Gene Number:                 1
Celera Gene:                 hCG14819 - 207000006862219
Gene Symbol:                 CYP1B1
Protein Name:                cytochrome P450, family 1, subfamily B, polypeptide 1;CP1B;GLC3A
Celera Genomic Axis:         GA_x5YUV32W5TR(48739308..48760487)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12161):
TTCTGTCAGACATAATTCCTCAGTTTAGCCTTCCCACCTCTATACAGTCTGATAACAGACCAGCCTTTATTAGTCAAATCAGCCAAGCAGATTTTCAGGC
TCTTAGTATTCAGTGAAACCTTTATATCCCTTATGGTCCTCCGTCTTCAGGAAAAGTAGAACGGACTAAAGGTCTTTTAAAAACACACCTCACCAAGCTC
AGCTACCAACTTAAAAAGGACTGGACAATACTTTTACGACTTTCCTTTCTCAGAAGTCAGACCTGTCCTCAGAATGCTACAAGGTACAGCCCATTTGAGC
TCCTGTATAGACGCTCCTTTTTATTAGGCCCCAGTCTCATTCCAGACACCAGACCAACTTAGACTGTGCCCCAAAAAAACTTATCATCCCTATTATCTTC
TGTCTAGTCATACTCCTATTCACCGTTCTCAACTACTCATACACGCCCTGCTCTTATTTACACTGCCGGTTTACGCTGTTTCTCCAAGCCATCACAGCTG
ATATCTCCTGGTGCTATCCCCAAACTGCCACTCTTAACTCTTGAAGTAAATAAATAATCTTTGCTGGCAGGACTGTGCTGAATCTCCTTAGGCACTCTCT
AATCAGATGTCCTGAGTTGTCCCAATTCTTAGACCTTTTATACCTGTTTTTCTCCTTCTCTTATTCCATTTAGTTTTTCAATTCATACAAAACTGTATCC
AGGCCATCACCAATAATTCTAAATGACAAATGTTCCTTCTAACAACCCCACAATATCACCCCTTACCACAAAATCTTCCTTCAGCTTAATCTCTCCCACT
CTAGGTTCCCACACCGCCCCTAATCCCGCTGAAGCAGCCCTGAGAAACATCGCCCATTATCTCTCCATACCACCCCCAAAAATTTTCGCTGTCCCAAAAC
TTTACCACTATTTAGTTTTATTTTTCTTATTAATATAAGAAGACAGGAATGTCAGCCCTCTGAGCCCAAGCAAAGCCATCATATCCCCTGTGACCTGCAC
GTACACATCCAGATCGCCGGTTCCTGCCTTAACTGATGACATTCCACCACAAAAGAAGTGAAAATGGCCTGTTCCTGCCTTAACTGATGACATTTTCTTG
TGAAATTCCTTCTCCTGGCTCATCCTGGCTCAAAAGCTCCCCCATTGAGTACCTTGTGACCCCCACTCCTGCCCGCCAGAGAACAACCCCCCTTTTTCCT
TTACCTTCCCAAATCCTATAAAACCGCCCCACCCCTGTCTCCCTTGGCTGACTTTCTTTTCAGACTCAGCCCACCTGCACCCAGGTGATTAAAAGCTTTA
TTGCTCACACAAAGCCTGTTTGGTGGTCTCTTCACACGGACGCGCATGAAATGTATAATGCTTTGTCAGCTCCAAATCATACCCTCAACTTTCCATTTTA
CATCTCCGAAATCTGGATGTATCTTAGAGTCGATGATGCAATTATAATTGGTAGCTTCCTTTCTTTATGTTAGTACATAAAAATAAGGGTGCATCCTACA
AATGATGGCTTCTGAGATTAGATAAAATACCTTTCTATTAGCTCTGTGGTTCTCTGCCTGTGTATTGCCAGGAGGAAGGAAGTGGAGCATTTCAGGTGAG
GCACAGGGTTTTGGTATCAATTCCTAAGATTCCTTTCATGGTCCAGCCCCTGGTGTGCATTATCCTACAGTTCCTCCCTCTATCGCACCCTCAGCCACTT
GGTGTGTCTCCTTATTTCTGCTCCTCTTGCCTACCAGCATGTGCCTGATGACTGAATCCTGCCCACCCAAATGTCAAGAGCCTGCCAGAGATGGCTTATT
CTCCTCCACTCTCCTCAGTGCATGTGGGTATGTGTGTTTGGAGATGACTGGAAAAGCACAGTGGCTACCCATTAAACTGACTTAGGGGTCACACTAGAGA
GGAAGACCATGAAGAAAACTGAGTTCCAGCCTGACAGCAGAAGGGCAGAGCTTTCTGGGCTACTGGCTCTAAGGGCAATGCATATATCTGCTGATTTAAA
ATAATAATAACAATAATGGCTTTGGGTTTCCTTAGGTTATCCTCCAACCCAAAGAAACCAGTGGGCAGACATGTATACATGGAGTGGACTGGGTCAGCTC
TTTGGCTTCCTAGCATGTTCTGCCATCTCTTTTTTTCTGATGACAGAACAAGCCCTTGCCCACAGGGTAAAAACCTGATGCCAGCCTGGCCCCCTGGAGT
CCTTCTAGGACCCTGGAAGAGAGCTGTTCTCTTTCTCTTTGTTTTGTTAATTTTAAGCTGCTTCCTTGCCATGCAAAGAGAGAAAGCCCAAGCAAAGACC
AGCATAGGCAGAGAGCCGGTAGAGCGGCCTGGGTCCTTGTATCCTGTGAAGCATCACGGTTATCCTTCTCTGCACATGGGCCAGTGCATTCCTGTTCTGC
TTAAACAAGCTTAAGTTGTTCCTTCGAGTCAATACAAKATAAGATATTTTAAACCTCTCTCTACTTTAAACTATCCCTCTAGCTTAGCTGTTCTTTTTGA
AAGTTATTTGCAACAAACAATTCAAGTTTGAGATTTGGGAGGGCAGAATGCCCATATTCTGTGTTGATTGAAAGGAGATTCCTGGGCCTTAGGTCCCTGC
TTTGGTTGAGAAGTTGTGATGATAATTAAAGAGCCTGCGTAGATTCTCACTAGAGGCAGGGCTCTGCCTTGAGTTGGGTCGGGGTGCCAACAGGCTGCTC
TGGATTTATCCGAAGTCCTTATCAGGGTACCGGATGGGGCATTCAATGAAGTTTGCACCATAAAGCCCTAAGAACTCCAGGCTTGAAGATTCTCTGCAAA
AAGTGTTACCATAGCCAGTCATTTTGGTTTGCCATAACYGATAAGGGCTTATCTTTCTGACAGCACTTACCAACCTASTTCCTCTGATTTTTGAGTCATG
TCCTAGAAAAAGAGCTGAGCCCAAGGAACTACAGCTTGGAGGATATATCTGATCTATCTGCGATGGCAGGAAAGCATGCATCTAGTTGATCTAAAAACTA
GATGGCATTATTGAGGAGTTGGACAGGCGGTCTTAGGAACAACCTCGTTTTATACTTTTTAAAAATAGGAATTTACTTAAAGGCAACTTCCATCTGCTCT
CATTCTGGCAGAGGTATTGTGATAAAGGCTTTCAGGAATGTCAACAGCTCAGGATTGGCATTAGCTCATAGATAATTCCCGTCTACTAAATTAAAGTCTA
TGAGAGATTGATGCATGCACCAGAGTCTTGAATTATTAGGCAAGGATCTTGCTAAAGCTGGACATGGGAAGGTTGCTATGAAACTCATTTCAAAGGCTGT
GTAGGCCAACTCACCTCTGGGAAACCAACGCTTATTATTAAACCAATGCAACTGCTCAAAAACTAAAACTCCATCACTATCTAAGTTCCCCATCATGGTG
TGTGAAATCATTTCCAGAAAACTCTTCAAAAGATACCGAATAAAAGGCATCACAGGCCGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGG
CCCAGGCTGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAGCATGGTGAAACCCCATCTCTACTAGAAAAATACAAAAATTAGCCGGGTG
TGGTGGTGCGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGCCAGGAGAACCTGGCAGGCGGAGGTTGCAGTGAGCCGAGATCACGCCATTGCACTGCA
GCCCAGGTGACAGAGTGAGACTCCATCTCAAAAAAAATAAATAAATAAAAATAAAAATAAAAAAAGCCATCACGAAAAGACATTTCTTTATCAGGTCAGC
AAATTGATTGCTGGTTTCAATCTCTCAAGAAGTCAGATTCTCTTCAGACACTCCTTTGTGTTTCTTTACAATGTAATCAGTCATTCCAGGGTCAGCTATG
AGGCACACTCCCCTGGCCTCCCTCATAAGCAATTTAATTGCAAAGGGTTAGCATACTATTTCTTCTCTGCTATTCTCAGAATTCTCAATTATGAAAACAA
AAACAATAATTAAAAAGTTCTTCCAGCTGATTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTTAAACTCTGCTGCCCAGGCTGTAGTGCAGTGG
TGCAATCTCTGCTCACTGCAACCTCTGCCTCCCACGTTCAACCAATTCTGCTGCCTTCCCCCCTGATCCCCGAGTAGCTGGGATTACAGGTGTGCACCAC
CACGTCCGGCTAACTTTTGTATTTTTAGTAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCGCCCGCTTAAGCC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTAGCCCCACGTGCATTTTTTTTTTTAAGGGAGGCAGGAAAGAAGGCATTTGGGCCTCTTAT
CTGCAATTTTCTTCCGTGTAAACTTATGTGAAGGATCTGGAGTGGGACTTGGTGGCTTCAAGCCCTGGCTCCACTTCTTGATGGCTGCGCGACCTGGGTT
AAGTCACGCAACCTCTCTGAACCCTAGTTTATTCATCTGTAAACAGGTCAATAATAGCACGAGATTCGCAGCGCGAGTGGAGCTCAAAGTGCAGGGTTGT
CCCTGGTGAACCTATCACTTTTATATTTATCCTTTGATGAAGCCAGTACAATTCCTACCTGGTTAACCAGATACATCCCACCTCTTCCCTCGAGTTCGCC
CTTCCCCCCGCCTCGTGAAGTCCTTGTTCTCTTAGCTGTCTTGAAAATCCTATGCATCAGCATGTAGGAAAGGGCGCGCCAGGCGGGGGAAGCCACCCCC
GCCCAAGCGCCTCCGGCTTCCCTTATAAAGGGAGGGCCCCCTTCGCGACCGCAAGCGCGCCCAGGAAGACCACAGAGCCGCCGGTGCGCASSGAGGTGGC
GATACGCGCCCGGGCTCGGCCTGCGGGTGGTGGCCCAAGCGTCCGCCTCGCTGGCCTGGCAGGCGCGACTGTGCGTGCGCAGCCGAGGGTGGTGGCGGCC
GGCACCCCACGCCAAGGGTGGTGGTGGCCGGCACCCCACCCTCGGCCGCCGCCTCCGCGTGTCAGGTGCCGTGAGAAGCGCGGGAGGAGCGGCCGCAGGC
AGCGCCCAGGGATATGACTGGAGCCGACTTTCCAGAAGCGGCGCACGCAAAGCCCAGCTCCGCACGCAAAGGGGAGGCGACASSAGAAACTTCAACCCGA
TAAAGTTCGCCGGAGCGCGGAGATTCGCCTCCTCCTGCCACTCTCCGCCCCGCTCGGGTCCCGCCCCGCTAGCTCCCCCAGGCCCCCCCAGTCGCCCCAG
CTTGGCTCCCCGCCCTGCGCCAACGGCTTCCATCGCAGCCTGGGCGGCCCCGCGCCCACCAGCGGGCGGCGCCACCTGGAGTGGCCTCTACGCGGGAAAT
CTCAGGGCCAGCTGCGCCCCAGGAGCCTTTGTGTGCCCAAGCACTGTCGGGGCCCCGGGGCGGGGGAGCGGCTACTTTTAGGGATTCCTGATCTCGCCGC
AAGAACTGGAAAAAATTTAGCATGCCAAAGAGCCTCCACTGAGGTGGCAATTTGTTTGCGAGAACCTAAGATAAAATTTAAACAACCAACCAGGGGCGCT
GTGAGGCAAACCGCTGCCACTACACTGGCTTTCCGGGAAGCAAGCTCAAGTCGCGGAGAGGGAAGGGAGGTCGTGCGCTCGGGGCGRGGCGCGCTCCCAA
GTCGAGCGCAGCGGCCGGGGCAGGTTGTACCGAGCGTGGTTCTGGGGACACCGTGCGGCCTYGATTGGAGGTGGCTGTGATGAAGCGCGGTTACCGCACA
ATGGAAACGTGGGCACCTCCGCTCCCATGAAAGCCTGCTGGTAGAGCTCCGAGGCCGGCCGGTGCGCCTGGACGGGAGTCCGGGTCAAAGCGGCCTGGTG
TGCGGCGCGCCCCGCCCCCCGCAGGCCCCGCCCTGCCAGGTCGCGCTGCCCTCCTTCTACCCAGTCCTTAAAACCCGGAGGAGCGGGATGGCGCGCTTTG
ACTCTGGAGTGGGAGTGGGAGCGAGCGCTTCTGCGACTCCAGTTGTGAGAGCCGCAAGGGCATGGGAATTGACGCCACTCACCGACCCCCAGTCTCAATC
TCAACGCTGTGAGGAAACCTCGACTTTGCCAGGTCCCCAAGGGCAGCGGGGCTCGGCGAGCGAGGCACCCTTCTCCGTCCCCATCCCAATCCAAGCGYTC
CTGGCACTGACGACGCCAAGAGACTCGAGTGGGAGTTAAAGCTTCCAGTGAGGGCAGCAGGTGTCCAGGCCGGGCCTGCGGGTTCCTGTTGACGTCTTGC
CCTAGGCAAAGGTCCCAGTTCCTTCTCGGAGCCGGCTGTCCCGCGCCACTGGAAACCGCACCTCCCCGCAGGTCAGTCTGTCTGCCGAGGCGCTGCCCGG
CGACCTCTTCAGATGGATTATTACAGGTAGCGGGTGGCGTGGTAGGTACTTTAAAGGAAATCAAGCGCCACCGCCTCGATGCCCGCAGCGTTGTCCCCAR
ATTGCAGGAACCGTTACGCGCCTTGCGGGGAGGGGAAGGGTTTGGCGCTGGGTTACAGCGAGGTGGAAACACGCCCCTTCTYTTCTCCAAGGGAGAGTGG
GTTGGGGATGGGAAGGGGCGTCTTCGGCCATTTCTCCAGAGAGTCAGCTCCGACCTCTCCACCCAACGGCACTCAGTCCCCAGAGGCTGGGGTAGGGGCG
TGGGGCGCCCGCTCCTGTCTCTGCACCCCTGAGTGTCACGCCTTCTCCTYTCTGTCCCCAGCAYGGGCACCAGCCTCAGCCCGAACGACCCTTGGCYGCT
AAACCCGCTGTCCATCYAGCAGACCACGCTCCTGCTACTCCTGTCGGTGCTGGCCACTGTGCATGTGGGCCAGCGGCTGCTGAGGCAACGGAGGCGGCAG
CTCSGGTCCGCGCCCCCGGGCCCGTTTGCGTRSCCACTGATCGRAAACGCGGCGGCGGTGGGCCAGGCGGCTCACCTCTCGTTCGCTCGCCYGGCGCGGC
GCWACGGCGACGTTTTCCAGATCCGCCTGGGCAGCTGCCCCATAGTGGTGCTGAATGGCGAGCGCGCCATCCACCAGGCCCTGGTGCAGCAGGGCTCGGC
CTTCGCCGACCGGCCGKCCTTCGCCTCCTTCCGTGTGGTGTCCGGCGGCCGCAGCATGGCTTTCGGCCACTACTCGGAGCACTGGAAGGTGCAGCGGCGC
GCAGCCCACAGCATGATGCGCAACTTCTTCACGCGCCAGCCGCGCAGCCGCCAAGTCCTCGAGGGCCACGTGCTGAGCGAGGCGCGCGAGCTGGTGGCGC
TGCTGGTGCGCGGCAGCGCGGACGGMGCCTTCCTCGWCCYGAGGCCGCTGACCRTCGTGGCCGTGGCCAACGTCATGAGTGCCGTGTGTTTCGGCTGCCG
CTACAKCCACGACGWCCCCGAGTTCCGTGAGCTGCTCAGCCACAACRAAGAGTTCGGGCGCACGGTGGGCGCGGGCAGCCTGGTGGACGTSATGCCCTGG
CTGCAGTACTTCCCCAACCCGGTGCGCACCGTTTTCCGCGAATTCGAGCAGCTCAACCGCAACTTCAGCAACTTCATCCTGGACAAGTTCTTGAGGCACT
GMKAAAGCCTTCGGCCCGGGGCCGCCCCCCGCGACATGATGGACGCCTTTATCCTCTCTGCGGAAAAGAAGGCGGCCGGGGACTCGCACGGTGGTGGCGC
GCGGCTGGATTTGGAGAACKTACCGGCCACTATCACTGACATCTTCGGCGCCAGCCAGGACACCCTGTCCACCGCGCTGCAGTGGCTGCTCCTCYTCTTC
ACCAGGTAAAGCCTCTGGGAGGCGTGGGCCAGGTCTTTTCTCCTCTGAAAAAGGCGGAGTAGAGACAGAATATGCTGAGTTTGCAAGCAGGGCCCCGGGT
TTGGGGTTTCGCTCCAGGTCCCCACCCCTCAAAACCAAGATCGCGTCGGTAAAGGGACTCACAGTGAGGGCTGCGACACGCGCACGCGCCCCACCCAGCG
GTGCCCCGACCCCTCCGGTCTCCTATCTTGTCTCTATCGTCCCCTCCCCTGCTTGCGAGTGAGAACACATTTGCAAAGAYCCCTCCACCCCCCGGAAAAA
CAAGAGTTTTTAAATGCTTGGAGATGAGCCCTGATATCTCTCTCCCTGGCGCATTACAATCAGAACTGGAATAGTTCCGAAAGAAAAGGTAATGTCATAA
ATATGTTAAACACAGCAGCCTCTCCTAGGCTAGTCCTCGGCGTGCATCCGAGGCCGCCCAGCCCTGGCGCTAAAAGCGGGCCGCCCGTCAGGGCTTTGTT
CCAGGCCAAGGAAGCCCATGGAGGCCGGGCCAGCCGACAGGTAACCCGCACAGAAACTTTCAGAAGGCGGCCACAACTAGCGGGCAGCGCTAGGTTTATA
AAACCTCCGCGCTAGGAGTTTGAGAAATGCCGGGGTAGAAGACAAGAAGCAGTCACTTTTACGAAAGCAGAGTAGCATTCAGAAAGGCAGATGGGATATC
CAGGAGGCGCCTGCAGACGTTTCTGGCCCCTGCGCTTGGCTCAGTTAGCGGACCCCCTGATGCCCACGTTGGTCTCTACTAAGCACGGATTCAACAGGTC
CCTGGTGTCGGGTTGCCAGATTTGGCAAAAGAAAAGTAAGTTTTACACGGGAATACTCACACTAAAAGATTAGCCCTTGTTGATCTGAAATCCATATTTA
ACTGGGCGGCCTGTAGTATTTACTGTGGAAACACTATCCCTAGGGGCAAATGTTTCGCAAGGCAAATTTTGATTGCCGAAGAGACCAGAAATCCTGGTTT
TGTGTCATTTCTTGGAGCACAAGTGAGCAGTTGGAGATGCTGAATCTGCAGGCGCCACAGAAAGGTGTTTGGAAGGCAGAGAATGACTCTTTCCTTATTA
AAATCCACTGCAATCTATATTTCCTTAGATACTGTACAGCTACCTTCACAAATTAAAAGTTTCTGTATACTTAAAATGGCTTTTTAGTATTAAAATCATA
GAAACACCCATGGTGGGTGAGGGAGAGGCAGAAATCGAATAAAGAAAAGTCAACCAGAGATCAGGGAAAAGGAAATCCCGGAATAGGTTCCATAGGTTTT
TGTGCATCCGCAGATAGGCATTTTAACTTTTGAAACGGCCTTTGTTTTTCATTAGAACCACAATAGTTCTCCGAGTACTCCAATTAGGCGGCAAAAAGAA
ATAAAACAATTTGGAGGTCACTTTCAATTCAATATGCTGATACTTTTTTTTCCTTTTTAGTGAAAAGACGTATGACAGGGCTTGGCAAATTACACGATCT
GTTTTTGTATATACGTTTTATTGACGCAGTCATGCCCATTCATTTATACATTGTCGATGGCTGCGTTCACTCTACAACACAAGGCAGAGCAGAGTAGTGC
AACAAAGAGGGTTTGGTCCACAAAGTCTAAAATAGATACTCTCTGGCTCTCCCCACCATACATGTTTCTATGAAAAAAGTTGGCAGACTCCTGCAATATA
ATGTTGAAGAAGCGATTCTAAAAATAACTCCACTTCATCACATACGTGTATACATTTTTTTTCGGAGTTGCAAACAATCAGTTACTTGTTTTTTGACTTC
TAACACTTTGACTCAAGGTAGTGGACATTTCTAATCTTTTAATATTTATTTTGGTAATTTTTGATGGCTATATAGTATTTTGCTATGATAATGTATAGTT
ATATATAATCATTTATTGAACTTTAATGTTGGTCATTGGCCTTGATTGCATTTTTAAAATTTTTATTTTAATTTTATRTATTTACTTACCTTAGAGACAG
GGTCTCACTACCTTACCCAGGCTGGTCCCAAACTCCTGGGCTCAAGCAGTTCTCCCGCCGCTGTCTGGCAGGTAGCTGGGGCTACAGGCGTGTACCACCA
TGCCTGGCTAATTTTTAGAATTTTAGGTCCTGTTGTGGTTACATATTTTTGTATCTCTTAAATTATTTTCTGAAAATACATTTCTAGGCATGGATTACTG
GGTTTAAAATGAGGCGGGAAGAGGTTACCTTCATGTCTCTTGCCTCGTATTAAGATTTTGTTTTTTAAAAAGATTGTATCAGTTTGTATCATCAACAGTG
AATAAGTACTACAGTTTGTACCATAATTTTATGAACATTGGGTATTTGCTTTCAAATTTAAAAAATACAGTATGTAGCTTTATCCATCAGGACACCAATT
ATCTTTGTATAAAATGAGAACAGCATGTCTGTTGGAATTGTCCAGGGAAATGAGGGAGAAAAAAAATTTACTTTCACATTGTAACTTTCGTGGGCCCTGG
GTGCTTTTGCCTTTGTAGATTCCTTATACTATAAAAAAATTAAAAATTAAATTTCATGACTACCCTGATATAAAGATGAATGCATTAAAATGATGTATGA
AAATATTTTCTTCTAMCTAAAAGTGAGTTTTTTTAGGTCTGAAGATTGTAAAAGACGTAAAAATATTTTCATGGGCCCCTAAAAAGTGTTGTGAGCCCTA
GGCACTGTCCCTGCGGTACCCAATGGAAAAGTCAGCCTTATCTACTATTGTGCTTTTTGAGGCTGGGAAAACTTAAGAGTTTTTTGACTTATAATGGGAA
AGACAGCATTAGTCATGCAAGGCCTATTACAGGAAATATAATTCTTAAAGTCCATCTTGTAATTTAGTGAGAAATTAGGAAGCTGTTTTAGATTTTTTTT
CCCAGAAATATTAATTTAGTCACTGAGCTAGATAGCCTATTTAAGAAAAAGTGGAATTAAAATAAATTATAATGTGCTTTCTAGATGAAATAAGAATTTT
GCTCACTTGCTTTTCTCTCTCCACATTAAACACCAAACAGGTATCCTGATGTGCAGACTYGAGTGCAGGCAGAATTGGATCAGGTCRTGKGGAGGGACCR
TCTGCCTTGTRTGGGTRACCAGCCCAACCTGCYCTATGTCCTGGCCTTCCTTTATRAAGCCATGMRCTTCTCCAGCTTTGTGCCTGTCACTATTCCTCAT
GCCACCACTGCCAACACCTCTGTCTTGGGCTACCACATTCCCAAGGACACTGTGGTTTTTGTCAACCAGTGGTCTGTGAATCATGACCCASTGAAGTGGC
CTAACCYGGAGAACTTTGATCSAGSTCRATTCTTGGACAAGGAHGGCCTCATCARCAAGGACCTGACCAGCAGAGTGATGATTTTTTCWGTGGGCAAAAG
GYGGTGCATTGGCGAAGAACTTTCTAAGATGCAGCTTTTTCTCTTCATCTCCATCCTGGCTCACCAGTGCGATTTCAGGGCCAACCCAAATGRGCCTGCG
AAAATGAATTTCAGTTATGGTCTAACCATTAAACCCAAGTCATTTAAAGTCAATGTCACTCTCAGAGAGTCCATGGAGCTCCTTGATAGTGCTGTCCAAA
ATTTACAAGCCAAGGAAACTTGCCAATAAGAAGCAAGAGGCAAGCTGAAATTTTAGAAATATTCACATCTTCGGAGATGAGGAGTAAAATTCAGTTTTTT
TCCAGTTCCTCTTTTGTGCTGCTTCTCAATTAGCGTTTAAGGTGAGSATAAATCAACTGTCCATCAGGTGAGGTGTGCTCCATACCCAGCGGTTCTTCAT
GAGTAGTGGGCTATGCAGGAGCTTCTGGGAGATTTTTTTGAGTCAAAGACTTAAAGGGCCCAATGAATTATTATATACATACTGCATCTTGGTTATTTCT
GAAGGTAGCATTCTTTGGAGTTAAAATGCACATATAGACACATACACCCAAACACTTACACCAAACWACTGAATGAAGMAGTATTTTGGTAACCAGGCCA
TTTTTGGTGGGAATCCAAGATTGGTCTCCCATATGCAGAAATAGACAAAAAGTATATTAAACAAAGTTTCAGAGTATATTGTTGAAGAGACAGAGACAAG
TAATTTCAGTGTAAAGTGTGTGATTGAAGGTGATAAGGGAAAAGATAAAGACCAGAAATTCCCTTTTCACCTTTTCAGGAAAATAACTTAGACTCTAGTA
TTTATGGGTGGATTTATCCTTTTGCCTTCTGGTATACTTCCTTACTTTTAAGGATAAATCATAAAGTCAGTTGCTCAAAAAGAAATCAATAGTTGAATTA
GTGAGTATAGTGGGGTTCCATGAKTTATCATGAATTTTAAAGTATGCATTATTAAATTGTAAAACTCCAAGGTGATGTTGTACCTCTTTTGCTTGCCAAA
GTACAGAATTTGAATTATCAGCAAARAAAAAAAAAAAAGCCAGCCAAGCTTTAAATTATGTGACCATAATGTACTGATTTCAGTAAGTCTCATAGGTTAA
AAAAAAAAGTCACCAAATAGTGTGAAATATATTACTTAACTGTCCGTAAGCAGTATATTAGTATTATCTTGTTCAGGAAAAGGTTGAATAATATATGCCT
TGTNTAATATTGAAAATTGAAAAGTACAACTAACGCAACCAAGTGTGCTAAAAATGAGCTTGATTAAATCAACCACCTATTTTTGACATGGAAATGAAGC
AGGGTTTCTTTTCTTCACTCAAATTTTGGCGAATCTCAAAATTAGATCCTAAGATGTGTTCTTATTTTTATAACATCTTTATTGAAATTCTATTTATAAT
ACAGAATCTTGTTTTGAAAATAACCTAATTAATATATTAAAATTCCAAATTCATGGCATGCTTAAATTTTAACTAAATTTTAAAGCCATTCTGATTATTG
AGTTCCAGTTGAAGTTAGTGGAAATCTGAACATTCTCCTGTGGAAGGCAGAGAAATCTAAGCTGTGTCTGCCCAATGAATAATGGAAAATGCCATGAATT
ACCTGGATGTTCTTTTTACGAGGTGACAAGAGTTGGGGACAGAACTCCCATTACAACTGACCAAGTTTCTCTTCTAGATGATTTTTTGAAAGTTAACATT
AATGCCTGCTTTTTGGAAAGTCAGAATCAGAAGATAGTCTTGGAAGCTGTTTGGAAAAGACAGTGGAGATGAGGTCAGTTGTGTTTTTTAAGATGGCAAT
TACTTTGGTAGCTGGGAAAGCATAAAGCTCAAATGAAATGTATGCATTCACATTTAGAAAAGTGAATTGAAGTTTCAAGTTTTAAAGTTCATTGCAATTA
AACTTCCAAAGAAAGTTCTACAGTGTCCTAAGTGCTAAGTGCTTATTACATTTTATTAAGCTTTTTGGAATCTTTGTACCAAAATTTTAAAAAAGGGAGT
TTTTGATAGTTGTGTGTATGTGTGTGTGGGGTGGGGGGATGGTAAGAGAAAAGAGAGAAACACTGAAAAGAAGGAAAGATGGTTAAACATTTTCCCACTC
ATTCTGAATTAATTAATTTGGAGCACAAAATTCAAAGCATGGACATTTAGAAGAAAGATGTTTGGCGTAGCAGAGTTAAATCTCAAATAGGCTATTAAAA
AAGTCTACAACATAGCAGATCTGTTTTGTGGTTTGGAATATTAAAAAACTTCATGTAATTTTATTTTAAAATTTCATAGCTGTACTTCTTGAATATAAAA
AATCATGCCAGTATTTTTAAAGGCATTAGAGTCAACTACACAAAGCAGGCTTGCCCAGTACATTTAAATTTTTTGGCACTTGCCATTCCAAAATATTATG
CCCCACCAAGGCTGAGACAGTGAATTTGGGCTGCTGTAGCCTATTTTTTTAGATTGAGAAATGTGTAGCTGCAAAAATAATCATGAACCAATCTGGATGC
CTCATTATGTCAACCAGGTCCAGATGTGCTATAATCTGTTTTTACGTATGTAGGCCCAGTCGTCATCAGATGCTTGCGGCAAAAGGAAAGCTGTGTTTAT
ATGGAAGAAAGTAAGGTGCTTGGAGTTTACCTGGCTTWTTTAATATGCTTATAACCTAGTTAAAGAAAGGAAAAGAAAACAAAAAACGAATGAAAATAAC
TGAATTTGGAGGCTGGAGTAATCAGATTACTGCTTTAATCAGAAACCCTCATTGTGTTTCTACCGGAGAGAGAATGTATTTGCTGACAACCATTAAAGTC
AGAAGTTTTACTCCAGGTTATTGCAATAAAGTATAATGTTTATTAAATGCTTCATTTGTATGTCAAAGCTTTGACTCTATAAGCAAATTGCTTTTTTCCA
AAACAAAAAGATGTCTCAGGTTTGTTTTGTGAATTTTCTAAAAGCTTTCATGTCCCAGAACTTAGCCTTTACCTGTGAAGTGTTACTACAGCCTTAATAT
TTTCCTAGTAGATCTATATTAGATCAAATAGTTGCATAGCAGTATATGTTAATTTGTGTGTTTTTAGCTGTGACACAACTGTGTGATTAAAAGGTATACT
TTAGTAGACATTTATAACTCAAGGATACCTTCTTATTTAATCTTTTCTTATTTTTGTACTTTATCATGAATGCTTTTAGTGTGTGCATAATAGCTACAGT
GCATAGTTGTAGACAAAGTACATTCTGGGGAAACAACATTTATATGTAGCCTTTACTGTTTGATATACCAAATTAAAAAAAAATTGTATCTCATTACTTA
TACTGGGACMCCATTACCAAAATAATAAAAATCACTTTCATAATCTTGTTATGAAGTTTTATGTTGTAGCAAATAYAGTCTAATGTATCACTTTATTTCA
ACTATTACTATGGATTATTCAATTAAAATATTGCACTGTAAACATTTTATTTGTCCATTCTACATTTCAGGCCGAGGCCACATGCTTTTTTTTCCCGTAG
GTTTTCATCAACCAAATTTCTAATCTCTATATTTTTGAATTTCTAAGAACCAACACGGAGGTTACATTTCAATCAAACAATCAAGCCAAATGAGAATTAA
TTTGCAATGTTGAAAGATTGAATAGATTGCGACTTTAAGTTGCTGATCGATTTCTGCTTCATCTAAAGAATGCAGTACACATTTTTCTTCCTCAGCCTCA
TACCAGTCCTTTCTCTGAGTATTTTCTTCTTTCATTTTTTTAAAGGTACATGTGCCTCAATTAGTGCAATTAATGTCCAATAAAATAAGATGGGTACAAG
TATTCTGTCATGTACTATGTGGAAATGTTTTATTGCCAATCTTTTTACTTGGTAAAAATACTTGACTTCACAGGGCCTAGGTCATGACTCTCCAGGCCTT
CACTGTGCCACACTCACAGATGACAGGGCTTGCGGTACCAAAGGCTCTTTATCTTCCAGACTACAGCTCCTATTAATGTGAAAACAGGAAAAGAAGTAAA
AATTGCACAAAATGGCATTGAAACTTTGGCGTGGGAACCTCACTTTAGCAGCCAGAAGGTATGGCTATGGAGTGGTTTAAGAGAATACTCACTAGTTTTC
CAGATGTATGACAGTAGGATCTTGGAAATGTCAGGACAGTTAAGAATAAGTGAAGGAAATATTTTCATGGGAAAAATATTCCTTTAAATAATTATAATTG
GGGCCAGTTTTTGCACAACTGTCTAGCAGAGTTGGATTCTACCCAATCAATCCAACAGAGTATAAGACCGGAGTACAGGGTGGGAAATGAATGCAGCTTT
GGACATAAGTAAGACAGGCGTGGTTGTTAGAAACTCACAGAGGTTGTTTCTTCAACCTCAACGCCAGTCTGTTTTTCTGCACCAGTGCAACAGAAGTTCA
CTGGCTGTTAACTCTCCGTTTTTTGGCTCAGTGACTCTCACATGCTCTCTGCTCTCCAGTTTCAGTCTATTAGTTATAAATCTCAGAAAGTGAAAAGGAA
AGAAGAAAAAAATTAAATATATTCAAATACATTTAAAAGCAATTTTTTTAACTTGGAATTATGGAGGAAAATAATCTAGTTTACATAGGTATGGACACGC
TATGGGTAACAGCTCATGCTTGTAGCACCTCTGCTAAGCGACATACAGGCTTTGAGGACAAATGCTGTGCTCTTCATGCACACTTTTCAACATGTGTCAG
ATATGGAGGGAAGAAATGGAACTAAAATATGTTGAGCACTTACAATTTTTGCATCACTATGCTAAACTCTAATGCATTATTGCCTAACAGTCTTCAGAGG
GATGCGATAAAGTAATGGGCCAAAATTATATATTTAGAAGTATTCTCATCCAGATTTTCCCTGGAGATGAACTAATTCAAAGCCCATTATCTTTGTACCC
TAGTTTGTCCCTTCCCAGTGTGCCTGTGTTTGGATTTATAGGGTAGTCCGTCTATTTTTTTAGGCCATAAGATCCTGGGAGTTTCGCAAGCAATTTACTT
CCTTTGTCTAAGGCACATTCCACACTACAGACAGGCAGTAACTGACATTGTGCGGGAATCCTCACCACACTGCTCTCTTCTGAGAAAAGCCCCTTTAAAC
TGTTCTTTAGGCAAAACCAAAAGCCAAACAAACAAGCAGTCATGCTTTGTCTTATAATCCTAAAACTTCTGTCCTAGAACCTGTCTGGACCAAGGTTCCT
TGTTGGAGCCAGGGCCATCCTTAGGCTGGTCCAGTTTCCTGGGACATGGCCTGTCCATCTGATAGCCATGCATCACCTAAGTGTTGGTGTATGTGGCTCA
TCAGAACCCTTCCGTCTCTCAGAGCCCGTGAACACTGGCCAGAGGGAGAGAGAAGAACCAAGGCACGAAACAAGCTTTTTGATGGGAAGCTTGCCTTTGC
AAACAGAATGACTGGACCTACCAGAACTAGTTTTGAATCATTTGAGGCCCCTTTAGGTGAGACAATGTTATACAGTAGAAGCCTAACAGCACTGAGATCC
CTTTGGGTCAGAGCTAAGAGTCATTGAGCAAGCCCGAAAAATCAGCCAGCCTCTTTCTTTTTCTTTTTTTTTTTTAAATTTATTCCTATTTCCTTACATT
TGTTTCTCTCTCTCTCAATGGATAAGTATTACAATATGCTTAATATGCACTTTTTGTTTGCGTGTTCCAGCAAAATTTGTATTATTGTTTTGAATATATA
TGTTTTACTTTATGTAAGTGCTGTACATATCTCATCCTGTTGCTTAATCTTTTCTCAGCTCCATCCCTGTGTAATTCCATAGCTTATAGCTGCTGCCTAG
TATTCCATGGTACTTATCCACCACATTTTTTCTATCCACTCTCTTGGGAATAGATACCTGGATAACTTCCAACTTTGTGAGCCCCTAAATGATGCAGCGA
GGAACAGCTTGGTATGTGTTTACTTGCCCTCCTATGTAAACTTTGTAATGCATGCCATACGCATGATTAGAAGTGTTGGGTCAGCAAGTGAGTGCGTTAT
GTAATTTAAATATTGCATGTTCTCCAGAATGCCAAATCTGTCCACACTCCCATCAGCTGTGCATGAGGGGAAGCTGTACCCACTTCCCCACCAACACATG
GCATGACCTCTTTATTTTTAAATGAAATATATCCTCTTGGGAGAGAGATGCATTACATAGATTTTTTTTTTTTTAACGAGGAAAAAGACATCTACCCTCA
TTTTTCAATACTTCCCATAGTCATATTTGTGTTTACATCATATCTCCACTATTCGATGGTATATTCATTGAAAAGCAGGGACTAAGTCCCAACAATTTTG
TTATGGAATCATATTGTATATACAGAAGCAAGGGTGAAAAAAGGGGAGTGAGTTTTGTCGCACCTGCTTCTCAGCACTGATGATCTCTTCGCCTTCTCCA
TGACTCAGTTTTCAATTGGTACTCTTGAAGTCTAACCTGTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCC
ATGGTATGATCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGTCTCAGCCCCCCGAGTAGCTGGGACTACAGGCATACACCACCATGTCT
GGCTAATTTTTGTATTTTTAGTAGACACGAGGTTTCACCATGTTGGTTAGGCTAGTCTCAAACTCCTGATCTACCCGCCTCGGACTCCCAAAGTACTGGG
ATTACAGGTGTGAACCAATGCACCCGGCCCCTAATCTCAGTTTCTTCTCTTTGCTTACAAATTGAGCTTATTCAAGGTTTTTAGGTTTCTGCTTAGTCAC
TATGAAGAAAGCAGAAATGCCAACTCAATGGCTTCCAATTTTTTAAACCATAGCCTCACAGTATGCAATATATTTTACATGATTTAGTACATATCTCTAC
ATGTGATTGTGTGTACTTCATAGATATATATTTATGTATGTATATATACACACACACACATACACACACACAAACAGGATTCACTATTTTCTGTGATGGA
ATATATTTTTAAATTTTTTTCATAAGAAATGCAGCACAGTGAAATACTACTACAAACCTATCATAGTGGCTAAATTTTTAAAAAAATGACAAAACTGATA
ACATATACCAAGTATTGGGGAGGATGTGAAACTACTGGAACTTTCATACATTGCTTGGGAAAGTGCAAAATGCTACAGTATGAGAAGTGTCTGTTCATAT
CCTTCGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGT
TGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCA
ATTTTGGCTTTTGTTGCCATTACTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTT
TTATGGTTTTAGGTCTAACATTTAAGTCTTCAATCCATCTTGAATTAAAAACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCA
AAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCGATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACT
TTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCGTTGTAGAAGTCAGTGTGGCGATTCCTGAGGGATCTAGAACTAGAAATACCATTTGACCCAGCA
ATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACATGTATGTTTATAGTGGCACTATTCACAATAGCAAAGA
CTTGGAACCAACCCAAATGTCCAACAACGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAACCATAAAAAATGATGAGTT
CATGTCCTTTGTAGGGACATGGATGAAACTGTAAACCATCATTCTCAGCAAACTATGGCAGGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGGT
GGGAATTGAACAATGAGAACACATGCACACAGGAAGGGGAACATCACACACTGGGGACTGTTGTGGGGGGTGGGAAGGGGGGAGGGATAGCATTTGGAGA
TATACCTAATGCTAAATGACAAGTTAATGGGTGCAGCACACCAACATGGTACATGTATACATATGTAACAAACCTGCACATTGTGCACATGTACCCTAAA
ACTTAAAGTATAATAATAATAAAATTWAAAAAAAATGCTACAGTATGACCCCACTCCTGGGTATTTATCCTAGAGAAATGAAAACACATTCACACAAAAG
CTATACATGAATGTTTACAGCAGCTGCATTCATCATGACTTCAAACTGAAAACAACCTAAATTTCCTTCAAAGGGCAATTAGTTATACAAAATCTGTTAC
ATCCACCCAATGGAATACTACTCGGTAATAAAAAAGAATGAATCATTGATACACACAACAACTTGAATGAATCTCAAGGGAATTATGTTGAGTAAAATAA
GTCAGCTTCAAAAGGTTACACACTGCACAATTCCATTGCTACGACAGCCTCTGAGAGACAAAAGTGTCATGATGAAGAGTAGATCATTGGTTGTCGAGGG
TTAAAGGGGAGGGAGAGTACTACAAAAGGATAGCCTGGTGGAGTTTTGGAAGGTTTTCTGATTGTGACAGTGGTTACATGGATGTATACATGTGTTAAAA
TTCACACAACTACACCAAAAAGTGATGAAAAGTGATTGGAAAAAATGTTAAAGGGGAATTGGTGCAAATGAACTTAAGTGAAGCTGAACTGACATTGGCA
GGTAGCATGGCAGCTGCTGGCAGACAAGGAAACGAGATGGCAACACTGAACAAAGAAGGTCAGGCCTAGAGATGTGAACAAGGATCATGGCCTGTGCTGA
AGTCCTTGCAGGAGAGGTAAAGTGGTGCCAGATTCTCAGAGCAGAACAGGAGGCAGAATACCAGCCTTTGGGATGAGCAACAGCTGGAACCTCCCAGCCG
AGGCAATTTTAATTCAATGTCATAAGTGTTAATTGAGCACCTATTAGTAGGCAGACACTGTTTGGGGCACTGATGATATAATAATGAACAAGGCACCCAG
GCCCTGACCTCATGGAGCTGATATTCTAGTGGGATGGGTGGCAGGAGAGAAAATAAGATTTCAGTTAATTATAAGTGGTATATGTGTGTATGTGTGTATG
TGTGTGTGTGTGTGTGTGTACTGTGTGTGAGGGGGCACTGTTTAGAATGAGTAGTCAGGGAAGCCTTCCTGAAGGAGGCAACACCAAGGGGTGGGCATTA
AGGACAAGCTTCCTCTTACATCCTCTCCATGTGAAGAAAATACAGGCACTGAGTTACCAGATAGTATAATTACCTTAAAAAAAAAAGAGGGTTGCAATTC
ATTAAATTGATTTTTATGGTCACAAAATCAGGGCAGTCTGAAGTAAAATAATCTCAGCGCACTCCACAGCAGATGACATTGGCCCATAATCAGCACTGGC
TTCTGGCTTGGCCGATGGCACTGGTGGGTCCAGACCGTTCCCTGCCATTGACTCTTGAGCTCATTCCAATCATCTTCCCCTTGGAGCACTGAAGCAAATC
TGATAACTCAGTGCCTGCATTTCCTTCACATGGGGAGGATGTAAGAGGACACTTGTCCTTAATGCCCACTCCTTGGTGTTGCCTCCTTCAGGAAGGCTTC
CCTGACTACTCACTTGTTCCTAAAGAATAACCAGAGAACAAACAGGCTCTTGGAACTAACATACTTTTCAACAATGCCTTTAAATATAATTTAAAATGGC
CTGATGATTCTTTAATTTTATGTGCACCAAAGGACTCCACACTGATTCTTTTAAGCACTTAATGGAACTTCTCCTGGAA


SNP Information

Context             (SEQ ID NO:12604):
GGCAAAAGGCGGTGCATTGGCGAAGAACTTTCTAAGATGCAGCTTTTTCTCTTCATCTCCATCCTGGCTCACCAGTGCGATTTCAGGGCCAACCCAAATG
R
GCCTGCGAAAATGAATTTCAGTTATGGTCTAACCATTAAACCCAAGTCATTTAAAGTCAATGTCACTCTCAGAGAGTCCATGGAGCTCCTTGATAGTGCT
Celera SNP ID:            hCV27859809
SNP Position Genomic:     11293
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12605):
CTGCTACTCCTGTCGGTGCTGGCCACTGTGCATGTGGGCCAGCGGCTGCTGAGGCAACGGAGGCGGCAGCTCCGGTCCGCGCCCCCGGGCCCGTTTGCGT
R
GCCACTGATCGGAAACGCGGCGGCGGTGGGCCAGGCGGCTCACCTCTCGTTCGCTCGCCTGGCGCGGCGCTACGGCGACGTTTTCCAGATCCGCCTGGGC
Celera SNP ID:            hCV27540473
SNP Position Genomic:     6932
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12606):
GCATTCAATGAAGTTTGCACCATAAAGCCCTAAGAACTCCAGGCTTGAAGATTCTCTGCAAAAAGTGTTACCATAGCCAGTCATTTTGGTTTGCCATAAC
Y
GATAAGGGCTTATCTTTCTGACAGCACTTACCAACCTAGTTCCTCTGATTTTTGAGTCATGTCCTAGAAAAAGAGCTGAGCCCAAGGAACTACAGCTTGG
Celera SNP ID:            hCV11642659
SNP Position Genomic:     2839
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12607):
TCTTCACGCGCCAGCCGCGCAGCCGCCAAGTCCTCGAGGGCCACGTGCTGAGCGAGGCGCGCGAGCTGGTGGCGCTGCTGGTGCGCGGCAGCGCGGACGG
M
GCCTTCCTCGACCCGAGGCCGCTGACCGTCGTGGCCGTGGCCAACGTCATGAGTGCCGTGTGTTTCGGCTGCCGCTACAGCCACGACGACCCCGAGTTCC
Celera SNP ID:            hCV25473489
SNP Position Genomic:     7326
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,7)   caucasian(C,38)   total(A,3|C,45)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12608):
TGCTCACTTGCTTTTCTCTCTCCACATTAAACACCAAACAGGTATCCTGATGTGCAGACTCGAGTGCAGGCAGAATTGGATCAGGTCGTGGGGAGGGACC
R
TCTGCCTTGTATGGGTGACCAGCCCAACCTGCCCTATGTCCTGGCCTTCCTTTATGAAGCCATGCGCTTCTCCAGCTTTGTGCCTGTCACTATTCCTCAT
Celera SNP ID:            hCV918707
SNP Position Genomic:     10900
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,33)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12609):
TCGGCTGCCGCTACAGCCACGACGACCCCGAGTTCCGTGAGCTGCTCAGCCACAACGAAGAGTTCGGGCGCACGGTGGGCGCGGGCAGCCTGGTGGACGT
S
ATGCCCTGGCTGCAGTACTTCCCCAACCCGGTGCGCACCGTTTTCCGCGAATTCGAGCAGCTCAACCGCAACTTCAGCAACTTCATCCTGGACAAGTTCT
Celera SNP ID:            hCV25472256
SNP Position Genomic:     7491
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,30)   caucasian(G,40)   total(C,6|G,70)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:12610):
TCGGTGCTGGCCACTGTGCATGTGGGCCAGCGGCTGCTGAGGCAACGGAGGCGGCAGCTCCGGTCCGCGCCCCCGGGCCCGTTTGCGTGGCCACTGATCG
R
AAACGCGGCGGCGGTGGGCCAGGCGGCTCACCTCTCGTTCGCTCGCCTGGCGCGGCGCTACGGCGACGTTTTCCAGATCCGCCTGGGCAGCTGCCCCATA
Celera SNP ID:            hCV27541281
SNP Position Genomic:     6944
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12611):
CTCTCCACATTAAACACCAAACAGGTATCCTGATGTGCAGACTCGAGTGCAGGCAGAATTGGATCAGGTCGTGGGGAGGGACCGTCTGCCTTGTATGGGT
R
ACCAGCCCAACCTGCCCTATGTCCTGGCCTTCCTTTATGAAGCCATGCGCTTCTCCAGCTTTGTGCCTGTCACTATTCCTCATGCCACCACTGCCAACAC
Celera SNP ID:            hCV27537005
SNP Position Genomic:     10917
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12612):
GCAGTACTTCCCCAACCCGGTGCGCACCGTTTTCCGCGAATTCGAGCAGCTCAACCGCAACTTCAGCAACTTCATCCTGGACAAGTTCTTGAGGCACTGC
K
AAAGCCTTCGGCCCGGGGCCGCCCCCCGCGACATGATGGACGCCTTTATCCTCTCTGCGGAAAAGAAGGCGGCCGGGGACTCGCACGGTGGTGGCGCGCG
Celera SNP ID:            hCV27541282
SNP Position Genomic:     7603
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:12613):
CAGGCAGAATTGGATCAGGTCGTGGGGAGGGACCGTCTGCCTTGTATGGGTGACCAGCCCAACCTGCCCTATGTCCTGGCCTTCCTTTATGAAGCCATGC
R
CTTCTCCAGCTTTGTGCCTGTCACTATTCCTCATGCCACCACTGCCAACACCTCTGTCTTGGGCTACCACATTCCCAAGGACACTGTGGTTTTTGTCAAC
Celera SNP ID:            hCV27537006
SNP Position Genomic:     10966
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12614):
GCGACCTCTTCAGATGGATTATTACAGGTAGCGGGTGGCGTGGTAGGTACTTTAAAGGAAATCAAGCGCCACCGCCTCGATGCCCGCAGCGTTGTCCCCA
R
ATTGCAGGAACCGTTACGCGCCTTGCGGGGAGGGGAAGGGTTTGGCGCTGGGTTACAGCGAGGTGGAAACACGCCCCTTCTCTTCTCCAAGGGAGAGTGG
Celera SNP ID:            hCV15895262
SNP Position Genomic:     6500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12615):
GTTTTTACGTATGTAGGCCCAGTCGTCATCAGATGCTTGCGGCAAAAGGAAAGCTGTGTTTATATGGAAGAAAGTAAGGTGCTTGGAGTTTACCTGGCTT
W
TTTAATATGCTTATAACCTAGTTAAAGAAAGGAAAAGAAAACAAAAAACGAATGAAAATAACTGAATTTGGAGGCTGGAGTAATCAGATTACTGCTTTAA
Celera SNP ID:            hCV3099974
SNP Position Genomic:     13838
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,9|A,10)      total(A,10|T,9) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:12616):
GACTCGAGTGCAGGCAGAATTGGATCAGGTCGTGGGGAGGGACCGTCTGCCTTGTATGGGTGACCAGCCCAACCTGCCCTATGTCCTGGCCTTCCTTTAT
R
AAGCCATGCGCTTCTCCAGCTTTGTGCCTGTCACTATTCCTCATGCCACCACTGCCAACACCTCTGTCTTGGGCTACCACATTCCCAAGGACACTGTGGT
Celera SNP ID:            hCV27541283
SNP Position Genomic:     10956
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12617):
AGCCACCCCCGCCCAAGCGCCTCCGGCTTCCCTTATAAAGGGAGGGCCCCCTTCGCGACCGCAAGCGCGCCCAGGAAGACCACAGAGCCGCCGGTGCGCA
S
CGAGGTGGCGATACGCGCCCGGGCTCGGCCTGCGGGTGGTGGCCCAAGCGTCCGCCTCGCTGGCCTGGCAGGCGCGACTGTGCGTGCGCAGCCGAGGGTG
Celera SNP ID:            hCV15895263
SNP Position Genomic:     4891
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12618):
AGGACACTGTGGTTTTTGTCAACCAGTGGTCTGTGAATCATGACCCAGTGAAGTGGCCTAACCCGGAGAACTTTGATCCAGCTCGATTCTTGGACAAGGA
H
GGCCTCATCAACAAGGACCTGACCAGCAGAGTGATGATTTTTTCAGTGGGCAAAAGGCGGTGCATTGGCGAAGAACTTTCTAAGATGCAGCTTTTTCTCT
Celera SNP ID:            hCV3099975
SNP Position Genomic:     11144
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,23)   caucasian(C,25|T,13)   total(C,38|T,36)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,24|T,10)   total(C,38|T,32)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,24)   caucasian(C,24|T,14)   total(C,38|T,38)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-|A,-)   ;no_pop(T,-|C,-)   no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12619):
ACTGCCAACACCTCTGTCTTGGGCTACCACATTCCCAAGGACACTGTGGTTTTTGTCAACCAGTGGTCTGTGAATCATGACCCAGTGAAGTGGCCTAACC
Y
GGAGAACTTTGATCCAGCTCGATTCTTGGACAAGGATGGCCTCATCAACAAGGACCTGACCAGCAGAGTGATGATTTTTTCAGTGGGCAAAAGGCGGTGC
Celera SNP ID:            hCV27537007
SNP Position Genomic:     11107
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12620):
TATTCCTCATGCCACCACTGCCAACACCTCTGTCTTGGGCTACCACATTCCCAAGGACACTGTGGTTTTTGTCAACCAGTGGTCTGTGAATCATGACCCA
S
TGAAGTGGCCTAACCCGGAGAACTTTGATCCAGCTCGATTCTTGGACAAGGATGGCCTCATCAACAAGGACCTGACCAGCAGAGTGATGATTTTTTCAGT
Celera SNP ID:            hCV3099976
SNP Position Genomic:     11091
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,24)   caucasian(C,23|G,11)   total(C,35|G,35)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,11|G,21)   caucasian(C,17|G,9)   total(C,28|G,30)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,11|G,25)   caucasian(C,24|G,12)   total(C,35|G,37)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;HGMD;dbSNP
Population(Allele,Count): Caucasian(C,144|G,164)   Chinese(C,2|G,56)   Japanese(C,2|G,18)   African(G,27|C,73)   (C,4|G,9)      total(G,9|C,4) ;Caucasian(G,114|C,213)      total(G,114|C,213);(G,-|C,-)   ;;(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12621):
CCAAACAGGTATCCTGATGTGCAGACTCGAGTGCAGGCAGAATTGGATCAGGTCGTGGGGAGGGACCGTCTGCCTTGTATGGGTGACCAGCCCAACCTGC
Y
CTATGTCCTGGCCTTCCTTTATGAAGCCATGCGCTTCTCCAGCTTTGTGCCTGTCACTATTCCTCATGCCACCACTGCCAACACCTCTGTCTTGGGCTAC
Celera SNP ID:            hCV27531808
SNP Position Genomic:     10933
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12622):
GAAATTTTAGAAATATTCACATCTTCGGAGATGAGGAGTAAAATTCAGTTTTTTTCCAGTTCCTCTTTTGTGCTGCTTCTCAATTAGCGTTTAAGGTGAG
S
ATAAATCAACTGTCCATCAGGTGAGGTGTGCTCCATACCCAGCGGTTCTTCATGAGTAGTGGGCTATGCAGGAGCTTCTGGGAGATTTTTTTGAGTCAAA
Celera SNP ID:            hCV8811021
SNP Position Genomic:     11547
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:12623):
CCGACCTCTCCACCCAACGGCACTCAGTCCCCAGAGGCTGGGGTAGGGGCGTGGGGCGCCCGCTCCTGTCTCTGCACCCCTGAGTGTCACGCCTTCTCCT
Y
TCTGTCCCCAGCATGGGCACCAGCCTCAGCCCGAACGACCCTTGGCCGCTAAACCCGCTGTCCATCCAGCAGACCACGCTCCTGCTACTCCTGTCGGTGC
Celera SNP ID:            hCV25474364
SNP Position Genomic:     6750
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,6)   caucasian(C,24|T,16)   total(C,42|T,22)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:12624):
GTCTCTGCACCCCTGAGTGTCACGCCTTCTCCTCTCTGTCCCCAGCATGGGCACCAGCCTCAGCCCGAACGACCCTTGGCCGCTAAACCCGCTGTCCATC
Y
AGCAGACCACGCTCCTGCTACTCCTGTCGGTGCTGGCCACTGTGCATGTGGGCCAGCGGCTGCTGAGGCAACGGAGGCGGCAGCTCCGGTCCGCGCCCCC
Celera SNP ID:            hCV27859205
SNP Position Genomic:     6817
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:12625):
CCGCGCAGCCGCCAAGTCCTCGAGGGCCACGTGCTGAGCGAGGCGCGCGAGCTGGTGGCGCTGCTGGTGCGCGGCAGCGCGGACGGCGCCTTCCTCGACC
Y
GAGGCCGCTGACCGTCGTGGCCGTGGCCAACGTCATGAGTGCCGTGTGTTTCGGCTGCCGCTACAGCCACGACGACCCCGAGTTCCGTGAGCTGCTCAGC
Celera SNP ID:            hCV27859206
SNP Position Genomic:     7340
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12626):
CAACCAGGGGCGCTGTGAGGCAAACCGCTGCCACTACACTGGCTTTCCGGGAAGCAAGCTCAAGTCGCGGAGAGGGAAGGGAGGTCGTGCGCTCGGGGCG
R
GGCGCGCTCCCAAGTCGAGCGCAGCGGCCGGGGCAGGTTGTACCGAGCGTGGTTCTGGGGACACCGTGCGGCCTCGATTGGAGGTGGCTGTGATGAAGCG
Celera SNP ID:            hCV25972944
SNP Position Genomic:     5687
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(A,1|G,33)   total(A,2|G,60)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12627):
GTGCGCGGCAGCGCGGACGGCGCCTTCCTCGACCCGAGGCCGCTGACCGTCGTGGCCGTGGCCAACGTCATGAGTGCCGTGTGTTTCGGCTGCCGCTACA
K
CCACGACGACCCCGAGTTCCGTGAGCTGCTCAGCCACAACGAAGAGTTCGGGCGCACGGTGGGCGCGGGCAGCCTGGTGGACGTGATGCCCTGGCTGCAG
Celera SNP ID:            hCV27859207
SNP Position Genomic:     7406
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12628):
GTCTTGGGCTACCACATTCCCAAGGACACTGTGGTTTTTGTCAACCAGTGGTCTGTGAATCATGACCCAGTGAAGTGGCCTAACCCGGAGAACTTTGATC
S
AGCTCGATTCTTGGACAAGGATGGCCTCATCAACAAGGACCTGACCAGCAGAGTGATGATTTTTTCAGTGGGCAAAAGGCGGTGCATTGGCGAAGAACTT
Celera SNP ID:            hCV27859208
SNP Position Genomic:     11122
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12629):
GAAGGGAGGTCGTGCGCTCGGGGCGGGGCGCGCTCCCAAGTCGAGCGCAGCGGCCGGGGCAGGTTGTACCGAGCGTGGTTCTGGGGACACCGTGCGGCCT
Y
GATTGGAGGTGGCTGTGATGAAGCGCGGTTACCGCACAATGGAAACGTGGGCACCTCCGCTCCCATGAAAGCCTGCTGGTAGAGCTCCGAGGCCGGCCGG
Celera SNP ID:            hCV15905163
SNP Position Genomic:     5762
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,21|T,13)   total(C,47|T,17)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12630):
GGCGTGGGGCGCCCGCTCCTGTCTCTGCACCCCTGAGTGTCACGCCTTCTCCTCTCTGTCCCCAGCATGGGCACCAGCCTCAGCCCGAACGACCCTTGGC
Y
GCTAAACCCGCTGTCCATCCAGCAGACCACGCTCCTGCTACTCCTGTCGGTGCTGGCCACTGTGCATGTGGGCCAGCGGCTGCTGAGGCAACGGAGGCGG
Celera SNP ID:            hCV25632538
SNP Position Genomic:     6797
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12631):
CCGGTCCGCGCCCCCGGGCCCGTTTGCGTGGCCACTGATCGGAAACGCGGCGGCGGTGGGCCAGGCGGCTCACCTCTCGTTCGCTCGCCTGGCGCGGCGC
W
ACGGCGACGTTTTCCAGATCCGCCTGGGCAGCTGCCCCATAGTGGTGCTGAATGGCGAGCGCGCCATCCACCAGGCCCTGGTGCAGCAGGGCTCGGCCTT
Celera SNP ID:            hCV25632539
SNP Position Genomic:     7003
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,2|T,38)   total(A,2|T,76)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12632):
ATACTGCATCTTGGTTATTTCTGAAGGTAGCATTCTTTGGAGTTAAAATGCACATATAGACACATACACCCAAACACTTACACCAAACTACTGAATGAAG
M
AGTATTTTGGTAACCAGGCCATTTTTGGTGGGAATCCAAGATTGGTCTCCCATATGCAGAAATAGACAAAAAGTATATTAAACAAAGTTTCAGAGTATAT
Celera SNP ID:            hCV918686
SNP Position Genomic:     11779
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   no_pop(A,-|C,-)   JBIC-allele(C,219|A,1268)   total(A,1268|C,219)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:12633):
TAGATTCCTTATACTATAAAAAAATTAAAAATTAAATTTCATGACTACCCTGATATAAAGATGAATGCATTAAAATGATGTATGAAAATATTTTCTTCTA
M
CTAAAAGTGAGTTTTTTTAGGTCTGAAGATTGTAAAAGACGTAAAAATATTTTCATGGGCCCCTAAAAAGTGTTGTGAGCCCTAGGCACTGTCCCTGCGG
Celera SNP ID:            hCV918688
SNP Position Genomic:     10416
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12634):
TTTTGCTATGATAATGTATAGTTATATATAATCATTTATTGAACTTTAATGTTGGTCATTGGCCTTGATTGCATTTTTAAAATTTTTATTTTAATTTTAT
R
TATTTACTTACCTTAGAGACAGGGTCTCACTACCTTACCCAGGCTGGTCCCAAACTCCTGGGCTCAAGCAGTTCTCCCGCCGCTGTCTGGCAGGTAGCTG
Celera SNP ID:            hCV918689
SNP Position Genomic:     9778
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12635):
GCCTTCTGGTATACTTCCTTACTTTTAAGGATAAATCATAAAGTCAGTTGCTCAAAAAGAAATCAATAGTTGAATTAGTGAGTATAGTGGGGTTCCATGA
K
TTATCATGAATTTTAAAGTATGCATTATTAAATTGTAAAACTCCAAGGTGATGTTGTACCTCTTTTGCTTGCCAAAGTACAGAATTTGAATTATCAGCAA
Celera SNP ID:            hCV8811031
SNP Position Genomic:     12124
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:12636):
GGAGGAGCGGCCGCAGGCAGCGCCCAGGGATATGACTGGAGCCGACTTTCCAGAAGCGGCGCACGCAAAGCCCAGCTCCGCACGCAAAGGGGAGGCGACA
S
CAGAAACTTCAACCCGATAAAGTTCGCCGGAGCGCGGAGATTCGCCTCCTCCTGCCACTCTCCGCCCCGCTCGGGTCCCGCCCCGCTAGCTCCCCCAGGC
Celera SNP ID:            hCV8834333
SNP Position Genomic:     5183
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:12637):
TTTTCTCTCTCCACATTAAACACCAAACAGGTATCCTGATGTGCAGACTCGAGTGCAGGCAGAATTGGATCAGGTCGTGGGGAGGGACCGTCTGCCTTGT
R
TGGGTGACCAGCCCAACCTGCCCTATGTCCTGGCCTTCCTTTATGAAGCCATGCGCTTCTCCAGCTTTGTGCCTGTCACTATTCCTCATGCCACCACTGC
Celera SNP ID:            hCV27000175
SNP Position Genomic:     10911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12638):
TATCATGAATTTTAAAGTATGCATTATTAAATTGTAAAACTCCAAGGTGATGTTGTACCTCTTTTGCTTGCCAAAGTACAGAATTTGAATTATCAGCAAA
R
AAAAAAAAAAAAGCCAGCCAAGCTTTAAATTATGTGACCATAATGTACTGATTTCAGTAAGTCTCATAGGTTAAAAAAAAAAGTCACCAAATAGTGTGAA
Celera SNP ID:            hCV8811032
SNP Position Genomic:     12226
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:12639):
GCGTTTAAGGTGAGCATAAATCAACTGTCCATCAGGTGAGGTGTGCTCCATACCCAGCGGTTCTTCATGAGTAGTGGGCTATGCAGGAGCTTCTGGGAGA
T
TTTTTTGAGTCAAAGACTTAAAGGGCCCAATGAATTATTATATACATACTGCATCTTGGTTATTTCTGAAGGTAGCATTCTTTGGAGTTAAAATGCACAT
Celera SNP ID:            hCV27000176
SNP Position Genomic:     11633
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,13)   total(-,13|T,2) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:12640):
AAAAAGTCACCAAATAGTGTGAAATATATTACTTAACTGTCCGTAAGCAGTATATTAGTATTATCTTGTTCAGGAAAAGGTTGAATAATATATGCCTTGT
N
TAATATTGAAAATTGAAAAGTACAACTAACGCAACCAAGTGTGCTAAAAATGAGCTTGATTAAATCAACCACCTATTTTTGACATGGAAATGAAGCAGGG
Celera SNP ID:            hCV8811033
SNP Position Genomic:     12404
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   ;JBIC-allele(A,230|G,1255)   total(G,1255|A,230)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:12641):
CAACGGCACTCAGTCCCCAGAGGCTGGGGTAGGGGCGTGGGGCGCCCGCTCCTGTCTCTGCACCCCTGAGTGTCACGCCTTCTCCTCTCTGTCCCCAGCA
Y
GGGCACCAGCCTCAGCCCGAACGACCCTTGGCCGCTAAACCCGCTGTCCATCCAGCAGACCACGCTCCTGCTACTCCTGTCGGTGCTGGCCACTGTGCAT
Celera SNP ID:            hCV27861787
SNP Position Genomic:     6764
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12642):
TGGCGCGCGGCTGGATTTGGAGAACGTACCGGCCACTATCACTGACATCTTCGGCGCCAGCCAGGACACCCTGTCCACCGCGCTGCAGTGGCTGCTCCTC
Y
TCTTCACCAGGTAAAGCCTCTGGGAGGCGTGGGCCAGGTCTTTTCTCCTCTGAAAAAGGCGGAGTAGAGACAGAATATGCTGAGTTTGCAAGCAGGGCCC
Celera SNP ID:            hCV27861788
SNP Position Genomic:     7795
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12643):
GCTGACCGTCGTGGCCGTGGCCAACGTCATGAGTGCCGTGTGTTTCGGCTGCCGCTACAGCCACGACGACCCCGAGTTCCGTGAGCTGCTCAGCCACAAC
R
AAGAGTTCGGGCGCACGGTGGGCGCGGGCAGCCTGGTGGACGTGATGCCCTGGCTGCAGTACTTCCCCAACCCGGTGCGCACCGTTTTCCGCGAATTCGA
Celera SNP ID:            hCV25632546
SNP Position Genomic:     7447
SNP Source:               Applera
Population(Allele,Count): african american(G,10)   caucasian(A,1|G,35)   total(A,1|G,45)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,38)   total(A,2|G,76)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12644):
AGCGCGGACGGCGCCTTCCTCGACCCGAGGCCGCTGACCGTCGTGGCCGTGGCCAACGTCATGAGTGCCGTGTGTTTCGGCTGCCGCTACAGCCACGACG
W
CCCCGAGTTCCGTGAGCTGCTCAGCCACAACGAAGAGTTCGGGCGCACGGTGGGCGCGGGCAGCCTGGTGGACGTGATGCCCTGGCTGCAGTACTTCCCC
Celera SNP ID:            hCV25632547
SNP Position Genomic:     7415
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,38)   total(A,73|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12645):
CAGTGAAGTGGCCTAACCCGGAGAACTTTGATCCAGCTCGATTCTTGGACAAGGATGGCCTCATCAACAAGGACCTGACCAGCAGAGTGATGATTTTTTC
W
GTGGGCAAAAGGCGGTGCATTGGCGAAGAACTTTCTAAGATGCAGCTTTTTCTCTTCATCTCCATCCTGGCTCACCAGTGCGATTTCAGGGCCAACCCAA
Celera SNP ID:            hCV25632548
SNP Position Genomic:     11189
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,38)   total(A,73|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,38)   total(A,75|T,1)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,38)   total(A,73|T,1)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12646):
TTGGGCTACCACATTCCCAAGGACACTGTGGTTTTTGTCAACCAGTGGTCTGTGAATCATGACCCAGTGAAGTGGCCTAACCCGGAGAACTTTGATCCAG
S
TCGATTCTTGGACAAGGATGGCCTCATCAACAAGGACCTGACCAGCAGAGTGATGATTTTTTCAGTGGGCAAAAGGCGGTGCATTGGCGAAGAACTTTCT
Celera SNP ID:            hCV25632549
SNP Position Genomic:     11125
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,36)   total(C,71|G,1)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,2)   caucasian(C,32)   total(C,66|G,2)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,2)   caucasian(C,38)   total(C,72|G,2)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12647):
ATGGGTGCAGCACACCAACATGGTACATGTATACATATGTAACAAACCTGCACATTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATAAAATT
W
AAAAAAAATGCTACAGTATGACCCCACTCCTGGGTATTTATCCTAGAGAAATGAAAACACATTCACACAAAAGCTATACATGAATGTTTACAGCAGCTGC
Celera SNP ID:            hCV27000180
SNP Position Genomic:     19527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:12648):
TAGACAAAGTACATTCTGGGGAAACAACATTTATATGTAGCCTTTACTGTTTGATATACCAAATTAAAAAAAAATTGTATCTCATTACTTATACTGGGAC
M
CCATTACCAAAATAATAAAAATCACTTTCATAATCTTGTTATGAAGTTTTATGTTGTAGCAAATATAGTCTAATGTATCACTTTATTTCAACTATTACTA
Celera SNP ID:            hCV8811041
SNP Position Genomic:     14510
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:12649):
GAGGAGCGGCCGCAGGCAGCGCCCAGGGATATGACTGGAGCCGACTTTCCAGAAGCGGCGCACGCAAAGCCCAGCTCCGCACGCAAAGGGGAGGCGACAG
S
AGAAACTTCAACCCGATAAAGTTCGCCGGAGCGCGGAGATTCGCCTCCTCCTGCCACTCTCCGCCCCGCTCGGGTCCCGCCCCGCTAGCTCCCCCAGGCC
Celera SNP ID:            hCV8834343
SNP Position Genomic:     5184
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:12650):
GCCACCCCCGCCCAAGCGCCTCCGGCTTCCCTTATAAAGGGAGGGCCCCCTTCGCGACCGCAAGCGCGCCCAGGAAGACCACAGAGCCGCCGGTGCGCAG
S
GAGGTGGCGATACGCGCCCGGGCTCGGCCTGCGGGTGGTGGCCCAAGCGTCCGCCTCGCTGGCCTGGCAGGCGCGACTGTGCGTGCGCAGCCGAGGGTGG
Celera SNP ID:            hCV16073651
SNP Position Genomic:     4892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12651):
ATCTCAACGCTGTGAGGAAACCTCGACTTTGCCAGGTCCCCAAGGGCAGCGGGGCTCGGCGAGCGAGGCACCCTTCTCCGTCCCCATCCCAATCCAAGCG
Y
TCCTGGCACTGACGACGCCAAGAGACTCGAGTGGGAGTTAAAGCTTCCAGTGAGGGCAGCAGGTGTCCAGGCCGGGCCTGCGGGTTCCTGTTGACGTCTT
Celera SNP ID:            hCV27835232
SNP Position Genomic:     6198
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,5)   caucasian(C,36)   total(C,59|T,5)
SNP Type:                 UTR 5


Context             (SEQ ID NO:12652):
TGTATCCTGTGAAGCATCACGGTTATCCTTCTCTGCACATGGGCCAGTGCATTCCTGTTCTGCTTAAACAAGCTTAAGTTGTTCCTTCGAGTCAATACAA
K
ATAAGATATTTTAAACCTCTCTCTACTTTAAACTATCCCTCTAGCTTAGCTGTTCTTTTTGAAAGTTATTTGCAACAAACAATTCAAGTTTGAGATTTGG
Celera SNP ID:            hCV29309555
SNP Position Genomic:     2438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12653):
CAGGCTTGAAGATTCTCTGCAAAAAGTGTTACCATAGCCAGTCATTTTGGTTTGCCATAACTGATAAGGGCTTATCTTTCTGACAGCACTTACCAACCTA
S
TTCCTCTGATTTTTGAGTCATGTCCTAGAAAAAGAGCTGAGCCCAAGGAACTACAGCTTGGAGGATATATCTGATCTATCTGCGATGGCAGGAAAGCATG
Celera SNP ID:            hCV29309556
SNP Position Genomic:     2878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12654):
TGCTACTCCTGTCGGTGCTGGCCACTGTGCATGTGGGCCAGCGGCTGCTGAGGCAACGGAGGCGGCAGCTCCGGTCCGCGCCCCCGGGCCCGTTTGCGTG
S
CCACTGATCGGAAACGCGGCGGCGGTGGGCCAGGCGGCTCACCTCTCGTTCGCTCGCCTGGCGCGGCGCTACGGCGACGTTTTCCAGATCCGCCTGGGCA
Celera SNP ID:            hCV27529370
SNP Position Genomic:     6933
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12655):
ATAAGAATTTTGCTCACTTGCTTTTCTCTCTCCACATTAAACACCAAACAGGTATCCTGATGTGCAGACTCGAGTGCAGGCAGAATTGGATCAGGTCGTG
K
GGAGGGACCGTCTGCCTTGTATGGGTGACCAGCCCAACCTGCCCTATGTCCTGGCCTTCCTTTATGAAGCCATGCGCTTCTCCAGCTTTGTGCCTGTCAC
Celera SNP ID:            hCV27529371
SNP Position Genomic:     10890
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12656):
GCGCACGCGCCCCACCCAGCGGTGCCCCGACCCCTCCGGTCTCCTATCTTGTCTCTATCGTCCCCTCCCCTGCTTGCGAGTGAGAACACATTTGCAAAGA
Y
CCCTCCACCCCCCGGAAAAACAAGAGTTTTTAAATGCTTGGAGATGAGCCCTGATATCTCTCTCCCTGGCGCATTACAATCAGAACTGGAATAGTTCCGA
Celera SNP ID:            hCV29309557
SNP Position Genomic:     8080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12657):
TAACCCGGAGAACTTTGATCCAGCTCGATTCTTGGACAAGGATGGCCTCATCAACAAGGACCTGACCAGCAGAGTGATGATTTTTTCAGTGGGCAAAAGG
Y
GGTGCATTGGCGAAGAACTTTCTAAGATGCAGCTTTTTCTCTTCATCTCCATCCTGGCTCACCAGTGCGATTTCAGGGCCAACCCAAATGAGCCTGCGAA
Celera SNP ID:            hCV27529372
SNP Position Genomic:     11202
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12658):
AAAAAAAATTGTATCTCATTACTTATACTGGGACACCATTACCAAAATAATAAAAATCACTTTCATAATCTTGTTATGAAGTTTTATGTTGTAGCAAATA
Y
AGTCTAATGTATCACTTTATTTCAACTATTACTATGGATTATTCAATTAAAATATTGCACTGTAAACATTTTATTTGTCCATTCTACATTTCAGGCCGAG
Celera SNP ID:            hCV29309558
SNP Position Genomic:     14576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12659):
CAGCCGCGCAGCCGCCAAGTCCTCGAGGGCCACGTGCTGAGCGAGGCGCGCGAGCTGGTGGCGCTGCTGGTGCGCGGCAGCGCGGACGGCGCCTTCCTCG
W
CCCGAGGCCGCTGACCGTCGTGGCCGTGGCCAACGTCATGAGTGCCGTGTGTTTCGGCTGCCGCTACAGCCACGACGACCCCGAGTTCCGTGAGCTGCTC
Celera SNP ID:            hCV27859802
SNP Position Genomic:     7337
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12660):
AGTCCTCGAGGGCCACGTGCTGAGCGAGGCGCGCGAGCTGGTGGCGCTGCTGGTGCGCGGCAGCGCGGACGGCGCCTTCCTCGACCCGAGGCCGCTGACC
R
TCGTGGCCGTGGCCAACGTCATGAGTGCCGTGTGTTTCGGCTGCCGCTACAGCCACGACGACCCCGAGTTCCGTGAGCTGCTCAGCCACAACGAAGAGTT
Celera SNP ID:            hCV27859803
SNP Position Genomic:     7354
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12661):
AGGCGGCAGCTCCGGTCCGCGCCCCCGGGCCCGTTTGCGTGGCCACTGATCGGAAACGCGGCGGCGGTGGGCCAGGCGGCTCACCTCTCGTTCGCTCGCC
Y
GGCGCGGCGCTACGGCGACGTTTTCCAGATCCGCCTGGGCAGCTGCCCCATAGTGGTGCTGAATGGCGAGCGCGCCATCCACCAGGCCCTGGTGCAGCAG
Celera SNP ID:            hCV27530813
SNP Position Genomic:     6992
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12662):
TGCAGTACTTCCCCAACCCGGTGCGCACCGTTTTCCGCGAATTCGAGCAGCTCAACCGCAACTTCAGCAACTTCATCCTGGACAAGTTCTTGAGGCACTG
M
GAAAGCCTTCGGCCCGGGGCCGCCCCCCGCGACATGATGGACGCCTTTATCCTCTCTGCGGAAAAGAAGGCGGCCGGGGACTCGCACGGTGGTGGCGCGC
Celera SNP ID:            hCV27859804
SNP Position Genomic:     7602
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:12663):
ATTATTATATACATACTGCATCTTGGTTATTTCTGAAGGTAGCATTCTTTGGAGTTAAAATGCACATATAGACACATACACCCAAACACTTACACCAAAC
W
ACTGAATGAAGAAGTATTTTGGTAACCAGGCCATTTTTGGTGGGAATCCAAGATTGGTCTCCCATATGCAGAAATAGACAAAAAGTATATTAAACAAAGT
Celera SNP ID:            hCV11642650
SNP Position Genomic:     11767
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:12664):
GTTTTTGTCAACCAGTGGTCTGTGAATCATGACCCAGTGAAGTGGCCTAACCCGGAGAACTTTGATCCAGCTCGATTCTTGGACAAGGATGGCCTCATCA
R
CAAGGACCTGACCAGCAGAGTGATGATTTTTTCAGTGGGCAAAAGGCGGTGCATTGGCGAAGAACTTTCTAAGATGCAGCTTTTTCTCTTCATCTCCATC
Celera SNP ID:            hCV11642651
SNP Position Genomic:     11155
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,31|G,5)   total(A,65|G,7)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,32|G,6)   total(A,66|G,8)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,2)   caucasian(A,34|G,4)   total(A,64|G,6)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Caucasian(G,59|A,268)      total(G,59|A,268) ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12665):
GGCCGCCCCCCGCGACATGATGGACGCCTTTATCCTCTCTGCGGAAAAGAAGGCGGCCGGGGACTCGCACGGTGGTGGCGCGCGGCTGGATTTGGAGAAC
K
TACCGGCCACTATCACTGACATCTTCGGCGCCAGCCAGGACACCCTGTCCACCGCGCTGCAGTGGCTGCTCCTCCTCTTCACCAGGTAAAGCCTCTGGGA
Celera SNP ID:            hCV27859805
SNP Position Genomic:     7720
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12666):
CCAGATCCGCCTGGGCAGCTGCCCCATAGTGGTGCTGAATGGCGAGCGCGCCATCCACCAGGCCCTGGTGCAGCAGGGCTCGGCCTTCGCCGACCGGCCG
K
CCTTCGCCTCCTTCCGTGTGGTGTCCGGCGGCCGCAGCATGGCTTTCGGCCACTACTCGGAGCACTGGAAGGTGCAGCGGCGCGCAGCCCACAGCATGAT
Celera SNP ID:            hCV11642652
SNP Position Genomic:     7117
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,2)   caucasian(G,24|T,12)   total(G,30|T,14)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,14|T,16)   caucasian(G,23|T,15)   total(G,37|T,31)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12667):
AAATAAATTATAATGTGCTTTCTAGATGAAATAAGAATTTTGCTCACTTGCTTTTCTCTCTCCACATTAAACACCAAACAGGTATCCTGATGTGCAGACT
Y
GAGTGCAGGCAGAATTGGATCAGGTCGTGGGGAGGGACCGTCTGCCTTGTATGGGTGACCAGCCCAACCTGCCCTATGTCCTGGCCTTCCTTTATGAAGC
Celera SNP ID:            hCV27859806
SNP Position Genomic:     10860
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:12668):
GAAATAAGAATTTTGCTCACTTGCTTTTCTCTCTCCACATTAAACACCAAACAGGTATCCTGATGTGCAGACTCGAGTGCAGGCAGAATTGGATCAGGTC
R
TGGGGAGGGACCGTCTGCCTTGTATGGGTGACCAGCCCAACCTGCCCTATGTCCTGGCCTTCCTTTATGAAGCCATGCGCTTCTCCAGCTTTGTGCCTGT
Celera SNP ID:            hCV27859807
SNP Position Genomic:     10887
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12669):
GCAGGCAGAATTGGATCAGGTCGTGGGGAGGGACCGTCTGCCTTGTATGGGTGACCAGCCCAACCTGCCCTATGTCCTGGCCTTCCTTTATGAAGCCATG
M
GCTTCTCCAGCTTTGTGCCTGTCACTATTCCTCATGCCACCACTGCCAACACCTCTGTCTTGGGCTACCACATTCCCAAGGACACTGTGGTTTTTGTCAA
Celera SNP ID:            hCV27530815
SNP Position Genomic:     10965
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12670):
CCCGCTGTCCATCCAGCAGACCACGCTCCTGCTACTCCTGTCGGTGCTGGCCACTGTGCATGTGGGCCAGCGGCTGCTGAGGCAACGGAGGCGGCAGCTC
S
GGTCCGCGCCCCCGGGCCCGTTTGCGTGGCCACTGATCGGAAACGCGGCGGCGGTGGGCCAGGCGGCTCACCTCTCGTTCGCTCGCCTGGCGCGGCGCTA
Celera SNP ID:            hCV11642653
SNP Position Genomic:     6904
SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,24)   caucasian(C,24|G,16)   total(C,38|G,40)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12671):
CCCGCAGCGTTGTCCCCAGATTGCAGGAACCGTTACGCGCCTTGCGGGGAGGGGAAGGGTTTGGCGCTGGGTTACAGCGAGGTGGAAACACGCCCCTTCT
Y
TTCTCCAAGGGAGAGTGGGTTGGGGATGGGAAGGGGCGTCTTCGGCCATTTCTCCAGAGAGTCAGCTCCGACCTCTCCACCCAACGGCACTCAGTCCCCA
Celera SNP ID:            hCV11642654
SNP Position Genomic:     6582
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12672):
GGCTACCACATTCCCAAGGACACTGTGGTTTTTGTCAACCAGTGGTCTGTGAATCATGACCCAGTGAAGTGGCCTAACCCGGAGAACTTTGATCCAGCTC
R
ATTCTTGGACAAGGATGGCCTCATCAACAAGGACCTGACCAGCAGAGTGATGATTTTTTCAGTGGGCAAAAGGCGGTGCATTGGCGAAGAACTTTCTAAG
Celera SNP ID:            hCV27859808
SNP Position Genomic:     11128
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Gene Number:                 2
Celera Gene:                 hCG14894 - 206000044122650
Gene Symbol:                 ABCB11
Protein Name:                ATP-binding cassette, sub-family B (MDR/TAP), member 11;ABC16;BSEP;PFIC-2;PFIC2;PGY4;SPGP
Celera Genomic Axis:         GA_x5YUV32W8UP(25397017..25517411)
Chromosome:                  Chr2
OMIM number:                 603201
OMIM Information:            ATP-BINDING CASSETTE, SUBFAMILY B, MEMBER 11;ABCB11


Genomic Sequence (SEQ ID NO:12162):
AGTCAGTGAGAAGCAATGAATTAGTGGCCCAGGTCTAGACAGCTTATGGCTTCAGAGCAGTGTTTCACAACCTAAGTTTCCTGGAGTCGTGAGGAGTCAC
CCAGGGTTAGTAAGGGTGGAACTGGAAAGTTATGAACAGCCATATGAAACATAACAATAAAAATAATATGTCTGCCTTCCTTTTTTCCCCTTCAAAGATA
AAAATATTAGTTTAACGACATTTATAACAACATTTACTTAGATCGAAAAGCTCATATAGAGAACTGAATCTTGATTTCATGAGGCAACTAGATTGCTGAC
CAAAGATGTGTTGACTAATTTGGTGAAACTAGTTTCTTATTACCTAAGCATGTTGCATTGAGTATGAATTGCCTTGCTTTAAGCTAGGGAGTAGTAGGCA
CCACCCACAGCTTACTTATAACCACTTGACATAGATCACTGTGACCTATGCTTGACTATTAACAAGCACCCACTTCTTATCACCTCCTCTTCCACCTCAA
CAAAGGAATAGTTTCCACGACTGAAACATGACTTTAAGAAGGGAGGTGTCCTGGATAAAGCCAAGACATGAAAATCCAATCTACCCATACCCCCAGGCAG
ACTTGCCCCTTGCGAGTGATAAATTCTACAGTTCAAATGAGTATTCAACACTGCAGGCACAATTACTTATAATTGACTTTTGTTCTGTAGCAGAATTCTC
TCTGATTCCTCTTCTTTATTTATTTCACCTATTTCTTTTCATTTGGCAATTATAAAGGTACCCTTATAATTTTTATAACTTTATGCACAATAATGAGCCT
TCAGGGAAAGACAAGAACTACCGCACTCAAAAACATCAGAAAAGATTTGCTTATGAATGAAGTCCATATTTTTTGTGCTGGTTTTCCTCATTAGAGGGAG
AACCAAAAATATAAATTCTAACCAAGTACTGAGTGCTGTGGAGATCAATGTATTTCATTTAGATAACTATAAATGACAACTTGCTAGGATTGTAATTAGT
CTTATTTGGCGTTATTAATTCTACAGAGGGAGCATAAAACATTTAATAATACATTGGACTTACTCAACTCACTATTTCTTACTTTCGTCCTTAAGATCAT
CTTAAAGGAAACATGGTTTGAAGACCATAATGAAGTGTTGTATGTGCCCACTATTTTACTCTAAATGGCCCACAAGTGAGGCCTGAAGGAATTCCAGGAG
CCCTACCCAGACATGATGTGGAGGTGGAGCAAACTAGGCACTGAGCCAAAGGGGATCAGTGATAGCCAGCTTTTGGGAGAGCCAGATGAGGCAGAGAGCT
GGGATAGGGTGGATCTACCTCCAGGTTCAGGACATTCAGGGCACACCACTGAGCAGGAGCATCAGGTACCATGACACAGGGCTGGTCTGTGTTAGGATAA
AGCAAGTTCTTAATGGGCTTTGAATCCACAGAAACTTTGCTTGTGATGTCCAGATGACGGCCCCATCCCTTCTGCAGAAGTCAGAGTTTTCCCAGAAAAA
AAGCAATGACTGAACTACAGCTAATATTTGGAGAACACCCACATAGTTGTACTCTCTATGTATTTCTAAAAATCATTAATAAAATTTTATTATGCATTAT
TATTGATATTTCCTTTGTCATATTCATTATTTTCATTTAATAACTTATATGTTTAAAAAATAGTTTACCCTTATTGTATATAATTTAGAAGATGCAGAAA
AGCATGAGGAAGAAAATGAAAACCACCCTCATTCACATTTGCATAACCTACAGATAAGCACTTTTTATATTGTACTTCTTCCAGTCTTTTCTACATGTGT
ACATGACAAAATTAGGAATACACTAATTTTGGTAGGTAAAAAAATATACACAATTCAATTAAATGGCTACTTGGGGGAGGAACTCCCAATCCAGAATCTA
TGGCACAGGGAAGTTCAGGCAGGCCTCATCATCCTGTGCAGGTGGTATTCTCACTCCCATTTTACAGATGAAGAAACTGAGGCTAATGGAGATTAAGTAA
CTTGTCCAAAGTTAGATAGCTAGTAAGTGAACACAAACCTTTGTGATTTCAAAGACCATCTCTTGAGATTGGTTAACTTTTAACTAAACCTCCCAGACAC
ACAGCCTGACCTTATCTTCCAATCTTTCTTGCAGTTAGGTGTGGTTATGTGGCACAGTCCTCTCCAGTGGAATCTGAGTAGAAGTAATGGATGCCACTTC
CAGGATTGGCCCACAGGAACTTTCCATACAAAATGCTCCATATTTTCTCTTCCCTGTGTGATGGATACATGTCCATGTCCAAGGAGACCTTAAAAGCCAC
ATGTTGAGGATGGTAGAGCTTCTGTCAGCCTGGGTCTCTGAATGACTGCATGGAGCAGAGCACCTTTGCCCAACACCGATTTCCCCTTATTCAAGGCCTA
CTGGACTTCACATGAGGGGAAATAATTAGCAAGTATCACTACCTTAACCAAATCATCCAACAAGTAAGTGGCAAAACCAGGATCTAAAGCCAGTTCTTTG
TGACTTCACAAGCCTGTGCTCTTTTCACTATACCATTCTGCCTCCCTCTGCAGTCAACTAAACTACAGAAATTGTGTCCTTCCACACAGCTTGCTTTAAA
AATACATAAGCTACCTAAGAAAGCTCTAATTTAGACATTTTTCTCTCTGCTAGTCTCTATGCCACAAAAAAACATAGCCAATTATATTGTGTTAACTGAC
TCATGCTGGCTTTACACAATTTATATTGATTTTCAGGGTGGTAATAACCAGCTTCTGTGATTGGTGTGCATGTGCAAGACTTCCTGCCTAACCCATCCTT
CTTGTGGCTCAGCTTTGTAAACACTGGCCCTGGGTGGCCGTGAACAGAAGTTCTTATCTTAGACTGCATGCAACTCATCCTACTGGCACTGAAAGCCCTT
CTTTGTCTTTCTTCACCTACTTAAGCAAATTTACAAGCCACTCTTTGCCTCTTCTCTCAGCAGCCATCTTGGTCCTTTCAATGTTGCCTGTGTGCACTCA
TGCTGTATTTATGACCTGGTCCCTCTCATACTTTGAGATATAACTCAAGTCCTTCCTTCTTTGAGAATCCATACTGATGGGTCACTTTTTAAATACTTAA
GGTCTGCATCAAACATTATAACATTTGCTGTTCTTCTTTTTTATTCTTACTTGGTTTATATACTAAGCTTTATTATCCTTTTAAGGTTAAAACTTTCTCA
AGGACACTAACTGTAATGTGTACAACTTGGTAGCCAGCGTAACATTTGACATAGTGTCTTGTAAAAAGAAGATACTCAATCAGTTTTTGAATGATTCAAA
GAGTAAAATAATGGCAACTTCTTTTATCTCTTCCATAGTGCAATCTTCAATATTTTTTAAACAACTATTGGCTGAATTCTACCATTGTGGTTTAGAGCTT
TCTCTGAGACATTTTTGCTAAGGTTTTGAAACAGGTTCCAAATTGGTCCACAGTGACCTCCAAGGCTCTACAGGAGTGGTCCTCAAGCTTCAGCTCATTG
GGCCCCACTCCCAGAGTTTCTGATTCAGTAGGTCTCAGGAAAGGACCAAGAACATACATTCCTACTGGGTAATGAGGAGGCTGCTGCTGGTCCAGTAGTC
ACACTTTCAGAGCCACTGCCCTGTGAGCTCATGGCACTCCATGATTCCCGCCACACTGACATAATCCCCAGCTGACTTCAGTCTTGCTTACTCCACTCCA
GGTTCAGCTTCCTTACATACACCAGGCATGCTCCTGCCCAGAGCTTTGCCCATGTGGTTTCCCCAGATACCCATGTACTTGTTCCTTTACCTCCCTCAGG
TCATTCCTCATATGTCACCATCTCAGTGGGCCCTTCCATAAAACCCAGTTAAAAATGGCAACATCCTTCTCCCCTCACACGCTAACTGACACACACACAT
ACACAAACACACTCTCTCTCTCACACAGCATACGTACACACACTCCCTATCATATCCCTTTCCTGCAATGCTTTTCTCCATACCATTTACACCATCTGAT
GTATTGTATGTGTTACTTCTTTGTCTCCTCTCTATACTGCCCCCTCCCTGCCCCCAGAATGTAAGATTCCTGAGGCAGAGATTCTCGTCTGTCTTATTCA
TTCCTGAATCCCAGAACTGAGAACAGTGTTTGGCACATAAACATTCAAAAAGAGCCGGTATTTTAATTGGGTGACTGTAGGGACCACAACCCTACCTATT
TTCAGACCGTGAACCATAAAGAAGACAAGCTTATAGCTGAAGTGAATTAAGCACGATCAACTCAGTACTCACACTGCCCAGATGTGTCTGGCCAGCATGA
GGGTGCAGAGGAAGACACCCTGAACTCTCCAGGGCCCTGGACAGATGGCCACTCTGTCTTCACTTTTCTCATCTATAAGATGAAGTTGTTGGATGATATA
TCAATATTTACAATGTTGTTTCTAGCTCTAAAACTCTATGCTTTTATCTTCCCTTGGATCTTCATGGCACCAGAAGGAAAGTCTTAGGACCCTTGGACCT
GTGAGCAGATCAGCTATAGTCCTGAGTTGACAAATTTCTCTTGGCATTTTTACCCTTTGACTGCTGTCAATAACTTCAGCACAGCAAAGGTAGCAAAATT
CTATTGGGAATCTTTTCCCAATCAAAGCTACAGCCCCATAGCTGTGTTGCCTTTTTGGTTTTGTGTGAAGCAAAATTTTTTTCCTGGGTCCTAATTGGTG
CCAAATCCAATATTACTACATTTGCGTCAACTCAGAAGTCAACCCATTCAGTTTGCATAGARGAAACATCTAGAAATCTTGCTTTTCTTTGCTGACCTTG
ATATATTTGAGATTTGAACATATAATAACATATAAAATTATATGTTATAATTTTGGGTTTTATGGGCTAAGTCATAAACCATCTTATACATAAATTCCAA
TAGAGAAAAAATGGTGGATGCTGAATTTTAATAAAAAATTTATGACAGAGAAACCTAAAATTGAGAAAATTTGATCTTACAGTTTAATTTCTGCAAATTA
AGAAGCACTGGCCCATCAATTGCATTTCAGAGCACAGAGTGGAAGAAGGTTAGCACAGACTGGCATGTGGCTTCACATCTACTAGTTGTTACACCTTAGG
AGGATTATTTAACCTCTCTGTGCTTCAGTTTCCCCAACTATAAAATAGAAATGACATGATAGCACCCAACTCCTAGGGCTGTTGAGAGGCCCAAATGAGG
TGATACAAATAACATTTTTGAAGTGGGCCAGGCACCCAACCAAGTCTTGACCAATGTTGCCTATTATTATTCATTGCTGAAGGCTGGAGTGAGAGGCATT
TAGGGAAAAGTAAGCTCAGGCAAAGGAGAAAAAATAAGAACATTGTAGGAAAAATGGAAAGATTCACAAGAAGGGAGAGGAAGAGGCAGCACAAATATAT
TGGAGGAGCTCCACATGCTTATTTGACTCAAGACCTGTTCATTTGAACCTTTAGAAAATCGTTCATCTTTGCTTATACAGAGCTTCATCTGGTGTGTCCA
TGCCAGGGTGCAAGAGTTGTCTGTGCACTCAGACTTTTGAGCAAGGCTGTTTCAAATGTTCTTTTAGGGTATTTGTCTCCACAAAACTCTATAGCTGGGC
CAGGAGCATCTGGATCCTGCAACCAGGGATTTTCCAAGAGCAATCTTTTATATTGAGGGGGAAAGTTTAAAGGTATTTTTTTTTTTGTCTTGTTATGTTT
TTAAGTAACTTTTCACAACTACAGGCCTGTAAAAAATAAGGGTTGGGATAGCCTGAATTCCAGGGCTCTTGCTGGGCCCACTCTGCTCAATTTGCCTCTC
GTTCCAAGGTGAATCAGCAATTTCCAAGGCCTGTTGACACCCTCAGAGGGTTTCCCAAGCACACTCTGTGTTTGGGGTTATTGCTCTGAGTATGTTTCTC
GTATGTCACTGAACTGTGCTTGGGCTGCCCTTAGGGACATTGATCCTTAGGCAAATAGATAATGTTCTTGAAAAAGTTTGAATTCTGTTCAGTGCTTTAG
AATGATGAAAACCGAGGTTGGAAAAGGTTGTGAAACCTTTTAACTCTCCACAGTGGAGTCCATTATTTCCTCTGGCTTCCTCAAATTCATATTCACAGGT
AAGTAACTTATACTTGTCTCTGCAAATCCATTCCCTCTTCCCTTTAACTCTTACTTTGTGGAGTGGAGTGTTTCTGGTTTATTAAACATTGGTCTCTTGT
CCAGTGTAAACAACGCTACAATACTTGGATAGAAACTTACAGGATGCATTAATGATTTCACAACATTGTATACAATACAGATGACTCTTGGTTGCTGTCT
TCTTTATAGCAATGCTATTTCATGTATCAATCTCTTAGAGAGAGAGAGAGTGGTGTACATGGGTGTGTGGTACAAATGGCCGAATAGATTGAATAATCTG
CTCAAAGTAAAAATACCAGTGGGCTTCTTTTTTAACTTGGCTTTGTGAAAGCACAATTCTGTTTGCTCTGATAATCACAGATTCAATGATCACAAATTCT
ACCCTTGAAAGCTGGTTTAATGCAGAACTACACCGACTTTATCTTTTCTCCAACACCGTACTCATTTCTTCATTGTCCCGGTTTTCAAAAATATAGATGC
AAAAAAAAAATGAGCTGTGGATGCATGTTTAGAGGGGAGAAAGTTTGTTTCTAGGATCTAATTTCAGTTTTTAGGTCACYCAAGCCAGTGGGAGTCACAT
ATTGCTAATGGCTTGAGCACAGAGATCAAATATTATTCACACTTCAGACTGGGAATAAAAGACAGTATTTGTCAACATTTTGAGGGGGAATAGCTTTTTA
GAGATGTTAGAGACAAATTATAGTGGTTATACCTAAAACTTTTTAATATTAGGAGTTAGTAGTGGTTTTTATTAAACATTTGAAGTGATAACTTATTTAT
GAGCTGTTGTTTAATAGAAGTTCTTTTCTGTGGGCAACCTCGTCCCCTCACTGCTCACCCCCCTCACCTTGGTTCCCCCTGCTGTGCTCTGTAACACTGT
GATTGTCTCTGGTTGAAGCCTCCATTTCCCTGTCTAGGAGCTTCTGTTTACACTCCACCCCACTCTAGATTGCAAGCCCCTTGAATAATTTTTGTTTCCT
AGTACCAAGAATAATGGTGACAAATATTAGGGGATGACTCCTAAAAATGGATTAAGAAGCTATTTAGGGGGAAAATGCCCATTTTGTGGTTTTAAAAGAT
GCTACAATTGCCATAAAATGCCCAAGTTTCATTGCAGAAATCAAATACTGGAGTTGTGTTTTGCTTGGTCAAGAGGAAAGAACTGGCCGGGCGCGGTGGC
TCACGCCTGTAATCTCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGTCAAGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTA
CTAAAAATACAAAAAATTAGCCGGGCGCGGTGGCGGGCGCCCGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAAGCGGA
GCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGCGACAGAGCGAGACTCCTCTCAAAAAAAAAAAAAAAAAAAGAGGAAAGAA
CTGTACATTTAGAGACAAAGAATCGCTGTGGCAGTTAACTTTGGTGTTACATTCTGTTTTCTTCCTAAGCAATTCTTTAGTCCTCTACCTCAACGGTGCC
TCTGAAGAAAGGACTTACGTGGCCAATGGGATCACCGTGTATTTATTTCCCTTCCCTATCAGCCATAGCCCTCAGGGCTGGAAGGGCCTCATTTTAGTCT
ATTCCCAGACTGGGTCACCCACAGTGTTGACACACAGCATCAACCGACAGTGAGCTTATCTGGAAAATAATGCCTTTCTATTTTCTTTGTTTCTTAGCAT
ATATTAAATGTTTCTTTCCTTCTCTAATAATCTTTTAGATAAAGAAATCATTTGCTGAGCTGATAATAACAAAAGTATCCTACCTACATTTTTAAATGTC
AGCAGTGAAAGACGTTTTAAGGGCTTTAAAAAAAAAAAAAAGAAAGAAAAGAAAACTGTAGTTTAGAAAGGACATCCAAATTGAAGAGGAGCAGGGGCAG
TTCTGTTCTCTCTGAGCAGCTCTGTGAAGGGGGAGTTTGTGGCGCTGGGGTCTTGAAAGTCTTTACAGAGGGCAAGACTTCACAAGAGAAAAGCCGTGGA
GGGACCCTCACATGATCAGAATATTCACAGTGTGATGTGGGGCATGGTGGGGGCGGGTGCTCTCCACTCCCGGGCCTGGCTTGGTTCCCCTCACTGTCCT
CAGCTCCTCAATGGCTTTGAGGACATTTAGATTCTTCTTACCATCTTGGCCTGAATGTGGAAAAAGCTCTTTTTCCTTAATTAAGTCTAGAAAAGGTCAA
CATGTTTCAAAAAATAGCATTTGGGTGGAAATTAAATGGAAAGTGGAACAAATCTCTGCAGAGAAAATGCAAAACCCTAGAACACAGACAGAGCCATCTC
TGCCTCTTGGTCTGGTGGGATCTCTATTCTTCTCAAACCCATTTCCTAACCTCTGTGGGTGTGGGCTCCAAGTCCCAAGCCTTATCAGGGTAACTTTTTT
TAAGTATAAATTTGATCATATCCTTTCTTGCCTAAAAGACTTCATTAGCTTCCCATGGCCTTTAGGATAAGGTCCCAAGTTCTCAGTGGTAAGGATCATG
AGGCCCTGAAGGATCAACCAGCCACATCCTCCCGAGTTGCCCATCCGCCTCCCTGAGATTCACTGGGCTCCTTCAGCCTTGGACCCGGCTGCCCTGTCTC
TTGCATCTGGGCCTTTGCATGTGTCCTTCCCTGCCTGGACTGCTCTTCCCTCTCCTCTTCCCATGGAAAACTTGCTCTCATCTTCAACATCTCATGCTAA
GCACTTGCTCCAGAGCCTTCTCCAGCTCTCTAGACAAGGCAGCTCCTCTGCATCAGGGCCCAGGAGATGCCTGTATTTCCCCTTTCCTCACTGCCATCCT
GCTTGACGCCTAATTTCCCAGATAATGTCTGCCTTCCCTGCCACATTGTAAGTTCCATGAGGGTAGGGCTGGCTGGAGGGCTGGTGCTCCACACAATTTT
TAGGGTAGGTAAATCAGGTCCTCAGAGATTTCTTCCTGGGCCTCAGGCTGCCCTGAACTGATCTCACAGTACAGGGRTTGACATTTTCTGCAAAGAGCTG
TATAGTGAATATTTTAGGTATGGGAGAGAGAAAGGGCCATACATTCTGTCACTGTAGCACAGAAGCAGCCAAAGATAATAGAAAATGAAAGGGTATGACT
GTGTTCCCATAAAACTGTATTTATAAAATAGGATGGTAATGGTATCTTTCAGCCCAGAAGGATTCAGCTCTGGAGACACCTTTTCTCAACCCTGACCCTT
TTTTTTTCTTCAATTCTTCTACAATACCAATAGCCAATTGCTAGTATTGATCCCAGCCATTGGTGAAGATCAGCCTGTCCATCTGTTGCTCCAGGCTGAC
ATCCCCACCAGTTCACACTAGCAGCCTTGCTGTAGTGGCAAGTAGTGGGCACTGACATTTTATGCTCTCAGGATCTTTGATTTCTTTCTGGCATGGCTTG
TAGAACCCTGTATCTCCTCCAATTTTGACAGCCTCAGGACCTTTGTGGTACTACTCATTCAGGCCCATTTTTAAGGTCAGTCAAAGTACTAGGTTCTCTC
AAGTGACCATCTAGCTGATGGTCTCTCTTCCCCATCCCCTCCTCCCCAGCAGTGAGGTCTTTCAGAATGCTGTTGTTAGAGTGTAAGATAGAAACATCTT
TGATATGTTTTTACCAGTAATTGTCAGGAGACTGTTCTCTAATGTGCGTATCTGTGTTGATAAGATTACACATTTTATCAAGAGAAAACTTCAACCCTGA
ATAGTTAAACAGAAGCGCATATAGTGTGCAGGTTATAGACCACATGTCACTTAGCAGAGAGGAACACTGGAGTTGGTGTGGACAATTAAGAATTCTTGGG
GGATTCTATGATTAGGTGTCCAAAGTCTGCCAACTAGTGCTTAGACATCTCGATTTCCTGCTTTTTACTCTTAGATTCCCTTAAGTTTATTGGAAAATAC
ATTTTTCTGGAATGCCTTGAAAATTCTCAGTCTGTTCCTGAAGAGATTTTGGGGAGGTTAAAATAATTTAATATGTTAAAGTGCACAGTAAAAATGAAAT
AGCATTGGATGTTATTTTCAACTCTGAGTTTTCTTGTGTTAGTTTAAGTAAAATTTTGTTATTGTAAATTTGTTAAGAAACCCTAATTAAAGCCTCCTTC
AATGTATGAAACTCAAATCAAGTTATTAGGTTAGGTGCTAAAAAAGTGTTACAGCTAATGGCCGAGACAGTAGAACTAGGTGACATTATATCTACTTGTA
ATCAGTGAGGAAAAATAATGTGGCAAAACACCATGGTACTCTTAAATCATAGAAAGTGCCAAATGAGGAGGAGGTACACTCTCAAGAACCTGCAAAACAA
ATATGTTTATCACCAAAAACTAGATTCCCACTGCATTTCCAGGGTTTCAGAGACTGGCAGCCATGTCCTCCAGCATCTGATGTATGGGTTTCCCAACATC
TCATCTGATAAAAAAAATAATTTGCCAGTGGAAGAAAACATGGTCTAATAATATATATCAGATATATATTCTACATTCATAATGATACATGGCAATTCAT
CTAATATTCAATTCTGAAAACCTCTTTTGTGGCAAATATCACAGGCAAGGCCTTCATTCTTTCTAGAAATTTCGGTTTTTCAGTGTACTTTCCCAAACTT
AGTGTTATAAAATTCCCAGTGTTTTTGTGGGTACATGCAAGTAATTAAGATTTTCAGCACAATGGCCTTCAAAAATCATCACAGCCGTTTCTAAGCTGCC
CAAAGATAAAGGGACTAGCTTCCATTTCTGACTGAACAACCAGTGCATGCCTTTAGCCCTAGAGAGTATACATCTTTTGAAGTATAGCTCCTTGGCATGT
CAAAAAAGAACAGTGGACTACCAAAGTTCAGAGTGATGCACTTGATGCTGAGAAAGAAAACAAACAAAGAAAACAAACAAAAGAACACCCTGTTCCATTT
CATAGCTGGCCTGGTACTCACACCTAAGCCATGTTATTCTCTTATTAGACATAAACAATCTCACAGAGTACCAACCTCAAAGTTACTTTGAGTCAATGCA
AGGTCAATTTATACTTTGTTCTCAGCAAAGGCAAAATCAAGGTCACTGTGCAACCCACAAAATACCAAACACCTTGCTAAATGAATGGCTGTTATTTCTT
TATCTAGTCATAACATAGTCCCAGCTTTTTAACAGCATCYAATTTAGAACAAATACCCACTACATTAGATCCTTCCCCAAATCATCTGACTAAAGCCCGA
GTTCTGTAACAGGTTCTTTCTAACACCATTTTACTGAGATGCCCCACAGCCCCTGACAGTGTGTTCACCCTTGGTGCAATGAGTAGCAAACACGACTTGT
TTAGCTACAGATGTATTCTTGGTGCTCACTGACTGAGGGGCATTGACAATGCTGTGGGCATAGAGACGCATGATTTAATGGATTTTTGCCTTTTAGAATG
TAACTTTTAACAGTAAAATAGAAACCACAAAAACTATTTGTAGGGGTATTCGGAAAGAAGCAAAATGTAAGCAATTGAAACCTAATGTATGGAATTGACA
AGGGGACACAGAAGGAAAGTAAAGAGAATAGGTTAGTGGATTAGTATTCCTGTGCTTAATGGAGGACAGATTACTACAAATGACCCTGGAAGGGCAGATG
GGGTGGAGGATCAGGTAGGGAGGACTCGGTCTTTAAGCTTGAAGGGCAAAGGGAACTTCAGCTGCTATCTCCCTTTTGCTGGCTGCTGTAGAGATACAGT
TTCATTTCATCTTCACACCAGTCCTGCAAGGTGGATTTTACCACCATCACCACCACTTCCTGACATGAAAGATGGAGAAATCAGGACGTGGAGAGAGATT
TTAAAATAAATCCAACTACGTAGAGTGAAGCAACAGGTGTATCAGGATCTGAGAGACTCCAAATTTCGTGGGCAAGACACTACACCACTGTCCTCTAAAT
ACTACGAGGTATTTGCACACCAGTGGAAAGAAAYCTTTTTAAATGGAGAGCTAAGCCAAGGGAAAAAATAAATGGAGACTAAATTTTTTTAATATTGTAT
TTTAAAATTAGGAAATGCAATAACACATCTGTGGTTAAATGTTGTTTATTATTTTCTCATTATTAAAGAGTCTCTCTGTTTTTTTGAAAAAAAAATTTGG
TTAAAACTTCAAAAATTGTGTAACCGGCAAATGTTACAGTCTCTGAATATAATACTGCTATAGTGAGCAAATTTTGTTCTTGAATAAAATAACTTTGAAT
CTGGTTCCTTTAGTATATTTTAAACCAGCCTCATAAACTACTTAATTAAATAATATTTCTTACTCTACTTCTTAATATGCTATTAAGGGACATTCTACAA
AATAAGTGATGAGTACTCCTCAAAACTGCCAAGGTCATTAAAAACAAGGAAAGTATGAGAAATTGTCATAGCCAAGAGTTGCTTAACAAGATATGACAAC
TTAATATAACATTATAAACTTGGTATCCTAGATGGAATCCTGGAACAGAAAAGGAATTAGGTGAAAAATAAGGGAATTTGAATAAATTATGCACTCTAGC
TAATAATAATGTATCAATATTGGTTCATTAATACTAATGCAAGACATTTACAGTGCACATTGGTACGTTAATACTAATGTAAGACATTAATACTAATAAT
GTAAGACATTAATAACTGGGTGTGGGGTACATGGGAATTTTGTACCATCTTCACAATTTTTCTATAAAATCAAAACTGCTCTAATTTGTTTAATTAAAAG
AGATTCACCAGGGTTAAGAAAAAAATTATTTTCTGTCATGAAGTGTTTTATTTTCTGCAAAATGATTTTGTTTTATTTAGGAGTGGTATGCTGCTTAAGA
TGGAAAAATACATGATGATGGTGCATAGTGCCTCCATCCCAAGCTTGCTAACATTAACCCTTTTGTGGCATTATCCAGCTTTCCATATGTTCTTTTTTAA
GTTTTATTTTATTTTATTTTAAGTTCTGGGGTACACATGCCAGATGTGCAGGTTTGTTACATAGGTAAACGTGTGCCATGGTGGTTTGCTGCACCTATCA
ATCCATCACCTAGGTATTAAGCCCGGCATGCGTTAGCTATTTTTCCTAATGCTCTCCCCACTGCCCTCCCCCAATAGGCCCCAGTGTGTGTTGTTCCCCT
CCCTGTGCTCCCTGTATCCATATCATGAAATATTTTAAAGCCACAGGAAAAAAAAGAGAAAAACTTAATGAACACCAAGTTACCTCCTTCCAACTTTATC
GTATCTTAAACCCTATGCCATACTTGCTGGAACTTTTTGTTTTAAGAAATTAAAACATGCAGATACAGTTCAGGGGCCCTCTGAGCCCCTCCCCAGTCTC
ATTCCACTTCTTTTCCTCAGAGGTAACCACTATCGTTAATTCAGTGCTTATCAGTTTCAGGTAAGTCTTTATATTTCTACTGCGTATCTATATATCTACG
AACATTACAAATAGTGATTTGCAGGTAACACAATTTACATAAATGGYATCATACAGTATCATTCTGAAACTTTGTCTTGTTTGTTTAAACTTACGTTTGT
TGAGATTTATCCATGCCAATTCATTGATTTTAATGGCTAGATAATATTCCACTGTGTGTCTATTCTATAGATTATTGAATCAATCTCTTGTTCATTTGTA
TTTTCTCCTAGCTTTTTGTTTCCAAAGAAGTACTGCAATAAACAAGCTTACACATATCTCTGCATGCATTTTCTGAGTTTCAATCTCGGCTGTATCACTT
ACTAACTTGTGCTCTTGAGCTTGTGACTTAGTCCTTCATACTTTAGTGCCCTTATCTGGAAAACGGGGATAGTCATAATACCCATCTCAGGAGGCTGTTG
GGAGGTTTTATGGCATAGCATGTATAAAGCATTTAGAACAGTGCCTGCCACGTATTAAATGCCATTTCATTGTTAATTATTTTTTAAATTGTTGAGGAAA
ATACCAGAGAAGGATATTCTGGGATCTGGGGTATTAACATGTTTAGCCTTGCTAGATATTTCCAAATTGCTATCCAAAGTCATTCAGTCAATTTATATTC
TCATTAGCTGTGCATGAAAGGACTCTTTCCTCCACATCTTAACAACACTTTGTACTACTGGATATTTCATCTTTGCCAATATTTCAATGAATAGTTTTAG
TATTCACTGCTGATCATTACCCCAAATTTATTCATTAGGGTTGCAAAATAATGATTTTTTTTTAATTTTATAGGTTTTCAAAACAGGAATGGATAATGAT
TTTTACTGAATACTTTTTGCATTTATGAAAATGATTAATTATTTTTTACCTTAAATAATCATTGCATTCCTGGGATCAACATTGCTTCATTTTTTTCATA
AACTGCTGAATTATGTTTAACATATTTTATTTATCATTTTAAAATCTGTTTTCAGAAGTAATTATAAGCCTATTTTTATCCTTCTTTGTTTTGATGTCAA
AATTATACTTGCTTTATAAAATGATTTGGGTAGCTTTTCTTATTTTTCTTTTCACCAAAACTATTTATATAAGATTAGAATTATCTACTGTTTGAAGTTT
TGGTAAAATTTGCCTGTAACATTATCTAGCCCTGTTGTTTTTTGAGGTGGGAGACTTTTGAATATTGAATCAATATTTTAATAGCCATTACTTTTTAAGT
TTTCTATTCCTTTATAAACAAATTTTGATAACTCATATTTTTCTAGAAAATTAATCTTAACCTGGTTTTCAAATTTACTACCATGAAATTACTTAGTATT
TGCTTATGATTTAAAACTTTATTTATTTTACCTTTCCCATTTTCAATTAGTATTTGTGATTTATATCTCTTTTCTTCAACAGTCTTATTGACTTGCATGT
TTTTAGTTTTCAAAAAACAACTTTTGAATTGATATATCCTTTCTACTGTTTTTCATTTTATTTTGTTTTCTATCTTATAAATCTTGCATTTTTTAGGTTC
TTGATTAGAACATAATTCATTCATTAATCTCTTAAAAGCAAAATGCATTTATCTTTATAAATAAATCTTGAAGTATCTTTTTAGCTGTAGCCCACAAGAT
TTTACATATTTATCACCATATTTTAAATATTTTCTATTTCTGTCATGATTTCATCCTTAACCCATATTTATCTGCATATGTATTTTAAAGTTTGTAACAC
ACACAATTTTACTGAGTATATGTGTGTGTGTTTTACTAGTGTTTAATTTTTTAGTTTTTATTTAATTGCATTGTCAGAATATACACCCTTAAGAATAACA
ACAATATAGAGAAATACATAGTTTTTCATTTGTAGAAATTTTTTATGGCTTATTAATGGGTAAGTTTTATAAAAATGCCAAATGTAATTGAAAAATGTCT
TGGTTGCAGGTTCCATAGTAATGAAATTTGTCATGAAAATCTATYGACATTGTGTTACAATTATAATTAAATATATATTTGATTAAATCAAATGAAATTG
CCAACATTTAATCTTTTTTTACTTAGAAAGTTCAACTAATATATGAACAATGTTCAACCAAATTTTAAGAAAAATTTTATGTAGTAAATTACATAAAATT
ACTTATTTTTTATTTGAAAAGCTTTTATGTTTTCTAATTTTTTGTCTGTTTATCAGTTTCTAATAAAGTTGTGTTTAAATTTTTCATTACAGTTGCAGGC
TATGTTGTGTTAGGTTGCTGGGTATATACAATCCAATAATTGATTTGTCTTCTAGCTGGATTGTACTTTTAATTATTATATGTCCTTTATTATATCCATT
ATTGTTTTGAACATGGATTCTATTTTTCTGACATTAACATAACAGCTTTGAGACATCAGTATTTGCATGACGTATCCTTTTCACCCTTTAATTTTGGACC
ATTTTTATGATTTTATAAATTATTTCATTTATAATAAGTATATGTCTGGATTGGCTGGGTGTGGTGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCT
AAGGCAGACAGATAATCAGAGGCCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACTCCATCTCTACTAAAAATACAAAAATGATCCAGGCATGGT
GGCTCATACCCGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACATGAACCCAAGAGGTGGAGGTTGCAGTGAGCCAAGATTGAGCCACTGTA
CTCCAGCCTGGGCAACAGAGCAAGACTTGGTCTCAGAAAAAAAAAAAAAGTGTATGTCTTGACTTTAAAAAATTCAATAAACTGACCTGTCTTTTTTTAA
AAAACAGCCTTTTGAGGGTATAATTTACATATCACAGAGTTCACCTATGTAAAGTATTCAATGGTTTTCAATATATTAACAGAGTTGTGCGACCATCACC
ATAATCTAACTTTAGAACATTTTCTTCATCCCCAAAAGAAACCTTATATCTGTTACCAGTCACTCCTCATTCCCCTCCCACCCCTACCCCTACCCCAGCA
TTAGGCAACCACTTATTTATTTTCTGTCCCTATAGATTTGCCTATCTTGGACATTTCATGTAAATGGAATCATACAGTATGTGGTCTTTTGAGACCGTCT
TCTTTCACGTAGCATGATTTTGAGGTTCATCTGTGTAGCATGTATCAGTACTTCAATCTACATACATTTACCGTAATTACTGAACCGTTTGGACTATTTT
CAATAATATTCATTTATGTTTTCTGTTTGTTATGCTTTTTTTAGTTTCTTTAGTTTTTTTTAACTTTTGTTGGATTGATGACATTTTCTACATACTTAGT
TTTTAATCCTTTGCTTATTTAGAAACTATAGATTTTACTGGTACTTTTTCATTGCTTTTTCTTAAAATTTTCAGATATTGGTTGAACTTTGTTCAGATAT
TAGTTGAACTTTGTAATTAAAAAATGGTTAAATATTGGCAATTTCCTTTGGTTTAATCAAACATATATTTAATTATAGTTGTATAAATATGTATTTAATT
ATAATTATAAAACAATGTCCTCAGATTGTCATAACAATGAACTTAACATACTTTATCTGCATATCGAACACCTTATCTTGTGTTCAAGTTACACTCATAT
CTACATACTGTGTAGAGTTTTAATTATGTTCTTTTGAAATATAAAAGGTTATACTTGGTATCAATATTTGATTGGCCGTCCTGACATATTTTGTTAACTC
TTGTGCTCACCCTTGTTTCTCTCTTTCATGGCTCCCTTCTGGATACTCCTTCTGGCTAAGGCACATCCTCTAGTTGTTGTTTTATGCAGGTCTGTAAGTG
TAAACCCTCTGACTTTGAATGTCTGTAAAGATGCTGAATAATTTTTTGGCTCAGTGTAAAATTCTAAGTTAAAGATTACTTTTTTTTCTCATCACTTTGA
AGACATTACGCCACTGTTTTCTAGCCTCTATTGCTGATGAGAAAACTTCTGTCAGTCTGTTCTTTATATTTGAATATGCATTTTCCCCTTTCACAGTGTT
TAGGATGGATTTTGTTTATTCTTGATGCTTTACTACAGTTTGATTCTTGAACAACACAGGTTGCAACTGTGGAGGTCCACTTGTATGGGGATTGTTTTCA
ACCAATCTCAGATGAAAAATATAGTATTCTCAGGATGCAAAACCAGTGGATATGTAGAGCCAATTTTTCCTATGCACAAGTTCTGCAAGCCAACTGTAGG
ACTTGTGTATACCTGGATTTTGGTATATGCAAATTTTGGTATACATGGGAGTGCTAGAACCAATCTCCTGCATATACTGAGGGACATTTCTATATAATGT
ATCTAAGTTTTGACTGATATCTATTCCAATCAATTCTTGGTGTCTACTGTTAATTTGAAGAATCAGGTAATTGCTTCTGGAAAATTCTTAGCAATTATCT
CTTTAATTATTACACTTCTGTCATTCTCCACTCTCTGCTTCTGGGATTCCAATTAGGTGAATTTAGAAGATTTTCATAACTCCCCCTTYCTCTCTTTTAT
TTGTACATGTGTGTATATATGTATGTAATACATATCACGGTCTCCTCCTGTGACCTCCATGGGTCTGCATTTCATCATAAGGAATAGATGCTTCAATGGT
GGCCAGCAGTTTCCTCAGGGTCTTCTCAGCAGTGCATGGGGCCCACATTAGCTCCTCTGGCTCCAAGCGAAGAGATGGTCTCTAGMCCCCTGTTTGATTT
GGGGCACTTACAGTCCTCTCGCCAGCTAAACTCTCACACTCGTCAGCATCCAGACRCTGAGGGGAAAATACCAGCTGCTTCTGTGCTCTGCTTACTCTTC
GGTACTTCTCTGCCATTTCTGGTTCCTGAAGATGTTTATTTTTATTTATTTGAGTCTGACTGTATCTCTTTTTAAAAACATGTTATCCACCATTGCTATA
TATTTGAAGCAGAGAAAGTTAGTGAAGCATAAACTTCATGCTGAATCGAGTGTCTATATCCTGGAATTCTCAGCCTGTAMCCYCTATAAACTAATTTTTC
CACTGTGAATAAGACTAATCATGACTCTGTCGACATTTACATTTTATTTAGAAAATGTCTTCCTTCTGTTCCTTTGATCCAAGCTTGACTCACCTTACCT
TGAGGTTGCATTTACAAAGGAACACTGAAGGTTACCCAACAGTATGTGGGTGTCGTTCATCAACTACAGTGACTCAAGAATATCACCAGTTGGTTTGCCT
TTCTCATGGTTTTAATGTTTTCTCATTAAAAATAAATAAAGCACAGATAAGCAGAAAGAATAACCRTCCATCCAACAACTAGAGGAAAATTTATCAATGG
TTTTGCTTTATCTTTCCTATAATTAAGCTATAAAAAACAACCATCCATGTAACAACTAGAGAAAACCTTTATCAATGACTGTGGCTTATCTTTCCTGATA
ATTAGGCTCTTTCAGGGAGTTATTAACCGATTTTAAAACTTTTGTCTGAGATTGATTAGTAAAGATTATTTCTTGAACCAAATTGTTCTTTCGTTTGGCT
ACTTTGATTAAARAAGAAAGAAGAGATAATAATTGCAATGATTCTTTTATTTTATTTTATAGGGTCGTTGGCTGTGGGTTGCAATTACCATGTCTGACTC
AGTAATTCTTCGAAGTATAAAGAAATTTGGAGAGGAGAATGATGGTTTTGAGTCAGATAAATCATGTGAGTGGCTTTTTTCCCTCACTGCATCTTGTACA
AGGAGAGGTGAGAACAAAAGTAGGACAAGCTGGTCAAGTTTCAAGGAGCAGAAAAAAATCAGCAACAGTAGGTAGAAGTATCATTGTGTGTGATTCTTAT
ACACAACTGTGTGGCTCTCCCTAGAATCCATGTAACGTAATATCTGAAAGCACTAGGTAAGAACACACCAAGTGTGTGTAAATGAAAGCATCTCTCACCA
ACACCTTTCCTAGATAGAGTAGGGTTGTTCCAGTGGTGGCTGTTATGACTACCTTTAGTCCTGTATTGTTATTATTAATCATAATTGAGTGAGCGCTCCT
CCTTAGGAAGAACTGTGCCCAGACTCTGCAGACCAGAATGAGATCATGTGGAGGGGGCCTATAGCACTAGCACCTGGGATGTCCTGGGCTCAGATGGTTC
TAAGCTATTGTTTTCTAACCCTATGATTTTACATTTTACAGATGACAAAACTGAGACTTGGATATGTTTTTGAAACTTGGCAAGGAACTCATGAGTAAAA
TTAATGGAACCATAATTCTAATCCAGTTGTGTTTGATTCCCAAGCCCAAGATATTGCCGTCTGTCAACATTATCATGCTTCTTTACTTTAATAAGAGTAA
ACAGGCATGATAGTGTTGAATGACAAAGCTCCCTAGTGGCTTCCTTACACCCCTGGCTATAATCACTGACTTTCACCTCCTGCCCTGCATCTATTCTGAC
CTACACTGGGGAAAACAGTATGTGGTCTCAATCCTATGGCTTCTACTAGTGTAGAAGTGTTAATGACATCTTGTTATTAACATCTTATTGTTAATTTGTG
GTCTATATTTTAAACAGATAAATTCTGATGCTTTTAAAGAACCAGACAATAAATAAATATCAATTTTATTTTGTAGTTCAAAAAGTTGCTGTCCATTTGA
TATTCAGATGATGCAAATATTTCATGTCCTGAAGAAAAGTCCATAAATGAGTAAAGGTAGCAGCACTCCTGGACCCTAAACGAGTGTCTTCKTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGAAAGATAGAGAGAGACAATATGAGCAGGAAGAAAGAAAAGGCAAATAGTCATTTGCTAATATT
CCATGAATAAAGGTAATTTATAGGAATATTTTTCTAGAGCAAATTTCTTAATGACTGCGTTGCATTTTGTCATTATTATTAACTGCTTTTTTGCGTTGAT
TTTTTTTTCTGACAGATAATAATGATAAGAAATCAAGGTAAGTGACTGATTTCAACAATGCAGCATCTTTTCTAGAATAACTCCATAATATTCATATCAA
AGGCACAAAGCAGAGAATAYTTTCATGCACATTGCACTTCATATAAAATAAYATATACAATCCATTCTTTTTCTCTTTAAAATATTACTATAATTTGATT
TTAAAAACCTTTTGGAATATCCCTTCTAGGTTAGGTTCAAATGTCCCCTCTGTATTCAGGAATGGCACAGAACTCCTGACCTAAGAGGGAGGAGGAAAAG
TTGAACAACAAGTATAATTTCATGGGCATTGGAGAGGTCTCTAAACCCCAAATTCTTGCCACAGGCAAAGAGTAGAGACCTAAAGTGTCATTATTGCATA
TTTCTGTTCAGCTAAAGATTTTGAATTCTCATATAGAACACATATCAGCTAATCACAGTCTGGTATGAAGGCGGGATTAGATGAGGTCTAATTTAGAAGA
CAGAAGTGAGGCATCAGGTAAGTTCCTGAAGTGGAGGTGGTGGAAACGGAAGGGTTAAAGGTATTTTAGAAATTTTAAGTAATTCACAGCAGAGGGAGGA
AGTGGGAGTGGTAAGATTAGCTTTGGGCTGGGAGTGGTCAGGTCAGCCTGGGCCTCTGAGAGCCACACGTTTCTTATTGCRTGGGAAGTTTAAAAAATGG
GTGTGGATGTAGATGAATGGCAAGGAGAGGATGAGTAGGAAGTTGAATGAGTTGCTTTGTTTTTAGAGGAGGTGAGCATGGAATGAGAAGATCACAGCAA
ATTTTGCCAGAGCTGCTGAGAAGAATGGGAGCAATCCGCAGAGAAATGAAGTGTGCATTGCATGTTGAGCTGGAGAGCACACATTCACTCCATTAATTCA
TTCGTTTTGCAAATATTGAGTGTCTATTTGGTATCAGACACTATTGTAGGTGCTGCGGGTATAGAAAAGAACAAAATAGGCAAAAATGTTGGCCCTTGAG
GAGTTTACATTTTAGTGAGGGAGATATAATAAACATTGTAAATAAATCAAATGTATAGCATGGTAGCTAGTGATAATCTATCACTTTCTTTCTGAGAAGG
AAAAATAAACTGGAAATGGAGCTATGAAATGGTGCGTGGGGGGTGGGGTTGAAATTTTAAAGACTTTGGCCAGGCAAGACTCTGTTGAGTAGGTGATTTC
AAAGGAAGGTCTAGCGGAGGTGATGGAGCTGTCCCTGTGGTTACCTAAAGAAAATGCACCTGGGGAGAAGGAGTAGCAGGTGCCCGCACCCAGAGGTGGG
AACAGTTGGGCATGGACAAAGGTCAGCAAGAGGCCAGGCAAGTGGGGTGTTGAGAACTAGAATATAGTTGGAGGAGGTGAGGTCAGAGAGCCAAGGGCCA
GACCGTGGGGAGTCTCAGAAAAAATTTAGGATTCTTTTCTGGGCCAGAAGGGAAGCTTAGGGCAGCTGAGTACTAGACTCTGCCTGTGTTGGTATCCATT
CACAAGGTGGTGAGGTTGTGTCCAGCAGGCCCAGCAGCCTGGCTTAAGGAGAAGAGGGCAAACAGCTGGATGGATGCAGGATGAAGTTTACAAGGATGAT
GTAGAGAAAATAATTGAGGATGATGGTGAGAGTGTGGTTCAAATGCCTGGCAGAGGGACCTTGGCTGCATGGGGAAGGAAGCAAAATCTTAATGGGGTTT
AGCAATGGAAGGAAATGAAGGATTTAAAGGACTGCATGGCTCAAGTGAGGTTGACAAATAGGTGTGGAAGGAGGAAGGAAGYGAGAAAATGAGGTACATG
GGCAGTCACAGAGTGCCAAGGAGTTAAACATGTCAGACAGTAGTTCCTGGTGACAGCAAGGTCCAGGGTGTATTCATGGACTGCGTGACTCAGGTTAAGT
CAAGATCCCCGAAGTTGWAGAGGTCAAATACAGGTTAAACATGGCCTTATGGGAAATGAAATGAATGGGAAATATTAAGGAAATATGATTCTRTGAAAAG
TGTGGGCATGTTCTTGAATTTTTCATCATTATCAACATTATTTAATGTAGTTGTAATATTTTTAAGCATGAGGAAGCTTTAAAATTAGCTAATCCAACCA
CTTCAACTTACCCATGAGGAAATGCAGTCACAAATAGATTGAGGGTCATGACTGAGGGCAAAGAGTTATTTGTTGGTATAACTGGGAGTATAGAGGACTT
TTTACTTTCTCTCCATACCTCTCAGGTGTTCATCTCTGTGAATCGCTAGTGAACCTGAGATTGAGCTATACTGAAATCTCTAGAAGAGGGAAATCTAGAA
GAATAAAGCTTGTGTTTAAGATACTAGGTTTGGCCAGAATTTTCCAGCCAGTGGGGATTTTCTTTCTTACTAAAGAATAACTCATAAAATCACCACCTAG
GGAGAATTTCCCATTGTATTGGAAAGGGTGGTCTTTAAATCCTTATGTTTTTCTCATCAGGTTACAAGAYGAGAAGAAAGGTGATGGCGTTAGAGTTGGC
TTCTTTCAATTGGTAATAAAACTGTGTTGATTTATGGCAGTGGGTGTGCAGCTATAAATTGTTTAGATCATGAGGGGAGTGTTAAATCTTTAGTCATATT
GGCAGGTTTTTAACTTCAGTGATCACTTTTTCAGTCATAGGCTTTGCCTATGTGATAACATGCTGAATAACTATTAGAAATATATTGCTCATAAAGCATA
CAAATCCTATCCAATAGATCAGAAAAATGTCTTGGAAAATTATCACTAAGCCCATGGTTATCATATTTGTAAGGAAAGTCATCACAACAATCACATATAT
ATATTTATTCTTATGACAAATCTTTAGAAATTTTAAAGTATAGGTGTTTACTCCAAATTTTCTCAGGATGGAGGCATTTCTAGGCAGAAATTGGCATTCT
TCATAGTCACTATCAGTTCAACAAAACAATTTATAGTATTTCTCARTGCCCCACACAGTTTATCTACTTGGCAATGGCATCAATGACAGTGATTATTTTC
CCCTAAGTTGTAGATGAGTAGCTAAAAACKAAAGTCAGCTCCTGAAATAAACAGAATGAATTCAGAGAGCAGGAAATTTATAACATGATCTAACAATGTA
AGAGTCTAATGTTTTAGATAATTGATGTACCGTGCCGTTTATTTCAATATAATTAGTATACGAACTCTGCCACTCAATTAAGGTGATTCCCATGAAATTT
GGTGTTGAGTACTATTCATGAGAATCTAGTAACTAAATTAAGTAGTCCTCCTACCTCTCCTGCTCTTCACCCATAGATGATCTCTGAACCCTTTGTTTTT
CAAGTTTCGGTTTTCTTCATYAACTGAYATTTGGCTGATGTTTGTGGGAAGTTTGTGTGCATTTCTCCATGGAATAGCCCAGCCAGGCGTGCTACTCATT
TTTGGCACAATGACAGATGTTTTYATTGACTACGACGTTGAGTTACAAGAACTCCAGATTCCAGGAAAAGCATGTGTGAATAACACCATTGTATGGACTA
ACAGTTCCCTCAACCAGAACATGACAAATGGAACACGTTGTGGGTAGGTTRTTTTTGTTTTTAATTTTTTACTTTTTTGCTCATATCTTAAATTGTAATT
CAAAATGTATAGAGGGGATTTTACTGGCTGAGSTGGAGTGGTATCTAACACAAAGAGAATAGAAACATGAGTTTACCCATATTTCTAGAAATTACTCTGC
CTCAAGTTTCCTTCTATCTTACTATGTTTTAAAATCTTAATAGAAACAGGATTGAAAGTCACTCACCAAATACATTGCCAAAATGTTACCACTTTATTGA
GTATAGGCTTGAGCATGACACTACCAATACTTAACGTCACTAGGGAGGTGACCCATGAATTTTACTTGAGTATCATCTCCAAGAGTTCTATTTTTCCCCC
CCACCAACTCCCCTCTGCCCCTTAGCTTTGTGGCTGTGGCTGGTGATCCACTTGATCTTAACCCTTCCATCTGTAATGGGAATTTCATGAACAGGCTGCA
TTACTTTGAGTAAGGTACACTAGTCTCAACCAGTAGTTGAGTTTGTTTTTTTCTTTTTTCTTTTTTTTTTTTTTTTAAGATGGAGTCTCCTTTTTTGCCC
AGGCTGGAGTACAGTGGTGTGATCTTGGCTCACTGCAGCCTCTGCCTCTTGGGTTCAAGTGATTCTCATGACTCAGCCTCCTGAGTAGCTGGGATTACAG
GCGCCCGCCACTATGCCCAGCTAAATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATTTTGGACAGGCTGGTCTCAATCTCCTCAGGTCATCTGCCTG
CCTCAGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGAAAACTAGGGCAGTGCTGTGATCAGAGGCAACCACGCAGAAGTAGCCAGAACTCACACAGACA
CAGTCACTATGCTACTGTTTTCTTTGTGATAAGCCTGACAGGCCACCTTGTAATCAGTGAGTCTGTCGTGTACTCAGGGCTGACTCACTGTCATAGCRTG
GCCTTTGCAGTGTGCCTCATGCTGGCTCAAGTTCAGAACAGCTTATTTGCACATAGGAACCCACATATTCAGGTTCAAGAATCAAGGGTGGGGCACATCT
TGGCTAGAAAGACACTAGGAATGGCTCCCTCAGAGGAATTTATAGTTTTCACCTTCATTTTTGAAATTTTCTATAGGCTTGATTCCAGACTATGAATGAG
TCCTTCTAAATCATTGACACTCTTCCATAATATTATCTCTCTTAGGGTCTTTCATTCATTTACTCATTCAACCAAAATTTTTTTAAACATCAAATATACC
AGGAACTCATGAAAGCATCAAGGACACAGTTGTCTTAAGAGCATGGTCCTAGCCAGGTATGGTGGCTCATGCCTGTAATCGTAACACTCTGGGAGGGTGA
GACAGGAGGATTGTTTGAGCCCAGAAGTTCGAGACAAGCCTGGGCAACATAGTGAGACCCTGTCTCTACAAAAATTTTTTTAAAAAATAGCTTGGCTTTG
TGGTGTGCCCCTGTCATCCCAGCTACTTGAGAGGCTGAGATGGGAAGATCACTTGGGTCTGGGTGTTTGTGRCTGCAGTTGGCTGTGATTACATGGGTGA
CAGAATGAGACCCCATCTCAGAAAAACCAAAAGAGTCATGATCCCTATCTGTGTGAAGCTTAAGCCTAGTAAGCCATCATTCAGTCAATGATCATTTAAA
AACATATGCAGTGACAGACTTGGAGGTACCTGACAGAAAACACAGGATAATATACAATGTGAATTATTCTTTATAAACAACAAGCCTACTTATTCTATAT
AAGTTCCCTAATGTCTAAATATGTATGTTTCTTTTCTAAAATTGGAAGTTTCTTTTCATTTGACAAACTCAGAGCAATTTGTATAAAAGAGAGATTGAGT
TCAACAAAAGTCTTTGAAATCCTTCATTTATGCGGGAGGACAGAAGTGAACTGCTTTTTACAGAGGGGTTTGACCACAAAACATAAGATTAATCATTCTC
CCCTTGGAGAAAAAAATGCATTCAGACCTATGTGTGATGTAAATTGACCCAAGCCACGGATAACACTTATGAGGATAAGTTTTTGAGGAAAAGGTCCTCA
AGTATATCTTATCATGCCTTAAAATTTGGAAATAAATGTGAGAGGAGCCAAAATTTGAGGCATATACATGATACTAGGTGCTTATGAATATTTATCCAAT
GAATTAAAGAATGAATCTACTTTCAACATTTGCATCATAGCCATCTATTAARAAGGAATTCTCTGTGGCCACTCATTACTCACTGTCTTCATTGTTACTG
GATCACATACCTGAAGGCGAGCAAAGAATACAAACTGAGGCTTTCAGAAGTCCACTGGCTTTGGCTGAATTCACGTAATACCAAATGTGAATGGACATTT
GTCCTTTTCTTTTTAAAAAAATTCATACAGATAGCTGAAATTGTATAGACTATACCTTTCTAGGCATTTCTTTACCAGGAACTCCTTGATGAGTTAAATA
CTGTCATCGTGAGTTATTGTGATCATTGACATGAATACTATTTGTTCTATTCTGAATAACATGTTTGTTTAGCTGTTTTATGGTAAGATCACCGYGATCT
TATGACTTGGGTGGGACAGAGGAGAAAAGAGARGACATTTTTCTACCTGTAAGTAGTTTATATACCTCCAAAGTCGCCCAAACTGTTTGCAGGTTTCTTT
CGTGGAAAAAGTATATCATTAAAAGTACAGTTTCTCCTTTTATTACAATAGATGTATTAGCCTTAGAATATACAAGACAACCCAATAATTTTAGCAACAA
AAGCATGTGTGTGTAATGACAGGAGCTGGTTTTACTATTTTATTATATTGGTTTCCACATGTCAATTGTAATCTAKTAGATGGAATTTTTAAGTTAAAGC
CTTCCAGATGGCTGTCAGTGAATTACACTGATAAGGATTACAGAGTGTCAGGTCTCTTGATTAGCTTATCAGAATTTCTGGTCAGAACAGTCGAATAATA
GATAAAAAAATGAAAGCAGATGAAGGAATAGGAAGTTAAAATACCACAGTTGCAATTTCATTTTATTTTCTTTTATCCAATTAAAGTGTAAACACTCAAA
TGGAAGCCACAAAGTCTCGTGTAACTTAATTGTAGAAGAGACATACTGTAATTTCTGCCATATTCTATGGGTCACAGAAACCAACCCTGGTGTAATTTGG
AAGGAGTCTAAACAAGTGTGAATATTGCCAGATGAGAATTTTAGGGGCTTTTTGGAGGCTGATTACTACTGCGGGCATTGGGGAGCTCAAGTCTTCACTT
CCTCTCATACAGATAAATCAATGCAGAAATCTAGGCCTGTCCTTTCACTTGGATTTCAGTCTATGTTCTTAGCAATATATATTCAGTTTGTATAAGCAAG
CACTATTTTGTAGCTAGACAGTTTAGGCTATATACTTTTGTAATGGCTTTGTTGAGATACAATTCACATACTATAAAATTCACCCACTCGAAGTGTACAA
TTAGATGTTTTTTAGTATATTTACAGAGTTGTGCATTCACTGCCACAGTCAATTTTAGAACATTTTCTTTTTTTTCCTTTTTTTTAATTATACTTTAAGT
TTTAGGGTACATGTGCACAATGTGCAGGTTTGCTACATATATACACATGTACCATGTTGGTGTGCTGCACCCATCAACTCGTCATTTAACATTAGGTATT
TCTCCTGATGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGGCCCCAGTGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCC
ACCTATGAGTGAGAACATGTAGTGTTTGGTTTTTTGTCCTCGCGATAGTTTGCTGAGAATGATGGTTTCCAGTTTCATCCATGTCCCTACAAAGGACATG
AACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCACTGTTGGACATTTGGGTTGGTTCCAAG
TCTTTGCTATTGTGAATAGTGCCACAATAAACATACGTGTGCATGTATCCTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGAT
GGCTGGGTCAAATGGTATTTCTAGAATTTTAAAACATTTTCATTACTAGAAAAAGAAACCCCTTGCCCCTCGGCCATCACTTTCTAGTACCTCATCCTCC
TCCCTATCCCTAGGCAACACTAATCTGCTTTCTGACTGTAGATTTGCCTATTCTGAACATGTCATATTAATAATATCATATAATATGTGATCCTTTGAGA
TTGGCTTCTTTAACTTAAGCATGTGTTTTTTGCAGTTCATCCACATGTATTTTTATTGCTAAATAATATTTCGTTATATGGATATAATACATSTTATGTA
TCTGTTCATCAGTTGATGGACATTTGGATTGTTCCCACTTTTGAGCTATTACAAATAATTCTGCTGTGAACATTTGTATACAGATTTTTGTGTGGACATG
TCTTCATTTCTCTTGGGTACATGTCTAAGTGTGGAATTGCTGTATCACATGGTAACTCTATGTTTAACTATTCTAGGAACTGCCAGACTATTTTCCACAG
TGGCTGCACCATTTACATTTCTGCTAACAGTGTATGAGGGTTCTAATTTCTCCACATCCTCACCAGCACTTGTTATTTAGCATCTGTGATATCTCTCATA
GGTAGAATAATGACCCCCAAAGATATCCAGGTCCTTATCCCTAGAACCTGTGAATGTTACCTTGTATGGGAAAAGGGTCTATGCAGACGTGATTCAGTTA
ACAATATCGAGATGGGGGAGACTATCCTGGATTATCCAGGTGGGCCCTAAATGCAGTCATGTGTGTTCTTAAAAGGGWTGGTTGCTAAGAAGAAGGCAGA
GGGGGATTTGCCTGTAGAGAGAAGAGTAGAGGCAAGGTGACTACAGAAAAAAAGAATGGAATGACATTGCCACAGCCGAGGAGTGTCAGCAGCTATCAAG
AGCTGGAAGAAGCAGGGGGAAATTTCTCTCTTAGGGCCTTAGGAGGGAACACAGCCCTGTCAGCACCTTGATTTCCACCCAGCGAAGCTGATTTTGGGCA
TGTGAGGGGATACATCTCTCTTGTTTTAATTGTGGTAATTGTTACAGCAGTCATAGGAAACCAATACAATAGCCATCCTAGGGAGCAGGAAGTGGAATCT
CATTGTGGTTTTGATTTGCATTTCTCTGAGGACCAGTGATGTTTGGCTTCTTTTTAGGTGCTTGTTGGCCATTTGCACATCTTCTTCAGAAAAATATCTA
TTCAGATCTTTCATTTGGAAATAAATAATATAACAAAATATGTATTCAGCCCTTTTTAAAACTGGGATATATGTCTACTGATTATTGAGTTGTAGGAATT
CTTTATATATTCTAGATATAAGTTCCTTATCAGAGATACAATTTGCAAGCAATTTCTCTCATTCTTTGGGTTGTCTTTCTAACTTCTTGATAATTATCTT
TGAAGCACTGAAGTGTTTAATTTTGGTGATGTCTAGTTTGTTCTTTTGTTGCTTCTGAATTGGTGTCATATCTAAGAAACCATTGCCAAATCCAAGGTCT
TGATAATTACCTTTGAACCACTAAAGTGTTTAATTTTGGTGATGTCTAGTTTATTCTTTTGTTGCTTCTGAATTGGTGTCATATCTAAGAAACTATTGCC
AAATCCAAGGTCGTGAACATTACACTTGTTTTCTTTTAATGGCTCTGGCCATGTGAAGTGCCAGCTTCCCCTTCATCTTTCAGTATGAGTGTAAATTTCC
TAAGGCCTTCCCAGAAACTTAGCAGATGCTCTAATCCTTCCTGTACAGCCTGCAGAATTGTGACCCAACTAAACCTCTTTTCTTTATAAGTTACCCAGTC
TCAGGTATTTCTTTATAGCAGTGTGAGATGAACTAATACACTCACGGTTAGTCTACGATCCACTTTGAGTAAATTTTTGTAGGGGTGAATTAGGGGTCCA
AATTGATTCCTATCTGCATGGATAGCCAGTTGTTCCAGCATCATTTGTGGAACAACTATTTTTTCCCCATTGATTAATCTCAGAATCCTTATCAAAATCA
ATTTACTGTAATTAAGAGGGTTTATTTGTGGACTCTCAATGCTATTCCATTGACCTACACATCTATCTTTATGCCAGTAACACACTGTTTTGATTACCGT
AGTTTTATAGTAAGTTTTGAAATCAAGAAGTGTGATTCTACTACTAGGGATTGTCTATTCTGGGTCTCTTGGATTTTCATATAAATTGTTTAACTTCTGC
AAAGAAGTCAGCTAGAATGCTAGGAATTGCATTGACTCTGTAGATCAGTTTAAGGAATATTGCCGTCTTAACAATATTAAGTCTTCTGATTCGTGATCCA
CTTATTTGCGTCTGCTTTAATTTATTTCAACAAGGTTTTATAGCTTTCAGAATATTTTGCAATTTTTTGTTAAATTGATTGCTACGTATTTTATTATTTT
TGATGTTATCATAAATGGAATTGTTTTCTTAATTTTATTTTCAGTTTGCCCATTGCTACTATCGCAAAATACAACTTTTTTTGTATATTGATCTTTTATC
CTAAACCTAGCTGAACTACTTATGAGTTCAATAGTTTTTTAGTGGGCTCTTTAGGATTTTTTATACAAGACCATATCATCTGCAAATAGAAATAACTATA
CATTTTCCTTTCCAATCTAGCTGCCTTTTTTATTTTATTTTATTTTATTTTATTTTATCTTATTGCCTAATTGTTTTGGCCCAAACCTCCAGTACAATGT
TGAGTAGAAGTGGTGAGAGCACACATCCTTGTCTTATTCCTATCTTAGGGGGAAAGCATTTAGTCTTTCACCATTAAGTATGGCATTAGCTATGACTTTT
TCACAAGTGTCCTTTATTATGTTGAGGAATTCCCTTCTAATCCTAGTTTGTAGAGTGTTCTAATCATTAAGTCATGAATTGAGTCATGTGCTTCATCTAC
ATCTATTAAGATGATCATGCAGTTTTGCCCATTATAATATTGATATGGTATATTACATCAATGTATATTCATATGTTCAATTACCTTTGCACTCCTGGAA
TAAATCCCACCAGGTAATAATGAGTAATCATTTTACTATGCTGCAGGATTCAACTTGTTTGTATTTAGTGAAGATTTTTGTGTCTATATTAATAAGAGAT
ATAATATATAAGAGTTTTCTTCTCTTATAATGTCTTTGCCTGCTTTTGGTATCGGATAATTCTGGCCTGATAGTTTGGCAGTGTTCCCTTCCATTCTGTT
TTTTGAAGAGTTTGTGAAGAATTGGTATTAGTTCTTTAAATGCTTTGTAGAATTCTTCAGTGAAGTCATCTCATCTTAGACTCTTTGTTGTTGAAAGTTT
TTGATTGCTGATTCAATCTCTTTAGTTGTTATAGGTCCACTCAGATTTTCTATGTCTTTAAAAATATTTTTTAATTTGGCACATAAAAATTATATATATT
TATGGTGTGCAGCATGATGTTTTGAAATATGTATACATTGTGGAATGGCTAAATTGAGCTAATTAACATATTTACTACCTCACACACTTATCTTTTTTTG
TTGTAAGAACACTAAAAATCTACTCTTGGCTTCAGGCTTCCTGGGATGCCAAAAAACTGTGTGTCCGCTTGCTTTCTCAATGGGGAGGCTTGTGGTCTGG
GGCAAATTTTCAGCCCTGGTCACTGGCTGCCTGGAAATAGATTCAGTGCTGTTGTTGGGGGCACGGTGGGCATGAGATTAACCTCTAGTACTGCGGGCTG
AGTGGGAGCAGGTTAAGGCCTGTAACTGCCAGCTTTCCCCCACTTCCCTAGTGACCTGTATGACTTAGCAGAGGCAGCCATAATCCTCCTGGGAACATAA
CTCCATTGGACTGAGAACCACACCCCCATCCCCCACAGCAGCTGCAGCAAGCCCCGCCCAAGGAGAGGCTGAGCTCAGAGGCGCCTATCCCTGCCCCTAC
ATGGTGGTCTTTCTCTACCTGCCCTGGTAGCCAAAGACAAAGGCCCAATTCTCTTGGGAACTCTGTGGCCCTGCCCACTGCTTGGGAAACCTGAATASAT
AACCAGGTGTCCTGAGGGCAACTTTGCATTCTCCCTATAGGACCATAGCTGATGCACTCTTGAAAGTGCCACCTCCTAGCTAGAGGCCAACCAACATAAA
ACCAACACACTAAATAAAAACACAACAGAGGACCTTCACGGAGCCCACTTCACTCCCCTGCTGCCTCCACCAGGTGCAGGTGCTGTTATCCACAGCTGCA
AGAACTGAAGACAGATCACATCACAGGACTCTTTGCAGACTCTTGCCAGTACCAGCCCAGAGCCTGGTAACTTTGCTGGGTGGCTAGACCCAGAAGAGCA
AAAACAATCACTACAGTTTAGCTTACCGGAAGCCCCATTCATAGGGGAAGGGAGAGAACACCACACCAAGGAAGCACACCATGAGACAAAAGAATCTGAA
CAGCAGCCTATGAATCCCAGATCTTCCCTCTGACATAGTCTACCCAAATAAGAGAGAACCAGAAAAGCAAGGTTCTTTAACACCCTGAAAAGATCATACC
AGCTCACCAGCAATGGATCTAAACCAAGATGAAATCTCTGAATTGCCAGAAAAAGACTTTAGAAGGTTGATTATTAAGCTAATCAAGGAGGCACCAGAGA
AAGGTTAAGTCCAACTGAAGGAAATAAAAAACATGATACAGGATATGAAAGGAAAATTCTTCAGTTAAATAGATAGCATAAATAAAAAAACAACCACAAC
TTCTGGAAATCAAGGACACACTTAGAGAAATGCATAATGTACTGGAACGTCTCAGCAATAGAATCAAATAAACAGAAGAAAGAAACTTCAGAGTTTGAAG
ACATGGGTTTCAAATTAATCCATCAAAGACAAAGAAAAAAGAATTTAAAAAATGAACAAAGCTTCCAAGAAGTCTGGGACTATGTTAAATGACCAAACCT
AAGAATAATTGGTGTTCTCGAGGAAGAAGAGAAATCTAAAAGTTTGGAAAATATATCTGAAGGAATAATTGAGGAAAACTTCCCTGGCCTTGCTGAAGGA
AGATCTYTTGTCTAGGGATGTAGACATCCAAATACGAGAAGATCAAAGAACACCTGGGAAATTCATTGCAAAAAGATCATCACCTAGGCACATAGTCATC
AGATTATCTAAAGTCAAGATGAAGGAAAGAATCTTAAGAGCTGTGAGGCAAAAGCACCAGRTAACCTATAAAGGAAAACCTATCAGAATAAAAACAGACT
TCTCAGCAGAAACCCTRCAAGCTAGAAGGGATTGGGGTCCTATTTTTAGCCTCATTAACCAAAACAATTATCAGCCAAGAATTTTGTATCCAATGGCACT
TAACTTCATAAATGAAGGAAAGATATAGTCTTTTCCAGACAAACAAATGCTGAGGGAACTTGCCACTACCAAGCAAATCAGGGAAATGCAAATCAAAACC
ACAGTGTGTTATCATCTCACTCYTGCAAGAATGGCTATAATCAAAAAATCAAAAAAGAATAGATGTKGGCATGAATGTGGTGAAAAGGGAACACTTTTAC
ACCATTGGTGGGMATGTAAACTAGTACAACCACTATGGAAAACAGTGTGTGATTCCTTAAAGAAGTAAACGTAGATCTACCGTTTGATCCAGTAATCCCA
CTACTATTAATAGGCATGTACCCAGAGGAAAATAAGTCATTATACAAAAAAGATACTTGTATATGTRTGTGTATAGCAGCAGAATTTGCAATTGCAAAAA
TATGGAACCAGCCCAAAGGCCCATCAATCAACGAGTGGATAAGGAAAATGTAATATATATATTACGTATGATACAGATATGATATATATGTAATATATAT
TACATTTTATATTACTATATATTACATTTTAATATGTTTTTGTGTGTGTGCATATATATATATATGCACACACACACACACACACACACACGCACCATGG
AATACTACTCAGCCATAAAAAGGAATGCAATAATGGCATTTGCAGCAACCTGGATGGAATTGGAGACTATTATTCTAAGTGAAGTAACTCAGGAATGGAA
AACTAAACGGTGTATGTTCTCACTCATATGTACGAGCTAAGCTATGAGGACACAAAGGCATGAGAATGATACATTGGACTTTGGGGACTTGGAGGAAAGG
GTGGGTGGTGAGGAATAAAAGACTACACACTGGATGCAGTGTACACTGCTTGGATGATGGGTGCACCATTCTAAAATCTCAGAAATCACCATCAAAGAAC
TTATTCATGTAACCCAACACCACCTGTTCCCCAAAAACCTATTGAAATAAAAATTAAAATTTTTTAAAAATAATAAAATGTACATTATAAAACAAAAAAA
ATAAAAATCTACTCTTTCAATAATTTTCAAGCATACAAAACATTGTTACTAACTATAGTCAGCCCAGTAAATTTCTTGAACTTATTCCTCCTAATTGAAA
TTTTGTATTTTTTAACCATCTCCCTAATCTCCCCACCTCTAGCCCTTAGTAACTACCATTTTACTCTCTGCTTCTATGAATTCAAATTTTTTAGATGTCA
CATTTAAGTGAGATTACACTGTATTTGTCTTTCTGTGCCTGGCTTATTTCACTTAACATGATATACTCGAGGTGCATCTGTGTTGTTGCAAAGGACAGGA
TTTTTTTAAAAGGCTGAATAATATTCCATTATCTATATGTACCACATTTTCTTTATCCATTCATTTGTTGATGGACACATAGGTGGCTATTGTGAGTAAT
GCTGCAGTGTGCATGGGAGYGTAGATATCTTTTTGATATATTGGTTTCATTTTCCTTGGATATATACCCAGTATAGGATTGCTAGGTTATATAGCAGTTC
TATTTCTAACTTTTKGAGGAACCTACATACATATTTCCATAATGACTGTACTAATTTACATTCCCACCAACAGTGTACAAGTGTTCCCTTTTTTCCACAT
TCTTGCCATCACTTGATGTCATCCTTCTTTTTTATAATAACCAGACTTTGCTTCATGTGTTTTGGAGGCTCTTTTTTTAGGTGCATATATCTCCATAAAT
GTTATCACTTCACGATGGATTGACCCTTTTATCTTTACAAAATGATTTTTATCTCTAGTAACAAGTTTTTAAAGTCCATTTTGTCTGATATTAGTATAGC
CACTCCTGGGTTCTTACGGTTGCTTTTTGAAATGATTTTGTTTTTCTATCTTTTTGTTTCAACCTGTTTGTATCTTTGGATCTAAAGTGTGTCTCCTGTA
GACAGTACATAGTTGGATCTTGTTTTATTTAATGCAATCTGACAATCTCTGTCTTTTGATTGTATTGTTTAATCCATTATATGTAAAACAAACATAACAT
CCTGAAAAGTGGGGGGAAAAAGTCAACTGGCTAGAGCCCTCAGGAGCCAAGTAATAACATGTTGATAAGTTCCCTGGGTATCTTATGCCTGATATGTACT
AGATTAAGTGTTAGAAAAGCTGGCAAACTGGAAACCCCAATGAGTGCAGACCAAAAAGACTCAACAAAATCCTGCTTTTTCTAGATAGTGGGTCAGAAAG
AGAAAGCCTAGTAGAAAACTTCTAAGCAATAATTGCTCTACTCTAGCCAAACACCACAGAAGAAAACGGTGACCTCACTCTCACCCATGCCAGCGAATGT
TGATTTGGGAGCATAGACTCTTCCACACTTGCTAGGTGGTAATAAGCCCCTCTTGTGCCACCCCCTCACTCACCCCCATGGTGTCAATGGAGAATATGTG
GGAGGCCTGACTCATCCCCACTATAGTAAGGCACCTCTCCCCTTACCTGCTGGGTTGGGGTGACAGAGTCAAAACATTACCACCACCGCCATGGAAGGGG
AAATCAAGACATTTTCAGATGAAATAAATCAAGAGAATTTGTTGCCAGCTGACTTACCCCAAAAGAATGGCTAAGGAATGTTCTTTAAGCAGAAAGGAAA
TAATAAAAGAAGTCCTAGACATCAGGAAGGGAGTGCGTAGTAACAAAACTATGAGTAAATGCAATAGACCTTCCTTCTCTTAAGCTTTCTGAATTATGTT
TTATGGTAGAAACTCTAACACTGTGATATGATCCTACTCTGACACTGTCTGATGTGTGTTTAATTTGGAAATAGATAAGACACTTATTAACGAAGGAGAG
TAGAGGTATGTAATGGGAGGTAATCTTTATATATTTCACTTGAATTGGTAAAATGACAGCACTAGTAGACTGTGAAAAGTGATGTATCTATAATGTATTT
CCTAGAGCAACCACTTAAAAAGCKATACAAAGAGAGACACTTAAAAACGCTATAGATAAATCAAAATTGAATTCTAAAAAAATGTTCAAGCAGCCCATAG
GAAGGTAAGAGAAAGCAAACACAGAAATAACAGAGAGAACAAATAGAAAMCAAGAAAGAAAATGACATATTTAAGCCCTAATATATCAAAATATAAGCAA
GATTTTTTGTAGATATAGAAAAGATTACCCTAAAATGTTTATGAAAATGTAAAAAAACTGGAATAGCTAAAATAATTTTGAAAAAGAATAATAAAGTGAG
AAGAATCAATCTACCCAATTTCAAGACATATTATATAGCTAATGCAGTCAAGGCTGTGTGGCATTGACAGAGGACAGATATATAGACCAATGGAACAGAA
TGGAGAACTCAGAAATAGACCCACACAAATATGTCCAATTGATTTTTGACAAAAGTGGAAAAACAATTCAGTGGGGGAAAGATAAGCTTTTTATCAAATG
GCTGTGGAGCAGCTGGACATCCATAGGGCAAAAAAATGAAATTACACAAAAATTTTCTTAAATGAATCATGGACTTATATGTAACAAATAAAACTAAACT
TTTAGAAAAATATGGAAGAGACCATTTTCATGTTCTAGGGCTGGACAGAGCATGTAGATGACACCAAAAGCACAATTCATAAAGGGAAAATTTGATAAAT
TGGACTTCAATAAAATTAAAAACTTTGTAAAAGATCCTGTTAAGAGAATGAAAAGACAAGCTACTGACTGGGAGAACATATTTGCAACTTGTATATCCAA
AAAAGGACTAGGATCCCGAATATATAAAAAATTCTCAAAACTCAGTGTTAAAATAACAATAGCAAATTTCAGTTCAAAGATGGGAAAAAGACATGAGTAA
GGACAAAAGATGGCAAATGAGCACATGAAATATGTTAAACAACATCAATAGAGAAATGCAAATTAAATCAAAATGAGATATTACTATAGACTTATTGGAA
TGGCTAAAATTAAAAATAGTGATAACCCTAAATGTTGATGAAGATGTGGAAGAATTGGATCACTCTACCATCACTCATGCCATTCAAACCAYGTCATAGC
TATCCTGGAAAACAGTTTAGTAATTAAAAAAATTCTAAACACTCAACTACCATATGACTCAGCATTTCTACTCTTGGGGATTTATTCCAGAGAAATGAAA
ACTTATGCTCACATAAAAACCTATACACAAATGTTGATAGCTGCTTAATTTGTAATAGATAAAAATTGGAAACAGCCCAGATATCCTCCAAAGGATGAGT
GGTTAAACAAACTGTGATCCATCTATCTATATTATATGGAATCCTCCTTAATAAATAGGAATGAACTGTTAATGATGAAACTTGAAAGAATTATGCTAAG
TGGAAAAAAGCCAACCCCAAAAGGTTCTACACTGTGAGATCCATTTATATGACATTCTTGAAATGACAAAATTACAGCAAAAGAAAACAGACTGGTTGTA
GCTGGGGCTAAGGAGGATATGGGGATTGGATAGAAGCATGTGGAGATATAAAAGGACAATATGAGGGAGTCTTGAGATGATGAGAATGTTCTGATCTTGA
TTATATCACTGTCAATATCCTGGGTGTGATATTGTACTACAGTTTTGCAAGATATTTGCAAGATATGGCTTTAGTAAATCTGTAAGCTTGATGTGTAAAT
TGAATGACAAAACAAGGTAAAATGAAAAAAAAAAAGGTAAAAAGTTTCCAAAACAAGGTAAAAAGAAACAAAAAAGCAAAATAAGTCCTCATGTCATAAT
AATTTGTAAAACGTCTCTTTATCTTTTTTCCTCTAATGTCATCTCTCTCCCTTCTTTGCTATTCAACAAATGGGGAATCTTAATTCATTCAAGTAGATTC
AGGTCTGTTTTTGCTGTTAAAAAAATGCCATTCTGTGGTCCAAATCACCTGCACACTTTATAGAATCCTTCCTGGGGTTTTATGATGACAAGTGTTCCCA
ACATTCAGGCAATAAAGACCTTGGTATGCAGTCAAGGGAGCAAAGCCAGGCCTGCTCTTTTCCTTCCTGTCAGTTTTTCTGATAGGTTTTTTCTGTTGTT
CCAGAAATATTATCAAGTTCTCTAAAGCCTTAATCACCTCTTCTTCCCAGAATAAAATAAAAATGAGTTAACCACTCATTTCAGAGACACCGCAGGAGTG
AAGAGAGTGATAAACTGCATATATCTTTATCTGCACCATCCAGCAGTGATAGAATTATCTTGACCTTTGTTCCAGAAAATCCCAGAGCTGGGCCAGTGCC
CAACACCCTTAATCCACATATGTTTGTAAACTGGCATTTTTAATGACAGTCGCTTCATCACTTCCGCTTACAGTGCTTGTAGAATAAAGACACCACAGGA
AATTTAAGTTATTTATTRTTATCATTTTAATTGTCACATAAGTATACATATTTATGGGATATAGTGTGATGTTTTGATGCATGTATACAATGTGTAATGA
TCAAATCGAATAATTAGCATTTCCATCACCTAAGACATTTATCATGTCGTTGTGGTGAGGACATTCAAAATCCTCTCTTCTAGCTCTTTTGAAATAGTCA
ATGTATTATTGTTAACTATTATAGTCACCTACTATGCAATGTAGTACCAGAACTTATTCCTGAACAGTAACTTTGTACCTGTTGACCAACCTCTCCCCAT
CCCTCCCCCTCCACTGCTCTTCCCAGCCTCTGTTAACTACTATTCTCTAAGTAAAATGTTTGGACAAATGCTTATAGTTTTCTGGTTTGGGACACCCCAA
AACAAGCTGAAAATGAAGAGAATTGACTCATGTATACCTTAGAAAGCTTTTACTTATAATAATATAGTATACTCTCTGTTCAGAGATATTTAGCTTTTAT
AAGAGCCTCTGATTGTGGATATTCATCGATAAGTTTATGATTTTCTAGTTCTTGTTCATCTCAGGGTTCTTCTTAGTCATCATGAAAGACTGGGAATGTG
GTGAGCACAAGAGACCTTAGCTGGTTTTGAGGTTGTCAGAAGGGTTGACCACAGCAGTTATTTCCCTTCCTAATTAGTATTTTGAAAGTCAAAGCAAAAT
CAGGAAACATTTATTGATTTCAGGCAGAGTGACCAAGCAGTGTAAGCCCAGCCCTTGACCTTGAGTAGCTTGCAATCTACTAGCAAGACAAGCATAAATG
TACTCAATATAAATATATTCAATAAAGATATTGACTAATAGTGCAGTTTATTCTGTATTAAATGAATTATGTTGCAATGCTTGACCTGAGTTCAATAGAG
AAAAAAAATCAAGCTCAAGCCACAAAAAGAAGGCTGACAGAGAGCGGAAAGGATGTAGGATGAAGAACCCATGCTGAAGAGGCTGCTTGCTGATTCTCTA
AAGTAGACTCTATACCATTTAACTTGTCCCTGAAGATCATAACTGTCATCAACCAATATGTTAATTTTCTAATTATGGAATGCCTTCATTCATAAAAGCA
ATTTCAGAATTTTTTTTTCCTCCACTCCCTGGCACTGCCAATCCCAAACCCTGTGCAGCAACATGGTAGTGCTGCTGGGAAAAATGCCAAAGTATTTTTC
TTTGCTATTTTTCTTCTTGCTATTTCCCACAAGTGTCTTTGGCTTCAACCTTAGAAATTGTCCTGGTGAATGAACTTAGGCTGTAGTCAGCAAAAAGACA
GGGCTAATAAAATGCTTTTCTCTCCCATGGGAAGATAACAGGCACATTTTTCAGTGTCACTCTGAGATAGAGAAGTTGAAAAGCTGGCTAGCATTCCTAG
AAGAGGTAACAGTAAGCCTCCTGATTTACAGCACACATCGTTCTATCAGTTTCTTTTCAGACAGCCTGTCTGGCTTTTGAAAATCTTTCTTRCCTGTGAT
TGCTCTATCACTGCATGATGAGTATGCATGGAAGAGACTAAAGTGGACCAAGCCCTGGGCTGCCATTTAGGGTACCCTGGCTTCCAACAACTGCTAATTA
ATTATTTCATAGTCCTAGCATCTCTGCCTATAAAAATGAAGGGGATATGCATATTTTCTGTGATTGGTACCATGAGGTCTGTTTAGAAATTTGGTTGGAY
TTATTATAATTTTGCATAGATAAAATGTCTTACTCATGTCTAATAGAAATATACTATATATAGTATATTTATTATATATTATATATATATTTAAAATATA
TATATTTTTTAAATCCCTCTATATCCACAAATGTAATCTCTGGTGGCTTGATCCTACTTGCAAGTCTGAACATTCTTTTCCCTCTTTTGAAGGTTGCTGA
ACATYGAGAGCGAAATGATCAAATTTGCCAGTTACTATGCTGGAATTGCTGTCGCAGTACTTATCACAGGATATATTCAAGTTAGTAGCTCCTCCGTATA
ATTTATAGATCAATATCTGACCTCAAAGACACTACAATGAGATGCAATGTGTTGCCACTCTTTAAGCTAATCAGAAGCCCTAAGAACTACAGTCTGTTTC
CAGAGGACATGAGAGAATGGAGAGGGATTCTTCTCTCAGATGGAAACTTAGGAGGATACAAGTGGCTGTCCAGAGAGATGCATAATAGACTCGTAGTTGT
AATGTCCTGTCCTCCCCCTGCCTTTCCCTACTTCATCCTCTYTTCTATATCCAGAAATGGACATTTGCAGGTGTGTTTGTAGSGGGCAGTTGAGTAGCTT
GAAGAATGTGGGGCAGGGGGAGATAGAGGAAAGCAAAATTTACTTTYTTTTTCTCGCATTGSTAAAGTCTCAACAAACTGCATTCCAACCCAAATTYTGA
AAGGCTGAATCTAGAGCATATTTTAGATTTAAGTGTTGGAAGGGCTTGGAGGTACTTAACTCTTATTAAGAAAGAAAAATATTTTATCTTTTGCCTTCTT
TTGTAGAAAAATAATGAATTCCTTCCCATTCATTCAAGAATTCCACACAGTGCTGTTTGTAAAGAGAAATGAATCATTTTTTCCCATTTAGGCATTGGGA
ATTTTAATGACAGGCTTTTTTTTTTTTTTTTTTTTTTTTAGTTAGGGAAAATCTATCAGCAGATTAGATTTTTGCTGATGTCATAATTTTTGTTTTACAT
TTCTTGAAAATTATTGCCTGAAAACTATGCATGAATGCTTCTAGGCAGGTCTTTCCGGGAGGAAATTCACTCARAAATGGCATTAAAAATAGTTATTTAA
RAACAATAATGCCTTATTTTTGGTGCTGTGAGCCTTCTTTCACACATGGGGAAAGTGAAGCTCTGTAGGGTAAAGTCCARAARACATGGGCCTGCTTAAG
TGTCARAGCTGGATTCAAACCCAAATCTCAGGCTACCCTGCTGAAGGTTCTGTTTACCTCCACTTTTAGCAGCAGATGACAGAGCTCACATCTTAGTTCC
CAARAAGAGGCATTTTCTGAATTACTTTCCCCCTTTTCTCAACTGTTGTATTGAAAGTACTTTCTTCTGAAAAAAGAAATTAACAAATATTTCAAACATT
GCAATGCTAAACATTCCTTTGTCCATTTCCAGATATGCTTTTGGGTCATTGCCGCAGCTCGTCAGATACAGAAAATGAGAAAATTTTACTTTAGGAGAAT
AATGAGAATGGAAATAGGGTGGTTTGACTGCAATTCAGTSGGGGAGCTGAATACAAGATTCTCTGAGTAAGTAGCTGGTAAAACAGTATTTTAGTGTGTG
ATTTTTGGATAATAAAACCCTTGTTTCTAAATTAAATAAAAATTTAAAAATATTTTCAGTTTTCCTATGTTTCATCTCTTAAATTGGGCTTTCATATGTG
GCATGGCTTTTTCATAAGTAATACACTGTCAAATATGGACATTAAAAATTGAAACCCAAGGTACTGCAATTTGGTGTGTAGACCTTAATTAAAATATTAG
AAAGGAAATATTATAGAAGACAGTTAAAAAGGTTATTTAGCTGTCCAGGTGTAACTGGATTTAAATCCAGTTTACACCTAGTTTAGGTCATTAACAGCCA
CCCAGGAATTCTAAATGAGAGGAATTAGAATTGGTCGAACCCTATTGAACTGAATTTTGAGGTCCCCTGAAAGACAGTCACTCTACAGTGTAGATAAAGC
ACACTGAAATTCAGGACCCCTGACTTCCRGCACTTACTCTGCTCCTTACTGTGACCTTGAGCAGTTATCTAACCCTGCTGGAACACAATGGCCTAATACC
TGGGTGATGTCTTAGGTTCTTTCTTGCTGTTTAGTTCCAAGCTCTCTTCACTCCAACTGGACAAGAGATTAAGGAAATGTTCTCAGGAATATGAATTTAA
TATAATTATATTCAATAAATATTCTGGAGCAATTGCCTTGCACTTGTGCTCTTGAGGAACTTACAGCCTCGTAGGGGAAATAAGAAATGCAAGCAAATAA
TCAGAACTAACACATATTGTTTATTATATGATAGGCGCTGTCCTATAGGCTTTACATATATTCGCTACTTTAATCCTCATTATTACCCATTGGGGTAGGT
TCTATTATTGTTCTTATTTTACAGACAAGAAAATTGAGCCACAAAAAGGTTAAGTAACTTGCCCAACAAGAGTCTGTATTCAAATTCCTAGTCTGGCTCC
AGAATCTGCACTCTTCACCACTACTCTATACTGCCTATATGCAGAATGCAATAATTCCACACACATACAAATGCACAAGGATTAATTACAGTGTTACGGA
AACACAGGGAGAAAGGTGTTACTTCTTCTTGGGGGATTATACAAGATTGATGCACGAGAAGGTATGTGACTAGAACCTTGAGGCTGAAAGGATTCAGCAG
GCATGARGAAAGAAAAGCTTTGCAAGACAGAGCAAGGATATTAGCTATGTAAAAGAAAAAGACAAATAAGATGGTTTCCAAAAGCCTTTATCAACACTGA
GTACCAGCTGGGAAACCTAGATTAAGAACAAAATTGATTGGCTATCAGGAAAGAGGCTTGATAACATCCCAAGGTGCAGCAAATTTTCCAAGATCTGAGA
GGCTGTTAATGCTATCCAAGGGTGATAGGGATAGAGAGATGGGAATGTTTAAAAGGGAAAGACTGAGACTTTCAGCAAGATATTTGAATGATCAAATTCA
GTTTTAGTGACCAAAATCTTTCTGGTTTCTAGTGATRTTAATAAAATCAATGATGCCATAGCTGACCAAATGGCCCTTTTCATTCAGCGCATGACCTCGA
CCATCTGTGGTTTCCTGTTGGGATTTTTCAGGGKTTGGAAACTGACCTTGGTTATTATTTCTGTCAGCCCTCTCATTGGGATTGGAGCAGCCACCATTGG
TCTGGTAAGAATGTCTTTTTGCATCTCTCCATGGGAAGACATTTGCCTTCATAAACAGCCAAAAATGTGAAGCTTGAGTCCCTTTTCCTGAGTACAGTTA
GCAACATAATTATCACTATCTTCATGTAGTTTGTTAGATTACTCCCCAGTGTCAAATGACATTTCATCRAATAGGGATTAATGATGTTTTAATAGGTAAA
TATTGTTTTATTAACAGCAATTACATTTATTGAGCATTCACTGTTTCTCTAGGCACTACTAGGAGCTTAATAGTCATTATCTCTAATCTTTACAACAATC
TTATAAAGTGAGCACTAACATCATTTTAAATATAAGAAACTAGGCTCAGAAAGGTAAGGGGATTTGTCTGGGACTGCACAGCTRGCAGAGTAGGATTCAA
GTCTAAGGGGCTCTGACTCCAAACCCCACTCACTCTCCAATATGCCTATTGTTCTCCATGTCCTCCCAAGCTTGGGCACTTCCCTGAAAAGGCACAACAG
ACAAAGAGCATTAACAAGCACACAAGAAGGATTTCTGCAATCACAACTGTGTTCTCCATTTCATCTTATCTTTCAGATAACCTCTTTCAGAGAGAGGTGA
TCTGACCCATTCCAAGAGTTATCCCAGTCACTGTCTCGGTTCCCCAGGAATTGAGGCCTGGACAACATATAGGAATAGGAATTTCGGGTCACATCAGCTA
AAAACACTCCCAAGGACTGAGAAATTATTATTAGAGCAGCCACATTAGATAGCACGTTATGGAATCAGGCATACTAAAACTGTGCTATAAATGAGAMTAG
AATTTAACTGAAAAACTGCATACACCCTCACACATCGTTGAGCAATAGGTACCAACTTCCTATTGCTCAATAGCAAAATATTCTCACAGTGTCTACATTA
TTCAAACATTTCCCAGATAAAATAGAAAATGGTTTAAAGTGACAATAGCAAAGAGCTCGCTCCATTTCATTAGGTCACCACTTGGCTGTACCGCTAACAG
GTTGTGTGACTCAGGAAAAATCCATTTAACCCCTGAAAACCTCAGTTTCCTTGTCTTTAAAATAGGGATAATACCTCCCAAAAACATTATGATGATTCAG
GGAATAATCCACGTTATGCATTTAAGCCGTGTCGGGCACAGAATCAATTGCTAAAGAGAGATGTATATGTTTTTCAATCCACTATATCATTCAAGTTTTA
CGGCAGTCTTTCCTACTAACCACTTTCCAACTATACTCCAGAGAACCCTCAACTTCCACAGAAGAGCTTCAGGGGTTTTGCAAACATTTTTTCATTTTTT
TTCTGAATACACTAATCTCTTTCTTCAAACCTGTGATAAAGTAATATACACACTCACGTGGATCATAGGCCACATTTCAACATGTTGGAGGTTAACATAT
AGCCCAGTTCACTTGGTTTTAAACAGCTCTAACGCTTAGTTTCTCTAGTCATCTCAGTACCCATTTCTAGCTTCTCATAAACTCGTCACTGATTTGGAAT
GTTGTAGGTCTGCACATGTCTTGTCTTGCTTTCAAGTCTGTGTATGCTTGTCCTTATACAACAAACTTCTACAAGCAACTATACAACAAACTATACAAGC
AACTTCACTAGGCTCAAATGTAAATTTTAATGTTAATAAAAACAGCTTCCAGTCTTGGTAACACAGTGAGATCCCATCTCTACAAAAAAAAAAAAAAAAA
TTTTTTTTAAATAGCCAGGCATGGTGGCATGTGCCTATAGTCTCGGATACCCAGGAGGCTGAGGCCAGTGAAATGCTTGAGTACAGGAGTTTGAGACTGC
AGTGAGCTAGGATCATGCCACTGCATTCCAGCCTGGGCAACAGAACAAGAACCCGTCTCTTTAAAAAAAAAAAAAAAAAGCCTCACTTTCCTTACTGTTA
CATGTTTAATTCACATGTTTTATAAAATGTACACTGATGAAATTAATATATTGTTTTTAAAAACTACTATGAATACTTACTTAATTTACATCTTAGAATT
CCATCTAAGATTTTGATAAGAGTTTTGCTGCTAAAAGTTTGGAAAAACTACTGGAAGATAAACTCCCTTAATCTGGGTATTATATATATTTTTATATTTC
TGAGCTAGTTGATCTTCCGCAATATGTGTTTTTTCCTCTTCTTATTTATTAATCTGTGCCAGGGTTTTCTTTGGGGGTTCATTTTGACTAGGACTCAATC
CAAGTCAGTTTTAGAAAAAGTAATGTGTCTACTGTTAAGTACAGATGTCTTTTCATTTCCTTTTGTAAAAATCAAAACTACATAGTTGAGCGTCTCCAAC
TGAGTGAAAATGGACTTTCTTTTCTGGAATCATCTGAAATCGTCTTTCAACATCATGCCTATACTTTATATGTTATATGTCATATATTATACCCAATCAT
GATATCTGCATGTGTCTCTGGCGTTTGTCTATAAATTATGCAATGGCCATTGGCTAATAGCAATGAMCTATGACATGGTCTAACTTAACACTTTATTAGT
ATAATGACTGAAACACTTTAGTCTTACAGAATGTCCTATTTGGAATTTATTCTTTGAGGAGGTTCTTACTTTTAGTAGGGTCATTTTGATATATCAACAA
CCAGACAACCCTGGATGAAGCTTACCATAGACCAAATTTGGACCAGATTTCTTCCTCCTGTCAATGATGTTACAGTGAGAMTCTAATATTGTATTAAACC
CAWGCCACATGTTAAATGAATCTGAATGACAGACTGACTTACCTAATTTCTTGGACTTCACATTTTCTTTTCTTCTTTTTGATTTTTAGAGTGTGTCCAA
GTTTACGGACTAYGAGCTGAAGGCCTATGCCAAAGCAGGGGTGGTGGCTGATGAAGTCATTTCATCAATGAGAACAGTGGCTGCTTTTGGTGGTGRGAAA
ARAGAGGTTGAAAGGTTGGTTAATTGGAATCTGATTCTTTCCTTAATTTCATCAATCAGCATAGTACCCTGAGTCTCTCAGTTTGTGCAAAGCGGCAGAC
CCACCTTGGTCTGTGGCCTCCAGAGGAAGTACTTGTTCAAGAGGGAGCTAAGCAGAGTAATTTAGGTTGGTAATTTAGGTACTATAAGAAGTCCCAAGCC
TTTAGCAGTATGTTTTTAAAGATGTTGCAGTTGGCAATTTTTAGAAAGCCAGCTYAGGGTAGATATTTATTTCAAACTCTGATGGTATGTATGTATAAAT
ATTATACCTCATATCAGTCTATAATGCTGTTTGCTGTCATTAAAGAAAAGCCTACATGAGACATTACAACTGATACCACAGAAATACAGAAGATCATAAG
AGATTACTAAAAACAAACGCCAACAAATTGGATGACCTAGAAGAAATGGATAAATTCCTATAAAAATACAACCTGCCAAGGTTGAATCACGGAGAAATAA
AGAGAAATAAATCTGAACATACCAATAATGAGTAAGGAGATTGAATCAGTAATAAAAAGTCTCCCATGAAAGAAAAGCCCAGGACCTGATAGCTTCATTG
CTGAATTTTACCAGACATTTAAAGAAAAACTAGTACCAGTCCTCCTCAAATTCTTCCACAAAATTAAAGCGGAGGGAATACTTCACACTCATTTTACAAG
GCCAATATTACCTTGATACCAAAGCCAGAAAAGGATACTACAAGAAAATCAAAGGCCAATATCCATGATAAACATGGACGTGAAAATGCTCAACAAAAAT
ACTAGTAAACCAAATTGAATAGCACATTAAAAGAATCATTCACCATGATCAAGTGAGATTTATCCCTAGGATGTAAGGATGGTTCAACATAGGCATGTCA
ATAAATGTAATATACCACATTAACAGAATGAAAGACAAAAACCATATGGTTATCTCAATAGATGCTGAAAAAGCATTTAACAAAATTCAATATCCTTTCC
TGACAGAAACTCTCAACAAATTAGGTATAAAAAGAATGTACCTCAATACAATAAAGGTAACATATGACAAGCCCACAGCTAAATCATACTCAAGGGTGAG
AATTTGAAAGCTTTTCCCCCTAAGATCAGGAACAAGACAAAAATGCCCATTCTTGCCACTTCTTAGCAACCACAAAAGACCTTGAATAGCAAAAATCCTG
AACAAGAAGAACAAAGCTGGAGGCATCACGTTACCTGATCTCAAAATCTACTACAAAGTAATAGATCATTATTAGATTATTTGATTACTATAGTAATAAA
AACAGCATGGTACTGGCATAGAAACAGACACATAGACCAGTGAAAAAGAATGGAGAGCCCAGAAAGAAGTCCATGCATTTATAGTCCATTGATTTTCAAT
AAAGAGACCAACAACACACCATGAGGAAAGGGCAGTCTCTTCAATAAACGATGTTGGGGAAACTGGATATCCACATGCAGAAGAATGAAATTTGATCCTT
ACCTCACACTATACACAAATATCAACTCAAAATGGATTAAAGTTTTAAATGTAGGATATAAAACTGAAAAACTACTAGAAGAAAGCATAGGGAAGAAGCT
CTATGACATTGGTCTAGGCAATGATTTTTTTGACACAACCCCAAAAGGACAGGTAACAAAAGCAAAAATAGACAGATGGGATTACATCAAACTAAAAAGC
TTCAAAAAGGAAGCAATCAACAGAGTGAAGAGGCAATTTATAGAATGAGAGAAAATATTTGTAACCCATACATCTGATAAGGGGTTAATATCCAATACAT
ATAAGAAACACAAACAACTCAATGACAAGAAAACAACCTGATTAAAAAGTGGTCAAAAGACCTGAATAGACATTTCTCAGAAGAAAACATACAAATAGAA
ACGTACAAAAAGAAACATACAACAGGCATGTGAAAAGATGTCACACATCACTAATCATCAAGGAAACACAAGTCAAAACCACAATGAGATATCATCTTAT
ACCTGTAAGAATGGCCATTATAAAAAGAAGAAAGATATCAAGTGTTGGCAAGCATATGGGGAAAATGAAACACTGTTACACGGATCGCTTTTGGTGGGAA
AGTAAATCAGTACAGCCAAAGAGTATGGAGATTCATCAAAAAATGGAAAACAGAACTACCATATGATCCAGCATCCCCACTACTGGGTATATATCCAAAG
GAAATGAAATCACTATGTCAAGAGAAAACTGTACTCTTATATTCACTGCAACATTATTCACAATAGCCAAGGTATGGAATCAACCTAAGCACCCATTAAC
AGACAAGTGAATGAAGAAAATGTGTGTGTAAATTTACATGCCATATTCAATAGAATACTATTCAGCCTTTAAAAAGAAGAAAATACTGTTATTTGCAGCA
ACACGATGAACCTGGAGGACATTATGTTAAGTGAAATAAGCCAGGCACAGAAAAATACCCCATGATCTCACTGACAGAGTTGAACTCACAGAAGCAGAGA
GCAGAACAGTGGTTACCAGGGACTTTGAGGTGGGAGGGGGCAGGCGAGAACTGGGGAGACGTTGGTCAAAGGATTCAAAATTTCAGTTAAACAGGGGTAG
TTTGAGATATTTTAAAAATAATGACATTAATTATCTAATTGTAGTTGTTTTAATTTAGTTCATGGTGATCTAAAAGAAACCCTTCCTTATTCACATTTAA
GAGGCAGTTTATAAAKTCAAGAAATGTGTTGTTAACATGGTGACTATGGTTAATAACATCACATTGCATACTTGAAAATTGCTAAGAATAGATTTTTAAG
TGTTCTCATCACACACACACACACAATATAAGTATGTGAGGTAATGCATGTTAATTATCTTGATTTAGCCATTCCACAATTTATACATACTTCAAACCAT
CATGTTGTATACCATAAATATATGTAAGTTTTGTCAATTAAAAAATAATAAAGAAATGCCAGCATGATTCAAAATGCTATTTCACACATTTTTATTGAAC
ACCTTTTTAATTAAACACACTTTATTCAGGTACTGTGCTACATGTTCTTTATAAAGTCTGATAAGATTTCTATTTGGTCAAACAGGCTGGGCACAGTGGC
TCACACCTGTAATCCCAGCACTTTGGAAGGCCAAGGCAGGTGGATTGCTTGAGGCCAGGAGTTTGAGACCAGCCTGGGCAACATGGCAAAACCTCATCTC
TACAAAAAAATACAGAAATTAACCAGACATGGTGGTGTACACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACCTGATTCTGGGGAGTT
TGAGGTTACAGCGAGCTGTGATCATGCTACTGCACTCCAGCCTGAATGATGGAGTGAGACCCTGTCTCAAAAAACAAATTAGTGTTGAAAAGTTATAGAG
CATTATTCTAGAGATTAACTCCCAGTGAAAAGAAAAACCCAAATGGCCAAAATAATACAGTTGTCCAAAATGTAATTTTGTTTATTCTTTAATTTATCTG
GTATTTATTGAGTACTTACTACGTGCCATGCTTTGATTTTTATAAAATAGCTACCAACTGAATAGCAACTCTTACTTTATGTGTTGTAGATTTGGTAAGA
TGGTGTTATTCTCAGTTGCTACCAAATCCATCAAGTAAAAAAGAGAATAGGATTTACAACCTCTTATTATCGTCTTTTCCCCACTTCTTTTGGTTTGTGG
AGTGAGGTTCCTTATTTCTTGTAAAAAATTTCAGTAGCATATTTCTTCCACCATGAAAGACATTATCTTTTATTGTCAATAAAAGAGACAGTGTAGTGTT
TTAAAAATGGTAACAAACATAGGATAGACCTTCAGTTTGTGTCCTGCAAAAGGTTAAAAGTTCTCCATGAATTCAATTCCTGAGATGTAGGAAGGCAGTT
TCAGAATGCCTGAGCTATATATGAGACAAAGCCCATTGTTAATGGCTAGATCATGGAATTACTGAAACCTATTCCTTGCATTGGACTTCCACATAGTTTC
AGTTATCCATGTYTCATGGCTGTGAACCTGACCAGTGTGTCACAACACAGCGTCTCAGCCACAGGGCAGATGGGTGAGTTATAGATGAGTTGGTGCAAAC
ACTAGTTCCAAGCCTGGGGAGCTGGAAACAAAAAGTCTGGTCTGCTTATTTGGAGCCAGTTGCATTATTTTCTGATAAGGACATGTCATGTGACTCAAGG
AAACACTTCAAACATAATACTAGATCTCTCTTGTTCATATATTTATGTTGAAAATTCTTTTCTCTTGGGGCCAAGCTTACCTCACTATGCAATCCAAGCA
GCAATCAGGCAGCTCTGTTAAGTATCGCCCTTTCAACATGTTTCATTGTCAGGTTAAAACAAACTTTAAAAAACTACATAAAGGTTATTGGAGATTTTTC
TCCCTGAAGCTGCTCTGTGTTTGYGATGATTTTATGATCATTTTGTAAAACCACTGCATCAYGGCCTGTTTTAAACATTATAACTTGAGCTGTTTCTGCY
GAAATTGACTCAARCRTTTTGTCTTCACAGGTATGAGAAAAATCTTGTGTTCGCCCAGCGTTGGGGAATTAGAAAAGGRATAGTGATGGGATTCTTTACT
GGATTCGTGTGGTGTCTCATCTTTTTGWGTTATGCACTGGCCTTCTGGTACGGCTCCACACTTGTCCTGGATGAAGGAGAATATACACCAGGAACCCTTG
TCCAGGTACCTTGGACTTATTGWCCGAGACATAGCATTTCCTTCTGGTATCTCAGAAAAGTCCATGGATTAGATATTTTGTTTATTACTTTGGTGCCTTC
AGGAAAAAAGCATCAATGATTTTATGGAGTCTGTCTGTGGAAACAAGTAATACCTTAAATTTTTTTTTATTTCCATAATTTTTTTGGGAAACAGGTGGTA
TTTAGTTACATGAGTAAGTCCTTTAGTGGTGATTTGTGAGATTTTGGTGCACCCATCACCCAAGCAGTATACACTGAATCCAAGCTCTGGTCTTTTATCC
TTCACTGCCTTCGTACCCTTTTCCGCTGAGTCCCCAAAGTCCATTGTATCATTCTTATGCCTTTGCATCCTCATAGCTTAGCTCCCACTTATGAGTGAGA
ACATGCAATATTTGGTTTTCCATTCCTGAGTTACTTTACTTAGAATAACAGTCTCCAATCCCATCCAGGTTGCTGTGAATGCCATTAATTCATTCCTTTT
ATTGCTGAGTAGTATTCTGCCATATATATATGTAATTATATGTATCTGTGTATATATATACATATATGTTATATATATATCACAGTTTCTTTATCCACTT
GTTGATTGATGGGCATTTGGGCTAGTTCCACAGTTTTGCAATTGTAAATTGTGCTGCTATAAACATGCGTGTGCAAGTATCTCTTTTGTATAACGACTTC
TTTTCCTCTGGGTAGATACCCAGTAGTGGGATTGCTGGATCAAATGGTAGTTCTATGTTCAGTTCTTTAAGGAATTTCCATACTGTTTTCCATAGTTGTT
GTACTAGTTTACATTCCCACCAACAGTGTAGAAGTGTTCCTTTTCACTACATCCATGCCAACATCTATTATGTTTTGATTTTTTTATTATAGCCATTCTT
GCAAGATTAAGGTGGTATCACATTGTGGTTTTGATTTGTATTTCCCTGATCATTAGTGATGTTGAGCATTTTTTTCATATGTTTGTTGGCCATTTGTGTA
TCTTCTTCTGAGAATTGTCTATTCATGTCCTTAGCTCACTTTCTGAGTTTATTGTAGATTCCGGATATTAGTCCTTTGTCAGATGTGTAGATTGTGAAGA
TTTTCTCCCATCCTGTGGGTTGTCTGTTTACTCGCTGACTGTTCCTTATGCTGTGAAAAACCTCTTTAGTTTAATTAAGTCTCACCTATTTATCTTTGTT
TTTATTGCATTTGCTTTTGGGTTCTTGGTCATGAAATCTTTGCCTAGGCCAAAGTCTAGAAGGGCTTTTCCAATGTTATCTTCTAGAAATTTTATAGAGA
AACAAATAATACTTATATATTTTATAGTAAAGGGATGCTAAACATTTGAATTGATAAGACCAGCAATTTAATAATTTCAAATTAACTGAACACTTTATAG
CTATGAAATGATGATTTTCTGACTGAGTCCAAAAAGAAAATATGCCATGAAAATGGAAACTCAGTGATCTCTCAGCTAAAAATTAACAGCTCGTATAACT
GAGCTTTATGATAGTCCAAGATATATACTAATAAATGTACTTGTGAAACATAATGAGTTACTAAAATGCCAGGTCAATAACAGCCTTAACTGAACAGGTG
CTACAAATGTACTTTATTGCTCACTTGTGCTAAAGTAGCTAATGCCTTTAATTTTCATTGTCTTTACAGTTATTCATTCAATAAGTAATTATTCAGCATC
TACTATGTGCCAGACACTTAGAAAATGCAGGGGATTCAACAGTGAGCAACGGAAATGTGGTTTTGTTTTTGTTTTTGTTTTTTTGCCTTGATGGGATTTA
CACTTTAATGGAGAAGACAAGCAATAAATAAGTAACCATGTAAATGAATACAGACAAATAGAGACATGCTATAGAGGACAGAGAACCTTGACAGTGAATA
GCAGGATAACCAGGTGTGGCGGGGGTCCAGGAAGGCTTCTTATCCTGCTCCCTCTCCCAAGGCCTTTCCTCCTTAGCTTATGGCTCTCTCTTGTTGCAAC
TGGACTCTGATCATTGTTTGAATTCTCAGCTAAATGCCACTTTCCCAGTCAGGCCTTTTACACTCACCCATTTTTCATTCTCTTTTGTGATCTGCTGTAC
TTTTTTTTCAAAGCACTTTTGTGATATGGAATATTTGCATTTATTTACACTTGTGCCCACCYGTTTCTACCCTCAGACAGTAAAATCTACGAGGTCAGGG
AAACAAAAAATGAAATATCTGTTTCATTTGCCCTGCAAGTAAATAGGGAGTCGTTTTATATCAAATTCTTAAGTAAAATTTTTTAGCTCCAGATTCCGGA
TAGAGCAAACAATGAAAAATATCAAAACCTTGTATACCAGAAATTTGCTAGCTGAGAGCTTAAAATTCAAAATCTACTGCTTTAAGATAAATACATTGCC
AGGGAAAATTGAGTAGGATTTTGATTTGCAAATGGAAGTGATTATCAGAGGTCAAACCATAATCATTCCAAACCACGGACTTWATTTCATTAAGAACATG
ATAATACACAAAGAACAACTTTTTCAATTCAGTTTATCTTGGCAGCATGAACAGCTGACATCTTTTGAACTTTGTTAAAGAAAATAAATATGATAATACA
GGTTAATGTGTTTTGTAAACTTTAAAGAGATAGTATGGATGGGAAGTGTTACCAATTTTATAATTTAACCACTTCTTAACAACTTAGATACAGTTTTTAC
AGATTGGAAAAGCCAYTGAAGTATTGCAGGTCCAGATTTTAACTATAGTCCCTTGTCTTTATTGATCCAATTCCTCCTAAGAACTTTGACATTTACCAAA
ATAGGGATATCAGTAGTTGGCTTTAGTCCTAGCTGCTTATACATACTTGCTATGCAAGAAGACAAGCATTGAGAAAACTTATTTTTCCTTTTGTTCCATG
CCTACAAGGAGAGGATAGAGGTATACAATAATAATGGTTCAGAGGGAAAAGTGAATTGGTAAATTGAAAATCAAATAATACACAATACCAACTGGAAGCA
CTTGAATAAAAATCCCTTTGGTAACTCTCTGTAGTAGGAATCCAATTTTATGTCTCTCATCTTTAAATTTCCTGCCCATTGTACAGTGAGCTACTCTACT
TTTGTAAATAATTTATTCTTTCAACCAATATTTCTTGAGTCCTTGCTATGTGCAGACATGGCATACTATGGGTCTCTAACATTTTAATCAACTGATTATT
AACCTKTTACTCCCAACGTCTTTCTGTAAGCCTCTGCTTATATCTTAAGAGAAAATTTCCTTTGGGAAGATGAAATGCATCCTTTAACACTATATTCCTT
GCTCTCTCTCTCTCTTCTCTCTCTCTCTCTCGCTCGCTCTCTCTCTCAGGTCTTGGCCACACTTCTGAGCAGCAAACTATGAAGGCTGAGTGTGCATGGG
CTGAGTTGAGTGTTTTAATCCACAAAACTAATTAACGGTTTGGTTAATCCAGTACGTTTTGTGATACACAAAATCGTTACTGGCTGCATGGTAATTGGGC
ATAAATGGTAAGTAGTTCACATAAGTGACTGTAATTAGTATCASTTGTGCACAGAGAAAAAATGCACTCTGTGGTCTGGTAGGGAAAGATGAAGGGGACC
TGAATGGTGCAGAAGGTTGTTCTTTCAYGACCTTCCTGAGTTTCAGAATTCATTAATAAAAATAAWCACATAATGGAGCGTGACATTCATTCAGTATATA
CAAAGTGTCAAGCACTGAGTGACGTATTATGTAATAAAATTACTGCATGTAATGCTCTCAATCTCATTCCGTAATTGGTGTCATTATACTACCACTTAAA
AATGAAATTGAAGCCATGAAGTCAAGAAATATTGAGAGGGATTTGAACTCAGGTCTCCCTGACTTTGAGGCCTACCTATTAACCACTGTTTTCCTGCCTC
TGACTCTGTCTTCCCAGGGGCCATGGACCCCTTTTTCTCCAGCACACCCATAGCTTAATTGTTCCACAGCAGTCTCCCTTCCCATCTCTCTGTCTACACT
ACTTCTGCTGTTCACAGGGCTAAAGAATATGATGTTGAGTGACAAATGATGGCTTATTGGGATGTTGCTAGCTACTGTGATGATTTGGGAATGTGCTTTT
GTCCTGTCTCACTCACTCCTCCCCATCCAGAGAGCCATTCAAAGAGTTGGACCCCAAACTTCAATTTAGGCCTCCAGTCAGCCAGGAGTCAGCAAACTAT
GGTCGACAGGCCAAATCCAGCTCACTGCCTGTTTTTATAAATAACATTTTACTGGGACAGAGCCACAGTCACTTATTTACATATGTCTATGGCTGCTTTT
ATACTACATGGCAGAACTGAGTAATTACTTCAGAGCCCATATGGCCTGAAAAGCCTAAAATATTTATTTGGCCCTTTTTCAGAAAATGTTTGCTGGCCCC
GGATCTAGGGCAAATGGAAGGTTCCTTTGCTGAGGTAGGAAGACCTCTGACGTGTGTGGTCTTAAACTAAATTGGACCATAAGAAGTGTTCTATCTGCTT
CCTTTACCGCCTCCTAAGTGTGGGACCTCAATACTTTCTTCACTGTCAGCATCATCATCACCAACATCATTACTACCATTGAAGWGACTAGCACTGGATT
AATCATCTTTACACACATTATCTCATTTGATCCTGTAATAATCCTATGAAATATATGCTATCATTATCCCTGTGTTGCAGATGAAGAAATGGGGGCTTGA
AAGATTACATAATCTGCCTATGGGAGGAACCACCTGCCATAATTGAGGACAAGGAAATGAAGAGATAATTTTTGTCCCTATGCATAGGCTGGGATTCTAG
GGAGAAAGCGTGAGTGGACTAACCYACCACCCATGTATGGCAGCCCTGGCCCTGTTAATCATCCTAATGTGTGGAATGAAGAGGTTACTGAAGAGGGAGA
GACATGGCTGAGAGGCTCTGACACTTTCCATGGTTCAGACACTCCAGCCACAAGGAAGAAAGAGAAGCAGGAGAGACTCAGGCAATTTGCCTCAATGTGA
TACAACAAATGGGAAGGGTCTGGCCTATAGAAACCATCACAGACCAGGATCATTTGATCACCTGAAAAAGACTACATTCATGCAGGGCCACTCTTTGGCT
TGGCRATAGACTGTGGCCAATGAAACATCCTCTATGCGAGTCACAAGAGTAGGACCATTCTTTGGTTGACAGGGTAGAGAGGAGGAGACTGGTATTCCTT
CTGGAGGCCAACTTGAGGATTTGCCTCATTGTCTCTTCCTTACCTTTATAAACAGTGCTGATAATAAAAACAGAGTGCTATTTGGTAGGAACATCTRGGC
ATGATCAGGTAGCCTTCCCCTAAGGTAATGAGATGACTGCATTGGTAAGTCAAAGAACAGCTGCCCCAAGTCTGMACAGGAACCTGACCACTCCACCTGC
ATATAGCCAGCAACAGGTGAGTCTGGGAGCTAGGTAGAATGGCAGTCAAAAGCCTGGATTCAAATTCTGCTCTACTACTTATGACATGTTGTAACCTAGT
GCAAATTGGGAGCCTCCATACCTGTCTGTTCACTCTTCTGTTGTAAAGATAAAATGAAATAATACAGATAAAACACTTAGAAACATACCTGTTATTATTG
TTATTATTACTGTTATTCATAGTAGTTGCAGTAGTTAGCCCAGTGACTACTGGAATAGTAGCATTAGTATAGCGGTAACAACAGTAGCAGGTTGGTTTTG
CATGTACCAGCCTCTAGAATAGTCAGGCTGATCTTAGTGTCTGTATTGTTTTTGGCAACCCTTTAACCAGAAAATCACTATAAGGCTGATTATATAATGA
ATTCAATTATCAAATCACTATTCAAGTCCACTTTGGGTCTACAGGCTACCTTGCTTAGACTTCTTACTCATTTCAAAACAGTTCTACTTTGTAGRAGAGT
AATATTCAGTAAAAAAATAAAGTGGTMTTTTAAATCATAACAGTGGAAAACTTGGAGATGCTTTACAGAACAAAAATTATTTTGGGTATTTCCAAACAGC
CAAAGAGCTAGCTTTTGAACCCACAGAAGAGAATTTCTGATAACTCTCTGCGTTAACATGGAAGACCCAAATGATAGTAATTACTATTTACACATTAACA
AAAACACATGAAAAATCTCTCTCTTTTCATTTCAGATTTTCCTCAGTGTCATAGTAGGAGCTTTAAATCTTGGCAATGCCTCTCCTTGTTTGGAAGCCTT
TGCAACTGGACGTGCAGCAGCCACCAGCATTTTTGARACAATAGACAGGGTATGTATAAGCCAAAAGTAAAGGCCATTAACAGGTGGGGGCTGGGGGGTG
GGGCACAGAATGAACTCCTGAAGAATTTACCTTAAAGTTAAAAATATAAGAAGCTATCGCAAGGCCCTTAATTCAGCAACACTTATTAAATGCTATCATG
TGCTGGTGCCAATTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCA
CTGCAACCCCCTCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAAGGGAGTGAATGCAACAGGGAACTAGAACAAGTAAGACCCCTGTTCTTTACTCATGC
TGGGAGAGGACAGGCAGTAAAGAAGTATGCACATTCAAAGATAAGACAATAGCAGAGAGTGGTAAGTAAATAAAGGAAATAAAATAGGGCAATGTGACAG
CGACTGGGGTGGGAGAAAGAGTCTTTAAATTGGGTGGTGGTGGCAGTATCTCTGAGGAGGTAGCATTTGAGTGGAGAACTGAAGAAAAGTCAGCCATACA
AATGAGGATTGGAGGAGGTGGGGCGTGGGAAGTAAGAGCAGGGAGGGCATTCATGGAAGAGAGGCCCCCAAGTTGGAAAAGGCTGCTGATTTAAAGAAGC
TGAAACAAGCCCAGTGCAACTGAATAGAGTGAACAAGGGGCAGAGGCTGGAGGCATGGGAAGGGCCTACCATGCAGGACTTCAAGACCATGTCCATAAAA
TTCGCTTATCTTCTAAATATGGCAAAAAGGGATTTTACTGGTTAGTCTATGGAAGCACACTGGAGGCCAAGCTAGGGAGTCAAAATCCAAGAACAGGCCA
GGCATGGTGGCTCTTGCCTGTAATCCCAATACTTTGGGAGGCCAAGGTGGGCGCGTCACCTGAGCCCAGGAGTTCAAGACCAGCCTGGGAAACATGGTGA
AAACCTGTCTCTACTAAGAACACAAAAATTAGCCAGTCAAGATGGCATGTGCCTGTAGTCCCAGCTATTCAAGAGGCTGAGGTGGGAGGATCACCTGAGC
CCAGGGTGGCCGAGGCTGCAGTGAGCCATGATTGCGCCACTGCTCTCCAGCCTGGGCAACAGAGTGAGAACGTGTCTCAAAAAACAAACAAACAGAAAAC
CAAGAACAGAAGGGGAAGTTGGCAATCTGTTGTTCTTTCTCTTTAAAAAAAAAAAATGCCCTGAGCTGAGTCCAAAGCAAGCCCTGGAAATCCAGAGGTG
ATTTGCGGGCTCCCTGAACCTGTTTGGTTCACTGTCCGCTGTTTGATACTCTTTCGCCAAACAGTGAAGTTGTAACCTATTAAGGAAGTGACTCATTGCT
TTATCTGTTTTATAATTTGGGGTTTCATATATTGGAGTACAGAGAGATTGTTAAAAACCACATAAAAATGTTCATTGATGGCCAGGCATGGTGGCTCACA
CCTGTAATCCCAGCACTTTGGGAGGCCAAGTCGGGAGGATAGCTTGAGCCCAGGAGTTTGAGACAAGCCTGGGCAACCCTGTCTCTACAAAAAATTTAAA
AAGTAGCCGGGTGTGGTGGCACATGCCTATAGTCCCAGCTAGTCAGGAGGCTGATATGGGAGGATGGCCTAAGCCCAGGAGTTTGAAGATGCAGTGAGCT
ATGATCACACTACTGCACTCTGGCCTGGGTGACAGAGTGAAACCCTGTCTCTGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTCAATTTATTCAAATTC
TACCTCTTTCTTAAGATTGTTATATGCTCAAATAAGATGATGACTCTAAAAGTGCCCTGAAACTAAAAAATTAAGGCATTTAAAAATTATTTCTTACCTT
TATTAGCAACCCAGTAAGGAGGTAGATTACATTATACTCCTCAATAGAGCTAAAGTGATTGATATGGTTTGGCTTTATGTCCCCACCCAAATCTTATCTT
GAACTGTAATCCCCATGTGTCGAGGGACAGACCTGGTGGGAAGTCATTGGATCACAGGAGCATTTTCCCCCATGCTGTTCTTGTGATAGTGAGGGAGTTC
TCATGAGATCTGACRGTTTTAAAGTGGCAGTTTCCCCTATGCGCTCTCTCCTGCCACCATGTAAGACATGCTTTGCTTCCCCTTTGCCTTCAACCATGGT
TGTAAGTTTCCTGAGGCCTCCCCAGCCATTTGGAACTATGAATCAATTAAAACTCTTTTCTTTCTAAATTACCCAGTCTCAGGTATTCTTTATAGCGGTG
TGAAAATGGACTAATACAGTGATGAATTTCCATCACTAGTTATGGACAAGGGAAGAAGATGATGCTGGAGTGTTCTGGTAGCAGGAAGAGGCCCTCACTT
TTCTCTGATTAACCAGAGTGGTTAAATTCTAGATTGGGCTTGTTGCTAGCAGAAGAGGTGAAATTCAGGACAACARTTGAAAGTTGGTAGCATTTGAACA
CATCATTTAGGAACACTCAGTTTTAATCATCATCTACCATGGATACTCAAAAGAATACCCTCGGACCCCCGATTGGTTGACTAGTTGCCTGGTCTTAGAA
ACTTAATCTTTCTGCAATTCCTCCACTTCTTCAACTGAAAATGGGCATATCACCAGTCTAGTTTGGTGACGGTGACAATTATGTAAATAAAAGTATAAAA
ACACCTAGTACATTGTCTCCTATATTATCTTAGTAATATATAATATATAATAATATTGTTAACATATGTTATACATTTATAATATTAATACAACATATGT
ATTATATATGTATTATTATATAATGGCACATATTATATAATATCTCAGTAACAACATGATAAATAATAACAATTAAATAAATTAATTAAATATGTATTAT
GTTAATATATAATATCTCAGTAATAGCTCAAGAAGTAGTGATTATTCTCACTATTATTAATAAACGTTTAATGAGTACACATCTTTGGCGTATCTCTGCA
ATGTTTTATCTGGTTGTTGTTCTAAGTAAATTCAAATTAAGATACATGCAAACTAAGAGGCACAATAAATGTATACATCTTCATTTGAATTTACTCATAA
AACAGAGCAACAACCAGATAAAACATTGCAGAGATACGCCAAAGATGTTTATTTGAATTTACAATTTGAATTGAGTTGTGCATCTTAGTTTGAGTTTACA
CTGTGTCCCTTTTGTATTTCACTCCAGAAACCCATCATTGACTGCATGTCAGAAGATGGTTACAAGTTGGATCGAATCAAGGGTGAAATTGAATTCCATA
ATGTGACCTTCCATTATCCTTCCAGACCAGAGGTGAAGGTGAGTGCTGGTCTGTTCCCCAGAATAGTAAATGTTTTCTTCTTCGATGATTTATTTGCATA
ACCACAAATTGCTCATTTTCTGAAGCCTGACTCTGTTTCCAGTAATAGGGAATGGAGGTGTCTTTCTCTGAAAGTATCCTCGGGTGTTGGCTTATCTCAG
GCAACAGACCACATTCCTTTGTGATAACCATAATGTGCAAATCCCCTGGTTGGGACACAGTCTGGCAGTACATTCAGGCTAAATGAACTGTATGACGCTC
TGTTGAAATGAGTGGCAGGTCCTGTCTTTCCATGCAAGTGCTAGATAAATGACAAGGCAATTASAACAATCARGAAGCACAGGTTCTTCCCAACCTTCGC
AGAGACTGCAGAAAGTGGAAGACACTGAGTATAGGGTATGAAGTGGCAAAGGAAAGCTGCCATTATGTAGGTTTTTACTTCCCATCTGTAAATTCACTAG
GTCACTGCATCAGCCCTTATAGGAAGGTATCCTTGTGATATTATGCTCACGTGTCTTGTTCAGGGCACATGGTGAAAAAAATTATTTCCTGCCTTTAAAT
TATCTTTACAGGCAATTTACTCTACAAGAAAATTAGGATCTACTACCCCTGAATAAATTGGCTTTGAAATTAGACTTATTCCTCATTTTCAACAGAGTAT
CTCTAGCCACTCTCTCTTAATATTTCTGTTATCTGCACAGAACTAAATCCCATTTTGTTAGCCTAACTTAATTCTGACACCACATACCTATCATATATAT
ATGTGATATATATGATATATATGTGATATATATATCATATATCTGTGATATATATATGATATATATATCATTCTCTCTTTGAATATATGAATATATACAG
AGAGAAGGTAAACATATATATAAAATGCAGGTAAATATTTATATAATATAATATTTGTAATATATAATACATATATATGTAAATATATATTTATCTATAA
ATATTTAAATATAAAAATATTTATGTATTTATATATTTATCTATAAATATAAAAATATTTATGTATTTATATATTTATCTATAAATATAAAAATATTTAT
ATATTTATCTATAAATATAAAAATATTTATATATTTATATATTTATCTATAAATATAAAAATATTTATATATTTATATATTTATCTATAAATATAAAAAT
ATTTATATATTTATATATTTATCTATAAATATAAAAATATTTATATATTTATATATTTATCTATAAATATAAAAATATTTATATATTTATATATTTATCT
ATAAATATTTAAATATAAAAATATTTAAATATTCATATATTTATCTATAAATATTTAAATATAAAAATATTTAAATATTTATATATTTATCTATAAATAT
TTAAATATAAAAATATTTATTATATATTTATCTATAAATAAATATAAAAATATTTATTATATATTTATCTATAAATATTTAAATATAAAAATATTTGTTT
ATACATTTATCTATAAATATTTAAATATAAAAATATTTATATATTTATCTATATTTTATATCTATATATACATACCTACATTATCAGTATGTAGGTAAAT
ATATCTATAAATATATATAACAAATGTACAAATATAAGTGTATATCTCTATTTACCTTCATTATATACATAAATATATAAAACATAAGTAAATATATATT
CTGATTACATAAAGTATATTTTTATTATCTATTACATATGTACCTAAAMATCAAATGTTATAACATATGTAAAGGTGCTTTGTAAGCTATGAATTACAAA
GTAATACACACTCAGTAAATATTTTTGAATGGATAGCTAAAACTTATATTACAWTGGTGGAGAGTAATTGAGGTTTTTGCCATTACTTTTAATAGTGAAA
TAAAATCTTCTTACTTAAACCTATATGTATTTATTCATAGTACGAGTWTGTTTTTAACCCTCTGTGTGCCACATTGTACTGGTGCTATAATGATAAAAAA
GCACATTTGATGCCTGCTTGCTCTGGGAGCTTACAGTCCAATACAGGCCAGTAAGTGAAAATGTATTTGCAAGTTTGACTCCTAGTGTGAAATGAAAGGC
GTGAGGTTTTGTGACACAGAGGACCCCAAACCACATTTTCCATAATCAGTACAAAAATCACCTCTTAAYTGGTGAAAATATTGACAGATAGTTATGAATT
AGCTTCTCATTCTTTCCTCRCAAGACCTACTAGCCAGCATTCAGCCTCTACSTAGCAAACACACCGTGTATATTTATTAAGTAAGTTTATTCAAATGGTA
TGTTCATACACCATACACATGACGGAYGGCTTAAAATCCGCAAATTTCCTTACTGTTAATCCATGATCAGTAAATTAGTACTATATTTCTAACTTAATGG
ATTTTTTTTCTTTAACTAATTGGCATAGTCTCCTTATCCTAGTATGTCAGGAGTATTTTAAATYAGATTTTGGGACATAATTTTAAAAGTTAACATGTCT
TATTTACTTCACCTGTGTTAATGTGCATCATTTTACTTCTTGGTCATGGCTCTCAGTTAAATAATTAAGTAATGTGCTAAATGCCAAAACCTCATCCTTG
CCAATGTTTYCTTTTACTGGTTTTTGATGGATTTCAGTGGACGTTGCTTTGGGGGCATACATAAACGCACACACAGACACCGAGTATCAACACAAAGCAT
CTGCACCTGTAGCCTAATTGTTTGATTTGGTAAACAGTGACAATCTGAACTTTGCTGTTTTCTTTCTTCTCCAGATTCTAAATGACCTCAACATGGYCAT
TAAACCAGGGGAAATGACAGCTCTGGTAGGACCCAGTGGAGCTGGARAAAGTACAGCACTGCAACTCATTCAGCGATTCTATGACCCCTGTGAAGGAATG
GTGGGTGTCTTCCAGAAACTCCTCAATACATGGGGACAGTAAAGTGCAAATGGCAGTATATTGATCAAAYAGAAAGGTGTAGCATACATTGAGACTGTCC
TGGCATGCATAGTTAACTTAATGATTTGTTACTGAATTGATGGGACACGCTTCCTACATGGTAACAGTGTTCARTGAATAACCAGTCAATTCCATTCACT
GTATAATGTAACTGAATGTGCAGATACAGTCAGATGTGGCATAGCAACATTTCAGTCAGTGATTGATTTCATATATGATGGTGGTTCCATAAGATTATAA
TGGAACATGTATAGAAATCTGATATATGTCACTTGATGTTGGCATTGCAGATCAAGTTAAGAGAAATGATTGATATTTAGTAATGGTGCTAGGACATTTG
GAAATATATATATCCATCTAAATTTGTGTAACTACACTGTGATGTTTGCCARTGATGAAACCRCCTAAGGACACATTTCTCAGAACRTATCCCCGTCGCT
TAGCTATGCATAACTGTACATTTAAAATGCTATTGCTGSCTCTTCAGTGARCTGTCTATTCCACTTTTTTCTTTGTATTATAACGAAAATATTATTGTGT
CCTTAAGTTCTCCAGACACTAAATATAGRAATAATAACAGGGCTTGAAATTAAGAGAGAGCAGTCCTAAGAAACTAAGAAAAATGAGTATTAGTAATTGC
CATTTATTTAYCACATRTTATGTGTCAGATACTTTATTAAAATGATTACTTATTGTCACAATGACCCCCAAAGGTACATAGGCCCATTTGACAAACAAGG
AAGCAGAGAGTCAGAGAGATGGAAACTTGTCTAGGGTCATTCATCAGGTAAATGACCAAGTCAGGATTGAATCCAGGTGTGTTGGGTTCCAAAGCCCATG
CTCTTTTCACTCTGTCTCAAAATTATTCTTGTCAGCATCTCCTTGATGCCTTGAGATGGAATCGTTTAACTATTTAATGGCTTCAACAAAATGAGTTCTC
TATCATGCATATARTATTACACAGGCATGGCAAACATAACAGAGTTTTCCTTTTTCACAGACATCTCATCTCTGATTGGGTATTCTTTACTACCTACCAC
CATAACTGCACTCTGAATATATAGAAATCAYAGTTTCTTGATGTAAGATTTTTACATTTTTACTAATAGTGATTTTTATTTGCTCCCACTGATAGTTTCA
CTTGCTTTTTAACAGCAAAGTGTTATTTGATGAATCTGGCCAGAAAGTAAGACTTACTATAAATCATATATACAAGATAGGGATCATTGTTTATTTTTAT
TATATCTTTTGAGTCCATTTTTGTCAAAAGTCAAAAGATATAAAAATATTTAAAACGTAGTGAATAACTGTCTCTACTCTTTACTGGAATCAAAAATTTG
TCCATTCCTGGGCCAATGGTGTTAAATTAAGTGAACTTTATTTACATCATTTATGTTTCCACAATGAATTGTTCTGCAGCTATACTTGATTTCAATTACA
TGTTATCATCCTTATATAAAGAACCACATTTCAAGAGGAATTGTTTCCATTAGAATCTTATTGGCCTCTATTTTTTCTGCCCATTGGTCAAGTATGACAT
AATATTATGATTCAGAACCCYGAAAGATTCCAAAAGTTGTGATGTTGTGCCCATGCTCTCTAGGTGACCGTGGRTGGCCATGACATTCGCTCTCTTAACA
TTCAGTGGCTTAGAGATCAGATTGGGATAGTGGAGCAAGAGCCAGTTCTGTTCTCTACCACCATTGCAGAAAATATTCGCTATGGCAGAGAAGATGCAAC
AATGGAAGACATAGTCCAAGCTGCCAAGGAGGCCAATGCCTACAACTTCATCATGGACCTGCCACAGGTACCCCTAGCCATACATTCCTGGGAGAAACYA
AGAGGTCATAGAAGGAAAAAAAGTTGCACAATTATACACATTTCTTYTCGTATGATTCCCAAGTCATTAAATTCTTAAGCCATGTTTTAGTTTCATGCCT
GAAAAAGTACCATGAGTGTTTCCTTTCATCTGAAAACACATTGTTTATGTGTTCAAATCTATCAAAAAAGGAGGTTTTCTTTTGAAAAGCTCACTTTGTT
GGTAATATATTAAACATCTACCAAACTGGGGAACTATCTTTTTTAAAACTCCTTTGACATAGATCCAATGTCCTTATTCCTTTTATTAAGCATTTGTCTA
AGCAGATGCTAAATGTCATGTGGCAATAACTTGCACAATAATCTCATGACAGCTACTCATAATTTTCTTGTGCTTAGGCAGCTAATATTGTGTCAAAAAC
AATTCRTTGTATATCTCCATTCTAAGCAACAACAACTACAAAAACCAACTCCTCAGCATTATACTTCAATGGATTTTGCCACCGATGGCCTGCTAAGTCA
AAGAAGAGTTATTATAAAGGGTTAACACGTATACGGTTCTTACTACATACCAGGCACTGTTCTAAGCACTTCACACCTATTAACTCATTAAACCCTCACA
ACAACCCTGTTGAGCAACTAATATTATTAGCTCCATCTAAAGATAGAAAACTGAGGTTCTGAGAGGTCAAATAGCTTGCTCAAGATTATACAACAAGTAA
ATGGTAAAGACAAGGTTCATACTGAGGTGATCTGCCTTCAGAAGAGTCAGTGATCTTGAACACTTCCCTTTCAGCCTTCTAAATTCTCTTTATGAATAGG
ATTGCAGCTGTGGCTATGATATAGCCTAGTAGTTAAAGAGTATAAAGCTTTAGAATCAGATTGCCTTGATACAAATCCCAGCTTCTCTATTTACAAGCTT
TACAAACTTTCTCAAGTTACTYTGGGCCCAGTGTTTCCTTATTCATCAGTTGCAAATAGCAGCACTTGCCTCATAAGGTATCTATGAGAACTAAAAGAGA
YGTTATGTGTAAAAAGCTCAGAACCATGCTTTATTCATAGTAGGGGCTCAATTCATGTTGGTTAGTAATAAGCAAGATAAGTGTCTGACCRCTAACACCT
AATTATTAGATTCCAATGTTGTGCTAGGCCTGTGAGATAATCAGTAACCATCTTTTGTCAATGATAATCCTTATAAAGCTAGTTTGACCTTTTATTCATA
ATGTAAAAACAGCCTTTGCATTATATTTTGCTGTGTTGTCTAACAGGAGMAAAGAGACACGGATTTGCTCTGTGCTTTAATCCTCTGAGATAGATATTTA
GGACCRYGACCAATTTTTATTTTGGYTGAAAAATCTTATTTGAAGTTGAGCTAAAGAGGAATATTTACACAGCCCAGTAAACCCTGGAATAAAAGCATAA
ATCAATTCCTTTATTTCACACATAAATATTGATTAGACAATAACCCRTCTGGGGAAGGGATATTTCTTTCAGTGGAAGTCGGAGCAGTGAAAATTCGTGC
TTGAGAAGAAAACTATGACAGAAAGGACATTATAGTGGATCACTGTCAGAAGCCATCAAATTCTTTTCCCTTCATGACTGGTGTCACCTTCCATCTAGCA
ATTTGACACCCTTGTTGGAGAAGGAGGAGGCCAGATGAGTGGTGGCCAGAAACAAAGGGTAGCTATCGCCAGAGCCCTCATCYGAAATCCCAAGATTCTG
CTTTTGGACATGGCCACCTCAGCTCTGGACAATGAGAGTGAAGCCATGGTGCAAGAAGTGCTGAGTAAGGTTTGTGGAAGTCTTAGTCCATTTTACAGGT
CCATGTGGAAATGCTTGTGCTGCTGCAGGAAAGGCAGCTCCTTGTGGGGTGGGARGGATGGGAGTAGTTGATACTACATGGGTTCATGCATCTAGTCTGA
TTGTTTAGAAAATATTAGCTGACTACAATCTTCCTCACAGTTGAACAGAAGAAAGTTGTAATTTGTTTCCAAAAGCTACACATGTAAAAGTTTAAATCTT
GTTAAGACTAGCTTATGATATTTTTTAAGTTACCTAAAAAATTGTTTTTAGCTGTTGATTAATGGCAGCAACAGGGCCAGTGTGTGTTGGGGTTTATGGC
TGCAAGAAAATGTGCTGGCCTTTTCTAATGTCTGCACARCMTATTTAAGAATATTCCCAGGGACCAAGGATCTAACTTTCCTATGGATTCTGAAATGATG
CAAAGGTCAGTGTCAGCTCTGTCTCACAGTTTTGTTTAATGGTGCACTGTACATTCTTACAGATTCAGCATGGGCACACAATCATTTCAGTTGCTCATCG
CTTGTCTACGGTCAGAGCTGCAGATACCATCATTGGTTTTGAACATGGCACTGCAGTGGAAAGAGGGACCCATGAAGAATTACTGGAAAGGAAAGGTGTT
TACTTCACTCTAGTGACTTTGCAAAGCCAGGGAAATCAAGCTCTTAATGAAGAGGACATAAAGGGCAAGTGCTTTTTCCCTATACTTGTATGTTATATTA
AATAGTTAATGTCTATAGTGCTTTACGGTTTTCTATGTATTTCAATACTCACTGTTCTCCCAACAACTCTGGCAGGCGTTATATAGATGGTAAAGGAAAC
AACTGAAGCTCAGGAAGCTAAGCTATCTGATCAAGTTACAGCACTAAAACCAAGGCTTCTAACTTTCAATTCCATCCCCCCCTTTTTTTTTTTTTTTTAA
CCCTGCGCAAATAGAAGAGGCTTCCTAGAGTGTGTTCCGCACGCAGTARAAGCTTCATGCTTATTGGCTGAGTGAATTAATCAATGACAAGAAAGTATAA
TACTTATTTTCAAATGTAGATAGATACTTCAGGTTCTAGTGCACCTTCTTTTTTATCAGTCTGAATTTTCAGACTTGGTGGTTACCTCAATCTAAATTAA
CCAACCACTCTAAACTTTCTCCACCATTTCRCTCCATTAGGTGTAACTACTATATACATTTAACATAGGAGGGTTATTCTGAATAGACTTTTGAAAAGTT
TAGTGTTTCTATCATTTTTTTTTTGCTACTTCTGATGGACTTCTCTTAAACTTTTTATGATTTATGCTAAAAAAAAATACCTGTTTCTGTAGAGGTAACA
AGCTATTGTATGGTTTAAATGACTCAGTCTTGCTGAGTATTTTGAAATTTTTTATTAGAATCTGCAGGACAAGTCCCGAGTTTTATTTATTGCAATAAAG
TTAACAGAATGTTTTGGCATTTGACATAGTAATTATATTCTAAGCAAACATAGTAAAGAATTCTACTTGGATATGGTTCTGTTTATTGTATATACTAAAA
AATTGCTCATGCTGTGTTGAGTAGATGCAACTGAAGATGACRTGCTTGCGAGGACCTTTAGCAGAGGGAGCTACCAGGATAGTTTAAGGTAAGCTCAAGC
CATGGGGCAGATTACAAGCTTTCCAAATATTCTGAGGAGTCCTCTGTAGTCCTAATCCTCAGAGAATATCTCAGGTACAACAAGGAAACTCTGAGTAGAC
TGCCAGGTCTTGTCAAATATGAACATGCAAGTGATCCTTGGTTGCTATATTGACATTTCTCTCCCCAATTCATGGKTTTTTKKTTAGCTTCTCATCTTCT
TGGGGATAAGGGTTACAATGGAGATGCTTTATGGTTAAAATTGTTGTGTATTGAGCTTAGAAAGGGGACTTCTTTTAAAAAAAATCTGTGTTTAGTGTTC
CTCTGCTCCAAGCTAACTGTGGTATGAAACACTGTCTTACGTGAAGGTCAAATTCATGCCTTTAGCTCCACTCTTTAATCTACTGAGCTGCAACTGAATT
ACAAACACTTCTGCTCCCAGAGTAACCCATCTGAAGTCAAATCATTCCATAACTAGATGAAGTAAGAAATGTAATTTTTTAGCACTTAAAAATAATTTTC
CTAAATAAGAGCTATTTATTTTTCCCTGGATCAATATAAAGCTGTTTACTTTCAAAATATATTTTTGGAGTATGCTATTAGTGAGACTACACACTTTAGT
CTTTCATCCTGGTTTAAGAGTTTCAATAAAACTGCTCCTCTGATGTTACAAGTCTGTATTAAGAAGAATTCTGCCCAGGAGTGTTTGTCTATATTTATAA
CTGTTATTCAAGATTTTTTTTTCTTAAGTCAGAAGATTTTTAAAAGGCAATGAGATGGTAGCAATATCTCTATGATTGCCATTTCCATTTCTAGGACATT
TAATGCAAGGCTGTGCAAAGTCGCAGAGATAAGACTTGCTCATTCAAGATGGATAATTATTTATTGAAAAGTTGTTAAAGAGCCTTAAAACATTCAGCTA
ACAATTCCAAGTAGTTCAAACGCAGATTTATTCATTTAAATATTCAAAGAATAGCTCACAAAAAGTAGTGTATTTATTTTCAGATGTAGATAAATACTTC
AGGCCCTAGTATATCTTTTCCTTATCAGTTTGAATTTTCAGACTTGGGTTTTCCTATYTTTCTTCTTGAGAACAAGTTTATTCAAACAAATTTTAAGAAA
TGCTAGTTTGACTGAATTTACTGAATTTGGCAAATAACAAAGCAATAGCTTCACATTACTCTGTCATGTAAAAGGKATAAAACAATGTTATAGGCACCTG
GTAGTAAGTTTAGTCATGCTTTTCTGATTCGATACTAAATTTAAATCATTCAAGTCATTAGAATCACAACCTGAAAATATCAACTAACTTCTTAAACCCA
GAGAATGACTAGGCATCTCTTTTGGTCACTAGGTTAAAGGTTGCAAAGTGGACATGTTTCTTATGATCAGGCCAACAAGAAAATAAATATTTTCTTAACT
CTTCAGACAAACAAAATTCTACTCATGTTAAGTAGTTTATTTGCAGTTTATTATTAGAACTAGTTAACCATTTTAATGTGAACATTAATTTGGCTATAAT
TTCTCACAAATGTTACATTTTGGTGATTAGGATGAGAAATCCAGAAATACGATCTACACACAGAAAGTAGCTATTAACCTCCTGCAGAGAAAGATTTGTA
CATTTGAGTATGAAAGTCTGTTAAAATATCTCATTGTARATGCTGACGGATTTTTCTTGTTGTCGTTAAAAGATGACTAAATGAAGTGTTAATATGTATC
TTGTTTCTTTGGTTTCAGTTTTTCTGATGGCTAAGTTCCTTTTCAGCAATATATTTTAAATTCAAGAACAATTTAATACATAACAGCCACAAATTTCCTA
AATAATAATGTTGAGAAAGATAGTATTTAGTCCCCCAAGTTAGTTGTTTTTATTTGCAGTGAGAAGTGGTACACAGCTTCAGAGAAGGGGAGAGACAGAT
GTTGTCAGTTTCTGAAAAGGGATGGTGTTTCTAGTGGATGAGAGAGGTAAACCTGCCTAGCACATGCACTGCCCATGGCCTCATGACAGCCTAGGCTAGA
CAGCTCGAATGATCTGGAGAATGGTGAAAGAGAGAGACTTAAAAAATATAAAGTAGATATCCAAGGGGCCAAGGACATAGGTCTTCCCATACTCAGAACT
GGAAGGTAGTCAGTCATATGTTGATGGCCTCTCCTGCTCCACAAACTCCTACCTTGGCATCCATTGCTCTGCATTTGCTTTTTAGGTCCTTGACCTTAAG
TCTCCTCCTATCAWGCACCTTGTTCTCACCAGCTGACACAAGCCTATTCTGCACACCTTCTGGAGAAGACATCCTGACCTCTGTTACCTAACTGGGAGAA
ATGACTTCATTGCTGTGTAGTTTCAGGCTAGGTGGGAGGGAGTCTCTGGAGGTGTCCCAGAAGTTTGGTGGCAGGGAGTAGCGTTGAGGAGTGGTTTAAT
GCCTGGTCATAATGAGTCTTGGCAAGRGTCTGAATGTGCAAGAGCAAGGAAGAGGGAGGGCTTGAGGAAACTGCATGGTGTTGAACCTGGGTGACTAAGA
GGATGGAAGTGCCATTAACAGAAAATGGGAACAAATTGGAGCAACTCAGTTGATACATTACTGCCTTCTCTGGAAGGCTAGATGAGCATATAGTAGGCAG
GCACCACCTTGATATTTGTTTTGGTGAAATTTCACTTGGATGCAAAATGGTAGAGAAAGATATGTGAATGGATTCATCTAGATGGCACTAAAACAGTTGA
TGCMGGTCTCCTCATCACTCACATCTCTCTCTTTACACCATTTACTTCAGGTGATTCTTTCTAAAACACAGTCTTCAGCATTGCCTCTTAACCATTAAGA
CTGTTTACAAATGACTGAAAACCTAACCCAACTTGGATTTACCTTTAGAGAGACAGAATCAGCTCATATAACTAAATATTCCAAAGATGCTTTGGCTTCA
GGCAAGGCTAGAGCTTCAGTGATATGTCCAAGCTAGAAAATAGTTTCTCTCTCTTCCTTTCTCAGCTCTACTATTTCACTGTTGGCTTCATTTTTCAGAA
AGCTTCTTTTTTTGAAGGTCTCAACATAATTGTCAACAGCTCCCAGCACTAAATACTTTAAGATTAACCTAGAGGAGAATGGGGGCCTCCTTCCCAGGAG
TCTGGGGGAGGGAAGAGGAGGGTGGAGTCTGAACCAATCACTTCCCATGCTTGTCATGTACTCAGTATATTCAGCAAGCAACCCTGTCCTCCCCTGTCTC
CATGCTTATGTTTATACATTCTCTCAGTCAGAAATGCTCTTTTCTATAGTCTACAAATCCCCATATCCTACCTTAKYCATCTCATCCATGAATCTTGCCT
TGGTAACACCTGCCATACATTTCTTTTTCCTTTGACTTTCCATACTCTTTATTCAAACCTGCCTAATAGCACTTACCACATTCTTCTTTACCTTAGGGTG
TGGTACAGGCCTCTTCTATAAGGTTTAAATTTTTTGAAGGAGAAATCTGTTATTGGCTAGTCTTTGTGTCCCCAACATCACCTGGCATTGGTTTGTAAGT
TGTAGATGCCCAATAAGCTTCTGTTGAATTAATGAATAAATGAATGAACACATTGAGCTAAATTATATTTCAACAAGATACTCATTCATGCATGTCTGAA
TGCAGGGTAGTATATAGCCTGGAGAAAATCTCATCAGAGGCCCTATTTCCTCATATCATTTGTAACCATGCTAAAGTGAACACATCAGGTATGAGAGAAA
GATATCAAGACCACAATYTAAGCCAGAAGGAAAGTAAAGGAAATAGACTGTTGCCAAGGCAGCAATTAGCAGAACCATGTGGGTTTGGAAAGTATTTGAG
CCTTAGGTGGTTTTTTGATGAACTGGTAGGACAGCTTTGCTCCCTTTCTCTTTCTCCCTCCCTGACTACACTCTGAATCTGGGTCCAACACTTGCAAGAG
TTTAGGGCCCAGAGCAATCAACCTGATTAGCTCTGCCCTAAGATTAGCTCTGTCAAACCTAACCTGCAAGCTCCCTTTCCTGGTTACCATGTGACCTACC
AAACATTTCTATTTATTTGACATATGAAATGTAAACTTGGACACCAGTTGATCCTGCTCCAATCTGGCCACAGTCTACACTGTTTCATCTTTCTGTTTAT
TTACAGGGCTTCCATCCGGCAACGCTCCAAGTCTCAGCTTTCTTACCTGGTGCACGAACCTCCATTAGCTGTTGTAGATCATAAGTCTACCTATGAAGAA
GATAGAAAGGTCAGGCACCAACTGCTTATGGGGGGGAATGGAAGAAGTCTCTCCTGGGGACTGTTGGGTACCCTTTAAGCCTGAGAATATGAGTTTTCTA
GGTATATATCTAGCAGTGTTTCAAGTCAGACTAAAAGACAGAGCATTAAGACCTAATGAAAACTCTAAGTTTTACACAATATTTTTAATGCAGATTAGTT
AATTGATTATTTTTAAGAATACAAGGTAATGAAAACTGGACTTCGSAGGGTTAATTGTCTTAGACAAACTATTCTAACAAACACAGAATGTGTGAATTCT
AGATATTTAGCAGATTATTTGCTCATATGTAGAAATCCTTTTATAAAAGTTGTTAAGAATACCTGAAAGCTTTTTTCTCAAATTTTAAAATTTCTTTCTT
AAATTACAATAATTTTGGCAAAAATACCTTGATCAACAAAAGTGTTTGAATAGGCTAGCCCTTATTACAAGTTATCAAAATATTTGAATTAATGGAGGCC
AATTAGGTTTCACAGACATTTGTTGATTTCATACAATTTTTATAATGGTTTTAAGATACATTTAAAATAATACTATCAATTTTAACATAATTCAAGGTAG
CATAAAATTAAAGAGCTAGGAAAGCAAACAACATGTATAGCAATACACAATTTCTTCCTAAGGATGCAGGTGTCCTGCTGTTGTAGACATTGTCTAATTT
TCACATAAACAGACCACCCATTCTCCTCCAAGCCTTTCCTCATTACTGCACGTTACATGTCAGCCCTGATACTTTTACGTTCATTCCCCTACCACCCTTC
GTTAGAAAATTTTCATGGCAATTTTCTTATTGAGCCTTAATCAAAGTCATGTTGACTTATCCCCTTTCTAAATTATAAGCCTCTGAAAGTTAGTGATACA
YCTTATTTGTGTTTGAATCAACTTGGTTACCTAACCCAGTGCCTTGCACTTAGTAAGGCATCAGGAGATTTTAAAAATTAGAATGAAAACATGAATTTCT
ACAATAAAATAAAACCCCAACTGCAAGATTTATCAAAGCAAATAAGTCAGAGAATTTTTAAATTACAAGCACATCCATTATGCATGATATAATTTCAAAT
TGTCTTAAATAAAATTCCAACACGTGAATCCACTAGGCAGTAATTACAAACATTGATTCATAATGGACAAATTTGGAATAAAGTAGAGTACTCTTTATGA
CCGTATGAAAATGACAAGGGAGTGATTGGGTTCTCTTTTGTTTTTAATGTATTAATACTGAATAAACAGAGGTCTCAATTTCTAACACAGGCTTTAAATA
AATTCCATGGAAGACTTTTTCTCAGGAGCAGCAGGATGAATCACAGTGAGAGAAAACACATTTAGCAAGCATAGTTTCTTACTGCATCCTGCCACTAAAG
ACTCAACCTCTCTTCTAGTTCTAGAAATAGCTATTTCATTGAGTCCATGGTGCTGTCCCAGATAACTATAAGATGTATTATATAAGAGCAGGAGTTTAAT
AGAGCTTCAGGGGAGAAAGAACCAAACACTACATTGACATTTCTATTGAACCATAACAATACCAATCATATTTAATTTTTGCATTTTAATTTTTTCTAGT
TTCTGGGTAGATATTTGACAATAAAAGTAAAAGTAAGAAAGGATGGAAAGAAGGGAGGGAGGGAAGGAAAATCTGACTTTTTCATTGTTGTTGTTCAAGC
TGGTAGAGGACCTAGCGTAGGTGTAGGGGACCATCAGATTCCCTGGACATCTGGAGATCAGATTCCCATAGAGTTCTCTTGATGCAGGAACAATTCAGGA
GGGAACCATTTAACTAAAAGGAAATCTAAATCTAATATACGGTCTAGTTTTACAGAGATTAAAATGTTTCATATTATGTTCTACTAGTCAGCATTATACA
TTTAGAATAGAACAATTAAACTCAGTTATATGTAGGCCAGCATACGTTTTAAAAGATGTGACTTTACGTTCTCTCTAGTTAAGGGAGATAGAAAGGAAGA
AGAGAGAAAAAATGATAGGAGAGCCAATGTGATTATACTAAAGCTCCAAGGGGAAAAGGTCTCATAATAATACCACTGGTTTGTACGATAATTTTGTTAG
TCCTTTAGGTTTAAAAAATTAATGATTTTTGAAAAGAAAATAATGGAAAAGGGTTAATAAAATTTGACTTATGAAATTTCTAATCTCAAGTAACATTATA
TGGTAAAATGTTGCTCTGTTTTGGTATTTTAAAGTATTTTAAYACTTAACTAAATTCCACAAGCCCAAGCATTGGTGAAATCCTTTCTTTTTCTCATGTT
GATGGAAAAGGCCTAACCTTACTTTCTGTAGATTGGGAAATACTCTCTTACGGTGCTAAAGGTCGATTCACACAAAGGAGTTATCGCCACCTTGTGGTCT
TGTGGAGTATTGACTCTAAAACTTAGAACCATTTCCTGAGAAGTCTGTGCTTTCACCCAAGGTCTCATGGTTAGTTGGTGACAGAGATGAGACTATACCC
ATTTATCCTTGCTCTCCAAGCAGTACTCTTAGCTCCTGTAAACGGGGTCAGATGTTAGTTACAATGTTGACAACATTAAGTTTAGGATTAGGGAAACCCA
CAGGCTAAAGGTTTTAGTCTCTAATATTTAGGCAATCTCTTTTGGTGAAACTAAAACACAAGGCAGAACATGTATGAGATCAAGTCAGGATCAAATATTA
GACACCCATAACTGCATCACAGATAACTTATGTGATAGGATTTAGGCATTGGTTAAGATAAGACAGAGATGGGACCCATAAAAATGGCTATCAGTATTAG
TTCATTTGAAAAATCTCTGCTCCTTTGTCATAGTTACCACTTTTTATCATCAAATCTTAAAGTTATTATTAGGGCAGGGAACCTCTACTGAATGGAAGGC
AGAAATTAGTGTAACAAAGTATAGAAAGCAAGACCTAAGATTTAAGTCGGAGGTTATTTTTCCTCTGGCCTACACAGAAGATGTAAGAAAGGAAACAGAA
AAGCCCAGTGTCTAGCATTGAACTATGAATGCATCATAGTAGATGAGCAATTTTAAATAAATCTCTTGTTGCATGTATGCAGCATGGACATAAAAGTTTC
ATTCATTCTTTTATCCCATAAACATCGATTGTACACTGTGAAGTGCCAGGTATCACACTGGGGATGCAAAAATGAACAAGAGCTATTGTTACTCTCCCTA
CTATGGAGCTGCTGACAGGCATTTCTTTACATATGATTTTTTTTAAAAGTGCTGTGCAACCTGCCAGTGCTACAATAGAAGTACAAGGAAACACATATAA
ATTTTATAATTTTACCTGTCTRTGAGATTTGTTGTTAATTTATAATCTTCTCTTTATGTTTAATTTTGCAAAATCAGAGAGAAAAATATTTCTTTACAGA
ATGACTTTAATTATTTTTTGTATTGTTTTCTTTTATTCCTCTCCTGTTCTTTTAGTGGAGATATCAAATAAAATGCAATAAAAAGTCCAATATTTAGGGA
CAGATTTTCTAGTTTTTGCATCATTCAAGCTGGACAGTTGCATTTTTTCGGGGGGGTCAAACTTTAAAGTCAAACTTTTAGTATAGAGGAACCAAAGAAA
ATTATTTTAATTAATTCGTATTTCTTGTTAGTGTCTCTTGGAATGAAAACCACTAGACAAGAATTACTTTGTATCGCTTTGAAATGTCCTAAGTGTTGTT
GTTTAGAGTTAAGGATAACTTCAGGTATCAGAAGGTTGGGAAAATTTCTATCATGTCAGGCTGTGGGTGGACCATCCTGTGGGGCAATSGTTCCAGAAAA
TGCTGGTATTTAATGTCACAAGGAAGCTGGCAGAATTTAGTGAGTGCTAATAGTCTTCACAAGTTCCAAAGCCTACCCTTTGATGGTACGTACAGCACAG
CTGACACATCTAAAACATACATTATAGAATCCTAGCCATTTAGTGGTGAGAGGAGCCTTGGAGTTCTCACATACTGAACTTTGGTTACCAGAATTACCTG
ATGAGTATTTTTTAAGACAGAGATTCACAGTTAGGCCTACTAAATTGGAATTCTCGTGACAGGATACAGGAATCTGGTTTTTTAATCATCAACCCACATG
AATCTGAGAGCATCCAGATCTGGATACCAACCACTCTCTAGAACAGAGAAGGGGTGAAATATTTTGCTCTATTGCAAGCATTCAGTTAGTCTCACACAAT
TTCATGATGCTGGCAGAATACATGAGCATCCTGAATCACAGTGTTCATATTCGGGTTTTTTTTTTTTTTTTTTTTTTTTTGGAGATGCAGTCTTGCTCTG
TCACACGAGTACCCTGAACCAGAGACAAAGGACTTTATTATTCATAGCAATAGCAGTAGCCAGTGTTCAGCATTTGCACTGGCTCCCCAACCCAACCCCC
AGTTCCCACAAGGCAATGCAAAGAGGGCCAGATGATACCAACAAATGAAGTGGGTGTTTTAAACGAGAGGAAACCTGGGCTTGAGGAGCCTGACTCTTTC
ATAATGGGCAGATGGGGGCAGTAAGGTTTGCACTTCACTTGGGATGAAGACATCTTCTTTGTCCTCCAAAACTGTTTGCTATACAAATACCCTTGAAAAA
ATAACCCGAATGAAGGTAATCAATGCCTCTGTTCACAAGATGTGCATAAACATGGGAGACTCAGAGAGATTGTTTCCCCAGAATTACTTAGTCCAAGTCT
CTCGTTTTAAGGATGAAATAACTGAGGTCCAGAGAGCTAGAGCACTTAGTAATACACTTTACGGGTGGCCACGTTGGGCTTTTCCAAGAGCTCCATTTTT
TCTATGCCTATTACACTCATGCTTTCCCAGGTACCCTTATTCCTTTCTGGCATAGGTTGCCTAGAGCTAGTAAGCTGTCACAGGTGAAATAATTGAACAG
AAGGACCTGCTGCATGAGTGAGCAGTAATGACAAAGTACAAATGGTGAGAGCAGGCCAAGAGAGAACTTGAAGTGGAGGTAGTACCAAATTCATCACCAG
TCCAAGTTGCCTTCCCTCATTTTATTTGACTTGCAACTGTAATGAAATGGACATGACACAGACTTTCATTTAAAATGAATGTGGTCTTTGACTTTGTAAG
CAAAGGGAAAATTTTTGAAGATCCTTGCTGTTGTCTATCCCTGCCATCCTGCTCCCTAAAAGATAAATTACTGTGTTAATGAAAGAGAGCACTAATTAAG
CTTTATAGTCGATTTGCTGTATATATTTTTGGTAAATGTCAATAGAAAAGCTTTTAAAAATCAATACAAATCTATATAAGCTACCTAAAATCCTTTCTCA
AAGTGGGTAATAAATTTAACAAATTAATGAATTAATTACGCTTAAGACCAAACTTGAGTAGTATCCATAGCAAGGAAAAACGATGGCCAAAAAAGACAAC
GGAGGTCCATGTATAATATTTGCCTTTGAGAAGATAAAAAACTGCTAGCTCTGACTTAATGGCAACTAAAGAGAAATGCTGATTAATGTCCACTCTGTGT
GATGAAAATGTGCAATTTAGAAATCCAAATGCAGTACTACTTACCTCTGGGTACTGATTAAGGAAAACCTTACTGAAAACATCTCRAYGATAACTGTTGA
CACCACTTAATGTATTTTAAAAATTATTTTGTCTTATTTCATATATACTGGCCTACCTTACAGCTTTAGCCAGTTACTATATTATAGAACCTTGACATTT
ATTTTAAAAAATTGAAAATTTCACCAGTCCTCACCGGTATAAATACAACCGTAGCAAAGGTTTTCTTTTTTTAATGGGAGTTATTTTTCTCCAAGATCCA
ACATATTTATTACTCTCTGAGAGTTAATACACATGTAATCATGAAATAAGAACTATAAGCTCACCTTCAAATGCGTATTCCCTCAGTTCAGTTTTTATTC
AAGCCACAGCAATAGTTTTGTTCAAAACGATTCCTCAAAAAATAACAAACAACCATATCCCATAGACATTTGAGGTCACTCATAACTAATCAAACTATGA
CTCTTAAATCTGTGAATGCCAAAGGATCTGCTGCAAAATGTCTTGAGTACATTTAGATGATTAATATAAMCCTCTCTCTGCTCAAGGACAAGGACATTCC
TGTGCAGGAAGAAGTTGAACCTGCCCCAGTTAGGAGGATTCTGAAATTCAGTGCTCCAGAATGGCCCTACATGCTGGTAGGGTCTGTGGGTGCAGCTGTG
AACGGGACAGTCACACCCTTGTATGCCTTTTTATTCAGCCAGATTCTTGGGGTAAGTACACAGCTGGACTAGCTTTCTTCTTCTCATACCTTTTATTTTA
TTATTTTGATAAGTCCGCTCTTTGTTTTCATGTATTTAGCTCTTTTCTGTTAGTTCATTTTTCTCATCTCTAAAGAAYGAAAAATTTCCTAAGCCTCCAT
CACACAGAGGGTAAGAAGGCAAAGCTGAGAACTCTCATTTGGGCTCGCAGGGCACTCAGACAGTCATTGTACCTATAAAAAAGAAAATGGTACTGTCACT
GAAAATTTTGTGTTAGAAGTGGGCAATTTTTCTAGTAATGTATATCAAACCTAATCAAAATGCAAAGTGGATTCACTGAATAATACAAAAGGCTTTTAGG
GAAATTTTGATCTTGCTGAACAGCAGAGGTACAAAGTTTGACTTATATAGCAGGTGTTAGTGTTTGATGTATAATTCTCCACGGATTGCACTATTGAAAT
AGTAATGTGGATAGGAAGCAGAAAAAGAAAGACAGAAGTAAAATAAGGCATGATTGAAAACTAAGCTTATTCCAATTTTTCACTTCCTAGAATTTCTTAT
GTTCTCTATCTGACTTGATTGCTGTAATCATCATAATAACTATGAACATGTATCAGGCAATATCTAAGCATTTTATGTACAATAGTTCATTTAAGTTTAC
TAACAACCGTCTAAGGTAGGTATTCTTGTTATTTCTATTTTACAAAGGAGCAAACCAAGGCACAGAGAGCTTAGGCTAGCAAGTGGTGGAGTTGGGATTC
AAATCCAGCCAGTGTAACTGTAGAGCCAGGTTCTAGTAAAATCTTGTCATTGCAAGATTAGTTATCAAAATTTGATCATGGAAACAGTACTGAAAGACAG
CTGACTAGATGCAGGTAGTATGTGCCTTCTCCATGAAGAGGAATCAGAATAGTAGGTAGATACTTACATTTGGAACAGATTATCTGGGCTAGAACATTAG
GATTCATCAAACAAGGGATGGGAAGCACCAGAAATAAGAAAGGAGAGGATCTAAGGCAGCTTACCCAGTTGGGGACTGCCTGAGAGCCACAAGAGGCTTT
TGGATATGGGCAAACAGTAAGAGAGAAAYATCCAGGGCTCCAAAATGGGCTTTYACAATCTTGGCTATGGGRTAAATCCTTGACCCACTAGGGCCTTTTC
CCTGACATGAAGAGCTGCCTAAAGATTCCACGGAGATGTTACTCCAAAAGGGAAACCCACACAGAATCACACAGGCATCCAATCCTGGAGCAGCCTCTGT
CAGGCATCATTTTGAGGGCCTAGATACCAGGAATATACAAACATGCACTGCCTCTGCACTGCTTCAAGGAGAGAGAGGGGAGACTAGATAATCCCATCAC
CCCCGGGAGGATCCCTGCCATGCTGTTGTGGTCTACTGTTGAGACTGAGTCATGAACAGACTCAGAGTAGTATCATACAAAGATCACACTACTGCATGAA
CCCAAAATCAAAGCCAAAGTATTTTTTAAAAATCTCCCCTACAAAAGCAAATTCAAAAATTGGAACAAGCAACTGATACATCAGATATACAGATATCAAT
GGAAGAACATAGGAAACATGAAAAAGCATGGAAATATGACACCACCAAAGGACCACAACAAGTGTCCAGCAACCAATAATGGTGTGGCTTTGTGTCCCCA
CCCAAATCTCATGCCAAATTGTAATCCCCACATGTTGAAGGAAGAACCTGGTGGGAGGTAATTGGATCATGGGTGGGTGGATTTCCCCCTTGCTATTCTT
GTGATAGTGAGTGAGTTCTCACGAGATCTGGTTGTTTAAAACTTTGTAGTCTTCCCCTTTCGCTCTCTCTTCCTCCTGGTTTGGCCATGTGAAGACATGC
CTTGCTTCCCCTTCACCTTCTGCCATGATTGTAAGTTTCCTGAGACCTCCTCAGCCATGTGGAACTGTGAACCAATTAAACCTTTTTTCTTCATAAATTA
CTCAATCTCAGCATCAGTGTGGCCTGGATGTGAGACAAGGTGTCAAAAAAGATTATTTTGGAGCTTTAAGATTTAACGACTGCCATGCTGGGTTTTGGAC
CTGCATGTGGCCTGGAGCACCTTTGTTTTGGCCAATTTCTCCCTTTTAGAACAGAAGGATTTACCCAATGCTTGTACCCCCATTTTATCTGGGAAGTAAC
AAACTTATTTTTGATTTTACAGGCTCATAGTTGTAAGGGACTTGCCTTGTCTCATATGAGACTTTGGACTTAGACTTTTGAGTTAATGCTTAAATGAGTT
AAGACTTRGGGGACTGTTGAGAAGGCATGACTGTGTTTTGAAATGTAAGAAGGACATGAGTTTTTGGAGGGGTCAGGGGCGGAATGATATGGTTTGGCTY
TGTGTCCCCACCCAAATCTCGTGTCAAACTGTAATCCCCACATGTTGAAGAAGGGAACTGGTGGAAGGTGACTAGATCATGGGAGGAGATTTCCCCCTTG
CTGTTCTCATAATAGTGAGTAAGTTCTCACAAAATCTGATAAAAGTGTGTAGCGCTTCCCCCTTCACTCTTTCTTCCTCCTGCTTTGGTCATATGAAGAT
CTGCTTGCTTCCTCTGTTCTTTCCACCGTGATTGTAAGTTTTTTGAGATCTCCTCAGCCATGTGGAACTGTGAGTCAATTAAACCTCTTTTCTTCATAAA
TTACCCAGTGTCAGGAATAGCAGTGTGAGAACAGTTTAATAGAGATACCAATGAAAAAGAATTTYTTGAAATGCCGGGTAAATAATTTAAAATATTGATT
TTTAAAGATAGTAAAATGCAAGAGAAATCTGAAAACCAATACAAAGAAATCAGAAATCAATTCAGGATATGAATGAGAAATTTACCAAGGAGATAAATAG
CATTTTWAAAAAATAAGCAGAAATTCTGGAACTCAAAAATTCATTGAAGGAAATACAACATACACTTTAAAGCTTAAATCATATACTAGACCAAGCAGAG
ATAAGAATTTCAGAACTTGAACACATGTCTTTTGAAATAATCCAGTCAGACAAAAATAAGGAAAAAAGAATAAAAAGAATGAACAAAGCCTTTGAGATGT
CTAGGACTAAGTAAAGGGACTGAACATGGACTAAATAAAGCAACTGAACTTATGAATTATCAGTATCCTGAAAGGGAAGAGAGATCAAAAGGTTTAGAAA
ACATATTTTAAAAAATCATCAATAACAACCTCCCAAGTCTGTCAAGACTGTTAGACAACCAGTTCAGAAGTCCAGTGATTCCCCAGGCAAACACATTACA
RAAAGGAATTCACCATTATATATTATGTTCAGAATGTCTAAAGTCAAAGTAAAAGAAAGAATTTTTAAATTAGCAAGAGTAAAGCATCTACTCATCTATA
AAGGAAACCCCATCAGACTAATAGCAGACTTTTCAGCAGAAACCTTACAGGCCAGAAGAGAAAGAGATGGCATTTTCAAAGTGCTGAAAGGAAAAAAAAA
ACTGTCAGCCAAGAATTTTGTGTCCTGCCAGAATAAGCTTCATAAGTGAAGGAGAGATAAAGTTCTTCCCAGACAAGGAAACATTTAGAAAAATTATCAC
CACTAGATTGGACCTACAGGAAATGCTCAAAGGGGTCTTAAACATGGAAACAAAAGGTCATTGCTCACCATCACAACAACACATTGAAATATAAAACTCA
CAGTTCATATAAAATAATCACACAAGGAAGAAGAGAAAAAAATAAAATGGCATAACRATTTCATCAAACTACAAAGACAAAAAAAAACAGAAAAAGAGGG
AAACAATTTATAAAATAACTTGAAAACAATCAGCAATATGACAGGAACAAAGCCTCACATATCAATATTAACCTTGAATGTGTGACTCCCAAAAATCTGA
GACAGGTCCCAGTTAATTTAGAAAGTTTATTTTGCCAAGGTTGAGGATGTGCACCCATGACACAGCCTCTGGAAGTCCTGACAACATGTGCCCAAGGCAG
TCAGAGCACAGTTTGGTTGTATACATTTTAGGGAGACACGAGACATCAATCAACATATGTAAGGTGAACATTGGTTTGGTCTGGAAAGGCAGGACAAGCC
AAAGCAGRGAGGGGTCTTCCAGGTCATAGGTAGATAAGAGACAAATGGTTACATTCTTTTGAGCTTCTGATTAGCCTCTCCAAAGGAGGCAATCAGGCAT
CCCTTTATCTCAGTGAGCAAAGGGGTGACTTTGAATAGAATGGGACGCAGGTTTGCCCTAAGCAGTTCCCGATTTGACTTTTCTCTTTAGCTTAGTGATT
TTGGGGGCCCATATTTTCCTTTCACAAATGTAAATGGATTAAATGTCCACTATTAAATACATATTGGAAGAATGGATTAAAAAAATAATCCAACTAAATG
CTGACTATAAGAAACTCACCTTACCTATAAAGACACATATAGACTGAGAGTAATGGGGCGTAAAAAGATATTCCATGCAAATGGAAACCAAAGTTGAGCA
AAAGTAGCCACACTTATATCAGATAAAACACTTTAAATCAAAAATAGTAAAAAAAAAAAAAAGACAAGATAATTATGTAATGATAAATTCAACAAAACGT
TATAACAATTCTAAATATATATGAACTCAACATCAGAGCACCCAAATTCACAAAACAAATATAAGCAAAACTAAAGAAAGATAGGGCAATGCAATAATAG
TGGGGGAATTTAACATGCCACTCACACACTAGCCAGATCATCATGTCAGAAAATCAGCAAACAAACATTGGACATAAACTGGATTTTATATCAAACTTAA
CAGACATTTACAGAACATTCTACCCAACAACTACAGAATGTACAGTCTTTTCMTCAGGATATGGAACATTTTGCAAGATAGATCAGATATTAGGCCACAA
AACAAGTCTTAATGAATTTTTTAAAAACTGAAGCCATATCAAGTATCTTCTCAGGCCACAGTGAAATAAAACTAGAAATCAATACTAAGAAGAAGTTTGG
AAACTATACAAATACATGGAAATTAAACAGCATACTCTTGAATAATCACTGGGTCAATGAAGAAATTAAGATGGAAATTAGAAAATTTTTTGAAATGAAT
GAAAATGAAAACACAACATACCAAAACCTGTGAGATACAGCAAAAGCAGTGCTAAGAGGGAAGTTGATAGCATTAAATGCCTACATAAAAAAGTAGAAAG
ATCACAAATTAACAATCTATCATTGCACTTCAAGAAACTAGAAAAAGAACAAACCAAACCCAAAGTTAGCAAAAGAAAAGAAATAACAAAGACCAGAGCA
GAACTATACAAAATAGAAACAAAAAAAAAAAAAAAACAAAGGAGCAATGAAACAAAAAATTGTTTCTTTGAAAAGATAAAATTGATAAACTGCTAGCTAA
TCAAAAAGAGAGAAAATCCAAATAAACTCAATCAAAAATGAAAAAGAAGATATTATAACAGATACCACAGAAATACAAAAGATTATCACAGACTATTATG
AAAACCTACACTGGAAAACTTAGAGGAAATAGATAAATTCCTGGAAGCGTGCAACCTACCAAGATTAAATCAGGAAGAAATAGAAAACCTGAACAGACTA
ATAATGAGTAGCAAGACTGAGTCAGTAATAAAAAATTTCCTAACAAAAAAAAATAAAAGCCCAGGACCAGAAGGATTCATAGCTGAATTCTACCAAACAG
GCAGAGAGCTAATACCAATCCTCCTGAAACTATTTTAGAAATCAGAGGAGGGAATTCTCCCTAACTCATTCTACAAGGCCAATATCACCTGATACCAAAA
CCAGACTAGGACATCACAAAAACAGAAAACTACAGACCAATATCTCTGATGAACATAGATGTAAAAATCCTTAACAAAATAACTGAATCCAAGAGCACAT
CAAAAAGATAACACACCATGATCAGGTGGGATTTATACAAGGCATGCAAGGATGGTTCAACATATGCAAAGCAATAAACATGATATATCACATAAACAAT
AWTAAGGGAAAAAATTATCATTTCAATAGATGCAGAAAAAACATTCAACAAAATTCATCATCCCTTCTTGATAAATATTCTCAATAAACTAGGCATAGAA
GGAACATACTTCGACATAATAAAAGCCATACAAACCAACAGCAAATATCATACTTAATGGGGAAAAGTTGAAAGAATTCTAAGAACTGGGACAAGATAAG
GATGCCAATTTTCACCACTCTTATTTAACATAGTACTGGAAGTCCTTGCCAGAGCAATCAGGCAAGAGAAAAAAAATAAAAGGCATGCAAATTAGAAAAG
AGGAAGCCAAATTATCCCTGTTTACTGATGAAATCATATTATTTATAGAATACCCTAAAGACTTCACCAAAAACTCTTAAATTTAGTAAGTGAATTCAGT
AAACTTTCAGGATACAAAATTAATTTACAGAAATCAATAGTGTTTCTATACACCAATATTGATCTAGTTGAGGGCCAAATCATGAAGTTAATCCCATTTA
CAATAGCTACAAAAAAAATACTTAGGAATATATTTAAGCAAAGAGGTGAAAGATCTCCCTAAGGAGGACCACAAAACACTGATAAAAGAAATCATAGATG
CCACAAACAAAAGGAAAAACATCCCATGCTCATGGATTGGAAGAATTAATAACATTAAAATGACCATACTTCCCAAACCAATCCACTGATTCAATGCAAT
CACTATCAAATTACCAATGTCATTTTTCACAGAATTAGAAAAAAACAATTTTAAAATTCACATGGAACTAAAAAAAAGAGCCCTAATAGCCAAAGCAATC
CTAAGCAAAARGAACAAAGCTAAAGGTATCATATTATTTGGCTGACTAAATTATTCTACCAAGGTATACAAATAGACACATAGATCAATGGAACAGAATA
GAGAACCCAGAAACAAAGCCACATACCTAAAACCAAGTTATCTTTGAAAAAGTCAACAAAAATATTCATTGAAGAAGTGACACCCTACTCAATAAAAGGT
GCTGGAAAAATTGGATAGCAGTATGCAGAAGAAAGAAATTASACCCATACCTCTCACCACTTACAAAATTAACACAAGATAGATAGAACACCTAAACATA
GACCTGAAACTATAAAAATACTAGAAGAAAACCTAGGAAAAACTCTTCTGGACATTTGCTTRGGCAAAGAATTTAATTCAAAGTCCTCAAAAGCAAACAC
AACCAAAACAAAAATAGACAAATGGGAATAAATTAAGCTAAAAAGCTTTTGCACAGCAAAAGAAGCAGTCAACAGAGTAAACAAACAACTTACACAATTG
GAGAAAATATTTACAAACATTACATCCAACAAAGGGCTAATATTCAGAATCTATAGGGAACTCAACTCAAGCAACAACCAAATAATTTCATTAAAAGGTA
GGTGAAGGACATGAGCAGATATTTTTCAAAAGAAGACATACAAGCAGCCAACAAACATTAAAAAAATGCTCAACATCACTAATCATCATAGACATGTAAA
TTAAAACCACAAAGAGATACCATTTTACAACAGTCAGAACAGCTATCTTTAAAAAGTATAAAAACAACAGATGTTAGCAAAGATGTGGAGAAAAAAGAAT
GCTTATATACTGCTGGTGAGAATGTAAATTAGTACAACCTTTATGGAAAACAGAATGGAGATTTCTCAAAGAACTAAATATGGAACTACCATTTCATCCA
GTAATCCCACTACTGGGCTGTATTAGGGACAGCGTTCTCTAGAGGGACAGAACTAATAGGATATATATCCATATATGTATACACACACACATATACACAT
ATATATACATATTTATAGGCGTTTATAGGATATATATCCTATTTTGTGTGTGTGTGTGTGTGTGTGTGTGTRTRTATATATATATGGGAGTAATAGGATA
TATATCATTTTATATATATATAGGAGTTTATTAAGTATTAACTTACACATGATCACAAGGTCCCACAATAGGCTGTCTGCAAGCTTGAGGGGCAAGGAAG
GCCAGTCTGAGTCTAAAAACTGAAGAACTTTGAGTTTGATGTTTGAGGGCAGGAAGAATACAGCAGGAGAGAAAGATGTAGGCTGGGAGGCTAGGCCAGT
CTTGCTCGTTTACATTTTTTTCTTCTTGCTTTATATTCACTGAGAGCTGATTAAATTGTGCCCACCAGATTAAGGGTGGGTCTGCCTTCCCCATACTGCT
GAYTCAAATGTTAATCTCCTTTGTCRACACCCTCACAGACTCACCCAGGGGATCAATACTTTGTATTCTTCAATCAAGTTGTCACTCAGTATTAGCCATC
ATATGGGCATATACAAAGGGAAAGAAGTCATTATGTCAAAAAGATACCTGCACTCATATGTTTATTGTCACACTATTCACAATAGCAAAGACACAGAATC
AATCTAAATTTTTATCAACAGAGGATTGGATAAAGAAAATACGATATACCATGGAATACTACTCAGCCATAAAAAGGATGAAATCATGTCTTTTGCAGCA
ACATGGACAGAACTGGAGGACATTACCCTAAGTGAAAAAATTCAGAAACAAAAAATCAGATGCCACATGTTCTCACTTAAAAGTGAGAGCTAAACAATGG
GTAAACATAGACATACAGGGTGGAATAATAGACACTAAAGACTCCAAAAGTTGGGAGGATGGGAGGGAGATGAAGGTTGAAAAATTGCCTATTGGGTACA
ATGTTCACTATTCAGGTGATGGGTGCACTAAAAGCCCAGACTTCAATATGCATGTAAGAAATCTGTGCTTGTACCCCCTAAATATACAAAAATTTTAAAA
AGTTAATTTTAAAAAAGCAGTTTAAAAAAATGTGATCATGTTTTCTTGGCTGAAATTCACACACACATATATACACATAAATCCTTTGAGGTCCACAAGG
AAGGAAACCTAGAACTGTCAACTTGTACAAGGTGATGGGGCCAGGACTAGGGCCCAGGTTTACCGAATCCTAGTCTATAGAATTTGCCAACATATCACAT
TGTCAGAGCTTAKTAAATGATAAAAGCTTACATTTTAGTTCCCTACTCCATTTCTTTCTCTCACATCACCTCTCCTGACCGTAAAAATGACCCCACAAGC
ATGAGTTGTACAGAAAAACCTGGATAATCCACAAACAAAATCAAGTCCATCGTGTAAGGAGGGCCCCAGCCACCACTGTAGTTTTCGCATTGCCCCCTTG
TGGTAAGTGAAGAAATCACATTAATTTCAGAAAGGTAGAGAATCGGAAACACTCAACTTTGATTAACTGAATTTCTAGTTATATGGTGCCATAAACTTTT
ATGCTGAAAATCTTTGAAATAATTTATATTTCTTGATTTCCTAGTAGGTACAATATCCAAATATAAAATGAATCATCTTTTATTCCCTCGACAGATCTGT
ATTGATTGTCTTCCCCAGACATGGTGCTGTGGACTGGGGAATGCATATCGGTTATGATGCTTTCCCTAGTGGAGTNTTCAGTCTGTGAGGAAGATAACAT
CAACAAAAAAAAACCCACTCATCATTCAACAGATATTTACCACCTATAGTTTTCCAGGCATTGTAACTAATGTTGGGCATAGAGTGGAGGACAAGAAAAT
CATTGTGTGTTTGTGTGTTGCTTGCACAAAGCTGACATTNTAGTAGGGAGAAGCTGGGGAAGTGCATTTCACTGGGCAATGATGTTAGTGTAGAAGGTGT
AGGGAATAGGGTTGGATCAGAAAGAATCCAAGCCTGTGTCCTGGATGTTTGCTTTTTAAAAGAAATCCAAAATGTCAGCTTCTTTGCTGATTATTTCTTT
ACCTCTTATAAAAGCAGAGTAAAGAATATCCTCACCCATCTCCACCTAAACTGTGCATATGAGCTGCTGTGGAGAGTTCTGACTTTCCTGTCAGGAGATC
TTTCTTCTGAAACTGGCTCTTCTAGTTACTTACCACATCCTGTGTGCCCTGGGATCATGTCATACCTCTTCTCCCGGTCTCCATTTCCTACAAAATGCAG
GATTTAAAAGATGATCTCTAAGATATCTTCCAGCTCTAGTGGTCCATGAAATGGCTAAGTTAAAAAAAAAAAGAGATTCAACTATAATTGCTGTCCTTCT
TGAGCACCTGCTTGGTCATTGGTGGTGACAATATTCTCTGTGTTTCTTCTGGTGACAACCAGAAACCTTAAGATGGACTTAGAGACTTAAGGGCTGCAGG
ACCAGAGTAGGCAGCATCTAGGTGATGAAATCCAAAGTCTACTCGTCGTTCTTGTTCTCACAGGGTTATATTTGCTAAGAGAATGATGCCGAACAAACCA
CTATTTTTCCTCTCTGGTAGAGTAGGTTGTCTCTTTGCATAATTATCATGTGTTCATTAGTAAACTCATGATGCTTTCTTCTCACAGGGTATAATTGTGA
GTCTATTTATAGTTGCTCTATTTTCCTTCTGACATACCTAAAGGGCACAATATGCACATTTGTTGTATTGAGACCACACTGTGGGAATGGACCCAGCAAA
TGATTGGGCCTTATTAGGAGCCCAGTTGCCAATCTAGCTAAGCCTCAATATACATGTAAGGCGTAATTTGTCTGCTTCACTTTCMCTGTGTCCATTTGAC
TTGGAAAATGTGCCAATGTTCCAAGCACAGCACTTGGGATGTAGCATGCTGGGGAAAAAAAAAAATGGATGTGAGAGTCGCCAGCTCTGGATTTGTAGTA
GGTCTCTACTCTGTACTATCTGTATATATTTAGGTGAGTGATTTATCCTTGATAAATTTCCTCATCTGTATAAGGAGCAAGAAAATCTACCTCACTGGGT
TGTTTTGAGAATCATAATTCCTAATTTAAGTTACAGCAGGTTAATCTACRCATTTGACATGTGGCACATAGCAAAAGGTTAATGAATGTTAGTTTTCTCC
TTCAACAAACTTACCATTACAAAAATAGCAAAGATGTGTGCCAAAACTACAACTAGTAAAGGAACAGAGGAATCTATGGATGGATAGCCCTTGGAGTTGC
ATTTCAACAATAAGAATATACAAAGAACTCGTGGAGCAGAATTTTGTGAAAAAAGATTATGGATAGAGAGATGCCCAACCTTGAATTGGACAGTTGTATG
AATTTTAACATTAGCTAAATGCTCTTTCTTTTTTTAACACTGAGAAGGTAAGTAATACAAAAAGCTAAAAGAGCATACCCAATAGAAAACCACTGCACCA
GAAGCCAAAAAACAGGCATTTTCTTATCTAGTAATAACCACTAGCTTAATGAACTTGAACAAACAACTTGATGTTTGGGGCTTTATTTTCCATCTATAAG
AGTTAAATGGGAAAATCTGCTGTTCTATAGACCATCATTATAAAAGGTGACCTTAAGGAGGAATGGGAATTGTGGCATCGCAGTTTGGGGTTTCAGGGTA
TTTGCACAGTAATTTTAAAAATATTTATCTTTAAATTTTTGAATTTTTAGACTCTGTAAACTTACGAGTTATGCTATGCTGGGAAGAATTACTGTGCTAC
TTTCTGAACCCACTTTTACCAGTATTGAGCACCATGAAGGCCCTAGAAACTTCATCCTACAAACAGTAAAATCTCATTAATTTAGAACCCCTCCTACTCA
CTTTGTAATTTGCCATAATTTGAACGGGTTACTTTTGCTTTACAAAAAAAAGGATTTGTTAATGGAGTAGCACATATTGTTTCCAAGGAGATTTATTTGG
CAAATAATAGCTACTTAGTAAATATTTTTGAATAAATGGTCTCCTTTGAACAACTATTTGTTGACACTGTTTTAATGACTCAAATTAATTCAGGAAAATG
AATAAAGATGTATTGTATAGCTCTCTAATGCATACTTCTGACCTTCCCAGTTCCCTCACCTGGCCTAAATTACAAAGGTTCTGTTATGCACAAAATCCAT
TTCACCACAAGGCAATGTCATTGGAGTATRTTCTTTCATTTTTCTTATTGTAACAAGATCCTCAGTTACTTGAACAGATGTCTGTAAATTCAGAATACGT
TTGAGTGTAGTTTACTAAGCATTATACACTAAAAACTCCCACTCACAATGGCCGTAGTTTTTTAGGGGGTGGGGGAATGTTTCAGCTTCTGGTGAGTTAG
AGGCAACAACCTCAATATCAGATGAATGAAATTTTTTTCTCTCCTAAGGCAATTCCAGTCAATGCTTTGATAGTTTCTTTTTTAATGCTGTATAKTCTAT
RAAACTAATTAACYGGCAAATTACCTGAGTGAAAGTCATATTTTCTTTCATTTAGTAATAGAGAAAGATATMGGTCAAAATATTAATACAACTTTGAGTT
TTGTCCCAGACAACATTTCCAGATCTCGATTCCCTCCCTCCCTCCCTTCCTTCCCTTTTTCCTTCATAACTCCCTCTCTCCTTCCCTCCCTCTTTGCTTC
CTTTCTTCCTTCTTCCCTTCCGTCCTCTCTTCCTTCTTCTGTCCCTCCTTCCTTTCCTTCCTTCCTTTCTTCCTTCTTTCTCAGTTTTATTACTTAAATG
TTTTAATCATTTTATCATCCTTTTCATCTGTGTTGATGAAAAACCAACACAATTGCCTAAAAAGGCAAAATAACAAGACAAAAATTCTGTAAGTCATCAC
CATTGGTTTTCATTCACCRGGTTTTCCGCCCCACAGAGGACTGTAGTACATCGTCATCATATTCTTAGCTAACTTTCGTTTAATTACTAGCATGTTTAAA
GTGGAACCATTATTTAAAAGACTTTATTTTTTAGAGCACTTTTAGGTTTACAGCAAAATTAGAGGAAGGTACAGAGATTTCCCATATACCCCCTACCACC
CTACACGCATAACCTCCCCCATTATCAACATCTCCCACCAGAATGATACATTTCCTACAATTAATGAACATACATTGACACATCATTATCACAGAKCCAC
AGCTTACATTAGGGTTCACTCTTGGTGTTGTATATTTTATGAATTTGGACAGATATATAATGACATGGTAAGAAAAATTCATTTTAAACATGTAAATAGA
TTTATTTTTCTATTTATAATAAAGTTACTTTCTTGYTTACTATCTTTCCAAGACTTTTTCAATTCCTGATAAAGAGGAACAAAGGTCACAGATCAATGGT
GTGTGCCTACTTTTTGTAGCAATGGGCTGTGTATCTCTTTTCACCCAATTTCTACAGGTAAGAAATGTTATTTTTCAGTAAGTGATTTAGTTATTTTTCC
TTTTTTCTCATTAAAATTTCTCTAACATCTCCCTCTTCATGTTTTAGGGATATGCCTTTGCTAAATCTGGGGAGCTCCTAACAAAAAGGCTACGTAAATT
TGGTTTCAGGGCAATGCTGGGGCAAGATATTGCCTGGTTTGATGACCTCAGAAATAGCCCTGGAGCATTGACAACAAGACTTGCTACAGATGCTTCCCAA
GTTCAAGGGGTGAGCTATGGGAGGGGAAATAGAAGTATATTAACTGCATTGGCATTCTTTCATTAGAGCATTCTGACAATCACCTGCATGTTTTCTATGG
AATAGGGACCAGTGGGATTGGGATATCCTAAAGCCACATTTTCCACTGCTTCTAACACTGACAAACAGCAGCTAAAGCACAGTGTCTCCCAGGCAGTGCC
CAGAATCAATATATGGCATGCACCAAAATCTGTCAGGGTTTTGGATTTCCTCTGAGTCTAACTTAGGAACATTTCTGAGTCTGTTTTCAGGCCCAGAGAC
TCAGCTTCAACAAGATTCAATACTGCCCCCAGGGGGTGGGTGAACAGGGCAAGGAAGTCTCCTTACTCACACAGGACCCCAGAGTGTGGTTTAGCCTTAT
GAACAGAGAAGCTGTCCTGGGCAGCCTCTGGAGGAGCCCAGTCAGGAAACTGAGGGAAAGAAATAAACGATTTTTATCTAGAATCTTGAAGGCGTCGAAG
AGCTGACTTTCTGATTAAGGTAGACAGAGCTGTGGTGTGTAAACCCCAAAACCTACAGCCTTGTTCAAGGGGCTTACACATATGATGAGGCTAGACTTTT
ACAAAACCAGGTGTTTGGATTAAAGTGAAGAGAGCCAAATTGCCCTTCCAACATCTCTACCCACTTTCTGTGAAAATTTTTWAAAAAACCCTAAYTTAAA
ATTATTTTTAAAAAGAAATAATATGTTAATAAATTCTTTAAAAAACAAAACCAAAGGAAAAAAATTTTAAGTACAATTTTAAAACTGAACTATGGTCTGT
GAGGCTCTTAGAAGAAAAAAACTCACTGGACTGATAGTGCTGTACTGTAGCACGTCTCAACTCCTAGACAGTTTAACCAAAAATACCAAAAATGATATGG
CAGAATTTCAACGGATCATGGAATCCTTTCACTTAGGGGGAAATCCCTATAAATAGGCCACTTTCAATTCATCTAGGCTTTTTCTGGAAGCACATGTGTT
TCCCATAGACTTAGGGTTACACTCTACATATGTGTTGCAGTCTTTCTTGTTTCCCCTGAAATAATCTAAGGTGAACATATTTTCATAATTATGTATTCTT
CTACAGTAGATTTTTAATGAGTGCACAATACTTCATTCTCATCTACTGTCATGTCTTAAAGGATTCTCTAGTTACGTTTTTCCCCTAGGTTTTTCTCCTC
CTTATAAGCAATTTATATCATTTTATATCGAGCTTGCCACATCCTTGATTATTTTCTTAGTTCTCAAAATGTAATCACTCAATCAGTGTATAATCATTTT
GGAAGATTTTGATATGCATTGCATAACTGCTTAAAGAAACTTTGTTCCAATTTCACTCTCATCATTGGAGTACTGTAGTCTACTCCCTTTACTCTTGAAT
TTAGGCTAAATAAATAAGTCATAATCTTATCTCTTCTATTTTTGTGGCCTTCAATCTGCAAGGAGCTTTTGAAGGTTATTTGCTATCACTAGAATTCAGA
GAGTAGCATCTAATTATCTTAAAAACACTTATCTTTTTAAAAAGAGGATTTTCTCAGAATTTTTCTAATACTTTTGTTGTTTTTTAAAAAATAAGATTGC
TAGCCCAGGTCAAACTTATCTTAAGATTAGTGTGAGGTAGATTTGGCTTTGTTTTCTTGAAGTTGGATAGAAAATATTTCAAAAATATTTTTTAAATATA
GATTACATTTTCTACTGGTTTGAAATGTTTCCTCCCATTGTGAATATTAACTTCCCATATATACTTAGAACTAACTTTGGAGATTCTCTAGTCTGAATTG
ATCAATTTGACTTATTCTATTTAAAACCTTATTGTTTTARTTGATAATTTTTTTTAATTTTTGTAGATAGATACCAAGTAGGTGTATATATTTATGGGGT
ACATGAGAGGTTTTGATACAAGCATGCAATGTGAAGTAAGTGCATTATGAAGAATGAGGTATCCATTCCCTCAAGCACTTATCCTTTGTGTTACAAACAA
TCCAATTACACTCTTAGTTATTTTTAAGTGTACAATTAAATTATTTATTATAGTCATTCTATTGTGCTATCAAATAGTATGTCTTATTAATTCTTTCTAT
TTTTTTTTTGCACCCTYTGTTTTAATTCTTATAACTTGATACATTTTAGTATCTGGTAAGGCAAATCCCTGCACACTAATTTTTCCTCTTCGAAATTCTC
TTATCTATTTCTGGATGTTAATTATTTTAATACATTTTACACTCATTTTAACTTCTTCTAAAAATTTATTTTTATTCTGGTGAAATTCATATGCACACAT
ACATACACAGTAGGATTGCTATTGTGGGGATACTAAATTTTCCTGAGAGACATACAAACAAGACTCTAGTTTTTAGCAAGATTCATAGTTATATTWATAT
GTCCCACTATCTTGCTCACTTTTTCTCATGTATTTTTTCCACTATTTTGAATGAGATCTTTTTCTCAATTATATCTGTAAATGAGTTGAGATGAAAGCTG
TTAGTTTTTGTATRCTTATCTTAAGGACTTTCCAAGCTCTCTTATAAGTTATAATTTTAGAAATTTAATAGTCTACTGGGTTTTCTAGGTATATAATAAA
ATACCAGATATAGTTCTGAAATATTACAGGTTTGGTTTCAGACCACCGCAATAAAGAGAATATTGCAATAAAGCATGTCACACTAATTTTTTCRCTTCCT
AGTGCATATAAAAGTTGTGTTTACACTATACTGTATTCTACTAACTATGCAATAGCTTTATGTCTAAAAATAAACAATGTACATATCTTAATTTATTAAT
AGCAACTGACTGACCACGGTGGTGGTTGCTGAAGGTTAGACTGGCAATATCTTATAAGACAACTGTGAAGTTTGCCTCATCAATTGACTCTTCCTCTCAT
GAAAGATTTATTTGTAGCATGTAATGCTGATTGATAGTATTTTACCCACAGTAGAATGTCTYTCAAAATTGGATTGAGTTCTCTTAAACCCTGCTGCTAC
TTTTATTAACATAGCATTTTCACCAGGAGTGGATTTCATCTCAAGAAACCAGTTTGCTTATCCATAAGAAGCAACTGCTTATCCATTCAAGTTTTATCAT
GAGATTGCAGCAATTTAATGCAGCACATCTTCAGACTCCACTTCTAATTCTAGTTATCTTGCTATTTTCATGACATCTGCAGTTACTCCCTCTGAAGTCT
TGAACYCTCAAAGTCATCTGTGAGGGTTGGAATCAACTTCTTTCAAGCACCTATTTATGTGGATATTCTGACCTCCTCCCATGAATCACAAATGTTCTTT
CATAAATATATATATACATATAAAGTGTATATCTATATATACACTGTAAGTTCTAGGGTACATGTTCTTAATGGCATCTAGAATGGTGAATCCTTTCCAG
RGGGTTTTCAATTTACTTTGCCCAGTTCCCTCAGAGGAATAACTATGGCAGATGTAGCCTTGTAAAATGTTACTTCTTAARTAAAAAGACTTMAAAGTGA
AAATTACTCCCTGACCCATGGGCAGCAGAATTCATGTTGGGTTAACAAGCACAACAACATTCATCTCCTTGTACATCTCCGTCAGAGCACCTGGGTGACT
AGGTGCRTTGTCAATGAGCACTAATATTTTTGAAAGCTGTATTTTTTCCTGAACAGTAGGTGTCAACAGTGGCTTAAAATATTCAAAAAACTGTGTTTTC
AACAGATGTGCTGTCATCCAGCCTTTATTATTCTATTTATAGAACATAGGCAGAGGAGATTTAGCATGCCTCTTAGGGGCCTAGAATTTTTGGAATGGTA
AGCTTCAACTTAAAGTCATCAGCTGCATYATCCCCTAACAAGAGAGTCAGCCTATTTTTCGTAAGTTTGAAGTCAGGCATTGACTTCTCCTCTCTAGATA
TGAAAGTCCTAGATGGCATCTTCCTCCAATAGAAAGCTGTTTGGTCAACACGGAAAATATGTTATTTGGTGTAGCCACCTTTATCAATGACCTTAGCTAG
ATCTTCTGGAGAACTTGTGGCAGCTTCTACATTAGCACTGCTGCTTCACCTTGCACTTTTACATTGTGGAGAYGCTTTTTTCCTTAAACCTCATAAAGCA
ACTTTTCTCCCAAAGYTTCCTCACTTCTCTCAGCCTTACTAGAATTGAAGAGAGTTAGGGCCTTGTTCTGAATTAGGTTTGGCTTAAGGCAATGTTGTAG
CAGGTTTGATCTTGTCTCCAGACCATTCAAACTTTCTTCATATCATCAATAAAGCTGGTTCACTTCACTTTCTTATTATTTGTGTGTTCACTAGAATAGC
ACTTTTAATTTCCTTCAAGAACTTTTTTTTTCTGCATTCACAGCTTGACTATTTATTTAGYCCTATCTCAGGACTAAATGAGGCTAAAATGAGGCCTAAC
TTTTAGCCTATCTCAGCCTTCAACACACCTTCCTCACTGAGCTTAGTCATTTCTAGCTTTTGATTTAAAGTGAGAGATGTGTGACTTTATTTCACTTGAA
CACTTAGAGGCCAAGGTAGCGTTATTAGTTGGCCTAATTTCAATATTATTGTGTCTCAGGTAATAGGGAGGTCTGAGGATAGAAAGAGAGAGAGACAGAA
TGACCAGTCAGTGGAGCAGTCAGAACAAACACATTTATTGAATAAGTTTTCAGTCTTATATTGGCGTGGTTCGTGGTGCTCTAAAACGATGGCAATAATA
ATGCCAAAGATCACTGATCACAGATCACCATAACAGATATAATAATGAAAAAGTTTGAATATTTTGAGAATTACTAAAATGTGATGCAGAAACATAAAAT
GAACACATACCATTGGAAAAATGGCACCAATAGAATTGCTCTGCRTAYACAGGGTTGCCACAAACCTTCCATTAGTAAAAATCACAATATCTGCTAAGCA
AAAAATGCAAAAAAGATCATTTTGTCTTTTCTTTTCTTTTTTTATRTTTATACTCATTTTATTTTCTTATTATATTAGCTAGAGCTCATTGAGAAATAAG
AGTGGTAGTAGAGGTGATTCTCTCAAGCAAGACAAAAACTCAAAACTACAAAGTAGACATGTTGGACTTCATAAATTCAAAACTTTTATATAAACAAATG
ATAAACTAGAAAAGCATTTATAATAAATATTAATATCCCTAATATAACCATATTATGTGTAGTGTTCCTAAAACCATCATGAACGATATTCATGAGGATG
GGGAATAACTGACACTTTCATACAATGTACAAAGTTTTTCAATGTTTTTTGGAGAGTAATAGTAAATAATAGTAAGCAAATGTTTTGGAGAGTAATAGTA
AATAATGATATCCCCCCAAAAACTTTAGAGTTGCTTTTCAAGTATTGTGTAATGCCTGACAGTCCTTGCCAACCAGAAATTCTTTTTCTTTTTTAATTAT
ATACTCTTTGAACAGAATTCTGATGAGTGAATTCCCTCCTATTGTGTAAGAATGTGTGTTCAAGGATATTTATCATTTTTTATATTAACCAAAAAATTAA
TAAAATTCCCTGGAAACTACCCAAATATCCATCACAAACAGAAAAAGAGTTGAATCAATTATGATACATTTATACTAAGGAATATTGCACAGCTATTTTT
TAAAGTGTTCCTATATATTGATCTGGAAGGATAGTTATGTACCATTGATAAGTGAAAAAAAGTCAAAGTACAAAGTAATATGTAGAGTATGAGCCCTTTT
TGTAAAGAAAAAAATTAAAATATATGTATATATTGTTAAATATGTATCTATGTTTTGTTTGTGTCTTAGGTTGTATTATTTTCAATTTTTAAAAAAATAC
CAATTGAATAAAATGTAAAAGGAAACAAAATAACGACATCCCAAAGARSTGCAAAGTTGCTTTTCAAGTCCTCTGTAATGCCTGACAGTCCTTGCCAACC
AAAAATTCTTTTTTAAAAAAAATTGTGGTAAAATATTTGTAACACAAAATTTACTACTTTAACCATCTTTAAGTGTACAGCTGAATGGCATTAAGTACAT
TTACATTGTTATGTAACCATCACCACTATTCATCTCTAGAAATGTTTTACCGTTCCAAAGAGAAATTCTGTACCCTTGAAACGGCAACTCCCCATCCTGC
TCTCCCTCCCCTCAGCCCCAGCAACCACCATTTTACTTTCTGTGTCTATGAAYCTGACTACTCTATGTACCTCATCTAAGTGGAATCATATGAATTTATC
CTTTTATGTCTGGCTTATTTCACATAACATGATGTTTTTGAAGTTTCTCTATGCTATAGTATGTGTCAGAGCTACATTTTTATGGATGTTTATTTTATGG
ATATATCATGTTTTCTTTATTCATTCATCTGTCTGTGGACATTCAGGTTGTTTGGCTGTTGTGAWTAATTCTGCTCTGAACGTGGGTGTACAAATGAGAA
ATTCTTGATTTAGCCTGTTAGTCTCCAAGGAAGTCAGCACTAACACATRGGAATGCTTTGGGACACAATTTTATATTCCATTTGTGTCTTCAATTCAGTA
TAAAGATGCAAATTATTCCTGAATAACAGTGCCTTAGCATCGAATGGTTACTAACAGGTTACCTTTTGTCGTTTTACATTTTTTTGTCTTAAATAAAAAT
GTGTTTCTACAATTTTAAAAAGAAGTGATGTAATTGTCCTCACCCAAGTATTTTCTACAGAGTGTGCCAAGCTTTGGTCGTACCTGCCTAGCTGCAACTG
AAACRACGATTTGGAACCATTGGATACTCTGATTAGTATAGATATAATTACCACAGTGGTCCATTCTCCATCTATATTGGGACTGAATCCATTTTGTCCA
TCTGCATTGACTAAATAGCTGTGTATTACAGCAGCATGTAACTTTGTACCAAYGAGCAGGCTAACTTCAATGAGAATCAAAGTGGTATCTTATAATAGTC
TTGTATCAACTTCAAAAATATAATTATAGAGCAAGCATTAATCTTCATTGAATAAGTAATATTACCTCAAGCCCAATGGCTGGATATCTTCAAACAAGCC
AAATGCATCAGTACTTGACACATGTGTAGCCCATGTTTAGGGCTGCATTAATCTCAGACAGACTGCTCTAGCACTGACACTCTTAAAATGAGATTAGTCA
ATAAATGAACTTCGGATAAGCTATGAATAAAGAACCTTTTAATTAATTCAGCCTTCAGATACGTTATGTGAGCTCATCATTTAAAAGAACTTAATCATTT
AAAAGAACTTAACTTTTTGAACAGGGGACTACCATATGACCCAGCAATTCCACTCCTAGGTCTATATCCAAAAGAATTGAAAGCAGGGACTTGAAAGGTG
CTTATACACCAGTGTTCATAGCAGCATTATTCACAATAGCCAAAAGTTGGAAATAACCCCAGTGTCCATCAATGGATGAATGGATATACAAAATGTGATA
TACACATACAATGGAATATTCAGTTTTAAAAGGGAATGAAGCTAGGTGTGATGGCTCGTGCCTGCAATCCCAGCACTATGGGAGGCCAAGGTGGGAGGAT
CACTTGAGCTTAGGAGTTTAAGACCAGCCTGGGCAACATAGTGAGACCTCATTTCTACTAAGATTAAAAAATTAGCAGGTGTAGTGGCATGCATCTGTGG
TCCCAGCTACTTAGCATGCTGGGGCAGGAGGGCTGCTTGAGTCCAGGAGGTCAAGGCTACAGTGAGCCATAATTATGCCACTGCCCTCCAGCCTGGGTGA
CAGAGTGAGACCTTGTCTCAAAATAAAATAAAATAAACAAAAAATAAAAATAAAAAGGAATGAAATTTGTATACCTGCTACAACATGCCTGAAGCTTGAA
AACATTATGCTTAGCAAAATAAGCCAGACACAGAAGGAAAAATATTGTATGATTCTACTTCTAGAGATACCTAGGGTAGGCAAATTTATACAGACAGAGA
GTTAGAATAGAAGTCACCAAGAGCTTGGGGGAGAGAGAAGAAAGGGAGGTTATTGTTTAATGGATACAGAGTTTTTGTTGGACATGATTTTAAAAGCTTT
AGGTATAGATGTGTGATGGTTACAAAACATTGTGAAATGCCACTGAATTGTACACTTAAGAATGGTTAAAATGATATATATTGTTATGTATATTTTATCA
CAACTTTATAAAAGGTCTGACCTTTTTGTGTAATGGTAATTGGTAAAAGCGACTGTGTGTCTGAGACGGGTTGATTGCTTTTTGGTTTGCAGGCTGCCGG
CTCTCAGATCGGGATGATAGTCAATTCCTTCACTAACGTCACTGTGGCCATGATCATTGCCTTCTCCTTTAGCTGGAAGCTGAGCCTGGTCATCTTGTGC
TTCTTCCCCTTCTTGGCTTTATCAGGAGCCACACAGACCAGGATGTTGACAGGATTTGCCTCTCGAGATAAGCAGGCCCTGGAGATGGTGGGACAGGTAA
TCTTGCAGATCTAATTTTCCCATTCCTCATGGCTGAGTGGCTATCAGACAAACTGTTAAAAACGAGTAGTACGAAGAGACTGAAGGAAGCTGTCAGCCCA
CAAGACAGGCACACTTAAGAACCTTCCACCACCCTTTCTATGCGTGCTTGGCGCAAAGGCTGAGGCAATAAAGCTCCGAGACTCTGAGTATGAGCCAGTG
TGGAGAAATAGCGGAGTGAACACAGGATTGCCTGTTCAATTTCCTCTCGCATAGTGATTCATTCCACATTCCAATTTGGTGTACTCTCATTTGCAGGGGT
GGATAGTTCAGTTTYCTGGCCGTGAAGCTTTTGCAATTTAATGGTTCCCCTGAGCCATGCTTTCCACACACACAGGAGCTATGATGGTTTTAATGGCACA
TGCCTTTGCTCTTCATACTTTAGAGTCCCCCAGGCTTGGGGCAAGTGTCTTTCCCAACCAGAATTATGAACTACAGTTTAGGTTTTGGATACACTTAGGT
TTTAGCTACACATTTTAAAGTGTGTTCTAATTAATATCTTGTCCTTGSGGGGTAAATGAGGGATRGTAGCATAAACACTTCTCAAGTATAAGAATTAAGG
GAAACTTGAATTTAACTGAAAAATTGTCTCGTGGTCCAGTTGGGTTGATCTCCAGCCACGTCTTTGTATTCCCAGATGATGCATTCTCTGATTTGTACCA
CATTCTGCCATTTGCACCATCTAATCCAGGCAGCCACTGAAATGTCACGAAAGGAGTTATTTCTGCCCTTGTATTCCTAAGACTCTTTTTCAATCTTCAG
ATTACAAATGAAGCCCTCAGTAACATCCGCACTGTTGCTGGAATTGGAAAGGAGAGGCGGTTCATTGAAGCACTTGAGACTGAGCTGGAGAAGCCCTTCA
AGACAGCCATTCAGAAAGCCAATATTTACRGATTCTGCTTTGCCTTTGCCCAGTGCATCATGTTTATTGCGAATTCTGCTTCCTACAGATATGGAGGTTA
CTTAATCTCCAATGAGGGGCTCCATTTCAGCTATGTGTTCAGGTGAGGAATATCTAGCCAAGGTGAGAAAAGATCAACACACAAGGAAGGAATAGCCTGG
TTCTGTCAGTTAGCTTTTTGCTGCTTAGCAAACCATCCCAAGCTTGGTGTCTTACAATAGCTGGGATTAATTATTTCTCAAGATTCTGTGGGTCATCAGG
GCGGTTCTTCTGACCTGGGCTGACTCAGTCAGGCTTCTGTGTATTCTTCTGTCTCCACATGGCCTGTCTAGCAGATGAGCTTCTTTTCTTCATATTAYGG
CCTCAGAGTTCCAAGTGCCACAAAAGAGGGCAAGCCCCACTGTGCAAGTACTTTTCAAGTCTCTCCACGCAAAGAAACTTTCTAATTTTCTGTTTGGCCA
AAGAAAGTCATACCATCAAGCCCAGGTTTAAGGAATAGAAAAAAATAGAATCCACTTTTTGATGAGAGGAGTAAAAAAGCCATGTTGCAAAGGGATGCAT
GAAAGTGTGAATTAATATGATCGTTGTTTATAAACAATCTGCCACACATGTTAATGCTGAGAAAATCTAGAGGTCTTGGCTAAGATGGTTCATAGAGAAC
TGTTTTGTTTGAACTCCTCTCTTGCAAAGAGGGCTGACTCCTCCCAACTGACTCCTCCTAGGCAGAGACAGCATGGGCCATACAGGTGAAGGATGTTCCA
TTCGTATAGCCAAAGCCTGCTTTTCTAATAAGATTAGCTTTTAGTCCAATTTCTCACATTTCCAGAGGTGAAAGCCTAAGGGTGTCAGGGTACTGGGGAA
YGAGGTACACATGTATATGGGCGAGTCGGGGGGTAAGGGTGGAGATGGTCTGAGAAAGGTTTGGAGGGCATTAGGAAAAGTGGTCCTATAGGAATCGGTT
CTTGGGTTTCCTTCTCTAGCCATGAGTCCCGCCTTCTCACCTGGTATCTCTTTCAGCACTTCTCTCCCACTCCACTACACCCACCCAGCTAGGAAAGTGT
CTCTTTTCTAAATCTTTGCATATTTAAAGCTACTAGTCTAAATTAGAAAACACAAACCATTGGCTTATTTTTATTTAGTTTATATTAAGGTTTTAGAATA
ATTTTAGAATAATTTAGAATAATTTTAGAATAATTTAGAATATTTTTTTGCCAACATGTAAAAATCTGGGGCTACAGGCTGGGTGCGGTGGCTCATGCCT
GTAATCTCAGCACCTCAGGCCGAGGCGGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACCTCATCTCTACAAAAAAAT
ACAAAAATTAGCCAGGTATGGTGATGTGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAAAGGAGAATCGCTTGAACCCAGGAGGCAGAGG
CTACAGTGAGCTGAGATCATGCCACTACACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAACAAAACAAAACAAAAAGTGGAACTACAGAAAAC
TTCCAATTTCTGGCTTCACTTTAAAAATTGGAACGTCATCTTCCACCATTTTCCATTTCATTTCAAGTGCTTTTCATTCCCTTAGGCTTTAAACTGGGCT
CCCGGGGATGTTCAGATTTGCAATTCTGGCCTAAAACAATTCCTGCTTATGAACTGAGCAGTGTGACACACAAAGACACATCCCTTATCCCTATCCCCAT
CCCAGGCAGACCCTCTGTGCATGACAGTGCAGGTGAGCAGCTTTGGGGGCTACTACTCACATCATAATCTCTACAGCAACAAAGTTATCTCTCATTATAT
TTATCATTCATTTATTCATTCACTCTTTCGTTAATTAAGTACATGTTGACTATAGTTAGAGGCTAAGACAAGTAGAAGGAGACAGGCAATTGCATCTGTC
TTGCTCTCTGAAGCATAAATTATATACATGCCTGGTGCAAAAATGATGCTTATATCATCAATCATTATCTTTTATATACCTATTATAGATTCAATAACTG
TTAGAATTCTAGAAAAATCAACTCAATCTGGTGATCTTTCAAGCCTGCTTTTTCTTTTAAAAAAATTTTTTCAGAAGTCTTTTTCCCCCTCAAACAATTT
TCTTTTCTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAAGCTCTGCCTCCCAGG
TTCATACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACCACAGGCGACCACCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTT
TCACCGTGTTAGCCAGGATGGTCTCGATCTTCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAGGTGCTGGGATTACAGGAGTGAGCCACCGCGCCTG
GCCAACAATTTTCTTAAAGGAAGCTATTGTGGTCRAATAAAGGTTTGGAGGTCTGAGCTCTCCCCCCTTCATGCTTGTTCAGTCCTCTTCTTACTCCTTT
TTCATAGAACACAGTTTGAAAACTGCCAGTCCCTTAAACACCACCCTCTCCATTTCCAGACAAGTCTGAAGTGACTTGCTCAAGGATATTTGGTCCTTTC
CTGGCAGAACCAGGGCTAGATCCCCAAACTTCTGCCTTCAGGTCATCACACCAACCACGCCACCCTGCTCTCTTCCTGTGTGTCTGTCTGGTTACAGGGT
GATCTCTGCAGTTGTACTGAGTGCRACAGCTCTTGGAAGAGCCTTCTCTTACACCCCAAGTTATGCAAAAGCTAAAATATCAGCTGCACGCTTTTTTCAA
CTGCTGGACYGACAACCCCCAATCAGTGTATACAATACTGCAGGTGAAAAATGGGTAAGTGTTGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATG
TCCTTTGCAGGGACAGGGATGAAGCTGGAAACCATCATTCTCAGCAAACTAACACAAGAACAGAAAACCAAACACCACATGTTCTCACTCATAAGTGGGA
GTTGAACAAACAGAACACATGGACACAGGGTGGGGAACATCACACACCGGGGCCTGTCAGGGGATGGTGTGGGGTAGGGGAGGGATAGCATTAGGAGAAA
TACCTAATGTAGATGACAGGTTGATGGGTGCAGCAAACCACCATGACACGTGTATACCTATATAACAAGCCTGCACATTCTACACATCTACCCCAGAACT
TAAAGTCTAATAAAATAAATAAATAAATAAAATGTGTAAGTATTGATGAGGGGTAAGGTTGTGCGTRTGTGTGTGCAGGACAGCCATTAGGGATGGCCAT
ACAATACCACTTGGCTTCTAAATTCCTGCTGTATATGGGTTCATTCATACATACTTGGAGAAGACAAACAGTAGATTTATAAATACAAAGGAATAAAGTA
AATTAGCATCAAAAATTATTCCTAAAGCTGGCATTTGAACAAGGTGATGACATTCAGTGAATGCTAAATTCTGTGTAATATAAAATACACTTAGTTCCCA
AATGAATGAAGCCAGTTGTCCTCTGAGATCTACCTAACCACTGTGTTTTCTATTGATGTTCTGATACAGAATGTAGAAAAATCACTTCTTCCTGTCCAAT
AACATTGATTTAATTCATGTTCATCTTGATTCAAGTTTTAGCTTATGTGGATGTCCTGAAAATTAATTCAATCTCAACAAAATATCTGTTCTTCTAATTG
AYAGATAGGTATTTGTAAATCTTCTCTACCTATTTTTGAAAATTTTAGTATGTTCCAGAAAGCAAAGCAAACYTAAACACTAGTAAAGCTAAGCTAAATT
CTGTAATCTTTCTAAATTGGTAAAATTTCTCCTTCAGTTCAGTAAATGTAAAGTTTCTGTGTGGTCTATTAAATGTCTATCCATTTCTAGATTTTATAAG
TTAGAGTTTTAAGCACACCAAAGTACAATAGAAAGTATTCACCTTTGCAGTACAGACCTCAGGTAACTTTCTTTCTAGGTCGTTTTAAGTGTAACATTAT
TTTTAGTCTTTAGGAGAACAAAGCTATAGGGTTTGGACAGTTACTGGCTTCTGTRATGTCATATCTTCCAGCTATTCTCTTCTATTCAGAATGTCAGGAA
TAGATGGCAAGAAAATCCCCTTATGTTAGACTGGGAATAGGGGGAGTCAAATGTCTTTAATTTCGTTGCCCAAGCCTTCCTTTATACTACATCTTTCAGA
ACACAAAATGGAATGTCCTTTTATTAAGTTGCTGTCTTTATACTTTGCACTTTGGCAGCATGGTTTGAAGGTATCTCAAGCAGGGATTTTAAACTCAAGA
TTTAGGTGTGTTTTCAATATTCTAGGCTTCAGTAAGAGCATCTCTAATTTTGATCCTCCCATCCACAGGACAACTTCCAGGGGAAGATTGATTTTGTTGA
TTGTAAATTTACATATCCTTCTYGACCTGACTCGCAAGTTCTGAATGGTCTCTCAGTGTCGATTAGTCCAGGGCAGACACTGGCGTTTGTTGGGAGCAGT
GGATGTGGCAAAAGCACTAGCATTCAGCTGTTGGAACGTTTCTATGATCCTGATCAAGGGAAGGTGGTAAGCCACGCAACCTTTTTGAGAATTTTGCCTT
CTGCAGAGTATTTCCAACCCCTAAAAGTGGGCTTCAAGTTTTTGCTTTGCCAGACTCACTTTAAAATGCTTGCCTAAGGCACTTACCCCATGCATATTTT
CCAGTCCCAGTCATTTGCTGCTTCACCTGATTCTACCTCACAATTTCTAATGTCAGATTTTCCCCAGTTCCAGATGGCCTGCTGACCAGTTAGGCAAAGA
AAACTGGGCACACTGCAAAGCTGGAGATGAGTGTATTTAATAGAAGCACTCACTTACCCGTAAATGGAGCAGAAAGTGCAGACTAATCAGGAAACTAATG
ACCAGGAATGGAAAAAGTAGAGTGATAAGGGAAATAATGATAAATGAGCAAGAAAGGAGAGTTAGCATGAAAAGATCTAAGACAATCCTTGTTCAAGAAG
CTGAAATCTAAATAACGCAAGGAACTCAGATTGAGAGCCATGTACCATAAATCTTTAGCAAGGATATTTGAAATTTTGGTGAATAGCTTTGGTATTTATT
TTTCATAACATTTCTTTCTCTTTTCTGTCCTTTTTTTCTTTCTTTAAAAGTAATATATGCAGAAGGTCACAAAATCAAATAATAAATATTTATAATAAAA
AGCCACCCCCCTGCTTTATGCTTACACTCCCACTCCACATTTCTCTGCTCAAAGGCAACTATTTTTGACCACTTGATGTTTTTTGATCTCCCAATGGTGA
CTTTTATGTCTTTAAATAATATGCTCATGCTATTTCATGATTTAACAAATTTAGACTCTCTGTGATTTATTCTCAAGAGATAAAAATCTACTTACTCTCA
CCACTCCCTCCTTTTGCCTACCTCCTCCCAATATAGTTATATCATTTTTTAGGYCTTCTATTTATAAATTTGTAAACTTCTGATCTGCTTCCGTTGCTCT
TCCACCACCTGTAGATAGTTCCTCTTGAATTCTCACTTTCTAAAAGAAAAATGTTAGCAATCCTACCTTTATTTTCACCTCTTACTCTTTTCACCTCTTA
CTTCTTTTACCTCTTAAGTTCTAACTGCACTTTTATCAAGAATTCAGAGCACATTCTGTTTATAACATTATCTTTCCTGCCTTCACTCTAAGTTGATTCT
AAAAGTTGAAAATCAATTGACAGCTTTTTTAATGATTATGTAAATATTGTTCATCCTTCAGTCAAATAGTGAGTTACATTTACATTATATTTTTTTGATT
GTTTTTCTGAAAGGTTTCTTTTTTTCTTGCATTCTTTGTCTTCATGAAAACCTTTGTGTTCTTCCAATGTCTCTGTCAGGCCATCTCTTCCCTCATTTCT
GTCACTCGCAACGTTTGCCTGTTGAACAGTCATCATCCTGTGAGTTCCCTGTGATATTTCCTTGGATTAGATCCATTATTTCGTAGTTCCCATACATTCC
TTTTTCTAGTTTTTACCCCCTTTTGTTGGAGCTCATCCAAAAGCAAATTTCTAAGAAATAGTTCATAGATATGGGTCTGAAAATGTTTTGTTTTGCTTCA
TACTTGATTAATTGTTTAATCCCTATATTTTGAAAGTGGCCTTTCTGACTTCCCTGAATAGTATAATCTTTAATGTAATATACTATTATGAAGAGTATAA
CATTATGAAGAGAAATGCTAAGAAAATTTTGAAAAAGGCAACTAAAGATTTCCTTGTATAAAGCAAAGCAAGGAAACAAGCAAACAGAAATKGACAGAAT
CCAGGAAGTTATAAAAATAAGGACTAAGTATTGATTGCCTATAATTTATAATCCCTTCTGTTATTAAGTTGAGGTATAAAGATTGTAAATTTGTTTGAAA
GTATTTGGTAACCAATAAACCTAGAAAGCCCATTGTAACCAGAGGTATAATTCTGATAAGTCAGAGGGTTCAATTTTCCAAAATGTCACTTCTGGCATGC
CTGCAGCCAACATAGATTGTGAACTATGCAAGGTACAGGAAACTGAATCCCTCATATTTACTTTTCCAACATTAACATGTACATTAAGTATATTTCTCTG
AATATGCCCAGTGAATGTTCTGGTCACAGGTCGAAAGCAAGGCCAATAAGGAAATCATTATGACTTCTTGCATTTCATAGGCACAGTATATTTTGTTACA
ACATCGTAAAACATTTCTACAAACATTTTAAGCAGAAAACCTACCACTTTTTAYGTTTTTTTTTCAAAGTCCTCTTTGCTCTTAAKCTACCAAATGTAGG
YGTTCAATATTTTCAACATTTATTTGGATACCTATGATGTGCCTGTTACTGCATGAGTCCCTGTGGGAGAGTCTAAGGACCATGAAGCATGTCTTCTGCC
TTCTAGGAGCTTACAATGTAGCACATTTAGAAGAATGAGCAAACAGCCTGAGTGTTTAATTATTAAATTGTGTTTTGCAGACTTAAGTGCTATGGAAAAT
GAGTAGAGCAAGATAAGCCAGGGCTAATTGTTATTGAGAAATGCTTTATATTTTTTCTAATAGTGTTTGCTTTTTCCATTACTTAGAAATTATCTTAAAT
ATAATCTGTTCATACCATTTATCACAATTTTTTTCTGAAATAATAGGGCCAAATACTTTATAGTAGCACGTTAGGCATCTGTGCCTTTAATATTCTAGGA
CTCTTTAGTGAATCAGCTCATGTGGTAGATATTCAAGTACCTGGACTYAACTGCCTAACTAGACTGTGAGTTCCTAGGAAACAGAGATTATATTTTCTTT
ACGTAGCAGACATAGATGGCTTAGGATGGTGCTTTGTGGCAGGTGATTCAAATATATGTTTGTTGATTGACTAAGTGAATAAATGTATTCCTTTTTTACT
TGGTTTTATTATCTCAGTTATGCAGAGAATGGTGTTAGTAAAATCAAGAAAACAGGTTTGACCCTTATATTGCCCAAAAGCTTCACAGAGAAAAATCCTT
TCCATAACTCATGAGTCTCAAAATAGAGCAACCCTGTATATTTGTAGAGAGTGTGCTGCACCAAAGTAAGGGGACGTTGTTTCTTACCTGAATACCTGAG
CGTCTTTCTCGTTTGCCCCACCTGTAGAGCCAGAGTTCAGGAAATAAATAGGACCATAGTCTGATTAGTGTTAACATGGATGCCACTCCTGATAGACATT
ACATCCAGAGGTCAAAGGCAACATAATTTATTCCATAATTTTAGCCTTGGGATTGTTAGTCTGTTAAGCAAACCAAATGTCCTGCATAACACCTAATGCT
AGAATATGAACTTTCCTCACTGCTGGAATTCTAAAAACCTAATGACCTGTCATCTCCTCTATTGGCAGATGATAGATGGTCATGACAGCAAAAAAGTAAA
TGTCCAGTTCCTCYGCTCAAACATTGGAATTGTTTCCCAGGAACCAGTGTTGTTTGCCTGTAGCATAATGGACAATATCAAGTATGGAGACAACACCAAA
GAAATTCCCATGRAAAGAGTCATAGCAGCTGCAAAACAGGCTCAGCTGCATGATTTTGTCATGTCACTCCCAGAGGTGAGTACGAAGTCAGAGCCATTCC
CTATGAGAGACAAGGATGGGGAGAAGTAGAATGACCAGAGTGTACAGGTTGAGCATCCCTAATCTGAAAATCCCAMATCCAAAATGTTCCAAAATTCAAA
AATTTTTGAATGCCAACATGATTCCACAGGTGGAAAATTTCACACTTGACCTCATGTGATGGGTCACAGTCAAAATGCAGTCAAAACTTTGTTTCATGTA
CAAAATTATTAAAAATATTATAGGAATTTACTTCTGGGCTATGTGTATAAAGTAGATAAGAAACAGGAATTTTGTGGTTAGACTTGAGTCCTATCCCCAG
GGTATCTCATTATATGCAGATATTCCAAAATCTGAAAAAATCCAGAATCTGAAACGTTTCTGGTCCCAAGCATTTCTGATAAGAAATATTCAATCTGTAT
TATGATTGTGGCTCTAGAAGGTCAAAGGATAYGCAATTTATTTCACAGTGCCCCTGGACTGTCTTAGTTTTTTAAGCAAAAGAAATATCCTTCATCAACA
TACTCTTTAATTTTGGAAAGTATTGTATTGCCCAATGCAATGGATGCTATTTTTGTTGAATTTTTTTGTACATTGAGCTTTAGTTTAGCATAGTGGGGAA
AMACCTGAGATTTGGAGCTGACCTGGGCTTGCATCCAAGCTTTGCCACTTAGTAGCTTCATAGCTTTGGGACAATTATCCTTTCTGAGATTGTCTATTTC
ATCTGCAAAATGCAAGAAAATAACGTTAAAATGAAGAAAACACACTTAATAGCCACACAAWGAAAGCGGCCRCTGGTATTACTGCCATCATCATTATTTC
ATTACTTGGCAATGTGTACCGTGGGTGGTGGGTAAGTTACACCTGCCTTACTGTCTCTTACTTTGCCAAACCCAAGTCCAGATTTCGCGCAATATTGACT
CTGCATTTTTCCATCCACCAAAAGTCCCTCTTAGTTTTGATCACAAGAAAAATTACAACATGGAAACCAAATTGTAGGGCCAAATTTTACCTTTAACCTT
CTCTACTTACTTTTTAAAAATATCCCTGGGAAAATTGTTTTTCTTTATAAGTGATTATGTTTATAARTTTTGTGGGTTTGTGGAAGGCTTTTTGTTTGCT
CTTTTCACAAAGTCTCCTAAGTTTTAGGCTCTTGGCCCAGTTCTTACCTGTTAGCCCAAWCTATAAGCACATGGAAATTACTATTTGCTGAATCCAGAGA
TCAAAAGCAAAGATTGTGTGTCTCCTGGAAGATTCATTTATCCCACAAACCCTTATTGAATAGCTACTCATGTTGGGCAAGGCACTGKCATGGAGCTGGT
TTACTGCATTGTCCTCATACAGACTTGCCCGTGGCACCCTTCTCTGAGCACTTTGTCTCCACAAAGACAAAGCAGGTTTTCATGGGTCTCACCTGGCTTA
AAGGAGCATTCCTCAGGAGGCAAGGGAAGCAGGGAAAGGAAACAGCTCGTGTTGTGGAAGGCAAGGAAGAGAAGTAGTCAAGGCAAGGACTYAGAGGAGA
GCAAGATTCACTTTCATCTGGATTCAGATTTCACTTTCACTGCTTGTTACTTGTCCTCGCACCATTTTCTTACCTCCCTGTGCCTAAGTTTTGTAATCTA
AAAAATAGTGTGGGTATGGTTTCTGTGAATATTAAATGATACCCTAGCTAGAATAGTTAGCACAATACCTCTATGGTAAACACTCTATGAATGTTAACTA
ATTTTTATGTAGCCATGCCAGGCATGAGTGATTTTTTCTTCCTAATTTTCTCTAAAACTCACAATAAATATGTGAAGTAAGTGTTAATACTGCACCTCAG
ATGCCTAGCCAGCTCAAAAAAATTTAAATAATTTGTTCATGAACACAAGCTAGTAAGCAGCAGAGTGGAGCTTCTAACCAAAGCCTGTGTTCCAGAATGC
TGCCTCCCTAATACAGCAATGGACCAGAAGATCTCGCAAAAGACATTTCCATTCTTGGGATTAGTCCATATTGGAAGGATTTTTCCAGATAAGAATCTAG
AATCAGAGAGTCTCAAATCAAGGAGGATCTCATATATGGGCTCTTATGTGGACACAGGGAGAAGGAGATTGAAAATATAAACCTAAAAGAAATGCAGAAA
TGAGGAATAAWGTCCCCTTGCTTCCCACATCAAATGTCACAAATTCCATATTTTTCTTATATTCCTAAGTGGATTTGACATCCTCCATCCTATAGGAGGA
CTCACTCACTGTTCCCTAGTTCAACAAACAAATAATTTAAATTACAGAGGAGACCTTGACATGAGTTCAGTACAGCACAGGAGCAATAACTGTTTCTATT
TCTCAAACTTATCATACTTTTTTTCAGAAATATGAAACTAACGTTGGGTCCCAGGGGTCTCAACTCTCTAGAGGGGAGAAACAACGCATTGCTATTGCTC
GGGCCATTGTACGAGATCCTAAAATCTTGCTACTAGATGAAGCCACTTCTGCCTTAGACACAGAAAGTGAAAAGGTAAGTGTTGAATTTCTAAAGTCTTA
GATCATTACAAATAAGTCTTTTGCTGTAAAATTTGTCCTTAATAAAATGGCACTATTTTCAATTTTCTGATTCGTTAACAGTAGAAATTGGCAATACTTT
GTGGAACCAAAAGACAATTATCTAGAGCAAGTGATTTAATATAAGATTGCTTCAAAAAAAATATTTTACCTTTAAAATARGAATTGTTTTTAAGATTCTT
TAGGCTAAGTGACAYTTTTTTCCAAAGGCAAATAATCACCTTTCTTGAATAAAGTRAAATAATCTAGATTATCTGTTATATTTTATAGTTCTAAAGTTAT
GTGACAGAGAAGGTAGGCCACAYGCAACACAAAGAAAGAGGTGATATCTGATGTGTGGTTTKCATGAAAGAAGATGCAATTGAGCAAAACACAATTATGA
AATTTAAAATGTATAATTAATGCCATAACAATCGGGATTCCATTTTGGAGAGAGCTAAAATGTCTTCAATGAAGAGCAGTATCAGGAATGGCCACTTAAC
TGCTACCCTCCGTTGTTTTCTTCATTTCATTTCAGGAAACTAGACCATCAAATATTGTAAAATTATGTAGGGACTTCATAGTTTGCTTCCTTCTTGCTCC
ACTGAAATTTCTCAGCCAGTGCACTGCCATTGAAATCACTGATGCATTGCATTCAGGGAATACTTGCTTAATCCTCTCTTATGTTGAGCCTTTGGGTTTG
CCGTCAAGTATAGGATTGTTATTCAGGTCGTGTTAACTGAACTCTCATGATGGTGGGCTGGGGAGCAATCATGCRTCTTTGCATCAACTTTCCATCTTCT
CTTTGCAGACGGTGCAGGTTGCTCTAGACAAAGCCAGAGAGGGTCGGACCTGCATTGTCATTGCCCATCGCTTGTCCACCATCCAGAACGCGGATATCAT
TGCTGTCATGGCACAGGGGGTGGTGATTGAAAAGGGGACCCATGAAGAACTGATGGCCCAAAAAGGAGCCTACTACAAACTAGTCACCACTGGATCCCCC
ATCAGTTGACCCAATGCAAGAATCTCAGACACACATGACGCACCAGTTACAGGGGTTGTTTTTAAAGAAAAAAACAATCCCAGCAGGAGGGATTGCTGGG
ATTGTTTTTTCTTTAAAGAAGAATGTTAATATTTTACTTTTACAGTCATTTTCCTACATCGGAATCCAAGCTAATTTCTAATGGCCTTCCATAATAATTC
TGCTTTAGATGTGTATACAGAAAATGAAAGAAACTAGGGTCCATRTGAGGGAAAACCCAATGTCAAGTGGCAGCTCAGCCACCACTCAGKGCTTCTCTGT
GCAGGAGCCAGTCCTGATTAATATGTGGGAATTAGTGAGACATCAGGGAGTAAGTGACACTTTGAACTCCTCAAGGRCAGAGAACTGTCTTTCATTTTTG
AACCCTCGGTGTACACAGAGGCGGGTCTRTAACAGGCAATCAACAAACGTTTCTTGAGCTAGACCAAGGTCAGATTTGAAAAGAACAGAAGGACTGAAGA
CCAGCTGTGTTTCTTAACTAAATTTGTCTTTCAAGTGAAACCAGCTTCCTTCATCTCTAAGGCTAAGGATAGGGAAAGGGTGGATGCTCTCAGGCTGAGG
GAGGCAGAAAGGGAAAGTATTAGCATGAGCTTTCCAGTTAGGGCTGTTGATTTATGCTTTAACTTCAGAGTGAGTGTAGGGGTGGTGATGCTACCATTAC
TGTGAGGACCTACCAGTGTGGCTGGAGCAGGGACTCTCTCCCAGGCCTTTTACTCCTCAGCACCTCCCTGCATACTGATTGTTGTTTTTAGTTTCTGTGA
AATTATATTCATGAAATGAAAATAGCGCATTTTACTTTGCTGTAGTTTCATAAGGTTTTATACAAAAAAGCAAGTAAATATGGCAGAAAAGCACTCATTT
GCCCCTGCTCCCTCAAAACACCACAGAATGACATAGAACTAAAGGCGGCAGGAATCTACAAGAATGAAGAAAACACAGTGATGCCACCTGCAAAATCTTG
GGAGCCAGAAAGCAAATGGACAATTGATAATAGAGTTACAAGATGAGAGAAAACAAAAATGTAACCTGTTAGTTGGGGGAGCCTAGAAACATCCTGTTTT
GTACCACAGACCCCTAGAAAGTTTCAAGATGTAAAAACACTGGATCCTTCTGGAAGGAGGAGACAAGGGGACAGAGGGACTGAAGACAGAAGAATGGACC
AAAAGCCTGTATGGAAACAGAATTGCAGAGCCCCGCCTGCAGCAGGATGGCTGCCTTTCCCCAGTTCCAGCGAGAAACTGCATACTCCCTCTCTGAGGAG
GCTCACAGGGAGGTTTGCACTTAGAGACACAAGATGAAGTTGAAGGGGCAGCTAACATACAAGAGACAGGGGGATTGAATGTAAAGCTGTGTATGAACAG
AAGAACTCCCAGCCCCTCTCTTCTGGCAGGAGATTGAAGAATGATTTTCTGGGGAAATTGGCCAATCTTAGAAAAGAGGTCGGGCCAGGCGCTGTGGCTC
ACTCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCATGAGGTCGAGAGATTGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACT
AAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGRCGTGAACCCGGGAGGTGGAG
CTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAAAAAAAAAAAAAAAGAAAAAGAAAAAGAAAAGAGGTCAAGGACTCCG
TCCTTGGAATCCTAAGAAAATTTTCCAGCCGTATTACCCTTCTATGAAGCCCACCTGTCAACCAACAAGCACCCACTCGATCAGAGCTTCCCCAGGCTTT
TTGGTGTCTCCTCCTTGCATGGGAATTGACTTCCAAGGACCACCAGACACTGAGGAAGTATTTTAACATATAAAGCAAAAGCAACAATAGGGCAGCTGGA
GAAAGGAAATTAGAAGTAACAGAGCCAATGCAGTGATTAGAAAAACACTCAAAAAATGGTAATAAATGTGTTCAATGGGTCAAGAGAACATATTTCCATC
TATTTAAATAAAAACAGGAATCAATAAAAGTGAACATACAAAAAAGAGCTCTTGTCACAGAAATGAAAACCTTGGGAGCAGGACTGCACCCACGGTTCCC
ACCAACCTATCCTGCCATCATGTTTTCTCCCTACTCCAGCTTCCTCCCAAGCTCACTCTACGTAGATGGTTTTTCTTCCCTTAGCCAACAAACGAAATTC
TGCCTATAAATTAAGCCAGGACACTAGGATATGGAGGTATATTATTTATGTCTCTTTTCCAGTGTTTCCTGGTATATAACAGCAAAGATGGTTTAGCAAG
TTAACTGGTCAGGCCAGAATTCTTGATGGTTGCCAAGTCAGGAGGCAGACGGTGAAGGAATGCATTCTGGTTATGAAAAATGGCAATGACGAGTAAGTTG
CAGAGTAAAGATGCCTTTTAGAGGAAATTAAGGTTTGCAATAAATACATGCTAATCCTCTAATTTTGATGAAAGACTAAAGCTCTTGTTTTGGTTTGCAT
TTCAAAGAGCAAGAGCATAGGCTCTTGTGCTGGGAGGTGGCCAGTTTCCTGGAAAGGAATTTATGGAGTCTGAAAGAGGAATTAGTACAAATTATATTTT
CAAATAAGATACTTGAAAGTTATTGATGACAGGGAAAAGATTGTCTAAAGAGGGCTTGAAATTGGGGAAATAATTGAGGCTCAGTGACAAAGGAGAAGAT
TACAACTTCAAAAATGAATAAATAAATAACATTGCATGTTTATTTTACAACACCAGGGGGCGATGATGTCTACGTTTTTATTCTGTATCCTTTATCGCTG
ACAAAGATTTGGTCTCTGCAATTTTACCTTATTGTTTCTCAGATGACCAAGGGGTTGGCTTAATTTGTTCTGTTTAAACTTATTGCAAGTCCTTCTGTAA
TTTCCTAATGTTTTCATAATGTGTGTTGTGACCAGACTCTCCTTATAACCCCAGTTAATAAAAGTTAACAGGAAAAAAAAAAAATAGAAGGATTGGAAGA
TAAAGTTGGGGAAATTTCTCTGAAAGTAAAACAAAAAGATAGAGATGAAAAGTAGGAAAAAATAAGAAAAGAAAAAATTGAGGGTAACAATTCAGGTGGT
GCAATAATTAGTCAATAGTCTAGTTCAAGAGAGTTTATTTAAAAAAATAAATTTAGACTATTTTAAAAAATAGTCTAAGATCATTTCCTACAATTGAAGA
ATATGAATTTCCAAGCTGAAAGAGTTCACCCAATACTGAATATAATAAATAAAAATCCTATTTGGGCACAGTATGAAATTTTAGAAAATGAGGGAAAAGG
AGAATATTTTCCAGGAGAGAAGGAGGAATGTGTGACATATAATCGATAAAGAATTATAATCATGTGACTGGGCACAGTGGCTCATGCCTGTAATCCCAGC
ACTTTAGGAGGCCGAGGCAAGAGGATTGCTTGAGCCCAGGAGTACAAGACCAGCCTGGGCAACCTGGCGAAACCCCATTTCTAACAAAAAAAGAAAAGCA
AAAATTAGCCAGGCATGGTGGCATGAGCCACTCGGGAAGCTGAAGTGGGGTGATTGCTTGAGTTCAGGTGGTTGAGGCTGCAGTGACCCAACATCGCGCC
ACTGCCCTCCAGCCTGGGCAACAGAGCAAGACCTTGTCTCAAAAAAAAACAAAACCAAAAAACCAAAAAACAAAACAAAAMACACACACACACAAAAGAA
CTATAATGACATAGGACCTCTTGACAATGAAACTAAAATTCATAAAGATTTGCCTTCAAAATTCTAAGGGGAATCATTCTATATGTAGCAAAGCTATTCT
CAAGAATGAGAGAGGTCTAAAGACATTCTCAGTCATGCAGGTCTCAACACCTCTACTCCCCATCTTTTCTCAGAAAGCCACAAAAGGGGGCTTTTTTTTT
AAAAAATAAGGTCACAGATAAAAAAAATAGGAAGATATGGGATGTAAGAACAGATGACCTAACTCAAGAATGAGGTGCTGGGAATCTCCAGGATGATTAG
GAAGGAGATCCCAGGATTACAGGTGTGCTGTACCCAGAGGAAGTAGTCAGCTAGATTGAGGCAGGGAAATGGGTTCTGAGAGGAATGTCCCCCAGAAAAA
CATGGTGCTGCTAGAATGCCTGGTGGGTTTGAATGCTGAGAGAAGACAGAACCCCCTGCTAGAGTTTGAGGGTAAGTTAGCAATGCGTAATAGAAGACAA
AGAGAGTGAGATTGGAGATTTTTAGCTATTAGCTCTAGGTGGAAAGAAAAGTTACACAAAAAGAAAATATATTTTTATTTTACCTTATGACTCATCTGAG
AATGTTATTTACAAAGTCACATCAATGTAAAAGCTTAATACTGATCTAAAGCAGAATTATAGATAGATTATGAAAGGAACAAGAAAATATGTGGGGTAGG
TTGGGATGGGATAGGACATGGGTAAAAAAAGAACTGGATCCTTGTGGTCCTCATATTTCATAATGGAAACTAAACAGTTAAACATTTAAACAAATAAGAT
GTTTTACAATAAAAACATCTTATTGTAAAAGATGAAGGTGAATACTGAAAGAAACTGCTAAAAGATTTATGTACATATATATCTTTCATTGAAAAAAATA
AAGTTTAAGATGAAAAGGGGATAGAAATGCAGTACAGTTACAAAAATTAAAACAATAGATACTGAAACTATTATAGATTTGAAAGATACATCACCAGAAC
AGAAGGGAGTCCAGAAATAGATTCACCAGAGATCCCATTTATCAGAATATATTTTAAACTTCTAATCACAAAAAGTGAGCACACTTTTCTCTTCCTGCAT
TGTTCACAATCATTTGGAAAAAATCTCAAATCTATAAATAAGACGATGGGGTAAAGGTCAAATAAGTTTCGGTACATATATGCAATGATGTTTTTCATGA
AGCCAAAATAATGATGTTGACTTACATTTATTGTTTTTTGTGGAGCAATGCCCATGTTATATTGTGCAGAAAAAAACCATTTCTGATCATCAAAGATGGT
ATGATGCTATCTATCTGTCTAATCATCTATGCACACACACTCATACATGCATGCATCTGTTATGTGTGTATCTGTGTTTGGTGTGTGCTTGTACATACTT
GTATGCATAAAAAGATATCTGGAAGAATTTCTGCCAAATTTTGGTAACTTTTATTTCCAGCCATTTGTCCTCTGTGTGACCAGAACTCCCTGCATATACT
AAAATGTCTATTGATGGTCTTTGAGGGCAGAGACTGCCTAGTTCATCTTAATGTCCCCAGTGCTTTACTCGGTACTTGGCATAAAGTTCTACCTCAATAC
ATCTTGTTGAATAGTCTTCTCAAAGTCACACAGGTAGTTTATAACTTGTCAGCCCCCACGTAAGGAATAAAAGTGGAAAACGCCCATTCTTTCCATGGGT
CAGAGCAGTGCCTTTCAACAGAAATATAATATGGGCCACTAATGTGAGCCACATAGGTAATTTTAAATTTTCTAGTCACATAAAAAAGTGGAAAAAAAAC
AGGTGAAATTTATGCTAATTGTATATTTTATTCAACCCAACATATCCAAAATATTGCCATCACAACATGTAATCAAAAATATCCTGAGATTTTTACATTA
TCTACTAAATATTCAGAATCTGAGGTGCATTTACATTTACAGCACATGTTAGCTCAAATCAGCCTTATGTCAACGTCTGTTCTCAAGAGCCACTAGTGGC
TACTATGTTGGACAACACAGAATTAGAATATCAGGTTCATGAATTCTCTAGTCTGAATCTCAGTTGTCTCTACAATTCTAGTCTTATAAAAACATGAGCC
CAGCTTCTCCATTGGAATGTGTCCTTACACTGTACTCAGAAACTTTGCAAAACTTCAGTTTTGCAGGATGTCAGTTTGGATGCAAGAAAGACCTTTGGGG
AATCAAACAAATCATTTTGATGTCAGAAGTCATAGAGCTACACTGGCCTGTATCAGAAGTGGTTAAAATGCTTTACATCATACATTTTATTTGATTCACC
AGTGTGAGTTGACAAAAGTGAAATAACTAAGATTGTTTAGTGTAACAAAATACAGTATGATATTAAAAATGGTCATATTAGCTAAGCTTCCTGAGGACCT
CTTCCCAAAACAAGTTTTCTTCCAGTTGATCTGTAAGAACCATTTATGATTTTTTTCTGTGAACAATTCTTAGGAAAAGTTGAAGCAGCACATCTTCCAA
CTTATTTTGAAAACAGGCTCTCAGTTAATTTTGGTCCATTTCAAAATTGCATGAAAGAGATGCCCATATATTAGAAATGCTACTGTTTGAGAAAAAAAAA
GGTAGAAAAATTGGCCTCTAGTTTTTTTGTCCAAAAACTCTTTTTTATATAGTTACTCTAAATGTACTCTACATGTGCCCTTAGGAAATTATTTCAATGA
AAAGATTCTTTGAATTTGGTGCTGCCCCCGTGCCTATAATTTTTGGCAATTATACACTCATTTTAAAATGTAGGTCCTGGAATATTTTAATACTATATTC
TGAAAGTGTAAAATACATAGGATCATAATTAGGTATAGTTTGCCATATATTTATTCAATAATTAAATATCAGTTTCTTATCGTAAGAAAATATC


SNP Information

Context             (SEQ ID NO:12673):
CAATTATCTAGAGCAAGTGATTTAATATAAGATTGCTTCAAAAAAAATATTTTACCTTTAAAATAGGAATTGTTTTTAAGATTCTTTAGGCTAAGTGACA
Y
TTTTTTCCAAAGGCAAATAATCACCTTTCTTGAATAAAGTGAAATAATCTAGATTATCTGTTATATTTTATAGTTCTAAAGTTATGTGACAGAGAAGGTA
Celera SNP ID:            hCV15961869
SNP Position Genomic:     112915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12674):
AGGTTCTAGTGCACCTTCTTTTTTATCAGTCTGAATTTTCAGACTTGGTGGTTACCTCAATCTAAATTAACCAACCACTCTAAACTTTCTCCACCATTTC
R
CTCCATTAGGTGTAACTACTATATACATTTAACATAGGAGGGTTATTCTGAATAGACTTTTGAAAAGTTTAGTGTTTCTATCATTTTTTTTTTGCTACTT
Celera SNP ID:            hCV25634269
SNP Position Genomic:     68431
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,1)   caucasian(A,18)   total(A,19|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:12675):
TATAAAAATATTTATTATATATTTATCTATAAATAAATATAAAAATATTTATTATATATTTATCTATAAATATTTAAATATAAAAATATTTGTTTATACA
T
TTATCTATAAATATTTAAATATAAAAATATTTATATATTTATCTATATTTTATATCTATATATACATACCTACATTATCAGTATGTAGGTAAATATATCT
Celera SNP ID:            hCV27054300
SNP Position Genomic:     62206
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12676):
GAAATGATTGATATTTAGTAATGGTGCTAGGACATTTGGAAATATATATATCCATCTAAATTTGTGTAACTACACTGTGATGTTTGCCAGTGATGAAACC
R
CCTAAGGACACATTTCTCAGAACGTATCCCCGTCGCTTAGCTATGCATAACTGTACATTTAAAATGCTATTGCTGCCTCTTCAGTGAGCTGTCTATTCCA
Celera SNP ID:            hCV27054301
SNP Position Genomic:     64063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12677):
GTGATGTTTGCCAGTGATGAAACCGCCTAAGGACACATTTCTCAGAACGTATCCCCGTCGCTTAGCTATGCATAACTGTACATTTAAAATGCTATTGCTG
S
CTCTTCAGTGAGCTGTCTATTCCACTTTTTTCTTTGTATTATAACGAAAATATTATTGTGTCCTTAAGTTCTCCAGACACTAAATATAGAAATAATAACA
Celera SNP ID:            hCV27054302
SNP Position Genomic:     64139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12678):
CACTAAATATAGAAATAATAACAGGGCTTGAAATTAAGAGAGAGCAGTCCTAAGAAACTAAGAAAAATGAGTATTAGTAATTGCCATTTATTTATCACAT
R
TTATGTGTCAGATACTTTATTAAAATGATTACTTATTGTCACAATGACCCCCAAAGGTACATAGGCCCATTTGACAAACAAGGAAGCAGAGAGTCAGAGA
Celera SNP ID:            hCV27054303
SNP Position Genomic:     64317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12679):
AAATTGTTTTTAGCTGTTGATTAATGGCAGCAACAGGGCCAGTGTGTGTTGGGGTTTATGGCTGCAAGAAAATGTGCTGGCCTTTTCTAATGTCTGCACA
R
CCTATTTAAGAATATTCCCAGGGACCAAGGATCTAACTTTCCTATGGATTCTGAAATGATGCAAAGGTCAGTGTCAGCTCTGTCTCACAGTTTTGTTTAA
Celera SNP ID:            hCV27054304
SNP Position Genomic:     67639
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:12680):
AAGGAAACTCTGAGTAGACTGCCAGGTCTTGTCAAATATGAACATGCAAGTGATCCTTGGTTGCTATATTGACATTTCTCTCCCCAATTCATGGGTTTTT
K
GTTAGCTTCTCATCTTCTTGGGGATAAGGGTTACAATGGAGATGCTTTATGGTTAAAATTGTTGTGTATTGAGCTTAGAAAGGGGACTTCTTTTAAAAAA
Celera SNP ID:            hCV27054305
SNP Position Genomic:     69082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12681):
AAGCAACCCTGTCCTCCCCTGTCTCCATGCTTATGTTTATACATTCTCTCAGTCAGAAATGCTCTTTTCTATAGTCTACAAATCCCCATATCCTACCTTA
K
CCATCTCATCCATGAATCTTGCCTTGGTAACACCTGCCATACATTTCTTTTTCCTTTGACTTTCCATACTCTTTATTCAAACCTGCCTAATAGCACTTAC
Celera SNP ID:            hCV27054306
SNP Position Genomic:     72176
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12682):
AGCAACCCTGTCCTCCCCTGTCTCCATGCTTATGTTTATACATTCTCTCAGTCAGAAATGCTCTTTTCTATAGTCTACAAATCCCCATATCCTACCTTAG
Y
CATCTCATCCATGAATCTTGCCTTGGTAACACCTGCCATACATTTCTTTTTCCTTTGACTTTCCATACTCTTTATTCAAACCTGCCTAATAGCACTTACC
Celera SNP ID:            hCV27054307
SNP Position Genomic:     72177
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12683):
TCCAAGTTTACGGACTATGAGCTGAAGGCCTATGCCAAAGCAGGGGTGGTGGCTGATGAAGTCATTTCATCAATGAGAACAGTGGCTGCTTTTGGTGGTG
R
GAAAAGAGAGGTTGAAAGGTTGGTTAATTGGAATCTGATTCTTTCCTTAATTTCATCAATCAGCATAGTACCCTGAGTCTCTCAGTTTGTGCAAAGCGGC
Celera SNP ID:            hCV27860859
SNP Position Genomic:     46496
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12684):
GAAATATTTTGCTCTATTGCAAGCATTCAGTTAGTCTCACACAATTTCATGATGCTGGCAGAATACATGAGCATCCTGAATCACAGTGTTCATATTCGGG
T
TTTTTTTTTTTTTTTTTTTTTTTTGGAGATGCAGTCTTGCTCTGTCACACGAGTACCCTGAACCAGAGACAAAGGACTTTATTATTCATAGCAATAGCAG
Celera SNP ID:            hCV27054308
SNP Position Genomic:     77356
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12685):
AAATATTTTGCTCTATTGCAAGCATTCAGTTAGTCTCACACAATTTCATGATGCTGGCAGAATACATGAGCATCCTGAATCACAGTGTTCATATTCGGGT
T
TTTTTTTTTTTTTTTTTTTTTTTGGAGATGCAGTCTTGCTCTGTCACACGAGTACCCTGAACCAGAGACAAAGGACTTTATTATTCATAGCAATAGCAGT
Celera SNP ID:            hCV27054309
SNP Position Genomic:     77357
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12686):
CAGAGCTGGATTCAAACCCAAATCTCAGGCTACCCTGCTGAAGGTTCTGTTTACCTCCACTTTTAGCAGCAGATGACAGAGCTCACATCTTAGTTCCCAA
R
AAGAGGCATTTTCTGAATTACTTTCCCCCTTTTCTCAACTGTTGTATTGAAAGTACTTTCTTCTGAAAAAAGAAATTAACAAATATTTCAAACATTGCAA
Celera SNP ID:            hCV25474469
SNP Position Genomic:     41704
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,1|G,35)   total(A,5|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:12687):
ACATTGATTTAATTCATGTTCATCTTGATTCAAGTTTTAGCTTATGTGGATGTCCTGAAAATTAATTCAATCTCAACAAAATATCTGTTCTTCTAATTGA
Y
AGATAGGTATTTGTAAATCTTCTCTACCTATTTTTGAAAATTTTAGTATGTTCCAGAAAGCAAAGCAAACCTAAACACTAGTAAAGCTAAGCTAAATTCT
Celera SNP ID:            hCV8517133
SNP Position Genomic:     105802
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12688):
AGGGCGGTTCTTCTGACCTGGGCTGACTCAGTCAGGCTTCTGTGTATTCTTCTGTCTCCACATGGCCTGTCTAGCAGATGAGCTTCTTTTCTTCATATTA
Y
GGCCTCAGAGTTCCAAGTGCCACAAAAGAGGGCAAGCCCCACTGTGCAAGTACTTTTCAAGTCTCTCCACGCAAAGAAACTTTCTAATTTTCTGTTTGGC
Celera SNP ID:            hCV8517135
SNP Position Genomic:     102398
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12689):
GAATGGACCCAGCAAATGATTGGGCCTTATTAGGAGCCCAGTTGCCAATCTAGCTAAGCCTCAATATACATGTAAGGCGTAATTTGTCTGCTTCACTTTC
M
CTGTGTCCATTTGACTTGGAAAATGTGCCAATGTTCCAAGCACAGCACTTGGGATGTAGCATGCTGGGGAAAAAAAAAAATGGATGTGAGAGTCGCCAGC
Celera SNP ID:            hCV2034290
SNP Position Genomic:     89885
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:12690):
TGATAAATTTCCTCATCTGTATAAGGAGCAAGAAAATCTACCTCACTGGGTTGTTTTGAGAATCATAATTCCTAATTTAAGTTACAGCAGGTTAATCTAC
R
CATTTGACATGTGGCACATAGCAAAAGGTTAATGAATGTTAGTTTTCTCCTTCAACAAACTTACCATTACAAAAATAGCAAAGATGTGTGCCAAAACTAC
Celera SNP ID:            hCV2034291
SNP Position Genomic:     90150
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12691):
GCATACTTCTGACCTTCCCAGTTCCCTCACCTGGCCTAAATTACAAAGGTTCTGTTATGCACAAAATCCATTTCACCACAAGGCAATGTCATTGGAGTAT
R
TTCTTTCATTTTTCTTATTGTAACAAGATCCTCAGTTACTTGAACAGATGTCTGTAAATTCAGAATACGTTTGAGTGTAGTTTACTAAGCATTATACACT
Celera SNP ID:            hCV2034292
SNP Position Genomic:     91230
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   ;TSC_42_A(G,27|A,56)   TSC_42_C(G,38|A,45)   TSC_42_AA(A,32|G,51)   total(G,116|A,133)TSC_42_A(G,27|A,56)   TSC_42_C(G,38|A,45)   TSC_42_AA(A,32|G,51)   total(G,116|A,133)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12692):
CCTTTTCATCTGTGTTGATGAAAAACCAACACAATTGCCTAAAAAGGCAAAATAACAAGACAAAAATTCTGTAAGTCATCACCATTGGTTTTCATTCACC
R
GGTTTTCCGCCCCACAGAGGACTGTAGTACATCGTCATCATATTCTTAGCTAACTTTCGTTTAATTACTAGCATGTTTAAAGTGGAACCATTATTTAAAA
Celera SNP ID:            hCV2034293
SNP Position Genomic:     91919
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12693):
TCTGTGTTTGCGATGATTTTATGATCATTTTGTAAAACCACTGCATCACGGCCTGTTTTAAACATTATAACTTGAGCTGTTTCTGCCGAAATTGACTCAA
R
CATTTTGTCTTCACAGGTATGAGAAAAATCTTGTGTTCGCCCAGCGTTGGGGAATTAGAAAAGGAATAGTGATGGGATTCTTTACTGGATTCGTGTGGTG
Celera SNP ID:            hCV25473304
SNP Position Genomic:     51014
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,18)   caucasian(A,1|G,37)   total(A,13|G,55)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12694):
CTCAACAAAATATCTGTTCTTCTAATTGATAGATAGGTATTTGTAAATCTTCTCTACCTATTTTTGAAAATTTTAGTATGTTCCAGAAAGCAAAGCAAAC
Y
TAAACACTAGTAAAGCTAAGCTAAATTCTGTAATCTTTCTAAATTGGTAAAATTTCTCCTTCAGTTCAGTAAATGTAAAGTTTCTGTGTGGTCTATTAAA
Celera SNP ID:            hCV16045868
SNP Position Genomic:     105873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12695):
TTTATGAATTTGGACAGATATATAATGACATGGTAAGAAAAATTCATTTTAAACATGTAAATAGATTTATTTTTCTATTTATAATAAAGTTACTTTCTTG
Y
TTACTATCTTTCCAAGACTTTTTCAATTCCTGATAAAGAGGAACAAAGGTCACAGATCAATGGTGTGTGCCTACTTTTTGTAGCAATGGGCTGTGTATCT
Celera SNP ID:            hCV2034294
SNP Position Genomic:     92336
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12696):
GCTCACTTTTTCTCATGTATTTTTTCCACTATTTTGAATGAGATCTTTTTCTCAATTATATCTGTAAATGAGTTGAGATGAAAGCTGTTAGTTTTTGTAT
R
CTTATCTTAAGGACTTTCCAAGCTCTCTTATAAGTTATAATTTTAGAAATTTAATAGTCTACTGGGTTTTCTAGGTATATAATAAAATACCAGATATAGT
Celera SNP ID:            hCV2034295
SNP Position Genomic:     95214
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12697):
TAATAAAATACCAGATATAGTTCTGAAATATTACAGGTTTGGTTTCAGACCACCGCAATAAAGAGAATATTGCAATAAAGCATGTCACACTAATTTTTTC
R
CTTCCTAGTGCATATAAAAGTTGTGTTTACACTATACTGTATTCTACTAACTATGCAATAGCTTTATGTCTAAAAATAAACAATGTACATATCTTAATTT
Celera SNP ID:            hCV2034296
SNP Position Genomic:     95394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12698):
CAGGGAGTTATTAACCGATTTTAAAACTTTTGTCTGAGATTGATTAGTAAAGATTATTTCTTGAACCAAATTGTTCTTTCGTTTGGCTACTTTGATTAAA
R
AAGAAAGAAGAGATAATAATTGCAATGATTCTTTTATTTTATTTTATAGGGTCGTTGGCTGTGGGTTGCAATTACCATGTCTGACTCAGTAATTCTTCGA
Celera SNP ID:            hCV25634270
SNP Position Genomic:     19113
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,1|G,39)   total(A,2|G,74)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,37)   total(A,2|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:12699):
TCAACAATGCAGCATCTTTTCTAGAATAACTCCATAATATTCATATCAAAGGCACAAAGCAGAGAATACTTTCATGCACATTGCACTTCATATAAAATAA
Y
ATATACAATCCATTCTTTTTCTCTTTAAAATATTACTATAATTTGATTTTAAAAACCTTTTGGAATATCCCTTCTAGGTTAGGTTCAAATGTCCCCTCTG
Celera SNP ID:            hCV25634271
SNP Position Genomic:     20652
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,40)   total(C,3|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:12700):
TATGAACTACAGTTTAGGTTTTGGATACACTTAGGTTTTAGCTACACATTTTAAAGTGTGTTCTAATTAATATCTTGTCCTTGGGGGGTAAATGAGGGAT
R
GTAGCATAAACACTTCTCAAGTATAAGAATTAAGGGAAACTTGAATTTAACTGAAAAATTGTCTCGTGGTCCAGTTGGGTTGATCTCCAGCCACGTCTTT
Celera SNP ID:            hCV27474807
SNP Position Genomic:     101665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12701):
TATAACTTGAGCTGTTTCTGCCGAAATTGACTCAAGCATTTTGTCTTCACAGGTATGAGAAAAATCTTGTGTTCGCCCAGCGTTGGGGAATTAGAAAAGG
R
ATAGTGATGGGATTCTTTACTGGATTCGTGTGGTGTCTCATCTTTTTGTGTTATGCACTGGCCTTCTGGTACGGCTCCACACTTGTCCTGGATGAAGGAG
Celera SNP ID:            hCV25473309
SNP Position Genomic:     51079
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,12)   caucasian(A,37|G,1)   total(A,55|G,13)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:12702):
TTTCTTTACATATGATTTTTTTTAAAAGTGCTGTGCAACCTGCCAGTGCTACAATAGAAGTACAAGGAAACACATATAAATTTTATAATTTTACCTGTCT
R
TGAGATTTGTTGTTAATTTATAATCTTCTCTTTATGTTTAATTTTGCAAAATCAGAGAGAAAAATATTTCTTTACAGAATGACTTTAATTATTTTTTGTA
Celera SNP ID:            hCV27474808
SNP Position Genomic:     76422
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(A,576|G,907)   total(G,907|A,576) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12703):
ATGTTATCCACCATTGCTATATATTTGAAGCAGAGAAAGTTAGTGAAGCATAAACTTCATGCTGAATCGAGTGTCTATATCCTGGAATTCTCAGCCTGTA
M
CCTCTATAAACTAATTTTTCCACTGTGAATAAGACTAATCATGACTCTGTCGACATTTACATTTTATTTAGAAAATGTCTTCCTTCTGTTCCTTTGATCC
Celera SNP ID:            hCV27474809
SNP Position Genomic:     18580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12704):
TTTCTGCCCATTGGTCAAGTATGACATAATATTATGATTCAGAACCCTGAAAGATTCCAAAAGTTGTGATGTTGTGCCCATGCTCTCTAGGTGACCGTGG
R
TGGCCATGACATTCGCTCTCTTAACATTCAGTGGCTTAGAGATCAGATTGGGATAGTGGAGCAAGAGCCAGTTCTGTTCTCTACCACCATTGCAGAAAAT
Celera SNP ID:            hCV27860860
SNP Position Genomic:     65274
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12705):
AATATTTTGCTCTATTGCAAGCATTCAGTTAGTCTCACACAATTTCATGATGCTGGCAGAATACATGAGCATCCTGAATCACAGTGTTCATATTCGGGTT
T
TTTTTTTTTTTTTTTTTTTTTTGGAGATGCAGTCTTGCTCTGTCACACGAGTACCCTGAACCAGAGACAAAGGACTTTATTATTCATAGCAATAGCAGTA
Celera SNP ID:            hCV27054310
SNP Position Genomic:     77358
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12706):
AGTTGTACTGAGTGCGACAGCTCTTGGAAGAGCCTTCTCTTACACCCCAAGTTATGCAAAAGCTAAAATATCAGCTGCACGCTTTTTTCAACTGCTGGAC
Y
GACAACCCCCAATCAGTGTATACAATACTGCAGGTGAAAAATGGGTAAGTGTTGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGCAG
Celera SNP ID:            hCV894448
SNP Position Genomic:     104910
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:12707):
TGTCCACTCTGTGTGATGAAAATGTGCAATTTAGAAATCCAAATGCAGTACTACTTACCTCTGGGTACTGATTAAGGAAAACCTTACTGAAAACATCTCA
A
TGATAACTGTTGACACCACTTAATGTATTTTAAAAATTATTTTGTCTTATTTCATATATACTGGCCTACCTTACAGCTTTAGCCAGTTACTATATTATAG
Celera SNP ID:            hCV27054311
SNP Position Genomic:     78687
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12708):
GTCCACTCTGTGTGATGAAAATGTGCAATTTAGAAATCCAAATGCAGTACTACTTACCTCTGGGTACTGATTAAGGAAAACCTTACTGAAAACATCTCAA
Y
GATAACTGTTGACACCACTTAATGTATTTTAAAAATTATTTTGTCTTATTTCATATATACTGGCCTACCTTACAGCTTTAGCCAGTTACTATATTATAGA
Celera SNP ID:            hCV27054312
SNP Position Genomic:     78688
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,2|T,10)      total(T,10|-,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12709):
CTATGTTTTGTTTGTGTCTTAGGTTGTATTATTTTCAATTTTTAAAAAAATACCAATTGAATAAAATGTAAAAGGAAACAAAATAACGACATCCCAAAGA
R
GTGCAAAGTTGCTTTTCAAGTCCTCTGTAATGCCTGACAGTCCTTGCCAACCAAAAATTCTTTTTTAAAAAAAATTGTGGTAAAATATTTGTAACACAAA
Celera SNP ID:            hCV8931
SNP Position Genomic:     98548
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12710):
GTCATTGCTCACCATCACAACAACACATTGAAATATAAAACTCACAGTTCATATAAAATAATCACACAAGGAAGAAGAGAAAAAAATAAAATGGCATAAC
R
ATTTCATCAAACTACAAAGACAAAAAAAAACAGAAAAAGAGGGAAACAATTTATAAAATAACTTGAAAACAATCAGCAATATGACAGGAACAAAGCCTCA
Celera SNP ID:            hCV27054313
SNP Position Genomic:     83057
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3|-,6)   total(G,3|A,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12711):
TATGTTTTGTTTGTGTCTTAGGTTGTATTATTTTCAATTTTTAAAAAAATACCAATTGAATAAAATGTAAAAGGAAACAAAATAACGACATCCCAAAGAA
S
TGCAAAGTTGCTTTTCAAGTCCTCTGTAATGCCTGACAGTCCTTGCCAACCAAAAATTCTTTTTTAAAAAAAATTGTGGTAAAATATTTGTAACACAAAA
Celera SNP ID:            hCV8932
SNP Position Genomic:     98549
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12712):
ACACATTGAAATATAAAACTCACAGTTCATATAAAATAATCACACAAGGAAGAAGAGAAAAAAATAAAATGGCATAACAATTTCATCAAACTACAAAGAC
A
AAAAAAAACAGAAAAAGAGGGAAACAATTTATAAAATAACTTGAAAACAATCAGCAATATGACAGGAACAAAGCCTCACATATCAATATTAACCTTGAAT
Celera SNP ID:            hCV27054314
SNP Position Genomic:     83079
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12713):
ACAGTTTGGTTGTATACATTTTAGGGAGACACGAGACATCAATCAACATATGTAAGGTGAACATTGGTTTGGTCTGGAAAGGCAGGACAAGCCAAAGCAG
R
GAGGGGTCTTCCAGGTCATAGGTAGATAAGAGACAAATGGTTACATTCTTTTGAGCTTCTGATTAGCCTCTCCAAAGGAGGCAATCAGGCATCCCTTTAT
Celera SNP ID:            hCV27054315
SNP Position Genomic:     83408
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12714):
AGTAATGGGGCGTAAAAAGATATTCCATGCAAATGGAAACCAAAGTTGAGCAAAAGTAGCCACACTTATATCAGATAAAACACTTTAAATCAAAAATAGT
A
AAAAAAAAAAAAAGACAAGATAATTATGTAATGATAAATTCAACAAAACGTTATAACAATTCTAAATATATATGAACTCAACATCAGAGCACCCAAATTC
Celera SNP ID:            hCV27054316
SNP Position Genomic:     83849
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12715):
TATGTATACACACACACATATACACATATATATACATATTTATAGGCGTTTATAGGATATATATCCTATTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
R
TATATATATATGGGAGTAATAGGATATATATCATTTTATATATATATAGGAGTTTATTAAGTATTAACTTACACATGATCACAAGGTCCCACAATAGGCT
Celera SNP ID:            hCV27054317
SNP Position Genomic:     87174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12716):
GAAATAATATGTTAATAAATTCTTTAAAAAACAAAACCAAAGGAAAAAAATTTTAAGTACAATTTTAAAACTGAACTATGGTCTGTGAGGCTCTTAGAAG
A
AAAAAACTCACTGGACTGATAGTGCTGTACTGTAGCACGTCTCAACTCCTAGACAGTTTAACCAAAAATACCAAAAATGATATGGCAGAATTTCAACGGA
Celera SNP ID:            hCV27054318
SNP Position Genomic:     93515
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12717):
TCTCTTATGTTGAGCCTTTGGGTTTGCCGTCAAGTATAGGATTGTTATTCAGGTCGTGTTAACTGAACTCTCATGATGGTGGGCTGGGGAGCAATCATGC
R
TCTTTGCATCAACTTTCCATCTTCTCTTTGCAGACGGTGCAGGTTGCTCTAGACAAAGCCAGAGAGGGTCGGACCTGCATTGTCATTGCCCATCGCTTGT
Celera SNP ID:            hCV303351
SNP Position Genomic:     113475
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): (G,3|A,8)      total(G,3|A,8)Gaucasian(A,25|G,33)   Ghinese(A,8|G,12)   Japanese(A,17|G,23)   African(G,15|A,45)    ;(G,-|A,-)   ;JBIG-allele(A,642|G,839)   total(G,839|A,642)   (G,-|A,-)   Caucasian(A,25|G,33)   Caucasian, from CEPH families(A,129|G,193)   African-American(G,15|A,45)   Asians(A,25|G,35)   total(G,276|A,224)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12718):
ACCAAAGGAAAAAAATTTTAAGTACAATTTTAAAACTGAACTATGGTCTGTGAGGCTCTTAGAAGAAAAAAACTCACTGGACTGATAGTGCTGTACTGTA
G
CACGTCTCAACTCCTAGACAGTTTAACCAAAAATACCAAAAATGATATGGCAGAATTTCAACGGATCATGGAATCCTTTCACTTAGGGGGAAATCCCTAT
Celera SNP ID:            hCV27054319
SNP Position Genomic:     93550
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12719):
ATGTCCACTCTGTGTGATGAAAATGTGCAATTTAGAAATCCAAATGCAGTACTACTTACCTCTGGGTACTGATTAAGGAAAACCTTACTGAAAACATCTC
R
ATGATAACTGTTGACACCACTTAATGTATTTTAAAAATTATTTTGTCTTATTTCATATATACTGGCCTACCTTACAGCTTTAGCCAGTTACTATATTATA
Celera SNP ID:            hCV16088991
SNP Position Genomic:     78686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,2|A,10)      total(A,10|-,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12720):
GAACTGTGAGTCAATTAAACCTCTTTTCTTCATAAATTACCCAGTGTCAGGAATAGCAGTGTGAGAACAGTTTAATAGAGATACCAATGAAAAAGAATTT
Y
TTGAAATGCCGGGTAAATAATTTAAAATATTGATTTTTAAAGATAGTAAAATGCAAGAGAAATCTGAAAACCAATACAAAGAAATCAGAAATCAATTCAG
Celera SNP ID:            hCV16088992
SNP Position Genomic:     82065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12721):
AGGCAACAACCTCAATATCAGATGAATGAAATTTTTTTCTCTCCTAAGGCAATTCCAGTCAATGCTTTGATAGTTTCTTTTTTAATGCTGTATATTCTAT
R
AAACTAATTAACTGGCAAATTACCTGAGTGAAAGTCATATTTTCTTTCATTTAGTAATAGAGAAAGATATAGGTCAAAATATTAATACAACTTTGAGTTT
Celera SNP ID:            hCV27498770
SNP Position Genomic:     91501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12722):
GTTAGAAAATTTTCATGGCAATTTTCTTATTGAGCCTTAATCAAAGTCATGTTGACTTATCCCCTTTCTAAATTATAAGCCTCTGAAAGTTAGTGATACA
Y
CTTATTTGTGTTTGAATCAACTTGGTTACCTAACCCAGTGCCTTGCACTTAGTAAGGCATCAGGAGATTTTAAAAATTAGAATGAAAACATGAATTTCTA
Celera SNP ID:            hCV27498771
SNP Position Genomic:     74001
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   JBIC-allele(T,697|C,796)   total(C,796|T,697)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12723):
AAATTTTTTTAAAAAATAGCTTGGCTTTGTGGTGTGCCCCTGTCATCCCAGCTACTTGAGAGGCTGAGATGGGAAGATCACTTGGGTCTGGGTGTTTGTG
R
CTGCAGTTGGCTGTGATTACATGGGTGACAGAATGAGACCCCATCTCAGAAAAACCAAAAGAGTCATGATCCCTATCTGTGTGAAGCTTAAGCCTAGTAA
Celera SNP ID:            hCV27498772
SNP Position Genomic:     25572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12724):
ACTTTTACAAAACCAGGTGTTTGGATTAAAGTGAAGAGAGCCAAATTGCCCTTCCAACATCTCTACCCACTTTCTGTGAAAATTTTTTAAAAAACCCTAA
Y
TTAAAATTATTTTTAAAAAGAAATAATATGTTAATAAATTCTTTAAAAAACAAAACCAAAGGAAAAAAATTTTAAGTACAATTTTAAAACTGAACTATGG
Celera SNP ID:            hCV8813604
SNP Position Genomic:     93395
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12725):
AATTCACAGCAGAGGGAGGAAGTGGGAGTGGTAAGATTAGCTTTGGGCTGGGAGTGGTCAGGTCAGCCTGGGCCTCTGAGAGCCACACGTTTCTTATTGC
R
TGGGAAGTTTAAAAAATGGGTGTGGATGTAGATGAATGGCAAGGAGAGGATGAGTAGGAAGTTGAATGAGTTGCTTTGTTTTTAGAGGAGGTGAGCATGG
Celera SNP ID:            hCV27498773
SNP Position Genomic:     21181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12726):
ATGATGAGGCTAGACTTTTACAAAACCAGGTGTTTGGATTAAAGTGAAGAGAGCCAAATTGCCCTTCCAACATCTCTACCCACTTTCTGTGAAAATTTTT
W
AAAAAACCCTAACTTAAAATTATTTTTAAAAAGAAATAATATGTTAATAAATTCTTTAAAAAACAAAACCAAAGGAAAAAAATTTTAAGTACAATTTTAA
Celera SNP ID:            hCV8813605
SNP Position Genomic:     93382
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,3)      total(A,3|T,3) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12727):
AGAATCTAGTAACTAAATTAAGTAGTCCTCCTACCTCTCCTGCTCTTCACCCATAGATGATCTCTGAACCCTTTGTTTTTCAAGTTTCGGTTTTCTTCAT
Y
AACTGACATTTGGCTGATGTTTGTGGGAAGTTTGTGTGCATTTCTCCATGGAATAGCCCAGCCAGGCGTGCTACTCATTTTTGGCACAATGACAGATGTT
Celera SNP ID:            hCV25634284
SNP Position Genomic:     23821
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12728):
CCACCCTACACGCATAACCTCCCCCATTATCAACATCTCCCACCAGAATGATACATTTCCTACAATTAATGAACATACATTGACACATCATTATCACAGA
K
CCACAGCTTACATTAGGGTTCACTCTTGGTGTTGTATATTTTATGAATTTGGACAGATATATAATGACATGGTAAGAAAAATTCATTTTAAACATGTAAA
Celera SNP ID:            hCV8813609
SNP Position Genomic:     92196
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|T,5)      total(G,4|T,5) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12729):
AGTAACTAAATTAAGTAGTCCTCCTACCTCTCCTGCTCTTCACCCATAGATGATCTCTGAACCCTTTGTTTTTCAAGTTTCGGTTTTCTTCATCAACTGA
Y
ATTTGGCTGATGTTTGTGGGAAGTTTGTGTGCATTTCTCCATGGAATAGCCCAGCCAGGCGTGCTACTCATTTTTGGCACAATGACAGATGTTTTTATTG
Celera SNP ID:            hCV25634285
SNP Position Genomic:     23828
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:12730):
CTGACATTTGGCTGATGTTTGTGGGAAGTTTGTGTGCATTTCTCCATGGAATAGCCCAGCCAGGCGTGCTACTCATTTTTGGCACAATGACAGATGTTTT
Y
ATTGACTACGACGTTGAGTTACAAGAACTCCAGATTCCAGGAAAAGCATGTGTGAATAACACCATTGTATGGACTAACAGTTCCCTCAACCAGAACATGA
Celera SNP ID:            hCV25634286
SNP Position Genomic:     23924
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:12731):
CAAAGGAAAAAAATTTTAAGTACAATTTTAAAACTGAACTATGGTCTGTGAGGCTCTTAGAAGAAAAAAACTCACTGGACTGATAGTGCTGTACTGTAGC
A
CGTCTCAACTCCTAGACAGTTTAACCAAAAATACCAAAAATGATATGGCAGAATTTCAACGGATCATGGAATCCTTTCACTTAGGGGGAAATCCCTATAA
Celera SNP ID:            hCV27054320
SNP Position Genomic:     93552
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12732):
AAAGGAAAAAAATTTTAAGTACAATTTTAAAACTGAACTATGGTCTGTGAGGCTCTTAGAAGAAAAAAACTCACTGGACTGATAGTGCTGTACTGTAGCA
C
GTCTCAACTCCTAGACAGTTTAACCAAAAATACCAAAAATGATATGGCAGAATTTCAACGGATCATGGAATCCTTTCACTTAGGGGGAAATCCCTATAAA
Celera SNP ID:            hCV27054321
SNP Position Genomic:     93553
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12733):
GTATATTTTGTTACAACATCGTAAAACATTTCTACAAACATTTTAAGCAGAAAACCTACCACTTTTTATGTTTTTTTTTCAAAGTCCTCTTTGCTCTTAA
K
CTACCAAATGTAGGCGTTCAATATTTTCAACATTTATTTGGATACCTATGATGTGCCTGTTACTGCATGAGTCCCTGTGGGAGAGTCTAAGGACCATGAA
Celera SNP ID:            hCV894387
SNP Position Genomic:     108886
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12734):
ATCCAATTACACTCTTAGTTATTTTTAAGTGTACAATTAAATTATTTATTATAGTCATTCTATTGTGCTATCAAATAGTATGTCTTATTAATTCTTTCTA
T
TTTTTTTTTGCACCCTTTGTTTTAATTCTTATAACTTGATACATTTTAGTATCTGGTAAGGCAAATCCCTGCACACTAATTTTTCCTCTTCGAAATTCTC
Celera SNP ID:            hCV27054322
SNP Position Genomic:     94800
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12735):
GTTATTTTTAAGTGTACAATTAAATTATTTATTATAGTCATTCTATTGTGCTATCAAATAGTATGTCTTATTAATTCTTTCTATTTTTTTTTTGCACCCT
Y
TGTTTTAATTCTTATAACTTGATACATTTTAGTATCTGGTAAGGCAAATCCCTGCACACTAATTTTTCCTCTTCGAAATTCTCTTATCTATTTCTGGATG
Celera SNP ID:            hCV27054323
SNP Position Genomic:     94817
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12736):
ACTGTGAAGTTTGCCTCATCAATTGACTCTTCCTCTCATGAAAGATTTATTTGTAGCATGTAATGCTGATTGATAGTATTTTACCCACAGTAGAATGTCT
Y
TCAAAATTGGATTGAGTTCTCTTAAACCCTGCTGCTACTTTTATTAACATAGCATTTTCACCAGGAGTGGATTTCATCTCAAGAAACCAGTTTGCTTATC
Celera SNP ID:            hCV27054324
SNP Position Genomic:     95662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12737):
TGCAGCAATTTAATGCAGCACATCTTCAGACTCCACTTCTAATTCTAGTTATCTTGCTATTTTCATGACATCTGCAGTTACTCCCTCTGAAGTCTTGAAC
Y
CTCAAAGTCATCTGTGAGGGTTGGAATCAACTTCTTTCAAGCACCTATTTATGTGGATATTCTGACCTCCTCCCATGAATCACAAATGTTCTTTCATAAA
Celera SNP ID:            hCV27054325
SNP Position Genomic:     95906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12738):
CATAAATATATATATACATATAAAGTGTATATCTATATATACACTGTAAGTTCTAGGGTACATGTTCTTAATGGCATCTAGAATGGTGAATCCTTTCCAG
R
GGGTTTTCAATTTACTTTGCCCAGTTCCCTCAGAGGAATAACTATGGCAGATGTAGCCTTGTAAAATGTTACTTCTTAAATAAAAAGACTTCAAAGTGAA
Celera SNP ID:            hCV27054326
SNP Position Genomic:     96101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12739):
GCTATTGCTGCCTCTTCAGTGAGCTGTCTATTCCACTTTTTTCTTTGTATTATAACGAAAATATTATTGTGTCCTTAAGTTCTCCAGACACTAAATATAG
R
AATAATAACAGGGCTTGAAATTAAGAGAGAGCAGTCCTAAGAAACTAAGAAAAATGAGTATTAGTAATTGCCATTTATTTATCACATATTATGTGTCAGA
Celera SNP ID:            hCV15784307
SNP Position Genomic:     64229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12740):
GAATGGTGAATCCTTTCCAGAGGGTTTTCAATTTACTTTGCCCAGTTCCCTCAGAGGAATAACTATGGCAGATGTAGCCTTGTAAAATGTTACTTCTTAA
R
TAAAAAGACTTCAAAGTGAAAATTACTCCCTGACCCATGGGCAGCAGAATTCATGTTGGGTTAACAAGCACAACAACATTCATCTCCTTGTACATCTCCG
Celera SNP ID:            hCV27054327
SNP Position Genomic:     96181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12741):
TCCAGACACTAAATATAGAAATAATAACAGGGCTTGAAATTAAGAGAGAGCAGTCCTAAGAAACTAAGAAAAATGAGTATTAGTAATTGCCATTTATTTA
Y
CACATATTATGTGTCAGATACTTTATTAAAATGATTACTTATTGTCACAATGACCCCCAAAGGTACATAGGCCCATTTGACAAACAAGGAAGCAGAGAGT
Celera SNP ID:            hCV15784308
SNP Position Genomic:     64311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12742):
CTTTCCAGAGGGTTTTCAATTTACTTTGCCCAGTTCCCTCAGAGGAATAACTATGGCAGATGTAGCCTTGTAAAATGTTACTTCTTAAATAAAAAGACTT
M
AAAGTGAAAATTACTCCCTGACCCATGGGCAGCAGAATTCATGTTGGGTTAACAAGCACAACAACATTCATCTCCTTGTACATCTCCGTCAGAGCACCTG
Celera SNP ID:            hCV27054328
SNP Position Genomic:     96193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12743):
CTCCCTGACCCATGGGCAGCAGAATTCATGTTGGGTTAACAAGCACAACAACATTCATCTCCTTGTACATCTCCGTCAGAGCACCTGGGTGACTAGGTGC
R
TTGTCAATGAGCACTAATATTTTTGAAAGCTGTATTTTTTCCTGAACAGTAGGTGTCAACAGTGGCTTAAAATATTCAAAAAACTGTGTTTTCAACAGAT
Celera SNP ID:            hCV27054329
SNP Position Genomic:     96307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12744):
GCTGATGTCATAATTTTTGTTTTACATTTCTTGAAAATTATTGCCTGAAAACTATGCATGAATGCTTCTAGGCAGGTCTTTCCGGGAGGAAATTCACTCA
R
AAATGGCATTAAAAATAGTTATTTAAGAACAATAATGCCTTATTTTTGGTGCTGTGAGCCTTCTTTCACACATGGGGAAAGTGAAGCTCTGTAGGGTAAA
Celera SNP ID:            hCV16045887
SNP Position Genomic:     41474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12745):
GCATTAAAAATAGTTATTTAAGAACAATAATGCCTTATTTTTGGTGCTGTGAGCCTTCTTTCACACATGGGGAAAGTGAAGCTCTGTAGGGTAAAGTCCA
R
AAGACATGGGCCTGCTTAAGTGTCAGAGCTGGATTCAAACCCAAATCTCAGGCTACCCTGCTGAAGGTTCTGTTTACCTCCACTTTTAGCAGCAGATGAC
Celera SNP ID:            hCV16045888
SNP Position Genomic:     41580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12746):
AGTTTCTTTTTTAATGCTGTATATTCTATAAAACTAATTAACTGGCAAATTACCTGAGTGAAAGTCATATTTTCTTTCATTTAGTAATAGAGAAAGATAT
M
GGTCAAAATATTAATACAACTTTGAGTTTTGTCCCAGACAACATTTCCAGATCTCGATTCCCTCCCTCCCTCCCTTCCTTCCCTTTTTCCTTCATAACTC
Celera SNP ID:            hCV8813610
SNP Position Genomic:     91572
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12747):
CCTTCTGGAGGCCAACTTGAGGATTTGCCTCATTGTCTCTTCCTTACCTTTATAAACAGTGCTGATAATAAAAACAGAGTGCTATTTGGTAGGAACATCT
R
GGCATGATCAGGTAGCCTTCCCCTAAGGTAATGAGATGACTGCATTGGTAAGTCAAAGAACAGCTGCCCCAAGTCTGCACAGGAACCTGACCACTCCACC
Celera SNP ID:            hCV27514159
SNP Position Genomic:     56497
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,276|G,1013)   total(G,1013|A,276)   (A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12748):
AATATCAGATGAATGAAATTTTTTTCTCTCCTAAGGCAATTCCAGTCAATGCTTTGATAGTTTCTTTTTTAATGCTGTATATTCTATAAAACTAATTAAC
Y
GGCAAATTACCTGAGTGAAAGTCATATTTTCTTTCATTTAGTAATAGAGAAAGATATAGGTCAAAATATTAATACAACTTTGAGTTTTGTCCCAGACAAC
Celera SNP ID:            hCV8813614
SNP Position Genomic:     91514
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12749):
GAATTAGTGAGACATCAGGGAGTAAGTGACACTTTGAACTCCTCAAGGACAGAGAACTGTCTTTCATTTTTGAACCCTCGGTGTACACAGAGGCGGGTCT
R
TAACAGGCAATCAACAAACGTTTCTTGAGCTAGACCAAGGTCAGATTTGAAAAGAACAGAAGGACTGAAGACCAGCTGTGTTTCTTAACTAAATTTGTCT
Celera SNP ID:            hCV8813542
SNP Position Genomic:     114129
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): (A,5|G,8)      total(G,8|A,5)Gaucasian(A,25|G,35)   Ghinese(A,8|G,12)   Japanese(A,15|G,23)   African(G,15|A,45)    ;(G,-|A,-)   ;(G,-|A,-)   (G,-|A,-)   Caucasian(A,25|G,35)   African American (pooled) - WICGR(G,32|A,68)   African-American(G,15|A,45)   Asians(A,23|G,35)   Asian (pooled) - WICGR(A,39|G,45)   Caucasian (pooled) - WICGR(A,36|G,60)   total(G,222|A,236)   (A,-|G,-)   JBIG-allele(A,643|G,842)   total(G,842|A,643)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:12750):
AGTTAGAGGCAACAACCTCAATATCAGATGAATGAAATTTTTTTCTCTCCTAAGGCAATTCCAGTCAATGCTTTGATAGTTTCTTTTTTAATGCTGTATA
K
TCTATAAAACTAATTAACTGGCAAATTACCTGAGTGAAAGTCATATTTTCTTTCATTTAGTAATAGAGAAAGATATAGGTCAAAATATTAATACAACTTT
Celera SNP ID:            hCV8813615
SNP Position Genomic:     91495
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12751):
AGCCACCACTCAGTGCTTCTCTGTGCAGGAGCCAGTCCTGATTAATATGTGGGAATTAGTGAGACATCAGGGAGTAAGTGACACTTTGAACTCCTCAAGG
R
CAGAGAACTGTCTTTCATTTTTGAACCCTCGGTGTACACAGAGGCGGGTCTGTAACAGGCAATCAACAAACGTTTCTTGAGCTAGACCAAGGTCAGATTT
Celera SNP ID:            hCV8813543
SNP Position Genomic:     114077
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:12752):
CCACCTATAGTTTTCCAGGCATTGTAACTAATGTTGGGCATAGAGTGGAGGACAAGAAAATCATTGTGTGTTTGTGTGTTGCTTGCACAAAGCTGACATT
N
TAGTAGGGAGAAGCTGGGGAAGTGCATTTCACTGGGCAATGATGTTAGTGTAGAAGGTGTAGGGAATAGGGTTGGATCAGAAAGAATCCAAGCCTGTGTC
Celera SNP ID:            hCV8813616
SNP Position Genomic:     88940
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|G,-|C,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12753):
GTCATTTTCCTACATCGGAATCCAAGCTAATTTCTAATGGCCTTCCATAATAATTCTGCTTTAGATGTGTATACAGAAAATGAAAGAAACTAGGGTCCAT
R
TGAGGGAAAACCCAATGTCAAGTGGCAGCTCAGCCACCACTCAGTGCTTCTCTGTGCAGGAGCCAGTCCTGATTAATATGTGGGAATTAGTGAGACATCA
Celera SNP ID:            hCV8813544
SNP Position Genomic:     113945
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,6|G,8)      total(G,8|A,6) ;no_pop(G,-|A,-)   ;(G,-|A,-)   JBIG-allele(A,71|G,1380)   total(G,1380|A,71)   (A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:12754):
ACTCCAGATTCCAGGAAAAGCATGTGTGAATAACACCATTGTATGGACTAACAGTTCCCTCAACCAGAACATGACAAATGGAACACGTTGTGGGTAGGTT
R
TTTTTGTTTTTAATTTTTTACTTTTTTGCTCATATCTTAAATTGTAATTCAAAATGTATAGAGGGGATTTTACTGGCTGAGCTGGAGTGGTATCTAACAC
Celera SNP ID:            hCV25634293
SNP Position Genomic:     24051
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,1|G,39)   total(A,3|G,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:12755):
TCTTTTATTCCCTCGACAGATCTGTATTGATTGTCTTCCCCAGACATGGTGCTGTGGACTGGGGAATGCATATCGGTTATGATGCTTTCCCTAGTGGAGT
N
TTCAGTCTGTGAGGAAGATAACATCAACAAAAAAAAACCCACTCATCATTCAACAGATATTTACCACCTATAGTTTTCCAGGCATTGTAACTAATGTTGG
Celera SNP ID:            hCV8813618
SNP Position Genomic:     88776
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(G,-|A,-)   no_pop(T,-|G,-|C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12756):
AACTGTCAACTTGTACAAGGTGATGGGGCCAGGACTAGGGCCCAGGTTTACCGAATCCTAGTCTATAGAATTTGCCAACATATCACATTGTCAGAGCTTA
K
TAAATGATAAAAGCTTACATTTTAGTTCCCTACTCCATTTCTTTCTCTCACATCACCTCTCCTGACCGTAAAAATGACCCCACAAGCATGAGTTGTACAG
Celera SNP ID:            hCV8813619
SNP Position Genomic:     88313
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(T,-|G,-)   ;(T,-|G,-)   TSC_42_A(G,36|T,47)   TSC_42_C(G,38|T,45)   TSC_42_AA(G,26|T,57)   total(G,100|T,149)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12757):
AATTATTTCATAGTCCTAGCATCTCTGCCTATAAAAATGAAGGGGATATGCATATTTTCTGTGATTGGTACCATGAGGTCTGTTTAGAAATTTGGTTGGA
Y
TTATTATAATTTTGCATAGATAAAATGTCTTACTCATGTCTAATAGAAATATACTATATATAGTATATTTATTATATATTATATATATATTTAAAATATA
Celera SNP ID:            hCV25634295
SNP Position Genomic:     40400
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,21)   caucasian(T,38)   total(C,1|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:12758):
CCTGGAGAAAATCTCATCAGAGGCCCTATTTCCTCATATCATTTGTAACCATGCTAAAGTGAACACATCAGGTATGAGAGAAAGATATCAAGACCACAAT
Y
TAAGCCAGAAGGAAAGTAAAGGAAATAGACTGTTGCCAAGGCAGCAATTAGCAGAACCATGTGGGTTTGGAAAGTATTTGAGCCTTAGGTGGTTTTTTGA
Celera SNP ID:            hCV15847019
SNP Position Genomic:     72618
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12759):
TATTCTATTTATAGAACATAGGCAGAGGAGATTTAGCATGCCTCTTAGGGGCCTAGAATTTTTGGAATGGTAAGCTTCAACTTAAAGTCATCAGCTGCAT
Y
ATCCCCTAACAAGAGAGTCAGCCTATTTTTCGTAAGTTTGAAGTCAGGCATTGACTTCTCCTCTCTAGATATGAAAGTCCTAGATGGCATCTTCCTCCAA
Celera SNP ID:            hCV27054330
SNP Position Genomic:     96529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12760):
TCTCAAATCAAGGAGGATCTCATATATGGGCTCTTATGTGGACACAGGGAGAAGGAGATTGAAAATATAAACCTAAAAGAAATGCAGAAATGAGGAATAA
W
GTCCCCTTGCTTCCCACATCAAATGTCACAAATTCCATATTTTTCTTATATTCCTAAGTGGATTTGACATCCTCCATCCTATAGGAGGACTCACTCACTG
Celera SNP ID:            hCV306852
SNP Position Genomic:     112311
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12761):
AGCCACCTTTATCAATGACCTTAGCTAGATCTTCTGGAGAACTTGTGGCAGCTTCTACATTAGCACTGCTGCTTCACCTTGCACTTTTACATTGTGGAGA
Y
GCTTTTTTCCTTAAACCTCATAAAGCAACTTTTCTCCCAAAGCTTCCTCACTTCTCTCAGCCTTACTAGAATTGAAGAGAGTTAGGGCCTTGTTCTGAAT
Celera SNP ID:            hCV27054331
SNP Position Genomic:     96773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12762):
GACTCTCTGTGATTTATTCTCAAGAGATAAAAATCTACTTACTCTCACCACTCCCTCCTTTTGCCTACCTCCTCCCAATATAGTTATATCATTTTTTAGG
Y
CTTCTATTTATAAATTTGTAAACTTCTGATCTGCTTCCGTTGCTCTTCCACCACCTGTAGATAGTTCCTCTTGAATTCTCACTTTCTAAAAGAAAAATGT
Celera SNP ID:            hCV1836458
SNP Position Genomic:     107554
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12763):
TGTGGCAGCTTCTACATTAGCACTGCTGCTTCACCTTGCACTTTTACATTGTGGAGATGCTTTTTTCCTTAAACCTCATAAAGCAACTTTTCTCCCAAAG
Y
TTCCTCACTTCTCTCAGCCTTACTAGAATTGAAGAGAGTTAGGGCCTTGTTCTGAATTAGGTTTGGCTTAAGGCAATGTTGTAGCAGGTTTGATCTTGTC
Celera SNP ID:            hCV27054332
SNP Position Genomic:     96816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12764):
GACCTCAGGTAACTTTCTTTCTAGGTCGTTTTAAGTGTAACATTATTTTTAGTCTTTAGGAGAACAAAGCTATAGGGTTTGGACAGTTACTGGCTTCTGT
R
ATGTCATATCTTCCAGCTATTCTCTTCTATTCAGAATGTCAGGAATAGATGGCAAGAAAATCCCCTTATGTTAGACTGGGAATAGGGGGAGTCAAATGTC
Celera SNP ID:            hCV1836459
SNP Position Genomic:     106155
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   JBIG-allele(G,648|A,849)   total(G,648|A,849)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12765):
CACTTCACTTTCTTATTATTTGTGTGTTCACTAGAATAGCACTTTTAATTTCCTTCAAGAACTTTTTTTTTCTGCATTCACAGCTTGACTATTTATTTAG
Y
CCTATCTCAGGACTAAATGAGGCTAAAATGAGGCCTAACTTTTAGCCTATCTCAGCCTTCAACACACCTTCCTCACTGAGCTTAGTCATTTCTAGCTTTT
Celera SNP ID:            hCV27054333
SNP Position Genomic:     97061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12766):
CCCTCCTATTGTGTAAGAATGTGTGTTCAAGGATATTTATCATTTTTTATATTAACCAAAAAATTAATAAAATTCCCTGGAAACTACCCAAATATCCATC
A
CAAACAGAAAAAGAGTTGAATCAATTATGATACATTTATACTAAGGAATATTGCACAGCTATTTTTTAAAGTGTTCCTATATATTGATCTGGAAGGATAG
Celera SNP ID:            hCV27054334
SNP Position Genomic:     98234
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12767):
CCTCCTATTGTGTAAGAATGTGTGTTCAAGGATATTTATCATTTTTTATATTAACCAAAAAATTAATAAAATTCCCTGGAAACTACCCAAATATCCATCA
C
AAACAGAAAAAGAGTTGAATCAATTATGATACATTTATACTAAGGAATATTGCACAGCTATTTTTTAAAGTGTTCCTATATATTGATCTGGAAGGATAGT
Celera SNP ID:            hCV27054335
SNP Position Genomic:     98235
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12768):
CTCCTATTGTGTAAGAATGTGTGTTCAAGGATATTTATCATTTTTTATATTAACCAAAAAATTAATAAAATTCCCTGGAAACTACCCAAATATCCATCAC
A
AACAGAAAAAGAGTTGAATCAATTATGATACATTTATACTAAGGAATATTGCACAGCTATTTTTTAAAGTGTTCCTATATATTGATCTGGAAGGATAGTT
Celera SNP ID:            hCV27054336
SNP Position Genomic:     98236
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12769):
ATTAGAAAACACAAACCATTGGCTTATTTTTATTTAGTTTATATTAAGGTTTTAGAATAATTTTAGAATAATTTAGAATAATTTTAGAATAATTTAGAAT
A
TTTTTTTGCCAACATGTAAAAATCTGGGGCTACAGGCTGGGTGCGGTGGCTCATGCCTGTAATCTCAGCACCTCAGGCCGAGGCGGGTGGATCACTTGAG
Celera SNP ID:            hCV27054337
SNP Position Genomic:     103242
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12770):
GTGAGTACGAAGTCAGAGCCATTCCCTATGAGAGACAAGGATGGGGAGAAGTAGAATGACCAGAGTGTACAGGTTGAGCATCCCTAATCTGAAAATCCCA
M
ATCCAAAATGTTCCAAAATTCAAAAATTTTTGAATGCCAACATGATTCCACAGGTGGAAAATTTCACACTTGACCTCATGTGATGGGTCACAGTCAAAAT
Celera SNP ID:            hCV27054338
SNP Position Genomic:     110276
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12771):
AGTGTTCTATCTGCTTCCTTTACCGCCTCCTAAGTGTGGGACCTCAATACTTTCTTCACTGTCAGCATCATCATCACCAACATCATTACTACCATTGAAG
W
GACTAGCACTGGATTAATCATCTTTACACACATTATCTCATTTGATCCTGTAATAATCCTATGAAATATATGCTATCATTATCCCTGTGTTGCAGATGAA
Celera SNP ID:            hCV27514160
SNP Position Genomic:     55785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12772):
TGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATG
R
CGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAAAAAAAAAAAAAAAGAAAAAGAAAAAG
Celera SNP ID:            hCV27054339
SNP Position Genomic:     115380
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:12773):
GGGAGAAAGGTGTTACTTCTTCTTGGGGGATTATACAAGATTGATGCACGAGAAGGTATGTGACTAGAACCTTGAGGCTGAAAGGATTCAGCAGGCATGA
R
GAAAGAAAAGCTTTGCAAGACAGAGCAAGGATATTAGCTATGTAAAAGAAAAAGACAAATAAGATGGTTTCCAAAAGCCTTTATCAACACTGAGTACCAG
Celera SNP ID:            hCV27520725
SNP Position Genomic:     43107
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,367|A,1130)   total(G,367|A,1130) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12774):
ATAATGCCTTATTTTTGGTGCTGTGAGCCTTCTTTCACACATGGGGAAAGTGAAGCTCTGTAGGGTAAAGTCCAGAAGACATGGGCCTGCTTAAGTGTCA
R
AGCTGGATTCAAACCCAAATCTCAGGCTACCCTGCTGAAGGTTCTGTTTACCTCCACTTTTAGCAGCAGATGACAGAGCTCACATCTTAGTTCCCAAGAA
Celera SNP ID:            hCV16045895
SNP Position Genomic:     41606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12775):
AGGAAACTCTGAGTAGACTGCCAGGTCTTGTCAAATATGAACATGCAAGTGATCCTTGGTTGCTATATTGACATTTCTCTCCCCAATTCATGGGTTTTTG
K
TTAGCTTCTCATCTTCTTGGGGATAAGGGTTACAATGGAGATGCTTTATGGTTAAAATTGTTGTGTATTGAGCTTAGAAAGGGGACTTCTTTTAAAAAAA
Celera SNP ID:            hCV1174879
SNP Position Genomic:     69083
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,4)      total(G,4|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12776):
TTGCTTTATATTCACTGAGAGCTGATTAAATTGTGCCCACCAGATTAAGGGTGGGTCTGCCTTCCCCATACTGCTGACTCAAATGTTAATCTCCTTTGTC
R
ACACCCTCACAGACTCACCCAGGGGATCAATACTTTGTATTCTTCAATCAAGTTGTCACTCAGTATTAGCCATCATATGGGCATATACAAAGGGAAAGAA
Celera SNP ID:            hCV8813620
SNP Position Genomic:     87526
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12777):
TGCTCGTTTACATTTTTTTCTTCTTGCTTTATATTCACTGAGAGCTGATTAAATTGTGCCCACCAGATTAAGGGTGGGTCTGCCTTCCCCATACTGCTGA
Y
TCAAATGTTAATCTCCTTTGTCAACACCCTCACAGACTCACCCAGGGGATCAATACTTTGTATTCTTCAATCAAGTTGTCACTCAGTATTAGCCATCATA
Celera SNP ID:            hCV8813625
SNP Position Genomic:     87503
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12778):
ACATATTTTAAAAAATCATCAATAACAACCTCCCAAGTCTGTCAAGACTGTTAGACAACCAGTTCAGAAGTCCAGTGATTCCCCAGGCAAACACATTACA
R
AAAGGAATTCACCATTATATATTATGTTCAGAATGTCTAAAGTCAAAGTAAAAGAAAGAATTTTTAAATTAGCAAGAGTAAAGCATCTACTCATCTATAA
Celera SNP ID:            hCV8813627
SNP Position Genomic:     82601
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12779):
TTCTACAATTTTAAAAAGAAGTGATGTAATTGTCCTCACCCAAGTATTTTCTACAGAGTGTGCCAAGCTTTGGTCGTACCTGCCTAGCTGCAACTGAAAC
R
ACGATTTGGAACCATTGGATACTCTGATTAGTATAGATATAATTACCACAGTGGTCCATTCTCCATCTATATTGGGACTGAATCCATTTTGTCCATCTGC
Celera SNP ID:            hCV276210
SNP Position Genomic:     99405
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12780):
CCGCTCAAACATTGGAATTGTTTCCCAGGAACCAGTGTTGTTTGCCTGTAGCATAATGGACAATATCAAGTATGGAGACAACACCAAAGAAATTCCCATG
R
AAAGAGTCATAGCAGCTGCAAAACAGGCTCAGCTGCATGATTTTGTCATGTCACTCCCAGAGGTGAGTACGAAGTCAGAGCCATTCCCTATGAGAGACAA
Celera SNP ID:            hCV8813563
SNP Position Genomic:     110113
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   ;(G,-|A,-)   African American (pooled) - WICGR(A,3|G,97)   Asian (pooled) - WICGR(G,84)   Caucasian (pooled) - WICGR(A,1|G,95)   total(G,276|A,4)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12781):
CACATACATACACAGTAGGATTGCTATTGTGGGGATACTAAATTTTCCTGAGAGACATACAAACAAGACTCTAGTTTTTAGCAAGATTCATAGTTATATT
W
ATATGTCCCACTATCTTGCTCACTTTTTCTCATGTATTTTTTCCACTATTTTGAATGAGATCTTTTTCTCAATTATATCTGTAAATGAGTTGAGATGAAA
Celera SNP ID:            hCV15942609
SNP Position Genomic:     95096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12782):
TTTTGCTGTGTTGTCTAACAGGAGCAAAGAGACACGGATTTGCTCTGTGCTTTAATCCTCTGAGATAGATATTTAGGACCGTGACCAATTTTTATTTTGG
Y
TGAAAAATCTTATTTGAAGTTGAGCTAAAGAGGAATATTTACACAGCCCAGTAAACCCTGGAATAAAAGCATAAATCAATTCCTTTATTTCACACATAAA
Celera SNP ID:            hCV15858102
SNP Position Genomic:     66826
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12783):
TAGCTTTGGGACAATTATCCTTTCTGAGATTGTCTATTTCATCTGCAAAATGCAAGAAAATAACGTTAAAATGAAGAAAACACACTTAATAGCCACACAA
W
GAAAGCGGCCGCTGGTATTACTGCCATCATCATTATTTCATTACTTGGCAATGTGTACCGTGGGTGGTGGGTAAGTTACACCTGCCTTACTGTCTCTTAC
Celera SNP ID:            hCV1836110
SNP Position Genomic:     110961
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12784):
CAATTATCCTTTCTGAGATTGTCTATTTCATCTGCAAAATGCAAGAAAATAACGTTAAAATGAAGAAAACACACTTAATAGCCACACAATGAAAGCGGCC
R
CTGGTATTACTGCCATCATCATTATTTCATTACTTGGCAATGTGTACCGTGGGTGGTGGGTAAGTTACACCTGCCTTACTGTCTCTTACTTTGCCAAACC
Celera SNP ID:            hCV1836111
SNP Position Genomic:     110972
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12785):
TTTATAAATTTTGTGGGTTTGTGGAAGGCTTTTTGTTTGCTCTTTTCACAAAGTCTCCTAAGTTTTAGGCTCTTGGCCCAGTTCTTACCTGTTAGCCCAA
W
CTATAAGCACATGGAAATTACTATTTGCTGAATCCAGAGATCAAAAGCAAAGATTGTGTGTCTCCTGGAAGATTCATTTATCCCACAAACCCTTATTGAA
Celera SNP ID:            hCV1836112
SNP Position Genomic:     111360
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,6)      total(A,6|T,3) ;no_pop(T,-|A,-)   ;JBIC-allele(A,616|T,873)   total(A,616|T,873)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12786):
ATGGAAAAGGGTTAATAAAATTTGACTTATGAAATTTCTAATCTCAAGTAACATTATATGGTAAAATGTTGCTCTGTTTTGGTATTTTAAAGTATTTTAA
Y
ACTTAACTAAATTCCACAAGCCCAAGCATTGGTGAAATCCTTTCTTTTTCTCATGTTGATGGAAAAGGCCTAACCTTACTTTCTGTAGATTGGGAAATAC
Celera SNP ID:            hCV28037258
SNP Position Genomic:     75343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12787):
CATAATAATTCTGCTTTAGATGTGTATACAGAAAATGAAAGAAACTAGGGTCCATGTGAGGGAAAACCCAATGTCAAGTGGCAGCTCAGCCACCACTCAG
K
GCTTCTCTGTGCAGGAGCCAGTCCTGATTAATATGTGGGAATTAGTGAGACATCAGGGAGTAAGTGACACTTTGAACTCCTCAAGGACAGAGAACTGTCT
Celera SNP ID:            hCV27509145
SNP Position Genomic:     113990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:12788):
AGAGTATAACATTATGAAGAGAAATGCTAAGAAAATTTTGAAAAAGGCAACTAAAGATTTCCTTGTATAAAGCAAAGCAAGGAAACAAGCAAACAGAAAT
K
GACAGAATCCAGGAAGTTATAAAAATAAGGACTAAGTATTGATTGCCTATAATTTATAATCCCTTCTGTTATTAAGTTGAGGTATAAAGATTGTAAATTT
Celera SNP ID:            hCV8813571
SNP Position Genomic:     108392
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12789):
GCGTTATATAGATGGTAAAGGAAACAACTGAAGCTCAGGAAGCTAAGCTATCTGATCAAGTTACAGCACTAAAACCAAGGCTTCTAACTTTCAATTCCAT
C
CCCCCCTTTTTTTTTTTTTTTTAACCCTGCGCAAATAGAAGAGGCTTCCTAGAGTGTGTTCCGCACGCAGTAGAAGCTTCATGCTTATTGGCTGAGTGAA
Celera SNP ID:            hCV11172611
SNP Position Genomic:     68176
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12790):
CAAACTTCTGCCTTCAGGTCATCACACCAACCACGCCACCCTGCTCTCTTCCTGTGTGTCTGTCTGGTTACAGGGTGATCTCTGCAGTTGTACTGAGTGC
R
ACAGCTCTTGGAAGAGCCTTCTCTTACACCCCAAGTTATGCAAAAGCTAAAATATCAGCTGCACGCTTTTTTCAACTGCTGGACCGACAACCCCCAATCA
Celera SNP ID:            hCV8813572
SNP Position Genomic:     104825
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:12791):
TACAACAAGGAAACTCTGAGTAGACTGCCAGGTCTTGTCAAATATGAACATGCAAGTGATCCTTGGTTGCTATATTGACATTTCTCTCCCCAATTCATGG
K
TTTTTGGTTAGCTTCTCATCTTCTTGGGGATAAGGGTTACAATGGAGATGCTTTATGGTTAAAATTGTTGTGTATTGAGCTTAGAAAGGGGACTTCTTTT
Celera SNP ID:            hCV11172612
SNP Position Genomic:     69076
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12792):
ACAACAAGGAAACTCTGAGTAGACTGCCAGGTCTTGTCAAATATGAACATGCAAGTGATCCTTGGTTGCTATATTGACATTTCTCTCCCCAATTCATGGG
T
TTTTGGTTAGCTTCTCATCTTCTTGGGGATAAGGGTTACAATGGAGATGCTTTATGGTTAAAATTGTTGTGTATTGAGCTTAGAAAGGGGACTTCTTTTA
Celera SNP ID:            hCV11172613
SNP Position Genomic:     69077
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12793):
TTAAGACCTAATGAAAACTCTAAGTTTTACACAATATTTTTAATGCAGATTAGTTAATTGATTATTTTTAAGAATACAAGGTAATGAAAACTGGACTTCG
S
AGGGTTAATTGTCTTAGACAAACTATTCTAACAAACACAGAATGTGTGAATTCTAGATATTTAGCAGATTATTTGCTCATATGTAGAAATCCTTTTATAA
Celera SNP ID:            hCV11172614
SNP Position Genomic:     73346
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12794):
TTTATAGTATTTCTCAATGCCCCACACAGTTTATCTACTTGGCAATGGCATCAATGACAGTGATTATTTTCCCCTAAGTTGTAGATGAGTAGCTAAAAAC
K
AAAGTCAGCTCCTGAAATAAACAGAATGAATTCAGAGAGCAGGAAATTTATAACATGATCTAACAATGTAAGAGTCTAATGTTTTAGATAATTGATGTAC
Celera SNP ID:            hCV15872987
SNP Position Genomic:     23530
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,471|G,1010)   total(G,1010|T,471)   (G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12795):
ATGCTAAATGTCATGTGGCAATAACTTGCACAATAATCTCATGACAGCTACTCATAATTTTCTTGTGCTTAGGCAGCTAATATTGTGTCAAAAACAATTC
R
TTGTATATCTCCATTCTAAGCAACAACAACTACAAAAACCAACTCCTCAGCATTATACTTCAATGGATTTTGCCACCGATGGCCTGCTAAGTCAAAGAAG
Celera SNP ID:            hCV15872988
SNP Position Genomic:     65906
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,241|G,1022)   total(G,1022|A,241) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12796):
CAGGTGTATCAGGATCTGAGAGACTCCAAATTTCGTGGGCAAGACACTACACCACTGTCCTCTAAATACTACGAGGTATTTGCACACCAGTGGAAAGAAA
Y
CTTTTTAAATGGAGAGCTAAGCCAAGGGAAAAAATAAATGGAGACTAAATTTTTTTAATATTGTATTTTAAAATTAGGAAATGCAATAACACATCTGTGG
Celera SNP ID:            hCV27054292
SNP Position Genomic:     12134
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12797):
TACATGGTGGTCTTTCTCTACCTGCCCTGGTAGCCAAAGACAAAGGCCCAATTCTCTTGGGAACTCTGTGGCCCTGCCCACTGCTTGGGAAACCTGAATA
S
ATAACCAGGTGTCCTGAGGGCAACTTTGCATTCTCCCTATAGGACCATAGCTGATGCACTCTTGAAAGTGCCACCTCCTAGCTAGAGGCCAACCAACATA
Celera SNP ID:            hCV27054294
SNP Position Genomic:     32098
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12798):
ATATAGTCTTTTCCAGACAAACAAATGCTGAGGGAACTTGCCACTACCAAGCAAATCAGGGAAATGCAAATCAAAACCACAGTGTGTTATCATCTCACTC
Y
TGCAAGAATGGCTATAATCAAAAAATCAAAAAAGAATAGATGTTGGCATGAATGTGGTGAAAAGGGAACACTTTTACACCATTGGTGGGAATGTAAACTA
Celera SNP ID:            hCV27054295
SNP Position Genomic:     33523
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12799):
CTATAGATAAATCAAAATTGAATTCTAAAAAAATGTTCAAGCAGCCCATAGGAAGGTAAGAGAAAGCAAACACAGAAATAACAGAGAGAACAAATAGAAA
M
CAAGAAAGAAAATGACATATTTAAGCCCTAATATATCAAAATATAAGCAAGATTTTTTGTAGATATAGAAAAGATTACCCTAAAATGTTTATGAAAATGT
Celera SNP ID:            hCV27054296
SNP Position Genomic:     36450
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,7)   total(A,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12800):
AAATAATGACATTAATTATCTAATTGTAGTTGTTTTAATTTAGTTCATGGTGATCTAAAAGAAACCCTTCCTTATTCACATTTAAGAGGCAGTTTATAAA
K
TCAAGAAATGTGTTGTTAACATGGTGACTATGGTTAATAACATCACATTGCATACTTGAAAATTGCTAAGAATAGATTTTTAAGTGTTCTCATCACACAC
Celera SNP ID:            hCV27054297
SNP Position Genomic:     49216
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12801):
AGCTATATATGAGACAAAGCCCATTGTTAATGGCTAGATCATGGAATTACTGAAACCTATTCCTTGCATTGGACTTCCACATAGTTTCAGTTATCCATGT
Y
TCATGGCTGTGAACCTGACCAGTGTGTCACAACACAGCGTCTCAGCCACAGGGCAGATGGGTGAGTTATAGATGAGTTGGTGCAAACACTAGTTCCAAGC
Celera SNP ID:            hCV27054298
SNP Position Genomic:     50513
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12802):
ATGTGTCGAGGGACAGACCTGGTGGGAAGTCATTGGATCACAGGAGCATTTTCCCCCATGCTGTTCTTGTGATAGTGAGGGAGTTCTCATGAGATCTGAC
R
GTTTTAAAGTGGCAGTTTCCCCTATGCGCTCTCTCCTGCCACCATGTAAGACATGCTTTGCTTCCCCTTTGCCTTCAACCATGGTTGTAAGTTTCCTGAG
Celera SNP ID:            hCV27054299
SNP Position Genomic:     59515
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12803):
AGTAGAAATTGGCAATACTTTGTGGAACCAAAAGACAATTATCTAGAGCAAGTGATTTAATATAAGATTGCTTCAAAAAAAATATTTTACCTTTAAAATA
R
GAATTGTTTTTAAGATTCTTTAGGCTAAGTGACATTTTTTTCCAAAGGCAAATAATCACCTTTCTTGAATAAAGTGAAATAATCTAGATTATCTGTTATA
Celera SNP ID:            hCV7822
SNP Position Genomic:     112880
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12804):
AAAAAATATTTTACCTTTAAAATAGGAATTGTTTTTAAGATTCTTTAGGCTAAGTGACATTTTTTTCCAAAGGCAAATAATCACCTTTCTTGAATAAAGT
R
AAATAATCTAGATTATCTGTTATATTTTATAGTTCTAAAGTTATGTGACAGAGAAGGTAGGCCACACGCAACACAAAGAAAGAGGTGATATCTGATGTGT
Celera SNP ID:            hCV7823
SNP Position Genomic:     112956
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   JBIC-allele(A,627|G,820)   total(G,820|A,627)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12805):
CAAAGGCAAATAATCACCTTTCTTGAATAAAGTGAAATAATCTAGATTATCTGTTATATTTTATAGTTCTAAAGTTATGTGACAGAGAAGGTAGGCCACA
Y
GCAACACAAAGAAAGAGGTGATATCTGATGTGTGGTTTGCATGAAAGAAGATGCAATTGAGCAAAACACAATTATGAAATTTAAAATGTATAATTAATGC
Celera SNP ID:            hCV7824
SNP Position Genomic:     113023
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12806):
TATATGTATACACACACACATATACACATATATATACATATTTATAGGCGTTTATAGGATATATATCCTATTTTGTGTGTGTGTGTGTGTGTGTGTGTGT
R
TATATATATATATGGGAGTAATAGGATATATATCATTTTATATATATATAGGAGTTTATTAAGTATTAACTTACACATGATCACAAGGTCCCACAATAGG
Celera SNP ID:            hCV11172622
SNP Position Genomic:     87172
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12807):
TTCGTATAGCCAAAGCCTGCTTTTCTAATAAGATTAGCTTTTAGTCCAATTTCTCACATTTCCAGAGGTGAAAGCCTAAGGGTGTCAGGGTACTGGGGAA
Y
GAGGTACACATGTATATGGGCGAGTCGGGGGGTAAGGGTGGAGATGGTCTGAGAAAGGTTTGGAGGGCATTAGGAAAAGTGGTCCTATAGGAATCGGTTC
Celera SNP ID:            hCV8813582
SNP Position Genomic:     102901
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12808):
TGTAAGGCGTAATTTGTCTGCTTCACTTTCCCTGTGTCCATTTGACTTGGAAAATGTGCCAATGTTCCAAGCACAGCACTTGGGATGTAGCATGCTGGGG
A
AAAAAAAAAATGGATGTGAGAGTCGCCAGCTCTGGATTTGTAGTAGGTCTCTACTCTGTACTATCTGTATATATTTAGGTGAGTGATTTATCCTTGATAA
Celera SNP ID:            hCV11172625
SNP Position Genomic:     89955
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12809):
ATGAAAAAGTTTGAATATTTTGAGAATTACTAAAATGTGATGCAGAAACATAAAATGAACACATACCATTGGAAAAATGGCACCAATAGAATTGCTCTGC
R
TATACAGGGTTGCCACAAACCTTCCATTAGTAAAAATCACAATATCTGCTAAGCAAAAAATGCAAAAAAGATCATTTTGTCTTTTCTTTTCTTTTTTTAT
Celera SNP ID:            hCV11172628
SNP Position Genomic:     97545
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12810):
AAAAAGTTTGAATATTTTGAGAATTACTAAAATGTGATGCAGAAACATAAAATGAACACATACCATTGGAAAAATGGCACCAATAGAATTGCTCTGCATA
Y
ACAGGGTTGCCACAAACCTTCCATTAGTAAAAATCACAATATCTGCTAAGCAAAAAATGCAAAAAAGATCATTTTGTCTTTTCTTTTCTTTTTTTATATT
Celera SNP ID:            hCV11172629
SNP Position Genomic:     97548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12811):
ACAGTGGTCCATTCTCCATCTATATTGGGACTGAATCCATTTTGTCCATCTGCATTGACTAAATAGCTGTGTATTACAGCAGCATGTAACTTTGTACCAA
Y
GAGCAGGCTAACTTCAATGAGAATCAAAGTGGTATCTTATAATAGTCTTGTATCAACTTCAAAAATATAATTATAGAGCAAGCATTAATCTTCATTGAAT
Celera SNP ID:            hCV8813589
SNP Position Genomic:     99553
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12812):
GCTAGGTGGGAGGGAGTCTCTGGAGGTGTCCCAGAAGTTTGGTGGCAGGGAGTAGCGTTGAGGAGTGGTTTAATGCCTGGTCATAATGAGTCTTGGCAAG
R
GTCTGAATGTGCAAGAGCAAGGAAGAGGGAGGGCTTGAGGAAACTGCATGGTGTTGAACCTGGGTGACTAAGAGGATGGAAGTGCCATTAACAGAAAATG
Celera SNP ID:            hCV27481722
SNP Position Genomic:     71327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:12813):
GTCTCAAAATTATTCTTGTCAGCATCTCCTTGATGCCTTGAGATGGAATCGTTTAACTATTTAATGGCTTCAACAAAATGAGTTCTCTATCATGCATATA
R
TATTACACAGGCATGGCAAACATAACAGAGTTTTCCTTTTTCACAGACATCTCATCTCTGATTGGGTATTCTTTACTACCTACCACCATAACTGCACTCT
Celera SNP ID:            hCV27481723
SNP Position Genomic:     64614
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,403|A,1088)   total(G,403|A,1088) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12814):
ACAAATGGGAAGGGTCTGGCCTATAGAAACCATCACAGACCAGGATCATTTGATCACCTGAAAAAGACTACATTCATGCAGGGCCACTCTTTGGCTTGGC
R
ATAGACTGTGGCCAATGAAACATCCTCTATGCGAGTCACAAGAGTAGGACCATTCTTTGGTTGACAGGGTAGAGAGGAGGAGACTGGTATTCCTTCTGGA
Celera SNP ID:            hCV27481724
SNP Position Genomic:     56305
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(G,329|A,1150)   total(G,329|A,1150)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12815):
TAATCTTTACAACAATCTTATAAAGTGAGCACTAACATCATTTTAAATATAAGAAACTAGGCTCAGAAAGGTAAGGGGATTTGTCTGGGACTGCACAGCT
R
GCAGAGTAGGATTCAAGTCTAAGGGGCTCTGACTCCAAACCCCACTCACTCTCCAATATGCCTATTGTTCTCCATGTCCTCCCAAGCTTGGGCACTTCCC
Celera SNP ID:            hCV27481725
SNP Position Genomic:     43984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12816):
CAAAATCTTAATGGGGTTTAGCAATGGAAGGAAATGAAGGATTTAAAGGACTGCATGGCTCAAGTGAGGTTGACAAATAGGTGTGGAAGGAGGAAGGAAG
Y
GAGAAAATGAGGTACATGGGCAGTCACAGAGTGCCAAGGAGTTAAACATGTCAGACAGTAGTTCCTGGTGACAGCAAGGTCCAGGGTGTATTCATGGACT
Celera SNP ID:            hCV15784284
SNP Position Genomic:     22282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12817):
AAGGAGTTAAACATGTCAGACAGTAGTTCCTGGTGACAGCAAGGTCCAGGGTGTATTCATGGACTGCGTGACTCAGGTTAAGTCAAGATCCCCGAAGTTG
W
AGAGGTCAAATACAGGTTAAACATGGCCTTATGGGAAATGAAATGAATGGGAAATATTAAGGAAATATGATTCTATGAAAAGTGTGGGCATGTTCTTGAA
Celera SNP ID:            hCV15784285
SNP Position Genomic:     22418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,6)      total(A,6|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12818):
AAGGTGTAGCATACATTGAGACTGTCCTGGCATGCATAGTTAACTTAATGATTTGTTACTGAATTGATGGGACACGCTTCCTACATGGTAACAGTGTTCA
R
TGAATAACCAGTCAATTCCATTCACTGTATAATGTAACTGAATGTGCAGATACAGTCAGATGTGGCATAGCAACATTTCAGTCAGTGATTGATTTCATAT
Celera SNP ID:            hCV15784286
SNP Position Genomic:     63774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12819):
GACAACCCAATAATTTTAGCAACAAAAGCATGTGTGTGTAATGACAGGAGCTGGTTTTACTATTTTATTATATTGGTTTCCACATGTCAATTGTAATCTA
K
TAGATGGAATTTTTAAGTTAAAGCCTTCCAGATGGCTGTCAGTGAATTACACTGATAAGGATTACAGAGTGTCAGGTCTCTTGATTAGCTTATCAGAATT
Celera SNP ID:            hCV27521565
SNP Position Genomic:     26876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12820):
CAGTGACCCAACATCGCGCCACTGCCCTCCAGCCTGGGCAACAGAGCAAGACCTTGTCTCAAAAAAAAACAAAACCAAAAAACCAAAAAACAAAACAAAA
M
ACACACACACACAAAAGAACTATAATGACATAGGACCTCTTGACAATGAAACTAAAATTCATAAAGATTTGCCTTCAAAATTCTAAGGGGAATCATTCTA
Celera SNP ID:            hCV1836139
SNP Position Genomic:     117481
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:12821):
ACACAGTCACTATGCTACTGTTTTCTTTGTGATAAGCCTGACAGGCCACCTTGTAATCAGTGAGTCTGTCGTGTACTCAGGGCTGACTCACTGTCATAGC
R
TGGCCTTTGCAGTGTGCCTCATGCTGGCTCAAGTTCAGAACAGCTTATTTGCACATAGGAACCCACATATTCAGGTTCAAGAATCAAGGGTGGGGCACAT
Celera SNP ID:            hCV27950378
SNP Position Genomic:     24998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12822):
GGTTTTCAAAAATATAGATGCAAAAAAAAAATGAGCTGTGGATGCATGTTTAGAGGGGAGAAAGTTTGTTTCTAGGATCTAATTTCAGTTTTTAGGTCAC
Y
CAAGCCAGTGGGAGTCACATATTGCTAATGGCTTGAGCACAGAGATCAAATATTATTCACACTTCAGACTGGGAATAAAAGACAGTATTTGTCAACATTT
Celera SNP ID:            hCV2034213
SNP Position Genomic:     6680
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12823):
TTATCCACCATTGCTATATATTTGAAGCAGAGAAAGTTAGTGAAGCATAAACTTCATGCTGAATCGAGTGTCTATATCCTGGAATTCTCAGCCTGTACCC
Y
CTATAAACTAATTTTTCCACTGTGAATAAGACTAATCATGACTCTGTCGACATTTACATTTTATTTAGAAAATGTCTTCCTTCTGTTCCTTTGATCCAAG
Celera SNP ID:            hCV27496508
SNP Position Genomic:     18583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12824):
AGGGCTGGTGCTCCACACAATTTTTAGGGTAGGTAAATCAGGTCCTCAGAGATTTCTTCCTGGGCCTCAGGCTGCCCTGAACTGATCTCACAGTACAGGG
R
TTGACATTTTCTGCAAAGAGCTGTATAGTGAATATTTTAGGTATGGGAGAGAGAAAGGGCCATACATTCTGTCACTGTAGCACAGAAGCAGCCAAAGATA
Celera SNP ID:            hCV2034214
SNP Position Genomic:     9177
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12825):
AGATGCTTCAATGGTGGCCAGCAGTTTCCTCAGGGTCTTCTCAGCAGTGCATGGGGCCCACATTAGCTCCTCTGGCTCCAAGCGAAGAGATGGTCTCTAG
M
CCCCTGTTTGATTTGGGGCACTTACAGTCCTCTCGCCAGCTAAACTCTCACACTCGTCAGCATCCAGACGCTGAGGGGAAAATACCAGCTGCTTCTGTGC
Celera SNP ID:            hCV27496509
SNP Position Genomic:     18286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12826):
AGGTCACTGTGCAACCCACAAAATACCAAACACCTTGCTAAATGAATGGCTGTTATTTCTTTATCTAGTCATAACATAGTCCCAGCTTTTTAACAGCATC
Y
AATTTAGAACAAATACCCACTACATTAGATCCTTCCCCAAATCATCTGACTAAAGCCCGAGTTCTGTAACAGGTTCTTTCTAACACCATTTTACTGAGAT
Celera SNP ID:            hCV2034215
SNP Position Genomic:     11340
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12827):
TGTTTGGCTGTTGTGAATAATTCTGCTCTGAACGTGGGTGTACAAATGAGAAATTCTTGATTTAGCCTGTTAGTCTCCAAGGAAGTCAGCACTAACACAT
R
GGAATGCTTTGGGACACAATTTTATATTCCATTTGTGTCTTCAATTCAGTATAAAGATGCAAATTATTCCTGAATAACAGTGCCTTAGCATCGAATGGTT
Celera SNP ID:            hCV8813591
SNP Position Genomic:     99149
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12828):
TAGCAATTATCTCTTTAATTATTACACTTCTGTCATTCTCCACTCTCTGCTTCTGGGATTCCAATTAGGTGAATTTAGAAGATTTTCATAACTCCCCCTT
Y
CTCTCTTTTATTTGTACATGTGTGTATATATGTATGTAATACATATCACGGTCTCCTCCTGTGACCTCCATGGGTCTGCATTTCATCATAAGGAATAGAT
Celera SNP ID:            hCV2034218
SNP Position Genomic:     18089
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12829):
TCTGGCTCCAAGCGAAGAGATGGTCTCTAGCCCCCTGTTTGATTTGGGGCACTTACAGTCCTCTCGCCAGCTAAACTCTCACACTCGTCAGCATCCAGAC
R
CTGAGGGGAAAATACCAGCTGCTTCTGTGCTCTGCTTACTCTTCGGTACTTCTCTGCCATTTCTGGTTCCTGAAGATGTTTATTTTTATTTATTTGAGTC
Celera SNP ID:            hCV2034219
SNP Position Genomic:     18356
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12830):
TAATAGACTCGTAGTTGTAATGTCCTGTCCTCCCCCTGCCTTTCCCTACTTCATCCTCTCTTCTATATCCAGAAATGGACATTTGCAGGTGTGTTTGTAG
S
GGGCAGTTGAGTAGCTTGAAGAATGTGGGGCAGGGGGAGATAGAGGAAAGCAAAATTTACTTTCTTTTTCTCGCATTGCTAAAGTCTCAACAAACTGCAT
Celera SNP ID:            hCV16182450
SNP Position Genomic:     40983
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,317|G,966)   total(G,966|C,317) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12831):
TATATGTTATATGTCATATATTATACCCAATCATGATATCTGCATGTGTCTCTGGCGTTTGTCTATAAATTATGCAATGGCCATTGGCTAATAGCAATGA
M
CTATGACATGGTCTAACTTAACACTTTATTAGTATAATGACTGAAACACTTTAGTCTTACAGAATGTCCTATTTGGAATTTATTCTTTGAGGAGGTTCTT
Celera SNP ID:            hCV16182451
SNP Position Genomic:     46067
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,96|A,1407)   total(A,1407|C,96) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12832):
TCATTTTGATATATCAACAACCAGACAACCCTGGATGAAGCTTACCATAGACCAAATTTGGACCAGATTTCTTCCTCCTGTCAATGATGTTACAGTGAGA
M
TCTAATATTGTATTAAACCCATGCCACATGTTAAATGAATCTGAATGACAGACTGACTTACCTAATTTCTTGGACTTCACATTTTCTTTTCTTCTTTTTG
Celera SNP ID:            hCV16182452
SNP Position Genomic:     46281
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,109|A,1386)   total(A,1386|C,109) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12833):
AGACAACCCTGGATGAAGCTTACCATAGACCAAATTTGGACCAGATTTCTTCCTCCTGTCAATGATGTTACAGTGAGAATCTAATATTGTATTAAACCCA
W
GCCACATGTTAAATGAATCTGAATGACAGACTGACTTACCTAATTTCTTGGACTTCACATTTTCTTTTCTTCTTTTTGATTTTTAGAGTGTGTCCAAGTT
Celera SNP ID:            hCV16182453
SNP Position Genomic:     46303
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,355|T,1130)   total(A,355|T,1130) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12834):
TAAATGAATCTGAATGACAGACTGACTTACCTAATTTCTTGGACTTCACATTTTCTTTTCTTCTTTTTGATTTTTAGAGTGTGTCCAAGTTTACGGACTA
Y
GAGCTGAAGGCCTATGCCAAAGCAGGGGTGGTGGCTGATGAAGTCATTTCATCAATGAGAACAGTGGCTGCTTTTGGTGGTGAGAAAAGAGAGGTTGAAA
Celera SNP ID:            hCV16182454
SNP Position Genomic:     46413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:12835):
TTTACGGACTATGAGCTGAAGGCCTATGCCAAAGCAGGGGTGGTGGCTGATGAAGTCATTTCATCAATGAGAACAGTGGCTGCTTTTGGTGGTGAGAAAA
R
AGAGGTTGAAAGGTTGGTTAATTGGAATCTGATTCTTTCCTTAATTTCATCAATCAGCATAGTACCCTGAGTCTCTCAGTTTGTGCAAAGCGGCAGACCC
Celera SNP ID:            hCV16182455
SNP Position Genomic:     46502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12836):
ACCCTTGAAAGCTGGTTTAATGCAGAACTACACCGACTTTATCTTTTCTCCAACACCGTACTCATTTCTTCATTGTCCCGGTTTTCAAAAATATAGATGC
A
AAAAAAAAATGAGCTGTGGATGCATGTTTAGAGGGGAGAAAGTTTGTTTCTAGGATCTAATTTCAGTTTTTAGGTCACCCAAGCCAGTGGGAGTCACATA
Celera SNP ID:            hCV11172569
SNP Position Genomic:     6601
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12837):
TAATGAATTCAATTATCAAATCACTATTCAAGTCCACTTTGGGTCTACAGGCTACCTTGCTTAGACTTCTTACTCATTTCAAAACAGTTCTACTTTGTAG
R
AGAGTAATATTCAGTAAAAAAATAAAGTGGTATTTTAAATCATAACAGTGGAAAACTTGGAGATGCTTTACAGAACAAAAATTATTTTGGGTATTTCCAA
Celera SNP ID:            hCV16182456
SNP Position Genomic:     57095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12838):
TCCACTTTGGGTCTACAGGCTACCTTGCTTAGACTTCTTACTCATTTCAAAACAGTTCTACTTTGTAGAAGAGTAATATTCAGTAAAAAAATAAAGTGGT
M
TTTTAAATCATAACAGTGGAAAACTTGGAGATGCTTTACAGAACAAAAATTATTTTGGGTATTTCCAAACAGCCAAAGAGCTAGCTTTTGAACCCACAGA
Celera SNP ID:            hCV16182457
SNP Position Genomic:     57127
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,317|A,1140)   total(A,1140|C,317) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12839):
CACCTGTGTTAATGTGCATCATTTTACTTCTTGGTCATGGCTCTCAGTTAAATAATTAAGTAATGTGCTAAATGCCAAAACCTCATCCTTGCCAATGTTT
Y
CTTTTACTGGTTTTTGATGGATTTCAGTGGACGTTGCTTTGGGGGCATACATAAACGCACACACAGACACCGAGTATCAACACAAAGCATCTGCACCTGT
Celera SNP ID:            hCV16182458
SNP Position Genomic:     63310
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;(T,-|C,-)   JBIC-allele(C,318|T,1163)   total(C,318|T,1163)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12840):
TCAAGTTAAGAGAAATGATTGATATTTAGTAATGGTGCTAGGACATTTGGAAATATATATATCCATCTAAATTTGTGTAACTACACTGTGATGTTTGCCA
R
TGATGAAACCGCCTAAGGACACATTTCTCAGAACGTATCCCCGTCGCTTAGCTATGCATAACTGTACATTTAAAATGCTATTGCTGCCTCTTCAGTGAGC
Celera SNP ID:            hCV15784296
SNP Position Genomic:     64052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12841):
TGCTAGGACATTTGGAAATATATATATCCATCTAAATTTGTGTAACTACACTGTGATGTTTGCCAGTGATGAAACCGCCTAAGGACACATTTCTCAGAAC
R
TATCCCCGTCGCTTAGCTATGCATAACTGTACATTTAAAATGCTATTGCTGCCTCTTCAGTGAGCTGTCTATTCCACTTTTTTCTTTGTATTATAACGAA
Celera SNP ID:            hCV15784297
SNP Position Genomic:     64087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12842):
AGTGATGAAACCGCCTAAGGACACATTTCTCAGAACGTATCCCCGTCGCTTAGCTATGCATAACTGTACATTTAAAATGCTATTGCTGCCTCTTCAGTGA
R
CTGTCTATTCCACTTTTTTCTTTGTATTATAACGAAAATATTATTGTGTCCTTAAGTTCTCCAGACACTAAATATAGAAATAATAACAGGGCTTGAAATT
Celera SNP ID:            hCV15784298
SNP Position Genomic:     64151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12843):
TTCCAAAGAGAAATTCTGTACCCTTGAAACGGCAACTCCCCATCCTGCTCTCCCTCCCCTCAGCCCCAGCAACCACCATTTTACTTTCTGTGTCTATGAA
Y
CTGACTACTCTATGTACCTCATCTAAGTGGAATCATATGAATTTATCCTTTTATGTCTGGCTTATTTCACATAACATGATGTTTTTGAAGTTTCTCTATG
Celera SNP ID:            hCV1010675
SNP Position Genomic:     98853
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12844):
GTCAGAGCTACATTTTTATGGATGTTTATTTTATGGATATATCATGTTTTCTTTATTCATTCATCTGTCTGTGGACATTCAGGTTGTTTGGCTGTTGTGA
W
TAATTCTGCTCTGAACGTGGGTGTACAAATGAGAAATTCTTGATTTAGCCTGTTAGTCTCCAAGGAAGTCAGCACTAACACATAGGAATGCTTTGGGACA
Celera SNP ID:            hCV1010676
SNP Position Genomic:     99065
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12845):
GAACTTTGCTGTTTTCTTTCTTCTCCAGATTCTAAATGACCTCAACATGGTCATTAAACCAGGGGAAATGACAGCTCTGGTAGGACCCAGTGGAGCTGGA
R
AAAGTACAGCACTGCAACTCATTCAGCGATTCTATGACCCCTGTGAAGGAATGGTGGGTGTCTTCCAGAAACTCCTCAATACATGGGGACAGTAAAGTGC
Celera SNP ID:            hCV1010678
SNP Position Genomic:     63547
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12846):
ACACGTTGTGGGTAGGTTGTTTTTGTTTTTAATTTTTTACTTTTTTGCTCATATCTTAAATTGTAATTCAAAATGTATAGAGGGGATTTTACTGGCTGAG
S
TGGAGTGGTATCTAACACAAAGAGAATAGAAACATGAGTTTACCCATATTTCTAGAAATTACTCTGCCTCAAGTTTCCTTCTATCTTACTATGTTTTAAA
Celera SNP ID:            hCV2034221
SNP Position Genomic:     24133
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,4)   caucasian(C,40)   total(C,74|G,4)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12847):
AATTGGTGTTCTCGAGGAAGAAGAGAAATCTAAAAGTTTGGAAAATATATCTGAAGGAATAATTGAGGAAAACTTCCCTGGCCTTGCTGAAGGAAGATCT
Y
TTGTCTAGGGATGTAGACATCCAAATACGAGAAGATCAAAGAACACCTGGGAAATTCATTGCAAAAAGATCATCACCTAGGCACATAGTCATCAGATTAT
Celera SNP ID:            hCV2034223
SNP Position Genomic:     33107
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12848):
AGATGAAGGAAAGAATCTTAAGAGCTGTGAGGCAAAAGCACCAGGTAACCTATAAAGGAAAACCTATCAGAATAAAAACAGACTTCTCAGCAGAAACCCT
R
CAAGCTAGAAGGGATTGGGGTCCTATTTTTAGCCTCATTAACCAAAACAATTATCAGCCAAGAATTTTGTATCCAATGGCACTTAACTTCATAAATGAAG
Celera SNP ID:            hCV2034225
SNP Position Genomic:     33317
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12849):
TACCAAGCAAATCAGGGAAATGCAAATCAAAACCACAGTGTGTTATCATCTCACTCCTGCAAGAATGGCTATAATCAAAAAATCAAAAAAGAATAGATGT
K
GGCATGAATGTGGTGAAAAGGGAACACTTTTACACCATTGGTGGGAATGTAAACTAGTACAACCACTATGGAAAACAGTGTGTGATTCCTTAAAGAAGTA
Celera SNP ID:            hCV2034226
SNP Position Genomic:     33567
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12850):
CATCTCACTCCTGCAAGAATGGCTATAATCAAAAAATCAAAAAAGAATAGATGTTGGCATGAATGTGGTGAAAAGGGAACACTTTTACACCATTGGTGGG
M
ATGTAAACTAGTACAACCACTATGGAAAACAGTGTGTGATTCCTTAAAGAAGTAAACGTAGATCTACCGTTTGATCCAGTAATCCCACTACTATTAATAG
Celera SNP ID:            hCV2034227
SNP Position Genomic:     33613
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12851):
AAACGTAGATCTACCGTTTGATCCAGTAATCCCACTACTATTAATAGGCATGTACCCAGAGGAAAATAAGTCATTATACAAAAAAGATACTTGTATATGT
R
TGTGTATAGCAGCAGAATTTGCAATTGCAAAAATATGGAACCAGCCCAAAGGCCCATCAATCAACGAGTGGATAAGGAAAATGTAATATATATATTACGT
Celera SNP ID:            hCV2034228
SNP Position Genomic:     33767
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12852):
ATGGCTTATTAATGGGTAAGTTTTATAAAAATGCCAAATGTAATTGAAAAATGTCTTGGTTGCAGGTTCCATAGTAATGAAATTTGTCATGAAAATCTAT
Y
GACATTGTGTTACAATTATAATTAAATATATATTTGATTAAATCAAATGAAATTGCCAACATTTAATCTTTTTTTACTTAGAAAGTTCAACTAATATATG
Celera SNP ID:            hCV11172571
SNP Position Genomic:     15545
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12853):
AATATTCCATTATCTATATGTACCACATTTTCTTTATCCATTCATTTGTTGATGGACACATAGGTGGCTATTGTGAGTAATGCTGCAGTGTGCATGGGAG
Y
GTAGATATCTTTTTGATATATTGGTTTCATTTTCCTTGGATATATACCCAGTATAGGATTGCTAGGTTATATAGCAGTTCTATTTCTAACTTTTTGAGGA
Celera SNP ID:            hCV2034229
SNP Position Genomic:     34820
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12854):
AGTGAACACAGGATTGCCTGTTCAATTTCCTCTCGCATAGTGATTCATTCCACATTCCAATTTGGTGTACTCTCATTTGCAGGGGTGGATAGTTCAGTTT
Y
CTGGCCGTGAAGCTTTTGCAATTTAATGGTTCCCCTGAGCCATGCTTTCCACACACACAGGAGCTATGATGGTTTTAATGGCACATGCCTTTGCTCTTCA
Celera SNP ID:            hCV560419
SNP Position Genomic:     101415
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(T,-|C,-)   no_pop(C,-|T,-)   JBIC-allele(T,642|C,847)   total(C,847|T,642)   WICGR7_african_american_pooled(T,34|C,66)   WICGR8_asian_pooled(T,26|C,57)   WICGR6_caucasian_pooled(T,29|C,66)   total(C,189|T,89)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12855):
TCCATTTGATATTCAGATGATGCAAATATTTCATGTCCTGAAGAAAAGTCCATAAATGAGTAAAGGTAGCAGCACTCCTGGACCCTAAACGAGTGTCTTC
K
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGAAAGATAGAGAGAGACAATATGAGCAGGAAGAAAGAAAAGGCAAATAGTCATTTG
Celera SNP ID:            hCV11172573
SNP Position Genomic:     20292
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2|-,3)   total(G,2|-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12856):
GTGCTATTTGGTAGGAACATCTGGGCATGATCAGGTAGCCTTCCCCTAAGGTAATGAGATGACTGCATTGGTAAGTCAAAGAACAGCTGCCCCAAGTCTG
M
ACAGGAACCTGACCACTCCACCTGCATATAGCCAGCAACAGGTGAGTCTGGGAGCTAGGTAGAATGGCAGTCAAAAGCCTGGATTCAAATTCTGCTCTAC
Celera SNP ID:            hCV27490632
SNP Position Genomic:     56575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12857):
GCATCTGCACCTGTAGCCTAATTGTTTGATTTGGTAAACAGTGACAATCTGAACTTTGCTGTTTTCTTTCTTCTCCAGATTCTAAATGACCTCAACATGG
Y
CATTAAACCAGGGGAAATGACAGCTCTGGTAGGACCCAGTGGAGCTGGAAAAAGTACAGCACTGCAACTCATTCAGCGATTCTATGACCCCTGTGAAGGA
Celera SNP ID:            hCV25473960
SNP Position Genomic:     63497
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,16)   caucasian(C,17|T,15)   total(C,33|T,31)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12858):
TCAGCGATTCTATGACCCCTGTGAAGGAATGGTGGGTGTCTTCCAGAAACTCCTCAATACATGGGGACAGTAAAGTGCAAATGGCAGTATATTGATCAAA
Y
AGAAAGGTGTAGCATACATTGAGACTGTCCTGGCATGCATAGTTAACTTAATGATTTGTTACTGAATTGATGGGACACGCTTCCTACATGGTAACAGTGT
Celera SNP ID:            hCV25473961
SNP Position Genomic:     63670
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,17)   caucasian(C,16|T,18)   total(C,33|T,35)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,396|T,1083)   total(C,396|T,1083)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12859):
AAAAAGATAACACACCATGATCAGGTGGGATTTATACAAGGCATGCAAGGATGGTTCAACATATGCAAAGCAATAAACATGATATATCACATAAACAATA
W
TAAGGGAAAAAATTATCATTTCAATAGATGCAGAAAAAACATTCAACAAAATTCATCATCCCTTCTTGATAAATATTCTCAATAAACTAGGCATAGAAGG
Celera SNP ID:            hCV11649354
SNP Position Genomic:     85302
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12860):
ATTCATTGCAAAAAGATCATCACCTAGGCACATAGTCATCAGATTATCTAAAGTCAAGATGAAGGAAAGAATCTTAAGAGCTGTGAGGCAAAAGCACCAG
R
TAACCTATAAAGGAAAACCTATCAGAATAAAAACAGACTTCTCAGCAGAAACCCTACAAGCTAGAAGGGATTGGGGTCCTATTTTTAGCCTCATTAACCA
Celera SNP ID:            hCV11172578
SNP Position Genomic:     33261
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,14)   total(G,14|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12861):
GGAAACTTAGGAGGATACAAGTGGCTGTCCAGAGAGATGCATAATAGACTCGTAGTTGTAATGTCCTGTCCTCCCCCTGCCTTTCCCTACTTCATCCTCT
Y
TTCTATATCCAGAAATGGACATTTGCAGGTGTGTTTGTAGGGGGCAGTTGAGTAGCTTGAAGAATGTGGGGCAGGGGGAGATAGAGGAAAGCAAAATTTA
Celera SNP ID:            hCV16254490
SNP Position Genomic:     40942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12862):
ATATCCAGAAATGGACATTTGCAGGTGTGTTTGTAGGGGGCAGTTGAGTAGCTTGAAGAATGTGGGGCAGGGGGAGATAGAGGAAAGCAAAATTTACTTT
Y
TTTTTCTCGCATTGCTAAAGTCTCAACAAACTGCATTCCAACCCAAATTCTGAAAGGCTGAATCTAGAGCATATTTTAGATTTAAGTGTTGGAAGGGCTT
Celera SNP ID:            hCV16254491
SNP Position Genomic:     41047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12863):
CATTTGCAGGTGTGTTTGTAGGGGGCAGTTGAGTAGCTTGAAGAATGTGGGGCAGGGGGAGATAGAGGAAAGCAAAATTTACTTTCTTTTTCTCGCATTG
S
TAAAGTCTCAACAAACTGCATTCCAACCCAAATTCTGAAAGGCTGAATCTAGAGCATATTTTAGATTTAAGTGTTGGAAGGGCTTGGAGGTACTTAACTC
Celera SNP ID:            hCV16254492
SNP Position Genomic:     41062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12864):
GCTTGAAGAATGTGGGGCAGGGGGAGATAGAGGAAAGCAAAATTTACTTTCTTTTTCTCGCATTGCTAAAGTCTCAACAAACTGCATTCCAACCCAAATT
Y
TGAAAGGCTGAATCTAGAGCATATTTTAGATTTAAGTGTTGGAAGGGCTTGGAGGTACTTAACTCTTATTAAGAAAGAAAAATATTTTATCTTTTGCCTT
Celera SNP ID:            hCV16254493
SNP Position Genomic:     41097
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12865):
TTCTTGAAAATTATTGCCTGAAAACTATGCATGAATGCTTCTAGGCAGGTCTTTCCGGGAGGAAATTCACTCAGAAATGGCATTAAAAATAGTTATTTAA
R
AACAATAATGCCTTATTTTTGGTGCTGTGAGCCTTCTTTCACACATGGGGAAAGTGAAGCTCTGTAGGGTAAAGTCCAGAAGACATGGGCCTGCTTAAGT
Celera SNP ID:            hCV16254494
SNP Position Genomic:     41501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12866):
TTAAAAATAGTTATTTAAGAACAATAATGCCTTATTTTTGGTGCTGTGAGCCTTCTTTCACACATGGGGAAAGTGAAGCTCTGTAGGGTAAAGTCCAGAA
R
ACATGGGCCTGCTTAAGTGTCAGAGCTGGATTCAAACCCAAATCTCAGGCTACCCTGCTGAAGGTTCTGTTTACCTCCACTTTTAGCAGCAGATGACAGA
Celera SNP ID:            hCV16254495
SNP Position Genomic:     41583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12867):
GTCACCTTCCATCTAGCAATTTGACACCCTTGTTGGAGAAGGAGGAGGCCAGATGAGTGGTGGCCAGAAACAAAGGGTAGCTATCGCCAGAGCCCTCATC
Y
GAAATCCCAAGATTCTGCTTTTGGACATGGCCACCTCAGCTCTGGACAATGAGAGTGAAGCCATGGTGCAAGAAGTGCTGAGTAAGGTTTGTGGAAGTCT
Celera SNP ID:            hCV1010680
SNP Position Genomic:     67183
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:12868):
ACCAAGGCTTCTAACTTTCAATTCCATCCCCCCCTTTTTTTTTTTTTTTTAACCCTGCGCAAATAGAAGAGGCTTCCTAGAGTGTGTTCCGCACGCAGTA
R
AAGCTTCATGCTTATTGGCTGAGTGAATTAATCAATGACAAGAAAGTATAATACTTATTTTCAAATGTAGATAGATACTTCAGGTTCTAGTGCACCTTCT
Celera SNP ID:            hCV16254496
SNP Position Genomic:     68249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12869):
TATACAGGGTTGCCACAAACCTTCCATTAGTAAAAATCACAATATCTGCTAAGCAAAAAATGCAAAAAAGATCATTTTGTCTTTTCTTTTCTTTTTTTAT
R
TTTATACTCATTTTATTTTCTTATTATATTAGCTAGAGCTCATTGAGAAATAAGAGTGGTAGTAGAGGTGATTCTCTCAAGCAAGACAAAAACTCAAAAC
Celera SNP ID:            hCV16254497
SNP Position Genomic:     97646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12870):
GGGAGCGTAGATATCTTTTTGATATATTGGTTTCATTTTCCTTGGATATATACCCAGTATAGGATTGCTAGGTTATATAGCAGTTCTATTTCTAACTTTT
K
GAGGAACCTACATACATATTTCCATAATGACTGTACTAATTTACATTCCCACCAACAGTGTACAAGTGTTCCCTTTTTTCCACATTCTTGCCATCACTTG
Celera SNP ID:            hCV2034230
SNP Position Genomic:     34915
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,11)   total(G,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12871):
CACTGTTGCTGGAATTGGAAAGGAGAGGCGGTTCATTGAAGCACTTGAGACTGAGCTGGAGAAGCCCTTCAAGACAGCCATTCAGAAAGCCAATATTTAC
R
GATTCTGCTTTGCCTTTGCCCAGTGCATCATGTTTATTGCGAATTCTGCTTCCTACAGATATGGAGGTTACTTAATCTCCAATGAGGGGCTCCATTTCAG
Celera SNP ID:            hCV560420
SNP Position Genomic:     102030
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12872):
TTATTGGAATGGCTAAAATTAAAAATAGTGATAACCCTAAATGTTGATGAAGATGTGGAAGAATTGGATCACTCTACCATCACTCATGCCATTCAAACCA
Y
GTCATAGCTATCCTGGAAAACAGTTTAGTAATTAAAAAAATTCTAAACACTCAACTACCATATGACTCAGCATTTCTACTCTTGGGGATTTATTCCAGAG
Celera SNP ID:            hCV2034232
SNP Position Genomic:     37392
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12873):
AATTGGTCGAACCCTATTGAACTGAATTTTGAGGTCCCCTGAAAGACAGTCACTCTACAGTGTAGATAAAGCACACTGAAATTCAGGACCCCTGACTTCC
R
GCACTTACTCTGCTCCTTACTGTGACCTTGAGCAGTTATCTAACCCTGCTGGAACACAATGGCCTAATACCTGGGTGATGTCTTAGGTTCTTTCTTGCTG
Celera SNP ID:            hCV2034233
SNP Position Genomic:     42429
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12874):
GAAGCTTGAGTCCCTTTTCCTGAGTACAGTTAGCAACATAATTATCACTATCTTCATGTAGTTTGTTAGATTACTCCCCAGTGTCAAATGACATTTCATC
R
AATAGGGATTAATGATGTTTTAATAGGTAAATATTGTTTTATTAACAGCAATTACATTTATTGAGCATTCACTGTTTCTCTAGGCACTACTAGGAGCTTA
Celera SNP ID:            hCV2034234
SNP Position Genomic:     43769
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12875):
GCTAAAAACACTCCCAAGGACTGAGAAATTATTATTAGAGCAGCCACATTAGATAGCACGTTATGGAATCAGGCATACTAAAACTGTGCTATAAATGAGA
M
TAGAATTTAACTGAAAAACTGCATACACCCTCACACATCGTTGAGCAATAGGTACCAACTTCCTATTGCTCAATAGCAAAATATTCTCACAGTGTCTACA
Celera SNP ID:            hCV2034235
SNP Position Genomic:     44397
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12876):
TGTGTTTGCGATGATTTTATGATCATTTTGTAAAACCACTGCATCACGGCCTGTTTTAAACATTATAACTTGAGCTGTTTCTGCCGAAATTGACTCAAGC
R
TTTTGTCTTCACAGGTATGAGAAAAATCTTGTGTTCGCCCAGCGTTGGGGAATTAGAAAAGGAATAGTGATGGGATTCTTTACTGGATTCGTGTGGTGTC
Celera SNP ID:            hCV2034236
SNP Position Genomic:     51016
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,27)   caucasian(A,12|G,24)   total(A,17|G,51)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;JBIC-allele(A,346|G,1151)   total(G,1151|A,346)no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:12877):
ACTCACCCATTTTTCATTCTCTTTTGTGATCTGCTGTACTTTTTTTTCAAAGCACTTTTGTGATATGGAATATTTGCATTTATTTACACTTGTGCCCACC
Y
GTTTCTACCCTCAGACAGTAAAATCTACGAGGTCAGGGAAACAAAAAATGAAATATCTGTTTCATTTGCCCTGCAAGTAAATAGGGAGTCGTTTTATATC
Celera SNP ID:            hCV2034237
SNP Position Genomic:     53362
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12878):
TAAGATAAATACATTGCCAGGGAAAATTGAGTAGGATTTTGATTTGCAAATGGAAGTGATTATCAGAGGTCAAACCATAATCATTCCAAACCACGGACTT
W
ATTTCATTAAGAACATGATAATACACAAAGAACAACTTTTTCAATTCAGTTTATCTTGGCAGCATGAACAGCTGACATCTTTTGAACTTTGTTAAAGAAA
Celera SNP ID:            hCV2034238
SNP Position Genomic:     53683
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,9)      total(A,2|T,9) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12879):
TAAACTTTAAAGAGATAGTATGGATGGGAAGTGTTACCAATTTTATAATTTAACCACTTCTTAACAACTTAGATACAGTTTTTACAGATTGGAAAAGCCA
Y
TGAAGTATTGCAGGTCCAGATTTTAACTATAGTCCCTTGTCTTTATTGATCCAATTCCTCCTAAGAACTTTGACATTTACCAAAATAGGGATATCAGTAG
Celera SNP ID:            hCV2034239
SNP Position Genomic:     53916
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;(C,-|T,-)   JBIC-allele(T,392|C,1103)   total(C,1103|T,392)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12880):
TCTTTCCCAACCAGAATTATGAACTACAGTTTAGGTTTTGGATACACTTAGGTTTTAGCTACACATTTTAAAGTGTGTTCTAATTAATATCTTGTCCTTG
S
GGGGTAAATGAGGGATGGTAGCATAAACACTTCTCAAGTATAAGAATTAAGGGAAACTTGAATTTAACTGAAAAATTGTCTCGTGGTCCAGTTGGGTTGA
Celera SNP ID:            hCV11172655
SNP Position Genomic:     101648
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12881):
AAGCCTGCACATTCTACACATCTACCCCAGAACTTAAAGTCTAATAAAATAAATAAATAAATAAAATGTGTAAGTATTGATGAGGGGTAAGGTTGTGCGT
R
TGTGTGTGCAGGACAGCCATTAGGGATGGCCATACAATACCACTTGGCTTCTAAATTCCTGCTGTATATGGGTTCATTCATACATACTTGGAGAAGACAA
Celera SNP ID:            hCV11172659
SNP Position Genomic:     105367
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12882):
GAATTCCTTCCCATTCATTCAAGAATTCCACACAGTGCTGTTTGTAAAGAGAAATGAATCATTTTTTCCCATTTAGGCATTGGGAATTTTAATGACAGGC
T
TTTTTTTTTTTTTTTTTTTTTTTAGTTAGGGAAAATCTATCAGCAGATTAGATTTTTGCTGATGTCATAATTTTTGTTTTACATTTCTTGAAAATTATTG
Celera SNP ID:            hCV11172587
SNP Position Genomic:     41316
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12883):
ATCTAGATTATCTGTTATATTTTATAGTTCTAAAGTTATGTGACAGAGAAGGTAGGCCACACGCAACACAAAGAAAGAGGTGATATCTGATGTGTGGTTT
K
CATGAAAGAAGATGCAATTGAGCAAAACACAATTATGAAATTTAAAATGTATAATTAATGCCATAACAATCGGGATTCCATTTTGGAGAGAGCTAAAATG
Celera SNP ID:            hCV11649366
SNP Position Genomic:     113062
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(T,-|G,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12884):
CCAAAGGAAAAAAATTTTAAGTACAATTTTAAAACTGAACTATGGTCTGTGAGGCTCTTAGAAGAAAAAAACTCACTGGACTGATAGTGCTGTACTGTAG
C
ACGTCTCAACTCCTAGACAGTTTAACCAAAAATACCAAAAATGATATGGCAGAATTTCAACGGATCATGGAATCCTTTCACTTAGGGGGAAATCCCTATA
Celera SNP ID:            hCV16198124
SNP Position Genomic:     93551
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12885):
AAATAATTTATTCTTTCAACCAATATTTCTTGAGTCCTTGCTATGTGCAGACATGGCATACTATGGGTCTCTAACATTTTAATCAACTGATTATTAACCT
K
TTACTCCCAACGTCTTTCTGTAAGCCTCTGCTTATATCTTAAGAGAAAATTTCCTTTGGGAAGATGAAATGCATCCTTTAACACTATATTCCTTGCTCTC
Celera SNP ID:            hCV2034240
SNP Position Genomic:     54406
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12886):
TTAATCCAGTACGTTTTGTGATACACAAAATCGTTACTGGCTGCATGGTAATTGGGCATAAATGGTAAGTAGTTCACATAAGTGACTGTAATTAGTATCA
S
TTGTGCACAGAGAAAAAATGCACTCTGTGGTCTGGTAGGGAAAGATGAAGGGGACCTGAATGGTGCAGAAGGTTGTTCTTTCATGACCTTCCTGAGTTTC
Celera SNP ID:            hCV2034241
SNP Position Genomic:     54744
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,7)      total(G,2|C,7) ;(G,-|C,-)   JBIC-allele(G,326|C,1171)   total(G,326|C,1171)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:12887):
ACTGTAATTAGTATCACTTGTGCACAGAGAAAAAATGCACTCTGTGGTCTGGTAGGGAAAGATGAAGGGGACCTGAATGGTGCAGAAGGTTGTTCTTTCA
Y
GACCTTCCTGAGTTTCAGAATTCATTAATAAAAATAAACACATAATGGAGCGTGACATTCATTCAGTATATACAAAGTGTCAAGCACTGAGTGACGTATT
Celera SNP ID:            hCV2034242
SNP Position Genomic:     54828
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12888):
GCCAAATACTTTATAGTAGCACGTTAGGCATCTGTGCCTTTAATATTCTAGGACTCTTTAGTGAATCAGCTCATGTGGTAGATATTCAAGTACCTGGACT
Y
AACTGCCTAACTAGACTGTGAGTTCCTAGGAAACAGAGATTATATTTTCTTTACGTAGCAGACATAGATGGCTTAGGATGGTGCTTTGTGGCAGGTGATT
Celera SNP ID:            hCV11172661
SNP Position Genomic:     109348
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12889):
TGGTAGCAGGAAGAGGCCCTCACTTTTCTCTGATTAACCAGAGTGGTTAAATTCTAGATTGGGCTTGTTGCTAGCAGAAGAGGTGAAATTCAGGACAACA
R
TTGAAAGTTGGTAGCATTTGAACACATCATTTAGGAACACTCAGTTTTAATCATCATCTACCATGGATACTCAAAAGAATACCCTCGGACCCCCGATTGG
Celera SNP ID:            hCV2034247
SNP Position Genomic:     59876
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12890):
ACAGTGACTCAAGAATATCACCAGTTGGTTTGCCTTTCTCATGGTTTTAATGTTTTCTCATTAAAAATAAATAAAGCACAGATAAGCAGAAAGAATAACC
R
TCCATCCAACAACTAGAGGAAAATTTATCAATGGTTTTGCTTTATCTTTCCTATAATTAAGCTATAAAAAACAACCATCCATGTAACAACTAGAGAAAAC
Celera SNP ID:            hCV27835303
SNP Position Genomic:     18866
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,38)   total(A,73|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:12891):
GGCAGTACATTCAGGCTAAATGAACTGTATGACGCTCTGTTGAAATGAGTGGCAGGTCCTGTCTTTCCATGCAAGTGCTAGATAAATGACAAGGCAATTA
S
AACAATCAGGAAGCACAGGTTCTTCCCAACCTTCGCAGAGACTGCAGAAAGTGGAAGACACTGAGTATAGGGTATGAAGTGGCAAAGGAAAGCTGCCATT
Celera SNP ID:            hCV2034248
SNP Position Genomic:     61064
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12892):
TTCAGGCTAAATGAACTGTATGACGCTCTGTTGAAATGAGTGGCAGGTCCTGTCTTTCCATGCAAGTGCTAGATAAATGACAAGGCAATTACAACAATCA
R
GAAGCACAGGTTCTTCCCAACCTTCGCAGAGACTGCAGAAAGTGGAAGACACTGAGTATAGGGTATGAAGTGGCAAAGGAAAGCTGCCATTATGTAGGTT
Celera SNP ID:            hCV2034249
SNP Position Genomic:     61073
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12893):
ACTCTGTGGTCTGGTAGGGAAAGATGAAGGGGACCTGAATGGTGCAGAAGGTTGTTCTTTCATGACCTTCCTGAGTTTCAGAATTCATTAATAAAAATAA
W
CACATAATGGAGCGTGACATTCATTCAGTATATACAAAGTGTCAAGCACTGAGTGACGTATTATGTAATAAAATTACTGCATGTAATGCTCTCAATCTCA
Celera SNP ID:            hCV11172594
SNP Position Genomic:     54866
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,6)      total(A,6|T,2) ;(T,-|A,-)   no_pop(T,-|A,-)   JBIC-allele(A,345|T,1148)   total(A,345|T,1148)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12894):
CTCCAGCCTGGGCAACAGAGTGAGAACGTGTCTCAAAAAACAAACAAACAGAAAACCAAGAACAGAAGGGGAAGTTGGCAATCTGTTGTTCTTTCTCTTT
A
AAAAAAAAAAATGCCCTGAGCTGAGTCCAAAGCAAGCCCTGGAAATCCAGAGGTGATTTGCGGGCTCCCTGAACCTGTTTGGTTCACTGTCCGCTGTTTG
Celera SNP ID:            hCV11172595
SNP Position Genomic:     58645
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12895):
CTAAAGAATAACTCATAAAATCACCACCTAGGGAGAATTTCCCATTGTATTGGAAAGGGTGGTCTTTAAATCCTTATGTTTTTCTCATCAGGTTACAAGA
Y
GAGAAGAAAGGTGATGGCGTTAGAGTTGGCTTCTTTCAATTGGTAATAAAACTGTGTTGATTTATGGCAGTGGGTGTGCAGCTATAAATTGTTTAGATCA
Celera SNP ID:            hCV27505203
SNP Position Genomic:     22970
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,366|T,1109)   total(C,366|T,1109) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:12896):
GTTTACTCCAAATTTTCTCAGGATGGAGGCATTTCTAGGCAGAAATTGGCATTCTTCATAGTCACTATCAGTTCAACAAAACAATTTATAGTATTTCTCA
R
TGCCCCACACAGTTTATCTACTTGGCAATGGCATCAATGACAGTGATTATTTTCCCCTAAGTTGTAGATGAGTAGCTAAAAACGAAAGTCAGCTCCTGAA
Celera SNP ID:            hCV27505204
SNP Position Genomic:     23446
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,97|A,1402)   total(G,97|A,1402) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12897):
TTTTTTAAATCCCTCTATATCCACAAATGTAATCTCTGGTGGCTTGATCCTACTTGCAAGTCTGAACATTCTTTTCCCTCTTTTGAAGGTTGCTGAACAT
Y
GAGAGCGAAATGATCAAATTTGCCAGTTACTATGCTGGAATTGCTGTCGCAGTACTTATCACAGGATATATTCAAGTTAGTAGCTCCTCCGTATAATTTA
Celera SNP ID:            hCV25634302
SNP Position Genomic:     40605
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,3)   caucasian(C,40)   total(C,59|T,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12898):
TTTGGGTCATTGCCGCAGCTCGTCAGATACAGAAAATGAGAAAATTTTACTTTAGGAGAATAATGAGAATGGAAATAGGGTGGTTTGACTGCAATTCAGT
S
GGGGAGCTGAATACAAGATTCTCTGAGTAAGTAGCTGGTAAAACAGTATTTTAGTGTGTGATTTTTGGATAATAAAACCCTTGTTTCTAAATTAAATAAA
Celera SNP ID:            hCV25634303
SNP Position Genomic:     41940
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,38)   total(C,1|G,75)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:12899):
AGATGGGAATGTTTAAAAGGGAAAGACTGAGACTTTCAGCAAGATATTTGAATGATCAAATTCAGTTTTAGTGACCAAAATCTTTCTGGTTTCTAGTGAT
R
TTAATAAAATCAATGATGCCATAGCTGACCAAATGGCCCTTTTCATTCAGCGCATGACCTCGACCATCTGTGGTTTCCTGTTGGGATTTTTCAGGGGTTG
Celera SNP ID:            hCV25634304
SNP Position Genomic:     43437
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,40)   total(A,74|G,2)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12900):
CTTATCAGTTTCAGGTAAGTCTTTATATTTCTACTGCGTATCTATATATCTACGAACATTACAAATAGTGATTTGCAGGTAACACAATTTACATAAATGG
Y
ATCATACAGTATCATTCTGAAACTTTGTCTTGTTTGTTTAAACTTACGTTTGTTGAGATTTATCCATGCCAATTCATTGATTTTAATGGCTAGATAATAT
Celera SNP ID:            hCV29330248
SNP Position Genomic:     13647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12901):
GGTTAAGTCAAGATCCCCGAAGTTGAAGAGGTCAAATACAGGTTAAACATGGCCTTATGGGAAATGAAATGAATGGGAAATATTAAGGAAATATGATTCT
R
TGAAAAGTGTGGGCATGTTCTTGAATTTTTCATCATTATCAACATTATTTAATGTAGTTGTAATATTTTTAAGCATGAGGAAGCTTTAAAATTAGCTAAT
Celera SNP ID:            hCV29330249
SNP Position Genomic:     22493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12902):
TCCTCACTGCTGGAATTCTAAAAACCTAATGACCTGTCATCTCCTCTATTGGCAGATGATAGATGGTCATGACAGCAAAAAAGTAAATGTCCAGTTCCTC
Y
GCTCAAACATTGGAATTGTTTCCCAGGAACCAGTGTTGTTTGCCTGTAGCATAATGGACAATATCAAGTATGGAGACAACACCAAAGAAATTCCCATGGA
Celera SNP ID:            hCV5842
SNP Position Genomic:     110014
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12903):
TAATGATAAGAAATCAAGGTAAGTGACTGATTTCAACAATGCAGCATCTTTTCTAGAATAACTCCATAATATTCATATCAAAGGCACAAAGCAGAGAATA
Y
TTTCATGCACATTGCACTTCATATAAAATAATATATACAATCCATTCTTTTTCTCTTTAAAATATTACTATAATTTGATTTTAAAAACCTTTTGGAATAT
Celera SNP ID:            hCV25473704
SNP Position Genomic:     20620
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,39|T,1)   total(C,68|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:12904):
AATTTGAGGCATATACATGATACTAGGTGCTTATGAATATTTATCCAATGAATTAAAGAATGAATCTACTTTCAACATTTGCATCATAGCCATCTATTAA
R
AAGGAATTCTCTGTGGCCACTCATTACTCACTGTCTTCATTGTTACTGGATCACATACCTGAAGGCGAGCAAAGAATACAAACTGAGGCTTTCAGAAGTC
Celera SNP ID:            hCV29330250
SNP Position Genomic:     26252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12905):
TAAATACTGTCATCGTGAGTTATTGTGATCATTGACATGAATACTATTTGTTCTATTCTGAATAACATGTTTGTTTAGCTGTTTTATGGTAAGATCACCG
Y
GATCTTATGACTTGGGTGGGACAGAGGAGAAAAGAGAGGACATTTTTCTACCTGTAAGTAGTTTATATACCTCCAAAGTCGCCCAAACTGTTTGCAGGTT
Celera SNP ID:            hCV29330251
SNP Position Genomic:     26595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12906):
GAATACTATTTGTTCTATTCTGAATAACATGTTTGTTTAGCTGTTTTATGGTAAGATCACCGCGATCTTATGACTTGGGTGGGACAGAGGAGAAAAGAGA
R
GACATTTTTCTACCTGTAAGTAGTTTATATACCTCCAAAGTCGCCCAAACTGTTTGCAGGTTTCTTTCGTGGAAAAAGTATATCATTAAAAGTACAGTTT
Celera SNP ID:            hCV29330252
SNP Position Genomic:     26633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12907):
TATTTACCTTCATTATATACATAAATATATAAAACATAAGTAAATATATATTCTGATTACATAAAGTATATTTTTATTATCTATTACATATGTACCTAAA
M
ATCAAATGTTATAACATATGTAAAGGTGCTTTGTAAGCTATGAATTACAAAGTAATACACACTCAGTAAATATTTTTGAATGGATAGCTAAAACTTATAT
Celera SNP ID:            hCV2034265
SNP Position Genomic:     62449
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12908):
CATTCCTAGAAGAGGTAACAGTAAGCCTCCTGATTTACAGCACACATCGTTCTATCAGTTTCTTTTCAGACAGCCTGTCTGGCTTTTGAAAATCTTTCTT
R
CCTGTGATTGCTCTATCACTGCATGATGAGTATGCATGGAAGAGACTAAAGTGGACCAAGCCCTGGGCTGCCATTTAGGGTACCCTGGCTTCCAACAACT
Celera SNP ID:            hCV29330253
SNP Position Genomic:     40192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12909):
AATGTTATAACATATGTAAAGGTGCTTTGTAAGCTATGAATTACAAAGTAATACACACTCAGTAAATATTTTTGAATGGATAGCTAAAACTTATATTACA
W
TGGTGGAGAGTAATTGAGGTTTTTGCCATTACTTTTAATAGTGAAATAAAATCTTCTTACTTAAACCTATATGTATTTATTCATAGTACGAGTATGTTTT
Celera SNP ID:            hCV2034266
SNP Position Genomic:     62554
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12910):
TGTGTGAAGCAAAATTTTTTTCCTGGGTCCTAATTGGTGCCAAATCCAATATTACTACATTTGCGTCAACTCAGAAGTCAACCCATTCAGTTTGCATAGA
R
GAAACATCTAGAAATCTTGCTTTTCTTTGCTGACCTTGATATATTTGAGATTTGAACATATAATAACATATAAAATTATATGTTATAATTTTGGGTTTTA
Celera SNP ID:            hCV3197737
SNP Position Genomic:     4762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:12911):
GAGTAATTTAGGTTGGTAATTTAGGTACTATAAGAAGTCCCAAGCCTTTAGCAGTATGTTTTTAAAGATGTTGCAGTTGGCAATTTTTAGAAAGCCAGCT
Y
AGGGTAGATATTTATTTCAAACTCTGATGGTATGTATGTATAAATATTATACCTCATATCAGTCTATAATGCTGTTTGCTGTCATTAAAGAAAAGCCTAC
Celera SNP ID:            hCV29330254
SNP Position Genomic:     46755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12912):
ACAATGGAAGACATAGTCCAAGCTGCCAAGGAGGCCAATGCCTACAACTTCATCATGGACCTGCCACAGGTACCCCTAGCCATACATTCCTGGGAGAAAC
Y
AAGAGGTCATAGAAGGAAAAAAAGTTGCACAATTATACACATTTCTTCTCGTATGATTCCCAAGTCATTAAATTCTTAAGCCATGTTTTAGTTTCATGCC
Celera SNP ID:            hCV2034267
SNP Position Genomic:     65499
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,18)   caucasian(C,20|T,18)   total(C,40|T,36)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12913):
AAACAGCCTTTGCATTATATTTTGCTGTGTTGTCTAACAGGAGCAAAGAGACACGGATTTGCTCTGTGCTTTAATCCTCTGAGATAGATATTTAGGACCG
Y
GACCAATTTTTATTTTGGTTGAAAAATCTTATTTGAAGTTGAGCTAAAGAGGAATATTTACACAGCCCAGTAAACCCTGGAATAAAAGCATAAATCAATT
Celera SNP ID:            hCV29330255
SNP Position Genomic:     66807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12914):
TTCATCATGGACCTGCCACAGGTACCCCTAGCCATACATTCCTGGGAGAAACTAAGAGGTCATAGAAGGAAAAAAAGTTGCACAATTATACACATTTCTT
Y
TCGTATGATTCCCAAGTCATTAAATTCTTAAGCCATGTTTTAGTTTCATGCCTGAAAAAGTACCATGAGTGTTTCCTTTCATCTGAAAACACATTGTTTA
Celera SNP ID:            hCV2034268
SNP Position Genomic:     65547
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,19)   caucasian(C,18|T,20)   total(C,35|T,39)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;JBIC-allele(C,245|T,668)   total(C,245|T,668)
SNP Type:                 INTRON


Context             (SEQ ID NO:12915):
GAAGTGCTGAGTAAGGTTTGTGGAAGTCTTAGTCCATTTTACAGGTCCATGTGGAAATGCTTGTGCTGCTGCAGGAAAGGCAGCTCCTTGTGGGGTGGGA
R
GGATGGGAGTAGTTGATACTACATGGGTTCATGCATCTAGTCTGATTGTTTAGAAAATATTAGCTGACTACAATCTTCCTCACAGTTGAACAGAAGAAAG
Celera SNP ID:            hCV29330256
SNP Position Genomic:     67355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12916):
TAGCCTAGTAGTTAAAGAGTATAAAGCTTTAGAATCAGATTGCCTTGATACAAATCCCAGCTTCTCTATTTACAAGCTTTACAAACTTTCTCAAGTTACT
Y
TGGGCCCAGTGTTTCCTTATTCATCAGTTGCAAATAGCAGCACTTGCCTCATAAGGTATCTATGAGAACTAAAAGAGATGTTATGTGTAAAAAGCTCAGA
Celera SNP ID:            hCV2034269
SNP Position Genomic:     66422
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12917):
ATCCAGAAATACGATCTACACACAGAAAGTAGCTATTAACCTCCTGCAGAGAAAGATTTGTACATTTGAGTATGAAAGTCTGTTAAAATATCTCATTGTA
R
ATGCTGACGGATTTTTCTTGTTGTCGTTAAAAGATGACTAAATGAAGTGTTAATATGTATCTTGTTTCTTTGGTTTCAGTTTTTCTGATGGCTAAGTTCC
Celera SNP ID:            hCV29330257
SNP Position Genomic:     70539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:12918):
ATCATTATGACTTCTTGCATTTCATAGGCACAGTATATTTTGTTACAACATCGTAAAACATTTCTACAAACATTTTAAGCAGAAAACCTACCACTTTTTA
Y
GTTTTTTTTTCAAAGTCCTCTTTGCTCTTAATCTACCAAATGTAGGCGTTCAATATTTTCAACATTTATTTGGATACCTATGATGTGCCTGTTACTGCAT
Celera SNP ID:            hCV29330259
SNP Position Genomic:     108854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12919):
TACAAACTTTCTCAAGTTACTTTGGGCCCAGTGTTTCCTTATTCATCAGTTGCAAATAGCAGCACTTGCCTCATAAGGTATCTATGAGAACTAAAAGAGA
Y
GTTATGTGTAAAAAGCTCAGAACCATGCTTTATTCATAGTAGGGGCTCAATTCATGTTGGTTAGTAATAAGCAAGATAAGTGTCTGACCACTAACACCTA
Celera SNP ID:            hCV2034270
SNP Position Genomic:     66501
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12920):
CTTTGAGATTGGCTTCTTTAACTTAAGCATGTGTTTTTTGCAGTTCATCCACATGTATTTTTATTGCTAAATAATATTTCGTTATATGGATATAATACAT
S
TTATGTATCTGTTCATCAGTTGATGGACATTTGGATTGTTCCCACTTTTGAGCTATTACAAATAATTCTGCTGTGAACATTTGTATACAGATTTTTGTGT
Celera SNP ID:            hCV3197740
SNP Position Genomic:     28393
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12921):
CTAAAAGAGATGTTATGTGTAAAAAGCTCAGAACCATGCTTTATTCATAGTAGGGGCTCAATTCATGTTGGTTAGTAATAAGCAAGATAAGTGTCTGACC
R
CTAACACCTAATTATTAGATTCCAATGTTGTGCTAGGCCTGTGAGATAATCAGTAACCATCTTTTGTCAATGATAATCCTTATAAAGCTAGTTTGACCTT
Celera SNP ID:            hCV2034271
SNP Position Genomic:     66591
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12922):
TCTATGCAGACGTGATTCAGTTAACAATATCGAGATGGGGGAGACTATCCTGGATTATCCAGGTGGGCCCTAAATGCAGTCATGTGTGTTCTTAAAAGGG
W
TGGTTGCTAAGAAGAAGGCAGAGGGGGATTTGCCTGTAGAGAGAAGAGTAGAGGCAAGGTGACTACAGAAAAAAAGAATGGAATGACATTGCCACAGCCG
Celera SNP ID:            hCV3197741
SNP Position Genomic:     28878
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12923):
ATCTTTTGTCAATGATAATCCTTATAAAGCTAGTTTGACCTTTTATTCATAATGTAAAAACAGCCTTTGCATTATATTTTGCTGTGTTGTCTAACAGGAG
M
AAAGAGACACGGATTTGCTCTGTGCTTTAATCCTCTGAGATAGATATTTAGGACCGTGACCAATTTTTATTTTGGTTGAAAAATCTTATTTGAAGTTGAG
Celera SNP ID:            hCV2034272
SNP Position Genomic:     66750
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,3)      total(A,3|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12924):
TCTTTATATATTTCACTTGAATTGGTAAAATGACAGCACTAGTAGACTGTGAAAAGTGATGTATCTATAATGTATTTCCTAGAGCAACCACTTAAAAAGC
K
ATACAAAGAGAGACACTTAAAAACGCTATAGATAAATCAAAATTGAATTCTAAAAAAATGTTCAAGCAGCCCATAGGAAGGTAAGAGAAAGCAAACACAG
Celera SNP ID:            hCV3197742
SNP Position Genomic:     36324
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12925):
ACCTCGTGATCCGCCCGCCTCGGCCTCCCAAGGTGCTGGGATTACAGGAGTGAGCCACCGCGCCTGGCCAACAATTTTCTTAAAGGAAGCTATTGTGGTC
R
AATAAAGGTTTGGAGGTCTGAGCTCTCCCCCCTTCATGCTTGTTCAGTCCTCTTCTTACTCCTTTTTCATAGAACACAGTTTGAAAACTGCCAGTCCCTT
Celera SNP ID:            hCV322414
SNP Position Genomic:     104535
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12926):
ACATCGTAAAACATTTCTACAAACATTTTAAGCAGAAAACCTACCACTTTTTATGTTTTTTTTTCAAAGTCCTCTTTGCTCTTAATCTACCAAATGTAGG
Y
GTTCAATATTTTCAACATTTATTTGGATACCTATGATGTGCCTGTTACTGCATGAGTCCCTGTGGGAGAGTCTAAGGACCATGAAGCATGTCTTCTGCCT
Celera SNP ID:            hCV29330260
SNP Position Genomic:     108901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12927):
AAAACAGCCTTTGCATTATATTTTGCTGTGTTGTCTAACAGGAGCAAAGAGACACGGATTTGCTCTGTGCTTTAATCCTCTGAGATAGATATTTAGGACC
R
TGACCAATTTTTATTTTGGTTGAAAAATCTTATTTGAAGTTGAGCTAAAGAGGAATATTTACACAGCCCAGTAAACCCTGGAATAAAAGCATAAATCAAT
Celera SNP ID:            hCV2034273
SNP Position Genomic:     66806
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12928):
ATTACAATGGTGGAGAGTAATTGAGGTTTTTGCCATTACTTTTAATAGTGAAATAAAATCTTCTTACTTAAACCTATATGTATTTATTCATAGTACGAGT
W
TGTTTTTAACCCTCTGTGTGCCACATTGTACTGGTGCTATAATGATAAAAAAGCACATTTGATGCCTGCTTGCTCTGGGAGCTTACAGTCCAATACAGGC
Celera SNP ID:            hCV3197744
SNP Position Genomic:     62648
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12929):
TGAGCTAAAGAGGAATATTTACACAGCCCAGTAAACCCTGGAATAAAAGCATAAATCAATTCCTTTATTTCACACATAAATATTGATTAGACAATAACCC
R
TCTGGGGAAGGGATATTTCTTTCAGTGGAAGTCGGAGCAGTGAAAATTCGTGCTTGAGAAGAAAACTATGACAGAAAGGACATTATAGTGGATCACTGTC
Celera SNP ID:            hCV2034274
SNP Position Genomic:     66947
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,18)   caucasian(A,21|G,19)   total(A,41|G,37)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;(A,-|G,-)   JBIC-allele(G,397|A,1078)   total(G,397|A,1078)   (G,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12930):
GCAAGTTTGACTCCTAGTGTGAAATGAAAGGCGTGAGGTTTTGTGACACAGAGGACCCCAAACCACATTTTCCATAATCAGTACAAAAATCACCTCTTAA
Y
TGGTGAAAATATTGACAGATAGTTATGAATTAGCTTCTCATTCTTTCCTCGCAAGACCTACTAGCCAGCATTCAGCCTCTACGTAGCAAACACACCGTGT
Celera SNP ID:            hCV3197745
SNP Position Genomic:     62869
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12931):
AGGACCCCAAACCACATTTTCCATAATCAGTACAAAAATCACCTCTTAATTGGTGAAAATATTGACAGATAGTTATGAATTAGCTTCTCATTCTTTCCTC
R
CAAGACCTACTAGCCAGCATTCAGCCTCTACGTAGCAAACACACCGTGTATATTTATTAAGTAAGTTTATTCAAATGGTATGTTCATACACCATACACAT
Celera SNP ID:            hCV3197746
SNP Position Genomic:     62920
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12932):
CAGAAATAAGAAAGGAGAGGATCTAAGGCAGCTTACCCAGTTGGGGACTGCCTGAGAGCCACAAGAGGCTTTTGGATATGGGCAAACAGTAAGAGAGAAA
Y
ATCCAGGGCTCCAAAATGGGCTTTCACAATCTTGGCTATGGGGTAAATCCTTGACCCACTAGGGCCTTTTCCCTGACATGAAGAGCTGCCTAAAGATTCC
Celera SNP ID:            hCV2034277
SNP Position Genomic:     80429
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12933):
GATATTAATAAAATCAATGATGCCATAGCTGACCAAATGGCCCTTTTCATTCAGCGCATGACCTCGACCATCTGTGGTTTCCTGTTGGGATTTTTCAGGG
K
TTGGAAACTGACCTTGGTTATTATTTCTGTCAGCCCTCTCATTGGGATTGGAGCAGCCACCATTGGTCTGGTAAGAATGTCTTTTTGCATCTCTCCATGG
Celera SNP ID:            hCV27859362
SNP Position Genomic:     43534
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12934):
CAAAAATCACCTCTTAATTGGTGAAAATATTGACAGATAGTTATGAATTAGCTTCTCATTCTTTCCTCGCAAGACCTACTAGCCAGCATTCAGCCTCTAC
S
TAGCAAACACACCGTGTATATTTATTAAGTAAGTTTATTCAAATGGTATGTTCATACACCATACACATGACGGACGGCTTAAAATCCGCAAATTTCCTTA
Celera SNP ID:            hCV3197747
SNP Position Genomic:     62952
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12935):
TTTTTGATTTTACAGGCTCATAGTTGTAAGGGACTTGCCTTGTCTCATATGAGACTTTGGACTTAGACTTTTGAGTTAATGCTTAAATGAGTTAAGACTT
R
GGGGACTGTTGAGAAGGCATGACTGTGTTTTGAAATGTAAGAAGGACATGAGTTTTTGGAGGGGTCAGGGGCGGAATGATATGGTTTGGCTTTGTGTCCC
Celera SNP ID:            hCV2034278
SNP Position Genomic:     81608
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12936):
CAGGTATGAGAAAAATCTTGTGTTCGCCCAGCGTTGGGGAATTAGAAAAGGAATAGTGATGGGATTCTTTACTGGATTCGTGTGGTGTCTCATCTTTTTG
W
GTTATGCACTGGCCTTCTGGTACGGCTCCACACTTGTCCTGGATGAAGGAGAATATACACCAGGAACCCTTGTCCAGGTACCTTGGACTTATTGACCGAG
Celera SNP ID:            hCV27859363
SNP Position Genomic:     51128
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12937):
CTACTAGCCAGCATTCAGCCTCTACGTAGCAAACACACCGTGTATATTTATTAAGTAAGTTTATTCAAATGGTATGTTCATACACCATACACATGACGGA
Y
GGCTTAAAATCCGCAAATTTCCTTACTGTTAATCCATGATCAGTAAATTAGTACTATATTTCTAACTTAATGGATTTTTTTTCTTTAACTAATTGGCATA
Celera SNP ID:            hCV3197748
SNP Position Genomic:     63027
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12938):
TAAGACTTGGGGGACTGTTGAGAAGGCATGACTGTGTTTTGAAATGTAAGAAGGACATGAGTTTTTGGAGGGGTCAGGGGCGGAATGATATGGTTTGGCT
Y
TGTGTCCCCACCCAAATCTCGTGTCAAACTGTAATCCCCACATGTTGAAGAAGGGAACTGGTGGAAGGTGACTAGATCATGGGAGGAGATTTCCCCCTTG
Celera SNP ID:            hCV2034279
SNP Position Genomic:     81700
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12939):
TAGGCTTCAGTAAGAGCATCTCTAATTTTGATCCTCCCATCCACAGGACAACTTCCAGGGGAAGATTGATTTTGTTGATTGTAAATTTACATATCCTTCT
Y
GACCTGACTCGCAAGTTCTGAATGGTCTCTCAGTGTCGATTAGTCCAGGGCAGACACTGGCGTTTGTTGGGAGCAGTGGATGTGGCAAAAGCACTAGCAT
Celera SNP ID:            hCV27859364
SNP Position Genomic:     106523
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:12940):
TGATCAGTAAATTAGTACTATATTTCTAACTTAATGGATTTTTTTTCTTTAACTAATTGGCATAGTCTCCTTATCCTAGTATGTCAGGAGTATTTTAAAT
Y
AGATTTTGGGACATAATTTTAAAAGTTAACATGTCTTATTTACTTCACCTGTGTTAATGTGCATCATTTTACTTCTTGGTCATGGCTCTCAGTTAAATAA
Celera SNP ID:            hCV3197749
SNP Position Genomic:     63164
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:12941):
ATCGCCCTTTCAACATGTTTCATTGTCAGGTTAAAACAAACTTTAAAAAACTACATAAAGGTTATTGGAGATTTTTCTCCCTGAAGCTGCTCTGTGTTTG
Y
GATGATTTTATGATCATTTTGTAAAACCACTGCATCACGGCCTGTTTTAAACATTATAACTTGAGCTGTTTCTGCCGAAATTGACTCAAGCATTTTGTCT
Celera SNP ID:            hCV25634325
SNP Position Genomic:     50924
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,38)   total(C,66|T,2)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12942):
TTTTCCTCAGTGTCATAGTAGGAGCTTTAAATCTTGGCAATGCCTCTCCTTGTTTGGAAGCCTTTGCAACTGGACGTGCAGCAGCCACCAGCATTTTTGA
R
ACAATAGACAGGGTATGTATAAGCCAAAAGTAAAGGCCATTAACAGGTGGGGGCTGGGGGGTGGGGCACAGAATGAACTCCTGAAGAATTTACCTTAAAG
Celera SNP ID:            hCV25634254
SNP Position Genomic:     57437
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:12943):
AACTTTAAAAAACTACATAAAGGTTATTGGAGATTTTTCTCCCTGAAGCTGCTCTGTGTTTGCGATGATTTTATGATCATTTTGTAAAACCACTGCATCA
Y
GGCCTGTTTTAAACATTATAACTTGAGCTGTTTCTGCCGAAATTGACTCAAGCATTTTGTCTTCACAGGTATGAGAAAAATCTTGTGTTCGCCCAGCGTT
Celera SNP ID:            hCV25634327
SNP Position Genomic:     50962
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,37|T,1)   total(C,65|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:12944):
CTCCCTGAAGCTGCTCTGTGTTTGCGATGATTTTATGATCATTTTGTAAAACCACTGCATCACGGCCTGTTTTAAACATTATAACTTGAGCTGTTTCTGC
Y
GAAATTGACTCAAGCATTTTGTCTTCACAGGTATGAGAAAAATCTTGTGTTCGCCCAGCGTTGGGGAATTAGAAAAGGAATAGTGATGGGATTCTTTACT
Celera SNP ID:            hCV25634328
SNP Position Genomic:     51000
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,37|T,1)   total(C,67|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:12945):
GTTTATTCAAACAAATTTTAAGAAATGCTAGTTTGACTGAATTTACTGAATTTGGCAAATAACAAAGCAATAGCTTCACATTACTCTGTCATGTAAAAGG
K
ATAAAACAATGTTATAGGCACCTGGTAGTAAGTTTAGTCATGCTTTTCTGATTCGATACTAAATTTAAATCATTCAAGTCATTAGAATCACAACCTGAAA
Celera SNP ID:            hCV27926451
SNP Position Genomic:     70076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12946):
CCACCTTGATATTTGTTTTGGTGAAATTTCACTTGGATGCAAAATGGTAGAGAAAGATATGTGAATGGATTCATCTAGATGGCACTAAAACAGTTGATGC
M
GGTCTCCTCATCACTCACATCTCTCTCTTTACACCATTTACTTCAGGTGATTCTTTCTAAAACACAGTCTTCAGCATTGCCTCTTAACCATTAAGACTGT
Celera SNP ID:            hCV27479154
SNP Position Genomic:     71604
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,112|A,1387)   total(A,1387|C,112) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12947):
CTGAAAAAATCCAGAATCTGAAACGTTTCTGGTCCCAAGCATTTCTGATAAGAAATATTCAATCTGTATTATGATTGTGGCTCTAGAAGGTCAAAGGATA
Y
GCAATTTATTTCACAGTGCCCCTGGACTGTCTTAGTTTTTTAAGCAAAAGAAATATCCTTCATCAACATACTCTTTAATTTTGGAAAGTATTGTATTGCC
Celera SNP ID:            hCV894356
SNP Position Genomic:     110632
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12948):
ACAAAAAGTAGTGTATTTATTTTCAGATGTAGATAAATACTTCAGGCCCTAGTATATCTTTTCCTTATCAGTTTGAATTTTCAGACTTGGGTTTTCCTAT
Y
TTTCTTCTTGAGAACAAGTTTATTCAAACAAATTTTAAGAAATGCTAGTTTGACTGAATTTACTGAATTTGGCAAATAACAAAGCAATAGCTTCACATTA
Celera SNP ID:            hCV27479155
SNP Position Genomic:     69958
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   (C,-|T,-)   JBIC-allele(T,520|C,957)   total(C,957|T,520)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12949):
ACTCTTTAATTTTGGAAAGTATTGTATTGCCCAATGCAATGGATGCTATTTTTGTTGAATTTTTTTGTACATTGAGCTTTAGTTTAGCATAGTGGGGAAA
M
ACCTGAGATTTGGAGCTGACCTGGGCTTGCATCCAAGCTTTGCCACTTAGTAGCTTCATAGCTTTGGGACAATTATCCTTTCTGAGATTGTCTATTTCAT
Celera SNP ID:            hCV894357
SNP Position Genomic:     110802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12950):
CAAACATAACAGAGTTTTCCTTTTTCACAGACATCTCATCTCTGATTGGGTATTCTTTACTACCTACCACCATAACTGCACTCTGAATATATAGAAATCA
Y
AGTTTCTTGATGTAAGATTTTTACATTTTTACTAATAGTGATTTTTATTTGCTCCCACTGATAGTTTCACTTGCTTTTTAACAGCAAAGTGTTATTTGAT
Celera SNP ID:            hCV27479156
SNP Position Genomic:     64731
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,118|T,1377)   total(C,118|T,1377) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12951):
CCAAATTGTAGGGCCAAATTTTACCTTTAACCTTCTCTACTTACTTTTTAAAAATATCCCTGGGAAAATTGTTTTTCTTTATAAGTGATTATGTTTATAA
R
TTTTGTGGGTTTGTGGAAGGCTTTTTGTTTGCTCTTTTCACAAAGTCTCCTAAGTTTTAGGCTCTTGGCCCAGTTCTTACCTGTTAGCCCAAACTATAAG
Celera SNP ID:            hCV894358
SNP Position Genomic:     111267
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12952):
AGGAACCACCTGCCATAATTGAGGACAAGGAAATGAAGAGATAATTTTTGTCCCTATGCATAGGCTGGGATTCTAGGGAGAAAGCGTGAGTGGACTAACC
Y
ACCACCCATGTATGGCAGCCCTGGCCCTGTTAATCATCCTAATGTGTGGAATGAAGAGGTTACTGAAGAGGGAGAGACATGGCTGAGAGGCTCTGACACT
Celera SNP ID:            hCV27479157
SNP Position Genomic:     56025
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,318|C,1167)   total(C,1167|T,318)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12953):
CTGAATCCAGAGATCAAAAGCAAAGATTGTGTGTCTCCTGGAAGATTCATTTATCCCACAAACCCTTATTGAATAGCTACTCATGTTGGGCAAGGCACTG
K
CATGGAGCTGGTTTACTGCATTGTCCTCATACAGACTTGCCCGTGGCACCCTTCTCTGAGCACTTTGTCTCCACAAAGACAAAGCAGGTTTTCATGGGTC
Celera SNP ID:            hCV894359
SNP Position Genomic:     111488
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12954):
ATATGTTTGTAAACTGGCATTTTTAATGACAGTCGCTTCATCACTTCCGCTTACAGTGCTTGTAGAATAAAGACACCACAGGAAATTTAAGTTATTTATT
R
TTATCATTTTAATTGTCACATAAGTATACATATTTATGGGATATAGTGTGATGTTTTGATGCATGTATACAATGTGTAATGATCAAATCGAATAATTAGC
Celera SNP ID:            hCV27479158
SNP Position Genomic:     38718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12955):
GTGAATATTAACTTCCCATATATACTTAGAACTAACTTTGGAGATTCTCTAGTCTGAATTGATCAATTTGACTTATTCTATTTAAAACCTTATTGTTTTA
R
TTGATAATTTTTTTTAATTTTTGTAGATAGATACCAAGTAGGTGTATATATTTATGGGGTACATGAGAGGTTTTGATACAAGCATGCAATGTGAAGTAAG
Celera SNP ID:            hCV15912688
SNP Position Genomic:     94540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12956):
GATAGTAAAATGCAAGAGAAATCTGAAAACCAATACAAAGAAATCAGAAATCAATTCAGGATATGAATGAGAAATTTACCAAGGAGATAAATAGCATTTT
W
AAAAAATAAGCAGAAATTCTGGAACTCAAAAATTCATTGAAGGAAATACAACATACACTTTAAAGCTTAAATCATATACTAGACCAAGCAGAGATAAGAA
Celera SNP ID:            hCV2034280
SNP Position Genomic:     82207
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|T,5)      total(A,4|T,5) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12957):
TCATATGTTGATGGCCTCTCCTGCTCCACAAACTCCTACCTTGGCATCCATTGCTCTGCATTTGCTTTTTAGGTCCTTGACCTTAAGTCTCCTCCTATCA
W
GCACCTTGTTCTCACCAGCTGACACAAGCCTATTCTGCACACCTTCTGGAGAAGACATCCTGACCTCTGTTACCTAACTGGGAGAAATGACTTCATTGCT
Celera SNP ID:            hCV3197750
SNP Position Genomic:     71114
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12958):
CTAAGTGTTGTTGTTTAGAGTTAAGGATAACTTCAGGTATCAGAAGGTTGGGAAAATTTCTATCATGTCAGGCTGTGGGTGGACCATCCTGTGGGGCAAT
S
GTTCCAGAAAATGCTGGTATTTAATGTCACAAGGAAGCTGGCAGAATTTAGTGAGTGCTAATAGTCTTCACAAGTTCCAAAGCCTACCCTTTGATGGTAC
Celera SNP ID:            hCV3197751
SNP Position Genomic:     76889
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12959):
TTGAGGTCACTCATAACTAATCAAACTATGACTCTTAAATCTGTGAATGCCAAAGGATCTGCTGCAAAATGTCTTGAGTACATTTAGATGATTAATATAA
M
CCTCTCTCTGCTCAAGGACAAGGACATTCCTGTGCAGGAAGAAGTTGAACCTGCCCCAGTTAGGAGGATTCTGAAATTCAGTGCTCCAGAATGGCCCTAC
Celera SNP ID:            hCV3197752
SNP Position Genomic:     79170
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:12960):
TTCTTCTCATACCTTTTATTTTATTATTTTGATAAGTCCGCTCTTTGTTTTCATGTATTTAGCTCTTTTCTGTTAGTTCATTTTTCTCATCTCTAAAGAA
Y
GAAAAATTTCCTAAGCCTCCATCACACAGAGGGTAAGAAGGCAAAGCTGAGAACTCTCATTTGGGCTCGCAGGGCACTCAGACAGTCATTGTACCTATAA
Celera SNP ID:            hCV3197753
SNP Position Genomic:     79478
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12961):
AGGCAGCTTACCCAGTTGGGGACTGCCTGAGAGCCACAAGAGGCTTTTGGATATGGGCAAACAGTAAGAGAGAAACATCCAGGGCTCCAAAATGGGCTTT
Y
ACAATCTTGGCTATGGGGTAAATCCTTGACCCACTAGGGCCTTTTCCCTGACATGAAGAGCTGCCTAAAGATTCCACGGAGATGTTACTCCAAAAGGGAA
Celera SNP ID:            hCV3197754
SNP Position Genomic:     80454
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12962):
ATCAGCAAACAAACATTGGACATAAACTGGATTTTATATCAAACTTAACAGACATTTACAGAACATTCTACCCAACAACTACAGAATGTACAGTCTTTTC
M
TCAGGATATGGAACATTTTGCAAGATAGATCAGATATTAGGCCACAAAACAAGTCTTAATGAATTTTTTAAAAACTGAAGCCATATCAAGTATCTTCTCA
Celera SNP ID:            hCV2034285
SNP Position Genomic:     84153
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|A,5)      total(A,5|C,5) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12963):
GGGACTGCCTGAGAGCCACAAGAGGCTTTTGGATATGGGCAAACAGTAAGAGAGAAACATCCAGGGCTCCAAAATGGGCTTTCACAATCTTGGCTATGGG
R
TAAATCCTTGACCCACTAGGGCCTTTTCCCTGACATGAAGAGCTGCCTAAAGATTCCACGGAGATGTTACTCCAAAAGGGAAACCCACACAGAATCACAC
Celera SNP ID:            hCV3197755
SNP Position Genomic:     80472
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12964):
TTACCAATGTCATTTTTCACAGAATTAGAAAAAAACAATTTTAAAATTCACATGGAACTAAAAAAAAGAGCCCTAATAGCCAAAGCAATCCTAAGCAAAA
R
GAACAAAGCTAAAGGTATCATATTATTTGGCTGACTAAATTATTCTACCAAGGTATACAAATAGACACATAGATCAATGGAACAGAATAGAGAACCCAGA
Celera SNP ID:            hCV2034286
SNP Position Genomic:     86111
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|A,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12965):
CTTTGAAAAAGTCAACAAAAATATTCATTGAAGAAGTGACACCCTACTCAATAAAAGGTGCTGGAAAAATTGGATAGCAGTATGCAGAAGAAAGAAATTA
S
ACCCATACCTCTCACCACTTACAAAATTAACACAAGATAGATAGAACACCTAAACATAGACCTGAAACTATAAAAATACTAGAAGAAAACCTAGGAAAAA
Celera SNP ID:            hCV2034287
SNP Position Genomic:     86342
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12966):
TACAAAATTAACACAAGATAGATAGAACACCTAAACATAGACCTGAAACTATAAAAATACTAGAAGAAAACCTAGGAAAAACTCTTCTGGACATTTGCTT
R
GGCAAAGAATTTAATTCAAAGTCCTCAAAAGCAAACACAACCAAAACAAAAATAGACAAATGGGAATAAATTAAGCTAAAAAGCTTTTGCACAGCAAAAG
Celera SNP ID:            hCV2034288
SNP Position Genomic:     86462
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12967):
GAACCACATTTCAAGAGGAATTGTTTCCATTAGAATCTTATTGGCCTCTATTTTTTCTGCCCATTGGTCAAGTATGACATAATATTATGATTCAGAACCC
Y
GAAAGATTCCAAAAGTTGTGATGTTGTGCCCATGCTCTCTAGGTGACCGTGGATGGCCATGACATTCGCTCTCTTAACATTCAGTGGCTTAGAGATCAGA
Celera SNP ID:            hCV25634263
SNP Position Genomic:     65221
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:12968):
CCTGGCTTAAAGGAGCATTCCTCAGGAGGCAAGGGAAGCAGGGAAAGGAAACAGCTCGTGTTGTGGAAGGCAAGGAAGAGAAGTAGTCAAGGCAAGGACT
Y
AGAGGAGAGCAAGATTCACTTTCATCTGGATTCAGATTTCACTTTCACTGCTTGTTACTTGTCCTCGCACCATTTTCTTACCTCCCTGTGCCTAAGTTTT
Celera SNP ID:            hCV894360
SNP Position Genomic:     111692
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12969):
ATTGTTTTTAGCTGTTGATTAATGGCAGCAACAGGGCCAGTGTGTGTTGGGGTTTATGGCTGCAAGAAAATGTGCTGGCCTTTTCTAATGTCTGCACAGC
M
TATTTAAGAATATTCCCAGGGACCAAGGATCTAACTTTCCTATGGATTCTGAAATGATGCAAAGGTCAGTGTCAGCTCTGTCTCACAGTTTTGTTTAATG
Celera SNP ID:            hCV25634264
SNP Position Genomic:     67641
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,30)   caucasian(A,1|C,39)   total(A,3|C,69)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:12970):
AAGCAAACATAGTAAAGAATTCTACTTGGATATGGTTCTGTTTATTGTATATACTAAAAAATTGCTCATGCTGTGTTGAGTAGATGCAACTGAAGATGAC
R
TGCTTGCGAGGACCTTTAGCAGAGGGAGCTACCAGGATAGTTTAAGGTAAGCTCAAGCCATGGGGCAGATTACAAGCTTTCCAAATATTCTGAGGAGTCC
Celera SNP ID:            hCV25634265
SNP Position Genomic:     68842
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,39|G,1)   total(A,73|G,5)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12971):
TTTTGTGTTATGCACTGGCCTTCTGGTACGGCTCCACACTTGTCCTGGATGAAGGAGAATATACACCAGGAACCCTTGTCCAGGTACCTTGGACTTATTG
W
CCGAGACATAGCATTTCCTTCTGGTATCTCAGAAAAGTCCATGGATTAGATATTTTGTTTATTACTTTGGTGCCTTCAGGAAAAAAGCATCAATGATTTT
Celera SNP ID:            hCV25634338
SNP Position Genomic:     51223
SNP Source:               Applera
Population(Allele,Count): african american(A,22|T,2)   caucasian(A,36)   total(A,58|T,2)
SNP Type:                 INTRON


Gene Number:                 3
Celera Gene:                 hCG15017 - 145000147699189
Gene Symbol:                 FOP
Protein Name:                FGFR1 oncogene partner;FOP
Celera Genomic Axis:         GA_x54KRFTF0F9(3514320..3568840)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12163):
AAAGTAAGCTAAAGAAAACGTTTTAAGGAAATCATGAGGAGAAAATATATTTACTCTCCATTAAGTGTAAGTGAATCATCATAAATGTCTCCGTCCTCAT
AATTTTCACCTTGATAGGCTGAGAAGCGGGGGTTGGCTTTGCTGTCTCAGGGGTGGCAGAAGTAGAAGAGGTGGAAGAGGAGGCAGGAGAGGGAGGCACA
ATAAGTGTAATCTGATGGAGATACATCATAATTTGTCTGACTTTTTTGCTTTTCCATTTCTCTAAACATGTTTCCATTTAGCACCAATTCTTCTTCCACC
ATTTGCTTTAGATTCAGTGCCTGTTTCATAGAAAAGTCCATGTTATAAGAGAAGTCAAAAGCCATATTGAATAAGTGGAACCCTTCTGCCAGATTGTCTA
ATGTCAATTTGTTTTCTGGCACTGCTTCGTCTTCTTCCTCATCGTCTGGCACTGGGTTCAGAAGGAGTCATCTCCATCAAGTGGTCTTCTGTTAATTCCT
CTGGTGTGGTGTCTCTTAGCTCTTGAATTTCTCCAAGATTTGTATCTTGAAACCTTTTTTGCCATATCTGCAATCTCTTTCATGATTTCCTTGATTGGCT
CTGTCATAAATCCTGTGAAGTGATGCACAACATCTGGAGTTTCCTCCAGCAGGAATTTGTTTGGGCTTGATGGCTTTTCATGGTTTTTTCTGAAACAACA
ATGGCATCTTCAATGGTGTAATCCTTTCAGACGTTCATGATATTCTCTCAATTGGGGTTCTCTTCCACAGAGTACTGTGTGTAATGATCCTTAAAGTCCT
TATGACTCCCTTATCTAGAGGTTGAATTAGAGGTGTTGTGTTTAGGCGCATGTAGACCATTTCAATGTGTTTGTATTGAACTCATGGGGTTCTGGGTGGC
CAGGGGCATTGTCCAATATCAAAAGAACATTAAAGGCAATCCCTTACTGGCAAGGTACTTCCCGACTTTAAAAACAAAGCATTTATATAACTGATCCAGA
AAAAGAGTTGCTGCTCAGCCATCTTGCTGTACAACCAAAAGAGTGGCAGGCAGTGTTTCTTTTCCCTTCAAGGCTCAATTTTATAGATAAGGGCAGTCCT
GATCATACATCTGGCTGCATTTGCACAAAACAGTACAGTTAGCCCATCCCTTCCYGCCTTGGATCCTGATGTTCACTTCTCTTCCTAATAAATATCCTCT
GTGGCACTATTTTCCCCCAGAATAGGGCATTTTCGTTTGCCTTAAAAACCTGTTCAGGCAGATATCTTTTCTCCTCAGTGATTTTCTCTATTTTTTTTAT
TTTTATTATTTATTTATTTTTTTTTTGAGAGAGTCTCATTCTGTCTCCCAGGCTGGAGTGCAGTGGTGCAATCTCACTGTAACCTCTGCCTCCTGGGTTC
AAGCGATTCTCATGCCTTAGCCTCCTCAGTAGCTGGGATTACAGATGTGCACCACCACACCTGGCTAAATTTTGTATTTTTAGAAGAGACAGGGTTTTGC
CATGTTGGCCAGGCTGGTCTCGAACTCCTGGCTTCAAGCAATCCACCCACCTCAGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACAAAGCCTGGC
CTTTTGTCCTCAATAATTTCCTTAATGGTGTCTGGGAACTCGTCGGCTGCATCTGGGTCAGCAGAAGCTGCTTCTCCTGTTATCTTGACATTTTTTGAAA
GCCAAACCACTTTTTAAAATTATCATACCATCCTTCATCTTCCTTTTGCTTTGTCAGATAATGACTTCACTTTTTCTTGAATATTAGATTATATAGGTAT
GCCTTTCTCATAGCAATCCTGCACCCACAAAAAGCTGCGTTTGCAATATGAGATAAAAAGGTATTTCCCAAAAAGTGCAAGGTTTTCATGCTTGGTGTAG
CTGCAGCGATGGCTTCATAAACTTCCTTTTGTTTTTATACCACAGTCCTTATACTGGATTCATTTATCTTAAAATGGCAGGCGACCTTAGCTGCAGACCT
CAATCTACAATACACAGCAAGCAATTCCGCTTTTTCTGTAATGTCATTAACTTTTCTCTGATTCTTGGGAGCATTTCCAGCACCACTAGCGGCACTTCGT
AATGGTCCCATGGTGTTACGCAAGGTTTACAGTACTGCAGTGAACACAACGAGAAATATGTGAGAACCTCAAGAGCTTACCTTTTACTGTGATATGCAAT
GTACTGGAGAGATCAACTGCTCACTCAGAGATGATTATGTTACTTGGAATTTTTAGCCAATACCAGCAACACTGACGCTCACTGCAATAGCAACAGGAGG
TGGCTACAAAATCATTACAGTAGTACTCTATGTACTACAGTGAATTTGATGCAGTTATTATTTAATATTGCATCTTTACAACTGTTTACACCTCTCTTGA
ACCTAATGGGTGCCATGTAACTGTCTGTTTGTATGTGTAAGTTTTGATAAATTTTAACTTTTTATAACAGGCTTGTATATATTTTATGATAGTAAATAAT
AAAATGGCCTAGTATCTACATATATTTTATGCATTCATGACATATCTAGCTTTTTCTTTTCTTTTTTTTTCCATATTTCTTGGCTAAGCGATTCATCTGT
GAGGTTTTTCACAAAATTGTTGCCATCGCCAAAAATATTCCATTTACTGAAAAAAATCCACATATAAGTGTACTCACGCAGTTCAAACTAATGTTGTTCA
AGAGTCAACTGTATAAAAGGTATTAATATGTCTGGAAAGAGATATGTTTCCAATTTAACAGACACTACCAATGAGGAGAAGAGTTGGGCTAGGCAGGAAA
CTTCAAATTTTCCTTTTTTACTTTATATATTCTATTGTATCTCAACTTATAACCTGTGGACCACGTTTATTAGAAGAAAATGCAGATTCCTGAAACTTCC
TGCAGACCCCATGAGTGACAATCTCAGGGAGATGGAGTTCCAGAGTCTGCTTTTTTTCATAGATGTTTCTTTGTCATTCCTGTGTATATCTGAGTTTCAG
TAGCACTGCTAATCAATTGTTTGGGGTTCTCTCTCCTTCACCAGCATGTTCTTGCAAAACTAACCAAACACATACAAAGCGCAAACAGTACAATAGTGCA
CTGCACCTTCATGACCCTTACCTGTTCCAGCCTCTTCCTACCTCTTCCACATGTGATATGTGTGTACATACCCACAGACAGAAACACAGAGACATGTTTG
GAAGCCAGTGTGGATGCCCTGTGATCTGTGTGTACACATGACAAGTGCATACACACGCACATAAAGGAACCCAGAGACGTGTTTGGAAGCCAGTGTGGAC
ACCCTGTGATCTGTGCGTACACATTTGACACCTGCGTACACACTCACAGACAGAAACACAGAGATGTGTTTGGAAGCCAGCGTGGATGCCCTGTGATCTC
TGCATACACGTGACACATGCATGCACAGGCCCATACAGGAGCAGAGAGACACATTTGGAAGCCGATGTACGCCCTGTGATCTGTGCGTACACGTGACACA
TGCGTACACACCCACTGACAAGAACACAGAGACGTGTTTGGAAGCCAGTGTGGACGCCCTGTAATCTGTGTGTACACACGTGACACATGCGTGCACACCC
ACTGACAAGAACAGAGACCCATTTGGAAGCCAGTGTGGGTGCCCTGTGATCTGATCTGTGTGTACACATGTGACACGTGCATCCACACCCACTGACAAGC
ACACAAGAGACACATTTGAAAGCCAGTGTGGATGCCTTGTGATCTGTGTGTACACATGTGACATGGGCATATGCACCTACAGACAGAAACGCAGAGATGC
ATTTGGAAGTCACTGTGGATACCTTGTCATCTGTGTGTACACATGAGACACTTGCATACACACCCACATACAGGAACACAGAGACACGTTTGGAAGCCAG
TGTGGATGTCCTGTGATCTGTGTGCACACGTTACACGTGTACACAACCACTGACAAGAACATGGAGACACATTTGGAAGCTAGTGTGGACGCCCTGTAAT
CTGTGCATACACATGTGATACGTGTGTGCACACCCACTGACAAGAACATGGAGACCCATTTGGAAGGCAGTGTGGATGCCCTGTGATCTGTGTGCACACA
TGTGACACGTGCATGCACATCCACAGACAGAAACACAGAGACACGTTTGGAAGGCAGTGTGGATGCCCTGTGATCTGTGTGTATACGTGACACATGCATG
CAAACCCACTGACAAGAACACATAGATGCATTTGGAAGCCAGTGTGGACGCCATGTGATCTGTGCCCACACACATCACACGTGCATACACACCCACAGAC
AGGAACACAGAGACACATTTGGAAGCCAGTGTGGATGCCCTGTGATCTGTGTGTACACGTGACACGTGCGTACACACCCACATACAGGAACACAGCCACA
TTTGGAAGCCAGTGCAGACGCCCTGTGATCTGTGTGTACACATGTGACACGTGCGTGCACACTCACAGACAGGAACACAGAGACGCATTTGGAAGCCAGT
GTGGACATCCTGTGGTCTGCGCGTACACATGTGACAGGTACGTGCACGCCCACATACAGGAACACACAGAGGCCTTTGGAAGCCAGCATGGGCAGACAGG
CCCTATCCCAAAGCGGCCGGCAGGCGTCTCCTAAGAATGGTTCTCGGACACACCTCTGAAAGGAAAATACAACTCGGCACCGCAGTTGACTCGGCCAAAG
GAAAAAAACTTAAGCTGAAAGCTGAGGCCTGCCCGAAGGAGCCTTTCCTGTGGCGCCTGAGCCGAGGGCTTCAGGGAGAGGGCCGCGCATCGCAGCGCAG
CTGCCCGTCTTCCCGTGGCTTCCCTACGGCCGCGGCTCCCGCTGCTCCTTTCCGCCGGCCACGCGGGTCGCACGACCTTCCCCTCCCGCCCACCCTGAGG
CGCTGAAGCCCTCGACGCCGGCCTCGGGAAAGGCGCGGCCACCGCCCGTTTCGGATTCCCGTTTCCTTCCTCCAGGCGCGTCCTTCACCGTGGCCAAATC
AGCCTCTCAACTGCTGGAGCCCGGCCTCGGACACTTCTCGGCTTACGCCGCCATACAGTGGCGCACCCCGAAACCCCGGAACCGACAGCTCGGCTGGCCT
TGCGCACCCACACTCTCCAAGGCAGGGCTCGGTCCGGGGGCTGGTTTTGCCAAGGCGAGGGGCGAGGGGCAGCCCAGGCGGCCGGATGGATACCAAGAGG
GCGCGTCAGCTCCGGCGGGACGGGGCTTCCAGGGCCCGGGAGGGGTCCAGGACTCCCCGCCGGCGCCTGGCTGTCGGCGGAGGGCCGCGGGGCAGGAGGG
AGTGGAGACTGCGGCCCCAGTTCGGGCAGCGCGGAGCCCACCCAACGCCCTCCTCGGCCCTCGGCTCTTCCTGGGGCCATCCCGCCCCTGCACCTCGGCC
TGGCACCTTTCCGGTTAGCCTCGGAGGCCGTGGCCGAGCAGGGTGCGTTCGCCTGGCTGGGGGGCCTCAGAACGTTATTTCCGGGTGACAACCTGCAGGG
CCTTCCGCCCCTCGCGACCTCTCGGGAGTCCCTTCCCCGGCGCCCCCCCGGGGCTGCAGGGGCTGCAGGTTCGGTCTCGGGGCCTCCTTACCGCAGTCCG
CCCGGCTTTAGGCTAGTGGGCTTTAACTACGTCGATAATATGACTCCGGCGATCTTGTGCGGCGATGGGATGCGGCCGTGGGCGGTGGAGTCCAGGCGGA
GTCCGCTCTCCACACGCGAGGGCGCCTCCTCCTCACCGCTCGCCGGCTTCAAAGCTCGCGCCTCAGGCGACGGCAGCCAACGGGTTGCCGGCTGGAGGCC
CCGCCGACGCCCCGCCCCTTGCGTGCCCACCCGCGCCCCGCAGCCCCGCCCCCAGCGCCGACCCTAAGTTTCGGCGCTCAGTGGTCCGGCGCTCCCCAAG
GCTCGGTGTCCAGCGTCAACCCCGAGGTCTCTATGCCCCGCCTCCCGACGCCAGGGGGCAGGGCCAGCGCGCTGCGCGTCGGGGCGGGGCTTTGGCTGCG
TCGGCCGCGTAGCCCGCGCGCGGAGCGTACCCTGCTGCGGCCGTTGGCCGTTAGCGCGGCTTCGGCGGTTGTCTTGGAGAAGCAAGATGGCGGCGACGRC
GGCCGCAGTGGTGGCCGAGGAGGACACGGAGCTGCGGGACCTGCTGGTGCAGACGCTGGAGAACAGCGGGGTCCTGAACCGCATCAAGGTGAGGCCGGAG
GCTGGGGCCGGGCCTGGCGGATCCGCAGGGCTTGCGTGGACAGCGGGCGTCACAACGGTCGCGGCGAGGAGGCCGCCTCCCTGGCGAGGGACCGGGGCCG
GCGGGCACTGGGGGCGCGCCCCGGCATGGCCTCCGTCCTGCCCGCCCCACAGAGGGGGTCGGCTCGTTCGTTCGTGTGGTCCCGGAGGGCACCGCGGACT
GGGGGTGCCTGGCCCRTCCCCTGCCTCATTCCGTGGGGGCGGGACCGCGGGGCTTGGGGGCCACACGGGCGGCCCGCAGCTGGGCCCTGGAGTGCGGCCC
CAGCGTCTCTTCCTCAGGCTCGGGCATGATCCGCGGCGGGAAAGCAGCGCGTCCAGCCGAAGCCTGGGGGTCGGAGAGCTTGTGTGACTGAGAACGTTTC
GGAAGGCGTTTCTGACCTTTGCACCTGCCCTCCCAGCTCGTTGGCTTGCTCGTGTTTGTTGCTGGATMAATGTGAGCTTGTTGTGAAAATTGTCTTGAAA
TTATAATTTCCTGTTTCTTAACTTYTTTTTAAGGCTGAACTCCGAGCAGCTGTGTTTTTAGCACTAGAGGAGCAAGAAAAAGTAGAGGTATGAAGTTTCC
AGATTTTAACATGGCTGTATTCGTTAATACTTAATTTCTTATTYATTAAAAACCGTCTTAAAAATAGTTTATAGTAACATATAGCTAGGGATAATTTTGA
ACTGTTAAGGATTAYATTACTATTGWGAGAGAGCCAAAATTATTCTTTTTTCGTGTAGCTTTTGAATTTGGGRGTAATCTTAAGGTACCACAGTAACTCT
GATACTAATGCTTAATCTGAAACAAATGGTCATAGGAGTTTCTTGAAGAAATGGTGCCATTGTCAATGTGTTAAGTGCAGGTTCACTCAGATCCTTTAGT
AAGCTAATATGTTATTAATCCCTATGAAACGGGGTATATAGTATGCAACTTTTCCCAAAATTATCTGACCACTCAATTATTTTGACAATGAAAAAGACAG
CGATTATTTTAAAAGTGCAGCCACTACTCTATATTTAARTGGGTAATTTAACTTTTTCGGAGTCCCACCAACCATCCTGAGTAAATATTCTGGAATTTGT
CAACAAGAATAGAACCATCATCAAAGYCTTAAACTCTTGCTGTATGACAAATCAGTCTACTGTCCTCTCACTTCTTTAGACCTGTATACCTAATCTCTAA
TTTCATCAAAATCTTCAGTTCTTTGCCCTTTCCATGTCTGTGCAGGCATCAGTCTTCTCTTGGCAGCATTTTGCTYTGGACCCTATGGGTCTGGACCCCT
AATTACCTTGCCTTAACGGTCATACGTGGTCTGGAAGAAATCTCAGTGGTCATTTAACCCAGCAAACTAACTCTTCCCACTTTGCACATATGTGCTCTTG
GAGAAGAGTCAGTCAATCCTGTGGATTGCTGATGTTGCAAATTGGCAGGTACCAACCTGGTTAGGTCCTGAGCAGGCCCAGCAGCTCTCTTCTTCACCCT
AGCTGTGCAGTAGCCTTCTATGTCACCCCTGCTTCCTTCTCTCTGAACACATGGTCTTGTTGCTTCCTCCACAGGGAAGGTAGAAGCCATTAGATCCTAA
CTTTATGTCCTCCTCTCCTGTCCCTCAATCTATTGCTCACCTGTGAAAATGCTTACCTGTGTCTATRTTTATCTGTACCTCTTTCCTTACTGCTTTAGAA
GAAGAGGCTCTGTCCTGTCCAAGAATAATCACTCTGTCTTGTGTATACTTTCAAGTCTTTAATTATTTACTGTATCTTTGACCCCTTCCTTTTCTGATGG
CTTTTCTTTTGAGCTTGAAAACATGTTTAAATAACTATTAGGAGTAAACTGTTTTCCTTTACTCACATTCTGCTTTTAATACCGCTGTGGTTTTTTTCCT
TCACAACCTGGTTTTGACCACTCCTTGGTTTCTTTAGCATGATCTTTTTCCTGTACACCTGACTGAGACTTATCCACAGTTGTCATTCTGTACTGTCTCA
CAGACTGACCTTATTCATCCAGTAACTCCAGCCCTGTAACTTTCATGCATGTTTCTTTCCCGAGCTTCAGACCTGTATGTTAAACTGCCCACTGTATTAT
GCCCTTAATGGGACCATCATTTATCTGGCAAGAAATCTAAGCGTTTCTTAGGCCTTGCTCTTCTTTCCACCTGCTCAGCCATCACCTGGCTCTGTGTCTG
TCAGGTGTGTATCTGAAGTGTCCCCAAGGGAGTGCTCTGCTGCCTCCTTTGTGCTTGTTTYTTCTTTTCCAGATTGCCTTATCCCCTTCCTACTTGCCAG
TCTCCGTTTCCGTGGTGTCCCTCACCATCTCCCTGAAGTCCTTTTTCCACATTGCTCCTAGATTGGCTGTTTATAGTACACATCTGATCTTGTCCCTCCA
TTCTCTTAAAATATTTCAGTTGACTCMCTATCTTAGAATTCCCTGAACCAGCCTACCAACTACCTTGAGGATCTCTCCTCTCCTTGTCTTTTATTTTAAC
AACTTTATTGAGGTAAAATTGACCTATAGTAAAGCTAAAGTATTTAATATGTACAATTTGATTTTTAATAGTTAATTTATGCAGCTGTGAARTGATCATC
ACAATCAAGGTACTGCGCATATCCTTCAAACTTTTGACCTTCAAAAGTTTTCCTTGTGCCCCTTATGTAACCCTCTCCCCCACCCCAAACCTTTTTAAGA
ATTATATAAATGGAATCGTATAGTAGGTACTCTTTTTTTTTRGTCTGTTTCTTCAACATAATGCATTTGAAATTCATTCATGTTGTGGTATGTATTAATA
AATCATTTCATTAATACATTGTACAGATATGACAGTTTAGCCATTACCTGCTGACAGACATTTAGGCTGTTTCCAGTTTTTGAGTATTACAAATAAGGTT
TCTGTGAACAGTCACATACAAGTCTTTGCTTGGATCTGTGATTTCTCTTGAGAAAATATGTAGAGGTGAAGTGACTAGGTCACATGCTAGGAATATTTGT
GACTTTTAAGAAACACTACCAAATTGCTGTCCAAACTCGTTATGCCATTTTGCATTCCCATCAGCAGTGTATGAGGCTGCCACTGTAGCAGCAATTAATG
TGGTCTTAAGGAAGCTTACCATGTGCTACCTACTGTAGCCTCTTCTCAGCAACAATCACAGGCTTGATGGTCTAGAAGTATTTTTTCCATACTTATTCAA
ATAAATGTATAATTACAAAAATAAGTTGGCCTATGGGCCGCATAAGATCATCTCACATTTCATGGATAAACTGGGAATTACAAGTGTATAATTAAATTCC
TGTTCATAGTAAGTATGCTATAAATGGTAGATACCTGAGATGACAAAACTTTTATCAAACTTCATGTATTTGAAATAATAAACAGTTGTTGACATTTAAT
TGTATTTCACACAGGTATTTGAAAATATCTAGCTTCAAAAGCAGTTTATAAAACATTTAAAAATTAAAAATACAAATMTTCATATATGGTTTTGTTATAT
TAACTTTGAGAAATTACTAAATAGCACAAAGTAAGTCCTGTAGTAATTAACAGTTGTAGAATGGATTTTGTAAAACCATAATTTTATCAATGAAAACGTT
AAACTTTATATTTTGTAGTTGTTTTTAGGGTAAACACATGACACTTAAATTTTTTTTTTTTTAACAGAACAAAACTCCTTTAGTTAATGAGAGCCTGAAA
AAGTTTTTAAATACCAAAGACGGTAAGATGTTCAGTTTGTTCTTGTTTATCTATCTCTGAATTTTTGAATCTTGATACCATTTGGGAGAAATCAGGAATT
TCAGGGCTTTTTTTTTGTCTTCAATTGTTATAGGTCCTCATTTTAAAATAATATTTTATTGTACAACAATCGTGTTGCTATTACATATTTTTGGATTTGG
GATGTTGTTGCTTAAAGCCAGTTTTACTACAAAAAGCCAATATTAACCATTAAAAAGCGAAACACTGAAATCTATGAGATGATTGTCTTACAGTTAGTTA
CAGACTGATGATCCCAGTGAAAAAATCAGGAGATTGAGATTTTCATTACTTAATCATATTATTCAAAGAGGAAATTTGTAACTTAAAAAATTTAGAAACC
TTTCTTCCATTAATTTAGTGTATCTATTTCATAATGTTAATTTAAAAAATTCAGTTTTTRAAGATTTGCTTACTTACCTTTTTCTTGATCTTTATAGGTC
GTTTAGTGGCTAGTCTTGTTGCAGAATTTCTTCAGTTTTTTAACCTTGACTTTACTTTGGCTGTTTTTCAACCTGAAACTAGCACAGTAAGAATAATGAT
TTTTACATCTATCTTTTGAAACCTTTGATACAAATGAGTTAATATTAAGCTGAAAGTTAATAGAATTTGACAACTGATAGTTTTTTACATTTAGATTATT
TTTGGTAGTTGATTATCTGTTTTTCTTAAAAGCCATATGAGCTTTCAGATAGCTGGCACCAGTGTTGCTGCTTTGTGTTACTTGAAAGCTTGCTAATAAA
AGTGTTACTATAGAGTTAATTTTGATACGATGTTAGATTGCACCTGTTAATGGAAACGTTGAAGGTAGAGGCTCTGTAAAAGAAATAGGCATAATTTTTT
AAAATAGACATTTCATTCATTAGTAAGACAGTCTCTTTGAGTTTAAAGATGTCTTTAAACTCTGAAAATATCTTCTTTACTCCTTGAGAATAACTTCTGC
TATTTTTTTGTRCACTTGTATTTTAACTTCTTTTCTAGCTGCAAGGTCTCGAAGGTCGAGAGAATTTAGCCCGAGATTTAGGTATAATTGAAGCAGAAGG
TACTGTGGGTGGACCCTTATTATTAGAAGTGATCAGGCGCTGTCAACAGAAAGAAAAAGGGCCAACCACTGGGGAAGTAAGTAGAATTCTGTGTTATCTT
TTTCTATTTTAATTATTGGCTRCTTAGTTTAGCCATGCAGATTAGTGCATATATAGTAAATTAAGGTTTTCATACTAGAAGATATTCCTTAAAAACAAAA
TGAGATGCATTCAGATTGTATCAATGCAAATTTTAATGAAAATTAGGAATGTGCTGACTGTGATTCTGTGGCATATCTGTTCTGGTTTTTGATCCTCAAG
AGTGTTGGGTCATGAGCTAAACTGTCTGGAACAAATCCCAACTCCTCGTTGCCTCACTTGATCCTCCATTCATTCCATACTGTGTATGAAGTGGGCTCTA
CCAGGCCCTACCTTGGTGTTCTGAGGCTTCTCTGCATAAGCCAACAGAAGCACTCAACTTGCTATTATTTTTATTAAAACATCTTATTTAAATATAAAAG
GGCTGATTTATAGGATAGTTAATAAATTTTTGGACTTAAAGGCCTCTTTAGGCTTAAAACTAAGCTGTTGATTTTGCTTTACGCTGTTTAGAAACAGTTC
AAACTTACACTTTTTTGATCAGTAGTACTTTTCATACTCTTAACCTTTTTTTAGAAATTGTGCTAATGAGATTAATGATATAATTTTATTTTCATACATT
AATTTTACATGAAGATACTCTGTTTTATAGATACAGGTAACATCTGTAACTGTTCCAGATATTTGATTAAATGTGAGCTTTTAGTCAGAAATTTATAGGT
AAGAATGTGGAGGGCTGTATAGGTTTCCAGTTATTTTCTTTGGTGAGTCTCAGAGGATGTTTTCTATTAGAATTTTTGAAAATTGATAAAGCTTGCCTGA
GTACTAATTATGTGTAAGGCATGGTAAATAGACTTTGTGGGTACTATAAGATAAAATATAAGAAACTTCTGTGTCTCTGAATAGCGCAGAGCTATTTAAG
ATAAAATGTGCTCAAATAAGGAAATTAACATTTAAATAACAGTTTAAGATTATGGAGGAATTGTCATTTAACACATTATTTCCAACCATATTATGAATAG
TTTAGAGGAGGAAGCGATTGTCACATGCCAAAATTTTATTGAAGTCAATTTTAAAGTGAGAGTAGGATGTCAGTTGTGGGGCGAGGATTGGGAAGGGCTT
TCCGAGAAGTTGGAACGGTGCCAGCCAAGCGTGGGAGCAGGAGAGCATAGCCAGATCCCAGGCTGGCTGGGAGTGAGGCGGCTCACCCAGARCGCAGGTT
GTCACTTCAGCTTGTGCATATAATTTCATTCCTTCATTTATCAATATCCASCAAGCTTTTATTGTGYGCTTATTTGATAGATACTGTGCTGGGTACTGGG
CAATCAAAAACAAACTAAAGAACCCAGTCTCCTGGGGCCAGCAGTCTGTAGGTCATGATGACCTCTCTTTATTGGCTTTCCCCTCTCGGCTTCTGTGGCC
CTGAAGAACTCTCTTCTCTTTCTAACTGCCCTTTCATTTTCTTTTCTGTTTAGTAGTTGTGCTTTGGCTCACCTCATTGCAGTGGTGTTTATGCATATTT
TTCTGTCTAGATTGATCTTTCTTCCTTAACATACCACTAGCATGGACTCTGGAACCASGTTACTTGGGTGAAACCCCAGCTCTGCTACATTCTAGCTCTG
TGAGCCTGCAGTCACTCAGCCTCCGTGTGCCCAGGTTCCTTATCTGCAACATGGAGATCACAGAAGTATCGCGCCTACAGGTCTGGAGGGGGTCTGAGGA
AGCAAGATGTGTGAAGCTTTGAGCACAGTGCTTGGCACGGAGGACTCTGTGTGTTACTGTAGTAGGCATCAGTGGATTCAATTAACTGCGAATTGAAAAT
ATTCGGATAGGCTGAGCGCGGTAGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGAATCATGAAGTCAAGAGATGGAGACCATCCTGG
CCAACATGGTGAAACCCCATCTCTACTAAAAATAGAAAAATTAGCTGGGCGCGGTGGTGTGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGAAT
CACTTGAACCCAGTAGGTGGCGGTGGCAGTGAGGCGAGGTCGTGCCACCGCACTCCAGCCTGGCGACAGAGCGAGACTCCATCTCAAAAAAAAGAAAAAA
AGAAAATATTTGGATAAAATACAACAAAAGAATGCAAATATAGTAGAAAACTATATAGCATTTACATTGTATTAGATATAAGTTAGACACGATTTGAAGT
ACATAAGTTATATGCAAATATGTCATTTCACATAAGAGACTTGAGCATCCTTGGATTTTGGTGTCCACAGGAGAGTCCTACAACCAGTCCCCTGTGGATA
CTGAGGGACGACTGTGTTAGTATTACTGTTTCTTGTTATTGTATGGATGACTCTTTAAGTTCAGTGTAGTCTGCCTAAGCTCAGCTCAGTCCTTTATCCT
AGCTCCAGACTAGAATTTCCAGCTCTTCACAAAACATACCTCCCTGGATAACCCAATAGTATATTCGAATCCTGTGTGGAAAAACTTACTTTCTTCTCTT
TACCTCTAAAAAGTAAAAACATAAAGACAAAAGCAAATCCCACCTTACTCCCCGCAAATAACCCTCTTCAAGTTCTTCTTGCTCACTTCTGTGTTTTGAT
TGATTCTATTCCTGTGACTCCTTGGTTTCATCCCAAGGAGCCACCTCTTCACATGTGCTCTGGATTCAGTTCTTCTGTCAGGAAGGATTCACTCTCCACC
TTGCACCCCGTAGCTTTGGTAACAGGCTGTGGAAGAAAGAATAATTGCTGGAGGGCTTTCTGTTCTCTGCTAGATAGGAGTGTACCTCAAAATGAGACCC
AGTAGCATGCCTGTGTAGTGGGTGTGATGTGAAAATGGACACAGAATCACTGTTCTTCAGTACTTCATTCTGACTCRTGGATTTGAGGCCTCCCCTGAAG
TTTGCCCTGACTTTTTCATAGCTGTGATTCTGTCAAATAGAGCCAGGATAGGAATTCTGTATCCTCAAAAGGTAGTTGTTTTACTCCCCCAAGTTGCTGA
ACCAGTAAGTTGGGCATCTCATCTCCATTTTTTGCTAGTTTTCCCTTCCTAATATCTGGATATTTAATTTTAATAGTTTGTGCATATGTATATAAACAAA
TAGATAAAATATTTAAAATAGAGACCTCAAAGATGTATGTTTTGGCCCTTCATTATTTATTAGTGTTTTYTATTACTTTGGAAGAAAACCTGTTGTTTAT
AATGAAATAAAAAATTAGAGCTTTTATTAGCTTTTGACTTTGACTGTAGAAAACTAGCTATAGGTTAAGCTCACTGAACTAAATTACTGATGCTTTTTAC
CAAAACTGCATTTTAACCACCTCAAGAATCAGGTTGCTGTGCCCCACCCGCTTTAACCTGACTTTTGTTTGGTTTTATTGGATGCTCCCAAGCCGTAGAT
AATTAAAGCCCTTTCTTGTTTTCTGAGCCCCTCAATGGATCATTTTCATCTCCTTCAGCACCTCTACCATGTAGGTCCTTATATCTGTCCAGGATCATTT
CTTCCTAAAGGTTCTCATGCTTTCAGTCTGTCATTCACTGTTGCAGAATTATTTTTAAACTTCAGCCCTTCCTCTGTTCCTTTCTTCTGTACGATTGTAG
TGACTGCACTGCCGACTCAGGAGTCCCAGATTCTTCAGCCCTTATGAAATGTTCTGTGTGATGTGGCCTTAACCTGTCTTTCTAGCCTTATGTGTTTTTT
TTTTTTTTAATGTGGAACCTTGTACTTAAGTCAGATTGAACTTTGGACTTACTACTTGAAAGTGGCTTGTGTTTTTTCGCCTTCTCTTATTTCGTTATTC
TATCCTCCACTTGGAATTATACTCTTTCCCCTTCCCCAGCTGTGGAATTTTGTCAGTCAGGTTTTCTCCTCAGCTGCAACTCTTGTTCTTCCTCTCTCCT
TACTGGAAACTGCATGTAACTTAGTGCCTCCTTCTGTCAAAGTTGTAGTAGTGATCTGCACTGGTTACACATGGAAATTTACTGAGGACAAGGGCTTTAT
CTTCATATCTCTTACACAGTCTAAGGCATTGTGATTTTTTTTTGTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGCGGCAAGA
TCTCAACTCACTGCTGCAAGCTCCACCTCCCAGGTTCACGACATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCAGCCACCACCACACCCG
GCTAATTTTTTTTATTTTTTTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCTGACCTCGTGATCCACCCGCCTTGGCC
TCCCAAATTGCTGGGATTACAGGTGTGAACCACCGTGCCCAGCTGGCATAGTGATTTTTAACATACTGTTCACAGTCAGTGGAAGCCTTTGAAAATTTGA
AGAGGAATACCCATTTAGAAGATTTGTGGAGGTTAGATTGGTAAAATATGGAGAAGTTAGCAGACTAGAAAGAAGTGAAACACATAAGAAGGCAAATCTA
GACAAGAATGGTAGCAGTAAGAATAGAAATAAGTGGACATACAGGCTAGACATGGTGGCTCACACCTGTAATTCCAGCACTTTGGGAGGCCGAGGCAGGC
GGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACCTAGTGAAACCCCGTCTCTATTAAAAATATAAAAATTAATGTTGGGCGCGGTGGCTCAT
GCCTGTAATCCCAGCGCTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTACGAGACCAGCCTGGCCAACATGGTGGAACTCCATCTCTACC
AAAATACAAAAAATTGGCCAGGTGCGGTGGCTCAAACCTGTAATCCCACATTGGGAGGCTGAGGCGGGCGGATCATTTGAGACCAGCCTGGCCAMCATAG
TGAAACCCTCTGTCTACTAAAACCACAAAAATTAGCTGGGCATGGTGGTGTGCACCTGTAGTCCCAGCTACTCGGGAGGGCGAGGCAGGAGAATTGCTTG
AACCTGGGAGGTGGAGGTTGTGGTGAGCCAAGATTGCGCCTCTGCACTCCACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAATMC
AAGGAATTAGCTGGGCGTGGTACTCGGGAGGTTGAGGCAAGAGAATCGCTTGAACCCGGCAGTCGGAGGTTGCAGTAAGCCAAGATCTCGCCATTGCACT
CTAACCTGGACAACAAGAATGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGTTAGTTGGGTGCGGTGGTGCATTCCTATAATCCCAGCTACTTGAGA
GGCTGAGGTGGGAGGATCACTTGAATCTGGGAGGCGGAGATTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTAACAGAGTGAGACCCTGT
TTCAAAAAAAAGAAAAATAAAAGAAAGAAAGAAATGAATAGATAAAGATGACCTTTTGAGAATCAACAAGACTTGGTAAACTAATATTTTGGCATGGGGC
AAGGTCACAGAAGGCAATAAGAGAAAAGAAAAGCTCTCAAAGGCCAGTTTAAGGATTTTAGCCTAGAAGATAATATCACCAACAGAAATAGTGGGACTGA
AGAGGGAGAACTGAAGTTATGRAGAACAGCACATTTTCGTATTTAAAAAGTTACAGTCAGTCATAAAGGGATTTTTGTAACAAACAGCCAGTATTTACTA
TGTACAGTGTCCTAGAGCTTGTGCTGGTAGTGGATGAATTGTAGGAAGTGATTTTCATTTAAGAAACATTTTAAAAACCTCCTCCTTGGCATTAACCACA
GTGCTCAGAACCCTGTGGTGACAGGGCACTGGGCAGCAGACACAGATGACTCCTGTGGAAGTTGGGCTAGAACAGGTACTTACCATTTTGGAAAAAAAAT
GTGTGAAAGTAGAAAACTGGGAGAGTGAACTACTATTTGAAGGGGTAAAGTATTTTTAATGAAAGTTGTTATTTGGTATTTTTTCTTGAGATAAAATGAA
GTAGGGAAACAAATTCAAGGAGGGCAAAAAGTAGATCTTAGAGAATTACAGGATATTATTTGTCTGGAGAGTAGGGAGAAGGGAAGTGAGGAAGTAAATC
CTGGAATGGTAGACCTGGGAYAGATTTCAGTGGAGAAAGACAGTATCCTGTTCAAAGTGAATAAATGAAATATTTTGCAGGTAATTAGAATCTAGGGATG
TGTAGAAGGTTTTTGAGGGGGTAAAATTAGAGGAAAATCTAAAAAGGATGGTTACTTTAATAAGAAATAAAATACCAACATTGTATAGTGTTTTTAAATG
CTAAAATTCTATTGGAGTGTAATTGGTATATTTGTGTTTTATTTTTAAATGTATTTTAATTTTAAACTAAAAYATTTTAGGGTGCACTTGATCTATCTGA
TGTACATTCTCCACCAAAGTCACCAGAGGGAAAAACAAGTGCACAGACAACACCAAGTAAGGTGAGTTAGCTGYGGAACACGGAAGTCATGTCTGGACTT
AACTCCAGAGTGCTCTGCTTTTCTCTCTCTAGTCTTTCTTGTTACAAGTTGTATTGTTTTATATAAACACATGGGCTCTTTAGTTTCTTGAAGGTGCTTT
TTTTCCATTAAGTATACATTAAAAAAAAAGTTTTGCTTTGTTGGTAGTTGTTTGACATTTGTATTGTAGAAAGGAATGTGCTGGTAAGTAACAGAATCAT
AGAATATTTGGATTTATTTGGTACTTCGGACATTTTCTCCTATTAACAAGGAGATTTACTTACTTTTCATTTATAAATTCCTAGCTTGAGAATATTAAGC
TAGAAATATGTATTATAGGATATAATATTGAATGAATATTTTAGACTTCTAGATGGGTGATGAGATTCAGAATTGTAAATCATGATGGTTTTTAATATAC
CTGGGCTGTTTTGATACAATTTCTAAGAAAATGTATGTACTTTGGTTACATTTGTGTGTGTATGCATGTGTGCGTCTGTTTGTGTGTTTATGAGTTGTTA
AAGGTAAGACTTGATTTCAGAGATTAAGCATAATGGGAAAAAAAATGAGCTCTACACTTTGAATTTAAGATCCAGGATATGTAGGAATGGATAGAAAGAT
GATTGTCAGGAAATTTGTTTTCTCAAGAGCACAGCATGAATTGGTAGTCCCAGGCGGTCTTACCAAAGGATAGGTTGGGGTCTGTCTTAGTCTGTTCAGG
CTGCCAAGTACCATAGATTGGGCAGCTTACAAACAACACATTTTTCCTCACAGTTCTGGAGGCTGGAAGTCCAAGATCACGGCATCACTGTGGTTAGGTC
TGGTGAGGTCCCTCTTCTAGGTTGCAGAGAGCTGCCTTCTCATTGTGTCCTCACGTGGTGGAAAGAGGGTGAGAGAGCTCTCTGGGGTCAGGGCCCTAAT
CCCATTCACAAAGCCTTCACCCGCATGATCTGCTCACCCCGCAAAGGCTCCACCTTCTGATACCATCACATTGAGGGTTAGGATTTCAACATAGGAGCTG
GGGGTTTGTGGACTACACAAACCTGCAGTCCATGACAGGTCGGGTTTGTATTCTTTGACTGTCCCTTTGATTTTCATCCCATAGGAATAGAGTGATGCTG
TGGAGTCCATTCCAAAAGATGAGGTCCCATGTGGGTTTATGGTGGTGGATCGACTCTCAGATACAGTTGCATCTTTTTAAATAGATGAACTTCCAGGACG
TAGTGATTATACTACACGATACCTTTCTTTTTTAAATGTCTAGGCACAGAACATTGCTGAACGATTGCTGTTATTTTTTGCTTGTTCTTTGATGTTGTTG
CTCCTTTTTATTGTTTAAGTTTGGAAAACTAAGGAATTTTATACTTCATTTCTAACCAAAGAAACAACTATTGTATTGTTTATAGTTGCTCCTTCTGAGA
TTTCTAGTTGGTGTAGGGAAGGCCTTTTTTTAAAATTTTTTTTTTCCTAAATACTCATAGGAGGCTATAACCCCAGTGATAGAGTAAGGTCATGAGTAAA
TTTTTAAAATTTCTTTAAATTAATTGCAAATAAAACAGCCTATGTAAGTAAGCTTTACTTTTCATGAAAATACCTGGCTTTAGAAAAATTAAAATTAATG
AATATTCCAAAATACTTATCAGTACCTATAGCATTTGACTATTTGGAAGCTCTTTTTAGCAAATTATTACTGTTTTTAAAGCAAATTAGCAATCCTAACC
TATATATAATGTATGTCTTCAGGGTAAAATATTAAAGTCTATTTTACGTACTCTTATTCTCCCTACATACATTTTAAGATCTAAGAATTATAATGAGAAT
CTCAATGTTTTAAGTCAGTCAGGAAATGATGCTGTGAGTTTTTCCAGAGAAGGGGGGACTGTCCTGAGGCTGCTTTAGAGAATAGCGTTTGTCCTAACAG
CTGTCTCTGCCGTCATCCCGTTATTCTAGTTTAGTCTCCGTTTCTCAGTTGGCCTCATAAACCCACTTCAGAAATACCCTAGATAGTCCTTGTGTAGGGT
TGCATCTGTTCTAAAATRAACCCTTATTTTGGCACTTAAAATGCAATTTCTCTAGTACTAAAGGACCTGGATTTGGGATCCAGTACTTTCCCTACCGTCT
TCTTGCTAGCTACCTCCTACCAAATCAGCCTTGAGGGCCCACGGAGAATGCTAGAAACTCTCCAAGAGTAGGGTCCACSCAACCTTTAGGAACCAGCTTT
GTGTGCTCCTGAGAAAGGTCAGATGAGGTCAGGACAAGTCTTCAAGGAAGTTGCCTAGGARCTCAAGTGAGGCTTATTTAGAATGCYGCTAAAATGTAGC
ATGAAAGAGCTGATTCTCCACCCAGTAGAAGCTGAGCAGGTGGAGGCTAAGGTATCTGTGTTTGACCTAGTAACTATTGGAAACAGTAAACATGAGGTAG
ATCACTCTAGGAATAGTTAAGAAAGGACCAAAAAAAGCAGGCCTCACAGAACATATTAACTAGATGTTCCACTTCTGAGACATTTTTCAGTAGGTATCTT
TGTTTGGTAATGAGTTAGTTTATTTTTTAAAGATTTCTATTTTGTGGTAAAATCTCATTTTATTCTCATGCTCAGATACCAAGGTATAAAGGACAAGGTA
AGAAGAAGACAAGCGGGCAGAAGGSTGGTGACAAGGTAACATGCATGAGGGCAGAGGAGAAAAGCAGCCTGTGGGCATCAGGTCTCGACTCTGGGGCCTC
CTGGAGCGCTGGGCTCCTGTCAGATTGGGTTCTCAGTTTTCTTATGAAATGTCACTTGAGGCTGGGCTAGGTGGCTCACGCCTGTAATCCCAGCACTTTG
GGAGTCCAAGGCGGGCGGATCACTTGAGGTCAGGAGTTCGAGACCATCCTGGCCAACATGGTGAAACCCCGCCTCTACTAAAATACAAAAATTAGCCGGC
CGTGGTGGTGTGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTTAACCCGGGAAGCGGAGGTTGCAGTGAGCTGAAATCGTGCC
ATTGCACTCCAGCATGGGTGACAGAGTGAGACTCTGTCTAAAAAAACAAAAAAGTAACGATGGCATGAAATAAAAAGTAAATTTCACTGTCAGTTTTTAT
CCAGGTGAAAATCATACTGTTGAATCTTAAAACCATGCTCTCAGTTTTACTTTGAAAATTCCTGTTGTGTTGGCAATTAGAGTTGAAAATACGTATTTTT
CTTTTGAATGGATGATTATATACATATTAGTAACATTGTGATTTTTATTTGAGGAAAATAGAACATCAAACTATTTTTTTGAATACGTACCTATTGATAA
ATTAAAAATTAAACGTATTTCCTCCAAGATGTTTTTGTGTTCTGTCATTTTTCAGACAATTGCACATTTGTGATCCTTTATTCAGTGCCCCTGCTCACAG
TAGACTGCTGGGGGCCAGTGCTGCRTACTACCAAGGCCTTGGCTGCTTTTTCATCCTCTCCTAAAGATCACAAAAATTGACTAATCCAGTAGATTAGCTG
CTTATGAAATTTAAATATTAGAAGTTTTAGAAACATTATCAGTACAGTTTTTACATGTACTTAGGATAAGACAAAATATTTAATTTTCAGTTCTGTGAGA
TTCATTAGTCCTATGCTGAACTTTGGTTATGTATAGATTTTTTCACTAGGTTGAAAATCTTCAAACTTAAAGCTTTTTAAAAATTCCACCTGTTGTGTTA
GATGGCTTTAGTTCTAGGAGTTTCAAAGGTAAATTCCTATTACTGTATTCTCTTTCTGTTCACACTGTTCTTTATGCGTTATTAAACAAGAAGTTGCTTT
AAAATAATGATTTAGTAAGTTTTTTTTAACATTTACATAGTGAAAGTTATTGTGTGTTAATGCTTTGGGCAACACATTTAACACAGTTCTCACTTAAGGA
GTTTATAGTTTAATTGGAGAGATGAGACATACCTTAAGTAAGATATAAAACTTCTTAATAGATTTTAAAAATCAGTTTCTTGGGCTTTTCTAAAATTTAA
AAGCATATTTTATAGTATTAAGCTTTTATAATCTTACTGCTATTGTGGGTTTCAAACAACTTAAACATTTTCAAGAAGTTTATACATAGAGCCAAGGCAT
CCTAAGAGATGTGGTTTTCACTTTGTGTGATGTGAAATAACTGTGATGGGCCCAGACTTTAGCTTTCGCGGTACTTTGGGCAGAGTGTAGTGTGTGCCCT
GACTTGAGAGGGGATTGAAGAATCTAGGTGGGCCCATATCCCAGGATTTAGTCCATAATTTGGGTCTCTTCTATTTCATTGTTGTGTTCCTGAGGCCAGG
ATGCTTCCTCAATTACTTGGAAACCTTTTTCCCTGTACATTTCTGATCTTGTTTCTGAACTGCCTTGTGAGAAGTCTGTATTGTACCCCATGTGGCCTAT
TGCCAGCCTTACTTATATGGGTAAGCCCTTAGCTCTTTGTTCCCCTGCCTTTCTGCTTTGCCTTGTGCATGCAGTGAGTTCCCAACAGCCTTAACATTCT
CAACATCTTCATCATCCAGATGCTATGTTGCATGTGGTGGTTGAGGTTGTACACAGCAAGACTCCAGATGGAGCCATCCGCATGGTAGGTGAGTGGCATC
TCCCAAGRTATGCAAAGCCATCATGGGAGCCCTGCCTGTCCTGCAGACGTGAACTGGGCATGCGATGCAGGAGGGCCTAGGGTACCGCTGCTCCCGGAGC
TCTGGAGCACTGATCAGGAGTGTCGCATGTGTCCGGTTGCTTTCGAATGCAGGAGGCGACAAGTACTAGTGGCTCACTCAGAGACCCTTGGCACTTTCTT
CAGGGAAGCTATATTCATATTATAAATAAACTTAAAAAAACATTCATATGTATAGTTAGAATTGATTTGTAGGGTTTTTGAACTGATGTAACTTGGGCAA
AACTGAAGTTCTTATTTTTGTTGTTGCTAAGAGACAATAAAGATAAAAATAAAATAAAGATTAAAGATAAAAGATTTGGTATACAAGGAGTATAAATATG
AAATGAGAGGGCATTTTAAAAATGAATTAATAATTTTGAAATATATRTTAATACTTGCTGACTTCCAAAGTATCATCTGTGATAATTTATCTCATTGTAT
TCCATTTCGTTGTACCAAACATCCTAATTGTTTGGAAAAAAAAAAAAGTATCAGAAAATTATAACAGACTTTTGATAGGCCCTACTAGCTTAGGTTTTTA
CCATTTAGTTGGAAATGTTGAGTAAGATCTATATTTTTTTGTTTTTAATATTTAGAATTAGTTGCTCTTTATCATTATATTAAATGTAATATGAAAGATC
ATCCTTTCTTCTTACAAATAGTTTTCAGGTGTCTGTTTCTTTTTAGAGACAAGGTCTCACTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGATCATGGCT
CACACCACTTGTCCTCCTGGGGTCAAGTGCCCACTTCAGCCTCTTGGGTAGCTAGGACAACAGGTGCATGCCAGCACAGCTGGCTAATTTTTTAAAAAAT
GTTTTCATGTAGAGGCAGGGGTCTCACTATGGTTGTCCATTCTGATCCTCAACTGTGGGGCTCAAGTGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGG
ATTACAGGCATGAGCCACCGTGCCTGGCCCAGTTTTCAGGTATTTTAAAACTAACATGTATTGAGATGCTTTTTCACATTACGTGTAGGTTTTGGGGCAT
ATGTTTTTGTATCTTTGGCAGTCACCTGAGGATTTTCCAAACCAGGCGTTACCATTCCCTGTCACDCTCTCACACCATCCTGAATGAATGGATACATGGA
TGCATGAATGTTCCCACACTTAGCCCTGTAGTAAAATTACTTCTCTAAATAATTCATTAGTAAGTCATGGATCAGAAACTGTCGTTGGCAGGGAGAGAGG
TGGGGGGCAGAGGCATGGGTGAAGAGAATTTTAAATACAGTCAGCCTCATATCTGGAGGTTTCATATGCATTGCTTTCACACCTGCAGATTCAGTCGTAT
GTAAATGGAAAAATGGTTATAAAAAATAATAATACAAATTTTATTTATTATTTATTTATTTWTTTATTTTTTTATTTTTTTGAGATGGAGTCTCTCTCTG
TCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGGGAGGCTCCTGCCTCAGCCTCCTGAGTAGCTGGGA
TTACAGGCGCCCACCACCAAGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCTAGGATGGTCTTGATCTCCTGACCTCGT
GATCCACCTGCCTTGGGCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCTGGCCAATAATGATACAAATTTTAAAATAATGGTATACAACTG
TCTACATAGCATTACATTTATTAGGTATTACAAGTAATCTAGAGATGATTCAAAGCATATGGGAGGATGTGTGTAGGCTATGTGCAAATACTACAGCATT
TTATACGAGGGACTTGAGCATCCTCGGACTTTGGTGTCTGCAGGTGTCCTGGGTACTGAGGGACAACTGTATTGCATGAATTTTTTGAATACTTTTGCAA
AACAATAGTATTTCTTTGATATTTTTCCTACATGAACAGTTTGGAAAAAAATTCTTTTTTTTTTTTTTCAGGTTCTTAAGTCAGTCTGATACAATTCAGT
TTTTGACTACTGAAAAATTAAGGTTTYTCATTGTGAAACTTCTCTAGTGCTGACTTTTTGTTAATCTAGAAATGATTGGCTTCTTTATTATATGAGTGTA
CTATTGGATAATTTAAATATATACTAAAGCTTTCTTATGGCTGCACTATAATTTCCCATAGAGCTTATTATTAGTCTTGAGCTCCAGCCAAGAGAACTTA
ATGACCGTTGTAGTGCTGTGCAATAGGTCCCTCACTTTTATGAAAAGACAAAACTTGTTTTAGTTTTTTGTTATAAATGACTTGATTTGTTTCCTAGGGC
TAATGTAATATAAGTACCAATATTGGGTGGCTTAAAACAACACATGTGTTGTGTCACAGTTCTAGAGGCTTAAAAATGTGAAATCAAGGTTCGCGGAGGG
CTGTGGCTCCTGTTCTAGCTTCTGGTGGCTGCTAGACCCAGATGCTGTTTGGCTTGTAGATGGATTACTYCAGTCTTTGCCTCCATCTTCACATGGACTT
CTCCCTGTGTTTCTCTGTGTCTCTTCCCCCCAGCAAGGATACCACTCATTAGGTTAGGACCCAGGCCCACCCTACTCTTTGAATGGACTCATCTTAACTA
AATACATCTGCAGTGGACACTGTTTCCAAATAAGGTCACACTCTGAAGTACTGGGAGTTAGGGGTTTCAACATATTTCATTTGTGGGATACAGTTTGACC
CATAACTTTTGTGCTTGTCCAGAGAATGAATTCTAAGGCATTGCCATGGTATGTGTGTGTGTGTGTATTTTTTTTTGAGACGGATTCTCGCTCTGTCACC
AGGCTGGAGTGCAGTGGCGGCGATTACAGCTCACTGCAACCTCCAACTTCCTGGTTCAAGCGATTCTCCTGCCCCAGCCTCCTGAGTAGCTGGGATTACA
GGCACGTGCCACCACRCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTCCACTATGTTGGCCAGGATGGTTTCGGATCTCCTGACCTCATGATCC
GCCTGCCTCGGCCTCCCAAAGTGCTGGGATTAYAGGTGTGAGCCACTGTGCCTGGCCTTATATTTTTTAAATCTTATTTGTTAGTTTTTAAACAATACTT
AACCTTAGTTATTTAGCTTCATTTTGAATCTTCAACTTAGCCAAATCCAGGTGATACAAAACCCAAGTAACTGAAGTTTATGTACGTAACATAAGTTCGT
CTTAACTCATGATAAGGGTTTTTAAAGCAGATTCCCGGGTATACATACGTATACAGATGGTCCCCAAYGTTACAACAGTTTGATTTATGCTTTTTTGACT
TTATGATGGTACAAAAGTGATATAGATTAAGTAGATAGCATACGTTGAGTTTTGATCTTTTCCCAGGACAGTAATCGGTGGTACGATTCTCTCTCGGGGC
CAGGCAGTGACGTTGAGCCACGGCTTCCAGTCAGCCACATGGTCACGAGGCACTCTGATGCCAGGGGACTGAATAGCCAGCATTTTTTGGATATTGTGTT
TTTGCACCTCATGTTTATGAAGTGCCCGTTTTCCACTTTGTGATATTTTCACTTGACGGTTGATGAGGTGAAGCGCTGTTGTGGGTTGAGCATCTGTGCA
CATGCRTACACCTGCTGTGCACACGCATACACCTGCTGTGCACACRCRTACACCTGCTGTGCACAYGCGTACACCTGCTGTGCACACGGGTACACCTGCT
GTGTACATGGAGGAGCCACTGAAACTGCTCTCAGCGTTTTCAGTGCTTTGGTTTTAATCTGCAAAATGTGTTGATGACAAATCTTTCTCCTCTTCCTGTA
GATTTTTTTAATAGTGAAGTTTATTTGGAATTAAGTTTAGTGAATTCATTAATAACCTAGTTGGTAATGGTCTTTTGGCAAAAATGAGCCATAGTTATAA
AGTAGTAACATGTTACTGTGTGGTTTAGAACTAGATTTTGAGAGCAGTTCCAAAGCAGATTGTTTCAGAATTTATTTTTACTCCCTGGATTAAGAGAACT
ATATTTTTAAAATAATTCTGTTATGTTTACAAGTATGTGTTGTGTAATATAGTAATGCCCTTCTCCGTAAAACTTGTCTTCCTAAAACTGGTCTTTCTGT
CTATAGCGGGAATATTGGTCAAACCTGTCAAATAATCATGGATACCTACTAGTTGCTCAGCTTTGATACTAGATAGTTCATTATGTGGATTTAAGTTACA
TTGGCAGTGTGAATTCTTGGGGAAATCAGAATAATTATTGTTTCTCATAATATTGCTTTACATTTACATTTTTCAGTTTCTGTCATGCCAGTTATTCTTT
GGCACTTTCTCATGAGTGTTTAGAAGGAGAGAATCTGTCGTGGCCACAGGCTGTGTCATTGTACATATGTTTAAATATCACATCAGGGTATTTATTTCCA
AATGCATATTCTTTTAAAAAGAYATAAATCCATTATTAAAACAGTGTAAAAATCAGAAATTACAACTGCTGTGAATTACATAATATTTTTCTATATTTGA
TAATACCAGGAAAATGTCAAGAAAGTTGTTAGGAAATTTTTGAAAGTTTCCATCCCTTTGAAAATATGTTGTCTAAAATTATAACTTGCTATTTATTTTT
TCAGACATYTCTTTATAATCATTAATTTATATTAATAACATGGAATGTGTAGCTCTCTAGAAGGCAATAAAATTTGCACAGCATATATCTTGCCTACTGT
CARCTAGTCAAGACCTCTACCTGGTGTAAAGATGTAAACGTATATCRTAAGACATGCATAATGCATTCTGTCTGTACCCATATGAAAAGTGAAACCATCC
TTCAAGAGCGTCTTGTTCGGTAATGTCYAACCCAGACTTTGGTCACCATGCTTCAGTAGTTACTACTCTTTAATTCTTTCTCAGCCATCCATCCCTTCCT
AGATATAATTTGATCTGAAAAATATGAATCTAGTTCAATTCTTGAGGAAACTCATGCCTAGGAAATTAATTTACTTAAGATTACACGGGCCGTGTATGGT
GGCTCACGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACTTGAGGTCAGAAGTTCGAGACCAGYGTGGCCAACATGTTGAA
ACCCTGTTTCTACTAAAAATACAAAAATTAGCCAAGCGTGGTGGCACGCGCCTGAAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAATC
TGGGAGGCGGAGGTTGCAGTTAGCCCAGATTGCCCCACTGCACTCCAGCCTGAGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAGATTA
TACGACTGGGTGTAGTTTGTGCTTGTAATCCCATAAACCCAGCTACTTGGGAGACTGAGGCAAGGAGGACTGCTTGAGCCCAGGAGTTTTAAGACCAGCC
TGGATGACATAGTGAGAGCCTGTTTCTTAAAAAAGAAAAAAAAGAAAAAAAAATGGAGTTAATAATTTTGGACTACATTCCAGATTCCTTGTTTCAGTTG
AGTGCTTTTTCTATTATTCCACGGGTATTTTACACAATACTGCTCTCTTTAGTAYGCAAGGCTGAATTTTGGGAAATTGCCATTTTTAACCCATAAAGCC
CACAAATTCATTATAATTTAGCTTAATAGCATAAATATTGAGTTAACCTCTGGAAGCAGGCTTTGACTTTGATATTGACCTGACCACTTAACTCTCTGGA
GACTTTGACAAGTGACATCAATGTCTGTCTCTGTGTTTCCTGATTTATATCCACAGATAGAAAGCCATCTCCAGATCCTAGGGCCATTTTCAAGATTCAG
TGAGATAAGGTGAAGCATTTGAATGTTCTCCATAAATGTCAGCTGCTTTTATTATTACTAGCATTATTTTTTGTTTTCATTATTATTATTAACATAGACC
CGTCTAAGGGCAGAAAGAAATCTGACCAAGAATGGAGTGAAAGTCGGCTGTGAAGSTTAGGACTCCCTGAAAACAAAAAAGAAAAGTGGTAACATCACTC
TGTATCCAAGGGCATGGATAAGGATGATTCAGAATTTTTTTATAACATTGATGTTAATATACATAGAGAAATACACACACACACACACGTATATATGTCC
ATGGACATCAAAATGAGGTATAGGTTAGGAAGTTACCCTGGAAGTTAGAATTGAGATAATTACTTTGATTAGCAAAGGTTTATGTTAGAAATAYGAGTGG
TTGAAGGCAGCGCCTTTCACCTTGATGCCTGTTGTGTTTAGCACTGGATAGAAAATTGCTATTTTTACTGATGACTACTTTAATGCTTGGTTCATTCATA
TGAAATAATCTTTCTTTTCTCCTTTAATAATAATGATCTCTCCTGATTTCAAGTTGAAAATGTATTAATTTAAGATAACTTATGAAGCAATGACATATGG
AAGAGGAGATGGGAAATTGTTTCTCAATGGGAAAGTGTTTATAAATGGGATAGGTATACTAAAGGTATTTCCATTTAGGGAAAGAGGAAAGGAATGGTAT
TAATATATTTCTCTAATATTTTTCCCCCTTTGAAAGTTTGCCATGTTAGGAATCCTGGGGATGGAGTGATGAATTGTGGCATTGCTCTGCAGTTCACGCT
GCTGAGAGCTGCCCCAACACACACACACACACACACACACACACACACACACAAAGGTTGCACACACACAAACAGGTTTGATTATGCTCATGAGACTTCT
TTTATTATTGAAAATATCTTAAAGTTTTATCTCACCAAGGAGGCCTTTTCTCTTTCCCTCTCTTTCTAGAAGGCCAATGATGAGGCCAATCAGAGTGATA
YAAGTGTCTCCTTGTCAGAACCCAAGAGCAAAAGCAGCCTTCACTTACTGTCCCATGAAACAAAAATTGGATCTTTTCTAAGCAACAGAACTTTAGATGG
CAAAGACAAAGCTGGCCTTTGTCCAGATGAAGATGATATGGAAGGAGATTCTTTCTTTGATGATCCCATTCCTAAGCCAGAGAAAACTTACGGTTTGTGA
GTAAATGGTTTTTGAGCTATGAGACTAGGGGYTTAAAAATAAGATAAATGTTTTCATTTTATAGTTAAAAAATAATGAACTATGGAAGGTTTATAATTAT
TGGATCCATAAATCTGACTATGCGTTGTTAATGCCTTTCATGTTGTAAAACAATCCCAGATTTTAGAAAAACCTAGACATGATTTATTCCAACAAGTAAG
TGTAGATTGAGTGTCAGCCACTTGCCAGGGCTGTTCCAGGGTGGGGTGCAGCAATGATAGAAGAGGGAAGACTCCTGCCCTCAGGAAGCTCATGCTCTGG
TGACAGAGTCAGGCAATGAGGGTTATGCTGCAGCGTGTGGGGTGATGAGAGCAGAGCAGTGATGGGAGCCCGAGTGTGTGGTCAGGGCAGGTGCATGTCA
GCTGTCCAAATTGGAGGGGGCCTCACTTGGAGGTGCCCAGTGAGCAAAGAGCTAGAGGAGGTAAGGGAGTTGCCGTGGGTTGATGGAGCTTTGGGGAGAG
GAAACAGACAGCAGGGAGGCGAGTTGGGGGTAGCAGAGAGAGCAAGATGGGGATCGGATGAGGTGGACTCAGAKATGAGGAGCTGGACGGCTTTTCTTTG
AGACTGGAAGCCCTGAGGATCTTGATCTGGCGTACATTACAGAAGGATCCTGAGGTTGCTGGGGAAGGTTGGTCTTAGAGTTTCCAGTTAGGAGGCCGTT
AATGATGGAAAAGGATTTGCCAGTAAGTGCTAGAGAAAAGTAATATACAGAGTGGCATCATGGTTTTTAGCCTGCAAAACTAGAAGGTTGGAAACACGTT
AGATGAAGAGTGGCAAGAGCAAGAGTGGATTACACAGACAGGTGGCATGACAGCCTGGAGGCCCCTGTTGCTGTGCTAAGTTAGAGAAGATTGCTAGTGG
AAATCCAAAGTAGGCTATTGAGTGTATGCGTTGGGATTGATGGAGAGGTCTGAGCTGGAGATGTAAATTAGGAGTCATCAGTTTGTAGATAATGTGGGKT
GTGGGAGACTACAGAGGATCACCAAGGAAGCAGGWCCTGCGCACCTTGAGGCCAGAGCAGGGAGCTAGAAGCAGCAGAGGAGATGGAACCAGGAGAGTGG
TGTCTGTGGAGGTGGCGGTAGGGAGGAGTAGCTGTATGATGCCGTTGGATTTAGCCATCTGGAGGTCAGTGATGACCTTGACACAGTTTTGTTGGAATGG
GGGTGCGAGGCAGGTTAGAGAATTAGAGTGCATTCAAGACAGACAGGAAAGGATTGTAGATGAAAAATAGTTTTCTGATGAGTTGTAAAAGTGTGCAGAG
GAGCAGGGTGGTGGCTGGAGGGGCAGGATTTAGGGCTGAAAAACGTGTTTAGGTGGGAGAAATAACAGCATGTATGCTGACGAGAGCTGTTCAGCTTTAA
AGATGGAAGAATTAATGATGTAAGGGAGTGAGAGGAGAACTGGAGGGCTGCGCAGCAGTGGAATCCCATGCAGGGGCTTGTGTTTGCTGGAAAAGTGGAG
AGCGTGTGGGTCTCATTGTAGGCAGGGGGTGGATATGATGGTGGCACCTGTGCAAGCTGTCACCTGAGTTCATAGTTGAGTGAGGATGGAGGACGGAGGT
TGGAGATAAGAGGAGAGTGGAGAAAGCATGAAATCTTTCTATAAGAAAGTAAGGCGAGAAGGCACTGTGGAAACCCGGAGGGTTGTTGGGCARTTTTAAA
GGTCCCCTTGAGGTTAGYGGTCATGACTTTAAGGGGAGTTCATCAGCATGGCTGTTAGTGGCTTCTGTAAGCAATATTAAATCTGAGAGGTGGCACTTAT
TTGCTAGTAAACTCCTGTATTGTCCCTTGGCTGCATGTCTGGGTAATGGAAAAGGGCTTCYGAAAAAAATCACAGTGAAGAGGTCAATTTAGTTTATATC
AAACAGAATTCTAAAGAGAGGTGAGCTGATTTCTTACGCCCTGGCTGTGCCGATTGTGGTTGATCTGTAGTTTGCACTCCCTTGGTGTACTTTATGGTTT
TGAATCTTTAAAGTGTATATTCTTGATTTCCAGCCACCACACGTATAAAATATCTTTAAGTTGCTTTTGTTTCTGTGGCAGAATAAAAGTGTTTAGTGGC
AGAACATAAGAGCACCGATTAACTGTCCTTGTTTCTTGTTAGGAGGAAKGAACCTAGGAAGCAASCAGGAAGTCTGGCCTCGCTCTCGGATGCACCCCCC
TTAAAAAGTGGACTCAGCTCCCTGGCGGGAGCCCCTYCTTTAAAAGACTCTGAGAGTAAGTGCCCAAAGAYGTGGACTTCAATACTCGGGATATTTTTTC
TCTAATTAAATACTATGTGATTATTGTTGATTTTTTTYCCCAGGAAAATCACTAAAATAACCYATCATTTTATCACTCAGAGATATTTCCTGTTAATATT
TTGTTGTGTTTTGTTACTTCTAAGGTGGTCCTATTTTATATGTTGTTTTGTATTCTGGCCCTTCCTATACCTATATACCATCGGAATACTTTTGGGAAGT
TGACTTTTTAGCTGATTTTTATTATCTATAGAAATAAAATTTTTAAATCATCTCTCCTTTTTTGGACATTTACAATGACTTGAGTTGGATTTGCTTTCAA
TTAATTTTTAAAAATTTGGTGATACCACAGTAAGTATCATAAAATGTTAAATAAAAAATTATTCTGCAGATCATTTTCAAGAACAGTGACCTGACATGTC
ATCGTAAATGCAGCAGAGCTAAAGAGCACTGGTTACACATGGAATAGTCTAGCTCTGGCACCAGTTACTTTCCCACCTCTCCCCACACACAGTGATAGGA
ATTTAAAAAGCATAGCCCTGAACATGTAGGATGGGCAGAGGTCCTTTGGAAACCGTATCATAGTAAATGTTGTATTTAATTAGCGTAGTGTTTCAGAGCA
CGTGTACCTCTTTTGAGAAAGTTTCCTAAAGTAGATTCACTAAGAATTTGCAGTATGCGTTTTGCATAATTGTCCAGTATTTCCGAATCTTTTTGTATTG
CTTGATATACTGTGGGACTTCCTAGGGCACATAAGAGAGCCGGCCTGTTGCTTCTCTTAAACCAGCCATGTATTTATAATGTCCGCATCCCTTCCCATTT
GCTTCTTTCCCGTGGTTACTGCCACCTTTAAGAAAGGAATCCAGGACATCATGAACATGTCATTCTGACATTGATTAGAGAATGATCATTTAGAGAGGAC
GTTGAGAACAAAGGACTAAAAAACCAGTGAGGATGTCACTTTAGTAAGTGAAATAGCAGTTGCACTGAAGAAAAATTTAGAAATTCAAAGGAAAAATAAG
ACTCATGAAAATAATTAACAGTCTATGAATTCATACCTAACAGGGCTGTTTATGGAAAGTGATGTCTTATAATGAGGCAAAAAATGGTTTTTGGTGGTTG
TGTTCCAATAAAGTAGTATTGTTTATGGTTTAAAAAGGGATGTAGCTGGGTGCAGTGGCTCACGCCTGTAATACCAGCACTTTGGGAGGCCGAGGTGGGT
GGATCACGAGGTCAGGAGTTCGAGACCAGCCTATCCAACATAGGGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTAGCACATGCCT
GTAGTCCCAGCTACTCGGGAGGCTGAGGCGGGAGAATCGCTTGAACCCAGAAGGCAGAGGTTGCAGTGAGCTGAGACCGCGCCATTGCACTCCAGCCTGA
GTGACAGTGATGAGACTCCGTCTCAAAAAAAGGGTTGTGATGCATAGCTTAAGCGTTCATTAATCACAGTTTATTTTTTCCTTAGTTTTAGGTTATTATG
CTCCTGTCATAAAGAAGCCCCATATTGAACAACGACAAAAATTGATGTGGTTTAGAGACTGTTATATTCTAAGTCACTCTAATGTTAATATTTTCTCCTG
TTCACAGGTAAAAGGGGAAATACAGTTTTGAAAGATCTGAAATTGATCAGTGATAAAATTGGATCACTTGGATTAGGTAATTAGATTTCTAGTTTTTGTG
YTGATCGTTTTAAAGTGATTATTTTTAGGGTAAGGCTGTAAAAGAAGTGACTCCGTCTGCCTACGCTGAGCACCTTCCTGCTGCTGCTCATTCAGCAGGT
GTTTGAATGGCTTTTAYGTGTTCAGGATTACACGCTATGCGAGAGATGGCTACAGCAACAGCCATCATGTTCTCGTGAACCTCTGTCTTCATGGAGTTTA
AATTCTGGTCAGGAATATGAACATTAAACGGGCATCTACAGATATTTTGACTGTAAAAGGGTCAGTATATATGGGTATAGAAATGGCTAGTAGGTTACCT
TTGTCCAGTCTTGGCATTCAGGGAAGACTTCTTATAAGAAGTGACTTCTGTGCAGAAGCTTCATGGTTAAGTAGATGTATAAGAGAGAAGGGAAGATATT
TCAGTTCAGACTGAGAAAAATTTGGGCAGAGGCAGAGCCATTTGCTAGATGCTGGTAGTACATGGTCCAGGCCTCAGAGAATTCAGTCTAGTGGGGAAAC
AGACTTATTGAAAGAAAAATTGTGAGATGTGTTCAGTTCTGTTCTATGGAGCAGAAGTTGGTAAGCCTGCCATGTAAGTACATTCATTCCTATGGAAGTA
AGAGTGTCAATGTGAACATTACCGAGCCCTGGGCCATATGTTGAGAGCACATTTCTCATTCAGTGTTCTGTTCTGTGCAAGACTGTAGCAGTGTGACAGG
CATACTTTAGGCAAACTCATTTATGTAAAGGCAAACTTGGTGACCTGAAGGAAACGGTGCAGCCAGGTTCTCAATGGCCACTTCCTATGCTCTCTGTGGA
TGTGATGGGATCCCTTCCTGGTCTGTAATCACTCACACATGGAAGCATTGGAAGAGCTTCACAGGCAGGTTAGGGAGAAAGAAAGGTGTGTCCCCATGTG
CTTTTAAAACCCAGCCCTGTCCAAGGGGCAGCTCCGAGAATGCCCTTCCCTCTTCTGGAGAGACATTCTGGATAGTGCAAAGAACTTGGGCTTGGAGTTG
GATAGAAGTGACATCTCAGATGTGGCACTGATTGATGGGTAGCGTAGGGAGATAAACTAAACTGCTATTTCCTCATCTGTTAAGTGGAACTAATAACATC
TGCCTTGTTTTAAAGAGTAAATAGGATTTAAATATCTCTTCATATGTAAATTAAAGTACAGTGGCTGGCATGGTAGGTGCCTAGTAAATGTTAGTTTTCT
TTTTACGTTACTTTTCCCCCCATTTGCAGAAGAATAAATGTTCCCTGAGCTGCCCGGATTCTTGTTCCGCACAGTGCCCTGGAGTCCTGGTAACTGAGTT
GCTGGTTGTGCTGCCATCTGCTCTTTGTGCGTCCTGGTTGCTGGCTGGCCAGCTAGGTGGGCCTGCCTCCTTTCCCTCCCTTGTGCTTTTCCTGTCAGCT
GTGGTCATGGTTGCCATTAGATGTTCTTTTCCACTAAATCTCAGTGGCTAACTGCCACCAGAGACTTTACTCCTGACCTCTGCACCGTGATGGCCGCCYT
GTCCCCTTTGTGTTCTGTTTTTTTCACTTTTGTGGTGTTTCACTCTGTTGCCAAACCTTTTAGCTTTTTTCTCTGACTGCTCTATTCTCTTACCAAAGCG
AGGGTTTTCCCTCCTGTTTSTGAGTGGGGAGCTGCCGAGAATTGTCATCCTCAGGAGGGAATGTCGTTGCTGGGGCTGCAGAGTTGCTGGGTACAGGCAG
GAGGGTGGTGTGCTCCTTCACTTCACTTTGTCTTGGGACTTAGGCATATCTCGGGTTGGAATTGGGGTAGTTATGCAGGTGAGAACTACCAGTTCACTAG
CTGGATGTTTGTCATTTAGCTAGGCATTAGGATTCAGTAGAAATAAAGTTTTATTTCRTTTTGCAACAATGTTGTTTTCTGTTTGGGTTGTTTACATTTT
AAATATACAGTACTCTAGGTATTTTGAGTAATATGTAGACAGATGTTAGTGGACCAGCCTAGGAGAATAATGATGTTAGTGRTAAGTGCYTGGCACTGTA
CCAAGGAATTATTTTATTTAATTCATATCCTATGAGGTAGGTTTTATTACTATCTCCATTTTTACAGATGAAGAATCTAGGTTAAGTAACTTGCCCAAGG
TCATGCTGCTTTTAGAGTCCTGATGCATCACACAGAGCCCTCACCACTGTGTTTTACTGCCTGTATGTTATTTAGACATATTGAAATAATCATTTCAATG
GGAACATAAATTCTGAGTTCCAAATAAATAATCTACAAATAAAGCTTTAGAGCACCATCTATTTTAGTTTGGCAGACAAATATTAATTAAAGGTGCCCAA
AAGGAGTGTTTATAGATAGGTACTTTGCATATTTAAAGCAAGAGTTGCTAAGCTTTTTCCGTAAAGGGCCAAATAGTCTATATTTTAGGGTTTGTGGATG
GCATGTACTGTCTCTCACATAGTCTTTGTGTGTTTTTTTGTTTTTTTGTTTTTTAACAATCTTTAAAAATGTAAAAGCCATTCTTAGTTCACAGGCTGAA
CAAAAGCAGGTCATCAGCCAGAGGCAAGAATGAAAGTAAGGAAAGCAGAAGGCTGTCAGGAAGTCCGGGCCAAAGATGACTGGGGTAAGGGCAGATAAGA
CAGAGGGTATGGGATGGGGAGGAGAGACTGTCAAAAAATGAAGAAAACAAGAATCCTTGGCCTGAGGGCCAAAATTTGCTGACCCTTAAAGTAATGTAGT
ACAGGTTGAGTATCCCTTAATGCAAATGCTTGGGACCAGAAGTATTTCAGAGTCTGGATTTTTTTGGATTTTGAAATGTTTGCATTTTTCTTACCAGATG
AGCATCCCAAATCTGAAAATCTGAAAGTCCGAAATGCTCCAATGAGCAGTTTCTCTGAGCATTACGTCMSCACTCAGAAAGTTCTGGATTTYATTCAAGT
TTGGTTTTCAAATTTTTGAATTTGGGATGCTTAACCTGTATGTATTCTGTTAATCATTTTGACACTGGCTTAAATTATTGTAATACTAAACAATACATAA
CCAAGAAGTCAGAATCTGATGTGTTATAGCACATTATTCAGTAAATATCTTTGTCTCATGTGTCTGTCTGAAGAGACCACCAAACAGTCTTTGTGTGAGC
AACATGGCTGTTTATTTCACCTGGGTGCAGGCAGGCTGAGTCCGAAAAGAGAGTCAGCAAAGGGTTGTGGATTATCATTAGTTCTTACAGGTTTTGGGAT
AGGTGGTGGAGTTAAGAGCAATGTTTTGAGGGAAGGGGTTGGATCTTACAAAGTACATTCTCAAGGGTGGGGAGAAYTACAAAGAACCTTCTTAAGCATG
GGGGAGATTATAAAGAAYCTTCTTAAGGGTKGGGGAGATTACAAAGTACATTGATCAGTTAGGGTAGGGCAGAAACAAATCACAATGGTGGAATGTCATC
AGTTAAGGCTATTTTCACTTCTTTTGTGGATCTTCAATTGCTTCAGGCCATCTGGATGTACACGTGCAGGACACTGGGGATATGATGGCTTAGCTTGGGC
TCAGAGGCCTGACAATCTTGTGTTTTGAATTGGCTACAAATGCTGCCAGGTGGGGAATCCAGTTAGCTTTCTTTAAATCCACATTGCAGCCACAGCCGTC
CTCGCTGTCTCAGCTCAGTGTCCACCTCTGCTCTCCTCACTGGCCTTCACACATAGGAACACTACAATGGGTCCTTGGAGGCTGACATTTTAGTAGCTGC
CACTCCTGGTTTTACTTAGCGCTTGCAAACCAGCCACATATGTAGTTTGTTTAATCAGATTTCCACTTCTCCTTCTTGGCCCTGACAGTGCCTGGTTTCT
GGCAAGCACTTGCAGCCCTTTAACCTTTGAGGCTACAGTGGAGACGAGCTCTTGATTCTCAAGAGGAGAGGAAGCTCCTGACATGTCCCTCCTGACTGCT
TATGATCAGGGATTTCCAGTTCATTACTGGGCAAGGTTTGGATGTAGCAGGAACAAGGACTCATGTTTTCTTCGTTTGCTGATATTCTTCCCACCCCATA
TCATCTACCCGTCTGTCTTATCTGTGGGACACCTTCCTTGACCCAAGCCTTTTACCCCTGTTCTCTTTGGCCTGGACTTTCTGACAGCCTTCTGCTTTCC
TTACTTTCATTGTTGCCTCCTGTACACACATTTCTTCTGGCGGTGGTACGATTATTTCTGGGAAAACAGAAGTGAGGTAGTGCTACCCTGCACTTTTTCA
CTCCTGTCTTCCCCGACCCCACCCCATCCCAGACAGCTTCCCTTTGTATTCAGGCTAAGATCCTTATTGCAACCAACCAAGCCCTAATGATCCGGCTTCT
GCCAACCCTTCTGATCGCCACTCCTTTTTTCTTCCTCCACCCATTCTGTCCCCCAAATTCATTGTTTTATGGTTGTATGGCTTCCTTACTGGTGGTTTTT
ACATTTTTTTTGAGACAGTATTTTAAAAATTAAAATTTAAAAAATAAAATAAATTTTTAATTTTTGAGGGGGTCTTGCAATGTTGCCCAGGCTGGTCTCA
AACTCCTGGGTGCAAGTGATCCTCCTGCCTTGGCCTCCCAAGTAGCTGGATTACAGATGTGCGTCACTGCTCTGGGCTGCACTGGTGGTTTTTCAAACCA
CCGCACCCTCCCCCACCTCAGGGCCTTTCACATGTTTCCTCTTGGAACACACTGTCCCCAGTAATTTGTACCTCTGCAACCTAGGTTTCCACTCAGTTGC
TACCTTGGAGTTCTTCCCAATTGCACTAGCAGTATTTGGTTTGTTCCACTGTTCCTCTTCACTAGAGTGTTTGCTCCCTGAGATCAGAGATACCATCTTA
GTCATTGCTATACCTCTAGGGGACCTAGTCATCACTCAGCTGGTTGATAAATTAATCATATGATTTGGCTGTAAGAGAATTACATTGTCTAACTGTCTGG
ACAGAGCTTGAATCCCCTCAGCAGTCTGACCGATTTAGAGACAGTCCAGCCTTATCTGAGGGAAGATCGAGGACAAGGCCCGCAGGGTCTTTGAACGGCT
CTCTGTCAYGCCAGGTCTTCTTTTTGTGATCTGCATCTTCTGCATGTGGCTGTACATGCTTCCTGGGTCTTTCATAGGCCATCCATTCACATTTTAAGTT
GGCTCTCATGTGCCTCCAAGTCTGCTTTGAGGCTGACAACTCTTTTTCCTCATCTAGCCCTCAGAAGTCCTGGGAGGGAAGGGCTGCTGATTTGCARATT
TGTCCTTTATAGCCTTAAGTTGATCTGAAGGTGCCCCCTCTGTCAGAGGCTTGTGGTGCACTTTGAGAAACTGGTAACACTGCCTCACTATTCACCATCC
CACCTTCATTCAGTTGCCTTTTATTAAGATCTTACTGTGGACCAAGGTCTCTGTTAAGCACATCATGTACCTGAATCCTTATGTTAACTCTGATTGGTGT
GGCTTTGGCTGTACGTCAGAGCAGAGGACATGGCCMAGAAAGGGCACCTCACATTCCCAGGTCACAGAGCTGTTGAGTGGCAGGTCTGAGGCCTGAGCCT
GGCTCTGTCTGACTGAAGGTGCCCTTATTTGCTGTGCTTCATGGCCTCTTCACACCTCATGAGTGTTTTTTAACTTTTATAACAAAACAATTAGCATGTT
GAAAACGCTCAGTAGTTCATCTAGTACCTAGAGGGGATTGATGATGACTTGCTATTGCTATACGCCATTAAGTCAAGGGACCTTATTAATGGTGAGTGTG
CCCCATGTTAATTGCCTTAGAGTACCCGGAGTAAAGATGAGGTGTTAACCACATTTTATAGTCACTTGTAACAGTTTATTATTTCTTAGGTATTTCATTT
GTCATTTGTCTTCATATTATATATGCTTAAAATGTTATTTCTAGTCTGGGACTTTTTAAATGATGCAATATAATTAWTTTTTTTTAAGGAAATGTGTGTT
TAATGGTAGGTAAATTGTGACGCACATTAGATATAACATATCTTTTCTTAAACTTATCAGGAACTGGAGAAGATGATGACTATGTTGATGATTTTAATAG
GTAAGAAAAACTATTGGGCAAATATATAAATATATACGTTATTTGTAAACAATTTCCGAACACAGACAAGACAAAATTACATTTGGTGCTTATTTTAATG
TATTTGATTCTGTTGTTCATATTGATTGAAGATGAAGAAAAGATAGTTAATCCAAAATTAAATATTTGATTTTAGAGCATGTTTTTGATTTTACATTAGA
ATATAGACAGTCACATTATGTTCAGGAAACTTGGTAAGAAGAAGAGAAACAATTGAAGAATTAACTGAGAAGTCATTTAGAAGCAGTTCAGTTGCCGTGT
CATAAGTGCTGATTTTCTCTTCCTTCCATACCTTTTTGTGGCGGGAATTGTCTCAAAATTGACCTAAAATAATTATGCTCTCAAATTAGTTTTTTGATTC
AGATCACATTTCCTAATATGTGGATATGTGGTCTGCCCTAATAAGATTGCCATTCTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACT
CTGTTGCCCACGCTGGAGTGCAGTGGTGCGATCTGGGCTCACTGCAACCTCCTTCTCCCGGGTTCAAGCCATTCTCCTGCCTCAGCTTCCCATGTAGCTG
GGCTTATAGGTGCGTGCCACTACGCCTGGCTAATTTTTGTATTTTTGGTAGAGACAGGGTTTTGTCGTGTTGGCCAGGCTGGTCTCGAACTCCTGACCTC
GTGATCCACCCACCTGGGCCTCCCAAAGTGCTGGGATTACAGACGAGAACCACCATGCCCTGTCGATTCCTTTCTTATACACAGAAAGATAATATGTAAT
GTAGAAGTAATATTTGTTGTGGATATGATTCGAAATTTTAAATTAGATGCCTGAGAATTTTATTTAATTGACAGGTTATCTTTCCAATTGGAAGTCTGTA
TTTTTTTTTATAATTTATTATACAGTTTTTGAGAAAGAGCATGATGTAGTAGATGAAATTGTAAAAATCTGGGTTTGTTTCTTTCTTGCTATTGTGACCA
AAGTCACTGCTTTGAACCTTTGTCTCCTCATCTGTTACATTGACTTGACTGCTGCTGCCCTTGCTACATTATTTTAAGGGTCAAGCAAGACAATATGTAT
GAAATTAATTATAGTTAATATTATATTTTACTTAAAGGATTAAAAGAAATATCTGAATGTTTAAAGAATAGTAATCTCTTTAAATGTTTATTTTCAGAGT
TCTTATTTTTTTTTCCCCTTCTGAAATTAGTACCAGCCATCGCTCAGAGAAAAGTGAGATAAGTATTGGTGAAGAGATAGAAGAAGACCTTTCTGTGGAA
ATAGATGACATCAATACCAGTGATAAGGTATGGTGTTCTGCATTTCCCATAGAGTGCTTTTTTTTTTTAACCTATTTGTCGATTTACTGTAAAGCTTCAA
AATTCATACTAATTAGTAGAAAAACAGTTGAAAATTATGAAAAGTCATGACAGAGACCTGGCTCGAGTTTATAAAGAATGTCTTTGATGAATGTGTAAGA
TTGGTTTTGGTTGTCACTTCCTTTGGTATGCAAGTCTCGCTGCTGAAATGCCTGAGGATTATTCCTGGGGCACTGGGATTGCTGTGGATTAAGAGGGATC
AGGGTGGGTCAGRCTTAGTGAGAATTGACCACCTGGTGCCATAGGTGGAAGTCAGTATAGGGTACTGTGATCACAGGAGGAAGCTGAGCCTGGAGTGCAG
AGAGTGTGGTCATCTTGGCCAGTTGTGACATCTGAACAGGCAAGCCAGACTGGGCTAAAATCCACAGGAGACAAGACAGTAGGCCATAAAGTTAGAGTCC
GTATTTGAGATCCAAACTTTACCTTTTTATGTGGGTGGAGAACAGAAGATCCTTCGATGGTGAGCTGTAGCATTGCAGGGTCACCTGTCAGTACCCACTT
CAAGCTGTCCCCAGCTCAGAGGAGTCTACCAGTCAGGTTGGAGGTTGCCATGGCTGGGTGGGGACTTGCTTTCCAGAACAWGGTGGGATTCTCCAAGCGC
TGTGATTGTCACACAGGGAGAAGGCCTTTGAGAGAGGTAGCGTTTACARTGCAACCACACAATCTAAGTCAGCAGCATCCGTGTTTGCATTCTTATTCTT
TCATATATTTTCTTATTTAAGCTTTAACCTTTGACTCTCAGTTTCTTTACTTGTAAGATGGAAGTATTAATACCTATGTGATAGGATTATTTTGAAGGTT
AAATGATAATATATAAAGCACTTCTCTAATTCCTGATGTATTATATACCCTTATAATTATAAATTTAGCTTTCTCTTTTCACCCTGCATCATCCTAAAGA
GGCCTGAAGAATGTTGCTTTAAAGTTATACCAAAGAAACTATGAAGGATTCTTTAAATATGAGGGAGAGGACTCGAAGAAATGACTGTTAAACTAGGATT
TGTGAAATGACGTGGGTTGAAGAGGAGGTGTGGCATCCCTTTGCCATTGGGGGCCTTGGATGGCGTCCAGGAGTCTGGGCTTTGTTAGACTGCTTCTCAC
TGGGTCCTACTCACTGGGTTTGGCACATCAATGTTCCTAGGAGTTTTCACTTAAAAGCTTAAATTTAGATAATTTTGCCATTTACATAGATTGGATTTTG
ACAGTCACTGTACTTCATCAGGAAGCATTTTCTAAAGCCTTCTGTGTAGAGAATTGCTACTGGGCACCTGGGGAACACAAAAGCATTTGTATTCTTTGCA
GTAAGAATACAGCAGACAATCTGGTCACCTTTCAGCCAAGGTGACCAAAACCAGTGTCCATTAAGCACCTACTATTTAGAGAGCACAGGGCTGGGGATGT
GGGGGTGTGAGGAAGGAGATAGCCCAGTGGAATGGGCAAGTTCTGTAAGTTCATCACATCTGGGTTTGAGTTCTGGAGCTGCTACTTACCACTCACAAAT
TTGGCCAAGTTATTTAACTTTTTTTTGTTTTTTTTTTTTTTAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCTATCTCAGCTCACTG
CAAGCTCCGCCTCCCGGGTTCATGCCATTCTGCTGCCTCAGCCTCCCGCGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCAGCTGATTTTTTGTATT
TTTTTATAGAGACAGGACTTCACCATGTTAGCCAGGATGATCTTGATCTCCTGACCTCGTGCTCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAG
GCGTGAGCCACCGCGCCCAGCAAGTTATTTAACTTTTGGGGCCTTGGGTCTCACATCTATTTTGCAAGAGAGATGGTGGTAGTGAAAATTAGAGATAAGC
GTGTAAAGCATATAGCTCAGTGCTTAGCAGAACAGGCATTCAATAAATGGTATCTRATACTATTATTCATTGTAGTCACAATAGACATTTCTGTCGTAGG
CACAGATATAGACTTCTTCCCTCAAATTTATGCAGGATCAGAGAGAGAAAAGCCATGTACACAAACATAGGAAAATCAAGATAAAAAGTGACAGGTGCCA
TAAAATGCCAGTCATTCATGGGCCATGAAAATTCAGAAGCAGGAACTAATATTTGACCGGGATTTTGAAAGATGACTCTGACTTGGTTCTGCGAGGGCTG
AGGAGGAACATGGTAAGCTCCATGAGAACAGAAGGGAGATCCCGGGACRTGTCAGTGCTGCCCTGATTCCAGAGCTTCACTGGAGGGTGCTGTGTGAAGA
GACAGAATGTTGGGAGGAGCAGGGTTGTTAGAAGGTGACTTTGAACCAGAAATGACAGAGGATGAACTAGGAGCAGAGGCCCTGGGGAGGGTAGTCTCTG
CACGGGAGCCAGCACGAGCAAAGACATAGGTAGATGTTGGAGGAAGAGGGCCACACGTTCCTAAGGGACAGAACATAAGTGTGCATCCCAGGTTTCTGTT
AATGCATAGCAATCTAATTCAGCAAACGTGAACATTTACACTTCATAAAACTTTTCAAAATCTTACAAGTTCCCGTCGATTTGTATGAAGCTTGCTATCA
CAGGGATCCTTTGTTTCCCTTTCAAGACTCAAAATGTAYGTTTTAGATATTTTTATTTTGTGATGTAAAATCTATTTTTATAGTTTTGAACTAAGTTGGT
CACTTTGAGTTCTTATTCTAAAACTAAGGAGGCATGAAAGCCGCCTTTATTAGTTTTGTTTTTGTTTTTGTTTTTGTTTTTGAGACAGAGTCTCACTCTG
TTGCCTAGGCTGGAGTGCAATGGCTGGATCTTGGCTCATTGCAGCCTCTGCCTCCTGGGATCAAGCAATTCTACCTTAGCCTTCTGAGTAGCTAGGACCA
CAGGCATGTACCACCATGCCCGGCTAGTTTTTGTATTTTGAGTAGAGATGGGGTTTCACCTATGTTAGCCAGGCTGGTCTCAAACTCCTGGCCTCTTGTG
ATCCCCCCGCCTTGGCCTCTCAAAGTGCTGAGATTACAGGCGTGAGTCACTGTACCCGGCGGAAAGGCTTTATTAAATAGCCATTTATTTCTAGTTAGCT
TTTGTTCATTCAGTTTTCTTTCTTGGTAACTACTTTAAATGAAACTGTTCTTCTTGGAAGTTTCTGGTTATTATTGTGGTCTTTTCTTTGCCTTAAAGCA
AAACTAAATTAATGATCTCCAATAACTGAATTATCTAGATTAAGATCGTTTTCAGTCCACGATTTTTCCTGTATTCACTCTTGTCTGTAGTTTAGCATTT
GTATTAATATAACACTCWAWYACTTTGTAAACGAGATGGAATACCTTACTGATTTCACTCTGTAATAATGATGGGAAGAGAAAATTACAGTTCCAAGGTA
TCAGTTTGTTTTACAGTCTGTCTGCAAGCTTTTCTGACTTTTCAGTTTTTGTGTAAATTGGATTTGAATTGAATGCATAAGAACTGTAATTAAGATTCCT
AATAATTTTCTTTGTGAGATAGTTTTACAGCAGGACTATGTTTGGACCAAGAGAAAGGGCAAGGACTTATTTGTTGAAAAGGATTTTACTTACAACYTAA
ATTTCTGAATATCCGAAGAATAACAAAATGAGAGGATATGTGGGGGGCAGATGAACAGACAAATAAAAGCATCTCACAGTATCTCGGGATGAAACTGTTG
CATCTCTACAAGATGTTCCTATTCTTGTGCGTTATTACCTGGCCCAGGTGTTGGCACACTTGTTCTCTAAAAGGCCATRTAGTGAATATTTTAGGCTTTG
CAGGCCATAACTACTCCACCTTGCCATTGCATGGAGAAGACAGCCATAGACGATGCCTAAGAGTGTGTGTGTGGGTGTGGCTGTGACTGTCCCCTGGTCT
GTTGCCACAACAATGAGTCTAGGTGGGACTGGGAAGGTTGGGTTCTGTCCTTGTTCAGCTGTCAGTGGGACCTGCCCAGCTGTATGTTCTATATTCTGGA
GCCTGTATATTCACCCGTGGTTTTTTCCTTAGTTAAGAAATGTTTTCCCAGCCTGCATTATGCTTACATATCTATTAATATTTCCTTTCTCCATTATCAT
GAGTTGTTTATACAAATGAATAGATATAAGTTGGTTAATAGGTTAACTTTCTAGTTTACAAGTAGTTTAAACAGAAGTAGAAATGAGTCGTTTCTTACAA
CACTTTGTGAACCCGGGGCTGGGAGTCTGAGACTCCATGGGCYGTCCTGTCTGCCCTTCTGTTTTCACTTCATGATCTGGCTTCAGGTGGCACAGTGTTA
AAGTGTGTCACACCATGTCGAGTTTGATGTTAGAAACTTAACGTTCTATACCGTCATATGAAAACATAAGAAGGGATCGTTTCCAAATTATACATTTTAA
TGAATTTTCGTGAAATTTAACGTGGGTAAATTATGGTTTTAGAGTTAGCAATTCATAGAGTGATACTTCCTGTGAACAGAATCATACATTGGGACTATGC
TCAGGTAAAGAAGTTTAATACAGTTTTTCACTAATTTGTTTCTTAGATTAAATTGGAATAATGGCTAAGATGTGTTTTATTTTAAATTTTCACTTGAAAT
ATTTGAGAATAATCATAAAACATTGGGCTCTAAAGATTGTACTAACTTAGTAGACATGATTTTAGGCAAATCGCTTCTCAACACAGCTTTAAATATGAGT
TGGTTTATGAAGTATAAAGTAATACTTTACAGCAACAGTTTTTTTAATTTTTAGTTTTTTATTTCTTATTTCCATAGGTTTTGGGGGAACAGGTGGTGTT
TGGTTGCATGAATGAGTTCTTTAGTGGTGATTTGTGAGATTTTGGTGCACCCATCACCCTAGCAGTACACACCGGGCCCAATTTGAGCCTTTTATCCCTC
ACCCTCCTCTCATTCTTTCTCTGGAGTCCCCAAAGTCCATTGTATCATTCTTATGCCATTGCATCCTCATAACTTAGCTCCTGCTTATTAATGGGAAGAT
GTGATGTTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAATGGTCTCCAGTTCCATCCAGGTTGCTGCAAATTCCATTATTTTGTTACTTTTTTTT
TTTGAGTCGGAGTCTCGCTCTGTCACCCAAGCTGGAGTGCAGTGGTGCAATTTCGGCTCACTCCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCCGCC
TCAGCCTCCCAAGTAGCTGGGACTACAGGCACCCGCTATATTGTCTGGCTAATTTTTGTATTTTTGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGG
TCTTGAACTCCTGACCTCAGGTGATCCGCCTGCCTCAGCTTCCCAAAGGGTTGGGATTGCAGGCATGAGCCACTGCGCCTGGCCTATTTGTTCCTTTTTA
TGGCTGAGTAGTATTCCATGGTATGTATATACCACAATGTCTTTATCCAGTTGTTGATTGATGGGCATTTGGGCTGGGTTTCATGTTTTTGCAATTCGGA
ATTGTGCTGCTGTAAACATGCGTGTGCAAGTATCTTTTTCATATAATGACTTCTTTTCCTCTGGGTAGATACCCAGTAGTGGGATTGGTGGATCAAACAG
TAGTTCTACTTTTAGTTCTTTAAGGAATCTCCACGCTGTTTTCCATAGTGGTTGTACTAGTTTACATTCCCACCAACAGTGTAAAAGTGTTCCCTTTTCA
CCACATCTTCACYGACATTTATATTATTTTTTGATTTTTTGATTATGGCCATTCTTGCAGGAGTAAGGTGGTATCTCATTGTGGCTTTGATTTTTTAAAA
TAACTTAAGACTACTCACATTCTGACACTTAATTATTTTCTTTCTTTTGAACAACAAAGCTTGATGACCTCACACAAGATCTGACTGTATCCCAGCTCAG
TGATGTTGCGGATTATCTGGAAGATGTTGCATAGACACGAAGAAGGAAGTATTCTAATTAACAAGGACAGAGGACTGACCGGTTCCATTTTTTTTTTTTT
CCAGACAATCACTCAGCTGGAATGTCTGCTCTCTATTGGTGCCTTGCATTTCAAAAACACTGCAGATATTTTTTAAAAGTAATTTTCATTTTACTAAACA
AAATACTTCCTATTTGAGCCCATGTGTGGAAGATTTAATATTCTTAATTTAACTGTACATTTCTTTATGGAAATTGATTATCTACACTCAGTTTCATTAC
AGGGAAGGAACCCATGAAAACATCAGTGTTAAGAGCATGATGAAAGGTGTCAATAAAGCCGTAGGATCGCGCAACCCTTTGTGTGTGTGGCTGCTGGTAC
GTGTGATCTTTGAAAACCTTGGCTTTAGCCCTCTGGAATCAGAGCTTACCCACCATAGTATATTTTGATATTAGGTGGTTCTACACATAGTTGGCAAAAT
GACTTGGTAAATTTGTAATGCTGAAGTATATTAGTATAAGTTAAATTTGATGTGTCAACTTTATTTTGTATTTCCTTCCATTTGGAAGGTTTGTTAGACC
ATTAAGGTTATATTAAAGTACTCTTGTGTGTGCTATTTAGTTTTGCTTGTTTTAAAGAAATCTAGMAGTGGTTATGAGTTTTAATTCATAGAATTGTCAA
TAACATAACATTTGCAATCGTCATTCCTCCTGTTATCCATGTAAGCAGCTTTAGTCGTAGGTTCTCTTCATTATAATTTATTATCTGTAAAGATTCCTTG
AAACTTATTCAGTACCAAAATGCATCTGAAACCATTAAGCAGTGCTTTTATTTCAGATCTGTAAGTTAATTGTATTAAAATCCAAATTGGAATGAAATAG
TAGTAATGGCCTAAGACCATGTTCAGTTTGACAAGCTTTATATACTGTACATAATTTCATTGTAACCCTTAAAAATAGAGCCAATAATAGAATTTCCACA
GTCTCATTTATACRGTTAAAGCATTATTGCTATTATGTAGGTCACGGATGTTTATAATACTAAAGTATTTTAAAATGTGCAAGTAGAAAAAACAGTAGAA
AGTGATGCATGCATATTTATATATAAGTAAAGCAGGATTGTGCTGTTTTTGCACTTTATAATTTCAATTAAGTTGCGGCTTTTTACTACAAGTTAACTTT
ATTAGTAAAAGGAGCAAATTAGACCTAATTCATTGATCTCGGTTAAGTGAGCAGACTGYATGACTTGTGTAATGCCAGTTTCTCATTTCATATTAGCCTA
AATATTACAGAAATTACTCCTTGGGCTCTAAAATGTAGAGGAAATGAAAATGTAAGGATTAAGGCTGTGTAACAGAATCTGGCTTTTTAAAATTTAAGTG
AAACTAAGCTGTAAACATCAAGAGGAAGTAGGACATAAACTGGGCCGGTACAGCCTGGGAGCCCTGTGTATTTCTGCCCTCYGTCTGTGAGCTGCTATCT
CAGTCTCCTTCAGCTCTTCATGTCTTAGTAAACAGCACCACGTGCAGATGTAATCTTGTTGCAGTCCCCCAGTGTGGTTGTTATAAAATGCATTTCTTTG
TAAGTCATCTCTGTAAACAGTCACTTTCTAAAAGCACTATAGTTCTGGTCCCCTGGAATCTGGATCACATGTATGATTTATTTTTAATATTTGATAGGAA
CTAGGTTTCAGTGAAATGRTTTGAAAGCATAGCAGGATGTGGCTTTTTAAATTTATGAAACTTTCGAACAGTAGCAACTGAAATTTGTCACTTTTCTGTT
ACGCAGAGAATCAGACCTTTTGATAATATTTGGGAGGGTAAAAGAAATATGCCAAATATGAAACTTTTTTGTCAGCACTACATACATCTTTTTTTTGCGG
GGGGCGGGGGGGACAGAGTCTCACTGTGTCACTCAGACTGGAGTACAGTGATGCGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCT
CCTGCTTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCACACCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTC
AGGCTGGTCTTGAACTCCTGACCTCGTTCCTGCCTTAGCCTCCTAAAGTGCCGGGATTACAGGCGTGAACCACCGCACCTGGCCAGTACTACATCCATTT
TATTGAATRATTTTGAATGACTTAAAGTTCAACTATGAAAAAGCTTTCTTTTCACATGTACTTTTTGATTAGGTATTATCAACTTATGAAACTTGAAGAT
GTGAAGTGACAGGTTTTGCATGTGATGAGTGTTTTCTGTTAAAAAATAAATATTGAAATATTAACCCATTAAATACATTTTTATGGTAACCTATGTTTTA
CAGTGGAGTTTTAAAAATGCTAGGTCTTTCTTTCATTTTATTGATAACTACAAATGAATAAAAAGCATTTATTCTCTTTGTTGATATTCGGTTGTGCTTT
TATACTTTATGTTGGATAACAACCTGTGGGCAGTTGTGTAGATGCCATTAGTCCCTGCCTCATGCTTGCCCACAGCTCTTCCTCCCCTCCTTACTTCCCT
CTCCTGCCCATGCACCAGAGCTGTGCCAGCCCACTGCTGCACAGCCTCTGCACCTGAGCTTGCCAAAGCCCTTCCTGTCTCAAGGTGTGATATTTGCCCC
TCCTTGTCTGGAATGTCCTTCCCCTAGAACTGCATGAAGCTGGTTTATTTCAGTCTCATGTTCAAAGACGCTTCCAGACCTAAGGGAGATGTCCATTCTC
CTCCCTGTCCCTGCCCCACCACTTGCATTTACCCCTTTTATTTTATTCATCTCAGCATACTCTGAAATGGTCTTGCTTATTTTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGAACTATGAGCTCGTGAGAACAGGGATTTTCTTTTAAACTGCTGTGTACCTGGCACAACATTTGTCCCCTAGTATGAGCTT
GGCATCTTTGGGGCTGTAAACAGGCTTGAGCACTGACATGGGGCCTGGAGAATGTGGTTTCTGGCTAGGCAGCTGGAACAWTCTACAAAATCTGAGGGGA
AAGCTGTCCTTACCCTAAACCTGGGGAGGTCCCTAGGTTCAAGTCTGCAGGAAGGGGATCTGGTTCAGGAGAAGGCCGTCCTGTGAATTTGCCCCACCCA
CCAAGCTCAGCTGGAGCAGGGCCTCTGAAGGAGGTGCCCTCTGTGTGGCTCTGCTGTGGTGTTGGTTCATGAAGGACATGGGAGGGGGGCAGGACAGGAG
AGGCAGCTCTTCCTGGAGAAAAACACACCCAGCCCAAGTTGGAGCCCTCCTGTGGCATTGGGTGGGGAGGATTCCCGCCATCAGTTCTCTGTCCATGGGT
GCTAGTCTCACCCCTGCCCTCCGAGCAGTCCGTGCTCCCAGTGTCCCTGTCCTCTTTTTTTTTTTTTTTTTTTTTTGAGGTGGAGTTTTGTTCTTGTTGC
CCAGGCTGGAGTGCCATGGGGCGACCTCGGCTCACTGCAACCCCTGCCTTCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTAC
AGGTGCCTGCCACCATGCCCAGCTAATTTTTATAATTTTTTTGTAGAGACGGGATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTG
ATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGAATACAGGTGTGAGTCACGGTGCCCGGCCTAGTCTTCCTGCTCTAGGAAGGGACGTGTTTGGGGAGGA
AATCCAGGGCAGCTACCTTTGTGAGTTGTCCTAATGCTGCGTTCAGAGTTCCACACGTTCAACAAGCATCTGACATTTAAGGAAAGTGAATGTATGTCAT
GAAAGACAGATGAACAAAGAACTGATCTTGAAGAAAATGTAATCAGGAAACGAGATAATTCAAGAACAAAAACCTGTGAAGGACTGAATGTGTCCCCCAA
AATGTGTATGTCGAAACCTAATCCCACATAGGATGGAATTAGGTAGGGCCTCTGGAAGTTGATGAGATCATTAGCGCCCTTATAGGAGGCCCGGGAGAGC
TGCTTTGCCCCTTCCAGCGTGTGAGGACACAGTGAGGAGGTGTTGCCTATGAGGAAACAGGCCCTCCCAGATGGTGAACCTGCCGGTACCTTGATCTTGG
ACTTAAGCCATCTGAGCTGTGAGCCCTACACTTCCATTCTTTATAAATTATCCAGTCCAAGGTACTTTAGGAACCTGAATGGATTAAGACAAACCTGATT
ATGCCACTCCGAGATTTGAGGTAACATTTGAATCTAAAAGAGGCTATATGAAAGAGGTTATAATAAAAATGATTTTTGACTAAAAAATTGTTGGCCTAAG
ATAATTCAGTAGCAGGGCTGAATAATGGGATGACTCAAAATCAGTAAGCTCAAAGGCAATTTCAAAGAAATCTTTATGTTTAGCAAGAAGACCAAGATGA
CAAGATGCGCCAGGAGACTTGGCCAGAGGACCTCCAGGCTGACAAAGTTTCCCCGAGGAAGTCAGATTGGAAAAGTGTCCTCAGGTTCAAGGAAACCTGG
GTGTGCACCGGGTGAATGAGAGTGGCAGACAGAAGGAAACAGCAAGGCCTCTGAGGTAGGAGGGACAGCGTTTTTGAATGTGAAATTTATTCCCTGATAC
ATGTTTTTAAAAATGAATCTTGCTGCCCTTAGAAAATGAACCCCCGAACAAGGTAAGGTCGAGCTGGCCCCTCGTGTCATCCGACTTTGCGTTGTGGCCC
TGCCTGCAGAAACGTGTGCTCTGCTACAGCCCTGGGAGGAGGGGCCGGGCTCCCAACTCCTGCCCCGCTTCTAGCACATGCTGTGCTTGGCCACTTCTCT
GCCTCTTAGTTTAACAGCAGCACTGGGCAAGGTTTGCCCTCTGCACACCAGACCGGCTTCCCAAGAACCGGGGAAGAGGAGAGGGCATGCCTGGGGCCTG
AGCTTAGTGGGCCGGGTGGAGGCAGGAGGTACTGCATGGAGGAGCATGGACAGTGGCATGCAGGAGGCCAGTCATTCTGCGGTTTTAGCTGGAGGTTTGT
TTTTGGTAGTTTGTAGAATCATCAGATTTGATGATGAAACTTTTTTTCCATAAATGTTAAATTTTCAGAGCCCACTTGTATTTTTTTTTTTCTTTTTTTT
TTTTTGAGACTGAGTCACTGTCGCCCAGGCTGGAGTGCAGTGGTACTAGCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTC
AGCCTCCTGAGTAGCTGGGATTACAGATGTGTTTCACCATGCCCGGCGAATTTTTTTTGTATTTTTAGTAGACACGGGATCTCACCGTGTTGGCCAGGCT
GGTCTTGAACTCCTGACCTATGGTGATCCGCACCCCTCCCCGCCCCCCCCGCGGCCCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTACC
CAGCCCTGTATTTTCTTTAAAAACCAATTTTGGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGAGG
TCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAAACCCATCTCTACTAAAAATACAGAAAAAAAATGAGCTGGGTGCGATGGTGGGTGCCTGCAGTC
CCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCCAGATCACGCCCCTGCACTCCAGCCTGGGTGACA
GAGCGAGACTCCGTCTCAAAAACAACAACAACAACGAAAAAACGATTTTGGCATGTTTTGTAAGTTGCCAGACTATTGGATATACCTCTTAATCATACTT
TGTTTGAAATCCTTTGTGGTTTCTAAAGCACTAGTAGCTTTCTGAAAGGAAAATTTTTAATGAATGAAGCATGCTTCATCCTGCACATCCCCTCCTGCCC
CAGCACCCCTACTGCCCATGCGCCTCTCCTGCCCCAGCACCCCTACTGCCCCAGTGCCAGGCCTTTTCTAGCAGCTCTCATGGGTTCATCCCTGCTGCGG
GCATTGCTCCACCAAGGGGCAGTGCTCTCCCTGCCGGTAAGTGTTGGAACTTCACGTTTCCCTCTAGTTTTCTCTTTACATTTTAACATATACTATTATG
TGTCAATATATTAATTATATATTAATTACATTTATAGAGGTTAGGTATATATGGCAGATCATATCTGAGCGTGAATTACATTCTCCAAATTTTTATTTGT
CATGATTTATTGCAGGGTTCACTTATTTGATCTACCCCAACTTAACACACATTTCCAAGAAAATATCCATCACACTAGAAAGAAAGAAAGAGGAAGGAAG
GAAGGGAGGGAGGGAGAGAAGGAGAAAGGAAGAAAGGGAAGGAAAATGGAATGGAGGAAGGGAAAAATGGAAGGAGGAAGGAAGGAAGGGAAAGAATGAA
GAAAGCCATTTGTTCCTGCAAACCTAAACCTCTTTGTAGTAAGTTCTGGCAGAAGGTGTGTTTCTGGAGTTAAACTACAGGCTTGGAAATGGAATTTCTT
AGCCTAATTTCTAAATTAGAACTGCTTATGCAAATTAACACTCCGTACATTTCAACAAGCAGTTGGCTGATTTCTTCTGTCCACTCCACCTGCAGATGCA
GAGGTGGCCCCATCCTGTGATGTGCCACCACATCCCTTTTCAGTGAAGGGCTTTGTTGGCTGCTGTGGGCATTCTCATGGCCTCTCCAGGGATGGCCTCC
ACTGTAGAGACCTATGTCACCAAGGCCAGGCCCTCTCAGGGGGCTCCATCCAACGACCATTCTGCCTCAGGGTAAGAGGCCCGGCCCTCTCAGCCTGAGT
CCATTCTGGCTCCAGAGCTCCCTGAGAGCTTGCCTGGCAAGTTACTCTTGCAATTCTAGCTTCCAGCAGGCGTTGATTTCTGGGGCACTTTTGATAAACT
CCTGGCAGGAAACTCAATCTCTGGGGGTCAGAGTCCACTTCCTGGGGAGCCCAATCTGTGACCCCTAGGAGTGGGGACCATGGAAGCACTTGGCTCTCCA
GCATGTGCTGAATAGGGGGCGCTGCCTGCAGTGTCCACGTGGAAACCTGGCTGGGAGAATGCCTGTGTGCTCTGCATGGGGATGTAAAGGTGTGAGCAAA
CCTTCTTCAGAGAGGGGATGTTCAATGCGAAATTTGAACATTGGGACCTGAAAAACTGATGGGCTGATGGGGTCTGCCCATGATTGGCAGCCTTCATAGA
ATCACGAGGGAAGAGCACAGGCCACCCTAGACAGGAGGGGTCCCCTACTGACAGGGAGGTGCTGTCGGGGCAGCAGGCACGTGCAGGAAAACGGAAAAGC
AGAGTAATTGAATGTAAATCATGCAACTCCACTACAGTGGCTAGAAGCCTGGATGGGCAACTTGGCTGAGTGATGTTGGGCAAGTATTCTCAGTTTTCTC
ATCTGTAAAGGGGATTAAATACTTCCTTCCCTTACAGGGCTGCCCTGGTCTTAAGTAATGCCCACAGAGAGCTTAGCATTGTTCTTGGCAAGTCACTAGT
ACTCAGTAAATACTATTTTTATTAAGAAGGTAAGATTCACAGGACTTAGTGTCTTAACTAGATGTTGAGAGTAAGGAGAAGAGAGAATACTTCTCGGATG
ATTGTTCAGTTTCTGATGAATGTCTGTTCCCCTTTCAAAACCTAATTCAGATGTCACTTCCTCCTCAAAGCTCTCGCCCCGCGCCGAGCTACTGTGATGT
ATTTTTATGACCTGGCAGCTTTTTTCTCATATCCCTGTTAGCGGTATGTGGTAAGAACATGAGACACAGAATCAGAAACCATGGATTTCTGGTCTTGACT
CCACTACCACTCAGAGGAAC


SNP Information

Context             (SEQ ID NO:12972):
AGAAAAGAAAAGCTCTCAAAGGCCAGTTTAAGGATTTTAGCCTAGAAGATAATATCACCAACAGAAATAGTGGGACTGAAGAGGGAGAACTGAAGTTATG
R
AGAACAGCACATTTTCGTATTTAAAAAGTTACAGTCAGTCATAAAGGGATTTTTGTAACAAACAGCCAGTATTTACTATGTACAGTGTCCTAGAGCTTGT
Celera SNP ID:            hCV27517976
SNP Position Genomic:     16722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12973):
GAAGGAGAGAATCTGTCGTGGCCACAGGCTGTGTCATTGTACATATGTTTAAATATCACATCAGGGTATTTATTTCCAAATGCATATTCTTTTAAAAAGA
Y
ATAAATCCATTATTAAAACAGTGTAAAAATCAGAAATTACAACTGCTGTGAATTACATAATATTTTTCTATATTTGATAATACCAGGAAAATGTCAAGAA
Celera SNP ID:            hCV27517977
SNP Position Genomic:     26723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12974):
CTGCCCTCCCAGCTCGTTGGCTTGCTCGTGTTTGTTGCTGGATAAATGTGAGCTTGTTGTGAAAATTGTCTTGAAATTATAATTTCCTGTTTCTTAACTT
Y
TTTTTAAGGCTGAACTCCGAGCAGCTGTGTTTTTAGCACTAGAGGAGCAAGAAAAAGTAGAGGTATGAAGTTTCCAGATTTTAACATGGCTGTATTCGTT
Celera SNP ID:            hCV22274409
SNP Position Genomic:     6725
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,19|T,21)   total(C,26|T,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:12975):
ACCCTTGGCACTTTCTTCAGGGAAGCTATATTCATATTATAAATAAACTTAAAAAAACATTCATATGTATAGTTAGAATTGATTTGTAGGGTTTTTGAAC
T
GATGTAACTTGGGCAAAACTGAAGTTCTTATTTTTGTTGTTGCTAAGAGACAATAAAGATAAAAATAAAATAAAGATTAAAGATAAAAGATTTGGTATAC
Celera SNP ID:            hCV11224483
SNP Position Genomic:     22484
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12976):
TGAATCCCCTCAGCAGTCTGACCGATTTAGAGACAGTCCAGCCTTATCTGAGGGAAGATCGAGGACAAGGCCCGCAGGGTCTTTGAACGGCTCTCTGTCA
Y
GCCAGGTCTTCTTTTTGTGATCTGCATCTTCTGCATGTGGCTGTACATGCTTCCTGGGTCTTTCATAGGCCATCCATTCACATTTTAAGTTGGCTCTCAT
Celera SNP ID:            hCV15957555
SNP Position Genomic:     38309
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,270|T,1230)   total(C,270|T,1230) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12977):
AGTTGGCTCTCATGTGCCTCCAAGTCTGCTTTGAGGCTGACAACTCTTTTTCCTCATCTAGCCCTCAGAAGTCCTGGGAGGGAAGGGCTGCTGATTTGCA
R
ATTTGTCCTTTATAGCCTTAAGTTGATCTGAAGGTGCCCCCTCTGTCAGAGGCTTGTGGTGCACTTTGAGAAACTGGTAACACTGCCTCACTATTCACCA
Celera SNP ID:            hCV15957556
SNP Position Genomic:     38497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12978):
GTGCCCGTTTTCCACTTTGTGATATTTTCACTTGACGGTTGATGAGGTGAAGCGCTGTTGTGGGTTGAGCATCTGTGCACATGCATACACCTGCTGTGCA
C
ACGCATACACCTGCTGTGCACACGCATACACCTGCTGTGCACACGCGTACACCTGCTGTGCACACGGGTACACCTGCTGTGTACATGGAGGAGCCACTGA
Celera SNP ID:            hCV11224487
SNP Position Genomic:     25922
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,12)   total(C,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12979):
TTTATTATTGAAAATATCTTAAAGTTTTATCTCACCAAGGAGGCCTTTTCTCTTTCCCTCTCTTTCTAGAAGGCCAATGATGAGGCCAATCAGAGTGATA
Y
AAGTGTCTCCTTGTCAGAACCCAAGAGCAAAAGCAGCCTTCACTTACTGTCCCATGAAACAAAAATTGGATCTTTTCTAAGCAACAGAACTTTAGATGGC
Celera SNP ID:            hCV25921839
SNP Position Genomic:     29101
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,33|T,1)   total(C,67|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:12980):
CTTTAAAAGACTCTGAGAGTAAGTGCCCAAAGATGTGGACTTCAATACTCGGGATATTTTTTCTCTAATTAAATACTATGTGATTATTGTTGATTTTTTT
Y
CCCAGGAAAATCACTAAAATAACCTATCATTTTATCACTCAGAGATATTTCCTGTTAATATTTTGTTGTGTTTTGTTACTTCTAAGGTGGTCCTATTTTA
Celera SNP ID:            hCV25635102
SNP Position Genomic:     31638
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,40)   total(C,3|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:12981):
CCCAAAGATGTGGACTTCAATACTCGGGATATTTTTTCTCTAATTAAATACTATGTGATTATTGTTGATTTTTTTTCCCAGGAAAATCACTAAAATAACC
Y
ATCATTTTATCACTCAGAGATATTTCCTGTTAATATTTTGTTGTGTTTTGTTACTTCTAAGGTGGTCCTATTTTATATGTTGTTTTGTATTCTGGCCCTT
Celera SNP ID:            hCV25635103
SNP Position Genomic:     31663
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(C,1|T,39)   total(C,2|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:12982):
TTCACTTGACGGTTGATGAGGTGAAGCGCTGTTGTGGGTTGAGCATCTGTGCACATGCATACACCTGCTGTGCACACGCATACACCTGCTGTGCACACGC
R
TACACCTGCTGTGCACACGCGTACACCTGCTGTGCACACGGGTACACCTGCTGTGTACATGGAGGAGCCACTGAAACTGCTCTCAGCGTTTTCAGTGCTT
Celera SNP ID:            hCV2997360
SNP Position Genomic:     25948
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12983):
TATGTCCATGGACATCAAAATGAGGTATAGGTTAGGAAGTTACCCTGGAAGTTAGAATTGAGATAATTACTTTGATTAGCAAAGGTTTATGTTAGAAATA
Y
GAGTGGTTGAAGGCAGCGCCTTTCACCTTGATGCCTGTTGTGTTTAGCACTGGATAGAAAATTGCTATTTTTACTGATGACTACTTTAATGCTTGGTTCA
Celera SNP ID:            hCV2997361
SNP Position Genomic:     28494
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:12984):
TTTTAAAGATTTCTATTTTGTGGTAAAATCTCATTTTATTCTCATGCTCAGATACCAAGGTATAAAGGACAAGGTAAGAAGAAGACAAGCGGGCAGAAGG
S
TGGTGACAAGGTAACATGCATGAGGGCAGAGGAGAAAAGCAGCCTGTGGGCATCAGGTCTCGACTCTGGGGCCTCCTGGAGCGCTGGGCTCCTGTCAGAT
Celera SNP ID:            hCV25635104
SNP Position Genomic:     20225
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:12985):
ATTAGTTCTTACAGGTTTTGGGATAGGTGGTGGAGTTAAGAGCAATGTTTTGAGGGAAGGGGTTGGATCTTACAAAGTACATTCTCAAGGGTGGGGAGAA
Y
TACAAAGAACCTTCTTAAGCATGGGGGAGATTATAAAGAACCTTCTTAAGGGTGGGGGAGATTACAAAGTACATTGATCAGTTAGGGTAGGGCAGAAACA
Celera SNP ID:            hCV9127291
SNP Position Genomic:     36577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12986):
GCTTCTGTAAGCAATATTAAATCTGAGAGGTGGCACTTATTTGCTAGTAAACTCCTGTATTGTCCCTTGGCTGCATGTCTGGGTAATGGAAAAGGGCTTC
Y
GAAAAAAATCACAGTGAAGAGGTCAATTTAGTTTATATCAAACAGAATTCTAAAGAGAGGTGAGCTGATTTCTTACGCCCTGGCTGTGCCGATTGTGGTT
Celera SNP ID:            hCV2997362
SNP Position Genomic:     31161
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;JBIC-allele(T,577|C,910)   total(C,910|T,577)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12987):
TTTGGGTTGTTTACATTTTAAATATACAGTACTCTAGGTATTTTGAGTAATATGTAGACAGATGTTAGTGGACCAGCCTAGGAGAATAATGATGTTAGTG
R
TAAGTGCTTGGCACTGTACCAAGGAATTATTTTATTTAATTCATATCCTATGAGGTAGGTTTTATTACTATCTCCATTTTTACAGATGAAGAATCTAGGT
Celera SNP ID:            hCV2997363
SNP Position Genomic:     35282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12988):
TACCAGATGAGCATCCCAAATCTGAAAATCTGAAAGTCCGAAATGCTCCAATGAGCAGTTTCTCTGAGCATTACGTCAGCACTCAGAAAGTTCTGGATTT
Y
ATTCAAGTTTGGTTTTCAAATTTTTGAATTTGGGATGCTTAACCTGTATGTATTCTGTTAATCATTTTGACACTGGCTTAAATTATTGTAATACTAAACA
Celera SNP ID:            hCV9127292
SNP Position Genomic:     36192
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12989):
ATATTTGACCGGGATTTTGAAAGATGACTCTGACTTGGTTCTGCGAGGGCTGAGGAGGAACATGGTAAGCTCCATGAGAACAGAAGGGAGATCCCGGGAC
R
TGTCAGTGCTGCCCTGATTCCAGAGCTTCACTGGAGGGTGCTGTGTGAAGAGACAGAATGTTGGGAGGAGCAGGGTTGTTAGAAGGTGACTTTGAACCAG
Celera SNP ID:            hCV29429207
SNP Position Genomic:     42949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12990):
GTTTACATTTTAAATATACAGTACTCTAGGTATTTTGAGTAATATGTAGACAGATGTTAGTGGACCAGCCTAGGAGAATAATGATGTTAGTGATAAGTGC
Y
TGGCACTGTACCAAGGAATTATTTTATTTAATTCATATCCTATGAGGTAGGTTTTATTACTATCTCCATTTTTACAGATGAAGAATCTAGGTTAAGTAAC
Celera SNP ID:            hCV2997364
SNP Position Genomic:     35290
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:12991):
TTTGAAATGTTTGCATTTTTCTTACCAGATGAGCATCCCAAATCTGAAAATCTGAAAGTCCGAAATGCTCCAATGAGCAGTTTCTCTGAGCATTACGTCA
S
CACTCAGAAAGTTCTGGATTTCATTCAAGTTTGGTTTTCAAATTTTTGAATTTGGGATGCTTAACCTGTATGTATTCTGTTAATCATTTTGACACTGGCT
Celera SNP ID:            hCV9127293
SNP Position Genomic:     36170
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,3)      total(G,3|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12992):
GTCACTTCCTTTGGTATGCAAGTCTCGCTGCTGAAATGCCTGAGGATTATTCCTGGGGCACTGGGATTGCTGTGGATTAAGAGGGATCAGGGTGGGTCAG
R
CTTAGTGAGAATTGACCACCTGGTGCCATAGGTGGAAGTCAGTATAGGGTACTGTGATCACAGGAGGAAGCTGAGCCTGGAGTGCAGAGAGTGTGGTCAT
Celera SNP ID:            hCV29429208
SNP Position Genomic:     40913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12993):
GCAATGTTTTGAGGGAAGGGGTTGGATCTTACAAAGTACATTCTCAAGGGTGGGGAGAACTACAAAGAACCTTCTTAAGCATGGGGGAGATTATAAAGAA
Y
CTTCTTAAGGGTGGGGGAGATTACAAAGTACATTGATCAGTTAGGGTAGGGCAGAAACAAATCACAATGGTGGAATGTCATCAGTTAAGGCTATTTTCAC
Celera SNP ID:            hCV2997365
SNP Position Genomic:     36618
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:12994):
ATTTTAGGGTGCACTTGATCTATCTGATGTACATTCTCCACCAAAGTCACCAGAGGGAAAAACAAGTGCACAGACAACACCAAGTAAGGTGAGTTAGCTG
Y
GGAACACGGAAGTCATGTCTGGACTTAACTCCAGAGTGCTCTGCTTTTCTCTCTCTAGTCTTTCTTGTTACAAGTTGTATTGTTTTATATAAACACATGG
Celera SNP ID:            hCV25635108
SNP Position Genomic:     17574
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,40)   total(C,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:12995):
GGAAGGGGTTGGATCTTACAAAGTACATTCTCAAGGGTGGGGAGAACTACAAAGAACCTTCTTAAGCATGGGGGAGATTATAAAGAACCTTCTTAAGGGT
K
GGGGAGATTACAAAGTACATTGATCAGTTAGGGTAGGGCAGAAACAAATCACAATGGTGGAATGTCATCAGTTAAGGCTATTTTCACTTCTTTTGTGGAT
Celera SNP ID:            hCV29429209
SNP Position Genomic:     36631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:12996):
ATTAGAAGTGATCAGGCGCTGTCAACAGAAAGAAAAAGGGCCAACCACTGGGGAAGTAAGTAGAATTCTGTGTTATCTTTTTCTATTTTAATTATTGGCT
R
CTTAGTTTAGCCATGCAGATTAGTGCATATATAGTAAATTAAGGTTTTCATACTAGAAGATATTCCTTAAAAACAAAATGAGATGCATTCAGATTGTATC
Celera SNP ID:            hCV25635109
SNP Position Genomic:     11122
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,39)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:12997):
TAATTTCAATTAAGTTGCGGCTTTTTACTACAAGTTAACTTTATTAGTAAAAGGAGCAAATTAGACCTAATTCATTGATCTCGGTTAAGTGAGCAGACTG
Y
ATGACTTGTGTAATGCCAGTTTCTCATTTCATATTAGCCTAAATATTACAGAAATTACTCCTTGGGCTCTAAAATGTAGAGGAAATGAAAATGTAAGGAT
Celera SNP ID:            hCV27888056
SNP Position Genomic:     47859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:12998):
TATTATTTCTTAGGTATTTCATTTGTCATTTGTCTTCATATTATATATGCTTAAAATGTTATTTCTAGTCTGGGACTTTTTAAATGATGCAATATAATTA
W
TTTTTTTTAAGGAAATGTGTGTTTAATGGTAGGTAAATTGTGACGCACATTAGATATAACATATCTTTTCTTAAACTTATCAGGAACTGGAGAAGATGAT
Celera SNP ID:            hCV25922171
SNP Position Genomic:     39177
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,39|T,1)   total(A,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:12999):
AGTCACTTTCTAAAAGCACTATAGTTCTGGTCCCCTGGAATCTGGATCACATGTATGATTTATTTTTAATATTTGATAGGAACTAGGTTTCAGTGAAATG
R
TTTGAAAGCATAGCAGGATGTGGCTTTTTAAATTTATGAAACTTTCGAACAGTAGCAACTGAAATTTGTCACTTTTCTGTTACGCAGAGAATCAGACCTT
Celera SNP ID:            hCV3263659
SNP Position Genomic:     48319
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,14)      total(G,1|A,14) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13000):
GCGCCCCGGCATGGCCTCCGTCCTGCCCGCCCCACAGAGGGGGTCGGCTCGTTCGTTCGTGTGGTCCCGGAGGGCACCGCGGACTGGGGGTGCCTGGCCC
R
TCCCCTGCCTCATTCCGTGGGGGCGGGACCGCGGGGCTTGGGGGCCACACGGGCGGCCCGCAGCTGGGCCCTGGAGTGCGGCCCCAGCGTCTCTTCCTCA
Celera SNP ID:            hCV610556
SNP Position Genomic:     6416
SNP Source:               dbSNP
Population(Allele,Count): JBIG-allele(A,595|G,704)   total(G,704|A,595)   no_pop(G,-|A,-)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13001):
CTCCACAGGGAAGGTAGAAGCCATTAGATCCTAACTTTATGTCCTCCTCTCCTGTCCCTCAATCTATTGCTCACCTGTGAAAATGCTTACCTGTGTCTAT
R
TTTATCTGTACCTCTTTCCTTACTGCTTTAGAAGAAGAGGCTCTGTCCTGTCCAAGAATAATCACTCTGTCTTGTGTATACTTTCAAGTCTTTAATTATT
Celera SNP ID:            hCV610557
SNP Position Genomic:     7867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   SG_12_G(G,3|A,21)   SG_12_AA(G,7|A,16)   total(G,10|A,37) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13002):
CTGGGAGTGAGGCGGCTCACCCAGAACGCAGGTTGTCACTTCAGCTTGTGCATATAATTTCATTCCTTCATTTATCAATATCCAGCAAGCTTTTATTGTG
Y
GCTTATTTGATAGATACTGTGCTGGGTACTGGGCAATCAAAAACAAACTAAAGAACCCAGTCTCCTGGGGCCAGCAGTCTGTAGGTCATGATGACCTCTC
Celera SNP ID:            hCV610558
SNP Position Genomic:     12367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13003):
GATTATTTTTAGGGTAAGGCTGTAAAAGAAGTGACTCCGTCTGCCTACGCTGAGCACCTTCCTGCTGCTGCTCATTCAGCAGGTGTTTGAATGGCTTTTA
Y
GTGTTCAGGATTACACGCTATGCGAGAGATGGCTACAGCAACAGCCATCATGTTCTCGTGAACCTCTGTCTTCATGGAGTTTAAATTCTGGTCAGGAATA
Celera SNP ID:            hCV11224493
SNP Position Genomic:     33417
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13004):
GGAGTTAATAATTTTGGACTACATTCCAGATTCCTTGTTTCAGTTGAGTGCTTTTTCTATTATTCCACGGGTATTTTACACAATACTGCTCTCTTTAGTA
Y
GCAAGGCTGAATTTTGGGAAATTGCCATTTTTAACCCATAAAGCCCACAAATTCATTATAATTTAGCTTAATAGCATAAATATTGAGTTAACCTCTGGAA
Celera SNP ID:            hCV11325626
SNP Position Genomic:     27855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13005):
GATGATATGGAAGGAGATTCTTTCTTTGATGATCCCATTCCTAAGCCAGAGAAAACTTACGGTTTGTGAGTAAATGGTTTTTGAGCTATGAGACTAGGGG
Y
TTAAAAATAAGATAAATGTTTTCATTTTATAGTTAAAAAATAATGAACTATGGAAGGTTTATAATTATTGGATCCATAAATCTGACTATGCGTTGTTAAT
Celera SNP ID:            hCV22275471
SNP Position Genomic:     29332
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,28)   caucasian(C,19|T,21)   total(C,25|T,49)
SNP Type:                 INTRON


Context             (SEQ ID NO:13006):
TTTTTCACTTTTGTGGTGTTTCACTCTGTTGCCAAACCTTTTAGCTTTTTTCTCTGACTGCTCTATTCTCTTACCAAAGCGAGGGTTTTCCCTCCTGTTT
S
TGAGTGGGGAGCTGCCGAGAATTGTCATCCTCAGGAGGGAATGTCGTTGCTGGGGCTGCAGAGTTGCTGGGTACAGGCAGGAGGGTGGTGTGCTCCTTCA
Celera SNP ID:            hCV29429210
SNP Position Genomic:     34920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13007):
TATTCAAAGAGGAAATTTGTAACTTAAAAAATTTAGAAACCTTTCTTCCATTAATTTAGTGTATCTATTTCATAATGTTAATTTAAAAAATTCAGTTTTT
R
AAGATTTGCTTACTTACCTTTTTCTTGATCTTTATAGGTCGTTTAGTGGCTAGTCTTGTTGCAGAATTTCTTCAGTTTTTTAACCTTGACTTTACTTTGG
Celera SNP ID:            hCV15756281
SNP Position Genomic:     10360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13008):
TGGAGAAAGCATGAAATCTTTCTATAAGAAAGTAAGGCGAGAAGGCACTGTGGAAACCCGGAGGGTTGTTGGGCAGTTTTAAAGGTCCCCTTGAGGTTAG
Y
GGTCATGACTTTAAGGGGAGTTCATCAGCATGGCTGTTAGTGGCTTCTGTAAGCAATATTAAATCTGAGAGGTGGCACTTATTTGCTAGTAAACTCCTGT
Celera SNP ID:            hCV29429211
SNP Position Genomic:     31018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13009):
TTCATTCATTAGTAAGACAGTCTCTTTGAGTTTAAAGATGTCTTTAAACTCTGAAAATATCTTCTTTACTCCTTGAGAATAACTTCTGCTATTTTTTTGT
R
CACTTGTATTTTAACTTCTTTTCTAGCTGCAAGGTCTCGAAGGTCGAGAGAATTTAGCCCGAGATTTAGGTATAATTGAAGCAGAAGGTACTGTGGGTGG
Celera SNP ID:            hCV25635110
SNP Position Genomic:     10912
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,39)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:13010):
GATTGATGGAGAGGTCTGAGCTGGAGATGTAAATTAGGAGTCATCAGTTTGTAGATAATGTGGGGTGTGGGAGACTACAGAGGATCACCAAGGAAGCAGG
W
CCTGCGCACCTTGAGGCCAGAGCAGGGAGCTAGAAGCAGCAGAGGAGATGGAACCAGGAGAGTGGTGTCTGTGGAGGTGGCGGTAGGGAGGAGTAGCTGT
Celera SNP ID:            hCV29429212
SNP Position Genomic:     30335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13011):
GTTTCTTTTCCCTTCAAGGCTCAATTTTATAGATAAGGGCAGTCCTGATCATACATCTGGCTGCATTTGCACAAAACAGTACAGTTAGCCCATCCCTTCC
Y
GCCTTGGATCCTGATGTTCACTTCTCTTCCTAATAAATATCCTCTGTGGCACTATTTTCCCCCAGAATAGGGCATTTTCGTTTGCCTTAAAAACCTGTTC
Celera SNP ID:            hCV27335212
SNP Position Genomic:     1155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:13012):
GGAAATCCAAAGTAGGCTATTGAGTGTATGCGTTGGGATTGATGGAGAGGTCTGAGCTGGAGATGTAAATTAGGAGTCATCAGTTTGTAGATAATGTGGG
K
TGTGGGAGACTACAGAGGATCACCAAGGAAGCAGGACCTGCGCACCTTGAGGCCAGAGCAGGGAGCTAGAAGCAGCAGAGGAGATGGAACCAGGAGAGTG
Celera SNP ID:            hCV29429213
SNP Position Genomic:     30299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13013):
TCACCTGTCAGTACCCACTTCAAGCTGTCCCCAGCTCAGAGGAGTCTACCAGTCAGGTTGGAGGTTGCCATGGCTGGGTGGGGACTTGCTTTCCAGAACA
W
GGTGGGATTCTCCAAGCGCTGTGATTGTCACACAGGGAGAAGGCCTTTGAGAGAGGTAGCGTTTACAATGCAACCACACAATCTAAGTCAGCAGCATCCG
Celera SNP ID:            hCV2997370
SNP Position Genomic:     41281
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13014):
CATGGCTGGGTGGGGACTTGCTTTCCAGAACATGGTGGGATTCTCCAAGCGCTGTGATTGTCACACAGGGAGAAGGCCTTTGAGAGAGGTAGCGTTTACA
R
TGCAACCACACAATCTAAGTCAGCAGCATCCGTGTTTGCATTCTTATTCTTTCATATATTTTCTTATTTAAGCTTTAACCTTTGACTCTCAGTTTCTTTA
Celera SNP ID:            hCV2997371
SNP Position Genomic:     41349
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13015):
TCTATTTTGCAAGAGAGATGGTGGTAGTGAAAATTAGAGATAAGCGTGTAAAGCATATAGCTCAGTGCTTAGCAGAACAGGCATTCAATAAATGGTATCT
R
ATACTATTATTCATTGTAGTCACAATAGACATTTCTGTCGTAGGCACAGATATAGACTTCTTCCCTCAAATTTATGCAGGATCAGAGAGAGAAAAGCCAT
Celera SNP ID:            hCV2997372
SNP Position Genomic:     42656
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13016):
AGACATCTCTTTATAATCATTAATTTATATTAATAACATGGAATGTGTAGCTCTCTAGAAGGCAATAAAATTTGCACAGCATATATCTTGCCTACTGTCA
R
CTAGTCAAGACCTCTACCTGGTGTAAAGATGTAAACGTATATCATAAGACATGCATAATGCATTCTGTCTGTACCCATATGAAAAGTGAAACCATCCTTC
Celera SNP ID:            hCV29429216
SNP Position Genomic:     27003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13017):
TTAATAGTTTGTGCATATGTATATAAACAAATAGATAAAATATTTAAAATAGAGACCTCAAAGATGTATGTTTTGGCCCTTCATTATTTATTAGTGTTTT
Y
TATTACTTTGGAAGAAAACCTGTTGTTTATAATGAAATAAAAAATTAGAGCTTTTATTAGCTTTTGACTTTGACTGTAGAAAACTAGCTATAGGTTAAGC
Celera SNP ID:            hCV29429217
SNP Position Genomic:     14270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13018):
GTATCTCGGGATGAAACTGTTGCATCTCTACAAGATGTTCCTATTCTTGTGCGTTATTACCTGGCCCAGGTGTTGGCACACTTGTTCTCTAAAAGGCCAT
R
TAGTGAATATTTTAGGCTTTGCAGGCCATAACTACTCCACCTTGCCATTGCATGGAGAAGACAGCCATAGACGATGCCTAAGAGTGTGTGTGTGGGTGTG
Celera SNP ID:            hCV2997374
SNP Position Genomic:     44479
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13019):
CCAGATCCCAGGCTGGCTGGGAGTGAGGCGGCTCACCCAGAACGCAGGTTGTCACTTCAGCTTGTGCATATAATTTCATTCCTTCATTTATCAATATCCA
S
CAAGCTTTTATTGTGCGCTTATTTGATAGATACTGTGCTGGGTACTGGGCAATCAAAAACAAACTAAAGAACCCAGTCTCCTGGGGCCAGCAGTCTGTAG
Celera SNP ID:            hCV29429218
SNP Position Genomic:     12351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13020):
CAAAAGTTTTCCTTGTGCCCCTTATGTAACCCTCTCCCCCACCCCAAACCTTTTTAAGAATTATATAAATGGAATCGTATAGTAGGTACTCTTTTTTTTT
R
GTCTGTTTCTTCAACATAATGCATTTGAAATTCATTCATGTTGTGGTATGTATTAATAAATCATTTCATTAATACATTGTACAGATATGACAGTTTAGCC
Celera SNP ID:            hCV29429219
SNP Position Genomic:     8942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13021):
ATAAACAGTTGTTGACATTTAATTGTATTTCACACAGGTATTTGAAAATATCTAGCTTCAAAAGCAGTTTATAAAACATTTAAAAATTAAAAATACAAAT
M
TTCATATATGGTTTTGTTATATTAACTTTGAGAAATTACTAAATAGCACAAAGTAAGTCCTGTAGTAATTAACAGTTGTAGAATGGATTTTGTAAAACCA
Celera SNP ID:            hCV25635083
SNP Position Genomic:     9678
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,31)   caucasian(C,36)   total(A,1|C,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:13022):
ACACGGGCCGTGTATGGTGGCTCACGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACTTGAGGTCAGAAGTTCGAGACCAG
Y
GTGGCCAACATGTTGAAACCCTGTTTCTACTAAAAATACAAAAATTAGCCAAGCGTGGTGGCACGCGCCTGAAATCCCAGCTACTCAGGAGGCTGAGGCA
Celera SNP ID:            hCV27335185
SNP Position Genomic:     27383
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13023):
TGAACCTGGGAGGTGGAGGTTGTGGTGAGCCAAGATTGCGCCTCTGCACTCCACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAT
M
CAAGGAATTAGCTGGGCGTGGTACTCGGGAGGTTGAGGCAAGAGAATCGCTTGAACCCGGCAGTCGGAGGTTGCAGTAAGCCAAGATCTCGCCATTGCAC
Celera SNP ID:            hCV610560
SNP Position Genomic:     16199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13024):
AGTAACATATAGCTAGGGATAATTTTGAACTGTTAAGGATTACATTACTATTGAGAGAGAGCCAAAATTATTCTTTTTTCGTGTAGCTTTTGAATTTGGG
R
GTAATCTTAAGGTACCACAGTAACTCTGATACTAATGCTTAATCTGAAACAAATGGTCATAGGAGTTTCTTGAAGAAATGGTGCCATTGTCAATGTGTTA
Celera SNP ID:            hCV25635084
SNP Position Genomic:     6973
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:13025):
AATACTTAATTTCTTATTCATTAAAAACCGTCTTAAAAATAGTTTATAGTAACATATAGCTAGGGATAATTTTGAACTGTTAAGGATTACATTACTATTG
W
GAGAGAGCCAAAATTATTCTTTTTTCGTGTAGCTTTTGAATTTGGGGGTAATCTTAAGGTACCACAGTAACTCTGATACTAATGCTTAATCTGAAACAAA
Celera SNP ID:            hCV25635085
SNP Position Genomic:     6926
SNP Source:               Applera
Population(Allele,Count): african american(A,36|T,2)   caucasian(A,40)   total(A,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:13026):
CAAGATGTTTTTGTGTTCTGTCATTTTTCAGACAATTGCACATTTGTGATCCTTTATTCAGTGCCCCTGCTCACAGTAGACTGCTGGGGGCCAGTGCTGC
R
TACTACCAAGGCCTTGGCTGCTTTTTCATCCTCTCCTAAAGATCACAAAAATTGACTAATCCAGTAGATTAGCTGCTTATGAAATTTAAATATTAGAAGT
Celera SNP ID:            hCV610561
SNP Position Genomic:     21025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   SG_12_AA(G,4|A,16)   total(G,4|A,16)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13027):
CTGTATTCGTTAATACTTAATTTCTTATTCATTAAAAACCGTCTTAAAAATAGTTTATAGTAACATATAGCTAGGGATAATTTTGAACTGTTAAGGATTA
Y
ATTACTATTGAGAGAGAGCCAAAATTATTCTTTTTTCGTGTAGCTTTTGAATTTGGGGGTAATCTTAAGGTACCACAGTAACTCTGATACTAATGCTTAA
Celera SNP ID:            hCV25635089
SNP Position Genomic:     6915
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,39|T,1)   total(C,70|T,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13028):
ACCTCATGTTTATGAAGTGCCCGTTTTCCACTTTGTGATATTTTCACTTGACGGTTGATGAGGTGAAGCGCTGTTGTGGGTTGAGCATCTGTGCACATGC
R
TACACCTGCTGTGCACACGCATACACCTGCTGTGCACACGCATACACCTGCTGTGCACACGCGTACACCTGCTGTGCACACGGGTACACCTGCTGTGTAC
Celera SNP ID:            hCV610565
SNP Position Genomic:     25906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13029):
TTTTGAAATGTTTGCATTTTTCTTACCAGATGAGCATCCCAAATCTGAAAATCTGAAAGTCCGAAATGCTCCAATGAGCAGTTTCTCTGAGCATTACGTC
M
GCACTCAGAAAGTTCTGGATTTCATTCAAGTTTGGTTTTCAAATTTTTGAATTTGGGATGCTTAACCTGTATGTATTCTGTTAATCATTTTGACACTGGC
Celera SNP ID:            hCV9127303
SNP Position Genomic:     36169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,3)      total(A,3|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13030):
AGGTGAAGCGCTGTTGTGGGTTGAGCATCTGTGCACATGCATACACCTGCTGTGCACACGCATACACCTGCTGTGCACACGCATACACCTGCTGTGCACA
Y
GCGTACACCTGCTGTGCACACGGGTACACCTGCTGTGTACATGGAGGAGCCACTGAAACTGCTCTCAGCGTTTTCAGTGCTTTGGTTTTAATCTGCAAAA
Celera SNP ID:            hCV610566
SNP Position Genomic:     25966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13031):
TTGTCCCCTAGTATGAGCTTGGCATCTTTGGGGCTGTAAACAGGCTTGAGCACTGACATGGGGCCTGGAGAATGTGGTTTCTGGCTAGGCAGCTGGAACA
W
TCTACAAAATCTGAGGGGAAAGCTGTCCTTACCCTAAACCTGGGGAGGTCCCTAGGTTCAAGTCTGCAGGAAGGGGATCTGGTTCAGGAGAAGGCCGTCC
Celera SNP ID:            hCV11325630
SNP Position Genomic:     49681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:13032):
TACTAGCATTATTTTTTGTTTTCATTATTATTATTAACATAGACCCGTCTAAGGGCAGAAAGAAATCTGACCAAGAATGGAGTGAAAGTCGGCTGTGAAG
S
TTAGGACTCCCTGAAAACAAAAAAGAAAAGTGGTAACATCACTCTGTATCCAAGGGCATGGATAAGGATGATTCAGAATTTTTTTATAACATTGATGTTA
Celera SNP ID:            hCV610569
SNP Position Genomic:     28256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13033):
TTCACAGGTAAAAGGGGAAATACAGTTTTGAAAGATCTGAAATTGATCAGTGATAAAATTGGATCACTTGGATTAGGTAATTAGATTTCTAGTTTTTGTG
Y
TGATCGTTTTAAAGTGATTATTTTTAGGGTAAGGCTGTAAAAGAAGTGACTCCGTCTGCCTACGCTGAGCACCTTCCTGCTGCTGCTCATTCAGCAGGTG
Celera SNP ID:            hCV22275444
SNP Position Genomic:     33301
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,14)   caucasian(C,20|T,20)   total(C,44|T,34)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,472|T,593)   total(C,472|T,593) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13034):
TATTTTAACAACTTTATTGAGGTAAAATTGACCTATAGTAAAGCTAAAGTATTTAATATGTACAATTTGATTTTTAATAGTTAATTTATGCAGCTGTGAA
R
TGATCATCACAATCAAGGTACTGCGCATATCCTTCAAACTTTTGACCTTCAAAAGTTTTCCTTGTGCCCCTTATGTAACCCTCTCCCCCACCCCAAACCT
Celera SNP ID:            hCV29429220
SNP Position Genomic:     8792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13035):
ATCTCCCTGAAGTCCTTTTTCCACATTGCTCCTAGATTGGCTGTTTATAGTACACATCTGATCTTGTCCCTCCATTCTCTTAAAATATTTCAGTTGACTC
M
CTATCTTAGAATTCCCTGAACCAGCCTACCAACTACCTTGAGGATCTCTCCTCTCCTTGTCTTTTATTTTAACAACTTTATTGAGGTAAAATTGACCTAT
Celera SNP ID:            hCV2997344
SNP Position Genomic:     8627
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13036):
TTCTTTCCACCTGCTCAGCCATCACCTGGCTCTGTGTCTGTCAGGTGTGTATCTGAAGTGTCCCCAAGGGAGTGCTCTGCTGCCTCCTTTGTGCTTGTTT
Y
TTCTTTTCCAGATTGCCTTATCCCCTTCCTACTTGCCAGTCTCCGTTTCCGTGGTGTCCCTCACCATCTCCCTGAAGTCCTTTTTCCACATTGCTCCTAG
Celera SNP ID:            hCV29429221
SNP Position Genomic:     8461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13037):
GAAGGGCTTTCCGAGAAGTTGGAACGGTGCCAGCCAAGCGTGGGAGCAGGAGAGCATAGCCAGATCCCAGGCTGGCTGGGAGTGAGGCGGCTCACCCAGA
R
CGCAGGTTGTCACTTCAGCTTGTGCATATAATTTCATTCCTTCATTTATCAATATCCAGCAAGCTTTTATTGTGCGCTTATTTGATAGATACTGTGCTGG
Celera SNP ID:            hCV2997345
SNP Position Genomic:     12292
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,8)   total(G,6|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13038):
CTGTGGTCATGGTTGCCATTAGATGTTCTTTTCCACTAAATCTCAGTGGCTAACTGCCACCAGAGACTTTACTCCTGACCTCTGCACCGTGATGGCCGCC
Y
TGTCCCCTTTGTGTTCTGTTTTTTTCACTTTTGTGGTGTTTCACTCTGTTGCCAAACCTTTTAGCTTTTTTCTCTGACTGCTCTATTCTCTTACCAAAGC
Celera SNP ID:            hCV15956232
SNP Position Genomic:     34799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13039):
TTAGACCTGTATACCTAATCTCTAATTTCATCAAAATCTTCAGTTCTTTGCCCTTTCCATGTCTGTGCAGGCATCAGTCTTCTCTTGGCAGCATTTTGCT
Y
TGGACCCTATGGGTCTGGACCCCTAATTACCTTGCCTTAACGGTCATACGTGGTCTGGAAGAAATCTCAGTGGTCATTTAACCCAGCAAACTAACTCTTC
Celera SNP ID:            hCV29429222
SNP Position Genomic:     7476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13040):
TGTGCTTTGGCTCACCTCATTGCAGTGGTGTTTATGCATATTTTTCTGTCTAGATTGATCTTTCTTCCTTAACATACCACTAGCATGGACTCTGGAACCA
S
GTTACTTGGGTGAAACCCCAGCTCTGCTACATTCTAGCTCTGTGAGCCTGCAGTCACTCAGCCTCCGTGTGCCCAGGTTCCTTATCTGCAACATGGAGAT
Celera SNP ID:            hCV2997346
SNP Position Genomic:     12658
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,14)   total(G,14|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13041):
CTCTATATTTAAGTGGGTAATTTAACTTTTTCGGAGTCCCACCAACCATCCTGAGTAAATATTCTGGAATTTGTCAACAAGAATAGAACCATCATCAAAG
Y
CTTAAACTCTTGCTGTATGACAAATCAGTCTACTGTCCTCTCACTTCTTTAGACCTGTATACCTAATCTCTAATTTCATCAAAATCTTCAGTTCTTTGCC
Celera SNP ID:            hCV29429223
SNP Position Genomic:     7327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13042):
AGGGCAAAAAGTAGATCTTAGAGAATTACAGGATATTATTTGTCTGGAGAGTAGGGAGAAGGGAAGTGAGGAAGTAAATCCTGGAATGGTAGACCTGGGA
Y
AGATTTCAGTGGAGAAAGACAGTATCCTGTTCAAAGTGAATAAATGAAATATTTTGCAGGTAATTAGAATCTAGGGATGTGTAGAAGGTTTTTGAGGGGG
Celera SNP ID:            hCV2997347
SNP Position Genomic:     17221
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13043):
TAGTATGCAACTTTTCCCAAAATTATCTGACCACTCAATTATTTTGACAATGAAAAAGACAGCGATTATTTTAAAAGTGCAGCCACTACTCTATATTTAA
R
TGGGTAATTTAACTTTTTCGGAGTCCCACCAACCATCCTGAGTAAATATTCTGGAATTTGTCAACAAGAATAGAACCATCATCAAAGCCTTAAACTCTTG
Celera SNP ID:            hCV29429224
SNP Position Genomic:     7239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13044):
TACCAACATTGTATAGTGTTTTTAAATGCTAAAATTCTATTGGAGTGTAATTGGTATATTTGTGTTTTATTTTTAAATGTATTTTAATTTTAAACTAAAA
Y
ATTTTAGGGTGCACTTGATCTATCTGATGTACATTCTCCACCAAAGTCACCAGAGGGAAAAACAAGTGCACAGACAACACCAAGTAAGGTGAGTTAGCTG
Celera SNP ID:            hCV2997348
SNP Position Genomic:     17473
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,29)   caucasian(C,19|T,21)   total(C,28|T,50)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13045):
CCGTTATTCTAGTTTAGTCTCCGTTTCTCAGTTGGCCTCATAAACCCACTTCAGAAATACCCTAGATAGTCCTTGTGTAGGGTTGCATCTGTTCTAAAAT
R
AACCCTTATTTTGGCACTTAAAATGCAATTTCTCTAGTACTAAAGGACCTGGATTTGGGATCCAGTACTTTCCCTACCGTCTTCTTGCTAGCTACCTCCT
Celera SNP ID:            hCV2997349
SNP Position Genomic:     19618
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13046):
CGTCGGCCGCGTAGCCCGCGCGCGGAGCGTACCCTGCTGCGGCCGTTGGCCGTTAGCGCGGCTTCGGCGGTTGTCTTGGAGAAGCAAGATGGCGGCGACG
R
CGGCCGCAGTGGTGGCCGAGGAGGACACGGAGCTGCGGGACCTGCTGGTGCAGACGCTGGAGAACAGCGGGGTCCTGAACCGCATCAAGGTGAGGCCGGA
Celera SNP ID:            hCV29429225
SNP Position Genomic:     6099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:13047):
AAAGATGTAAACGTATATCATAAGACATGCATAATGCATTCTGTCTGTACCCATATGAAAAGTGAAACCATCCTTCAAGAGCGTCTTGTTCGGTAATGTC
Y
AACCCAGACTTTGGTCACCATGCTTCAGTAGTTACTACTCTTTAATTCTTTCTCAGCCATCCATCCCTTCCTAGATATAATTTGATCTGAAAAATATGAA
Celera SNP ID:            hCV3054696
SNP Position Genomic:     27128
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13048):
TAGTTCTTTAAGGAATCTCCACGCTGTTTTCCATAGTGGTTGTACTAGTTTACATTCCCACCAACAGTGTAAAAGTGTTCCCTTTTCACCACATCTTCAC
Y
GACATTTATATTATTTTTTGATTTTTTGATTATGGCCATTCTTGCAGGAGTAAGGTGGTATCTCATTGTGGCTTTGATTTTTTAAAATAACTTAAGACTA
Celera SNP ID:            hCV27335154
SNP Position Genomic:     46413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13049):
TCCTAATAATTTTCTTTGTGAGATAGTTTTACAGCAGGACTATGTTTGGACCAAGAGAAAGGGCAAGGACTTATTTGTTGAAAAGGATTTTACTTACAAC
Y
TAAATTTCTGAATATCCGAAGAATAACAAAATGAGAGGATATGTGGGGGGCAGATGAACAGACAAATAAAAGCATCTCACAGTATCTCGGGATGAAACTG
Celera SNP ID:            hCV11224505
SNP Position Genomic:     44297
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13050):
ATTTTTAGTAGAGACGGGGTTCCACTATGTTGGCCAGGATGGTTTCGGATCTCCTGACCTCATGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTA
Y
AGGTGTGAGCCACTGTGCCTGGCCTTATATTTTTTAAATCTTATTTGTTAGTTTTTAAACAATACTTAACCTTAGTTATTTAGCTTCATTTTGAATCTTC
Celera SNP ID:            hCV27335190
SNP Position Genomic:     25333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13051):
AGACCATGTTCAGTTTGACAAGCTTTATATACTGTACATAATTTCATTGTAACCCTTAAAAATAGAGCCAATAATAGAATTTCCACAGTCTCATTTATAC
R
GTTAAAGCATTATTGCTATTATGTAGGTCACGGATGTTTATAATACTAAAGTATTTTAAAATGTGCAAGTAGAAAAAACAGTAGAAAGTGATGCATGCAT
Celera SNP ID:            hCV11224508
SNP Position Genomic:     47614
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:13052):
GAGCAGCTGTGTTTTTAGCACTAGAGGAGCAAGAAAAAGTAGAGGTATGAAGTTTCCAGATTTTAACATGGCTGTATTCGTTAATACTTAATTTCTTATT
Y
ATTAAAAACCGTCTTAAAAATAGTTTATAGTAACATATAGCTAGGGATAATTTTGAACTGTTAAGGATTACATTACTATTGAGAGAGAGCCAAAATTATT
Celera SNP ID:            hCV25635090
SNP Position Genomic:     6844
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13053):
AATAACTGAATTATCTAGATTAAGATCGTTTTCAGTCCACGATTTTTCCTGTATTCACTCTTGTCTGTAGTTTAGCATTTGTATTAATATAACACTCAAT
Y
ACTTTGTAAACGAGATGGAATACCTTACTGATTTCACTCTGTAATAATGATGGGAAGAGAAAATTACAGTTCCAAGGTATCAGTTTGTTTTACAGTCTGT
Celera SNP ID:            hCV27335159
SNP Position Genomic:     44021
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,4|T,7)      total(T,7|-,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13054):
TCATATGCATTGCTTTCACACCTGCAGATTCAGTCGTATGTAAATGGAAAAATGGTTATAAAAAATAATAATACAAATTTTATTTATTATTTATTTATTT
W
TTTATTTTTTTATTTTTTTGAGATGGAGTCTCTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTC
Celera SNP ID:            hCV27335192
SNP Position Genomic:     23662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13055):
GGGTCGGAGAGCTTGTGTGACTGAGAACGTTTCGGAAGGCGTTTCTGACCTTTGCACCTGCCCTCCCAGCTCGTTGGCTTGCTCGTGTTTGTTGCTGGAT
M
AATGTGAGCTTGTTGTGAAAATTGTCTTGAAATTATAATTTCCTGTTTCTTAACTTCTTTTTAAGGCTGAACTCCGAGCAGCTGTGTTTTTAGCACTAGA
Celera SNP ID:            hCV25635091
SNP Position Genomic:     6668
SNP Source:               Applera
Population(Allele,Count): african american(A,34|C,2)   caucasian(A,40)   total(A,74|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:13056):
AATATCTTTAAGTTGCTTTTGTTTCTGTGGCAGAATAAAAGTGTTTAGTGGCAGAACATAAGAGCACCGATTAACTGTCCTTGTTTCTTGTTAGGAGGAA
K
GAACCTAGGAAGCAAGCAGGAAGTCTGGCCTCGCTCTCGGATGCACCCCCCTTAAAAAGTGGACTCAGCTCCCTGGCGGGAGCCCCTTCTTTAAAAGACT
Celera SNP ID:            hCV25635092
SNP Position Genomic:     31449
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,39|T,1)   total(G,74|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13057):
TTGTATTTCCTTCCATTTGGAAGGTTTGTTAGACCATTAAGGTTATATTAAAGTACTCTTGTGTGTGCTATTTAGTTTTGCTTGTTTTAAAGAAATCTAG
M
AGTGGTTATGAGTTTTAATTCATAGAATTGTCAATAACATAACATTTGCAATCGTCATTCCTCCTGTTATCCATGTAAGCAGCTTTAGTCGTAGGTTCTC
Celera SNP ID:            hCV9699288
SNP Position Genomic:     47266
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,10)      total(A,10|C,3) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:13058):
CGTGGGTTGATGGAGCTTTGGGGAGAGGAAACAGACAGCAGGGAGGCGAGTTGGGGGTAGCAGAGAGAGCAAGATGGGGATCGGATGAGGTGGACTCAGA
K
ATGAGGAGCTGGACGGCTTTTCTTTGAGACTGGAAGCCCTGAGGATCTTGATCTGGCGTACATTACAGAAGGATCCTGAGGTTGCTGGGGAAGGTTGGTC
Celera SNP ID:            hCV610570
SNP Position Genomic:     29874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13059):
ACGGAGGTTGGAGATAAGAGGAGAGTGGAGAAAGCATGAAATCTTTCTATAAGAAAGTAAGGCGAGAAGGCACTGTGGAAACCCGGAGGGTTGTTGGGCA
R
TTTTAAAGGTCCCCTTGAGGTTAGTGGTCATGACTTTAAGGGGAGTTCATCAGCATGGCTGTTAGTGGCTTCTGTAAGCAATATTAAATCTGAGAGGTGG
Celera SNP ID:            hCV610571
SNP Position Genomic:     30993
SNP Source:               dbSNP
Population(Allele,Count): SC_12_C(A,7|G,16)   SC_12_AA(A,3|G,18)   SC_95_C(A,77|G,110)   total(G,144|A,87)no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13060):
TCTACCAAAATACAAAAAATTGGCCAGGTGCGGTGGCTCAAACCTGTAATCCCACATTGGGAGGCTGAGGCGGGCGGATCATTTGAGACCAGCCTGGCCA
M
CATAGTGAAACCCTCTGTCTACTAAAACCACAAAAATTAGCTGGGCATGGTGGTGTGCACCTGTAGTCCCAGCTACTCGGGAGGGCGAGGCAGGAGAATT
Celera SNP ID:            hCV27335197
SNP Position Genomic:     15995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13061):
TTTTGTTTCTGTGGCAGAATAAAAGTGTTTAGTGGCAGAACATAAGAGCACCGATTAACTGTCCTTGTTTCTTGTTAGGAGGAAGGAACCTAGGAAGCAA
S
CAGGAAGTCTGGCCTCGCTCTCGGATGCACCCCCCTTAAAAAGTGGACTCAGCTCCCTGGCGGGAGCCCCTTCTTTAAAAGACTCTGAGAGTAAGTGCCC
Celera SNP ID:            hCV25635096
SNP Position Genomic:     31465
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,38)   total(C,1|G,73)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13062):
GGAATTGGGGTAGTTATGCAGGTGAGAACTACCAGTTCACTAGCTGGATGTTTGTCATTTAGCTAGGCATTAGGATTCAGTAGAAATAAAGTTTTATTTC
R
TTTTGCAACAATGTTGTTTTCTGTTTGGGTTGTTTACATTTTAAATATACAGTACTCTAGGTATTTTGAGTAATATGTAGACAGATGTTAGTGGACCAGC
Celera SNP ID:            hCV610572
SNP Position Genomic:     35158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13063):
TGTTAGGAGGAAGGAACCTAGGAAGCAAGCAGGAAGTCTGGCCTCGCTCTCGGATGCACCCCCCTTAAAAAGTGGACTCAGCTCCCTGGCGGGAGCCCCT
Y
CTTTAAAAGACTCTGAGAGTAAGTGCCCAAAGATGTGGACTTCAATACTCGGGATATTTTTTCTCTAATTAAATACTATGTGATTATTGTTGATTTTTTT
Celera SNP ID:            hCV25635097
SNP Position Genomic:     31537
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,39)   total(C,1|T,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13064):
TGTGGACCAAGGTCTCTGTTAAGCACATCATGTACCTGAATCCTTATGTTAACTCTGATTGGTGTGGCTTTGGCTGTACGTCAGAGCAGAGGACATGGCC
M
AGAAAGGGCACCTCACATTCCCAGGTCACAGAGCTGTTGAGTGGCAGGTCTGAGGCCTGAGCCTGGCTCTGTCTGACTGAAGGTGCCCTTATTTGCTGTG
Celera SNP ID:            hCV610573
SNP Position Genomic:     38736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13065):
CACTTCATAAAACTTTTCAAAATCTTACAAGTTCCCGTCGATTTGTATGAAGCTTGCTATCACAGGGATCCTTTGTTTCCCTTTCAAGACTCAAAATGTA
Y
GTTTTAGATATTTTTATTTTGTGATGTAAAATCTATTTTTATAGTTTTGAACTAAGTTGGTCACTTTGAGTTCTTATTCTAAAACTAAGGAGGCATGAAA
Celera SNP ID:            hCV610574
SNP Position Genomic:     43339
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13066):
GTGTAGCTCTCTAGAAGGCAATAAAATTTGCACAGCATATATCTTGCCTACTGTCAACTAGTCAAGACCTCTACCTGGTGTAAAGATGTAAACGTATATC
R
TAAGACATGCATAATGCATTCTGTCTGTACCCATATGAAAAGTGAAACCATCCTTCAAGAGCGTCTTGTTCGGTAATGTCTAACCCAGACTTTGGTCACC
Celera SNP ID:            hCV27495519
SNP Position Genomic:     27047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13067):
AGTCTGGCCTCGCTCTCGGATGCACCCCCCTTAAAAAGTGGACTCAGCTCCCTGGCGGGAGCCCCTTCTTTAAAAGACTCTGAGAGTAAGTGCCCAAAGA
Y
GTGGACTTCAATACTCGGGATATTTTTTCTCTAATTAAATACTATGTGATTATTGTTGATTTTTTTTCCCAGGAAAATCACTAAAATAACCTATCATTTT
Celera SNP ID:            hCV25635098
SNP Position Genomic:     31571
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(C,1|T,39)   total(C,2|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:13068):
TTAACTTTCTAGTTTACAAGTAGTTTAAACAGAAGTAGAAATGAGTCGTTTCTTACAACACTTTGTGAACCCGGGGCTGGGAGTCTGAGACTCCATGGGC
Y
GTCCTGTCTGCCCTTCTGTTTTCACTTCATGATCTGGCTTCAGGTGGCACAGTGTTAAAGTGTGTCACACCATGTCGAGTTTGATGTTAGAAACTTAACG
Celera SNP ID:            hCV610575
SNP Position Genomic:     44943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13069):
GCTTTTTAAAATTTAAGTGAAACTAAGCTGTAAACATCAAGAGGAAGTAGGACATAAACTGGGCCGGTACAGCCTGGGAGCCCTGTGTATTTCTGCCCTC
Y
GTCTGTGAGCTGCTATCTCAGTCTCCTTCAGCTCTTCATGTCTTAGTAAACAGCACCACGTGCAGATGTAATCTTGTTGCAGTCCCCCAGTGTGGTTGTT
Celera SNP ID:            hCV610577
SNP Position Genomic:     48082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13070):
CTTGAACTCCTGACCTCGTTCCTGCCTTAGCCTCCTAAAGTGCCGGGATTACAGGCGTGAACCACCGCACCTGGCCAGTACTACATCCATTTTATTGAAT
R
ATTTTGAATGACTTAAAGTTCAACTATGAAAAAGCTTTCTTTTCACATGTACTTTTTGATTAGGTATTATCAACTTATGAAACTTGAAGATGTGAAGTGA
Celera SNP ID:            hCV610578
SNP Position Genomic:     48809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:13071):
GGAAAATGTCAAGAAAGTTGTTAGGAAATTTTTGAAAGTTTCCATCCCTTTGAAAATATGTTGTCTAAAATTATAACTTGCTATTTATTTTTTCAGACAT
Y
TCTTTATAATCATTAATTTATATTAATAACATGGAATGTGTAGCTCTCTAGAAGGCAATAAAATTTGCACAGCATATATCTTGCCTACTGTCAACTAGTC
Celera SNP ID:            hCV27484777
SNP Position Genomic:     26909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13072):
CCAATAACTGAATTATCTAGATTAAGATCGTTTTCAGTCCACGATTTTTCCTGTATTCACTCTTGTCTGTAGTTTAGCATTTGTATTAATATAACACTCA
A
TTACTTTGTAAACGAGATGGAATACCTTACTGATTTCACTCTGTAATAATGATGGGAAGAGAAAATTACAGTTCCAAGGTATCAGTTTGTTTTACAGTCT
Celera SNP ID:            hCV27435743
SNP Position Genomic:     44019
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13073):
CAAGAAAGTTGTTAGGAAATTTTTGAAAGTTTCCATCCCTTTGAAAATATGTTGTCTAAAATTATAACTTGCTATTTATTTTTTCAGACATCTCTTTATA
A
TCATTAATTTATATTAATAACATGGAATGTGTAGCTCTCTAGAAGGCAATAAAATTTGCACAGCATATATCTTGCCTACTGTCAACTAGTCAAGACCTCT
Celera SNP ID:            hCV27435744
SNP Position Genomic:     26918
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13074):
TCCAGTACTTTCCCTACCGTCTTCTTGCTAGCTACCTCCTACCAAATCAGCCTTGAGGGCCCACGGAGAATGCTAGAAACTCTCCAAGAGTAGGGTCCAC
S
CAACCTTTAGGAACCAGCTTTGTGTGCTCCTGAGAAAGGTCAGATGAGGTCAGGACAAGTCTTCAAGGAAGTTGCCTAGGAACTCAAGTGAGGCTTATTT
Celera SNP ID:            hCV2997350
SNP Position Genomic:     19779
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13075):
ATGCTTTTTCACATTACGTGTAGGTTTTGGGGCATATGTTTTTGTATCTTTGGCAGTCACCTGAGGATTTTCCAAACCAGGCGTTACCATTCCCTGTCAC
D
CTCTCACACCATCCTGAATGAATGGATACATGGATGCATGAATGTTCCCACACTTAGCCCTGTAGTAAAATTACTTCTCTAAATAATTCATTAGTAAGTC
Celera SNP ID:            hCV27435745
SNP Position Genomic:     23366
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13076):
TCCAAGAGTAGGGTCCACGCAACCTTTAGGAACCAGCTTTGTGTGCTCCTGAGAAAGGTCAGATGAGGTCAGGACAAGTCTTCAAGGAAGTTGCCTAGGA
R
CTCAAGTGAGGCTTATTTAGAATGCCGCTAAAATGTAGCATGAAAGAGCTGATTCTCCACCCAGTAGAAGCTGAGCAGGTGGAGGCTAAGGTATCTGTGT
Celera SNP ID:            hCV2997351
SNP Position Genomic:     19861
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13077):
TAGGAACCAGCTTTGTGTGCTCCTGAGAAAGGTCAGATGAGGTCAGGACAAGTCTTCAAGGAAGTTGCCTAGGAACTCAAGTGAGGCTTATTTAGAATGC
Y
GCTAAAATGTAGCATGAAAGAGCTGATTCTCCACCCAGTAGAAGCTGAGCAGGTGGAGGCTAAGGTATCTGTGTTTGACCTAGTAACTATTGGAAACAGT
Celera SNP ID:            hCV2997352
SNP Position Genomic:     19887
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13078):
TACTTGCCAGTCTCCGTTTCCGTGGTGTCCCTCACCATCTCCCTGAAGTCCTTTTTCCACATTGCTCCTAGATTGGCTGTTTATAGTACACATCTGATCT
T
GTCCCTCCATTCTCTTAAAATATTTCAGTTGACTCACTATCTTAGAATTCCCTGAACCAGCCTACCAACTACCTTGAGGATCTCTCCTCTCCTTGTCTTT
Celera SNP ID:            hCV27435746
SNP Position Genomic:     8591
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13079):
TTCATCATCCAGATGCTATGTTGCATGTGGTGGTTGAGGTTGTACACAGCAAGACTCCAGATGGAGCCATCCGCATGGTAGGTGAGTGGCATCTCCCAAG
R
TATGCAAAGCCATCATGGGAGCCCTGCCTGTCCTGCAGACGTGAACTGGGCATGCGATGCAGGAGGGCCTAGGGTACCGCTGCTCCCGGAGCTCTGGAGC
Celera SNP ID:            hCV2997353
SNP Position Genomic:     22208
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13080):
GGAGTGTACCTCAAAATGAGACCCAGTAGCATGCCTGTGTAGTGGGTGTGATGTGAAAATGGACACAGAATCACTGTTCTTCAGTACTTCATTCTGACTC
R
TGGATTTGAGGCCTCCCCTGAAGTTTGCCCTGACTTTTTCATAGCTGTGATTCTGTCAAATAGAGCCAGGATAGGAATTCTGTATCCTCAAAAGGTAGTT
Celera SNP ID:            hCV27502721
SNP Position Genomic:     13977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13081):
AAATAAAATAAAGATTAAAGATAAAAGATTTGGTATACAAGGAGTATAAATATGAAATGAGAGGGCATTTTAAAAATGAATTAATAATTTTGAAATATAT
R
TTAATACTTGCTGACTTCCAAAGTATCATCTGTGATAATTTATCTCATTGTATTCCATTTCGTTGTACCAAACATCCTAATTGTTTGGAAAAAAAAAAAA
Celera SNP ID:            hCV2997354
SNP Position Genomic:     22647
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13082):
CCTACATGAACAGTTTGGAAAAAAATTCTTTTTTTTTTTTTTCAGGTTCTTAAGTCAGTCTGATACAATTCAGTTTTTGACTACTGAAAAATTAAGGTTT
Y
TCATTGTGAAACTTCTCTAGTGCTGACTTTTTGTTAATCTAGAAATGATTGGCTTCTTTATTATATGAGTGTACTATTGGATAATTTAAATATATACTAA
Celera SNP ID:            hCV2997355
SNP Position Genomic:     24327
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13083):
TTAAAAATGTGAAATCAAGGTTCGCGGAGGGCTGTGGCTCCTGTTCTAGCTTCTGGTGGCTGCTAGACCCAGATGCTGTTTGGCTTGTAGATGGATTACT
Y
CAGTCTTTGCCTCCATCTTCACATGGACTTCTCCCTGTGTTTCTCTGTGTCTCTTCCCCCCAGCAAGGATACCACTCATTAGGTTAGGACCCAGGCCCAC
Celera SNP ID:            hCV2997356
SNP Position Genomic:     24770
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13084):
GGCGGCGATTACAGCTCACTGCAACCTCCAACTTCCTGGTTCAAGCGATTCTCCTGCCCCAGCCTCCTGAGTAGCTGGGATTACAGGCACGTGCCACCAC
R
CCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTCCACTATGTTGGCCAGGATGGTTTCGGATCTCCTGACCTCATGATCCGCCTGCCTCGGCCTCC
Celera SNP ID:            hCV2997357
SNP Position Genomic:     25216
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13085):
CAATAACTGAATTATCTAGATTAAGATCGTTTTCAGTCCACGATTTTTCCTGTATTCACTCTTGTCTGTAGTTTAGCATTTGTATTAATATAACACTCAA
W
TACTTTGTAAACGAGATGGAATACCTTACTGATTTCACTCTGTAATAATGATGGGAAGAGAAAATTACAGTTCCAAGGTATCAGTTTGTTTTACAGTCTG
Celera SNP ID:            hCV27335160
SNP Position Genomic:     44020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,4|T,7)      total(T,7|-,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13086):
TAACTGAAGTTTATGTACGTAACATAAGTTCGTCTTAACTCATGATAAGGGTTTTTAAAGCAGATTCCCGGGTATACATACGTATACAGATGGTCCCCAA
Y
GTTACAACAGTTTGATTTATGCTTTTTTGACTTTATGATGGTACAAAAGTGATATAGATTAAGTAGATAGCATACGTTGAGTTTTGATCTTTTCCCAGGA
Celera SNP ID:            hCV2997358
SNP Position Genomic:     25568
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,13)   total(C,2|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13087):
TCCAATAACTGAATTATCTAGATTAAGATCGTTTTCAGTCCACGATTTTTCCTGTATTCACTCTTGTCTGTAGTTTAGCATTTGTATTAATATAACACTC
W
ATTACTTTGTAAACGAGATGGAATACCTTACTGATTTCACTCTGTAATAATGATGGGAAGAGAAAATTACAGTTCCAAGGTATCAGTTTGTTTTACAGTC
Celera SNP ID:            hCV27335161
SNP Position Genomic:     44018
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,4|A,7)      total(A,7|-,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13088):
TTTTCACTTGACGGTTGATGAGGTGAAGCGCTGTTGTGGGTTGAGCATCTGTGCACATGCATACACCTGCTGTGCACACGCATACACCTGCTGTGCACAC
R
CATACACCTGCTGTGCACACGCGTACACCTGCTGTGCACACGGGTACACCTGCTGTGTACATGGAGGAGCCACTGAAACTGCTCTCAGCGTTTTCAGTGC
Celera SNP ID:            hCV2997359
SNP Position Genomic:     25946
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Gene Number:                 4
Celera Gene:                 hCG15204 - 209000073632476
Gene Symbol:                 NRP2
Protein Name:                neuropilin 2;NPN2;PRO2714;VEGF1265R2;VEGF165R2
Celera Genomic Axis:         GA_x5YUV32VWPT(11212860..11341154)
Chromosome:                  Chr2
OMIM number:                 602070
OMIM Information:            NEUROPILIN 2;NRP2


Genomic Sequence (SEQ ID NO:12164):
AACAAAACAAAACCTCAGATAATCCCTGGCCTTCATAAGCTATCCCTCCCCTAACACACACGCTGCCTTTAGCTTTTTAATATCATCACCTCGCTCTCCA
TTTCCTTTTGTTTTATAATGCTTGTGTTTCTTTCTTTCTTCGTCTTCCTCTTTTTTCCATTTTTCTCTTTGGCTGGTCTCTCTGCTTAGCATTCCTTTCA
TTTCCTTTTGCATCTCTCTTCCTCTAGGATTTTAGTTCCTCGTTTCTGCTTGTTGTTTCCTTTTCTGGTCACAGCTGCCCCCTAATGGTTTTCAAGATCA
TTACTGCTTTGGACTAGAGGAAAGAGGGAGGCAAAGAGCTAGAGAAGGAAAGTTAGAGAGAAACATAAAATGTGTCTTTGCTTTTAACTTTGCCATATCG
TCTCAATATCTCTGGAAGAATATGCAAAACCTGCATCAATGGGGAAGAAGTGAACTGGAAAACTAAGGGACAGGTGTGAAGTTTGTACAGGATACTTTTT
CGTGTAATTTGAATTTTTAAAAGATGTGTAATACTTATTTTCTTTTTTATTTAATTTTGAAATAAATAAATAGTATCTGAGTCTGGAGACTGAAAAGGAG
ACTGCCTCTATAAATGATTTCTTGGTTGCAGCAGGAAAGCAAGCGCCATGCCAGCCCCCTCCCCATCAGTGTGCTCATCCAGATACTAAGGGTTGATTGG
CAGCTCAGTAAACTATGTAGGAGTAAATATGACGGAGGAGAGTGGGAACTAATGACTATGGTGGGTGTGAATTAACCCACCCTGGAGTCTCCTCAATAGC
AAAAGGTCAGCTCCCTGACTACTGCCTTTCCATCAAGACTTTCACGCTCAAATTAGCAGCTATTGCCATCATAATGTAACAATCACCTGACATGTAGATG
TCTAATTAAGGCACCATAAGTCACAGGTTACAAATTTGAAAACAGCAATAGCAACAATAAAAAAATCCCTTACAAATCTGTGGGGGATTTGATAGGGTAC
ATATGCATGTGAATGAAGGCAAGGTAATGTGCACTAGTGGGTGGAAGATTCAAGTTTCCAAGAAAATTCATCTATGAATTTAGTAAGAGAATGGGAATTT
TCTCTTCAAAATATTTCTGAATGATTAAAAATTTCATATCGTAGCCCTAAAATATCCAATTGCATAACCTATAAGTGCTATGACGTTACAAATACATTCT
TGGCCTTTGGTTGTGATTGCCAAGTGGAATCTGTATTTTTTATGATAGGCTAGAAAAAGCCTTGTTGAAAAATATCTCCTCAAAAAGCCCTGCCAAGATG
CCTGACATACTCATTAGCACTCGCTGTTTGGGAAAAGTACCCAATGCAAATACTATGATGATGGAATATCCATTGAAGCCCCATCCATGCATTAACAGTT
TAAGGATAAAAGAGCATTAATTTCAACTTGCTTAGGTTGGCCTACAGAATTCAGACTAAAGCCAGTTTTAAATCCATGAGTGAGAATGCGATCAGGAAAG
AGTCATAGCCAAAACTCAAAACCAGATAAGGTTAAAAATCATTCAAGTCAACCCATCATTCTGTAGGTGAGAAAAGTGGTTCCAAATTGGTTAACAGAAT
TTTCAAGGACACCCAAGTAGAGACTGAAGGTCCAGCTGCCCTGTCCTCAAGGCTTCTGCTGCCCCCACCTGCTTCTCCGCGGTGGTCTCCACTGACGAGT
GGAGTTGAGGCCCGAAGCTGGGAGAGCATCATAAAGACCCTGACTCCTGGTGAGTGCTCTGGGAAAGTCATCCAAGAGAGCGTAGAAAGAACATGGGATG
ATAGACAATAATATGAATATAAGCTAGCTCTTCTCTTCCTTAACCAAACAGACAGTGAGCATTTTCAAATGCTGCCTTGGTAATCAGAACTTCTGCTGAT
ACTGGGGTTCCTTTCTTGGCAAACAAGTATGGTAACCACAGAGATTGATAAGGGTGTGAATTTCTATGGGTTTCTATGGGAATTATTCAGCTCTGGTCTT
TTGATTCTGAGGCTGAGTTGTCCAACATGGTAGCTGGTAAGCACATGCGGCAATTTACATTTAAATGAATAAAATTAAATACAACCTACAGTTCAGTGAC
TCACTCACACTAGCCACATTTCCAGTGCGCAGTAGCCATGTGAACAGCACAGAGACCACCGTCCTTGCAGAAGATTTAATGGAGAGTGCTGTTTTAAGGG
AGAGGGTTGACTGGGTCTTTTTGATACGCTTATTGCCTCAAAGGTAGAAAAATTAATGTAGCATAGGAAGATCAGACTCATGCTAAAGCCAGGCAGACTG
GAAGAAGCAATAGGGCTTCTTTAGGTTCTTTTTCCAAGGATTCCAGGGAGGTCTGAATGAATTTTGCACATTTTGCTGCTGCTTTTTAAATTTTGTCTCA
TAAGGGCCCCTCCTACCAGATCCAGTGTTTGTGTCTGAGGAAGAAATGAGATATACACCCAGTATGGAGTGAAGGAGATTTCAATACTTTATGGAAATCT
GTAAGGATTCCAGAAACCCACCAAATAGAATATACTAGAAATATCAATTTAGAATAGAAATGTCAAATAGAAACTACTGGGCAATATTCAAGTGTGCTGG
AAAAAAAAAAAGTTGATTGTTTAAAAGGCGAGTAAGAAAAAAAAAAAAACCCTTAGTGACCAGAAACCTGGACTTTGACATCAAACAAAAGAGAGAATAA
TAAATTAGGACCTATTCCATTTTAACTGAAGCTTTGCTTCTGAGACAGATGTAGCTAAACCTTAACTAGGGCAGTGTGTTAAATTACAGATTAAGATGCA
ATTATGCCTTAGATCTTTCCTTTTCAGGGTGAGAGCTTATTGATGTTAGGGCTCCGATAAGGGGAAGCACCATGTGACACGTGATATCTATTGTGGAAGC
ATGAAACTTCTGGAGCTTTTAGATCCTGTGTTCCCGAGAGGCAAGACCTAAATCTCTGTCTTGCTCGCATACCTCTGGCATAGTCATGCATCCATGAACA
TTTCGTAAGTACAGTGGGATGAACACAGATGGAAAAGCATACCTGAAACGAACCTCTAGTAACCACCAATGGTTGAGTGGGCTGGTGATGAAAGGTCTGG
CTCCAGCTCATAAACCCATCAGCCGCTACTTTGAACATGTCCCTGCAAAGCTCCTGCCTGCATGAGGCGAGGCTTTTGGTGTTTTCAAATTGGCTCTCTG
CAGTTGCTGCTAAAGGTCACAGGTAAATCTGGGAATTCCACCACTGCAGCATTTTCGAGAACTTGTTCTTGGTGGTTTTTCCAAGAAACCTGAAACATCT
GCCCCATATTGAAAAGTACCCAGAGAGGAAATGTGAAGGAATACTTGTCCAGGTTTCCTTCAACGGAAGAGCATTTATGGAAGGCTGTGTGTAAATAGAA
CACATCAGATCAGAAGTTCCCAACTACTGGTCTGTGGAGGCTTTGCATCAGAATCACCTAAGATGTGTGTTAAAAATACAGATTCCCAAAGACCACTCCA
GACCCAAGGAATTTCACCTGCAGGAAAATGGTTCCCAGGRATCAGAATTTTTAACACTTCCTCCAGGTGATGCTGATATACCCTAAGGTTTGGGACTGTC
TAGCTGGGAACACTTAACTTTCCACAGGGGTGTGGCTTGGTAACAGCTTTCTCTTAGCATCATTTACCAACCTGTTTCATGTTCCCCCACATCCCTTCCC
GTCAAAGGAATGGAATGTGGAGTGGATTATCTAGTATTATTTTACAATTAAGGATAATGACATGAAACATCCTAGGTGAGTCAGTGATGTGGCCAGGAAT
CTCAGCTTCGCTAATTAGCTGTTATCTAGTCAGCTCAGTGTTTTTGATCACAAACCCGATTTTTGACACTGGCCTTTAGGTAGGCAGGCTTCCCTATGGG
CCAGGGATGTGGACTCACAAAATACTGAAAAGCACGGTGCCTACCTAGCTCTTTACCACTATACCTCTGGTGGAAACCAGACCAACTGCAGTCAAACCCT
GAGATCCCAGTCTAGAGGGAAACAAGACTGGCAGGTCTGAGCCAGTCCCAGTGTGAAGAATTTCCCTAAAGATTTGTTTTCCATGTGGCACATGTGAGAT
TTGTGTTTAGTTCCCAAGAGTCCTTGGAAGTCTTAGGTTAAAACAATTCTAAGCCCTCTCTGGGCCGGTGGGGTCTTGTTCAGAGTAGGCTGGGGAGAGA
TCGGCCTCACTCTGAATCTTCCCTGGTCTGATAAAGCACTTTGAACTCCTTGGAATTAAAAGCACCACCAGAAGTGTGACCCTGGGTGGTGTTACCATTA
TTTATTGAGTGCTGCCCCCTAGAGGATTGAAAAATGGTCTGGCCGCTTGAGTCCCCAGGGATGGAAACSTGAGACTCACTCTCTGTCCAACTGCAGGAAA
TGAGGCCTTCACTCAAGGGGAGTGGGAAGTCTTGCAGCCCTGGTACAGAGGACTCCCAGGAAGTAAGTGAGCGTCCCCTGTAGGACACCGCTGAAAAATG
AAAAGTTACAGTGTAGGCAACCAGGCCAGGAACAAAACTGATTCTTACTTTTCTCTACTCTGGAAGCAGCCTGATGGGGACCTTCATCCCTGAGACCCCA
AGACCAGAAGTCCAGGGTTGTCATTCTTATGGTTCTCCAGTGGGCTTAGGTTTACCTTTTCTCTCTTCTTTCCCCCTTTCACAGTGCCCTTCACCTAAAC
CCTGGCTACATTATTCTCACAAACAGGAGTCTCCCACATTGGGCACTGGCAAAAATGGTTTGGCATGCCTGGTGAGTGGTGGGGAGAGGTGATATTAAAT
GGCCCTCTCTATTCAGGGACTGTCACTACAGATAGCGTTCTTTGTCCTTAGATTAGCATCTTGGCARTGACATAAACCGGGATCTCTGCTTAAGGTTAAT
AATCCAAACTACTCTTTTACTTTGTTAAATATTTAAGGCTTGGAGTCATTCTTTACAATTGAGCTTTAAAGAGGAGAAATGTAAATCTGGAGTTTTTAAT
AATGTGGATGTGCTCTCAAGCCTAGAAAGGAAGGAAGAAGGAAGGAAAGGAGGGAGGAAGAGGAAGGAGGGAGGCAAAGAGGGAATGAAAGGTAGCATTT
AGGCTAGCCAAGAGACATGCTCCCTGGAAGAACTCAGAGGCCTCTGTGCTGTGCCTTTCCCAACCAGGCATCTGAGATTAACAGTGTGATACTCARCCTG
TGGATTTCCACTCTAAAATCCCGCSCCACCCCCCAACACAGCTTGGCTCAACTATTTGCAAATCAYTTCTGATTCAATTTTGTTTTGGTTATCTCAGTGT
AAATAACAGTTAAGTGGGAGTTACAGATTTTTCAAACACTAAAAGTGATAAAGCTAATGGGCAAGTCCAGATAAGGAGGGAARCCACCCAGAAGAATCCA
CAAGTACAAGCCAAGAAGAAAATGGGTAGTCAGGTGTGTGTTTCTCGTCACCGAAACTGTATTTTTCTTAATCTACAGAAAATTTTACTTTCTTAATTTA
AAAAAAATCTTAATCTGTAAATATTTTTCTGAATTTTCTTATTTTTCATATACCTCTTTTGTGGCAGAAAAGGTGTACATGTGCAGGGTGTAATTTAGGC
TGTTTCTGTTGCAGTCTTTATGATAATGTAGTAATAGGTGTCTGGTGAAGCAAGACAGTTTGGAATCCACAAAGCCATCCTCAGAAACAAAGATACAAGT
GTTTCCCCAACTGTTAGCTTGCAGTTCCCTCTAAAYAGTTTTCACGCCTCCATTTAAAAATAGTTGGCATAATGATGTTTTCTTTCTCTAGGCTTTGTGA
CCACGTTTCCATGGGGGAAAATGTGAATAGACGTAGTTACAGTASCATTTGGATGAGACGCCTTCAAGCACCTATACTTTTTCGGGGGAACTTGATGGAA
TCCAATTTAATTACCTGAAGAAATTATTTGCTGAAGAAAGTCTTTCCTCTTTTTAGGGTAGTTACAGTTAAAGGCGCAGGGGTAACGAAATCCTAACCCA
GAGAGGAGCAGAGCATGTTTGGGACATAACAAAGGATCTGAGTAGTAAACGCAGCGAGTGTTTGGGGTTTTATTCAGACCGGGCTGACGGTGTGTGTCGC
CGCCACGCACCGCTGCCTGTTCGAACGCATGGCTGAGCTGCCGACCGGCTCGCTACCCCAAACACCGTACGCCACCCAACTCCTCTTGTAACGCCATCGC
GCGTGGCATTGTGTTGGGTTCTGCGTGTGTGGCATCGGAGTCGTGGAATTTAGGGGGAACAAGGCTTTTCCCCCCGTCCCCCCGGGGTCTCCCTTGGGTG
GGGGCGACACGGCCAAGGGCGGCGCGCCCTGGGGGTGCCCGGGGGCGCTTCTTCCCCAGGGCGTTACGCACCGGCGGCCCGGCGCGGAGGTGCGCGGGGG
CGATCGGGAGATGCGGGGCGGGCGAGGGGTGGTGGGATGGGCGCCGCCTTAACTTCGATCCTGCGGCGGCCCGAGAGAAGCCGTCGCCGCCCCGCCCGAG
CTGGGTGCCGCGGCACTCTGCTCTGCGCCGCGCGTCTCCGCGGCTGCCTCTTTAATCAGGAACACAGAAGGGGCGGGCCCTGAGCCGGCGCGTAATCGGA
TAGCTCTGCCGCGGCTCTGACATCCACATGCTGCTCGGCCTGAAAAGGCAGTGGGGAGCCGGAGGGGAGGCAGAGATCGCGAGCGAGGCACCAGCCTGCA
GCCGGCCCCCAGCACATCCTCAGCCGCACAGACACTCGGCGAGGTGGAGGTGAGGGCGGGCGCCAGCGAACTCGGAGAGGGGCTCGCTCACTCCCAGGCG
ATCCCAGCCGCCACCGCCGCCGCACCAGCAGCAGCAACAGCAGCAGCAGCTTCCTTCCTCAGACTCCCCTCGAGAGGCTGGCCAAGCGGGTGTAGCCGTT
GGGGGAGGCTCCCGCCGGGGGAACCCGGCGAGGACAAGAGCAGGGCGGCCGCCTTCCACTCGGGCTGTCCGGCGGCGGCTGCCTCCGCCCGYGTGTCCGT
CAAGGGTGCCGCGGGATGTGTGTCAGTTTACGCCTCTGAGATCACACAGCTGCCTGGGGGCCGTGTGATGCCCAAGGCAAGTCTTGGTTTTAATTATTAT
TATTATCATTATTGTTACGCTTGGCTTTCGGGAAATACTCGTGATATTTGTAGGATAAAGGAAATGACACTTTGAGGAACTGGAGAGAACATATATGCGT
TTTGTTTTTAAGAGGAAAACCGTGTTCTCTTCCCGGCTTGTTCCCTCTTTGCTGATTTCAGGAGCTACTCTCCTCCTGGTGAGGTGGAAATTCCAGCAAG
AATAGAGGTGAAGACAAGCCACCAGGACTCAGGAGGGAAACGCTGACCATTAGAAACCTCTGCATAAGACGTTGTAAGGAGGAAAATAAAAGAGAGAAAA
ACACAAAGATTTAAACAAGAAACCTACGAACCCAGCTCTGGAAAGAGCCACYTTCTCCAAAATGGATATGTTTCCTCTCACCTGGGTTTTCTTAGCCCTC
TACTTTTCAAGACACCAAGTGAGAGGCCAACCAGGTAAGCCACTGAAAGTTTTTCTATTTATTGCAACATGGTTTCCCCTTTAAAAGTGACCGCTAAAGC
AGGAAGGCCACGCAGAACGGCACAGAAGAAGGCTCCCTCAGTACTCAATAATTTAAAGAGAGATCCCAGCCGGCCCTTCCTACACCACCACGGCTGCTAA
AACCCAACTTTCCTCTCCTGCTAGGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAGTGTGTTTTGAAACAGAATTTGGCGGTGTTCATATGTCACAT
ATGGACTGAATCAAAGGTTTAAAAATACTACAAAGCCTTTGCATTACAGTTTTTGGGAATTTTTTTTCCCTGTCTTGAAGCAGAACACAYCTCCCTTGAG
TTTCTCCAACTAGCCAGTGAAATATAAATCATTTGCATTCCCTCCACTTAGCTACATTGAGCAATGTTAACTGAAGGGCTTGGGAAAGACAAGAGTTTAG
TTTTGGTTTTCAGATGCTGTAGATTCTTTGGAGAATGACTGGTTATGCTTCAGAATCATAAGGCTCAGGCTGGTGGAGCAAGTTGGCTTGTGGCTGAGAT
AGGGGCTTGGGGTTGGGTGCTGCTGGCAACCAAGACGGTTGGTCTCTTCTCTCTTCATCCATGTGTTGTCTGGGAAAGTAAATCGTACGTTCTTTTAGAA
ATTATTATTAGCTAAAACAAATTGCAGGCCCTCGAAGGTCTCTCACTCTTGTGAAGTGGTTAGAAACTTTTGAGTGGAATTTGTTCTCAACCACTGCCAA
AAAGGGTGTGTGGACAGGCTGCTGTGGAGATAAGCATTTCGAGGCCCAGAACAGTCTGGGGACCGCATTTGTGGGGAGCGGCAAGGGGTATGCTCTGGAA
AGGGGAATCCATGGGGAATGCAGTGGGGTTTGTGCTTCCTTCTCGGACCACTCTCTAGAGTGAGCCTCCCTACCCCTCTGAGAACAGTGTCTGGAATCTA
ACAACAAAACTCTTAGCAGCTGCTACAGGTGATTGGAGATGGAGAAACCATCTATGGAGGAAATGGGTGAAAGAAAGGCGAAAAAGCCTTCCTGAAGTGC
CCTCACCCAAGGCACTTGCAAGGCGATGGCGGCAGTGGTAGAGCTAACTCTGCAGCCTCCTTGGCATCCCCAGAACATCAGCTAGTGGATCCTAGCCTTG
CATCTGGTACTGTCACCCTTCCTTCTCCTCACGCCCCCCACCAGCACACACACSACTTTAAGCTTGGGCATTTATTTGAGGGGGGAAGAAAATTCAGGAA
TGCCTTTGCCACCCAGATCCGCACGTTTGCAGCTCTTTCTTTGCCATAAGTGGTCTTCAGGGCAGCTGCAAATCCTGCCAAAGGGATGGGTGGGGGTCCC
ACTTGGGGAGATTTTYTGGGCCTCCSCCGTTCCCCCTTGCCTTATTTYTAAATTCCCAGCTTGAAGCGGAATTAAATTACCACTCACAGACCTGGATGCT
GCGTAAATTATGTATGTTTGTGTGATTCGCTGTGTGTGTGTGCACACGCGCGCGCGCCGTGAGGATGCCCACAGTATATTATGTATTCAGACACGGACTC
CAGTAGGCCCCAGCGCGCGAGCGCGCACACACTGGCACTCACACTGGCGCGCACACACATGCAACTTCAGGTTCCGTGTGCTGTGCGGAGCGGGAGGGGT
CGTGAAGACTCAGGGGCCATCTCCTACCCCAGATGTTCGCACATCTGTCCCCGAGCGCTGCTTGGAGTGTGTGTACGTGTGTGCGCGACACCCGCTTGGA
CCCACTCCCGCTCTGCCACCTGCCTGCCGCGCTCTCTGCAGAACCCCCTCCCATCCCAATCCCCAGCAGTGCTGCGTCACTTCCAGAGAAGCCCAGAGGC
GCGGAGTTCGGGGCAACCTCGGACCCGGGGTGGGATCTCAGGGTGGGATTCGAAGCTGGGACCTGCCAGGGACCTCCAGCTCCCCAAAATGCGATCTCAA
GCCGTGAGCTGCTCAGGCTTTCAGGCGGAGCAAAGCACTGGCACCCTGGGAGCCGGCAGCGGGTGGCCAGGGCGAGGCCAAGCYACACCTCTGACTCACC
CGGTGTGCGCCGGCCGGGAAGGGGGCCTGGTTCAGCCGCCGCCGCCGGCGACGAGAACCAATTCTGGGAAGGAGCAAGATGGGGCAGAAGGTGCGCGCGG
GGGAGCAACTGAGCAAATAACAMGGCGGTCGCGGCGCGCGGCACCTTGGGCTGGCGCGTGGCTGGGAGGCCGCATGGGCGACGCGCACCAGGCTGCCCCT
CTCCTCACTGCGCCGCCTCGCCAGACCGCAGTGCAGCCGCTAGCCTGCCTCCCTCCCTGCCCCGGGCGCCCCCGCCAGTCCCCTGCGCTYCGCTCTGCGC
GGCAGGCTCGCCGCGACCCCTAGAGAGACGGCTTTGAGTGGCGGGAGGCCGAGGCCGGCTGGCTTGGGAATCCAAGCGCTGGCCCAACTAGGTGAGAGGA
AACTGGGGTGGGATTTCGGAGAGGAGGGCGGAGAGAGGCGGGAAGGAACCAGCTTGAGCCCCAGGAATGCGCGCAACTTGCACAGCCTCTAGAAGCGCCG
CGCGCCCAGCGCCCGCCGGTGCGCAGGAACAGGTGAAGAGCACGCGGCGTGCGGCCATCCACGTGGTGGGGACGTGATAGCCCCTCAGCTCTCCTCCTAG
CCCTCCCTCCCCTTCCCCGCCCCCCAGCGCCTTCTCTAACGCCGCATCGATTTGTTTGGGCTACGCAGCAGAAACAGAGCCCAGCGATCCATAAACATTC
TATTAAGCAAAAATATTCCCAGCGAAAGCAAAACCGAGGCTGAAGCCTCCGCGAAGTTGGCCGCCTCCAACTACTCCATGCTTGTGCCCTCCTCCTCCTC
CTCCTCCTAAGGACACCCCCAGGGAAAAGCCTGCGGCATTTCTTCAACGCTGCCCTATGCCGGAAAGTTAGGTCTCGGCTGCAGCGCTGGTCTCTGGAGA
AGCCTCTGCCTGCAGCCGCCGGCGAGTTCCCGCCTCCCCTCCCCAGCCGCCTCGCTCTTTGCTTTTCCACGTGAGAAAAAGAAATGTTCACGGCCGATGC
TTCATTTTCACTGATTGATTTCTTTTTAATATCAACACAAGTTAATGGAGGCAAGGCGCGCTCTGATTGAAGGGCTGCCCCCGCCCTTCGACTCGGGCTG
GCTGTGCCGGGGGTCTTTCCCACCGGGTCGCAGGCGTCCAGCGGCTGGGTGGCGGGCGCCGGTAGCCCTAGTGTTTGGAGGTGGGGGAGGGATTTGGAAT
AGACTTGTCGCCCCTCTGGGAATCATCTGGGTTGGGGAACCTTCGGGAATCAGCTTTCCAGACCAAGTTTTAGGGGATCTTGCCCATATGCGTTGCGGCT
TCTGCGGCTCCGGCTGAATTTCTTCTAAAAGATAGGAGATCCACGCTCAGGTTTATTGGCGTGTGCTCCCTGCTCGGCTCCCCTCCCTCCACTTCCTGTT
CTTTCGGTTTCAGACAGAGAGGAGAGCCCCCTGGCGCTAGCCATTCCCGATCAGCGCCCACTACGAACGTCCCCTTTGCTAGAGTTAATCATGATCTGCG
GGGGGACTGGGTTTTGCTCAGAAAATCATTCAAGTCCTGACAATGGGTTTCTTCAAATGGTGGCAACTCCCAGGCCTAATGTCCCCACCTCCGGGACACA
TCGCTTGGGGCCAAAAGAACCCAGACCCCATAACCATCTACCCCTCCCCTCCTCGTCTGGAGAGCTTTGATCTATGCTTGGGTTTTAACGCCATTGCCAT
GGACACGCGCAGATTCTCGGTCAATTCACCCTTCCGTCTGGACTGGATGATCAGATAAGAGGTGTAAATTGGCTGTGGGAGACAGGTCTGGGTTCAGACA
AATCCTGAAAGAGAAGCAATGAYGGTCTAGGCGCCGGATAAGGGTTTGAAGTGTTTCTTTTAGCCTGTCTCCCCAAAATGTGAGATGGCCATTGGCGAGC
ATAATAATTTGCAAGTAAACTGTAAACTCCTAGATTTTAYGCAGACGGCCTGCTCTGGGCTCTAGGGATTGGTCTCATGCCCACATTAAATGGGTACCCA
GTAAACATTTCCCCCGTGATCAGCTCCTGGAGGTAGGGAAGCTGTGGCCAGTTGCCAGCAGAGCACACAGTGCAAGACAGTGGCAARAGGAGCACTCCCC
AAAGGGCCCCGGGCAGGCCCCTACTCGTCCAAGCGGTGCCTGGTGGAATTGTGAATGCGCCAGTGCACATCAGGTTTGGAGTTTTATGTCATCCCATAGA
GCCCTCAGACATTAAGCTACGGAGCACTCAACTGGCAAAATGAAAGATTGGAAGGCTGCAGTGACTGGAACCCAGGCTACCCAGACAGGACTCCTGCTGT
CTACCAAATGGCTCTGATCCCCTGCTGTTGAATGTATCAAGTCCACGTTCTGCAGCAGAAAGGCCAGTTCCTATCTTCCAGGCATAGAAAAAGCTAGGAA
TCCAAATGCCAATTCATATGCAGTGAGGCACGAATACAAATGACAGTGAGGGAGGGGTCTGGGGTCAGTGAGGAGAGACAYCAGGGACCAGATGATTCTG
GGGACCCTGGTGTTTTTCATTTCACTCAAGTCTTCCCTAAAGCAATCAGGAAAATGAACTGACTCAGGRTGACCTGAGTGTAAGACAATTCTGAGTTGAC
AGAATTCAAGAGCCAGGTAAAGAGGTTTCCAAATATATTCTCCAAAGGTCCAGTTTGGAAAGACTTTAGGAACTTGAGCTGAGATCTTCCTTTCTTAAAA
GATAGAGCAAAAGAAGAATATCTTTTTAATTTCTTGAACTGACAAGAAAGGACTTGAAAAGTGTCATCTGGGCAATGGCTTGTAGTGTYATTAACATATT
TGAGGTATTTTATTATCTGACCATCACTTGCAACTGGATAATCTTTGAGATACCTTCCTTGAGTGGCAGATAAGTATATTGATCACCAGAAGTTAGTCTT
TGTACTGTTCCTTCCAGGTAAGGACTTGGCTGTTTGCTGATTTTTGTTTTTTAATTAACCCATTTCTGGAAGATGCTGCAGAAGTTTGTCCTGGAGAGCT
ACAGTATTTTTCAAAGCTTTATCTGCCTTGATGAGAAATGGTCAGAGGCTTAATGGTTTCATTGCCTAACAGGATTCAGTGGAGTAGGATTCCAGGACAC
AGTGGCCTTGTATCATGGCTGGCCYTCCAGGAGAAAGCATCTTCTAAAGGTTTAGGAAGCTGTCAAGTTTAGATAAGGCTGAGCTCCGATCCTCTGGGAC
CTTGGTTGTATTAATAAGGAGAAATTAATTTTTAACCACTGGGAACATTGCCAAATTATGTGACCTTTGGCAGACCAGCTGTGCTATAAAAATAAATYCC
CCATTTCTGAAAATGCTACTCCTATCCAGTAGAACAATAACAATGTGGCATTTAGGATAGAGAAGAGTAGGATTGAGAAGAAAGGAGAGAAATAGGAGTT
GGCAAAAAACAAAAAAACAAAACAAAACAAAAAAAACAAAAAAACCCTTCGATGTTGTGATACATGGTTTCAGACCTGAACTTCCTATCCATCACCCGCC
CTCCCCGGCCCCATGCCTAGGGTTTCCAGAACACAGGAAAGAGGGCCAGGATGACAAGGAGCTGAGTGCCTGTGTGTACAGGGAGTGGAGAAGGTGTTAA
GTGCTTCCAGCCCACTCACACCCCAGCCTCAAACACATCTCTCATTGTTCACACAGACAGAGTACTGGCACAGGCAGAGAAAAGGGGGTTTTCAAACAGG
CAAAATATTTGTCTTTCCCTAAATGCTACCAAGTAGGTTTGCCACTGAGAAGTTTTGTGGGGATCATCCCTGGCCTTCCCAGCTTCTGAAACATGGGAAC
TAGACTGCCTGGGTTTAGAATCTAGCTCAGCCACTTGCTGGCTCTGTGATCCCAGTATCCTGTGTGATCAGATACTTAGTCTATGTGCCTCGGTTTCCTT
GTCTGTAAATGTGTTTGGTAACAATACCTACTTCATAGGGTTGTTGGGCTATGTCARATTATGTAGAATACTGTTTGGCACATATGAAGCCCATTCTGAA
GTCACTGAATCTTTAAAACTGTTTCAGTGGGGTTAGTGGAATCTCGTGATCGTAGAAAGCACACTATAACCATTGTGGTAAGTTGATTTTTATGAGATTT
AAAAAATAATTCTTATTCTCAGTTCTTCCACCACCAAACCTCTGTGTTTTGTAAGCACCATATTATCTCTCGCCATGCTCTTCTTCAGAGAATATTCTCT
GCTGAGTTCTTATCTTAGATTTATGTCTCCCTTGCATTTTTTCCCTCCTTCTTCCTCTGTTTTCAGTATTCTTACCTCCTATTTTCTTTTTAATCTCTCA
TTTCCTTTCCTTTTCCTCCCCTTCCATCCTTCAACACTGAGAGTGTGCTCAGCAGRGAACACCGYGTTTAAGGCGCTCTCCCGAATRTGTAATAACTTCT
ACTCTGGCACTAAGGCCCTTCAGCAGCTGAACTCAAAAAAGTCATCATAAAGACAAAATAGCTTTTACCCAGCAAGGGTCTTAATAATCCCATTTCCCTC
TGGGTCTTCATAAAGGAGTCATTATCTAATCCAGAAAAAAAGGAGGGGCTGGGAATAACAAAAGAGAAGCTCTCGGTAGCACAGAGTGCACGAGGCTGCC
GGCCAGCTGAGTGCACGTGGCCGTGGTACCCTGCTCCCGCCTCCACAAATCCTGCGATAACCAGTAACCAGTTCTGGCRAGTCTTTCAGCAGAGAAGATA
ATGGGAATTGCAAATTACTAGACCGAATGCTAATAATAATTGTTTGGATACAGGAGAAAAAATAAAACAGATGTTCCCCAAAGGCATTCTAGGGGCTACA
GAAAGGAAAATGAGGAGGGGGTTGAGTAAAGAGAGGTTTGCTGAAACCAAGCACAAGAAAATCCAATACCAACAAATGGCTTAGTGATGAAGTAATAGTC
AGCATCTTCCTGGTGGTACAGATAACCAATATTTAAAGTTGCCTTTGGAAGTGTGGGGGTTGGAGTGAAGGGGACAAAACCCCTGAGATAAATTAATTTT
ACTAGTATTAAAAWTAAAATGGCCRAGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGAAGGAGGTGGGCAGATCACCTGAGGTCAGGAGTTC
GAGACCAGCCTGGCCAACATAGCAAGACCCCATCCCTGCTAAAAATACACACACACACACACACACACACACACACACACACACACACAATAGCTGGGTA
TGGTGGTGGGCGCCTATAATCCCAGCTACTTGGGAGGCTAAGGCAGGAAAATCGCTTAAACTTGGGAGGCGGAGGTTGCAGTGGGCCGAGATTGTGCCAC
TGCACTCTAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAATAAAATAAAATAAAATAAAATGTGAATGTGCTTTGAAATTTATCATTATTATCTGC
TTTAGGGTGTTCTAGGAGACATAGTTCGCACTAACTCTACCTTGACCTACTTGTGACTAGGTATTATTATCCCAGACAAGTTATTCAAACTCTCAATTCA
CCACTAAGAAACATTTGCACTTAATAACAGCTGGGGGTGGGGAGGGAAGCGCAGTAGCTGTGGCCGCAGAATAATTTCTGATAGAACTCTCAGAGTCTGT
CCTATCTAGTGATACCTTTGATGTTCCTTTGGTCACTTMTTAATTGGTTAATTCACCAAATCTTGATGAGTCTGACTTTTGGGAAAGGTTCTGGTTTGAT
CCTGTAAGACTTGCCAAARATGGATCAGCAAGGAGTCATGACCTCAAGTTGCTGGTGGCTCAGTAGACTGGATGAGGCCCTCCAGAACTCTCACACATCT
CAGAAGATGCTAAAGAGCTTCAGCCTCTCAGATGCACAGAGGAGAAAGACCACTCCCAGTATGGGAGAGGAGAAAGGGCAGAGGCAGCCTGGAGTGAGAG
AGTAGGTGGGATTTAGAGCAGGGAAGGGCATACCAGGGGAAGGGGAAGGTGTGAGTAGAGAAATGGATGCTGGGTTGGTTTGGGGAACACTCAGAAGCTG
CAGTTTAGAATGTATGGTGGGAAATAATTGCAAACAAGATTAKAAATAATAGCTTGGGCTCAATTCAAGGCCCAAATTGCTAGGCAAAGAGGTTTGGGTT
TCACTTGCTAACCAATGGGGAGCCATTAATGTTTCAACATAAGCTTCAGTTAATCAAAATAAATGAAGACAATATTATATTACTTTTTTTTCTCCTTTGG
TTTTTGGAGAGACCTCAAAATTATTCTTCTGTTTCCTTCCCCAAATGTCTCCTAAAATGGTCAGGAATTGTAATCCCAGATCTCTCATCAATGGCATCAA
AATTGCATTTGCAATGAGGGCTGGAAAAGAGAGGACATAAATATAAACTAATGACATTATATCGGCTGCCCTATTGGAATTGCATTTGTTTATGATATAA
GATGACAAATAATAAGGTTAACACAGGTGGCATGATTCGAGGTCAGGAGAGGTAATCGCATCAAACTTACATTTTACCGATTAAATGAGGCTTCATTTTT
AGAATCTAGATTGAGGGGAGAGATGTTCAAAAGGCYCCATTTCCAGACCCAATTTCCAGTTCTCTCCTAAGTGAATTCATTGGAGGTGTTTTAAGAGAGG
GAATTTGCTTCATTCTTTATTCATTTCCAAACTCATATGCTGGCTTCCTCTCCTGCTCTCTGCTTCCCTCTCTCCTTCCCTCCTAGATGGCCCTTTTATT
CAGATTTTGAACTTTATCATTTCAAAAGTTCAGAAGGATTTCCATTTGCTGTGCCTTCAGGAGTGCATCATTCACTGCCACCAGTCTCCATAAATTGAGT
AGATTGCATCCCTTCCCAGTTGCCTTAGGAAGTGGTCAAACAGCCACATTCCTGGGCTGATGGATTGGCTCATTTCTTCCCAGCTTAAGCCAAGATACAG
ATTTTATGAGACTGTCTTGTGACAGGCTGAAGTTGCTTTGAATAAAACAAAATCCAGCCTCAGCTCACAGAAATAATTCTTAAAACGCAGCTTATCCCGG
GTTGGTGAGCAAAATTTGGTTAAAACCCTGAGCCAACGACTTAGATGATCTGGGTGAGGGATTTGAAGAAACTCCTTTTGGTTTTTCTTTTCATGCATCA
CTGTTGTTGACATGCTCACACACAGAACTGTGTATCCATAATATTTATAAATATGCAGCCACAGACTCAGTTACAAAAAGAAACTCGTGTTAGTAGACCT
GATGTGATTAAAGGAGACATTTGAACTCTCCGTAATGCAAGACAGACATGTTTTCTGAAGAATCCTGGAGTTTGGTTTCAGGCTTACCAAGCAGATAGAA
CAGGGGTAGCACCTTGAGTAAATGTCTTATTGTCTAGGAGGGTAGAGAATCTTTTGAATTYTTGGCTCAATCTRTGGGTTATAAGATCTATTCCCCACCT
CACTACATGGGCTTTGGATTTTAGCACTGGAACTGACCTTTAGAATCACCCCTCTCATTCTATAGATGAGAAAACAAAGGCTCAGAGTTGTCTACTAGCT
TACCCAAGGTCACACAGCTTGCTAGTGGTGAGACTAGACTTGATTACTAGGCTTTTAAATCCTGCTCCAATGCTATTTCTAATAAACTTCCTGGTGGAGT
AAGTGGCAAGGTGACAACCTCCTTTCTTTTTAAGTAGAAGAAAGAGTTTCTTCTTTGCCTTGCTACCAATAATTAAATGAAAACAATGCTGTGGAAATAG
GGACAAAGTGGGATTATGCTGTAGATAAGAAATAAATTATAAAGTAGATAAAGTATATTATTTTCAGAGGAAATGAGACCGATTGCTTTTCTCCACTAAG
TGCCCTCAGGTATACATAGGAAATAGATGTCTCCTAGTCATCTGCTCTTTCTCTTTTCCATAGCATTTTAAAGTAACAGGGAATGGAGATGCCCCATTTA
GAGGGTTTCAAACCATGTTCCAGGAAGCCCCAGTGGACTTGCAGAGAAGCCCTTCTGAGCTGAGGGCAGGAACTAGGAGGCCTGGACACTACAATGCTTC
TGGCTACCTCCCTCCCAGCATCCAAGAAGAGCTCCCTTTTATGTTCTTTGTACATGGGAGGTCTAGGTAGAGTTTTGTTCAAGAAAAAAAAAAAGTACTT
CAAAAAAARCAAATAAATTTGAAAGCTACACACCTAATTCAGTCCATTCTTTGAATTACAGTTTGTGAAGCTGAGCCCCAGAAAGGTCAAATTGAGTGAG
TTAAGAGTTGGGTGCCATCTCCCATCTTTCTGCTAATGTCGATCCCTCCCTTTCCTGGTAACCCAGTCCCATCACCCCAGACTCACCTTTTACAACAACT
GGGCCCTCTAATCCCACATTCAGCCAATGGCCAAGTTTCCCTGGTTTYGCCAAGGACTTTTTCCTTCAGTTCAACTAAAGCGAGGGATCTGATTGGTCTT
TTACCAAGCTGTCGTGAAGTAAGCTATAGTAATCAGATTATCTGCTACAGTCAGGCTTCAGTATTTAGCAAATATTATTGTCAAGTTCAGGTTATCCAGT
GTTCCTTTAAAACAATGCCAACTACATTTTTCTAGAAGGCAGACCAGATTTTTAAAAGATCTTCTTTTCCCATTCTTAATACTTCTTAAAAATTAAATAT
TCGCAAGGAAAGTGATTGGGTTCTGTAGGAAGGTGAGTTCCTAAGTGAAGGGGTACAACATCCCTTTGCCTTTTCAGGGCTATGTTACCCCTAGGCAGAG
GCAGATGGTACTTAGACTACCAGCAAAACAACAATACTTAAGAAGGAGAAAAAGAGCAAGACAGAAAGAGTTTAAAACAATCTGATATTTTACATTTCAA
ATAAAAACACCTAAGTAGTACTTATAAGAGGAAAATCAGAACTTGGTGACTTCAGAACTTAGTGTTCTCTTTATTTCCAATTACATCTGGAGCTGTCACT
TTATTCCTTTCAGCCTTGGGCCTTTCTCAGACCTGACCTGGCTCATCCCTCAGCCTTCCCTCCCAGGTATAGGAGAAAATGCTCTAACAGTCCAAGCCTG
GATTTTGCTATCTCTCTTCGGGTGATGAATTTGCCCCAGGTGAAAGGTATTCACAAAATAGTTGCAGAATGAAGTCTTTTGTCAACTCACCCAGCGGGCT
CAGTAGCTCAAACAGGGTCAATTTCCCCTCTGTACATGGAGATTGGCCTTAAGGGTTTTGCCCTTGAGTTCAACTCTCCTTTGGCTTAGCTTGACTCCTC
TGAAACAGAACAGCAACCATGTATAAAGTTCATTGTGGAACACAATAAAGACCTACAAAGTAATGGATGGTATAGCTCTTCAGAAGAAATTTTAGCTAAT
TTCTATTGGGACATGTTTGTATTTAGGAAATGATGTGTCCCCAACCCTAGAAAGGAAAGATCAGTTATCAAGAGGAGAAGTAGAATGATTAAGTGTGTTT
TCTTTACAATTTTTACTGATATGTTTCAAGAATTCTGTTCTCTCCAAGAAAAATAAAAACAGAAATTCTAGTATTTATCTTTGTGGATATATGTTTGTGC
AAATGATGTGTGATATTTTATGAGAAGGTGTGAACGTATGTATAGGACTAAAGTGTGAATTACTGATATGTATATGTACTTGAAGTATGTTCAATATCTA
TGTTTGTGTGTGTTTCTGGGTGTGAATGCAAGCCAAACAAGAATGTGAATTTATAAATTTGTAAGTATTGAAAAGGTTACCAACACACAACTGAAGCAGA
TGTTCTAATGAGTTCTCTGATACTTCAATAACTGCCCTGATTTTCTCCAGGTAAAGAAAGGATAGAAAAAAAGCAATGGATGACTCCTTTTTCTTTTGGT
TTAACAGCAGACAGTACAGACTATCAGCTATGGGATATATATATAGTTTAATTTTTTTGTGTGGTGGTGGTGAAGAAATGATCACTTCTGCTGTAGATGA
GAAATTAAACCTTCCTGCGAAGAAGTTTCCTGTCTTTATTGCTGATCTGTGTGCCTGGTCTAATTACTAAAAGTTTAAACCTGGGGTGTGGGGAATTGAG
GGAGAAAAGTTCCCCTTTCAAGAGTAATTGGAGAGAAGTAGAGGAAGGGATGGGGAAAGGAGGGAGASAGTGTGGGTAGGGAGAGTGGAGAGTATGTGGA
AACCATAACAGTTACTAAACAGGAGCTCAGCTCAGGTTTCCTCTGACGAATTCCAAGGCAAAAAAGTGTGGTTTGGGGTGAGTTGGTGGCAGGGCTGCAG
TTTTCTGCAAAATATCTGGCAGAGGAGCTGGACCCGGTAGAAAATTCCCCCTTCTGCTAGTTGAGTAAGAGCAGCTGGTGATCTATGTCCTCACACCTCT
GCCTTCTCAGAGGACCACTCCACCCTATTTCATGTGCATAAGCCAGGACCAACGGGCCTCAATTTGGCTGGCTAGATGACATTAGGTTCCCAGCATGGGT
GAGTGGTGTGGGCACCTGGAAAGCCTATGGGTATTGGCTGCAGAGGARCTGGGCCTCATGGCTGGCCTCATGTGGTCTGGGTGGGAGGGATGAGCTCATT
GTCTTCATGGGCTGGGGTGGGTGCAGGGTCATTAGGTAAGAAGATGATGTGCTGTGTACCAGCCTGAGGAAAYGGCTGCTTTTGTTTTCCACCCAGTAGG
AAATGGACCTGAATTCATTCCATTCTGGGCAGTTCAATACGGCACAGTTTGAGCTCGTGGAGGCTTGATGCCGAAAAGGCTACTTGTGTGGATTTGTGTC
CCAACCACCCGTGTGCAGCGTGCCCATCTTTTATGCATTTAAAGCCTGTCAGGCCGGTAGTCTAAAGCAGAGGTCTGGGAGATAGTAATGCCAACAGACA
TGGGGAATAGTAAAGTGCACCTGTAGAGTTAAAAAATGCATGACCTGTTCCCTCAAAGAGTGAACACAGGAGAAAGACCCATCCTGGAGGGCGGCTGCTG
AGTCGTAATACATAATTCACGGGCCCATGCTGCTCCATGCAGATGGCGATATTAAATCGTGATTGATGCTAAGAGACACACACATCTCAGGAAGGTCTCC
GAGAGGCTTCTGAATATTTCCATGTCTCATGTGCCTTCCCAGCTTCTGTTCTACTGTGGTATTTAAGCAAAACTCCCTATTTCCCAAGAATCCCTGCTGG
GGATTGCAGAACTTTACTCCCGAATAGATGAGATTCCTCAAATGTCATCACCCACCTTTGGAGCCTTTGAAGGTGGCTCCCTTCCCTCCCAGGCCACATG
AAGCTGTCTGCCTCCAGCCAGGCACTGCAGGTACAGGGAGCCAGCCCTTCCTGCAAACRGCYAGTTATGGCTGGACAAAGCAGCAGCACACTCTGGTGGT
GGTGACCAGGCAGGAGGGACAGTGGGCAGACAGCGCAGAAGAAACAGATGTTCATTCAACACAAAGCACCTTTGTCGAAATTCCAAGGCTAGAGCCAGTA
GATTCTCTAATACAGATTTTTCCATTCGGTGTATAATGAAATAATAAATCAAATTTGTGGTATATATGGAATTAAATGTTTGGGGGGTTTGCATTTTTTT
TCTTAAAAAAAAATTTAAAAAGGCTGCAATCACCCTCCAGGGCCTGTTCTGGCCCAAAGCTGAAAGTGCTTCCTCTGCACCACATGTAATTGTTACCAGG
CTCGCTTGTGGGTCGGCACCACAAAACCACCATTGTCAGTTCCCAGAGCCCTGACTGCTGGCTGCCTGGGCTGGGCTGGGAGACACCGAATAAAATGAAG
GATTTATGAGATAAAGATAGAGATAGGAGGTTGAATGAGGAGAGGAAGATGGGCCAAGGAGGGGAGGCAGGAAAGGCAGGGAGGCATGTTGAGTTTGCAG
TCCTCTTGTTTTTTTAATCACAGACCATGTAATTGAGAATATTTATGGCCATGTTCTGGAATACTTTCATCTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTAGTTGGGTGGGTAGGGGGAGGGATGAGCCGGAATAATCTCTTCCACCGAATGAGTAAGTAGGTTAGTCTTCTGGACTGCCATAAAAGGTCTGTAAAAT
AGTTTTAATCAGACACTGGTACAGAAGAGAAGGAGGGAGTGTGGGGGGAAGAAAGYTGTAACATATTTGAAGTTCTTTGGGTYGTTGATTTCTCTTTCAG
ACCCACCGTGCGGAGGTCGTTTGAATTCCAAAGATGCTGGCTATATCACCTCTCCCGGTTACCCCCAGGACTACCCCTCCCACCAGAACTGCGAGTGGAT
TGTTTACGCCCCCGAACCCAACCAGAAGATTGTCCTCAACTTCAACCCTCACTTTGAAATCGAGAAGCACGACTGCAAGTAAGCACCGTCCTGTCCCACT
GTGTATCCCATCCATGAGATGCACACGCCCTGCCCCCACCCCTGCTCTTGTCACTTCTATCACCCCTCACCCCAAGACCTGCTGCTAACCAGTGGTGGAT
CCTGGCCCCAGAGGAAAACCTCAAGGGGCATTCCCTTTCCAGGGAAATAAAGGTGTGGCTGATCCCACAGTATGGTGGAAAGAGCCTTCTTGAGTGAAAA
GTAGAGAATATTAACCTACCTCCAAAGGCCGGTAGTGGAGGAGAATTTCCATGTGGTGGCAGGGGCTGGACTACAAAACTCTACTCTTGACTTTGGGTTA
CCTTGCACTTGGAGATCTCCCCATTTCCACAGCTGCTACATGTATAAACCCCACCCACTTCCTTAATAAGATAGTAGCTGTATCCCCAAGTGGAGACTTC
CCTCGCATCCAGCCACGCAGGATCAGCCTGTTACCTTATATAGCGGTAACTGGTTTTCTTATAGAAAAAAAAAAGGGTAAAAAAAAAAAAAATCTAAGTA
GTTCTAAGATTCACATTGGTTCTTGATAGCTGTGCTACACAAGTAGAGTCTCAAARTCAGTGTCATGGATTTATTTAACAAACACTCTTCTAATTGCATT
ACAAATATTAATCCATTTACTTTGCACAGTGGGCCCTGGGAAGTTAGTGCCATTATGATCTCCATTTTGCAAAAGAGAGAAAACCGAAGCACAGAGAGGT
TAGGTCAGTCACCCAAGGTGACTCAGCTGGTCTTACAACATTGGTTCTGCCACCCTGGAAATGTGTGGCTTAGGAACTCCCAAGTGGACAYTTAGACACT
TGGGAGTACTTTAGAAATGCCATGTTACTACCGAGGTCCCTAAAAGTTAAGGTTGGGAAGCAGGCAGCATGTCTAGAATGCAGATGTGCTTTAAGCTGTC
TACTGAGCTCCATCTTAAAGTCTTTTCTCATTGGAAATAAAGTGAGAGTTTTTGTGCAGAAAAGAATGTGCCAACAGTCATATTCTGCCCCAAATGAGCG
CCTACGGAATGCTGTTACTCTGATAAGTATTCAGTGCTCCCATGTGATTCATAAATTGTCTAAGCATTCCTTGCTATTAAGCAAGGAATTGCAAATACTG
AAAAATTAATAAGGGGGCCAGCTGGCAGGACAGGTACCAAGGAGAAGGCAAAACTCCTACAGGCCAGGTCTGGGCCAGCACTTCCTCATGGAGGAAACAA
GGCCCCTCTTTAACTAGTGCTAGACTGTGAGGCTCAGTGAATTGATGTCATTATTATCCCCCTAGGGCTAATTTGCACCTACATAATGGTTTTCTCCTAA
CAAGAGGTAGCCTTTGTTGAAAACCAAAGGGTTTCCCGGATGAATGCCTCATGTGACGAAGAGTCATAAGATGAAGTTTCTAATCCCAGATCCACTCTTG
ACTCAACGGATGACATAGGGAAACTCATCAGTTCCTCTTTGTCTAAGTTACATGAGTACCCTGGATACATTTGCTCAGCATCCCAAGGCTTCTGATTCCC
TGACAGTGAACTTTATCAAAGATTTCTGTTAGAAGAGCTTCTTTATAAGGTGTTTTGGGCTCTGATTCCTCTGGCTGGACTGCAGAAGGTTGGCACAAAT
GGAAGCATAATGTACAGAGAGAGCCTGGGTCTAAGCTCAGAGAAATTTGACTAAGCACCTTTCTCTACTAAGGGCCAAATTCTGTTATGCTTATGACAGC
AAATCTCCCAAGGAAATTGCCAAGAGGTCATCCTATGTTGTATTCATAGTGGCAGAGGGAGAAAGCATGGCTTTTGGAAGGAAAAACTTAGGAGCTAGTA
AGCATGGCTTAAAACATGTTGGGAAGGACGAAAGGCCAGAAAGGCCCTGCTTTGGGTTGCAGGGTACCCCTTCCATGGACAGGACTCAGTCCCAGAGATG
GGGAGAACTGAAGGTTGCCAGAGACTCTGACAAGGGGAAGAAGAAGGCATTGCCCCTTGCTGGAGGTGGAGTAGGGGAAGCCAGCAATTTACAGGGTTAT
CTTCTGGCTTATCATCCTCGCTAAATCACTTCCTGTTTTTCTCCCCATTCCATGACCTCATGTGTCTGGTTTGAACCTAAAAAGTGAAGGAGGTCAGAAA
AAAATCTTTCTGGGGTCTGTTTCTCCCAGTGCCAAACTGTCAGAGAGGCTCTGTTGGGATTAAGCCTCATCCACTTAACCTTGTCATTAATTCTCTGTTC
CTCCCCCCATTTCTCCCCCACTCCCCATTTCTCTCTCTTTCTCTCTCTCATTAATTTTTGTATTTAGAAAGACTCATCTGGTTTTCTCAGCCTCTCACTC
TTCAAGGTATTTTTGACATTTCCCCTGGCCATTTGCATTTGCCATAAATGGGCTTCCCCTCCCCACTGCCTTGTTTTACTTTCTTGTGAAAGGAACAATT
AATCTAATTGAAGTCCTGGAAGTTCTGTCTTGTTCCGGCTCTCCCTCTCTCTTCCATACTGCATTTTCGTTCCAAGGGAGCTCCTGGGTTTGGAAAGCAC
TCACTCTCCAAGGAAATTAGCCTGCTTTCTCCTTTTATTTTGGGTGCATGCTTCAAATTGGATTTGGCTCTGCAGGCCCATAAGGTGGATACTTCCCAAA
AGAAAACTGCCTGGGCTGGTCTTCCGATCACAGAGCACAGCAGCAATGCCCCAGCAAAAAGGGGAACTGAGCAAGAAAGTCAGGAGAAGCAGCCAACTCA
GCTGTGGAGACAGAGCAGTGGTCAGCACACCCAACCTCGTGTTTGCCCGGGTTCTTCCTACGTGCAGGGTTAACTGCAAAGATTGCCCCAAAGCCTGGAA
ACAGGGCCCTGATATGAAAGAATTTATCCTGGGCTGTGGCCCCTGGGCCCTTGGCTCCCTGTATACCTTGAACTCTACATCCCAAAGGTTGAGACGGTTG
CTGAGTAAACCCCAGATAGACCTTTTCCCCTAACCGTTGCTTATTAACTTTGTTCCATTGAAGCTTGCTGTCTGCTTGGAAAATTTCACTCACAAGCCGC
AGCTTTGCCTGACTCAGTGCAATCCAAGGCCAYCATCTCTGGTGAACTTCCCTTGACTCCTCCCTCCAGCCACTTGCAGAAATGCAAATCCTGGGCACCC
ACAGGCTGTTTGGGGGCCTGTATAGAAGCTGTGGGCAGAAACCAGAGGCCACTGTGGTACTGCTGGACTCCTGCAGCCAAAGGACAAAAGGGCGAGACTA
CGGGCCGTCTGGGCAAACAGAGAGAAGCCACTTTATTCCCTGTGGAGTGGAGGATGCTAGGATGTTGCTGCTCCRGCAGACAGAGGCCTTTCGCTTGAGT
CATCAGCCAACAGACTGAATGTTATGGTTTTAGAAACCCATACACAAAGTTGAGTGGTTTTTTCCATTTCTAAAATTTAAAATGTATGTATTTTTAAAAC
ACCCACCTGCATGTAATACACAGCTTGTTCAGGAGTTCTCAAACAGCCCCAGCACCCACCCCATCCCAGAGGCTCAACCAAATAAAACCAAAACCAGGAG
GCTGGGTCCTTTTAAGCACTGGTAATTTCTACCTGTAATTCCAGCCCTTTGGGAGGCCGAGGCAGGCAGGTCACCTGAGGTCAGGAGTTCGAGACCAGCC
TGGTCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTAGCCAAGCTTGGTGGTGCGTGCCTGTAATCTCAGCTACTCTGGAGGCTGAGG
CAGGAGAATCACTTGAACCTGGGAGGCAGAGGCTGCAGTGAGCTGAGATTGTGCCACTGCACTCCGGCCTGGGTGAAAGAGTGAGACTCTGTCTCAAAAA
AAAAAAAAAAAAGAATTGGTAATTTCTAGATGGGTACCTTGATGGGTCTCAGAAAGAGCAAAACCCACTAGCAAGAAATGAAAGAACATTTCTTAGGCTA
AAATCCTCAAGGAAGTCTACATAAATGATTGTATGTGCTATGTTCAGCCCAGCAATRTCTCATATACCACGTATCATTGAAGAATGACATTCCATTTAGG
TGAAGTGTCCAGATACTGAAATATCCACCTTTAAAGTTCTTAAAAGAGAACTTTAAAGAGTTCCAAGAGTTCTTTTTTAAAGGATTTCTGATAAAGAACA
TTCTAAATCATGTGCTGCACTTCCCTGTCTTTTTAAAACCTACATTGAGAGGAGTCAACTTTTTCTCAATGATTCAGGCTTTTAATTCTAAGCTTCACTT
TTGTGACAGCAGCCAGTATTGCCATAATTGGAACAGGCAGATTAAGATTTGAATTTTTATTGACCTTTTAAACTTCCCAGGCCTCAGTTTCCTCATCTGC
AAAGCTGTCATAATAATAAATATCTTGCAAGATTGCTCTGCCTTTTTATGTAGATGCCCAATAAGTTAGCAACTGTGTTAGCATCATTGGACTTTGTCAG
GGGACAGTTTGGGACTATTTTCTATCAATCCTCCTGCTTTCACACATCCTGTTACGAGTATGCCTGTCTCCTGTAGCCTTCCCATTCTGACTTGTTTTTG
CTTTTTTATGGGGTTATCAATTTTGCTTCAGGAGCCCTTGCTGTCTCTTGGGAAGTTTGAGTTCTGGGACCTAAGCTTTGCTCAAGCCAGTGCAATCCCA
AGGCCAGCATTTCCAGTTGGCTTCAGCCAGCCAAGCTTGCAGCAGAGTTAGGACTGGGGAGTGATCCCCAAGTGACAAAGCGTAAGAGCAACAGAGGATG
GAGTTCTCAACATCAGTGTAGCTGCTCACAATCTTTTTTTCTGAACTCCCCCACACCGTTATATTCTGCATATTTAAGGTTTTGGATATTTGCCTCTAAG
TGTCCTAGATAAACAAGGTGCTCTTGTGTTTATTTACAGCCAGAGGGGCCCTCTATATCTTAGAAGATATGTCTGTTTCTCCCAAAGTAAGAGATGATAT
CTTAGAAAGGTAGCAGTTTCCCAGTTGATAACCTGATCATAGTAAACAGAGAGATCAGACCAGACCTTAGTCATCTGGCCCCTCCCCATTCAGCCAGCAG
TGTTTCCCTGTGCTCAGTAAACACCCTCGATTCCCTGCAAACAACCAAGCATAGTCTTGCATCTGCATGAGCCCCCTGAGTTCCCAGGGCTCCAGCCCTC
CTTTCCCTCCCTCCACAGTGTCCAGCTGCAAGCTCCCATCTTCCTCCCCTGAGTTTCCTTGCTTCCTGCAGTTCCCTTTTATCACCCTTTCCTCTGAACT
CCCAGAGCACTTGATGTTGCCTGAGTCCCTTGCTTTTTGTTCATATGTGGTCATCTTGAGTTCTCAGCAAGTAAATTCTACAAGGGCACAAAGCATGTAC
TTCATATCTAAACTCCCATGGCGCCTAGTCTAGGAGGGTGCTAGGCAGGTGTGTGCAGGTGATTTCGTGATATTTTTTACATTGGAAATGCCAGGCAATA
GGTCAGCATGAGCTGAATCTGTGTTGGAAGGCAGACAGATCTGTGTTCCCTATTTGTCCCTCTGGGAATATGACATAATCTTAGGGGGTAGGACACAGGC
CAAGAATGTCACTAACTGATTTGGGACATGAGTCTCTCACCAACAAAATGGTAATAGACCATTCATTCATTCATCAGGAAATAGCTATTAAACACCTACT
ATGTGCTAAGCACGTTGGTATTATTGGGAATACAGTGATGAATAAATCATATTCTTTTCCCTAAAGTCACTGTTACTCTTTCCATTTTACAGATGAAGAA
ACTTGGGCTCAAAGAAGTTAAGCAACTGGCCCAAGGTTCTACTCCCATAAGTGGCAGAGAAGGGTTTTGAAGCCAGATACCCTAGTTTTCAATCTCTGCT
TTACTCTTGTGCTGTCTGCCTCCCCGGCATCATGCATTTGGCAGGGGACATGATATGGACCTGTTACGTGGGCCCACAGCATCCAGGTCCAGCCTAAGCT
GGGAAGATCAAGGAAGGCTCCCTGGAGGAGGTGACGCCTATACKAATTCTAAAGAATTTGGCCAGGCAGCAGGGAGTGTGTTTGGCTGGTGTCATAGGCA
GACAGCAGCATGCCCAAAGACAAGAAGGAGGGAGGGTTTGATGCCTTCAGGAACCAAAATAATTGAACATGCCTGAACCCAATTTCTTAACCAGTGAGCA
TTGTAAGGGTAGACTAAAAGGGGCTGTCCTTGTGACTTGCTGACACAAACCCTTTTCCCGGTGAAGAGGTGCCTGAGCAATACTATTTAATTGTATTTCC
TGGCCAGACAACTTCCACCATCTCCTTAGGAGACAGGGTGGTCAGGAAGCAGGAAAGACTAAGATGATGGGGACTCTCTGCTGTCCCCACCTTCCCTGTC
CATTGTAGGGTCTCTGCAGCCTCATACCCTATGTCCAGCGACCTCCCCCACCCCGCCGCCAGTGGAATGCCTGAAAGTGGGGTTTGGCCTGGGAAAGTCC
AGGTAACACTTCAGATTAAGCTCCTCTTGTCAATTTCCTGCTACACAAGACTTTCTGAATCCAAGTCTCTTTCCTATGAATAGAGGGCGGGAGGCCAGAT
TGCCCAGTTGGAGGTGTGGCTTCAGCTGGTCTCCGTTGAAGTCTGAAAAGCCAACAAAGCATAGTGAGAATTCTGTGTGGTTCAAGAGGGTGCCTTGTGC
TTGTTGAGGAGAGGCCGTTGGCTTGATCACTCACGACACTATTACTGACGTTATTATTTACTGCCTGCCCAACCACAGAAATATTCTGATTCCCCTAAGG
AGCCAGTGAGCAGTAATAATTTTCTGTATTGCAACAATCCTCCTAATGACAGAAACAGATCCACCTCCAGGTACGTGGTGGACGAATGGGAGCAGCTGGC
TGCTGGCCCCACACTTACCAACCTTGACCACAGGGTCCACCCAGCAACTCCACCTCACCCATGGATCRGGGGGAAAAACAACTCACAGACTGTTCTCCTC
TTACCAAGGTTAAAACGCAGCTGGAATTACTTTGGGCAGTTTGTTTTTAAAAATGAGTGTTGCAATTGTAACTGTCTCAATGCAAGCTTCGCTGTAGATG
CCCTTCTTAACAATATGCTTTATCTTCTGACTGAGAAAATCACTTGAGATGTTATCATGCMCAATCCCACTTGTTCTGCCTCTCCACCCTGGCACCTTCT
CCGAACCCAGAGATCCCAGAGGGCCAGCATCTCACCCCATGTAACTCCATGTAATTCTCCCATCTAATTACACCGGCTGAGAGTCTGTCTTAAGAAATTC
AGTGGGAGCTCCAGGTGTGGAGGGGATAAAGAAGAGATGGAAATATACCAAGTGAAAACATCAGATTTTTCTAAAAAGGGATTTGTGTATTTTCCTGGAG
TCATGAGTCCTATAGAAAAAAATTTATATTCTTTTTGTTTTGTCCTTTTTACTGGCAAGGGATTTAAGCCTTTGGATTAAGAGAAACTCAAAAGATAATT
TAATTCCATTCTTATACTTCTGCCTGGATAAATAATTCCAGAAAAAAAAAAAAAAAGATATCAGCTGCCCTTGTCTTTCCTTCCAGAAAAGAGCTTCTGT
AATCGTCCTTCATTATGGGACATCGTGCCTCACAACTCATCTCAGTTGATTGCAGAGTAGATGGTTGTATTTAATTTACATAATCAAAATTTTTTTCCTA
GAAGGAGAATCCCTGAAAAATGTTAGCTGGGTCAAAATAAAATTTTCTAAAAAGAAGAAGGAAAAGGAAAAGGAGAAAGAAATGTGAGTTGGGCTTAGGT
TTGGGAGGGCAGCAGAAAAGCATGACTTTTTTTATGCCTCTTTTCGAGCTTTGTAGCCAAGCATCTTGGCAGTCTCTAATATTTTTCTACTTTTTCCCAC
TGGGGACTCAACTGTATGTTTGTGGGTCAYGTGGAGGAACTCTCAAAATTAGACAACAATAGCAAACATTTATTGAACTCTTGCCAGACATCAGGTCCTA
CCCTAAGTTTTCTATGTTTAACCGCCACAGCTGGTACTGGTACTACTATTATCCCATTTAACAGATGKAGATACTGAGGCCCTGAGAGATCACACAGATA
GTAATCGTGGGGCTGGGTTTGAAGCCAGGCAGCCCAAAGCTGCCTTTGTATACCTGTGTCAATCTGCTTGGAGCTGTCATCTGCTGTCCCAGTGCTTAGG
TATTTGGGGCCTCTCTGATTTCTTTAGATATCCTTGACAAGCCTTTTCTTTTCCTTTTCTCTTTTTATTCCTTTTCTTTGCCTCTTCCTGCCATGCAGTC
ACCTCCGGATGCCAGCGGGGCAGTCAAGGAGAGAGATCTCTTTCTGTGTCTTTAAATACAAGCCAGAGGCCTCTCAGTCCATCGTCTCTCTCTGCCTCCC
TGTCACCTACCTCCTACTCCCCCAATCCCCCCACAGCCCCGCTCACCATCCTCTTCAAATTCCCTGCCATCCTCACCACCACCTTCACTCTCCATCTGGA
GTCCAAAGATGTGAGGGCCAGTAATAGAGTGTCAGCGGAAGTAATTGATTCCTCACACCGAGAGAATTCGCCTGCCTTTAGTGTCAATGGAGCTGAACCA
GAGTCTTGGAGGGTGAGCGAGACATGTAAACAGTCCGTGGCCGAGCTGTCAGGACGAAGCCAGACACACCGGAGAGTGAACGAGGGGGGAAATGGTGGAA
CAAATAATTGTTTTATTGGAAAGGAAAGGAATAAATAATATTTCAGCCCAGGAACTGGCAGTTTGAAAGRGATGGTTGAGAGCTTGGAGCAGAAGGATTC
GTGATGCAGGTTTTAATGGAAGAGATTTTCTTTGTCTCAAAGTAGGAGGTTTCGTCCCCACCCGACCCCCCTCTCCCATTATCATCATTATTATCATTAA
AATAATTACTGTAACAATTACAGTTGATGAGACCTCAGGTTTATACAGCACCTTTCATCTAAAAGTTCAAAGCGATTTATCTATGTGTCATCTTTTGAGA
GTGGTAGGAGGGTAAGAAACTATTATTTTGGGGGGTCATCTGCTGGGAAACTGAGGTCCAAGCAGATACAAGATTTAGTCCAAGCCTCAGGGCAGGCTGC
TGGGTTAAATGGTGGGGTACTGAGTTATCTTCTTGGGGGCCTTTTCTGCTGTACTCTTCACTGCCTGGGCCTTTATACACACGTGGCTCTTGAAGCTCAT
CCCCGGCACTGATGCCTCCTCCCACACTGCCAGGGCCTCCACTGGTCGCTACAATATTGTGGCCAACCAGCCAGAAGCTCTGTGCGCAAAACAAACAGCC
TGCTTCTGGCTGTGAGATGAATAAAGATCCTTCAAGGTCTGACTCACACAGCTCCCATCCTGCTTAGAGACTTCCTGTAATCTGGTTCCCTTTCTTGTAG
AAGCTCATGTCCTTTCTAAACATCTTTCTTCATGGTCTTATGAGGCTCTAGCCAGGAGCACCCAACATTCCTAAATGCTTGCTTCTTCCACCCCCAACAA
ACCCCAACCTGTTCTCTCAGAATGGAAAGGGCATTTCTGGGATGGGGAGAGAAGGTGAATGCTTTAACATGCCTCACATGGCCCGGGCTGCCTGTGCAGC
ATGATGCTTCAGAATGCAGCTGTCGAAAGCATAGTCACAAACGGAAGCGGTTCCAGCTGACTGGCCCCTGAGTGCTAGATTCAGAATCTCCGCCCTGGCG
TGGCAGCAGCCCTTTCCTGCTTGGACATTAGTGCAKGCCCATCATTTCCACACCATGGTGTTTTTTGCACAGTAGTGACAAGTTTGCCCCTGGAGCCAGG
AGAAGCTCCAAGCTCTGTAATCTGAAGCTCCAAGTAAATGAACTCTAAAAGGGAGGCCCATCACACCTGCCACCTACTCCCAAACTGTCCCCTACTTGGA
TTTCTGCATGGCACGTTTTTCAGATGAGTTTTGCATCTTCCAAGTTTTGTTAGGGAGGCTGGATGCCAGCAAAGAGGAATAGAAAAATGATATGGAGCCT
AAATCCCTGGAAAAACAAAAAGGACTTTTCTGTTGCTGTGGTGGATTCCCTGGTGCCCAGTACACTTCCGTTCCCAGCAGGCTCCCGTTTTTTGGACAGA
CGGGGAAGTTATGATTTGCCCTCACAATTGGATCCCCTGGGAGCCAGAATTAGTGTGAACACCTATTCSGGAGGGAACTGTTCACCCTGCCGAGTAAAGG
GGCACTGCCAGCACACCAGGGGCCCCAGACGCTGTGCTCTGATTGCCCTTCAGTGACCACCCRTGCAGGCAGCCCCACCGGGCACAAAGGCATGATTCCT
GTTCCCTTTTGTCAAATGAGGCCAACTGAGGCACACAAGCATGATTGATCCAGGCCAGCGTAGGAAAATTTAGTAAGTCCTGGCCCTGCTGGGATTCACC
TTTACACCTGCTAGTGCTGCTGCTGCCGCTGAGAAAAACAGAAATGGAAAGAAATTGTGGACTACTCTTCCTTTGCACTCTGGTATCATTCCAGAATGCT
ACCAAGGGGCCCTTTAAGTTGACTGCAGAGGGTGAGGATTTTATAGACACAGAGCAGACCAACGAAAGACCCAACACTCATGCTGAAAGCAGCCTGCCCC
CAAAGCCTTAAACTTCACATTGGCACCGGTTGCCTAGAAAACCATTCCTTACATAAGCAAACATGTTTCATCCAAGTGGCCTCCAGTGTGTGTGCTGGTC
CAGAAGCAGAGCAGACCCGTGACCACACGGCCTCAGGAATGCGCCTTGCTGGCCAGCCAGGTCAGCGAGGGAAATGGTATTCACCCAAAGGACCAGTGCA
GAAGTTGGGGAGGCTTTGTTGCGTGCCCTTAATTCTCTGAAAGTTCACCTTCAGAGAGACTTATCAGAYGCGTTGTCTGGAGTGGCCTCCTTCCTCACGT
CAGGAGGCATTCTTGGCAGCCTGCTCCATGAGGAACAATGAGATTGGCGGGGCCCTCACCATCATCGCAGGGCCTTTGCGGAAAAAGAGCCAGCAATTAT
AAATAGATGTTATTTGTCGTTTCCATTTTCTTGCCTTCAAGGTTTTTTGGAATAATTCCTTCAGTTTGTTTTGGGTTATTCTCTCCGTGTACTTCCTTTG
GTGGGTGGTCAGACTTCCTCCTTTCTGAAGAGCCATGGTGACCCTGGTTGTGAGGGGATTGTGGATAAGAAGCTCAAAATATCAGCGATTTGTGGTGGGA
AGAAATGAAGGAAGAAAATACAACTGCAAACAGCCACTATTAAAAAGGCGCTTGGTACTGATGCAGATACMCAAACAAATACAGAGTTTGGTAACTGTTT
GAGCCCTTGGCGTTAAATAGCAAACAAGAATAACAGCAGCAGTAACAACAAATGGCTATTCATGGAGCATGTACTGTGTGCCATACACTGTGCTGACCCA
TTGATATGCATTAACTCACCAGCCTCTTGGGAGCTTGAGCACCTTGCTATCTAAGACAGCAGATGGAGGACGGGTGGTTTTGAACATAGCCTGGGCTCAG
AAACACAAGTTTGAAATAAAATCTCGAAAACTCAAGTGTCTGAAACACTGTTGATGGATTTGTGCAGGGGGATGATTTTTTAGAAACCCAGCCCCAAGAA
GCAGGGTATTGAGACTGCCTCTAACTGTGCTTTTCGTTTCATCTTCTCCTGTCTGGCTCCCAAGGTGTCATGTGTGTGTAACTCTTCTCTTCTCCACATC
CACCATCCTGTTTTGTTTTATGCTGGTAATAATAAAAATAGCCAGGGGCTCTCAGGTGCTTCCTTAAGGCATCTGGCACTGTGCTGGGCCTGCATGTACC
TTCGCAATCCTGCCACCACCCGCAAAGGTGGAGACTGTTATTATGTCCATTTTGTAGATGATGAAACTGAAACTCAGAGAGGTTAAATACCTTGTCTGTA
ATCACACCATGAGCAAGTGCCAGAAAGTAACTGGGTCTGTCCACAAAGCCCACATGCTACACTTCCCAGGTTACACAACACCCTCTTAGGTATGTTTCCG
TTAACAGTAATTTAACGTTTCTTTTGTCACAGACCTTTTCCCTAGAAAAATGTGCCTACTCACAAACACAAAATTTCGGCAAACAAAGATAGAGCTTCCC
CAACCCACTTACACTTGTGTGTAGGCCCTAGGAGAAATCCCCGCATTTAAGAATATGTGCTCTAGATGATAACTTAAGAGCTTATAAATATATGGGATGC
TGCTTTCTCACTCCATGGGCCATATGTTCACATATGGATATATATGTGCTTATAAAAATACTCCACTTACAAAAATTAATATGTTATCCCATCTGAACTC
TTACAAGCTAGATTTCTGCTGGGTGAGTCTTGAAATCATGGATTCCAAATCCGCTCACTTTTCCTGTTGGTGATTTGTCTATTAATTTTGGTAAGTCCTT
CAGCCTTGTTTAAACAGAACAACTCAAAAGAGCAAGATTCTGTTAAGTCTCTTACATATCTTACACCCATTTTGTGGAAACCTAACTGAGGCCCTAAGGA
TTCTTTACACCTGGTACCTGCTAATGCTATTGTGCTATGGCAATCCGGTATTTTCATTGCCCTCAGATCTTCCTCCCACAAGGAGACAAAGGGAGGAAGG
GAAGGTCTCTGTGCCCTGGAGTTTGACTACTTGGGTTCAATGCCTGTCTCTGACCTTTCCTCCTCATGTAACCTTGGGCAGGTCACTTAACTGCTCTGAG
CCTCGATGTCTGCATCTGCAAATGGATGGTAATTGTAACAGGGCCTGGTTTGGATGAAATGAGGATTAAATGAAATAATATCTGAATCAATGGCCTGGCC
CATAGTAAATGCTCAATAAAATGTGAACAGTTTGCAGATATACCAGCTTTTTAGTAAATGGGTGGTACAGATGCAAGGCAGAAATTCAARGAAATGAAAT
TTACTTTAAAAAGTCTGACCTGACAGTGAGCTGACTTCTCCATAAAGGCTAGGTGACTGTACTGAGCCTAAGGAGCAGGTGGCCTGGCTTCAGGCCTGAA
CCRACCAGAGACCTCAGCATTGTGCAGATCTGCCTTGCRGCCTTTTTAGACATCGTGCAGCTTCTTTGTTGGGAAGTTGTATGTGACAGTGCTGTTTTTT
TTCCTCCTAATTTCCTCACAGGTTTTAATGTAAGGATTAATAAGACAGTGTTTGTAGATGTCTTTGAGCCTCCTGGAAGAAAGGCACTCCAGGAGGTGAT
AAATTCTCTGGCCTGGATAATCTACTCATGAAATATGGAACTTTGAAAGTGTGAGAAAAATCTCAAATCACTTTGACAGCATTTTAATTATAGTTGATTT
GTTTGCCGCTAATAGTGAAAATGCTGTCAGCATGATTTGAGATGTTTCTTCCACTCAAAATGTTATATTTCATGTTTTTGAGTCACAAGGCAACATTTTG
GTTTTCAGATACAACCAGAATAGCTCAGTAAATGTGTTGGGGCACAAAGACAGAGAGTATAAAATGGATCAAACTCCACGGAAAGCATCATCGTAGCACG
CATTCTTCTCAACATGGAACACCAGCCTGAAGTCCCTTATTCATTTACATTTATTTACTCAACAAAAAGTGAATGAGACCTCCTACATGCCAGGCACCAG
GGAAGTGTCGTAAATTCAGCAGTGAAGAGGCAAGGTCCTTGCCTTCATGGTGCTTATTGTCTGGTGCAGGAGACAGATCATAAACAAATAGGTATATTGA
CAAGACCTTTCCAGATTATAATCATAGCTATGAAAGAAGTAAGATGATGGTGAGATAGAGAATAAGGGCATGCCATCTGAAATAGGGTGGTGACAGCAGG
CTTCTCTGTGGAGGTAAMATTTGTCCTTAAGCCTGAAGGATGAGCAACAACCAGCCCTGGAAAGCACCAATGAGGAGTACTGCAGGCAGAGGAAAGAGCG
CTTGCAAAGGCCCTGGGGTTGGAAAGAGCTCACCATATACAAAATGTCTTCAACATCTTATGATCTTATGATGAGCAGTGTGAAAGGAGGCCTTGCTTGG
TTGGCAAAGGTTATGATGTCAGGACTTGGGCAGAGATGTTCTGATACGTAGACCCAAAAGAAGGGGCAGAGTATTCTTCCTCCGAAGACCTAAGTACTCT
ATCTTCGATACAGAAATCCCCTTCCAAGTGGTTCTGTGTGGCATCCCTAAAGCKGGATTCTGACAAGGGCCAGACATTTCGGTGCCCTGAGAGAAGGACC
TAAGCTTGGTGAATCTTCCAGCACAGGCTCCGTTGACTAACCCAGCCTTTGGTGCCCTGCTGGGAAGTGTCAAGCGTGGAGACAGTTATGGAAACTAGAA
AGCCCTTTTTCATGTTTGCCTAGTGATGAGAGGAAGAGATGAGATTGTTGCTTTTTCATATCTCTCCCGTGGACTCTTAAAATTAACTTCACTGTCAAAA
TTTCCCATGGCCCAAATGTAGGTTTGGGGAGAGAAATGTAAGACTTTGAAGTTGAGAAASAAAGTAGAGAAAGCATTCTCTAGACAAATGCTCACCATGC
AGACTTCAGAATCTGTGAGGAGACAAATAAAAAGGCACTCGGGGAACCGTTTTAGAGAGAAAATAAAGAACTGGGAGTAGAGATGGCTACTTCAGCTCAG
GAAAAAAATAAATAAAACAATACAAGGTAGTGTTAAAGCTTTGAAAGGAATTTTTCGTTTAGGAGAGATTATGGATAATGAAATGCAAACACTCTAGTTA
ATATGTCTGTTAGCTGGTTTATGTTGCCTTCTGGAAAACGAGTGATACRTTCTAAGAGGAGCAGCTTTTCAAGTTATCCTACTTGACTATCGTTGGGGTG
AGCTCTGAGTCTGTACCCCGGATTCCTTTACCAAACACTGGATATTAGACACTAGATGCAAAGCCGTATTTATTCCAAAGCCAGAAACTTCCTAAGCCTC
TGCCTAACTCTTCACAAATGAACCTGACAACACTGAAATTTCTAAGGAGATTTACTCCAGCTGTAGCAAATCCCTCATAATAAAAAATTTCCCCAAATGA
GTCAGTCACACAGGAGGTAAATGAGACATTCTGTATGAAGTCAGCRTGTCATTTGGAGTGTGCCCTTTATATAAAAGGCCCAGCCAGAAGACCATGTGGT
TAAGTGGGGCTTGTCCACAGGGCAGAACCAGAAGACTGGAAGTTGGGGGGATTTCAGCTGCCSAACTGTAACTCTGTGTCACTTCCCCTCAAGCAAACCT
TATAGAAAAATCYAGTTTTTCTAAGAAGTTCAAGTAAGGTTTGTTGATTATTTGCTTCACAAAAGGATTCAGCAGAGGGGTCCTTTAACTAACAAGCTCA
GAGAAAAAATTTATAGTATGATTGAATTATATGAAGCTTTTTCAAAAATGCATCCCTTCTCTATATGTGTGTTAGATACATAAGGATGTATTTGTTGCAG
GCAGCATTACAAGAAGGGATTTGGGGTGGTCTGTATCCGTTGAGTAAATTGAGGCAAGCTTGTAACAGTGGCATTTGTTGGGCAGCCCTGCTTCATTGCT
GATTCTGTTAATCCCCTAAATGACTCCATGGGTGATTAGGCAACCAGATAAAACCCTCTCACTTCTGATGAACAAGCCAGTGGGATGGCAGGGCCTCTCT
TTGTCCTTCCTAGAGAAATTGGCAACACAAAGACTGGAACTATCTGGTGAAGCTTTAAAAAAAAAGTTTAAAAAATTATTTATTGAATGTGGGTCATGTC
CTTGGCACTGTTCCAGATGTCCCGACCTACTGTGTCTCATTTATTCCTCACTCCAGTTCTGTGACATGGATGATGATGGTGATGATGATGAACTTCCTTC
TACATCTGCTAAATCATGACAGCTGGATTCTTTTACAAAGAAGAGAGAAAAAATTACCAATTATCCTACCACCCATGTCTGTCGCCATTGTTCATATTTT
AGTAGTCTTTCAGACTTCCTCTGTATGTTTATGTGAGGAAATGTATGTATACCTTTTAAAACATACTTTTAAAAAATCTCCTTTTTAAAAAGTTAACAGT
ATAGCGTGAACATTTTTCCATAAAAACAAAAAATTCTAGACCTGCAGACTATTGATTGTAGCAGGAGAGTATTCCATTTTATAAATATCCCAGATGGATT
CACCCTCCCTMTACGGTTGGGCTTTGAAACCATTTATAAGCAAAATATCCTCCCACTTTTTATATTTTTTCAAAATATATGCACAAAGATGCATATGCAT
CTTTGCACAATTGTCTGATTATTTTCTTAGGAAAAATTCCTAGCAGTAGGATTGCTGGATTAAAGGCTATGTACATATTAACTTCTGTCACATTTCACCA
AAATGCCTTTCAGAATGTTTGAACAGATTTCCATTCCCGCTGATACTACACCTCTGCTCATTTGTTCCATTTCTGAAAACAGGGTCGCTTCTGCTCTGTG
GCTCAGCCTCCTTGCCTGTGAAATGGGTGTGAAAATACAACAAATCACAGTTCACATTTACTTAGCACTCACTGAGTGCCAGACTATGGACTAACACTTT
AGATAGATTAGATTTTGTCATTTAAGTCCCACATCAACCCTAGGAGAAGACTGTAATATCCCTACTTTACTCTTTTTCTCCCCATTTCTGAGGCTCAGAA
AGGTTCAGTAACTTGCCTGAGGTCACCCAGCTAAAAAGTGGCCAAGCTGGGGTGCAAGCCCAGCTCTGTCTGCTTCTGGGATTGGGACTCTTGCGCTCTG
GGCCATGCATTTCTTAGTCCAGATGAGTTGTCTGATTAATGAACATGGGTAGCAGAGCCTCTCAACCTTTGTGCACATTGCCAGGGCATCACCATTGCTC
ACAGGAATGTGTCTGTCCAGCAGTGCTTGCCTTAGTGTGAAAATAGCACGGAGGGGTTTTCTGGAAGGTTTGGGAGTTTCCCCTGAGAACAAATGAAGCG
TCTTTTTACTTTTGTTTTGGAAATGAGGAAGCATGTTTTCAAAGTCAGCACCATCTCCCACACTGAAAYCACAGACCTAAACAGATTCCCCAACCTCACG
GYCTTCTCAATCTGTGACCATCTCTCCATTTCTCCCTGGGGGTTGAAACTGCCATTTTGACTTCTCCAGACTCTAAGGAGCTTCAGCGGTTCTTTTTGGA
CTGTGGGAGTCCAGCCCTGTGGGGTCTAAGAATGAATTAATCCTGGCCCACTCCTTAGACTTCCTTTACAGGCCTATTATTTGAAAGTGGCTAAGTAACA
TAGCTCCTGGGGGCTGAAGTGAGGCCTCAGGCCTCCCCAGCTCACACCAGCCACTCCTTCCGGCAGCCGGCAACCCCAGATCCTTGTATGTGACAGGATC
CTTTGGCAGGCACATCCCACAGAAGGGTGCATTCCCAGCCCTCTCCTTACCCGCAAGGAAGAGATTTCTTAAGTGTTGCTTTAACAGGTTGATGCAAAAT
AAATAAACAGAAAGGGAGGGAGAGGGAGATGGATGGTTTTCAGTAAATAATGGTGCAGCRGCCAGCAGTTGGAAGGGAGCTGGTGGGAGGAAGTTTCCCA
CCTAAGCAGTTGTGACAGGAGTATTAACTGGGAGCCCAAAAGCAGCACAAACGCAGCACAGTGAGGACTGCCAGAGCACATACCGGGGCTGGAAAATGTG
TGTCTGTCAAGATAAAATGGTGCATTATGTTTGCACCTTCCCATGAACGGAGCCAAGGGTATCTTTGAGGTGCCTGCTTCCCAGCCCTGGCCAGTTTGAC
TCTGCTTCAAATGAGCACAGGCCTCCACTTCAGGAGGGCAGCCTGCCCTGCCTCTCACTGAGGCTAATAGTTGTGTGCACGTAGACRGTGGGCCCCTGGA
GACTCACCCCTGCTTTTGGAGAAAGGTTTTTATCGCCTTATCTAACATGAGGCTGATTCCTTTTAAGAACACATGTTGACTAGACACTGCTGATGGGAAC
CTCGCAGAGTCATCTTAGGGAGGCGGTGGCCCACGGGTGGGGAGTCTTTGTCACTAACAATTAAAGAAGGGATGGCCCAGGGGAAAATTGAAACAGGGGG
CTGGAGGGAGATGGGAAAATAAACAAATGTCTCTGAAACATCCCCCGTGTGCCTGGCACAGTGCCTAGCCCCTTACATATATATTTTTTTTYMTTCTATC
TTCTCCCCAGCCTTGTGGAGTGGATATTTTTATCCTCATCTTACAGATGAAGAAATTGATGCTCAAAGGGGTTCAGCAGCTTGCAATGTCACAGAGCTAA
GAAGGAGAGACTAAGATTCTGAGAGAGCATAATGGAAATAAAAATGGTGCTATTGAAGGAAGAAAAAAATGTGTTTTGTGATATTTGATAGAACGATGCT
CCTGCTCTTACGTGGGCAAGAGATAAGGCCTTCCAGCCATGTGTTTATKCACTCTGTGGCTTTCACAAAGCACAACGACCTGCAGTATCTCTGTTTGCCA
GTCTGTACAAGCAGACATAAGTGCCCTTCGCTTATCCATCTGAAACACCTTAACTTCTGCAAATGAATAGAGAGACATAAGTGGGAGCGACACAGTGGTC
CTTCTCATGTCCTTSGAGTGATCTTTTCTTGTCTGTGCCATCCCCACCCAGGTATGACTTTATCGAGATTCGGGATGGGGACAGTGAATCCGCAGACCTC
CTGGGCAAACACTGTGGGAACATCGCCCCGCCCACCATCATCTCCTCGGGCTCCATGCTCTACATCARGTTCACCTCCGACTAYGCCCGGCAGGGGGCAG
GCTTCTCTCTGCGCTACGAGATCTTCAAGACAGGTCAGTGTGGTCACACGTAGGGGCCGGGAGATGGGCGTCTTAGAGAAGAAGGAGGGACAGCACCCAG
TGGGCTGAGGCACTGGGTAAGGGTGACAGTGTCATCCAGCTTGAGCATGGTGAGAGGTTCAAGGTGAACCCACAAACATCATGAGAAGAAGAGCCAGCTC
AGATTATCCACCAGCTTAAGGGGGCGGGCTGTGGGCGGGGGGGTGGGGGTGGGGTCAAAACAGCCATTGTTTGTGGTATTAGACAAACAGAAAAACACTT
CTTGAAAGAATTGGATTTTTGTRTGTTTTTTAAAATCAAAATAATCTTCATGGGAAAAAGCAAAACTCTGATGACTTTCTCACGATTACTTCATGGTCTA
ATGATGTCTTTATTTGGAACTACATGGGGCTGAGGACATAATCTTTTCATTGTTTGGAGTCTCTAAAGATCTTGCCATGACCTCCCAAATGGGGTCACAC
CATAGCTTTTAAATTAAAATAAGGTTCCTAGAAATTCCCCTTGGCAGTCCATGTTACCACCTCTGTCCATTGAACCCCTACTCTCTAAATGCCAATGAAC
TTGACTCCCTGAAAAGCAATCAAAAAATAGCAGAAAAAGAGTCAGAGGGCACTGCACTTGCTTTAAGTTGACTGCTTGATTTCCATCAGGTCCCCCTTAG
ATTACTTTAGGGCCTGAGAATATGGGCCAGTGCTCATTTCCAAAACTAAATACAGCAGACTTTTATTCACAAGACCCCGCTTCATCAGCTACACTCAAGC
TCTCCCAGTGGTGTGTCCTCTTCTGTGATGTGTGGAGCTTGTTATCTCGAGGCTAAGGGAAGCATGTCCTCCAGTCCTCCCCACCCACCACCCACTCCCT
TCCTCAGAGGCTCCCCTTCCATCTATGTGTGTGTCTCCCCTCTCCCCCCAGCAGCCCAAGTTTTACAACTCGTGGATGGAGTCTGGTTCGAGGGGAGGTT
GTCAGCCTTGTCATCAAGAGGCCCAAGACCGGCGCCTGTTGAGTTCAGTGTGAGGGGAACTATTCATATATATTTTCTTTTTCACTAAACAGCTCTTGAA
AGGAAGTGGTAGCTGCTGAAAGCACTTTTTATATCCACTCTGTCTAAATATTTGTCGGATTTGTCTGCCCGAGAACAAGAACGTGGAATCAAATGAAGGG
GTGGGGCAAGGGGACTGTGTCATGCAAGAGTGGCAGCCCAGGCTGCTGCAGGGCACAGGTCCCAAGAAGGTTTCTCTGCCTTGGGTTTTCATGCTCCTGA
CTATGATGAGGTCACAGGGGCTGACAATCTGTGTGTCCAGTGGCTCAAGCTGTTGTGAGGCCCCTGAATAGCTTGATCCATATTCCCCTGAGTCTTGTGC
AAAATTCAGATCAATGCCACCAGCACCAGTGGAGCATCCTCTGCTGCCGAGCAGTGGGGAGAATAAAAGAGAAAGAAATAAAAGGGGATGCTTGCTCTCT
TCGGGTTGGAGAGGCAGGTGTGCAAACCCTTTGCACGTAACAGATTCGCAGGTGATGTTATTGGATGAGTATGTATGTAAATTGAAAGGAAAACTATGAT
ATGAGGCAGAATGAATAAGTGCAAAGTAAAGGTACAATTGACATGTGGTGGTTATGAAAATGGGGGAGCAGTCAAGTGGCTTAGCAATCGAGGGGCTCCA
GAGAATCTATTCAATAGCAAGGTCCCTAGTGCTAATGCTGCCACTCGGCTGCACTGTGCTGGCCATGAAAGGAAAACAGCTCCAAGCAAGATCTTCCAGG
AAGCTGGCCAAGGGAAGTCAGAACAAGGGTGAGCAGGGCCATGAAAACTCAGCCTTGGTCTCACACCACCCAACTTAGTATTTCACAAGGCATCATGCTA
CATTCTCCAGAAAGCCACAGGAAAAGTCAATGTTCACTCTATCCATCATGCAAATTTGAAAGGAGGATATTAAAAGATAAAACATGTAAGAGGGTATCAT
AATTCAATATCGCTGTCTTGAGGACATGCTGAAGCAGGATTTCAAATGAAGCAACAAGTCTGTGAACTGCCTAGAAACAATGGTGCCAGCCAACGGAGCT
AGGTGGCTTCAGCTTGGAGAAATGGGGTGGCCTGCTTTAAGGATTGGGGTTGCCTAGTGAAGAGATTGTAAGAGAAAGCCCTGCCAACAACAGCCACACT
CCTGGCAATGTAAGAGAGCAGATGAGAGCCCATAGACTTCTCAGGGCCACTCGTACCTGCCGTCATACCCACCTGCTGCTGGAAGAGCAACTGTCCGCAT
GACAGTCAGTCTTATATATGCCGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGTTGTGGCAGGCGGATCACCTGAGGTCAGGAGTTTGA
CACCAGCCTGGCCAACATGGCGAAACCTGGTCTCTACTGAAAATACAAAACTTAGCCGGGCATGGTGGCACGTGCCTGTAATCCCAGCTACTTGGGAGGC
TGAGGCAGGAGAATCACTTGAACCCAGAAGGAGGAGGTGGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGACGACAAGAGCGAAATTCCATCT
CAAAAAAAAAAAAAAAGTCAACCTTGTATAAAGTGCAGAAATGTGCAAGGGAGCAAAATTCAAAACAGAGAAGTTTAGAAAAATGAGCATTCATGCAGGT
GCCTTGTCCTATACCCACATTTCCATTGTTGGAGTCAGGAGAGAAAATATACAAAGTTTACGTCATCCACAGAACATGAAAGAAATGGGTGGACATGCTG
AAGAAATCCAAACAAACACAGCTATGTTTGCTAGTCGGATTCATAGAGAGGAAGAAGCGGGGGAAACTGTAAACACAGATACGCARATAGCCATACAGAG
GGCTCTAGAAGCCTTCGATGGTACATTACCCTGGTGAGGCTCTGCTGTAGGACCCACAGTGTGAGTGCAGACCAGGGCATGTGGCTGGCGTGGAAGGTTC
ATGTCTGCCCTAAGTGAAGTGGTGTATAAAAGATTCTATATGTTACCAGACTGTCTACATTTAAAAGGGTAAGCCAGAACAACTTACATACTTAAAAGAT
CTCAAATCAAGATACCATGAGCAGAACAGAAACAAAAAAAAAAAAAAGGAATTTTTAAACGTAAAATGTCACATTGAAAACAAAATCAGTGGAAAATGTG
TGTGTGTGTGTGTTTGGTTTTTTCCAGAAGCTCCTTTAACCATAAGTTCAAGATTAGGTTTTCTTTCCTGTTTGCCTGTGACACTTCAGAAACTGACATT
TTTGGGGTCATTCACAGAGGTAGAGAAAACTYGGAGTGCCTACTGCCTCCACTTCCTGAATTCAGGAACTGAATTCACCTTCTGCGGGGAAGGCAAACTC
AGCTTTGGGTAAATCCACTGTGTTTTAAATGTCTTGATACCTATAGATTCTTCTACTTGCAGAGTTATTGTAAAATTCACAGCGGAAAAACAGAGTGGAC
ATTTTTCATAGCAGAGTCTTTTCCTATGAAATCATTCGCTGCAACCCAAATCCCCCAGCTTCTGTAGACAATCTTAGCCTTGAGTGGGCTTGAGTATTTG
TTGACTTGAGTTCTTCGTTTAACCTTTAAACCTTCTAACACATCTCAGAAAAGGATCTTGGATAAGGCAGATGTCTGCAAGAGCCAGCCAGCTTCTGCCT
CCTTTTCTGAGATCTCTTCCTGGCATCTGCTATTCAGCTGCTTTTGTGATGCTGCAAACAGTGAGATGGTACGATTAGAGATGAATGCATGATGTTAACA
GACAGGTTTTATTTTTCTGCATAAAAATAGATAAAACTGGACAAAAGTTTTTCCACCGCCTTCAAAATAAGCCAAAGGATATACCCATTTATAGCCATAT
ATCAGAAATGCTTTTTTCTTTCTTTTTTTTTTTTTTTTTTTTTGCCTTAAGTACCTAAGGTTGAAGTTTCTTTTCAGTCAAATGCAGGAGCTCAGGACCC
TGGGAACTATGGATACTTTCAAATTTCACATTCTCCAAGCCTCTCTTAGACTCACTAGATGTCCATCGTGGAAGCACTTGTGCCCTACCAATGACAGGAA
CCAAAGAAAGATTCCGCCAGAAAATTCCCCACTCCCAGGGGGGTGGACATTCCCCTTGCCTTCTAAGGGAATGACAATAGAGCAAGCTCTAAGAGGGCAT
GTCAGGATGCTCTTTCTAGCTCTCAAGCAAGAAGTGAATAGAGAGTTAATTTCCTCACAACCATGTGTGAGGCTCAGCTGAGTGGCCCGCATGAAGAATG
CTGCACAGCAGCCATAAACTCTAACCTTTTCAAAATTCCTCTTGGCCCCCTGAAGACCCGCCAGCTGGCTTGGCTTTGCTGAATTGCCTCATCCCGGGCC
ATTGAGGAGGCCCTCAGGAGTCYGAAGCCCAATCATAAACAAAGCTGGGGGAGGCAGCCCCAGCTCATCCCTCCAGGACTAGCTGCCCATTGAAAACTCG
GCCTGACCTGCTGCTGCCATGCATATGAATGATGGGGTGCAGAGCCTCTGAGATTCGCTGCTTAGAGCCTCCACAGAACCCATGCAAAGGTTAGCCCTTG
CCCTCGTGTGTTCCTAGTCCCTACCCTGCCAAAGCACAGCACAAGGTGGAAAGTAGGAAGTGATGGATGGATAGGTAGGAGATACTGGAATTTTCTGTCT
GGTGCTGAAGAAAGTTGCAACTCCTCCATCCGCATTTATTTGCATGGCACTTCTTCCAAATCAGACATTTGCCTCTTTCCAGAATGCTGTCATCAATAAA
GAGACTCAATGAGAGGCCCCCTACAGGAGCTGCGGATAAAGGCATCGCTGCAGGCTCAGATCAGTGTATTGACATCACCYAGTTATATTTCAGTGTGAGC
CCCAGAGGACACTTCCTGACAGTAAACACCCAGTTTATCGAGTATTTCTGGTTGGTTGTGTTTTTTATGCTTASAGTGTCTATTATCCTCCTCAAAAATC
CTGCTTCCTTTTCTTCTTTTAAAATCTGAACATAACGAGTGAAATCAATTCTAATTGTCCAGCACTTTCATTCATTGCGTGAATGTGCATGAGCTCGTGC
TTCGTGGGTCCATGGGTCTGGGTTGCAGTGCTCCCGGGACCCATCTGTGGTGCTGCCCTGGCAAATGGTGGCTGGTTAAAGCACAAGGACCCTTTTAATA
TGACTCCACCTAGAGGCATTAAGAGATAGGGTGGCTGTAATCCTCTTATGAGCTCCTGTTCCTGCTCCTGCTGCCATCCAAGCTCGCACCAGGATGCGAA
TGTGTGCCGCATTTAATCAGGATGCCTCCATGCGTCCCAAGAAAGCARACGCAAGAGCTCAGGAGAGAAACAAGGCCATCCACACCACAAAGGAGCCAGA
AGMCTTCCAAATGTCAATGCACTGCTGCATTTTTCCAAACTTGTTGCCGGAGCGGCCTTTAACATCCCCAACGGCCTGCTGTGATCCACCAGCTAAAAAC
ATCGATTGTTAATTGTCCGACCACTACAGAGCAGCTCGTTTTAATATAGTCATGACATGAATGAGACCCAAGCTCCCCTTTGCCCCTCCCCTGAGGCACC
TTGGATCTTGGAGGGAGAAGGGGGCACTTCGTTGGCTGTGGTACAATAGGGGCTAGTGTTGAGGTCAGCAACAAATAAGGGGTAACATTGTTTTCCCTGC
TGGCAATCAGCAAGGCTTCCTTAAGGATTGAAATAACTTACATTTCTGGAGTGAGCAGCTGAGTAATTGAGAAAGAAGACTCTGTTCCTCTTTTCAAGAG
AATCCCTCTCTCTCTCTCTCTCTCTCTCTCTACACACACACACACACACACACACACACACACACACACACTTCTCTGTACCTCCACCCCACTCCCCAAT
TCCTCAATTGCTGCTCTCACTCTAATAATTATGTAGAGCAAGCCAGCTGTGCCTCCCTAATTTATGAGGGCTTGAAACGTGCATGTGAAGAGTATGTTGC
TTCAAGGGCCACTCCAGTAGCAACAAAAACCTCAAGAGCAGGGGGATTTGGGGCCAAACATTTAAATAACCCATGTGACAGAGGCCACAAAGAAAGGCAT
CTTCTTCTTAGTGCTACAGTTCTCTTTTACATACAGGCTCTGAAGATTGCTCAAAAAACTTCACAAGCCCCAACSGGACCATCGAATCTCCTGGGTTTCC
TGAGAAGTATCCACACAACTTGGACTGCACCTTTACCATCCTGGCCAAACCCAAGATGGAGATCATCCTGCAGTTCCTGATCTTTGACCTGGAGCATGAC
CCTTTGCAGGTGGGAGAGGGGGACTGCAAGTACGATTGGCTGGACATCTGGGATGGCATTCCACATGGTGAGTGATGTCATGARGCATTCCTCAGTAGCT
TGGCCTTTGCCTGTTAATTGCTTTAGTGATGATAAAGAGGAAGAACAAAGACTTCAAAGCTCCTATGAGTTCTTATATGACCCATGGTGACTTTCTCTTC
TTCCCCTTCACTAAGGATAGCTTGAGAGAAATTACAGGAAGGCTGTCTACTTTCTTGGAAATATTTCTTTAGAAAAGGATAGGAGACTAAATAGATACTT
GGAAARGATGAGAAAACTTAAAGTGTTCATTTCTACTCCAAATTGTCAGGATAGAAGGTGGCTCAGTGGCTAACCCCTGTGACAAAACAGAAGGACTCCA
GAGCCAGACTGGCCGGGCTTAACTCCCGGCTCTGCTACTCCCCAGCTGTGCAACCTTAGACAAATCCCTTACCCTATCTGTGCCTTATCTGTGTTAAGTT
AGCTGCTATCATCATCATTATTACTATAATTTTAAAATTGTYATTAATATAGTCATAAATATTGAAAAGGTACATCACCCAAGGCTAACAGCCACCAGTA
CTTCGCAGGTRAAGACCAACATGGATCTTGGGTCTAATTAGTATTGGAGAGGAACAAATCTTTCACTTTTGTAGTCATTGTAAGTTTTTTCTAATATAAA
GGAGACTTGATGACTAAGCAAAAAGAGCAATTTCATTTCCTGGGTAAAKCACAAGACTTAGTCAGAAAACTTGGGTTGTAGGCCCAGCTCTGCTATTTCC
TAGCAGTAAGAATAAAGAAATCACATGCGCTCTCCAAACTTCAGTTTCTTCCTCTGTAGAACAGACATTGTAATGATACCTTTCCAGCTCATCTTCCAGG
CCACTGAGAACAGAATGAAGCCAGTGAAAGTGGCCTGTACCTTTTTAATGAAAAAGTGAAAGTGCTTTTTGATGTGCAGGAAAAATATTAGCCATTGTTC
TTGAAACATATCTTTGGTTTTTATGGCAAGATGTACAAAGTGTGCTCCRCTGAATGAAATGCAATGAGGGGAAGGGAAAACGGAGTGAAAACCAAGTTTG
ACATTTTGATTTCCACTGACTTCTCTTTGTCTTGAATGTCCAGTTGGCCCCCTGATTGGCAAGTACTGTGGGACCAAAACACCCTCTGAACTTCGTTCAT
CGACRGGGATCCTCTCCCTGACCTTTCACACGGACATGGCGGTGGCCAAGGATGGCTTCTCTGCGCGTTACTACCTGGTCCACCAAGAGCCACTAGAGAG
TGAGTTGGCCGATTGGGAACCTCTGTCCTGTCCTTCCGTCAGGGCTGTGAGGGTGTACAGGTGAAGGGGGGCTGAGCTCTTATGAGGGAGGAGATGGGAA
CTCTACGGAATTTATGGTGGCATCTGAGTTTAGAGGTGCCCACATCCTCTTGCCAGGAAGAGGTTGATGAGAAAAGAACACATTTCAATCTGGGTGCTTC
TTTCTTTAAAAAATATATATATGTGTGTAACAAGAATTAGTTATTTTCAGGGAAAGTCATGGTACCATCTCATACCTCAGTTTCCTCATCTATGAATGAA
AGAGAGGCTAGTTAGGATGATCTATACAGGGCCCCTCCTGTGCTAACATTTTTTTAGTCTGTGGCCATTTTTTTCCCTCTCAAAATCTCAGGGGCAATTG
TCACAAAAGTGAACCATTTTAAACCTCTCTTTCTCTGGATTTTTTGACATTAACCRTCTCTGGGCCTGGGTAATGTTTTCCTGACTAGATTGGTACAACT
GCTTAGACTTGGACTTCACCCTTCCACCAAAGATAGTTTGTGGAGCTTCTAGTATGTGCCAGGCACCAAGCAAGGAATTAAAAACTATCACTCTGATCAC
AGCTGCTGTGGGACCTGCAGTCCCTCAGCACTGAGCAACATCTTCAAATCAGCTGCTCTTGGACATGTGTTTCAAATATGCTGCCATTTCTACTTAAAAA
CCCAAACGATAACTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCTCTCTGTTGCCCAGGCTGGAGTGCAGTGGCTCAATCTCACTCTTCCCA
GTGCAACCTCCACCTCCCGGGTTTAAGCAATTCTCGTGTCTCAGCCTCCCGAGTAGCTGGAACTACAGGCATGCGCCACCATGCCCAGCTAATTTTTGTA
TTTTTAGCAGAGGTGGGGTTTCACCATGTTGGCTAGACTGGTCTCGAACTCCTGSCCTCAAGTGATCTGCCTGCCTTGGCCTCCCCAAATGCTGGGATTA
TAGGTGTGAGCCACCATGTCCAGCCCCACATAACTTTAAAGACTGAAGAAGCACTTTTAAGAAAGATTCAAGCTGTGGAAATCCTACCCTGATTGCAGAC
AACTCACCATATATATAACTACAGACACGGCAGCCTGGCCTGCAGGAAGGTTGCTGGGTTTTGCATTTGTTTTTTCATCAAAGAGCTTCTGAAGATTGAG
TGACAAAGAAACAGTATGGCAAATTGCACCAGGTCCCGTGAATGGTCAGTGCAGTCACAGAGTAAAGAATAGGTTGATACCTGATAAGGATTGCTGGCCG
ATCTTAGACACATGCACACACACATATCGATCAGTGTTGATGGCATTCATAGAAGGACAGCAATGCAACTGACAGCACAGGGCCAGAGTAAGTGACTTCT
GGGTCTATTTGTCCAGACAGGTGGTGCGGGGGAATAGAGAGTGACATGCATGTGCTCATGGAGAGATTTCCCAAAGACAAGTATTTATGCTTTGTAATGT
CTGTCTTCTGTGCCAGAACTCACAAGACAGTTGAGTGAAAAAAGAAAGAAGCAAAAGTGCCTCCTGGGTGTTTATTAATAAAGCAGGCTTCCCACGATGT
ATGAGCTCACCCAAATCGCCACGAGTCTATCTCACATTTACCTGTATTGCAGTAATGGTGCATCTGGCATCTGTAGCCTGCAGCAATAACAGTTCTTGTG
CTTTAGATTGTATTTTTAATCTGTATGATGATTCTCTTATTTATCCATAGCCTGATTTCTTTTAGGTCCCATTTAGTTTCTCTCAGACCCAGAGGGGTTG
TCAAGCTCCATGACTTGATGTAGTTGTTTTTAAAATGTGAGCATATAATTAGGGTCTTTTAAATGAGGAAGTGCCTGCAAGGACTTGTCCCTAGAAGGGA
GGCAGCATTTGGGGGATCCCGAGGTATGAGGTTGGAAGGCCTAACTGCATTTGACCGTCTGCTTTCCCCAGACTTTCAGTGCAATGTTCCTCTGGGCATG
GAGTCTGGCCGGATTGCTAAYGAACAGATCAGTGCCTCATCTACCTACTCTGATGGGAGGTGGACCCCTCAACAAAGCCGGCTCCATGGTGATGACAATG
GCTGGACCCCCAACTTGGATTCCAACAAGGAGTATCTCCAGGTACTTGTGCAGATACCAGAGGATGTGAGAGTGTGTATGTATTGCTGGGGTAGGAGGGT
AGCTCCTCAAATAYAGTAGGCAGAGGACACAAAGAAAATAAACACAGCATACCTGAGAACTCCATTCATTCATTCATCCAAACAGATGTGTATGCCAGGC
ACTGGGTTACATGCTGGCATACACTGATCAGAGGGAGCCTGCCCCTGCCCTTGTGGGGATTACTGGGCCTGGGGAGAAGTTGTTTGGCCAGGATGCTGTT
TGCCCTATCACTATAGATATCCAAGGAACATTATATAAGCTGTTTGGATCTTCCTCATTCTTGGCACAGGGAGGCATCAGGGACATGGGGGGCATTCTCC
TAAGGGGAGGTTTGTTGAGGTGCTAGCTGCACATGACAGCTTCTCATGATCTTTGCTATTGGAGAGAGCCCTGCCAGGAAGGTTTTGCACAGAGCTATCA
GAAGAACACATAGGAAAATGTCACTACCAGGAACAGAACTCAAGGTGCCCCAGATGCTCGGCAGCATCTCTTCAGACCATTGTTTGCTTTATTCTGAATA
AACCTTGCAGCTCATGTTGAGTAATCTTCCCGCACTGCACACTGCTCCAATTCTCATCCCCTGGGAAGAAGTAAACAGGGGGAAAGCAAGCTACTAGTTC
CACACCAGAGCAGTGACTGCTTTTATGACACACGTAAGACAGCCTTGTGACCCACTGACAAGCCTGTCCTAGCTCTGAGGCGACACAGTGACCTCTGCTC
TAAGAAGGATATTGCAAAGCAGACAACAGGAAAGGGAGAAASACCACTTAGAAACTCCAGGGAGTCCACAGAGGTTCTAACAGTAAGCCCTGGGGCCATT
TGTCATTGTCTCTTCTCTCTGCCTCTCCAAAAATCCATCTCCTCGCAGCCTGCAAAACTTCCAGAAAGTTCTGTATAACTGGCATCCCCTATCTTTGACC
TTAATCATATACTTTCGCCTATTGCTATCCACCTGTTTCTCATACGTGTAGACAGCACTATGTACTACTTATTCAAATGTTTAGTAATGCTGAGCACATT
GTAGGTCACCAATAAGTGCTTACTGAATTGAATTTAGCCAGTGTGTGCTAGCTACATTTTGGTCATATGGAGACTGCCATTAAGAAACACCATGGCCATC
AAAGGAATGACATCCAGCAATTTCCAAATGGGTTTGGCATTGTGGGAGGGGAAGTACCTTAAAATGTTGGCCATCCTCCTCATAGAGCAAAAGGTCAGGA
CTCGGTGCATAAGCCTAATTGCTTGGGCAGACTCTACATGCCCTTTGACCCCTTAGTGACCTGAGCAACTAAATACACAATGGAGCGAGAGGGTGTGGGG
AGGGGATGCCTCTATGAGTGTGACTTTTGGAACTAGGGCATTATAAGTGAGTTGGATTGAACTGGACAGGAGTAGAGTGGAGTAGATTCAACCTTGTTTC
TTTAAAGCAGCATCTGCTTCCACAGTCCAAGGCAGGCCATCATTTACTAAGAAGGGATTATAGCTCTAGATGTTCAATGATTGAGAAAAATCGAGTATTG
TCCCTTCATATTTGCAAAAGAGAGAAAAAAGAAAAATAACCTAACTTTTCAAGGTGTCTGATTTAGTGTAAGATAATGTGAGTTTAATCGTCCAATGGAA
TTGCAAACTGATACTAATTACAAGTATGTCTCAGTGAATCACAGATACAGGTTGGAAGCRAAGTCTAAYGATTGTGTCCTTTGGAAAAAAACAAGACACT
GCCCTGTRTTGGGAATGGTGGTCTCTTACTCCAGCCCTCTATTCCCCAGGTGGACCTGCGCTTTTTAACCATGCTCACGGCCATCGCAACACAGGGAGCG
ATTTCCAGGGAAACACAGAATGGCTACTAYGTCAAATCCTACAAGCTGGAAGTCAGCACTAATGGAGAGGACTGGATGGTGTACCGGCATGGCAAAAACC
ACAAGGTAAATCCATGATCCTACCTTAAAGGCACATTGGACCAGGGCAGGAGGGATGGGATCAGGGGAGCTTTAAGCCGACCTCCTACAGGAGAGAGGGC
CTTGTGTAGTCAGGCTCAGATAATTGATGGAGGCAAGGGTCGTGCTGGCCTTGAAAATCTTCTCTCTTAGGCTAAAGCGATTGGAAAACACCGTTTCTCT
GACAGCCAGTTGCTGTTGCATCTTGCGCAGCAGAGAGAGAGAGCTTGCAGAGTGTTCTCTGACTTCAAATGAAGGAGAAAATATGTCCCCAGTCCACTTC
TCCCCACCCAGGATTCACTGAACATTTATGGCCTGAGTCCCTTCCACATGCTGGGTTAACAATCACAAAACCACATGATACTATAGTTCAGGAGTTACCG
AGCTCTGGAAATGAAAGGGCACAAATCCTGAGAGGGAATCACAATGTCCTGGAGAAGAAAAAGGACAATAAATAAYGAGGAGAAATTCAGTTTGTTGGGG
ATGGGCTCTGAACTGGCAATCATGCTTAGCGGCGAGGCATTGAATTCTCTCTGCTGGTGCCTCCCGCATCTGCGGCTCCCGGAGGTGTGGTCTGTGTGGG
TGATGTGGGGCTTTTGTTGTATACATATGGATGAATGTCTGGCACTCCACTTTCTTAAGACATGACATTCTGGGTCTGCAGCTGGCACAGGCGATGTGCT
GGCTCTATGTGTATATACACAGCACACTCAGCCCATGGGGGCTTATTGCAAACAGCCAGGGGCTTGTGTGGGTAGGATTGGGGTATCTGTGATGGGAACA
CAGGGCACGATGCCCCCTGCAGAGCAGGAGCTGGTGCAGAGGTCTGGAAGGAGAGTGTGATGTCYGGGGGATTCCTAGGGGCTGCCTGTCCTTCCCTAAA
AAGGAGGTAGGGAGGGAGGAAGAGGGTCTCTCCTGTAGCATTACAGTTCCACCAAGCCCTGGTCTGTCAGAGTGTGAATTATCAAAATGGGGCACATGTG
GCCAAGCCTAGGGAGGCCAAAGATCTTTTCCAAAGGGAATCTCCTCAGCCCCTGTCACTGCCCCGAGGCAGCTTGCTCTGACTGGTGCAGCTGGAAACCT
CAGACCCAGAAAATTCTGAACTGTGATGTTGGCAGTCTCACTTGGGAAAYGGGAAAAGGAGTAGATTTTTAAAAAATCAAAATCACCATAGTAACGGGGT
ACCACTCATCTGAAAACCATGGCTTCTGGATATTACCAGGTATCTCACACACATGCACACAATTGCCCGATTTCCACGATAAGGAAAGTGAGGTACKTAG
CAATTGAAAGATGTGCCAGGCCAGGTCTGGTTTCCCACTGACTTGGTTTCAGAAAGACTTACCAAGCATCCGTTGKGAATGCCCAGCCTGAATTGGCACT
GGGTGCCAGGAGCTTGGGGGCTGAGACCTGGTTCCACCCCACCCTTTTCAATTATAAACCGGTAGATCTCGGAAGCTYAGCTAGCAGACGAGGGCCAGAA
GCCAGGCAGGGGTGGTCCCCGGGGAGAGGAGYGGGGCTCACCTGATTGTCTCCCTGTCCAGGCGCAATGACTAAGCAGCACAGGCCCAGAGGGATACTGT
AGCATAAGCTGTTTTAAAAGCATGCAGATGGACCAGGATGCTATTTAAAACATCATTTGTAGGAAATCTGCTTTTGGAAATACCTTAGCACTGCACATTT
TCATAGAATGCTGTCCTCCCTGGCTTTATCCCTGGTATTCATTCTTCAGGAAAGATATTCCTGAAATTGAATTTAGCTTTCTGGTTTTCAGAATTATTTT
TCTCAACTTTTTCATAATGGATATATTCTCTCTCTTTTGCCTCCTCTTTCCCCACTTGGCTAGATTTAGTTCCCCAGCAGCCAAGGGGTAACTTGAGAGT
TTTTTTGTTTTTGTTTTTGTTTTTGTTTTACTGAATTAGTCGTGCCCAAATAAATGGAGTTGGGGCAGAGGAAAAGCCCATTCTCTTCCCCATTAGAAAT
TCATCCTTTGTGTACTTAGAAGGAGGCAGGAAAATGGAGAGCCTGCCAATTAGGCATCGCCCCACTCTCCAAGCTCCTTCACCCCACTGCGGGTGTGGTG
GACGCCCAGGGGCTTTCCTTGTCTCCCCTGCAAGGATGGTCTCAGCTGCCCCTTCATTAGCAGATCTTTCGTTCAGATATCTGTATTTAATGTGCAGATT
CCCCCTCATTCACGGTGCGTCAGCGCAGCTCTCTGGGCTGTTGGGGTTGAAGTAGTTGAGTGAACCGTGCCAAATAGATTTGTCAAGTCTGCCGCAGTTT
GATTTGATGCCATGGGGGGAGGTGGGGGTTGGGGAGGGACTTGGGGGCAGTGGAGGAAGAGGCTTCGTCCATGCCGAGTGCCACCACTGAGTTTCTCTTT
GTAGCTGCTGGATGGTGGGCACTGTGCCAAGCTAACTGGTGCTAAGTGGTGGGCTTGAAAGTGAAATTCAGACAACAGGAGTTAGCAGAAAAGCAAAGCA
GAGATGAAGGCAACCGCCTGCTCTGCTCTGCTCTGCTCAGAGCAGAGGGAAGGTTTGCAAATGCCTTCCCGGYGTGCAGGGAAGGAAGAGGGAATAGTGA
CATTTGGGACAGAAATGTGGGAACTCGATTTCAACTCCCTGGTCACTGTCAACAGCAATGCAGCATACCAAAGACCAGGGAATTGGGGAAGTCAGAGAAA
AACAAGTTTAATGAGTGCTCAAGGTGGCGGGGGAGGGCTGTCCTATGTCTTTGCAAAACACTGTTTACAATGTGGACCCAGACGGGGCTGAGGCAAGGCC
TAGGCCTCTGAAAGAATGCCTTCCTTTTTACTGCCAGTGGGTGAGAAAGACTAAGGAACTCTTTTCCAGCCTCCCCTAGCCAGGCAGCAGCCTGTTCTTG
GTCTCTTCCCATCCAACAGGTCATCATGAGGTCGCCTATGAGAAAGTGGTCAGTCACACTGTTGCTGGGGCATTGCAAGCCTCCTCCTGGCAAACGCAGC
CTGGTTACACAGGCCACATGCACAGCACATCCCAAATCTTTATCYAATTCCACATGCCATAAATATGGAACCTATGATTCTCATACAGGGTGGGCCCGCC
TTATGTATATTTATGGCATAACCACAAGGCAGAGAGCTCATCTGCCTGATGGAATCCATATCCAACCCACRTGCTCCTTTAGATTATACAAATTGCTTTG
CATACATTTCTTCAGAAACCACAAGCAGAAATTACTGCTTTTGGTTTCCCCAGCTATATTAATAACACCCTAGATGCAGACATGGCATTGTTAATACAAC
AGTAGAAGGTTCATGTATGTTTACATAATTATAGGCACAATTATGTACATACAYACCAAGAAGGGCGCRTGGAGAGCAATGGGAAGAGCTCAGAGGCACA
AGGTCTTGGTCTAGTTCCTGCCCTCCTGAGATGCTGATTCCATGATTCTGCACTGGGGATAGGCTGTGCCTCGGGAATGGAACCACAGCTGGTGACAGGA
CACGGGGGAGAGAGACTACTGCCCTTATTTGTCTAGGCAAAAGCCCTTATCTTCAGTTCCCTCTCATTCGGTAAACGTGGGGATCTCCCTTGTTGACACA
GCTCTAGTTAGTCACAGTGTTTCTGGGCTATTCTGATGCATTTGGAAGAAATTTGGGCTAAAAGAGAAAGTCTGTGGGGTGCCAAATGCACGCTATTGGC
CAGATCGAGGATGGATGGGTGAAGATAGGGATGAGGTAAGACTTGGGTCCAAGAATTTTCAGAATTACCCCACCAGGAGTGGAAGGAATGCACTGAGTTC
ATCACATTAATGTAAGGATGACCTCCAAGGGACTCAGAAAATCCTCAGGCACCAGCTTATTCACTAGAGTATTTCACAGAGTTTCACAACTGTGGAAYTG
AAGCTCTTAGAGATTAAGTGCCTTGCTGCAGGGACTAGGAAACTGGAGCCTGCATGGACGGCGCCTGGTCACCAGACTTGGATGTCCAGACTGGCGCTCT
CCACAATCCGCCCTAGGCCTTACTCTTCATCTTGAGGGAAAKTGGCTTCCTACATGTTCAGTCCAAGGACTGAGAGGTACACATTTTCCTGGAAAGCCTC
CTCTTCAGTGAAGTTCTGCATGCAGGATGAGCCTGTACATGGCTTAACCCACTAGGCTCATTATTGTGGAGCTGGGCTTCACCACAGAATCATGAGGATG
GAGAGTTGAAAGGAGTTGCCATTTGTTTGATTTGGCCACATCCCTTCAAAACAAATAAACACTCCACTTCAAAAATCCTCTATCCCATATTTATTTTCTA
AATTAAAACAAATCATTTTTAAATCAGAGACTTGGGAGGAGAGAAAGAGTGGTGTCAGAAAACCAAACCCTCAAATCAGTTGGCTAACAGCTAGAGGCAC
GTGATGTCTATTTTCAGATCTTCTTAAACAGGGCACCGTGTGATCTTGGAAACATCTCTTAGTGGCTGCACGCCTCAGCGTTTCCACCCAGTCCAAATGG
AATGGCGCTGCGGCTGCTATCGGCAAAGCACCTTGAGATCTGTAGATGGAAGGCTCTCCGCGGATATAATTAATGGAGTAGACCCACAAAGCTCTTCTTG
AGCAGAAGCAAGTTATCAATTTAAAAAGTAAGAAGGCCCCATGGGATATTTATGGGCCTCTTTTAAAATCATAGGCCTGGAATGGACCATGATAAGTCAT
CCAGACCTTTCCCTGCATCTGATGGGGCCTGCATTGAGCTGCCTCAGATAAATGTCATCCATCCCAGCCTCACTGTTCTCTTAGGGATGCAATTATGCTT
CTACTTGATCATTTAAGTTTTCAGGAAAAACCTTTTTTTTAAAAAAACCTCCTGGCAGATGATGGGCTTCCCCTTATTCCTTTTGTGGTAGTAATTTTGT
TTGTTGAATATGAGATGAGGACAATACCTCACACTGTAATGGGCACCAGCCTTCAGAAGTCATGTTGYGTGTGCTCTGAAGGGGGCTGATACCCCTTCCA
AGTTCAAGTCCCTCAGTTTATCTGACCCTCTCAATTATAATGGAGAAGGATCCAGTGCCCTAGGTAATTAAGTTTGTCCCTTATCCATTTGCCATGGGAT
GAGSTCAGACCTTTAGCCTCTCCACTTAGGAAGCTCAGGGGAAAATTTCATTATACAGAAGCTTGAACCTTTTCTCTATCAGGCTCCCGCGGCCAGCGTC
ACCCAGCTCCCGTGGGTGCTGAACTGTCTCCAGTAGCTGAGGCGCGCCTCCCTGGCGCTGATAGCCTTGATGTTAAACTCCAAGGCCCCGGCTGTGCACA
GARGCCAGTGACAAGGAGCACACAGAGGGGATGTGGAAGGGCGCTGTGATTCTGCTTGGGCTGTGGAATCATGTTCCTTGCCCCAACCCCAACTAATGTA
GATGAGCACTGGAGTGAAGCCCTCACCTGGTAGATTGTCCTGCTCTCTGATGTCACCTTGTCCCTGCTCCGGTTTGCAGAGCCTCCACCTGAAGAGGCAG
GCAGGTGGCAGAGGTCTCTGGAACCTCACTCCCTGTTCCCTCAATCTCTCCCCACCTGGGAGTTAAAGGCACCTCCTTAAGAAAACCCAAACATCTGTGT
TAGGAGGTTTCCAGGGGTGGAGGGCCCACCCCACCCAGCTAGAATGTCCTAGAATGTCCGAGTTTCTCCTTCCCTCYTCCTAGGACATTGACTGTTCCCC
CCAAGCCCGCTCATTGCTCTGATCCTGTGCTCCTCCCCCGCCTGCTCTTCTCCAGCCCCACCCCTGAGCTGCCCTCCTCCCCGCTCCTCCCTGATGCGTT
CCTGTCTCAAATCCTGAAACCCTAATCCTGTTAGTATGCTGTGTTCCAGGCCTCAGCGTCTCGATGGGGGTAACATAATCCCGCAGTAAATCTAGCGGGC
CCCGCAGGCCCACACAGATGGGGATGCGCACATCCCCGCCCCCCAGAACGCAGCCGCCCCTGTGCCTCTGTCTCCTCCTTCATGTAGGAAAGCTGCCTGA
TGACAAAAACAGCCCGAAAGTAAAGGAGGATGAGAGCAGAGGTCATCAGAGTCCTAAATGTGCATTTGGTTGTTAGACAGCTTCTTTGCCTACCGGCATC
CCTACCTTCTCTTAATCTCTCTCTGTGTTTATATATATATATATATACATATATCTATGTAAAGTATACACGTGCACACACACACACACACATGCCTCTA
ACTCTATATCTGGCTAAGTTCCCACATCCACTAGAATGAAACAAGCTTTAAAACAAGTTTTTAAATTGTCTTTAAAGGGGAGTTTTAAAGGAGAAAGATC
AGGACCATGATTCACAAACAACAAAAAAAGCCCATTGCCTTCATATCATTTCCCACCGCCCCCCCCCACCCCGCATCGCAACAGTTCCCTCCCCCTACTT
GACTGTTTTGTGCAACAAATTAATTAAACAGGATGGCATTCATTGATTAGCAATTTATTTTTACGTGTAGACCCAATGGCTGGTTTCAGAGCAGATGCAA
GGGAAGGGGGTGGGAGAGGGAGGACACACAGATCTGCAGTCAGGGTGAGCGGATGAGTCAGCACATTTGTTCCTGACACTAGTTTTAAAAACATGCTTCT
GGCTTCCCCCAGCCTCTGTCCTGCATTCCTGCCACTTTTCTCTTCTGCCTGCTTTGTTTTCCYCCTTCTTGAGTGTCTGTGCCAAGTACATTGAAAGGGA
GAACTTTGGAGGCAATGAAACATTTATTAGTGGAGAGAAATATTTATTTTAAAAAAGAAGAGGAACATCTCGTGCACAATGTCTACCCCAGGGCTCCAGC
ACTGCGCTGTCTTGGAAATATTTCCCTGCTTTCTTTGCAGTCCCTGGAGCTGGCTGACTTCAGATATTTACAGCAAAATAGAAGTAAACAGTAGTTCACA
CCATAGGTAATGAAGAGATGGGAGTGTGCAAGCTGAGTGCTGAAGCGCTACTCACATGAGAGGTGGTGCACGTGAAGAGAGACTGTTTTTGTACCCCAAA
GGGCCCGCCTCATTTGGGAAGGGTGAAACAGCCAGCCGTGTCTCTCCTCCAAGGAGCTCAAAGACTTGGACAGAATCTTCATCTTAGGCCCCAGAGGCAG
GCATGATGACAGGTAGCATCTACACTGTCCTGGGCACATGGGTATTGATAGCAAAGATGAATGGTATATAAGAAAAGGCTTTAGGCTGGGCAGAAAAATT
CCTCTGCCTAGAGGCCTAGAAGGTAGGAAGGCTGCAAAGCTCACTGTCCTCAGCTATGTCAGTCACTGCATATTCTTCAAAGACAACTTAAGGAGGGGTC
AGCAAAGAAGAGGTGACTGTGACTAGAAATGGGGTGGGAAGCAGAGAAAATGTTCTGAGATGGCCTCAGAAACCATCAGTAATGCGTTCTGGCTGGATGC
TTCTTATTAGATTTTATATATATATATAATTATATATATAATGTATATTATAGAATATATTCTATATAATATATAGAATGAATATATTCTATAATATATA
TTACATTGAATTATATTGTCCATGCCTTGTGGACTCACAGGAATGGTCAAAATGCACTGATTTTCTTTGCCTGGGAGTGTAGATAACAACCAAACTGGGA
TGCTGGATAGCAGCTGATTTAATTGGCAGGTCCCCCACTCCCCTAGAGGTGCAAATCAGAAAATCCAGGAAATGCTGATGGTTTTCAGGTTCTGGGCTAC
TGAAAACAAATCAGAGGTCTCAAGAATCAATTGAAAAATGCTGGATTATATTCAGAATTCAGAGAGGCACCCAATRGATTATCCAGACCACTTTGTGCCC
TGAATCGCTTTTTAAACTTGGTTTGCAGAGATGCACTTGAAGAAATCTTTATGTTCAACTTAGCTCTTTTTAAATACGCACACACATATATTTTTAATAA
TTACAACATAATCAACACTAGCATCAGAAAGCTAGGGTCACCTTGAACATACTTGTGATTTTCCTTTGGGTAGTAAACAACCATACTAAGATCTTTCTTT
TAAAACAAATAAAAAGTGGGCCAGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGAGAGGTCAAGGCAGGTGTATCACTTGAGGTCAGGAGTTCAA
GACCAGCCTGGCCAACGTGGTGAAACCCTGTCTCTACTAAAAATATAAAAATTAGCCAGGCTTGGTGGCGCATACCTGTAATCCCAGCTACTAGGGAGGC
TGAGGCAGGAGAATTGCTTGAAACCGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAAACCCCATCTC
AAAAATAAATAAATTAAATTAAATAAATAAAAAATATATGTCCTCTGTGACATCCAGCTTCTAAAGCAGATGTTAACATTCCTATCTGAGTATAACATAC
AAGGCAACCCACCGATTTTTCTCAGATACCTCACTGCAAAGTTGTCATCTGAAAATTGTTGGCCTGAAGGTGGGACTTGGGAGTAGTCGTGGCTTTTGGA
ACTTAAACTCTCCCACCTGTGCAAAGACCCACTTGTTACTTGTGACCTGGCTTACACGCTAACATTTGTCCTGGGTGCTATGCAAGCCTTGGAGGGAGGG
CCAGTAAACTTAAGTGTCTATCTGCAAGCCTATTATCGACTTTATTTTCCTGAAGGAGAAACCAAGGTATCTAAGGTTTATTGATTTGCCTATAATGATT
CAGTGAGTTGTCAGGGAATAGGGAATAAAACCAATTTCCTGGCGTCATTTCCCATGCACACAACCCCTTACCTTGCAATGCCTAGACTGGAAGCCAAGAA
TCCATCTCAGTGAATTTGATCAGAAAACATATGAAGGGTGATTCTAAAACCACAGAAGCATTGAGAAAGTCATAAAGATGTATAATATATGATAGCATTT
ACTAGCTATAAATAGGGGAGATGCAGGGAGAAAAATAGAGACCTTGTAAAMCCATTGGGTCAGGATAAATAGAAACTGCTTAATATTTCATTAAAAATGG
ATTTTCATAAATTGCACTTTGATATCTTTGGGCAAAAGACAATATGTAAGGACTAAGGCGTTGTTATTCATTACTCTTTGTTATTAATAATTTGAACTGG
TATTGAACCAACACATCAACAAGGTATAGTCGCCCTGTGAATGGGGCACTCCCCATGTGTTCTGGGCACTATTCAAAGTGTATAAAAAGTCCACAGCCAC
CGTCTGCAAAAGCACTTAGGCTGTAAGGGACAACGGGTAACTAAAGTGCCCTGTTGCAAAATGGACACTGTTAGAGCAGTTCAAACCACAAAAAGTCATG
CGAAGAAAGGTTTAGAAGCAGGGGACCAGAGAGAACCCTACAAATCAACTCATACAATCCCCTCATTTAACAGAGGAGGAAATTGGGGCCCGAGGGAGGT
AGAGATATTTGCCCACACTTATGAGCTAATTAGCCGCAGAGCACAGCTCCTGGCTTCTGATTCAGTAGTGTTTTGTRTGTGTGTGTTGTTTTTCCCACTA
TACCACACTCAGAGTGAGAGGTGTGTTAAAAAATCTAATAAGATGGTGTTCCTTCACCATCCAAAGAACAGAAGGCAGATGTGAACACAAAGTCAAGAGC
AGACAAGAAAACAGTTCAGGAACTAGGCTTGGAAACGTGAAGGGTAATTTGAAGCTAAGTTGAAAAGATCCTTCATTTGATTCAAGGGTGGGAGAAGAGT
GGGCAAAATGAAAGGGCAGACTGAAGTTCAATTGAAGCAGTCAGGTAGATRGCCTAGGGGACAMAAACTGTGTGCTTGCCTCCCTTCCTGAGTGGTGCTA
CTGTAAGCAGAGATTAGGGGGTTCACCCAGAGCCTGTGGCCACATGTATCCATGGGAAGACTGACCCCCTCCCTCAGCTCATACATGCGAGTGCGTGCAG
CCCATGCCCATGTGAGCCACACTCATGCACACACCGCCATCCCAMAGACAGTCCAAATACACAATCATTTACTCATTGAGGAAAGAAAAGGTCTCTTAGY
GTTGCCTGCCAAGGCTGAGAAATGCAGGGGTCGGATAAGATAAAATTGGATATTAACAACACATAAGACATGCTGTGTTTCTAAACGGTACCAGCGTGGT
GTGTATGCTGTGGATTAGCGGCAGTGTTAAAGTTCAGATCCACTCAACTTTCCAATTATGCATTCACGTGACAAGTAAAGCTTTTTTCACCCAATGTGAA
CTCCTTAGCGTCTCCTGATGGCGACCACACACACAGTCCCCATCACCATCTTCAGAGAGCAAGCCAGTGGAGGCCCCCCTGCTGCTGCTCACAACACCCA
TCCGAAATAAGCAAAGTGCTGCATTTGCTTCTTCCTTTCCAAAACAAAACAAAGCAAAGCAAAACAAAACAAAACAGAAAGCCTCTGCCTCATGCTGAAT
TCTCAGAGAACTGATGAATCTCTTTTCTTTGGATCCAGTTCCCCATCCCTTTCCTGAGAGCTGTGGAGCCCTTTWTCAGTACGAAGGAAGTAGGGTCAGT
CACCACTCCCCTTGGGCCTTCTCCAGGGTGTCTGGCCCTAACCYTCTTTCCTTCCCTTTGCTTGGCTTTTCTCCTTCCCTCGCTAACTTGGTCTTCTCAC
TCCTTCTCATCCACAATCGCTATACAGGAAGCAGCAAAATCAAACCTGGGAGAGAGGCATGACTAACAAGTTCTTTCCCGGTGCTCCCTGCTGTCAACCT
TAGGACCCGGGTGGGAGGACTTCCCAGGGGAGGAGAGGGAGCAGCAGGCTGGGTGCKCAGGGGGCACCCCCAGATTTGGTGGACTTCGCACCAGATCAAT
GGTTTAAACTGAATATGGTGGACCAGCGAAAATCTGCTTCCCTGTTTGTCTTCAGCCAGCCACTTCCCTTCATTTACTTGCAAAAGGTATGGTGTCTTCA
GTGGTGTGTTATTAAATGGCTCTAACTTTTAACCTTAGCAAGCAGGAAATAGGGCTGTTAAATGATGGAGTTCACAGTTCATGGGGAAGAAAGGACTGTG
TTGTCAATTGGCTGTAGACTTCTGTGCTGCTCTTTGCCATTACTCAAAGCCATTCTAAGGTGGGATTATAAACTCACACTGGAAACACATCACTGGACAG
TGACTCTACCTCCATTCAGCCCATGCCTGGAGACTTTAAGGGCCCCATGACTCCCAGCCACCAGCATAAACACTGCAAATGTGTTAGAAGAAACTACAAG
CTTAAAACCTAAAAACTTGGCAAGGATGTTGGATCCAGACAGGCATCTCTGAGCCTCAGTTTCCTTATCCAATGAAGTGGAGATAAGAATATCTACCTTC
TGGGGTACTATAGATATAATTGTTTATACTCAAAGATATTTTGTTGCATCTGGCTGAAAAGTCTTCAAATATACCAGTTTCCCCAGTTCTCTTGTCCCAG
CCCTGTTGGTGCCCCCAAACACTTGGCATGGTCTGAATATCAGGAGCCGAAACATCTAGTTCTCCTAAGCAGGAGAAGTCGCTGATGGTTGCAGAGTTGG
CTGTAAGTAGATTTACAGAGTCCCTTGGTTGTTACAGCTATGACAGAAATGATTTAGAAGTGATGSTTGGTTAGTTGGTTTTTCCCTCTACCCTTATTCA
GGAAAACCAAGGGAAACTCACATATACTTTGCTCTAGTTACTTTTTTTTTTTTTTTTTTTTGARCAGAGAGCACAAAAAAGCATAAGGTCCATATGGCAG
TTATTGATCTGGGCCATCTGGAAAGCCAGGACTTGCTCCCACCATGTAGGATCAGAAGCTGTTCCAAAAAGCCTTCCCTCCCATAAGAGATGTATTGGTC
AGATGGGGACAGGGATGGATTTCATTACAGGGCRGGACTACAGTGAGAGGAAGCTGGAGCAGGACTCTGAAGGACTGTCTGCAACCCTGACCCTGCCACA
AAGATCAGAGAGAACCAAGAAAGTGTTGATTGACACAGGGCCATTGTAGGTAGAGGGTGCCCCTCATCATCTTGTCCGCTCATGGGTGGGATGGCATCAA
GTAACTAACAAAAACAACCGTGAAGCACTTTGCAATTAGAAAATGCTCTGCAAATATTCCTAGGTGCCTGCAACATGAGGAAGAGGGAGTGTCAAGTTCA
AGCTAGTGAGTGAGGTCTGGTAGCCCTAAAAGATGATATTTTTACTTCATTTTAAACAGATATTCTACTTTTCTCTTTCTTCCTTAGCTTCTCAAGTGTT
TTCCTTCTTCTGCCTGCTCTCAGCCTGGAGGCAAAATTTTCCTTCCCTCTAAAAGTTTCTGGGAAGACCACTGATAATTTTCAAGTAGAACAGTGTGAGA
AATTAATTTTTTTTACAGTGTTTCTTTAAAAAGCCCAAAACAACATACCCACTGATTATTTTTAAGCTTGAGGGAAAGAAAATTTGACAGAACTTTCCCA
TCCCCTTCAAAGACKGCTCAAGTGGCTGAACTACAAACAGGGGTTTCAATAACATGGYTTTGCATCTTACGCTACAGGTATTTCAAGCCAACAACGATGC
AACTGAGGTGGTTCTGAACAAGCTCCACGCTCCACTGCTGACAAGGTTTGTTAGAATCCGCCCTCAGACCTGGCACTCAGGTATCGCCCTCCGGCTGGAG
CTCTTCGGCTGCCGGGTCACAGGTGAGGTGGGGGCTCCAATGAGGTTGGGGTGCTGATTGAGCCCTAGGCTCTGCTCCCTTTCAACTCTCTGCAAACAGC
ATGACTGCACCACATGACCTTCCCAGAAAGACTGGCTCAAGGACTCAAGTCCTACCAGAGTTTGTCTTTTCATTCATTCATTCAGTATACATTTATTAAG
CATCTACGATTTCTATTAATAGCTAACATTTATGGAATGCTAACTAGGTACAGATGCCATTCTAAGCACCTAAGATGTAACATATTTTATTATCCTCATA
AGGACTCCATGGGTATTATTCTCCTCACTTTACAGATGAGGAAACCAAGACTTAAAGAGCTAGGTCACTCACCAGTAAGTGGTAGAGCCATGRTTTGAAT
CTAGGCAGTTCCAGTCCAAAGCCCTTGCTTTCAAATAACACTCTCTGCTGCCTCAACYGGGGGCCAAGAGCTGTGCATGGTGCTGTGGACACAAAGGTGG
GCACAACAGACTGTTCTGTGTGGGCAYATGGACAAGTTGGGCAGACATACTGATAAACTCATAAATAAATATAAAATCAAAACTATGATCAATGTCTGGA
CATAGAGGCTTATGGTCCTTGGAAGTACATCGTAGGGGATTTGACCCAGCCTAGGAGCTCAAGGAAGACTTCTTTRAGGAGGTGATGATTGAGGTGAGGT
TAGAAGGCAAATAACAGACATTACCTGGTGAAGAAGGGAGGGAAGGTGCACCAGGCAATGGTCACAGCTTTCTCAATGGCACGGTGGCAAGAGGGACCAA
AAGAGGAAGTGAGGAGCATGGACACAGCTTGTGGGCTGAAACCCAAGGCATGTAGATTGGAGAAGACCAGAGTGGGAGTTGGGACATTATAGGAGGCAAT
GCAGGGGGTGCAGATGGGAGATGATGATGGCTGGATTAGCCCCAGAAATTTATGGACAGACCAATCCCCTTTATCTTGTGGGCTCAGCCCAGGGCAGGCA
AGTTGCCTCTTTGACCTGGAAGTGTCTTCAGTGTACATCCATCCACGTGCCTTTCCCCTAATCATTCCAGCTCTGACAGGGAGTGCTCCAAGGTCTGACC
CTGTTTGAGGTTTCTAGTTAAAACACCTTGTGTTTGTACAGTCTCTGCATCTCCACATGCCTTTCTTGTTTATCATCTTGCCTACACTTTCTAACAACCC
TGTGAGGTAAGGTGGGCCAGGGACTGATAAGGAAACCAAGACTCAAAGAGGCTAAATAGCTTGCCCAAAGTCATTCAACTAGGAGGTGACAGAGCCAGGA
TCTGAACCCACGTTTTCTCAATTCAAATTCTCTGCTCTTACCACATTTACACAAAGACCCATTTTCTTCTAATGGGATCAGTTTATGCTAATCCTGTCTA
GGGGACTATTTTCTGTCCCTTCCCTGTTGCTGTTCCAGGATAATCAGCAAAGATTTAGGTAGAGGTCATTCTCTGGAAGATTGAAAGGAGAGAACCAGTG
ATTTTGAAGAAGGGGAACAACSTGGAGGATCTYTTTTATCCATAGCTCAGTTWGCAAGTATGAAATGCACATTGACTATAGACCCTGCCTTGCCTGACAT
CATTTATTCATGCATTCTCCACTCAATCATTTGTTCCACACATCTGATGTGCCAGGCACACACTGGGAATGGGACATAGAGACAGGAACAAAATAGATGG
GGTCTCTGACATCGTAGAACTTTCAGGCTACTGAGCAAGATAGATAATAAACAAATGCAAGTACTGGATAAACTAGAATGTGCACATGAAGGAAAAGAAC
AGGGTGCTCTGAGGGAAACCAATTTAGTGAGGATTGAAAATTTGGGAACAGCTTTTCTGTGGATWTGACACTTGAGCTTGGGGGTAAGAAAATGTTAGTC
TGGGGGTGACTGAAGGGAAAAGCATTTGGGGTAATGGGAACAGCATGTGGGAAGGATCCAAGRCAGTAAAGAGCAGTTATTTGGGAAGTAAAGACCTGAT
ACTGATGCCAGGAAGGTTTCCTTCTACTTGGCAAAACAATTACTAGGAAATAATTCAATGTTTAGCTCAGTTCCCCTGTTCTCAGTGTCCCTGATAGGGT
CAGTGGGGACTAGTGTCATCGACAGGGATGTGCAGACACACATTCTGAGAGTCCTTGGTTAGAGCTGTAAGCACAAATAGTTAATGGCCATTGGATACTT
AAATATGCCAGGCACCATCCTGTGAGCTCTTAGTAACTAACAGAATCCTTGCAACAGCCCTCAAGAGGTAGGCACCTCTATTAGCTCCCCTTTAGATCTA
AGGAAACTGAGGCAAAGAGCAATTAAATAATTTGCCCAAGGCCCTCTGACTAGTAAGTGGCAGAGTGAACATGAACACAGGCAGTCTAGCTCTGAGTCCA
GGCTCTTAACCACAGTGCTGTACACATTCACCATGCAAAGAAATTAGTGCTGACTTAGTATTTGACAGTTGGGCTCTTTTGCAGCTCCCTTCTTATAGCG
GGTGGTCCCTGGTTAGCAGGTGTCAGCCATGACCTCTTGTATCTTCCTCTCCTCTCTGCAGATGCTCCCTGCTCCAACATGCTGGGGATGCTCTCAGGCC
TCATTGCAGACTCCCAGATCTCCGCCTCTTCCACCCAGGAATACCTCTGGAGCCCCAGTGCAGCCCGCCTGGTYAGCAGCCGCTCGGGCTGGTTCCCTCG
AATCCCTCAGGCCCAGCCCGGTGAGGAGTGGCTTCAGGTAGATCTGGGAACACCCAAGACAGTGAAAGGTGTCATCATCCAGGGAGCCCGCGGAGGAGAC
AGTATCACTGCTGTGGAAGCCAGAGCATTTGTGCGCAAGTTCAAAGTCTCCTACAGCCTAAACGGCAAGGACTGGGAATACATTCAGGACCCCAGGACCC
AGCAGCCAAAGGTAGGCTGTTCTTGGAGGCCTCTGTAACGTTACCCTCAACAGGGAGGCTAAGTGTGGTACAGGGAGTTGAGACTGATGATGTCCCATCT
AAACAGTCGTCATCCAACTCCTGAAATCCAATAAAACAAATATCGTTTGAGAGATTACTTTGTGCCAGGCACTGTGCTAAATACCTTATTTCTGACTCTT
TTKTTTGTTTGTTTGTTTGTTTTTGAGATGGAGTCTCTGTCACCCAGGCTGGAGTGCAGTGGCCTGTTCTCGGCTCACTGCAACCTCCGCCTCCAGGGTT
CAAGCGATTCTCCAGCCTCAGCCTCCTGAGTGGCTGGGATTACAGGTGCCCGCCACCACACCTAGCTAATTTTTGTATTTCTGGTAGAGATGGGGTTTCA
CCGTATTGGTCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACTTGCCTTGGCCTCTCAAAGTGCTGGGATTATAGGCATGAACCACCGCGCCCGG
CCTGGACTCTTTTTTAATCGTTACAACATCTGTGCAAAGTAGATCTTTTTGTCACTCCCATTTYAGAGATGATAAACTGACACTTGATATCATGCCCAGG
GTCACACAGTTCACCTGTGATAGAGCCGATTCAGAAACCGGAAGTCTGACTCCAAAGTCCAGATGCCTAACCCCTACTGAACACTGCCTTTTTATAAAGT
TCAACACTCTTTATACACTCTTTCAGATAAAGTTTCCTTGAAATTGGCCAGACATCTAAAGGGGATGTGGTTTTTGGAGGCCAAGCTATAGAAACTAGAG
GATGACTTCCAAAAATAACGATGTTTTTCTGAATGTCGCTGCATTCCTTTGTATTCTCCTAGTTTTGACTGCTTAGATCTTTCCGGCCTCTCAGACTGAG
GCAAGGGAGAAGCAAGAGAAACTCACCCCGAGCCAGAAGCTCAGGCCAGTACAGCTTACTCCCCTGCCACCAGAGTGAAGGTCAGCCTTCAACACAGAYA
CAAGGAGCCCCAGAAGGGGAGGAGAYGTCATACCTCTGTCCCTCCCCAGATCAGTCTCCTGGCAGGCCAGGCTCTCTGATTCTTATCTCTAGTTACCCCT
TGTTTTTCTCAAAAGAACAGGTCCCTAAAAAAGGAGGGAGTTTGCATGTCTCGGGGCCACCTTTGCTAAGCAAATGTCTCCATTCTGAATACAGAGGCAA
GAGTTGGGTTGGAGGTTTTGCGATGCTGAGGTAAACTCCCAGCTCTCAACTCCAGAGGCTTAGAAAGGCTCAGGGCTTGGTAACTGGAACCTTGCATCGA
TGGAGCAGAAGTTGGACCGCAGGCTTCCCCATGGAGAGCTGAGCCTGGTTTTTCTTGGGAAAGAAGTTGATCTTTGCCATTGTGGGAGACAGCCCTATCC
GAGACAGTGCTTCTGGTTCAGAATTGTGGACGCAGGGCATCCTGAAAACTGGAGCGGTCCTGCTGAATTTCTGGGGGCTAATCAGCTGCAGGCCCTGGCC
ACCCACTCCTGTCCTTCCCCCGGATGAGTGTCTCCAAGTGTACTCTAGGCTGGTCCTCCAAAGCAGCCCCCTGCTCCCCGCATCATCAGTTTTATGTACT
GGGGCTCCRTGTGAGGTTTCTTTTGACAGGAGTGCTTTCCCTAAACAAAGGTTTGGGAAACAGTCTAAGACTATCGATGTGTGACCAGAAGACAGTGTCA
TTGGCCTAGGGGTCATTTTCCCRTAAGGTTCTCAGTGAGCTAGGAACTATCAGTCAGCTTGGGTTACCTCAATGGAGGCTTTCACRCATTAGAAAAAGAA
GTGTYCCTTTCCCTGTAGACCAGGAATTCAGAACGGTCAAAGATCGCCCAAACTGCCTTCCCCSCTCTCTAGCCAAAGTCAGCTGAAAACGCAGTTGGAG
CCAAATTCTTCCCCAGATACTCCATTTTAGTCACCAGGTAAAAGACACAACCTGGAAATTGCCACCTTTGTTTACTTCCTATTTTCCATAATTCTGGGTC
CATAACCACCTTCCAAATGAATAAAATCCTTGGTCTGAAAATGAAGCTCGCGTGGATCAGAATGTCCCAGTGACCAGGAATCAACTAGGAAGCTGCCTTC
CTAGCAGGACGTGCGGGGCAGGGAGGAGAAGGGGAAGGAAAGGGAAGAAGGTGATAGGGACTGGGTCCCACACCAGAAGGGCTGAGTGGCCTCTCTCCCT
GCAGCTGTTCGAAGGGAACATGCACTATGACACCCCKGACATCCGAAGGTTTGACCCCATTCCGGCACAGTATGTGCGGGTATACCCGGAGAGGTGGTCG
CCGGCGGGGATTGGGATGCGGCTGGAGGTGCTGGGCTGTGACTGGACAGGTAAGATGACATTTCCTCCTCTTTGCATCTCACCCACATGGTCCTCTGACC
CTGGCATCCCAYGAGGCCCTGGGAGGGCTGTGGAGGGGGCAGCCATCCCAGGAGCTGGAAATGCTGCAGACCCCTGCCATGTTCTCCTGCCTCAGACCAC
GGGTACTGCAGCCTCTGGACTTGGGACAGTTTCTCAAGGGATGTACTTTGTCTTTTTTAAGGGATCATTTCAGTTCTCCAACCCGAGTCTCTCAAAAACA
AATCATAACCACACACCACCCACCCAAATTCAATTAGACCCTGGCTCTTCAGGCCAGAGGGCTGTGGCTGTTGATTTAGGGAAGAAAAAAACCCCTCATG
ATAATAAAGTAATCGGTTTATGTCTGAATCTGGCCTCCAGATGTCAGTGGCTAAGAGACTTCATTTTCATTTCGGAGCCACATCTGTAAAAGGCATTTAT
TTGCTCAGGAGGGACCCTGTTGCAGGGAGCTGATGGGGGCAGGACTCCTTCTCATTGTCCTGCTCATTCCTGCCAGGTGGCCCAGGCCTTGGGGAACACC
TCTCATCATTCCAAATGAGGGTGAGGCCCACGGAGGGTGCCCAGCCTTCCTGGTTTCCGAGGGAGGGCCCTGCCCTTCTGAGTCAGGCCCTACCTTCCTT
TCCTTGGGTCGCCAGCCCTCCTCCCTCAGCAGAGCTGGCACCAGATCTTACCCAGAGCTCACTCACTGCCTGCCAAAAGGAGTTYGTGGGAGCCACTGGG
GCTCAGGGACTGAGCCTGATGCCAGCAGGAGCAGCCACCAGCCTGAGCTATCCTGCCCTCCTCCGCCAGAGCCCCAGGTATCCCCATTTTCCTGTCTGTG
CCGTACCTGTCACGGGCTCAGCCGGCAGGATGGCATGAGGGATTAATAAGGGCATGTCGGAGAAGTGCTTTTGGCTCCCAGGGAGAAAAATGCTGCCTGT
ATGCTGGCTACAGCAGCGCAGAGGAGCCCTGTTGAGGCACACGGGCTGGGAATTGGGCCCAAATTAGCCTCCTCACTTTTGAATTGAAGGCAGCCCCAGC
GAACACATCTTCATAGGAAGACACTTAACTCCCCATTACCTGGGGATGAGGCCAAAGTTCCCTGCAGCCTGCTAAACGTGTGTCACCCGTCCTCTCACAG
GTGCAGAAAACCTCCCCCCGATACAAGCTGGCTTCATTTATGTGCCCTGGAATCAGGGGCTCAGCGCTGTAGKGGATCCAGGAGCTTGTAAGCCAGTGGC
TTTCACACACTTCTGCCCATGATACACAATTTAAAATAATTTTCCTTCACAACCCGCTTCACTTATAAGCACTCACACACAGTGGTGTATACGGGGTACA
GTGTATGGGTAAGTGCTTGGACTCTGGAGACAGATTGCCAAGTTCAAGTCCTGCCCCTGCCATTGGCTGGCTGCATAACCTCAGAAAAGTTAGTCTCTCA
GCGCCTTGGTTATCTTAGCTGAAAAATGGAGAGGACAATAGTCTGTCTACCCCATAGGGTCATTGTGAGGATTAAATGAATGAATGGATGTGAAATACTT
AGACTACTGCCTGCACCCAGCAAACCTGTTATGATAAATAACTGTAACTGAAACAAAAGGTTCCCAAAGCAATGGTCATCTTAACCATGGAAGTGCWCTC
CAAAATATTATAGTCGGTATGTTTTAAAAGCTGGTCATGACCTATTCGACGGATTCCACAACCCAATGATGAGAGTGATGCGTGGTTTGGGAAATATCAC
AGACCTGGGCCAATTCCTCTTTCATAGACAAGGAAACAGCCCCAGAAGGTAGAAGTCACTTGCCAGAGGTCACTCAGCTGGATGAAGTCCACCTCATTCT
TCCCCCCATCCCTTGCCCTTCAGTGCCATGCCCTCCCAGTCTGGCCAGTGGGACAGTTGCTAATGACCTCTTTCCTTCATTGCTCCCCAATCCCAACATG
CCCCAAATTACACTGGTGAYGGTCAGTGACAGGTTTCTTATTTCAAAGCCCTGCCTGGCCATTCCTTGGAAGATCAGAGTTGAGGAGCGTTCCCCTCTGC
CCAGCCTCCTTTCCTTTGAAGTCTCTGACATCTGGTTTCAATTTCAGGGGTAGCGTTGCTGTTTGATGGGCAGTTACCTTGGAGCACCCAGTACAAACAT
AGTACAAACAGTATAAACACCGAGGCCTCSGTGCCCGCCGTTCCTCCACTTTCATTTACACGCCCTGCCCTCCGGTGCCTCATTGGCCCCTGGGTTTAAC
ATTCTTTACACCAATCAGCTGACCCATTTTGCTACCTAACATTTCCAGAAACTGTTCTCCATAGGTCACGTGGCTATGTTTGCTTTYCRAATTTCCATCT
GTTTCTCACACTCATCTTCGGTTCACTTCTTCATCCCTATCCCAAAGGATAACAGGAAAAATAATGGGCTGGGCTGAGCTGCTGCAGCTAAATACTTTGA
CAGGGCTGCTTCACCTGTTAGTTGGTTTGTGTTTCAAATAATTATGTTTTGCCTTACTGCCCCATAGTTTGCTTTACAATCGAGTTTCTATGACACAGTG
ACAAACTTGAACTTACAAATTAGGACACTTCGAGGTTATTTGCTATTTACTGTGAGCAAAAGGCAGACACAGCAAAGGGAAGTATGAAAGGTTATGTGCG
TAGTATTTAATAGCAGAAAGGTGGGAAGCCGACCGTGAAAAAGCTATTCAGCGTATTTAGCAATTTCCTCCAGCTCCTGGCTTTATTAAATGGTATCCTG
AAGGGTGCCTGACAAAGGCGCCTAATCACATACAGTAGTGCAAAGGAGCATGTATAGAAATGAGAGGGACAAGGCACTGGCATCCTGTTGGAGGACAGCT
CTGGGATGAAGACACCACCCCAAAACACATGGACTTGAGCACCAGTTTCCAGAACCCCTTTCACCCCACCCAGGGCCTGACTCATAGCTCCATTCACTCC
CTCAATAGTTGCTGAATGAATGACGGGCATGAGCAAATAAGCAAATGAATAGGTGAATGAATCACCTAGAGCTGAGGTCAAAACCCCCTGCCTGCAGCCA
GGTTTGGCCTAGCCAGGGTTCATTGTGTGCTACTTAGTATAACATTTTTAATAAGTTGCCAACATGTAGAGTCTGGAGATTTTACTTAGGGATTTTTGCT
TTCTTGTTGGGGGAAGGAAAGGGGGAAAGATTTGGAAGACCTGGCCTGGCCACACTGGGCCACCTCCCCTCCAGGCCCCAGTCTGCTGGAGCCAGTCATG
GAGGCCACCTTTAAACCAGGCATGTAAGATCCCAGCTTTCACCACCTCCTCTCTCTCCAACCTTCCCCTGCCCTCACAACCACGTCTGCTTTCCTCACTT
ACAGTAGGTGTTTGGATCCAGGAAACACTTGAACTTGCCACACCCTGACCTAAAGACATAGCCCCAAATCACTTTCACCATGTAGGGTCTGAGCCKCTTT
AAATCCATATTCCCGTCCATCCAGTKTTGTGCAAACATGAGCCAGAGTGTGCTTTGGTCCTTCCTTGGAGTCAGCGTCGCCTGTAGCCCCCTCCRTTATT
GTCTCGTGGCCTTTTGTGCTAAACTCGGGGCCTCTGCTGTGGAGTAAAGAATGTGGGTTTGTGTCCCTACCTCTGTCACTGCTGGTTCTGCAACCCAGGA
CCATTCTCATTCTACTATGGTGATGCCCCTGACTTCGTTGACAGCACACAGACATGACTTCAGAGTTCCGTGCACATGTGTGCATCTTCTTTCCCTTCTC
TAGAGATGTTTGGCATCTTCCTCCTGCTGGGTTGCAACACAGGCTGCTACAGCATTCTCTTATCTTCCTTTGCCCTTACACAGACTCCAAGCCCACGGTA
GAGACGCTGGGACCCACTGTGAAGAGCGAAGAGACAACCACCCCCTACCCCACCGAAGAGGAGGCCACAGAGTGTGGGGAGAACTGCAGCTTTGAGGATG
GTAAGCACAAATTGCCTCCAGATGGCATGGGTGCGGACTAGTCAGAGTGGGAGCTGGCCTGTGGCTGGACAGGGACCTAGKGGTCCCCCAGATCAGAGAT
CCAGGGGATCTCAAAGAAGTGGTAAGAGAGGTGGGGGCACTTAGGGGTTTGGGGCAGTGGCTGTTTACAACCAATGTAGAAGCATTTGGATAGTGTAACA
ACCAGTACAGCCCTACTGGTGTGAACCCACTAGACATCAGGTGAGACAAGGATGACTCCAAAGAGAACTCCTCTTTTGAGGAGTCTCATTTGTTGAGCCC
TCACTATCTTGCTTGTCTGCTAAAGGAGAACCATTCTTATCCTTAGAATTCACAGCTCTGATAGTTTTTCCTGTTAAGCTGTGTGTGTATGCTACAGCSA
AGTGAAGATACGGCAGTCATCTGGGTGATGGAGCGCGATAGTTGGGTTAATCCAGCAGTTACCTGTGACTTAATTGTGTTTCCCTGTGTCTTTCACCGCC
RCCAATTTGAGAAAGTATAACAGTGATGATTCTATAAGATAGTGCACTGTATCCTCTATAACTGGAGTGCAGATCAGAGACAAAGGCGGAAATGTAAAAA
GGCATCTTCAACCGTTCCCTCAAAACTCAGGGGCTCCGCATTTCTGGATGGGTCCCATCACATGGGAAATTCTTTTCATTTATCTTCGGAGTATATCCAA
GTTAGATAAAAACAATAATTGGCAGAATCCAAAAGTCAGTCACATTTTAAATCATACTGCTAAAGTCACCAAGTATGAGGACATTTATAAGAAACCACAA
ATTTTGGAACACCTGGCATTTTGGCTAGAATGTTAAGCTTGACAGCCTCAACTTACAGTAAATTACTGATCATTATTAAATGTTCATTAAACAAAATGAG
GGAAGATTGGCAAAGAGACTAGAGAAGTGATGGAGACATAAAGATATAGGTAGATGGCAAAATCTGTGGAACCYGCAAGCACAGCCGTTTGACAGTTAGA
GGAACTACACTGATGGAGTGGATGACTCCAGAAAATGGCTACAAAGAAGAATGGGAGGAAAGCCAAGAATAAATGCTGAAGTTATGTGACTGAAAAAGCA
ATAATTTAATGCATATGCTTTGGGGATTGTGCTTTCATATTATTGTGTGGGTGGGGGACACTGTTGGTCGGGGTTAGTTGAATACAGAATTCTGACATTT
TAATGAACTTGTTTTTGTTTTATGGAGAGAAGAAGGAGACTTGGAGAATCTTCCAAGACATGTTTCAGATAGTTTGAGAGCCAAAAGTGGAATGCATAGG
GAGTTAACATACGATATTGGATTTACAGAGTTAGCTTGTTGGGGGACMTGGAGTGGGGGTTCTAGCTAAATGACAATCAAAGGAAAAATTAAGGGTTCTG
CTGCAAAATTTCAGAAGTTTATTTTTAATATGATTTTCCCGTTTCYAGTGGTTTGTTTCATTTGAGGTTTCTTTGATGGTTCCTCCCTTTTCTTTTTGCA
AAAGTTTTTTTTGTAGAATTTGGTTCCTGAGATACAGTATACATGTAAACATTACAGAGGATTTATGCTATATTGAATTACTTCGTATTTTTGAAGAGAA
AAATAGAAATTCAGAAATTGTCAGGAGAAGGGGTGGTAAAGGCTAAGGGCTGACTTTTCCAAGCCACAGGTTGATGCTTCTGTAATAGATTCCATGTGTC
TCTTCTAAACTCAAGCTGACTTTGGCCAAGGGTGGGCAAACATTAAATATCCTGTCCTGGAAAGGGAAGGCATTTACAGGGCCTGGTGGCAATCTTCCTC
CTCCCTCTGACGCCAGCAGTGCCCTGCCCCCCATGAGGTGAGCCCTCCTCACCCCTAGGGTGAGTAATTTGTTTCTACCAGTCCGTGGCTCCCTTTAGAC
TTCCTAACCTGCATTCTAAGCCTTCCCCAGGGAAATTCCTCTCTAAGAACCCTGGGAAGGGAAGTGAGAAGGGCAGAGACCCCACTTTCTCCCTGCTACC
AACATTAGCCAACATTTTTCCACTGTCTCCGCAGGCACTGCCGGCAAACAACCAAATCTGGGTTCCCATTTCCTCTTTCCCCACGTCCACACCACCCCCA
CTTAGTCACATATTTGGCATTAGCTCATACTGGATTTTTGGAGCTGGGTGGAACCTCAGAAGAAACTCTCTTGGTTCTGTCTTCAGGCTCAGGCAGGTGA
ACCATCAAAGCAGACAGGACACCACTGTGTCATTAGTTCCTGGATTCCCATAGGGAAAGCATTCTCTACCTCCCGGGGTCGCAGCCTCCAGGGATTCAGC
ATGATGGGAAATTATTTTTCCTCCTGGCCAGCACTGAGCTGAGAAGCTGGCTGGTCTGGTCCCTTCGATTTGCTCTTACCATGCCAAATTTCCCACCGGG
CATACCTCCCCATGGAGATGCTGGACTGTCCCAGTCTTCAGAAATAGAGACGGATCACAAAGAGGTGAAGTGTAGCAAACAAGCCTTCCTTGTTTCTGAG
GTCACTTTCTCCTCACTGGGCAGAACCTCCCAGGGATTTCAGTCTCTCTGGATGCTAATGGGCTGCCCCATCTCCTCTGAGAGCCAGGTTGGCAGGAGAT
GAGATAATACTTTTTTTGGGAGCCAGCCTTCCACCAGGGCACTGGGGAGACATTCTTCTCTGGCATTTAGGGAACAGCAATTTTCACATTTGTCTGCTCT
CCGAGGTGGACAGAAGAGGCTGATTAGAGCCTGAAGCCATTTGGTAGCCTCATTCATAATTGCTTACTATGGGAACCACTGGCAGACTTGGCTTTCATGC
CTGGGAAGGATGAGACCAAAGCCTGACCCGAAAGCCAGCGATCGCCAAGATGAGTTAAATGAATAAGCAAAGGAAGCCACTTCTTTCTCTGCTCTCCACT
CAGGCCTTGCCAGCCATTTAAATAGTACCACTGTGGCTGTTCTCTGAACCCATTTCATTTGCCTTCCTTTGGGTTATTGTTTTCCCCTTTTAGACAAAGA
TTTGCAGCTCCCTTCGGGATTCAATTGCAACTTCGATTTCCTCGAGGAGCCCTGTGGTTGGATGTATGACCATGCCAAGTGGCTCCGGACCACCTGGGCC
AGCAGCTCCAGCCCAAACGACCGGACGTTTCCAGGTAAGCCAGCTGTGAGTGAAGATATGAAAGAGTTAAGGCCAGCTTGTTCCACATACTTCAACCCCA
GATTCCCTTACAAGCTTCATAACTTCCCACCGCACAGCAATCCTCTATTCTTTGCCCACAAACCACCACAGTCTTTGCTCAAGACGTCACCTCAAAGAAT
AGCCAGTTGGTGGTTCCCAGCCTCTCTTGTGATTACAGCACAGCCTGGAAGCTGGGAGGGAGAAGCGGAAGCCAAGATAGAAGAAAGAGGAGAAAGAAAA
AAGGGACAATTGGGAGGCCCTAGGAGATGGGGCACGAGTCAGTGTCCTCTTGTTCCCATAGCCAGCACCCACTGCTATTATCACAGAGCCCCTTGTCAAC
TTCGAGCTGGGTACTGTTCCTAAAATGGCTCATTGGGAGATGACTGGCCTTGAGTTTGATTTATACGTCTCTGAGGGTGCCACTGCTTCTACACCAAGTC
AATTTGAGGGACCAAAATGCTGCCACACCCATGGGTATCTAGCAGAGCTGCCTGGCACTTGGCCTCTAGAAGAGTATTGCTGTAAGTCCTGGATACATTG
TTAAGCCCACCATTTTAGTTTCAGAARGCCAGATTTCAGAAGCTTCTCCTGGCACTGCTGACAAGAAGGGGTTGCCTCTATCCCTTCTAAACAGGTAGCA
AGAGTTGTCTGCTATCTCTGCTGTTACGTGCTTTCACAGCAGTATGATGGTAAATGTTTAACAATAGGCTTTTTAGGGATTAAAAAATAAACTGCTTTTT
AACGTTTGTCACTTTCAGTGGTGTAAATACCCTTACCATAGCTGAGCTTAAGCTACCAACACAACATCAATGGAGATGGAGTTGAGAAGTCAGTAAGAGA
GCATTATATAGTTTTTTTTTCCATTGTGCAAATACAGTAGACAGAAATGACTCCAGAAGTATAGCTACTGATAAAATGTATTAAGATAACTAGCAAGTGT
TGAGTTTTGAGGATTTGTTACCTTTGTTTTTTAATACAATTTATTGAATTATAGCTTTATATAATTTAATTTTTACTAATGAATACATTTAACAACTGGC
TTGCAAAACACTTGACAAGCAGCTCTCACAAGCTGGTACACCTTGGATCTAGCACAGCACTGAGTGACTTTGAATTCTCCTGTACTTCTGGCCTGGACCT
GAGACCTCCATAAGCACTGGAGAGGAGAGGGGTGAATTCCGGAAATTTAGTAGATCASTTTGCCAGGGTACAATAGGAAAAGGCTAGAAAATAAAAGAGG
GAAAGGGACCTTCCCTTCTGCAGGCTTCCTTAGAACTGCTTCTCACCCCAAGCACTGGCGTGTCCCTTCTTCCCGGTGGGGGCAGTGGGACAGATGCTAG
GAGAACACTTGGAGCTGGCCTCCTGACACAGTCCACACTTGCTTCCCTGGAGGGTCACAGTGCCTGATCCGGAGAAAAACATTTTCATATTTCAAGTGTT
TATCTCTTCAGCATTTGAGTGCTCAGAGAGATTAATATCTGAAGATCACCACAGCCTCAGGCAAAAGAAGAGAACACTTACCCCAGTCCAGCCTTAATCA
CCCTCCCTTCTCTGTTCACTGCAATAATGTTTAATTAATATAATGAGCCTCCTGCACGTTGGGAAAAAATACTTATTTTTATAACCCAGCCTGGATTTTT
CATTTCATTTCCACTCCTTTGAGACTGCATCCAATTAATTCATGGTTGTTCCCAACCCCCATGTTTTATCTGAATGTAAAGAAGGTTTGTGGGGTCTGTG
TAGGTGTGGGTATTCTAGTGTTAATGTGTGTGTGCATGAGTGTGTTTGTGGTTTCTGTGCATGGGTGTGTGTGTGTGTCTGTGTGGTATGTACCTCAGCA
GAGGCKCTTGGAATAAAAGGATATAGCCGGGGTCCTCTGCAGGCTGGGGAGGTTGGCTGGCTCTTATTCAGTGTCTGTCCTCAGGTTCATTCTAATGATT
CTGGCCTCCTCCCTTGACTCTTCTAAGCATATTTTCTCTGGGAGTGTCTGAGGGCAGCCCTACCCAGGCCACAAGGCCACCAATTACTGAGTCACAGCTC
CAGGGGAGCTTAAGTGACCTCCCTTTGACCCTGGCCTGGACCTCTGTTTCTTCACCCGTTCACCACCGCCTCCTCCTCGTCCAGTCCTGGCCTTCACCCG
AAAGCCCCTATGGTTGACCTTTGCTACTGGTTGGGAATTCTAGTCTTTGTCCTCCTTCCAGTTGATTCATTATACCCTGTGGTTTGGGAGGGCTTTTCAG
AGCAAGCTCACAAAGTGGGCAGAATTCCAACCTTTGGCTGAATGGATGGGGACAGAGAGAAAATTASGGCCATAAGGAACTGCTAAATCTAATGTTGTTC
CTCCCTTAAGATATTGAAAGGGAAAGTAATTATTTTCCTATTCCAGAGGAATCCCGAAGTTTGGGAAAGTGGCACTTATAACCTGCCTCCAGGAAACAAA
ATCATAATATTGTTCTCAGAGCCCTTCCCTCTATCCTCTGATGACTTTATGAACCGTTCTCTGTATTTCCCATTTTCCTTCTCCCTACAGAGCTTGATAT
TGGGCTTTAAGCAGGAGAGGAGAGAAAGCCCTTTCTGTTCAGGGTGGTCCTTACTTCTTCTCCATAGGRAAAAAAAAAAAAGGAGGGGGAGGCCCTGAGG
GGATTGGGGAGAAGGGAAGCAGCTGGCTTGGTTGGGGGCAGAGCAACTGCTAATGGGTTCAGAGCGGCTGGCGCCCACAGAGTCAGCCTGAAAGCCTGTT
GTGTGCCACACTTTGCCATCCACAGAGGGGACCGTCCCACTCTTCACGAGCGTGTGCCATATGCTTCATCCCCTGATGAGATAGGCAAACAGAAGTAATG
AAATTTAAGAAAGGAGGTGTCTCTGTCAAGTGTGAGGGGCGTCAGGGTGAAGAGAAAGGTGGATGGGAGAGGAGCTAGCCGTGTTGAAGTACCCAACACG
GGCCCTATGTGGAAACTGCTTACATTCCTCGGATATTTTCTGATTTCATTATTTTCTCATATTTTCTTTCTTTTTTTTTCCTTTCCTTTTCCTTTTAAGT
AAGCAATTAGTTCTGTTCTTTTTGGCCAGTGGTTGCCTAAGGCTGAAAAGCACCCACTGGTTTCATTCCACTGTTTTTGTTTTTCAAGATAGTCTTTCAA
GCCAGTCAGAATTTCTGTTTTTAGCTCTTTGCTTGTGGCTTAGCTGCCTGGAGTGTGTTCACACCAGCCTCTGGGGACCCTGTTCCAAATTCAGTGACCC
CTGCTAGCTGCGGAGGAACACTCAGTGTTCTCTAAGAGGCCACTTTGGCTTTCCTCTGTAGTGACAATGACATAGGAAGCACCCCCTTACTAGGAGATGG
CATGTTTCCTACATTCTCAGGTGCTTTGAACATAGACAGAGTTTTGAGAATGATCAAAGCCCAGCCTTTAAGAACCGAGACAAAAACTCATAGGGCGGGC
AGGTATCTAAAGCTGCAGCATTGAATATTGTAGCCATGAGCCATGTGTGGCAATTTTATTTTAATTAATTAAAATGATTACAGCCAAAACTTCGGTTCTG
CTGTCCCACCAGCCACATTCCAAGGGCACAGTAGCTACACTGTATTGGTCAGTGCATAGACAGGGCACGTCACTGTATACACGGCATCATCACAGAATGT
ATTGGACAACACTGCTCCAGTGCTTTGGACACTCACAYGAGAGCAACCACCAGGGGCCCTTGATGATTCTTTAGTTCCCTGGTTTTGGTATGAACCAAGA
AGCAAGTAATGGAGGGATGTGTCTTCTGTGGGATCCCTTGATGGAGTGTTCAGTGGCTGGTATCTTTATAGCTGTCTCATTCTCCCTCACTAGATAACTA
CAGTAAAGTAAGCAAGTAACATGGCATTAGATGGTGTAGGAACTATTGCGATTAATCAAAAAGAGCATTGTAAGTAAATATTAATACTAAGTAAGGTCAA
TAATCATCATCATTGTGATTGTTGTGCCATTTTTATTGTCAGGAATGAGACAAAGAAGATGAGGTAAAGGGTACTAGGCCAGGTCAGCTTCAGAATCCTC
CAGTGTGTGTTCCCCCTAAATCTGTGCTCTTTTATTCGTGGGTTGGCCTTGTGAAATCTGATTACAGTATTACTTCAATGACTTTCAATCATGAAAGTGA
TAGAAAGAAAACAAGCGAAGCTGATATTGAACAGAGCTTTGACTGCCTGGTCAAAGCCTATGGGATTGAGGGAACAGAACCTTTACTCTAGGCTCAAAAA
CAAGCTCAAATGGGAGTAAGTCRAGAATCTTAATGTTATAAAATACCCAAATTTTACAAACAGTGGCTGGCTATTCCTTCAAATGTAAGAAGTAAGATTG
TTAACACCTCACTGGGGCTATTTTGATGCAGACTGAGCCATTGAATGAATTCCGTTAGAGTGGGAGACCTTAGCCATGATTCACGGTGGAGGCGCACACA
AGAAGATTAAGTGAAGTGTGGATGGGTATGGTGAGTGGATGGTTGCAGAGAAATCAGAGGAAATAACTGATGAGTGAATTTACTCATAATGGGCTTGATT
TTAGACAGTGAGCAAGTGGTGACTGAATTGAAAAGCAACTCTGAGTTCAAAAGATCAGGTGGGACCGATGGCAGCAAACAATCCATTGAATTGCTGTTAG
ATTGAACTGTCTTCAGAAAGAGGTTGCTGTGGCTTGGCTGGGGCACAGACACTGCAAATCCAGAGACAGAACTTCCTGGGCTCTGGACCATGATAGATAA
TTAAAGATCAGGAGCAGCTTGGCTAAAAGAAAGCCAATAGTCAAGGAATAATTTCAACTGGAAAAGAAAAGGATAGAGGCCCTTCTTTAAGGAAGGTAGA
AAAACATCCCGGGCTTTGCAGAAAAAAATAACAGCAGGAAGAAGCTTTCTTTACCCTTTTTTTTTTTTCCTGCAAATCATGATTGGTTGAGTCCCCCAGC
AGTGTGTGGATTGATAACGAAGGGGCAGAATGACAAGACAGCCTCAATGGCAAAACCTTCATGAAAGCCGGCAGAGTGAAAAAACAGCTCTGGGTAGATT
CCTGCAAGGGCTAGGACTGAAACCTTCATGTCCACAAAATGGTCTATTGTAAACCTTGAGAACATCTTGCTAAGTTTATCCAAAGTCAGTGTTTCCCTTA
ACTGGTTGCTAATTTGAGGACCTTAGCAGAGATAGGCAGACCTTGGAAGGCCAGCTGAGGGCTGACTCATGTTTTAAGCRTGGACTATGCAAAGAGACTA
CATCTCCTACAGCACTAAATATTCTTTCAGATGGTCGTTCTAGTAGGAGGGCAAGATGCTAGCCAGGAGATGTGCGTGTTGGACAGATGGTGTGTTTGGC
TTTGTGATAGCCAGGAGGATCAAGCTGGTGATTTATTTCAGGGTTTGGTGAGGTGTAGACACAACTGATTCCATTGCTGTTGGGCCAGTCGCAGTCACGT
GTTCACATGACACTTAAGCAGCTGAAGCCAGATGCGGCCGTAAATCGCCAGGTGAAATATCAAGAGACCTTTCCAGAGACAGCAGCAGGTTAAAATGCTG
AATGGCCCTGTCCTCTGTACTTCCTCTTCACCCTTTTGAACTCCTGTTGTTCATTCCCAGRCRATTGTTTTCCCTGTATCATTGGCAACAACAGATGTTT
TGGGTCAAGGACCCAGCGAAATGCCTCCCAAGTATGTCAGGTCCAGGAGGAGAGGAATTGTATCTCTGGGACATTATTTCTTCAATCTCTTTCAGCAATG
GAACATATTTCCTTTCCATTGTCTTTTTCTTGGAAGCTGTCCATTGCCGGCATCATAGCCATCAGCTACAAGAACAGGCAGGGCTGGTTCTTAGCTGGTC
AGTTGTCACGTTCAGGCGACCTCTTGACAATCCAAAGGGCTTTACCTCAAGGTTCAAGTAAATAAAAAAGTAGCCCCCCGCCCCCACCATACCAGCTCTT
TTGACGGTCCAAGTAATCAGTAGCCACTGTATACCYAGAACATCTTCTGTGTCTGACAGTGGTGGGCCATAAATCGGGAGATTCCAGAAGAACAAACTTC
AGTTGCAGCACGTGTTTGATCTCAATATCTATGTGTGGGTGCCATGACTTAAAAGAGCTGAAGCATTTATAATAGCTTGGAAGAAGGGTCAGTGGAAAAC
CAACACTGCCCTAGAAAGTAGACATTTGAACCATGCCCTAGGAAGTAGACATTTGAAGGGGCAAGGGTTCCTAGGGAAGCAAAGACTACGAGTCTTAATT
CTTCACAAGTGAAAATGTCTCTAAGTTGGAAAACAGAAATTGGCTATGCTCCATCAGGGGTAGAAGGAGGAAATGTCTCTAAATGACAGCAGGAAAACTT
TAAACTGAATTTAAGAAGTTTCTGATGGTTAGGGTTGTAACCTAGAAAACACACTACAGACGTGGCCTATGGAAACTCCTTCTCTGGAGAATTTAAAGCA
AAGGGTGGACAGCTGTTCTTGGATGCTTTTGGCACGGTTCCTCCGGGAGGCAGGACTGGCCTGCCCTAAGATCACTTGAGGTCCCACTCTTGTTCCAGGA
TCATGTAATATTTTATTTCATCTACTGTGAAGCAACACAAAAGACCTGTGGTGATGGAAAACTTGGGGCCGGCTGGTTTCTGGAGAAAGAGCAGATAAGG
GGAACCAGTCTTTGTCCAGAGAACATCTTTACTGCCCTCATGCCAAACATACTTCTTTTTGAGTCTTGGATTGGCCTTCCTGGGTTATTGGTGGTCTTTC
TATCCTTTTTGTTTCCTAGTAAAATAAAGGCAAGCATAGGAGGGAGTGTGTAGAGTGATATTAATAGTAACAACTTTTCCTGAGCTCTTAATGTGTCCTT
GTTACTGTGCAAAGCACTTTACATGGCTCATTCCATTTACTCTTCCCCCAACTCTATGCAGTAAGACTGTCTTTGTATCCATTTTACAGATGGAAAGACT
GAGGCTTTAAAAGCTTAGTGAGTTAGGCTGGGAGTCCAATCCAGATGAGAAGCTATGCTGTGGCAGGTTTACTGAGTCCAATGAGGATTCAAATCCTACG
TCACTCCAATTCTCTGAGCCTCAGTTTCTTTTTGGTGAAAATGGAGAAGATGGTATTTATTTTGCAGAGCTAGATTTCACAGGGAAGGTGACATCAGGGG
AGGCAGGTAAAGCCTCCCGTGTGATCGCGCACAGGCAGCAGGTGTTCAATGTGTTCATTCCTTTCCCCCTGCTCTTCTTCTCCCTTCCTTGGGCTTTTCC
TGGTCTGAGTCATTCCTTCATGATGTCCCTGGTTCTAATCAGGCCTCTGTCAGTGACAGGCGCTTTGCAGCTCAGCATCTCTCTGACTGATGTCTACTGC
TAATTCCTTAAATTTACATATCATCTTTCTTCCCTGGAGCTCATAGCACTTAACAGACAAGTGGGGCACRAATGATTTAACGAAGTGAAATCCAGAGGCC
TGCTCGTCTGGAGATTCTGCAGACTAGTGGATTAGCTCAGATGTCAGCACTGAATTATGATCCTTCAGCTGCTTGTGCTAAGCATGTCACTAGCATTAAS
TCCCTGGTCTTGCAATGTTCCCCTAAATCATGCATAGAGATTGTCATTTTATCGTGAGAGGGAGATGGGAGAGAAGGAGAAAGGAGAGAAGAGGGGAAGG
GGCTACCTGGYGGGGTGGGTCACTGGAAGGGGCAGACTGTGAAACCTTTGGCCTGGCTGTGCCTGGAGTTTCAGTAACAGGAAGGGTAAGTAGAACAGAC
CCAGATACAATCCATTCAGCCCAGTTCTTCACACTTCCACACACATTTCACTTACCAAATTCTAACCATGATGCCATGATTTCCCTGCCGCTTAAGAATG
TAAATTCACACAAGTGACAGTATCTCTGCCAAACAATTTTCAGGCAGCAAGTGGGTCTTATTTGTGAAACTGTGAAGGAAGAAGGCTGAATAATAAATCT
CTAAAATCTGGTTTCCTTTATATATGAGGTGGCAACAGTAAGGGCTTGGAAATTACCGGAAGCGTGGGAGCATTTAAAGGGTTCTCACTGGTGTCTCGGT
ACACTGGGTGCTTCCACAAGCCACCTTGTCATTACTGGTGCACCTCACCTTTGAAAGTGGCTGTTGGCTTGGGAGGGTAGAGGGAATTGTGAAGGGATTA
TATCTAAGGGATTATGAGAAGCTAGCTGATTCTCCTGTCCTCATTTCCAATGTATAGCCTCATATCATTCTTTAACCGTGTATTTATCATTCTCCATTCA
TCCATTCATTCATAGAAACAAAATTTTCTTGAGGAGTGGCATATATATAGCACTATCTAGGGGTAGAGAGAAGAAGCAATGTTAAACCTTATTATTTGTA
AGAYCAGCATTTACAATATAACTGGGGTGATAAAAAAGACATGAAAAAACCAGTTAAATTATAATGCCAGGCAGTGAGTGATTACCTGCTGAAATCCATG
GAAAATGGCCTGCCTGAAGTCCTTTTAAAAACATAAAATCAGCAGTACAGTCAGTAAATGCTAGAGTTGTTGAGAAAAGAAGCGGATTAATGTTGCATGT
GCCAGAATAGTTAGGAGAAGAACTAGCCAAAGGGACGGGGTAGATGGAGTGGTTCAGGGAGTGGAGAATTACAGCTAAGAGGAGAAAAAGCAGCAACGGG
CCCAGTGGGGAAGCCAGTTTGCCTCAAACAGAGTGTGATTGATTGCAAGGACTTGGGGCAAGCTACCTGCAGAGCAGCTGAAATAAAGAACTTATTGCAT
GAAGGTGGAAAACCTGCAGTCAGGGGTCTCGGCTCTGCCATTGAAGTTGCCTCTCTACCTTGGACAAATCACTTTAACCTTTCTGAGCAGTTTCTTCATC
ATGTGCAAAGTAAGGTTAGTAAGTCCTATCTCACAAGGATATAGAAAGGATGACATGAAATATTGCATGTAAATGTGCTTGTAACCTGTAAAGCATTATG
CAAGAATGAGCTTTAATTATTATCATTAACAGCAGTAATAGTAAGATCTGATAGGGGAAGCATAGGTTTAGAAGATCTTTGAGGGTCTGATTTGGCATCA
GTGTATCCTCCCTCAGCAGACACCATTATTAATTCTCTTCTGTAGACAGCTGCCTTTTAGTTATCTGTGCTGATTTTGGCCTTGCAGAGGTCACACCTTG
TAGGGTATGTAGACAGATGTGGCTTTGGATGGTTGAAGAGGCACAAACTGGAATCCCATATACGCATACTAAACTGGTCTCATTTGACTTCAGGGAAGCA
TAGCTTCTGAAGCACTAATCCCAGAGAGCCTAAACAGGAAGGRGCTTAGGGGAGCAGGGAGGTAGGTGAGGCAGCTGGGGAGTCAAGAAGGAAAGAGCTG
TTTCTGGGCCACTGATGGGAGGTCCAGCACAGGCTCAGCTCTCACCTAGAAAGTTGAGGTCAGCAGGATTAACAACAGCAAAGCAGTGGTCCAGGGAGTA
TTGCATTGATTCTAGGCTCTAGAATCCTAGCCCATCTACCCTGACAAGTCCAGGATATTCACAGTCCCTGTGGAGTAAGAAAGCTCTGTGCATCTGTCCC
AGGTTAACATGACCTCACACTAACATGATCCTAAGGCATCTGACRTGCCCACATTCCATGCTGCATATGTGGTAGAAAAGTGGCCCTGCCATCTTGCAGA
AGTATTCAGCCTAAGACGCCCCTATGTTTCAGGGCCAAAAAGARGTACYGAGATTTCCTCACCAAATGCCACCTTGTTCTCTGTACAAGTGGCCAGAATG
GTCCTGYACAAGTTGGATTTGAAGGTGCAGGTCACACCTGTGTTCTGCAAGGCACGTAGTCTGCCAACAGCAACAAGAACTCGGTCTTCCACATGAGTGT
CTGATGAATTTGAAACTAATCAGCCAAAAAGGCCATTCTCCAAACATTTGGATTGGTAAACCCTTAATTTCCCAGAACACATATATTCTCTGCTAAACAC
ACAGCCTTTGTTAATGATAATGACAGCACCTTTATCACTGGAGCCATATGTGCCTGGCTGTCTCAGAAAGGCCAAGTTCAAGCCTCCCTGAATCATCCCT
TTCAGCTCCCACCCTCTGTTCTGTTTGAAGGTGACACTGGGCTTCTGAGTCACAGTCACTAGAGCCCAAGCATCATCTAGGAGCACTGATGGAGACAGAA
GGTTTTAAATGTCAGCCATTTGGACAGTGCCCAGCCAAGATGGCCAGGGCTGGAAGCATCAACCACCTGGTCATAGTCACCCTCCAATCTAGCAGCCCCC
CACCCCCTATAATCTGTCCCCTTGTAATTCAGTTCATCAGATTGCACTGGCCCTTTGGGTGAGTTAATGATGAATAAGATGTGGGTCTGGCCTCTCAGAA
TCTAGAGGGAGAAGAAGGGCACGCACACAACCAGCCAAGACATAAGGCAGCTGTGCCGGGTGCTCCATGTGAAAGAGATGGAAAGGAAATGATACCGAGA
AAYAGGCAGGAGGGACCGATTTGACTTAGAGACTCTTAAGAAAACACAGCRTTTGAATCAAGGCTCTGAAGGAGCCTTAAGAAAGGGTCACAGAGCCTGG
AGAACAAGGACATGAATAAACCAAAGACACCGAAACTCAGTCCCAACTTTCCCTTGGAGAGGCCACAGCAGCACACTGGTGTCTTTCCCGAGTGTTTATG
GAGAACCTCTGTTTGGGTTTGTTTCTGCCAGATGACAGGAATTTCTTGCGGCTGCAGAGTGACAGCCAGAGAGAGGGCCAGTATGCCCGGCTCATCAGCC
CCCCTGTCCACCTGCCCCGAAGCCCGGTGTGCATGGAGTTCCAGTACCAGGCCACGGGCGGCCGCGGGGTGGCGCTGCAGGTGGTGCGGGAAGCCAGCCA
GGAGAGCAAGTTGCTGTGGGTCATCCGTGAGGACCAGGGCGGCGAGTGGAAGCACGGGCGGATCATCCTGCCCAGCTACGACATGGAGTACCAGGTGGGG
TGAGCAAAAAGGGAATCTTGTGATCCGTATTTCAATATTTCAAGGGCCGAGCCCATTCATCGTTAGGGAACGTGGTTAAGCGCTACTGTTTTCATTGTGT
TTCTCACGTTGCCATGGCAACTGAATGACACTCTTATTTGTTATTCAGAATATGCCTATCTCTACACCCAGACTTGGTTCTTTGTTCCTCCTGTTGCCTT
TTATATTGCTGAAATCTTCTCCAACAAATGTTTCTCCTCTCCATTTTATTTTAGATTGCTATCAGGTAGGCTGACAAAGGGACACAGAAGCCAGAGAAAT
AAACACAAACAAACCCTCCACACACAAGGAAAGAGGCCTGTGGAGCCCCTTCAGATCTGGGGAGGAAATAGGATAATCTCCCAGACCTGTCCCAGGCAGC
AAGAACACAGGAAGGGGAGCGGGGGCTGTTGGCGCTCAGTGGCCGGCAGACATGAGAGGCTCCAGAGTGAGTGCTCTCTCTCTCTCACCAGCTCCCGGAA
TGGAGTTCTGTTATCTCTGCCCCACAGAGCAGGAGACTGAGGCACAGATGGGTATGTTCAGCCGTGGTTGCAACTTGGGTAGGAGTAGACACACTGTGGA
AGAGGTGACTGAGAACCAGCCAAAGCATTAACCTTCTCCTCCCCAGACGAGGAGCAGCAACAGATGGCTGGTGCRGCAGCCAACTGCTCACCCAGCTTGC
CAGAGGACATGTGCTAGTTTGCAGAGAGGAACCTGGGGAGGGCGAGCATGAGAAATGACTGAAGACCACAGAGCCGAGGGGCTTCTGTGTACAGCCTGCA
GTCCCTGTCCCTTGAGGTTGCAAGGCATCCTGAGACCTTCCCCACCCCCATCTGGGTTCCCACTTACTCACCTGAGTGTGTTGTATTGTAACTACCTGTT
TGCATTTGTGTCTCAGCCATTAGATGGGTGAGCTTCTCTGGGCAGAGATCTTGTCTTACTAGGTTTTGTTACTATCCTTATGTCCAGGGCATAGTAGGTG
CTCAGTAAATGGCTGGTGAAAAAACAAATTCTTTTCCTCCTAGTTGTAATAATGAAGCCCTAAGGCAACTTATAATAAGGAGCACAAATCAAAACCTATG
TGCTGTATTTCTCACATTACCCCCACCTACTTGTGTCTTCTGAGTTTTCAAATACCTGGATTGGGCATTTGAAAGATTTATGAGACAGGAACCTCGAAAA
TAGTGAGGGAAGTTTCAACCCCCCTTTCAATAGTCTCTGATTATGGCCCTTTTAATCAATACATTCTAGTTACTGGACAACAATATCCACCCCCTTGTTA
TATTTTCTTATCCCCTTAAATATGCGTTTGATTTGAACAAACTCATTTTGAATTAAGATTTCAAGAGCTGTAGCCATGTGGTCAACAGATGTGTACCAGG
TGCAATAACACACACACACACACACACATACACACACACGCTTTAAGCTGCAGCTAACAGAAACTTGGAAATCCTTGCACCGTTTGGACTAGGAGACTCA
GTTAACCATGGCTCTTATTCTTCCGGCTTCTAGATTGTGTTCGAGGGAGTGATAGGGAAAGGACGTTCCGGAGAGATTGCCATTGATGACATTCGGATAA
GCACTGATGTCCCACTGGAGAACTGCATGGGTATGTGAATATCTGTCTCTTCATGGTTCTTTCAAATAAGACCCCAAGGGCTGGGATAAGCAAGAGGAGG
CAGGACACCATTTTCCAATGCAGTCGTTACCCAGTGGGTGGGGCAGCCACAGTCTCTGCAAGGTAAGGTGTGGGTGTAGTTGTGTCTTARGCTGGGTTCA
GGGTGGGAAGGGGTGTGAGGTAAGGGGACGGCTTATATCCCTGTTCCCAATCAGAAATAGACATGCACTAAGTACATAGAGGTTCAGGGTGCCAAGACCC
CCTCAGCAAACCCCAGCTTTTAGCAAAGAAAATGCTAGAGGACGAGAGCAACTGCCAGTCAAAATTATATGCTGGAAAGGTTTGATGGATTTAATGGAAG
CCTTCACTGGTGAGCAAAAATAGTACATATGTTATGTAAGAGTGATAACACAATTACCTGAGTAGTTATTTTACATGAATGAATTGCAGAGCAAACTGTG
GCATTTGAAGTAAGATTTCAGATTTTTCTTTAAAACGAATACCTCTAATGCCCAAGATCCCAAAGTTGTTGTAGGATTAAACATTGCAGGCCAGGTGACT
GGCACGAGAAGGATATCATAACYATCATCTTGGTCAAAAGCACCTGAACAGCCAGTCCACCTGAGAGGCACGCATTTTCTTCAGGGTCTCCTGCTGCAGA
TGAGGTCACCCTGGCTGTGTCCCATCAGAGCCATGGACATTTCCCAAACCAAGAAAGGAACCCTGAGAAGGCATGAGGGTTGCTTTCAGTCAGCAGAGTG
GCTGCAGTAACTCACCAACTGCCTTTCTTGGCACACGACCCCTGGTGTGTGTGTGCTTGATGATGTCAGAAGCACCTGGGACCACCCCAGTCCCTCCGGG
CAACTCTCAGGCCCCAGGCATCTAAAAGTAATCCAGGCTCTGAGAAAGTAATCAGCAGTAAGTAACTGATTACAATACTTTAGGGACCCATTTCTTGATG
AAGGACTTTTTGTTCCAAAGCAACTTTGAGAATCCCCCCTCCTCCGCCATCACCACCCCATGATGATGATGTGTTAGAGCCAGCCTAGAACATGTGGAAG
ATGGGGGGCCCTCTCCATGGAGTGGTACAAAAAAACCGAGTGCAGTCATGTTTATCATCATATTCATCCAATTATTCACTCTATGTTCACCCAATTGTTT
CTTGCCTTTAACTAAGTCCAATTTTTTGTTTGTTTTTTTCAGAACCCATCTCGGCTTTTGCAGGTGAGAATTTTAAAGGTAAAAAAAAATTTTTTTTTTG
CATGCTTTTTCCTTCCCCCATGTGATGTGAATTTGATGGGGGGAATCAACCTCMAAATTTGTCAAATCTCGCAAGAGAAAAGAGACGCCACACCTTCCTG
CCGCTAGATGGCACTAGCAACACCTGTAGATGCGGGAAGGGGATTGAGAGCCTCACTGTCTCTTGTTTAATTAAAGTTTAGAAACCTATTAATAGAGACA
AATAGGTTACAGATAAACCTTTCAGCCTTGCATTGTCCAACGGGGAGCAATGAGGCTGAAAATGCAGGGGTGGTGAGAAAGGAGAGACTGTGGGAAGACT
GAACCAAAAAAAAAAAAAAATCAGTATAAATTAAAAGTGAAATGAGGTGGCAATGATTTATTTTAGCCTGAAGATGGTTTCTTTCCAGTTCCAGGGTACC
AAGGCAGCGGTTTCAGTTAACCACAGAGCCGAGGGGCTTCTGTGTACAGCCTGCAGTCAGTACCTGCAGTCACCATACCTCAGTGAGGTACGGTGGCAGG
CTGCTTGTAAGAGAAGGAAGTTAGGAAAGAGACACAGAAGTGGTGGCCTCAGGAGAAAGAGTTGCCACATTTAGGACCCGGTGTCCAGTCAAGGGAATAA
GGAGGTGCATTCGATGACTGGAGCTAGAGCACTTTAAATGCAGGACTGAAAATCAGAAAGGACGTGTTCTCCCCCGAGAAAGCAGAGAGAGCAGAGCAAA
GTGAGAAGAATTGGGGATGCTTGCCTCATCCAGGTTATAAAAAAAAAAAAAGGCCTCCAGCCTTGGGTGATGGCAATGTTGTTTGTGCTGTTACAATGCA
GCAGATTTTACATTTTGCCCTCTTTGCAAACCTATTAGCGGACACTGCTGAAGTTCCCACACCGGTTTCTAATGCCAAACATTTAGGAGCCACTCTAAAT
GCGTCACTGCAGTTGGCCTGAGTGTAAAAGCACACACAAAAACACCCTCACCAAATGATGGGGGTTCTTCATGACCTGTTTGATGCCAGCAATTGTGAGG
ATTGCTGTGCCCTCTTTGTACTGGCTGGGCTTACCCCTACAAGTGGCAGCATTGCAGAGATAAGGGCAGCCATTTTTATATCTGCCGTCTAGACTCGTTA
TCTTCACTCTCATTAATCTGTCCAGCTCTGGGCTAGAAAGAGATGAATTCCTGGTTTGCCACCTAGATATGCTCCCTGACTCCAAATCATCTCACCCAAT
TTGCCACTCATCAGCTCTAAGACAGCCAGTGAGGAACAAAGCTGCAGACGACAGGGGAATGACAGACCGACATAGAATATATTGCCTTTCTTACCCTTCC
TCGTGTCCCTGAACCCCATGCCCACTCCCTGTACCACAGTTCTAAAAGTATTAAGAGTATTCATGTGCATACACTGGTGCTCTCTGGGGGTGAGGTTTAT
GTTAATGTAAATCCAAAGTATTGGAGGAAAGCTGAGAGCCAAACTGAACGACTTTGGATTACAGTCGAATTCGAGTTCTAACCTTCAGGACCCAAGGTAA
TGCTTATGTTGGTGAAGTGAAAGCTGTGGATGTTGTTTCGCCTGACTCTCTTTGGGTTGTGGAGACTCACAGCTCCCAGAAAGGCTGGGTAAAGACGTGC
CAGCAGCTGCTGCAGACACTGTTCTGTGTGCACACCGTGTCGGGCCATGACTGACAAGTACAGTGGCTAAGTGCTAAGTGCTTCACTTCCGTAAGAGAAT
AAGCAGACCAGGGCACGTACACTCTCCTTGAAACTGTGCTTACCATGAGGCTTCACAGGCCAGTCATGCTCTCTTGTAAAAAATATATACATAAAATCTC
ATCTGAGCAGCAGTGCTCATTTAGCCAAAATAAACACAGGGCTTAGTAACTTGAAGGTAAGAATTTCCAGGGTGCTCCTGGTGGGCCGCTTTGAGGCTAA
GCAAAGGCAGTGCACAAGTTGCATGGATTAGGCCATGGCTTTCGTCCTGGAGGATGGCAAGCATCTTTGGGAAGAAGAAACCAAGGCTTGGGGAGCAGAG
ACTTGGCCAATGGACACAGTAAAGAGCAGAATCTGAATTGGGAATGGAGAATTTCATTCACCTTGGCACGTTTTACATGGAGATCTGAGTTGGTAACCAG
ATGAACCTAGTGCCATGGGTCTCTTCTTTCTGGCTGAGACCTGTTTGACCACAGCATGCAACTCTGCCTTGAGCAAACTTTTCTGTTTGAGAGAGGAGAG
GACTGTGTGTTCCATCTAACCTAGTGACTCATATACTATTCCTCTTATGGTCAGGACAGCAGGAGTCCTCTCTTGATCMGGGCATAAAATCAGCCTTTTC
ACTCAAAAAATGGAAACAGAGAAATCAGGGGGCAGGCAAGGTATGGAAAGTTGATGTTGAAACACTGCCAACCATAGGCATTTACATTGTTATACATTTT
TCAAATTAGAGTGTTTTTCTTTTCCCTTATAAATTAATCATGCAACAAAGGTAATCTCATTCTTTGGGAGCAATCACTGTACAGGTAAATCTTTAGTGAA
ATACAATAAAAGTGGCCTTTGGACCTGGAGTTATTAGATGGTCGCAATCTTTTATATTTGGAAGTATCTTTCATTTTCCGCCTCTTACTGATTTCTTGCC
ATGCAATATTATTTTAAATTTAAATCATCCTGTGTTTTCTGCTGTGTGTGTGTATATACATACATACACACACACACACACACACACACACACACACACA
GACACATTGTGTGCCAGGATGTGAGTCAGTAATGAAGAAAAGCCTGGAAGAAAAAGAGATCTGTGTTGAGAAGGGAGAAAGAGAAGAAAGAATGAATAAA
CTGTGTTGTCATGTGATTTTTTAAAAAGACCCTTTTTTGTGGTTGTTATGAGTCACATTTTAAACAATGTAGCCTGGGTGTGCATTCTTTTCTTTTCTTT
TTTAAAGCAGTGGCTATAAACATGGTGCCGTCATGTATCTTTTTCTAGGATTTGAGCTTTAACAAATGAAAAACCGTGTGTATAAAGGGGGGAAAAAGAA
CCGAAAAGTGGTGTAATTAAGGTGATGGATTATTTCCTCTTACCCAATACTTTCTTTTTTCAATAAAGGAAACAAGAACAATAAAGAAGCCAGTAAAAAT
ATATGAAGCCCATAATCAGAGTTCTGGGGTTTGTTGACCAGGTGGTTATTTTTAGCAGCTCACCTTGGAGGCAAGAGTTTTTGTTCGTGTTAGAGGCTGT
GGTTTCTGAGCAGAGCACGGGCAGAGAGACGATCTGGTGCCCTACCTGTTAGAGACTCACGGAAATCCCAGCTGGGTGCACCTGTGGAAGGTGGTTGTCA
GAGGRAAGGATTCAGAATGACTGTCCTACGCTAGTGGATGCTAAAAGGAACATCAATGTCTCCCGTTTCAGCTGGGAATGTGGGGTTTATGACTCAGACC
ATTCCTAAGGTCCAGGGGCCCCATTTCTCGGGTCTCCCTAGGTGCCTTTCTGCAGTTCTCCACAGTTCTCATCCAGACAAAACCAGGAGAAAGTGCACAT
CCACAGCTGTCTCTTGGGCATAGAGGGGAGCAGTATTAAGAGAGGCCCATTTTGGGGGTAATGCTGGCTGGCATTTGACTCTATTCCTTAGGCTTTAAGT
TCTGTTTCTTTGGTGCCAACTGGCCAATCTCTGCATTTTGCACCCCCTTCTCTCCTTTCCCATTCCCACCCTCACCCTCTATTGCCTGCCTCCCAAGGCT
TTGTCCACCAGGGTAAGGTCCCCCATCCCAGGGCCTGGCCTCACATTCCCTTTCTCCCTGGACTCCCTTCCTCCCACGCCTCCTTCTCCTAGAAGCACTT
CTGAGATGCAGAGAGGGTTAAATGGTGCTTTTGCACATAACCGTCTGATGAAAGGCAGAGAAGTGTTCCTAACCCCTGCCGGGGTTCCAGATAGGCAGCT
GTAGTGTGTGAATCCTCCTCCTTGCCCCCACCCCCTTATGTCTCCAGCTGCCAGATTAAGGCTAGGTGTTGCTGAGCAAGAAAGCATGGAGATCAGATGT
GTGAAGCGGGTAACTGCTTGGCGGCCATCCTTCCCCAGGGGACACAGAGGTGTTCTTTGTGAGGTTCGCTGGAGCATGCCACCTCTCCTGCTACAGAGGC
CTGACACGTCCCCTCTCCATCAGTTTACCACTCATGTAAACAACTGCCGAGGCCAGCTTATCTATGGGTGGAAGAAAATGTTTTTCACCAACTTTTCTCT
CCAAGAACACAGGGACAAGACTCAGTTTACAGAAAGTAGCATAAGTGCCACCAAAGAGTGTGAAGCGTCCGAGACTTCAGCCAGTCAGAGATCTGAATTC
GGAGGCATTTAAAAATGCCTCTAGATGTGGGAGCAATCCACATGGTTTCTGCCAACTTACTGAAAACATCCCGGCGCCTCCCGCCACACCATGCTCATAA
GGCAGATGGAAAGAGTCGTTTCTCAGGGATGCCTTTGTGCTTGTGCGTCTTTTTTCCAAACACATCAGAGGGCGTGACCACATTCTTCTACTATCTTCTG
TAAACTTCTCTAGAGGAGCCAACCTTTTTCGTTTGTTTAATCTCACAAATTAAATAAAMCTTTATGTGAAATGTTCCTTCACCAGCACTTCATTTTTAAC
CTGTACAGAAAGGACTGTGCAGACAGGCCAGTCCTAAAACAATTCTGACATGCAATGAGCCTTTTTTGAAAGAGAAAGAGAGAAGGCTTACCCTTGGTGT
CTTTCAAAACACTTCTTCTGGAAACCTGGGTGACTCCCCCAGGTCCAGATGATATTTCATAAAGCAGCTATAGTATATGCTTTCTCATTTCAGAGATTCA
GTGAGAAACTGACTTGACTGAGACACGCCAATCCTCAGACAGGTTCAGACAGAAATAGGAGGCAGAAAGGAAGAGGACTGTTTCCTCTTCCCTCCCTACT
TGGTTAGAGCAAGGAATCTGCAAACTTGTTCTGTAAAGGCCAGATAGTAAATATCTTGGGTTTTACAGGACATACAGTCTCTGTTGCAAGTATTCAGCTC
TGCCATTGTGGCATAAAAGCATCCATAAGCAATATGTAAACAAATGAGGGTGTCTGTGTTCCAACAAAAATTGATTTACACAAACAGGCAGTGGGCTGGA
TTTGGCCMATAGGCCACAGTGAGCTGACCCCTGGGTTAGAGCACAGGCTGGGATTTTGTCCACCTGGTTCTAGCCGTGACTCTGACACTTGCTAGCAGKG
TACAGTTCCTCAGGGGACCCTGGGCCATCTCTTGGGTTTCACTGAATGCTTCTCTGCCCTTCTCCACAATTATCCTCCAAGTGAAACCAGGAGAAAATCA
CTTGTCCTCTCAAGTACTCAGGTCTCCCTTTGGAGGGTCATGAGGAATAAACAAAATTGATTCATGTGAAGCCCGTAGACCAATGGTTAATACACAGGAA
ATGTCCACTCAGGGTGGCCGTTGTTACAGACACGTTTCCCAATTGCATAGTGACCCTATTTGCAGATAGGAATGACCGGAACACTACCTCATGTGTAACT
GTTTTTCTTATTTTCTCCCATGCCTGGTTTCTCAAACTTTATTGTTTCTCAAAATTCAAATTCTTTGTGTTTGCATTGCTTTTCTCCAGGGGGCTCAGAA
TTTTTACAGATGGGAGCCTGTGCAACCTTGCAAATGCACTTGGAGTTCAGTTATTGACTATTTAAGTATCTGTTTCTGATTATCTCACACAATGGGAAAA
CTTTGTAGAGAATCTGGGGTGGGAATTAATGAAAAATAGTTCAGGAATTGAAAGTGTTTTCCAGGTGAAAAAAGACATGTGAGTAAGCGGTAGAAATTAG
ATCAATCAAAGGGAAAATTCAGGTCAACAGATCAACCAACTCCAGGCAAGGTTGAATTCTCACCTACACTTTCACCCACCTAGCCCAGGCTCCTTTTTTG
TCAAGCAATGGCTCGATCACCCCCAGATGGCTGAAGGGGCAAGTGAAGCTAAAATTGCACAACTCAGCAATTCGGGCATCTGGTGCAGGTGACATCTGCC
TAAAGTGGGCACCTTTTTCTAATTTCCCATAGAGGTGCCACATGAGCTAGCAAAATCTCTAGCACTTTCTGAAAATAACTCTCCAGGGAAGTACCAGTAG
GTCATCAACATTTTCCAGGGAGTCTGAACATTGGTCCAAATATATTCCCCTATGCCATCCGTCCATTTATCCATCCACCTATCTATTCATCCATCCATCT
GGCATTCATTGGATTGCTGATGTTGTCTGGGAAGGTGCTTTGGGTATGGATTTAACCCCTATTGATTTATCGTCTTCCTTTTCTCTAGTTGGCAAACCAC
AGCCTCATTAGCATACAGCTCTCCAAGGYTGGAACAGGGCCAGATTCTAAACCAGCACACTCCACCTGCCTTTGGAGTTGAGTCTTTTTAGCTAGTGAAT
GTTCTGAGAAACTTCTAGCCCCCAGCTGCAAGTCAACCAAGAGTTGCTTGTAGGGGATCAGGAAGGGTTTGCTAGTCATATCCTCTCTTTTCTAACATTA
ACGTTATTTCTAACCTCTTGACATTAAAACATGAATTCACATAGTACTATTTCTCATTTCTCCAAACAAATGCCCAAAGAAAATGTTTAAGGAGCCAGTA
TAATGTCCCCCAAGTAGCTTTTGTCACTGAAGTTTTCTACATGTTGATAATTTCAGGGGAGAGAAGGATAAGTAGAGAAGGAGAAGAGGGTCTTACTTAA
AGTGGAGTTTGTCTTTCAAGTAGAGCAGGATTCTGAGAGACTATGTCTGTGTCTCTGATTCTAAATATGTAATCCATGTACTAGGATTTCACCTTCCTCC
AGCAGGTCCCCTTGATTCTCTCCATTGTGCCCTAACATTGTCTCTTATCGTAAGAAACACTGTAAGAGAAACATGAAGGCTTCATCCTTCTCCAGCCTGA
GCACTTTAAGCCATAGGTTGTGTATTTTGTGTTGGAAACCAGCATTTTGGCTGAAGGAAAGCAGACTTTTGAACAAAGATGATGTAGTGATGGAGGGAAT
GTGGGTAGTTGTGACCATGTTCTGCTTGACAAAAATTTCTGCTCCCACCTCTGTGGTCTGGTCAGGTACTTCTTTAGAGGGAAAGCTAATCCCTGAGGAT
TTATCACCTCCCTTTTCTTGATGGGTGAGCTGCAGCCTCATTAGGGGATGGCCCTCACTGTGGAGCCACATGAAAATCAGAGACAAACCCCAGGACACCC
TTTGGGGAGAGAAGGGATGTCTCTGAGGAACTCTGGGGGCATCCCTTAACACTTTGATGTTTCCTGTGCATTTTTGTAAGCTCATATCGAAAATCCAGCA
GCAGGATGGTTGCCAGGCAGCAGATCCTCTTGGTGACCTGAATAATGAATTGACACCAGTTGACTGTGACTTGCAAGCTGGCCACTTCAAGGAGCCATTT
CCAGCACCTTGCTTTCTCTTCCTCTCTTTCTATGCATAATTTCCACCATGGCCACAAATATGAGAGAGAGAGAGGCCTTTCTCAGCTATGGTAATGAAAC
TAGTAAAAGACAGAATTAGTTTGGGGACAAAGACAAAGAGGGYAGGCAATAAGGTGGGAGAAGAGGAAGATGTATAAAGGGACATTCAGGGGATCCTGGG
ATTCTGGGGTCATTTCTACCCCAGGGGTTGTGGATGTGGCTGTCAAGGTGTGTGCAGAGCAACACATCCTTGTCAAAGCTCTGCCAATGTTGTGGGACTT
CTGGTCACCCAAGAGGTGCCAATGAACCTGCACCCTAGCGGAAGGGGATTCATACAGCAGGAGAAAGCAGTGATTAAGAGCTAAGAAGTTGAGCAGGCTT
TGAAATATTTTCCAAGAAAAATGTTCTCATTTTTCTATCACTTCTGAGAAGACATTAGAAGGTCTGACCCACCTCCCACCTATTCCCCAGATCAAAGAGA
GGAGTTCTGATGTTCAGGCTGCAGGAATTAGAGAACACAGACTCAGAAATAGGAGTCTTAGCCTCAGTTCAGTGTTTGATTCACCAAGCATTTATTGAGT
GCCTTCTTTGTATAAACCCTTAGGTATGGATGAGAGCAAGTTCCTCATGATGAGAGTGAGTTCCTCTGCTTAAGGAGCTCTGAATCTTAGGGTGGGTAGT
GTAAGGAGGCATGAAAATAGAAATGAGCCCCGTTTGCATCTTGAGCAGAGGGGGACCACCCTCTGCTCACAGGGTAGGACCACTAATGCATGAAGGAGCC
CGCAGCACTTCCCACCCATGGCTCCCCTGCTGGGGCACCCCATGAGTAGAGAGGATGCATCTTTCCRGCTTAATGCAAACAGCTAGGGAGGCATTTTTCA
TAGGAGAAGCATATATCATTTTTCAGAAGTAAAGATCATGTCTGGTTTTGGCAAGCTCAAAAGCTCCTAGTCCCTTTCTGGGCCAGATTCTCATCTGATG
TAAATCTTTGGGAGAATCAAGTTGTAACACTGCTTTGCATCAAGTGGGACTCCAGCCAGTCTTTCCCCAGAGTTACCCTGGGCTTAAATCTACTACATCA
TCTCCATAGCAACCGGCAGCGGCCAGTGAACGTGGTTGCCTTCTAAATACTCTGCCAGCTTCTCTTCCCTGCTCTGTCTTTTCTGTCATTAAGAATGATT
TCCCTCCCTCTCTCTCTCACTCACTCACTCTCGCTCTCACATACCCTCTGTCATTTTGTGCCCACATTTTTTTTGTTGCAACTTCCCTTCCAATCTGCTT
TTAAAAATCCTCCATCCAATTAAAAAATGAGGATGCATTAGTCATGACTTAACAGTGGTGATTGACCTGTCTAGGCAAGACCAGGCTAATTTCAATGGGC
ACAGAAGCCTTGGCAAGCCAAAGTGGAATTTACCTTCAAGTCTAGCCAGCTTAATTAATACATTGTTGCTGAGAATGCTGGCCAGCCAGACCAAATATGG
TGTTTCCACCACTCAGGAAATCTGCCTCACTGAATCCCGGAAGTCATGTCAGCATCATTTACTTGTATGTATTTGTGTATGTGTATGTGTGTGTGTGAGA
GAGAGAGGGAGATGGAGGGAGAAAGAATTAGAACACTTCCATATATTATAAAGTGATTGTGGTTGAACAGAAAGAGAAGAGATGTGTAATTCTACCATTC
TTGGTTGAATCCCATACTTACTATTTAACTAGCTGTATAACCACTTAACTTAACCTCTCTCCACCTCTGTTTCCTCATCTGTAAAATGGGTCTGACAATA
GCTACCTCCCAAGGGGGTAAGTAGGAAATAATGCAATCGTTGAGAAGTGCTTGGCAGGTGCTAAGGACTGAGTACCACCTTAGTCCCCCAGACCCTTCCC
TGTATGTCCCAAAGCATGTGTGTGTTTCTTTCTTTTTTTAAATTAGTCTTTTGATTAGTCTGCATGCTCTCAGCCTAGCAACACTCTTCTGTGTCTCTCC
ACCAGGGGGCACCCTCCTGCCAGGGACCGAGCCCACAGTGGACACGGTGCCCATGCAGCCCATCCCAGCCTACTGGTATTACGTAATGGCCGCCGGGGGC
GCCGTGCTGGTGCTGGTCTCCGTCGCGCTGGCCCTGGTGCTCCACTACCACCGGTTCCGCTATGCGGCCAAGAAGACCGATCACTCCATCACCTACAAAA
CCTCCCACTACACCAACGGGGCCCCTCTGGCGGTGGAGCCCACCCTAACCATTAAGCTAGAGCAAGACCGTGGCTCGCACTGCTGAGGGCCGAAGCAAGA
ACAGCACCCAAAACAAACGAGAAAGACTGCAAACATGTTGCCTCGATTTTGCACTTTTTTCTCCTCGCCTAGTTTCTGTGTGAACTCTCAGACATCTCTT
TCCCGGATCCCCAACCCTGAGCACTCTTATCAATCCCAACCATCCTCCTTGGGTTCATTTTGGTTTCTGGKTTTTCTTTTTCCTTTTTGTTGATTCCAAA
CCAACAAACCCAACTCTAATGCTGCATCTTGGACTATCCGAAGAGATCCACCCCCAAGCACTCCACAACTCAAGGCTCAGCTGGTTTTGTTCCAGAGACT
GGTTCGCTTGTTTTTTCCCCTTGCCTTATCCCATACCTCCTCTCAGTGGGCAGTCTGCCAGGAGACGTGAGGGGAAGCCTGGATCTGTGTGTATGTACAT
AGTAGACATGTGTGTGTGTGAATAGCTCTCTGTGTGTGGGTGTGTGAGAGAGCGGCTGGTTCATTGTGTGTGTGTTTGGGCGAGGGGTGAGTGTTCAGAG
AGGGCCCCTTTAACTCTTATGTTACTTCTCCTGGGGTACATTTTACAAGAAAATAATATACTGTACAAGTTTTGTTTACTTGGAGAAGAGATTGAAGCTT
TTTGTTGCCTTATCTAGCTCTGGCTGGGTTTCTGTTGGCTGTCATTGTCATCTCCAGGTACCTAAAGAAATAGAGGCCACATGGGATGCAGTGTGGCTTC
TCCCATCCCTATCCCCAACYCACCTGACCCAAGAGAAGGTTCCCCTAGCACACTCAAACAAGACCCCCTTGTCTTCTGGTGTCTTTGAAATGTCAAGATA
ACAGCCACTGGGTGTCTGCGGAACCACCTCTCCAGCCCTAAAGCAAATCTGTCTCATGTTGCCTTATAAAAGAGAAGCTCATAATGAATGTTTAGCCTTT
ATCAGTTACATCCAATCTTGGAATAAGTCATAGAGAATAACAAGTCTGGGACTGAYGTAGGAAAAACAGTAGTCTGTTTAAGTTGAGAGGAGGAGGAGGT
GGACGAGAGAAGGGAGGAGAGGGAAGAACTGAAATGTCTCCTCACCCAGGGTGGTTATTGGGCCCAACTTGGRATGGGGTTGAGTACGAAGGTTAAAAAA
CATATACTTTGGTATTATATTGGTCATTGTAATAGCAGTTGTAAAATATGGGGGGAAAAGGGATCATTTGCTTTCCTTTCATGGTGTTAATGTGTGCCTG
AATCTATAGCCGCTAAAATGTAAGGCTGTCCACCTGACTTATTTAAATATTATCAGAGAATAGAAAGTAATCACTTTTTAAGTGTACCTATGTGCTGCCC
CTTAAAACATTCATGGCATCTGGCAAATAGACCCTTGTAGGCTGGCCTGGCATATTCAGATGTTGCCGCATCATCACAGAGAAGGTCAAATGAAGATGTA
ACCATTGCTGCTCATGTGTCTTCTCTAAGCAACAAGGGGAGCGGGATGTAAGAGAGAAGTTGCTAATGATACTGTACAAAGGATGGATTAAATAATGAAG
TCAATTTCATTGATAGAAAATGCAAATTTTAAGATTCTCAGTGTATGAGGTCTCAGCCTCGGGAGCATTTATTTTTTACTTTCCTGCTAAAAATCCACTG
GGGAGGTATAAAATTCACTCCAAAGAAGTTTGCCTGGGCCAAAAGCCTCCAGGTTCCTTCTGAGAACAAAATACTAATGATTTTTTTTTTTTTTTTGGCT
GCTTGGGASAGACTTTCAGCATTCTTTCACGATATCCAGATATGTCCCTTCAGCACACACACTCAACTTTCTCATCTGGTTCGTTTCATCCTCCCGAAAG
AAYGGTGCTCTCCCACTCTTACTCTATTTCAAAGAGCTACTCTGTCTCAACCACAGCAGCCCTGCCAAGAAAAGGCAAGATGAAAGGCTAGAGCATGTGC
TACCTTGAGATTTCAAGAAGTGTCCTACCTCAGCTGARGATGGAGAAACGGGGAGTGGAGAGGGGATCAGCCCAGGGTACCATGTGATGACTAATATGCC
ACTCATTAAGGGCTTTTACCTCGGCTGTCCACATCCAGTCATGCATTTGGGGCCAGGCATGCCTGCGAAATGATTGACATTCCTGTAGGTGCCCCATAGA
GGTGTGGCATTGAGAAATTATGTCTGGAAAATACAGCCAGTGTAGTGACCAGCTGAGTTACCATATASCCTGATGATTCCCCTTCTGTAACAGAAGGTGA
CAACAACTTTGTGAACTTTCTATATCTTTATCTGATGCCCCAAGTGGCATCWTCTTTATGTACATGCCTTAGTTGAGAATATGAGACTGCTCTAATCTTT
GTGAATGCCTTCACACTTCAGCTGAGGATGTCACCTTCTCTGTCACTCCCCATCCTGCAACCTCTGCCTTTGCTCTGTCTACCCCAGCAATTTTCATAGT
GTTATCCAGGTACTGTGCTAAAAGGTCAGCTCTTCTGTAAAATGCCATGCTTCGCAGCTTCAAAAAGCAAAATTCTGTATTTCATGGAGGGAGGGAAGGG
TCATTCTCTTCTAAGAAAAATAGACTGGACAGGCGAATGCATGCATGCATGTGTTTAGAGTTGCTTCTCAGAAGACAAAGAGATGATAGCAACTATTAAA
ATATGAATGAATGAATGAGTGAATGAGTTGAAGGCCTAGCTCGGGCTGATAAAGCTTTTGCCTTAGTAGAGGTTTTATGTCAACACCTTCAGGAGGGAAG
CCCTTATTTCTGGGTTGAACTCCCCTTCCATGATATTATGCTAGCAATTGCCATCACTTAGTTCCTGGCGAAGGCAGAAAAAGAAAACAAAAAATCAGCA
TTGTCATTGACAAAACTGGATGCTGAAGATAAAGTAAAATTGTCTTTTCCCTTGTCCCACATTTTTGGGATTAAAGCCAGAATTGAATAGGAAATACAGT
ACTATTTCTGAAGTTGATAGCCGATCTTTAAGAAGACCCTGTCTTTAAAATGAAACTAGCAGGCAAACACCTAAATAATCGAAAATTACCAAAGAACAAC
AACGAAACAAGAAAACCTAAAGATTTTTACTTCCTATTCTTATTCCTTTCCTTATTACTGTGACACCCCTTGCATTGCTCAGTTGCCTGTGTGTCAAAAT
AACTTGTGGACGTTGGAAATTATTTGAAAATGTATTGTGTGGAATGTAATAAAATGATGATATTTTTATACAAACATGTGAGGTTTTTTTTCCCTTTGCC
TGTGAGAACAAAGTTGAAATGTAGGCTTTGAGCAAACTGATGCTTCCAAAGTTTACACATCACCTTCTGAGCTACAGGGCATTTCTGTGGGAGGTAGGTG
GGTTTTCTCCTTGAGGCTGAATGCCAACTTTTCCTTCTTTTTATTTTTATTACTGCTTGTTAGGATTTTTATCCAATTTGTGCAGCTGAGACAACTTTTA
TGATTGGTGTGGGATTTTGCAAAAGTTGCTAAGTGCTAAATTGCTAAATGAGATTCCACGAAATTTCTCTTGATGACAAATCCCTGGAGATTAGATTCTA
CTTTCAAAGSGCTCCGGGAGAGTGGTACCAGCTAAGCTGAATCCTGTACCCAGCTCTGCAGAGACAGATCACTTCCTTTGAAGAARCAGCAGTGACATCT
TACCCCTCACCTACCCAATTATTACTTCCACAGGGATGTGAATCTCCCATTTACGAGCGCTTTCCCAGACAAAACGGGAACTTGTAGCATGTTCAGGGCT
GAAAGATATTCTAGACTTCATTTTTGAACAGGTAATGAAGATAATTAGATGATGACTGTGGACATAGAACTATCAGAGTGGAACATTTTATGAAAGGAAC
ACTATAAAACTTTGAGGAGAGGCACTTGGGGAAACTTACTCAGAAGGCCAGGTCTTTCTTGATGAGTATTTTTCTTTGGTCCTCCTCTTTAGATGGTGAC
CYAGTTATATAAAATATTTCTATCAGAAGGGAACTGGGTTGGGCCAGGTGGGGGAAAATCTAGGAAAGGCAGCCTCCCAGCASTTCATGGTTTCTAGATA
GTGGTCAAGAAGAGGTCACATTAATCCTATTTGCAGATAGGATTTCCCACCAACCCCATTCATGGGATTTATCAGAGGCCTTCTGACAACCTGGGAGCCC
TCCTCAGGGGTCCGAGAACCATCCTTAAAGGTCCTGAGAAAATGTACATGTTCAGAAGATCCTATTTCTGTCAGAGTCCTGCTTTTCATCCTATCCAAAC
CTAGATCCAGGAAGGAGTGCTTTTTACAGCTGTAAAACCTGTCCAAGTGCTGCTAAAAGGAGACAGGCTTCCGGTTTTTAGATCTTACAGGAAGTTCTGT
TAGTACAGATGGTTCAGTATAGATGTCACTATCTGTCCCTTGCAGGAGAATAAAGTAGAATGTCAGTGATCAGAGCATTTTTTGTKTCCCCAGTGACAAG
CTCAATTACCCCTTTTGTCTAAATAACATTTGGCTTTCCTTAAAGCCATTTGTTCCCATTAGTAAAGAATGAAATAAAAATATCTCAAAAGTGTTGATTT
CAAACAAAGACCCAGGCTCAGTCAACATTTCCTTGAGCTGACCTGGGACCAAACTTGCCGGACTGAACTAAATTAGCCATCACTTATGCTTTGTTGGCAT
TACTGTTTTTGGAACCATGTTTGGGAATTTTCCCACCTTGGTTCTAGTCCCAAGACTTATTTTAAGGGTACTTACTCCCCCTAAAAGGGCAAGGACTGTT
AGGACTCCAATCTTAGATGTCAAACAGGGCACTGTTACCACCAAACACTCCTCAGTGTGGCATTTCTTATGTAGCCCAAGCATAAATGTTCAGAAATTTT
GTTTCCATGGATCATAAATACCAGATGTCAAGGCCTAGGCCGGTCTGTTTCTGCTCCTACCTGGTTCTTTGTGATGGTTTCAGTGTGTGTTCTCTCTTCA
CCCACTGCCCCCCTAGCTCAGATAACCGAAACCCAGCCAAGCTGAGGTGGCACAGTGTTTATTTTCCTTGCCCCTCTTCACGGCCTCTGCAGTTGTTCTG
CACAAACGTGTGGCCTTTCTGTAATCTCTGATGAAAAGAGCTACATCCTGAAGTTTTGACTTGCCTGCATTGTGGGCTACACATCTGAGCCAAACTGCAG
ATCTGTAGGTGAAGGCTTGTTTTTTCTCTTTAATTGTGCAGATCACTGGGGCTCTCACAGCTGTAATTTGCCTTTCATACACTTTAGTGACAGCCCAAAG
AAAACACAAAACAAATCCAACCAGAGAAAAAGGGAGGGGGCGAGGGGAACACCAGCTGATGATCTTACAATCAGCAGGGAAAAGAATTGCCTCATACAAA
TAAATTAGTAGCTAGGAATAGTGTAGGATTTAATTAATCCTGACACAGATCAGGTGCACCACAGTATGTATAGAGGTCAGATACAATCAGAAACCCACAC
CCTTAGGGGTCTTCAGGCCACAAGCCTGGGCCAGAGTATGTTTGCCCTGACTGCTTGGAGGTGTTCTGTTTGGACCCAAACCTAAACACTGAAGAGCGAC
AAGATTTGGGAAATCGCCAAGAGCAAAACCTTATTTAGCATGGTATGGAACAGTGGAGAATCTAGGTGCTTCAGCACAACCAAGCCGAAGCCATTCTTTC
CCCAATCCCAGTGGATAACAGACCTAGAATCATCTCCTCTCTACTGGGTAAAACAGTTGTTCTTGGCCTTTTCTGCCACTGACCCCTGAGAGCCCCAAAA
AGCTAAAGTCCCGTGGGCATTGGACCAAGAAATAGGAAAGACCATTTGAACAGTCAACAACAGAGGTACTTGAGGGAGGACTGAGTGTTATGTGGGAAAA
CCTCTTTTCTCGGAGTTTCATTGCTTGAGAGTGTATTGATACTGATGATACAGGGAGGCTGCTGGAGGGAGACTTTATAGTAACTGGCTGGGTTTCTTTA
ACTCACAAGTTAAACATGCTCAAAAAGTGCAATAATACAGAAAAAGCCAAAGTCGATTTCATTGTTGACCAATCCCAGTCACCTCCCCAGAGGTAACTGT
GAGGGATGGTTTGAGGAGTATGTTTCCAGGCCTTGTTTTATACCTTTACAAACATGTATGTTCATGTTGAGTTATGTGGTTTGGTTAAGCTGGGGTTTAG
TTTGGTTTCATTTGGTTTTGTGTAAATGGTAGCACAGTGTTTGCTTACTATATTGGATGACTTGCTTCTTTTCATTTGACATCTTGAGGGTAATTCAGTA
CATACTAATGCATCTACCCCATCCTTTATATCTGCAGCATAGCATTCCATATTGTGTTGATATGCCAGAGTRTATTAACTGCTCCCCTGTTGATGAGTGT
TCAGACTGTGTCTAGTTTTTTTTTTTTTTACTATTATAAACAATACTGCAATGAACATCCTTGAAATTGCTTCTTTGGGCACATGTTTTACAAAGGATAG
AATTTCTGGGTCAAACACATCCCTGTTTTCATTTTAGTAGGTGCTATAAAAGGCTGAGGTTTGCCGTTTAAAATTAACCTGTCCCTGCTTGAGAGCATAG
CAGAAACTAGTGGACGTCCTGGCTGTAGAGCCCCTGCCACATCTGCCCAACCCATGTGATCTCTATGCCTATCTCTCTTTCTCTACAGTGGGTGTGTTGC
TTGCAAGAGAAGACCTTGGGCACTTTTAGCTGAAGATAATTTTAAACTCAGGGAGTGTTTCTTCAGAACGTTCTTTTTTTTAACTGCCAACTTACGGGGA
ATATGGACCTGGCTCTAAGTGTCAGCTCCCCAGAGCTGTGGTGGCTGTGTCACTGGAGTTAATTCTGTCCCTGGGTTCATCAGGCAGAGTCCTGTTCTCC
ATGATTAATGAGWTCCACTTGCTTTCTTCAAAGAATGCCTGTGCTGTGCCATGCTGTTATTTATTTATGTTTTCTACTAAAAAATTTAYGTAAAAAACAT
CCCTTAAGGTCAGTATGCAGTATTGTGCTGCAGACTAAACTATCCCAGCAGCCAGAGGTAAACCTACACACCAAGAAAAAGTCTCAAATTTGAGAGGCCT
TGGACCACAGGCCCCCACACTGGCCCCAAGAGGGGCAGACCTTGTGGGCTTCCTTCTGAGGAAGTTCAGGGCTGCAATACCCAAAGGAAAGGCACTAGGC
AGTGAGGTGGTTTTCTAGTGGGATGTTTATAGGCATAGGCAAAGCTACTAGCCCCCACAGGGGCCAGTAGCAAGGAATGGCGGGTGGAGGAGAAGCCCAG
AGACCTGTCAGTCCAAACACCATTTCTAGCAAAAGCACTGCCCTCATTTCTGTGGTGTGCTGAGAGAAAAGTGTCATAACAAAGTGGCTTTGACTTTGAA
CATAATGGAGTGTGTGTGGCTATATAGGTCCAGTGTGTGCTTTCCCTGACCTGCCAAAAATCCAGGACCATTGCCTCCTGGGCATGAGGTATGAGTATTT
AACTCAGGAAAGAAAGCAGCATGAGTTGAGATCTGGATGAACTAGAGTGCATCTCTCTCTGACACACACACACACACACACAGTGCCTTGTTTTGTCTTC
TCTGTGTAATTGCGCAAAATTAAATCCTTTAAATATCACGAACATTCCCCAAAACAAAGGCTCTGCTCCAGAATTGGAATGATAGTATACCATGCCACGG
CTTTCAGCAATACCAGTTTCTTTCTCCAGCAGCAGGACTCATTAACAGGATGCCTGGACTGGACTTCCCTGCAACTTATTAAAGAGCAGCCAGCTCCAGT
AACGATGGGTGTGCAGAAAGCCTTGAGCTAGAGGCAGCCTTGACCAAAGTCTCATTCTCCAAAGCCTGCTAGTTATTGAAGCTTCATTTAAGCACAAAGA
AACTTTTTGTCTCTTTGTGTTTTCTTGCTGCCACCCAGGGCCTGCGAGAACAGGCATGAGGATTTCAGGGGCTGGTGTGGGCCTCCCCATGGCTTCTCTA
GGGCAGCCCCACAGCTGGCATTGAGAGTGAGATGGTAGTTATTACAACCTAGATGGGGCCAACATGGGTGTGTGAAAGGAGCCCCAGAGATGCCTCATTC
GCCTTGGCCAACTGTGGCCTAAGAGGATGAGCCCCATATTAGTGTTTACAGGGGTCCTGGGCCCACAAACCCAYCACTGCTTTCTGGCTCTGCACCTCCT
GATGTGGCTAGGGTCTCCACCTCTTTCTCTGTGGAGGAGCTGGTCACCACTCATCTGCCTTTGTGCCAGGTGCAGTTTGTCTCCAACCTCCAAAATCCCC
TTTCTGCACCTTCCCCTTCTCTTGCTGACCCCTTTTCTTCTCTGGCATCCTTACACTTTCTCTTTCCCTTCATCCATCAATGCCTTCTTCAAAAAAGCAT
GGGTCAGATTCCTTCACACAAATGCCGCATGGCTACTTCCTCCAATAATTGCATTTTTACAGGGGACCACACCTGAAGCCAGGTCTCTTAGTAATTACGG
TCCTTGGCCACCAGCAAGCTRTTGGGGGAAATCATCTCTTGAATGGGCAGAGAGAGGTACATTTTTGGTAGCTGTAAARTGATATCACAGAGTCATTCAT
TCTCATTCATTCTTGTGTTCAGAAGAAGAGCCCATCTTTTAAGTACAGTGAATTCTGTTAGTGACATACAGGTGTACAGTTTCTTTTCAAGGACCTACAA
AATAAAAGGGGCTATCTTTCAGAAGATATTCTTCTTCACATTGGAAATGGATGCAGTTTTGATTCTTCAACTCCATTTTCTCACTTGTCCAAGGTTGTAC
CAAACCACTCCATCTGAGTGACATAGTGATGTTTCTAACATCCACACCTCAAATATTGGAACTAGAGGAGGGGAGAAATTTCAAAGCCCACTGGAAAAAA
ACTCCCTGAAATATGAAGATACATGACTTTTTCCCCTAGCATCCCAGGAAAAAAAATAAGACTACACAAGAGGGGGAAAAAACAGCAGGTTTTCCTTGAA
ATGCTCTGTTTTTCCCACCCTCATGCCCTAAGAGAAGGTAGCCAACAAAAGAAATGAAAAGAGCCAATTGCTTGTTCACATATCTACTTACAACAATGGA
GAATAGCTGATTTTTCAAAGACTTGGGGTAAAAAAGAGGTTCTAGAATTTTCTTTCATCAGCTTTGCTGTGTTTTTCCAGTCTGCACAATTGTGAAGCCT
ATCTTTATAGCCAAACATGTCTCTGGCTGCATTTTTCTTCTTTTCATGCCATTGTTGGGGCTCATTGGAGACATTCTGGCCTCAGCTGCTCATCCGCCTC
CACACTTGAAAGTATTACTAGGTCATTTCACAGTCTTCTTGTTTGCAGTCAGTATTTCCAATTCTTTTTAGTGTTTCCTTCTAGTTATTCAACTAAAAAT
AATAGAAACGAATGGCTAAATTCAAGATCAAACTCTTCCAGTAATCTCACACCAAGCCCCCTCCTTTTTTTTCCGCACTTGAAACCATTTGAAAAATTCC
AAAAAATATTTTTTCCATGACCGTGCCTAGATTTGGCTGTAGCCCAAGAGATAAAAGCCTGTGATAAAGGCTCTTCTGATGGTGCTTCTAAACTCAAGCC
AAACCCAGCAAGGAATGAATGGCTCTCAAGTAGCCCGACTTCTTAACAGAGGAGATTTGGCAAAGTTTAGATCAACACCTGAATGTTTGGCTCCTTATTG
CAACTTGGATGAACAAACTGAATTGGGAAATTAAGTGTGGTGGGGAAGGCGGACCTTCAGCCAATACTAAATATTAAACTGAATTAAACCGAATTTTGAA
GTGCCAAGAAGAATCTCCTTAGTCCTTTGTTATTTATCTTTTACTGAGGTCTCAGTGTTGTATTTCCTGCTGGGATTAAAAGAGAATGGCTGAGAGAAGT
TTCTGGAGGCTACTCATCTGAAAAATCCAGCGATTTAACTGGCCCATGGGGTTCAGAAACTTGGAATCAAGTTCAACAAAGGCACTAAGTGGCCAAGAGC
TTATCCCAAATAAATCACAGCCCCCAAACAAGGTGTTGAAAATCTATGGCTTACTCTCAGTTCTACTGCTGATTTATTCAATGACTTATTGCACTTCTCT
ACCCTCCCTCCTCAATTTCATCTCTAAAGTCAAAGTGATGACACCTGGTACCTGTGAAAATGAATGATTTCAGTGGTTTCCTGTGTGTAAGAGGCTCTTC
GATCCTTGCCTTCAAGGCTGGTTGAAATGTGGTAGGTTAAGTGGATGTGCTAAGACTGGCTTTCCATGAGGTTTTCTCAGCCCAGCCTCAGTTAACACAG
AGGCTTAAAACTATAGGCACAATTTACCCACTTTGTCAGTTCCTCAGTCACCAATTAGCAGGACTAAGTCCTGAGCCAAACGGGCAAGTATTGAACACAT
AGAACCTCATGGGTTCTCTTGACCTGTCCTTTTTGTGGTCTTCTCTTTCTGTGCACACCTTAAAACAAATGGTTTCAGGGAGTGGCCACTCCCAGGAGAG
GACAGAGTTAGGGTGAAGAATGGGGCAGTGAGCATCATGGGGCAATGGAGCCCTTTTGTTCAGAAGTTGCCTTGTCTCCCTCAACCATCACCCTCTTCAA
AGAACCCTCATCAGAAAGGCCCTCGTACCTTTCTCATTTCCTTCCTGTAAAGACAAGGGAATTCTAGAGGAGAGGAGAGCATCAGTGTTTACTTTACAGA
GGAGCAAACAGAGACCCAGGGAGGTCAATGACTGGTCAAGGCTCTGACACCTGAGGCAGAACCACATGGGAGGTAGGCATTCCGCCCCCAGCCTAGGGCC
CTCCACATCCCACGCCGCTTCCTTCAGTGCAGGGTGATGCTGCCACTGACCAGGCTTCTGAGTGTCTCTGCTGTACACTCCAGATGACAAGCCTGTCATC
AGCTTCAAGCAGACCTCTTAATCCACTGCTCAGGGTTGGCATGGAAGGGACTCTTCAAAGAAACCAGCACATTAGTGACCTGAAATGATCTGTGTCCCAG
GGCTGTCTTAAATTATTTACCCAAAAGTAACCAGTGGTTTGGGGCAGACTTCTCACTTTCCTGGCCATATTGTGAAGCTCCTTTACAATGCGGGAAGTAA
ACAGTGTCGAGGCCAATATACTCATACAATATGCTSTGTGTAGACACAGAGCGAAGGCTGAGAATTTTCTGTAAGAAACTGCAGAAAAGCAAACTAATGA
AGGAATGCTAATCCCAAATAATCTTAACTTAGAAGAAGGAAGAAAATGAGGGAGAGAGGAAAGATAAAAAAAAGTGTCTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTCAGAGAAAGAGAGAGTGAGAAAGAATGGAAAGGGCCATAAGAGAGGGCCTTCTTATTTGAGGACTAAATCATTCTCAGTAGGAATTT
CCAGGCAGCAGGTTGGAGTGTCTTGGGGGTGTTTCCCCTGAGCAGCATGTGTGGTCTTACACTACCAGGCAGTGTTCCAGGGAAAAGCTTATTTCATTAG
AAGAGGTTGGGTTTGTGACTGGATATGGCGTTCACCCTTTGTGCCGTAGTGTTGCAATGTATTGACAAGCACACTAGAGAATATTTGACTCTTCCAGGGT
GGAGGGTGTTTCTGGAACAGTCTTGTGGGTGTTTTCATAACTAGCCACCCTGGTCTCTCATTCCAAAAAATCAGGACAGCAGGAGATCAGTGAGACCTTG
AATCATGCCTCACCGTGTACCTACTCTGTCTCTCGATGATGCAGAGAGAAGGGACACTGACCAAAATAAGGTGACTTTTTGGCCTGAGACTGATCTYCAT
ATGAAAATGACCAGAGTTTTGTGAAGTTGGGTTGTATTTGTTTTTAAGCAGTAGCTACTGTGCCCACTTGATTACTCAAGCTCTGTAAAACCCCTTCCCA
TCATTCATTCAGAGCTGACCTCTTTCTCTCACTGTGCTGATCTGCAACAGCTGGGGAAGGGATGGGTGTTGGAGATCGGGARGGCAGAGGTCTGACTCTC
ACATAGATATATGCAAGGTGGAAGATTTGTGGCAAAGCTAGGTGATCGCTTTGAATTCCTTGATGAGCCTGATACGAATGAATGCAAGCCAAAAGACAAG
AGATCAGGTGCCATGTTTGAAAGCATTTCTATCAATCAGACAGATAAAGGGAACAGAAATCCCCCGATGCCCAACTTGCAGCAGCCTCAATTCCACAGTA
TCCTCCTCTACACTCCCACATTTTCCTTCCTGATAGTGGCCCAGGCTCATTTGCCCAATCCCTGCCCTGGACTCCAGCAGCACTTGGGAGTCCTCTCCGC
AATGCCTCACTTTCTTTCATGCTAATTTGGCATGGGTGAGTCTTCACTTCCCAACCACCCTGAAGGGCCTTGATGGTAGACACCTGGTCCCTTACATCTT
TATTTTCCAAAGTCATCAGTTTGTTTCCTGGGCATGCAGTGAGCCCTCTTACTAAGTGGTGTTAGGCTGGTTAGTTGGTTAATGAAAACTGCCCTTTGAA
GAACAATGTAATTTAGTTTCCTGCTCTGGGTGATGCCTGTCATGGAAAGCATGAAACCCCAAATTTCAGATCCCCACTTCTTCATGTTCATGAGAAGCCC
CTCAAAGCCCTACTCTATCAAAGTAGTGAGCCAGTGAAACAGGCAACCAAAGTGTGTATCCAGCCAATCCGGATCTGAGATAAGGCAGACTCTTTTATTT
TATTAGAAGGGGGCAGTAGGGATATGGTGGTAGTTACAGTGTCCCAGCCACACCCAAAGAACTTGAATGCAGACTGGGGATCCACCCTGGCCCTAATACA
GTTATTTGAGAGTCAGTATTTGTAGTCAGGCTGACCTGAGACTGAATCCACATGGGGGCCTAGAAGGAAACAGGGTCATGGGAGCACAAAGGTTGAAAGC
GGAACTCGTGTGGGTGGTAAGATCCCTTCCTGACCTGCATTCTTCTAGAGGTTTGGMCCATTCCACTCTCCCTAGCCCATCTCACACTCACCAACACACC
CACCCACTAAAACAGAGTCCTGGAACTTCCTCTTCAAGTTTTCCCCATTGAAAACAAAATTCTGAGTCCCTGGTTCCTTTCTCCCACTCTCTCCTGATGT
CTGCCCTGACTTCGGCAGCTAGGTCTGCCATCCTGTGGCTGCCATTTCCCCTTTCCAGGGAGCTGTGGCCTCTACCCTCTGCCTTGGGCTCCTAGCTCAT
CATTCTCCCCTCTGCCTCCCAGAGGCCGGTAGCTTTACCCGTTGGTTCTCCTGGTAGCATCTTACCTGCCACASCTTGCCTATTCTTTGCTAGAACTACA
GGGACCTRATGAGAGAACCACATTCCTTCCTGCTGGCCTCCTAAGGAAACAGGCTGCAGTTTACCTACCAGGCTCAACAGAAAAGGAAAGTGGCTGGTAA
AGGGCAAAGATGCTTTTGAGAGAGAGAAAGCTCTTAATCAAACACAGATATCAAGAATATTAGCAAGGGGACTAGAGAAAATTGCTATCAAAGTAAATGG
TTTTTTGTACAAATGTTCCCTTTATTTGTGTTTTCCCCAGTGTGCCATTCTTTCTTTAAGGCTTGGTGAACAGATGTGCTTTTGAAAATGTTGATTAACT
TATCCTTTTTTTGACCCCCTTCCCACTCACTCAAACTCAGGGGAGCAGTGATTATATAAAAAGCCAAGTCAAGCCACTAAAGTGTTCTTCTTCACCTTAA
GTAGCCTTTGATTCTCCAGGTGCAGAAATCTCAGCTGCATCTGGGCAATTGATTTCATTGAGTCTTAGAAATGGGCCAATTCTTAGGAAATCATCTCATC
CAGTCCTCAACCTCCAGAGACAAGAGGCCGTGATCTCCTGTGATAAAATGTTCTCAAAATCATTAGCATCATTTTACCCTTTTTCCTTTAAGATCAATGC
CACATTCACCCCTTTCCAGCCAGTGATCTATGGTATCCTAAGACTTCTTCCCTGAGGGTGTGAGATGGAGCAAGATGGCATTCTAGCCTCCAAGAATTCA
TCACATCCTKGGCAGAAACAAGATCCCTAAAAGCAAGCATAGGATTTGGCCCAGAAGTCACTGGCAGGAGCCCCGTGGTTCTCATCCTAGGCTGATTCAC
ATATTCTTATCCAGTGTTCTGCCTCTTTTACTGGTGAAGATGTTAAGACATATGAGCAGCCCATCAAACCAATTAATTGTTGGAAATGTGAYGGTTTTCT
TCCATGTTTTTTTTTTTTTTCATATGGAAAAAAACCCTGTGGGTTGACTTTCACAAGCTCGATTTGATCCCTGTGACAAACACCACCTTCCTCTTGTTGA
TTCATGTTCACATCTCCCTTCCAAGGAAACAACCTGCTCTGTTGGGGCCTGGAGGAGAATGCAGGGAATGGGCGTTGAGGTGGGGAGGCTGGCGTGGCCT
GCAGGTGCCACTTGCTGTGCTTTAAACATGCAAGGAATGGGCTGGAGTTATGGAGGATTAGTGCCATGTGGCATCAATCTTTTAAGTGGGGTCTTGGCAA
GTTGTTTTGTGCATCCCTTACTAGSGACCGAGGGGGATGAGAATGTGCTTTAGCACTTTGGCCAGAAATGAGRAAGACTTCTAACATGATTGAAACCATG
GCCTCCAGGAAAAGACTGAATTTCAAATGTGACAGTGATGGATCAATGCTCAGTTCRGATCATGGTCAAGTAGATCTTCCCCGAGATGTAGTGCTGATGA
AGGAAGCTTTCGGGATGGTCTAAAGTTCTTTTTCTCCCTCTTGTCTGATACTTCAGCCGTTTGGGATTTTGATTTTCTTTTAAGCCTTGATTTTTGGATT
TCAATTTATAGTAGTGACTTCAAGATTGTTTATCTGACTTGGTGGAACAAAACTCTGAGAGGGCCATACACATTCACTGGGGCTGTCTTGAGCTGACAGC
TTGGAAAGGCATAATTAGCTTGTGAGATAGGAAGAAATGATAAGATGTTGCTCTTTGCCATGCATTTGATGTTCTCTATTAATGTTTTACCATTTTAGAC
AGATAACTTTCAGTGGTTSTGATTTCTATAAGTTGGACAGCACAGTGAATAGAGAGACCTGTATTATCACCCTCCCAAATTATCATGAAAAAGAAAAAGA
TAGACAGTGATAATACTGGAGAAAACTCATAGTAAATTAACTTAGCCTGGCTAGTCAGATTGGATGCCCATCTTTGATCTATTCTAAACCACGAAGAAAG
CTAATAGGAAAAATAGACTTGGGAAGGATGAGAAATATTAGCACAGATATGTGAAGGTCAACAGGCATTATGACATGCCTTCCATTTCTGCTCTTAAATT
AAAACATATAATGATGAAACAAGACTTCCTTAAACTACCATATGTTTACATGAAATCCAGAGGAGAAAGACTCTGATGCTTTTGTGCCCACTGAGATGCG
TGCCTATGAAGAGGTGCAGCATGATACACTAAATGGACATCCCAGTAAAGGCAGCTGCTGTTGGGCATAAGATGCCATTGAAGGTGCCTTAAATGAAWCC
TGTGTTCCTAATGAATGCCAGTCATTAAAAAGGCACAGTGGCAGGGGTTGCTTGGCACTGAAGACCCAGAGTTTCTTCTTAGTTCTGTGTTACTGGTTGT
GGTTGGAGGAAGACACAGGTCATCTGAAGGAGAACAATCCAGTAATGTCCATAATGAATGATCTAGAAGTAGAGGTGATTCTCTAGCTGCCTGCCAGAAT
GGGGAGTCATTCTCGTAAAGATTGCCTCCCTGCCTTTTAGCCATGGTGAYAGWACTTGTTATTAACTTGTTTTTATTTTCTTTATATTATAGTGGACATC
CCAGAAATACATGAGAGAGAAGGATATGAAGATGAAATTGATGGTGAGTACTGTTATGATTTAGCAGGTAATCGTAAAATTCAAGTTTGGTTATAAAGGT
GTCAACAAAAATAATGCTCTGGGTATCGGAGGGCCCAAATCTAGAACTATCAGTCAGAAATATATAAAAGAATCTGGAGAAAAATGAGGGAACCATCAAT
GGATCTGTCAGGGTCAACTTTAGAGGTTTAGAAAGTTTATTGAGTTCCTCTGCCTAATCTGAAACAGATCCCCTCTTTCCAGTAACTTTTTACCTGGATG
GACTTTGAATCTGAATAAACCCTTTACAAGTGAAAGATCAGCTCCTCCATACGTGTCATAGTCTGAATCTTTTGACCTTCTCCCAAAAATGGCCTGAGTG
AATGAGCATAATGTGAATATTCTCCCAGACCTGCTGTGGTTTCTGGTTCCCTGGCTTGGGGGAAACCTTCCTCACACTATTCAAGATTCCAATTTGGAGC
TTCTTGCAAGATTTCGGTTTCTTTTTCACACTGACCATCTCGTATCTTTATATTTATTCCAAGTTCTATTTTTCCACTGCAAACACATATACTTCAAGAG
GCTAGAGGGCTGCTGAGCAAATATGTAGATGTAATTTCTTCCCTCAACTCAGAATAGCACAGGTCTCTCTCTGGGCTTCTCTGAGTACCAGAGTTGATCT
CCAACAGACTCAACAGCAAGATTCCACTTAAAGAATAACTGTAGACTAAGATTGATGAATTTAAGAGGAACAGTTTATAGAGCAGCTGCTTTTAACCTGC
CTTTAATCAGAAACTTCATGCGTAGTTATAGAAACTGGAGTGACTAACCCAAACAGCACCTTGTTAACTGACTGCAGACTCTCCCTGCAAAACCCAGTCC
AACACTCCTTTTATGGGCAAAAGTGCATGACCAACCTACATGGAGAGACCGCAGTAGATCAGGCAGAGGCGCACTGGAATGGAGTAGAAAGGGCAATGGG
TAAGGAGGCAGAAAGCCTGATCTCCATTCCTGCTTTAACTGCTTGCTAAGCCTGTGACCTGGAGTGAGTTACCTAGTTGCCTAATTTCTTTAAACCTCAG
TTTCCTCACCTATTAAAATATATATAATATCCTGCCTTCTTCATGGGATTATTAGGATATTTCAAAAAATGATGCCCAGATGTGGGCATGCCTTGGCCAC
AGTGTAGAAACGTAATTAGATTAGTCTGCTAGGGCTTCCAGAACAGAGCACCACTGACTGGGTGGCTTACAACAGACATATATTTTCTCACAGTTCTGGA
GGCTAGAAATGTAAGATCAACATGTGGACAGGGTTGGTTCCTTCTGAGGGCTGTAAGAAAGGATCTATTCTAGCTCTGTCTCCTTGGCTTGGAGATGGCC
ATTCTCCTGTTCATACGATGTTCTCTCATGTGTGTGTCTCAGAATTTCCCCTTTTTCTAAGGATACCACTTTTATCGGATAAAGGTCCACCCTCATGACC
TTATTTTAACTTGATAACATCTGTAAAGGCCTTATCTCCAAATAAGGTGGTGAGGGTTAGGACTTCAATATGAATTTAAGTGTCTGGGAGGGGGATACAG
TTCAACCAGTAACAATAAGGCACGATGCCTTATTATTAAAGGAGGTCTGATGGCTGGGAAAAATCTGCTGCTTATATGGCCAGGAATACCAAATTAGGAA
ACTCATCATGTGCAAATAGTCCCAGACTGTCCTTTCATTAGCTTGAGGAGGTTGGAAAGGAGGGATGTAGAGGTTGCCTTGAACACAAGGCCATCCTAGG
TGCTGTAAAGCCACCCCAAAGGTGCTGTTAAAATCAGAGCTTACCTAATGTAAGTCAAATTATTTATTTATTTATTTATTTTTTTGGAGACGGAGTCTCG
CTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCTGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGC
TGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCTTGAC
CTCGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTCAAATTATTTAAATATCGGATACTTAGTACTT
ACTATGTTGCAGACACCAAGCACTTTACAAATATTAGTTCATGTAATCCTCCTAACAACCCAGTTGAGGCAGATTTTACTATTATCCCCATTTCAAAGAG
GAGAAAACTGAAGCAAAGAGAGGTTCAATAGCTTGCCCAAAGTTACACAGCTAGGATGCGGCCAGGCTGGGCTTTGAACCCAGGCAGTCTAATTCCAGAG
CTGCTGCTGCTAACTACTGTGCTCTGAAGAGCCTCTGGGCTGGGGAGGCTCAGTCACTTCACCCTGACATAGGCAGTGCCTGCAATCTCTCATGAATTTT
ATGTATCRCAGATGAATACGAGGTGGACTGGAGCAATTCTTCTTCTGCAACCTCAGGGTCTGGCGCCCCCTCGACCGACAAAGAAAAGAGCTGGCTGTAC
ACCCTGGATCCCATCCTCATCACCATCATCGCCATGAGCTCACTGGGCGTCCTCCTGGGGGCCACCTGTGCAGGCCTCCTGCTCTACTGCACCTGTTCCT
ACTCGGGCCTGAGYTCCCGAAGCTGCACCACACTGGAGAACTACAACTTCGAGCTCTAYGATGGCCTTAAGCACAAGGTCAAGATGAACCACCARAAGTG
CTGCTCCGAGGCATGACRGATTGCACCTGAATCCTATCTGACGTTTCATTCCAGCAAGAGGGGCTGGGGAAGATTACATTTTTTTTTCCTTTGGAAACTG
AATGCCATAATCTCGATCAAACCRATCCAGAATACCGAAGGTATGGACAGGACAGAAAAGCGAGTCGCAGGAGGAAGGGAGATGCAGCCGCACAGGGGAT
GATTACCCTCCTAGGACCGCGGTGGCTAAGTCATTGCAGGAACGGGGCTGTGTTCTCTGCTGGGACAAAACAGGAGCTCATCTCTTTGGGGTCACAGTTC
TATTTTGTTTGTGAGTTTGWATTATTATTATTATTATTATTATTATTATTATATTTTATTTCTTTGGTCTGTGAGCAACTCAAAGAGGCAGAAGAGGAGA
ATGACTTTTCCAGAATAGAAGTGGAGCAGTGATCATTATTCTCCGCTTTCTCTTTCTAATCAACACTTGAAAAGCAAAGTGTCTTTTCAGCCTTTCCATC
TTTACAAATAAAACTCAAAAAAGCCGTCCAGCTTATCCCATCCTCTGATTGTCTTCTGACTTAAGGGATTTACTGTGGTGTAGGTTCTGCCAGCCAACCC
TACAAGCTGCCATTTCCAGTCCTAGCATTTAAGTAGGATGTTGTTGCCTTTAACTTTTCTTATCCAGGGGAAAATTGCCATTTTAGGGTCAGCATGAACA
GCTCTTTCTTGTATGCGATTTAAAACAAACTGGAAAGGAAACTTCACACGTCAAAATCCATAGAAGCGCCTGGACGAGGCTTAAAGTGCTTTGTGAGTGA
ATAGGAGCCATTCGCTAATTCTAGACCCACAGTGTCTGGTGGTGGGGCTTCCCTTGTGGGGCTTCTGGTGGTGGTTTTGCCTTTTCTTTTCCCTCCTCCA
TGTTCTTCTAAAACATATACATATATACATACACACATACACATATTCTTCAGGTCTCTAAGCCCCTGGAAGCAGCATTGTGTGATATTCTCAGAGGCAG
GGGAAAATAGAGGGAAAAATAGAGACTATTGGTATGTTCTCCCCATCAGCGAGTTATTGTAACTGGTCACCACTGGACGGGAAGGAGAACAGAGGAGAGG
GAAAGAGAAGCCCAACCTCTGTGATCATATGAGGGCCAAGGCTGAGCAGTGTAGACAGAGACCCTTTGAAATGCATTTGTCTCTCAAATAGACTAGTAAA
CACCGACTTCTCCTTTGGGTTACAAACACCATTTCAACCTTTCGGGAGAGTCAGAGCTAGGATGTACAAGAACTGATTCTAACCAGAAGTCCGCAAGTAC
TGTGGACAAGAATGCTTAACCATGCTGCTTCAGCCTTGAGAGACCTAGGTTCTTACACATATGCACACACGCATACACACATGCACGCACACACACATAC
ACACATGCACGCACGCACGCATGCACACCAATTTATGTTTTTATTAAGTGCCTTGAAAAAATGAAGAAAAATGTATTTTCCCTTTATGTAAAAATTAGTG
AATATCTTATGAATTAAGGCATTCCTCTTTCCCTAACCCCGATGGCTCCATTCCCAAGTACCCCAACTCACTGCTGATCCTATTAAAGGAATGAGTCCTG
CTACCCGAGTGGTAGTCATAGCCCTAGATGACTCTCAACTACTCTTCAAAGGGAGGCATCAGGAATAGAATGAAACTGTGTGAAGGATAAGATTGTTCGC
ATCAAGATCCAAATCTTGATTTCATATTAACGCCTAAGGATTGCCTGTGTGCTGGAAATATATTTGAAACTCAACCAGTATGCCCAGCCTATTGCATATC
ATTGTCAGACCATTTTTGCTGCTGTGGTCACCCACGATTTCATTTGTCTTATACCCAGGTGAAAGGGGAAGGGTGAATGGGACTGGCTGGTTCCTTTAAA
TGTTAACTTATGGAAATGCTAGTTCAAATGGTAATGTCACAGTGTTTTGTATGCAGAGAGCAAGAGTTCAACCAACAGCTGTTTATTCATGTGTGTGTGT
CTTTGCTGCTTTGAGTTCTCTGTATCTACTGTGTATGTGAATGGTCATGTGGGACTCAGTGGTGGTGTTGTGACTTTGACCTAGGGTCCGAGTGTCACAG
CTGATCTTGGCACTCGGCACTCATTGGCACAGTGGTAGTTAGAGGTGAAAAGTAGAGCTGTCAAGCCCAAGGGCTTAGCTTTAGGGCTCCTCCTGAGTTC
GGCCCACAGTAGAAGCAAGATTTTAACTAGCCCCTTTTCCTCTTCACCCTCCCATGATGCGCAGTGTTCAGAAAGCTGGTAAGTCCTAGGGATTTCCAGA
AGTAGCCTGCAGAAGAAGGTAAGTTTGAAAGCCACTCCAGGGGTCCTGATGCTGTCATGCTCAGTGAGCCATTTTACAGTTCTCCAAAGTCTAGCCCTGT
TTCGGACCTGCACTTCACCTCTAAGTTATGTACAACTCAACCTGCATCCCTCTAAAAGTCCTATATCCATATTCACCATTGGCTAATTTGAGGCCCTGAG
TGGGCCTTGAATGCTAAAAAGAAGCAGGGTACGSAGGGCTACATGTAGATACCACACCAAGGCTGGAGGCTGSTCTGTCRTAAGACAGAAAGAAAGACGC
TGGGCCCAATTTTGACTTGGCCAGGGGACACCTTGGTGTGTTTGTTATCTTTATCTGTGGGTAGGCTAGCTGACCCATCTCCTTGAGTCATTCCCTTTGG
GAAACCCCACTGCCAGTATTGATCTCCTTTTTGCCTTGTACTGAATGACACATTACCTCCACACTCTCCCGGACTAGGTGGTCAACAGGGCCACAGGGTT
GCTTTCTGTCTTTGGTGGGGCAGGGGAGTTGACAGGGATGAGGGTCCAAGGAATAAGCATGAATGACAAGAAAACAAGGGAAAGAGTTAACCTGTCACAT
AGCAGGTTAACTTTTTCAGGGTTTGCAGTTAGAGGTATTCGACCATTCACTGGCTGAGCCAGATCACGGGAACTTGAGAGCTTTTACTGTGATTCTTCAA
TGTAAAAAATAAACAACAATGTCAAACTGTGTTTATATGATTTGTATAAAGCCTTTTTAAGATTACTATTTAAATAAACATTATACCAGAGATATTTTTC
TGCATCGTGGTTTTTTTTTTTTTTTTTTTCTCTGCATTGTCTTTATTGGAGACAAACAGATCCGGGATAAGGGTGACCAAATTGTCCCACTTTGCCTGAG
ACTTTTTCAGGTTTTTAGCACTGAATGTCCTGTTGAAATAGGATAGTTCCCTCAACCCATTCACAGGACTCATGATAGGGTGGCTTGCTTACTCAGCCTG
CAGCTCTCAACCCCTTGTGGGAGGGGGAGAACACAGGAGAGCAGGCGCAGAGGCCAGGATGAGCACTTTTGGGCAACCGGCAGGAGCAGAACCCTGTGCG
GGCCTGCGGCAGAGTCTAGGGGTCGCCCATGACCCCTGGAGCCCCAGAGGGCCTGTGTTACAGTGCGCTCTTCTAGCTTTGCCATCCACGGATGGCTTAA
GTGTTAAACAGCTCAGTGTAGGGTCATGATGACAGCCTCTTGCACCCACACTCAGGTTCTTGTCTAGCATCCAGGAGGAATGAGGTTTCACAAATTTGAG
GTTGGTGAATGTGGAGGATTTTATTTAGTGGTGGAAGTGGCTCTCAATGGAATGGGGAGCTGGAAAGGGGATGGAGTGGGAAGGTGGTCTTCCCCTGGAG
TTTGGGCATCCCTGGCCAAACTCTTCTCCGAGGTCCCGCTACCAAGTTGTCCCTCTGAAGTCAAGCTGCTTCTCTCCAACATCTGGCTGCTGCTTCTCTC
CTTCTCTGCCACTCTGCCACTCTGCTGCTCTGCTGCTCTGCTGGTGGGGCCTGGGGTTTTCTTTGGGTACAGGATGGGGGACAGGGCAGGCCAGGGTGGT
TTTAGAAAAGGTAACATTCAGGCAGGAAAACAAGAATGTATGTTCTCACTTTGGGCCGCAGTACCAAAGAAGAGGGTGGTACCCTTACCAGATACCACCC
TCTTCTACCCAGTATTTCCTTGCCTCCTGTCCCTATCACTGTGTCCTGGAAAACCCTTTGTCTGAGTGAGCTTGGTATAACAGACTACCACAGACTTGGT
GGCTTAAACGACAGACATACATTTCTGACAGTTCTGATGGCTGGGAAGTCCAAGATCAAGGCACCAACAGATTCAGTGTCTGACGAGGGCTCTCTTCCTA
GCTTTTAGATGGCTGCCTTCTCTCTGTGTGCTCACCTGGCCTTTCCATAGAGAGAGATCTTTCTGTCTTCTTCTTCTAATAAGAGCACTAATCCCATCAT
GAGGGTGGGACATAATGACCCACCTCATGACCTAATCTAAACATAATTACCTCCCAAAGGCCCCAAATCCTAATACCATCAAAATGGTAGTTGAGGCTTT
GATGTATGAATTTTAGAAGGACACAAACATTCAGTCCATAATACCCCTCGATCCTGGGCAAACTGAGATGGTAAGTCATCCTCTTGGGATAATGTTTCTT
CTCAGCATTTGAAGCAGTAGGCTAATGGGCAGGTTGGCTTCTTATAAAATGAAGATAGTGTGGGAATGGGTGATGGGCCATCTGGCCAGATGGGCTACTT
TAACTCAGAGTCCTACCTGGTAGACTTCAGAGGCTGTGACCTGTACAAACTCTTCCTCCCTGGACATCACCAGGCCCTGCAACTTTAGATTGTTTGCTCC
TTCCTTTGTGGTCAAACCCTTGATTGTCAATATCTCTGGTGGTTTCAGCATCTGTGATGGTGCTTCTCAAAGTGTGGTTCTTGGCCAGCAGTGTTAGCAT
CATTGGGGAACTTGTCAGAGGAGATGTATATGCTTAGGTTCCATCCCAGATCTACTGAATCAGAAGCTCTGGGGGTGGGGTCTAGGGATTTGTGCTTCAG
CAAAGCCCACCAGGGGAATCTGCTGCTCTTTCAAATTTAAGAACCACTGATCCAGTAGAAATGAAAATGTTTGTATCCTCCTAAAATTCCTACATCAAAG
CTTCAATCCCCATCACGATGGTATTAGACCGTGCGGTCTTTGGGAGGTGATTAAGTCATGAGCTGGGTCATTAGGTCCCACCCTCATGATGGGATTAGTG
CCTTTAGTGGAAGAACTATCCTGGCCTCAGGTGACTGAGGTGATTGAGGACCTTTTCACCTATTGGTTATTGGATTCAAAACTACCTAGGTAGTACAATA
AGTTCCCTGGCAAGGGGGAGGGAGACACTTCATTATGAACCTCCCTCCCCATGGAAGCTCTGAACCTGAGCCAAATTTGCCRCCATCCTGGGGCTCTGTT
TACCCTGAAAAGGAAATTTGTTTCGGTCTCTTATTTAAGAAATGTTTTTGAGCAGTTCCTGATTTTGTAAGCTCTTAGAGCTTCCACTCAGGGAGGGGAC
GGGAAGCAAACAGCCAAATGCAAGAACATGATCAACAAAGGAGAAGGGCTGGAGATGGGGCTGGGAAGGTAAAGGGCCAGGACACACTGCACCTTAAGGC
CCCAGTGAGGAAGTGCTCTCTCTTCTGTATCATTCTTCTGCTCTTTTTAATTGATAAAAAAGGGCAGCCCCCACTACCACCCATTCCTCACTGACCAATA
ATGTCACCATAGTCAAATCTCTGCAATTTCCCTCTTTGACCCTCCTGTGATCTTACGATATCTTGTGTATCCTGGGATGCCTGCTTCTATTGTATTACTG
ACCCTAGCAACAATAACAGAGGTTAAAATGAAAACAAATTTCTTCTCTCCTTTAGTTGAGCTTTTGGGTATTTTTAAAGCCCTAATAAACTAATAATATC
TCCTGGTCCCTAGCCAGCAAGTGTTTACATAAGACCTTTTTTTTTTTTTTTCTAATCTACATCCTTCTGGAAATGTTTACATGAAACTCAGGGGAGGCAG
GCTGGCCAGTGAAAYGAGGTTGGAACAGGACCATGGTTGAAGAAAACAGGACCCATCTGGATGCAGAGGCCGCCTTTGCCCCTGTGACGTTGGTGGTGTT
GATGGGGGTGTGGGAGGGAACCTGAAGAGGTTGAAAGATGACTCAATTTCAGTTCTCACAGCCTTCAGGCTCTAATCCCAGGCTGAGCTAAACAAAACTC
TTGGGAAAAAGATCTCTCCACCGGGGGATAAAGGGTGTGAGATGGGGAGTGGGGTGGTGGGAGGGGGTGATGGTCAGAACAGCAAATGCAACCAGTGGTG
GGGGCTGAGAGCTACCTCACCATCCACCCTAGGGGCTCACAGTAACTTAACAGTCATTCCCATCAACACAATGGGAAGAGTCCTGGAAGCTTACAGGTCG
CCCCAGGCTGAGGCAAAGGCAGGGCTTGCCCCTGAATTCCTATCTCTCAGAACTCTTGAGCCACCTTCGCCTGCTGCCCACCCCATCTTCCAAGGCTGGT
CCTCTTCCTTCCTGAGTTTTCTCAGTGACCCTCAGAGGCAGTTCCTGGTGGAAAGACAATGCCTCTCATGTTCTCTCTGGAGGCCCAAGCAAGAGACCTC
CAAGGGAACTAAGAACCAGATTACTTCTGCAGCTCATCCAGAGAATAACACCTGTTTCCTCACCCTTCCTTGTCAGAAAACCCTATAGGACAAGTGTGTG
TGCGTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAGTGCTGTTCCTGTCATCACAGTTTTACAAGTGCTGTAAGAAAAGGAGGCCTTC
TCACTAAGAAAACATATCCCACCTGGCCACAGTGAGTCTGAGCCCTCCCTCAACCCCTCTCCTACACAGTGGCACCAGTGCAGGAGGGTGCCCTCTCTGC
AGAGGACACAGCCCAGCCCAAGCAGGGCCCACACAGTGTTCAAACCCTGACCTGAGGCCCTGTCAGGCTCACGTGCACACTGAGGTGCCTAGGCCTCTGC
AGAACGCCCTTCACCAGTGGAGAGGCAAAGCCCTGGGGTCTGGGCATTCAACATGTGAGGATTTGGGGTGCTTGGTTCTAGGTCCCTTAGCAAACCCCTC
ACTAGACCAGCAGGCCCTGGCAGCTGTGTTCAGGCATGGACCCTTCTTTACCCTTGAGACTCTAACAGCCTCCCCAGAAACAGTGCCGTTCAGTCTGCAA
GGTGCAGGCTGCAGCCTCCACAGCCCCTCAGGCTTCTCAGAACTGTCTGCAGGGCCAGGATGCCGTGGTTTGGAGCATAGCCCCACTAATTAATCTCATC
CTGAAGCCCTTGACTGCCTCCACTGGGAATTGAAGCACAGCCTTGCTGCACCTCCGCCTTGCCAAGCCTCAGGCAGAACTGCCCGACAGGGCCTTGACTC
CAGAGAGGGTGGCAGGCGGCCTTTCTAGATTTGCCTTCTGTCTTCACCTTTTTTCCTCCTCTCACCCCTCATCTCATCTCGCCTTGAACATTCGTGTTTC
TATTCCCAGCTGACTATTTTTAATGCCTGTGGGAGTTCGAAGAAAGCTTTGTAGGGTTTTGAAATCCCCCAGTGCTCCTTTCCCCTTGAATGTGGACATG
ACGAGGAGGCGGAGAGCACTGTCTCAGGGCTTGGGAGACCAGGGTTCAAGATTCGGTTCTGCCTCTGCCTGTGTGACCTTGGGAAGGCCACAACACATCT
TGGCTTTCCCATCTGTAAAGTGGATGTTTGGGCTACATGGATTTTGAGCCCTCAGCTATGCTATGACATCCTAGTCCATGGGGTGGTTCTGGCTGGTTGT
CTGTATGTGTGTTGCACAGCCCAGCAAGGCAAAGCTCTCCGGATGCTCCCTTCCCAACATTGTCTCAGGCGCCCTTCTGCACAGACGGTGGGGATGGCAT
CTTTGGGCTTGACTTGATGTTATCGTGGAGCTGGACCCCAATCCCAGCTCCCCAGAGGCAGAACTGCTCTTTTCCCCAGAGCCCTTCATTCCTGTCTACT
GACATAGAAACTGACATGCATATTCATCCCCCATGACCTCTTGAGGGAAGAACTGATGTATCCATTCATTTATATAATAAGCCTATTTTAGATTAAATGC
CTAAACTGTGCCTCGCTAGGTGCTAGGAGACATGATCAGCAAAACAACCTGGTTCTGTCTTCGGGGACTTACAGTCTGGAAACACACAAGTGAATCAGGA
AACCACACAAATATAACGATATGGCAAGAGCTCCAAAGCAAAGTGCAGAGAGCTGCGCGTGTGTAAGCAGGGACCTGAGCATTGTGTCTTATGGGAGCTG
AAATCCTAGGATGAGTCAGGTGAGCAGGGGGAGAAGGCAAAGATGCTGAAGCCAAAGGAAACTTGGCTAGAGCGAAGTAGGGGGTGAGGAGGAATGTCTC
ATTCACCTTTGCATCAGGATCCCCGGCTCACACCTGGCACCTACTGCCTGTGCATAATAAGTATTTGTTGAATGAATGAATGAATGACTTGTATAAATTC
CCCTCTGACAGGCATCAAGCTGCCCAGTTTGTACAGACTAAAAGATAAGTGTTTTTGTTCTTGCTTCTTGCTACCTGTTCTTCACTGTAGTAGAAAATGT
GCAAGTAACCTTCCAGGAGTCTGTATGGAGAGATTATGCCATAAGTTTCAGCATGGAAATGGGCACTATTAGTYTCTGCTTAAATATGATAATTTAGGCT
AAATATAATATTCAGATTAAAATTCTGTTGAAACAGTTGGAAAGTTGCCAGATTTAGCACATAAAAATGTCCCACGCAGCCACAGTATAGCAGTTCCTCA
AAATGTTAAACATAGAATTACCATATGATCCAACAATTCCACTTCTAGGTATATACACCAAAAATAATTGAAAGCAGGGACTGAAACAGATATCTGTGCA
CTGATATTCATAGACACATTATTCACAATAGCCAAAAGGTTGAAACAGCACAAATACCTATCAACAGATGAATGAACAAAATATGGTGTGCACATACAAT
GAAATATTATTCATCCTGAAAATGAATGACATTCTGATACATGTTACCACAGAGATGGACTTCGAAAATATCATGCTAAGTGGAATAAACCGACACAAAA
GGACAAATATGATATGATTACACTTATAGAAAGTACCTAGAATAGGAAAATTTCTAGAGACAAAGAGTAGATTAGAAGTTACCATGGGCTGGGG


SNP Information

Context             (SEQ ID NO:13089):
ATTTAGGTAGAGGTCATTCTCTGGAAGATTGAAAGGAGAGAACCAGTGATTTTGAAGAAGGGGAACAACGTGGAGGATCTTTTTTATCCATAGCTCAGTT
W
GCAAGTATGAAATGCACATTGACTATAGACCCTGCCTTGCCTGACATCATTTATTCATGCATTCTCCACTCAATCATTTGTTCCACACATCTGATGTGCC
Celera SNP ID:            hCV8807895
SNP Position Genomic:     66353
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13090):
TGGATAAACTAGAATGTGCACATGAAGGAAAAGAACAGGGTGCTCTGAGGGAAACCAATTTAGTGAGGATTGAAAATTTGGGAACAGCTTTTCTGTGGAT
W
TGACACTTGAGCTTGGGGGTAAGAAAATGTTAGTCTGGGGGTGACTGAAGGGAAAAGCATTTGGGGTAATGGGAACAGCATGTGGGAAGGATCCAAGGCA
Celera SNP ID:            hCV8807896
SNP Position Genomic:     66665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13091):
CCAACATGCTGGGGATGCTCTCAGGCCTCATTGCAGACTCCCAGATCTCCGCCTCTTCCACCCAGGAATACCTCTGGAGCCCCAGTGCAGCCCGCCTGGT
Y
AGCAGCCGCTCGGGCTGGTTCCCTCGAATCCCTCAGGCCCAGCCCGGTGAGGAGTGGCTTCAGGTAGATCTGGGAACACCCAAGACAGTGAAAGGTGTCA
Celera SNP ID:            hCV8807897
SNP Position Genomic:     67474
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,6)   caucasian(C,34|T,2)   total(C,64|T,8)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13092):
AGGTGTCTGGTGAAGCAAGACAGTTTGGAATCCACAAAGCCATCCTCAGAAACAAAGATACAAGTGTTTCCCCAACTGTTAGCTTGCAGTTCCCTCTAAA
Y
AGTTTTCACGCCTCCATTTAAAAATAGTTGGCATAATGATGTTTTCTTTCTCTAGGCTTTGTGACCACGTTTCCATGGGGGAAAATGTGAATAGACGTAG
Celera SNP ID:            hCV27832444
SNP Position Genomic:     5736
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,38)   total(C,67|T,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:13093):
CCCTTTCCTGGTAACCCAGTCCCATCACCCCAGACTCACCTTTTACAACAACTGGGCCCTCTAATCCCACATTCAGCCAATGGCCAAGTTTCCCTGGTTT
Y
GCCAAGGACTTTTTCCTTCAGTTCAACTAAAGCGAGGGATCTGATTGGTCTTTTACCAAGCTGTCGTGAAGTAAGCTATAGTAATCAGATTATCTGCTAC
Celera SNP ID:            hCV2186520
SNP Position Genomic:     17948
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   ;JBIC-allele(T,171|C,1312)   total(C,1312|T,171)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13094):
TCCCTCCCAGCATCCAAGAAGAGCTCCCTTTTATGTTCTTTGTACATGGGAGGTCTAGGTAGAGTTTTGTTCAAGAAAAAAAAAAAGTACTTCAAAAAAA
R
CAAATAAATTTGAAAGCTACACACCTAATTCAGTCCATTCTTTGAATTACAGTTTGTGAAGCTGAGCCCCAGAAAGGTCAAATTGAGTGAGTTAAGAGTT
Celera SNP ID:            hCV2186521
SNP Position Genomic:     17709
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13095):
AATCCTGGAGTTTGGTTTCAGGCTTACCAAGCAGATAGAACAGGGGTAGCACCTTGAGTAAATGTCTTATTGTCTAGGAGGGTAGAGAATCTTTTGAATT
Y
TTGGCTCAATCTGTGGGTTATAAGATCTATTCCCCACCTCACTACATGGGCTTTGGATTTTAGCACTGGAACTGACCTTTAGAATCACCCCTCTCATTCT
Celera SNP ID:            hCV2186522
SNP Position Genomic:     16961
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13096):
CTTGTGAGATAGGAAGAAATGATAAGATGTTGCTCTTTGCCATGCATTTGATGTTCTCTATTAATGTTTTACCATTTTAGACAGATAACTTTCAGTGGTT
S
TGATTTCTATAAGTTGGACAGCACAGTGAATAGAGAGACCTGTATTATCACCCTCCCAAATTATCATGAAAAAGAAAAAGATAGACAGTGATAATACTGG
Celera SNP ID:            hCV2186450
SNP Position Genomic:     115619
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,11)      total(G,3|C,11) ;JBIC-allele(G,721|C,752)   total(G,721|C,752)   no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13097):
TTCGAGGTCAGGAGAGGTAATCGCATCAAACTTACATTTTACCGATTAAATGAGGCTTCATTTTTAGAATCTAGATTGAGGGGAGAGATGTTCAAAAGGC
Y
CCATTTCCAGACCCAATTTCCAGTTCTCTCCTAAGTGAATTCATTGGAGGTGTTTTAAGAGAGGGAATTTGCTTCATTCTTTATTCATTTCCAAACTCAT
Celera SNP ID:            hCV2186523
SNP Position Genomic:     16136
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13098):
TTTGGCCAGAAATGAGGAAGACTTCTAACATGATTGAAACCATGGCCTCCAGGAAAAGACTGAATTTCAAATGTGACAGTGATGGATCAATGCTCAGTTC
R
GATCATGGTCAAGTAGATCTTCCCCGAGATGTAGTGCTGATGAAGGAAGCTTTCGGGATGGTCTAAAGTTCTTTTTCTCCCTCTTGTCTGATACTTCAGC
Celera SNP ID:            hCV2186451
SNP Position Genomic:     115257
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13099):
CTGATTCACATATTCTTATCCAGTGTTCTGCCTCTTTTACTGGTGAAGATGTTAAGACATATGAGCAGCCCATCAAACCAATTAATTGTTGGAAATGTGA
Y
GGTTTTCTTCCATGTTTTTTTTTTTTTTCATATGGAAAAAAACCCTGTGGGTTGACTTTCACAAGCTCGATTTGATCCCTGTGACAAACACCACCTTCCT
Celera SNP ID:            hCV2186452
SNP Position Genomic:     114792
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13100):
CCCTTTCCAGCCAGTGATCTATGGTATCCTAAGACTTCTTCCCTGAGGGTGTGAGATGGAGCAAGATGGCATTCTAGCCTCCAAGAATTCATCACATCCT
K
GGCAGAAACAAGATCCCTAAAAGCAAGCATAGGATTTGGCCCAGAAGTCACTGGCAGGAGCCCCGTGGTTCTCATCCTAGGCTGATTCACATATTCTTAT
Celera SNP ID:            hCV2186453
SNP Position Genomic:     114610
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13101):
ACCCTCTGCCTTGGGCTCCTAGCTCATCATTCTCCCCTCTGCCTCCCAGAGGCCGGTAGCTTTACCCGTTGGTTCTCCTGGTAGCATCTTACCTGCCACA
S
CTTGCCTATTCTTTGCTAGAACTACAGGGACCTGATGAGAGAACCACATTCCTTCCTGCTGGCCTCCTAAGGAAACAGGCTGCAGTTTACCTACCAGGCT
Celera SNP ID:            hCV2186454
SNP Position Genomic:     113874
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13102):
GGCCTAGAAGGAAACAGGGTCATGGGAGCACAAAGGTTGAAAGCGGAACTCGTGTGGGTGGTAAGATCCCTTCCTGACCTGCATTCTTCTAGAGGTTTGG
M
CCATTCCACTCTCCCTAGCCCATCTCACACTCACCAACACACCCACCCACTAAAACAGAGTCCTGGAACTTCCTCTTCAAGTTTTCCCCATTGAAAACAA
Celera SNP ID:            hCV2186455
SNP Position Genomic:     113557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,5)      total(A,2|C,5) ;(C,-|A,-)   JBIC-allele(A,271|C,1204)   total(A,271|C,1204)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13103):
GGTTTGGGGCAGACTTCTCACTTTCCTGGCCATATTGTGAAGCTCCTTTACAATGCGGGAAGTAAACAGTGTCGAGGCCAATATACTCATACAATATGCT
S
TGTGTAGACACAGAGCGAAGGCTGAGAATTTTCTGTAAGAAACTGCAGAAAAGCAAACTAATGAAGGAATGCTAATCCCAAATAATCTTAACTTAGAAGA
Celera SNP ID:            hCV2186458
SNP Position Genomic:     111736
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13104):
CCAGGTCTCTTAGTAATTACGGTCCTTGGCCACCAGCAAGCTATTGGGGGAAATCATCTCTTGAATGGGCAGAGAGAGGTACATTTTTGGTAGCTGTAAA
R
TGATATCACAGAGTCATTCATTCTCATTCATTCTTGTGTTCAGAAGAAGAGCCCATCTTTTAAGTACAGTGAATTCTGTTAGTGACATACAGGTGTACAG
Celera SNP ID:            hCV2186459
SNP Position Genomic:     109179
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;JBIC-allele(A,344|G,371)   total(G,371|A,344)   (G,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13105):
GCTCAGCATCTCTCTGACTGATGTCTACTGCTAATTCCTTAAATTTACATATCATCTTTCTTCCCTGGAGCTCATAGCACTTAACAGACAAGTGGGGCAC
R
AATGATTTAACGAAGTGAAATCCAGAGGCCTGCTCGTCTGGAGATTCTGCAGACTAGTGGATTAGCTCAGATGTCAGCACTGAATTATGATCCTTCAGCT
Celera SNP ID:            hCV27512030
SNP Position Genomic:     84570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13106):
GATATTGAACAGAGCTTTGACTGCCTGGTCAAAGCCTATGGGATTGAGGGAACAGAACCTTTACTCTAGGCTCAAAAACAAGCTCAAATGGGAGTAAGTC
R
AGAATCTTAATGTTATAAAATACCCAAATTTTACAAACAGTGGCTGGCTATTCCTTCAAATGTAAGAAGTAAGATTGTTAACACCTCACTGGGGCTATTT
Celera SNP ID:            hCV27512031
SNP Position Genomic:     81423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13107):
TTTTCTGTTTGAGAGAGGAGAGGACTGTGTGTTCCATCTAACCTAGTGACTCATATACTATTCCTCTTATGGTCAGGACAGCAGGAGTCCTCTCTTGATC
M
GGGCATAAAATCAGCCTTTTCACTCAAAAAATGGAAACAGAGAAATCAGGGGGCAGGCAAGGTATGGAAAGTTGATGTTGAAACACTGCCAACCATAGGC
Celera SNP ID:            hCV27514210
SNP Position Genomic:     93279
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,744|C,753)   total(A,744|C,753)   (C,-|A,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13108):
TATTAAATGTTCATTAAACAAAATGAGGGAAGATTGGCAAAGAGACTAGAGAAGTGATGGAGACATAAAGATATAGGTAGATGGCAAAATCTGTGGAACC
Y
GCAAGCACAGCCGTTTGACAGTTAGAGGAACTACACTGATGGAGTGGATGACTCCAGAAAATGGCTACAAAGAAGAATGGGAGGAAAGCCAAGAATAAAT
Celera SNP ID:            hCV27514211
SNP Position Genomic:     74974
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,744|T,749)   total(C,744|T,749) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13109):
AAGTGCTGGGATTATAGGCATGAACCACCGCGCCCGGCCTGGACTCTTTTTTAATCGTTACAACATCTGTGCAAAGTAGATCTTTTTGTCACTCCCATTT
Y
AGAGATGATAAACTGACACTTGATATCATGCCCAGGGTCACACAGTTCACCTGTGATAGAGCCGATTCAGAAACCGGAAGTCTGACTCCAAAGTCCAGAT
Celera SNP ID:            hCV3266961
SNP Position Genomic:     68264
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13110):
CCTGGGTTTAACATTCTTTACACCAATCAGCTGACCCATTTTGCTACCTAACATTTCCAGAAACTGTTCTCCATAGGTCACGTGGCTATGTTTGCTTTTC
R
AATTTCCATCTGTTTCTCACACTCATCTTCGGTTCACTTCTTCATCCCTATCCCAAAGGATAACAGGAAAAATAATGGGCTGGGCTGAGCTGCTGCAGCT
Celera SNP ID:            hCV27514212
SNP Position Genomic:     72389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13111):
TGTGCCGCATTTAATCAGGATGCCTCCATGCGTCCCAAGAAAGCAGACGCAAGAGCTCAGGAGAGAAACAAGGCCATCCACACCACAAAGGAGCCAGAAG
M
CTTCCAAATGTCAATGCACTGCTGCATTTTTCCAAACTTGTTGCCGGAGCGGCCTTTAACATCCCCAACGGCCTGCTGTGATCCACCAGCTAAAAACATC
Celera SNP ID:            hCV3266962
SNP Position Genomic:     45903
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,9)      total(A,3|C,9) ;no_pop(A,-|C,-)   ;no_pop(C,-|A,-)   JBIC-allele(C,394|A,1083)   total(A,1083|C,394) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13112):
AGTGGTCAGTCACACTGTTGCTGGGGCATTGCAAGCCTCCTCCTGGCAAACGCAGCCTGGTTACACAGGCCACATGCACAGCACATCCCAAATCTTTATC
Y
AATTCCACATGCCATAAATATGGAACCTATGATTCTCATACAGGGTGGGCCCGCCTTATGTATATTTATGGCATAACCACAAGGCAGAGAGCTCATCTGC
Celera SNP ID:            hCV27514213
SNP Position Genomic:     55245
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,500|C,985)   total(C,985|T,500) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13113):
AGAGATTTCTTAAGTGTTGCTTTAACAGGTTGATGCAAAATAAATAAACAGAAAGGGAGGGAGAGGGAGATGGATGGTTTTCAGTAAATAATGGTGCAGC
R
GCCAGCAGTTGGAAGGGAGCTGGTGGGAGGAAGTTTCCCACCTAAGCAGTTGTGACAGGAGTATTAACTGGGAGCCCAAAAGCAGCACAAACGCAGCACA
Celera SNP ID:            hCV3266963
SNP Position Genomic:     39260
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,11)      total(G,11|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13114):
CGTTCCCAGCAGGCTCCCGTTTTTTGGACAGACGGGGAAGTTATGATTTGCCCTCACAATTGGATCCCCTGGGAGCCAGAATTAGTGTGAACACCTATTC
S
GGAGGGAACTGTTCACCCTGCCGAGTAAAGGGGCACTGCCAGCACACCAGGGGCCCCAGACGCTGTGCTCTGATTGCCCTTCAGTGACCACCCATGCAGG
Celera SNP ID:            hCV27514214
SNP Position Genomic:     31969
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,192|C,1279)   total(G,192|C,1279) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13115):
AATTTTTCGTTTAGGAGAGATTATGGATAATGAAATGCAAACACTCTAGTTAATATGTCTGTTAGCTGGTTTATGTTGCCTTCTGGAAAACGAGTGATAC
R
TTCTAAGAGGAGCAGCTTTTCAAGTTATCCTACTTGACTATCGTTGGGGTGAGCTCTGAGTCTGTACCCCGGATTCCTTTACCAAACACTGGATATTAGA
Celera SNP ID:            hCV3266964
SNP Position Genomic:     36549
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;JBIC-allele(A,378|G,1099)   total(G,1099|A,378)no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13116):
GCCTGGTGAGTGGTGGGGAGAGGTGATATTAAATGGCCCTCTCTATTCAGGGACTGTCACTACAGATAGCGTTCTTTGTCCTTAGATTAGCATCTTGGCA
R
TGACATAAACCGGGATCTCTGCTTAAGGTTAATAATCCAAACTACTCTTTTACTTTGTTAAATATTTAAGGCTTGGAGTCATTCTTTACAATTGAGCTTT
Celera SNP ID:            hCV201313
SNP Position Genomic:     4867
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 hmCS


Context             (SEQ ID NO:13117):
TCTGTTTTCAGTATTCTTACCTCCTATTTTCTTTTTAATCTCTCATTTCCTTTCCTTTTCCTCCCCTTCCATCCTTCAACACTGAGAGTGTGCTCAGCAG
R
GAACACCGTGTTTAAGGCGCTCTCCCGAATGTGTAATAACTTCTACTCTGGCACTAAGGCCCTTCAGCAGCTGAACTCAAAAAAGTCATCATAAAGACAA
Celera SNP ID:            hCV27506057
SNP Position Genomic:     13956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13118):
AATGCCGCATGGCTACTTCCTCCAATAATTGCATTTTTACAGGGGACCACACCTGAAGCCAGGTCTCTTAGTAATTACGGTCCTTGGCCACCAGCAAGCT
R
TTGGGGGAAATCATCTCTTGAATGGGCAGAGAGAGGTACATTTTTGGTAGCTGTAAAATGATATCACAGAGTCATTCATTCTCATTCATTCTTGTGTTCA
Celera SNP ID:            hCV2186460
SNP Position Genomic:     109121
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13119):
GAAAGGAGCCCCAGAGATGCCTCATTCGCCTTGGCCAACTGTGGCCTAAGAGGATGAGCCCCATATTAGTGTTTACAGGGGTCCTGGGCCCACAAACCCA
Y
CACTGCTTTCTGGCTCTGCACCTCCTGATGTGGCTAGGGTCTCCACCTCTTTCTCTGTGGAGGAGCTGGTCACCACTCATCTGCCTTTGTGCCAGGTGCA
Celera SNP ID:            hCV2186461
SNP Position Genomic:     108774
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;(T,-|C,-)   JBIC-allele(T,740|C,747)   total(C,747|T,740)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13120):
GCTTTGCATCAGAATCACCTAAGATGTGTGTTAAAAATACAGATTCCCAAAGACCACTCCAGACCCAAGGAATTTCACCTGCAGGAAAATGGTTCCCAGG
R
ATCAGAATTTTTAACACTTCCTCCAGGTGATGCTGATATACCCTAAGGTTTGGGACTGTCTAGCTGGGAACACTTAACTTTCCACAGGGGTGTGGCTTGG
Celera SNP ID:            hCV201316
SNP Position Genomic:     3540
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,7)   total(G,5|A,7) 
SNP Type:                 TFBS


Context             (SEQ ID NO:13121):
CTCTAAGTGTCAGCTCCCCAGAGCTGTGGTGGCTGTGTCACTGGAGTTAATTCTGTCCCTGGGTTCATCAGGCAGAGTCCTGTTCTCCATGATTAATGAG
W
TCCACTTGCTTTCTTCAAAGAATGCCTGTGCTGTGCCATGCTGTTATTTATTTATGTTTTCTACTAAAAAATTTATGTAAAAAACATCCCTTAAGGTCAG
Celera SNP ID:            hCV2186462
SNP Position Genomic:     107513
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13122):
CCAAAGTCAGTGTTTCCCTTAACTGGTTGCTAATTTGAGGACCTTAGCAGAGATAGGCAGACCTTGGAAGGCCAGCTGAGGGCTGACTCATGTTTTAAGC
R
TGGACTATGCAAAGAGACTACATCTCCTACAGCACTAAATATTCTTTCAGATGGTCGTTCTAGTAGGAGGGCAAGATGCTAGCCAGGAGATGTGCGTGTT
Celera SNP ID:            hCV27474816
SNP Position Genomic:     82380
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,237|A,1244)   total(G,237|A,1244) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13123):
TCATTTGACATCTTGAGGGTAATTCAGTACATACTAATGCATCTACCCCATCCTTTATATCTGCAGCATAGCATTCCATATTGTGTTGATATGCCAGAGT
R
TATTAACTGCTCCCCTGTTGATGAGTGTTCAGACTGTGTCTAGTTTTTTTTTTTTTTACTATTATAAACAATACTGCAATGAACATCCTTGAAATTGCTT
Celera SNP ID:            hCV2186463
SNP Position Genomic:     106972
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13124):
CTATAAAACTTTGAGGAGAGGCACTTGGGGAAACTTACTCAGAAGGCCAGGTCTTTCTTGATGAGTATTTTTCTTTGGTCCTCCTCTTTAGATGGTGACC
Y
AGTTATATAAAATATTTCTATCAGAAGGGAACTGGGTTGGGCCAGGTGGGGGAAAATCTAGGAAAGGCAGCCTCCCAGCAGTTCATGGTTTCTAGATAGT
Celera SNP ID:            hCV2186464
SNP Position Genomic:     104602
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13125):
AAGGGTTTGAAGTGTTTCTTTTAGCCTGTCTCCCCAAAATGTGAGATGGCCATTGGCGAGCATAATAATTTGCAAGTAAACTGTAAACTCCTAGATTTTA
Y
GCAGACGGCCTGCTCTGGGCTCTAGGGATTGGTCTCATGCCCACATTAAATGGGTACCCAGTAAACATTTCCCCCGTGATCAGCTCCTGGAGGTAGGGAA
Celera SNP ID:            hCV27474817
SNP Position Genomic:     11540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13126):
CGCCTCCATTTAAAAATAGTTGGCATAATGATGTTTTCTTTCTCTAGGCTTTGTGACCACGTTTCCATGGGGGAAAATGTGAATAGACGTAGTTACAGTA
S
CATTTGGATGAGACGCCTTCAAGCACCTATACTTTTTCGGGGGAACTTGATGGAATCCAATTTAATTACCTGAAGAAATTATTTGCTGAAGAAAGTCTTT
Celera SNP ID:            hCV27848032
SNP Position Genomic:     5845
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(C,1|G,35)   total(C,2|G,66)
SNP Type:                 hmCS


Context             (SEQ ID NO:13127):
GCTGAGTTACCATATACCCTGATGATTCCCCTTCTGTAACAGAAGGTGACAACAACTTTGTGAACTTTCTATATCTTTATCTGATGCCCCAAGTGGCATC
W
TCTTTATGTACATGCCTTAGTTGAGAATATGAGACTGCTCTAATCTTTGTGAATGCCTTCACACTTCAGCTGAGGATGTCACCTTCTCTGTCACTCCCCA
Celera SNP ID:            hCV2186465
SNP Position Genomic:     102952
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,6)      total(A,6|T,4) ;JBIC-allele(A,299|T,1196)   total(A,299|T,1196)   no_pop(A,-|T,-)    
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:13128):
AAATGATTGACATTCCTGTAGGTGCCCCATAGAGGTGTGGCATTGAGAAATTATGTCTGGAAAATACAGCCAGTGTAGTGACCAGCTGAGTTACCATATA
S
CCTGATGATTCCCCTTCTGTAACAGAAGGTGACAACAACTTTGTGAACTTTCTATATCTTTATCTGATGCCCCAAGTGGCATCATCTTTATGTACATGCC
Celera SNP ID:            hCV2186466
SNP Position Genomic:     102868
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;(C,-|G,-)   JBIC-allele(C,285|G,1182)   total(G,1182|C,285)   no_pop(C,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13129):
TTGGGAGAGACTTTCAGCATTCTTTCACGATATCCAGATATGTCCCTTCAGCACACACACTCAACTTTCTCATCTGGTTCGTTTCATCCTCCCGAAAGAA
Y
GGTGCTCTCCCACTCTTACTCTATTTCAAAGAGCTACTCTGTCTCAACCACAGCAGCCCTGCCAAGAAAAGGCAAGATGAAAGGCTAGAGCATGTGCTAC
Celera SNP ID:            hCV2186467
SNP Position Genomic:     102503
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,37|T,1)   total(C,67|T,1)
SNP Type:                 INTRON;UTR 3;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:13130):
ATGTTGCCTTATAAAAGAGAAGCTCATAATGAATGTTTAGCCTTTATCAGTTACATCCAATCTTGGAATAAGTCATAGAGAATAACAAGTCTGGGACTGA
Y
GTAGGAAAAACAGTAGTCTGTTTAAGTTGAGAGGAGGAGGAGGTGGACGAGAGAAGGGAGGAGAGGGAAGAACTGAAATGTCTCCTCACCCAGGGTGGTT
Celera SNP ID:            hCV2186469
SNP Position Genomic:     101656
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:13131):
TACAGGAAGTTCTGTTAGTACAGATGGTTCAGTATAGATGTCACTATCTGTCCCTTGCAGGAGAATAAAGTAGAATGTCAGTGATCAGAGCATTTTTTGT
K
TCCCCAGTGACAAGCTCAATTACCCCTTTTGTCTAAATAACATTTGGCTTTCCTTAAAGCCATTTGTTCCCATTAGTAAAGAATGAAATAAAAATATCTC
Celera SNP ID:            hCV16115944
SNP Position Genomic:     105086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13132):
CTGGCTGGGTTTCTGTTGGCTGTCATTGTCATCTCCAGGTACCTAAAGAAATAGAGGCCACATGGGATGCAGTGTGGCTTCTCCCATCCCTATCCCCAAC
Y
CACCTGACCCAAGAGAAGGTTCCCCTAGCACACTCAAACAAGACCCCCTTGTCTTCTGGTGTCTTTGAAATGTCAAGATAACAGCCACTGGGTGTCTGCG
Celera SNP ID:            hCV2186470
SNP Position Genomic:     101420
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:13133):
CCACCATGGCCACAAATATGAGAGAGAGAGAGGCCTTTCTCAGCTATGGTAATGAAACTAGTAAAAGACAGAATTAGTTTGGGGACAAAGACAAAGAGGG
Y
AGGCAATAAGGTGGGAGAAGAGGAAGATGTATAAAGGGACATTCAGGGGATCCTGGGATTCTGGGGTCATTTCTACCCCAGGGGTTGTGGATGTGGCTGT
Celera SNP ID:            hCV2186472
SNP Position Genomic:     98543
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13134):
AATAAGATAGTAGCTGTATCCCCAAGTGGAGACTTCCCTCGCATCCAGCCACGCAGGATCAGCCTGTTACCTTATATAGCGGTAACTGGTTTTCTTATAG
A
AAAAAAAAAGGGTAAAAAAAAAAAAAATCTAAGTAGTTCTAAGATTCACATTGGTTCTTGATAGCTGTGCTACACAAGTAGAGTCTCAAAGTCAGTGTCA
Celera SNP ID:            hCV8486646
SNP Position Genomic:     22365
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13135):
GGGAAGGTGCTTTGGGTATGGATTTAACCCCTATTGATTTATCGTCTTCCTTTTCTCTAGTTGGCAAACCACAGCCTCATTAGCATACAGCTCTCCAAGG
Y
TGGAACAGGGCCAGATTCTAAACCAGCACACTCCACCTGCCTTTGGAGTTGAGTCTTTTTAGCTAGTGAATGTTCTGAGAAACTTCTAGCCCCCAGCTGC
Celera SNP ID:            hCV2186473
SNP Position Genomic:     97329
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,8)   total(C,8|T,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13136):
GATTTGGCCCATAGGCCACAGTGAGCTGACCCCTGGGTTAGAGCACAGGCTGGGATTTTGTCCACCTGGTTCTAGCCGTGACTCTGACACTTGCTAGCAG
K
GTACAGTTCCTCAGGGGACCCTGGGCCATCTCTTGGGTTTCACTGAATGCTTCTCTGCCCTTCTCCACAATTATCCTCCAAGTGAAACCAGGAGAAAATC
Celera SNP ID:            hCV2186474
SNP Position Genomic:     96199
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,8)      total(G,5|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13137):
TCTGAGCAGAGCACGGGCAGAGAGACGATCTGGTGCCCTACCTGTTAGAGACTCACGGAAATCCCAGCTGGGTGCACCTGTGGAAGGTGGTTGTCAGAGG
R
AAGGATTCAGAATGACTGTCCTACGCTAGTGGATGCTAAAAGGAACATCAATGTCTCCCGTTTCAGCTGGGAATGTGGGGTTTATGACTCAGACCATTCC
Celera SNP ID:            hCV2186475
SNP Position Genomic:     94305
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13138):
GCAAGAGGAGGCAGGACACCATTTTCCAATGCAGTCGTTACCCAGTGGGTGGGGCAGCCACAGTCTCTGCAAGGTAAGGTGTGGGTGTAGTTGTGTCTTA
R
GCTGGGTTCAGGGTGGGAAGGGGTGTGAGGTAAGGGGACGGCTTATATCCCTGTTCCCAATCAGAAATAGACATGCACTAAGTACATAGAGGTTCAGGGT
Celera SNP ID:            hCV2186477
SNP Position Genomic:     89890
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13139):
TTGGGTAGGAGTAGACACACTGTGGAAGAGGTGACTGAGAACCAGCCAAAGCATTAACCTTCTCCTCCCCAGACGAGGAGCAGCAACAGATGGCTGGTGC
R
GCAGCCAACTGCTCACCCAGCTTGCCAGAGGACATGTGCTAGTTTGCAGAGAGGAACCTGGGGAGGGCGAGCATGAGAAATGACTGAAGACCACAGAGCC
Celera SNP ID:            hCV2186478
SNP Position Genomic:     88775
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,12)      total(G,12|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13140):
TAGAGGGAGAAGAAGGGCACGCACACAACCAGCCAAGACATAAGGCAGCTGTGCCGGGTGCTCCATGTGAAAGAGATGGAAAGGAAATGATACCGAGAAA
Y
AGGCAGGAGGGACCGATTTGACTTAGAGACTCTTAAGAAAACACAGCATTTGAATCAAGGCTCTGAAGGAGCCTTAAGAAAGGGTCACAGAGCCTGGAGA
Celera SNP ID:            hCV2186479
SNP Position Genomic:     87603
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13141):
GGCATAGAAAAAGCTAGGAATCCAAATGCCAATTCATATGCAGTGAGGCACGAATACAAATGACAGTGAGGGAGGGGTCTGGGGTCAGTGAGGAGAGACA
Y
CAGGGACCAGATGATTCTGGGGACCCTGGTGTTTTTCATTTCACTCAAGTCTTCCCTAAAGCAATCAGGAAAATGAACTGACTCAGGGTGACCTGAGTGT
Celera SNP ID:            hCV15882212
SNP Position Genomic:     12081
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,16|C,711)   total(C,711|T,16) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13142):
GCACAGAGTGCACGAGGCTGCCGGCCAGCTGAGTGCACGTGGCCGTGGTACCCTGCTCCCGCCTCCACAAATCCTGCGATAACCAGTAACCAGTTCTGGC
R
AGTCTTTCAGCAGAGAAGATAATGGGAATTGCAAATTACTAGACCGAATGCTAATAATAATTGTTTGGATACAGGAGAAAAAATAAAACAGATGTTCCCC
Celera SNP ID:            hCV1707672
SNP Position Genomic:     14279
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13143):
CAAGTCCAGGATATTCACAGTCCCTGTGGAGTAAGAAAGCTCTGTGCATCTGTCCCAGGTTAACATGACCTCACACTAACATGATCCTAAGGCATCTGAC
R
TGCCCACATTCCATGCTGCATATGTGGTAGAAAAGTGGCCCTGCCATCTTGCAGAAGTATTCAGCCTAAGACGCCCCTATGTTTCAGGGCCAAAAAGAGG
Celera SNP ID:            hCV2186480
SNP Position Genomic:     86745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13144):
TTTTTAATCTCTCATTTCCTTTCCTTTTCCTCCCCTTCCATCCTTCAACACTGAGAGTGTGCTCAGCAGGGAACACCGTGTTTAAGGCGCTCTCCCGAAT
R
TGTAATAACTTCTACTCTGGCACTAAGGCCCTTCAGCAGCTGAACTCAAAAAAGTCATCATAAAGACAAAATAGCTTTTACCCAGCAAGGGTCTTAATAA
Celera SNP ID:            hCV1707673
SNP Position Genomic:     13987
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,8|G,10)      total(G,10|A,8) ;no_pop(A,-|G,-)   ;JBIG-allele(G,167|A,1330)   total(G,167|A,1330)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13145):
AGTATTCTTACCTCCTATTTTCTTTTTAATCTCTCATTTCCTTTCCTTTTCCTCCCCTTCCATCCTTCAACACTGAGAGTGTGCTCAGCAGGGAACACCG
Y
GTTTAAGGCGCTCTCCCGAATGTGTAATAACTTCTACTCTGGCACTAAGGCCCTTCAGCAGCTGAACTCAAAAAAGTCATCATAAAGACAAAATAGCTTT
Celera SNP ID:            hCV1707674
SNP Position Genomic:     13965
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,17)   total(C,2|T,17) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13146):
CCCATTTTCCTTCTCCCTACAGAGCTTGATATTGGGCTTTAAGCAGGAGAGGAGAGAAAGCCCTTTCTGTTCAGGGTGGTCCTTACTTCTTCTCCATAGG
R
AAAAAAAAAAAAGGAGGGGGAGGCCCTGAGGGGATTGGGGAGAAGGGAAGCAGCTGGCTTGGTTGGGGGCAGAGCAACTGCTAATGGGTTCAGAGCGGCT
Celera SNP ID:            hCV2186482
SNP Position Genomic:     79769
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13147):
CACTGAGTGACTTTGAATTCTCCTGTACTTCTGGCCTGGACCTGAGACCTCCATAAGCACTGGAGAGGAGAGGGGTGAATTCCGGAAATTTAGTAGATCA
S
TTTGCCAGGGTACAATAGGAAAAGGCTAGAAAATAAAAGAGGGAAAGGGACCTTCCCTTCTGCAGGCTTCCTTAGAACTGCTTCTCACCCCAAGCACTGG
Celera SNP ID:            hCV2186483
SNP Position Genomic:     78358
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13148):
AGTGAAGATACGGCAGTCATCTGGGTGATGGAGCGCGATAGTTGGGTTAATCCAGCAGTTACCTGTGACTTAATTGTGTTTCCCTGTGTCTTTCACCGCC
R
CCAATTTGAGAAAGTATAACAGTGATGATTCTATAAGATAGTGCACTGTATCCTCTATAACTGGAGTGCAGATCAGAGACAAAGGCGGAAATGTAAAAAG
Celera SNP ID:            hCV2186484
SNP Position Genomic:     74501
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;(G,-|A,-)   JBIC-allele(G,720|A,735)   total(G,720|A,735)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13149):
CCTCACTATCTTGCTTGTCTGCTAAAGGAGAACCATTCTTATCCTTAGAATTCACAGCTCTGATAGTTTTTCCTGTTAAGCTGTGTGTGTATGCTACAGC
S
AAGTGAAGATACGGCAGTCATCTGGGTGATGGAGCGCGATAGTTGGGTTAATCCAGCAGTTACCTGTGACTTAATTGTGTTTCCCTGTGTCTTTCACCGC
Celera SNP ID:            hCV2186485
SNP Position Genomic:     74399
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;(C,-|G,-)   JBIC-allele(C,527|G,564)   total(G,564|C,527)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13150):
GAACTGCAGCTTTGAGGATGGTAAGCACAAATTGCCTCCAGATGGCATGGGTGCGGACTAGTCAGAGTGGGAGCTGGCCTGTGGCTGGACAGGGACCTAG
K
GGTCCCCCAGATCAGAGATCCAGGGGATCTCAAAGAAGTGGTAAGAGAGGTGGGGGCACTTAGGGGTTTGGGGCAGTGGCTGTTTACAACCAATGTAGAA
Celera SNP ID:            hCV2186486
SNP Position Genomic:     74081
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,7)   total(G,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13151):
CACTTGAACTTGCCACACCCTGACCTAAAGACATAGCCCCAAATCACTTTCACCATGTAGGGTCTGAGCCTCTTTAAATCCATATTCCCGTCCATCCAGT
K
TTGTGCAAACATGAGCCAGAGTGTGCTTTGGTCCTTCCTTGGAGTCAGCGTCGCCTGTAGCCCCCTCCATTATTGTCTCGTGGCCTTTTGTGCTAAACTC
Celera SNP ID:            hCV2186487
SNP Position Genomic:     73526
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13152):
CACTTACAGTAGGTGTTTGGATCCAGGAAACACTTGAACTTGCCACACCCTGACCTAAAGACATAGCCCCAAATCACTTTCACCATGTAGGGTCTGAGCC
K
CTTTAAATCCATATTCCCGTCCATCCAGTTTTGTGCAAACATGAGCCAGAGTGTGCTTTGGTCCTTCCTTGGAGTCAGCGTCGCCTGTAGCCCCCTCCAT
Celera SNP ID:            hCV2186488
SNP Position Genomic:     73496
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13153):
ATCTGGTTTCAATTTCAGGGGTAGCGTTGCTGTTTGATGGGCAGTTACCTTGGAGCACCCAGTACAAACATAGTACAAACAGTATAAACACCGAGGCCTC
S
GTGCCCGCCGTTCCTCCACTTTCATTTACACGCCCTGCCCTCCGGTGCCTCATTGGCCCCTGGGTTTAACATTCTTTACACCAATCAGCTGACCCATTTT
Celera SNP ID:            hCV2186489
SNP Position Genomic:     72230
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|G,6)      total(G,6|C,6) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13154):
TCAGTGCCATGCCCTCCCAGTCTGGCCAGTGGGACAGTTGCTAATGACCTCTTTCCTTCATTGCTCCCCAATCCCAACATGCCCCAAATTACACTGGTGA
Y
GGTCAGTGACAGGTTTCTTATTTCAAAGCCCTGCCTGGCCATTCCTTGGAAGATCAGAGTTGAGGAGCGTTCCCCTCTGCCCAGCCTCCTTTCCTTTGAA
Celera SNP ID:            hCV2186490
SNP Position Genomic:     72020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13155):
AGGCCCTACCTTCCTTTCCTTGGGTCGCCAGCCCTCCTCCCTCAGCAGAGCTGGCACCAGATCTTACCCAGAGCTCACTCACTGCCTGCCAAAAGGAGTT
Y
GTGGGAGCCACTGGGGCTCAGGGACTGAGCCTGATGCCAGCAGGAGCAGCCACCAGCCTGAGCTATCCTGCCCTCCTCCGCCAGAGCCCCAGGTATCCCC
Celera SNP ID:            hCV2186491
SNP Position Genomic:     70785
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   ;(T,-|C,-)   SC_12_TT(T,4|C,19)   total(C,19|T,4)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13156):
TTACCTCAATGGAGGCTTTCACACATTAGAAAAAGAAGTGTCCCTTTCCCTGTAGACCAGGAATTCAGAACGGTCAAAGATCGCCCAAACTGCCTTCCCC
S
CTCTCTAGCCAAAGTCAGCTGAAAACGCAGTTGGAGCCAAATTCTTCCCCAGATACTCCATTTTAGTCACCAGGTAAAAGACACAACCTGGAAATTGCCA
Celera SNP ID:            hCV2186492
SNP Position Genomic:     69564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,12)      total(G,1|C,12) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13157):
CCTAGGGGTCATTTTCCCGTAAGGTTCTCAGTGAGCTAGGAACTATCAGTCAGCTTGGGTTACCTCAATGGAGGCTTTCACACATTAGAAAAAGAAGTGT
Y
CCTTTCCCTGTAGACCAGGAATTCAGAACGGTCAAAGATCGCCCAAACTGCCTTCCCCCCTCTCTAGCCAAAGTCAGCTGAAAACGCAGTTGGAGCCAAA
Celera SNP ID:            hCV2186493
SNP Position Genomic:     69505
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13158):
CAGAAGACAGTGTCATTGGCCTAGGGGTCATTTTCCCGTAAGGTTCTCAGTGAGCTAGGAACTATCAGTCAGCTTGGGTTACCTCAATGGAGGCTTTCAC
R
CATTAGAAAAAGAAGTGTCCCTTTCCCTGTAGACCAGGAATTCAGAACGGTCAAAGATCGCCCAAACTGCCTTCCCCCCTCTCTAGCCAAAGTCAGCTGA
Celera SNP ID:            hCV2186494
SNP Position Genomic:     69486
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13159):
TTGACAGGAGTGCTTTCCCTAAACAAAGGTTTGGGAAACAGTCTAAGACTATCGATGTGTGACCAGAAGACAGTGTCATTGGCCTAGGGGTCATTTTCCC
R
TAAGGTTCTCAGTGAGCTAGGAACTATCAGTCAGCTTGGGTTACCTCAATGGAGGCTTTCACACATTAGAAAAAGAAGTGTCCCTTTCCCTGTAGACCAG
Celera SNP ID:            hCV2186495
SNP Position Genomic:     69423
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:13160):
TAAGCAGGAGAAGTCGCTGATGGTTGCAGAGTTGGCTGTAAGTAGATTTACAGAGTCCCTTGGTTGTTACAGCTATGACAGAAATGATTTAGAAGTGATG
S
TTGGTTAGTTGGTTTTTCCCTCTACCCTTATTCAGGAAAACCAAGGGAAACTCACATATACTTTGCTCTAGTTACTTTTTTTTTTTTTTTTTTTTGAGCA
Celera SNP ID:            hCV2186496
SNP Position Genomic:     63766
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,11)   total(G,11|C,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13161):
ACATTTGTTCCTGACACTAGTTTTAAAAACATGCTTCTGGCTTCCCCCAGCCTCTGTCCTGCATTCCTGCCACTTTTCTCTTCTGCCTGCTTTGTTTTCC
Y
CCTTCTTGAGTGTCTGTGCCAAGTACATTGAAAGGGAGAACTTTGGAGGCAATGAAACATTTATTAGTGGAGAGAAATATTTATTTTAAAAAAGAAGAGG
Celera SNP ID:            hCV2186497
SNP Position Genomic:     58863
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;(T,-|C,-)   JBIC-allele(C,522|T,953)   total(C,522|T,953)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13162):
TTCCCCTTATTCCTTTTGTGGTAGTAATTTTGTTTGTTGAATATGAGATGAGGACAATACCTCACACTGTAATGGGCACCAGCCTTCAGAAGTCATGTTG
Y
GTGTGCTCTGAAGGGGGCTGATACCCCTTCCAAGTTCAAGTCCCTCAGTTTATCTGACCCTCTCAATTATAATGGAGAAGGATCCAGTGCCCTAGGTAAT
Celera SNP ID:            hCV2186498
SNP Position Genomic:     57168
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,11)      total(C,11|T,2) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   JBIC-allele(C,265|T,474)   total(C,265|T,474) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13163):
ACGATAAGGAAAGTGAGGTACTTAGCAATTGAAAGATGTGCCAGGCCAGGTCTGGTTTCCCACTGACTTGGTTTCAGAAAGACTTACCAAGCATCCGTTG
K
GAATGCCCAGCCTGAATTGGCACTGGGTGCCAGGAGCTTGGGGGCTGAGACCTGGTTCCACCCCACCCTTTTCAATTATAAACCGGTAGATCTCGGAAGC
Celera SNP ID:            hCV2186499
SNP Position Genomic:     53576
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,7|G,12)      total(G,12|T,7) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13164):
GTAGAACAATAACAATGTGGCATTTAGGATAGAGAAGAGTAGGATTGAGAAGAAAGGAGAGAAATAGGAGTTGGCAAAAAACAAAAAAACAAAACAAAAC
A
AAAAAAACAAAAAAACCCTTCGATGTTGTGATACATGGTTTCAGACCTGAACTTCCTATCCATCACCCGCCCTCCCCGGCCCCATGCCTAGGGTTTCCAG
Celera SNP ID:            hCV26480014
SNP Position Genomic:     13029
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|-,9)   total(A,6|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13165):
TGGTACAGATAACCAATATTTAAAGTTGCCTTTGGAAGTGTGGGGGTTGGAGTGAAGGGGACAAAACCCCTGAGATAAATTAATTTTACTAGTATTAAAA
W
TAAAATGGCCAAGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGAAGGAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGC
Celera SNP ID:            hCV26480015
SNP Position Genomic:     14614
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13166):
GCCTTGATGAGAAATGGTCAGAGGCTTAATGGTTTCATTGCCTAACAGGATTCAGTGGAGTAGGATTCCAGGACACAGTGGCCTTGTATCATGGCTGGCC
Y
TCCAGGAGAAAGCATCTTCTAAAGGTTTAGGAAGCTGTCAAGTTTAGATAAGGCTGAGCTCCGATCCTCTGGGACCTTGGTTGTATTAATAAGGAGAAAT
Celera SNP ID:            hCV262685
SNP Position Genomic:     12725
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13167):
TAAAAGTTTAAACCTGGGGTGTGGGGAATTGAGGGAGAAAAGTTCCCCTTTCAAGAGTAATTGGAGAGAAGTAGAGGAAGGGATGGGGAAAGGAGGGAGA
S
AGTGTGGGTAGGGAGAGTGGAGAGTATGTGGAAACCATAACAGTTACTAAACAGGAGCTCAGCTCAGGTTTCCTCTGACGAATTCCAAGGCAAAAAAGTG
Celera SNP ID:            hCV26480018
SNP Position Genomic:     19668
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13168):
ATCCTGTGTGATCAGATACTTAGTCTATGTGCCTCGGTTTCCTTGTCTGTAAATGTGTTTGGTAACAATACCTACTTCATAGGGTTGTTGGGCTATGTCA
R
ATTATGTAGAATACTGTTTGGCACATATGAAGCCCATTCTGAAGTCACTGAATCTTTAAAACTGTTTCAGTGGGGTTAGTGGAATCTCGTGATCGTAGAA
Celera SNP ID:            hCV262686
SNP Position Genomic:     13557
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13169):
AAAGGCAGGGAGGCATGTTGAGTTTGCAGTCCTCTTGTTTTTTTAATCACAGACCATGTAATTGAGAATATTTATGGCCATGTTCTGGAATACTTTCATC
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTTGGGTGGGTAGGGGGAGGGATGAGCCGGAATAATCTCTTCCACCGAATGAGTAAGTAGGTTAGTCTT
Celera SNP ID:            hCV26480019
SNP Position Genomic:     21472
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13170):
TGATGTTCCTTTGGTCACTTCTTAATTGGTTAATTCACCAAATCTTGATGAGTCTGACTTTTGGGAAAGGTTCTGGTTTGATCCTGTAAGACTTGCCAAA
R
ATGGATCAGCAAGGAGTCATGACCTCAAGTTGCTGGTGGCTCAGTAGACTGGATGAGGCCCTCCAGAACTCTCACACATCTCAGAAGATGCTAAAGAGCT
Celera SNP ID:            hCV480482
SNP Position Genomic:     15319
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13171):
CCATTTTCCTTCTCCCTACAGAGCTTGATATTGGGCTTTAAGCAGGAGAGGAGAGAAAGCCCTTTCTGTTCAGGGTGGTCCTTACTTCTTCTCCATAGGG
A
AAAAAAAAAAAGGAGGGGGAGGCCCTGAGGGGATTGGGGAGAAGGGAAGCAGCTGGCTTGGTTGGGGGCAGAGCAACTGCTAATGGGTTCAGAGCGGCTG
Celera SNP ID:            hCV8486743
SNP Position Genomic:     79770
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13172):
TGGGATGCGGCTGGAGGTGCTGGGCTGTGACTGGACAGGTAAGATGACATTTCCTCCTCTTTGCATCTCACCCACATGGTCCTCTGACCCTGGCATCCCA
Y
GAGGCCCTGGGAGGGCTGTGGAGGGGGCAGCCATCCCAGGAGCTGGAAATGCTGCAGACCCCTGCCATGTTCTCCTGCCTCAGACCACGGGTACTGCAGC
Celera SNP ID:            hCV25636137
SNP Position Genomic:     70112
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,24|T,2)   total(C,56|T,2)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13173):
TACTCTGTCTCAACCACAGCAGCCCTGCCAAGAAAAGGCAAGATGAAAGGCTAGAGCATGTGCTACCTTGAGATTTCAAGAAGTGTCCTACCTCAGCTGA
R
GATGGAGAAACGGGGAGTGGAGAGGGGATCAGCCCAGGGTACCATGTGATGACTAATATGCCACTCATTAAGGGCTTTTACCTCGGCTGTCCACATCCAG
Celera SNP ID:            hCV25772212
SNP Position Genomic:     102638
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,1)   caucasian(A,20)   total(A,33|G,1)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13174):
GATCCGCACGTTTGCAGCTCTTTCTTTGCCATAAGTGGTCTTCAGGGCAGCTGCAAATCCTGCCAAAGGGATGGGTGGGGGTCCCACTTGGGGAGATTTT
Y
TGGGCCTCCCCCGTTCCCCCTTGCCTTATTTCTAAATTCCCAGCTTGAAGCGGAATTAAATTACCACTCACAGACCTGGATGCTGCGTAAATTATGTATG
Celera SNP ID:            hCV16079276
SNP Position Genomic:     8916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13175):
AAGTGGTCTTCAGGGCAGCTGCAAATCCTGCCAAAGGGATGGGTGGGGGTCCCACTTGGGGAGATTTTCTGGGCCTCCCCCGTTCCCCCTTGCCTTATTT
Y
TAAATTCCCAGCTTGAAGCGGAATTAAATTACCACTCACAGACCTGGATGCTGCGTAAATTATGTATGTTTGTGTGATTCGCTGTGTGTGTGTGCACACG
Celera SNP ID:            hCV16079277
SNP Position Genomic:     8948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13176):
TCTGTTTAAGTTGAGAGGAGGAGGAGGTGGACGAGAGAAGGGAGGAGAGGGAAGAACTGAAATGTCTCCTCACCCAGGGTGGTTATTGGGCCCAACTTGG
R
ATGGGGTTGAGTACGAAGGTTAAAAAACATATACTTTGGTATTATATTGGTCATTGTAATAGCAGTTGTAAAATATGGGGGGAAAAGGGATCATTTGCTT
Celera SNP ID:            hCV16079278
SNP Position Genomic:     101773
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,416|G,1069)   total(G,1069|A,416)no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13177):
ACCAATATTTAAAGTTGCCTTTGGAAGTGTGGGGGTTGGAGTGAAGGGGACAAAACCCCTGAGATAAATTAATTTTACTAGTATTAAAATTAAAATGGCC
R
AGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGAAGGAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGCAA
Celera SNP ID:            hCV11461209
SNP Position Genomic:     14625
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13178):
CAGGTACGTGGTGGACGAATGGGAGCAGCTGGCTGCTGGCCCCACACTTACCAACCTTGACCACAGGGTCCACCCAGCAACTCCACCTCACCCATGGATC
R
GGGGGAAAAACAACTCACAGACTGTTCTCCTCTTACCAAGGTTAAAACGCAGCTGGAATTACTTTGGGCAGTTTGTTTTTAAAAATGAGTGTTGCAATTG
Celera SNP ID:            hCV8807802
SNP Position Genomic:     28768
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:13179):
ATTTATTGAACTCTTGCCAGACATCAGGTCCTACCCTAAGTTTTCTATGTTTAACCGCCACAGCTGGTACTGGTACTACTATTATCCCATTTAACAGATG
K
AGATACTGAGGCCCTGAGAGATCACACAGATAGTAATCGTGGGGCTGGGTTTGAAGCCAGGCAGCCCAAAGCTGCCTTTGTATACCTGTGTCAATCTGCT
Celera SNP ID:            hCV8807803
SNP Position Genomic:     29868
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13180):
GGGAAATGGTATTCACCCAAAGGACCAGTGCAGAAGTTGGGGAGGCTTTGTTGCGTGCCCTTAATTCTCTGAAAGTTCACCTTCAGAGAGACTTATCAGA
Y
GCGTTGTCTGGAGTGGCCTCCTTCCTCACGTCAGGAGGCATTCTTGGCAGCCTGCTCCATGAGGAACAATGAGATTGGCGGGGCCCTCACCATCATCGCA
Celera SNP ID:            hCV8807804
SNP Position Genomic:     32669
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13181):
AAGGCAGGGAGGCATGTTGAGTTTGCAGTCCTCTTGTTTTTTTAATCACAGACCATGTAATTGAGAATATTTATGGCCATGTTCTGGAATACTTTCATCT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTTGGGTGGGTAGGGGGAGGGATGAGCCGGAATAATCTCTTCCACCGAATGAGTAAGTAGGTTAGTCTTC
Celera SNP ID:            hCV26480020
SNP Position Genomic:     21473
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,10)   total(G,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13182):
TGTATCCCCAAGTGGAGACTTCCCTCGCATCCAGCCACGCAGGATCAGCCTGTTACCTTATATAGCGGTAACTGGTTTTCTTATAGAAAAAAAAAAGGGT
A
AAAAAAAAAAAAATCTAAGTAGTTCTAAGATTCACATTGGTTCTTGATAGCTGTGCTACACAAGTAGAGTCTCAAAGTCAGTGTCATGGATTTATTTAAC
Celera SNP ID:            hCV26480021
SNP Position Genomic:     22379
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13183):
ATCTCTCCCGTGGACTCTTAAAATTAACTTCACTGTCAAAATTTCCCATGGCCCAAATGTAGGTTTGGGGAGAGAAATGTAAGACTTTGAAGTTGAGAAA
S
AAAGTAGAGAAAGCATTCTCTAGACAAATGCTCACCATGCAGACTTCAGAATCTGTGAGGAGACAAATAAAAAGGCACTCGGGGAACCGTTTTAGAGAGA
Celera SNP ID:            hCV26480022
SNP Position Genomic:     36260
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,10)   total(G,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13184):
TATGGTGGCATCTGAGTTTAGAGGTGCCCACATCCTCTTGCCAGGAAGAGGTTGATGAGAAAAGAACACATTTCAATCTGGGTGCTTCTTTCTTTAAAAA
A
TATATATATGTGTGTAACAAGAATTAGTTATTTTCAGGGAAAGTCATGGTACCATCTCATACCTCAGTTTCCTCATCTATGAATGAAAGAGAGGCTAGTT
Celera SNP ID:            hCV26480023
SNP Position Genomic:     48313
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13185):
AGCTCAAAATATCAGCGATTTGTGGTGGGAAGAAATGAAGGAAGAAAATACAACTGCAAACAGCCACTATTAAAAAGGCGCTTGGTACTGATGCAGATAC
M
CAAACAAATACAGAGTTTGGTAACTGTTTGAGCCCTTGGCGTTAAATAGCAAACAAGAATAACAGCAGCAGTAACAACAAATGGCTATTCATGGAGCATG
Celera SNP ID:            hCV8807808
SNP Position Genomic:     33071
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13186):
ATGGTGGCATCTGAGTTTAGAGGTGCCCACATCCTCTTGCCAGGAAGAGGTTGATGAGAAAAGAACACATTTCAATCTGGGTGCTTCTTTCTTTAAAAAA
T
ATATATATGTGTGTAACAAGAATTAGTTATTTTCAGGGAAAGTCATGGTACCATCTCATACCTCAGTTTCCTCATCTATGAATGAAAGAGAGGCTAGTTA
Celera SNP ID:            hCV26480024
SNP Position Genomic:     48314
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13187):
ATGGCCTGGCCCATAGTAAATGCTCAATAAAATGTGAACAGTTTGCAGATATACCAGCTTTTTAGTAAATGGGTGGTACAGATGCAAGGCAGAAATTCAA
R
GAAATGAAATTTACTTTAAAAAGTCTGACCTGACAGTGAGCTGACTTCTCCATAAAGGCTAGGTGACTGTACTGAGCCTAAGGAGCAGGTGGCCTGGCTT
Celera SNP ID:            hCV8807809
SNP Position Genomic:     34690
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,16)      total(G,16|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13188):
AGCTGGAACTACAGGCATGCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGCAGAGGTGGGGTTTCACCATGTTGGCTAGACTGGTCTCGAACTCCTG
S
CCTCAAGTGATCTGCCTGCCTTGGCCTCCCCAAATGCTGGGATTATAGGTGTGAGCCACCATGTCCAGCCCCACATAACTTTAAAGACTGAAGAAGCACT
Celera SNP ID:            hCV26480025
SNP Position Genomic:     49055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13189):
CAACAGGAGTTAGCAGAAAAGCAAAGCAGAGATGAAGGCAACCGCCTGCTCTGCTCTGCTCTGCTCAGAGCAGAGGGAAGGTTTGCAAATGCCTTCCCGG
Y
GTGCAGGGAAGGAAGAGGGAATAGTGACATTTGGGACAGAAATGTGGGAACTCGATTTCAACTCCCTGGTCACTGTCAACAGCAATGCAGCATACCAAAG
Celera SNP ID:            hCV26480026
SNP Position Genomic:     54773
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;JBIC-allele(T,296|C,1197)   total(C,1197|T,296)
SNP Type:                 INTRON


Context             (SEQ ID NO:13190):
ATGCCATTCTAAGCACCTAAGATGTAACATATTTTATTATCCTCATAAGGACTCCATGGGTATTATTCTCCTCACTTTACAGATGAGGAAACCAAGACTT
A
AAGAGCTAGGTCACTCACCAGTAAGTGGTAGAGCCATGGTTTGAATCTAGGCAGTTCCAGTCCAAAGCCCTTGCTTTCAAATAACACTCTCTGCTGCCTC
Celera SNP ID:            hCV26480027
SNP Position Genomic:     65154
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,10)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13191):
GCTTTCAAATAACACTCTCTGCTGCCTCAACCGGGGGCCAAGAGCTGTGCATGGTGCTGTGGACACAAAGGTGGGCACAACAGACTGTTCTGTGTGGGCA
Y
ATGGACAAGTTGGGCAGACATACTGATAAACTCATAAATAAATATAAAATCAAAACTATGATCAATGTCTGGACATAGAGGCTTATGGTCCTTGGAAGTA
Celera SNP ID:            hCV26480028
SNP Position Genomic:     65327
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13192):
ACAGTCGTCATCCAACTCCTGAAATCCAATAAAACAAATATCGTTTGAGAGATTACTTTGTGCCAGGCACTGTGCTAAATACCTTATTTCTGACTCTTTT
K
TTTGTTTGTTTGTTTGTTTTTGAGATGGAGTCTCTGTCACCCAGGCTGGAGTGCAGTGGCCTGTTCTCGGCTCACTGCAACCTCCGCCTCCAGGGTTCAA
Celera SNP ID:            hCV26480029
SNP Position Genomic:     67903
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,8)   total(G,1|-,8|T,1) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13193):
CATAATGAATGATCTAGAAGTAGAGGTGATTCTCTAGCTGCCTGCCAGAATGGGGAGTCATTCTCGTAAAGATTGCCTCCCTGCCTTTTAGCCATGGTGA
Y
AGAACTTGTTATTAACTTGTTTTTATTTTCTTTATATTATAGTGGACATCCCAGAAATACATGAGAGAGAAGGATATGAAGATGAAATTGATGGTGAGTA
Celera SNP ID:            hCV25636144
SNP Position Genomic:     116350
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,26)   caucasian(T,30)   total(C,2|T,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:13194):
AATGAATGATCTAGAAGTAGAGGTGATTCTCTAGCTGCCTGCCAGAATGGGGAGTCATTCTCGTAAAGATTGCCTCCCTGCCTTTTAGCCATGGTGATAG
W
ACTTGTTATTAACTTGTTTTTATTTTCTTTATATTATAGTGGACATCCCAGAAATACATGAGAGAGAAGGATATGAAGATGAAATTGATGGTGAGTACTG
Celera SNP ID:            hCV25636145
SNP Position Genomic:     116353
SNP Source:               Applera
Population(Allele,Count): african american(A,26|T,2)   caucasian(A,30)   total(A,56|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:13195):
TCCTCATCACCATCATCGCCATGAGCTCACTGGGCGTCCTCCTGGGGGCCACCTGTGCAGGCCTCCTGCTCTACTGCACCTGTTCCTACTCGGGCCTGAG
Y
TCCCGAAGCTGCACCACACTGGAGAACTACAACTTCGAGCTCTACGATGGCCTTAAGCACAAGGTCAAGATGAACCACCAAAAGTGCTGCTCCGAGGCAT
Celera SNP ID:            hCV25636146
SNP Position Genomic:     119114
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:13196):
CACAAACGGAAGCGGTTCCAGCTGACTGGCCCCTGAGTGCTAGATTCAGAATCTCCGCCCTGGCGTGGCAGCAGCCCTTTCCTGCTTGGACATTAGTGCA
K
GCCCATCATTTCCACACCATGGTGTTTTTTGCACAGTAGTGACAAGTTTGCCCCTGGAGCCAGGAGAAGCTCCAAGCTCTGTAATCTGAAGCTCCAAGTA
Celera SNP ID:            hCV11461218
SNP Position Genomic:     31536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13197):
CGGTGGCTAAGTCATTGCAGGAACGGGGCTGTGTTCTCTGCTGGGACAAAACAGGAGCTCATCTCTTTGGGGTCACAGTTCTATTTTGTTTGTGAGTTTG
W
ATTATTATTATTATTATTATTATTATTATTATATTTTATTTCTTTGGTCTGTGAGCAACTCAAAGAGGCAGAAGAGGAGAATGACTTTTCCAGAATAGAA
Celera SNP ID:            hCV11722403
SNP Position Genomic:     119520
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,8)   total(A,3|-,8|T,3) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:13198):
ACTTTAAAAAGTCTGACCTGACAGTGAGCTGACTTCTCCATAAAGGCTAGGTGACTGTACTGAGCCTAAGGAGCAGGTGGCCTGGCTTCAGGCCTGAACC
R
ACCAGAGACCTCAGCATTGTGCAGATCTGCCTTGCGGCCTTTTTAGACATCGTGCAGCTTCTTTGTTGGGAAGTTGTATGTGACAGTGCTGTTTTTTTTC
Celera SNP ID:            hCV8807810
SNP Position Genomic:     34803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13199):
TAAACGTGTGTCACCCGTCCTCTCACAGGTGCAGAAAACCTCCCCCCGATACAAGCTGGCTTCATTTATGTGCCCTGGAATCAGGGGCTCAGCGCTGTAG
K
GGATCCAGGAGCTTGTAAGCCAGTGGCTTTCACACACTTCTGCCCATGATACACAATTTAAAATAATTTTCCTTCACAACCCGCTTCACTTATAAGCACT
Celera SNP ID:            hCV26480030
SNP Position Genomic:     71273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13200):
ATAATCATAGCTATGAAAGAAGTAAGATGATGGTGAGATAGAGAATAAGGGCATGCCATCTGAAATAGGGTGGTGACAGCAGGCTTCTCTGTGGAGGTAA
M
ATTTGTCCTTAAGCCTGAAGGATGAGCAACAACCAGCCCTGGAAAGCACCAATGAGGAGTACTGCAGGCAGAGGAAAGAGCGCTTGCAAAGGCCCTGGGG
Celera SNP ID:            hCV8807814
SNP Position Genomic:     35618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13201):
ACTGGAAAAGAAAAGGATAGAGGCCCTTCTTTAAGGAAGGTAGAAAAACATCCCGGGCTTTGCAGAAAAAAATAACAGCAGGAAGAAGCTTTCTTTACCC
T
TTTTTTTTTTTCCTGCAAATCATGATTGGTTGAGTCCCCCAGCAGTGTGTGGATTGATAACGAAGGGGCAGAATGACAAGACAGCCTCAATGGCAAAACC
Celera SNP ID:            hCV26480031
SNP Position Genomic:     82057
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,8)   total(-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13202):
GTCCACAGGGCAGAACCAGAAGACTGGAAGTTGGGGGGATTTCAGCTGCCGAACTGTAACTCTGTGTCACTTCCCCTCAAGCAAACCTTATAGAAAAATC
Y
AGTTTTTCTAAGAAGTTCAAGTAAGGTTTGTTGATTATTTGCTTCACAAAAGGATTCAGCAGAGGGGTCCTTTAACTAACAAGCTCAGAGAAAAAATTTA
Celera SNP ID:            hCV8807815
SNP Position Genomic:     37013
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(C,136|T,1343)   total(C,136|T,1343)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13203):
CATTTTTCCATAAAAACAAAAAATTCTAGACCTGCAGACTATTGATTGTAGCAGGAGAGTATTCCATTTTATAAATATCCCAGATGGATTCACCCTCCCT
M
TACGGTTGGGCTTTGAAACCATTTATAAGCAAAATATCCTCCCACTTTTTATATTTTTTCAAAATATATGCACAAAGATGCATATGCATCTTTGCACAAT
Celera SNP ID:            hCV8807816
SNP Position Genomic:     37911
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13204):
GCTCCCGGAATGGAGTTCTGTTATCTCTGCCCCACAGAGCAGGAGACTGAGGCACAGATGGGTATGTTCAGCCGTGGTTGCAACTTGGGTAGGAGTAGAC
A
CACTGTGGAAGAGGTGACTGAGAACCAGCCAAAGCATTAACCTTCTCCTCCCCAGACGAGGAGCAGCAACAGATGGCTGGTGCGGCAGCCAACTGCTCAC
Celera SNP ID:            hCV26480033
SNP Position Genomic:     88691
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,16)   total(A,1|-,16) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13205):
TTATCCCCTTAAATATGCGTTTGATTTGAACAAACTCATTTTGAATTAAGATTTCAAGAGCTGTAGCCATGTGGTCAACAGATGTGTACCAGGTGCAATA
A
CACACACACACACACACACATACACACACACGCTTTAAGCTGCAGCTAACAGAAACTTGGAAATCCTTGCACCGTTTGGACTAGGAGACTCAGTTAACCA
Celera SNP ID:            hCV26480034
SNP Position Genomic:     89508
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,6)   total(A,6|-,5) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13206):
TATCCCCTTAAATATGCGTTTGATTTGAACAAACTCATTTTGAATTAAGATTTCAAGAGCTGTAGCCATGTGGTCAACAGATGTGTACCAGGTGCAATAA
C
ACACACACACACACACACATACACACACACGCTTTAAGCTGCAGCTAACAGAAACTTGGAAATCCTTGCACCGTTTGGACTAGGAGACTCAGTTAACCAT
Celera SNP ID:            hCV26480035
SNP Position Genomic:     89509
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,6)   total(C,6|-,5) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13207):
TAAGATAATGTGAGTTTAATCGTCCAATGGAATTGCAAACTGATACTAATTACAAGTATGTCTCAGTGAATCACAGATACAGGTTGGAAGCAAAGTCTAA
Y
GATTGTGTCCTTTGGAAAAAAACAAGACACTGCCCTGTGTTGGGAATGGTGGTCTCTTACTCCAGCCCTCTATTCCCCAGGTGGACCTGCGCTTTTTAAC
Celera SNP ID:            hCV15872563
SNP Position Genomic:     51969
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,30)   caucasian(C,3|T,33)   total(C,7|T,63)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13208):
GCTTTTGCAGGTGAGAATTTTAAAGGTAAAAAAAAATTTTTTTTTTGCATGCTTTTTCCTTCCCCCATGTGATGTGAATTTGATGGGGGGAATCAACCTC
M
AAATTTGTCAAATCTCGCAAGAGAAAAGAGACGCCACACCTTCCTGCCGCTAGATGGCACTAGCAACACCTGTAGATGCGGGAAGGGGATTGAGAGCCTC
Celera SNP ID:            hCV26480036
SNP Position Genomic:     91054
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13209):
AGTTTCTGTGTGAACTCTCAGACATCTCTTTCCCGGATCCCCAACCCTGAGCACTCTTATCAATCCCAACCATCCTCCTTGGGTTCATTTTGGTTTCTGG
K
TTTTCTTTTTCCTTTTTGTTGATTCCAAACCAACAAACCCAACTCTAATGCTGCATCTTGGACTATCCGAAGAGATCCACCCCCAAGCACTCCACAACTC
Celera SNP ID:            hCV26480037
SNP Position Genomic:     100871
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,14)   total(G,1|T,14) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13210):
GTTACAGATAAACCTTTCAGCCTTGCATTGTCCAACGGGGAGCAATGAGGCTGAAAATGCAGGGGTGGTGAGAAAGGAGAGACTGTGGGAAGACTGAACC
A
AAAAAAAAAAAAAATCAGTATAAATTAAAAGTGAAATGAGGTGGCAATGATTTATTTTAGCCTGAAGATGGTTTCTTTCCAGTTCCAGGGTACCAAGGCA
Celera SNP ID:            hCV8486760
SNP Position Genomic:     91306
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13211):
CACCTGAATCCTATCTGACGTTTCATTCCAGCAAGAGGGGCTGGGGAAGATTACATTTTTTTTTCCTTTGGAAACTGAATGCCATAATCTCGATCAAACC
R
ATCCAGAATACCGAAGGTATGGACAGGACAGAAAAGCGAGTCGCAGGAGGAAGGGAGATGCAGCCGCACAGGGGATGATTACCCTCCTAGGACCGCGGTG
Celera SNP ID:            hCV25636153
SNP Position Genomic:     119324
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,35)   total(A,1|G,73)
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:13212):
GTAAGTAGGTTAGTCTTCTGGACTGCCATAAAAGGTCTGTAAAATAGTTTTAATCAGACACTGGTACAGAAGAGAAGGAGGGAGTGTGGGGGGAAGAAAG
Y
TGTAACATATTTGAAGTTCTTTGGGTTGTTGATTTCTCTTTCAGACCCACCGTGCGGAGGTCGTTTGAATTCCAAAGATGCTGGCTATATCACCTCTCCC
Celera SNP ID:            hCV25636154
SNP Position Genomic:     21656
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,32)   total(C,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:13213):
GTGAATCCGCAGACCTCCTGGGCAAACACTGTGGGAACATCGCCCCGCCCACCATCATCTCCTCGGGCTCCATGCTCTACATCAAGTTCACCTCCGACTA
Y
GCCCGGCAGGGGGCAGGCTTCTCTCTGCGCTACGAGATCTTCAAGACAGGTCAGTGTGGTCACACGTAGGGGCCGGGAGATGGGCGTCTTAGAGAAGAAG
Celera SNP ID:            hCV25636155
SNP Position Genomic:     40484
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13214):
TTCATCACATTAATGTAAGGATGACCTCCAAGGGACTCAGAAAATCCTCAGGCACCAGCTTATTCACTAGAGTATTTCACAGAGTTTCACAACTGTGGAA
Y
TGAAGCTCTTAGAGATTAAGTGCCTTGCTGCAGGGACTAGGAAACTGGAGCCTGCATGGACGGCGCCTGGTCACCAGACTTGGATGTCCAGACTGGCGCT
Celera SNP ID:            hCV11461229
SNP Position Genomic:     56098
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13215):
ATCAATCTTTTAAGTGGGGTCTTGGCAAGTTGTTTTGTGCATCCCTTACTAGCGACCGAGGGGGATGAGAATGTGCTTTAGCACTTTGGCCAGAAATGAG
R
AAGACTTCTAACATGATTGAAACCATGGCCTCCAGGAAAAGACTGAATTTCAAATGTGACAGTGATGGATCAATGCTCAGTTCAGATCATGGTCAAGTAG
Celera SNP ID:            hCV27481800
SNP Position Genomic:     115173
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(A,272|G,1193)   total(G,1193|A,272)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13216):
CTTTTTACTTTTGTTTTGGAAATGAGGAAGCATGTTTTCAAAGTCAGCACCATCTCCCACACTGAAACCACAGACCTAAACAGATTCCCCAACCTCACGG
Y
CTTCTCAATCTGTGACCATCTCTCCATTTCTCCCTGGGGGTTGAAACTGCCATTTTGACTTCTCCAGACTCTAAGGAGCTTCAGCGGTTCTTTTTGGACT
Celera SNP ID:            hCV8807820
SNP Position Genomic:     38802
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13217):
CTGGCCAGTTTGACTCTGCTTCAAATGAGCACAGGCCTCCACTTCAGGAGGGCAGCCTGCCCTGCCTCTCACTGAGGCTAATAGTTGTGTGCACGTAGAC
R
GTGGGCCCCTGGAGACTCACCCCTGCTTTTGGAGAAAGGTTTTTATCGCCTTATCTAACATGAGGCTGATTCCTTTTAAGAACACATGTTGACTAGACAC
Celera SNP ID:            hCV8807821
SNP Position Genomic:     39587
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13218):
ATTCATTCATAGAAACAAAATTTTCTTGAGGAGTGGCATATATATAGCACTATCTAGGGGTAGAGAGAAGAAGCAATGTTAAACCTTATTATTTGTAAGA
Y
CAGCATTTACAATATAACTGGGGTGATAAAAAAGACATGAAAAAACCAGTTAAATTATAATGCCAGGCAGTGAGTGATTACCTGCTGAAATCCATGGAAA
Celera SNP ID:            hCV27481801
SNP Position Genomic:     85504
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,77|C,828)   total(C,828|T,77) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13219):
GGCGGGCTGTGGGCGGGGGGGTGGGGGTGGGGTCAAAACAGCCATTGTTTGTGGTATTAGACAAACAGAAAAACACTTCTTGAAAGAATTGGATTTTTGT
R
TGTTTTTTAAAATCAAAATAATCTTCATGGGAAAAAGCAAAACTCTGATGACTTTCTCACGATTACTTCATGGTCTAATGATGTCTTTATTTGGAACTAC
Celera SNP ID:            hCV8807822
SNP Position Genomic:     40823
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13220):
ACCTGGAGTGGGGGTTCTAGCTAAATGACAATCAAAGGAAAAATTAAGGGTTCTGCTGCAAAATTTCAGAAGTTTATTTTTAATATGATTTTCCCGTTTC
Y
AGTGGTTTGTTTCATTTGAGGTTTCTTTGATGGTTCCTCCCTTTTCTTTTTGCAAAAGTTTTTTTTGTAGAATTTGGTTCCTGAGATACAGTATACATGT
Celera SNP ID:            hCV27481802
SNP Position Genomic:     75446
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13221):
CTTCACTAAGGATAGCTTGAGAGAAATTACAGGAAGGCTGTCTACTTTCTTGGAAATATTTCTTTAGAAAAGGATAGGAGACTAAATAGATACTTGGAAA
R
GATGAGAAAACTTAAAGTGTTCATTTCTACTCCAAATTGTCAGGATAGAAGGTGGCTCAGTGGCTAACCCCTGTGACAAAACAGAAGGACTCCAGAGCCA
Celera SNP ID:            hCV27481803
SNP Position Genomic:     47106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13222):
TTTGGGAGTTTCCCCTGAGAACAAATGAAGCGTCTTTTTACTTTTGTTTTGGAAATGAGGAAGCATGTTTTCAAAGTCAGCACCATCTCCCACACTGAAA
Y
CACAGACCTAAACAGATTCCCCAACCTCACGGCCTTCTCAATCTGTGACCATCTCTCCATTTCTCCCTGGGGGTTGAAACTGCCATTTTGACTTCTCCAG
Celera SNP ID:            hCV27481804
SNP Position Genomic:     38769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13223):
CTGCAGAAAAGCAAACTAATGAAGGAATGCTAATCCCAAATAATCTTAACTTAGAAGAAGGAAGAAAATGAGGGAGAGAGGAAAGATAAAAAAAAGTGTC
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCAGAGAAAGAGAGAGTGAGAAAGAATGGAAAGGGCCATAAGAGAGGGCCTTCTTATTTGAGGACTA
Celera SNP ID:            hCV26480041
SNP Position Genomic:     111879
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13224):
CGGAGAGTGAACGAGGGGGGAAATGGTGGAACAAATAATTGTTTTATTGGAAAGGAAAGGAATAAATAATATTTCAGCCCAGGAACTGGCAGTTTGAAAG
R
GATGGTTGAGAGCTTGGAGCAGAAGGATTCGTGATGCAGGTTTTAATGGAAGAGATTTTCTTTGTCTCAAAGTAGGAGGTTTCGTCCCCACCCGACCCCC
Celera SNP ID:            hCV27481805
SNP Position Genomic:     30570
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,633|A,852)   total(G,633|A,852) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13225):
GAGGAACAAATCTTTCACTTTTGTAGTCATTGTAAGTTTTTTCTAATATAAAGGAGACTTGATGACTAAGCAAAAAGAGCAATTTCATTTCCTGGGTAAA
K
CACAAGACTTAGTCAGAAAACTTGGGTTGTAGGCCCAGCTCTGCTATTTCCTAGCAGTAAGAATAAAGAAATCACATGCGCTCTCCAAACTTCAGTTTCT
Celera SNP ID:            hCV8807826
SNP Position Genomic:     47549
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13226):
TGCAGAAAAGCAAACTAATGAAGGAATGCTAATCCCAAATAATCTTAACTTAGAAGAAGGAAGAAAATGAGGGAGAGAGGAAAGATAAAAAAAAGTGTCT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCAGAGAAAGAGAGAGTGAGAAAGAATGGAAAGGGCCATAAGAGAGGGCCTTCTTATTTGAGGACTAA
Celera SNP ID:            hCV26480042
SNP Position Genomic:     111880
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13227):
AGTCTGTGGCCATTTTTTTCCCTCTCAAAATCTCAGGGGCAATTGTCACAAAAGTGAACCATTTTAAACCTCTCTTTCTCTGGATTTTTTGACATTAACC
R
TCTCTGGGCCTGGGTAATGTTTTCCTGACTAGATTGGTACAACTGCTTAGACTTGGACTTCACCCTTCCACCAAAGATAGTTTGTGGAGCTTCTAGTATG
Celera SNP ID:            hCV8807827
SNP Position Genomic:     48556
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13228):
GCAGAAAAGCAAACTAATGAAGGAATGCTAATCCCAAATAATCTTAACTTAGAAGAAGGAAGAAAATGAGGGAGAGAGGAAAGATAAAAAAAAGTGTCTG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCAGAGAAAGAGAGAGTGAGAAAGAATGGAAAGGGCCATAAGAGAGGGCCTTCTTATTTGAGGACTAAA
Celera SNP ID:            hCV26480043
SNP Position Genomic:     111881
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13229):
CAGAAAAGCAAACTAATGAAGGAATGCTAATCCCAAATAATCTTAACTTAGAAGAAGGAAGAAAATGAGGGAGAGAGGAAAGATAAAAAAAAGTGTCTGT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCAGAGAAAGAGAGAGTGAGAAAGAATGGAAAGGGCCATAAGAGAGGGCCTTCTTATTTGAGGACTAAAT
Celera SNP ID:            hCV26480044
SNP Position Genomic:     111882
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13230):
CTGTGCCGGGTGCTCCATGTGAAAGAGATGGAAAGGAAATGATACCGAGAAATAGGCAGGAGGGACCGATTTGACTTAGAGACTCTTAAGAAAACACAGC
R
TTTGAATCAAGGCTCTGAAGGAGCCTTAAGAAAGGGTCACAGAGCCTGGAGAACAAGGACATGAATAAACCAAAGACACCGAAACTCAGTCCCAACTTTC
Celera SNP ID:            hCV15872573
SNP Position Genomic:     87651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13231):
CTACCTAGGTAGTACAATAAGTTCCCTGGCAAGGGGGAGGGAGACACTTCATTATGAACCTCCCTCCCCATGGAAGCTCTGAACCTGAGCCAAATTTGCC
R
CCATCCTGGGGCTCTGTTTACCCTGAAAAGGAAATTTGTTTCGGTCTCTTATTTAAGAAATGTTTTTGAGCAGTTCCTGATTTTGTAAGCTCTTAGAGCT
Celera SNP ID:            hCV26480046
SNP Position Genomic:     124482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:13232):
AACACATCAGAGGGCGTGACCACATTCTTCTACTATCTTCTGTAAACTTCTCTAGAGGAGCCAACCTTTTTCGTTTGTTTAATCTCACAAATTAAATAAA
M
CTTTATGTGAAATGTTCCTTCACCAGCACTTCATTTTTAACCTGTACAGAAAGGACTGTGCAGACAGGCCAGTCCTAAAACAATTCTGACATGCAATGAG
Celera SNP ID:            hCV15872574
SNP Position Genomic:     95559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13233):
TTAAGAAAACCCAAACATCTGTGTTAGGAGGTTTCCAGGGGTGGAGGGCCCACCCCACCCAGCTAGAATGTCCTAGAATGTCCGAGTTTCTCCTTCCCTC
Y
TCCTAGGACATTGACTGTTCCCCCCAAGCCCGCTCATTGCTCTGATCCTGTGCTCCTCCCCCGCCTGCTCTTCTCCAGCCCCACCCCTGAGCTGCCCTCC
Celera SNP ID:            hCV27521577
SNP Position Genomic:     57877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13234):
ACATAAGTGCCCTTCGCTTATCCATCTGAAACACCTTAACTTCTGCAAATGAATAGAGAGACATAAGTGGGAGCGACACAGTGGTCCTTCTCATGTCCTT
S
GAGTGATCTTTTCTTGTCTGTGCCATCCCCACCCAGGTATGACTTTATCGAGATTCGGGATGGGGACAGTGAATCCGCAGACCTCCTGGGCAAACACTGT
Celera SNP ID:            hCV25636164
SNP Position Genomic:     40315
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,38)   total(C,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13235):
GTGACAGAGGCCACAAAGAAAGGCATCTTCTTCTTAGTGCTACAGTTCTCTTTTACATACAGGCTCTGAAGATTGCTCAAAAAACTTCACAAGCCCCAAC
S
GGACCATCGAATCTCCTGGGTTTCCTGAGAAGTATCCACACAACTTGGACTGCACCTTTACCATCCTGGCCAAACCCAAGATGGAGATCATCCTGCAGTT
Celera SNP ID:            hCV25636165
SNP Position Genomic:     46675
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13236):
TTGACCTGGAGCATGACCCTTTGCAGGTGGGAGAGGGGGACTGCAAGTACGATTGGCTGGACATCTGGGATGGCATTCCACATGGTGAGTGATGTCATGA
R
GCATTCCTCAGTAGCTTGGCCTTTGCCTGTTAATTGCTTTAGTGATGATAAAGAGGAAGAACAAAGACTTCAAAGCTCCTATGAGTTCTTATATGACCCA
Celera SNP ID:            hCV25636166
SNP Position Genomic:     46884
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:13237):
ATCACCTAGTTATATTTCAGTGTGAGCCCCAGAGGACACTTCCTGACAGTAAACACCCAGTTTATCGAGTATTTCTGGTTGGTTGTGTTTTTTATGCTTA
S
AGTGTCTATTATCCTCCTCAAAAATCCTGCTTCCTTTTCTTCTTTTAAAATCTGAACATAACGAGTGAAATCAATTCTAATTGTCCAGCACTTTCATTCA
Celera SNP ID:            hCV27496518
SNP Position Genomic:     45474
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,243|G,1248)   total(G,1248|C,243) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13238):
TTCCTGCTAAAAATCCACTGGGGAGGTATAAAATTCACTCCAAAGAAGTTTGCCTGGGCCAAAAGCCTCCAGGTTCCTTCTGAGAACAAAATACTAATGA
T
TTTTTTTTTTTTTTTGGCTGCTTGGGAGAGACTTTCAGCATTCTTTCACGATATCCAGATATGTCCCTTCAGCACACACACTCAACTTTCTCATCTGGTT
Celera SNP ID:            hCV8486777
SNP Position Genomic:     102381
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:13239):
AGGCTGCCCCTCTCCTCACTGCGCCGCCTCGCCAGACCGCAGTGCAGCCGCTAGCCTGCCTCCCTCCCTGCCCCGGGCGCCCCCGCCAGTCCCCTGCGCT
Y
CGCTCTGCGCGGCAGGCTCGCCGCGACCCCTAGAGAGACGGCTTTGAGTGGCGGGAGGCCGAGGCCGGCTGGCTTGGGAATCCAAGCGCTGGCCCAACTA
Celera SNP ID:            hCV16276557
SNP Position Genomic:     9890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13240):
TTTGATTTCCACTGACTTCTCTTTGTCTTGAATGTCCAGTTGGCCCCCTGATTGGCAAGTACTGTGGGACCAAAACACCCTCTGAACTTCGTTCATCGAC
R
GGGATCCTCTCCCTGACCTTTCACACGGACATGGCGGTGGCCAAGGATGGCTTCTCTGCGCGTTACTACCTGGTCCACCAAGAGCCACTAGAGAGTGAGT
Celera SNP ID:            hCV16171536
SNP Position Genomic:     48005
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,38)   total(A,1|G,69)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13241):
GAGGTATGAGGTTGGAAGGCCTAACTGCATTTGACCGTCTGCTTTCCCCAGACTTTCAGTGCAATGTTCCTCTGGGCATGGAGTCTGGCCGGATTGCTAA
Y
GAACAGATCAGTGCCTCATCTACCTACTCTGATGGGAGGTGGACCCCTCAACAAAGCCGGCTCCATGGTGATGACAATGGCTGGACCCCCAACTTGGATT
Celera SNP ID:            hCV16171537
SNP Position Genomic:     50121
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,1|T,9)   total(C,2|T,46)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:13242):
AGGCAAGGGAGAAGCAAGAGAAACTCACCCCGAGCCAGAAGCTCAGGCCAGTACAGCTTACTCCCCTGCCACCAGAGTGAAGGTCAGCCTTCAACACAGA
Y
ACAAGGAGCCCCAGAAGGGGAGGAGACGTCATACCTCTGTCCCTCCCCAGATCAGTCTCCTGGCAGGCCAGGCTCTCTGATTCTTATCTCTAGTTACCCC
Celera SNP ID:            hCV8807905
SNP Position Genomic:     68699
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   JBIC-allele(T,566|C,921)   total(C,921|T,566) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13243):
CTGTCCTTCCCCCGGATGAGTGTCTCCAAGTGTACTCTAGGCTGGTCCTCCAAAGCAGCCCCCTGCTCCCCGCATCATCAGTTTTATGTACTGGGGCTCC
R
TGTGAGGTTTCTTTTGACAGGAGTGCTTTCCCTAAACAAAGGTTTGGGAAACAGTCTAAGACTATCGATGTGTGACCAGAAGACAGTGTCATTGGCCTAG
Celera SNP ID:            hCV8807906
SNP Position Genomic:     69309
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13244):
GGAAAGGGAAGAAGGTGATAGGGACTGGGTCCCACACCAGAAGGGCTGAGTGGCCTCTCTCCCTGCAGCTGTTCGAAGGGAACATGCACTATGACACCCC
K
GACATCCGAAGGTTTGACCCCATTCCGGCACAGTATGTGCGGGTATACCCGGAGAGGTGGTCGCCGGCGGGGATTGGGATGCGGCTGGAGGTGCTGGGCT
Celera SNP ID:            hCV8807907
SNP Position Genomic:     69937
SNP Source:               Applera
Population(Allele,Count): african american(G,10|T,22)   caucasian(G,3|T,23)   total(G,13|T,45)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;JBIC-allele(G,344|T,379)   total(G,344|T,379)   (T,-|G,-)    
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:13245):
GCCTTGTGACCCACTGACAAGCCTGTCCTAGCTCTGAGGCGACACAGTGACCTCTGCTCTAAGAAGGATATTGCAAAGCAGACAACAGGAAAGGGAGAAA
S
ACCACTTAGAAACTCCAGGGAGTCCACAGAGGTTCTAACAGTAAGCCCTGGGGCCATTTGTCATTGTCTCTTCTCTCTGCCTCTCCAAAAATCCATCTCC
Celera SNP ID:            hCV8807835
SNP Position Genomic:     51042
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   JBIC-allele(C,380|G,1113)   total(G,1113|C,380) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13246):
TGATACTATAGTTCAGGAGTTACCGAGCTCTGGAAATGAAAGGGCACAAATCCTGAGAGGGAATCACAATGTCCTGGAGAAGAAAAAGGACAATAAATAA
Y
GAGGAGAAATTCAGTTTGTTGGGGATGGGCTCTGAACTGGCAATCATGCTTAGCGGCGAGGCATTGAATTCTCTCTGCTGGTGCCTCCCGCATCTGCGGC
Celera SNP ID:            hCV8807836
SNP Position Genomic:     52676
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13247):
CCAAAATGCGATCTCAAGCCGTGAGCTGCTCAGGCTTTCAGGCGGAGCAAAGCACTGGCACCCTGGGAGCCGGCAGCGGGTGGCCAGGGCGAGGCCAAGC
Y
ACACCTCTGACTCACCCGGTGTGCGCCGGCCGGGAAGGGGGCCTGGTTCAGCCGCCGCCGCCGGCGACGAGAACCAATTCTGGGAAGGAGCAAGATGGGG
Celera SNP ID:            hCV27481816
SNP Position Genomic:     9584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13248):
TGTGTGGGTAGGATTGGGGTATCTGTGATGGGAACACAGGGCACGATGCCCCCTGCAGAGCAGGAGCTGGTGCAGAGGTCTGGAAGGAGAGTGTGATGTC
Y
GGGGGATTCCTAGGGGCTGCCTGTCCTTCCCTAAAAAGGAGGTAGGGAGGGAGGAAGAGGGTCTCTCCTGTAGCATTACAGTTCCACCAAGCCCTGGTCT
Celera SNP ID:            hCV8807837
SNP Position Genomic:     53065
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13249):
CAGAAGTGTGACCCTGGGTGGTGTTACCATTATTTATTGAGTGCTGCCCCCTAGAGGATTGAAAAATGGTCTGGCCGCTTGAGTCCCCAGGGATGGAAAC
S
TGAGACTCACTCTCTGTCCAACTGCAGGAAATGAGGCCTTCACTCAAGGGGAGTGGGAAGTCTTGCAGCCCTGGTACAGAGGACTCCCAGGAAGTAAGTG
Celera SNP ID:            hCV8807765
SNP Position Genomic:     4369
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,7|C,8)      total(G,7|C,8) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:13250):
TCATTATACCCTGTGGTTTGGGAGGGCTTTTCAGAGCAAGCTCACAAAGTGGGCAGAATTCCAACCTTTGGCTGAATGGATGGGGACAGAGAGAAAATTA
S
GGCCATAAGGAACTGCTAAATCTAATGTTGTTCCTCCCTTAAGATATTGAAAGGGAAAGTAATTATTTTCCTATTCCAGAGGAATCCCGAAGTTTGGGAA
Celera SNP ID:            hCV1227146
SNP Position Genomic:     79467
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,6)      total(G,2|C,6) ;JBIC-allele(C,194|G,1303)   total(G,1303|C,194)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13251):
GTGGGTATTCTAGTGTTAATGTGTGTGTGCATGAGTGTGTTTGTGGTTTCTGTGCATGGGTGTGTGTGTGTGTCTGTGTGGTATGTACCTCAGCAGAGGC
K
CTTGGAATAAAAGGATATAGCCGGGGTCCTCTGCAGGCTGGGGAGGTTGGCTGGCTCTTATTCAGTGTCTGTCCTCAGGTTCATTCTAATGATTCTGGCC
Celera SNP ID:            hCV1227147
SNP Position Genomic:     79006
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,11)   total(G,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13252):
TGGAAGAACTCAGAGGCCTCTGTGCTGTGCCTTTCCCAACCAGGCATCTGAGATTAACAGTGTGATACTCAGCCTGTGGATTTCCACTCTAAAATCCCGC
S
CCACCCCCCAACACAGCTTGGCTCAACTATTTGCAAATCACTTCTGATTCAATTTTGTTTTGGTTATCTCAGTGTAAATAACAGTTAAGTGGGAGTTACA
Celera SNP ID:            hCV8807767
SNP Position Genomic:     5225
SNP Source:               Applera
Population(Allele,Count): african american(C,11|G,3)   caucasian(C,36|G,2)   total(C,47|G,5)
SNP Type:                 TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,18|G,4)   caucasian(C,36|G,2)   total(C,54|G,6)   
SNP Type:                 TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:13253):
ACCCATGGGTATCTAGCAGAGCTGCCTGGCACTTGGCCTCTAGAAGAGTATTGCTGTAAGTCCTGGATACATTGTTAAGCCCACCATTTTAGTTTCAGAA
R
GCCAGATTTCAGAAGCTTCTCCTGGCACTGCTGACAAGAAGGGGTTGCCTCTATCCCTTCTAAACAGGTAGCAAGAGTTGTCTGCTATCTCTGCTGTTAC
Celera SNP ID:            hCV1227148
SNP Position Genomic:     77727
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13254):
GTAGCCGTTGGGGGAGGCTCCCGCCGGGGGAACCCGGCGAGGACAAGAGCAGGGCGGCCGCCTTCCACTCGGGCTGTCCGGCGGCGGCTGCCTCCGCCCG
Y
GTGTCCGTCAAGGGTGCCGCGGGATGTGTGTCAGTTTACGCCTCTGAGATCACACAGCTGCCTGGGGGCCGTGTGATGCCCAAGGCAAGTCTTGGTTTTA
Celera SNP ID:            hCV8807768
SNP Position Genomic:     6992
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13255):
CTATTCCGGAGGGAACTGTTCACCCTGCCGAGTAAAGGGGCACTGCCAGCACACCAGGGGCCCCAGACGCTGTGCTCTGATTGCCCTTCAGTGACCACCC
R
TGCAGGCAGCCCCACCGGGCACAAAGGCATGATTCCTGTTCCCTTTTGTCAAATGAGGCCAACTGAGGCACACAAGCATGATTGATCCAGGCCAGCGTAG
Celera SNP ID:            hCV1227149
SNP Position Genomic:     32063
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13256):
AGAAACCTCTGCATAAGACGTTGTAAGGAGGAAAATAAAAGAGAGAAAAACACAAAGATTTAAACAAGAAACCTACGAACCCAGCTCTGGAAAGAGCCAC
Y
TTCTCCAAAATGGATATGTTTCCTCTCACCTGGGTTTTCTTAGCCCTCTACTTTTCAAGACACCAAGTGAGAGGCCAACCAGGTAAGCCACTGAAAGTTT
Celera SNP ID:            hCV8807769
SNP Position Genomic:     7452
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:13257):
TGAAAAAGTGAAAGTGCTTTTTGATGTGCAGGAAAAATATTAGCCATTGTTCTTGAAACATATCTTTGGTTTTTATGGCAAGATGTACAAAGTGTGCTCC
R
CTGAATGAAATGCAATGAGGGGAAGGGAAAACGGAGTGAAAACCAAGTTTGACATTTTGATTTCCACTGACTTCTCTTTGTCTTGAATGTCCAGTTGGCC
Celera SNP ID:            hCV25636173
SNP Position Genomic:     47849
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,40)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13258):
AGGGCTTTACCTCAAGGTTCAAGTAAATAAAAAAGTAGCCCCCCGCCCCCACCATACCAGCTCTTTTGACGGTCCAAGTAATCAGTAGCCACTGTATACC
Y
AGAACATCTTCTGTGTCTGACAGTGGTGGGCCATAAATCGGGAGATTCCAGAAGAACAAACTTCAGTTGCAGCACGTGTTTGATCTCAATATCTATGTGT
Celera SNP ID:            hCV16212686
SNP Position Genomic:     83136
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13259):
CTTGGATTCCAACAAGGAGTATCTCCAGGTACTTGTGCAGATACCAGAGGATGTGAGAGTGTGTATGTATTGCTGGGGTAGGAGGGTAGCTCCTCAAATA
Y
AGTAGGCAGAGGACACAAAGAAAATAAACACAGCATACCTGAGAACTCCATTCATTCATTCATCCAAACAGATGTGTATGCCAGGCACTGGGTTACATGC
Celera SNP ID:            hCV25636174
SNP Position Genomic:     50314
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,9|T,1)   total(C,44|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:13260):
ATTTTTAAGCTTGAGGGAAAGAAAATTTGACAGAACTTTCCCATCCCCTTCAAAGACTGCTCAAGTGGCTGAACTACAAACAGGGGTTTCAATAACATGG
Y
TTTGCATCTTACGCTACAGGTATTTCAAGCCAACAACGATGCAACTGAGGTGGTTCTGAACAAGCTCCACGCTCCACTGCTGACAAGGTTTGTTAGAATC
Celera SNP ID:            hCV25636175
SNP Position Genomic:     64658
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13261):
TCTGTAAAACCCCTTCCCATCATTCATTCAGAGCTGACCTCTTTCTCTCACTGTGCTGATCTGCAACAGCTGGGGAAGGGATGGGTGTTGGAGATCGGGA
R
GGCAGAGGTCTGACTCTCACATAGATATATGCAAGGTGGAAGATTTGTGGCAAAGCTAGGTGATCGCTTTGAATTCCTTGATGAGCCTGATACGAATGAA
Celera SNP ID:            hCV11461241
SNP Position Genomic:     112582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13262):
CCTTTCTTAAAAGATAGAGCAAAAGAAGAATATCTTTTTAATTTCTTGAACTGACAAGAAAGGACTTGAAAAGTGTCATCTGGGCAATGGCTTGTAGTGT
Y
ATTAACATATTTGAGGTATTTTATTATCTGACCATCACTTGCAACTGGATAATCTTTGAGATACCTTCCTTGAGTGGCAGATAAGTATATTGATCACCAG
Celera SNP ID:            hCV27494928
SNP Position Genomic:     12389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13263):
CTCTTTAAATCCATATTCCCGTCCATCCAGTTTTGTGCAAACATGAGCCAGAGTGTGCTTTGGTCCTTCCTTGGAGTCAGCGTCGCCTGTAGCCCCCTCC
R
TTATTGTCTCGTGGCCTTTTGTGCTAAACTCGGGGCCTCTGCTGTGGAGTAAAGAATGTGGGTTTGTGTCCCTACCTCTGTCACTGCTGGTTCTGCAACC
Celera SNP ID:            hCV8807915
SNP Position Genomic:     73595
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13264):
ATCTTCCAAGACATGTTTCAGATAGTTTGAGAGCCAAAAGTGGAATGCATAGGGAGTTAACATACGATATTGGATTTACAGAGTTAGCTTGTTGGGGGAC
M
TGGAGTGGGGGTTCTAGCTAAATGACAATCAAAGGAAAAATTAAGGGTTCTGCTGCAAAATTTCAGAAGTTTATTTTTAATATGATTTTCCCGTTTCTAG
Celera SNP ID:            hCV8807916
SNP Position Genomic:     75348
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   TSC_42_A(A,0|C,84)   SC_12_A(T,1|G,20)   TSC_42_C(A,0|C,84)   TSC_42_AA(A,0|C,84)   total(G,20|C,252|T,1)   JBIC-allele(A,80|C,1385)   total(A,80|C,1385) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13265):
CCTATGATTCTCATACAGGGTGGGCCCGCCTTATGTATATTTATGGCATAACCACAAGGCAGAGAGCTCATCTGCCTGATGGAATCCATATCCAACCCAC
R
TGCTCCTTTAGATTATACAAATTGCTTTGCATACATTTCTTCAGAAACCACAAGCAGAAATTACTGCTTTTGGTTTCCCCAGCTATATTAATAACACCCT
Celera SNP ID:            hCV8807844
SNP Position Genomic:     55371
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   JBIC-allele(G,331|A,404)   total(G,331|A,404) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13266):
CTGCTCGTCTGGAGATTCTGCAGACTAGTGGATTAGCTCAGATGTCAGCACTGAATTATGATCCTTCAGCTGCTTGTGCTAAGCATGTCACTAGCATTAA
S
TCCCTGGTCTTGCAATGTTCCCCTAAATCATGCATAGAGATTGTCATTTTATCGTGAGAGGGAGATGGGAGAGAAGGAGAAAGGAGAGAAGAGGGGAAGG
Celera SNP ID:            hCV8807917
SNP Position Genomic:     84700
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,132|G,618)   total(G,618|C,132)no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13267):
TTTGCAGCTCTTTCTTTGCCATAAGTGGTCTTCAGGGCAGCTGCAAATCCTGCCAAAGGGATGGGTGGGGGTCCCACTTGGGGAGATTTTCTGGGCCTCC
S
CCGTTCCCCCTTGCCTTATTTCTAAATTCCCAGCTTGAAGCGGAATTAAATTACCACTCACAGACCTGGATGCTGCGTAAATTATGTATGTTTGTGTGAT
Celera SNP ID:            hCV8807772
SNP Position Genomic:     8926
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13268):
TCAAGTCCCTCAGTTTATCTGACCCTCTCAATTATAATGGAGAAGGATCCAGTGCCCTAGGTAATTAAGTTTGTCCCTTATCCATTTGCCATGGGATGAG
S
TCAGACCTTTAGCCTCTCCACTTAGGAAGCTCAGGGGAAAATTTCATTATACAGAAGCTTGAACCTTTTCTCTATCAGGCTCCCGCGGCCAGCGTCACCC
Celera SNP ID:            hCV8807845
SNP Position Genomic:     57304
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,11)      total(G,1|C,11) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   SC_12_A(G,7|C,14)   SC_12_C(C,6|G,17)   SC_12_AA(C,6|G,17)   SC_95_C(C,52|G,123)   total(G,164|C,78)   JBIC-allele(C,548|G,945)   total(G,945|C,548) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13269):
GGGCCTGGTTCAGCCGCCGCCGCCGGCGACGAGAACCAATTCTGGGAAGGAGCAAGATGGGGCAGAAGGTGCGCGCGGGGGAGCAACTGAGCAAATAACA
M
GGCGGTCGCGGCGCGCGGCACCTTGGGCTGGCGCGTGGCTGGGAGGCCGCATGGGCGACGCGCACCAGGCTGCCCCTCTCCTCACTGCGCCGCCTCGCCA
Celera SNP ID:            hCV8807773
SNP Position Genomic:     9723
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13270):
CACAGAAGCATTGAGAAAGTCATAAAGATGTATAATATATGATAGCATTTACTAGCTATAAATAGGGGAGATGCAGGGAGAAAAATAGAGACCTTGTAAA
M
CCATTGGGTCAGGATAAATAGAAACTGCTTAATATTTCATTAAAAATGGATTTTCATAAATTGCACTTTGATATCTTTGGGCAAAAGACAATATGTAAGG
Celera SNP ID:            hCV8807846
SNP Position Genomic:     61151
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   JBIC-allele(A,272|C,979)   total(A,272|C,979)no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13271):
AATTCACCCTTCCGTCTGGACTGGATGATCAGATAAGAGGTGTAAATTGGCTGTGGGAGACAGGTCTGGGTTCAGACAAATCCTGAAAGAGAAGCAATGA
Y
GGTCTAGGCGCCGGATAAGGGTTTGAAGTGTTTCTTTTAGCCTGTCTCCCCAAAATGTGAGATGGCCATTGGCGAGCATAATAATTTGCAAGTAAACTGT
Celera SNP ID:            hCV8807774
SNP Position Genomic:     11423
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   JBIC-allele(C,244|T,1241)   total(C,244|T,1241)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13272):
TGAGGAGAGACACCAGGGACCAGATGATTCTGGGGACCCTGGTGTTTTTCATTTCACTCAAGTCTTCCCTAAAGCAATCAGGAAAATGAACTGACTCAGG
R
TGACCTGAGTGTAAGACAATTCTGAGTTGACAGAATTCAAGAGCCAGGTAAAGAGGTTTCCAAATATATTCTCCAAAGGTCCAGTTTGGAAAGACTTTAG
Celera SNP ID:            hCV8807778
SNP Position Genomic:     12169
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(G,-|A,-)   JBIC-allele(A,91|G,1390)   total(G,1390|A,91)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13273):
GACCTTGGTTGTATTAATAAGGAGAAATTAATTTTTAACCACTGGGAACATTGCCAAATTATGTGACCTTTGGCAGACCAGCTGTGCTATAAAAATAAAT
Y
CCCCATTTCTGAAAATGCTACTCCTATCCAGTAGAACAATAACAATGTGGCATTTAGGATAGAGAAGAGTAGGATTGAGAAGAAAGGAGAGAAATAGGAG
Celera SNP ID:            hCV8807779
SNP Position Genomic:     12898
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13274):
CTTGAATCATGCCTCACCGTGTACCTACTCTGTCTCTCGATGATGCAGAGAGAAGGGACACTGACCAAAATAAGGTGACTTTTTGGCCTGAGACTGATCT
Y
CATATGAAAATGACCAGAGTTTTGTGAAGTTGGGTTGTATTTGTTTTTAAGCAGTAGCTACTGTGCCCACTTGATTACTCAAGCTCTGTAAAACCCCTTC
Celera SNP ID:            hCV27477445
SNP Position Genomic:     112397
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,214|T,1257)   total(C,214|T,1257) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13275):
TCACAGGGTAGGACCACTAATGCATGAAGGAGCCCGCAGCACTTCCCACCCATGGCTCCCCTGCTGGGGCACCCCATGAGTAGAGAGGATGCATCTTTCC
R
GCTTAATGCAAACAGCTAGGGAGGCATTTTTCATAGGAGAAGCATATATCATTTTTCAGAAGTAAAGATCATGTCTGGTTTTGGCAAGCTCAAAAGCTCC
Celera SNP ID:            hCV27477446
SNP Position Genomic:     99267
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,266|G,1227)   total(G,1227|A,266) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13276):
AGCCTCCTTGGCATCCCCAGAACATCAGCTAGTGGATCCTAGCCTTGCATCTGGTACTGTCACCCTTCCTTCTCCTCACGCCCCCCACCAGCACACACAC
S
ACTTTAAGCTTGGGCATTTATTTGAGGGGGGAAGAAAATTCAGGAATGCCTTTGCCACCCAGATCCGCACGTTTGCAGCTCTTTCTTTGCCATAAGTGGT
Celera SNP ID:            hCV29134865
SNP Position Genomic:     8754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13277):
TAAATGGGTACCCAGTAAACATTTCCCCCGTGATCAGCTCCTGGAGGTAGGGAAGCTGTGGCCAGTTGCCAGCAGAGCACACAGTGCAAGACAGTGGCAA
R
AGGAGCACTCCCCAAAGGGCCCCGGGCAGGCCCCTACTCGTCCAAGCGGTGCCTGGTGGAATTGTGAATGCGCCAGTGCACATCAGGTTTGGAGTTTTAT
Celera SNP ID:            hCV29134866
SNP Position Genomic:     11687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13278):
GGTTTCAGGCTTACCAAGCAGATAGAACAGGGGTAGCACCTTGAGTAAATGTCTTATTGTCTAGGAGGGTAGAGAATCTTTTGAATTCTTGGCTCAATCT
R
TGGGTTATAAGATCTATTCCCCACCTCACTACATGGGCTTTGGATTTTAGCACTGGAACTGACCTTTAGAATCACCCCTCTCATTCTATAGATGAGAAAA
Celera SNP ID:            hCV29134867
SNP Position Genomic:     16974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13279):
TGCAATTGTAACTGTCTCAATGCAAGCTTCGCTGTAGATGCCCTTCTTAACAATATGCTTTATCTTCTGACTGAGAAAATCACTTGAGATGTTATCATGC
M
CAATCCCACTTGTTCTGCCTCTCCACCCTGGCACCTTCTCCGAACCCAGAGATCCCAGAGGGCCAGCATCTCACCCCATGTAACTCCATGTAATTCTCCC
Celera SNP ID:            hCV29134868
SNP Position Genomic:     28961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:13280):
AACAGGGGGCTGGAGGGAGATGGGAAAATAAACAAATGTCTCTGAAACATCCCCCGTGTGCCTGGCACAGTGCCTAGCCCCTTACATATATATTTTTTTT
Y
ATTCTATCTTCTCCCCAGCCTTGTGGAGTGGATATTTTTATCCTCATCTTACAGATGAAGAAATTGATGCTCAAAGGGGTTCAGCAGCTTGCAATGTCAC
Celera SNP ID:            hCV29134869
SNP Position Genomic:     39892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13281):
AACCTTTTCAAAATTCCTCTTGGCCCCCTGAAGACCCGCCAGCTGGCTTGGCTTTGCTGAATTGCCTCATCCCGGGCCATTGAGGAGGCCCTCAGGAGTC
Y
GAAGCCCAATCATAAACAAAGCTGGGGGAGGCAGCCCCAGCTCATCCCTCCAGGACTAGCTGCCCATTGAAAACTCGGCCTGACCTGCTGCTGCCATGCA
Celera SNP ID:            hCV11722372
SNP Position Genomic:     44923
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;JBIC-allele(T,383|C,1096)   total(C,1096|T,383)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13282):
CTGATACTAATTACAAGTATGTCTCAGTGAATCACAGATACAGGTTGGAAGCAAAGTCTAATGATTGTGTCCTTTGGAAAAAAACAAGACACTGCCCTGT
R
TTGGGAATGGTGGTCTCTTACTCCAGCCCTCTATTCCCCAGGTGGACCTGCGCTTTTTAACCATGCTCACGGCCATCGCAACACAGGGAGCGATTTCCAG
Celera SNP ID:            hCV25473042
SNP Position Genomic:     52008
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,3|G,35)   total(A,3|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:13283):
AGGAAATTGGGGCCCGAGGGAGGTAGAGATATTTGCCCACACTTATGAGCTAATTAGCCGCAGAGCACAGCTCCTGGCTTCTGATTCAGTAGTGTTTTGT
R
TGTGTGTGTTGTTTTTCCCACTATACCACACTCAGAGTGAGAGGTGTGTTAAAAAATCTAATAAGATGGTGTTCCTTCACCATCCAAAGAACAGAAGGCA
Celera SNP ID:            hCV8807853
SNP Position Genomic:     61677
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13284):
TGTATCCATGGGAAGACTGACCCCCTCCCTCAGCTCATACATGCGAGTGCGTGCAGCCCATGCCCATGTGAGCCACACTCATGCACACACCGCCATCCCA
M
AGACAGTCCAAATACACAATCATTTACTCATTGAGGAAAGAAAAGGTCTCTTAGCGTTGCCTGCCAAGGCTGAGAAATGCAGGGGTCGGATAAGATAAAA
Celera SNP ID:            hCV8807854
SNP Position Genomic:     62145
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13285):
TGCAATGTTCCCCTAAATCATGCATAGAGATTGTCATTTTATCGTGAGAGGGAGATGGGAGAGAAGGAGAAAGGAGAGAAGAGGGGAAGGGGCTACCTGG
Y
GGGGTGGGTCACTGGAAGGGGCAGACTGTGAAACCTTTGGCCTGGCTGTGCCTGGAGTTTCAGTAACAGGAAGGGTAAGTAGAACAGACCCAGATACAAT
Celera SNP ID:            hCV8807927
SNP Position Genomic:     84811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13286):
GCCCATGCCCATGTGAGCCACACTCATGCACACACCGCCATCCCAAAGACAGTCCAAATACACAATCATTTACTCATTGAGGAAAGAAAAGGTCTCTTAG
Y
GTTGCCTGCCAAGGCTGAGAAATGCAGGGGTCGGATAAGATAAAATTGGATATTAACAACACATAAGACATGCTGTGTTTCTAAACGGTACCAGCGTGGT
Celera SNP ID:            hCV8807855
SNP Position Genomic:     62200
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;(C,-|T,-)   SC_12_T(T,12|C,12)   SC_12_C(T,1|C,22)   SC_12_TT(T,1|C,22)   SC_95_C(T,10|C,165)   total(C,221|T,24)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13287):
CCACATTCCATGCTGCATATGTGGTAGAAAAGTGGCCCTGCCATCTTGCAGAAGTATTCAGCCTAAGACGCCCCTATGTTTCAGGGCCAAAAAGAGGTAC
Y
GAGATTTCCTCACCAAATGCCACCTTGTTCTCTGTACAAGTGGCCAGAATGGTCCTGCACAAGTTGGATTTGAAGGTGCAGGTCACACCTGTGTTCTGCA
Celera SNP ID:            hCV8807928
SNP Position Genomic:     86849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13288):
CAGCCTAAGACGCCCCTATGTTTCAGGGCCAAAAAGAGGTACCGAGATTTCCTCACCAAATGCCACCTTGTTCTCTGTACAAGTGGCCAGAATGGTCCTG
Y
ACAAGTTGGATTTGAAGGTGCAGGTCACACCTGTGTTCTGCAAGGCACGTAGTCTGCCAACAGCAACAAGAACTCGGTCTTCCACATGAGTGTCTGATGA
Celera SNP ID:            hCV8807929
SNP Position Genomic:     86907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(C,255|T,1206)   total(C,255|T,1206) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13289):
GGGGAGGGAAGCGCAGTAGCTGTGGCCGCAGAATAATTTCTGATAGAACTCTCAGAGTCTGTCCTATCTAGTGATACCTTTGATGTTCCTTTGGTCACTT
M
TTAATTGGTTAATTCACCAAATCTTGATGAGTCTGACTTTTGGGAAAGGTTCTGGTTTGATCCTGTAAGACTTGCCAAAGATGGATCAGCAAGGAGTCAT
Celera SNP ID:            hCV8807784
SNP Position Genomic:     15239
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,9)      total(A,3|C,9) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13290):
GGGAAGGTGTGAGTAGAGAAATGGATGCTGGGTTGGTTTGGGGAACACTCAGAAGCTGCAGTTTAGAATGTATGGTGGGAAATAATTGCAAACAAGATTA
K
AAATAATAGCTTGGGCTCAATTCAAGGCCCAAATTGCTAGGCAAAGAGGTTTGGGTTTCACTTGCTAACCAATGGGGAGCCATTAATGTTTCAACATAAG
Celera SNP ID:            hCV8807785
SNP Position Genomic:     15643
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13291):
TAAAATTCACTCCAAAGAAGTTTGCCTGGGCCAAAAGCCTCCAGGTTCCTTCTGAGAACAAAATACTAATGATTTTTTTTTTTTTTTTGGCTGCTTGGGA
S
AGACTTTCAGCATTCTTTCACGATATCCAGATATGTCCCTTCAGCACACACACTCAACTTTCTCATCTGGTTCGTTTCATCCTCCCGAAAGAACGGTGCT
Celera SNP ID:            hCV25742180
SNP Position Genomic:     102409
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,29)   caucasian(C,2|G,36)   total(C,3|G,65)
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:13292):
ACCAACGGGCCTCAATTTGGCTGGCTAGATGACATTAGGTTCCCAGCATGGGTGAGTGGTGTGGGCACCTGGAAAGCCTATGGGTATTGGCTGCAGAGGA
R
CTGGGCCTCATGGCTGGCCTCATGTGGTCTGGGTGGGAGGGATGAGCTCATTGTCTTCATGGGCTGGGGTGGGTGCAGGGTCATTAGGTAAGAAGATGAT
Celera SNP ID:            hCV8807786
SNP Position Genomic:     20048
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,15)      total(G,15|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13293):
AGGCATCTGAGATTAACAGTGTGATACTCAGCCTGTGGATTTCCACTCTAAAATCCCGCCCCACCCCCCAACACAGCTTGGCTCAACTATTTGCAAATCA
Y
TTCTGATTCAATTTTGTTTTGGTTATCTCAGTGTAAATAACAGTTAAGTGGGAGTTACAGATTTTTCAAACACTAAAAGTGATAAAGCTAATGGGCAAGT
Celera SNP ID:            hCV27850040
SNP Position Genomic:     5266
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,1)   caucasian(C,38)   total(C,59|T,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:13294):
ACAGGGGGCTGGAGGGAGATGGGAAAATAAACAAATGTCTCTGAAACATCCCCCGTGTGCCTGGCACAGTGCCTAGCCCCTTACATATATATTTTTTTTC
M
TTCTATCTTCTCCCCAGCCTTGTGGAGTGGATATTTTTATCCTCATCTTACAGATGAAGAAATTGATGCTCAAAGGGGTTCAGCAGCTTGCAATGTCACA
Celera SNP ID:            hCV29134870
SNP Position Genomic:     39893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13295):
CCCTGTCACTGCCCCGAGGCAGCTTGCTCTGACTGGTGCAGCTGGAAACCTCAGACCCAGAAAATTCTGAACTGTGATGTTGGCAGTCTCACTTGGGAAA
Y
GGGAAAAGGAGTAGATTTTTAAAAAATCAAAATCACCATAGTAACGGGGTACCACTCATCTGAAAACCATGGCTTCTGGATATTACCAGGTATCTCACAC
Celera SNP ID:            hCV29134871
SNP Position Genomic:     53350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13296):
GGGTACCACTCATCTGAAAACCATGGCTTCTGGATATTACCAGGTATCTCACACACATGCACACAATTGCCCGATTTCCACGATAAGGAAAGTGAGGTAC
K
TAGCAATTGAAAGATGTGCCAGGCCAGGTCTGGTTTCCCACTGACTTGGTTTCAGAAAGACTTACCAAGCATCCGTTGGGAATGCCCAGCCTGAATTGGC
Celera SNP ID:            hCV29134872
SNP Position Genomic:     53497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13297):
AATGCCCAGCCTGAATTGGCACTGGGTGCCAGGAGCTTGGGGGCTGAGACCTGGTTCCACCCCACCCTTTTCAATTATAAACCGGTAGATCTCGGAAGCT
Y
AGCTAGCAGACGAGGGCCAGAAGCCAGGCAGGGGTGGTCCCCGGGGAGAGGAGTGGGGCTCACCTGATTGTCTCCCTGTCCAGGCGCAATGACTAAGCAG
Celera SNP ID:            hCV29134873
SNP Position Genomic:     53678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13298):
TTCCACCCCACCCTTTTCAATTATAAACCGGTAGATCTCGGAAGCTCAGCTAGCAGACGAGGGCCAGAAGCCAGGCAGGGGTGGTCCCCGGGGAGAGGAG
Y
GGGGCTCACCTGATTGTCTCCCTGTCCAGGCGCAATGACTAAGCAGCACAGGCCCAGAGGGATACTGTAGCATAAGCTGTTTTAAAAGCATGCAGATGGA
Celera SNP ID:            hCV29134874
SNP Position Genomic:     53732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13299):
CCTAGATGCAGACATGGCATTGTTAATACAACAGTAGAAGGTTCATGTATGTTTACATAATTATAGGCACAATTATGTACATACATACCAAGAAGGGCGC
R
TGGAGAGCAATGGGAAGAGCTCAGAGGCACAAGGTCTTGGTCTAGTTCCTGCCCTCCTGAGATGCTGATTCCATGATTCTGCACTGGGGATAGGCTGTGC
Celera SNP ID:            hCV29134875
SNP Position Genomic:     55569
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13300):
ACTGGAGCCTGCATGGACGGCGCCTGGTCACCAGACTTGGATGTCCAGACTGGCGCTCTCCACAATCCGCCCTAGGCCTTACTCTTCATCTTGAGGGAAA
K
TGGCTTCCTACATGTTCAGTCCAAGGACTGAGAGGTACACATTTTCCTGGAAAGCCTCCTCTTCAGTGAAGTTCTGCATGCAGGATGAGCCTGTACATGG
Celera SNP ID:            hCV29134876
SNP Position Genomic:     56242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13301):
CCAGCTCCCGTGGGTGCTGAACTGTCTCCAGTAGCTGAGGCGCGCCTCCCTGGCGCTGATAGCCTTGATGTTAAACTCCAAGGCCCCGGCTGTGCACAGA
R
GCCAGTGACAAGGAGCACACAGAGGGGATGTGGAAGGGCGCTGTGATTCTGCTTGGGCTGTGGAATCATGTTCCTTGCCCCAACCCCAACTAATGTAGAT
Celera SNP ID:            hCV29134877
SNP Position Genomic:     57503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13302):
TGATGGTTTTCAGGTTCTGGGCTACTGAAAACAAATCAGAGGTCTCAAGAATCAATTGAAAAATGCTGGATTATATTCAGAATTCAGAGAGGCACCCAAT
R
GATTATCCAGACCACTTTGTGCCCTGAATCGCTTTTTAAACTTGGTTTGCAGAGATGCACTTGAAGAAATCTTTATGTTCAACTTAGCTCTTTTTAAATA
Celera SNP ID:            hCV29134878
SNP Position Genomic:     59976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13303):
GAAGCTAAGTTGAAAAGATCCTTCATTTGATTCAAGGGTGGGAGAAGAGTGGGCAAAATGAAAGGGCAGACTGAAGTTCAATTGAAGCAGTCAGGTAGAT
R
GCCTAGGGGACACAAACTGTGTGCTTGCCTCCCTTCCTGAGTGGTGCTACTGTAAGCAGAGATTAGGGGGTTCACCCAGAGCCTGTGGCCACATGTATCC
Celera SNP ID:            hCV29134879
SNP Position Genomic:     61951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13304):
CAGAAAGCCTCTGCCTCATGCTGAATTCTCAGAGAACTGATGAATCTCTTTTCTTTGGATCCAGTTCCCCATCCCTTTCCTGAGAGCTGTGGAGCCCTTT
W
TCAGTACGAAGGAAGTAGGGTCAGTCACCACTCCCCTTGGGCCTTCTCCAGGGTGTCTGGCCCTAACCTTCTTTCCTTCCCTTTGCTTGGCTTTTCTCCT
Celera SNP ID:            hCV8807862
SNP Position Genomic:     62675
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13305):
CATCCCTTTCCTGAGAGCTGTGGAGCCCTTTATCAGTACGAAGGAAGTAGGGTCAGTCACCACTCCCCTTGGGCCTTCTCCAGGGTGTCTGGCCCTAACC
Y
TCTTTCCTTCCCTTTGCTTGGCTTTTCTCCTTCCCTCGCTAACTTGGTCTTCTCACTCCTTCTCATCCACAATCGCTATACAGGAAGCAGCAAAATCAAA
Celera SNP ID:            hCV8807863
SNP Position Genomic:     62744
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   JBIC-allele(C,557|T,928)   total(C,557|T,928) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13306):
TGGTCTGGGTGGGAGGGATGAGCTCATTGTCTTCATGGGCTGGGGTGGGTGCAGGGTCATTAGGTAAGAAGATGATGTGCTGTGTACCAGCCTGAGGAAA
Y
GGCTGCTTTTGTTTTCCACCCAGTAGGAAATGGACCTGAATTCATTCCATTCTGGGCAGTTCAATACGGCACAGTTTGAGCTCGTGGAGGCTTGATGCCG
Celera SNP ID:            hCV8807790
SNP Position Genomic:     20173
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,14)      total(C,14|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13307):
GCGTGCCTATGAAGAGGTGCAGCATGATACACTAAATGGACATCCCAGTAAAGGCAGCTGCTGTTGGGCATAAGATGCCATTGAAGGTGCCTTAAATGAA
W
CCTGTGTTCCTAATGAATGCCAGTCATTAAAAAGGCACAGTGGCAGGGGTTGCTTGGCACTGAAGACCCAGAGTTTCTTCTTAGTTCTGTGTTACTGGTT
Celera SNP ID:            hCV8807936
SNP Position Genomic:     116098
SNP Source:               Applera
Population(Allele,Count): african american(A,24|T,4)   caucasian(A,19|T,1)   total(A,43|T,5)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,14)      total(A,14|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13308):
TGGAGCCTTTGAAGGTGGCTCCCTTCCCTCCCAGGCCACATGAAGCTGTCTGCCTCCAGCCAGGCACTGCAGGTACAGGGAGCCAGCCCTTCCTGCAAAC
R
GCCAGTTATGGCTGGACAAAGCAGCAGCACACTCTGGTGGTGGTGACCAGGCAGGAGGGACAGTGGGCAGACAGCGCAGAAGAAACAGATGTTCATTCAA
Celera SNP ID:            hCV8807791
SNP Position Genomic:     20859
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,17)      total(G,17|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13309):
ATAAAAGGTCTGTAAAATAGTTTTAATCAGACACTGGTACAGAAGAGAAGGAGGGAGTGTGGGGGGAAGAAAGTTGTAACATATTTGAAGTTCTTTGGGT
Y
GTTGATTTCTCTTTCAGACCCACCGTGCGGAGGTCGTTTGAATTCCAAAGATGCTGGCTATATCACCTCTCCCGGTTACCCCCAGGACTACCCCTCCCAC
Celera SNP ID:            hCV8807792
SNP Position Genomic:     21683
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,26)   caucasian(C,2|T,30)   total(C,10|T,56)
SNP Type:                 INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   JBIC-allele(C,145|T,1330)   total(C,145|T,1330) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13310):
GCATGACTAACAAGTTCTTTCCCGGTGCTCCCTGCTGTCAACCTTAGGACCCGGGTGGGAGGACTTCCCAGGGGAGGAGAGGGAGCAGCAGGCTGGGTGC
K
CAGGGGGCACCCCCAGATTTGGTGGACTTCGCACCAGATCAATGGTTTAAACTGAATATGGTGGACCAGCGAAAATCTGCTTCCCTGTTTGTCTTCAGCC
Celera SNP ID:            hCV8807868
SNP Position Genomic:     62957
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;(T,-|G,-)   no_pop(T,-|G,-)   JBIC-allele(T,552|G,905)   total(G,905|T,552)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13311):
TGGTTGGTTAGTTGGTTTTTCCCTCTACCCTTATTCAGGAAAACCAAGGGAAACTCACATATACTTTGCTCTAGTTACTTTTTTTTTTTTTTTTTTTTGA
R
CAGAGAGCACAAAAAAGCATAAGGTCCATATGGCAGTTATTGATCTGGGCCATCTGGAAAGCCAGGACTTGCTCCCACCATGTAGGATCAGAAGCTGTTC
Celera SNP ID:            hCV8807869
SNP Position Genomic:     63864
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13312):
AGCCAAAGGACAAAAGGGCGAGACTACGGGCCGTCTGGGCAAACAGAGAGAAGCCACTTTATTCCCTGTGGAGTGGAGGATGCTAGGATGTTGCTGCTCC
R
GCAGACAGAGGCCTTTCGCTTGAGTCATCAGCCAACAGACTGAATGTTATGGTTTTAGAAACCCATACACAAAGTTGAGTGGTTTTTTCCATTTCTAAAA
Celera SNP ID:            hCV8807796
SNP Position Genomic:     25175
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;JBIC-allele(G,267|A,1010)   total(G,267|A,1010)no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:13313):
AACATGCAAGGAATGGGCTGGAGTTATGGAGGATTAGTGCCATGTGGCATCAATCTTTTAAGTGGGGTCTTGGCAAGTTGTTTTGTGCATCCCTTACTAG
S
GACCGAGGGGGATGAGAATGTGCTTTAGCACTTTGGCCAGAAATGAGGAAGACTTCTAACATGATTGAAACCATGGCCTCCAGGAAAAGACTGAATTTCA
Celera SNP ID:            hCV27479208
SNP Position Genomic:     115125
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,275|C,1214)   total(G,275|C,1214) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13314):
AGCAAAACCCACTAGCAAGAAATGAAAGAACATTTCTTAGGCTAAAATCCTCAAGGAAGTCTACATAAATGATTGTATGTGCTATGTTCAGCCCAGCAAT
R
TCTCATATACCACGTATCATTGAAGAATGACATTCCATTTAGGTGAAGTGTCCAGATACTGAAATATCCACCTTTAAAGTTCTTAAAAGAGAACTTTAAA
Celera SNP ID:            hCV8807797
SNP Position Genomic:     25857
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;SG_12_A(A,3|G,14)   SG_12_AA(A,4|G,19)   total(G,33|A,7)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13315):
CCCTCTGCCTCCCAGAGGCCGGTAGCTTTACCCGTTGGTTCTCCTGGTAGCATCTTACCTGCCACACCTTGCCTATTCTTTGCTAGAACTACAGGGACCT
R
ATGAGAGAACCACATTCCTTCCTGCTGGCCTCCTAAGGAAACAGGCTGCAGTTTACCTACCAGGCTCAACAGAAAAGGAAAGTGGCTGGTAAAGGGCAAA
Celera SNP ID:            hCV27479209
SNP Position Genomic:     113908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13316):
GGGGACATGATATGGACCTGTTACGTGGGCCCACAGCATCCAGGTCCAGCCTAAGCTGGGAAGATCAAGGAAGGCTCCCTGGAGGAGGTGACGCCTATAC
K
AATTCTAAAGAATTTGGCCAGGCAGCAGGGAGTGTGTTTGGCTGGTGTCATAGGCAGACAGCAGCATGCCCAAAGACAAGAAGGAGGGAGGGTTTGATGC
Celera SNP ID:            hCV8807798
SNP Position Genomic:     27844
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13317):
AAAGATCCTTCATTTGATTCAAGGGTGGGAGAAGAGTGGGCAAAATGAAAGGGCAGACTGAAGTTCAATTGAAGCAGTCAGGTAGATGGCCTAGGGGACA
M
AAACTGTGTGCTTGCCTCCCTTCCTGAGTGGTGCTACTGTAAGCAGAGATTAGGGGGTTCACCCAGAGCCTGTGGCCACATGTATCCATGGGAAGACTGA
Celera SNP ID:            hCV29134880
SNP Position Genomic:     61964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13318):
ATATGACACTTGAGCTTGGGGGTAAGAAAATGTTAGTCTGGGGGTGACTGAAGGGAAAAGCATTTGGGGTAATGGGAACAGCATGTGGGAAGGATCCAAG
R
CAGTAAAGAGCAGTTATTTGGGAAGTAAAGACCTGATACTGATGCCAGGAAGGTTTCCTTCTACTTGGCAAAACAATTACTAGGAAATAATTCAATGTTT
Celera SNP ID:            hCV29134881
SNP Position Genomic:     66763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13319):
CCCCGAGCCAGAAGCTCAGGCCAGTACAGCTTACTCCCCTGCCACCAGAGTGAAGGTCAGCCTTCAACACAGACACAAGGAGCCCCAGAAGGGGAGGAGA
Y
GTCATACCTCTGTCCCTCCCCAGATCAGTCTCCTGGCAGGCCAGGCTCTCTGATTCTTATCTCTAGTTACCCCTTGTTTTTCTCAAAAGAACAGGTCCCT
Celera SNP ID:            hCV29134882
SNP Position Genomic:     68726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:13320):
ACTTAGACTACTGCCTGCACCCAGCAAACCTGTTATGATAAATAACTGTAACTGAAACAAAAGGTTCCCAAAGCAATGGTCATCTTAACCATGGAAGTGC
W
CTCCAAAATATTATAGTCGGTATGTTTTAAAAGCTGGTCATGACCTATTCGACGGATTCCACAACCCAATGATGAGAGTGATGCGTGGTTTGGGAAATAT
Celera SNP ID:            hCV29134883
SNP Position Genomic:     71697
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13321):
CACTGTATTGGTCAGTGCATAGACAGGGCACGTCACTGTATACACGGCATCATCACAGAATGTATTGGACAACACTGCTCCAGTGCTTTGGACACTCACA
Y
GAGAGCAACCACCAGGGGCCCTTGATGATTCTTTAGTTCCCTGGTTTTGGTATGAACCAAGAAGCAAGTAATGGAGGGATGTGTCTTCTGTGGGATCCCT
Celera SNP ID:            hCV29134884
SNP Position Genomic:     80838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13322):
ACAAACTGGAATCCCATATACGCATACTAAACTGGTCTCATTTGACTTCAGGGAAGCATAGCTTCTGAAGCACTAATCCCAGAGAGCCTAAACAGGAAGG
R
GCTTAGGGGAGCAGGGAGGTAGGTGAGGCAGCTGGGGAGTCAAGAAGGAAAGAGCTGTTTCTGGGCCACTGATGGGAGGTCCAGCACAGGCTCAGCTCTC
Celera SNP ID:            hCV29134885
SNP Position Genomic:     86443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13323):
GTGGCATAAAAGCATCCATAAGCAATATGTAAACAAATGAGGGTGTCTGTGTTCCAACAAAAATTGATTTACACAAACAGGCAGTGGGCTGGATTTGGCC
M
ATAGGCCACAGTGAGCTGACCCCTGGGTTAGAGCACAGGCTGGGATTTTGTCCACCTGGTTCTAGCCGTGACTCTGACACTTGCTAGCAGTGTACAGTTC
Celera SNP ID:            hCV29134887
SNP Position Genomic:     96108
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13324):
GGGCCACCTGTGCAGGCCTCCTGCTCTACTGCACCTGTTCCTACTCGGGCCTGAGCTCCCGAAGCTGCACCACACTGGAGAACTACAACTTCGAGCTCTA
Y
GATGGCCTTAAGCACAAGGTCAAGATGAACCACCAAAAGTGCTGCTCCGAGGCATGACGGATTGCACCTGAATCCTATCTGACGTTTCATTCCAGCAAGA
Celera SNP ID:            hCV29134888
SNP Position Genomic:     119159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13325):
GTTCCTACTCGGGCCTGAGCTCCCGAAGCTGCACCACACTGGAGAACTACAACTTCGAGCTCTACGATGGCCTTAAGCACAAGGTCAAGATGAACCACCA
R
AAGTGCTGCTCCGAGGCATGACGGATTGCACCTGAATCCTATCTGACGTTTCATTCCAGCAAGAGGGGCTGGGGAAGATTACATTTTTTTTTCCTTTGGA
Celera SNP ID:            hCV29134889
SNP Position Genomic:     119195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:13326):
TGCTCCCACCATGTAGGATCAGAAGCTGTTCCAAAAAGCCTTCCCTCCCATAAGAGATGTATTGGTCAGATGGGGACAGGGATGGATTTCATTACAGGGC
R
GGACTACAGTGAGAGGAAGCTGGAGCAGGACTCTGAAGGACTGTCTGCAACCCTGACCCTGCCACAAAGATCAGAGAGAACCAAGAAAGTGTTGATTGAC
Celera SNP ID:            hCV8807870
SNP Position Genomic:     64034
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13327):
GTCCTGTTCTCCATGATTAATGAGTTCCACTTGCTTTCTTCAAAGAATGCCTGTGCTGTGCCATGCTGTTATTTATTTATGTTTTCTACTAAAAAATTTA
Y
GTAAAAAACATCCCTTAAGGTCAGTATGCAGTATTGTGCTGCAGACTAAACTATCCCAGCAGCCAGAGGTAAACCTACACACCAAGAAAAAGTCTCAAAT
Celera SNP ID:            hCV27479210
SNP Position Genomic:     107589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13328):
GGAGATTAGATTCTACTTTCAAAGGGCTCCGGGAGAGTGGTACCAGCTAAGCTGAATCCTGTACCCAGCTCTGCAGAGACAGATCACTTCCTTTGAAGAA
R
CAGCAGTGACATCTTACCCCTCACCTACCCAATTATTACTTCCACAGGGATGTGAATCTCCCATTTACGAGCGCTTTCCCAGACAAAACGGGAACTTGTA
Celera SNP ID:            hCV27479211
SNP Position Genomic:     104286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13329):
TGGGATTTTGCAAAAGTTGCTAAGTGCTAAATTGCTAAATGAGATTCCACGAAATTTCTCTTGATGACAAATCCCTGGAGATTAGATTCTACTTTCAAAG
S
GCTCCGGGAGAGTGGTACCAGCTAAGCTGAATCCTGTACCCAGCTCTGCAGAGACAGATCACTTCCTTTGAAGAAGCAGCAGTGACATCTTACCCCTCAC
Celera SNP ID:            hCV27479212
SNP Position Genomic:     104210
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,287|G,1198)   total(G,1198|C,287) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13330):
ACAGTGTTTCTTTAAAAAGCCCAAAACAACATACCCACTGATTATTTTTAAGCTTGAGGGAAAGAAAATTTGACAGAACTTTCCCATCCCCTTCAAAGAC
K
GCTCAAGTGGCTGAACTACAAACAGGGGTTTCAATAACATGGTTTTGCATCTTACGCTACAGGTATTTCAAGCCAACAACGATGCAACTGAGGTGGTTCT
Celera SNP ID:            hCV8807874
SNP Position Genomic:     64615
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   JBIC-allele(G,710|T,791)   total(G,710|T,791)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13331):
CCCCTGGGTTTAACATTCTTTACACCAATCAGCTGACCCATTTTGCTACCTAACATTTCCAGAAACTGTTCTCCATAGGTCACGTGGCTATGTTTGCTTT
Y
CGAATTTCCATCTGTTTCTCACACTCATCTTCGGTTCACTTCTTCATCCCTATCCCAAAGGATAACAGGAAAAATAATGGGCTGGGCTGAGCTGCTGCAG
Celera SNP ID:            hCV27479213
SNP Position Genomic:     72387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13332):
TCCTCATAAGGACTCCATGGGTATTATTCTCCTCACTTTACAGATGAGGAAACCAAGACTTAAAGAGCTAGGTCACTCACCAGTAAGTGGTAGAGCCATG
R
TTTGAATCTAGGCAGTTCCAGTCCAAAGCCCTTGCTTTCAAATAACACTCTCTGCTGCCTCAACCGGGGGCCAAGAGCTGTGCATGGTGCTGTGGACACA
Celera SNP ID:            hCV8807875
SNP Position Genomic:     65193
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13333):
CTATATTAATAACACCCTAGATGCAGACATGGCATTGTTAATACAACAGTAGAAGGTTCATGTATGTTTACATAATTATAGGCACAATTATGTACATACA
Y
ACCAAGAAGGGCGCATGGAGAGCAATGGGAAGAGCTCAGAGGCACAAGGTCTTGGTCTAGTTCCTGCCCTCCTGAGATGCTGATTCCATGATTCTGCACT
Celera SNP ID:            hCV27479214
SNP Position Genomic:     55554
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,58|T,1241)   total(C,58|T,1241) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13334):
AGCTAGGTCACTCACCAGTAAGTGGTAGAGCCATGGTTTGAATCTAGGCAGTTCCAGTCCAAAGCCCTTGCTTTCAAATAACACTCTCTGCTGCCTCAAC
Y
GGGGGCCAAGAGCTGTGCATGGTGCTGTGGACACAAAGGTGGGCACAACAGACTGTTCTGTGTGGGCATATGGACAAGTTGGGCAGACATACTGATAAAC
Celera SNP ID:            hCV8807876
SNP Position Genomic:     65258
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13335):
GGAGATTTACTCCAGCTGTAGCAAATCCCTCATAATAAAAAATTTCCCCAAATGAGTCAGTCACACAGGAGGTAAATGAGACATTCTGTATGAAGTCAGC
R
TGTCATTTGGAGTGTGCCCTTTATATAAAAGGCCCAGCCAGAAGACCATGTGGTTAAGTGGGGCTTGTCCACAGGGCAGAACCAGAAGACTGGAAGTTGG
Celera SNP ID:            hCV27479215
SNP Position Genomic:     36846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13336):
ACCGTTGCTTATTAACTTTGTTCCATTGAAGCTTGCTGTCTGCTTGGAAAATTTCACTCACAAGCCGCAGCTTTGCCTGACTCAGTGCAATCCAAGGCCA
Y
CATCTCTGGTGAACTTCCCTTGACTCCTCCCTCCAGCCACTTGCAGAAATGCAAATCCTGGGCACCCACAGGCTGTTTGGGGGCCTGTATAGAAGCTGTG
Celera SNP ID:            hCV27479216
SNP Position Genomic:     24933
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,181|C,1318)   total(C,1318|T,181) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:13337):
TCCTCTTTAGATGGTGACCCAGTTATATAAAATATTTCTATCAGAAGGGAACTGGGTTGGGCCAGGTGGGGGAAAATCTAGGAAAGGCAGCCTCCCAGCA
S
TTCATGGTTTCTAGATAGTGGTCAAGAAGAGGTCACATTAATCCTATTTGCAGATAGGATTTCCCACCAACCCCATTCATGGGATTTATCAGAGGCCTTC
Celera SNP ID:            hCV27931129
SNP Position Genomic:     104683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13338):
ATATGTCACATATGGACTGAATCAAAGGTTTAAAAATACTACAAAGCCTTTGCATTACAGTTTTTGGGAATTTTTTTTCCCTGTCTTGAAGCAGAACACA
Y
CTCCCTTGAGTTTCTCCAACTAGCCAGTGAAATATAAATCATTTGCATTCCCTCCACTTAGCTACATTGAGCAATGTTAACTGAAGGGCTTGGGAAAGAC
Celera SNP ID:            hCV207026
SNP Position Genomic:     7890
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,11)   total(C,2|T,11) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13339):
CGAAGCTGCACCACACTGGAGAACTACAACTTCGAGCTCTACGATGGCCTTAAGCACAAGGTCAAGATGAACCACCAAAAGTGCTGCTCCGAGGCATGAC
R
GATTGCACCTGAATCCTATCTGACGTTTCATTCCAGCAAGAGGGGCTGGGGAAGATTACATTTTTTTTTCCTTTGGAAACTGAATGCCATAATCTCGATC
Celera SNP ID:            hCV29134890
SNP Position Genomic:     119218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:13340):
TCCAGCCCTCTATTCCCCAGGTGGACCTGCGCTTTTTAACCATGCTCACGGCCATCGCAACACAGGGAGCGATTTCCAGGGAAACACAGAATGGCTACTA
Y
GTCAAATCCTACAAGCTGGAAGTCAGCACTAATGGAGAGGACTGGATGGTGTACCGGCATGGCAAAAACCACAAGGTAAATCCATGATCCTACCTTAAAG
Celera SNP ID:            hCV2186500
SNP Position Genomic:     52130
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,27)   caucasian(C,22|T,12)   total(C,31|T,39)
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   ;(T,-|C,-)   JBIC-allele(T,321|C,978)   total(C,978|T,321)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13341):
CCTGTTCTTCACTGTAGTAGAAAATGTGCAAGTAACCTTCCAGGAGTCTGTATGGAGAGATTATGCCATAAGTTTCAGCATGGAAATGGGCACTATTAGT
Y
TCTGCTTAAATATGATAATTTAGGCTAAATATAATATTCAGATTAAAATTCTGTTGAAACAGTTGGAAAGTTGCCAGATTTAGCACATAAAAATGTCCCA
Celera SNP ID:            hCV29134893
SNP Position Genomic:     127774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:13342):
GATTTAGTGTAAGATAATGTGAGTTTAATCGTCCAATGGAATTGCAAACTGATACTAATTACAAGTATGTCTCAGTGAATCACAGATACAGGTTGGAAGC
R
AAGTCTAATGATTGTGTCCTTTGGAAAAAAACAAGACACTGCCCTGTGTTGGGAATGGTGGTCTCTTACTCCAGCCCTCTATTCCCCAGGTGGACCTGCG
Celera SNP ID:            hCV2186501
SNP Position Genomic:     51960
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,10)   caucasian(A,12|G,22)   total(A,38|G,32)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13343):
ATCATCATTATTACTATAATTTTAAAATTGTCATTAATATAGTCATAAATATTGAAAAGGTACATCACCCAAGGCTAACAGCCACCAGTACTTCGCAGGT
R
AAGACCAACATGGATCTTGGGTCTAATTAGTATTGGAGAGGAACAAATCTTTCACTTTTGTAGTCATTGTAAGTTTTTTCTAATATAAAGGAGACTTGAT
Celera SNP ID:            hCV2186502
SNP Position Genomic:     47411
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13344):
CCAGCTGTGCAACCTTAGACAAATCCCTTACCCTATCTGTGCCTTATCTGTGTTAAGTTAGCTGCTATCATCATCATTATTACTATAATTTTAAAATTGT
Y
ATTAATATAGTCATAAATATTGAAAAGGTACATCACCCAAGGCTAACAGCCACCAGTACTTCGCAGGTGAAGACCAACATGGATCTTGGGTCTAATTAGT
Celera SNP ID:            hCV2186503
SNP Position Genomic:     47342
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13345):
TTTTTCTTTAAAACGAATACCTCTAATGCCCAAGATCCCAAAGTTGTTGTAGGATTAAACATTGCAGGCCAGGTGACTGGCACGAGAAGGATATCATAAC
Y
ATCATCTTGGTCAAAAGCACCTGAACAGCCAGTCCACCTGAGAGGCACGCATTTTCTTCAGGGTCTCCTGCTGCAGATGAGGTCACCCTGGCTGTGTCCC
Celera SNP ID:            hCV27498816
SNP Position Genomic:     90323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   JBIC-allele(T,518|C,975)   total(C,975|T,518)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13346):
CATGCCCACATTCCATGCTGCATATGTGGTAGAAAAGTGGCCCTGCCATCTTGCAGAAGTATTCAGCCTAAGACGCCCCTATGTTTCAGGGCCAAAAAGA
R
GTACCGAGATTTCCTCACCAAATGCCACCTTGTTCTCTGTACAAGTGGCCAGAATGGTCCTGCACAAGTTGGATTTGAAGGTGCAGGTCACACCTGTGTT
Celera SNP ID:            hCV27498817
SNP Position Genomic:     86844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13347):
CAGAATGCTGTCATCAATAAAGAGACTCAATGAGAGGCCCCCTACAGGAGCTGCGGATAAAGGCATCGCTGCAGGCTCAGATCAGTGTATTGACATCACC
Y
AGTTATATTTCAGTGTGAGCCCCAGAGGACACTTCCTGACAGTAAACACCCAGTTTATCGAGTATTTCTGGTTGGTTGTGTTTTTTATGCTTAGAGTGTC
Celera SNP ID:            hCV2186507
SNP Position Genomic:     45380
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;JBIC-allele(C,382|T,1091)   total(C,382|T,1091)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13348):
AGAGACCTTTCCAGAGACAGCAGCAGGTTAAAATGCTGAATGGCCCTGTCCTCTGTACTTCCTCTTCACCCTTTTGAACTCCTGTTGTTCATTCCCAGGC
R
ATTGTTTTCCCTGTATCATTGGCAACAACAGATGTTTTGGGTCAAGGACCCAGCGAAATGCCTCCCAAGTATGTCAGGTCCAGGAGGAGAGGAATTGTAT
Celera SNP ID:            hCV27498818
SNP Position Genomic:     82763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13349):
TGGGTGGACATGCTGAAGAAATCCAAACAAACACAGCTATGTTTGCTAGTCGGATTCATAGAGAGGAAGAAGCGGGGGAAACTGTAAACACAGATACGCA
R
ATAGCCATACAGAGGGCTCTAGAAGCCTTCGATGGTACATTACCCTGGTGAGGCTCTGCTGTAGGACCCACAGTGTGAGTGCAGACCAGGGCATGTGGCT
Celera SNP ID:            hCV2186508
SNP Position Genomic:     43386
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,7)   total(G,5|A,7) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13350):
CAAGAGACCTTTCCAGAGACAGCAGCAGGTTAAAATGCTGAATGGCCCTGTCCTCTGTACTTCCTCTTCACCCTTTTGAACTCCTGTTGTTCATTCCCAG
R
CGATTGTTTTCCCTGTATCATTGGCAACAACAGATGTTTTGGGTCAAGGACCCAGCGAAATGCCTCCCAAGTATGTCAGGTCCAGGAGGAGAGGAATTGT
Celera SNP ID:            hCV27498819
SNP Position Genomic:     82761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13351):
ATTCGGGATGGGGACAGTGAATCCGCAGACCTCCTGGGCAAACACTGTGGGAACATCGCCCCGCCCACCATCATCTCCTCGGGCTCCATGCTCTACATCA
R
GTTCACCTCCGACTACGCCCGGCAGGGGGCAGGCTTCTCTCTGCGCTACGAGATCTTCAAGACAGGTCAGTGTGGTCACACGTAGGGGCCGGGAGATGGG
Celera SNP ID:            hCV2186509
SNP Position Genomic:     40468
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,40)   total(A,72|G,4)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13352):
CATTTAGGCTAGCCAAGAGACATGCTCCCTGGAAGAACTCAGAGGCCTCTGTGCTGTGCCTTTCCCAACCAGGCATCTGAGATTAACAGTGTGATACTCA
R
CCTGTGGATTTCCACTCTAAAATCCCGCCCCACCCCCCAACACAGCTTGGCTCAACTATTTGCAAATCACTTCTGATTCAATTTTGTTTTGGTTATCTCA
Celera SNP ID:            hCV27844085
SNP Position Genomic:     5196
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,21)   caucasian(G,38)   total(A,1|G,59)
SNP Type:                 hmCS


Context             (SEQ ID NO:13353):
ATCAAAACTATGATCAATGTCTGGACATAGAGGCTTATGGTCCTTGGAAGTACATCGTAGGGGATTTGACCCAGCCTAGGAGCTCAAGGAAGACTTCTTT
R
AGGAGGTGATGATTGAGGTGAGGTTAGAAGGCAAATAACAGACATTACCTGGTGAAGAAGGGAGGGAAGGTGCACCAGGCAATGGTCACAGCTTTCTCAA
Celera SNP ID:            hCV8807883
SNP Position Genomic:     65476
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13354):
CCCTGTTGCTGTTCCAGGATAATCAGCAAAGATTTAGGTAGAGGTCATTCTCTGGAAGATTGAAAGGAGAGAACCAGTGATTTTGAAGAAGGGGAACAAC
S
TGGAGGATCTTTTTTATCCATAGCTCAGTTTGCAAGTATGAAATGCACATTGACTATAGACCCTGCCTTGCCTGACATCATTTATTCATGCATTCTCCAC
Celera SNP ID:            hCV8807884
SNP Position Genomic:     66322
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13355):
TTCCAGGATAATCAGCAAAGATTTAGGTAGAGGTCATTCTCTGGAAGATTGAAAGGAGAGAACCAGTGATTTTGAAGAAGGGGAACAACGTGGAGGATCT
Y
TTTTATCCATAGCTCAGTTTGCAAGTATGAAATGCACATTGACTATAGACCCTGCCTTGCCTGACATCATTTATTCATGCATTCTCCACTCAATCATTTG
Celera SNP ID:            hCV8807885
SNP Position Genomic:     66333
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13356):
TTTTGGTTATCTCAGTGTAAATAACAGTTAAGTGGGAGTTACAGATTTTTCAAACACTAAAAGTGATAAAGCTAATGGGCAAGTCCAGATAAGGAGGGAA
R
CCACCCAGAAGAATCCACAAGTACAAGCCAAGAAGAAAATGGGTAGTCAGGTGTGTGTTTCTCGTCACCGAAACTGTATTTTTCTTAATCTACAGAAAAT
Celera SNP ID:            hCV27842126
SNP Position Genomic:     5383
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,1)   caucasian(A,39|G,1)   total(A,50|G,2)
SNP Type:                 TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,1)   caucasian(A,35|G,1)   total(A,54|G,2)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:13357):
ATGAGCTCCTGTTCCTGCTCCTGCTGCCATCCAAGCTCGCACCAGGATGCGAATGTGTGCCGCATTTAATCAGGATGCCTCCATGCGTCCCAAGAAAGCA
R
ACGCAAGAGCTCAGGAGAGAAACAAGGCCATCCACACCACAAAGGAGCCAGAAGCCTTCCAAATGTCAATGCACTGCTGCATTTTTCCAAACTTGTTGCC
Celera SNP ID:            hCV27498820
SNP Position Genomic:     45848
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(A,201|G,1282)   total(G,1282|A,201)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13358):
GCTATTGAAGGAAGAAAAAAATGTGTTTTGTGATATTTGATAGAACGATGCTCCTGCTCTTACGTGGGCAAGAGATAAGGCCTTCCAGCCATGTGTTTAT
K
CACTCTGTGGCTTTCACAAAGCACAACGACCTGCAGTATCTCTGTTTGCCAGTCTGTACAAGCAGACATAAGTGCCCTTCGCTTATCCATCTGAAACACC
Celera SNP ID:            hCV2186510
SNP Position Genomic:     40149
SNP Source:               Applera
Population(Allele,Count): african american(G,14|T,24)   caucasian(G,28|T,8)   total(G,42|T,32)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|G,6)      total(G,6|T,5) ;no_pop(G,-|T,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13359):
TCCTTTAACCATAAGTTCAAGATTAGGTTTTCTTTCCTGTTTGCCTGTGACACTTCAGAAACTGACATTTTTGGGGTCATTCACAGAGGTAGAGAAAACT
Y
GGAGTGCCTACTGCCTCCACTTCCTGAATTCAGGAACTGAATTCACCTTCTGCGGGGAAGGCAAACTCAGCTTTGGGTAAATCCACTGTGTTTTAAATGT
Celera SNP ID:            hCV27498821
SNP Position Genomic:     43832
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,70|C,1031)   total(C,1031|T,70) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13360):
CCCTTTATATAAAAGGCCCAGCCAGAAGACCATGTGGTTAAGTGGGGCTTGTCCACAGGGCAGAACCAGAAGACTGGAAGTTGGGGGGATTTCAGCTGCC
S
AACTGTAACTCTGTGTCACTTCCCCTCAAGCAAACCTTATAGAAAAATCTAGTTTTTCTAAGAAGTTCAAGTAAGGTTTGTTGATTATTTGCTTCACAAA
Celera SNP ID:            hCV2186511
SNP Position Genomic:     36963
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|G,9)      total(G,9|C,6) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13361):
CCAAAAGAAGGGGCAGAGTATTCTTCCTCCGAAGACCTAAGTACTCTATCTTCGATACAGAAATCCCCTTCCAAGTGGTTCTGTGTGGCATCCCTAAAGC
K
GGATTCTGACAAGGGCCAGACATTTCGGTGCCCTGAGAGAAGGACCTAAGCTTGGTGAATCTTCCAGCACAGGCTCCGTTGACTAACCCAGCCTTTGGTG
Celera SNP ID:            hCV2186512
SNP Position Genomic:     35954
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13362):
TCCATAAAGGCTAGGTGACTGTACTGAGCCTAAGGAGCAGGTGGCCTGGCTTCAGGCCTGAACCAACCAGAGACCTCAGCATTGTGCAGATCTGCCTTGC
R
GCCTTTTTAGACATCGTGCAGCTTCTTTGTTGGGAAGTTGTATGTGACAGTGCTGTTTTTTTTCCTCCTAATTTCCTCACAGGTTTTAATGTAAGGATTA
Celera SNP ID:            hCV2186513
SNP Position Genomic:     34839
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13363):
TTTTATGCCTCTTTTCGAGCTTTGTAGCCAAGCATCTTGGCAGTCTCTAATATTTTTCTACTTTTTCCCACTGGGGACTCAACTGTATGTTTGTGGGTCA
Y
GTGGAGGAACTCTCAAAATTAGACAACAATAGCAAACATTTATTGAACTCTTGCCAGACATCAGGTCCTACCCTAAGTTTTCTATGTTTAACCGCCACAG
Celera SNP ID:            hCV2186514
SNP Position Genomic:     29730
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,14)   total(C,14|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13364):
ACAGAGAGGTTAGGTCAGTCACCCAAGGTGACTCAGCTGGTCTTACAACATTGGTTCTGCCACCCTGGAAATGTGTGGCTTAGGAACTCCCAAGTGGACA
Y
TTAGACACTTGGGAGTACTTTAGAAATGCCATGTTACTACCGAGGTCCCTAAAAGTTAAGGTTGGGAAGCAGGCAGCATGTCTAGAATGCAGATGTGCTT
Celera SNP ID:            hCV2186515
SNP Position Genomic:     22691
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,7|C,9)      total(C,9|T,7) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13365):
CAGCAAGTGTTTACATAAGACCTTTTTTTTTTTTTTTCTAATCTACATCCTTCTGGAAATGTTTACATGAAACTCAGGGGAGGCAGGCTGGCCAGTGAAA
Y
GAGGTTGGAACAGGACCATGGTTGAAGAAAACAGGACCCATCTGGATGCAGAGGCCGCCTTTGCCCCTGTGACGTTGGTGGTGTTGATGGGGGTGTGGGA
Celera SNP ID:            hCV2186442
SNP Position Genomic:     125115
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 hmCS


Context             (SEQ ID NO:13366):
TTCTTATAGAAAAAAAAAAGGGTAAAAAAAAAAAAAATCTAAGTAGTTCTAAGATTCACATTGGTTCTTGATAGCTGTGCTACACAAGTAGAGTCTCAAA
R
TCAGTGTCATGGATTTATTTAACAAACACTCTTCTAATTGCATTACAAATATTAATCCATTTACTTTGCACAGTGGGCCCTGGGAAGTTAGTGCCATTAT
Celera SNP ID:            hCV2186516
SNP Position Genomic:     22456
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13367):
TGGCTAATTTGAGGCCCTGAGTGGGCCTTGAATGCTAAAAAGAAGCAGGGTACGCAGGGCTACATGTAGATACCACACCAAGGCTGGAGGCTGGTCTGTC
R
TAAGACAGAAAGAAAGACGCTGGGCCCAATTTTGACTTGGCCAGGGGACACCTTGGTGTGTTTGTTATCTTTATCTGTGGGTAGGCTAGCTGACCCATCT
Celera SNP ID:            hCV2186445
SNP Position Genomic:     121780
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   ;POOLE|_CEPH(G,71|A,118)   total(G,71|A,118)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:13368):
AGCCTTTGAAGGTGGCTCCCTTCCCTCCCAGGCCACATGAAGCTGTCTGCCTCCAGCCAGGCACTGCAGGTACAGGGAGCCAGCCCTTCCTGCAAACGGC
Y
AGTTATGGCTGGACAAAGCAGCAGCACACTCTGGTGGTGGTGACCAGGCAGGAGGGACAGTGGGCAGACAGCGCAGAAGAAACAGATGTTCATTCAACAC
Celera SNP ID:            hCV2186519
SNP Position Genomic:     20862
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,14)      total(C,14|T,4) ;JBIC-allele(T,99|C,828)   total(C,828|T,99)
SNP Type:                 INTRON


Context             (SEQ ID NO:13369):
TCACCATTGGCTAATTTGAGGCCCTGAGTGGGCCTTGAATGCTAAAAAGAAGCAGGGTACGCAGGGCTACATGTAGATACCACACCAAGGCTGGAGGCTG
S
TCTGTCATAAGACAGAAAGAAAGACGCTGGGCCCAATTTTGACTTGGCCAGGGGACACCTTGGTGTGTTTGTTATCTTTATCTGTGGGTAGGCTAGCTGA
Celera SNP ID:            hCV2186446
SNP Position Genomic:     121773
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;(C,-|G,-)   POOLE|_CEPH(C,68|G,120)   total(G,120|C,68)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:13370):
AACTCAACCTGCATCCCTCTAAAAGTCCTATATCCATATTCACCATTGGCTAATTTGAGGCCCTGAGTGGGCCTTGAATGCTAAAAAGAAGCAGGGTACG
S
AGGGCTACATGTAGATACCACACCAAGGCTGGAGGCTGGTCTGTCATAAGACAGAAAGAAAGACGCTGGGCCCAATTTTGACTTGGCCAGGGGACACCTT
Celera SNP ID:            hCV2186447
SNP Position Genomic:     121734
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:13371):
TGCTAACTACTGTGCTCTGAAGAGCCTCTGGGCTGGGGAGGCTCAGTCACTTCACCCTGACATAGGCAGTGCCTGCAATCTCTCATGAATTTTATGTATC
R
CAGATGAATACGAGGTGGACTGGAGCAATTCTTCTTCTGCAACCTCAGGGTCTGGCGCCCCCTCGACCGACAAAGAAAAGAGCTGGCTGTACACCCTGGA
Celera SNP ID:            hCV2186449
SNP Position Genomic:     118908
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,1|G,39)   total(A,2|G,72)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON;hmCS


Gene Number:                 5
Celera Gene:                 hCG15257 - 116000144873091
Gene Symbol:                 TUCAN
Protein Name:                tumor up-regulated CARD-containing antagonist of caspase nine;CARD8;CARDINAL;DACAR;KIAA0955;NDPP1
Celera Genomic Axis:         GA_x5YUV32VSLL(243928..303760)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12165):
AATAAATAAAAAAAATAGTGTAATACTCTGCCTATTTTTTAAAACGAACTATTTGTATCCAAGGAATGCAACTTAATTTTAATAAATCAAATTGTGTTTA
ACACTCACCATCATACAGCACTCCACTGTCTCACCATCCTCTCTCTGCAATATTGTTTCAAGCATCTTTAAACAGACAAGTAGGTTTACCATTTCTGGTT
GCAGGGAACTAGTGGGTGCACCTCTGAATCACCCACAAGTTGATCTTATCCATAGATCAAGTCTTAACACCATCTTGGAAMAAAGCCCTACAATTTTGTT
TGTGCGATTACAGTGTGTCCAGCATAGTGTGGCCTCAGACTCTGTGCTGTTTATTTAAGATGCTGAAAAAAAATGCGTGACCAGATCAGTTTCCATACTG
AGTTGAGCTCTTCACAATTACTATTAGAGATTTACAGATCAAAACAAGAATTCTGGGCAGATACATCAGGCTCTTGCTGTGACATTGCACGTAATTCTGT
CAGTAGACAAGGCTAGAGAGGGTATACTTTTATATTATATTACCACATAAAACAAGCTGTAATTATATCTCTGCTACTGAGCAATGCAAAACCAACTCCT
AATAAGCACCATATTAAGACTAACAGTAAAGCTGCTGAATGAAATTCACAATTTCTTTTGTGGTAGTTTTTGTTCTTTGTTTGCATCTCACTATTGTTAT
AYAGTCACGTCATTTTGAAGTTCTTCACAACTTAAGAAGAAAGTGTAACAATTGAATTAATTATTCAAAGTTCACTTTGGTTGCAATATTTTGGTTTGTT
TTTATTCTGAGGGAACTGGCCATTTAATATTGGAGAGTTCTAAGTTCTTTTTTGTTTTTTTTAGACGGAGTTTCTCTCTTGTTGCCAAGCTGGAGTGCAA
TGGCGCGATCTCAGGTTCAAGCAATTCTCCCGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCACCACACCTGGCTAATTTTGTATTTTTAG
TAGAGACAGGGTTTCTCCATGTTGCTCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGTTCTGGGATTACAGACGT
GAGCCATCGTGCCCAGTCTGAGAGTTCTAAGTTCTTAGAAGGTGGTTGTGTTTACCTACTAAAATTTTATTGGTAGCAATAATCATCTAATGGAAATTCA
GAGAAGTGATTTTAAAGATTTGAATTCCAAAACCCTATACAAACGTTTTATTTTACCACCAATGAATTTATCTGCAACACCTGAGTTGTGGGGCGGAAAG
CCACCCAGGTGCCGAGGCGAGAGACCGAGGGCACGAGCTGTTCCAGTATAATAAAGAAAATATAGAAAATAAGAATAGTTATACTAGATCTAGATCATAG
ATATGATTATATATGAATATCATTAATCATTAGTTTGTAGCAATTACCCTTTATTCCAATGTTATAATAATCCTCGCTCTACAATCATAACCTAGGAAAA
ACCAGGCCATACAGAGATAGGAGCTGAAGGGGCACGGTGAGAAGTGACTAGAAGACGAGAGTGCGAGCCTTCTGTCACACCCAGACATGGCCACTAGAGG
GCTCCCTGGTCTAGCGGTAATGCCGGCGTCTGGGAAGGCACCTGTTACTTAGCGGACCTTGGTCTAGCGGTAGCGTCAGTGCCTAGAAAAGGCACCCGTT
ACTTAGTGGGCCAGGAAAGGGAGTCTCTCTTTCCCCGGGGGAGTTAGAGAAGACTCTGCTCCACCGTCTCTTGTGGAAGGCCTGACATCAGTCAGGCCCG
CCCGCAGTTATCCGGAGGCCTAACCGGCTCCCTGTGATGCTGTGCTTCAGCGGTCACGCTCCTGTTTCACTTTCATGTTCCACTCTGTACACCTGGCTCC
GCCCTCTAGATAGCAGTAGCAAAATCAGTAAAAGTACTAAAAGTCTCTGAAATGCAGAAATAATGGCATAAGCTGTCTCCTCTCTCTCTCCACCAGGGCT
GCCAAACAGGGAGGGGCCCCCTGTCCGGTGGAAACGTGACTCATGTGACCTTATCAATCATTAGAGATGACTCACACTCCTTACCCTGCCCCTTTTGCCT
TGTATCCAATAAATATCAGCACAGCCAGGCATTCGGGGCCACTGCTGGTCTCCGCATCTTGGTGGTAGTGGTCCCCCGGGCCCAGTTGTCTTTTCTTCTA
TTTCTTTGTCTTGTGTCTTTATTTCTACGATCTCTCATCTCCGCACAAGGGGAGAAAGACCCACAGACCCTGTAGGGCTGGCCCCTACACTGAATGTCTG
TTTATTTATATGCATAATAATCAACTCACATGTTCCAACTGAACAAACCAAATATTTCTATCCAATTTTCAATAAAAATATAAAAATCTACATATTTCAT
GTGTTTATGTTTGTTATGTCTCTCACAGCCTGCAACAGATTTAATTTAGCTATCCTCTGAACTACAAGCTTCCCTTTGTTATAACGAACACTTTTCTTTT
ACTTAAGTATCGTTATTCCAGAGTTAATATAGTATGCATTCAAATTACTTCTTATTTAGTATTATTTTACCTAGTACCATTATATATTTAATTTTTTCTC
ATGAAGCCAGGCACAGTGGTTTGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAAGTGACAGGATCCCTTGATCCCAGGAGATTAAGGTCGCAGTGAGCT
ATGATGGCGCCGCTGCATTCCAGTCTGGGCGACAAAGCAATACCTCATTTCAAGAAACAAAATGGAATCTTTTCCTTATAAGAATCTTAAAGAAGGTGTA
CATTATCTTGGCTAACTTTCTATAGGATTAAGTAGAAGTTATTGAGACTTGGTCTACAGTCTTCTTTTTTTCATGAGTCAAAAAGCATCTCTCACTTTAG
TTACACCTGTATTAGGAGAGTTATGATCAATTACAGCAGTTGTAGTTTCTGAGAACTTGGATAAATACAAACCTGAATTACACAGAATTTATGTAAATCC
AGATATTCAAAAATGAGAAATAATGTAATATATGACCAAAGTAATATCAAGACAACATACAATTAAATCACTCAACAATTACTGGGAATATGTATCAAGG
CAAGAATTGTAAAATTCTACCTGGTACTTCTGAAATGAACAAGGCAATGAGAAATAACAGTTTATCTTGTCTATTACTGAGTATCAATGAAAGCAATAAG
GTGAACGGAAAAGTCCATGAAAACTCCATTTTCAGAATAACGAGGAGACAGATAGAATTCACAGATCCACATGTTTCTCACTGGCTGACAAAACTGTGTT
AAGTCAGGGTGAAGCATGGCGGAGGAACAGGGAGGAAGTGCAGAGTGAGAAAACATAAAGAAGYCAGGAAGTGCCAGAAGAGTAATTTCCTGTGAGTAAA
GCCTCATACTCGGTGATTTATCGATAGAGTTTGAATACAAGAGCTGTGAGGTCTGGGCAGTTGGAGTGGAGGCTGAGCAGGAGATAAATGTGGTAGAGGC
GGTGTGGTTGGGAGATCCTTGAAAACAGAGAAATGCCCTAGTGTGACAGAGTACAGAAATACTACAAAAACTCACTTGTAGAAAGAACATTCTGCATATA
ATCAGGCATGGAACGGTCCCATGCATTCCATAATAATTAAGAAAAAGATATTGGCAGAGCATTGCTTAAAGGCACTGCAAGAAAATAGGTGAGAAGACCA
GGAAGTTTTATTTATTTTATTATTTTATTATTTATTTTCGAGATGAAGAACAATCAAAGGAAAATGATGGACGGAAATTAACAATCATTCTTGGGCGGGG
GGAAAAACTCCACCCACAATTCCTAAGTAAAAAGGGTTACACACATTCTCGGCATAATAAGTCTCTCTCAGGCCAAATGTGTTCATGTGAACACTATGAA
GGCATTCCAGCTGAGGTCAGGAAAATACCAAGTATGACCTTCCCTATTTAAGTTAAAATATTGGAAGCTTATTCCAAAATATTGGAATAAATTTGAAATA
CAGTGATTGAATGGAAGGACATTAAATTATAACTCATTAGACATGTTATTTTACTCTATAGACAAACACAACAAATCACCTGAAATAAGCTACAAAAGAT
AAACCAGTAAGTTAGAGAAATAATCTTTTTTTTTTTTTTGAGATGGAGTCTCCCTCTGTTGCTTAGGCCAGAGTGCAGTGGCGCAGTCTTGGCTCACTGC
AACCTCTGCTTCCTGAGTTCTAGTGAGTCTCCTCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCATGCCTGGCTAATTTTTTTTGTATT
TTTAGTAGAGATGGGGTTTCACCATGTTGGACATGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCTGCCTCAGGTTCCCAAGTACTGGGATTATAG
GCTTGAGCCATTGCACCTGGCCAGAAGAATCTTAATGTACAAAAATGAATAGGTTTTTAATACAACAGACTATCCCAATTCCTTGAAAGAAGAAAATACA
CCCATTAAAACAGAAACTATGGTGCCTAGAATTAAACTGCACAAAAAACTACATGACCCATATAATTTTTTTATGTTGAAATAATTTTAAACATGCAAAA
TTAGCAAAGATTCATATAAATCCTCAACCAGCCTATCCTGATGTTAGCTATATATATAATTGTATTATATGTATAATAGTTGTTATATATAAAACTGTAT
ATATACATTTATTGTATTATAATCATATATATACATTTATTGTATTATATATAATATACAACTGTATATGTAATTGTAATATAATAATTATATACATAAT
AGTATATGTAATACAATTATCCAACCAGGAAATTGATGTCAACGTATCTTACCATTACCTAATGTGCAGACCTTATTTGAATTTTGTCAATATTTCTCTT
AACGTCCTCTTTCTTCTCCAAGATCGAATTGAGGATCTCACATTGCACTCAGTTGTTATGTCCTTAGATTCCTCCAGGCTGTGACCGTTTCTTATTCTTC
CCTTGTCTTTTGTGATTGTGACACTTTTGCTGAGCATGGCCAATTATTTTACAGAATGTTTATCAATTTGGATTTCTTTGATGTTTTCTCACGATTAGGC
TGAGGTCATGCATGTTTGTCTTCTGTGTTCAGTCAACATGCCCCATCCTTTTTGAAATATTTCTTCATGTTCTGGCGTCACAATTTGTTCCAATGTTATC
TTATATATTCCTGCCCCAGCCCTCGAAGTAACCATTTCTCCACAGATACTTCAAAATAGTATTTAGAAACCAAGGCCGGGCACAGTGGCTCACGCCTGTA
ATCCCAGCACTTTGGGAGGCCGAGGCGGGCTGATCTCGAGGTCAAGAGACGGAGACCATCCTGACCAACATGGTGAAACTCCGTCTTTACTAAAAATACA
AAAAATTAGCCGAGCGTGGTGGCATGCGCCTGTAATTCCAGCTACTCGGGAGGCTGAGGCAAGAGAATCGCTTGAACCTGGAAGGCAGAGGTTGCAGTGA
GCCGAGATTGCTCCATTACACTCCAGCCTGGGTGACAGACGGAGACTTCATCTCAAAAAAAAAAAAAAGTAATATTGATTAAAAATCAAATTGCATGAGA
ATGCATAGCAGGATACCAAGCAAATACAACTTTTAAATATTACAGAAAATGATATTTAAAATACAAACCAAATACATAAATCATGCAGGCGGATTAAGAC
GTTTCTGGATAGTGGTAACAGCTGAGAGTGGCTGGATGAATTCCAGAGAAATTTCATATATTGCTTCAATTTTATTTAAAATATACTATTACCAATGTCT
TAGATATTTTATTTTAAATAATGAACAAGGATATTATAAACTCTGCAGAAGTAAGTGTAATCGTGTTTTTTTCCTGCCCACATTAAAGATGGCCCAGATG
CTTGCACTGACCCCATTGACTGCCCACAGCCATCATGGCGACCGGAAGTCCTGAGAGTTTACTTCCCTCAGTTTTCAGAAAGCCCGCCTCCTCTGCGAGC
GTTATTTCAAAAGAAGTTGAGACCCAGAGAAACCGACCTAAGGGGATTCTCCCATTTGGCCCGTCCTCCCCTAAAGTCACCACCTGCTGCTTTTCTGGAG
CGCTTACCAGGTGAGTTTCAGGAGCCCTAGYGTACAGGAAGGAGAAACGGAGGCTTGTAGGTAGGACACCGCCAGGCTGCTCTGTGTTCTGTTCCTCTTG
GTCAGCAAGGAAGGAGTACGACAAAGTGAGAAGTTCATATGAGCGTGTCAGAAGGGGAAATAGGGCCCCTCCCTTGTTAAAAACAAAACCCTCTGGAAGC
TCGGCATCCTGTCATAACTTAAATTTATGACTTCAGTGACTTGGCTTGGACAGTCTTAATAATCTCTCTCACACTCAATTTGTTTTAATTTCTGTAATAA
TAATTTTTATACCAATGTTTATGTTGTTAATACTAATAATTTTACACTGTAAYTGTATAACTTTAATTATTAGAAGTGTTAACCTAACTAACAAACATAT
GAAAGCTTCCTAAGGGAAACAATTTTTTTTTCTTTTTGAGATGGAGTCTCGCTCTGTGGCTAGGCTGGAGTACAGTGGCATGATCTTGGCTCACTGCAAC
CTCTGCCTCCCAGGTTCAAGCGATTCTCGTGCCTCAGTCTCCCAAGTAGCTGGGACTACAGGCGTGCACCACCACATCCAGCTAATTTTTTATTTTTTAG
TAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCCGTCTCTTGACCTCGAGATCAGCCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGA
GCCACTGCGCCCAGCCGGAAACAATGTTTATTTGGGAATAGAGCATTGCAATTGGGAATAGACATGCCGTATTAAACTATGTGTATATTCAGGGAGATAA
AGGAAGACAGAAATGGGGAGGATTGCATATTGTTTTAACAGAATTTTCCTTGGCTACAAAGATCAGTAACAAGGGTGACATTAGTCCTAGGTTGGACCAG
CAGTTGCTGGGCAGCATTCCTTGCAGAAATATATATTTTTTTAAGGTTGTGAAGACCTTTATGYAAGGTTGTGGGTTTTGTAGAGTCTTTTTCATCTTCA
GGCATGCAAGGATAAGAGCCCTCTCTTCATGGCCTTCCTGGCTCTATTTGTCAGGGTTATCTTAACATAAGTGACTCCATTTTGTTCTGACAACTTTCAG
ATTTCCCCTTGTGATCAAGAAGTTTCTCTGAAAGCACTCTCCTGCCTCAGCCTCCCGAGTAGCTGCGACTACAGGTGCCCACCACCACACCCAGCTAATT
GTTTTTGTGTTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACCCCTGACTTGTGATCTGCCCACTTCGGCCTCCCRAAGTGCTG
GGATTACAGGGATGAGCCACCGCACCAGGCCTGCATTTCTTTTTTCAAAGAATTACTGTGGCATTTTTTCCAATGTCATTGTGTTCTGTGGTTCTTATCT
AGTCTTCACATTTATTTACATAATGAACTTTCAATGATGGATTTCKACAGRATTTTTGTCACTAAGTGGTTGCCTAGAAGTATATATMCTAAGATTGAAC
ATATTGAAATATGAGCTAACTTTTCTCATTCAATTATTGATTACTTAGTTAGTTTATTTATTATTTGGGGGATGGGATCTTGCAATGCTGCCCAGACCRG
ACTCAAACTCCTGGGCTCAAACTCCTACCTCAGCCTCCCAAGTAGGTGGGATTACAGGCATGTACTACTTCACCTGGCTCAATTATTTATTATTTATAAC
TCATTRTACATATATTCAGATAACTTAATCTGTGCATTAAACTCTTCCACTTTGTTGATAGTCATTTCTGTGTTTGCTATGTGGCTACATATGTATGCTA
TGTGTTTCCTCTATGCTTGAGATAGGATGATGGGGATTCTTCAATGGCTGTGTGAGTTGTTATTCTAGGGCACTTAAGTCAAGAATATGAATTGCTTTGG
TCAATTTTTTATATCTTTACTGATACTCTGTTATTCTGTTAATTGCTGAAAGACTATTGAWCAGATTTCCCACAAGAGTGGAGGATTATTCTATATCTGT
TTATCATTCTACCCGTGTATACTATATACATATTGAAAGTGTGAATATGTATACACAAAATTAAAATTGTTATTCTTATTGAAGTGATCTACTTTATACT
TAGTAATGCTGTTTAGGTAAAATATATTTTGTCTAATATTATTGGAGGTGCACCTGCTCCCCATTGATTACATTTTTACACAGATAGTCATCTTGCATTC
TTTTATTGGAATCTTAATATAACTTCTTTGGGTTTATCCCCTGTAAGATGGAGGGAAATGCTCTTGAAGCCTAATTTGTCTGACATTCATATTGTTGCTC
CAGATTCTTTTTAATAACCATGTATATGGTATATCACTGCCACTGTCATATGAGGGGTGGGGAAGTGGCCCCACTTGGAAACATTTTTGCAGATGAGTAT
TTAAAATGATAAATGTTGGCCAGGCACGGTGGCTCACACCTGTAATTACAGCACTTTGGGAGGCTGAGGCAGGTGGATCACGTGAGGCCAGGAGTTCGAG
ACCAGCCTGGCCAAATTGGTGAAACCCCGTCTCTACAAAAATACAAAAATTAGCCAGGCATGGTGATGCATACCTGTAATCCCAGTCACTGCAGCTCCCT
GCACCTGTACTCTCACACACCACATTCTCTTAACCAGTCCTATTCTTTTTAGCTCCTATCATGTGTACATATACGTTTTCCTGTACCACAAACATTCTGT
ATAATCTCTTGTGCTATTATGTTTTATCTGTTTAGATCATGGATGTATGTCCAACCCATTAAATAGTACCAAGAATAAGGAACATGTGCAAAATGTATTT
GTGGAATGAATACAAGAAGTGCCATAGAGCAGTGCAGTTTAACAGAAATATAATCCAAGCCCCAAATGTATATTAAATTTTCTAGCAACTGCATTTAAAA
AAGCAAAAACAAGCAGATACAGTTAGTTTAAAAATACCTATGTAGTTGTATATGTATACACATATGTGTGTGTGTGTGTGTGTGTGTGTGTGATATATAT
ATACTGATAAGGCCAGTGCGGTGGCTCACACCTACAATCCTAGCACTTTTGGAGGCTGACACAGGCGGTTCACTTGAGGTCAGGAGTTCTAGACCAGCCT
GGCCAACGTGGGGAAACTCTGTCTCTACTAAAAAATACAAAAAAATTAGCCAGGCATGGTGGTGCACACCTATAATCCTAGCTACTCGGAAGGCTGAAGT
GGGAGGATTGCTTGAATCCAGGAGGTGGGGGCCGCAGTGAGCTGAGATCACACCACTGCATACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAA
AAAAAAAATTATATATATTATATATATTCTTACATATGTTTTACTTACATATTTGTGTATATGTATTTTATTTAAATATGCATATATATGTAAACATAAC
AAAACATATACATACGTTTTACCCAAAATGTCATAATTTAAACTTGTCAGCAATGTGAAAGTTATTAAGATAATATTTATATACTGTTATTTATATTGAC
TTCAAAACCTGAATGCTTTTTAAATTTATGATACACCTCAATTCAAACTAGCCCTAATTCAATTGCTCAATAACTGCATGACTTTTTCTCCACAAAAGTC
ATCATGGAGACTTCCCAGCTGCAGAAGAAAGTATGGGGTTTGAGATCAGCCATTGAATGCTCCCTGAGAGCTGATCATTCTTGTCTTAGAGAGGAAGAGG
TAAATTAGGAAATAATTTTATTATTTTTTATTAGCACAAAAGGGCAGATGGTTGGGTAGCATGATGAAATAATTCCAGTGATCATCTCTAGTCTTGRTTT
TTTCTCAGATTTATAAAAGAAATAAAGAGTGATGAAGTTGTTTGAGCAATAAAAGCACACAAAGCAACCAAGCAGCAGGAGGATGGTATGGGTGGCTCTG
TGTTCAGGAGATGGCTGGGAAGAGAGGCTAGGGCTGTGCAGACGCTGGGCTCTCCGCCGGTGTCTGCAGAGGAGACTGGCCATGTTGATGCTGGTCCAGA
CCATGAGGAACACAAACAGGACATGGCGAATCACCATGACATTTATAAATGATCCTTGGGGGAGTTTTATCTGTTTAGATCACGGATGTATGCCAAATCC
ATTAAATAGTACCAAGAATAAGGAACATGTGCAAAATATATTTGTGGAATGAATAAAATAAGTCCCATAGAGCAGTGCAATTTAACAGAAATATAATCCA
AGCCCCAAATGTATATTAAATTATTGTATGTATGGCCTAGTTTGACAACAGTCTTGCAAATATCCAGGACCAGAAATGGTGAAATTGGTATTGGCCTCTA
CGGTTTCAGTGATGTGAACGTAGATTAGCATGTTGGTGATCCAGAGGAAAATGAAAGAGGGAACAAACCTCAAGGCTGATATGCGGATCACACAATAGTT
TACCAAACTGCCCAATATCATAACCAGAGACGTTCACACTACAAACCAGGAGAAAAAGTTGGTGTTTTCACACTGTATAACTTTCTGCAAGATGCTGAAA
CAAGACTCTATATCATAATGAGACTTTCATCTCACTTAATTCGACCTTTTCTACTTAGCAGAATAATGGTGTAACTTAAATTTTATGATCAATTCCTTCT
GCTTATAACTTAACAGAACCCAACCTACAAAATTCTTTAGTATCCATTGGTTAAGCAAGAAATTGTCTGTGATGTTGCTAATACGACATGCTATACCTGA
ATAAATTCCTCTGAGAAAAGTTGAGGCTCCTATACACAAAATAAGAAAGCAGGCCATGTGGTTACCCCAGGTCTCACCTAACTCCCTGCTGTCTCGAATA
ACTGTTTGAGTTCTTCAATTAGTTGTCTTTAAACCTAGGTTTATGGCTCAAAACCATATGCAAACTGAAAATCTCATATTGCTCTTAATTTGTATTTCCC
CTTACTTTGTATTTCTCCTTTTTAAACTTTGTATGTGTTACTTGTTAAATTTTTTCAGAGGTGCAGCTCCTAACAAAATAATACTGAATCAGCACTTTAA
AGGGATAGCAAAAGACTGTAGAACAGACAAAATTGAACTTACTAATGGACTCCAGGGAGACTTAGCCTGAGAGCCACATCCTTCAAATCTCTTTTGTTGC
TCAAATGTGCTTTTGACATCGATTCCTAGTCACCAGTCACTCCCCACAACATGGGATGAGACCAGCAAACTGGGAGAGGTCCATGCTGGCATCAGGGGAC
ATCAAATCTTAATTACAGAATGATTGATCAATAATGCTTTTAGAGAAAGTTCTTGATCACAAGGAGAAATCTGAAAGTTGTCAGAACAAAATGGAGCCAC
TAATGTTAAGATGACCCTGACAAATAAAGCCAGGAAAGCCATGAAGAGGGGGGGTCTTATCCTTGTATGCTTGAAAATGAAAAAGACTCTACAAAACCCA
CAACCTTGCATAAAGGTCATTGCAACCTTAAACAAAAAATATTTCTGCAAGGAATGCTGCCCAGCAACTGCCTGTCCAACCTCAGACTAATGTCACCTTT
GTGCCTGATCCTGTGGCCAAGGAAAATCCTGTCAAAACAATATGCAATCCTCCCCATTTCTGTCTTCCTTTATCTTCCTGAATATATACATAGTTTAATA
TGGCATATCTATTCCCAATTGCAATGCTCTAKTCCCAAATAAACACTGTTTCCTTTAGGAAGCTTTCATATGTTTGTTATTTAGGTTAACACTTGTAATA
ATTAAAGGATTACAGTTACAATGTAAAATTATTAGTATTAACAACACAAACATTGGTATAAAAATTATTATTACAGAAATTAAAACAACTTGAGTATGGA
GAGATTATTAAGACTGTCCCAGCCAAGTCATTGAAGTCATAAATTTAAGCTATGACTAACAGGATGCAAAGCTTCCTGAGGGTTTTGTTTTGTTTTCAAC
AAGCGGAGGGCCCCATTTCCCTTTCCGACAGCCTCATAGGAACTTCTCCCTTTCTTCTCAAGTGACCAAGAGGAACAGAACACAGAGCAGCCTGGCAGTG
TCCAAGCARCAAGCCTCCGCTCCTCCTTCCTGCACCCTGGGGCTCCTGAAACTCACATGGTAAGCGCTGCAGAAACGCAGCAGGTGGTGACTTTAGGGGA
GGACAGGCCAAATGGGAGAATCCCCTTAAGCTTCGGTTTCTCTAGTTCTCAACTTCTTTTGAAATAATGTTCATAGAGAAGGAGGGCTGTCTGAGATTCG
AGGGAAACAAGCTCTCAGGACTTCCGGTCGCCATGATGGCTGTGGGCGGTAAACGCGGTTAGTGCAAGCATCTGGGCCATCTTCAATGTGAGTAGGAAAA
AACACGACTACACTTACTTCTGCAGAGTTTATAATATCCTTGCCCATTATTTACAATAAAATATCTAAAACATAGGTAATAATATATTTTAAATAAAATT
GAAGCAATATATGAAATTTCTCTGAAATTCATCCAGCCACTCTCGGCTGTTGCCACTATCCAGAAACGTCTTAATCCCCCTGCATGATTTATGTATTTGG
TTTGTATTTTAAATATTATTTTCTGTAATATTTAAAACTTGTATTTGCTTGGTATCGTGCTGTGCAGTCTCATGCAATTTGATTTTTAATCAATATTACT
TTTTTTTTTTTTTGAGACGGAGTCTCGTTCTGTCATCCAGGCTGGAGTCCAGTGGTGTGATCTCGGCTCACTGCAACCTCCACCTCTCGGGTTCAAGCGA
TTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGGTGACAGGCGCCCGCCACCACGCACGACTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACTATGTT
GCCAGTCTGGCTTCGAACTCCTGATCTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCCAATAG
TACATTTTAAATATTTATCCATGTTTACATGTGGTTTTAATAATTTATGTTAACTGCGCTACAGTATTAATGCAATGATGATATTATAATCAATGTATCC
ATTCTTTGATGATGGACATTCARTTTGTTACCCTGTTTTCTGATAGCAAACCATAATACAATGGACTTTTTATATGCATTTTCTTGTCCACACATAATTT
CAAGGGTAGGTGTGTCTTGAAGTCTAGATACAGCCAGTTTATTCTCCAAAGCGGCTGTGTTTTCAGTCATSTCCACTACTGGTTTACGAGTTTCCATTGC
TACACATTCATATTCACACTTGATTTTGTCAGCTTTTCTTATTTCCATCAGTATTGTGGGTGAGAATGATAACTGATAGTGGTTGTCATGCACATTCCCC
TGATTACTAGTGAATTTTAACATCTTTTCAGGACATTTGTGTTTTATCCTTTTGATTCCTTATTTATATCATTAATTCATTTCTCTGTTGTTTGTTTCTT
CAATATGTCAAGGAATAATGAATTTTATTCCAATTTTTGGAAGTTTAGGAATTTTTTTTAAATGACAGGGCTTCGCTGTGTGGCACAGACTGGTCTCAGC
CATTTGGACCCAAGTGATCCTCCCACCTCGGCCTCCGGGTGGCTGGGGCTACAGGCAATACGTGCAGGCAAGGCTATAACTTCATGCGTGACTGGGATTT
TTATTACATGTTTTTTAAAATTTCCAATGTCACATAAAATACTATACAAGAATTTTAGTATTTGAACTTTAAAGAATGTAATTTTGCATTTTTTTCTTGT
GAAGATGAATACAGATTTTCRTGGGAGTAAAAAAGACAATTTAAGGTGAAGAGTATTTGGTTTTCATGAAATAATTTGATTTCTAAAATAAAAGTAAACC
GTCAAAACTTTTTAAATGCAATATGAAAATGTTTTCAGTTGAAATAGTCATAGTAAAATTTGATGAGTGGTAACTGAATTTTAATTGAAATTTCAATTGA
GAATACATATGATACAATGTGTATCACAAATGGTAAAAATCATGTGTATTTTAATGTTAAAATTTAAAATTTAGTGTAATTTAATTTTGCTTGTGTGACA
TCAAAACAAATGGAAGCATTGTGTGTGTGTTRTRTATATATATATATATATACAATAACATAGTGTCATGAAAGTATAGTATATATATRTAAAATTTTGC
GTGTGAAAATTTTAGGTGGAGGTTTTTAAACCATTTRTTTACTTTATAAAGGGTAATAAATTCACATAGTCTGCTCCCCAAACACAGTTGAATATGTACT
GTGGTGTTACTGTATATATATATATCCAGAGTTTCTTTATGCATATACAAATTTTTACTCTTTACTTGAAGAGTAGAAASTTTACATGTTGTTTACTATG
CCTTTCTTCATTAACAATAGATCTTAGTGATAATTCAGTATCAGTTTTTAGTGAACTTTGACATTCTTTTAAAATTGCATATTATTTCATCATCGGATGT
ATCATGATGTCTTTATTCATTCCCCTATTGAAAAACATTTCAGTTGTTTCAAATTTTAGTTTATTTTATTTTACTTTTAATTTTTGAGATGGAGTCTTGC
TGTGTCACCCAGGCTGGAGTGCAGTGGCACCATTTTGGCTCACTGCAACCTATGACTTCTTGGTTCAAGCGATTCTCCTGCCTCACCCTCCCGAGTAGCT
GAAATTACAGGCCCATGCCACCACACCCAGGTAATTTTTGTATTTTTCGTAGAGACGGGGTTTCACCTTGTTGGCCAGGCTGGTCTCGAACTCCTGACCT
CAAGTGATCTACCCGGCTTGGCCTCTCAAGGTGTGGWGATTACAGGCTTGAGCCATAGCGCCTGGCCTCAATTGTATTTATRAAGAGTGCCACAGTGAGT
AAACATGTGAGCATGAGTTCATACATAGGTAAGTATATTTGTATAGGAGTATATCAATTCCTCAAAATTGATTTACCATTCCAAATGGGATGTCATTTAT
GCGTTCAAAGATGTCCATAAAGTTGCCATCCATATAATGAATAGCAGGTGACACTCCCATCAGCAATATCAGAATGTCAGATTTCCCACAGCCTTGTCAG
TAGATGAGTTTTCAGACTTTCGCATGATTTCCAAATTCATGGAGAAAAAATATTCAAGAGTAGCTTTAATCTTCATTCAGCATGGTGTTTTTTCATTCAG
CACGTGCTTGGGAACCATTTATTTTTCCATTTCTGTGAATTTCATGTTCATATCCTTTGTCTACCTATTTCTAGAGCAATGTTTTTTTTTATTATTGATT
TYCTATTTCATGTATCAGAATAGCTCTTTGCTCTGCTCTATTTGTCTATCTGTTTGTCAGTCTATCTATCGAGAAGTAAATACAGGCATGTGTAGGCACA
GTTCGGTATACATGCATGGATTCCCCAGGTCTTTCCACTGAGAGAGATTAGGACAAAGATATCTTAGTAGCTGTAAACACACATAGTTTCCAGATCTTGG
TTTCTAAATACTGTTTTTGAATACAAGGGAGCCAAGGATCCGTGGAGAAGTGGTTACTTCCAGGGCTGGGGCAGGAGTATATAGGATAACATTGGAACAA
ATTGTGACTCCAGAACATGAAGAAATATTCCAAAAAGGACGGGGCATGTTGACTGAACACAGAAGACAAACATGCATGACCTCAGCCTAATCGTGAGAAA
ACATCAAAGAAATCCAAATTGATAAACATTCTGTAAAATAGTTGACCATGTTCCGCAAAAATGTCACAATCACAAAAGACAAGGGAAGAATAAGAAACGG
TCACAGACTGGAGGAATCTAAGGAGGGATAACAAGTAAGTGCAATGTGAGATCCTCGATTAGATCTTGGAGAACAAAGAGGACATTCAGACAAATGTTGA
TAAAATTCAAATAAGGTCTGCACATTAAGTAATGGTATGATATGCTAACATCAATTTCCTGGTTGGATAATTGTATTATATATACTATTATATATGTAAT
TATCATATTACAATTGCATATACAATTGTATATTATATATAATATATTAAATGTAGATATGCAATTATTTATATATAATACAATAAATGTATATATAATA
CAATATACAATACAATAAATTAGTTATTTTATATATAACAATTATTTTATATATAATACAATTATATATAGCTAACATTCAGATAAGCTGGTTGAGGATT
TATGTGAATCTTTGCTATTTTTCAATGTTTAAAATTATTTCAAAATAAAAGCATTATATGGGTCATGTAGTTTTTTTGTATAGTTTAGTTCTAGGTACCA
TAGTTGCTATTTTAATGAGTGTATTTTCTTYTTTCATGGAATTGGGATAGTCTGTTATATTAAGAAGCTATTCACTTTTGTATATTAAGATTCTTCTGGC
TGGTGCGGTGGCTGACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGYGGATCACCTGAGGTCAGAAGTTTGAGACCAGCCTATCCAACATGGTG
AAACCCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGCATGGTGGTGCATGTCTGTAATCGCAGCTACTTGGGAGGCTAAGGCAGGAGAATCACTT
GAACCCAGGATGCAGAGGTTGCAGTGAGCCGAGATTGTGCCACTTCTCTACAGCCTGAGCGACAGAGGGAGGCCCCGTCTCAAAGAAAAAAAAAGATTCT
TTCTCTAACTTACTGGTTTATCTTACTTTTGTAGCTTATTTCAGGTGATTCRTTATGTTTCTCTATAGAGGAAAATAACGTGTAGTGAGTTATAGTTTAA
TCTCCTTCCTTTCAATCACTGTATTTGGAATTTGTCCAATATTTTGGAATAAGCTTCCGATATTTTAACTTAAATAGGGAAGGTCTTGGTATTTTCCTGA
CTTCAGCTGGAATGATTTCATAGTGTCCACATGAAGCACAAGGTTATCCTTTGGCCTGAGAGAGACATATTATGCCGAGAATGTGTGTAATCCTTTTTAC
TTAGGAATTGTGGGTGGAGTTTTTTTCCCCCCAAGAGTGATTGTTAACTTGGGTCCATCATTTTCCTTTGATTGTTCTTTATCTAAAACAAAACAAAACA
AAAAACAACAACTTCCTGGTCTTCTCACCTATTTTCTTGTAGTGCCTTTAAGCAATGCTCTGGTAATATCTTTTTCTTAATTATTATGGAATGCATGGGA
CCGTTCCATGCCTGATTATATGCAGAATGTTCTTTCTACAAGTGTGTTTTTGTAGTATTTCTGTACTCTGTCACATTAGGGCATTTCTCTGTTTTCAAGG
ATCCACACCGCCTCTACCACATTTATCTCCTGCTCAGCCTCCACTCTACCTGCCCAGACCTCACAGCTCTTGTATTCAAACTCTATAGATAAATCACCGA
GTATGAGGCTTTACTCACAGGAAATTACTCCTCTGGCACTTCCTGACTTCTTTATGTTTTCTCACTCTGCACTTCCTCCCTGTTCCTCCGCCATGCTTCA
CCCTGACTTAACACAGTTTTGTCAGCCGGTGAGAAACATTTGGATCTGTGAATTAAATCTGTCTCCTCATTATTCTGAAAATGGAGTTTTCATGGACTTT
TCCGTTCACCTTATTGCTTTCATTGATACTCAGTAATAGACAAGATAAACTGTTATTTCTCATTGCCTTGTTCATTTCAGAAGTACCAGGTAGAATTTTA
CAATTCTTGCCTTGATACATATTCCCAGTAATTGTTGAGTGATTTAATTGTATGTTGTCTTGATATTACTTTGGTCATATATTACATTATTTCTCATTTT
TGAATATCTGGATTTACATAAATTCTGTGTAATTCAGGTTTGTATTTATCCAAGTTCTCAGAAACTACAACTGCTGTAATTGATCATAACTCTCCTAATA
CAGGTGTAACTAAAGTGAGAGATGCTTTTTGACTCATGAAAAAAAGAAGACTGTAGACCAAGTCTCAATAACTTCTACTTAATCCTATAGAAAGTTAGCC
AAGATAATGTACACCTTCTTTAAGATTCTTATAAGGAAAAAATTCCATTTCGTTTCTTGAAATGAGGTATTGCTTTGTCGCCCAGACTGGAATGCAGCGG
YGCCATCATAGCTCACTGCGACCTTAATCTCCTGGGATCAAGGGATCCTGTCACTTCAGCCTCCTGAGTAGCTGGGACTACAGGCACAAACCACTGTGCC
TGGCTTCATGAGAAAAAATTAAATATATAATGGTACTAGGTAAAATAATACTAAATAAGAAGTAATTTGAATGCATACTATATTAACTCTGGAATAACGA
TACTTAAGTAAAAGAAAAGTGTTCGTTATAACAAAGGAAAAGCTTGTAGTTCAGAGGATAGCTAAATTAAATTTTTCGCAGGCTGTGAGAAGCATAATAA
TTAAACATGAATAAATTAAATATGCAGATTTTAATATTTTTATTGAAAATTGGATAGAAATATTTGTTTAGTTGGAACCTGTGARTGATTATTATGCATA
TAAATAGACATTCAGTTATTGCAGATAAATTCAKTGGTGGTAAAATAAAACATTTGTATAGGGTTTTGGAATTCAAATCTTTAGATTATTTCTCTGGGCC
AGGGGCAATGGCTCACGTCTGTAATCCCAGCACTTTGAGAGGCTGAGGCGGGAGGATCACCAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAA
ACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCAGGCGTCATGGCTCACGCATGTAGTCCCAGCTYCTCAGGAGGCTGAGGCAGGAAAATCGCTTGAA
CCTGGGAGGTGGAGCAGCCTGGTGACTAATTACAAATTARTGATTTGTATTTCACTAATTATCTTTTCTGTTATCCAGAGTCTCTGAAATGCTATTAATA
ATATGTATTTTTATTATTATATAAAAGTTAATCTTCAAAAATCACAATAACTTATCACTTTACATGTACTAGAATGGCCATTTTCAAAAGGCCCATAATA
ACAATTATAGGTGAGGATATGGAGAAGCTGGCCCCCTCCTACACTGCTGGTGGGAATGGAGATTGGCGCTTTGGTATATGTGCTGCCGAAGCGAGCACGG
AAATTGGCGCTTTGGAAAACAGTCTGGCAGTTCCTTGAAGGGTAAACATAGAGTTACCATATGACCCAGCAACTCCACTCCTAAGTATGTACCCAAGAGA
AGGAAATAATCTGTCCACATGGAAATTCGTACCTGAATATTCACAGTATCATTTTTCATAACAGCCCCAAAGTGGAACTCACCCAAATGTCTATCGTCTG
CTGAATGGATAAGAGAATATGTGATGTCTCCATACGGTGGAATATTATTCAGCCATGAAAGCAAAGGAGGTGCTGTTATGCGGTATAATATGGATGGACC
TTGAAAACATACGGGAAGTGAAAGAATCCATCACAAAGGACAATATATTGTTTGATGCCTGTCTTAGTCACTTTGGGCTTCTTTAACAAAAGTATCATAG
ACTATGTGGCTTAAACAACAGAATTTATTTCTCACAGTTCTGGAGGCTGGGAAGTCCAMGATCAAGGCACTGGTACATTCAGTGCCTGGAGAGGACCTGC
TTCCTTGTTCATAGAYGGCTGACTTCTTGCTGCGCCCTCCCACGGTAGAAAGCRGGAGCGAGGTCTCTGGGGTCTCTTTGCTAAGGGCGTTGAGACCATT
CATGAGGATTCCACCCTCATGACCTCATCACCTCCCGAAGGCCCCATCTCCTCCTATCATCACATTTGGAGTTAGGATTTCAACACATGAACTTGAGGGT
GGACACATAYATTCGGTCCATAACAACTCCTATTAAATCAAATGTCCAGAATGAGTMAACCTATGGAGACAGAAGGTGGATGCGTGGGTGCCTGTGGCTG
GGTGTGCGTGCCTGTGGGGAATGGGGAGTGCCGCTTAATGAGTTTCTTTTTGAGGTGATGACGCTGTCCTAAAACTGATTGTGGTGGTGGTTGTACAACT
TCATTACTATATATACAACATTGAATTGTAGACTTATGTGGGTGAATTGTGTGGTTTSTGAACTRTATATCCATAAAGCCATTATTTTAAAAATCTAATC
TTTAAAAAATGTCATAGCAGAGCCGGTGAAGGTAATGGATTAGACAACGGTTCCTAAACCCAAGTATTTTAAAGAAATCAAGGTGACAATTTAGGCAAGA
AAAACGATTAGAGTTGTACGAGAGAAGAATGGAAGGCAAGGAAAATAATCACACTTTTGCCTCTGTCAGGTTGGAATCTTTAGAAGTTCCTGTTCTGCAT
AACTTAACTTGCAGACCCAGGGCCACATCAAAAATAAAAGAATTTGAAAAATCCGGCAGGGCACGGTGGCTCACGCCTGCAATCCGGCACTTTGGGAGGC
CGAGACGGGCCGATCACCTGAGGTTGGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACCCTGTCTATACTAAAAATAGAAAAATTAGCCGGGTATGG
TGGCGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCTGTGAGTCAAGMTCTCGCCATTGC
ACTCCAGCCTGGGTGACAGAGCTAGACTCCATCTAAAAAAAAAGGAAGTTTCTAGTTTCTGTTTTACAACTCTCCTGTTTCGGCCTCTGTCCCAAGTACC
TACCACTACTAGGAGCAATTCCACTGATGCATCTCTTGTGAATGAGCAATAAGCGCTTTTGTCAACCTTTGAGAGACACAGAAGCTAAGATTTATCTGAT
GGTTCTTCCCAAGTACCTAAATACAACCTCCTTTTATTTTTTCAGGGTAAAAAAGATACAGTAAAGACATAAATACCACATTTGACAAATGGAAAAAAAG
GAGTGTCCAGAAAAGAGTAGCAGCAGTGAGGAAGAGCTGCCGAGACGGTGAGTGACTTTGCGCTCTGTGAGGGCTCCTGATGGCTGATTCTTCTGTGTTT
CGTTATAGTTCATGAGATACAGAGGACCATGGATGTTTTCTGGAAGAAAGGTTCTGCTCACATTTTATTCATTCACCCATCTCTGCATGAATGAAGGGAA
AACTCCCATGGGCACCCAGGTGTACTTTTTTTTTTTTTTTGACACAGAGTCTTGTTTTGTTGCCCAGGCCAGAGTGCGCTGGTACCATCTCAGCTCACTA
CAACCTCTGCCTCCTGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCACGCCTGGCTACTTTTTGTATTT
TTAGTAGAGACGGGGTTTCATCATGTTGACCAGGCTGGTCTGGACCTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAG
GAGTGAGCCACTGCGCCTGGCCCAGGTGTACTTTTTAGACCTTCTCTCTCCTTCCCTGTTTCTGACCTTTTTAGACCTTCTCTCTCCTTCCTTGATTCTG
ACCATGGCAACTTCATACCTGAGCAAAAGCGAGTCTAGGGCTGTTCTTCCAGCTCTTTCCTTGATGCATGGGCCTATGGCCTTGACCAYGCTCTTGACAA
TCCCATAGCATGGCGCCCAGATCAGAGCAGAACCAAGCAGCCTGACTCACTAAGCCCTCCCTCTGTGTGTTTCAGTGGCTCCTCATCAGCACCAGGYTTA
TGTCTCATTTGTAGAAAATGAATGCACTGTTTTACATTGTCTTGGAACTCAAAACAAATTAATCTGACCAAATATTTCATGTATGCAATTCAGACACTGC
TGCAGAATGAATGTTTGTGTTCTTCCAATATTAATATGTTGAAATCCTAACTTCCAATGTGATGTTGTTAGGAGATGGGGCCTTTGAGAGGTGTCAGGTG
ATAAAGGTAGCGCCCTCATGAATGGAATTAGTTCCCTCATGAAGGAACCCTGGAGAGCTCCTTTCTCTTTCCCCATGCTTGGACAGAACAAGAAGTCTGY
CCTCTATGAATCAGGAGCAGACACTGATCTACCAGCACCTTGATCCTGGGCTTTCCAGCATCCAGAGCTGTGACAAATACATTTATATTGTTCACAAGCT
TCTCAGTCCATAGGTTTTAAAAATAGCAACCTTGGCCAGGCATGGTGACTCACGCCTGTAATCCGAGCACTTTGGGAGGCGGAGGCGGGCAGATCACCTG
ATGTCAGGAGTTCGAGACCAGTCTGGCCAACATGGTGAAACCCCATCTCTACTACAAATATAAAAATTAGCTGGGCATGGTGGCGGGCACTTGTAATCCC
AGCTACTCGGGAGGCTGAGGCACGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCTCCATTGCACTCCAGCCTGGGCGACAAC
AGTGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAGTCTGAAATGACTGAGACAGATGATCTGGCATGCATAAAAGACCACGGACTAGGACGAATTGTT
TGCTTTGGGAACCCAGTGTTTCCAACTCTTGCGCTAAGTAATTTTAGCCTTCTATGATTAATCACCACAAGGATTTGTGACGAGAGTACTGTATCCTTAT
TTTACAAATTAGAAAGCTGATACTCAGAGAGGTTAAGCAACAACTTTGACAGGTCTGTCACTGCTGAGTGATGTCTGTGAAAGGCAGTGAATGCAGATCA
CTCTAGTGTCCATCATCCCTGACACGCTCACACTAAATAAAGAGATCCTACCTTCAAATAAGCTCAGTCCATTCAGTGTTGTGCAAACAACTTCATCTGG
TTAACATTCCCTCCTGTTTAGGACCAACGAAGGATAGAAGAGTGGGGCCCTTGTTATGCTCCTATAGTTTACAAAAACACAGTATCCTTTCAGAAGCCAG
TAGCGAGCATCACCAAGTGTGACAGACCGTGATGAACATCAGGGATTGAGAATCAAAGGAGGCATGCCTCCTGAGATAAGATCATTGTCTACGAAGTGGT
AACAGCAATGCAGTTAGTTCAATAAAAATGTGGAGGAATGGTATTTTATTCTAGCATGGGCATCGAAGAAGGTGTCTCTAAGAATGGGCATCTCTAAGRC
ATCTCTGAGGATGGCATCTCTAAGGATRGTATCTCTAAGGATGGCATCTCTATGGATGGGCATGTCTAAGGATGGATGTCTCTAAGGATGGCATCTCTAT
GGATGGGCATGTCTAAGGATGGATATCTCTAAGGATGGCATCTCTATGGATGGGCATGTCTAAGGATGGATATCTCTAAGGATCGGGCTACTTTCGCTAC
ATCACAGTGAGGAGATTGTCCCACCATCGAGCTCCTCTGACATGCTCACATTCCAATTCCATTTGTGTTTTCCCAGGGACAGTGGATCCAGTAGGAACAT
AGATGCATCCAAACTCATTAGACTACAAGGAYCACGGAAACTGTTGGTTGACAATAGCATACGGGAACTGCAATACACAAAAACTGGAATTTTTTTTCAG
GCTGAGGCCTGTGTGACAAATGATACGTAAGGGACATCTATTTGTTGGGRAAAAATTAAAGATTTGGAATTTTGCTCCATTGGTTTATGTACATTCATAA
GAAGCAAAGACATGCAGGTTATTTGCATAAAAATTAGTATATATGTTACTTTTCTTCTTTGTTATCTTAAGTTTTTATTTCAAAAGAGTTTGTATCTCAT
AAGAAGTAGGGAAAAAAGGTCYGAGCCCAGTGGCTCACACCTGTAATCTCAGCACACTGGGAGGCGAGGGCAGGTGGATCGCCTGAGGTCAAAAGTTTGA
GACCAGCCTGGCCTACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATYAGCTGGGCATAGTGGCCCACACCTGTAATCCCAGCTACTCAGGAGGC
TGAGGCAGGAGAATTGCTCAAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGTGCAACTGCACTCCAGCCTGGGAGACAGAGTGAGGCTTYGTCTC
AAAAAAAATAATAACAATATTAATGATAAAGTAGTTGGGAGAGAAGGGCAGAGTTCCCATGTAGCCTTCACCAAGTTTCCCCTCACGATAATACTTTTTT
TCTTYTTTTTTTGAGACGAAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTACAACCTCTGCTTCTGGGGTTCAAGCGAT
TCTTTTGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGTGCCCACTACCACACCTGGCTAATTTTTGTATTTTTAGTAGATACGGGGTTTCACCATGTTG
GCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCGCTGCACCCAGCCGATAAT
ACTTCCTGTAACAATAGCGATATGATTTGGATGTTTGTCCCTTCCAAATCTCATGCTGAAATGTGATGGAGTGTTGGAGGTGGGGCCTGGAGGGAGGTGA
ATGGATCAAGGGGGCATATCCCTCATAAATGGTTTAGCACCATTCCTTTGGTGATAAGTGGCTTCTTACTCTGAGTTCATGCAAGATCTGGTTCTTTAAA
AGTGTGTGGCACCTCCCCCTTCACTGTCTTGCTCCTGCTGACATCATATGACAGGCCTGTTCCACTTCACCTTCCACCATGAGTTAAACGTCCCTGAGGC
CTCCCAGAAACCAAGCAGAAGCTGGTCCCATGATGTACATCCTGCAGCACCATGAGCCAATTAAACCTCTTTTCTTTGTAAATTGCCTAGTCTCAGACAG
TCCTCTATAGCAATGCAAGAATGACCCAATACAGGCCAGGCGCGGTGTCTCACTCCTGTAATCCCAGCACTTTGGGAGGCTGAGAGGGGCGGACCACCTG
ATGTCGGGAGTTTGAAACCAGCCTGACCAACATGGAGGAACCCCCATCTCTACTAAAAATACAGAATTAGCCGGGCTTGGTGGCGCATGCCTGTAATCCC
AGCTACTCAGGAGGCTTGAGGCAGGATAATTGCTTGAACTCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCACGCCATTGCACTCTAGCCTGGGCAACAA
GAGCAAAACTCCATCAAAAAAACAAAAAACAAAAAAACCAGAATGACCCAATACAAACAGTCATTGCTAATACCAGGAAACTGATGTTGATACAGTACTG
TTAACTCAGGTATAGATTTTATTTCAGGGTGATATTTCACAGGCTGAAAAGCACTGCTAATGAGGACAGGAATTCCTCAGTCTTGCTTGGTCCATGCACC
CATTTAACATGGGATATTTTAAAAGCAGTGCTGCAYGCCGGGGACCATGGATGGTAGAGCTTAAAGAACTACTTTGTTTAATAAAACCTATCCCAGACTG
GGTGCGGTGGCTCACAGGTGTAATCCCAGGACTTTGGGAGGCCAGGGCGGGTGGTTCACTTGAGGTCAGGAGTTGGAGACCAGCCTGGCCAACATGATGA
AACCCTGTCTCTACCAAAAATATAAAAAATTAACCGGGTGTGCTGGTGCATGCCTGTAATCCCAGCTATTGGGGACGCTGAGGCAGGAGAATAGCTTGAA
CCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGCCAGACTCTGTCTCAATTTAAAAAATAAAAATAAAA
ATAGAAATGAAACCAATGGCAGATAGCCCAAGGCAGGACCCTCTGGTCAACTGGACTACAGCAGAGGTTCTAAAGTCAATGCTGTCCAAYAGAGTTCTCA
CCCAGGATGGAAATGTTCCCTGTCTGTGGTGTCCAGTGTGAAAGCCACTGGCCTCACATGGCTTTTTCTTTTTTTAACATACATACTTTAATCAGAATTG
CTGAAAAAATATTCAGGATTTTTGCTCTTGTTGTTGATGTTTTTAACAGGCTTAATTTTCCAGCTGAAACCCGATTTTACATTGCAAACAAATGTTCTTT
TTTTTTTTTAGACAAAAGTTGTCTTCAGTAATAATTCCTCAGTTATTTTCTTTCTTTTTTTTTGCTTTCCTTTTTTGTCAATGATTTTTTTCTACAGTTT
GGTTTTGAACTTACTTCAAAATCTCTCAACAATTGCTTTCACAGATATTCAGCTGATGGAAGTGTTCACTGTTGTAACCTTTTGTGGAGAGTGATTTGGG
AATATCTATCAAACAGTAATGCTCAGGCTGGGTGCGGTGGCTCATGACTGTAATCCCAGTGCTTTGGGATGCCAAGGTGGAAGGATTTCTTGGGGCCGGG
AATTCAAGACCAGCCTGAGACCTCATCTCTATTCCCTGGAGTCCTCTTCAAAGCAGATTTTGTTGCCAGACGTCCTATGCCTATGTCCATTACCCAGAAA
AATTCTTTTAGTTTCACGTGGCTGGGGAGGCCTCACCATCATGGCAGAAGTCAAAGGAGGAGCAAASGCATGTCTTACATGGTGGCAGGCAAGAGCCACG
TGTGGCTTTTGAGCACTTGAAATATGGCTACTTCAAAGGAGGAACTGATTTTCACATTTAACAATTTAAAACTAAATGTAAATAGGCAGGTGTGGCTAGT
GGCTGTCATATTGGCCATTGAATATCTTGGCATAAAGGACACTCCATCACTCCTAACCTCAATCTTGATTCCTGCCAGCCATAGGAGGACAGCACCAAGC
CTTCAAAAATGAAGAAGAGAAAAGGATCTAGCATAGGACTCTCATGTTCCATATCTGAATAAGGATCCTTGATGGGAAAAGAAAGTGTGTACAATATCCA
TAATTTTCTTTTTCTGTGAGCATTTTTGTTGCTTTATGCAACCCCTCTCACCATTTGCAGGCAGAAGGGAGAAGAGGAGATAACTGTTCCATGGGTTCTT
ATAAAACATGCCCAATCTCACTAATGCCCTGCAATCCCAATCATTTTAGGGTCCTATTCTCTYGGGCACCAATTATGGATGAAGGGAGACTACAAATTAG
GAATCTCATCCTTTCCCTAAAATTCTTAGCAAGGTTATATAGGTCAACATACTTGTTGACCTATTATGAAACCAATGTTTGTGGCAAATGCTAGATGTTG
AGAACTGACTGAYGTCTGCTTCCTAGGATGGAAAGAGCAGCATRTAGTGGGAAACAGAGAGCCAGTTAAATTTAACATAATGAGATGTAAGAAAGAGTCA
TGGGAGTCTGAGAGGTGAGATGGAGTCGTAGGGGCCTGAGGAATGACTTCCCTAAGATAAAATATTGAGTCTATGGCTATTAACATAAAATCTTCCTGCA
CAGCCTATGCTATCATCAGGCACCTACCTTATATTCATAGTAAAAATTCTGTTSTTGTTTTCCAGGGTATACAGGGAGCTACCCTGTGTTTCTGAGACCC
TYTGTGACATCTCACMTTTTTTCCAAGAAGATGATGAGACAGAGGCAGAGCCATTATTGWTCCGTGCTGTTCCTGAGTGTCAACTATCTGGGGGGGACAT
TCCCAGGTAAGAAAAGCTATTCCGTTGGAAAACTATTGGACGCTGTGTCTCAATATCACAGAGGAACATGAGAATTAGAGGAATTTGGGTGTTTTTCATC
GAACTCAGGRGAGARTGAATGAGCTTATGCAATACTAGCAATGAATCCAGAAATTTTTGAAACAAACCTTAAGCAATGAGGTTTTCTTCCATGGAGGTGT
CTAGAGAACCTATACASAAAAAGGCAATGAGCAATGCAATCGAAGACCAGTGGGTTATTGGTTAAGCTGTTACTCAATACATAAAACCAACCTAATTCTC
TAGGAAACTGGCTGATGATGAGGCTGAAGGCCACAGTGGGGTCCTGAGGTTTAACACCGGGGAGGGGAGAATGCGTCTATTTGTAGGGTATGCCAATTTC
CAAGGGTTGAATATCCCCATCATGGCAGATTTCAAACTACCAACGTGAAGCCCCTGATGAGGGAGTTGAAAGAACACATGCAGAAGTCTGTCATCCTGCT
TTCACCACACAGATACAAGAGACATAAATAACCTCAAGGGCATAGACTGCTGAAAAGTGTAGAAAAATGACTGGAAATTGGTATGTTTTAATATGTATTA
CTTTTGTTTTTAATATGATTTATTTAAATGTTAGCTTRTATCATTTAATTTAGACTAATGGTTGTGTTGAACAACTTGGTTGCAAAAGCCCTGAAAATGG
AACCGTCAGCTCTCATGATCTGGGATGCGCTGTCTGCAGTTCARCGCTGGGTTCCTCCCACTTTCTAAACCCCTCCTCAGCAGGCAGACTCCAGCATGCA
CATGCACCAGGAAAGAGAATATAAAATGGCATGTTTACTCTTGCTGCTTTGCCTGTAGCTACCCGAATCCATAGCAAAATGTGTAGCCGCAGACAGCAAC
CAGTCTTAGGATGTCAGCCCAGGGGTCTCTCCATGCTTGGCTTGCCCACAGAATCCTTCYGAGAAAAGCGCTGTAAAGCCTTTCTCTTCATCCCACTTCT
CTAGGTACCTGTTCTTTTTAAACCTAATCCACGTGTCAGTTTCTCTGCTGGTCTCTTTCACGTCGAAATAAACAGATATCTCAAGGAATGGATCAAAGGC
AGAGAATTTGATGGAGTTGGTTGCCTTGCTCCAGAAGGTATCACCTGTGTTAGGGCAGGTTTCTCTCCAGAGGCATGACGAACCATTGGCTCACGCTGTA
TGTCATAGAACCCATATTGGCTAATATTGGAATCACCTGTGAGGCTTTGAAAGCGCCGATGCTTTGGTGCCACCTCCAGACTTCTGATTCAATTGATGTG
GGCTGTGACCTGGTATTGGGTGGTTTTTAAAGCTTCCCAGGTGTGGTCAAGTTTGGAATTACCTTGGAATATAAATGCATACATTTTACGCATTGGTGAA
TTACTGCTTCAGTCTTTGATTCCGACATCGTATGATACCAATCGGAGCAATCAATTTAAGCCAGAGAATCTGGCTGTGTCCACATTGAACGTGGGCATAA
TACAAAGAGAAGAAGGAGAGATGTCAAGACACATTTGGCTCAAGGGAGTGTGTTATCTCTATTATTTATAAATGTGGATAAAAATATCTTCATTCAAAAT
GTCTTCTATTTCTTGATAGTCTAGATCCGCCCAGTCTAAGAGAACTTTCTGTGATGACGGGAGTGTTCCATTCTCTGCTACACAGTGTTATAGCCGTGAG
TGATATGTAGCTGTTGAGCACTTGAAATATGGATAGTGCAACTGAGAAACTAAAGTTTACCTAAGTTTAATTCATACAAATTTAAATAGCATATCCGGGT
AGCGGCTACTCTACGGGACAGTGCAGCTCTAGTTTTCAATAACATCGTCTTCATCTTCATCAACTGATTCTTGATGTTTTTCATCTTTTTGTAACATGGG
GATCCCAACCTCCAGTGTATCAGAAGAGCAGGAATCTTCAGAGGGACAAGATTCAGGTAATGGGCTAATAGGGAGAGGAGTGAAGGGCGTGTGGATTGAT
GGAAATGTTCTGTGATTTTATGTGAAGAAGACAATTTAGAGTCTTTTGTGCAGATCAGGAGTGCTTTCCCTTACCTTTGCCACAGTGCACTGTGCAGTTT
AAATGGGGACATGTAAGCCTGTCACTGCTGGGGCATGGAAATGCTCAGGGGAGTCAGTGGGTGGTCCTGGTGGCTGGGGACAGCAGCAGGGCCTAGGAAG
GATGCACGCTCTTTCGCCTCTGCATCTTTGGAGTTCGATACTTTTCTGACCTGGACTTTCCTCACCAGCAGAAAGTGTCTTCTGCTATTTCGGACCAGTA
GAAATGTAGGTGCATTGGTTCCAGTCCTCAGCAAATGGTGCCTCCCACCAAAGCTGTCCAGCCTGGCTTCCCAGAAAGYCTTATGGAATTTGGTGTATAC
GTTTAGTCATGACAAGGAACATTCTTGTGCCTTTCTTTGTCTGGATTCAAAGAAGCGAAACTGCATATTCTGGTCACTCTCAGCTCTCATTCGATATCTG
TATCCCAACAGCACCTGTGCAATTCAGCCTCCAGGAGTCCTTCAGGCCATGCCTCTTCCAACCCTTTACCTCTTACATGTCTAGTATTTTCTTTTCAGGA
GACATTTGCTCAGAAGAGAATCAAATAGTTTCCTCTTATGCTTCTAAAGTCTGTTTTGAGATCGAAGAAGATTATAAAAATCGTCAGTTTCTGGGGCCTG
AAGGAAATGTGGATGTTGAGTTGRTTGATAAGAGCACAAACAGATACAGGTAAGAATGGAAGATGCTGATGATTTGAAAACCACTCTGATATAAAGGAAG
TGTGTAGGCCAGGCGTGGTGGCTCASGCCTGTAATCTCGGCACTTTGGGAGGTGGAGGAGGGCGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCA
ACATGACGAAACCCTGTCTCTACTAAAAATACAAAAATTAGTCAGGCGTGGTGGCACCCGCGTGTAGTCCCAGCTAATCAGGAGGCTRAGAAAGGAGAAT
CTCTTGAACCCAGGGGGCAGAGGTTGCAGTGAGATGAGATCTCGCCACTGCACTGCAGCCTAGGAGACAGAGCGAGACTTTGTCTCAAAATAAATAAATA
AATAAAAATATAAATACAAAAGGAAGCGTATCGGTTCCATCCCTTATGATAGCTAAAATTTCATCAATAATATGTTTATTTCATGCACTGTGAAGTTGGT
ATTTTAATTTCAACATATATAGAATGCAGAGAAATTGGGGCCCAGAGAGGTTAATGAACTCCCCAGCGTTTTCTAATGTAGTGAAAGTCGCAGATGGGTC
CTGAACCTTGCCTCACTTCAAATCCCACCTCCCTCTGCACATCGCTGCTTAAATCCAAGTCCTGGGGTTCTCCCGTCATGACATCACTCTGGCTCCTTTC
AGCGTTTGGTTCCCCACTGCTGGCTGGTATCTGTGGTCAGCCACAGGCCTCGGCTTCCTGGTAAGGGATGAGGTCACAGTGACGATTGCGTTTGGTTCCT
GGAGTCAGCACCTGGCCCTGGACCTGCAGCACCATGAACAGTGGCTGGTGGGCGGCCCCTTGTTTGATGTCACTGCAGAGCCAGAGGAGGCTGTCGCCGA
AATCCACCTCCCCCACTTCATCTCCCTCCRAGGTAATGTGGGGTGAGYGGAGGCTGTGGGGGCCGYTGGGGTGCGTGCCGTCTCACTGCTGTTGTGGTTC
TCCTGCAGCAGGTGAGGTGGACGTCTCCTGGTTTCTCGTTGCCCATTTTAAGAATGAAGGGATGGTCCTGGAGCATCCAGCCCGGGTGGAGCCTTTCTAT
GCTGTCCTGGAAAGCCCCAGCTTCTCTCTGATGGGCATCCTGCTGCGGATCGCCAGTGGGACTCGCCTCTCCATCCCCATCACTTCCAACACATTGATCT
ATTATCACCCCCACCCCGAAGATATTAAGTTCCACTTGTACCTTGTCCCCAGCGACGCCTTGCTAACAAAGGTAAGCTGAGTGATTTAGGAGACCAGAGA
AGATGACGATTATATTTCCAGGTTATCCCCTTGGCCCCTCCAGTTCCTCGTGGAACAGAAAGGGCAAGGCATGGTTTTCATGGACAGAAGCAGGAGTCAC
CCTTCCTGAGGTTCATCCAAGGTGCTGACTCTGGAGCTATGTGCTTCCCTAACCATCTTCAGTAGTGATTCAGTGCTACTGAAAAAGGAAATTCCCTTTT
CTGGCTCTCAAGAAGGAGAAAGTTAGTGATTTTGGGGGACCAGCTGACAGAGAAGATGCAGAGATTTTTTCACCAGGTTGTTTTTTTCTTTTTTTAGAGA
CAGAGTCTTACTCTGTCACCCAGGCTGGAGTGAACTGGCGCAATCTTGGCTCACTGCAACATCCACTTCTCGGGTTCAAGCGATTCTCCTGCCTCAGCCT
CTTRAGTAGCTGGGATTGCAGGTGCCCGCCACTATGCCTGGCTAATTTTTGTATTTGTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTTTTGA
ACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCGAAGTGTTGGGATTACAGGCGTGAGCCACCACCCCTGGCCTCTCACCAAATTTTAAATGGAT
AATATGTGAATTACACTGACAGGCACACTCACATCTCTGGAGTAACCCTCCTCCTGTTCAGTAGCATCTCCCTCTAATGCACTTATTAAAGGCTCATATT
CCCACACTCTCTTCTGAGTTAGTGATGAAGCAGAYGTGCTGGTTGCTGTAGCTGCTGTGCACCTGGATAAAGTCCCACTTCTGTCCTTCCAGCCTAGGTG
GGGCGATTATGCCAGAAAGATTACATTAAATTGTATCGTCCCCCCGTCKAATGCTCCAACATCCCAAGAATGAGAGGCAGGTGCCTGCCTGTCAGGACTT
AGGGTGGTGAGTAACTGTGGGTACTTAAATACAGGAGAAAACATTTTAATCTGAATGATAAAGATGACTATTCCTAGAGTGGGCCAGAAATACATACATT
CCAGTGAATTCTTGCATAAYTTCTGTTTTCATTCTGAGCCCACCCTTTTCCTATCCTTCACTTAGTGCCTCTTCTTTCATCATTCCCAAATCTCATATGC
TTACTTGCTTCATACCTTATTGATATACTRGAAACAAAATGGGATGGAAAAACCTCATTGTTTCACTGTCAGCYCTGTGAGCCTGTTTCTGGCCCGTCTT
CACCTATTTCTTTCCTCTGAAACCCAAGAAGCCTCCTTGTTCTTTTTCTTTTCTTTTCTTTTTTTCTTTTTTGAGACAGAGTCTTGTTCTGTTGCCCRGG
CTAGAATGCAGTGGCAATTGCRGCTCACTGAAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACGGATGTG
TGCCACCACGTCCTGGTAATTTTTGTATTTTCAGTAGAGGTGAGGTTTCACCATGTTGGCCAGGCTAGCCTTGAACTCCTGACCTAAAGTGATGCACCCA
CCTCAGCCTCCCGAAGTTCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCGCCTCCCTCTTCGTACACAAGGACACTACTTAACATGAGTCTTGGGTC
CCTTTCCCTCTTCCCTTATGTGGGAGCCACACCCGAGGCATCCTCTTTCCCCTCCACCGTCAATCTCTCCTACCCTAGGGCATCACTCCCTTCCACCCGC
CAAAATCTAGAATGGCCCCCACATTGGAAATGCTGTCCTTGACTGCTCTCCCTCCTGCAGTCATACTTCCAATTTTTCCCTTATGCTTCTCAATGAATGG
ATCAACAGCTCCATGTACCCGAAGTCTCCATATTCCTCAGTTCTCACTCTGTTCCCAGATCTCTCTGTGTGGATGACCTTGCCACCCTTCCTTAGAATGG
CTCTGTTTAGCGTCACCCAGTCAGTGACTTTGTGTCAACTCATTCTTACCTGGGGTCTCAGTGGAATGCTATTCCACTGACCACGCTCTTCCTTGGAAAC
ACTCTTCTATAACAGCAGTTCCCAACCTTTTAGGCACCAGGAAGTAGTTTTGCAGAAGACCATTTTTCCACAGACCAGGGTGGTGAATGGTTTTGGGATG
ATTCAAGCACATTAAAGTTATTGTGCACTTTATTTCGATTATTATTACATTGTAATATATGATGAAATAATTACACAACTCACCATAATGTAAAATCAGT
GGGAGCCCTGAGCTKCTTTTTCTGCAGCTAGATGGTTCCATCTGGGGGTAATGGGAGACACTTACAGATCATCAGGCATTAGATTCTCATAAAGGGCGTG
CAACCTAGATCCCTTGCATGGGCAGTTCACAGCAGGGTTCACGCTCGTATGAGAATCTGATGCCACTGCTGATCTGACAGGAGGAGCTCAGGCGGTAATG
TGAGTGATGGGGAGTGGCTGTAAATACAGATGAAGGTTTGCTCCCTCACTGCTCCTYTCCTGCTGTGCAGCCCGATTCCTAACAGCTCACACACTGGTAC
TGGTCTGCGGCCCGGGTGTTGGGGATCTCTGCTCTATATGATCCTGCGACACCATATTATCCCAATTTCCCTGTGACTTTTCTTTTCTTTCCTTTTTTTT
TTTTTGTGATGGAGTCTAGCCCTCTCRCCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCCCACTGCAACCTCTGCTTCCTGGGTTCAAGTGATTCTCCTG
CCTCAGTCTCCTGAGTAGTTGGGATTACAGGCACACACCACCACACCTGGCTAATTCTTGTATTTTTAATAGAGATGGGGTTTCACAGTGTTGGACAGGC
TGGTCTTGAACTCCTGACCTTGTGATCTGCYYGCCTYGGCCTCCCAAAGTGTTGGGATTACAAGCATGGACCACTGCTCCTGGCATCTCCGTGACTTTTC
TGAGTCTCTCCTCAAATCGCCTCTGCAGGTTCTTGCTCTGAAACCTTCTCTGAATATTGAGTTTCCAGGGCTGAATCTTGGACTCTCCTTTCTCTTTTCT
GTCTTCACTGACGGACTTGATGAATTCTTCGTCTCGTAACTGAATTCCCCACAAGCAGAGGATTTCTCAGTCTATATCTCCAGTCCTGAACATTCTCCAG
AGCTCCAACTTGGAACCGCCAACCTCCCCTCTCCATATGAGTGTTTATTTGGCATATCTAATTGTATATATTGACTCAACTTTCTCCCTTTAAGCGATTT
ATTCAACTCTCTTCCCCATTCAGGGTAGAGACTAAATTTCATTGAGTCATTCAAGCCATACTCTAGTGTTCATCTTTAATTCCTCCACTTATTTTCTTTT
CTTTCTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTGTGTCACCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTC
AAGTGAAGTGATTCTCATGCCTCACCGGGATTATGGTGTCTGCCACCACGCCCAGCTATTTGTATTTTTTTATTTTATTTATGTATTTATTTTTTAGTAG
AGACAGGGTTCACCGTGTTTGCCAGGCTGGTCTTGAACTCTTGACCTCAAGTGATCTGCCCCCCTCGGCCTCGATTTCTTTTCTTTCCCACATCCAGCAT
CTCATCAATTTTGATTCTTTTCATTTTCATAGCATAACTTGAACCAGTTTTACTCCGTTCAGCTTCACTGCCAGCTTTAGTGCCATCCACTGCCATTTTT
GCTAGAAATATGGATAAAGTCTTCAAGCTTATCTCACTGGTTCCATTGTTTTTCATTTACCACCTATTTTTAAAATCTAGGAACAGGGAGATTTTTTGCA
AAATAAGTAATACCCCCATTACATGCAATTGGCCCATACAACAAATCTGCACATGTACTTCTTGAACCTAAAATAAATGATGGGGCTGGGCATGGTGGCT
CATGCCTATAATCTCAGCACTTTGGGAGGCCGAGGCAAGCAGATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAAACCCCATCTGT
ACTAAAAATACAAAAAATTAGCTGGATGTGATGGCACATGCCTGTAATCCCAGCTACTTGGGAGGTGGAGGCATGAGAATTGCTTGAACCCAGGAGGCAG
AGGTTGCAGTGAGCCAAGATTTTGCCACTGCACTCCAGGCAACAGAACGAAACTCTGTCTTAAATAAATCAATAAATAAAATAAATGTTGGAAAGAAAAA
AAATTAAAATTTTTTAATTCTAATACACTTAAAAAATACATTACTACATCACACTTTGGCCAAAGATTCTTTAATGGATTCACGTTACACTTAGAACATG
AATCAAATAATTTACTATGGCCTAGAGGCCATGGCTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTGTGTCCCCCAGGCTGGAGTGCAGTGGGCG
TGATCTCAGCTCACTGCAACCTCCGTCTCCCAGGTTCAAACAATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGACTATAGGCGCACGCCACCATGCCCG
GCTAATTTTCGTATTTTTAGTAGAGACACGGTTTCACCATATTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCCCAA
AGTGCTGAGATTACAGGTGTGAGCCACTGTGCCCAGCTGAAGCCATGACTTCTTGTGACCCTAGAACATCTCAGTTATCCATCTCCTATCACTCTCTTCT
CACTCATTATGTTCCAGCACTTCTGTCCTGAATTTTCATCCCTCAAATACTCCAAGAATTCCTGCTTCTGGGCTCTTACCCTTTGTGTTTCCCTTGCAAG
ACTGGCTCCTGCTCATCTTTCTAGTCTCTTTCTAGTCTTTGCCTAAAGATTTCTGCTTCCGAAAGCCTTTAGTAGGCCCTCTAGTCTGGTCCATCCCTCC
CTTTATTTATTTATTTTTGAGAAGGGGTCTTGCCCTGTCGCCCAGGCTGGAGTGCAGTGCCACAGTCGCAGCTCACTGCAACCTCTGCCTACCGGGTTCA
AGCGATTCTCCTGCCTCAGCGTCCCGAGTAGCTGAGACTACAGGCATGCGCCACCACACCCCACTAATTCTTGTATTTTTAGTAGAAATGGGGTTTCACC
ATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAATGATCTGCCCACCTCAGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACCGTGCCCTCCA
GTTCTCCCATTGTTCTTGATCACTGTACCCTCTTCTTTCCCTCTGTTGTGGTCACATGTCTATTTATTTATGATCTGCTTCTCTGTAAATTGTGTACTCT
ATATCATGGGCAGGACCATTTCTGTTTAATCATAAATTAGTTAAAAGCACAAGGAGGGCCGGGTGCGGTGGCTCACACCTGTAATCCCAGGACTTTGGGA
GGCCGAGGTGGGCGGATCACGAGGGCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAACAATACAAACAATTAGCCGGGCAC
GGTGGCAGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGAATGGCTGAACCTGGGAGGTGGAGCTTCAGTGAGCCGAGATCGCACCACTGC
ACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAGCACAAGGTGAGGCCTGTTGTAGGTACCTCTTGAAATTTTGTTGACCC
ATTGAATGAAAAGTGGTCTGTCTGCTTCTTCCCTATTCAGGGTAGGATAAGGGAAGAAGAGAGGAGAAACCTCTTCTTCACTTCAAACCATAATCAAACT
CTAAATATCTATTGTTGCACTGAGAACTTCCCTGCCCTATTTCAAGAGCAGCACAGTTCAACTCTATAACCACTGGCCAGCTATAGGCTTGAATGGCCGG
CAATAGCATGTGGCTATTGAGTATGTGAGTTGAGATGTACTCTAAAACTTAAGTATTTAAGTTTTAATACACATATTAATACACATACACAGATTTGGAA
GACAATATGAAGGGAAGCACATAAATAGCAATTATTTTTTGTGTTGGTTACATGCCTAAATGATATTGTGAGTTAAATGAAATACATTACTAAAAGCCAT
TTCATCTGCCTCTCTTTGCTGTTTTTAAAAAATGTGGCTGCTATGAAATTAAAAATTGCATTTGGTCACGCCTGTAATCCCAGCACTTTGGGAGGCYGAG
GTGGGCGGATCTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGCTGGCAT
GCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCACACCACTATACTCCA
GCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAATTGCATTTGGGGGTTGCAGTACATTTCTATTCAACAGTACTGTTCCAGGGAAACCCATTTAT
TCATCCAATAAATATTTGTTGTGTGCCTTATATATTCCAGACACTATTTTAGAGGCTGAGGATACATCAGTGAACAAAAGAGGCAAAAACATGACAACCA
AAGATATTACATGGAATGCTATAGGAAAAATATATGTGCATATGATAAGAACTATAACAAATAAAGAAGGTTAAGAAAATTAATCCAGTGGTATGTCTCT
CAACACCTACAGAAATCTGTCCGTAATCATAACCCTAGCAATGTGATATGGATTTATTTGGTGATTTAGTTCTAATCTGTTATTACTATAATTTAATTTA
AACATATCTGTTCATGTAAAAGAATTGTTCATCAGAGATGGTATGATATGTTATTTCTTTCCCCCATCAGTTTCTTTTGACCCTTCGGAAACTGGTTCTT
TTTCTAAACATATATGTGATGCCTCCTGGATAGTTCTCCACATCCCTTCTCTGCCTTACCCCCATCATAGTTTCATCTCTTTGCTCAATACAATATGAAA
TTTTTCTTTTATTTGATTTCCCAGGCCCAATTCAGGTTTTCTCCATGGGCCATCCTTTTCTTCATAGAGATCTGCTGACATTTCTTTATTTCTTTTTTTT
TTTTTGAGACAGAGTCTTGCTCTGTCGCTCAGGCTGGAGTACAGTGGTGCGATCCCGACTCACTGCAAACTCTGCCTCCCAGGTTCATGCGATTCTCCTG
CCTCAGCCTCCCGAGTAGCTGGTATTATAGGCACTCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGACATGGGGTTTCACCATGTTGTCCAGTC
TGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACTGCACCTGGCCTCTACTTTTAATG
AAATATGTACATAATTTATTGCTTCATAATTTTCATAGTTGACACACTCACATATGCAGCACCTAGAACAGGCAACAAGACATCACCAGCTTCCCCAAAG
TCCCCTTGTGTCCCTCTTGGTCATTATCCTGCAAGGGAGTCGATCAGCTGGACTAATAATATCACTGACAGTCATTGTTTTTAGCATAAATTCCTTGCTC
ATTAATTCTACAAAGTCTCTATTGAGTTGTACCTGAGACTTCCCAAAGGTAGAAAGGTTTTGTTTGAATTCCATTCTGTGTCTTTGATGGCTGCTCAGAT
AGATTTTTTTTTTTTTTGGTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAATGCAGTGGCGCAATCTCGGCTCACTGCAATCTCTGCCTCCTGGGTT
CAAGTGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTATATTTTTAGTAGAGACGGGGTTTCG
CCATGCTGGCCACGCTGGTCTCAAACTCCTGACCTTGTGATCTGCCCACCTCGGCCTCCCAAAGCGCTAGGATTACAGGTGTGAACCACCGTGCCTGGCT
GCTTAGAGATAGTTTTGAGGTCTCGCTTTCTGCTGTGGCTGCTGGGCCTCGCAGAGGTGACTGTTTCTGCTCGCTGGTGGTCAGGTGATTGAGCATCTCA
CAGCAGCCCTGTGACGGAGAGAAGTAACATCTCTACCCTTGTCCATCATAGACGTGTTCACAGACACAGCTGAGCTACCAGTTCTCTGCTGAGGCAMCAA
AAAGAAGTCCTTCTGTCCTGTGCTTTCATAAGTACGCAGCCAATCTTTCCACAGTGTAAAAATAAAAGCAAACTATACAAGAATTTATAAGTTCACATTC
ACAAGAAATCCTTTGGCCCTGAGATATCTTTCAGTAAAATTTCATCAATATGTCTCTTTGTGCATAGAGACATATTCATTCATATCTGTGTATCTACCTA
TCACAATCTTTATATCARTTGAATACCTTAATCTTTATATCAATTGAATCATAGCCTACGTGCTACTTAATATACCATATAAATAACTTTTTATGCCACT
ACTTGCTTTACTATTTTTTGTGCTCTCTAATGTTTCTGCCCCTTCTTCCTTAGGCGATAGATGATGAGGAAGATCGCTTCCATGGTGTGCGCCTGCAGAC
TTCGCCCCCAATGGAACCCCTGAACTTTGGTTCCAGTTATATTGTGTCTAATTCTGCTAACCTGAAAGTAATGCCCAAGGTTAGTAGAATTCAAACCCAA
CTCAGCAGGTTTCAGAGTGTTTTATATTTCTGAAACAAATGGAAGAATCTTAGCAAAATGCAACATTTTTCTTTTATTAATCACAAATATGCCCTTTAAA
AAAATTGAAATTATAGAAAAATAGTATTAATCATATTGCATATTTCCAAGACCCTAAGGCAGAGGTAACATTTTAGTATTTGACATACTTATGTTAGGTT
AAAACTACACATTGAGTTTCCCAAACTGAAATTTCCATTTCCCTGTTATAATTATCTTCAGTCCTGATGTCTTGCCTAACTAACGCACTTAATATGTATT
TGTTAAGGTAGTTGAAGGAAGAGCTGATTTTATGTTATATATTTCATTTTATATATTTTTAAATGGAGATTACTATATAATTCTGTGCAATTTAAATTAT
TCCTACATACAGATTTACTGGGACATGATATGCCATGTAGCGAAATCCCTAGAGCTTTTTTCATTATTTCATGATTATTCAACATTTAGTCGCATGTAAT
TTCTCCCAAGAAGTGCCCTGGCAAGAAGTCTTTCCATTCATATGGTTTTACATTTTTCCTGCAGGGCTAGAGTGTCCTAAATGAAATTACTGATTCAAAG
AGTATTAACCAACTTAAAGCTAGTATATTTCCAAATAGATTTCCTTCCTTCCTTCCTTCCTCTTTCTTTTTTCCCTCTTTCTCTCTTTCTTTCTTTCTTT
CTTYTCTTTCTTTCTTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTYCCTTTCTTTCCCTCTTTCTCTCTTTCTTTCCTTC
TTTTTTGATGGAGTCTCGCTCTGTTGCCCAAGCTGGAGTGCAGTGGTGTGGTCTTGGCCCACTACAACCGCCGCCTCCCAGGTTCAAGTGATTCTCCTGC
CTCAGCCTCCTGAGTAACTGGGATTACAGGCATGCACCACCACTCCCGGCTGATTTTTTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTG
GTCTCGAACTCCTGACCTCGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGAGATTACAGGCTCGAGCCACCACACCTGGCCCCAAATAGATTTTCAAA
GATGTCTCACAGCATATGTTCTCTAAAATAAAGATGAGGTTGTCCAGCACAATATACCATCTCTAGAACAAAGTATCAAGATTTAATTGTTTTCCAGTTT
TAATGGGAAAACACATCCCAGTGATTTCAAGGTCTTTAATTCAGAATGGGACGGACCAATGTTATTGTTTTGGCGTAGATGGCTTTTTCCTGTTTGCGGA
CCTTGGAAGAGGTGAGAAACAAGAGGGTTAGGTGTCAGTATTTACATGTCTCCTTTTTGGACACTAAGGCTAAAATAGGAAAAATGATTTTTCCAGCCAT
ATAGACAACAAGATGTGAAGCTTATTGCAGACATCAGTTCAGTGATCTTTTTCTAAGTATACTAGAGCATAAGAATTTAATAAAGTGCCCAACCTTGCTC
TGATTTTAGTTCCCAGTTTCCTTGATAAACTCCACAGCAATTAATATGAAGCAGGGACTGCCTTCCCCAGAAGTTTGGTTGTCCTTCAGGCAAGATACAT
TCTTGGCTGTTGCAGAACCTTCCATAAACATTGCTGATATAGAAATAAATAAATAAAATGCAGGGTATTTCATCCAGAATGATACAACATAGTAAATGTG
AGATAAGAAGTGGCAATTGCAACCTGAGGTGATAATCTTTTTTTGAGACAGAGTCTTACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCARTGTCTGCTC
ACTGCAACCTTCTTTCCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGCCACCACGCCTGGCTAATTGTYGT
ATTTTTAGTAGAGATGGGGGTTTCAACATATTGGCCAGGCTGGTCTTGAGCTCCTGACCTCAAGCAATCGGTCACCTCAGTCTCCCAAAGTGCTGGGACT
ACAGGTGTGAGTCACCGCGCCCRCCCTAGAGGTGATGATCTTGAGCGAGGTAAACTCTCCTCAGAGTCATCTTCCATTTAAAAAGATTCCAGCCAACAAT
CTCACCCTTTGTAATTTTTTAAATCCCTATTTTCCAAGAGCTGGGTCGGGGGGCTTGTTTTCTGAAGAAACTAGAGATTTGCATGAGCTAAGCTTTTCCT
AATTCTGTCCTGCATAAGGGGCTTTCTTGCTCCCCAGGGCAGCTTTTTTTAGGAATCCTGGGGAGACTGGGTGCAAAACAGAGAGGGACCTGAAATGGCT
TATCTGACCCCGGCTTCCCAGCGAGGCTCAGAGAGACCTGATGGGGCTGCTTTGGAAGCTTTCTTGCTTCTCTATAGAATCTCGGATTCTGAGCTGGTCG
CATCATTAATGAGGGGCCTCAAAACCCTCAAAATCTAAGACGTTTGTATTCAGTTGGTAGCTCAGATAGTTTTTCTCTGACTCATGTGGTGTTGACAGCT
AGGTTATTCTTCCCTTCCTGGTATAAAAGCATTTCYTAACATTGTAAATGTAAAGAGCTGTTTACCTCTCTCCCTCTGTTTCCCACTCAACCAGCCATGA
CATTGCACAGGAAACGGGTTAAGTTCCATTGGCCAGTTCACTGTAGGGAGCCGGGCCTTTCCACCCTCCACTGCTTCAAGTCAACTGATGTGTTTCCTCT
AGGAGTTGAAATTGTCCTACAGGAGCCCTGGAGAAATTCAGCACTTCTCAAAATTCTATGCTGGGCAGATGAAGGAACCCATTCAACTTGAGATTACTGA
AAAAAGACATGGGACTTTGGTGTGGGATACTGAGGTGAAGCCAGGTAGGTGAGTGGGCGAGGCTGGCATTTTTAGACAGGGATCCATCATGTACCTCTAT
CCTTGGATTTCAAAGAAGAAATCTTGTTTATGGTTCTTTCCCAGAGAAGAAAAGAAATCTATTGTCAGTGTTAAAACACATGGACACAGGGAGGGGAACA
ACACACACTGGGGCCTTTTGGGTGATGTGGGAAGGGAGAACATCTAGATAAATAGCTAAAAGGCCAGATACGGTGCCTCATGCCTGTAAACCCAGAACTT
TGGGAGGCCGAGGGGGGAGGATCACCTAAGGTCGGGAGTTCGAGACCAGCCTGCTCAACATGGTGAAACCCTGTCTCTACTAAACATACAAAATTAGCCA
GGTGTGGTGGTACATGCCTGTAGTCCTGGCTACGTGGGAGGCTGAGGCAGGAGAATCACCTGAACCCAGGAGGGGGTTGCAGTGAGCCAAGATTGTGCCA
CAGCAGTCCAGCCTGGGCAATAAGAGCGAAACTCCATCTGAAAAAAAAAAAAAAAAAAAAAGAAGAAGATAAATAGCTAATGCGTGCAGGGCTTAATATC
TAGGTGATGATTTGATAGGTGCAGCAAACCACCATGGCACATGTTTACCTTTGTAACAAACCTGCATGTCCTCCACATGTATCCCAGAACTTAAATTAAA
TTWAAAAAAATAGTTTGAATAAAATAAAATGTTCTTGCCAAAAAAGAAAAAAAAAAGAGAAATCTATTGTCAGTGTATTATCAGTGTGATAACACAACAA
TGGTGGCATTTGTTCATCTCTAGGAAGTGAAATGCTCAAGGGGCCTGGGAGAGGGGTGGAAACCCTCGAACCTAGGGGGTAAAGAACAGAAGATTCTAAG
AGTCAGAAGAAACATAAGGACTATTTAGTTCCACTTTCTTCACAATTTAATCATTTCTTCCATACTCATGCTTTTCATTTTCGGGGTGTCATATTCCCTG
AGGTAATCTGTTAAAAAGTTCTGGAAAATGTTTTATCCATTCACAGAAGCTCAACATCATAAACACAATTTTTTAAAGTTTAGAAACTCCCAGACAATTT
GCCAAAGATCTCCTGATAGTTCCTTGAATCTCTGGAGATACATTTATATCTCCAATACATTTGTAAAATGCCATGCTCTGTTTGAATAMCTACAATGATG
CAGAAATCAGTATCTTCAATAGTAGYAGATCCTTGTCTTGGGTAACACAGCATGAAAAATTTCAATGAAGCTCTATGAAGGGAAGGATATTAACATACAT
TTGCATAGGAGCTATAAATCGCTTTAACCTTTTATGTAGTTGTATGGGCACAGATTAATTTTAAAACAAGTCTCTTGAACAAAAAGTCACTTTTAGAATT
CCATACTATAACATAAAAGCACCCATATGAAGATAAGTTGTATGCAGTGATATTATTTGAGGCATTGTCTGTGGTGGGAAAAAAATGAAACCAAACTGAA
TGCCCAGGAAGAAGGACATAGTTGAACAAATGTGTGAGTACATGTTGTGGAATGGTTTTCAACAATTTCAACTGAGTTTTGCCTGTTGCTGCTGTTGTAT
TTTAGTAGTTTGGGGCAATATTGTCACAGTGTTGACTGTGTAGACCAGGAGTCCCCAACCCCCGGGCTAGGGACTGGTACCGGTCTGTGGCCCGTTAGAA
ACCGGGTTGCACAGAGGAGGTGAGTGGACGGTGAGCRGGCGAAGCTTCATCTGTGTTTACAGCTGCTCCCCATTGCTTGCATTACCGCCTGCGCTCTGCC
TCCTGTCGGATCAGTGGTGGCATTACATTCTCGTAGGAGCGCGAACCCTATTGTGAACTGTGCAGGCGAGGGATCTAGGGTGCATGCTCCTTAGGAGAAT
CTAACACCTGATGATCTGTCACTGTCTCCCATCACCCCGAGATGGGACCACCTAGTTGCAGGAAAACAAGCTCAGGGCTCCCACTGATTCTACATTATGG
TGAGTTGTTTGTATARTTATTTCATTATACATTACAATGTAATAATAGAACTTAGGTGCACAATAAATGTATTGCACTTGAATCATCCTGAGACCATCCC
CTCCCTCTCCAGTCCGTGGAAAAAATTGTCTTCCACTAAACCGGTCCCAGGTGCCAAAAAGGTTGGGGACCACTGGTGTAGACTGTCTGCTCTTTGTGGT
CCTCAGTCACTGATCTTCCTTCTCCACTGAATCCTCACAATCCCATCACCTTCCTTTCCCTGCAATGGTGTCTAGAGTTCAAGATCAGCTTCATGGCTGT
GCCTCCCCTTCTCTGGGCAAACTGCCCTCTTGTTGAGGCGGTGCACATGAGCTGGGACTGCACTTGGAGTTTCCAGGCACATTGCAGGGTTGGATGATGC
TCAGCCGACCCAGGCCTCATCTCCACATGAGTAGCATCTCATGAGTGCACCTCCACATGCACCCTCCCCGCCTCCTCCCTCCAGTCKGTAAAATGTCTTA
GCATCTCAGATTGTCAGAGTTTTGTTTGTGCAACTTCTTAGCTCTCCTTGTGATGTTTAATATGCGAAGAAGCCGTGCAGATGTCGGATTCCCCATTGCC
TGCATTATCAGTGGCTAGAATGCAATCTAGTTCACAGCCAACATGCAATACATATTTTGAGTAAGCAAATGCCACCACACTCTCCATTTCTCTGTAAACA
TCAGAATATTTTTACATTGTTTACTTTTTTATTTAAAAAAGATTTTTTCCAGGTGTCACARTCATGCTTTTTTTTTTTTGATAGCAAATTCTAGATGAAA
TGGGGGAGATTGTGGATGGCTGGGTCTTGGATGAGTATGCTGGTTCAAGGCAGCTCATGTTCTGCCCAGAAGTCAAATGACCAGAAACTCAATTGTGAGA
CCTCACAGGAGATGGGAAGCTCATATTTATTCTGTCTTGGTGACATGGTGACTGAGCTGCTGCCAAAGGTGGGGTKGGGGGGGCATGTTGCAAAATTCAT
CTGAACTTYGAAAACATCAAGGAGTCTAGATGAAAGTGCAAAACCMCATTGAAGGCATCATGGGAAATTTTTTTAATTATTTTCCAAAATGGTAGCTCCA
ATTAGCAAATCTTCTATCAACTTATAAGGGTACCCAAATTTCTGCACCATCAACAGTCTTGGTACAATCACATCCAAAAAACACGTGTTTTAATTAACTC
ATGTAATGTTGTTATTTCATGTCTAAAACACTTTGACTGTAATTTATGTAGCACTGTATGATATGTTTTTGTAGCCCCATAGTTCCTAAGATATTGGCCT
GCAAGTTGAAAGAAATTGGAAAAATGTGTTTCTTCCTCCGATGCCTTTTCTGAATTGTCAGTGAGTGACCCACAACTTAATGGGGTTTCCTCAGTGTATT
AGTGTGCAAAACAAGASCCTTATGACATATGTAGAATTAAATTATTTCAGTTGGTTGCATCAAAGACTAGAAAAGCTAAATAAGGGTACATGATTTATCT
CATCTCATCATATAATTTTTCCCTCTTTTGTAGTGGATCTCCAGCTTGTAGCTGCATCAGCCCCTCCTCCTTTCTCAGGTAAGTGAAATGTTTACATTAA
AGCCAAGGGTATGTATGAGACATCAAGGGGTCTTTGAGTGACAGTGGAAGGTATCCAAGTGACATGGYACCAGAACGTTACTGGCAGCAAATCCGTATAG
GTCTGCAGCAACCTCAATTCTTGCCTCCTTAGAAGACAGAATTTGACTGAGGGGCATAAGGCAGAAGGAGAGACCGAGGCAAGTTTTAGAGCAGGAGAGA
AAGTTTATTAAAAAGCTTTACAGCAAGAGGCCAGGCGCAGTGGCTCACGCCTGTAATCCTAGCACTCTGGGAGGCCGAGGCAGGTGGATTGCTTGAGCTC
AGGAGTTCGAGACCAGCCTGGGCAACACAGTGAAATCCCCATCTCTACTTAAATACAAAAAATTAGCCGGGCGTGGTGGTGGGCACCTGTGGTCCCAGCT
ACTCGGGAGGCTGAGGCAGGAGAATGGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGCAA
GACTCTCGGTTCTACAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCTTTATAGCAGGAATGAAAGGAAGGAGGAAAGTACACTTGGAAGACGG
CCGAGGGGGTGACTTGAAAGACAAGTGCACGGTTTGACCTTTTGACTTGGGGTTTAATATGTTGGCACACTTCCGGGGTCTTGCATCCCTTCTTCCCTGA
TTCTTCCCCTGGGGTGGGCTGGTCGCCTGCATAGTGGCCCGCAGGGGCTTGGAAGGGGAGCATGCGCAGTGTGTTTCTTGGAGTCATACGCATGCTCACT
TGAGGCATTCTTCCCTTACCAGCTCAACCTCCGTAAGAGGTTATAGGCCAGTTAAACTCTGCTCTTAATGCACATTCTTGAGCCCACTGGCCCAGTTCCC
GAGATCTTATTGGGAAGCTGCTGATCACCAGTTTCAGGTGTTTTCTCTSTGTCAGGAGACGGCCTTTCCCTGGTGCCGGCTGCAACCAATTATTATTTTA
GAGAGACGGTGTAACAACTGCCTGACCATCACCTGATGGTTGCCTGACATTTCTGGTGGGGTGAGGAGTCCTCTCCTGCCCTGCTCATATCTGACGAGCT
GCCTGCTGTAACAGCATCTCTCAGCAAGGCTCCATTCCTTCCATCCTTGTCATCTGCCAAGAATGACTGATGTCATAAATACAGACAATGAGTATGATTT
AGTCCCAGAAGGGCGTGAGGACATCATGTAGACACAAAAGAGCATRCAACAGCAAATTATTGGGGGTAAATATTTAATATCTTGCGTCTGGGGAACTCTA
AGTTAAAGTAGTTTGATATGGCTGTGAATTAAACTGTTAGAGGGACAGAGTAAAGGTGACATGAGAAGGATAGTCAAGAGCTGGCAGTTGAAAGTCCAAG
AATAAAAGTTGAAATATTTTGGACTTTAGACGGAAAGGCAAGAGTAACTATTAAAGGATGGATAACAATGTGTTGGCTCTTCAAAACAGCGTGGATGATT
GAGTGTGGGTTGGGAATGAATAGGAAGTGGGGAACGGTGGGGCTGTTGTAAAAGTGAAGAGCAGATATCAGCCAAGGATCTGTTAAGGACACTGGAATTA
GTATATAGCAGAGAAAAAATTATTTACATTATTTAATATAAAGAGTTGGCTGGGTGCAGTGGCTCACACTTGTAATCCCAACACTTTGGGAGGCCGAGGC
AGGTGGATCACCTGAGGTCAGGAGTTYGAGACCAGCCTGGCCAACATGGTGAAACCCTGCCTCTACTRAAAATACAAAAACTAGCTGGGCGTGGTGGCAC
ATGCCTGTGATCCCAGCTACTCGGGGGGCTGAGGCAGGAGAATCGCTTGAACCCAGGGGCGGAGATTGCAGTAAGCCGAGATCGTGCCATCGCACTCCAG
CCTGGGGACAAGAGTGAGACTTTGTCTCAAAATAAATAAATAAATAAGTAAATAAATAAAATAGAGTTAACACTGAGAGGACCAAGTTTCCATCATCTAG
TAAGCAATAAATCCAGGTYTGGAACTCCTTGTCTCCTGATGACTTCATGTCCACGTTAATTTTAAAAATCACCCAAGGCAGCAATCTGCAATGTCCTCTG
GATCTGTGTAAAGTCTTGTGTGGCAAATGACAGAAAGTCCAACTTAAATGGAGTGAAATTATCAAGAGTGTSATGGCTCAGGCGAGTTCAAGGAAGAGAT
GTGGGACTGACTCCAGGGAGGCTGATTCATGGGCTCAAACAACATCACAAGGGAGGAATGTTTCTCCATGTCTTCGTCCCGCCTTCCATATTGTTGGCTT
CATTGTCAGGCTCCACACAGTGTAAGTTTCCGAACTCATGTCTCAAAACAGACCACTGGGAGAAAAAAGAGAGCACCTTCTGAGATGGCARTCATGCCAT
TTCCTAGCTGTTGTTGCCTGGAAGGCCATTGAGGCAGATTAAATAAAAAGAAATCATGCCTCACATCTGGAGGTGCAATGAGGATCAGCTAAGGAGCTTG
GTTAAGAATCAGATAAAGGTGACGTCCTAAAATAAATCAAAGAACATCTCTGTAGGTGGTGACTGCAGGCTGAGCAGCACCAACAAAAGGCTTCTACCCT
TCCTAAATATAATGTTTAGGATGTGGAGCAAAATATAGCACCTGTTGCCTGCACGTTGAAATCAAAGCTTAGTAGCTCAGTCTACAGGAAGCTGGTCCAG
AACATGTCTTGAGTCAAAATCACACCTCAACCTCCATGCATTCTAAACCACGTGATATGGAAGTAATATGATTTGGCCAAGTTTATACAGACATTATATG
GGGCACAACGTAAACCCTGAGTCTACATGATGGAAAAAAGTCTGTATCTTTTCCCCTGTTCTTCCTTTTSTATGCATTGTATGTCTCCAGTTAAATCTCT
TCTTTCATAGCTCTGCCAGCTAAGCTTTGGGGATCCAGCTGAATCCTTCTCCATACCTCTAGCATCATGCACAGTTTCTGACAATGTATGAACTAGAAGA
TTTGTGTTTCGTTGTTAGAGGGATTTATATATAAATGTATGTACAGCAAGATAGAGCTCTGTCTAGGATTTCAATGAAAAACACCAACTAGGAAGAAACA
GGCTTCAAGAAATGGATGAGAGGAGTAGGACTGAGGAAGATACATTATTTGAGACACCTCRATGCATTTGATACTGCAAAGGGTATATTTGCTCTGTGAA
TGTGTGTGATTTTGTATGTCCACAAATTAAGYTACAGACACAAGGAGCAATCTCCCACCCCTGAATTTTGACTCTAAGCTTGGTATAGATCCTGAATCCT
GTAAGTGARCGATTCTCAAAGTCTGAAACTCCCCCTTTCATCCAGGTGCAGCCTTTGTGAAGGAGAACCACCGGCAACTCCRAGCCAGGATGGGGGACCT
GAAAGGGGTGCTCGATGATCTCCARGACAATGAGGTTCTTACTGAGAATGAGAAGGAGCTGGTGGAGCAGGAAAAGACACGGCAGAGCAAGAATGAGGCC
TTGCTGAGCATGGTGGAGAAGAAAGGGGACCTGGCCCTGGAYGTGSTCTTCAGAAGCATTAGTGAAAGGGACCCTTACCTCGTGTCCTATCTTAGACAGC
AGAATTTGTAAAATGAGTCAGTTAGGTAGTCTGGAAGAGAGAATCCAGCGTTCTCATTGGAAATGGATAAACAGAAATGTGATCATTGATTTCAGTGTTC
AAGACAGAAGAAGACTGGGTAACATCTATCACACAGGCTTTCAGGACAGACTTGTAACCTGGCATGTACCTATTGACTGTATCCTCATGCATTTTCCTCA
AGAATGTCTGAAGAAGGTAGTAATATTCCTTTTAAATTTTTTCCAACCATTGCTTGATATATCACTATTTTATCCATTGACATGATTCTTGAAGACCCAG
GATAAAGGACATCCGGATAGGTGTGTTTATGAAGGATGGGGCCTGGAAAGGCAACTTTTCCTGATTAATGTGAAAAATAATTCCTATGGACACTCCGTTT
GAAGTATCACCTTCTCATAACTAAAAGCAGAAAAGCTAACAAAAGCTTCTCAGCTGAGGACACTCAAGGCATACATGATGACAGTCTTTTTTTTTTTTGT
ATGTTAGGACTTTAACACTTTATCTATGGCTACTGTTATTAGAACAATGTAAATGTATTTGCTGAAAGAGAGCACAAAAATGGGAGAAAATGCAAACATG
AGCAGAAAATATTTTCCCACTGGTGTGTAGCCTGCTACAAGGAGTTGTTGGGTTAAATGTTCATGGTCAACTCCAAGGAATACTGAGATGAAATGTGGTA
AATCAACTCCACAGAACCACCAAAAAGAAAATGAGGGTAATTCAGCTTATTCTGAGACAGACATTCCTGGCAATGTACCATACAAAAAATAAGCCAACTC
TGACATTTGGATTCTACCATAGACTCTGTCATTTTGTAGCCATTTCAGCTGTCTTTTGATTAATGTTTTCGTGGCACACATATTTCCATCCTTTTATGTT
TAATCTGTTTAAAACAAGTTCCTAGTAGACACCATCTGGTTGAGTCAGTTTTTTTTATGGTGTATTTTGAACCCATTCTGATAGTCTCTTTTAACTGGAA
GATTTCAATTACTTACGTTAATGTAATKATTAATATGTTAGGATTTATCCTCAGTCAGCCAGTTTGTTATGTCTTTTCTATTCTACTGTTATCACATTTG
TACCACTTAAAGTGGAATCTAGGCACTTTATCACCATTTAGATCCTATTACCTTTTCTCATCTAGGATATAGTTATCTTCTACATAATCTTTCTGTATCT
TAAAACCCATCAATAAATTATTATATATTTTCTACTTTTAATCACTCAGAAGATTTAAAAAACTCATGAGAAGAGTAATCTGTTATGTTTTTCCAGATAT
TTACCATTTCTGTTGCTCTTCCTTCATTATTTTCCAAATTTCGTTCTGCAAATTTCCACTTCYTCTGATAGACGTTTTTTAGTTCTTTTAGAGTGGTTCT
GATAGGTACAGATTCTCTTATTTTTTGCTTCCTCTGAGGACATCTTTTTCTCACCTTCATTCTCAGTGATGTTTTTTGCTTGTAGTATTTTTAGTTGACA
TTGTTTTCTGTTCAGCAGTTTCCTTTTAGCTTMCGTATTTCCTGATGAGAAATCTGCAGTCATTCAAATTGTTGTTTCCCTGTATGTAGTGTGTCATTTT
TCTGTCAGATTTCAAGGTATTTATCTTTAGTTTTTAGCCATTTCATTATGTTGGGGATGAGTTTCCTTGTTTTATTCCCTTTGGAATTTGCTCCAATTCA
TAAATTTGCAGTTTTATGTCTTTTACCAAACTTAGAGGTTTTCAGCCTAATTTCTAAAAATACTTTTTATTAGCCTGATTTTCATCTTTATAGGAAATAG
TTTAAGTGATGACAAGTTCCAATAGCTTATATGCCCAGAAGGCCTTCAAAATAAGAATTTTGAAAGAATACAGAAAACAAACTTTTATATCCTTCTCATG
TCTTCTACTGTAAAATTCATATGCTTTGCTACTCTAAACCTAGTTTGAAATCAACAGTCTTGAGAATAGATGAAAATTTTGATGAATAGTGGAATTCTTT
TAAATGGAAACCTCTTACAYGTGATTTTCCTTGCCATCTAGAAATAAACCATAGTATTTATGTTGAATCAATCAATATTATRTTTTGTTTTTTTCCTCCT
CTTCTGAGACTCTTATTGTGGAAATGTTAGACTTTTATGTTTTCCTAAATGTCCCTGATATTCTACTTATTTAGAACATCTTTTCATTTTTTCCATTATT
CTGATTGGGTAATTTTAATTTGTCTATTTTCAAATTTGCTGGAGTGTTCACCTGTTGTTRTCTGTGTCGTCCCACTGAGTGCATTCACCACCTTTTAAAT
TTTGGTCACTGTATGTATCAGTTCTAAAATTTCCATTTTGTTCTCTATATTTTAAATTTCTTGSCTTATATTCTATTTTCCTGCAAATGTGTCAGCATTT
GCTTGTTTGAGCTTTTTTTTTTTCAAGACAGGGTCTCAACTCTGTTACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCT
GGTTCAAGCGATTATTGTGCCTCAGCCTCCWGAGTAGCTGGRATTACAGGCATGCACCACCACAGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGA
GTTTTGCTATGTTGGCCAGGCTGGTTTTGAACTCCTGGCCTCAAGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCCACTACACCTGG
CACATTTGAGTATTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCATCTAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAGCC
TCTGTCTCCCGGGCTCAAGCGATTCTCTTGCCTCAGCCTCCTGAGTAGCTAGGACTACAGGTGCATGCCAACACGCCCGGCTAATTTTTTTTWAAAAATA
TTTTTAGTAGAGACAGGGTTTCACCATTTTGGCCAGGATGGTCTTGATCTCCTGACCTCATGATCCACCCGCCTCGGCCTTCCAAAGTGCTGGGATTACA
GGCATGAGCCACCGTGCCTGGCCTCATTTGAGTATTTTTATAATGTCTCTTTTAAAGTCTTTGTCAGATAATTYCACTGTACATGTTATTCAGTGTTTGG
TGTCCACTGAGTTGTCATTTGCCAGACAAGTGGAGATTTTTGCAGCTCATCCTTGTATTCTCAGTAGTTCCGATATGTACCCTCGAMATGTGAATGTTAT
CTTATGAGACTCTGTTTTATTTGTATCCAACAGAAGATGTTTATTATTTATTTGGCTTTCTGTGAACTGAGGTCTTAATATCAGCTCATTTTAAAAGTCT
TTGCAGTGGTATTCGGATCTATCCTGTGTGTGCCTATGAGATTGGGTGCAGTGTATCCTGTTAGCTCCATTCTCAGGGCGTTTGAATGTGAATTAGGACC
AGCGCAATGAATGCTCAAGTTGGGGTTGGGCGTTAGAATTCATAAAAGTYTTTATATGRTCAGATTCTGCAGCTCCATCCTCTTCATGATTGTGATCGTR
AGGACAGTGGAATTTTGCAGTTGTCTATACCTTATCTTGAAGTAGAACTAAATTGTTACATTTGAAGAATGTACTTCATAAATTTACAAAAATAAAAAAA
TAGGTTAATGTTATTAAAACAAAAAGGCACACATTTTTAGAAGTTAAATTGATTTATTTGAGGATGCTAAATTAAAAATAGAAGGCCGGATGCAGTGGCT
CACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGTGAATCAGATGAGGCCAGGAGCTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCT
ACTAAAATTACAAAAATTAGCCGGGCATGGTGGTGCATGTCTGTAATCCCAGCTGCTCGGGAGGCTAAGGCATGAGAATCACTTGAGCCTGGGAGGCAGG
GGTTGCAGTGAGCCAAGATCACACCACTGCACTCCAGCCTGGCTGACAGAGTCTCATTCTGTCTCAAAAAAAAAAAAAAAAAAACAGAAAAACAACAATA
AAAAAGAAGAAGTTCATTAGAATGAAGCTACTAAGAAGAAGATGTAAATATCAGGTGATATTTATAATACATAAAAATGATTCAACATGAGTAAACAAAC
AGAAAACTCCTTGTGAAAAATGGGCAAACGTTATGAGTAAAATGTTACAGTTTGTAAATCGCAATGGACAATGAACAAAAGTAGAATTTCATACGTCTAG
TTATCAGAAACCTCATTAAAAGCCATAAAAATACTACATTTTATATTCATCAAACTTCCATTTATTAAGAAGTCAGTAATGCCTACTACTGGTGAGTATA
TGGAGCACAAATGTAAGTTCTGCTGTTGGTTAGGTAATGCTTGATTTTGGAAATTAATCTGAAGTTACACAGTGAAGTTAAAGGTATGTATACTACCTTA
TCCTGCTCAGGTTGCCATAACAAAATACCATGGACTCAGTGGCTTAAAGAGTAAAATTTTATTTCTTACAGTTCTCAGGCTGGGAAGTCCTAGATAAATA
TTTGGCCAATTCAGCATGGTTTTTTTTTTCTTTTCTTTTCTTTTTTTTTTTTTGAGACAGAGTCTCTCTGTCGCCCAGGTTGGAGTGCAGTGGCGTGATC
TCGGCCCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCACCACCACGCCCAGCTAA
TTTTTGTATTTTTAGTAGAACAGAGAGGAGAAGGTTAGGGGTGAGTCAGAGGAAGTACGAGAGCAATCGCTAAGAGATRAGGTCGAACTTTAGGAACCAG
GAAAGCCTCCACACTTGTCACCCCACACATCAGGGCTGTCCAACAGAACTTTCTGCAGTGATGGTGTTACCCTATGGAAGGTCCTGACTGTGAGTTGTTA
GGGTTCTTGGTGTGTGGAACAAAGAATTGAACAAAATGCACAAACAAAGCAACAAAAGAGCGGAGTAACGAAAGCACAGATTTATGGAAGTGAAAGTACA
CTCCAGAGTCGGAGTGGGCTTGAGCAAGTAGCTCAAGAGCCCCTGACTGCAGTGCTCTTTAGAGTTTTCATTAAGCTAAAAGAATTTGGTAACACCCCTA
GGTGCCCTTTAGAGGCCTCCAGTTGGTTACACCCTATGAAGGATTGGCCCGTGACCAATCAAGAGGCTGAAGTGGAGACTTCTGTCTTGTTATCACAGGA
GTGAGGATGTGGCCTGGATGCTGCCCAATCTTGCCTAGAACTGGCTGCACCTGCTTGTGCCTTAACCCTTGGTTACCCTAAATCCCTGTTATCCAGACTC
ATTGGGACTGCTCTAGATCTTCACTATCCAATACGGTAGGCGCTTCCTGAAATGTGCTGAGTTTTATTTCATTATAATTAATGTAATGCACCCACATGTG
GCTAGCTGCTACTGTTCTATTGAAATGCAACTATACAACTTCCCATAATGTTTCAAAACACCAAACTCTTCTGTAACTCCCCCAGTCTCCCAAAACATCT
TATAAAAATCCTAGAACAACTGGCTGGGGGCGATGGCTCACGGCTGTAATCCCAGCACTCTGGGAGGCTGAGGCGGGTGGATCACTTGAGGTTAGGAGTT
CGAGACCAGCCTGGCCAACGTGGTGAAACCTCGTCTCTACTGAAAATACAAAAATTAGCCAGGCATGGTGGCGCACACCCGTAATCCCAGCTACTTGGGA
GGCTGAGGCAGGAGAATTGCTTGAACTCAGAAGGTGGAGGTTGCAGTGAGCCAAAATTGCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGT
CTCAAAAAATAAAAATAAAAATCCTATAACAACTGCACAATGCTCAAACGGCCCAATTCCCTACCTTTCCTTTTATACCTTACTACTACTCTCTTGTTGC
TCCCATCATGCCTCACTCCCTACTCACATTTCCCAGACGGAGGTTACATGTGATATGGCAGCTGAGAGCCCAGACTCTGGGGCCCGATTGTGTGGGTCCA
AATTCTGGTTCTAACACCTCTGGCCAAGTTATTTAACCTCTCTGTGGTGCAGTTTCCTCATCTGTAAAATGGGGGTGTGACAGTAACGCTACCTCATAGG
AATGTTGGGATGCCTCAACAGCACTCATGTAAAGCAGAGATGGGTACAAGTAGCTTTATTATATATTATCTGTTTAACAATTGTATATGGGCCAGGCGCA
GTGGCTCACGCCTATAATCCCAGCACTTTGGGAGACTGAGGTGGGTGAATCTCTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCC
TTCTCTACTAAAATTACAAAAATTAGCCGGGCGTGGTGGTGCGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGA
AGCAGAGGTTGAAATGAGCAGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGCGTAAGACTCCATCTCAAAAACAAGCAAACAATTGTATATGGCCG
AAACTTTCCATAATAAAACGTTTTTAAAAATAAGAGTACTTAGCATAGTCTCTGGCACACAGTCAGTGCTGATCTTGGCGTTAGCTTCAACACTCCGACT
TTTCCTGACTATCCCCAGCTCCTCCTACAACCCAATTACTCTATAATACCTGTTTCCCCTATAATAACCCACTCTTCACAAACACTTAAATTAACCATAA
TGAGAGCTGCCAAATAAAATACAGGATGCCCAGCTAAATTTGAATTTCAGATAAACAACAGAGAGTAACTACAATATTATGCATTTTCCGAAATTAGAAT
TTAACTGGCCATTGCTTTCCCCCTAAATCTGGTAACTCTATCACTAAATGCCTTTGCATACTGAGGAATCCTCAGTGCTTCCTAGAGGCTGCTACTGAGT
TGGCCTTCTATAAATAACAACAGAATTAACTTATATAATACCTCAATTCCCTTATAAAACTTCCAGCTTCTCTTTACAGCGCCAGTTCTTCCCAATCGCC
TCCCAGTCCCTCCCATAGAGGACAACAGTCCCCTTTTCTTATACCTCCCCTTCTCCATGAAACCCCAATTCCGTCTATAGTCACATCTGTCCTGTTTACC
AGTACTGTCAACTGTGCCTGGCTTCCAGCAGGAGCTCTATAATAACTGCAGAATGGCAAAAGAGCTTAATACCCCAATTTTCCCTACTGCTTTGGGAGGC
TGAGGCGGGCGGATCCTACTGCGTTTCCACTTCCCCTTGAGCATCCCAAGTATCTAGTAACTTGTCGATTTCAATGATCTCCCCAAATCTCCTTATTACA
TAGGAATTCACCAAAACACTCCCTGTCCTTGAAAACATCCCATTTCCCCTAATATCACCCCAACTCCCCTTACTGCAGACTGATTCCTCCGGCACACCCT
CCATCCCTCCAGTTCCCAGGCTGTTAGTCTAATTTCTCCCGCGAGGTCTCTAATCCCCGTCTCCTTCCACTCCAGGGTTACTGTGGCAACGCCAACCTTT
GAATCCCCCTCCTGCGCGCTGAGCGGCTCGTAACCATGGAGACCGAAGCAGGTTTCCCGCGTCCGCCTCCTCACMCAGAGACTGCAGCCCCGGCGCCCAG
ACCCTTTGGACAAGGAGATCCAAGCGGGCCCCACAATGCTCAGCGGGTAAAGAGCTCCTCCCCACTCCTCTCCCGCCAGCAGACGAAGGAAACACCCCGC
AGCCTGCACATGCTCAGATGGAGCTCTGGGMCCGCGGGTTCTACTGCGCAGGCCCTCACACTCAGCAAAGGGACTTGGACGCGAAAGCGCTGGTGGCGCT
YAGCCGGYTGGGAGTTGTAGCTTTCTGGCTGCTACAGCAGGAGATACAGGTGGCCAATGGGTGAGCTGGCTGGAGGTAGGAACAAGGTTAAGGAAGCTGG
GATCTTCGTGCAGACTGGATCGTCACTATAGCAACAATGAAACATCGGGAAGGGCTAGTTCTGCTAGGCAGTCTGCCATTTTCATTCTTTCATCTTTTTT
TTTAACTCAAAGCTTACTTTGCAACAGGCACTGTTCTAGGCACTGGGGATACAATGGAAAACAAAATAGAGCTTCTATTTTGGCGGGAGATCGACTTAAT
AACTGTGAACACGTGTCACTGGAAAAAGCAGTATGTTAATAAGTAACTGGGCTGCTTTGGGAAAAATGGAAATGCAGGCGATGTTAGAACACTGGTACAC
ACACTAATTCATTCATCCTCACAAAGCCCTATAGACAGGTACTATTATGACCCCTCAACTGTAACATAGGCTGGAAGGTCACATGACAAGGAAGTAGTGG
AGCTGGGATTTGAACCCAGGCAGTCTGGCTTCATACTTGATAAGCTTAATCACAATGCCAAASTGGTAAATAGCTGTGTGGCATAATTTCAGGTAGTGAT
AAGTGCTGTGAAGGATAAAGCAAAGAAAGGGGCAGGGATGGCTCTTTAGAGAGACTACTTAGGGATGGCTTTCAGGAAGAGGTGGCATTTGAGCAGGGGC
CCGAGGGATTGATGTGACTTGTGATAAAAGAAAAACTTCAGACGAATTAAATTTAAAGAAGTTTAATTGGCTAGGCACTGTGGTTCATGCCTGTAATCCC
AGCACTTTGGGAGGCCGAGGAGGGCGGATGGCTTCAAGTCAGGAGCTTGAGACCAGCCTGGTCAACATGGCAAAACCCTGTCTCTACTACAAATACAAAA
ATTAGCTAGGCATGGTGGTGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCACAAGAATTGCTTGAACCCAGAAGGTGGAGGTTGTAGTGAGCTG
AGATCGCACCACTGTGCTCCAGCCTGTGCAACAGAGCGAGACTCCATCTCTAAATAAATAAATAGAGTTTAATTGAGCAATGAAGGATCCACGAATCAGG
CAGCCTCGGACCAGAGTAGGCTGAAACTCCAGCACAGCCATGTGGTGGAAGATTTATGGACAGAAAAAGGAAAGTGACATACAGAAAACGTAAGTGAGGT
ACAGAAACAGCTGAATTGATTACAGCTCGGCGTTTGCTGTACACAGTTCGAACAGTTGGCTACATTTGATTGCCCAAAACTCGGTGATTGGCACAAGTGT
AGGCCACCTTCTGTTTACACCTCCACTTGTTATAGTTCACGACGTACAGAAAAACCTTCAGGCCGAACTTAAAATATGTAAGGAGGCAGCTTTAGGCTAA
ACTTGATTTAACACTGTGAGCTATATATGTGGGGCATATAGAGGGTTAAGGTTTACTAACCTTTAGTTTCCTCTTGCCTTCCTGAAGGGCCAAATACTGT
AATACGTGCAGTTCCCTCCAATAGGAACGTACTTCTTCATTCTCTTTTCCTGGCAAACACATTCTTCAAGGTCCAGTTCTGTGAAGATCCTTCTGCCTGT
TTTTTAAAATTTATTTTTATTTGTTTGTTTATGGTCACATACGTCTCTTCCTGGTCTGGACTCATCCAATCCATTTGTCACAGTAAAGCTTCTGGGGTAG
GGGAGGTGGTTATTCTAATGTACATCCAATCAAGCCACTCTCTGTTTAAAACCTTTTGAAGGCTTCCCATACCTCCCAGGATAAAGACTCACCTCATCTT
CTATCTTTAAGGGCTTGCGGATTTCACTGTCC


SNP Information

Context             (SEQ ID NO:13372):
AGTCTTACTCTGTCACCCAGGCTGGAGTGAACTGGCGCAATCTTGGCTCACTGCAACATCCACTTCTCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCTT
R
AGTAGCTGGGATTGCAGGTGCCCGCCACTATGCCTGGCTAATTTTTGTATTTGTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTTTTGAACTC
Celera SNP ID:            hCV27064140
SNP Position Genomic:     31904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13373):
CCTGAGATATCTTTCAGTAAAATTTCATCAATATGTCTCTTTGTGCATAGAGACATATTCATTCATATCTGTGTATCTACCTATCACAATCTTTATATCA
R
TTGAATACCTTAATCTTTATATCAATTGAATCATAGCCTACGTGCTACTTAATATACCATATAAATAACTTTTTATGCCACTACTTGCTTTACTATTTTT
Celera SNP ID:            hCV25636590
SNP Position Genomic:     39918
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(G,40)   total(A,5|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:13374):
GTGAGAAGCATAATAATTAAACATGAATAAATTAAATATGCAGATTTTAATATTTTTATTGAAAATTGGATAGAAATATTTGTTTAGTTGGAACCTGTGA
R
TGATTATTATGCATATAAATAGACATTCAGTTATTGCAGATAAATTCAGTGGTGGTAAAATAAAACATTTGTATAGGGTTTTGGAATTCAAATCTTTAGA
Celera SNP ID:            hCV11708120
SNP Position Genomic:     18485
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13375):
GATGTCACTGCAGAGCCAGAGGAGGCTGTCGCCGAAATCCACCTCCCCCACTTCATCTCCCTCCAAGGTAATGTGGGGTGAGCGGAGGCTGTGGGGGCCG
Y
TGGGGTGCGTGCCGTCTCACTGCTGTTGTGGTTCTCCTGCAGCAGGTGAGGTGGACGTCTCCTGGTTTCTCGTTGCCCATTTTAAGAATGAAGGGATGGT
Celera SNP ID:            hCV25636591
SNP Position Genomic:     31166
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13376):
AAGATAATGTACACCTTCTTTAAGATTCTTATAAGGAAAAAATTCCATTTCGTTTCTTGAAATGAGGTATTGCTTTGTCGCCCAGACTGGAATGCAGCGG
Y
GCCATCATAGCTCACTGCGACCTTAATCTCCTGGGATCAAGGGATCCTGTCACTTCAGCCTCCTGAGTAGCTGGGACTACAGGCACAAACCACTGTGCCT
Celera SNP ID:            hCV11708121
SNP Position Genomic:     18101
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13377):
AAAATAATAACAATATTAATGATAAAGTAGTTGGGAGAGAAGGGCAGAGTTCCCATGTAGCCTTCACCAAGTTTCCCCTCACGATAATACTTTTTTTCTT
Y
TTTTTTTGAGACGAAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTACAACCTCTGCTTCTGGGGTTCAAGCGATTCTTT
Celera SNP ID:            hCV27064147
SNP Position Genomic:     24105
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13378):
CACCATGAACAGTGGCTGGTGGGCGGCCCCTTGTTTGATGTCACTGCAGAGCCAGAGGAGGCTGTCGCCGAAATCCACCTCCCCCACTTCATCTCCCTCC
R
AGGTAATGTGGGGTGAGCGGAGGCTGTGGGGGCCGCTGGGGTGCGTGCCGTCTCACTGCTGTTGTGGTTCTCCTGCAGCAGGTGAGGTGGACGTCTCCTG
Celera SNP ID:            hCV25636592
SNP Position Genomic:     31130
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:13379):
AAACACAGTTGAATATGTACTGTGGTGTTACTGTATATATATATATCCAGAGTTTCTTTATGCATATACAAATTTTTACTCTTTACTTGAAGAGTAGAAA
S
TTTACATGTTGTTTACTATGCCTTTCTTCATTAACAATAGATCTTAGTGATAATTCAGTATCAGTTTTTAGTGAACTTTGACATTCTTTTAAAATTGCAT
Celera SNP ID:            hCV11708123
SNP Position Genomic:     14380
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13380):
GGAGGCTGAGGCAGGAGAATTGCTCAAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGTGCAACTGCACTCCAGCCTGGGAGACAGAGTGAGGCTT
Y
GTCTCAAAAAAAATAATAACAATATTAATGATAAAGTAGTTGGGAGAGAAGGGCAGAGTTCCCATGTAGCCTTCACCAAGTTTCCCCTCACGATAATACT
Celera SNP ID:            hCV27064148
SNP Position Genomic:     23995
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13381):
ACTCTCCATTTCTCTGTAAACATCAGAATATTTTTACATTGTTTACTTTTTTATTTAAAAAAGATTTTTTCCAGGTGTCACAATCATGCTTTTTTTTTTT
T
GATAGCAAATTCTAGATGAAATGGGGGAGATTGTGGATGGCTGGGTCTTGGATGAGTATGCTGGTTCAAGGCAGCTCATGTTCTGCCCAGAAGTCAAATG
Celera SNP ID:            hCV11708050
SNP Position Genomic:     45779
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13382):
GCTTGTGTGACATCAAAACAAATGGAAGCATTGTGTGTGTGTTATATATATATATATATATATACAATAACATAGTGTCATGAAAGTATAGTATATATAT
R
TAAAATTTTGCGTGTGAAAATTTTAGGTGGAGGTTTTTAAACCATTTGTTTACTTTATAAAGGGTAATAAATTCACATAGTCTGCTCCCCAAACACAGTT
Celera SNP ID:            hCV11708124
SNP Position Genomic:     14189
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13383):
AAAATTATTTCAAAATAAAAGCATTATATGGGTCATGTAGTTTTTTTGTATAGTTTAGTTCTAGGTACCATAGTTGCTATTTTAATGAGTGTATTTTCTT
Y
TTTCATGGAATTGGGATAGTCTGTTATATTAAGAAGCTATTCACTTTTGTATATTAAGATTCTTCTGGCTGGTGCGGTGGCTGACACCTGTAATCCCAGC
Celera SNP ID:            hCV8159132
SNP Position Genomic:     16331
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13384):
CACACTGGGAGGCGAGGGCAGGTGGATCGCCTGAGGTCAAAAGTTTGAGACCAGCCTGGCCTACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAT
Y
AGCTGGGCATAGTGGCCCACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTCAAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGA
Celera SNP ID:            hCV27064149
SNP Position Genomic:     23853
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13385):
AGTGTATCCTGTTAGCTCCATTCTCAGGGCGTTTGAATGTGAATTAGGACCAGCGCAATGAATGCTCAAGTTGGGGTTGGGCGTTAGAATTCATAAAAGT
Y
TTTATATGCTCAGATTCTGCAGCTCCATCCTCTTCATGATTGTGATCGTAAGGACAGTGGAATTTTGCAGTTGTCTATACCTTATCTTGAAGTAGAACTA
Celera SNP ID:            hCV8832758
SNP Position Genomic:     53650
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   TSC_42_T(T,0|C,84)   TSC_42_C(T,0|C,84)   TSC_42_TT(T,0|C,84)   total(C,252)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13386):
ATGTGGAGGAATGGTATTTTATTCTAGCATGGGCATCGAAGAAGGTGTCTCTAAGAATGGGCATCTCTAAGGCATCTCTGAGGATGGCATCTCTAAGGAT
R
GTATCTCTAAGGATGGCATCTCTATGGATGGGCATGTCTAAGGATGGATGTCTCTAAGGATGGCATCTCTATGGATGGGCATGTCTAAGGATGGATATCT
Celera SNP ID:            hCV8164536
SNP Position Genomic:     23128
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13387):
GTAACAGCAATGCAGTTAGTTCAATAAAAATGTGGAGGAATGGTATTTTATTCTAGCATGGGCATCGAAGAAGGTGTCTCTAAGAATGGGCATCTCTAAG
R
CATCTCTGAGGATGGCATCTCTAAGGATAGTATCTCTAAGGATGGCATCTCTATGGATGGGCATGTCTAAGGATGGATGTCTCTAAGGATGGCATCTCTA
Celera SNP ID:            hCV8164537
SNP Position Genomic:     23099
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13388):
CTCACTGCAACCTTCTTTCCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGCCACCACGCCTGGCTAATTGT
Y
GTATTTTTAGTAGAGATGGGGGTTTCAACATATTGGCCAGGCTGGTCTTGAGCTCCTGACCTCAAGCAATCGGTCACCTCAGTCTCCCAAAGTGCTGGGA
Celera SNP ID:            hCV11708054
SNP Position Genomic:     42098
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13389):
AACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCTCCATTGCACTCCAGCCTGGGCGACAACAGTGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAA
A
GTCTGAAATGACTGAGACAGATGATCTGGCATGCATAAAAGACCACGGACTAGGACGAATTGTTTGCTTTGGGAACCCAGTGTTTCCAACTCTTGCGCTA
Celera SNP ID:            hCV8164538
SNP Position Genomic:     22436
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13390):
AGAAGGGAGAAGAGGAGATAACTGTTCCATGGGTTCTTATAAAACATGCCCAATCTCACTAATGCCCTGCAATCCCAATCATTTTAGGGTCCTATTCTCT
Y
GGGCACCAATTATGGATGAAGGGAGACTACAAATTAGGAATCTCATCCTTTCCCTAAAATTCTTAGCAAGGTTATATAGGTCAACATACTTGTTGACCTA
Celera SNP ID:            hCV27856690
SNP Position Genomic:     26963
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13391):
TTGCTTGAATCCAGGAGGTGGGGGCCGCAGTGAGCTGAGATCACACCACTGCATACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAA
A
TTATATATATTATATATATTCTTACATATGTTTTACTTACATATTTGTGTATATGTATTTTATTTAAATATGCATATATATGTAAACATAACAAAACATA
Celera SNP ID:            hCV11708127
SNP Position Genomic:     9408
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13392):
AGTAAATGTGAGATAAGAAGTGGCAATTGCAACCTGAGGTGATAATCTTTTTTTGAGACAGAGTCTTACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCA
R
TGTCTGCTCACTGCAACCTTCTTTCCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGCCACCACGCCTGGCT
Celera SNP ID:            hCV11708055
SNP Position Genomic:     41991
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13393):
CTCATGAGAAGAGTAATCTGTTATGTTTTTCCAGATATTTACCATTTCTGTTGCTCTTCCTTCATTATTTTCCAAATTTCGTTCTGCAAATTTCCACTTC
Y
TCTGATAGACGTTTTTTAGTTCTTTTAGAGTGGTTCTGATAGGTACAGATTCTCTTATTTTTTGCTTCCTCTGAGGACATCTTTTTCTCACCTTCATTCT
Celera SNP ID:            hCV29332537
SNP Position Genomic:     51563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13394):
TGGTGACTGAGCTGCTGCCAAAGGTGGGGTGGGGGGGGCATGTTGCAAAATTCATCTGAACTTTGAAAACATCAAGGAGTCTAGATGAAAGTGCAAAACC
M
CATTGAAGGCATCATGGGAAATTTTTTTAATTATTTTCCAAAATGGTAGCTCCAATTAGCAAATCTTCTATCAACTTATAAGGGTACCCAAATTTCTGCA
Celera SNP ID:            hCV29332538
SNP Position Genomic:     46046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13395):
TCAACATATTGGCCAGGCTGGTCTTGAGCTCCTGACCTCAAGCAATCGGTCACCTCAGTCTCCCAAAGTGCTGGGACTACAGGTGTGAGTCACCGCGCCC
R
CCCTAGAGGTGATGATCTTGAGCGAGGTAAACTCTCCTCAGAGTCATCTTCCATTTAAAAAGATTCCAGCCAACAATCTCACCCTTTGTAATTTTTTAAA
Celera SNP ID:            hCV29332539
SNP Position Genomic:     42223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13396):
TGTTATATTAAGAAGCTATTCACTTTTGTATATTAAGATTCTTCTGGCTGGTGCGGTGGCTGACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGG
Y
GGATCACCTGAGGTCAGAAGTTTGAGACCAGCCTATCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGCATGGTGGTGCA
Celera SNP ID:            hCV27064150
SNP Position Genomic:     16453
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13397):
TTTTCATTCAGCACGTGCTTGGGAACCATTTATTTTTCCATTTCTGTGAATTTCATGTTCATATCCTTTGTCTACCTATTTCTAGAGCAATGTTTTTTTT
T
ATTATTGATTTTCTATTTCATGTATCAGAATAGCTCTTTGCTCTGCTCTATTTGTCTATCTGTTTGTCAGTCTATCTATCGAGAAGTAAATACAGGCATG
Celera SNP ID:            hCV27064151
SNP Position Genomic:     15290
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13398):
GGTCTCGAACTCCTGACCTCAAGTGATCTACCCGGCTTGGCCTCTCAAGGTGTGGTGATTACAGGCTTGAGCCATAGCGCCTGGCCTCAATTGTATTTAT
R
AAGAGTGCCACAGTGAGTAAACATGTGAGCATGAGTTCATACATAGGTAAGTATATTTGTATAGGAGTATATCAATTCCTCAAAATTGATTTACCATTCC
Celera SNP ID:            hCV27064152
SNP Position Genomic:     14882
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13399):
GAATCTCTGGAGATACATTTATATCTCCAATACATTTGTAAAATGCCATGCTCTGTTTGAATAACTACAATGATGCAGAAATCAGTATCTTCAATAGTAG
Y
AGATCCTTGTCTTGGGTAACACAGCATGAAAAATTTCAATGAAGCTCTATGAAGGGAAGGATATTAACATACATTTGCATAGGAGCTATAAATCGCTTTA
Celera SNP ID:            hCV27496379
SNP Position Genomic:     44226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13400):
TGGTAAAAATCATGTGTATTTTAATGTTAAAATTTAAAATTTAGTGTAATTTAATTTTGCTTGTGTGACATCAAAACAAATGGAAGCATTGTGTGTGTGT
T
ATATATATATATATATATATACAATAACATAGTGTCATGAAAGTATAGTATATATATATAAAATTTTGCGTGTGAAAATTTTAGGTGGAGGTTTTTAAAC
Celera SNP ID:            hCV27064153
SNP Position Genomic:     14131
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13401):
GAGGTAAATTAGGAAATAATTTTATTATTTTTTATTAGCACAAAAGGGCAGATGGTTGGGTAGCATGATGAAATAATTCCAGTGATCATCTCTAGTCTTG
R
TTTTTTCTCAGATTTATAAAAGAAATAAAGAGTGATGAAGTTGTTTGAGCAATAAAAGCACACAAAGCAACCAAGCAGCAGGAGGATGGTATGGGTGGCT
Celera SNP ID:            hCV27064154
SNP Position Genomic:     9897
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13402):
GTCTTAATAATCTCTCTCACACTCAATTTGTTTTAATTTCTGTAATAATAATTTTTATACCAATGTTTATGTTGTTAATACTAATAATTTTACACTGTAA
Y
TGTATAACTTTAATTATTAGAAGTGTTAACCTAACTAACAAACATATGAAAGCTTCCTAAGGGAAACAATTTTTTTTTCTTTTTGAGATGGAGTCTCGCT
Celera SNP ID:            hCV27064155
SNP Position Genomic:     6453
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13403):
GATAAAGGTAGCGCCCTCATGAATGGAATTAGTTCCCTCATGAAGGAACCCTGGAGAGCTCCTTTCTCTTTCCCCATGCTTGGACAGAACAAGAAGTCTG
Y
CCTCTATGAATCAGGAGCAGACACTGATCTACCAGCACCTTGATCCTGGGCTTTCCAGCATCCAGAGCTGTGACAAATACATTTATATTGTTCACAAGCT
Celera SNP ID:            hCV8832765
SNP Position Genomic:     22000
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13404):
CTCACAGCAGCCCTGTGACGGAGAGAAGTAACATCTCTACCCTTGTCCATCATAGACGTGTTCACAGACACAGCTGAGCTACCAGTTCTCTGCTGAGGCA
M
CAAAAAGAAGTCCTTCTGTCCTGTGCTTTCATAAGTACGCAGCCAATCTTTCCACAGTGTAAAAATAAAAGCAAACTATACAAGAATTTATAAGTTCACA
Celera SNP ID:            hCV16019203
SNP Position Genomic:     39697
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(A,0|C,84)   TSC_42_C(A,0|C,84)   TSC_42_AA(A,0|C,84)   total(C,252) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13405):
GATCCACATGTTTCTCACTGGCTGACAAAACTGTGTTAAGTCAGGGTGAAGCATGGCGGAGGAACAGGGAGGAAGTGCAGAGTGAGAAAACATAAAGAAG
Y
CAGGAAGTGCCAGAAGAGTAATTTCCTGTGAGTAAAGCCTCATACTCGGTGATTTATCGATAGAGTTTGAATACAAGAGCTGTGAGGTCTGGGCAGTTGG
Celera SNP ID:            hCV27064159
SNP Position Genomic:     3364
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:13406):
CAGTAACAAGGGTGACATTAGTCCTAGGTTGGACCAGCAGTTGCTGGGCAGCATTCCTTGCAGAAATATATATTTTTTTAAGGTTGTGAAGACCTTTATG
Y
AAGGTTGTGGGTTTTGTAGAGTCTTTTTCATCTTCAGGCATGCAAGGATAAGAGCCCTCTCTTCATGGCCTTCCTGGCTCTATTTGTCAGGGTTATCTTA
Celera SNP ID:            hCV2882373
SNP Position Genomic:     7064
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13407):
CAGCTAATTGTTTTTGTGTTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACCCCTGACTTGTGATCTGCCCACTTCGGCCTCCC
R
AAGTGCTGGGATTACAGGGATGAGCCACCGCACCAGGCCTGCATTTCTTTTTTCAAAGAATTACTGTGGCATTTTTTCCAATGTCATTGTGTTCTGTGGT
Celera SNP ID:            hCV2882374
SNP Position Genomic:     7392
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13408):
CAAAGAATTACTGTGGCATTTTTTCCAATGTCATTGTGTTCTGTGGTTCTTATCTAGTCTTCACATTTATTTACATAATGAACTTTCAATGATGGATTTC
K
ACAGAATTTTTGTCACTAAGTGGTTGCCTAGAAGTATATATCCTAAGATTGAACATATTGAAATATGAGCTAACTTTTCTCATTCAATTATTGATTACTT
Celera SNP ID:            hCV2882375
SNP Position Genomic:     7546
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13409):
ACAATCCCATAGCATGGCGCCCAGATCAGAGCAGAACCAAGCAGCCTGACTCACTAAGCCCTCCCTCTGTGTGTTTCAGTGGCTCCTCATCAGCACCAGG
Y
TTATGTCTCATTTGTAGAAAATGAATGCACTGTTTTACATTGTCTTGGAACTCAAAACAAATTAATCTGACCAAATATTTCATGTATGCAATTCAGACAC
Celera SNP ID:            hCV8164548
SNP Position Genomic:     21697
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13410):
GTGGTTCTTATCTAGTCTTCACATTTATTTACATAATGAACTTTCAATGATGGATTTCTACAGAATTTTTGTCACTAAGTGGTTGCCTAGAAGTATATAT
M
CTAAGATTGAACATATTGAAATATGAGCTAACTTTTCTCATTCAATTATTGATTACTTAGTTAGTTTATTTATTATTTGGGGGATGGGATCTTGCAATGC
Celera SNP ID:            hCV2882376
SNP Position Genomic:     7588
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13411):
TCCTTGATTCTGACCATGGCAACTTCATACCTGAGCAAAAGCGAGTCTAGGGCTGTTCTTCCAGCTCTTTCCTTGATGCATGGGCCTATGGCCTTGACCA
Y
GCTCTTGACAATCCCATAGCATGGCGCCCAGATCAGAGCAGAACCAAGCAGCCTGACTCACTAAGCCCTCCCTCTGTGTGTTTCAGTGGCTCCTCATCAG
Celera SNP ID:            hCV8164549
SNP Position Genomic:     21589
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13412):
ACATATTGAAATATGAGCTAACTTTTCTCATTCAATTATTGATTACTTAGTTAGTTTATTTATTATTTGGGGGATGGGATCTTGCAATGCTGCCCAGACC
R
GACTCAAACTCCTGGGCTCAAACTCCTACCTCAGCCTCCCAAGTAGGTGGGATTACAGGCATGTACTACTTCACCTGGCTCAATTATTTATTATTTATAA
Celera SNP ID:            hCV2882377
SNP Position Genomic:     7699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13413):
AACTCCTGGGCTCAAACTCCTACCTCAGCCTCCCAAGTAGGTGGGATTACAGGCATGTACTACTTCACCTGGCTCAATTATTTATTATTTATAACTCATT
R
TACATATATTCAGATAACTTAATCTGTGCATTAAACTCTTCCACTTTGTTGATAGTCATTTCTGTGTTTGCTATGTGGCTACATATGTATGCTATGTGTT
Celera SNP ID:            hCV2882378
SNP Position Genomic:     7806
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13414):
TATTCTAGGGCACTTAAGTCAAGAATATGAATTGCTTTGGTCAATTTTTTATATCTTTACTGATACTCTGTTATTCTGTTAATTGCTGAAAGACTATTGA
W
CAGATTTCCCACAAGAGTGGAGGATTATTCTATATCTGTTTATCATTCTACCCGTGTATACTATATACATATTGAAAGTGTGAATATGTATACACAAAAT
Celera SNP ID:            hCV2882379
SNP Position Genomic:     8061
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13415):
TTTAATTTAGACTAATGGTTGTGTTGAACAACTTGGTTGCAAAAGCCCTGAAAATGGAACCGTCAGCTCTCATGATCTGGGATGCGCTGTCTGCAGTTCA
R
CGCTGGGTTCCTCCCACTTTCTAAACCCCTCCTCAGCAGGCAGACTCCAGCATGCACATGCACCAGGAAAGAGAATATAAAATGGCATGTTTACTCTTGC
Celera SNP ID:            hCV29332540
SNP Position Genomic:     28244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13416):
TAGCCGGGTATGGTGGCGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCTGTGAGTCAAG
M
TCTCGCCATTGCACTCCAGCCTGGGTGACAGAGCTAGACTCCATCTAAAAAAAAAGGAAGTTTCTAGTTTCTGTTTTACAACTCTCCTGTTTCGGCCTCT
Celera SNP ID:            hCV29332541
SNP Position Genomic:     20588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13417):
TGTCCTAAAACTGATTGTGGTGGTGGTTGTACAACTTCATTACTATATATACAACATTGAATTGTAGACTTATGTGGGTGAATTGTGTGGTTTGTGAACT
R
TATATCCATAAAGCCATTATTTTAAAAATCTAATCTTTAAAAAATGTCATAGCAGAGCCGGTGAAGGTAATGGATTAGACAACGGTTCCTAAACCCAAGT
Celera SNP ID:            hCV29332542
SNP Position Genomic:     20065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13418):
ATGACGCTGTCCTAAAACTGATTGTGGTGGTGGTTGTACAACTTCATTACTATATATACAACATTGAATTGTAGACTTATGTGGGTGAATTGTGTGGTTT
S
TGAACTATATATCCATAAAGCCATTATTTTAAAAATCTAATCTTTAAAAAATGTCATAGCAGAGCCGGTGAAGGTAATGGATTAGACAACGGTTCCTAAA
Celera SNP ID:            hCV29332543
SNP Position Genomic:     20058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13419):
AGCTATTCCGTTGGAAAACTATTGGACGCTGTGTCTCAATATCACAGAGGAACATGAGAATTAGAGGAATTTGGGTGTTTTTCATCGAACTCAGGGGAGA
R
TGAATGAGCTTATGCAATACTAGCAATGAATCCAGAAATTTTTGAAACAAACCTTAAGCAATGAGGTTTTCTTCCATGGAGGTGTCTAGAGAACCTATAC
Celera SNP ID:            hCV15879993
SNP Position Genomic:     27615
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,22|G,18)   total(A,54|G,24)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(G,396|A,1093)   total(G,396|A,1093)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13420):
GTCCACGATCAAGGCACTGGTACATTCAGTGCCTGGAGAGGACCTGCTTCCTTGTTCATAGACGGCTGACTTCTTGCTGCGCCCTCCCACGGTAGAAAGC
R
GGAGCGAGGTCTCTGGGGTCTCTTTGCTAAGGGCGTTGAGACCATTCATGAGGATTCCACCCTCATGACCTCATCACCTCCCGAAGGCCCCATCTCCTCC
Celera SNP ID:            hCV29332544
SNP Position Genomic:     19654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13421):
CAACAGAATTTATTTCTCACAGTTCTGGAGGCTGGGAAGTCCACGATCAAGGCACTGGTACATTCAGTGCCTGGAGAGGACCTGCTTCCTTGTTCATAGA
Y
GGCTGACTTCTTGCTGCGCCCTCCCACGGTAGAAAGCGGGAGCGAGGTCTCTGGGGTCTCTTTGCTAAGGGCGTTGAGACCATTCATGAGGATTCCACCC
Celera SNP ID:            hCV29332545
SNP Position Genomic:     19616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13422):
CTGTCTTAGTCACTTTGGGCTTCTTTAACAAAAGTATCATAGACTATGTGGCTTAAACAACAGAATTTATTTCTCACAGTTCTGGAGGCTGGGAAGTCCA
M
GATCAAGGCACTGGTACATTCAGTGCCTGGAGAGGACCTGCTTCCTTGTTCATAGACGGCTGACTTCTTGCTGCGCCCTCCCACGGTAGAAAGCGGGAGC
Celera SNP ID:            hCV29332546
SNP Position Genomic:     19559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13423):
GGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCAGGCGTCATGGCTCACGCATGTAGTCCCAGCT
Y
CTCAGGAGGCTGAGGCAGGAAAATCGCTTGAACCTGGGAGGTGGAGCAGCCTGGTGACTAATTACAAATTAGTGATTTGTATTTCACTAATTATCTTTTC
Celera SNP ID:            hCV29332547
SNP Position Genomic:     18768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13424):
TCAAAACAATATGCAATCCTCCCCATTTCTGTCTTCCTTTATCTTCCTGAATATATACATAGTTTAATATGGCATATCTATTCCCAATTGCAATGCTCTA
K
TCCCAAATAAACACTGTTTCCTTTAGGAAGCTTTCATATGTTTGTTATTTAGGTTAACACTTGTAATAATTAAAGGATTACAGTTACAATGTAAAATTAT
Celera SNP ID:            hCV29332548
SNP Position Genomic:     11732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13425):
AACCGACCTAAGGGGATTCTCCCATTTGGCCCGTCCTCCCCTAAAGTCACCACCTGCTGCTTTTCTGGAGCGCTTACCAGGTGAGTTTCAGGAGCCCTAG
Y
GTACAGGAAGGAGAAACGGAGGCTTGTAGGTAGGACACCGCCAGGCTGCTCTGTGTTCTGTTCCTCTTGGTCAGCAAGGAAGGAGTACGACAAAGTGAGA
Celera SNP ID:            hCV29332549
SNP Position Genomic:     6131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13426):
CTGAGCAATGCAAAACCAACTCCTAATAAGCACCATATTAAGACTAACAGTAAAGCTGCTGAATGAAATTCACAATTTCTTTTGTGGTAGTTTTTGTTCT
T
TGTTTGCATCTCACTATTGTTATATAGTCACGTCATTTTGAAGTTCTTCACAACTTAAGAAGAAAGTGTAACAATTGAATTAATTATTCAAAGTTCACTT
Celera SNP ID:            hCV27064161
SNP Position Genomic:     677
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,11)   total(T,11|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:13427):
ACTGAGCAATGCAAAACCAACTCCTAATAAGCACCATATTAAGACTAACAGTAAAGCTGCTGAATGAAATTCACAATTTCTTTTGTGGTAGTTTTTGTTC
T
TTGTTTGCATCTCACTATTGTTATATAGTCACGTCATTTTGAAGTTCTTCACAACTTAAGAAGAAAGTGTAACAATTGAATTAATTATTCAAAGTTCACT
Celera SNP ID:            hCV27064162
SNP Position Genomic:     676
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,11)   total(T,11|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:13428):
TACTGAGCAATGCAAAACCAACTCCTAATAAGCACCATATTAAGACTAACAGTAAAGCTGCTGAATGAAATTCACAATTTCTTTTGTGGTAGTTTTTGTT
C
TTTGTTTGCATCTCACTATTGTTATATAGTCACGTCATTTTGAAGTTCTTCACAACTTAAGAAGAAAGTGTAACAATTGAATTAATTATTCAAAGTTCAC
Celera SNP ID:            hCV27064163
SNP Position Genomic:     675
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,11)   total(C,11|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:13429):
CTGCGGCCCGGGTGTTGGGGATCTCTGCTCTATATGATCCTGCGACACCATATTATCCCAATTTCCCTGTGACTTTTCTTTTCTTTCCTTTTTTTTTTTT
T
GTGATGGAGTCTAGCCCTCTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCCCACTGCAACCTCTGCTTCCTGGGTTCAAGTGATTCTCCTGCCTCA
Celera SNP ID:            hCV11708070
SNP Position Genomic:     34105
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|-,11)   total(-,11|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13430):
GTTTACATGTGGTTTTAATAATTTATGTTAACTGCGCTACAGTATTAATGCAATGATGATATTATAATCAATGTATCCATTCTTTGATGATGGACATTCA
R
TTTGTTACCCTGTTTTCTGATAGCAAACCATAATACAATGGACTTTTTATATGCATTTTCTTGTCCACACATAATTTCAAGGGTAGGTGTGTCTTGAAGT
Celera SNP ID:            hCV2882384
SNP Position Genomic:     13123
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,12)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13431):
TATATGCATTTTCTTGTCCACACATAATTTCAAGGGTAGGTGTGTCTTGAAGTCTAGATACAGCCAGTTTATTCTCCAAAGCGGCTGTGTTTTCAGTCAT
S
TCCACTACTGGTTTACGAGTTTCCATTGCTACACATTCATATTCACACTTGATTTTGTCAGCTTTTCTTATTTCCATCAGTATTGTGGGTGAGAATGATA
Celera SNP ID:            hCV2882385
SNP Position Genomic:     13271
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,11)   total(G,2|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13432):
AGCCTGCACATGCTCAGATGGAGCTCTGGGCCCGCGGGTTCTACTGCGCAGGCCCTCACACTCAGCAAAGGGACTTGGACGCGAAAGCGCTGGTGGCGCT
Y
AGCCGGCTGGGAGTTGTAGCTTTCTGGCTGCTACAGCAGGAGATACAGGTGGCCAATGGGTGAGCTGGCTGGAGGTAGGAACAAGGTTAAGGAAGCTGGG
Celera SNP ID:            hCV25951658
SNP Position Genomic:     58001
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,29|T,1)   total(C,61|T,1)
SNP Type:                 TFBS


Context             (SEQ ID NO:13433):
TTCCCTAAAATTCTTAGCAAGGTTATATAGGTCAACATACTTGTTGACCTATTATGAAACCAATGTTTGTGGCAAATGCTAGATGTTGAGAACTGACTGA
Y
GTCTGCTTCCTAGGATGGAAAGAGCAGCATATAGTGGGAAACAGAGAGCCAGTTAAATTTAACATAATGAGATGTAAGAAAGAGTCATGGGAGTCTGAGA
Celera SNP ID:            hCV27844912
SNP Position Genomic:     27113
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13434):
TAGGTTTACCATTTCTGGTTGCAGGGAACTAGTGGGTGCACCTCTGAATCACCCACAAGTTGATCTTATCCATAGATCAAGTCTTAACACCATCTTGGAA
M
AAAGCCCTACAATTTTGTTTGTGCGATTACAGTGTGTCCAGCATAGTGTGGCCTCAGACTCTGTGCTGTTTATTTAAGATGCTGAAAAAAAATGCGTGAC
Celera SNP ID:            hCV29332554
SNP Position Genomic:     281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:13435):
TGTGTAGACCAGGAGTCCCCAACCCCCGGGCTAGGGACTGGTACCGGTCTGTGGCCCGTTAGAAACCGGGTTGCACAGAGGAGGTGAGTGGACGGTGAGC
R
GGCGAAGCTTCATCTGTGTTTACAGCTGCTCCCCATTGCTTGCATTACCGCCTGCGCTCTGCCTCCTGTCGGATCAGTGGTGGCATTACATTCTCGTAGG
Celera SNP ID:            hCV27926562
SNP Position Genomic:     44737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13436):
TTTGTATTTTTCGTAGAGACGGGGTTTCACCTTGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTACCCGGCTTGGCCTCTCAAGGTGTGG
W
GATTACAGGCTTGAGCCATAGCGCCTGGCCTCAATTGTATTTATGAAGAGTGCCACAGTGAGTAAACATGTGAGCATGAGTTCATACATAGGTAAGTATA
Celera SNP ID:            hCV27926563
SNP Position Genomic:     14837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13437):
GACACCATCTGGTTGAGTCAGTTTTTTTTATGGTGTATTTTGAACCCATTCTGATAGTCTCTTTTAACTGGAAGATTTCAATTACTTACGTTAATGTAAT
K
ATTAATATGTTAGGATTTATCCTCAGTCAGCCAGTTTGTTATGTCTTTTCTATTCTACTGTTATCACATTTGTACCACTTAAAGTGGAATCTAGGCACTT
Celera SNP ID:            hCV2078231
SNP Position Genomic:     51228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(G,-|T,-)   (T,-|G,-)   Caucasian(G,28|T,48)   African-American(G,29|T,41)   Asians(G,20|T,46)   total(G,77|T,135) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:13438):
CCCAAGGCAGCAATCTGCAATGTCCTCTGGATCTGTGTAAAGTCTTGTGTGGCAAATGACAGAAAGTCCAACTTAAATGGAGTGAAATTATCAAGAGTGT
S
ATGGCTCAGGCGAGTTCAAGGAAGAGATGTGGGACTGACTCCAGGGAGGCTGATTCATGGGCTCAAACAACATCACAAGGGAGGAATGTTTCTCCATGTC
Celera SNP ID:            hCV2078232
SNP Position Genomic:     48772
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13439):
TGAGGAAGATACATTATTTGAGACACCTCAATGCATTTGATACTGCAAAGGGTATATTTGCTCTGTGAATGTGTGTGATTTTGTATGTCCACAAATTAAG
Y
TACAGACACAAGGAGCAATCTCCCACCCCTGAATTTTGACTCTAAGCTTGGTATAGATCCTGAATCCTGTAAGTGAACGATTCTCAAAGTCTGAAACTCC
Celera SNP ID:            hCV2951299
SNP Position Genomic:     49832
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,14)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13440):
AACATAGGCTGGAAGGTCACATGACAAGGAAGTAGTGGAGCTGGGATTTGAACCCAGGCAGTCTGGCTTCATACTTGATAAGCTTAATCACAATGCCAAA
S
TGGTAAATAGCTGTGTGGCATAATTTCAGGTAGTGATAAGTGCTGTGAAGGATAAAGCAAAGAAAGGGGCAGGGATGGCTCTTTAGAGAGACTACTTAGG
Celera SNP ID:            hCV3218820
SNP Position Genomic:     58563
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:13441):
CTGTCACTGTCTCCCATCACCCCGAGATGGGACCACCTAGTTGCAGGAAAACAAGCTCAGGGCTCCCACTGATTCTACATTATGGTGAGTTGTTTGTATA
R
TTATTTCATTATACATTACAATGTAATAATAGAACTTAGGTGCACAATAAATGTATTGCACTTGAATCATCCTGAGACCATCCCCTCCCTCTCCAGTCCG
Celera SNP ID:            hCV2078236
SNP Position Genomic:     45016
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13442):
CCATTTCATCTGCCTCTCTTTGCTGTTTTTAAAAAATGTGGCTGCTATGAAATTAAAAATTGCATTTGGTCACGCCTGTAATCCCAGCACTTTGGGAGGC
Y
GAGGTGGGCGGATCTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGCTGG
Celera SNP ID:            hCV2078237
SNP Position Genomic:     37697
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13443):
AAGTTATTGTGCACTTTATTTCGATTATTATTACATTGTAATATATGATGAAATAATTACACAACTCACCATAATGTAAAATCAGTGGGAGCCCTGAGCT
K
CTTTTTCTGCAGCTAGATGGTTCCATCTGGGGGTAATGGGAGACACTTACAGATCATCAGGCATTAGATTCTCATAAAGGGCGTGCAACCTAGATCCCTT
Celera SNP ID:            hCV2078239
SNP Position Genomic:     33715
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13444):
GCCCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAACAGAGAGGAGAAGGTTAGGGGTGAGTCAGAGGAAGTACGAGAGCAATCGCTAAGAGAT
R
AGGTCGAACTTTAGGAACCAGGAAAGCCTCCACACTTGTCACCCCACACATCAGGGCTGTCCAACAGAACTTTCTGCAGTGATGGTGTTACCCTATGGAA
Celera SNP ID:            hCV3218825
SNP Position Genomic:     54979
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:13445):
CAGCGCAATGAATGCTCAAGTTGGGGTTGGGCGTTAGAATTCATAAAAGTCTTTATATGCTCAGATTCTGCAGCTCCATCCTCTTCATGATTGTGATCGT
R
AGGACAGTGGAATTTTGCAGTTGTCTATACCTTATCTTGAAGTAGAACTAAATTGTTACATTTGAAGAATGTACTTCATAAATTTACAAAAATAAAAAAA
Celera SNP ID:            hCV3218826
SNP Position Genomic:     53700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;ASG_42_A(G,34|A,49)   ASG_42_G(G,34|A,49)   total(G,68|A,98)
SNP Type:                 UTR 3


Context             (SEQ ID NO:13446):
TATTCAGTGTTTGGTGTCCACTGAGTTGTCATTTGCCAGACAAGTGGAGATTTTTGCAGCTCATCCTTGTATTCTCAGTAGTTCCGATATGTACCCTCGA
M
ATGTGAATGTTATCTTATGAGACTCTGTTTTATTTGTATCCAACAGAAGATGTTTATTATTTATTTGGCTTTCTGTGAACTGAGGTCTTAATATCAGCTC
Celera SNP ID:            hCV3218827
SNP Position Genomic:     53387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13447):
TCGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCTCATTTGAGTATTTTTATAATGTCTCTTTTAAAGTCTTTGTCAGATAATT
Y
CACTGTACATGTTATTCAGTGTTTGGTGTCCACTGAGTTGTCATTTGCCAGACAAGTGGAGATTTTTGCAGCTCATCCTTGTATTCTCAGTAGTTCCGAT
Celera SNP ID:            hCV3218828
SNP Position Genomic:     53274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13448):
TATATATATATATATACAATAACATAGTGTCATGAAAGTATAGTATATATATATAAAATTTTGCGTGTGAAAATTTTAGGTGGAGGTTTTTAAACCATTT
R
TTTACTTTATAAAGGGTAATAAATTCACATAGTCTGCTCCCCAAACACAGTTGAATATGTACTGTGGTGTTACTGTATATATATATATCCAGAGTTTCTT
Celera SNP ID:            hCV11464237
SNP Position Genomic:     14237
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13449):
TTCCAGGGTATACAGGGAGCTACCCTGTGTTTCTGAGACCCTTTGTGACATCTCACATTTTTTCCAAGAAGATGATGAGACAGAGGCAGAGCCATTATTG
W
TCCGTGCTGTTCCTGAGTGTCAACTATCTGGGGGGGACATTCCCAGGTAAGAAAAGCTATTCCGTTGGAAAACTATTGGACGCTGTGTCTCAATATCACA
Celera SNP ID:            hCV11708080
SNP Position Genomic:     27460
SNP Source:               Applera
Population(Allele,Count): african american(A,10|T,28)   caucasian(A,12|T,28)   total(A,22|T,56)
SNP Type:                 NONSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|T,11)      total(A,6|T,11) ;no_pop(T,-|A,-)   
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:13450):
TAAAAATCATGTGTATTTTAATGTTAAAATTTAAAATTTAGTGTAATTTAATTTTGCTTGTGTGACATCAAAACAAATGGAAGCATTGTGTGTGTGTTAT
R
TATATATATATATATATACAATAACATAGTGTCATGAAAGTATAGTATATATATATAAAATTTTGCGTGTGAAAATTTTAGGTGGAGGTTTTTAAACCAT
Celera SNP ID:            hCV11464239
SNP Position Genomic:     14134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13451):
TCATCACATTTGGAGTTAGGATTTCAACACATGAACTTGAGGGTGGACACATACATTCGGTCCATAACAACTCCTATTAAATCAAATGTCCAGAATGAGT
M
AACCTATGGAGACAGAAGGTGGATGCGTGGGTGCCTGTGGCTGGGTGTGCGTGCCTGTGGGGAATGGGGAGTGCCGCTTAATGAGTTTCTTTTTGAGGTG
Celera SNP ID:            hCV11708085
SNP Position Genomic:     19857
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13452):
TCCACCCTCATGACCTCATCACCTCCCGAAGGCCCCATCTCCTCCTATCATCACATTTGGAGTTAGGATTTCAACACATGAACTTGAGGGTGGACACATA
Y
ATTCGGTCCATAACAACTCCTATTAAATCAAATGTCCAGAATGAGTAAACCTATGGAGACAGAAGGTGGATGCGTGGGTGCCTGTGGCTGGGTGTGCGTG
Celera SNP ID:            hCV11708086
SNP Position Genomic:     19810
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13453):
TGTTAGCTCCATTCTCAGGGCGTTTGAATGTGAATTAGGACCAGCGCAATGAATGCTCAAGTTGGGGTTGGGCGTTAGAATTCATAAAAGTCTTTATATG
R
TCAGATTCTGCAGCTCCATCCTCTTCATGATTGTGATCGTAAGGACAGTGGAATTTTGCAGTTGTCTATACCTTATCTTGAAGTAGAACTAAATTGTTAC
Celera SNP ID:            hCV1028673
SNP Position Genomic:     53659
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(A,0|G,84)   TSC_42_C(A,0|G,84)   TSC_42_AA(A,0|G,84)   total(G,252) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:13454):
GTCTAGGATTTCAATGAAAAACACCAACTAGGAAGAAACAGGCTTCAAGAAATGGATGAGAGGAGTAGGACTGAGGAAGATACATTATTTGAGACACCTC
R
ATGCATTTGATACTGCAAAGGGTATATTTGCTCTGTGAATGTGTGTGATTTTGTATGTCCACAAATTAAGCTACAGACACAAGGAGCAATCTCCCACCCC
Celera SNP ID:            hCV1028674
SNP Position Genomic:     49761
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,11)      total(G,5|A,11) ;(A,-|G,-)   (G,-|A,-)   (G,-|A,-)   Caucasian(G,32|A,52)   African-American(G,19|A,63)   Asians(G,28|A,44)   total(G,79|A,159)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13455):
GTAAGCAAATGCCACCACACTCTCCATTTCTCTGTAAACATCAGAATATTTTTACATTGTTTACTTTTTTATTTAAAAAAGATTTTTTCCAGGTGTCACA
R
TCATGCTTTTTTTTTTTTGATAGCAAATTCTAGATGAAATGGGGGAGATTGTGGATGGCTGGGTCTTGGATGAGTATGCTGGTTCAAGGCAGCTCATGTT
Celera SNP ID:            hCV1028675
SNP Position Genomic:     45761
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;(G,-|A,-)   (G,-|A,-)   Caucasian(A,36|G,44)   African-American(G,35|A,45)   Asians(G,31|A,43)   total(G,110|A,124)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13456):
AATTACTGTGGCATTTTTTCCAATGTCATTGTGTTCTGTGGTTCTTATCTAGTCTTCACATTTATTTACATAATGAACTTTCAATGATGGATTTCTACAG
R
ATTTTTGTCACTAAGTGGTTGCCTAGAAGTATATATCCTAAGATTGAACATATTGAAATATGAGCTAACTTTTCTCATTCAATTATTGATTACTTAGTTA
Celera SNP ID:            hCV8831626
SNP Position Genomic:     7551
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13457):
ACATGCTCAGATGGAGCTCTGGGCCCGCGGGTTCTACTGCGCAGGCCCTCACACTCAGCAAAGGGACTTGGACGCGAAAGCGCTGGTGGCGCTCAGCCGG
Y
TGGGAGTTGTAGCTTTCTGGCTGCTACAGCAGGAGATACAGGTGGCCAATGGGTGAGCTGGCTGGAGGTAGGAACAAGGTTAAGGAAGCTGGGATCTTCG
Celera SNP ID:            hCV1526318
SNP Position Genomic:     58008
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,11)   caucasian(C,23|T,9)   total(C,46|T,20)   
SNP Type:                 TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,13)   caucasian(C,16|T,22)   total(C,37|T,35)
SNP Type:                 TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:13458):
GGTATAGATCCTGAATCCTGTAAGTGAACGATTCTCAAAGTCTGAAACTCCCCCTTTCATCCAGGTGCAGCCTTTGTGAAGGAGAACCACCGGCAACTCC
R
AGCCAGGATGGGGGACCTGAAAGGGGTGCTCGATGATCTCCAAGACAATGAGGTTCTTACTGAGAATGAGAAGGAGCTGGTGGAGCAGGAAAAGACACGG
Celera SNP ID:            hCV25952322
SNP Position Genomic:     49982
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,38)   total(A,69|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:13459):
ACCCAAGAAGCCTCCTTGTTCTTTTTCTTTTCTTTTCTTTTTTTCTTTTTTGAGACAGAGTCTTGTTCTGTTGCCCAGGCTAGAATGCAGTGGCAATTGC
R
GCTCACTGAAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACGGATGTGTGCCACCACGTCCTGGTAATTT
Celera SNP ID:            hCV2078240
SNP Position Genomic:     32822
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|G,8)   total(G,8|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13460):
CTTCACCTATTTCTTTCCTCTGAAACCCAAGAAGCCTCCTTGTTCTTTTTCTTTTCTTTTCTTTTTTTCTTTTTTGAGACAGAGTCTTGTTCTGTTGCCC
R
GGCTAGAATGCAGTGGCAATTGCGGCTCACTGAAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACGGATG
Celera SNP ID:            hCV2078241
SNP Position Genomic:     32798
SNP Source:               Celera
Population(Allele,Count): no_pop(G,7|A,8)   total(G,7|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13461):
CTTTCATCATTCCCAAATCTCATATGCTTACTTGCTTCATACCTTATTGATATACTAGAAACAAAATGGGATGGAAAAACCTCATTGTTTCACTGTCAGC
Y
CTGTGAGCCTGTTTCTGGCCCGTCTTCACCTATTTCTTTCCTCTGAAACCCAAGAAGCCTCCTTGTTCTTTTTCTTTTCTTTTCTTTTTTTCTTTTTTGA
Celera SNP ID:            hCV2078242
SNP Position Genomic:     32674
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,16)   total(C,1|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13462):
CATTCTGAGCCCACCCTTTTCCTATCCTTCACTTAGTGCCTCTTCTTTCATCATTCCCAAATCTCATATGCTTACTTGCTTCATACCTTATTGATATACT
R
GAAACAAAATGGGATGGAAAAACCTCATTGTTTCACTGTCAGCTCTGTGAGCCTGTTTCTGGCCCGTCTTCACCTATTTCTTTCCTCTGAAACCCAAGAA
Celera SNP ID:            hCV2078244
SNP Position Genomic:     32630
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13463):
CTGATGCCACTGCTGATCTGACAGGAGGAGCTCAGGCGGTAATGTGAGTGATGGGGAGTGGCTGTAAATACAGATGAAGGTTTGCTCCCTCACTGCTCCT
Y
TCCTGCTGTGCAGCCCGATTCCTAACAGCTCACACACTGGTACTGGTCTGCGGCCCGGGTGTTGGGGATCTCTGCTCTATATGATCCTGCGACACCATAT
Celera SNP ID:            hCV8164428
SNP Position Genomic:     33957
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1|-,14)   total(C,1|-,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13464):
GGTACTTAAATACAGGAGAAAACATTTTAATCTGAATGATAAAGATGACTATTCCTAGAGTGGGCCAGAAATACATACATTCCAGTGAATTCTTGCATAA
Y
TTCTGTTTTCATTCTGAGCCCACCCTTTTCCTATCCTTCACTTAGTGCCTCTTCTTTCATCATTCCCAAATCTCATATGCTTACTTGCTTCATACCTTAT
Celera SNP ID:            hCV2078245
SNP Position Genomic:     32520
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,10)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13465):
CTGCAGCCTCTGTCTCCCGGGCTCAAGCGATTCTCTTGCCTCAGCCTCCTGAGTAGCTAGGACTACAGGTGCATGCCAACACGCCCGGCTAATTTTTTTT
W
AAAAATATTTTTAGTAGAGACAGGGTTTCACCATTTTGGCCAGGATGGTCTTGATCTCCTGACCTCATGATCCACCCGCCTCGGCCTTCCAAAGTGCTGG
Celera SNP ID:            hCV3218831
SNP Position Genomic:     53093
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:13466):
TAGCTGCTGTGCACCTGGATAAAGTCCCACTTCTGTCCTTCCAGCCTAGGTGGGGCGATTATGCCAGAAAGATTACATTAAATTGTATCGTCCCCCCGTC
K
AATGCTCCAACATCCCAAGAATGAGAGGCAGGTGCCTGCCTGTCAGGACTTAGGGTGGTGAGTAACTGTGGGTACTTAAATACAGGAGAAAACATTTTAA
Celera SNP ID:            hCV2078246
SNP Position Genomic:     32349
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,6)   total(G,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13467):
ATTCTACTTATTTAGAACATCTTTTCATTTTTTCCATTATTCTGATTGGGTAATTTTAATTTGTCTATTTTCAAATTTGCTGGAGTGTTCACCTGTTGTT
R
TCTGTGTCGTCCCACTGAGTGCATTCACCACCTTTTAAATTTTGGTCACTGTATGTATCAGTTCTAAAATTTCCATTTTGTTCTCTATATTTTAAATTTC
Celera SNP ID:            hCV3218832
SNP Position Genomic:     52460
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:13468):
CTCTGGAGTAACCCTCCTCCTGTTCAGTAGCATCTCCCTCTAATGCACTTATTAAAGGCTCATATTCCCACACTCTCTTCTGAGTTAGTGATGAAGCAGA
Y
GTGCTGGTTGCTGTAGCTGCTGTGCACCTGGATAAAGTCCCACTTCTGTCCTTCCAGCCTAGGTGGGGCGATTATGCCAGAAAGATTACATTAAATTGTA
Celera SNP ID:            hCV2078247
SNP Position Genomic:     32235
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13469):
GGTAAAAATCATGTGTATTTTAATGTTAAAATTTAAAATTTAGTGTAATTTAATTTTGCTTGTGTGACATCAAAACAAATGGAAGCATTGTGTGTGTGTT
R
TATATATATATATATATATACAATAACATAGTGTCATGAAAGTATAGTATATATATATAAAATTTTGCGTGTGAAAATTTTAGGTGGAGGTTTTTAAACC
Celera SNP ID:            hCV11464241
SNP Position Genomic:     14132
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13470):
TCTGAGGACATCTTTTTCTCACCTTCATTCTCAGTGATGTTTTTTGCTTGTAGTATTTTTAGTTGACATTGTTTTCTGTTCAGCAGTTTCCTTTTAGCTT
M
CGTATTTCCTGATGAGAAATCTGCAGTCATTCAAATTGTTGTTTCCCTGTATGTAGTGTGTCATTTTTCTGTCAGATTTCAAGGTATTTATCTTTAGTTT
Celera SNP ID:            hCV3218833
SNP Position Genomic:     51733
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:13471):
GTGGGCGGCCCCTTGTTTGATGTCACTGCAGAGCCAGAGGAGGCTGTCGCCGAAATCCACCTCCCCCACTTCATCTCCCTCCAAGGTAATGTGGGGTGAG
Y
GGAGGCTGTGGGGGCCGCTGGGGTGCGTGCCGTCTCACTGCTGTTGTGGTTCTCCTGCAGCAGGTGAGGTGGACGTCTCCTGGTTTCTCGTTGCCCATTT
Celera SNP ID:            hCV2078248
SNP Position Genomic:     31148
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,10)   caucasian(C,28|T,12)   total(C,54|T,22)   
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,10)   caucasian(C,28|T,12)   total(C,54|T,22)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;JBIC-allele(T,543|C,930)   total(C,930|T,543)no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13472):
TTTCCAATGTCACATAAAATACTATACAAGAATTTTAGTATTTGAACTTTAAAGAATGTAATTTTGCATTTTTTTCTTGTGAAGATGAATACAGATTTTC
R
TGGGAGTAAAAAAGACAATTTAAGGTGAAGAGTATTTGGTTTTCATGAAATAATTTGATTTCTAAAATAAAAGTAAACCGTCAAAACTTTTTAAATGCAA
Celera SNP ID:            hCV11464242
SNP Position Genomic:     13821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13473):
GGCCCCATTTCCCTTTCCGACAGCCTCATAGGAACTTCTCCCTTTCTTCTCAAGTGACCAAGAGGAACAGAACACAGAGCAGCCTGGCAGTGTCCAAGCA
R
CAAGCCTCCGCTCCTCCTTCCTGCACCCTGGGGCTCCTGAAACTCACATGGTAAGCGCTGCAGAAACGCAGCAGGTGGTGACTTTAGGGGAGGACAGGCC
Celera SNP ID:            hCV11464243
SNP Position Genomic:     12109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:13474):
AATAGTTTCCTCTTATGCTTCTAAAGTCTGTTTTGAGATCGAAGAAGATTATAAAAATCGTCAGTTTCTGGGGCCTGAAGGAAATGTGGATGTTGAGTTG
R
TTGATAAGAGCACAAACAGATACAGGTAAGAATGGAAGATGCTGATGATTTGAAAACCACTCTGATATAAAGGAAGTGTGTAGGCCAGGCGTGGTGGCTC
Celera SNP ID:            hCV2078249
SNP Position Genomic:     30224
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:13475):
GAAACTCCCCCTTTCATCCAGGTGCAGCCTTTGTGAAGGAGAACCACCGGCAACTCCAAGCCAGGATGGGGGACCTGAAAGGGGTGCTCGATGATCTCCA
R
GACAATGAGGTTCTTACTGAGAATGAGAAGGAGCTGGTGGAGCAGGAAAAGACACGGCAGAGCAAGAATGAGGCCTTGCTGAGCATGGTGGAGAAGAAAG
Celera SNP ID:            hCV3218834
SNP Position Genomic:     50025
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,11)   caucasian(A,16|G,22)   total(A,41|G,33)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;JBIC-allele(G,434|A,1031)   total(G,434|A,1031)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:13476):
ATTTTGTATGTCCACAAATTAAGCTACAGACACAAGGAGCAATCTCCCACCCCTGAATTTTGACTCTAAGCTTGGTATAGATCCTGAATCCTGTAAGTGA
R
CGATTCTCAAAGTCTGAAACTCCCCCTTTCATCCAGGTGCAGCCTTTGTGAAGGAGAACCACCGGCAACTCCAAGCCAGGATGGGGGACCTGAAAGGGGT
Celera SNP ID:            hCV3218835
SNP Position Genomic:     49909
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,24)   caucasian(A,4|G,34)   total(A,12|G,58)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,7)      total(G,7|A,7) ;(G,-|A,-)   (A,-|G,-)   (G,-|A,-)   Caucasian(A,6|G,76)   African-American(A,24|G,56)   Asians(A,17|G,55)   total(G,187|A,47)   JBIG-allele(A,413|G,1062)   total(G,1062|A,413)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13477):
TTGTTGGCTTCATTGTCAGGCTCCACACAGTGTAAGTTTCCGAACTCATGTCTCAAAACAGACCACTGGGAGAAAAAAGAGAGCACCTTCTGAGATGGCA
R
TCATGCCATTTCCTAGCTGTTGTTGCCTGGAAGGCCATTGAGGCAGATTAAATAAAAAGAAATCATGCCTCACATCTGGAGGTGCAATGAGGATCAGCTA
Celera SNP ID:            hCV3218836
SNP Position Genomic:     48991
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;JBIC-allele(A,424|G,1073)   total(G,1073|A,424)
SNP Type:                 INTRON


Context             (SEQ ID NO:13478):
GGGTTACTGTGGCAACGCCAACCTTTGAATCCCCCTCCTGCGCGCTGAGCGGCTCGTAACCATGGAGACCGAAGCAGGTTTCCCGCGTCCGCCTCCTCAC
M
CAGAGACTGCAGCCCCGGCGCCCAGACCCTTTGGACAAGGAGATCCAAGCGGGCCCCACAATGCTCAGCGGGTAAAGAGCTCCTCCCCACTCCTCTCCCG
Celera SNP ID:            hCV1526320
SNP Position Genomic:     57775
SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,20)   caucasian(A,22|C,16)   total(A,34|C,36)
SNP Type:                 TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:13479):
ACGTGCTTGGGAACCATTTATTTTTCCATTTCTGTGAATTTCATGTTCATATCCTTTGTCTACCTATTTCTAGAGCAATGTTTTTTTTTATTATTGATTT
Y
CTATTTCATGTATCAGAATAGCTCTTTGCTCTGCTCTATTTGTCTATCTGTTTGTCAGTCTATCTATCGAGAAGTAAATACAGGCATGTGTAGGCACAGT
Celera SNP ID:            hCV8831564
SNP Position Genomic:     15302
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13480):
CTGTTACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCTGGTTCAAGCGATTATTGTGCCTCAGCCTCCTGAGTAGCTGG
R
ATTACAGGCATGCACCACCACAGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGAGTTTTGCTATGTTGGCCAGGCTGGTTTTGAACTCCTGGCCTC
Celera SNP ID:            hCV1526327
SNP Position Genomic:     52742
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,9)   total(G,9|A,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:13481):
ACCAGCCTGGCCAACATGACGAAACCCTGTCTCTACTAAAAATACAAAAATTAGTCAGGCGTGGTGGCACCCGCGTGTAGTCCCAGCTAATCAGGAGGCT
R
AGAAAGGAGAATCTCTTGAACCCAGGGGGCAGAGGTTGCAGTGAGATGAGATCTCGCCACTGCACTGCAGCCTAGGAGACAGAGCGAGACTTTGTCTCAA
Celera SNP ID:            hCV25636562
SNP Position Genomic:     30488
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,36)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:13482):
TGATAAGAGCACAAACAGATACAGGTAAGAATGGAAGATGCTGATGATTTGAAAACCACTCTGATATAAAGGAAGTGTGTAGGCCAGGCGTGGTGGCTCA
S
GCCTGTAATCTCGGCACTTTGGGAGGTGGAGGAGGGCGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGACGAAACCCTGTCTCTACTAA
Celera SNP ID:            hCV25636563
SNP Position Genomic:     30326
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,36)   total(C,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:13483):
TACCCGAATCCATAGCAAAATGTGTAGCCGCAGACAGCAACCAGTCTTAGGATGTCAGCCCAGGGGTCTCTCCATGCTTGGCTTGCCCACAGAATCCTTC
Y
GAGAAAAGCGCTGTAAAGCCTTTCTCTTCATCCCACTTCTCTAGGTACCTGTTCTTTTTAAACCTAATCCACGTGTCAGTTTCTCTGCTGGTCTCTTTCA
Celera SNP ID:            hCV2078250
SNP Position Genomic:     28460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13484):
GGGCATAGACTGCTGAAAAGTGTAGAAAAATGACTGGAAATTGGTATGTTTTAATATGTATTACTTTTGTTTTTAATATGATTTATTTAAATGTTAGCTT
R
TATCATTTAATTTAGACTAATGGTTGTGTTGAACAACTTGGTTGCAAAAGCCCTGAAAATGGAACCGTCAGCTCTCATGATCTGGGATGCGCTGTCTGCA
Celera SNP ID:            hCV2078251
SNP Position Genomic:     28138
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13485):
GAATGAGCTTATGCAATACTAGCAATGAATCCAGAAATTTTTGAAACAAACCTTAAGCAATGAGGTTTTCTTCCATGGAGGTGTCTAGAGAACCTATACA
S
AAAAAGGCAATGAGCAATGCAATCGAAGACCAGTGGGTTATTGGTTAAGCTGTTACTCAATACATAAAACCAACCTAATTCTCTAGGAAACTGGCTGATG
Celera SNP ID:            hCV2078252
SNP Position Genomic:     27717
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,5)   caucasian(C,27|G,1)   total(C,54|G,6)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,11)   total(G,3|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13486):
GATTTGGCCAAGTTTATACAGACATTATATGGGGCACAACGTAAACCCTGAGTCTACATGATGGAAAAAAGTCTGTATCTTTTCCCCTGTTCTTCCTTTT
S
TATGCATTGTATGTCTCCAGTTAAATCTCTTCTTTCATAGCTCTGCCAGCTAAGCTTTGGGGATCCAGCTGAATCCTTCTCCATACCTCTAGCATCATGC
Celera SNP ID:            hCV27500923
SNP Position Genomic:     49470
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,15|C,912)   total(G,15|C,912) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13487):
AAGATAAAATATTGAGTCTATGGCTATTAACATAAAATCTTCCTGCACAGCCTATGCTATCATCAGGCACCTACCTTATATTCATAGTAAAAATTCTGTT
S
TTGTTTTCCAGGGTATACAGGGAGCTACCCTGTGTTTCTGAGACCCTTTGTGACATCTCACATTTTTTCCAAGAAGATGATGAGACAGAGGCAGAGCCAT
Celera SNP ID:            hCV2078254
SNP Position Genomic:     27354
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13488):
GAGATGGGAAGCTCATATTTATTCTGTCTTGGTGACATGGTGACTGAGCTGCTGCCAAAGGTGGGGTGGGGGGGGCATGTTGCAAAATTCATCTGAACTT
Y
GAAAACATCAAGGAGTCTAGATGAAAGTGCAAAACCACATTGAAGGCATCATGGGAAATTTTTTTAATTATTTTCCAAAATGGTAGCTCCAATTAGCAAA
Celera SNP ID:            hCV3218840
SNP Position Genomic:     46009
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13489):
CAGACGTCCTATGCCTATGTCCATTACCCAGAAAAATTCTTTTAGTTTCACGTGGCTGGGGAGGCCTCACCATCATGGCAGAAGTCAAAGGAGGAGCAAA
S
GCATGTCTTACATGGTGGCAGGCAAGAGCCACGTGTGGCTTTTGAGCACTTGAAATATGGCTACTTCAAAGGAGGAACTGATTTTCACATTTAACAATTT
Celera SNP ID:            hCV2078255
SNP Position Genomic:     26467
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)      total(G,6|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13490):
CCCAGACAATTTGCCAAAGATCTCCTGATAGTTCCTTGAATCTCTGGAGATACATTTATATCTCCAATACATTTGTAAAATGCCATGCTCTGTTTGAATA
M
CTACAATGATGCAGAAATCAGTATCTTCAATAGTAGCAGATCCTTGTCTTGGGTAACACAGCATGAAAAATTTCAATGAAGCTCTATGAAGGGAAGGATA
Celera SNP ID:            hCV27492271
SNP Position Genomic:     44189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13491):
TAGCCCAAGGCAGGACCCTCTGGTCAACTGGACTACAGCAGAGGTTCTAAAGTCAATGCTGTCCAATAGAGTTCTCACCCAGGATGGAAATGTTCCCTGT
C
TGTGGTGTCCAGTGTGAAAGCCACTGGCCTCACATGGCTTTTTCTTTTTTTAACATACATACTTTAATCAGAATTGCTGAAAAAATATTCAGGATTTTTG
Celera SNP ID:            hCV2078256
SNP Position Genomic:     25824
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,10)   total(C,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13492):
GGGTTGGATGATGCTCAGCCGACCCAGGCCTCATCTCCACATGAGTAGCATCTCATGAGTGCACCTCCACATGCACCCTCCCCGCCTCCTCCCTCCAGTC
K
GTAAAATGTCTTAGCATCTCAGATTGTCAGAGTTTTGTTTGTGCAACTTCTTAGCTCTCCTTGTGATGTTTAATATGCGAAGAAGCCGTGCAGATGTCGG
Celera SNP ID:            hCV3218842
SNP Position Genomic:     45487
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,9|T,13)      total(G,9|T,13) ;(T,-|G,-)   Caucasian(G,6|T,70)   African-American(G,23|T,61)   Asians(G,17|T,67)   total(G,46|T,198)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13493):
TAAAAATAAAAATAGAAATGAAACCAATGGCAGATAGCCCAAGGCAGGACCCTCTGGTCAACTGGACTACAGCAGAGGTTCTAAAGTCAATGCTGTCCAA
Y
AGAGTTCTCACCCAGGATGGAAATGTTCCCTGTCTGTGGTGTCCAGTGTGAAAGCCACTGGCCTCACATGGCTTTTTCTTTTTTTAACATACATACTTTA
Celera SNP ID:            hCV2078257
SNP Position Genomic:     25790
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13494):
TTCACAGGCTGAAAAGCACTGCTAATGAGGACAGGAATTCCTCAGTCTTGCTTGGTCCATGCACCCATTTAACATGGGATATTTTAAAAGCAGTGCTGCA
Y
GCCGGGGACCATGGATGGTAGAGCTTAAAGAACTACTTTGTTTAATAAAACCTATCCCAGACTGGGTGCGGTGGCTCACAGGTGTAATCCCAGGACTTTG
Celera SNP ID:            hCV2078258
SNP Position Genomic:     25336
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13495):
ACCACCACACCTGGCTAATTCTTGTATTTTTAATAGAGATGGGGTTTCACAGTGTTGGACAGGCTGGTCTTGAACTCCTGACCTTGTGATCTGCCCGCCT
Y
GGCCTCCCAAAGTGTTGGGATTACAAGCATGGACCACTGCTCCTGGCATCTCCGTGACTTTTCTGAGTCTCTCCTCAAATCGCCTCTGCAGGTTCTTGCT
Celera SNP ID:            hCV3218845
SNP Position Genomic:     34337
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,13)   total(C,4|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13496):
CACACACCACCACACCTGGCTAATTCTTGTATTTTTAATAGAGATGGGGTTTCACAGTGTTGGACAGGCTGGTCTTGAACTCCTGACCTTGTGATCTGCC
Y
GCCTTGGCCTCCCAAAGTGTTGGGATTACAAGCATGGACCACTGCTCCTGGCATCTCCGTGACTTTTCTGAGTCTCTCCTCAAATCGCCTCTGCAGGTTC
Celera SNP ID:            hCV3218846
SNP Position Genomic:     34332
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,13)   total(C,13|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13497):
GCACACACCACCACACCTGGCTAATTCTTGTATTTTTAATAGAGATGGGGTTTCACAGTGTTGGACAGGCTGGTCTTGAACTCCTGACCTTGTGATCTGC
Y
CGCCTTGGCCTCCCAAAGTGTTGGGATTACAAGCATGGACCACTGCTCCTGGCATCTCCGTGACTTTTCTGAGTCTCTCCTCAAATCGCCTCTGCAGGTT
Celera SNP ID:            hCV3218847
SNP Position Genomic:     34331
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,13)   total(C,13|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13498):
TCAACATACTTGTTGACCTATTATGAAACCAATGTTTGTGGCAAATGCTAGATGTTGAGAACTGACTGACGTCTGCTTCCTAGGATGGAAAGAGCAGCAT
R
TAGTGGGAAACAGAGAGCCAGTTAAATTTAACATAATGAGATGTAAGAAAGAGTCATGGGAGTCTGAGAGGTGAGATGGAGTCGTAGGGGCCTGAGGAAT
Celera SNP ID:            hCV27848861
SNP Position Genomic:     27144
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,9)   caucasian(A,40)   total(A,69|G,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:13499):
GGGTCTCAACTCTGTTACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCTGGTTCAAGCGATTATTGTGCCTCAGCCTCC
W
GAGTAGCTGGGATTACAGGCATGCACCACCACAGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGAGTTTTGCTATGTTGGCCAGGCTGGTTTTGAA
Celera SNP ID:            hCV1731026
SNP Position Genomic:     52731
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,7)   total(A,5|T,7) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:13500):
ATGAATAGTGGAATTCTTTTAAATGGAAACCTCTTACACGTGATTTTCCTTGCCATCTAGAAATAAACCATAGTATTTATGTTGAATCAATCAATATTAT
R
TTTTGTTTTTTTCCTCCTCTTCTGAGACTCTTATTGTGGAAATGTTAGACTTTTATGTTTTCCTAAATGTCCCTGATATTCTACTTATTTAGAACATCTT
Celera SNP ID:            hCV1731027
SNP Position Genomic:     52282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:13501):
AGCCTATGCTATCATCAGGCACCTACCTTATATTCATAGTAAAAATTCTGTTGTTGTTTTCCAGGGTATACAGGGAGCTACCCTGTGTTTCTGAGACCCT
Y
TGTGACATCTCACATTTTTTCCAAGAAGATGATGAGACAGAGGCAGAGCCATTATTGTTCCGTGCTGTTCCTGAGTGTCAACTATCTGGGGGGGACATTC
Celera SNP ID:            hCV15879957
SNP Position Genomic:     27402
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,32)   caucasian(C,18|T,22)   total(C,24|T,54)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(C,15|T,21)   total(C,20|T,52)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,397|T,1096)   total(C,397|T,1096)   (C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:13502):
CTTCTGCTATTTCGGACCAGTAGAAATGTAGGTGCATTGGTTCCAGTCCTCAGCAAATGGTGCCTCCCACCAAAGCTGTCCAGCCTGGCTTCCCAGAAAG
Y
CTTATGGAATTTGGTGTATACGTTTAGTCATGACAAGGAACATTCTTGTGCCTTTCTTTGTCTGGATTCAAAGAAGCGAAACTGCATATTCTGGTCACTC
Celera SNP ID:            hCV25636571
SNP Position Genomic:     29879
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,9)   caucasian(C,26|T,10)   total(C,47|T,19)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13503):
AGAAAAGCTATTCCGTTGGAAAACTATTGGACGCTGTGTCTCAATATCACAGAGGAACATGAGAATTAGAGGAATTTGGGTGTTTTTCATCGAACTCAGG
R
GAGAATGAATGAGCTTATGCAATACTAGCAATGAATCCAGAAATTTTTGAAACAAACCTTAAGCAATGAGGTTTTCTTCCATGGAGGTGTCTAGAGAACC
Celera SNP ID:            hCV25636572
SNP Position Genomic:     27610
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:13504):
TTTGCATAAAAATTAGTATATATGTTACTTTTCTTCTTTGTTATCTTAAGTTTTTATTTCAAAAGAGTTTGTATCTCATAAGAAGTAGGGAAAAAAGGTC
Y
GAGCCCAGTGGCTCACACCTGTAATCTCAGCACACTGGGAGGCGAGGGCAGGTGGATCGCCTGAGGTCAAAAGTTTGAGACCAGCCTGGCCTACATGGTG
Celera SNP ID:            hCV8164514
SNP Position Genomic:     23722
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13505):
TCAGGCACCTACCTTATATTCATAGTAAAAATTCTGTTGTTGTTTTCCAGGGTATACAGGGAGCTACCCTGTGTTTCTGAGACCCTTTGTGACATCTCAC
M
TTTTTTCCAAGAAGATGATGAGACAGAGGCAGAGCCATTATTGTTCCGTGCTGTTCCTGAGTGTCAACTATCTGGGGGGGACATTCCCAGGTAAGAAAAG
Celera SNP ID:            hCV25636573
SNP Position Genomic:     27416
SNP Source:               Applera
Population(Allele,Count): african american(A,36|C,2)   caucasian(A,40)   total(A,76|C,2)
SNP Type:                 UTR 5


Context             (SEQ ID NO:13506):
TATGCTTTGCTACTCTAAACCTAGTTTGAAATCAACAGTCTTGAGAATAGATGAAAATTTTGATGAATAGTGGAATTCTTTTAAATGGAAACCTCTTACA
Y
GTGATTTTCCTTGCCATCTAGAAATAAACCATAGTATTTATGTTGAATCAATCAATATTATGTTTTGTTTTTTTCCTCCTCTTCTGAGACTCTTATTGTG
Celera SNP ID:            hCV27064129
SNP Position Genomic:     52220
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:13507):
CCACAATGCTCAGCGGGTAAAGAGCTCCTCCCCACTCCTCTCCCGCCAGCAGACGAAGGAAACACCCCGCAGCCTGCACATGCTCAGATGGAGCTCTGGG
M
CCGCGGGTTCTACTGCGCAGGCCCTCACACTCAGCAAAGGGACTTGGACGCGAAAGCGCTGGTGGCGCTCAGCCGGCTGGGAGTTGTAGCTTTCTGGCTG
Celera SNP ID:            hCV25636574
SNP Position Genomic:     57931
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,34)   caucasian(C,38)   total(A,2|C,72)
SNP Type:                 TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,36)   total(A,1|C,69)   
SNP Type:                 TFBS


Context             (SEQ ID NO:13508):
CTGAGAATGAGAAGGAGCTGGTGGAGCAGGAAAAGACACGGCAGAGCAAGAATGAGGCCTTGCTGAGCATGGTGGAGAAGAAAGGGGACCTGGCCCTGGA
Y
GTGCTCTTCAGAAGCATTAGTGAAAGGGACCCTTACCTCGTGTCCTATCTTAGACAGCAGAATTTGTAAAATGAGTCAGTTAGGTAGTCTGGAAGAGAGA
Celera SNP ID:            hCV25953503
SNP Position Genomic:     50142
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,38)   total(C,63|T,7)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:13509):
GAATGAGAAGGAGCTGGTGGAGCAGGAAAAGACACGGCAGAGCAAGAATGAGGCCTTGCTGAGCATGGTGGAGAAGAAAGGGGACCTGGCCCTGGACGTG
S
TCTTCAGAAGCATTAGTGAAAGGGACCCTTACCTCGTGTCCTATCTTAGACAGCAGAATTTGTAAAATGAGTCAGTTAGGTAGTCTGGAAGAGAGAATCC
Celera SNP ID:            hCV25953508
SNP Position Genomic:     50146
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,38)   total(C,73|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:13510):
TAAGACGTTTGTATTCAGTTGGTAGCTCAGATAGTTTTTCTCTGACTCATGTGGTGTTGACAGCTAGGTTATTCTTCCCTTCCTGGTATAAAAGCATTTC
Y
TAACATTGTAAATGTAAAGAGCTGTTTACCTCTCTCCCTCTGTTTCCCACTCAACCAGCCATGACATTGCACAGGAAACGGGTTAAGTTCCATTGGCCAG
Celera SNP ID:            hCV15973653
SNP Position Genomic:     42736
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(A,26|G,57)   JBIC-allele(T,188|C,547)   TSC_42_C(A,21|G,63)   TSC_42_AA(A,10|G,73)   total(G,193|A,57|C,547|T,188) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13511):
GTCATGGCTCACGCATGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAAAATCGCTTGAACCTGGGAGGTGGAGCAGCCTGGTGACTAATTACAAATTA
R
TGATTTGTATTTCACTAATTATCTTTTCTGTTATCCAGAGTCTCTGAAATGCTATTAATAATATGTATTTTTATTATTATATAAAAGTTAATCTTCAAAA
Celera SNP ID:            hCV16087802
SNP Position Genomic:     18840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13512):
TCTTGAAGACCCAGGATAAAGGACATCCGGATAGGTGTGTTTATGAAGGATGGGGCCTGGAAAGGCAACTTTTCCTGATTAATGTGAAAAATAATTCCTA
T
GGACACTCCGTTTGAAGTATCACCTTCTCATAACTAAAAGCAGAAAAGCTAACAAAAGCTTCTCAGCTGAGGACACTCAAGGCATACATGATGACAGTCT
Celera SNP ID:            hCV27064130
SNP Position Genomic:     50587
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:13513):
CAGTTAAACTCTGCTCTTAATGCACATTCTTGAGCCCACTGGCCCAGTTCCCGAGATCTTATTGGGAAGCTGCTGATCACCAGTTTCAGGTGTTTTCTCT
S
TGTCAGGAGACGGCCTTTCCCTGGTGCCGGCTGCAACCAATTATTATTTTAGAGAGACGGTGTAACAACTGCCTGACCATCACCTGATGGTTGCCTGACA
Celera SNP ID:            hCV27064131
SNP Position Genomic:     47549
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,13)   total(G,3|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13514):
AATGACCAGAAACTCAATTGTGAGACCTCACAGGAGATGGGAAGCTCATATTTATTCTGTCTTGGTGACATGGTGACTGAGCTGCTGCCAAAGGTGGGGT
K
GGGGGGGCATGTTGCAAAATTCATCTGAACTTTGAAAACATCAAGGAGTCTAGATGAAAGTGCAAAACCACATTGAAGGCATCATGGGAAATTTTTTTAA
Celera SNP ID:            hCV27064132
SNP Position Genomic:     45976
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13515):
GGTGATGATTTGATAGGTGCAGCAAACCACCATGGCACATGTTTACCTTTGTAACAAACCTGCATGTCCTCCACATGTATCCCAGAACTTAAATTAAATT
W
AAAAAAATAGTTTGAATAAAATAAAATGTTCTTGCCAAAAAAGAAAAAAAAAAGAGAAATCTATTGTCAGTGTATTATCAGTGTGATAACACAACAATGG
Celera SNP ID:            hCV27064133
SNP Position Genomic:     43703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13516):
GTGTCGTCCCACTGAGTGCATTCACCACCTTTTAAATTTTGGTCACTGTATGTATCAGTTCTAAAATTTCCATTTTGTTCTCTATATTTTAAATTTCTTG
S
CTTATATTCTATTTTCCTGCAAATGTGTCAGCATTTGCTTGTTTGAGCTTTTTTTTTTTCAAGACAGGGTCTCAACTCTGTTACCCAGGCTGGAGTGCAG
Celera SNP ID:            hCV8164309
SNP Position Genomic:     52564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,9)      total(G,9|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:13517):
ATCTCTAGAACAAAGTATCAAGATTTAATTGTTTTCCAGTTTTAATGGGAAAACACATCCCAGTGATTTCAAGGTCTTTAATTCAGAATGGGACGGACCA
A
TGTTATTGTTTTGGCGTAGATGGCTTTTTCCTGTTTGCGGACCTTGGAAGAGGTGAGAAACAAGAGGGTTAGGTGTCAGTATTTACATGTCTCCTTTTTG
Celera SNP ID:            hCV27064134
SNP Position Genomic:     41459
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13518):
CTTTTTTCCCTCTTTCTCTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTT
Y
CCTTTCTTTCCCTCTTTCTCTCTTTCTTTCCTTCTTTTTTGATGGAGTCTCGCTCTGTTGCCCAAGCTGGAGTGCAGTGGTGTGGTCTTGGCCCACTACA
Celera SNP ID:            hCV27064135
SNP Position Genomic:     40966
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1|-,9)   total(C,1|-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13519):
TTAACCAACTTAAAGCTAGTATATTTCCAAATAGATTTCCTTCCTTCCTTCCTTCCTCTTTCTTTTTTCCCTCTTTCTCTCTTTCTTTCTTTCTTTCTTT
T
CTTTCTTTCTTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTTCCTTTCTTTCCCTCTTTCTCTCTTTCTTTCCTTCTTTTT
Celera SNP ID:            hCV27064136
SNP Position Genomic:     40905
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13520):
ATTAACCAACTTAAAGCTAGTATATTTCCAAATAGATTTCCTTCCTTCCTTCCTTCCTCTTTCTTTTTTCCCTCTTTCTCTCTTTCTTTCTTTCTTTCTT
Y
TCTTTCTTTCTTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTTCCTTTCTTTCCCTCTTTCTCTCTTTCTTTCCTTCTTTT
Celera SNP ID:            hCV27064137
SNP Position Genomic:     40904
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,5|T,6)   total(C,1|T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13521):
TCCTTTCTCAGGTAAGTGAAATGTTTACATTAAAGCCAAGGGTATGTATGAGACATCAAGGGGTCTTTGAGTGACAGTGGAAGGTATCCAAGTGACATGG
Y
ACCAGAACGTTACTGGCAGCAAATCCGTATAGGTCTGCAGCAACCTCAATTCTTGCCTCCTTAGAAGACAGAATTTGACTGAGGGGCATAAGGCAGAAGG
Celera SNP ID:            hCV25636582
SNP Position Genomic:     46668
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13522):
TGAAGCACAAGGTTATCCTTTGGCCTGAGAGAGACATATTATGCCGAGAATGTGTGTAATCCTTTTTACTTAGGAATTGTGGGTGGAGTTTTTTTCCCCC
C
AAGAGTGATTGTTAACTTGGGTCCATCATTTTCCTTTGATTGTTCTTTATCTAAAACAAAACAAAACAAAAAACAACAACTTCCTGGTCTTCTCACCTAT
Celera SNP ID:            hCV8159120
SNP Position Genomic:     17032
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13523):
TGGAAAAATGTGTTTCTTCCTCCGATGCCTTTTCTGAATTGTCAGTGAGTGACCCACAACTTAATGGGGTTTCCTCAGTGTATTAGTGTGCAAAACAAGA
S
CCTTATGACATATGTAGAATTAAATTATTTCAGTTGGTTGCATCAAAGACTAGAAAAGCTAAATAAGGGTACATGATTTATCTCATCTCATCATATAATT
Celera SNP ID:            hCV25636583
SNP Position Genomic:     46417
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,38)   total(C,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:13524):
AGCCTGAGCGACAGAGGGAGGCCCCGTCTCAAAGAAAAAAAAAGATTCTTTCTCTAACTTACTGGTTTATCTTACTTTTGTAGCTTATTTCAGGTGATTC
R
TTATGTTTCTCTATAGAGGAAAATAACGTGTAGTGAGTTATAGTTTAATCTCCTTCCTTTCAATCACTGTATTTGGAATTTGTCCAATATTTTGGAATAA
Celera SNP ID:            hCV8159121
SNP Position Genomic:     16752
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13525):
GACAATAGCATACGGGAACTGCAATACACAAAAACTGGAATTTTTTTTCAGGCTGAGGCCTGTGTGACAAATGATACGTAAGGGACATCTATTTGTTGGG
R
AAAAATTAAAGATTTGGAATTTTGCTCCATTGGTTTATGTACATTCATAAGAAGCAAAGACATGCAGGTTATTTGCATAAAAATTAGTATATATGTTACT
Celera SNP ID:            hCV8164524
SNP Position Genomic:     23550
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13526):
TTTGGCCAAAGATTCTTTAATGGATTCACGTTACACTTAGAACATGAATCAAATAATTTACTATGGCCTAGAGGCCATGGCTTTTTTTTTTTTTTTTTTT
T
GAGACGGAGTCTTGCTGTGTCCCCCAGGCTGGAGTGCAGTGGGCGTGATCTCAGCTCACTGCAACCTCCGTCTCCCAGGTTCAAACAATTCTCCTGTCTC
Celera SNP ID:            hCV27064138
SNP Position Genomic:     35855
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13527):
CTCCTCTGACATGCTCACATTCCAATTCCATTTGTGTTTTCCCAGGGACAGTGGATCCAGTAGGAACATAGATGCATCCAAACTCATTAGACTACAAGGA
Y
CACGGAAACTGTTGGTTGACAATAGCATACGGGAACTGCAATACACAAAAACTGGAATTTTTTTTCAGGCTGAGGCCTGTGTGACAAATGATACGTAAGG
Celera SNP ID:            hCV8164525
SNP Position Genomic:     23432
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13528):
ACTTTGTCTCAAAATAAATAAATAAATAAGTAAATAAATAAAATAGAGTTAACACTGAGAGGACCAAGTTTCCATCATCTAGTAAGCAATAAATCCAGGT
Y
TGGAACTCCTTGTCTCCTGATGACTTCATGTCCACGTTAATTTTAAAAATCACCCAAGGCAGCAATCTGCAATGTCCTCTGGATCTGTGTAAAGTCTTGT
Celera SNP ID:            hCV11708041
SNP Position Genomic:     48619
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13529):
CTCTGCTCTATATGATCCTGCGACACCATATTATCCCAATTTCCCTGTGACTTTTCTTTTCTTTCCTTTTTTTTTTTTTGTGATGGAGTCTAGCCCTCTC
R
CCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCCCACTGCAACCTCTGCTTCCTGGGTTCAAGTGATTCTCCTGCCTCAGTCTCCTGAGTAGTTGGGATTA
Celera SNP ID:            hCV27064139
SNP Position Genomic:     34127
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,17)   total(G,1|A,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13530):
GCCTCTACTAAAAATACAAAAACTAGCTGGGCGTGGTGGCACATGCCTGTGATCCCAGCTACTCGGGGGGCTGAGGCAGGAGAATCGCTTGAACCCAGGG
G
CGGAGATTGCAGTAAGCCGAGATCGTGCCATCGCACTCCAGCCTGGGGACAAGAGTGAGACTTTGTCTCAAAATAAATAAATAAATAAGTAAATAAATAA
Celera SNP ID:            hCV11708042
SNP Position Genomic:     48459
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13531):
ACTTGTAATCCCAACACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGCCTCTACT
R
AAAATACAAAAACTAGCTGGGCGTGGTGGCACATGCCTGTGATCCCAGCTACTCGGGGGGCTGAGGCAGGAGAATCGCTTGAACCCAGGGGCGGAGATTG
Celera SNP ID:            hCV11708043
SNP Position Genomic:     48368
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13532):
ATAAGCACCATATTAAGACTAACAGTAAAGCTGCTGAATGAAATTCACAATTTCTTTTGTGGTAGTTTTTGTTCTTTGTTTGCATCTCACTATTGTTATA
Y
AGTCACGTCATTTTGAAGTTCTTCACAACTTAAGAAGAAAGTGTAACAATTGAATTAATTATTCAAAGTTCACTTTGGTTGCAATATTTTGGTTTGTTTT
Celera SNP ID:            hCV2882357
SNP Position Genomic:     702
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 TFBS


Context             (SEQ ID NO:13533):
ATATTTTTATTGAAAATTGGATAGAAATATTTGTTTAGTTGGAACCTGTGAGTGATTATTATGCATATAAATAGACATTCAGTTATTGCAGATAAATTCA
K
TGGTGGTAAAATAAAACATTTGTATAGGGTTTTGGAATTCAAATCTTTAGATTATTTCTCTGGGCCAGGGGCAATGGCTCACGTCTGTAATCCCAGCACT
Celera SNP ID:            hCV11708119
SNP Position Genomic:     18534
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,9)   total(G,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13534):
CATTATTTAATATAAAGAGTTGGCTGGGTGCAGTGGCTCACACTTGTAATCCCAACACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTT
Y
GAGACCAGCCTGGCCAACATGGTGAAACCCTGCCTCTACTAAAAATACAAAAACTAGCTGGGCGTGGTGGCACATGCCTGTGATCCCAGCTACTCGGGGG
Celera SNP ID:            hCV11708047
SNP Position Genomic:     48327
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13535):
CTTGTCATCTGCCAAGAATGACTGATGTCATAAATACAGACAATGAGTATGATTTAGTCCCAGAAGGGCGTGAGGACATCATGTAGACACAAAAGAGCAT
R
CAACAGCAAATTATTGGGGGTAAATATTTAATATCTTGCGTCTGGGGAACTCTAAGTTAAAGTAGTTTGATATGGCTGTGAATTAAACTGTTAGAGGGAC
Celera SNP ID:            hCV11708048
SNP Position Genomic:     47846
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;(G,-|A,-)   Caucasian(G,84)   African-American(G,84)   Asians(G,8|A,76)   total(G,176|A,76)
SNP Type:                 INTRON


Gene Number:                 6
Celera Gene:                 hCG15674 - 146000220871181
Gene Symbol:                 RLF
Protein Name:                rearranged L-myc fusion sequence
Celera Genomic Axis:         GA_x5YUV32W802(42889950..42981521)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12166):
CTACGTAGCATTTCAAAAACAGTGTGCCTATTTCTCTTAAGTAGCACAACCCAAAACCTTCAAGACATTAGGATGCAGTTGTCTTTCATTTTTTTAATGG
TGGTAAAATATGCATAAGGTAAAGCTTATCATTTTATCCATTTTTAAGTGTATAGTTCAGTGGCATTAAGTACATTCACATTGTTGTGCAAGCATCACCA
CCCTCCATCACCGTAACTTTTTCATCTTCCCAAACTGAAATTCTACATCCATTAAACAATAACTCTGCTGGCCTCTCTCTCCCCCAGCCCCTGGCAACCA
CCATTATTCTTTCTTACTCTATGAATTTGACTACTCTATATACCTCATATAAGTGGACTCATACAACATTTGTCTTTTTATGATGCTTGTTTCACTTAGC
ATAATCAACATTTATCCATGTTGTAGCACGTGTCAGAATTTCCTCCCTCCCCCTGTTTTTTCAGGAATGAATTTCTTTCCTTTTTAAGGTTGAATAACAT
TCCATTGCATGTCTATACCACATTCATTTATTTATTCATTCATTCATGGACATTTGGGTCATTTTTATCGTTTGGTTATTATGAATAACAGTGTTGTGAA
CACAAATGTACAAATATTTGTTCATGTCTCTGGTTTCAATTCTTTTGGTGCCTTTCAGCTTTGAGTATATGGAGCAAGAGACGTGATAAAGAGGTTCCCT
AAAGCCTGAATAGTAGTGGTAAAGAAAGCAAATATTTATCCGGGTGTGGTGATGCACACCTGCAATCCCAGATACTCAGGAGACTGAGGCAGAAGAATCT
CTTGAACCCAGGAGGCAGAAATTCTAGTGAGTTGAGATCACCCCACTGCACTCCAGTCTAGTGACAAAGGGGAAACTCCGTCAAAAAAAAAAAAAAAAGA
AGAAGAAGAAGAAAGAAGGAAAGAAAGAAAGAAACAAAGAAACAAAGGAAGAAAGAAAAGAATAGAAATGGAAAAAAGCTAGGCTTGTTGTTGCATTTCT
GTAGTCTCAGCTACTCAAGAGACTGACGTGAGAGGCTTGCTTGAGTCCAGGAAGGCCAAGGCTGCAGTGAGCTGTGATCATACCACTGCATTTCAGCATG
GGTGACAGAGTGAGACCCTGCCTCAAGAAAGCAAATATTTAAGATTGTACTTGTGCTGAGTGCTGGATTTCAAATGATAGGGGTGCCCATGTGTTCTTTA
ATATAGTTACTGTGTGTGTGTGTGTGTGTGTGCATGTGTGTGTGTGTAAGAAAGAGAGAGAGAGGTTTGTGTAGTCCTCTAAAGTGTGGGACCCAGGGCA
GGGCCCTTGTTGCCTGGACTTAGGGTGGTATTGTCATAAGCACATACATGTATTAGAACTGGGTGAGTGTAGCAGTGAGTGTAGATAGAAAAGAAGTTGA
CAGACTATGCCTGGGACACTTAGAAATCACAAAGAAAAGAGAGAATAAAAGAAAAGAAATCAAGAAAAAAAACACCAGGAGAATGTGCAGACTTGGAATC
CAAGTGAAATTAAATGTTGGGGAATTATCGACAATGCCAAATACTGCTAAGAGATTGACTAAACAAGGACTGATAATTCACCTTTGGACACACACAAAAG
TAGAACTCACTGGTGGTGTTAAAATGAGCTGTTTCATTGACTGGTGGGGATAAAACCTGACTGAGAAGAGTTCAAGTAAGAATGAGAAGAGGGTAAGTAG
AAACAGAAGGTCTGGCCAGCTCTTTAGAGAAGTTTTTCTATAAAAGGAAGCAAAGAAGTGGGATGGAAGCTAGATGAAGATGTGGTGGAGTCACTAGAGA
TTTATTTTTCTTTTTGCCTAACAGAGGTGGAACAGCTGATGGCCCCACATCTTCAGCTGAAGCTCCACAGTCACACATACAAGTGCCTATCTGGCATCTC
CATTTAAATGTCTCATAGGAACTCACAGGAAAATCAAACTTAACCTGTTCCAAATAGAACTCTTGATTCTCCCTCACTCTATCCCCAGTCTGTTCTTTCC
TAAGCCTTCCTTTTCTCAATAAACATCATTGCCCACCATTCAAACCAAAAGCCATGTAGCCATTCCAGATTATTTCAATTTCCTCAAAAACAGTGCATCA
GCCTGTTAGTTCTACTTCCAAAATACATCTCTAACTTGATCATCTGGAGTACTACAATAGGTTCCCTGCTTTCATTCTCGCCTCTCACCACCTATTCTCA
CATGGCAGCAAGAGTGTAAACCAGACAAAGTTACACCTCCACTTAAAGCTTTGATTACTCAGTAAAACAATGATTACTCAGTACACTTCAAATCCCCACT
GCTTACCTTGAGCTATACTGTCCTACATGACCTGGCTCTTTGCTCCTTCTCCAATCTCATCTTCACTTCTTTCTCTCTCTTGCACCATACTCCAGACATG
CTGGCCTAAACCTAATTATTTGTATTACAAAGATATAAAAAAATAGAGAATAATATTTATATATATATACATATATATACTTTTTTTGAGACAGAGTCTT
GCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCCTTCACGCCATTCTCCTTCCTCAGCCTCCTGAGTAGCTG
GGACTACAGGCGCCCGCCACCACGCCCGACTAATTTTTTGTATTTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGTCAGGATGGTCTCGATCTCCTGAC
CTCGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCTACCGAGCCCAGCCAATAGGGAATAATATTATAGATATTATATAATA
ATATATAATAATATTATAGATTATAGAGCCAGATCTAATACTTTAATTAATACTTAGCTACATGTACCATTAAAATGTAAACTACATGTCTTTTCTGAAT
CTCTATTACCTGAAAAAGTGCCTAACACATAATATATGCTCAATGCATCTGGTATAATTGAATATTTGCTTCACATTAAAAAATAAGTAAAACATTACAG
ATACAGTGAATGCTCCTTATACCTCCTTCCCTTCCTCTTTCCCCAGAAGAACTACCTACCATTCTAAAGGTGATATATGCCATGCCTATAATATCCCTAG
TTTTAATATTTTGTTACTTGAGCATTTGTTTTCTATGTTTTCAAAATTTACAGTATAGAATAATACGTTAAATATCCCTTGCGATTTGTTTTTTTATCAT
GCTTTATGCCTATTATGTTGATATATGCAGTTTTCATATGTTTTTTGGCTGTATATTTCAGTGTGTGAACATACCATAATTTGTTTATCTATTTCTTACT
GTTGAACATTTAGGTTGTTTCAAATATTTTGTTATTCCCAATAGTGCTGCAATGAATATGAGCAACATGACAGTTAAGAGGGTGGATTCTAGAGCCAGAC
TACCCAGGATTGAATTTCAGGCACCATCACTAGTTGTGTCACTTTGGGCACGTTACTTCTTTGTGCTCTAGTTTATTTAATTGTAAAATGATGGCAATAA
ATTTTCATGATATTGTTAGTAGAATTAAATGAGTTAATACATATAAAGAACTTCGAAAAGTGCCTGGAACATATTAAATCTCAATGAATATTGACCGTTA
TTATTATTACCCTTATTATTAGGAATTGCTTAATTACAGGACATGTACATCTTCTATTTCATTAAATATTACACATTATTCTCCTAAGTGATATGTCAAT
TTATGCTTCCAGCAGGGGTATATAAGTTCCATTTTCCTATTTCCTATACTAATTAAAAATTCCTGTCAATCTAATGGATATGAAATTGTTGTTTTACTTG
TACTTTGATAGTTACAGCAAAATTATATATTTTTTCTTGGGTTTATTGGCCATTCAGTTTTCTTTTTTGGTGAACTGCCTTTTTACCTACTTTTCTTTCT
CTCTCTCTTTTTTTTTTTTTTTTTAGTGTCCCTCAGGCTAGAATGCAGTGATGCCACCTTGGGTCACTGCACCACAGCTTTGATTTCCAGAGCTCAAGCG
ATCCTCCCACCTCAGCCTCCTAAGTAGCTGGGACTAGAGGCGCATGCCACCACGCCTGGCTAATTTTGTTTTCATTTTTTGTAGACACAAGATCTCATTA
TGTTGCCCAGGCTGGTCTCGAACTCCTGAACTCAAGCAATCCTCCGGCCTTGGGCTCCCAAGTACTGAGATTACAGGCATGAGCCAAAACGTCCAGCTTT
TTAATTTACTTTTCTATTGGGTTGTTTGCCTTTTTCGATTTTGGGAACTATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGGTGTCTGGTGAGGGCTGGCTTTTTGGTT
TACGTCTGTCTTCTGTTTCCTCATATGGCAGAAGGGCTGAGGTACCTCTCCAGGGCCCCTTTTATTTATTTATTTTTTAATTTTTATTTTTAGTGACTGG
GTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCATAGCTAACTGCAGCCTCCAAATCCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCTCA
AGTAGCTGGGACTACAGGCGTGCACTACCATGCCCAGATAATTTTAAAAAATATTTTGTGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTG
GAAGGCCAAGGCGGGCGGATCACTTGAGGCCAGGAGTTCGAGATCAGCCTGGCCAACACAGTGAAACCCCGCCTCTACTAAAAATACAAACATTAGCCAG
GCATGGTGGCGGACGCTTATAGTGCCAGCTACTTTGGGAGGCTGAAGCACGAGAATCACTTAAACCTGAGAGGCAGAGGTTGCAGTGAGCCTAGATCGTG
CCACTGCACTCCAGGCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAACAACAACAATAAACAATGGTTATATATATGGGGAATATCATTTAGTCTGTGG
CTTGTCTTTGTGTGCTTTTTCAACTTGTTATACGGAAGTAACACATTTTAATACAGTCAAATCTAAATATTTTCCCTTATGGTTTGTGCTTTTCCGGTCT
TATTAAGAAATTCTTAGCCGGGCGCGGTGGCTCACGCCTCTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGAC
CAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCCAGGTATGGTGGCGCATGCATGTAATCCCAGCTGCTCCGGAAGCTGAG
GCAGGAGAATGTTTGAACCAAGGAGGCGGAGGTTGCGGTGAGCTGAGATAGCACTGTTGCACTCCAGCCTGGGCAACAAGGGTGAGACTCCGTCTAAAAA
AAAAAAAAAAAATTCTTCCCTATTTTTGACATTATAAAGCTATTTTTATTTTCTGAAAAATGTTTGCAGGTCTTTAATCCATCTCGGCCTTATTTTTGGA
AATGGTTTGAGGTAGAAATCTAATCATTTATTTCCCTTTTGGAAAAAATGTCTCATCGCCATTTATTGAAGAGTCTGTCCTTTCGCCCACTGACTTGTAA
TGCCGTCTGTATCATAAACCAAGTTCCCTTGATGTTACTCTTCATTTCGGCCTCACAATCTTTGCTTATTTTCCTTCTACCAGGGATGCTTTTCGCTATG
TTCCTTTCAGGGCTACCTTCCTCTTGTCCCTTCAGATCGCAGTTCAAATGTCATCCCCCTCAAATCTAGATTGCTCTACAGGCATTTCTGGCTCCGTGAT
CCCATGACCTCAAAGGGGTCTAGGTGGGCATAGCCTCTAGCCAGTTGTTGCTAGGCTGTTGTCAGGACTGGCGATGCGTAGGCCACTGAGAGCACCCGGA
GTCCGAGTGACGGAATCAGGCGGGCGCCCGCGTCGCTAAGGAGTGCGTCACAGTGCGCGGGCGGCCGGGGGCAGGGCCAGGGCTGAGTCACGTGGCTTGG
TTGCCTACGCGCTGGTGGGCCGTGGGAAGATGGCGGACGGAAAGGGAGACGCCGCCGCTGTCGCCGGGGCTGGGGCTGAGGCTCCGGCGGTAGCGGGAGC
CGGAGATGGAGTCGAGACTGAGTCCATGGTTCGGGGTCATCGCCCCGTATCTCCAGCGCCGGGAGCCTCGGGACTGCGGCCGTGTCTGTGGCAGCTGGAG
ACAGAGCTGAGGGAGCAAGAGGTGTCGGAGGTCTCATCTTTGAACTACTGCCGGAGCTTCTGCCAGGTGAGGGGCTGACTGGCTGGCTGAGGGCGGCGGG
GCGGGGAAGTCAGGGAAGGAGGCCCTGGATCCTCTGTAAGCAGCCGGGTCCAAACTGAAAGGCGCCACCTCCGTGACTCGCCGCGCCCCCGGGCCGGGAA
GGCCCAGCTCGGAAGCTCGACCGCTGGCCCCCCTGCGCCACTGCCCGACTTTGGCCACCGCTGGGTCGTTTTGCTCTGAGCCTTACTGAGATCCCGGAGG
GCCCTGGCGGGTCCCTGGAAGGGCTGTGCCCTGTCGCCGTTGCCTGTGTCCTGGCCGGGTGGTTGGAGCGCCACTGCCCCCTGAGGGATTGATTGCTTGT
CCCTGCCGGGAGATCCTTTTTTGAGTGGAGTGCAGATCTCCGAACTGGTAAACCCGGGTTTTTCTGAATAATCCAGAGAGGTGTGTTGGGGCCAGAGACT
TATTTTTGGAGTTAACATCTTCTGGGCTCCTAAAAGGTATGACAGTTGGCTTCGAAAGGCGTCTAGAGCTTTCTGATTAGGGATTGCGGAGCCGGTTGGT
TGTTTGGTTTTTGCTTTTTTTTTTTTTACGTTTAAGCCGTTCTTTCGTCTTTTCTGTATTTCTTTGAGAGGATTGTGCTACCGAGAATAAGGCTGACTCT
TTGAGTAGAAGAGGATGGGAAGAGGGATGTAGAGTGTGGCCTCTTTTGGCAGTCGTATGATCATTTCTGTGCCTTGGTGGGTCCTAACCTATGATTACAT
ATTTATGGGTGTGTTTAGTTTAGTCTCCATGACCACTCCGAGATTTTTCTGTATGTTTTCAAGTCTTTTACAAATAYAAATATTGGCCATTATTATTTCT
GCTTCCAATGTTTGTTCTGTCAGGTTTCAGAGGCACCCATCAGCTCCTTATCTGTTGTACCTTAGAAAATGCAAAATAATCGTGGCATGTTGGTACTTGG
AGTCTAATAAGTAGTCCAGTATGCTGAATAAATTGCGGCGTTCTAAAATAATAATTTTGGGGGGCAATTTGCTCTGTTGGTCCGGAGTAGAATAAAAGTT
AGCTTGCTTGATTGCTTTTCTYCCCTCTCTCTGCCGAGGCAGAAGCACCTCATCTCTCTGAATGGAATTTTGTCCTTACTAATCTTTTCCGTGGATTGTA
CCACTCCAATTTTTGTGTGTACAACCTGCAACATTGCCCTGTACTATTAAATGTTAACGTGTTGTTGTTCTCTGCTTCCTTAGTAGTAGTCATCCCTGTT
TAGTAAGCTCATTTATTTTACAGATTTTTACTGACTTCATAGGATAGTGCCAGGGACTTTACCAAGTGCTGGGGAAACATGAGTAAGACAGCACTTAGCC
TTGATGAACTTACAGTTGGTGGGAGGTGGTAGGAATGACAGTATTTCCAGTGCGGTTTTGGTAATGATGGAAAAGGAGGTGTTGTAGAGACAATGGTGAG
GAGAGAGCCTTCATGGGATATCCTGATGGGAAAGACAATTAACTAGAAAAATAAGTAAAAAGGTTAATTATAAATTGTAGTATGTGCTTAGAAAGAAGTA
ACTGGGAGAGGCCACTTTAGTTAGTAAGACCCTATGGGCTGCAAGGATGAAAATGAGTCACGTGAAGGTCTGGGGTGGGGAAAGCATCCCAGTGCCAAAG
GTAGAGATTGGTAAGGACCCAGAATGCTATGGGAGGAGGGGAAACTAATGGAAGGAGAGGGGTGGTGCAGGAAAACAACTGTGGGTTTTGGGTAAGGCTT
CTAAGCTTGAGTTGTCTCCCTGGAAAGATGACAAGAATGAATGTAACCAGTCACATTGAAGCTTGTCAAAGGATCACATATATATGTATTCTGCTTTATG
TCTAGTGCTTGCAACTGCAGTTTTGTTTAAGGTAATGTTTTAATGTCTTGAGTCTTGGTGACACCAGAGATGTGATGGCCCAGAAGAATTTTTAAAAGAA
AGCATGTGTAATTTGTCTTTTCTATGAAGTTTTTTTTAACCTAAAATTTTCCCAAAAAATGTTTTTTAGACTAATAAATGAAACAAGAACAAGTATTCCT
GTAACACTGTATTGTAATAGAAAGCACATGGGATTGGGAGTTAAGTTGGGTCTTGACTGTGACTTTACCACTGCTTAGCTAATAACCTTGGGTAACCATG
TCTGCAAAACTATCTTATTTTCTGACCTTTATCTCCTTATAATGCTTTATACAATCAGAATAGAAAATTTGTGTACAAGTCTTCACAAAATTTATCATAT
TTTTGACACATTTTCCCCTGTAGTCCAGATAAGATCAACTGTGTCCTTGATGACCAGATAGAGAAAAAGTAAAAATTGTATGAAGAAGCAGGAAAATTTT
CACCATCAGTAAATTTTGTTGAATAGCTCTTGGTTTCACATTTGAAAAGAAGAATAAGATATATTCATTTACTTAAGGAACACTGATTGTGTGACAGTTC
TGAAGGTGGGAGCCTAGTTAAGACAGTTTTCTCGGACTCTAGGAGAGGAGCACATAATATATAAAGATAGATTGTAGGCATTTTTACATTATAAAGGTCT
GACCCCTGCTTATGGGATGCTTAATACTACAAATGTATTTTCATCAGTTATTTAGTTAGAAATGTCCTAGAGACTTAGATTGTACCAAGTAATCCCTTTT
GCAACATCCTGGGACCATATTCTCTCCAACTCTTGCAGCACTTAAAAGAAATGGCTCTATCTTTGGGATTGCACCAAATCAAGAAATAAACTAACATATG
AGTGAATAGAGAAGCTTGTCTCATTCTGGGCATATTTTCAATTTTCATAAGTTTGTGAAGATGATAAAATGAAACACTGAAAGTAATACTTACTAAGAAA
ATGATACTTAGGTCAAACTGTATTCAGTGAAAATTGGTATTAAGTGACTATGGGATGTGGTTTGTTTTCCTCTTTCCTTCAGTTCCTTTTCTGAAACCAC
TGCCAGACAGTGTGGATAAGATTAACTTTAGAAAACAGTCTTTCTTTGTTTTCTTGAAAAATTGATGATGTCTTCTCAAGTTTTTCCTGTATTTTGGGGA
CCAGGATTCCTTAAGTTTTACAATTGGTGTCTCTATTTGTAACACAAATTTTGAAGACTTTTTTTTTAGTAAACTTCATTATCAAAATTGAAATTATTGA
GTGATTATGTGATTACACTTTGAGAATACTGGGCAAAGTAATTTTATGAGTAAACCACGTTTATATGAGACACTTTTAGGTTCAAGACTAACAGTGACTT
CGTAGATTTTTGATGGCTAAAATAAGTAAGTACTCCATTAAAATTTCCATTTTTCCTAGATTAGTGATGGGGAGTACAAGGGCTCTGAGTCAGATAGCCT
ATGTACTGGCTTCACTATTGAAATAGTTGTGTGACCTTGGGCATGTTATTTTCCTTAAACGTTAATTCTTTTGCAAATGGATAATAGTACTTAAGTTTTG
TAAGCAAATTCATTGTTGTAAGGACTTAATAAGAAAATATCTATTTTTAAAAATGCCTTCAGAATTGTCTGTGTTATCCAGATTTCTTAGCTTTGTAATA
AAAAGTTTTCACAACCTTGGTCTCAGCATGCTTTTCAGCCCTCCCCTTGTCAGTCCCATCACCTGAATCCAACTTGTTTACTCCTATTCAGGAGTTCTTT
ACTTGGAGTCAGTCCATGGACCAACATGTGATTGCAGTTATTCCTGTGATTAAAATTTTGTCTGTAAGTTTCCAAGCACATAATTTTGGGAAAGATGATT
TTAATTTTCATTTGACTTCTCAAGATCCAATAAACGTATTAACTACGTTAACGAGATCTCAGGCCGTGTCTTTCCCTTTCATTGTGTGGTTCTCTCATTT
TCTGCATGGGAGATTTTTCTTCTTTAGGGCCCAGTATAAATGTCATCCCTTCTGTGAAGCTTTTCCTGATTTACCAGATAGGTTTCCTCTTATTTGTTTG
GGATTTTTTTGGGGGGACACTGTACATACCTGTAGTTTTAACTCTTAATTTTATTGCTGTCACTGTCTTCATTCAGGCTTTCTCCTGTTGCAGCAACCTC
TTCACTAATCTCTTGTTTTCTGACTGACATCTGCAGTTCATCTTTGTGTTCTTTCTAAATTATAAATATAATCTTGTTCGTCACTTTATTCCCTAAAATA
CCTCAATTCCTCCCCCCTCTCCGCCAAAGGAAAGATAAAGTTCAAACTTATTAGCTTGGTATACAAAGCCTTTTAGAATCCAGACCACCAACTCCCATTT
TCCCAGCCTCATTAAAAAAGTTGGTTTGATCCCACCTTCACCACTGTGTCCATTTCTCACTCTGCCTAAATAACCCGGGGTCTTCCTTTCCCCATCTACC
TATTTATCCTTTAAGACCTGGCTCTAATATTATGGTCTTTCAGCTTTTTCTGATTTCAGCAGGCAGAATTAGGTGGTTCTTTCTCCAATGCATTCTATTA
GCTTCCAGTACATAAACGTGGTGCCTACATAATTTGTTTCCATGTTTGTCTTTTGTATTGACTTGTAAATCAACAAGAGCAGGGGTCTTGTTTATTCTTT
TTTGTATACTTAGTACCTAGCAATTAGTATGATGCCTGGCACACAAAACTAATTTGTTAAATCAATTGTAGGGACTTCATGATACACACATGAGATAGAC
ACTTAAAACAGTACTTTAGGGGGAACCTCTAATGTAAAATCTAGTATGTAAAAAGCAAATTAACCATAAGAAATTACTATAAAGGGAGAGGTTGTGGAGA
AATAGGAACACTTTTACACTGTTGGTGGGACCGTAAACTAGTTCAACCATTGTGGAAGACAGTGTGGCGATTCCTCAAGGATCTAGAACTAGAAATATAG
AAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATGCTGCTTTAAGGACACAGGCACACGTATGTTTATTGCAGC
ACTATTCACAATAGCAAAGACTTGGAACCAACCCAGATGTCCATCAATGATAGACTGGATTAAGAAAATGTGGCACATGTACACCATGGAATACCGTGCA
GCCATAAAAAAGGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAGCTGGAAACCATCATTCTGAGCAAACTATTGCAAGGACAGAAAACCAAACACC
GCACGTTCTCACTCATAGGTGGGAATTGAACAGTGAGAACACTTGGACGCAGGGTGGGGAACATCACACACCGGGGCCTGTTGTGGGGTGGGGGGAGGGG
GGCGGGATAGCATTAGGAGATATACCTAATGTAAATGAYGAGTTAATGGGTACAGCACACCAACATGGCACATGTGTGCATGTGTAACAAACCTGCATGT
TGTGCACATGTACCCTAGAACTTAAAGTATAATTTTAAAAAAAAAGAAATTACTATAAAGGAACAGGATAGGAGCTTTTGGCCATTTCTTGGAGACATTA
TTTATCAATCTAAGCCTACATTCATATAATAATGTATACATTTACACGTGTGCAGTGAGGAATAGCATTGATGGAGAGAGAAAATGAGAGGCCTAGTATT
GAGGAAGAGTAGTCACCTAATAGGACAATAGTTTGGAGATGCCAAGATGGGTATAATCAGTCCCCTTACCTTGAGGTTGATGGCCATGAAGGCTCTTGAG
CCTTACCTCTTTCATATATTTCAAGAAGTTTTTAATGCATTAGCTTCTCTTCTTGCGCTGCCTTCTTTTTAGCGATATCTAAATAGAAACTACATGACAA
GTAGTTATCATAGCAAAAGCTAGCTTTGTAATGCACATGACAAAAACATAGTATAAATGTGACCCGTGAAGCAGTGAAAACTTTGGGTGCTGTCATTTAC
TGTGGTACCATCTTGTCTCTTACTGTGTACTGTGACCTCTAGTGGTTTCTGTTTCTTCCATGGATCATACTCTTCTGAATAGTGTTGACAAAAACTTACT
GCAAGACTGCAAAGACTAAAACGTGTTTTATTTTCATTCAGATCTAGATACTTGTCACCTTTCCCAGTGACCTTCCTTGACTGTCTTATCTAAAATAGCA
CTTCCCTATTGCCTTTCACCTCTTTAAGTACTGCTTTATTTTTCTTCAAATCACTACTAATCTTGTATGTCCGTCTCCCCAACTGGGATGTAAGTGCCAT
GAAGGTGTTGGCTTTTATTTACCTAGTGCCTAGTCTCTAAAACTTAATGGGTACTCACTAAATGCTTGTTGATCTTGATCTCCTCCCTTTCCTGTATCTC
CCACTTGAATTTTTGAGAGTAATAAGCAAGTCTTAACTGTCTTTATCAAGAAATAGGGACATTTGGCCAGCTGTGATGGCTCATGCCTGTAATCCCAGCC
AGCACTTTGGGAGACCAAGACGAGAGGATCCCCTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACTCTACAAAAAAAAAAAAATTAAAAATTAGCCAGG
TGTGGTAATATTAGCACACCTGTGATCCCAGCTACTCAGGAGGCTGAGGCAGGAGGATCACTTGCGCTCAGGAGGTTGAGGCTGCAGTAAGCCATATTCG
TGCCACTGTACTCCAGCTTGGGCAACAGAGTGAGACCTTGTCTCAATAAATAAATAAATAGAAAGATACTTTTTGTTTGTTTGTTTGTTTGTTTTTGAGA
CAGAGTCTTTCTCTGTTGCCCAGGCTGGAGTGCAATGGTAAGATAGCCCACTGCAACTTCCGCCTCCTGGGTTCAAGCGATTCTCGTGCCTCAGCCTCTA
GAGTGGCTGGGACTACAGGTGTGTGCCACCACGCCCAGCTAATTTTTATATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACT
TCTGGCCTCAAGTGATCTGCCCACAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATTGCACCCGGCCAAGAAAGAAAGAGACATTTTTTTGTCAA
CCAGTTTATCCTGCTTCCCAGCAGGGATCACACNNNNNNNNNNNNNNNNNNNNGGTTTATTGGCCATTCAGTTTTCTTTTTTGGTGAACTGCCTTTTTAC
CAACTTTTCTTTCTCTCTCTCTTTTTTTTTTTTTTTTTTAGTGTCCCTCAGGCTAGAATGCAGTGATGCCACCTTGGGTCACTGCACCACAGCTTTGATT
TCCAGAGCTCAAGCGATCCTCCCACCTCAGCCTCCTAAGTAGCTGGGACTAGAGGCGCATGCCACCACGCCTGGCTAATTTTGTTTTCATTTTTTGTAGA
CACAAGATCTCATTATGTTGCCCAGGCTGGTCTCGAACTCCTGAACTCAAGCAATCCTCCGGCCTTGGGCTCCCAAGTACTGAGATTACAGGCATGAGCC
AAAACGTCCAGCTTTTTAATTTACTTTTCTATTGGGTTGTTTGCCTTTTTCGATTTTGGGAACTATTTGTTTGTTTGTTTGTTTGTTTTTTGAGACGGAG
TCTTGCTCTGTCACCCAGGCTGGAATGCAGTGGCGCGATCTCGGCTCACTGCAACCCCTGCCTCTCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGA
GTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCCTGTTAGCCAGGATGGTCTCGATCTC
CTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGACTACAGGCGTGAGCCACCGCGCCCGGCCGAGAAGCACTTATTAATAAATATATCAT
ACGGAGTGAAACACAGTTTAGGAAATTCTGATATAAGAAAAAAGAACATAGGCTCTACAGTCTAAAGAACTCACCACCACTTGCCAGCTGTGTGATCCTG
GGAAAGTTACTTAACGTCTCTGGACCTCAGTTTTCTGTCTGTAAAATGAAAAATCACACTACCCACCTGAGGGCTTGGCACACAAAAAGATCCTCAATAA
ATTATTCAGTCCCTCAAATTTTTCATATAATGGATTGTATGTTGGCCTTGTGACAGCAATGAGTTTTATTATATAAATGTTTATTTATGTTAAAACATAT
TATTATTTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGATGGAGTGCAATGGCATGATTTCTGCCCACTGCAACCTCTGCCTCCCAGGTTCAAGTG
ATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGGTTACAGGTGCCTGCCATAACACCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTNNNNNNNNN
NNNNNNNNNNNGAGGGGCGGAAAAAAAAAAATGGGTGCTTCTTGAAATAAGGGTTCTATGTTCATATAAGTTGGGATAAGCTTTTTTTTTTTTTTGAGAT
TAAGTTTCGCTTTTGTTGCCCAGGCTGGAGTGCAGTGACGTGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCT
CCCAAGTAGCTGGGATTACAGGTGCTCATCACCACACCCGGCTATTTGTATTTTTAGTAGAGATGGGGCTTCATCATGTTGGCTAGGCTGGTCTTGAACT
CCTGACCTCAGGTGATCCACCCACCTCACCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACGTGGCCATGGGATAAACATTTTAAATGTTAA
AATACGTTGTGAATTTCCAAGAGAGACATTACGTATTGTGCAGCATTTGCCAAACTTACCAGGTCTAGAACATTTTGCCATATTCTAAAGCCTTTATCAG
CTCAAGAGTCACATTGCTTTTTTTTTCCACTACAATAAAGCAAAGTGCAGAGGTGAAGAGGTGATTGCCTTGTCTTTCTGCCTGCCACTAGTTTTAATTA
TTTAGTTTTAGCCTAAAACATAATTCTGAGCTTTTTTTTGTTTTTTGGTTTTTTTTTGAGACAGGGTCTTGCTGTGTCGCTCAGGCTGGAGTGCGGTGGT
GCAATCACAGCTCACTGTAGCCTTGTTAGCCTCAACCTCCCAGGCTTAGGCAGTTGTCCCAACCCAGCCTCTCTAGTAGCTGGGACCACAGGCGCGTGCC
ACCACGCCCTGCTAATTTTTGTATTTTGTAGAGATAGGGTTTCGCCACGTTGTCCAAGCTGGTTTCAAACTGCTGAGCTCAAGTGAGCCTCCCAAAGTGC
TGGGATTACAGGTGAGTGCCAACTTGCCCGGCCTCCTTTCATTCTTTAGGCATGTTTCCTTCAGTTCTTTGAATATACAGTTGGTTCTCGCTATTTGCAG
ATACTGTATTTGTGCATTAGCCTACTTGCTAAAATTTATTTGTAAAACCAGCTGACTCTGACTGAGCTTTTTATGAAAAAATTTCACCTCCAAAGGTTTT
KCAGGGATTAAATTATGTGTATTTGTTACATATGAAAAATATTTTAGTGTATTATAATTTGGGGAAAGTAGAGAATGAGTTATATTTCAGACGTATCTTG
AGTCAAGATTTATTCTTATAGGTTTACCTATATTGCTGCAACATAGGTAGGCCGGGATTACTAATGTATTTGTTTATTTCTCGCCACTTGTGCTAAGTCT
GATTACTGTCTTTTTGAGTGCTATTGTTATTATTATTAGTAGTAGTAGTATTTGGATCTAGCAGCTTATGGTGCTGACATTTGATTTGATAGTGTTTTTG
TTTGTTTGTTTGTTTGTTTGTTTTAATTTAGAGACAGGATCGTACTCCCTTGCTCAGGCTAGAATGCAGTGGTACAATCTTAGCTTACAGTAACCTCAAA
CTCTTAGGCTCAAGTGATCCTCCCACCCCAGCCTCTCAAATATCTAGGACTACAGGTGCATGCCACAGTGCCCAGCTAATTGAAAAATAATTTTTGTAGA
GACAGGGTCTCACTGTATTGCCCAGGCTGGTCTTCAACTTGAGGCCTTAAGTGATCCTCCCACCTCAGCCTCCCAAGGCACTGGGATTAGAGGCGTGAGC
CACCACTCCCAGCCTGATTTCTCAGTATTCTTACTCCCAAGGAAATAACCTGAATGTGTCACGTTAGCCAGCACAATTTCTTATTAATGTGGACATTTGT
TATAAGAATTGTTATTGTATATGATAAAATGTATATCCTTGCTTGGGAATTGCATTTTTATGATATATAATTTTATAAAATAGGCATATTTTTGTGATTC
TGTTGTCTTTGCTTTTTTCAGGTATATGTTTAAAATATATAAAGTATCCTAAAGTAATAAAGCAGATGTAAACATTTTAGTTTTTGTGACTCAAAACTAG
TGGATGCTCATTCTAGAAACTTAAAACAAGATTTACAAATAGATGAATTAGATAGTGAAAGTACCATATAAACTCACTTTTAATAGCTTGGTGTATTTAT
CAGATTTTTGGAAAAATACATATAGAATGTGTGTTTATATAAATATTACAATTTCTAATTGTGCAAACAACTCATGCATACATTCTAATTGTTAAAAATT
AGAACAGTATAAAAGGGGAGAATAAGAAGTAAAAGCTCCTGTCATATACACTCTTATGTATTCCAGTACTACCTTTTCCTAGGTAGACCATTGTTAACAG
TTTAGGAATGCATATCTATAGAATTTTTCTGTATGATGTGTACATATATATGTACTATTTTTAGAAAAGGTTTCAAGCTTATATACTAAAACCTGCTTAT
TATTGTAGACATCTTTTCACGTAGAATATGTGTAGACTTACTGTATTTAAGAAATAAATGCATGGTATTCCATCAGAAATTGCATTGATTTTAAATTCTA
CAGGTAGCAACACCTTCAACACTCTTAACTAAAAAAAAATTTTTTTTAAACTATAAAAGCACTTCTTGTGGCAAAAAATACAGTACAGAGGGTTTAAGGA
AAAGTAAAAGCCTCTTTCCTTCTGCCCTCAATCTTTCCAGTCACTTCCCAGAGGAAATTACTGTTAACAGTCTTGTGTGTCCTTAAAAACACAAGTACTC
ATCCTTTTGCAATTTACTTTTTAATTTGATATGTTGACCCTTTATGAGTACATTTGGAGCATGCACCATAATTTAAACATTTGTGTTATTTTGTTATTAT
AAACAGTGTCCCATGAACTTCCTTAAATATTAAGTGCTGGTTATTTCTATCTATAATATAAATTCCTGGAATTGAAATTATAGGATTAGGCCGGGTGCGG
CGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACTCTG
TCTCTACTAAAAATACAAAAATCAGCAGGTAGTCCCAGCTACTCTGGAGGCTGAGGCAAGAGAATTGGTTGAACCCAGGAGGCAGAGGTTACAGTGAGCT
GAGATTGCGTCACTGCACTCTATCCTGGGCAACAGAGTGAGATGCCAACTCAAAAACAAAAATGACTGGATTAAAGAGGATGTTTAAGTTTTGATGGATA
CTTGCCTGTACTCTATCCTGGGCAACAGAGCGAGACACTGACTCAAAAAAAGAAATTACTGGATTGAGAGAATGTTTAAGTTTTGATGGATACTTGCCTA
CAAAAAGTTGAATATGTACTTCCGCCAATAGTGTTTGGGAGTCCCCGTTTTACTAAATCCTTGCCAATGCTTGTATTATTAAACTTATTAATATTTGACA
ATCTGATAGGAAAGAATTATCAGATTGTTACACTAATTTGCATTTTAGTAACATTCAGGTTTTTTTTTTTTTTTTTTTTGAGGCAGAGTTTTGCTCTTAT
TGCCCAGGCTGGAGTGCAATGGTGCGATCTCGGCTCCCCGCAATATCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCTTGAGTAGCTGGGAT
TACAGGCATGCGCCACCACGCCCAGATAATTTTGTATTTTTAGTAGAGATAGGGTTTCTTCATGTTGGTCAGGCTGATCTTGAACTCCTGACCTCAGGTG
ATCCTCCCGCCTTGGCCTCCCAAAGCTCTGGGATTACAGGTATGAGCCACCACGCCTGGCCTACATTCAGGTATTTTTATATGTATCAGACATTTACATT
TTTTTTTGTGAGGTTTACCTTTTTCATATATTATGACTATTTAAAAATGTTGTTAAAAGTCATTAAAACTAGATTTTGTCCAATCATTATGATCATGTAA
TTTTTTTTTTTTTTTTTAAGACAGAGCCTTGCTCTGTTGCTTAGGCTGTAGTGCAGTGTTACAATCTCAGCTCACTGCAACCTCTGCTTCCTGGATTCAG
GTGATTTTCATGCCTCAGCTTCCTGAGTAGCTGGGATTACAGGTGTGTGTCATCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGACGAGGTTTTGCC
ATGTTGGCCAGGCTGGTCTCAAACTTCTGGCCTCAAGTGATCCGCCCACCTTGGCCTTCCGAAGTGCTGGGATTATAGCCGTGAGCCACCGTGCCAGGCT
GATCATGTAATCTTGAGATTTTAGGTCTCTTTGAAGTTCTCATGAAGCGGAACATGTCCAAAGAATTATAATTAGAGCTATAGCCTAACCTGAAGCCATT
GGGATGTGTGATACACTTTTGTGATTGATGGTGGCTCTGTGAGAGGTTTGTCAGTGTAGTCATTTATTGATCTCTTATAATCAATTCTTCTAAACTCTGG
AAGACTAAGTCATAGCTGAGTAACTGGAAAGACTGTAGTGCTTTCCATTAGCTAACTTTAAAAAATGTTGTGACCTGGCCGGGCACGATGGCTCACGCCT
GTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCATGAGGTCAGGAGTTTAAGACCAGCCTGGCCAAGATGGTAAAACCCTGTCTCTACTAAAACT
ACAAAAATCAGCTAGGCGCAGTGGCAGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCTGGTGACAGAGGTGGCAGT
GAGCCAAGATTGCACCACTGCACTCCAACATGGGTAACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAGTGACCTTTATATGTTTTCAAATAGAGTGC
CACCAAATGGGTATATGACCTTGGGGCAAGTCAGCTTGTTATTTGGGTGCCTCATATTGCTCCCTAAATGAGATGCTCTTTAAGGTTTGATTCTGCTCCA
AAATTATATAACTCTATTGAAAAATGTTTGCTATATAAGATTCATTTTCTAAGTCATCTCCAAATATTTGTCTTGTCTATTCTTATCAAAATAAATTAAT
CTTTTAAAAGTATGTTTTATTTGTACCATACCTATATATTGTATAAAACAGACACAGAAATACATAAAAGGGGTGAGATTTTTAAAAACTCATTTGAATA
TAAGTATTAATATTATATTCCTTCTCCCTGATGGATTATTATTTGCCCCTGTAGAATAAGTGCCCATGCCAGTGGAAACTACTGATTAGAACTGAAAGTA
TTTGCGTTAGTTATGCTCACTCTCTTTATTTGGTTTTTTCTTCATAGTGAAATCTTGATTTCAGTCTTTAAAGGACATTGTCAATGAAAATGTTAAATCA
AAGGGCCAAGCACAGTGGCTCACACCTGTAATCCCAGTGCTTTGGGAGACCAAGGCGGGAGGATCTCTTGAAGCCAGGAGTTCAAGACCAAGACTGGGCA
ACGTAGTGAGACCCTGTCTCTACAAAAACTTTTTAAAAGTTAGTTGGGCATTTTGGTGTCTTAGCTATTTGGGAGGCTGAGGCAGGAAATCCCTGAAGCT
GAAGAGTTTGAGGTTACAGTGAGCTGTGTTTGTGCCACTGCATTCCAGCCTGAGCAGGAGAACCAAGACTCTGTTCTGTTATGGTGGGGGTGGGGGGGGG
AGTTAAATCTAGACCAGACGTTCCCATAAAGTTCTAACAGTAAATGTGCATAAAACATCACATTTGGATCAATCTTGTGTTTTATTGTCACGTGAAATGG
AGAACATATATGTATATTTGAACCTAACAAGATTTCACTTAAAATTCTCATTCTGGCCAGGCACGGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGG
CCTAGGCAGGCGGATCATGAGGTCAGGAGTTCGAGACCAGCCTGGCCAGTATGGTGAAACCCTGTCTCTACCAAAAATACAAAAATTAGCTGGGCGTGGT
GGCAGGTGCCTGTAATCCCGGCTACTTGGGAGACTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGAGCCATTGCA
CTCCAGCCTGGGCGACAGAGTGAGACTCCGACTCAAAAAAATAATAATAATTCTCATTCTATTCGGGAGGCTGAGGCAGGAGAATCTCTTGAACCCGGGA
AGTGGAGGTTGCAGTGAGCAGAATTGTGCCACTGCACTCCAGCCTGGGTGACAGAACAAGACTCCATCTCAAAAAAAAAAAAAAAAAAGTACAATTTGGT
GCACTTTGGCATATCTTAATATCCATGAAACCATCAAGATTATGATTATATCCATCATCCCTAGAAGTTTCTTCCTACTGCTTTGTATTCCCTTTCTTAC
CCTCCTCTTGTATACATACCCTCCCATCCCCACTTAACTACTGATTTGCTGTCTCTATAAATTAGATTGCATTTTTAAGAATTTTATATAAATACTATAA
TCATATAGTCTCTCTTTTTTGGTGTCTCTGTATAATTATTGAAATTCATTCATCTTGTATATATCAGTAGTTTATTTTATTGATGAGTATTCATTATATG
GATATATCATGATTTGTTTATTTACCTATTGATAGACATTTGAATTGTTTCCAGTTTTTGACTACTACAAATCAAGCTGTTAGGAACATTTTGTGTGGAA
GTCTTTGTATGGACAGATGCTTTTTCTTTTCTTTTGGGTAAACACCTAGGTGGAATGGCTGGGTCAGATGACAGGTTTTCCAGAGTAGTTGTATTTTACA
TTCACATCAGCGCTGTATGAGAGTTCTAGTTTTCTATCTCCTCACTAACACTTGGTGTGGCCAGTGTTTTTCATTTTAGCCACTCTAAAATTGCTGTTAG
TTCATTGTGATTCTAATTTGCATTTCCCTAATGGCTTTTTAAAATTTTGAGATAGGGTCTTACTCTGTCACCCAGGCTGCAGTGGTGTGATCTTGGCTCA
CTGCAGCCTCTGCCTCCCAGGCTCAGGTGATTCTCCCACGACAGCCTCCCAAATAGCTGGGACCACAGGCTTGTGTCACCACACCTGGCTAATTTTTTTG
TATTTTTTTATAATGGCGGGATTTTGCCACATTGCCCAGATTGGTCTCAAACTTTTGGTCTCAAACGATCCTCCCGCCTTGGCCTTCCAAAATGCTGGGG
TTACAGGCGTGAGCCAGTGTGCCTGGCCCTAATGACTTATGTCAAGTGTCTTTTCATATGTTTGTTTGCCATCCTTATATCTTCTTTGACGAAGTGTCCA
AATCTTTGCCATTGAAAAATAATTGTTTTCTTATTGTTGAATTTTGAGAGGTGTTGTGTTTGTGTTTCTGATATATGCTTTGCAAAGATTTTCTCCCTAG
GTTGTGCCTTCTCTCTTTTTATTATTCTCTTAACAGTATATTTCTTTCTTTTTTATTTATTTCTTTTTTTAATTAATTAATTTTTTTTTTTGAGACCGAG
TCTCACTTTGTCGTCCAGGCAGGAGTGCAATGGCGCGACCTTGACTCACTGCAACCTCCGCCTCACAGGTTCAAGCGATTCTCCTGCCTCAGACTCCTGA
GTAGCTGGGAACAGGCGCCCACCACCACACCCGGCTAATTTCTGTATTTTTAGATGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTTCCG
ACCTCAAGTGATCTGCCCGTGCTGGGATTATCAGCATGAGCCACCACAACCGGCCTTAACAGTGTATTTCTTTCTTTCTTTTTTTTTTTTTGGGAGGCGG
AGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGGTCACACCATTCTCCTGCCTCAGCTTCCC
AAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCATGGTGTTAGCCAGGATGGGGTC
TATCTCCTGACCTCGTGATCTGCCCGCCCCCACCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCGGCCAACAGTGTATTTCTAAGAACGTA
AATTCTTAATATTGATAAATTGTGTTTTTCCCATTATATCTAAGAAATCTGTCTAATCCGAGACCACAGAGATGTTCTGCTATTTTCTTCTGGAGATTGT
ATAGTTTTAGGTTTTACATTTAAGTCTATGATTCATTTGGAGTTAATTTTTATATACGGTGTGAGGGATGGATGGAAAGTTCTTTAGATATAGATATAGG
TATATCTAAACTTTAAAAAAAATCACTCGTGCTTGCTTCAGCAGCACATACATTAAAATTGGAACAATATGGAGAAGATTAGCCTGGCCCCTGTGCAAAG
ATGACCTGCAAATTTTTGAAGTGTTCTATATTTTTCAGGGAGTCTCAGGCCAAGGATGTCGTCGAAGAGTACTTCAAATGCAGTAAATGAACAGATAAAT
CTTTGGCTCACAAAAATCTTTGGCTCACAAAAAAATAAAAAACATATATATATATAGATAGGTATATAGATATATCTATAGATATATATGAGTGTTATAT
AAATATATCTATAGCTATGTATATGAGTGATTTTTTTTAAAGTTGCAGCACCATTTGTTGAAAACCTATCCTTTCTCCACTGAATTGCCTTTGCACCTTA
TTGAAAATTAGCCATACATGTGTGTCTCATTCTGGATTCTATTCTGTTTCATTGATCTGTTTGTCTACTCTGATGCCAATACCACACTCTTATGTTGCAT
TTTCAAACAAAATATAATATACTATAAAAGCTATATAGCACATAGAGACAGGAAATAGAATAGTGGTTGCCAAGGGCTAGAAGGAGGGGAGAATGGAGAG
TTGTTTTTTAATGAGTTCAGAGTTTCAGCTTTGTAAGATGACAGGAGTTCAGTGGGTAGACGTTCGAGTGGCAGCACAACAATGTAACAATGTGAATACT
TAATACCACAGAAATATATACTTAAAAATTGTTCAGATGGTAAATTTTATATGTATTTTACCACCATTTTGAAAAAATAGTTTGAACCCAAAGCTGTCTT
TGGTGTTTTTTTTTTTTGTTTTTTTTTTTTTTTTGGAGAGATGGGATCTTGCTATGGTCTTTTTTGTTTTGTGTTTTTTTTTTTTTCCCCAGAGATGAGG
GCTTGATATAGTTAGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGCAGTCCTCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTG
GTATCCCGCCTTATCACCATTTTTTATTTTTATTTTTTGAGATGGAGCCTCGCTGTGTCACCCAGGCTGGAGAGCATTGGTGCGATCTCAGCTCACTGCA
GCCTCCACATCCCGGGTTCAAGTGATTCTCCTGCCTCAGCTTCCTCAGTAGTTGGGACTACAGGCCTGTGCCACCACGCCCGGCTAATTTTTGTATTTTT
AATAGAGACAGCATTTCGCCGTGTTGGCCAGGCTGGTCTGGAACTTCCAGTCTCAGGTGATCCACCTGCCCAGGCCTCCCAAAATGCTGGGATTACAGGC
ATGCGCCACCACACCCAGCCTTTACCACCATATTTAAAAAAGCTATTTTGTAGGATGCTGGTACAAAATGGGTAGTCAATTTCAGTTGACTGATTTCAGA
AAATGAGACCCAGAGAGGTTATCTGGTAATTGATGGGGCAGAGATTTGAAACTGTAGCCAGAATGCCTGTTATTTCCCTCTGTTGTTACACAACTACCTC
AGAATTGTAATACTTTTACCCAGCATGATAAAGTTTGAACTTTACAATCTCCAGATTTAAGAAGTATTGTAAGTCAGTCCTTTTAGTAATAATGGCTCGC
TAATGCAGAAATGGAGGATGGTTTGAATTTATCCTCCCTGCCCCCAGCCCCCGTCGTCTTCCTTTTGCATGATCATCCACTTCAGTTTCTTGAAAATTTC
TAATCCAAAGTCTCTAGACTTAAAGTTAACTCTTTTTTTTTTTTTTGGTACTTTTATTGTGGTAAAGTATACGTAACATAGAATTTGCCATCTTAACCAT
TTTTGAGAGTACAACTTAGTGGCATTAAGTACATTCACATTGTTGTGCAACCATTACCTCCATCCATCCATCCATCTCCAGAACTTTGTCATCTTCCCAA
AGTGAAAGTATGTACCCATTAAATACTAACTCCCCATTCCCTTTTTTCTTCACCTTCTGGCAACCATCATTCTACTATCTGTCTCTATGAATTTGACTAC
TCTTAGGTACCTCATATAAGTGAAATTGTACAGTATTTGTCTTGTTGTGACTGCCATATTTCACTTAATATAGTGTCCTCAAGATATATCATGTTGTATC
ATGTCAGAATTTTCTTCCCCTTTAAGACTGAATAATACTCCATTTTATGGATATATCACTTTTGTTCATCTGTTCATGAACACTTGGATTTCTTCCTCCT
TTTGGCTATTGTAAATAATGCTGCTGTGAACACGCGTGTACAAATACCTCTTCAAGATCTGCTGTCACTTCTTTGGGATGTGTACACTGAAATGAAATTG
TTGGATCATATGGTATTTCTGTTTAATTTTTGGAGGAACCACCATACCATTTTCCAAACCACTGCAGCATTTTACATTTCTACCAGCAATGCACAGGGGT
TCCTATTTCTCCACACCCTTGCTAACACTTTTTCTGTTCTTTACTTTTCTTTTCTTTTTTTTGAGACAGGGTCTTGCTTTGTCACCCAGGCTGGAGTGCA
GTCACATGATCTTGACTCATTGTAACCTCTGCCTCCTGGAATCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTGGCTGGGATTATAGGCGCCCGCCACCA
CGCCTAGCTAATTTTTGTATTTTTTTCAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCACAAGTGATCAACCTGCCTTG
GCTTCCCAACGTGCTGAGATTACAGGTGTGAGCCACTTGGTCTGACCTCTTTTATTTTACATGATAGTCAATCCTAATGGGTGCGAAGTCGTATCTCATT
GTGGTTTTCATTTGGATTTCCCTAATTAGTGGTGTTTCATATCTTTTCATGTGCTTATTGGCCATTTGTATGTCTTCCTTGGAGAAATGTCTTTTCAAGT
CTTCTGCCCAATTTTTAATTGGCTTGTTTGTTTTGTGTTGTTGAGTTTTAGGAGGTCTTTATGTGTTTAGATATTAATCCATCAACAGATATAAGATTTG
CTGTATTTTCTCCCATTTTATGGGTTTCCTTTTTACTCTCTTGATAGTGTCCTTTGATGCACAGAAGTTTTTAATTTTGATGAAGTCCAGTTTATATATT
TTTGTGTTGCTTGTGCTTTTGGTATCATAGTCAAAAAATAGTTGCCAAATCCAATGTAATGAAGCTATTTATCTATGTTTTCTCCTGAAGTTTTATCATT
TTAGTTCATATGTTTAGATCTTTGATCCATTTCAAGTTGGTTTATGTATATGGTGTAAGGTAAGGTCCAGCTTCAGTCTATTGTATGTGAATATTTGGTT
TTCCTAACATTGTTGAATGAAAAGGCTGTCTTTGGCCAGCTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGATGGATTACTTG
AGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGCGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCTCATGCCTGTAGTCCC
AGGTACTTGGGAGAACGAGACAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCATTGAGCCGAGATGGCACCACCGCACTCCAGCCTGGGCAGCAGA
GCGAGACTCCATCTCAAAAAGAAAAGAAAAGAAAAGAAAATGCTGTCTTTTTCCCTTTGAATGGTCTTGGCATCCTAGGTGAAAATCATTTTCATTTGAC
CACATATACAAGGATTTATTTCTTGGCTTTCTGTTAGATTCCATTGTTCTGTGTGTCTTTTATGGATAACTCTGTAGTAATTAGGTGTTTAGATTATTAA
AGGAATATATGAAAAATTTTCTTGAACTGCAACAGTGATTAAAAGAATGTAAATTGAATAAACAAAGTATTTCTTCTATTAAGCTGATCCTCACAAGTTA
TATTAAAATTATAATATCTAATAATTGTTACAGCTCCTCAGTCTGTCACCCTGTAACACCAATAATAGGAATGTACATTGGAACAAATTTTCCGGAGCAG
AATTTGACACTGTGTAAAGCCTTAAAAATTATCCACCCAGCAATTCCATTTATAGGACATTATTATAAGAAAATTGTCATGGATACATGGGAAAAGTTAG
ATAAGGGGTGCTCATTTTAGTGTTAGAGGGGTGTTCATCTTAATATTTTATATATAATACTGCAAAGTTAGAAGACATTATGTCCATAAATAAATAATTG
GGTAATAAATTGTATCCACACAAAGTTGTGCAGCCATAAAAACACTGACATTGAAGAAAACTTTACAATAAATGGAAAGACGTTATAGCATGATTCTATT
AAAATGTTCGGTTTAGGCATTTAAAAAAACCCTCAAGCGGCCGGCATGGTGGCTCATGCCTGTAATTCCAGCACTTTGGGAGCCCGAGGTGAGCAGATCA
CGAGGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCGGGCGCCTGTAA
TCCCAGCTACTTAGGAGGCTGAGGCAGGAGAGTCTCTTGAACCTGGGAGGGGGAGGTTGCAGTGAGCGCAGATTGCGCCACTGCACTCCAGCCTGGTGAC
AGAGGGAGACTCCGTCTCTAAAAAAAAAGAAAAGAAAAGTAAAGGAAAACCCCTCAAGCTTAATGTATTGCCTGTTAATAGTGGTCTGTTTCTGGGTGGT
GGTATTATGGGTTATTAAATTTTTATTTTTGCATATGTATGTAACAATGTTATGTTACTTTTATGACAAGACAGTAAAAGGCATTTTTGAAAATTGAAAA
TGAAATAAAACTAGAAAGCATAGTTAAATCCTGTGGCAGAATCGGTATCTAAAAATAATCTTAGTAGGCTGAGATTGATGGACTGAATCCAGTGAAGTTT
AATCAGGATGGATGAAAAAAGTATAGACAGATAGATAGGTAGATAGATAGATAGATAGATAGATAGATAGATAGAGTAATAAGTTAGTCATATCACTGGC
TTTAAGAAAACCACCTATAACCAATATAGAAAATGAGGCAGGGGGCATAGTGGCAGCATATGTTAAAGACTTAGGGGGTTTAATTTACTCTAGCCACTTA
ACTTTCTGGTTGTAAGCAGCCAGCTGTTCTCTCCCCATTTCATTTCATCTCACTCTCAGCTTAGTCTCTTGATGGCAAACCTCCATCAAGAGGTGGTGCT
TCCTCATGCTGACATTTAAGTCTCTTCAGCATTTACTCTGATCTGTTCTAGCCATCTAGTTGTCTATTCATCTTTTCTGACTTTTTTCAAGTTCTTTCTT
TGGAGTCCTCCTGTTCCCCTCACTTTTGCTCGTACTTCAGAGATCCATCTCAAGTGCTGCCCTCTCCTGGAAGTCTACCTCTTGTAGTGCAGTCACATTT
TACTGAAATGTATAATTCTGGGAATTTCACATGCTGAGAAATTTAAATAAAAGTTTCTTGCTTTATGTGCAAAATTTGAAATAATCCAAACCCCTCTCTA
TTAGAAAACACATAACTTCCTATTGCCATAGAACATACAGCTTTAAAAAGAAACACTAGCTATCTTTTGTCAGTTTTTTGTGACCCACCAGCATTCTGAA
GTACAGGATATCTGTCAGTGCCATTGCTTGAAAACATTCCCCAGAAGCATTCACTTTAGAATGGAAGTTAGATGTTGTAAACTCGGSAAGAAGGCCAAAT
GATGACCATGACACAACTTGCTACAAAATATTAAAGCTGATGCTGGGGGTGAGGGGGCAGAATTTAAAAGCACACTTAAAATAGTTGAATTGTGAAAAGG
CATAAAGAAAGCGTGGTGATTAAGTGTGGGCTGAGGAGCCAGATGGCTCTAGTTCRAATCCTGAATCTAACACCTATTGGATGACTTTGCCCAAATAATT
CAATCTCTCATGTTTCCTCATTTAAAAAAAAAAAAAATTCCCAAAAGACAACTTGACAGTGGCTCCTCATTTTTGAAATGGGCTGATAATAACTCCTAGC
TCATGGAGTTGTGCATATTAAATAAGTTTAGTGGCCGTAAAGCTCTTAGGAAGTGCCTAACCCATACTATGTGCTCAGTAAATATAATTATTTCATTAGG
AAAGTTAATCCTGAACTATGTGAAATTTAAATTGGAATGTATTCTTTAAACATTAAATGTGACCATCCTGAAAGAAATTCTCCTTTCTTGATAGTTTCAA
GGAATAGTCAGAATGCTGCCAAGCTCCTTGAAACCATGTAGTGAGAAATGTAGAGAGAATTAAGGGTGAGGGGAGATTTTTTTTGCTTTGAAAATGTAGT
CATGCTTATTAAAGAAAATTTGAGAAGTTTAGAAAAGTATAAAGATGACAAAAATTGCTCATATTCCTGCTACCTCAGTGCTAACCATGTAAGCATTTTA
GTTAATTTCTTCTAGTCATTTTCCCCTTGGACATTAATTTTTTCAATGTACAGACATACGTGATTATAACACATATACAGAACTAGAGGTTATTTAGCCT
AGAGAAGTGAACCAATGTAGCAGTCTAGATGAGGGATATTGGGGGCCTGGTTTAGGTGAATGGCTACAGAGATAAAGCATAGGGACAGGAGACAAAGATA
TTTCTGAGATAGAATCAACAAACTTTGGTGTGGTGGTTTCAAAGATAGTTTTTTAGCTCTGGCTCCTGAAAGGAGGCAGATGGAACATAGGAGGAAGAGC
ATATTTGCTGGGGAAGATGTTTGGTTTTGGACATGCTGAGTTTGAGATTTGAATAGGACATCCAGATGGAAATATGTAATAGGCAGTTGAGGTATATAGC
AAGGACTTGAGAGAGTAATTTGAGGGTAATCTGCTTGGGATGTGAATGAGAGCACCGAATAGTCAAATATGGTGCGTAAGTGAGCTAATTTTTTACTTAT
ATATCTGACCCCTTAGTATATATCATAGCCTTTCAAGGGCAGGAATAGAGTCTCCATCCTTACTTCCCAGCACAGTACAAAATAGTAGGTATTTGTGGAA
TGAGTTTACTGAAACAAAAGAGAGAGGTCATTAATTTGGTCACTGTAGAATGAACTTTAGGAGGTCATCTTTATCATTTATTGCCCCTTTTCTCTTCAGT
TGTGATTTCAGTTCCTAAAGAAAAATAAGAGACCGTGGCTGGGTACAGTGGCTCACACCTGTAATCCCAGCACTTTGAGAGGCCAAGGTGGGAGGACCAC
TTGAGGCCCAGGAATTTGAGACCAGACTGGGCAGCAAAGAGACCCTGTCCCTACAAAAAAAAAGTTTTTTTTAATTGGCTGGGCATGGTGATGCACTTCT
CCAGTCCTAGCTACTCAGGAGGCTGAGGTGGGTGGGAGAGAGGATCACTTGAGCCTAGGAGTTTGAGGTTATAGTGAGCTGTGATTGAACCACTGAACTC
TAGCCGGGTTCAAGCAATTCTCCAGCCTCAGCCTCCCAAGTAGCTGGGACTAGAGGCATGCGCCACCACGCCCGGCTACTTTCTGTATTTTTAGTAGAGA
CAGGGTTTCACCATGTTGGCCAGGCTGGTCTGAACTCCTGACCTCAAGTGATACACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGACAGCCTT
GCCTAGTCCAGTTTTTTAAATGCAAGATTAGGTTGAAAGGATTACAGCCATCCTGTTATTTGGATGGCTGAATCCTTTCAACCTAATCTTGCATTAAAAA
AAAAAAAAAAAAAAAAAAAAAGCCGGGCGCAGTGGCTCCCAGCACTTTGGGAGGCCGAGGCGGGCAGGTCACGAGGTCAGGAGCTCGAGACCATCCTGGC
TAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAAAAAAAAAAAAAATTAGCCGGGCATGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGG
GAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCAAGATCGTGCCACTGCACTCTAGCCTGGGCTGACAGAGTGAGACTG
TCTCAAAAAAAAAAAAAAAGCAAAAAAAAAAAAAAAAAAAAACCACAAAGGCTGGATGCGAGGTGGCTTTTGCCTGTAATCCCAGCACTTGGGGAGGCCA
AGGCAGGCGGATCACTTGAGGTCAAGAGTTCGAGACCAGCCTGGCCAAAATGGTGAAACCCCATCTCTACTAAAAACAGGAAAATTAACCGAGCCTGGTG
GCGCACAGTTGTAATCCCAGCTACTCAGGAGCCTGAGGTGAAAGGATCCACTTGAATCTGGGAGGTGAAGGTTGCAGTGAGCCGAGATTTCACCACCGCA
CCCCAACCTGGGTGACAGAGTGAGACTTGATTAAAAAAACAAAAAGAAAGAAAGAAAATGCCTGGCTAGCCACAGTGGTTCATGCCTGTAGTCCCAGCTA
CTTGGGAGGCTGAAGTGGGAGGATCACCAGCAGTGATAGAATGAGACTCTATCTCAATTTAAAAAAAAAGTGATAATGAAGAAGATTGATTATTCCAGCC
ATTCTTCACATACCCAGAGTATGCTTATAGTGGGTATAAGAGATCTCACTACTTAATTTGAACCAACACATGAGGGGGTAAAGATTTAGGAATATAAAAA
GTATAAATTAGTATAGAGCAAACTGGAAGTTCCTCAAGAGTATTGAATCTTTGAAATTGTGTAGCTTACAGAAGTCCTGGTGGAATGTCTGTCAGAAGCT
ATTAGATTGGTGGCAAGAGCGTTCTAAGTGGACAGGTGGATTGTGGAAAGACTAACCCCATCTGTATGCACTCTGTCCTTCTCTTTGCATACTTTAGTTA
GCAGTTGGTTAATTTGCATGTGTGGTTTCAGCCATCATGTTGTATTGACTCATTCTGAAAGCTCTGTGAGGATAGGCCACATGTCTGCCCGCCCCCACTG
CATCTAGCACTTTATGTGTGATAATCTATTGAAAAATATTTGTCAAATGAATAAAATGGTGAATGTATTCAGCAGACATTTAGTGAGACTTGAGAATGTC
CTGTGGGGGTGGAAGTGGGTAGAGGAGTGGTAGGCCTATAAGGATTGATGAGACATAATGTCTGACTTTAAGGAACATAAATCTGGCACTAAATATAAAT
TTTTGAAACTCCTTAATTCTTAGATTAGCCAATGCAGACAGTAAGTAACTTACTGACCTAAACCAGAATTTTTTTGTAACATAGATTTTAATAAATTTCT
TTGTTTTTTGTTTTTTGGTTTTTTTTTTTGAGACAGTCTTGCTGTGTCGCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAACCTCCGCCTCC
CAGGTTCAAGCGATTTTCCTGCCTCAGCCTCCTGAGCAGCTGGGACTACAAGCGCGCGCCACCACGCCCATCTCTAATATTTGTATTTTTAGAGACGGGG
TTTCACCCATGTTGGCCAGGATGGTCTCGATCTCTTGACTTTGTGATCCGTCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACAGCAC
CTGGCTGATTTTAATAAATTAGGTGAAATCTTAGTTATGTAACAGACACCCATTCTGCATTCTTTCTCTACTAATTCAGCTGGGAAGCAGGATTGCTTAG
GGGTCAGTTTTATAATGTTACTCAGTTTTTTTATTTTATTAAAATTAGGGATTTGATTAAGTGGTGACATGTTGCTTTTCTGAAATTACAGAAGGGCATT
TATCTAAAGTGACTGTGACCAAGTAGCAAGATACTTAATTGAGTAGGTCGGTATACTAAAAATAGCTCAACTGACTGTAATGATTCAGGTATGCAAAGAT
CAGATAATGCAATATATTAGTTAAGGGAACTTTTACTGTATATGGTATAATGGTCTATGGTATATTTCCTTGTAAGTTGTTTCTCTCTCTCTCTTTTTTT
AAATGTTAAAGTAATCAAGATGATGCTAACAGTCAGTTACCAGAACTCATACAGGGACCATTTGTGTGGAAACTAAAGCTGCAGAAAATCCAGCAGAATC
CTGCGCTACTATTGTAGTTATTTGTAGTTGTTTAGGCAGAAAAATCAAAGACAGGAAGTTAGGAATGTTTGAAGACATTATTCTAGGGTAATGAATTCAG
ATAAGATGTATTTCACTCATGTTAAAGCTATCCTCTGAAAATAAGACTTGCCTATAGAAGTATCCCCAACCAAAAGCCTATTAGGAACTCCCTAGCCCAG
TCAGACAGAATGTGTATTCCAGGGAGAAGGCTGTATCCTGCTTATGTTAGACTGTACTACATACTTCACGTCTTAACTAGATATACCAATTAAGAATAGG
CAAAACCTAATCAGTTGTCAGAAGGAAGATATATATGAACAAGAGAGAAAACAACTCCATGGAACTCAGAAGGAGAGTCCCCAAACATGAATTTGGCAGT
GATTTTTCAACACTGTCCAGGGAGAACATAAGCCAGCTTTCCACCATCATTTGGACAAATTTTTAGTGATAGGACACATATAATTTATCAGGCTTTATTG
TGGTTTCATTTTCTTTTGGTTTAGATTCAATACTCACCAGATAACTTCTCAGATGCCACAGTATGAGGAATAGGGTACCCTGTGTGGTAAGAGGACTATT
CCCCCCATTGTAACCAAATAAACTGGCATTTGGCCTATATGGTAATTTTCTTCATAAACTTTATAAAAAATAAATATATATTTTGTTGAGGATACAGGGC
TAGTGAAAAATAAAAATATCAATATAACATTAACCTTTTAGAAATTAGTTAGCATAAATTAACCCTTGGAAGCCTAATCAATTCCATGTGTCCAGAAAAA
AAAAAAAGGATTTTATGGTGCTGTAGAACTGAGAGTCATATTCAGGAATAATTCATCTCTTGTTGTAGAAGGCAGGGATCATAGTCTTATTCTTATGTAC
CCAGTGCTTGGCACATGGTTGAAAACTCATTATTGAATTATAGAGATGGCAACTCCAGACCTATAGTGAGAACAACTAGACATTTTATGGCTCTACTCTT
AGAATTATTCTGACATCAAAAGAGTAGTTCTGCCATTTCTTTAACTCAGCAGAAATCATTCATTAAGTGATGAAAATAGAAGCTTCTAAACAAACCAGAG
CCTTAAAAGGCAAATAAAAGGTATATGCATCTGTTAGAAAAAAAATGGGAGAGCTATGTGGTGTGTTTGAGGACAAAGACAATCTGTTTCATTATTTTTA
TTTGTAAATAATTTTTAATTTTATTTTGTAGACCTTATTGCAATATGCAAGCAACAAGAATGCATCAGAACATATTGTGTATCTTCTGGAGGTATATCGA
CTTGCCATCCAAAGCTTTGCCAGTGCACGTCCATACTTAACTACTGAATGTGAAGATGTCCTCTTAGTGCTTGGCAGATTAGTACTGTAAGTTTGAGAAC
TTAAATCACTCTTAAAATTGAGTACCATTGGTCGTGTTGTTTGCCTGGTTTCTCTTTACAGTGGCATCACATTTATTCTTCAGAGCACCATTAGAGTCAT
ACCATTGAATGAAATTTCCTTCCTACTCACGTTCCCAGGAGATATAGTCCAAGTGAAGCTCCAGCCAAGCAACATCATCTTTAACTTGCCTCTAGAGTCT
CTTTTCCTATTCAGGCTTGGAATCTGAGAATGATATATTTCTATCCCTTAGGTATAGATTGATTTAAATGACAGAATACCTGGAAACTGGTAGTCCTTGA
AGAACATCTTGGCAAAAACAACATGAAATTCTGCAATTTGATTATATTTGAACTAAGAATAATTTTATTAGCAAAAAATATCAGGGTACAGTATAAGATT
ACCATCCTAAGAAAGAGATCATGATTTAGCGCGGGCATGGTGGCGCACGCCTGTAATCCCAGCACTTTGGGAAGAGGCTGAGGCACGAGAATCGCTTGAA
CCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATGGCGCCACTGCACTCCAGCCTGGGTGGTGGAGTGGAGACTGTCTCAACAACAAAAAAAAAAGAACGTG
ATTTAGCTGTTATTTTAATATTTAGCTGCATAGTAGCAGACAAAATTACACCTTTATTGTAATTTTCATCTGCAAATTGAAAAGATACAACAGCCAATCA
GTTTTAGCTGGGCATCACCTTGTTCAACTTACAGATTGTTTAGTGAGATGACTTCTAGTCTAGATGGTTTATTTTATTTTTTTTCTAGCCTCACCTGTTT
TCCTTCCTATTTTCCAGTGGCCCTTTATGGAAGACCAGCATTCCTGGTTTTATGATCATATTTTTCCTTCTACCAAGTCCTAGTTTCTGTTTTACCTATT
GTAATCCCTAAGGGGTAAAGGATTATTCTGTAGGGTTTTAGAGAGATGTTGATTCATTGGTATTTTGAGTTGCTCATTATTCAAGTTGTAGTGCATTTCT
TTTTTCAAAAAAATCTTCCTGTTATTTCTTTTCTGTGTCTTCTGGATAATAGTCAGAAAAAGGAAACTCTTTTGCTTGGTTTTTTTTACAGGTAAAGAAA
CGACTTTGCCAGTCTTCCTGCTTCCTCTGCAAGTGACAGAAACCTATAGATAACAGTTACATATATTTATCATTTATCATTTTATCAGCTGAATTGACAG
TAGTATGAGCTCCCATTTTTGTCTACTGGAATTAGAATTGTCCTATATGGGTGCCTCTTCACACCCAAATAAACAAAATAAAACTGCTTGGAATGTGATT
TCTAAAGAGCTTATTATATTCTTACCAAATGTACTAAAGCAACAATGTAAATATAAAGCCTTGTGGTCTTTCTTTTTTTCCTCCTTTTTAAATTGAACAG
TCAATATAACAACTCTGAAGCAAATTTTGAAGAGTAAAAACATTTAAAATAGCCTAAACAAATGTAAAATAGATTTTTAGTATTGCTGTCATACTCTACT
TAATTATTACTATAACCACCTTTATATACTTACTCATTTTTATTGTAGGAGTTGTTTCGAATTACTGCTTTCAGTGTCTGAAAGTGAACTGCCATGTGAA
GTCTGGCTACCATTCCTTCAGTCTCTACAGGTGAGTTGATTTTAACTCAGAAAAGTTTTCTGTATCCAAGACACCTAATTAATTACTCCCAGCAAACTAA
AATTGGAACCTTAGAACAAAAACAAGTTTATTATATATTGATATTAGGTCATGAAATGATAAAAAGGCCCTTCACATGAAGGGGATGTATTAAAAATGGG
TTTTTTAAATTTGGTTTTGTTTGCCTCTACATAGTTAGAAATCAACAAAAAAGTTTCATTATTCAAACATAAAGTTTAGACAGCATAAAGCTATCAAAAT
CATACATGATTATAAAGTAACAGTATTTGGATCCTTCATAGCATACTTATTGGTAACCTTCAATATACAAAACACTATTTCATTACATCTAAGGTTCACC
TTTTTCTTCCTAACACTTTAAGAATTGTACCTGGCTGGGTGTAGTAGCTCACGGCTGTAATCCCAACACTTTGTGAGGCCAAGGCAAGTGGATCACCTGA
GGTCAGGAGTTCGAGACCAGCTTGGCCAACATGCCGAAACCCTGTCTCTACTAAAAATACAAATATTAGCCGGGCATGGTGGCGGACACCTGTAATCCCA
GTTACTTGGGAGGCTCAGGCAGGATAATCGCTTGAACCCAGAAGGCAGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGAGCAACAGAG
TGAGACTCTGTCTCGGAAAAAAAAAAAAAAGACATAATAAATAATAGACCGGGCATGGTGGTACATACCTATAGTCCCAGCTACTCAGGAGGCTGAGGCA
AGAGAATCTCTTAAGCCCAAGAGTCCGAGGCTGCAGTGAGATATGATCACACCACTGCACTCCAGCCTGGGTGACAGGGCTCATCCCTAAAATAATAGGA
CTCGTCTCTAAAAATAAATGCATGCAGTCATTCATTTATTGATCACTAATTATGTACCAATCACTGCTTTACACTACATTTTACTTGTTTTATATCTTCT
AATCAAATTACAAACCTTATAGTGTGAGAATTATTTGAATCTCCATTTACAAATGGGGAGACAGGTGAAGAGAGGTTAATTAGCTTGGACAAAGTTACAC
ACAGATTTCAAACCCTGAGCTTACTTTGCTAACTACTTCCTTGAGGACACAGCTTAGACCTGTTTCATGGAGGCACAAATAAAGACATGCATATTAACAG
ACACACTTCATTATCTGAACATTTCTTTCCTCTGGAATACATAACCCAAAATGAAATGATATAATGTTCTCTTTAGTGAGAAGAGGATTCTTTGTCATGT
TCTTGGCCTATTTAAAGCCCTGTAATGCAGTCCTAATATCTCACATATCCGTACAGCTGCTAAAATCATCTTTCATGCGTAGCACTTTGATTTTTGTCAC
TCTGTGTTCTGAAGCCTGCCAGTCGTTTTGTTCTGGCATATGGCATCCTAGAAGGGCAAATCCTAATTAGGACTATTACTACTATATTAATACTGTTTGA
GTATCCCATATCTCAAATGCTTAGGAGTAGTTTGGATTTTGGAATATTTGCATTACACTTAGTAGTTCAGCATCCCTAATCTGAAAATCCGAAATGCTCC
AGTGAGCATTTCTTTTGAGTATCGTGTTGATGCTTACAAAGTTTTGGATTTGAGGAACATTTTGGATTTCAGATTTTTGGATTAGGGACACTCAACCTCT
ATCCTTTTTAGAGGGAAATCTCTCATATTTCTTTATTATTTTCTTAGCTTGCTTGAATAAAATAGTTGCCTCTTTTTCCACTTGCATAAGCTTTTTCAGG
TTTATCAGATGTGTAGGATATATTTTTTAACATGTGTTCAGTAAATAAATGTAGTAGGGGTACAAATAAATGTTAAGACATGATCCCTGTTGAAATCCAA
AAGATAAAAAGCCCTTAAGTTTTCTTATTTTATATTATAAATGGACAAGGCAGCAAATGGTATTAAGGATACTTTTGGTAAGAGAATAGTTTTTATCAGA
GCAGGCTGCAGGTAGAATATTTCTCAATTACTATTTACAGCTGAGTAACTTTTTTCCTATGGACATAAAAATATACACTCTGCAAATGATTTTTTAATGA
AAAATGACAGCCTATTTTCTGCAACTTGGTTTTTTACATAATAATCATGGACATACATCTAAGATTGCATATGTAGATCTCCTGTTTTGATGATCACCTA
GAATTCTGTTTTGTGGTTGTGCCTTTAATTGACCAATGTCTTGCTATTTACTGTAAATGGTGCAAGAGTGAACATCTTGAAAAGGGCGGCAGAGTGGTCT
TAGCAAAAAAAAAAAAAAAAAAAGAGCATCTTGTGCTATTATTTCTGTATTGTAGATTTCAAGAACTGGGCTAGGATATTTCCACCTTAAAAAGAAACAA
ATTGAAGTTTTAAAATTATTCTTGAAATGCTACCATAGTTTTTGTAGTTTTATAGATTTAACATTATTTTTAAAAAATAACTTTGCTATATTAGATGTCT
ATTGGTAACAAAGGATTACATACCATTCTTATTCTGAGTAAACTGTATTTTGAACTTTAACAAATGAGAAAGTAGAGAACTTTTAAAAAGAAACTCAAAC
TGTGGTTTTTATTTCAGTTGCTGCATATCATGGTGGGTGGTAGTATTTTCTGCTAAAGTGTAATGGTACAGGTCAGTTAGACATTATAAATATGATAAAC
CTGACACCTCAAATTTTTAACTTTTCACATGGACTTTTTCTCCTCACTCCAAAGTAAACGCGAGTCATTCTAAGTTAAGAAGAAAGAAGCCTGAGGACAA
GTCAAGCTGTTAAAGCAAAATTGCAGCATTTGTTAAATATTGCTATTGGTGAACTAATAATTAGAAATATTACTTTCTGTATCAATTCCATATTTTAAGT
CCTTTCTCAGTGGAAAATAATGCAACATATTGGGTGGGTGTGTGGGTGGGTGTATATGTGTAGTAAAAGCCTATTTTAACATGAAGGTTAAGGGATGGGG
GAGACTTTATATCTTGTAGTTTTCACTTGAGTGAATACTAAACTATATTCTTATGCCTGTGAACATTTTTGGCTTATATTTTCCAAAGAAATGTTGACGT
AAATGGAAGCTTATGTTCCTAGAGAATTTCAGGAGTTTAAAATAAGGGAAACAAATTAGAATTTTAGAACATGGGAACAAGCTCACCATAATCAATAATA
CTCAGTAGTAATAGAGGACAGTGAAACATATACGTAATCATTTATACTGAATTACATTTCTGACTCCTTTTCCCTCACCCTTGAATATAAGAACTTTAAT
GAACAAACTATTGGTAAATACATTTTGTTTGCTGAGTTAATAACTTAGACTTTTCAGGACATTTTATATAGAGCCACCTGTCATTTAAATAGCAATTTTT
TAGACGAATTTAAACAATTATATAATGATTTGTGTCACTAAGTAATACTCCTGTAATTCCTGTTAGAGGAACAGGCAGCCTGTGTGAATACTGCAGAATT
CTTTAAAAGAAAGCGGCACCAATGGCTTTCAAATAATTAAATGGGCACAGTGGCTCATGCCTTTAATCTCAACACTTTGGGAGGCTGAGGCAGGTGGATC
ACCTGAGGTCAGGAGTTCGAGACCAGCCAGGACCAACGTGGCAAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCAGGCGCCTGT
AATCCCAGCTACTTGGGAGATTGAGGCAGGAGAATCGCTTGAACCAACAAGAGCAAAACTCCATCTCCAAAAAAAAAAAACCAACAAAACAAAAAAAATA
AATCAGCCTCCACCAGGGCTATCATTCAAGTCTTCAGAGTCTGCTAGTAACATGAGTGATCCTAATAGTAGGGCACTCCAAATATCCAACAGTAATGCAA
GGACCTAACTTGAATTGTGATAATTTTACCAGGGAGGAATTCAGGAAAACGTTTTAAAGGCACTCTTTTACTTAGTGAAAACATCCTAGTTATTTATTTA
TTTATTTATTTATTTATTTATTTATTTATGAGACGGAGTCTTGTTCTGTCACCCAGGCTGGAGCGCAGTGGCACAATCATGGCTCACTGCAACCTCTGCC
TCCCAGGCTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGAACTATAGGTGGGTGCCACCACGCCCGGCTAATTTTTTGTATTTTTGGTAGAGA
CAGAGTTTTGTCATTTTGGCCACGCTGGTCTTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTAAACTTATTTTCTGGGTGTGCTGTTCTTGTTCTAGGAGTCACATGATGCATTAT
TGGAATTTGGGAATAATAACCTACAAATATTGGTTCATGTTACCAAGGAAGGGGTGTGGAAAAACCCAGTTCTTCTTAAAATTCTGTCTCAACAGCCAGT
AGAAACGGAGGAAGGTAAGTCTTAAGACTATATTGGYTGAGGATTTAGTTCTGAGAAMGTTGGAATTGATTATGGGTTAAAATTTTGGGAATTTAACTTG
TGTATATATCTAGTCTTTCTGTTTTTACTTTGAGTAGTAAAAATTAACTATTAGCATTTAATGTTTTGCTTAAGTAAGGATTCTTGCACTGTTAGTTTTA
AGTCCCTTTACACTCATTTTTAAATTTTGCATTGAGTAGCAATGTTCATACAAAGTTCCTGAGACAGAAATGAATAATCTGCTGTAATCTTTGGTGTGTG
GTAGAGCTTTGCTTATACTTTTCTTTTCTTTTTTTTTTTTCCCGAGACGTTGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCAGGATCTCGGCTCA
CTGCAACCTCTGCCTCCAGTGTTGAAGCGATTCTGCCTCAGCCTCCTGAATAGCTGGGATTACAGGCGCGCGCCACCACGCCTGGCTAAGTTTTGTATTT
TTTAGTAGAGACGAGGCGTTACCATGTTGGTCAGGTTGGTTTCGGACTCCTGACATTGTGATCCACCTGCCTTGGCCTCCTAAAGTGCTGGGATTATAGG
CAAGAGCCACTGCGCCCGGTCTGCTTATACCTTTTTTATTGGCTGCAACAACTGAGGGCCATGAAAAMAGTTTTTTTTATTTTATATATATGAAATAATT
GGAATTCATTGTTTTATAGAGAGATGCAAAGAATGAAGTTTTTGTTGTTTTTGTTTTGTTTTGTTTTAATTTGAGACAAGGTTTTACTCTGCTACCCAGG
CTGGAGTGGCACAATTATGGCTCACTGCAGCCTCTACCTTTCAGGCTCAAGTGATCTGCCTGCCTCTGCCTCACAAGTAACTGGGACTACAGGCATGCGC
CACTGTGTACAGTTAATTTTTCTATTTTTTGTAGATATGGGGGTCTCACTATGTTGCCTAGGCTGGTCTTGAACTCCTAGACTCAAGAGATCCTCCTGCC
TTAGCCTCCCAAAGTGCTGGGATTACAGGCATGAACCACCATATCTGGCCAGAATGAAATATCTTATTTGCAAAATTGTCAGTCGAAGACCAGAAAAATT
ATGTATTTGAATTGACATTTGCATTTTAGATCACAAAAGTATCTTCTTTGATAGAGCCAACAACTGTAACTTCATTTACGTCAAGTTAGTGGAAAGTTCA
AAGGATTACACTCTGTTAAGTACATTTTTTGCTATAAAAACAGACTTTAGAACAATTATTACACATTTTGAGATATCTTTAGGTCTTAGAACTAGCCATT
TGATTGTCGATCCTTTAAAATATCCCAGTTAGTTTATCCATTCACCAAGCTTAAGCACCTACCATATACATGGTGTTTGGACCTCTCTGTATAGTGAGAA
GATGGGCATAAAGGCACTTAGATTTTCTCTTGATCCGTTTCCTCTGATCATTCTAGTGCTTACCAGTTGCACTGACAAGAAAAAAAAAGAATAAGGAAAA
GTGCTGTTAAATAGAAAAAGCATTGGTGTTTATAGTTTTCCATTGAGGTCCTCAATAAACGGCATCCCCTTGTAAATGTAGGTAGATGGAGGCTAAAGTA
TCACCTTTGTTATTGACAAAAGCTGTTAGAACCAGGTAATTTCAGAAACATCCCAGAATTGGGCAGATCCTATCCAGATAAGTCTTGACTGGGGCAGAGG
AGATTGCATGTTTTGTGCAGGCAGGCCCAAGCCCAAGAGGAAAAAAGGGTGGGGTTGAGTTAAACATCCTTAGTGTATTTTCCCCTGATATACTAATCAA
CTATGTCACCCCACCTCTGGAGTTAACAGTAATTAATCATTTTTAACATAGAAAAACATCAAGAAATGGGGAGAAGCATTGCTTACCTAACATTCTTGGT
ATCCTGTTTATTCAGTAAATATTAATTAAGCACTCACTATCTTTAAGACTCTGAATAGGTACATGATACCTACATATCCAAGGAATTATGTTGAGGACCA
CAGTATAAGTGGTGGGTAACATGTAGCCTGCCTCCTTTCACAGTTGGCCCTTAATCTAATTTCAGGTCAAAAGATTAAAAAGCTTTCTTTATATCTCTGC
TGCCCCTGCAGGCCAGATATTTAACATATTTGATACCAAAAAGCAGTGATGTTCATCTCACTGATTGTCTTCTGTAATAAGTGCCAATTGTTGATAATTT
TACCTGATATTCACCTGACATGATCAGTAAAGATGCCATGGAAGAGCTGTTTTTCTTTTCTGTTTTTTTTTGAAATGGAGTTTCGCTCTTATTACTCAGG
CTGGAGTGCAATGGTGTGATCTCAGCTCACTGCAACCTCTGCCTCCGGGGTTTAAGCGATTCTCCTGCCTTAGCCTCTCGAATAGCTGGGATTACAGGCA
TGCGCCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCC
TCAGCTTCCCAAAGTGCTGGAATTGCAGGTGTGAGCCACCGCGCCCGGCCTCTTTTTTTTTTTTTTTTTTTAAAGACAGCGTTTCACTCTTGTTGCCCAG
GCTGGAGTGCAATGGCGTGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGC
ATGTGCCACCACACCCGGCTAATTTTTTATATTTAGAAATGAGTTTTCACTATATTGGTCAGGCTGGTCTCGAACTCCTGACCGCAGATGATCCACCTGC
CTCAGCCTCCCGAAGTGCTGGGATTACAGGCGTGCACCACTGTGCCCGGCAGAGCTGTTTTTCAACTGGATCTTAAGTGTTACTGTTTTTACATAATGAA
GTATATAGTATAAGATAAAGTGTCATGATGTCTGCACCTTTCTTTTAAATGGTTCTGAAAAAGAGAAGGCAAAGAAATGCGGCAAACCAGTTCAATTGTT
AAATCTAGTTGGAAGGAAGGGTATAAAACTAAAAAAAAATTTTGTATTGAAATGTTTGAAGAAATGAGATACAGAAAGGATTGTGATTGGGAGTGAGACA
TATTGTTTTAAATATTGAAGCATATGGTAGATTTCCTTTCAATAAAGAAATTCAAAGATTGATATCTTCAAATGATTTGTAAAATACAAGATTGAGCCAT
ATGTTAAAATTGATTTAGCAGCAGTTTAACTGTAGTTATAATTATTGAATAAAATAGCTTACCGCATAGAAATAATAGCTATGATTTTTAGAGTGCCTGC
TATGTGTTGGGCACTGTATTTGTGCTTTCATATCTCATGTAATCCATGAAACAGGTGAGAGATTACACATACCCAAGACCATGTAGTTACAATTGTGGAG
GCAGAATTTGAGCCCAGGTGAGGTGACGTTAAAATGTTTTTGATTGGAGAGTGATGACCCTTCAGTTGCTAAGTGCATGGTTTAATTAAACATCCGTAAT
ATACAAGCCCTTGTGCTTAGTGCTGTAGGGAATACAAAGGCTAACAAGACATGATATTTGTTCACAAATTGCTGACAGTGTAATAAAGGAGATATCAGAG
ACAATAGTAAGTACTATTAAACATTTACTCCGTGTTTGGCCTTGTGGTGAGTCTTATCTGCATTTCTAGTATTTCTTTAATTTGTTCATCCATGTGAGAT
GGGTATAACCTTTTTACAGATGAAGAARCTTGAGTCTCAGAGAGGTCAGTTAATTTGTCCAAGGGTCTCACAGCTGTGTGTCAGAATCAGGTTTCAACAT
CAGATCAGTGATTCTAAAACCTGAAATGTTAACGTTTGTACACTATAATCCCTTATCACTGTTCTTCGAGAAAACTAAATGTGGGGAAAGAAGTAAAATG
CTGTGGGAATTTGCAAGGCGATAGGTTGTGTAGGTAATATGCCTGTTATCAGGTATGTTGCTTCCTGTTGGATTTGCAGAATTGCTTACAACCTCATATG
GCAGGTAAATAGAGCAGAATCTGATGTTAGGCAGGCAGAATAGGATATAGGGGAGACGTGACAGGAAATAATAGGCATGATTTAGATTGGAGATAATTAG
AAAAGAATTACTAGGACATAATAACTAAGTTGATTTCCTTGAGGAAAGGAAGTATCAAGGAAAGATAATTCCAAAATTTTATTGTTGTATAATTGAGAGA
ATATCATTGCTGAAAATAGAAGTAGGGAATAAGGAGCTATGTGAGTGAAGGGTATGACCGTGAGTTCATCTTGTGGAATTTAGTAACTGTGGGACTAAAA
TGGAAAAGTCCAAGTGATTGTGACCTGTTTTCCCTCCATGCTTTTTGACCTTGACTACATATTAGAGTATCTATGGAATTTAAAACCAAAAAACATACAT
CCCAAGGTCCAGACTCCACTTGCTAAATCATAATCTCCAGAGTTGGAGCTCTGGAATCCAGAACTTTTTGAAGTGCCTTAGGAAATGGGCACTTACATAT
TGCTGATGGGAATATAAATTGGTACAATTTTTGGAGAGCAGTTTGGCAGTATGAGTCAGTATTACAAATGAACAGAGCCTTTAATTTAGCAATTCCGCAT
CTAGGAATTTGTTGTGTAGATTTATTCACATGTTTCAGATTACCTGTATATAGGGTTGTAAGTTGCAGCATTATTGATGATTGACAGAGATTGGAAACAG
CCTGCAAGTGTATCAGTAGGGGATTGGTTAAATAAATTATAGCACATCCATACCACATAATGCTATTCAGTTGTTAAAAATAAGAAGATAGCTCTAACTG
CACAGATGATAGAATAACCTGTATCATATATTAAGTGGCAAAAGAAAATGTCTTCCATACTCATAGAATATTTCTGGAAGGATAAACAAGAAATTGGAAA
CTTGTTGTTTCTCAGGGTGGGAAACCAGAGCACTGGGGTCAGGGTAGGAGGGAGAAAAACTTTAACTGTATAGCTTTTTCTGTCCTTTTGAAATCTGTGA
TTATATATATATATATGTTTTTCTTTATATTATTTTAAAGGATAATGTTACGATTGATTCTCATATGTAGTTAAAATTGGGCCAGTGGTTTATCCTTAGT
ATAAACCATTGCTACTCTACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACTGGTTTATCC
TTAGTATAAACCATTGCTACTCTACACACACACACCCCAGTGGTTTATCCTTAGTATAAACCATTGCTACTCTACACACACAAACACACACACCCCCCCC
ACACCTCACACACACACACACCCCCCCCCCCCCCCCCGCAACCTGGGAGCTTGTGAGAAAAGCAAAATTTCAGGTCCCAGACCTAATAAATCAGAATCTG
CATTTTAATAAGCTCCCTAGGTGATCTAGGCACTTTCAAGTCTGAGAGATACTGTTTTAGATTAACCACCTAAAGCAGTTTGTTTACTCACCACTTGGCT
TGACATGCAATATTCTCACCTCTATTCTTTAAGTAATACTATGTAGTGATGTCACATACTTGTTGGATATTTACTATTCAAAAATTGAGGGCTCGGCCGG
GTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAACGGTGAAA
CCCCGTCTCTACTAAAAATACAATAAATTAGCCGGGCATGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACC
CGGGAGGCGGAGCTTGCAGTGAGCCAAGATCGCGCCACGGCACTCCAGCCTGGGTGACAGAGCAAGACTTCATCTCAAAAAAAAAAAAAAAAAAAAAATT
TGAGGGCTCATCCAGAGCACTGTACAGTCAATGCCAAGTGCCTAATATTCAGTACAGCTCAGAAGTACTGAGCTTCAGTACTTCTGAAGCTTTCAGAGTA
GCATTTTCCAAAGTGTGTACTGAACCAGGAACACATGTTTTACAGGTTACTAATATGTATAAAAGGGTTCTCTGGTCAAATCAGTTTAGGAAACATTGGG
TTTTTAAATAAAAGTGAACAGTTTTCTTTATTGCAGGACTGTTCAGAGATTTGACCAAGGAATCCTTTTTTTTTCTAGGACTATCTCTCAGGTCTTTTGG
TCGGTGGAACACACTTTGAGAAATGCCTGGTTTAGAGGAAAGAGCACCACTGGCTTTGGAATCCTTGGCAAGTTACCTAACTTCTGTGAATATTAATTTT
CCTAACCTTAGACTGGGGATAATAATACTTGCCTTGGTGGTGGTGTGAAGAATAAATGAGAGGTATATAAAAATATGCAGCTTAAAACTTGATGTCTCGT
AAGCATTCAGTTGATAGTTGTTAATATTACATAGGTTACTTGCTTCATTTCTTGCATTTATGCTTATAGTTCATTTCACTATTTCTTAATTTTCCTCTCA
TCTCTATTAGATGAATATTGAGACCAGAGTAAACTTCTCATTTATATAAACTAAATTTTTATTAACTAAAAATCAAATAAAAAGATCTCAAACTTTCATC
TTAGCAAGTCTGACATGTTATGTGGTATGTTGTCAAACTGTTTTATTTTTCATTTTTTCTAGTCAATAAATTGATTGCACAAGAAGGACCTTCCTTTCTG
CAAATGCGAATAAAACATTTGTTGAAATCTAACTGCATCCCCCAGGCTACTGCTTTATCAAAACTATGTGCAGAATCTAAAGAAATTTCAAATGTGTCAT
CTTTTCAGCAAGCCTATATCACATGTTTATGTTCTATGCTCCCTAATGAAGATGCTATTAAGGAGGTGAGTAAATAATTGTTGTCATTCAAACTTGGTAT
TAATTTAATAGATTTATATATATATTGCATGGTTTATTTTTTCCCTTTAGAATGAAAACCAAGATTCATTTTTTTCAGGCTACCAAAATGTATGATTTTA
ATTGTATATTTAACTGCTCGACAGATWGAATGTAATATTTTAGAGTGAATTTGAAAAGTAGATAACTAAAGAATATACAGAGGCATGTTTACTTATTTGG
GTGATGATTTGCTGTGAAATCTTTAAATGTGAAAGTTGTTTTTTCTTTTTAAAGTAATGACGTCTCCATGTTTGGGGAATGCAGAAGTTGTTAATCATGG
CATCAAGGGATAAACTAAAGAAAATGGCACTTAATTTTAGCTTAAGTTACTTTATATATTTAATTTTGTAAGCAGAAAAGTATAGGACTCTAGATTCCAT
GACTAYATCCTGAACAATTAAGTGGCCAAACTGGATATCATGGAAAATAARGGTTGAGTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAAGGTCTTGCTC
TGTCACCCAGGCAGGAGTGCAGTGGTGCAATTTCGGCTCACTGCAGCCTCTGCCTCCCGGGTTCAAGTGATTCTTGTGCCTCAGCCTCCCAAGTAGCTGG
GACTAAAGGCATGCGCCACCATGCCTGGCTACTTTTTGTACTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAAGCTGGTCTTGAACTCCTGACTTC
AACTGATCCACCTGCTTCAGCTTGTACTACTAAAAGTACAAACATTAGCCAGGCATGGTGGTGGGCGCCTGTAATCCCAGGTACTCAGGAGGCTGAGGCA
GGAAAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGCATCGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAAGAGTGAGACTCCATCTCAAAAAA
ACAACAACTATTTTATGTATCAGATTGCATCCTTTAAAAAAAAAAAACCTCAATTATTATGTTTCTTAAATTTGGAGTTAGACTTCTCTAATGGTTTTTG
ACATTATACAGAAAAAAACTAGAGATTCTTAAGCTTTATTTCATCATCTACCTTTAATCCTCTTATCTGCCATTCAATTCTGACATATGGATTCTTACTC
TGAACTGAAATTTTTTATTAGATGTAGTAGTCCCAAGGATCTGGTTTTATGCTGTAGTAATTCTGAAACTTTTACTTGTAATATCTTACTCTCCAAATAC
AATTGTCTATCTTTCTACCTTACTCCCTTTAATATACAGTCTCCACCAGGATCAATCAAGATCTATTGATCTTGTCACCTTTTCATTTTCCCTTATCCCC
CTTATGTATTCACTTCCCTATTTAACTCTGCTTTGTCATTGTCAGATCATCATTATCACTCTCAAAGAGCGAGAGGTCCTCTCTCTTTTTTTTTTTTTTT
TTTGACAGAGTCTCGCTCTGTTGCCCAGGCTAGAGTGTAGTGGCGCGATCTTTGCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTG
GGATTACAGTCGCCCACCACCACGCCTGGCTAATTTTTTTGTATTTTTGTAGAGATGGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCT
CATGATCCACACGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCTCCCGGCCACTGGTCTCTCTCTTAATTGTACTTGTTTGACTAC
CAGTATCCTGATTATCCCTAAATCTTCACCTACTCTATGTGTTTACCTGCACTCATGGGGCCAAATTTACATGGAGAAAAATCTGCCAGCTAATTTTACT
CCAGGCTAGAGTGTGGTGGCGCACACTGCTCACTGCAGCCTCAAAATCCTGGGCTCAGGTGATCTTCCCACCTCAGCCCCTGGAGTAGCTAGGACCACAG
AAACATRCCACCATTCCCGATTAATTTATTTTTTATTTATTTTTTATTTTTTTGGAGAGACAGGGTCTTGCCATGTTGCCCAGGCTGGTCTCGAACTCCC
AGGGTCAAATGATCCGTCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTCACTGCACCCAGCCTATATTTCTTTAGCCCATTCATTC
TCCCACTCTTAGATAGTTGCATAGTTTTTTCTTATTCTTCAAAACTATACTGTAATACTTTCTGCCCTGTTTCACTCTCTGTTGCTGAACTTAACTCCCT
ATTTCTCTGAAAAAAATTGAAGCGCTGAGAAGATAAATAAGAGAATTTTCATAAGCTCTGTCTCTGAAACATCTATTCATCTACCAGCATCTATGAATGT
ACATCTTCTCTTCTGTTACTAGAGATAAATTATATCTGTTCTCCTAGCTAAGGCCAGCCTCCCTCACTTCTGTATTTCAATTGATGTTGTCTCCCTTAAG
GATAATGCTACAGCAGTTCTCCTTTTCTCTATTACATCATCGATTTCCCTGTCTCTGTTATAACCACCCCATTGGCATTTATGCTATTATTTATTCTGTC
CTTAAAAAAGAGCTCTTCTTAGGTCCAGAGGTGGTGGCTCATGCCTGTAATCCCAGCACTTAGGGAGGCCGAGGCACAAGAATTGCTTGAGCCCGGGAAT
TGCTTGAGCCCAGGAGGCAGAGGCTGCAGTAAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAACAACAGAACGAGACTCTGTCTTCAAAAA
AATAAAATAAAATAAAAATAACGCTGCTTTAGATCCTGTTTCTACTTTTAGCTACTGCCCCATTTCCTTCTGGCTTTTTAAGCATAATTTCTTTAACAAA
TTGTCTTAATTTACTATCGAACATTTTCCTTCCTTCTTTTTTTTTTTTTTTTTTTTTTGGGACAGAGTCTCGCACTGTCACCCAGGCTGGAGTGCAGTGG
CACGATCTTGGCTCGCTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCC
CGGCTAATTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTCAGCCAAGATGGTCTCCATCTCCTGACCTCGTGATCCGCTCGCCTCTGTTTCC
CAAAGTGCTGGGATTACAGGCGTGAGCCACGGTGCCTGGCCCATTTTTCTTCTTTCAAGACATTCTAATATGACCTTTGCCCCTGGCASTATACCATATC
ACTAAATCTAATGATGACTTTCAGTTTTCTGTCTACCTCATTGATTACTCCTTTCTCAGTTCTACTTTGCTGTCTRATGAGTACATGTTGCAGTACCCAA
TGACTCTGTCATTGGGTCTTCTCTTTTTACACTTAACTAGGCTTATTTCCTTCATCTTTGGCTTTAAATACCAACTATGGTCTGACTCCCAAAAGTTTTC
TCTCCAGCCCTGTTCCCTCCTCCAAACTCCAGACCCATATCCAATTGCCTAATTACCATCTCTACTTACAGATTTAACATGTCCGTAACTAAGCTCTTGA
TATTCCTGATATTTGGACTTTGCTTTTATGAGGGTTTTTTTTAGTCCTCACTATGTGTTTGGCACCATGCTAAATGCTTTATATACTTTGCTACATTTAA
TCAGCACAATAGCTCTGAGGTAGCTCCATTTTATTGATGAGGAAAGTCAGGCTCAGATTAGGTTGTGTGCTTCAAGGTTACAAAGCTAAAGTGGTTAAGC
TGGGATTCAAACCTGAGTTTGGTGTACTACCAGTAATATTATATTAAAGACATAGGATAAGGAATATTATCCTTGTTGGTATTTACCTTAGAGTTTATAT
GCCAAATGCTGTGTTAGGCATTGGGGTTCAAAGATGAATGCAGAAGTCTCTGGACTGGCATACTTGGTTTTACTGTTGGCCTCTACATTTTATCTTGAAA
ATAGCCAGAATAATCTCTCTAAAACTTGTCGTGCCATGCCACTTCTCTGCACACAATTATCTAATAGCTTTCCATCTTACTCAGAATACATTCAGAATTC
TTTATTCTATGTGCCATGGGCCCTGGCTACTTTTCTAACGTTCTCTCACCTTATCTTGTAATCTTAGTGCCCACTACTCTCCAGCCRCCTTGTCTTTGCT
GTTCTTTGAACAAGCCAAGGATGTTCCTGTCTTAGAGCTTTGTGCTTGCTATTCCCTCTGACGAGAATTGCCTTCCACAAGATAATTTGAATGGCTTACT
CCCTTACCTCATGTCTGCTCTAAATGTTCTCATGTCTGTTCAATATTACCATATCAGAGAGGCCTTCCTCGCTGTCTCATCTAAAATATTACCCTAGCCC
CCTACTCTGCCCTAAATATCTGCTGTCATTATTATAAATATATACTAACCCATTTAAAATGACCCCTATCACTTTGTCTTTCTGCCTATTTGTATTTTCT
TCATAGTACACATTACTGCTTCTACTAGGCATCATATTTGATTATTCGGTATTTCCTCCCACTAGATTGTAAACTCCGGAAGGACAGGAACATAGGTTGT
TTACTGGTATATCCCTGTATTCTAGAAGAATGCTTAGCCATGTAGGCACTCAATACTTATTGAATGAATTAATGAAAGGTATAGCCTCATCCCTTGATCT
TTTGTTACTAGGATTTCTAGCTTTATTACCTGAGTTATGACCAGAATGTCAAAGCTGGAACATTCCACTCATGCTTTCTAAGTTTTTAAACTTTGCTTGG
AGGTCTTTTTGAATTTTAAAATTGTGATTTTATATTTCTCTCTCTCAGCTTTATTTTATTTTGAAATATAGTTATGCTATCTGTATATTTATAAAAATAA
GAACCAAGATGAAACCAAGTACAGTGTTGTGATTCAGATTTCTGTATAGGTTGATTGCATCCTGGATCAGTGCTTGGGTCAATAGTTATTTCAAAYGGCT
AAGACCCCCTGCTATGGCCCAGATCATATCTCCCACTGTGAGAATCTTTTATCAGATTTTTTTGTTGAAAATTGTTTTTTTTGGAGACAGAGTCTCTGTC
GCCCAGCCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAGCCTCCACCTCCTGAGTTCAAGCAGTTTTCCTGCCTCAACCACCTGAGTAGCTGGGATT
GCAGACGTGCGCCACTACACCTAGCTCATTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCACGTTGCCCAGGCTGGTCTCCAACTCCTGACCTCAAGCA
ATCTGCCTGACTCAGCCTCCCAAAGTGCTGGGATTATAGGCGTAAGCCACCACGCCTGGCCCCTTGTTGAAATTTAAGATGTACTTATATCTAAGATACT
TCCCAGTGGCCAAAATACTGACTCCAGGAATTTGTGATTCTGTCCTGGCTCCTAGTAGTCTTTGCATTTCTATCAACTAACGTATTTTTTCAAGTGCTCA
CAGACTTTATTCTGGGATGGATATTGGGTTAGCAACATTCCACTTGGAAGCACTGTGGCCTGGTCTTTGAGATTTAGTAGTAACTTGAATCTGAGAGGAT
TGTCTAGGCAGGGAAAGTATAGATAGAGACAGAATGCTAGTCATCTTTGTTTTGGGGAATGACCTTACACAGGAGCACAGATACGGGATGCAGAGATGAA
ACAGCCAGTTGGTGGCTATGAAGTGGACAACATGTAGTTTCCTCAAATGGGGATTGAAGCTATGACCTAGGGCCTCATTAATAAATGTTCTTATTTGTTA
GACTTTCTGGTGATAAAGAAATCAAAGGATAAAATGCTTTGCACTGCCTGTCTTTTCAGACTTTCTACTTGAATCTTAAATATAACTGCAGAAAACATTT
ATTGCTCACTTGTCTATTCCAAGCACTGTGCTGTGTGCTTTAAATGTGTCGGTATCTAATCCTTATAAAAATCTATTAATTTAGGCCAGGTGTGGTGGCT
CATGACTGTAATCCCAGCACTTTGGGATGCTGAGGAGGGAAGATTGCTTGAGGCCAAGAGTTCAAGACCAGCCTGGGCAACATGGTGAAACCCCATCTCT
ACAAAAAAAAATGCAGAACTTAGCTGGGCGTGGTGGCATGTGCCGTAGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGGATTGCTTGAGCTCTGGAGGTG
CAGGTTGCAGTGAGCTGAGATCACACCACTGCACTGCAGCCTAGATGACAGAGTAAGACCCTGTCTCAAAAACAAAAAAACTTTGAATTTTATAGAAATT
AACTGAGGCTCTGAGAGATGATATTACTGGCGCATAGTAGTAAGATGTCCAGTAAGTGGTGTGCCCAGGGTTTAAATCCAAGGTGATCTGCCTCTGCTTT
GCTTTTATACATATTAATCTGACACTCACACATCTCATGTACATGATCCAACTCACTGTCACTGCCAACCTTCTGGTTCTTTCTGGATTCTGGTTCTTAA
AGTAGACTTGTTGTGCAGGCAAGTTTTTATTTCTTTTGTTTACCCAGAGGGGAAACTTCAGAAAAGATGGGAGGGGACTTTGAAGTTCTGAGGCTTGTGG
GTGGCTCATTACTGGACTGGATTTACTGAGGAGCTTAGGTAGAGTATGTTTTTCACAAGACATCTAGAGAAGTGAAAGCAACAATCAAAATATGTAGGCT
TGAATCTTGACATTGTCATTTACTAGCCATACAGCCTTGGCCAGGTAGCTTTATTTTCCTTATCTATAAAGTAGGCACAACAGTAGTAGCCGTCTCACAA
AATGGCTGGATAGTTTAAATGTGATAATATCTAAAGCACTTAACACAGTTCTTGGCATATTTTAGACACCTTACAAACATAGACCCTAGTATAAGAATTC
TTTAAGCCTGGGGTGCAGAACTAGGGAGGATCCGTCGAAGTCAAGATTGATCAGAGGTGAAACCTGAATTTGCACAGAGAAACAATGTGGTATACACAGA
GATAGCCTCCTATGACTTCATCTACATTTTTAAAAGCAGTCATATGGGCTGGACAGAGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCG
GGCAGATCATGAGATCAGGAGTTCAAGACCAGCCTGGCTAACATGGTGAAACCTTGTCTCTACTAAAGATACAAAAAATTAGTCAGGTGTGGTGGTGTGC
GCCTGTAATCCCATCTACTCAGGAGGCTGAGGCAAGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTAAGCCAGGATCGTGCCATTTGCACTCGAG
CTGGGGCGACAGGGCGAGACTCCGTCTTAAAAAAAAAAAAAAAAGGCGATCATAAGAGACCAACTATAAACCTGTATGCTAATTTATTTATTTGCAGTAT
CAGGTAGTGTAAGGAGATAGATTGCTTACCTCTAATAGCAGCTGCAGTATTTTATGTTTGGGAAAGTTAATCAGACTGAGATGTAGTAATGGTTATTCTC
AGCACCTGACACATGCCAAAACAATTCAAAAGCAGCAGCAAAACACTACATTTTGGGTTTGATTCCTCATCCTGTAATAATAACAACTTTACTCTCTCAG
CCTTTGCTTAATTAAAACCCGTTTTGTTTCTAATGTTGTATTAGGCATTGRCAAATACAGCAAACTGTATGGCCCAGTTTGTTTGCCAAAAATAGTTACA
GAAAGAGAAGTACTAAGCTCAATGATTACTGCCCTAAATTCAGTAGAAGTGTAAAGATAGAGAATTCTGTGTTTATAGAAAAATTGATCCTTGAATTGGA
GCTTTAAGTAATGGTGGGGTTTGGATGGGTGGAAAGAATGGTTTGGAGATGACTGAATGGTAGTAAAGCACAGGTACTAATGAGTACTTTGCAGGGATCC
ACTGGAGAATAAATACCCTGCTTAGGGCAGAGTGGTTATTGAAGTCTTGTGAGAAATAAGACCTGTTGGGGTTGGAAAAGAAGGGCTTGGAAACTCCATT
GCATTAATGGTTAGATTTGATGCAGTAGAAATTAAGAAGGCTTTGCAGTTAGGAAGTGACATGTCTGAAGTGGTGTTTTAGGAAGACTAGACAGAAAGAA
TATGTATTATGTTTAGGACAAGAGATTGTAGCCAGCAAGAGGACAAAGGACAGGACTTGCTGACCGGGCAAAAACAGAGGAGGATGTACAGAGATACCTT
CAAGAGGCTCATAAGGCTTCTAGCTTGGGAGACTGGAAGAATAGTGGTGCTCTGCTGCTAATTAGAAGAAAGAATGGGTGGAGGGACAAGGGAGAGTCTG
GGAAGATGATAAGCTTTGTTTTATACATGATCTTTCCTGGTTTATTAATAACAATGTTTGGAAACAGGATTTTTCCTGATTGTGTTGAGTTTGCAGGGAA
CTGTGTTATAGGAAATACGATTTGATACTATTCACAACAGGGGGTTGGCACCCACCCAGCTACCTGTTTTTATAAATAAAGCTTTACTGGCACAAAGTCT
TACATTCATTTCTTGTCTGTGGCTGCTTTTGTGCTACAGTGGCAGAGGTGAGTAGTTGTAACAGAAACTCTCTGGCCAGAAAAGCTAAAAATATTTTCTG
TCTGTCCTTGTACGAAAAATATTTGCTAACCTCTGCTCTACAAGAATTAAATTTTCCAGTCTATTTCAGTGGTTTAATATCGGTTGGTCTAACCCTCCGT
GTTCTACACGTGATGAAACTGAAGCCAAGCTGATAATGTTTCCAAGGCCCTTCCTGCATTAAGCTAATTAGAAAGGCCAAGCCCAGCTGGAATGCAGGTC
ACCTGGCTCCTTGGTCAGCCTTCTTTCCRCTCTACCACCTATTTCCATGTGTTAGACATTGATAAGCCATGGTCTGATTGGGAACATCTTGGTGATATAT
CATTCTGTTCATATTTATACATATAGGTGTGATTTAAAACATTTTTATCATGATGTGGATTAATTTGTTAAATATACCAATGCAAAACATTTAGTACACA
TAAAGTTATCTTAAAATTATTTTAAAGGAACCCTAGTATCATCGTATCATCATAACTAGTCAGTCTTTTTTTTTCCTTTCTTTTTCTTTGAGATGGTGTT
TCACTCTTGTTGCCCAAGCTGGAGTGCAATGGCGTGATATCGGCTCACTGCAACCTCTGCCTCTCGGGTTCAAGTGATTCTCCTGCTTCAGCCTCCCGAG
TAGCTGGGATTACGGGCACGTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCGTTTCTACTGGTGACCAGCTGGTCTCAA
ACTCCTGACCTCCTGTTATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAAGGCATGAGCCATCACGCCCAGCCACTAGTCAGTCTCTTATCCTA
GTGATACTTTTCTTTTGCAAGTGTCAACAGAATTAAAAATAATCTGTAGTTTGCTTTGGAAAATTACTAGTGAGTCACCAGATGTTGATTAATTAGAGTT
TAAATTCAGCATACGTTCTAAAGTAGCAGAGTTACACACATATTTGCCATCTACTTCACCTGAGTTCAGGAGAAGAGTTAACTTGAGCAACAGCTGGGAA
TAAAAGTACATTGTATGTTGGTACCTGGGGGTATCCCAATAATAGGCATATGTAATGGGAAACCGCTGCTGGGGAAGATTTAGCCAGACACATACAATTA
AGATTAATTGACTGGGTCATCTGAAAGTCAAAATTCAGAACCTAGTGGGTAAAGAGTGAGTCCTTTCAGATATCTGGTAGGTCTGGAAGGCAGAAGAATT
TCATGGAATCCTGGAGTTTTAGGTTGTGATACTTTATTTATGTAGAATTGAATGAGATGACATTGCTATTAACTTTACATATTAAAGGATTTTAATAAAA
GTTATAGACTTGGCAGTGGCTCAGTGTCCCAAGTGGATGTTTCCTATATTTTTTCATTACTGAAAGGGGAAGTCTTTGCAAAGATCAGGTTTTCAACATA
GAAAAGATAACATTTTAAACATCAAGCACTTCTATTTTAAAGAGCTCAAGAAATCTGTCAGCAGAGTTCTTGGCGCAGTTAAGGCAGGGGTCCGTTTCAT
TCTTAATCCCTGAATGAACTACATCTTCGGTATCTGACGTGGTTGATAGACACAATAGCAGATGGTTGTTTCTTTTCCTGATGGGGAAAGGAAAGGACAA
ACAGGATCCAATTTACTTACCAGCCTAACACTGTTGGGAATTGACACAGTCACTAGGTATAAATGATAGAGCAGATACCTTTAAACAGGACCCAGTGGGA
ATTCAGTTTGGGAGTAGAAGAAAAAGTAAACAGGAGTATAGAAATTCCAGATGTAGTTTAAGTAAGAATCAAGATTAAGATGAACTCTGAACAAGGAATA
ATTACAAAAGGTTTAATTAAGTTTAAAATATGCCACCTCCACCACCTTCTTTTATGCTAATTGGCTGCCTGTTAGACCATTGGTGTTTAATTGCCTGATT
ATTTTGAAAGTCTTAATACTTCTACTTTATCCTTGTGATCATACAAGGAATGAGATAATACACTCAGAATACACTAATGACAGAAAGTCTGTGTAAAGAA
ATTGAGGATTTGCTTGTTTAGGTATTTTATCTCYTAAAGCACAGTTCTTTCAAATAGCTTTGAAGAGACGTCTTCCCAGAACTTTGTATGCATCTGGATC
TCACTTCTGATCTTACTTTCATGGGTTATGTGTGGGTATTTTGGTTGGTGTATGATTGCACTGGAGGGGGTCATTATGAAGAGTCGATCAGACATATTGT
CAAGAATTCAGCAGGACGTTTCAGCCTTCTTTCAGATACACACTGTGATAGGGTTTAAATGGAAGCATTGGTGACCATTTATTTCTTTAAGAAATATACA
AGGTCCGTGCAGCATCATAGTACTGGTCTGTAGCATTACTGCAGTTTAAAAGGAGTCTCATGTTTTTAAAACTGGTCAGTATTCTTTTTTCCCAGGTAAT
GTCTTTGAAGCTAACAGATGATTTTCCCAAAGATATCTAGGGTTACTTGAAATGTAAGTTTGCTAACTGTAACTCCCACCTTTCTTCTACTCAAGGATGC
AAGTGAATGAAGTATTATTATATGAATAAGCTTAAATCTACTTTGATTCCTTTTTGAAAAAATAAAACATTTATCAACTTTGATTTTTAAAATCTATTAC
TAGGAACAAATTGTTTTCAGTATACCTCAGAACTAATCAGGGAAATACTGCATTGAAAACCACTATTCTAGAGAAAGGTAATGATAAAATATTAATGGCA
CTGGCCGGAATACTAGTTTACATTGATAGCCTAAGCAGGAAAATAACTTAGGAACGTAAGTATGCTGCCTGTACCCACCTTCTGTTATGCCAGTTGGCTG
CCTCTTATGCCTGTTATTACTGTTGTTTAATTGCCTGATTATTTTGAAACCTTTCTAACTGTATCTAATCTTGCCTTTTCCTAATTTRTTTTCTGCAGTG
GCCAAGGTGATCCTTTTTCTTTTTTAAGTAAAATTAGATATTTTATTTTGAGGTAATTTTAGATTCACATGTAATTACAAGAAATAATGCAGAAATGCCT
TCCATTTATTCAGTATACATTCATTGGAGGTGTCTGCTGGGCAATGGGGTTACAAGAATGAACAAGACAAAAGGGAGAGAAACAACAGACAGTGTTCATA
CAATGTGAGATTTAGAGGTCTGAGCTGGAAATTAAGAGTTCTAATCACCATTTGAAACCAGAGAGTGAATAAGATTAACTTTTTTAGAACTCTGAAAAAT
AAAGGCTTTACAGCAATCTGAGGAGGTTTTACTCAAGAAAAAGAAATAAATCTCATAAGAATATCACCTTTGACCTCAGCTGGTAATATGCCTGTCAGGT
GGCTCAAATTTTTTTGTCACACTGCGCATGTTTGTGAAGTGATCACAGAAGTGCTCTGATTATTGATTTGGGGGTTTTACAAATAAATTTTAGCAAGTAG
GCTAATACACAAATACAGAATCTGCAAATAGTGAGGCCCAACTATATATTCAGAGAACTAAAGGAAACATGCTTAAAGAATTAAAGGAGGCCAGGTGAGG
TGCCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGAGGAGCTCTTGAGACCAGCCTGAGCAACATCTACATGTGCAACATGTAGAGACCCT
GTGTCTACAAAAAAATTTTTCAAATTAGCTGGGTGTGGTAGTGTGCACCTGTAGTCCCAGCTATTCATGAGACTGAGGTGGGAGGATCACTTGAGCCTGG
GAGGTCAAGGCTGCAGTGAACTATGATCATGCCACTGCACTCCCACCTGGACAAGAGTGAGCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAACTAA
AGTATGAGAACAATGTCTCAGTAAATAGAGAATATCAGTAAAAAGACAAATTATAAAAAACCAAAATGAAATTCTGAAGTCAAAAAGTGCAGCAACTCAA
GTTAATTCACTAGAGAAGGTCAGCATCAAATTTGAATTACCAGAAGAAAGAATCAGCAAACTTGTCCAGTCTGAGAAATGATAGAGCCCAAAATGCATGA
AATAGCAGAATCAAAGAGGCAAATGGACAATTCAAACATGAGAGTTGGAGACTTTAACACCCACTCTGAMTAATGGGTAGAACAACTAGGCAACAAAGAA
ATGGAAGACTTAAACAATACTGTAAACCAACTGGACTGAGCAGACATCTATAGACTACTCCACCCAACAGCAGCTAAATATACATTCTTCTCAAATGCAC
ATGGTCTATTCTCCAGGATAGACCATGTGTTAGCAAGTAAAACAAACCTAAATAAATTTTAAAGGATTGAAATACATAAAGTATGTTCTCTAACTACAGT
AAAATAAAATTAGAAACCAATAGCAGAAGGAAATTTGGGAAATTCACAAATAAGTGAAATTTAACCTACCTTCCCAAATAACCAATGGATTAAAGAAAAA
AAAAGAAATTAGAGAGTAAGTTTTTGTTGTATTTTGTTTTGTTGTTTTTGAGACAGGGTCTCACTCTGTCCCTCAGACTGGAGTGCAGTGGCAGAATCAT
AGTTCACTGCAGCCTTGAACCTCCTGGGCTCACGTGGTCCTCCCACTTCAGCCTCCCAAAGTGTTGAGACTACAGGCATGAGCCACCATGCCCAGCCCAG
AAAATACTTTGAGATGAATGATGAAACACAACATACCAATATTTATGGAGGGAAATTTCTATTTGTAAAATGTTGATTTTAAAAAAGAAATATCTTAAGC
CAATAACCTAACGATTCACCTTAAGAAACTAGAAAAAGAAGAGCAAATTAAACTGAAAGCAAGCAGAAGGAAGGAAATAATAAAGATTAGAGTATAAATA
AATGAAATAGAGAATAGAAAATCAATAAAGAAAAGTAATAAAGTTCTTTGAAAAGATTGACAAAATTGATATACTTTCAGTTAGACTGAACAAGAACAAA
GAGAATACTCAAATCAGGAATAAAAAAGGAGATACCATCAACCTTACAGAAATAAAAAGGATTATAAAGGAATACTCTGAACAACTGTTTGCCAACAAAT
TACATTACTGGATGAAATGAACAAATTTCTAGAAAGATAAAACCCACTGAGGCCAGGTGCGGAGGCTCAACGCCTGTAATCCTAGCGCTTTGGGAGGCCA
AGGCGGATAGATCACATGAGGCCAGAAGTTTGAGACCAGCCTAGCTAACATGGTAAAACCCCGTCTCTACTAAAAATACAAAAAACAAATCAGCTGGGCG
TGGTGGCACACACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATTGTGCCAT
TGCACTCCAGCTTGGGCAACAAGAGCGAAACTCTGTCTAAAAAAAAAAAAAAGAGAGAGAGAAAGAAACCCACAGAAACTGACTCACAGATAAATAGAAA
ACCTGAATATACCTATGACTAGTAAAGAGGGTAATTTAAAAATTTCCCACATCCACAGGGCCTCACTGTACAAAACATTTACGGAAGAATTAATACCAGT
CCTTCACAAAGTATTCCAAAAAATAGAAAAAGAGGGAACACTTCCCAACTTATGCTATGAAGCCAGTATTACTTTGATACTAAAACCAAACAAAGGCATC
CTAAGAAAGAAAACCACAGACCAGGCCAGGTACGGTGTCTCACGCCTGTACCAGCACTTTGGGAGGCAGAGGCGGGCAGATCACTTGAGGTCAGGAGTTC
GAGTCCAGCCTGGACAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCGAGGTGTGGTGACACGCACCTGTAATCCCAGCTACTCAGGAG
GCTGAGGCAGAATTGGATGAACCCAGGAGGCGGAGGTTGCAATGAGCTGAGATCGTGCCACTGCACTCCAACCTGGGTGAGAGAGTGAGACTCTGTCTCC
AAAAAAAGAGACAAGAATTCCAGAATGTCCACTCATGCAACTTCTGTTCTTATTGATCTCTTTGCCTCTATATTCTCCTCACCTTCTCCTTTTTTTCTGG
GCTGTTGAATACATCTGTAAAAACTCTTACTTAAGGCTGGGTATGGTGACTCATGCCTATAATCCTAGCTCTTTGGGAGGCTTAGGTTGGGGGAACATTT
GAGGCCAGGAGTTCAAGACCAACCTCGGCAACAATATGAAACTCCATCTCTACAAAAAAATAATAAAATAAACTGGGCATGATGGTGGGTGACTGTAGTC
CCAGCTACCTTGGAGGCTGAGGCAGGAGAGAGGATCACTGGTACCTAGGAGTTCGAGGCTGCAGTGAGCTGCCATCGTACCACTACACTCTAGCCTGGGC
CACGGAGCAAGACCCTGTCTCTTATAGTAAAAAACAAATGGGCCGGGTGCAGTGGCTCACTCCAGTAATCCTAGCACTTTGGGAAGCCGAGGCGAGCAGA
TTGCCTGAGGTCAGGAGTTCGAGACCAGCCTGGGCAACACGGTGAAACCCCATCTCTACTAAAATACAAAAAATTAGCTGGGCGCGGGAGCGTACGCCTG
TAGTCTCAGCTACTCGGAAGGCTGAGGCAGGAGAATTGCATGAACCCGGGAGGCGGAGGTTGCAGTGACCCGAGATTGCGCCACTGCACTCCAGCCTGGG
CAACAGAGCAATCCGTCTCAAAAAAAGAAAGAAAGAAAGAAAGAAAAACCCAACTCCTACTTAAGTCACAACATAGCATAAGGTAAAAGAAGTAACATAT
AACCAGCATAGTATCACCTTTCTTTAAAATATGTATATATTTGCAGTAGTCACATATTAAACCCATGCTGTGTAACGTGTATGTAGACATAATACTGGAA
AAAAATTCACATTGTTAATACTGGTTATCATTGAGTTGTAAGATTTAAGGATAGTTTTTATTCTGTTTTCTAGGTTTTCTATCGTAAATATTTTTGTAAT
GAGCAGAAATCTAGTAAATAGTAATTAAACTACAGGTTTCAAGTGATTTCTTTTGGATGTATATCCAAGTGAAAACAACAAAATTATCTGTTTTCCCCAT
AAAACCCCATGAGTAAGTTTCAGATCCTTTAGTCTTCTGTTATCATTGGCCTGTATGATAACTTTGTGGAAATCAGCAAAAAGTACCATCACCCTCTAAC
TCCACCTTCATATGGTTGCCTTTCAAAGGTCTTCCGTCTTCTGAGGGCAAAAGCCTCATTGGGGCTTGACAAGTGGACTGAATTTCAGCCCCCACTAACT
CCCTTGGCTGGTTACTTTTGTGCCATGCAAAACTGCACAACTCTGTGACATGGCCTTATTCAGTCTGTCTTTCCCCCAGTGTATGATTTAGCTCTATCCT
AAGTCTCTAAACTTGTTTAATTTAACCTTTCATTCACTGAGTGTCAGCTACGTGACATCACGCATTGCCGTTACATCAGATAACCTTTTCCCTCCTCACA
TGCCACAATTACTCTCACGTTAATTAGTTTGCTCATTCCAGCTTTGTATTTTTTGGGCTACATTCTCCCCTATCCATCTAGACTGCTATCTCCCCGAGAA
TTCTTTTCCTTGGAATCTTTGTGGCTTCCTTCAGTCAGTATTATTCTTCCTGTCTTCAGTTTTCTGTCCCATTTATTCTTCATGTTATTTATCTTATAGT
TATTTTTCATTCTAACAAATAGTTATTGATGTTCATTCATGGGTCTGGCACTGTTGTAGGCACTGAAGATACAGTGGTGAAAGAAACAGACTTTTGCCCT
CAGGGAACTTACATTTTAGTGGTAAAATAGTAAACATAATTGATTCTTTAAAACACGTGTTCAGTTTGTCTTAATAGCTATAGAATTGTAAGCCCCAGGA
CTAGAAATTATATTTAAGAACAAAAAATTGTTTCAGTATCTTAAGTATAAGATGTTTCCTAGATACTCATTAAAACTCTCAAAAGTTTGTTGGTGACCTT
CATTTTAATTTACTTTAGCTGAGAAGTATTTTGTGGCATATATTTGTTTTTTAGTGTGGTCTTAGGTATTTATTGCAAAAGATTGAGGACAAGTAGTATA
ACCATATTTTATTAGTGAGGTGTTATCTCATTTTAATTTACATGAATTTTTTAAGTTATTTATTTACTTTTATTTCTTTATCATATCTTTTCCTCTATAT
TCAAGAAGGTACAGGTATTTGGGGCATAATACTGAGATTCTCTTCAAGTCAAAGGATATTAACTGAGTGCTTGTCATGTGAAGATCCTAAAACAGGTGCT
AAGGGGGATAAAAGTATAAAATAAGATCTAGTATCTGTTTTCAAGGGATTTAGAGTCTATAAGGAAGAACAGATAACAGATATGAAAAAACTCTGGCTTC
AGTTTTTCTCATTTGTAAAAATGATCAGATGTCTCATTTAGTTAAATGACAGTGGAAAATAAGTCTAGAGTGATATTCCTGTTATTAGCTCAGATAAGTG
GGTGCAAGGCAAATGAGCTCTTGAATTGGAAGCTTATACAAAGCCCACACTATAAACTAGTTCCGCCTTCACAATAGAAACCTTGATGGAAGTAAAACAG
TCAAGTTAATAGGTAATGAAAATGTGTGTGTGAGATACCATGCTTAGGAGTTATGAACCTCTTGATCAGAAATTTAATTATCAGGCATATTCGTGTATTT
TAAAATGCCAGGTAAACAGCAATATTAAGAGCTAATTAAAAGAATGTTAGTATTTGCTGAAACTGCATAATTGGAGAAAGTTAAGTTTAATTTGAGACAT
TGGTAGAGAAAGTTAAACTTTGCTTGTTTAGGCCAGTGCAGGAGCATGTTTACCAACAATCCCTGTGGTAACTTAGAAGGCATGGAGATAATGATAATAG
AAAAACAGAAGTACTGGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCATGAGGTCAGGAGATTGAGACCA
TCCTGGCTAACATGGTGAAACTAAAAATATAAAAAAATTAGCCGGGCGTGGTGTAGTAATCCCAGCTACTCGGGGGGCTGAGACAGGAGAATCACTTGAA
CCTGAGAGGCAGAGGTTGCAGTGAGCCAAGATCACGCCACTGCAGTCCAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAAAGAAAAGAAAAACAAAA
GTGCTTCTACTCCTAGCAACTCTCAAGAGTTGATGCTCCCACAGTATTGCTGGGTTACCCACAACTATACTGAAATATTTTATTTCTATTTCTATGCCAT
GCTCACTCTTATTAGGCCACTGCATGTGTTTTTCTTGTCCTGGAGTATCTTTCTCAGTTCACTCTCTCTTTGCCATGGCTTATTCCTACTCATTCATTCC
TACTCATCTTAGGTGCCACTTTACCCAGAAAGTCTTTTTTGGTCCCCAAATTTGAGTTAGATTCTTCCTACCAAAGGTATTTTTAAAAAGTATACTCTCT
CATTGTAGCTATTTGATTCTTAGTAACTGCTTCCTTACTAACAACCCTGACTAGACTGTGATATCCATTAGGGCAAAAATTAGATTGGCTTGCATCTCCA
GTACTTAGCACGGTGCAGGTATTTAGCAAATGGCACTGCTTTGCTAGGCACATACATTTTGATATGGCTATTTTTCTTACAGGATTTTGTTTACAGTGGA
TTTGGGATATTATTTATAGAGCTGTGCTCTTGTCCTCAAGTTTATAGTCTAGCTGGAGAGCCATAGTGAAAGTGCATAAAAAAGTTAAATAATAGGGCCA
GGGCATTGGCTCACAACTATAATCCCAACACTTTGAGAGGCTGAGGGAGGAGGGATCACTGGAGGCCAGGAGTTTGAGACCAGCCTGGGCAGCATAGTGA
GACCTCATCTCTACAAAAATTAAAAAAAAAAAAAAAAAAAGGTGTGGTGGTACACACCTGTGGTCCCAGCTCCTTGAGAAACTGAGGCAGGAGGATCGCT
TGAGCCCAGAAGTATGGAAACTTCAGTGAGCCGTGATTACCCTAACTGCACTGCAGCCTTGGCAACAGAGTAAGACACTGTCTTAAAAAAACTAAAAATA
ATAAAAGGTAAAGGCCAGTATGAGTAGGTTAAATGTTGGCCCAAGGCAGAATAAATAGCCCAATTTAAACATTTTTAATTTAAAAATGAACTTTGGACTC
ATTTTTTATTTGTGAAATAGAAATAATATTGCCTGCCTTGCCAGTCTTACAGATTTGTCATGTTGAGATATGAAAAAAAAAACAAGATAATACAGTAAAA
CTTATTTGAAAAAATAAAAGTTCTAGAAATAAGTGCTACAAAGGAGAAATTTGAGAGTGTTTGACAGCGAACCAAATAACATGACCTCAGAAGTTAGGAA
AGGATTCTGTAAGAAAATAACATTTGAGCTGAGCTTTAAAAAAAGCCTTTCTGCACCTACCTGAAGATATGACTAAAATTAGAGCCTTAGAACCACCCCC
TTGTAACTGCGTAGCGCACTGGAGGAGTTGAGCTGTTTACCTCATTTGCTCTGATGCAAAAAAAAAAAAGGCCGGGCACGGTGGCTCACGACTGTAATCC
CAGCACTTTGGGAGGCCAAGGCGGGTGAATCACGAGGTCTGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATATAAAAA
ATTAGCTGGGCACGGTGGTGGGCGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGCKTGAACCCGGAAGTCGGAGGTTGCAGTGAGCTG
AGATCGCGCCACTGCACTCCGGCCTGGGCGACACAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAGAGAAAGGAAAGGAGCCCCAGAAAAATTTGA
TTGATTTGTCCAGAGGATTTTTATTTGTTTTTTGTTTGTTTTTTTAAGATTTAAGTCATATAAATGAAAAGATATATTTCTAAAAAGGGTTTTGATGGTC
TGAAAAACTCATTAATACACTAGATATTTTCCTTCTATGAAAAAATGATGTTAATGTAGCATTTGTATTTAAAGCAGTTCCTGAACTGGCCTCCTTTAGC
CCCACTGATATTGAGGATAAGCCATATGTTTTACTATCTGTAACCAGAGTGACCCAGCTGTGGTCATAGATACTAGGGGAAGACAGGAACAGGAAAGAAA
AAAAAACATAGTAATACTTCAGGTAAAAATAACCTGAGATTATTATATATAATTTGACTCATCTATATGGTAGCAATGTTCGTAATTTTTTTAAACTGCA
AAAATGTTTTTATCTGTATTGAGACTGTAGTAGAACTTCCTTATAGTGTCTGTTCCCTTCTTTAATATTTTCTTATGTGAAATATTCATGCAAGAAGACT
CATTCATTAGYAGGAGAAAATTATGTCTCTAATTTTTGCCTCATTAAGAAGTTTCACMTTATATAACAAAGTTTACTGAAAAGTCACCATTTTCTTTTTG
ACTTAGTCATCTCATTTTTGATAGATTGCAAAGGTCGACTGCAAGGAAGTACTAGACATCATTTGTAATCTGGAATCTGAGGGGCAGGATAACACAGCAT
TTGTTCTTTGTACGACTTACCTTACCCAGCAGCTCCAAACTGCAAGTGTATATTGTTCTTGGTAAGTATATTTAGTTTTACACTCTTTATTTGTTAGTAC
ATAGTATAGCATTTAGGGTTTATGTAAAATGTTAATTTGTTTCTAATTTAAAACCTAGCATGACCTGTGAATAGCTTCTTGCTTCCACACACAATCATTT
AATTAAAAATATCATTGGTTTAATCTAGTCAAGAAAAGGTAAAATGTTCCTCTTGATCATCCCATAATGGGTTGTCTGTTAACTCCAATATATGTCTTCT
ACCTTGAAGATAAAATTTTGTCAATATGAAACAAACCTGTGTTAGTTAGATTGTTTTTCTTTTCATTTTTTTAGTATCTTCTGGGTAGTCACTCCCCATT
CTTATTTGGGAACCCACAAATGAAAAGGATCAAATTATCTAGGTTTCTAGGTCAAACTAGCACTAAAAAAGGAAATTCACTTGAATAGTAATCTCTTTTG
CAACTTTGGAACTATATAGTTGAATTGCATTATTTTGGTTTTAATTCAATTTATATCTTGTTTGCCTACAGAATACTTAGTTGCTAAAAAGGAAACAGTA
AGTGTATCCGTGGTTCTTTCATTCTAACTGTATTGAATCTATTTAGGCCAAAGGGACAAACCTGATACACAGGAAACCTCTAAAATGTAAGACTCTCTGT
CAGTAAGTATCAGATTAGTGGTATGGATAATGCTATAGGAGATCAGAGAGAGGTGCTCACTGTATACCAGAGTATTAAAGGTGTCAGGGAGGAAGTAATA
TTTGAGATTTAATTCTAAGAATGGGTTGGATTTGCATTATCTTGATTAGAGGAGCTCTGAGTATTTCAGAACCTAAGGATGGCTTAAAATTGGAAATGAG
CATTTTGTTTATAGGAAAACCTAGTAAAGCCTTTTGTGTACTTCAGCCCTCATTGATCTCCCTCTGGATCGTCTGTCTATTTTTATAGTTTTATGGTTAA
TACCATTGTATGTTACTATATTTCTTTTTGTTTATTATTTTATGTAGAAATTTTGTGTACTGTAATCTCACCCAGTCCTCATAATAATCATTGCACAGGT
GAGGCAGTGGGAGGATCATAGGGACCAGAGAAAACTTGTAATTGTCCATGGTCTCAAGGCTAAAGTGGTAGAGCTGAGATTCAAGCCCAGGTTTTAGACT
TCTAATCCAGTGCTTTTCTTCTGTATACTTGTTTTCTTGGCATAGGCCAAAATTCAAATTGTAGTTTTTTACCACCAAATCCACTATGCCAGAGTTATAC
CTCCTGTGAGAAAGGAGATAGTGGGATAGCGACTTAAATATAATTTCTTTATAATGAAAAAATATCCACCATTATAGCTAGGTTTTCAGTACGAATAATA
AATTAAATCATATATAGAATGTGTTATAGATTGTGTTTAAAATTTTTCTCCCCTTCTTCAGTCAGCCACCATTCACTCTTCCAGAGCTGTTAGTGGCTCT
AGGATTAATGCTGTTCTTCTGTAGCAGGAAGAGATGAATGGAGATTTCCCTTTGTGGCCTCCTCAGGAGCTATAATGAGTAAAGGAAAGAAAATCTTAGT
CATTTCACACTTTGTTAAAAGGAGCTTCTTTCAAGCAATTCAAGGAGCAATTGCATCTTTTTTTTTTTTTTTTTTTTGAGACGAAGTCTTGCTCTGTCAC
CCAGGTTAGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCCGCCTCCCGAGTAGCTGGGATTACAGGTGCACACTGCCACGCCCGACTAATTTTTG
TATTTTTGGTAGAGACTGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTTGTGATCCACTGCCTCAGCCTCCCAAAGTGCTAGGGTTAC
AGACGTGAGCCACTGCGCCTGGCCACATCTTTTTTTTTTTTTTTTTTTTTTCCCCTTCCATTGTTTTTGAAAGCTTTTTTTTTTTTTTTTTTTTTTTTTT
TTTTTGGTAGTGGGATGCTGGAGTTAGAATATTAGAATAACATAAAACATTGAATTTTGGCCAGGCATGGCTCATGCCTGTAATCTCAGCACTTTGGGAG
GCCAAGGTGGGTGGGTCAGCTAAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCAT
TTTGGCAGACACCTGTAATCCCAGCTACTCGGGAGCCTGAGGTACCAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGGTCATGCCAGC
CCAGGAGACAAGAGTGACTCCGTCTCAAAAACAAAAAACAAAAAACATTGAATTTTACTAAGGAAAATTAATCACAGGAATTCTGTTCATATGAGATAGA
TCTTTTGTTATGCTTGAGGTAGTGGGACATAAGGAGTATTTGTTTAGAAAAAAATTTTAAATTAAGTGGTATTTTGGATAAGAGAGATATCAGTATTTTT
TAAATGTGACAATAAAGTTAAAATACAATAATAAAAGTAGTCATGCTTATTTTTAAACACATACGCTAGAATTTATGTCTTGGGAGTATCATTCTTGAGT
GTAGTTACCATGAAGATAATATTTGAAATGTAAACTATGTAGCTATTGGCCAGGCGCAGTAGCTCACGCCTGTAATCCCAGCAATTTGGGAGACTGAGGC
GGGTGGATCATTTGAGGTCAGGAGTTCGAGACTAGCCTGGCCAACATGGTGAAAACCCATCTCTACTTAAAATACAAAAATTAGCCGGGCGTGGTGGCGT
GTGCCTGTAATCCCAGCTACCCTGGAGGCTGAGGCAGGAGAATTGCTAGACCCCTGGAGGCAGAGGTTGCAGCGAGCTGAGATCGTGCCACTGCACTGCA
GCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGACGG
GCAGATCACAAGGTCAGGAGATCAAGACCATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAATACGGAAAATTAGCCGACCTGGTGGCGGGCGT
GCCTGTAGTCCCAGCTACTCGTAAGGCTGAGGCAGGAGAATAGTGTGAACCTGGGAGGCAGAGCTTGCAGTGAGCCGAGATCGGGCGCCATTGCACTCCA
GCCTGGGTGACAGAGCGAGACTCCGTCGCAAAAAAAAAAAAAAAAAAAAAAAAAAGCCGGATGGTAGTGGTACGCACCTATAATCCCAGCTACTCAGGAG
GCTGAGGCAGGAGAATCGCTTGAGCCTGGGAGTGGAGGTTGTGATGAGCCAAGATCACACTGCAGCACTCTAGTATGGGTGACACAATGAGACCCTGTCT
CAAAAAACCAAACAAAAACAAAAAACTATGTAACTGTCACTCAGAACGGTTTTTATTATTTTAGAAATTTCGCTCAGAGACATTTACAAACCACAGTAAA
AAGTAAAAATGTTTTAAACTTTATAGCAGTTATGTTTAACTTATTTATTAATCTTGACCCCAAAAGATTTTTGGCTGTTGAAGAAAATTAAAGAAGTACT
AGAGGAGTAAGCTCCCTGTAGATGCCTCTCAGTGGTAACGTAATTGGAATAGTCATGCATTTGAAAAAGGTGACCATTTTGAGTGAGATGGTGTTTGTAT
ATAGAGAGGTGTAATTACGGCAGCCATTTTAAAGTCATAAAGTTGAACTTTGAACCTCCACAGTAAGCTTTCAGTGAGTATTTGATAGACTGGCCTTTGA
TTTCTGTAATGTGCTAAGCTTAAATTTTGTGTTACACATTTGTATTTCTTCAGATGTAGTTACATGTCTGTTCTGCCCCAGCTAGACTGTGATATACTAA
CCAATATGTTGTCTAATTCACGGTTGTGTCCTAAGTAACTGGCGAAGACTAGCATATGTGTTTTATTTAACAGAATTGTATGGGAGAGAAAAGAGGTCAT
GGGGGTCAATTACTATTGTAATAGCTTTAAAAATTTTTTTTTTCTGTAATAGCCTTTTTTAGGGGATGATCATCCCTTAATTCCACAGTTTTATTTACTT
CATTCCTAAAATACCTAAATTCTGAATCTCAGTGTAACATGTTAACTGGACTTCATGGGCTTCTTGCTATGTAGAAACACAGAGTGATGTTTGTATGTAT
ATATGTGTGTATGTATTTATTCATTTATTTTTGAGATAGAGTTTTGCTCTTGTCACCCAGGCTGCAGTGCAATGGTGCAGTCTCAGCTCACTGCAACCTC
TGCCTCCCGGGTTCAAGTGATTCTCTGCCTCATCCTCCTGAGTAGCTGGGATTATAGGTGCCAGCCACCACGCCTGGCTAATTTTTTATATTTTTAGTAG
AGATAGGGTTTCACCATGTGGGCCAGGCTGGTCTCGAGCTCCTGACCTCAGGTGAGCCACCACACTGGCCAAAACACAGAGTAATTTAAAGTTCTTGCTT
AGTAGCTAAATTCCTACCAAAATGTGCTTCTTGCTGTTAACAGAGCTAAATTTCCTTTCCGATTTTTATAAATTTATATATAATTTGTTGAAATGAGCTA
GGTAATGGGCTAAATCAAGGGTACAGTACATCATCTGAACATTGGCAGCATACATACAGTGGAATCATTTTCCATGATTTTCAATGGTTGGCTTTGTTTA
AAAAAGTCACATTATTGTAGTAATTGAAGAAGAACTTATCCTAGCGCATGTTTGATCTGTCAGGCTGTAGGTTACTATTGGATGTTGATTTCAGTGTTCC
AGTGTACAGATTTGAATGGATGATTGAAGTGACATCTTGCATCCTCATGAGTAACATACTGGCTGTCGTGGTTTCAGGCATGTTTATATATTTGGGTGGG
TAATCATTTTACATCAATTTATAACTATGCAAATATTTTTACAAAATACACCATAAAATGCCCATTTTTGATCATGCTTATTTGGAGTTAACATACTTGG
AGCCTGAAATACTTAATTTGGAATAAACCAAGCCCTGGACATTCTGACTTACTGTTTTAAAAATTATTTGAGTGGCCAGGCATGGTGGTTTACACCTGTA
ATCCCAGCAGTTTGGGAGGCCAGGGCAGGTGGATCATGAGTTCCGGAGTTCAAGACCAACCTGGCCAAGATGCTGAAACCCCGTCTCCACTAAAAATACA
AAAAATAGCTGGGGATGGTGGCGGGCACCTGTAATCACAGCTACTAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGTGGCAGAGGTTGCAGTAAG
CCGATATCGCACCACTGCACTCCAGCCTGAGGGACAGAGCAAGGCTCCATCTGGGGGGAAAAAATTTATTTGAGCCTGTAATCCCAGTACTCTGGGAGGC
TGAAGTGGGTGGATCTCTTGAAGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAATTACAAAAGTTAGCCAGGCATAG
TTGCGTGCGCCTGTAGTCCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACTTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTG
CATTCGAGCCTGGGCAACAGAACAAGACTCCATCTCAAAAAAAAAAAAGCCAGGCGTGGTGGCTCATGCATGTAATGTAATCCCAGCACTTTGGGAGGGC
AAGGTGGGCGGATCACCTAAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGCGAAACCCCGTCTCTAAAAATACGAAAATTAGCTGGGCGTGGTGGT
GGGTGCCTGTAATCCCAGCTACTCGAGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCATTGCAC
TGCAGCCTGGGCGACAGCGTGGACTCCATCTCAAAAAAAAAAAAAAATTATTTGAGACACCTTAGTTCTCAACCTGCCTTTTACCACTTTAATGGATTTA
CCTAACTTTGTTGCCAGGCTGGAGTATAGTGGCAAAATCGAAGCTCGCTGCAGCCTTGAACTCCTGGGCTCAAGTGATCTCCCACCTCAGCCTTCCAAGT
ATCTGGGATTATAGGCATGAGCCTCTGTGCCCAGCTTTAGTTAGTGAATTTTATTTTATTTGAGAGAAGATATTACTCTGTCACCCAGGCTGGAGTATAC
TGGTGAGATCACAGCTTACTGCAGCCTTAAATCCTGGGCTCAATGACCACCCTGCCCGCCCCCCGCTGCCTCTGCCTCCTCAGTAATTGGGACTACAGGT
GTGCCACCAAGAGTGGCTAAGCTTTTTTTGTTTGGTTGGTTTTAGGGTCTTACTGCGTTGCTCAGGCTGGTCTTGAACTCCTAGCCTCAAGTAATCCTCT
GCTGAGGTTATAGGGATGAACCACCATGCCCAGCCCTGCAGTAAATTTTAGATAGTTGACATCATTTACTCATTTATCGTTATAATCAGGATTTACTGGC
TTTGATAATTTTTGTTCTGTTCAAATAGGACAGATTTCACATACATATGACAGATTACAAAAATTTTTATTACTTAACGTGCTTAAATCTGAATAAAGCA
ATTGTGTGTTTAAAAATGAACAGTTATCCCAGCTTGCCTGGTTGGTGGCTATTTTCACAGCTGGCCTATCTCAATTTTCACTTCTTGTGGTTAGGAAAGT
AGCACTAGCCAAATAAAGGCAAATATTTAAAGGCATTTTAAATTAATTATATTGGTTATAGCTCAAATTTGCCATCCTGTTAAGCTTTATTCATTTATCT
TTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTGTGTCACCCAGGCTGGAGCGCAGTGGTGCAATCTCGGCTTACCGCAACCTCCACCTCCCGG
GTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGATTACAGGCATGCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTT
TCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGTGATTACAGCCATGAGACACCACGCCCG
GCCAGTCATTTATCTTTTGAGACACCATATATTCATTTCAATCTTTGAAGCGAGTTTTATAACTACTTAAAAATTTCACCTTATGCCGGGCACGGTGGCT
CATGCCTGTAATCCCAGAACTCTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTTGGGAGTTAGAGACCAGCCTGACCAACATGGAGAAACCCCATCTCT
ACTAAAAATACAAAATTATCCAGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGCATTGCTTAAACCTGGGAGGTGGAG
GTTGCGGTGAGCCAAGATGGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAGCTCCGTCTCAAAAAAAAAAAAAAGAAGAAAAGAAAATCACCTTA
CAAGAGCCCCAGTTCCCTCTTTAGAAATATAAGAAAATAAATTCCGTTAAATATATTTACTTTAAATTACATGTTTTCATTTCTTAAGCTTTGGATTTGT
AGCCAACTTTCTGGGAGACAGTCTGTGTTAATAGCAATATAGGATATCAGKGTTTTTAAATTGGCTTATGAAAAAGTACAGATTTTTAAATGAAAATTAT
TTAATCAGTATCCATTGATTTACTTAAAAGAGCCACATGTATTAAGTGATAGCATTCTTTTTAGTTTAGTGTTTTTTTTGTTTGTTTGTTTTGTTTTTTT
GAGATGGAGTCTTGCTCTGTCGCCTAGGCTGGAGTGCAGTGGCGCTATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGTTCTC
AGCCTCCCAAGTAGCTGGGATTACAGGCATCCACCACCACACTCAGCTAAGTTTTATATTTGTAGTAGAGATGAGGTTTCACCATGTTGGCCAGCCTGGT
TTCGAACTCCTGACCTCAAGTGATCTGCCCCCCTTCACCTCCCAAAATGCTAGGATTACAGGCATGAGCCACCCGCCATGCCCGGCCTCTTTTTAGTTTT
GCTATTAGAAGTGATAACATTCTTTTTAGTTTCACTATTAGCTTTCCTTGCATTCACATTTTACATTCTCTCATTAGCATTTCTATCCTTGGCATTGTTG
AGTTTCTAATGCTTTTTTGCGTGAGTGTTTTACCCATTAAATGTTTTTGTTTAATTTATTATTTTCAAGCTTTCCTTTTGTTTCCATAATGAATCTTTGT
GAGATTCCTGTATTTTAGCCATTTCCAAAAAGTGCCATTTTACTTATTTCACTGGAAGTATTTAACCATTCCAAACTACAGGCTCTAAGTAGCATCCTGA
CATTTTAGATCTGGAAAGGGCCCTTTAAGATCACTGTATAGAAGTGTACCATTAGAGTGTCTTTGTTGTATATATATTTCGTTGTTAATTTAGTGATGGC
TGATTATTTCTGCCCATTAGGACAGGGCTTAATTCAATCAGTATATTAATCACCAGTGTGAAGGATAAAACCTTTTAGAACAACATGGGATCTAAATAAG
TTTTTTTTAAATGCCACTGTTAAGGAGGTAGTGTTTTGTTTTTATTTTTCCCCCTAAACACAAGAGAGAAGTCAGGGAATTGTTACGGAGGATTCTTAAC
AATTTTATCAGTTTGGGAGAAAGCAGTGGTGAATATAGACAGCTTTTAATCTAGTTTTTGTTTTCTCTACTGTCAGCTTTCTACAGATCAAAAAATTGGG
TTGCCGGGGGCAGGGCAGCAAATACCAGTTACTTTAAATGTTTTACCATGATCTTCTTTTTTTATAGGGAACTGACTCTTTTTTGGAGTAAACTGCAAAG
AAGAATTGACCCTTCTTTAGATACTTTTTTGGAGCGCTGTCGTCAGTTTGGTGTCATAGCTAAAACGCAGCAGCATTTATTTTGCCTCATTAGAGTTATA
CAAACTGAAGTGAGTACTTTATGCCTTCTCTGCTAACTGTAGCTGGAGGAAAGAAATGAGTGGGAAGATAACTTCTCAGGAAATTCCCTTTAAAGGAAGA
TAAGAAATAATGAGTTTTAATAAGATTAATGGAATTGACCACATCTGACTGTTTCTCCAGATTGACTTCCTATAATTAATCAGAAACAAATTGATGGTCA
AACAAGTTAGGTGATATTTATTTCTAATTACTGTGAATGAAGTTGTGTCTCCTGTCACGTTAAGAACATTTTAAGAGGCCAGGCACGGTGGCTCAAGCCT
GTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATTACTTGAGCTCAGGAGTTCGAGACCAGCCTGGCCAACCTGGTGAAACCCCGTCTCTACTAAAA
ATACAAAAATTAGCCGGGCATGGTGGCGGGCGCCTGTAATCCCAGCTACTTTGGAGGCTGAGGCAGGAGAATCGCTTGAACAGGGAAGGCGGAGGTTGTG
GTGAGCCAAGATTGCACTGCTGCACTCCAGCCTAGGTGACAGAGTGAGACTTGGTCTTTTTTTTTTTAAAAAAAAAAAAAAGAACATTTCAAGGTAACTA
TAGAACTTGCCTGTTTAAACAATTACTTTATAATTGGCCATTAGAACATTTTGTTTTGTTTAAATCTTTAATAAAGGTACTAATTTTCTATTGTTGAATA
ACATCACAAAAATTAATACTTAAAACAATGTCCGTTTTTATCAGTTCAGTTTTGTAAATCAGAAATCCAGCACAATGTGGCAGGATTCTCTTCTAAGATT
ATCATATTGGCTAAAATGTAGTTTGCCAGGCTAAGTTCTATCAGAGGCTCTGTGGAAAATCCACTTCAAAGCTTATTCTTATCGACAGGTTTCAGTTCCT
GTGGTTGTAGGACTAAGGTTTCTGTTTTCTGGCTGGCTGCCAATCAGGGTCTGTTCTCAGGTGCTAGAAGCTACACTCAGTCTTTACCTCTGTTTTCAAG
CAGCAAGGGTGCAACAAGTTGGTGCTTGAAACCTGACATCCTCCATCTCTGACTTTAGTTTTCAGTTTTTGGTTGAGACAGGTCTCGCTCTGTCACCCAG
GCTGTAGTGCAGTGGTGCGATCATAGCTCATTACAGCTTCAAACTCCTTGGCTCAAGCAATCCTCCCGTCTCAGCCTCCAGAGTAGCTGAGATTGCAGGC
GTGTGCCACTATACCTGGCTTTTTCTTTTTTGGCGGGGAGCAGTGGTAGATACAGGGTCTTGCTTTGTTGCCCAGACTGGTTCTGAACTCCTGGCCTCAA
GCAATTCTCCCACCTCAGCCTTCCAAAGTGCTGGGATTATAGGTGTAAGCTGCCCCACCTGCTTGAACTTGGGAGGCAGAGGTGGCAGTGAGCCGAGATC
ACACCATTGCACTCCAGCCTGGGCGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAGCAAAGATTGAATGACTTGGCTATATCCTATGTGCGCTT
GCAACAGTATGCCAAGTCACTCTTGATCCCTCACCTTCCTAGTTTAAGACCCACCAATTTCTTCAAAATTCAGCTCCACATTGCATATCCTGATTCACAT
TTATTCACTACTCCTTTCAGTAACTTTTTGGCATATCTGTTCAGAATATATAATAGTATTTCTGGTTACTTTTCTTTGAAAAATGTTGTTAGTGATTTTT
CAAATGTTACCATCCCAGCCAGATTAGGCTGTTTAAGAAAGAATGGCCATTCTTTGCTGTCCACCTCACAGTCTTCCAAAAGGAGTTAGTAACTTGTTGA
GAAACTGAATTATTTTAAAATTTAGCTGACTTTCCCCAAGTCCTCTCTGCTCTTACTTACAAATGATAAACTTMTATCACATCATCCTAATAAGTCAAGA
GACCCATGGTCTAGTCCTGTGGAGCCACTAAAGCAACATGGCCTGTTTTACTTGGACTACATTCCAAATGAGAGGGAGAAACTTCTATATTCTTTAGGCC
ACTACTGTTGTGGGAAGTCTGCCACTCACAACAGAACCAGATCCTAGCTGATACAGGCTAGGTAATGCCTCTCTTTCAAAAAAGCTAGAGTCTCAGCTCG
TCTGAAAGGTAGGGAGTTATCTCAATTGATTGTTCACAGTCAGTTACAGACTGAACTCTGTTCTACTCTTTCCCCCTTCTCACTATTACACTTGACTAGT
TTTAAAGAAAAAAAAGTTGGAGTCTCAGTTTGCAAGGGATTCTACACTCACTCACTCCCTTTTCACCTACCAGTCCACATCTCTTCTACTCTTCAGGCCA
AATATCTTCTTTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGCTGGCATGCAGTGGCGTGATCTCAGCTCACTGCAACCTCCGCTTCCCAGGTTCAA
GGGATTCTGATGCCTCAGCCTCCCAAGTAGCTGGGGCTTTGGGCCTGCATCACCATGCCTGGCTAATTTTTTGTATTTTTATTAGAAATGGGGTTTTGCC
ATGTTGGCCCTGCTGGTCTTAAACTCCATGCCTCAAGTGATGTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCGGCC
TAAATGCTTTTAAGTCCTTGCTCCTCTGCTCACTAGTTAGTGACATTGGGCAACTTAACGTTCTGAGTGTTGGGGGTTTTTTGTCTATAAAATGAGGATA
ATAYGTGCAAAAAAGTTTATTTCAAATAAGTGCCTAGGCTGTAGTAGGGGTTCTGTAAATCAATGACAGTGATTTCTTTGTGTTCCCAGCATTTAGAATG
AATGATGCCCAACACAGAATTAAATGCCTGGCAAATTGTTTACTGATTTAAACAGTGGAATTTACTCCATTATTTTACATTGTATTCTGTTAAATAGTTA
CAATGTGCCAGCGTTATTATTTCATCTTTATAACCTTAGGAGGAAAATCTGTTATTAACATTACTGTTATCATTTTACCAATAAGGAAACTGAAGTTTAG
AGGTTGAGAACTTGTCACTTGTTGTGAAGCTGGGGTTCAAAGGCAGTCAAAGTCTGATTCTAAAGTCTCTGCTCATAGCAGTGCGTTTTAAGCCACTCTG
ACATATCTTGCTTTTCTTTGCTCATGTCATTTTTGTATTTTATTTCAGCCTCTCAGATAAAAAGAGTTATCTTGTATGTACCAAGCTTTTATCACATATG
ACCAGGTCTTCCTAATTTTAAACTAGTTTCTGAGAACCTGCTGCCATAGCAAGATTTCTGATTTCTGTTTTTTCCCTGGAAAGCTGAGATTCAGTACACC
TGTGACGGTGACTATAAATTACCAGATTCTTTCAGGAGGAAATGGAAAGGATCATTTATTTTATCTTTGAAGTTTTGAAAAATCCAAGTGTTCATGATAG
AGAGAATTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGTGATCTTGGCTAAACTGCAACCTCCA
CCTCCTGGGTTCAAGCGATTCTGCTGCCTCAGCCTCCGAGTAGCTGGGATTACAGGCATGCACCACCACACCTGGCTAATTTTGTATTTTTAGTAGAGAC
GGGGTTTCTCCGTGTTGGTCAGGCTGGTCTCAAACTCAGGTGATACACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCA
GCCAAAGAGAATTTCTTAAATTGAATTTAATCTTAGACTCACATCTATACCTGTGTTTCCTGTTGCTGCCATTTTAAACCCTGCCCCTCTACTCAACATC
ATTCTATTTTGAATCCTCCAGTGACCTTTTTTATCCTGAATTTCTTTGGATTCACATGCATTTATTGTTTATGCATTCGGGGTACAGATAAATTCCTTGG
AAGTAAGGAACTGCTTTAATACACAGTGCCTAGTAAATGTACATTGTTCGTAGTTGTAGCATCTAATTTAGTTCTTTGCATGTTGAGACAAGAAATATCT
AAATGTAACTTTCATGAAGAAAGATKTAAGATAAAATTTAGGAACTCTAAAAGTTTKTACAAGCTAAAATTCCTTATCAGTGAAAGTTATATAATCTTTC
TGTATGCAAAAAAATAATTTTTTTATCCTCTTTTACTTACAGGCACAAGATGCTGGTCTTGGGGTGTCAATTTTACTGTGTGTCAGAGCTCTTCAACTCA
GATCAAGTGAAGATGAGGAAATGAAGGCATCAGTTTGTAAAACAATTGCCTGTCTTTTACCAGAAGATTTAGAAGTTAGACGAGCCTGTCAGCTTACAGA
ATTCTTAATTGAACCCAGTTTGGATGGATTTAATATGTTAGAAGAACTATATTTGCAACCAGATCAAAAATTTGATGAAGAAAATGCACCGGTTCCAAAT
TCTCTTCGATGTGAGCTCTTACTAGCTTTAAAAGCCCACTGGCCTTTTGATCCTGAGTTTTGGGACTGGAAAACTTTAAAACGACACTGCCACCAACTTT
TAGGACAAGAAGCCTCAGATTCTGATGATGATTTAAGTGGCTATGAAATGTCCATTAATGACACAGATGTTTTAGAGTCATTTCTCAGTGACTATGATGA
GGGTAAAGAAGATAAACAATATAGAAGAAGAGATTTGACAGATCAGCATAAGGAGAAAAGAGACAAAAAACCTATTGGCTCTTCTGAAAGATATCAGAGG
TGGCTTCAGTACAAGTTTTTCTGTTTGTTATGTAAGCGGGAATGTATAGAGGCTAGAATTCTTCATCATTYTAAGATGCATATGGAAGATGGAATTTACA
CCTGTCCAGTTTGTATTAAAAAATTTAAGAGAAAAGAAATGTTTGTTCCTCATGTGATGGAGCATGTTAAAATGCCACCAAGCAGAAGGGACCGCTCTAA
AAAGAAATTRCTGTTAAAAGGCTCTCAAAAGGGTATTTGTCCTAAGAGCCCCTCTGCAATCCCAGAGCAAAACCATTCATTGAATGACCAAGCCAAAGGA
GAGTCTCATGAATATGTCACRTTCAGCAAATTAGAAGATTGCCACCTGCAAGACARAGATTTGTATCCATGTCCCGGTACAGACTGTTCCCGTGTGTTTA
AGCAATTTAAATACTTAAGTGTGCATCTTAAAGCTGAACACCAAAATAATGATGAAAATGCCAAGCACTACTTGGATATGAAAAATAGAAGAGAGAAGTG
TACTTACTGTCGACGACATTTTATGTCTGCTTTTCACCTTCGAGAGCAYGAACAAGTGCATTGTGGGCCTCAGCCTTATATGTGTGTATCTATAGATTGC
TATGCTAGGTTTGGATCAGTAAATGAACTACTTAACCATAAACAAAAGCATGACGATCTGCGTTACAAATGTGAATTAAATGGCTGTAATATTGTTTTCA
GTGACTTGGGACAGCTTTACCACCATGAAGCACAACACTTTAGGGATGCATCTTACACATGCAACTTCCTTGGCTGTAAAAAGTTCTATTACTCCAAAAT
TGAATACCAGAATCACCTCTCAATGCATAATGTTGAAAATTCAAATGGAGACATAAAGAAATCAGTGAAACTTGAGGAGTCTGCAACAGGTGAAAAGCAA
GATTGTATTAATCAGCCCCATCTACTTAACCAAACTGATAAATCACATTTACCTGAAGATCTTTTCTGTGCAGAATCAGCTAATTCTCAAATAGATACAG
AAACTGCAGAAAACCTGAAAGAAAACAGTGACAGTAATTCTAGTGATCAGTTAAGTCATAGCTCTTCAGCTTCAATGAATGAAGAGCTAATTGACACACT
AGATCACTCTGAAACTATGCAGGATGTATTGTTATCTAATGAGAAAGYCTTTGGGCCCTCCAGTTTAAAAGAAAAATGTTCCAGTATGGCAGTTTGTTTT
GACGGGACTAAGTTTACCTGTGRTTTTGATGGCTGTGGTTCCACATACAAAAATGCAAGAGGAATGCAGAAACATTTACGGAAGGTTCATCCATACCATT
TCAAGCCCAAAAAGATAAAGACGAAAGATCTGTTTCCCTCTTTGGGTAATGAACATAATCAGACAACTGAAAAGTTGGATGCAGAACCTAAACCCTGCTC
AGATACAAACAGTGACTCYCCAGATGAAGGTCTAGATCACAATATTCACATTAAATGTAAACGAGAACATCAAGGTTATTCCTCAGAATCCTCCATTTGT
GCTTCTAAAAGGCCCTGTACAGAGGATACCATGTTGGAACTTCTGTTACGCTTGAAACATTTAAGCTTGAAAAACTCAATAACACATGGATCTTTCTCAG
GGTCATTGCAGGGGTACCCATCCAGTGGTGCTAAGTCTCTTCAGTCAGTTTCATCTATCTCAGACCTTAATTTTCAGAATCAAGATGAAAACATGCCAAG
TCAGTACCTTGCACAGTTGGCGGCTAAGCCGTTTTTCTGTGAGCTTCAAGGATGCAAATATGAATTTGTGACCAGAGAGGCTCTGTTAATGCATTATCTT
AAAAAGCATAATTATTCAAAAGAAAAAGTCCTTCAGTTAACCATGTTCCAACATCGGTATTCCCCATTTCAGTGTCATATTTGCCAAAGGTCATTTACAA
GAAAAACACACCTTAGGATTCATTATAAAAATAAACATCAAATTGGCAGTGACAGAGCAACTCACAAACTATTAGATAATGAAAAGTGTGATCATGAAGG
CCCATGTTCAGTAGATAGGTTGAAAGGTGATTGTTCTGCAGAACTTGGAGGTGATCCCAGTAGTAACTCTGAGAAACCACACTGTCATCCTAAAAAGGAT
GAATGTAGTTCTGAAACAGATTTGGAATCATCTTGTGAAGAAACAGAAAGTAAAACATCTGACATTTCATCACCAATAGGCAGCCATAGAGAAGAACAAG
AAGGAAGAGAGGGCAGAGGTAGCAGGCGAACTGTTGCTAAAGGAAATCTGTGTTATATTTTGAATAAATACCACAAACCATTCCATTGTATTCATAAAAC
TTGCAACTCCTCATTCACCAATCTAAAAGGCTTAATTCGCCATTACAGAACTGTACATCAGTACAACAAAGAACAGTTATGTTTGGAGAAAGACAAAGCA
AGAACCAAAAGGGAACTTGTCAAATGTAAAAAGATATTTGCTTGCAAATATAAGGAATGTAATAAACGCTTCCTGTGTTCCAAAGCTCTTGCTAAGCACT
GTAGTGATTCTCATAACCTAGACCATATTGAAGAGCCTAAAGTACTTTCCGAAGCTGGATCTGCAGCAAGGTTTTCTTGTAACCAGCCTCAGTGCCCTGC
TGTTTTTTATACATTCAACAAGTTGAAGCACCACTTGATGGAACAGCATAATATTGAAGGGGAAATACATTCAGATTATGAAATTCATTGTGATCTTAAT
GGCTGTGGCCAGATTTTCACCCATCGCAGTAATTACTCACAACATGTATATTACCGACATAAAGACTATTAYGATGATTTGTTTAGAAGCCAGAAAGTAG
CAAATGAGAGACTACTAAGGAGTGAAAAGGTATGTCAAACAGCTGATACTCAGGGGCATGAACATCAGACCACCAGGAGATCATTTAATGCTAAGTCTAA
AAAATGTGGCTTAATCAAAGAAAAGAAAGCCCCAATAAGTTTTAAAACCAGAGCTGAGGCCCTCCATATGTGTGTGGAGCACTCTGAGCWCWCWCWGTAC
CCCTGCATGGTTCAAGGATGCTTATCTGTGGTGAAGTTGGAGAGCAGCATTGTGAGGCATTACAAACGCACTCATCAGATGAGTAGTGCCTATTTAGAGC
AACAGATGGAGAATCTTGTTGTTTGCGTTAAGTACGGTACCAAAATTAAGGAGGAACCCCCTTCTGAAGCAGATCCCTGTATAAAGAAAGAAGAAAATAG
AAGCTGTGAATCAGAGYGCACAGAACACAGCCATTCCCYGGGTGACAGTAGTGCACCCATCCAGAACACTGATTGCTGTCATTCAAGTGAAAGGGATGGA
GGTCAGAAAGGGTGCATAGAAAGCAGCTCAGTATTTGATGCAGATACTCTGCTCTACAGGGGAACTTTGAAATGTAAYCATAGTTCCAAAACCACTTCCC
TAGAASAGTGTAATATAGTTCAGCCTCCTCCTCCTTGTAAAATAGAAAATTCCATACCTAATCCCAATGGGACTGAAAGTGGGACTTATTTCACAAGTTT
CCAGCTGCCTTTACCAAGGATCAAAGAATCAGAAACTAGGCAGCATAGTTCAGGGCAAGAAAACACTGTAAAAAATCCAACCCATGTCCCAAAAGAGAAT
TTTAGGAAACATTCACAGCCCCGGTCATTTGATTTGAAGACTTACAAACCTATGGGATTTGAATCTTCATTTCTGAAATTTATTCAGGAAAGTGAAGAGA
AAGADGATGATTTTGATGATTGGGAGCCTTCAGAGCACTTAACATTAAGTAATTCTTCACAGTCCAGTAATGATTTAACAGGGAATGTTGTGGCAAATAA
TATGGTGAATGACAGTGAACCTGAAGTTGACATACCTCATTCTTCCAGTGACTCTACAATTCATGAGAACCTGACTGCAATCCCACCTTTAATAGTAGCT
GAAACAACAACAGTTCCTTCCTTGGAAAACCTGAGGGTTGTATTGGACAAAGCATTAACAGACTGTGGAGAGCTTGCCTTAAAACAGCTTCATTATCTTC
GGCCAGTGGTGGTTCTTGAAAGATCTAAGTTTTCCACACCAATTTTAGACTTATTTCCAACAAAAAAGACAGATGAGCTTTGTGTAGGAAGTTCATAAGT
AGCAATTTTGTTTTAGTAACAGACTGGCTCCAACACTGCAACATGGGGACATTTGCCAACTCGAACAAAGGCTGAGAAGCAGCCACACCGTTGTTTAGGG
TAGAATAGGCTGTGTATTTACATGAATGTATAATATCTATGTCAGCAGTATTGGCTGAGTCCATTAGCTCTCCAGTTGGTTTAATGATTGGGTTTATTTT
TGTTTGTTTGTTTATTAAAAAAATGGAACTGTACACTTGTTTGGTGCTAATTAATACATCAAAATATACTGGGGCTTCCTTTTTCAAATTAAGTGTGCAT
GATTGTATATGGAACAAATACTAAGGTCCCAGGGTGGGAGGGCTAGGGAAAGGGATATGGAGTTCTTACTTGACTTGAATGTGCACCTGAGGGTGCTTTG
TGTAATATATTGTACACTACAGCATCTTATATTTTTTGAGTTGAGTTTCAATAAATTACAATTTTTCACCCATTCGTTGTTTACTCATAATGAGCTTTCA
TGCCACATGTAAACTGAAATTGCACTTGTATTTTCTGAAATATGCCATTCACATTTTACCCCAGTAATTTTTTTATTTATTATTAGCTAAATCATTCAGA
ACAAGGTTCTTTTTTTTTTTTTTTTTTTTAAGACAGAGTTTCGTTCTTGTTGCCCAAGCTGGAGTGCAATGGTGCAGTCTCGACTCACTGCAACCTCCTC
CTCCCAGGTTCAAGTTATTCTCCTGCCCCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCATCCCAGAACAAGGTTCTTTTTATCTT
AAAATTTTTGTTTTTGTGGAAAGATAATTCTGAGATTAATTAGCTGCGGGAGTCAAGATAGCTCCCAGAGGATGTCCAGATGTTGGCCGAGTAGAAAGGA
GAGGATATGCCAACCTAGAACATGAAGGACGTAGCAAATTCAGAGGGCATGTTTCTAGGAAACTACAAATAATTTGATATGCTGGCAATAAAAGGGGAAC
AAGAGAGTGACATCATTGTAGAGATAGCAGGAACTAAATCATGAAGACTAAGGAGTTTGGATTTGAGTCTATAGGCATATATCAGTTGAAGTGTGGAGTG
CTCACTTGATTTGAGAAGCTGAAATTGGAAACAGTATACTTGAAGTAATTGAGGCAAGCTTGGTGAGTGTATTTACTGACAATTGCAGCAGAAGGCAGAG
TAGATGAAGTATTTAAGGAGACAGGATTTTGGGGGCTTGGAGAGTGAAGGAAAAGATTTGGTACTGATGCAACCATTTTAAGTAGGTATACAAAGAAGGA
ATGAATATTTGGGAAGATAATGGAAACCAAGGTGAGTTTGGCTTTTAGATGTGTTGAGTTTCATTGGACTGTGGGATGTCTGTCTAATGAGGATAGCAGT
ATATCCTTTTAATACAGCAGCTTCATTTCCTGTTGCTTGTGAAGTTTTCAACTACTTTCATTAGCTAGTAATGAAGTGACTCAGACAACTAACATCTCTT
TCTCATCCTTGTGGTTAGATTTTTTTTTTTTTTCAACGGAGTCTTGCTTTGTCGCTCAGGCTGGAGTGCAGTGGCGCGATCTCGACTCACTGCAACCTCC
GCCCCTCCAGGTTTAAGCAGTTCTCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGCTTGTGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAG
AGACAGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCC
ACCACACCCAGTCTATTGTGGTTAGAATTTCAAGACCTTTTCTCTGACTCTTAAACCTTATTTTCTTGTTTTGTCAGCTCTTCAGGAATTTCATTCTGTC
ACCTCACCCTGAGTCTAAAGCACTCCCATAACCAAGTCGTTTATTGTCTCAGATCCCAGTAGGTAACAGAGGATTCTGAGAAATCCAAGTGATCTGAGTA
AGACTCTGTTGAAAGAAGTGGCAGAAACAAGGATCTTAGAGACTGAGACCAGTATTGTTTCTTTGGAATCAAGCTAATTTCTTCAGTGGCTTTAATTTCC
TCACTTACGAAGGGAGGAGGTAGAGGTGAAAGGTCCCTTTTTGTGATATGAGCATGAGAAGCACCTGTAGGCCTAGTAAAAATTCCTCATACGAGAGAGA
TGGTTAGTCCAGAGTAAGAGAAAGCTACTAAGACTGAACTATATCCATTCAACCACACAGAACTTGTAGCCCCTGGAAGGACCAAGTGAGGCCATTCACA
GTGGAACTAAACCTAGATTTTAAGAACCCAATTAGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCATGA
GGTCAGGAGATCAAGACCATCCTGGCTAAGACGGGGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGATGGCACACGCCTGTAGTCTC
AGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGTGAGGCGGATGTTGCAGTGAGCCGAGATCGCGGCATTGCACTCCAGCCCAGGTGACAGA
GCGAGACTTGTCTCAAAAAAAGTAAAATAATTCAAGTATAAGCCTAAGTAGTTGATCCCAAGATCACTGTCTATCCCAGTTAGAGCAGCTTGCATCATTT
GATCTTTATTAAAGACTTTTGGCTGGGCGCGRTGGCTCGCACCTGTAATCCTGGCACTTTGGGAGGCTGAGGCGGGTAGGTAACCTGAGGTCAGGAGTTT
GAGACCAGGCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCAGATGCCTGTAATCCCAGCTACTCAGGAG
GCTGAGGCAGGAGAATCGCTGTTGGACCCTGAAGGTGGAAGTTGGAGTGAGCTGAGATTGCACCATTGCACTCCAGCCTGGTCAACAAAGCAAGACTCCA
TTTCAAAAAAAAAAAAAAAAAAAGACTTTCCTGTTTAAACCAGCATGAGTGACTATACGATAATACAGGGCAAAGGGTTATTTTTTTAGCTTGTAGTAAT
CATTTTAACTTGATATCTCTGGAATTTGTCCCAACCCTGGCACAGACCTGAAAGCACTGACTTTGTTTTCAAAGCTTTTTCAATTCAAGAGTGCCTCCAA
AATGGTGAGTAGGAATGAAGACTTCCAGACACTTCTATTCTTGCCTTTACCCAGAATTCTCTTGCTTCAGTGTTTTCCCCATTTTCATGAGCCCATGTGT
GAAATAGGGTAAGGAACTGTGGAGGAGAAAGTTTTTTATTAGCCTTCCTCAGGGTATTCCATTCTCAATCTATCCTTTCTCAGTCCCAAAAGGCCTACTG
AGCTGAACTGCCTAAGACATAATCATTCACCAAATATTTAAATACACACATTTAAAGAGATACAATTCCAGATGCAATGGGAGACAAAAAAAAAAAAAAG
TTGTCAGGGCCATCAAGAAGCTTTCACAAGGTGAAGGGAGGGCTGGAGTATCTCAGAACATTGTTACTTAAAGTGTGGTAGTGGGCCAGCAGTATAGGTG
TCACCTAGGAGATTGTTATTAATAAAAATGCATAAATTCAGGCCCTACTCCAGACCTACTGGACCAAAATGTGCGTGTTAGTAAGATCTCCAGGTGATTC
TTAGGCACAGAAAAGTTCTAGAAGCACTGGCCTGGAAGTGGAAAGTACTGTGAGAATTCAGGGTAATTGTGCTTTTTAGCATTTTACATAAAATTATGTT
GTTGAATTTTCATAATCCTATGAAGTAGGTGCTGTTACTATATTTGACAAAGAACGAGATGAAGTGTCTTGCCTGGCTGGCACAAATAGAGGTGGAGCCC
AGTTTCCAATCTCTTCTGACTAGAAGAATGTCAGAGAGGGACATTTAGTGTAAAGGAATAACAGATGGAAAGTTGCAGGTGGTATTTGAAGTACCAAAAA
TACCACAGTTCTGTAATGTGAGTGTTGTTTGTGAAGGTGAATAGTGGGAAATACAATTTGAAGTGTAGGTGAAAGCCAGGTTATTCAACTCAAACTCCAC
AGTCATATGGTGCTGACATTTCTTCATTTGAGTATAGAGATGGGAAACGTGCATATTTTTTTCTGTGAATAACATGTAACCTACGAAAAAGGCAAGTTTT
CTTTTCTGAAAGAAACTTACTCATTTTTGTTATTTTTTGAGGCGAGGTCTCATTAGGTTGCCCAGGCTGATCTTGAACTCCTGAGCCCAAGCAATCTTCC
CACCCCAGCCTCCCAAAGTGCTGGAATTGCGGGCATGAACCGCTGCACCCGGCCAGAAACTTCTAAAACTCAGAAAAGTTGCTCCTCCTCACCTCCTACC
CCAAGGTAAACTGTGATACCTCCTGGCTTTATACTACTGATTTTATACCCTATTATATAGAACTGTGTCTAGAGAGAGTGGCCTATCCCTCTGTGACCTT
CTTGGTCTACTCCTGCAGGAGTGGCTTCTGTGACAGACTGCATTTGGAGGTTTGATTCACTCTGGGGAAGGTAACCAGGATAGGCAAGAGATTTAAAAAT
CTGTCAGCATGTATTTGACAGGTATAACCTGAAAAAAAAGACCAGAGGCGTAGGAAAGCTATCTAAATGGTTAAGAAGCCAAATATTTACAAAGCATATA
CCATCTGCTAGCCCCTGGGTGGTAGGTGTTGAACAAGACTCATTTCCTGCATCATAGAGATTTAAGAATCCAGTAAGGGACTGGGTGCGGTGACTCATGC
CTGTAATCCCAGCACTTTGGGAGGCACAGGCAGGAGGATATTTGAGGTCAGGAGTTTGAGACCAGCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAA
AATACAAAAATTAGCCGCGCTGTAGTGGTGCATGCGCCTGTAATCCCAGATACTAGGGAGGCTGAGGCAGGAGAACCGCTTGAACCCAGGAGGCACAGGT
TGCGGTGAGCCAAGATCAGGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACCCTGTGCCCCCAACCTCCCCACCCCCAACAAAAAAAATAATCCAGT
AGGGAAGACAGACATTAAAACAGTACAAATAATAAAGTAAAAGTGCTTTTAAACAGGGGGGGTGGAGGGGCTTATGAGAAGGGGACCAAAAAAGGACAGC
AAAAGCTTCATTGAGGATAATGTTTAAACTGAAACCTAAAGAATCAATAGAAGTTAGCCAGGCAATAATCTGTAGTCCCAGCTACTCGGGAGGCTGAGGT
AGGAGGATCACTTGAGCCCAGGAGTTAGAGGCTGTACTGTGCAATAATCGCACCTGTGAATAGGCATTGACCTCCAAGCTGGGGGAGGAGGGGGAAGCTA
GGCAAAGAACAAGAGTAATCCAATTATGTGCCAAAGCTTTGTGGTTCAACAGCTTGGTGTGTTGGTGACATTGATAAGACTACTATAGCTGGAGTTGAAA
GAACAAATGGCAGAGGAAGAGAAGACTTGGTAGGTAAGCAGGGACCAGGCATTTTAGTGCCCTGTTAGCCATGTTACAGATTTTGGATTTTGTTTGAAAG
ACAATGAAGAACCTATAAGAATTTTTCAAAGGCGGACTGGGTGCTATTTCTCATGCCTGTAATCCCAGCACTTTAGGAGGGCAAGGTAGGAGGATCACCT
GAGATCAGGAGTTCGAGACCAATCTGGCCAATATGGTGAAACCCCATTTCTACTAAAAATGCAGAGATCAGCCAGGCGTGGCACGTGCCTGTAGTCCCAG
CCACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAATGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGC
GAGACCCTGTCTCAAAAAAAAAAAAAAAAAGAATTTACCAAAGGCTTGAAAGTAGGCATTGCCTAAGTCAGTAAGTCCTAATAGGGCATGATATGGAAGA
CTACTGAGTGGAAGTGACTGACAGATGAGTGGGTGGATGCCACTATTAAAGGTAAACTGAAGGCCGAGTGTGGTGGTTCACGCCTGTAATCCCAGCACTT
TGGGAGGCCTAGGCGGGTGGATCACGAGGTCAGGAGTTCGAGACCAGCCTAACCAACATGGTAAAGCCCCGTCTCTACTAAAAATAAAAAAATTAGCCAG
GCGTGGTGGCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGCCAGGAGAATCGCTTGAACCCCAGAGGCAGAGGTTGCAGTGAGCCAAGATTGCGC
CACTGCACTCCAGCCTGGGAGACAGGGCGAGACCAAAACCCCGCCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCCCTGTTTATATCC
TACCTCCTTGCTGGGTGCAGTGGCTCATGCCTGTAATCTCTGCACTTTGGGAGGCCAGGGCAGGTGGATCA


SNP Information

Context             (SEQ ID NO:13536):
GCCTCTGTTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACGGTGCCTGGCCCATTTTTCTTCTTTCAAGACATTCTAATATGACCTTTGCCCCTGGCA
S
TATACCATATCACTAAATCTAATGATGACTTTCAGTTTTCTGTCTACCTCATTGATTACTCCTTTCTCAGTTCTACTTTGCTGTCTGATGAGTACATGTT
Celera SNP ID:            hCV3138130
SNP Position Genomic:     50489
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,9)   total(G,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13537):
CTCCGTGTTTGGCCTTGTGGTGAGTCTTATCTGCATTTCTAGTATTTCTTTAATTTGTTCATCCATGTGAGATGGGTATAACCTTTTTACAGATGAAGAA
R
CTTGAGTCTCAGAGAGGTCAGTTAATTTGTCCAAGGGTCTCACAGCTGTGTGTCAGAATCAGGTTTCAACATCAGATCAGTGATTCTAAAACCTGAAATG
Celera SNP ID:            hCV3138131
SNP Position Genomic:     44128
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13538):
AGGGATAAACTAAAGAAAATGGCACTTAATTTTAGCTTAAGTTACTTTATATATTTAATTTTGTAAGCAGAAAAGTATAGGACTCTAGATTCCATGACTA
Y
ATCCTGAACAATTAAGTGGCCAAACTGGATATCATGGAAAATAAGGGTTGAGTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAAGGTCTTGCTCTGTCAC
Celera SNP ID:            hCV1777667
SNP Position Genomic:     47706
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13539):
TTTATATATTTAATTTTGTAAGCAGAAAAGTATAGGACTCTAGATTCCATGACTACATCCTGAACAATTAAGTGGCCAAACTGGATATCATGGAAAATAA
R
GGTTGAGTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAAGGTCTTGCTCTGTCACCCAGGCAGGAGTGCAGTGGTGCAATTTCGGCTCACTGCAGCCTCT
Celera SNP ID:            hCV1777668
SNP Position Genomic:     47751
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13540):
ACTTGTAATATCTTACTCTCCAAATACAATTGTCTATCTTTCTACCTTACTCCCTTTAATATACAGTCTCCACCAGGATCAATCAAGATCTATTGATCTT
G
TCACCTTTTCATTTTCCCTTATCCCCCTTATGTATTCACTTCCCTATTTAACTCTGCTTTGTCATTGTCAGATCATCATTATCACTCTCAAAGAGCGAGA
Celera SNP ID:            hCV1777669
SNP Position Genomic:     48574
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,11)   total(G,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13541):
ATGCTTTTAAGTCCTTGCTCCTCTGCTCACTAGTTAGTGACATTGGGCAACTTAACGTTCTGAGTGTTGGGGGTTTTTTGTCTATAAAATGAGGATAATA
Y
GTGCAAAAAAGTTTATTTCAAATAAGTGCCTAGGCTGTAGTAGGGGTTCTGTAAATCAATGACAGTGATTTCTTTGTGTTCCCAGCATTTAGAATGAATG
Celera SNP ID:            hCV15961237
SNP Position Genomic:     79004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13542):
TTCCAAAAGGAGTTAGTAACTTGTTGAGAAACTGAATTATTTTAAAATTTAGCTGACTTTCCCCAAGTCCTCTCTGCTCTTACTTACAAATGATAAACTT
M
TATCACATCATCCTAATAAGTCAAGAGACCCATGGTCTAGTCCTGTGGAGCCACTAAAGCAACATGGCCTGTTTTACTTGGACTACATTCCAAATGAGAG
Celera SNP ID:            hCV15961238
SNP Position Genomic:     78174
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,242|C,1239)   total(A,242|C,1239) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13543):
GTGGGTCCTAACCTATGATTACATATTTATGGGTGTGTTTAGTTTAGTCTCCATGACCACTCCGAGATTTTTCTGTATGTTTTCAAGTCTTTTACAAATA
Y
AAATATTGGCCATTATTATTTCTGCTTCCAATGTTTGTTCTGTCAGGTTTCAGAGGCACCCATCAGCTCCTTATCTGTTGTACCTTAGAAAATGCAAAAT
Celera SNP ID:            hCV80310
SNP Position Genomic:     7077
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13544):
GCTCTCAAAAGGGTATTTGTCCTAAGAGCCCCTCTGCAATCCCAGAGCAAAACCATTCATTGAATGACCAAGCCAAAGGAGAGTCTCATGAATATGTCAC
R
TTCAGCAAATTAGAAGATTGCCACCTGCAAGACAGAGATTTGTATCCATGTCCCGGTACAGACTGTTCCCGTGTGTTTAAGCAATTTAAATACTTAAGTG
Celera SNP ID:            hCV25953143
SNP Position Genomic:     81321
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,30|G,2)   total(A,68|G,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13545):
AGACGAAAGATCTGTTTCCCTCTTTGGGTAATGAACATAATCAGACAACTGAAAAGTTGGATGCAGAACCTAAACCCTGCTCAGATACAAACAGTGACTC
Y
CCAGATGAAGGTCTAGATCACAATATTCACATTAAATGTAAACGAGAACATCAAGGTTATTCCTCAGAATCCTCCATTTGTGCTTCTAAAAGGCCCTGTA
Celera SNP ID:            hCV15953453
SNP Position Genomic:     82419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13546):
ATGATGAAAATGCCAAGCACTACTTGGATATGAAAAATAGAAGAGAGAAGTGTACTTACTGTCGACGACATTTTATGTCTGCTTTTCACCTTCGAGAGCA
Y
GAACAAGTGCATTGTGGGCCTCAGCCTTATATGTGTGTATCTATAGATTGCTATGCTAGGTTTGGATCAGTAAATGAACTACTTAACCATAAACAAAAGC
Celera SNP ID:            hCV25636914
SNP Position Genomic:     81549
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:13547):
GCATGGTTTATTTTTTCCCTTTAGAATGAAAACCAAGATTCATTTTTTTCAGGCTACCAAAATGTATGATTTTAATTGTATATTTAACTGCTCGACAGAT
W
GAATGTAATATTTTAGAGTGAATTTGAAAAGTAGATAACTAAAGAATATACAGAGGCATGTTTACTTATTTGGGTGATGATTTGCTGTGAAATCTTTAAA
Celera SNP ID:            hCV25636915
SNP Position Genomic:     47427
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|T,1)   total(A,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13548):
TAGCATCTAATTTAGTTCTTTGCATGTTGAGACAAGAAATATCTAAATGTAACTTTCATGAAGAAAGATTTAAGATAAAATTTAGGAACTCTAAAAGTTT
K
TACAAGCTAAAATTCCTTATCAGTGAAAGTTATATAATCTTTCTGTATGCAAAAAAATAATTTTTTTATCCTCTTTTACTTACAGGCACAAGATGCTGGT
Celera SNP ID:            hCV15953454
SNP Position Genomic:     80357
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,26)   caucasian(G,7|T,25)   total(G,11|T,51)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,103|T,1002)   total(G,103|T,1002) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13549):
GGAAAAACCCAGTTCTTCTTAAAATTCTGTCTCAACAGCCAGTAGAAACGGAGGAAGGTAAGTCTTAAGACTATATTGGATGAGGATTTAGTTCTGAGAA
M
GTTGGAATTGATTATGGGTTAAAATTTTGGGAATTTAACTTGTGTATATATCTAGTCTTTCTGTTTTTACTTTGAGTAGTAAAAATTAACTATTAGCATT
Celera SNP ID:            hCV25636916
SNP Position Genomic:     40458
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,40)   total(A,2|C,76)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13550):
ATGTTACCAAGGAAGGGGTGTGGAAAAACCCAGTTCTTCTTAAAATTCTGTCTCAACAGCCAGTAGAAACGGAGGAAGGTAAGTCTTAAGACTATATTGG
Y
TGAGGATTTAGTTCTGAGAACGTTGGAATTGATTATGGGTTAAAATTTTGGGAATTTAACTTGTGTATATATCTAGTCTTTCTGTTTTTACTTTGAGTAG
Celera SNP ID:            hCV25636917
SNP Position Genomic:     40437
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13551):
GAAAGGGTGCATAGAAAGCAGCTCAGTATTTGATGCAGATACTCTGCTCTACAGGGGAACTTTGAAATGTAATCATAGTTCCAAAACCACTTCCCTAGAA
S
AGTGTAATATAGTTCAGCCTCCTCCTCCTTGTAAAATAGAAAATTCCATACCTAATCCCAATGGGACTGAAAGTGGGACTTATTTCACAAGTTTCCAGCT
Celera SNP ID:            hCV25636918
SNP Position Genomic:     84406
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,1)   caucasian(C,34)   total(C,61|G,1)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,1)   caucasian(C,2)   total(C,31|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13552):
ACCAAAATTAAGGAGGAACCCCCTTCTGAAGCAGATCCCTGTATAAAGAAAGAAGAAAATAGAAGCTGTGAATCAGAGCGCACAGAACACAGCCATTCCC
Y
GGGTGACAGTAGTGCACCCATCCAGAACACTGATTGCTGTCATTCAAGTGAAAGGGATGGAGGTCAGAAAGGGTGCATAGAAAGCAGCTCAGTATTTGAT
Celera SNP ID:            hCV25951562
SNP Position Genomic:     84239
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34)   total(C,71|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13553):
GTCATTCAAGTGAAAGGGATGGAGGTCAGAAAGGGTGCATAGAAAGCAGCTCAGTATTTGATGCAGATACTCTGCTCTACAGGGGAACTTTGAAATGTAA
Y
CATAGTTCCAAAACCACTTCCCTAGAACAGTGTAATATAGTTCAGCCTCCTCCTCCTTGTAAAATAGAAAATTCCATACCTAATCCCAATGGGACTGAAA
Celera SNP ID:            hCV25636919
SNP Position Genomic:     84378
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,32)   total(C,2|T,68)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,38)   total(C,1|T,69)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:13554):
CAGATTATGAAATTCATTGTGATCTTAATGGCTGTGGCCAGATTTTCACCCATCGCAGTAATTACTCACAACATGTATATTACCGACATAAAGACTATTA
Y
GATGATTTGTTTAGAAGCCAGAAAGTAGCAAATGAGAGACTACTAAGGAGTGAAAAGGTATGTCAAACAGCTGATACTCAGGGGCATGAACATCAGACCA
Celera SNP ID:            hCV25951670
SNP Position Genomic:     83772
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(T,14)   total(C,2|T,44)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13555):
TGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGATCGCGCCACGGCACTCCAGCCTGGGTGACAGAGCAAGACTTCATCTC
A
AAAAAAAAAAAAAAAAAAAAATTTGAGGGCTCATCCAGAGCACTGTACAGTCAATGCCAAGTGCCTAATATTCAGTACAGCTCAGAAGTACTGAGCTTCA
Celera SNP ID:            hCV26183075
SNP Position Genomic:     46277
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13556):
TAAGTCTAAAAAATGTGGCTTAATCAAAGAAAAGAAAGCCCCAATAAGTTTTAAAACCAGAGCTGAGGCCCTCCATATGTGTGTGGAGCACTCTGAGCAC
W
CACAGTACCCCTGCATGGTTCAAGGATGCTTATCTGTGGTGAAGTTGGAGAGCAGCATTGTGAGGCATTACAAACGCACTCATCAGATGAGTAGTGCCTA
Celera SNP ID:            hCV9631176
SNP Position Genomic:     83992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13557):
GCTAAGTCTAAAAAATGTGGCTTAATCAAAGAAAAGAAAGCCCCAATAAGTTTTAAAACCAGAGCTGAGGCCCTCCATATGTGTGTGGAGCACTCTGAGC
W
CACACAGTACCCCTGCATGGTTCAAGGATGCTTATCTGTGGTGAAGTTGGAGAGCAGCATTGTGAGGCATTACAAACGCACTCATCAGATGAGTAGTGCC
Celera SNP ID:            hCV9631177
SNP Position Genomic:     83990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13558):
TGTTGTTTGCGTTAAGTACGGTACCAAAATTAAGGAGGAACCCCCTTCTGAAGCAGATCCCTGTATAAAGAAAGAAGAAAATAGAAGCTGTGAATCAGAG
Y
GCACAGAACACAGCCATTCCCCGGGTGACAGTAGTGCACCCATCCAGAACACTGATTGCTGTCATTCAAGTGAAAGGGATGGAGGTCAGAAAGGGTGCAT
Celera SNP ID:            hCV25953903
SNP Position Genomic:     84217
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,32)   total(C,66|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13559):
TTTGTATTAAAAAATTTAAGAGAAAAGAAATGTTTGTTCCTCATGTGATGGAGCATGTTAAAATGCCACCAAGCAGAAGGGACCGCTCTAAAAAGAAATT
R
CTGTTAAAAGGCTCTCAAAAGGGTATTTGTCCTAAGAGCCCCTCTGCAATCCCAGAGCAAAACCATTCATTGAATGACCAAGCCAAAGGAGAGTCTCATG
Celera SNP ID:            hCV25952495
SNP Position Genomic:     81210
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,35|G,1)   total(A,73|G,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:13560):
GGCAGAATTTAAAAGCACACTTAAAATAGTTGAATTGTGAAAAGGCATAAAGAAAGCGTGGTGATTAAGTGTGGGCTGAGGAGCCAGATGGCTCTAGTTC
R
AATCCTGAATCTAACACCTATTGGATGACTTTGCCCAAATAATTCAATCTCTCATGTTTCCTCATTTAAAAAAAAAAAAAATTCCCAAAAGACAACTTGA
Celera SNP ID:            hCV26041546
SNP Position Genomic:     28556
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13561):
TAGAGTGTGGTGGCGCACACTGCTCACTGCAGCCTCAAAATCCTGGGCTCAGGTGATCTTCCCACCTCAGCCCCTGGAGTAGCTAGGACCACAGAAACAT
R
CCACCATTCCCGATTAATTTATTTTTTATTTATTTTTTATTTTTTTGGAGAGACAGGGTCTTGCCATGTTGCCCAGGCTGGTCTCGAACTCCCAGGGTCA
Celera SNP ID:            hCV1777671
SNP Position Genomic:     49207
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13562):
ACCAGCATTCTGAAGTACAGGATATCTGTCAGTGCCATTGCTTGAAAACATTCCCCAGAAGCATTCACTTTAGAATGGAAGTTAGATGTTGTAAACTCGG
S
AAGAAGGCCAAATGATGACCATGACACAACTTGCTACAAAATATTAAAGCTGATGCTGGGGGTGAGGGGGCAGAATTTAAAAGCACACTTAAAATAGTTG
Celera SNP ID:            hCV26041547
SNP Position Genomic:     28387
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13563):
TTTTGGGTTTGATTCCTCATCCTGTAATAATAACAACTTTACTCTCTCAGCCTTTGCTTAATTAAAACCCGTTTTGTTTCTAATGTTGTATTAGGCATTG
R
CAAATACAGCAAACTGTATGGCCCAGTTTGTTTGCCAAAAATAGTTACAGAAAGAGAAGTACTAAGCTCAATGATTACTGCCCTAAATTCAGTAGAAGTG
Celera SNP ID:            hCV1777672
SNP Position Genomic:     54851
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13564):
GCTGATAATGTTTCCAAGGCCCTTCCTGCATTAAGCTAATTAGAAAGGCCAAGCCCAGCTGGAATGCAGGTCACCTGGCTCCTTGGTCAGCCTTCTTTCC
R
CTCTACCACCTATTTCCATGTGTTAGACATTGATAAGCCATGGTCTGATTGGGAACATCTTGGTGATATATCATTCTGTTCATATTTATACATATAGGTG
Celera SNP ID:            hCV3138121
SNP Position Genomic:     56029
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13565):
TGCCAGTTGGCTGCCTCTTATGCCTGTTATTACTGTTGTTTAATTGCCTGATTATTTTGAAACCTTTCTAACTGTATCTAATCTTGCCTTTTCCTAATTT
R
TTTTCTGCAGTGGCCAAGGTGATCCTTTTTCTTTTTTAAGTAAAATTAGATATTTTATTTTGAGGTAATTTTAGATTCACATGTAATTACAAGAAATAAT
Celera SNP ID:            hCV1777674
SNP Position Genomic:     58688
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13566):
CCTATTGGCTCTTCTGAAAGATATCAGAGGTGGCTTCAGTACAAGTTTTTCTGTTTGTTATGTAAGCGGGAATGTATAGAGGCTAGAATTCTTCATCATT
Y
TAAGATGCATATGGAAGATGGAATTTACACCTGTCCAGTTTGTATTAAAAAATTTAAGAGAAAAGAAATGTTTGTTCCTCATGTGATGGAGCATGTTAAA
Celera SNP ID:            hCV25953005
SNP Position Genomic:     81071
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,2)   caucasian(C,4)   total(C,14|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13567):
TCTGAGAAATGATAGAGCCCAAAATGCATGAAATAGCAGAATCAAAGAGGCAAATGGACAATTCAAACATGAGAGTTGGAGACTTTAACACCCACTCTGA
M
TAATGGGTAGAACAACTAGGCAACAAAGAAATGGAAGACTTAAACAATACTGTAAACCAACTGGACTGAGCAGACATCTATAGACTACTCCACCCAACAG
Celera SNP ID:            hCV26182908
SNP Position Genomic:     59870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13568):
AATAAGAACCAAGATGAAACCAAGTACAGTGTTGTGATTCAGATTTCTGTATAGGTTGATTGCATCCTGGATCAGTGCTTGGGTCAATAGTTATTTCAAA
Y
GGCTAAGACCCCCTGCTATGGCCCAGATCATATCTCCCACTGTGAGAATCTTTTATCAGATTTTTTTGTTGAAAATTGTTTTTTTTGGAGACAGAGTCTC
Celera SNP ID:            hCV3138127
SNP Position Genomic:     52196
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13569):
AGTGAAACCCCGTCTCTACTAAAAATATAAAAAATTAGCTGGGCACGGTGGTGGGCGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGC
K
TGAACCCGGAAGTCGGAGGTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCGGCCTGGGCGACACAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV3111424
SNP Position Genomic:     66468
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13570):
TACATTCAGAATTCTTTATTCTATGTGCCATGGGCCCTGGCTACTTTTCTAACGTTCTCTCACCTTATCTTGTAATCTTAGTGCCCACTACTCTCCAGCC
R
CCTTGTCTTTGCTGTTCTTTGAACAAGCCAAGGATGTTCCTGTCTTAGAGCTTTGTGCTTGCTATTCCCTCTGACGAGAATTGCCTTCCACAAGATAATT
Celera SNP ID:            hCV3138128
SNP Position Genomic:     51387
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(A,25|G,33)   Chinese(A,6|G,14)   Japanese(G,16|A,24)   African(G,12|A,48)   (A,3|G,8)      total(G,8|A,3) ;CEL_caucasian_CEPH(A,142|G,181)   CEL_african_american(G,12|A,48)   CEL_asian(A,30|G,30)   CEL_caucasian(A,24|G,33)   total(G,256|A,244)
SNP Type:                 INTRON


Context             (SEQ ID NO:13571):
TATCTGTATTGAGACTGTAGTAGAACTTCCTTATAGTGTCTGTTCCCTTCTTTAATATTTTCTTATGTGAAATATTCATGCAAGAAGACTCATTCATTAG
Y
AGGAGAAAATTATGTCTCTAATTTTTGCCTCATTAAGAAGTTTCACCTTATATAACAAAGTTTACTGAAAAGTCACCATTTTCTTTTTGACTTAGTCATC
Celera SNP ID:            hCV3111425
SNP Position Genomic:     67111
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13572):
ATATATTTACTTTAAATTACATGTTTTCATTTCTTAAGCTTTGGATTTGTAGCCAACTTTCTGGGAGACAGTCTGTGTTAATAGCAATATAGGATATCAG
K
GTTTTTAAATTGGCTTATGAAAAAGTACAGATTTTTAAATGAAAATTATTTAATCAGTATCCATTGATTTACTTAAAAGAGCCACATGTATTAAGTGATA
Celera SNP ID:            hCV2515246
SNP Position Genomic:     74951
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13573):
TTTGCCCCTGGCAGTATACCATATCACTAAATCTAATGATGACTTTCAGTTTTCTGTCTACCTCATTGATTACTCCTTTCTCAGTTCTACTTTGCTGTCT
R
ATGAGTACATGTTGCAGTACCCAATGACTCTGTCATTGGGTCTTCTCTTTTTACACTTAACTAGGCTTATTTCCTTCATCTTTGGCTTTAAATACCAACT
Celera SNP ID:            hCV3138129
SNP Position Genomic:     50576
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13574):
GGAAACATTCACAGCCCCGGTCATTTGATTTGAAGACTTACAAACCTATGGGATTTGAATCTTCATTTCTGAAATTTATTCAGGAAAGTGAAGAGAAAGA
D
GATGATTTTGATGATTGGGAGCCTTCAGAGCACTTAACATTAAGTAATTCTTCACAGTCCAGTAATGATTTAACAGGGAATGTTGTGGCAAATAATATGG
Celera SNP ID:            hCV2515247
SNP Position Genomic:     84705
SNP Source:               Applera
Population(Allele,Count): african american(A,30|T,6)   caucasian(A,25|T,5)   total(A,55|T,11)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,27|T,5)   caucasian(A,33|T,7)   total(A,60|T,12)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): (T,2|A,8)   total(A,8|T,2)Caucasian(T,77|A,233)   Chinese(G,0|A,60)   Japanese(T,2|A,18)   African(T,26|A,72)   total(A,383|T,105)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13575):
TCAAGTATAAGCCTAAGTAGTTGATCCCAAGATCACTGTCTATCCCAGTTAGAGCAGCTTGCATCATTTGATCTTTATTAAAGACTTTTGGCTGGGCGCG
R
TGGCTCGCACCTGTAATCCTGGCACTTTGGGAGGCTGAGGCGGGTAGGTAACCTGAGGTCAGGAGTTTGAGACCAGGCTGACCAACATGGAGAAACCCCG
Celera SNP ID:            hCV2515248
SNP Position Genomic:     87832
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:13576):
TGCTGAATAAATTGCGGCGTTCTAAAATAATAATTTTGGGGGGCAATTTGCTCTGTTGGTCCGGAGTAGAATAAAAGTTAGCTTGCTTGATTGCTTTTCT
Y
CCCTCTCTCTGCCGAGGCAGAAGCACCTCATCTCTCTGAATGGAATTTTGTCCTTACTAATCTTTTCCGTGGATTGTACCACTCCAATTTTTGTGTGTAC
Celera SNP ID:            hCV9102799
SNP Position Genomic:     7322
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13577):
AACAGATGATTTTCCCAAAGATATCTAGGGTTACTTGAAATGTAAGTTTGCTAACTGTAACTCCCACCTTTCTTCTACTCAAGGATGCAAGTGAATGAAG
T
ATTATTATATGAATAAGCTTAAATCTACTTTGATTCCTTTTTGAAAAAATAAAACATTTATCAACTTTGATTTTTAAAATCTATTACTAGGAACAAATTG
Celera SNP ID:            hCV26182892
SNP Position Genomic:     58313
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13578):
TGCCTTGGCCTCCTAAAGTGCTGGGATTATAGGCAAGAGCCACTGCGCCCGGTCTGCTTATACCTTTTTTATTGGCTGCAACAACTGAGGGCCATGAAAA
M
AGTTTTTTTTATTTTATATATATGAAATAATTGGAATTCATTGTTTTATAGAGAGATGCAAAGAATGAAGTTTTTGTTGTTTTTGTTTTGTTTTGTTTTA
Celera SNP ID:            hCV117205
SNP Position Genomic:     41068
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13579):
ATACTGTATTTGTGCATTAGCCTACTTGCTAAAATTTATTTGTAAAACCAGCTGACTCTGACTGAGCTTTTTATGAAAAAATTTCACCTCCAAAGGTTTT
K
CAGGGATTAAATTATGTGTATTTGTTACATATGAAAAATATTTTAGTGTATTATAATTTGGGGAAAGTAGAGAATGAGTTATATTTCAGACGTATCTTGA
Celera SNP ID:            hCV27986950
SNP Position Genomic:     15601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13580):
ACAGATGATTTTCCCAAAGATATCTAGGGTTACTTGAAATGTAAGTTTGCTAACTGTAACTCCCACCTTTCTTCTACTCAAGGATGCAAGTGAATGAAGT
A
TTATTATATGAATAAGCTTAAATCTACTTTGATTCCTTTTTGAAAAAATAAAACATTTATCAACTTTGATTTTTAAAATCTATTACTAGGAACAAATTGT
Celera SNP ID:            hCV26182893
SNP Position Genomic:     58314
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13581):
CAGTTAAGTCATAGCTCTTCAGCTTCAATGAATGAAGAGCTAATTGACACACTAGATCACTCTGAAACTATGCAGGATGTATTGTTATCTAATGAGAAAG
Y
CTTTGGGCCCTCCAGTTTAAAAGAAAAATGTTCCAGTATGGCAGTTTGTTTTGACGGGACTAAGTTTACCTGTGGTTTTGATGGCTGTGGTTCCACATAC
Celera SNP ID:            hCV25636920
SNP Position Genomic:     82148
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,36)   total(C,2|T,72)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,40)   total(C,2|T,76)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13582):
CAGATGATTTTCCCAAAGATATCTAGGGTTACTTGAAATGTAAGTTTGCTAACTGTAACTCCCACCTTTCTTCTACTCAAGGATGCAAGTGAATGAAGTA
T
TATTATATGAATAAGCTTAAATCTACTTTGATTCCTTTTTGAAAAAATAAAACATTTATCAACTTTGATTTTTAAAATCTATTACTAGGAACAAATTGTT
Celera SNP ID:            hCV26182894
SNP Position Genomic:     58315
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13583):
GATGTATTGTTATCTAATGAGAAAGTCTTTGGGCCCTCCAGTTTAAAAGAAAAATGTTCCAGTATGGCAGTTTGTTTTGACGGGACTAAGTTTACCTGTG
R
TTTTGATGGCTGTGGTTCCACATACAAAAATGCAAGAGGAATGCAGAAACATTTACGGAAGGTTCATCCATACCATTTCAAGCCCAAAAAGATAAAGACG
Celera SNP ID:            hCV25636921
SNP Position Genomic:     82223
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,4|G,34)   total(A,4|G,72)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13584):
ACACTTGGACGCAGGGTGGGGAACATCACACACCGGGGCCTGTTGTGGGGTGGGGGGAGGGGGGCGGGATAGCATTAGGAGATATACCTAATGTAAATGA
Y
GAGTTAATGGGTACAGCACACCAACATGGCACATGTGTGCATGTGTAACAAACCTGCATGTTGTGCACATGTACCCTAGAACTTAAAGTATAATTTTAAA
Celera SNP ID:            hCV27034918
SNP Position Genomic:     11539
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13585):
TCTAAAAAATGTGGCTTAATCAAAGAAAAGAAAGCCCCAATAAGTTTTAAAACCAGAGCTGAGGCCCTCCATATGTGTGTGGAGCACTCTGAGCACACAC
W
GTACCCCTGCATGGTTCAAGGATGCTTATCTGTGGTGAAGTTGGAGAGCAGCATTGTGAGGCATTACAAACGCACTCATCAGATGAGTAGTGCCTATTTA
Celera SNP ID:            hCV9631165
SNP Position Genomic:     83996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13586):
AGTCTAAAAAATGTGGCTTAATCAAAGAAAAGAAAGCCCCAATAAGTTTTAAAACCAGAGCTGAGGCCCTCCATATGTGTGTGGAGCACTCTGAGCACAC
W
CAGTACCCCTGCATGGTTCAAGGATGCTTATCTGTGGTGAAGTTGGAGAGCAGCATTGTGAGGCATTACAAACGCACTCATCAGATGAGTAGTGCCTATT
Celera SNP ID:            hCV9631166
SNP Position Genomic:     83994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13587):
TTTTCCCTTATCCCCCTTATGTATTCACTTCCCTATTTAACTCTGCTTTGTCATTGTCAGATCATCATTATCACTCTCAAAGAGCGAGAGGTCCTCTCTC
T
TTTTTTTTTTTTTTTTTGACAGAGTCTCGCTCTGTTGCCCAGGCTAGAGTGTAGTGGCGCGATCTTTGCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGC
Celera SNP ID:            hCV26183084
SNP Position Genomic:     48686
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13588):
GCAATCCCAGAGCAAAACCATTCATTGAATGACCAAGCCAAAGGAGAGTCTCATGAATATGTCACATTCAGCAAATTAGAAGATTGCCACCTGCAAGACA
R
AGATTTGTATCCATGTCCCGGTACAGACTGTTCCCGTGTGTTTAAGCAATTTAAATACTTAAGTGTGCATCTTAAAGCTGAACACCAAAATAATGATGAA
Celera SNP ID:            hCV25953642
SNP Position Genomic:     81356
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,2|G,12)   total(A,3|G,45)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13589):
GTGCCTAGTAAATGTACATTGTTCGTAGTTGTAGCATCTAATTTAGTTCTTTGCATGTTGAGACAAGAAATATCTAAATGTAACTTTCATGAAGAAAGAT
K
TAAGATAAAATTTAGGAACTCTAAAAGTTTTTACAAGCTAAAATTCCTTATCAGTGAAAGTTATATAATCTTTCTGTATGCAAAAAAATAATTTTTTTAT
Celera SNP ID:            hCV25953480
SNP Position Genomic:     80326
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,31)   caucasian(T,36)   total(G,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:13590):
TGTGATCATACAAGGAATGAGATAATACACTCAGAATACACTAATGACAGAAAGTCTGTGTAAAGAAATTGAGGATTTGCTTGTTTAGGTATTTTATCTC
Y
TAAAGCACAGTTCTTTCAAATAGCTTTGAAGAGACGTCTTCCCAGAACTTTGTATGCATCTGGATCTCACTTCTGATCTTACTTTCATGGGTTATGTGTG
Celera SNP ID:            hCV9631186
SNP Position Genomic:     57834
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,0|C,58)   Chinese(T,0|C,20)   Japanese(T,1|C,39)   African(T,0|C,60)      total(C,177|T,1) ;(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13591):
TTCTTTAATATTTTCTTATGTGAAATATTCATGCAAGAAGACTCATTCATTAGCAGGAGAAAATTATGTCTCTAATTTTTGCCTCATTAAGAAGTTTCAC
M
TTATATAACAAAGTTTACTGAAAAGTCACCATTTTCTTTTTGACTTAGTCATCTCATTTTTGATAGATTGCAAAGGTCGACTGCAAGGAAGTACTAGACA
Celera SNP ID:            hCV25951758
SNP Position Genomic:     67158
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,34)   caucasian(C,36)   total(A,2|C,70)
SNP Type:                 INTRON


Gene Number:                 7
Celera Gene:                 hCG15675 - 206000044039732
Gene Symbol:                 COL9A2
Protein Name:                collagen, type IX, alpha 2;DJ39G22.4;EDM2;MED
Celera Genomic Axis:         GA_x5YUV32W802(42813178..42842385)
Chromosome:                  Chr1
OMIM number:                 120260
OMIM Information:            COLLAGEN, TYPE IX, ALPHA-2;COL9A2


Genomic Sequence (SEQ ID NO:12167):
GATGAATCAGATTCAATCTCTGTTCAAATATAAAATATCTCTATGACTACAACTTAAAATTGTATTGAAAGAAGAGAAATCCTGAGTTAATTCTAATAAA
AAGGAAATAGAAGGGACATTTATCTTCCCTATTTTTTGCTCTAGTCCCTAGGAGGGTGTGGCCAGACTCTGTAAATTGTTCCTTGGGAGAAGGGATGAGG
CTGGGGAGGGMATGGTGTCTATGCTCCCTCCTGGTCTGGGACCTGGCCTCTTAGGTCCTCATTTTCAGGCTTGATCCTGCAGAAAAAATTACCATGGTAG
GTGGAGCAAAAACAGACATTTGAGTTGCTTTTTTGTGTGTATCTTGATATGATCTTAAACTCTTTGCATTAATAGATTTTCTCATTTGAAACCGTTCTGT
CCTTGCTCTGTTGCTGAGGTTGGAGAGCAGTGGCGTGATCTTGGGTCGCTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCTTGCCTCAGCCTCCTGA
GTAGCTGGGACTACAGGTGTGTACCATTATGCCCAGCTAATTTTTGTATTTTTGGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCC
TGACCTCAGGAGATCCACCTGCCTCAGCCTCTCAAAGTGCTAGGATTATAGGCGTGAGCCAACGTGCCCAGCCCAATCTGTTAATATTTTATATGGGATT
TTTGCATCTATGTTCGTAAAATAGATTGGCCTTTAATATTCCATTCTCTTACTGCCTATCACTGGTTTGGGTATCAAGTTTATATCAGCCCCATTAATGA
GTTTGAGAATGTTCTTTATTTTTCTATTCTCTAAAAAGTTTGTAGAATATTTGAATTAGATATTCTTTTTTTTTTTTTTTTTTTTTGAGAAGGAGTTTCG
CTCTTATCGCCCAGGCTGGAGTGCAGTGGCGTAATCTCGGCTCACTGCAACTTCTGCTTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCATTCCTAGGAG
CTGGGATTACAGGTGCCCACCACACACCTGGCTAATTTTTTGTATTTTTACTAGAGATTGGGTTTCTCCATGTTGGGCAGGCTGGTCTCAAACTCCTGAC
CTCAGGTGATCCGCCCACCCTGGCCTCCCAAAGTGCTGGGATTGCAGGCGTGAGCCACCGCGCCCTGCCAGGTATTCTTTTAAGTGTTTCATAGAGCTTG
TCTTATTGATTTATAAGAGTTCTTTGTATGTTTTCCATATTAATGCTTTGTCTCGTAATGTATACTGTAAATTATATAATTTATATAATATATATTATCT
AAATATATATTTAGATATGTAATTGTATATGTAATATATATATGTAATTGTAAATATACATTATAATACAGGTGTGAGCCACCACACTCGGCCAACATGG
AGTTTCCTTATACAGAAATGTAGATATATGACTCTCAACTTTTCTGACTTTTAATTTTATCTGTAATTTTTATTGTAAAAAAACTTAAAAAGTGTGATAA
AGTGTAGAAAAGTGTGATAAAGTCAACTTTAAGCATTTTTCTTATCTTTTTTAGGTTTTGTGTACTGCCCAGAAATGTTTTCCATGACAAAAAAAATTAT
TTTTTAAATTTATTTTAGGCCTTTTATAATTTGCTATCTTTATATATGGGCCCTCAATTAATTTGTTCAAGAATATAGTTTTGGTATGCTGATATAGAAA
TCTAAGTTGAATTTTTTTCTGAATATATGGCCAATTACCTCAACATCTAGTCTACCCTTTCCTCACTGCTCTTGAATTTAACCTTTATCATAAACTAAAT
ATATATACTTTCATCATAGATTTCAAATATTATATATATATACATCTATGTTGCCCAGTCTTGAAATCTTGGGCTCAAGGGATCTTCCCACCTTGGCCTC
CCAAAGTGCTGGGATTACAAGCATGAGCCACCATACCTAGCCATTTGTTTTTAAGTTTCTATTTTTATTTTTTGTGTTTTTAGAGACGGTCTTGTTCTGT
CACCCAGGCTAGGATGTCATGGCTCAATCATAGCTCACTGCAGCCTCAAACTCCAGGGTTCAAGTGATCCTTCCACCTCAGCCTCCCAAGTAGCTGGGAG
ACACCACTACACCCTGCTAATTTTTTTTTTTTTTTTTGTAGAGAAAGGGGTCTCACTGTGTTGCCCCAGCTGGTCTTGAACTCCTAGCCTCAAGTGATTC
TCCTGCCTGAGCTTTCAAGAGTACTGAGATTACAGGTATGAGCCACCACACCTGGCCAACATGGAGTTTTCTTATACAGAAATGTAGATATATGACTCTC
CACTTATTCAGGGTCTCCCTGTGCTTTAAGAGTCCTATGCAAGAAGTACCTACTGAGGAGGCTGAAGTGGGAGGATCACTTGAGCCTTGGAGGTCAAGGC
TGCAGTGAGCTAAGATTGTGCCACTGCACTCCAGCCTGTTTCCAAAAACAAACAAACACCCATATGCAATTGGCTGGAACCTCCAGTCCATGTCTTGTGG
TCCAAAGCCTTCCCTAAAATTTATATATATATATATATATATATATATATATATATATATATATAATTTTTTTTTTTTTTTTTTTTAGACAGAGTTTCAC
TCTTGTTGCCCAGGCTGGAGTGCAGTGGCGTGCTTTCAGCTCACCGCTACCTCCACCTCCCAGGTTCAAGCTATTCTCCTGCCTCAGCCTTCCTGAGTAG
CTGGGATTACAGGCATGCACCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATATTAGTCAGGCTGGTCTCAAACTCCCGACC
TCAGATGATCTGCCTGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACCTTGCCTGGCCTAAAATTTATCTTGATTGGCTCCAGCTTTAAG
CTTCAGCTACCACTGGATTGGTTCAGTTTATAACCCCAAGTGTGGCAGGATGTATTTTCCAAAGATGGTTGCATCAATAATAAAAATTGCATCCCCAGGC
TGGGTGCAGTGGCCCACACCTGTAATCCCAGCACTTTGGGAGTCCAAGGCAGAAGGATTGTTTGAGCCCAGGAGTTCAAGACAACCTGGGAAACATGACA
AGACCCTGTGTCTACAAAATATAAAAAATTAGCTGGGTGCATGGCTGGGTGCAGTCGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGTGGGCA
GATCACTTGAGGTCAGGAGTTGGAGACCAGCCTGGCCAATGTGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGCGCC
TGTAATCCCAGCTACTCGGGAGGCTGAGGTAAGAGAATTGCTTGAACCCGGGAGATGGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTG
GGCAACAGAGCAAGACTCTGTCTCAAAGTAAAATAAAATAAAATAAAAAATTAGCTGGGTGCAGCGGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGCT
GAAGTGGGAGGATCAGGAGCCCAGGAACTTGAGGCTACAGTGAGTGGTGATTCCTCCATTGCACTTCAGCCTAGGTGACAGAGGGAGACCTTGTCTCAAA
AGTAAGAAAGAAAGAAAGACATAAATAAATAAATTTTATCCCTTATTCTCTTCTTAAAATGTGACACTGGCTGGGCGCGGTGGCTCATGCCTGTAATCCC
AGCACTTTGGGAAGACAAAGCGGGCAGATCACGAGGCGGGCGGATCATGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGATGAAACCTCATCTCTA
CTAAAAAGACAAAAATTAGCCGGGAGTGGTGGCGTACGCCTGTAATCCCAGCTACTCCAGAGGTTGGGGCAGGAGAATCGTTTGAATCCAGGAGGCGGAG
GTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGGGTGACAGGGCAAGACTCCATCTCAAAAAAAAAATTAAAAAATGTGACATTAACATTCAT
CCTTGAGGTGGGGTCTCTGTTCCCTCCCCTTGATCATGGGCAGACCTTTGCAATTGCCTCAACAGTAAGAATGTGGTGAAGGTGCCACTGCATGACTTCC
AAGGACGGGTCCTGAGTGGCAATTCTCTTCAGTCTGGTGCTCTCCTACTCCCTCTGAGCTGCTATAGAGGATGTTCAGCTACCTTGAAGCTGCCATGTTG
GAGAAACTTCATGGAAAGCCCACAAAGAGATAAAGGAGAGAACTGTCCAAGCAACTCCAGCTGTTCCGGCCCCAGCGGTTGAAGGCTTCCCAGTACTGAC
ATCAGACATGTGAGTGAAGAAGCCTTCTAGGTGACATCAGGCCCAGCCACCATCTGACTATGACCTTATAACAGACCCCAGGCCAGACCGAACCAGCAGA
GTCACTCTCAAATTCCTAATCCAAAGAAATTGTCATTTTAAGCTGCTGAATGTTAGGGTGATTTGTTATGGTGCAACAGGTAATTAATACATCAATGTGT
GCTGTCCAGACTGTGAAACTCATCCTCTTTCCATAATTTCCACACACAAAAAGAAAACTTACTCACACAAGGCCTTTCTTGTGGTTAGCCCACAAAAGAT
GGAGAGATAAGTGATGTGAAACAAACAACTTAAAATTGAATTTGGACATCCCAGTTCTAAAAATCCTTTATAGGTTTACCCCACCCACCCCAAGCAATGC
CCACCATCCCTCTCTTACATCCTCCTCCTCTTGCTCTCATCTTCCAACAAACTTCAAATTCTTCTTCACTCTGTTAGGCAGAGCAATTACATTCTCTCAA
GCTCTTTCTCCCAAACTCAGCTCCAGGACAACCTTTCAAAATCCAGAGCCCTTTGCTAACCTGCCCAATGGAGTTGGACTTTTCTAGCTTCAACTAGGTT
CATCATTTTAGCTGATCTGCCTGTGGCCAGCTTCCCCACATTGGATGCCAACCTAGTAAAACAGTCATCCATAAATCATAAGGAAAGCTAAAATGTATCA
AGCACCTACTATGTGCTGGTTCGAGGTTAAATGCCTCGCATGAGTCATCTCATTCAATTTCCACAAAAACCCTTTAAGATAAGGACAATTTGCTGGGCAC
GGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCTGAGGCAGGCAGATCACCTGAAGTCAGGAGTTCAAGAGCAGTCTGGCCAACATGGCGAAACCC
CATCTCTACTAAAAATATAAAAATTAGCCAGGCATTGTGGCTCATGCCTGTAATTCCAGCTACTCGAGAGGCTGAGGCAGGGGAATCATTTGAACCCGCG
AGGCGAGGTTGCAGTTAGCTGACATCGTGCCACTGCACTCCAGAGCCTTTTAAGACTCTGTCTTAAAAAAAAAAATATATATATATATATATATGGACTA
TTAGTATCCCCATTTTACAGATGAGGAAAATGAGACTTCATAGAGTTTGGGGTGCCTGTGGTCATATCTATAATTGTGAAAAAGTCAGATTCCAAAGCAT
TTTACCAATATTGCCTAAGTGAGTGGGAGGGAAGGGAAGGCTCTCTGGAGTCGGGCTATGCTGGACAGCGGGGTTCGGAAACTCTGGTGAATAAAGTGGT
AGTTGTTTCTATGAACATGGAGTGAGAAGGCCCAATCCTAAACACACCAGTGCTTAAGGCAGCTGCAGAGAATTAAAGGCAATAGAAAAAGGGGAGCTGG
ATGGCAGGAGCTTGGATGGGGAAGACTTCAAGGGCAGGTGAAGATGCCAACAGCTTCCTGCCTGGAGGACCGAAGAAGGGTTGGGCTTCACTGCAGACCT
CCAGGAGACAGATTTGCTTGTTGGGACAGAGTAGGGAGGTGAAAGCGAGGTGAGGAAGTTCGGGGGTGGGGGAGGTGCACACAGYTCCACTAAAGAGCTG
GAAGAGGCCGATGGAGTATTCATGAGACGGCTGATCCAGGAAGGACTGTGGCATATTAATATGGAAAAGGCCTGTTTGTTTGTGCTTGGAGAGGAAGGAG
CCAGAGGAGAGGGGAGCAAGGTGGGCGGGAGCTGGGGAGAGCCTGCAGCAAGATCTGCAGAGCCCGAGGTGCTCTCGGCMTGGGCCCTGGAGAGGACGTA
GGGTAAGTGATGGGGCACAGGCTGTGCGTCAGGGGGAAGGTGCTGGGGCCTGAAGGTCCCGAGGGGAACCTCAGACGGCCTTATGCCTTCTCACAAAGAA
ACTGGACCATCATYTCCGACCCGCACCCCGGTCGCCCCTCGAGGACAGAGGGTGGGCGCAGGAGGCTGGACCGAGCGGGGCGGAGCTGGATGCCTGGCGC
CGGCMTCCCTCCCGGCAACCCCSCCGGTCCTCTCAGGTGACAGCTCACGCCGGCCCCCGCCCCGCCCCCCGCATATTCAGGAGCCCCAGCCCACCCTGCC
CGCGAACAGCCAGCGCTGGAGGAGCGCCGGGAGACTCTGCCGTCGGTGCGTGCGCGGACACGCACCCGTCCCCCTTGGTCTCGCCGCCAGCCATGGCCGC
CGCTACGGCCTCCCCCCGCAGCCTCCTTGTTCTCCTCCAGGTGGTAGTGCTCGCTCTGGCGCAGATTGTAAGTTTCGCAGCCCCTCCGCTGCCAGGGTCC
AGGGTGCGGGGTCTGGAGTCCGGGATGGAGGAGCTCTGCCTGTGTCCCGCGCCTACTGACACCCCTAGCCCGAGAGGCCACCTGAGGACAGCGCCGCGGG
CAGGTCCCCTCGGTGGGTGCATACATGGTGCCCATCGCGGCACCGTGAATGGAGGTGGCTGAGCCGGAGAGTCAAACGGGACCCGTCCCCAGACGCGCGG
CCCGGCCCGGGACAGGCAGCGTGGGGCAGGAGCTGGCGCCCGGTCCTGGCAGCCCGGGGAGCCCAGGTGGCGGGGCATACAATGGTGCTCATTCACCCGM
TGCGCAGCMTCCGCCCCCGCCGCYTCCCAGGGGGCGCCGGCTCCAACCAGACGCCGCTGTCGCCCCGAGGCGGCYTCTCGGCCCTGCCCGCCTACCCACG
TCTCCCTTCCGAGGGCCGCCGGGGGCTGCGGGCGCGCGGGTAGGGCAGAGACTGGGCCCGGTCGGGTGCTGGGTGTGGTTTCGAGCTCGCMTGCGGGGCG
CCAGCCTGGCACTTCGCGGCCTGGGGAGGTCGTGGGCACCGGGACCCCTGCMTGGGTCCGAGCTGGCYTCTTAAAAGGGCCGCCTTTTAAGATCTCTGAT
CTGTTCAGAGATGGGCAGCAGGATGGAGACTCTCCAGCTGTGAGCTCGCCTCATCTTGATATGACTTGTGACCTCCCTGAAACCTCACACCCACCCAGGG
GCATTGAATTGCAGGCAAACGGGATCCAGAGAGAGGGTCTGCTTTCTGGGAGGTGCCGGCTCCTCCTGCTCCCCTGCAGCAGTCAGGRCTTAGCAGAGGG
AGGACCGGGCAGCTGTGCTGCCGAAGGGGCGCTCCGAGTGGGAAGATAGTACCCGCTTCACCTCCCTACACCTCCTTTCTCTGCGCCTCCCCCACTTTCC
CGTCGGGTTTTCCCSCACCATGGGGAGAGGAGGAGGCGCTGTCTCTGCCTGTCGTTCACGTAAGAACAACAACCCGAGCCACCGCTCACTGAGGGCCGGC
AGCCTGCTAGGCACAACCTTACATTCCATCTGTGATTTATTTGAGCTGTCCACGTCTCCATCTATTCCCCACCGCGACCGCGCAAGGGCAAACTGGCACA
GTGGAAGGAGTCGGGCAGATCCAGGGCGGACTCCTGGCGCCGCCGCCCACTCTCAGTGACCATGGACCCTTCACGTTYTGAGCCAGTTTCTTCGACTGCA
AACTGGGGCCCGTAATAGSGCCCGCCTCCCGGTTYTGAGTATTCTGTAAGATAATGAATGCATGTAATGGCACACAGTGCCTGCTATACAGAAGATTCTC
AATACGTGGGAGTTCGCGGAAGAGCTGCGCCCCTAGGACCCCGCTCCCAGGGTCGCTTGCAGCCCCGGGGACGCCCAGCTTCCTGCRCTGTYTGAGGACT
GCCCCACCCCGTGTGTGTTTTTCAGAGAGGTCCACCGGGAGAGCGGGGCCCCCCGGGTCCCCCGGGACCGCCGGGAGTGCCTGGATCCGACGGCATCGAC
GTAAGTCTCTAACCTGAGACCAGGGCGGGAGGGAGGCGGCAGACAAAGGAGAACTTTGTGAGCGCTGTGGTGGGGGTGGGGACTTSGGGGTGCCCGGAGA
TGTAGTGCCCSTCGTCGCCAATAGGCGGCGCCGGCCCGCACCACAAGGACGCCGTTTGTTYTGCAAAAACCTCAAACCAGCCCTGACATGCGGAGCCCGT
TATAGCCGCCGACAGACAAGGAGYTGCTGTTCAGTCCGCCGGCCGCAGCTCACAGCGAGGCCTCATCCCCCTYCTCTCCTTTCCCCTCCTTGTGGGGTAG
GAGGCGACTCAACCCCTCACCCTGCCTYTGGCACATYTGGACGCTTCTTCAGGTTCGCTTGGGAGCCTTGGCCAGACCACCGACCAGCTTGGGCCAGACT
CCTGTCTCTTCCCTTCGGTTTTCTCTCCCCGATTTARAATCAGCTGGGCTTGTTCCCTGCAGGGTGAGGGTTAAATACCTCATTYTGAAAGCTCCCGCAG
GAGGGCCGCTTGATGTTTACCAGTCTGGACAGACTTCTATTCAACCTGGTGCCCCCAMCCCCCAAACACAGGATGCTGGGCCCCCGGCCAGGCCCTGGCT
GCTGAGGGCTCTGAAATGCCTGGAGGCCTCTCTGGGGCTGAATCGCACTCTACCGGCCCTGCCTGCCCACCACCAAGGGTCCTTTGGCACTGGAAGGAGG
TCCTTCCCTCCTTGGGAACACTGAATTTCCCCCTTGCAGTCCCCCTTGGTCCTTGCCACTGGCTCAGCTTCCCGTTCTCCTGCCCTGCAGTCTGGAATAG
AGCTGCTGCCCAACTCGCTCATCCCCCTTCACGTTTCTCTAAAAGCCCCAACCTTCCTCCCACACGTGCCCAAATCCAAGAGGCATCAGCTTGGAGCCCC
CAGCCCTGGTAGTGGGTCTCACAGCTGGCACCTCATGACATCAGCATGTCTGTACCTTCTTGCATGTTGCTGTCACCCTCTCCAGCCCGGCCAGGGTTAT
TCTCATGCTCCTGTGATTTGTTTTTGGTTTTTATTTTTGAGGAAAAGGGGGCTCTTTTCCCAAAGATTGCAAGGCTTAGGGGACCTGGACAGAAGAGAGG
AGAGTGAGGAGAGCCTTTGGGAGCGGCCTGCCAGGGCCTGTGTGTGCCCACTTGGGGTAGYGTGAGCCGTAGTGTGCTGTCTCACCAACTTGTATCTTGC
AGGGTGACAATGGGCCCCCTGGAAAAGCTGGCCCTCCGGTGAGTGCTTTATCCTCTTTGGCCTTTGACCCTTCCTGCTCTTGCCCTCCTCTGGCTCATGT
YTGTTCCATCTCTGTTTTCAAGGGACCCAAGGGCGAGCCTGGCAAAGCTGGGCCAGATGGGCCAGACGGGAAGCCCGGGATTGATGTGAGTAGCTGAGTG
TCGGGTGGGGCAGGGTAGGGMTCTGCCAATTGACCTCCAGGGCCTGGCTCTGGCATCTTCACTGATCTGTTCAGAGATGGGCAGCAGGATGGAGATTCTC
CAGCTGTGAGCCCCCCTCACCTTGATATGACTTGTGACCTTCCTGGAACCTCACTCTCACCCAGGGTCATTGATTTGCAGGCAACCGGGGTCCAGAGAGA
GGGTCTGCTTTCTGGGAGGTGCAGGTTCCTCCTGCTACCCCTCAGCAGTCAGGACTTAGTCTCACATTTCTGGCCTCCAAGGATCAGGCTGAATATGTTG
GGTGGGGCTGTCCTTGTGTGCCCTGTCCTTTCCTCCGCTCTTCCCCTGACCCCTACCCACAGCCCCAGGCATGACTCAGGAGAGAAACATCATTTAGCTG
ATACCACAGAGCTCCCAGGGGGCCCCCAAGGTCACAGGCTCTTGAACACAGCCAGCCCCAGGGGCATGAGGACAACATCTGATGGGGGTTACACTGGGTC
AGTCACTGAAAGATGGGAGAAAGGAGAAACCCCCATGACTTGCCTCTGCCCTGCTGGCTCATGAGGTGTGACCAGGGCTGGGACAGTCACCAGGACCCCT
TCAAACTCATCCACACCCTGCAACGATTACAAGGCATATTGCCTTCTATGTTGCATCAGTTCTCACATCCACCCAGAGAGGCACCCAGATGAGAAACTAA
GGCTCAGAAAAAGTTGCCAATGGCCTGGCGTGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATTACTTGAGGTCAGGAGCT
CAAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTACTAAAAATACAAAAATTACCCAAGCGTGGTGGCGCATGCCCCTGGTCCTAGCTACTTGGGA
GGCTGGGGCACAAGAATCATTTGAACCCAGGAAGCGGGGGTTGCAGTGAGCTGAGACTGTGCCACTGCACTCCAGCCTGAGCAACAGAGTGAGACTGTGT
CTCAATTGAAAAAAAAAAGAAAGAAAAAGAAAAGAGAAAGGAAAGAAAAGAAAAGAAAATGAAAAAGTTGTCAAGGTAGGACATCAAGCAAATGACCAAT
CTTGACCCATGGCTAGGTCTTCTAGACTCCTGAACCCGGAGGCATGAAGCCTGGGTCTGGCATAAAGCCAAATCTTTGGGCTTTGGTTTCTCATCTTTCA
AAAGAAGGGAATTGTTCTGCCTGCCTCCTAGGGTTACTATGGGAACTGGGGAAAAGGAAAGAAAGGTGTGGAGGTTCCTAGGCCTTCATGAGGTGTGGCA
AAAAGGAGCCTCGGCCCACCCAGGAGGGACCCTTGAACCTGCCCTGCTCTGTGGGTCAGGGAGCAGGTTGGCCCTCATTGATCCTACATTTTCATTCTTC
CCCAGGGTTTAACTGGAGCCAAGGGGGAGCCTGGCCCCATGGGGATCCCTGGAGTCAAGGTAAGGGGCCTGCTGGGGCCTCAGCRTGGGCAATCTAGGGC
CAGCGTTTGGGAGTGGCTGTAGAGAGGAAGTAGGAGCCGGGGAAACCCCAGCCTCTGAGCCTTTCTCGTTGCTTCTGCAGGGCCAGCCCGGGCTTCCTGG
TCCTCCTGGCCTTCCGGTGAGTACAACCTGCAAGGGCTTCGAGGGACTCTTGGGGGAGAGGGGACCTGCAGAGGGAGCCATGAAGCCAATTTTCTTTCTT
TCTGTTCCAGGGCCCTGGTTTTGCTGGACCTCCTGTAAGTCCTCAGGGATGGGGCAGGATCCCCAGAACTCCCAGGGAAGGAGGGGACAACAGAAAGGCT
TCGAGGGAATGGCCACCATGGGAAGGAGCCAGCTTGCTGTGATAGTGTCAGGAATAAGTGGACCTGCCAGAGACCCAGGGCCAGCCCACTCTGGGCCTGT
CCACTGGCTCTGCAATTCTCTGGTCCTTAAAGCCTCAGTCTGTCAGTCTCTCTGGGGTTGGCAAAAAAAAAAAAAAAGTAAAAGTGGAGAAACGGGCTTT
GGGTGCCTGTYTCTACCTTYGTGCCCAGGGTATCTGACCCTCTGAGGCATCCTGACCRTCAMCTCTCTGYTCCCCAGGGGCCTCCTGGACCTGTTGGCCT
CCCTGGTGAGATTGGAATCCGAGGCCCCAAGGTGAGCCTCAGCCACCCTCTGTTCACTGCCTCCTGCCTTCTATCTCCAAGCTGGCAAGCTGGGTGGTCT
TTCTGGAAGTTCCTGGGCCTGCTCCTGGCCACTGGGAAACTCCTCCAGGTCTGGGGCAGAAACCCCTCCTATGAGCCCACCCGGCACTAGGTCTTTTAGG
GACGCCGCTGGCCCCATCCCCTGTCAATCAGGCCTTCATCTCCCAAGATGGTRGATCTCACAAAGTGACCGGGAAGACAGGGTGGAGAGGGCAGAGGCAG
GACCTGGAGGAGGGCACTAGGGTAAGCTGGTAAGGGCTGGTCAGGGGTATGATTTGGGCTTCTTTTGCTTCCAGGGGGACCCTGGACCAGATGGACCATC
GGGGCCCCCAGGACCCCCTGGGAAACCTGTAAGTGTCCCCAGACCCCCGACATGGCAAAGTGCAGGGGAAGGAGAAGGGTCTTTGAGCAAGCCTGCGGCG
GGAAAGGGTCAGGCCAAGCTCCATCTTCATGTCTCCTCTCAGGGTCGCCCGGGAACCATCCAGGGTCTGGAAGGCAGTGCGGATTTCCTGGTGAGAGACG
AGGTCTGGGGCGGGGCTAACACAGGGGGGCGGGGCCACAGAGATGGGGAGGCGGGGCCACGGAGATGGGGGTGTCTGGAGAGATGGGGAGGGGCTGCAGT
GCAGGGGTTCCACCAGGTGAGGCGGAGGAGAGCACGGGGCTTGGAGAGATGGGGGCGCACTGCCCAGCTGATCACAGGACCCTGTGGGATTTTCTGTTTC
CAGTGTCCAACCAACTGTCCACCCGGAATGAAAGGTCCCCCAGGGCTGCAGGGAGTGAAGGTGAGAGCTCCTGGCCTGAATCTTGGGAGGGTGGTGCAGG
TGACAGGAGGGGACCTCGTATTGAGCTCTCTCCTTCCCTTCAGGGGCATGCGGGCAAACGCGGGATTCTGGGTGATCCTGGCCACCAGGGGAAGCCGGTG
AGTGCAAGGKCTGAGGGCTGTGGGTCAGGGATACGTGGAGATGGTCCTACAGGGCTCTGTCCCCTTCTTCRTCCCTTCCCCTTCCCCTGTGGGTTCTGGG
GACAGAGCCTTGAGCCGGGGGCTGGAGGCCTGTGCTCCAGGTCGGCATGTCTCTGGTCATGTCTCCTTGCTTGGCTTTTCTCTATCTGTAACACAGGACT
GTAGGGTTCGTAGTAGTCCCTCCCGTCTGCTTGTGCTGGGGAAAAGAGRTGGTATCTTTGCTTGTCTGTATATGTGTCTTTCCATCTGCCTGCCTGTCTG
ACAGCTCATCCCTGCCCTTTAGGGTCCCAAGGGAGATGTGGGTGCCTCTGGAGAGCAAGGCATCCCTGGACCACCGGTAAGGAACACCTTGCCTCAGTGG
CCCTCTTCTCCCTCACCCCAGGAGCCCTTCATGGAGTCATTCCYCTGCTCAGGCCTCTAGCTTGTAAAAGAGACACCTGTGTCTAGCTGGGAGCATCTCT
GGATGGGGAGATGGAGGCTGARATTGTCAGGAATGAGGGACAGGAACCAAAGCTGTCAGCAAGAAGCCCAGGCTGAGGTCCAGGTCTGCCACTGTCCCTT
TGAGTAATGCAGTGAGTCCCTCCTCATCTCTGAACCTCCATGTCCCATCCATGAGACAGAGACTCTGCTGCCTACCTCAAAAGGGCACTGTAAGATTGAA
GGTGGGCWTCAGACAAGGTATCATGAAGTGGGCCTTGCAATTGCCATTGCTGTCATTTTTCTTTCTCAACAGGGTCCCCAGGGCATCAGGGGCTACCCAG
GCATGGCAGGGCCCAAGGGAGAGAYGGTAAGTGAAYCTTGGGGTGTTCTACAAGAGCTTCCAGGAGCTGCCTTCTGGCCCCTGGAGTTCAGCCAGGACTG
ACCTGCAACCCTTTCCTCTCCCCAGGGCCCTCATGGATATAAAGGCATGGTGGGCGCTATCGGTGCCACTGGGCCACCGGTAAGCCTCTTTTTGYTCCCC
TAYCCCTGAGGCTGGAGCTCCTACAGCTACAGCCACAGAGTGGGCATGGCTCCCCCTGAGCCTGTGTGACCTGGATTCCTGCTTGTCTTTCTTGCCAGGG
TGAGGAAGGTCCTAGGGGACCGCCAGGCCGAGCTGGGGAGAAGGGTGACGAGGTGAGTCCTCAGGCACCCATTGTTCAGTCAGGACCCCTGGGGAGTACT
GGGSAGGACAAGGCACCCCCTAAGGCTGTGTGTGTGAGAGTGCATGAGTGTGTGCGTGAGTGTGAATGTGTAGTGTGTGTGAGTGTGTAGTGTGTGTGWG
TGTAGACTGTGTGTATATGAGTGTATGTGTACAGTGTGTATGTGTGAGGCTGTCTGTGAGTGTGTGTAGTATGTGTATGTGAGTGTGTGAGGATATCTCT
GAGTGTGTGTGTGTGACTGTGAGTGTAYGTATGTGTGTGTGAGTGAGTGTGTGTGTGTCTGCCCAAGTGGGTGACCTGCTGGGGAGGACCATCTGTGCCA
AGAGCCCAGTCAGCCCAAATTCAGACTTTAGGMGAAGCCCTGGGATCCAGTCCCATGGTCACTGGGGCCAGACAATGAGATTCCAGCAAATCAGCCATGG
GGCTAATGGGATTTGGTCTCGATCCCAGTTCTCTTAACTCTTTTTTTTTTTTTTTCCCAATTAATAGACCTGTTGGGGGAAGCGGTTTTAAGTTTACAGA
AAAATGGAGCAGAAAACACAGTTAACTGTTATTATTATTTAGTTTTTTAAATTATTTTCTTTTCTTTTTAAAAATTAAAAAATTCTTATACTTTTATTTT
TCTATTAGACAGCAGAGATCATCTAGTTGTTTTGTTTTGTTTTGTTTTTGAGATGGAGTTTTATTCTTGTTGCCCAGGCTGGAGTGCATGGTGCGATCTC
GGCTCACTGCAACCTCCGCCTCCCTGGTTCAAGAGATTCTCTTGCCTCAGCCACCCAAGTGGCTGGGATTACAGGCATGCGCCACCATGCTCAGCTAATT
TTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATT
ACAGGTGTGAGCCAACACGCCCAGCAATATCTAGTTTTTTAATGCAATTTTTTAACTATACAGAAAACCAGTGAGAGTGATATAAAGAATCCCCATGTAC
CTATCACAGGTTCCAATTCAGTTATTAACATTTTGTCAGTCTTGTGTCCTCTATCCCCCAGACCCCTCCTTCCTTTGATTTTGTTATTGCTTTGCTCTGA
TGTTTTCAAGTAAATCCTTAACATCCTATCATCTCAGCCCTAGATACTTTTGTACATATCTCTAAACAATAAGCACTCATTCTCACATAATCACATTATC
ACAACTGACAAAATAAACAAGTACTCCCTAACATCATCTAATGGCCAGTCTCTGTTCAGTTTTTCCCAATTATCTCAAAAATGTCTTTTCCTGGTTCTTG
TTCAAATCAAGACTCACACAGCATCCACACACTGCATTCGGTTGTTGTGTTCCTTTGGCTGAGTGGAKTGTGGGGCCTTGGCCAAGGTCTCAGTGGATTC
TGGCTCCCACCCCTGCTCTGGCTCAGCCCAGCCTGGCCTCCTGGCACTGACTTCTCCTCCCTCCTGCTGGTGCCAGGGCAGGAAGGGTACTCCCAAGGCT
CTCTCCTCCGGCCCCTGCATGGTGTGGCCTGTGCCAGAGGAACTCTGGGACCTAGAGGCCACTGTTCTCAGTGGTTCCCCTCTCTGCACAGCCAGACAGG
GGCCCAACATCCTGAGGGTGACCTGATCTCTCTCCGCTTTGCAGGGCAGCCCAGGTATTCGTGGACCCCAGGGGATCACAGGCCCGAAAGGAGCAACGGT
AGGTGCCAGAGGCCTAGGCCCACCAGGACAGAGGCCAGGGCCCAGCTGCTTTGTCCAAACCCCCAGAAGAGAAGCCTGGGATGCTAGTCTGAACTCTGCA
ACTGGTGGGCTGGCTCCATAACCTCAGGAAATGCCTCCCTTTCTGTGCCTCAGTTTCTTCACCTGTAAACAGGGGTGATGACATACGGGAGGTCATGGGG
AGCTTGCAGCAGTCGGGGACACCACCCTCCACACTAGGGAAGGACTGTGTTCCGTGACCCTCATCCCCTTCCCACTTCAACTCCCCTCCCCCAGTTGGCC
AGTGGGGCTTCCTGGGATGACCAGAGCCACTCCCTCCCTGCACACTGCAGCTGTCTCAGAGGAACAGGGGTGGGTGGCCAGACCCCAGACATCTCCGCAT
TATCACTCTCCCTTGAACTTTCCTCCTGGGTAGGGCCCCCCAGGCATCAACGGCAAGGATGGGACCCCAGGCACGCCTGGCATGAAGGTAGGAGTGGGGC
TGCTGATGGGACTGGGGCAGGGGCAGGACCTTGAGTCCTGGATTCTAGACACCAAGAGCCTGGGGYCCTCAGRTCATGGACATGCCCTTTCTTGCCTCTG
GATCTCAGTTTCCCTACCTGCATCTGGGTAGAAGCCATGGCCCTCTGGCTGGAGCTTTAATTTGTATCTTTGGTTATCTGTCTATCCCAGGGCAGTGCAG
GACAGGCGGGAYRGCCCGGAAGTCCAGGCCACCAGGGCSTAGCGGTAAGTGTCAGGTGGAGCCACAGGGGCTGGCCAGGGGCTAGTGGCTGATGAGGTTA
GAATCCACACACACCCGGGGCTCTTGCTCAATCACCACCTCTTGCCTTGTTACCAACTCTGTGGCCCCTGGCCTGGCGAAGGCTTCATTACTTGGACAAT
TACTCTAGCCTTCTCTTTGGCCATTCCAGTCCTCCATGTTGGCTAAATGGGATCTGACCATTTCTGCACTATAGCACCTTCCATGGCTCCCCACCGCCTC
CAGGAAAAAGTCATTCAGTCCAGTCCTTCAATAAGTAGTTATTGAGGTCGGGTGCAGTGGCTCATGCCTATAATCCCAGCACTTCAGGAGGCTCAGCTGA
GTGGATCACTTGAGGTCAGGAGTTCAAAACCAGCCTGGCCAATGTGGTGACACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGCGGCTCAT
GCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAGCCCAGGAGGCGGAGGTTGCACTGAGCCAAGATTACACCACTGCACTCCAGC
CTGGGTAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAATAGTTATTGAGTATCTRAGGTATACTAAGTGGCAGGTAAACAATTATAAATAGGA
CAGATGCAATCTTTGTCTTCATGGCTCATCTTACCATTCAATGACCACCATAATCTGACCCCAACCTGCCCCTCCTGCCATATCAGCAATGGCCCCTCTC
TGTCCTTTCCCTTCTCAACAGGCCTTGGCTTTTCTGCCTCCACACCTTTAGGCCTTTGCTGGTCCCTCTGTTTGAAATGCCCTTTCTGGTCTCTTTGTGC
CTTCTTATCGTTCAGGGCCATCTCCATTCCATACCTCCTGGAGTCCAGTCCATGGGAGCCTGCCCTCCCTCCCTGTGGGGGTACTGAGTGGCCAAACCTG
TTTCTGTGCACACATGCAGACTTGTGTTCCTGCGTGCACTCACATGGGCTCAGGCACCTGAGAGCACATATCCATCTCTTCCACGTAGACCCCAGGTCCT
GGAAGACAGGCCATTCTCTGTGCCCCACTCCTCTGCCAYCACTGTGGGAATGTACAGTTAAGTTCATSATGCCGTGGCTGGACCTTCTSTTGTTCAGCTC
CCACAGGTGGGGGAAATCTGGATTGGGGATGGGAAGCAAAGCAGCAGGTGCATGGGGCTCCCTCATGCCAGGGCAGAAACTGACTTCAACTTCTTTCTGC
AGGGTGTGCCAGGCCAGCCTGGGACAAAAGGAGGCCCTGGAGACCAGGTGAGGCGATCCCAAGCTGGGGACAGAATTGAGCAAGGAAGTCTGGGGCCAGG
AAGACAGCAAGGCCCAGGCCTCAGCCAAGTCTCAGAGGCTCAGCCAGAACATAAGCCCCTTGGGCCTAACCACCTCCCTCCTGCCACCTCCCACCCATCA
TGCACTCCTCAGCCTGCCTCAGTGCAGATAGGATGGCATGGCTTAAAATCCAGAGGAGAAACAAACAGGAAAATCAGGAGCCAAGAGGAYTGAACCAAGA
ATACCCTCTYCCCCKTCCCAGCTCATCTGGTTCCAGGCTCTGTTTAGGCTTCGTTGGGTTTCCCTGAGGCCAAGGGCCTGACTGGGCCACCCAGACTGAC
CTGAGAACTGTTTTCCTGCAGGGTGAGCCRGGCCCGCAGGGCCTTCCTGGATTCTCTGGTCCCCCTGGGAAAGAGGTAAATGCCCCCTGCACTGACACAA
GGGTTCCTGCTTTAGGGTGAGGCCATGGGGTGGAGCCCTAACCTAGGGAGAGCTCCGAGTTAGTCTGGCTCTGCCCTGACCCAATGATTCAGGGAAGCTC
TTTCTCCTCCCTGGGCCTGTTTCCCTATGTACATTGCAGGGAGGGTGGGGACTGGCTCTGTTCTGGAGTGTGACTTTCCTAGATGGCCAAGTTGATGGGC
TGGGAATCCAACAGGCAGAGTTGTTCGTTCATTTATTCATTGCATAAACATTCACTAAACACTTGCAACTATGAGTCTCCTCTTCATATGGAGGGTATAG
TTTAATGGAAGAAATAGACATGAAATAAATGATCAYGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCGGGTGGATCACG
AGGTCAGGAGATCCAGACCGCGGTGAAACCCCGTYTCTACTAAAAATACAAAAAATTAGCCTGGGGCGGTGGCAGGCACCTGTAGTCCCAGCTACTYTGG
AGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAGCGGAGATCGCGCCACTGCATTCCAGCCTGGGTGACAGAGCAAGACTCCC
TCTCAAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAATGATCACATGATAAGTAATTCAAATTGTGTTGGGTCCTTTGAAAGAAAACTACAGGGACC
CAAAACCATGGAACAGGTGGTCTGGGAAACCTTCCCTGATGAAGCAAATTAGCTGAGACCCAGGGTAGGGAGGGGCTGGCCAGGTGTGGAAGGGTGGGTT
CCACCAGGTCAAACGCTTAGCCCCAATTTCTCCTTCCTCYAGGGAGAGCCAGGGCCTCGAGGAGAAATTGGTCCCCAGGGCATCATGGGACAGAAGGTAA
GTGCCWGGCACAATGGCCCCTCCCCGGGGGCCTCTGYGGCAGCTGGCACTGCTGGATACAGCATCTGCTCCGTGCAGCCCGTGAGATGCCTCCCCAGGCA
GGGCCTAGGTTTGCTTTGCTGGTCTGCCAAGTGGAGAAAGGACCCCCTGCCAGTGACAGCAGGAATGGAGGGCACCCTGACCATGCGGTGCCAGGCCTCG
GTGCGGGAKGCTACCCCTGCTGAGAGCTGCTGAGGTTGTGACCTTCTCTTTCCATTTCAGGGTGACCAAGGCGAGAGGGGTCCAGTGGGGCAACCAGGCC
CTCAGGGAAGGCAGGTGAGTGCAGGCCAGCTAAGGTGGGCAGGGCGTCATATCCAGGCCCCTCAYTCCATTTATTCCTTTGGTTTCTTTTCTCCTCAGGG
CCCTAAGGGGGAGCAGGGCCCCCCCGGAATTCCAGGRCCCCAAGGCTTGCCAGGCGTCAAAGGAGACAAGGTGCCAGATGGGGCTGGGAAACACCTGGGA
AAGGGGCCCTATAACAGGGGGAGTGGGGTCGGCAGGACTCAGATCCTTCCGRAGCCTCCAAACCTGCGGATCTCAGGGTTCTGGTCTGGTCGGCGAGGCG
GAGTTGGAAAGAGGGGTGTGGCCGAAAGTTAGGWGGGGGACCCCGTGGAGGGGGGAGCTCGCCAAACCCCTCACTGCCYGCTTTCTCCAGGGCTCCCCAG
GGAAGACCGGGCCCCGCGGCAAAGTGGTGAGTTCCAGCACCCCKGTTCCYAGCGACCCCCAACCCTGCTCTGCGTCCCCGCCGCCACCGCGCGTYTGACC
CGTGGTTCTCTCTGCAGGGTGACCCAGGGGTGGCCGGCCTCCCCGGAGAGAAAGGCGAGAAGGTGAGCGCGCGRCCTRGGGAAGGGCGGGGAGCGGCGGC
TGGCCCCGGGGTCCCCGCGGCTTCGTGACCGCTGCTCCTTGTGCCTGCAGGGCGAGTCCGGCGAGCCGGGGCCCAAGGGACAGGTGAGTCCTCCCCTCCC
GGCGTTCTCCGACTTTCCTGGGCGGCCACTCCCTTCCTCGACCCCCACCCCCCACTCTCGCCCACCCGGGCGCCTTCTCACCCGGCTCTGCTCCCACCCC
CATCCCCCCGCAGCAAGGAGTACGTGGAGAACCCGGCTACCCTGGCCCCAGCGGGGATGCGGGCGCCCCAGGGGTTCAGGGCTACCCTGGTCCCCCCGGC
CCTCGAGGACTGGCCGGGAACCGAGGCGTGCCAGGACAGCCCGGGAGACAGGGCGTGGAGGTGAGTCGGGCCCCGGGGTAGGAGGTGCTTCTTCTAGGTA
GATCTGTTCTGGGGTGCGGCTTACCCGCCAAAGGCTAGGGATTCCCAGAGACTCACCGACTTCCCCGAGACTGGTTCCAAGCCCCAGAGCAGACAGGAAG
GCTGTGAGTGCAGCCTGAGGGATTACCCCGCGACCTTCCCAAGTAAGCCCTTGGCCCTGCCCAGGTACAATCTGTTCCTCAGCTTGGGAATTAATGACTC
AACACCAGAGTCTCCTCCATGGCGGCCTCACGCTCAGCCAGGTGGGATAGGAGCGGTGGGCCCTTGTAGCCAGGGGCTTCTTCCTGAAAGGCCTCTGCTT
TCAGGGCCGGGATGCCACTGACCAGCACATCGTGGATGTGGCGCTGAAGATGCTGCAAGGTGAGGGGCAGCAACCCCTCCTCACAGTCAGTTCGAGGGCA
TCGCCGCCCCCTCACCCCCTCCCGGAGCCTCCACRTGTTCACTTGTCTGAAAATCTGGAGTCCTGGGGGCTCCTTCCAGTCCAGTCTCTGAAGGGTTTTG
GGACCTTGAATAAGTCACTCTGGGCCTTTGACTTCCRCAAAACAGAGCCYACGGAAGGTGGTGCTTTTCTGTCTGCAAACCTAGGGGCCAGGGCCCATCG
GAATGCTCTGCCTCCCCTAGTGTTACTGCTGACACCCATCTCATAGACTTCCCTCTCCCTCCCTCCCTCCCTCCCTCCAGAGCAACTGGCAGAGGTCGCC
GTGAGTGCCAAGCGGGAAGCCCTGGGTGCGGTGGGCATGATGGGTCCTCCAGGACCTCCTGGGCCCCCTGGGTACCCAGGCAAGCAGGGCCCCCATGGGC
ACCCTGGCCCTCGGGGCRTTCCTGGCATCGTGGGAGCCGTGGGTCAGATCGGCAACACGGGGCCCAAGGGTGAGTGCTCCTCTGCRGTGGGCATGGGGGC
CAGGCAGTGAGGATTTGTCCAGGCCGGCCCTTTCCCCATTCCCTTCTCAGGATGACATACAGACCCTTCCCCGGTTCCTCAGCCACATGGTCCAGGAGAC
ACTCCTGGGCTCTTTCCTAGTAGCAAACGGATGGCAATGAATGTACTATGTTATCACTCGGGGTTTCTGGGGTTTGTTTTTGAATGTGCTTAGTGGTACC
CCATAAGCATCTTTCCATGTCAATAGAGATGGGGCGGCAGACCAGCAGAGCAGTAAAGCAGGCAGGCTGGAGCCACACACGGGTGTGAATCCAGACTCCC
CTTTCTCATCGTGGCTCTCAGACGAGTTACCTGCTAATTTCCCTGGGCCTTAGGTTTACYATCTGTAAAATGGGGACACTGAAAGTACCAACCTCATCAT
GTGGCAGTGAGGACTATCCTTAGAGTAGTTTACATAGAGTTTGTCTTAGTTCACTGAGACACAGTAAATGCTAGATATTGTTATGCTTGCTTTCCTGTAA
TAAACTTTATTGGTTACATAATCTTCCATCCTTTGTCTGCACCTTCCTTTATTTAACAAGCCCTGCGTGACCATTTCCAACTTTCCTCTATTACAAACTA
GCACAAAACAGGAATAATTTCTTTGCGTGAAACATAGCAAAAAATAGAGGAAAAGCATTTTCCAATTCTGAAAAATGAAGATTYCCTTTTTTGTCTACAG
GAAAACGTGGAGAGAAGGGTGATCCAGGAGAAGTGGGACGGGGGCACCCCGGGATGCCTGGGCCCCCAGGGATCCCAGGTAAGCCATTGGCCCTGCCCAG
CTGCAGTGTGTTCCTCAGCTTGGGAATTAATGACGYGTGGACACTGCGGTCTCCTCCATGGCGGCCTCAYGCTCAGCCAGCTCAGTCCTTGATACCCAGC
TTCTGCACCCCTTTGGAGCACCCCGGAGTCTCTGGGTGGTTCCAGCTCTGGAAGCTGGGCCTCTCAGGACTTCCCAGGATCCACCACCATCACTTCACAG
AGGTGATGGAAGGGATGTTTGCTCCCAAAGCTCACTGATTGGGAGCTGGGGGTAGGGGACAATCACAGAATCTCTGCCTCTGGGGCAGAGTCCTTTCTCC
TATGGTGTTTTGGCCTCATTTTCTCCATCTGAAAAGTTTCCCCACCTTCAAAATTCTGGGCCTGAGACAAGAGGTGCCCCTAATGTCTTGACTTTCTCCT
GTTCACAGGACTCCCTGGCCGGCCTGGCCAGGCAATCAACGGCAAGGATGGAGATCGAGGGTCCCCAGGGGCTCCAGGAGAGGCAGGTCGACCTGGCCTG
CCAGGCCCCGTGGGGCTGCCGGGCTTCTGTGAACCTGCYGCCTGCCTTGGAGCTTCGGCCTATGCCTCTGCCCGCCTTACAGAGCCTGGATCCATCAAGG
GGCCTTGAGCATCAGGCCCAGACAGAGCCTGGCAGGCATCCTGGCGGGAAGGACCAGGTCCCCTCTGGGTGGACATGCACCCATCCCCAGTCCAGGAAAC
CATCTCCCCCAGGACCTTCTGTCTGGGACYCAGGAGTCCTAAGGAAAAGGAATTCTAAAACATGGGGGAAGGGGAGGTAGAGCACTGATGGGTGAAAAAG
TGAGGCCAACACACAGGGCAAGTGGTGTCGATGGAGTCGAAGCGCTGAAGGAATAGGGCGGCTTTCCTTCCAGCGAGCATCATTCGGCTGTTACCAAAAC
AAACATCTTAATCTGCACCTTYCTCCACTGGCCATCTTGTCCTTGGGTCAGTGGGACATGGGCACCTCGGGAGGCCCGGGCCCTGCCCAGCTACAGTTCC
ACCCCTCAGCTTGAGGACCAATGACTGAGGTCTATGCCAGTTCCTGATCCCATCTCACTCTCTGGACCTACCAGGTGACTGCTGCTGGGTGACTCCCCTG
AGGCGGCTATACCCTTAAGCCAGCCCCACTACTTCCTTCCCTGCCTCCCAGCTCAGTATTTAAACATCATCTCCCTTCTCTTTCTCGCATAACTCCCCAC
CCCTTTCTCCCCGATCCACCCAGGCCTTTCTGTAAATAAAAGCTCCCAAGTTGGGTACAAACCAGGATATTGGAGTTACTCTATCCTGGAGTTAACTAGG
ATAGAGGAGTTGTTGGGCTTCTCTTCTTGTGGATGGGGCAGTTGTTGCTGGGCCTCCATTGCCCAGGCAGGAAGGACAGAGGCTCTGGAGGGGGAGGGAA
GGATGGGGCGTTTTCTCTGGGCACCTGAATTCTGAGCATTAGGATAGCATGGCAGTTTTGAGGAACATCTGTGGGAGGAACCTAGGAATGGAAGCAGGAT
GCTGACCTGCTGTGTAACTTTGGGTGAATCCCTTTTGAGCCTTTGTACAACTGTGGCAAGGACTCACCTGTATCTTGTTCATGCCAGTATAGCACACCCA
GTGTCTCGCCGGGGTCTGCCACTTGGAAGGTCCTCTGTGAGTTTCAGCACCCACGGTGTGCTGGCCCTGGGGTAGGAGCTGGTAGTGAAAGATTGGAAGA
CCTTGTTCTTGCCTTCCAGGGGTTTCCAGGTTCATGAGAAAAACAGATATGGACTTGGATGAAAAAAGTCCGGGAGAGACTAGCTCAGATCTGATCTGTA
CCACCTGGGGGTTCCCAGCCCATAGCTCTGTAGGCCTTCAAGGAGGAAGAGGAGGGGAAGGGGGGGAAGGGGCTGAGGCTCGGGGACTCCAGCCTGAAGT
CCAAGCATGTGCGGAAGCCTAGACCCTCCCACCTTACCACAAACTTGGCTCCAAGTCCCCTCTATGCTGACGCATCCTTGCCCTCCTCCTCCTCCCCACT
GCCCTCCACTAGCCCATCCTCCCTCCTCCCTCCTCCCCTCAACACACATTTATCACTAGTGACATCTCAGCCCCCCCTACCCCAATCCAGGGACACAGGA
GGGACACAGTGGGGTTAGACTGAGGGCCACTGATGTGGCTTCACCCTCAGTGCTTGGGCARTTCCCAAGTTACAGCATCTCAGTCCCCAGAGAAGGCCAT
GCTGCCACTGTAGCCGCCAAGGGCCCCCTGGAGTGCAGGGCACAGAGGAGGAAGGGAGAGGATGTGAGCTGCAGGAGGCAGCTGAAGCCAAGCCTTGGGC
AGGCTCTCAGGTATTACATACCTGGTGGGGAGGAGGGTTCTCCCTTCCCTAGGCTGGATCCCTCACTTGCTCCTAGTGCCTGGAACCTTAGGTTTAGAGA
GCCACTCTACTCCTTGAAGTCTCTTGATGCACCTTACCTGGGGCCCTTTCCTTATCCCTCTCTGCAGCATTCCCAGAGATGGTCCACTGGAGGGTTTCAG
CACCACAGAGAGGCTGATGATTCACAAATCTCATGCAGTTACACCTCATTCCTTCTGACAGCAATTTGAAGGGGCTGAAAGGGGGCTAATCCCTAAGGAC
CAGTGGTTGGTAGCCTACGTAAGACTCCCTGGTGGGTAAATTTCACTCAGACCATTTGCTGTGATCTACGAATCTCCTATATGCCTTTCTAAACTCAACT
CTGTGCTTAGACTCTGGTACATTCCACTGCAGCCATACCAGCCTATGCTGTCCCTCTAACACGTGTACAACACACAAGCCATGCCCTGTTTGGAATGTTC
TTCCCCAAAATATCACTGCCAGTGACCTTGCTTCAGGTCTTTATTCAAAAACTGACCTCATCCTTACCCTGATATTCCAGAATACCATTCTGCTTTATTA
TTTGTCTTCCACACTTAGCACTATTCAACATAAAGCACTAGAATATAAGCTCCACGAGGGTGGAAACTTTTGCTCTTATTTGCTGTTCTATTCTGCAGCA
CATCAAACAGTGCCTGGCACACAGCAGGTGCTCAATAAATATTTATTAAATGAATATGTTCAGGATGCTCAGAGGAAGATCCCACCAATCATCAAACCAG
GAAGGAAGGGATCTGGTCTCCACTTGTGTGTGGCTGAGATGTGTTCTGAGATGGCCCAGTGTCCGAGTTTTATTCCCTCACCTACTGAGAACAGGGACCT
GCCCTTTGACAGCTGAATCTTGGGAGGCAACAGTCTGATGCAAAAAAAAAAAAAAAAAAAAAAAGTAGGAACTCAATTCCCCTGTTTACAATTAGGAAAA
GGGGGATTTAGAAGCTTAACAGAAAGGGCATTGCACCAAGACAGCCCAGCCCCTTTGCAAAGGTTCAACACCACACTGCACCTCTAGAATGCAGCCTGTG
GGGAGAGTCCCACACCTGCTGCTGCTGACTCTTCTTTCAAACTTCATCTCTCTGGCAATCCTCTCCTCACCCTGAAGGCCAGCTGGGTCAGAAACATTTT
TTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGTTGGAGTGCAGTGGCGTGATCTCAGCTCGCTGCAAGCTCCACCTCCCAGGTTCAA
GTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCGCCACCATGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCAC
TGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCTTAAGCCACTGCACCCGGCCC
AGAAACATTTTAATTTTGTGCTTATTTACATCATAGCAATTAGGGTGAATTATTAATATCACCAACAAGTATCAATTGTTGAGCTCTTATATTATTAGAT
ACTGTGCTAAGTGTCTGCAAACATTATCTCATACTATCCCTACCACAGCCCTGTAAAGTAGGTATTACCCCATCTGCCATGTTAAAAAATAAAATCTCTG
TCTCAATCCCACCTGTAGATACTATCCCAAATTTTTGCTCCCTTTTATGGGGAGGGTTGGTCTCACTTTGGCTTTTAGCTCACCACACTGTTCTCAGATT
CCTGCGCTGATTTCTCATGTCTCCAGTATCTGAAAGTCACTTGTTCCTTGGACCACATCTTTTTCTCTGGCTCCTCTCATATCTCATTCAGTTTCATGGC
TTTAAACTTTATCTATATATCCCCAGTCCAGATCTCGCTGCTTAACTTGATCCGTCGATCCAACTGCCTACTCAACATCTCCCCTTCGATGTCTGATGGG
CATCTCAAATTTAACATGTCCGAAACAATTCCTGATCTTCCCCTCCAGAATCCCCCCTCCTGCGATCTTTCCCATCTCACCCAAGGGCAACTCCATCCTT
TCAGTTATTTAAGCCAAATACACTGGAGTCATCCTCCACTCCCACTTTATCTCTTAGACCCCACATCTGATCCATCAGCACATCCTGTTGGCTCAGTCTT
AAAAATATATCCAGAATCCAGCCACTTACCACCTCCTGACTACCACTCCAGTCTAGCACCATTATTTCTTGCAAGAAGGATTGCAAGCCTCTCCCAACTA
GTCCCCTGCTTCAACCTTTGCTCCTCAACATAGAAGCCAGAGTGGTCCTATTAAAACTTCAGATCATGTCACTCCTTAGCCTAAAACTCTACAATGGCTT
CCTACCACACTCAAGGAAAAGCCTGAATTCTTACAGTGGCCTACAAGGCCCTGCAAAATCTAGCGTCTGGGATGCTCTTCCCTCAGACACCTCCCTAGAA
CACCTCACTCTTCATTTCCTTCAGGTCTTGGTTCAAATGTGACCTTCAGTGATGCCTTTTTGTGACCACCCTATTTAAAATTGCTGGCCAGGCACGGCTC
ATGCCTGTAATCCCAGAACTTTGGGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGTCTGGCCAACATGATGAAACCCCATCTCTA
CTAAAAACACAAAAACTAGCCAGGTGTGGTGGTGGATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAG
GTTGCAGTAAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGCAACTCTATCTCAAAAAAATAAAAGATAATAAAATAAAATTGCAGCTC
CTACCCCCACCCAAACACCTCAGCCCCCGCCTTTTTTTCCAAAACATGTATCACCATATAAATACATTTTAGTTGTCTTTCTCCCTGATACTAGAATGTA
AACTCCAAGACGTGGCGGATTTTTGTACCTTTTGTTTACCATGTATTCCCCATCACCTAGAGCAGCGCTTGGTAGAGTGGGGACAGATGGAGAAATACAG
TCTCGGTCAAGTTTCTTACCCAAAGTCTTACTAGTAAGTGGCATGTTGGATTATAGAGCCCCAGGCTTAATCCTAATACTTTACCTGTTATTGACCATCA
TCCAGAGAGCCAGAGGGGAGCTCGGACTCAGCCAAGGGCAGAGTAAGGCAAATCTGCTTCCTGAGTATTGGCGGTCCCGGCTTCACAGGTTTTTAGAACA
CACAGAGGTATCTTCCTAGCTGTTTCTGGTCAAACTGTTTAGGAAATCCTCCTCCCTGGAAATCATCCTGGATAACAGAGAAGAGCCCAAGATTTCCTTA
TCCATATTGTCTAAATGGGACTATCCCATTCCACAATGGATTATATTTGCCTTCCCACAAAACTGAACTCAGCCTGGCACACATCGTTCAAGTTACTTGC
TCACATCACTGTGGTCTTAAAATGTTTCTGGATAAAAGTTTTGGATTACAAATTATCTGTAATTTTCTTTGTTTTGCCCTTAGGATAGAACGTAAGGCCC
TTAAGTGGTAGTTAGCTTTCTGCTAATGATGGCAGAATACTCAAAACCATCAAAGATATAGAAAGTATATAAGAACATGGCCAGGAGTGGTGACTCACAC
CTGTAATCTCAGCATTTTGGGAGGCCAGGGCAGGCAGATCACAAGGTCAGGAGCTTGAGGCCAGCCTGGCTAACATGGAGTAACCCCATCTCTACTAAAA
AATACAAAAATTTGCTGGGCACGGTGGCTCACCCCATAATCCCAGCACTTTGGGAGGGCAAGGTGGGCGGATCCCCTGAGGTCAGGAGTTTGAGACCAGC
CTGGCCAACATGGAGAAACCCCGTCTCTATTAAAAATACAAAAATTAGCCAGGTGTATTGGCCCATGCCTGTAATCTCAGTTACTCGGGAGGCTGAAGCA
GGAGAATCACTTGAACCTGGGAGGCAGAGGTGGCAGTGAGCCAAGATCATGCCACTACACTCAATCCTGGGTGACAGAGAGACAGAGAGTCTTAAAAAAA
AAGAAAGAAAAGAAAAAAATACAAAAATTAGCCGGATGTGGTGGCTCACATGCCTGTAATCCCAGCTACTCAAGAGGCTGAAGCAGGAGAATCTCTTGAA
CCTGGGTGGTGGAGGTTGCAGTGAGCCGAGATCGCACCATTGCAGTCCAGCCTGGGCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAG
CCAGGCGTGGTGGCGCAAGCCTGTAATCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCGGTGAGCTGAGATC
GGGGCATTGCACTCCAGCCTGGACAACAAGAGAGAAACTTCTTCTCAAAAAAAACAAAAACAAAAAAAGCAAGTAGAAGGTTTCCACAGGGAGGGGAATA
TCACATGTAGGATCAGGGGTAACAGTGAGCATATAAAATATAAGGGCAAGCGGGGACCATCATTTGGTACTAAAACCACTGAACTGATCCTGGGAATTCT
CCTATCCTAAACAGAGGCAGAATTTACAAGCAGTTCTCAGACCTCAGCAAAGGGCCAACTCAGATAAAGCCAGTATATACACACAACAGAGATTCAACCT
TAGATTCAGAGCTTAACTCTGCTGGAGTTGTGCCATTTTACCCAAGGCTTTGACCTACTCAATTTTGCCCCTGCTGCACATCCACCAGGTCTTTCTTAGG
GTGCAGAGTGCCATCTATTCCTTCGTTGGTGGGCCTATCTACTCTTCCCTTGATTGGTCAATTTCTTAGGAACCTACCAGTATCCTTTTGGCCATCCCTA
TGCCTCTGCCATCCATAAAGTGTGGGTGACTAAGTCAGTCACATATTTAAAAGCTAATTACTGCCACCATATGTAAGGAAAACCAAAGAGGCAGCTGGAG
CAGACCA


SNP Information

Context             (SEQ ID NO:13592):
GGCCCTCTGGCTGGAGCTTTAATTTGTATCTTTGGTTATCTGTCTATCCCAGGGCAGTGCAGGACAGGCGGGAYRGCCCGGAAGTCCAGGCCACCAGGGC
S
TAGCGGTAAGTGTCAGGTGGAGCCACAGGGGCTGGCCAGGGGCTAGTGGCTGATGAGGTTAGAATCCACACACACCCGGGGCTCTTGCTCAATCACCACC
Celera SNP ID:            hCV16171417
SNP Position Genomic:     16239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:13593):
GTTCCAGGCTCTGTTTAGGCTTCGTTGGGTTTCCCTGAGGCCAAGGGCCTGACTGGGCCACCCAGACTGACCTGAGAACTGTTTTCCTGCAGGGTGAGCC
R
GGCCCGCAGGGCCTTCCTGGATTCTCTGGTCCCCCTGGGAAAGAGGTAAATGCCCCCTGCACTGACACAAGGGTTCCTGCTTTAGGGTGAGGCCATGGGG
Celera SNP ID:            hCV2515304
SNP Position Genomic:     17930
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13594):
TGCCTCAGTGCAGATAGGATGGCATGGCTTAAAATCCAGAGGAGAAACAAACAGGAAAATCAGGAGCCAAGAGGATTGAACCAAGAATACCCTCTCCCCC
K
TCCCAGCTCATCTGGTTCCAGGCTCTGTTTAGGCTTCGTTGGGTTTCCCTGAGGCCAAGGGCCTGACTGGGCCACCCAGACTGACCTGAGAACTGTTTTC
Celera SNP ID:            hCV2515305
SNP Position Genomic:     17815
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,40)   total(G,76|T,2)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,8)      total(G,8|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13595):
GAAGTGGGCCTTGCAATTGCCATTGCTGTCATTTTTCTTTCTCAACAGGGTCCCCAGGGCATCAGGGGCTACCCAGGCATGGCAGGGCCCAAGGGAGAGA
Y
GGTAAGTGAATCTTGGGGTGTTCTACAAGAGCTTCCAGGAGCTGCCTTCTGGCCCCTGGAGTTCAGCCAGGACTGACCTGCAACCCTTTCCTCTCCCCAG
Celera SNP ID:            hCV16171415
SNP Position Genomic:     13425
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13596):
AATTATCTCAAAAATGTCTTTTCCTGGTTCTTGTTCAAATCAAGACTCACACAGCATCCACACACTGCATTCGGTTGTTGTGTTCCTTTGGCTGAGTGGA
K
TGTGGGGCCTTGGCCAAGGTCTCAGTGGATTCTGGCTCCCACCCCTGCTCTGGCTCAGCCCAGCCTGGCCTCCTGGCACTGACTTCTCCTCCCTCCTGCT
Celera SNP ID:            hCV2515306
SNP Position Genomic:     15168
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|G,6)      total(G,6|T,3) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13597):
GTGTGTGTGAGTGAGTGTGTGTGTGTCTGCCCAAGTGGGTGACCTGCTGGGGAGGACCATCTGTGCCAAGAGCCCAGTCAGCCCAAATTCAGACTTTAGG
M
GAAGCCCTGGGATCCAGTCCCATGGTCACTGGGGCCAGACAATGAGATTCCAGCAAATCAGCCATGGGGCTAATGGGATTTGGTCTCGATCCCAGTTCTC
Celera SNP ID:            hCV2515307
SNP Position Genomic:     14133
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13598):
GGATCCCAGGTAAGCCATTGGCCCTGCCCAGCTGCAGTGTGTTCCTCAGCTTGGGAATTAATGACGTGTGGACACTGCGGTCTCCTCCATGGCGGCCTCA
Y
GCTCAGCCAGCTCAGTCCTTGATACCCAGCTTCTGCACCCCTTTGGAGCACCCCGGAGTCTCTGGGTGGTTCCAGCTCTGGAAGCTGGGCCTCTCAGGAC
Celera SNP ID:            hCV25473730
SNP Position Genomic:     21970
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,40)   total(C,74|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:13599):
CTGGGCCCGGTCGGGTGCTGGGTGTGGTTTCGAGCTCGCCTGCGGGGCGCCAGCCTGGCACTTCGCGGCCTGGGGAGGTCGTGGGCACCGGGACCCCTGC
M
TGGGTCCGAGCTGGCCTCTTAAAAGGGCCGCCTTTTAAGATCTCTGATCTGTTCAGAGATGGGCAGCAGGATGGAGACTCTCCAGCTGTGAGCTCGCCTC
Celera SNP ID:            hCV16064550
SNP Position Genomic:     7152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13600):
CAAAAAAAAAAAAAAAGTAAAAGTGGAGAAACGGGCTTTGGGTGCCTGTCTCTACCTTTGTGCCCAGGGTATCTGACCCTCTGAGGCATCCTGACCATCA
M
CTCTCTGCTCCCCAGGGGCCTCCTGGACCTGTTGGCCTCCCTGGTGAGATTGGAATCCGAGGCCCCAAGGTGAGCCTCAGCCACCCTCTGTTCACTGCCT
Celera SNP ID:            hCV11285566
SNP Position Genomic:     11562
SNP Source:               Applera
Population(Allele,Count): african american(A,25|C,13)   caucasian(A,33|C,7)   total(A,58|C,20)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,13)      total(A,13|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13601):
GCTGGGTGTGGTTTCGAGCTCGCCTGCGGGGCGCCAGCCTGGCACTTCGCGGCCTGGGGAGGTCGTGGGCACCGGGACCCCTGCCTGGGTCCGAGCTGGC
Y
TCTTAAAAGGGCCGCCTTTTAAGATCTCTGATCTGTTCAGAGATGGGCAGCAGGATGGAGACTCTCCAGCTGTGAGCTCGCCTCATCTTGATATGACTTG
Celera SNP ID:            hCV16064551
SNP Position Genomic:     7168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13602):
ATCCAGGGCGGACTCCTGGCGCCGCCGCCCACTCTCAGTGACCATGGACCCTTCACGTTCTGAGCCAGTTTCTTCGACTGCAAACTGGGGCCCGTAATAG
S
GCCCGCCTCCCGGTTCTGAGTATTCTGTAAGATAATGAATGCATGTAATGGCACACAGTGCCTGCTATACAGAAGATTCTCAATACGTGGGAGTTCGCGG
Celera SNP ID:            hCV9630220
SNP Position Genomic:     7819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:13603):
CAGCCTGCCTCAGTGCAGATAGGATGGCATGGCTTAAAATCCAGAGGAGAAACAAACAGGAAAATCAGGAGCCAAGAGGATTGAACCAAGAATACCCTCT
Y
CCCCGTCCCAGCTCATCTGGTTCCAGGCTCTGTTTAGGCTTCGTTGGGTTTCCCTGAGGCCAAGGGCCTGACTGGGCCACCCAGACTGACCTGAGAACTG
Celera SNP ID:            hCV16069749
SNP Position Genomic:     17810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13604):
TTCATTGCATAAACATTCACTAAACACTTGCAACTATGAGTCTCCTCTTCATATGGAGGGTATAGTTTAATGGAAGAAATAGACATGAAATAAATGATCA
Y
GCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGATCCAGACCGCGGTGAAACCCCGTCT
Celera SNP ID:            hCV15953452
SNP Position Genomic:     18336
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13605):
CCCAGGCACGCCTGGCATGAAGGTAGGAGTGGGGCTGCTGATGGGACTGGGGCAGGGGCAGGACCTTGAGTCCTGGATTCTAGACACCAAGAGCCTGGGG
Y
CCTCAGGTCATGGACATGCCCTTTCTTGCCTCTGGATCTCAGTTTCCCTACCTGCATCTGGGTAGAAGCCATGGCCCTCTGGCTGGAGCTTTAATTTGTA
Celera SNP ID:            hCV16064557
SNP Position Genomic:     16066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13606):
GTGGTGTCGATGGAGTCGAAGCGCTGAAGGAATAGGGCGGCTTTCCTTCCAGCGAGCATCATTCGGCTGTTACCAAAACAAACATCTTAATCTGCACCTT
Y
CTCCACTGGCCATCTTGTCCTTGGGTCAGTGGGACATGGGCACCTCGGGAGGCCCGGGCCCTGCCCAGCTACAGTTCCACCCCTCAGCTTGAGGACCAAT
Celera SNP ID:            hCV16064558
SNP Position Genomic:     22822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13607):
AGGCGTCAAAGGAGACAAGGTGCCAGATGGGGCTGGGAAACACCTGGGAAAGGGGCCCTATAACAGGGGGAGTGGGGTCGGCAGGACTCAGATCCTTCCG
R
AGCCTCCAAACCTGCGGATCTCAGGGTTCTGGTCTGGTCGGCGAGGCGGAGTTGGAAAGAGGGGTGTGGCCGAAAGTTAGGTGGGGGACCCCGTGGAGGG
Celera SNP ID:            hCV25472795
SNP Position Genomic:     19452
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(G,32)   total(A,4|G,60)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(G,30)   total(A,5|G,63)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13608):
GGGGGGAGCTCGCCAAACCCCTCACTGCCCGCTTTCTCCAGGGCTCCCCAGGGAAGACCGGGCCCCGCGGCAAAGTGGTGAGTTCCAGCACCCCTGTTCC
Y
AGCGACCCCCAACCCTGCTCTGCGTCCCCGCCGCCACCGCGCGTCTGACCCGTGGTTCTCTCTGCAGGGTGACCCAGGGGTGGCCGGCCTCCCCGGAGAG
Celera SNP ID:            hCV25636953
SNP Position Genomic:     19650
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13609):
CGTGGAGGGGGGAGCTCGCCAAACCCCTCACTGCCCGCTTTCTCCAGGGCTCCCCAGGGAAGACCGGGCCCCGCGGCAAAGTGGTGAGTTCCAGCACCCC
K
GTTCCCAGCGACCCCCAACCCTGCTCTGCGTCCCCGCCGCCACCGCGCGTCTGACCCGTGGTTCTCTCTGCAGGGTGACCCAGGGGTGGCCGGCCTCCCC
Celera SNP ID:            hCV25636954
SNP Position Genomic:     19644
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13610):
GGGGCAGAAACCCCTCCTATGAGCCCACCCGGCACTAGGTCTTTTAGGGACGCCGCTGGCCCCATCCCCTGTCAATCAGGCCTTCATCTCCCAAGATGGT
R
GATCTCACAAAGTGACCGGGAAGACAGGGTGGAGAGGGCAGAGGCAGGACCTGGAGGAGGGCACTAGGGTAAGCTGGTAAGGGCTGGTCAGGGGTATGAT
Celera SNP ID:            hCV2245300
SNP Position Genomic:     11853
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   (A,-|G,-)   (G,-|A,-)   Caucasian(G,30|A,30)   African-American(G,30|A,30)   Asians(G,30|A,30)   total(G,90|A,90)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13611):
TTCTGGTCTGGTCGGCGAGGCGGAGTTGGAAAGAGGGGTGTGGCCGAAAGTTAGGTGGGGGACCCCGTGGAGGGGGGAGCTCGCCAAACCCCTCACTGCC
Y
GCTTTCTCCAGGGCTCCCCAGGGAAGACCGGGCCCCGCGGCAAAGTGGTGAGTTCCAGCACCCCTGTTCCCAGCGACCCCCAACCCTGCTCTGCGTCCCC
Celera SNP ID:            hCV25636955
SNP Position Genomic:     19579
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,32)   total(C,64|T,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13612):
CTGGTCCTTAAAGCCTCAGTCTGTCAGTCTCTCTGGGGTTGGCAAAAAAAAAAAAAAAGTAAAAGTGGAGAAACGGGCTTTGGGTGCCTGTCTCTACCTT
Y
GTGCCCAGGGTATCTGACCCTCTGAGGCATCCTGACCATCAACTCTCTGCTCCCCAGGGGCCTCCTGGACCTGTTGGCCTCCCTGGTGAGATTGGAATCC
Celera SNP ID:            hCV2245301
SNP Position Genomic:     11520
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,24)   caucasian(C,10|T,30)   total(C,24|T,54)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,13)      total(C,3|T,13) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13613):
TGCAGGGTGAGGGTTAAATACCTCATTCTGAAAGCTCCCGCAGGAGGGCCGCTTGATGTTTACCAGTCTGGACAGACTTCTATTCAACCTGGTGCCCCCA
M
CCCCCAAACACAGGATGCTGGGCCCCCGGCCAGGCCCTGGCTGCTGAGGGCTCTGAAATGCCTGGAGGCCTCTCTGGGGCTGAATCGCACTCTACCGGCC
Celera SNP ID:            hCV2245302
SNP Position Genomic:     8658
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13614):
CAGCTTGGGCCAGACTCCTGTCTCTTCCCTTCGGTTTTCTCTCCCCGATTTAGAATCAGCTGGGCTTGTTCCCTGCAGGGTGAGGGTTAAATACCTCATT
Y
TGAAAGCTCCCGCAGGAGGGCCGCTTGATGTTTACCAGTCTGGACAGACTTCTATTCAACCTGGTGCCCCCACCCCCCAAACACAGGATGCTGGGCCCCC
Celera SNP ID:            hCV2245303
SNP Position Genomic:     8585
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13615):
AGGGCCCCCATGGGCACCCTGGCCCTCGGGGCGTTCCTGGCATCGTGGGAGCCGTGGGTCAGATCGGCAACACGGGGCCCAAGGGTGAGTGCTCCTCTGC
R
GTGGGCATGGGGGCCAGGCAGTGAGGATTTGTCCAGGCCGGCCCTTTCCCCATTCCCTTCTCAGGATGACATACAGACCCTTCCCCGGTTCCTCAGCCAC
Celera SNP ID:            hCV25636990
SNP Position Genomic:     21086
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,40)   total(A,3|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:13616):
CTGGACGCTTCTTCAGGTTCGCTTGGGAGCCTTGGCCAGACCACCGACCAGCTTGGGCCAGACTCCTGTCTCTTCCCTTCGGTTTTCTCTCCCCGATTTA
R
AATCAGCTGGGCTTGTTCCCTGCAGGGTGAGGGTTAAATACCTCATTCTGAAAGCTCCCGCAGGAGGGCCGCTTGATGTTTACCAGTCTGGACAGACTTC
Celera SNP ID:            hCV2245304
SNP Position Genomic:     8537
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13617):
AAAAAAAAGTAAAAGTGGAGAAACGGGCTTTGGGTGCCTGTCTCTACCTTTGTGCCCAGGGTATCTGACCCTCTGAGGCATCCTGACCATCAACTCTCTG
Y
TCCCCAGGGGCCTCCTGGACCTGTTGGCCTCCCTGGTGAGATTGGAATCCGAGGCCCCAAGGTGAGCCTCAGCCACCCTCTGTTCACTGCCTCCTGCCTT
Celera SNP ID:            hCV25636991
SNP Position Genomic:     11570
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13618):
CGCCGGCCGCAGCTCACAGCGAGGCCTCATCCCCCTCCTCTCCTTTCCCCTCCTTGTGGGGTAGGAGGCGACTCAACCCCTCACCCTGCCTCTGGCACAT
Y
TGGACGCTTCTTCAGGTTCGCTTGGGAGCCTTGGCCAGACCACCGACCAGCTTGGGCCAGACTCCTGTCTCTTCCCTTCGGTTTTCTCTCCCCGATTTAG
Celera SNP ID:            hCV2245305
SNP Position Genomic:     8437
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   no_pop(T,-|C,-)   (T,-|C,-)   Caucasian(C,78)   African-American(T,1|C,75)   Asians(T,3|C,79)   total(C,232|T,4)    
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:13619):
TGCAATTCTCTGGTCCTTAAAGCCTCAGTCTGTCAGTCTCTCTGGGGTTGGCAAAAAAAAAAAAAAAGTAAAAGTGGAGAAACGGGCTTTGGGTGCCTGT
Y
TCTACCTTTGTGCCCAGGGTATCTGACCCTCTGAGGCATCCTGACCATCAACTCTCTGCTCCCCAGGGGCCTCCTGGACCTGTTGGCCTCCCTGGTGAGA
Celera SNP ID:            hCV25636992
SNP Position Genomic:     11511
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13620):
TGTTCAGTCCGCCGGCCGCAGCTCACAGCGAGGCCTCATCCCCCTCCTCTCCTTTCCCCTCCTTGTGGGGTAGGAGGCGACTCAACCCCTCACCCTGCCT
Y
TGGCACATCTGGACGCTTCTTCAGGTTCGCTTGGGAGCCTTGGCCAGACCACCGACCAGCTTGGGCCAGACTCCTGTCTCTTCCCTTCGGTTTTCTCTCC
Celera SNP ID:            hCV2245306
SNP Position Genomic:     8428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:13621):
CAAACCAGCCCTGACATGCGGAGCCCGTTATAGCCGCCGACAGACAAGGAGCTGCTGTTCAGTCCGCCGGCCGCAGCTCACAGCGAGGCCTCATCCCCCT
Y
CTCTCCTTTCCCCTCCTTGTGGGGTAGGAGGCGACTCAACCCCTCACCCTGCCTCTGGCACATCTGGACGCTTCTTCAGGTTCGCTTGGGAGCCTTGGCC
Celera SNP ID:            hCV2245307
SNP Position Genomic:     8373
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   TSC_42_A(C,25|T,58)   TSC_42_C(C,25|T,58)   TSC_42_AA(C,16|T,67)   total(C,66|T,183)   (C,-|T,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:13622):
AGCGCTGTGGTGGGGGTGGGGACTTCGGGGTGCCCGGAGATGTAGTGCCCCTCGTCGCCAATAGGCGGCGCCGGCCCGCACCACAAGGACGCCGTTTGTT
Y
TGCAAAAACCTCAAACCAGCCCTGACATGCGGAGCCCGTTATAGCCGCCGACAGACAAGGAGCTGCTGTTCAGTCCGCCGGCCGCAGCTCACAGCGAGGC
Celera SNP ID:            hCV2245308
SNP Position Genomic:     8261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:13623):
AAGATTCTCAATACGTGGGAGTTCGCGGAAGAGCTGCGCCCCTAGGACCCCGCTCCCAGGGTCGCTTGCAGCCCCGGGGACGCCCAGCTTCCTGCACTGT
Y
TGAGGACTGCCCCACCCCGTGTGTGTTTTTCAGAGAGGTCCACCGGGAGAGCGGGGCCCCCCGGGTCCCCCGGGACCGCCGGGAGTGCCTGGATCCGACG
Celera SNP ID:            hCV2245309
SNP Position Genomic:     7992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   (C,-|T,-)   TSC_42_C(T,0|C,82)   total(C,82)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13624):
ATATCCATCTCTTCCACGTAGACCCCAGGTCCTGGAAGACAGGCCATTCTCTGTGCCCCACTCCTCTGCCACCACTGTGGGAATGTACAGTTAAGTTCAT
S
ATGCCGTGGCTGGACCTTCTGTTGTTCAGCTCCCACAGGTGGGGGAAATCTGGATTGGGGATGGGAAGCAAAGCAGCAGGTGCATGGGGCTCCCTCATGC
Celera SNP ID:            hCV25473346
SNP Position Genomic:     17368
SNP Source:               Applera
Population(Allele,Count): african american(C,28|G,10)   caucasian(C,39|G,1)   total(C,67|G,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,205|C,888)   total(G,205|C,888) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13625):
ACGCCTGGCATGAAGGTAGGAGTGGGGCTGCTGATGGGACTGGGGCAGGGGCAGGACCTTGAGTCCTGGATTCTAGACACCAAGAGCCTGGGGTCCTCAG
R
TCATGGACATGCCCTTTCTTGCCTCTGGATCTCAGTTTCCCTACCTGCATCTGGGTAGAAGCCATGGCCCTCTGGCTGGAGCTTTAATTTGTATCTTTGG
Celera SNP ID:            hCV16166495
SNP Position Genomic:     16073
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(A,1|G,33)   total(A,4|G,62)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13626):
AAGGGACATTTATCTTCCCTATTTTTTGCTCTAGTCCCTAGGAGGGTGTGGCCAGACTCTGTAAATTGTTCCTTGGGAGAAGGGATGAGGCTGGGGAGGG
M
ATGGTGTCTATGCTCCCTCCTGGTCTGGGACCTGGCCTCTTAGGTCCTCATTTTCAGGCTTGATCCTGCAGAAAAAATTACCATGGTAGGTGGAGCAAAA
Celera SNP ID:            hCV2515315
SNP Position Genomic:     211
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:13627):
GCTTCACTGCAGACCTCCAGGAGACAGATTTGCTTGTTGGGACAGAGTAGGGAGGTGAAAGCGAGGTGAGGAAGTTCGGGGGTGGGGGAGGTGCACACAG
Y
TCCACTAAAGAGCTGGAAGAGGCCGATGGAGTATTCATGAGACGGCTGATCCAGGAAGGACTGTGGCATATTAATATGGAAAAGGCCTGTTTGTTTGTGC
Celera SNP ID:            hCV16064522
SNP Position Genomic:     5885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:13628):
TTGTGCTTGGAGAGGAAGGAGCCAGAGGAGAGGGGAGCAAGGTGGGCGGGAGCTGGGGAGAGCCTGCAGCAAGATCTGCAGAGCCCGAGGTGCTCTCGGC
M
TGGGCCCTGGAGAGGACGTAGGGTAAGTGATGGGGCACAGGCTGTGCGTCAGGGGGAAGGTGCTGGGGCCTGAAGGTCCCGAGGGGAACCTCAGACGGCC
Celera SNP ID:            hCV16064524
SNP Position Genomic:     6080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:13629):
AGGGACCCAAGGGCGAGCCTGGCAAAGCTGGGCCAGATGGGCCAGACGGGAAGCCCGGGATTGATGTGAGTAGCTGAGTGTCGGGTGGGGCAGGGTAGGG
M
TCTGCCAATTGACCTCCAGGGCCTGGCTCTGGCATCTTCACTGATCTGTTCAGAGATGGGCAGCAGGATGGAGATTCTCCAGCTGTGAGCCCCCCTCACC
Celera SNP ID:            hCV25474438
SNP Position Genomic:     9521
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,27)   caucasian(A,1|C,39)   total(A,10|C,66)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,250|C,1251)   total(A,250|C,1251) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13630):
GGGACCTCGTATTGAGCTCTCTCCTTCCCTTCAGGGGCATGCGGGCAAACGCGGGATTCTGGGTGATCCTGGCCACCAGGGGAAGCCGGTGAGTGCAAGG
K
CTGAGGGCTGTGGGTCAGGGATACGTGGAGATGGTCCTACAGGGCTCTGTCCCCTTCTTCGTCCCTTCCCCTTCCCCTGTGGGTTCTGGGGACAGAGCCT
Celera SNP ID:            hCV25636922
SNP Position Genomic:     12610
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,2)   caucasian(G,33|T,5)   total(G,67|T,7)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,686|G,811)   total(G,811|T,686) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13631):
GTCTCTGGTCATGTCTCCTTGCTTGGCTTTTCTCTATCTGTAACACAGGACTGTAGGGTTCGTAGTAGTCCCTCCCGTCTGCTTGTGCTGGGGAAAAGAG
R
TGGTATCTTTGCTTGTCTGTATATGTGTCTTTCCATCTGCCTGCCTGTCTGACAGCTCATCCCTGCCCTTTAGGGTCCCAAGGGAGATGTGGGTGCCTCT
Celera SNP ID:            hCV25636923
SNP Position Genomic:     12849
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(A,1|G,35)   total(A,3|G,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:13632):
ACCCCAGGTCCTGGAAGACAGGCCATTCTCTGTGCCCCACTCCTCTGCCACCACTGTGGGAATGTACAGTTAAGTTCATCATGCCGTGGCTGGACCTTCT
S
TTGTTCAGCTCCCACAGGTGGGGGAAATCTGGATTGGGGATGGGAAGCAAAGCAGCAGGTGCATGGGGCTCCCTCATGCCAGGGCAGAAACTGACTTCAA
Celera SNP ID:            hCV15867039
SNP Position Genomic:     17389
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(C,5|G,35)   total(C,6|G,72)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,537|G,924)   total(G,924|C,537) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13633):
GAGCCCTTCATGGAGTCATTCCCCTGCTCAGGCCTCTAGCTTGTAAAAGAGACACCTGTGTCTAGCTGGGAGCATCTCTGGATGGGGAGATGGAGGCTGA
R
ATTGTCAGGAATGAGGGACAGGAACCAAAGCTGTCAGCAAGAAGCCCAGGCTGAGGTCCAGGTCTGCCACTGTCCCTTTGAGTAATGCAGTGAGTCCCTC
Celera SNP ID:            hCV25636928
SNP Position Genomic:     13122
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13634):
GACATCTCAGCCCCCCCTACCCCAATCCAGGGACACAGGAGGGACACAGTGGGGTTAGACTGAGGGCCACTGATGTGGCTTCACCCTCAGTGCTTGGGCA
R
TTCCCAAGTTACAGCATCTCAGTCCCCAGAGAAGGCCATGCTGCCACTGTAGCCGCCAAGGGCCCCCTGGAGTGCAGGGCACAGAGGAGGAAGGGAGAGG
Celera SNP ID:            hCV27484149
SNP Position Genomic:     24061
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,54|A,1423)   total(G,54|A,1423) 
SNP Type:                 TFBS


Context             (SEQ ID NO:13635):
TGCAATTGCCATTGCTGTCATTTTTCTTTCTCAACAGGGTCCCCAGGGCATCAGGGGCTACCCAGGCATGGCAGGGCCCAAGGGAGAGACGGTAAGTGAA
Y
CTTGGGGTGTTCTACAAGAGCTTCCAGGAGCTGCCTTCTGGCCCCTGGAGTTCAGCCAGGACTGACCTGCAACCCTTTCCTCTCCCCAGGGCCCTCATGG
Celera SNP ID:            hCV25636929
SNP Position Genomic:     13436
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,3|T,37)   total(C,4|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:13636):
TGGCGCCGCCGCCCACTCTCAGTGACCATGGACCCTTCACGTTCTGAGCCAGTTTCTTCGACTGCAAACTGGGGCCCGTAATAGCGCCCGCCTCCCGGTT
Y
TGAGTATTCTGTAAGATAATGAATGCATGTAATGGCACACAGTGCCTGCTATACAGAAGATTCTCAATACGTGGGAGTTCGCGGAAGAGCTGCGCCCCTA
Celera SNP ID:            hCV2245310
SNP Position Genomic:     7835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:13637):
AGGACTCAGATCCTTCCGGAGCCTCCAAACCTGCGGATCTCAGGGTTCTGGTCTGGTCGGCGAGGCGGAGTTGGAAAGAGGGGTGTGGCCGAAAGTTAGG
W
GGGGGACCCCGTGGAGGGGGGAGCTCGCCAAACCCCTCACTGCCCGCTTTCTCCAGGGCTCCCCAGGGAAGACCGGGCCCCGCGGCAAAGTGGTGAGTTC
Celera SNP ID:            hCV25636965
SNP Position Genomic:     19534
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,33)   caucasian(T,32)   total(A,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:13638):
CCGCGCAAGGGCAAACTGGCACAGTGGAAGGAGTCGGGCAGATCCAGGGCGGACTCCTGGCGCCGCCGCCCACTCTCAGTGACCATGGACCCTTCACGTT
Y
TGAGCCAGTTTCTTCGACTGCAAACTGGGGCCCGTAATAGCGCCCGCCTCCCGGTTCTGAGTATTCTGTAAGATAATGAATGCATGTAATGGCACACAGT
Celera SNP ID:            hCV2245311
SNP Position Genomic:     7778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:13639):
GATGTGGCGCTGAAGATGCTGCAAGGTGAGGGGCAGCAACCCCTCCTCACAGTCAGTTCGAGGGCATCGCCGCCCCCTCACCCCCTCCCGGAGCCTCCAC
R
TGTTCACTTGTCTGAAAATCTGGAGTCCTGGGGGCTCCTTCCAGTCCAGTCTCTGAAGGGTTTTGGGACCTTGAATAAGTCACTCTGGGCCTTTGACTTC
Celera SNP ID:            hCV25636966
SNP Position Genomic:     20635
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,38)   total(A,2|G,72)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13640):
GTCCCCGCCGCCACCGCGCGTCTGACCCGTGGTTCTCTCTGCAGGGTGACCCAGGGGTGGCCGGCCTCCCCGGAGAGAAAGGCGAGAAGGTGAGCGCGCG
R
CCTAGGGAAGGGCGGGGAGCGGCGGCTGGCCCCGGGGTCCCCGCGGCTTCGTGACCGCTGCTCCTTGTGCCTGCAGGGCGAGTCCGGCGAGCCGGGGCCC
Celera SNP ID:            hCV25473422
SNP Position Genomic:     19774
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(A,4|G,36)   total(A,8|G,70)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13641):
GTGCTGCCGAAGGGGCGCTCCGAGTGGGAAGATAGTACCCGCTTCACCTCCCTACACCTCCTTTCTCTGCGCCTCCCCCACTTTCCCGTCGGGTTTTCCC
S
CACCATGGGGAGAGGAGGAGGCGCTGTCTCTGCCTGTCGTTCACGTAAGAACAACAACCCGAGCCACCGCTCACTGAGGGCCGGCAGCCTGCTAGGCACA
Celera SNP ID:            hCV2245312
SNP Position Genomic:     7515
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13642):
TACAGAAGATTCTCAATACGTGGGAGTTCGCGGAAGAGCTGCGCCCCTAGGACCCCGCTCCCAGGGTCGCTTGCAGCCCCGGGGACGCCCAGCTTCCTGC
R
CTGTCTGAGGACTGCCCCACCCCGTGTGTGTTTTTCAGAGAGGTCCACCGGGAGAGCGGGGCCCCCCGGGTCCCCCGGGACCGCCGGGAGTGCCTGGATC
Celera SNP ID:            hCV25636967
SNP Position Genomic:     7987
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,2)   caucasian(A,40)   total(A,70|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:13643):
TTGGCAAAAAAAAAAAAAAAGTAAAAGTGGAGAAACGGGCTTTGGGTGCCTGTCTCTACCTTTGTGCCCAGGGTATCTGACCCTCTGAGGCATCCTGACC
R
TCAACTCTCTGCTCCCCAGGGGCCTCCTGGACCTGTTGGCCTCCCTGGTGAGATTGGAATCCGAGGCCCCAAGGTGAGCCTCAGCCACCCTCTGTTCACT
Celera SNP ID:            hCV25473533
SNP Position Genomic:     11558
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,8)   caucasian(A,39|G,1)   total(A,69|G,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:13644):
GGCACAGGCTGTGCGTCAGGGGGAAGGTGCTGGGGCCTGAAGGTCCCGAGGGGAACCTCAGACGGCCTTATGCCTTCTCACAAAGAAACTGGACCATCAT
Y
TCCGACCCGCACCCCGGTCGCCCCTCGAGGACAGAGGGTGGGCGCAGGAGGCTGGACCGAGCGGGGCGGAGCTGGATGCCTGGCGCCGGCCTCCCTCCCG
Celera SNP ID:            hCV16064531
SNP Position Genomic:     6214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13645):
GACCATCATCTCCGACCCGCACCCCGGTCGCCCCTCGAGGACAGAGGGTGGGCGCAGGAGGCTGGACCGAGCGGGGCGGAGCTGGATGCCTGGCGCCGGC
M
TCCCTCCCGGCAACCCCGCCGGTCCTCTCAGGTGACAGCTCACGCCGGCCCCCGCCCCGCCCCCCGCATATTCAGGAGCCCCAGCCCACCCTGCCCGCGA
Celera SNP ID:            hCV16064532
SNP Position Genomic:     6305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:13646):
GCCCGGCCCGGGACAGGCAGCGTGGGGCAGGAGCTGGCGCCCGGTCCTGGCAGCCCGGGGAGCCCAGGTGGCGGGGCATACAATGGTGCTCATTCACCCG
M
TGCGCAGCCTCCGCCCCCGCCGCCTCCCAGGGGGCGCCGGCTCCAACCAGACGCCGCTGTCGCCCCGAGGCGGCCTCTCGGCCCTGCCCGCCTACCCACG
Celera SNP ID:            hCV16064533
SNP Position Genomic:     6900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13647):
GCACCCCGGTCGCCCCTCGAGGACAGAGGGTGGGCGCAGGAGGCTGGACCGAGCGGGGCGGAGCTGGATGCCTGGCGCCGGCCTCCCTCCCGGCAACCCC
S
CCGGTCCTCTCAGGTGACAGCTCACGCCGGCCCCCGCCCCGCCCCCCGCATATTCAGGAGCCCCAGCCCACCCTGCCCGCGAACAGCCAGCGCTGGAGGA
Celera SNP ID:            hCV16069767
SNP Position Genomic:     6323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:13648):
TGCAGTGAGTCCCTCCTCATCTCTGAACCTCCATGTCCCATCCATGAGACAGAGACTCTGCTGCCTACCTCAAAAGGGCACTGTAAGATTGAAGGTGGGC
W
TCAGACAAGGTATCATGAAGTGGGCCTTGCAATTGCCATTGCTGTCATTTTTCTTTCTCAACAGGGTCCCCAGGGCATCAGGGGCTACCCAGGCATGGCA
Celera SNP ID:            hCV25636930
SNP Position Genomic:     13308
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,40)   total(A,77|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13649):
CCCTACCTGCATCTGGGTAGAAGCCATGGCCCTCTGGCTGGAGCTTTAATTTGTATCTTTGGTTATCTGTCTATCCCAGGGCAGTGCAGGACAGGCGGGA
Y
AGCCCGGAAGTCCAGGCCACCAGGGCCTAGCGGTAAGTGTCAGGTGGAGCCACAGGGGCTGGCCAGGGGCTAGTGGCTGATGAGGTTAGAATCCACACAC
Celera SNP ID:            hCV25922766
SNP Position Genomic:     16212
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,28)   total(C,53|T,1)
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13650):
GGGCAGGGCGTCATATCCAGGCCCCTCATTCCATTTATTCCTTTGGTTTCTTTTCTCCTCAGGGCCCTAAGGGGGAGCAGGGCCCCCCCGGAATTCCAGG
R
CCCCAAGGCTTGCCAGGCGTCAAAGGAGACAAGGTGCCAGATGGGGCTGGGAAACACCTGGGAAAGGGGCCCTATAACAGGGGGAGTGGGGTCGGCAGGA
Celera SNP ID:            hCV25471977
SNP Position Genomic:     19337
SNP Source:               Applera
Population(Allele,Count): african american(G,20)   caucasian(A,1|G,33)   total(A,1|G,53)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13651):
CTCACATGGGCTCAGGCACCTGAGAGCACATATCCATCTCTTCCACGTAGACCCCAGGTCCTGGAAGACAGGCCATTCTCTGTGCCCCACTCCTCTGCCA
Y
CACTGTGGGAATGTACAGTTAAGTTCATCATGCCGTGGCTGGACCTTCTGTTGTTCAGCTCCCACAGGTGGGGGAAATCTGGATTGGGGATGGGAAGCAA
Celera SNP ID:            hCV25636934
SNP Position Genomic:     17339
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13652):
CCCACCCATCATGCACTCCTCAGCCTGCCTCAGTGCAGATAGGATGGCATGGCTTAAAATCCAGAGGAGAAACAAACAGGAAAATCAGGAGCCAAGAGGA
Y
TGAACCAAGAATACCCTCTCCCCCGTCCCAGCTCATCTGGTTCCAGGCTCTGTTTAGGCTTCGTTGGGTTTCCCTGAGGCCAAGGGCCTGACTGGGCCAC
Celera SNP ID:            hCV25636935
SNP Position Genomic:     17790
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,40)   total(C,2|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:13653):
GTTTGCTTTGCTGGTCTGCCAAGTGGAGAAAGGACCCCCTGCCAGTGACAGCAGGAATGGAGGGCACCCTGACCATGCGGTGCCAGGCCTCGGTGCGGGA
K
GCTACCCCTGCTGAGAGCTGCTGAGGTTGTGACCTTCTCTTTCCATTTCAGGGTGACCAAGGCGAGAGGGGTCCAGTGGGGCAACCAGGCCCTCAGGGAA
Celera SNP ID:            hCV25636936
SNP Position Genomic:     19109
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13654):
AGGTCAAACGCTTAGCCCCAATTTCTCCTTCCTCCAGGGAGAGCCAGGGCCTCGAGGAGAAATTGGTCCCCAGGGCATCATGGGACAGAAGGTAAGTGCC
W
GGCACAATGGCCCCTCCCCGGGGGCCTCTGCGGCAGCTGGCACTGCTGGATACAGCATCTGCTCCGTGCAGCCCGTGAGATGCCTCCCCAGGCAGGGCCT
Celera SNP ID:            hCV25636937
SNP Position Genomic:     18906
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,40)   total(A,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:13655):
CCGCCGCCACCGCGCGTCTGACCCGTGGTTCTCTCTGCAGGGTGACCCAGGGGTGGCCGGCCTCCCCGGAGAGAAAGGCGAGAAGGTGAGCGCGCGGCCT
R
GGGAAGGGCGGGGAGCGGCGGCTGGCCCCGGGGTCCCCGCGGCTTCGTGACCGCTGCTCCTTGTGCCTGCAGGGCGAGTCCGGCGAGCCGGGGCCCAAGG
Celera SNP ID:            hCV25473144
SNP Position Genomic:     19778
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,6)   caucasian(A,40)   total(A,68|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:13656):
GGCGGCGCCGGCCCGCACCACAAGGACGCCGTTTGTTCTGCAAAAACCTCAAACCAGCCCTGACATGCGGAGCCCGTTATAGCCGCCGACAGACAAGGAG
Y
TGCTGTTCAGTCCGCCGGCCGCAGCTCACAGCGAGGCCTCATCCCCCTCCTCTCCTTTCCCCTCCTTGTGGGGTAGGAGGCGACTCAACCCCTCACCCTG
Celera SNP ID:            hCV11729559
SNP Position Genomic:     8324
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:13657):
AGGCAGGCTGGAGCCACACACGGGTGTGAATCCAGACTCCCCTTTCTCATCGTGGCTCTCAGACGAGTTACCTGCTAATTTCCCTGGGCCTTAGGTTTAC
Y
ATCTGTAAAATGGGGACACTGAAAGTACCAACCTCATCATGTGGCAGTGAGGACTATCCTTAGAGTAGTTTACATAGAGTTTGTCTTAGTTCACTGAGAC
Celera SNP ID:            hCV29021208
SNP Position Genomic:     21460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13658):
ACGGCAAGGATGGAGATCGAGGGTCCCCAGGGGCTCCAGGAGAGGCAGGTCGACCTGGCCTGCCAGGCCCCGTGGGGCTGCCGGGCTTCTGTGAACCTGC
Y
GCCTGCCTTGGAGCTTCGGCCTATGCCTCTGCCCGCCTTACAGAGCCTGGATCCATCAAGGGGCCTTGAGCATCAGGCCCAGACAGAGCCTGGCAGGCAT
Celera SNP ID:            hCV15851504
SNP Position Genomic:     22439
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:13659):
TGGCAGGCATCCTGGCGGGAAGGACCAGGTCCCCTCTGGGTGGACATGCACCCATCCCCAGTCCAGGAAACCATCTCCCCCAGGACCTTCTGTCTGGGAC
Y
CAGGAGTCCTAAGGAAAAGGAATTCTAAAACATGGGGGAAGGGGAGGTAGAGCACTGATGGGTGAAAAAGTGAGGCCAACACACAGGGCAAGTGGTGTCG
Celera SNP ID:            hCV15851505
SNP Position Genomic:     22630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13660):
GGTGATCCTGGCCACCAGGGGAAGCCGGTGAGTGCAAGGGCTGAGGGCTGTGGGTCAGGGATACGTGGAGATGGTCCTACAGGGCTCTGTCCCCTTCTTC
R
TCCCTTCCCCTTCCCCTGTGGGTTCTGGGGACAGAGCCTTGAGCCGGGGGCTGGAGGCCTGTGCTCCAGGTCGGCATGTCTCTGGTCATGTCTCCTTGCT
Celera SNP ID:            hCV27509873
SNP Position Genomic:     12671
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,51|G,1438)   total(G,1438|A,51) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13661):
GCCTCTGGAGAGCAAGGCATCCCTGGACCACCGGTAAGGAACACCTTGCCTCAGTGGCCCTCTTCTCCCTCACCCCAGGAGCCCTTCATGGAGTCATTCC
Y
CTGCTCAGGCCTCTAGCTTGTAAAAGAGACACCTGTGTCTAGCTGGGAGCATCTCTGGATGGGGAGATGGAGGCTGAAATTGTCAGGAATGAGGGACAGG
Celera SNP ID:            hCV27509874
SNP Position Genomic:     13044
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,51|C,1440)   total(C,1440|T,51) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13662):
AACCTGAGACCAGGGCGGGAGGGAGGCGGCAGACAAAGGAGAACTTTGTGAGCGCTGTGGTGGGGGTGGGGACTTCGGGGTGCCCGGAGATGTAGTGCCC
S
TCGTCGCCAATAGGCGGCGCCGGCCCGCACCACAAGGACGCCGTTTGTTCTGCAAAAACCTCAAACCAGCCCTGACATGCGGAGCCCGTTATAGCCGCCG
Celera SNP ID:            hCV25636978
SNP Position Genomic:     8211
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,39|G,1)   total(C,67|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13663):
CACGAGGTCAGGAGATCCAGACCGCGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCTGGGGCGGTGGCAGGCACCTGTAGTCCCAGCTACT
Y
TGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAGCGGAGATCGCGCCACTGCATTCCAGCCTGGGTGACAGAGCAAGACT
Celera SNP ID:            hCV26182833
SNP Position Genomic:     18497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13664):
ACGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGATCCAGACCGCGGTGAAACCCCGT
Y
TCTACTAAAAATACAAAAAATTAGCCTGGGGCGGTGGCAGGCACCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGG
Celera SNP ID:            hCV26182834
SNP Position Genomic:     18435
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13665):
TTGAGCCCAGGAGGCGGAGGTTGCACTGAGCCAAGATTACACCACTGCACTCCAGCCTGGGTAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAA
A
TAGTTATTGAGTATCTGAGGTATACTAAGTGGCAGGTAAACAATTATAAATAGGACAGATGCAATCTTTGTCTTCATGGCTCATCTTACCATTCAATGAC
Celera SNP ID:            hCV26182835
SNP Position Genomic:     16845
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,7)   total(A,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13666):
GGACTGACCTGCAACCCTTTCCTCTCCCCAGGGCCCTCATGGATATAAAGGCATGGTGGGCGCTATCGGTGCCACTGGGCCACCGGTAAGCCTCTTTTTG
Y
TCCCCTACCCCTGAGGCTGGAGCTCCTACAGCTACAGCCACAGAGTGGGCATGGCTCCCCCTGAGCCTGTGTGACCTGGATTCCTGCTTGTCTTTCTTGC
Celera SNP ID:            hCV25473364
SNP Position Genomic:     13595
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,40)   total(C,71|T,7)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,6)   caucasian(C,35|T,1)   total(C,61|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:13667):
AGGGCCAGCCCACTCTGGGCCTGTCCACTGGCTCTGCAATTCTCTGGTCCTTAAAGCCTCAGTCTGTCAGTCTCTCTGGGGTTGGCAAAAAAAAAAAAAA
A
GTAAAAGTGGAGAAACGGGCTTTGGGTGCCTGTCTCTACCTTTGTGCCCAGGGTATCTGACCCTCTGAGGCATCCTGACCATCAACTCTCTGCTCCCCAG
Celera SNP ID:            hCV26182836
SNP Position Genomic:     11477
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,9)   total(A,4|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13668):
ATGACTTGTGACCTTCCTGGAACCTCACTCTCACCCAGGGTCATTGATTTGCAGGCAACCGGGGTCCAGAGAGAGGGTCTGCTTTCTGGGAGGTGCAGGT
T
CCTCCTGCTACCCCTCAGCAGTCAGGACTTAGTCTCACATTTCTGGCCTCCAAGGATCAGGCTGAATATGTTGGGTGGGGCTGTCCTTGTGTGCCCTGTC
Celera SNP ID:            hCV26182837
SNP Position Genomic:     9727
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13669):
CCTACCTGCATCTGGGTAGAAGCCATGGCCCTCTGGCTGGAGCTTTAATTTGTATCTTTGGTTATCTGTCTATCCCAGGGCAGTGCAGGACAGGCGGGAC
R
GCCCGGAAGTCCAGGCCACCAGGGCCTAGCGGTAAGTGTCAGGTGGAGCCACAGGGGCTGGCCAGGGGCTAGTGGCTGATGAGGTTAGAATCCACACACA
Celera SNP ID:            hCV25472491
SNP Position Genomic:     16213
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,5)   caucasian(A,26|G,2)   total(A,43|G,7)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13670):
GGGACAGGCAGCGTGGGGCAGGAGCTGGCGCCCGGTCCTGGCAGCCCGGGGAGCCCAGGTGGCGGGGCATACAATGGTGCTCATTCACCCGCTGCGCAGC
M
TCCGCCCCCGCCGCCTCCCAGGGGGCGCCGGCTCCAACCAGACGCCGCTGTCGCCCCGAGGCGGCCTCTCGGCCCTGCCCGCCTACCCACGTCTCCCTTC
Celera SNP ID:            hCV16064540
SNP Position Genomic:     6909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13671):
TCCGACGGCATCGACGTAAGTCTCTAACCTGAGACCAGGGCGGGAGGGAGGCGGCAGACAAAGGAGAACTTTGTGAGCGCTGTGGTGGGGGTGGGGACTT
S
GGGGTGCCCGGAGATGTAGTGCCCCTCGTCGCCAATAGGCGGCGCCGGCCCGCACCACAAGGACGCCGTTTGTTCTGCAAAAACCTCAAACCAGCCCTGA
Celera SNP ID:            hCV26182838
SNP Position Genomic:     8186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,9)      total(G,1|C,9) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13672):
GGGCAGGAGCTGGCGCCCGGTCCTGGCAGCCCGGGGAGCCCAGGTGGCGGGGCATACAATGGTGCTCATTCACCCGCTGCGCAGCCTCCGCCCCCGCCGC
Y
TCCCAGGGGGCGCCGGCTCCAACCAGACGCCGCTGTCGCCCCGAGGCGGCCTCTCGGCCCTGCCCGCCTACCCACGTCTCCCTTCCGAGGGCCGCCGGGG
Celera SNP ID:            hCV16064541
SNP Position Genomic:     6924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13673):
CACCCACCCAGGGGCATTGAATTGCAGGCAAACGGGATCCAGAGAGAGGGTCTGCTTTCTGGGAGGTGCCGGCTCCTCCTGCTCCCCTGCAGCAGTCAGG
R
CTTAGCAGAGGGAGGACCGGGCAGCTGTGCTGCCGAAGGGGCGCTCCGAGTGGGAAGATAGTACCCGCTTCACCTCCCTACACCTCCTTTCTCTGCGCCT
Celera SNP ID:            hCV26182839
SNP Position Genomic:     7388
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13674):
GCATACAATGGTGCTCATTCACCCGCTGCGCAGCCTCCGCCCCCGCCGCCTCCCAGGGGGCGCCGGCTCCAACCAGACGCCGCTGTCGCCCCGAGGCGGC
Y
TCTCGGCCCTGCCCGCCTACCCACGTCTCCCTTCCGAGGGCCGCCGGGGGCTGCGGGCGCGCGGGTAGGGCAGAGACTGGGCCCGGTCGGGTGCTGGGTG
Celera SNP ID:            hCV16064542
SNP Position Genomic:     6975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13675):
CCCCAGGGAAGACCGGGCCCCGCGGCAAAGTGGTGAGTTCCAGCACCCCTGTTCCCAGCGACCCCCAACCCTGCTCTGCGTCCCCGCCGCCACCGCGCGT
Y
TGACCCGTGGTTCTCTCTGCAGGGTGACCCAGGGGTGGCCGGCCTCCCCGGAGAGAAAGGCGAGAAGGTGAGCGCGCGGCCTAGGGAAGGGCGGGGAGCG
Celera SNP ID:            hCV2245291
SNP Position Genomic:     19695
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13676):
TCCTCTATTACAAACTAGCACAAAACAGGAATAATTTCTTTGCGTGAAACATAGCAAAAAATAGAGGAAAAGCATTTTCCAATTCTGAAAAATGAAGATT
Y
CCTTTTTTGTCTACAGGAAAACGTGGAGAGAAGGGTGATCCAGGAGAAGTGGGACGGGGGCACCCCGGGATGCCTGGGCCCCCAGGGATCCCAGGTAAGC
Celera SNP ID:            hCV25473725
SNP Position Genomic:     21784
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(T,40)   total(C,7|T,71)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13677):
AGCCCTGGGTGCGGTGGGCATGATGGGTCCTCCAGGACCTCCTGGGCCCCCTGGGTACCCAGGCAAGCAGGGCCCCCATGGGCACCCTGGCCCTCGGGGC
R
TTCCTGGCATCGTGGGAGCCGTGGGTCAGATCGGCAACACGGGGCCCAAGGGTGAGTGCTCCTCTGCGGTGGGCATGGGGGCCAGGCAGTGAGGATTTGT
Celera SNP ID:            hCV25473548
SNP Position Genomic:     21018
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(G,40)   total(A,4|G,68)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,27|G,716)   total(G,716|A,27) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13678):
GGACGGGGGCACCCCGGGATGCCTGGGCCCCCAGGGATCCCAGGTAAGCCATTGGCCCTGCCCAGCTGCAGTGTGTTCCTCAGCTTGGGAATTAATGACG
Y
GTGGACACTGCGGTCTCCTCCATGGCGGCCTCACGCTCAGCCAGCTCAGTCCTTGATACCCAGCTTCTGCACCCCTTTGGAGCACCCCGGAGTCTCTGGG
Celera SNP ID:            hCV25473726
SNP Position Genomic:     21936
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(T,40)   total(C,5|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:13679):
AGGTTGCACTGAGCCAAGATTACACCACTGCACTCCAGCCTGGGTAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAATAGTTATTGAGTATCT
R
AGGTATACTAAGTGGCAGGTAAACAATTATAAATAGGACAGATGCAATCTTTGTCTTCATGGCTCATCTTACCATTCAATGACCACCATAATCTGACCCC
Celera SNP ID:            hCV2245295
SNP Position Genomic:     16862
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13680):
CTGGGCAGGACAAGGCACCCCCTAAGGCTGTGTGTGTGAGAGTGCATGAGTGTGTGCGTGAGTGTGAATGTGTAGTGTGTGTGAGTGTGTAGTGTGTGTG
W
GTGTAGACTGTGTGTATATGAGTGTATGTGTACAGTGTGTATGTGTGAGGCTGTCTGTGAGTGTGTGTAGTATGTGTATGTGAGTGTGTGAGGATATCTC
Celera SNP ID:            hCV2245297
SNP Position Genomic:     13899
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13681):
GGAAGGTCCTAGGGGACCGCCAGGCCGAGCTGGGGAGAAGGGTGACGAGGTGAGTCCTCAGGCACCCATTGTTCAGTCAGGACCCCTGGGGAGTACTGGG
S
AGGACAAGGCACCCCCTAAGGCTGTGTGTGTGAGAGTGCATGAGTGTGTGCGTGAGTGTGAATGTGTAGTGTGTGTGAGTGTGTAGTGTGTGTGTGTGTA
Celera SNP ID:            hCV2245298
SNP Position Genomic:     13804
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13682):
CCTACCCACGTCTCCCTTCCGAGGGCCGCCGGGGGCTGCGGGCGCGCGGGTAGGGCAGAGACTGGGCCCGGTCGGGTGCTGGGTGTGGTTTCGAGCTCGC
M
TGCGGGGCGCCAGCCTGGCACTTCGCGGCCTGGGGAGGTCGTGGGCACCGGGACCCCTGCCTGGGTCCGAGCTGGCCTCTTAAAAGGGCCGCCTTTTAAG
Celera SNP ID:            hCV16064549
SNP Position Genomic:     7091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13683):
CTGCAACCCTTTCCTCTCCCCAGGGCCCTCATGGATATAAAGGCATGGTGGGCGCTATCGGTGCCACTGGGCCACCGGTAAGCCTCTTTTTGCTCCCCTA
Y
CCCTGAGGCTGGAGCTCCTACAGCTACAGCCACAGAGTGGGCATGGCTCCCCCTGAGCCTGTGTGACCTGGATTCCTGCTTGTCTTTCTTGCCAGGGTGA
Celera SNP ID:            hCV2245299
SNP Position Genomic:     13603
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,37|T,3)   total(C,74|T,4)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,33|T,3)   total(C,66|T,4)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13684):
TACATTTTCATTCTTCCCCAGGGTTTAACTGGAGCCAAGGGGGAGCCTGGCCCCATGGGGATCCCTGGAGTCAAGGTAAGGGGCCTGCTGGGGCCTCAGC
R
TGGGCAATCTAGGGCCAGCGTTTGGGAGTGGCTGTAGAGAGGAAGTAGGAGCCGGGGAAACCCCAGCCTCTGAGCCTTTCTCGTTGCTTCTGCAGGGCCA
Celera SNP ID:            hCV11729560
SNP Position Genomic:     10985
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(A,7|G,31)   total(A,20|G,56)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(A,7|G,33)   total(A,20|G,58)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,13)      total(G,13|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13685):
TGAAGCAAATTAGCTGAGACCCAGGGTAGGGAGGGGCTGGCCAGGTGTGGAAGGGTGGGTTCCACCAGGTCAAACGCTTAGCCCCAATTTCTCCTTCCTC
Y
AGGGAGAGCCAGGGCCTCGAGGAGAAATTGGTCCCCAGGGCATCATGGGACAGAAGGTAAGTGCCTGGCACAATGGCCCCTCCCCGGGGGCCTCTGCGGC
Celera SNP ID:            hCV25636941
SNP Position Genomic:     18840
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13686):
ACCAAGGCGAGAGGGGTCCAGTGGGGCAACCAGGCCCTCAGGGAAGGCAGGTGAGTGCAGGCCAGCTAAGGTGGGCAGGGCGTCATATCCAGGCCCCTCA
Y
TCCATTTATTCCTTTGGTTTCTTTTCTCCTCAGGGCCCTAAGGGGGAGCAGGGCCCCCCCGGAATTCCAGGGCCCCAAGGCTTGCCAGGCGTCAAAGGAG
Celera SNP ID:            hCV25636942
SNP Position Genomic:     19265
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:13687):
CAAAGATTGCAAGGCTTAGGGGACCTGGACAGAAGAGAGGAGAGTGAGGAGAGCCTTTGGGAGCGGCCTGCCAGGGCCTGTGTGTGCCCACTTGGGGTAG
Y
GTGAGCCGTAGTGTGCTGTCTCACCAACTTGTATCTTGCAGGGTGACAATGGGCCCCCTGGAAAAGCTGGCCCTCCGGTGAGTGCTTTATCCTCTTTGGC
Celera SNP ID:            hCV16178132
SNP Position Genomic:     9261
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,44|T,1459)   total(C,44|T,1459) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13688):
TGTACAGTGTGTATGTGTGAGGCTGTCTGTGAGTGTGTGTAGTATGTGTATGTGAGTGTGTGAGGATATCTCTGAGTGTGTGTGTGTGACTGTGAGTGTA
Y
GTATGTGTGTGTGAGTGAGTGTGTGTGTGTCTGCCCAAGTGGGTGACCTGCTGGGGAGGACCATCTGTGCCAAGAGCCCAGTCAGCCCAAATTCAGACTT
Celera SNP ID:            hCV11729563
SNP Position Genomic:     14028
SNP Source:               Applera
Population(Allele,Count): african american(T,16)   caucasian(C,2|T,22)   total(C,2|T,38)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13689):
AGGGTGACAATGGGCCCCCTGGAAAAGCTGGCCCTCCGGTGAGTGCTTTATCCTCTTTGGCCTTTGACCCTTCCTGCTCTTGCCCTCCTCTGGCTCATGT
Y
TGTTCCATCTCTGTTTTCAAGGGACCCAAGGGCGAGCCTGGCAAAGCTGGGCCAGATGGGCCAGACGGGAAGCCCGGGATTGATGTGAGTAGCTGAGTGT
Celera SNP ID:            hCV16178133
SNP Position Genomic:     9401
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,13|T,1488)   total(C,13|T,1488) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13690):
CTCCAGGGAGAGCCAGGGCCTCGAGGAGAAATTGGTCCCCAGGGCATCATGGGACAGAAGGTAAGTGCCTGGCACAATGGCCCCTCCCCGGGGGCCTCTG
Y
GGCAGCTGGCACTGCTGGATACAGCATCTGCTCCGTGCAGCCCGTGAGATGCCTCCCCAGGCAGGGCCTAGGTTTGCTTTGCTGGTCTGCCAAGTGGAGA
Celera SNP ID:            hCV25472280
SNP Position Genomic:     18937
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,37|T,1)   total(C,66|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:13691):
AAAATCTGGAGTCCTGGGGGCTCCTTCCAGTCCAGTCTCTGAAGGGTTTTGGGACCTTGAATAAGTCACTCTGGGCCTTTGACTTCCGCAAAACAGAGCC
Y
ACGGAAGGTGGTGCTTTTCTGTCTGCAAACCTAGGGGCCAGGGCCCATCGGAATGCTCTGCCTCCCCTAGTGTTACTGCTGACACCCATCTCATAGACTT
Celera SNP ID:            hCV2515302
SNP Position Genomic:     20750
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13692):
GTTCACTTGTCTGAAAATCTGGAGTCCTGGGGGCTCCTTCCAGTCCAGTCTCTGAAGGGTTTTGGGACCTTGAATAAGTCACTCTGGGCCTTTGACTTCC
R
CAAAACAGAGCCCACGGAAGGTGGTGCTTTTCTGTCTGCAAACCTAGGGGCCAGGGCCCATCGGAATGCTCTGCCTCCCCTAGTGTTACTGCTGACACCC
Celera SNP ID:            hCV2515303
SNP Position Genomic:     20737
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Gene Number:                 8
Celera Gene:                 hCG15752 - 146000219494834
Gene Symbol:                 PIR
Protein Name:                Pirin
Celera Genomic Axis:         GA_x5YUV32W4U7(13910715..14031612)
Chromosome:                  ChrX
OMIM number:                 300101
OMIM Information:            BONE MARROW KINASE, X-LINKED;BMX


Genomic Sequence (SEQ ID NO:12168):
CAAAAGAGTGTAACTTACATTCTAATAGCAAATTAAAGTCACTGATGGATTCCAAATAGCTCTCCATTCTTTAGGAATATAGTAGGTAGTCATTCAAAAA
ATTAAGGGTGAAGCAGGGCAAGAGTGGCACAACAACCTGGCTAAATAAATTAATTCTACACTCTGCTAGTTAATTTCCTTTTCCACATGGCGATTTGTAT
TTACTTCACAACTTATATATGGTAATATGGCAAAAGTTCGATTCTAGAATAAAAAGTAAACTTAGGGTAGGGGAAGGAGGAGTTGGTGATATGGTTTGGC
TGTGTCCTCACCCAAATCTCATCTTGAATTGTAGTTCCCATAATCCCCACATGTTGTGGGAGGGACCTAGTGGGAGGTAATTGAATCACGGGAGTGGATG
TTTTTACCGTGCTGTCCTCATGACAGTGAATAAGTCTCACCAGATCTGATGGTTTTATAAAGGGCAGTTCCCCTGCACACGCACTCTTGCTTGCCACCAG
GTAAGACATGCCTTTGTTCCTCTTTCACCTTCCACCATGATTGTGAGGCCTCCCCAGTCATATGGAACTGTGAGTCCATTAAACCTCTTTTCCTTTATAA
ATTACCCAGTCTTGAGTATTTCTTCATAGCAGTATGAAAATGGACTAATACAGTCGGTATAACTGTGGAAACACCTGGGCACAATCTCTTGGGATTTCCA
TCCCTTCTTGGGGGCATAAAACACCCAAGGACAGCTGGGAGGAGTGGTTTCCTCTAAGGCAAAATGTCACAGATTTATTTACTTTATTCTATTCATTCAC
TTCCTCTGCTACTTCTCCTGTTTCTTTGGCTCTGTATTTTCCATGAGTTTAGTTACATCCTAACTTTTGGCAATCTGCTATTACGATAATATGACTTCAT
TTACTCAAATTATACTCTGCATTGTCATCTTTACTCAGTTAGAATTTTAGGAATTTTCTCCTAAGCTTGTTCATGCAAGCCTTTAGCAGGCCACAGCTAA
AGGGACATGGCATGGGATAATTTGACTTCATGATGTGAACAAGCCTGTTTACTTGTGCTTACATTTTTAAAATAAAAAAGAACCTGGTAGAATCCATTGT
CAGAGAGAGAGAGAGAGAAAGGGGGAAGGAGAGAGAGAGAGAGAGAGGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGGAAGAAAGAAA
ATGAGATAATCAGAGTCCTTCTGGCTTGTGGCTGACCTGTATTTTTCTCTCACTTTAAAAAATTCACTTGACTCATGGCTTTAAACACCATCTATATGCT
TATGACAGCCAGGACCTCTTCCCTGAATTCCAAACTTATGTTTGACTGTCAACTTGTCCATCTGTACTTGGGATATCTGATATATATGTCAAAACTTGTC
CAAAGCTGACCTCCTGATTCACACCCACCCCCCCACCCCCAAAACTAGTTTTTCCTACAGTCTTCCTCTTCTCAGCTAATAGGAACTCTCCCCCTCCAGT
TGCTCTGGCTAAAGAATATGGAGTCATCCTTAATTTTTACCCTTCTCTTGCACCAAACGTTCAATCCTTCATGAAATAAGGTTAGCACTAGCCGCAAATG
TACCCCCGTTTGGCCACTTTTCAATACCTCTACTGCCACCTACTGGTCTGAGTTGCCACCACCCCCAGGGGGAATATTGTACTAGTCTCCTGACTGTTCT
CCTTCTTCCACTCTTGCCCCTGCAGTCTATTCTCCACTGAGTGGCCAGAGTGATTCTTTAAATGTAAGTCACATCTTAGCACTTCTCCAGTCTGAACTCT
TCGCTTGTCCCCCCTGTTCTGGTCCCCTAGGACTGTCTCTAACATCATCACATGATTATTCTACTTCATCTTACCACTCCTGAAACTGGCATCTTTTCTA
CTCCTCCAATATTCTGAGCAACATCTGCTCCAGGGCCATTGCATTGGCAGTATCCTCTGCTTGGCAAACTGTCCCAGATATCTGACTGGCTCGTGTCCTC
ATTTCCAGGTTCTGCTTCTAATGGCATCTTCCTAATAGCCCTACGCAGACCACCCTGTTTAATATCACAGCCTCACCCTCCACCCAGCACTCCAATCTCC
CTTACTCTGCTCTGTGTTTTCTTTCTTCTACAGGACTCATCACCTTATAGCATAATACATAATTTAATTATTTATTACCTTTATTATTTGTCTCTCCTCA
CTAAAGAGTAAGACCACAAGGGCTCCAACAGCTTATCTCTGCAGTTTGAACTTTGTTCATGGGTATCTCTTCTTTGGGGACGTCACTCCATTACCTCCTG
CATGTATTCCTTCTGGTGCTAAAATAATCTGCTTGTAAGTTGGGATCAGATGTGAATTATTCACACTTACTAGAATTGAAGATTAACATGTCACCTCTCC
TAAGGGTGCTTGCATATCAAACCTCAGGTTCAGTGCCGGAACAAACTGCCCTGTTTTTAATGAAAGGAAATGGGTGAGTAGGAGGTGGAGGTAGACACAA
AAATGTTTGTTGTTTCCTTTTGTTATCASCCATGTCCTGTCCTGTCACCCATGAAACCTTTACATAGACTGTTGGCATTTTGTCAATCTTACTCCTGTTT
TTCTAGTCGGAGGTAAGTATTTGTGGTCTACATGGAGTTGGCGAACTATGAGCCCCATGAGTTTTTGTGAATAAAATTTATTGGAACACAGCCACTATTC
CTGCCCCACGGCCTTTGCATTGATGGTATCCTCTACTTGGCAAACTGTCAAGTGTTGTCTATGTCTGCTTTCAGTCTACAACGGCAGAGTTGAATAGTTG
AGACAGAGACTGTATGCTCACAAAGTCTCAAATACTTACTATCTGGCCTTCACAGAAATAAATCACCAACTCATACTCTGGAAGCATCCTGCCAGCTTTG
GAAGTGATCTTGCAGCTTGGAATTTAGTTTAACAGCTCCATTCAACAGAGAGTCACTTCATTTACTGTGTACAAGGTGCTAGAGTTGGAAGCANNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGGTTATCAGGGTAATTGAGGTAAGTATCAG
GGGAATCATTCATCTAAATTTCTCCAGTTTCCTGGTTCAGAGATGAATTGGCCTTTCAGGCCTGAGAGTATTTTGCTTGTGATGGATTCTAGAAAGTTCT
GTGGCTCAAAGGAAAGGGTCATAAGCTATTTTTTTTTCGGAGAACTGCCAAAAACCCAAGGGAAAGATAGAGAAAAACACAATTATGAGTTTCATGCAAC
AGCTGATCACATGTAGCTTCTTGGTCAGAGCACTGGTCGATGGAACAGACCGTGTCTGTGCAGAATGCTCTCATGAGGGTGGATATGGGAGTCACATGTG
CTCATCTTTTCTGGATATCTTTGGATGTCTTTAACCACCCAGTGTATTTATGGCCTTCGTAAACTAGCATTTATAAAATAATCAGTCCTTGACTTGGAGC
CAATTGATTTCCTGRGTTCAGTGAGTCTGAGTCTTTATAATATGGAATATTTCAGAGACATTTGTCATCTAATGAATAGCAGCTACACTGCCCTGAAGGG
CAAATTAACAAAATCTACAAGAAAGAATTTTTGAGTTGATGGCTTGAAGAAGAAAGAAACAAAAATAAGGAAGTGTTTCAGATGTCCATGTACTTTTTTT
TTTTTTTTTTTAATTTTTGAGACTGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGACCTCGGCTCACGGCAACCTCCGTCTCCTGGGTTC
AAGCAATTCTCCTGCCTCAGTCTCCCGAGTAGCTGGGATTAGAGGCATGCGCCCCCACGCCTGGCTAATTTTGTACTTTTAGTAGAGACAGGGTTTCTCC
ATTTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCC
CCATGTACTTCTATAATATGTATCTTTGAAAAGAAATTCAATAAGTTTTACAGAGGAGGAAAATGGAATTCGTGAATAAAAAAGAAAAGAGTCAAGGTAC
CTAAATAATGTGGTTGTCTTTAAAGATTATAATGGTGTTATTTGGAATCATTTAGGGAAGGCTTTGTTCATTGTCATATCAGCATGAGTTTTCTTTATGC
TTCCCAAGATTCCAAAGGTGATCAACAGTCCATCTACACACTCATATATTTAGCCACCTACTCCACATCTTGATCTGGATGTCAATGACAGTGTGAAAAG
TGCTCAAAGCTTAATATACAGGGTCACATTTCTCATCTCAAAACAGGACCCTGTTACAGTGAAACATTATACGCCCTTTGTTCATTTGTAAGAATTCTTC
CCTCTCTCACCTTTGTTTCTCCTCATTTTAAGTCTTCTACCTTTTCAGACTTGTTCTTTTTTCTTTTCTTTTCTTTTTTCTGCAGGGGCCTGTAAATGGA
ATTCCTGCATTGCTCTAACCATGTACAACCTTGGACTTAGCTTTTACCTGTAACTGGCTTCTGAGAGACAAAGAGGAGAAACGTTCACTCCTAGTACACC
TATTACAGCTGCAGAGGTAGAGGAGACAGTTGCAGAACTAGTTACAATGACGATAAGAAACAATACTTTGTTATTCCATAGCACCTTTAATGTTCATGTG
TATTATCTCAGCTAGCCTTGAACTGCCTAAGTAAGGTGATGAGGACGGGTTTAAGCCCCACTGATATTTTAAAAGCCCAGAGAAAAGTGTTCGTTCCTCT
ACTAACCTGTTCTTTTAGAGCAGGGATCTGCATACTAGGCCTGCAGCCAAAATGAGTAGGTAGCCCACTACCTATTTTTGTATAGCCAGAGGGCTAAGAA
TGGTTTTTACATTTTAAGTGGTTTTACATTTAAGATCAAAAGAAGGATAATATTTCATGACAAGTAAAAATTATATGAACTCAAAATTGTATGAATTTTA
TGAATTTATATTTCAGTATTCATAATTAAAGTTTTATTGAACTACAGCCACATTCATTTATTTACATGTTATCTATGGCTGCTTTCTTGCTACAAAGGCA
AACTGGAGAATGTACATGGCCTGCAAAGTCAAAGTATTTACTATCTGGTCCTTCACAGACAAAGTTTTCCAACCTTATTTTAGAGACACCACTGTCTTTC
CTTTCTCAAAACCAGGCAATGAGCCTTCTGGTGTTTAGAGAATAGAAACTGCAGCTATGCCTGTACCACTAGTTAATAATCCTAGTAATCAACTAGATCC
CCTCACTGGCTTGTGCCAGCTCCTCATTCTTCTGGAAAAACTCTCCAACGCCTGCCCACTGTGTTCCAACACCATACAAACTCTTAACCAATTATCTCCC
CACTAGAGTGTGCCTTCTCTTCAGGCAGGAATAAAGACGTATGGCTGCCCGTCCCCACTCCCGCACTCCTTTTCTCGCAATTCTAACTGACAAACAGCAG
GCAACTTATCTATGGAACAAACGATTCTGTAGTGCTTAGAATGTGACAGGCTCATTTAATTCTCATTTCAGCCCGATAAGGCTGGCACTATTATCATCAC
CATCCTCATTTTATAGAGGAGGAACCAGAGGCACAGAGAGACTGAGCCACCTGTCCCAGGTCATGTCAAGTGGTGCCTCCCAGCGGTGGAGGCAGCACTG
GAATCCGTGCCGCCAAGCTCCGCCGGCTGGGTGACAGGGAGACTACAGTTAAAAACAGATTTCCCACAAGACCGACCGGAGCGCCGATCAGAGCACCTGC
CCGGGCCACACATTTCCTCCTGGAGCACAGCAAGTGCCGCCTAAATTACCCGAGTGAGCATCTCTTCCCGGCACGAGAGGCAGGGAGGCCAAAGGGCCGC
CAAGCTGGCCTGGGAGAGGCGTAGGGCGGAGCGAGAGTGGAGTGACATTCCCGAGGGCGGAGCCCCAGGGCCTCCGAGACCCGTAGACTCCCGCCTCCCG
CCTCCTCTAGGCCGCCGGCCGCGAAGCGCTGAGTCACGGTGAGGCKACTGGACCCACACTCTCTTAACCTGCCCTCCCTGCACTCGCTCCCGGCGGCTCT
TCGCGTCACCCCCGCCGCTAAGGCTCCAGGTGCCGCTACCGCAGCGTGAGTACCTGGGGCTCCTGCAGGGGTCCACTAGGTGAGGGAATGCTGGCGGTCA
GTTTGCAAAATCCTGCCTTCCCCAGCTCACTTTAGACTCCTAGGGGAGATAACAAGAGATACTTAAATTGTACTACGAAATTTGGTGAAAATGGTAGACG
RCTTTTCTTTCTGCAAAGCACTGAGATCTAAGTACCTCATCAGTTGTTCACATGCATACAATTTAATCGTAGGAGTCTGGAAGRACCCAGACATAATCTA
GATGGGGATAAAGATACTTTCTGGTTGCTTCGATGTAGGTGATGACCGGCCTGTACTGCTTTGAGTATTAAGCTCGTTTCTGCGCCTTGCAACCTATCAC
CCAATAAATATTTATCGATTACTATTCAGGGAGGATACATTTTAGGGTAGGCCTTGACTAAGTGGAGGGTATTGTGGAGTAGAGCCCTTCTGAATAACAG
CARCTAACATTCTCATAGCACTAACTGCACCCCTTTGAGGTAGGCGGTCTTATCATTCCATTTTACAGATAAAACTGAGCCACAGAAAACCTCAGGTCAC
ACAGCTGATATGTGGTGAAGCTGAGATGCAAACCTAGGCTGTCTGGTTCCAGAGTCTGCTTTTTGCCAAAGCACCTCTCTTCGTTTCAGTAGGAATCTTT
GAAGGAATTGGGTATATTTCACTTGAAGAAAAGATTTAAGGGATTGGGGGTACTGTCTGCAAACACTTGAAGTGGAATAGGGATAGATTATATTCCTTCT
GGGATAGTCCATTAGAACCTAGACCTCCCAAAGAGGAAAAGACTTTCGAATAACAAACTCTGGCTATAGGTAAGTCCTGAAATATGAGATACATTGCCAA
GAACAGCTGGTCCATGACTTGCCTATGCTCTAGGAGACTTCATGAGTAAGCTGAAAGATTTCTTGCCCAAAATGTTGGCCCTGAACTTCAGGAATAGATG
GGTCTTTGAATTCAATGACCCTCGAAGATCTCTTTTAATGCCAAGATCTTCAGCATGTTCTGGTAAGAGTTAGGGACCTCTTTGTTTTTCTCCATTTTCT
CTAAGGCGCCACACAAACCTGCCCCCATCTGTCAGCCTCATTGGTAGCAACTACCTCATGGGTGCTACCAGTGAGGCTGACAGATGAGTGGCACTGGGGA
AGGGGTGGGAGATCGAGAGAATTCAGTGAAGTAAGAAAGACAAAGTGTTCATTGGAGATTTTTAGTAAGGGGCCAACAGAGCTGCTAAAGTCATGCTTCA
CTTAACGATGGGGATATGTTCGGAGAAATGCATTGTTAGGTGATTTTGTCGTTGTGCAAGCATCTTAGAGTACACTTAGACAAACCTAGCTGGTATAACC
TAGGTGTGTAGTAGGATATATGGTATAGCCTATTGTTCCTAGGCTACAAACCCATACAGCATGTTCCTGTACTGAATACTGAGGCAACTGCAACACCGTG
GTGAGTATTTGTGTATCTAAACATACCTAAACATAGAAAAGATACAGTAAAAATATGGCATTATAGTCTTATGGGACTACTGTCATACATACAGTCCATA
TATTGTTGACTGTGTAATGTTGACCTGAATGTCATTATGTGGCAGGCACATGACTGTRTCGCTAACCTTYGCACAAGATTACTGTAGGATTACATGAGAT
AGTTGTAAATAATTGGTGGGGTACTGGGCACCTAGTAGGTATGCATACATGTTCACCATCATTATGGTTGTTTTAAATCACCTAACCCAGGCCCTGCACA
TAGTAAGACATCAACAAATTGTAGCTGCTACTATTTTGCGCATCTAATCTTAATATCATTTATTTTGTAGTCCTTGGATGTTCCCTCCTTTATGACTTCT
TTTTTTTTTGTTGTCCTTCCTTTAGCCCTCCATCCTCTACAGCTCAGCATCAGAACACTCTCTTTTTAGACTCCGATATGGGGTCCTCCAAGAAAGTTAC
TCTCTCAGTGCTCAGCCGGGAGCAGTCGGAAGGGGTTGGAGCGASGGTCCGGAGAAGCATTGGCAGACCCGAGGTATGCTAGTTGGGTGGCTGCTCCTTG
TTTTCTTTTCAGAAGGGACTGGTGGGATGTTGATGGTGATTTTGGGAAGAGGGGGCCAAGATAGTCGTGAGCTGGCCTGTGGAGTGCATAAGTGCAAACT
TTAAAGTTTGCAATTGGGGGCAAACCAGCCCCAGCCCAAAGGGGGTTTCTGTAATGTGAATACAGAGGYCTTGGGCAGAAAGTGCAGCTGAGCTTCAGGA
AATGTCTCTGCTTCTCTCTGCACACTGGYGTGCCACCCTGGGCTGACATGCTATCTGCCTCAGCATGCATATCGCCAAACATGCCCACCACACAGCCCCT
AARTTTATTTGCCCACACTTCAAAGCACCAGGGAGTAACTCTGATTCTCAATTCCAAATTCCCAGGAGAGAGAATCTGATTGGTTGAGCATAGATCAGGC
CTCCACTGCTGGCCAATCTGCCGTTGCCAAGGATTTAGATTCACTGAGAGACTGCTGGGACCCAACTCTGTAGACGTCTGGTGAGGGACACGTGTAGATG
GGTCTAGCTCTCAGAGAAGGTGATTATAGATTAGGTAGATGTCTTTCAACTTTAGAGAATGTTTTCATTTGAATATGGGAAATTTGGGATTTGTGGGGGA
AATAAGTCTTATATGCACAGAAAGGTATCAGATGGTGGTCATAGCCCAGGGAATACAGCCCCTAGCACCATATCAGATCCCCAAAACATTTTCTAATAGA
AGAAATACATTACAGAGATGGATTCCATTTTGAAAAGTGAGACTGGTTTGTCCCTCTTAAACTCTACTCTGATAATTTTCATGCTACTTTGTTGCTCAAC
TTAAGCTTTAAAAGGGTTACTTTCTCAACTTTTTAATCTTTGAAATGTATTTATAGGGTTTTAAAAAACTCCTGGCCTTCCTCAATGAGTGCTGATCTAC
ATTTTTGATGGGTTCAATTTTTTTAGTTATGTTTTAAATTGACAAATAAAAATTGTATATATTTATGATGTACAAAATGATGTTTTGATAGGTGTCTATA
TTGTGGGAYGGCTAAATCAAGCTAATTAACATATTCATTACCTCACATACTTATTTTTTTGTGATGAGAACACTTAAAGTCTCTCTTAGCCAATTTYGAG
TATACATTGTTATTAACTATAGTCACCATTTTGTGCAATGAATCTCTTGAACTCATTCCTCCTGACTGAAATTTTGCATCCTTTGACCAACATCTCTCCT
TCCATATCCTCCCATCCCCTAGCCGGGGTAACCACCATTCTACTCTTTGCTTCTGTGAGTTTGATTTTTTTAGATTTCGCATATGAGTGAGATCATGCAG
TAATTGTCTTTCTGTGCCTGGCTTATTTCACCTAGCGTAATGTTGATTGGCCACTGAGGCAGAGGAAAAACTGTCAACACAACTCTCCATCAGCCCCATC
AGGCCATTTCTCTTTCCAGTTAGCTTCCTGTTTACACCTGAATGTCTTTTGAGGTCCATCAAACAGTGTTTTCTGAAGGATACCTGCAAACAAGATTATT
CTAATGGCTAAATGCACAGGGAGTGTTGGGGAGATGCAGATGGAGTTGGTATCATATTCTACTAGGCTACATCACCAATAGAACAATTGGAAAGAATTTT
GGGGCCCCAAACACACCTGTTACTAAGCCACTATTATATATTGAGGGTAACTAACACTTTAATTAGCCCATCTGTCAGGAACACATCTGCTGAGAATTTC
TTTATTGTTTTTGTCCTGTGAATCCCTTTGGCAGTTTGATGAAACCTATCAATTTCTTCTGAAAGCAATGTTTTAAAATACATAAAATAAAATACATAGG
ATTACTAAAATAAAATATATAGGATTACCAAGGAAAACTTTTATACTGAAACATGGTTAAGAACAATTTTAAAAACTATTTCATAATCTGGTAATTTTAC
ATTAAATAACACGATTTGGTGGCAGTTCTAGTAACTGCTGAATTTCAAAGCTGTGAAGAACACGAACAATATTTCGATATATCTACTAACAACTGTAATG
TGATATGAAAATAACTTTGATTTCAATTGGTGACAAAGTCACAGGTACTGGTAATTTACTGTGGTGCATTGACTACATTCATAATTGAAGAAGTTAAATT
TCAGTCTAGAGATGACGGTAATGGTTGTACAATGTAAATATATTTAATGCCACAAAACTGTACTCTTGAAATGGTTAAAATGCTAAATTTTATGTTATGT
ATATTTTACCACAATAAAAAAAAAACAAAAAAATTAGTAGAGGTTAGTGACAATAGAGATATAACTTTTTAGCAGTCCAAGTTTACAACCCYTCTGAGTT
CTATCAGTGGTGCCAGGTAAAAGTCCATGGCTGATAACTTATGCTTTACAGATCCCCATATTTTACTGATTCAGATCTCCTGTACCCCAGGTATGACTCT
ACCCTAAGGAAAAATAAATGGATAGGAATCATTCCTAATCCCATCAGCCTGGTTTAATTACTGTTGAGACAAAGGGTCTTTTTGTTTGTTTCCATATAAT
TGTATATTTTACATCATGGGATTATATAGAACAAACAATTTTATGTTCCAATTTTTTTCATTTAACAATGGTAGCATAAGGACTTCCCATGTTATTATAA
ATTCTTCATAAACATCATTTTAATAGTTATGCCATATCCCATGTATAAGCATTGCATTATTCTCTTACTCGTGAATTTTTGACCATTTAGATTGTTGCCA
TATTATTTTTGCACTCTACATACTACCAACTTGCCAGAAAGGTAGACTCCCTAACCCTCCCATCAGCAGAGAATGAAAGCATCTGTCTAACATCAAGAGA
TTACTTTTCTTTCTTTTTCTTTTTCTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGC
ATGATCTCRGCTCACCGCAACCTCCACCTCCCTGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTCCCTGGGATTACAGGCATGCGCCACCACGCCT
GGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCCAACCTCAGGTGATCCGCCCACCTCGGCCTCCCAA
AGTGCTGGGATTACAGGCTGAGCCACTGCACCCGACCAAGAGGTTATTTTTCAAACTCTGCACCAAAGCTTCTGTCTCTAAAGAAATATCTCATAAACTT
TGGACCCAGAGCTATTTTAGCATAGTGTCTACAACAGCACTCAATATTCACAGCCGCAAGTGTTTTGACTCCTTTGACTGCAAATGTGGAGATAGAAGAG
GAATATACAATGCTCTCACTGAGCCTTTCTGTGATTTAATAACAAGGAAGAGATGGAGTGGGGCTGGCCCACACCCTTCATCACAGTTATACATGGGCCA
GCCTAGCCAGACTGGAATTTGAATGGCTGAGTAGCATAGGTGCTAGGGAGTGGTTCCTCTGTGCTCCCAGCAGGAGGGAAATCCACTACTAATCTGCACT
TGCTTCTATGCCCACTCCTGCTACCAGACACTCCTCGGTGTAATGTGATTCTCCATGGGTCACTCTTATTTTTATTTTGTTAATGAAGAATTTCAATCAT
CATAGAAAAGTAGAGAAATAGTATGACGAATCTCCATGTTCCTTGCATCCACAATGATCAACTCATGGCAGTCTTATTTCATCCATATTATCATCCATTT
CTCCCCTCAAAGTATTTTGAAGAGAATTCCAGCCATTATTTTATTTCACTTATAAATATTTCAATTTGTATCTCTAAAAGATAACTTGAAAAAAAAAACT
ACAATCTCATTATCATACTTACAAAAATTTTAAAAATCCCTTAATATCATCAAATAGCCTTGACTAATCTTGTTCTTCACTGATTTAGCCTCTGTAGATG
ATGCTTTTCATTATCAAGGTCTCTAGATATTGAATCAAGGAAGTGGGCCATATAGTCACAGCTCAAGTCCATTCAAGGCTGTATCTAGATCTCRGTCTAG
GATATGTGCTGCAGTTTCCTTCTGCCTTCTCATTGTTATCCCCAGGTTCCAGTCTAGAGGCCGAGTAAAYCCAGAAGGTAGCCTGAGGTGTTGGAGTCAA
TCTTGAGGAGCCTGTTCCTTCAGCTGCTCCCGTATTGTCTTGATGTAGGCTGACCTAGAATCACCTGATTCTTGGCTACTACCATAGRCATTATTGCCCT
TTTATCAGTTAGGATTAGGTTCAACTGTGTGTAACAGAAAGCATCATCCAAAACCAATGATATACATAAGTGTTTGTTTCTCTTTTGTAAAGTGCCAAAA
TAGGCACTCCAGGGTGGCCTTCCACTCTTATCAGGGACCTGTGTTCATTCTATCCTAGGTCATAATTCTTAGTACATTCTTAGTGCATCGCCTTATAGTC
CAAGACAGCTGTTAGGGAAATGGCAACCATTTACCCTCTGGCAAAGAAAGGAGGAAGAGGGGAAGGGCAAAATGATACTCATCTKSTGTCCATCCTCCTC
TTATAAGGAATTTTCCTAAAAGTTCCACCCTGCAACTTCTACGTTGTAGCTAGATTCAATCATATGAACACAACTAGCTACAAGAGATGCCATGGACCTA
AAACAAGTACCACTCAGTATATTATGGAGTACCTTTTATGTACACAGAATTATTGTAAGTTCAGTGGAGCATCATAAAAAAGCATAGCATCGGCCCCATC
CTCAAGGAACTATTATTCTTGCTAGCTACTTCCAGTGCTTCCTGTTGTAAATAAAATTCCAGGCTTTATTATGGGAGTACCACATGCCTGAGGGGTGGTG
GCCACAAGTTTTGATTGACCTTCTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCTCCCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAAT
TCTCTTGCCTCAGCCACCACGCCTAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTCTAACTCACAGCCTCAAG
GGATCCATCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCACGCCTGGCCTGATTGGCCTTAAGAGACTAAAAGAAGTAGATTGGAA
GCTGCCACTTGAATTCAGCAGCTAAAGGATTTAGAACTATTTGAATGAAAAGAAATTCTCATGTGGCTCAAAAACGTTAAAAGATTGTCAATTTGATATG
TAGAGAGAGAAAGATGTGAATGAGTTGGGGACTTAGTGAAAACATTTTAGAAAAATCAGAGTTTTGTAAATTAGATCTTGTCTACCGATAACACATGTTT
ATTTTACATGCTATTGAATTCCTGCTAAATGTTTAGAGAATGTTAGGAAGTTTGACGAGGACTAATACCCAGTACTGCAAATAACACTTTAGTACAACAG
TCTAATGCAAGATATTCTTACTTTTTGGAGGGAAAGTGTGTCTTACACATATCACCAATTTTCTGGCAAGATAATCAATTCATCCTTCTGACTCTTACCT
CAATCAGCCCCCTAGCTTCTTCAGTCTCTTTCTTGTGCTGGCTTTCTTCCTATGTGTGTTCATATTTCATGGATTGGTGACCAGAAGGATCAAATGGGCA
ATAAATATGACAAATAGTACTGATTTGGTCTGAATCTATGTGTCTTCCCTACTCCTAATTCCTATCATGAAACCTAACACTCAATATGATGGTATTAGGA
GGGGAGGCCTCTGGGAGGTATTAGGTCATGAGGGCAGAACCCTCAGGAATGGGATTAATGCCCTTACAAATGAGACCCTGGAGAGCTAGCTGGCTCCTTC
CACCATGTGGGACACAGCCAGAAGGCACTGTGTCTGAACCAGAAAGTTGGACCCTCACCAGACACCAAATTTGTTGGTGCCTTAATCTTGGACTTCTTAG
TCTCCAGAACTGTGGGAAATAGATTTCAGTTGTTTATAATCCAGCCAGTTTATAGTATTATGTTATAGCAACTCAAACAGACTAAGACAGAAAATTGGCA
CTGAAATTGGGATCATTCTTCCATTGTCTTGAACAATAGGTCCTGGTTTCTGTTTTGATGGCTGACAAGGCTCCTTATTAAATGGTGAAATGGTCATTTG
GCCACACCCTTGGTGTTTTCTCCTGAACATGTTTCTCATTTTTTATAATATGGGTAGGCTGAAAATTTCCCAAATCTTTAAGTTCTGCTTCTCTTTTGAT
TAACAATTCTGCCTTTAAATTATTTCTCTCTTCTTGCATTTTACTATATGCCRTCAAGAGGAACCCGGTCTCTCAACGCTTTGTGTACAAATAGCATCAG
CTAAACATCCAATTTCATTGCTTACAGGTTCTACCTTCCACAAAACACTAGGATATGAACACAGTTCAGCCAAGTTATTTGCCACTTTATAACAAGGGTA
ATCTTTCCTTCAGTTTTCAATAACATGTTTCTGTCTAAGACTTCATCAGAATGGCCTTTACTGTCCATATTTCTACAACAATCTGTTCAGGATTACTTAG
GTATTCTTTAAGAAGATTGAGGCCGGGCRCAGTGGCTCATGCCTGTAATCCTACCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGCTCAGGAGTTT
GAGACTAGCCTGAGCAACATGGTGAAACCTCRTCTTTACAAAAAATACAAAAATTAGCTGGGCATGGTGGCTGGCACCTGTAGTCCCAGCTACTTGGGGC
ACTGAGGCGGGCGCATTGCTTGAGGCCAGGAAGCAGAGGTTGCAGTGAGTCGAGATCATGCCATCGCACTCCAACACAGGCAACAGAATGAGACCCTGTC
TCAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAATTGAGACTGTATCTACCGCTCTCCTCTTTTCTTTCTGGGCCCTCACCAGAGTTGCTTTTAATAGTTC
ATTCACAGCAATGTAGGCTTTTGCTAGCATGACTTCAAGACTTCCAGCCTCTACTCTTTAAGTTTAAGCAGTTCCAAGGCTACTTCCAGTTTTAGGTATT
CATTACATCAGTGCTCCAAGTTCTTGATAACAATGAATAACTACTGTTCTGAGGGTGGTGGATGGTGATAAGGGTAGGACTAAAAAGAGAGAACCTCTTG
GTTTTCACAGTTTGACAGCAGGGCATATTTGCTCATATAAAACTCTTCGATACAAAGAAACAATAAGTATTTCTTTATCTTGTCTTTACCCATATTTTAA
TAGAACCACAACAACACAGAATTTAAAAGTTATCTTAGAGCTTCAAACACTTTGTTTTGTACCTAGGGAAGTGATGGCTGTGATATTTATAGGACTGGTG
CAGTATAATAGATACCACCCATCTATGTAGAACCTACAGTGCTTTGGGCACTGGACCAGGTGTGCTACATTCATTGTTTTCAATCCTTATAATCTTCCAA
GGTATATATTATCATGTGAGGAGAAAGCAATGTATAATAAGGTATGAGAATTCTCAACCTCTCCTYCTACCAATCCCAGTTCTGTTCCTGGACTTTTAAT
AAGCTGATGTGGAAAAATGAATGACAAGACTGAAAGGAAACAAATTTGCTTGGTTGATTTTCACTGGAAAGGGCAGAGACTTACTAGTGGAAGAGAAAAG
AGTAAATACAGAAGGTGAGAGGAGAGGAGAAAAGGAAAGAGGTGTCTTCWGATGGTTTGAAGTGATTTGAAGAGTTAGAGTGAGAGAAAATGGAATCATG
GGAGACAGATATATACATGGAGAGGGGTAAGAGGGATTTTAAGCATATCTTTAAATTGAAGCCTCTTTTGGTGTTTTTGAGAGGATTCAATAAATAATTT
GAATTTATTTTCAATTACTTTTAAATATTGGACTGGATGAAACACCAGGTTGAGATAGGCTACAAAGTGCCCCAGCTTTATATGGGTTGCAGTCCACATT
TTCAAATGAAGAAATTGAGAATTGGTTAGGTTAAAAAACTTGCAGTAGCTTGTTGAATTTATATATATATGTATAATGTATATGTTATGTATATATGTGT
GCATGTTTTTTTCATAGAAAGTTAAAATAAAGATAAAACCGGAGAATGAGAAAGTTTCATACTTTAATTTCTAGTAATATGACAGAGTAGACATCCTGAG
ATAAATAACTTAAAATTAATTAGCTGAGCTGCCAAGAGGTTGCTGAAACTCTTAGAGTATAAAACAATAAGAAAGAAAGAAAAAATGGAAAATCTGAATA
GTTTCATAGCCATAATGGTAATCGAATGAATACTTTAAAAGTTTATAACAAAGACAGCAGGACCAGAAGATTTTATAGACAAATTTTACAAAATATTTAA
GGTGTAAGTAATTCTAATAATGCACAAACTCTCCAGGGGATAAAATCCAAGGAAGTGCTCCTCAAATCACTTCATGAAGCTGACATTACCTTGCTATCAG
GACCAGACGAGGACAGCCAGTGAAAGAATAATTACATCACATTTATGAGAATGTTTGCAAGAATCATAGAAAATTAACCAACCAAATTCAACAATGTATT
AAAAGATAATATATCATGACCAAATTTGGATTATCTGAGGAGAGCAAATTTGGTTTAATGTTAGAAAATCTATTTGTGTATTTTATTAACATTAAGAGGT
TAAAGGAGAAAAAATCATATAAGTGTCTCAATGGTGTGGAGAAGACATTCGACAATTCAACATCCATTCATGTTTAAAAAACAACAACTTTGTAAACTAG
AAGTAGAAGGGAAACTCTTTAACCTTATGAAGGGAATCTATAAAACACCTGCATTAAACAACCAGATTACCAATAAAACTTTATAAAGCAATCTATGTAA
AATCAGGGAGAAGACAAGGATGTCTACCACCACCATTTCTACTCAAGACTGTTGTAGAGATGCTCGCTTGTAAAAATACAAGAAAAAGAAATGGAAAATA
TAACGATTGAAAATGAAAAAAAAATCCCTTCTTATTTGCTAATGGTTGTTGGTCGAAATGTTACTACCAAATATTCATTCCTTCTCTATAATAGGATTTT
ACACCCGCATCCATTTTTAGGTACATTACCCATGAGACACATAGGGAGCGATTAAGTGCCCTCCTCCCTGACTTTGGGCTTGGCCATGTCACATGCTTTG
ACCAATGGGATGTGTTAATGTGATTGTGAATGGTTGACTTGCCTTGCTTTTTGCTCCTGACCTTGGCTATGAGAACATAATGCCCTCCATAGTGGCCGCT
GTTTCAGCTTGAATCCCAGAGTGAGAAGACATGTCAAGGCCAGCCAGGCCCATAAAAACCCAGAGAAATTGCAGTCTGCCACGGCTTTAATCCAATGCAA
GACAATTTTTTTGTGTGTGAACTATTAAGCAAAAGTTTATTGATAAATACACTGGTGATATGAACATCTACAAAGAAAACCCAAAAGAAGCTACAGATGA
ATCATTAAAATTAATAAGAGCTTAGCAGGGTTCAAAAATTGCCTAGCGCATGTCTAATTTCCAGCAGCAAACTGTTCAAAATATAATGTGTAAATGCTGT
TTGCAGTAGAATTCCATTAAAAATACAAGTTAGCTAGAAAAATAATTTTTAAAAATATGTAAGACCTTTATGGAGAGAATTGCAAATCCTTATTGAAATA
TGTTTAAAGACCTAAATAAATGGGGATAACCATGGTTCTATTGAGGAAACATTGAGGAAAACTAAATATTATATAAATGTCAGTTCTTCACAATTTGATC
CATAGATTAAAACTAATTCCAATCAAATGTTCAAAATTTTTCTTCATAGAATTTGATAAATTTCCTAAAATTTATATAAAATAACATGGTCAAGAATAAG
CAAGACAATCACAAACATATGTTGATGACAACCAGATATGTTTCTACCTCTCATTTGAGCTTGAGATTGATCTTTAGTTGTCTGCTAGCCTTTGCATAAT
ATAATGTGCACTTAATAGTTCTATTTATACAGATAACATTTATATGGATATATCAAATTCAGTATGACCTAAAATGAAGTCATCATAGCTATTTCAAGGC
AGCTTCTTCTATTATGTTCTTTAAGTGCTGAATGGCCCTACCATCTTCCCAGATACCATAGTTAAAAATTTGGGAGTCAGTTAATGCTCTTCCTTTTTGT
CTCATAAATATCTACCCAGTCACTCAACCACTCTCCATCACTACTGCCATTGCCTTAGTTCTGGCCTTTGCCTTTGCTCAGACTATTTGAGATAACCTTC
TAGATATTCTTTGTTTCCTGTCTTCCTTTACCACAGAGTGATCCTTCTAAATCTGATCATATCAAACTCTGATGAAAACTCCCATCACCTTCAGGATAAA
ATCCAAACTCATTTAGGACTTGTCCTCCATCGTCTGCCCATGTATCTCATAATTCCATATGCATCTTTTGCCCCAACAGATTAGTATCCCTTAGTTCTTC
AAGCATGCCAAGCTGTTTTTCTGCTTTTCTACCTGGAATATCTTTCCTTCTCTTTTTCTCCCATCTACTTGATTAACTCAACCATGTACTTCAAGACAGA
GATTAAGTGCCATATTCCTGAGTTTTCTGACCTTCTTTGATCCCTTCCCACTCTCATATGTGTAAAATTGTCTTCCTCCAAAGCATTTATCATCTTGTTG
CAATAATTGATTTTCTAGTCTGTTCCCCTGTAAGATTATGAATCTGTTTAGGATACAGAATACATCTTGTTTATACTTGACTATTTATATCTTAGATGAT
TATGAAATGTTTGTCCACTCTTTGCGCTTCTCATAAAATGACAACTCTCTAACACAATCCGTAAATCCTTGTGTGTGTGTGTGTATTAGTCCATTTTCAT
GCTGCTGATAAGGACATACCTGAAACTGGGCAATTTACAAAAGAAAGAGGTTTAACTGGACTCAAACAGCTCCATGTGGCTGGGGAGGCCTCACATTCAT
GGTGGAAGGCAAGGAGGAGCAAGTCACATCTTATATGGATGGCAGCAGGCAAAAAAAAAGAGTTTGTGCCGAGAAACTCCCATTTTTAAAACCATCAGAT
CTCGTGAGACCCATTCACTATCACAAGAACAGCACAGGAAAGACCTGTCCCCATGATTCAGTCATCTCCCACTGAGTTGCTCCCACAACACACGGGAATT
ATGGGAGCTACAAGATGAGATTTGGGTGGGGACACGGAGCCAAACCATATCAGTGTGTATAAGAAGTTCTTCCTGAAAGCAATTTTCATTGTAAAAAGTT
GCCCATTGGCTATGTAGTTTTCAATGAGGCTTGCTAGATCTGTTCATAAATGTAGCCCCTGGTAGTATGGCTTAAAAGACATATCTAATCWGCAAATTTT
ATTTTTATTTCAGTTAAAAAATCTGGATCCGTTTTTACTGTTTGATGAATTTAAAGGAGGTAGACCAGGAGGATTTCCTGATCATCCACATCGAGGTTTT
GAAACAGTAAGTACAATAATTTGACTGCAGAAGTGTGTATTTTGAAACATACCTCTTTCTTCTAATAGAAAATTCAATTTTAAAAGCAATAAATAATAGG
CTAAAAATTCATTTATAAGTTGCAGGCTATTTTACATAAGATATACTCAAATTTAAATATTTACTGTTTTTAGTATTCTTTGAATTTATGCCACCAAAAA
CATTCCTATTTGTGCAGTTAATAAGTTGGCTTATTAAAATATTTTTGTAATTAAAATAATTCATTGGGGATAGAATAAACTATTTGTGATTAAAATACTT
TTTTATATAGAAAACCTGTTTCTAATCATGTCACTACGCTCCATTCTGGGCAACAGAGTGAGACCTTGTCTTAGAAAAAAAAAAAAAGAAAGAAAAAAAC
CTGTTTCTATCTTGTTTCTATCCAAGAATGTTCAGATGTGTGTAACCTCCTGTAATATTATAAACTCCAAAAAACAATCTAAGAACTACAAGAGTATTTA
TACTAACTTCTAAGGAATTATAGAATCAAGGGGCCCAAATATAACATAGCCTAAAAATTAGGATTTTAAGGACATACATATACATTTACTAGTTTAATTG
CAAAATTTAGAGATTCTACTGAACACTTAATATTCAGCTTTAGTTAGATACAGAAATAAAATGTGTAACATAATATTGTGGCACTTTCAAAGATTCTCAT
TGTCCACACACATATATTCTGTGGAAGCTCAGGGATCGTTACTTCCTAGTTACAATGTTTAACCATCTACTCACCAGAACAACCTGCATTAGTAGGGAAG
AGACCAGGGCTTGTTAAAGGCTCAGTGTGTTTATAAACCCAATTAGTGAATGAGTAAATATTTATTGAAGGCTGGCGATATGCAGGCGTTGGTGTAGGGT
GATCTTTTGTATGTTAGGGTGTGTTGTGTGTTGGGAAGTGTGAGCAGAAGGCAGAGGGAGGGAGGCTAAAGAAGGGTGAGGCATGATCCCTGCTTGCCTC
ATATGCAGTCTAGTTAAGGAGGTTAAAGATGTTTGGGAAAGGGCACCACCACAGTGTAAAGGGATAATGAACCAAGAAGTTTCTGGAAGTAGGATCAGGG
TAGTTGGACTCTTTTCCCTTCCTCRTTTAGCCATTCGCCTTCCAGTTCCCTTCTCTGCTAACACGTTGAAGGCGCTGTGGCTTGCTTTGCAGCAATAATG
GAAGCCATTCCTTTCACCTACCCTACACTCATACTGGATTCTGACCCTGTTCCTGGAAGATGTCTCCACTCTGTGCTCCTGCTCGAGCTACTTCTTGTGT
GCTCCATCCCATAGCTCCACTTACCACCTTACTAATCCTTCAAGGTCTTTTCGGATATCACCAGCTCCATCAAATTTTGCAGACAATCCCAAGAGGATGC
ACTTTCTCCTTCATTTGGTCCTCATCGCATTATATTTTTACCAGTCTCATGCACATTATGCCTTTTTGATGACCTTGATTGTATTCTATCTGTCTTGCAT
TAGAATTGGGGATTGCCTCAACCTCCCCTCACATACCCAAGAGGATCATAAATTGCTTCAGCTGAGATCATTCTCTGTGTTCTCTRTGTGGAGATAGTAA
CTACTGGCTGAATTTAATTGGATAATAAAAAGTTGAAGACAATGAATATATTAAATAAAATGAATGATTAAATATATTACTTTGATTTCCATTATGGAAA
ATGCTTTCTKGGGGGGGGGGAATACTTTATAAATTATAAGGTACTCAGCTTTAAGCAACTCCCTCAAGGAGTGCAGCTGTAGAATATTARTGTTTGGCTC
TTTTAAGAATTTTCTTTAAAACTGTAACTGTAATTATTTGTCAGTTCATTTACTTSCTAAAATTCATTTGTAACCCCCAAATCAGTACCTGTGGTGCTTT
TGTAGTAATTTGTGGGCATGTGTAGAGTGGCAAAAAATTTGAGCTGCCCAATGCACACATTCCCAGCTGAGGTTGAATGAAGCGATGCTCTTTTTTTCTT
GTTTCACAAGAAAGTGACCTTTCACAGTGTATTTAGTGCCACTTTGTCCACCTTTTGTGCTTTGTGTGGGTAATTTCACTGTTTAAAATGGCTCCCACAC
ACAATACACTAATGCTGTCTAGTGTTCCTAAGTGTAAGAAGGCTGAAATGTGCCTTACGGAGAAAATATCTGTCTTAGATAAACTTTATTCAGGTATGAG
TTGTAACACTCTTGGCCTAGAGTTCAATGTTAATTAATCAACAATATTTGTTAAATAAGGTGTCTTTAAAGAGAAATAAACATAAAACAAAGTCATGTAT
TGATCAACTGAGCAAAATATTGTGACCAGAGGCTTGCAGGAACACAATCCTGTATTTATCCTAGGAGCAATGGTCTAGTATTCTCTAATTCAGTGATCAT
GGCAACTATATAGAACATTTTTTCTATAAAAATGATGAGAATCAACTGTATCAGTTTTCCTCAGGAGTGTAGGTAAGCCAGAGACTCAAGTGGTAAGCCA
TTATCTCTTAATGTGAGCTTTAAAAGGCTGAAATTTAAAGCCAGCCCCACTTGTACTCTCTCATCACCTCCCTGGAGCATTTTCTAAATTATACAGGCTT
GTACATTTTGAAAATGCTGACTAGGATAAAGAACAAATTTAGAATCACCTGTGATGTTAGCTCACCATCCAGAAATAGCTATTGTTTTTATTTTGATATA
TTTTCATTCAGTACTTTTTTTCTGGTACCACACTATGTTTTGCATCTTTTTGTTAGCTTAGTATTATACTATAAGCATTTAAAAAATATTATTTAAAAAA
CTAATTTTAATGGCCTCATTAAGCATCTGCCATGATGGTTGTACCAACTGATATCACCACAGTGATGTGTTCTGAAGGTTCCTGTTTTCCCTCAACATCA
GCAACATAAATGTATTTATTCGACTTTTCTGACCTTTGCCATTTTTACAAGTGAAAAATAATGCTTTATGATAGTTTTAATTTATATTTCTCTTATTTGA
GCGAGATTGATTTTGTTTTCATTTTAAAACATTCATTCACCATACATATTTAATATTCTTGGATTTTTTTTTTCCTGCTGGGTTGCTGGTATTCTTTTTA
TTATTTTATAGAAGGTCTTCATATATTAAGGAAGTCAGATCATTTTCAGTGATAGGAATTGCAATAGTGTTAAGAGGGATTGGGCTTGTTTTGTATGCCT
TCAGAGGTAAACTTTTGAATACAAAGCATAGATACAAAATAGAAGGAAGAACTTTGTAACAATTAGTTATGCAAAGATAGAATAACTAATATAAGCATGC
ACTGGAACAACATAAGCATGTACTGAATGGTCACATACTTGATGTGTTATCAGGATCAAGGTCCTCAAAATAGTGATGTGCTGGAGCTCCCATTTATTTA
TTTTTTAATAAAAATGAAATTTTACTAACACATGAGTATAAAATGTAACTAATATACATATTTTGAGTGCACACTCACATTTATTTTAACTGGTAGTGAT
ACATGATCAAAGAAATGTGGAAAATATTATTCTATAAAATTCTCATTATCTCAGGTGTGACCCATGAACCAGCAGTGTTATCATTTGTAGCCTCAGTCTC
CACTTCAGAGCTCTGGATCAGAATCTACATTTCTACATCATCAAATGATTGATATACACATTAAAATTTGAGAAATGCTGGTCTAGATCTTCCAAATCAG
AAATACGATTCTATGAGATAAGTAAGAGAGAGAACCCAATTTTACTGGGTTAATGGCTAAGCCATTTTTAAACTTAACTCTTAGGTTTGAATAGCTATAT
ATTTTCTATTAAAAATTTGCCTGAAAATTGAGAAGGCGTACTCTAGGGAAGAGGCACAGCTGGTGGTCACAACACAAAAGGAGAAATGCATTCAGTTTTT
CCTACCAGGAGTTTGTTTTCTGGGGAGGATTGTTTTTCAAAAGGCCTGAGTGGTAAAAGGTGAAATACTTCTGCATTTACCCTGTTTCTGGTCAGGCCTG
ATATTGTGATTTGTTTAGGGCAACTTCAGTTATCAGAAACAAAGAACAATCAGAGACATGGGAAAGTCCCGCTAAAGTTTAGCTCGAAAAAGGAGGTACT
TATAGATCGGACTCCGTTGATGAACCTCTCACCTACCTTAGGAAGAAACATGTGTTGTGCCTTTTGAAATCATCCTTAAATGATAGCCTCTGGACTTTTC
AGGTTTTAGCACTGAAAGGCTCCTGTCCCCAGGAACCTCTCAGTCCTTAGCAAACTGAGATGACTGGTCACTCCTGTTTAATTAAACTTAGGAACTATTA
GGAGAAAACCATCCTGCCTGCTTTTCAGGGACATTTTAGGATGGCCTTGTCTACTGTGTTCTCAGTTAGGCTGAGAAGTGTTTTTAAAATTTTTTCACTA
CAAGCCTCAGCAAGTTCTTTGATTTTGTTCACGAGAACAAAACCACCCTGTTTCCAAGGGTGTGTCCATCAGAAAAGCCACGCTCATAATTACTTGTTGG
TAGCCGACAGTGTTTGCGTGCAATGCCTGAACAATACCCAGGAGAGGAAGGGAAAGGTCCTGGTGATTCACACCTAAAACTTATGACCCGATTCAAACCT
CCCACCTCCCACATAGCCTGTTTTTTTTTTCTAGCTTGCTGTGCACCACTTTCAAAAGCAAACCCTACCATCAAGGCTGAAAAAAAAAACTTGATTAAAT
TCAACATCCATTTTGGAAAACCGGGAAAGGATACTTTTTCAATATCATAAAGACTCTCTATTGTTCAGGGAGCATCTTTTGTTATATTTAACACTGAGAT
ATTAGCTATATTCCTATTAATATGAGAAAGAAGACAAGACTGTCTACCAGTACCATCACAGTTTAATATGGTTCTGGAAACTTTGAAGCTATTAATAAGT
AAGAGTTACAGTGTTGGAAAGGAGGAGAAAAATTATTTGTAGGTAATAAAATAAGAATGAAACTCACAGTGGCTTAATGTGGCTTTGGTTGTTGATATGA
CTGGAGGAGGGAGGAAGGCTCAGGATTTGTCCTGAAGTTGTGATTACAGTGAAGCACACAAATCTTAGCATATATATTCATTTGGCATGATTTGAGAGTG
AAGGTAACAGATATAAGAAGGAAGCTAAAGCCACCTCTACTCTCAAGACACCCCTTGGCACCACTGTACTAAGAATGTCAACCAAAACCTATTAGTAAAT
GGCTGGATATAAAATAACTATGAAAAATCAATAATTCTCCTGCTTAAAAGCAATAATCAGATGTAATGGTGGTGTTAAAGCAAACTAAATATGGCTTGAG
AAGGACTCTGTATTTCTATATTTGAGTCCTTGTGGACGCACCATAACCTAAATTAATAGATAGACAATATTGAAAACCTAACTTAGAAGTATGTGCCTGT
AACAATAGCTGGGTCTTGGCTAATCCCAGCAGCCATACTTCAACCACTCATACACTGCTGAGTGTTCAAACAAGGCAAACACTTGTTTGAACCAGTCCAG
CTGTTTCTGTACCTCACTTCTGATTTCTGTATGTCACTTTCCTTTTGTTGTCTATAAATTTGTTCTGACMACGTGGCATCCCTGGAGTCTCTCTGAATCT
GCTGTGATTCTGGAGACTGCCAGATCTGCTAATCATTTTTTTTTCTTGGTCCGTTAAACTCTGTTAAATTTAATTTGTCCGAAGTTTTCTTTTAACAGGG
GAAAGCATCGTATTCATAATGGCAGTAAGAACCCGATATAATTCCCTAGAAAAAAGTTATTCTCCTTTAACCCAGTAACCCTACTTCTATGACTCTATTT
ATGGGAAAAATCCAAAGTAAGAAGAAAGGCTTATTAACAAATGTTTATTCTGGTACAGTTTTTAAAAAATAAAAAACAGAGGCTGGGCGCGGTGGCTCAC
GCCTGTAATCCCAGCACTCTGGGAGGCCGAGGCGGGCGGATCATGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCTTGTCTCCACTAA
AAATACAAAAATTAGCTGGGTGTGGTGGCAGGCGCCTGTAATCCCAGTTACTTGGGAAGCTGAGGCAGGAGAATCGTTTGAACCTGGGAGGCGGAGGTTG
CAGTGAGCCAAGATTGCGCCATTGCACTCCACCCTGGGCAACGAGCAAGACTCTGTCTCAAAAATAGATAAATAAATAAATAAATAAAAATAAAAAAGTA
TTCAAAATAGTAGAGGAATAATTATATATCTAGAAATTATCTATAAGAAAATTATATATTTGAAAGATGGAATGTTATGCAGCATTATCTATAAAGACAA
ATATTGTAGCCAATTTAAATATTCGTCAATCATAAACTGTTTAGATTGTTTTTTTTAACCTCCACAACTAGTGACTTTTTGGATGCATAATTCTTTGCTA
TGGGGGGGCTGTTCCACGCATTGCAGGATGTTTAGCAACGTCCTTGGCCTCTACCCACTCGGTGCCAATTGCATCTGCCTACACCCAGTTGTGACAATAA
AAAAAAGTCTCCAGACATTGTCAACTGTCCTCTGGGGGTGTGAGAGAGGGCAAAATCACCCCTGGCTGAGAACCAGTACTTTAAATATATGTGTCCAATA
GCATGGCTTACCATGCAGTCATTAAGGAGAATGACATGGCTTGATAGGTCCTAATATAGAACAATCTTGATGATATTTGGAAAGTGACAGAGGCAAGGTG
CACAATTCTTGTGGCATAGTGTAGCATTTATATAAAAAGCAAAAACTATGCCTTTTTTCTTTTTTAAATGGCTTATTGCCAAGTTTATTGTGGGGAAGAT
GGATTATTATAATGAATGATTATTTCTACAGACTATCCTGATGCAAATAAAATAAAATTACAAAATACATGTTATAGTACCCAAAGAAGATGGTGTTTAA
AGAGAAAATGAACACATCATAACAGGTACAAATATGTATTTACAAAGCTTTTTAAAAAGTAGTGGTTTATGTACTTATAGGATTRCACAACCATCACTGC
TGATTCCAGAACACTTTCATCAGCCCAGAAAGTAAACCTGAACTCATTATCAGTCTTTTCTCATTCTTCCTTCCTCCAGCTCCTAGGAACCACACTTTCT
GTCTCTATTTATTTGTCTATTCTGACTATTTTATATAAAAGGAATCATATGGTATGTGGCCTTTTGTGGTTGGTCTCTTTCACTTAGCATAATGTTTTCA
AGGTTCATTCAGTTTGTAGCATATATATTTCTTTATATGCCTGACTAATATTCTATTGTATCGTATGGATATTCTATTGTATGGATAGACCACATTTTGT
TATCCGGTCATCCATTGGTGGACACTTGGGTTGTTTCCATTTACACCTTTATTCATAGACTTGCCTGGATTATCTCTGAAAGGATCCCCAAGAAACTTGT
AATGTGACCTCTAGGGAAGGTTAGCGGGTGACAAGGGAAAGTTGTGGACAAGATTATTGGTTTTCGCTGAACCCTTTTTTTCTCTTTGTACCTTTAGAAT
GTTCAGTTGTATTTGTTAATTATTTAAGAAATTCATGTTTTCAAAATTTCTTCTTCGCATACCAGCCATTCAGATATTTAAAGATGAACTGTGCCCTCAT
GGTTAGTGAAGGTCCTGATGATCACTTGTTCTCCAGGAACTCTTGCTGAGGCCTCCTACTTGGGTTTGCCCTCTCCAGATAAAGTGAACCTTACCTGTGT
TCTATTCCTGTCAACCAGATAAGCTAATAATATATGCCATTGTGTAATGGGGATGAGGACTTTCTCTAGAAAACATCTGTGCACCATTAGAGGGGCGCAT
GAGATTTAGGAGTGCCTTAAATCAAAAGCATAACTTTCTCCTCCACAACACRTTGCCTAGCTGAAAGGATATTAAAATAGTGAGTGCACTCATGAGTTTA
GAAGTGGAGGCAGAGGACTTTCAAATTGCATGAAAGTTAGAAAATAATTAAGGAGGAACAAGATGGGTATAGTTGAAGAAGTTTCATGTTTTGAGGCAGA
AGCTRTCCCTTCTAACAGAAGGATCTGGGAGGGCTTCAGGGAAAATTTGCCCATTTAGTAAGGCCTTAACCAATAAGTAAGATTTGACTCTCTGGATAGT
GGAGGTAAAGGTGAAAGTCGCGGTATGGGGATATAGTAGAAACAGTGAGTCATCTAATCGGGCTTACAAATGGGATGTGGAAGGATGGGAGGTGGAGGAG
TATTATAGGGTCTAAAATTTTAGGTTGGGCCATTATTGGGGAAGGCCCAAGCTTCGAAGCCCAAGCTTGATCTCTAGCTATAGATGAATGAACAATATTT
CACATCCTGAAACTGTCAACTTAACACAATCACGTTAAAATAAAACCATCTTTAGCCTAAAAGTTCTGCTTTTTGTGGAGTGCTGTCTATGTCAGTGGTT
CTCAACTGGAGGTGATTTGTCCATCTGGGTCATATGGCAATTTCTACATTTGATCTTAGCCAAAAGCCCAAGAAGTGACTCATTTGCAATTTCTGTAGTC
ATTTCTGAGTGTCACAACTGGGGAGTGCTACTGCCATCTAGTGGGTAGAGGCCAGGGATGCTGCCAAACCTCCTACAGTGCACAGGCCACTTCCCACAGC
AAAGAATTAAAGCCTCGTCTGTGTTAACAAGCGTAGGTCACATGAGGGAGAGTAGAAATTTAACTGAAATATTCTTTGAAAGTAGTCCAAATAAATTCCC
AACAAATTTCCCTATACATCCTACCCACACCACATTGCAATTACAAACAAAAACCATTCATGTCTTAAAGGCTACATTCCAAGAGTTTTTAAGTAGAAAA
ATTGAGTGTTGGGGGGGTGGGGGGCCGGGGTGCGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTTGGAGGCTAAGGCAGGTGGATCACTTGA
GGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTGAAAATACAAAAAATTAGCTGGGCGTGGTGGTGGGCGCCTGTAATCCC
AGCTACTCGGGAGGCTGAGGCAGGAGATTCGCTTGAACTCAGGAGGTGGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGCAACAAG
AGTGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAGAAAGAAAGAAAAATTGAGTGGGGGGAAATGTAATAAAGACTATAAGCCAATCA
TTAAAACATTATTTTATATCACCAAATATAAAATAAAGCTTTTCAAGTGAAACGAGAAATAAGTCCAAAGTAAATTAACATAGATCATTAAATGATAAAA
AGCTTCATGCAAATTGTCCACACTATTAACAAAGCTGCTTCAGAGTCATCCAATCAACAGACTCTTAGAATCACAGGCCTGACTACACRGGATTAAACTT
GAAGGAAATTTGCCATGCAACAGTATTAACTACTGATATATGAGAAGCTTCATATGTTGATACGTTACCTGTAAGCCTCAAAACAATCTTGAAAAGTAAA
AATTGTTATCTCCCCCATTTTACACATGAGGAAACTAAGGTTCAGGGAGGCGGTGACTTGCGAAGTTCACACAGGCCATACAGAGCAAGATTTGGTGGGC
CCATATGATCCCAGGCCCACATTTGTCCACTCTTTTTTGCTACCACTCCTTCTGGAACAAAGTTCCCTTTCTATATATCTGATATTTTCTCAATACTTTG
ACACATTCAGATGATTAAAAGATTTTTAATACCATTAGAAATGAGATTGTGCAGGTGACATAGACCATAAAACTATGAATAAACACCCCATACTCCTTCT
GCCACTCACTTACTGTGGGACCTATGCTTTCATGGTCCAGGGATCTGAATTTTCCTATCTGTAAGTCCAAAATAGTGCTCTCACTTGTCCTCTGAACTTC
CAGTATAATGAGGAAATGGGTTAGGTTGATTGTACCTGGCTATTTAAGGACAATCATTTACCTTACTTCTTATAGCTGCAACACTGTTCATGATCTAGTA
GTAACATGATAATAAATTCATGTTTCAGTCGCTTATAACTTACTACAACCTAATTTTTCCCTCTTTCTGTATACCTTTTCTCCCCACCCTACCTTAATTT
TTTCCCCCAAATTTCTTCTTTTTAAGACCCACCTGGGAGGATTCCTCCTCCACGAATTACTCCCTCATTCCTCTGGAATCTTTGTCACAATCAATCTTTC
TTCTAGATTTGCTTGTACTTCTCTTTAGCTTTCATTTCTCTTGTCTGCATATTTTAGTGGTTTATCTTCTGCTAGAGTGGTAGCTCCCTGAAGGTATGGA
AGCAATGACCACTGTGTTCCTTCTAGGTGATTCCTGACTTCCTGTTTGTGAGTTTGTAATGACATTTTATCTTGGGTGGGCCAGAACGAAAGAAAGAAAA
AGAAAGGGGAGGGAGGAATGATTAGCAAAGTAGTGGGCCTTTTCCTAGAGATAAATTTATTTTATTTAAAAGACTGTTCTTTATTCAGATATTGCTATTC
TTCCTTTTTTTGGTTGTTAGAATGGCCTTTCTTTTATGAAATGATGACCATAGTAGATAATTTTTACCTTTCACAATCTGAATTTAAAAGTTGGCACCMC
CACCCACCATTGAGGAGTATTCTATAAAATACTTCACCAGTACTCTTCAAAATTATCAAGCTCATGAAAAACAAGGAAAGAGTGAGAAACTGTCACAGAT
GGAAGAAACCAAGGGGACATGATGACATGGATCCTGAACCAAAAATGGATATTCATAGAAAAACTGGTGAAAGCCACATAAGTGATATACTTTAGTTAAT
GGCAGTGTATCAACATTGGTTTCTTAGTCTTGGCAAATGTTCTGAGGTTATATAATATGTTAATGGCAGGAGAAGCTGGGTGGACTCTCCATACTATCTT
TACAATTGTTATGTAAACTTAAAAATTATTCCAAAATTTAACTTTTATTTTTAAAAGACTAAGGAAGGCAAAAAATTGGCATCCCTCTCTCAGACCCCTT
TATTTTAAAATGTTTTATTGCTTCTTGATGTCCAAAATCCTGGGGCCTGGGGCCCAATAACATCAAGTTCAATGATCACACTCACTCAAAGTTTGAGAAA
TTAAATCTACAGTGAATTGAATCAGGGAATCATAATAATAACGTACCCATAAAAAGGTGTCAGCTGCTTAATTAAATATTGTTATAATGAAATTTTAACA
AAATATTAAAAGGAAAATCGACATGAGTCTCTGAAACCTCTTCCTCTGTAAGACCCCTGTGAGTCCCAAACCTGCCCAAGACCATATGTGCAAACAAGTG
TTTTCAGGCACTTCATTCTTAGGCATCTGCCTTAACAACTTTTAACTGGAGACTGTACTAAGCAGAAGAACTTCCCTCTATGCCACAACATAGCTGATCC
CTTAATGACTAGATGGCAGCCTGCCACAGTGACACACAGTCTTTAAGCAGAGACGCCATGCATGTGCTACAAGACATATTTAGTAATCAGTGGATCTGTT
GGCGAGACATAGGTCTGGTTTGGTGAGGTTTGATTTTAGGAAAAGAATGAGCACACATAATTTGTGTCAGCAGAGGGCTCTCTTAAGCAACAATAGTTCC
GACTACCCGTTTATGTGGAAATTTGGGTAGTCATAGAAGTTAGCAAACCATTCCCTTCAGGCCCCTTCAGTATAACATGGAAATTAAAACAATGGAAATG
AACATCTTGAGCACAGTTTTGCCAGATGTAGGTGGTGCCAGTTAAGAAGTTGGGCTGCTGATTACATGGCGACCCAGGCATAGCTTGTCTGAAGAGATTC
CCCAAAACATTTATTCCTGATCTGGGTTTGAAGGAGAAGGGGCATGCCTGGTCCTGGGGTTCTAGAAGCAGCTGGAAGTTTCTGAGGGAGTTTGTAATTC
AGCTCTTTTGAGTAGTTAGGTTTGGGAATATGATTATCATAGAACCTTGATGTCCATGTCAGAAATTTTAATCAGAGTGAAAGAAAAAAATAGGTTTGGG
AGACTTGAGAATGGGAACAACGTAAAAAAATAAGAGACAAATAAGTCAGTTGTTCTTTTCTTTGTAGTTAGATGGTAGGTAGAACTCTTTGATACCCACA
CCAAAGAAGGATTTCATGATCACCTCATCTCAGGATCCTGTAGCTTTGGGATCTTCCATAAACCTACTCCCTTCACTCAGAAATCATGAGGCCTATTTTC
AGCTTTGTGTATATTAGCAGTAGGACCCTTTCTTTGCCTGAAATAGCCAGTTTGCCTGAAGCCATTGAAGTTGGCAAAGTCCCCTTGTTACCTGTGTGAA
ATCCCTGCAGTTCTGGCTCCTATTGCAATTGTCATGGGATTTCTCCTCTGAGACAAGCCCTGTGCTCCCAGCACATACGTTACTGGCAATATGCCGTCAG
CATTTGTGAGGCAGCATGGGGGTGGGGGAGTGAAAGTAGTTTTATTCTCAGGGACAGATAATGTTGTTTTAGATCTTTGTTCTGCTATTGTTAACTGTAA
CCTTAATCTCACTAAGCCACGATGTTTTCATCAGTAATATATAGGTGATCACATATTTCCAGGATCAGATGCTTTGTAAATGCTGAAATGCTATGCAAAT
ATAAGATGCTATTCATCCATCCATCCATCGATTGATTGATCAATTCATTCATTCATTGAACAAATCTTCAGTGCCAGCTGTATGCTAGGCACCATAGTAG
CTAAGTTAAAAAAGTCCCTGCCTTCATGGGGCTTACATTCTCTTAATGAAGACAGACAATAAATGAATAACAAATAATTACATAATATAGTGTCCCATGG
TGAAAAAGCTAGGAAGAAGAAACAAACCATGGTTGGAGGATACAGAATTGATTGATAAATTAGACCAGATGGGCTGGTTGGAGGTGGCCTTTCTTAGGCA
GTAACATTTGAACAGAGGCCTGAGTGAAGCGAGGAGGTGAACTATGAGACTGTTGGAGGGGGTAGGGGGAACTATTCCAGGAAGCGTGAATGAAGATCCA
CGAATGGGATCTCTGCCCACGGAGCTGTGGTGGCTGTGCCAACTCTAGGACTTACCCATCACCTGTTATGGGCCAGGTGCTTTGCACACATTACTCACTT
AGTCCTTACCACTCTCGGAGAGCTCACCTCCCAGGTCTATGCTGTACATGAGGAGACTGAGCCTCCAAGAAGTGAAGGGACTTCACCCTGCATACCAAAC
CTGGTAAATGGCAAACCTGAGGTTTGCACCAGAGCCCCAAAGCCGGTGTAGTTTTTGGAGGCAGGGCCACACCTGCAGGGGGCAGAGTGGCGGGAGTCTC
TGAAGCACTGGTGCTTCTGCAGGGTGGTGGCAGGGAAATGTAAGGCAGGACCTGGTAGAGCTTTAAAATACTCGGATTTATCCATTGGCCGAATACCTGA
ACCGTGTTGGTTATCTTTTCCTTTTTGTTAAAACCACCTTTTGGAACTTGTGAAGGTGCGTATGTGGGGTTGGGATTGGGTGAGTCAATTTAGTCAATTG
GGTGATTTTCCCGGTTTCTACTCAAGTCATGAAAACATTTTTGTAAAATAACTTGAGTCCTTAATTGTATGGATTCAGACATCCTTGAAGACCAGTTAGC
AGCTTCTATTATGCAATATGTTCCTTGCTGGCATCTCTCATCAGCCATGACCTCAACTCGTGTTTTGTTTTGTTTTTCTCTTTTTCCTACCAAGCCACTA
GTAGCCAAAAAAAAAAAAAAAAAAAAAACAGCCACCATTTTAAAGCAAATGGAAATTAAAGGAAAACATAGTTTTCCCTGTAATATAAACATTTTGCTTT
AAAGAACAGGTCTTGCATCTTATTCCCAAACACTGAATGAGGTACTCAGACTCTGCCTTCTAAATACCAGCCAGAAAGAAACAACAAACTATATTATCTC
TTGCGTTGTAATTCTTCAGAATTAATTTATAGCTCCTTGAGGTACACCTTTCCTAAACTTCACATGGCAAGTGACACTTTTCTTTCATCACTATTGTGTG
TTTTGTCTTTCTGCCCCCAAACACAAACACACAAGGAAATAAGAACTGACAAGGAAGCAAAAATATTTAGTAAAGACCCACGGAAAGAATTAGAAGGAGG
AAAAGAGGAAGCAGGACCAAGAAGCACGTCAAGTGCTTTAAGAAAACACCTGTTTCAGATTACAAATTTCTTACTTAATTAGACACATGCAACTCTTGAG
TTTAAACATAACACTCACAATTCGTCAGCCACCCACGGCARTTCTCCAGGTGTTTGTGATTATGTAATGCCCTAAAAAATCATCTGGATTGTGTCAACTC
TCAGAAGTACTGCTTCAGTTTTTTAAAAAATCCTCTACAGACATTAATTTATATGTAAAGTCTCAGTCTAGCATTTACACTACTTAGCAAAAAAACAAAT
AAAAGGTTATAATAAGTAAAAGGTCAGTGGTTTCCTTGGTTTCTGATTTTTTTTTCCCCAAAGGCTGAAAGTATGTTTTTTGCTTCAAGTAGTAAAAGAT
AGGCATTTTGAATTCAATAAAACTTCATTGACCAGACTTCTCTAATTCAGATTTTATGATATTTAGGATAGGAGCAACGAGGTTTAATTGTATAACCAGG
GAAAGGAGCATCCACACTGCAAAAGTAGAGGAAAGGGGGGATAACTGTTTCCTGAATCTTTTTAAAAAAGTGTTGAAATTGCTTCCTAAAATCAAATTTG
GAAAAAAAAATCTTGATGTCCACTTAGATTTTTCATCCTTAAATGAGTCATACTCACCACAATTTACTTTTTAAAGTTGCTTGACATATTTTTAGATGGT
TAGCAACCTGAAAGCCCTTAGGCTTGGATAATTGAAAAATATTTGGGGATGGAAAAGAATATGATTTGAAAGGGACTCCTTTGAGAGCCCAAAAGGGAGC
TTCAGCCCAAACAGAATGGAGATTGCCTTTCTCATGCAATTATTTTAATTAAAAATGCATGTGCAGCAGGAAAAGCAAAGCAATTCTAGACACCACTCCT
TATAGTTTGGCTGATTGTTTGAAATCTGGAAGCTTTTGTTTGTCCTCTTAAATTTTTAAGCTTTGTATTAGATCCTAAATGCTTTGTTCCTATTCTGACA
TAAGCGCTCTCTATAAAAAATGCAGGTCTTTTCCACACAGTAACACATGTTAAAGTCGGAGCTGCATTGTCCTACATGTAATATGGAGCTACTCTTCTGA
TTCTTAGTGTTTCTCCTTGTGTCTCACTGCCTTTCTATCCAGCCCCAGTTCACCTAAGCAGGGAACAAGATATTCATCAGCGTCTATGTAAAATAAACTA
TATCACTTACTTTCATCCACTGATTAGCGGCAGCATCTTTCTTTTTTCCAAAACAAAAAAGTTGTTTCCATTGTATAAAAGTCAATTAATTATTACAGAA
AATTCAAACTGTCAGAAAAATGGAAAGAAACATATCTGAAATTCTACTATCTGGAGATGACCACTGTTCACATTGTGATGTATGTTCATCCGGGCACCTC
CATGCATACTAACACAACTCGATAATTTTATTTAAATGAGTCCATTTAAATACATTGTTTTATTTGTCCCCTTTAAATAGAATTGCTGTTCTGTAACCTG
CTTTTCCAATTAAATAATATTTCATTTTTTTCTGTGTCAATAAATAAAGATCTATATCACTTTTTAACGGTTGCACAGTATTCTCTTATATGGCTACACT
GTAATTTAGTTGCGTTACTTATTAACCTATCATCCAGAATGTCCCTGTCTTTTGCTATTGCAGTAAATATTGCAGAGAATGGAATTGTGCAGAAAATCTT
GTTTTTTTTGTTTCCTTAGATTTAAATCTCAGAAGTATACTATTTGCATTTAAATCCTTCATCCATTTGGAACATGTTTTTGTATGTAGTGGGGGATTAC
TGTCTTTTCTCATATGGTCATTTGTTCTAACATCATTCACTGGGAAATACATCCTTGCCCCACTGATTTGAAATTGCTACTTTCATATATTAATTTCCCA
TACAAATGGGTCTCTTCTATCCCTGTGCCAGTGTTGCATTGTTGCCATTACCATAGCGAGTTCCCAGATGGGGGTTTTAGACTTCAAACCTAGAACCTCT
AATTTTTGTAGCCATCTGCCTGTGACCTGCTGGGGTAAAGGCCCTGCCTAGGCTATTCTGTTCACAGTATACCTCAATGATATTATTCTGCAGGATGAAA
CGTGGAGAGTCCTTGTGTCAGCCAGCCCTGATTTGCACTGTATTATGTGCTCTATAAATATTTTGATTCAAGAACTGGCATCCAATAAAGTTAGCTCAGG
AAGAGGAGAGTTTATTATAAATCTGCAATATAAAAACGTCAACAACATGACAGTAGCAAGGCTTTTATTGCTTTTAGTTTAGGTATTAGGAGGCATAATA
AATAATAACTTGTTCTCCCAGCCTGAATTCTCAACCAATTGAGAAGATAAAGGAGTAAGAAAGATGGCAGACAAAAATACCTTTATTTCTGATAAAGCTG
ATACTGGAGAAGGTGGCTTATATCTGCGGGCAGGTGGGCTTCTGAATACTGCACCTGAAAATAAGGCAGACTTACTCAGATCTCACCAGCTGTGCTAGAC
CCCTGTAGGCTACCACCACGGGTGCTAGTCCCTCTCACGGAGACAAAGAGAAAGAGGACACTTGCTTTCTGTGGATAGGCTGACTCTCAAGAGGAGGGAG
AGAGGAGGGGGCTTGGCTCTGCAAACTCAATTTCTACTTTCAACTCTACCAGTCCTACTTACTATATGTCTTCCTCATGAGAATATAAGCTTCATGAAGA
CAATTACTGTATCTGTCTTCTCCACTTTTTTATCTCCCAACACAGTACCTAGGACATTATAGGACTTCAGTGAGTATTTGTTCAATGAATGTTGTTGGTG
CACTTACCTTCTCAATATATTATTTTAAAATTATTGTATCATAGGTTTTATATATTTGAATTGATATCTTATGATTATGTCCTAAATATACAAATATGTA
GGGCAAAATAATAACCATTGCTGTTTATGATTTTTAAAACAAATTTTTGAATTTTCATGTGAAAAAAGACTATTTAGGTCTACTTTTTATGCCTTAGGAT
AAAGCAAAAACATAGACGACAAAAACAATCTGGCTTTGACTTATTCGATGAGTGCTTGTATAGAGGAGGAAAGAACAATTTTGTTTGTGTAAAACAGCAA
TATCTGATGTATATGCTGAGAAATTCATAAATATTTTCTCTTCTCTTGCCTCCTGGGCATTTTTTTTTCTTTCTTCTTTATATCTTACAATATTTCCACT
CTGTTTTTTATTGTGGATTTAGATATTTCTTGAAGGAGTTAACAGATAAATTTCCCAAATGCATACAAAATGGATGTCGAATCCAAATAGATTACACAAA
AAGAGCCCATGTCCTGACACACAACATTTTACGCTTTAAGTGCTAAATTATATATTTCAAATAACAATGTTGCCGTGTTCCTGAGGTAATTTTAAATTCT
TACTAATTATTTGGTATCTTTTAATCTTTATTTGCTAGAGTAATCACTATAGCCTTAAAATGAGAAGTTTAGAGTTGCTTGATTTTTCCCTTTAGTAGAA
TAATGAAATAAGAAGGGTTTACTTTTCTTCTGCTTTTTAGAGTTGATGCAAGTCTTGTTCTACCAAAAGGTACTGTGATTGCAGAAAGTCCTGGGAAGGT
TTTTCTATCTACACAAAATGCCTACCATAGTTGACTACTGATTTTCAAATTCATTCTATCTAAACCTGTGCTATCAAAGGGAATTTTCTGTAAAGATGGA
AATGTTCTATAATCTGCACTACCCAATATGATAGCCATTAGCCGGATGGGGMTTTTGAGCACCCAAAATGTGGCAGGTGCACCTGAGGTGCTGAATTTTA
AATTTTATTTAATTTTTTTTGTTTTTGTTTTATTTATTTATTTATTTTTTTGAGATGAAGTCTCAGTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGAT
CTCGGCTCACTGCAACCTCTGCCTCCCGAGTTGAAGTGATTCTCCTGCTTCAGCCTCCCCAGTAGCTGGGATTACAGGCGCCTGCCACCACACCCGGCTA
ATTTTTTTGTAGTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGCGATCCGCCCACCTTGGCCTCCCAAAG
TGCTGGGATTACAGGTGTGAGCCACCGCACCCAGCCAATTTTATTTAATTTTAATTAATTTAAACTTAAATAGCTGCATGTCGCTAGTGGCTACTCTATT
GGGCAGCATAGAATTTCTTTCCATTTTTAGATTTAGTATGGACATGTCCCTGGAAAAGTTGACTTATTTTCTATGAATTCATTTAACATATTTTATAAAC
ATTTATTGAGCACCTAGTGAGTTTGTGTGCTTGGTGTCAGAAATATGTTTCCTTTGGATTTCCTGAGGCAGCTTTTTGGTGGTGTGGAGACCTCACATAT
GCCATCCCACACACCTGTGTGAACAAGCCTTGGTAACAGGGACCCTGCTGGTTCAACAGGAGCTGTCTCTCTTTCACCCCAATCTCCAGGGCCCACCATG
CCAGGACCATCATCTGCTGGGCTGAAGGKGTGAGTGGCGGCTCTTTTCACTCAGCTGTGAGCTCTGGCAGGCTCAGGGATGCATCTGCTAGGAGGAAGGG
GCACCTAGGTGAGATTCTGTCAAAGACATTGTATGGCTAATGTGGCCCAGTCACAGAGATTCTTTATCTCAGTTTACTCCTCTTAGTTGCTCCTGACACT
TTCCTCAACAAATTTTCTGTGGAAAAAGCAAACACGTCTTCACAGCTACCCAATAACACTTTTTCTTTTTCCTTTTTTTCAAGCTTCATTGAGGTACAGT
TGGCAAATAAAAATTGTTTATATTCAAGGTGTACAACGTGATGATTTGATGTATGTATACATTGTGGAATGATTACCACAATCAAGCTAAGGTATCCATT
ACCTCACATAGTTACCTATTTTTGTGGTGAGAGCACAGAAGGTTACTCTCTTAGGAAATTTTAAGTGTATAATACTTACTATTAATTCTAGTCACTATGC
TGTGCTTTAGGTCTTCAGAACATATTCATCTTGTCACTGCAAGTTTGTACCCTTTAATCAACATCTTCCCATGTTCCCTACCTCCTGACCCCTGGTAGCT
ACCCTTCTACTCTGTTTATGTGAGATCATGCAGTATTTGTCCCTCTGTGTCTGGCTTATTTCACTTAGCATAATATCCTCCAGGTTCATCCGTGTTGCTG
AAAATGGCAAGATTTACTTATTTTTTAAGGCTTAATAGTACTCCATTGTGTATATATACCACATTATCTATTTATTGGTCAACAGATACTCTAGTTATTT
CTATATCTTGGCTATTATGAATAGTGCTGCAATGAACATGGGAGTGTAAAATAACTCTTTGAGATAGTGATTTTATTTTGTTTGGATATATACCCAGGAT
GAGATTGCTGTGTTGTATAGGAGTTCTATTTTTCATCTTTTGAAGAACCTCCATATTCTTTTCCATAATGCCTATACTAATTTACCGTTCCACCAGCAAT
GTATAAGGATTCCCTTTTCTCCACACCCTCACCAACACTTGTTATCTTTTGACTTTTTGCTAGTAGCTGTCCTAACAGATGTGAGATGATATCTCATTGT
AGCTTTCATTTGCATTTTTCTGACAATGTTGACTACCTTTTCATATACCTGTTGGCCATTTGTATGTCTTCCTTGGGAAAGTGTCTATTCAAGTCCTTTG
CCTATTTTTTTTTTTTTTTTAATGAAAAGGCAACTCACGGAATGGGAGAAAATGTTTGCAAACCATATTATCCAATAAGGGATTAAGTTCCAAAATATAC
AAGGAACTCATACAAGTCAGTAGGGATAATTAAATAATAACCCAATTTAAAAATAGGCAAAGGATCTACTTTTTTTCCTGTTTGTTTTTCAAAGGTATCC
TACCTCCTGGAAGGGGGCAGCATGGCCCATGAAGACTTCTGTGGACACACTGGTAAAATGAACCCAGGAGATTTGCAGGTATGGCCAAGGACAAGGAATT
GCTGGTGGTTTAGTAGTTTTTGGGTGCACGTGCTTGATCCTGCCCACTTCCAGTACATTCACCCTTTCCACACTCTCTCTATTATATTCTTGACTTTTCC
TTTTCTACAGATTCTTTTACTCAGCCTGGAAACCACACAGGTCTCTTATATTCTTCTTTCACACTTTCCTTGACCCCTCAATCACTTTTTAGCTCCCACC
TAGTCTTTTTCTTACATTTCTCAAAAGAGTAATCAGGAATGATATCCCAACTTCCTTATCTTTCATTCGTTTTGTACTTACTGAGATCAGATTTGGCCTC
TCAGTAGCCCCTTCCAAATCTTTACTGAAGCTATTCAGGTAATGGTCACTTGTGATGTCCCAGTTGCCAAATTCAGTGATTGTTTCAGTCCTCATCTTTC
TAGACCTCTCTGCTGCATTTGAGACAATGTATTATTTATCTTCCAACTCATTTGCAGGGTTAGGTGTTATCACTTAAGACAATGACCTCGAGCCCTCCAT
CATCCTAGTCTTGTCTGAGATATGTTACAATTAAAATCCCCCAAAATACTTGGGTCATATTTGCCAGTTTTGTAAGTCGAAACTCTATACCAGGTACTGT
CTGGGATTTTATATGTATATGTTTTGAGGAATGATAAATTCACATATTTGAATCATAATATTTCAATGAAAGTGAAATTTAAAGACAAAAAAGCAAAAGA
AAAAAGTCATGGCAAAAAGTCAATAGTAACCTCTCACTGGAGCAGAACATGAAATGAAGACTGCTTGCAAAGATACATATGATGACTGGAAATGTCCTGA
TCGTGGAAGTGGTGACTTCTGCCATCTGCACCATGGAGCTGCCTAGCAGCCATATGTGTGAGACAGTGGTCAACACTTCTTCTACCACTATAACTTCACA
TTGATTAGGATGATGATTGCATAGTGTCTTTCAGTTTATTCAGAGTTTTTGTATGCATGATCTCTTTGCGATAAGTAGTATTATTATTATCTTTTTGAGA
CAGGGCCTCACTCTCTTGCTCAGGCTGTAGTGCAATGGTGCATTCACTATTCACTGCAGCCTCGACCTCCCCAGCTCAAGTGATCCTTCCACCTTAGCTT
CCCTAGTAGGTGGGACCACAGGTGCACAACACCACACCTGGCTAATTTTATTTTTTTGTAGAGATGGGGTCTCGTTATGTTGTCCAGGCTGGTCTCAAAC
TCCTAGGCTCAAGCGATCCACCCGCCTTGGCCTCCCAAAGTGCTTGGGTTACAAGCATGAGCCACTGTGCCCAGCAAAAAGAACCATAATATTATTCTCA
TCTCATTTTTAAAAATGAGGAAATGGGGATTTAAAGATGTTTTTAAAAACAGATGCCCATAGCCTCAGAGCTAGTAAATGATGAGGATGGAAAGAGAACC
CCATTCTCCCCTTCCAGATCCAATATATAGGCCATTTTAGGTAAAGTATTGCCAAACTAGCTCATATCTAAAAAGGATAACCAAGGTATTGAAAATATGA
AGAAATGAACTTTAAAGGGAAAAGGAAAATGCTTAAAAATGGGAGGATGTCTTTGAGGGACACCAATAACTATCATTAGACAGAAGAAATGCAGCATAAG
AGGGTGTTTAGGTATACCTTATACTGCATTAGAGCAGGGTCAACAAATTTTTTCTATAAAGGGCAAATGGGCTTTGGGGACCATATGGCCTCTGTTGCCA
CTACCAGACTCTGTCATTGCAGCATGAAAGCAGACATAGACAGTATGTCAATGAATGGGCATGGCCGTGTGCCAATAAACTTTTACAAAAACAGGTGGCA
GGTTAGATTGGGCCCCCAGGCTGTAGTTTGCCAACTCCTACATTAGAAGGTTTAACAASCCTTTTCAAATGGGAGTAGAGGGAAATCTAGACTTCATGGA
AGAAAAAAATCTTTAAAGTATGCACTGGCCTCCTTTCAGATCCTTCAACTAATAATGCTCATTCTTGTCTCAGATTCTTTTTCACATGCTGTTGTTTCTC
TGTGGAATCCTCTTCCTCTTCCCCTTCCCCTGGCTAATTCTTACTCCTTGTTTGGATCTCAGCCTGAAGATTGCACCCTCAGATAAGCTGCCTTGAACTG
AGCAGGACACTTCACGTGCTCACAGAACCCTGTCATTCTTCGAAGCRCAAGCACAATTATAATGGCAATAATGATATGCATGACATTGTTTGTTTAAGGA
TTTTTCTCCTGATGAGGGCTGTGTGGAAGATGCTGTTGATGGCCTGCCTCATAGCCCTTTGGCCCAACTGTGAGTTCAGGTGGTGATGGTCCCCGTATGT
GTACAGTACCATCTCAAGTGCTGTTACTCTGTCTGAGGGCTTTCTCCAGCCCTCACTGACCATATGTGGGCAGACCATATGTGTCAGTGATTTAACACTC
CCATGGGAACTCTTGGTCAGTGAAGGATGGGAATTAGAGTCTAAATACCCTAGCTTCCCCTCTTCTCCATGCAACAATTTCAAAGTACATATATGGTTCC
CAGTGGGATTGAATTCCAGATGTCCACAGATATAACCTTCTCATTAACAACTCTTTTTGGCTTTCTCCCTTGCCTCACTCTTCCCTACTCTCTCACTTGT
GCTTTCTGCATCACTTTCCAAATAAACAACCTGCACATGTCTTTGTCTCACAACTTCTGTGGGAGAACTCAAACTAAGACAGGTAGGAAATGCATCTATG
ATGTTCATACCTTCATCTCCAGATTCCAAGATTTAGTCTTTGGGGCTGGTCCCTAATCTGCTTTTAATACAGACATGAACAAACACTTGAAGAATCTGCA
TAACAGTGGAGGCAATAATTGTTTCTCCAAGTAGCGAGGGTTCCATTACTGGAACTGAGCAAGTACAGATACAAGTTAACCATCCACAGTATAGTGGATA
CTGGGGACCTCCAAATGTATTTGTAGGCCCACATATTTATCCTCCAATGTCTGGGAACACTGGCTGCTGATGGCTCACAACGGCTTCCCTTCCTAGGAAC
TGCCCTCTGCAGCAGGGAATTGCCTCACCCAAAGTTGTGCTTTCCACCTGGGGATGGCCCACAGTCAATGGTTTGCTGATGTGGGGATATAAAAACTTGG
CCACATTGTCTCAAGTCGGGACAATTCTGAAGGTTCATCTCAACTCCAGAGCTCCCTGTTGGATTGGCTAAAGCCTCTGTAGTAACTGCATTGCTGGGGA
GCTTCTCCCCCTGCCCAATCCTGCTTTTTTCACTACTTAAGTTGTATCTCCTGAGAACACAGCCCAGTATACTATCTTCCTGCAACTCCCCATCTTAGAG
CTTAATCTAAGACTCAGGGAAGTCAAAGAGAGGATTCTTCCATTTGTGGGAATTCCAGTTCCGATGTGTTGATTTCAAGTGAGGAAGCACAGGAAGCATT
TGCAAAACTGGAAAGGGCCCCAGCAATTGTCACTGATGTTTATTATTCCCCTCGATGCCCAGGGGCTCTGATAGCAGCACTGGTAAGATGTCTCACTTAG
TGATGGTGTTGTAATTGTTCCACCTATAGACTTATTAGGAGCTTGGTTACATTTCCCTCTTGTTGGTTTTGTGTTTGCAGTGGATGACTGCGGGCCGGGG
CATTCTGCACGCTGAGATGCCTTKCTCAGAGGAGCCAGCCCATGGCCTACAACTGTGGGTTAATTTGAGGAGCTCAGAGAAGATGGTGGAGCYTCAGTAC
CAGGAACTGAAAAGTGAAGAAATCCCTAAACCCAGTAAGGATGGTGTGACAGTTGCTGTCATTTCTGGAGAAGCCCTGGGAATAAAGGTAAGCCAGGCTA
TTGTGTCTATTTAACCTGAGGCATGCAGTGACATAAGGCTGGCCCCTTCTGGATTGTTAGCTCTCACTAGGTTTACCAAAATTCATGTCCCATGGGATGG
ACTTGATTCATAGTTGTCAGAATAAGTGCAACCTAAGAAAACTCAGAAATTTTTCCTGCCTACAAACCCATAGAGTTAGGAAAATTACAAGAAAGCAAGC
TCATATAAAGTTTGGTCGAGGAGCAATTTTCAAAGTATGTCTTAATATGTGTGCTGATTTAGCCTAATTCCTTTCACTTATAGTGCAATTTTATGCTTTA
AATTATAGCTCCTTAGTACAGCAGGATTGCTACCTTTAAGAAACAAACAACCAAAAAGCAAGACTAAACTCCACTTCACAAAGATTTATGTAAATTACTT
ATGTCCAACTTAGTAATGTAAGGAAAGCACACTACTACATTGCAGAAAGTTTATTTTTAAATTTTAACTTGACAATTTGTCCAACCCATACACGACATGC
CCTGTACATTCTTTTCAACTGGGACTTTATATTATTTGGATTTATAGTCTCACCTTTTTGATTAAATAAGTCAATTTAGGCTAAAGATTATGGACATATT
TGTGGGAGGAAAGGGGTGCGGCAAATGCCATGTTAATTGCACACCAGAACTGCTCCTGGGGAGMATAAGATTCCTCACACCAACCAATCTGAGGTAGTGT
GTTTTCTTAGGTGGGGTTTCCCAGAAGCAGACCCTGAGATGAAGATTCCCATCCAAGAGATTTTTAAGTAAGCGTTCCTAGGAGAACAGTAAAAGGAATC
AGGACAAATTAGGGGAGGAAGTGAAGCAAGGCTGCCATCTCAGGCAGAGTCCTAAAGAGGGTGGCTTTACCTTGATCCTGCAAGGGACTTTGAAAGATCA
ACGTGCCTCAGAGATGTCCGAGCCCATCCCTGGCAAGGGAGCCGGGCTTTCATGCTCCCTTACCCAATGGTCATTGGTTATGGCCATTAACTTTGAAGTG
GAGGCACAGAAATGGTTAAAAGGGATCTGAGGGGATCTGGGAGAAGCYTTGACATCGGGTACTACACATGGAACCTGGCATTGAGTGCATCAAGATAGTG
GGAGTTACTCTGCCATTCTCCCAGTGCACAACCAGCACTTAAAACTATCTAAAACTAACTTCTGTAAATTTTAATTTTTTGATGTGTACCATCAGGGATA
ATGGCTTGGCAGTGGCTACTAACCAACCACTCAATGGGATGCATGGGATGGTTAACAGATTGGTCATGGTTATTGGTTGGGACTTACCAGTTTTTGTATT
TCCTGAACTATAACCAAAGTTTTACCGTTTTTATTTTTGTTTTTTTGTTTTTTTTTTTTTTACCTGTACCCTGCCTAGGTATATGATTTTGTTTTGTGTT
TCTAGTGCAAACAAAAGTAATTGAACAACAACGACAAAAAAATCAAAGTTCACAAAGTTAAGCATACCTGACTGCTGTCCACACCCCTGGCAGACCTATT
GCTTACTTTGCCATTGGAAAAGACCCTTTGTTGTGTTTCTGTGACTCGTTTCTGTTTTGCCAAGCATTGGTCAGTGAGTGCCCTTTTCAGCTGTTTGTGA
AGAGTTTCTTTCCCTTGAGCTCTGCAGAAGAGGGTTAAGATCCTGTGAGGACTTCCTGGTGTAGCAGCAAAAGATATTGTTCAGTATAGTATCAGGCAGA
GCGGTCTAAAGGGAGCTGAATTAATACAGATATGAAGCTGCTCACTCCATCTCACATGGTATTTTCCTTCCCTGTTTCCAGGACTCTGAGGTTTTAGGGA
CATGCCTTTAGGGGATAGTGAGATGGATAGTAGAGGGCAAGAAGCCCCCTTCTGCTTCAACCAAAGCAGAAGACTTTGCCCGATTTCATATATTGTGATT
GTCCATAAGATTTGATTTAGAAAAAGAGTTGAACTGTTGGCAGTTCAAAAGAGAAATCAGACCAGTGATTTAGTTGATTAGCAAAGCCAGTGATATCACG
AATCCTTAGAGTTTACAACTACTTCTCATTTATAGAAATCATAAGGCAATTTAAAGTTGGAGCCAGTAAAGCACTTTCAAGCAGCAGACCATGTGGTCTT
GTAATCACAGCCAAGGATAAGAAACCAGAGGTAATGTTTTAACTTTGTAAAATAATGTCTTAGTACCTGCCAGCTTCTGTTATTTATTTTTGTTGAATAA
AATCTCTGAAGTGAATTATATTCTCCTAAGTAAATGACCAGTCTTTCTTACGAGTGAATTTTAATAATAACGCTTCTTGGAACCATGGGCAGCATTAATT
TAGATTTCAAGAGGCAGYGTGGTGCAGTGGTTACCTGCATGGACTCTGGAGATAGAATGCCTGGGTTAGAATCCTTACCATGAAATAGCTGTGTGGCCTT
GGGCAAGCCAGTTACTTTCTCTGGACCTCAGTGTCTCATCTATTAAATAGGACTTTTTGTGAAGATTAAGTGACTTTTTATACATTAAACTCTCAGAATA
GTGCCAGACACATTGTAAGCATCACATAAGTGGCAGTTATTATTTTGATTAATTTACGGTAACTTGAACAGGAGCTGGGCTGAGATTTATGTCTGCCATC
TAAGCTAAAGGGATTTGCTGTGATTTGGGAAGGGTTATTAACCTGCACTCAAGAAAGGACACCAGTAAGAGTCATTTTAAAGATAGGGAGCAACTGGTGA
TTTCGTTGTGGGTCTCATAAGAAACATAGTTTTGCACATCTGAAGCCTTAATATCTGATTAACAAGGAATGACTGGGTCTTAAAAGGTCTAGACCTACCA
TAAAAAGAAACTGAAGATTGTTTCGCATCAGGAAGACAATTTTAGGTTAAATTACAAGGTGAGGCTGAGAATATATATTTCAAGAGATTAGTGTATTTAT
AACCAATACAGAGTCAACAAYAACTTCCATCTCTGCAACTAAAATACCTAGAAAATGGAATTAGCAATAATTCCAGCACTTCTTCAACTTTAATATTCAT
GTGAATTACCTGAGGGTCTTGATAAAATGCAGACTCTGATTCAGCACATCTGAGATGGGGTCTAAGAGTCTACATTTCTAACAGGCTCCCAGGTGATGCC
AATACTGTGGTCTGGGGACCACTCTTTGGAACATGCATAATGGGTATGGGATCCAAGACACAGGAGTTTACCCATCTTGAGAAATCATTTGATTAAGCTC
CTATAGAAGATGTCAAATGATCTAGTACTGTGAATTTTGGCAAATCTTATTTAGCTTTTCTGGACCTCAGTCCCGACATCCACAAAAAAGGTGAGGGGGG
TTTTGAATAAGATACTGTCGCTTTTATGAGCAACAAAACTGCCTTTTTGATACTACCAAGGGTAGCTGTATKCCTGTTTCCCAGGTTGTATGTGTCTGAG
CATTTATTCAACCCTTGGAAAGCCAAGACAGAACAAGATTCTGCCAGGACAGCATGGTCTAAAGTGAAGGCTGAACAGGGAGAAAAGGTTAAAATGGGAT
AGTTTGAATAGTTCCTGTCACTTTTGGAAGGTCAAAATCACATGTTTATTTCATGAAAGTATGAAATTCTCCAAACCCCATTCCATCCTTATCAGACAAC
TAATCAGCAATATTATTGCCAGCTCTCTTTGGAACACAGTTCTTTTTCCAAAAACACGCCTCTACTTGCCTCCTGCTGCTCTAAATTCTGTTGTCAGAAG
CAAACCTTGAGGAGGCCTCAGCCCCACTGGGGTTAGAGAAAGGCAATCTGGAGCCAGATGGCCTTGGTTCAAGGCCAGCTCACCACTGACTCACTCTGAA
GAAGTCACTTAAGATTGCTGTGCCTCAGTGTTCTCATCTGTAAAATGGAGAAGATTATAATGACCCAGCTCAGAGGGTTGCTGGGAGGATTAGGTTGGCT
ATTACTTGTAAAGTACTTAGAACAGGTGCAGAGTAAGCCCTCTGCAAGTGGTTGCTATTTTCACTTCCATACAAAATCTTTGGGCAGTTTTCATGTGGCC
TACAAATGTAACCAAAAGAATCTTTCTTCTGATGGACAGTCTGTATATTCATGTGTTGGATGATAACCAAACTTTAAAAAATTTAATTTTCAAAAATGCC
TGCTAAACATCTCATGTAATTCACTCAGATCATACCACTGTGCACTTAGCACCGGAAACAATGCCTGAGAGATAACAGATGATCAATAAATATTTTCAAA
TGAGTAAATGAAATCATTAAAATATACATGGATGCTGGAATAAGAGAAATGAAGGTAAAGTAGTAAGAAGATAGACAATATAGGGATTAAGAATGAGTGA
AATAAGCTTAAAATGAGCTTACTAAAAAGTTAAGAGAACAATAAAATTAGCTAAATTATATGTTAAAATAAAATAAACTATTTAAGGGACTAGGAAGTAA
GGAAATAAAAGCCAGATTGATCTTTTTTTTTTTTCTTTAAATGTGAACTCTTTTGCAGGACCCAAATTGTTCTTGCAGGTTTCTTCAAGCAGTGACAATA
ATGGTAAACAAAGGTTCAGAGGCTTGTGGTTCCCCTTGGAAGTCCACAGGCAGGTGTCTTCTTATCTGCTTTAGCTTCTTCCATGTGGCTTTTCAGGGCA
TGGCTTGAGCTCCAGAATAGTGGATATACTTATCAGCTTTCTAGGCATTTCTTGTGGATATCTCCCCTCCCTTGCCGGTTTAGCTGTACAAGCATTGGAA
GACCCCATGTCCCTCGGGCAATTCTTTCCTAGTCAACGAGCAACCTGCCCACTAATTGGCCTGTGTTGGTTGTGGGTTGACAAGTAATTTATAATCAAGC
CTGTAATAATCCCCTGTGATTTGGAGAGCTGATGGAGTCTCCTGGCCACTGTGCAAGCCACTGTGTGTGCAAGCCACTGGTGCACACACACGATTTTTCC
TGTACCAGAACTAGAGAGAAATAGCTGCCCACATTTTCCAGGTTTTGCTTTCATCCAAGAGACTTTTAGGGGCTGGATGTTATTTGAAACACTTTATCAC
CAAAATGCAATTTTGTCAGTATTCCTTCTACCTTAACTTGATTAAAAATATATTTTATGTGGCTTTTAGGGGAATACTTTTATAGCACATGCAAACGGCA
GTGGGTTTTGGGCAATCAGAATACTGGAAGGTAAACTTAAAACATTTTTGCATCTTAGTAAACTCAGAACATTTTCAGGGGAAATTTGACTTCTTTGATT
ATATTGGGCACATTTAAGGAGCTCCTCCCTCACCTGCCTTCCTGCATTTGCTTCCGTCCACTGTGTGATGTGGAGAGAGCTGGACTCTTCCCACAGGAGG
CTGCTCTTTTCTTCTCAAGCTCAGGAGAACAATATTTTGAAGTAGCATTAAAAAAAAACTATTAAATCATGGAAACAGGTAACATATACGCGCACACTTT
TTTTGCCTTTGAAATATTCCAGCAAGTTCATGGATCTAGCTAAAAAAAAAGAAAAATAACAGATACTCTCCTAATGGCAGAGAGTGTGAGAGGGGCACTG
GGTTTCTGACATAGGGAGCTTGAGTAAACAGGCTCCAGCTGTCCCAGAGAGCAAGCAAAGGAAAAACAACACTTGCTTGGGAAGGAATTCTCCCTTCCAA
AGACCTCTCTTTTAATTTATTGTATTTATAAATCAGAGCGCTCTGTGATAGATTTAAAAACTGGATATTTAACAAATGTTCCCTTTGGGGTGAGGGTAGC
AGGGATAAGGATGGACCTGAAACTTCCCTCAGTATGTCTTTTAATTTTTACTTTTGAAAGATAGAAATGCTTACATATTTAAAATATCAAGTTAAACCAG
AAAAGAAAAAAGAAACAAGTCTTAAAATCAAAAACAAATAGAAACAAGTGAAGAATCTAAAATTGGTATAAAGATATTGGCAACATAACCACACAGAGAA
AACATTTATTTGAAGGGCTTTTAAACATGATGTCCTGGCTGTATATTTTAGTGGGATATATTCTAAAGACAAAAAGAACAGCAAAAAATATTTTAAACTT
TACTCCATAGTCTTTGTTGTTAGTGTTGGTTTTATAATTTCATAACAAGTTAATGTGTATTATGAAATAAAACAAATTAGTAAATTTGTTAATGTTTATA
GAAATCAAGATTTTCAGTATAAGAAAAATGGATACAAATATAAAAGAGCTAAGAAAAATACTGTAATATTCAATGTTAAATTCAACATTAAATAGACATT
TTAAAACATTGGATGGCCATTATTTCTTTGAGGCAGTTTCTGGAAACAATATGATTTTATCATTTTAGGAGTCCAAGATTTTTGATGATGCAATTTATGT
TTCTTTCTGATAACAACTCCATTCTCCACTGATTATTTCCATTGATTTTTTTATGGTTCATGTTTAATTCAATGCTATGAGAAGTGCTTTAAAAAGTTCC
ACCTAAGAAATTCACAATCACCCTAATGAATTCTGGTGAAATTCCCCTTTTAAGACATTCTATAACTGTATTTTAATGGATAGATAGGGGGAGAAAGTAA
AGGAAATATCCGCATGAATCAGAGAGCTTCCTGGTCTCTTTTTGACACCGGGCAAGGGAGGAAGCAGAGCATTTTAGGGAGAAAGAATTCTGCAAAATAC
TGTAGAAAAAAAGGAGTTGAGGATTTCCCCATCTTYATCTCCTTGCTTCTATGCACCAAGGTCCAACCCAGGTCCCCTCTCTTTGGTGCAGCCTTCTCAG
CTGTCCTGGCCGACAAGCATCTCAACTTCTGCCCAGATTCACACAGCCATTCTGTCTTCATAACTCATGAGATTTTTGGGCGGACGGCATTTAATTTACA
TGTCCCATTTCCCCTTAATTCCTATTAGGCACCTGCTGTGTGTACATCATGCAGTTCCCTGGAGATACAATGTGAATAAGATACAACCACTGTCCTCAAA
AATGCTCACAGTCTAGCTTGGGAGAGAAACCGGCAAACAGCAGAAGTATAATGTGACACAGGAAATACGAAAACAGCAGTATGTGAAAATCTCATGATAC
TCCAGAATAGGGAGAATCAATTCTGCTTGTGTGGATGGAGCAAGGGAAAGAAAGATTGGGCAGGGATCACGTCTTGTAATGGCTTGTATAAAGACTTGGA
TAGTAAGAGTGCAGTAACTATTTAGGCATCCTGATGCAGGCTGCATAGGCAACCAGATACTTGTGGAGTTATGGCAGGGCAAGAGGAAGGAAATGATGCA
AAATATGGGGATGGAGAAAAACCCAAGTTTGTCTACCTCTGGATTTTGCCTAAGGCCAACGTTTGTTGTATGCATATTCTTGCATCCTTCTCTCACAAGG
TTTTAAATAGTAGGGCATGAGGTTAAGGTGCAGTGGCCTCCCCAGCATGCTATATGCAGTCCATCTCATCTCAGGTTTCATGAAGCAGTTCATTCTACGG
GACGTGCCTGCTACAGGCCATGTAGCCTGAGCAGATGATCAGCAACATTCCACAGACAAGTGCAAAACTTGGCTTGGATTCACTGTTGAGAATAGGCACA
ATTAGGTCTGCTAGTCTTGTTTAGTAAATAGGAAGACACCAAAGAAATGTACCCAGCAACTTCAAAGAACTTGTCTTGTGGTAGGCAGCCATAGTTGGCA
CTTCATTTGCAGTTAGGAATGTGCAAATAAACAGTGGTCAGGATCTGCTCAAATCAGCTGGACAAAAGCTTCCTCTTGCCCAGGGCAGCCCACTCACCCC
AGAAATACCATTCTTGGTGTGCACAAAGGGTGCCAGATGTTCTTATTCATTCAAGATGTCCCTGCTGACCTAATCCCTAAGAAGTACATTYCAGTCGTGG
CGACAAGCCCTCTCCTTCCAGTGAATGAAGAATGGATAGGTGCACTTTTAAACCAGAAGTAACACCCTGTGCCATTCATACTTTGTTGGCCCTAGTGATC
AGGATTGTAACTTAGCAGGGAAATTTAGACTAAGAGCATAATAAAAGCTATTAAAAAAACCCAAGGTGTCAACTTCAATAAAGGTTAGTGGTCACTTTAG
CATATTATTGTAATCACTTCTATGGCCATCAAGACTTGTCCTTTTAGGATATAGTATGTCTTTTCCCAGGAACACATTACATATTTTTTCTAACCACAGA
AAAAAATGCAGGACAGCTTCAGAGAGCTGTCTTGAGACTCTTGCATGTTGCATTAAAAGCTGAGCTCTTATGGATATGAATAAAGTGGATGTCAGTATTT
TAAAAACTGGTATCAGCAGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGCCGGATCACGAGGTCAGGAGATCAAGAC
CATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAACAAAATTAGCCAGGAGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCAGGAG
GCTGAGGCAGGAGAATGGTGTGAACCCGCGAGGCGGAGCTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCCCTGGGCGACAGAGTGAGA
CTCCATCTCACAAAAAAAAAACCAAAAAACCAAACAAACAAACAAAAAAACAACTGGTATCAGCATATATAAAGCTATGCTGTTGATAGCTGCAAACACA
GTACTTCATTTTGACCAAAGCAGAAATCCTTGGGATCATGTAGCTTTTGAATAATTTGATCAAACTCACACTCAAATGTGTTGAGCAAATTCGGGTTCAG
ATAAAATTCTGATTACTGGAAGCATTAGAAGTTTATAGTATGTAAATTATATCTCAATAAATCTGTTTTGAAAAGGAATTCTACTCCTGTGGACAGGTAT
ATGTACTCCAAGATAGCCAAGTATTTAGACATTTCAACTCAAATGAGCTCTAAATCATTGATAGTAACGATTAAAGGAACAGCATGTTCTGTCATAAAAA
TCACAGGGAATCATTTTTKGCCATCCATTGCAGATCCGGGGGCTGTTCAGTATTCCTTTGGCTTAGTAAAATGAGATGAGTTCAGCAAACATTTACTGAG
GGCCAGCTGCATGCAAGACCCTATAGAGGTATGAGGGGAAAAGGTGAAAAAATCAGGGGGCTGGATGGATGCAGTTGAAGGGAAAGACATATCAACTGAT
AGCATGAGTATACTGTGGTGAGTCAGCACGCTAGAAATCATGGCAGGCTAATGGGAAAGCAGAGGAGGAGGCTCAGTCCAATCTGGAGGTCCAAGAAAAC
AGGCCTAAGTCTAAAGGAGAAAACTGACCTGGTGAAGAAGGGTGGAATGTCTAGATCAAGCTTATTCAACTCGCGGCCCAGGACAACTTTGAATATGGCC
CAACGCAAATTTATATACTTTCTTAAAACATTGTGAGATTTTTGTTTGYGATTTTTTTTTTCTTTGAGCTCATCAGCTATCATTAATGTTAGTGTATTTT
ATGTGTGGCCCAAGACAATTCTTCTTCCAGTGTGGCCCAGGGAATCCATTTTGGCCACCCCTGGTCTAGATGGTGCAGAAGGAGACAGCATGAGTAGAGG
TGTTTCTGCACAGAGAAACAGTGTTCAGTGGTATAAACCAATGCTTTAAGAAGGCCTTCAAAACACACGTTCATTTTCTAAAGTATGAAAATTGGAAAAG
TTCTTATCTTTCTTATGTAAAATTTGGTAATTTGTGTGTTTCTCTCTCTTAGTTTTTTTAAACTTTTCAAATTTATTCTCTTTTGTTTTTAGAAATATCT
TGAATAGGCCGGGTGTGGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAAGAGATAGAGACCGTCCTGGCTA
ACATGGTGAAACCCCGTCTCTACTAAAAATGCAAAAAATTAGCCAGGCGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAA
TGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACWGCACTYCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAA
AAAAAAAAAAAAAAGAAATATCTTGAATATACAGATGACGTTTCACCTGGGCTAGTTTCTCATCTGTATTCTTTACCTTTTACCTCCCTCCCTGAGCCAA
CAAAACTCAAGCACAATGCTCTCACGATGCCATCTAATGGAGTCTTTTGTATTAATATGGCTGTTATGTTTGGAATACAATATGGACTGATTAAGATCTG
GCTCCTCCAGGTTTGTTGAGAAATAAAACAATGACARTTTACCTCTTTTTCGTAAAACCTTAAAGCCCCCTTGCTCTCTTTGTTTTATTTTTTAATTATT
ATTATACTTTAAGTTGTGGGGTACATGTGCACAACGTGCAGGTTTGTTACATAGGCATACATGTGCCATGTTGGTTTGCTGCACCCATCAACGCGTCGTT
TACATTGGGTATTTCTCCTAATGCTATCCCTCCCCCAGAACCCCACCCCCCGACTGGCCCGGGTGTGTGATGTTCACCGCCCTGTGTCCAAGTGTTCTCA
TTGTTCAAGATGATCGTTTTTAACATTATGGAAGGAAACCATGATGGTCATAATTTTTCTACCCTAGATCAACTATAAATAGCAATTAGAGAAATTTAAA
TGCCTCTTTTTTAAAGGAAGCCATTTTGATGTCCAGAACAAGGCTCTTCTGTCCCACTGCCTTCAGTCACCTGCCTCTGATTAATTTTCTTCTCATCTCT
GGGCTCTAAGAACAATACTGGCTTCCCCACCCAACCTCCCACCCCCACGTGTTATTCTCTAGTTACAAAGAAGCGATACACAGGACAGAGGGAGAGCTGG
GCAGTGAAAAGGAGGAAGAAAACCCGACACTGTTTCTGCACCATCTTGGTTCCTTTAACATTGATTTTTGGGCCTTTCCACCCTGTCTCCACCAAACAGA
TTTCTTGTAAACTGCTCCCTGCCTCTGTTTCATTAGGTTTTCTGCCAATTGAGTCCCCCAGCCAGATTCTTTTCCTCAGCAGCCTCCACTCCTGGCTGTG
GCAGCTCTGCTTGTCAGGAGTCAGTACCCACCTGTTTTTGTCTGCCTTGGGAGACTTTGAGTGTCTCTAGGTAACTACCAAGACTTGGCTGGTGGATTTT
CCCAGCATCAGATATGGATTTGAGGCCATCTGTTACATGTCAGTCCAAAAGAAGTTTTGAGCAAGAGTTCTGGTGACTGTCATTAAGTGTTTTTGTAGGT
TTTAACTGACAAAGTCTGTCAGCCAAACAAAAGCAGACCCGTTTATTGAAGAGGGCCTAAAATTCAGTGGAAGTCAAATGTAGGGAGTTGAGGTTGAGAA
GACCAAAAAGAACACAGGCATACCCCAGAGATATTGTGGGTTCAGTTCCAGATCACTGTAATAAAGGGAATATTGCAATAAAGCGAATCACACATTTTTT
TGCTTCCTAGTGCATATAAAAGTTATGTTTACACTATTTTGTAGTCTGTTAAGTATGCAATAGCATTATATCTAAAAAAGTACATGCCTTAATTTAAAAA
TACTTTTGTTGAAAAATGCTAATGATCATCTGAACCTCCAGCGCGTCCTAATGTTTCTGCTGATGGAGAATCTTGTCTCAGTGTTGATGGGTGCTGACTG
ATTAGAGTGGTGGTTGCTGAAGGTTGGGGTGGCTGTGGCAGTTTCTTAAAATCAGACAACGATGTTGTTTGCTGCACTGATTGACTCTTCCTTTCACGAA
ATATTTCTCTGTAGCGTGTAATGCTGTTCGATTATATTTTACCCACAGTGGAACTTCTTTCAAAATTGGAGTCAGTACTCTCCAACCCTGCCACTGCTTT
ATCAACTGAGTTTATGTGATATTTTAAAACTTTTATTGTCATTTCCACAATGTTTACAGCATCTTCACCAGGAGACTCCCTCTCAAGAAACTACTTTCTT
TGCTCTTTGATAAGAATCATCTCCTCATCTAATGAAGTTTTGTCATGAGCTTGTAGCAATTCAGTCACATCTTCAGGCTCCACTTCTAATTCTAGTTCTC
TTGCTATTCCCACCATATTTGCAGTGACTTCCTCCGCTGAAGTCTTGAACCCCTTTAAAGTCACCCATTAGTGTTGGAATCAACTTCTACCAAACTCCTA
TTAATGTTGATATTTTGATCCCCTCCCAGGAATCACAAATGTTCTCAATGGCATCTAGAGCAGTGAATCCTTTCCAGAAGGTTTTCAGCTTACTTTGCCC
AGATCCATTAGAGGAATCACCATCTATGGCAGCTATAGCCTTATGAAATTTATAATTATAATTATTATGCTTGTAATTAATAAAATAATTAATTGATGAT
GATTAATATCAATTAAATTATTGAATATTAATTGTTAATATGAATTATAATAAAGAGTAATTTTGACTTTCAAGTCTGAAATAATAAGACTTGAAAGTTG
AAATTACTCCTTGATTCATGGGCTGCTAAGTGGATGTTGTGTTAGCAGGCCCATTAATCTTGCACATCTCCATCAGAGCTCTTGGTTGACCAAATGCATT
GTCAATGAGCAGTAATATTTTTAAAGGAATATTTTTTTTTCTGAATAGTAGGGCTCAATAATAGACTTAAATATTCAGCAAACCATGCTGTACACAGAAT
AGCTTTCATTCAGGTTTTGTTCTTCCATTTCTAGAACACAAGTAGTGTAGATTTAGCATAATTCTTAAGGGCCCTAGGATTTTTACAATGGTAAATGAAC
ACTGGCTTCAACTTAAAGTCACCAGCTGCATTAACCCCTAACGAGAGAGAGTCAGCCTGTTCTTTRAAGCTTTGAAGACAAGCATCGACTTCTCTCTAGC
TATGAAAGTCATAGATGGAATCTTTTTTCAATATAAGGCTGTTTCATCTACATTGAAAATCTGTTGTTTAGTGTAGCCACCTTCATCAGTGATCTTAGCT
GGATCTTCTGGATAACTTACTGCAGCTTCTCCATCAGCACTTGCTACTTTACCTTCTACTTTTATGTTATGGAGATGTCTTCTTTCCTTAAACCTCAATA
ACCAACCTCTGCTAGCTTCCAACTTTTCTTCTGCAGTTTCCTCACCTCTCTCAGCCTTCACAGAAGTGAAGAGAGTTAAGGTCTTGCTCTGGATTGGACT
TTGGCTTAAGGGAATGTTGTGGGTAGTTTGATCTTCCATCCAGACCACTCAAACTTTCTCCATATCAGCAATTAGGCTGTTTTGCTTTCTTATCATCTGT
GTGTTCGCTGGAGTAGCACTTTTAATTTCCTTCAGAAACTTTTCCCTTGCATTCCCAACTTGGCTAACTGGTGCAAGAGGCCTAGCTCTTGGCCTRTCTC
GGCTTTTGACATGCCTTCCTCACTAAGCTTAATCATTTCTAGCTTTTTGTTTAAAGTGAGAGACATATGACTCTTTCTTTCTCCTGAACACATCGAGGCC
ATTGTGGGGTTGTTAATTGGTCTCATTTCAATATTGTGTCTCAGAACAGGGAGACCCAAGGAGAGGGAGAGAGATGGAGAACGGCCAGTTAGGGGAGCAG
TCAGAACACACATTTATCAGTTAAGTTCGATGTGTCTTATGTCGGCACAGTTTTGTGGTGCATCAAAACAATTTCAATAGTAACATCAAAGATCACAGAT
AATAGATATAGTGATAATGAAAACGTGATAATGAAATATGGCAAGAATTACCAAAATGTGACATTGAGATGTGAGGTGAGCACATGCTGTTGGAAAAATG
ACACCCATAGATTTGCTCAACATAGGGTTACCACAAACCTTCAATTTGTAAAAAAAAAAAAAATACATATATTTACAAAGCACAATAAAGGAAGTGTGAT
AAAACAAGGTATGCCTGTACGTCTTTCTTTCCTTCCCAAGTTCCGAACGAATTGAGAGGGAGACTGAGGAGTTGGCCAGATAGGGATCCAAATATCATCT
TTCTTACCAGTAAAATCTAGATAAAAGCACACGACTTATATCTGAGACCTGTTGGGCTTCTTAATACTTCCCCGGCTTCATTAACCACGTCCAGGCAGAG
GTGTACCTACAGTCACAGGCATCTTCTTCAGAGGCAGGCTTACCTCTTGACAGAAGAAGAGAGAAAGAGAAAGAAAAAGAGCTCAGAAGGGCCTGAGCTG
AGCATACTCAGTCCCTTGAATTACTCTTACCAGCTGGATCCCACCTCCTGCCTCCCCCTCATCCTCAGGGATTAGTGAGAAAGGCAGAGAGCAGCTGGCA
GTATTGCCTCATGGGGATATTAGGGAGGGGTCTGGAKGCTCCTTCGAACATTCCCTGATTTTTTTTCTATTAACATATTAGAGTCGGACGCTTAGCCATG
ACTGCCTCCTCAAGGAAAGAGATGAGAAATTTATCAGTGTGGACCCCCTCACATAAAAACTAACTTCTGTTCTCTAGGATCAATTTTACCCCCAGAATGA
TGTGAAATGTATATGGAGAGTTTTTTGTTAAATTCACACCAAGGCATATCTGTCTTCTAGACTGCACATTTCATTTTATCTAAATATTAAAATATCACAA
ATTTGAACATAAACCTCTCCTATCATCAAACTTYTAAGACAAAAGTAAAGTTCTGATCTAAAACCCCTTGCCCTTATAAATCACATTAAAATAAACTAGA
ATTAAAATTGCATTCTAAATAAGATGCCAAAGCATCTTTATCCAATTTTAACCCTGCTTTGCTTGGGTAGAATAAGGATTTTCTTTTTTCTTTCTGAGCA
TCGTAGCCTGAGTTGCCTCCCCTGGACTGGATGTGGCTCCATTAGGTCTGCCAAACTTGAATCCATTCAACCTCAATTCTCATTCATTTCACTTTAAAAA
TAGTCCCAAAAGGTAATAAAAGACACATTTATCACAATACCGGTTTTGGTTCCATGAAATTTTATTGCACAAGCAAATCTCCAAGCCCTAGAGCAGTCAT
ATCTGTAGAAAATTGATGTACTTGCTCAGTTCAGAGCATTAACATAGTTGGGAGAACAAAACCGTGTATCCATACCGTCTCCACTCTCTTGGGGGGAGAC
ATTTCTCCTTTGTGTAAAGTTCTATGCTTGTGTTGGTGGTAACTCCAGGCACCAGATCTTAAGAAAATCCTGTACTCAACTATGGAAAGCTGATAAGAAT
ATGAAGAAATGTTCCTCTCACCAATATGCAGAAAMATAGAAATTTGAATAATATGCTGCCACTTGACACCCTTCAAATTAAGAAAAAATACAAAGTTGGG
TACTGTGAAGTGCTGGCAAGGATGGGAAGAAATGGAAACTTCATGTTTGGCAAGTGGGTGTAACTGTGTTCATTGTGGAGAGCAAGTTGACATTATCCAA
TGAAGCTAACACTGAATATAGGGTATGCCCCAGAAACTTCATTCCTAGTATTTATTCCATCAAAACTTCACCAAGCAGACATATGACAGTGGTCATCCCA
GCATCGTGAGTAATAGAAAGGAGTCAGAGTTGATATAGGTGTTCACCACTGAGAGAATGAATAAGTGAAATATGGTGGTTACATATGATGGAATATGGTG
TAGCCGCCAGAAGCAGTGGGCTGTATTCACTTGTAGTTATTAGCTCTCAGGAAAAAAATGAGGAATAAATCAGAAAAGAAAGCAGTTTAGCACACAATAC
TACTCATTTTTCAAGGACACCCATATATCTAAATAAATACACTGTGGGTAGATTGGAAGGATGTCCATTACATATGCTCAACTGAGAGCCAATGGGGAAT
GGTCTTGAGATGGGGGATGATGGAGGAAAATAACACAAAGCAAGAGGGGTGCCCATGGATGTATGATGACCCTGTGCCATGGAATATAGTGTACAGCCAA
TTCAATTCCATGAACCCAGGGCCAGAGAGACAGAGAGAGAGAGAGAGAGAAATTTGTGTCTAACACCAGCTTTTAACTTGGTTGGTGTAGGTGACCTCCT
GTGTGGCTGATTTAAGGGATTCTAAAAAGCCCAACATATGACAGAAAATCTCACTGTCATGTTATTAAAACTGTACCATTAGAGTCCATCCTTCAACAGT
ATGAGGGACTGAAAGGAGCATAGGCTGTGGAGTCAAGCACACCTGGGTTCAAATCTCAGCTCTGACCTTGGGAAATTTGTTTTGAGCTTTTATTTCCTCA
TCTGCCAAGTGGGGATGATAATACACAGTCCTTGAGGTTTTTGTAGGGTATTTAATGTGCCTAGCAACATAGAGGGTACTTAATAAATATTTCTTTCCTT
TTCCCTTATCTATCTTTTCTTTTCCCACATTCCCTTTTATCATTAGTCTTTACTGACAGCAAATCTCTAGAAATTCTTGGGATGGGAAATGAAAGTGGCC
AACATCTTTTATGGGCTTATGAGGTGCTAAGTTCTAAGTCAGAGTTGTCTAATAAAAATATAATGGAAGCAACATGTAACTTCAAATTTCATAGTAAACA
TTTAAAAAGTAAAATAAAACAGGTAAGATTAATTTTAATAGCATATTTAATCCAATATATCCAAAATATTATCATTGCAACATGTAACCAATATAAAATT
GTAATGAGATAGTTCACACTTTTTGTTACCGAGTCTTTGAAATCCAGTGTGTATTTTACACTTGCAGCACATCTGTGCAGACTGGCCACATTTCACATAC
CCAATAGCCACATGCAGTGAGTGGCAACTGTATTGGACAGTGAAGTTCTGAGTTCTTTATATGTGTCAATTCTTTTAATTCTGATTTAACTTGGGTTCTC
TGGAAAACAAAGCCCAAGGCAAGTATTATTTGCAATCCCAGGGCAGTGGGAGTGAAGGAGAAGGGAAGTGAGACAGATTCTTGGCCATGTAGGATGCCTG
TTCAGGAAGCTGTACCTCAGAACTTTCTAAGGGAGCAAGAATTTGTCTGTTGCCCCACATCTTCCATTCCTCTTTGGTCAAAGTTTGCCCATGGGGAGCT
AATTCCCTGCCCTTCTGGTTTGTGTCACCCGGTCCCTGCAGACAGCCTCTGAATAGGCCACATGTCCCATTCTATGGCTTGGATCTGTATCCAAGTGTGG
GCATGAAGAGAGGATCCAGAGCCTCCGTAGGTCACTTAGGTCAAGCCCAGACTCTGGAGCTTCTGGAACTCCCACCACTGAGAGGACAATCAAGACGATG
TCAGAACTTGACAGTCGGCTAGGACAGGCCAAGGCATCTGGCGATGTCAACAGTTGCAACAATGATGGCACCTACAGGTCTCCATAAGAGGCCAAGGGCT
GAGGAGCTATAATGAGGCTGAGCGACTCTGAGGAGGCATGTAAAATGTGTGCAATTGAATTCTCACAATGAGATAGGGAACTGAAACATAGTGAGGTTAG
CAACTTGCCTAGGGTTACACATATAGTAAGTGACAGAACTGGGATTCTAACTGGATGGTCTGGCTCCAGGGTCTGTGCTCTTAATCACATGCTCACATAG
GTCCTTCACCAGTTTGGCACAGCCCAGTAGAAATCAGATTTTTTGTTGAGAGAAGGTTTTGTCTTGGAAACTTTTAAAGACTGAAAAGGCTTAAGAGGAG
AGATACATGTTGAAGCGTTCAAAAGGAAAACCTTGGCCCATCTGTCATTTTGCCAAGGATCTGACCACTCCCTATTTGCACAGGAATTCATGAATGATCC
CTGACCTGAATTGGGGATATATACTGATCCCTTGCATAGTGCTCCAGCCTTTCAGCAGATCTGGTCAATTCTTCAATTTTTCTGAGCTGGTGCTGAATAG
CAGGGAACTACTTCTCCTCTTGTTTGTGGATACACAGGAGGCCATATTCAATACTTTTAGGACCTATTTGAATACTGTATTTAGATGGGTTGATGTGGTA
AATTTGGGGATTGGGGAGTTGATCAAGGAAGAGACAGTTTCATGAGAAGCAGTAACATACAAACTTTATTTGGGCAGTGCTCAGACAAGGTTGCGTAAGA
GGGAAAGTTCTTCATAGCTGGAGATTTTCCAGAGACAGTGGCACAAGGCCACCCCTCAGAAAGGAAATAGGGCAAGAGACCTGAAGGAGTAGGGGAAATC
AGAGAGGAGGCTTACATGTCCAGGTGATATCACTCAACAGCAAGGTGAGGTTTCTCTGGATTAGAGAGTTCTGAAGGACATTAGCAGTTTGAGGTCTTAT
AGCTGGCTAGCAGATGCTGGTAATAGTTTATCTTATTTCTGGCTAGCAGATGTTGGGAATAGTTTCACAGTCTATATGAAGTAGGTAGGCTCTAAATGGC
TAAAATTTTGTTCATTTTGGAATATATTTAAAGCAATTTGGTGTGCGAAAATTGGAGTTTGGCATCAGTGTTCTTTGGGCTAATGGTCCTATCCTAGTGT
AAGGAAGTAACCAACATGGGGGCCATTTTCACCTAATATACAGGGGCTCTCTCTGGCCCATTTATATAATAGTTGTACAGAAAACTTTCAATTCATTCAT
TCATTCAGCTCTTCCATTGCCATAATGGTGTATTAATATATGAACAAAGTTCTTAGGGCAACACGAATCTAGAATTCCTGATAGAATGAGATGCTTTTCA
AAGCCAACCACCACTTACTGTTCCATTTTCTTCTGGTACTTTCATTTGAATCAGAATGTCAGGCAGCAATGGACCCCAAAGATAAGCTCTCCAACTCCAC
CACTTTGTAAATGAGAARGCTGAAACCCAACTAGGCAAAAAGTCTTTCCCAAGGTCACACAGCTCATTGTGAAAGAAGACCAGACCCAAACTCAGGTTTC
CTGAATTTTGTCCCATTTTATTTGAACATTTCCCCTGCCTTATCACACCATTCAGCCCTGATGCATAAGTTTGCTGAGTGTATCTCTCTCCAGTTAGGGA
ATGCCTTAGCTCATTTTCATGGAAGGAAGCTTCAAAATGACCATGTCTCTTTCTACACCAAAAGGGTACCTTCAGGCACATGCCTGTACAAGCAGACACC
CCTGCCTGTCTGTGTCAGAACATCCTGCAAATGATCACGTAGAAGAAGCCCTAGACCATAATAAATTCCCCCTTCATTAATTTTAATCATAAAATTGAAG
AAACATATCTATATGAAAGTATCCATACCCAGAGCTCTATGAAATCTTTGCCAATGAGTTTCCCGTGTTACATCTTGATGCACTTTCCTACAAGAACTCT
TAAAAATATTTTAGTAAATAGCAAATGTAACTAATAAATATTAGAAGCCTTGTGAGGAATATTCTAGCATTGGTTAATAGATTTGCTGACTCAGTCTTGG
AACACATTACCCATGGATTGGAGTTAACAAATAGGAAGGCTCTGTGTTAGCCTATTTGGGGGCCATTTGTGGTTTTATTATACTGTTGCCTTTATAGGGT
TGTAGATGGATTATTTATATAAGACATGGGAATTTGTTCTTTTTCTGGTTTTAATTTTCCAAGAAATTAGAACATCTGTAACCCAAATTCAGGCAAGGAT
GCTGACTCAAAGGGTGAAGAAATCAAAGTCCAGTTTCACAATTAACATGTCTCTGGTTAAATTTCAGTACTGTGAGTCCCCGTCATCATCTTTATTCTCT
TCCCCTTTAGTCCTTCTTTCCTCACTACTCTTCCCATAAATAAAAGGTGAGAAAGAGAAGGACAAGAGTATTACTACTGATTAAAGGGCTACTTGAAAAA
GAATACTATAGACTGAATTTGGCTATGTTTAAAATTCTTGGTCAGCTAGACAGCTTGATGTTCAAGACTGTCCACAGTCTTTTATGGTTGATAGAAGTTA
AAAATGTTTTTTTGGCCCTCTCTAACTCCCACCCTACAAAGAGTCATTGGCATTTTGCCTAAGAGTTCCTTGTCTTCTCTTTGTGTAACACTTCATGTAT
ATGTCAAAATATGATTACAGAGTTTTAATCCTTCCCACGATACCTTTGGCACTGGGGATGGAAACTAATCTTTCCCATTGCTTATCAGAATTGTTTAAAA
CAATCAAGAATTCAGAATTCAAAGTGCTTTGGATTGGATACAGAAGACATCATTTTGTTGAAGAGCATCAGCCTATTCTAAAAATGAGTTAGAAGTTTGC
TTTAAACAGTATGGTAAATCTACTTTTCACTTCCTCAAAGCCTTACCATCTCCAGGAGAAATGAGAAAGTATGGCTCCCCATGCAGGGGCAATGGGATCT
GGCAGTGAGTCTCCTGAGTGTGTATGGTAGTGCAGAGACTAGGTCTGTGCTGATGCATTTTTATCCCCAGTGCAAAGCCCAACAGATCACGAGAGTGGGA
AGGTGGTAGAAGGAAGATGAGGACATTGGGAAGCCATAAGAACTGTACTAGATGATGACATGAGCTCCTCATGGAGTAGATCTTACTCTATTAGTTGGGA
CTCCTGAGCTAGTAAATTAAGTGAACACTTGGTTTTCCCCATTGAGGCTCTTCCTTGTAAGTGGTAGAAGGAGAACCTACCTGAACTAGACCCAAATATA
TATGCAAACTTAACAGGGATAAAGAAGATTATCATCAATTGAGGAAAAGAAGAATAAGTCAACTGGGACAATTGGTTAACCATTTAATAAAAAGAAACCA
GATTAGAGCTCATGATCTCACAGTTAATTGTCAAAATAATTCCACATAGATTAAATAATTTTCTTTCTTTCTTTCTCTTTTCTTTCTTTCTTTCTTCTTT
TCTTTTCTTTCTTTTCTTTTCTTTCTCTTTTTCTTTTTTTGACAGAGTCTCACTGGAATGCAGTGATGCAATGTCAGTCCACTGCAATCTCCACCTCCCA
GGTTCAAATGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCGCCACTACGCTTGGCTAATTTTTGTGTTTTTAGTAGAGACRGGGT
TTCATCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGAGATCTGCCTGCTTCAGCCTCCCCAAATGCTGGGATTACAGGCCTGAGCCACTGTAC
CCGGCCATAGATTAAATAATTTAATGTTAAACATTTTGAACTAGAAAAATATACACAAACATTTATATGATCTTTGGATGGGGAAAGACTTTCCAGGTTT
AAAAGCATTGGAAGGAAAAGATGAATAGATTAGACCCATGTCAGAAACCTTGTAAATGAAATTAAAGGCCAAAAACAAACTGGGAGATAATAACCTTACT
TTATTGAAAAAAAAAAAAAACAAACCTCTCATGTAAATTGATGAGAAGCACCAAACGTCCTTGACTTCATAGCCGCCAATTTTCCATTCCCTCTCACAGT
CACACATCACTGAAGATGTGTCTGCACATTTCATCTCCACTGTCCTACCTCCTTGATGTTCTCAACTTGACATCCACCCACACTGGTCCATTGAAACCAG
TCACCACTGACTTCCATGTGGCCAAACCAGAGGTGGTAATCTCCTTCTCCTTCTCCCTCTCCCTCTCCCTCTCCCTGTCTTTCTTCTCCTTCTCCTTCTT
CCTCCTCCTCCTTCCTCCTCCTTTTTCGTTCCTACTCCTCCTTTCTCCTCCTTCTTTTTTCTCCTCCTCCTTCTTTCTCCTTCCCCCTCCTTTTTCTCGT
TCCTCCTTCTTCTTTCTCCTTCCTTCTCCTTCTATCTCCTTCTTCTTTCTCCTCTTTCTTCTTTCTCCTCCTCCTTCTTCTTTCTCCTTCCTCCTCCTTC
TTCTATCTCCTTCTTCTTCTTTCTCCTCCTCCTTCTTCTTTCTCCTTCCTTCTCCTCCTTCTTCTTTCTCCTCCTTCTTCTTTCTCCTTCCTCCTCCTCC
TTCTTTCTCCTCCCTCCTCCTCCTTCTTTCTCCTCCCTCCTCCTCCTTTCTCCTTCCTCCTCCTTCTTTCTCCTTCCTCCTCCTCCTTCTTTCTCCTTCC
TCCTCCTTCTTTCTCCTTCCTCCTCCTTCTTCTTTCTCCTTCCTCCTCCTCCTTCTTTCTCCTTCCTCCTCCTCCTTCTTTCTCCTTCCTCCTCCTCCTT
CTTTCTCCTTCCTCCTCCTCCTTCTTTCTCCTTCCTCCTCCTCCTTCTTTCTCCTTCCTCCTCCTCCTTCTTTCTCCTTCCTCCTCCTCCTTCTTTCTCC
TTCCTCCTCCTCCTTCTTTCTCCTTCCTCCTCCTCCTTCTTTCTCCTTCCTCCTCCTCCTTCTTTCTCCTTCCTCTTCTTCCTCCTTCTTTCTCCTTYCT
CCTCCTTCTTTCTCCTTCCTCCTCTCTTTCTCCTTCCTCCTCCTCATTTCTTTCTYTCTCTCTCTTTCTTTCTTTCTTTCTTTCTTTCCTCCTCCTCCTC
CTTCTTCTTCCTCTTCCTCTTCTGCTTCTCCTTCTCCTTCTCCTTCTTCTTCTTTCTTTGGTTCCTTCTTCATGTCAGCTCTTCCTCTCCATGGCTTGAT
TGCTTTGTCCTTCTCCACAGCCTCTCTTTCTTTGGTTTCTGAGATAATACATTCTTGTGTCTCTGGTTGCTCTTTGCTCCTTCTCAGTTTCCTTTCTCCA
GGTGACACCGTTTTCTTGGCCAGACCCTTAAACACTTTAGTTCCCTGGATCTCAGTCCTGAGTCTTCTCTTTCATTGAGCATCTGCCTAAGTGAGCTTAT
TTATTTCATGGATTTAGATACCATGTATAGTCTGACAACTCCCAGATTGATATTCACAGTACAAGCCTCCCCTTTGAGCTCTATGTAGATTCATATCTGC
CACTGCCAACTTGACATCTCCATTTGCATGGTGCCCAGGCACGTCAAATTTAAAATAGCAAAAGTTGAAGTCTTGTTCTCCCCACCCTCACCTGTCTTGA
CAGCAAACAACTTGTTTCTCTTCCAGTCTTCTCCATCTTAATAAATGGCATTATCACTCACTGCTCAAAGTAGAAACATGATGGCCATCCTTATACCCAC
TGCATCTAGTCCCTCAGCAAAAACCTTTCTATCTCCAAATATATTATTTCAAATCTACCTATTTCTCTCCCATCCCTCTCTGGCCTACTCCAGCATCCTC
TTCAGGAGTCTCCTCTCCTCTATTCTTACTCCCTTCCAGTTCTTTATATAGTAGCTTAAGACATCTCTTTAAGATGAAAATTGGATCTGGTTCTTCTTCA
ATGTGTTCTCATTGTATTTTAAAGAAATCCTAAATGCCATACTATGGCCTATATCTGATTGAATCTTTCCTAACTTTCTAAACTTATGTCATTCGCTCCA
GCAACCACTTTATGTCTGCCATGTTGCTCTCCTCTCAGTTTCTGAATACTTCAAGCTCTTTATGGCTTCATGGCCTTCACACATGCTATTCTCTTTTTTC
TGCCCAGAAATCTCTTACCCTCAACTCTTCTTATTCAAGTCTTCACTTTAATGTAATCTCCCTAGTGAGGACTTCCCTTACTCTCCTCATTTTATTTTCT
CTCTCTGCATCCTATTTATTTCTTTTYTAGCAAGTACCACATTTTAAAGTTTTATATTTAATTTGCTAAATTATCTTCTTCACTAGAAAGTAATACTTCA
CAAGGGTTGAGCAGAACTGTTATTCAGCAATATATATCCAATGACTAGCACATTATAGATTCTTAACCAATATTTTTTGAATGAGGAAATTAATTGATAA
ATGAATGAAAAGTTAAATAGGTTAATGAGCAGATAGTTTACTGAAAGAGAAATGCAAGTGGCCTTAATTAATACATACGATGCCCCTAAAATAGTGCCTG
GTACATACTAAGCCCTCAACATATTTAGTTATTGCTATTTTTATATTAATAATAGTTACTATTATTTTAAAATTAATAATAATAATATCACCCAAACTAA
TAGTCAAATTTAAAGAGTAAGGAGATACCAATTTCTGCTTTTTAAATGAACTACAATGAAAAAAAATAAGATGATCAACATTTTGATGAGATGGGCACTT
TTTAAAGGTAGTTACCAAGTGATTTGACAAAACCAATTTGGATGAAAGCAAGTTAGTTAGTATAACAAGTGATCAGATGATGATTTGTTCAAGAACAGAT
ACTGCTAGATGTGGGTTGTTGAGATAATGGTATTTATACTGTGGAGGTGGTGCCTTTAAACTTTTTTCTTCAGATTAAGCTTGTTTCCTTACTTTTTGTC
CATTTTCCAAAGGTTTTCGGGGGGGGGGTGGTTATTTTTTAACTTTTACCTTTTTTCAGCAATTAATTTTTCCATTCTATGTTTGTGACAAGGAAAAAAA
ATGTGCAACAATAGGAGATCTGTTGGAATATGTTAACTTTCTAACAATAGGAGACTGGATGGGGAAAAAACAATTTAGAGCACATAAAGAGTTGAAAGGC
TGCCCTGTGGTGTAGCAAAATTACCAAGACTAGGAAAAGCAGTGACTAGCAGTAGAGATTTTCAGCAAAATTGCTGTTTAACCAGATGATTATGTTGAAC
AATTTGCTTTTGGCCACAATGTCTTAACCTTTACATCTATAATTTCACTGTGAAGGAAAAAAATAGAAATGTAATCAAAGATTTATGTGCAAAGAGATTC
GTCGAAAGTTAACAATGACACACAAAAACCCCATAAAACACAATGTCCAATATTAGAGGAGTTGTCCAAAATGGGGGGTGTGTGTCTAGGAACAAGTAGA
AACACTGTTTCTTTCTCTTATAGGATATTGGGGATTGGCACTCATTAATATGGTTACTTAGAGTAATTTCCTTAAGCAACATATTATAGTAAGATTGACA
ATTTGAGTGCATTTCCTGAGAAATAACTAAATCATAAAGAGCTTTTGAAATAGTTCCCCCAAAGAACTGTGAATGCATTTATTACATTCACAATTTATTA
CATTCACAAAGCATTATGACACTACATTGCTGCCACTTGCTTTTAGGGAGAGTCAAAGATGGTGGTAAAAACAGCAGCATTTGGGAATCAATGGGCAGCA
GTTATCTGTCAAAGGAGCAATGGCAAAATTCAAGATACTTCCTTTGCCACACTCATACATAGCAACGTAGCATGCTGCATTCTTTTTCTTGGGGAGATGT
TTTTAAGCCACATAGCTTCCATGTGGAAGTGATTTCATCTCCTAATTAAGATCACATTTATGAATAAAAGCAGAGGAAGGAAGCCAGCTTGACAAGGGTA
TCCTACCAAAAGCCAGGGTAAATGGGAAGTCTTTGAAGGACATAAGATGAAGGTAGTTGGAGTTTGGAAGGAAGTGGTTTTATAGACCTTGTTTTGTCTT
GGTTGTTTTGTGGTCATTATTGGAGTGGTGTCTGAGACTCATTATGGGTTTGGTTCTGACATATTTATAGGGAAGGAGAGACAAGGTTTTCCTGGATTTG
GTAGCAGCCCTGTTGTAGGTTAGCCAAAATGTACCCTTAATCTCTTATGAAGAATTGAATTACTTACCTTCTAGAAATATTCCCTGCATAATATTTGAAC
CATAATATTTTAAGCCATTAGGCTTTTGAAATATAGGCTAAAACTTTAAAGGAAAGTTTCCTAAATACTTTCAACACAGGATTGTGAAATGGAAAGAAAG
ACGAAAGGGGAAGAGCTTTGGATTTTAGTACCTCTGCAGGCATTATTAATCAGAACTGAAACAGAAAAAAAAGGAAAAAAAAACAAATTCACTAATAGAA
TTTGAGTGCATTAGCTCTGTGCATGCTGCAACGGATTTATAGGGGAATGTTTTCTTTTAGTTTCTTATGGACCAATTTGTTTGACTCTTGTGGAAATAGA
TTCATTGATAGCTAAGTTTTAACCAAAAAAGAATGATTTAATTAAATTATCATTCTATTTTGAGGTTCTATTAATAGTTTAATACTATACATAAAAATAA
ACAAAACAACACAGGAAACAATGTGCCTAATAGGAAGATTTCTTTATGGTTGAAAATCAGCAGKGTATGTAATGGAAAGATGGAATCCAGGTTTGCTCAA
GGTACATTTGAGGCTGACATCATCACCTTTTTTTTTTTTCCCTTGAGACAGAGTCTCGCTCTTCCGCCCAGGCTGGAGTGCAGTGGCAGGATCTCGGCTC
ACTGCAAGCTCTGCCTCCCGGGTTCACGCCCTTCTACCGCCTCAGCCTCCCGAGTAGCTGGGACTACAGACGACCACCGCCACGCCCGGCTAATTTTTTG
TATTTTTAATAGAGACGGGGTTTCACCGTGTTAGCCAGGATGATCTCTATCATCTGACCTCGTGATCCACCCACCTTGGCCTCTCAAAGTGCTGGGATTA
CAGGCGTGAGCCACCGCGCCCGGCCTCATTATAGATTATTTTAAATAGAATAATATACATTCAGTTTTGAAGGCTTTGGGGTAGTTTATTATTCAAGACA
TATGTTATATTGACACCCTCAATGATCCAGTTCCCAATATGAAAAGAATACTAGAATTGGAATCCTGTTTTAGGTTAAAGATGTTGTGAAAAACATCTGC
AAAATGAATTAAAAATTTCCTCTTAGACTTTTTCACACTGTGAGACGATAGAATATATTTTGTGGCTTTATTAAAGTCTCTCATTGGTTTCTGTTTAAAA
TTTTTAAGATGAATACATAAATGAATATAGAACGTTCTGTGTGAGTGTGAATACACCTGCATGTGTGCTTGTGCCTGTGTAGTTGCAACTTAGAGAGGTA
GCTACTATTTTTTGAACAATATGGATTAGGTTGAGAAGCAAGAGACAGGAAGGAAGAAGGAAAAAGAGCCAGCCAGGAGGGCAGACTGATGACTGAAGTT
GAGGGCAAGAATACAGCGAGTTAACCAGAGCTTTCCCACCAACTCTCCACAGCTCTAGTTGCCCTCCCTCACCCCAGCCACATTCTCACTTCTCTTTAGC
TCTAGTCTGAGAAATTGGAAGAGAATTTTAAAAATTAGAGTGTGGAGGAAAACATTACTTTTCTGAATCAGAATTTCAGAACCAGAAATAGACTTAAACA
ACAGCAAGTACCCTCACAAAATTTTCAGATGAGCGAATTAACCCAGAAGAAGATAAGTGTTTCGTTGGTCAGCAGAAAAAGCAATACCTCTAGCTGGGCA
CGGTGGCTCACACCTATAATCCCAGCACTTTGGGAAGCCGAGGCGGGCAGATGGCTTGAGCCCAGGAGTCCGAAACCAGCCTGGGCAACATGGCGAAATC
CCATCTCTACAAGAAAATTTAAAAAAGAAAGAGAGAGAGAGACAGAGAGAAAGAAAGAAAGGTAAAGAAAGAAGAAAAGAAAAAGCAATACAGCATGAAA
GACTCCTGACTTCCAGTTCAAGATTATTTTTATGGCCACATTCTGGGAGAGTGCTAGCAAAAATTAAAGCAAGAACCTCTTTGTGATGCATTTCTTCTCT
GTTGGAAGGGATACTGCATCTGCCACTGAGGCAGAGGTTGAAAAAGATGCTTAAACCAAACAGGGATCTTTATCTGAAGGACAGCGAAATATTGCCTGAA
CAGAGGAGTCATTCGATATTATATGAAGTTTACCCTTAATCTTTTTAGAGGTAATTTTAGAAGTCCTCATCAGACAAAACCAGCCCCTTTCCAGATGGTG
TCTTATACACCTAATGATCCTAGAGAATCAGATCCTGTGCCCCTTGTGTGCTGCCCTTCTTTTATGTGTGTTTCAAGCTCTCTGATTGATTGTGAATCTT
TGGCCTCAGGTTGCACTTGATGTCACAGGTCTTTCTGGTTTCATTTATATATACACGGGGGAATTTGCTTTTCTAGTCTTTGAAGCTGTATTAATGCAGC
TTGACCTTCTAAGCCATGCAAAAGTCTACCAGAGCATTTTAAACCCCAAAGCTTCAATTGGAGACATTCAGAGGAAAGGAAAAAAATCTTTTGATAGTCA
AGATTACTCACGATTCTTTATTTCAAAATTTAATGTACAGACAATATATTTTGACCATACCAAATTCACCTGTCCTGAAGAGAAGCATTTTGCTACATGT
AGGTGAAGATGTTGATGAATACCCCATATATATATATATGTATACATACACACACATATGCACACACACACACTTGTGTGTGTATATATGTATGTATATA
TGTATATAAAATCCCATGTATAGTAATACGGTTATTGACAGTATATGGAATAGTAATACAGTTATTGACGGTATATATATGTGTGTGTGTGTGTGTGTGT
GTGTGTATGTACTGTCAGTACATATATTCATATATATCTTCATATATACATATATCTACTGTCAATAACTGTATTACTATACATGGAGTTTTCCATTATG
AAACATCATTCAATAAATATTTATTGAACACCTAGCATTTGACAGACATAGTGGGTTGGCCCTGAGAATTCAGTAGTAACAAAGGCAGAAATGTTCATGT
CCTCATGGAGCTTGCATCATTATTCTCCACAAAATTATGCCTTCATCAAGGAGAGTAAATAATTCTGGGCTCCAGATTCTCTCTTTTTGTCTAAAAATGC
ATGTATTTAATGAATGTAATCTTTTAATTAACATATAACATATACACAGAGAAGTACACAGATCAAGTATACAGCTCAAAGAATGTTTACCAAGTAAACA
CACTCATAAAAGCAGCAGCCAGGTTAAGAAACAGAACATTACCAGCCCCCAGAAGCCCCTTTAAAATCCTTTTCTACTTGCTAACCTTCCCAAGATAACT
AATTTTGTGACTTCTGACATCATAAATTAATTTTGGCTTGTTTTGAACTTTGTAGAAATGGAATCATACGGTGTATGATCTTCTGTRTCTGTCTTCATTT
GCTCAATATTATGCCTGTGAAATTCACCTGAGTTGTTGCATGTAGTTGAGTTCATTCATTCTCCTTGGTGTATAGTATTCCACTGTATATTACATTTCRT
TTATCCATTCTATTATTAAAGACATTTGGATGATTTCCAGTTTGGGGCTATTATCAGTTCTGTCACTATTAAGGTACTTRTGCCTGTCTTTAGGTGACTG
TTAGGTATACACCTATGAGTTGGAATATTGGGTCATAGATTATGCATATATTCGTCTGTGCTACACATGGCCAAGCAGCTTCCCAAAGTGTTTATACCAA
GTTATAGTCCCACCAGCAGTGTATGAAAATTACAGTTACTACACATCCGTGCCAAGCTTAAGGTTATGTGCTTTTTCATTTTCATATGCATTTTAAGTTT
ATAAAGTAGACTGGAACCACTGGAGCTTTGTGATAAACAATGAGACATCATAAAGTTTGTAGCAACAGTTCTAATCCCTTGAATTTTAGTCTATGCCAAT
GATTCAGGATGGTATTATATTAAATTAGAAACTCTGCTTAACTCTTGATGGAATAAAAGTTACTGTTTATAATGGAAAATCCTGCAAAAGTTTGYCTTTC
TTACATTTGGAGTTGTGGCTTTTTCAAGCGAGCAGTGTCGGACCATTTTTGTTAGCCAGAGGGCCAAGTAAGAAAAAATAAAAAATATGTGCAGGCCGCA
TTTTTAAATTCCAAAATGGAAATGGCTTTCTTGAGACATGGGGAAGAAACATACATTTGGTTGTGAGATAACCTGCCATATCAAGTGGAAGACTGGAGGT
GGGAAAGTTGGAGCAATTATTGGCCAGTAAAATGTTACTATTGGACTATATTTGAGAACTGGCTGTAGGGAGACAGCTGTCATCCTGAAATTAGCTTGTC
AACCACATTGTAAAGCTAGGAGGGCTAACTTCCAGACCAAGACCTTTAAGAGGGGCTGTTTTAGCAGCCCACCTCGGCTTTAACACTTCCCTAGGAGGAA
CTATATATATAATGGATCCAGGTCCAGGCCTATTACAGAAGGGCCAGCTGAAGGAAAGAAGAACCTTATTCTTAGAAAAAAACACTGATGGTTTCCTTTT
CCTTTTCAGTCCAAGGTTTACACTCGCACACCAACCTTATATTTGGACTTCAAATTGGACCCAGGAGCCAAACATTCCCAACCTATCCCTAAAGGTATGA
TGGGTTCTGGGGTTTAGTAGTCACGTCAGGAAAAAAAAAAGAAAAGAAAAAACCAACAAGAGGCTGTTTTGCCTGGAATGTGCTTGTTTCTGAAACTCAG
CACAAAGTTCTAAGAACTCTTGTTTATGTTTAATTGTGTTTAAATTGACAAATACTGCTGGGACCTTCCAAGTTAAGAAAATCAGGAAGAGGCCGGGCAC
GGTGGCTCACGCCAGTAATCCCACCACTTTGGGAAGTCGAGGCGGGTGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCCAACATTGTGAAACCCCG
TCTCTACTAAAAATACAAAAACTAGCTGGGCGTGGTGGCGCACGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAG
GCGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAACCTGGGAGACACAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAGAAAGAAAGAAA
AGAAAATCAGAAAGAACTCACAGAATGTTAGGGCCAGACCTTGTGGGCCATACCACTCAATTTACAGGTGTGGAAGGCCTAAAAGATGGGTCACTTGCTC
AAGGCCACCCAAACACTTACTGGATGAGGTAGGGCAAGGAAAACACCCCTGTCTCCTGACTTTCCAGCTCCTATTGACTCACAGTGTTCCTGAAGGCAAA
TTCGGACCTGTGTTACTTATACACAAGTGCATACTTGATTGAGATACAGGTTTTGCTTGATATAGGTGTTGTTATGTAAAGGTTACCTTTAGATTGACAT
TTGAATCCAAAGAATAATTAAAAATTCCCAAGTATTTAAGGCCTATTTTGTTCTTTTTTTTTTTTAATTCTGGCTAATTTTTATAATTGTTTTTTTCTGT
AGACGTGGGGTCTCACTCTGTTACCCAGGCTAAAGTGCAGTGGCATGATCATAGCTCACTGCAGCCTTGAACTCCTGGGCTTAAGTGATCCTCTTGCCTC
AGCCTCCCAAGTAACTGAGCCTACAGATGTGTGCCACTATGCCCAGCTAATTTTTTAATTCTTTTGTAGAGATGGAGGTTTCACCACGTTGCCCAGGCTG
GTCTCAGATTCCTGGCCTTAAGTTGATCCTCCTGCCTTGGCCTCCCAAAGCACTGGGATTTCAGGCATGAGCCATTGTGTCTGGTCTATTTTTAAATAAT
TTTTTTAATTAACACAATAGATGTACATATTTTCAGGGYACAYGTGACAATTTAATACGTTCATATAATTTGTAAAGATCAAGTCAGTATAATTAGGATA
TTCATCACCTTAAATATTGGTCTTTTCTTTATGCTAGAAACATTTGAATTATTCTTTTCTAGCTGTTTGGAAATATACAAAGATTGTTGTAAACAATAGT
CGTCCTACTGATCTATCAAACACCAGATCTTATTTCTTCTATWGTATATTTGTACTCATTAATCAATCTCTCTTTATCCCTCCCAGACCCCTACCCTTCA
TGTCTTCTGGTAACCACCAGTCTTCATGAGATCTTTATGAGATCCACTTTTTTACTCCCATGTAAGAGTGAGAACGTGCAATATTTGTCTTTCTGTGCCT
GGCTTATTTAACTGAATGTCCTCTCCAGGTTGCTGCAGATGACAGGATTTCATTCTTTTTATGGCTGAATAATATTTCATTGTATATTTATATCACATTT
TCTHCATTCATCTATTACTGGGCACTTAGGTTGATTCTACGTTTTGTACATTGTGAATAATGCTGCAATAAACATGGGAGTGTAGGTATTTCTTTGATAT
ATTGATTTCTTTCTTTTAAATAGGTACCCAGTAGTTGAATTGCTGGATTATATGGTAGTTCTATGTTTAGTTTTTTGAGGAACCTTCATACTGCTTTCCA
TAATGGTTGTACTAATTTACATTCTCACTGACTGTATACAAGGGTTCCCCTTTCTCCACATCCTCACCAGCATGTGTTATTCCCTTTTTGATAACAGCCA
TTTTAACTGGGGTGAGATGATGTCTCGTTGTGGTTTTGGTTTGCATTTCTCTGGTGATTAGTAATGTTGAGCATTTTGTTCATACACCTATTGCCCATTT
GTATGTCTTCTTTTGAGAAATGTCTATTCTGAGCTTTTGCCCATTTTTAAATTGGATTTCTTTTTGCTATTGAATTGTTGAGCTCCTTATATATTCTGGT
TATTCATCCCTTGTCAGATAGGTAGTTTGCAGATATTTTCTCCCATTCTGTGGGTTGTCTCTTCACTATTTTTTTTTTTAAGACAGAGTCTTGCTCTGTC
ACCCAGGCTGGAGTACAGTGGTGTGACCTCTGCTCACTGCAACCTCCACCTCCTGGGCTGAAGCAATTCTCCTGCCTCAGCTTTCCAAGTACCTGGGATT
ACAGGTGTGTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGTGGTTTAACCATGTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTG
ATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCTCATGTTATTGATTGTTTCCTTTGCTGTGCAGAAGCTTT
TGAGCTTGATATAATATCATTTGTCTATTTTTGCTTTGGTTGCTTGTGCTTTTGAGGTCTTACACAAAATATCTTTGTCCAGTCCAATGTCCTGGAGATT
TTCCCCAATGTTTACTTGTAGTAGTTTCATATTTTGAGGTCTTAAATTTAAGTCTTTAATTCATTTTGATTTGATTTTTGTTTATGGCAAGAGATAGGGG
TCTAATTTCATTCTTCAGCATATGAATATCCAGTTTTCCCAGCACCATTTATTGAAAAGACTGTCTATTCCTCAGTGTATGTTCTTAGCACCTTTGTCAA
AAATGAGTTCCATTGATCCATGTGTCTGTTTTTATGCCAATACCATGCTGATTTGATTACTATAGCTCTGTAGTATAATTTGAAGTCAGGCAGTGTGATG
CCTCCAGCTTTGTTCATTTTGCTCAGGATTGCTTTGGCTATTTGGGGTCTTTCATGGTTCCATATAAGTTTTAGGATTCATTTCTGTGAATGAGATTGGC
ATTTTGGTAGGGATTGCATTGAATCTGTACATTGCTTTGGGTAGTATTGTCATTTTAATGATATTAATTCTTCCAATCCATGAGCACAGAATAGCTTTCA
ATTTTTTTTGTGTCCTTTTCAATTTCTATCATCAGTGTTTTATAGTTTTCCTTGTATAGATTTTTCAATTCTTTGGTTAAGTTGATTCCCAGGTATTTTA
TAATCTTTTTTTGTAACCATTGTAAATAGGATTGCTTTCTTGATATTTTTTTCAGATTGTTCACTCTTGGTGTATATAAATGCTACTAATTTTTGTATGT
TGATTTTGTATCCTGCAACTTTACCAAATTTGTTTATTAGTCTTAATAGGTTTTTTTTGGTGGAGTCTTTAAGTTTTTCTTASTGTAAGATGATGTAATC
TGTGAACAAGACTAGTTTGACTTCTTCCTTTCTTATTTGAATGCCCTTTGTTTTTTTTTTTCTCTTGCCTAGTTGCTCTGGCCAAGACTTCCAGTATTAT
GTTGAATAAAAGTGGTTAAAATGGGCATCTTTTTCTTGTTCCAGATCTCAGAAGAATTCAGTTTTTCAACTGAATTCTTTCAATTTTTTCCCATTCAATA
TGGTGATAGCTGTGGGTTTGTCATAATAAGGCCTTTATTATTTTGAGGTACGTTCATTCTATACCCAGTTTGTTAAAGGTTTTTGTCATAAAGAGATGTT
GAATTTTATTGAATGCTTTTTCAGCATCTATTGAAATAATGATGTTTTTTCTTCTTGATTCTGTTAATGTGATGTGTCACATTTATTGATTTGTGTATGT
TGAATGTTGAAACATCTTTGCATCCTTGGGATGAATCACACTTGATCATGGTGAACAATCATTTTAAGGTGCTGTTGAATTCAGTTTGCTAGTATTTTGT
TGAGAGTTTTTGCATCTATGTTCATCAGCAATATTGACTTGTGGTTTTCTTTTTTTGTTGCGTTCTTGTCTGGTTTTGGTATCAGGGTAATGCTGGCCTC
ATAGGATAAATTTGGAAGTACTCCCTCCTCTTCAGTCTCTTTGAAGAGTTTCAGTAGGATTGGTATTAATTTGTCTTTAAATGTTTGGTAGAATTCAGCA
GTGAGGCCATCAGATCTTGGGCTTTTTTTTTTTTTATGGGAGACTTATTATGGCTTCTATCTCATTACTAGTTATTGCTTTGTTGAAGTTTTCTATTTCT
TCATGGTTCAATCTTGGTAGGTTGTATGTATCCAGGAATTTATCAATTTTTTCTGGGTTTTCCAATTTCTTGGCATATAGTTGTTCATAATAGTCTCTAA
TGATTCTTTGTATTTCTATGGTCTCAGTTATTGTGTCTTCTTTTTCATTTCTGATTTTATTTATTTGGGTCTTCTCTCAYTTATTCTTAGTCCAGCTAAA
GGTTTGTCAATTTTATTTATCTTTTCAAAAAACCAACTTGTCACTTCATTGATCTTCTGTATTTTTTTGTCTCAATTTCATTTACTTCTACTCTGATCTT
GATTATTTCTTTCCTTCTACTAATTTTGGATTCCATTCTGGCTATTTAAGTACAGAAAAATTTTAGATTAATTTGCTTAAACATAAGCCTTCACTATCCG
TGATTTTTATAACATTAAGTGTATGTGTGCTTTAACCTTTTAGTGCAGTGCTTTTATCTTTAAACTTTTGAGTTGCTTTCCTCCAATCCCTTGTCCTCCC
TTATCTATGTCCAGTACCCTCACTATATAGATCACAGATATATCCTTGAATTATATCTTGCTGTATTTTTCTCCACACTTATTTTTATACACTGACATAT
ATGTGCATTCACATATATGCAAATATCAGGTTATTTTGTCATTTTAATAAAATGGAATCATAACTACTCTTTTACGTCCTATTTATTTGACTGAAAAATA
CYCATGGAAATCCTTCCCAGTTTACTTATATAGCTCCTTTTGTTTTGTTTTGTTTAAGAGACAGGGTTTCTCTGTGTCACCCAGGCTGGAGTAAAGTGGC
ACAATTATAGCTCACTGCAAYCTCGAACTCCTGTGCCCAAGAGATCTTCCCACCCCAGCCTCCCAAGTAGCTAGGACTACAGGCACTCATCATTAATGGT
GGCTCCTTTTAACAGTGATATTCTACATCATCTAAATACATACTMTGATGTATTTAGCTATTTTCTATCAATGGGAATTCACTTTGTTCCTAGTGCTTGG
CTACAGCAAACTGGTCTGCAATGAATACCTTGTGTATCTGCCTTCCCATGTGGAAATTTATTTTGATGAGACAGGTTTCCAGGGATGGTCACCAGATCTA
TGCATGCTTAGTTTTAAAAGACATTGTCAGGTTGCAATCCAAAGAGGCAGTCACACTTTCTATTAGCAGCATATAGAATACCAGTTTCTCCACAATCCCA
CTAGCAGGAAGTGTATGGTTCATGTTCATTTTTGCTCTGCTCTCAGACATCACCTTATATTGCCTCCTGAGAGAACGTATATCTGTCAGTTTCCAAAGCT
GTATTTGCATTTTATTTTGTCATCATGAATTTTAAACCTGAGATTTGTTTTCAATCATGTTTTGTTGTTGTTGTTGTTGTCGTTGTTGTTGTTTTGAGAT
GAAGTCTTGCTCTGTCGCCCAGGCTGAAGTGCAGTGGTGTGATCGCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTC
CCGAGTACCTGAGACTACAGGCGCATGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGCGACGGGGTTTGACCATGTTGCCCAGGCTGGTCTTGAA
CTCCTGACCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTTGGGATTACAGGTGTGAGCCACTGCGCCCAGCCTCAAACACTTTTTTTTTTTTGACAC
GGAGTTTAGCTCTTGTCGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCYGGGTTCAAGCGATTCTCCTGCSTCAGCCT
CCTGAGTAGCTGGGATTACAGGCACCCRCCACCACGCCCAACTAATTTTTGTATTTTTAGTTGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAA
ACTCCTGACCTCAGGTAATCCATCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAACTACCACACCCGGCCTCAAAAACATTTTTATAGGGAT
ACAACAGGAAATAGCTTAGAATTGCACATTTAGCATTGAGCGTCTGTAAACCCACTTTAAACAAGTGCGTTATGAACCCAGCTATGAAGCAAAAGATCCT
TTCTTTTCCAATACATCACTTTTAGTTATAGTGTTCTCTCTTTCTCAGTCTGTCTGTCTGTATCTCTCTCTCTCTCTCCCTCCCCTATCTCTCTCTCTGT
CTTACACACACACACACACACACACACACACACACACACACACACACACACAGACTTATCCATGCTTCCACTGCATTAGGTGACAAATACAAAGTTTGAG
GCTTCTCTGTTTAGTGCCTAACAATTAATTCAAGTATTATAAAGCACTCATTATTTGCAGCTTTGATAGTCCTGGCTGCCTGTCATCAGACATACTGGAT
GGTAAAATTATGCTGTATAAAGTTTATTATGAAGTAATTCAAATCAAGGTCMCCATTTGTCTTTTTTTTTTTTCCACCTTTCCAGGTCAAATTCCATCAT
AAACTCCAAGGACTGTCTAGATTCTTTTTATTTGGGTGCTTTGTTGTATCAAATATTTCGTGAAATGTGTAGGCCATTGGCTGGGTCCTGGACATGTTTC
GTTTATAATGTTTTGATTGTTTTGTTACTCATGGTAAAGGGATTTGACATGGATGTCTGGATTATGTTTGGCTTTTGGCATAAGCTTTGCAGTCTAACTA
ATTTAATGTTGACTTGGTTTTATCATTAACAGACTAATTGGATAGCAATAGAAGCATACACTGCTACCATCCTCYCCCTGATACTGGGAAAATGCATATA
TTCCAAGGGAAATCCAGTTAAGGGAGACTGAAAACGTTTCTCATGAATCAGACTAGGTTTTATCTGAGTTCCTTCCCATGAATACTATTTGAATCGATTT
TTACCATCTCTTTATTTCCTTCAGGCTAGGCACGTTTCTCTTGGGTTGTGCTAATCTTGCAGAAARCAGATGTTTCATGCAGTGATGATTTGGAAGGCAG
TTGATATCAGGAATTGAGCTGGACGGTGCATCACTTACAAAGAATCTAATTTGTCGAGTTTCTGACAGTACCAGATTCCTTTCACATTGGCCACACGTTT
TTYATATTAGATCTTGGCTAAAATAAGAGTAAGTAGTTTTTTAATGGTGACTTTTACCATTTCTTGCAAGGCGCAAGGCAATCTGACTTTCCTTTTGCTG
TAAACTGATTTACAGATAACACTGTTTGTTACCATTAATTATGAAGGACATAAATCTATATTTCTAGGAAAATATCAGTCTTTTCCAAGAAACATGTGCC
TTCTTGTCCTCATGTCCCCCTTGTCTTCTGACTGACTGTATCACAGTTTGGCCCTCAACAGCCACTCTGTTTATTTTCCTCATTTCCTTTTACAGCACCT
TTGCCTCTAGATACTTAAAGGCAGGATCTGGAATGTTAAAAATGGAGAGCTGTTATGGAAAAAACTTGATTTTATGAACCTTTTTGCTTTTCCTCACCTT
ATAACTTTTCCTTTACAGTATATGTAGATCAATAAACAAAATTTATTTAGAAACCATATAGTCTACCCCTCTGTGGTAGGCAAAATAATGTCCCCCCAAA
GATGTCCACGTCCCAGTTTCCAGAATCTGTGTATATGTTATGTTCCATGGCAAAAACGACTTTGCAGATGTGACTAAGTTAATGCTGCTGAGATAGGGAG
ATTAGCCTGGATGATGCAGGTGGACCCYGTGTCATAAATGAGAATCTAAATAAGAGAAACAGGGAGACAGGGAGTCAGAGTGAGAGAAGGACATGTGACA
ATAGAAGCAGAGGTCAGAGTGATGTGATTACTGGTTTTGAAAATGGAAGGGCCCACAAGCCAAGGATTAGTGGCAACCTCTAGAAGTTGAAAAAGGCAAG
AAAACAAATGTCCCCCTACAGCCTCCAGGAAGAATACAGTCCTGCTTGATTTTAGACCTATGAGGCTCATTTTGGGGCTTCTGACCTCAAGAACTGTAAG
ATAAAAATTTTTGTTACTTTAAAGCACTAAGTTTTAGAGTAATTTGTTATAGCAGCAATAGGAAACTGATACACCAATATATTTTTGCTTCTGTGTTTAT
GGGGAAAAAAAAGGAAAGGAGCTACATCTTCCTTGATTAAAAAGTAGATTTTAATGCCATACATACAGTAGCTACTTGGTAAGTCACATTAGTATACATT
TAAATAAATCTTATTGTATTAATTATCTATATGCTGCATAACAAATTACCCCCAAAACTTTGTGCCTTAGAACAACATGTATTGTCTTGCAATGTCTCTC
AACTTAGCTGTGTACTGTTACAAGGCCACGATCAAAGTGTCAGCCGGAGGCTGGGCGCTGCGGCTCACACCTGTAATCTTAATACTTTGGTAGGCTGAGG
TGGGCAGATCACTCAAGGCCAAAAGTTTGTGACCAGTCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTCGTG
CGGGCCTATAGTCCCAGCTACTGGGGGTGGAGGGGGGCGGGGATTGGCTGAGGCATGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAG
ATCACCCACTTCACTCCAGCCTGGGTGGCAGAGCTAGACTCTGTCTCAGAAAAAAATAAATAAATAAAGTGTCATCTGGGACTGTGGTCATCTCAAGGCT
TGACTGGGAAGGATGTGCTTCCAAGCTCACACTCATGTGGTTGCTGGCAGCATTCAGTTCCTCAAGGGTTGCTGGCTAGAGTCTGCTCTCTTGTTTTTGG
CCACATGGGGCTCTATATAGGGCAACTCACAACATGGCCTCTGACTTCATCAGAAGGCACAAAGATGAGCAAGTTGGAAGCCAGAGACTTTATGTAACCT
AATCTCAGAAGTGACATTGCATCAGTTTTGCTATATTCTACTGGTTAGACGCAAGACTCTAGCCACAGCCCATACTCAGAGAGAGGGAATTAYATAGGGC
AATACGGGAGGCAGGATCAGGCAGACGTCTTAGAGTCGACCTCCACACTTATGATCTTGGTTGAAAGTACCACACATTTTTCCATATGGTCAATGACTCG
AAAACAAGTAGTGATTTTTTTTCTCTCTCTCATTTGTGACTTTTAAAAATGACTGGAGTAAACCTCGAAAAATGCRTAGTGATTTTTTCCACAGGCTTCT
TGCCTGTTTTTTCATAGTCTTTCTCTACTTTTAAGGAGAATGCCCCAAACATGAATGATTCATGTAGAATTTTACATTTTGAGTCTTTTCATAGAACGCA
AAAGCCGATTTAATTCATGAGTAATTTTTTTGCAGAGCTCTCTACTTCCCAGCAGTACATTAGACTATTCAATCACAGTTCCCTTCATACTTAGAATATA
TACATAACAGTTATGGATGTAAATCTATAGGTCTTCAGAACAGTGATTAACGTGAATCAGAGCCTGAAATATCAAATTATTCAGGAAGAAGTTTAACATC
ATTTTCCTTTGACTGGGTTGTCTTTTTCATATYGATTTGTAAGAGCTCTTTATATATTCTGAATACTAGTCATTGTCAGTTATTTGTGTTGCAAATGTCT
TTCCTGCTTTTTTTTTTAACCTTTCTATACTATGTTTCTCTATTTTAATAAGTAAAAATGCCTTAAATGTATCAATTGGCTCCTTAATGATTAGTGCTTT
CTGTGGCTTCTTTAATCATCTTTCCCTAACTCAAGATCATAAAAATGTACTCTCTACTATAAGTGCTTTGTTGTTTTGCCTTTCATATTGATACATTTAT
TTCACCTGGAATGGTTTTTTTAATTGTTTTTTAAATTGACTGATAAAATTGTACGTATTTATCTTGTACAACTTGATGTTTTGAAGTATTTATACACTGT
GGAATGACTGAATTTAACTAATTAACATACATTACCTCACATAGTTATCATTTTTGTGATAAGAACACTTTATATTCCCTCTCTTAGCATTTTTCAAGAA
TACAATACATTGTTATTAACTGTAGTCACCATGTTGTACAATAGATCTCTTGAACTTATTTCTACTATTTAACTGAAATTTTGTATCCTTTGATGAAATT
GGTTTTCATGTATGGTAAGATACAATTACATTTTTTAAAACATGGTTTGAAACAGAGGAAAAAATGGCAAAAATCCATGATGGRGAATGCCATGAACATT
TTAAGGGGTTCACAGTTCACTGAATCATCATATAGTAATAACAATCATTATAGCTAACATTTATTAAATGCCTACTCTTTGCCAGAAACTGCTCTAAGAA
CCTTCCCTATCCTAAGAATTAACACCTGTAATCCTCACGACCCTGTGAGGTAAGGATTATGATTACCTCATTTTTCAGATGAGGAAACTGAGGTACAAAG
AGATTAAGTAACTTACTCAATATCAATTAGTTAGTGAGTAATGGGACTGAGTTTCTGCTAGGACTCTTAACTGCCATCTTGTCCTGCACCAAACAAAAAC
ATGGACCTTTAGTGAACAGTACTCTATTAGTAGTGTCTTGGGCATATTGGTAAATAAATCCAAGATTTYGYACATAGGTTAGAAAAACGACTATTCTTGA
AAATTTTAAATGAGTAATATCATCTCATTGTGTTGTGTTTTTCTGTTATGTCACCTTTAGGAGAAAACAGGTTAAATTGATGATCAATGTAAACTAAAAA
CCTATTCTAAGAATTTAAATATGTTTCAATTTTGGCAGGGGTGTATTTTTTTTCATATTTTACAGGGGCTTTTAAAAAATATTTTTCTCAGGCTGGGCAT
GGTGGCTCACACTTGTAATCCACACACTTTGGGGGACTGAGGCCAGGAGTTCGAGACAAGCCTAGGCAACAAAGTGAGACTCTGTCTGTAATTTTGAAAA
AAGGCCTCTTTCTCTTAAAAACAGTTAGGTGTCCAAATACATCCTGAAGTAATCTTAGGGTTATTTATGACTTTCCCTGCTAATTTCAGGTTTCTATTAT
TTTTTGAACATGTATTTAATCCTTAAAGTTCTGTATATTTCAGATCTTAATAGTCTATAAACGTGGCTTCAATCTAAGTTCGAATGCCTAAACTAGTTTC
TGTTTTAGAGTGCTAAAATAGAATTTTATGATTATGTCTACATTATTTGAATTATTTTCTGATTTTTTTTCTGAGCAATTAAAAATCAGTTGTGAATACT
GTGTGTCTGAAGAGGAGACAAGTTCTGTTCAAATAAAACCAAGAAATAGTAGTAGCATATATTACTTTAGTTAAAAACTTTATTAAATGTCTTGATGAGA
AAACCTCAATGCATCATTGTGCACTTAGTCTCTAAAGAGCAGGATACAATTATTATGTGTCGATTTTAAACTTTTTTTAAAGAACAGGATAAGCTTCTAG
GGCATTCTAATAAGCTTCTAGGGCATTCTAATACATTTGTAGTACTATTGTATTAGCAAGAAAATAATCAGCAGGGTTTGCCCTCCAGCGGGCTAGGCTT
CATTCTGGGCATGCAGAAGGCTGTATTCTGAGTTTACATTCTARAGAGCTTATATTGCTTATATATTTCTCATTCAAAATGTTAAATTTCATTTATTTCT
TAGCTTTCCTGTTAGCTTCTGATGCAATGAGTGTTCAGTATTATGAATGTGGACCAAACCATAAGACAGGGTTCTCCTATAGGCTGCAATTGTGCTTACT
TAAAATAYGGGATCCTGAGGGATGGCTCTTAATGTTATATGCCCATGGCTTATAAACAGCCTGTAGTATGATCGTTCTGTAATGTATAAAGTGCATTCTG
AGTCTATTTTATTCTGGAAAACTAACTGTCTCAAGTGTTTTGATGTGTATACCATTTTGTTATATAGTTTGGCATTTTATTATTGGTGTCACTCATCAAA
TTTGGTAAAACGGGCATTCTCATTTTTTTCCAATGGAATTCTCACAAGTTCAGGTAATAACCTATCTCTCAGATTGTGGAGTTACAAAGTTGACATTTCT
TTATCTTGCTGTTTATATTCAGTTATAAGATGGGGGTTAAATGCCTATTCTTGGCAAGCTAGTAGATCTTACGGTGAGCTGTYACTTGCTGTATGATCAG
ACAACCCAACTTATGTCACCAATTCTAGTCTGCAGTGTTTGGTGGGACACAGACAGCATCCTTAATGCCRTGAGGTTCTTGATGAGGACGTTTTGGGAGA
CGTCGCAAAAATGTAGACTTCTTTTGGGAAATGATGACCCTGCTGAGCTTTGCTCCGCAGTCGAAGAGACTAATTGGCTTGGTGTGAGGTGGGTGCAGCA
GGGAGCTTAGGGCCATCTCCATAGCAATGACCCTTCTCTGGCCTGGGTCACAGCCTCATCAGAATTGTGTAACGTCTCCACATGCACAGATTTGAAGGAA
AGTGGAAAAAGAAGAAAGGGGCAGGAAAATGAACTGATATTTGTTAAATACCTCCTAAGTGCCTGGCATTGTGTAGAGAAGATTAAAAACATATAAYACA
CATATGTATGTACAGATGTATAAGGACATTTATATATGTTTATACAGACATACAATAGAAACAGTATGTTTGATGTTTCCTCATTAGACTGTGYTCATCA
CAACAGCTCTGTGTTATACGTATTCATTCCTTATTTTACAAACCAGCAAAGAGGCTTGAAGAGATGAAGAGTCTGGTCCTAGATCTYCCTGAGGGTGATG
CACTGATGTTGAAACAGGAACTTTCTGCCTGTAATGGTGTGTGCTCATTTTTGTTGCTGTTTCATGGTTGCTTAGTTGGTTTGTTTTCCGTGGTTCTCCA
CAAAGCCTCCTTTAAGGTTTGCTGCTGCGCTTTGTTTCCCCACTCCCCAAGAGAGAGYTGCATGGATAGAATTAAATATGGAGGCGGGGCAGGCAGAGAG
GCCATGATACTGGAGAAATGTAGGACCATATTGAGAAGAGTTTGTCTGTCAGAAGTTTGGGCTTGTCCTGGGAGAACAGGGAGCCATTGAAGGATTTTAA
GTGGAGATTCTAAAAAGGTGCAATTTACGCGTGTAGAAAATGGATTGGCAGCAACCAGTTAGGGGACTTTTTTTCACCTGTATGGTTTTTATCTTAAAGA
AAAGATAGATATGAAATAAGTATGGCAAACATATATGTTCATTATTTCATCCTTTGTGCTCTTCTGAATTAAAAATTAAAGTATTGAAAATAAATGAAAA
TTCTCTAAATCTGGGAGGGACAGGGATTAGCAAACAATTCAGTCTAACGAAGAAACATCAAATAAACCCAAACTGAGAGGCATTCTATAAAATAACTGGT
CTGTACTTTTAATGAAAGAAAAAGACTGAGGAACTGTTTCAAATGAAAGAAGATTAGACATGACAACTAAGTGCAGCGTGTGATCGCAGGTTGGGTCCTG
GCCTAGAAATTTATTTCTCCTTTTCCATAAAAAGCATTACTCAGATGACTGACACAATTTGAATATCCGTACATAGATAGTAGCATTGTATCAATGTTAA
TTTCATAATTTCCATAAGTGCACTATACTTTTGTAAGAAAATATCTTTGTTTTTAGGAAATACATACTGAAAATTATTTCAAGGTAAAGGGGCYACATGT
CTGCAAATTACTCTCAAATAGTTCAGAAAAAAAAAGAATGACATATATTTATAGCAAGAAGAATGATAAAGCATATATGTTAACATGTTAGCTTTGGGGG
AATCTAGGTGAATGGTGTACAATAATTCTCTGTAGTATTTTTGCAACTTTTTGATATGTCTGAAATTATTTTAAAATAAAAATTAAAAAGAATTTGGTGG
AAGGAGGAGCGGGAGGGAAGAACCAGGCAGGTCTGCCTCTTGTCCTAGGAGGCCAGGGTTGAGGTCCTAGATGAAGGAGTTACCTGCCAAAGCTGATGTG
GGGACTTCCGGTGGCGGGGGGGAGGTTGCGGGTATGGGAGGAGGATCTTAGGGACCAGGGTTGCTTTGCGGTCTGGCAATTATGTGATCCAGAGTTTGTG
AAGGGTTGCAATCTCTCCTTAGCCCAGTTGCCCTTATCTCTGTTAATGGTGTTGGTGTGTCACCAGGCCRTGTTTTTCTATTTTTTCTGCACATACAGGT
GTAAGGAATACTTGTAAGTTCATTGGAATAATGAACTCCAAGACTGAGGCAGAAGGAAAATGACCCGGGTTAAGGCAAGGAATGTAGGCTGAGGAAAGCT
CTCACTAGGGACGTTTGCAAGAATTAGGAGCCTCTCTGGAAATGAGAGCAACTGCCACAGAAAATGATTTACATATTTTTTAAAAGTTTTGGGTTTTTAA
TGTTTGGCTAAAGGAGGTCTGACTTAAAATGCGTTGCTGACTTAACTGTCCTAGGAGGCCAGAACGAAAATGTGACCTCCCTCCCAGCTCATTTTATTCA
TCACTGCCCAAGGGAAGGGAAGAGCTTTTCAGCTGCAAAGAGACAGTAGCTTGCAGACCATATTTGTAGGAGAAAGGAAAATGTAGCAGGGTGTGAACTC
TGACAAAGCAATAAAAATTGGGGGATGACATCAATTCTTGGTGCAGGACATAAAAGTGGGAGGAGAGGTGAGGGAAGAAAGAAAGATGAGAAGGACCTGA
AAATCTGACAAGAGATCTCTTCTGTGGCTGTTGTTAAACATATAGTAAGCATTCATGAAATTTGGCATTTGTTTTCTTTTGCAGCAAGCTGAAGAAACAA
AGCTTAGTGGAAATTAAACAAATTAACAGAAGCAAGTGCAGATGGGCATCATGCTAAAAAGAAAGAAAAAAGTAAATTGCCTTCATTTCTATTCCATGCC
CTCTAACACTCTGTGCTTTCCAATCAGCAACATGAGTTGTGTTATTACTGGCAAAGATGGACACTATATCCTAGCAGAAGACTTTTACAAGGAGTAAAAA
TATATGAACACACTTAGTAAATTGACTTAGGCCATTCCTTTAAGCAAATGTTTGGTCCTTCCAGATCATGTAAAAAGATAAAAAAGGAAAAAAAACAGAT
CTAGGCAATTATTTGTGGACTAGATTTCTGCTTGAAGGGTGAACAGGAAGCAAAGCAGGTGGAGGAGAAATGAGATTAGAACAATCAAAATGAACTCAAA
TAAAAGCCTGGTTGAACTATTGAGAGTTTTGAGGTTTTGTCAAATGTGGTAACCACTTTTTAATACCTTTAAACCGTGAATAGAGGATTCGTTGTATAAA
TTATGACATGTCCTTACAATGGAATGCATGCAGTTTTTCCCAAGGATGAGTTACTTCTCTATGTTTTGACATGGAAAGGTATCCAAAATAGAATATTGAG
TTAGTTCTAGTTTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTTTCCGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCTGTGGCGAGATCTCGG
CTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTTTCCTGCTTCAGCCTCCCAAGTAGCTGGGATTACAGGCACGTGCCACCACGCCTGGCTAATTTT
TGTATTCTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCTTGACCTCGTGATCTGCTCGCCTTGGCCCTCCGAAGTGCTGGGAT
TACAGGCGTGAGTGACCGTGCCCAACCTGAGTTAGTTCTAGTTTTTAAGGAAATAACTTATAGTGCATAAAAGAAAAAAAAAACTGAAAACACAGATACC
AAATTGCTAACAATATTTATGTCAGGGTAGGAATGAAGATTGCAGAAAGATTTTCAGTTTAGATGTCCCACACTTTCATATTCTTAAAATATTTTTAAAT
TAATGTGTTTTTTTATAATCAGAAAAAATGAAGCTATTGGTGCTCTGAAAAAGAAAAACAATTGTGGCGAAACTTTTGAAAAAGCAGAGAAGAAAGGGGT
TTGGTTGTAGAGTATGATTACAAGTCAGGCTAAATAGAAGTAGAAAAGCTCAGCATTCATTAGAAAACAAAGAAAGAAGTGCTCCAGCAGAGCCAGCCCA
TCCAGATAAGACATGGGATCTGGCTGTAAATTATTAGTGTGTGTTTTCAGCATCTACCATGGACCTCCCCCCGCCAAAGGTGCACAATTTGCACACCCCG
GCTATGCCTTATTCATTTTTGTATCTTCCTCTMAAGTACATGCCCATGGTAGATGTTCAGTAAATGATGGTAGACAAAGCTCGGAAGACTAAATATGAGT
GGGTTAAGATGGGAGAAAAACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATG
GTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCGGGAGAATGGTGT
GAACCCGGGAGGCGGAGCTTGCAGTGAGCGGAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAA
AAGGGAGAAAAACGAGTAAGCTATGAATAAGTAACATTACTTTYAGAGAGCTTAAACTCATTCTAGTAAAATCTCAGAGAGGAAAAACTGTGAAATAGGG
GGATGGGAAAATATTCTCTGGCACTTGCTCATGTGTGTTTGTTTTGCCATCCTTCAGATTTTCTTAGTGAGACTTAATTTATGTTTTCTCAGTTATAGCT
TTTCTTTTGTATCCAGTTGAACGTTTCAAGCCATCTGCCATGACAGTCATATCTTTGGAACATATTTTGGCCTCCTTGCTCCTTCTGCACTCGCCTTTGT
TTACCCTGTCATCACGCTGACTCCTCCAGAGACTCCAGTGTGGGCTCTGTCCTTCCAGCATTGAACTGTGCCCTGCATTCTCTTTCCAGATCTCCTTTTC
CACTGAAGGCACATGGAGGGATATCATGATTCCATTTCGACTGTGCCTTTTCTAGGTTCATATCTCTCAGTGGAAACACAGCATCTCTTCTGAGCCATGG
GTACAATATATAAACATCTATGAAAATCAAGTGTTGGTGCTGAGAGTGCAAATAGCCTATTGTGAGTGATTTTGATTTCTTGGCCCCATGGGTCATGGTA
GGAATCTGGTGAATTCTATATACTCTCTTTCCAGAAAAGTGTACACACTTGAAAAACTGTGAACAATTCCAGGGAGTTCACAGGCCATCCTGGAGCCCAT
TTATATCCCTAAGATTATRTATTCCTGCATCCCTGGAACTGATGCATATTCTGTTAGGATAGAATAAAAGAAGGAGTTCACTGGAACCAGAATGCAACTA
GAATGCACTGGAACTAGAATGCAACTAAGTACAAAAAAGCAGGCCGGGTACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGTCAAGGCGGGCGG
ATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCGCATCTCTACTAAATAATTTTATAAATACAAAAATTAGCCAGATGTGGTG
GCGTGTGCCTGTAATCCCAGCTACTAGGAAGGCTGAGGCAGGAGAATCGCTTGAATCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATGGCACCACTGCTC
TCCAGCTCAAAAAAAAAGCATATTTCTAGCATCAGCTTCACACTTCAGACACACTGGAGGCACAACAAATGGAAGATAAAGCCAGACTGGAGTGTTGCAG
TTACTATCATAACATTACAACTGGAAGGAATAGTTTGTTTGGTAATACAGCTTGTAGCCTATAGATACACAGCCAAGTGAATTGTACACTGTACTTTGGG
TGCTTCTTAAATATTTGGGACCAAGTCATTTAGGTTTAGGGGTATGTCTGTGTTTGTGTGTGAGAAAGAGAATGAGTGTCAGTGTATATTTTAAACAGTT
CACAGAACTTAAATCTTAAAATGTCTATCTAAAGGGAAAAAAAGGATTTCGTCTCCAAATTTATCTTTGTGTTTGTAATACGTATATGTCTTTGTTCCTT
TTGGCATTATGGACACTAACATGTTAATGTTGCTGGTCCTTTCCAGGGTGGACAAGCTTCATTTACACGATATCTGGAGATGTGTATATTGGTAAGTTAT
GGCTGTGTCACTTAGGGCTCAATTGCAATTTAATTTAAACTACTGAAGGGAGAAAAGGTAGGATGACACCATTTTATGTAATTGAATACTATGCCACCTT
CTCTCCYACACTAGCCCTCTCTATATCCCAGCACAGGTATGCCCAGGGCAGGGTGCCTTTCAGCTTACAGAACATTCAGTGAGGGAAGAGAATATGAACA
CCAGTCATGACACATCCTGTGCACAGATGAAAGTCCAGGCACCATTATGTGTTTTGATACCTCGCTAAGACGTTGGCAACCTCCATACTGATAAAGGGAT
GGAGCTACAGTGGACTCCAAGGGGAGCAGGAATCTGCCTATCTCCTGGGAGAAGGAAATGGAAGGAGGTGAATTTGCAATGCTAGTTTCCTCTGAGAAAA
CTCAAAAGTGGCTTTTTTCTCTTCTTCCGAGGGTTGTATATATGTTGCTTGTTGAGTCTAATCAAGAAAAGATGTTTGAGACCTAACCAATGCTCATTTT
ATAGATGAGGAACGTGAAATCTAAGAAAGTTGTTTAACTTACCAGGGTTACGCATTGGTGGATGTGGGACCAGAATCAAGGTCTCCTCAATCCTGCTCTC
CACGCTTCACCCCATACCTTTTGTYCAATGACAATGCAGAGATAGCACCATCTAACTTGTCTTTTCAAGTCTAAATCCCTTAGCGAACCCAGCAGCAGAA
GGGACAGAGCGGGTGGGAGAGAGGGGCTTGCAGAGCAGCCTGGTTCCTGCCTGGGTCTCCTCCTCCCCTTCCCATCCTCCTAAAAGCAGCCATGGGTTCC
CGTAAAAGGCTCTTGGTAGCACTGGGAGAAAACAGCTATAGCAGATGCTGTTGGTACCCCACCCACACCCCTGGGCCCTTRCTTCCTGAGTGCCCACTGA
CCAACTAATAATAGCCAGTATCTGTGTCACTTYGCTTGAAGGCTTTTCTCTGAAACCAATCAGGGCAGCATGAAAGTACTGGAGAATTAACATTCCCAGA
AGCTACCTCACCCATCAGACAGGATAACTCTGAAGCCTGTGTGAAAAGCCATTTACTAGTTTCCCAGTGGGATTACAGCCAAGCCACCTGAGTGTGCTTG
ATGACATACCCTTCGTTGTCTGTCTTCCCTTTTCTGTCTAACTCTCCTGACTCTGGACTGTTGTTTCCTGAGATCATCTCCCAGATAAATTCCTTGTACC
AGAATATATGCATCTCCAGTTATACTTCTGAGACAGCTCAGAGAACCAGCCCCTCGTTTTCTCCTCCTCATCCCCACAGACGGTTATGGGTGGTGTGGAT
GGGGTGGGGCATCTCAGGGTACAGGCCAAGAATCCCCATTTCTGAGACCCTCTGCAGCTGGGTGCTCTCCACCCGCTCCTGCAGGGATGCCAGCACTGCA
CTTTCTGGGGCCCTAACATGGCCACCTCCTTGGGCAATACACTCCCAGCTCCAGGCAGCTGGCTGACAGATAACATCTGCTCAGGGATAGAAGGCCACAC
CCAGAGCTATTTAAACCATTCCTTKTATTCTCCAAAAAGGATGTTCAATTGCCTGAAATTATTCTTCTGGAAAATAATTGTAATGCAAACTCATGCATTT
TGAATTTATTCCTAATAAAGTACAAATGGGCTTAGTTCCCTTTTCAGTGAATAGCATTTCAATTAGGGGTCAGGAGCAAAATTCATTTAGTTTAGCACTG
GAGAAAGTGTGAAAAAAAGTCTTGTAGTAGTATCATAAGTTTATATGTACACAGCTTAAACTATATTAACCATCTGGAAGAGATGATATATCATTTGTTT
TTATGATCTTCTGAAAATCCTGAGAAAAACATAGTGCTTTATAAAAATAGAAAAAAACATTTTTATGGAGGTAGTGCTCCCGACTTATGATTTCAAGAGC
AACAAAATAATCTACACAAATGGAAATGAAGAAAGCACATGAATTTTAAGGTGGTAAGGATAACAGAAATGTTTGTGCAGAATGAGAAAAAGCAGGGAGA
AGCAAACTTTCTGTAAAAGGACAGATCACAAATATTTTCATCTTTGCAAGGCATATAGTCTCAGTTGCAACTACTTAGCCCTGCCCGTGTCTCACAGAAG
CGGCCACAGATGATACATAAACAAATTGGGTGGCTATTCCAATAAAACTTCATTTATGGTCACTGAAATGTGAATTTCATGTTTTTTCATGTGTCATGAA
AGRCTTTTTTTAAGTTTGTTTCAACCATTTATAATAGTGAAAATTTTTCTTAGCCTGTGGGCTCTACCAAAGGTGACAGTTGATTTTGGTTTAAATGAAT
TGCAGGGAATGAAGGGGAAAGAAATTAACGAGTAATTGCCAAAACCTGTTTTAAGCAGTAGTTAGAGCCTTGTTTCCTGACAGACCTTTAGCCTGAGAAG
TTAACAAGTGAAATGCTCTGCAGTTCTCGGGGTAAGAATGACCCACACATCCACTTGTTTTTCTTGAGATGAGGCAGGATTTTCCTGAGTCATTTCTATT
TACTGACCTGGTCCCCCCTCGTGACCATGGGCCACAGTGCAAAACATCTGGCAAGGGATGGGTCTGTAGCCTTGGAGCAAAGTTGCATCTGTCTAGAATA
AACTGGACTGTGAAGAGAATCCAGCTCACACAACTGGCCTCTTGGGACTGTGCTTTAACCAGTGAGTGGCTGGCTAAATGACCTCATTTGAATTTTATCT
CCTTCCCTTCCTCCTACCAACACCCTAATGGGGGGGCGGTTAATGAGAAAAACAAAAGGGCAAGAACAAATCATCAGGGAAAAAGAAATGACGAAACAGA
AATAGCTCTTGAATATGTACTGACTTATAAAATCAATAGAGAAAATCCAGAAAATGTTTTCTGACTTCACTGCCTCAATTTTGTCTTGCTTATAAAACTA
GGTTGGCACCAACGAACCACAGATGGCAGGAAGTGATAAGCAAGGAATTGTCTTTTTCGAAATGTCAAACATGTTCAGTTGAAGTAGATGTAATGAATAT
ATATATACTTGGTGTATCGGGCTGGAATAAATGGGCTGCAACTTGGGTTGAGGAAATAATCTGAGGAGACTGCATAAAATGGAAATTTAGGAGGGCTATT
AAAATATTAACTGATTACAGGAAGTGCTTAAAAGACATTGATAAATTTAGTTTGACTACAAACAGGTGGAGTTTTGAACATTAGAAAATGCTCCACAGCC
GGGCATGGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACTTGAGGCTGGGAGTTTGAGACCAGCCTGGCCAACATGGTG
AAACCCCTGTCTCCAGTAAAAATACAAAAATTAGCCGGGTGTGGTGATGCACGCCTGTAATTCCAGCTACACGGGAGGCCGAGGCAGGAGAATCACTTGA
ACCCGGAGAGCAGAGTTTCAGTGATCTGAGACTGTGCCACTGCATTCCAGCCTAGGCAACAGAGCGGGACTCTTGTCTAAAAAAAAGAAAAAAAAAAAAA
AAAGAAAATGCTGGATGTTTAACTAGTTGTCAAAGTAAGTCAGTCATTTTAAAGGTAAAGGTAAGTATTGTGAGGCTATGTAATTGTCCTCTAATGACAC
CCTGAAGAAAAAGAGTTAACAGAGCTAAAATAAGACTAGTAGAATTCTCATTTTCTTATTCAAAGAAAGTATTCATTTGAGACTCATCTGAAAGTACTCA
CTTTATGCTTTTCAAGGATCTTCTTAATTTTTAATATATTTGCTTTTTCCAACAATGAAGAGCCTTCTAAACTGACTATTGAATAGTAATTTTAAAAAGT
GTGCAATAGAGGGAGAGACCTTTGACAACAATCTTTTGCTAAGGCAAAAAGTTCTCTGACCAGCCCACAGCTGGAATCTGTGCATCATATGATAAAAAAA
AAAAAGTCAAAAGAAAATAAAAAATACATTGTCAGAAAACCAGTAGATCCCACAGATACTAGTACCAAATCTCTTCCCTGCAGCTGTGCTGGAAATTACT
TTACACATTAATGCAGAGATCAAAAGGATAGAAAAGTTTACATCCTGTATCCTTGTAGCTTGGTACAGTTTATCAGCTTGAATTCTAGTCCCCTAGAAGG
CCTGATATCAAGTATACTGTTGGTGCTTAGAAAATATTTAGAAATCTAAAAACATTTGTTTGTGTTTAGTGAAATGAACTGGCTTACAAAGGCAGTAAAA
TGTTTTGAATTCATTTAAATAACTAATGATTCACGCTTAGTTTGTGCTAAYGTTTTGAGCACAAACTTCTGTGCTCTGGTTTTGGGTGATATTAAGCAGT
TTGAAACGGGCTCTGGATCTTGCAGTAAAGGCGGGGAAACACAAATGTGCACCAGCAGGCCTCATAATTGACCTCCATTTATCCAACTAACYGAATTGCC
CAGTGCTCTTCATTCTATGGTGAATACTTTGAGGAAGGTGCTTGAACACCCAGGATGATCCGCTCCTCCCTGGTCTGCCTGCTCATAGCTGCTCCCATCA
GCTGAGTTGTAGTGGACTTAAAGGCACCTATGTTTGTTCTCAGTCCATTTATGCTAGTTGCACCAATAATTGAAATTATGTAATTTAATTRAACAGTTGT
AAATTAATTAAATAAATGTGAAAAGAGAGTTGGTATTTCCAGAACAACTAAGGCAGATGCTTTGTAAAAGTGAATTGCTAAAGGAAATGCCTTTGACACG
GAAAGACAAACATCAYATGTTCTCAGTTCTTTGTGGGATCTAAAGATCAAAACAATATGAACTCATGAACATAGAGAGTAGAAAGAAGGTTACCATGAGT
TCATGAGGCTGGGAATGGTAGTTGGGGGCTGGGCAGGGGGAGGTGGGGATGGTTAATGGGTACAAAAAAATAGAAAGAATGAATAAGATCTACTATTTTA
CAACATGGTGACTATAGTGAATAATAACTTAATTGCAAATTTTAAAATAACTACAAGAGTGTAATTGGATTGTTTGTAACACAAAGTATAAATGCTTGAG
GGGATGGATACTCCCCATGCTCCACGATGTGATTATTCTGCCTTGCATGCCTGAATCAAAACATCTCATATACCCCATAAATATATACACCTACTATGTT
CCCACAAAAATTAAAAATTTAATAATAAGAAAATGCCTTTGAATTTGTGAAAGATTTGGGGAAACTCTAATAATCTAATGGGTGGTGCATTATGGGTATG
CTTTTAAAAGAAAATGCTTCAATCAAGTCAGTAAACCCACCTTAACTGTATTTCTTTCTTTCTTTTTTTGCATTCAAGCACTCCTCCCACCTGTCTCCTG
AGTAGCTGGGATGACAGGTGTGCACCACCACACCTAAAAATGTTTTGTACAGACAGGGTCTCCCTATGTTGCCYAGGCTGGTCTTGAACTCCTGGGCTCA
AGCAATCCTCCTGCCTTGGCCTCCCAAATTGCTACAGGAGTATTTTTAAACATTTACAAACAAATGCACATTTATGCTTTCGTTTAAAATAAAATGTTTG
AAGCAGTTTGACTGTCTTTTTCAATTAACAATCTCAATTGCATCAGATAAGAAGGCTTCAACTATACATATAAAATTGATAATATCAAACCTATGATAGA
AGTACTAGAGTGTACGGAACAGAGAATAAATAGGACAGCAATTCTTATAAATAGAAAAAAAGGAAAAGAAAAATTGGCATTTGCAGAAAAGTTGTACAGC
AATTAATCAGGCACTGAAGATGCAGCACTAACTTTACAATAGGTTTTGAAGTATTTCGCCCTTTTATGACTATTTAGGCAAAAAAATTGCAATTAAATTG
TTTTCAGTTAATTTTTTCCTTAACTGTGCTATTAAATTTAACATTCTTGGCAGTGATTCCCAGTGGAAACTATTTGTTATCTGATTTGGCTCTATTTATC
ATTGAAAGTAGTCAGAAACAATAAGATATATTTTTTGAGACTTATTTTAGGTTCAGGAGATAACCAGATGGGCGAATAACATAAAAATGATCTGGAAATA
AAGATAGAATCAATCTTTGCTTTCTGTGACTGTGACCCTGTTTTAAACATTTCATGTAATAATACAGAAGCTAAAAGTACACTTGCAGTTATTATTAACC
TGGAACCCTGACTCCAGTGTCTATAAGAAAGGTTTACCTTGGTTAGGCGCAGTGGCTCATACCTGTAATCCCAGCACTTGGGGAGACTGAGGTGGGAGGA
TTGCTTGAGCCTAGGAGTTTGAGACCAGCCTGGGCAACATAATAAGATCCTGCCTCTACCAAAAAAATTTTTTTTAATTAGCTAGGCATGGTAGTGCATG
CCTGTGGTCCCAGCTACTTGGGAGGTTGAGGTGGGAGGATCACTTAAGCCCCAGAGGTTGAGGCTGCAGTGAGCTGTGATTACACCACTGCACTTCACAC
TTGGCAACAGAGTAAGACTCTGTCTCAAAAGAAAATAAATAAATAAAAATAAAGATTTACAGCAGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTT
GGGAGATCGAGGGGGCAGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTATTAAAAATACAAAAAATTAGCCGGG
CTTGGTGGCACATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGAATAATCGCGGGAGGCAGAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACT
CCAGTCTGGGCAACACAGAGAGACTCCATCTCAAAAATAAATAAATATATAAATAAATAAATAAATATTTACCTTAGAGTGGAGCATTTCAAATGACCTC
TTTAGTATCAACACTGAGATTGCAAAGAGAATGGGCAGAAATTGCATCCCACATACAATTAGAGTTAGAGCCCCTTAGACAAGCTAAACTTTTTGTTGCT
GAATTAAGATTTCCTCACAGACCAATGAACACCATAGTCAAGCAAGCTCCCCTGATAGGGGGTGCAGAGAAATACCAATTCAGCATTATTTTTGAGCACT
CTTTTGCCAGCTCACTCCATTAAAACATAGCGAAGGGGTTTATAAACTGTTTTGGTATATGTATCACGAAACATCCTACATGACAAAATTATGGGCCAGG
AGTGGACCACGTGGGTAATGGGTGTTATACATGAATTAGTTGAAGATAAAGACATGTTTCATTGCTCCCAGGGGATCTCAGTAAAGCACACTTAATGAAA
TGCTGCTCTGTATCACAGTTGAAAATATTACTCAACTCTAAATGAGATTTTTTTAAACTCCCAGACCTCTCTTCTATTGCCAAATCCCTGCATAAGTGGA
AAATCAATGGAGTTCTATCATTTGTTTCCATGACGTTTGTTGACCTAAATCTTTGATGGAGGAGAAACCTTTAGTATTATGCTGGGGCTGGCTCTTGCTA
GCTTGCAGGAGCTGATTGTGTGCCTTCCCTGGCCTCACATCAGTAGGTTGAAATTGGCCACAGTGGGAGTATTTACACCACAGATATTGGCACACACTAC
GGGAATCAGGTTAGTTCTCCCCTTTACTCCTGAAAGCCAACTGTTAAACATTATCCAGCACACTACTTCCTCTGGGACAGAAGTTGTTAATCTTTTTACT
GCCATGGACCTTTCTGACATCTGTGAAGCCTCCTGCCTCCTCAAATAATGTTTTTAAAGTCAGTGCAGTTATGAAAATGTTAAAAGAACAGGTTTCGGAT
ATAGCTATATGTGTGCTTCTTTAATGACATTTGACATAACATGATCTAGTAGCAGGCCTGCTCTAAATTTTAAGTAATAATTAACATAAACTATATTTTG
AGATATCTACAAAACCATAATGTGATATGAAAATATCTATGATTTCTGCTGGAGACAAAGTCATCAGCCCAGCTAATACTACTGTGGCTTGTTGGCTACA
TTCATGATTGAAGGAGAAGATACGTTTCAATTTAGGTGTTAGTGAAAGTAAACATGTAATTTATCTCCTATCAAAGTCCACCCATGCCCTGAATTGTATC
CATAGACCCCCCTTGGGAGGACATTGACTCCACGTTRAGAACTCCTGCTCTGTTAGAATCCTATTTCATGTTTGCAAGCATCAGAATGAACCCTGCTGCC
TCATATTGGTTATTTCCAAAGTGGAGGTGAGAAGGTCTTCTCTAGAAAATATAGTTGTTTGGACTCCAACAAATATGTCCAAAATTCACAAATTATGTTT
CTGTTTACATAATAATTGCTCAAGCTATTGTTTTCATTTAAATAAGCATTTCCTTATTGATTATTCAGCTCCAACTTGTCACATGAATGCCCTTATTTAC
ATCCCAAAAGGGCATGCAGGTGTATCTCCCAAGACATTTTATGGGCTGCTCATTCAATTTGAAACCTTCTCTCTCCTGCCCATTAACATATCAGGGTTTT
TCCCAACTGCAAGACCTAATCCAAATCTCACCCCCTCTCTACAGCCTTCTGTGGTGCACTTTGGCCTCTCCAGTCTGTAGCCTTCTCTTGCAGAACCACT
CTTGCAATCTTCAAGTCACTACATTCTTCTGCTCCTAGTGAGAATCATGTTAGAATTTTCTCTCTCCAACTGTTGCCAAATCCTTTAGATTTCTTTTTCA
ACTCCACCTGTCAAATCCATCCCTATCTTTCTGTTGCCACTTTCTCAATTCAGAGTGTAATTCATTTTCACTTAGACTGTTACAGCAAACTCCTAACAGG
TCATCCTAACTTCAGTGTTGTCCCCTCCAATTCACTCCACATTCTGCCATCATAGTCATTTCTCCAAGACACAGATCTGGTAATTTCACACACACACACA
CACACACACACACACACACACACACACCCTCCCTCCTCAAGGGCTGTCAATTTTATACAGATAAACATGGGTTTAAAGGCTTTCCCTGATCTGAAGACAG
CTTACATTTCCATCGTTCTTCCCAAAAGACTGTTCCAAGAATGGTAGAATTTTCACTGCAATCTTTTCTCTTGTCTAGAATGCCCTTTCCCCCAGATTTC
CCTCTTGTGGTTTATCTAATCCTACAGARCTCTGTTCAAGTCTTACCTCCTCCACAACAAATATCTGTGGTCCCTAGACCTGCACAAGCCCCCATCACCC
CTGTTCTCTTATTGAACTTTGCTTATGAATTTATCGTTGCCTTTAAGAGACACTTTCATTTGTATTATTTTATTTGTAAACCTCAGTATAGAAGAGATGG
AAATGTATCTGTCCTGAATATTCCCACAACATTTAGAACAGGGTCTTTTTTTAATACTTTAAGTTCTAGGGTACATGTGCACAACATGCAGGTTTGTTAC
ATAGGTATACACGTGCCATGTTGGTGTGCTGCACCGATTAACTCATCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCCCCTACCCCCACCCAA
GGGTCTTATTCAGAGTTCAATAGCTATTATTCAATAGCTGTCCAACTTACTTATTTTTCAGTTGAATTATTCTCTGATTATTTTGTGTGTATAGATTTAG
TTTGCTCCAGCAGGATTTTGAATTATTTCTATGAAAGGAATCTACTTTGCATGTCTCTGTATTGTCCCATAGTGCTAGGCAATTGTAGGTACTCAATTAA
TACTTGTGGAAATGAATTAATTATGGCATTTGATAATTTTTCTAACTATTTTTAATTCTTATAAAGTTTATAATTTACCTAAGGAAACATGAGCACATAA
TGCCAAGGACTTTGCTTATCAATTAAAGTGTAAATGGAAACACAACGCAGGATTCATCTCCTTGTCCTTTTTCAAAATTGAAAACAAACTAGTTTCAGGC
TTTAATAATAGCAAATATAATTAACCAAGAGATTCAAGGRAATTASTAAGTCCATTATTTCTCAAATTAAAATAAATGTTGTGGTGCTATATAGTTAACC
AAATAAGTAACCATATAACAAATGTACTATAATGGGTATTAAATTAGTGTGTCATTGGTTTTGTAGGGCCCGATGATGCACAACAAAAAATAGAACCTCA
TCACACAGCAGTGCTTGGAGAAGGTGACAGTGTCCARGYGGAGAACAAGGTAAGTATGTTATTTTCCTTTAACTTTCTTAACATGTACTTTCTACTGGTT
TCCAAGAAAATGCCTAAATGTTGTGGATAACTGAAAGTTTTTCTCTCTTCCTTGGAGAAGAAATTATACCAGAAGTTTATCATGTCTTTTCATTAATTTC
TGCTATTTCTATGGGTTTATTTTAAAGTTTTATCTTTATTGATTCTTTATCTTCAGAAATCATATAAAGTCCCTATTGTTTACCCCTGGAAATTTGAATC
TGGAAGCAACACATCTTTGTTGTCTCTTAATTTTCTTTCTTTATACAATTGATTTATTTTGTTTTTAGCATAAGTGAAAATAGATCAGCCCTATAGAAGT
AGAAATATAAATCTACATGCATACTCACATAGAGCCCTTTGAAAAGRATCCCCACCTTGGCCGGGCGCGGTGGCTCACGCCTGTAATCGCAGCACTTTGG
GAGGCCRAGGYGGGCGGATCACGATGTCAGGARATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTGTCCACTAAAAATACAAAAAATTAGCCGGAC
ATGGTGGCAGGCGCCTGTGGTCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATGGCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATTGCGCCA
CTGCACTCCAGCTGGGCAACACAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAGAATCCCCACTTTGAACTGAGAGGAAGATAGGATGCATTTCATAGT
CTTTTTGTGATGAATCCCTGCTCTTTAAGTAAAGTTTCTGATATTTTAGGAGTCTTGGGAGGTTTTTATTCCCAARTTTCCARGTTTCTTTCTCATGTCT
ATTTCATTCCCTTGAGTAATTCAGTCACCATGTTGTGAGTCTGTTTAGTCAATCTGACTGCTTTATGTCATTCTTATAAAGAGGATTGAGGAGAAAATTG
TGCAAAAGCTCCTGAAAAAAACAAACTTTGAAAACTATTTTAGTGTGTGGATGACTAGTGCCGAGGCAGTCGGACTGACTTCTGGCCTTCTGACCCTGCC
TGTTGTTATAGAACACAGTGGATTTGAGGAGTTATTAGATCTTAGCCCACTTTTCTGGCAGCAATCTACTGCTGCTTTAATCATCTGCAGCACCACCATG
AACTGTGAGGTAAACGGAAGAAAAACCTGATGAGCACTAGAAAAATGCATATGTCAGGGTCAGTGCCCTTTAATATTAGACTGAGCCATATGAAACTGCG
ACTTTTGACCGACAAAAATGTCTATTTTATATCTTTCAATCCAATACAGGAAAGAGGCATGAAAGCTACACATAGGCCAGAACCTACTAATATCAGAATG
GTTTGTAACATTATCTGGTTTAACTTGGCAACCTCAGTTCTTCCTATAATACACAGAGAGCACATTGCAGATAAGGAGTTGGAAGCTAAAACAGAACACC
AGAAAGAAGTGATGAAGGGAGTCAGAAGAACAGGTGCAGCCAACATAGAAAAGAGTCAGCTGAAACCATCAATTCACTGGCAAGCAGCACTCCTGGCTCC
AGTGGCATCGTTCTGTTATGTGCAATTCTGTAATTGTTGCTGTGTATAAGCATAGCCTGAGCCATCAAAACCTTAGAAAGATTTCTATGAAAAAATTGAT
ATTAAAAAATCAGCATTTAAAGGCAGCATGTGTCACTTATATCCACACAATAGTAGAAAGTCCCCTTTAGATTACAGCAGAAAAGAAATTCTGAAGGTTT
GAATCTTGGCTTTACTGCTTGTTAGCTGTTGTGACTTTGGACACGTTTGTAAAGCCCTCTGAGCTTCAGTTTCTTTGTCTGCAAAATTAAAATAATACTG
CCAACTGCAAGTGATTGTTAGAAAGAATATTTGAGATTACGTATATTACAAGTCTACTCCAGATTGAGCATGGGGGTCAGTAAATTATGTYCAATAGGCC
AAATCCAAACCTTTTTCATAAAGTTTTATTGGACCACAGCCACACCCATTCGTTTYCATATTGTCTATAGGTTCTTTTATCCAATAACAGTGGAATTGAG
WAGTTGTGACAAATAAAGCCTAAAACTCTCTGGCCCTTTACAGAAAAGGTTTGGTTTACTACGTTGTAGATGCTCAATAATGGTAACTGGAAAGTTTATG
AATCCAAATATCTMATTTGATAGTCATACCACATRCATGTTACCTAATAAGGATTTATACAGTAGACCTGAAGGCTTAGGGCACATAACAGTTTCTACAG
GTAGAAGAAGGCTCCAAGAGACCCTGACTCACTCACRCTCCAAGCCAGTGTTATCCTCACTTGAACCTAGCATTAGCCTGAGGATTTGATAAAGAAGGAA
GATGTGACTGCCCAGTGCCGCGCCAATCCCATTTCCACTAAACTGTGGTCAAGAATGAGAAGCTGATTTTTTGCCTGGCTTTTTTTCTGGCTCTGTTCTT
CCTGCACTTTTACTACTCTTCCTTTCTGTGTTCTCCACCATCACACCCATTTGACTACTGGTTGACCAGTAGTATGGGCAGTATCTCCTATAGTGGCCAA
TCTCCAGGACAGGAGAGGAGGACAAGGAAGGGATGATGCAAAAGACTACAGCTTCTTTCTGCCCCAGGTTTCCCTGTTCCATCTTAGAACTTTTTCAGAG
TTCTTAGAGATTGGAATCAACTCCAGACTACTCTGGACATTTAATCCTGGACTGGTACCAGTCATCCCAGAATAGCTTCTGTTTCAAGGGCTAAGGCTTC
CTGTGCTGCTTTGACCTACTGATGGTACTCTGGACTTTCTCTTAAGATGATGGTTTCCCTGATGGCTCCACGATCAGGAGTACTAGAGTTTGATATGAAA
GGCTCCATCTCACCCTTAGGCTTATGTTTATAGTGGTATACTATTGAGAAGGTCTTAAGCCTCATGGATTAGCAAACTCACCCGTAGTGGACCAAGGAAG
ACAATCAATACCTCACTGGCTGTCATCAAAGCCATACTTCACTGTAACAGTGCTTTTTAACTGGCACTATTCATGGAAAACTCATTAATATAATAAAGAT
TAACATTTGACTATATATAGCATTTGATTAAAATAAACATTGAAAGACAGAAATAAAACAAAACATCCTGTTAAAACTAGAGAAAACTTTTTTGCTTGTT
TAGTGTAAAAGTTCATGATGAAATAAACCACTAAATTTTTAAGCTGATAACAGTTACTTGTTTGATCTTTTCATTGGCCCAAGAAGTATAAACAATGAAG
TCTGGTAGGAACAAATGCATGCAATAAGTCATGCTAAAGCACAGTTTCTTTCTGGTAATTTTTTTCAGGTAATATATCACTATAATCAATGTTATTGATG
CAAAAACATGCCCTTCGATCAGCAGTCCCCAACCTTTTTGGCATCAGGGACCAATTTCTTGGAAGACAATTTTTCCTCAGATGGGGGTGGCTGGGAATGG
TTTGGGGATGCTTCAAGCGCATTACCTTTATTGTGTACTTTATTTCTATTATTATTACATTGTAATATATAATGAAATAATTCTATAACTCACCATAATG
TAGAATCAGTAGGAGCCCTGAATTTGTTTTCCTGCAACTAGATGGTCCCATCCGGGGTTGATGGGAGACAGTGACAGAAATAATTCTATAACTCACCATA
ATGTAGAATCAGTAGGAGCCCTGAATTTGTTTTCCTGCAACTAGATGGTCCCATCCGGGGTTGATGGGAGACAGTGACAGATCATTAGGCATTAGATTCT
CATAAGGAGTTTGCAAACTAGGTCCTTCACATGTGCAGTTCACAACAGGATTTGTGCTCCTATGAGAATCCAGCACCACTGCTGATCTGACAGGAGGCAG
AGCTGGGGTGGTAATTCGAGCARTGGGGAGTGGCTGTACATACAGATGAAGCTTCACTACCTCACCTGCCACTCACCTGTTGTGCAGCCCAGTTCCTAAC
AGACCACCAATTGGTACTGGTCCATGGCCTGGGGGTTGGGGACCCATGCCTTAGATTCATACTCAGAGTCCTACTGCCATCTTGAGTTTTATATTTATAG
TTGATCAAACTGAGTAGCTACTCATRGTTTAGAAGTTATCAACATATTAAGTGAACCATAAAACTTTCATCTGGGCTTTGATCATTTATTGTTGGTATCA
GCAGAACTCGAGACATATCTTGGCAAAAATACTTATGGAATAACAAGAGCAACTTAAAAAAGTAAATTATTAAGTAAACCCAGAAGAGCTTAACTCTGTA
CCAGAAACTCTGAAAAGGTGCACCAAAGCAAAAGACATGGTGCCAAAAGATGGTGAACGTTAGTTGGGGTGAAGTAGTAAGTGGACCTCTGCTACTTTTG
TATGGGTTTTTAAAATCAAATCCCATAAAGGCATTTAGAACCATGCAAGGACTTGGGTTTTAAATGGGTATTTAATTCTCTTGGCTTTTGCATGATTTTC
ATCATTTGACACCATAGACAAAGTCATCATAGACAAGGACTTTTCAAGATAACAGCAACTGAGACTTTCAGCCACATCATCACTGTATTTTCTGGAATAT
CTGGAAAGATGATTAGATTTCACCAAAGAAGGCAAGTTAAGGAAAGAAAATGTCATCTAGGTTCATGTTTGCATATTTTGACAGCTAGTTGGGTTATGGA
TAAGTAAAGTGATGGTACATAAATAAATATAGGCCTTGCAATGGTTAAACAGAGACTTTTTAAAATGTAAAGAAGTGATCAAAACATCAGCTTTGATTTA
AAAAGTATTAAATGACCCCAGCCCTGAGATTGTAGGGAGTAAATCAAGACTTTTGAAGAAACCATTCTACCCTACAGTCCCATTTATTTTTTAAGTTGAA
GGCAGGAAAGGGAAACAAATTTCTGTCATGTCAAATACGGTAGTTTTTATTAAATACATGGAAGATTAAGGAATTAATTATTAATTTTATTGAATCCAGT
AATCTTCTGGAACTAGTAACATTACAATAATTTCTAATTAAAGAGCTTTGCATTAATAGAAGTATGATATAGTATAATATTGACTTACATATTTAGAAAT
ATGCTATATTATTAGAATTGGGGTGAAGTTTCAAAAATTTTGAAGGCTTCATTTTAAAGTGCGTAATCATTTTGGCTTTGTTTATTGTTTTATTCTAAAT
AAGATATACCTAAAAGAAGCCTGAAAAGAGATATATAATGTTCAGTTATCTATTAGTGAGTAACCACGCTAAAATTTAGTGGCTTAAAATAACAATCATT
TATTATTTCTCCATGTGGTGGGGAGTTCTAATGCCGGTTTCTCTGGGGTCACTCATGTGGCTGGCAGGCTGGGAGCTGGGCTCTGCTGGGGCTGTTGTTT
AGAGATGCCTGAGTTCTGCTCTAGGTAGCCCCTCCATTTGGCTAGTTTGGGATTCCTCGMGAGAGGGCAGTCACAAGACAGCTTCCCAGAGAGGGAGCAT
TTGCTTATGGGAGGAGCTGTGGAAATGAAGATAGGAAAGCAGAAGCTGGGGAATCAGAGAAGTCACCAACCAGTTAATCTGGAATGCCAAGCATATTCAG
GCACTAAAATGAGGCCACAAAAGAAGTCTAGTGGAGAAGTCTGTAGTTCTGCAGCTTAGTGTCTAGGGATGGAGCTGCGGCCGTTCTTAGCAGAATTAGC
AGTCAGGAAGAAGAGCTGGACATGGCATGCAGGAGGATGAGGACAAGCTAAAGTCTAGCAGCACCTCTGACTACCTGTTACAACTAACCGCCACATTGTC
TCAACTTAACTAAGTTACCAGGGCACAAAACACCACATAGAAGTGTATCTAAGTACATATGTAATTCACTTCTGACGGAACTACAGTTCTCCTTAATTTY
AAATCAAACACCCATTTCTAACAAATAAAATTACTGAAAAGTGTATATATGTATGATATACGTATGATTTTGATAGATAGGACTCTTACAATTATAACAT
GTGAATTACTTAAAATACTTAGTTTTATATAATGAAATGATCTAATGATTGTTAAACCAGAAATGCATTTGATTACAAAACAATTCCCCAAACACAGACT
TTAGAAAATATATATTTTATGTTTCCTTTTAACTTTTAAAATTAGCAAATTTTTGTAGCAATTTGAAAATAATACAGAAAAGCATAAAGAAGAAAATAAA
ATTTGCTTTAATTCTCATTATTCAGAAATAATAAATGCTAATATTTTAGTATTTTTAATCCATAGTATATACATACCATTTTGTGATATTTACAAAACTT
ACAAGACATTATGAACATTTTATTACACACTTAAATATTTGTTGAGAAAATGAATTTTAATAGCCACTTGATAGTTTTTCTTATAAACATATAATTATTT
AACCAACCCCTCACTTTTGGAGAAATGTTTTCAATTTCTGCTGTGATAAATAGTGCTACGACAGTGAAATTCCCTTACACTRTATWGCTAAAACTGTCAT
TACTGGATCGGAGGACATTAGCAATATTGGGGGTTTTGAGTCATATTGTCAAATTGCTCTCTGGAAGGATTACTGCACCAGTTGAAAATCTCCCAAACGA
TATATGAAAGTGTATTTTTCCCTGTATCCATACTAGCACTGGATATTATGGTTAATATTTTTTCCAGTTTCAGGAAAAAAATTGAATCCTTAATTCTAAG
CAAAAACTTTTAGAGACTTTAACGTAATAGGACCCTTTTGGAGGGAAATTTGCTTGAGCAGATGTCCCTTGGATGCTCTGTTTTTATAAGGTTCCATTTA
GTGCAATATTTCCGGGGCATATTTTACATTATTAGTAATAATTTTCAAAAGTAAYAAAATCTTATTTTGGATTTCCATAACTAATCTTCCCTTTTAAAAA
TTATATGGTAACTGAGAAATCATAAATCCCATGATAAGCCATTTAATCACATGGTTTGTCGTGAAGATATTTCCAGTTAAAGAAATCTTAATTTAAGTTC
TCCTTCTTAAATTTGAGAATGTTAATATTTTGGTGGCYTGGACTTATTCTTGAGTTCTACTTGCTACTAAACAACGTAAGAAATAAACATGTCTATATTG
AGTGTTGCACAGAAAATATTTTTGAAAATTATATTCAGAATTAGGAACATCGCCTATTTGGCTAGCATGTCAATTTCAAATTGTTCACAATTTGATCTTC
RAAAATAAGCCTGCTTATTGTTTGATGTTTTCTTTGTTAACTTTAGGATCCCAAGAGAAGCCACTTTGTCTTAATTGCTGGGGAGCCATTAAGAGAACCA
GTTATCCAACATGGTAAGACCAAAATGACAATGATTTTCTTGGTTGATTTTCCTTTTCTTTGAAAACAGTATACATGTATACTATTGTTGGGAAGAATAG
CTGGTTTTTTTTGTCCTGTCTCTCCATCTATAAATCTGAGGATTGTTTAATTTTTCTGTCATCAGAGGGAAATATATATGTGATGTTTATTCATCTCTTT
TTTTTWAAAGAAACATTTCTTAGATACCTATTATGTATAGGATATTGAGTTTGGAACTGTGGGAAGAACAAAAATAGTATTTTTGTATTATGTCATAGGG
AATTTTAACTTGAAAAAAGAGTCTACAGTCTACTGGGAACTTTAACATCCTTTTTATCTTTATCAAAAATAAAGGTGATTTCAATACTGTCCTGTAGTCT
ATTGCATTTTTAGTAAAAAATATGAAACTCTTAGGAATAGTATTTTTAAGAAAATAGTTGTTATTTTTTGTTTATTTAAAAAAATGAGTAGAGGTAACTG
ATATAGCCGAAATAGTACTATACTTAGAGGCAGAAAATCCTGGCTTAAGTACCCATAACGATTACTTCAACTCTTTGGGTTTTGACTTCTTCATATCATT
GTTGTTTGATTAAATGAGGAACATCTAAAAGCAATTAAAACCCATTTTATTATTTAGATAAATGCTTACAAAACATAYGTCCACTTCACCAATTATTAAA
TTCAACGTGCATTAAAATCCCATTGCATTTCCCTGCCTTGCATGAATTCCCAGGTACACACAATGATTGCAGATAAACCCCAGCTGCTCATGAATTTAAA
GAACACGGATTGCTTTAAAAATATTCTTTTTTGTTCTACTAACTACTTCAGGGGGAACATTAAATTGTACCCTGCCTTGCCTGTAGCATTTGACAACCAT
TTTGTRCGCATCCGATTTCCATTCCAAAGGTTTGTGGTTCTTGTTTCCTTTTCTCTCAACTGAAAAGCACTGCAATATTATAGTTTGTTTTTCTGGAAAA
AGCCTTCAGACAAACTGAGTAGGGTCATAATCTTTATTCCTAGTAACTAACATTTAGGTGGGAAAAACATGTGTGAGATGGAAGTCTTATTTTAGGCAAT
CTCCTCTGTACCAATAATGAAAAGCAAGAGTCTAACTGAATTAGGTGACAGATCAAAGGAGTGGGACTGCTCAAAGSCACCCTACACTGGGGTCATGTGG
ATCCTCTCCCAGTGGCTTGGAACASAGGGACACTAGGTATGCCTGCACATACAAACTCRGAGTAATCAGACAAAATAAATATGTCCCTTGAAAGTTCAGT
TACTGAGAAGCAAAGCATTTTGTTTTTATTTTTTAACTTTTAAAAACTCAGACATTTAAGTTTTTCTTTTACTTATGTGTGTTTAAAGGCAGCCACAACC
ATCTCTTGATTGGGAACTTGCACAGATCTCATGAATTACCTAAGACCCTTTCTCCTCTTATCATCGTGTGTCCTTAATTATTCATCCACAGATTAAGCAC
AGGAAATCATAGAATGTTAGGATAGAAAATAACCTTAGCCATGATGTAGTCATGCCTCTTTTATAGATGAGGAAAATAAAATCCRGATATTTTATTTATT
TACTTAATGGATGCTTGCATAGAATTTACTATTTCCTAGACATTGGTTAAAGCACTTTCCTAATGTTAATCCGTCTAACCTTCAAAACAACCCTATGAGG
TTGGTACTCTCATGCCCATTTTACAGATGAAGAAGCAGAAGGTCAAAGGTTCATTGGCTTACTCAAGGTCACATAGCTGGATTCACACTCAGGCTGTCTG
TTTTCCAAACACCCTGCCCTTCTGCCTCTTACCATGCTGGTCGTCCATTGCTCTGCCCTGTAGCTTCTCTAATGGAAAGCGATTGTTAGCAGTGGAGCTG
GGACTCGAACCCTAGTCTCCTGACCCCATGTCTTATGTTCGCTCCACTATACCAAAGTTCTACATAACAAGAGGTTAGACACACCATTTTATACAAGAGG
GGGGCTTCAGAGGCTTAATTAGAGAAGTGATGAAAGCTATAATTTGAAAGAGAATTATAGGTAACTATCAAATAATTTTCTTGTTCACAACCCTTGTAGT
TGATCAATTTAAAAACATGCTTTCTGGATTCAGTTTTCTCCTTGAAGATTTGAGGAGATAAGCTTCATCAGTTAGCTTTAGGGGACTCTAAGCTTCCAAT
GCTTCCCTGTATAACAGAGGTTATACTTGTTTCCTAAAGTGTGGTCCATGGACCAGCAGTATCAGCATCACTTGGGAGATAGTTAGAAATGCAGAATCTC
AGGCCTCACTCCAGACCTCCTGAATCAGAATCTGCATTTTAATAAGATTCCCAGCTGATTCATGTGCACGTTATAAATTGAGAAACATGGCAGACTACCC
CAGAAAGTGTCAAAATGGAAGCCTAGAAGCACACCATTCTTACAGAAAACAGTTGGGGGATGGGAGTACTGCTCCACAAGTCCCAACCATAGCAAAATTA
TGAGGCACAAGAATTTGGTCCTTGACTCAGTACCTGCTCCCATCTTCCAAGTTGCATTTCCCTTTCCCCTGCGTGTCCTTTAAAAAGTTGTCTTCCCCAG
GGTACCCTCTTGGGTTTATTGTTTATTCTGCATATGTTAACTCTCTTTTTCTTTCCTACCTGATATAGTCCAAACCTCCATTTCCAGATGAAATTTCTCT
CATGAGCTCCAGATCCATAGTTTCAACAATGTACCAAAAACCTCTGCTTGGGAAACCACTTTATTGTCTCTAGTACTTCTATGTTAAAATACTCAGAACT
GGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCGAGGCTGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACA
TGGTGAAACCCAATCTCTACTAAAAATACAAAAATTTAGCCGGGCATGGTGGCACGTGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGTGTGAGAATTA
CTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGCACCACTCACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCGGTCTCAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAGWAAAGAAAAGAAAAACAAAACAAAAAATATCCAGAACTGAACACCTTGCTCCATCCAAAGCCTCCCACGTCCTGTATCT
CAAATACCCTTAACAATTCCACCATTGACTCAGCCTCCCAAATTAGACACCTGCTCTTCTACCTTGATGCCAAAGTCTTCTTTAAAAATTATAAATCATA
TTATRTTACTCCCTACTTAACCTTACAGTGATTCATAATCACCTGCAAAAGTAGGTCCAAACTTCTTCCTGTAGATTGCATCCAAAGCCCAGAAGGGTCT
GGTTTCTTCCTATATTTCAGATCGCCATTTTTTCCGCCTTTGATCCCTCCTTCCACCACTGTACCCCTATCCCCTCCAGTATTCCTCCAGCATACTAAGC
CTGAACATGCCTTTCCTCCGTGTGTGACTGCTCAAACATCACTCCCTCTGTGAATCCTTTCCTGGATTTCTCCTCCTCCCCCTTTCTGTGTTGATTTTAT
AGTTTTTACACTTTTATCCTTCCATATTTCAAACAGTTTTGTAATGATTTCTTTTCATATCTGTGTGATAGATTTGAATCCTTGAGGAGAGGGAGTCTGC
CATTTATTTGTCTTTCATCTTTATGTCTCTAGCTTCTAGCACAATGTCTGTCATTTAATGGGCATTCAGTACATAATAGATAGGTAATTGAATGAATGGA
TTTAGATGCCTGGGTGTTTTCTTTCTACTTGTATTCTATTCCCCACATCCTCTCCAAAGATTTCAGCATCATCAAGACATATTATCCTGTGTCTTCCTTC
TGAAGATTTAAATTATAGTGATCACCAAATCCATGTTGATATGATAACAATGGTTAAGAAGTTTGAATATGTTATTTTCTCTAAGCAATACAGTTGTATA
TTAATCAGAATCTCCCAGAGAAAGCCCCTTAGAGCAGGCAGTTCCATAAAAGGAATGTCAGGAACTTCTGCAGGCTGGATGAGGACATACACTGAGTGAA
CAAGTCTGTCAACTGCTCTAAAGACACTGTCAATGCCATATAAAAGCTGGCCTTGTTCATCTAGCAGATCATGGGGGTGAGACAGTCCAGTGCCTCTCTG
CCCCTACAATATATGAAGAAAGGGGAAGAAACACACATTGCCTCCTGGTAGATTAGGGGAGGACTTCTTGTACATTTTTAGCAAAATCYGAGTTCAGACC
CAGCAATTAGACAAAAGGGTCAGCAAACTATGGTCGATGGGCTACATCTGCCCACTGCATGTTTTTGTAAATGAAGTTTTATTGGGACACAGCCATACCT
ATTCACTTTTGCATTATCTATGGCTGCTTTTGCACTTTGATGAAAGAGTTGAGTAGTTGAGACAGACACTGTTTGACCCACAAAATCTAAAATACATACT
ATCTAGCCCTTCCTAGCAAACATTTGCCAACCCCTAGAAAACTTTTAAAAAATGATGCTCTTCGACTTGAAATTTTTATAATCTTCTGTTTATTGTCAAT
AGGTGCTGCTGATTTTCAAAAAATGACTTAGAATCCTCAAATAAGTATACAGCCTTATATGCTGCTTAGACACCAAAGCTATGATAAGATTTGTCAGTTC
TTTGTATCAGATGGGTTCAATTCTTGACATCAGCTAATGTTATAAAAATAACTACAAAAATGGTTGTAATAGAACCAAATCTAAGACTCTTTTTAATAAA
AAAGATCACCATTGCTGGTGAGAAACCTATACTGAATGGGTGAGATGCCATTGCATTTATCTGAAGTTTCGTCTTTATAATCAATAATCATATACAATCC
TAGTCAAGAAACTCATCTTACAGTCCTTGGGGATTGAACACTGTGAAAATAAACTTTTACTCTTYGGATGTGCTTGGATTTTGTTTTAAATTAAGAACTA
CAGAAATATATATCATTTCTAGTGGTAGAGGAAAATATTGCCACCCAGAACTTTCTGAATGTCTCTTTCTGCCCTAGGTCCATTTGTGATGAACACCAAT
GAAGAGATTTCTCAAGCTATTCTTGATTTCAGAAACGCAAAAAATGGGTTTGAAAGGGCCAAAACCTGGAAATCAAAGATTGGGAACTAGTGGAAAGCGG
AAGAGCAGGTCTTGATGTGTCCTAGAATTTTGCCATTTCTGAGATTGAGCCATTGAAGGCATTCCATTTCTAAAGCTTATTTAGCCGGTGCTTCTAAAGA
ATTSCACACTAACGTGATAACATGGTTTTTGTAACAATAAATGTAGGATATTTCCTGGCACATGCAAATAAACCTAATCATTGTTTCTTTAAAAATCAGT
GTTTTTCATTTGAGATACCTAAGTTACTAAGCTTCTGTTTAAAAAGTCGTTTTGTGTATGTTTGCCTTTTTTTGCATGTATGGATGGATGTTTTTATTAT
TTTTGTGCATGTGCAGGTTTTAAAAATCATATTTGATTGCTTTCTGTGTGTCATTGGCAGCAGATGCATGAGCATCTGAGGTCCCTTCTTAAGCAATCCC
ACTGAGATACAAAGGTCAAAGCTATGTGCTGGGGTTTCATGTTACAGGTTATCTGCTTTAAAATAACGGCAGCCCTGAACATTTGAGTCAGTTCTTAAAA
CTGCCCTGCTATTGGTAGGGACGCAACAGGATTACAGCCAAGACTTCTCTGCATTTTCTGCCAAAATCTGTGTCAGATTTAAGACACATGCTTCTGCAAG
CTTCCATGAAGGTTGTGCAAAAAAGTTTCAATCCAGAGTTGGGTTCCAGCTTTCTGTAGCTGTAAGCATTGGTGGCCACACCACCTCCTTACAAAGCAAM
TAGAACCTGCGGCATACRTTGGAGAGATTTTTTTAATTTTCTGGACATGAAGTAAATTTAGAGTGCTTTCTAATTTCAGGTAGAAGACATGTCCACCTTC
TGATTATTTTTGGAGAACATTTTGATTTTTTTCATCTCTCTCTCCCCACCCCTAAGATTGTGCAAAAAAAGCGTACCTTGCCTAATTGAAATAATTTCAT
TGGATTTTGATCAGAACTGATTATTTGGTTTTCTGTGTGAAGTTTTGAGGTTTCAAACTTTCCTTCTGGAGAATGCCTTTTGAAACAATTTTCTCTAGCT
GCCTGATGTCAACTGCTTAGTAATCAGTGGATATTGAAATATTCAAAATGTACAGAGAGTGGGTAGTGGTGAATGTTTTCATGATGTTGTACGTCCAGCT
GGTGCAGGGCTCCAGTAATGAACATGGACCAGTGAAGGTAGGTGAGCTCAATTTTTAATGTGATGAAGTTCTTTTTATTGGCTCATACAGAGGACTTTCT
TTGCCCTCACTATTTTTGAAACAATATAAAAATGCAGAACCATCCTAGTAGTGGACTGGACAGGATATATCCTGCATTTCTTGGTGACTGTTCTGTTTCT
TAGTCTTATTAAACTTCTGGCCATGAGTATTTGAAAATGCTGGGGTGGGGGTTGGTTGTTTTTTGAAGTTATGGTAGAACATGAGCAGTCTGGAATCTTT
TTGGATGGAGAAGTTTCTCCTCGGTTGCATATGCAGATGGCACAGTGGTTTTTTAATGAAACATTGATTTGTTTTTATGACTGATAACTTTGTGGGCCAT
TTATTTTCAGGTCTTTGTGAGCAGCAGAGGTTAGTTTATTCGTTTGGTAAATTGAAAATTGCAGTGCTTTCTATGAACATTTTCTATCTGCTTTTGCAAA
TTACCAATTGCTGCCATCCAGAAAAATGTTTTCTCAGAGAGTGTTTGGTTTTTTCGCTTCTTGAAAGGTGTAAAATTCAACACTAATCAAATCTTTGGTT
CTGTGAGCAAGCATCAAATAGAGCTTAACGAACAGAGAGTAATGCAAAAAATTAACCAGAATGTTGCTGACTGCTGGAACAATACTTAGCCCAATTTTAT
GCATTTCATGGATTATATATATTTTAAGCTTCTATTTTGAAAATGATTCGGATGTAATTGTTTTGACTGAAGTGGTGCTAAATCATTATTGATTTAGGAA
CTTCTGGCCTTGAAAAGACAATTAAATGTGAGTTTGAGTTTTTGTAGCTGTTGTTTAGGACGTGCATTTTCAACAGGGGTGATATCGCCCCCAGCAGGGG
AAAATTGGTTCGTGGAGGGATGAAAAAGTTTTACCCTTTTGATACATCACGCACAGACGTACATACAGTACATATGGTATGTAGTTTAAAATACGTTATA
CATTCAAATTGCATAGGGGGAAAGTGTCTTCAAAGGCTCCTGGCTGGTGTTGGTGGCCTGGCGAGGGTGGGGGCTGATATTTAAAAATGTTGAACACTGA
GCTGGAGGTGAGTGGGAAGTCACCTTGTCTGGCAGCCAGCACTTTTCTAACTTCTCAAATTCCAAATTTACATGGGAGAAATCACAGTGTTTGGCTCCAT
TTTACTGCCACCAGCCTTGATATTGGATCTCAAGGCCAGATTGTAGGTAAATGGGAATCTGACTGTAAGCATAGGTAACAGGAGAAAACGGTCTGACTTG
TTTGAAGCAAGTAAGACTTTTCCGACTGTCCAGCTTTTTCGTAAGTTCATGAAACAGAAATCCTTTAGATGTGCTGGGCTCCTCGAGTTTTAAAATATTT
CCATTTTCCTTGTAAAACATCACTTTATCTGATGGTATAATAAAGGAGACTGAATTGTTGGACATAAGTCATATTCTTTAGGTTGCTCAGCTCTTTCAAA
GAGCACAAGCACCAAGAATGTCTCAGGTGTCCTGGGCACTGTGAAGTTTTATTTATTTATTTATTTATTTATTTGAGACGGAGTCTCACTCTGTCACCCA
GGCTGGAGTGTAGTGATGCAATCTCAGCTCGCTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCCCCTGCCTCAGCCTCTCGAGTAGCTGGAATTATAGG
CACGTGCCACCATGCCGGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTGATGATCTGC
CCGCCTTGGCCTCCCATAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCTGGCACTGTGAAGTTTTAAATGCTTTGAATGTACTGTTAATATATA
AATTTGTTGAATGGAGTAACGAAGGAAAGCAGCTGAATTTGCATGTGACAGAAAACAAGTTGTTACACGTGGAGGATGCAGCATTATATACTTACTAATA
CGATTAGCAATTTTTTTTCAGAATATATCAGAATTTCCTTTAAAAAGTGAAGCTACATATACTGAACTTATATCCACCCTACCCCTCGCTCAATTAAATT
ATTTCTGATATGAAGGAAAGGATTGCCTATAGCTAAACAGAAGTTTTGGCATAGATATGACTGAGTGGTAAGGGATAATGAGATATATAATATTGGTTAT
AGTTTTCTTTTTTCCCCAACTTTTAAGAAAAGAAAATCTAAGAGGAAATAATGTTTCTAAATGTTAAAGTTCTTCTTGTTAAAATTAAAATGTAGTGTGA
AAACATATTCATGGTGGTAATGGTTTAGGGTGGTGGTATTTGAATTTTTTGTTTTTTTTTTTTTACTTTTTGAAATAAAATGTTTTATTTATTATAAGAA
ATTCATGGTCTTCCTCGGTACTTGGTCCATATGTATTTCTTTCTCCTCACCCTCCCCTCTTCTAACCACCTCTTTTCCAGAATGGATGGTGATGCCAATT
TTGCTCCTAGGTTGTCCTCCAGCCACCCCCAGCCCAGTTTTCACTTTCTAGCTTTGAAGATTGTCCAGTTTTCCAGCTTAGACTAGCATTGCCTCTACGA
TAGTTCTAGGTATCTGTGAAGATTTTTTTTTTTCCTGTAGCAATCATGAAATAGCTACTAGTGCTCTGGACGATTGTGCTTAATGCCATTTGGGTGTAAG
GCCTCCTAATTTCATTAGTCTTACCACTTGTGYTTGCAAGGATAGCTGTTTGGAGTCAGCAGTGCATGGAACATGTGAACTGAGACAAATCTGTTTGAAA
ATCTCAACTTAAGATTTCAAATCCACTGTGTATACTATTTAGCTGTTAAGTTTCTCAGTCTAAGAAGAACACGTTTTCCTCTAGAAATAAGCTTAACCCA
GTACCTATGCATCGTTCATTAATATAATCAGATTACGGCCTAGATGTGGAATTTATTTCTGTTTCTATTTTCTCCAGCTTTTTAATACAGCTCAGACAGT
CATATACAGTTGTACACGATGTGCACTGCACAACTCTAGGGTGCTCCATGCATATAGACATATCTGTATGTGACAGCCCTAAGTACAATGTGGTAGACAC
TCTGGACATTTGGTAAATAAGTATCTACATCCTCACTCTTCTCTCATTCACATTGGCCTTCTGGCCAGCACTATTTCTGGTTTATTTAATAAACAATTCT
TGTCCCCCAGAAATTCTGTGAGTCTTCTGAAGATGCTGGGGAAAGCCAGCCTTCATAAATCTTTTCAATGTCACTAATGAAGACATGTCACTATTGCAAC
AAAGGAATACCAGGCCATAGTAGGCTTTCACAACTTTTTTCTGACAGAATTTGTTTCTTTCTGCTTTATCTTCCCTGTGTACTGTCTTTTTTTATCCACC
CTCTTTCTTAATTACACTGGTAGAAGAATATTGGTGGGTGATGGAGTCATTCACATTCTGTGTAAGACTAGAATCAGTCCAAGATCCACAGGAATGTGGG
ATACTTCTTTCATGAGAAGCCACATGGCTCACAAGACTTCTTTACATTTGTGTTACTTGCCTTCTCCTGAAATTGTCTCTACAGTGAATCAAATAACAAG
GACTGAGGTGTATTTTCCATATTTAATTCCAGGAAGCAGTCCCACTCCTTCTCCCTGCCCGATTTCCAGTTCCAAAGTCATGTACAGGGAAGTCCATTGA
CTTTGATGTTGGTCAAATGGCCCAGCAAGCTTTTGTCCACTTTTCTGTCAGACACAGTCCTTGGCACAAAAGACATCTGAAATACTTCCCATTAATTTCT
TCTTTATTTATGACCTTGTAGTTAAGTGTGTTGAATTATATGCTTCTATACACATCTGTTTTAATCCAGTTACTCACTTATAACTGGTGACTGAAACTTT
TATATCACTATAGCGTATTATTGGTACCCAGGATACAATAGAATCCTCAATATCTTACATCTTCAATATAGTACTTCCTTGTATGACTTATTTCTTAACA
TAAAAATCCTGTTTTAGACCTGTGGATAAACCTTTACTATAAATCCCAGAGACAATTTCTGGAATGAGAATATAGTATTTGTCCACACACATGATTCCAT
GTAGAACTTGGGGTAATAAGATCTGGGACTCCCAGATACATTTATTATTACCACAATTGGATAGAGGTGCTACAGAAATAGGCACACAAATGACAGTAAA
ATTGTTTCTGAGAACATTTCTAGGCTCAACTTTTTTCTACAACTTAGGATGAACAGAGAGAGTGGAAACTGTATATAATTGGGAATGTGACTGAGATGAG
ACAAAGATGACATGGAAGCATTTCTTCTTCCCTTGCTTTTCTGGTGGTAAGTTCACTCTTCTGTCTTCCTTGCCACTAGTTCTTGCAGTCCCTACCAAGA
CACTAGGGCATTATACAGCAAACACACCCTGAGGCCCCCTGCTACTGCATCATGAAAGCCTTAGCTGGTTGTGATGTCCTAGTTCATAAAGAATCTGCCT
AGTCTCTCATTAGAGCTTTCCAATATTTGACAATTCATTCATTTATTTTTTTCAACAGGTATTTATTGGGCACCAATATATCTAGGCATTGATCTAGGGG
CTGGGAATGAAGCAGGAAATAAGTCTAGGGGCTGGGAATGCAGCAGGAAATAAGACAATGTTTCAATTCTCTTGGAATTTGCATTCCAAGTGTGATGGGT
AGAGGCAGACAATATGCAAATGTGTAACATGTCAGGTGTGATAAATGCTATGAAGAAAATCAAGTAGGGGGAGCGGATACAGTACTGAATAAATCAGAGG
AGACCTTTCTGATTCAGTTATGTCTCTACAGAGTCCTGAAGGTAATAAGAGAGACAGAGGCAACCATCAGTGCAGTGGCCATGGTGGGCGCAGCAAGTTG
GCTTCGATGTCTGGGTATTAGCCAGGGAGCCGGTGCAGCTGGAGGTGGGGTGAGTGGAGGCCAGAAGTGCAGTTGTTGAGGTTGGAGAAGTAGCCAGAGA
AGATCATGTAAGGTGTGACTGTGCTCCCATAAAACTTTATGGACACTAAAAATTGAATTTTATGTAATTTTCCTGCATCATGAAATTAAAAAAAAAA


SNP Information

Context             (SEQ ID NO:13693):
GAATTTAATTGGATAATAAAAAGTTGAAGACAATGAATATATTAAATAAAATGAATGATTAAATATATTACTTTGATTTCCATTATGGAAAATGCTTTCT
K
GGGGGGGGGGAATACTTTATAAATTATAAGGTACTCAGCTTTAAGCAACTCCCTCAAGGAGTGCAGCTGTAGAATATTAATGTTTGGCTCTTTTAAGAAT
Celera SNP ID:            hCV26522489
SNP Position Genomic:     21810
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2|G,3)   total(G,3|T,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13694):
ACAAGGCAAACACTTGTTTGAACCAGTCCAGCTGTTTCTGTACCTCACTTCTGATTTCTGTATGTCACTTTCCTTTTGTTGTCTATAAATTTGTTCTGAC
M
ACGTGGCATCCCTGGAGTCTCTCTGAATCTGCTGTGATTCTGGAGACTGCCAGATCTGCTAATCATTTTTTTTTCTTGGTCCGTTAAACTCTGTTAAATT
Celera SNP ID:            hCV16192863
SNP Position Genomic:     25670
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,2)      total(A,2|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13695):
TGTGTATATGTTATGTTCCATGGCAAAAACGACTTTGCAGATGTGACTAAGTTAATGCTGCTGAGATAGGGAGATTAGCCTGGATGATGCAGGTGGACCC
Y
GTGTCATAAATGAGAATCTAAATAAGAGAAACAGGGAGACAGGGAGTCAGAGTGAGAGAAGGACATGTGACAATAGAAGCAGAGGTCAGAGTGATGTGAT
Celera SNP ID:            hCV16192864
SNP Position Genomic:     81828
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13696):
GCCATTTAATCACATGGTTTGTCGTGAAGATATTTCCAGTTAAAGAAATCTTAATTTAAGTTCTCCTTCTTAAATTTGAGAATGTTAATATTTTGGTGGC
Y
TGGACTTATTCTTGAGTTCTACTTGCTACTAAACAACGTAAGAAATAAACATGTCTATATTGAGTGTTGCACAGAAAATATTTTTGAAAATTATATTCAG
Celera SNP ID:            hCV29152760
SNP Position Genomic:     109238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13697):
TGTTAGTGAAAGTAAACATGTAATTTATCTCCTATCAAAGTCCACCCATGCCCTGAATTGTATCCATAGACCCCCCTTGGGAGGACATTGACTCCACGTT
R
AGAACTCCTGCTCTGTTAGAATCCTATTTCATGTTTGCAAGCATCAGAATGAACCCTGCTGCCTCATATTGGTTATTTCCAAAGTGGAGGTGAGAAGGTC
Celera SNP ID:            hCV29152763
SNP Position Genomic:     100237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13698):
TCAAGCACTCCTCCCACCTGTCTCCTGAGTAGCTGGGATGACAGGTGTGCACCACCACACCTAAAAATGTTTTGTACAGACAGGGTCTCCCTATGTTGCC
Y
AGGCTGGTCTTGAACTCCTGGGCTCAAGCAATCCTCCTGCCTTGGCCTCCCAAATTGCTACAGGAGTATTTTTAAACATTTACAAACAAATGCACATTTA
Celera SNP ID:            hCV29152764
SNP Position Genomic:     97574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13699):
TTAAGCAGTTTGAAACGGGCTCTGGATCTTGCAGTAAAGGCGGGGAAACACAAATGTGCACCAGCAGGCCTCATAATTGACCTCCATTTATCCAACTAAC
Y
GAATTGCCCAGTGCTCTTCATTCTATGGTGAATACTTTGAGGAAGGTGCTTGAACACCCAGGATGATCCGCTCCTCCCTGGTCTGCCTGCTCATAGCTGC
Celera SNP ID:            hCV29152765
SNP Position Genomic:     96592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13700):
ACACAACGCAGGATTCATCTCCTTGTCCTTTTTCAAAATTGAAAACAAACTAGTTTCAGGCTTTAATAATAGCAAATATAATTAACCAAGAGATTCAAGG
R
AATTACTAAGTCCATTATTTCTCAAATTAAAATAAATGTTGTGGTGCTATATAGTTAACCAAATAAGTAACCATATAACAAATGTACTATAATGGGTATT
Celera SNP ID:            hCV338227
SNP Position Genomic:     102040
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,27)   caucasian(A,23|G,13)   total(A,34|G,40)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13701):
GCCAATGATTCAGGATGGTATTATATTAAATTAGAAACTCTGCTTAACTCTTGATGGAATAAAAGTTACTGTTTATAATGGAAAATCCTGCAAAAGTTTG
Y
CTTTCTTACATTTGGAGTTGTGGCTTTTTCAAGCGAGCAGTGTCGGACCATTTTTGTTAGCCAGAGGGCCAAGTAAGAAAAAATAAAAAATATGTGCAGG
Celera SNP ID:            hCV2282530
SNP Position Genomic:     73195
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;(T,-|C,-)   no_pop(T,-|C,-)   TSC_42_A(T,33|C,50)   TSC_42_C(T,16|C,67)   TSC_42_AA(T,4|C,79)   total(C,196|T,53)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13702):
AACATTTGTTTGTGTTTAGTGAAATGAACTGGCTTACAAAGGCAGTAAAATGTTTTGAATTCATTTAAATAACTAATGATTCACGCTTAGTTTGTGCTAA
Y
GTTTTGAGCACAAACTTCTGTGCTCTGGTTTTGGGTGATATTAAGCAGTTTGAAACGGGCTCTGGATCTTGCAGTAAAGGCGGGGAAACACAAATGTGCA
Celera SNP ID:            hCV29152766
SNP Position Genomic:     96451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13703):
GGTTCTATTAATAGTTTAATACTATACATAAAAATAAACAAAACAACACAGGAAACAATGTGCCTAATAGGAAGATTTCTTTATGGTTGAAAATCAGCAG
K
GTATGTAATGGAAAGATGGAATCCAGGTTTGCTCAAGGTACATTTGAGGCTGACATCATCACCTTTTTTTTTTTTCCCTTGAGACAGAGTCTCGCTCTTC
Celera SNP ID:            hCV2282531
SNP Position Genomic:     69764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13704):
TATTAAATTAGTGTGTCATTGGTTTTGTAGGGCCCGATGATGCACAACAAAAAATAGAACCTCATCACACAGCAGTGCTTGGAGAAGGTGACAGTGTCCA
R
GTGGAGAACAAGGTAAGTATGTTATTTTCCTTTAACTTTCTTAACATGTACTTTCTACTGGTTTCCAAGAAAATGCCTAAATGTTGTGGATAACTGAAAG
Celera SNP ID:            hCV338228
SNP Position Genomic:     102237
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,25)   caucasian(A,30|G,4)   total(A,41|G,29)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13705):
CTCCTTCTTTCTCCTTCCTCTTCTTCCTCCTTCTTTCTCCTTTCTCCTCCTTCTTTCTCCTTCCTCCTCTCTTTCTCCTTCCTCCTCCTCATTTCTTTCT
Y
TCTCTCTCTTTCTTTCTTTCTTTCTTTCTTTCCTCCTCCTCCTCCTTCTTCTTCCTCTTCCTCTTCTGCTTCTCCTTCTCCTTCTCCTTCTTCTTCTTTC
Celera SNP ID:            hCV2282532
SNP Position Genomic:     66156
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13706):
GCCACAGATGATACATAAACAAATTGGGTGGCTATTCCAATAAAACTTCATTTATGGTCACTGAAATGTGAATTTCATGTTTTTTCATGTGTCATGAAAG
R
CTTTTTTTAAGTTTGTTTCAACCATTTATAATAGTGAAAATTTTTCTTAGCCTGTGGGCTCTACCAAAGGTGACAGTTGATTTTGGTTTAAATGAATTGC
Celera SNP ID:            hCV29152767
SNP Position Genomic:     94403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13707):
CCTCCTTGGGCAATACACTCCCAGCTCCAGGCAGCTGGCTGACAGATAACATCTGCTCAGGGATAGAAGGCCACACCCAGAGCTATTTAAACCATTCCTT
K
TATTCTCCAAAAAGGATGTTCAATTGCCTGAAATTATTCTTCTGGAAAATAATTGTAATGCAAACTCATGCATTTTGAATTTATTCCTAATAAAGTACAA
Celera SNP ID:            hCV29152768
SNP Position Genomic:     93725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13708):
TTCCCAAGATAACTAATTTTGTGACTTCTGACATCATAAATTAATTTTGGCTTGTTTTGAACTTTGTAGAAATGGAATCATACGGTGTATGATCTTCTGT
R
TCTGTCTTCATTTGCTCAATATTATGCCTGTGAAATTCACCTGAGTTGTTGCATGTAGTTGAGTTCATTCATTCTCCTTGGTGTATAGTATTCCACTGTA
Celera SNP ID:            hCV27464606
SNP Position Genomic:     72587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13709):
GGTGGTAACTCCAGGCACCAGATCTTAAGAAAATCCTGTACTCAACTATGGAAAGCTGATAAGAATATGAAGAAATGTTCCTCTCACCAATATGCAGAAA
M
ATAGAAATTTGAATAATATGCTGCCACTTGACACCCTTCAAATTAAGAAAAAATACAAAGTTGGGTACTGTGAAGTGCTGGCAAGGATGGGAAGAAATGG
Celera SNP ID:            hCV2282534
SNP Position Genomic:     59135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13710):
GGTCTGGCAATTATGTGATCCAGAGTTTGTGAAGGGTTGCAATCTCTCCTTAGCCCAGTTGCCCTTATCTCTGTTAATGGTGTTGGTGTGTCACCAGGCC
R
TGTTTTTCTATTTTTTCTGCACATACAGGTGTAAGGAATACTTGTAAGTTCATTGGAATAATGAACTCCAAGACTGAGGCAGAAGGAAAATGACCCGGGT
Celera SNP ID:            hCV29152769
SNP Position Genomic:     88170
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13711):
TCACACCAAGGCATATCTGTCTTCTAGACTGCACATTTCATTTTATCTAAATATTAAAATATCACAAATTTGAACATAAACCTCTCCTATCATCAAACTT
Y
TAAGACAAAAGTAAAGTTCTGATCTAAAACCCCTTGCCCTTATAAATCACATTAAAATAAACTAGAATTAAAATTGCATTCTAAATAAGATGCCAAAGCA
Celera SNP ID:            hCV2282535
SNP Position Genomic:     58534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13712):
ATGGAGTCTTTTGTATTAATATGGCTGTTATGTTTGGAATACAATATGGACTGATTAAGATCTGGCTCCTCCAGGTTTGTTGAGAAATAAAACAATGACA
R
TTTACCTCTTTTTCGTAAAACCTTAAAGCCCCCTTGCTCTCTTTGTTTTATTTTTTAATTATTATTATACTTTAAGTTGTGGGGTACATGTGCACAACGT
Celera SNP ID:            hCV2282537
SNP Position Genomic:     54237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13713):
CACTCACCCCAGAAATACCATTCTTGGTGTGCACAAAGGGTGCCAGATGTTCTTATTCATTCAAGATGTCCCTGCTGACCTAATCCCTAAGAAGTACATT
Y
CAGTCGTGGCGACAAGCCCTCTCCTTCCAGTGAATGAAGAATGGATAGGTGCACTTTTAAACCAGAAGTAACACCCTGTGCCATTCATACTTTGTTGGCC
Celera SNP ID:            hCV2282539
SNP Position Genomic:     51791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13714):
TTAAATTAGTGTGTCATTGGTTTTGTAGGGCCCGATGATGCACAACAAAAAATAGAACCTCATCACACAGCAGTGCTTGGAGAAGGTGACAGTGTCCAAG
Y
GGAGAACAAGGTAAGTATGTTATTTTCCTTTAACTTTCTTAACATGTACTTTCTACTGGTTTCCAAGAAAATGCCTAAATGTTGTGGATAACTGAAAGTT
Celera SNP ID:            hCV25631294
SNP Position Genomic:     102239
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,1|T,35)   total(C,5|T,69)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13715):
CTCAACTTAACTAAGTTACCAGGGCACAAAACACCACATAGAAGTGTATCTAAGTACATATGTAATTCACTTCTGACGGAACTACAGTTCTCCTTAATTT
Y
AAATCAAACACCCATTTCTAACAAATAAAATTACTGAAAAGTGTATATATGTATGATATACGTATGATTTTGATAGATAGGACTCTTACAATTATAACAT
Celera SNP ID:            hCV28018194
SNP Position Genomic:     108100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13716):
TCTTCCTTTTTTTGGTTGTTAGAATGGCCTTTCTTTTATGAAATGATGACCATAGTAGATAATTTTTACCTTTCACAATCTGAATTTAAAAGTTGGCACC
M
CCACCCACCATTGAGGAGTATTCTATAAAATACTTCACCAGTACTCTTCAAAATTATCAAGCTCATGAAAAACAAGGAAAGAGTGAGAAACTGTCACAGA
Celera SNP ID:            hCV8816934
SNP Position Genomic:     30699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(A,1|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13717):
CATCGCCTTATAGTCCAAGACAGCTGTTAGGGAAATGGCAACCATTTACCCTCTGGCAAAGAAAGGAGGAAGAGGGGAAGGGCAAAATGATACTCATCTT
S
TGTCCATCCTCCTCTTATAAGGAATTTTCCTAAAAGTTCCACCCTGCAACTTCTACGTTGTAGCTAGATTCAATCATATGAACACAACTAGCTACAAGAG
Celera SNP ID:            hCV26522490
SNP Position Genomic:     13186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13718):
GATGAGGACTTTCTCTAGAAAACATCTGTGCACCATTAGAGGGGCGCATGAGATTTAGGAGTGCCTTAAATCAAAAGCATAACTTTCTCCTCCACAACAC
R
TTGCCTAGCTGAAAGGATATTAAAATAGTGAGTGCACTCATGAGTTTAGAAGTGGAGGCAGAGGACTTTCAAATTGCATGAAAGTTAGAAAATAATTAAG
Celera SNP ID:            hCV8816935
SNP Position Genomic:     27952
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13719):
TAACACACATATGTATGTACAGATGTATAAGGACATTTATATATGTTTATACAGACATACAATAGAAACAGTATGTTTGATGTTTCCTCATTAGACTGTG
Y
TCATCACAACAGCTCTGTGTTATACGTATTCATTCCTTATTTTACAAACCAGCAAAGAGGCTTGAAGAGATGAAGAGTCTGGTCCTAGATCTTCCTGAGG
Celera SNP ID:            hCV11878862
SNP Position Genomic:     86694
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13720):
TTTTTTTGTCCTGTCTCTCCATCTATAAATCTGAGGATTGTTTAATTTTTCTGTCATCAGAGGGAAATATATATGTGATGTTTATTCATCTCTTTTTTTT
W
AAAGAAACATTTCTTAGATACCTATTATGTATAGGATATTGAGTTTGGAACTGTGGGAAGAACAAAAATAGTATTTTTGTATTATGTCATAGGGAATTTT
Celera SNP ID:            hCV25631296
SNP Position Genomic:     109706
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(A,3|T,33)   total(A,3|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:13721):
TTGGTTGATTTTCACTGGAAAGGGCAGAGACTTACTAGTGGAAGAGAAAAGAGTAAATACAGAAGGTGAGAGGAGAGGAGAAAAGGAAAGAGGTGTCTTC
W
GATGGTTTGAAGTGATTTGAAGAGTTAGAGTGAGAGAAAATGGAATCATGGGAGACAGATATATACATGGAGAGGGGTAAGAGGGATTTTAAGCATATCT
Celera SNP ID:            hCV8816936
SNP Position Genomic:     16350
SNP Source:               dbSNP
Population(Allele,Count): (T,-|A,-)   Caucasian(A,29|T,55)   African-American(T,29|A,55)   Asians(T,42|A,42)   total(A,126|T,126)no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13722):
GCATCGCCTTATAGTCCAAGACAGCTGTTAGGGAAATGGCAACCATTTACCCTCTGGCAAAGAAAGGAGGAAGAGGGGAAGGGCAAAATGATACTCATCT
K
GTGTCCATCCTCCTCTTATAAGGAATTTTCCTAAAAGTTCCACCCTGCAACTTCTACGTTGTAGCTAGATTCAATCATATGAACACAACTAGCTACAAGA
Celera SNP ID:            hCV26522491
SNP Position Genomic:     13185
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,3)      total(G,1|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13723):
ATGTTAATTTCATAATTTCCATAAGTGCACTATACTTTTGTAAGAAAATATCTTTGTTTTTAGGAAATACATACTGAAAATTATTTCAAGGTAAAGGGGC
Y
ACATGTCTGCAAATTACTCTCAAATAGTTCAGAAAAAAAAAGAATGACATATATTTATAGCAAGAAGAATGATAAAGCATATATGTTAACATGTTAGCTT
Celera SNP ID:            hCV11878863
SNP Position Genomic:     87694
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13724):
TTTCTCCCCTCAAAGTATTTTGAAGAGAATTCCAGCCATTATTTTATTTCACTTATAAATATTTCAATTTGTATCTCTAAAAGATAACTTGAAAAAAAAA
A
CTACAATCTCATTATCATACTTACAAAAATTTTAAAAATCCCTTAATATCATCAAATAGCCTTGACTAATCTTGTTCTTCACTGATTTAGCCTCTGTAGA
Celera SNP ID:            hCV26522492
SNP Position Genomic:     12498
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13725):
AGTTTCGTCTTTATAATCAATAATCATATACAATCCTAGTCAAGAAACTCATCTTACAGTCCTTGGGGATTGAACACTGTGAAAATAAACTTTTACTCTT
Y
GGATGTGCTTGGATTTTGTTTTAAATTAAGAACTACAGAAATATATATCATTTCTAGTGGTAGAGGAAAATATTGCCACCCAGAACTTTCTGAATGTCTC
Celera SNP ID:            hCV339752
SNP Position Genomic:     114465
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13726):
TGTTTCATGGTTGCTTAGTTGGTTTGTTTTCCGTGGTTCTCCACAAAGCCTCCTTTAAGGTTTGCTGCTGCGCTTTGTTTCCCCACTCCCCAAGAGAGAG
Y
TGCATGGATAGAATTAAATATGGAGGCGGGGCAGGCAGAGAGGCCATGATACTGGAGAAATGTAGGACCATATTGAGAAGAGTTTGTCTGTCAGAAGTTT
Celera SNP ID:            hCV29152770
SNP Position Genomic:     86958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13727):
GACTGTGTTCATCACAACAGCTCTGTGTTATACGTATTCATTCCTTATTTTACAAACCAGCAAAGAGGCTTGAAGAGATGAAGAGTCTGGTCCTAGATCT
Y
CCTGAGGGTGATGCACTGATGTTGAAACAGGAACTTTCTGCCTGTAATGGTGTGTGCTCATTTTTGTTGCTGTTTCATGGTTGCTTAGTTGGTTTGTTTT
Celera SNP ID:            hCV29152771
SNP Position Genomic:     86787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13728):
GGAAAGTGGAAAAAGAAGAAAGGGGCAGGAAAATGAACTGATATTTGTTAAATACCTCCTAAGTGCCTGGCATTGTGTAGAGAAGATTAAAAACATATAA
Y
ACACATATGTATGTACAGATGTATAAGGACATTTATATATGTTTATACAGACATACAATAGAAACAGTATGTTTGATGTTTCCTCATTAGACTGTGTTCA
Celera SNP ID:            hCV29152772
SNP Position Genomic:     86597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13729):
TACGGTGAGCTGTTACTTGCTGTATGATCAGACAACCCAACTTATGTCACCAATTCTAGTCTGCAGTGTTTGGTGGGACACAGACAGCATCCTTAATGCC
R
TGAGGTTCTTGATGAGGACGTTTTGGGAGACGTCGCAAAAATGTAGACTTCTTTTGGGAAATGATGACCCTGCTGAGCTTTGCTCCGCAGTCGAAGAGAC
Celera SNP ID:            hCV29152773
SNP Position Genomic:     86270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13730):
TACAAAGTTGACATTTCTTTATCTTGCTGTTTATATTCAGTTATAAGATGGGGGTTAAATGCCTATTCTTGGCAAGCTAGTAGATCTTACGGTGAGCTGT
Y
ACTTGCTGTATGATCAGACAACCCAACTTATGTCACCAATTCTAGTCTGCAGTGTTTGGTGGGACACAGACAGCATCCTTAATGCCGTGAGGTTCTTGAT
Celera SNP ID:            hCV29152774
SNP Position Genomic:     86183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13731):
CTGCCATCTTGTCCTGCACCAAACAAAAACATGGACCTTTAGTGAACAGTACTCTATTAGTAGTGTCTTGGGCATATTGGTAAATAAATCCAAGATTTTG
Y
ACATAGGTTAGAAAAACGACTATTCTTGAAAATTTTAAATGAGTAATATCATCTCATTGTGTTGTGTTTTTCTGTTATGTCACCTTTAGGAGAAAACAGG
Celera SNP ID:            hCV29152775
SNP Position Genomic:     84671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13732):
GGTTTTGACTTCTTCATATCATTGTTGTTTGATTAAATGAGGAACATCTAAAAGCAATTAAAACCCATTTTATTATTTAGATAAATGCTTACAAAACATA
Y
GTCCACTTCACCAATTATTAAATTCAACGTGCATTAAAATCCCATTGCATTTCCCTGCCTTGCATGAATTCCCAGGTACACACAATGATTGCAGATAAAC
Celera SNP ID:            hCV338165
SNP Position Genomic:     110178
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;(C,-|T,-)   (T,-|C,-)   Caucasian(T,42|C,42)   African-American(T,34|C,50)   Asians(T,42|C,42)   total(C,134|T,118)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13733):
AACTGCCATCTTGTCCTGCACCAAACAAAAACATGGACCTTTAGTGAACAGTACTCTATTAGTAGTGTCTTGGGCATATTGGTAAATAAATCCAAGATTT
Y
GTACATAGGTTAGAAAAACGACTATTCTTGAAAATTTTAAATGAGTAATATCATCTCATTGTGTTGTGTTTTTCTGTTATGTCACCTTTAGGAGAAAACA
Celera SNP ID:            hCV29152776
SNP Position Genomic:     84669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13734):
TATCCTTTGATGAAATTGGTTTTCATGTATGGTAAGATACAATTACATTTTTTAAAACATGGTTTGAAACAGAGGAAAAAATGGCAAAAATCCATGATGG
R
GAATGCCATGAACATTTTAAGGGGTTCACAGTTCACTGAATCATCATATAGTAATAACAATCATTATAGCTAACATTTATTAAATGCCTACTCTTTGCCA
Celera SNP ID:            hCV29152777
SNP Position Genomic:     84284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13735):
CTTCAGAACAGTGATTAACGTGAATCAGAGCCTGAAATATCAAATTATTCAGGAAGAAGTTTAACATCATTTTCCTTTGACTGGGTTGTCTTTTTCATAT
Y
GATTTGTAAGAGCTCTTTATATATTCTGAATACTAGTCATTGTCAGTTATTTGTGTTGCAAATGTCTTTCCTGCTTTTTTTTTTAACCTTTCTATACTAT
Celera SNP ID:            hCV29152778
SNP Position Genomic:     83633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13736):
CCCCAGCCCAAAGGGGGTTTCTGTAATGTGAATACAGAGGTCTTGGGCAGAAAGTGCAGCTGAGCTTCAGGAAATGTCTCTGCTTCTCTCTGCACACTGG
Y
GTGCCACCCTGGGCTGACATGCTATCTGCCTCAGCATGCATATCGCCAAACATGCCCACCACACAGCCCCTAAGTTTATTTGCCCACACTTCAAAGCACC
Celera SNP ID:            hCV8816944
SNP Position Genomic:     8929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13737):
AATAAATATTTATCGATTACTATTCAGGGAGGATACATTTTAGGGTAGGCCTTGACTAAGTGGAGGGTATTGTGGAGTAGAGCCCTTCTGAATAACAGCA
R
CTAACATTCTCATAGCACTAACTGCACCCCTTTGAGGTAGGCGGTCTTATCATTCCATTTTACAGATAAAACTGAGCCACAGAAAACCTCAGGTCACACA
Celera SNP ID:            hCV8816945
SNP Position Genomic:     7103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13738):
GGTGAAAATGGTAGACGGCTTTTCTTTCTGCAAAGCACTGAGATCTAAGTACCTCATCAGTTGTTCACATGCATACAATTTAATCGTAGGAGTCTGGAAG
R
ACCCAGACATAATCTAGATGGGGATAAAGATACTTTCTGGTTGCTTCGATGTAGGTGATGACCGGCCTGTACTGCTTTGAGTATTAAGCTCGTTTCTGCG
Celera SNP ID:            hCV8816946
SNP Position Genomic:     6884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13739):
CAAAAAAGTTTCAATCCAGAGTTGGGTTCCAGCTTTCTGTAGCTGTAAGCATTGGTGGCCACACCACCTCCTTACAAAGCAACTAGAACCTGCGGCATAC
R
TTGGAGAGATTTTTTTAATTTTCTGGACATGAAGTAAATTTAGAGTGCTTTCTAATTTCAGGTAGAAGACATGTCCACCTTCTGATTATTTTTGGAGAAC
Celera SNP ID:            hCV27834564
SNP Position Genomic:     115418
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,12)   caucasian(A,33|G,1)   total(A,47|G,13)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:13740):
ATCTACATGCATACTCACATAGAGCCCTTTGAAAAGGATCCCCACCTTGGCCGGGCGCGGTGGCTCACGCCTGTAATCGCAGCACTTTGGGAGGCCAAGG
Y
GGGCGGATCACGATGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTGTCCACTAAAAATACAAAAAATTAGCCGGACATGGTGGCAGG
Celera SNP ID:            hCV27523188
SNP Position Genomic:     102711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13741):
AGGAAGATAGGATGCATTTCATAGTCTTTTTGTGATGAATCCCTGCTCTTTAAGTAAAGTTTCTGATATTTTAGGAGTCTTGGGAGGTTTTTATTCCCAA
R
TTTCCAGGTTTCTTTCTCATGTCTATTTCATTCCCTTGAGTAATTCAGTCACCATGTTGTGAGTCTGTTTAGTCAATCTGACTGCTTTATGTCATTCTTA
Celera SNP ID:            hCV27523189
SNP Position Genomic:     103076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13742):
GATGGAAGTCTTATTTTAGGCAATCTCCTCTGTACCAATAATGAAAAGCAAGAGTCTAACTGAATTAGGTGACAGATCAAAGGAGTGGGACTGCTCAAAG
S
CACCCTACACTGGGGTCATGTGGATCCTCTCCCAGTGGCTTGGAACAGAGGGACACTAGGTATGCCTGCACATACAAACTCGGAGTAATCAGACAAAATA
Celera SNP ID:            hCV15847156
SNP Position Genomic:     110677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13743):
CAAGAGTCTAACTGAATTAGGTGACAGATCAAAGGAGTGGGACTGCTCAAAGCCACCCTACACTGGGGTCATGTGGATCCTCTCCCAGTGGCTTGGAACA
S
AGGGACACTAGGTATGCCTGCACATACAAACTCGGAGTAATCAGACAAAATAAATATGTCCCTTGAAAGTTCAGTTACTGAGAAGCAAAGCATTTTGTTT
Celera SNP ID:            hCV15847157
SNP Position Genomic:     110725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13744):
AAGTATTTAGACATTTCAACTCAAATGAGCTCTAAATCATTGATAGTAACGATTAAAGGAACAGCATGTTCTGTCATAAAAATCACAGGGAATCATTTTT
K
GCCATCCATTGCAGATCCGGGGGCTGTTCAGTATTCCTTTGGCTTAGTAAAATGAGATGAGTTCAGCAAACATTTACTGAGGGCCAGCTGCATGCAAGAC
Celera SNP ID:            hCV27931525
SNP Position Genomic:     52919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13745):
ACTGTTCCAAGAATGGTAGAATTTTCACTGCAATCTTTTCTCTTGTCTAGAATGCCCTTTCCCCCAGATTTCCCTCTTGTGGTTTATCTAATCCTACAGA
R
CTCTGTTCAAGTCTTACCTCCTCCACAACAAATATCTGTGGTCCCTAGACCTGCACAAGCCCCCATCACCCCTGTTCTCTTATTGAACTTTGCTTATGAA
Celera SNP ID:            hCV27931527
SNP Position Genomic:     101229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13746):
TAAGGGCCCTAGGATTTTTACAATGGTAAATGAACACTGGCTTCAACTTAAAGTCACCAGCTGCATTAACCCCTAACGAGAGAGAGTCAGCCTGTTCTTT
R
AAGCTTTGAAGACAAGCATCGACTTCTCTCTAGCTATGAAAGTCATAGATGGAATCTTTTTTCAATATAAGGCTGTTTCATCTACATTGAAAATCTGTTG
Celera SNP ID:            hCV324345
SNP Position Genomic:     56766
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13747):
AGCCCTTTGAAAAGGATCCCCACCTTGGCCGGGCGCGGTGGCTCACGCCTGTAATCGCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACGATGTCAGGA
R
ATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTGTCCACTAAAAATACAAAAAATTAGCCGGACATGGTGGCAGGCGCCTGTGGTCCCAGCTACTCG
Celera SNP ID:            hCV27974860
SNP Position Genomic:     102733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13748):
ATATCTTTGGATGTCTTTAACCACCCAGTGTATTTATGGCCTTCGTAAACTAGCATTTATAAAATAATCAGTCCTTGACTTGGAGCCAATTGATTTCCTG
R
GTTCAGTGAGTCTGAGTCTTTATAATATGGAATATTTCAGAGACATTTGTCATCTAATGAATAGCAGCTACACTGCCCTGAAGGGCAAATTAACAAAATC
Celera SNP ID:            hCV27850105
SNP Position Genomic:     4015
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(G,40)   total(A,5|G,71)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13749):
AGTGTTGCACAGAAAATATTTTTGAAAATTATATTCAGAATTAGGAACATCGCCTATTTGGCTAGCATGTCAATTTCAAATTGTTCACAATTTGATCTTC
R
AAAATAAGCCTGCTTATTGTTTGATGTTTTCTTTGTTAACTTTAGGATCCCAAGAGAAGCCACTTTGTCTTAATTGCTGGGGAGCCATTAAGAGAACCAG
Celera SNP ID:            hCV16193477
SNP Position Genomic:     109401
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,16)   caucasian(A,9|G,11)   total(A,23|G,27)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13750):
GAGTGGGACTGCTCAAAGCCACCCTACACTGGGGTCATGTGGATCCTCTCCCAGTGGCTTGGAACAGAGGGACACTAGGTATGCCTGCACATACAAACTC
R
GAGTAATCAGACAAAATAAATATGTCCCTTGAAAGTTCAGTTACTGAGAAGCAAAGCATTTTGTTTTTATTTTTTAACTTTTAAAAACTCAGACATTTAA
Celera SNP ID:            hCV16193478
SNP Position Genomic:     110759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13751):
ATAAATCTACATGCATACTCACATAGAGCCCTTTGAAAAGGATCCCCACCTTGGCCGGGCGCGGTGGCTCACGCCTGTAATCGCAGCACTTTGGGAGGCC
R
AGGTGGGCGGATCACGATGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTGTCCACTAAAAATACAAAAAATTAGCCGGACATGGTGG
Celera SNP ID:            hCV27495660
SNP Position Genomic:     102707
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13752):
CATTCCCGAGGGCGGAGCCCCAGGGCCTCCGAGACCCGTAGACTCCCGCCTCCCGCCTCCTCTAGGCCGCCGGCCGCGAAGCGCTGAGTCACGGTGAGGC
K
ACTGGACCCACACTCTCTTAACCTGCCCTCCCTGCACTCGCTCCCGGCGGCTCTTCGCGTCACCCCCGCCGCTAAGGCTCCAGGTGCCGCTACCGCAGCG
Celera SNP ID:            hCV15960446
SNP Position Genomic:     6546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:13753):
CGGATTGCTTTAAAAATATTCTTTTTTGTTCTACTAACTACTTCAGGGGGAACATTAAATTGTACCCTGCCTTGCCTGTAGCATTTGACAACCATTTTGT
R
CGCATCCGATTTCCATTCCAAAGGTTTGTGGTTCTTGTTTCCTTTTCTCTCAACTGAAAAGCACTGCAATATTATAGTTTGTTTTTCTGGAAAAAGCCTT
Celera SNP ID:            hCV12120460
SNP Position Genomic:     110406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13754):
TTGCAGTGAGCCAAGATCGCACCACTCACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCGGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAG
W
AAAGAAAAGAAAAACAAAACAAAAAATATCCAGAACTGAACACCTTGCTCCATCCAAAGCCTCCCACGTCCTGTATCTCAAATACCCTTAACAATTCCAC
Celera SNP ID:            hCV26522515
SNP Position Genomic:     112622
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13755):
ACTATTTTTAATTCTTATAAAGTTTATAATTTACCTAAGGAAACATGAGCACATAATGCCAAGGACTTTGCTTATCAATTAAAGTGTAAATGGAAACACA
A
CGCAGGATTCATCTCCTTGTCCTTTTTCAAAATTGAAAACAAACTAGTTTCAGGCTTTAATAATAGCAAATATAATTAACCAAGAGATTCAAGGAAATTA
Celera SNP ID:            hCV26522516
SNP Position Genomic:     101945
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13756):
AATAATCGCGGGAGGCAGAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGTCTGGGCAACACAGAGAGACTCCATCTCAAAAATAAATAAATAT
A
TAAATAAATAAATAAATATTTACCTTAGAGTGGAGCATTTCAAATGACCTCTTTAGTATCAACACTGAGATTGCAAAGAGAATGGGCAGAAATTGCATCC
Celera SNP ID:            hCV26522517
SNP Position Genomic:     98949
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13757):
AGAATAATCGCGGGAGGCAGAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGTCTGGGCAACACAGAGAGACTCCATCTCAAAAATAAATAAAT
A
TATAAATAAATAAATAAATATTTACCTTAGAGTGGAGCATTTCAAATGACCTCTTTAGTATCAACACTGAGATTGCAAAGAGAATGGGCAGAAATTGCAT
Celera SNP ID:            hCV26522518
SNP Position Genomic:     98947
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13758):
TAAAAGCAGCCATGGGTTCCCGTAAAAGGCTCTTGGTAGCACTGGGAGAAAACAGCTATAGCAGATGCTGTTGGTACCCCACCCACACCCCTGGGCCCTT
R
CTTCCTGAGTGCCCACTGACCAACTAATAATAGCCAGTATCTGTGTCACTTCGCTTGAAGGCTTTTCTCTGAAACCAATCAGGGCAGCATGAAAGTACTG
Celera SNP ID:            hCV26522519
SNP Position Genomic:     93081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13759):
AGCAGGTCTTGATGTGTCCTAGAATTTTGCCATTTCTGAGATTGAGCCATTGAAGGCATTCCATTTCTAAAGCTTATTTAGCCGGTGCTTCTAAAGAATT
S
CACACTAACGTGATAACATGGTTTTTGTAACAATAAATGTAGGATATTTCCTGGCACATGCAAATAAACCTAATCATTGTTTCTTTAAAAATCAGTGTTT
Celera SNP ID:            hCV8816892
SNP Position Genomic:     114804
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:13760):
GGCCTGGGGGTTGGGGACCCATGCCTTAGATTCATACTCAGAGTCCTACTGCCATCTTGAGTTTTATATTTATAGTTGATCAAACTGAGTAGCTACTCAT
R
GTTTAGAAGTTATCAACATATTAAGTGAACCATAAAACTTTCATCTGGGCTTTGATCATTTATTGTTGGTATCAGCAGAACTCGAGACATATCTTGGCAA
Celera SNP ID:            hCV8816893
SNP Position Genomic:     106326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13761):
TTTCATGCTCCCTTACCCAATGGTCATTGGTTATGGCCATTAACTTTGAAGTGGAGGCACAGAAATGGTTAAAAGGGATCTGAGGGGATCTGGGAGAAGC
Y
TTGACATCGGGTACTACACATGGAACCTGGCATTGAGTGCATCAAGATAGTGGGAGTTACTCTGCCATTCTCCCAGTGCACAACCAGCACTTAAAACTAT
Celera SNP ID:            hCV1516406
SNP Position Genomic:     45048
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13762):
AAATAAGTCAATTTAGGCTAAAGATTATGGACATATTTGTGGGAGGAAAGGGGTGCGGCAAATGCCATGTTAATTGCACACCAGAACTGCTCCTGGGGAG
M
ATAAGATTCCTCACACCAACCAATCTGAGGTAGTGTGTTTTCTTAGGTGGGGTTTCCCAGAAGCAGACCCTGAGATGAAGATTCCCATCCAAGAGATTTT
Celera SNP ID:            hCV1516407
SNP Position Genomic:     44664
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,2)      total(A,2|C,1) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13763):
CTTGGTAACAGGGACCCTGCTGGTTCAACAGGAGCTGTCTCTCTTTCACCCCAATCTCCAGGGCCCACCATGCCAGGACCATCATCTGCTGGGCTGAAGG
K
GTGAGTGGCGGCTCTTTTCACTCAGCTGTGAGCTCTGGCAGGCTCAGGGATGCATCTGCTAGGAGGAAGGGGCACCTAGGTGAGATTCTGTCAAAGACAT
Celera SNP ID:            hCV1516408
SNP Position Genomic:     38729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13764):
TCCTTCACATGTGCAGTTCACAACAGGATTTGTGCTCCTATGAGAATCCAGCACCACTGCTGATCTGACAGGAGGCAGAGCTGGGGTGGTAATTCGAGCA
R
TGGGGAGTGGCTGTACATACAGATGAAGCTTCACTACCTCACCTGCCACTCACCTGTTGTGCAGCCCAGTTCCTAACAGACCACCAATTGGTACTGGTCC
Celera SNP ID:            hCV8816898
SNP Position Genomic:     106123
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13765):
TAAAGCCTAAAACTCTCTGGCCCTTTACAGAAAAGGTTTGGTTTACTACGTTGTAGATGCTCAATAATGGTAACTGGAAAGTTTATGAATCCAAATATCT
M
ATTTGATAGTCATACCACATGCATGTTACCTAATAAGGATTTATACAGTAGACCTGAAGGCTTAGGGCACATAACAGTTTCTACAGGTAGAAGAAGGCTC
Celera SNP ID:            hCV15868367
SNP Position Genomic:     104414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13766):
CCTTTACAGAAAAGGTTTGGTTTACTACGTTGTAGATGCTCAATAATGGTAACTGGAAAGTTTATGAATCCAAATATCTAATTTGATAGTCATACCACAT
R
CATGTTACCTAATAAGGATTTATACAGTAGACCTGAAGGCTTAGGGCACATAACAGTTTCTACAGGTAGAAGAAGGCTCCAAGAGACCCTGACTCACTCA
Celera SNP ID:            hCV15868368
SNP Position Genomic:     104435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13767):
ATGTTACCTAATAAGGATTTATACAGTAGACCTGAAGGCTTAGGGCACATAACAGTTTCTACAGGTAGAAGAAGGCTCCAAGAGACCCTGACTCACTCAC
R
CTCCAAGCCAGTGTTATCCTCACTTGAACCTAGCATTAGCCTGAGGATTTGATAAAGAAGGAAGATGTGACTGCCCAGTGCCGCGCCAATCCCATTTCCA
Celera SNP ID:            hCV15868369
SNP Position Genomic:     104537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13768):
GCTCCCATCAGCTGAGTTGTAGTGGACTTAAAGGCACCTATGTTTGTTCTCAGTCCATTTATGCTAGTTGCACCAATAATTGAAATTATGTAATTTAATT
R
AACAGTTGTAAATTAATTAAATAAATGTGAAAAGAGAGTTGGTATTTCCAGAACAACTAAGGCAGATGCTTTGTAAAAGTGAATTGCTAAAGGAAATGCC
Celera SNP ID:            hCV2608858
SNP Position Genomic:     96791
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;TSC_42_A(G,42|A,42)   TSC_42_C(A,29|G,54)   TSC_42_AA(G,37|A,46)   total(G,133|A,117)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13769):
ATGTGAAAAGAGAGTTGGTATTTCCAGAACAACTAAGGCAGATGCTTTGTAAAAGTGAATTGCTAAAGGAAATGCCTTTGACACGGAAAGACAAACATCA
Y
ATGTTCTCAGTTCTTTGTGGGATCTAAAGATCAAAACAATATGAACTCATGAACATAGAGAGTAGAAAGAAGGTTACCATGAGTTCATGAGGCTGGGAAT
Celera SNP ID:            hCV2608859
SNP Position Genomic:     96916
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13770):
ATTTTTCCATATGGTCAATGACTCGAAAACAAGTAGTGATTTTTTTTCTCTCTCTCATTTGTGACTTTTAAAAATGACTGGAGTAAACCTCGAAAAATGC
R
TAGTGATTTTTTCCACAGGCTTCTTGCCTGTTTTTTCATAGTCTTTCTCTACTTTTAAGGAGAATGCCCCAAACATGAATGATTCATGTAGAATTTTACA
Celera SNP ID:            hCV340035
SNP Position Genomic:     83276
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13771):
AATTGATTTATTTTGTTTTTAGCATAAGTGAAAATAGATCAGCCCTATAGAAGTAGAAATATAAATCTACATGCATACTCACATAGAGCCCTTTGAAAAG
R
ATCCCCACCTTGGCCGGGCGCGGTGGCTCACGCCTGTAATCGCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACGATGTCAGGAGATCGAGACCATCCT
Celera SNP ID:            hCV27507387
SNP Position Genomic:     102647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13772):
CCAGCTACTAGGAAGGCTGAGGCAGGAGAATCGCTTGAATCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATGGCACCACTGCTCTCCAGCTCAAAAAAAA
A
GCATATTTCTAGCATCAGCTTCACACTTCAGACACACTGGAGGCACAACAAATGGAAGATAAAGCCAGACTGGAGTGTTGCAGTTACTATCATAACATTA
Celera SNP ID:            hCV26522520
SNP Position Genomic:     91717
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,6)   total(A,5|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13773):
TAGGATGCATTTCATAGTCTTTTTGTGATGAATCCCTGCTCTTTAAGTAAAGTTTCTGATATTTTAGGAGTCTTGGGAGGTTTTTATTCCCAAATTTCCA
R
GTTTCTTTCTCATGTCTATTTCATTCCCTTGAGTAATTCAGTCACCATGTTGTGAGTCTGTTTAGTCAATCTGACTGCTTTATGTCATTCTTATAAAGAG
Celera SNP ID:            hCV27507388
SNP Position Genomic:     103083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13774):
TGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGGGAGAAAAACGAGTAAGCTATGAATAAGTAACATTACTTT
Y
AGAGAGCTTAAACTCATTCTAGTAAAATCTCAGAGAGGAAAAACTGTGAAATAGGGGGATGGGAAAATATTCTCTGGCACTTGCTCATGTGTGTTTGTTT
Celera SNP ID:            hCV26522522
SNP Position Genomic:     90644
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13775):
AATAATACTGCCAACTGCAAGTGATTGTTAGAAAGAATATTTGAGATTACGTATATTACAAGTCTACTCCAGATTGAGCATGGGGGTCAGTAAATTATGT
Y
CAATAGGCCAAATCCAAACCTTTTTCATAAAGTTTTATTGGACCACAGCCACACCCATTCGTTTCCATATTGTCTATAGGTTCTTTTATCCAATAACAGT
Celera SNP ID:            hCV15861100
SNP Position Genomic:     104191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13776):
ATTAGTGTGTGTTTTCAGCATCTACCATGGACCTCCCCCCGCCAAAGGTGCACAATTTGCACACCCCGGCTATGCCTTATTCATTTTTGTATCTTCCTCT
M
AAGTACATGCCCATGGTAGATGTTCAGTAAATGATGGTAGACAAAGCTCGGAAGACTAAATATGAGTGGGTTAAGATGGGAGAAAAACGCCTGTAATCCC
Celera SNP ID:            hCV26522523
SNP Position Genomic:     90233
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13777):
CCTGTTAGCTTCTGATGCAATGAGTGTTCAGTATTATGAATGTGGACCAAACCATAAGACAGGGTTCTCCTATAGGCTGCAATTGTGCTTACTTAAAATA
Y
GGGATCCTGAGGGATGGCTCTTAATGTTATATGCCCATGGCTTATAAACAGCCTGTAGTATGATCGTTCTGTAATGTATAAAGTGCATTCTGAGTCTATT
Celera SNP ID:            hCV26522524
SNP Position Genomic:     85808
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13778):
ACTATTGTATTAGCAAGAAAATAATCAGCAGGGTTTGCCCTCCAGCGGGCTAGGCTTCATTCTGGGCATGCAGAAGGCTGTATTCTGAGTTTACATTCTA
R
AGAGCTTATATTGCTTATATATTTCTCATTCAAAATGTTAAATTTCATTTATTTCTTAGCTTTCCTGTTAGCTTCTGATGCAATGAGTGTTCAGTATTAT
Celera SNP ID:            hCV26522525
SNP Position Genomic:     85644
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13779):
CAACTCCCTCAAGGAGTGCAGCTGTAGAATATTAATGTTTGGCTCTTTTAAGAATTTTCTTTAAAACTGTAACTGTAATTATTTGTCAGTTCATTTACTT
S
CTAAAATTCATTTGTAACCCCCAAATCAGTACCTGTGGTGCTTTTGTAGTAATTTGTGGGCATGTGTAGAGTGGCAAAAAATTTGAGCTGCCCAATGCAC
Celera SNP ID:            hCV1516410
SNP Position Genomic:     21956
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13780):
CATTATGGAAAATGCTTTCTGGGGGGGGGGGAATACTTTATAAATTATAAGGTACTCAGCTTTAAGCAACTCCCTCAAGGAGTGCAGCTGTAGAATATTA
R
TGTTTGGCTCTTTTAAGAATTTTCTTTAAAACTGTAACTGTAATTATTTGTCAGTTCATTTACTTGCTAAAATTCATTTGTAACCCCCAAATCAGTACCT
Celera SNP ID:            hCV1516411
SNP Position Genomic:     21890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13781):
AAAGATGTTTGGGAAAGGGCACCACCACAGTGTAAAGGGATAATGAACCAAGAAGTTTCTGGAAGTAGGATCAGGGTAGTTGGACTCTTTTCCCTTCCTC
R
TTTAGCCATTCGCCTTCCAGTTCCCTTCTCTGCTAACACGTTGAAGGCGCTGTGGCTTGCTTTGCAGCAATAATGGAAGCCATTCCTTTCACCTACCCTA
Celera SNP ID:            hCV1516412
SNP Position Genomic:     21225
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13782):
TACATTCATTGTTTTCAATCCTTATAATCTTCCAAGGTATATATTATCATGTGAGGAGAAAGCAATGTATAATAAGGTATGAGAATTCTCAACCTCTCCT
Y
CTACCAATCCCAGTTCTGTTCCTGGACTTTTAATAAGCTGATGTGGAAAAATGAATGACAAGACTGAAAGGAAACAAATTTGCTTGGTTGATTTTCACTG
Celera SNP ID:            hCV1516413
SNP Position Genomic:     16166
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13783):
GTGTTGGAGTCAATCTTGAGGAGCCTGTTCCTTCAGCTGCTCCCGTATTGTCTTGATGTAGGCTGACCTAGAATCACCTGATTCTTGGCTACTACCATAG
R
CATTATTGCCCTTTTATCAGTTAGGATTAGGTTCAACTGTGTGTAACAGAAAGCATCATCCAAAACCAATGATATACATAAGTGTTTGTTTCTCTTTTGT
Celera SNP ID:            hCV1516416
SNP Position Genomic:     12888
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13784):
GTAGATGATGCTTTTCATTATCAAGGTCTCTAGATATTGAATCAAGGAAGTGGGCCATATAGTCACAGCTCAAGTCCATTCAAGGCTGTATCTAGATCTC
R
GTCTAGGATATGTGCTGCAGTTTCCTTCTGCCTTCTCATTGTTATCCCCAGGTTCCAGTCTAGAGGCCGAGTAAACCCAGAAGGTAGCCTGAGGTGTTGG
Celera SNP ID:            hCV1516417
SNP Position Genomic:     12694
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13785):
CTTTCTTTTTCTTTTTCTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCATGATCTC
R
GCTCACCGCAACCTCCACCTCCCTGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTCCCTGGGATTACAGGCATGCGCCACCACGCCTGGCTAATTT
Celera SNP ID:            hCV1516418
SNP Position Genomic:     11609
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13786):
ATGTTATGTATATTTTACCACAATAAAAAAAAAACAAAAAAATTAGTAGAGGTTAGTGACAATAGAGATATAACTTTTTAGCAGTCCAAGTTTACAACCC
Y
TCTGAGTTCTATCAGTGGTGCCAGGTAAAAGTCCATGGCTGATAACTTATGCTTTACAGATCCCCATATTTTACTGATTCAGATCTCCTGTACCCCAGGT
Celera SNP ID:            hCV1516419
SNP Position Genomic:     10992
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13787):
GCTGGCAGGCTGGGAGCTGGGCTCTGCTGGGGCTGTTGTTTAGAGATGCCTGAGTTCTGCTCTAGGTAGCCCCTCCATTTGGCTAGTTTGGGATTCCTCG
M
GAGAGGGCAGTCACAAGACAGCTTCCCAGAGAGGGAGCATTTGCTTATGGGAGGAGCTGTGGAAATGAAGATAGGAAAGCAGAAGCTGGGGAATCAGAGA
Celera SNP ID:            hCV2608864
SNP Position Genomic:     107660
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13788):
TATAAACATATAATTATTTAACCAACCCCTCACTTTTGGAGAAATGTTTTCAATTTCTGCTGTGATAAATAGTGCTACGACAGTGAAATTCCCTTACACT
R
TATTGCTAAAACTGTCATTACTGGATCGGAGGACATTAGCAATATTGGGGGTTTTGAGTCATATTGTCAAATTGCTCTCTGGAAGGATTACTGCACCAGT
Celera SNP ID:            hCV2608865
SNP Position Genomic:     108682
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13789):
GATATCAGGAATTGAGCTGGACGGTGCATCACTTACAAAGAATCTAATTTGTCGAGTTTCTGACAGTACCAGATTCCTTTCACATTGGCCACACGTTTTT
Y
ATATTAGATCTTGGCTAAAATAAGAGTAAGTAGTTTTTTAATGGTGACTTTTACCATTTCTTGCAAGGCGCAAGGCAATCTGACTTTCCTTTTGCTGTAA
Celera SNP ID:            hCV29152738
SNP Position Genomic:     81203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13790):
AACATATAATTATTTAACCAACCCCTCACTTTTGGAGAAATGTTTTCAATTTCTGCTGTGATAAATAGTGCTACGACAGTGAAATTCCCTTACACTGTAT
W
GCTAAAACTGTCATTACTGGATCGGAGGACATTAGCAATATTGGGGGTTTTGAGTCATATTGTCAAATTGCTCTCTGGAAGGATTACTGCACCAGTTGAA
Celera SNP ID:            hCV2608866
SNP Position Genomic:     108686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,4)      total(A,2|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13791):
GAGTTCCTTCCCATGAATACTATTTGAATCGATTTTTACCATCTCTTTATTTCCTTCAGGCTAGGCACGTTTCTCTTGGGTTGTGCTAATCTTGCAGAAA
R
CAGATGTTTCATGCAGTGATGATTTGGAAGGCAGTTGATATCAGGAATTGAGCTGGACGGTGCATCACTTACAAAGAATCTAATTTGTCGAGTTTCTGAC
Celera SNP ID:            hCV29152739
SNP Position Genomic:     81066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13792):
TGAGCAGATGTCCCTTGGATGCTCTGTTTTTATAAGGTTCCATTTAGTGCAATATTTCCGGGGCATATTTTACATTATTAGTAATAATTTTCAAAAGTAA
Y
AAAATCTTATTTTGGATTTCCATAACTAATCTTCCCTTTTAAAAATTATATGGTAACTGAGAAATCATAAATCCCATGATAAGCCATTTAATCACATGGT
Celera SNP ID:            hCV2608867
SNP Position Genomic:     109055
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13793):
TCCACAGATTAAGCACAGGAAATCATAGAATGTTAGGATAGAAAATAACCTTAGCCATGATGTAGTCATGCCTCTTTTATAGATGAGGAAAATAAAATCC
R
GATATTTTATTTATTTACTTAATGGATGCTTGCATAGAATTTACTATTTCCTAGACATTGGTTAAAGCACTTTCCTAATGTTAATCCGTCTAACCTTCAA
Celera SNP ID:            hCV2608868
SNP Position Genomic:     111085
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13794):
GCTTCCATGAAGGTTGTGCAAAAAAGTTTCAATCCAGAGTTGGGTTCCAGCTTTCTGTAGCTGTAAGCATTGGTGGCCACACCACCTCCTTACAAAGCAA
M
TAGAACCTGCGGCATACATTGGAGAGATTTTTTTAATTTTCTGGACATGAAGTAAATTTAGAGTGCTTTCTAATTTCAGGTAGAAGACATGTCCACCTTC
Celera SNP ID:            hCV27836488
SNP Position Genomic:     115400
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,30)   caucasian(C,34)   total(A,2|C,64)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:13795):
ACTCCAGATTGAGCATGGGGGTCAGTAAATTATGTCCAATAGGCCAAATCCAAACCTTTTTCATAAAGTTTTATTGGACCACAGCCACACCCATTCGTTT
Y
CATATTGTCTATAGGTTCTTTTATCCAATAACAGTGGAATTGAGTAGTTGTGACAAATAAAGCCTAAAACTCTCTGGCCCTTTACAGAAAAGGTTTGGTT
Celera SNP ID:            hCV15861110
SNP Position Genomic:     104256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13796):
AAATCCAAACCTTTTTCATAAAGTTTTATTGGACCACAGCCACACCCATTCGTTTCCATATTGTCTATAGGTTCTTTTATCCAATAACAGTGGAATTGAG
W
AGTTGTGACAAATAAAGCCTAAAACTCTCTGGCCCTTTACAGAAAAGGTTTGGTTTACTACGTTGTAGATGCTCAATAATGGTAACTGGAAAGTTTATGA
Celera SNP ID:            hCV15861111
SNP Position Genomic:     104301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13797):
AGTGCCTCTCTGCCCCTACAATATATGAAGAAAGGGGAAGAAACACACATTGCCTCCTGGTAGATTAGGGGAGGACTTCTTGTACATTTTTAGCAAAATC
Y
GAGTTCAGACCCAGCAATTAGACAAAAGGGTCAGCAAACTATGGTCGATGGGCTACATCTGCCCACTGCATGTTTTTGTAAATGAAGTTTTATTGGGACA
Celera SNP ID:            hCV11878906
SNP Position Genomic:     113789
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13798):
CTTCTTATTCAAGTCTTCACTTTAATGTAATCTCCCTAGTGAGGACTTCCCTTACTCTCCTCATTTTATTTTCTCTCTCTGCATCCTATTTATTTCTTTT
Y
TAGCAAGTACCACATTTTAAAGTTTTATATTTAATTTGCTAAATTATCTTCTTCACTAGAAAGTAATACTTCACAAGGGTTGAGCAGAACTGTTATTCAG
Celera SNP ID:            hCV27921571
SNP Position Genomic:     67327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13799):
TATGGGACTACTGTCATACATACAGTCCATATATTGTTGACTGTGTAATGTTGACCTGAATGTCATTATGTGGCAGGCACATGACTGTATCGCTAACCTT
Y
GCACAAGATTACTGTAGGATTACATGAGATAGTTGTAAATAATTGGTGGGGTACTGGGCACCTAGTAGGTATGCATACATGTTCACCATCATTATGGTTG
Celera SNP ID:            hCV1516420
SNP Position Genomic:     8270
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13800):
GCATTATAGTCTTATGGGACTACTGTCATACATACAGTCCATATATTGTTGACTGTGTAATGTTGACCTGAATGTCATTATGTGGCAGGCACATGACTGT
R
TCGCTAACCTTCGCACAAGATTACTGTAGGATTACATGAGATAGTTGTAAATAATTGGTGGGGTACTGGGCACCTAGTAGGTATGCATACATGTTCACCA
Celera SNP ID:            hCV1516421
SNP Position Genomic:     8258
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13801):
TTGGCATAAGCTTTGCAGTCTAACTAATTTAATGTTGACTTGGTTTTATCATTAACAGACTAATTGGATAGCAATAGAAGCATACACTGCTACCATCCTC
Y
CCCTGATACTGGGAAAATGCATATATTCCAAGGGAAATCCAGTTAAGGGAGACTGAAAACGTTTCTCATGAATCAGACTAGGTTTTATCTGAGTTCCTTC
Celera SNP ID:            hCV29152740
SNP Position Genomic:     80875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13802):
TCTTCCCACCCCAGCCTCCCAAGTAGCTAGGACTACAGGCACTCATCATTAATGGTGGCTCCTTTTAACAGTGATATTCTACATCATCTAAATACATACT
M
TGATGTATTTAGCTATTTTCTATCAATGGGAATTCACTTTGTTCCTAGTGCTTGGCTACAGCAAACTGGTCTGCAATGAATACCTTGTGTATCTGCCTTC
Celera SNP ID:            hCV29152741
SNP Position Genomic:     79045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13803):
CTGTTCCATTTTCTTCTGGTACTTTCATTTGAATCAGAATGTCAGGCAGCAATGGACCCCAAAGATAAGCTCTCCAACTCCACCACTTTGTAAATGAGAA
R
GCTGAAACCCAACTAGGCAAAAAGTCTTTCCCAAGGTCACACAGCTCATTGTGAAAGAAGACCAGACCCAAACTCAGGTTTCCTGAATTTTGTCCCATTT
Celera SNP ID:            hCV29152742
SNP Position Genomic:     62618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13804):
GTCTAGATCAAGCTTATTCAACTCGCGGCCCAGGACAACTTTGAATATGGCCCAACGCAAATTTATATACTTTCTTAAAACATTGTGAGATTTTTGTTTG
Y
GATTTTTTTTTTCTTTGAGCTCATCAGCTATCATTAATGTTAGTGTATTTTATGTGTGGCCCAAGACAATTCTTCTTCCAGTGTGGCCCAGGGAATCCAT
Celera SNP ID:            hCV29152744
SNP Position Genomic:     53349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13805):
TCTGTGTGTTCGCTGGAGTAGCACTTTTAATTTCCTTCAGAAACTTTTCCCTTGCATTCCCAACTTGGCTAACTGGTGCAAGAGGCCTAGCTCTTGGCCT
R
TCTCGGCTTTTGACATGCCTTCCTCACTAAGCTTAATCATTTCTAGCTTTTTGTTTAAAGTGAGAGACATATGACTCTTTCTTTCTCCTGAACACATCGA
Celera SNP ID:            hCV27869844
SNP Position Genomic:     57296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13806):
AGAAAACACCTGTTTCAGATTACAAATTTCTTACTTAATTAGACACATGCAACTCTTGAGTTTAAACATAACACTCACAATTCGTCAGCCACCCACGGCA
R
TTCTCCAGGTGTTTGTGATTATGTAATGCCCTAAAAAATCATCTGGATTGTGTCAACTCTCAGAAGTACTGCTTCAGTTTTTTAAAAAATCCTCTACAGA
Celera SNP ID:            hCV29152745
SNP Position Genomic:     34341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13807):
ATATTCTCCTAAGTAAATGACCAGTCTTTCTTACGAGTGAATTTTAATAATAACGCTTCTTGGAACCATGGGCAGCATTAATTTAGATTTCAAGAGGCAG
Y
GTGGTGCAGTGGTTACCTGCATGGACTCTGGAGATAGAATGCCTGGGTTAGAATCCTTACCATGAAATAGCTGTGTGGCCTTGGGCAAGCCAGTTACTTT
Celera SNP ID:            hCV27869845
SNP Position Genomic:     46318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13808):
GTTTGCAAAATCCTGCCTTCCCCAGCTCACTTTAGACTCCTAGGGGAGATAACAAGAGATACTTAAATTGTACTACGAAATTTGGTGAAAATGGTAGACG
R
CTTTTCTTTCTGCAAAGCACTGAGATCTAAGTACCTCATCAGTTGTTCACATGCATACAATTTAATCGTAGGAGTCTGGAAGGACCCAGACATAATCTAG
Celera SNP ID:            hCV12120415
SNP Position Genomic:     6801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   TSC_42_A(A,29|G,54)   TSC_42_C(A,29|G,54)   TSC_42_AA(A,16|G,67)   total(G,175|A,74) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13809):
TGGAGGCAGAGGACTTTCAAATTGCATGAAAGTTAGAAAATAATTAAGGAGGAACAAGATGGGTATAGTTGAAGAAGTTTCATGTTTTGAGGCAGAAGCT
R
TCCCTTCTAACAGAAGGATCTGGGAGGGCTTCAGGGAAAATTTGCCCATTTAGTAAGGCCTTAACCAATAAGTAAGATTTGACTCTCTGGATAGTGGAGG
Celera SNP ID:            hCV29152746
SNP Position Genomic:     28105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13810):
AGAAGATGGTGTTTAAAGAGAAAATGAACACATCATAACAGGTACAAATATGTATTTACAAAGCTTTTTAAAAAGTAGTGGTTTATGTACTTATAGGATT
R
CACAACCATCACTGCTGATTCCAGAACACTTTCATCAGCCCAGAAAGTAAACCTGAACTCATTATCAGTCTTTTCTCATTCTTCCTTCCTCCAGCTCCTA
Celera SNP ID:            hCV27869846
SNP Position Genomic:     27085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13811):
CTATCTGTCTTGCATTAGAATTGGGGATTGCCTCAACCTCCCCTCACATACCCAAGAGGATCATAAATTGCTTCAGCTGAGATCATTCTCTGTGTTCTCT
R
TGTGGAGATAGTAACTACTGGCTGAATTTAATTGGATAATAAAAAGTTGAAGACAATGAATATATTAAATAAAATGAATGATTAAATATATTACTTTGAT
Celera SNP ID:            hCV12120416
SNP Position Genomic:     21686
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   Caucasian(G,29|A,55)   African-American(A,84)   Asians(A,84)   total(G,29|A,223) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13812):
TATATTGTGGGATGGCTAAATCAAGCTAATTAACATATTCATTACCTCACATACTTATTTTTTTGTGATGAGAACACTTAAAGTCTCTCTTAGCCAATTT
Y
GAGTATACATTGTTATTAACTATAGTCACCATTTTGTGCAATGAATCTCTTGAACTCATTCCTCCTGACTGAAATTTTGCATCCTTTGACCAACATCTCT
Celera SNP ID:            hCV29152747
SNP Position Genomic:     9797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13813):
TGGGTTCAATTTTTTTAGTTATGTTTTAAATTGACAAATAAAAATTGTATATATTTATGATGTACAAAATGATGTTTTGATAGGTGTCTATATTGTGGGA
Y
GGCTAAATCAAGCTAATTAACATATTCATTACCTCACATACTTATTTTTTTGTGATGAGAACACTTAAAGTCTCTCTTAGCCAATTTCGAGTATACATTG
Celera SNP ID:            hCV29152748
SNP Position Genomic:     9709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13814):
TATACTCTCTTTCCAGAAAAGTGTACACACTTGAAAAACTGTGAACAATTCCAGGGAGTTCACAGGCCATCCTGGAGCCCATTTATATCCCTAAGATTAT
R
TATTCCTGCATCCCTGGAACTGATGCATATTCTGTTAGGATAGAATAAAAGAAGGAGTTCACTGGAACCAGAATGCAACTAGAATGCACTGGAACTAGAA
Celera SNP ID:            hCV27869848
SNP Position Genomic:     91319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13815):
GGCCGGGGCATTCTGCACGCTGAGATGCCTTGCTCAGAGGAGCCAGCCCATGGCCTACAACTGTGGGTTAATTTGAGGAGCTCAGAGAAGATGGTGGAGC
Y
TCAGTACCAGGAACTGAAAAGTGAAGAAATCCCTAAACCCAGTAAGGATGGTGTGACAGTTGCTGTCATTTCTGGAGAAGCCCTGGGAATAAAGGTAAGC
Celera SNP ID:            hCV12120418
SNP Position Genomic:     43893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13816):
TGTCTCTGCTTCTCTCTGCACACTGGTGTGCCACCCTGGGCTGACATGCTATCTGCCTCAGCATGCATATCGCCAAACATGCCCACCACACAGCCCCTAA
R
TTTATTTGCCCACACTTCAAAGCACCAGGGAGTAACTCTGATTCTCAATTCCAAATTCCCAGGAGAGAGAATCTGATTGGTTGAGCATAGATCAGGCCTC
Celera SNP ID:            hCV29152749
SNP Position Genomic:     9003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13817):
CAGCATCAGAACACTCTCTTTTTAGACTCCGATATGGGGTCCTCCAAGAAAGTTACTCTCTCAGTGCTCAGCCGGGAGCAGTCGGAAGGGGTTGGAGCGA
S
GGTCCGGAGAAGCATTGGCAGACCCGAGGTATGCTAGTTGGGTGGCTGCTCCTTGTTTTCTTTTCAGAAGGGACTGGTGGGATGTTGATGGTGATTTTGG
Celera SNP ID:            hCV25631272
SNP Position Genomic:     8645
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,27)   caucasian(G,34)   total(C,1|G,61)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:13818):
GTCTGTCTGTATCTCTCTCTCTCTCTCCCTCCCCTATCTCTCTCTCTGTCTTACACACACACACACACACACACACACACACACACACACACACACACAC
A
GACTTATCCATGCTTCCACTGCATTAGGTGACAAATACAAAGTTTGAGGCTTCTCTGTTTAGTGCCTAACAATTAATTCAAGTATTATAAAGCACTCATT
Celera SNP ID:            hCV26522471
SNP Position Genomic:     80352
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13819):
TACCCTTAACAATTCCACCATTGACTCAGCCTCCCAAATTAGACACCTGCTCTTCTACCTTGATGCCAAAGTCTTCTTTAAAAATTATAAATCATATTAT
R
TTACTCCCTACTTAACCTTACAGTGATTCATAATCACCTGCAAAAGTAGGTCCAAACTTCTTCCTGTAGATTGCATCCAAAGCCCAGAAGGGTCTGGTTT
Celera SNP ID:            hCV312722
SNP Position Genomic:     112805
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13820):
TGTCTGTCTGTATCTCTCTCTCTCTCTCCCTCCCCTATCTCTCTCTCTGTCTTACACACACACACACACACACACACACACACACACACACACACACACA
C
AGACTTATCCATGCTTCCACTGCATTAGGTGACAAATACAAAGTTTGAGGCTTCTCTGTTTAGTGCCTAACAATTAATTCAAGTATTATAAAGCACTCAT
Celera SNP ID:            hCV26522472
SNP Position Genomic:     80351
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,6)   total(C,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13821):
CTATAGACTTATTAGGAGCTTGGTTACATTTCCCTCTTGTTGGTTTTGTGTTTGCAGTGGATGACTGCGGGCCGGGGCATTCTGCACGCTGAGATGCCTT
K
CTCAGAGGAGCCAGCCCATGGCCTACAACTGTGGGTTAATTTGAGGAGCTCAGAGAAGATGGTGGAGCCTCAGTACCAGGAACTGAAAAGTGAAGAAATC
Celera SNP ID:            hCV25765508
SNP Position Genomic:     43824
SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,1)   caucasian(G,6)   total(G,15|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13822):
GAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCGTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCC
R
CCACCACGCCCAACTAATTTTTGTATTTTTAGTTGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTAATCCATCCACC
Celera SNP ID:            hCV26522473
SNP Position Genomic:     79928
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13823):
TTTGACACGGAGTTTAGCTCTTGTCGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGC
S
TCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCGCCACCACGCCCAACTAATTTTTGTATTTTTAGTTGAGATGGGGTTTCACCATGTTGGCCAGGCTG
Celera SNP ID:            hCV26522474
SNP Position Genomic:     79893
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,5)   total(G,5|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13824):
CAGCCTCAAACACTTTTTTTTTTTTGACACGGAGTTTAGCTCTTGTCGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCTGCCTCC
Y
GGGTTCAAGCGATTCTCCTGCGTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCGCCACCACGCCCAACTAATTTTTGTATTTTTAGTTGAGATGGGG
Celera SNP ID:            hCV26522475
SNP Position Genomic:     79871
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13825):
CAGCTATAGCAGATGCTGTTGGTACCCCACCCACACCCCTGGGCCCTTACTTCCTGAGTGCCCACTGACCAACTAATAATAGCCAGTATCTGTGTCACTT
Y
GCTTGAAGGCTTTTCTCTGAAACCAATCAGGGCAGCATGAAAGTACTGGAGAATTAACATTCCCAGAAGCTACCTCACCCATCAGACAGGATAACTCTGA
Celera SNP ID:            hCV484992
SNP Position Genomic:     93133
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13826):
GTTGTTCATAATAGTCTCTAATGATTCTTTGTATTTCTATGGTCTCAGTTATTGTGTCTTCTTTTTCATTTCTGATTTTATTTATTTGGGTCTTCTCTCA
Y
TTATTCTTAGTCCAGCTAAAGGTTTGTCAATTTTATTTATCTTTTCAAAAAACCAACTTGTCACTTCATTGATCTTCTGTATTTTTTTGTCTCAATTTCA
Celera SNP ID:            hCV26522476
SNP Position Genomic:     78280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13827):
GAAAGTTGTTTAACTTACCAGGGTTACGCATTGGTGGATGTGGGACCAGAATCAAGGTCTCCTCAATCCTGCTCTCCACGCTTCACCCCATACCTTTTGT
Y
CAATGACAATGCAGAGATAGCACCATCTAACTTGTCTTTTCAAGTCTAAATCCCTTAGCGAACCCAGCAGCAGAAGGGACAGAGCGGGTGGGAGAGAGGG
Celera SNP ID:            hCV484993
SNP Position Genomic:     92825
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13828):
TTATTTAACTGAATGTCCTCTCCAGGTTGCTGCAGATGACAGGATTTCATTCTTTTTATGGCTGAATAATATTTCATTGTATATTTATATCACATTTTCT
H
CATTCATCTATTACTGGGCACTTAGGTTGATTCTACGTTTTGTACATTGTGAATAATGCTGCAATAAACATGGGAGTGTAGGTATTTCTTTGATATATTG
Celera SNP ID:            hCV26522477
SNP Position Genomic:     75504
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4|C,4|A,4)   total(A,4|C,4|T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13829):
TTTGAATTATTCTTTTCTAGCTGTTTGGAAATATACAAAGATTGTTGTAAACAATAGTCGTCCTACTGATCTATCAAACACCAGATCTTATTTCTTCTAT
W
GTATATTTGTACTCATTAATCAATCTCTCTTTATCCCTCCCAGACCCCTACCCTTCATGTCTTCTGGTAACCACCAGTCTTCATGAGATCTTTATGAGAT
Celera SNP ID:            hCV26522478
SNP Position Genomic:     75243
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2|-,6)   total(A,2|-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13830):
GGCCTCCCAAAGCACTGGGATTTCAGGCATGAGCCATTGTGTCTGGTCTATTTTTAAATAATTTTTTTAATTAACACAATAGATGTACATATTTTCAGGG
Y
ACATGTGACAATTTAATACGTTCATATAATTTGTAAAGATCAAGTCAGTATAATTAGGATATTCATCACCTTAAATATTGGTCTTTTCTTTATGCTAGAA
Celera SNP ID:            hCV26522479
SNP Position Genomic:     75039
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13831):
CATTCAAGGCTGTATCTAGATCTCAGTCTAGGATATGTGCTGCAGTTTCCTTCTGCCTTCTCATTGTTATCCCCAGGTTCCAGTCTAGAGGCCGAGTAAA
Y
CCAGAAGGTAGCCTGAGGTGTTGGAGTCAATCTTGAGGAGCCTGTTCCTTCAGCTGCTCCCGTATTGTCTTGATGTAGGCTGACCTAGAATCACCTGATT
Celera SNP ID:            hCV16192853
SNP Position Genomic:     12770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13832):
GAGCTGGCCTGTGGAGTGCATAAGTGCAAACTTTAAAGTTTGCAATTGGGGGCAAACCAGCCCCAGCCCAAAGGGGGTTTCTGTAATGTGAATACAGAGG
Y
CTTGGGCAGAAAGTGCAGCTGAGCTTCAGGAAATGTCTCTGCTTCTCTCTGCACACTGGTGTGCCACCCTGGGCTGACATGCTATCTGCCTCAGCATGCA
Celera SNP ID:            hCV29152750
SNP Position Genomic:     8869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13833):
GGTAGGCTGAAAATTTCCCAAATCTTTAAGTTCTGCTTCTCTTTTGATTAACAATTCTGCCTTTAAATTATTTCTCTCTTCTTGCATTTTACTATATGCC
R
TCAAGAGGAACCCGGTCTCTCAACGCTTTGTGTACAAATAGCATCAGCTAAACATCCAATTTCATTGCTTACAGGTTCTACCTTCCACAAAACACTAGGA
Celera SNP ID:            hCV16192857
SNP Position Genomic:     14953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13834):
CCACTGTATATTACATTTCATTTATCCATTCTATTATTAAAGACATTTGGATGATTTCCAGTTTGGGGCTATTATCAGTTCTGTCACTATTAAGGTACTT
R
TGCCTGTCTTTAGGTGACTGTTAGGTATACACCTATGAGTTGGAATATTGGGTCATAGATTATGCATATATTCGTCTGTGCTACACATGGCCAAGCAGCT
Celera SNP ID:            hCV727821
SNP Position Genomic:     72780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13835):
CTCTTTTTGACACCGGGCAAGGGAGGAAGCAGAGCATTTTAGGGAGAAAGAATTCTGCAAAATACTGTAGAAAAAAAGGAGTTGAGGATTTCCCCATCTT
Y
ATCTCCTTGCTTCTATGCACCAAGGTCCAACCCAGGTCCCCTCTCTTTGGTGCAGCCTTCTCAGCTGTCCTGGCCGACAAGCATCTCAACTTCTGCCCAG
Celera SNP ID:            hCV12120422
SNP Position Genomic:     50636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;(T,-|C,-)   Caucasian(C,17|T,67)   African-American(T,39|C,45)   Asians(T,39|C,45)   total(C,107|T,145)
SNP Type:                 INTRON


Context             (SEQ ID NO:13836):
TTCTGTCTAAGACTTCATCAGAATGGCCTTTACTGTCCATATTTCTACAACAATCTGTTCAGGATTACTTAGGTATTCTTTAAGAAGATTGAGGCCGGGC
R
CAGTGGCTCATGCCTGTAATCCTACCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGCTCAGGAGTTTGAGACTAGCCTGAGCAACATGGTGAAACC
Celera SNP ID:            hCV16192858
SNP Position Genomic:     15229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13837):
TTGCTCAATATTATGCCTGTGAAATTCACCTGAGTTGTTGCATGTAGTTGAGTTCATTCATTCTCCTTGGTGTATAGTATTCCACTGTATATTACATTTC
R
TTTATCCATTCTATTATTAAAGACATTTGGATGATTTCCAGTTTGGGGCTATTATCAGTTCTGTCACTATTAAGGTACTTGTGCCTGTCTTTAGGTGACT
Celera SNP ID:            hCV727822
SNP Position Genomic:     72699
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13838):
GTGGCTCATGCCTGTAATCCTACCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGCTCAGGAGTTTGAGACTAGCCTGAGCAACATGGTGAAACCTC
R
TCTTTACAAAAAATACAAAAATTAGCTGGGCATGGTGGCTGGCACCTGTAGTCCCAGCTACTTGGGGCACTGAGGCGGGCGCATTGCTTGAGGCCAGGAA
Celera SNP ID:            hCV16192859
SNP Position Genomic:     15332
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13839):
TCCTGTAGCAATCATGAAATAGCTACTAGTGCTCTGGACGATTGTGCTTAATGCCATTTGGGTGTAAGGCCTCCTAATTTCATTAGTCTTACCACTTGTG
Y
TTGCAAGGATAGCTGTTTGGAGTCAGCAGTGCATGGAACATGTGAACTGAGACAAATCTGTTTGAAAATCTCAACTTAAGATTTCAAATCCACTGTGTAT
Celera SNP ID:            hCV29152756
SNP Position Genomic:     118533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13840):
TTCAGTGCCGGAACAAACTGCCCTGTTTTTAATGAAAGGAAATGGGTGAGTAGGAGGTGGAGGTAGACACAAAAATGTTTGTTGTTTCCTTTTGTTATCA
S
CCATGTCCTGTCCTGTCACCCATGAAACCTTTACATAGACTGTTGGCATTTTGTCAATCTTACTCCTGTTTTTCTAGTCGGAGGTAAGTATTTGTGGTCT
Celera SNP ID:            hCV27869857
SNP Position Genomic:     2529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13841):
TGTAACCTAATCTCAGAAGTGACATTGCATCAGTTTTGCTATATTCTACTGGTTAGACGCAAGACTCTAGCCACAGCCCATACTCAGAGAGAGGGAATTA
Y
ATAGGGCAATACGGGAGGCAGGATCAGGCAGACGTCTTAGAGTCGACCTCCACACTTATGATCTTGGTTGAAAGTACCACACATTTTTCCATATGGTCAA
Celera SNP ID:            hCV2609034
SNP Position Genomic:     83093
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13842):
TATTTGCAGCTTTGATAGTCCTGGCTGCCTGTCATCAGACATACTGGATGGTAAAATTATGCTGTATAAAGTTTATTATGAAGTAATTCAAATCAAGGTC
M
CCATTTGTCTTTTTTTTTTTTCCACCTTTCCAGGTCAAATTCCATCATAAACTCCAAGGACTGTCTAGATTCTTTTTATTTGGGTGCTTTGTTGTATCAA
Celera SNP ID:            hCV2609036
SNP Position Genomic:     80552
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,10)   total(A,10|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13843):
GTAAAAAGTTGCCCATTGGCTATGTAGTTTTCAATGAGGCTTGCTAGATCTGTTCATAAATGTAGCCCCTGGTAGTATGGCTTAAAAGACATATCTAATC
W
GCAAATTTTATTTTTATTTCAGTTAAAAAATCTGGATCCGTTTTTACTGTTTGATGAATTTAAAGGAGGTAGACCAGGAGGATTTCCTGATCATCCACAT
Celera SNP ID:            hCV25631282
SNP Position Genomic:     19991
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,30)   caucasian(T,40)   total(A,6|T,70)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13844):
CTACTAATTTTTGTATGTTGATTTTGTATCCTGCAACTTTACCAAATTTGTTTATTAGTCTTAATAGGTTTTTTTTGGTGGAGTCTTTAAGTTTTTCTTA
S
TGTAAGATGATGTAATCTGTGAACAAGACTAGTTTGACTTCTTCCTTTCTTATTTGAATGCCCTTTGTTTTTTTTTTTCTCTTGCCTAGTTGCTCTGGCC
Celera SNP ID:            hCV2609038
SNP Position Genomic:     77283
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13845):
TTTACTTATATAGCTCCTTTTGTTTTGTTTTGTTTAAGAGACAGGGTTTCTCTGTGTCACCCAGGCTGGAGTAAAGTGGCACAATTATAGCTCACTGCAA
Y
CTCGAACTCCTGTGCCCAAGAGATCTTCCCACCCCAGCCTCCCAAGTAGCTAGGACTACAGGCACTCATCATTAATGGTGGCTCCTTTTAACAGTGATAT
Celera SNP ID:            hCV2282527
SNP Position Genomic:     78921
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,42|C,42)   TSC_42_C(T,21|C,63)   TSC_42_AA(T,12|C,71)   total(C,176|T,75)   (T,-|C,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13846):
GTCACTTAGGGCTCAATTGCAATTTAATTTAAACTACTGAAGGGAGAAAAGGTAGGATGACACCATTTTATGTAATTGAATACTATGCCACCTTCTCTCC
Y
ACACTAGCCCTCTCTATATCCCAGCACAGGTATGCCCAGGGCAGGGTGCCTTTCAGCTTACAGAACATTCAGTGAGGGAAGAGAATATGAACACCAGTCA
Celera SNP ID:            hCV25631283
SNP Position Genomic:     92307
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,23)   caucasian(T,30)   total(C,11|T,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:13847):
TCCCAAAGCACTGGGATTTCAGGCATGAGCCATTGTGTCTGGTCTATTTTTAAATAATTTTTTTAATTAACACAATAGATGTACATATTTTCAGGGCACA
Y
GTGACAATTTAATACGTTCATATAATTTGTAAAGATCAAGTCAGTATAATTAGGATATTCATCACCTTAAATATTGGTCTTTTCTTTATGCTAGAAACAT
Celera SNP ID:            hCV2609039
SNP Position Genomic:     75043
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13848):
TGTGCATTCACATATATGCAAATATCAGGTTATTTTGTCATTTTAATAAAATGGAATCATAACTACTCTTTTACGTCCTATTTATTTGACTGAAAAATAC
Y
CATGGAAATCCTTCCCAGTTTACTTATATAGCTCCTTTTGTTTTGTTTTGTTTAAGAGACAGGGTTTCTCTGTGTCACCCAGGCTGGAGTAAAGTGGCAC
Celera SNP ID:            hCV2282528
SNP Position Genomic:     78802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13849):
CCCGACATCCACAAAAAAGGTGAGGGGGGTTTTGAATAAGATACTGTCGCTTTTATGAGCAACAAAACTGCCTTTTTGATACTACCAAGGGTAGCTGTAT
K
CCTGTTTCCCAGGTTGTATGTGTCTGAGCATTTATTCAACCCTTGGAAAGCCAAGACAGAACAAGATTCTGCCAGGACAGCATGGTCTAAAGTGAAGGCT
Celera SNP ID:            hCV8816922
SNP Position Genomic:     47372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13850):
CGCAGGATTCATCTCCTTGTCCTTTTTCAAAATTGAAAACAAACTAGTTTCAGGCTTTAATAATAGCAAATATAATTAACCAAGAGATTCAAGGAAATTA
S
TAAGTCCATTATTTCTCAAATTAAAATAAATGTTGTGGTGCTATATAGTTAACCAAATAAGTAACCATATAACAAATGTACTATAATGGGTATTAAATTA
Celera SNP ID:            hCV25631284
SNP Position Genomic:     102046
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,3)   caucasian(C,36)   total(C,69|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:13851):
TTTCGCATCAGGAAGACAATTTTAGGTTAAATTACAAGGTGAGGCTGAGAATATATATTTCAAGAGATTAGTGTATTTATAACCAATACAGAGTCAACAA
Y
AACTTCCATCTCTGCAACTAAAATACCTAGAAAATGGAATTAGCAATAATTCCAGCACTTCTTCAACTTTAATATTCATGTGAATTACCTGAGGGTCTTG
Celera SNP ID:            hCV8816923
SNP Position Genomic:     46921
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13852):
TCCTTCCTCCTCCTCCTTCTTTCTCCTTCCTCCTCCTCCTTCTTTCTCCTTCCTCCTCCTCCTTCTTTCTCCTTCCTCTTCTTCCTCCTTCTTTCTCCTT
Y
CTCCTCCTTCTTTCTCCTTCCTCCTCTCTTTCTCCTTCCTCCTCCTCATTTCTTTCTTTCTCTCTCTTTCTTTCTTTCTTTCTTTCTTTCCTCCTCCTCC
Celera SNP ID:            hCV26522481
SNP Position Genomic:     66098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13853):
TCCCAGGTTCAAATGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCGCCACTACGCTTGGCTAATTTTTGTGTTTTTAGTAGAGAC
R
GGGTTTCATCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGAGATCTGCCTGCTTCAGCCTCCCCAAATGCTGGGATTACAGGCCTGAGCCACT
Celera SNP ID:            hCV26522482
SNP Position Genomic:     64796
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13854):
CTTGTTTGGATCTCAGCCTGAAGATTGCACCCTCAGATAAGCTGCCTTGAACTGAGCAGGACACTTCACGTGCTCACAGAACCCTGTCATTCTTCGAAGC
R
CAAGCACAATTATAATGGCAATAATGATATGCATGACATTGTTTGTTTAAGGATTTTTCTCCTGATGAGGGCTGTGTGGAAGATGCTGTTGATGGCCTGC
Celera SNP ID:            hCV8816927
SNP Position Genomic:     42347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13855):
GATCCCACCTCCTGCCTCCCCCTCATCCTCAGGGATTAGTGAGAAAGGCAGAGAGCAGCTGGCAGTATTGCCTCATGGGGATATTAGGGAGGGGTCTGGA
K
GCTCCTTCGAACATTCCCTGATTTTTTTTCTATTAACATATTAGAGTCGGACGCTTAGCCATGACTGCCTCCTCAAGGAAAGAGATGAGAAATTTATCAG
Celera SNP ID:            hCV26522483
SNP Position Genomic:     58237
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,10)      total(G,10|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13856):
GCATGGCCGTGTGCCAATAAACTTTTACAAAAACAGGTGGCAGGTTAGATTGGGCCCCCAGGCTGTAGTTTGCCAACTCCTACATTAGAAGGTTTAACAA
S
CCTTTTCAAATGGGAGTAGAGGGAAATCTAGACTTCATGGAAGAAAAAAATCTTTAAAGTATGCACTGGCCTCCTTTCAGATCCTTCAACTAATAATGCT
Celera SNP ID:            hCV8816928
SNP Position Genomic:     42059
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,3)      total(G,3|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13857):
CATTCTATCTAAACCTGTGCTATCAAAGGGAATTTTCTGTAAAGATGGAAATGTTCTATAATCTGCACTACCCAATATGATAGCCATTAGCCGGATGGGG
M
TTTTGAGCACCCAAAATGTGGCAGGTGCACCTGAGGTGCTGAATTTTAAATTTTATTTAATTTTTTTTGTTTTTGTTTTATTTATTTATTTATTTTTTTG
Celera SNP ID:            hCV8816929
SNP Position Genomic:     37952
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,2)      total(A,2|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13858):
TGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACAGCACT
Y
CAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAATATCTTGAATATACAGATGACGTTTCACCTGGGCTAGT
Celera SNP ID:            hCV26522485
SNP Position Genomic:     53956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13859):
TGGTGGTGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCAC
W
GCACTTCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAATATCTTGAATATACAGATGACGTTTCACCTGG
Celera SNP ID:            hCV26522486
SNP Position Genomic:     53950
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,4)      total(A,4|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13860):
GTAAAGTCTCAGTCTAGCATTTACACTACTTAGCAAAAAAACAAATAAAAGGTTATAATAAGTAAAAGGTCAGTGGTTTCCTTGGTTTCTGATTTTTTTT
T
CCCCAAAGGCTGAAAGTATGTTTTTTGCTTCAAGTAGTAAAAGATAGGCATTTTGAATTCAATAAAACTTCATTGACCAGACTTCTCTAATTCAGATTTT
Celera SNP ID:            hCV26522487
SNP Position Genomic:     34555
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13861):
TAAATGATAAAAAGCTTCATGCAAATTGTCCACACTATTAACAAAGCTGCTTCAGAGTCATCCAATCAACAGACTCTTAGAATCACAGGCCTGACTACAC
R
GGATTAAACTTGAAGGAAATTTGCCATGCAACAGTATTAACTACTGATATATGAGAAGCTTCATATGTTGATACGTTACCTGTAAGCCTCAAAACAATCT
Celera SNP ID:            hCV26522488
SNP Position Genomic:     29489
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Gene Number:                 9
Celera Gene:                 hCG15848 - 146000220474494
Gene Symbol:                 ATF6
Protein Name:                activating transcription factor 6
Celera Genomic Axis:         GA_x5YUV32W2NG(88209..298031)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12169):
ACATCCAACATTTAATGATTTAAAAAGAAAAGCCTGGTAACTAGAGTGGAAGGAAGCTTCCTTAATCAGAGCAGCTGTGAAAAATATATGGGAAAAAATC
TTATTTAGTGGTAAAACTTTTCAAACATTCACATTAAAATTTAGAAGTAAGTTAAAAGATGTCTAGCCCCTACCTTCTGTATCGTATTAGAGGGCCTAAC
CATTGCAGTAAAACAAGGGGCTAAACAGTTTAAGACGTAGGAAAAAAATCTGAACTCACTAATAAATCTCGACATCTCTAAAAGTGGGACAGTATGTATA
TGCCTTCTGCTATGATGCAAGGAAGTACCTATGAAGTATTCTTGCAAAAGCAAACAAAAAACCAAAAACTAATCAAGCCTCTAGATGTCACTGGCAGTTT
CTGGAACAAATTAAGCATCACCATGAAGATGTAATCAGCAGAATCATGAAGTGGGAAATTCTATAGGACCAATGACTTAGATTCTTCAACAAATGGCAGG
GGGGAAGAAATGGAGAGGGAATTGTCATGTGAACTAAATGCAATGTGACAATCTTGTTGGATCCTGATTTTAACTAACTGTGGAAGGAAGGGCATTTTTG
AGACAGAAAACTGAACATGGAACAGGTATCAGATGATATTAAGGAATTATTAATTTTGTTGGGTATGATAATGGGATTATCAGTATGTTTTTTAAAAATA
AGAAAAGGCAGGCTAGGTGCAGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCTGAAACGGATGGATCACAAGGTCAAGAGATCGAGACCATCCTG
GCCAACATGGTGAAACCCCATCTCTACTAAAAAAATACAAAAAGTAGCTGGGCGTGGTGGCGCGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAG
AAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGATCACGCCACTGCACTCCAGCCTGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAGG
CCTTGTCTCTTAGAGATATACATTGAAGTATTTATGGGTGAAATAATATATCTAGATATGCTTTAAAATACTCCAGGAAGGCTGGGCAAGGTGGCTCACG
CCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTTAGGTCAGGAGTTCAAGACTAGCCTGGCCAGCTTGGTGAAACCCTATCTCTACTA
AAAATACAAAAATTAGCTGGGCATGGTGGCAGGCACCTGTAATTCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGATTGTGGGAGGCAGAAGTT
GCAGTGAGCCGAGCTCACGCCATTGCACTCCAGCCTGGGTGACAGAGAGAGACTCCGTCTCAAAAAAAAAAAAAAATTCTGGGAAAAACACAGAACAAAA
TGAAAAAAGTTGTGGAGAGGAGAGGTAGGATAGATAAAACAAGAATGGCAAATTGTTTAAGCTGAAGCTGGATGATAGGAACACAGGGATTTATTATATC
ATCTCTTGTATTTGTTTGAAAATTTTCATACTAAGTTTATTTTACAAATTAAAACATTAAATAAAATAGAATTTAAAAGGTTGGTGTTTGCATAATGTTC
TGCTAAATAAAAAATCCTAAAGAACTTTAGACAAATTTTTTTAAAGTCATTTTTATTTTATCACATACTAGTTTCCATCTACCATAATATGATTTTTTTT
TTTAGAGACAGAATCTTGCTATATTGCCCAGGCTAGCCTTGAACACCTGGGTTCAAGCAATCCTCCTGCCTCAGCCTCTCAAGAAGCTGGGATTACAGGT
GTGTACCACTGTTCCTGGCACAGACAAAATACTAGAATAACAGAATTCAACAAGGTTTTTGGTACAAGATTGCTGTACAAAAATCCACAGTGTTGCTATA
CCCCAATAATAGCCAAATAGAAAAAAAAAGATGTGAAAAACAAAACTATAAAACTATGAAAATGAAAATGAAAATCTTAGTGACCTCAGGAGAGGGAAGG
ATTTCTTAAGAAAGCTACAAGTCAGCTATCATAACAACAGATTGATAAATTTGACTACATTGAAATTAAAATCTAGAGAACAAATCACCGTAAACAAAGA
CGACAAGTGTCAACCTGGGAGAAGGTATTTATAACATATACCAAGCGTTAACTTAAAAAAGCCCAACAATGGGCTGGGTGCGGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGCTGAGGCAGAAGGATAGCTTGAGCCTAGGAGTTTGAGACCAGCCCGGGCAACAAAGCGAGACTCTGTCTCTCTCTCTCTTTTA
AAAATGTATATATTAAAAAGCCCCACAATGAATAAATTTAGAAAAGAAGGGGAGACTTTATGGCCTGCAAGGTGGCCATCCTGCAGGCTGGGAAGCGTGC
CTCCAGAAACAGGCGCTTTGAAGGAGGAGGGCTTGGAGTGTAGTTCAGGCTGAACAGGTTGGCTAAACCTACATTTTCACCAGGTTACAGGAAGAGCTAT
GAATATTCATGAAAGTGGTCCTGACACATGCGTATTGAACAAAAACTCATGTAACATATGACCCATATTCACTTTGGGATGGAGACTTAACTTTTTTGTT
GTTGTTGTTCAGACGGAGTCTTGCTCTGTCACCCAGGCTGGACTGCAACGATGTGATCTCAGCTCACTGTAACCTCCACTTCCCGGTTTCAAGCGATACT
CCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGAACCTGCCCCCACGCCTGGCTAATTTTCGTATTTTTAGTAGAGATGGGGTTTCCCCATGTTGGCC
AGGCTGGTCTCAAGCTCCTGACCTCGTGATCTTCCCACCTGGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCAGCCAAGACTTAACA
TTTAAATGTATTACGAGCCCTATACGTCAAAAGGTCTTTCAGGACATGAAGCCATGCAAATGTGCGACCTCTGTAGACCAGCCAGAACCAGTCCATGGCC
AGTGGTCTTCTTACCTGGAGAAAGTTACTGAAATCAACAAAAAGTTGTCCAATGAAAGCTGTAGCTATGGCTGGTGGAACGGGGACTGGGGGTCAGTAAG
TCAGCATCTCGTGGAGCTGCACATTATTTTAATATTGTTTATCTTTAGGCCAGTACTTGTTTAGCTGCTAGAGAAGAATCTTGTGGCAGTTAGAACACAG
TTTATTCTTTAAGTATAGGGGTGTGGGACTAAAACCTTGCCTGGAATGGCTTTAGGTCTTTTTTATAATTTGGCATCTTATTGCCAGAGTCTGTTCTGTC
AGTCTTATCATCTCTGTTTTAACATTAATGCTGGCCAGTTGTTGTGTTAAACTACAAAAGGGAGGGAGTATAACAAGGTGTGTCTAACCTGTCCCATCGT
GGTCTAGAACTCAGTTTTAAGGTTTTCTAGGATCCCCTTGGCCACAAGGGGGCCTATTCTGTTGGTGGCGGACTTAGGAGTTTAGTTTTACTTTATACAG
GTGAATGAATAGAGCAGGCTATCTAATGACGTACACATCATTTGTGAAAGAAAACTCCATAGCAAACTTTATAAAAGGTAAGAGTGGACAGTTCACAGAA
GAGGAAATAAGGTTTCATAAGTATGGAAGAATGCACCACTTTGTTAGGGAAATGTAAATTGCAATTTTCACAGCGGTAAAAATGGTAAGAGTCTGACCAT
ATCTTGTGTTGGAGAGAATGTGGAACAAAGAGAACTCATCAATGCTAGTGAGGGTGTAAACTGATAAAATAGTACATACATTATTTAAGACATTCTTGAG
GCTGGGTGCGGTGGCTCACGCCTGTAATCTCAACAGTTTGGGAGGCAGAGGCGGGCGGACTGCTTGAATTCAGAAGTTTTGAGACCAGCCTGGGCAACAT
GGTGAAATCCTGTCTCTACAAAAAATACAAAAATTAGTCGGGTGTGGTGGTGGGTTCCCGTAGTCTCAGCTATTGTGGGGAGAGGCATGAGGATCGCTTA
AACCTGGGAGGTCAAGCTGCAGTGAGCTGAGATGGCTCCACTGCAATCCAGCCTAGGGGACAAAGTGAGCCCCTGTCTCAAAAAAAAAAAAAAAAAAAAA
AAGAGGGAGAGAGAGAGAGAAATTGAGATTCATTCAAGGAAATACCATGGGTAGATCCTTAATATCCAATAAGAAAAATGATTTGGAGAACATTAAAGTT
TACATACATTAAAAAAACCCAAATGACACTAAATGCATGTGTCTATAAACATGTTTAAGCACCGTAAAACTAAAAATAAAAGTGGACTAGAATTACACTT
TTATTTTTATAAAATAAAATTTTATACCCATAAAATTCATGGTAGAAGTGGCCTACGCCAAGGGAGGAAAATGAAGCAGGGAGGAAAGAGGAATTCAATT
CTGTAGTATTTAATTTCTTATGAAAAATCTGGGACAAAAATGAAAAATGTTAAATTTTTAAATTCTTGGTGATAGGTCACAAATGTTTGTTTCATAATTA
CTTGCACTTTTTGAATAAAAATAAAATCTTTTGGAAATTAAAAAAATTGGCGATTTGTCATGGTGATTTTCTTAAAAGACTAAGGTGTCTAGTGGGATAC
AGAAGACTCGATGATTTTATTTTATTTTAGGTTTTTTTTTTTTTTTTTTTTTTGAGACGCAGTCTCGCAATGTCGACCAGGCTGGTGTGCAGTGGTGCGA
TCTCCGCTCGCTGCAACCTCTGCCTCCCGCGTTCATGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGCTACTTGCCCGCCACCACGCCT
GGCTAACTTTTTGTATTTTTAGTGGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAA
AGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTTATTTTAGTTTTTTATGTCAATTTTTGAATTTGTAATTGGGTGAGAATTAAAGTGTTATAA
ATTTCACCTTAAGTGAAAATTTATTAGTTTTCTAATGACAAAAGTAGTTACATCTGACGTAAGGGGATTTAATTATCTTTTTCTGGGCTTGCGTCCCGGA
ACGCTGCTGCATTATGTAATCTGTAGTAATATACCCACGAGCAGTTTGGAGGGTTCTGGGAAGCACATTTGTTTTGCTTACCTACCATGGGAAAGATTCC
ACGTGGTCCTAGAAGCATACGTATTCGTCGGTTACAGTATTTTAAATATTCACTGGCCGCTGAAATTTAAAATGGATGAAAAAGAAATTCTCTTAAGTAG
CGTTCTTGAAACTGCTTTATCAAACTCAGTTCATATTTTCAGTTGGAGTTCGTGATGTATGTGAATTTCCTTTAAATAAAACCCGAATCTTTAGTAATAC
AAATATTGGGAACTTCGATTACTGTAGGTCTTAGGGTAGACTCGCTTGGACTTTGACTAAATACTATGCTTTAGAAATTTATCTTTAGGAGATAAATTTG
GGGGGTTTATCTTTTTATATTTGCTTTGTTTCAATTTATTTAAATAAAAGTAGTCTTTCTAGAAGTATGTTTTATAGTACCACTTACCTCGGTTACTGTC
CCAGTTAAGCAGTTTTCACGAATGTGGAAAAATAGTAGTGTTTTTCTTTCATACACGCGTATATGAAAAATTTTTACATTGATAGAGAATTATTCGTAAA
AATTAAAGTAAATTTACTGTTAGTCTCTAATTTTGTTCTGAGATAGCCACGCTGTGGCATTAAGAAGGATAATCAAGGAATAAGCCATAATGTTCAGAAA
GGGGCTTTACTTTTTATTTTTAATATTATTGATAAACTTTGTTTAGTCGAATTGATGTCTGCGTGTCTTCCCCCGCCTTCCCCATAAAACAGCGGGACAG
AAAGTCCTGAAAACTCCAAAAGGGAAATATTTACTCAGAGGTCTATTCAAATTTGCTTAGTCTCTGACGTTTTCCTGTGTCGTACAAATCCCTCGTGYGG
CARAAGTAGTTTGTCTTTAMTAGGCCACCGTCTCGTCAGCGTTACGGAGTATTTTGTCCGCCTGCCGCCGCCGTCCCAGATATTAATCACGGAGTTCCAG
GGAGAAGGAACTTGTGAAATGGGGGAGCCGGCTGGGGTTGCCGGCACCATGGAGTCACCTTTTAGCCCGGGACTCTYTCACAGGCTGGATGAAGATTGGG
GTGAGTGGGATCTGAGAATGTACCAGKGTGGCTCGGGTTYGCGTCTAAAGGTTTCTTCCTCCCTACTTCCGCCCACTCGTGGTGACAGGTGTGGACCAAC
CCTGCCTGGGGAGTGAGGCCCCTCGTCACTCCTGTTCGTGYCCCTGGAAGAGTCTGGGAGTATCGTTCGGCTTCTGTCCTGGCCACAGGGAGAGTAGAAT
ATTGTCTAACTGGAGTTAACTGTCGTTTTTCACTATTCCCRCTGGGGAAGTACCGGGTGATCTTTTTGTGTGGCTAACACTGGACGTCTTTAGGAGGTTT
AGAGCAAAATGGCTGGGACCGCCAAAAAGGCTACARGCTATTTCCTGAGTGTGAAATGTGGGCGGTGAGCACAATGGAGTGGGTTTTTGTGTGTTTGGTG
TATATGAGAGAATGTGGTTATATACAAGAAATTCTAATCTTACAGCTTTTACTATTGGTTTAAGCCTGATGTCYGTCTTGGCAGAAAAGCAAAACACCCA
AGCACCTGACCTCGGGTCCCTGCTTAGCTACACCTAATACTTATGGTGTAATCCTGACTGCTCTCCAGATACAGCTCTTAATTTTCTTGTTAATGGATAT
TTTGTTTGGTTTTGGTGGTCAGGAAGGGTGGAATGGGATGAAGTGGAAATGAGAATGAAGAAACTTTGTTATCTAAGTATTTAGAGGAGACTTTTATTCT
CCTCTTGATTGCAAGATATAATAGTAATATTGTTCTTAGGTTCCAATATGAATTTGGGATTGTGTAGGTTCCCAAATGGGCCCGCTAGTGAGCCTACACC
ACTCATCAGCCTTGGAACTGGGGGGAACCCAGTTTATCTTTCTCCCTTGGATCAGCATTCTCAATAGCAGGAGTGGAAGGAATCTCAACTTTTTATTGAA
CAAAGTCATTTAATTGTTTCAAGGACAGATGTTCTCTAAAACTATATTCTATTGGAGATTTATTTTAATCCTTGGGTAGATTTTTTAAGAGTTGCTGGAA
AACTTAAGATTTTTTATTCCCATTTTCCCAAGCCAAATGCATTAGTGACAGTAACCATTTATTTAGCTCTTTGTGTCAGGGACCCTGTTAAACTCTTGAC
ATGAAGTATTTTGTTTAATCCTACCAACAGTCCAATGAGGTACTGTTTATTTTAGAGATGAGGAAACTGAGGCTAACAGAATTTGTGCTCAGATTCTTAG
AGCTAGTTAGTGGCAGAAGAAGGATCAGACCAGGTTTTTCTACCTCCAAAGTCTGTACCCCTAGCATCTATTCTATAATGCTTTCCTAACTCATGTCTAC
AGATTTTATTCTTCCTAAGATCCCTGGTTATTAATAAGACTACTTGAATATATTGGGTAGTTATGATTTATTTTGTCAGCTAGTCAGCTATTATATTTTC
ATGACATTTCTTTTCTTTACCTCTTTTTTTGAGATGGAGTTTCGCTTTTGTTGCCCAGGCTAGAGTGTAATGGCGCAATCTTGGCTCACCGCAACCTCCG
CCACTCGGGTTTGAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCACCACCACGCCCGGCTAATTTTGTATTTTTAGTAGAGA
CGAGGTTTCTCCATGTTGGTTAGGCTGGTCTGGAGCTCTGGACCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACGGGTGTGAGCCA
CTGTGCCCGGCCAGTGACATTTCTTAAAGTATAACTGTGGGACACTTCCTGGTAGCATAATTTTATGTCGTCTTCTGATACCCAGGCTGCATTTTCCAGA
CTTATCTGATCACTTGACTTAATGTTCTCTRACAGAGCATTCAGTTCTTTGTAGTCAGTTCACCGACTCACTTCTATCGGGTATCCTGCCCTGTCCCTCC
CTGAATGTGCCCATTTCCATTGTTTTCCAGGTTTCCCTTTTCAAACTGTTAACAGTCTTCTCTTCTTTGAAGACTTTAATTTAATTCCTTAGGTGTTCAG
TAAGTMGGATAGATTTTGTTGGCAATAGAGTGAAACACTACTGTCTGATAGTGTTTCGTTCTGTGACAGTTGCTGTTTTGGATGTTCAAGTACTTCACTG
ATTTACTTGATTTTGTTGTTGTTGTTGTTGTTTCTTTTAGAGACAGGGTCTTGCTCTGTCGCCCAGGCTGGAGTGCGGTGATGCAATCATAGTTCACTGT
GACCTGGAACTCCTGGGCTCAAGTGATCCTTCCATCTGAGCCTCCTGAGTCGCTAGGACTACAGGTGCACACCGCTACCATGCCTGGTTAATTTTTAATT
TTTGAATTTTTTGTAGAGACAGGGGTCTTGCTGTGTTGCCCAGACTGGTCTCCAACTGGCCTCAGTCATCCTGCCTCAACCTCCCAGGTGATGGGATTAC
AGGCTCAAGCCACTGTGTCTAGCCTTGATTTTTTTTTAATATTAGACACTATCTAGTTAAAATTTAAAAATCAGATTATGTAATTAGTATGTCCTGTGAT
TTTAACAACTCTAAATAATTTAAATAAAGTGATTAACTCAGAACAGCCTGTGAGGGATGTGCTTTCCTTTTTCTTTTTAACTTAGGTAATGAAATTTAGA
GCAAGAGTCTTCAAACATTTTCTGTAAAGGTTCAGATAGTAAATATTTTAGGCTTTGTGATTACATGGTCACTGTTGCAACTACTCAAGTCTGCTGTGAT
AGTGCAGGAGCAGCCAGAGACAGCATAAACAAGTGAGCATGGCTGTGTTTCTATAAAGCTTTATAGACACTGAAATTTGAATTTCACATAATTATTTTAA
ATAATAAGCCTACTTTTTTAGTATAATTATAGATTTACACAATAATTGAGCAGATAGTACAAAGAGTCCACATACTTCCCCTTCATCCCCAGCTTCTCCT
ATTGGTAACATCTTGCATTAGTGTGGTACATTGGTTACAATTGATGAGCCAGTATTGRTACATTATTATTAACTAAGCCCATCATTTAAAGTTCACTCTG
TTGTACATTCTATGGCAGGGATCCCCAGCCTTTTGGCACCAGGGACTGGTTTCATGAAAGACAATTTTTCCACAGGAGGTGGGGACAGGGAGGCACAGGA
AATGTTTTCAGGATGATTCAAGTGCATTACATTTATTGTGCACTTTATTTGTATTGTTATTACACTGTAATATATAATGAAATAATTATATAACTCAACA
TAATACAGAATTAGTGGGAGCCCTGAGCTTGTTTTCCTGCAACTAGATGGTCTCATCTGGGGGTGATGGGAGACAGTGATTAGATCATCAGGCGTTAGAT
TCTCATAAGGAGCGTGCACTCTAGATCCCTCACATGTGCAGTTCACAGTAGGGTTCACACTCCTATGAGAATCTAATGCTGCTGCTGATCTGACAGGTCG
TGGAGCTCAGGCGGTAATGCAAGTGATGGGGAGTGGCTGTAAATACAGATGAAGCTTCGCTCACTCACCCACCTGCTGCTCACCTCCTGCTGTGTGGCCT
GGTTCCCAACAGGGTTGGGAACCACTGTTCTATGGGTTTTGACAAAGGTATAATGACATGTATCCATAATTACAGTATTATATAGAATAGTTTCACTGCC
CTAAAAAAGCCCTATGCTCTACCTATTTTTTCCTCCTTCCTCTTCCCTACCTCTGGTCAGGTAACCACTGATCTTTTCACTGTCTCCATGGTTTTGCCTT
TTGCAGAATGTCATATAGTTGGAATCATACAGTATGTAGCATTTTTGAATTGGCTTCTTTCACTTAGCAATATGCACTTAAGGTCCCTCCATGTCTTTTC
ATGGCTTGATAGCTCATTTCTTCTTAGCACTAAATAGTATTACAAAAATACTATTTACAGTGTTACAAAAAATAGTATGTATGTTCTATAGCCTATTAGT
CTGCCTAGGCTGCCATAAGACAACACCACAGACTGCGTGGTTTAAACAATGGAAATTTATTTTCTCCCAGTTCTGGAGGTTAGAGTTCAAGATCAAGATG
GCCGCACCTTCAGGTTCTGGTTAGGGCTCTCTTCCTGGCTTGCATGCACATGGCTGCCTTCTTCTTGTGTCCTCACAYGGCACTGAGAGAGAGAATCTTC
TTCTTCTTATAAGGCCACAGTCCTATCAGATTAGTGCCCCACTTTAATGACCTCATTTAACTTTAATTACCTCCTAAAGACWGTATCTCTCGATATAGTA
ATATTTGGGGTTAGGGCTTCAACATACGAATTTTGGAGGACACAGTTTAGKCCATAAATTCACAGTTTGCTTATCCACTTACCTATTGAAGCACATCTTG
GTTGCTTCCAACTTTTGGCAATTATATATAAAACTGCTGAAAACATTTGTGTGCAGGTTTTTGTGTGGACATGCATTTTCCAATTGTTTGGGTRAATATC
AAGGAGCACAATTGCTGGATTGTGTGGTAAGAACATGTTTTTTGTTTGTTTTGTAAGAAATTGCCAAACTGTCTTCCAAAGTGGCTATACCATTTTGCAT
TCCCGCTAGCAATGAATGAGCATTTTTGATGCTCCACATCCTTGCTAACATTTGGTGTTGCCAGTACTTTGGATTTTAGTCATTCTAATAGGTGTGTAGT
GGTATGTTTTAATTTGCAGTTTCCTGATGACATATGATGTTGAGCATCTTTTCATATGCTTATTTGCCGTCTGTATGTTTTACCCTCCTCTCTCCTTCTC
TCTTCTCTTTTACTCTTGCTTGAATTTGTGCAAAAGCTGCTTTATTCTGCTTTCTTCTTTCTTCCCTCCTCCTCCTCCTTTCTCCTTTCTCCTTTTTCCT
TCTCTTTATTCTTCTGTCAGCTGTACTTAAGATATGTGTATCAAGATCAGAAGCTTTCGTCTGCCACTGTGGTTTCGTTTATGTCTTCAGTCTCTTSTGT
GAAGGTTCTCTTGGCTTTCTAGCACTAAATCAAAATCTGGTGCTCCTGGATGACACAACTTCCCGTAATGCCCCGGTGAACGGTTGCTAATTTTATTCTC
AAAACCTTTTCACCATAGGGCCTCTGTTGGTGGGATAGGTGYCTCCATTGTCCTTCACTGCTATTCTCCTTTCCTCCTCCCTAAAAATATCTAAGTTGAA
ATCTCATTTTGTCACAATATCCCATCCTCTACCTCTCCTGATTCCTGGATCACTCTCTTTCACTTTTYTTTTTTTCTTTTAGAGATGGGGTCTTGTTCTC
TTGCCCAGGTTGGAGCTGGAGTATGCGGTGGAGCAATCACAGCTCACTGCATCTTCAGACCCCTGGGGTCAAAGGATCCTCCTGCCTCAGCCTCCCGAGT
AGCTGGGACTACAGACACATGCCACCATGCCTGGCTTCTTTTTGGCTTTTTGAAAACATTTTGCCACTAGCTTACTGTTACTTTCYTCACCATTACTTCC
ATCATGATTCTTGGATGATTTCAGTATCCTTAGAGAAGATCCTTCAGATACACTGACCTGTCATTTTCTGGACCTCCTCTTTATCACTGATCTTACCTTT
TACCCAGTCTCAGCCATTTGCTTTCCTGATCATAAGCCTAAGTCTTGTCACTACCAATAACATCTCACTTTCAAACATCCTGCTCTGACTGCCTTCGCCT
GTTTTACCAGCTTACTTCCTTTAGTATTCCAGTTTCAATAGTTGTTCAGTCCTTCTGAGRTTTTGCCATGTTTCCAGTGTCTCTCATTCTCTTCAGTTCA
TCACGTCCCTCTTACCCAGTTTAAATACCATGGACAGTCATTGTCACTATTTCCTTCCTTTCACCTTTCATATTCATGTCTGTCTCTTTTCTGGTAGGTT
TCTCTTGGATAAACCTATTAGTTAAATTCAGTTTTGCCCACTTCATGCCTGTCCTAGTATAGCTGAATCAGCTGAAGAAAACACTTCAACTGTCCTGACT
GGTCTCAATTTAAGTGTTGCCAGACCAATCATATTTCCCTGGTCCTCTCACTGTCCCATTCTGATGATTGCTTTATAAAGTTTCTTCTATCTTCAAACCT
CCAACATCTCTCCCATCCTTTGAATCAGAAGAGAACTTCTACAGTCTCCCACTACCTCATTTACCCACCTATCAACATGTTTGCTTTCTCTTTTGTTGGT
GAGAATGAGTGGCTTCTTGCTCCTAGCTAGAGCCAGTCCTTCCATATGTGCTTTAGATTCTTCCTGTTTTGTTCAAGAATATTGCTCAAGCTATTCTTCC
TCCTGTTTCCTGCATCAGCATTTCCCCTCTCTACTAGATCATCTCTGTCAGTAAATGAACATGTTGTTGTTTCTCCTAGAAGTACTGTTTCTATATCTAG
ATAGTACTCTAGCTAGAGTTAAAAAAAAAAAAAACAAAACCAACAAACTCAAAACTCTCTTCAGATGTTACTTCACCTCTTGCTGTTACTGCATTTCTCT
ACTGTATGTTACAGCAGAATTCCTTTTAAAAAATGTCCACGTTCACTGACTCTAGTTTTTTATTTCTCCTTGTCTCTTGAACCCAGTCCAGTCAGGTGCC
ACCACTCCACTGAAACTCCTGTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTAGAGTGCAATGGCACGATCTTGGCTCAC
TGTAACCTCCACCTCCTGGATTCAAGCGATTCCCGCCTCAGCTTCCTGAGTAGCTGAGATTACAGGCGCCTGCCACCATGCCCGGCTACTTTTTGTATTT
TTTTTTTTTTGAGACGGAGTCTCTCTCTGTTACCCAGGCTGGAGTGCAGTGGCTCACTCGGCTCACTGCAAGCTCCACCTCCCAGGTTCACGCCATTCTT
CTGCCTCAGCCTTCCGAGTAGCTGGGACTACAGGCACCTGCTACCACACCTGGCTAAATTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTT
AGCCGGGATGGTCTTGATCTCCTGACCTCATGATCCGCCTGCCCACCTTGGCCTCCCAAAGTGCTGAGATTACAGGCGTCAGCCACTAATTTTTGTATTT
TTAGTAGAGATGGGGTTTCACCATGCTGGCCAGGCTGGTCTCAAACTCCCGACCTCATGTGATCCACCCGCCTCGGCCTTCCAAAGTGCTGGGATTACAG
GCGTGAGCCATCATGCCTGGCCTGAAACTGCTGTTTTTAAGGGCACTACTGATTTCCACATTGCTAAACCCAGTGACTGTGTCTGATCTTATTAAACTTA
TAAGGAGTAAATGAATAAATAAATGGGCAAGGTGGAGGTGAGGTGGGAAAGTTTGTTGAGTACACTAAAAATAGTAACTACCATTATTTACTACTGTTGA
GGGAAATCTAATAGTGTGGGACTGGTGCAAAGGATATAGAAATAGGCAATAGGTTTTAGGATACTTTGGGGTAACTGATGCTAACAGTTTCTTATGGATT
CTTTTGGAATGTTCTATAAATATACGAGTATATTTATCAACCCACCTTCAGTTATTTTTTTAACCACAGAAAAGTCAAAAGATCAGTACACTGATAAACG
TGCGTTTTCCTTATCTAGATTTACCAACTGTTAACATCGTGCCACATTCACTTTATATCTTAATATTACCCACACTTTCCTCCTTTTTCACATCTGAAAG
TGGGCTGCAGATAATATGAAACTCCTAAACACTTCACCATGTATTTCCTAAGAATGAGGAAATGTTTATTTTTAAAAAGCATCAATTCATTTTAATATGC
TTTATACTTCAAAGCTAACATCACAGGGTTCTTTTTCACCTTCTTGCACCATATGCTTGTATTTCTCTTCTGCCGCTATGAGAATCCTGATTCCCAATAA
CATCCTTTGTTTTTATAGGCTCACTTCAGCAGCTCTGTTGGAAATAAACTGAAAGAGGGGCAAGGGCAGAAGCAGGGAGACGTTTTGGAGGCTGTTATAG
CAATCCCCATGAGTTACAATAGTAGCAGTGGAGTAATGAGAAGTAGTTGGATTATGGATATGTACACACACACACACACACACACACACACACATACACA
CATATATATACATACATTTTAAAATTTTGAAATAGTTTGAAATCTATAGAAAAGTTTTAAGAACAGTGCAAAGAACTCTTGCATGCCTTTTACACAGACT
CCTCAGTTGTTAAATTTTACTGCATTTACTCAATTTCTCTCTTTCTCCCTTTCAAGAGAGAGAGATGTGTTGACCCATCACCTTTAAATACTGTAGTGTA
TACTCTCTATCCTCCTGCCTCCCAAAAGAAGGCCACTTTCCTCTATTACTACCCTATATTTCTTCCAGTCAGGAGATAAACATTGATACAACAGTGTCAT
CCAATTCAAAGACACCATTCAAAGTTTGCCATCTGTTTCAATAATGATTTGCTTTTCTAGTCTAGGATTTTACTTGCAAACACTCATTGCTTTTACTTAT
CATGTCTCATCAGTGTCCTTTAATCTGGAACAGTTCTTTAGTCTTTTCCTGTCTCTAATGTCCTTGACAGTCTTAAAGAGTAGAAGTCTTTTATTCGACA
AGATGATCCTAAACCACTAAGGGGTTCCTTGGAAAAATGACCAATTCCAGGGCTGGGAAAGTGCAGGGAAAGTGCAAAATAAGCCTGGAAAATCTTGGGC
CAGAAATTCTCAGCAAATGAACATGTTAAAAAGAACAAAGGCCCCAATATGAATGAACTCCCCGTGGTCAAATCTGGGAAAATTTGGCATCAGAATAAAA
TGAGGGTATACATTATAGTGTAAATACTATGCGATGTTCCTATGCCATCATATCATCCTGTGATATAGTCACATGATCACTTGGTCAAGTTGGTATCTTC
TAGGTTTCACCACTGTAAAGCCACTGCTTCCCATTTTGTATTTTATTGCTATTTTGGGGGAGATAATCTGACATAACACCAATATCCTTTTCTTATTAAA
CCTCTAACCACGAGCCCTAGCCTCATTAATAACCCCAATCTATATCAGTTACCACTCTAATGGTTGCCAAATGGTAACTATCTAACTCTATCATTCTGTC
TATCATTCTATCATTGTTGATTGACATTGCACTATAAGAACCAACCTACCTACCTACCTTCCTTCCTTCCTTTGTTCCGTGATGAACTCATTGATTCCTT
TTTTATTTGGTGGTTGGTAAACCGCTACTCTCATTTTATTCTGATGCTCAGATTTTCCCAGATTTGACCACTGAGAATTCATTCATATTGGGGCCTTTGT
TCTTTTTGACATATTCCTGTCATTTGCTGAGAATTTCTGGCACAGCAAGATTTCCAGGCTTATTTTGCACTTTCCCTGCTGCAAGCCCTGGAATTGGTTA
TTTCTCCAAGGAACCCCTTAGTGGACTTCTGTTTGGTGGAAGATGGTATTTAGTATCCAAGATCTGGTCACCCAGTATTTTCATTGCTACTGGGATGTCA
TTGCTTCTAGGACCTCTTAGCAGACAGAACTAGGAAATATATATACATGTGTGTATATATATATATATGTGCATGTGTATATATGTATATATGCATAATA
CAAACATCTGCATATGTGTGTACATATATATATACTTCCACAGCTATCTGTATGTGTTATATTTTAAATGAGTTTATTTACTAATACTTCTAGTTCTAAT
CCAACATCTTAGGATTCTTTTAGTCTCCCGACTCTTTCCATGCTCTTAAATCCTTTCTCAGACTGTGAGAAATCTGACTCCAATTATTTTAGTAAAAGGC
AAAAGATTCATTCGTTCTGAAGAGAAACCAGAGCATTCTAATTATTTTAGATATATTCAACCATTTGCTCAGTCACCTAACATATTTGTTCAGTATGACC
ACTCTCCTAACCACTCAGCCTGCGTTTTCCATCTGCTACTCCATTCCCCCTCCCACTGGGCTGGGGCATGCTGGCATCTTTGCTGGGCAATAGTCTCTCC
CACACCATCCTATTTCCTTGGATATGAGGCATATTGCTGGAGATGACTGTGCACAAAACCCCATCACCTTTGTTGCCCTGCTTCTTTGGAAGCTGACATC
TCTGTGTTGGGAGGGGTAGGGAAGAAAAGGAAGGTTGGGAAGGGAAGGAAGAATGGGAGGAAAGGTAGGAAGCCACATTACAGATATATATTTTGAGAAC
AGAGCTGACAGAATTTTCTGGTAGATTGATTATGGAGAGTGAGGAAGAGAAGTAAATAATTAAGTAATAATGATCCCAAGGTTTTTGGCYTGAGCAACTG
GGAAAATCCAATTGTCATTAACTGAGATGAGGACAAAGCAGTAGGAGGTTTGGTGGGGTTGATGAGGAGCTCATTTTGGATATGTTAGGTTTGACATGCC
TTTTAAACATCTAAGAGGAGATGTCATACTCACTGCACATGCATCTTGAAGTGTGGGTTGGAGATGTATATTTGGAAATCCTTGGTATATAGATTTTATT
TAAAGCCGTGAGCTCAGCTGAGATTACCAAGGAAGTAAGATAGAYAGAAACGTTTATGCTGAGCCCAGGGACAAATTTGTGTTAGGGAGATGAGGAAGAA
CCAGCAAGGTAGGTCAACCACTGAGGTGGGAGGAAAACYGGGTAAGTGTGATATTCTGGAAGTCAAGTGAAGAAAATGCTTCAGTTAAAATGAAAGGATC
AACTATGTTAATGCTGTTGATAGGTCAAGTAAGATGAGGACTATGAGTTTACCATTGAATTTAGCAATATGGAAGTCACTGGGGACATTAATAATTATGT
GTATGTGGAGCGGGGAGCTTGATTGGAGCAGGTTTAGAACGAATGGGAGGAAAGAAATGAGAGAGCCAGATAGAGAACTCTTTAAAGGAGTTTCAGCCTA
TATATAAGCCGCAGTCCTCTGCTTATATGTTTCTTGGCTCTGCACCTGAGTAGTCTTTTCTGAGAGTCATGTGAGTAACCTTTTGTTATTACTACGTATA
CATTTTTTTGCTAAATACTATTTTGTCTTAGGCGGTGAAATGTTACTGTAATTGGTCAGGTTAATAACAGACTGACAGTGCAGTTCCTACACTTGTGCAC
TGAGGAAATCATCAGAGCAGTTTCAGCAGCATAAAATAGGTAGAGAGTACAAAGGAAGACCTAGTTTTGAAAAACTCTTCAAAGTGCTTAAAGTTTTGAA
AGTGTCAGAGGAAATAGGAACTTCATAGATTCTATGGTGAGGAGCCTTCTTGGGCCTTGGTCAACACCTTAACCTTTCTTTACAAAAAGTTTTCAGTATA
GTGTATTGAAGAATGTTTTCTGTATCCACATATTTCTTGATTTGTAATGAAACCTCATTAGGAAATTGGAATATAGTTAGATTTGCTGAAATGAATTTGA
TGGTTTAGATGAATGAATCCTTTATTGTCTAGATAGAAAATTGGTTGCACCCTTAACTTAAGGCATGGATAACAAATACGCAGTGTGTATATACTTTCCA
CAGCCCTCTCCTATTGCTTATGAACCATGTCTACTTTCCACAGTTGTCTCCTATTACTTATGAACCACATTAACTCTTCATGCTGAACCCAGATGTAGCA
TCAGAATTCTTGTTAGTAATGTTCCATAAAGCCACTACCAATTAGTCTTACATGACATATGACATAAAACCTTTTTTGATCCCTGGTGTAAGAATTCAGT
TCACAAGATAAAAATTATGCAGAAAACAACACATAAATTGGAAATGAGCATTGAATTGCTTATTCACATTACTGGAGTTTATCAATAATAGTAATGGCTA
ATGAGAAACCTTAATAGAGGTGACATAGGGACACAGTGCTTGTTTCTTTGTCAAATAATTGAATTGACAGTTCATTTCTATTCTTTTCCTTTGTCCAAAG
ATTCTGCTCTCTTTGCTGAACTYGGTTATTTCACAGACACTGATGAGCTGCAATTGGAAGCAGCAAATGAGACGTATGTAAGTATTTACTAAGGTTGAAT
AATGTGATATTTAGTCTTTAACCCTAATTATTGCAAGAAAGTTTCAGGACAACAGGTTCAGGCTAGTAATTTAAGTTACATACTTAATGGTAAATAGCTT
CTACCATTAAGTATGAAAGYTAGTAGCCATTTTGTAATCAGTAAATGTAGGACAGTAGAAATTGCATTGTATTGCAATTCTAGGCCCACCTTTGGCCCTA
GGGATGGGTGACTTTGGAAAAGTCACTAATCTGCCTACCTGGTTTTTACAGATACTTTGCTACATAAGGGAATTGGCAGGTGACTTTGGAAAAGTCACTA
ACCTGCCTACTTCTTGGTTTTTACAGATTCTTTGCTTTTAAAAAGGAAGTTGGTAAGTTCTGCTTGACTAAGTTAGTCCTTTTTAAAAGTTGTGTATTCA
TGTAGAAAGCTCTGAAAAGTAGGTGTATCCTTACCTTTGATTGGTTAGAGGTCTGTGTGAAAACTATTATAACACTGAGTCCCCGAGAATATCTTAGATT
TTCTTTTCTTGATTAGTACATATAAAACTCTTTGCCCTATAGAACTTTGATTTTGTCTTATTCTTTAATGGATGAGGTGCTGTTTCACTTAAGAAGTAAT
TCAAGTGAGCAGAGTAATTTGTCAATCAGGTTGAATATCACATCATTTTAGGCTCTTATTAACTTGAGTACAAAATATGTAAAGATTGCTTAGTGAGTTT
CAGACATTTCTTAAACAATGATTTAGCAGTTGTTTTTACCATTAATCGACAGAAGAGAATGAAGGACATGATATATTTTAAAAAATCAGTACTAGGGATT
TTAATGGTTTCATTTACTCCATGAGATACTTTAGAATGTGGCCCATTGATTAAACTGCCTTTTAATATTGGCTATTTGAATAAGCAACTGATACTCATAT
TTCATAACATCTAGAATCCTAAAAGAAAATGTTTCTTTTAAACTATGTCAAGAAACTGTGTGCTCAATTGGAAAGATTAAGGGAAATATATTCCTGATTT
TACAACTAACATTCTATTATTTTATGCAAATCACTCAATCTTTCAGTTCCTTAGTTTTTCTAGTATGACATGAAGGGATTGAATCTCTGAGACCCCTCAT
GTCATTCTTCTTCCAAACGGCAATAGAATTTCCCATGCTAAATCACTGAAGAGTTAGAGTATATAAGTGCCAGTATGTTTCATTTTGCATGAACTGGGCC
TGTTAAATTTCTGATGTGATAAAATCTTTATGCTGTAGAAGGTATTTGACTTATTTGGCTGAAGATTGAGTCAGAAGTTTCCTCAAGTAGATCATGCCCT
TATTTAAAAGTGTTGCTGGCACTCAGGCAAGCAACATTGGTAACTTTACTTAGATTAAGAAAGTTTAAGGATTTTTTGGTTGCTAAAACAAGGCTGCTTA
ATTTTTTTTTTTAAGACAGAGTCGCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTTTGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGAT
TCTCATGTCTCAGCCTCCTGAATAGCTGGGACTACAGGTGCATGCTATCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTACATTG
GCCAGGCTAGTCTCAAACTCCTGAGCTCAAGTGGTCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGARCCACCACACCTGGCTAAGGCT
GCTTAATTTTTTGATGTGAAGATCCAAATAAGAGAAAAAAGTGAAGGAGATTGATTTTTTAAAAAATGGTTTTTTTATGATTTAAATACTTTTTTTTCAT
GTGCACTTTCACATGTTCTCTTTATGTACCTTGTACTAATATTTACTCAGTTATGGGCATCATAAGAAAATAGTTTCCCTTSTGTGTTTCTGTTACATTC
TCAATAAAAATGAACCATATAGTAGTCATTTTGAAATGATAATATTCTTCTAGAAATTGTTAACAAATGGTCGTTACCAATTACTAGATACATTTTTACT
TTTTTTGCCTGAGGTGTATTTTTTTATTTTTATTTTTATTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCG
GCTCACTGTAAGCTCCACCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTCCAGGCACCCGCCACCACGCCCGGCTAATTT
TTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCTGCCTCGGCTTCCCAAAGTGCTGGG
ATTACAGGCGTGAGCCACTGCACCCGGCCGAGGTGTATTTTATTGTTGCTGTTTTTGTTGTTGTTGTTGTTTTGTTTTGTTTCTTTGACAGGGTCTGGCT
CTGTCTCCCAGGATGGAGTGCAGTGGCATGATCTTGGCTCATTGCAGCCTCCATCTTTTGGACTCAAGCGATCTTCCCACCCCAGCCTCCAGAATAGCTG
GGACCGTAGGTGCACGCCACTATGCCCAGCTAGTGTTTGTATTTTTTTTCTTAGGTAGAGATGGGTTTTGCCATGTTGCCCAGGCTGGTCTTGAACCCCT
GGGCTCAAGCAATCCTATTGTTGCTGTTTTATCATTTGTGACATTAAGTTAATATTTACTGCCTTTTGACTTTATTGCATTATTTATGTATTAAGTTTAC
TTTTCTTTTTGTCTCTGTGACTCCAGACACTTAATTTAAAATAGTACTGTTTGGTACTAACTTGATCTCAGACTTACATGAGGACTCTGAAATTATGTGA
CACTTCTTTATTCATGTATATAGTATAAGGTGGTTATCTGGATGACCCAGAATATGCTTATATTTTGGTTAGAAAAACCACCTAAATGAAAAGAACTTAA
TGCAGGCTTTAAGAAGTTTGCTGGACCCTGTTTTAGAAAATTAGTTTTATTTTATAGGATTAAAAAGTGGTGTTTTTTTTGATTCATAAAAGTTTTAGAA
ATTTAAGAAGTATAGAACTGTAGAAAAAAGGAAAATTACTCAGTGATTCATAAAAGTTTTAGAAATTTAGGAAGTATAGAACAGTAGRAAAARAAGAAAA
TTACTCAGTGGTAACTATCCTCTTTATGATTCTTGCCTGTCTTTTGGATATATCTATATTCTTTCTATTGTATATAGAGATTATATTATGAATAGCATTT
ACTTTGTCTTGTTTTTCTTAATGGCAATGGGAAAATGTATTTTGCTGGATTTCCCTTAAGATAAAAGACACATTTTTGACTCCTGTAATGGTCATTCTCA
TAGAAAATAATGAAGCCAACTAAATGTTTTAAATACTGAATCCCTTACCTCTTTCCTAGTTGTTGCTGCTGTGCTTCAAGTAACTGAATTGATTTTATCT
CTAGGCTATCCAAGATGTATTCTCATACAAGACTGACTTAGAGTATTCTTTTTACTAGGTTGGCTAATAGCAGTTAAATTATTTGTGCCAAATTGTGTCT
CACAGTTTGATTTTAAGATGTGTATGTTTTATTCTTTTAATATTCTTTTGCTGATTTGAAACCTACAGGAAAACAATTTTGATAATCTTGATTTTGATTT
GGATTTGNTGCCTTGGGAGTCAGACATTTGGGACATCAACAACCAAATCTGTACAGGTAATTATGTGTTTCACTGGTAAAAGTTTTAAAAAGATCAATTT
TATTTTGTAGTTTGGTCATACTCAAAATTAGGTGGGGTTATTGGGCTATTCTGGTAGGTTAAAAGATTCCTGGTGTTATGCATTCTACTTCTGGTATGGC
AATTATGTAAACAAATTTCTTGCCAAAAATGGRTATGAGGAGTTTCATAGTTATGTTTCAGTAGTGTAATGAATGAACAGTTCATATCAGAAATAGAAAT
AGTGATTTTGAATTATGAATAATGTCTCTGTATAAGATTAACCTGAGAACCAGACAGGGCTTAGGGAATSAAAGGGAAGAGCCTGGGTTACCAGAACCTA
RGAACTTGGTGGAGGAGTCCCATGCATTTAATACATGTACTTCTAAGAAGGGGCAGCACCTGGCTGATACTAATATCTTTAAGGGGGCCTGATGAGGTCG
GGGTTGAGTATACTGAAAGAAGCCAGAACCTGGAGCAAATTGCCAGTGCTGGGATACAGCTGATGGTAGAATGAAGAAAAATCCCTTCTCCTCCCTTCTA
GCTTTTTCTAGTATCCCCTATTGACAGGACCTAAAAGGATGCCAGCTGGGAATAATTTATATCACCGATTATAGAAAGTGGACTTAGTGCTGAGAGACAG
TGAATAAATAACCAGCACATTCTCCTATCTAAATTCCTCTCTACCYCTGCACTACCTATTCCTCTTCATTTTATGTATTTACTTATACTGTTTCATGCCT
GTTTGCCTTCATAGAATGTGGGATACACAAAGTCAGTGTTCTGGTTTTATCGTTTGACAAACTAAATCTTAGTTGCTTAAAGCAACAACCATTTTATTAG
ATTGCTAGAATCTATGGGTCACGAATTTTGACTGGGTGCTTACGAATTTTGACCGGGTGCTCCAAGGATGGCTTGTCTCTGCTCCATGATGTCCAGACCA
CAACTGGGGAGATTTGAAGATTGTAGTAGCTTGACATTTGGGGGCTAGAATCATCTTGAGGTTTCTTCACTCATATGTGTGGCACCTGGGGTGGAATGAC
TTGAAGACTAGGACTACTAAATGGAGTGCCTGCATAGGGCCTCTTTGTGTGGCGTGGTGTTCTCAGTCATGGTGGTCTCAGGGTAGTCAGACTTCAAAGG
CTCCAAGTATGAGTGTTCCAGCACACAAAGCAGAGGCTGCATTTCCAGCTTCAGAATTCACATAGCATTACTTCTATCTTCTCTTGATTGAAGGAGTCAA
GCCCACCTAAATTCTTGGGGAGGGGAAATCGACTCTACTTCTTGGTGGGAAAGTGGCAAGATCACATTGTAGAAGATCATGAGGGAAGATCATGAAGGAT
GGTAGATATCGTATGGCTAATTTTGGAAAACACAGTCTGCCATCCCCACCCTATTCTATCTTTGACACCAAGGGATACTGCCTGGGCCATAGTTGCTCAG
TACATTTTTATAGGATAAATTAATAGTTTAAAAGATATGAACATTTTTTATGAGTTTGAATTGTATTGTCAAAAATGCTTTCCAAAATATTTCCTGTTTC
TTATTTTTTTAAATTTTTTGGGAAGCTATAATATTTTGCATATGGTAAAATATTCAAAAGGTACAAAAATCTGTATAGTAGAAAAATGTCTCCTGCTTTT
ATTCCTCAGCCAACAAGTTCTATTTTCCAGAGACAACCACTGTTACCAGTTTCTTCTGTTTACCCTTCCAGAGAATTAGTGCAGATGCAAGTGTACACAT
ATATATACACACACACACAGACATACATATATACCCCCTCCCCACATATATATATAATTTGTAACACAAGTGGAAACATACTAGATATATTGTTTTCTGC
ATCTTTCATTTTCACTCGTTATATTTTGRTGACCTTAGCTTCCATATCTGATTGAATTTTAAAAGTAGATTTTACCTTCTTTCTTGTTCATTTTATTATA
AGTTTTTATTGTCCAGTGGGTAAAACCTTTCCTCCATGTTTTCCAGTTAAAGATATTAAGGCAGAACCYCAGCCACTTTCTCCAGCCTCCTCAAGTTATT
CAGTCTCRTCTCCTCGGTCAGTGGRCTCTTATTCTTCAACTCAGCATGTTCCTGTGAGTAGCCAGTCTTTTACAATGATTTTGSTTATAATATGCTATCT
GGAAAATATGTATATGGAGGAGGCAGTTAACATTTATTGAATACTACTATGAGTTATATTGTCTCATTTAWTGAGGGAACTGAGACTCAAGAAAGAGCCT
TGTGGGAGCTAGAAAGTTGTTAGTGCCTTTGGTTTTGCTCTCTTTTCCCCTCTGTTCATGCCTCCATAATTTCATTGTTTCATTTGTTTCATTGCATTTT
AACAGTATCCAGTATTTGTTTATTGGCTTACTGTCCTTTCTCCCACCCTTTCTTTCTCCTCCCTATTAGGATATACATTCTTTATATATGGACATAGAAG
AATGTAAGATGGTCAGTTTTTATATCTCTTTAGTCACAGCATCTAGAATGATTGCCTTAGTTTGGGAATGCCTAGTGCTACCTTTTGAAGGGGCTCACGT
TTTTATAGAAGTCTGGTAGCTCTTTTAAGAACACTTCTGCTCTGTGTCCAGACAAAAGCCCTGAGGCCAGGAAAAGGAAGTACCTGATTTAGGTACTTTT
TAGAATGGGGAAAGGGAAAGTATAAGAATAAAAAAATCAAATAATATTTTAGTATATTATATGTGCTATAAATTGTGGTATCTTTGTTCCTGCAGGCTCT
ACATTTAGTTACTAAATCCTGGTGGTTATATGCACATATTAATTCAAGGATTTATCTTTTCTGCCCCTGCCAGGCCATCACTATCTCACCTGGATTAAGT
CAATAGGATTTTAACTGGTCAGCCTTACAACTCCTCAAACCTTTCTTAGCAGTGGAATCTTCAAAGAGAAATCTTTCAGTGTCACAAGCTTTACTGTATC
AGTCATTTGCTTAAAACTTTTTAGTAACTTCCCAGTCCTTACAAGGATGAAATTTAAATTCCCAGAGTACTAGGCTTTCCATGATCTGGCCCCCATTTAC
YTTTCCAGTCTCTTTTCTTGCTATCCCCTCCTACTTCCACATTCCCCTTAATTTGAGCCCTGTGAGAGTTCCTCTCTGAGAGCTCCTATGCACTCTACTC
ATTCAACCGCTGTGCCAGGCACTGTTCCAGATGCTGGCAGTGAACAACAGCAGTGAGATTGCTGCTGTTACAGTTCTAGGTTTTTGCACATCCTCTTTCT
TCTGCCTAGAATAGCCCCATTTTTTTCTTGTCTTGGAAAACTCATCCTTCAAGTCCCAGTTCAAAAACTACTTCCTTTATGAAGCTTTTCTCTGATTGCT
GCTATTGGTAGCTCTCTGAGGTCCCACAATTTCTCCAAATGATTTAATTTTTTAAAAAATTAATAATTACAAAAGGTAGCATACTGTATACCCTGTCCTG
TACCTTGTTTTTTTAGCTTAGCAGGATAACTCTTAATTTCAGAGTATATAATTTTCCCATTATGCTACATAATGTTTCATTGCATGGCCTTATCATGCTT
AATTTAGTGATTTCCTTATTGATGAGTATTTGTGTTGTTTTTAGTCTTTTCCAGACCCAATTAACCTGTACATAAGTCTTTTCCAGACTCAAATAACCTA
TAGTAAATAACCTGGTACATAAGTCACTTTATATTTTTACCAGGATATTTTTGGGATATATTTCAAGAGGTGGGATTGTTGACACCAAGGTAAATACACT
TGAATTTTGCTAGATACTGCCAAATTTCTCTCTATAGGGGTTGTAAAATTTTACATCCTCATCAGCAGTATGTAAGAGGGCCTGTTTTCCCATCATCACT
CCACAATAGGTTTTGTTTTATATCTCTTTTATTATAAGTATGGTTAAATAATATCTATTCATATGTTTTATATGTTTAAGGCCTATTTGCATTTCTTTTT
AAAAAATGAACTGTCATTTCAAATTTTTGTTCTTTTTTTTTTTTTGGAGATGAACTCTCTCTCTTGTCTACCAGGCTGGGGTGCAATGGCATGATCTCGG
CTCACTGCAACCTCCGCCTCCTGGCTTCAAGCAATTCTCCTGCCTCCTCAGCCTCCCGAGTACCTGGGATTACAGGCACCTGCCACCACACCCGGCTAAT
TTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTTCTGACCTCAGGTTATCCACCTGCCTCGGCCCCCCAAAGTGCT
TGGGATTACAGGTGTGAGACACTGCGCCCGGCCGTTCATTTTTTAATTGAATTGTATTGGTCTTTTTCTCTTTAATATTTTAGGTGCTTTATTATATATT
AGGATTATTAGTCCTTAGTTTGTGAAATAAGCTGCAAATATTTTTTCCCCAATTTTTCTTTTGTCTCTTTGCTTTATTTCTGGTGTTTATTTTTCCCCAG
GTGTACTGTTTTCTATAGCCAAATTATTGATCTTTTCTTTAATTGCTTTTTTGTTCACTCAAAGGAAGGTTTTCACCACTGAGAGGTTATAAAATAATTC
ACTCATATTTTTACTCTTTTTTTTTGCTTATGTTAATTTTTTGTTTGGAACAATCTCAAATTCACAGAAGTGTTGTGAGTACGTTGCAAATAACTTGTTT
TTTCCTTATGCATTTCAGAGTAAGTTACCAGTCCGATGCCCCTATCACTCCAATACTTTAGTGTCTACTTCCTACAAGCACAGATATTTCTTAGCCATAA
TACAAGCACAAAATCGGGAAATAAACATTAATATGTTACTATAATCTAACCTTCAGCTCTCGTTTAAATTGTGCCAGACATCCCAGAGGTGTCCTTTAGA
CTATCAAAAGGACCCAGTTCAGAATCAAGCATTGCATGTGGTTATCTTGTCTTTTTAATCTTGTTCAGTATGAAACAGTTCTTCATTAATCCTTGACTTT
CTTCACCTTGTCACTTTTGGGGATTAGGAGTTAGTTATTTTGAAGAGCATTTCTTAGTCGGGTTTGTCTGATGTTTCTTTAGGATCATATTCAGGTTTTA
TATCTGTGGCAGGAATGTCACAGAAGTGCTGTCTGTGTCCAACTTTTGATGACCCAATTTTGATTTTTTCTAATACTGATTATTTTCACTTTGATCCCTT
CATAGATGTTATCTGCCAACCTATTCCATTGTGAAGTTGCTTTTTCTCTCTATGCCATACATATTTTGTGAGAAAGATACTTTAAGACTATGTWAAAATA
TCCTGTTCATCATCACACTTTATATTTGTTCACTTATTTGTTAATATCTGTATGGATTCATCGTTTCTTATTTTATTCAACAGATTATAATCCGTTACTA
TAATTATTTATTCTGATTCTTACATTGTTCTGGATTTGGCCAGTGGGGGTCCCTTCACACCAGCTCTTATGTTCTTTTAACATGTCTCCTTTGGGCTCTG
ATGTCCTTACACTAGGCTGTCTTCCCATGCGGATGCCCTCCTCACTCTGCTGTGACTCCTCATGCCAGGCCGCCTGCCATATCAGTGCCCTCTCTACCCT
TCTTGGACCCTGACATTCCACCAGGCTACTTCTCTGCGTGGATGGTGRTCTTGCTTTACCCCATCTAGTGGCTTAGGATAAAATTATTCAGGAAGGAATA
TTTTCTAAGTGACTATGAATAAGTATTTATCATGAGATATTATTTTTAGTGTTTAGATCTCGGATCCATTTGAAATTACCCTTGTGTATTATATGAGATA
CAAATCCAATTTTATGTTTTTCCAAATGACTATCAAAATGATTATTCTAGTACCATTTATCAAAAAGTTCATCTGATTTCAATTATATGCATGTATTTTA
AATTTATGTAAATGGCATTATAGTAGATATCTTTATATTATTTACTTTTAAAAATCAGCACAGTGTTTTTAAGATAAATTCCTATTGCTCTGTGTACATC
AAATCTGTTGCATCTAACTCTGTACAACATTCAAGTATGCATTCACTACATTTTTACCTACACCATAATGAATATTTTAAAAAATGTTCCCTTGCGGACC
CATGTGAGAAATCCTTTAGAATATATGCCTAGAATTGCTGGGTAGTAGAATGTGCAGGTATTTAATTTGACAAGTGCTTCCATATTTCTCTCCAGGATCA
TCATAGTACTCTGTGGGCTGGCAGCAGTGCCTGAGGATCCCTGTGACTTCTCTCCTGATACTTGGCATTGTCTGCCTTTTTAATTTTTACTCCATGGCAC
AATGTGTTTTTTTGTTGTTTGCTTTTATTTTGTTTTACTTTGTATTTCTTTGGTTATTGTTTTCAACATTTATTTACATTCTTATGAGCTTTTTGGACTT
TTTTTCTTTTATACATTGTTTATTCCTGTCCTTTGCCAGTTTTTCTACTCAGTTGTTGTCTTCTTGTTTATCAGCAGGAATTCCTCATATACTTGAAATA
GTAAAACTCTTGTTGGATTTAGACATTCAAATTGCCTATATCTTTTCCCTTTCTATTATCTATTAACTTTGTAGTCTTTATTAAGTATAAATAGTTAATT
TTCAATTACTCAGGCTTATCTTTTTTTTTCTTTTCCTTTATGGCTTATTTAAGAAGTCCTTCTATGCTTTTAGAGCACAGAGGTATTCTGCATTTTCTTT
TATTAACCATATGGTTTACCTTTCACATTTAGGTTTCTTAATACTCTTAGACACCACTTTAATATGTGGTATTATGTAGGGATCTAGCACTAGGTAGGGA
TCTAATTTTAATTTTCTCTATAAAATGAATCAGTTTTCCTAACTGTATTGTCTTTATAATCACTTGTAATCACTCTTTTCAACAATATTGTATATCTCTC
TGTTTACTGAAATCTTTTATGCCTTAGTTCAGTTGTGTAGTTTTCTTCATATGGGTCCTGCACATTCCTTAGAAAATTTCTAGGTATTTTGTAATTGTTA
TTGCTATTGTGAGTGAAATATTTATTTATTTGTTTTATTTAAATCTTTTTTATTTTTAACTTTTTTTGGGTACATGGTAGGCATATATATTTGTGGGGTA
CATGAGATGTTTTGACACAGGCATGCAATGTAAAATAATTAGATCATGGAAAATGGGGTATCCATCCCCTCAAGCATTTATCCTTTGTGTTATAAACAAT
CCAGTTACATACTTTTTGTTATTTTAAAATGTACAACTAAGCTCTTATTGAGTATAGTCACCCTGCTGTGCTATTAAATAATATGTCTTATTCCTTCTCC
TTTTTTTTTTTTTTTTTTTTTTTTTTACCCATTAACAATCCCCATCTCACTACCAGCTTCTCAGTACCCTCCCCAGCCTCTGGTAACCATCCTTCTACCC
TATGTTCATGATTTCAATTGTTTTGGTTTTTTGATCCCACAAATAAGTGAGAACATGTGATGTTTGTCTTTCTGTGCCTGGCTTGAAATATTTATTTTTT
ATTATGTTTTCTAAGTGTATATTAATACAATATTTTCAAGTCAAATTTTTTTTTCAGTGGATTGTTACATGTGCTTCAAGTATATAGCATATTACCTTGC
TAAAAGGCACGCTGTCTCTTTTGTTTTAATGTTTTTTAAATTTCTTCTTTTAGTGTAATTATACTAGAATTACAGAAAAAGCAGGTATCTATTTTTTATC
CTGACTTTAATTGTAATGCAYTCAGCATTGGACTTGGCTGTATAATTACTGATAGCTTTTTAATGTTAAGAAAGTATTCCTCGGATCCTTGTTTTCTAGG
ATTTTATTGAGGAATACTTGTCGAATATTATCAAATACCTTTTAAGCATCAAAGGCCGTGAAGATAATAGTCTCCTCCCGTGTTACCTTGTACTCTTTGG
TTTCTTGGAAATGTATTTTAATACACTCTACATATTGCTCAGCTTACATGCTGAGTAGGTGTTAAGGATGAAGGAAGATGCAATTGTCACTTGTCACTCT
CACCAGTGAGACTGAGAGCATTTCTTTCTCCCATATCCTCTCAAGGTCATTTAAATTTTTTTTTATGATAAAAAAAGTTTAAATTTGCCTTTGACTACCA
TTTGCGTTTCCTTTTCAGTGAAATGGCTGTTCCTGCCTTTTGTCTATTTTTCGCAAATATTTTCTACCAATATATATCTTTTAACTTTGTTTATGGTCTA
GTTTTTATTGTTAAATAGTTTACTTATTATTTGTTCAAATCTATTTCTTCTTCCTTTGTGGCTTCTGTGTGTTCTGACTTAAGAGGGTCTGCAACACCCT
GAGAGTAAACAAGTATTCTCTTAAATTTTATTTTTATATTATAATCTTATAGATTATTTTGAAGATGTTATGAAGTAGAGATTATGTCTATTGCGTGATC
ATGCATGCCATCTTTTCTGTCTGAATTGAATTGCTACTTCTATGTTGTTTCTTTATTCTAACAAAATGAGATAGATTCACTGAATATTAAAAGACTTTGG
GAAAATGCGAATGTTATCTTTATGTATCTCAATCATTATGAATTCACCTACTAAATTAAAGAAAATAGCACTGTTGGCTGGGTGGGGTGGTTCACGCCTG
TAATCCCAGCACGTTGGGAGGCTGAGGTGGGTGGACCATATGAGGTCAGGAGTTTTAGAGCAGCCCAGCCAACATGGTGAAACCCCCTCTCTACCAGAAA
TACAAAAACTTAGCAAGGCGTGGTGGCACACATCTGTGGTTGTAGCTACTCGGGAGGCTAAGGCAGGAGAATTGCTTGAACTGGGGAGGCAGAGGTTGCA
GTGAGCTGAGATTGCGTCACTGCACTCCAGCTTGGGCAACAGAGTGAGACTCTGTCTCAACAACAACAACAACAACAACAACAACAACAACAACAAAGCA
CTGCTCCATTCATGCATCTTTCTTTTACAACATTTGGAACAAAGGCAGTATTACAAAATAGAAAACAGAAAAGAATACAAATAAAATTATTTTGCTTTTG
ATATTCTTTTAAGACCAAATAAGAGAGATTATGGAGAAAGGATATTGGCATTTTAACTGCAACCTTATACTGATACTGAATGTTTGTATGACTACGAACC
AAGTTTTATATGTGTGTGTGTGTGTGTGTGTCTCTGTGTGTGTGTGTGTGTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTTTGTAGGAAGAAATGT
AGCAACAGATCAATGATTCATATCTTTAACAGGATGGCATAGACTTACTCTGCATTTTGAGTTATTTTTCCTTTGGTATAGATGGATCATGCTGATAGTC
ACTTATTACTTAATATATAKATACAGTTTCTAATATACCTTTCCTTTGAAGTTACCYTGAAGTGTTTTTCTGTTTATATGTGGGTCTCCTCCTTTTCTAT
GCAATTTGCTGCTTAAGGATTATACTCATTAATTTTTGTTTTTATTATGCTACAGGAGGAGTTGGATTTGTCTTCTAGTTCTCAGATGTCTCCCCTTTCC
TTATATGGTGAAAACTCTAATAGTCTCTCTTCASCGGAGCCACTGAAGGAAGATAAGCCTGTCACTGGTYCTAGGAACAAGACTGGTATTACTCTATCTC
CTAACTTCTGTTATTTCTATTTCAGATTGAGCTTAGGTTCCATTTCTTAAAAGAAAATGCTGGATTAAATTTATGTTTATTAGGCTGGCTTGCTGTTTTT
TAATTGGTGGACCTATATTGTTTGTTGTGAGTGATTACCGTGGAGAGGAAAGGGGAGAAATAATCTTTGGTTGTCTCTGTCTTTACAGGTGAAAGATACT
TTAAAATAGACTCAGACCCCACCATCTTCAGGAGAGATTTCAAAGTTTCAGTTAAAGATAACTGAATGGAGCTATGACATTTGTTACCTCATTAATCTCT
GGGTGTTATCCCGTGATTTTAGCAATTCTCCTTTACCAGTTAGTGTGTCCCATTCCCAAAACTGCAGCTTGGTTAGAAAAGGAGGTAACAGTTTAAGTAC
TTTTCTTCAGTTCATTCAGGTATATGTACTGTAGCTATGCTTAAACTCCAGTTAAAGATTGTTAATCGAAGTTAAGATAATGTGTAGAGAAAGGTGTGTG
ATAGAATCTGTTTTTTAGGGCTTGCGTAATTGCTTTCACATTGACTTGTGGTTTGTCTGGTTTTTCTCCAGAAAATGGACTGACTCCAAAGAAAAAAATT
CAGGTGAATTCAAAACCTTCAATTCAGCCCAAGCCTTTATTGCTTCCAGCAGCACCCAAGACTCAAACAAACTCCAGTGTTCCAGCAAAAACCATCATTA
TTCAGACAGTACCAACGCTTATGCCATTGGCAAAGCAGCAACCAATTATCAGTTTACAACCTGCACCCACTAAAGGTACCTGAGCAGAATTTAAGGCTGT
GTAAATTTATTTGGAGGGCAGTAAGGGTTGTGTCATATGATTTGTTTTAATTCAGGTTATAATTTCTGAGCACGTGCTGTTTGTCAGGAATGTCTTTGGT
TATGAGGACGTTGCAGAGATGACTAATGTGTGGTTCCTGTCATAACAAGGGATATAGCTCTCCAGACCAGTTACATCTGATGGTTATTTTGAAAATCTGG
GACACTTTCTTGGTGCCATTTTATTCTGGTGGATAAAATACAGGAACACAAATTTTAAGCTAGTTGAAGGCAGAGTTCAGGTCAGCCAGATTTTTGTGGC
TGTGAACTTTTTTTGTTTTGAAGGAATATTTAAAATAATAGGGTCCATTTCAGGTGTGTTATAGCAATAGAATCACACCCTTAATCTCTGAGGAGGCTGC
ATGGTTTAGTAAACAGTATATTGACCTGGTCATGAGGAGACCTGAACTCTGCTTTCAACTAGCTAAGAATTTGTGTGTTTCRTATTTTATCCACCAGATG
GCCTCATACACTTGTGATTCTATGAGAGGTTTATGTCATTATTGAAAGAAGTTCAAGTCTGAGGATTTGGTACTATTCAGATATGGGAGTCATTTCCGTA
TGGAGATCTCTTAGGTAGWTTAGTCATCATTGTACTCATACTGATATCTGTATACACTGGGTACAAGAAAACTTTTGCAGCATTCTTATCTCTGGATTTA
GTTTGTTGGCACCAGATATGACTAGGCGATAATGGGGTATGGGTTGTAAATAAACACCAATGTTACATTTGTACTGTATCTCCAATTGTGAATAGGTAGC
TCGTTTTTTGGAGCATAGTTTTAATGAGGGTAAATTTGATAAATTTAATTTCCAGATACTCTTTTAGCTTTGTTCTATTACATGGTCATAGACAATATGA
CATTGATAAAAAGAAGACCTAGATGAGAGAATGGATGAATCAGTGAAAATTCATCCATCAGTCCCACCAAAAATAAACAGACAAACAAACAAACAAAAAC
CAGTTTGAAATGCCTGCTCTCTCAGTACAAAGTCAGAACTGCTGCCTTTTCCATCTGAAAAGTAGCATTCCTATAGAATAGGTATTCTTGTGATTTATAA
ATGTGTATTAAGGGTTCATGAACTCCTTGAAACAAAATGCAGGATTTAATGTATGTTCATATGTGGATTATTCTAGGGATAGTCTCCAAAACTTTCATTA
GGATCTCATAAGGATCTGTGCCTTCCCAAAGGCTAAGAATTTAAACTAATGAAGAACCTCATTGTAGTTCCCATAAGCTATTAAAATACGTCTATACAAA
AAGTCTGACATTAATATGACTAGCGTATAAAGCAGGGGTATTCCTAAGAATTTGCCCTTAGCAGATCATTGACTATGTTTGAGTGATGGAAGATCTTACC
TATAATAAGAAGACAAACTGTTCTTTTCTGAGCAGTTTATCAGTTCCAGAAACCTGAATTACACATTATTTGAAACTTCAATACTTTCCTGTCATCTGAA
GACTATAGTTATTTTTTTGTGAGCATGTGCTAATATGAGGAACTGCACCTTGCCTGTTTTTTTTCTTTTATTTGAGACAGAGTCTCRCTGTGTTGCCAGG
CTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACTTCCACCTCCTGGGTTCAAGTGATTCTCCTGCTTCAGCCTCCAGAGTAGCTGGGACTACAGGCA
CGTGCCACCATGCCCAGCTAATTTTTATATTTTTAGTAGAGACAGGGTTTCACCATGTCGGCCAGGATGGTCTTGATCTCTTGACCTCGTRATCGCCTGC
CTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCTGGTGCCTTGTCTGTTTTTATAGTACAATCTAAATAGGTGGTATTATTATAATA
ACATACAGATTTAAAGTATGTTTTTCATTTATTTGAGAATGGGGAGGAAGAAGGGAAGTATGGGCAAGACATTATACAGTTAATCATGTTAATACTAGTA
GTAAATATGTTACCATTGAAAAAGAAGAGGTAATTTCCACAGGTTTAAGACTGAGATTCTCTAGCTTGGAATGTAAAACTCTTCACAATTTGGCTCTAGT
TTAGTTTTTTGTTTTTTTGTTATTGTTGTTTGTTTGTTTTTAATAGAGACAGGATCTCACTATATTGCTCAGTCTGGTCTCGAATTCTTGGGCTCAAGGG
ATCTACCCACCTTGATCTCCCAAAGCTCTGGGATTAAGGCGTGAGCCACCATGCCTGGCCTCCTAGTTTAGTTTTCGAACTTTATAATATTACTCTTTTC
TATAAATCCCTTCTTCTAGCTCAACTAATCTGTCATTGTCCTTTGAATTCTCTTGTTTTTCCTAGTTTTTTGGCTCACCATTTTCTACCAACCAGCAACA
ACTTATGCCTACTTCTACTTCTCAGTCCTCCATGTCCTTTAAGACTGTTTTGAGTAGTGTAGATGAGAGATAATGAAAGCCTGGAATATCAATGAAAGTG
GAGAACCAGGATGAAGAGTAGAGATGTTAAAAGTGTAGAATCTTAGAGATTGGTAATTGGATTGTGTAGAAGGAGGCTGAACGATAGAGAGGAAGGTGTC
TAGGATGACTTCCGTTTTTCTATCTTGGGGCTTTTTGGGTAGATGATGGCRAAAATTATTGAAATGGGAGACAGAGGTAAAATATGTTGCCCAGATCACT
CTGCTAATAAGAAGTGGAGCCAGAACTTGAGCCCAGGTGGTCTGGCTCGGAGTCTATGTGAATAATCACTATACTGTATCGCCTTAAAAAAAAAATGACA
GATGTATTCCTTGCTCTCAAGAATTCTACACTTTAATTGGGGGATTAAATTCACATAAACAGTTAAATAACAGTCACTGTGATAACTAATAAATTAATAA
CTCATGCAGTGCCCTTATGGAAGCTATTATTATATAGAAAAGGAGATTAATAATAATAATAATTGCATTTAAGTTCTTACTATGTGCCAGACACTCTTCT
AAGTGCTTAAGTGCATTATCTTATTTCAAATAATATTTACACATTATTTGAAACTTCAGTATGTTTCTATGATTTATGGTGATGGGTTGTGATATCTCCA
TTTTTTAGATGAGAACGCTAAGTACAGATTATTTGCCCTAAGTCACACACCGATGCTGTTTCAGACAAAGTAGGCATTCAATAAATGTTTGATACATAGT
TTAAAATCTTTGAAGAAAGTTTAAAAGAAAGAACTATCAAAATCAGTGAGTTACACATAGTCAAAAAAATATATGGCATTGAATCCAGCCATGTTCCGTT
AAGGGGGATTTGCATGTAATGCCAGAGAGGATTTTGAGCATGCTAAAATGGATAAACAGCCTTTGGAATGTCCTTTTTAACTGTTTCCACACTAGGAACA
GTAGTAACTATGTTCAGCTGCTATTTAAGGCCCCAAACAATTCTTTGCATTGTAGTTTGTGGCCTGGTCAGCATTTACCAAGTCACCATGAGAGTTTTTT
GTTCTTTCACTTGAACATATTGTCATAGAAATTTAGTTGTTTCCCCTCATTCTGTGTTGAACCCAAACATGCCTAGAATATTTAGAGTATCCCTGATTTA
GCTGCTGGGTAATTTGAGGATAGTTGGGTACTCTGGGATGAAAAGGCTTGATACAATATGGGAAAAAAAGGAAGCAGCAGTGGCTTGGTAGRACTCAAGC
CACATTTGGCCTTGCCTTGGTATTCTTCCATCTCCTTTGTGTGATGCGGTCGTCTCAGCAAGGAGACAGTGGTAATTACACAATTGGTAGTACAGATTTG
GATTATTTTTCTTAATTAGTTTAAGAAATATTACAAAGCCCTCTGTACATGTTATCTGCTAGGGCTTTAAATCTGTAACTGTAGCTAGAAATAGGATTCT
TTCTTATAAGTTGCCTAATTCATTATATTTACACCTCTTCTGTTCTTTAAAATAGTCCCAAAGTTCCCTGAACAGTGTTTAATTTTGGGGAGGGATCTTT
TAATCATAATTTTAAACTCAGAGGATGTAGAACATGGCTTCCTATAATACTCTTCTCAAAGTATTGGTTTAAGTCAGTGGTTCTCAGTCTGTATATTGTG
GACCCTGGGATGTGGGTGATGGGGGTAGTAGCTTTATGGCATTTTGCAAAGCATCTGCAAATCCATACTTGAAGCAAGCATTTTCTGTAGACCAAATAAT
TTATTTCATATATCTTTGTACAGCTCTTCAAATTTTTATAGCTATACTTCTGACTAATAAACTCCAAGTTCATTTTAAATCTTCACTAAATTCTTAGCAG
CCTTTTTCCATCATGTATTTTCTCAGTACACAGAAGCTGAAAGGACAACCTTGATGGTTTTGGGTGACCAGGATATTATTTTATATTAAAAGAGAGCCCT
TATATTCAGGAGCCTTTGGGGAGAGACTATGGGTTTTCTAGGTGTAGAATTATATCATCTGTGTGAGAGATGGTTTGACTTCCTCTCTTCATATTTGGAT
GCCTTTTATTTCTTTCTTTTGCCTGATTGCTCTGGCTATGACTTGAGCACTTGGGAATTCTTGTTTTTTGGTTTTTTTTTTCACATTATGATAAATATAT
ATTTTCATAGTGCCAGATTTACTGTAATTTCTTATTGTTATTAAAACCTAACACTTGGTCATATGCTATTTACTTTATRTGTTTCTAATTTTTATTTGCG
TATTTGGCCTAAGCATRTTTATATCTGCTTCTGAGTAATTTCTGCATTTTATATGTTTTTACTTCATAAAAGATGGAGGCCACCTCAAAACAAATTAGGC
ATCAAAGGAACATACCTCAAAATAATAAGAACCATCTATAGCAAGTCCACAGCCAACATTGTAATGAGTGGGCAAGAGCTGGAAGTACATTCCCTTTGAG
AACCAGAACAAGACAAGGATGTCCCTCTCACCACTCATATTCAACATAGTGCTGGAAGTTGTAGCCATAGCAGTCAGGCAAGAGAAAGAAATAAAAGGCA
TCCAAATAGGAAGAGAGGAAGTCAAACTACCTCTCTTCACAGACGATATGATTCTATACCTGGAAAACCCATAGTCTCAGCCCAAGACTCCTAGATCTGA
TAAACAACTTCAGCAAAGTTTTAGGATACAAAATCAATGTACAAAAGTCAGCAGCATTTCTATACCCCAGTAATGTCCAAGCTGAGAGCCAAATCAAGAA
TGCAGTCTCATTCACGATAGCCAAAAAAAGAATATAAAGTACCTGGGAATACAGCAAGCTGGGGAGGTGAAAGATCTCTACAATGAGTTACAAAACACTG
CTGAAAGAAATCAGAGATCACACAAACAAATGGAAAAACATTCCATGCTCATGGATAGGAAGAATCGATAGTGTTAAAATGGCCATACTGCTCAAAGCAA
TTTACAGATTTAATGCTATTCCTATCAAACTATCAATGACATTTTTCACACAATTAGGAAAAACTATTCTAAAGTTCACATGGAACTGAAAAAGAGCCTA
AATAGCCAAAGCASCCCTAAGCAAAAAGAACAAAGCCAGAGGCATCAAGCTACCTGATTTCAAACTGTACTACAAGACTACAGTAACCAAAACAGCATGA
TACTGGTATAAAAACAGGCACATAGACCGATGGATTAGATTAGAGAACCCAGAAATAAAGCTGCACCCCTGCAACCATCTGGTCTTTAACAAAAACAAAC
AGTGGGGAAAGGACTGCCTATTCAATAAATGGTGGTAAGATAACTGGCTAGCCATATGCAGAAGATTGAAACTGGATCCTTTCCTTTCAGTGTATACAAA
ACCCAACTCAAGATGGATGAAAGACTTAAATGTACAGGCTCAAATTATAAAAACCCTAGAAGAAAACCTAGGAAATATGGTTCTGGACATAGGCCTTGTC
AAAGATTTCATGATGAAGACTCCAAAAGCAATCGCAACAAAAACAAAAATTGACAAATGGGATCTAATTAAACTAAAGAGGCTGGGCGTGGTGGTTCACA
CCTGTAATCCCAGCACTTTGGGAGGCTGAGGGGTGCATCACTTGAGATCAGGAATTCAAGACCAACCTGGCCAATATGGTGAAACCCCATCTCTACTAAA
AATACATAAATTAGCCAGGCATGGTGGTACATGCTTGTAATCCCAGTTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGCAGGTGC
AGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCTCAAAAATCAATAAATAAAAATCAACTAAAGAGCTTCTGCACAGCAAAAGAAAC
TATCAACAGAGGAATAGGACAGCCTACAGAATGGGAGAGAATATTTGCAAACAGTGTATCCAACAAAGGTCTAATCTCCAGAATCTACAAGAAACTTAAC
AAGCAAAAAACAACCCCATTAAGAAGTGGGCAAAGGATATGAACAGACACTTTCAAAAGAAGACATAGACATGGCCAATAAGCATATGAAAAAATGCTCA
ACATCACTAATCATTAGAGAAATGTAAATCAAAACAACAGTGAGATACCATCTCACATCAGTCAGAATGGCTACTATCAAAAAGTTGAAAAATATCCGAT
GCTGGCAAGATTGCAGAGAAAAGTGAATGCATATACATTGCTGGTGGGAATGTAAATTGGTTCAGCCACTGAACGTAGTTTGTAGATTTCTCAAATAACT
TAAAGTAGAACTACCATTTGACCCAGCAGTCCCATTACTGGGTATATACCCAAGGGAATATAAAGACACACGCACACATATGTTCATCACAGARCTATTC
ACAATAGCAAAGACATGGAATCAACCTAGATGCCCATCAGTGGTGAACTGGATAAAGAAAATGTGGTACATATACACCATTCAATACTACACAGCCATAA
AAAAGAATGAAATCATGTTCTTTGCAGCAACATGGATGGAGCTGAAGGCCATTATCCTAAGATAATTAATGCAGGAACAGAAAACCAAATACTKCATGTT
CTGTCTTATAAGTGGGAGTTATACATTGAGTACACATAGACATAAAAAGGGGACAATAGACAACAGGGGCTACTTTTGAGGGTGGAGGATGCAAGGAGGG
TGAGAATCTAAAAATTACCTGTTGGGTACTGTGCTCATTACCTGAGTGATGAAATAATCTGTATGCCAAACACCTGTGACATGCAATTTATCCATGTAAC
AAACCTGCCTGTSTACCCCCTGAACCTAAAATAAAAGTTGGGGGAAAGAAAAACTGAATCCAAGGGAAAACGAGAAGGTAAAAATGTTTAATGATCATTT
ATGCCGAAGTATTAATACATTGTATCTACTCCAAATCCATGAAATTATTTTTAGATCTTCTTATCTGGGATAAAATGCTGTTTATTGAAATTCTGCTACT
TTCAGTGTGTTTTTTGAGGCCATCTGAAACAAGGGCTTTGCTTTTATAAGTTATCTTTTTTAGCCAAGACAGATGTTCTTGACAAACAGGTGTTCTGAAG
CTTTATTTTGATTTTTAGTTTTCCCCGATCCTTTGAAATATTGAGCTGAGTTTTACATGGGTCAACCTGTCTGAAAGCATAATGCTTTTTTTTTCTTAAA
CAAATTATAAATTTACATGATATTTTAGTTGCCAGTTATTTTAGTACCTTCATTTTGTTAGATAGGCTCAAGCAGCTGTGGATGTTAGGCAAGGCTTTCA
GCACCTTATAAAAATCTGCCAGATCTGAAAGGAAACACTTAGCAGGCAAGTAAAATTTTTAATAGATTAGTGTTATGAGTTGTATAAGTCTTTAGGTTAA
TGGTACAGGTTTAGTACCCCTTAAATGAAATGCTTGGAACCAGAAGTGTTTCAGATTTTGGGTACTTTTGGATTTTAGAATATTTGCATATACATAATGA
GATATCTTGGGGACAGAACCCAAGTCTAACATGAAATTCATTTATGTTTCATGTATATCTCATACACATAGCCTGAAGGTAATTTTATATAATATTTTAA
ATAATTCTCTGCATGAAACCAAGTTTGCATACAGTGAACCATCAGAAAGCACAGTTGTCACTATCTCCTGTGGACAATCTGTAGTTGTTTGGCACCACCA
TCATTCCTGGCTCTGAATTCATATGCTACTGACAAGCAATCATTTTCTTACACTTATTCACAAATTCACACCTAAGAACTTAACAAAAATTATGACATAC
CATTAATACAGTGAAAAAATAATGTGTGCAGAGTAACAAGGCAGGACAGTAGAATCACCAGAATACCAGTGTCAGCTACTACACAACAGCAACAACAAAA
AATGGCAGCTTTCAGTCTCTGCCTTTGATGCTGTTTTCATTAAAAGCCTACTGTACCCTCTATTTTATGTCTTCAGGTGAGAAGAAACATCAGAAGCAGT
TGAGAGACTGGAAGTGGGTCCTCTAGGGATGAGGAGGCATTCTGCTGGATGACTTCTAAAAATGTTTTCTATGGAGTCATCTGCCTCATTAACAAGTTTT
TGTYTTAGAAGTCTCTTTTTGATTTTGTAAACTGACATGATTTCTTTTTCTGTTATGACTGTATGCTGCTTTAGTCCTTCACTAGGCCCATCACACATTT
TTACCATGTCATCTATAGGCACTTTTTCTGCAGCGTTAACAGCATCATCTTCATTGTCATTATTATAGATTGAGTATCCCTTATCCAAAATACTTAGGAC
CAGAAGTGTGGAGTTTTCCACTTGTGAAGTTGTGTCAGCACTCAAAAAGTTTTGGATTTTGGAGCATTTTGGATTTTGGGTTTTTGGATTAAGGATGTTC
AACCTCTAATAATTCTCGTCAGATTAGCATAAATTTAAAATAATGATACCTCTGAATACTCAGAAAAGAATTGAAGGCCATTTTTGGGGGAAGAGGGAAA
GGGCTGGTATCATCTACAGACTATTTTGAATCACAGATTTATGTTTACCGTGATTGTTAGCTAAGATTTAATCTCAAATGGTTTTAAGTTTTTTGGTATT
TGTAGTCTTTTTTTTTTTTTTTTTTTTTTYGTCCTTTTTAGGGATCTGCCTGCCTCAGCCTCCTGAGTAGCTAAGACTCGAGGCACATACCACCATACCT
GGCTAATTTTTAAATTTTTTTTTGTAGAGACAGGCTATCACTRTGTTGCCTTGGCTGGTCTCAAACTGCTGGCCTCCCAAAGCACTGGGATTACAGGTGT
AAGCCACAGTGCATGGCCTGTAGCTCCTTCTTCTTCTAATATTGAGTTACTAAGTTTATGTTCAGATATTTTTGGTATTGTATGCATTTGTAAATCCTAT
TAATTTAGAATACATGACTCTCCATATTCAGTGTAAAAGATTTGTTATTTATAATAAGACAAATCCTTTTAGCRCTAATAAATTTCAGAGGTTAATTCTT
AGAAATCTAGGGATTACAGCAAATTTGATAGCTGTTTAGTTGAGAAAGATAAATAAGAAAGTATATTAAAGTATATTGTTAATGATAACTCAAAGAGATG
AATTTAGTTGGTCACATTAAAAACATAACAAAGTCACCATAAGCGTGTGCTGCTATTGATCCAATGTTTTAATTGATGGTGTCCAATCCCTTGGTGTTGA
TCTTACCCATTACGTCTGCAGAAAAGACCTAATTATAAGCTGCTTCCCCTGCCACAGTAGTTGTGTACCCTTTGATTCCTTTTCTTTTTTCTAACGCAGG
CCAGACGGTTTTGCTGTCTCAGCCTACTGTGGTACAACTTCAAGCACCTGGAGTTCTGCCCTCTGCTCAGCCAGTCCTTGCTGTTGCTGGGGGAGTCACA
CAGCTCCCTAATCACGTGGTGAATGTGGTACCAGCCCCTTCAGCGAATAGCCCAGTGAATGGAAAACTTTCCGTGACTAAACCTGTCCTACAAAGTACCA
TGAGAAATGTCGGTTCAGATGTAAGTTTTGAAACTTAGTGCTTCTCTTAATGCCTGATTTAAAAACCAACAAAAAAACACCTTTTGCTTTTGTTGCCTTG
TTTTTGTTTTTTTTAGAGTTTCTTATATTGCATCAAATAAAAGAGTGTGCTGAATTGCACATCTAGTCTTTGGAGGAAAATTAGGGTAAGGCTTACTACR
TTAGAATCTAAGTGAAAAGGTTTTTGAAAGTGAAGTGGTTTGATGAAAAGCAAAGTATGCATACCTCCCTCTTCTTTACTCCTTCTTTAGAACCAACCCT
CTTATTATTCTCTTCAAGCCCTTACACCCTCAACCCAGTCATCCACTAATATTTTACAGATTCAACGTTTCCTGATTGAAATGTTTTAGCGATCTTCAGA
TAAGAGTCTATAGATTACTTTTTAGGTAGGTTTTATATTTAGCTTTCTTCCTTGCCGTTTTGAAGTATTTTCACCACTTCATAATGATGACTAGCTACTC
TTAGGAATTCTGTCTCTTAGTGATTATTTGGTACTTTCCCATTTTTGCAAACCTTTAAATTTTCTAGCATGTTGTAGGGATTTCTTATAATTTATAAATC
ACATAGTTTCCTAAGACCTGTCACTCTCTAAAGCCAGTTACTGCACTTGCCAACTAACTCTTGCTTTCTTTCAAAATGATTGGAAATAACTTATGTATTA
AATTGAACATCTTGGTCCTAAAATTTAATGAATGTTAAAGCTATATAGTCAAACAGTGGATTCTCTAAAGTTACGATTGGGAAAGCAAAGTGTGTATGTT
TTCTTTAAAATAAAAATGGATACTACTAGTTGTTAATATTACTACTTCATCCTTTCTTTAGGTAGAATGCATTTGAAAAGTAATTTTAAAATCCTGTGGG
TTATGCAAGGTTGTTTATCAGACTACTGTCTGATCTGTCTGCCAGAATTTATTAACCAGCATGTCAGTGACCCATTTAATTATAAAATTGCTCCACAGTT
GCATAAACAGTAATCTCAGCCAGCAATATTGTAAAAATTCATAACAAAGGAATATTGTCTGGTGAAAGTAGAACATCCAGTTTCTAGAATAAGAGTCCCA
TCGTTTGTATAGGTATTGAAAACAATGCATGTCAAGACATGGAATAGGAAAATTAGTGTTGCTATGAGACTAGAGACCATGGACAGTACAGGATTAGGCT
TGACTGTTATGTTGGTTTGTTTTGAGGACTAGAAGAGGTAAGCACAATGCTTATGGCATAATAGGCTCTAATACATAGCGTGTGTTTCAGTTGAAGATGA
AACAATGTTGCTGGGATGGGAAGGTGGTGAGCACAGGATAGAGGCAACTGGATTGGCAAAATGTTGATAATGATGGAAGCTGGGTGTTTATTTTTCTATC
CTTTTGGTGCATGGAAAAATTTCTACAATATGTTAAAAAAATGACAATAACAAAAATCCAAAAGCTTTCTGTGATATTTTCAATTAAAAAGTTGTGTGAC
CAATAAGAAAAGAGTATGATTTTCATGGGAGACCAACCAGGTTAAGAATGATGAAAAAGGATTTTTAAAAATAATGCTTTGAAATTTCTTTTTTTTTGTT
TTATTATACTTTAAGTTTTAGGATACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGACATGCTGGTGCGCTGCACCCACTAACTCGTCA
TCTAGCATTAGGTATGTCTCCCAGTGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTC
TCATTGTTCAATTCCCACCTATGAGTGAGAATATGCAGTGTTTGGTTTTTTGTTCTTGCGATAGTTTACTGAGAATGATGATTTCCTTTTAATACTCTTT
TAAATTATGAACTTGAATGTTTCTTATATAATACCCCCAAATGAAACTTATAATAGAAAATATCCAAAGTTGCCTTTATGTAATATGTTAGGACATTTAA
AATATTTTTATGAAATATTTTAGACATGAAAAAAAGATAAAGACTAATTAGAACTTTAAAAATACATAGGTCAACAGTATATCACTGTTGTTAAAAAATA
TTAACAATATTAATCTAAGTCATCCCAAACATGGAAAAGTCCAGAAAAGCATAGCTAGGATGGGGAGAGTATCTAGAAACCATGGGGTAGAGGAGTGGGT
TAAAGGTTGGAATGATTCAGTAAACTGAAGAAGAGAGGATGGAAAGTAGACCTGGGAGCCATCTTCCAGGAAAGGAAGGTTGTTATGTGGAAAATAGAAT
TGTTCTGCTTGTTCCAGAAGAGTTATCTGGAACAGGTGCAGGAAAAATATAGAAAGGTTTCTTCTAAACATAAGGTTTTTTGATACAATCATTGTATTTA
AAAACCAGAAGAGCAACCCCCCTGCCTTTTTTTTTTTCTACTTTTAGGCTTACTATCTGAATAATGAGCATCTTAATGTTGACAATCATCACTGTATGCC
ATTGACCCATTTTATAATCTCTAAACATATTCCAATTAATTATATGTTGGTCTATTAGTCAGACATCCTTTATTAGTTCTCTGGTGTGAAAGACTGTGTC
TGTTCAGCTTTTGTACTCTTAAGGGGGATCTGTAAATTTAAAGTATTTTTAATGAAATATTTTAGACATGAAAAAAGATAAAGACTAATTAGAAGTTAAA
AAATATATAGGTCAAGAGTATGTCACTGCTAAAAATATGAGAAAATGTAGAACCAATAAATACTGCTAGAAACAAAAGCTAATACTTATTGGTTCTATGT
TTTCTCATCTCACACATCCCCCAGTTCTTCAACGTTAATTGAGACTTTGTCAGCAAAGTCTCAATGTATGAATGTCTACATTTATTGTATGAATGTATAT
TCAGATGAGGTTAATTTTTTTAACAATGATATACCGTTGACCTACATATTTTTAAAGTTCTAATTAGTCTTTATCTTTTTTCATGTCTAAAATATTTCAT
TAAAAATACTTTAAATTTACAGAGCCCCCTTAAGAGTACAAAAGCCAAACAGACACAGTCTTTTTGAAGTTTAGAATTGACAGGATTATAAAGAAAGATT
CAAACACTTTATGTTTAATGCAAAGAGACCTAAGGACAATTAGAATAATTTTCTAGTCAACCTGCATTGAGGTTTTTGTGCTTATTTTTACTTGGCCAGC
ACATCGAGACGTGAGCCAAGCCTTTCAATATGAGTTTTTTTGGTAGAAATTTTGACTGAATGTTTATTTCAAGTAAAGAAGCATTAGTCTGTCCTAGCAG
CAGGCCAACCCACTCAGGAACCCAAAGTAAATCTGTTCCAGAAGGAGTTGCAGAGAAGAACTTTGATCAGCTTGTATAGCCTTCTGTGTTAGTAACTTGG
TTGACCTCAGTATTACATGTGTCTGTTAAAACACAAGTCCTATTAAATTAGGATAAATTAATATAAATTCCTAATTTAAAATGATCAAAAAAATATTTTT
TATCATATACCTTTTGTGCCTTTAAACCAAAAGTRTGGTGAAAGAATTGTAATCCACCAAAAAAAAAAAAATCATATCAGTTTTTTTGTGGCTTTGTAAT
GCTGACATGGCTTCTTTTTCTACCTTTTTTAGTTCTTTTGTTTGGCTGGTTTCACTCTCCAGAGGCCTGCTACAGCCATAAGTAGCGTTTTTAGCATACC
ATATTCTGCAAACTGCATTAAATGCCACATTTTCTGTTATGAAACAGTTTGCCTGGTTCAAATTATATCTTACTCTTCCTGTCTTTTGCTGGTAAATCTG
TTTTGTTTAACTCTTGGAGACCTCACCTAAGTTTTCAAGAAATATGGTTTGTTTTTGGCTGTGATCCTGATGGAAAAAATGAACATGATCTCTCATTTCA
GTGTAGAAGTTCTCTGTGCAGTTTCTTAGTAAATGGCAATCTTGGAACTACAAAGTTGACTTTATAGGACAGCATGCTTATCTTTCTTTAAAGGGCTATT
TAGTGTTGCCACACATCAAACCAAGGGCTTAAAAACAAGCAGTCTGTTTAAATCTGCATTACACTCACTACTTCCACCTACCCATCATAATCGCATAAAC
TTTATGAAACATTACTGCCCTTGTTTTAAGGTTATAGGAATTACATTGTTTTAGTTATTGGAACAAAAGACCAGAAAAACAAGTGGTAAAATTCTACATC
TTCCACAGTGGGCCACATTGGAGCAAATACTCTTAGTGGAAATCAGTAGGTGGGAATAATGGAAAGAAAAGTATCCAGAACTGATATAGAACTATAAATA
ACCTCAGATGTGAGGTTGATGAAGGGATACAAACTACTGTTAGGAGTCTCCTTCCTTCCGGCTCAGTCACCCCACTGAATATCTTCCAAACTCTGTATCA
CCTTTTACCCTGTTTCTAAATCCTATAGTTAGGAAACTTGATCCCTTCCATCCCAAAATGACTTCCCTTTGGGAGTCCCTGTCTTGGGTTCCTAGAGTCA
TCATGAGAAGGTAGGTGCTGGGGGGAATCCTTTGCTACTGGTTTGCAGGTATTAGAAATGGTGCGAAGGGGATTCTCCTGTCATACCAAATTAGAACTTT
GTATTTCCTTTCTCTAGAATTGGTGTACAGTTAATTTAGGGATTTCAGGTATTTTTAGTATTGTTCTATGGGAGTGATGTGACATGGGCCTAGATGGATG
CCCTGCACACAGTGTTCCTCTCTTGCAGTGGAGGAACATGAGCTTGGAGAATCTACCATGTGTATAGCAAGCAGAAAGCAAGCCTCCTCATTGTCTAGAG
GGAGATTTTATCTCATCCTTCAAGGTTGCTTGTTGGAAACTGAACCTTGAGAATGGCCTGGGAAAAGAGTGGTCCGGACCTTGCATTCTTTGCATACCCA
ATAAGACGTGTAGGAGCAAAACTCATAAGAGACTCCCTGGAGGTGTGTTTCTCAAGAAAAATATGTCTATAATAATCTATTTGCAATGCATAGCAACTCA
GAAAAACAGAGACTGCCTATGTTCTATTTCAGAAAAAAAGCAAAACTTCAATAGACGTTGAAGTTGCTTATCTGTAACATCCAAGAATAGGACGCTGGTT
AGGTCAAAATGTGAGCTGAATCTCCTTAAATTATGTGGCTAGCTTAGATCTCAGAAGATAAATAATGAATAGGCACTTCTTAATAACTTCTAACAACAAA
CAAGTTGAGATCATGATATTTCTTTAGGCTGCAAAGTAGAGGAATCTATCAGAACAAATCCAATAGGAAGGATTTGGAGAGCTGGAGTTATCCAGGGTTT
AGTAAAAAAATTACTTCTGTGCTGACTGCATTGTGGCTTTGCTGCTACCAGGGACTCTGCAAATAAAAGAAAATATGCTTTGTTTAAATATTTGCAGTAT
CTCTTTAAATGTAGGTTTGGAGCTTCTAAAAATTTATCTTGAATAGCAGTTCAGTTTCATTTGAGGTTACAGTAGCTTTGGAAGGGGAAGTGAACAGCTT
TTTTTTGTTGTTGTTTATTTTTCCTTCCTGATGCATTGCATTAGGATAAATTTATGTTGTGGCAACCTCAGCATTCTTTATTCTGTACTTTTTGTACTTT
TTAGTTTGTCATCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAAAGTCTTGCTCTGTTGCCCAGGCTGGAGTACAATGGCACGCTCTTGGCT
CACTGCAACCTCCACCTTCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGCTATGTGCCACCACACCCAGCTAATTTTTG
TATTTTTAGTAGAGATGGGGTTTCACCAGTTTGGCCAGGCTGTTCTCAAACTCCTGGCCTCAAGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGAT
TATAGGCATGAGCCACTGCGCCCAGCAGTTTGGCATCTTTATAAGAATAATAAATAATTATTTTTAAGGATTCTGATTTTTATCTTAATAAACAATGAAA
TACTTCTCTCTCCTTTCTCTAATTTCCCTTCTCAAAACCTTGTGGGGACTCATTCTAGGGAGACAGTCCTTTTATACCCCAGAGACTTTCTTGCAAATCA
GTTTCCTTGTCTGGTAGTCATTCTTACTAGTTTTGTGTGCATTCTTCTGGAGACAGTTCTTTAATATGTAAGTACTTATAGTTTTATTTATTGACCTATT
TCATAGAAAAGGTAGCATACTGTACATGTCATCCTGCAACTTGCTTTTCTCACTTATACCTTAGAGATCTGTTCAGATCAGTACTAAAAACTTTTCTCAT
TCCTTTTTTAAATTTTTATTTATTTATTTATTTTTTTAAAGACAGTCTGTTGCTCTGTTGCCTAGGCTGGTGTGCAGTGGCATGATCATAGCTCACTATT
GCCTTAAATATCTGGGCTTAAGCAATCCTCCTGCCTCAGGCTCCTGAGTAGCTAGATGTGTGCCACCTGGCTAAATTTTGATTTTTTTTTTTGTTTTTGT
AGAGATGGGGGTCTTGTTGTATTGCACAGGGTGGTCTTGAGCTCCTGGCCTCAAATGATCCTCCTGCAGTGGCCTCCCAAAGTGCTGAGATTACAGGCAT
AAGCCACCATGCCTGGTCTTTTTCTTATTCTTTTAATAGCTGCATTTTAATGGCTACATAGTAACCTACTTCATAGGGGTGCCATAATTATTGTAAAATT
TTGCAGTCCTTTTCATTATAAACATTTCTTCATTGAATAACTTGGTACTTATTTCATTTTGTTCATATACAAATATATCTATGGGAGAAATTTTATTTTA
TTTTTATTATACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATATATGTGCCATGTTGGTGTGTTGCACCCATTAACTCG
TGATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCACCTCCCCCAACCCCACGACAGGCCCTGGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGT
TCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGTGTGTTCGGTTTTTTGTCCTTGTGGTAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATG
TCCCTACAAAGGACATGAACTTATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTTTTAATCCAGTCTGTCATTCATGGACA
TTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAATAAACATAAGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTAT
ATACCCAGTAATGGGATGGTTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATTGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACAGT
CCTACTAACAGTGTAAAAGTGTTCCTGTTTCACTACTTTGTAATGATTGCCTGTTTCCTGACTTTGTAATGATTGCCATTCTAACTGGTGTGAGATGGTA
TCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGT
CTGTTCATATCTTTCGCCCACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTGAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAG
ATTGCAAAAATTTTGTGGGAGAAATTTTTAGAATTGGATTTGCTGGGCCAGAAGGTATGTACTTGTTCAGTTTTGATAGGTTTTACCAAATGGTCCTCCA
TTGAGGTAGTTCTAATTGAGAAGTCAGTCACAGGGCTTAATGGAGTCCTTGGGTGGGTTTCAGTGTTTCCATAATCAGCATCCTATATTAGTCAGTTCTC
ACACTTCTATAAAGAAATACCTGAAACTGAGTGATTTATAAAGAAAAGAGGTTTAATTGTCTCATGGTTCTGCAGGCTGTACAGGAAACATGGCTGGGGA
AGCCTCAGGAAACTTACAATCATGACTGTGGGTGAGGGGGAAGCTGGCACATCTTACATGGCTAGAGCAGGAGAAAGAGAGAAAAGAGGGAAGTGCTACA
CACTTTTAAACAACCAGATCTTATGAGAACTTACTATCATGAGAACAGCAAGGTGGAAATCTGCCTCCATGATCGAATCACCTTTCACCAGGCTCCTCCC
CCAACATTGGGGATTACAATTCGACATGAGATTTGGGTAGAGACACAAATCTAGATCATATCACACCCCTTTACCCCACCTCACCTCATCCCTCATATAG
TTGTTAGCAATGTGCAAGTGCATTTGTCTGGGGAGTCCATAAGCTCTTTTGTTGTCTTTTTTTTTTTAACAGCTTCATTGAGATAAAATGCACATTACAT
AAGGATCACCCTTTTGAACTGTACAATTTAGTGGTACCATCACTGCTGTCTAATTCCAGAATATTTTTGTCACCCTAAAAAGAAAACCCCATAGTCATTA
GCCATAGTCTTTCCTCATTTCTCACTCCCTGCAGCCCCTGGTAGCCATTTAATCTGTTTTCTGTGTGGAGTTGTCCCAGACATTTCATATGAGTGGAATC
ATACACTATGTGCCCTTTTGTGTATGGCGTCTTTCACTTACCATATTTTTTTCAAGCTTCAGCCATGTTGAAGCATGTGTCAGTGTTTATTCTTTTTTAT
GACTGAATAATATTCTATTATATGGATATACCACATTTTTGATAATCCATTCATCAGTTGGTAGACATTTGGCTTGTCTCCACTTTTTGTCTGTTATGAG
TAATGCCACTTTGAACACTCATGTACATTTTCACAGTCTTTTAAGAACGATTTTTAATATATAGAGTATAAATCAGTGAGAAAAATGCAAATTAATTCAA
CCATCAATGGACAATATATACGAATAGATAATTCACRAAGAAGAGTGGTAAATTTTAAAAATGAAAGTATCAATGGCTGTGTATTCCTGAAGGGATATTC
CCTCTGAAAGATTACTATTTTATAACTATGTGAAAGAATATTAATTGTTAGCAGGAGAGATCTTGTGGCTGGTTACAGGTAGTTCGAGAATGATATTCAA
GAATTTAAAGTGTTATGGTTAGACTTTTCTGTGGCTCTTACCTCCCTTGAGTATGAGWTCTAAAGGAAAATGTCTTATGGCTTCTTATAACTTCCCAGTG
TGTATACACTGCGGTTGTGTGTGTGTGCTGACACATGTTAAACTTTGGTTATTGTATGGGTACACATGTTAAACTTTATATTTAGTTATAATTTTAAATT
TCAAAAAGTACAAAAACAAAAAATAGTACAGAGAACACCCAGGTATTCTTCAGCCAGATTCACCTGTTGTTAACATTTTACCCAATTTGCTTGCTTATTC
TTTATCTACCTACCTACCCATCCATCCATCCATCCACTATCCATCCATCCATCCATCCATCCACTATCCATCCATCCATCCACCCACCCATCCACCCACC
ATCCAACCATCCATCCATCCATCCATCCATCCATCCATATACACACACAATTTTTTTCCTGAACTATTTTAGGGTAAGTTACATACCTCACAGTATTTTA
CCCCTAATTTTTTCAGTGTGCATTTTCTAAGACTAGGTACATTCTTTTATTAACTTCAATAATTTACATTAATAAAATAGTTCAATCACCTGTCAATATT
ACAATTCTGTCAGTCGACCAAATATTTACTGGATTTTCACAAAGTCTTTGTGAAGGGGACATTATTTATTCCCATTTTACTACTGAAGGAATCAACTAGC
TAAGTGATTCAACAAATGTCATATTGCTAAGATGGCTAATATTAATAAAGTACTATGTGCCAGGCACTTTTCTAAGTGCATAACTTGTAAATACTCTCTT
TAAATCTTATAACAGCTCTTTGAAATGAATCAGGGCCCTGAGGAATACAGAGTAAGGAACAGACAGAGTGCTCAGAGGAATGTTAAGTTTTAGGCTCTTT
TTCTGCTTCTTTAGTGATTAAATAACATTTCATGCTTTGTGTGTGTGTGTGTGTGTGTGTTTTAATTTTAAAACTTAAAATCTGAAAATGGGAGCTGGAA
TGGGAGCAGGTATTTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGG
GATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGG
CTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAG
TGCTGGGATCACAGGCGTGAGCCACCGCGCCCGGCCAGGAGCAGGTATTTTCAATATTGCTTTAGTTGCATGGTATATCAGAGCAGCTGTGAGGTACATT
GTTGATGGAAGTAATAATTTTGCCTCCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCACATAATTTTCCTGAAAGCCATATTTGTATGGTACAT
TATAGCTTACAGAGAACCTTCATGTCTGTTACACAGTTGATTCTCACCCCAATCATTTGACCACTTATAATTGAGTTAGGATTCAAGCCTAGCTCAATTA
TAACTGGTCTTCTCCTAATCCAGTGGTGTCATCATTACTCTGTGCTCCATTAATAGAGCCTTTACTTTCAAGGTAGTCCTGATGCAGCTCAGACTTTAAA
TTACCCACGTCCTTTGCTTACAACTTTATGGGAAAAGAAAAAAGAAAAAAAAAGAACAAATTACCCAAGTCTCGAAACTTGCTGATACCTTTTTTCTCCC
TTTACAAATGTTTTTTCTTAATTTATAAAAATTAAGATAGTTTTAAGATTTAATTTTTAAAAATTAAGGTAGCAGATAGTTTTAAGTCATGAGGGACAAA
GGTTTAGAAAGATTGACCTTATTTGAATAATTTGGTGGTATCAAATGAAACCTGTAGCAAAAATAATCAGATCCATATTTCATTATATAGTAGTCATTAT
TGTGCTATGTCGTTGTGCCAATTAAATTAAGTGTATCTATTTAGCATCAGCCCCAGAATTATTTTGTTTTTGGATTGGATGAGACCTTTAGAGGACTAAT
GAAGTGGCTTTAAACTTTTTTGTACACAGTCCACAGTAAGAAATGTATTTAACCTCTCTTTYTCTCTTATACTCAATCTCATGAAACAACTCTTACTAAA
TATAATGCACCCTTTTTCTTTTATTCTGTCCTGTGCTTTTCTGTCAAATTGTTTTTGAAGGCTGTGGTGATTTACTAAATTGATAAACCTGATATTGGGT
TATAATAATGTCATAAGCACTATTCTGGTCTAACTCTCTCTTTTTACTAATATGTAAATACACCCTACAAGGTGAYGTGATTTATTTTTATTTTTATTTT
TAGATTTTCCAATTAATTCATTGCAATGCTGGGCCAAGAATTAAGGACTCCTAACTTCCAATTTTGTATTTTCATTTAATGACTTAAATTACTATTACTT
TTATTTAGTTGCATCAAGTATTTCTTTTCTTTCTTTTTTTTTTTTTGAGATGGAGTTTCACTTTTGTTGCCCAGGCTGGAGTGCAATGGTGTGATCTCGG
CTCACCACAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCACCACCACTCCCAGCTAATTTT
TTTGTATTTTTAGTAGAGATGGGTTTTTTCCATGTTGAGGCTGGTCTCGAACTCCTGACCTCAGGTGRTCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGA
TTACAGGCGTGAGCCACCGCGCCCGGCCTCCATCAAGTATTTCTGAAGACACGTGAAGCAGTGGAGTCATTAACTGAAATAACAGGAAACCATTTTGAGG
CTCCTTTGAAGATCCCTGTGTTCAGGACTTGGGTCCCTCTATTCTTCAAGAGGCTGTGCCCATGGTGTGGCTTTGCTGAGAGCATCTGGTGCATACTTCT
GCTTTTACCTCTCTTTTGGTTGTTCTTTATCTTCATTCAGAAGATGAGATTGGTAGGGTTTCCCCATCCTATAACCTAGCAGGGACTTTGTCTATTATCT
GTTCTCATTCTGGAAACTATACTACATATCAGAAGGCATTCTTCATTTTAAAAAATAGAAGGAAATAGTTTGCAGGATGAAGATTATTTCCTTGATAATC
TGCCAAATAAATGGTTCAGGTTGCCAGTATGAAGCTTCTTTAATTTTTGGCAAATGGGAGCTGGTTATATGCATACATACACACAAAACTTAATAGAAAG
AGTAAAATAAAATTTTGACTGTCATGAGATTGAGAAGAGTAGAGATAGTGAAAGTCTAAATTTTCTCTTTTTTTCTGCTTTAAACAATTTAATGAGAAAA
ATAAGTGTACGTAAGATTCTTAACAAAAATCAAATTAAGTTTTTTAATGTATTTGAATATTTAAAGTAGGATTGCCACAAATTAAATTTGCCAATGATTT
TAACTATGTGTGTTTTTTAAGAATGTATCTATAAATATGTTTACTGCAATACATATGCAATAATGTATGTTATGTAATTTTTATTTAATTGAAAGATTGT
ATTTTTATTTTTGGTCAGTTACAGTGAAGAGGTTAATCAGTAATGGCTTCCACTTTATCTATCAGTTTAGAGGGCAAGATTCAGCCAAATGAGAATAAGA
ACTGTTAGAAAGATGTGCAGCAAGTCAATGATTACCATGTGATTCATCCATAGGTTATCAATACTTGATCTGACTTGAGTTTACATGAGATATTCGAATG
TATTTCTTAGCATAAAAATCCCATTTTAATTTTTTTTTTTTTTTTTTTTTTTTTGAGATAGGCTCTTACTCTGTCACCCAGGCTGGAGAACAGTGATGCG
ATCATGGCTCACTGCAGCCTCAACCTCCTGAGCTCAAGTGATCCTCCTGCCTCAGCCTCTAGGGTAGCTAGGACTACAATTGTGCACCACGATGCCCAGC
TAATTTTTTAATTTTAGCAGAGACGAGGTCTTCCTATGTTTCCCAGGCTGTTCTCAAACTCCTGGCCTCAAGCGTTCCTCCTGCCTCGACCTACCAAAGT
GTTGGGATTACAGGTGTGAGCCACCACTACTGGCTCCTATCTAGTATTATATCTAATTTAATTTATGGTCATTGAGCTCATTTCTTAGCAACATCACAGA
AACAAGGCTTTAGTCAATTTTATTAATAAAAAGAGACTATAATAACTTACAGTGTTTATCAATCAATAAGGTTTTTAGTTTTAAAAACCTTATTGATTGA
TAATTAAATTGATAATTAAATTAAAACAAGCTGGGCCAGCACTTTGAGAGGCTGAAGCAGGAGGATTGTTTGAGCCCAGGAGTTCAAGACCAGCCTGGGC
AACATAGAGAGATCCTATCTCTACAAAAAAATAAACTAGCCAGGCACGGTAGCATGCACCTGTAGTCCCAGCTACTGRGGAGCCTGAGGCTGGAGGATCT
GTTGAACCTGTGAGGTTGAGGCTGCAGTAAGCTGCAATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGATTCTTTCTCAAAAAATTAAATTAAA
TTAAACTAAAAACAAAATGTGGACGTACTTGAAACTTTGACTCTTACATTGATTCAACCTTCAAAGGAACTTGTCCATTTGTGAAAGTTTTCCTTTTATA
TAAGTCTTTCTTACAGTCAAATAAGTGTTTACTAAGTGAAATACTACATTTTATAGTGCAGTGGCACTCAAAGGAAACTATTTTGCAGCTGTAGAGTTTT
TTCTTTTGTCCTTTTTACTTTTTCCAAGGCAAGATGCCTGGTGGGAGAGTTGTCTGGAGGCAGGATGATCAGAAGCAGGACCTGGCCAGCTGTTCGCTTA
TTTCAGTCTGTATGAAATCATCTGATATGCCCATAAGAGAGATGTGTCAATTGGCTAATGGGTCAGAGTATTGATTTTATGTTTTCAGATTGCTGACAGA
GAGATTAGGCTTCCAGATACAAGCAGTTCCACAAGTCTCTGTTTTCAGACAGGCACATAATTAAAGTAACCACACAGTTCTCTGAGGTTAGAGTTCCATG
CTGTGATGCAAGCCTCTCTATTTGGTATTTAAAAGCAGTTTGAAGCTGTTGTGTAAGTATCACTGRACTTGGAGTCAACTGACCTAAGTTCTAGCCTTGG
CCCTTCTACTGTCTTAACAGTGGATTAAATGATGAGGCTTATTTTAAAGAATCTTGAAAACTATAGTAATTTCAACAAGAGGAGATTAATTGAATATATT
ATGAAACATCAAGATAATTGAAAATCTGTGCTGCCATTATTGCATGTCAAAGGTCATTTTGATACACTGTATGTGCAAAAGCAGTTTACCAAACAGAATT
ACATACAGTGTAATCCTTTTTTTCTTATATAGGAAAATACCCACTTCCYCCCACTTAAAAAAATACCAAACACCACAATGTGTGTATGTTTAGCCTACAA
ATCATATTTTTTTTGCCTAGGAAGTATTGAATAATTTAAATATTTTATATTCAGATAGCTAAAGATGGCTTGCTGAGATAAAACATTGGAGCCCTGTGTT
TGGTGATAGCCGTGGGTTTCATTTATTTTTACTGTCTTTATCCTCTGTATTTATTGATAGTATTGAATATTTATTTTCAGAACTATTATAGTGTATCTGT
TTCTATGGGAAGAAATGAATATTTGACCACAGATGGTTTTCATTTTTTTAGTATGGGGCACGTGGATTGACAGCCTTTGAAACTTGAATGCTGTGTAATA
TTCAGGTGCTTTTATTGTTTATAGAAATGCCTAATCCTTGTTTGAAATTTATTAAATGGTATGCCATCTGTAAGCCCCTCTAAATTCCACAGATTAATTA
GCCTTTAAAGTAAGGTTGCCTTTTGTCTAACTTTTAGTATAAACTCTTCCATCTGGGAACTTTCACTTTTATGTCCCTGTTCAGTGTTCTGTGTACTTCA
GCACTCTAGTATTAATTATGGACACTGGCATTCTAAGTAACATGAAGAACACTAAAAATAAAAGTAGACTGAACAAAGTGGCAATGTCCGGAGAATAGTT
TGCATTTGGTGAATAATCAATCCATCATGGCTTTGCCATTGCTCTTTGTATGTGCGTGCGTGTGTGTGTGTGTGAGTGTGTGTGCATGTGCGTGTTTAGC
ATTACTTAAGAGTGAGATAGTTATTCTTCAGGGAAATTTTTACAGATGATGGTTTCACAAAAATCAGCCTTTTTGTAGTTTAAATAAAAAAACACCCTTT
TTGACATTTCATGTAACATTTCCTTGTGGGTTCTGATTTAAAGGTTGTTGAAAATATTTGGTGTTGGCAGATCACTTGGTTGGCTTTGGCATACTTCTCT
TTCTAGGAAATGTAGTATCAGGGTGGGAATTGTGTTGTTGTTTTAAAAGAAATAGATTACAGGCTGGCACGGTGGCTCACACTTGTAATCCCAGCACTTT
GGGAGGCCGAGGCGGGCGGATCAGGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACCAAAAATACACAAACAAAATTAG
CCAGGCGTGGTGGTGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGAGGGAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGCGGGCCGAGATC
TCCCCACCGTACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAGGAAATAGATTACATTCTTTAACTTTATTTACTGGTCT
CAGTAAGAGTTATTGAACACTCTAGAGTGTTTACTTTTTAAAGTCCATTGCAAAATATATAGAAATTAGTAATTCAACCATCTGTGTACTCATACTAATC
AATGTAATATAGGTTGGCGCTTTTTATGCACTTAATTTTGCCACCTCTCTCACTTCCCCAAAGAAATTAGWCTAATGTATAACAATAGGCTTCATAACTT
AATTTAGAAAACATAACAAAAATAATTTCGCTCAGTAAGTTTCTGTTGTAGTAGATATTGTTGGTATTAAACAAAAAAGTAGGATCAGATGTGGTTTGGC
TTTCAAGGTATAAAATCTAGGTGGGGAAAGAGAGAGAGAGTTAACATTCTTGAAACAATTGAGAGCATTAGAGTGTTCCAGTATATCCTCCAAATTCTAA
GGKTATAAGATGTTCAGAGAAAATAAAAAATCAGGGTGGGTTAGAATAATTGAGTTCAAATGGACCTTGGAATTAGGTTAGTGGAGGAGATAGCATTCCA
AATGGAAATAAACAATGCGAATAAGGAAACATGTTAGACATGTATGGAGATTATGAAGTAGCCTTAAATGATAAGATTGGAGGAGTGTGGCTTGAATAGC
TGTAGATTTAGGGCAGAAGGTCTGGTTAGGCCGTGGGAGGTCACAATATGGAAGACCTTAAAAGAAAAGATGGGTAGCAGGGATACATGACTAGCTTGTT
TTTGCAATTGAGTAGTAAGATAAAAATATTTTCTTAGGAGAAGTTATCTTAGAAATGGTGGACAGGATGAGATGGAACACAATTGAAATAGGAGTCTGTT
GCAGTAGTATAGGGATGAGTTAATGAGTGCCTGTATTAGGAGAGTGGAAGAGGGAATAGAGAGAAAGTAATTACTGAGACACATTTTCACTGGAATAAAT
TTGGTCATTAGTATATACTTTTAACATATTCAATGAGTGAATGAGGGATTGAGAAGGACTGAATATAGTGAATAAAGTAAAATAATAGTTACTATTGATA
GAAAATGGATAGATTTTTAAACAATCTAGTTAGAGGGAGATAGTTCAGTTTGCACATAATGAATTTGAAGTGGTAATAACTGTAAGAAGTGGCCTTATAA
TTAATTGAATATATGGTTCTGGGGCATAGCCATTTAAGGGCCAGAGATACAGATTTAAGATGTATGTATATATGCATATATATTTAAAGATACTTTCTGA
GGGAGTTTCTAAGGGGAAAATTGGAAGATTAATAAACGAGCCTTARAAAACATAAGAAGAAATTATTTAACATTTGGGTTTTAGAAGGCCTTATTTAATC
ATTTGATTTTAACTTATTTAGTTTGAGCAGTGTGTTTTCAAACCTCTTTTGAAACAACTAGTAACCTATGCTTTGAAAAAATTGTTGGTTAAAATAATTG
TAAAAATGAGTATATTCTGATCTATTTTGATCTGATTTTAAAACCAGGGTATTCTGATTCATTATAACTTTTTCTAGATTGCTGTGCTAAGGAGACAGCA
ACGTATGATAAAAAATCGAGAATCCGCTTGTCAGTCTCGCAAGAAGAAGAAAGAATATATGCTAGGGTTAGAGGCGAGATTAAAGGCTGCCCTCTCASAA
AACGAGCAACTGAAGAAAGAAAATGGAACACTGAAGCGGCAGCTGGATGAAGTTGTGTCAGAGGTAAGTGTTAGTAATASGGCTGAGTCGAGATGGGCTA
AAGTATYCTCTGGATTAATAAATAGAGAAACTTTTACATTTTAAATTAAATTATGTAAAATAATAGTGCTAGGAAAAGGAGGGTATAATAAGTCCTAAAA
CATTTGCAGTAAGGATAAAGCATTTGAAGGGGACCCTTTGAATTGTACTCCCCAATCTACATAGAAAAGTTGTCTCCTTTTCCTAGGTTTCKCCTCATTC
ATTGCCTTAGCACCCTCTTTTCTGGCTAAGTGAATCACACTGAGGCTTCTAAAGTGCCCTGCCATATTTTCCCTTTTAAAAAAGAAAACAATATAAAAGT
GTTTTTATTTTTTCTCAGTCCACCTAACAACTAATGTGATTTTTGCATTCTGTTACTATGCTGACTCCAAGAGGTTTTAATCTCCTCAGTTCTATTCGGG
AAATTTGCTGTTTTCAGAATTTCTCACTGCAGTGCTGAACCATATAGATGCCTACTGAATGGGGCTTCTTACACTCTTTTTCTCTTGGCCCTGAGTACAT
GGGAATACTCCTATATTTTACTGAAAACAATGATTTAAAAGGTTAGGGAGGCAAACTATAGAAGTGACTCAAAATTCTTTGGGGATCCGTAAAAATATAA
AAAATGTTGAATTCTGGYCGGGCGTGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGACGCTGAGGCAGGCGGATCACAAGGTCAGGAGATCAAGACCA
TCCTGGCCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAGTTAGCTGGGTGTAGTGCACACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAG
CAGAATCGCTTGAACCTGGGAGGCGGAGATTGCGGTGATCCGAGATGATGCCACTGCACTCCAGCTTGGCGACAAAGTGACACTCCGTCTCAAAAAAAYA
TATATACATATATATATTGAATTCTTTCCTCTTGGGTGAAGAGGCAACTGCAATGGAGTGGCTGCTGTGTTTTTTTCTCTTCTGCTTCTCTCCTTTTCTC
TCCCTGCTGGAAAAGGGAACCTGGAAGTCTCTGCTCTAGTCTTGAAAAGTGTTATTTCCTCACCTTTGATTTTTTTTTTTTTTTTAAATAAGACAAGGTA
TTTGTAAGACAAGAGATTTACGTAACCGGTAAAGAGGAAAATTCTAATCTTAAGCGTTGCTTTTTCTGAAATCGATGTTAGTTTAATTGTATTTAATGTG
GTCATTTCCTTTAGAACCAGAGGCTTAAAGTCCCTAGTCCAAAGCGAAGAGTTGTCTGTGTGATGATAGTATTGGCATTTATAATACTGAACTATGGACC
TATGAGGTAAGTGAATAGATATTTATTTTGGACACTAATGCTAAAAACTTAAATTCTCATTATTCTTTAGCTTTTGTCATAAACTAGAGAAAAAATGATT
TGTTTTTCAAGATGTGTAAAGAGTAATGAGACAGGAGCCATGCCTTCAAAGATCTCATGATCCAGCTGGGAGGAGAGACAAGTAGAAGGATGACTATGGT
ATAATGTGATGAACATAATAATAACAGTGTGAATGAGTCCTAACATAATATAGAGTACGAGTTCCTTGAGGTGAAGGTTCTTGTCGTATTGATGGGTACT
CGATACATTTTTTGTTGAGTGACTGAGTTATAAGGGAGATACCTACGAAGGAAGCTGAACATTGAACTGTAATATCAGTTTGCCATGTGCAAAGTATGAG
AAAGGCATGCCAGGCAAAGGGAACAGCATGTTTAAAGGCACAGTTATGAAATGGCATGACATGTTCATAAAAAAGTGAAAAGTTCAGTGTATCTTGTATA
TGTGGGGAGTGTGCYTGAGGCTAGATATATGGTTAGAAGTATAGGTGCTGCTGTGTACAATGAGGCATCCCTAGCTTTTAGGTGGAGGGTAACATAATCA
GCTTTGCATATTAGGAAGAGGACTTTGTGTGTTGTATTGAGTATAGACTGCAGTGAGGAGAAACTATTGGCAGAGAAAGCATTAGAAGACTATTGAGGTG
TTTCAGGTAATAAATGAGAGTCTGAACTTACACTATGGTTATAAAAAGGATGAGCAATCTTAGGGTACCTCTCTGATGTAGMTTTTGTGGGATTTGTTAA
CTGGTATAATGTGGGACATGAGGAAGAAAAGAGGGAAGTTAAGGATAATTCAAAAATTTCTACCTTGAGGGACCGAATGGTGGTGCTGTCATCGGAGGAA
GCAAACATAGACAGATGGATAGTTTTATGAAGAAAGACAATAGTTTTTATTTTAAGTATAGGAAGTTTGTGGCACTGACTAGATATTGAGAATTAACATT
ATAGATAGGTAGGTAGACTGACAGACAGATAATGTTAGTGGTGTAGATGAGATTATCCAAGGAGAACAAGTAGAGGAAGGAAAGTAACAAGAATCTGGGG
GACACCAGTATGAATAGTAGATAGCCTTGGGAAAAGAAACTCACAGCATATTAGGGGCAGAACTGAAAGAAAGTAGCTTTTTGAAGCCAAAGTAAAAAGA
GCTTCAAGCAGGTCTTGGGCAGTGGTATCACATGCTGCTGAGAGCTTGGGAGAYGYAGAAAGCTGAATTTGGCAATTATCAGGTCAGTTGTAATCTTGGA
AAGCAGATTTAGTAGGGGTAGGCATGAAGTCTGTATTAAAATTGGTTGAGAAATTGAAAGGAGTTAAAATTGAATAATCTCTTTTTTAAAAAAAAACATT
TTTTATGAAGATTTTCAAACATATAGGAAATTTGAGAAAATAATATGATCAACCCCTTGCTCTCATGAAATTTATAATCTAATATAGGTGACATATACTA
ATCAAAATGATCACACAAATAAATGCAAAATTGTAACAATGTTAGGTGCCATGAAGGAAAGGTACATGATATCATGAGGCCACATAATAGGGTCACTTGA
CCTAGTTAGGGAAGTAAGGCAAGGTTTCTCTGAGAAAGAGGTGATTGTGTTAACATCTAAAAGAAGATTAGGAATTATTTAGGTAAGATACAGGAAGAAC
ATTTCATATAGAATATATAAACATCTATTCCCACATTTGTGTTGTGTCTTTGTGTTTATATGTATTTAGTTTAAAAATTTTGGTTTTACATGAAACAATT
ATATACAAATTGTGCTTTCTTTAAAATATGTGAATACATTATTCTCTTTTAATACTACATAGTTTTTTGTAGTGTAAATGTGCCATAATTTAGCAATTCT
CTTTAGGTCTTGGGAACCCCTTTGTACCCTTAAAAGTTACCAAGGATCCCAAATAATTTTTGATTTTGTGGTTTATATATACTGATATTTATTATATGAG
AAATTAAAACTTTAAAAATAAAAAATTTTTAATTCATTTAAAAATAATAAACCGTAAACCATTACTTTACATGTTAACATAAATAACATGTTAATGAAGA
ATAATTATATCTCCCAAACCTCCAAAAATTTAGTGAGATACAGAAGAGTGGTACTACTTTATAGTTTTGTAAAAATATTTTTTTTGGGGGGAAGCTCAAA
TACATCAGTTTTAGTTTTTCTCTATATACACATTTATTTGCTACTAAAAATTGAAATAGCATATTGAAATTTCCTTTTGTTGCAATCCAAAATTTTGAAA
ACCAGAAAACCAAATTAATTATTATTATGCTGTGGCCAGACTACTCAGTATTTTCTTTACATTCTTTCCTCCAAGTTACTTTCCTTCAAATTCTTAATGT
TGGGTTTTATCTCACTGACTTCAGGCTTCTAAAACACATGGGGATACTTGAGACCTATTGTTGCTTCTTTAGGTCAAATCAATAGTTTCATAAAAATCTT
TGATGTCCGACTTAACAGGATCTGGCAGGATTATCTGTTTTTTCATGTAATCTGTTATGATATATTGTTTGGGTTGAAATAAATGAAGAAAATTTAGACT
CACATCGGTATGCAGTTGGAAAAGGGAGAACTTTGCAGACTTTGAAAGACTTTTAGGATCCCCAGARTTCCTTGGACTGCTTAAAACCCCAGTGCACACT
TGCCCAACTGCTGCCGTAATTTATTTAACCATCTTTTGATAGGCAGCTAGGGTATTTCCAGTTACTTGTTGATATGTGTACATAAAATGTATTTCCATAT
ATTTATGTGTCTGTATGTGTATGATAGAATCTAGACTAGAGCTAGAGGTTACGATTATCTGAAATTGTGATAGAGTTTGCCAAATTGCCTTCCAAAAAGA
CTGTATCCGTTTACATTCCCACTAGCAGGAGAGAGGAGTATCCATTTTCTCGCATTTCCTAACACTGGATATTGTATTTTTAAAATTCTTGCCTATCTTG
TGGATCAAAAATGTTATTGTTAGCCTGTCACATTGGCCTGTGTGCTCTTCCTCAAACACTCTAAGCCTGCTAGCACTTCATGGTCTTCACTTTCATTCCC
ACTGCCGGCAGTGCCCTTCCCTCAGAGATTCTTTCTGTCAGGTGTTAAGCTCAAATACCATGTACCCCTGAGCTTCAAATAAAAGTTTTAAAAAAGTGAT
TAAAAAACATCAAGTTTTTTTGGTCAAAATTAAAAAAAAAAAAAAAAGCTCAAATGCCACCCCTGTGAGGCTTTCCTGGACTACCTTTTCTAAATGTCTA
TCCCAGCTCCTGCCATTGCATTCCCTATCGCCTTTCTTTCTTCATTTTTCTACATAGCACCTCTCCCCTTCAAGTATGCTATGTAACTTAYTTATTTTCT
TTCTCTCCCTGGAGGTATTTTTATCTCTTTTGTTTTCCAGTGCTTAGAACAGTGGCTGGCACATAGTAGTTACTCAATAAATACTTGTAGTATGAATGAA
TGTCTCCCTCACCCAATTAGTAGGAATTATATATGTTCATAAACTATTTCTCAAAAAACTGTGTGTTCTTTTAGTTCCTCATTTCTTATCTGGTATACGT
GGTACTTATTTATTTAGTCAGACATACAGCAAATATTTATAGAGCACTTAATGTTTGCCAGGTACTGAGCAAGGAATCAAGGATGCAAATATGAATAAAA
GTACAGTCTAGTAAGAGAATCAGATATGTAAACAACTGTTGTATGAGAAAGAATTATATGGATGTCATATAAACATATAGGCATTAAAAAAATGAAAAAC
TTTTTGTTTACACACTTCTGACACCAGATATGTGGATTTTCTACACTGAGCAATTCTCCAATTCTCTGGACACCAACTGGATGTCCTACAATTTGACTCA
ATTCTTTTTTAAATTTTAATTGTAAAATATTTTTTATTGAGACAGGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCGTAGCTCACTGCA
GCCTCCATCTTCCAGGCTTAAGCAATCCCCCGATCCTCAGTCTCCTAAGTAGCTGGGACTACAGGTGCACCTCACCACACCTGGCAAAGTTGCTCAGGCT
GGTCTTGAACTCCTAAGTTCAAATGATTCTCCTTCCTTGGCCTTCCGAAGTGCTGGGATTACAGGTGTGAGCCATTATATCTGGCCAATTTAAGTCATTT
CTGACACTACCTGGAGCTAGCACAGGCTCCCACAGGTTAAGGGCTGAGTATCCAAAGACTGCCCCTGACTTCAGTCACCAGTTGCAAGTCCCAGGTTGTG
ACCTGTAACTTCTGACTAAGTGGCTATAAGTTGAGGGTTCCCACAATTCCCTCTTGAGGTTTGATAATTTTCTAGAATGGCTCACAGAACTCAGGAAAAC
ACTCTATTTACTATTACTGGTTTTATTATAAAGGATATGTGGGGCAARCTAAATGGGAGAGACGCATAGGGTAAGGTATAGGGGAAGAGTGCAGAGCTTT
CATGCCCTCTCCAGGTGCACCACCCTCCTAGTACCTCCTTGTGTTTGCTAACCTGGAAGCTCTCCAAATTYCATTGTTAGGGGTTTTTATGGAGCTTCAT
TAGGTAGGTGTGATTGATTAAACCATTGGCCATTGGTGATTGCACTTAAACTCCAGCCCCCTCTCCCCTACTTGGAGGTTGAGGGATGGGACTGAAAATC
CCAACCCACTAATTATGTGGTTGGTTTCTCTGGCAATCAGCCTCCATCATCCAAGAGTCACCTCATTAGCATAAACTCAGGTCCAGCTGGAAGGGGCTTA
TTACGGATAACAAAAGATGCTCTTCTTACCCCCTATCACTCAGGAAATTCCAAGGGTTTTAGGAGCTCTGTGACAGGAACCAGAATAAAAACCAAATATA
TTATTTCTTATTATATCGCAAATTCACAGGCATATTCTTGAGGGAACATAGAAGTAACCAGTAACGCTGCTAGTGGCAATCATGGGAGGCTTTATGCAGT
AGTACTCGATGAAGGAATAAAGAGGATTAGATTATGCTACAGGAAGTGACAGTGGGGTTAGGGGGGACATCTCATTGTGGAAGCCCTCATGAATCAATAG
AATTTTAGGAAAGAAAAGACTGGAACAAAAAAAATTTTTTGAGTGCCCCCACCCACCAGACAAAAAATTTTTAAAAATGAATTAATGATCTTCACAGCTG
CTGAAGTAAAGGTGGGGATGGATCTCATTTCCATGGTAGATTGATTGATTATGAAAGGAAGAGATGATGGTCCCTATTTTATCAAGAAGTGGTTTGTGTT
CAAAAAGGAGTTAGTAGAAAGAGGGGATTAAAAATCGGAGAAAGCTTAAATATTTGAAAATCTTGAGGATCAATCAGTTAAGATCTGTATCTTTCTCTGT
GTGATGCTTTAGGAACAGCCAGCGAAGAAGTAGTGGGAATATTAGGAACTATTCAAGTTAAAAAAACATGTTAAAAGGCTTAACTTGAAGAAAAGCATCA
AGGAGAAAAGCTGGAAGGAATGAGGAAGTGTAGGAAAGTATCTTAACAAGTCAGAATATCTTTGACACCAACAAGGAAATATGGAGGAAACTGGCTGTGA
AATTTATAAAAACCAAGAACTATTTCTTGTAGACAAAATTTGGCATGAACAGTGAAATATTAAAGCCCAGAGAACAACAGTGATTTGAAAGACTGAAATT
TGTCCCTGAATCAAATGTTGGGAATTGAGATGTTTCATCATTTGTGTTATTCAAAAGAATTTTTTGATTGGCCCCATTTTTTTTTTTTTTTTTTTGAGAT
GGAGTCTCAGTCTGTTCCCCAGGCTGGAGTGCAGTGGTGYGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTC
CCGAGTAGCTGGGATTACAGGCACCTGCCACTATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGA
ACTCCTGACCTTGTGATCTGCCCACCTCAGCCTCCCAAAATGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCCTGTTTTCAGTCTTTTTACTGCAAG
GCTATGATCTTCTCTGGTCCGGGAGTCTGCCAGAGGAGCAGGAACTTCCCAGTTGAACCTTATTAGTAACCACCTGGAAGATATTTATTGAACAAGTGTC
ACATCTGTAGTCTTGTGTATCTAGAAACCTTAAGCATGCATTATTATGTTTTAATTGGAAAATGCATAGGCTTTAAAAAAAAAGATTGTGAGCTCTATCT
GAACTTTTGTTAAGTACCACAAAATTAAGTTTGTCAGACAAATAGACATTTGAATCAGAGATTTCCAAAGTATTTTAAATTTAGGAACCTAAACTCTTTT
AGARCAGATCACATTACCGAGTAAAGTGATTAATGTGGTTTCAGATGTTCAGCGTAGAACTGAATGTTTGTGCCTTATTGGTATGGGCCAAATGAAAAAA
AAAAAATAAAACACACAAGTTTGCCAAATATTGGTATGCCTTAAACATTTCCTGAAGGCATTTGGTGATGAAATATAAATATATCTAATGTATAAAGTAA
GAGAGTTTTGTCAAAGGTAATATGCAGCAAAGCTGACTAGTTTGAAGAGGTTTGGGTTACTGAATAGACGTCACACAGGAAAAAAAAATAAACTAAATGG
ACTTATAAGGGTTAATTTTTCTGACCTTATCGATATTTTGTGGATAGTAAAGAAGTCATCTAGCTATTTTTGGCATAGGATTCAAGGAGCTGGCCCACTC
TGGGTGGTCTATAAATAGTAACTCTAGGTAGCAGGGACTGGCTAAACAGGACAAATGTGAATTGGTTAAAAAGAAAATCCTCTTCTTATTACTCATTGGG
GTTAATTCTATGATTATTAGTCATATTTTATTGTTGAGAACCTGAAATTTAACCCAGGTTTTTTTTCTTTTTTTTAAATTATCACTACAGACTCTGCCTT
TTCTACTATGCTGTAAAGTGTTACTTTATTTTATTTTTTCTACCTTAAGGTTAAGGAACCTTAACCTTTTGTTTTTGGCAATATGGTAGGCTAAAGGTAC
AGGAAACTCATTGCAGTTTAGCACACTAAAAAATGATGGATTGAAAAAATAAATCAAAACTCTTATTTCCTGGCTCCACTGGAGACAAAGTAAGGGCTTC
TCAGAGGCCAGAAATAATAAAAGATAAGATGAGTCTATAATGATAAGCTAGCATTGGAAGTGGTGCTTGTTCTGGATATAGTTCCTGATCCTTGCGGCGT
AGTGTCTGGGGATGGGAAAGAAAGCTGTGGACCCAAGTGAGGTGGGAAGTCACAACTGAGGCCTCCCTTTTCCTCTACCCAAATAAAGCCAGAACTTCCA
AAGAATGACACTCTTGGTTGCCAAAAGAGGGGAACAAAAGTTGCCCTACCACTCAGGGAGACTGTTATTAAGTACCTATCTTGGTTTTGGCTTTAGTTAG
AGTGGAAACAAATGAAAAGTCTTTCCTGATAATTCTTTACTCAAAGCCCCTACCTAATCAGGTTAGAGCCTAAATTTATACTACTAGTGTGATCCCCCCA
AAATCAAGACAAAAATGCAGTTTAGGTGGGCTTATGTTGGTGGTGCCTGTAGGCACCTGAGGGAATTGAATGCAAATTCTTCTCAGAAGAGACACTTTAT
AAAAGAAAGTGTCCATCCTAGAAAAACTGGAGACCCATCTCATATGCAGAGACACACACAGGCTCAAAATAAAGGGATGGAGGAAGATCTACCAAGCAAA
TGGAAAACAAAAGGCAGGGGTTGCAATCCTAGTCTCTGATAAAACAGACTTTAAACCAGCAGAGATCAAAAGAGACAAAGAAGGCCATTACATAATGGTA
AGGGGATCAATTCAACAAGAAGAGCTAACTATCGTAAATATATATGCATCCAATGCGGGAGCACCCAGATTCATAAAGCAAGTCCTTAGAGACCTACAAA
GAGACTTAGACTCCCACACAATCATAATGGGAGACTTTTTTTTTTTTTTTTTTTTTTTTTGGTGAGACGGAGTCTAGCTTTGTTGCCCAGGCTGGAGTGC
AGTGGCGCGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCATGCATAATGGGAGACTTTAACACCCCACTGTCAACATTAGACAGATCAACGAGAC
AGAAAGTTAACAGGGATATCCAGGAATTGAACTCAGCTCTGCACCAAGCAGACCTAATATACATCTACAGAACTCTCCACCCCAAATCAACAGAATATAC
ATTCTTCTCAGCACCACATCGCACTTATTCCAAAATTGACCACATAGTTGGAAGTAAAGTAGACCAATATCCCTGATGAACATCGATGAAAAAATCCTCA
ATAAAATACTGGCAAACTGAATCYAGCAACATATCAAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAACATACA
CAAATCAATAAATGTAATCCAGCATATAAACAGAACCAAAGACAAAAACCACATRRTTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAG
CCCTTCATGCTAAAAACTCTCAATAAACTAGGTATTGATGGAACATATCTCAAAATAAAAGAGCTATTTATGACAAACCCACAGCCAATATCATACTGAA
TGGGCRAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGG
GCAATCAGGCAGGAGAAAGAAATAAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTTTGCAGATGACATGATTGTATATTTAGAAAACCCCATTA
TCTTAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCTTATACACCAATAG
CAGACAAACAGAGAGCCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACTTAGGAATCCAACTTAAAGGGATGTGAAGGACC
TCTTCAAGGACAACTACAAACCACTGCTCAATGAAATAAAAGAGGACACAAACAAATGGAAGAACATTCCATGCTCATGGATAGGAAGAATCAATATCST
GRAAATGGCCATACTGCCCAAGGTAATTTATAGATTCAATGCCATCTCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTGAAG
TTCATATGGAACCAAAAAAGAGCCTGCATCGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCATGCTACCTGACTTCAAACTATACTACA
AGGCTACAGTAACCAAAACAGCATGGTACTGGTACCAAAACAGAGATATAGACCAATGGAACAGAACAGAGCCCTCAGAAATAATACCACACGTCTACAA
CCATCTGATCTTTGACAAACCTGACAAAACCAAGCAATGGGGAAAGGATTCCCTAAGTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAG
CTGAAACTGGATCCGTTCCTTACACCTTATACAAAAATTAATTCAAGATGGATCAAAGACTTAAATGTTAGACCTAAAACCATAAAAACCCTACAAGAAA
ACCTAGGCAATACCATTCAGGACATAGGCAAGGGCAACGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATGGGATCT
AATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCGTCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCAATCTACTCGTCTGAC
AAAGGGCTGATATCCAGAATCTACAAAGAACTCAAACAAATTTACAAGAAAAAAACAACCCCATCAAAAAGTGGGTGAAGGATATGAACAGACACTTCTC
AAAAGAAGACATTTATGCAGCCAAAAGACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTC
ACACCAGTTAAAATGGCAGTCATTACAAAGTCAGGAAGCAACAGGTGCTGTAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTA
AATTAGTTCAAACATTGTGGAAGACAGTGTGGCAATTCCTCAAGGATCTAGAACTAGAAATGCCATTTGACCCAGCCATCCCATTACTGGGTATATACCC
AAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACATATGTTTATTGTGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCA
ACAATGATAGACTGGATTAAGAAAATGTGTCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGA
TGAATCTGGAAACCATCATTCTCAGCAAACTATCACAAGGACAAAAAACCAAACACCACATGTTCTCACTCATAGGTGGGAACTGAACAGTGAGAGCAGT
TGGATACAGGAGGGGGAACATCACACACTGGGGCCTGTGGTGGGGTCGGGGGAGGGGGGAGGGATAGCATTCAGAGATACACCTAATGTAAATGGCGAGT
TAATGGGTGCAGCACACCAATGTGGCACATATGTATATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAAAAAAAAAA
AAAGAAAGAAAAATTTCCAGAGATACAGAGCCAGTTGAACATGAGCACATGTCTGCTTCTTTCCCTCAAAAGTCATTAAACACACCAGGAAACCATACCA
CCATGAATAAGAGTTAGAAAAAATAAACTACAGAATCACACTCTGAAAGACTATAGATATTTGAATTATCAGATAGAGAATATAAAATATATTAAAAGAC
AGAATTAAAGTCTGGTAAAGGAACAAAAGACTACCAGAATTGGCCAGAACATTTTGAAAAAAAATCTGGAAATAAAAATTTAAGTTAAAATTATAAAAAC
AATGACCAGGTTAAGACAGCAAAATAGGTATACTTGGAATAGGAACAGCTCCAGTCTACAGCTCCCAGCGTGAGCAATGCAGAAGATGGGTGATTTCTGC
ATTTCCAACTGAGGTACAGGGTTCATCTCACTGGGGAGTGCCAGACAGTGGGTGCAGGACAGTGGGTGCAGCGCACCGTGCATGAGCTGAAGCAGGGTGA
GGCATTGCCTCACCCAGGAAGTGCAAGGGGTCAGGTAGTTCCCTTTCCTAGTCAAAGAAAGGGGTGACAGACGGCACCTGGAAAATCGGGTCACTACCAC
CCTAATACTGTGCTCTTCCAACGGGCTTAACAAACAGCACACGAGGAGATTATATCCAGCACCTGACTTGGAGGGTCCTACACCCACAGAGCCTCGCTCA
TTGCTAGCACAGCAGTCTGAGATCAAACTGCAAGGCGGCAGCGAGGCTGGGGGAGGGGCACCTGCCATTGCCCAGGCTTGAGCAGGTAAACAAAGCAGCT
GGGAAGCTTGAACTGGGTGGAGCCCACCACAGCTCAAGGAGGCCTTCCTGCCTCTGTAGGCTCCACCTCTAGGGGCAGGGCACAGACAAACAAAAGACAG
CAATAACCTCTGCAGACTTAAATGTCCCTGTCTGACAGCTTTGAAGAGAGTAGTGGTTCTCCCAGCATGCAGCTTGAGATCTGAGAACGGGCAGGCTGCC
TCCTCAAGTGGGTCCCTAACCCCCGAGCAGCCTAACTGGGAGGCACCCCCCAGTAGGGGCGGACTGACACCTCACACAGCTGGGTACTCCTCTGAGACAA
AACTTCCAGAGGAACGATCAGGCAGCAGCATTTGCAGTTCACCAATATCCGCTGTTCTGCAGCCACCGCTGCTGATACCCAGGCAAACAGGGTCTGGAGT
GGACCTCCAGTAAACTCCAACAGACCTGAAGCTGAGGGTCCTGACTGTTAGAAGGAAAACTAACAAACAGAAAGGACATCCACACCAAAAACCCATCTGT
ACGTCACCATCATCAAAGACCAAAGATAGATAAAACCACAAAGATGGGGAAAAAACAGAGCAGAAAAACCAGAAACTCTAAAAATCAGAGCGCCTCTCCT
CCTCCAAAGGAACGCAGCTCCTCACCCGCAACAGAACAAAGCTGGACGGAGAATGACTTTGACGAGTTGAGAGAAGAAGGCTTCAGAAGATCAAACTACT
CCGAGCTAAAGGAGGAAGTTCGAACCAATGGCAAAAAAGTTAAAAACTTTGAAAAAAAAATTAGATGAATGGATAACTAGAATAACCAATGCAGAGAAGT
CCTTAAAGGACCTGATGTAGCTGAAAACCATGGCACGAGAACTATGTGACGAATGCACAAGCCTCAGTAACCAATGCGATCAACTGGAAGAAAGGGTATC
AGCGATGGAAGACGAAGTGAATGAAATGAAGCATGAAGAGAAGTTTAGAGAAAAAAGAATAAAAAGAAACGAACAAAGCCTCCAAGAAATATGGGACTAT
GTGAAAAGACCAAATCTACGTCTAATTGGTGCGCCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACT
TCCCCAATCTAGCAAGGCAGGCCAACATTCAAATTCAGGAAATACAGAGAACGCCACAAAGATACTCCTCGAGAAGAGCAACTCCAAGCCACATAATTGT
CAGATTCACCAAAGTTGAAATGAAGGAAAAAGTGTTAAGGGCAGCCAGAGAGAAAGGTTGGGTTACCCACAAAGGGAAGTCCATCAGACTAACAGCTGAT
CTCTAGGCAGAAACTCTGCAAGCCAGAAGAGAGTGGGGGCCAATATTCAACATTCCTAAAGAAAAGAATTTTCAACCCAGAATTTCATATCCAGCCAAAC
TAAGCTTCATAAGTGAAGGAGAAATAAAATACTTCACAGACAAGCAAATGCTGAGAGATTTTGTCACCACCAGGCCTGCCCTACAAGAGCTCCGGAAGGA
AGCACTAAACATGGAAAGGATTTATAATCCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAAT
AGCAAAGATTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGACACATATACACCATGGAATACTATGCAGCCATAAAAAAG
ATGAATTCATGTCCTTTGTAGGGACATGGATGAAACTGGAAACTATCATTCTCAGCAAACTATTGCAAGGATAAAAAACCAAACACCGCATGTTCTCACT
CATAGGTGGGAATTGAACAATGAGAACACATGGACACAGAAAGGGGAACATCACACACTGGAGACTGTTGTGGTGTGGGGGGAGGGGGGAGGGATAGCAT
TAGGAGATAGACCTAATGCTAAATGACGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTA
CCCTAAAACCTAAAGTATAATAATAATAATAACAAAACAAAAAAATAGATATACTTGAAGAAAGAAATAGTGAATGGGACGATGGATCTGAAGAAATTAT
ATAGAATGTAACACAGGGAGACAGAGAGATAGAAAATGTGAGAGATATTGGACAAGAGGTTATGCCACCATAACTAAGGAATAAAGTAACATTCCCAGTC
ATGAGACATATTGACATCTGCAGCTCCTGATGGGATGCACTGAGAAGGGCACAGTATCACTTCTATGATGTTCTTGTCCCAAAAAATGTATAACCTGAAT
TGTCTTTAATTTTATTTTTTATTTTTATTTTTAGAGACAGGATCTTGCTTTGTTTTCCAGGCTGGAGTGCAGCAGCATGATCATGACTCACTGCAGTCTT
GAACTCCTAGGCTCAAGCCTCCTGAGTAGTTAGTACTCTAGATACACACCACCGTACCTGGCTCATTTAAAAAAGTTTTTTTGAAGTGATGACATCTTAT
TATGTTGCTCAGGCTGGTCTCGAATTTCTGGGCTCAAGTGATGCTCCTGCCTCAGCCTCCTTAAGTGTTGGGATTGCAGATGTCAGCCAGCATGCCCAGC
CTTACTCTGGAATCTTAAAAATATTGCTAACTGAGCCCTACCCAAGACCTATGAAGTCTGATAGGGTAGGTCAAAGGCATTTGTTTGTAAACCAAACATT
TTTCCCAGGAGATTCTGAAGTATGTCTAGGGTTGAAAACTGTTGTGTGTAGTTTTGTATTTCTTTCTTCCTATACATTGTTTTGTATAGTTTTGTATTTC
TTTCTTCCTATACATTAGCCACTATGGAAATTGTAAAAGCACKTATTCATTAGATTATAAGATAATGTACGTAAGGGAAGTTTTTATTAAAATGTCTCTA
GACAGACACCTCTGTATAGATAGGTTTGTCTCATATACTTGAGGACATTTATGGACCTCTGTTTTGGACAGAGTAGGGGCCACAGCATAATCTGTGAAGG
GAACTTCTTCCTGGCACATAGGATTGCAGATTATAGATTCCTTTGTTATGTTTTCCCCTTTCTATTTTAAAGGTCACTATAGTCATCCTCCTTTGCTGCA
AATCATAAATGAACATACTAAGGAGGTTTTAAATATGTTTTAGTTAGGTCTTAAAAAAATTAACAAATGTTTGGAATTGACAGTGCTTTTACCCTGTTTT
TGTTCTGGGTTAATGCTGCGCCCTCACTAGGTCTGGAATCTTTATAGTTTGAGACATCAGACTTGGATGAGGAAGGGTAAATCATGCTACTAGTGGGCCA
GTTACTCTGTGGTTTTCTTATGAGACTGTGCTTTAAGGAAAAGKTAACCACGGAGCATATGGCATTGAGTTTGAGTCATGTGGAACTGGTTAGAAGTAAA
ATGTTTCTATTCCAGCATTCTCTGAGTTTGTCAGCTTTTCATTATTTTATAGGAAGAATTCTAGCTTCTTATCCTGARATGAGCTTGTCTCCAAATCTGG
TTCCAATTTTTTGTTGTTGTTGTTGAGCACATTTCGCCATATGATATCACTATTGGCTGTAGGTTAAAAGTTACCGTGTAACTTAAACGTCAGAATTCAA
ACCACCAAGTATACACGGTTTTGTTCAGCCAGATTTTTAAATGAAATCTAATTTGAGTTTTTGGCTAAAAGTACTTTCCACATTTATCAAAGTGACACAT
GAACTGAAGAAATACAATGTATCTGAGTACCAGGTGTTAYTGAATCTGGAATTGCAGGAGGGTAACAGAGCCAAAGGCAGTCCTTTCCTCAAATAGTCTT
AACGTATTCATSTTTGTCAAAAATGTGTCTACACAAAGTAATTGGTTCTCTTTTCTCTGTAGATTTCATCCTTTGTTGAAAAAGATGTCTTAGAACCTAT
CAAGTGCAGAGCTGGGTTTTGAGGGCATGGAAAATTCTGTTGATGCTTTTCTCTAGTTTTGGCTTTCATGTGAGTTGTACATAGGGAGGCTTATAAGGAG
CATCCTAGTGGCTTTACCTTGTATCACTTGGCTACTTTTTCCCCACACTTCATTGTTGTAATGAAGGGAAAGGCAGCTGAAACCAGAAACCTACATCCCT
TGCCAACTTAAGAGATAAAAGGAAATTTATCTCTTCTGCTTTCTACCTAGTGAGAAGGGGTCGGTGAGAAACTAGGCCAGGTGAGAAAACTACTATCAGA
GTTTAAGTTGAGTACTTCGATATGTTCTTCAGACCATACATCTTAGTTAACATAAAACAAGGACTAGTGGATAGTTTGTGTGAAATAGCATTTTCAACCA
CCATTTTCAGTACTTAATATAGCTGGGTGGAATCATGCTGTGTAAGTGCTGCAGAACATAAATAATAAAGGAAATAAACATCTTAATTTTGTAACAAGTG
AAGGTCTAGGCTAATATTAAGGGTAGTATAGGATACTTTTGAAGCTTTTGAATGTACAGAAGTACATATGTAATTATTATATATTGCTTAGACTTCTAGG
CAGTTTGCCATTCATGTCTTTTTTGTCTCCAGATTGAGCTGTTTTGTCACATTAGTGAGCATTTGAAACATAATTTTAAGTGTCATTCTACAAATGGTTC
TTAATTGATTTATGACTAATGTCAGTATGAACTGCAGGTGTGTGCCGTGCCTTTGGACTTTTTGGTGTCTGTGTGTTCTGAACATAAATTGGCCTTAGTA
TGTTATGCACACTGTCAGTTTATCACAATCCATGGCCTCTGAGGAGCCAGAAGTACGGAATGTACAGACGATCTATGTACCTTATATTATTTTCTGTCTC
AGCCCTTTCCCAGAATTCCCAATAAAGCAGATTTCTCAATTACTTGCTTTTATTTTTCCTTTCTCCCATTTTTTTTTTTTTGGTAAATTAACAATGAGAG
ATAAATGGAAATAAGGCAGTTGGAAGAAAAGAGGATGAAAACAGGTGAAGATTCTTAGTTGTGGAATAAGCTAGGTTGGCTATGGGTTGATACCATGTGT
GCTTGGGTAGTAAAGGTAGCTAGTTTTTTCTGCGTGTTGTATTAAGCCATTATTTATCAAATACTAATTACGTTTTATGCACTAAATACTAGTCCAAGTA
TTCTATTTGATATATGGATTAATTCATTTGTTCCTCCTAGTGCCATGAGGCAGGTATTATTATTCCTGATTTACAGATGAGGAAACCGAAGACACAGCTA
ATATGTGGCAGAGATCAGAATCACAATCTGCCTCTGGAGCCTTGGCTTAATCACTGACAGAGCAACAGCCACTCAGGCAGAGAAAAAGGAGTTGGCATTT
ACAGTTAGAGGAGTTAGGACTYTAGTAACTCTGCCCGTTTCCCTAAAGCTTAGGATTGGCTGTGATAGGGGAAAGTAGCTTATGAATTGACTGGATTGAT
GTAAGTATAACAGAAAAGAGAGATTGTACTCAAATTTACAGCCATGTTTTTTGACATTTAGAATAATCAGAGGATACTTTTCTGTAGTGAGAAATATACA
AAGAGTTGTTCACACACACACCTTTTATATTAAACACTGACTCAGTGATGTCAGCAATCTAATTACTATAGAGTATCAGTTATCTAATACTGTGGAACAA
ACCACCCCAAAACCTAAACGCTTAAGACAACAGCAGTTATTATTTTGGTAAAGAAATCTGCAAATTGGGCAGAGTTCAGGACAGACAGTTCTTCTTTGCC
TCCGTGGARTGTTAGCTGGGGTGGCTTAGGTTGGAGGACCCACTTTCAGATTGGCTCATTCACATGGCCAGTAAGTTGGTGACGGCTTTCAGCTGGGACC
TGAGCCTGGGATGTGGGCCAGGGTTCTTGGTTTTTCTTCATTTGGACCTCTCCACAGCTGCATGGGTTTCCTCACAGTTTAGTGKCTGGGTTCCAAGAAT
AAGCATCATCTATTAGAATAGTGCTTGCTTTATAATTGCTTATTGAATGAATGAAAGAATCTCAGGTTGTTTTCTTGCTCATGTTGGCCCATTTGGCAAA
TAGCCACTGTAAAGTGCAGGTTTCTTCCCAGAGCACGGTAATCCCTGGCTCTGAGAACTGCTATTTAGAGGGTTCTTTTATCTTGACTTGAAGGTCTATT
TCTTCATTTAACCACATTTATGTTTCTAATAAATTACCCCCAGTTACTACTAGGCTGCAAAAATCATCTCTGAACCATTCAATAAACAGAGAAAAGAAAA
CCTTTTTAAAATTTGGAAACTACCTTGAAAACTCCCCATTTTTTCCTCCTTTTAGTCTCAGTTGCATTGAAAGTTAACATAATGTTCTGTTCCTGGATCT
GGAAATGGTGTAATAGTGACTTCACCACCTGCCATTCTTGAGTTGTGGGTTAGTTTCCCTAAAATGTAGATCTTGACAAGAGGCAGATGGTGCATGAAGT
TTATTTATTTGTTTATTTTTTGAAAAAGGAATACCTCTTATGAACCAGGAACTAGAACACCCCTTAGCTTACATTCTAACAAGAAGAGAGACAATAAACA
TAAGTAAAATGAGAAAATTATAAATTCTTTGGACAAAGGGATAAAGTATAGTAGGGTAAATGGTTTTACATGTTGAAGGGTAGTTGTTGGGACTGTAGTT
TTATTTACTTATTTTTAATTTTTTTTGAGGCAAGGTCTTGCCCTGTTCCCCAGGCTGAAGTACAGCAATGCAATCACGGCTCACTCAGCCTTGACCTCCT
GAGCTCAAGCGATTGTTCCACCTCAGCCTCCTGAGGAGCTGGGACCACAGGCACACTCCACCACACCCAGCTAATTATTGTATTATGATTATTATTATCG
TAGAGATGAGGTTTCACTGTGTTGCCCAGGCTGGTCTCAAACTGCTGGGCTGAAGCAGTCTGCCCACCTTGGCTTCACAAAATTCCGGGATTACAGGTGT
GAGCCACTGTTCCCTGCCAGGACTGTAGTTTTAAATGGTGATCACTGTAAGGCAGGTGTTTGAGCCAAGGCTTAAAGGAGAGGAGAGGGTTAGCCATATG
GATATCTGAGGAAGAACAGCATTCTTGGCAGAGGAAACAGCCATTGCAGGGATCCTGGGGTGGAAATGTGTCTTGCATGTTCAAGGAAAAACAAGGTGGC
TTTGCTAAAGAGAGAGTAGTAGGAGATGATGTCAGAGAGGTGAGATACAGGGAGAGGTCAAWTGAGGTAAGACTTCTGTCGTTTTAAAGATTTGGGCTTT
TACCATGATAGAAATGGGAAGCCATCAGAAGGTTTTGAGCAGAGGTGACATAATAATCTGACCTAGATTTTAAAAGGATCACTTTAGTTACTATGTTGCC
ACTAGCCTGAACCTGGTAGGCAGGAAGACAAGTGTCCTGCTCTGTGTCATCTTTGGGCTTTATAAACCATGTTCCATCTGTTGTCTCATTTGAATCTCAG
GAAAACCTTGTGAAATATTTGTTATTTTTCATGTTTTACATGTGAGGAATTGGAGGCTTAGAGAAGTTGACCAAGTATCCCAGACATACTCAAGTGAGCA
GTCTCAGAGTAACATCTTGAACCCAGATCTCCTGTCTCCAAATTTTGTGCTCATTCCACTATTTCACATTAAAACCTGAAGATCTCCCTGCTCTTTTCAT
CTTAACRTAATTTCAGCTTTTTGTGTGTGGCTCTCCAAGYCACAGAGCAGCAGCAGCTTTTGAGGATAAGAAGCAGTTTCTTTTAAGGATAAGAAGCAGT
ATGGTTCTTACCTGGTAAGATGGCTTGAATTCAAAATTGACCTACTTGTACCATAAGAAAGCAGGTTTGCAAGGAGTAGAATAGACTTGGAGATATGCCA
TTTTTTGTTCAGCTACTTGGTATGAAGACTGAGTATCTGAAACCACACTGTAAGGATTAAGTGGCTTCATAAATAATCTAAAACAGTTGTTGGCTTTTAG
AATTTAATAAATGAAAAAGTAAGGTAACAATTCTTATAATACTTTTTCCAGACTTTCGGGGAAATTGAAATCATTTGTGTTTTATTAATCCATGCTTTTC
AGGACCAATGGCCCATAATGTGAGCAAGGTTTATTGGTGTAATGATTATTTTGTGGCCTAAAACTACTGTGACTCTTTGGACTAGCATGTTTCTGATCAT
AGAGACAGCTAGAGACTTCTTCTTTTTTCTTAATATTTGTAGCTTGTTTTAAACGTACTGAGTAGAACCTGATTTAAGCAATTATACAAAGTTTGGTTAG
ATTGCTTTATTAATATTATGAACTAGAAACAGTCACCAAATGCGCATTCATTATACTAATCCTTACTATGATTGAGTCATTTCTTTGAGTTCTTGGAAAT
CTAATTTTTCTAAAATTAACAAAAGGGGACATTTGAATGATGCAAAAGCACTCATGGCAAGAATCTAAAAGTTCATATAAATAATAATTTTCTCATACTC
TTTTATACATTTGACCATTACAAGATCTGTCAAATTCCTTTCAATATTTGTGATGTCACAGTCGTACTAAAACAATCTTGAATTCTGGCAGCGAAATGAA
GTTCTTACCTGTCTTTCAGATGTTAATAAAAATAAGGGAAATACAAACCTGTAGTTATTCAGATGGTTAAAATTAGTTTCTGTGGGTCATTTCATAGAGT
TCAAGTATTTAAATGTTTTTTTAGCTGAATTGGACAATCAACTTGTCTGTAATTTAGCTTAAGAGAAATTCCATTTTAAGACAAAAAAACTACAGGGAAT
GTAGGCCAAAAAATAATAACAACCAAAAACAAACAAGTGAAAAACGTTAAAAGATTCTTAGCAGAATTTATTAATATATTACCTCTTCAAAATATATTCT
AGCCAATGGATAGATAATAAAATTGAGACCCACAGACTATTTGGATCCTAAATTTTGTTTCATCATGACTCCCTTGTTGAAAATACTTTATTGACTCTGT
GTAAYGTAAATAAGATAATTTTTGTGAAGCTCATTGAATGCGTCTGAGCTCCTTAACTCAAAAAAGGCTAAAAGTTACTGAAATAGCTATGGTTAAGGGT
ATATTGTCATYACAATGTGATAATCATTACCAAAGTGGGCACTKGGAAAAATAGTGACCACTTATGAGCCAAACCAATCAACATTAAAACTGATTTCCAG
TAAGTACAGCTGCCAAGTGATTATAGAGCAGCCTGGATACAGATGGGATAGACTACAAGGATAGTTAAGCTCAAAGCATTTGCCTGTTAACAGCCATGAA
TTGTGAGGTGAAATGCCAGTTTACATAGTGTTAGTAAAATCATTAAAAGAACAATGATTAGTAGAAGAATTCTTTACAAACCTTAAAGTATCAATAGTTC
TGAATTAATTCAATTTATAAATTATCCATAAGTCATACAAATAGCCACTTTGTACTTTTTCATGTCCCTCCAAACTCCCCCAGTCCCTATTTCCAAACTG
TCCACTTCTGTTGAATCTATTGTAAAAATGTGTACCTTTTAGGGAACTGAGATAGGAAAGATGTGAAAAACAGGATTAGTTTAGAATAATGGTTCTCAAA
CATTGGTAAAGTCACCTAGACTAGTACAACCACTGCGGAAAACAGTGTGGAGATTCCTTAAAGAACTAAAAGTAGAACTACCATTTGATCCAGCAATTCC
ACTACTGGGTTTCTACCCAGAGGAAAAGAGGTCGTTAAACAAAAAAGATATTTGCTCATGCATATTTATAGCAGCAAAATTTGCAATTGCAAAAATGTGG
AACCAACCCAAATGCCCATCAATCAACAAGTGGATAAAGAAACTGTGGTATATATATATGATGGAATACTACTCAGTCATAAAAAGGAATGAATTAATAG
CATTCGCAGCAACCTGGATGGGATTGGAGACTATTCTAAGTGAAGTAACTCAGGAATGGAAAACCAAACAGCGTTATATTCTCACTCATAAGTGGGAGCT
AAGCTTGGGATATAGGTGCACCAAAATATCACAGATCACCACTAAACAACGTACTCATCTCACCAAATGCCACCTGTTCCCCAAAAACCTATGGAAATAA
AAAATTTTAAAAAAAGATAATTATTAATCCAGTTTTTGGTGAATCAGTGAGTGACAGTGGTTATAGTAGTGGTGGTTTAAATCAAGGAATAAATGTTTTC
AAAGTGAAAGGAGCACATCCTACCACACAGTTCAAAAACAATCACAAATATGGCAGGCTTGCTGAGAGCTTTCATACATCATTTATTGTCATGCACTTGT
ATGATTATTGTATACTGTACACATTTTTATTTTACAATGATTTGTATTTTCCAATGCRTTTATTGCAGTTCAGTGTGGTAGATGGCTGGAGCCTATCCTG
GTAGCTCGGCGCACAAGTCAAGAATTAACCCTGGACAGGGTGCCATCCCTTTGAAGGGTGCACTCACGCATGTTCYGCACACTCATTCAGACTGGAGCCA
TTTAGACGTGCCAGTTAACTTAACATGCACATCTTTGAGATGTGGGAGGAAACTGGAGTACCCACAGGAAACTCATGCAGACTTGGGGAGAGTATGCAAA
CTCCACACAGACAGTGACCTTGGCTGGGAATTGACTTTTTTTTTGTCATCAGTGTTATCACAAAATGACATTGCATGAACCAGCATTGTTTGAAGACTTG
CTGTATTCTGATTTTTTTTATCTTTCATCTTTGAGTCATTAGCACCAAATATAGTTCTTGGAACATAATAGGTATTTACTACATGAATAAATTAATGGAT
GAATCATTCATTCTGGGAAATGTTGTCAACATAGTGCAGTGATGGAATTCCAATCCTGAATCCAAATCCTGACTTTCTTAGTTATTTAGAGCATAAACTT
GGGCAAACTGTTTAAACTCTTTGAGCTTCAACTTCCTTTGAGCCTTCATTTCCTTAGTACATAGTAGGTACTCAAAAGTGGTAGCTACTGTTAAAATATA
CTGTATTTGCATCTTAGAAGAGCATTTAACATTCTTGTGATATCTTTATGGTCAAGATGGGAAATTTTGAYCTAGGTGGTATTTCAGTTAATTCATAAGT
AGATAAACCTACGTTTTTACAGATTTAGAAGGAGCTTTTTATTTTAATAACAACTCAGTACAGGATATTGATGGCATGCTGATACTTTCTTGGAAGAATT
TCTTTTGCTAATGAGGAGCCTAAAAGTTCTTGATTGATTAGTAGGTAAGTGTTTTTAAAGGAATTGATATAAATTATTCAGCTGGATCCTAAAACTCAGT
TACACAAATTCAGAGTTGAGGTGGGATAGGAAGAGAAGCAAAAGTAATGGTTCAAAATCGATTTGTGTGAAAGGACTTAGGGTTTTAATTACACTGGGCT
CAATATAAATAGAGTGTAATATAACTGCCAGGAAAGCCTATGCGATATTAGACTGCATCAGTAGAACAACAGTGTCTAGAACAAATGGAGGAATTATCCT
TTTCCATTCTGTAGTGGTCATACTACCTAAGAAGTACTGTGGCCAATTCTGGACATTACCTCTGAGAAGCATGTTKATAGGACAGTGATCAAATATGCTA
AAGGAACTTCAGACTATGCTGTAAAGAGGAGCATGTGAAAGAATCAAGAAACTATAATCTTGAAAAAGAAAGCCTGGGGTAAGGGGGATGTTAGATGTCT
TTGGACATTAGAAGAAGGCTTACTTAGACTTGTTCTGGATAGCCACAGAATCCAGAACTAGTATCAAAAGGTGGAAGTTTTTTTGTTTTTTGTTTTTTAA
AAAGGAAGCACATTTCTAGTTAAAACAAGGGGAAACTCTTAATAATTAGGGTGGTAGAGATACTGGAGGGATCAGGGAGTGAGTACTTCCACCAAACAGG
AACATTAGTATATGGATATTTCACTAATAACAATAGCGGGGTCAGTAGGGGTTGAATTAATTGAGATTCTCTAAACTTAGGGGAAAGTTCTTAACTTTGA
TTTTATTCATAGCTTACTTTCATAATTAGAATTTTTGGCACCATGCTTGAAAGAAAAAGTAAACACTTTTTTTTTAAAGTTAGTTTCCTAAAGAAGAAAT
AAAATTTCTTAGTTGTCATCACACTCTTCATTTGACTTCCCTCCCAAATTGCTATTGTTTTCTGCTTCTCTCATGTTTTCTKAAATACTCATCAGGGTGA
CTTTTCTTAAGTTTAGACAGACATTCCACTAGGTCTCTTACCTCATTTGTGGCAAGGTTTATATTGATGTGTGACTGCTCAGGTAAACCTTTAGTCTGAA
TGATACAGCTATGACAAAATATAGCCTCAGTTGTAGCAAAATTAAATGTTACACAATGGCTTTAATTGGTGGTACACCTTTGAAGAGTTTGCAGTATGCC
CAAGTGCTAAAGCATACCATGTGAGAATCACTGGGTAGCAATGATTTCTGGGGGTGAAGAATTGAGGAGAATGGAAAATATATTAAGGGATCAGAAAAAT
ATTCTAGAGAGGTGTGTCTGCTCCCCGTTTTCCCCCAACACTGATTTCCCCAAATTTGGAGACAAACTACTATTATCTCAAAGAACCGCTTTTCCTTTAG
AACCACAGGCTCCTTAACTACCCTTTTTCATTAGCCTTACTTTCCTCTTGCATTTTATCCCTCCAAATAGAATCTTTTGTGCTTCTCTAGGGAGATTCCC
TTTGTGTTGAATTTTATGAGTAGTGTAAATTGTGTGGGTTGCATCATAAAACAAAGTGCRAACACACACACAAAGTCTTATTGATGAGCCAAGTTCCTAA
GCACTATTAATGAGTTAAAAGTGTTAATTAAGGCTGGGCGCAGTGGCTTACATCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGGATAGCTTTAG
CTCAGGAGTTTGAGACTAGTCTGGGCAACATAGTGAGACCTCATTTCTACTAAAATTAAAAAAAATAAAAATTAGCCAGATGTGGTGGCACATGCCTATA
GTCTCAGCTACTCAGAGGGGCTGAGGTGGGAGGATTGCTTGAGTCCAGGAGGTCAAGGCTTCAGTGAGCTGTGATTGTGCCACTGCACTCCAGCCTGGGT
GACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAGTTAAGTAGGCAGTATTTGCTTATATGTATATATTTTGTTGTTTTCTCCAAATGCTTAT
GCCTCTGAAGAGGATATACATTGATGAGTGAAGATATTAGGGAGGGTAGGGAGAAAGAATAGAAGTTTTTACATATAAATACAAATAGAAGTATTTAAAA
AAWTTTTTTTTCTTAGCTTTATCTGATAGCCTGCCTTCTGGAATTGTGAAAGGCTAACAATGAATTTGACTTTTATTCCTACTTCATTTGAAGTATTCTC
TCATTGAAAACACCAGTTTGCACCATCCAGGAGGCCTTCTTATTTCAGTTATTATTGGAGTTTAAAATTTGTTTTTAGGTGTGTCGTATTTATTTCTACT
TCATATATACATGTAATTATCAAGTTTTTAAARCATATAGAACACTACTATTGTTTAAACAGTTTATAAATAAGGTACTTTTATACTTAGAAAAATTGTT
TTTGATRTGTGCAGGTTACCATGCTAAGGATTTGAACACCTTCAGTACCCTATTTGTACTTGCKTCTATGCCTAGCATTTTTGTTACGTGCATGGATCTG
CAAAGGAATTGTGGTTTGTTTCACAGCTGCATGTAGCAGGCATATGTGTGACATATTTTTATTTCAGCTATTATTTCCTGTTTTTTATTTTCAGCATGTT
GGAACAGGATTCCAGGAGAATGAACCCTAGTGTGAGCCCTGCAAATCAAAGGAGGCACCTTCTAGGATTTTCTGCTAAAGAGGCACAGGACACATCAGAT
GGTATTATCCAGAAAAACAGCTACAGGTAAGATGGCATGCATCTATCTTTTGGCCTAAGTGATTTAATGAAGCTGAAACAAGAGAATTATCTGTAGTATA
ACATTGCATCTAAATTGTTCGTGTATATTTTGAGTAGTAGAACACATAAATTACTGAAACCATTAATACATTTTACTTTTAATATTGTAAAATTAAATTT
ACTTTGAAACCTTTTGTAGTTTTAAAATTCCTATAGAGATGTAATCTTAAAATCTCAGTTTGTGTGCATTAATATACATATTGAAATATATACATATTAT
ATATAATGTCTTTAATAATTATTTTATCTATCATGTGTTTATACATATAATACATCTAATATTTGTTACTGTCTCACCTGTGGATGGATATGATATGGTG
GAATAACATGATTGAACCTATTTGCAGTCATTAGGTAAAATCATTTATACTCATTTATTGTGATCTTTGTTGAATCCCTCCCTTGTTGCAATTTAATAAT
GACTTGATAAATTTCCATATTGCTTGTCAATAGCAAAAGGCTTTAATTGTATAAAAATGCAATTTCTATATTATGTTAACTAGAAGAAGGTATAGTGGAC
ATTTTTATAGTTGTATACTTTTTGATAAACATTTCCCTGTGTTATTTAGAATTTGTATTAGAGCCAAATGGAGCCAGGTMCTTGACWAACAAGGCAAAGG
GAGGTCACAGTATGGTAACTATTGCACAGTATAATGCTTGAAAATTATTACAGATTTGTTTACTTTTATCTCTTTAAGGATTTGTAGGTTGAGGGCAATC
TTTCTTCCTGATTTTTACTGTGTTACATCCATACTGTTGAAAGATGATCACCACAATCCTGCAGGCTTGTCTCCACTTAGCCTTCCTGAAAAAACTGTTA
TTTTTGTGGAGTACAGTATGCCAAGTCAGTGGAGGACCCAAAGGATTTTATGGCAGTAGCTGCAACGCAACATAGCAATGATAGATGTCATAATGTTGGA
AAACATAGCATTTCCTGCTTTTTTACATGCCAAAATTCATCATACTTCTTAAAATATTCACCTTGATGATCTCTTAACGGTGCCCCTGAATATTGGTAGA
GTTTAATAGTATATTTAATTTTCATAAGTAATTTGTGCAGGTTTGCCCTACGTGTTCTATAATTTTGAATTCTGTTAGTGTCCACATAAGATCCATCAAA
AATTAAATTTAAATCTAATAGCCTTTGGATTTACGAGAGTTGAGATAGCGTCTTGCTAAAGAATAGAACAAGTTATGGATTGAATGCTTGAAATTACAGT
TCAGGTAAGCTTTACAAGAATATTATTTATTCTGCACTAACTGCAGCAAGTAGAAGCCTTCCACATTAGCATAAGATAACATGGTGGCTCCCAGAAAGCA
TAGTAGTCTGATCATACTAGTTCAAACTAAAAGTCTGAATGACTTTCTGGCTGAAATTTATCAGCTTTCAGAGTAGTACATGGGATGCAAGCTATTTTTT
CCCTCCCTTCTCCAAAGTCACCATTGAGTGAATAATCTGGGTTACTGGTCTTGGGGAAAAAAAAAAACCAAAAAACAACCCAGGAAAGATTATGGATTCT
TGATTCCATGCAAGTCCTTTGAAATATTTTTCAGCAACTTGAGAGATTTAAATAAATGTCAGTCCATTAATTTGATGTTCTTGMTTTTATCAGTATAAAT
ACTGAATAAAAGATACCAAAAAATGTTTGTGAAACATTTGAAAGCACCTAATATTACTTTGTTCTGTGTTCTGAACTGAATTTTAGATGTTTTATCTATT
TTCAGCCGTGATACCTATACATTTTTTTTAATGCAGCTTACTTTATGTTTCTTTTTCTAAGGAGAGCTATGAGACATGGTTCAAATAAAAAATGAGTAGA
TTCTAATCCCATAGTTTATAATATTGTATTAGCCTATCATTTAGTAATTAACTGCTTATATTTTTTCAGTCATAGAAATGTGTGGCATATAAATAGTATG
ACCATATAATGTTCTATCAAACTGGGACACTCTTAAGAAGGAAAGGTAGTGCTAGTAATAATTACATCAGAATACCAGTACTGCTGTCTTGGATAAATGA
GAAAGGATGGTCACCCTATATAAGATGTCACCCAGAACTGATCTTTACTCCAAGAATTCTCATTAACTCTAGCTCCCTAGCACTGTCCTTTACTTTATTT
ACTTTAATGATTTATTTGTTGAATTTTTTTCTCTTGGCATAAAATGTTTGCAAGCAGACTCGAACTCTGACTGTTCCTGGGCTAATGTTGGTCTAATTGT
CTCCAGATTGTATGTTGGCTGATTTTCTCTCTCCTTTAACTCCACCCAATCCTTGTCCTGGTATTTCTCCTATCAGACTTTTTTTTTTTTTTTCCAAAGA
ATATTTTTGGCTGATAGAACAAAGCCAGTTAGCACAGATGTGCAGAAATCATTACTAGAGTTCAGATCACAAATATATTTTCAAAAGCAGTTTTGGACTT
TTCTCATGGACTACAGTGTTTGTATTTTTCTAAGTATGCAGGCATGATTTTTAAAATAATGCGTATGTCATAGATTTATAAGAAGAGGTGTTAAGCAGCC
TCCTCTTAGAGGCATTCAGATTTATCAAACACAAGACAGATACTTTTTTTCCTTCTCACTCAATGCTTCATTTTAGGCTGATCCTTTTGTGTTTGCATTC
ATTACCTGTGCACCAACATGTCTGTTTTATTCCAAACAACTTAAACCTACTTAACCCTTACAGCCACAAGAGAGGACATTGAGAATATTCCTGGTGCAAG
TTGCAGGGAAGAATGTTCTATATATCCTCTGCTATTGTTTCTTTTCTCTCGTGTGTGGCATAAATAGCTATCTCTAACTTTTAACTTGAAGTTAGCCTTC
CACTCTGCCAGAGTTATTTCTGTTAAGGGGCCAGTGCTTTCTGCCATCTTACTTGCCCTTTCCTCAGCATTTGGCTGTGTGGGTCATTTGCTCCTTGAAA
GACTTTCCTTTTGTGTTACTATGGTTTTTTAGTTTCCTTTTTTTATTGGCTGCTGCTTCACAGTAATCTTTGTGGGCTCTTTTTTTACCCAACTCTCAAG
GTTTGGAACTGTAAACTTTTTTTATTTTCTTTCTGCCTAGGTGACTCATCTATAATTTCATGCACAGTTCATATCTATATGTCCTGATGACTCTCAAATT
TATGTTTTCAGTCCAGACTTCTCTTCTGAGTCTCCAGAGTCACATATCCAATAGTCTCTTTGACATCTCTGTTTTAACATTTCAAACTTAACATGTGCAC
TGTGGAACTCAGTTCCTCTCCCTGTTTTACTTCCAACCAATTTTCTACAACTGTGTTTTTTCCTTTCCATTGCTTAAGCCAGAAATCCTGATTCCTGTCT
TTCAACAAGTGTTGTTGATACTCTTCCCCAAAATTGTCTTGAATTGGTCCACTCCTCTCCGTCTCTGCTGCCACAAACCTAGTCCATGCCATCATCAGTT
CTTGCCAGGATTGCCATAGCTCTTTCCTAATCAGTGTCTCAGCTTCCCCTTTTGCCTCCATTGAGTCCATTTTTGGTACCATGGCAAGGTATGAATGTAA
ATTGAAATATATCACTTCTTTATTTGAAACACTTTTATGACTTCTTATTACATTTAGTAATTCCTTATTATGACCTGGTCTTTTATTATGACCTTATTAT
GATTCCTTTCCAGCCTCATCCTGTTCCCTCTCTACCTCCCCACTTGCTTGCAACTCTTCAGCCAGTGGTCTTTTTAAAGTTCTTTGAGCCCACCTTTCCC
CCACCTGCCTCTTTTATGCCTAGAATGCTCTTACCCCAGTTTCTATAGAGGCGGCGTCTTCTCATCATTTAGGCCTTGATGTAACTACCATCTCCTTCTC
GGACCATTTTATCTAAAGTATATACTACCATTGCTTTTCCATTTCAACCATTTGTTTGTTTCTTTCATAGCACTTACTAGAGTTCGGATTATTTTATGCA
TTTATTTTCTTCTATTTGGTCCATCTTCCCCATTAAGGTCTTTGGGGACAGAAACTTTGATTCTCTCATTCCCTACTGGATTCTCAGCACCTAGCACAAT
ACCTGGTGCACAGTTGGTATGCAGCAAGTATTTGTTGAATGAATAAATGAAAAGTGTGAGTCTCACTATGTTCAGTTTTATATGTTTACATGTTTTCTTT
TGAGATATTAGCATATCTAGTTTTCTAAATCCAGATCATCCTATATAAAGAAATTCAAGAGAGATGCAAGCTTTGTTAGTGAGAGAGATTAAGATTGCAG
ACTGAAGAGCATAAATAACAGTAATATCCCCATCTCAAATTCTAACTTTCAACTCCAGTTTTGCTCCCTACGTCACACCTTGGATATGAATTCACATGAT
CTACATCAGTGCGATGGCTAGGAAAGTATATATTTTTGAAGCAAATGGAGTAACTAGTTAATGTCAGTCACTCTGTTGTTTTATTAGTGATTCACATTCT
TCCATGATCCCATAGTTTATATTCGGCTTTTCAACTCTTTCACTTTTCTCCTGCCAAGCATTTTATGTCTCACCCTATCCTTAACATACACACACACACA
CACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAGTTTTATCATAGAATTGTGTCTCACCCTATCCTTAACACMCACACACACACACACA
CACACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAATTTTATTATCATAGAATTGTGAATGACCCCTAAACTTTAGTCTGGTCACAT
AATACCACTTGATTTTCGCCTCAATTACCCCGTTACTGTGTTACTACCTCTGTACCAGCAGCATTGTGCATGTCTTAAGCTCATTGAAGAYATGATGAAC
CATGTGTTATTGTATCGCTTATTCCAAATTAATTGCTCAATAAATGGTGATTAGACAAATGTGAATTACCATCCTGTCTCTGTAGAAAATCAGAAAATGA
CATTTCATGTAAAATAAGGTTTTGTATTTTATACTTTATCTTGCAGTATATTCTGTTTACTATATTTTTGTTTCCATGAAAAGTTAACACTAATGATGAT
TTTCTTATAGCAAACTTCTTAGGAATTTAAGATACAAGGAAACAAATTTTGTGCATCCATGTTTCAGATATGATCATTCTGTTTCAAATGACAAAGCCCT
GATGGTGCTAACTGAAGAACCATTGCTTTACATTCCTCCACCTCCTTGTCAGCCCCTAATTAAYACAACAGAGTCTCTCAGGTGAGTGTTGTAGATTATT
GCAGAAACATCTGAGTTGGTTCCCATGTTTAGTTTTGGAACCTAGACAAGTAATTGGTCAAGTTCACTAAGTGACTGAGAGAATCTCTGAATTATTTGTG
GATAACTGTAGGCATATTAGTTGTCCAGTTTCTCCACCAACCTCATGGAGATGGTGATGGGTCTATTTTATGTGATAGTTGCTTACTTAAATATGTCTTC
TTTAAAAACTACAGAATGAAATTAATATTAAAATTTCATGGTGTTAGGCTTACAGTTGGTAACATTCATAGCAGAAAGTACCTTTTTCTTCCAATTAGGA
AGATAATAATTTGTGGGTATGTGATTCTGGAGATACTTTACCGTTAGTACACACTTCTTTATCAATTTTTCCCTTGAATTTTTTTTTCCTGTGATTTTGG
ACCTTACCCTTAAAACCTCAAAAACTACCTCAGATTTTTTGTGATATGTAGTAATCAACTACAGTTAAACATAGTTTAACATCTTCACAGCTGCTGTAAA
AAGTAAGCAAAATAAGGGAAGTTATATATGAGCTATGCTTTTATTTCGTGTGTTGAAAAATTTGAATTTTTTTTTACCCCAGGCAATTGAGTTCATTCTT
TTTCTTCTCCCAAAAGAGCATGATTTTCAAGAGGTTTTAATGCATCTATTTGTTGTTAGGGGTCCTATGACTTGTTAAGTTCTCTACAATGTGTCTCAAA
TGTTTGTGTTTATATAGCCCAAGAACAGAAATAGGAAATACTTTTTATTTTGTTTTGTTTTATTTTATTTTATTTTTAGACAGGGTCTTGCTCTGTTGCT
CAGGCTGGTGTGCAGTGGCTGGATCATAGCTCACCGCTTCCCCAAACTCCCAGGCTCAAGTGATCCTCTTGCCTTCGCCTCCTGAGTAGCTGGGACTACA
GGCACATGCCACCATGCCCAGTTAATTTTTTAAAAAAATTTTCTGTAGAGACAGGGTCTCACTGTGTTGCGCAGGCTGATCTCAAACTCCTGGGCTCAAG
CAGTCTTCCCACCCCAGCCTCCCAAAGTGCTAGGATTACAGGTGTAAGCCACTGTGCCTGGCAAGGAAATACTTTTTTTGGTGGAAAAACCTTAGCATCC
AGTGTTTATATTTGGGAGGTATTTAGCTGTAGTTTTCTTTGAAGTTTGAATGCATGGTTGACAGGTTTACCATGTAAAAATGCATGTCTTATTAAAAACA
ACGTTAAGTGTCAACTTTTTCAAATCAAAAAGCAATATTGAGTCATCAGGCACTTGGAATGCTCTTTGGAACCTACAAATGATTAGATTCATTTCCACCC
ACAGGGTGAAACATYCATTTCTATGTTTAATTAATTTCTATGTTTAATTAATTAAACTATATTTTAWAGGTTAAATCATGAACTTCGAGGATGGGTTCAT
AGACATGAAGTAGAAAGGACCAAGTCWAGAAGAATGACAAATAATCAACAGAAAACCCGTATTCTTCAGGTATGTTTCTGTTTGTCTTTGAACAATAGTT
GGCGTATTTGTTGGAAGGCTTCTCCCAGCTGGGTTACTCTCTTCCCTAGAAGKTTGGTAAACTTGAGCTTTAGCCTCTTCCCACTGTCTCCTGCTGCTTC
CGATGCAGCTATCATTGCCACTGAAGTCCTCCTCCCAGGTTTTATAGCACTAGTTTAGGTTTTATAGTATTAGTAGTTCCCTGATCAGGCATCGTGCTAT
TTCTTGCTCTCACCTTCAAATTTGCTTTCAAGCCAGGAGTTCCTATGCATGGATATCTATATCAAATGTCTTTGTCACAATGGTATAATAAATAATACTG
CTTATCTCCTCTTTTCTTAGAGCTTTTCAAAAAGAGAATGTTAAGACCTGGGGCAGTTTGGAAATGAAGACATCCATTTCTGAACTTAGACATTTACTAC
TATGGTTTAATGACAGGTCTTACTTAGAATCTGTTAAGTGGGGGTTCCATCTCAATGTTGTTTGCCACAAAACRCCATTAAGTCATTCCGTCATTCATCA
AATATTTGTTGTTAGAATTTAGACTAGCAACTGGCATCTGCAAGTTCCCAATAATGAGCCAAGGACTGTTCTTGATCCTGAAATAAAGTAATGGGTATGA
TAAAGTCCCTACCTTAATGGAGCTTACACTCTAGTGCAGAGCTAAACAATAAGCAAATAAATAAATACACAAATACACTGAAAATTAGAGCTAAGTTCTC
TAAAGAAACACAAAGCAGCATAGGAGGTTAGAATTTGAATTGAGAAATGAGTGACTAGACTGAGTGGTCAGGGAAGGCTTCTCTGAAGAAGTTCCACTTT
AAGACAACATTGTTAAGGTAATTAATGCTAGCTGTTATAACAGCCCCAAAATCTCAGTAGCTTAATGGAATAAAATTTTTTCACTTGCACAAAATTTGAC
TTCACTTTCTAGGATTGCTTTTCTCCAAGCAGGGAGTAAGGGATCCAGGTTCCTTCTATTGTGTAGCCCCAACAACTTGAAATTCTTTGCTTCTTGCTTG
AGATGTTAGGGAAGAAAGAGTTTGGTGGATTGTGCAAAATGTTTTAAGAATCAGGCCTGGCTTTTAGCCAATGTTTAGTTGGCTAAAACTCTGTCACTTT
GCCCAAACTACTGTTAGAAAGACTGGGATCATGTATCTTTCTGTGTGCTCGAGAAGAAGACAAGGGTTTGGTGAGAACATTGCTTTTGCCATAGGCAGAA
AAGTCACTGAAATAACAATGTAAAGATTTAGGGGAGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCTGAGGCTGGTGGATCACG
AGGTCAGGAGATCAAGACCATCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAAATACAAAAAGTTAGCCAGGCGTGGTGGCGGGTGCCTGTAGTC
CCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAACTTGGGAGACGGAGCTTGGAGTGAGCCGAGATCACGCAGTCCAGCCTGGGTGACAAAGCGA
GACTCCGTCTAAAAAAGAAAAAAAAAAAGATTTAGGGGAAAATCTGGAGAAAGAGCTTCCAGACAGAGGGAACAGCAAATGTAAAGACCCTCAGGAAGGA
ACATGAAGAAGCTGAGTACGACTGGAATGCAGGGGCTGAGGGGAGAGTGGTAGATGAGATTGGAGAGGCAGCAGATGTAGGCTCATAGCAAACTTCATAG
GCTTTGATGAGAACTTTGGGTTTCATCATGGGTTTGAGGGGATGCCATTGAAAGGTTTGAGTAGGGGAGTGACTTGATATGATTTATATTTTAAAAAATT
AGTAGTTGCTACATAAAGTGGACCATGGTGGGGAGTATGACTGGAAGTAGGGAGACAAGAAGCCATTTTAGTGGGCTAGGTGAGAGAAATTGTTGTGGTC
CATACTGGTGTGGTAGTCGTGAAGGTGGCAGAAAGTACCTGGATGCCAAATATATTTTGAAAGTAAAGCTGATGGAAATTGTTGATATAATGATAAATCC
TATGCTTAGGTACTGGATGATTGGTGATACCATTTACTGAGACCAGTACTGGGGAAGGAGCAGTTAGAGGTGGAAGTCAAGAATTTTAAGTATGTTAAGT
TTGTTATGGCTATTAGGCATTCAAGTGGAGAAGTCAAGTGGACAATCAAATATCTGGGTCTGGAGTTTAGGAGAGAGGTTGAAACTGGAAGTTTAATTTG
TGGTGCTACTAGCTAGAGAGAAATAAAGAGGAAAGAAAACAGAGTGAGGTACCAAGTTCTGGGCCATCTCCAACATTACAGGTTGAAAGAGAAAGAGGAA
CCAGTACTTGAAAAGGAAGAAGAGTAGCTGGCCAGTAAAATAGGAGAAATTGTAGGGATAGTGGTGTCCCAAAATTCAAGCAAAGAAAGTTTTTAAAGAA
GGGGATGTAACAGTTAATTACAGGGGCTAAGAGAGCTAAGAGATGCTGATTCAGATAAAGAGTGAGAAATTACTTTTGGAATTGACCATCAGAACTTGTT
AGTGACCTTCGTGAAAGTTCTTTCATTGGAGTGGTGATGGCAAAAGCCAACTGAAGTGGATTCAGGGAAGTAATAATAGAGGGGGAAGTGAAGAAAATTA
TTTCAGGGTGATCCCTATACATGGGAATAGAGAAATGGAGTAGCTACAGGAGTCAAGAAAGAGTTTTATTTTTGGATGGGAAATATTTCACCAGGTTTAC
ATGTTTACATGCTAATGGAAACATCTTAAACTATTTAATTATTTCCTGACTAATTGGAAGCAGTATGTGTTATGTTCTAAAGTACATTAAAAGGATAACA
AGAAACATGGGTTTTTAACCATTATGGAACTGTTTTCATACATAAAATGAGGGCTAGTCTAGGTGAGCTCAAACTCTGACATTCTGAAATTCTGTAATTA
TCTACTGTGTGCTTCTCTTGGCCTCTCCAACTTTTTTCACCTACTATAGTAGGCAACTTTATTGGTTGTTAATACTAATAGAGGCTGCAGACAGTCATTA
ACAATGTCACATGTACCCCAAAGTCCCAAAGCTGCTTATTGGCATTGGTATGTGGAGCCTAGTACTTCAAAAATTCATGTCTGCCAAAGCCTACACGTCA
GCTGCTACCATGGTCAGAGGAAAAATGGACCCTCTCTCCCTTCTGCTTTCCACATCTGAAGCAAGTGCATCTTATTGGCAGAATCTAAATTATATCCAGA
GCTCTGGTGGCAAAATAGTTTGAGCGATATAGGTTTCAGGCTTCCATCCTTTGCTACACAGAGGAAGAGCACAGGAGTCAGGAATAGATCATTGCCAGTA
GGTAATCCCACACAGCTAGTATAATTAACTTAATGAAAAATTAGATTAAAATTCTTGCCCTAAATGCTTTTTTTTTGGCCTTATCATTAGATGGAACTTG
TCATGTTTTTCTTTCCTAGTCATTAAATGAATAGAGCATTTACTGTGRAAGGGGTGCTTGGTATTCTTTAWTCTTAAAGGAATTCCAATGCAAGAAAAAG
AATTTTGTTTTAATTTTACTGTCTTTGTTCATTTGGAGATGTGTAGTTTAAAGTCTTATTTCATTCTGTGCTATTTTGGGTACACTTCTTTCTGTAGGGA
GCTTAGATATGCTCAGAAATGTGAGAATCTTAGCTACTATAGAAGGGAATGATGGGGAAGAATCTGTATTTGTCAGTAGTATTTGTCAGTAGTAAAGAAG
TTCCTGGTTAGAGGAAGGAGAAGAATTATTCTGCTTTTATGCTGTTGTCAATGCCAAAGCATATCAAGATTTTAAAAAAATTCTGTTTCTTRGTGTAAAG
AGCCTGTAACTGCTCTCCTTTTTCTTTTCTCATTTCAACCTTTTTTTCTTCCGGTTACCTCTTTCAGTTGCTAAGAGTATCCCAAACTCTTATAAAATAT
TCTGTAATTTTAGTGAACTGACATTTCTTTGAAATATCTGTTGTATTTAAGCATTATGTCTTATAAAATATTCTGTAATTTTAGTGAACTGATTTCTTTG
AAATATCTGTTGTATCTAAGCATTATGTCTTTGATTTGACTTGTCCTGTTTCATAGTTCTACCCTCTTCCTAGACTTTGAGTTTTTAGAGAAGGTAAAGG
GGAAAATTAATGAAATATCTTTCAAAATGAAGGCAAAATAAGGACATTTTCACATAGAGAAAACCAAGGGAATTTGTCTCCAGAAGACCTGTGCTATAAG
AAATGCTAAAGATATTTTTTAAAAGACTTGGGTAAATGATACCAGATAGAACCCCAGATTAGCAGGAAGGAAGAGCATCAGAATGGGCAAATATTTGGGT
AAAAAGAACAGGACTTTTTAAAAAGAAACTATATTTATCTTATGTGTGTGTATTTAAATGTCTTTAAAAGACTATTGTCTTTTTAAAGCAATAATAATGG
CAATTTATTATGGGGTTTACAGCTTATATAGAAGTAAAATATAAGACAATAAGAACACAAGGGGGGGAGGGATAAATGGAATAATACTCTTAATAAAATT
TTTATGTTGTTCGAATAATATTTCAAGATTGACTGCAGTAACTGATATCAAAGTATAATCTCTAGAGCAACTACTAAAAGCTAACATAAAGAAGTACAGC
TAGAGCCAGGCACGGTGGCTTGTGCCTATAATCTCAGCTACTAGGGAGGCTGTGGCAGGAAGATTGCTTGAGTCCAGGAGTTTGAGAAGCTGCGGTGAGC
TGTGATCACATCATTGCTCTCCTGCCTGGGCAACAAAGCAAGACCCTGTGTCTTAAAAAGAAAAGAAAAAATATAGCTAAAAAGACAATGTAAGAAATAA
AAATGGAATACTAAAAAATATGCAGTTCAGTGAAAAGAAGACAGGAAAAGAGAAACACATAAAGAACAAATAGAATAAATTAAAAATGCATACCAAGATG
GTAGACTTAAATCCAACCATATTAGTAGTTAAATTCAGTGGGCTAAACACATCAATTAAAAGGAAGAAATTTTCAAACTAGATTTTTTTAAAAAGGAAAG
ATCCAACTATATAKTGTTTATAAGAAATAACACTTTAAATATGAAGACACTGACAGATGGAAAATAAAGGTGAAAAAGGATGTATGCCATGCAAACATGA
AGCATTAAAAAGCTGACATGGCTATATTAATCAGAAAAAGTAGACTTCCAAACAAAGATTATTCTAAGAGACAACAAAAGAAATTTTTTATTGATAAAAG
GAGCATACAAGGAAGATAAAACAATTCTAAATGTCTAGGCCCCTAATAACAAAGCTTCAACGTACACAAAGCAAAAAGTGACAGAACTTGAGAAAAAGAT
CTACAGCATAACTGGAGATTTTAACATCCTCTCATTTCTGTGTAAATGCCTCTCACATTTTTGTCAATTATGATCTTTTGCTAAACCCATACAGCTGAAA
ATGCAAAAGCTCATGACTAGTTTTTCAGAGGTTCCTTAGTTAATTGGTATAAATCTTGGATAGGTAAACGGAATATCTGTTTTCTGTTTGCCTGATATCT
CTGTAACTTGGCTTTTCCTAAGGCCTACCCATTGCTTTCTGAGACKAGGGAAATAAGTCTGGCTTCTTTCAAACTTCTTTGCTCATTTCATATGGGCCAA
AGTAGCACTAATCATTTAAAATTCACCAGTTAATCTGTTCATTTTCAACCTTATATTTATCAACTAGCTATAATTTAGTTTTGGTTTTATTTACTACTTA
CTGGATAACTATGCCAGTAAGTATAGTATTTTATTATTTAACTGTGTTCTTCTTTTCATTTTATTGGTGATTTTTTTCATTTGTTGTTAAACAGAGCATT
TATTGAACACCTACAATATACAAGACCCACATTAGATTTTTATAAAATGAGATCCTTGACTTGTTACAGAGCCAGAAGTGGGAACCCCTATATTCATCTC
TGCATATTGGTTCCATCCACCAAACAAAATTGTTTCCTTTTCTTTTCTCCCTTAAACTTCTGTACATGCTTCTGTTTTAGCGCTTATCGCATTGTATTGT
TTTCCTATATCTGTCTTCCCAGTTARACTGCGAGCTTCTTAAAGGCAGAAGTCAAATATTTAATTTTGTAGCTTGGGCACATGTAGGTGCTTTGATTACT
GAAAGATGGATATATGGACACAGTAATGAACAAATGATTAAAAAATTATTTAAACCATTGTTTGACAGGGTAAGATTACTTTCTAATGAAATAGAACTTG
GTARTATGCCCTTGAAGTCTGATACCCTGACAAACCGCTTCTGAAAATCAGCTTACATAACTACCAGGGAGAATAAAAAGGCATAGTGCAAAGCAAATGC
TGTGTGAAAGACAGGTTTCCAGTGTAGCATATGTGGGCCACTAATGGGTGTAGATTGAACTGTTCTCTTGCCAAGAGTCATCAATAAGAACTCTTTAATG
ATGGCTTAGTTCATAGATGTATTTTGGCATGAAGATCTCTGTGTTTAACTCAGTAAACAATAGGATCTAGTTTCATTATGGACTTTTCATACTTCTTAGG
AACTTGTCATTGGGAAGATAATTATTTTAGACAAGCAGACATTGTTATATGTTCAGTAACACTTATATAGCTTGGTCATAAAATTTGTGGTGCTTGGACT
AGCTTTTGGGCTCTTTCTTTAAACTTAATGGAAAGTGCCTTAAATGCCTTAATCTCCATAAGACACTTCTCCCAGACTAGAATGGACCTAAAGAGTTCTA
ATATCTGTCAGTGTTTAATTATTTGAACTGAATATGTCAGAAATCTTAGCAATGGAAGTTTAACAAATTTAAGTATAGAATGAACCAGTATAGGAAGATT
TCATATAATTTTGTGATACAGTATTAAACTTTTTTTTTTTTTAATATTCCAGGGTGCTCTGGAACAGGGCTCAAATTCTCAGCTGATGGCTGTTCAATAC
ACAGAAACCACTAGTAGTATCAGGTAAGACAGTGCAGAAGCTCTTGGCCAAGGAATTTAAAATAGCTGGTATTTTAAGAAAGTTGAAATTCACACTTCCC
TTTCACCTTAAATTTGTTCTCATCTATGAGTTTTATATTAGTCATATACTCTAAGATATATATATATATGTATATATATATATAACATACTACTGAGCAG
TTGGAATAAAGCCAGATAATTTCAAAAGTTCAACTCTCCCAAATCCCTTAAATACAAATTTAGTCAGAATGCTGTTCCATCATAATTTTGATGAAAATCT
TGAATACCCATAGCTTTCTTGCCCTTGATTTGCATCTGTTTCATGAACCTAGGGAAGGGAATGTTATTTTTTGAGTGCTCTGTACCAGGTGTCCTGCTGA
GTGTTTTACATGTATTTTATCTTTAAATCCATGTAATAACTAAAAGTTTATTTTATATATAGAAAAACTGGTCAAATCATTTATTTTTTTTGTAATTTTC
AGAGTCATAAGACCTAGTGGTAGACTCAGAATTCAGATCATAGCTGTTTTACTTACAATGCATTTTTCACTACACAATAATACTTAAGATTTTGAAAGAT
TTCAAAGAGAATGCTGTATCTACAGGTTTAAATGTCTTCAAAGGGAAATATAATATGGGAAGCAATATGGTGTCATGGTTAAGATGCTAGCTTTATTTGC
CCTGTTGGGCAGAGTTCAAATTATAACTCTACCTCTTACTTTGTGGGCTCAAGCAGATTACATGCMATTGAAGTTTTCTCATCTACAAAATGCTGGCTGC
ACAGAGTTGATATAATGGTTAAATTAGATAATATATTTAGAGCACTTAGCAYGGTACATAAGTGCCCCCCAAAATGGTAAATGRTAATGATGTGATGTCA
TTGACAACAGTATCACTGAAGTGAAATTTGAGGATCTCAGCTTCTATCTGTAGCTCTACCACACATTTGCAGTTCACTTATATGAATTTAACATTTACTT
AGAATATACTGTGTGCCAGTGTTCTAGGCACTGAGAAAAAAATATAGATAGATAGATAGATAGTAAAAATGAAGTCAAAAGCTATTTTATTCATTATACT
AATAACTGAGAATTCCTATTAAATGACAATGAGCAGCATATCAGCAATCATGAATGTTTAAAATCCTGAGATTGTATTATCCTGTTGAAATTGATAATTC
AAATATGTTTAAATAATAACTAATCATTCTCTGCTAACCAGAATATATCATTCAATTACATTTATTTTAAAAATATATCAATTTTTGGATGCATGGTTAT
AATGGCATGGTATTTCTTCATTAGTTAAAATGTTTTAGTGAATTACAGCCAATTTTCATTATTTGTGGATTCCATATTTGCTAATTCACCTACTAAAATC
TGCTAAAATGTATTTGTAACCCCTAATATTAGCAGTGCTTTTGTCATCATTTGCAAACATGCRTAGATGCTCCCTGGTGAGGTTGAACAAGGCAGTGTTC
TGCCTTTTAGTCTCAGCTATATAAACAAGGTCCTTTTCACAGTCCACATTTTTCATATTTTTGTGCTTTTTGTTGGTAATTTTGCTGTTTGAAATGGCCC
CGAGGCATATTGCTGAATTGCTGTCTAGTGTTGCTAAGCCGAAGCGGGCTGTGATGTGCTGTGTGGAGAAACTACGTATGTTAGATAAGTTTCATTCAGG
CATGATTTATAGTGCAGTTGGCTGTGAGTTCAAGTTAGTGAATGAATAATATATGTTAAAGAAGGTATCTCTAAACAGAAACACATAAATAAGGTTATAT
ATTTATCACTTAACAGAAATATTGTAACCAGAGGCTTGCAGGAACCTAACCCTRTATTTCCCCCAGGAGGATGGTTTAGGATTCACTAATTCATTGCTGG
CAGTGACTTTTTAGAACATAACTATCACAAAATAGCAAGAAGCGACTATATATTCAAAATATTGTAATCAGAAATGGCCTAGTGAACAAATGGAGTTATT
TCAAAGGAAATTCTTATGACTCATTTATTACTTCCATTTAGGTCAGTCTTTTTCTCCTCTTAATAATATTTGATTGATACATACAAGTTTTCTCTTTGAG
GAAAAATGAAGCATTTTTACAGGATCCCTTTAACTCTTCCAGATATTGGTCCTAAACCCTAGAAAATCCTGAACACATTAAGAACTCTATTAGAATCATT
TGACTGTATTTTTTGGGGCATGATGTGGTTTGAGGTATTATCATTTTAGTTTTTAATTTTAGTAAGGCACATACATGGTACTTTTAATATCAATGACTAG
CAGTTGTTGAGTGACTCCTATGGGACAGGATCCATGCTTGGCACTTGACWTATAACATCTCCAGTAACAGTCCTACAAGGGTTGTGTGGTTATACTCTTT
TTATTGAGGAGGAAACAGTTTGTTCATGGAGGGCAATTTCCCCAGGAGTGCCCACTTGAGAAGTGAAGCAGGAATTCTAAACCAAGTCTGCTTGTTTTCA
AGTCCTAAGCTTTTTCCACCTTTTTGCACAGCCTCGTAGGCAAGCATACCTTCATATATTCGACAGGGTGGTGAAAAATGACTTTTCCTCAGATTTAATT
TGTATTACTAAAAAAATTAAAAATCGTTCAAACCTATGCAGAAATCTCTCTATTTTCTGATACTTTCATTATTTTTACATGCTTTGCAATGTACTTGACC
ATCTAGTACATTTTAGAGCCTTGATTCAGAAATCAGAATTTTAGCATAAGTGAATGGGTTCTTATAAAATATCCTGATCCTTGGGCTTTRCAAAATAKTG
TTATAAAAATTACTGCCAAAGTGCAACTAATATTTTGGTTGAGAGAGATTCTTAGAATTCAGACATAGCCTTAGAATGGGAAGTATTTTGGGAAAACAGG
AAACTTTTTATTTTAGTAATACCTTATATTTTTCTTACTTTAGCAGGAACTCAGGGAGTGAGCTACAAGTGTATTATGCTTCACCCAGAAGTTATCAAGA
CTTTTTTGAAGCCATCCGCAGAAGGGGAGACACATTTTATGTTGTGTCATTTCGAAGGGTAAGTTCATCTTGAAAGAATAGAGCAAATATTTTTGAGTGC
TTGCCGTACACAAGACATTGGGCTGAATATTGTGGAAAATACAAAGATGTGAGAAATAGGAAGCAATATAAAATAAATTATGTGAGTGRAACAGTCTAAG
TACTGTAATATATGCTTTACTTTGAGCTGTTGAGTATTATAAAGATGAACATGGAATTGGTGTCAGACTATGAGTTTGTATTTAGGAAATATAAACTACT
TGTTGATTTTTATTGTTTGTAATCCTGATAGCCATGCTGTTTATAAAAAAAGGAAAAGTAAAAACATAAAAATATTCTATTTAGGCTTTTCCTATTTAGG
CTTTTAAACCAATTCCCATTTGGTTATTGAGAAACAGACTTCTGAAATGTAGGTTTGAGATGGATCATGGGCTGATTATTAATTGTGGAATGTTTGGATC
TATGTTCCTAAGAATCTCTATTCCTCTTTTATCTCTTCTTAATTAAACATTTGGTTGGTGAAGAATGTGTTAGATAATCAGTTAGCTTATGTAAAAGTAA
ATGTTTATACTAGCACTTTTGAATGTTATGAATGTTAGGCTAAATGGAAAAAATGCATAGCTGTTTATATTTCATCTACTTTTTCTATAAAATGAAAATA
TTTTCTTCATAGAATTGCCATGTGAATATCTCTGTTAGAGTGCTGTAGGTTAACCCAGGAGCACATGAATGAATTAGAATTCCTCAGTGGTGGTTTCTAT
CCCAAGCTGTTTTTTCTTTCTTTCTCTCTGTTTTTAAACAAGAGAAGGGACCTCACTGTGTTGCCCAGGCTGGACTCAAACCCCTGGGCTCAAGTGATAC
TGAGTAGCTGGCTTTCTTTTTTTTTTTTAAGAATACACTGGGTATGGTTAGAAGTAAGTACAGTTGACCCTTGAACAACACAAGTTTGAATGAAGCAGGT
CCATTTATATGTGGATTTTTCTCAACCTTAGCAGGATGCCAAACCCACTTATATGCAGGGCCAACTTTTCACACATGTAGATTCCACAGAGCTAACTGTG
GGACTTGAGTATGTACAGATTTGGAGTTATACAGGCGGCTCTGTAACCAGTCCTCCACATATACAGAGGGATGAGTGTCTATACTAACAATAGAATGAGC
AAATTCATTCTCTGATTATTACCACTCACTGTCACTGAAATTCTCAGTTAACTAGTTAATTCTTTTCCTAAGGTATAAATATCTAGCAGCTCAGGTTTTT
AGGACCAGAGAACTTTGATACTTGAAAACTAGGGAGATCAAACATCTTATATATTTTCAGTTATTAATCAAACATGCTAAGAGATTTGGAACACTTTAGC
CRTAGCGTCTCATGATCACTGCCTTTTCACAAAATTCCCTGTGTTCACCTTACTCTATCAGACATAACTGGTATGTTTCTGTACAGGACCAGCCTCAAAG
TTTCTTTTCAGCAGCAAGGGGGCAGCTGAGAACAAWGTTTCCTGCAAGGCTCCAACTGTACTGGTCTATGAAAACAAAGTATTTCCCTTACTATTGACAC
AATTATGTTCAAAGTAGGAGAAAAAAAGTAAACTTTTAAGAAGATTCAGTACTATGAAGAAGAAACCTGCTGGGTGTTAAAATGATTGTGTTGAAGTATA
TTTTATGGAAGTTACTGTAGGAGAATGTTTTTAACAYTCAAATAGACAGTTTTTCTGAGGTTCAGGATAATTACTGTATTATTTGATCAAAACAGTATAA
CAGATATTAGAAGTAACACTTGTCAAGCCATGGATTGAAGTCATGGTTAGTAATGTTTTTCTAAGGGAAGAGAACAAGTATTTTTTATAGAGAAGACAAT
CCTAGCTTTTTTTTTTTTCTTTTGAGATGGATTCTCTCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCCAYCTTGGCTTACTACAACCTCCACCTCCCAG
GTTCAAGTGATTCTCTTGCCTCAGCCTCCTGAATAGCTGGGACTATAGCCGCATGCCACCATGCCTGGCTAATTTTTGTGTTTTTAGTAGAGACGGGGTT
TCACCATGTTGGCCAGGATGGTCTCCATCTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCAGAGTGCTGGAATTACAGGCATGAGCCACCGCGCCCA
ACCAATCCTAGCTTTAAACAGACTGTATTTTTATAAAAGACAGTGAATGGCGGTTTAAAAAATATATATGCATTGCATTTTTTTGCATTTGTAAAAAGTG
ATTTCTCATTAGTTTGCTATAAAAGTGCTGTTAGAAAATTATTGATTTCCACTCCTCCCTAGTCCCTTGATGTTCATTCAGGAAGACTGTTAGGACTGGC
TCTCACACAATTACTATTAGGAGTATGTCTAACATTCTGTTTCGATTTTTCATTTTCAAATTACTGATTTATCACATTTTGGTGTTTTATATCAAGGAAG
AGTAAAGACAAATGAACTGAATTAGATAATAGTAATTAAGATAACATCCTTTTTATTTTTTTTGTTTTGTTTCAATAGTAGGGAAAAGGAAGTTAATTTT
ATCTTGATGACTGTAAACTATGTTATGGGACAGGAATTTTGTTCTTTAATACCTGGATTGTTCTTTTTGCTCTTGCTGAAATGAAAATGAAATAATAAAT
TACCTCATGCTTGGTCTTCTTTCATCTTTCAATATAAAATATTCTAACAGTTTCATTAAAAAGGTGAGTGGCATCATTTCTTGTGCAGAAGGATGTAGAC
TTTTTCTCCCACTTAGGTTCTTAATTTTATTGGCAGAAATTATTATAATTGATACTACATTGGAAATTCAGAAGAAGATTCCAGAGCCCCAGGTTTCGGC
TTAGCATGAACCAGACATTTATAACAAAGCCAATAAGCAAGCTATGTTATTTTATTTTATGAATGGACATGTATTTAACAAAATATTTTAATATCTAAAG
ATGTAGAAGTAGCCATTGACTGTTTCGTACTGTTATTTAAGCCACTCTCTCCCAAACTTACACTCCCTCACACCCTGCATTCCTGTACCTTTTAATCTCT
TTACAGTTGAGCGGTTGAAATTATTTTCTCTAAAGCAGACACACTCTTGGATAACTACTGAGTTCCTGTTATAGCTCAGCAAGAAAAAATGCTTATGATC
CCAGTACTCCAGACAAAGGTCCAAAGTGCTTCTGTTCTTTTGACTCTCCTTAAAGAGTTTTTACCACCAACATAGTAATCTATTCGGCTTTCTTTGCTTA
GTTCCAGTTATTTGTAGCTTATTTTCCTGTAAATACTTTGCCTTTTTCTCCTCTCTTTGATTTGTTTGTTTTAGTATGATTTGGAGAGGGAGGTTGGAGA
ATAACTTTTTCTCAAACTTCCAAGTCACTTTGAGTGTAGAATAACTGATACATTAATAAGAAAAAAATCCAATTAAGTTTAATGCCTTTTTTGTTTGTTT
GTTTGTTTGTTTTAAGAGACAAGGTCTCTGTTGCCCAGGATGGAGTGCAGTGGTACAATTATAGTTCACTTCAGCCTCCAACTCCTGAGCTCAAACAGTT
CTCCTGTGTCAGTCTCCAGAGTATCTGGGACTACAGGAGAGTGCCACCACATCCAGCTAATTTTTATTTATTTTTTGTAGAGATGGGGTCTCACTTTGTT
GCCCAGGCTTGTCTTGAACTCCTGGACTCAATAATGCTTATTTTAAAAATACTTTTGTGGCCAGGCGCGGTGACTCACGCCTGTAATCCCAGCACGTTKG
GAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGG
CGTGGTGGTGGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGYGGGAGAATGGCGTGAACCTGGGAGACGGAGCTTGCAGTGAGCCGAGATCGCGCC
ACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAATGCTTTTGTATGATAGTCTATTTAGGGAGGGAGGGAGGAGGTTGATTAAA
TAATATAACAAAATTAATTCAAGAGCTAAGACAGAAACAAATACTCAGGAAAGCTCAAATAAAGTTAAGAAGAAGATGATTTTAAAAGGGCAGAAAAGAA
ACATTGAGAAGAAAGATTGGGAAATGATATTAATTTATTATTTCAATACACATTTAAATACCATCCTTACATGTAGCTGTCTCATCCACTAATATATAAG
GAAAGAATTTCTTCCTGGGGCAGTTTTTCATTAAAAACAGGTTCTCTTTGAATCAGATGGCTRTGAATGTCAGTTTGCCATATTATCTCTACTTGTTTAA
TATTTTTCTTTTGCAAATGAGATGGATGCCTACTTTGGGAACATTTTTTATTTCTATTACATTTTCTGTTTTCAGTACCTGTCTCAAATTGTAAGTAAAC
ACGTAAAGTGTCTTTTCATCAGTTTCAAATACATACATAATATTACAGAAGAATCTGAGCTATAGCCATATGACTGCCTGAGAGATGTCTCTTTCTCCTC
TCTTTCCAAGTATTTTATATATTCTAGCAATAGTACCATATTTGGGTATGCACCCCTTACTGGTCCCTTATAAAAATTATTAACACTGTCATATATACGG
CATGGATTATAAGGGTARCCTTAAGTAATAGGGACTTATTGTAAGTTATGTGAGATTAAAGAAGCACAGGAAACTGGCTCAGAATCCAAATAATCCCTCT
GTGCTTGTGCTTCATTGGGTGGAATGTATACTAGTCTTCATGGAGAATTGGAATAGTGGTTTATTGTCATTTCTGATTTGACAGCAGCTCCAGTGATTCC
ACTTTAGTCTTTTTTTTACACTTTACTGATTCATACTCCTCAAACACAAAGATCTGATTGGGTAGTTCTGGTCACCATCTCTTACGCAGAGAATTACTAT
GGCAGCTTTGGCTTATGATCCACAGTTATTCATTTGTGACAAGAGAAAAACCTGGGGCCACTCTTCTGAGAAAATGACTTTGGYAGGCACTGGGAGCTTC
ATAAACTACTATACCACACAGCCTGTTTTTTTTAATTATTATTCTTTTTTCCCCGTTCTTAGTAAGTGTGCATTAAATTCTTTCTTGTATTGGTTCCTAA
TTGTTTGATCTAAAAGGCCCATCTTCTCATCTATATGATAAGCCTTTTGAAGGCAGGAAATATCGTATGCTTTTGTGACTACCCCTGACACTCAGCAATG
CCTACCACTGAGTGCTTACTGAACAGAATGGTTTTAGACATGAGCCATTGAGAGAAGTCACAGTGATGGAAGTTTGTTGTTTTTCATAATCATTTAAAAG
GTTTTTTTTTTTACATTGTTTTGCTTAAAGAAATTGGAATCTATTTTACTGATCTAAGAAGTAATATAAGCTGTGCTGAATGCCAGTAGAAAGTTTAGTT
AAAGATGATCTCTGTTTTGTCCATTTATGATTTGCACTAGCCAGATATCATCAGCTTATTCTTGTCTCTGAATCTAAGCTGTAGAGCTAAATAATTCACC
TGAGTGTAGTGTTTAACAGCTTTCTATGTCAGTAAGTAGAACTTTGAGATACTTGCATCTTCATTTAAAATTATTTGTTGGCAGCATTTTGGAGTAGATT
GTTGTTAGACCTCACTGATTTCTTTTTTGGAGAAGGGATGGGTTCTACTATTTGTACAGATTCAAGCAGTAGGAGCCAGAAACTTGAAACTTTGGAAACA
CTGTAGGAAATACTGTGATTATTGCAAAAAAAAAGGTTGACTAGTGGTGTTATTTGTTCAAAATGTTTGCCAGAGGTTTAGTCCCACGGATGGGCATAAA
AACGAATTTCAAAAATAGCAATGATATTTTCTAACTTAATACCTAGATTAATACCTAACACATGAAGAATGGCATATTTTCTTAATGCCTGTTATTTATT
TCTTAGAAATTTATGTTTAGTTTATATGCATATATAAAAATTCAACATATGTATATATATAAAAATTCAATTGTATGTATATATATAAAATCTTCAGAGG
CAGGAGGAATTTCTTTAGTATCAAAGGAAATTCATTTATAAAGTCTACTTCAAAAGGGTACAGCTCCTTCTTTTGTTTCTGAGACCTCAAAACTTGAGTG
TACACATAGATGTTGGAGTTTGGCCATTTTCTTATCTCCACTTTCATGGCCTTTGAGCCAAATTCTAGCTGGAAAAAAAAGTGAATAGATGAGTTTGGAA
AGATACTTGCATTTTAGAAAAGGGTCTTATCTCAGAAGAGAGATGTTTTAAAAAACCTTCTTTTAGAAGGCTTTTTAAAATTAATTTTTAGCTTTAAAAT
ATATTCTCATTCAGGTCTAAAGCACATTATAAAAAAATAGAGCAGAGTTGACTGAGTACCCTAGGTTAATAAACTTAACCTAGATTTATTTAATCATTAT
GCCAATAATGTTCTTTTTATATGTCCATTTTCTATTTCACTTTATTRTATACAAATATTAACACTTCAATGTATACTACCTTTGTAGTTTACAAACCTCT
TTCACATACATAATCTTAGCAATTCCTTACATATAATCACAAGTATTCTTAGTCCTATTTTATGGCTGAAAAAGCTGAAGCAAAGAGAGATTAAGTAGCT
TATCTAAGGACACAAAAATGGTAAGCATTAGAACTAGGGCAATAATTGATAGATTCTAATTTAATACAGTGATTTTTTTTTCTTTACATTGTKGTGCTTT
TTTCTTTATATCTGGCACTTTTAGATGTATTACAGCATATGTAAATAAATTAATCTAACCCTCCAAAATCAAGATATTTCATTGAAAAATCTGCTGGACA
GTTTTGGCAGATTCATTACACAACTTCAAAAATTGTTTGTTTGTTAATTACCTGATTATGTTTGTTTGTTAATTACCTGTTAATTATAATTATAGATTAA
GTACTTTAATAGATTATGCTTTCATAATGCTGGAGAATAACTTAATGGTTTGAAATATTATAGTATAGCTTCAGATTTCAAGTCAGGGAATAGAATAAAT
AGGCCTTGAAAGTTTCTGGTTTCTTTTTAAAACAGTGTCTGAAATTTCCAACATGGTGGAAAAGAAATGTCTTTGCTTTGTCTTAAAAAGGAAGTAGTTT
AGCAAAAACAGAAGCTGTTTTAATTATTGGTATTCTAGAGCTTCTCATAGAAAAGAGTGGGGTTTTTGTGTGTGTAAATACATTTTATTATGGATTCTGT
ATATGGCGTGCTAGATCTTTGAGATCAGAAGCATTTGATCTCAAACTCCTTGTTAAATGTGAGTTACTGTTGTGTGGTTTTAGAGGATTCAACTATTTGT
TCTTTGTCTCTATAACATTGCTAGCTAACATAAAAACATGTTTTTTACTTACACTTTTCAATCACAAAGTCTAAAATAACTTGCTTTATGTTTGAGAAAA
GATTGTTCAGTAGTCTGTAAGTAGACTTGTATATAGCCACAAACAGAGAACTTATAACTCAAGAATAATACGAAGTCTTCAAAATTCTCAGAATGGTGGG
CAGATCCATCTGAGTCATGATAATTTTTCAATGGTTCTTATTTGTTTGCTCTATTTGGTAGTCTTATTATTATGAAATGTGTTTTTCATATGCATTTGTT
TAATCTCCCCTTTTCAGGTTGTATGCTTTCTCTGTGCAGGGATAAAGTCTATTCATTCTGTTTTGTCTTTTACAAGATCTATTGCAATGCATTGCAGGCT
CGGCAGAGTAAGTCCTAAATAAATGTTGACTACTCAGACCACTAACTGTTTATTTGTGTTGTTTACCCTTATTTTTTATGTCCTACTCTTCAAAAGATTA
CTAGAGGTGGGGTTTGCAGAAACAAAGGAGGACATTTTTCTCAATGAATGTTTAAAATTACTTCGGTGACTTGGATAGCAATGAAATTTTTAAGAATATA
TAGTCAGCTTTGGTGTGGGTGGACTTTTTGCTGTGGAATAGAATAATTCCTGAAAGACTTCTAAAGTTACTTTGAAAAAAGGCAGGAATTAGGGTGGGAG
GTGGGAGAGGAGCAGAAAAAATAACTATTGAGTAACCAGGCTTACTATCTGGGTGACCAAATAATCCATACAACAAACCCCCGTGACATGAGTTTACCTA
TAAAACAAACATGCACATGTACCCCTGAACTTAAAATAAAAGTTAAAAAAGAAGAAAGGTAGGATTTAATGATTGATAGCTTAAAGTTCTCATCAAATTT
TTTGTAATGAGGGAAGAAAATATTTCCCCAAAGCAGAACTGCATTCCCAGAAAGAACATTTCTTCACATCATGAATATGTGAGGAAAAAATGTATTTTAA
ACAACTGATAGGTACAGACCCTAGGAACCTGCATTCTAGCCCCAATGTTGCCACTCAGTGACATCTGCTATGTGACTTTAGACAAATCACTTAGTCCCTC
TCATCTTCAGTTTCCTTATATGTTAAGTGATAAAGTTAATGTAGATTTGCTTTTTTCCTTCTGGCTCCAGAAATCTATAGTTTTTATCTGTGTGTTTGTG
TGTGTGTGTGCTTTCCTCTTAGAAAGCTGTAGTATTGCTTTAAACTCTTTGAAGTTACTAAGTGATTCAATCTAGTGGAGTCAGTGTATTTTAAGAGTTT
TGAAAAACAGCCATAACAAAAACAACAAAATGTGAAGTTACAAGGTGGGGCTATAAATTAATGAGTTTGTTTTTTGAATAGCTGGCAGTTTTGTAATTTA
TTTAATAACACTTATACAGAACACAATACGATAATCTTTAATCTTTATAATTGAGATAGGTGCAGTTATCATCATTTTACAGATGAAGAACCTGAGGCAG
TCGTGTCCATTGTGAACTCCAATAAGAAAGATTAAAAAGAAGGAAGAAAAAGTCCGCTGTAGAAATGAAAAAACAAATTTATCCATTGTGACATCRTTTA
GAAATAGCAGTCAGAATTTAACCAAGAAAGTCTGGCTCTATGTTCTTGATCATTTCCCTCTATTGCCTGTTTAAGATATCCAAATATCATATCTTTGAAG
GTAGTCAACTTGGAGTTTAATTCCGTTGATCTCTCTTTTCAAAACATATTTTGAGTTGTTTCRGGATCATTTTCCAGAGACTAAGACAAAGCCCTGTGGA
AAACCAAGCCACATGTTACTCAAAGTAATAGTGTAGGAGGAACAAGAGCCAGCAGGGAAACACAGAGGAAATTATTAGAAATATAGGAGAATTGGAAGAG
TACAGATGAAGGAAAATAAATCAACTTGTTTATGTTATTTTAAAACCTAGAGGTCAAGGAAGAGTTCAGAAAACGAGGCTGTCAGTGGTATCAGATGTTA
TAGCGCTCCCTAAGAATGAGAAATGAAAGAAACTCATTTGTCTTGTGTAAACATTAAAATCATTGGTAACTTGAGATTACATTTATTGTAGAGTAATCAG
AACAGAATCCAGAAAAGAGATAGAAGAGAATGGGAAAGAAAAACAATGGTTTGGTAAATCTGACACTGGAAGGAAATGGAGATAGCCTAGATATAGATAA
GGAGAAGAGAACTAAGAGTGTGTATGTATGTGTTTGTGTTAAGGACAGGAGAGATATAGGGATAGGGTATAAGGTAAATAAGGACTATTGTAGTTAGTTT
ATATACATATAAGAATAGAGTTTATGTTTTATGCTTGACAGATGTTCTAAAGGAAAATAAACAAGTCATTGTTCCTCCTCTGTATTGTTTTCTGTTTAAA
GTAAAAGCATGGAGAAAGTTGAACAGTTTTTGTTTATTTGCAGTAGGACTACAGAAAAGAAAAATAAAAGAGCGTATGGAATTAAAACCAGATTTTTGAA
AAATCAAATCATATTTAAAGTACTGCTTGAGATATCAAAAGTCTTTTAAATCTTAAATACAGAGCTGGTTTTTAATAATGGTAAAGAGTTTTCAAAATGT
TAAAGTTTATAGAACTATTTCTCATTTAATTATATGTAAATGGTTTTATAATTTTTTCTCACATTAAGTTAGAAAACTAGCAAAGTAACCTACATAAAAT
TTGGTATAACCTTTCTTATGATGTCACAAAACTTAATTATGGAGGAAGCAATTATTATAATTAGGAAAAATTGATGACTTATGATCTGACTCAGGATCAA
GGTCTGAAACACTCATGTCATTTCCTCCCCTCTCCTATATAGTATACAGTGATTTGTTCATTTTGGACTCTTAATATTTTAACTTTTGACACCATCAGCA
AATCTAAACACTGACAGTTGGTGTTTTCCTGAAAAATGTTAAGGCTAATAATTGTGTGATATTTATTTCAACACATTGCTGCTAGTCTTCTATAAAGATC
TCATTATGGGTAGGCTTTGAAGAGATATCCAGTTCATAATATGGGCATCACACTGGAAGCCTGCAAGATGGATGATTGGCTGAGAGTAGGAGTGTAGTTT
CTAAATAATAATAAGTCTGTTTCCCCTGCTAGGAAGTACCCTGAGGGCAGGAACCCTCTATCTTAGTCATGACTTTGTTCCCAATACATGGTATATCAGG
CATGTAGCAGGTATTCAATAAACATTGAATGAATAAAYGAACAAATTAATTAGATACCAAATCCATCAGTTTGACACTATATTCTAAATTAGTTTATATA
GTCACCGTAATGTGATAAAGAAATTGTGATAGTCTAGTTTACTGAGCATTGTTATCAGGACCATCTGTGTCTCATGTTTAAGTCTAGAAATCAGTCTTTG
AAAATGAGTGAATTCAAATGCATTTTTAAAAGTCTAAGTGCCATTTTGCATGAGGGAAATTATATACCTAGTAAGAATTTCTCTGGGTTTCAAAGTCAGA
ACACTGATCTTGGTAATACATGGACAGAAAGGATTATTTTTCAGTTAGGGTGTTAAACAGATTGTGCTATCATTTTAACCTCTGGAATGAATAAGCCCCA
GATTTAATAAGCTCCTTATGTATAAGATGCCTGTTATAATGTGTCTGTAATGTCCTAGAAAGATGAGACTACCCCTGCATAGTGCTTATTTCTTGCATGG
AATGAATTTAAGATAAGCTTGTCAAATTTTAAATCTGACATAGACTATCTTTTGAATAATTTATTTGGAGTCATCTCTGTCTGATTATAATATGCCCTAA
AATAAATCTTGAAAAATTAAAATATATCATACAGAATAAACAGTCTACATGTAACAGTTAACAGTTACATGTAAAGTGTTATTCAGATTACATTTTACAA
CTATTTCTTTTCTGATTCCATTTTTTATTGAATAGAAGTTCAATAAATTTTATTCTGTTAAGAATGAGTCTGTCTTGGAGAGGGTCAGTGTCACATATTT
ACTTTGAAGTTCCTTAAAGAGGTTAGTTGAATTCTCCCCCCAAAATGTGCTTTGAATTAGCAGCTTTTGAATATCTATTCTAGTAGAGGTAGGAGCAATA
TGAACTAGAGAGAATGATATGCAATAAAAATAATAATTTTTCTTTGACTTTGGAATGAGGATAATCTAAACCACAGCCATGTAGGCAGACATTTTCTGAT
GTATGTAGGTATGTTTGCATGTCTGTCTATCTATCCATCTCCTTGTTTTCTATATATTTGACCCTAACCTTTCAGGCTCCTATTTTGCCATCAGGTCCAA
AACCAAACTGAGCGATAAGAGAGTGGAGATCCTTAAATCAGTGGTTCTCAAACTTTTTGGTTTCCACATTCCTTTATGTTTTCAAAGAAACATTAATGAG
AAGAGTAGCATTTTGTTAACATTAAGAAAAACCTCTTTAATAACTGGCTTAATAGAAACCAGCTGGATTCTTATATCTGTTCTTTTTGGTCAAAATATAT
GAAGAAAATCCAGCCTCACACAGAGATGTAATTGGAAAGGAAGGACTATTTTAAAAGCCTTTCAGATAATTGTGGGTATTCTTTGATGCTACACCAAAAT
GCAACAAGAGGTAGTTTCTTAAAGGTTAGTTGCAACACGGAAGCCAAATCTGTGAACTTTTAGTACTCTGAAATTAAAATCCATTGGTTGATCTTGCACT
TTGAATGGATCTTTTACCTGTGCAAGGTTTTGTTACATCATACATTGGTCATTTGAAAATACTGGTTCACTGAGTTATGCAGATCTTCCAAATGTTGACA
CATTTTATTATGTATTAAAATGTCACATTCTTTAATACTATCACAAATCTTATCAGAAAAGTCTTTAAATATTGTGAGCAGTTCATGGTAGCAGATAGAA
GTTTTCCAAAATTCTAGTTTTCACTTGAGGGTTCAAATTTTATCATTGTCAAAAATATGTCAGTTTTCCTTGAAGTGGTAGATTCACTAATTTATTTTCA
AGAACATATCTGTCAGATACCCAAGGCTAAACAACTATAATTTATCAGTCTTTCAAGTAAAAGTGGTGTTCCATGAAGAAAGTAGCTAGTGCAGCTCACA
ACTCAGTTACACAAGTGGTTTTCCTCTAGACAACAATTGTACTTTGATATGCAGCAGAAATGCTTTATGTGTATTTCCCATTTTGTCGTACAGAATATTA
AAAAGACTTCTACTCAAGGGTCAAGATTTCATAAAATTAATAACTTTTATTGCTTCATCAAAGACTTCCTTCAATTACATTGACTGTGTGTGGTATGTGC
ATGTATATGAACATAGGGCAGTAATATGATGAACTATATAATACAGTTTGATGTTGCTGTCTTAATTCATGCTAGGGCACCATCATTGCTTTTGCATCAT
CAGTGTAAATATCAACACAGTTGTTTCAAGATAAATGATGAGATTTAAGAAAGTTATTCAACACTGAATATTTCAGTACTGTTAGTGTTTGTTGCCAAGC
ATTCCTATAAAAGGTCTTTGTTGTTGATTACTTGGGGCTCATACTGAATAAATCTAAGCAAAACATAAAGTTTATAGATTCTTCCATTTGTAAAACAAAA
GCACAATTCTGTAGTTGAGATATTAACTCAGCCTTCGTATTTGCAACTAAGTGTAATTTGATGAATTAACATATGGTTGGAAAGTGTCATGATTTCTTAT
ACTGACTTTTCAGCAGGCATTGAGCAAGGTCGATTATCCACAATTTTATTAGTCTCTCAGCTATTATATGCACTTTTTCAGTCATTGCATTATATTAATA
ACTTACAATGTAGGATACTTCCGTGGTCTTTTCATTTCCAGTATGATAAGCTGTAATAGAATTTTTTTTTAGAGGATTCTTCACACCTGTGTTTAAAATA
TCCAGTTCCATTTTCTTTGAACTCTACATGATTGGTTTCAGAATGACATCACAACTTAATTGGCACCATTATAGTATTTGAAAGATTTTGTTGCATAAGC
GACAAGAAGATAGATTATTCATATGTCTGAAACAAGAGAAAGATGGCTTTCAATGTATGGTCATTTTTTATTAACAATTTTGACCAGTTTCTTTGCTAGA
TTCCACCTTTCCGTGAGTCATAAAATTCTCAAATATATCAGTTTTATCTTTTCTGTATCTTATATGTAGACAGTATAGTTGTGGGTTAAGGAGGCAAGTT
TTCTAATCTCCTGTCTTTTAAGCCAGCAATTCATTCTTAAATATAAGAAAAGTATGTAATAGATTTTTATATGAAATATTAAAATTTAAGAAGCTGTAGA
TAGATTTAGAAAACTTTTCCAAAAAGATTTAAAAATAATATTATAAAACAAAACAAAGTATACATTCTTCTTTGTTGTATTTAGATAGAAGTTTCAGTAG
TGGAGTCCATATAACTAAGCTCCATAATAATGTGTTTCATAACTTTCTCCATTATTCTACTACTAGATCATAGAAGGCTTGTTTCTCTTAAGGTTTAGTT
TTTTCATGCACTCAGAAAATAGTTTTTCAGGAAGTATGTACTGAGTATTCTGAGGATATGCAAGGAGCATGGGTTCCAGTGATAAATAATACATAGTCTC
TGTGCTCAGGGAACTTATAGTTTAGTTGGTGCTAACCAGATAAATTAGCAAAATAATTGACAGATATAGTAAGCATGATGAAAACACACAATGGACTCAG
AGAATAACAAGGATGCTCTCCTGAGACAGCGACATTTAGCTGATATCTCAAACATGGGGGGAATTCAAGGATTCCAGGCAGAGGAAAGAGCATATGAAGG
CAGTTAAGTAAGGCAGGAAAGAGCTTTATTTGAGGCACTGAAAGAAAACCAATGTGACAGGAGACTAGTGAATGGGAAGGGGGATGAGTAATGAAAATGA
GGTTTGGGAGATTGGAAGGGGCTAGTTCTACAAAGCCTTATGAGCTATAGTAAGTAGTTTGGGTTTTATTCTGAGGGCCAGCAAAGGGATTTAAGCAGCA
GAATAACACGAATGATTTAGTTCGTAGAAGATGTTCACTGCTACATGGACAATGCATTAGAGAGAGACCTATTAACAGTAGGAGCAGAGAGAGCAGAGAT
ACCAATTAGAAGGCTTTTTCAGTAGCTCCGGCAAAATGATGATGGCAGCAAAGTGATGAATGGATTCTAAATACATTTTGTGGATAGATTTAGTGAGAAT
TGGAGAGATATTAGATGTGTTCAGATTTCTGTCTTGAATTACTAGGTAGAAAGGACTATCATTTTTTACTAAGATGAAAATATTTGGGGGGCACGGTAAT
ATGTTTGGTATAAATGTGGAGAGTTATTTTTGGATACATTTAAATTTGAAATGTCTGTGAGACATTCAAGGGAATGTGTGCAATTGGCTCTGTGAATCTG
GGACTCAAGAGAGGATAGATCTGAGCTAAGAAGAGTAATTAAGAATTGTCAGCTCATACACATTTATTTATTTATTTGGAGACGAGTCTTATTCCATCTC
CCAGGCTGGAGTGCAATGGTGTGATCTCAGCCCCCTGCAACCTCTGCCTCCTGGGTTCAGATGATCCTCCTGCCTCAGCCTCCTGAGAAGCTGGGATTAC
AAGTGTTTGCCACCACACCTGACTAATTTTTGTATGTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAAGCTGGTCTTGAACTCCCAACCTCAAGTGA
TCCACCCACCTCAGCCTCCCAAAGTGTTGTGATTATAGGCATGAGCCATCACACCCGGTCAGCTTACACACATTATCTCATGGATTTACATGGGAATAAT
GGAGTCATCAAGAAGAGAGTATATAGAGAGAGGAGGGTTCAGGACCAAATTAGATTTTGAATTGGAGAAGGATGAGAGCAGCAAAGGACGGTTCAGGACC
AAATTAGATTTTGAATTGGAGAAGGATGAGAGCAGCAAAGGAGGAGGGTTCAGGACCAAATTAGATTTTGAATTGGAGAAGGATGAGAGCAGCAAAGGAG
ACTAAATAGGAGCGGTCAGCAAATAGGGAGAAAACCAAGAGAAGAGACTTTTGAATGGGGAAGGAGTGGTTTATTCTTGAATACTGTTGAGACGTTAGAT
AAGATGAAGGATTGGTTTTCACTGGATATGTCAACATGAAAGTCACTGATACACTTGACAAGAGCCTTTTAGTGATGACATGAAACATAAAAGTTAAAGA
TGGATTAAGTAGTAAGGAAGTGAGAACAGCATAACTATTTAAAAATGTTTGCCTATAAAAGAAAATAGAGAAAAGGTAGGGTTTTGTCTTATTTTCAAAC
TCTAGATATCAATTATATATTTTAAAGGAATGAACCCATAGATAGGAAGAAAGCAATGTTAAAAGAGAAGTCGAGTCCTTGAGAAGGGGCAAAAGGGTGG
AATTCAGATAACAGGTGGAAGGATGGCCCTTTGCTAGTAAGGCAGGACATTATGGTAGARGCAAGATGAGTTCATAGATAGGACCTTAGGTTCCAGGAAG
ATAAAGAGAAGACACTTCTAACAGTTTCTGTTTTCCCAGTGAAGGACATCTCAACTGATGTCATCAGCTGAAAGTAAGGATATTAGAGGAGGTGTAGAAG
ATTTAAGCAGAGAGGCACAAGTATGAAGTAGTTGTCTTGGCCAGTGGGATAGTGAGCCTACTAGAGACATTTGGATTGTGAGGCCTTGGTGGGGTGTCAG
TATGCCGTATGCTTTAAAGTCAAATCTCTGCAACARAATGCCAGGTGTAGAGTTACAGTTGATTAATAAGACACAGCCCCTGTACTCAAGGAGTTTGTAA
TCTAGAGAATGAAAGACATATAATTACAATATGGTGTGATGGTTGTGATGAACAAGGTAAATATAGGGTGTCATAAGAGCACACATTAACCAATCTTGGA
GGGGCTGTCCTATGCAAGGAGGTCTTCATGGAGACCTAACMGCTAAGCTAAGACCTGCCTGTTCTGCAAGTACCTTACTTAAAGCTATTACATAATAGCT
GCTGGGGATGAAAATATTCTAGAAGGTATGATAGTCACACTGTATTATTATATCTTTATGCAGTAGCTTTTATTTCTGCTGACATCATCAGGCATCTTTG
AAATTTCTTTTTTTTTTAACACTTYGAAATGCTGTGAAGCAAAGTATCATCCCTCTCTTTCCTCACCCTCTTCTCTTCCTTAACACCTTTCTTCAGTTCT
AGCTGTTGGCAGCTAGATGCAACTTAATAATGCCATTTTGTTTTCATTTGGCATGTCATTCATCATTTTCAAAATAAATAAACTTTAATTTTGTGCTGCC
ACAATCAGGAATATTTGAACATTTAGTGCTTATCTTGGGTATCTGCCCTTATTACTTTCTGAGGAGCTGCCCTTTATAGCAATCAGGGAACTATACCACT
TGGAAGACTAATTGTCTTTATACAAAAATAAAATCCTTGTGTTCAGATTTCTGTCTTGAGTGGCTGGTTTGAATCTAATTTTCTGTTATATGAAGCAAAG
ATTTATTATTTAACATAGTTTCAAAATTAAAATTGATAGTGAAATTTTATGTGCCATGCAATGTCATGTGTGTTCTTTTAAGGTGAAGATTCATTTTTTA
ATAGCTTTATTGAGGTATAATTGACMTATAATAAACTGCACATATTTAACACCACATTTTATGTGTGATATGTAKGTGTGTGTGTGTGTGTGTGTGTATA
TATGTATATACTTATATAGGTGAAATCATCACCATAGTCAAAATAATCAGCATCCCCATCAGTCCCAAAAGTTTTGTTTCTCATGCCCCTTTGTAATTTT
TCCCTGCCCTCTCACCAGTCAACTGATCTTTCTGTTACTACAAATTAGTTTATAGTTTTAAAAATTGTATATAAAGGGATCTTAATTATATATATTTTCC
TTCCAGCAGAATTATTTTGAGATTAATCCATGGTGTTGCTTGTATCAGTAGTTCGTCTTTACTGCTAATATTCTGGTGTAGGGATATAGCACAATTTACT
AATATATTCACCTTCTACTGTTAGCTACTACAAACAAAGCAACTGTGACTATTTGTGTACAAGTCTTTGTAGGGACAAATGCACTCACTTCCCTTGTGTA
AATACCTAGGAGTGGGATGGCTGGGTTATATAGTAGGCATATGTTTAGCTTTTTAAGAAACTACCAAACTACTTTGGTACAAGTGGTTGTACCATTTTAC
ATTCCCACCAGTGGGAATAAGAGTTGCAGTGCCTCCATATCCTTGGCAACACTTGATACAGCCTATCTTTTTATTTTTAGCCATTCTAATAGAGGTATGT
AGTGGTATCTCATTGTGGTTTTAATTTGCATTTCCCTAATAACTATATTAATTTTGACCAACTTTTTATGTGCTTATTTGCCATCCATAAATCTTCTTTG
GTGAAGGGTCTGTTCAAATCTTTCCCGATTTTTTATTGAGTTATTTTCTAATGATTGAGATTTCATTTTGAGGATTTTGTGTGTGTGTTGTTTTGTTTAG
CAGCTTAGAACACACACATTTATTATCTCACAGTTACTATGGGTCAGGAGTCCAGGCATAGATTTGCTGGGTCTTCTACTCCAGGGTTTCATCTGAAAGT
AACAATCACAGTCTTGGCCAGGGCTGCAGTTGCATCTCAAGGTTTTACTGGGGAAGGTTCCACTCATAAGTTCACATGATTGTTGGTAGAATTCAGCTCC
TCGTGGGATGCCGAACTAAGGGTCTCAGTTATTTGCTCAGTTGGAGATTCCCCTCAGTTCCTGCCACATGGGCCTCTTGATATGGCAGCTCACAACATGA
CAACTTGCTTCATGAAAGCCAGCATGGAAGTGTTTATGTTTACTGGTTTATTATGATTAACAAAGGATACAGATGAATAGCCCGATGGAAGAGATGCATA
GGGCAAGCTATGTGGAAGGGGTATGGAGCTTCCATACCCTCTCCAAGTAGGCTACCTTCCAGGCACCTCCTCATGTTCAGCAATCTGGAAGCTTTGCGAG
TTCTTTATGTATTCTATATACAAGTCCTTTATCAAATACATGACTTGTAAATATTTTCTCCCAGTTTTTTGCTTGTATTTAAATTTCCTTTTTAGTGTTT
TTCAAAGGGCAGAAATTCTTAATTTTGATGAAGTCCAATATGTCAGCTTTTTATTTTATGGACTGTGTTTTTATGGTTTTAAGAAATATTTGCCTAACTA
AAGGTCACAAATATTTTCTCATATTTTTTTTCTTAAAGTCTTACAATTTTAGGTTTTACATTTAGGTGTATGATCCATTTTGAATTAATTTCTGTATATG
TGCAAGGTGTATATCAAAGTTCATTTTGTGTGTGTGGATATCCAGTATTGTATGATATTCAATGCTGTGTTTTCACCTAATAGCTTTTAAAGGAAGAATT
AAAGCAAAGCCAAGTTAAATAGGTTATACCAGACTGTTAGTTTTCTTTGTGTTATCCTTGACTTTGTTAGGTTGCACATTTTGCTGGAACTTCTTAAAAC
AGTATCCTATGATTGAACTTCTTCAACCTCAAATTTCCAGTCTTTATACTTAACCAATGAAATGTTATTTATATACTCTTTGGAAACATAACATATACTG
TAGATAATTATARCAAAAGTGTAATGGGTAGCAGAAGATATTGCCAAACCAAAATTCTGGAGACCAGATGAGACAAACACATAATATGTGCCTGTATGGG
TCACAGTGCTAGGAAATACACTGAAAAGTGAACAAAGAACTAAAAATAAGCCTCTTATAAGAAAAGCTGCTACTTCTGGGCTAATCTATTAGTAGTTTGT
TTTCCTTAATTTGAAAAAGAGCTTCAGAATCAGACTCTAGAGTGAATCTTTTAAAACTATATATATTATGCATGTATACACATATACATACTCTATGCAT
TGGCTTAGATAATATAAAAACAGCACAGGAATAGTTTATGCTGTAGTATTGTGCAGTCTTATTCAGAAATAAGAAAAATAGTTTTTCCATTTAGCTGTGA
GTCATTACTTTTTAGTTTCGTGGAGAAATTAAGTTTTAGTGGGGGTCGATACAGCTTTTTTTTTTTTGTAGAAAATCAGGTAGCATGGGCTTTGGAGTCA
GACAAATCTCGGTTTTAATTTTCAGTGTCCTTATCTCTAATATAGTAATATTAATAGTTACCTCTTCCTGGGTTGTTGAGAGGTTTAAATGAAATAATAA
GTTAAGTACTGGCACAGTGCTTAACACATAATAGGTATTCAAGATATGTATACTTCTTTATCATCAGGGGATTGACCTTGGAAGCATATGGGTACATAGA
AAGAACCCATAAAAGGATATGACAAGGGGAGAGGAGTTTGTTTTCATTAGATTTAGCAAATTCATTCTTTCCCCCAACTCCCCAGAAAAATTCATTTTAA
TGCTATTATTTTCCTTATCACCCATAAACAGACAGAAAATTGGCATGTTTCGAAAGAGTGTTAAAACTGCAAGAGTATTACATGGTATCATTACACTACC
ATCCATTATCTAACTGGGTTTATTTATGAAGGTTAGATTTAGATAATTTAGACTTACCCTTTTTCCATTTTGTGGGGAAAGAGAATCAGAAACTTGAAAG
GAAGAGCTCTTCCAAACAGAAAGATAGCTAGAATCTCTCTCAATAGTCTATATAATCTCTTCTAATAATCTTTAGCAAAAGTGACTTTTGAGTTCTTTTA
AATATTTCCTGTATTGATTCTAATTCAGTGCTCATTTCATGTGATGTCTATAGAACTACAGACTTAGATTACAGTCAGAAAACTGAGTAACAGCAGACAC
CAGGTTTTCAGCTGTTTTTAGGGTTTATTCAGATTGACTACATCACATTCATTTGGATGGATTTAGTGACATCAATTGATAATTGTAAAGAAACTAGCCT
TTAATCTGACATTTTCATATTGATATTAGATAGGAGCCACATGACTATGTCATGGGTTCATTCACAAGATATAATAAACATTATTTTCACTTGTAGCATA
AAAGCAGTCTTTAGTGTTATCTTAGAAGCATTAAAACACACACATATATAAAATCATATAGATTAAAAAATTCTATCAGCATAGGTTCTGTAATTGTTAA
TAGATGTAATTGCATAAGGTCGCTATGCATTATTTCTCATTTTCAGATGAAGCCTGTCACCTTGACATTTTTATATATAATAGGAATCCACAGGTTGTTA
AAAACATAAGGAAATTAAGATAATTTGAATTCAGATTATAAAATAGTTCAGGTCTATTCTGATGAAGCAATGTCACTTAGGTCTGAGGCTTTTGGGTCAG
CTTTTAAAAGTTTATCTTATTTTTCATTAAAATATGTATGTATAATACTCTATCATGCAAAGAGAAATGGTCAACAGAATTTCTGTGCATATATGGTTGC
TGGTTATTTGAAAGCCATTCTCCTCCTAGGATTATTTGACCAATTTTGTATTCAGCTTAGATTAGGGAGAATATAGTGTCTCCTTAGGTAAAATACTTAC
TAGAACCAAAAAGTCCAGATTAAATTGTTTTTATTTTTATTTTACTGCAGTTTTGTGCAGTTGACCTGATTTTAAAATATAAAACTAGGAAGGCATATTT
TTCATCTACCAAAATGTGAATCTTACTTTCATTTTGAAACAAACACCTCTGCTTTAAGAAGATGAACGGTAGTGATAAATACAAAAACGTTAAAATTTTT
TAAATGAATAGCGTTTGTTGATCTTTAAAGAAAACATAAATGTGAAATAACTTTAGAGCTTAAAAGTTTTCTTCCTCAAACCTTTTAGGAATTGATTTTA
TTATCCAAAACAACTTTATTCATACTAAGTGTGACTATCTGAATAATTACCTTACTTTTATAGTTTTTTTTTTAAAAAAGCTCTTCTAACTGTAATTATC
CTCAAAGAATTGGATTAAGAAATTCAATAATTTTCTGTCATTAGTCCAGCGAGATATTTACTGAATAGCCATTACGTTCCTGGCTGTTAACACTACAAGG
ACTCCAGCAATGAGCAAAGCAAACAAGCCCTTGCTTTTCCAGAGCCCACATTCTAGAGTCAGATGCTAAACAAATACACAGATACATATATAATAAAATA
TTGGTTTAAGTGTTGAAAAGCAAAATCAGAGTAAGAAGGCAGGTAGTCATTTTAAATTAACATTGAGAAATGTTTCCATTTTAAGCATATAAATTCTTTG
GCTTCTCTTTTTAAATTTGCTTTTGACTGTTTGTTGCTGGCGAAAATTATTTAAAGTAATTAGGAACTCATCGTAAATATTTTGTACACTACTCTAAAAA
TCTAAYTCCAACTAGTGAATTTAGCATTTATAAATGGAGGTGTCTATAGAGGAATAAAATCTTTGGTTAACCACTACTTTACTTTTAGCAGTAAAGTCTG
CAGCTCATGAAATTTGTAATTCTGGAGTGGTTTCAGTTTGCACCATCCCCTGGGGAGCCTGTTGATACAGCACTGAGCTACAGATTATTATTCAGCTGTA
GAAGTTTTATGCTTAGGCATTTTCTTACATCTTCTTCTCTCAGTCAGTTGAAATCTTGTATTTTTGCCAAATAAAACAAATCCTATATTAATAAGAAGCT
ATAAATAAACAGTAGGAGCATGAGTCAGAGCCAGCATCACCCCATTCCTTGTGTGTACCTCTCTAGTACTCCCCAGTATGTTCCTTTTGCACAAACATGT
AGTACTGCGTAACTACTGTTCTACAGATGAACTCCAGTTATTTAAGTGAGGCCTGTTTTTTAGAACTAAGTAATACTGTAACTAGTAGAATTCTGGCATG
TTACCACAGTCAAAAGCAGAATGTGAAGCTGTATGCTATTGATGGGAGGAAAAAAGAAATATATTTCCTACCTTTCCTGTATAAAGCCCAGAAGATTCCT
GTTAGATTTCCAAAATGGGTTTTTATATAATATAATATAATTCAACATTTTTTTCAGAGGAAAAAAGAAAAAGATAAGTTGCTTGAAAGTCCCATCTCTT
TTGCTAGTCGGCTTCTGTCTGATAAAATTTTATTCTGTTTTGCTTCATTGTTTATTCATTCAGTAGATGTTCATTGAACACTTACTGTTACCAGGCACTG
TGCTACCATAGACGGTATAAAGACAAATAAGCTAAAATCCTTGTTCTCAAGGAATTTATTATTGTAGAGAAAAGTGACTTGTAAATCCAAAATTTCATAC
TGGGATAGGAACTATAAAAGAGACATCCTGCAGAATACTGAGATTATAAATAAAACTAGTATGTTTGAAGCATTTAGTGTCCTAGCTGTTTTATAGAAGT
CATTTCATTTAATCCTTTCAACAGCTTTATGAGGTAGATATCATTACACTATTTTACTTGTGCCAAGAGCACTACATTCATCAAGGAAGGAGGAGGTAGT
ATCAAATTTTTCAGAAAACAAGAGAGTTGGTTATAGAAGGATGAGTAGGGTAGAGAGTAGGAGGAAGATGAGGCAGTGTGGCATTTCAGACAGAGAGGTG
AATATGTAAGCACACAGGATGAGTGAGAGAATTGTTGGAATGTAGTCAGTTCTAGGAAATAAAAGATGGCAGGGTCCAGATCATGAAGTTTGGTTCTTAA
CCTGTAGAAGACAGAAATATGATCAGACTTGCATTTCAGGAAGATAACTCTGTAATTGTTTGCAATTCCTGTTAAACGAAGAAATTTTCTCCAGCATTGA
CTTATGTTTATTAAATACATATAAAAACTAAATTCTAGAAACATCTTATACAGTTATACATCACTTAGCAATGGGATACATTCTAGGAAATGCATTGTCA
GGCAATTTCTTCATTGTACAAACGTCATAGAGTATACTTACACAAACCTAGATGTATATCTTTGTTTATATTTATTTTTTCATATGGAAAACCAAATTTC
TTAGCCATGTTACTGAATGTCAGTCATTTCCCTTACTTGATCTGCATCACCAACATTAAGTGCCATGTATCAGATTTCTRTATATGTTCCATTATAATCT
CATGGGACCACCATAGTACATGCGGTCCATTGTTGACAGACACATCATTATGTGGTGCGTAAGTGTACTTATAGTTTTACAACTACAAAGTGAAGCACAG
AGAGGTTACATAACTTAGCCAGTGTCACACAGCTAATAAGTAGCAAAGTCAGGATTCGACATGTTAAGCCAACTTCATGGACTTAACCACAGTCCTGTAT
TGCCACTCCTCTTCATTTAAAGGCATGCATGCACATATTAGATTTGGAGACAGTTCTAGAGACACTGAATTGGCAACTACAGTCGACAAAGAGACATTGC
AGCAAGTACCTCTACGTTGTTTGTTTCTGTACCCTTAACTTGCAGTGGTCTACAAGAAAGAATGAAGGAAGGGAAGTGATATATTTGTCAACCCTAACTA
CATTGTAAAATGAAGCTTTTTTTTTTTCTTTTTTTGAGAGGGAGTCTCGCTTTGTCACCCATACTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACC
TCCACCTCCCGGGTTCAATCTGTTCTCCTGCCTAAGCCTCCCGAGTGGCTGGAATTACAGGCATATGCCACCACACCTGGCTAATTTTTGTGCTTTTTTT
TTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGTCTGGTCTCGAGCTCCTGACCTCAACTGATCCGCCTGCCTTGGCCTCMTAAAGTGCTGGGATTA
CAGGCTTGAGCCACTGCACTCGGCCTGAAGCATTTTATGATGCTCACTACCAAGTGTTCATAAGCGGTAAATAAAGCCCTTGGGCTAGGTAATGTAAGAT
CCATTGCAACCTGGAGATGAAGAACTTTGTAAAGGGGATAATTGTTATCAYCCATCAGAGCATCAGAGTTTTAAGATGATCTAGATTTAGTCCCACTAAT
TATATTTCTCCTAACTTTTATAGACAGAGAAATCAGTGAAAAATATGTATTTCTAAGGATTAAATCCCAATCCATAGCTCAAGGCTACCTTTATGTCTAA
TAGTTGTGATATAATATGTTGCTTAGAATAGGTTCTATAAATGGAATTCACACATAGGACCCCAGAATCGCTTCTTCACAGGGTTTCAGAGTTGGAGGAC
ATATAAAAGGATAAATCAATCCATAAATCTCTAAGTATTCCTAAAAGAAGAGTGGTGTGTCAGTTATTGGCACCAGTACATCATGAATCCTGCTGGGCTG
TGGAGAAAGGAGAAACTAACCTGAACAAGACTATACTCTACACAGCTGTCCCTGACATTCTACCACCTGTTAGCATTCAGTATTAATTTCATGGATCAAA
TCAAGGCATGCAAGTGCATTAAATAACTTTTTAAAAAACAACTGCTGATTGCTGACGTCTATGAGGGAAGAAAAATTAGGGGCTGTTATTTTCCTATCAA
CCATCACTCTCATTAACAAGAACAGGAAWCATTACGAATAAATAAAACTCTTACATCATACCAGAAAAAAGAACAGCTGAATCCCCTAAAGGATTTCATA
TTCTATCATCAGACAACGAAAGAAAATAATTCCATATAAATGGCTGCATGAATCATTGAAAGAAACTTCCCTGCTTTTTTAAAAGAGCAACTAGAAGTAT
TTACTTTTTGAAAATAGAGTAACCATTTGTTAAACYGTATATACCATTGAAGATGTTTTGGGTATAAAAGGGAATTTCCATAATAATTACATAGTAATCT
TTTAKAGCCAAAGTTATGAAGAAGATCAGGATTTGGGAAAATTGTGGTCAATATTTGATTTTCCTTTTCTGTTTGATAGCCTTATCTAAATTCCCCTAGC
TTGAATGTAGTAAATATGAGTGTGTAAAAATGTGTATCTAATTCACCTCTTGGGGGAGGTTTAATGTAACTATAAATAAAAATTCTTTCCCCAGGTTAAA
AAAAAAGTTACATAGTGTTTAATTCTACCTTTTCTCATTTCTCTATATCCAAAACTATCACCAAGTACTGTTAATTTTACTTTATAAAGCTCTCTTGATA
TGTCTCTTCAACCTCATCACCACTGCTTTAAATGAGGCATACTTCCTCATTTGGATTATGGCAGCAGTCTCTCTTCCTTTAGTCTCTCCTTCAAATCCAC
CTCCATCCTTCATATCATCCATCATGTATTTTTCCCTGCCTAAATTCCTTGGTTGGCTTCTATTAAATCCAAGTTCCTTAAGCATGGCAAACAGGGGCCA
GCTTCCACGAGCTGGTCCATACCTCTCCTGCCTTATTTCCTGACACTTTCCCTTATACCTTGAGATCCAGCTTGCCAGTATTTCCCCAATACCTCCACCG
CATATACAACCACATACATATACACCCTTATCCCCTCCCTCATGTACCACCCATATATAATTCTCTTTACCGCATCCTTTATCACACTCCTACAAGCCTT
GAAGCAATCTGAACAYAGAAACCATCTTTGATTTTCAACTCCTAATTGGGACTGAACATACTTGTCTTGAACACAGATTGCTGCCTTGTTAGTATAGGTA
TCCTAATATGGCACATGTGTATAGTTGAAGCTATAATGCATTCCCCAAGTTCCCTTTCAGGACTAAAGGGTTATTTCCCAACAGCTGGAAGTCCTGCTGC
CAGACAGCCTTCTTCAGGAATTGCCTTGTCCCCAACTCAAGACAACCCTGAAGGACCTTTCCCAGTTTTCCATGGGGTCCACTGAGGCCTTGAGATTGTA
CTGAAGTCAACTTCTCCCTCTGCTGTCGCTTCCCTTCCACAGGTGTTTATCACAAGAACAATCCTTAATAAACTTCCTGTAAGCACACTCTCAGAGTCAG
CTTGCTGGGGAACCCAAGCTATAACAACATGTTTATCTTGTTCACACTTTCTTCTGAGTTCTAAATCATGGGAAGTTACAGTTATCCAAAATCTTACTAA
TTGGAAGATCATTTCATCAGACGTGTATTGAGCACCTGCTTCATGTCAGGCATTGTGCCAGATACAATGGAAACAAATCAAGACTTGGCCTCTGTCCTTG
AGTTTACAGTCTGAGGTGACAGTTACATATGAACCTAACTGTATTAAAGCATCTTGAGAATCTTTTTGATTCAAATGTCAATAATTTTAGTATAAAATTC
AAAAGCATGGATTTTGTGGTGTTACAAAGAACAAAAGGAAAATATTTCAGGGGAAGGAAAATGAATATAAATAAGTAGAATGAAATTTTAGAAGAGCACA
GAATTTGTCTTTATAATTCTGAAAGCCTTTAGGGAAAAGGTAATTTTTTCACTTTTTATTTTGACATAATTTCAAACTTACAGAAAAGTCACATGAATAC
TGAACTCCCATACACCCTTTATGCAGATATATCAGTTTTTAACATTTTCCCTCATTCTGTTTCTTTACACACATACAAATTATTTTTGTGAACTCTCTGA
GAACAGGTTAAATACTACATTATATCACTTCATACCTTAAAAATGTAGTATTTCCTAGAAACAAGGGTATTCACCTCCATAACCACAATGCAGTTGTCAA
ATTCAGGTAATTTGACCTTGATCTTTAATCTACAGTCCAGATTCAGATTTTGTTAATTGTCCCCAAAAAGATGAGTTTAGGAAGAGTCATATAACTTAAC
ATTTGTAATGTAAATTAAAGATCTCGGAAGTTTGCTAACCTGATTTAAATACCACAGTGAAATGAACCACTTCTGATTTTCTACGGAGAAAGCAAGGGTT
AGGTCCAGGTTACCTGTAAAGGTGTGACTTAGGGCTCCCCAGAAGTGAACCTTGCTCTGGAGACCCCATTTGGTGAGGTTCTTTTCAAAAGAGATTGTAT
ATTTTTGACCCAGGGATTGTCGATTTGTTGAGCTCCCATGTAAGTATGCCGCCTTGCCATTGACAGGTCTTCACAATGCTTTCTTAAACGACATTCTTTG
GAACTGTCTTTCATAGTCAGGCGACCCGCCAGCCAGGCCGCCAGGTAGGTGGAAGGGCGGCTTCGGGAACTAGATCCGGCTGGTTCTCTGCTAACATGTG
GTCCTCGATGCTCTAGCGGATTGGCCCCAAACCTCAGCACACAGAGCTTTGGTAGGGCTGGGGATGCMGGTCAGCCTGCTGAAGGCGTCTAGAGGACTTG
GGCGGGGGCGTGACTTCCTGCTGCACCACTTCCTTTCCAGCCACGTGGGCTTCTGGGACCCTATGACATAATTTCTGGAGTGGTCTGTTGGGAGTTGTGG
CGGCGGCGAGGCCCAAGCACAGCTGGCCAAGGCGGGTGTAAAACGCGGGTCGTGTCCACCCCAAAGCTCGACGCCTCTAGAAGCCATGGCTTTTCTGCTG
AAGCTAGAGCCGGACATGCAGGGGAAAGTAGATTTGTTTCGAGCCCGTATCGCCCAGGAGGCCGAGGATCTCGTGTCCACCTTCTTTCCTCAGAAGGTCT
TGGAGCTGAATAGCCGAGTTCAGGAGCTCCGGCTGCAAGACCTGTCCAGAATCCATTCGGTGCCAACCTCGGAGCCCCTGGCCACCCCAGGCAACAAGGG
AGATGGGCCCAACCAAAATCTGCCAGTTCTGCTGACTCAGTTCTCCATCAAGGTCCCAGCACTGCTTGGCAGCGAGGGACAGCTTCTGCGGAGCAACCAG
CATCTGGTGGAGTTGACTGAGTGGGTGAAACCTGAGATCAAGCTGCTGAGAGAGAAATGCAACACAGTGCACATGTAGGTGCACCCGCTTATCCTGAAGG
TGSAGGACGGCAACAACTTCAGGGTGTCTATCCAGGAAGACACTGTGGACCAGCTGTGGACCGTGGATAGCACAGCGGCCTCCTCTCTATGCGGCTTCTC
CACCTACTACAACACCCAGGCCAAGTTGGTATCCAAGATAGTGAAGTACCCCCAAGTGGAAGATTATCGCTGCACTGTAGCAGAGGTCGACGAAAACGAG
TACCTGAGTGTGCGCCAGATCCTGCTGCACCTACGGAACGAGTATGCCACCTTGCGTGATGTAATCCTTAAAAACATTGAGAAGATCAAGATCCCTCGGA
GCACCAACCGTGATAACCTATACTGATAGCCTTTCTCCACCCCATTTGCCTTCAGGAGTTGGCGGAGCTGTTTAGGCACCTAGAAGGCTGGTTATTAATG
ACTCTACAGGTCATGAAATTACTGGAAATGTGTGTTACCATTTAGAATTTCATACAGCTTATCCTCATACTGAATCATCTTTTGGTGTAATTTTTATTTG
ATTTTCCTTTTGTGAGGAGAATGGGGACAAACCATCAAAAAGAAAAGACTGCCATTTTTAAAAGCAGCTTTATAGATAAATGTTGGCCCAAGGTTTCTTT
ATTATGGCCTTAGCGACATTGAATGGTTTTAGGGGCTACTTAAAAACTAAATCTTAAAGTTAAATGAAGTTTTTCCTAAAGTTCTGCTATCCGTTGAACT
TTGTTCAAACTTACAGAAATGCTCCTTTTACAGCATCATTTTTCTTTTTTTGCGAGGAACGGAGTTTAAAGGGATATGTTTAGGTCATTGTATGCCTCCA
GTTTAACAGATTGAAATAAAACTTGGTTATAAAATTTTGTGATGGCCTGAGTGTGCTTATCTGAGCTTTAATTTTCRGATGTGGACAATTCAGATGATAA
TTTCCTACTTCAGGTGGACTCATACACTTGATATTTTTCAACTCTGATGGGTAAGAAAAGTAAGCAAAGAGTAATGTATTTTAATTATTCTAAACAAATG
GACATCTACTTCCCTTAGAATGAAAAGAGGAATCTGTGGAAAATGACTTCCTTCCATAATCTTCTATCATCTCAGGATCTTCATTTCTTTTTACACAATT
TAGAATTCCTTCTGTATATCCGTTTGTCTCTTTAAGTCTCTGCTAAATCCATCAAGCTGTGTATCCTRTAATACTTTTTCCCCCAGTTGATTTTCATTGC
CCTTTCTTTTTGTCTCTTAGATATTTCTTAAAGTCCCTCATTAGCATTTCCCTCTCAGGTTATACAGGTCATTCTTTTTTTTTTTTTTTTTTTGAGATGG
AGTCGCGCTCTGTCATCCAGGCTGGAGTGTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAGCCTCTGCCTCCCAGGTTCAAGAGATTCTCCTGCCTCA
GCCTTCCTTAGTACCTGGGACTACAGGCGCATGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGGT
CTCGAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCGGGTCATTCTTTAAAGAC
YCTAAAATGTGGCTTTGTGTTCTTTTGCTACGTCGTTGAGGGGAAGCCATTGTCTTCTCAACAGTAAGCTATATGGTTGGTATTTTTAAAGTTCAGCATT
TCCAGATTTCATTTGCAGGTAAGATAAATTACTGCACTGTGAGTCTATTCTAACCTATGTAGATTAGAAAAATCATACACTGGTTTAGCGGAAACTTTAT
TTTCTTTCTTTCTTTCTTTCTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGACCAGGCTGGAGTGCAGTGGTGCGATCTCGACTCACTGCAGCCTCCAC
CTCCCAGGTTCAAGGGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGACACCATGCCCAGCTAATTTTGTATTTTTAGTAGAGAC
GGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCGCCAGCCTCAGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCAC
TGCGCCCCGCCACGGAAACTTTATTTTCAAAGTAAACTCCTGAAAAATGATAACAAGTGAAACTATTCTTTTGTCGACCTTCTGAAAAGCCTGAGTCTTT
CAAATCTGTGCTTAAAAAGCAACAACAGCAAAAGGTATTGCCTAATAGAAAGACGTCTTACTTCCTTCCCCTTCAAGTAAAAAGAGTTCTTTTTATTTTC
CCTGTAAGGTGTTCTATCTGATTCAGAAAAGTGCTGGGAACCCTAAATCAGTTCATACCATTTGACAGGCTTTAATTGCACACAAGTGTATAATGGACAA
TGTAAGGGAAGAACAAATGTTGCTTAATTTTTCAACTAATKTTAATCATCTAAGACTTAACATATCTGTTCCTCACATAATATAATCATCTTTTGCTTGT
TTCTTTTACTCAAACTGTCAAGCTTTATGACAGATTGAAATAAATTTTCTCCAATCCCTGGCATGCCTTTTACTGAGAAAATATGTCCTTTGTAGTTAAA
GATTTCTGGTATATGCATTTTTCACCTTTTTCCAACTCTGTATCAAATTAAGTTGGCTCTGGAATACTTTATAAAGTCCCTACTTCTGCAAAAATTAATC
TCTTTGTGATTTTCCCCTTTCTTGCAAATGGTTGGAAAAACTTTTATAATAATRAACTTAGGAACTGGTGTTACAATAYGGTATCCAATGTGAATCATTT
GCCTGTTATTAGTACTTGTTACTTGAAGCCACGTTTTTGTTCCTTTTAAGATGGCAGCTGAATTGAGCAGGTGTTTTTTTTTTTTTTTTTAAGAAATGGT
TTTAAAAACTTATTTTGGAATTAAGTAATTTTAGTTTTAAATTCTAAAACTAAAACATGAAGACCACTAAAATTTGATTGGAAGTTGAAATTAGTAGATC
TAATTTTTATGATTGAGTGAAATGTCTTAAACCACATAAATGATGGAGAAGAGTCTTAAAGTTCTTAAACTTCAAACTTCTTAAACGTTTGGGCTTAGTT
TTAAAAAATTACTGAATCGTTTATAAATTTTTCTTTGGTTATTAGAGGCAACATTTGTTTTGTAGTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTG
AGACAGAGTTTCACTCTGTCACCCAGGCTGGAGTGTAGTGGCGTGATCTTGGCTCACTGCATCCTCCACCTACCAGGTTTAAGCAATTCTCTGCCTCAGC
CTCCCGAGTAGCTGGGATTACAGGCGCCCACCACTAAGCCGGGCTAATTTTTTTTTTTTTTTTTTTTGTATTTTTAGCAGAGACGGGGTTTCACCATCTC
AGCCAGGCTGACCGGGAACTCTTGACCTCGTGAGCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTGCTGTGCCTGTCCTATTTTG
TAGTCTTTATGAGGTTTACATATTTATATAGAATTCTTACCAAGTAGTCTCAACCATTAATAGATAACTGTGTGATCAATTTAAGTGATTTTTAATTTCA
GGCCAGATGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGGGGCCAAGGTGGGCAGAACACTTGAAGTCAGTTCAAGAACAGCCTGGCCAACATAGT
GAAACCCTGTCTCAAGCAAAAATTACCAAAGTTAGCTGGGCATGGTGGTGTGTACCTGTAGTCCCAGCTACTCTGGAGGCTGAGGTGGGAGAATTGCTTG
AACCCAGGAGGCAGAAGTTGTAGTAAGCTGAGATCATGCCACTGCACTCCAGCTTGGCTGACAGAGTGAGAACCTGTGTCAAAAAAATAAATAAATAAAA
AGCTTTTTAATTTCAAAAGTACCATCTCAATGGTCAGAAATTTGAAAAGTATAAAAGGAGAAATCACCTATGGTTTACTAGCCTAACAAAATCATTACTA
TTTGTGTGTGTTTTACTTATTTTAAAGGATGCATATATGTTTTTACATCATTGCAATATAGTATATGCCTACTTTTATAGAGGATAAACATCTGCATTTA
AATCCAATCTAATATTATAACTTCGTTTGATAGATATCCCCTGATTCAGATAACAGATACATCCATTCCCCCAAATATTTTTAAGGCTCTGTTTCCTAAT
TGTGAAAATGATACTTGTCTGAGGCAGGAATTGTGATTAGAGTATGGAACATAGAGATCAAGTAGCTGGGAGGAAATGTGCCTATATGACTGTGAGAATG
TCTAGATATTTAGAATAGGGTTTTACTCTGCTTTTAGGTTGGGGCTTCATAATAGCTTTAGCAACATATCTGATCATTTTATTACTCAGTGCTTTTTCCC
TCCCCCTAGAGCATTTAATTACCTCTAAAAATATGTACAAGAAAGCATTCATGCCTTATACTGATTAGATGAACTGTTTCAGCTTTCATGATTTGGTATG
AGTAGGAGGGAATTCTACTTCCTCTGTCAGCACTTAAACATTTCTGGAAAATGCTGTAGTGCATTGACATCAGGCATTTTTAAAAAATTACTGATCTTTG
AGAAAAAATAAAGGACMCAGTGAGTTACAGAAATAGATGCTGGACCATCCCTGTTCTCTGCATTAGAAAACTATACTGCTAACACATAKAAATAACTGCT
CACCTTGAACTGAAATTATCCATGGGAAGCCAAATACATCCGTCTATCTATCCATCAATCGATAGATAGATGTATTTGTCTCATTCTGTCGCCCAGGCTG
GAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTACCTCCCGGTTTCAAGTGATTCTCCCACCTCAGCCTGCCAAGTAGCTGGGACTACAGGTGTGT
GCCACAACTTTTGTAATTTTGATAGAAACAGGGTTTCTTCACATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCTGCCTGCCTCGGCCTCCC
AAAGTGCTGAAATTACAGGCGTGAGCCACCATGCCCAGCCTCCATATTGGATGATTATACATTTGTATATATTTTTCTTTGCTTGCTTTATTTTGATGAG
TCTTCAAGTCAGTAGCAGAATTTTATTAGTGAAGTGTAGTAATCCCAGTTACTCAAATTTAAAATGTTTCACTAGTAAACTGAATTTAACGAATTCTCTT
TCATAGAGAATGTTGTGTTATTTTTMCTTATTGGTGAAAACCTAGCTGGTGCAGATGAACAGGAATCGAACCTATTATCAGTAAAATTAGATTCCTTTTA
CAATTTGGCCATTTATTTTAGCTTTATTATTTAATCTCATTTTTACAAAGTTATGCAATAGTATATTGGAAAAATAATATTGCTTTGAAAGTGTGAAGTA
TTTAGAATTTCTTAAATAAATATATAGTTTCCAGTTTAGATGTTTGAGATTTAGAGGTGTACTTTTAGCCCCTTGTTTTATAGATGAAGAAATTTAGAAT
CAGAGATATATATGGCAGCACACAACTCATCTGTGACAAAACAAGGTCTAGAAGTCAAATCATCTTCCATTTCAGGCTAGTGCACTTTTCACTGCACTTT
ACTATGTTCTAATCAGTAAATAAAATTACATTAGAAGAGAGTTCTTTCAGAAATACGCAAACCAGTAAAATTTCAACAAATTAACATCCCTTTCAAGTTG
TGTGTTATTTTTTTCTGCAAAATGTAAGAGAAGTTGAAATGTTTCCAACTCAGAATGGACTATAATATTTTTACTGAATTAAATATTATGTAAAGAGCTG
GGCTCGGTGGCACACACCTGTAATCCTAGCACTTTGGGAGGCTGAAGCGGGCGGCTTGCCTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAACACGATGA
AACTCCATCTCTACTAAAATACAAAAAGTTAGCCGGGCATGGTGGCATGCACCTGTAGTCCCAGCTACTCACAGGCTGAGGCGGGGGTGGGTGGATCACT
TGAGCCTGGGGAAACAGCGATTTCAGTGAGTCAAGGTGCCATTGCACTCCAGCCTGGGAAACAGAGCGAGACCCTGTCTCAAAAAATAAAATAAATAAAA
ATATTCTACTGGCCAACTCCTCCCCCACCTTCTAACCTTCAGCACCAAAGAACTGCTACATAGATTTGTCATGGCTGCTGCTCCTAAAAAACCTACAGAA
TAAAAGGGGAAAGAAGAGCTGTAGTTTTCTGTTCGGGAGGAAGCCTGAAAGGGTCATTTCCCAAAAGAAGTTTATCTTTTAGAGCTGGACTGGTCAGTAC
AGTAGTCACTAGTCTTGAAATGTAGCTAGTCCTAACTGAGATGTGCTGTAAGTGTAAAATACACACTAGATTTTGAAGACTTAGGGTGAAGAAAAAGTAA
AATATTTTAATAACGCTTATGTTGCTTACGTGTTGAGTGATAATATTTTGGATACATTAAATAAAGTAGATTATTAAAATTAAATTTATATGTTTCCTTT
TACTTTTTTATTTTGTGTGCCCGAAATTTTAAGGTTATATATGTGGCTTGCTTATATGCCTCACAGTATATTTCTATTAAACAACACTGCTCTGGAACTA
AGATTTCTAAGGTAACTGAGATGATCCTTGGAGTTGAGCCTAAACCTGCTCTTGTGGTATATTTTGGAGATGTGGGTTTCCATTAAGTATAGATTTTTTT
GACTCCTAGTAAATTTTTATTGATTCGTCATCTGGTTCATAATGTACAATTCAGTAAAAGCCATTCAGAGAGAGGCTAAACATTGTAAGCCAAACCTTCT
TACAGTGCAACTTGGTCTTGGAACTTAGAATGCTTACAGGAATGGATGGCTAGCATGTGCTTTATGCAAGCCTTTTAAATATCATATCCAGGCTTTTGGT
GAGAGACTAGAGTACTAATATTCTGTATTGCTAATTCAGGGCTGCTCCATATGCTTTATAAACCAAATAGAGGGTAGATTTAGCATGAATATTGAGACAT
TTACCCAGTGTTTTTATCTGGATGAAAGAATAACGTACCTCTGGTGCCTCGAGAGTACCTATAGGCAGTTAGGCTTTTTCTCAAGGAGCAATATTTGAAC
ACTCAATTAAATCCCCATGATTTCATTGAATTCCCATAATATAGTTATATAGTACTCATTGTATTCTGTGTGTGTGTGTTTTTTTTGTTTTTGTTTTTGT
TTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCT
CCTGCCTTAGCCTCCCAAGTAGCTGGGACTATAGGCGCACGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCACGTTGGCC
AGACCGGTCTTGAACTCCTGACCTCAGGTGATCCTCCCACCTCGGCCTCCCAAGGTGCTGGGATTACAGGTGTGAGCCACCGTGCCAGGCCTGTATTCTG
TATTTTTATGTATATCCTCACTAAATAAGTTTCTTGAGAATAGTGTAGGGTTTTTTATTCACCCTTTTTCCATTATGGTGTTTTGCATATGGTAAAATTC
TAAAGTATTCTGAATTAAATTGAGCTAAACCAAACCTGGATGAAACTAAAGAAAATCGTTTCTCCCCTTTCTTATTAGAGGAGGCACTTTGTTACAACAG
AGGATATATGTGGATAAGTGTACCCAGGAATATGTAACAATGTTGAGACATCTACAAATCTGATTCAGAATTAAACAAAGGCCAATGAAGTTTCTACACT
GTTTTCTGGCTTCTAATTAAACATTTTTTTCATATCACAATAATATAAATATTTTAAAGTACTCCAGGCAGTTCTCCTTCAGTATTCCCAGGATGTCATT
AAGCCTATTCACCCTGCAACAGCTGCAAGTTATTCCAAACATTTGTACTGAATCTTTACACTCTACAAGCCCATTTGAAATCAACTGTGTCACCCTATTA
ACAGCTTCAGTAATTCTCTATTACTTTTCTAACCAAGAGTTAGGGAGAAATAAGTCTAGTATATCAGAATGAAGAATCCTGAAAATTGCTTTTCAAAACC
GATTCTCTGTGGTCACGAACATAATGTTTTTATTTACCCTTCCAGATTTTGGTACTTAAAAAGTTAGTTTCTTAAATGTGTAAAATTTAGATCATTTGAT
AAATGATTAAAAAGAATTTCCCTTAAGTTTATTAAGTCTTATTTGGTAGTAAATATAAAAGACAAAACATTCCATGTAAAAATTATTTCATACATTTTAA
ACAGTTTAAATAAAGTAAGTGTAGTCAACTCAAAACTCCACTGCCTTATTCCTCTGGGTCTTGCATATTTATTGGTGGAAATTTTTCTCTGCTATTTTTT
TACATTTTACATTGTGGGATAGGCACAGAGTTATTGAACCTATGACCTATATATTCCACAGCTTACTTCAATGCTTCTATTAGGCACCCGTCCAGAGTTG
AAGAAACGTCTCAGATCACAGCAGGTTCTCAAAAAATGTCATTTTGTTTAGCTTCATTTCAATATAACATTGATGAGAAAAAAAATCAGTTCCCAGCTGG
GACCACTGTCTGTGTGGAATTTTCACGTTTTCTCCATGTGTCTGCACAGGTTTTCTCCAGTTTCCTCCCACATCCTTATAACTTTTGCTTCACAAACATT
TATTGACTTAACTTACATCACTACGACCACCATCACTTACTGATTCACCAAAAATTGCATAAATTATCTTACTTGTTTTTATTAGTTTTTATTAAATGTA
TAGCTCACATTTRTTTCAATATTTAATATTAGAAGTGCTTGGGGTCTTTATTTAGAAGTTTGGTGATGTTTTTATAGCCAGAAATATGCTGTAGGAACGT
AACTCTCATTTATATCAATTAGGCTATCATAAAACTGGTTTCCTTTATGTCATTTCGCTTAAAGAATTTATGGACGACGTGAGGAATAGTACTCAACTTT
TGCTTATAAATAATTAACAGATGGCATGAAAAATAATTAACAGATGACATGAAAAGAGACCTCTTAGGAAGCAATTTTTACGAGCCTGCTGAACTGGGAG
TTAACATTTTCAATAAGAAGCCATTAAGTCAAATATAATCTTTTGCATTTAAACTCTACATCATTATATTACTAGAAGTCTAAAAACCAAACAGTATGGT
AGGAAGAATAAAATGTTACTTATGAATATAATTTCTGATTATACTTTTAGAAAGAGGATTAAAAGTATTGACAACAAATGAAGTCAGAATAGCTTGATTA
AAGTAGTTTATTTAAAGTATCTCCTTAATGTTATAGTGTATGCTAATTATTTGCTTTGCATATGTACACATCATGACATACATTTATGCATTAGCTGAGA
CATGTTCATTCTGTAAGTTTTGTACAAAACTAATGATCTTCAGTTACACAAGAACATTTAAAAGTTTTACATTTGAAATAGATAATTAAGCAATGCTGTG
TGAAACTGAAAAATGAAAACTTTGATTAAAAAAAGTATTTTCAAATATAGGATAGTACATGTATATGAGAATACTTTTTTGGGTATAATCTTAGTAACAT
CATTATGGTGTTATGTAAACATATGACATATGACATATAAAATTATAGTAGATAGATCACTGTGTTACCCACTTACACATTCTTCTGTCGTATTAAGCAA
CAAACATTATTCTTATCTATAATAAAGCAGATATTTCTGTCTGTCATACATATGAAATATTTGTATGTATTTATTGGAAGTAATTTTTAAGGCTAKTCTT
TTTTTATAATTTCAACTTTTATTTTAGATTTGGGGTAGATGTGCAGATTTGTTACATTGGCATATTGGGTGATGCTGAGGTTTAGGGTATGAATGATCCC
ATCACCCAATAATGAGTATAGTACCCAACCAGTTAGTTTTTCAACCCTTGAGTAGACATTGCTCCAAAGGAAGATATACAAATGGCCAATAGCACATAAA
AATGTGCTCAATATCATTAGCCATTAGTAGAAATAAAAATTAAGAAATGTTTAAAATATTTAATGTTTTATTTGAAAAAAAAAACAATTAAAATTTTAAA
TAACATTTTTAATGGAAAATAATTATATCTCCCAAAGCAAAAAAAAAAAAAATTAGTGAGAAGAGTAGCACTGTTTTACAGTTTTGCAGATTTTTAATAT
GTGATTTAATGGAAGATAACAAGATTCTTATATATTTCTGTATTCAGTCTGTTGCAATATATTGTTTTAGTTGAAATATATGAAGAAAATCTACCCTCAT
GCAGGTAAGTAGTTGCAAAGGGAAGGAGTACTTTAATAGCCTTTTCAAATAATTGTGAATTATTGTTTTGATACTACATAAAAACTCAGCAAGTGGTAAT
TTCTTTAAAGATTAGTTGCACTATAGAATCTAAAGCCATATCAGTGATACTTTTACCCTCTGTAACATTAAAAATCCATTGATCTATCTTGCAGTTTGAA
TGGAACTTGTACCCATGCATGATTTTGTAACATCATTCACTGCTCATTTGGAAGATACTGGTTCACTAAGAGTTAGGCAGATCTTCTAAATATGAACATA
TTTCATTATACAATGTCAAAAAATCACATTCATTAATATCACCACGAATCACATCAAGAAGGTCATACTCATGGTGGTAGATACATGGTTTCCGAAATTC
GGATTTTCACTCAAAATCCCAAATTTTATAATTTGCAAATACTGTCAAGTATTTTCTTTGAAATATCAGGCTTACTGCATTTTTAAAAAGTGCTTAATGG
GTTACCCTTGCCTGAATAACAATAATTCGCCATTATTTCAAGTAAAAGTGGTATTGAAAAAAGTGGGTTGTTCAGCTTGTAAATCATTCACCCAAGTGCT
TTTTCTTGAGATAGCCATTATGCTTCAGTAGGCAGCAAAACAGTTTTTTATGTTCTTGCCCTTTCATCACAGAGAATGTTAATAATTTTTACTGCTTCAA
CAAGGATATTCTAAACTGAAATTGGCTTTAAAATATTTTATTCATTTATTCATTTGTTGGCTGATTCATTGTTACTGTATGTGGCGGTGAAGAATACAGT
GACTGCTAGACTAGCTTGGTGCCACTACATAGATTTATACTAAGGCCTAGCAGTTTGGCTTTGCTTTTTCACCAACAGAGTAAATTTCAACAAAGTGCAA
AAAGGCTTGAAAATAGTTTGACCTGAAAGGGTCTTAGAGATTCTTGCCTCCTTAGGGAAAAAACTAGTTAAAAATCTATTATAATAGCTCTCCTTTAGCT
AGTTTACATTATAAATCGTTTGTGGTTACCTACTATATGAAAGGTTGTAGTAGATCCTGGGGATTCACCAATGAACAAAACAGATGAAAATGTCTGCTGT
TATGGAGCTCATGGAGCTCATTTATAAAGGGTAACGATATATAATAGGTGTTAGAGAGAAAAGTAAAGCAGAGAAAGGAAAGGAGGTGTGTTTGGTGGGA
ATGTGTGTGTACAATTTAACTAAGGTGGCTAGGAAAGACCTCACTGAGAAATTGACATTTGAATGAAGATCTGAAGTGGGRGCAGGTAAAGGTGTGTGCC
TCTACAAAGGCCACAGCTGAGGCCRCCCTTCTTTATCTACCTCTTTTCATCTTTCCAACTTCCAGACCTTTTTTTTCTGCTGATAACTCATACCTTTTAA
TTAAACTTTAATTTAATTTAATTTAATTTAGTTTCTTCCAACTCKGCTCTCCACCACTTCCTTGCCCCTAGCACACACACAATTAATCAGCACTTACAAA
AACAAAAATTTACCTCTTTACAAAAGGTACAGGSATAGAGTAGAGGCTTTGAATACTTGTGCTTCAATTATTTTTCTCCTGTCATCTTTTATATTAAAGG
AAATAAAATATAGGGGTGTCTCCTTTTCCTGGTTGAATTGGTAGAGAATATCTATGGCAGTTAGTGCTAATGTTTATAAAAAGGAATAAACACAAGTGAG
ATCATGATGGAGAGAGACCAAATCAGTAGGGACCAAATTATAAAGAGATTTCATTTCTAGGCTAAAGAGTTTGGATTGGTCATGTGTGCCTGTCATCCTT
TATTTCATTCAGTAGTGGAACAATGGCTCTCAACTATGTGGTTGAGGGAATAAACTTAAACAACAAATCTAAATTTCCTATATCAGTTGCATTTAACTGT
TGCGTTTCCTCAGGGACTTCACTCTCCTCAAACTTTTTGGTCCCTTTTTTTAAAAAAAAAATTATTGAACACTTATAAGTGTTGAAATACTAACTTGTCT
AATCTTTATAAACAATCGGTGCAATAGGTGTTGTTACTGTCCCTATTTTACTAAAGAGAAAATGAGGACACAGATTAAGGAACTTGCTCTATATCCTACA
GCTAGAAATTAAGTGATGGAAGCAGAATTCAAACCCAGGCAGTCTAGCTCCAGAGTCCATCCTTTTAATCTCTGTCTGTGCCACTCTGGCCAGTGTTTGT
GAATGCAGAGTCCTGGAACTATCTGCATCAGAATCACCAGGGATACTTGTTAMTAGTGAAAAATTCTGGCCCACCTCAGACTTACCATGTAAGAAATTGT
TTTTCAAGAGTTGAGGAATGTGGGTATTTATATTATAAAATCCTGCAGGTGATTCTGATATGTATCTTTYGTTAAGAACTTCTGTTTTAGAAGGACCTAC
CATTGGCACTGTTTTTGCTTCTGATCCCAGCTTCCTATGATTAAATGCTTTCTGAAAGATACATAGTTAGTACAGAACTTAATACTATTATACTATTCTA
TACTATTTTACCCCAGTTTGACTTTTAAGCTGTTACCACCTGAAATTTAAATGAAATCCTTTTTAGAACAATACTTGACCAAACAATTTAAAAATTGTAT
TTCCTACAAATGCATCATACCTTAAAAATGCACTTTAAAACTGAATGGAAGCCAGGTATGGTGACTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAR
GTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGCGAAGCACTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGC
GGGTGCATGTAATCCTAGCTACTCAGGAGGCTGAGGCAGAAGAATCACTTGAACCCAGGAGGCAGAGTTTGCAGTGAGCTGAGATTGCGCTACTGTACTC
CAGCCTGGGTGACAGAATGAGACTGTATAAAACAAAACAAAACAAAAAAACAAAAAACAAAAAAAACAAAACACACACACACACACACACACAAAACTGA
ATGGAAACTGAGAACTTACTGTTCTATTTATGATGAAAGAAAACTGGTAGGCTTTAGAAAGTACACCCTATGTGATATGAAAAGTGAACTCTTCTAGATT
GTGGAACAGCTTTATATAGTATCATACCTCCATCTTTAACTAGGATTGCAGCTGGCAATAAAGCTCAGCTTCTAATGCGAGCAAGTGTTGAGTTTGGCTA
TTTTGTTAACCCAAGATCCTGAGAGAAAATTTGTTCACTGATGTACATAAAGCATATTATGGTTAAAATTTCTTATTCCACTTTGTAGTTTGCCTTGTTA
AGACTAGTCTTTCCTAAAATGTGCTTTAGGGGCATTTTATAGTCCTCCATATTTCTTTATGTGACGCCAACATCAAAATTGCTTTGAAAAGGATCAAGAT
CTGGAGTGAAGGCTGGAGGAATAGCTAGACACTGAGGCTCATGCAAGGAGAGTTAACTTTAGAAATATATATTACATGAAACCCCTTTTTTTCTCCCCTT
CCAGAAATTTGTAGAATCATTGATATGAAAGAGTTGGCTAGTATATCTCCCTGTGTTCCCTTCCCACCCTGCTGTGCTATCCACACAAACACAAGTGGCA
TTTGAGGTAACTTTTGAGATTCTGCTGGGTTAAAAAAATATATATTTTTTGTCTCAACCCAATATGTTCCTTTTTTTCAACAAAAAGTATAATGATTCTC
CTATATATCTATGTTTAGCTTTTTGCTAGAAGTGTTTCCTAATAACTTTTCTCAGGAAACTTGTTGACTCAATTTACTGTAGTCATAGAGCCTCCTACCT
GACCCCCTGTGGTCTGCTTTGGTAACACACCTGTAGGAGGCAATGTAATCTTCAGGAAATTCACTTCCTACCAGTAGTCCTGAGTAAAGTGAATTTTCTA
AAATGAAACATCTTGTAAACATTATATATGACAAACTCCCAAATGGTTAAACTCTTTATGCATTTAGTGTTTGATCTTTTTCCTTAAGAAGACTTTTTTT
TGGATTGCTGTCCTGTTGGCACTCAACAAATTACAATTGCTAATAAGTTTCAGAGGCCCTAACTTATTTTCCTAAATCATATACTTCCCAGTTTTTGAAA
AGGCTCTCTATTATAGCTAACAAAGTTTTGAACTTTGATTAACTCAAGTGTTTTTGTTGTTGTTGTTTTGTTTTTTGTTTTTTGTTTTTTTTTGAGACGG
AGTTTCGCCCTGTCGCCCAGGCTGGAGTGCAGTGGCAGCGATCTCGGCTCACTGCAAGCTCAGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCC
TGAGTAGCTGGGACCACAGGCGCCTGCCACCACGCCTGGCTAATTTTTTTGTATTTTTATTAGAGACGGGGTTTCACCATGTTAGCCATGATGGTCTTGA
TCTCCTGACCTCATGATCCATCTGCCTCGGCCTCCGAAAGTGCTGGGATTATAGGCGTGAGCCACTGCGCCTGGCCAACTCAAGTTATTGAATGAAGTAA
TATGAAGCACATGGGCAGAGACTTCCTGGTCCTATACCTGTCCAAGGCATGTAACCAACATTTTGTTTAAGAGCTTTCCCTAGGGAGATCAATCCTGACC
TGGTTTAGAAACATTTTTTCCTGAAACTCTCATGAAAAGAGAAGAATGATTTTGGATGCTACTGTCTTATCGGAAAGTATTTACAAGAAACCATTTTGAC
CAAGAAACTCAAAATTAATTCTGGTTTTTAAAAAGAGAGGCATATATTACTCTTAGATTGAACCTTATGAAATTACTGATATTTGACTCACCAAAATGAC
AGTTTTTTATGGTCCAACCTAATACTTTTTGGTGTTAATAAAAGGGGAGGCAGGGTTAGTTGGGCAGTTTGTGGGGGACATCCTACAGAGTTTGACATGA
AAAGTATATCTTAAATCAAAACTTGAATTTGTACTTATTAGGATTTCAAGCTCATTTTTCCTCTGGTGACCTTGCCAGCATTATCAGATTTGTATTAAGT
GWCAAAAGTTTCCTCTTGTCAAAGTGTAAACCTTGGCTCATTCTTGGGCCATCTGTTGTACACTAATAGTTTTGATTTATTCTTCTGGCTGACATGCGTA
TTAATGGTACAGATGCAAGCTTTATATTTCCTTTTATGGGTCTGTAGTTTTATTGCATACATTAGTGGCACAAATACAGCATTCATATTAGCTATTTATA
TGAACTATTTCTAGTTTTGGGGTGACTAATATACTTTGCTTATGTTTTTACTATGCTGAGAAGCCCTGTATCGTAGACATTTTAATAGACTTTAAATGAT
TACATTCTACTTAATTTTACCACCCCTAATTTTGTTTTTTGTAATTTTTATTTTCAGGATATGTCATGATGTATGTCTGTATATTTTTATGATTTCAAAT
TCCCAAATTGCCATTGCTTTAATGAATGAGCACATTTGGTTTTTGATCAGGAATTACTATAACTACTAGAAAACAACACTAGTGCAAAATGTGAATTTAG
ATAAATAACTCTGAAAGGCCTACTTCTAGTTGATGCTTTGGCTCTGATTTTTGAGGGTTAATATGTTCTTCAACTTCTTTGACAGCTTGAAAGTTATGAA
ATAGAGTGATAGAAAACAAAAGCTCTCTAGGACAGGGACATAGGTTAGAGAAAATTTAATACAAAGCTGTTTTTGAAATAAGGCTAGGTGCTATTTTTAT
TTTTGATCTGCTTTTAACAGTTTCCTATATTGGAAAACCAAACCCATCTCTGGAATCCAGTGGATATGGGCCAAATATAAAATGTTAAGAGGCTGGTGTT
ACTATTGGTCTGCTATGCAAAACTTTTTCCCTAATAGAGGTCTGTGTTGATCTGTGTGAAAGCTGCTCAGTGTCACAAGTGCAGCCTGAGTTTCATTCAT
TTCTAGGGGAAATTATGATAGAAATAACATTCCTTTCTATTAAAGATAAAGGGCTCCAACCTTGAGCCAGAGTTTTCTAATACAGTAGAAGCCATCTTAT
CTATATAGTGGGTACTAGTAGATAGTCTGTTAATAAACAATACTGGCTAAAATAATTTTTTAAAAAGATATGTATCTTTATTTCATTTGATTATATTAAT
GTGCACTCATTGGCTAGTTTTGTATGCAGGGCCAATTTCTTTTCTTTGAGTCCAAATCCACTCTTCAGAGTTCCATGTTGCCATTCTTGCATAAACTATA
CTCACAAATCAGCAACCATAATTTCCAGTCTTGGTTACAGTTACTGTATATTGGAATAAGAACTTAAAGGTACTTGTTAAGCAATCTGAGGGCAGACTAT
TATGATTTTTATGGTTGCTTTGCAAGGAGAGAACATTTTAAAACTTACCTTTATCTTTTTGCTCTCTTTTCACACTATTAGTTTATGTAATATTTTATTA
CACAATTATACTAATACAATTAATGAAAGTAGTCTTGAAAAAAGACACAACTCAACTAGTCGTGAATGTTCCCTGTGCTATGGGCACCAGTCAGTGAGTT
TTATAGGGGGAATGGGAAGGGTCATTTAATCAGTCTGTACTCTACATAGATACGTAGAATCAACATTTGATAACTCTCAGTAGGGCCTGAATTTTATTGT
GAGTTACCATAATTAATTTCAGTGGAGCAAAATGTGGTCCTTTTCTTTTGATAAGCCAGTCTCCAATGCTTTTGTTTTCTTAAAAAGACAAGAAACGTAA
CTTTGAAGGCTGTGTTATACACTAATATTCTGTTGGTTTCTAACAAATTGCTTGGAAGAGGGAATTGGGAGAACTATATGAAAGTAGCATATTTTCTCAT
GCACAATATTGCACAACATTAGAAAACTGATGCTTTATTTTCATGGTGAAATGTTTTGATGTTTCTCCCCGCCCCCTCCCCTCCATGTTTCTCTAACTTT
TTCTGGGAATAAGAGTAACAATACATTGATTATAATATTTGTCCACATGATTTCATTCCAGAGGAAATCCTATAGTATCTAAGCCCTACGGAAAGCCTCA
TAAAGACATTTCAGGAGTCCATTCGAAGATGTCTTAAAATTAATGACATTGTTTTGAGTGACAGTGCCGAAATATATTTCTTTCTATGGCAACATTCTTA
TTCTACTATCCTTTTTATTTTTAAGTAGTTTCATTTTTGTCACTGTTGGGTTATTTTAAACRATTTAATTGGAGGGAAARAAATACAAATTCATCAAATT
TTACCTCCAGAATTGAATTTCCTTCACTAGTTCCTTAATAAGTATTTAAGTAAAAGGGGGTGCAATATCAAGAAGACTAAATTATAAATATGGTTTCTAT
GCTGTTAAAAAATAACAGTCCTGTCCTTAATTAACCATTATGGAGATTCCTCTTGACCAAATACCTTTAGAACTGTTTCACAGATTTATAATTTAACTAG
TAATTTGGTTTAGGTTTAGGTTTAAGTGACAGAAAATCCAAAATAATAGTGGCTTAGATAAATTATAAGTTTATTTCTGTCTCATGTATAAGTTTCAGAG
ATCTAATGATAGCTACTTAATCATCGGGATCCCTGTCTCCTTCTGTCTTCTTGCTCCATAATCCTCAACTTGCAGCTTCTGTCTCATGGAACAAAGACGG
CTACTCCAGCTCTGGCAGTCATATCTGCCTTCTAGCTAGCAAGAAGGAGAAAGGGAAGGAGGAGGGAAGCCTTCCACCATTACCACCTTGAAGAAGTTGC
CATTTCTTCTTACAGTCCGTTGACCAGACCGTGTAGCYTTATTTGGTTGCAAAGGAGGCTAGGAAATATAGTCTTTATTCTGGGTGGCCTTGTGCCCAAC
TAAATATCACAAGTCCTGTTGCTATTTTAATGTTACAGAGGAAGGAGAGCATATATTGGGTAAGAAAAAAAAAAAGGCTGTTTCTGCCACAATTCAGTTT
CCCCAACAAAATAAAAACTTGGATTTATATTCTTTAAAAGAAAATATCCTCTGTAGCACAGTGCTGAATACATGACAGGACACTGTGCTCAGTAAATTTT
TTTTAAGTGAACAGTAAGGGCCGGTCACAGAGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCAAGA
CCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCTGCAGGCT
GAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAATGGAGATCGTGCCACTGCACTCCAGCTTGGGTGACAGAGCAAGACTCCATCTCA
AAAAAAAGAAAAGACAGTAAGAGGCCAGTAAATATTTATTGAGTGATTACAGCTCCTTTGTTTCTGAAAATGTGACTCACAGTACTAATGATCTGAAAAA
GAGTAAGATGAACACAGAGAGAAAGTAATGATTCAGGATTCATTGTTGTGAGGTTCAAGAAACATTTATTTTGAGGAAGTGGAGGTAAATATTCAATGAA
GTTAACTACATTRTCCCAGATATATAGATAAGATAGATAAAATGTATATATTATATAGACACTTATTTTTATTATAAGATATGTACTGTTAGAGTTGGTA
GTATACCAGCTTTGGTTCCCTGCAGTCTGATTTTTGGGCCTCTTGGTAAACAAGTACTTAAAAACTGTTACCCCAGTTTGCAAACCTTTAATAATTAGAG
ACAAGGCAGGTTAACTGTAATAATTCGTATGCATGCAAGATATGATTCTTCTTTTTCATAAATCATACCTAGTTTTTAGCTTTCTGCTGCAAAAGTAACT
AGTTTGTTAGAAATTTAGTGAAAAGAAAAAGTAGGAGACATTGTGTTCAGAAGATCATGTTTAAAAACAACAATTAGTATGGCATCTGTATCTTAGCAGG
AAACTCAGAATTAAGTCTGAGCCTGACCTTAACCCATGACCAGTGGAATCTAAGTTTGTTTATTTTTACAATAGCCTTAATTTGGGGCTTGCAAGTTTTT
TGGTTTGTTTTCACATTCAATTTAGAGACCCTGAARCAGTATTTTAATGATAGGAATTAAGCTATGTATAACTTTCATGGCTTGAAGATCAGMAAATTCT
GTTTTTTCTTGGTTATAATGTTATCTTAATCAGAAATGTGTGATCTTTGTGTCTAACAATGCACTTAAAAAAACAAAACAAAAAATTCCCTTGCTGCAAT
GCTGGAATTCTAACAGAATTTACTCATCTTCTCTCTCCTCCCCAATTTTTAAAAACATGTTCTCATGGAAATGTTGCCTTGAATTACACAAAATACAAGC
AGTTACTGGAAATGTTTTCTACACAGTTCTGTTCATGTATATCAATTTCAATTTGTTTTTCACTTTTTAGATTTTTTTCTTAGTTTTGCTGATAATCACA
CTTCATAATCATATCAACTTTGAACTTTGAAGTTGTGTTGAATTTTTATTGCTCTCAGCTGTATCAGATCCTACTTTTTGATGAGTTATTTCATATAGTA
AGTTTGTTGAATGAATGGTGAAACAATGAACACAGGAACAAGAAAAGAAAGCAAAATGCATCAAACTTAGGTTTAGTTTTATCTCCAGTTTAACCATGCT
CCCTTAAATGGAAATGCTAATATACTTCTTTTTTTCTTTTTTCTGTAACAGTTCATATGTTTTTGCTAGGAAGAAGAGGAGTTACTGAAAACAGTAGTTA
ATATCAAAGTCATAAGTCATTTATAATCAGCCTTAGAATGCCTACAGATGTATATACATTTTTCAAAACACTTATACTCTGCCTTTTCTGAAGCCAAGCT
TCTCTTGGCTTATTCTTACTTTTAGTACTTGTGTGCTGGAAATTAGAAACCTCAGATGCCCTGCACAGTGTAGGACTATACAATTGTGCTAGGCATGTAT
TTATAATTCTTTAACTCTTCTACCAAACTGTGTGCTTTTTAAGGGCAAAAACTGTACAACTTCTTTAGCATGCACCTGTCACTTGCAAATAAATGTCTAA
TTCTGTGGTCCCTTCAAAGGGAGAAGAGGAGGCTAAGCAGGCAAGGCTCTAGGCCTTGGCCCTGCTTCAGTCAGAATCTTTCTTGTACATGTTGATAATT
TCTTTCTTCTACAGATAGAAAATTCCTGGGATAAGAATTTTGATGGGAAAAAGAGTTTATTGCCTTTAAAAAAAAAGTTTGAGAATGACTGTTTAGGGGA
GATACTCTCAGTATCTTGTGACATTATCTAGTCTAGCCCCCATCATTTTACAGGACTGGAAACTGAAACACAGAAAGGATACGTAGTCTTGTCCAGATTA
TACAGCTATTTAGTGGCAGAATTAGAATTAAAATCCCTTGTCTTGACTGCTTGACCAGTATTCTTTATAGTGGTGCTACAGCATATGTGTTGTAAAAACC
TAGGAGTTTTCCAAGATCACTGCATAGTGCCTGACAACGGTAGACACTCTGTAAATGTGTATTACATTAATGAATGAATGATTCTAAGCTGGTTTGTAGT
TAATTAAGCCAACTTCAAATAAAAACTATAATTTTTCATCATCCCAACGAAATATTGACCTCTTAGAAGCCCTGAATTTGGCCTGTTCTAGGACTAAGCC
AATTGTTATATRTAACAGATTGTTCTTTGTTAATTTTAGGATCACCTGCTGTTACCAGCTACCACCCATAACAAGACCACAAGACCAAAAATGTCAATTG
TGTTACCAGCAATAAACATAAATGGTAAGTTGAAATTCTGATGTATGAACAATATGAGATTTCTTTGTTTAACCAGGATTCTCTTCATTAGTTCAAAGAC
ATTTAAAATGTTCAGTTAAATGAGTATATATCCGTACATTATTTCTGAAACATTTTTCCACTGTTTTATTATTTTTAAGATCCATTATTCTTTTAAAAAA
AATTACTACATCCCTAAAAGAAAAAGTAGCTTTCTTTTACTTACAAAATTGGAAAAGCTAGCATCTTGACTGCTCTACAGACTTGCATCTGCGACCCTTC
TAGTCATAAATGTAGTGTAAGAAGCCCCTGCTGTGTTCTGACAGTGAATTTGTAAATTAGATTTTTGGAACTCAAAGCAGTTTCCTGTGTTACCTAAATG
TTGATATCATCCTAGACCATGCCACAGAAGCCTGTTTATGTTTAATTGATAATACTGATGAGTTTGACACTGATAGTATTACTATTGCATTTTGTTATAT
TACTAGCCCTGGACATTAAACAAAATACAAATAATAATATAATGCACAGATGTTAAGGCATAATATACCTGCTTATAGTTTAGAAGAAAAAAAAAGACAA
GCACAAAAATCACTGTACTCCAAAGAGAAAGTCACGTAAGTAATATGTGAGGTACTAAGAAATCTAGTGAAAAGAGATTACTTTCAGCTTGATTCTTCAT
GGAGAAGTGAAATAACTCACTCCCATTACCAGTTGTGGATTATAAATGAGCACAGTGTATGTTATTGACTAATTGCTTTCTCTGACACATTATATTGAAA
ATCGGAGAGTTGGCCATCTTTTTCAAGTTTGTGTATCTCACATAATGTAGGTACTAGTAAATTTTCTGTCTGGTAGCAAAAACCTCAGTATATGAAGAAG
ATGGAAACGAAAAGCCCTTTGAACTAACCTGCAGTCRAACCAGTTCACATTTTGATTGATAAATATAATTAAACCTTCAAATACAATTATAAAACAAAAC
ACTAGAATTTTGGGGGGATTCCAGATAAGTTTCAATAAAATTTAGTCTTTAGGGGAAAAGTGGTATTCATCATACATTTTAAGACCATAGAGGACCTTAG
AATTTCATGATCTGTATATAGACAGCTTATTAGAAATGCTTAGGAAGTAACTTCATAGACATAAACATAAATGGGCTTTTTGTTAAAGCATAAAAATTAC
AATATTTACTTAGCCTTACAAAGACATTCAGAATAAGTTTAAGAAAAACAGTAACATTGAGAAGAACATCTCTTTCTTCAGTAAAGACATACCTTTGAAG
TTACTCATGGAATAATCATTTACTACCTGAAGAAGAATATATTCCAAAGTGCATTTTATTACATTCCAAAGAATGTATTTAGGAAGTCTCACTTATACTC
AATCTATAGGTACCTAAGTTTCTCTGCCTAAACTAGAATAGACCAAAGGGTCAGCTTATGCTCAGAAAGGCTATTTTCTAAGCTTTATCAAGGCAGAATT
CACTTAATTTTGTTCTTCTGATATTGGGTTCTTATGCAAGAGAATGCCTGGTCTTATTTTGTAACAGTGAGCTATCTTTATATTAAGCCAAAACCAACAA
GATGCTGTTTGACTATGTTTATCTTGGCCAGGTGACTGATTTTTGAAGAGGAGCCTTTCATGGATTTGGAAAAATCCAGTCATTAGAGGATCATTGTCTT
TTTAATCTGTTTCAGACTCTTTGTAAATAGTCTTTTTAAAAACTTCCCTTTTTAGGATAAGTCCTATTAAAAAATCAAAATTCAAATTCAAGAAATATTG
ATTGAATATATACCGTGTTTCAAGTACCATGCTACATCCTCAGCCTTTTCTCTTAACAGTCTTGCTCTGAGGATACTTCTTAAATTAGAGCCTGATTTTT
TCCCCTTCCTCATGTACCTCAAAGTCTGCAGCAGGGCAGGTGGTATCCTTGCTTCCCACTACAACTTTCAAATTATTTCTCCTTCAGTCCCCTTAACATC
TTGCAAATCTGTCACATCACACTTTACTCCTCTAACCCTTATTTGTTGCTGCCGTCTACTCCACCTTCACTGACGACTCCTCCACTGCCTCTGTCATCCT
GCTGTCTAACTTCAGCATCCGCATAGAGGAGTCATTAGTACTCTAGCCTTTTTTGATCCAGTCATCTTTTATTCCGCGCCACCTCAGCCTCCCATCCATA
TGGTCATAATCTAGACCTTATCATCATCAACAGCAGCACTCTCTTTGAAATCTCCTTTTCAGGCATCCCACTCTCTGACTGTTACTTACTCTCTTACTTT
AAAACTCACACTCCAACTACTCTCTTAACTTACAAGTCTACAGTCCTTTGACCCTGCCACTTCTTTTCTGTGTCCATCACATCCTTAATGGCCATACATT
CCTCCTTACCCAGCTTAAATTCCATGGTCCTGTCACCACTCTCTTGTGAACACCCCTTACTTCCTGGCTCCTTTCTTAGGTCCCACTTTCTTGGAAAAAC
TGCTTTCTAGGTAAACCCAGCTCTTCTCTCTATGCCTGCTCTCAAGCAGCTGAAAATTGCTAGAAAGTACCGTTCAGTGAGAACAAGTAGATTCACTTCA
AATTTGTGACCATTAATTTCAAAGGGATATTTAATATGCCAGTCATTACTAGTAAATTCACTTTCCCTCTCTCTGAAAAAAAGAATTTCTCACCTTCTCT
TGTCAAAACTCCAACATCCTCTCTCCCCACCCCCTCAGCTGATGAACTCACCAAATACTACACTGAGAAAATAGATGTCATCATGCAAGAGCTACATCAT
GTTTCCACTACCACCGGCCCAGCTGCATCTACACCCACAAACTCTGCCTTCCCTCTTGTTGCACTGAAAGAAAAGTCTCTTCCATTGGGTTCTAAATCCC
AGCTTTGCTACTTGCTGGATATGTATCATTGGGCAAGTTAATTAACTTTTCTGTACCTCAGCTTCCTCATCTGTAAAAGAAGATATTAGTAATACCTTCC
TCTAAGAGTTGATGTGAGAATGAAATGAGTAAAAAAGCTTTAAATAGTACCTGACTATTTTGGGGTTAGCTGCTGTTTTACTGCAATAATCATCATTGCC
ATTGTCCTTAAGACATCATTGCCAACTTYTAAGGTAATTTCTTCCTTTTGGACCCTGACTCCTAGCACTTCTCACAGTGCTCAAAGACTTTACTCTGCAT
TTATAMCATTCGTCTTTTATACAGTTTCTTCTTCTCTACTGGGTCATTCCCATCAGCATACAAATGTCTTTTTTTTTTTTTCCTCGAGGGAGGGACTCAT
TCTGTTGCCCAGGCTGGGGTACAATGGCGTGACCCATGGCTCACTCCAGCCTCCACCTCCTGGGCTCAAGCAGTTCTCCCACTTCAGCCTCCYGAGCASC
TCCTGAACACAGGCACATTCCACTCCCAGCTAATTTTTAAATTGTTTGTAGAGACAGAGTCTCCCTATGTTGCCCAGGCTGGTCTTGAACTCCTAGGCTC
AAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTAGGATTACAGACATGAGCCACTGCACCCAGCCCAAAATGTCTTAATATTACTGTTACCTCTGGTGT
AGGGAGACTTCTTTGACTTCACATCCTATTTCTCTGTTACCCTTTAGAGCAGAACTCTCAAAAGACTTACACTCACTGCTTCTACTTCCTTACCTCTGAT
TCTGTCTTCTTTTCACCCTTACCAAGCTTTTGCCATTTCACTTCATGAAATGCTCTTGCCCTTCCACTCCACTGAAATGCTCTTGCAAAACGGAAGTCAA
TGACAAATATCTCGCCAAGTCAAAGGTCATGTCTCCATGGTCATCTTACTTGACCTCTCAACAGTATTTGACACAGCTAACTATTCCCTCTTTTTTTTAG
TCCACCCAATTCTTATTTTTAAAAATTTCAAATCTATAGAAAAGTTGACAGATGAGTGCAGTAAATATCTAGAGACCCTTAAATAGATACCACCAATTGT
TAACATTTTTCTATATTTGTTTTATATCTATCTATGTACACTCACCAGATTTTAAAACCTATTTGAGAGTGAATTGCAGATAACATGGTGCTTTACCCCT
AAATATTTGAAAATACATCTGCTATAGAAAGGACTTTCTCTTGCATAACCACAATAAAATGATGATACTAAAAAAAATTTAACATTGATACAGTAGAGTT
CAATGTATAGCATATATTCAAATCTCTCCATTTTCCCCCAAAATATTCTTTATAACTTTTTGAATATATGTTCCAAAGATTATACATTACACCCACTCAT
CATACCTCTTTGGTTTCCTTTAATCTAGAAAAGCTCCTATCCTTTTTACTGTCTTTGATGACATTTACGTTTTTAAAAATTAGACTTATTTAGGTATAAT
GTACATACAATAAAATTCACCAATTTTTTGTATACAATGTAATGAATTTTGACAAAAGTAAACCATTGTGAAGCCACCATTTCAATCAAGATATAAATGT
TGTCACTACTTCAAAAAATTCCCTCATGCTCCTTTCCAGTCGTTCCCCTCCTGTACATTTTTGACATCCCTTCTTTCTTGAAATATGTTATTTTCTAGGC
TTTCATGATACCATGACTTGTCTAGGTTTCCTCCTGTATCTCCTCAGTCAGCTTATCCAGCTTCTCCTCTTCTGTCAGGATGGAATCTTGTTTGTTATGT
TCGCCACTTACCACCATATCCCCAGCCCCTGGAACAGTACCTGGTGTAGGAAACCTTGAAAGATGAGGCACTTTCATTTACATTAACTCATGTCATGCTG
AGCTGCCAGTTAAGTGCAGGCTAACTGTTCTTTATTCAAATGCTGGGATCATGTGGTGTGAATCCATTGGTCAAAAAGGAAAGATAAGAAGGMCAAAATG
CATGGGACCAGAATTATTTCAGATTTTGGATTGTTTCAGATTGTGGAATATTTGCATATACATAAGGAGATATCCTGGGGATGGGACCCAAGTCTAGACA
TGAAATTTATCATTTATGTTTCAGATACACCTTATATACACAGTCTGAAGATAATTTTATACACAATTTTTTTTTTTTTTTGAAGGCAGAGTCTCGCTCT
GTCGCCTGGGTTGGAATGCAGTGGTGCGATCTCAGCTCACTGCAAGCTCCACCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCRAGTAGCTGGG
ACTACAGGYGCCTGCCACCACGCCCGGCTAATTTTTTGTATTTTCAGTAGAGTTAGGGTTTCACCGTGTTAGCCAGGATGGTTTCGATGTCCTGACCTCG
TGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTTTATACACAATTTTTCACAATTTTGCTCATGAAACA
AAGTTAATATACATTGAACCATCAGAAAGGGTCAGGTGTGGATTTTCTGCTTGCGGCATTATGTCAACACTCAAAAGGTTTTAGATTTTGGAGCAATTTG
GATTTCAGATTTTTGGATTAGGGATACTCAACTTTTATTCTCTTTATTTTTTATAGATAATGCCTCAAGAAAGTAATTCATACCATTTGCACAACCACTA
TATAGCAGAGCCAAGATTTACATACATTGTATAAAATATCTTCTAATTAATTATATTGTTAATTCAATATTAAAGACAGATGTGCAAGGATTGAAAATAT
TTGGGACTCCAAAATTTAAGATAGATTTTATACCATTTTATTCCTACACTATAAGGTGGGAAAGATTCATTGGGAGCAGTATAACATAATACAGTCATTT
GAATTTGATAGGTATATGTTTGTTGAATAAAAGAATAAGTAAGGTAAATGTTATTTGGTGATAACTTTGTGACCACTTGAAAATATTTTACTAGTTTAAT
AATATTTTATATAATTAATAATAGTTAGCAAGCACAGATTAGTCTAATCTTTTCAAGTGTAAAGTAATTAAAACATATACTAGGCTACCTTTCTACCACA
TTGAGATTTGGACTTCAGAGTGAATTGAAATTATTAGCCTCCTTTTCAGCAATTGTTCTATAAATAAAACCATGCAAAAAGTTGTCCTATAGGAAACTAT
AATTCTATAGGATTCTTCAAGACCCAGAGATAAATTTCTTTGGCTTATTAGACTTATGGATTTGACAAATTATATTATAATTACATAATGTATAATCTGA
AGAGTTTAAGTTATGTAGGCACAAAAAGTTTGAGTACCTATTTATTGAAAGAGCAGAGACATTGTGAGGCTATCCCTAATATCAGAGTTGTTCATTCTGA
GCATATAAGGGTTTGAGAAAGTTGAATAAAATACATTTTCTGTCATTTCTGAGTTTAAAAGTTACATACAACTTGGAAACAAAAATGAGTTGTGGAGGTG
ATCCCTCTCTCTGACTCAAGTGGAGCTTGTAAAATTTTGGAGAGGGTGGCAAAGGATAGAAAGTGAAGACAGAAATTCAGATTTTATTGAGCAACTGGTT
TATGTAATATGCTGGATGGGGATATTTGTAAGATGAATTTGATTTTCCAATTTAAGCACAGTAAATTACATTTCCAGGTCAATGTCTGGTCTTAAACTGT
AACGTATTATGATTATACTTTGTGGTTTTAAGCCATGGAAGAAAGTTTCAGAAATCGCTAAAGAGAGTAGGATATGGGTGTGAAATTAATGCCATTTAGA
AATCACGTCATATCATCTGTGTTCTCCATGCCAGTTTTATTTTTGTAATTTATTGTTTTTTACTTTGCATTCTGTTTATTATTTAAATTCCTTTGTTTCA
TAAGAGAGYTGAAAACAGGTTAGTGAAGCTGCAAGAAAGTAAGTCTTTCTTTGTCTGAGGAAGTTGTCACACAAGATTATTGAAATAAAAATAGAATGCT
AGGTATGCTTTGAAAAGGCTTTTTTAAAAAAGGATTGCATGGTTGGTGGAACAGTGGATGATGGACTAAAAGCTACTGATTTCTTTTTTTTAAAGGATTT
TGGAAGTTCTACTAGTAGTTACTGTAAGCTAACATTTCCTGCTTTCAAATTATTTCTACTTATGTTGTGGTAAAACTGTTCATTTCCTTTCTTTCACTCT
TGGTAAATAATTGAACAAGATAGAGCATAGAAAAGGGGGTTTTTAATTTGATTTTTTAGTGATATGTTTGTTTTTTAATGGTAGATAGCTAAACTTTGTA
GATATCTTTCATAGGGGAATGAATTCTATGAACAAGCCATCAGCAGATATGTTTCATAATTTGGCCAACATGTTCATTGATTTGTTTTTACTGTTTCCCT
TCCCTTCTGTGTGCCAGGTACCTGTTTGTGTGGTACATGTGTAATAAAAATAAACAACTGTTTATAACTGTTACTTGAATTAAGGGCCCACGTAGATGAA
CAAATGACTACCAGGCTAAACTGTAATTATATTTAATCTCAAGGTAATTTCCATCCATATAAAGAAAATCTAGAAGAGCTTAATAGCAATGGTTGCAAAT
ACTAGTGCCAGCACATGCAACACATTTTTAGTTGGAGAGGTCGTAACAGAAGGGTAGGAAGCAAACCAACCAAATAAATGTGTTGGTTTTAAAAATAAAA
GAATATTCATATAACTGCTTTTGATGATCACAGTTTTTTGGACTATCCCAAGGCAAATATATTTGGAAACCGTCCTATTCATTCTGCTCAAGCAGCCTGG
TTTCCTAAGCAGGTCGAGAGTTTTTCCTTTTATTCTTCTCAATATATTTCTCCTTAAAGGTCTGCAGGTTGTCTATTTTTTTTAAAAAAGTATTATCTAC
CTTGCATTTTCATTGTAATTCATTTCATTTCAGTTTCATATAATTGCATCCAGACAGTTGAATGGAGTCTTCACTTAAAACTATGTTTTAATTTTTAAAA
AATACATAATCATAGTTCTCTTTCTCTCTCTCTCTCTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGA
GTGCAGTGGCGCGATCTTGGCTCGCTGCAACCTCCACCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCCGC
CACCATGCCCGGCTAATTTTTTATATTTTTAGTAGAGACGGGGTTTCACGATGTTAGCCAGGGTGGTCTCGATCTCCTGACCTCATGATCTGCCCGCCTC
GGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCCATCAGTTGTTTTTTGTTTGTTTTATTATATTGAGAAGTCCACAGCAAAGAAT
CACAGTGAATGAGCCAGTTGCTGTGTTGAGTCAACGGCTTAAGAGTGGCTAAGGCCGAGATTGCAGAAATTCTTTTGGCCTTTCCCAGATGATCACAAAG
TGACTGTTGCAGTTCAAGCCATCATATTTGTATTACAGGCAGAAAAAAGGAGGTGTCTATCAAGAAAGCAGACATTTTCCAGAAATTTCTAGAAAGCTCT
GCTTATGTCTTATTGAACATAAACTGTGTCAACTATTTAGGCCTGGCTTCAAAGGAGGCTCAGAAAGATAATATTTTAACTAGGCACATTATGATTTGAA
AAAAAATTTGGAGTCTTTTTAGTAAGGATCCACCCTCGGCCTCCCAAGGTGCTGGGATTASAGGTATGAGCCACCGTGCCTGGCCATCCGTTGTTTTTTG
TTTGTTTGTTTTATTATATTGAGAAGTCCACAGCAAAGAATCACAGTGATGAACCAGTTGCTGTGTTGAGTCAACAACTTAAGAGCAGCTAAGGCCAAGC
AGCAGCTGCTTGCTGCAGCACTCCATCATATGCTAAATTGGAATTGAGCAAAGTGTCTGGGAAGAGACAGTAAAGAGAGGATTCATGTTGAAAAGAGAAA
TAAATATTTATTTATTGCATGGGATGCAGCCAGATGATTTAGGTCATTAATGAGTTGAGGAAGTAACTTTAAACTATCAAACATAAGAATAATACAATGA
AGACTCTATTAAGAGATTATTAATCTGGCTAAGAATTGTATATAGAAAAAAATGAAGAGCGAAGATGAGCTAGGATAGATACTAGGATAGATACTTTGGA
ACAATCTCAAGATGAGGTGATTCAAAGCTTGGAATGGGAAGAAAGGAAAAATTTCCAAAGAAATTCCAAAGGAAAAATCTATAGCATTTGGCAGCTGATG
ATTTATAAAGGAGAGAGAAGGAAAAGCTGATTCCATGATTTTGAGACCAGACCACTGAGAGACTAGTACTGCCATTCAAAGAAATGGATAAAATGGGAGG
GACAGTGTGAGATTTATGCATCTTGAATTAGAGATGTCATTGGTGGGTATTTTTGTGTATCTCTTGTAACAGATTGGTGTGTATTTCTGTGTRTCTCTTG
TAACGGAATACCAAGTAATTCTTGACTGATGAATTTCATTTTCTTTCCTTTTTGTTAGATACTACCAGCSCCCTCACAAGTTAGTGTCCCTTTCCATCTG
TTGTATTGTCTTAGACTTCTCCTCATTCACCACCTTGATGCTTTTACAAGATAACAAAGCTTATGGAGATAGGCATGGGGCAGCAAGAAATATAGAGTGG
GAATCTGCAGAGAAAAGAAAGATGAGCCCTCTTTCTTTGCTTGTTTTCCCTGTTTGTTTGTTTGTTTTTTCTCTGCTTTGCCTTGGGCATGATTGGGATT
ACTGAGATTATTCCTCTTGTCTATATTGTTGCATTAGTATTTTAACTGGTGTCCCTAATTTATTATTTTTCCATCTTAATTCCTACAATTCACCCTGCAT
ACTGCTGCCAAGATGAGTCATCCTTACATACTGCTTTTGTTATATCATTATCCTTCTTGAGAACCAGCGGTGGATTTTCAGTGTCTATCAGATGAAATCC
AAATGCTTTAGCCTGGCATCTAAGGCCCAGGACAGTCTGTCCCCACATTACCTTTTCAACTCAGTTCTAACCAAACTGTTCTACTAACAGTTCCTTGAAT
CTGTATTCATTAGTTCATTTAAAAATACTCATTCACTGATTCTCCTTTATGCCTAATGCTGGAGATACCAACATAGAATAAGGTACCCATGATTTGTACT
TTACTGTAGCCTCTAAGTGCAAGAGACAGAAGAAAACAAAAAAAAATTAACAACCCAAACAAAACAATTGCAGCTTATGACAGTTTGGGAGAAAGAAAGA
AATATGGTCCCTTCATGAAATATGGTGGGAGTCAGGGGTAGAGAAGACCTTTTTGATTGGGTAATGAGGGGATAACAGTTAAACCAAGATCTGAAGGATG
AGAAGAATCAACTGTGAAGAGTCAAGGGGCAGAAGATTCCAAGMAGAGGGAGCAACAAGAGAGCAGAGGCCCTGAGGCTGGAAAGAATGTGTTCGTTTTA
GGATTTGTCAGAAGACCAGTAAGGCTAGAGTAGGACCCAGTAGGGAGAGGAAGGAATGATACGAGATCAGATCGGGAAGGTAAACAGGGGCCACATCAGA
CAGGGAATTGTAGGCCACGGTGAAGAGTTGTGATTTATCAATATAGTGGGAAGGTGCTGAGGAGTTTGAGGTGGGAAGTGACTTGATCTGATGTACATGT
AAAGAGATCACTCTATTTTTGCACATGTGGTGTCCATGTCTTGGATTACCTGTCCTCTTCCCTCCAGGCTATCTCCTACCCATCCTTCAAAATCCAGCTG
AAATCCTACCACCTCTGCAAAACTTTTGCTTTACTTCTGTGGACCACTAGAATACTTCTGTAGGTCCTAGAATAAATAGTCTTTCCTCCACTGAACMTCC
TTAATGTAACCACCTCTCATTTATGGCTTTATCTAACACTACTCAAAGATAATTACCTTGAAGGTGGTGGTGYTTTTTTTTTATTTAACTGTGTCTCTTC
CTCCTCTTCATCCCATGCCTAAAGAAATGCTCTGATACTTAATTTTTAATATATACTTAGAGTTGGGAAATTTTTGCCTTTTTATGATTCACAAAAAATA
GCTGTTCTATAGCTGTATCTTACCTCCCTCATTTCCTCTGGTTGGCCTTACTTCCCTCTTATTTCTTGAAGTCATTAGTGTATCCATTTTTAACTCTTCC
CAAACCATTAGATTTTCTCCCACTTAGCAGAGCCTCTTCTGAACTCTCTACTATAAGGTAAACCTGGAAATAAATAGATTTCTTAAGTGGAAAAAATAGG
GTTAATGGTAGAGCTGCCTTTATATACTTGGAATGTTATTACTTTGCTAAGAATGATTATTGTGTTGATGATTTATTGGCAGTTGCATGGGTAATTTTTC
CATGAATAGTTTATATTCATTGTATTTGATTTACTAATTAATTATTTAGTTTATTAGAACCTTCACAAGACCCCAGAGGTTTAGATTCAATCAGCTTGCA
TTGATCCTTCTAGGATATTAGTTACTTCTTTGACCCAAAGGAGCCAGTTGCTGAGCCCCCTGTACCTAAGTGACCTTCAGAGTCCTGTTAGCTTTCAGTG
AGATCACATTCACTCTTTCTGCCTTATGGCAAAAATCTGTTTCTACTCAAACAGATGGTTTAGCTTTCAACAAATAAAAACTAGAGATCAGCATCTACTT
AAGCCAACAGAGTTGGTTTGAGCCTCCCACTAACTCTCCAAAGTCTGTTATTTTTTATTTTTTAATGTTAAGCTCCTCCTAATGGATTTATCTTTGTACG
GGGAAATCAAGAACCTTGCACTTTGTCAGAAGATGAGCCACTTCATATAATCTCAAGTTTCTATGTTTTAGAAGAATTGCTTAGTAAGCACAGGTTCGAC
TGCTCTGCGTTCTCTCTTTTGCAGTTACACCAACTGGAAACATTGGGGATCATAACTTTCTGTGGAGTGTTACATAGGTGTGTCAGCAGTTACATGATAC
TTTCTTTGTTATTTAAGACATCTGCAAGCTGAGGATGGCCAGTGTCATTTCASAGATGTACATGCCAAAGACATGGTAGTTTTCATTGACATTGGGAAAT
ACTCCTTCTCTTGAGCTTTTACAAATAAAAGTTAGAGAGTGCTAAGAAATCCACATATTTAAAAAAATCTAGAATCTTGACATTGAAAATATAAATGCAG
ATTGTTAATTATATGTTCCTGTGTTAAGAAAGCATTCTTGCTTTGGGGATCTTGAGTACATCAGACAAAAGTTGCCTTTGAACTCAACCAAGTATCCATA
GAGATATTTGCCTCTATATGTATTATTAATTTTACAGAAACAAATGCCTAGCTTAAATATAATATTTAGATTAAATAGTGAGACAAATGTAACCTGCACA
ATAGTTTGCTGCTAGGAAAGGAATTGTTAGGAAGGCCATATAAGCAGTTTCTTTGAAGATACCTAGGACCTATCTCTTTCTTTTCACTCTATTATGTAGG
ACAGAACCTTGTGGGAAATGTGATCTACTTGGCATCATTATGGTATGGATTAGGACAAAGAAAGATGCATTAATATTCCTGTACTCATGCCATAAAATAT
CATGGTTAAAAAGGCTTTAGTACAAAGTTATCCATGGTAACTCCCTTCGAGGGATTGGATTCCTTTCTGCAACATGTTGCTCTGTGGCCAACCAGTTTAG
ATATAATCACCGCCATGTATAGAGACTGCCTGCTTTAAATAGCTCTGGCAATTTGTAAATTGTTCCTTTTCTGTCTCTTAAATCCACAGGATTATATATA
AATATAATATTTCTTCCACATGACAAACCTTCAGCTGTGTGTATACTATATACCCTCTGAGTCTTCACATCCCAAGACCTTCCGGTTTTTGGAAGCTATT
CTTGTGACCTGGGTTCATGGTGCCTCGATTCTGGTCATTCTCTTCTGAATGGGCTCTGGTTTTTCCACATCTGTTAAAGAGGGCTGATGAATGCTGAGCA
TAGTGGAGGATCTCCTAATTCTATATAGTGTATTTCTATTGGTGAAACCAAGGTGTTTTTTTCTAGTTACATCATACATTGTACCTTCTGTCAAATATAG
TCTTTAGCTTTTTCATATATGTTACTACCAAGCTTTTTAATTTTATTTGCTGATTTGGATTTTTGGCCTGAATTTAGAACTGTGTTTTTATCCTGATTAG
ATACAGTTTTTCATTAAGTTCCTTACTCAATAAACATTCAGAGAAGGCTTCCCTAAGTCCATGGAATAGGTTAGGATCCCTTCCCAACTTTATGTACCCA
GAATACTCCAAACTTTCTTATTTTTGTAACATTCATCTTACTTGTAATCAGTAGTTATCATCAACTTCCCTGCTAAATTGGAGGCTTCTTAAGGTTAGGA
CCTTATTTATTCAATATTCTTTGTTATTCCTACTGCCTGACAAGAGTAAGTGCTTAATACATAGTAGCTGCTCAAAAATGTTTGTTGAATTGAATTAAAT
ATATGAAGTATCTATATAAGCCAGGCACTGTCCATTGTATCTAAGAAAAAAATGTAATTAATTAAATGAACACACAGTGAAATTTGAACTGAATCTTCAA
TACTGGCCAAGTGAATGAGGCATTCTGAGCATAGGGAACAGTATAAGTAGGGATATCAGAGAAAGAAAAGTACTTAGTCCATTTGGGGAATTAAAGTTGG
ACTAAAGTGCACATGGATCAAGGTACAGATGAAGCTGCAGAGGCAAGCAGAAGCCAGTTCATCATGGCCTTGTGTAGGACATGATACAGAGTTTGACTTA
AGCCTCTGAGTAATGGGGAACTATTAAAATATTTTGAGCAGGGAAGAGGCACAAACAGAGTTACATTTCAAAAGATTTCCCCAGCAGCAACATAAAAGAT
AGATKAGAGGGGATTATGCTTTTATAGGGACAACAGTTAGAAAGTTATCATCTAGGCAATAGATGATGGGTAGTTCATATTTAAAAAAGGATTCTTTCTG
TATACTATCTATTGTGTGTAACAAATTACTCCAAAACCTAGCAGCTGAAAGAAAACAAACATTATCTCAGACAGTTTCTGAGGGTCAGGAATCTAGGGCC
AGCTTAGCAGGGTGATTCTGCTTCCGGATCTCTCTTGAGATTGAAGTCAAGCTGTTGACTGGGGCTGAAGACTTGATTGGGTCTCAGGGATRTGCCTCCA
CATTCACTCACGCAGCAGGTGGCCTCTTTCTGGGGCTGCTCACAACATGGCTTCCCCAAAGCAACTGTTCCGTAAGAGTGAGAAAGCAAGTGAGTAAGAG
CACTCCCAAGATGGAAGCCACTGTCTTTTAAACTTAATCTTGGAAGTCTCATACCATCACTTCTGCTGCGTGCTGTTGGTTACTTAGACCAACCCTCGTA
CATTGTGGGAGGGGACTGTACAAGGGTATGAATACCAGAAAGTGGGGATCATTTGGGGGCATCCTAGAGGCTGCCTTCCATGCTGCTTGTCAAAGAATGT
AAAGAGTAAGTCTACAAGTCCATAATATTTTGATGGCTTATGGAGATAAGAGGGCAGAACACTCCACCTAGAAACTATCCTATTACCTAGAGCAGGTAAA
TAAAGTCATTTGCTTGACTGAAAGGTAAGAGGGTTAAAACCCACCATTCTAAATGTCAAGTAATAGTTACGTTGCAGTCWGCTTAGTTTTATACTATAAA
TTATGATGATTTGGTTCCATGTTTTTTTTTAGTATAATGTGATTGCTGTTCAGCTTTATATTCAGCGCATAGCACTATGCCAAGTAATGTACAGGTTTCA
AAAGAAGACTAAAATGTGATTCATGCCTTCAGAGAGTTAATTTACTGGAAAACAAGGCATACATAGATCATAGAAAATCTTAGACCCCAGAGAAAACTTA
GGGGAGTTTAACACAACAGCCTCATGAAACAGCTAAGAAAACGGGTTGAGGGAGGTGAATGGCTGATCCARCCCAGCTACTGACAGAGCTGAGACCAGAT
CTCAGACCTTTAGGTCTGTAGGCAAGCATTTTATTTAAATATAAAATGTAATTTGTTTACGATACCAAGAACATTCTTTTTTAAATATAATGTAAAAAAC
ATTTATAGAGACAGGGTCTCACGGTGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTCCTGCCTCAGCCTCTTAAAGTGCTGGGATTACA
AGCGTGAGCCACCACACCAGGCCAAGAACATTGTCTGAGGACTTAAATCATTTTTCTATTTGAAATCAGAATGACTTAGTATTTGATGTGGGGAAAGGCA
AGACATAAATGTGTTAGAAGACATTTCTGTCTTCTCTTGAAAGACCAACTCATCCTGTCACTGATTACTGTGTGACTTTGAGCTAAATTACAACACATTA
GTAAATACAGAAGAAAATAATGAGCAATGCCACATCCCTTGCATTTTTTAAAGCAAGGACCASCCTAATTGACAGTGAGATCTTTATATTAATTTTCCCA
TTTAAAATAGATAATATTCAGTGTTCGATGAAGAAAGAATTATGGGGTAGATTATGAAATAATAATTGGAATACTATTACTGTTAATAGTAAAAAATGTC
TGAACTATACTGTTGGAATAATAAGAGTAGAAATGAGTAAAATTAAGTATTTACAAGGTTTAAAGTATTTTGGAGTTTTGTTTCCTTTTTTAAAAACAAA
ATGCTTTTTAACTGTTCATTGCCTATATTACCAAATAGTTTTAAGTTGTACATTCAGGTTCAGCTCCCCTTTTTTGAGTACCCACCATTTATGTTAAGTA
TATTACTGGGTTCTTTAACAGATATAATTGCATTTGGTCCTCATAAAGCCTATGTGAGATAAACATTTTCCCCATTTTACAGCTGAGATAACTGAGAAAT
TAAGAGAACCACAACTGAACTTTCTGCATGGTCCTTTGAGGTCATTTTTCTGAAAAGCAAGTGCTAACTTTTAATAGTGTCTTTAGCCTTTCCCTCAGGC
AACAGCGTATGACTAAGTCAAGACAGCAGAACTAAATACGAGTTTATGTTACCATAATTTCAGAGTAACAGCTACTGTTTTATGTTCTGGTCATCTATTA
CATAAATATTTAATACTGAGCACATAATTTGGCATGATGGCAGCAAAAAGATGTCTATCCTGGAGTTTCCATGATAAACCAGAAAGGCTTTTTTTCCCCA
CCAGTATGTTAAAATATGGAGAAATAAATTAGGAGATGGTAAGCTATAGCTTTCTTATCATCTTAAGTTTACCTAATTAAAGCACTTTAAAATAAATTCA
TTCCATCCAAATTTAGCAGCCATCTATTGCAAAGTTTGCTTCCTTTTTCCATGACATTTAAATATACAAAAGCCTTTTTTTTWAAAAAAAAAGCATTTTT
TAGTAGGTAAATGTCAGTCACTTTCTTAAACTAGCCTGTCCTAGACCAACAGACCAGTTCTACTTTCAAAACAAAACATAGCATTTAATAGTAAAAATAA
ACTGTCTTCTCACTAATGAATTTACTGTCTGCATTTCCATAGATGTGGCCATGTGTTTTCCCAGGAAAACTGGCTTGAACTCAAACTAAGATAGCTACTA
AGATCCATTTAGACAAAGTGGGCTATAAACATGAGAAATCTTCCGCCCCCTATTCTGTGTTTGGTTAATTTTGCTGCTCTCATACATTCTAGCAATGTAC
CATTCTGTTCTCCCTTTTACTCCAGGGAGCCTCATTTGGCATATAGTTAGTCATACGCATACACCTTTGAAAACAGTCAATGTAACTCCCAGTTATTAAG
AACCTGATGGGTGCTAGGCATTGCCTTATGAACTGAGAGGTACAAATATGAAAACTATATAAAAGCTCCTGCCCCAGATAAACTATGATACAGAAGAACA
TTTGTTAGCTACTTTTTAGGTGCTGTGTATCAATCAGTTTTCTTAGTTTCAGGTGACAGAAACTAACTCTGGGTAACTTAAGTAGAATTTCTAGGAGGGC
CAAAGAATCTGACTTGGAGGTACGGTAAACAAAAACAAAGTCCTAAATTACACCACAGAGCTGGACATAGACCATAGCTTACATCAGTGATAGTGCTGAT
CCTGAACTGTACTTCCAGAACCAAAGCCATGGCTGGCCCTTGCAACTAGATACCACTCCTTCTAGGCCTTCTAGGGCCACCCTTCTTTCCAGAAGAGTCT
CCTTTGCAGTCTGGAGCTGGTGCATCTGTGTGGCAGAGCCTAGGCCATATGCCTGTACCCTAGTTACAAGGAAGTCTGGGAAATAAATTATCTGGTACTT
TATACACTTAACTAGTAGGAGGTCAGCTCTATCTCACAAGATAGGAGGTTCTGTAAACCTAGGTATGCAGTCAGGCACTAAGTGGCCAAAAACTTCTATC
AGCAGCATTTTGAATAATCAGAGAARATTCAACACAGGAGATGAGAACCAGGAAACAACAACCAAAAAAGAAATATGGTGAGTTTGGCCTTAATATCACA
AAAAGATGAAAAAACAATGTGTTCCTAAACCAGTTTACAAACCCACAGTTAGTGAAAGGCTAGGTGATAGCTTATATTCTCCAAAGTTATAAAGTCCTAA
AGAATGTAGCCTCTACTTGAGACCCATTTGGTCTGTGCAGGTACAGGCACTATCATCTCTCTCTGTAAAGGGTCAGTATGATGTTTAGGAAAGCARCCCA
CATTTGGAGTCAAAGCCTTTTGTTCTTACCCTGCGCAGCCCTTAACCAGATGTGTGACCTGTAAGCAAGGAGTTCAGTTAGTATCCTCATCTATAAAATG
AGAAGGTTGAGGTAGGTGATCTTTAAAGTTCCCCCTTGGCTCTAAAGTTCTATACTTTGTACATGATAGGCCAGTGACAACTAATGTTTTTACTCAAGCC
GATTGTATGTTTTAGAAGGCAAATAAATTATGAGCTTATTTTTTGATGACAGTACATTTTCATAAACCCAAAATAATTAAATCTCCACCTCCCACTTAGT
TTAGTTGTTTTGGGTTTTTTAAAACAATTTTATTTTCCCACACAGTACAGTTTAAGCATTCAAGTTGCAGCAGGGGAAATACTCATTGAATTTGTCATCA
TTATTTTTGGCTTCTATCTTTATGAGAGCCATTTTAGTTTTCTAGTTTCAGTGATCTATTTTTTAGATTTTAAGCTACAATATATTTTAACATTTGAGTA
TTAAATTGCATTTGTCATAATGAATTAGAACCTTACGTTTCTTTCAAAAATAGCTTTATCTCAATATGAAATGCAAGATTATTCACATTTATTATAAAGA
GGAGAATTTTTGAGACATTCTATATCCACTGGTCAGTTACTGTTTTGATTTGGTGATGGAAAATCATAGCAAATTGTACATTTAAAGTAAACCAAATAAA
TAACTTTATGCAGAGATAGAGATTGAAGTAGCCATTTGGAGATGAGAATTTTATCTCCATGCCTTCAAGAAAGACCATATGTAAACCAGGTCAGAAAAAT
AAAAATTACACCATATTTATTTTAATAGGACCATCTTAGAATACAAGACATAACACAAGAGAATTTATTTCTGGAATGACGTGAAGGAATTTATTATACA
AACTGCTCCATCTAAAACATGTTCCTAAAATGTAGGTTCGTAGAATTTTTTTTTTTTTTCCCCTGGGGACATAGTTTCACTCTGTCACCCAGGCTGGAGT
GCAGTGGTGTGGTCTTGGCTCACTGCAACCTTCGCCTCCCAGGTTCAGTCTCTCCTGAGTAGCTGGGATTACAGGTGCACACCACCATGCCTGGCTAATT
TTTGTATTAGTAGAGACGGGAGTTTCACCGTGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACTCGCCTCAGCCTCCCAAAGTGTTGGG
ATTACAGGCGTGAGCCACCGCACCTGGCTGGTTCCAAGAAATTCTAATATTTGTTCTGTTTTTAAGGAGAAAAATTATTGAACAACTTACCTCTAAACTA
TAGTCCTTTAATGATAAACACTACTGTTAAAAAATTCTTATAATTAACATAATCTGATATTGTTACTTAAGTCTTTGAAGAAATAGAGAAAAACTGGCTA
ACATCCCTTATGACTGCATGTTTTTATATATTAAATAGCAGTATCGAATTGCCTTCCACTATCTTTTTCAGACGAAATAATATATATTTAAACCTTGCAA
GCCTTATCCTTTTTTATACTTCTTTTTTCTAGAACAGCTTTATTGAGTTATAATTCACATACCATACATTTCACCCATTTAAAATCTATAACTCAGTGGT
TTTTAGTACAATTTTAGAACATATCACCCCAAAAGAAACCCATCCCCATTAGCAGTGACTCCTCATTCACCCCTTTCCCCACTCCAGTAATGCTGAGCAT
CTTTTTATGTGTTACTGGCCATTTGTATATCTTCTTTGGAGAACTGTCTATTCAAAACATTTGCCCATTTTTTATTGGATAATTTATCTTTTTATTGAAT
TATAAAAATTATATCTTCTAGGTACAAGTCACTTATGAGATATATGACTTGCAAATATTTTTACTCATTCTGTGAGTTTGTCTTTTCACTTTCTTGAGCA
AGCCTTATCTTGAGCAAGCCTTATTCTTAACTCTGGTTAAATTTTGGTTTTCTGAACATTTTGCTAAATTTTCTAAAGGTCTCCAGTTGTGGAGTAGCCT
GAAATGAATACTTTATTTTTTGAAAGTGGAACTAAACTCTAATTTAAGTCTATAATAGAAAAGAGTAATTGCTATAGGAACCAACATTTTTTTTGGTTGT
TTACCCTGTGCCAAGCATTGTGCTGAGTGCTTTGCAACCCTAAAATATAGGGTTGTTATTCCTGTTACATAGATGAAGAAACAAAGGCTTGAAGAAGTTA
AGTAAGTTGCACAAAATCAAAAAGTGCTAATAAATGGTCAATTGGAATGACAATGCAAGTTATTTTTTTTGACCAACTTTCACATTTTATGTGGGGTGTT
TGTATTCCACTATTGTACTTTTTAAGACAATATTATTTTACAGCCTCATTTTCCATCCACTACAATCCCTAGATTTTTTCAGGCATATTGGAACCGAATC
ATTCACTTCTGTCTCTTTAAAACTGGAATTTCTTGGTTTCTGAACCAAGAAATTTGATTTGATTTCTATAGCCTTTTGATTTTTTGACTGTCCCTTCCAA
ATTGGCCCTTTTTAAACAAATTATAACAATTTTCAAAGCTAAAAAAATTCTAAAGGTAAACTTGCCATTAAAATGATTAAATGTAAATTGCAGACCATTT
TAAATGTCTTTTTGATTAGCTACTATTAAGAATTTAGCTGATCTACTTCATTAAAATGTTATATTAGCTCAATGAATAATTATATATTTCTGTGTAACAA
ATTACCCCCAAAACTTTAATGGCTTAAAGCAGCATTTGTTATTTCACAGTTTCTTTGGTTTAGGAATCCAAGTAGAGTTTAGCAATGTGGTTCTGCTCTA
GGTCTCTCATGAGGTTTAAGTCAGGCTGCTGGCTGGTGCTGCAGTCTCATTTTTGGGGAGGATCTATGTGCAAGCTCACTCGTATGGTTGTTGGGAGGAT
TCAGTTCCTTKTGAGCTTTTGGACTGAGACCTGCAATTCCTCACTGGCTGTTGGCCAGAGTTCTCCCTCAGTTCCTTGCCATATGCGCCTCTCTATGAGA
CAGCACATGACATGGCCTCTGGCTCTGTCACAATAGCAACACAAGAGAGTGTCCAAGATGGAAGCCATAGTATCTTTGTAACCTAATCTCAGAGTTGATA
TATCATCACTTTTCCCRTATTCTACTCATTAGAAGCAAACTATTATGTTCAGCCCACTCTCTATAGAAGGGAAATACCAAGGGTATGAACACCAAAATAT
GGAGCTTACTGAGGGCCATCTTAGAGGCTGCCTGTCACACTCAGTGAATCTATTGTTTAATCATGGAGAATCCAAAAGTCATGGTGTTTTTATATAGAAC
RTTGATATGTACAGTTCCATCCTGCAAACAAGTGATAATTTTATCTGAAAATATATAAGGAAGTCTCTCCATCCTAAAATATGCATATGTGTATATGTAT
TATTTTTAAAGCATCTTTAGTCTGCATATACATTTGCTACTTATTAATCTGTTTTATCAAGAGACAACATTAAAGTTGTAAGACACAATTAGAATAGAAA
ATTTTATGTGTAACTTTATGTTCTCCCCTTGACTTATAAAGATTGCTATTGAATTTTAGTATTGGAAAACTTTGGCCAATGTAAAGATGATTTTAATTTG
AACATGTACAACATGCAAAAGAATATTTTTTCTCCTTAAATCATACTTTAGAAGTCAACCCTAATTTAACAAAATAGGTGATCCTGAATGGACTTTAATT
CATTTATTCAGCAAGGCTTATTGAATTACTCTTCTAACTCATCATGAGTTACACTCATAATAAAAGTCTGCACTCCTAATTTTGGCCTCCCATAGCTCAR
TCAATCTCTGTCTATGTTTCCAGTTTCATTTCCTATTGCCATCTCCCTTAACCTTCCACTCCAGCACAGTTTTTCTTGCTCCTCCCCATGTTGATGCTCA
TGCATGCCTCAGGGCTTTTCCATCTTCCTGAAAACCTCTTACCCAGATYGTTACATGGCTCGCTTCACTTCATTTACTTCTCTGCTCCAGCATCACTACC
ATAAAGAAGCATCCCACCAGCACTCTTCACAATACAGCAGGGACCATCAAAAAGCAAGAGACACAATAAAAATGATAGTTGAAAAGATTAATCTCATGAC
AGTGTACAAGATAACTTGTACGTAAACAGGCTGGATTAGACATGGATGAGTGGGGGCCACAATTAGGAACTTTCACATTCATTCAGGTGTGAATTGATAA
TGATCCAGTTATGACCACCTTGGGCATGAGTAAAGCTACACAAACATTCTCCCAAAACCAGGTCTTCCCTCGGATTTGTGATGCCGGTAAATTGTTGCCA
CCTTCCTCCATCCTCCTCTAACAGAGCCATTTCAGAACCAAAACTTTTTAAAGAAAAGTTTGAAAAAAATAAGAAGCACCAAAGAATTAGCAGGAAATGG
TTAGGTTTTAGGACTAGAAACCACAATGCAGTAGGGGCTCTGCAAGAGGAAGGAGTGAGTGCTTCAAAGTGACATAGCAGCTGTGTGCTGTTGTGCCTGA
GACTCCTTCCAATCCTAGATGTTTCCTAGTGGTGCTGGCAAAGCTTCTGTTGGCTGTACCACATTCTTTCCCAATCCAACTCCCTCTATGTAAAGTCTCA
TAATTCTAAGGATCCTGGGTTCAAATGTAAGTTTCTTCCGTAGTAGTTACCATTTGGGTGTTTCTGCTTCTTCTAAACTCCCTTCTAATTGTTTTTCCTC
TTGTTTTTAAGCTAGTGATTTTTTCCCCTGTATTTTACATATGCTTATGGAAAGAACAGATATRTTTTCATGGCACTTAGCATGTTATAAATGCATTGTT
TTCCATGGAGTAAGATCATTCTACCACTGAGAGCATTAAATCCATGTTCCTAAGGTAACCCATGTTTTCCTAGAAACAGGGGAAGAGTCATGACCAACTT
TCACATTGTCTGCTTTGTTCTTGGGGTATCATCCATTGTGATAACCATTCCCAAGAAGTTTCCTCCCCAAAACAGAATTACTTCTCTGCCTACCCTTGAT
TCAAGTGACCTTTCATTACAGATAATCTGGTTTTATAGGGAAATCTAGTAGGTTCTGCACTCAGTTGTAAAGAAAGACAGATGCAAATGGGTTTCAGTAA
TTGGTACAACATTGTCACAAAGCTCTTTAGATTAGCAAGTACTTATAAACTAGGTGGAATATTTTTTATTCCATGTTGTTAATAAGAATGCCCTAATCCT
CTTTACACACTTGAAAATATCCAGGGAATGCAGAGAGAGACAGACAGAGAGATAGACTCGTATGTAATCATGGACTTTTGAGATAGGTAGGTATAGATGT
TCCTGTAAACTAAGCGTTTGTAGCCTCCCAAAATTTATATGTTGAAATCCCTACCATACTGTGATATGGAGCCTTTGGTATGAGGTCAGAGGCTTCATGC
ATGGGATTAGTGCTCTCATAAAATAGGCCCTGGAGAGCTTCCTCACCCCTTCTGCCATTTGAAGACACAGTGAGAAGATGAATATCTGTGAACCAGGAAG
CAAACCCTCACCAGACATTAAATCTGCCAGTGCTTTGATCTAGTTCTTCTCAGCCTCCAGACTGTGAGGAATAAATTTCTGGTTTTTATAAGCCATCCTG
TCTATACAGTTTGTCACAGCAGCCTGAACAGACAGAGACAAGTGTAATCCCATCTTTTCCTTAGCTGTATTATTAGGTTAGTGCAAATGTAATTGCTGTT
TTCGCCATTTTAATGGCAAAAATCACAGCTACTTTTGCACCAACATAATATTTGCTCACTTTTCTCTGTTGTAATTTTCTCATATGAGACTGTAGGAAAG
AATGATTTAATATATTCTATAAAGTGCCTAGTAATATAATAGGTCCAGCATATGAAAGCATTCATAATAGGTTCTCAGTAAAGAGTGGCAATGCTCGAGC
ATTTCTAAAGAAACGGAATTGATTATATTCCATTCCTTTTTCAGACAGTTATAAATGTTAGAAATTTCTTTCTGTTACTGCTCCAGAATCTGTGCTTTTC
AATTATTGGTTCTAATTCAGTATTTTTAGGCCTCAGAGAAAAAGCCTTAATGCCGTCYTCACGTGGTAGGCTACCAGGTCTTTGAAGATGGCCATTTTGT
ATCCCACATCTTCTCCACATCTGCTCATAGAAATACAGTTTCTTCATTTGCTCCCTTATGGTTTAGGTTCGAAGCAACTCAGAATGGAACACAACGCTAC
TGGTGTGTTAATTAGCAGGTGAGAATGGAACTATCACCTTTTTTGTTGTGTTCTTAACACAACCTTAGTTGGCATGAATTTGAGGAGCAGTTATATTTCA
CCTTTGACTTGTCAAACTTACACTTGACTAAAACCTACAGATGTTTTTCTTTTTAATTTTTTTTAATTTTTAATTTTTRTGGGTACATAGTAGGTGTATA
TATTTATGGGGTATGTGACATGTTTTGATACAGGTGTGCAACATGAAATAATTACATCATGAAGAATGCARTATCCATCCCTTCAAGGATTTATCCATTG
AGTTGCAAACAATCCAATTATTACACTCTTTAAGTTATTTTAAAATGTTACAGATGTTTTTCAAACATGTCTCTGTTCTACCCTATCTCTCTCATCATAT
ATWTGTATGGGATTTTACATTTTGACATATTAAATTTCATCTTGTTGGAGTTTGCTCGTTTTCTTCTTACCTATGAAGCTGTTTTGGGACCCTAACTATG
ACAGTAAGTCACTTGGCTATGCACTTAATCAGCATGTGTTTAATATCYACACTCACATTTTTATAAATATTTAACAGGAAGGGAAATTTATACCTCCAAA
CCCACTCTAATCCCTGAACTCCAAATGCATGTAACCAACTGCCTGTTAAATATCTTCACTTAGATGATTCCTGTCAGTTCACACTTAACCAAACTGATTT
CCACCCTCAACCTTCTCCTGTAGTCTTCTCATCCTRGTCACAGTGAAGCATATCCGTCCTTCACATTGCACAGCCAAAAACCTTCCTTGCAGTCATCCTT
GACCCATTTTGTTTCCTCCCACATCCCATATCTAATCCCTCAGCAAACTCTACTTCACAATGCATCCTGAGTCATACCTTTCTTACTTCTTACCTTCTTG
CACTACCACTTTGGACCAAATCATCAGAAATAGATTCCTAACATTTTCTGTATTTACCCTTACATTCTTTAGTCTTTTTAAAATATTGACGCTAGAATGA
ACCTGTTAAGACTTAAATTATGTCACTCCTACTAAAAATACAAAAATTGGCCAGGTGTGGTGAGGCATGCCTGTAGTCAGTCCCTGCTACTCGGGAGGCT
GAGTTGGGAGAATCACGTGAACCCAGGCAGCRGAGGTTGCAGTAAGCAGAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCCTCTCA
GTTAAAAAAAAAAAAAAAAAAAAAAAATCACCTTAATGCCTTTTATCTCTGGTTACTTCAACACCATAATTACCATAAATAATTCATCTCTGTTGGAATA
TTTGTGTCCCATTAAAATTCGTATGTTGAAATCTCTTCACTAATGTAATGATATGAAAATCAGCCTTTATGGGGGTGATTAGGTCAYGAAGGCAGAGCCC
TCATGAATGGAATTACTGCTCTTATAAAAAGACAAAGGACTTTGCAGGGACGTGGATGAAGCTGGAAACCATCATTCTCAGCAAACTAACCCAGGAACAG
AAAACCGAACACTGCATGTTCTCACTCATAAGTGGGAGTTGAACAATGAGAACACACGGACACAGGGAGGGGAACATCACACATCGGGGCCTTTCGGGGG
GTGGGGGACAAGGTGAGGGATAGCATTAGGAGAAATACCTAATGTAGATGACAGGTTGATGGGTGCAGCAAACCACCATGGCACATGTATACCTATGTAA
CAAACCTGCACGTTCTGCACATGTATCCCAGAACTGAAAAGATAATAAAAAAAAAAATCACGCCACTCCTCTGTTCAGAACTTACCAGTAGCTTTCCATC
TCACTCAGAGTCAAAGCTAAAGCCCTGACAATTGCCTGCACAACTCTACATGGTTCTGCCTCCCCTTCCCACACATGTACACAAACACATTTGCTTTTCT
GACCTCATTTTCTAGCCTTCTACCCTTGCTTCCTCCTCTGCATGCACAGAGTCCTCTTTGCTGTCCCCTGAACATGCCAGGCATACTCCCACCTTAGGGC
CTTTGCATCTACTGTTCGCCTGTCTGGAGTGCACTTTCTTCATCCCATGCACTATGAATCTTCCTTCTGCTCTCATTTTTGTTTAAGGTATTATATGAGA
CTGTGCTACTAATAGAAATTATAGGGCTCTTTTGGCTAGTGTCAAGTATAGATTTGCGTTTTGGACTCACATAACTGAATATGTTAGAATTACATCTAAA
GAAATAATTGCCTATAAATGGAGTATTGTGTGTGAAGAGTTAGAGTCCTGCCCCATCTCCTTTCCTATTAAATGATAGTGATTTTCACAGTATCTGAGAT
AGCCCTTTGAATATCAGAGAAACATAAGAGTGTAAAGATTTCAAGGAAATGGTCATATTTTTCAGATGAGAAAAGTTCACCAAAGATTTTACCCATTGGT
GCCARAAATGTAAGGCAGGCAAGAAGTTAGTAGAAGAAAGTCATCACACTGTAACAAWTATTTTTTTTAAGTTGTAGGCACTGATTTCCAAATGAGTTCC
ATAAACCACTGCTATTTCCATTTGTAGTATAGCAATAGGTTGTGATACTAACCTTAAAGGTCTCAAGTTCAACAGCTTATTATGAGGAAAGCTGCCATTC
CTTTAAGAAGGTGAGTTTCTATTATCTTTTTAAAGAGAGAATTACTCCTTTATAAAAATGTAACTTCTTCATACTGTATTTCAGATCTCTTGCTTTTTAG
TAAAACTTTTCATTGCAGTGGGTTTGATAATAATAGTGCTCACTTTTAAAAAATTCCCTAAATTTTAGTTTCCCCTCCAGTCACCAGCTCACTTTTCTGT
GATCCTCTTTAGCAGAACTCCTTAAAAGACTCATCTATACTTGCTGTTTCCTCCTTCTCTCCTGCTGTTCTCTCTATAACCCACTCCAAATAGGCTTTCA
TCTCGTCGCTCCACTGAAACTACTTATCAAAGTTTCCATCACCGTCATGCTACCATATTATCTTCTCCATCCTCATCTTATTCCCAGCAACATTTGACAT
CACCTTGGAACACTTTATTTACGTGATTTCACTGAGACCTCCTGTCTGGTTTTGTTTTTCATCTTATTTCATTAGATGCTAGTTCTCAGTCTCATTTGAC
TCTTTCTCTTCTCCCAAACCCTATACATTGAAATATCCCAAGGCCTAGACCCTCTAGTCTTTGGCCTAGGTGATCTTTTTTTATATATGTATTTTAAGTT
CTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTTTGCTGCACCCATTAACTCGTCATTTATATTAGGTGATCT
TATTCAATCACATGGTATATAAATTACAATATAGGCTACTATGACAGAGGCCCCAGAATGAAGGTGCCTAAACAAGATGAAAGTTGATTTCTTTTTCCTA
TAAAAGTGTGGGAGCTTGTCCAAGACTGATAGGATAGCTTGTTAGTACTGGAGACCCACGCTCTTTCTTTCCTGCACTCTGCTGTTCTCAACATGCTGTC
TCCATCTTCTGGTCCCAGATGGCTGCTTCAGCCCCTGCATCCTGTCAGTATTCTAACCAGCAGGAAGAAGAAGATAGGAAGTGAGAACGTATCCCTTCCC
TTTAGGACTCAGAAGTTAAACATGTTTCATCTGCTCTCATTTCATTGGCCAGAACTGAGTCACATSATGATAACTTGCTGAAGAGAATTTAGGAAATATA
GTCTTTAGGTAGGTAGCTATGGCTTCCAGCTAAAATGGAGCAGTTCTTTTACTAGAGGAAAAAGAGCGTGATGGATTTTGGAGGACAGGGAGCAGTTTCT
GCTGCACATGGCTTTAAATACTATCTATGAGCTAATGTCTCCCAGATTTGTAGCTATTTCCTGAGTTCAGGACTCTTTCCTCAGCTGCCTCCCTAACATT
CTCGAACACCTGCCTGTTCAAAATTGAACTCTTCACTTTTCTCCCCAAACTCCTACCCATCTTAGGTCTCCCAGGTGCTCATGCCAGAAACTTAGAACAG
TCTTGATTCCTTGCCTTCTCTTTCATCCAYTTTTGATCCATCTGCCAATCCTATTAACTTTACCTTCAAAATGGACTCCAAATCCAACCACTTCTCATCA
GATCTRTCTTCCACATTACCACCAATGACTTATTTTAATAAAATACATATCCCCATCCTGTTTCTTACTTCCTTAAAACCTTCCTCTGTCTCCTTATTGC
CTTTGGGATAAATTCTAAACCCTGTGTGAACCAACTCTTTCTATCTCTCTGGCCTCATTTTCCCATTTTCCACTTATATTTTGTATTTCAGTACTACCTA
GCACAACACACCTCATGACTTGATGTATTTACTAATGCTTATCCCTCTGTAGAATTTCCCCCACCTCAGACCTGGCTGAAGAATCCCTTAGTCTCAAGTG
TCACCTCCTTCAGATCTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGAAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTC
CGCCTCCCGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGTGCCACCAYACCCAGCTAATTTTTTTTGTTTTTTTTT
AGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGCCTCGATCTCTTGACCTTGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGT
GAGCCACCGTGCCTGGCCAGAAAATGTTCTTTGTCATCTCTCCACCTCCCCAGGCTAGGTAGGCACCTTCCTCTTTATTCTTGTTGYACCATATGCATAC
CCGTATCACACCTATCCTGGATGATACCAGTTTACATAGCTGCCTCTTYTCCTAGATGCAAGTGCCTTGGTCAGGGGCAAGGGCTTACTCATCTCTCAGT
GCCCAACACATAATAGCTGCTAAGTAAATATTTATGTAATTGAATCATATTGATCATGGGAACAAACTCCCATTGGGAGAGCATCACCTCTGCCTTACAT
ATCTGAGAAAAGCCCTTGTTTATTGTACCCTATCAACTGAATCTGCTGGGSTATATATTAAAGTGGGTATTTTAGGCCCTGCTTAAAAAATAAAGGTTAA
ATTGAGCATATTCATTGCTCTGTTAGGATTACATAATGCCTGATAGTGCAAAAACATGGTTGTTGACTGAACTTTACAGTTGTCTGGGGTTTGTGAGGCC
CAGCTATAGTCTAGGTAGCTTTGTGTGTTTGAAGGTATTCTGACTAGATGAGTCAGTAGTTTAAAAGTAACAAGTCACTGTTGGTCTGTGGGAGAAGTTG
TGTGGACTTAGACTTGCCTTCACTGCTTTAAAATCTTGCTTTTTAAAAAATCCCAAGAAAGGTAGGTTCTCTTTAAAAAGTTTATGGCCTGTATTTGCTG
TCATAAACCAACCCAGTTTTCAGCCTTTAGCCGGGCTCCACTCCCTTAGAGATGAATGGTAACCCATATAAACTACATGGCGATTCTAGTTGTTTTTAGT
CAGGAAAAGCCCCAAGGTTTTTATTAAGAAGCCCAGAAAGAAGAGATGTCAAGGATTCCGGTGAGAAGTACTATGTTATAAGAAGCAGATTAGGATAACT
TGTCTTAAAAATGAAAAAGGGATGAGAAACTTGACAAGTTTTTAGTGCTTTCTTAGCACTAAATGATGACTTAAAGAAAGTTTAGTCCTTGCCAAATTTT
CCCCTTTGGAACTGTTTCCACTGTGTGATAGAGATCTGCCGCTACGAGCTTGTCATCATTCTCATCCACTGTCTTCTTTGTCTTCTTCGAAGTCACGTCC
TACTCCTCTTCCTCTTATCTTTTTTTTTTCGGCGGGGTGGGGGGGTTTTGTTTGTTTGTTTTTTGCACTAAGTCATAGAACTGAAAAGACTCTGGGTAAT
GTTTTCAAAATAAAGCCACATTGTTTCCAATACAACAGCTTTCTCTGGGTTCTTTCACTGCCTCCTTAATGTAAGTCTTAATCACACTTGTATTAACAGT
AGAAACACTCTGCAGTATCTCGTTTCATACAGTGGTGTTAGAAGCATTAACTCCTCAGCCCTCATACCATCACAGGAAAACAGCAATCATTGTTAACCCC
CATCCATTGGGGAGATGAAGAAAATGAGCAAACTATGAAGAATGCAGTTTATTTCGTCTCCATAAGACTRTGAGGCAGTGGAAGGTAAGGGCTAGACCCC
AGGATGGCTGATTCCTAGGGCTCTTTTCCTGTGCTCCAGAATGCAGTGACACCTTTCAGTTGTTGCTGTATTCAGAGGTGTGTGTTGCATGTGATAGGTA
CAGTACTTGACATTATTAACTCTTGCAACCACCCTATGGGTTAGGTATTAATATCCCCATGTTATAGATGAAGTCTGTGATTCCAAAGCCTGATGTCTCT
CCACTGTGCCACACACACTGACTCCACACAATAACAATTACTCCCATTTCATATCACTTGACATCCTGAAAGTCCTCCACAAACATCATCATATTTAATC
CTTAAGAACTTTGGAAATATCAGTGATTATCACACACTTTGAAATAAGCAAGTCACTAATCAATGTGATCTTATTAAAATTTAAGTCAGTTCATGATGCT
ACTACTCCGACCTTCCAATCATGTCACATCTGTCTAGAATCAAGGCCCAAATCTGTGTGACCTGTGATATGGTTTGGCTATGTCCTCACCCACAGCCTCA
TCTTTTTTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGCCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGTTCACTGCAACCTCCRC
CTCCAGGGTTCAAGTGATTATCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCGTGACACCCGGCTAATTTTTGTATTTTTAGTAGAGA
CGTGGTTTCACCATGTTGGCCATGCTGGTCATGATTTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAATGTGGGAATTACAGGCATGAGCTACC
ACACCCAGCCCCAAAACCTCATCTTGAATTATAATTCCCACATGTCAAGATTGAGACCAGGTGGAGGTAATTCGATCATGGGGGCTGTTTCCCCCATGCG
GTTCTCATGATAGTGAGTCTCACGAGATCTGATGGTTTTATAAGCATCTGGCATTTCCCCTGCTTGTACTAACTCAGTCCTGCCCCCTTGTGAAAAGGGT
GCCTGCTTCCACTTTGCCTTCTGCCATGATTGTAAGTTTCCTGAGGCCTCCCCAGCAATGTGGAACTGTGAGTCAATTAAACCTCTTTCCTTTATAAATT
ACCCAGTCTCAGGTATTTMTTCATAGCAGTGTGAGAACGGACTAATACAACCTGTAAGGAGAGTGGTCCGCTGGTTTCCTCTCCAGCCTCATCGCCTCCT
ACTCTTCCCTTGATTCTCTCTGCTTCAGTCACACTGGTCACCTTACTATTCCTCAGATACTCAGGGCACGCTCCTGCCTCAGGGCCTCTATACCTGCTCT
TCCCTCTATATGTAATGCCCTCTCCCCAGACACCTGCTTGACTAGCTCCCCCAGTTCTGCCAGGTCTCGAACAAAAAATCACCTTTTCACACGCACACAA
AAAGCCATCTTGCTGGTCAGGACTTGCCAGACCACTCTTTGCAAAATTCCAGTCTAGCCCCTAACATGTCATATCCACCTTCCATGCTTTAGTTTTATCC
TTAGTCTTTATCATTTTCAAACATACTGTGTATTTACTTACTTCTCTCGCTTACCATCTGCTCACTAGAATGTGAATGCTGTGAGGGTAGGGCTTTCATC
TGTTTTGTTGTTCACTTCTCCACTCCAGCACCTGTAACATACTGGGCACATAGCAGGCACTCAATAAATATTTGATGAATGAAAACAGATTAGAAAATAG
AAAGTCAAAGAAGCTAAGTGAGTTTCCCCAAAATGATATGGTATAGCAGCATCAAAGCTAAAACCAAGACTGGTCTTCTGATCCACATGCAGTTTGGTGC
TCAGTTAGGCCAGAATCCGAAAAAGTTGTAAGTTAAGTTCTGAAATAAAACTCAGCCAAATAAAGTAGTTTGGTGTAATTTGCACTTTTAAAATAATTTT
TCATCAGTTACTATATCATAGAGGATGAAGAGCAGTCCTTCCCTTGGACTGTCTCCAAGCAGCAGGAATAATGAGAATAAGTTACAGAACTTAAAATAAA
CCCAGGTGTTTCTGGGCCTGAGATTCTTAATGTCCACAATGAAGGGACCATGTCAGTTCAGAGCTCTTCACAGCTCTAATCTTGAATCCATCTCATGGAT
GAATGAAATGCCTGGTTTTCTTTGTAATTTGTTCAGTTCTATGCATACARGGTATGCAGTTTGTTCTGTAGATAAACTACACATGGGTATTTCTGTAACT
CTCCTTTTATCATCATTACCGTCTGTTTGATTCTTTCCCCTACATTTGTGCAAAATGTAGGCTTGTCATCTCACTGTGTTGTATTGCAGGATCAGCAAGC
ATGTCAAGGATCTCATGTGTCTTCTAATCTCATGCAGCCTCTGCTGCAAGGAAGCTCTCACCACTGCCTCCTCAGAGTTATCCAATGGGCAAAGAAACCA
GAAGGCAGGACGACTTAAGGCCAGGGAACTAAATATGCAATAATGGTGTCTGGGGGTCAGGAAAGCAAGTGTTTGTACAACATGGCCTGGCATTCTTTGT
CACTCTGAATTAAATCTGCACATGGTAATCAGACCTAAAAGAAGTGCACCAATAAGTCAGGCCATTGGTTATCCAGCTCTATACAAGTTTTGGCAAAGAA
GGTTAAATGCAGTGTTTGGCATTGTATCTCATCCTGGTTCATTTCTTCATTAAAAATTCCCTCTGTAGAGAGTAAAATACAGTTATTTTGAGGTGGTGTC
CATATCCTTAGGAACAGGAGGCACCGTCCTAAGCTCCTTTACACATACCAGCTCTTAAATACACAACTTGAGTAAGGTTTATAATTCTCATTTCTATTAT
ATGCTGCACATGGCTTATGATAAAGTGAACCTGCAAATGATAGCAAGATAGAACAAGTCTGCAAAAGTAAGAATGGCACGTTAATTACAGAAGTTGGATC
CTATCAGTAATTTAAACCAAAGCATTTATTTGAAAACAAAATGAAACAAAACACCAATGCCCTCAGTCACCTTCTTATTCCATTCCCATTTGCTCCAGTA
GGAATTAATCTCTTTATTTCTCCTTACCCTTGAGCACTTTTATATATCTGCACTTGGGTTAAAGGCAGTTCTATTAATTTCTTTGTTTGGACAGAAGTTT
CCTTAATTTACCATAATCATCACTGTTGTCACTATGCCAGTCCAGTATGTTTGGACTTCACAGATAAGTCTTGCAGTTTCCAAAACACCATCCCATCCTT
ACTGCGTTTATTCTTGAATGACTTTTCACTGGGAGATAGTATACTTATCTTTTWCAACAAAACTACAAATGGGATCCTAATAACAAGTTTACTGTTTGTT
AATTTGTGTTAGATATAGGCATACTGTCATATTTTCCTGTAATTTTTCATATCTGGTCTTGTGAACTGTTACTAGTATTTTTCTTCCATATGTATTTTAC
CTACCAACTTGATTGTAAACTGCTTAAAGATAGAAGCTATGTTATATAAGCATTTCACGCATGCTGGCTCAATGAATCACAAATAATTGGGAATTTGGTT
AGACATCTCATCTGAACAGTCCCTGCCCTGATACCACCCTGGGACATTCAGCCCTTGGCCACCTGCTTTGATGAGCACATTTCTATGTCTCCTGCTTAAG
TACTTACGTAAGATGCTACTGAGTACCTGACTTCAGACCTACAGAGTCTGTTTTTGTTTTGTTTTGTTTTCTTTTGTTTTGAGACAGGGTGTCAGTCTGT
CACCCAGGCTGTAGTGCGGTGGCTAGATCTCAGCTTTCTGCAGCCTCAACCTCCCAAGCTCAGGTGTTAGCCTCCTGAGTAGCTGGGACTACAGACACAA
ACCATCATGCCCAGCTAATTTTTGTATTTTTCATAGAGACAGGAGTACTCCATGTTGCCCCAGCTGCTCTCGAACTCCTGGGCTCAAGCAGTCTGCCTGC
TTTGGCCTCCCGAAGTGCTGGGATTGCAGGCGTCAGCCACTACACCTGGCCCCTGCAGAGTCTTTATCAAACAGAAGTGAATATTAGGAGGAGCCTGGGG
AAGAATYCTCTTTGATTTACCTTGGTGTTAACACTCCAGCGATACAACTATGGATCCTCCAGAAAGACTATGTTTTTGCTGTATCAGTGCCACCTATTAG
GAATTGTTCCATAAAAGAGCATGAGAAACTCTCTGGAGTTCAAAAAGTCAAAATGACATCCTTGCTAAAAAATCTCTTTATGGTTTGAGTTCCATAGTTA
CAACCAGGAATCTCTGGGAATTTGGTCTCCAAGCTCTTCTCAGAGCATGTGTTGCATACATTCTGCAAAGCCCTTGGGGGATGGAGCAGGCCTAGTTTTT
GGTTTTCAGCAGTGTTTGTTATCTTCACAGTTAAATGGAACACTGGAATGTGATATTTACTCAATTTTGCCCATTTTTCATTCAGTATTTATAATTTTTA
ATGTGGCAGGTCTTCTAAAAAACCAACAAAAAATTGCTGATTTTGTGATTTTAGTTTCTAAAACAAATGAAAGCAAAAAACTTCTCGCCCCTGAACTCCA
TCCCTGGCTGTTACCCTTCATTCTCTGTTCTTACTCTTTCCTAAGCAAGTAAGATATGACATTTATTCATCAGAGCATTTTATGGTTAATTCACTGTTCA
ATTTTCTAAAATACCATTTGGCTTCTTACCTACAGAGCTATAGCACCAGAATTCACTCGGTATATGTGTAAGAATGACTGCTTCCATTTTCCGAGAGAAA
TAGAAATAGAACTAAGAGCAGTGATTTCCTTGTGTTAAAGAAAAATTATTCATGACCCTTGTTGAAAACAATAGAGAAGACTTTATTCAAGGGAGGCTAT
GGGAACGATACAAGGATTACGGCAGTGGAGTCTTGCAGTGTGGGAGAGAGATTGGGCTGGAGTCTGACTCTGACAAGGACAAGTAGGGATTTGTAGCCAA
GGAGCAAGGTGTGGGGGTCAGTAGATGGAAAATTACTAAGTGGAAACACCAATGTAAGGGAGATTCTTGCTAGATGGACTCAACAGAATTCTTGCTGAAG
GCAGGCCAGGGTGATTAGATGTCGAGGGTAATCAGATAACAAGGGTGGAGGATTTTTGTTAAACTTTAGCCGGATTCTTGCTCAAACTGGATTCTGTAAG
GACAGAGAGGGAAGCCCAGGGTCAGGCCCATTTGAGCAGGGGGCTTATGGAGATCTGATTAGAGTTAGTTTAATGAGAGTCTTTGTCACCTGCTGAAAAG
AATTCGTTTTTATGGCTCAGAATAATAGTGTAATCATAGCAAGAGATGACTTGTCTATGTCCATTTTATAATAATTCAAAAATCTCAATAATTTCTGAAA
AAAAGAAGCATTTGTTATCAGAGTCATAAATGTTGCTATTTATATGCTTAAGTAGTAGTATATCAGAATTCACAGAAAGGAACAATTATTTAGTGTGCAA
GATAGTATATTCCAAATTATTTCATATTATAGAAATAAAAAATATTCCATAGTCCYTAAGCCACGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGA
GATGGAGTGTTGCTCTTCTTGCCGAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTACAACCTCTGCCTCCCAAGTTCAAGTGATTCTCCTGTCTCAG
CCTCCCGAGTAGCTGKGATTATAGGTGTGCGCCACCACATCTGGCTAATTTTGTATTTTTAGTAGAGACAGGGCTTCGCCACATTGGTCAGGCTGGTCTC
GAACTCCTGACCTCAAGTGATCCACCCCCCCGTCAGCCTCCCAAAGTACCTTAAGCCATTCCTTTTGAGACTCTGAAGAAAGGGTACGTTCCTAATGTTT
TTGGTTTGGATTATCAGTTCATGGCAGAGCAGTGCCTTAATTGTACTTGGTAGTGACCMCTACTAGTTGTTCAATCATGAATCCTCCAGTACTTTTTATC
TGAATAATATGGAGATCCTTTCTTAGTACTTTGTTAGACAGCTTTTCTAGATCGGTTTCCAATAGTAGCGAAAGAGAAAATCCTTTATCCCATCTTTTCC
AGAATTAATATTTTCTGATCACTTCATTTGCAAGAGTAAAGTAAATATTGAAAATACCAAAGTGAGCTTCAGTCATTTATAAGAATTGTTTAAAGAAGGC
AGTCATCAGTTACTTTTTTCACATGATTGTATTGCTGAGAGTAGTATCTGCATTAGTCTCTTAAGCAAGACTTTWAAAAAATCCTACTGTTGTCCCCACC
TTTATTTTTGAAAGATAAACTTAAAATTTACATTTTTAAAAATTTTTAAAAAGTAAAATTTTAAATGACTCAACAGGTGATTAGATTCCATCTAAGGATG
AGATTGAATTCACGATCTCAGATTCTCAACATATATTTGGCCTTACCTATTGTTAATGAAACTTGCCTGCAAGGAGGGCTGCATGTTGCAGAACTTAAAC
GGAGCAATAAAACTATTTATAAATCCAGACACCTTTATGAGGATGTTTCCTTGGTTTCACTTATGTAAGCCGACAAAACGATCAGTTGTAAGGAACTGAA
GGAAGTAAACACTTGAATGTACTCAAATGTCTAGGCTTTGCTGAACATTATATGATTAAAAAGCAGCCAAGTTCAGCGTGGACTGAGAACTGCTGACAAT
GGAGAACATGAGACCCAGAATGGCAAATAATGTTTCAGACATTGACTTSTCAGACTGGTCTCCACCCTGTACTTAACCCCATTCTCACCCTTTTTTGGAG
GGGAAAGGAATTATCTAGTTAAAAACTGAATCTATAGGACAACCTGTCTCTCCTGAGGCAGCTGACTTATGCTAATTCTTGCTTAGCTCAGTTTCTTGAG
TTTAGCAGAGGAGATCACTGTCACCCACACCCTCTTTAAATCAGCCTCCTGTGGGGCCATGTCTACACAACCAAGGCCTCATTCATTCGTTTATTCCAAA
ATATATTTATTGAGTGCCTTCTGTGTGCCAAGGACTGGGGATTCAGTGGTGAATAAACAGATAAAAACACCTGTCCATAGGGAACTGATATTCTAGTGTG
ATTACTGCTAGGAGTGTGTCTGAGTTGAATTGAGGCTCAGAAGTAGATGTGTCTGAGAGGCCTCAGGAGTTTGGAAATGGGGGTGTCCAACCTGTTTCTT
TGTCCTCCAACAGGCTTTATTACCTGTGCAGGTATGGTAGTAAGTCTGTTTTGCATTTCTTTAAGGAATACCTGAGGCTGGGTAATATATAAAGAAAAGA
GGTTTATTTAGCTCACGGTTCTGCAGGCTGTACAAGAAGCATAGTGCCAGCATCTGCTTCTGGTGAGGGCCTCAGGCTGCCTCTACTCACAGCAGAAGGT
GAAGGGGAGCCTGTGTGTGCAGAAATCACATGATGAGAGAAGCAGCAAGAGAAAGAGGGAAGATGCCAGACTCTTTTTAACAACCAGCTCCCATGGGAAC
TAATAAATCAAGAACTCGCTCACCCCTGAGGGAGAACATTAATCTCTTCATGAGAGATCTGCCCCATGACCCAAATACCTCCCATTAAGCCCCACCTCCA
ACATTAGAGATCAGATTCCAACATGAGATTTGGAGGGGACAAATATCCAAATCATAGCAGGAAGAGACACTCCCTCCTATGAAAACACAAATTTGAAGAA
CAGTTGTCTTCAGTGTTATACAAACTGCTTTCTGACTGCATATAAGAGAATTCCGTTTATGGGGTTTTGGTCTAAAATTATAGTGTCATGTCAGATCTCA
ATCATTTTAACTTAAGGCAGTTATTCTAGCCTTTGAATACATTTTTCCCCTGAATATTCGTGGTGTTGTGTGACAACTATCCAAAATATTTTAAGATTCC
ATTTTATCAGTAAAACATATGCCAGGCTTTTTAATAGGCAGAGAGTAATTTGGTAGTATCATTCCTCTTATCCTTTAAAGTTCCTTCATGCTCTAGAATT
TAATTCAGTGATTCCTTGTAGAAGCTAGCCTGCCCAACACCATGGGCAGAGATATTGCAGAGAATGCCATTTTGATACTCTGAGAAGAACATGTAATTCC
CATGCCTTGATTTTAAATGCAATTAAAGAGCCATAGTTTTTCAGAAGAAAGAGTACTCTTTGGCAAACAGTAGTCATTGCAGAGGTTTGGTCCTTAATCT
GTTTTCAGGGTAGTTATTTCATGGTTACTGGATGTTATAGGGACGTGCTTCTGAACATTGGTTTAGTTTTTATGGGTCTTGAATTTCAGATTGTGACATA
AAACAGTTTTCTAGTACATGGTGCCAGTGTTTTAATCATTAGAAGCCAGAAAGTAATAGGCCATTCCTCATGTTGGCTGATGACCCCAGGCTAAACCTCC
AAGCTGTGTTTAGGACAGTGAATCAGGTTCCAGGGCTAGTTCACTCAGCCTTCAAAATGATTTTTTACCCCAACCCAGTCTTCTCATGGGCCCCTTTGTA
CACACACCTGAAGTTCACTTGTTTTCTGTTTTTGAGGCACTAATTGTAACTACATAATCAGATGTCAGTTTGGTAGTCTAGAAACTCTATTTGAAGAAAA
TACGTAATAATTTTGTTAGTCATTTTCTTTTTAATGGTGTTTCAAGAAGTGTTTGAGATCGATGAAATGATATTCTTTTCTATGATCTAATGAAGAAACC
TCCCACAGTTGTGGGCAGCATTTTTGGAAAAGAGTAGCCAGGTCCAGTGAAAAGCAAATCTAATACCATTAGTCTTTGAACTTTAATGGAATTAGCCAGA
TTTCCTGAAATAGTCCTAGAAGACTATCAAAAGCCCTAGGGGAGCTAAACTTGATTGAAAATATTATAGGAACTTGACCATATATAGCTTAGACCTCTGT
GGCATAGGCTGCTAAATTTCCCAAGGGAGAAATGTCATTGGGTCACCTTTCAAAGAGTCATTGTTGATGGTTATGAATTCAACAGATAAGCTTGAGGTTG
AAGAGAAGTGACTTTGATTGTGTTTTAGGGACAAGGTCTTAACAAAGTATTGTCTAAATTTGTATTTGAGGATATTAGAAATCCAGAAACCACCATTTCT
GGAACTATTCTGCGATGGCACTTTCTCAAGTTGGAGCCAAGAATGGTTGAATTTTCAGAAAGCAAAGGATTTCTTGATGACTTGACCAGCAAGTATTAGA
GGACAGCCTTCTCATTGCTGAAGGTTGTGTTCTATATTTTCATCATCTGCTGGGTGCCAGGCACTGTGCTAGCTTTGGGCATGTAGTGGTGAACAAAACA
GATGTTCTCTCTGAATTTATGGAGTGGATAGTCTAGTAGGGGTGACACACATTATTAAATAAGCAAATAAGCCAAAGTTTAATTACACTTTGTAACAGAT
ACTATGAAGGAAAAGAACAGATATGATTTGGGAGTGCTATTAGAGTTTTGGTCATAGGAGAAGACCTGAGGAAATGCATTTGTTTGATGATTTACCAGTA
TTTTAAATGTAATTTCTGGTTTCACAGAACTTGAGTAAGCTGCACAAGGGAAAAAAACTCATCTTCTGTAATTCCTCCCAGTTTCTTAAGCCACTCAGTA
AATGCTGACTACGGTTTTGTGGATCCATTTTGTGGTGTCTGTTTTCCTTTAGGCAATCCTCCCTCTGTCTAATTTGGATACAGAATCTAAATCTTTATGA
GTCTGTAATAGTACCTGGCCATTACTGGTCTATAATCAGTGCTCATATAATTGTTGAATGAATTAGTGAAGGTTACAAATTGAGTGTGGTTTATCAGTTA
AAAGTGCTCTCCCAATTATCTGATGGAACCACAAACCTTCTCTTTTCCCATTATGCCCCTCCTTCTTAACACAGGTGTTCCCAGCATTCTCTCCCCAAGA
GTAATACCCTATGGCCCCAGGGCTCCATCTATCTCTTTTCTACATATAAGTCCCAAGCCTACAGGTTCTAGCCCTGTTTTCTCCTGCAGAGTATCAGTCC
CCACCCCAGTTTCTTACTGCTTGCCAGTCCTCTCCACTAAAATGTCCTCCTGGAAACTCAGACGTGTGTGCAACTCTTCCCCCTTTGCCTCCTTAAGTCT
TTAGAGGTCACCTTCTCAGAGAGTCCTCCTCTGGGCCCTGCACTTAAAACTGCAAGCTACTCTCCCATCCCACCTCACCCCACACTCAATCCCTAATCAA
CTTCCATGCTTTTTCCCCCCATAGCACTTATTCATCATTCTCTRTAACTTATTTTCTTTATTTTCTGTATCCACCCTCTCACTCTCTTTTTTTATAAGAA
TTAAGCTCCATGAGGACAGGATTTTTTTTTCYGTTTTGTTTACTACTGTGTCCCCCTGTGCCTGTCATGTGGTAGGAATTCACTAAATGTTTGTTGAATA
AATGAATATTTAATGTTCAGGCATTATATATATATAATATATCATAATGCTTCTATTGCATTAGGAGACAGTGAACAAGTCAGACGCTTGCACTGATCTG
TACTGTCACTGTGAATGTAACAAATACAGACTGATCCAAGTGTTCCTGGTGGTGACTCAGATATCAGGAGTGTCTTTGACCATAGATGATGTGATTTTCT
GAAATGATAGACAATTCTTGATTGAATTCAGACAAAAACAATGCTCCCAGCAAAGTGGAATGGTGGTGAGAAAGGATTCTGAAGCCATACTGCTTAGGTT
TGAATCTCTCCTGCCATTTGCCAGCTGAGTGGCTAGTCACGTGATGTCTCCATGTTTCATTTCCTCATCTACAACATAGGAATAATAATAATTCTTCCTC
ATTTAGGAGCTTGTTACAAGAATTAGATGAGCAGTGTTTAGCACACAGAAACACTAAGTGTTTCTTAAGTAAATTATTATTCAGTAGCTTCGTTCCTGGA
AATTTAGGGTATATTAAACTCATGTAAAAGTACTTTATATTTAAATTTAAAACAGTGAGCTTCTAGACTAATTTAGTAATAATCAAGTTTCTTTTTAACC
TACRTGAATTATATGAGATATAAGACAGTTGTCATATGGGACTGTCCTGTGTGTCACAGAACGGCCAGCATCCCTGACCCCTGCTCACTAAATTTTAGTA
ATACCCTTCAATCATCATGACCACTTAGAGTGCCTGGAAGGTTGGTGGTTTTTACATACACTGTTCTAGCGAGGCCTATACATTTGTTTTGTGACATCAT
TATAGATCATCTAACTAGACAAGCTCTCCCTATCTGAATCCTCATTGCCCAGTGTCCACAATACCCTTATCACAGTGAACAAATTCTGCTATGTCACAGC
TGAATGTGTGCTGTCTCTTTTTTTCCCTCCCTGCCTTTGGACACTTCCCATCCTGAATCTCTCCTGTCAGAGGAACTGTTTTTAATTTATTTCAGCAAAA
GGAATACGTGGTGGTGGCCAGAAGCTCTTTGCCCCATGCATGTGTTCTCCCTTAAGCCTCCAGAAAGATTCTTGAGTTTGGAAGCACTTACCCCATCTGC
AGTTTTACTGTTACTCACTCAGCGTTCTTCCCACTTATAACTGAGGGGCTCTAGTTTTACCACGCTCCCTGACCAGCTTCAATTTCACCCCACCTCAATT
TTTGCCAGGCACTTCTTAAGGGAGCCAAACTTCATTTCTAAAAGTATTTTAACATTATTCAATTAAATGGAACATTTATAAATTGGTTATAAGGGAAAAG
ATCAATATTGGAGTTCCCATGGAAGGTTTATAAGAAGAAGTGGGCCTCAAAGAATTAATAGAATTGGACTAAGTAGAAAATTAGACTGGGCAGAAAAGAG
CAGGAAAGGAGGGGGTTTGTTTGTTTGCCAAGCAGAGGGAAAAAATACTAACAGAAATGCAGTGCATGGTGTGTAGGGATGGTCAAAACCAGGACTCAGA
TTGAAAATTATAAGTAAGAATGGCACAGTAGAGTTAACTTAGGGAAGTTCTTGGAAACCACAGTAAAAACATGACATTCTACCACTTCCTTGTTCATTGT
GTTCCCGCCTCCCTTGTTTTTCTGTTTGTTTTTGTTGAAGAGGTCTCTCGTGGTCCATGAGTGAGTGGATATTTATTTACCTTCCATGCCTCCACACTTG
TGTACCCCACACCCCAGGGGATTCAGGCACATATACAGCAGCACTACCTGTCACCAGCCTAGTTTACACAGAGAAAGCTACCTCTTTTTAGGGTTAGTGT
TTGATTCTGAATAGAAATCTCATTATTTATGCTTCTTTGCAAAGTACTGGTGAAGTCTTATCACTTTTTAATATTAAACTTCATGTAAATGTTTTGGATA
TTTAATTGTTTATGATCAAGGTGTCTGGCTWGTGTGTTAGTCATCTCCCAGCTAACAGTCTCTTGGCAGGCCATGCTTAATTCAGTTATTGCATGTTAAC
AGGCTGTTCAAAATTCCACATTGCCTAGAGTTTTTCCACCTCCAATGTCCAGACACTTTTTCTGGCTTCTCCAACCCTCTGGGCATTCAGAATCATAGTT
TAGTGCTCATATTTGAAGCCATTTAGCTCTTTCCTTTTTATTTGCCTGATTAATTTTGAATTTGAATTAATCATACTTTATACCCTTTTCCTGACTCAGT
TCAGTGTTCATCTCATTCTGTTTACTCAGAAAGCCCAGAACATAAGATTTGAACCATTTGTGCAGTGCCCAAATGTGTGCTGATGGAAGAGTGAACCTTT
AATGTTTTGACTCCCRTACTATTTGGTTCTATTTTTCCTAAATAAGTCATGGTCTTTTTTCATTAAGTATACATTTACAAAAATGGTTCAGTCTTTGCAC
ATAACTCAGCTCTCACAATTCCCTAATCTAATGTTGACCATGTTCTATTTTGTCATAAAACCCATGATTTTACTGCTTTCTCTTTACTAGAGCCCTGCAT
ATTAGCAGTGAAGACCTGGTCCTTAATGAAAGTGTGGGGTCCATCCTCAGTGTCTCATATCCCTGCCTGTGTTTTCCTTCAGGAGACCTTCCTTTCCTTC
CTATCTAAGCCAGAGTCTTCTCTGTTTCCCCAGTTAAAACTCGATCTGATAGTTTTTATTCAGACTGACAGGCAAGTTGTAGGCAACGATTGAAGGTGGC
TTTCTTCCCAGGGGTGGCCAGAACTCAAAGTCTTAAAGTAAAGGGTAGCAGGAGCTTCATCTGCCATGATTAAGAGGAGTTCTGGGGGCTCTCTGCTGCT
CCTGGGTGCATACTATATAAACAGATGCCCAGCCACCCAGGGGAGGGACCTACAAAGATCATGAGTTACCACGAGCTGTTTCCAGTTTGTCCTCCTTTAA
TTAAAATAATTAGAGCCTCGTCAGTAATGACGAGATTGCCTCACTAACTGTCCAAGGGTGTTAGTACTAAGCCACCCAAAGAACCTTTTTATAATGTCTC
ATASAGTAGACCAGAGAATGTTGCTGTGACTCCTTTATCATTTATAGAGATGTGGCTATGTTGGGACTCCTAATGGCATGTTACCCCAAATGCTGAACTA
TCCAGCTTGTCACTCAGAAGGAGCTTCCTGACTTCAGCTTCAGGCATTCACATGCTATCTGGTAGAGTCGTCTTCTAGCAATGCTGATAGTTTCCTTGGT
CCAGAATTTGTTACCTTCAGAAGAAGAGTGTGAGGAAGAGATCCCGTTCTAAAGCCACCTAGACCAAACCTAGCCTGAGTCTCCTTCTGGTTGGGCTTAA
GATGACAATGCCATTCCAACCATGGCTAGGAACTCCTGAGTCTTGGAATCAGATCATAGCTTTACATTTCCCTCAAAGCATCTGAGCTTACATTCCCAGG
TTTTCCATCTCTTCTTGATATTTAAAGCTTTAAAAAACCGCAGTTATCAGTTTAAACCATAACAGGCACGTGGGCTCTAATGACTTCTGCAGGTGGTTTG
GGCTGTATTAGAGAACCTAGTCTTGATCTTAAACTGTCATCTGGATTCTGAGTTAATCCAGGAAACCAGTAAGAATTAGTAATGTGTATTGCATGTCTCT
GATACATGTGTTTTCCATTATTTGGTCTTCCACAGTGCATGCGCATACACACACACACACGCACACACAGCCCTTCAGTTTTTCTAAAATGGGGAGAGAG
GGACTATGGTTCCAAAAGGAAATGACTGGTGTGGTGCCTTGAAATCTGAACTTAGTCACGTGTTGTAAATGAAATGACTCCAGGCACATTAACAAGATTT
CTTTCTTTCATCTCCTACTTTTTGGAAAACCCTTTGATGAGAAACATTGGCTAACTTATAGACTTTCAGATTTATTTCTGTAAAGATAAGTAATAGCCAT
TGCAAAGCAGCCGTACTTGTGAAATTGGAGTTAAGCTTCCATAACAGCGGTCTTAAAGAATAGGTAGGGTTAGTTAATACACAGCAGCAACCAGCTGTTC
TTCCTCCCTGCTGAGACTGGGAAAGAAGGAAATTAACTTCAACTATAATGGAAGAGATTTTCAAAACTGGTAATGGGAAATTTATCATCAATGAAGACTA
TTTTAAACATTGGAACAAATGAGTGACCAACAGAARTGGAGGAATTATGTATTCTATTGGATTTAAAATAGAATATATCATCTGCTCAAGACACTTAGAA
TTGRTAGATTAGATCTGTCTAATAATTTTTAACTCTTGGGGGTCACAGACCCCATTCAGAATCTGATGGCCCCTCTCTCCAAAAACATGCACACACAAAA
CTTTGCGTATGATTTCAGGGAACTTACAGACTCCCTGAAGTCTATAAATTAGACCTGAATTTAGGACACCCTGGACTAGATGATCTCCAAAAGTCTGTTT
TAGCTCTCTAAGTGACAAGCTCCACAGCATAGTTGTCCCATACATAACAATGGAATCTGAAGACCAAATGTCAGACTTTGCATTTTCTTCCTCCAGATTT
GTAATGCTTGGCATGCTCAGTGTCAAAGTTAAAAAAAAAAAAAGTAGAATAGAAAGAATTCTACGTTTAAATTCAATTCTTTGTCTTGGAAAAGCCAAAC
ATTTAATTTTAAAAATCACTGGTTGGCTCTGTGTCATCTTTGTAGAAAGGCAGTACAGAACTAGGTTGTYGCCGGCAGTTCTTCCCCAGCCCCACACCCC
GCTCTGGATTCATGGATGAAAATGCAAACTCAGATGCCATATTAASTACTCAGAATTCTCCCATGTTCACACATCTTTTTACTGTATTGCTGTGATTGTT
CAGTTGGGCTTGAAAAATATTATTTATTTTCTCATCAGTTTTATGTCTAAGTTTCATTGACTACAAGTTGGAAGATGACCACCCAGAATTACAAATCAGG
GAGTAATTTGGTCCTCTCCCTAAAATAAAGAGCTTTTATCCTCTTAAGAAGTAGGAATGGAGTATAGTCTGTGTCTGTGTATTTTAAACTCATGATAATG
AGTTGCCCCATATGTAGAAAGCATGACTCTATATGGTTTTCCCATTCCCTTCTGTAAATATTCTCTAGCTTACCTGCAAGTTCTGTAGACTCCCTTTAAT
TCCATGTTGGAATTGTACTTGACACTTTGTGCCTGGAATCAGGAACTCTGGAAATAAAGATCGCCTCAATATGGAAGGGAAGTGATCTCTGGAAAAGAGC
ATAATTGTCAGATGTCTATAACTTGTCAGTTTTCACTGTACCTCACACTCCTAATGGCAAACCTTTAAATTCATAGTTGGAAGTGTCTTAATGAAGTCAG
AAATATTACTGATGAATAGGAGCTAAGCGTACTTGGCCAGGGTCTCCTTACCATTCACATGGAATGCTGGTCCTTTTGACAGTTGTTTCTTCCCATTGTT
GAAGGCAGGGAGGAGGACTTAGGGATTCTTCTCTGTATTCCCCACTAAAAASCCCTTCTGTTCCAGTTGCTCCAATCAGAGTAATACACTGCACAGAAAG
CATACAAGATATACGATGTCTGTGGACAGATGCTCTGTGGCATTATTAACCCTGGCAGTTGCTTTAGCYGTTGTTTAGTCAATGGAGGTTGTTTGGGAGC
TAGAATTGGGAGAGAACAGGTGATCCTGGCACCCAGCCCACTTGTAGCTCTGCTTACTGACTGAGAGTCCCTCTGCACCCCTTGAAAGTTTACTGACAGT
TCACACCCTTAAAGCACATTTCTGTATTTCTGGGGCTGAAGCTTATGGCAGAGATGCACATTCTGTTGAATATTTATTCTTTGTGTATATTCCTGTCTGC
AGAGAATGTGATCAATGGGCAGGACTACGAAGTGATGATGCAGATTGACTGTCAGGTGATGGACACCAGGATCCTCCATATCAAAAGTTCGTCRGTTCCT
CCTTACCTCCGAGATCAGCAGAGGAATCAAACCAACACCTTCTTTGGCTCCCCTCCCGCAGCCACAGAGGCAACCCACGTTGTCAGCACCATCCCTGAGT
CATTACAATAGCACCCTGCAGCTATGCTGGAAAACTGAGCGTGGGACCCTGCCAGACTGAAGAGCAGGTGAGCAAAATGCTGCTTTCTGCCTTGGTGGCA
GGCAGAGAACTGTCTCGTACTAGAATTCAAGGAGRAAAGAAGAAGAAATAAAAGAAGCTGCTCCATTTTTCATCATCTACCCATCTATTTGGAAAGCACT
GGAATTCAGATGCAAGAGAACAATGTTTCTTCAGTGGCAAATGTAGCCCTGCATCCTCCAGTGTTACCTGGTGTAGATTTTTTTTTCTGTACCTTTCTAA
ACCTCTCTTCCCTCTGTGATGGTTTTGTGTTTAAACARTCATCTTCTTTTAAATAATATCCACCTCTCCTTTTTGCCATTTCACTTATTGATTCATAAAG
TGAATTTTATTTAAAGCTATGCCACACATGCATGTTCAAATGGTTTCCACTGATTCGATTTTTCATTCATTTAATGCAAACCCATTCTGGATATTGTGCT
TATTTGAGAAAACACATTTCAAAACCAGAAAAGCCAAAAACACTCCAAAAACAAGCAAAACAATTTGGAGCTTTAGATAAAAGGAAAAACTCCCAGTTGG
TAAAGTTTATCTTTACTTAGGATTTGTGGCTCACACCTAAACAAAGGGGGTCAGGGAGTGGGTACAAATTTGAGAAAATAGAAGGGTAAGGGAAGGGCCA
GTGGTGGGGTTTGGAGAGAGGAGATAGCTCCATTAATACACATGTTTAAAAGATGGAAAGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGG
GYGGATCACGAGGTCAGGAGATCAAGACCATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGACGGGCG
CCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCC
TGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGATGGAAAGTTCGATGTGACTGCAGTATGAGATTAAAGCCACAACTATTGTTTA
TTTTGGGGACTCTAGGCCACCAAGTATTAGCACACATACTTATGTTTTCTCTACTAATCTGGTCCAGGTCCTCATGGACCACAGGACAAAGCTTTCATTT
TCATTCATTCTTCTATTGAAATTATACCAAATTCAGCTGAGGAATATGGAAGTAACTTTAGACTTAAACAAGACAAAAGTTTTTTCACTGAAGAATTGAC
AAGTATTTGCTCCTTAAAACAAYGCAGATTAGTGAACGTGGATTCCTGCTGAGGGAGTGCATCCCATAATATGGCAATAATTTTCAGTTTCTCCAACGAA
AAGATAGTGAAGGAATTAAATCTTTTGTCCTCCCATGGTTAAAAAAAAAAAAAAGCTGTGTTCATTTTTACTGTACTATGCCTCTTTTTTCACCATAGTA
GACAATTATGTTTCATTTGATGAATTCATAGAACTGGATCTCATACAGCGATGTCCTCTCTAATGTTCTACCTTTCAGTTTCTAAAGTGAGTCTTCCTCC
CTCTCCTACAAAACTTTTCAATTTTTTGATGTAACTCATCTACAAATACTGTTTCTTACCCCAGTTGACTTGCCTTTGTCAGATTTCTTCTTGTTCCACA
CTATAGCAATCAATTTCTCTTCTTCCTTACAAGAAAGGGAACGAGAAATTGTAGCAACCTCTCAAGGATTATATGCAGCTAGTTAGTTTTCTGCCTGTGA
AATTAGGTCTGGCTCCTAAATAATTTTAAAGAACCATCAGCACTTCTAACTCTCTGGACAGGTGCCTCTTTGTCCAAGCTAGTTAAATGCTTTCCAAGGA
AATCAGTTCAACTTTTGTGAGCGGGGAAAAGCAGGGCTTTATTGTTGTGTTACCTGGGAGTCTGGAGTTTGAAAAGTGCTAATTAACCTTCCTCTTTTTC
CACATTACAAACCTTTTTAAGCAGCGCAGCACTCCCYTTAGATTTGGCTATCCTGGGTGATTTTCAGACAAGAACCATTTTCTCTGGGGACCATTCTTCT
GCTGGGTGCCAAGGAATATAAGGCAAATGCCCAGAAGACCTTCAGGTGACTGGGCAGTCTTATCATGGGATATTTCTTCTGGCCCTGCCCCTTCCCATTC
TGTAATGTGAATTAGCCACACCAGAGGCTGTGACCATGGCTAGTAGACAGTGGCAACATAGTCATCCCCAAGATGCTAATCTTCTGCTGGRACTGTCATA
CGTTATCATGGTCAATGTAAACCTGGTTTGTGTGGGGTGATTATAAATAGAGTTTCCCTCCTCTCTGTGACAGAATCACAGGAGAAGGACCCATCTCGTG
GCCTTCTTGTTCTTAGCGCTTCACTTTTACTTCATCCCTCGATTCCCAGCTTTTTCTATCATCATTTTRCCAACTCCTCAGATGCAAGACTTTGGTTATG
TCATACTCACCAACGTTAGTCCCTCTCTTCCAGGTGAAAAGGTGGGTAGCGGTTGGGAGGGAGTCTCCACTGAAGAGCAGGAAGGTGGTAGCAGGGCCGG
CAGCTCTGCCACAGAGCTAGGGGTGCCTGTAAGGTGCCGCCTAGAGCAGCCTGGGAGCTTTGCCTTCTTTTGTCTCTCACTAGCCCTTCTACTCTTTGTC
ATTGCCTGTTCTTGAGTGGATCTTTGARATGAGGGGACAGGATTCTCCTAAGGGTAGAGTTTCAGGAAATGAGTGAAAGGCAATTGACAAATGCAAAGAA
GTAGTCACTTTTTAAATTGCYGGCAAAGCTATAATTAATCCCTAGGCACAATTGTAGTTTTTATTTTAATGTTTGTATGCACAAGGCCCTTTAGGAAATG
AGAAGTTGCCATGCCAGATTAATTTTTTTTTTTTTTTTTGGTGGGATTGCCTTTTGGGGGTTGCAGCCAGAAATTGTGGGTAATGTGTGTATTTTTTTAT
TTATTAAATTTTAAACAGGATTGTGCAAGCTTATGAGACAATTAGATAAACTCATGGAGGAGGCAGGTCCTCCTGTTATTAGATGATTTTGTGCTCTTKG
GGCTGACAATAATACACTCTTGRGAAGTGATGGTAGAGACTGATGGGAATAGTCTTTCTGCCTGGTTGCAAGTCCCAAATTTTTAAGGSTTAATGGAAGT
AAGTGGATGTTTCCTCATGTTAACTACTGAATCAGATGTTAGGAGCTTGTCCCTTTGGGGTTGACTTATGCCCAGCAGTACAGGGACACAGCTTCATTAG
AGTGTTAGTGTAAACTAACTCCAAAGTTAGGAGTTAATGTGAAAGGATCATCCTTGAAACAARTCTGCTGTTTGCCATGCTTGTAGTACAGAAACTTCAC
ATGGAGTTTTGGGTGGGATTTGTGTTTTCACAAGTAAAAAATCCCTCACGATTATAAAACTCAGAGCATCATCTAATTTTTTTTTTTAATGACTACAAGT
TCCAGCACAAAACTGGCATTTCTTTGCCATTTCTTGCCAGTAAGAAGTTGACACGGAGGTATTTGAAAGCAATGTTATGTGAGTCATTCTTAAGTGTTCC
AAGTAAGTTTAGAAACAGAAAAGGAACTTGGGATTCAAATTGATTTTTCAAATCATTTTTAAAGAGACATCATCCTGACTAAATCTTAGCCTGAACCTTC
CTCCCCTGTGTGTATTCCCCGGTAGTCACCGCAGCGAGATGCTGGTGAGACTGCCGTGGTGGCATTTAGCATCGTTAAAACTGGAAAACTCTCAAGCTCT
TTGCCACTTTCCTACTATTTTTTGATTCTTGCCATTTTACCAAGCTTAGGTTGTGAAACTTGACAGAAATGTATTACAGGAAAARCTTATAATTGTATTT
GACTTTCTAACACATTGCAAAGTTTCAAAGTGACTTTCACTTTCAACAACATATTAGAAGTAACCACTTTTGCTTTCACAGCCTGAAGAGTTAGAGCCTG
ATCTGATGCCCCCTTTCACTCTGAAGTCATGGGAAATTTTCCAGCCATGAAAGCCCTCTTTCCACTGCATACTGATGGGCTGACTCAGCTTCCTTCAGCC
GACTGAGATCTTTTCATACTATTGGCTATTTCATACCAATTAACCTCTTAAATAAGATTGTGAATTGCCAAAATTGATAGACACTTATTACCACCTGTGG
ACTCCATATTCCTTACCACAAATGTTATTTTCATCAGTCCTGAGTCATTTTAACTTACAGAAATTAGGATTGTTGCTGCTAATATGAATACCAATTATAA
CTTTTAGAAACAAGAATAAAGCCTAAAAGAGAATGAAATATAAGAAATGTTCGTTCCCACCCCTAATAACATTTGGAAGTGAATATTCCCATTTTCTTCC
ACCCACAGGGATTGGGATTGATTTTTAATTTCCTAGGAAACAATACTAGACTACCCAAAAAGATGTTGCCAGAATCCAAAAGGAACTATGCTCGTAAAAG
AAATGCAGTTTTCTCCTACCTAAAAAAAAGAAAGTAAAGTGTGTTCTGTTCTTATCTTTTTAATGACTAAGCTTTAAACAGTTTATTTTGGGTAAGACTA
GAACTTTCRGCCATTTGTTCTAATATSTGTGTTATTAGATGCAATAGAATTTATGAAAAGAAGAATGACAAAGGTATCTGATTAGAAAATTTGATCTTAC
GCATGAATCCATGTCATGGCCAGCCACTGTCACATAGTGGGTGCCATTCTCAACATATTGGTTTGCTAACTTTAAGCATTAGGGATTTAGCACACTAAAA
TACTTTTAATTATATTAGGTTTGGTAACTAAGGAGTAAATAAATCATAATTTATCATTTGCCAAGGCCAACAAACAACACTATTGTGCTGTTTGCTCTCA
ATGAAGTTGAATAAACCAGGAGGCTTGGCATATCCCCTTTATGTTAATCCCAGCTAGAGATTAGTAGGTTGACTTTCACAGCAATTGTATATTGATCCAT
TTTAACTCATCCTTGCCATAATTTCCAGGCCAGTCACCAGGACAGAGGAGATGATGGGGAAACAGAGCTTTAGATGAAAACTACTATGCACTACTAGCCT
TAGAGGCACTGGTTTCCTGTTACCACTTTGGCAAGTATGGATGGTCTAAGTCCAGTAGGGCTTCATCCATGGAGCCATTAGAACTGAGGGGGGAGTGTTA
GAGATGCCATTTCACCAGGATCTTTTTGCTCAGGTTGTACCCATGCCAATTGAAGAACGTGTTAAAGATGAGGAGGAGAGATGTACCATTCTCTCCCTTA
ATAATGATGTTGGTTTGCAAAACCTAAAGAAATAATAACAACAGACTATTTCATACTTTCAAGCAAGTCTTTATACTACCTGTTATTTCTCTAAAATTCA
AATAAAGAATTTTTAAACTTACCTTGTTTATTCTGTATGTAGAAAGAGAGAAAAAAGCCCCCAAATGAATCTTCAGTGTTGGGGGGTTAGTAATGGGAAA
GGAAGCCTGAAAAGGCTTTGTGGCTTGTGTTACTGTTCAGATGAAACTGTTGAACTATTTTCCACTCTTCTCCCAAGCCTAATTAAGTAAAAATTTCCTT
TATTTAAGTGTCCAGATATTTAAACTACAATCTTATCAAGGAAAAAAAAATCTAAAAACCCATATTTTATCTATGTCTTCAGGAAAGTGGGTTACTCGGT
CACGCATCTTGTCCTCACCAAAGGCCTCTTCCCAGCTTGCAATGGCAAATGCCACCACACCTGAAGCTAGTCACTGCAGACTGACAGCAAGGGATCCATC
CAGGAGTAATTAATGCAGGCATTTACTGAGCACCCAATGATTACCTCTGACACTGGTTTATTAACTATATTATCTTATTTCAATCGTCTCTACATCCTAT
TTTGTAAGATGGTTATTAATAAGTAGTGGAGCTGGCTGGGTGCAGTGGCTCACGCCTGTAATCCTAGCACTCTGGGAGGCCAAGGCAGGTGGATCACCTG
AGCTCAGGAGTTTGAGACCAGCCTAAGCAAAATGGTGAAACCCTGTCTCTACAAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGTGCCTGTAATCCC
AGCTACAAGCTACATGGGGAGCTGAAGTGGGAGGATCACTTGAACCCAGGAGGCGGAGGTTGCAATGAGCCAAGATCACATCACTGCACTCCTGCCTGGG
TGACAGAGTGAGACCCTGTCTCAAAAATAAAAATTAAAAAATAGTGGCCCAATATTTGGGCCCAGGCAATTATGTGAATTATTCACCATTATATTATTCC
ACCTGCTGATACATAGATCTGGCATAAGTTCATGCCCTAAAAGAGCTCACAGTCAGCCCATGGAGCCATATACATAAATTACAAAACTACAATAACATCA
GGGTTCTCTGAGAGGCAAAACTACATTTGTTTCAGAAGATACTTTAATGGACTTATTTAGAAAATGAGACCCCCCCCCCCCGCCCCCTCATCTAGGAGAC
CAACCTCAAATCACCTCTACTGCAGACAAAGTTAGCAGAGATTGGAGGGTAGAGGGTTGAACAGCAGAAAAGAGAAATGGGACCAAGGAATAGGGCTGGA
GACTAAAGCCCCCAAGGGGAGTGTCATGAAAAGACCCCCTGGTGGCAGGAGGGCAAAGGACTTTTACAAACTGTGATGCTGAAATGCAAATCCTCTTCAT
TGCCCCAACTCTTCAGTAAAAGCAGATACACAGTTTTGTATCAATGTTGCCTTGGGAGTGAGAGACTGAAGGTAGGACTCAACATGATATTACTAGTGAA
GAAGAAGACAGCACAGCAAGATAATTCATACACTGAAGTGTCAGTGGACGTCAGGTGAAACAGGGAAATAAAAACTTCCAACCCCCCACCCCGCCCCCAC
AATCTTTATGGCATTGTCCCCTGGGACTTCTCACTCTATGTGGGATATGGTTCAAGCCAATTTTTGAATCTCAAAGGGTAACCACAAATGACATTTGGGT
TATATAATACATGGTATCATAGATAGAGGGCCTCTTTAGCATTTACCCTGTAATTTACCTAACTGGTCCAATTTTGGTAGAGATTTAAATCACTTCCAAT
GTTTTGCTCACCATAGGAAACCTATCGCATATTTCACTCCGTCGTATTCATTCGGCATGATCTGTGCAAATGCCTGAAGAGAATCGTTCTCTTAGTTCAG
TTCAGAGTAGGAGCTGATGCTTATTGAGGACTTAACCTTCCAGACATCATGCTAAGCCTTTACAAGCATTAGCTCATTTGAACTTTGCAGCAAGCCTTCA
TCATCGACATAATAATACCTATGTCTGTGAATTACAGATGAAGAAATAGTCACAAGAGATTAAGTAACTTGCCCAGGATCTCACAACTAGTACATAGCAG
AGTTGAGATTTGAAATGAAGTCTGTCATGATTTTAAAGCCACATTCCTTCTACTATGCTACATTGTCATTCATCCTTTGAAGTCATAAAGAGACAAATGA
GTGAGGAAGAAACCAAGCCACACAACACAGGCAACCAGGGTATTGAGGCATGTTCAGGAAAGAGGGAGAGTCGCTAAGAGGCAAGGTCCAGCAGTACTCG
AGGGTTTTCTATGAGTGACTCAGAAGGCATACACTCGATGCTGGCTGCATGCAGAGCCCATGCTGGGCTGCTGCACCAATTCTTCTAGACCTCAGTCCTT
GTAGTCCCCATCTTGGACGAGTTACCCAGTGGGGTGGATACAAGCTGGCTCCTCCATAATTGAAGATCCTAGGCTCTCCTAACTCTCCTACTCTACTCAT
ATCCAAAAGCCCACCCAAGTGTGGCATCCAGCTCCATCCCAGGATGTATCCACTGTTTTCCCTGTGATCACAAGTTCTATAGAAAGTTTTCACTGCAGAA
TTAACTGCTGATGTGGATGCTGGACTATGAAATAGAGATGCTTGTGTAAGAGATCACTAATCTGCAGACCCAAAATTGAAATGGTTTGTTTCAGAAGTGA
AGGATATATCTTTAAAATAAATACAACACACCATATTAATAAATGGATCATCTTGTAAGATTGAGTGCAGCAGTGTCAGTCCTAAAAGCTGTATCCATTT
GGAAGGCGGACCTTGCAAGGCTAACAGAAAATACTGTTGCCAATTGTTTACAGTACAGCCCATATTTCTGCAAACATCAACTGGGTACAAAGGAAGAACT
GAGAACCTCAAAAGCCATCTCAGATGCTCCTTCCCTAGGTGTCCTGCTTGACTTCTGAAGCCTCCGAGTTATCTCCATTTCCTGAGCACCCAATGGAGCT
TCGATTCTTGGGCTGCATTTCTTCATAGTGGGCTAGAGGCAATGGCCCTGGAATTTAAACATTTGCCACTAGTTCTAAGTGTTGTGCGAAGCTCCAACAT
CTACCATGGAGCTGTAGGAAACCATACAGATGAACTAGACAACATCCTTGACATGTCCTTTACATGTCTAGACACATGAGTTATGTCTCTTCCATGGGAC
TATGTGGTCACCCTTCTGTCCCCACAGAAGAGTAAAGATCATTTCCAGGTGAGGGTAAGATTTCTGGTCAGCCTGAAAAAGAAAGTTCAGTTGGACACAA
GCTACTCTCAGGAGAGTTTGGGGGTGGGAGGTTCATGGCCAGCATCTTTGCCATGGGCACAGATCTCACCCACTCACTTGGCTGCTGGCCCCAGGACATC
AAATGATCCATTTCGCCATATTGTCTCTGGTTTCCTGGAGTTGCTGGAATTCTTCTCTGCTAAGCCATTCGTTCACATGAGATCGACATGTTGTCCCCTT
CCGCCTGGCAACCTTTAGGAAGACGGAATTACAGCAACCCCCACACATCCAACTAGGCTGTCTCCATCAAATCACCAGCTAGGGGGAACAGGAAATTCGT
CTTAATTTAGACAATATGAGCAGGAAAGATGCTGAAACACTTAATCTCTTGTTTTAAATGACTCTACAGGTCACCACCCAGGGGAGCACAACTAGAAGCA
CATTGCAAGTAGCAGCACGGTTGGGGCCGATTCCATCTTCCCAGGATTTATCATCTGGTACAAGGCAGCAGGGCTCAAATAGTCCAAGGAAGGAAAAGGC
CACTCATAGAAAGATTGTTTTTGTTGCCATAGCAGCATCTTGTACTTATCCCTTCCTAACTCCCATCGCCTTTGCAATTACCAGGTAAACATTTATCATC
CCTGTGGGACAGTGAGCTCCAGAAGAGCAGGAACCCTACTAATGTCTTGAATTCGATTTTTTTCCTCCAAAAGTGCTGTGGATATAGTGTGCTTGGGACA
TGGTGGTTTGGGCATTTTAGGCTAAATCAGGATTTCGTTGAATTATTGAGCATTTAGAAAGCCACAAATATACACTGTCCTTCCAGGAGTCTGCATGATA
GACTGGCATTTGTCACACTGCACTAGCTACCGCACCCTATTCAGATATTCACAGGGCACAGAAGTTGCAGTATGTGCGATGCCCAGTGCTGAGGCAGGAC
TGCAAGGGAAAACAGCAGAGATCCCTGCCTTCCCTTAAAAGATGAGGCATCATTTGTTTTCCTCTTCCCCTTTTCTTTTCTTTTTTTTTTTTTTTTGAGA
TGAGGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCTGCGTCTGGGGTTCACGCCATTCTCCTGCCTCAGCCT
CCCAAGCAGCTGGGACTACAGGCGCCCGCCACCACGCCCTGCTAATTTTTTGTATTTTTAGTAGCAACGGGGTTTCACCATGTTAGCCAAGATGGTCTCG
ATCTCCTGACCTCATGATCCATCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGGGCCCAGCCTTCCCCTTTTCTTTTCATCCTAT
TGCTTTTTCCTCTGGCTTCAGTCTGTGGCATATTAGAAATGGGCCTGGAAAGAGGATGTAAACCAGCGAGTCTGCAAGCGGGGCCCTGAGACTGCAGCAG
CACCTCAAAACTTGTTAGAAATGCAACTTTTCTGGTCCCAACCCAGACCCATTGAGTCAGACTCCAAGGCCGGGCCTAGCACCCTGTGTTTCAACAAGTT
CCCCAGATGACTCTGAGAGGGGACTGAGAAACACCCGTGTAGTTCCCTGTCAGCAAGACTGGAGAATGGGAAGATGCAGACTCCTGCCAGAGATGAACCT
TCCCCTGGCTGCTGATGTTGGGGTGGGTGGTAATATCAGGATCACCTGATGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGGAACCCCGTCTCTAC
TAAAATACTAAAATTAGCCAGGCTTGGTGGTGCGCGCCTGTAATCCCAGCCACTTGGTAGGCTGAGGCAAGAGAATTGCTTGAGCCTGGGAGGCGGAGGT
TGCAGTGAGTGGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCTAGCCAGAATCTGTCTCCATTAAAAGAAAAAAAAAGCAAAGAAAGAAAAAG
AAAGAATTGTGTGTGTGTGCTGCATTTTTGGAAGTCCACAGGGGTTACATCTTCAGCATCCACAGCCTCCATCCCTGCTGCTGCCACCCTGGGTGGCTGC
ACTCCCAGCTGAGAGGCCTGAATCAGGCCTGTGGATATAGTGTGCTTGGGACATGGTGGTTTGGGCATTTTAGGTGAAATCCAGGTTTTGTTGAATTATT
GAGCATTTAGAAAGCCACAAATATACACTGTCCTTCCAGGAATGTGCATGATAGACTGGCATTTGTCACACTGCACTAGCTACCACACCCTATGCAAAAA
GAAAAAGAAAAAAAGAATTGATTAAGGAATCAGATGCATGCACTCAGCCAAGTCAGCCACCATCCAGGCTCGGGGGATGCATCCAGGACGAGAGGCGGAA
CCGGCTGCTTGCTCCCCAACAGGTCCACAGCTCTCCTGGGCACTGAACTCCTGGGAGCCCCTGCTTCGAACCAGCACCCTTTGCTGTGGGAGGGGGCCGT
CAGCCTCCCTGGAGCAGGTCTTCACTAGGTGGCTGGGAGAACCCCCAGCGCTGGGCAGGGGCACCCCAGAGAGAATGCTCGTGGCCCCTCCTTCGCAGCT
CTGAAGGCAAGGTGTGTGCCCCAGGCTCCATGGGCAGAGTTGGCTAAAGGCTGGAATCCCCTTCACTTCAGCCCTAGCTTGGTGGTTCTCAAACTTTGCT
GCACTTTGGAACCACCTGGGGACCTTTAACAAATACTGGTGCGTGGCTCCCACCCCCAGACATTCTGACTGAATTGGTAGAGGGTGTGACCTGGGCATAG
GAGTGTGAACATTTCCCCAGGTGATTCTAATGTGCAGAAAAGCTTGGGAACCAATGGACGCTGTCTTTTGAGGTCTAGTTCTGATGTTTATGGAGCAACA
CCATCCTAGAGGTTGAGGGTGG


SNP Information

Context             (SEQ ID NO:13862):
AGTGATTTTGAATTATGAATAATGTCTCTGTATAAGATTAACCTGAGAACCAGACAGGGCTTAGGGAATCAAAGGGAAGAGCCTGGGTTACCAGAACCTA
R
GAACTTGGTGGAGGAGTCCCATGCATTTAATACATGTACTTCTAAGAAGGGGCAGCACCTGGCTGATACTAATATCTTTAAGGGGGCCTGATGAGGTCGG
Celera SNP ID:            hCV9620968
SNP Position Genomic:     22101
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13863):
CAAGATAGTATATTCCAAATTATTTCATATTATAGAAATAAAAAATATTCCATAGTCCTTAAGCCACGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
T
GAGATGGAGTGTTGCTCTTCTTGCCGAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTACAACCTCTGCCTCCCAAGTTCAAGTGATTCTCCTGTCTC
Celera SNP ID:            hCV26368420
SNP Position Genomic:     187598
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13864):
ATCCCTTCATAGATGTTATCTGCCAACCTATTCCATTGTGAAGTTGCTTTTTCTCTCTATGCCATACATATTTTGTGAGAAAGATACTTTAAGACTATGT
W
AAAATATCCTGTTCATCATCACACTTTATATTTGTTCACTTATTTGTTAATATCTGTATGGATTCATCGTTTCTTATTTTATTCAACAGATTATAATCCG
Celera SNP ID:            hCV9620969
SNP Position Genomic:     26994
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,6)      total(A,6|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13865):
TTAAAACTGCAAGCTACTCTCCCATCCCACCTCACCCCACACTCAATCCCTAATCAACTTCCATGCTTTTTCCCCCCATAGCACTTATTCATCATTCTCT
R
TAACTTATTTTCTTTATTTTCTGTATCCACCCTCTCACTCTCTTTTTTTATAAGAATTAAGCTCCATGAGGACAGGATTTTTTTTTCCGTTTTGTTTACT
Celera SNP ID:            hCV26368421
SNP Position Genomic:     192244
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13866):
TGGTGGGGTTTGGAGAGAGGAGATAGCTCCATTAATACACATGTTTAAAAGATGGAAAGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGG
Y
GGATCACGAGGTCAGGAGATCAAGACCATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGACGGGCGCC
Celera SNP ID:            hCV26368422
SNP Position Genomic:     199202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13867):
TACATAAATTACAAAACTACAATAACATCAGGGTTCTCTGAGAGGCAAAACTACATTTGTTTCAGAAGATACTTTAATGGACTTATTTAGAAAATGAGAC
C
CCCCCCCCCCGCCCCCTCATCTAGGAGACCAACCTCAAATCACCTCTACTGCAGACAAAGTTAGCAGAGATTGGAGGGTAGAGGGTTGAACAGCAGAAAA
Celera SNP ID:            hCV26368423
SNP Position Genomic:     204871
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:13868):
AATTACCTGTTGGGTACTGTGCTCATTACCTGAGTGATGAAATAATCTGTATGCCAAACACCTGTGACATGCAATTTATCCATGTAACAAACCTGCCTGT
S
TACCCCCTGAACCTAAAATAAAAGTTGGGGGAAAGAAAAACTGAATCCAAGGGAAAACGAGAAGGTAAAAATGTTTAATGATCATTTATGCCGAAGTATT
Celera SNP ID:            hCV26368351
SNP Position Genomic:     39313
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,7)      total(G,2|C,7) ;(C,-|G,-)   Caucasian(G,10|C,74)   African-American(G,31|C,53)   Asians(G,37|C,47)   total(G,78|C,174)
SNP Type:                 INTRON


Context             (SEQ ID NO:13869):
ATCACAGATTTATGTTTACCGTGATTGTTAGCTAAGATTTAATCTCAAATGGTTTTAAGTTTTTTGGTATTTGTAGTCTTTTTTTTTTTTTTTTTTTTTT
Y
GTCCTTTTTAGGGATCTGCCTGCCTCAGCCTCCTGAGTAGCTAAGACTCGAGGCACATACCACCATACCTGGCTAATTTTTAAATTTTTTTTTGTAGAGA
Celera SNP ID:            hCV26368353
SNP Position Genomic:     41130
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13870):
TTAGTGAAGTGTAGTAATCCCAGTTACTCAAATTTAAAATGTTTCACTAGTAAACTGAATTTAACGAATTCTCTTTCATAGAGAATGTTGTGTTATTTTT
M
CTTATTGGTGAAAACCTAGCTGGTGCAGATGAACAGGAATCGAACCTATTATCAGTAAAATTAGATTCCTTTTACAATTTGGCCATTTATTTTAGCTTTA
Celera SNP ID:            hCV25552
SNP Position Genomic:     136326
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,7)      total(A,3|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13871):
AAGTCCTATTAAATTAGGATAAATTAATATAAATTCCTAATTTAAAATGATCAAAAAAATATTTTTTATCATATACCTTTTGTGCCTTTAAACCAAAAGT
R
TGGTGAAAGAATTGTAATCCACCAAAAAAAAAAAAATCATATCAGTTTTTTTGTGGCTTTGTAATGCTGACATGGCTTCTTTTTCTACCTTTTTTAGTTC
Celera SNP ID:            hCV26368355
SNP Position Genomic:     45535
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13872):
GCAACGTATGATAAAAAATCGAGAATCCGCTTGTCAGTCTCGCAAGAAGAAGAAAGAATATATGCTAGGGTTAGAGGCGAGATTAAAGGCTGCCCTCTCA
S
AAAACGAGCAACTGAAGAAAGAAAATGGAACACTGAAGCGGCAGCTGGATGAAGTTGTGTCAGAGGTAAGTGTTAGTAATACGGCTGAGTCGAGATGGGC
Celera SNP ID:            hCV26368356
SNP Position Genomic:     59498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13873):
AGCAGAATCGCTTGAACCTGGGAGGCGGAGATTGCGGTGATCCGAGATGATGCCACTGCACTCCAGCTTGGCGACAAAGTGACACTCCGTCTCAAAAAAA
Y
ATATATACATATATATATTGAATTCTTTCCTCTTGGGTGAAGAGGCAACTGCAATGGAGTGGCTGCTGTGTTTTTTTCTCTTCTGCTTCTCTCCTTTTCT
Celera SNP ID:            hCV26368358
SNP Position Genomic:     60499
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13874):
CAAAGGGAACAGCATGTTTAAAGGCACAGTTATGAAATGGCATGACATGTTCATAAAAAAGTGAAAAGTTCAGTGTATCTTGTATATGTGGGGAGTGTGC
Y
TGAGGCTAGATATATGGTTAGAAGTATAGGTGCTGCTGTGTACAATGAGGCATCCCTAGCTTTTAGGTGGAGGGTAACATAATCAGCTTTGCATATTAGG
Celera SNP ID:            hCV26368359
SNP Position Genomic:     61415
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13875):
ACATAGGGACACAGTGCTTGTTTCTTTGTCAAATAATTGAATTGACAGTTCATTTCTATTCTTTTCCTTTGTCCAAAGATTCTGCTCTCTTTGCTGAACT
Y
GGTTATTTCACAGACACTGATGAGCTGCAATTGGAAGCAGCAAATGAGACGTATGTAAGTATTTACTAAGGTTGAATAATGTGATATTTAGTCTTTAACC
Celera SNP ID:            hCV15860707
SNP Position Genomic:     18023
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,32|T,4)   total(C,62|T,8)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:13876):
GAGACTGGAAGTGGGTCCTCTAGGGATGAGGAGGCATTCTGCTGGATGACTTCTAAAAATGTTTTCTATGGAGTCATCTGCCTCATTAACAAGTTTTTGT
Y
TTAGAAGTCTCTTTTTGATTTTGTAAACTGACATGATTTCTTTTTCTGTTATGACTGTATGCTGCTTTAGTCCTTCACTAGGCCCATCACACATTTTTAC
Celera SNP ID:            hCV9620976
SNP Position Genomic:     40604
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13877):
GGTATTGTATGCATTTGTAAATCCTATTAATTTAGAATACATGACTCTCCATATTCAGTGTAAAAGATTTGTTATTTATAATAAGACAAATCCTTTTAGC
R
CTAATAAATTTCAGAGGTTAATTCTTAGAAATCTAGGGATTACAGCAAATTTGATAGCTGTTTAGTTGAGAAAGATAAATAAGAAAGTATATTAAAGTAT
Celera SNP ID:            hCV9620977
SNP Position Genomic:     41474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13878):
CTAAAAATACAAAAATTGGCCAGGTGTGGTGAGGCATGCCTGTAGTCAGTCCCTGCTACTCGGGAGGCTGAGTTGGGAGAATCACGTGAACCCAGGCAGC
R
GAGGTTGCAGTAAGCAGAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCCTCTCAGTTAAAAAAAAAAAAAAAAAAAAAAAATCACC
Celera SNP ID:            hCV519954
SNP Position Genomic:     177032
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13879):
ATGTCAGTTCAGAGCTCTTCACAGCTCTAATCTTGAATCCATCTCATGGATGAATGAAATGCCTGGTTTTCTTTGTAATTTGTTCAGTTCTATGCATACA
R
GGTATGCAGTTTGTTCTGTAGATAAACTACACATGGGTATTTCTGTAACTCTCCTTTTATCATCATTACCGTCTGTTTGATTCTTTCCCCTACATTTGTG
Celera SNP ID:            hCV67446
SNP Position Genomic:     184250
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13880):
GACTTCACAGATAAGTCTTGCAGTTTCCAAAACACCATCCCATCCTTACTGCGTTTATTCTTGAATGACTTTTCACTGGGAGATAGTATACTTATCTTTT
W
CAACAAAACTACAAATGGGATCCTAATAACAAGTTTACTGTTTGTTAATTTGTGTTAGATATAGGCATACTGTCATATTTTCCTGTAATTTTTCATATCT
Celera SNP ID:            hCV67447
SNP Position Genomic:     185354
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,3)      total(A,1|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13881):
TTGCAAACAATCCAATTATTACACTCTTTAAGTTATTTTAAAATGTTACAGATGTTTTTCAAACATGTCTCTGTTCTACCCTATCTCTCTCATCATATAT
W
TGTATGGGATTTTACATTTTGACATATTAAATTTCATCTTGTTGGAGTTTGCTCGTTTTCTTCTTACCTATGAAGCTGTTTTGGGACCCTAACTATGACA
Celera SNP ID:            hCV519956
SNP Position Genomic:     176303
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,6)   total(A,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13882):
TAGTATATCAGAATTCACAGAAAGGAACAATTATTTAGTGTGCAAGATAGTATATTCCAAATTATTTCATATTATAGAAATAAAAAATATTCCATAGTCC
Y
TAAGCCACGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTGTTGCTCTTCTTGCCGAGGCTGGAGTGCAATGGCATGATCTCAGCTCA
Celera SNP ID:            hCV67448
SNP Position Genomic:     187556
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13883):
AGAAGAAGATAGGAAGTGAGAACGTATCCCTTCCCTTTAGGACTCAGAAGTTAAACATGTTTCATCTGCTCTCATTTCATTGGCCAGAACTGAGTCACAT
S
ATGATAACTTGCTGAAGAGAATTTAGGAAATATAGTCTTTAGGTAGGTAGCTATGGCTTCCAGCTAAAATGGAGCAGTTCTTTTACTAGAGGAAAAAGAG
Celera SNP ID:            hCV519957
SNP Position Genomic:     179566
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13884):
TTTCTGTCAGGTGTTAAGCTCAAATACCATGTACCCCTGAGCTTCAAATAAAAGTTTTAAAAAAGTGATTAAAAAACATCAAGTTTTTTTGGTCAAAATT
A
AAAAAAAAAAAAAAAGCTCAAATGCCACCCCTGTGAGGCTTTCCTGGACTACCTTTTCTAAATGTCTATCCCAGCTCCTGCCATTGCATTCCCTATCGCC
Celera SNP ID:            hCV26368360
SNP Position Genomic:     64132
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13885):
ACAGTGATTTGAAAGACTGAAATTTGTCCCTGAATCAAATGTTGGGAATTGAGATGTTTCATCATTTGTGTTATTCAAAAGAATTTTTTGATTGGCCCCA
T
TTTTTTTTTTTTTTTTTTGAGATGGAGTCTCAGTCTGTTCCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCA
Celera SNP ID:            hCV26368362
SNP Position Genomic:     66677
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13886):
ATTCCTTGCCTTCTCTTTCATCCACTTTTGATCCATCTGCCAATCCTATTAACTTTACCTTCAAAATGGACTCCAAATCCAACCACTTCTCATCAGATCT
R
TCTTCCACATTACCACCAATGACTTATTTTAATAAAATACATATCCCCATCCTGTTTCTTACTTCCTTAAAACCTTCCTCTGTCTCCTTATTGCCTTTGG
Celera SNP ID:            hCV27995034
SNP Position Genomic:     180006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13887):
ATTTGTGTTATTCAAAAGAATTTTTTGATTGGCCCCATTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCAGTCTGTTCCCCAGGCTGGAGTGCAGTGGTG
Y
GATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCTGCCACTATGCCCAG
Celera SNP ID:            hCV26368363
SNP Position Genomic:     66740
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13888):
GAGTCCATCCTTTTAATCTCTGTCTGTGCCACTCTGGCCAGTGTTTGTGAATGCAGAGTCCTGGAACTATCTGCATCAGAATCACCAGGGATACTTGTTA
M
TAGTGAAAAATTCTGGCCCACCTCAGACTTACCATGTAAGAAATTGTTTTTCAAGAGTTGAGGAATGTGGGTATTTATATTATAAAATCCTGCAGGTGAT
Celera SNP ID:            hCV427609
SNP Position Genomic:     143653
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13889):
ATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAACATACACAAATCAATAAATGTAATCCAGCATATAAACAGAACCAAAGACAAAAACCACAT
R
ATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAGCCCTTCATGCTAAAAACTCTCAATAAACTAGGTATTGATGGAACATATCTCAAAA
Celera SNP ID:            hCV26368364
SNP Position Genomic:     69455
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13890):
TCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAACATACACAAATCAATAAATGTAATCCAGCATATAAACAGAACCAAAGACAAAAACCACATA
R
TTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAGCCCTTCATGCTAAAAACTCTCAATAAACTAGGTATTGATGGAACATATCTCAAAAT
Celera SNP ID:            hCV26368365
SNP Position Genomic:     69456
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13891):
CATGCTAAAAACTCTCAATAAACTAGGTATTGATGGAACATATCTCAAAATAAAAGAGCTATTTATGACAAACCCACAGCCAATATCATACTGAATGGGC
R
AAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATC
Celera SNP ID:            hCV26368366
SNP Position Genomic:     69606
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13892):
CCTCTTCAAGGACAACTACAAACCACTGCTCAATGAAATAAAAGAGGACACAAACAAATGGAAGAACATTCCATGCTCATGGATAGGAAGAATCAATATC
S
TGAAAATGGCCATACTGCCCAAGGTAATTTATAGATTCAATGCCATCTCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTGAA
Celera SNP ID:            hCV26368368
SNP Position Genomic:     70099
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,8)   total(G,5|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13893):
CTTCAAGGACAACTACAAACCACTGCTCAATGAAATAAAAGAGGACACAAACAAATGGAAGAACATTCCATGCTCATGGATAGGAAGAATCAATATCCTG
R
AAATGGCCATACTGCCCAAGGTAATTTATAGATTCAATGCCATCTCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTGAAGTT
Celera SNP ID:            hCV26368369
SNP Position Genomic:     70102
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13894):
AGTCCTGAAAACTCCAAAAGGGAAATATTTACTCAGAGGTCTATTCAAATTTGCTTAGTCTCTGACGTTTTCCTGTGTCGTACAAATCCCTCGTGCGGCA
R
AAGTAGTTTGTCTTTACTAGGCCACCGTCTCGTCAGCGTTACGGAGTATTTTGTCCGCCTGCCGCCGCCGTCCCAGATATTAATCACGGAGTTCCAGGGA
Celera SNP ID:            hCV16188132
SNP Position Genomic:     6003
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(A,5|G,35)   total(A,7|G,63)
SNP Type:                 UTR 5;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(A,4|G,30)   total(A,5|G,55)   
SNP Type:                 UTR 5;TFBS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,132|G,1351)   total(G,1351|A,132)   (G,-|A,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:13895):
TTCTGTTTACTCAGAAAGCCCAGAACATAAGATTTGAACCATTTGTGCAGTGCCCAAATGTGTGCTGATGGAAGAGTGAACCTTTAATGTTTTGACTCCC
R
TACTATTTGGTTCTATTTTTCCTAAATAAGTCATGGTCTTTTTTCATTAAGTATACATTTACAAAAATGGTTCAGTCTTTGCACATAACTCAGCTCTCAC
Celera SNP ID:            hCV353400
SNP Position Genomic:     194716
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13896):
GCTTCTTTGCAAAGTACTGGTGAAGTCTTATCACTTTTTAATATTAAACTTCATGTAAATGTTTTGGATATTTAATTGTTTATGATCAAGGTGTCTGGCT
W
GTGTGTTAGTCATCTCCCAGCTAACAGTCTCTTGGCAGGCCATGCTTAATTCAGTTATTGCATGTTAACAGGCTGTTCAAAATTCCACATTGCCTAGAGT
Celera SNP ID:            hCV353401
SNP Position Genomic:     194331
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13897):
TTAGGGTATATTAAACTCATGTAAAAGTACTTTATATTTAAATTTAAAACAGTGAGCTTCTAGACTAATTTAGTAATAATCAAGTTTCTTTTTAACCTAC
R
TGAATTATATGAGATATAAGACAGTTGTCATATGGGACTGTCCTGTGTGTCACAGAACGGCCAGCATCCCTGACCCCTGCTCACTAAATTTTAGTAATAC
Celera SNP ID:            hCV353402
SNP Position Genomic:     193004
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13898):
TTCCTTTTGAGACTCTGAAGAAAGGGTACGTTCCTAATGTTTTTGGTTTGGATTATCAGTTCATGGCAGAGCAGTGCCTTAATTGTACTTGGTAGTGACC
M
CTACTAGTTGTTCAATCATGAATCCTCCAGTACTTTTTATCTGAATAATATGGAGATCCTTTCTTAGTACTTTGTTAGACAGCTTTTCTAGATCGGTTTC
Celera SNP ID:            hCV9078252
SNP Position Genomic:     187959
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13899):
TTCTTGCCGAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTACAACCTCTGCCTCCCAAGTTCAAGTGATTCTCCTGTCTCAGCCTCCCGAGTAGCTG
K
GATTATAGGTGTGCGCCACCACATCTGGCTAATTTTGTATTTTTAGTAGAGACAGGGCTTCGCCACATTGGTCAGGCTGGTCTCGAACTCCTGACCTCAA
Celera SNP ID:            hCV67450
SNP Position Genomic:     187716
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13900):
AGCAACAAACATTATTCTTATCTATAATAAAGCAGATATTTCTGTCTGTCATACATATGAAATATTTGTATGTATTTATTGGAAGTAATTTTTAAGGCTA
K
TCTTTTTTTATAATTTCAACTTTTATTTTAGATTTGGGGTAGATGTGCAGATTTGTTACATTGGCATATTGGGTGATGCTGAGGTTTAGGGTATGAATGA
Celera SNP ID:            hCV427612
SNP Position Genomic:     140896
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,9)   total(G,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13901):
AATGGATAGATAATAAAATTGAGACCCACAGACTATTTGGATCCTAAATTTTGTTTCATCATGACTCCCTTGTTGAAAATACTTTATTGACTCTGTGTAA
Y
GTAAATAAGATAATTTTTGTGAAGCTCATTGAATGCGTCTGAGCTCCTTAACTCAAAAAAGGCTAAAAGTTACTGAAATAGCTATGGTTAAGGGTATATT
Celera SNP ID:            hCV26368371
SNP Position Genomic:     81405
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   (C,-|T,-)   Caucasian(T,84)   African-American(T,84)   Asians(T,84)   total(T,252)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13902):
TGAGATGTGGGAGGAAACTGGAGTACCCACAGGAAACTCATGCAGACTTGGGGAGAGTATGCAAACTCCACACAGACAGTGACCTTGGCTGGGAATTGAC
T
TTTTTTTTGTCATCAGTGTTATCACAAAATGACATTGCATGAACCAGCATTGTTTGAAGACTTGCTGTATTCTGATTTTTTTTATCTTTCATCTTTGAGT
Celera SNP ID:            hCV26368372
SNP Position Genomic:     83036
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13903):
TGGCTCTGGAATACTTTATAAAGTCCCTACTTCTGCAAAAATTAATCTCTTTGTGATTTTCCCCTTTCTTGCAAATGGTTGGAAAAACTTTTATAATAAT
R
AACTTAGGAACTGGTGTTACAATATGGTATCCAATGTGAATCATTTGCCTGTTATTAGTACTTGTTACTTGAAGCCACGTTTTTGTTCCTTTTAAGATGG
Celera SNP ID:            hCV515827
SNP Position Genomic:     133854
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13904):
CTGATAGCCTGCCTTCTGGAATTGTGAAAGGCTAACAATGAATTTGACTTTTATTCCTACTTCATTTGAAGTATTCTCTCATTGAAAACACCAGTTTGCA
C
CATCCAGGAGGCCTTCTTATTTCAGTTATTATTGGAGTTTAAAATTTGTTTTTAGGTGTGTCGTATTTATTTCTACTTCATATATACATGTAATTATCAA
Celera SNP ID:            hCV26368373
SNP Position Genomic:     85823
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13905):
AATTCAACCATCTGTGTACTCATACTAATCAATGTAATATAGGTTGGCGCTTTTTATGCACTTAATTTTGCCACCTCTCTCACTTCCCCAAAGAAATTAG
W
CTAATGTATAACAATAGGCTTCATAACTTAATTTAGAAAACATAACAAAAATAATTTCGCTCAGTAAGTTTCTGTTGTAGTAGATATTGTTGGTATTAAA
Celera SNP ID:            hCV9621426
SNP Position Genomic:     58071
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   Caucasian(A,84)   African-American(A,84)   Asians(A,84)   total(A,252) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13906):
CTTAACATACACACACACACACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAGTTTTATCATAGAATTGTGTCTCACCCTATCCTTA
A
CACACACACACACACACACACACACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAATTTTATTATCATAGAATTGTGAATGACCCCT
Celera SNP ID:            hCV26368374
SNP Position Genomic:     90980
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13907):
TTAACATACACACACACACACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAGTTTTATCATAGAATTGTGTCTCACCCTATCCTTAA
C
ACACACACACACACACACACACACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAATTTTATTATCATAGAATTGTGAATGACCCCTA
Celera SNP ID:            hCV26368375
SNP Position Genomic:     90981
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13908):
AAGGGAAATATTTACTCAGAGGTCTATTCAAATTTGCTTAGTCTCTGACGTTTTCCTGTGTCGTACAAATCCCTCGTGCGGCAAAAGTAGTTTGTCTTTA
M
TAGGCCACCGTCTCGTCAGCGTTACGGAGTATTTTGTCCGCCTGCCGCCGCCGTCCCAGATATTAATCACGGAGTTCCAGGGAGAAGGAACTTGTGAAAT
Celera SNP ID:            hCV27836313
SNP Position Genomic:     6020
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(A,1|C,39)   total(A,1|C,71)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(A,1|C,31)   total(A,1|C,63)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:13909):
TAACATACACACACACACACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAGTTTTATCATAGAATTGTGTCTCACCCTATCCTTAAC
A
CACACACACACACACACACACACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAATTTTATTATCATAGAATTGTGAATGACCCCTAA
Celera SNP ID:            hCV26368376
SNP Position Genomic:     90982
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13910):
ACATACACACACACACACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAGTTTTATCATAGAATTGTGTCTCACCCTATCCTTAACAC
M
CACACACACACACACACACACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAATTTTATTATCATAGAATTGTGAATGACCCCTAAAC
Celera SNP ID:            hCV26368377
SNP Position Genomic:     90984
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|-,5)   total(A,1|C,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13911):
CACACACACACACACCCCTACCTGTTTTACAGATACTATCCAGTTTTATCATAGAATTGTGTCTCACCCTATCCTTAACACACACACACACACACACACA
C
ACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAATTTTATTATCATAGAATTGTGAATGACCCCTAAACTTTAGTCTGGTCACATAAT
Celera SNP ID:            hCV26368378
SNP Position Genomic:     91003
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13912):
GTGGCACAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGTGCCACCA
Y
ACCCAGCTAATTTTTTTTGTTTTTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGCCTCGATCTCTTGACCTTGTGATCCGCCCACCTCGG
Celera SNP ID:            hCV315093
SNP Position Genomic:     180472
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13913):
CACACACACACACCCCTACCTGTTTTACAGATACTATCCAGTTTTATCATAGAATTGTGTCTCACCCTATCCTTAACACACACACACACACACACACACA
C
ACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAATTTTATTATCATAGAATTGTGAATGACCCCTAAACTTTAGTCTGGTCACATAATAC
Celera SNP ID:            hCV26368379
SNP Position Genomic:     91005
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13914):
ATAACTGTGGGACACTTCCTGGTAGCATAATTTTATGTCGTCTTCTGATACCCAGGCTGCATTTTCCAGACTTATCTGATCACTTGACTTAATGTTCTCT
R
ACAGAGCATTCAGTTCTTTGTAGTCAGTTCACCGACTCACTTCTATCGGGTATCCTGCCCTGTCCCTCCCTGAATGTGCCCATTTCCATTGTTTTCCAGG
Celera SNP ID:            hCV27849856
SNP Position Genomic:     8031
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,8)   caucasian(A,34|G,6)   total(A,62|G,14)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13915):
CTAGAAGAAGGTATAGTGGACATTTTTATAGTTGTATACTTTTTGATAAACATTTCCCTGTGTTATTTAGAATTTGTATTAGAGCCAAATGGAGCCAGGT
M
CTTGACTAACAAGGCAAAGGGAGGTCACAGTATGGTAACTATTGCACAGTATAATGCTTGAAAATTATTACAGATTTGTTTACTTTTATCTCTTTAAGGA
Celera SNP ID:            hCV27498353
SNP Position Genomic:     86980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13916):
TTAATTAATTTCTATGTTTAATTAATTAAACTATATTTTATAGGTTAAATCATGAACTTCGAGGATGGGTTCATAGACATGAAGTAGAAAGGACCAAGTC
W
AGAAGAATGACAAATAATCAACAGAAAACCCGTATTCTTCAGGTATGTTTCTGTTTGTCTTTGAACAATAGTTGGCGTATTTGTTGGAAGGCTTCTCCCA
Celera SNP ID:            hCV26368381
SNP Position Genomic:     93027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13917):
CAAGTGTTCATAAGCGGTAAATAAAGCCCTTGGGCTAGGTAATGTAAGATCCATTGCAACCTGGAGATGAAGAACTTTGTAAAGGGGATAATTGTTATCA
Y
CCATCAGAGCATCAGAGTTTTAAGATGATCTAGATTTAGTCCCACTAATTATATTTCTCCTAACTTTTATAGACAGAGAAATCAGTGAAAAATATGTATT
Celera SNP ID:            hCV27521453
SNP Position Genomic:     127251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13918):
CTTTTAAGGTGAAGATTCATTTTTTAATAGCTTTATTGAGGTATAATTGACATATAATAAACTGCACATATTTAACACCACATTTTATGTGTGATATGTA
K
GTGTGTGTGTGTGTGTGTGTGTATATATGTATATACTTATATAGGTGAAATCATCACCATAGTCAAAATAATCAGCATCCCCATCAGTCCCAAAAGTTTT
Celera SNP ID:            hCV26368384
SNP Position Genomic:     120075
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,9)   total(G,1|-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13919):
TGCAACCTCCACCTCCCGGGTTCAATCTGTTCTCCTGCCTAAGCCTCCCGAGTGGCTGGAATTACAGGCATATGCCACCACACCTGGCTAATTTTTGTGC
T
TTTTTTTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGTCTGGTCTCGAGCTCCTGACCTCAACTGATCCGCCTGCCTTGGCCTCCTAAAGTGCTG
Celera SNP ID:            hCV26368385
SNP Position Genomic:     126994
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13920):
ATTTTTGTGCTTTTTTTTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGTCTGGTCTCGAGCTCCTGACCTCAACTGATCCGCCTGCCTTGGCCTC
M
TAAAGTGCTGGGATTACAGGCTTGAGCCACTGCACTCGGCCTGAAGCATTTTATGATGCTCACTACCAAGTGTTCATAAGCGGTAAATAAAGCCCTTGGG
Celera SNP ID:            hCV26368386
SNP Position Genomic:     127084
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13921):
TATACCAAATTCAGCTGAGGAATATGGAAGTAACTTTAGACTTAAACAAGACAAAAGTTTTTTCACTGAAGAATTGACAAGTATTTGCTCCTTAAAACAA
Y
GCAGATTAGTGAACGTGGATTCCTGCTGAGGGAGTGCATCCCATAATATGGCAATAATTTTCAGTTTCTCCAACGAAAAGATAGTGAAGGAATTAAATCT
Celera SNP ID:            hCV15755974
SNP Position Genomic:     199723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:13922):
ATTTATTAAATTTTAAACAGGATTGTGCAAGCTTATGAGACAATTAGATAAACTCATGGAGGAGGCAGGTCCTCCTGTTATTAGATGATTTTGTGCTCTT
K
GGGCTGACAATAATACACTCTTGGGAAGTGATGGTAGAGACTGATGGGAATAGTCTTTCTGCCTGGTTGCAAGTCCCAAATTTTTAAGGGTTAATGGAAG
Celera SNP ID:            hCV15755975
SNP Position Genomic:     201499
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,725|G,772)   total(G,772|T,725)no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13923):
AAAGAAAGTAAAGTGTGTTCTGTTCTTATCTTTTTAATGACTAAGCTTTAAACAGTTTATTTTGGGTAAGACTAGAACTTTCAGCCATTTGTTCTAATAT
S
TGTGTTATTAGATGCAATAGAATTTATGAAAAGAAGAATGACAAAGGTATCTGATTAGAAAATTTGATCTTACGCATGAATCCATGTCATGGCCAGCCAC
Celera SNP ID:            hCV15755976
SNP Position Genomic:     203027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13924):
ACTTCAAATAAAAACTATAATTTTTCATCATCCCAACGAAATATTGACCTCTTAGAAGCCCTGAATTTGGCCTGTTCTAGGACTAAGCCAATTGTTATAT
R
TAACAGATTGTTCTTTGTTAATTTTAGGATCACCTGCTGTTACCAGCTACCACCCATAACAAGACCACAAGACCAAAAATGTCAATTGTGTTACCAGCAA
Celera SNP ID:            hCV25631977
SNP Position Genomic:     152012
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,40)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13925):
CAGATATTAATCACGGAGTTCCAGGGAGAAGGAACTTGTGAAATGGGGGAGCCGGCTGGGGTTGCCGGCACCATGGAGTCACCTTTTAGCCCGGGACTCT
Y
TCACAGGCTGGATGAAGATTGGGGTGAGTGGGATCTGAGAATGTACCAGGGTGGCTCGGGTTCGCGTCTAAAGGTTTCTTCCTCCCTACTTCCGCCCACT
Celera SNP ID:            hCV25631978
SNP Position Genomic:     6177
SNP Source:               Applera
Population(Allele,Count): african american(T,26)   caucasian(C,1|T,37)   total(C,1|T,63)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,33)   total(C,1|T,71)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13926):
GCCGGCTGGGGTTGCCGGCACCATGGAGTCACCTTTTAGCCCGGGACTCTTTCACAGGCTGGATGAAGATTGGGGTGAGTGGGATCTGAGAATGTACCAG
K
GTGGCTCGGGTTCGCGTCTAAAGGTTTCTTCCTCCCTACTTCCGCCCACTCGTGGTGACAGGTGTGGACCAACCCTGCCTGGGGAGTGAGGCCCCTCGTC
Celera SNP ID:            hCV25631979
SNP Position Genomic:     6227
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,33|T,1)   total(G,71|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13927):
TGCTGTGACTCCTCATGCCAGGCCGCCTGCCATATCAGTGCCCTCTCTACCCTTCTTGGACCCTGACATTCCACCAGGCTACTTCTCTGCGTGGATGGTG
R
TCTTGCTTTACCCCATCTAGTGGCTTAGGATAAAATTATTCAGGAAGGAATATTTTCTAAGTGACTATGAATAAGTATTTATCATGAGATATTATTTTTA
Celera SNP ID:            hCV16127907
SNP Position Genomic:     27348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13928):
TCTTTTAAGAACGATTTTTAATATATAGAGTATAAATCAGTGAGAAAAATGCAAATTAATTCAACCATCAATGGACAATATATACGAATAGATAATTCAC
R
AAGAAGAGTGGTAAATTTTAAAAATGAAAGTATCAATGGCTGTGTATTCCTGAAGGGATATTCCCTCTGAAAGATTACTATTTTATAACTATGTGAAAGA
Celera SNP ID:            hCV16127908
SNP Position Genomic:     50937
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13929):
AGATCTTGTGGCTGGTTACAGGTAGTTCGAGAATGATATTCAAGAATTTAAAGTGTTATGGTTAGACTTTTCTGTGGCTCTTACCTCCCTTGAGTATGAG
W
TCTAAAGGAAAATGTCTTATGGCTTCTTATAACTTCCCAGTGTGTATACACTGCGGTTGTGTGTGTGTGCTGACACATGTTAAACTTTGGTTATTGTATG
Celera SNP ID:            hCV16127909
SNP Position Genomic:     51158
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,4)      total(A,4|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13930):
TTTCATCTTTCCAACTTCCAGACCTTTTTTTTCTGCTGATAACTCATACCTTTTAATTAAACTTTAATTTAATTTAATTTAATTTAGTTTCTTCCAACTC
K
GCTCTCCACCACTTCCTTGCCCCTAGCACACACACAATTAATCAGCACTTACAAAAACAAAAATTTACCTCTTTACAAAAGGTACAGGGATAGAGTAGAG
Celera SNP ID:            hCV26368391
SNP Position Genomic:     142845
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13931):
CAGATTAAGGAACTTGCTCTATATCCTACAGCTAGAAATTAAGTGATGGAAGCAGAATTCAAACCCAGGCAGTCTAGCTCCAGAGTCCATCCTTTTAATC
T
CTGTCTGTGCCACTCTGGCCAGTGTTTGTGAATGCAGAGTCCTGGAACTATCTGCATCAGAATCACCAGGGATACTTGTTAATAGTGAAAAATTCTGGCC
Celera SNP ID:            hCV26368392
SNP Position Genomic:     143571
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13932):
AGATTAAGGAACTTGCTCTATATCCTACAGCTAGAAATTAAGTGATGGAAGCAGAATTCAAACCCAGGCAGTCTAGCTCCAGAGTCCATCCTTTTAATCT
C
TGTCTGTGCCACTCTGGCCAGTGTTTGTGAATGCAGAGTCCTGGAACTATCTGCATCAGAATCACCAGGGATACTTGTTAATAGTGAAAAATTCTGGCCC
Celera SNP ID:            hCV26368393
SNP Position Genomic:     143572
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13933):
GATTAAGGAACTTGCTCTATATCCTACAGCTAGAAATTAAGTGATGGAAGCAGAATTCAAACCCAGGCAGTCTAGCTCCAGAGTCCATCCTTTTAATCTC
T
GTCTGTGCCACTCTGGCCAGTGTTTGTGAATGCAGAGTCCTGGAACTATCTGCATCAGAATCACCAGGGATACTTGTTAATAGTGAAAAATTCTGGCCCA
Celera SNP ID:            hCV26368394
SNP Position Genomic:     143573
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13934):
ATTAAGGAACTTGCTCTATATCCTACAGCTAGAAATTAAGTGATGGAAGCAGAATTCAAACCCAGGCAGTCTAGCTCCAGAGTCCATCCTTTTAATCTCT
G
TCTGTGCCACTCTGGCCAGTGTTTGTGAATGCAGAGTCCTGGAACTATCTGCATCAGAATCACCAGGGATACTTGTTAATAGTGAAAAATTCTGGCCCAC
Celera SNP ID:            hCV26368395
SNP Position Genomic:     143574
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13935):
CCCAGGCTAGGTAGGCACCTTCCTCTTTATTCTTGTTGCACCATATGCATACCCGTATCACACCTATCCTGGATGATACCAGTTTACATAGCTGCCTCTT
Y
TCCTAGATGCAAGTGCCTTGGTCAGGGGCAAGGGCTTACTCATCTCTCAGTGCCCAACACATAATAGCTGCTAAGTAAATATTTATGTAATTGAATCATA
Celera SNP ID:            hCV150005
SNP Position Genomic:     180749
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13936):
GTAAAAAAGCTTTAAATAGTACCTGACTATTTTGGGGTTAGCTGCTGTTTTACTGCAATAATCATCATTGCCATTGTCCTTAAGACATCATTGCCAACTT
Y
TAAGGTAATTTCTTCCTTTTGGACCCTGACTCCTAGCACTTCTCACAGTGCTCAAAGACTTTACTCTGCATTTATAACATTCGTCTTTTATACAGTTTCT
Celera SNP ID:            hCV26368399
SNP Position Genomic:     155229
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13937):
TCACAGGAAAACAGCAATCATTGTTAACCCCCATCCATTGGGGAGATGAAGAAAATGAGCAAACTATGAAGAATGCAGTTTATTTCGTCTCCATAAGACT
R
TGAGGCAGTGGAAGGTAAGGGCTAGACCCCAGGATGGCTGATTCCTAGGGCTCTTTTCCTGTGCTCCAGAATGCAGTGACACCTTTCAGTTGTTGCTGTA
Celera SNP ID:            hCV150006
SNP Position Genomic:     182070
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13938):
GCCGGCACCATGGAGTCACCTTTTAGCCCGGGACTCTTTCACAGGCTGGATGAAGATTGGGGTGAGTGGGATCTGAGAATGTACCAGGGTGGCTCGGGTT
Y
GCGTCTAAAGGTTTCTTCCTCCCTACTTCCGCCCACTCGTGGTGACAGGTGTGGACCAACCCTGCCTGGGGAGTGAGGCCCCTCGTCACTCCTGTTCGTG
Celera SNP ID:            hCV25631980
SNP Position Genomic:     6240
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,33|T,1)   total(C,71|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13939):
GCGTCTAAAGGTTTCTTCCTCCCTACTTCCGCCCACTCGTGGTGACAGGTGTGGACCAACCCTGCCTGGGGAGTGAGGCCCCTCGTCACTCCTGTTCGTG
Y
CCCTGGAAGAGTCTGGGAGTATCGTTCGGCTTCTGTCCTGGCCACAGGGAGAGTAGAATATTGTCTAACTGGAGTTAACTGTCGTTTTTCACTATTCCCA
Celera SNP ID:            hCV25631981
SNP Position Genomic:     6341
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,29|T,1)   total(C,65|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13940):
GTTTTTGTTTTTTTTAGAGTTTCTTATATTGCATCAAATAAAAGAGTGTGCTGAATTGCACATCTAGTCTTTGGAGGAAAATTAGGGTAAGGCTTACTAC
R
TTAGAATCTAAGTGAAAAGGTTTTTGAAAGTGAAGTGGTTTGATGAAAAGCAAAGTATGCATACCTCCCTCTTCTTTACTCCTTCTTTAGAACCAACCCT
Celera SNP ID:            hCV27471434
SNP Position Genomic:     42200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13941):
AACCCTAATTATTGCAAGAAAGTTTCAGGACAACAGGTTCAGGCTAGTAATTTAAGTTACATACTTAATGGTAAATAGCTTCTACCATTAAGTATGAAAG
Y
TAGTAGCCATTTTGTAATCAGTAAATGTAGGACAGTAGAAATTGCATTGTATTGCAATTCTAGGCCCACCTTTGGCCCTAGGGATGGGTGACTTTGGAAA
Celera SNP ID:            hCV25631982
SNP Position Genomic:     18220
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,38)   total(C,3|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:13942):
TGATTTTAAGATGTGTATGTTTTATTCTTTTAATATTCTTTTGCTGATTTGAAACCTACAGGAAAACAATTTTGATAATCTTGATTTTGATTTGGATTTG
N
TGCCTTGGGAGTCAGACATTTGGGACATCAACAACCAAATCTGTACAGGTAATTATGTGTTTCACTGGTAAAAGTTTTAAAAAGATCAATTTTATTTTGT
Celera SNP ID:            hCV25631983
SNP Position Genomic:     21708
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,31|G,3)   total(A,65|G,5)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,359|T,744)   total(C,359|T,744) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13943):
TGGGGTTATTGGGCTATTCTGGTAGGTTAAAAGATTCCTGGTGTTATGCATTCTACTTCTGGTATGGCAATTATGTAAACAAATTTCTTGCCAAAAATGG
R
TATGAGGAGTTTCATAGTTATGTTTCAGTAGTGTAATGAATGAACAGTTCATATCAGAAATAGAAATAGTGATTTTGAATTATGAATAATGTCTCTGTAT
Celera SNP ID:            hCV25631984
SNP Position Genomic:     21933
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,34)   total(A,65|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13944):
TGAATGAACAGTTCATATCAGAAATAGAAATAGTGATTTTGAATTATGAATAATGTCTCTGTATAAGATTAACCTGAGAACCAGACAGGGCTTAGGGAAT
S
AAAGGGAAGAGCCTGGGTTACCAGAACCTAGGAACTTGGTGGAGGAGTCCCATGCATTTAATACATGTACTTCTAAGAAGGGGCAGCACCTGGCTGATAC
Celera SNP ID:            hCV25631985
SNP Position Genomic:     22070
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,27|G,1)   total(C,55|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13945):
ATATACCCCCTCCCCACATATATATATAATTTGTAACACAAGTGGAAACATACTAGATATATTGTTTTCTGCATCTTTCATTTTCACTCGTTATATTTTG
R
TGACCTTAGCTTCCATATCTGATTGAATTTTAAAAGTAGATTTTACCTTCTTTCTTGTTCATTTTATTATAAGTTTTTATTGTCCAGTGGGTAAAACCTT
Celera SNP ID:            hCV25631987
SNP Position Genomic:     23629
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,36)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:13946):
ATATCTTTAACAGGATGGCATAGACTTACTCTGCATTTTGAGTTATTTTTCCTTTGGTATAGATGGATCATGCTGATAGTCACTTATTACTTAATATATA
K
ATACAGTTTCTAATATACCTTTCCTTTGAAGTTACCCTGAAGTGTTTTTCTGTTTATATGTGGGTCTCCTCCTTTTCTATGCAATTTGCTGCTTAAGGAT
Celera SNP ID:            hCV25631988
SNP Position Genomic:     31020
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,26)   caucasian(G,4|T,26)   total(G,8|T,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:13947):
AACTAGATCCGGCTGGTTCTCTGCTAACATGTGGTCCTCGATGCTCTAGCGGATTGGCCCCAAACCTCAGCACACAGAGCTTTGGTAGGGCTGGGGATGC
M
GGTCAGCCTGCTGAAGGCGTCTAGAGGACTTGGGCGGGGGCGTGACTTCCTGCTGCACCACTTCCTTTCCAGCCACGTGGGCTTCTGGGACCCTATGACA
Celera SNP ID:            hCV408552
SNP Position Genomic:     130468
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13948):
CAGAAAGTCCTGAAAACTCCAAAAGGGAAATATTTACTCAGAGGTCTATTCAAATTTGCTTAGTCTCTGACGTTTTCCTGTGTCGTACAAATCCCTCGTG
Y
GGCAAAAGTAGTTTGTCTTTACTAGGCCACCGTCTCGTCAGCGTTACGGAGTATTTTGTCCGCCTGCCGCCGCCGTCCCAGATATTAATCACGGAGTTCC
Celera SNP ID:            hCV27830385
SNP Position Genomic:     5998
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,38)   total(C,69|T,1)
SNP Type:                 TFBS


Context             (SEQ ID NO:13949):
GTCTTCTAGTTCTCAGATGTCTCCCCTTTCCTTATATGGTGAAAACTCTAATAGTCTCTCTTCAGCGGAGCCACTGAAGGAAGATAAGCCTGTCACTGGT
Y
CTAGGAACAAGACTGGTATTACTCTATCTCCTAACTTCTGTTATTTCTATTTCAGATTGAGCTTAGGTTCCATTTCTTAAAAGAAAATGCTGGATTAAAT
Celera SNP ID:            hCV25631989
SNP Position Genomic:     31270
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,4)   caucasian(C,35|T,5)   total(C,63|T,9)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:13950):
CAACCATATTAGTAGTTAAATTCAGTGGGCTAAACACATCAATTAAAAGGAAGAAATTTTCAAACTAGATTTTTTTAAAAAGGAAAGATCCAACTATATA
K
TGTTTATAAGAAATAACACTTTAAATATGAAGACACTGACAGATGGAAAATAAAGGTGAAAAAGGATGTATGCCATGCAAACATGAAGCATTAAAAAGCT
Celera SNP ID:            hCV16127916
SNP Position Genomic:     98114
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13951):
TTCCCACTGGGGAAGTACCGGGTGATCTTTTTGTGTGGCTAACACTGGACGTCTTTAGGAGGTTTAGAGCAAAATGGCTGGGACCGCCAAAAAGGCTACA
R
GCTATTTCCTGAGTGTGAAATGTGGGCGGTGAGCACAATGGAGTGGGTTTTTGTGTGTTTGGTGTATATGAGAGAATGTGGTTATATACAAGAAATTCTA
Celera SNP ID:            hCV29085436
SNP Position Genomic:     6536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13952):
GGCCTTCTTATTTCAGTTATTATTGGAGTTTAAAATTTGTTTTTAGGTGTGTCGTATTTATTTCTACTTCATATATACATGTAATTATCAAGTTTTTAAA
R
CATATAGAACACTACTATTGTTTAAACAGTTTATAAATAAGGTACTTTTATACTTAGAAAAATTGTTTTTGATATGTGCAGGTTACCATGCTAAGGATTT
Celera SNP ID:            hCV9078862
SNP Position Genomic:     85933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13953):
TTATAAATAAGGTACTTTTATACTTAGAAAAATTGTTTTTGATATGTGCAGGTTACCATGCTAAGGATTTGAACACCTTCAGTACCCTATTTGTACTTGC
K
TCTATGCCTAGCATTTTTGTTACGTGCATGGATCTGCAAAGGAATTGTGGTTTGTTTCACAGCTGCATGTAGCAGGCATATGTGTGACATATTTTTATTT
Celera SNP ID:            hCV9078867
SNP Position Genomic:     86064
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,10)   total(G,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13954):
AAGTATATCTTAAATCAAAACTTGAATTTGTACTTATTAGGATTTCAAGCTCATTTTTCCTCTGGTGACCTTGCCAGCATTATCAGATTTGTATTAAGTG
W
CAAAAGTTTCCTCTTGTCAAAGTGTAAACCTTGGCTCATTCTTGGGCCATCTGTTGTACACTAATAGTTTTGATTTATTCTTCTGGCTGACATGCGTATT
Celera SNP ID:            hCV16079344
SNP Position Genomic:     146402
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13955):
TCATCATTCTCTATAACTTATTTTCTTTATTTTCTGTATCCACCCTCTCACTCTCTTTTTTTATAAGAATTAAGCTCCATGAGGACAGGATTTTTTTTTC
Y
GTTTTGTTTACTACTGTGTCCCCCTGTGCCTGTCATGTGGTAGGAATTCACTAAATGTTTGTTGAATAAATGAATATTTAATGTTCAGGCATTATATATA
Celera SNP ID:            hCV16079345
SNP Position Genomic:     192332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13956):
TTGAGTTATTTTTCCTTTGGTATAGATGGATCATGCTGATAGTCACTTATTACTTAATATATATATACAGTTTCTAATATACCTTTCCTTTGAAGTTACC
Y
TGAAGTGTTTTTCTGTTTATATGTGGGTCTCCTCCTTTTCTATGCAATTTGCTGCTTAAGGATTATACTCATTAATTTTTGTTTTTATTATGCTACAGGA
Celera SNP ID:            hCV22275513
SNP Position Genomic:     31057
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,34|T,6)   total(C,59|T,13)
SNP Type:                 INTRON


Context             (SEQ ID NO:13957):
CAACTGAAGAAAGAAAATGGAACACTGAAGCGGCAGCTGGATGAAGTTGTGTCAGAGGTAAGTGTTAGTAATACGGCTGAGTCGAGATGGGCTAAAGTAT
Y
CTCTGGATTAATAAATAGAGAAACTTTTACATTTTAAATTAAATTATGTAAAATAATAGTGCTAGGAAAAGGAGGGTATAATAAGTCCTAAAACATTTGC
Celera SNP ID:            hCV25631990
SNP Position Genomic:     59607
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:13958):
GTCCTAAAACATTTGCAGTAAGGATAAAGCATTTGAAGGGGACCCTTTGAATTGTACTCCCCAATCTACATAGAAAAGTTGTCTCCTTTTCCTAGGTTTC
K
CCTCATTCATTGCCTTAGCACCCTCTTTTCTGGCTAAGTGAATCACACTGAGGCTTCTAAAGTGCCCTGCCATATTTTCCCTTTTAAAAAAGAAAACAAT
Celera SNP ID:            hCV25631991
SNP Position Genomic:     59792
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,35)   caucasian(T,40)   total(G,3|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:13959):
ATGTGGAACTGGTTAGAAGTAAAATGTTTCTATTCCAGCATTCTCTGAGTTTGTCAGCTTTTCATTATTTTATAGGAAGAATTCTAGCTTCTTATCCTGA
R
ATGAGCTTGTCTCCAAATCTGGTTCCAATTTTTTGTTGTTGTTGTTGAGCACATTTCGCCATATGATATCACTATTGGCTGTAGGTTAAAAGTTACCGTG
Celera SNP ID:            hCV1498800
SNP Position Genomic:     75978
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:13960):
AAAAGTTTTAGAAATTTAAGAAGTATAGAACTGTAGAAAAAAGGAAAATTACTCAGTGATTCATAAAAGTTTTAGAAATTTAGGAAGTATAGAACAGTAG
R
AAAAAAAGAAAATTACTCAGTGGTAACTATCCTCTTTATGATTCTTGCCTGTCTTTTGGATATATCTATATTCTTTCTATTGTATATAGAGATTATATTA
Celera SNP ID:            hCV29085370
SNP Position Genomic:     21188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13961):
AATGAAATCTAATTTGAGTTTTTGGCTAAAAGTACTTTCCACATTTATCAAAGTGACACATGAACTGAAGAAATACAATGTATCTGAGTACCAGGTGTTA
Y
TGAATCTGGAATTGCAGGAGGGTAACAGAGCCAAAGGCAGTCCTTTCCTCAAATAGTCTTAACGTATTCATGTTTGTCAAAAATGTGTCTACACAAAGTA
Celera SNP ID:            hCV1498801
SNP Position Genomic:     76240
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13962):
TTTTAGAAATTTAAGAAGTATAGAACTGTAGAAAAAAGGAAAATTACTCAGTGATTCATAAAAGTTTTAGAAATTTAGGAAGTATAGAACAGTAGAAAAA
R
AAGAAAATTACTCAGTGGTAACTATCCTCTTTATGATTCTTGCCTGTCTTTTGGATATATCTATATTCTTTCTATTGTATATAGAGATTATATTATGAAT
Celera SNP ID:            hCV29085371
SNP Position Genomic:     21193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13963):
ATACAATGTATCTGAGTACCAGGTGTTACTGAATCTGGAATTGCAGGAGGGTAACAGAGCCAAAGGCAGTCCTTTCCTCAAATAGTCTTAACGTATTCAT
S
TTTGTCAAAAATGTGTCTACACAAAGTAATTGGTTCTCTTTTCTCTGTAGATTTCATCCTTTGTTGAAAAAGATGTCTTAGAACCTATCAAGTGCAGAGC
Celera SNP ID:            hCV1498802
SNP Position Genomic:     76312
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13964):
ATCCTTACATGTAGCTGTCTCATCCACTAATATATAAGGAAAGAATTTCTTCCTGGGGCAGTTTTTCATTAAAAACAGGTTCTCTTTGAATCAGATGGCT
R
TGAATGTCAGTTTGCCATATTATCTCTACTTGTTTAATATTTTTCTTTTGCAAATGAGATGGATGCCTACTTTGGGAACATTTTTTATTTCTATTACATT
Celera SNP ID:            hCV29085372
SNP Position Genomic:     107363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13965):
CACAATCTGCCTCTGGAGCCTTGGCTTAATCACTGACAGAGCAACAGCCACTCAGGCAGAGAAAAAGGAGTTGGCATTTACAGTTAGAGGAGTTAGGACT
Y
TAGTAACTCTGCCCGTTTCCCTAAAGCTTAGGATTGGCTGTGATAGGGGAAAGTAGCTTATGAATTGACTGGATTGATGTAAGTATAACAGAAAAGAGAG
Celera SNP ID:            hCV1498803
SNP Position Genomic:     77822
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13966):
TATATTCTAGCAATAGTACCATATTTGGGTATGCACCCCTTACTGGTCCCTTATAAAAATTATTAACACTGTCATATATACGGCATGGATTATAAGGGTA
R
CCTTAAGTAATAGGGACTTATTGTAAGTTATGTGAGATTAAAGAAGCACAGGAAACTGGCTCAGAATCCAAATAATCCCTCTGTGCTTGTGCTTCATTGG
Celera SNP ID:            hCV29085373
SNP Position Genomic:     107718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13967):
AAAACCTAAACGCTTAAGACAACAGCAGTTATTATTTTGGTAAAGAAATCTGCAAATTGGGCAGAGTTCAGGACAGACAGTTCTTCTTTGCCTCCGTGGA
R
TGTTAGCTGGGGTGGCTTAGGTTGGAGGACCCACTTTCAGATTGGCTCATTCACATGGCCAGTAAGTTGGTGACGGCTTTCAGCTGGGACCTGAGCCTGG
Celera SNP ID:            hCV1498804
SNP Position Genomic:     78209
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13968):
ACCCTGAGGGCAGGAACCCTCTATCTTAGTCATGACTTTGTTCCCAATACATGGTATATCAGGCATGTAGCAGGTATTCAATAAACATTGAATGAATAAA
Y
GAACAAATTAATTAGATACCAAATCCATCAGTTTGACACTATATTCTAAATTAGTTTATATAGTCACCGTAATGTGATAAAGAAATTGTGATAGTCTAGT
Celera SNP ID:            hCV29085374
SNP Position Genomic:     113638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:13969):
GGAAATGTGTCTTGCATGTTCAAGGAAAAACAAGGTGGCTTTGCTAAAGAGAGAGTAGTAGGAGATGATGTCAGAGAGGTGAGATACAGGGAGAGGTCAA
W
TGAGGTAAGACTTCTGTCGTTTTAAAGATTTGGGCTTTTACCATGATAGAAATGGGAAGCCATCAGAAGGTTTTGAGCAGAGGTGACATAATAATCTGAC
Celera SNP ID:            hCV1498805
SNP Position Genomic:     79662
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,8)   total(A,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13970):
GGTATGATAGTCACACTGTATTATTATATCTTTATGCAGTAGCTTTTATTTCTGCTGACATCATCAGGCATCTTTGAAATTTCTTTTTTTTTTAACACTT
Y
GAAATGCTGTGAAGCAAAGTATCATCCCTCTCTTTCCTCACCCTCTTCTCTTCCTTAACACCTTTCTTCAGTTCTAGCTGTTGGCAGCTAGATGCAACTT
Celera SNP ID:            hCV29085375
SNP Position Genomic:     119525
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13971):
GAGTAACATCTTGAACCCAGATCTCCTGTCTCCAAATTTTGTGCTCATTCCACTATTTCACATTAAAACCTGAAGATCTCCCTGCTCTTTTCATCTTAAC
R
TAATTTCAGCTTTTTGTGTGTGGCTCTCCAAGCCACAGAGCAGCAGCAGCTTTTGAGGATAAGAAGCAGTTTCTTTTAAGGATAAGAAGCAGTATGGTTC
Celera SNP ID:            hCV1498806
SNP Position Genomic:     80107
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13972):
TTTTTGAAAATAGAGTAACCATTTGTTAAACCGTATATACCATTGAAGATGTTTTGGGTATAAAAGGGAATTTCCATAATAATTACATAGTAATCTTTTA
K
AGCCAAAGTTATGAAGAAGATCAGGATTTGGGAAAATTGTGGTCAATATTTGATTTTCCTTTTCTGTTTGATAGCCTTATCTAAATTCCCCTAGCTTGAA
Celera SNP ID:            hCV29085376
SNP Position Genomic:     128105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:13973):
AAATTTTGTGCTCATTCCACTATTTCACATTAAAACCTGAAGATCTCCCTGCTCTTTTCATCTTAACGTAATTTCAGCTTTTTGTGTGTGGCTCTCCAAG
Y
CACAGAGCAGCAGCAGCTTTTGAGGATAAGAAGCAGTTTCTTTTAAGGATAAGAAGCAGTATGGTTCTTACCTGGTAAGATGGCTTGAATTCAAAATTGA
Celera SNP ID:            hCV1498807
SNP Position Genomic:     80140
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13974):
AGTTTCCTAAAGAAGAAATAAAATTTCTTAGTTGTCATCACACTCTTCATTTGACTTCCCTCCCAAATTGCTATTGTTTTCTGCTTCTCTCATGTTTTCT
K
AAATACTCATCAGGGTGACTTTTCTTAAGTTTAGACAGACATTCCACTAGGTCTCTTACCTCATTTGTGGCAAGGTTTATATTGATGTGTGACTGCTCAG
Celera SNP ID:            hCV1498808
SNP Position Genomic:     84582
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13975):
ATACATGTAATTATCAAGTTTTTAAAACATATAGAACACTACTATTGTTTAAACAGTTTATAAATAAGGTACTTTTATACTTAGAAAAATTGTTTTTGAT
R
TGTGCAGGTTACCATGCTAAGGATTTGAACACCTTCAGTACCCTATTTGTACTTGCGTCTATGCCTAGCATTTTTGTTACGTGCATGGATCTGCAAAGGA
Celera SNP ID:            hCV1498809
SNP Position Genomic:     86007
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13976):
ATTTTGAGAACAGAGCTGACAGAATTTTCTGGTAGATTGATTATGGAGAGTGAGGAAGAGAAGTAAATAATTAAGTAATAATGATCCCAAGGTTTTTGGC
Y
TGAGCAACTGGGAAAATCCAATTGTCATTAACTGAGATGAGGACAAAGCAGTAGGAGGTTTGGTGGGGTTGATGAGGAGCTCATTTTGGATATGTTAGGT
Celera SNP ID:            hCV27865202
SNP Position Genomic:     16390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13977):
TTTTAAAAAACAACTGCTGATTGCTGACGTCTATGAGGGAAGAAAAATTAGGGGCTGTTATTTTCCTATCAACCATCACTCTCATTAACAAGAACAGGAA
W
CATTACGAATAAATAAAACTCTTACATCATACCAGAAAAAAGAACAGCTGAATCCCCTAAAGGATTTCATATTCTATCATCAGACAACGAAAGAAAATAA
Celera SNP ID:            hCV27865203
SNP Position Genomic:     127829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13978):
TAACCTTCCACTCCAGCACAGTTTTTCTTGCTCCTCCCCATGTTGATGCTCATGCATGCCTCAGGGCTTTTCCATCTTCCTGAAAACCTCTTACCCAGAT
Y
GTTACATGGCTCGCTTCACTTCATTTACTTCTCTGCTCCAGCATCACTACCATAAAGAAGCATCCCACCAGCACTCTTCACAATACAGCAGGGACCATCA
Celera SNP ID:            hCV27865205
SNP Position Genomic:     173649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13979):
TCTTCACTTTTCTCCCCAAACTCCTACCCATCTTAGGTCTCCCAGGTGCTCATGCCAGAAACTTAGAACAGTCTTGATTCCTTGCCTTCTCTTTCATCCA
Y
TTTTGATCCATCTGCCAATCCTATTAACTTTACCTTCAAAATGGACTCCAAATCCAACCACTTCTCATCAGATCTATCTTCCACATTACCACCAATGACT
Celera SNP ID:            hCV27865206
SNP Position Genomic:     179930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13980):
TGATCATGGGAACAAACTCCCATTGGGAGAGCATCACCTCTGCCTTACATATCTGAGAAAAGCCCTTGTTTATTGTACCCTATCAACTGAATCTGCTGGG
S
TATATATTAAAGTGGGTATTTTAGGCCCTGCTTAAAAAATAAAGGTTAAATTGAGCATATTCATTGCTCTGTTAGGATTACATAATGCCTGATAGTGCAA
Celera SNP ID:            hCV27865207
SNP Position Genomic:     180951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13981):
CTTGAAGTGTGGGTTGGAGATGTATATTTGGAAATCCTTGGTATATAGATTTTATTTAAAGCCGTGAGCTCAGCTGAGATTACCAAGGAAGTAAGATAGA
Y
AGAAACGTTTATGCTGAGCCCAGGGACAAATTTGTGTTAGGGAGATGAGGAAGAACCAGCAAGGTAGGTCAACCACTGAGGTGGGAGGAAAACTGGGTAA
Celera SNP ID:            hCV15991581
SNP Position Genomic:     16645
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13982):
GATAGATAGAAACGTTTATGCTGAGCCCAGGGACAAATTTGTGTTAGGGAGATGAGGAAGAACCAGCAAGGTAGGTCAACCACTGAGGTGGGAGGAAAAC
Y
GGGTAAGTGTGATATTCTGGAAGTCAAGTGAAGAAAATGCTTCAGTTAAAATGAAAGGATCAACTATGTTAATGCTGTTGATAGGTCAAGTAAGATGAGG
Celera SNP ID:            hCV15991582
SNP Position Genomic:     16739
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:13983):
TTTTGTTTTTATTATGCTACAGGAGGAGTTGGATTTGTCTTCTAGTTCTCAGATGTCTCCCCTTTCCTTATATGGTGAAAACTCTAATAGTCTCTCTTCA
S
CGGAGCCACTGAAGGAAGATAAGCCTGTCACTGGTCCTAGGAACAAGACTGGTATTACTCTATCTCCTAACTTCTGTTATTTCTATTTCAGATTGAGCTT
Celera SNP ID:            hCV22275523
SNP Position Genomic:     31234
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,28)   caucasian(C,5|G,35)   total(C,9|G,63)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:13984):
ATTTTTGAGTGCTTGCCGTACACAAGACATTGGGCTGAATATTGTGGAAAATACAAAGATGTGAGAAATAGGAAGCAATATAAAATAAATTATGTGAGTG
R
AACAGTCTAAGTACTGTAATATATGCTTTACTTTGAGCTGTTGAGTATTATAAAGATGAACATGGAATTGGTGTCAGACTATGAGTTTGTATTTAGGAAA
Celera SNP ID:            hCV27478573
SNP Position Genomic:     103189
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,83|G,1032)   total(G,1032|A,83) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13985):
AAAACTCTCAAGCTCTTTGCCACTTTCCTACTATTTTTTGATTCTTGCCATTTTACCAAGCTTAGGTTGTGAAACTTGACAGAAATGTATTACAGGAAAA
R
CTTATAATTGTATTTGACTTTCTAACACATTGCAAAGTTTCAAAGTGACTTTCACTTTCAACAACATATTAGAAGTAACCACTTTTGCTTTCACAGCCTG
Celera SNP ID:            hCV353386
SNP Position Genomic:     202285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:13986):
GACTTATGCCCAGCAGTACAGGGACACAGCTTCATTAGAGTGTTAGTGTAAACTAACTCCAAAGTTAGGAGTTAATGTGAAAGGATCATCCTTGAAACAA
R
TCTGCTGTTTGCCATGCTTGTAGTACAGAAACTTCACATGGAGTTTTGGGTGGGATTTGTGTTTTCACAAGTAAAAAATCCCTCACGATTATAAAACTCA
Celera SNP ID:            hCV353388
SNP Position Genomic:     201763
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   JBIC-allele(G,720|A,773)   total(G,720|A,773) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:13987):
TGGTAATTGGATTGTGTAGAAGGAGGCTGAACGATAGAGAGGAAGGTGTCTAGGATGACTTCCGTTTTTCTATCTTGGGGCTTTTTGGGTAGATGATGGC
R
AAAATTATTGAAATGGGAGACAGAGGTAAAATATGTTGCCCAGATCACTCTGCTAATAAGAAGTGGAGCCAGAACTTGAGCCCAGGTGGTCTGGCTCGGA
Celera SNP ID:            hCV11629011
SNP Position Genomic:     34751
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13988):
GAAAGATTATGGATTCTTGATTCCATGCAAGTCCTTTGAAATATTTTTCAGCAACTTGAGAGATTTAAATAAATGTCAGTCCATTAATTTGATGTTCTTG
M
TTTTATCAGTATAAATACTGAATAAAAGATACCAAAAAATGTTTGTGAAACATTTGAAAGCACCTAATATTACTTTGTTCTGTGTTCTGAACTGAATTTT
Celera SNP ID:            hCV1498810
SNP Position Genomic:     87984
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13989):
TCTAGGGCCAGCTTAGCAGGGTGATTCTGCTTCCGGATCTCTCTTGAGATTGAAGTCAAGCTGTTGACTGGGGCTGAAGACTTGATTGGGTCTCAGGGAT
R
TGCCTCCACATTCACTCACGCAGCAGGTGGCCTCTTTCTGGGGCTGCTCACAACATGGCTTCCCCAAAGCAACTGTTCCGTAAGAGTGAGAAAGCAAGTG
Celera SNP ID:            hCV29085380
SNP Position Genomic:     166192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13990):
TTGTGCTCTTTGGGCTGACAATAATACACTCTTGGGAAGTGATGGTAGAGACTGATGGGAATAGTCTTTCTGCCTGGTTGCAAGTCCCAAATTTTTAAGG
S
TTAATGGAAGTAAGTGGATGTTTCCTCATGTTAACTACTGAATCAGATGTTAGGAGCTTGTCCCTTTGGGGTTGACTTATGCCCAGCAGTACAGGGACAC
Celera SNP ID:            hCV353389
SNP Position Genomic:     201589
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:13991):
TAATATAAATTCCTAATTTAAAATGATCAAAAAAATATTTTTTATCATATACCTTTTGTGCCTTTAAACCAAAAGTATGGTGAAAGAATTGTAATCCACC
A
AAAAAAAAAAAATCATATCAGTTTTTTTGTGGCTTTGTAATGCTGACATGGCTTCTTTTTCTACCTTTTTTAGTTCTTTTGTTTGGCTGGTTTCACTCTC
Celera SNP ID:            hCV11629012
SNP Position Genomic:     45559
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13992):
AACATACACACACACACACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAGTTTTATCATAGAATTGTGTCTCACCCTATCCTTAACA
C
ACACACACACACACACACACACACACACACACACACACCCCTACCTGTTTTACAGATACTATCCAATTTTATTATCATAGAATTGTGAATGACCCCTAAA
Celera SNP ID:            hCV1498811
SNP Position Genomic:     90983
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13993):
GGGATTACAGGCGTGAGCCACCGTGCCTGGCCAGAAAATGTTCTTTGTCATCTCTCCACCTCCCCAGGCTAGGTAGGCACCTTCCTCTTTATTCTTGTTG
Y
ACCATATGCATACCCGTATCACACCTATCCTGGATGATACCAGTTTACATAGCTGCCTCTTTTCCTAGATGCAAGTGCCTTGGTCAGGGGCAAGGGCTTA
Celera SNP ID:            hCV29085381
SNP Position Genomic:     180687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13994):
TTGTGGATTCCATATTTGCTAATTCACCTACTAAAATCTGCTAAAATGTATTTGTAACCCCTAATATTAGCAGTGCTTTTGTCATCATTTGCAAACATGC
R
TAGATGCTCCCTGGTGAGGTTGAACAAGGCAGTGTTCTGCCTTTTAGTCTCAGCTATATAAACAAGGTCCTTTTCACAGTCCACATTTTTCATATTTTTG
Celera SNP ID:            hCV28016729
SNP Position Genomic:     101463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:13995):
AAAATTCTTGCCCTAAATGCTTTTTTTTTGGCCTTATCATTAGATGGAACTTGTCATGTTTTTCTTTCCTAGTCATTAAATGAATAGAGCATTTACTGTG
R
AAGGGGTGCTTGGTATTCTTTATTCTTAAAGGAATTCCAATGCAAGAAAAAGAATTTTGTTTTAATTTTACTGTCTTTGTTCATTTGGAGATGTGTAGTT
Celera SNP ID:            hCV1498814
SNP Position Genomic:     96548
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13996):
TTTTTTGGCCTTATCATTAGATGGAACTTGTCATGTTTTTCTTTCCTAGTCATTAAATGAATAGAGCATTTACTGTGGAAGGGGTGCTTGGTATTCTTTA
W
TCTTAAAGGAATTCCAATGCAAGAAAAAGAATTTTGTTTTAATTTTACTGTCTTTGTTCATTTGGAGATGTGTAGTTTAAAGTCTTATTTCATTCTGTGC
Celera SNP ID:            hCV1498815
SNP Position Genomic:     96571
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,7)      total(A,5|T,7) ;JBIC-allele(T,86|A,1035)   total(A,1035|T,86)
SNP Type:                 INTRON


Context             (SEQ ID NO:13997):
GTAAAGAAGTTCCTGGTTAGAGGAAGGAGAAGAATTATTCTGCTTTTATGCTGTTGTCAATGCCAAAGCATATCAAGATTTTAAAAAAATTCTGTTTCTT
R
GTGTAAAGAGCCTGTAACTGCTCTCCTTTTTCTTTTCTCATTTCAACCTTTTTTTCTTCCGGTTACCTCTTTCAGTTGCTAAGAGTATCCCAAACTCTTA
Celera SNP ID:            hCV1498816
SNP Position Genomic:     96892
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13998):
GGTATAAATCTTGGATAGGTAAACGGAATATCTGTTTTCTGTTTGCCTGATATCTCTGTAACTTGGCTTTTCCTAAGGCCTACCCATTGCTTTCTGAGAC
K
AGGGAAATAAGTCTGGCTTCTTTCAAACTTCTTTGCTCATTTCATATGGGCCAAAGTAGCACTAATCATTTAAAATTCACCAGTTAATCTGTTCATTTTC
Celera SNP ID:            hCV1498817
SNP Position Genomic:     98646
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:13999):
AAAATTGTTTCCTTTTCTTTTCTCCCTTAAACTTCTGTACATGCTTCTGTTTTAGCGCTTATCGCATTGTATTGTTTTCCTATATCTGTCTTCCCAGTTA
R
ACTGCGAGCTTCTTAAAGGCAGAAGTCAAATATTTAATTTTGTAGCTTGGGCACATGTAGGTGCTTTGATTACTGAAAGATGGATATATGGACACAGTAA
Celera SNP ID:            hCV1498818
SNP Position Genomic:     99126
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14000):
TTTTCTCCTACCTAAAAAAAAGAAAGTAAAGTGTGTTCTGTTCTTATCTTTTTAATGACTAAGCTTTAAACAGTTTATTTTGGGTAAGACTAGAACTTTC
R
GCCATTTGTTCTAATATCTGTGTTATTAGATGCAATAGAATTTATGAAAAGAAGAATGACAAAGGTATCTGATTAGAAAATTTGATCTTACGCATGAATC
Celera SNP ID:            hCV16191849
SNP Position Genomic:     203009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:14001):
TGTGTGTAGTTTTGTATTTCTTTCTTCCTATACATTGTTTTGTATAGTTTTGTATTTCTTTCTTCCTATACATTAGCCACTATGGAAATTGTAAAAGCAC
K
TATTCATTAGATTATAAGATAATGTACGTAAGGGAAGTTTTTATTAAAATGTCTCTAGACAGACACCTCTGTATAGATAGGTTTGTCTCATATACTTGAG
Celera SNP ID:            hCV27973316
SNP Position Genomic:     75343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14002):
ATAAATGGCTGCATGAATCATTGAAAGAAACTTCCCTGCTTTTTTAAAAGAGCAACTAGAAGTATTTACTTTTTGAAAATAGAGTAACCATTTGTTAAAC
Y
GTATATACCATTGAAGATGTTTTGGGTATAAAAGGGAATTTCCATAATAATTACATAGTAATCTTTTATAGCCAAAGTTATGAAGAAGATCAGGATTTGG
Celera SNP ID:            hCV27951685
SNP Position Genomic:     128036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14003):
CTCACATAATGTAGGTACTAGTAAATTTTCTGTCTGGTAGCAAAAACCTCAGTATATGAAGAAGATGGAAACGAAAAGCCCTTTGAACTAACCTGCAGTC
R
AACCAGTTCACATTTTGATTGATAAATATAATTAAACCTTCAAATACAATTATAAAACAAAACACTAGAATTTTGGGGGGATTCCAGATAAGTTTCAATA
Celera SNP ID:            hCV27951686
SNP Position Genomic:     153037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14004):
TCTTTGAGATGAGGGGACAGGATTCTCCTAAGGGTAGAGTTTCAGGAAATGAGTGAAAGGCAATTGACAAATGCAAAGAAGTAGTCACTTTTTAAATTGC
Y
GGCAAAGCTATAATTAATCCCTAGGCACAATTGTAGTTTTTATTTTAATGTTTGTATGCACAAGGCCCTTTAGGAAATGAGAAGTTGCCATGCCAGATTA
Celera SNP ID:            hCV353390
SNP Position Genomic:     201221
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14005):
GACAGAATCACAGGAGAAGGACCCATCTCGTGGCCTTCTTGTTCTTAGCGCTTCACTTTTACTTCATCCCTCGATTCCCAGCTTTTTCTATCATCATTTT
R
CCAACTCCTCAGATGCAAGACTTTGGTTATGTCATACTCACCAACGTTAGTCCCTCTCTTCCAGGTGAAAAGGTGGGTAGCGGTTGGGAGGGAGTCTCCA
Celera SNP ID:            hCV353391
SNP Position Genomic:     200869
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14006):
CTTTATTGTTGTGTTACCTGGGAGTCTGGAGTTTGAAAAGTGCTAATTAACCTTCCTCTTTTTCCACATTACAAACCTTTTTAAGCAGCGCAGCACTCCC
Y
TTAGATTTGGCTATCCTGGGTGATTTTCAGACAAGAACCATTTTCTCTGGGGACCATTCTTCTGCTGGGTGCCAAGGAATATAAGGCAAATGCCCAGAAG
Celera SNP ID:            hCV353392
SNP Position Genomic:     200437
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;JBIC-allele(T,715|C,768)   total(C,768|T,715)no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14007):
TACTGATCTTTGAGAAAAAATAAAGGACCCAGTGAGTTACAGAAATAGATGCTGGACCATCCCTGTTCTCTGCATTAGAAAACTATACTGCTAACACATA
K
AAATAACTGCTCACCTTGAACTGAAATTATCCATGGGAAGCCAAATACATCCGTCTATCTATCCATCAATCGATAGATAGATGTATTTGTCTCATTCTGT
Celera SNP ID:            hCV28016730
SNP Position Genomic:     135789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14008):
CTGAGCGTGGGACCCTGCCAGACTGAAGAGCAGGTGAGCAAAATGCTGCTTTCTGCCTTGGTGGCAGGCAGAGAACTGTCTCGTACTAGAATTCAAGGAG
R
AAAGAAGAAGAAATAAAAGAAGCTGCTCCATTTTTCATCATCTACCCATCTATTTGGAAAGCACTGGAATTCAGATGCAAGAGAACAATGTTTCTTCAGT
Celera SNP ID:            hCV353393
SNP Position Genomic:     198535
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   ;POOLE|_CEPH(G,41|A,147)   total(G,41|A,147)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:14009):
CCCACCTCAGACTTACCATGTAAGAAATTGTTTTTCAAGAGTTGAGGAATGTGGGTATTTATATTATAAAATCCTGCAGGTGATTCTGATATGTATCTTT
Y
GTTAAGAACTTCTGTTTTAGAAGGACCTACCATTGGCACTGTTTTTGCTTCTGATCCCAGCTTCCTATGATTAAATGCTTTCTGAAAGATACATAGTTAG
Celera SNP ID:            hCV28016731
SNP Position Genomic:     143770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14010):
GCTCCAATCAGAGTAATACACTGCACAGAAAGCATACAAGATATACGATGTCTGTGGACAGATGCTCTGTGGCATTATTAACCCTGGCAGTTGCTTTAGC
Y
GTTGTTTAGTCAATGGAGGTTGTTTGGGAGCTAGAATTGGGAGAGAACAGGTGATCCTGGCACCCAGCCCACTTGTAGCTCTGCTTACTGACTGAGAGTC
Celera SNP ID:            hCV353394
SNP Position Genomic:     197969
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14011):
CATTCACATGGAATGCTGGTCCTTTTGACAGTTGTTTCTTCCCATTGTTGAAGGCAGGGAGGAGGACTTAGGGATTCTTCTCTGTATTCCCCACTAAAAA
S
CCCTTCTGTTCCAGTTGCTCCAATCAGAGTAATACACTGCACAGAAAGCATACAAGATATACGATGTCTGTGGACAGATGCTCTGTGGCATTATTAACCC
Celera SNP ID:            hCV353395
SNP Position Genomic:     197852
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14012):
AAAGGCAGTACAGAACTAGGTTGTTGCCGGCAGTTCTTCCCCAGCCCCACACCCCGCTCTGGATTCATGGATGAAAATGCAAACTCAGATGCCATATTAA
S
TACTCAGAATTCTCCCATGTTCACACATCTTTTTACTGTATTGCTGTGATTGTTCAGTTGGGCTTGAAAAATATTATTTATTTTCTCATCAGTTTTATGT
Celera SNP ID:            hCV353396
SNP Position Genomic:     197146
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,7)   total(G,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14013):
AATTCAATTCTTTGTCTTGGAAAAGCCAAACATTTAATTTTAAAAATCACTGGTTGGCTCTGTGTCATCTTTGTAGAAAGGCAGTACAGAACTAGGTTGT
Y
GCCGGCAGTTCTTCCCCAGCCCCACACCCCGCTCTGGATTCATGGATGAAAATGCAAACTCAGATGCCATATTAAGTACTCAGAATTCTCCCATGTTCAC
Celera SNP ID:            hCV353397
SNP Position Genomic:     197070
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14014):
ACTTCAACTATAATGGAAGAGATTTTCAAAACTGGTAATGGGAAATTTATCATCAATGAAGACTATTTTAAACATTGGAACAAATGAGTGACCAACAGAA
R
TGGAGGAATTATGTATTCTATTGGATTTAAAATAGAATATATCATCTGCTCAAGACACTTAGAATTGGTAGATTAGATCTGTCTAATAATTTTTAACTCT
Celera SNP ID:            hCV353398
SNP Position Genomic:     196536
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14015):
TATGGTGTCATGGTTAAGATGCTAGCTTTATTTGCCCTGTTGGGCAGAGTTCAAATTATAACTCTACCTCTTACTTTGTGGGCTCAAGCAGATTACATGC
M
ATTGAAGTTTTCTCATCTACAAAATGCTGGCTGCACAGAGTTGATATAATGGTTAAATTAGATAATATATTTAGAGCACTTAGCATGGTACATAAGTGCC
Celera SNP ID:            hCV1498820
SNP Position Genomic:     100766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14016):
AAATAATTAGAGCCTCGTCAGTAATGACGAGATTGCCTCACTAACTGTCCAAGGGTGTTAGTACTAAGCCACCCAAAGAACCTTTTTATAATGTCTCATA
S
AGTAGACCAGAGAATGTTGCTGTGACTCCTTTATCATTTATAGAGATGTGGCTATGTTGGGACTCCTAATGGCATGTTACCCCAAATGCTGAACTATCCA
Celera SNP ID:            hCV353399
SNP Position Genomic:     195404
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,6)      total(G,6|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14017):
TGTTAAAGAAGGTATCTCTAAACAGAAACACATAAATAAGGTTATATATTTATCACTTAACAGAAATATTGTAACCAGAGGCTTGCAGGAACCTAACCCT
R
TATTTCCCCCAGGAGGATGGTTTAGGATTCACTAATTCATTGCTGGCAGTGACTTTTTAGAACATAACTATCACAAAATAGCAAGAAGCGACTATATATT
Celera SNP ID:            hCV1498821
SNP Position Genomic:     101854
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14018):
ACCATCTAGTACATTTTAGAGCCTTGATTCAGAAATCAGAATTTTAGCATAAGTGAATGGGTTCTTATAAAATATCCTGATCCTTGGGCTTTACAAAATA
K
TGTTATAAAAATTACTGCCAAAGTGCAACTAATATTTTGGTTGAGAGAGATTCTTAGAATTCAGACATAGCCTTAGAATGGGAAGTATTTTGGGAAAACA
Celera SNP ID:            hCV1498822
SNP Position Genomic:     102798
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,14)   caucasian(G,10|T,6)   total(G,16|T,20)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,6)      total(G,5|T,6) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14019):
GGACCAGAGAACTTTGATACTTGAAAACTAGGGAGATCAAACATCTTATATATTTTCAGTTATTAATCAAACATGCTAAGAGATTTGGAACACTTTAGCC
R
TAGCGTCTCATGATCACTGCCTTTTCACAAAATTCCCTGTGTTCACCTTACTCTATCAGACATAACTGGTATGTTTCTGTACAGGACCAGCCTCAAAGTT
Celera SNP ID:            hCV1498823
SNP Position Genomic:     104402
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14020):
TCCCTGTGTTCACCTTACTCTATCAGACATAACTGGTATGTTTCTGTACAGGACCAGCCTCAAAGTTTCTTTTCAGCAGCAAGGGGGCAGCTGAGAACAA
W
GTTTCCTGCAAGGCTCCAACTGTACTGGTCTATGAAAACAAAGTATTTCCCTTACTATTGACACAATTATGTTCAAAGTAGGAGAAAAAAAGTAAACTTT
Celera SNP ID:            hCV1498824
SNP Position Genomic:     104536
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,9)   total(A,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14021):
TAAGAAGATTCAGTACTATGAAGAAGAAACCTGCTGGGTGTTAAAATGATTGTGTTGAAGTATATTTTATGGAAGTTACTGTAGGAGAATGTTTTTAACA
Y
TCAAATAGACAGTTTTTCTGAGGTTCAGGATAATTACTGTATTATTTGATCAAAACAGTATAACAGATATTAGAAGTAACACTTGTCAAGCCATGGATTG
Celera SNP ID:            hCV1498825
SNP Position Genomic:     104737
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14022):
AGAACAAGTATTTTTTATAGAGAAGACAATCCTAGCTTTTTTTTTTTTCTTTTGAGATGGATTCTCTCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCCA
Y
CTTGGCTTACTACAACCTCCACCTCCCAGGTTCAAGTGATTCTCTTGCCTCAGCCTCCTGAATAGCTGGGACTATAGCCGCATGCCACCATGCCTGGCTA
Celera SNP ID:            hCV1498826
SNP Position Genomic:     104971
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14023):
ATGGAGTGGGTTTTTGTGTGTTTGGTGTATATGAGAGAATGTGGTTATATACAAGAAATTCTAATCTTACAGCTTTTACTATTGGTTTAAGCCTGATGTC
Y
GTCTTGGCAGAAAAGCAAAACACCCAAGCACCTGACCTCGGGTCCCTGCTTAGCTACACCTAATACTTATGGTGTAATCCTGACTGCTCTCCAGATACAG
Celera SNP ID:            hCV1498754
SNP Position Genomic:     6674
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,18)   caucasian(C,34|T,6)   total(C,52|T,24)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14024):
TTGCCCAGGCTTGTCTTGAACTCCTGGACTCAATAATGCTTATTTTAAAAATACTTTTGTGGCCAGGCGCGGTGACTCACGCCTGTAATCCCAGCACGTT
K
GGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGG
Celera SNP ID:            hCV1498827
SNP Position Genomic:     106799
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,7)   total(G,7|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14025):
TACAAAGAGTCCACATACTTCCCCTTCATCCCCAGCTTCTCCTATTGGTAACATCTTGCATTAGTGTGGTACATTGGTTACAATTGATGAGCCAGTATTG
R
TACATTATTATTAACTAAGCCCATCATTTAAAGTTCACTCTGTTGTACATTCTATGGCAGGGATCCCCAGCCTTTTGGCACCAGGGACTGGTTTCATGAA
Celera SNP ID:            hCV1498755
SNP Position Genomic:     9158
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14026):
CTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGTGGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGG
Y
GGGAGAATGGCGTGAACCTGGGAGACGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAA
Celera SNP ID:            hCV1498828
SNP Position Genomic:     106946
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14027):
GGTTAGAGTTCAAGATCAAGATGGCCGCACCTTCAGGTTCTGGTTAGGGCTCTCTTCCTGGCTTGCATGCACATGGCTGCCTTCTTCTTGTGTCCTCACA
Y
GGCACTGAGAGAGAGAATCTTCTTCTTCTTATAAGGCCACAGTCCTATCAGATTAGTGCCCCACTTTAATGACCTCATTTAACTTTAATTACCTCCTAAA
Celera SNP ID:            hCV1498756
SNP Position Genomic:     10278
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14028):
ACGCAGAGAATTACTATGGCAGCTTTGGCTTATGATCCACAGTTATTCATTTGTGACAAGAGAAAAACCTGGGGCCACTCTTCTGAGAAAATGACTTTGG
Y
AGGCACTGGGAGCTTCATAAACTACTATACCACACAGCCTGTTTTTTTTAATTATTATTCTTTTTTCCCCGTTCTTAGTAAGTGTGCATTAAATTCTTTC
Celera SNP ID:            hCV1498829
SNP Position Genomic:     108084
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,10)      total(C,10|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14029):
CTGGTCACATAATACCACTTGATTTTCGCCTCAATTACCCCGTTACTGTGTTACTACCTCTGTACCAGCAGCATTGTGCATGTCTTAAGCTCATTGAAGA
Y
ATGATGAACCATGTGTTATTGTATCGCTTATTCCAAATTAATTGCTCAATAAATGGTGATTAGACAAATGTGAATTACCATCCTGTCTCTGTAGAAAATC
Celera SNP ID:            hCV27505391
SNP Position Genomic:     91191
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,534|T,951)   total(C,534|T,951) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14030):
ACTGAGAGAGAGAATCTTCTTCTTCTTATAAGGCCACAGTCCTATCAGATTAGTGCCCCACTTTAATGACCTCATTTAACTTTAATTACCTCCTAAAGAC
W
GTATCTCTCGATATAGTAATATTTGGGGTTAGGGCTTCAACATACGAATTTTGGAGGACACAGTTTAGGCCATAAATTCACAGTTTGCTTATCCACTTAC
Celera SNP ID:            hCV1498757
SNP Position Genomic:     10382
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14031):
CCTCATTTAACTTTAATTACCTCCTAAAGACTGTATCTCTCGATATAGTAATATTTGGGGTTAGGGCTTCAACATACGAATTTTGGAGGACACAGTTTAG
K
CCATAAATTCACAGTTTGCTTATCCACTTACCTATTGAAGCACATCTTGGTTGCTTCCAACTTTTGGCAATTATATATAAAACTGCTGAAAACATTTGTG
Celera SNP ID:            hCV1498758
SNP Position Genomic:     10451
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14032):
GCTCCTGGATGACACAACTTCCCGTAATGCCCCGGTGAACGGTTGCTAATTTTATTCTCAAAACCTTTTCACCATAGGGCCTCTGTTGGTGGGATAGGTG
Y
CTCCATTGTCCTTCACTGCTATTCTCCTTTCCTCCTCCCTAAAAATATCTAAGTTGAAATCTCATTTTGTCACAATATCCCATCCTCTACCTCTCCTGAT
Celera SNP ID:            hCV1498759
SNP Position Genomic:     11242
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14033):
GATACAGATTTAAGATGTATGTATATATGCATATATATTTAAAGATACTTTCTGAGGGAGTTTCTAAGGGGAAAATTGGAAGATTAATAAACGAGCCTTA
R
AAAACATAAGAAGAAATTATTTAACATTTGGGTTTTAGAAGGCCTTATTTAATCATTTGATTTTAACTTATTTAGTTTGAGCAGTGTGTTTTCAAACCTC
Celera SNP ID:            hCV16083251
SNP Position Genomic:     59146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14034):
CATCTTGGTTGCTTCCAACTTTTGGCAATTATATATAAAACTGCTGAAAACATTTGTGTGCAGGTTTTTGTGTGGACATGCATTTTCCAATTGTTTGGGT
R
AATATCAAGGAGCACAATTGCTGGATTGTGTGGTAAGAACATGTTTTTTGTTTGTTTTGTAAGAAATTGCCAAACTGTCTTCCAAAGTGGCTATACCATT
Celera SNP ID:            hCV27951691
SNP Position Genomic:     10594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14035):
ATGCTTGTAGTACAGAAACTTCACATGGAGTTTTGGGTGGGATTTGTGTTTTCACAAGTAAAAAATCCCTCACGATTATAAAACTCAGAGCATCATCTAA
T
TTTTTTTTTTAATGACTACAAGTTCCAGCACAAAACTGGCATTTCTTTGCCATTTCTTGCCAGTAAGAAGTTGACACGGAGGTATTTGAAAGCAATGTTA
Celera SNP ID:            hCV9079338
SNP Position Genomic:     201877
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:14036):
ACTTCCTCTGTCAGCACTTAAACATTTCTGGAAAATGCTGTAGTGCATTGACATCAGGCATTTTTAAAAAATTACTGATCTTTGAGAAAAAATAAAGGAC
M
CAGTGAGTTACAGAAATAGATGCTGGACCATCCCTGTTCTCTGCATTAGAAAACTATACTGCTAACACATAGAAATAACTGCTCACCTTGAACTGAAATT
Celera SNP ID:            hCV11626121
SNP Position Genomic:     135717
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14037):
GAGACGGGGTTTCACTACATTGGCCAGGCTAGTCTCAAACTCCTGAGCTCAAGTGGTCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGA
R
CCACCACACCTGGCTAAGGCTGCTTAATTTTTTGATGTGAAGATCCAAATAAGAGAAAAAAGTGAAGGAGATTGATTTTTTAAAAAATGGTTTTTTTATG
Celera SNP ID:            hCV11454887
SNP Position Genomic:     19779
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14038):
AAAGGTCATTTTGATACACTGTATGTGCAAAAGCAGTTTACCAAACAGAATTACATACAGTGTAATCCTTTTTTTCTTATATAGGAAAATACCCACTTCC
Y
CCCACTTAAAAAAATACCAAACACCACAATGTGTGTATGTTTAGCCTACAAATCATATTTTTTTTGCCTAGGAAGTATTGAATAATTTAAATATTTTATA
Celera SNP ID:            hCV11454889
SNP Position Genomic:     56549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14039):
AGGAGGTGTGTTTGGTGGGAATGTGTGTGTACAATTTAACTAAGGTGGCTAGGAAAGACCTCACTGAGAAATTGACATTTGAATGAAGATCTGAAGTGGG
R
GCAGGTAAAGGTGTGTGCCTCTACAAAGGCCACAGCTGAGGCCGCCCTTCTTTATCTACCTCTTTTCATCTTTCCAACTTCCAGACCTTTTTTTTCTGCT
Celera SNP ID:            hCV11626127
SNP Position Genomic:     142681
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14040):
GTTGACTGAGTACCCTAGGTTAATAAACTTAACCTAGATTTATTTAATCATTATGCCAATAATGTTCTTTTTATATGTCCATTTTCTATTTCACTTTATT
R
TATACAAATATTAACACTTCAATGTATACTACCTTTGTAGTTTACAAACCTCTTTCACATACATAATCTTAGCAATTCCTTACATATAATCACAAGTATT
Celera SNP ID:            hCV1498830
SNP Position Genomic:     109547
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14041):
CTGGGAATAATTTATATCACCGATTATAGAAAGTGGACTTAGTGCTGAGAGACAGTGAATAAATAACCAGCACATTCTCCTATCTAAATTCCTCTCTACC
Y
CTGCACTACCTATTCCTCTTCATTTTATGTATTTACTTATACTGTTTCATGCCTGTTTGCCTTCATAGAATGTGGGATACACAAAGTCAGTGTTCTGGTT
Celera SNP ID:            hCV16127882
SNP Position Genomic:     22446
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14042):
TGTGCCCATTTCCATTGTTTTCCAGGTTTCCCTTTTCAAACTGTTAACAGTCTTCTCTTCTTTGAAGACTTTAATTTAATTCCTTAGGTGTTCAGTAAGT
M
GGATAGATTTTGTTGGCAATAGAGTGAAACACTACTGTCTGATAGTGTTTCGTTCTGTGACAGTTGCTGTTTTGGATGTTCAAGTACTTCACTGATTTAC
Celera SNP ID:            hCV27834348
SNP Position Genomic:     8206
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,4)   caucasian(A,13|C,7)   total(A,39|C,11)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:14043):
CTCAGCCTCCCGAGTAGCTGGGACTACAGACACATGCCACCATGCCTGGCTTCTTTTTGGCTTTTTGAAAACATTTTGCCACTAGCTTACTGTTACTTTC
Y
TCACCATTACTTCCATCATGATTCTTGGATGATTTCAGTATCCTTAGAGAAGATCCTTCAGATACACTGACCTGTCATTTTCTGGACCTCCTCTTTATCA
Celera SNP ID:            hCV1498760
SNP Position Genomic:     11586
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14044):
GGCAGTCGTGTCCATTGTGAACTCCAATAAGAAAGATTAAAAAGAAGGAAGAAAAAGTCCGCTGTAGAAATGAAAAAACAAATTTATCCATTGTGACATC
R
TTTAGAAATAGCAGTCAGAATTTAACCAAGAAAGTCTGGCTCTATGTTCTTGATCATTTCCCTCTATTGCCTGTTTAAGATATCCAAATATCATATCTTT
Celera SNP ID:            hCV1498833
SNP Position Genomic:     111996
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14045):
TTGCCTGTTTAAGATATCCAAATATCATATCTTTGAAGGTAGTCAACTTGGAGTTTAATTCCGTTGATCTCTCTTTTCAAAACATATTTTGAGTTGTTTC
R
GGATCATTTTCCAGAGACTAAGACAAAGCCCTGTGGAAAACCAAGCCACATGTTACTCAAAGTAATAGTGTAGGAGGAACAAGAGCCAGCAGGGAAACAC
Celera SNP ID:            hCV1498834
SNP Position Genomic:     112163
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14046):
TTAAATACTTTTTTTTCATGTGCACTTTCACATGTTCTCTTTATGTACCTTGTACTAATATTTACTCAGTTATGGGCATCATAAGAAAATAGTTTCCCTT
S
TGTGTTTCTGTTACATTCTCAATAAAAATGAACCATATAGTAGTCATTTTGAAATGATAATATTCTTCTAGAAATTGTTAACAAATGGTCGTTACCAATT
Celera SNP ID:            hCV1498762
SNP Position Genomic:     19982
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14047):
ATTTTACCTTCTTTCTTGTTCATTTTATTATAAGTTTTTATTGTCCAGTGGGTAAAACCTTTCCTCCATGTTTTCCAGTTAAAGATATTAAGGCAGAACC
Y
CAGCCACTTTCTCCAGCCTCCTCAAGTTATTCAGTCTCGTCTCCTCGGTCAGTGGACTCTTATTCTTCAACTCAGCATGTTCCTGTGAGTAGCCAGTCTT
Celera SNP ID:            hCV1498763
SNP Position Genomic:     23769
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(C,4|T,30)   total(C,7|T,63)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14048):
ATTAAAATTGATAGTGAAATTTTATGTGCCATGCAATGTCATGTGTGTTCTTTTAAGGTGAAGATTCATTTTTTAATAGCTTTATTGAGGTATAATTGAC
M
TATAATAAACTGCACATATTTAACACCACATTTTATGTGTGATATGTATGTGTGTGTGTGTGTGTGTGTGTATATATGTATATACTTATATAGGTGAAAT
Celera SNP ID:            hCV1498836
SNP Position Genomic:     120026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,9)      total(A,9|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14049):
ATTGTCCAGTGGGTAAAACCTTTCCTCCATGTTTTCCAGTTAAAGATATTAAGGCAGAACCTCAGCCACTTTCTCCAGCCTCCTCAAGTTATTCAGTCTC
R
TCTCCTCGGTCAGTGGACTCTTATTCTTCAACTCAGCATGTTCCTGTGAGTAGCCAGTCTTTTACAATGATTTTGGTTATAATATGCTATCTGGAAAATA
Celera SNP ID:            hCV1498764
SNP Position Genomic:     23808
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(A,4|G,30)   total(A,9|G,61)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14050):
AGCCTCCTCAAGTTATTCAGTCTCGTCTCCTCGGTCAGTGGACTCTTATTCTTCAACTCAGCATGTTCCTGTGAGTAGCCAGTCTTTTACAATGATTTTG
S
TTATAATATGCTATCTGGAAAATATGTATATGGAGGAGGCAGTTAACATTTATTGAATACTACTATGAGTTATATTGTCTCATTTATTGAGGGAACTGAG
Celera SNP ID:            hCV1498765
SNP Position Genomic:     23884
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,31)   caucasian(C,5|G,31)   total(C,10|G,62)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;(C,-|G,-)   no_pop(C,-|G,-)   JBIC-allele(C,546|G,945)   total(G,945|C,546)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14051):
TACAATGATTTTGGTTATAATATGCTATCTGGAAAATATGTATATGGAGGAGGCAGTTAACATTTATTGAATACTACTATGAGTTATATTGTCTCATTTA
W
TGAGGGAACTGAGACTCAAGAAAGAGCCTTGTGGGAGCTAGAAAGTTGTTAGTGCCTTTGGTTTTGCTCTCTTTTCCCCTCTGTTCATGCCTCCATAATT
Celera SNP ID:            hCV1498766
SNP Position Genomic:     23971
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,26)   caucasian(A,2|T,32)   total(A,6|T,58)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(A,-|T,-)   ;(A,-|T,-)   JBIC-allele(A,544|T,943)   total(A,544|T,943)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14052):
AGTCATTTGCTTAAAACTTTTTAGTAACTTCCCAGTCCTTACAAGGATGAAATTTAAATTCCCAGAGTACTAGGCTTTCCATGATCTGGCCCCCATTTAC
Y
TTTCCAGTCTCTTTTCTTGCTATCCCCTCCTACTTCCACATTCCCCTTAATTTGAGCCCTGTGAGAGTTCCTCTCTGAGAGCTCCTATGCACTCTACTCA
Celera SNP ID:            hCV1498767
SNP Position Genomic:     24801
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14053):
ATGGGAGGGACAGTGTGAGATTTATGCATCTTGAATTAGAGATGTCATTGGTGGGTATTTTTGTGTATCTCTTGTAACAGATTGGTGTGTATTTCTGTGT
R
TCTCTTGTAACGGAATACCAAGTAATTCTTGACTGATGAATTTCATTTTCTTTCCTTTTTGTTAGATACTACCAGCCCCCTCACAAGTTAGTGTCCCTTT
Celera SNP ID:            hCV209451
SNP Position Genomic:     161493
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14054):
TAATCTCTGAGGAGGCTGCATGGTTTAGTAAACAGTATATTGACCTGGTCATGAGGAGACCTGAACTCTGCTTTCAACTAGCTAAGAATTTGTGTGTTTC
R
TATTTTATCCACCAGATGGCCTCATACACTTGTGATTCTATGAGAGGTTTATGTCATTATTGAAAGAAGTTCAAGTCTGAGGATTTGGTACTATTCAGAT
Celera SNP ID:            hCV1498769
SNP Position Genomic:     32582
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14055):
AAGACCTTTTTGATTGGGTAATGAGGGGATAACAGTTAAACCAAGATCTGAAGGATGAGAAGAATCAACTGTGAAGAGTCAAGGGGCAGAAGATTCCAAG
M
AGAGGGAGCAACAAGAGAGCAGAGGCCCTGAGGCTGGAAAGAATGTGTTCGTTTTAGGATTTGTCAGAAGACCAGTAAGGCTAGAGTAGGACCCAGTAGG
Celera SNP ID:            hCV209453
SNP Position Genomic:     162444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14056):
GCTGAAATCCTACCACCTCTGCAAAACTTTTGCTTTACTTCTGTGGACCACTAGAATACTTCTGTAGGTCCTAGAATAAATAGTCTTTCCTCCACTGAAC
M
TCCTTAATGTAACCACCTCTCATTTATGGCTTTATCTAACACTACTCAAAGATAATTACCTTGAAGGTGGTGGTGCTTTTTTTTTATTTAACTGTGTCTC
Celera SNP ID:            hCV209454
SNP Position Genomic:     162897
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14057):
TAAATAGTCTTTCCTCCACTGAACATCCTTAATGTAACCACCTCTCATTTATGGCTTTATCTAACACTACTCAAAGATAATTACCTTGAAGGTGGTGGTG
Y
TTTTTTTTTATTTAACTGTGTCTCTTCCTCCTCTTCATCCCATGCCTAAAGAAATGCTCTGATACTTAATTTTTAATATATACTTAGAGTTGGGAAATTT
Celera SNP ID:            hCV209455
SNP Position Genomic:     162973
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14058):
TAACTTTCTGTGGAGTGTTACATAGGTGTGTCAGCAGTTACATGATACTTTCTTTGTTATTTAAGACATCTGCAAGCTGAGGATGGCCAGTGTCATTTCA
S
AGATGTACATGCCAAAGACATGGTAGTTTTCATTGACATTGGGAAATACTCCTTCTCTTGAGCTTTTACAAATAAAAGTTAGAGAGTGCTAAGAAATCCA
Celera SNP ID:            hCV209456
SNP Position Genomic:     164053
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14059):
TCTGAGTAATGGGGAACTATTAAAATATTTTGAGCAGGGAAGAGGCACAAACAGAGTTACATTTCAAAAGATTTCCCCAGCAGCAACATAAAAGATAGAT
K
AGAGGGGATTATGCTTTTATAGGGACAACAGTTAGAAAGTTATCATCTAGGCAATAGATGATGGGTAGTTCATATTTAAAAAAGGATTCTTTCTGTATAC
Celera SNP ID:            hCV209457
SNP Position Genomic:     165905
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,8)      total(G,5|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14060):
TAGAAAATCTTAGACCCCAGAGAAAACTTAGGGGAGTTTAACACAACAGCCTCATGAAACAGCTAAGAAAACGGGTTGAGGGAGGTGAATGGCTGATCCA
R
CCCAGCTACTGACAGAGCTGAGACCAGATCTCAGACCTTTAGGTCTGTAGGCAAGCATTTTATTTAAATATAAAATGTAATTTGTTTACGATACCAAGAA
Celera SNP ID:            hCV209458
SNP Position Genomic:     166971
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14061):
GATTACTGTGTGACTTTGAGCTAAATTACAACACATTAGTAAATACAGAAGAAAATAATGAGCAATGCCACATCCCTTGCATTTTTTAAAGCAAGGACCA
S
CCTAATTGACAGTGAGATCTTTATATTAATTTTCCCATTTAAAATAGATAATATTCAGTGTTCGATGAAGAAAGAATTATGGGGTAGATTATGAAATAAT
Celera SNP ID:            hCV209459
SNP Position Genomic:     167463
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14062):
GTGCAAGCTTATGAGACAATTAGATAAACTCATGGAGGAGGCAGGTCCTCCTGTTATTAGATGATTTTGTGCTCTTTGGGCTGACAATAATACACTCTTG
R
GAAGTGATGGTAGAGACTGATGGGAATAGTCTTTCTGCCTGGTTGCAAGTCCCAAATTTTTAAGGGTTAATGGAAGTAAGTGGATGTTTCCTCATGTTAA
Celera SNP ID:            hCV27484222
SNP Position Genomic:     201523
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,350|G,1141)   total(G,1141|A,350) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:14063):
GCTTTCAGCTGGGACCTGAGCCTGGGATGTGGGCCAGGGTTCTTGGTTTTTCTTCATTTGGACCTCTCCACAGCTGCATGGGTTTCCTCACAGTTTAGTG
K
CTGGGTTCCAAGAATAAGCATCATCTATTAGAATAGTGCTTGCTTTATAATTGCTTATTGAATGAATGAAAGAATCTCAGGTTGTTTTCTTGCTCATGTT
Celera SNP ID:            hCV9620261
SNP Position Genomic:     78385
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,11)      total(G,1|T,11) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14064):
AGATGGATATATGGACACAGTAATGAACAAATGATTAAAAAATTATTTAAACCATTGTTTGACAGGGTAAGATTACTTTCTAATGAAATAGAACTTGGTA
R
TATGCCCTTGAAGTCTGATACCCTGACAAACCGCTTCTGAAAATCAGCTTACATAACTACCAGGGAGAATAAAAAGGCATAGTGCAAAGCAAATGCTGTG
Celera SNP ID:            hCV11454893
SNP Position Genomic:     99304
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14065):
CCTTAAGACATCATTGCCAACTTCTAAGGTAATTTCTTCCTTTTGGACCCTGACTCCTAGCACTTCTCACAGTGCTCAAAGACTTTACTCTGCATTTATA
M
CATTCGTCTTTTATACAGTTTCTTCTTCTCTACTGGGTCATTCCCATCAGCATACAAATGTCTTTTTTTTTTTTTCCTCGAGGGAGGGACTCATTCTGTT
Celera SNP ID:            hCV11626130
SNP Position Genomic:     155306
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,7)   total(A,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14066):
TAAGATAATTTTTGTGAAGCTCATTGAATGCGTCTGAGCTCCTTAACTCAAAAAAGGCTAAAAGTTACTGAAATAGCTATGGTTAAGGGTATATTGTCAT
Y
ACAATGTGATAATCATTACCAAAGTGGGCACTTGGAAAAATAGTGACCACTTATGAGCCAAACCAATCAACATTAAAACTGATTTCCAGTAAGTACAGCT
Celera SNP ID:            hCV9620262
SNP Position Genomic:     81511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14067):
TCATGCTGAGCTGCCAGTTAAGTGCAGGCTAACTGTTCTTTATTCAAATGCTGGGATCATGTGGTGTGAATCCATTGGTCAAAAAGGAAAGATAAGAAGG
M
CAAAATGCATGGGACCAGAATTATTTCAGATTTTGGATTGTTTCAGATTGTGGAATATTTGCATATACATAAGGAGATATCCTGGGGATGGGACCCAAGT
Celera SNP ID:            hCV11626131
SNP Position Genomic:     156993
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14068):
CTGAGCTCCTTAACTCAAAAAAGGCTAAAAGTTACTGAAATAGCTATGGTTAAGGGTATATTGTCATTACAATGTGATAATCATTACCAAAGTGGGCACT
K
GGAAAAATAGTGACCACTTATGAGCCAAACCAATCAACATTAAAACTGATTTCCAGTAAGTACAGCTGCCAAGTGATTATAGAGCAGCCTGGATACAGAT
Celera SNP ID:            hCV9620263
SNP Position Genomic:     81544
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14069):
GGTTGGAATGCAGTGGTGCGATCTCAGCTCACTGCAAGCTCCACCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGG
Y
GCCTGCCACCACGCCCGGCTAATTTTTTGTATTTTCAGTAGAGTTAGGGTTTCACCGTGTTAGCCAGGATGGTTTCGATGTCCTGACCTCGTGATCCGCC
Celera SNP ID:            hCV11626133
SNP Position Genomic:     157309
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14070):
TGTTTAGGTCATTGTATGCCTCCAGTTTAACAGATTGAAATAAAACTTGGTTATAAAATTTTGTGATGGCCTGAGTGTGCTTATCTGAGCTTTAATTTTC
R
GATGTGGACAATTCAGATGATAATTTCCTACTTCAGGTGGACTCATACACTTGATATTTTTCAACTCTGATGGGTAAGAAAAGTAAGCAAAGAGTAATGT
Celera SNP ID:            hCV16206410
SNP Position Genomic:     131977
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14071):
CATCTCAGGATCTTCATTTCTTTTTACACAATTTAGAATTCCTTCTGTATATCCGTTTGTCTCTTTAAGTCTCTGCTAAATCCATCAAGCTGTGTATCCT
R
TAATACTTTTTCCCCCAGTTGATTTTCATTGCCCTTTCTTTTTGTCTCTTAGATATTTCTTAAAGTCCCTCATTAGCATTTCCCTCTCAGGTTATACAGG
Celera SNP ID:            hCV16206411
SNP Position Genomic:     132268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14072):
CTATTACCTAGAGCAGGTAAATAAAGTCATTTGCTTGACTGAAAGGTAAGAGGGTTAAAACCCACCATTCTAAATGTCAAGTAATAGTTACGTTGCAGTC
W
GCTTAGTTTTATACTATAAATTATGATGATTTGGTTCCATGTTTTTTTTTAGTATAATGTGATTGCTGTTCAGCTTTATATTCAGCGCATAGCACTATGC
Celera SNP ID:            hCV11626137
SNP Position Genomic:     166680
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,4)   total(A,3|-,4|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14073):
ATTTATAAGAATTGTTTAAAGAAGGCAGTCATCAGTTACTTTTTTCACATGATTGTATTGCTGAGAGTAGTATCTGCATTAGTCTCTTAAGCAAGACTTT
W
AAAAAATCCTACTGTTGTCCCCACCTTTATTTTTGAAAGATAAACTTAAAATTTACATTTTTAAAAATTTTTAAAAAGTAAAATTTTAAATGACTCAACA
Celera SNP ID:            hCV49962
SNP Position Genomic:     188275
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14074):
TATATGATTAAAAAGCAGCCAAGTTCAGCGTGGACTGAGAACTGCTGACAATGGAGAACATGAGACCCAGAATGGCAAATAATGTTTCAGACATTGACTT
S
TCAGACTGGTCTCCACCCTGTACTTAACCCCATTCTCACCCTTTTTTGGAGGGGAAAGGAATTATCTAGTTAAAAACTGAATCTATAGGACAACCTGTCT
Celera SNP ID:            hCV49963
SNP Position Genomic:     188749
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14075):
TCCTGTCATCTGAAGACTATAGTTATTTTTTTGTGAGCATGTGCTAATATGAGGAACTGCACCTTGCCTGTTTTTTTTCTTTTATTTGAGACAGAGTCTC
R
CTGTGTTGCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACTTCCACCTCCTGGGTTCAAGTGATTCTCCTGCTTCAGCCTCCAGAGTAGCT
Celera SNP ID:            hCV1498770
SNP Position Genomic:     33687
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14076):
ACTACAGGCACGTGCCACCATGCCCAGCTAATTTTTATATTTTTAGTAGAGACAGGGTTTCACCATGTCGGCCAGGATGGTCTTGATCTCTTGACCTCGT
R
ATCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCTGGTGCCTTGTCTGTTTTTATAGTACAATCTAAATAGGTGGTATT
Celera SNP ID:            hCV1498771
SNP Position Genomic:     33891
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14077):
CCTGATTTAGCTGCTGGGTAATTTGAGGATAGTTGGGTACTCTGGGATGAAAAGGCTTGATACAATATGGGAAAAAAAGGAAGCAGCAGTGGCTTGGTAG
R
ACTCAAGCCACATTTGGCCTTGCCTTGGTATTCTTCCATCTCCTTTGTGTGATGCGGTCGTCTCAGCAAGGAGACAGTGGTAATTACACAATTGGTAGTA
Celera SNP ID:            hCV1498773
SNP Position Genomic:     35792
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14078):
ATTTACTGTAATTTCTTATTGTTATTAAAACCTAACACTTGGTCATATGCTATTTACTTTATGTGTTTCTAATTTTTATTTGCGTATTTGGCCTAAGCAT
R
TTTATATCTGCTTCTGAGTAATTTCTGCATTTTATATGTTTTTACTTCATAAAAGATGGAGGCCACCTCAAAACAAATTAGGCATCAAAGGAACATACCT
Celera SNP ID:            hCV1498774
SNP Position Genomic:     36817
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14079):
AATAACTTAAAGTAGAACTACCATTTGACCCAGCAGTCCCATTACTGGGTATATACCCAAGGGAATATAAAGACACACGCACACATATGTTCATCACAGA
R
CTATTCACAATAGCAAAGACATGGAATCAACCTAGATGCCCATCAGTGGTGAACTGGATAAAGAAAATGTGGTACATATACACCATTCAATACTACACAG
Celera SNP ID:            hCV1498775
SNP Position Genomic:     38894
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14080):
GCCATAAAAAAGAATGAAATCATGTTCTTTGCAGCAACATGGATGGAGCTGAAGGCCATTATCCTAAGATAATTAATGCAGGAACAGAAAACCAAATACT
K
CATGTTCTGTCTTATAAGTGGGAGTTATACATTGAGTACACATAGACATAAAAAGGGGACAATAGACAACAGGGGCTACTTTTGAGGGTGGAGGATGCAA
Celera SNP ID:            hCV1498776
SNP Position Genomic:     39094
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,6)      total(G,2|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14081):
CTCGAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCGGGTCATTCTTTAAAGAC
Y
CTAAAATGTGGCTTTGTGTTCTTTTGCTACGTCGTTGAGGGGAAGCCATTGTCTTCTCAACAGTAAGCTATATGGTTGGTATTTTTAAAGTTCAGCATTT
Celera SNP ID:            hCV320061
SNP Position Genomic:     132701
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14082):
GCTCTATCTCACAAGATAGGAGGTTCTGTAAACCTAGGTATGCAGTCAGGCACTAAGTGGCCAAAAACTTCTATCAGCAGCATTTTGAATAATCAGAGAA
R
ATTCAACACAGGAGATGAGAACCAGGAAACAACAACCAAAAAAGAAATATGGTGAGTTTGGCCTTAATATCACAAAAAGATGAAAAAACAATGTGTTCCT
Celera SNP ID:            hCV209461
SNP Position Genomic:     169426
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14083):
GATCTGCCTGCCTCAGCCTCCTGAGTAGCTAAGACTCGAGGCACATACCACCATACCTGGCTAATTTTTAAATTTTTTTTTGTAGAGACAGGCTATCACT
R
TGTTGCCTTGGCTGGTCTCAAACTGCTGGCCTCCCAAAGCACTGGGATTACAGGTGTAAGCCACAGTGCATGGCCTGTAGCTCCTTCTTCTTCTAATATT
Celera SNP ID:            hCV1498778
SNP Position Genomic:     41243
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14084):
CCTAAAGAATGTAGCCTCTACTTGAGACCCATTTGGTCTGTGCAGGTACAGGCACTATCATCTCTCTCTGTAAAGGGTCAGTATGATGTTTAGGAAAGCA
R
CCCACATTTGGAGTCAAAGCCTTTTGTTCTTACCCTGCGCAGCCCTTAACCAGATGTGTGACCTGTAAGCAAGGAGTTCAGTTAGTATCCTCATCTATAA
Celera SNP ID:            hCV209462
SNP Position Genomic:     169696
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14085):
CTTGCTGAGAGCTTTCATACATCATTTATTGTCATGCACTTGTATGATTATTGTATACTGTACACATTTTTATTTTACAATGATTTGTATTTTCCAATGC
R
TTTATTGCAGTTCAGTGTGGTAGATGGCTGGAGCCTATCCTGGTAGCTCGGCGCACAAGTCAAGAATTAACCCTGGACAGGGTGCCATCCCTTTGAAGGG
Celera SNP ID:            hCV9620270
SNP Position Genomic:     82758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14086):
TGGTAGATGGCTGGAGCCTATCCTGGTAGCTCGGCGCACAAGTCAAGAATTAACCCTGGACAGGGTGCCATCCCTTTGAAGGGTGCACTCACGCATGTTC
Y
GCACACTCATTCAGACTGGAGCCATTTAGACGTGCCAGTTAACTTAACATGCACATCTTTGAGATGTGGGAGGAAACTGGAGTACCCACAGGAAACTCAT
Celera SNP ID:            hCV9620271
SNP Position Genomic:     82876
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14087):
CTCAAAAGTGGTAGCTACTGTTAAAATATACTGTATTTGCATCTTAGAAGAGCATTTAACATTCTTGTGATATCTTTATGGTCAAGATGGGAAATTTTGA
Y
CTAGGTGGTATTTCAGTTAATTCATAAGTAGATAAACCTACGTTTTTACAGATTTAGAAGGAGCTTTTTATTTTAATAACAACTCAGTACAGGATATTGA
Celera SNP ID:            hCV9620272
SNP Position Genomic:     83471
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14088):
AGCTTTATTGAGTTATAATTCACATACCATACATTTCACCCATTTAAAATCTATAACTCAGTGGTTTTTAGTACAATTTTAGAACATATCACCCCAAAAG
A
AACCCATCCCCATTAGCAGTGACTCCTCATTCACCCCTTTCCCCACTCCAGTAATGCTGAGCATCTTTTTATGTGTTACTGGCCATTTGTATATCTTCTT
Celera SNP ID:            hCV11626142
SNP Position Genomic:     171336
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14089):
GGAGCTTACTGAGGGCCATCTTAGAGGCTGCCTGTCACACTCAGTGAATCTATTGTTTAATCATGGAGAATCCAAAAGTCATGGTGTTTTTATATAGAAC
R
TTGATATGTACAGTTCCATCCTGCAAACAAGTGATAATTTTATCTGAAAATATATAAGGAAGTCTCTCCATCCTAAAATATGCATATGTGTATATGTATT
Celera SNP ID:            hCV11626143
SNP Position Genomic:     173001
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14090):
TTTCCTACAAATGCATCATACCTTAAAAATGCACTTTAAAACTGAATGGAAGCCAGGTATGGTGACTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGA
R
GTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGCGAAGCACTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGC
Celera SNP ID:            hCV9077759
SNP Position Genomic:     144100
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14091):
CAACTGCCTGTTAAATATCTTCACTTAGATGATTCCTGTCAGTTCACACTTAACCAAACTGATTTCCACCCTCAACCTTCTCCTGTAGTCTTCTCATCCT
R
GTCACAGTGAAGCATATCCGTCCTTCACATTGCACAGCCAAAAACCTTCCTTGCAGTCATCCTTGACCCATTTTGTTTCCTCCCACATCCCATATCTAAT
Celera SNP ID:            hCV11626146
SNP Position Genomic:     176636
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14092):
CTAGAACAAATGGAGGAATTATCCTTTTCCATTCTGTAGTGGTCATACTACCTAAGAAGTACTGTGGCCAATTCTGGACATTACCTCTGAGAAGCATGTT
K
ATAGGACAGTGATCAAATATGCTAAAGGAACTTCAGACTATGCTGTAAAGAGGAGCATGTGAAAGAATCAAGAAACTATAATCTTGAAAAAGAAAGCCTG
Celera SNP ID:            hCV9620279
SNP Position Genomic:     83976
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14093):
AAGTTTTTTGGTTTGTTTTCACATTCAATTTAGAGACCCTGAAGCAGTATTTTAATGATAGGAATTAAGCTATGTATAACTTTCATGGCTTGAAGATCAG
M
AAATTCTGTTTTTTCTTGGTTATAATGTTATCTTAATCAGAAATGTGTGATCTTTGTGTCTAACAATGCACTTAAAAAAACAAAACAAAAAATTCCCTTG
Celera SNP ID:            hCV392614
SNP Position Genomic:     150493
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14094):
TTTTTAATTTTAGTAAGGCACATACATGGTACTTTTAATATCAATGACTAGCAGTTGTTGAGTGACTCCTATGGGACAGGATCCATGCTTGGCACTTGAC
W
TATAACATCTCCAGTAACAGTCCTACAAGGGTTGTGTGGTTATACTCTTTTTATTGAGGAGGAAACAGTTTGTTCATGGAGGGCAATTTCCCCAGGAGTG
Celera SNP ID:            hCV11629050
SNP Position Genomic:     102350
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,5)   total(A,2|-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14095):
ATGACCAGTGGAATCTAAGTTTGTTTATTTTTACAATAGCCTTAATTTGGGGCTTGCAAGTTTTTTGGTTTGTTTTCACATTCAATTTAGAGACCCTGAA
R
CAGTATTTTAATGATAGGAATTAAGCTATGTATAACTTTCATGGCTTGAAGATCAGCAAATTCTGTTTTTTCTTGGTTATAATGTTATCTTAATCAGAAA
Celera SNP ID:            hCV392615
SNP Position Genomic:     150436
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14096):
CAGTGCCGAAATATATTTCTTTCTATGGCAACATTCTTATTCTACTATCCTTTTTATTTTTAAGTAGTTTCATTTTTGTCACTGTTGGGTTATTTTAAAC
R
ATTTAATTGGAGGGAAAGAAATACAAATTCATCAAATTTTACCTCCAGAATTGAATTTCCTTCACTAGTTCCTTAATAAGTATTTAAGTAAAAGGGGGTG
Celera SNP ID:            hCV392616
SNP Position Genomic:     148562
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14097):
GTGGCTAGGAAAGACCTCACTGAGAAATTGACATTTGAATGAAGATCTGAAGTGGGGGCAGGTAAAGGTGTGTGCCTCTACAAAGGCCACAGCTGAGGCC
R
CCCTTCTTTATCTACCTCTTTTCATCTTTCCAACTTCCAGACCTTTTTTTTCTGCTGATAACTCATACCTTTTAATTAAACTTTAATTTAATTTAATTTA
Celera SNP ID:            hCV16206427
SNP Position Genomic:     142725
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14098):
TCTTCCAACTCTGCTCTCCACCACTTCCTTGCCCCTAGCACACACACAATTAATCAGCACTTACAAAAACAAAAATTTACCTCTTTACAAAAGGTACAGG
S
ATAGAGTAGAGGCTTTGAATACTTGTGCTTCAATTATTTTTCTCCTGTCATCTTTTATATTAAAGGAAATAAAATATAGGGGTGTCTCCTTTTCCTGGTT
Celera SNP ID:            hCV16206428
SNP Position Genomic:     142934
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14099):
TTTTGTTTTTGGATTGGATGAGACCTTTAGAGGACTAATGAAGTGGCTTTAAACTTTTTTGTACACAGTCCACAGTAAGAAATGTATTTAACCTCTCTTT
Y
TCTCTTATACTCAATCTCATGAAACAACTCTTACTAAATATAATGCACCCTTTTTCTTTTATTCTGTCCTGTGCTTTTCTGTCAAATTGTTTTTGAAGGC
Celera SNP ID:            hCV1498780
SNP Position Genomic:     53262
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14100):
CTTTCTATGGCAACATTCTTATTCTACTATCCTTTTTATTTTTAAGTAGTTTCATTTTTGTCACTGTTGGGTTATTTTAAACGATTTAATTGGAGGGAAA
R
AAATACAAATTCATCAAATTTTACCTCCAGAATTGAATTTCCTTCACTAGTTCCTTAATAAGTATTTAAGTAAAAGGGGGTGCAATATCAAGAAGACTAA
Celera SNP ID:            hCV16206429
SNP Position Genomic:     148580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14101):
TACAGGCATGCACCACCACTCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGTTTTTTCCATGTTGAGGCTGGTCTCGAACTCCTGACCTCAGGTG
R
TCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTCCATCAAGTATTTCTGAAGACACGTGAAGCAGTGGAGTC
Celera SNP ID:            hCV1498781
SNP Position Genomic:     53868
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14102):
AGCTGAAGCAAAGAGAGATTAAGTAGCTTATCTAAGGACACAAAAATGGTAAGCATTAGAACTAGGGCAATAATTGATAGATTCTAATTTAATACAGTGA
T
TTTTTTTTCTTTACATTGTTGTGCTTTTTTCTTTATATCTGGCACTTTTAGATGTATTACAGCATATGTAAATAAATTAATCTAACCCTCCAAAATCAAG
Celera SNP ID:            hCV11629055
SNP Position Genomic:     109773
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14103):
AGGAGTTCAAGACCAGCCTGGGCAACATAGAGAGATCCTATCTCTACAAAAAAATAAACTAGCCAGGCACGGTAGCATGCACCTGTAGTCCCAGCTACTG
R
GGAGCCTGAGGCTGGAGGATCTGTTGAACCTGTGAGGTTGAGGCTGCAGTAAGCTGCAATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGATTC
Celera SNP ID:            hCV1498783
SNP Position Genomic:     55578
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14104):
GTAACCACACAGTTCTCTGAGGTTAGAGTTCCATGCTGTGATGCAAGCCTCTCTATTTGGTATTTAAAAGCAGTTTGAAGCTGTTGTGTAAGTATCACTG
R
ACTTGGAGTCAACTGACCTAAGTTCTAGCCTTGGCCCTTCTACTGTCTTAACAGTGGATTAAATGATGAGGCTTATTTTAAAGAATCTTGAAAACTATAG
Celera SNP ID:            hCV1498784
SNP Position Genomic:     56266
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,7)      total(G,7|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14105):
AAGTAGCTTATCTAAGGACACAAAAATGGTAAGCATTAGAACTAGGGCAATAATTGATAGATTCTAATTTAATACAGTGATTTTTTTTTCTTTACATTGT
K
GTGCTTTTTTCTTTATATCTGGCACTTTTAGATGTATTACAGCATATGTAAATAAATTAATCTAACCCTCCAAAATCAAGATATTTCATTGAAAAATCTG
Celera SNP ID:            hCV11629057
SNP Position Genomic:     109793
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14106):
TCAAGGTATAAAATCTAGGTGGGGAAAGAGAGAGAGAGTTAACATTCTTGAAACAATTGAGAGCATTAGAGTGTTCCAGTATATCCTCCAAATTCTAAGG
K
TATAAGATGTTCAGAGAAAATAAAAAATCAGGGTGGGTTAGAATAATTGAGTTCAAATGGACCTTGGAATTAGGTTAGTGGAGGAGATAGCATTCCAAAT
Celera SNP ID:            hCV1498785
SNP Position Genomic:     58303
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14107):
ACATATACACCCTTATCCCCTCCCTCATGTACCACCCATATATAATTCTCTTTACCGCATCCTTTATCACACTCCTACAAGCCTTGAAGCAATCTGAACA
Y
AGAAACCATCTTTGATTTTCAACTCCTAATTGGGACTGAACATACTTGTCTTGAACACAGATTGCTGCCTTGTTAGTATAGGTATCCTAATATGGCACAT
Celera SNP ID:            hCV11629058
SNP Position Genomic:     128816
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14108):
TTAAAGGCTGCCCTCTCAGAAAACGAGCAACTGAAGAAAGAAAATGGAACACTGAAGCGGCAGCTGGATGAAGTTGTGTCAGAGGTAAGTGTTAGTAATA
S
GGCTGAGTCGAGATGGGCTAAAGTATCCTCTGGATTAATAAATAGAGAAACTTTTACATTTTAAATTAAATTATGTAAAATAATAGTGCTAGGAAAAGGA
Celera SNP ID:            hCV1498786
SNP Position Genomic:     59580
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,7)   caucasian(C,33|G,5)   total(C,60|G,12)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;JBIC-allele(G,531|C,928)   total(G,531|C,928)
SNP Type:                 INTRON


Context             (SEQ ID NO:14109):
TCTGGTGGAGTTGACTGAGTGGGTGAAACCTGAGATCAAGCTGCTGAGAGAGAAATGCAACACAGTGCACATGTAGGTGCACCCGCTTATCCTGAAGGTG
S
AGGACGGCAACAACTTCAGGGTGTCTATCCAGGAAGACACTGTGGACCAGCTGTGGACCGTGGATAGCACAGCGGCCTCCTCTCTATGCGGCTTCTCCAC
Celera SNP ID:            hCV11629059
SNP Position Genomic:     131103
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:14110):
TTACTGAAAACAATGATTTAAAAGGTTAGGGAGGCAAACTATAGAAGTGACTCAAAATTCTTTGGGGATCCGTAAAAATATAAAAAATGTTGAATTCTGG
Y
CGGGCGTGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGACGCTGAGGCAGGCGGATCACAAGGTCAGGAGATCAAGACCATCCTGGCCAACATAGTGA
Celera SNP ID:            hCV1498787
SNP Position Genomic:     60218
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14111):
TAAACATTGGAACAAATGAGTGACCAACAGAAATGGAGGAATTATGTATTCTATTGGATTTAAAATAGAATATATCATCTGCTCAAGACACTTAGAATTG
R
TAGATTAGATCTGTCTAATAATTTTTAACTCTTGGGGGTCACAGACCCCATTCAGAATCTGATGGCCCCTCTCTCCAAAAACATGCACACACAAAACTTT
Celera SNP ID:            hCV16191886
SNP Position Genomic:     196604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14112):
TTAGAAGACTATTGAGGTGTTTCAGGTAATAAATGAGAGTCTGAACTTACACTATGGTTATAAAAAGGATGAGCAATCTTAGGGTACCTCTCTGATGTAG
M
TTTTGTGGGATTTGTTAACTGGTATAATGTGGGACATGAGGAAGAAAAGAGGGAAGTTAAGGATAATTCAAAAATTTCTACCTTGAGGGACCGAATGGTG
Celera SNP ID:            hCV1498789
SNP Position Genomic:     61682
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14113):
TTTCCCCTCTCTACTAGATCATCTCTGTCAGTAAATGAACATGTTGTTGTTTCTCCTAGAAGTACTGTTTCTATATCTAGATAGTACTCTAGCTAGAGTT
A
AAAAAAAAAAAAACAAAACCAACAAACTCAAAACTCTCTTCAGATGTTACTTCACCTCTTGCTGTTACTGCATTTCTCTACTGTATGTTACAGCAGAATT
Celera SNP ID:            hCV26368318
SNP Position Genomic:     12521
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14114):
CCTCCAAATAGAATCTTTTGTGCTTCTCTAGGGAGATTCCCTTTGTGTTGAATTTTATGAGTAGTGTAAATTGTGTGGGTTGCATCATAAAACAAAGTGC
R
AACACACACACAAAGTCTTATTGATGAGCCAAGTTCCTAAGCACTATTAATGAGTTAAAAGTGTTAATTAAGGCTGGGCGCAGTGGCTTACATCTGTAAT
Celera SNP ID:            hCV9620280
SNP Position Genomic:     85160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14115):
TCAGATATGATCATTCTGTTTCAAATGACAAAGCCCTGATGGTGCTAACTGAAGAACCATTGCTTTACATTCCTCCACCTCCTTGTCAGCCCCTAATTAA
Y
ACAACAGAGTCTCTCAGGTGAGTGTTGTAGATTATTGCAGAAACATCTGAGTTGGTTCCCATGTTTAGTTTTGGAACCTAGACAAGTAATTGGTCAAGTT
Celera SNP ID:            hCV9620281
SNP Position Genomic:     91564
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14116):
TCTCTGTTGGAATATTTGTGTCCCATTAAAATTCGTATGTTGAAATCTCTTCACTAATGTAATGATATGAAAATCAGCCTTTATGGGGGTGATTAGGTCA
Y
GAAGGCAGAGCCCTCATGAATGGAATTACTGCTCTTATAAAAAGACAAAGGACTTTGCAGGGACGTGGATGAAGCTGGAAACCATCATTCTCAGCAAACT
Celera SNP ID:            hCV11626153
SNP Position Genomic:     177287
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14117):
CTTTGAATATCAGAGAAACATAAGAGTGTAAAGATTTCAAGGAAATGGTCATATTTTTCAGATGAGAAAAGTTCACCAAAGATTTTACCCATTGGTGCCA
R
AAATGTAAGGCAGGCAAGAAGTTAGTAGAAGAAAGTCATCACACTGTAACAATTATTTTTTTTAAGTTGTAGGCACTGATTTCCAAATGAGTTCCATAAA
Celera SNP ID:            hCV11626154
SNP Position Genomic:     178305
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14118):
TTTTTCAGATGAGAAAAGTTCACCAAAGATTTTACCCATTGGTGCCAGAAATGTAAGGCAGGCAAGAAGTTAGTAGAAGAAAGTCATCACACTGTAACAA
W
TATTTTTTTTAAGTTGTAGGCACTGATTTCCAAATGAGTTCCATAAACCACTGCTATTTCCATTTGTAGTATAGCAATAGGTTGTGATACTAACCTTAAA
Celera SNP ID:            hCV11626156
SNP Position Genomic:     178358
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,6)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14119):
CCATTTCTGAACTTAGACATTTACTACTATGGTTTAATGACAGGTCTTACTTAGAATCTGTTAAGTGGGGGTTCCATCTCAATGTTGTTTGCCACAAAAC
R
CCATTAAGTCATTCCGTCATTCATCAAATATTTGTTGTTAGAATTTAGACTAGCAACTGGCATCTGCAAGTTCCCAATAATGAGCCAAGGACTGTTCTTG
Celera SNP ID:            hCV9620288
SNP Position Genomic:     93574
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;(A,-|G,-)   Caucasian(A,24|G,56)   African-American(G,19|A,63)   Asians(G,37|A,45)   total(G,112|A,132)
SNP Type:                 INTRON


Context             (SEQ ID NO:14120):
TCCTTCTCTTTATTCTTCTGTCAGCTGTACTTAAGATATGTGTATCAAGATCAGAAGCTTTCGTCTGCCACTGTGGTTTCGTTTATGTCTTCAGTCTCTT
S
TGTGAAGGTTCTCTTGGCTTTCTAGCACTAAATCAAAATCTGGTGCTCCTGGATGACACAACTTCCCGTAATGCCCCGGTGAACGGTTGCTAATTTTATT
Celera SNP ID:            hCV26368752
SNP Position Genomic:     11097
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14121):
CCTTTCCTCCTCCCTAAAAATATCTAAGTTGAAATCTCATTTTGTCACAATATCCCATCCTCTACCTCTCCTGATTCCTGGATCACTCTCTTTCACTTTT
Y
TTTTTTTCTTTTAGAGATGGGGTCTTGTTCTCTTGCCCAGGTTGGAGCTGGAGTATGCGGTGGAGCAATCACAGCTCACTGCATCTTCAGACCCCTGGGG
Celera SNP ID:            hCV26368753
SNP Position Genomic:     11368
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14122):
AGCAAGAAGGAGAAAGGGAAGGAGGAGGGAAGCCTTCCACCATTACCACCTTGAAGAAGTTGCCATTTCTTCTTACAGTCCGTTGACCAGACCGTGTAGC
Y
TTATTTGGTTGCAAAGGAGGCTAGGAAATATAGTCTTTATTCTGGGTGGCCTTGTGCCCAACTAAATATCACAAGTCCTGTTGCTATTTTAATGTTACAG
Celera SNP ID:            hCV16206436
SNP Position Genomic:     149138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14123):
CCCTAAATCAGTTCATACCATTTGACAGGCTTTAATTGCACACAAGTGTATAATGGACAATGTAAGGGAAGAACAAATGTTGCTTAATTTTTCAACTAAT
K
TTAATCATCTAAGACTTAACATATCTGTTCCTCACATAATATAATCATCTTTTGCTTGTTTCTTTTACTCAAACTGTCAAGCTTTATGACAGATTGAAAT
Celera SNP ID:            hCV11629061
SNP Position Genomic:     133541
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14124):
CACAGAGAGAAAGTAATGATTCAGGATTCATTGTTGTGAGGTTCAAGAAACATTTATTTTGAGGAAGTGGAGGTAAATATTCAATGAAGTTAACTACATT
R
TCCCAGATATATAGATAAGATAGATAAAATGTATATATTATATAGACACTTATTTTTATTATAAGATATGTACTGTTAGAGTTGGTAGTATACCAGCTTT
Celera SNP ID:            hCV16206437
SNP Position Genomic:     149913
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14125):
GGACTCATTCTGTTGCCCAGGCTGGGGTACAATGGCGTGACCCATGGCTCACTCCAGCCTCCACCTCCTGGGCTCAAGCAGTTCTCCCACTTCAGCCTCC
Y
GAGCAGCTCCTGAACACAGGCACATTCCACTCCCAGCTAATTTTTAAATTGTTTGTAGAGACAGAGTCTCCCTATGTTGCCCAGGCTGGTCTTGAACTCC
Celera SNP ID:            hCV69943
SNP Position Genomic:     155493
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14126):
CCTACTTCTGCAAAAATTAATCTCTTTGTGATTTTCCCCTTTCTTGCAAATGGTTGGAAAAACTTTTATAATAATAAACTTAGGAACTGGTGTTACAATA
Y
GGTATCCAATGTGAATCATTTGCCTGTTATTAGTACTTGTTACTTGAAGCCACGTTTTTGTTCCTTTTAAGATGGCAGCTGAATTGAGCAGGTGTTTTTT
Celera SNP ID:            hCV11629064
SNP Position Genomic:     133879
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14127):
GGGGCAGAACTGAAAGAAAGTAGCTTTTTGAAGCCAAAGTAAAAAGAGCTTCAAGCAGGTCTTGGGCAGTGGTATCACATGCTGCTGAGAGCTTGGGAGA
Y
GTAGAAAGCTGAATTTGGCAATTATCAGGTCAGTTGTAATCTTGGAAAGCAGATTTAGTAGGGGTAGGCATGAAGTCTGTATTAAAATTGGTTGAGAAAT
Celera SNP ID:            hCV1498790
SNP Position Genomic:     62154
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14128):
ATTCTGTTGCCCAGGCTGGGGTACAATGGCGTGACCCATGGCTCACTCCAGCCTCCACCTCCTGGGCTCAAGCAGTTCTCCCACTTCAGCCTCCCGAGCA
S
CTCCTGAACACAGGCACATTCCACTCCCAGCTAATTTTTAAATTGTTTGTAGAGACAGAGTCTCCCTATGTTGCCCAGGCTGGTCTTGAACTCCTAGGCT
Celera SNP ID:            hCV69944
SNP Position Genomic:     155499
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14129):
GGCAGAACTGAAAGAAAGTAGCTTTTTGAAGCCAAAGTAAAAAGAGCTTCAAGCAGGTCTTGGGCAGTGGTATCACATGCTGCTGAGAGCTTGGGAGATG
Y
AGAAAGCTGAATTTGGCAATTATCAGGTCAGTTGTAATCTTGGAAAGCAGATTTAGTAGGGGTAGGCATGAAGTCTGTATTAAAATTGGTTGAGAAATTG
Celera SNP ID:            hCV1498791
SNP Position Genomic:     62156
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14130):
GTTTGGGTTGAAATAAATGAAGAAAATTTAGACTCACATCGGTATGCAGTTGGAAAAGGGAGAACTTTGCAGACTTTGAAAGACTTTTAGGATCCCCAGA
R
TTCCTTGGACTGCTTAAAACCCCAGTGCACACTTGCCCAACTGCTGCCGTAATTTATTTAACCATCTTTTGATAGGCAGCTAGGGTATTTCCAGTTACTT
Celera SNP ID:            hCV1498792
SNP Position Genomic:     63567
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14131):
TAAATGTCTATCCCAGCTCCTGCCATTGCATTCCCTATCGCCTTTCTTTCTTCATTTTTCTACATAGCACCTCTCCCCTTCAAGTATGCTATGTAACTTA
Y
TTATTTTCTTTCTCTCCCTGGAGGTATTTTTATCTCTTTTGTTTTCCAGTGCTTAGAACAGTGGCTGGCACATAGTAGTTACTCAATAAATACTTGTAGT
Celera SNP ID:            hCV1498794
SNP Position Genomic:     64291
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14132):
GTAAGGTATAGGGGAAGAGTGCAGAGCTTTCATGCCCTCTCCAGGTGCACCACCCTCCTAGTACCTCCTTGTGTTTGCTAACCTGGAAGCTCTCCAAATT
Y
CATTGTTAGGGGTTTTTATGGAGCTTCATTAGGTAGGTGTGATTGATTAAACCATTGGCCATTGGTGATTGCACTTAAACTCCAGCCCCCTCTCCCCTAC
Celera SNP ID:            hCV1498795
SNP Position Genomic:     65471
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14133):
CTTTTGTTAAGTACCACAAAATTAAGTTTGTCAGACAAATAGACATTTGAATCAGAGATTTCCAAAGTATTTTAAATTTAGGAACCTAAACTCTTTTAGA
R
CAGATCACATTACCGAGTAAAGTGATTAATGTGGTTTCAGATGTTCAGCGTAGAACTGAATGTTTGTGCCTTATTGGTATGGGCCAAATGAAAAAAAAAA
Celera SNP ID:            hCV1498796
SNP Position Genomic:     67304
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14134):
TCTTTTAGAACAGATCACATTACCGAGTAAAGTGATTAATGTGGTTTCAGATGTTCAGCGTAGAACTGAATGTTTGTGCCTTATTGGTATGGGCCAAATG
A
AAAAAAAAAAATAAAACACACAAGTTTGCCAAATATTGGTATGCCTTAAACATTTCCTGAAGGCATTTGGTGATGAAATATAAATATATCTAATGTATAA
Celera SNP ID:            hCV1498797
SNP Position Genomic:     67395
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14135):
TCTTTTTAAATTTGCTTTTGACTGTTTGTTGCTGGCGAAAATTATTTAAAGTAATTAGGAACTCATCGTAAATATTTTGTACACTACTCTAAAAATCTAA
Y
TCCAACTAGTGAATTTAGCATTTATAAATGGAGGTGTCTATAGAGGAATAAAATCTTTGGTTAACCACTACTTTACTTTTAGCAGTAAAGTCTGCAGCTC
Celera SNP ID:            hCV235862
SNP Position Genomic:     124706
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14136):
TTGAACTTCTTCAACCTCAAATTTCCAGTCTTTATACTTAACCAATGAAATGTTATTTATATACTCTTTGGAAACATAACATATACTGTAGATAATTATA
R
CAAAAGTGTAATGGGTAGCAGAAGATATTGCCAAACCAAAATTCTGGAGACCAGATGAGACAAACACATAATATGTGCCTGTATGGGTCACAGTGCTAGG
Celera SNP ID:            hCV235863
SNP Position Genomic:     122013
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14137):
AGCAGATTACATGCAATTGAAGTTTTCTCATCTACAAAATGCTGGCTGCACAGAGTTGATATAATGGTTAAATTAGATAATATATTTAGAGCACTTAGCA
Y
GGTACATAAGTGCCCCCCAAAATGGTAAATGATAATGATGTGATGTCATTGACAACAGTATCACTGAAGTGAAATTTGAGGATCTCAGCTTCTATCTGTA
Celera SNP ID:            hCV9620290
SNP Position Genomic:     100852
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14138):
CATCTTTTTTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGCCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGTTCACTGCAACCTCC
R
CCTCCAGGGTTCAAGTGATTATCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCGTGACACCCGGCTAATTTTTGTATTTTTAGTAGAG
Celera SNP ID:            hCV11626161
SNP Position Genomic:     182699
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14139):
TTCTGCCATGATTGTAAGTTTCCTGAGGCCTCCCCAGCAATGTGGAACTGTGAGTCAATTAAACCTCTTTCCTTTATAAATTACCCAGTCTCAGGTATTT
M
TTCATAGCAGTGTGAGAACGGACTAATACAACCTGTAAGGAGAGTGGTCCGCTGGTTTCCTCTCCAGCCTCATCGCCTCCTACTCTTCCCTTGATTCTCT
Celera SNP ID:            hCV11626162
SNP Position Genomic:     183219
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14140):
CTCCCGAAGTGCTGGGATTGCAGGCGTCAGCCACTACACCTGGCCCCTGCAGAGTCTTTATCAAACAGAAGTGAATATTAGGAGGAGCCTGGGGAAGAAT
Y
CTCTTTGATTTACCTTGGTGTTAACACTCCAGCGATACAACTATGGATCCTCCAGAAAGACTATGTTTTTGCTGTATCAGTGCCACCTATTAGGAATTGT
Celera SNP ID:            hCV11626163
SNP Position Genomic:     186107
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14141):
GAGGTTTAAGTCAGGCTGCTGGCTGGTGCTGCAGTCTCATTTTTGGGGAGGATCTATGTGCAAGCTCACTCGTATGGTTGTTGGGAGGATTCAGTTCCTT
K
TGAGCTTTTGGACTGAGACCTGCAATTCCTCACTGGCTGTTGGCCAGAGTTCTCCCTCAGTTCCTTGCCATATGCGCCTCTCTATGAGACAGCACATGAC
Celera SNP ID:            hCV73322
SNP Position Genomic:     172611
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14142):
CTCTGGCTCTGTCACAATAGCAACACAAGAGAGTGTCCAAGATGGAAGCCATAGTATCTTTGTAACCTAATCTCAGAGTTGATATATCATCACTTTTCCC
R
TATTCTACTCATTAGAAGCAAACTATTATGTTCAGCCCACTCTCTATAGAAGGGAAATACCAAGGGTATGAACACCAAAATATGGAGCTTACTGAGGGCC
Celera SNP ID:            hCV73323
SNP Position Genomic:     172817
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14143):
TTGTTTTAATGTTTTTTAAATTTCTTCTTTTAGTGTAATTATACTAGAATTACAGAAAAAGCAGGTATCTATTTTTTATCCTGACTTTAATTGTAATGCA
Y
TCAGCATTGGACTTGGCTGTATAATTACTGATAGCTTTTTAATGTTAAGAAAGTATTCCTCGGATCCTTGTTTTCTAGGATTTTATTGAGGAATACTTGT
Celera SNP ID:            hCV9080925
SNP Position Genomic:     29421
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14144):
TCATTTATTCAGCAAGGCTTATTGAATTACTCTTCTAACTCATCATGAGTTACACTCATAATAAAAGTCTGCACTCCTAATTTTGGCCTCCCATAGCTCA
R
TCAATCTCTGTCTATGTTTCCAGTTTCATTTCCTATTGCCATCTCCCTTAACCTTCCACTCCAGCACAGTTTTTCTTGCTCCTCCCCATGTTGATGCTCA
Celera SNP ID:            hCV73325
SNP Position Genomic:     173500
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14145):
TACAAAATGCTGGCTGCACAGAGTTGATATAATGGTTAAATTAGATAATATATTTAGAGCACTTAGCATGGTACATAAGTGCCCCCCAAAATGGTAAATG
R
TAATGATGTGATGTCATTGACAACAGTATCACTGAAGTGAAATTTGAGGATCTCAGCTTCTATCTGTAGCTCTACCACACATTTGCAGTTCACTTATATG
Celera SNP ID:            hCV9620297
SNP Position Genomic:     100884
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14146):
TAAATTGATAAACCTGATATTGGGTTATAATAATGTCATAAGCACTATTCTGGTCTAACTCTCTCTTTTTACTAATATGTAAATACACCCTACAAGGTGA
Y
GTGATTTATTTTTATTTTTATTTTTAGATTTTCCAATTAATTCATTGCAATGCTGGGCCAAGAATTAAGGACTCCTAACTTCCAATTTTGTATTTTCATT
Celera SNP ID:            hCV15991281
SNP Position Genomic:     53476
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14147):
CTGCTTCTTCTAAACTCCCTTCTAATTGTTTTTCCTCTTGTTTTTAAGCTAGTGATTTTTTCCCCTGTATTTTACATATGCTTATGGAAAGAACAGATAT
R
TTTTCATGGCACTTAGCATGTTATAAATGCATTGTTTTCCATGGAGTAAGATCATTCTACCACTGAGAGCATTAAATCCATGTTCCTAAGGTAACCCATG
Celera SNP ID:            hCV73326
SNP Position Genomic:     174464
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14148):
TAAAAGAGAAGTCGAGTCCTTGAGAAGGGGCAAAAGGGTGGAATTCAGATAACAGGTGGAAGGATGGCCCTTTGCTAGTAAGGCAGGACATTATGGTAGA
R
GCAAGATGAGTTCATAGATAGGACCTTAGGTTCCAGGAAGATAAAGAGAAGACACTTCTAACAGTTTCTGTTTTCCCAGTGAAGGACATCTCAACTGATG
Celera SNP ID:            hCV9620298
SNP Position Genomic:     118860
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(G,7|G,10|A,56|A,77)   African-American(G,7|A,73|A,84)   Asians(G,5|A,79|A,84)   total(G,29|A,453)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14149):
ATAGTTTGAGACATCAGACTTGGATGAGGAAGGGTAAATCATGCTACTAGTGGGCCAGTTACTCTGTGGTTTTCTTATGAGACTGTGCTTTAAGGAAAAG
K
TAACCACGGAGCATATGGCATTGAGTTTGAGTCATGTGGAACTGGTTAGAAGTAAAATGTTTCTATTCCAGCATTCTCTGAGTTTGTCAGCTTTTCATTA
Celera SNP ID:            hCV15991282
SNP Position Genomic:     75844
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14150):
AGTTGTCCCATACATAACAATGGAATCTGAAGACCAAATGTCAGACTTTGCATTTTCTTCCTCCAGATTTGTAATGCTTGGCATGCTCAGTGTCAAAGTT
A
AAAAAAAAAAAAGTAGAATAGAAAGAATTCTACGTTTAAATTCAATTCTTTGTCTTGGAAAAGCCAAACATTTAATTTTAAAAATCACTGGTTGGCTCTG
Celera SNP ID:            hCV11626167
SNP Position Genomic:     196931
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14151):
TTAGAAATTTCTTTCTGTTACTGCTCCAGAATCTGTGCTTTTCAATTATTGGTTCTAATTCAGTATTTTTAGGCCTCAGAGAAAAAGCCTTAATGCCGTC
Y
TCACGTGGTAGGCTACCAGGTCTTTGAAGATGGCCATTTTGTATCCCACATCTTCTCCACATCTGCTCATAGAAATACAGTTTCTTCATTTGCTCCCTTA
Celera SNP ID:            hCV73327
SNP Position Genomic:     175758
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14152):
CTTGGCCAGTGGGATAGTGAGCCTACTAGAGACATTTGGATTGTGAGGCCTTGGTGGGGTGTCAGTATGCCGTATGCTTTAAAGTCAAATCTCTGCAACA
R
AATGCCAGGTGTAGAGTTACAGTTGATTAATAAGACACAGCCCCTGTACTCAAGGAGTTTGTAATCTAGAGAATGAAAGACATATAATTACAATATGGTG
Celera SNP ID:            hCV9620299
SNP Position Genomic:     119136
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14153):
CCCCTGGAAGAGTCTGGGAGTATCGTTCGGCTTCTGTCCTGGCCACAGGGAGAGTAGAATATTGTCTAACTGGAGTTAACTGTCGTTTTTCACTATTCCC
R
CTGGGGAAGTACCGGGTGATCTTTTTGTGTGGCTAACACTGGACGTCTTTAGGAGGTTTAGAGCAAAATGGCTGGGACCGCCAAAAAGGCTACAAGCTAT
Celera SNP ID:            hCV15959208
SNP Position Genomic:     6441
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(G,539|A,952)   total(G,539|A,952)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14154):
TAATTTTTGTGGGTACATAGTAGGTGTATATATTTATGGGGTATGTGACATGTTTTGATACAGGTGTGCAACATGAAATAATTACATCATGAAGAATGCA
R
TATCCATCCCTTCAAGGATTTATCCATTGAGTTGCAAACAATCCAATTATTACACTCTTTAAGTTATTTTAAAATGTTACAGATGTTTTTCAAACATGTC
Celera SNP ID:            hCV73329
SNP Position Genomic:     176171
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14155):
TTCTCACAGTGCTCAAAGACTTTACTCTGCATTTATAACATTCGTCTTTTATACAGTTTCTTCTTCTCTACTGGGTCATTCCCATCAGCATACAAATGTC
T
TTTTTTTTTTTTCCTCGAGGGAGGGACTCATTCTGTTGCCCAGGCTGGGGTACAATGGCGTGACCCATGGCTCACTCCAGCCTCCACCTCCTGGGCTCAA
Celera SNP ID:            hCV26368400
SNP Position Genomic:     155369
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14156):
AGTCTCGCTCTGTCGCCTGGGTTGGAATGCAGTGGTGCGATCTCAGCTCACTGCAAGCTCCACCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCC
R
AGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATTTTTTGTATTTTCAGTAGAGTTAGGGTTTCACCGTGTTAGCCAGGATGGTTTCGATGT
Celera SNP ID:            hCV26368401
SNP Position Genomic:     157290
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14157):
CATATCATCTGTGTTCTCCATGCCAGTTTTATTTTTGTAATTTATTGTTTTTTACTTTGCATTCTGTTTATTATTTAAATTCCTTTGTTTCATAAGAGAG
Y
TGAAAACAGGTTAGTGAAGCTGCAAGAAAGTAAGTCTTTCTTTGTCTGAGGAAGTTGTCACACAAGATTATTGAAATAAAAATAGAATGCTAGGTATGCT
Celera SNP ID:            hCV26368402
SNP Position Genomic:     158909
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14158):
CAGAAAGATAATATTTTAACTAGGCACATTATGATTTGAAAAAAAATTTGGAGTCTTTTTAGTAAGGATCCACCCTCGGCCTCCCAAGGTGCTGGGATTA
S
AGGTATGAGCCACCGTGCCTGGCCATCCGTTGTTTTTTGTTTGTTTGTTTTATTATATTGAGAAGTCCACAGCAAAGAATCACAGTGATGAACCAGTTGC
Celera SNP ID:            hCV26368403
SNP Position Genomic:     160761
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14159):
CAGATTGGTGTGTATTTCTGTGTATCTCTTGTAACGGAATACCAAGTAATTCTTGACTGATGAATTTCATTTTCTTTCCTTTTTGTTAGATACTACCAGC
S
CCCTCACAAGTTAGTGTCCCTTTCCATCTGTTGTATTGTCTTAGACTTCTCCTCATTCACCACCTTGATGCTTTTACAAGATAACAAAGCTTATGGAGAT
Celera SNP ID:            hCV26368404
SNP Position Genomic:     161570
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14160):
GGGAGGAAAGGTAGGAAGCCACATTACAGATATATATTTTGAGAACAGAGCTGACAGAATTTTCTGGTAGATTGATTATGGAGAGTGAGGAAGAGAAGTA
A
ATAATTAAGTAATAATGATCCCAAGGTTTTTGGCCTGAGCAACTGGGAAAATCCAATTGTCATTAACTGAGATGAGGACAAAGCAGTAGGAGGTTTGGTG
Celera SNP ID:            hCV26368331
SNP Position Genomic:     16355
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14161):
GGAGGAAAGGTAGGAAGCCACATTACAGATATATATTTTGAGAACAGAGCTGACAGAATTTTCTGGTAGATTGATTATGGAGAGTGAGGAAGAGAAGTAA
A
TAATTAAGTAATAATGATCCCAAGGTTTTTGGCCTGAGCAACTGGGAAAATCCAATTGTCATTAACTGAGATGAGGACAAAGCAGTAGGAGGTTTGGTGG
Celera SNP ID:            hCV26368332
SNP Position Genomic:     16356
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14162):
CACTTTAAAATAAATTCATTCCATCCAAATTTAGCAGCCATCTATTGCAAAGTTTGCTTCCTTTTTCCATGACATTTAAATATACAAAAGCCTTTTTTTT
W
AAAAAAAAAGCATTTTTTAGTAGGTAAATGTCAGTCACTTTCTTAAACTAGCCTGTCCTAGACCAACAGACCAGTTCTACTTTCAAAACAAAACATAGCA
Celera SNP ID:            hCV26368406
SNP Position Genomic:     168383
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14163):
GAGGAAAGGTAGGAAGCCACATTACAGATATATATTTTGAGAACAGAGCTGACAGAATTTTCTGGTAGATTGATTATGGAGAGTGAGGAAGAGAAGTAAA
T
AATTAAGTAATAATGATCCCAAGGTTTTTGGCCTGAGCAACTGGGAAAATCCAATTGTCATTAACTGAGATGAGGACAAAGCAGTAGGAGGTTTGGTGGG
Celera SNP ID:            hCV26368333
SNP Position Genomic:     16357
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14164):
ACTTTAAAATAAATTCATTCCATCCAAATTTAGCAGCCATCTATTGCAAAGTTTGCTTCCTTTTTCCATGACATTTAAATATACAAAAGCCTTTTTTTTA
A
AAAAAAAAGCATTTTTTAGTAGGTAAATGTCAGTCACTTTCTTAAACTAGCCTGTCCTAGACCAACAGACCAGTTCTACTTTCAAAACAAAACATAGCAT
Celera SNP ID:            hCV26368407
SNP Position Genomic:     168384
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14165):
GAAAGGTAGGAAGCCACATTACAGATATATATTTTGAGAACAGAGCTGACAGAATTTTCTGGTAGATTGATTATGGAGAGTGAGGAAGAGAAGTAAATAA
T
TAAGTAATAATGATCCCAAGGTTTTTGGCCTGAGCAACTGGGAAAATCCAATTGTCATTAACTGAGATGAGGACAAAGCAGTAGGAGGTTTGGTGGGGTT
Celera SNP ID:            hCV26368334
SNP Position Genomic:     16360
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14166):
TTTGAGGAGCAGTTATATTTCACCTTTGACTTGTCAAACTTACACTTGACTAAAACCTACAGATGTTTTTCTTTTTAATTTTTTTTAATTTTTAATTTTT
R
TGGGTACATAGTAGGTGTATATATTTATGGGGTATGTGACATGTTTTGATACAGGTGTGCAACATGAAATAATTACATCATGAAGAATGCAGTATCCATC
Celera SNP ID:            hCV26368408
SNP Position Genomic:     176079
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14167):
TTGGGAGAATCACGTGAACCCAGGCAGCGGAGGTTGCAGTAAGCAGAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCCTCTCAGTT
A
AAAAAAAAAAAAAAAAAAAAAAATCACCTTAATGCCTTTTATCTCTGGTTACTTCAACACCATAATTACCATAAATAATTCATCTCTGTTGGAATATTTG
Celera SNP ID:            hCV26368409
SNP Position Genomic:     177104
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14168):
TCTATGAGAGGTTTATGTCATTATTGAAAGAAGTTCAAGTCTGAGGATTTGGTACTATTCAGATATGGGAGTCATTTCCGTATGGAGATCTCTTAGGTAG
W
TTAGTCATCATTGTACTCATACTGATATCTGTATACACTGGGTACAAGAAAACTTTTGCAGCATTCTTATCTCTGGATTTAGTTTGTTGGCACCAGATAT
Celera SNP ID:            hCV27929930
SNP Position Genomic:     32719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14169):
GAGTTTGCTCGTTTTCTTCTTACCTATGAAGCTGTTTTGGGACCCTAACTATGACAGTAAGTCACTTGGCTATGCACTTAATCAGCATGTGTTTAATATC
Y
ACACTCACATTTTTATAAATATTTAACAGGAAGGGAAATTTATACCTCCAAACCCACTCTAATCCCTGAACTCCAAATGCATGTAACCAACTGCCTGTTA
Celera SNP ID:            hCV73331
SNP Position Genomic:     176448
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14170):
TGTCTGCAGAGAATGTGATCAATGGGCAGGACTACGAAGTGATGATGCAGATTGACTGTCAGGTGATGGACACCAGGATCCTCCATATCAAAAGTTCGTC
R
GTTCCTCCTTACCTCCGAGATCAGCAGAGGAATCAAACCAACACCTTCTTTGGCTCCCCTCCCGCAGCCACAGAGGCAACCCACGTTGTCAGCACCATCC
Celera SNP ID:            hCV9620376
SNP Position Genomic:     198294
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14171):
CTTATTCCAAAATTGACCACATAGTTGGAAGTAAAGTAGACCAATATCCCTGATGAACATCGATGAAAAAATCCTCAATAAAATACTGGCAAACTGAATC
Y
AGCAACATATCAAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAACATACACAAATCAATAAATGTAATCCAGCA
Celera SNP ID:            hCV27929931
SNP Position Genomic:     69324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14172):
CAAATGTAGCCCTGCATCCTCCAGTGTTACCTGGTGTAGATTTTTTTTTCTGTACCTTTCTAAACCTCTCTTCCCTCTGTGATGGTTTTGTGTTTAAACA
R
TCATCTTCTTTTAAATAATATCCACCTCTCCTTTTTGCCATTTCACTTATTGATTCATAAAGTGAATTTTATTTAAAGCTATGCCACACATGCATGTTCA
Celera SNP ID:            hCV9620377
SNP Position Genomic:     198738
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:14173):
TTACATCACTACGACCACCATCACTTACTGATTCACCAAAAATTGCATAAATTATCTTACTTGTTTTTATTAGTTTTTATTAAATGTATAGCTCACATTT
R
TTTCAATATTTAATATTAGAAGTGCTTGGGGTCTTTATTTAGAAGTTTGGTGATGTTTTTATAGCCAGAAATATGCTGTAGGAACGTAACTCTCATTTAT
Celera SNP ID:            hCV27929932
SNP Position Genomic:     139913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14174):
TGTACTTGACCATCTAGTACATTTTAGAGCCTTGATTCAGAAATCAGAATTTTAGCATAAGTGAATGGGTTCTTATAAAATATCCTGATCCTTGGGCTTT
R
CAAAATAGTGTTATAAAAATTACTGCCAAAGTGCAACTAATATTTTGGTTGAGAGAGATTCTTAGAATTCAGACATAGCCTTAGAATGGGAAGTATTTTG
Celera SNP ID:            hCV15991364
SNP Position Genomic:     102790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14175):
ATACATAAATTACAAAACTACAATAACATCAGGGTTCTCTGAGAGGCAAAACTACATTTGTTTCAGAAGATACTTTAATGGACTTATTTAGAAAATGAGA
C
CCCCCCCCCCCGCCCCCTCATCTAGGAGACCAACCTCAAATCACCTCTACTGCAGACAAAGTTAGCAGAGATTGGAGGGTAGAGGGTTGAACAGCAGAAA
Celera SNP ID:            hCV11626176
SNP Position Genomic:     204870
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:14176):
GGTTGTGATGAACAAGGTAAATATAGGGTGTCATAAGAGCACACATTAACCAATCTTGGAGGGGCTGTCCTATGCAAGGAGGTCTTCATGGAGACCTAAC
M
GCTAAGCTAAGACCTGCCTGTTCTGCAAGTACCTTACTTAAAGCTATTACATAATAGCTGCTGGGGATGAAAATATTCTAGAAGGTATGATAGTCACACT
Celera SNP ID:            hCV15991365
SNP Position Genomic:     119341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14177):
CTTTTTCAAATCAAAAAGCAATATTGAGTCATCAGGCACTTGGAATGCTCTTTGGAACCTACAAATGATTAGATTCATTTCCACCCACAGGGTGAAACAT
Y
CATTTCTATGTTTAATTAATTTCTATGTTTAATTAATTAAACTATATTTTATAGGTTAAATCATGAACTTCGAGGATGGGTTCATAGACATGAAGTAGAA
Celera SNP ID:            hCV15991292
SNP Position Genomic:     92915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14178):
TGGAACCTACAAATGATTAGATTCATTTCCACCCACAGGGTGAAACATTCATTTCTATGTTTAATTAATTTCTATGTTTAATTAATTAAACTATATTTTA
W
AGGTTAAATCATGAACTTCGAGGATGGGTTCATAGACATGAAGTAGAAAGGACCAAGTCAAGAAGAATGACAAATAATCAACAGAAAACCCGTATTCTTC
Celera SNP ID:            hCV15991293
SNP Position Genomic:     92967
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,26)   caucasian(A,13|T,17)   total(A,15|T,43)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,6)      total(A,2|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14179):
AAACCCGTATTCTTCAGGTATGTTTCTGTTTGTCTTTGAACAATAGTTGGCGTATTTGTTGGAAGGCTTCTCCCAGCTGGGTTACTCTCTTCCCTAGAAG
K
TTGGTAAACTTGAGCTTTAGCCTCTTCCCACTGTCTCCTGCTGCTTCCGATGCAGCTATCATTGCCACTGAAGTCCTCCTCCCAGGTTTTATAGCACTAG
Celera SNP ID:            hCV15991294
SNP Position Genomic:     93153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14180):
AAGGTATAGTGGACATTTTTATAGTTGTATACTTTTTGATAAACATTTCCCTGTGTTATTTAGAATTTGTATTAGAGCCAAATGGAGCCAGGTCCTTGAC
W
AACAAGGCAAAGGGAGGTCACAGTATGGTAACTATTGCACAGTATAATGCTTGAAAATTATTACAGATTTGTTTACTTTTATCTCTTTAAGGATTTGTAG
Celera SNP ID:            hCV27513752
SNP Position Genomic:     86987
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14181):
ACATCTCACTTTCAAACATCCTGCTCTGACTGCCTTCGCCTGTTTTACCAGCTTACTTCCTTTAGTATTCCAGTTTCAATAGTTGTTCAGTCCTTCTGAG
R
TTTTGCCATGTTTCCAGTGTCTCTCATTCTCTTCAGTTCATCACGTCCCTCTTACCCAGTTTAAATACCATGGACAGTCATTGTCACTATTTCCTTCCTT
Celera SNP ID:            hCV16093143
SNP Position Genomic:     11860
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14182):
TACTCCGACCTTCCAATCATGTCACATCTGTCTAGAATCAAGGCCCAAATCTGTGTGACCTGTGATATGGTTTGGCTATGTCCTCACCCACAGCCTCATC
T
TTTTTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGCCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGTTCACTGCAACCTCCGCCTC
Celera SNP ID:            hCV26368411
SNP Position Genomic:     182603
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14183):
TCCCTCTTGAGGTTTGATAATTTTCTAGAATGGCTCACAGAACTCAGGAAAACACTCTATTTACTATTACTGGTTTTATTATAAAGGATATGTGGGGCAA
R
CTAAATGGGAGAGACGCATAGGGTAAGGTATAGGGGAAGAGTGCAGAGCTTTCATGCCCTCTCCAGGTGCACCACCCTCCTAGTACCTCCTTGTGTTTGC
Celera SNP ID:            hCV16093144
SNP Position Genomic:     65348
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14184):
ACTCCGACCTTCCAATCATGTCACATCTGTCTAGAATCAAGGCCCAAATCTGTGTGACCTGTGATATGGTTTGGCTATGTCCTCACCCACAGCCTCATCT
T
TTTTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGCCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGTTCACTGCAACCTCCGCCTCC
Celera SNP ID:            hCV26368412
SNP Position Genomic:     182604
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14185):
CTCCGACCTTCCAATCATGTCACATCTGTCTAGAATCAAGGCCCAAATCTGTGTGACCTGTGATATGGTTTGGCTATGTCCTCACCCACAGCCTCATCTT
T
TTTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGCCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGTTCACTGCAACCTCCGCCTCCA
Celera SNP ID:            hCV26368413
SNP Position Genomic:     182605
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14186):
ACCTTTCCTCCATGTTTTCCAGTTAAAGATATTAAGGCAGAACCTCAGCCACTTTCTCCAGCCTCCTCAAGTTATTCAGTCTCGTCTCCTCGGTCAGTGG
R
CTCTTATTCTTCAACTCAGCATGTTCCTGTGAGTAGCCAGTCTTTTACAATGATTTTGGTTATAATATGCTATCTGGAAAATATGTATATGGAGGAGGCA
Celera SNP ID:            hCV26368340
SNP Position Genomic:     23825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14187):
ACCTTCCAATCATGTCACATCTGTCTAGAATCAAGGCCCAAATCTGTGTGACCTGTGATATGGTTTGGCTATGTCCTCACCCACAGCCTCATCTTTTTTT
G
TTTGTTTGTTTGTTTGTTTTGAGACAGAGCCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGTTCACTGCAACCTCCGCCTCCAGGGTT
Celera SNP ID:            hCV26368414
SNP Position Genomic:     182610
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14188):
TTTCACATTATGATAAATATATATTTTCATAGTGCCAGATTTACTGTAATTTCTTATTGTTATTAAAACCTAACACTTGGTCATATGCTATTTACTTTAT
R
TGTTTCTAATTTTTATTTGCGTATTTGGCCTAAGCATGTTTATATCTGCTTCTGAGTAATTTCTGCATTTTATATGTTTTTACTTCATAAAAGATGGAGG
Celera SNP ID:            hCV16078774
SNP Position Genomic:     36779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14189):
CAGTTACATACTTTTTGTTATTTTAAAATGTACAACTAAGCTCTTATTGAGTATAGTCACCCTGCTGTGCTATTAAATAATATGTCTTATTCCTTCTCCT
T
TTTTTTTTTTTTTTTTTTTTTTTTACCCATTAACAATCCCCATCTCACTACCAGCTTCTCAGTACCCTCCCCAGCCTCTGGTAACCATCCTTCTACCCTA
Celera SNP ID:            hCV26368341
SNP Position Genomic:     29002
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14190):
TGTAAGGTGCCGCCTAGAGCAGCCTGGGAGCTTTGCCTTCTTTTGTCTCTCACTAGCCCTTCTACTCTTTGTCATTGCCTGTTCTTGAGTGGATCTTTGA
R
ATGAGGGGACAGGATTCTCCTAAGGGTAGAGTTTCAGGAAATGAGTGAAAGGCAATTGACAAATGCAAAGAAGTAGTCACTTTTTAAATTGCTGGCAAAG
Celera SNP ID:            hCV16029813
SNP Position Genomic:     201128
SNP Source:               dbSNP
Population(Allele,Count): JBIG-allele(G,706|A,775)   total(G,706|A,775)no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14191):
GTGTGGGAGAGAGATTGGGCTGGAGTCTGACTCTGACAAGGACAAGTAGGGATTTGTAGCCAAGGAGCAAGGTGTGGGGGTCAGTAGATGGAAAATTACT
A
AGTGGAAACACCAATGTAAGGGAGATTCTTGCTAGATGGACTCAACAGAATTCTTGCTGAAGGCAGGCCAGGGTGATTAGATGTCGAGGGTAATCAGATA
Celera SNP ID:            hCV26368415
SNP Position Genomic:     187038
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14192):
ATGGAGAAAGGATATTGGCATTTTAACTGCAACCTTATACTGATACTGAATGTTTGTATGACTACGAACCAAGTTTTATATGTGTGTGTGTGTGTGTGTG
T
CTCTGTGTGTGTGTGTGTGTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTTTGTAGGAAGAAATGTAGCAACAGATCAATGATTCATATCTTTAACA
Celera SNP ID:            hCV26368342
SNP Position Genomic:     30831
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14193):
CTCTGAAGAGGATATACATTGATGAGTGAAGATATTAGGGAGGGTAGGGAGAAAGAATAGAAGTTTTTACATATAAATACAAATAGAAGTATTTAAAAAA
W
TTTTTTTTCTTAGCTTTATCTGATAGCCTGCCTTCTGGAATTGTGAAAGGCTAACAATGAATTTGACTTTTATTCCTACTTCATTTGAAGTATTCTCTCA
Celera SNP ID:            hCV16078775
SNP Position Genomic:     85703
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,8)      total(A,1|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14194):
TGTGCAAGATAGTATATTCCAAATTATTTCATATTATAGAAATAAAAAATATTCCATAGTCCTTAAGCCACGCCTTTTTTTTTTTTTTTTTTTTTTTTTT
T
TTTTGAGATGGAGTGTTGCTCTTCTTGCCGAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTACAACCTCTGCCTCCCAAGTTCAAGTGATTCTCCTG
Celera SNP ID:            hCV26368416
SNP Position Genomic:     187594
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14195):
TGGAGAAAGGATATTGGCATTTTAACTGCAACCTTATACTGATACTGAATGTTTGTATGACTACGAACCAAGTTTTATATGTGTGTGTGTGTGTGTGTGT
C
TCTGTGTGTGTGTGTGTGTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTTTGTAGGAAGAAATGTAGCAACAGATCAATGATTCATATCTTTAACAG
Celera SNP ID:            hCV26368343
SNP Position Genomic:     30832
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14196):
GTGCAAGATAGTATATTCCAAATTATTTCATATTATAGAAATAAAAAATATTCCATAGTCCTTAAGCCACGCCTTTTTTTTTTTTTTTTTTTTTTTTTTT
T
TTTGAGATGGAGTGTTGCTCTTCTTGCCGAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTACAACCTCTGCCTCCCAAGTTCAAGTGATTCTCCTGT
Celera SNP ID:            hCV26368417
SNP Position Genomic:     187595
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14197):
GGAGAAAGGATATTGGCATTTTAACTGCAACCTTATACTGATACTGAATGTTTGTATGACTACGAACCAAGTTTTATATGTGTGTGTGTGTGTGTGTGTC
T
CTGTGTGTGTGTGTGTGTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTTTGTAGGAAGAAATGTAGCAACAGATCAATGATTCATATCTTTAACAGG
Celera SNP ID:            hCV26368344
SNP Position Genomic:     30833
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14198):
CTTCCCATTCTGTAATGTGAATTAGCCACACCAGAGGCTGTGACCATGGCTAGTAGACAGTGGCAACATAGTCATCCCCAAGATGCTAATCTTCTGCTGG
R
ACTGTCATACGTTATCATGGTCAATGTAAACCTGGTTTGTGTGGGGTGATTATAAATAGAGTTTCCCTCCTCTCTGTGACAGAATCACAGGAGAAGGACC
Celera SNP ID:            hCV16029815
SNP Position Genomic:     200691
SNP Source:               dbSNP
Population(Allele,Count): JBIG-allele(G,382|A,1107)   total(G,382|A,1107)no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14199):
TGCAAGATAGTATATTCCAAATTATTTCATATTATAGAAATAAAAAATATTCCATAGTCCTTAAGCCACGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTT
T
TTGAGATGGAGTGTTGCTCTTCTTGCCGAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTACAACCTCTGCCTCCCAAGTTCAAGTGATTCTCCTGTC
Celera SNP ID:            hCV26368418
SNP Position Genomic:     187596
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14200):
GAGAAAGGATATTGGCATTTTAACTGCAACCTTATACTGATACTGAATGTTTGTATGACTACGAACCAAGTTTTATATGTGTGTGTGTGTGTGTGTGTCT
C
TGTGTGTGTGTGTGTGTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTTTGTAGGAAGAAATGTAGCAACAGATCAATGATTCATATCTTTAACAGGA
Celera SNP ID:            hCV26368345
SNP Position Genomic:     30834
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14201):
GCAAGATAGTATATTCCAAATTATTTCATATTATAGAAATAAAAAATATTCCATAGTCCTTAAGCCACGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
T
TGAGATGGAGTGTTGCTCTTCTTGCCGAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTACAACCTCTGCCTCCCAAGTTCAAGTGATTCTCCTGTCT
Celera SNP ID:            hCV26368419
SNP Position Genomic:     187597
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14202):
TGCTATTCCTATCAAACTATCAATGACATTTTTCACACAATTAGGAAAAACTATTCTAAAGTTCACATGGAACTGAAAAAGAGCCTAAATAGCCAAAGCA
S
CCCTAAGCAAAAAGAACAAAGCCAGAGGCATCAAGCTACCTGATTTCAAACTGTACTACAAGACTACAGTAACCAAAACAGCATGATACTGGTATAAAAA
Celera SNP ID:            hCV26368349
SNP Position Genomic:     37614
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14203):
TCATATGGAAAACCAAATTTCTTAGCCATGTTACTGAATGTCAGTCATTTCCCTTACTTGATCTGCATCACCAACATTAAGTGCCATGTATCAGATTTCT
R
TATATGTTCCATTATAATCTCATGGGACCACCATAGTACATGCGGTCCATTGTTGACAGACACATCATTATGTGGTGCGTAAGTGTACTTATAGTTTTAC
Celera SNP ID:            hCV15991375
SNP Position Genomic:     126380
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 10
Celera Gene:                 hCG16212 - 116000144873121
Gene Symbol:                 HRC
Protein Name:                histidine rich calcium binding protein
Celera Genomic Axis:         GA_x5YUV32VSLL(1189031..1205251)
Chromosome:                  Chr19
OMIM number:                 142705
OMIM Information:            HISTIDINE-RICH CALCIUM-BINDING PROTEIN;HRC


Genomic Sequence (SEQ ID NO:12170):
TGAACCCAGGAGGCAGAGGTTGAAGTGAGCCGAGATCGCACTACTGCACTCCAGCCTGGGTGATAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAGAGG
TAGCCGGGTATGGTGGCTCTCGCCTGTAATTCCAGCACTTTGGCAGGCAGAGTGAGGTGGGAGGCTCACTTGAGTCCAGGAGTTGGATACCAGCCTGGTC
TGGTATCAAAGGGAGACCCGGTTTCTACAAAAAATTTTAAAATTAGCCAGGCATGGTGGTGCATGCCTGTGGTCCCAGCTACTCCGGAGGCTCATGTGGG
AGGATCGCTTGAGCCCAGCAGGTCAAGGCTGCAGTGAACCATGATCGTGCCACTCCAGCCTGGACAACAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAA
AAAAAAAAGAGAGAGAGACAGAAGACAGATATTTTTAAATGCTCTTCTAAACACACACACACACAAACACACGCACACAATTGGCTATAGAATTGCCAGT
TTGCAACTCCCCTGACTTTACACGTTGTTTTCCCTGTGACGTCTTACCTACTTCCAGTTTCAATTACCAGCTACAACTCGGACCTCTCAGATTCTGGACA
TTAGTCCAGACCTTTCCCAATCTCAGTCCCCACATGCCCCTCGGTCCCCCTAGGCCGCTCATATGCACAGATTCCCACATTGCACTCAGCGACATTTCCC
AAACCTGCTTGCCCTCCTGAGCTCTCCATCTCAGGGACAGCCCCACTGTGTCCCAGTCAGCAGACCATACGTCCCGGAGCCATCCACCGATGGCGGCACC
CCCTCTCTCCCTCATCACCCTCATCAAGCCCCAAGCTCTGCCTTCCTGCCCCCTGAGTCTTTGCCCCATGCCCTCCTCTCTGTGTCCCGAAAGCCCTGAC
CTGGCTCAGGCCACTACCCCTCCCGCTCAGACGCTCTCTACAGCCTCCTCCCGAGCTCCTGTTCATCCTCTCCCAGCCCCAGAAAGTTTTTCCACACCCA
GAGCCAACCCCACTGCTGCGGTGATGCCCCAGCTCCCAAGGACAAGATCCCAGCCCCTTAGGGTGGCCTCTGACACCCTGCAAGCTCTGGCCCTGCCCTC
CTCTGCAGCCTCTTCTCTCATGACAGTGCTCCCTGCACCCTGAACTTTGATTCATATTCAAGCCAAACCATATGGTCCTTAGCAAGGACTTTGCACATGC
TGTTCAAATCACTTTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGATGTGATCTCT
GCTCATAGTAGCCTCCGTCTCCCAGGTTTAAGTGATTCTCCTGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCAATACGCCCAGTTAATTTTTGTAT
TTTTAGTAGAGATAGGGTTGCACCATGTTAGCCAAGCTGGTCTCGAACTCCTGACTTAGGTGATCCACCCGCCTCGGCCTCCCAGATTGTTGGGATGACA
GGCGTGAGCCACCATGCCCGGCCCCAAATCGCTTTCCATGGGCCTCTCTCCAGCTCACTTTCAAATGTCACCTCACTAGCCACTCTTCCTCCCTCCAGAA
ACCATTAGTGACATTTTGTGTCCCCTCCCAGTCTTAAGCAAACACCTCCTCCCAGCTCTCACAGAGCCCAGTGGCTCGTCTTTGGGAGCTGCAACCCCTT
GCCTTACTATAATTATCTTCTGCGTTTCTTCCTCCTCAGGCCAGACCAGAGTTTCCTAAATTGTCTTGACCACACTGACCTATCAGTAAAAAGGTTTTGA
GCACTCACGTCCAACAAGCGCATATCTGTTTATTTATCCATCATTTACAAGCCATACTGCACTAATATATAGTCATAACAAAATACACACTGAAGTAGGA
ATGTGGATACTTCCCGCACCCCAAAAACTGTCTTGAAAAACAACTAGAGGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGTACTTTGGAAAGCCAAG
GCAGGTGCATTGCCTGAGATCAAGAGTTCAAGACCAACCTGGGCAACAGGGTGAAATCCCGTCTCTACTAAAATACAAAAAATTAGCTGGGCATGGTGGT
AGGCACCTGTAATCCCAGCTACTAGGGAGGCTGAGGCATGAGAACTGCTTGAACCCAGGAGGTGGATGTTGCAGTGAGCTGATATCGCAACACTGCACTC
CAGCCTGGGCGACAGAGCCAGACTCTGTCTCAAAAAAACAAAAAACAAAAAACTAGAAAGCCTGGGCCAGGTGCGGTGGCTCACACCTGTAATCCTAGCG
CTTTGGGAGGCCGAGGCCGGCGGATCATGAGGTCAGGAGATCGAGACCATCTGGCTAACACGGTGCAACCCCGTCTCTACTAAAAAAAAAATACAAAAAA
TTGGCCCAGCGCGATGGCTCACGCCTGTAATCCCAGTACTTTGAGGGGCTGAGGCGGGCGGATCACAAGGTCAGGAGATCGAGATCATCCTGGCCAACAC
GGTGAAACCCCGTCTCTACTAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAAAACGGCG
TGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGGGACAGAGCGAGACACCGTCTCAAAAAAAAAAAAAAAAAA
AAAACTAGAAAGCCTGGATCCGCTTGAGAGGCCGTCACTGAAGGGCGGGAGCTCCTCGCGGACGCACACACCCTATCTAGCTCAATTGGTGTCCCCGGCC
ACCAAGACAGGGCCCGCCCGCGGTAATAATTGCCACCTCCCAGTGGGAGCTGCAGATATTTCCCAGCGTCCTGTGCTGGGCGCTGTGCCAGGAATATCAC
AAGCATTAACTTGTTTAATTCTCATAATAACCCCAGGAGATCAAGCCTCTTTTGATGCTCAGATGAGAAACGGGACCCAGAGAGGTGAAATGATTTGCCC
GAAGCCACACAGCACGTGTCCCAGGGGAAATTGGAACCCTGGCAGGGCCGTTGAATTAGGCTAAAGGGACCTTGGGAGCGCTGAGTGAGGGTTTCTTGCA
TGGATGGATGAATGAATGAATGAATGAATGAATGAATGAAACAGAAATACCCAAAAGGGAAAGACAGAGACACAGAAAGTGACACGAAGAGACAGAAGCA
CATAGAAGAGACATCGGGGAGGAAAGAAGCAGAACCGAGCCCTGGAGCGTCTACACTGACCCTGAGCGGGAGAATGGCGAATGGGGAATGAGGGGTGTCT
ACACAGACCCAAACGCTCCTAGAGGGAGAGCGTCGGCAAGGAACGCCCTTGGGAAGGTCCCCGAGTCCAGGAATGGGGAAGGAGCAGGGCTGGGGCGTGR
CCATCCGCGGGCGGGGTCAGCGGGCCGCGGACCCTCTGGGGTCAGTCCAGGGGCGAACTCCTCACCCCGGATCTGTGGAGTCAACTATGAACGTCGTGCA
GGTCTTCTTCTTGAAGATCTTGGGGATCCAGCTCTGGGGACAGGAACAAATGTAGGGGTGGAAGTGGGGTGAGAGGGCACCCAGTTCTGTCCTATGGGAC
ACAGAGCCACCCACCCCGTGCGCTCCCCACGGACACAGGAGTCCGGGCCCCCAGCGCCCTCCCGCTCCAGACTCAGGAGTCTCGACCCCCATGCCCTGGA
CCCTGGAACCTGGACCCTCCCATCCCCCTCCTCCGTCTGACCCAGGAATCTGGGTGTCCAGCGCCCTCCTCTCTGGGAGCCTGGAGGCGAGGTCCCCAGC
TCCGCGCTCCCGCAGACCCTGGTCCGGCGCTCACCTGCTCCTTCTCCGGCACCACCATGCTGCCGCGGCCGCCGCAACCTCCTGCAGCCCAGGGCCCCGG
CGCTCCCTCCGCCGGCTCTGCTTCCAGACCCGCCCAGAGCAAACCGGATCCTCCACTTTCCAGCCTAGCCTGGGGCGGGGCGAGGTCTGGGGGGCGGGGA
GTCTTGGAGACGCCAAAGCGGGAGGCGGGGAGAGGGCGGGTCCCAGGCCGCGATAAGGGGACAGAGGGACAGCGACCTGGGGGGTGCAGAGGCCCGGGCC
GGGGGGAGAGAGACACACAGGGGAGACTCCAAGGGCAAGCGCGAGATGGGAACAGAAGGAGTTGGGGGCCAGTGGCGGAGAGGGAACAGACTCAGAAAGG
AGGATGCCAGACAGGGAGGGGACAATTTAACCCAAAGAGGGGGAGACAAAGACTTAGGGGACAGAGAATCAGAAGGTGGGGCAGCAGGGACCCAGGGATA
GACAGAGAGAGAGGGGGACAGAGACCCACAGAGAGAGGGGGACAGAGACCCAGGGAGAGGGGACAGAGACCCAGAGAGAGTGGGACAGAGACCCAGAGAG
AGTGGGACAGAGACCCACAGAGAGAGGGGGACAGAGACCCAGGGAGAGGAGGACAGAGACCCAGAGAGGGGGGGACAGAGACCCAGAGAGGGGGGGACAG
AGACCCAGGGAGGGGGGGACAGAGACCCAGGGAGAGGGGACAGAGACCCACGGAGAGGGGGACAGAGACCCAGGGAGAGGGGACAGAGACCCAGAGAGAG
GGGGACAGAGACCCAGAGAGAGGGGGACAGAGACCCAGAGAGACGGGGACAGAGACCCAGAGAGAGGGGGACAGAGACCCAGAGAGAGGGGAACAGAGAC
CCAGAGAGAGAGGAGGACAGAGACCCAGAGAGAGGGGGACAGAGACCCAGAGAGACGGGGACAGAGACCCAGAGAGAGGGGGACAGAGACCCAGAGAGAG
GGGAACAGAGACCCAGAGAGAGAGGGGGACAGAGACCCACAGAGAGAGGGGACAGAGACCCAGAGAGAGGGGGACAGAGATCCCAGAGAGAGGGGGACAG
AGACCCAGGGAGAGGGGGACAGAGACCCAGAGAGAGGGGGACAGAGACCCAGGGAGAGGTGGACAGAGACTCTGAGACAGAGGGGGACAGAGACTCTGAG
AGAGAGTGGGGACAGAGACCCAGAGAGGTGGATGCCAGAGATGGGGAGGAGACACCTTGACTGAGGCAAGGGGCAGAGGGGGATGCAAAAACCAAAGAAT
TGGGGGAAGGGCAGGAACTCAGAAAGGAGGGGCCAGAGATTTAGGGGAGAGAGAGGGACACAGACTTGGGGGAGGACTGACACTAAGATAAGAGTGGGAC
AGAAGCCCAGAGTGAGAGGGAGAGGCAATCCCATGGAGGAGGGACAGGGACCCTGAGAGAGCAGATGACAGAATTGAAGAGAGAGGAGGACCCGTGAACA
GGAAAGGAGACCCTAGTGGGGGCAGTCATGAAGGGTGAGGAGTAGGAAATACTGACACACAGAGACGGGCAAGGCCACTTGTCTCCTGCCAGCCCTCTGT
GATGGGGACAGCTGTGGCCTCCGTAACCTGAGTCCCCCTACCCCTCCCAGCTGTATTTATAGCCCTGGCCTAGCCCAGTCCCTGCCCCCAGATCTGAGTT
CCAGGGACAGGAGGTCATGGGCACGTGTGTTGGGGGCCATGTTCCTTTCCCCCCATTCTAGGGCCTCAATACTGACATCACTCTCTCACCAGCACGTATC
ATTCCAGCTGGAAACACCCCGCAATCGAACCCCCAGTCCTTCCRTCCCAGGRGTCTCTCCCCTCTGATAAGTCTCTTCTGCCTCCCCCAGGTGCCCCAGG
CTCCCCCAAAAACCTGCTAAAAGTCTAGCCTTTGTCTTTGCAGCTGCCAAACGTGAGCTTGTTGGTAGTTCAAAGTCAAGTCCCTTGGCCACCGTCTCCT
GGCCAGGGAGAGACCCCTCACTGGTCCCCTCCCCAGCTGGGAGGAGGAGGAGCAGGAGGCAGGCAGGCGGGGACTGACCCAGAATAACTCAGGGCTGAGA
GTAAATTTAGCTGGAGAGAGGGGAGGGGAAGGACCCTATTGGCTGGGGAATGGGGAGGGAGGGCCCCAGAGGGGGGTCAGGGGGCTCCGGAGACAGCCTC
AGAGGGGTGTCCAGAGCCAGGCAGCAAGGACCAGAGGAAGGTGGACAGAGACCGAAAGGACAAAGGAGAGACACAGAGAAAAAAAGAGACCAACCCCAAA
GGGACAAAGACCCCAACGTTTGTCCACATTGCCGCAGAGGCAGCTGGAGCCAGTGCTGCCTGTCCGTCCCCATGGGCCACCATAGGCCATGGCTGCACRC
TTCTGTCCTCTGGGCTGGGGTGGCCAGCCTGCTCCTCCCCCYGGCCATGACCCAGCAGCTCAGAGGGGATGGGCTRGGCTTCAGAAACCGGAACAACARC
ACTGGAGTCGCCGGGCTCTCCGAGGAGGCATCAGCAGAGCTTCGCCACCACCTCCACAGCCCTAGAGACCATCCAGATGAGAACAAGGATGTTTCCACAG
AGAATGGGCATCATTTCTGGAGCCACCCAGACCGTGAAAAGGAGGATGAAGATGTCKCCAAGGAATATGGGCACCTACTCCCAGGCCACAGGTCCCAAGA
CCACAAAGTCGGAGATGAGGGTGTCTCAGGTGAGGAGGTCTTTGCAGAGCATGGTGGGCAGGCCCGTGGGCACAGAGGCCAYGGGAGTGAAGACACGGAA
GACTCAGCTGAGCACAGGCACCACCTCCCCAGCCACAGGAGCCACAGCCATCAAGACGAGGATGAGGATGAAGTTGTGTCCAGTGAGCATCACCATCATA
TCCTCAGGCATGGACACCGAGGCCATGATGGGGAAGATGATGAAGGAGAAGAGGAGGAGGAGGAGGAGGAGGAGGAGGAAGAGGAGGCCTCCACTGAGTA
TGGACACCAGGCCCACAGGCACCGAGGCCATGGGAGTGAAGAGGATGAGGATGTCTCAGATGGACACCATCATCATGGCCCCAGCCACAGGCACCAAGGC
CATGAAGAAGATGACGATGATGATGATGATGATGATGATGATGATGATGATGATGTCTCCATTGAATATAGACACCAGGCTCACAGGCACCAAGGCCACG
GGATTGAAGAGGATGAAGATGTCTCAGATGGACACCATCATCGCGACCCCAGCCACAGGCACCGAAGCCATGAAGAAGATGACAATGATGATGATGATGT
CTCCACTGAGTATGGACACCAGGCCCACAGGCACCAAGACCACAGAAAGGAAGAGGTTGAGGCTGTCTCAGGTGAACACCACCATCATGTCCCTGACCAC
AGGCACCAAGGCCACAGAGACGAGGAAGAAGATGAGGATGTGTCCACTGAACGTTGGCACCAGGGTCCCCAACATGTCCACCATGGCCTTGTAGATGAGG
AAGAGGAAGAAGAGGAGATCACAGTCCAGTTYGGCCACTATGTTGCAAGCCACCAACCTCGAGGCCACAAGAGTGATGAAGAGGACTTCCAAGATGAGTA
TAAAACAGAAGTCCCTCACCATCACCACCACAGAGTCCCCAGGGAGGAAGATGAGGAGGTCTCTGCTGAGCTTGGCCACCAGGCCCCCAGCCACAGGCAA
AGCCACCAAGATGAAGAAACTGGCCATGGTCAAAGAGGGTCCATCAAAGAGATGAGCCATCACCCCCCAGGACACACAGTGGTCAAGGATAGAAGCCATT
TGAGGAAGGATGATTCTGAGGAGGAAAAGGAGAAGGAAGAGGACCCCGGCTCCCATGAGGAAGACGATGAAAGTTCAGAGCAGGGAGAGAAAGGCACCCA
TCATGGCAGCCGGGACCAGGAAGATGAGGAGGATGAGGAGGAAGGTCATGGCCTCAGCCTGAACCAGGAGGAGGAAGAAGAGGAAGACAAGGAGGAGGAG
GAGGAGGAAGAAGACGAGGAGAGGAGGGAAGAGAGGGCTGAGGTTGGGGCCCCACTGAGCCCAGACCACAGCGAGGAGGAAGAGGAGGAGGAGGAGGGGC
TGGAGGAAGATGAGCCCCGCTTCACCATCATCCCCAACCCACTGGACAGGAGAGAGGAGGCTGGAGGTGCCTCCAGCRAGGAGGAAAGCGGTGAGGACAC
AGGTAAGTGGCCTGGGCTGGTGTGGGTGGGAAGGAACCGAGTCAGCCTGGGTCACTGCTGCCCTCCTGTCCCCGCAGGTCCACAGGATGCTCAGGAGTAT
GGGAACTACCAGCCAGGGTCCCTGTGTGGCTACTGCTCCTTCTGCAATGTATGTCCCCAGCCCAGATCCACCCACCAAGGTGTCCCCAGAATCTGTCCCA
GGGGCCCTGGGGTGGTGCTGTGGGAGGGCTCAGAGCAAGGGCAGGCCAGGGTCAGTTCTGAAAGAAAAGAGATCCTTCTGCAGGCATGTGAGGTGAGGAC
AGACTGATGAAGGCTGGGAGGCTGGGGCAGTGGTCCAGGAAGGAGAGGACAAGACCCAAGCTGCATCTTGGGGTGTGGGGACAGAGACAGGGGTCTGTGG
CAAAGAGAGTCGGGGGAAGGAGGGATGGCACAGGGGCTGATAGGCTAGGGGGAGAATAGGCAGAGAGCGGGTGGAGAGAGCACCTGAGCCCACCCTGACA
GGGAGACATGGGGTCGCCCTGAGATAGAAAACCAGGGGCAGGGCCGGGTGTGGTGGCTCACGCCTGTAATCTCAGCACTTTAAGAGGCCAGGGTGGGCGG
AACACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCATTTCTACTAAAAAATACAAAAAAATTAGCCGGGCATGGTGGCACGCACC
TGTAATCCCAGCTACTCAGGAGGCCGAGGCAGGAGAATCGCTTGAACCCGGGAGACGGAGGTTGCAGTGAGCTGAGGTTGCGCCACTGCACTCCAGCCTG
GGCGACAGAGAGAGACTCCGCCTCAAGAAAAAAAAGGAAAAAAAGGGAAAGGAAGGAAACCAGGGGCAGGGGAGGGGAGGGGAGGCTGGTTTGGGGGGCA
GATACAGAGCTCAGTGTTAGAGATAAAGAGGGTAGAGTCTGGGGAAGCGTCCAGGGTGCAGGGGTGGGCCAGGGGCGGGTACCTCCCAAGTGGCGTTAGA
GTTTCCATCTAACCAGGCTCCCCCGGTCCCCAGCGATGCACTGAATGTGAGAGCTGTCACTGTGATGAGGAGAACATGGGTGAGCACTGCGACCAGTGCC
AGGTGAGACCTCACCTCACACTCAAGGCTCCACTGGGCCTCAGGATGCACCGGGACCCTCTGAGGACCCCCAGCCCTAAATCCTGGCCTCTGACCCAACC
CCTTACCCCTGATGCAACCTTGACTCCACAAGCGATCCTGACTCCAACCTTAACCTAGACCTAGCCTCTGGTCCGGGTCTGGTCCCGGCCCCATCCTAAC
TCCGCCCCCGGCCACGCCCCACGCTCACTCTCTCTCCCCGTCCCCGCCTCCAGCACTGTCAGTTCTGCTATCTCTGCCCGCTGGTCTGCGAAACGGTCTG
CGCTCCAGGTGAGCATGGGCGGGGCCCTGGAAAAACCTGAGGAAGGTGCCGGGCCCAGCGTGGTGAATCCTGGTGGGGGCGGAGCCTGGCCCGGWAGGCT
GGTGGGGCGGGGCTAAGAGGGGAGGCGTGGCCAAGGCTCTGAGCACGTGGGCCGGGGCCTGGCTCGAGGAACACCAGGTGGAGTTGCTGGAGCCAAGGGA
CAGAAATGAGTGGAGGGTTGAGATGCGGGCTTAGAGCCTAATGGGCGAGGCCAACTCAAGTAGGAATCGAAGGGGCGGGGCTACTGGAGAACGGAATCAC
CCAGAACGAAAAAGGGGTCCGGTAGAAGGGATTCAGTTGGAAGAAGGAATTAGGGAAAAGGAGGTGGAGCTAGCACTAATCTCGCACGCTATACTGAGTG
GCTGCCTAATTTTGCTCGTGCAGTACCCCTCAAGCCTCTTTTCTCTGCTGTCCCACAGGAAGCTACGTTGACTATTTCTCCTCGTCCCTTTATCAGTAAG
TGTGTAAAAGGGGAGCGTGTAAAAGCCCCGTTTAGAGAAGTGCTTGTCTCGCTATGAGTTATCAGATGACTCTGGGACTCCATTTCCCCGTCCATGAAAT
GGGCAGGTTAATGATCTCTAAGCGTCCTGGGGTGGGCTTTGAACACCAGCTGTCTAACTTCTGGCGTTCTCGTCTCCAGGGCCCTGGCAGACATGCTGGA
AACGCCGGAACCCTGACCCAGTCGCTCGACTGCGACGCAGGTGTACCTCCCCCTGCCTTCCAACCCCTTTCCACGAGCTATATTTATTTCTCCGAATAAA
CGTGCTCCCCGAAACCTCATTGTCAGACGTGGGGTCTGGGAATCTCAGGGCATCGGGGAATGCGGGTAGGGTCTAGAGACCTGGACCTAGACTTGAGGGA
TGAGGGGCCTGGACTCCTGGCTCGAGGTGGTTGGTTGAACAGCCCCCCCCCCCCCCGCAAAAAAAAAATCAGTCAACAAGGAAGCTTTTTGAAACAGTTC
TCTTTACCCGTGATCACTGAGTGACGCCTGGGGCGGGGAGGCCGACCGAGAGTCGGGGGCGAGGGCTCCCCCACCGTCCCCCTGCCCCCACGCCACGTCG
CCCAGCGGMATCGTGGAAAGAGGATTCTCCCATGCAAACCCCGGAGCCAGAGGAGAAGGGGAAGCGCCATTCTGCGCCCCCTACCCCCGGGGCACGGACA
CGGCCACAGCACGGGGGGCGGTGAGGCCCCGGGGACACGAGACACGGGGGAGGGAGAGGGGAMCCCGCCCGCAGATGACCCGGGGGACCGGCGACCGGAC
GCGGCGGGGCGGAGCTGAGTGGCACAGGGGGCGAGGCTTGTAGCAGCGAGTCCCCCCTCCCCTCCTTTCGGACGAAGAAGGAAGACTTGGGCCCCGCGAC
TGSGCAGGAAAAAGGGGAGGGAGCAGCCTCTCCCCGCATGCGGCCCGGGAGGGAAGCCCCGCCCCCTTCCCGCGGGTAAAGGACACCCGTCTCCCAACAG
AAACTGATCAATAAATTACAAAGTAGAGAAAAGGAAAGCGGACGTTTGGGGCGGGATTTCTTCCTCCCCGCTTCTTCCCCCTCTCAGTCCAGTTCATGTG
GTTTGGTCCAGGCCCCGGCCCTGTGCGAGGCGGGCGCGCGCACTCCCGCTGGTCTGTACAGATGGTCCAGTCCTCGGCGCGAGCTCCCCCGCCCGCTCTC
CCCGGCGAGGCCACAGTCCGGGCAGGAGAGGGAACAGCCCAGCCTCGGGAAGATTCTTCCGTCCGAGTGAGGTCACCTGCATGACGCCGGGCAGCGCGTG
GAGCAGTGAAGATCCACCGTGCCGCCCCGCACCCCCAAGGTCGCCCAGCACGGTCCTCACCTGGAGGCCTGCACTAGCAGGAATAGGTCCGGACCGAAAC
GCCGTCTGCCCGGGAACTCCCAGAAGTCTGGCCTGGAGGGAGAGCGAGCAGCGGTTCAGCCTGGAGCACCCTCCTCCCTGTTCCTCTCCAGGATTCCTCC
CTTTGGACTTCCCTTCCCGATGTCACAACGATCGCCGGGCTCCACATGGGTTTCCCTCCCTTCCCCGCAGCCAAGGACTCAAACTCGCATTGGGCGAGTT
CACTCCCGCCCTGGGAAGGGGGAGTGGGATTTATCCATTTCATCCTGACGGGGGAGTCCGGAACGTTGGAGCAGTCCATTCCTCAGGGGTGGGCGAGAAA
GGACTAGGCCATTCCAGAACCCGGACTACTGAGGTGGTCCATGCCCCACCCTAGGGAAGCGAGGAAGGGCTGTCGCATTTGGGAGCCCCCCACCTTCTGG
CTGCAGCTTGCGGAGAGGGAGCCCCGGAGAGCCCAGGGCTCCCGCTGCAGCCGAACGAAAGTTGGGGGGCAACATCTCAGCTGAGTCGGGAGTTACGCCT
CGGAGGTCCTTCTCCCGGAACATCTTCCGCCAGGATGGGGAGCGGCTGAAAGACTTGGCGCTGTCCTAGGTATAGGAGCCGGACAGCCGGTGAGGGACTC
CTGCCTTGTCTGACTCCGCCCCTTCCTTTGACTCCACCCCTCTCCGGGTCTCACCTCTCCTTTAACCCCGCCCCTCTCCTGGCCCCGCCTCCAACCGTGA
CCATTAATAGTCAGGCCCCGCCCCCTCAGCTCAGCCTCTCGAGGAGCCGCTGGGAGCAGAGCCCTCTGAGCTGTTGCCGCGCCCACCTCGTCCAGCCGCC
TGTCTGTGCCTAAGGAGATAAGGTTGCTGAATTCCTTCTCCAGAAGCTGCCGGGCCTGGAAAGAGGAGGTGGAGGGGGCGGTTGGAGCGTGCAGTCTGCG
AGGTGGGGACGCCCAGCATGCTCCGGGCCCAGCGGCAGCTCACCTGTGCATTCTGCGTGGGGATCTGCAGGAGCAAGGCCAGGTCGGAGTAGTCGAAGGT
CTCGTCCAGGGCGAGCAGTGCCCCGTGTACCCCGCTCTCCGTGAGGTTCGTGGCAAATTCCTTCAGGCCCAGCCCGGACACCCAACCCATGACCCGCTCA
TTGGACCACACCATCACGTCTGGGGACGGAAGGGACCCTCAGCCGTGCCCCTCCCGTGGCCTGGAGAGTTCAGTTTAGCCCATACCTCCACCTCCATTTG
GTCTCTTCGGGCCACGCCCCCCACGCTGGCTCCACCCCCACGGTTATGGTGCCAATTTGCTTCTCCGGTCTCCCCCTACCCCCTCTCCTCCCCATCCAGC
TCCACGCCCTCCACCTGGCTCCCAAAGGGACCCTTAGGCTCTACTCACCTCGGATCTGGGTCTGACTTTCTTCCCGCCTCCGCTCCAGGTCCTTCCGGTC
ATAGTTGAGCCGTTTCAGGCACATAATCCCATAATGTAGACTCACCCTGAGCAGCAGGGGAAGTGGAGTCACGGATGAGCTTTCCAGTCCCCTAGACTGC
TGCTCCTACGGGTCCCTCCCCACTGGCTGCGCTCTTCTTGGAAAGGGTGGGGAGCTGATAAGTTCTATTGACTGTTGATCCCCTCAGGAGGTGAGGCATT
TTCAATAATAGGCACTTCCTACTGGCCAGCCTGGAAGGGGTCCAGGGTTAACTAGCCAAGCCATTTCAGGATCTGAACTTTTCCTGTGGACCATCTCATT
GGTGAAAGGAGCACAGAGTCAGGATTTCCTGAGAACTCAGGCTAAAAGGGCCAAGATAAGCCTGGGAATCTCCCATGGCCAATCCTATTGGCCAAAGACT
CTCTGGGGTGGGGCTTCCCTTTGGACTGTCCCCACTGGCCAGGCAGCCCCCACCTGTGAAAGCTGTCCACCATCTTGAGTTGGCCCCGGAGCTCCTTCTT
GTTAAGGTGATCTAACATTCGAGCGTCCACCAGCGACTCCATGAAGTAGCTGCGGTAYTGGGGCAGCCCCAGGCTGGGCAGCCAGTCGTTCCCCACCCAC
TCGTGGTTCATGTCGCCATATGCCAGGATCTGGGGCCATGGGCAGGTGAGGGAAGAGTCAGGCCCTCTGGCCCCTTCCCACTGTGCATGAGAGGGGTACA
GTCCAACCTCCCAATCCAAGGTTTTTTCCCACCCCATGGTAGGACAATGACCAATCTCTGCTCAGGATAATGGACCAATCCAGAGTTGTCTCCTAGCCCT
TCATGACAGCATATACTCTTGGCTACTCAAACAGTTGTCCTGAGACCTAGAGCGTCACCATCACCTGTGGACTTGCTGGAATTGCAGAATCTCAGACCTT
ACTCCAGACCTACTGAAGTCGGTATCKGCATTTTCACAAGACCCTCAGGTGATTCGAAATATACATTATATTTATTTTTAAATTTCTTTCTTTCTCTCTT
TCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTGAAAGAGTCTGCTATGTCACCCAGGCTGGAGCGCGGTGGCACGATCTCGTCTCACTGCAACCTCCCCAT
CCCAGGTTCAAGCAATTCTCTTGCCTCAGCCTTCGAGTAGCTGGGATTACAGGTACGAGCCACCACGCCCGGCTAATTTTTGTATTTTTTAGTAGAGACG
GCGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGGGATCCGCCCACCTCAGCCTCCCAACGTGCTGGGATTACAGGCATGAGCCACC
GCGCCTGGCTGTATTTGTTTATTTTTTAGAGACAGGGTCTTACTATGTTGCCCAGGTTGACCTCAGCTTCGTGGGCTCAAGCGGTCCTCCTGCCTCAGTC
TTCCAAGTAGCTGAGACTACAGGTGYGTGCCACCCCACTACACATTAAATTTGGGGAAGCACTGCTTTAACTCTGTCTCACTGCAGTCCAACGTCACTAA
ACCCCCAAGTCAGGACAATGGACTCTTTCAAGGCAGCTCTCCCACTAAGAAAGGGCCATCACTCTTGCAATGTCCTGAAAATACTTGTCTAATGTTATAT
CTGGCCCAGGACAATATTCCAGATGAGTCCCAAGTCCCTCACTCCTTTCAGTATCAGCACAAAATCCACGCCTCCCCCTGGCTGGAAATATGTGATCTAT
GACCACAGTCAAACATAATTCCTCCGTGGACAGTGAGTTCATGCCTCTTGGGTTTTTTTGTTAGTTTATTTGTTTGGTTTTTATGAGATGGAATCTGGCT
CTRTCACCCAGGCTGGAGTACAATGGTGCAATCTCGGCTCAGTGCAACCTCTACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTG
GGATTACATACGCTAGCCACTGCACCCGGCTAATTTTTGTATTTTTAGTAGACACAGGGTTTCACCATGTTGGCCAGACTGGTCTCAAACTCCTGACCTC
AGGTGATCTGCCCACCTCAGCCTCCTAAAGTGCTGGAATTACAGGCGTGAGCCACTGCGCCCGGCCGCCTCTTGTTTCTTGAGAACAAAGTGTAGCTCCT
CCTCCCCAACTTCTCATTCAGCCTGGCTGCCTCACCACCACCACAGCCAGTGTGTCCTCCTTGGCCCTGGTACACTGAGCAGTCCACTGTAGCCCCCGCC
CCCTCCACTATAGGGACACCGGCTGCTCAGTCTCTCCTGAGCTACAGAATTGAAGCCCCTTAGAGCCCCCACAACCCACGATGATGAAATGGTCCATGCA
TAAGGCTGACTATGCAACAGTCTGGGCTTCCACATCGCATCCCCTCTACCCTCCCCACCGCCAAGCCATAATGGAACAGTCCAGAGCCAAGCTTGGCGCA
GCGCCCCCCCATGGGGATGATGGCATGTTCTGGTGAAGGCAGGGGCAGGGCTCGGAGGAGGGGCATCCATGCRTCGTGCACAGCCTGTTCATGCGCTCAC
GCCCCGCCCCGCGCCCCCTACCTGCTCCCAGCTGATCTCCTTGGTCTCCTGACCCGTTAGTAGGAAGAGGGGAGAGAAGGGGTGAGTTAAGGGGCAGGCA
GAGGAGGACGCAAGGAGCGGACTTAGGGATGGCCACAGACTCGGTCCCCGCCCCCACCCCCAAAGAAGGTTAGTGCCACCCCCAAGGCGGCCGGCAGGGG
GCACTCACGGGCTTGGTCGTGGCCGTAAGGGACTCCATCTCCTCGTGTGTCATCCACACGTTTCCTGTGGACTGAGGGGCAGGGAGTGTTAATGGATGGT
GGGAGAGGGCTTCGCGTGGGGGAGAGGAAGGAGGGTGTCCTCCTGAAGGCCCTGGGCCACACGTTTATGTCCCTCCTGCTTTCTGGGGCAAGCAGTAACA
GAGAAAAGGAATGATTCTTATTATAGGGCACCTGCCATGTACCAGGCAATGTGACTTTGGAGTTGAACAAATTCAGGTTGGAATTGGGACCCTGCCATGC
ATTTTGCTGTGTGGCCCTGTGCAAATGACGTCACCTCGCTGACCTCACACAGAGGTACAGAATGAGGATTCAGAAGTGGGGGACAGACACAGCCATGGTG
CAAATGTTTAGGGAGTATGGCGGGGGGGGTTCACATTTATTGAGCTTCTGCTCCCAACAACCTCACGAGTTAGGAATCCATACAAGGATAAAAACATTTA
TGTACTTCTGGTGAGTGTCAGGCACCAGTCACCGTCATAGGGTGTGGGATATGGCAAGGGACACGACAGACACTTTTCGTCCTAGTGGGGGAGAAACAAT
GAACATATTTTAAGTATGTTGGGGAAATTTGAATACAGAGTGAATAGTAAATGAAATTAACAACTGTGGCCAGGCGTGGTGGCTCACACCTGTAGTGCCA
GCACTTTGGGAGGCTGAGGCGGGCACATCACTTTTGGAGATTGAAGACTAGCCTGGCCAACCTGGAGAAACCCCATCTCTACTAAAAATACAAAAATTAG
GCTGAGAGTGGTCTAGCACT


SNP Information

Context             (SEQ ID NO:14204):
CCTTTCCCCCCATTCTAGGGCCTCAATACTGACATCACTCTCTCACCAGCACGTATCATTCCAGCTGGAAACACCCCGCAATCGAACCCCCAGTCCTTCC
R
TCCCAGGAGTCTCTCCCCTCTGATAAGTCTCTTCTGCCTCCCCCAGGTGCCCCAGGCTCCCCCAAAAACCTGCTAAAAGTCTAGCCTTTGTCTTTGCAGC
Celera SNP ID:            hCV27852289
SNP Position Genomic:     5644
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,18)   total(A,1|G,49)
SNP Type:                 TFBS


Context             (SEQ ID NO:14205):
GGCGGGGCGGAGCTGAGTGGCACAGGGGGCGAGGCTTGTAGCAGCGAGTCCCCCCTCCCCTCCTTTCGGACGAAGAAGGAAGACTTGGGCCCCGCGACTG
S
GCAGGAAAAAGGGGAGGGAGCAGCCTCTCCCCGCATGCGGCCCGGGAGGGAAGCCCCGCCCCCTTCCCGCGGGTAAAGGACACCCGTCTCCCAACAGAAA
Celera SNP ID:            hCV2885901
SNP Position Genomic:     10803
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:14206):
AGCGCCATTCTGCGCCCCCTACCCCCGGGGCACGGACACGGCCACAGCACGGGGGGCGGTGAGGCCCCGGGGACACGAGACACGGGGGAGGGAGAGGGGA
M
CCCGCCCGCAGATGACCCGGGGGACCGGCGACCGGACGCGGCGGGGCGGAGCTGAGTGGCACAGGGGGCGAGGCTTGTAGCAGCGAGTCCCCCCTCCCCT
Celera SNP ID:            hCV2885902
SNP Position Genomic:     10663
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|C,6)      total(A,1|C,6) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:14207):
ATGAGGATGTGTCCACTGAACGTTGGCACCAGGGTCCCCAACATGTCCACCATGGCCTTGTAGATGAGGAAGAGGAAGAAGAGGAGATCACAGTCCAGTT
Y
GGCCACTATGTTGCAAGCCACCAACCTCGAGGCCACAAGAGTGATGAAGAGGACTTCCAAGATGAGTATAAAACAGAAGTCCCTCACCATCACCACCACA
Celera SNP ID:            hCV2885904
SNP Position Genomic:     7332
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;JBIC-allele(T,28|C,1465)   total(C,1465|T,28)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14208):
TTAGAGACAGGGTCTTACTATGTTGCCCAGGTTGACCTCAGCTTCGTGGGCTCAAGCGGTCCTCCTGCCTCAGTCTTCCAAGTAGCTGAGACTACAGGTG
Y
GTGCCACCCCACTACACATTAAATTTGGGGAAGCACTGCTTTAACTCTGTCTCACTGCAGTCCAACGTCACTAAACCCCCAAGTCAGGACAATGGACTCT
Celera SNP ID:            hCV28006370
SNP Position Genomic:     14126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14209):
GCTTCTGTCCTCTGGGCTGGGGTGGCCAGCCTGCTCCTCCCCCCGGCCATGACCCAGCAGCTCAGAGGGGATGGGCTGGGCTTCAGAAACCGGAACAACA
R
CACTGGAGTCGCCGGGCTCTCCGAGGAGGCATCAGCAGAGCTTCGCCACCACCTCCACAGCCCTAGAGACCATCCAGATGAGAACAAGGATGTTTCCACA
Celera SNP ID:            hCV2885905
SNP Position Genomic:     6299
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,6)   caucasian(A,18|G,20)   total(A,26|G,26)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): (G,1|A,3)      total(G,1|A,3)Caucasian(A,104|G,206)   Chinese(A,17|G,41)   Japanese(A,6|G,14)   African(G,43|A,55)    ;JBIC-allele(A,477|G,1006)   total(G,1006|A,477)   (G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14210):
GCCACCATAGGCCATGGCTGCACGCTTCTGTCCTCTGGGCTGGGGTGGCCAGCCTGCTCCTCCCCCCGGCCATGACCCAGCAGCTCAGAGGGGATGGGCT
R
GGCTTCAGAAACCGGAACAACAACACTGGAGTCGCCGGGCTCTCCGAGGAGGCATCAGCAGAGCTTCGCCACCACCTCCACAGCCCTAGAGACCATCCAG
Celera SNP ID:            hCV2885906
SNP Position Genomic:     6276
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,9)   caucasian(A,19|G,17)   total(A,28|G,26)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;JBIC-allele(G,382|A,891)   total(G,382|A,891)   (G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14211):
GGAAGAGGAGGAGGAGGAGGGGCTGGAGGAAGATGAGCCCCGCTTCACCATCATCCCCAACCCACTGGACAGGAGAGAGGAGGCTGGAGGTGCCTCCAGC
R
AGGAGGAAAGCGGTGAGGACACAGGTAAGTGGCCTGGGCTGGTGTGGGTGGGAAGGAACCGAGTCAGCCTGGGTCACTGCTGCCCTCCTGTCCCCGCAGG
Celera SNP ID:            hCV25633960
SNP Position Genomic:     7978
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,22)   caucasian(G,40)   total(A,2|G,62)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14212):
CAGGCCACAGGTCCCAAGACCACAAAGTCGGAGATGAGGGTGTCTCAGGTGAGGAGGTCTTTGCAGAGCATGGTGGGCAGGCCCGTGGGCACAGAGGCCA
Y
GGGAGTGAAGACACGGAAGACTCAGCTGAGCACAGGCACCACCTCCCCAGCCACAGGAGCCACAGCCATCAAGACGAGGATGAGGATGAAGTTGTGTCCA
Celera SNP ID:            hCV25633957
SNP Position Genomic:     6582
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,5)   caucasian(C,37|T,1)   total(C,48|T,6)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:14213):
GGAACAGTCCAGAGCCAAGCTTGGCGCAGCGCCCCCCCATGGGGATGATGGCATGTTCTGGTGAAGGCAGGGGCAGGGCTCGGAGGAGGGGCATCCATGC
R
TCGTGCACAGCCTGTTCATGCGCTCACGCCCCGCCCCGCGCCCCCTACCTGCTCCCAGCTGATCTCCTTGGTCTCCTGACCCGTTAGTAGGAAGAGGGGA
Celera SNP ID:            hCV26654622
SNP Position Genomic:     15173
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14214):
AAGGGACAAAGACCCCAACGTTTGTCCACATTGCCGCAGAGGCAGCTGGAGCCAGTGCTGCCTGTCCGTCCCCATGGGCCACCATAGGCCATGGCTGCAC
R
CTTCTGTCCTCTGGGCTGGGGTGGCCAGCCTGCTCCTCCCCCCGGCCATGACCCAGCAGCTCAGAGGGGATGGGCTGGGCTTCAGAAACCGGAACAACAA
Celera SNP ID:            hCV25633958
SNP Position Genomic:     6199
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,25)   caucasian(G,38)   total(A,3|G,63)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14215):
CCACAGTCAAACATAATTCCTCCGTGGACAGTGAGTTCATGCCTCTTGGGTTTTTTTGTTAGTTTATTTGTTTGGTTTTTATGAGATGGAATCTGGCTCT
R
TCACCCAGGCTGGAGTACAATGGTGCAATCTCGGCTCAGTGCAACCTCTACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGA
Celera SNP ID:            hCV26654623
SNP Position Genomic:     14503
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14216):
AGCTGGAGCCAGTGCTGCCTGTCCGTCCCCATGGGCCACCATAGGCCATGGCTGCACGCTTCTGTCCTCTGGGCTGGGGTGGCCAGCCTGCTCCTCCCCC
Y
GGCCATGACCCAGCAGCTCAGAGGGGATGGGCTGGGCTTCAGAAACCGGAACAACAACACTGGAGTCGCCGGGCTCTCCGAGGAGGCATCAGCAGAGCTT
Celera SNP ID:            hCV25633959
SNP Position Genomic:     6242
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,1)   caucasian(C,38)   total(C,61|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14217):
GAAAGCTGTCCACCATCTTGAGTTGGCCCCGGAGCTCCTTCTTGTTAAGGTGATCTAACATTCGAGCGTCCACCAGCGACTCCATGAAGTAGCTGCGGTA
Y
TGGGGCAGCCCCAGGCTGGGCAGCCAGTCGTTCCCCACCCACTCGTGGTTCATGTCGCCATATGCCAGGATCTGGGGCCATGGGCAGGTGAGGGAAGAGT
Celera SNP ID:            hCV25635499
SNP Position Genomic:     13258
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,2|T,36)   total(C,2|T,72)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14218):
TACACAGACCCAAACGCTCCTAGAGGGAGAGCGTCGGCAAGGAACGCCCTTGGGAAGGTCCCCGAGTCCAGGAATGGGGAAGGAGCAGGGCTGGGGCGTG
R
CCATCCGCGGGCGGGGTCAGCGGGCCGCGGACCCTCTGGGGTCAGTCCAGGGGCGAACTCCTCACCCCGGATCTGTGGAGTCAACTATGAACGTCGTGCA
Celera SNP ID:            hCV27476038
SNP Position Genomic:     3400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:14219):
CCCATTCTAGGGCCTCAATACTGACATCACTCTCTCACCAGCACGTATCATTCCAGCTGGAAACACCCCGCAATCGAACCCCCAGTCCTTCCGTCCCAGG
R
GTCTCTCCCCTCTGATAAGTCTCTTCTGCCTCCCCCAGGTGCCCCAGGCTCCCCCAAAAACCTGCTAAAAGTCTAGCCTTTGTCTTTGCAGCTGCCAAAC
Celera SNP ID:            hCV27840457
SNP Position Genomic:     5652
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,18)   caucasian(A,8|G,6)   total(A,24|G,24)
SNP Type:                 TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:14220):
CTCCGCCCCTTCCTTTGACTCCACCCCTCTCCGGGTCTCACCTCTCCTTTAACCCCGCCCCTCTCCTGGCCCCGCCTCCAACCGTGACCATTAATAGTCA
G
GCCCCGCCCCCTCAGCTCAGCCTCTCGAGGAGCCGCTGGGAGCAGAGCCCTCTGAGCTGTTGCCGCGCCCACCTCGTCCAGCCGCCTGTCTGTGCCTAAG
Celera SNP ID:            hCV26654626
SNP Position Genomic:     12014
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14221):
ACTCCGCCCCTTCCTTTGACTCCACCCCTCTCCGGGTCTCACCTCTCCTTTAACCCCGCCCCTCTCCTGGCCCCGCCTCCAACCGTGACCATTAATAGTC
A
GGCCCCGCCCCCTCAGCTCAGCCTCTCGAGGAGCCGCTGGGAGCAGAGCCCTCTGAGCTGTTGCCGCGCCCACCTCGTCCAGCCGCCTGTCTGTGCCTAA
Celera SNP ID:            hCV26654627
SNP Position Genomic:     12013
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14222):
GGTCTGCGCTCCAGGTGAGCATGGGCGGGGCCCTGGAAAAACCTGAGGAAGGTGCCGGGCCCAGCGTGGTGAATCCTGGTGGGGGCGGAGCCTGGCCCGG
W
AGGCTGGTGGGGCGGGGCTAAGAGGGGAGGCGTGGCCAAGGCTCTGAGCACGTGGGCCGGGGCCTGGCTCGAGGAACACCAGGTGGAGTTGCTGGAGCCA
Celera SNP ID:            hCV11506743
SNP Position Genomic:     9495
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,4)      total(A,4|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14223):
TCAAACAGTTGTCCTGAGACCTAGAGCGTCACCATCACCTGTGGACTTGCTGGAATTGCAGAATCTCAGACCTTACTCCAGACCTACTGAAGTCGGTATC
K
GCATTTTCACAAGACCCTCAGGTGATTCGAAATATACATTATATTTATTTTTAAATTTCTTTCTTTCTCTCTTTCTCTCTCTCTCTCTCTCTCTCTCTCT
Celera SNP ID:            hCV2885893
SNP Position Genomic:     13627
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14224):
CAGCCCTAGAGACCATCCAGATGAGAACAAGGATGTTTCCACAGAGAATGGGCATCATTTCTGGAGCCACCCAGACCGTGAAAAGGAGGATGAAGATGTC
K
CCAAGGAATATGGGCACCTACTCCCAGGCCACAGGTCCCAAGACCACAAAGTCGGAGATGAGGGTGTCTCAGGTGAGGAGGTCTTTGCAGAGCATGGTGG
Celera SNP ID:            hCV11506744
SNP Position Genomic:     6457
SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,5)   caucasian(G,16|T,20)   total(G,21|T,25)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,18)   caucasian(G,17|T,21)   total(G,23|T,39)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;JBIC-allele(G,407|T,1072)   total(G,407|T,1072)   (T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14225):
CGTGATCACTGAGTGACGCCTGGGGCGGGGAGGCCGACCGAGAGTCGGGGGCGAGGGCTCCCCCACCGTCCCCCTGCCCCCACGCCACGTCGCCCAGCGG
M
ATCGTGGAAAGAGGATTCTCCCATGCAAACCCCGGAGCCAGAGGAGAAGGGGAAGCGCCATTCTGCGCCCCCTACCCCCGGGGCACGGACACGGCCACAG
Celera SNP ID:            hCV8832048
SNP Position Genomic:     10509
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Gene Number:                 11
Celera Gene:                 hCG1640452 - 104000117025026
Gene Symbol:                 MYH6
Protein Name:                myosin, heavy polypeptide 6, cardiac muscle, alpha (cardiomyopathy, hypertrophic 1);MYHC;MYHCA
Celera Genomic Axis:         GA_x5YUV32VVQK(29363131..29400462)
Chromosome:                  Chr14
OMIM number:                 160710
OMIM Information:            MYOSIN, HEAVY CHAIN 6, CARDIAC MUSCLE, ALPHA;MYH6


Genomic Sequence (SEQ ID NO:12171):
CCCTAATTTATATACAACCAGTATATCCCAGTTTCCCCCCAACTGCTAGTTTCCAGTTCCCTTCCACCTAATTTTGTCCTGCAATCTTGTAACTCAAACC
TAAAATGGACATCCCAGAGAACCCGGGCCTGGCTTTGTTCTCRCCCAGGCAACTTCCCTCTGACCAACCCCAGAACCCTACCCTCCAGAACTTGCCCCCC
GAMCATCGATCCCTGGAAACACATGTGCTGCTGCCACAGGGGCTTCCACCTGCCCACAAAGCAGGCCCCCCACCATCAGACCCCTCTCACCTTTGTTCCC
ATGCCCTGTCCCTGCCCAATACCATCTCTCCAAGGACTGATTGGACTTTGTTTCCTTTCAAAAGGGCTTGAATGAGGAGTAGCTTTGCCACATCTTGATC
TGCTCAGCCCTGGAGGTGCCAGCAAAGCCCCATGCTGGAGCCTGTGTAACAGCTCCTTGGGAGGAAGCAGAATAAAGCAATTTTCCTTGAAGCCRAGATC
CTGACTCCAGACTCTTCTTCACTGMCCTGAGGACCYGGGGATGGGGTCTGGACTAGGGGAGGTGGAAATGCAGGGGAGTGGGGGCAAATTCAAAGGCCTG
GCCTAGGAGGCCTTCGTGGAGCAGCACTGAAAACCCCTTTCACTTCCCCCAAACCAGCCAAATGCAGCAGAGGCGACACCTCTCCTCCCAGCCTTCTCCC
TGGTCCAGCCAGGATTTAAAGGAGATTTAGGGAGACCCCTAAAGTTCACCTAGAGCACCCTGAGCCCATCTACTGTGGACCTGCACCCCAGCTTCCGTCA
ACCCTGCCCCACCCACCACCATGGATACTGCCCAGGGCTGGGCAAAGGGCAGCGGTTCGGGGTGTGGGTGCTGGCCAGTGCCCTTTCTGAGCCCGCAGAA
GTGTGAACCACTGGGCCAGGTGAGGCAATGGCTGCCTAAGTGCCAGTCCCAGGCGAGTCTCTGAGAGTACACAAGGATTCACAGCTGTAGCCTGCATCCC
CTTTTAAATAGAGCCACCACCCTCTCCAGCCACCGCCAGAAGCCAGCATACCCCCTGCCCACCACAGGTGGGAGAAACACACCCTCAGCCCACCTGCCGT
CCTCCTCAGCTCCTCCTGGTGCCGAGCCCCCTTGGCCCAGGGTGCTCCCTTCTTCCCACTCATTTCTTCCCATTGTAATTCCCATTACCAAGCCCTTTGT
CCTCTGGGCTTGTGGGAAGATGGGGTTCTCCTGGCCCATTTATGGCAAGCCATCTTGAGGGGAGGCAGACAGATGAGGGGCTGGGGAAGGTTATGTGTGA
ACAGGACTCTGGGGAGAGGGAGGGAAGGGATGGCTCCCGAGAGGGCCAGGAGGTGGAGGAAAGAGTAAGTCTCCTCCAACTAAACAAGTTCAGCCCCTTT
GGAGTTCCTGCCACAGCTGGRTTGCTTAGGCAGGCCTGGGACTGTGGGCCACAGAGGTCAGGGGCTTGAAAGGCACTGGGGCTGTCGGCCCCACTGGGAA
CCTGGGAAGCAGTGGTTCAGCCCTGGACTGGATCTCCCCCAACCCACCAACATACCCACTCGGAGCCCACTCCTGCTCTGTACCCAGCTCTGAGCTCGGA
GCTCTGAGGACTGCGGCAGCCAGAGCCAAGGGCCCTAAGCCGGAGAAGGAGAAACCAGTACTGGACAATAGCAGGTGACAGCAGAGGAGAAAAAGGGGGT
AGGGAGGGGACAAGGAAAGACCTGAGGGGGTGGCAGTGGACAAAGAGATTGAGCAACCACAGGACAAGGTAACCAGAGGAAACAGAGACAAGGAAAAAAG
ATGCAGGAAATGAGGAGGCCCCAGAAAGATCCGCAGGCGCCGCCACCTTTCTCCTCATAGCCACCTCCATTCTCCTTCCCTAGGCCAACCCAGACAGAGC
TCCCTCAAACCAGGGATGCTTCCTTTTCATTTATCCAGCTCAATTGAACCACACAGCCCCAGAGGCCAAGGTAATTCAGTTCTCTGTGATTTCTAGGATT
CTTTCAGCCTTTTTGTTTTTGTTTTTGTTTTTGTGACGGAGTCTCACTCTGCTGCCCAGGCTGGAGTGCAGTGGCACAACCTCGGCTTGGGCCGAGATCC
CTAGGGCCATTCCTCTGGCTAGGAACAGACTTGGACAGCAATGAAGAGATAACTAGAAACAAAGGAGAGAACCCTTGAAAAGGGAGCTATGCAGAGAGAC
CCAGGGCACCTAAGCAACCAGAGCAAGAGAGACCGCAAGAGATACAGATCCTATGAGAATGGTCGGGGGCTGGATGCAGACAGCAGGGTTGAGAGAGGTC
TGAGAGCCAAGCCAGGGAGAAGGAGGGGTGCTGAGGGGGATGGGGAGAGAGGAAAAGAGAGGGAGCCTTGGAGGGAGAAGCTTGAAGAGCTGCGGGTGGT
GATCCCGAGTGAAGGAAAGAATCCTGGGTCACTTGCAAATGCAAGGAGAGTCAGGAAGGCGCAAGGAGATTGGAGAGGAGGAAGAGCCTGGAGCAAGATG
TGGAGGCCCAGGGCGAGAGAAGAGGCCAGCTCGGAGAGGGCAGAGCCTCATGTTAGACCCTGAGCCGGGTGGAGACACGGGCCAGGGAGAATCGGAGGCA
GGCCCCACTCTGAGATGGAGAAGCAGGCAGAGGGAATGAAGGTGAGACAGAGACAGATGCAACGGGGAGCCAGGCAGAAGACAGGCAACCTGTGCCAGGG
AGGCCAGCCTTGCCTCCTTGGCACCCTCACCTGTGGCCGAAGCCTCCATCCCTGTCCTTATATTCCAGGACTCCCAGCAGAATGAGGAGCTGTGTGCAAG
GCAGCTTAGGGAGGACGGAGAGCAATATGTGAGAGCAGGGAGAGAAGGAGCCTGGGGAAGGGAGAGGACGGTACAGCGGAGCAGACGGGCAGGGCCTGGG
GCTGAGTGAACACCTTCCTTCCTCCTCCTTCCACAGGAGCGGGGGACTACCCCCCACCACCTCCACTCCCCGCTGCCCTGCCACCACCACCTATACCAAG
TGAGGCCTGCTCAGAGCACAGGGTTCCCTGAGGACAAAGCCTGGTCTTTGTCACCTGACCCCGACCCAGACTGACCTGGCGTTCTCAGCTCCTTATCATG
TCCCCAGAGCTATGGGAACCAAGCAGTGACGCACTGGCCATGGGCTAACCCCCCGGCTCGAATTCTGGGGCCTCGAGTAACCTAGAGCTGGGGACAGGTG
GCCTGCATCCCCTGGGGGTAATGATTTGGCATAAGCACCTGCAGAAGATGGGGATGTGGGGTCAACTAAGGTCCCTCCAAGGACATTGAGAAAAGGTCCA
AATGCTCTGGAAAGAGAGGTGTGTTCCTGAGCCCAGGAATGGGGTGGCAGCGTCCTAGGGAGCTAGGGGAGAGGCCACATCTTAATGGAAAGTGCTCCTA
CCCAGAGAAGCTGACCCCTGTCGTCCTACCCACCTCCACACCCTGGAGCTATATTGAGAGGTGACAGTAAACTGGTGGGAGGGGGGCTGGGAGGGTGTTC
CTGGGTGTGAGGGTGGGGGGAAGGCCAGAGCAGGGGAGTCTGGCTTTGTTTCCTGAACACAATGTCCACTTAGTCATAACAGGAACAGCCTGCTGAAGAC
CTGACACCTACAGCCTCTGAGAGATGGCAGCATTGGAGGATGGGGAGCGGGGCCTTGAGGGCCTAGGGTGCTTGAGGACACCCACAAAGAAGGGAATGTG
AGTATAAGCCCTGGAGGGCTTGGAAAGGGGCAACAAAATTCTGCCTGGGGAGGGGGCAGGTGGCAGAGCCCCACCCCGATGGAATGCAGTGCCTGGGGAC
CAGATGGTGTAAATCCCCAGGCCTGCCAGGCACCTGCACCCTCTGGCAGCCCGGTGAGGCAGAAGGGGACAGCCCCTCACCCACCCCCCTCCTCTCTCAG
GCCCTAGGATTAGCACCATCTTCTTCTGCCCACCCCACCCCAGGAGCAGAGGGTAGCAGGGGAGGGCAAAAGCCTATGTGTGCAAATGCGGATGTGCAAA
TGTGTGCATCCATGTACACAAAAGAAAGTAGAAAAGAAATCTGCAAGCTTGAGTGGGTAAGTGTGAAAAATCTGCATGTGTGGCTGAAGATGGGCACAGA
CACGGTCAAGTCTGTATGTGAGAGTGCTGAACTGGGGTTCTGTGTGAAAATCTGCCTGAGGCGGCRGGGAGAATCACTGCCATTGYGTGAGCAGGTTGGA
TGTTGGCCACTCTATCAGGAGCATTAGGGAAGGGGTGGGGACTCCAGACGTGTCCCCAAACCAGGGTGGCCTCAAGACCTTGGGAGAACACTTGTCTGAA
GACTTGGGGAACAGAAGGAGACCAGGCATGGCACTTATGCAGACTGAGGCCAGGACAGAATTTCCTGACAAAAGAAAACTGAGCCATGGAGATGGACAAC
AGATCCCTTCCCTGGGCACCATACTGCAGCTTTTAGTCCCTAGCACTGGGGGCTCCAGTACTAACAGCAGGAAGATGCTCCCAGCCTGGGACTGTGTGAG
GGAGGTCAGAATGGGAAGGAGAGGCTGGGGAACAGGGGAGGAAAGCCCATGGTTGGGAGGCGGAGGACAGGCATTTGGCCTGCAGGAGAAGGTGACCCTC
ACCCATGTTTTCAGTTCACCCTTCGGGKKAAAAATAACTGAGGTAAGGGCCATGGCAGGGTGGGAGAGGCGGTGTGAGAAGGTCCTGTCTTCCCACTATC
TGCTCATCAGCCYTTTGAAGGGGAGGAATGTGCCCAAGGACTAAAAAAAGGCCGTGGAGCCAGAGAGGCTGGGGCAGCAGACCTTTCTTGGGCAAATCAG
GGGGCCCTGCTGTCCTCCTGTCACCTCCAGAGCCAAAGGATCAAAGGAGGAGGAGCCAGGARGGGAGAGAGGTGGGAGGGAGGGTCCCTCCGGAAGGACT
CCAAATTTAGACAGAGGGTGGGGGAAACGGGATATAAAGGAACTGGAGCTTTGAGGACAGATAGAGAGACTCCTGCGGCCCAGGTAAGAGGAGGTTTGGG
GTGGGATGCCCTGCAGCCCGTCCACAGAGCCCCCACCGTGAGGGACCTCCTTCACCAGGAGTGGGGTGCAGGTCAGTTGGAGGCCTAAGGGCTCTATTAA
AACTGCCTATCTCCAGGCCCAGGGAAGTTCCCCCTGACACAAGGAGGTTCCACAGGAAACCCAGAAACCTCTTTTCTCCTTCTCTGACTCTCCATTTCTT
TCTCTGCATCATTCTGAGTCTCCTACATGTTGTCTCCATCTTTCCATCTTCCTTCCTCCTTTGGATGGCTTCCTTCCCTTGATCCTGGTTTTATCTTGCC
TCTTGGTCTTCATCGACACTTGTCACAATCATGCTTCTTTGTCTCTCTCCCTTGTCCTTCCTTCTTGGCACKTGTTCTCACCTCCCTGCCTCTCTGCTTC
TAACCCTGTTTCCACACCCCGTCCCTCGCACTCATATTGACTCGGTGCCCTTTCTTTTCTGCCTCTGCGTCTTTCCCTTTCTGACTCCCTGGTCTGTCCT
GCCTGTCTGCGCTCTGGGGCTGCCTCCATCCCCGGGTGGCCTGCCTCTGTTGTTCTTCACTCTCCTCATCTGTTCTTCTCTCTGCCCGGCTCTACCTCTG
TTGTTCCTTGCTCCACCCACGGTCCAGATTCTTCAGGATTCTCCGTGAAGGGATAACCAGGTGAGAACTGCCCCCATTTTCTCTGCAGAGACTGGGGCAT
GCTTCTCCTGGGAGCCGGATTGCTGGACCAGGGGTCTGCTGTCCCAAGCACTCAGCGCCAACCCTTAGCATACTCCAGCCAATGCCACCCCAGGGAAACC
CCTTACAGAGATTGTCCTTCAGCATCACCTCAGAGGGCAGGAGAAGCAGAGCCCTGAGTAGGGGAGGGTGCAACAGCAGGTGCCTCTCCCAGGGTGGAGG
AGAGGAGCGGGGGTAGGGAGGGGGGCTGCAGAGGACAAAGCCACTCGCTGGAGCCTGGGCTCCCTCAGGAGTAACATAGCCCTCCTGTCTCTGACCCAGG
GGAAGCACCAAGATGACCGATGCCCAGATGGCTGACTTTGGGGCAGCGGCCCAGTACCTCCGCAAGTCAGAGAAGGAGCGTCTAGAGGCCCAGACCCGGC
CCTTTGACATTCGCACTGAGTGCTTCGTGCCCGATGACAAGGAAGAGTTTGTCAAAGCCAAGATTTTGTCCCGGGAGRGAGGCAAGGTCATTGCTGAAAC
CGAGAATGGGAAGGTGAGTAGGGCATGGYGCCGGGGCAGAAGGGAAGGAGGTCTGGGAAAGAAGATGCAGAGGTGGAGCCACTTGCAGGGGGAGCTGAGA
GGGCTGGAGAAAASCCAAGSCCAGTGGGGATGCCAGSACATGCTCCTTTGAGGASCCCAGAATCTGATCCCTCTCAAATTGACCTGAGCTGGTGCAACAG
GTGCCACCCAGGGCCATGTTCCCCCTGCCAGAGAGGATGCTGAGGAAGAAGRACCTCAGTGTTCGCCTAAGAGGGGTSTTGTAGATAAAGAGGGCACAGA
CACAGCATTAAATGATGCCCCCTTCTTGCACTTGTATCCCTCTTCCCTGTGCCTCAGTTTCCTCCATGAGTCCACTTTCTCAAATTMMGTTCACCCAAAT
CAAGAGTAATTCTTAGACCCAGATGAACACAAAGATCAGAAACTTTTGAGCTGAGCACTCTCCTTGACTGGCACTCAGAAGCTCTGGTCCCTGGTTTGCT
CACRCCAGCCAAGAGAATCACCCCTGGTTACCAGCTGCGGCTCAGGGCTGTGTGCCTCATGAACTCGTTGACTGAATGTTACAACCCATTGAAGTGTAGA
ATAACAGGCCACAATCCCCTGGGGCTTTTGACTCTGATCCCAGCTCTGCCACCCGCTAGTCACTGTGCAGGCAAATCATTTAGTCATTTAGAGCCACGGA
TTTCTCCACTATAAAAAACACTGGAATACCTACTGGCAGGATCTAATGACATCAGGGCATGGCAARCTGACTGCTGCCAATCAAACCACACCAACAGTGA
TGGATGGGGAGTGTGGAGTAGATGGGTGAACTACTTTTCCAGCAGGGGTGAAGGTTTGCCCTGAGCAACAGATACCCTAAAGCGCTGCCCGCGGGAGACA
GCCTCGGGGTCAGCATAAGGTGTGCACAGATCTGAGAGCTGCCAATCTCCAGGTCTGCCCCAAGACCCTTGGAACATAGGGACTGAAGAGTGATGGTCAT
GGGCACAGGGTGTCCCCAGGATGGTCTGGGGATCTGGCAAGAGAAAGGWWCCCTAGGACAGTCTCTAGGATGGGAGATACAATGGGAAGGGAAATTACCT
GGGGAAASTSTCCCAGGGGACATCGGGGTAGGGGCCGGGGCACTGGTCAGAGCAAGGGGAGCAAGGCCAAGTCCCTGTGTCCTGGGAGGAGGTCAGTGGG
CAGTGCTGGCAAGGGTCCYGGAGGRRTTGTGGTCACTCATCCTCCTGCTTATGCGCCCCCTCCAGACGGTGACTGTGAAGGAGGACCAGGTGTTGCAGCA
GAACCCACCCAAGTTCGACAAGATTSAGGACATGGCCATGCTGACCTTCCTGCACGAGCCCGCGGTGCTTTTCAACCTCAAGGAGCGCTACGCGGCCTGG
ATGATATATGTGAGTRGCTCCTGCACACTGCAGAGGCTTCCTGTGCTGCGTGGAGGCCTAAATAAGCCAGGGGGGCTCTCCCAAGAAGAGGGGGAGAGAC
TCCCAAGGGACCCAAGTCCCCTTCCCCCCTCCACCCCTAGTCAGCTGCAGGAGGAGTAGAGCCAGCTGGAGTGAACAGGGACATGCCTGGCTGCCACCAC
TGCCTGTCCCAGGCTCTCCCCACCAACCTCATGCCCAGCCTTGTCTCCTGCTCCAGACCTACTCGGGCCTCTTCTGTGTCACTGTCAACCCCTACAAGTG
GCTRCCGGTGTACAATGCCGARGTGGTGGCCGCCTACMGGGGCAAGAAGAGGAGTGAGGCCCCGCCCCACATCTTCTCCATCTCCGACAACGCCTATCAG
TACATGCTGACAGGTGAGCCTGGTGGCCCCTGGTCTCTGCTCCTCCTCCCAGACACCCACCCAGATCCTCAGCCCTGACCCCATTGCTTCTCCTCTTTTT
TCTTCCAGATCGGGAGAACCAGTCCATCCTCATCACGTGAGCGAGTGCCATCCTCCCACAGAAGGGACTGGGCTGGGGGCATACACGCTGATGCCTAGGG
TGTAGTTGGGAGGAGAGGTTTAAGGCTGGGATTGCAGGGAGCMTGGGGCACTGAGCTCTCATTAGAGGGGTGCCAGAGCAATGAACCATGTCAGGCAAAT
CCTGCTGGGTGCTGGGCTCTGATGGCCRGGCTGGGAAGGGGAGCATGTGATGCTGAGCCCTGTATGGAGAACAGTAGGAATCCTGAGTTTTGATTGGTCT
CTGTGGCCCCCAGGGGAGAATCCGGGGCGGGGAAGACTGTGAACACCAAGCGTGTCATCCAGTACTTTGCCAGCATTGCAGCCATAGGTGACCGTGGCAA
GAAGGACAATGCCAATGCGAACAAGGTGCCATGGGGGACACAGGCTCGGCAGAACAGGGGTTGGGGGGCAGGCTGACCCGAGTTACCCCTAAYCCTCCCC
TCCCTGTGACGTGGTGGGGACAGCCACACTGAGCTGGGCTCCCGATGGTCAGCCCAGTATGGAAGACCTTCCTGACAGGAGACACTCACCCTGAGGTCTG
GGTAGGATCCTGTGGAGTCGCAGACCCACTAGCGGTTCACCCAGCCCCGCACCCCCATTCCTCAGGGCCAGGGCAGCCTCCCTGCCCTCTCACCACTGCC
TGGAGGTGGATGGAGGATGAACCCATGCAGTTCTGCTCCTTTCATAGGGCACCCTGGAGGACCAGATCATCCAGGCCAACCCCGCTCTGGAGGCCTTCGG
CAATGCCAAGACTGTCCGGAACGACAACTCCTCCCGCTTTGTGAGTGCCTTTGACCACTCCCAGTGGCCTCATCCAGCCTTGACAAGAAAAAGGGGGTGC
TGTTTTGCCACACCCAGTTGATTGTACTGTATCTGGCTTTGGGATATCAACATGCACACGTTGGTGGGAAGAGAGCATAGGCTTTGGAGCCAAAGGTCYG
ACTTTCCACTTGCTCAGCAAGTCCTTACACCTCTCTGAGCCCYAGTTCCTTCACCTGTGAAACAGGGGRACTAATATCCACCCTGCAGATTACTGGGAGG
ATTAGGTGAGATCATATGAGAGGTATGAGCAGGAGGCATTCTGTATGTGTTCCCCTCTGGGCCGAGGTTCCACTAGGAGGTCCCTGCACAGTGTGTGAGG
GTGGCATCCTCTGCCCGGCTTCACTTATACTCAACTGAGACACCAAAGAGGTYGTTTACATTTCCAGAACCATCCAGGGCTTCTGGGCTGAACAGAGGGC
CAGGATTTCACTCTGTCCTTCCCRCCAGTTCCCTCACTCTGTCCCATTCGTCCCCAGGGGAAATTCATTAGGATCCACTTTGGGGCCACTGGAAAGCTGG
CTTCTGCAGACATAGAGACCTGTGAGTACCAGCAGGGAGGCTGCCACCCTCTAGGTCCCCCTCTGCCTTCTCTCCCTGCCTGGCGGCCAGTCTCATCATT
CCTGCCATCTCCTGTTTTGTCTGCATTTGCCTCTGGGCTTTAGGATCCTTTTTATTTAAGCCACATCTTCTCGCCTGGCCCTCTTCATCAAGCTGTGGGT
GCCCCCTGCCCTCTGCCCCCATGGCCRCCTTTTTCTGGCTCTACTCTCTTTCCTTCCTCACCTGCCTTCCTCCCCTCCRSCCACCTCAGACCTGCTGGAR
AAGTCCCGGGTGATCTTCCAGCTGAAAGCTGAGAGAAACTACCACATCTTCTACCAGATTCTGTCCAACAAGAAGCCGGAGTTGCTGGGTGAACCTGCCT
GCCACCCCCCACCCACTGCTGTCCCTGCTGCACACCCCAACGACTCCTGCATGCAGGGCAGGGCCCTCCTGCTCCCCACTGTGCCCCACCTTGCTGCTCA
CTTCCCTTCTCCCTCCACTCACTCCGCCAGCTCCCTCTCGCTTCCCTCCCAAGACCACCTGCGTCTCCTCTCGCCTCCCTGTGCAGTCACACACCTCACT
CCTTCTCCACCCTTCTCTCCACTCCTCCCTCGGCTTGTCTTTGCCTTCTCCTCTTTATTTGCCTCCCCATCTCCCATGTGTCACTCCCCTGCCACCCTCC
CTCCTCCTTGTTACTGGAGCCCCTGCCAGGGCCCCTCTTCTACCCTTTCACTTCCTCTGGGTTCACTCCTTGGTCCTTGCTGACTTCTCTTCTCTCCCTG
CTCCCTGTCCTCCCTTCCTCCATTCACCCCGTCCCTTACCCCTCCCTGCCCCTCCCTCCCTTTCCCAACTCTACCTGCCCCTTCCCTGCCCTCCGCCTGC
CCCCTTGCCCCTGCCTCACCCCTTGCCTGGTGCAGACATGCTGCTGGTCACCAACAATCCCTACGACTACGCCTTCGTGTCTCAGGGAGAGGTGTCCGTG
GCCTCCATTGATGACTCCGAGGAGCTCATGGCCACCGATGTGAGTKAGGGGGCTGCTGCGGCCGTTCGAGGGACCCCAGGAGCTCCTGGGGCCACCGCTC
CAACCCCCCTCTTTGTCTCTCGCTCTGTCCCAGAGTGCCTTTGACGTGCTGGGCTTCACTTCAGAGGAGAAAGCTGGCGTCTACAAGCTGACGGGAGCCA
TCATGCACTACGGGAACATGAAGTTCAAGCAGAAGCAGCGGGAGGAGCAGGCGGAGCMMGASGGCACCGAAGGTGGGAGGGGCAGGCAGGCAGCCCTGGG
AAGGCCTGAGGTGCTGACCAGGCTCTCTGCGGGACTCAGATCCCAGAGACTCTGAGGCTTGTGGGGCAGTGGGGTGTGTTGTGGGATGGTGAGGGACAGG
GACGTGGGAGACGTGGGCAGACAGAGAGTCCACCACAATCCCAACTCCTCAACCCCAGCTGCACTCACCAGAACTGAGGTGGGGAATTTTCCTCCTGTGC
CCAAGACTCCCCCAGCCCCAGGAAGCACAGCCCCTGAGCTCTGCACATCACCATCACTAATGCAGGGCCTTTGCCTGCCCAGCCCTTGGGTAAGCCCCTC
GTGGGCTCATACCATGTTGTTTGGGAGGCAGTGGGCCAGGGGTCAGGACATAGCCCAGGGCATTGGTGTGTCAGTTTCCTCCTCAGTGAAATGGATCAAC
AATCTTTCCTCACTCCTCTGGTGGCTACTGTGAGGTCCTTTGAGAAAATGTGAAGGTGCAAACAGTGCTAGACAGGTGCCCAAGAACATTCCTCCCTACC
TTCAGGGACCCTTCTCCAAGTCTGCCCAGATCAAAGTGTCAAGCTGGGGTTCATGATAACACACCAACAGTTATTACAACATTCTTGAAATTACACCAAA
TAACTCCTCCTCTAAACAGAGAAATACCCATGTTGGGTGGCACATTTGGATGGCTGGGGGTAGGAGCGTGGTACTGTCTGATATACTCTCAGCCAGTCAG
ATTGGGTAACATGTGGATGGAGAAGACAGCATGGCCAGTCCAGGGCTAGACACTGGGGTAGAGAACGAAGGAGACAGGGAGCAGAGGACATCTAGCCCCT
CAGCCACACCCTTGCCCTGGAGAGGCGAGGGATATGGTGAAGGTGGGGATATGCCCACAGCAGTGCTTGTGAAAGACCTGACCCAGAGATGCYACAGATG
TAGAGACAGAGCTGAGAAGAGCCAGTTGTGGCAAGAGGCCATGGGCCGGATAAGGGGGCTGTGCTCCAGCCTGACTCAGGCACACGTTGGTTGAGTAACC
AAGGCAAGCCCTGTGCTCTTCCAGGCCTTGATTTCTTCCTCTTTAAGGAAAAGAAATTGGACCTGATGCTTCCTAAAGTCTTGGCCCCAGGACAGGGAAG
GAGGCTCACTCCCTGAAAGTGTTCACTCAGGCCAGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACTTGAGGT
AAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAACCCTGTCTCTACTACAGATACAAAAATTAGCCTGGCATGGTGGCTCATGTCTGTAGTCCCAGCT
ACTTGGGAGGCTGAGGCAGGAAAATCACTTGAACCCAGGAGGTGGAGGCYGTAGTGAGCCAAGATCGTGCCACTGCACTCAAGCCTGGGTGACAGAGCAA
GCCTCTATCTTAAAAAAAAAAAAAGGAAGTGCTCACTTATCCTTTCCCTCTCAACCAGATGCTGACAAGTCGGCCTACCTCATGGGGCTGAACTCAGCTG
ACCTGCTCAAGGGGCTGTGCCACCCTCGGGTGAAAGTGGGCAACGAGTATGTCACCAAGGGGCAGAGCGTGCAGCAGGTGTACTACTCCATYGGGGCTCT
GGCCAAGGCAGTGTATGAGAAGATGTTCAACTGGATGGTGACGCGCATCAAYGCCACCCTGGAGACCAAGCAGCCACGCCAGTACTTCATAGGAGTCCTG
GACATCGCTGGCTTCGAGATCTTCGACGTGAGTWGGGACCCCTGGGAGTGGGAGAACAATCACTCGCTTGCTCCTACATTCAACAGCCATTTGCTGAGAG
CCAGCTGTGGACCAGACATGGGAAGGCAGTGGGGACTGYGTGGTGACAGAGGCAGTCATTGTCCCYGTCTTCAGGGGAAGCCCTCCTCCACTGCCCTGAC
ATGGAGGGGACAGCCATACCCTGCTGGGCTCGGCACAGTGCAYGGGCACAGCCCCARTGGCCACTCACACCCACTTTCTGACTGCTCCCACCCCTCATGC
CCCCTGCAGTTCAACAGCTTTGAGCAGCTCTGCATCAACTTCACCAACGAGAAGCTGCAGCAGTTCTTCAACCACCACATGTTCGTGCTGGAGCAGGAGG
AGTACAAGAAGGAGGGCATTGAGTGGACATTCATTGACTTTGGCATGGACCTGCAGGCCTGCATTGACCTCATCGAGAAGGTGCCTCCTTGGCCTCACCA
CCTATGCCCCCTCCTCTGCCATCCAGACAAAGTGGTGGCTGAGTCCCTTCTACACCCAAGAAACTAGAGTCCCAAGAATCCCAGGCCTTTCTCCAGGCCC
AGCTTCTCCCCACTGTGAAGTCATGGGCATGAACAGGATGATCCCCCCACTCTTCCTTTCCCAGGACCTTGCACTTTATGCCCCTTTGTGGTGGTCCCCT
CAGTGTCTTAAGAGTGAGATGTAGTGAAGGAGAGGCCCCTGGCCCCTCTGACCGCCCATGAGAAGCGTCATTCATGGAAAGATCCTAGGCTGAAATTAGA
GATGTTTGGCCTCCCACCACCTTCCTGTTGGTTGAGAAATAAGCCAGTCTCCAGCCCTCTTGCTTATGGGCATTCCTCAGAAGAGACAAGGCCGCAGGCG
GGAGGCCCCATAGGCYRGGGCTGACTTGCTCTCAGTGAACCTCTGCTCTTTGTCAGCATAGGCCAGAGCCCGGATTGTCTGACCCACACCCAGCCCAGCC
ACGGCCTTCATGAAATGGGAGCTTCCCCACATGCTTTGGGTCATTATCCAGATTCTTAACCAGAGTTCTCATGTTTCAGAGCCCTCAGAATGCCATAAAA
CTGTGTGTGGAAAAAAGCATGTGTACATTCATACATACATGTGTGTGCTTGTGCATGTGTGTGTGTGTRCGTGTGTGTGTGTACATGCGTTTTTCTGGAG
AGACAGTCTTTAGCTTCAACAAATTCTTAAAAGGATTCCTGCCCCAAGAAAAATCAAGAACCACCAGGTTTTTGGAAGTGCAGAGTGTGGTAAAGAACCT
GGATCCTTCTATCTAACCCTTGAAGAATTGCTACTGGTGTCATACAGACAGAGCCTGGCCCGGTGCCTCTGACACACATCTGTCCCTGCCCTCCTGCCCC
TGGGGCAGTGAGCCATCAGAGAGAAGGGGCTGTGCTGTGAGGCACTGTGGGCCTTGTGGGGGGTGATTAGGAGTGCATGACTCTTTGTTGGACCCACTGG
GCAGAAAGGAGGAGGAAGGGGCTTTTTAAATTCCAGGAATATTGGCTTCCTGTTTTAGGGTAAGAGGTACCAGCACAGCGCCCCTTCAGCAGGCCAGCGC
TACTGGCTCCAGATTCCTTTTCCTGTCAGGGTATGGGACTGTGGAAGCCTGGGAGTGTGYTCAGTGATTCTCTCTTTGCCTCTTCACCCTGCCCTCAGCC
CATGGGCATCATGTCCATCCTGGAGGAGGAGTGCATGTTCCCCAAGGCCACTGACATGACCTTCAAGGCCAAGCTGTACGACAACCACCTGGGCAAGTCC
AACAATTTCCAGAAGCCACGCAACATCAAGGGGAAGCAGGAAGCCCACTTCTCCCTGATCCACTACGCCGGCACTGTGGACTACAACATCCTGGGCTGGC
TGGAAAAAAACAAGGATCCTCTCAACGAGACTGTTGTGGCCCTGTACCAGAAGTCCTCCCTCAAGCTCATGGCCACTCTCTTCTCCTCCTACGCAACTGC
CGATACTGGTAAGCAGGCAGCCCCTGCACTGGGCCAGGGGACTTCTGAAGACACAAAGGGCCAGGGTCCTGCTGCTTCAAAGCACATGACTCCATAGGCA
GGCACAGGGGAGCCCATGAGTCAAGCCACCTCCTGGCTCACCTCACCACAGTCCAGCTGGGCTTCTGTAGCACCTGCCGTTCTCCACTTTGTGTTATGAG
TGTTGATATAGCTGTCTCATGTTTCCTCAAGATGGGGAGTAACTGGAGGTCAGTGAGGGTGGCACATGCATCCCTGTACCATGCCCAGCAGGGAACGATG
CATGTGGGAGTTCTCAACAAATGTTGAGAGGACACTGAACAAAAGAGCCTCCAGTTCAGAAAAGGAAGAGAAAGGATGTGGCTTGAAATGAAGAGGATAA
AGTGTAAGAAGAAAAGTAGAGGTTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACAAGGTCAGGAGTTCGA
GACCAGTCTGGTCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCTGGCGTGGTGGCACCTGCCTGTAGTCCCAGCCACTTGGGAGGC
TGAGGCAGGAAAGTTGCTTGAATCCGGGCGACGGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCATGGGTGACAGAGTGAGATTCCATCTC
AAAAATAGAAGGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAGGAGGAGGAGGAGGAGGA
GGAGGAGGAGAACTAGAATGTGGAAAGATATAAGAAGGAAGGGCAAGTAGAGGGAGAGCTAAGGGCACTGATGTATGTCAGTGCCTACTATGGGCAAGCA
CCAGTGAGCTGCCCTACAGGCGTGGTCTTATCTAATCCTCTTTACAACTTTGGGAAGTTGTTACTGTCATCCTCATGGTAAACTGAATCTTGGAGAATTC
CTTGCCCAAAGTCTCAGAGCTACCAAGCGAGCAGCAGAGCTCTGCCTCTGCCCAAGGGCTCCTTTATTTTCCAGCTCCTGTTGATTATTTCTCCTCTCGC
TGTTTAGGGGACAGTGGTAAAAGCAAAGGAGGCAAGAAAAAGGGCTCATCCTTCCAGACGGTGTCGGCTCTCCACCGGGTAAGAAGGGCCCAGGGGTGCC
AGGACACCTGGTGGAAYGGCCCAGCCCAGAGACTTCTGGCTGCACCACCTATTCTGATGCTTGAGTTTGATGAGGAAAGAAGCTAGGGCTACGTAGTYGT
TTTTTAGTGTGTAGATTCCACAAAAGCCTGAACTCAYGTCACAAATTATGTGGCAGCCCCTGTCCCTTTGATGATTCTGGTGGAGAGTGTCTGGGGACCA
GGGTTTAAGGGCCTAAGGGATGGTCCTTGTGGCTCCTAACTCCCCACCTTCATCTGCCTCCAGGAAAATCTCAACAAGCTAATGACCAACCTGAGGACCA
CCCATCCTCACTTTGTGCGTTGCATCATCCCCAATGAGCGGAAGGCTCCAGGTGAGCCAGGAGAAGACCTTAGTCTGGGGAGGACAGCTGGCATCCACTT
TACCCTAAGGCTGACCCTTTCCCCTTCCCTCCTGACACAGGGGTGATGGACAACCCCCTGGTCATGCACCAGCTGCGCTGCAATGGCGTGCTGGAGGGCA
TCCGCATCTGCAGGAAGGGCTTCCCCAACCGCATCCTCTACGGGGACTTCCGGCAGAGGTGGGTATGAGGGTGCMCCAGAGCTCATAGAACAGGGGGAGC
CAGGCTGCCCTGATGGGAATGGGATCTGCAGGTGACCCTGGAATTCTGTGGGCAGAGCAGATCACTGCAGAGCATGGRTGACTCTGGACACTTCCCTCCT
CAGGTATCGCATCCTGAACCCAGTGGCCATCCCTGAGGGACAGTTCATTGATAGCAGGAAGGGGACAGAGAAGCTGCTCAGCTCTCTGGACATTGATCAC
AACCAGTACAAGTTTGGCCACACCAAGGTGAGTCTAGAGCCCCAYTGGGTGGTTGCAGGGCAGGTGGCCATGTTGAGTGGAGCAGAGAGGAGTTTAGGAG
GCAGAAGCCTAATTCTGGCTTCCTTATCAACCTTATCAAGGGCTGAAACCCAGGCTTCATTCCGGTCTTGTTTGTCAAATTTTTACTCTTACTTCTAGAA
GGCATGGGGTGATGGGTCACCTGGGAGCTCATCCAGGGTCTTCCACCCTGGATACTCCCCTCTGAGGCTGCGGCCTGTTGCATCTACCCCTTGCCTGCAG
GTGTTCTTCAAGGCAGGGCTGCTTGGGCTGCTGGAGGAGATGCGGGATGAGAGGMTGAGCCGCATCATCACGCGCATGCAGGCCCAAGCCCRGGGCCAGC
TCATGCGCATTGAGTTCAAGAAGATAGTGGAACGCAGGTGAGACAGGAGGAAAAGGGAGGCATGCACTAGAGATGTAGAGGCAGATCCGCAATGTCAACT
AGTGTGGGTCAGAAGACCTGGGTTCAGACCTACCAGCTGGCCTGGGCAAGTTACTTTACCACTTCGAATCTCATTGCAAATTCTTCTTCTTCTTCTTCTT
CTTCTTYTTTTTTTTTTAAAGAAACTTCTCTATAGGAAAATGCAAATTAAGACACCAATGAAATACCATTTTAAAACACTAGACTTTGCTTGCTCAGATG
GTCTACAAATTTTAAAAAATGAAAGAAACAAGTAGATAAAAATAAAATGAAAGGAAAAATAATTTTTAAAAGTTTTAAAAATCACTAGACTGACAAAAAT
TAAGAAGCCTGACCCACTGCTTACAGATGTGTAAATTAGTGCAACTTCCTAGGAAAACAGTTTATCACTATCTTTTAAAGTTGAACAGCTGCAGGCCAGG
CGCGGTGGCTCATGCCTGAAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCAAAACCATCCTGGCTAACATGGTGAAACC
CCATCTCTACTAAAAAAATACAAAAAATTAGCCGGGTGTGGTGGCAGATGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGCATGAGCC
CGGGAGGCAGAGCTTGCAGTGAGCCRAGATCGAGCCACTGCACTCTAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAGTTGAACAGCTG
CATACTTCTCCATTCCACTCCTGAGTACATTCCTACAGAGAAACTCTTATACATGTACACCATGACATGAAAAATAATCTTTTAGCAGCATTGGTCATAA
TAGCAAAGATCTTRAAACAACTTGAATTTCCATCCACAGGGGAATGGGTAAATAGTATTACAGTCATTCAGTGGAATATTATAAAACAGTGAAAAGATGT
GAACTCCARCTACATGATACAATATGTTTGAACATTAAAGCATATTGTTAGTAAACAAAGGCAAATCTTGGAAGGATACATACAGTATGATGCAATTTTT
ATAAAGCTCATAAATAATCAAAACCAGCCATTCATTGTTTAAAGATACATACATATGGCTGGGCACAGTGGCTTATGCCTGTAACCCCAGCACTTTGGGA
GGCTAAGGCAGGCGGATCACCTGAGGTCAGGAGATGGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAACTACAAAAATTAGCTGGGCA
TGGTGGCAGGCACCTGTAATTCCAGCTACTCAGGAGCTGAGGCAGGAGAATCGCTTGAATCCGGGTGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCATT
GCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAATAAATAAAGTAAAATAAAAATAAAGATACATTCATATGTGGTTAAAGTAATTTTTGAA
AAAGCAAGGAAAGGAAAAATAAGATTCAGAGTGGCGGCTGCTCCTGGCGGGGTGACAGGGGTGTAGGAAGGAACGCACAGGTAGATCAATGGCTGGTAAC
ATTTCAGCTCCTGTTTCAGTGGTAGGTTCATGGATAGTCATTTTGCTTTCATGCTGCATAACTTACATACTTATTATAGACATTCTTATATGTAAACCCC
YACATAATTTTTAACATATTTGAAGTTMTTATGAGAATAGAAAAACCAAACAGAGTAGACATTCTATAAGTGGTAGTTTCCATTACCACTAATATCCCAG
CTGGGAGGATATAAACTGCCCTTTCATCAAATTGATTAATAAATATTTATCAAGCAACTCCATGTTCAGTGTAGTGATGTTGGAGGTGGGTGTGCACAAG
AAGGAAGTCTACRTGCCTACGAACTTGCTTAGTAGGGCCCATGATTGGGAAGCTCTCTTTTATAGTGCCCCACCCTGCCTCCAYGTTTCCTTGCCAGGGA
TGCCCTGCTGGTAATCCAGTGGAACATTCGGGCCTTCATGGGGGTCAAGAATTGGCCCTGGATGAAGCTCTACTTCAAGATCAAGCCGCTGCTGAAGAGC
GCAGAGACGGAGAAGGAGATGGCCACCATGAAGGAAGAGTTCGGGCGCATCAAAGAGACGCTGGAGAAGTCCGAGGCTCGCCGCAAGGAGCTGGAGGAGA
AGATGGTGTCCCTGCTGCAGGAGAAGAATGACCTGCAGCTCCAAGTGCAGGCGGTGAGGCCACGTGATTATCTCTTCAGCCCTCTCCTCCCCTCCCCTAG
ATTATAGCCCATCTCACAACCAGGGACTGGGAGTCTAGGAGTGCCAGCTCTTTTTAAGACCCTAGGTCTCCTCTCTTYAACCATCAGCTTCCTCCCTGTT
CTCTTCTCCCAGGAACAAGACAACCTCAATGATGCTGAGGAGCGCTGCGACCAGCTGATCAAAAACAAGATTCAGCTGGAGGCCAAAGTAAAGGAGATGA
ATGAGAGGCTGGAGGATGAGGAGGAGATGAACGCGGAGCTCACTGCCAAGAAGCGCAAGYTGGAAGACGAGTGCTCAGAGCTCAAGAAGGACATTGATGA
CCTGGAGCTGACACTGGCCAAGGTGGAGAAGGAGAAGCATGCAACAGAGAACAAGGTGAGGGCAGCTCCCTCTGGCTTCAGCCCAGGTCTCCTCAAGACT
CCCAGACTAGAGTGTTGTCCTGGTCCTTGGCATGGAGGTCCCCATAGATGTCTCCAGGCTGGTGATCTTTGACCCTAAAGGGGATGGGTTTTTGGTCGGC
AGGTGAAGAACCTAACAGAGGAGATGGCTGGGCTGGATGAAATCATCGCTAAGCTGACCAAGGAGAAGAAAGCTCTACAAGAGGCCCATCAGCAGGCCCT
GGATGACCTTCAGGTTGAGGAAGACAAGGTCAACAGCCTGTCCAAGTCTAAGGTCAAGCTGGAGCAGCAGGTGGATGATGTGAGTAGTAAGAACCATGCT
CCTGCTCTCAGAGCAAGATTTTGCAGGCAACACCAATGGCCCAGAAAGTCCTGATCCCTAGAATTAACTTCTATGGCCCCTGAAGCTTTTTTGCTCTCTG
TAGTTCCTCACTACAGTAGGTCTCTGAATCCTTTGTGCTTGCAGGATTTCTCTGTYGGTTTGACTTCCAATCCCACTGGACTTCAAGTTTAGAAGGAGGC
AAAAGAGCATACACTATGGATTTCATGTTTTCCACACTTTGCTTATTTTCTTCCCTCCAACAGCTGGAGGGATCCCTAGAGCAAGAGAAGAAGGTGCGCA
TGGACCTGGAGCGAGCAAAGCGGAAACTGGAGGGCGACCTGAAGCTGACCCAGGAGAGCATCATGGACCTGGAAAATGATAAACTGCAGCTGGAAGAAAA
GCTTAAGAAGTAGGAGACTGTGGTGGCCAGGAGGGGCTAATGGAGGTGTCTGGCCTGGTAGATAGAGTGCAGGGTSSTGCGCCTCCACTGGCCACAGTTG
CCTTGGGTATGCTGGGAATAAGGTCAATCACAGCCCTCTTCCGCCACTTTCTGGGCTGGCGAGGGGAGGGGGAGGTGCCGATTCTGGCATACTAAGGCCA
AGAAGAGAATGAGCCCCAGAGGAAGGAAGGCTACCTGTCACTCCCCCACCCCCACCCTTCTCCTGCAGGAAGGAGTTTGACATTAATCAGCAGAACAGTA
AGATTGAGGATGAGCAGGYGCTGGCCCTTCAACTACAGAAGAAACTGAAGGAAAACCAGGTGACTTTTTTTCCCAGTGCATGAAAGTGGGAGCTCAATAG
CCCTGAGGTAACTGAGGCTGCAGCAGCTGCTTAGGGTTCTACACAATATCTGGAACTCCAGGCAGCCTCATARACCCAACCATCCCTGACTTACAGGCGC
TCAGGAACACTAGCCTTCCCCCATAGAGCAAGAATACATTACGTTAGCAAAACTGTTTGAGAAGGGGGACTCATACCTACTAAAGGGCTTCTCCTTCTGA
GATCTGCTCTGCCTCAGGGACTTTCTACTCTAAGACAAATGATAGAGCTCTATTCTCCTCTAACCCTTCCTCTGGTAGTTCAGCCSTCTGAACGCAGGGT
GAAAAAAAAAAAAGGCTTCAAGGAGCACCTTCCTGTGAGSKGCTCTGTTCATATTCTTCCCGGTACTAACCCCAGCCACTAACCCAGGCTGAGTCCCCAT
AGGGCACTCATGATAAGAGCCAATTCCAACAACTGTGAGCAAGTCACTTACCCTCCCTGATCCTCAGATTCTCTTCTCACCTGTAAAATGAGACTGACAA
TACCTACCACACAGGACCAGAGGGGATAATGTATTTGAAACCATTTTGTCAACTAGGAAATTCTATACAAGTATCATATTAATATAGCCCAATTTAGAGA
AGTCAGCCAGCCACTAGCCTAAGAAGGTATTGTTTTGTCTTCTCAATGGCCTTCTCATTCCTCTGCAGCTCAAGATTTAGTGAACAGCCATAGTCTCCCT
TAGCTTTAATGAACCTCAAACCCTAATGTGCTTTTAGTATCGGGTTTGTCAGAAGAGACCTGGAAGTCCACTGCCATCCCCATTATAGAGCTACAGAAGC
TACATGGCCAGGTCTGGACATAGTGACCCCAAGGGCAACAGGAACTCGGCTACTGGGGCGGGACCTTGTCCTCTCACTTTGGGGCAGACTGTGGCTGGTA
GAAAGAGGTAGTCTCCCCTCTGCACTTGAGGCCCATGGCCCAGGCTGCAAGTAATGTATGAACACAATTCCACTCCTCTGGGGCTGCACAGGGACTGGCC
CGCCTTCATTAGTAATTTGCCCTCCCATSTTCTTGGATGCCCCTTCTGGGTTTTAGCTAGAATATCGGGCCATCCTCAGGTTCTTCTACCCTAGGTCTGG
GCAWCTTGTTTGGCCTCTTGGACACAGAATAACAGTCCTGTTAGTCTCATCAGCTCTCGGCAATAGGCTATGGCTCCTCCTTCATCCCCAAGATCTTGCT
CAGAAGTCCCACCTTCTCCATCCTGGGAGCAGAGGCATGGTGGTCCTCTCTGCTGCTTGTAGGACCCATCCATGAACAGTCCATTAAAGCTGTCCATAAC
CCGAGGTGAAGGGATTTCCACTGAACCCCCGTTTTGCTCCTGGCTAGCCAGACAACAGATCAAAATGGTAGATACGATATTCTCCCAATTTAGTCAAGAC
CAAGGCTAAGGCCCAAAAAATGAGGTAAGGGCACTTAAAGAGGATAAGGAGATGAGGTGAAGAGGAGAGTAGCCTGCTAGCACTTTCCTGGCCTGGAAGG
GAGCAATCATGTTGAAACCCAGCCCTGGGCATAAACACAGCAAGCCTGGGAGAGCAAGGAATATGGTTGATTGGACTTTGTGGTTAACTTGGAGAATTGC
AAAGGTATCTGATTGTTTCGAGGCATGTTGTCACAAATATTTGTAAAATACAAGCACTCATTTTCCCGTCTTATGAATAGCGCAACAGAGCCTAGTGAAT
CTGGGGACTCTGAACTTCTTGATCTCACAGGATACCAGGATCCCCCTTCAACCACAGGTTCTCAGGATTTGGGGCTGCAGATGCTCACACTGGGTCTGAG
ATGCCCTTGGGAGCTTCAGCCAAATTCCTATTGATGGCCTATGCATTATAGGATGTTTAGTAGCATCCCTGGCCCCTACCCTCTAGATGCCAGTAGCAAG
CCCCACCAAGACATGACAATCAGACATTGCCAACTGTTCCCTGGGGCACAAAATTGCCCCTAGTTGAGAACCACTGCTTGAGAGGAACCTAAGTTCCTGG
TAGCTTTTCAGAGCCRGGGGGATTCCAGTGGAGGGGTCCAGGCGGTGGGTCTGAGCCCTTTGTGTCTGACCCAGGCACGCATCGAGGAGCTGGAGGAGGA
GCTGGAGGCCGAGCGCACCRCCAGGGCTAAGGTGGAGAARCTGCGCTCAGACCTGTCTCGGGAGCTGGAGGAGATCAGCGAGCGGCTGGAAGAGGCCGGC
GGGGCCACGTCCGTGCAGATCGAGATGAACAAGAAGCGCGAGGCCGAGTTCCAGAAGATGCGGCGGGACCTGGAGGAGGCCACGCTGCAGCACGAGGCCA
CTGCCGCGGCCCTGCGCAAGAAGCACGCCGACAGCGTGGCCGAGCTGGGCGAGCAGATCGACAACCTGCAGCGGGTGAAGCAGAAGCTGGAGAAGGAGAA
GAGCGAGTTCAAGCTGGAGCTGGATGACGTCACCTCCAACATGGAGCAGATCATCAAGGCCAAGGCAGGSTCTGCTCGGCCTCCCCTCGCCCTCTCCCCT
GCACAGCGGAGCCTCCCCCATGCCTTCTCTCTCTGTCTGCCATCTCCCTTGTCATTCTCATTCTCTTCATCACCCTTTGGTCTCTCTTCCTGTCTCCCCT
GCCCCTCTCTGGCTCTCCTCACCCTCTCTATCTCTTCATGTTCCTCCTTTCTTTAATTCAAGTCTCTCTTCAGACTGCGCCCTCCCACACCTTCTGTGTC
CCCCTCCTGCCCTCTGGCATTCCCCATCTCTGACCCTCTCTTYCTTCCTCTGGTCGACTCAGCCCCTCCCACACTCACCCTTCCTGTCTTGCTTCCTGAA
GGCAAACCTGGAGAAAGTGTCTCGGACGCTGGAGGACCAGGCCAATGAGTACCGCGTGAAGCTAGAAGAGGCCCAACGCTCCCTCAATGATTTCACCACC
CAGCGAGCCAAGCTGCAGACCGAGAATGGTGGGTGCCCCTAACCAACCCCCTGCCTAGGGCAGGACATGACTTGTGAAATGGCCCACAAGCCCCTCATTT
CACCTCCAGGAGAGTTGGCCCGGCAGCTAGAGSAAAAGGAGGCGCTAATCTCGCAGCTGACCCGGGGGAAGCTCTCTTATACCCAGCAAATGGAGGACCT
CAAAAGGCAGCTGGAGGAGGAGGGCAAGGTGAGGCCCAGTGGGGAGGGTGGGCAGGCTTGATGGCAGCCCTGGGGCAATTCATCTCAGTGCCAGAAATGG
AGCCTGGAGCTGGAAAGAGTCCTCTGCAAGGGAAAGACCCTCCAGTCTAGGTTCTGCCCTGCAGCTAAGCGTCATTTAATGCCTCTTTTCTTAYTCGTAA
GGGGATGGGGTGAGCAGACTGGGAAACTCCTCAAACAGTGAGGTGCCACATCAGCCCACATGGTGAATAAGGCTGGGCTTGGTTGAAGTACTACATAAGA
AGAGAATCTAGAGAATGGGGCACAGGGAGTCCCTCCCACCTCCTGGTGCCCCCCCCCCTCCCCAGGCGAAGAACGCCCTGGCCCATGCACTGCAGTCRGC
CCGGCATGACTGCGACCTGCTGCGGGAGCAGTACGAGGAGGAGACAGAGGCCAAGGCCGAGCTGCAGCGCGTCCTGTCCAAGGCCAACTCGGAGGTGGCC
CAGTGGAGGACCAAGTATGAGACGGACGCCATTCAGCGGACTGAGGAGCTCGAAGAGGCCAAGTGAGCTCCAGATACCCCCTTAACCTGACTCTCAGAGA
GGAAGGGGCGAGAGGACCTGGGGTGGGGACAGGCAAAGTGGTCATGAGACGGAAGTGGAAGAGACAGGAGGAACTCGGAGGGCAACAGAAGTGCTTGGAA
GAAAGCCTGAACTCTTTGCTCTGTGAACTCTGGCTGGCCCTGACCCACTTCCTGTGACGGGCGAGCTTTTGGCCCGGGTTATACCTGATGCTCACGTATA
AGACGAGCAAAAAGCTTGTTGGTCAGAGGAGCTACCGTCGATCAGCCTGTGTGGGGGGTGAGGGCAGGGGGCACTGACACCCAGATGCCACTGCAGGTAG
GGAGGACGCCTGGGCAGCCCGTGCTGGCGGACTCTGTTCCAGGCATGAGCAGGCTCAGCTCCTGCTAGGCTGGACTTACGGTGTCTCAAGGAGATATAGG
GAGGGGGTGGAAGGAGGTCCACCCAAGGCTCCAGTGTTGCCCAGTAGAGTCACACACACACCCTCCACCCTCACCTGGGCAGAAAGAAGCTGGCCCAGCG
GCTGCAGGATGCCGAGGAGGCCGTGGAGGCTGTTAATGCCAAGTGCTCCTCACTGGAGAAGACCAAGCACCGGCTACAGAATGAGATAGAGGACTTGATG
GTGGACGTAGAGCGCTCCAAYGCYGCTGCTGCAGCCCTGGACAAGAAGCAGAGAAACTTTGACAAGGTGGACCATRGGYGGGGGCCGCAGCCAGCATGCA
GGGCAAGGGGGCATGAGGGGTTCAGTGAGAGGCCAAAGGCAACCTCCTTGGAGGTGGAGGAGGAGGGCTAAGCCCAGGCTCGGGACCAGGGACAGATCTT
GGACATGCGGCTGAGGCTGGGGGCTGGGGCACTGGGAAGCAGGAGGGCTGGGGAGCTAAGGCTGGGGGGCTGAAGAGTGAGCCTTGTCCCCGGGCAGATC
CTGGCCGAGTGGAAGCAGAAGTATGAGGAGTCGCAGTCTGAGCTGGAGTCCTCACAGAAGGAGGCTCGCTCCCTCAGCACAGAGCTCTTCAAGCTCAAGA
ACGCCTACGAGGAGTCCCTGGAGCACCTAGAGACCTTCAAGCGGGAGAACAAGAACCTTCAGGGTGTGCTGGGGGTCCAAGAGGCCAGAGATGAGTTGGT
GGGAGGGAGGGCCATGCAGGGGCAGGGGGAACAYAGGCTTTGAGCTTTCTGGCCCTCTGGTCCCCAGARGAAATCTCGGACCTTACTGAGCAGCTAGGAG
AAGGAGGAAAGAATGTGCATGAGCTGGAGAAGGTCCKCAAACAGCTGGAGGTGGAGAAGCTGGAGCTGCAGTCAGCCCTGGAGGAGGCAGAGGTGAGGGC
CGAGAACTCCCTGCAYCCCATCCCTGTTCTGCCGCTGTCTCCCACTTCTCCCTCACCTGGGGGTGACCCTGACCCCAGGACAAAATCTATTCATTCCATR
TTCTTTGTTCAACATTATCTACCCACTATTCACTACCCATGACTGCCTCCAAAGCCAAGGTCTGCACAAAGGAAAATGTCAGTCTGATTAGAGGCCAAAG
GTTTTGTTTCCCACCAGGTTTTAAAAGTTGGAATCTGGCCATAATAATAACCACTTAGACAGTGGGTAGGAGTGTGGGGTTCCAGAGTCAAACAGGCCTG
AGTTGGAACACAGCTTGAGGACTTTCACTGCRGCGTTGGGCAAAATCTKTAATCTCTCTCTGCCTCAGTTTTCTCATCTGTAAAATGGAATTAACTGTAC
ATACCTCATATGATTTTACACATGATTATTATAAAGATTAAATGAGGTAACACATTTAAGCACTTAATATATATTAGCTATTGTTACTCTTCATTTCTAA
GCACCTGGGAATAGCCCTGAGTTTTCTGGGCTTCTAACTTTTCTCAGGAAAGGGTGAGGGACCTGGAAAACAAGATAAAATTTTGTATTTGTGGTTATAA
AAATTCCTCCATTTTCTATAATACTTTAGACAGGTCAGGAATTTATGCAGTGTTAGTGCTGGAGGGTCTGGCAATTGTGAGGTCCAAACCCTTTTCTTGA
CAGGGGAAGCCCAGAGAGTCCAGCACTTTCTCCCCAATAGCACCGTGGTGGGCATGGGGTGCAGATCCCACCTCCCCATCTCTTCTCAGCTCTTCTTCTC
TGGGCGATAGTCCTGGCTGACACCGTGTATCTTCTCATCCTCCCTCTCAACCCTGCCCTGTGCCCTGTCTGCCCGCCCTCRCCCCACCCCTTCCCAGGCC
TCCCTGGAGCACGAGGAGGGCAAGATCCTCCGGGCCCAGCTAGAGTTCAACCAGATCAAGGCAGAGATCGAGCGGAAGCTGGCAGAGAAGGACGAGGAGA
TGGAACAGGCCAAGCGCAACCACCWGCGGGTGGTGGACTCGCTGCAGACCTCCCTGGATGCAGAGACACGCAGCCGCAACGAGGYCCTGAGGGTGAAGAA
GAAGATGGAAGGAGACCTCAATGAGATGGAGATCCAGCTCAGCCAYGCCAACCGCATGGCYGCCGAGGCCCAGAAGCAAGTCAAGAGCCTCCAGAGCTTG
CTGAAGGTACATGGGGGCGGGAGGTCCCCTCAGGGGACTGGCCTCCATGTGSCCTGGAGAAGCAGTGGTGTCTGGATACAGGCACCAGATTCCTCCTGCC
CCTGGGTTACTGCAGGGACCTCTGACAGGTGCCCTCAGTGAAGGGCACCKAGGCTGGCTTCTGCTCACACCCACTCTCCTGATGCTCAGGACACCCAGAT
CCAGCTGGAYGATGCGGTCCGTGCCAACGACGACCTGAAGGAGAACATCGCCATCGTGGAGCGGCGCAACAACCTGCTGCAGGCTGAGCTGGAGGAGCTG
CGTGCCGTGGTGGAGCAGACAGAGCGGTCCCGGAAGCTGGCGGAGCAGGAGCTGATTGAGACCAGCGAGCGGGTGCAGCTGCTGCATTCCCAGGTGAGGG
GGTCAGGAGCCACCTTGTGGAAACCTACTGAGTGCAGAGCCCAGGACATCTAGAAAAGCCAGATGTTCTAAGTGAGCACATCTAGCCAGGGTCACAAATC
ATTTCCTCTCTTAGGCCAACTCTCATCTGTGGTGGCTGCAGAACCATTATATTAAGAAAGCGGTCTCTACTTAGAAGCTAAGAGGGTCATGATTGATTGC
TGATACCTGCCAAAGCCACAAATCTGGGAGTAGTGGAATGTATCCTGTTATTTGATATTCTTGATCTGAAAGACAGCCTCCGGCTTGCTCTGTAAAGATG
AGAGTTTGGGAGTTTAAAGAAGCATAACTGCATCTCTTGCAAACCAAGCTGGCTAGAACACCATTTTCTGCAATCCCACCCACACTGTTTTCAGTTATAC
TCTGCAATGAGACTTTGTGCTCACCTTTTGCAGTGCCCTGTGGAGTTTTGTTCTTTAATCTAGTATGTGTGAGAATGACATCATCCACTTACCTCATCCC
CTCTTCCTTACCCCACTACATTCTTGGTATAGCTATAAACATCTCTGGAATATTGTCCTGGTAAAAAGTTGTTTCCATCTTCCTTGGAATATTGTCATGC
TCCTACGTAAACATGTTGCTAAAGAGCTCCAGGGTAATACTGCAGACCTTTTGCTATTTGAAGTCTTTTTTCAGAGTTTAGTAATCTTAGATACAATGTC
TAGAATGTATGCACTTTCATAGGAAAAGGGAAAGCAGGTACAAAACGATCAATAGTCTAAAAGTGGGCTTGTTGTTTWAAAAAAAAAATGACCACCTTTA
ATTCTYTCTGGAGAAAGGGTATGAAATCAGGTAACAAAGTGTAGTATATATTTGATCRTTTTTCTCTCTCCATGTCTAGAACACCAGCCTCATCAACCAG
AAGAAGAAGATGGAGTCKGAYCTGWCCCAGCTCCAGTCGGAAGTGGAGGAGGCAGTGCAGGAGTGCAGAAACGCYGAGGAGAAGGCCAAGAAGGCCATCA
CGGATGTAAGTGACCGCCCACCTTCCGCCTCCCCTAAAGACAGAAACAAGGCCTTGGGTCCAGGCCAGGCCACTGTGCTGTAACACCAAGCCAACTCTGC
AGTTCTGTGGATTTGAGGGCCTGATGGGAGAAAGGAGATCCTTGGGGGGCAAAAGGCCCCGGCCCCTGGCCCATGTTCCTTGCCACCTCTCTCCTGCACA
CAGGCCGCCATGATGGCAGAGGAGCTGAAGAAGGAGCAGGACACCAGCGCCCACCTGGAGCGCATGAAGAAGAACATGGAGCAGACCATTAAGGACCTGC
AGCACCGGCTGGACGAGGCCGAGCAGATCGCCCTCAAGGGAGGCAAGAAGCAGCTGCAGAAGCTGGAAGCGCGGGTGCGGGAGCTGGAGGGTGAGCTGGA
GGCCGAGCAGAAGCGCAACGCAGAGTCGGTGAAGGGCATGAGGAAGAGCGAGCGGCGCATCAAGGAGCTCACCTACCAGGTGCGGCGGACGCCAGACACC
RGGAGTAGATGTGGAAGTTTCTTCTCTGGCCCCACTGCCCCGCCCTCACAGGGCTCCTCTCACCTCCTCCTTGAGATGCTGTTGGTAGATTTAACGTTCT
TCTCACGCTCTGCAGTCAGTTTGACTTGAGTCTATGAGTTTTTCCAGCAAATGAAGAATCTACTTCTACTTCCTGAAAACTCTTCTAACTAGTCTTTCCC
CAGGTTTCTTTCTTTCTTTTTTTTTTTTTTTAATAACTCTAAGTGCTACCATGAAGACTTCAGAACAGTTCAAAGAATCCTTCCACCTTCGACTGTGGGG
ATAAGAGTCAGGGGAGGGGAAAAGACCCGGAAATCTTCCATAGAACTTCTGGCACACAAAGAGAAGGCCACAGAGAAAGAGGACCCTAGAATGCTCTAAA
ACCTCCACTTGCATAGCTGAGAGCTGTGCCCTTGGCCCGTTATTTTCAGTGTACCTGGGAAGAAAAGGCCAAGGAGACGAGGGTGTCAGTCCATTTGATA
GATGGATACCAGAGGCACAAGAAAGAGGTTACAGATACAGAACCACAGAGTGATTTGTGGACAGAAGTAGAAATGGCATCCTGGCACATACAATGATAAA
GAGATAGGAATGATCGAGTGACGTTGGAGCCAGTGATCCCGATGCCTGAATTCTGGCCCAGTACAATATATTAGAATGTAGAATAATCTGGATTATGATA
ATACCCCCTTCTTTCTGCATTCTTTTTCTGGTCAAGAACTACTGGCCAAGAGAACCTATGTAAGTCCAGGTTGGAGCTTTATCCACCATACTGGAGCTGG
AACAGACCTGGTGCTTTTATATTACCACATTAGGGAATTCCATTAGGTTCTGAGCCCCTCCCCCTACTTCTAGCTTTATGACTTCAGCCTTCATTGCTCT
GTGGATCCCTGACTGACAACCTTGCATTGCCCCTTTGACCTACGATAGAGTCAGAGAATCTTCCCCACCACCTCTTTGMCCTGGATCATTGCAGGGAGGG
GCAGCAAAGGCAAGGGGAGAAGAGTAAAATGATGGAGGAGGGAAAGGTGATTGCATTTGCTCCCCCTCCAAACCAGCTTCTCCCACCCTCYCACCCCCAG
ACAGAGGAAGACAAAAAGAACCTGCTGCGGCTACAGGACCTGGTGGACAAGCTGCAACTGAAGGTCAAGGCCTACAAGCGCCAGGCCGAGGAGGCGGTGA
GTTCAGAGCTTTCTTCCCTTTCTCATCAACACACCTACTATTTGTGAGAACCAATGAATATCTCCTACAGAGGGGCCTGGACAAAGAGTTTGCTATAAAC
TTTAACTCTCAAACATTTGTTTGACACATCTGGTATGCTCAGAGCTGTCAGGTGTTCTGAATTAACAAAGGCACCACCTACAAGCTGCTTACAATTCAGA
TACCATAACCCAACAGAAGGCAGTGTAGATGCTAGTGCAGGACGTGGGGCAGCCGAAGCTGAAGGCAGGAAGGTGGCGGTGGAATTGGGCCTAGAAGGGG
ACCCAGCTAGCCACAGGGCAGTGGGGAAGACATCTGGGTGGATGTGAGTTGCTGATTAGCATGCCTGCACAGGAAGCTGGGGTCCGGGACAGGTGCAGCA
AAACAGGATTCTGAAGGGGCCCAGATCGGGCAGCATGGGATTTGTCTGGGGCAGTGGATGGCCGTGAAGGACTCTGAGTGCTGGACATGTTTGAGAAGAG
TGCAAGGCAGTTGCAGGATACCCTTGGGAAGGCTGTTGCAGGAATATKCATGAGGYATGGGTGCCTCAGGGACAGGGAGCTGGAACCTCAGGTTGAGAGG
CTGAGAATCCCATAGCCCATCTCCAGCTCATTCACCCATCCCCACTGTCCCACCACAGGAGGAGCAAGCCAACACCAACCTGTCCAAGTTCCRCAAGGTG
CAGCATGAGCTGGATGAGGCAGAGGAGCGGGCGGACATCGCTGAGTCCCAGGTCAACAAGCTTCGAGCCAAGAGCCGTGACATTGGTGCCAAGGTGGGTC
CCTCCCCTGGGCTTCACTAGTCACTTCCACATTAGCATGCCCCCTGATATGGGTGCCCTTCAGAGTGGGCACTGCTTGCCCTATATGTAGGCAGTTCTGA
GGGTCCCATAGCTTACATAACCTGAGAATCCACTCTCCTGCTCAAAACAGCCCCCCACTGACTGGAACTTCTGCAGAGATCCCCAGTTCCATCCCCCTAA
ACCACAAGTGCCTCTAACGTGGGACCACARGATCCCTGGGGCCCTGCCTCTCCCTCCAAGGGCATCTCCCTTAGGCCYCWGAAAGCCCCAGGGATTTGTC
CCCAYACACTTCTCCCTCTTGCCAGCTGCCCCCTCACACCTCTTATTCTTTTTGCAGCAAAAAATGCACGATGAGGAGTGACACTGCCTCGGGAACCTCA
CTCTTGCCAACCTGTAATAAATATGAGTGCCAAACTCTGCCTGAGCCCATCTGTCCTTCCTGCCAGCTGTCCATCCTGGATCAGGGCAGTAGGGGGCCTG
AGAGGAGGGAGGCCCCCAGCCCCTGTATCAGAGCTGCCAGAGCCAAGGCATCCCATATCCACAAGGAAGGAGACCGAGGTGCAGAGGAGTGAGGTGTTCT
GCCTGACGTGGACAGCTGTGAGTCCCAGTTCTGCTCAGTCAACCACACAAGGGTGGAGAGGGAGAAATTTCAAAAGTGAAGAAAACAATGGCATCAAAAT
GGTGAGCCAGTCCAAGATGCTACGAGATAGAATTTTGGTGCCGAAGTTGAAGCCACTCTCCACCTACCCCACCCCTGAGGCTGCAATGATTAAAGGTGTC
CTAGGACACCCATTCTTTCTGAAATGAATTTTCCACCAATGCCAGAAAAGGCTCAGAGCTGGCTGAGAATTAAGGTATGGGAAAGGAGATGGGAGAGATT
CCATTCTAGTCAGCCCCTAGGAAGTAACTCCCAGGGAGCCCCCTCCCTGTCTTCCCCAGGGGTCTCCCCCTGCCTCCTATGATTCAGCACCTCACCGTGA
GGGCATCTTGAGACTCTGGGGCCAATCAACACTGAGCCCAAACCAATATGCCATGAGGACCAAGCCTGGGCATTGCTCATTTCATGTTGGTTCTCACACA
GACACAGATGGCACAGGTGCCTGTACAGGGAAACACTGTGGTCACATTTCTGCTCTCTCTAAGCTCCTACTGGGGACAGTCTGGCCTGGATCACACAGCT
GCTTGTGGGACAGGCCCGGTCCTGACCCCGTTCTGCACAAAGCAAATCCCCACTCCCCACTGGGCTTTGCAGCCAGGCTCTGCTGACCGCCTCCTTAACC
GTTCACCTGGCACCCCATCTCCCTGACTCCCCAAGTGGAGCCTCTTCTATCCCTCCTCTGAGACCATGAGAATGGACTGTGCATAAAGCCCTGAGAAATG
TGAGCAGTGACCAGAGAAACACAAAATCCTGTTGGTTCTAGCCCAGGAGAGGCTGCCAGTTCTGATGGTGAGCCAGGACACAAGGATAGGAGAACAGGAA
GCAGGAGGCAGGAAAAAGACCAAGAGAGAGGAGTGGCTGCCACCAAGGAAGCAGAGCGCTCTGACCAGAGTTCAAGATCCAGGGTTCGGGCAGGACTTGG
GAGCTGGGGCCTGCAGCTGGAAGGAGCGCTCCAGAAGAAGGATTGTATCTCAGGGCGGGAACACACACACATCAGCGACAGGAGATAGCACGTCAGCTGG
GATGGAGCTGCTGAGCCAGGCCATGCTGGGCTCCTCGGGCTGGGCAGGAACGTCTGGCTGCACATCTGTCTGTCTCGGCCCAGCAGGGCTGACTCCCGGG
CTGTGGCAGTGTCTGCTCCAAACTCCCCTGAGCCTTCCCATAGCATTCACTGTGGGGAGCTCTTGACCAGCTTGTCTCTTTCCCAGCCTGTGAGTGCTAA
AGGGCAGGCCCCCCGTCACCTCTGAGGCCCTGGCACCCAGCACAGTGTGCATGGGAGATGCTCAGGAAATGTGTGCTGAGGAGCTGGCAAGCTGGGAGGG
TGGACCCGCAGTGGAGGGAAGAGTTGGCCATTCTTTTCTGAGCTACAAGGAGGCTCAGTACAGTATCCAGAACACTCGCTTAGGTGTCAGAAGAGCTGCG
TTCTGGCCCTAGCTCTGTCACAAATGAGTTCACCTCCCCTGGCTGGGCCTGTTTTCTCTTATGTGAAATGAGGGCATTGGACCAGCTGATAATCAACGGC
TCTCCCAGCATTCGCATTTTGGGAAATCTCTCCCTCCTCTGATACCTCAGGCTGCCCTCTCCCTGCGTCCTGTGGGCCAAGTCTTCCCCACACCACAAGG
GGGAGCTCTGCACACGCCCCAGGCGAGCGCCTGGCCTCCAGCCCACTAACCTGCGGGAACAGGTGTGGTGGTGCATGCATGCTCCCATGAGGAAGGCTGT
GCCTTCTCAGACACAGAACTCCAGATGCCCAGCCACCAGGCACACCACAAAGTGGCCGTGCACACAGAGGTGTAGCGTAGAAGTTTTGTGTTGGAGGATG
TCTTCAGCTTCTTCTGGCTAGCCCCCACATCCTCACTGCTCAGACCCAGTCCCAGAGACAGACCACGACCTGCTCTGGCAACATTCCCATGAATACTCCT
TGACATTCCTGACCTGCCTAATTTCTGGGGAAGAAAGAGACTCACCAGTAGAATTTGAATATTTTAATTTGGGAATGACTTAGAGGTCCAGATTCCTCCC
CTCCACCCCCCCTCCCCCAATAAGTTCCCCTCCTCTGGCCAGAGCTTCATGAGAAGCCACATCCTGGAGCACCAGGCTCCACAGATAAGTCCCCAGTGAC
GTCTCAGGCCAGACTGCTGTGTAGGGCTGGGGTGGGGTTTGGCGGGCTGGGGGCTAGTGAATCCCAAGGAGACGTGTCTGGGCTCCACTGTCCTCTCTGG
CTGGCTGGGCCTAGGAGCCAGGTAGCCCCAGAGTCACTGCTGGTCCCCTGTGAGGATAGAGCCAGGTAGGGACCCACATCAGGATGGGTAGCTAGGGTGG
GGAGGGCATCTCCTCTCCACAGAGCACAGGCACTCACCCTGGCTGGCCCCGGGTGCCATCTCAGTCCGGTAGATCTTGAAGGCATCATAGGCAAAGATGG
AAACCAGGATGATGCCAAAAACCTGTGGGAGTGGGAGTGGGGATGGCAAAACAGAGGCTATAGGGCCATTGGGTTAAGGTATAGGGTGAGGTGCAAGCCA
GAACCCCAAGTCCTGGCTGTGGCTTCTGATACAGAAAGTGTGCAAGCACCAGCCTGAGCTCTTGAGGGGCTAAGGAGTCCTGCAGGGCTGAACTCACAAA
AGCAGCAATGGCAGCTCCRTCCCGGGAGGTCACAGCTGCAAAGGAGACCACCAGGAAGATGATGATGGCACTGACACAGCGCAGGAAGTCCTGGGGGCCA
GGGGTGCAGGGTTAACAGGACCTCAGAAGGCAGGGGGCGTTACCCTGAAGTTTTCCAGGCTAGCCAGCAGCCCGACCCTGAGGGATTCTGAACCCCTCCA
TAGGATACCCCTCACACAATATGAAGCACATTCAAGAGACAGAGCGCTCACACTGCTACCCAGGGAGTGGAAGCAGATGAACCAGAGCAACCAGGACCAG
AAGCCAGGCGCTGGGGCTGGAACCCAGGGGACAGCGGCTGGAGTATGCCAGCCCGGGGGGGTCAAGCCAGGCCAGGGCTGGGGCTGGACCTTTGCTGAGT
GGGAGAGTAGATCTAGCGGATGTGGTCCTCCTGATTGCCCGTGGCCCTGCAGCTGTGAAATCAGTGTGAGTCAAAGCACACCTTTGAGTGCAGGGCATAG
CATGGGACAAAGCCCAGCTGTGGTGTGGAAATGGAAAGAAGCTCGGGGAGGAAAGGAAAATGCATCATTTAGAGGAGAGGGAAGGGCCCCAAACTGGGCT
AGGGGTCAGGGTTCCTCACCAGACAGGGCCAGTTAATTCGGTCGAAGCGCTGGTAGTACTGGGTGGCATAGAGGAAGAGGAAGGCAAGTGTGATGAAGAA
CTCCAGTAGCGCCGCGGCCATGTAGGCAGAGATGGAGGCCGTGAAGCARATGAAGATGATGAGGGTCAGGGCCTGCAGGACCGAGCATGTGGAACATGCC
AAGAAGGGGACACAGGCAGGGGCCAGGGCTTTGCCTTCCCCTCCTTGGAAGCTCCCCTAGGCTGGCACCTACTACCTGTCCTTGGAGGGGAGGAAGGACT
CTGGCACATCTCCCTATCCCCTGGTGTCAGGAGCCACCGTTGCAGGGCATTTGCCGGTCAAGGGCAGTCTCCGGCCTCCCACTCTGCTCACCCAGCAACC
CCAGCAGTCTGGCCAAGCCATATGGCTCCCAGGAGCACTATCCCACAGTAATTCATAGGTACAGTGTGAATGCCAGCCCCTGGAGTTGTGCCCACAGAGA
CCCGACTCCACAGGGACCAAGAGGAGCCCCCTGCCTCATAATGCTTTCCCCACCCCCAGATGCCTGAAAGCCCCCTGACAAGGACCAGAGCCTTTGATTC
CATGCCAAGAGAGAAGGCAGATGCTGCCCAGTGGTTTCTGGGAGCCCCTTTAGCTCTGATGACCTAGGGTGGCATACGTGCAGAGGCCTTAACTCTACAC
TGTGGTCTTGCTAAGTAACCAGGGGAAGATCCTTTCCTGAGAAGAGATGTTTCTGGGCAGCAGACCACAGATAAAGTGCAGTTGCAGGAAGTCTGCCCTT
TTTGATAGTTAGACTTCTTGGACGTGCTGAGAAGTGGCCATGTTAGAGGCTGTCATTGCCCCTGTCCCATCCCTATGTCTCAAGCTTCCTCAATGTCCCA
AAAAGTCACCCTGTCTAACTGCAGTCCTTCCTGCTGCAACTGAAACCTGCTGTAAATGTCTCCGGGTGGAGAGGCAGCAAGAAGGCAGAGTAGGAGACGA
AGAAGGGGCAGCTGCGGGCAGGAGAGGTGTCCAGAGGGCTTGGGGAAGGAGGCTACTGAAGGGTGAGCTGGGGGCTGGCATAAGGCTGGCCAGGAGCCGG
GGGTCAGGGAGATGGAGGCACCAGGTTGGGAGGCAGCTGTTACCAGCTCGGTTTCCAGCAGGATGCCCTTGTGGGAGGTGAGGAAGGCCTTGTCCACCGC
GAAGCCCTGGAGCTCTGCAACTACCCCCTCCTCAGGGTGCCGGTCCCGGCGATCTCGAGCACTGAGCATCTTCGTAGGGCCCACCAACACAGCCCCCTAC
TGCCAAAAGCCCAGCAAGAGAAACAGAAATCTGGCAGGATGGGGAAACAGACAGGAGCAAGAAGGCACTTCGAGAAACCTGAAAGTGAAGCAGGAGGCTT
GCCCACAGGGCCCCGGGAGAGAAGGCAGGCGCTGGGGGCCTTGCCCAGATGGGCCCTCACCCAGCTGCCCAGAGTGCCTCTGCTGCTGCCTGCACCAGCC
CCCTAGAGACCCATGGGGAGGGGCAGAGAGGAAGGAGGCTCTAATCCCTCCCCTTGCTTAGAGCCCAACCCAGCCTGGAATAGAGAAGGAAGGGGAGAGG
AGGAGGTCCGAAAAGAAACTGGGAGGAGCTGGGATGTGAGTAGAGGAACAGGGGCAGGACTGGGAGCCCCCAGGGACCTAAGCCTGAAGACATTTGTGTC
CCCCTTCTCTAACCTTAACCCTCTTGTTTGGCCGGTCCTTTCTCCCATTTCCTTTTAGGGAGGGTGTGAGCTGGAGCCCAGCCCAGGCAGCACCCCCAGG
ACCAAGCTGCAGCAGCCAGGACTGGAGGACAAAGGCGGATTGTTGGGGGACAAGGGGGCGCTCTGTGCCTGCTGCAATGCCTCAATGGGCCTCTGTCTCT
CCAGCATGCCGGGAGCGCGGCCTAGCCCCCACCCTGGTGTTTGGGATGGGCCAGGGAGACAGAGATGGGAGAGGACGGGAGGGTGCAGCGGAAACTCTGG
AGGGCGGAGAGAGCTGGCAGGGTGGACAGAGGTGAGGGCCAATGGTGGAAAGGAGAAGGGACAGGCTGGGAGACCGCGAGATGTTCAGGCACCACGGATG
CCAAATACAGATTAGGCCATTTTTAAATAAAGATATTTATTTGGATAAATCTCTATACATTCAATAACAGCTTCCTCCTCAGAATCATCCATGTCAAAAG
ACTAGTAACTACACTAGAATGCACCCAAAGTAGATGCTCACTGAGTGATGAGTAAACAAACAAATAAAACCAGGGGCTCTTTCTTCTCCAGCAAGGGGGA
AATATCTAGAAAGTGCCTGTGCTGGGCCAGGGTAGCAGGGGATGGGAAAAGAGGAAGAGACAGGAGTGGTGGCCTCCAGAAATGGGCAGAACTTTGAAAA
CCTTTCCTGAGAGAAAATGACAGGACACCAGCTTCCGGCGGCCCTAAGCAGCAGCTGCTCTTTTCAAAATGTGCAGAAGTGCAGGCTTTCCCCAAAGCCC
CCCATCCTGTCCCGGGATCCTGCTGCTCCAGACAGCACTTCACAGGGGCCAAGCATCTGGGCATCCTGGCCCTTCATGGCAAGTGGTTGTACACCTGGCT
CCAGGTTTCCCAAAAAGGGACCAGCCTCCAG


SNP Information

Context             (SEQ ID NO:14226):
GACATCGGGGTAGGGGCCGGGGCACTGGTCAGAGCAAGGGGAGCAAGGCCAAGTCCCTGTGTCCTGGGAGGAGGTCAGTGGGCAGTGCTGGCAAGGGTCC
Y
GGAGGGATTGTGGTCACTCATCCTCCTGCTTATGCGCCCCCTCCAGACGGTGACTGTGAAGGAGGACCAGGTGTTGCAGCAGAACCCACCCAAGTTCGAC
Celera SNP ID:            hCV25472715
SNP Position Genomic:     7419
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,3)   caucasian(C,26)   total(C,49|T,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14227):
ACAGAATGAGATAGAGGACTTGATGGTGGACGTAGAGCGCTCCAATGCTGCTGCTGCAGCCCTGGACAAGAAGCAGAGAAACTTTGACAAGGTGGACCAT
R
GGCGGGGGCCGCAGCCAGCATGCAGGGCAAGGGGGCATGAGGGGTTCAGTGAGAGGCCAAAGGCAACCTCCTTGGAGGTGGAGGAGGAGGGCTAAGCCCA
Celera SNP ID:            hCV25637899
SNP Position Genomic:     25076
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,35)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:14228):
GGTCAGAAGACCTGGGTTCAGACCTACCAGCTGGCCTGGGCAAGTTACTTTACCACTTCGAATCTCATTGCAAATTCTTCTTCTTCTTCTTCTTCTTCTT
Y
TTTTTTTTTTAAAGAAACTTCTCTATAGGAAAATGCAAATTAAGACACCAATGAAATACCATTTTAAAACACTAGACTTTGCTTGCTCAGATGGTCTACA
Celera SNP ID:            hCV27129020
SNP Position Genomic:     17107
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,7|T,7)   total(C,1|T,7|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14229):
AATTAGCCGGGTGTGGTGGCAGATGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGCATGAGCCCGGGAGGCAGAGCTTGCAGTGAGCC
R
AGATCGAGCCACTGCACTCTAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAGTTGAACAGCTGCATACTTCTCCATTCCACTCCTGAGT
Celera SNP ID:            hCV27129021
SNP Position Genomic:     17626
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14230):
CAAAAACAAGATTCAGCTGGAGGCCAAAGTAAAGGAGATGAATGAGAGGCTGGAGGATGAGGAGGAGATGAACGCGGAGCTCACTGCCAAGAAGCGCAAG
Y
TGGAAGACGAGTGCTCAGAGCTCAAGAAGGACATTGATGACCTGGAGCTGACACTGGCCAAGGTGGAGAAGGAGAAGCATGCAACAGAGAACAAGGTGAG
Celera SNP ID:            hCV27129022
SNP Position Genomic:     19460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14231):
GGCTTCTCCTTCTGAGATCTGCTCTGCCTCAGGGACTTTCTACTCTAAGACAAATGATAGAGCTCTATTCTCCTCTAACCCTTCCTCTGGTAGTTCAGCC
S
TCTGAACGCAGGGTGAAAAAAAAAAAAGGCTTCAAGGAGCACCTTCCTGTGAGCTGCTCTGTTCATATTCTTCCCGGTACTAACCCCAGCCACTAACCCA
Celera SNP ID:            hCV27129023
SNP Position Genomic:     20986
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14232):
CCGTGGAGGCTGTTAATGCCAAGTGCTCCTCACTGGAGAAGACCAAGCACCGGCTACAGAATGAGATAGAGGACTTGATGGTGGACGTAGAGCGCTCCAA
Y
GCTGCTGCTGCAGCCCTGGACAAGAAGCAGAGAAACTTTGACAAGGTGGACCATGGGCGGGGGCCGCAGCCAGCATGCAGGGCAAGGGGGCATGAGGGGT
Celera SNP ID:            hCV27129024
SNP Position Genomic:     25021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14233):
TGGAGGCTGTTAATGCCAAGTGCTCCTCACTGGAGAAGACCAAGCACCGGCTACAGAATGAGATAGAGGACTTGATGGTGGACGTAGAGCGCTCCAATGC
Y
GCTGCTGCAGCCCTGGACAAGAAGCAGAGAAACTTTGACAAGGTGGACCATGGGCGGGGGCCGCAGCCAGCATGCAGGGCAAGGGGGCATGAGGGGTTCA
Celera SNP ID:            hCV27129025
SNP Position Genomic:     25024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14234):
CCTTCCCTTGATCCTGGTTTTATCTTGCCTCTTGGTCTTCATCGACACTTGTCACAATCATGCTTCTTTGTCTCTCTCCCTTGTCCTTCCTTCTTGGCAC
K
TGTTCTCACCTCCCTGCCTCTCTGCTTCTAACCCTGTTTCCACACCCCGTCCCTCGCACTCATATTGACTCGGTGCCCTTTCTTTTCTGCCTCTGCGTCT
Celera SNP ID:            hCV2227951
SNP Position Genomic:     5372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:14235):
GTGAGTAGGGCATGGCGCCGGGGCAGAAGGGAAGGAGGTCTGGGAAAGAAGATGCAGAGGTGGAGCCACTTGCAGGGGGAGCTGAGAGGGCTGGAGAAAA
S
CCAAGGCCAGTGGGGATGCCAGGACATGCTCCTTTGAGGAGCCCAGAATCTGATCCCTCTCAAATTGACCTGAGCTGGTGCAACAGGTGCCACCCAGGGC
Celera SNP ID:            hCV2227952
SNP Position Genomic:     6314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14236):
CGTGGCAAGAAGGACAATGCCAATGCGAACAAGGTGCCATGGGGGACACAGGCTCGGCAGAACAGGGGTTGGGGGGCAGGCTGACCCGAGTTACCCCTAA
Y
CCTCCCCTCCCTGTGACGTGGTGGGGACAGCCACACTGAGCTGGGCTCCCGATGGTCAGCCCAGTATGGAAGACCTTCCTGACAGGAGACACTCACCCTG
Celera SNP ID:            hCV25767410
SNP Position Genomic:     8593
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,30)   total(C,63|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14237):
AGGGCATGGCGCCGGGGCAGAAGGGAAGGAGGTCTGGGAAAGAAGATGCAGAGGTGGAGCCACTTGCAGGGGGAGCTGAGAGGGCTGGAGAAAAGCCAAG
S
CCAGTGGGGATGCCAGGACATGCTCCTTTGAGGAGCCCAGAATCTGATCCCTCTCAAATTGACCTGAGCTGGTGCAACAGGTGCCACCCAGGGCCATGTT
Celera SNP ID:            hCV2227953
SNP Position Genomic:     6320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14238):
CAGAAGGGAAGGAGGTCTGGGAAAGAAGATGCAGAGGTGGAGCCACTTGCAGGGGGAGCTGAGAGGGCTGGAGAAAAGCCAAGGCCAGTGGGGATGCCAG
S
ACATGCTCCTTTGAGGAGCCCAGAATCTGATCCCTCTCAAATTGACCTGAGCTGGTGCAACAGGTGCCACCCAGGGCCATGTTCCCCCTGCCAGAGAGGA
Celera SNP ID:            hCV2227954
SNP Position Genomic:     6337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14239):
GGGAAAGAAGATGCAGAGGTGGAGCCACTTGCAGGGGGAGCTGAGAGGGCTGGAGAAAAGCCAAGGCCAGTGGGGATGCCAGGACATGCTCCTTTGAGGA
S
CCCAGAATCTGATCCCTCTCAAATTGACCTGAGCTGGTGCAACAGGTGCCACCCAGGGCCATGTTCCCCCTGCCAGAGAGGATGCTGAGGAAGAAGAACC
Celera SNP ID:            hCV2227955
SNP Position Genomic:     6355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14240):
ATTGACCTGAGCTGGTGCAACAGGTGCCACCCAGGGCCATGTTCCCCCTGCCAGAGAGGATGCTGAGGAAGAAGAACCTCAGTGTTCGCCTAAGAGGGGT
S
TTGTAGATAAAGAGGGCACAGACACAGCATTAAATGATGCCCCCTTCTTGCACTTGTATCCCTCTTCCCTGTGCCTCAGTTTCCTCCATGAGTCCACTTT
Celera SNP ID:            hCV2227956
SNP Position Genomic:     6478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14241):
AAAGAGGGCACAGACACAGCATTAAATGATGCCCCCTTCTTGCACTTGTATCCCTCTTCCCTGTGCCTCAGTTTCCTCCATGAGTCCACTTTCTCAAATT
M
CGTTCACCCAAATCAAGAGTAATTCTTAGACCCAGATGAACACAAAGATCAGAAACTTTTGAGCTGAGCACTCTCCTTGACTGGCACTCAGAAGCTCTGG
Celera SNP ID:            hCV2227957
SNP Position Genomic:     6587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14242):
AAGAGGGCACAGACACAGCATTAAATGATGCCCCCTTCTTGCACTTGTATCCCTCTTCCCTGTGCCTCAGTTTCCTCCATGAGTCCACTTTCTCAAATTC
M
GTTCACCCAAATCAAGAGTAATTCTTAGACCCAGATGAACACAAAGATCAGAAACTTTTGAGCTGAGCACTCTCCTTGACTGGCACTCAGAAGCTCTGGT
Celera SNP ID:            hCV2227958
SNP Position Genomic:     6588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14243):
CAAGTGCCTCTAACGTGGGACCACAGGATCCCTGGGGCCCTGCCTCTCCCTCCAAGGGCATCTCCCTTAGGCCTCTGAAAGCCCCAGGGATTTGTCCCCA
Y
ACACTTCTCCCTCTTGCCAGCTGCCCCCTCACACCTCTTATTCTTTTTGCAGCAAAAAATGCACGATGAGGAGTGACACTGCCTCGGGAACCTCACTCTT
Celera SNP ID:            hCV25474321
SNP Position Genomic:     31105
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,40)   total(C,72|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:14244):
CCAGGTCTGCCCCAAGACCCTTGGAACATAGGGACTGAAGAGTGATGGTCATGGGCACAGGGTGTCCCCAGGATGGTCTGGGGATCTGGCAAGAGAAAGG
W
ACCCTAGGACAGTCTCTAGGATGGGAGATACAATGGGAAGGGAAATTACCTGGGGAAAGTGTCCCAGGGGACATCGGGGTAGGGGCCGGGGCACTGGTCA
Celera SNP ID:            hCV2227959
SNP Position Genomic:     7249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14245):
AATCAGGTAACAAAGTGTAGTATATATTTGATCATTTTTCTCTCTCCATGTCTAGAACACCAGCCTCATCAACCAGAAGAAGAAGATGGAGTCGGATCTG
W
CCCAGCTCCAGTCGGAAGTGGAGGAGGCAGTGCAGGAGTGCAGAAACGCCGAGGAGAAGGCCAAGAAGGCCATCACGGATGTAAGTGACCGCCCACCTTC
Celera SNP ID:            hCV11436379
SNP Position Genomic:     28225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14246):
ACAATCAGACATTGCCAACTGTTCCCTGGGGCACAAAATTGCCCCTAGTTGAGAACCACTGCTTGAGAGGAACCTAAGTTCCTGGTAGCTTTTCAGAGCC
R
GGGGGATTCCAGTGGAGGGGTCCAGGCGGTGGGTCTGAGCCCTTTGTGTCTGACCCAGGCACGCATCGAGGAGCTGGAGGAGGAGCTGGAGGCCGAGCGC
Celera SNP ID:            hCV25471565
SNP Position Genomic:     22716
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,21)   caucasian(A,2|G,38)   total(A,15|G,59)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14247):
ACCAACCTCATGCCCAGCCTTGTCTCCTGCTCCAGACCTACTCGGGCCTCTTCTGTGTCACTGTCAACCCCTACAAGTGGCTGCCGGTGTACAATGCCGA
R
GTGGTGGCCGCCTACCGGGGCAAGAAGAGGAGTGAGGCCCCGCCCCACATCTTCTCCATCTCCGACAACGCCTATCAGTACATGCTGACAGGTGAGCCTG
Celera SNP ID:            hCV25471921
SNP Position Genomic:     7922
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(A,8|G,30)   total(A,13|G,59)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,9|G,29)   total(A,16|G,60)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14248):
GCCTTGTCTCCTGCTCCAGACCTACTCGGGCCTCTTCTGTGTCACTGTCAACCCCTACAAGTGGCTGCCGGTGTACAATGCCGAGGTGGTGGCCGCCTAC
M
GGGGCAAGAAGAGGAGTGAGGCCCCGCCCCACATCTTCTCCATCTCCGACAACGCCTATCAGTACATGCTGACAGGTGAGCCTGGTGGCCCCTGGTCTCT
Celera SNP ID:            hCV25471922
SNP Position Genomic:     7938
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,4|C,34)   total(A,4|C,72)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,4|C,36)   total(A,4|C,74)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14249):
TTGATCTGCTCAGCCCTGGAGGTGCCAGCAAAGCCCCATGCTGGAGCCTGTGTAACAGCTCCTTGGGAGGAAGCAGAATAAAGCAATTTTCCTTGAAGCC
R
AGATCCTGACTCCAGACTCTTCTTCACTGCCCTGAGGACCCGGGGATGGGGTCTGGACTAGGGGAGGTGGAAATGCAGGGGAGTGGGGGCAAATTCAAAG
Celera SNP ID:            hCV25953891
SNP Position Genomic:     495
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(A,1|G,23)   total(A,2|G,50)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:14250):
CAGTTTGACTTGAGTCTATGAGTTTTTCCAGCAAATGAAGAATCTACTTCTACTTCCTGAAAACTCTTCTAACTAGTCTTTCCCCAGGTTTCTTTCTTTC
T
TTTTTTTTTTTTTTAATAACTCTAAGTGCTACCATGAAGACTTCAGAACAGTTCAAAGAATCCTTCCACCTTCGACTGTGGGGATAAGAGTCAGGGGAGG
Celera SNP ID:            hCV27129031
SNP Position Genomic:     29017
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14251):
GTGCCCCTAACCAACCCCCTGCCTAGGGCAGGACATGACTTGTGAAATGGCCCACAAGCCCCTCATTTCACCTCCAGGAGAGTTGGCCCGGCAGCTAGAG
S
AAAAGGAGGCGCTAATCTCGCAGCTGACCCGGGGGAAGCTCTCTTATACCCAGCAAATGGAGGACCTCAAAAGGCAGCTGGAGGAGGAGGGCAAGGTGAG
Celera SNP ID:            hCV25637900
SNP Position Genomic:     23733
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14252):
GAAATGGAGCCTGGAGCTGGAAAGAGTCCTCTGCAAGGGAAAGACCCTCCAGTCTAGGTTCTGCCCTGCAGCTAAGCGTCATTTAATGCCTCTTTTCTTA
Y
TCGTAAGGGGATGGGGTGAGCAGACTGGGAAACTCCTCAAACAGTGAGGTGCCACATCAGCCCACATGGTGAATAAGGCTGGGCTTGGTTGAAGTACTAC
Celera SNP ID:            hCV25637901
SNP Position Genomic:     23994
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(T,40)   total(C,4|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:14253):
GGGTGTCCCCAGGATGGTCTGGGGATCTGGCAAGAGAAAGGTACCCTAGGACAGTCTCTAGGATGGGAGATACAATGGGAAGGGAAATTACCTGGGGAAA
S
TGTCCCAGGGGACATCGGGGTAGGGGCCGGGGCACTGGTCAGAGCAAGGGGAGCAAGGCCAAGTCCCTGTGTCCTGGGAGGAGGTCAGTGGGCAGTGCTG
Celera SNP ID:            hCV16135106
SNP Position Genomic:     7308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14254):
CAGGTCTGCCCCAAGACCCTTGGAACATAGGGACTGAAGAGTGATGGTCATGGGCACAGGGTGTCCCCAGGATGGTCTGGGGATCTGGCAAGAGAAAGGT
W
CCCTAGGACAGTCTCTAGGATGGGAGATACAATGGGAAGGGAAATTACCTGGGGAAAGTGTCCCAGGGGACATCGGGGTAGGGGCCGGGGCACTGGTCAG
Celera SNP ID:            hCV2227960
SNP Position Genomic:     7250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14255):
CCTCCTTTCTTTAATTCAAGTCTCTCTTCAGACTGCGCCCTCCCACACCTTCTGTGTCCCCCTCCTGCCCTCTGGCATTCCCCATCTCTGACCCTCTCTT
Y
CTTCCTCTGGTCGACTCAGCCCCTCCCACACTCACCCTTCCTGTCTTGCTTCCTGAAGGCAAACCTGGAGAAAGTGTCTCGGACGCTGGAGGACCAGGCC
Celera SNP ID:            hCV25637908
SNP Position Genomic:     23443
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14256):
GGGGTAGGGGCCGGGGCACTGGTCAGAGCAAGGGGAGCAAGGCCAAGTCCCTGTGTCCTGGGAGGAGGTCAGTGGGCAGTGCTGGCAAGGGTCCCGGAGG
R
ATTGTGGTCACTCATCCTCCTGCTTATGCGCCCCCTCCAGACGGTGACTGTGAAGGAGGACCAGGTGTTGCAGCAGAACCCACCCAAGTTCGACAAGATT
Celera SNP ID:            hCV2227961
SNP Position Genomic:     7425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14257):
GGGTAGGGGCCGGGGCACTGGTCAGAGCAAGGGGAGCAAGGCCAAGTCCCTGTGTCCTGGGAGGAGGTCAGTGGGCAGTGCTGGCAAGGGTCCCGGAGGG
R
TTGTGGTCACTCATCCTCCTGCTTATGCGCCCCCTCCAGACGGTGACTGTGAAGGAGGACCAGGTGTTGCAGCAGAACCCACCCAAGTTCGACAAGATTG
Celera SNP ID:            hCV2227962
SNP Position Genomic:     7426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14258):
AGGCGGTGGGTCTGAGCCCTTTGTGTCTGACCCAGGCACGCATCGAGGAGCTGGAGGAGGAGCTGGAGGCCGAGCGCACCGCCAGGGCTAAGGTGGAGAA
R
CTGCGCTCAGACCTGTCTCGGGAGCTGGAGGAGATCAGCGAGCGGCTGGAAGAGGCCGGCGGGGCCACGTCCGTGCAGATCGAGATGAACAAGAAGCGCG
Celera SNP ID:            hCV25637909
SNP Position Genomic:     22840
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(G,40)   total(A,2|G,70)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14259):
CCGAGAACTCCCTGCACCCCATCCCTGTTCTGCCGCTGTCTCCCACTTCTCCCTCACCTGGGGGTGACCCTGACCCCAGGACAAAATCTATTCATTCCAT
R
TTCTTTGTTCAACATTATCTACCCACTATTCACTACCCATGACTGCCTCCAAAGCCAAGGTCTGCACAAAGGAAAATGTCAGTCTGATTAGAGGCCAAAG
Celera SNP ID:            hCV25767420
SNP Position Genomic:     25800
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,18)   total(A,49|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14260):
ATTGTGGTCACTCATCCTCCTGCTTATGCGCCCCCTCCAGACGGTGACTGTGAAGGAGGACCAGGTGTTGCAGCAGAACCCACCCAAGTTCGACAAGATT
S
AGGACATGGCCATGCTGACCTTCCTGCACGAGCCCGCGGTGCTTTTCAACCTCAAGGAGCGCTACGCGGCCTGGATGATATATGTGAGTGGCTCCTGCAC
Celera SNP ID:            hCV2227963
SNP Position Genomic:     7526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14261):
CCCTCTGGGCCGAGGTTCCACTAGGAGGTCCCTGCACAGTGTGTGAGGGTGGCATCCTCTGCCCGGCTTCACTTATACTCAACTGAGACACCAAAGAGGT
Y
GTTTACATTTCCAGAACCATCCAGGGCTTCTGGGCTGAACAGAGGGCCAGGATTTCACTCTGTCCTTCCCGCCAGTTCCCTCACTCTGTCCCATTCGTCC
Celera SNP ID:            hCV2227965
SNP Position Genomic:     9353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14262):
TTGCCTCTGGGCTTTAGGATCCTTTTTATTTAAGCCACATCTTCTCGCCTGGCCCTCTTCATCAAGCTGTGGGTGCCCCCTGCCCTCTGCCCCCATGGCC
R
CCTTTTTCTGGCTCTACTCTCTTTCCTTCCTCACCTGCCTTCCTCCCCTCCGCCCACCTCAGACCTGCTGGAGAAGTCCCGGGTGATCTTCCAGCTGAAA
Celera SNP ID:            hCV2227966
SNP Position Genomic:     9727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14263):
AGAAGAGAATCTAGAGAATGGGGCACAGGGAGTCCCTCCCACCTCCTGGTGCCCCCCCCCCTCCCCAGGCGAAGAACGCCCTGGCCCATGCACTGCAGTC
R
GCCCGGCATGACTGCGACCTGCTGCGGGAGCAGTACGAGGAGGAGACAGAGGCCAAGGCCGAGCTGCAGCGCGTCCTGTCCAAGGCCAACTCGGAGGTGG
Celera SNP ID:            hCV11436384
SNP Position Genomic:     24198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14264):
TGCCCCCTGCCCTCTGCCCCCATGGCCACCTTTTTCTGGCTCTACTCTCTTTCCTTCCTCACCTGCCTTCCTCCCCTCCGCCCACCTCAGACCTGCTGGA
R
AAGTCCCGGGTGATCTTCCAGCTGAAAGCTGAGAGAAACTACCACATCTTCTACCAGATTCTGTCCAACAAGAAGCCGGAGTTGCTGGGTGAACCTGCCT
Celera SNP ID:            hCV2227967
SNP Position Genomic:     9800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14265):
TTGAGAGGCTGAGAATCCCATAGCCCATCTCCAGCTCATTCACCCATCCCCACTGTCCCACCACAGGAGGAGCAAGCCAACACCAACCTGTCCAAGTTCC
R
CAAGGTGCAGCATGAGCTGGATGAGGCAGAGGAGCGGGCGGACATCGCTGAGTCCCAGGTCAACAAGCTTCGAGCCAAGAGCCGTGACATTGGTGCCAAG
Celera SNP ID:            hCV25767424
SNP Position Genomic:     30693
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,36)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14266):
GGTCACCAACAATCCCTACGACTACGCCTTCGTGTCTCAGGGAGAGGTGTCCGTGGCCTCCATTGATGACTCCGAGGAGCTCATGGCCACCGATGTGAGT
K
AGGGGGCTGCTGCGGCCGTTCGAGGGACCCCAGGAGCTCCTGGGGCCACCGCTCCAACCCCCCTCTTTGTCTCTCGCTCTGTCCCAGAGTGCCTTTGACG
Celera SNP ID:            hCV2227968
SNP Position Genomic:     10546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14267):
AAGCCCCATGCTGGAGCCTGTGTAACAGCTCCTTGGGAGGAAGCAGAATAAAGCAATTTTCCTTGAAGCCGAGATCCTGACTCCAGACTCTTCTTCACTG
M
CCTGAGGACCCGGGGATGGGGTCTGGACTAGGGGAGGTGGAAATGCAGGGGAGTGGGGGCAAATTCAAAGGCCTGGCCTAGGAGGCCTTCGTGGAGCAGC
Celera SNP ID:            hCV25953827
SNP Position Genomic:     525
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,26)   caucasian(A,3|C,31)   total(A,9|C,57)
SNP Type:                 hmCS


Context             (SEQ ID NO:14268):
ATTTCAGCTCCTGTTTCAGTGGTAGGTTCATGGATAGTCATTTTGCTTTCATGCTGCATAACTTACATACTTATTATAGACATTCTTATATGTAAACCCC
Y
ACATAATTTTTAACATATTTGAAGTTCTTATGAGAATAGAAAAACCAAACAGAGTAGACATTCTATAAGTGGTAGTTTCCATTACCACTAATATCCCAGC
Celera SNP ID:            hCV27936247
SNP Position Genomic:     18601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14269):
AGGGAAGGGATGGCTCCCGAGAGGGCCAGGAGGTGGAGGAAAGAGTAAGTCTCCTCCAACTAAACAAGTTCAGCCCCTTTGGAGTTCCTGCCACAGCTGG
R
TTGCTTAGGCAGGCCTGGGACTGTGGGCCACAGAGGTCAGGGGCTTGAAAGGCACTGGGGCTGTCGGCCCCACTGGGAACCTGGGAAGCAGTGGTTCAGC
Celera SNP ID:            hCV16071397
SNP Position Genomic:     1421
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:14270):
AGGTGGGTGTGCACAAGAAGGAAGTCTACGTGCCTACGAACTTGCTTAGTAGGGCCCATGATTGGGAAGCTCTCTTTTATAGTGCCCCACCCTGCCTCCA
Y
GTTTCCTTGCCAGGGATGCCCTGCTGGTAATCCAGTGGAACATTCGGGCCTTCATGGGGGTCAAGAATTGGCCCTGGATGAAGCTCTACTTCAAGATCAA
Celera SNP ID:            hCV25637910
SNP Position Genomic:     18884
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14271):
AAACTGCCCTTTCATCAAATTGATTAATAAATATTTATCAAGCAACTCCATGTTCAGTGTAGTGATGTTGGAGGTGGGTGTGCACAAGAAGGAAGTCTAC
R
TGCCTACGAACTTGCTTAGTAGGGCCCATGATTGGGAAGCTCTCTTTTATAGTGCCCCACCCTGCCTCCACGTTTCCTTGCCAGGGATGCCCTGCTGGTA
Celera SNP ID:            hCV25637917
SNP Position Genomic:     18813
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,27)   total(A,1|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:14272):
AGAGCTCATAGAACAGGGGGAGCCAGGCTGCCCTGATGGGAATGGGATCTGCAGGTGACCCTGGAATTCTGTGGGCAGAGCAGATCACTGCAGAGCATGG
R
TGACTCTGGACACTTCCCTCCTCAGGTATCGCATCCTGAACCCAGTGGCCATCCCTGAGGGACAGTTCATTGATAGCAGGAAGGGGACAGAGAAGCTGCT
Celera SNP ID:            hCV25637918
SNP Position Genomic:     16378
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14273):
ACCACCTTCCTGTTGGTTGAGAAATAAGCCAGTCTCCAGCCCTCTTGCTTATGGGCATTCCTCAGAAGAGACAAGGCCGCAGGCGGGAGGCCCCATAGGC
Y
GGGGCTGACTTGCTCTCAGTGAACCTCTGCTCTTTGTCAGCATAGGCCAGAGCCCGGATTGTCTGACCCACACCCAGCCCAGCCACGGCCTTCATGAAAT
Celera SNP ID:            hCV2227971
SNP Position Genomic:     13416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14274):
GCGCTGCAATGGCGTGCTGGAGGGCATCCGCATCTGCAGGAAGGGCTTCCCCAACCGCATCCTCTACGGGGACTTCCGGCAGAGGTGGGTATGAGGGTGC
M
CCAGAGCTCATAGAACAGGGGGAGCCAGGCTGCCCTGATGGGAATGGGATCTGCAGGTGACCCTGGAATTCTGTGGGCAGAGCAGATCACTGCAGAGCAT
Celera SNP ID:            hCV25637919
SNP Position Genomic:     16275
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,40)   total(A,1|C,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:14275):
CCACCTTCCTGTTGGTTGAGAAATAAGCCAGTCTCCAGCCCTCTTGCTTATGGGCATTCCTCAGAAGAGACAAGGCCGCAGGCGGGAGGCCCCATAGGCC
R
GGGCTGACTTGCTCTCAGTGAACCTCTGCTCTTTGTCAGCATAGGCCAGAGCCCGGATTGTCTGACCCACACCCAGCCCAGCCACGGCCTTCATGAAATG
Celera SNP ID:            hCV2227972
SNP Position Genomic:     13417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14276):
CCCTAGAATTAACTTCTATGGCCCCTGAAGCTTTTTTGCTCTCTGTAGTTCCTCACTACAGTAGGTCTCTGAATCCTTTGTGCTTGCAGGATTTCTCTGT
Y
GGTTTGACTTCCAATCCCACTGGACTTCAAGTTTAGAAGGAGGCAAAAGAGCATACACTATGGATTTCATGTTTTCCACACTTTGCTTATTTTCTTCCCT
Celera SNP ID:            hCV25473976
SNP Position Genomic:     20056
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,17)   caucasian(T,8)   total(C,3|T,25)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,32)   caucasian(C,1|T,39)   total(C,7|T,71)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14277):
GTAAGAGGTACCAGCACAGCGCCCCTTCAGCAGGCCAGCGCTACTGGCTCCAGATTCCTTTTCCTGTCAGGGTATGGGACTGTGGAAGCCTGGGAGTGTG
Y
TCAGTGATTCTCTCTTTGCCTCTTCACCCTGCCCTCAGCCCATGGGCATCATGTCCATCCTGGAGGAGGAGTGCATGTTCCCCAAGGCCACTGACATGAC
Celera SNP ID:            hCV2227973
SNP Position Genomic:     14160
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,18|T,2)   total(C,45|T,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14278):
ATGATAAACTGCAGCTGGAAGAAAAGCTTAAGAAGTAGGAGACTGTGGTGGCCAGGAGGGGCTAATGGAGGTGTCTGGCCTGGTAGATAGAGTGCAGGGT
S
CTGCGCCTCCACTGGCCACAGTTGCCTTGGGTATGCTGGGAATAAGGTCAATCACAGCCCTCTTCCGCCACTTTCTGGGCTGGCGAGGGGAGGGGGAGGT
Celera SNP ID:            hCV2227975
SNP Position Genomic:     20376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14279):
TGATAAACTGCAGCTGGAAGAAAAGCTTAAGAAGTAGGAGACTGTGGTGGCCAGGAGGGGCTAATGGAGGTGTCTGGCCTGGTAGATAGAGTGCAGGGTG
S
TGCGCCTCCACTGGCCACAGTTGCCTTGGGTATGCTGGGAATAAGGTCAATCACAGCCCTCTTCCGCCACTTTCTGGGCTGGCGAGGGGAGGGGGAGGTG
Celera SNP ID:            hCV2227976
SNP Position Genomic:     20377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14280):
CCAGTGCATGAAAGTGGGAGCTCAATAGCCCTGAGGTAACTGAGGCTGCAGCAGCTGCTTAGGGTTCTACACAATATCTGGAACTCCAGGCAGCCTCATA
R
ACCCAACCATCCCTGACTTACAGGCGCTCAGGAACACTAGCCTTCCCCCATAGAGCAAGAATACATTACGTTAGCAAAACTGTTTGAGAAGGGGGACTCA
Celera SNP ID:            hCV25767434
SNP Position Genomic:     20773
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(G,38)   total(A,4|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:14281):
AGGCCCATGGCCCAGGCTGCAAGTAATGTATGAACACAATTCCACTCCTCTGGGGCTGCACAGGGACTGGCCCGCCTTCATTAGTAATTTGCCCTCCCAT
S
TTCTTGGATGCCCCTTCTGGGTTTTAGCTAGAATATCGGGCCATCCTCAGGTTCTTCTACCCTAGGTCTGGGCAACTTGTTTGGCCTCTTGGACACAGAA
Celera SNP ID:            hCV2227977
SNP Position Genomic:     21729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14282):
AAGAGAGCATAGGCTTTGGAGCCAAAGGTCTGACTTTCCACTTGCTCAGCAAGTCCTTACACCTCTCTGAGCCCTAGTTCCTTCACCTGTGAAACAGGGG
R
ACTAATATCCACCCTGCAGATTACTGGGAGGATTAGGTGAGATCATATGAGAGGTATGAGCAGGAGGCATTCTGTATGTGTTCCCCTCTGGGCCGAGGTT
Celera SNP ID:            hCV25473255
SNP Position Genomic:     9169
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(G,36)   total(A,8|G,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:14283):
AAAAATCTGCATGTGTGGCTGAAGATGGGCACAGACACGGTCAAGTCTGTATGTGAGAGTGCTGAACTGGGGTTCTGTGTGAAAATCTGCCTGAGGCGGC
R
GGGAGAATCACTGCCATTGCGTGAGCAGGTTGGATGTTGGCCACTCTATCAGGAGCATTAGGGAAGGGGTGGGGACTCCAGACGTGTCCCCAAACCAGGG
Celera SNP ID:            hCV2478332
SNP Position Genomic:     4166
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:14284):
GAAGATGGGCACAGACACGGTCAAGTCTGTATGTGAGAGTGCTGAACTGGGGTTCTGTGTGAAAATCTGCCTGAGGCGGCAGGGAGAATCACTGCCATTG
Y
GTGAGCAGGTTGGATGTTGGCCACTCTATCAGGAGCATTAGGGAAGGGGTGGGGACTCCAGACGTGTCCCCAAACCAGGGTGGCCTCAAGACCTTGGGAG
Celera SNP ID:            hCV2478333
SNP Position Genomic:     4186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:14285):
GCAGGGAGGGGCAGCAAAGGCAAGGGGAGAAGAGTAAAATGATGGAGGAGGGAAAGGTGATTGCATTTGCTCCCCCTCCAAACCAGCTTCTCCCACCCTC
Y
CACCCCCAGACAGAGGAAGACAAAAAGAACCTGCTGCGGCTACAGGACCTGGTGGACAAGCTGCAACTGAAGGTCAAGGCCTACAAGCGCCAGGCCGAGG
Celera SNP ID:            hCV25474707
SNP Position Genomic:     29891
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,3)   caucasian(C,4)   total(C,7|T,3)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14286):
GCGTCTAGAGGCCCAGACCCGGCCCTTTGACATTCGCACTGAGTGCTTCGTGCCCGATGACAAGGAAGAGTTTGTCAAAGCCAAGATTTTGTCCCGGGAG
R
GAGGCAAGGTCATTGCTGAAACCGAGAATGGGAAGGTGAGTAGGGCATGGCGCCGGGGCAGAAGGGAAGGAGGTCTGGGAAAGAAGATGCAGAGGTGGAG
Celera SNP ID:            hCV2478335
SNP Position Genomic:     6178
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14287):
GCCCGATGACAAGGAAGAGTTTGTCAAAGCCAAGATTTTGTCCCGGGAGGGAGGCAAGGTCATTGCTGAAACCGAGAATGGGAAGGTGAGTAGGGCATGG
Y
GCCGGGGCAGAAGGGAAGGAGGTCTGGGAAAGAAGATGCAGAGGTGGAGCCACTTGCAGGGGGAGCTGAGAGGGCTGGAGAAAAGCCAAGGCCAGTGGGG
Celera SNP ID:            hCV2478336
SNP Position Genomic:     6229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14288):
GGAGCCCAGAATCTGATCCCTCTCAAATTGACCTGAGCTGGTGCAACAGGTGCCACCCAGGGCCATGTTCCCCCTGCCAGAGAGGATGCTGAGGAAGAAG
R
ACCTCAGTGTTCGCCTAAGAGGGGTCTTGTAGATAAAGAGGGCACAGACACAGCATTAAATGATGCCCCCTTCTTGCACTTGTATCCCTCTTCCCTGTGC
Celera SNP ID:            hCV2478337
SNP Position Genomic:     6452
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14289):
GAGTAATTCTTAGACCCAGATGAACACAAAGATCAGAAACTTTTGAGCTGAGCACTCTCCTTGACTGGCACTCAGAAGCTCTGGTCCCTGGTTTGCTCAC
R
CCAGCCAAGAGAATCACCCCTGGTTACCAGCTGCGGCTCAGGGCTGTGTGCCTCATGAACTCGTTGACTGAATGTTACAACCCATTGAAGTGTAGAATAA
Celera SNP ID:            hCV2478338
SNP Position Genomic:     6704
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14290):
CTGTCCCAGGCTCTCCCCACCAACCTCATGCCCAGCCTTGTCTCCTGCTCCAGACCTACTCGGGCCTCTTCTGTGTCACTGTCAACCCCTACAAGTGGCT
R
CCGGTGTACAATGCCGAGGTGGTGGCCGCCTACCGGGGCAAGAAGAGGAGTGAGGCCCCGCCCCACATCTTCTCCATCTCCGACAACGCCTATCAGTACA
Celera SNP ID:            hCV2478339
SNP Position Genomic:     7904
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,4|G,36)   total(A,7|G,71)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,3|G,33)   total(A,5|G,67)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14291):
GGTATGAAATCAGGTAACAAAGTGTAGTATATATTTGATCATTTTTCTCTCTCCATGTCTAGAACACCAGCCTCATCAACCAGAAGAAGAAGATGGAGTC
K
GATCTGACCCAGCTCCAGTCGGAAGTGGAGGAGGCAGTGCAGGAGTGCAGAAACGCCGAGGAGAAGGCCAAGAAGGCCATCACGGATGTAAGTGACCGCC
Celera SNP ID:            hCV8922950
SNP Position Genomic:     28218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14292):
CTGCTAGTTTCCAGTTCCCTTCCACCTAATTTTGTCCTGCAATCTTGTAACTCAAACCTAAAATGGACATCCCAGAGAACCCGGGCCTGGCTTTGTTCTC
R
CCCAGGCAACTTCCCTCTGACCAACCCCAGAACCCTACCCTCCAGAACTTGCCCCCCGAACATCGATCCCTGGAAACACATGTGCTGCTGCCACAGGGGC
Celera SNP ID:            hCV2484759
SNP Position Genomic:     143
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14293):
GCCAGGACACCTGGTGGAATGGCCCAGCCCAGAGACTTCTGGCTGCACCACCTATTCTGATGCTTGAGTTTGATGAGGAAAGAAGCTAGGGCTACGTAGT
Y
GTTTTTTAGTGTGTAGATTCCACAAAAGCCTGAACTCACGTCACAAATTATGTGGCAGCCCCTGTCCCTTTGATGATTCTGGTGGAGAGTGTCTGGGGAC
Celera SNP ID:            hCV25637927
SNP Position Genomic:     15798
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,39|T,1)   total(C,73|T,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14294):
AATCTGGCCATAATAATAACCACTTAGACAGTGGGTAGGAGTGTGGGGTTCCAGAGTCAAACAGGCCTGAGTTGGAACACAGCTTGAGGACTTTCACTGC
R
GCGTTGGGCAAAATCTTTAATCTCTCTCTGCCTCAGTTTTCTCATCTGTAAAATGGAATTAACTGTACATACCTCATATGATTTTACACATGATTATTAT
Celera SNP ID:            hCV2227981
SNP Position Genomic:     26032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14295):
TGGCTGCACCACCTATTCTGATGCTTGAGTTTGATGAGGAAAGAAGCTAGGGCTACGTAGTCGTTTTTTAGTGTGTAGATTCCACAAAAGCCTGAACTCA
Y
GTCACAAATTATGTGGCAGCCCCTGTCCCTTTGATGATTCTGGTGGAGAGTGTCTGGGGACCAGGGTTTAAGGGCCTAAGGGATGGTCCTTGTGGCTCCT
Celera SNP ID:            hCV25637928
SNP Position Genomic:     15837
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14296):
ACTCAGCTGACCTGCTCAAGGGGCTGTGCCACCCTCGGGTGAAAGTGGGCAACGAGTATGTCACCAAGGGGCAGAGCGTGCAGCAGGTGTACTACTCCAT
Y
GGGGCTCTGGCCAAGGCAGTGTATGAGAAGATGTTCAACTGGATGGTGACGCGCATCAACGCCACCCTGGAGACCAAGCAGCCACGCCAGTACTTCATAG
Celera SNP ID:            hCV25637929
SNP Position Genomic:     12392
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,1)   total(C,75|T,1)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,17|T,1)   total(C,53|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14297):
CCGCATGGCTGCCGAGGCCCAGAAGCAAGTCAAGAGCCTCCAGAGCTTGCTGAAGGTACATGGGGGCGGGAGGTCCCCTCAGGGGACTGGCCTCCATGTG
S
CCTGGAGAAGCAGTGGTGTCTGGATACAGGCACCAGATTCCTCCTGCCCCTGGGTTACTGCAGGGACCTCTGACAGGTGCCCTCAGTGAAGGGCACCGAG
Celera SNP ID:            hCV2227982
SNP Position Genomic:     26952
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(C,4|G,34)   total(C,4|G,60)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14298):
TGGCCTGGAGAAGCAGTGGTGTCTGGATACAGGCACCAGATTCCTCCTGCCCCTGGGTTACTGCAGGGACCTCTGACAGGTGCCCTCAGTGAAGGGCACC
K
AGGCTGGCTTCTGCTCACACCCACTCTCCTGATGCTCAGGACACCCAGATCCAGCTGGACGATGCGGTCCGTGCCAACGACGACCTGAAGGAGAACATCG
Celera SNP ID:            hCV2227983
SNP Position Genomic:     27050
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14299):
GTGACAGAGGCAGTCATTGTCCCTGTCTTCAGGGGAAGCCCTCCTCCACTGCCCTGACATGGAGGGGACAGCCATACCCTGCTGGGCTCGGCACAGTGCA
Y
GGGCACAGCCCCAATGGCCACTCACACCCACTTTCTGACTGCTCCCACCCCTCATGCCCCCTGCAGTTCAACAGCTTTGAGCAGCTCTGCATCAACTTCA
Celera SNP ID:            hCV25767440
SNP Position Genomic:     12743
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,40)   total(C,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14300):
CTGCAGGGACCTCTGACAGGTGCCCTCAGTGAAGGGCACCGAGGCTGGCTTCTGCTCACACCCACTCTCCTGATGCTCAGGACACCCAGATCCAGCTGGA
Y
GATGCGGTCCGTGCCAACGACGACCTGAAGGAGAACATCGCCATCGTGGAGCGGCGCAACAACCTGCTGCAGGCTGAGCTGGAGGAGCTGCGTGCCGTGG
Celera SNP ID:            hCV2227984
SNP Position Genomic:     27110
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,30|T,4)   total(C,66|T,4)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14301):
TAAAAGTGGGCTTGTTGTTTTAAAAAAAAAATGACCACCTTTAATTCTTTCTGGAGAAAGGGTATGAAATCAGGTAACAAAGTGTAGTATATATTTGATC
R
TTTTTCTCTCTCCATGTCTAGAACACCAGCCTCATCAACCAGAAGAAGAAGATGGAGTCGGATCTGACCCAGCTCCAGTCGGAAGTGGAGGAGGCAGTGC
Celera SNP ID:            hCV2227985
SNP Position Genomic:     28158
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   (G,-|A,-)   Caucasian(G,17|A,67)   African-American(G,17|A,67)   Asians(G,13|A,71)   total(G,47|A,205)   no_pop(G,-|A,-)   JBIC-allele(G,135|A,1365)   total(G,135|A,1365)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14302):
AGCCCTCTCCTCCCCTCCCCTAGATTATAGCCCATCTCACAACCAGGGACTGGGAGTCTAGGAGTGCCAGCTCTTTTTAAGACCCTAGGTCTCCTCTCTT
Y
AACCATCAGCTTCCTCCCTGTTCTCTTCTCCCAGGAACAAGACAACCTCAATGATGCTGAGGAGCGCTGCGACCAGCTGATCAAAAACAAGATTCAGCTG
Celera SNP ID:            hCV25473988
SNP Position Genomic:     19278
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,29)   caucasian(C,1|T,39)   total(C,8|T,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:14303):
CCACTCTCCTGCTCAAAACAGCCCCCCACTGACTGGAACTTCTGCAGAGATCCCCAGTTCCATCCCCCTAAACCACAAGTGCCTCTAACGTGGGACCACA
R
GATCCCTGGGGCCCTGCCTCTCCCTCCAAGGGCATCTCCCTTAGGCCTCTGAAAGCCCCAGGGATTTGTCCCCACACACTTCTCCCTCTTGCCAGCTGCC
Celera SNP ID:            hCV2227986
SNP Position Genomic:     31030
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(A,2|G,36)   total(A,8|G,66)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14304):
GCTTTGAGCTTTCTGGCCCTCTGGTCCCCAGAGGAAATCTCGGACCTTACTGAGCAGCTAGGAGAAGGAGGAAAGAATGTGCATGAGCTGGAGAAGGTCC
K
CAAACAGCTGGAGGTGGAGAAGCTGGAGCTGCAGTCAGCCCTGGAGGAGGCAGAGGTGAGGGCCGAGAACTCCCTGCACCCCATCCCTGTTCTGCCGCTG
Celera SNP ID:            hCV25767444
SNP Position Genomic:     25637
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14305):
GATCCCCAGTTCCATCCCCCTAAACCACAAGTGCCTCTAACGTGGGACCACAGGATCCCTGGGGCCCTGCCTCTCCCTCCAAGGGCATCTCCCTTAGGCC
Y
CTGAAAGCCCCAGGGATTTGTCCCCACACACTTCTCCCTCTTGCCAGCTGCCCCCTCACACCTCTTATTCTTTTTGCAGCAAAAAATGCACGATGAGGAG
Celera SNP ID:            hCV2227987
SNP Position Genomic:     31078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14306):
TCCCCAGTTCCATCCCCCTAAACCACAAGTGCCTCTAACGTGGGACCACAGGATCCCTGGGGCCCTGCCTCTCCCTCCAAGGGCATCTCCCTTAGGCCTC
W
GAAAGCCCCAGGGATTTGTCCCCACACACTTCTCCCTCTTGCCAGCTGCCCCCTCACACCTCTTATTCTTTTTGCAGCAAAAAATGCACGATGAGGAGTG
Celera SNP ID:            hCV2227988
SNP Position Genomic:     31080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14307):
GAATGAGATAGAGGACTTGATGGTGGACGTAGAGCGCTCCAATGCTGCTGCTGCAGCCCTGGACAAGAAGCAGAGAAACTTTGACAAGGTGGACCATGGG
Y
GGGGGCCGCAGCCAGCATGCAGGGCAAGGGGGCATGAGGGGTTCAGTGAGAGGCCAAAGGCAACCTCCTTGGAGGTGGAGGAGGAGGGCTAAGCCCAGGC
Celera SNP ID:            hCV25473625
SNP Position Genomic:     25079
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,27)   caucasian(C,26|T,10)   total(C,37|T,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:14308):
GGGATTGCAGGGAGCATGGGGCACTGAGCTCTCATTAGAGGGGTGCCAGAGCAATGAACCATGTCAGGCAAATCCTGCTGGGTGCTGGGCTCTGATGGCC
R
GGCTGGGAAGGGGAGCATGTGATGCTGAGCCCTGTATGGAGAACAGTAGGAATCCTGAGTTTTGATTGGTCTCTGTGGCCCCCAGGGGAGAATCCGGGGC
Celera SNP ID:            hCV2478340
SNP Position Genomic:     8328
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,15)   caucasian(A,23|G,11)   total(A,44|G,26)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;SC_12_A(G,0|A,23)   SC_12_C(G,8|A,8)   SC_12_AA(A,10|G,13)   SC_95_C(G,56|A,119)   total(G,77|A,160)no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14309):
GCTGTTTTGCCACACCCAGTTGATTGTACTGTATCTGGCTTTGGGATATCAACATGCACACGTTGGTGGGAAGAGAGCATAGGCTTTGGAGCCAAAGGTC
Y
GACTTTCCACTTGCTCAGCAAGTCCTTACACCTCTCTGAGCCCTAGTTCCTTCACCTGTGAAACAGGGGGACTAATATCCACCCTGCAGATTACTGGGAG
Celera SNP ID:            hCV2478341
SNP Position Genomic:     9099
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,1|T,37)   total(C,5|T,71)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14310):
CTTATACTCAACTGAGACACCAAAGAGGTCGTTTACATTTCCAGAACCATCCAGGGCTTCTGGGCTGAACAGAGGGCCAGGATTTCACTCTGTCCTTCCC
R
CCAGTTCCCTCACTCTGTCCCATTCGTCCCCAGGGGAAATTCATTAGGATCCACTTTGGGGCCACTGGAAAGCTGGCTTCTGCAGACATAGAGACCTGTG
Celera SNP ID:            hCV2478342
SNP Position Genomic:     9424
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,1|G,39)   total(A,4|G,72)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14311):
CCCTCTTCATCAAGCTGTGGGTGCCCCCTGCCCTCTGCCCCCATGGCCACCTTTTTCTGGCTCTACTCTCTTTCCTTCCTCACCTGCCTTCCTCCCCTCC
R
CCCACCTCAGACCTGCTGGAGAAGTCCCGGGTGATCTTCCAGCTGAAAGCTGAGAGAAACTACCACATCTTCTACCAGATTCTGTCCAACAAGAAGCCGG
Celera SNP ID:            hCV2478343
SNP Position Genomic:     9779
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(A,7|G,21)   total(A,8|G,52)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14312):
TAGCCCCTCAGCCACACCCTTGCCCTGGAGAGGCGAGGGATATGGTGAAGGTGGGGATATGCCCACAGCAGTGCTTGTGAAAGACCTGACCCAGAGATGC
Y
ACAGATGTAGAGACAGAGCTGAGAAGAGCCAGTTGTGGCAAGAGGCCATGGGCCGGATAAGGGGGCTGTGCTCCAGCCTGACTCAGGCACACGTTGGTTG
Celera SNP ID:            hCV2478344
SNP Position Genomic:     11693
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14313):
AGTTCACCCTTCGGGTTAAAAATAACTGAGGTAAGGGCCATGGCAGGGTGGGAGAGGCGGTGTGAGAAGGTCCTGTCTTCCCACTATCTGCTCATCAGCC
Y
TTTGAAGGGGAGGAATGTGCCCAAGGACTAAAAAAAGGCCGTGGAGCCAGAGAGGCTGGGGCAGCAGACCTTTCTTGGGCAAATCAGGGGGCCCTGCTGT
Celera SNP ID:            hCV27854907
SNP Position Genomic:     4713
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:14314):
CCCCTGGGAGTGGGAGAACAATCACTCGCTTGCTCCTACATTCAACAGCCATTTGCTGAGAGCCAGCTGTGGACCAGACATGGGAAGGCAGTGGGGACTG
Y
GTGGTGACAGAGGCAGTCATTGTCCCTGTCTTCAGGGGAAGCCCTCCTCCACTGCCCTGACATGGAGGGGACAGCCATACCCTGCTGGGCTCGGCACAGT
Celera SNP ID:            hCV2478345
SNP Position Genomic:     12639
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(C,2|T,18)   total(C,5|T,51)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,2|T,36)   total(C,6|T,70)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14315):
TCATGTTTCAGAGCCCTCAGAATGCCATAAAACTGTGTGTGGAAAAAAGCATGTGTACATTCATACATACATGTGTGTGCTTGTGCATGTGTGTGTGTGT
R
CGTGTGTGTGTGTACATGCGTTTTTCTGGAGAGACAGTCTTTAGCTTCAACAAATTCTTAAAAGGATTCCTGCCCCAAGAAAAATCAAGAACCACCAGGT
Celera SNP ID:            hCV2478346
SNP Position Genomic:     13669
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14316):
GTAAAAGCAAAGGAGGCAAGAAAAAGGGCTCATCCTTCCAGACGGTGTCGGCTCTCCACCGGGTAAGAAGGGCCCAGGGGTGCCAGGACACCTGGTGGAA
Y
GGCCCAGCCCAGAGACTTCTGGCTGCACCACCTATTCTGATGCTTGAGTTTGATGAGGAAAGAAGCTAGGGCTACGTAGTCGTTTTTTAGTGTGTAGATT
Celera SNP ID:            hCV2478347
SNP Position Genomic:     15717
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,19)   caucasian(C,9|T,27)   total(C,24|T,46)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,17)   caucasian(C,9|T,29)   total(C,24|T,46)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14317):
TCATTGATAGCAGGAAGGGGACAGAGAAGCTGCTCAGCTCTCTGGACATTGATCACAACCAGTACAAGTTTGGCCACACCAAGGTGAGTCTAGAGCCCCA
Y
TGGGTGGTTGCAGGGCAGGTGGCCATGTTGAGTGGAGCAGAGAGGAGTTTAGGAGGCAGAAGCCTAATTCTGGCTTCCTTATCAACCTTATCAAGGGCTG
Celera SNP ID:            hCV2478348
SNP Position Genomic:     16545
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,23)   caucasian(C,27|T,13)   total(C,38|T,36)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,27)   caucasian(C,26|T,12)   total(C,37|T,39)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   SC_12_A(T,0|C,23)   SC_12_C(T,10|C,13)   SC_12_AA(C,6|T,17)   SC_95_C(T,62|C,121)   total(C,163|T,89) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14318):
CTCCCCTCTGAGGCTGCGGCCTGTTGCATCTACCCCTTGCCTGCAGGTGTTCTTCAAGGCAGGGCTGCTTGGGCTGCTGGAGGAGATGCGGGATGAGAGG
M
TGAGCCGCATCATCACGCGCATGCAGGCCCAAGCCCGGGGCCAGCTCATGCGCATTGAGTTCAAGAAGATAGTGGAACGCAGGTGAGACAGGAGGAAAAG
Celera SNP ID:            hCV2478349
SNP Position Genomic:     16855
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,12)   total(A,1|C,12) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14319):
GCTTGCTCCTACATTCAACAGCCATTTGCTGAGAGCCAGCTGTGGACCAGACATGGGAAGGCAGTGGGGACTGTGTGGTGACAGAGGCAGTCATTGTCCC
Y
GTCTTCAGGGGAAGCCCTCCTCCACTGCCCTGACATGGAGGGGACAGCCATACCCTGCTGGGCTCGGCACAGTGCACGGGCACAGCCCCAATGGCCACTC
Celera SNP ID:            hCV25637936
SNP Position Genomic:     12666
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,16)   total(C,1|T,51)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14320):
CAGAGGAGAAAGCTGGCGTCTACAAGCTGACGGGAGCCATCATGCACTACGGGAACATGAAGTTCAAGCAGAAGCAGCGGGAGGAGCAGGCGGAGCCAGA
S
GGCACCGAAGGTGGGAGGGGCAGGCAGGCAGCCCTGGGAAGGCCTGAGGTGCTGACCAGGCTCTCTGCGGGACTCAGATCCCAGAGACTCTGAGGCTTGT
Celera SNP ID:            hCV25637937
SNP Position Genomic:     10762
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,26)   total(C,61|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14321):
CTTCAGAGGAGAAAGCTGGCGTCTACAAGCTGACGGGAGCCATCATGCACTACGGGAACATGAAGTTCAAGCAGAAGCAGCGGGAGGAGCAGGCGGAGCC
M
GACGGCACCGAAGGTGGGAGGGGCAGGCAGGCAGCCCTGGGAAGGCCTGAGGTGCTGACCAGGCTCTCTGCGGGACTCAGATCCCAGAGACTCTGAGGCT
Celera SNP ID:            hCV16026454
SNP Position Genomic:     10759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14322):
TGCATGAGCTGGAGAAGGTCCGCAAACAGCTGGAGGTGGAGAAGCTGGAGCTGCAGTCAGCCCTGGAGGAGGCAGAGGTGAGGGCCGAGAACTCCCTGCA
Y
CCCATCCCTGTTCTGCCGCTGTCTCCCACTTCTCCCTCACCTGGGGGTGACCCTGACCCCAGGACAAAATCTATTCATTCCATATTCTTTGTTCAACATT
Celera SNP ID:            hCV25767450
SNP Position Genomic:     25716
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,3)   total(C,75|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:14323):
CATTGTCCCTGTCTTCAGGGGAAGCCCTCCTCCACTGCCCTGACATGGAGGGGACAGCCATACCCTGCTGGGCTCGGCACAGTGCACGGGCACAGCCCCA
R
TGGCCACTCACACCCACTTTCTGACTGCTCCCACCCCTCATGCCCCCTGCAGTTCAACAGCTTTGAGCAGCTCTGCATCAACTTCACCAACGAGAAGCTG
Celera SNP ID:            hCV25767451
SNP Position Genomic:     12757
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,40)   total(A,67|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14324):
AGCGGGTGAAGCAGAAGCTGGAGAAGGAGAAGAGCGAGTTCAAGCTGGAGCTGGATGACGTCACCTCCAACATGGAGCAGATCATCAAGGCCAAGGCAGG
S
TCTGCTCGGCCTCCCCTCGCCCTCTCCCCTGCACAGCGGAGCCTCCCCCATGCCTTCTCTCTCTGTCTGCCATCTCCCTTGTCATTCTCATTCTCTTCAT
Celera SNP ID:            hCV25767452
SNP Position Genomic:     23170
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,1)   caucasian(C,25|G,1)   total(C,56|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:14325):
GGCCGAGCAGAAGCGCAACGCAGAGTCGGTGAAGGGCATGAGGAAGAGCGAGCGGCGCATCAAGGAGCTCACCTACCAGGTGCGGCGGACGCCAGACACC
R
GGAGTAGATGTGGAAGTTTCTTCTCTGGCCCCACTGCCCCGCCCTCACAGGGCTCCTCTCACCTCCTCCTTGAGATGCTGTTGGTAGATTTAACGTTCTT
Celera SNP ID:            hCV25767458
SNP Position Genomic:     28801
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,5)   caucasian(A,23|G,5)   total(A,52|G,10)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14326):
GCTGGTAGTACTGGGTGGCATAGAGGAAGAGGAAGGCAAGTGTGATGAAGAACTCCAGTAGCGCCGCGGCCATGTAGGCAGAGATGGAGGCCGTGAAGCA
R
ATGAAGATGATGAGGGTCAGGGCCTGCAGGACCGAGCATGTGGAACATGCCAAGAAGGGGACACAGGCAGGGGCCAGGGCTTTGCCTTCCCCTCCTTGGA
Celera SNP ID:            hCV2231511
SNP Position Genomic:     34849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14327):
TCCACTCCTGAGTACATTCCTACAGAGAAACTCTTATACATGTACACCATGACATGAAAAATAATCTTTTAGCAGCATTGGTCATAATAGCAAAGATCTT
R
AAACAACTTGAATTTCCATCCACAGGGGAATGGGTAAATAGTATTACAGTCATTCAGTGGAATATTATAAAACAGTGAAAAGATGTGAACTCCAACTACA
Celera SNP ID:            hCV2478353
SNP Position Genomic:     17814
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14328):
GTGGCTTCTGATACAGAAAGTGTGCAAGCACCAGCCTGAGCTCTTGAGGGGCTAAGGAGTCCTGCAGGGCTGAACTCACAAAAGCAGCAATGGCAGCTCC
R
TCCCGGGAGGTCACAGCTGCAAAGGAGACCACCAGGAAGATGATGATGGCACTGACACAGCGCAGGAAGTCCTGGGGGCCAGGGGTGCAGGGTTAACAGG
Celera SNP ID:            hCV2231512
SNP Position Genomic:     34119
SNP Source:               Applera
Population(Allele,Count): african american(A,12)   caucasian(A,7|G,11)   total(A,19|G,11)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;JBIC-allele(A,217|G,504)   total(G,504|A,217)   (G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14329):
AGAGAGGCTGGGGCAGCAGACCTTTCTTGGGCAAATCAGGGGGCCCTGCTGTCCTCCTGTCACCTCCAGAGCCAAAGGATCAAAGGAGGAGGAGCCAGGA
R
GGGAGAGAGGTGGGAGGGAGGGTCCCTCCGGAAGGACTCCAAATTTAGACAGAGGGTGGGGGAAACGGGATATAAAGGAACTGGAGCTTTGAGGACAGAT
Celera SNP ID:            hCV27839178
SNP Position Genomic:     4862
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(G,40)   total(A,5|G,73)
SNP Type:                 hmCS


Context             (SEQ ID NO:14330):
ATCTTAAAACAACTTGAATTTCCATCCACAGGGGAATGGGTAAATAGTATTACAGTCATTCAGTGGAATATTATAAAACAGTGAAAAGATGTGAACTCCA
R
CTACATGATACAATATGTTTGAACATTAAAGCATATTGTTAGTAAACAAAGGCAAATCTTGGAAGGATACATACAGTATGATGCAATTTTTATAAAGCTC
Celera SNP ID:            hCV2478354
SNP Position Genomic:     17909
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14331):
GAGGAAGGAAGGCTACCTGTCACTCCCCCACCCCCACCCTTCTCCTGCAGGAAGGAGTTTGACATTAATCAGCAGAACAGTAAGATTGAGGATGAGCAGG
Y
GCTGGCCCTTCAACTACAGAAGAAACTGAAGGAAAACCAGGTGACTTTTTTTCCCAGTGCATGAAAGTGGGAGCTCAATAGCCCTGAGGTAACTGAGGCT
Celera SNP ID:            hCV2478356
SNP Position Genomic:     20619
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14332):
CTTCATTAGTAATTTGCCCTCCCATCTTCTTGGATGCCCCTTCTGGGTTTTAGCTAGAATATCGGGCCATCCTCAGGTTCTTCTACCCTAGGTCTGGGCA
W
CTTGTTTGGCCTCTTGGACACAGAATAACAGTCCTGTTAGTCTCATCAGCTCTCGGCAATAGGCTATGGCTCCTCCTTCATCCCCAAGATCTTGCTCAGA
Celera SNP ID:            hCV2478357
SNP Position Genomic:     21804
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,12)   total(A,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14333):
GGATTCCAGTGGAGGGGTCCAGGCGGTGGGTCTGAGCCCTTTGTGTCTGACCCAGGCACGCATCGAGGAGCTGGAGGAGGAGCTGGAGGCCGAGCGCACC
R
CCAGGGCTAAGGTGGAGAAGCTGCGCTCAGACCTGTCTCGGGAGCTGGAGGAGATCAGCGAGCGGCTGGAAGAGGCCGGCGGGGCCACGTCCGTGCAGAT
Celera SNP ID:            hCV2478358
SNP Position Genomic:     22820
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,4|G,36)   total(A,4|G,66)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14334):
CCTTCAAGCGGGAGAACAAGAACCTTCAGGGTGTGCTGGGGGTCCAAGAGGCCAGAGATGAGTTGGTGGGAGGGAGGGCCATGCAGGGGCAGGGGGAACA
Y
AGGCTTTGAGCTTTCTGGCCCTCTGGTCCCCAGAGGAAATCTCGGACCTTACTGAGCAGCTAGGAGAAGGAGGAAAGAATGTGCATGAGCTGGAGAAGGT
Celera SNP ID:            hCV2478359
SNP Position Genomic:     25534
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,21)   caucasian(C,16|T,22)   total(C,33|T,43)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14335):
TGCCTGCAGGTGTTCTTCAAGGCAGGGCTGCTTGGGCTGCTGGAGGAGATGCGGGATGAGAGGCTGAGCCGCATCATCACGCGCATGCAGGCCCAAGCCC
R
GGGCCAGCTCATGCGCATTGAGTTCAAGAAGATAGTGGAACGCAGGTGAGACAGGAGGAAAAGGGAGGCATGCACTAGAGATGTAGAGGCAGATCCGCAA
Celera SNP ID:            hCV27860255
SNP Position Genomic:     16892
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14336):
GATATCAACATGCACACGTTGGTGGGAAGAGAGCATAGGCTTTGGAGCCAAAGGTCTGACTTTCCACTTGCTCAGCAAGTCCTTACACCTCTCTGAGCCC
Y
AGTTCCTTCACCTGTGAAACAGGGGGACTAATATCCACCCTGCAGATTACTGGGAGGATTAGGTGAGATCATATGAGAGGTATGAGCAGGAGGCATTCTG
Celera SNP ID:            hCV25637946
SNP Position Genomic:     9143
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,38)   total(C,2|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:14337):
GAGTGCCATCCTCCCACAGAAGGGACTGGGCTGGGGGCATACACGCTGATGCCTAGGGTGTAGTTGGGAGGAGAGGTTTAAGGCTGGGATTGCAGGGAGC
M
TGGGGCACTGAGCTCTCATTAGAGGGGTGCCAGAGCAATGAACCATGTCAGGCAAATCCTGCTGGGTGCTGGGCTCTGATGGCCAGGCTGGGAAGGGGAG
Celera SNP ID:            hCV25637947
SNP Position Genomic:     8243
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,40)   total(A,77|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14338):
AGACCTCCCTGGATGCAGAGACACGCAGCCGCAACGAGGTCCTGAGGGTGAAGAAGAAGATGGAAGGAGACCTCAATGAGATGGAGATCCAGCTCAGCCA
Y
GCCAACCGCATGGCTGCCGAGGCCCAGAAGCAAGTCAAGAGCCTCCAGAGCTTGCTGAAGGTACATGGGGGCGGGAGGTCCCCTCAGGGGACTGGCCTCC
Celera SNP ID:            hCV25637948
SNP Position Genomic:     26846
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14339):
ATCCTCCGGGCCCAGCTAGAGTTCAACCAGATCAAGGCAGAGATCGAGCGGAAGCTGGCAGAGAAGGACGAGGAGATGGAACAGGCCAAGCGCAACCACC
W
GCGGGTGGTGGACTCGCTGCAGACCTCCCTGGATGCAGAGACACGCAGCCGCAACGAGGTCCTGAGGGTGAAGAAGAAGATGGAAGGAGACCTCAATGAG
Celera SNP ID:            hCV25473355
SNP Position Genomic:     26725
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,3)   caucasian(A,40)   total(A,75|T,3)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14340):
TCACCAAGGGGCAGAGCGTGCAGCAGGTGTACTACTCCATCGGGGCTCTGGCCAAGGCAGTGTATGAGAAGATGTTCAACTGGATGGTGACGCGCATCAA
Y
GCCACCCTGGAGACCAAGCAGCCACGCCAGTACTTCATAGGAGTCCTGGACATCGCTGGCTTCGAGATCTTCGACGTGAGTTGGGACCCCTGGGAGTGGG
Celera SNP ID:            hCV25767463
SNP Position Genomic:     12452
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,34|T,2)   total(C,72|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14341):
CTGGGGGTCCAAGAGGCCAGAGATGAGTTGGTGGGAGGGAGGGCCATGCAGGGGCAGGGGGAACACAGGCTTTGAGCTTTCTGGCCCTCTGGTCCCCAGA
R
GAAATCTCGGACCTTACTGAGCAGCTAGGAGAAGGAGGAAAGAATGTGCATGAGCTGGAGAAGGTCCGCAAACAGCTGGAGGTGGAGAAGCTGGAGCTGC
Celera SNP ID:            hCV25767464
SNP Position Genomic:     25569
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14342):
TGGAGCCTGTGTAACAGCTCCTTGGGAGGAAGCAGAATAAAGCAATTTTCCTTGAAGCCGAGATCCTGACTCCAGACTCTTCTTCACTGCCCTGAGGACC
Y
GGGGATGGGGTCTGGACTAGGGGAGGTGGAAATGCAGGGGAGTGGGGGCAAATTCAAAGGCCTGGCCTAGGAGGCCTTCGTGGAGCAGCACTGAAAACCC
Celera SNP ID:            hCV29359086
SNP Position Genomic:     536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:14343):
TGATAGAGCTCTATTCTCCTCTAACCCTTCCTCTGGTAGTTCAGCCCTCTGAACGCAGGGTGAAAAAAAAAAAAGGCTTCAAGGAGCACCTTCCTGTGAG
S
TGCTCTGTTCATATTCTTCCCGGTACTAACCCCAGCCACTAACCCAGGCTGAGTCCCCATAGGGCACTCATGATAAGAGCCAATTCCAACAACTGTGAGC
Celera SNP ID:            hCV29359087
SNP Position Genomic:     21040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14344):
AAATGGACATCCCAGAGAACCCGGGCCTGGCTTTGTTCTCGCCCAGGCAACTTCCCTCTGACCAACCCCAGAACCCTACCCTCCAGAACTTGCCCCCCGA
M
CATCGATCCCTGGAAACACATGTGCTGCTGCCACAGGGGCTTCCACCTGCCCACAAAGCAGGCCCCCCACCATCAGACCCCTCTCACCTTTGTTCCCATG
Celera SNP ID:            hCV16284905
SNP Position Genomic:     203
SNP Source:               Applera
Population(Allele,Count): african american(A,25|C,1)   caucasian(A,31|C,1)   total(A,56|C,2)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14345):
GATAGAGCTCTATTCTCCTCTAACCCTTCCTCTGGTAGTTCAGCCCTCTGAACGCAGGGTGAAAAAAAAAAAAGGCTTCAAGGAGCACCTTCCTGTGAGC
K
GCTCTGTTCATATTCTTCCCGGTACTAACCCCAGCCACTAACCCAGGCTGAGTCCCCATAGGGCACTCATGATAAGAGCCAATTCCAACAACTGTGAGCA
Celera SNP ID:            hCV29359088
SNP Position Genomic:     21041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14346):
TCTAGAACACCAGCCTCATCAACCAGAAGAAGAAGATGGAGTCGGATCTGACCCAGCTCCAGTCGGAAGTGGAGGAGGCAGTGCAGGAGTGCAGAAACGC
Y
GAGGAGAAGGCCAAGAAGGCCATCACGGATGTAAGTGACCGCCCACCTTCCGCCTCCCCTAAAGACAGAAACAAGGCCTTGGGTCCAGGCCAGGCCACTG
Celera SNP ID:            hCV29359089
SNP Position Genomic:     28275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14347):
AACCACTTAGACAGTGGGTAGGAGTGTGGGGTTCCAGAGTCAAACAGGCCTGAGTTGGAACACAGCTTGAGGACTTTCACTGCGGCGTTGGGCAAAATCT
K
TAATCTCTCTCTGCCTCAGTTTTCTCATCTGTAAAATGGAATTAACTGTACATACCTCATATGATTTTACACATGATTATTATAAAGATTAAATGAGGTA
Celera SNP ID:            hCV2478360
SNP Position Genomic:     26049
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,7)   total(G,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14348):
GTGTCCCCAGGATGGTCTGGGGATCTGGCAAGAGAAAGGTACCCTAGGACAGTCTCTAGGATGGGAGATACAATGGGAAGGGAAATTACCTGGGGAAAGT
S
TCCCAGGGGACATCGGGGTAGGGGCCGGGGCACTGGTCAGAGCAAGGGGAGCAAGGCCAAGTCCCTGTGTCCTGGGAGGAGGTCAGTGGGCAGTGCTGGC
Celera SNP ID:            hCV7533700
SNP Position Genomic:     7310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14349):
TCTTCTCAGCTCTTCTTCTCTGGGCGATAGTCCTGGCTGACACCGTGTATCTTCTCATCCTCCCTCTCAACCCTGCCCTGTGCCCTGTCTGCCCGCCCTC
R
CCCCACCCCTTCCCAGGCCTCCCTGGAGCACGAGGAGGGCAAGATCCTCCGGGCCCAGCTAGAGTTCAACCAGATCAAGGCAGAGATCGAGCGGAAGCTG
Celera SNP ID:            hCV2478361
SNP Position Genomic:     26581
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(A,10|G,30)   total(A,15|G,59)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;JBIC-allele(A,295|G,1204)   total(G,1204|A,295)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14350):
CAGAGACACGCAGCCGCAACGAGGTCCTGAGGGTGAAGAAGAAGATGGAAGGAGACCTCAATGAGATGGAGATCCAGCTCAGCCACGCCAACCGCATGGC
Y
GCCGAGGCCCAGAAGCAAGTCAAGAGCCTCCAGAGCTTGCTGAAGGTACATGGGGGCGGGAGGTCCCCTCAGGGGACTGGCCTCCATGTGGCCTGGAGAA
Celera SNP ID:            hCV2478362
SNP Position Genomic:     26861
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,8)   caucasian(C,15|T,23)   total(C,41|T,31)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:14351):
TTAGTAATCTTAGATACAATGTCTAGAATGTATGCACTTTCATAGGAAAAGGGAAAGCAGGTACAAAACGATCAATAGTCTAAAAGTGGGCTTGTTGTTT
W
AAAAAAAAAATGACCACCTTTAATTCTTTCTGGAGAAAGGGTATGAAATCAGGTAACAAAGTGTAGTATATATTTGATCATTTTTCTCTCTCCATGTCTA
Celera SNP ID:            hCV2478363
SNP Position Genomic:     28078
SNP Source:               dbSNP
Population(Allele,Count): (T,-|A,-)   no_pop(T,-|A,-)   JBIC-allele(A,434|T,1041)   total(A,434|T,1041)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14352):
TGTATGCACTTTCATAGGAAAAGGGAAAGCAGGTACAAAACGATCAATAGTCTAAAAGTGGGCTTGTTGTTTTAAAAAAAAAATGACCACCTTTAATTCT
Y
TCTGGAGAAAGGGTATGAAATCAGGTAACAAAGTGTAGTATATATTTGATCATTTTTCTCTCTCCATGTCTAGAACACCAGCCTCATCAACCAGAAGAAG
Celera SNP ID:            hCV2478364
SNP Position Genomic:     28106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;(T,-|C,-)   no_pop(T,-|C,-)   (C,-|T,-)   JBIC-allele(C,430|T,1053)   total(C,430|T,1053)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14353):
TGACTTCAGCCTTCATTGCTCTGTGGATCCCTGACTGACAACCTTGCATTGCCCCTTTGACCTACGATAGAGTCAGAGAATCTTCCCCACCACCTCTTTG
M
CCTGGATCATTGCAGGGAGGGGCAGCAAAGGCAAGGGGAGAAGAGTAAAATGATGGAGGAGGGAAAGGTGATTGCATTTGCTCCCCCTCCAAACCAGCTT
Celera SNP ID:            hCV2478365
SNP Position Genomic:     29779
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14354):
GGGGCAGTGGATGGCCGTGAAGGACTCTGAGTGCTGGACATGTTTGAGAAGAGTGCAAGGCAGTTGCAGGATACCCTTGGGAAGGCTGTTGCAGGAATAT
K
CATGAGGCATGGGTGCCTCAGGGACAGGGAGCTGGAACCTCAGGTTGAGAGGCTGAGAATCCCATAGCCCATCTCCAGCTCATTCACCCATCCCCACTGT
Celera SNP ID:            hCV2478366
SNP Position Genomic:     30548
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,5)   caucasian(G,22|T,6)   total(G,51|T,11)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14355):
GGATGGCCGTGAAGGACTCTGAGTGCTGGACATGTTTGAGAAGAGTGCAAGGCAGTTGCAGGATACCCTTGGGAAGGCTGTTGCAGGAATATGCATGAGG
Y
ATGGGTGCCTCAGGGACAGGGAGCTGGAACCTCAGGTTGAGAGGCTGAGAATCCCATAGCCCATCTCCAGCTCATTCACCCATCCCCACTGTCCCACCAC
Celera SNP ID:            hCV2478367
SNP Position Genomic:     30556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14356):
TCATGGATAGTCATTTTGCTTTCATGCTGCATAACTTACATACTTATTATAGACATTCTTATATGTAAACCCCTACATAATTTTTAACATATTTGAAGTT
M
TTATGAGAATAGAAAAACCAAACAGAGTAGACATTCTATAAGTGGTAGTTTCCATTACCACTAATATCCCAGCTGGGAGGATATAAACTGCCCTTTCATC
Celera SNP ID:            hCV11722187
SNP Position Genomic:     18628
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,10)      total(A,3|C,10) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14357):
ACTTCAGAGGAGAAAGCTGGCGTCTACAAGCTGACGGGAGCCATCATGCACTACGGGAACATGAAGTTCAAGCAGAAGCAGCGGGAGGAGCAGGCGGAGC
M
AGACGGCACCGAAGGTGGGAGGGGCAGGCAGGCAGCCCTGGGAAGGCCTGAGGTGCTGACCAGGCTCTCTGCGGGACTCAGATCCCAGAGACTCTGAGGC
Celera SNP ID:            hCV16026185
SNP Position Genomic:     10758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14358):
GAGAAGGACGAGGAGATGGAACAGGCCAAGCGCAACCACCAGCGGGTGGTGGACTCGCTGCAGACCTCCCTGGATGCAGAGACACGCAGCCGCAACGAGG
Y
CCTGAGGGTGAAGAAGAAGATGGAAGGAGACCTCAATGAGATGGAGATCCAGCTCAGCCACGCCAACCGCATGGCTGCCGAGGCCCAGAAGCAAGTCAAG
Celera SNP ID:            hCV25637955
SNP Position Genomic:     26785
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,40)   total(C,2|T,76)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14359):
CCTCTTCATCAAGCTGTGGGTGCCCCCTGCCCTCTGCCCCCATGGCCACCTTTTTCTGGCTCTACTCTCTTTCCTTCCTCACCTGCCTTCCTCCCCTCCG
S
CCACCTCAGACCTGCTGGAGAAGTCCCGGGTGATCTTCCAGCTGAAAGCTGAGAGAAACTACCACATCTTCTACCAGATTCTGTCCAACAAGAAGCCGGA
Celera SNP ID:            hCV16026186
SNP Position Genomic:     9780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14360):
ATGAAATCAGGTAACAAAGTGTAGTATATATTTGATCATTTTTCTCTCTCCATGTCTAGAACACCAGCCTCATCAACCAGAAGAAGAAGATGGAGTCGGA
Y
CTGACCCAGCTCCAGTCGGAAGTGGAGGAGGCAGTGCAGGAGTGCAGAAACGCCGAGGAGAAGGCCAAGAAGGCCATCACGGATGTAAGTGACCGCCCAC
Celera SNP ID:            hCV27468809
SNP Position Genomic:     28221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14361):
TGCAGGCAAATCATTTAGTCATTTAGAGCCACGGATTTCTCCACTATAAAAAACACTGGAATACCTACTGGCAGGATCTAATGACATCAGGGCATGGCAA
R
CTGACTGCTGCCAATCAAACCACACCAACAGTGATGGATGGGGAGTGTGGAGTAGATGGGTGAACTACTTTTCCAGCAGGGGTGAAGGTTTGCCCTGAGC
Celera SNP ID:            hCV27129012
SNP Position Genomic:     6966
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14362):
CGACAAGATTGAGGACATGGCCATGCTGACCTTCCTGCACGAGCCCGCGGTGCTTTTCAACCTCAAGGAGCGCTACGCGGCCTGGATGATATATGTGAGT
R
GCTCCTGCACACTGCAGAGGCTTCCTGTGCTGCGTGGAGGCCTAAATAAGCCAGGGGGGCTCTCCCAAGAAGAGGGGGAGAGACTCCCAAGGGACCCAAG
Celera SNP ID:            hCV27129013
SNP Position Genomic:     7616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:14363):
ACAGATACAAAAATTAGCCTGGCATGGTGGCTCATGTCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAAAATCACTTGAACCCAGGAGGTGGAGGC
Y
GTAGTGAGCCAAGATCGTGCCACTGCACTCAAGCCTGGGTGACAGAGCAAGCCTCTATCTTAAAAAAAAAAAAAGGAAGTGCTCACTTATCCTTTCCCTC
Celera SNP ID:            hCV27129016
SNP Position Genomic:     12150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14364):
GATGGTGACGCGCATCAACGCCACCCTGGAGACCAAGCAGCCACGCCAGTACTTCATAGGAGTCCTGGACATCGCTGGCTTCGAGATCTTCGACGTGAGT
W
GGGACCCCTGGGAGTGGGAGAACAATCACTCGCTTGCTCCTACATTCAACAGCCATTTGCTGAGAGCCAGCTGTGGACCAGACATGGGAAGGCAGTGGGG
Celera SNP ID:            hCV27129017
SNP Position Genomic:     12534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14365):
TGGGTCAGAAGACCTGGGTTCAGACCTACCAGCTGGCCTGGGCAAGTTACTTTACCACTTCGAATCTCATTGCAAATTCTTCTTCTTCTTCTTCTTCTTC
T
TTTTTTTTTTTTAAAGAAACTTCTCTATAGGAAAATGCAAATTAAGACACCAATGAAATACCATTTTAAAACACTAGACTTTGCTTGCTCAGATGGTCTA
Celera SNP ID:            hCV27129018
SNP Position Genomic:     17105
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14366):
GGGTCAGAAGACCTGGGTTCAGACCTACCAGCTGGCCTGGGCAAGTTACTTTACCACTTCGAATCTCATTGCAAATTCTTCTTCTTCTTCTTCTTCTTCT
T
TTTTTTTTTTTAAAGAAACTTCTCTATAGGAAAATGCAAATTAAGACACCAATGAAATACCATTTTAAAACACTAGACTTTGCTTGCTCAGATGGTCTAC
Celera SNP ID:            hCV27129019
SNP Position Genomic:     17106
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14367):
GGGAACAGGGGAGGAAAGCCCATGGTTGGGAGGCGGAGGACAGGCATTTGGCCTGCAGGAGAAGGTGACCCTCACCCATGTTTTCAGTTCACCCTTCGGG
K
TAAAAATAACTGAGGTAAGGGCCATGGCAGGGTGGGAGAGGCGGTGTGAGAAGGTCCTGTCTTCCCACTATCTGCTCATCAGCCCTTTGAAGGGGAGGAA
Celera SNP ID:            hCV2227948
SNP Position Genomic:     4628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:14368):
GGAACAGGGGAGGAAAGCCCATGGTTGGGAGGCGGAGGACAGGCATTTGGCCTGCAGGAGAAGGTGACCCTCACCCATGTTTTCAGTTCACCCTTCGGGT
K
AAAAATAACTGAGGTAAGGGCCATGGCAGGGTGGGAGAGGCGGTGTGAGAAGGTCCTGTCTTCCCACTATCTGCTCATCAGCCCTTTGAAGGGGAGGAAT
Celera SNP ID:            hCV2227949
SNP Position Genomic:     4629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 TFBS;hmCS


Gene Number:                 12
Celera Gene:                 hCG1640554 - 84000314236630
Gene Symbol:                 GAB2
Protein Name:                GRB2-associated binding protein 2;KIAA0571
Celera Genomic Axis:         GA_x5YUV32VYAU(23576503..23791405)
Chromosome:                  Chr11
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12172):
TGTATTCAAGGACATTAACTTGATAGCTTAAAACTGGCCATGGCTGGCAGAGTATTTATGCCACAACAGTTGGCATATACTGTAAATCAAGGCACCCACC
AACACCACCAGGGAGCCAATTTTAAAATATTTGCCAGCACATCATTGGCTATATTGTCGGACAATCATCTTGGGTAATTCTGGTAGAATTATATAGTTAG
ATGAGGTGAAATCCTGAGGCCTCTAGGTTCCCAGCAAAACAAAGACTAGCAAGCCTGCACAGTTACTATGCAATTTATCAGGTGCAGAAGGAAATGACGT
TTCTGGTCATCTGTTGAATAAAGCCACTTTGAGTTCAGGGGACATGGTTTTCTCCAGCTTCACTAGTGTTGCATCTGGTACAAGGGGTTAAGTGCTAAAC
CCCTGTAGGATTGTCACAGTGAAGCCAGATAACAGAGTAACCGCAAAGAGATTTAATTCTGTAGTCCCACAAAGGAGGGTGTGTAAAGAGTGTACAACAG
TGTCAGAGTTTGGAAACCAAGGGTTGACAAAGTTGGTTCTCTGGAATCTGGGGGTACCAGTTAAAAGGTTAAAAGGAGTCATTGTTTTCTGAAACTATCC
AAGAGTTACAGCCATGTTTTTTTGTTTTTGTTTTTGTTTTTAAGATTTCGGGGGAATCTTATTTTCTCACATGTTTCTGGAATTTTTCTTTTTTTTTTAA
TTTAAGTTCCAGGGTACATGTGCAGGATGTGCAGGTTTGTTACATAGGTAAATGTGTGCTATGGTGGTGTGCTGCACCTATCAACCCATGACCAAGGTAT
TAAGCTCAGCAAGCATTAGCTATTTTTCCTAATGCTCTCCCTCCCCCAACCCCCTACCCACTCACAGGTCCCAGTGTGTGTTTCCCTCCCTGTGTCCTGT
GTTCTCGTTGTTCAGCTCCCACTTATAAGTGAGAACATGCGGTGTTTGGTTTTCTGTTCCTGTGTTAGTTTGATGAGGATAACGCCTTCCAGCTCCATCC
ATGTCCCTGCAAAGGACATGATCTCGTTCCTTTCTATGTCGAGTTACAACCATTTTTAAAAGTGGAACTGCACAGGATTACCTCAGCCTGCTAAGTCCTT
CCAGCTAGGCCGTCCCTGTGGGTTTAAACGCAATGTAAAGAAAGTGGATGTTAAGTGTTCTTACCACAAAAATGATAACTATATTAGTTAATGCATTTGT
TAGTTAGCTAGATTTAACCATCCCACAGTGTATTTTATGTATTTGTATTTATATTTCAAAACATCATATTGTACATAATAAACACATCGATGTTATCTGA
CAATTTTTATTAAAAAAAACCACTCCAGCCACTTATAGGTACCTTCACAAATACTATTCTCTGGTTTGTATGGATCAGAGAGTTCTAGATGTTCCAGTAG
TCTACAGCCCCAACCTGTCATCCTTTAAGGGTTGGTTCCTTCATTCTCACAATGAACATTTAATGAGCATCTATTCTGTGCTGGTACCATGCTGGGAAGC
TCTGGGAATACAAAAATGAGGAAGGGCCAGATGTGGTAGCTCATGCCTGTAATCCCAGAACTTTGGGACACCAAGGCAGGAAGATCACTTGAGCCCAGGA
GTTTGAGACCACTCTGGGCAACATAGCAAGACATTGTCTCTAAAAAAATAATAAGTGAGAAAAACACATTCATGTCTTCAAGGAACTCACAATTCCTCGA
CAAGGAAATATTTGCTGTACAGTGTGATAATCCAATTTATATAAGTGCAGTGTGGATACCAAGAAAAGAGTGAACAACTTTGCTGGAGAATGGGGACAGT
CAGTTTTAGGGAAAGAGGTCTTGACGTATGTTCAAGATCTAATTCAAGGTAGGAGTTCTCTCTGCAGAGCAAATAAAAGGAGCCAGCATTGCAGAGTGTG
GTTTGGAAGACTACAGCACTTTCTCAAGGATCTTGACAGTCTTTGTTCTTGGTGGATTATGACAACTGATTTACCAGTGTCAGCAGCAAAGTCGTGGGAG
CCTAACTGCCACAGAGCCATTAGCACTGATTCTGGTTATTTTCAAAGGAGAAATTGGGAAAATGGGATTGCTCAAGCTTTTCTCTAAGAAAGTTTTTTTT
TGTTTGTTTGTTTGTTTTTTGAGACAGAGTCTCACTCTTGTCGCCCAGGCTAGAGTGCAATGGTGCGATCTCAGCTCATTGCAACCTCCACCTCCCAGGT
TCCAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGTTGGGGTTTC
ACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATTCACCCGCCTCAGTGTCCCAAAGTGTTGGCATTGCAGGCATGAGGCACCGCACCCG
GCCAAAAGTTTATTTTCAAAATGTCTCCCACTGGGTATAGTGTCAAGTAACTCTCAGACTATTAGCCACAGACAGGGAGGAAACCCAATTAGGTCTTTAA
CCCCACCCCATTCCCACTTCCAGATCTCATCCTCAACCAGATGCCCAGAGTTGACTTGAGTAAGTTAAGGTAATTTGATATAGGGAACCATGTGGGCCTC
AAGTAACTAGGGGTTAAAGAAGCATACACCTTTATATGCCTGAGAGATGAGTGTCCTGAAAGACACCAGCTGAGGTGGTTCAGCTGGTCACACTGACCTT
CGTAAGCAGCACTCAGTTCTGAAATTAACCTGTCAACTAAATTGAAGGGGAGAAAAAGCAGAAGGGCTAGCACACAAACATCCATCCCCACCCCCAGTCC
AATCACTGACGTCAGGCCTGGCGTGGGTGGTATTAATCACACAAGCTTGGTGTGCAGTTGAGGACAGCTCTCCTTCCAGCCCTTCAACCCGTTTCTGAAA
GCATTCCACCAGCCATGCACCTGCCGCTGGCCACAAACCCTCAACTCCCAGACAGGCACGGATGCAGCGACGGATGTCCCTGACGACACTCAAAGCCACA
GTGCACCCTTTAGAACCCCAGGCTTTGTGGGGAGTGGGAGTAGCTATGAGCGGGGGCCAAAGTGGTACCCATGCTCTCCCAGTGTGCATTTCTCTAATCT
CTGCAGTGCTCCCTCCTCATAAGATAGTCATTTCCTGAGAATTTAATAAGAATATAAGATTAATGACCCAAAGCACTCTTGGAGCCGGCGATTAATTCCC
CCAGGAAATACCAGTGGTCTTTAAACAAAATTGCCTAAATTATGGGCTAGTGATGCATGTCCGCTCAGGGCTTGGGGGTGGGGGGATTGTCACCCCAACT
GGTTCCGATAGATGGYGCCTATCTTCATGTAAATCATTCAAATGATTTGTTTTCCATTTTTTTCCCAGCAAAAACCGGGGACCATTTAAACAGACACACA
CAGCAGGGAGTGGAGAGGACTTAGTAAAAGCCCAGACAGGAACTTTCCGTCCAAGGGTTGTTTCCAGGCCTGGCACGCCTCTCAGGCTCAAAAGACTGAG
CCACTCCAGGGTGCAGCCAGGGACTTGAGCAGCAGTCTTGCTTCCTATGCACAGCCCGAGATGGGCACTAGCAGCAAGAGGGACGCAGGGTGGGAGTCCA
GCTGAAGAGCACAGTAAAAAAGCCCCTTTCGGCCGGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCCGAGGCAGGCGGATTACGAGGTCAGGAGATC
GAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAAAAAATACAAAACATTAGCTGGGCGTGGTGACGGGCGCCTGTAGTACCAGCTACTA
GGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTGGCAGTGAGCGGAGATCACGCCACTGCACTCTAGCCTGGGCAACAGAGCGAGACT
CCGTCTAAAAAAAAAAAAAAAAGCTCCTTTCTTTAACCTTTGGGGAAAGATGGGGGTGTTCAGAGAACCCTTCCCAAAGTCGATACCTGGTGACTGTTGT
ATTCATATTTCAAGGTCCCTCCTGCCATTGGCCAAACAAGAAACATCAAACTTTTCCATTTCCACATGAAATTGTAAATAACACCATCTTTTCCTAAGCA
AACAAAATAAGACTTTAAGGAATTTCTGGCAGAATATGACCTAACCCCCACTAACTCTTGCTAAACAGTCTTCCAGTCTGTGTATTGAATCATGTAACTA
TCAAAGGATACGTAAGACTACTCTTCTGGGGGAAGATAGGGCATACGTATGCCTGACTTGCATCACAAACCTCAGCTGCAGCCAAACCATGCAGATTTCT
CCGACTCTGCAATCTCTGGGACTTGGCACCATGACTCAGATGTGAATGAAGTCAGGATAGTTTTATTTTGGTTGGAAGTCACCGCCTCCTGATTGATTTG
GCAGACGTTAAGTGTTGTTTGTCTTACAGGGATTTAAGGTACTTAAAGCCAGAAGTTAAAATGGCCATCATTCTGGTGGTGGCCCTTCATACGTGACTTA
AGGATCCCTAAATTGTAAGGTTAAGGGAGCTGTGGTCCCAGCCTACCAGTTCTGGCTTTACTTCCCATCCAGCAGCACACTGGATATTGAAGAAAGTCAG
TGAAATGTTAGATCCAGGGGACTGACCGCTAAAACTCCCAGGGTATCTAGAAGAGCTAAGTACGTGGTAGGGGATTCGCTTTTCCAAATTGAGGAGGGTG
AACTTCCCCCAACCCAATCAAGATCTTTTGGACCAAATGATGTCCAACTGCTTGAAACAACTCAGCTGCACAGAGACAGAAATAAACAAAACAGCTTTAG
TCTGAGGTTGTGTGGGGCACTGCAAGATGCTGCTTCTCCAATTCATCTGTCCACACAGCACGGTTCCCCATTGAATAAACAGGTTACTATCCACTTATCA
GAGAAGTTAGGGAGGACCTGCCTTTTAATGCTGCTTAGAGAGACACTTTGTGATGAGAAAAGAGCTCGTACAAAAGATTTTTTTCTCCCCCCTCCCGCTG
AAGTGCTGGGGTTGTGTGCTTCCACGTACATCTGGGATACCATTATATTTACAAACAGAGGTCTCATAGCCTGTGTCAATGAGCGGGAACGTTGGGGAAT
TTGGACCCCAATTTCTTGTTCTTCTGCACTTGACCTTGCCTTCCAATTCGTTATGAAATACATTGACTAGTTTTGCTTCTTCCATTCTACAAATCATGCG
AATTTTCTATACTAAACTGTGTTTTCCCAGAGGCAGTGTAGGAGGGAGTCAGCTGGACTTGGTTTCCAGGCAATGAGAGGCTCCCAGGTCGATCCCATTA
AGGCAATGCCCTCATTTTGAATAGCAGATGACCGGGACCCCTCCTCCCCCACACACCTGAATTGGAAAATTGGCTCGGCTTTGTACAAGCCCTTGCCCTT
AGGCTGTCCATAAAATAGGAACAATACTGAAGACAATCCTGTAAGCTACAAAAGCAAAGGCTCCGGCGCGTAGTAGGTCCGTCTCCTCCTCCCGCCGAGG
GACGCCAGAGTTAAGGAGCTTCTTGCTGGGAAGGGGTCCCTCCTTTCAGCCGGAACCTGACCCGCAGAATGTATCGGAAATGTGAGCAGCCCTAGTATCC
CTTCCCCGTCGACGCTCGGTGAAAAATCGATCGACGACCGAGGGCGCGCAGTCCCTTCCCCTCACACCCGCCAGCGCCAGGGGCGCGGTCGCCTCCCTGG
CCTCCGCGCCCGCGGCTTGGGGCCTCAGGAGAAAGCGAGACTCCGGGGCGCGCCGGCGGCGGTGGCTTTCTGTATCCTCGCGGGTCCCTAGCCCCGCGTC
CGCGTGCGCGGCGGCCTCGGGGGCGCGGCGGGAGCGGGCGTGGCGAGCGAGCCGGCCTTCCTGCTGCAGCTGCTCCCCCGGCGGCCGGGCGGAGAGTGCG
GATTGCGCGCGCTCGGGGCGGGGGAGCGGGCGCGCGCGAGGCTGCCGGGCTCGCGCCGCGCCGCGCCGCCTAGTCCCCGCCGGGCCGCCCGCCCCGCCCC
TGGCCTCCCGCGAGCTGCGCACCGCCGGCCGCTGCCCCAGCTGCCCGAGCCCGCGCCCTCGTCCGCRCGACCCGGCGGGGGGCTCCAGGCCGGCAGCATG
AGCGGCGGCGGCGACGTGGTGTGCACCGGCTGGCTGAGGAAATCGCCTCCCGAGAAGAAGTTGAGGCGCTATGTGAGTGCGGGCGCGGCCGCCCAGGGGC
GGGCGGGGGGCGCTCCGGGGCCTGCGGAGGGGCGGGGGACTCCCGGAGGGGCGGCAGGCTGGGGAGCTCGGGCCCGGAGCCGCGGGGGGCCGGGGGCGAG
GAGCGGCCGGGGGCGTGTGGGGCACCTGCACACCTGTCACAGGTGGGCCGCCGAGGGGCGGGGCGGGCGGCAGGTTGAGGCTGCGGCTCCTGCTCCGCCA
GGCGGGTGCGGCTGCGGCGCCTCCCAAGCCGGTCTGCTCGTGAACTAAATACAGTGTCGAAGTTTGTATTGATGGCTTCTGGAGACCGAGAGAGTTGACT
CTCGGGGCTGGGGCTCCGCGGCAGCCCSGAGCAGCTTCAGCCCGCAGGGTCGGGGAGAGGGCGGGAAAGGGGGGCGTAGGCTGTGGGGCCGCGCGGACGG
CCCCACAAAGGGCGAGCGCCTCACGCCCTCTCCTTCCCTTTCTCCGCCTGCCCCTCCCGGCCGCCGGCCTCCCTCCGTCCGCGGCTGCATCACCGGCAGC
GTCAGCGGCATGTGCAGCCCTTGTATTAAGTGACTCATTTGTTTGTCCCCCTTCTTTCCCTTTATTCCGTTCGTCTCTCACAGGCGCCTCCCCCGACCCC
GGTGTGACACTGCASTTTGGTCCCCGTGGCTGGCCCGGGTTTGGGACCGGGCAGCTCCCGGGTGTCTGGGGTCGGGAGAGATCGAGGCTCTCCGCGGCCA
GGTGTTGCCAACCGACAGTGTTTACTGAGATCGCTGGAACAGCCTTTYCCCTCTAGGTGGGGAACTGGCAGCCTGGGGGAGGTGGAACAGCGTGGCGCTG
AGCCGTGGAGTTCTGGCTTTTTTTTTTTTTTTTTTTAACCCCTCTCCCCAGAGGATGCCTTGCCTGGTGAGGTCAAAGTACAAGATGGTGCCAGTTACTG
AGATTTGGCCGAAATGGTCTTGGGGTAGTCGCGGGAGTTTGGAAGTGGGGGTAAGGTTGCTGGAAGGTTTCAAGGTCTCTCATCTGCTCCCTCTCCGTTT
CCCATGAAATGCCCTTGTTTAACGGGCTGTGGTGCCGAACTCCGGGATCACTCCCACAGCCTGGAAGGGAGCCGTTGCCTCCAGCTGCAGTGCATCAAGG
GAGCTCGGAATAGACCCTGCCCTCTGTCAGCTGCACCAGTGGCTGTCCATGGGGGGAGAGGCAGAAGCCTACCAGAATTTCCTGTCTTGGCTCCCCAGAT
CAGAATCAAGGGACTTCTGGCCTCTGGACTGAGGAAGTGACATTCTGTTTTTCAAAGGAAGTGTTGTTGTTGCGGAGTACAAGTGTGTGTCAATGAAATC
AGGCTCTTAGGTAGATGTTTGCTGGGGGAAAAAAATCTAAGGATTTAGCACATGAGTTTTGAAAGTGGACGTGGATTTATAGGAGGAATGAAGCAGTGAA
TTGTTCATCTCAGTTCGGAAGCTCATTTTTAGGAGTGTCTATGTAGCCAAAGTATAATTATTAAGAAATAAACTTTTTTCCTCTTCAGGGTTGTATCAGT
TCGTTAGGAAGGTTGAATATTTTAATTAGGATTAAGGAGCAGTGATTTACTATTAACAATTTTATAAATAATTTAAAAACTTTGTCCCGAAGAGCTTCCA
AAAATTATCTATACAAATAGATTTCCATACAAGCTAGTGGAATACAGTGTCCACAGTAAAAAAAAAAAAAAAAAAAGTGACCCTTAATTTTCAAGTTTGA
ACACTATACACTAAAGAACCTTGAAAGTTGTTTTTGAAACAATTTGCAAACAGTATGACACTGTATCTACATTTGACTTATCGCTCCTTGAACTCTCACC
CAGACTCTATGACCCATTTCTTGGGTGTTTTTGTTCCCAAACAACTTTAGTTCAAAATAACCAGGTTTGGAGGCATTTGGGTCAAGCACCTTTTTCACTG
ATTTGAACGAATCTAGTCGTATGATGGCCTTAGCCTCTCTTTCCCATCTTCCATGTACCTTCAGCCCATCAGGTGTCAGACCTTAACAGCTTTAAGTAAC
AGCTTTTCTTAGGTTAGGATGTGATGTGTTCACTTACATGACTGGAAGCCTCTGCCCCTTCGGAAGTTCAGTTTCCCCCTAACTGAAACTGGTGATATGT
GTAACCTTAAGSCTCTGGGGAACAGTATGCCTTTACATCTACTTTTCTTTTGGGGTATTCAGAATTTTTGCATCCTGTTGTAAGTTAAAACTCTGCTAGT
TTGCTTATTTCAGTAGAGGCCCGAGTTCATTAGAACCAAGCTTGGAAAGTATTTCCCAGCCCCATGGCTGTATATTTACCCCAAAGTAGCTGCTGCTTCT
GGTATACATCATAGGCGTGTTATATTGTAGATTGAGAAATCCTCATTATAAGAATACATCGAGCATATGTGATAAGGGGAAAAAGTAGTTGAACTAGGTT
ATAACTATTTAAAACGATTTTTTAAAAAACTGACTTAATTTGAAGTCTGGGCGCAGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGG
TGGATCACTGGAGGTCAGAAGTTCGAGACCAGCCTGGCCAATGTGGTGAAACCCCGTCTCTACCATAAATATAAAAATTAGCTGGGCGTCATGGAGGGCA
TCTGTAGTCCCAGCTACTCAGGAGGCTGAGACATGAGAATCGCGTGAGCCCGGGAGGCTGAGGTTGCAGTGAGCCGAGATCGTACCACTGCACTCCAGCC
TGGGTGACAAAACGAGACTCCATTTCAAAGAAAAACAAAAAAACTTACTTAATTCGGAAAGACGGGAAGGTGTAGAGGGGAAAAACATCTTAGAAGAAGC
AAAGGCAAATGTTTGAGCAATTAGTTTTCAGGGATTTTTTTCATCAGCCTTTTCTAGTTAATTAAGTATAAGTATAAGAGACCTATCTGCTATTTACTGA
GTGCCCTGGAGAAATTGCAAAAAGTGTCTCTGGAAAATGCTGACTATTGCCTCTGGGGCATCCTGATATGGCTGCAGTGGGAGGCCGGCAGAAGTAACAA
CCCTCCCATCGTGCCTCAGTGTATTTGTGTGTGTATGCGCGTGCATGCAAATGCATACACACGTACATGTATATAATTATTAAACAGAATTTTCTTGAGG
AAAAACATTTTATTAATATGACCTACACTGCATTGTAGTTTTCTATCAATTTCACTGGATTAAAAGATTGAGGGAATAAGATTGGCAGACTACCCCCTAG
TGGCTAACTTGAAGAAAGTTGTGCACAAATTGTAAAGAACTACTGCATTAAGGTAACAGTAATTGTTTATTTCCATTATATTTATTAAATATACTTATTA
AATCTATGTCCCAGGCACTGGATCAGGTGCTTGGAATAAAAATCCAGTAAACAGAAAAAAAAATTAATCCAGTCTTTCAGTCTTAGCAATGGCTTTGCCT
TCTCCTTCAAAGGAAAATTGAAATGATGAGGGAGTAGTTGTCTGTACGTACGATGAATGGCCACATTTTCAAATTTACTTGTATCTGCATAGTTCCTTTC
TTTCTTCCTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTTTTGTTGCCTAGGCTGGAGTGCAATGCACGATCTGGGCTCACTGCAACCTTTGCCT
CCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCATCACCACACCTGGCTAATTTTGTATTTTTAGTAGAGATGA
GGCTTGACCACGTTGGTGAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCACAGTGCTGGGATTACAGACAGACATGAGCC
ACCGCGCCCAGCCTGCATGGTTCCTTTCTTGTTTCCTTTTCTTAGAGTAGATGAAGTGCCACTTYTATCTGAGCTAATCCTGCTACTTATACTTTGAATC
ATATCTTCTCCTCCCTACTCAAATAATTCTTATCCTGTAACACATCTTCAACTTCTTTCCCTCTCTGTACTACCTACTTTTTTTCAGGGATAAACTTGGT
GGTGGTTTATGCAGTCTTCCTTTCTCCCACCTTCTTCTCAGTCGGCTCCAGTGGAAACCTACTTTGTTATTCACCAAAGCTATTCTGACAAAGGCACCAG
CGATACCCAGGTCACTAAACTCAGAGGATGATTTTTTACTCCTCATTTTAATTAATCTCTTCACTGCTTGGTCATAGTTGACCACTCTTTTTTAAAACAC
CTTCCTCTTATCTTGGCTGACACTATAAATGCCTGTTATTTCTCCTTTTCTGGCTACTCTATATTTCCTTTGCTAGACTGACCCTTTTATCCAGTCCTTA
AAGGTTGAAGCTCCTTTATAGTCATAGTGGCTGTGTGGTTTCTCCCCTTTGGCAACCTTGTCCATTCTACTGGCTTCAGTTATCATTTGCATGGTGGTCA
TCAAGTTAAATTTCCATCTCAGAGTTGTGTTCTGAACTTCAGACTTACATATCCAACTGTTAACTGGGCATCTCTATTTGAATGTTTCCCAGTCAACACA
AACTCACCACTTCCAAAACTAAACTCTTCTTTGTTCATCTCTTCACTCCACATCTGCTCAGTAAACAGTGCCACTAAGCACCTACTTGCTCAGATGAGAA
ACTTGGGCATCATCTTTGACTCCCCGTCACCCACTATCCCACATCTAATCTGTCACCAAAACCCATTAGTGGTATCATCTAAATATCTTGTTATAYGCTT
CTTCATCCCCACTGCCATGACTTTTAGGATTATTTTAGTAGCCATCTGTTGAGCACTTACTTTGTACCAGGCACTATGCTTAGACCATTGATCTTTTAAT
GTAGTAATTTAGCCCTATAATAAGGGAAGCAACTTACCCAAAGTCATCTAGCTTTGTCCTAAAGCCTGGGCTTTTTAAAAAAATTAAACATTTCATTTTG
AGGTAATTCTACATGCACATCTAGTTGTAAGAAATAGTAAACAAAGATTTATGTAGCCATTATCCAGTTTTCCTTAATGGTAACATCTTGCAAAATTATA
GTACAGTATCACAACAGTATATTGACAATGATACAGTCAAGATACAGAGCATTTCCATCATGATAGGATTTTTTATGTTGCCCTTTTATAATCGTATTCA
CTACCATCCCACCCCTACCACATCCTTAATCTGTGACAACTACTAATCTGTTCTCTGATATTTCATGTGTGTTATTTAAATGGATTCATGCAGTACTTAA
GATTTTGAACTTTTTTTTATTCAGCATAATTCTCTGGAGATTCATCCTCATTTCATGCATCAATAGTTATTGTTTTTTATTGCTAAGTAGTATTTCATGG
TATGGATGTACCACACAGTCTGTTTATTTAACCATTCACCCGTTAGTTCTCATTTACATTTCCCTTATGGCTAATGATGTTGAACATCTTTTCATATGAT
TATTTGCCATCTGTATATCCTCTTTGGTCAAATGTCTTCAAGAATTTGAGTATTTTATATATAGGTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTTA
CCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCCCCAGGTTCAAGTGATTCTCTTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTTTAGACAGATTCTCA
CTCTGTCACCCAGGCTGGAGTGCGGTGGCACAGTCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGC
TGGGACTACAGGTGTGCGCCACCATGCCCAGCTCATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCAATCTCTTGACC
TCGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCGGCTTTCCTGGTTTTTTTTTTYCTACACATTTTACAGGT
TTATGTTTTTCCTTTAAGTCCGTGATCCACTGTGAGTTAATTTTCATGTAAGATGTGAGACTTAGATTGAGGTTCTTTTGTTGTTGTCATTGTTGTTGAC
AAAGCCATCCTACTTCCATTGAATTGCTTTTCCGTCTTTGTCAAAAATCAGTTGGACGTATTTGTGTGGGTCTGTTTCTGTTGTCTCTGTTTTGGTCCAT
TTTTCCATGTGTCTGTCCCTCTGCAAATACCATAGAATCTTGCCAACTCTAGCTATATTGTAAGTCTTGAAATCTGGTAGCCTGATTCCTCTACTTTATT
CTTATTTTTCAAAGTGTTTTAGCTATTCTATTATCTTTACCTTTCAATACAAATTTTAGAATAATCTTGTTTATGCAAAAAAAAGAAAGTCTTGCTGAGA
TTTTAATAGGAAGTGCATTAATCCTGTGTACCAATTTGGGAAGAAATTACAGCTTTACTATATTAAATCTTCCAGTCCATGAATTTATTTTACATTTATT
TATATATGTCTTTCTTCCTTCGTTTATTTTCTTCTCCTTCCACCATCCCCCCCMCCAACCACCCCCACCAGAATCTTGCTGTGTCACACAGGCTGGCGAC
AGTGGCACAATCATGGCTCACTGCAGCCTCAAATTCCTGGGCTCAGGTGATCCTACTGTCTCAGCCTCCCAAGTAATTGGGACGACAGCTGCGTACTGCT
GTGCCTGGCTAATTTTTTTTTTTATTATTTGTAGAGACAGGGTCTCCCTGCGTTGCCCAGGCTGGTCTCACACTCCGGAGCTTAAGCAGTCCTCCCACCT
TGGCTTCCCAGAGTGCTGCGATTATAGGTGTGAACCACCATGTCTAGCCTTCTGGAAGAGATGGTGTAGAACTGGTATAATTCTTTAAACCTTTGGTAGA
ATTCTCCAGATTAAACCATCTGGATCTGGAAATGTCTTTGTTAGGAATTTTTTACATTTTTAATCCAATTTCTTTAATAGATACGGGGTTCTTCAAATTA
TCTACTTCATATTGGCTGAATTATAGAAGTTTACATTTTTCAACAAATTGGTCCATTTTGTCTAAGTTGTTACATACATGTGAGTGGAGTTACAGTATCC
TGTATTATGCTTTCAGTGTCTGCAGGGTCTGTAGTGGGTCCACTGCTTTATTTTTTTAACCCTTATTCTTGCATACTGACATTGCTTCATTATTATTTTT
TGTTTGTTTTTTGAGACAGCATGTCACTCTGTCACCTGGGGTGGAGTGCAATGGCACGATCTCAGCTCACTACAACCTCCACCTCCCAGGTTCCAGCAGT
TCTCCTGCCTCAGCCTCCCGAGCAGCTGGGATTGCAGGCATGTGCCACAATGCCCAGCTGATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTG
GCCAGGCTGGTCTCAAACTCCTGACCTTAAGTGATCTGCCTGCTTTGGCCTCCCAAAGTGCTGCAATTACAGGCATGAGCCGCTGCACCTGGCCTCTGAT
TTTTTTATATAGTAGTTTATTCATTTGAGACTTTTCCTCTTATTTAATGTATTCATTTACTGCTATGAATTTCCCTCTCAGCACTGCTTTAGCTGTGTCC
CACTAATTTTGATAAATTGCATTTTCAATTTTTATTTGCTCAGTATATATATATTTTTTTTACTTTCCTTGAGACTTTCCTCTTTGACCATGGATTATTT
ACAAGTACATTGTTTAGTTTCCAAATGTTTGGAGATTTTCCCATTATTTTTCTGTTTCTGTCTTTTAGTTGGAATTCATTGTGGGAGTAGAGTAAGTTCT
ATTTGATTTCAATTATTTTTAACTTGTCAAGGTTTATTTTATTGCTGAAAATGTGGTCTATCTTGCTTTAGGTTCCATGGGTACTTTGAAAAGAATGTTT
ATTCTGCTATTATTGGGTAAAGTATTCCATAAATGTCAATTATATCTTTTTGATTGATAGTGATATATATAATTCTTTTATATCCTTGCTGATTTTTCTA
TCTAGTTCTTCTGTCGATTGTTGAGAGACAGGGGTTGAAGTTTCCAACTATAATTGTGAATATTTCTGTTTCTCATTTCACTTATATCTGTTTTTGTTTC
ACATATTTTATTTTTTTTATTATTTTTTTGGAGATGGAGTTCCGCTGTTGTTGCCCAGGCTGGAGGTGCAATAGCATGATCTCAGCTCTCCGCAACCTCC
ACCTCCTGGGTGCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGTTGGGATTACAGGCATGCGCCACCACACCCGGCTAATTTTGTATTTTTAATAGAG
ACAGGGTTTCTCCATGTTGGCCAGACTGGTCTCGAACTCCTGACCTCAGGTCATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGACATGAGCC
ACCGCACCCAGCCCTGTTGTTCAATATATACACATTTAGAATTGCAACATCTTCTTGGTGGCATGACCCTTTTATCTTTATATAATACCTGCTGAGTCTC
TGGTAATTTCTTTTGCTCTGAGGTCTACTTGTTATCTGATATATTATACAAGTATCTGAGGGCTACTTGATATATTATAGCCTATATCTGATGATATAGT
TATTCTTGCTTTCCTTTTATTGATATTCACATGATACATCTTTTCCATCAATTTACTTTCAACCTACCCATATCATTGTATTTGAAGTGATATCTTATAG
GTGGCATATTGTTGGGGTGTATTAATCCGTTCTCGCACTGCTGTAAAGAACTACCTGAGACTGGGTAATTTATCAAGAAAAGAGGTTTAATTGGCCCACA
GTTCCACAAGCTGTACAGGAAGCATGGCTGGGGAGGCCTCAGGAAACTTACAGTCATGGCGGAAGGTGAGGGAGAAGCAGGCACATCTTACATGGCTGGA
GCAGGAGGAAGAGAGTGAGGGGAGAGGTACTACACACTTYTAAATAACCAGATCTCACAATAACTCACTCACTATCATGAGAACAGCACCAAAGGGGAAC
TCCACCTCCATAATCCAATCATTTCCCATCAGGCCCCACCTCCAATATTTGGGGATGACAATTTGACCTCAGATTTGGGCAGGGACACATACCCAAACCA
TATCATGGGGCATGTTTTTAATCCACTGTGCTGATTTATGTCTTAATTGGTATATTTAAATTTACACTTAATATAATTTCTAATATGCTAGAGCTTAGTT
CTGCCACTTTATTTTTTGTTTGTGTTCTGTTTTTGTTTTCTTCTTGCCTTCCTGTGAGTTTCTTGAATATTTTTTAGAATTCCATTTTGATTTATCTATA
TAGTGTTTTTGAGTGTATCTCTCTATACAGCTTTTTTAGTGGTTGCTCTAGGTATTATACTGTACATACAACAGTCAGTTGGTGTCGTCTTATAATCTAA
ATGAAGTCTGTATCATCATTTTACAAGTTTAAGTAAAGTATAGTAACCTTACCTCCCTTTATGTCCTTTTGCCATCCTCCATATATAATTGTCTTAAATA
TTTTTTTTATATCAGACAGTGCTATAATTTTTGCTTCAGTCATTAAACCTAATTTAGAAAACTCAGAAGGAAAGACTATTTAATTACATTTTTGTTTACT
ATGTGCTTTCTTCTTTGCTGATGTTTTCAGGTTCCTCTTTTTTTCATTTCCTTTCTGTTTAGAGAACTTCCTTTAGCCATTCTTTAGGGTAGATTGGCCA
GTGATAAATTGTCTTTATTTTCCTTCACCTGAGAAGGTCTCATTTTCCCCTTCATTCTGATATTTTCACTGGATATTGAATTATTTAGTTGACACTTCTT
TTCTTTGAGCACCTGTAAAATACTGCATCCTTTCCTTCTGGCCTGCATGGTTTCTAATGAAAAATCCATGGTCTTTCCAATTGCTTTCCCTCAGGAGGTA
AAATGCCCTCTTTTTCTTTCTTTTCTTTTCTTTCTTTCTTTCTCTCTCTTTCTTTCTTTCTTTCTTTTTCTTTCTTTCTTTCTTTCTTTCTTTTTGGGAC
GGAAAATGCCATCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTYACTTTCTTTCTTTCTTTCTTTCTTTGAGAAGGAGTTTCACTCT
TGTCACCCAGGCTGGAATGCAATGGCACTATCTGGGCTCACTGCAATGTCTGCGTCCCAGGTTCAATAGATTCTCCTGCCTCAGCCTCCCTAGTAGCTGA
GATTACAGGCGCTCACCACCACGCCCAGCTAATTTTTTTGTATTTTTGGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGACCT
CAGGTGATCCACCCAACTCAGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACCACGACCAGCTCCCATCTTTTTCTCTGGATGCGTTCAATGATTT
TTTTTCTCTTTATTTTCAGAATTTTGCTATGTGTCTTGGTGTGGAATTTTCTTGAGTTTATCCTGTTTGGAACTCACTAAACCTACTGAATCTTTCTTAC
TACATTTGAGAAGTTTTCACCCATTATTTCAAGTACTTTCTCAGTCCTACCCTCTTTCTTCTCTTCTTCCAAGAATCCAATGACAAAACTGTTAGATCTT
TTGTTGTAGTTCCATAGCTTCTGTAGACTCTGGTCATTTTTTTTCAGTCTGTTTTCTCTGTGTTGTTCATATTAGGTTATTTCTACTGTCCTGTTTTCCC
ATTCACTGATTCTATTTCTCTGTCCTCACTATTCTGCCATTGAACTCACTGATGAACTTTTTTATTTTGGTGGTTATATTTTTCAGTTCTAAAATTCCAT
TTGGTTTTTCTTTACATCTTCTATTTTTTTACTGAGACTTTGTTTCTTTTTGGAGGCTTTCCAATTTTCCATTTGTTCCAAGCATGTTTGTACCTGCATT
TTTATGATGACTCTTTAAAATCTTTGAAAGATAATTCTAACAGCTCTGTTATCTCAGTGTTGGCATCTGTCGATTGTCTTTTTCATTCCATTTGAGAGCT
TCCTCATTCTTTGTATAATGAGTCGTTTTCTATTAAAACCTGGACATTTTTGGCTCACACATGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGTGAGTC
ACCTGAGGTCAGGAGCTCAAGACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTACTGAAAATACAAAAATTACCCAGGCATGGTGGCAGGTGACTGTA
ATCCCAGCTACTTCGGAGGCTGAGGTGAGAGAATTGCTTCAACCCAGGGGGCAGAGGTTGCTCTGAGCCAAGATCATGCCATTGCACTCCAACCTGGGCA
ACAGAGCAAGATTCTGTCTCAAAAAAAAAAAAAATTAAACGTGGACATTTTTGTATTGTGTTGTGATACTCTGGATCTAATTTAAACCTTGTGTTTTATC
TGGATTTCTCTGACCCTGCTGCAATCATCGGAAGGGGACACTGCCTTAGTACTTTCAAGTAGAAGTTGAAGTCCAGGTTTTTCATTCCACCTCCATTGAC
ACTCCCGATAGGAAGGTAGTCCTCATTACTCCTGTGAATGGTTTAAGGTTCCAACTTCCCATGTGGTCTCCAGTGACTCTACAGGGATGGGTGCCTTATT
ACCAGTTTTTGGGTATGCATATCATAGCTTTCTACTTGGCTTTCTTTGACACCACCCTAGCAGGTGTCACCTGGCCTCATGACAACCTCTGAAGGGTAGA
AGTCTAGGTTGTCAGTCAGTTTTTGCTGCTGTGGGTGAGGGTTGGACCACAGTTTGCTCTGCGGTGTTTGGCTGGAGTAGAGCAGTTATTGTTTAGCAGT
TTCGTCTCTTGCTAGGCTGCTCCTTTCCCAGTCCTTTGGCTAGAGAGAGCAGACTTTCTTTGGGAATTTTTTGGTCTACACAGGTTGGTGTTTCTGCCAT
GCTGACTGCTTCAGCTCCAAGTCTGAGATATATGAGGCATAAAGAAAACTCATGGAATTTATCACTGTGTCATTCCTTGGGTTCCAGGGTCCCTAGCAAA
TCTGCCGCCTACTCTTCACCTTTTAGATTCTTCTTAAGCTTGTTTTATATGTAATATCTAAGGATTTTAGTTGTACTTAGTGGTGGGAATAGGGAAAAGT
ATGTCTATTCCATTTACCCACTGTGTATGGTCTTGAATGTTGCTTATACAAAAGCACTTGTTACCAGTAAACATATAGTATAGTAGTGGCAATTACTAGA
TATTTTATTCCCATGTTACCAGAGGAGAAACTGAGCACAGAGCTTAAGTGCCACACATATAGTAAGTAGCAGACCCAGGACTACAAACCAAGTCTTCTCA
TTAAAATCCATGTGCTTGGCCAGGCGTGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCCGAGGCAGGTAGATCACAGAGGTCAGGAGATCGAGA
CCATCCTGGCTAACACAGCGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCAGGCACCTGTAGTTCCAGCTCCTCAGGAGTCT
GAGGCAGGAGAATGGCGTGAACCGGGGAGGTGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCATTCCAGCCTGGGCRACAGAGCTAGACTCCATCTCA
AAAAAAAAAAAAAAAAAAAAAAAATCCATGTTTTTTCCCCACATTCTGTGGATTAGGATTCTGCCTTTATTTTTTTAATTTTTACTTTTTACGGATACAT
AATAGTTGTAAATATTTATGGAGATGTGAAATTTTGATACAAGCATATAATGTGTGCTTAGGATACTCATCACCTCAAACGTTTATCATTTCTTTTTGTT
AGGAACATTCCAATTCCAGTCTTGTTATTTTGAAGTATACAATAAATTATTGTTAACTATACTTGCTCTATCTTGCTACCAAATATTAGATCTTAGTTCT
TCTAACTGTATTTTTATACCCACTAACCATCCCTTCTTTATACTTCTCTTCCCACTGTCCTTTCCAGTATCTGATAATCGTTATTGTTTCTCTATCTCCA
TGAGTTCAGTTTTTTTAGCTTCCACATATGAGTAAGAACATGCAGTGTTTAAATTTCTGTTCCTGGCTTATTTTGCTTAACATAATGTCCTCCAGTACCA
ACCGTGTTGCCACGAATGGCAGGATTTCATTATTTGTATGGCCGAATAGTATTCCATTGTTATTGTTGTTTTCAAGACGGAGTCTTGCTCTGTTACCAAG
AGGTGTAGTGGTACAATCTTGGCTCACTGCAGCCTCAACCTCCTAGGCTCAAGCGATCCTGCCACCTCATCCTCCTGAGTAGCTGGGACTACAGACATGC
GCCACCCGGCCTGGCTAATTTTTTGTTTTATTTTTTGCAGAGGTGAGGGCTCACTATGTTGCCCAGGCTCATCTCGAACTCCTGAGCTCAAGTGACTTTC
CTGCCTTGGCCTCCTAAAGTGCTGGGATTAAAGGCATGAGCCACTGTGCCCAGCCCTGAATAATATTCCATTGTGTATATGTACCACATTTTTTAAATGC
ATTCATCGATTGATGGACACTTAGGTTGATTCTGCATGTTGGCTACTATAATAAGCATGGGAGTGCAGATATCTCTTCAATACATTGATTTCCTTTCTTT
TGGATATATAGCCAGCAGTGGGATTGCTAGATCATATGGTAGTTCTATTTTTAGTTTTTTGAAGAACTATCATACTGTTCTCTATGGGGGCTGTACTAAT
TTACATTCCTACCAACAATGTGTGAGGGCTTCCCTTTCTCCACATCCTTCCCAGCGTCTGTTATCACTTGTCTTTTTTTCTGTAGATACTTAGCATATTT
TACAAAAAAAAAGAACTGAATGCCAGCATATATGACTTTGAGCTCCTTATATATTCTAGTTATTAATCCCTTGTCAGATGAGTAGTTTACACATATTTTC
TCGCATTCTGTGAGTTGTTTCTTCATGTTGTTAATTGTTTCCTTTGCTGTGTCAAAGCTTTTAAGCTTGATGTGATCCCTTCTGTCCGTTTTTGCTTTGG
TTGCTTGTGCTTTTGAGGTCTTGCTCAAGAAATCTTTGCCCAGACCAATGTCCTGGAGCATTTCCTCAATATTTTCTACTAATAGTTTTATAGTTTCAGG
TCTCATATTTAAGTCCTTAATCCATTTTGATTTCATTTTTAAATATTGAGAAAGATAGGGGTCTAGTTTCATTCTTCTGCATATGGATATCAAGTTTTCC
TAGAACATTTATTGAAGAAACTGCACTTTTTCCAGTGTATGTTCTTGGCACCTTTGTCAAAGGTGACTTCTGTCCTACTTTAGCATAGCTAGATAATTTC
TGTTTACTATAGTCCATTTGCAAAAAGGTAGCCATTTACAAATGTTTAAATGACGAGATTATTTTAAACTTACATAGTATTGCCATAATTATCCTGCAGT
TTAACTCTTTAAAACTCAAGCAATTATTAATTTTCTTTTTAAGCTATAGGGTAACCCTAGCAGTTTTTAAAAATTTAAACTTCGTAAATATGTTTAAGTG
ATTTGCTATCCTTGATTAGTATCTTAGTCCATTCAGGCTGCTATAACAAAGTAGCCTTAGCTGGGTGGTTTATAAGCAACAGACATTTACTTCTAAAAGC
TCTGGAGGCTGGCAAGTCCAAGATCAAGGCACTGACACATTCAGCGTCTGGTGATTGCCCACTTCCTCATAGACAATGTCTTCCATTGTGTCCTCACATG
GTTGAAGAGGGAAAGAAGCTCCTCAGGGTTTCTTTTATAATGTCTCTAATTATAATGTCTCTAATTTATGAGTACTCTGCCCTCATGACCTGATAACCTC
CCAAAGGACCCACCTCCTAATACGGTCACTTTAGGGATTAGGATTCCAACATGTGAATTGGGGTGGTGGGGCGGGCTGGGGCATTGTGAGGCAGAAGCAT
GCAGTTCATTGTAATAAGATGATTCTTTAAATTTTCTAAAAGGTGACTTTTAAAAGTCTGCTCATGGCCGGGCGCAGTGGCTCATGTCTGTAATCCCAGC
ACTTTGGGTGGCCGAGGCGGGCAGGTCACCTGAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAATCCCATCTCTACCAAAAATACAAAAATTAGCTG
GGCGTGGTGGTACGTGCCTGTAATCCCAGCTACTGGGGCGATTGGGGGTGGGGGTGGGGGGGTGCGGCTGAGGCCGGAGAATTGCTTGAACCTGGGAGGC
GGAGGTTGCATTGGGCTGAGATTGTGCCACTGTACTCCAGCCTGGGCGACAAGAGTGAAACTCTGTCTCAAAAAAAAAAAAATTTTTTTTAAACAAAAAT
GAAAATGTATTTAGTATAATTTAGTTCAGTAATTTATCAAACAATTAGTATGTGCCAAGTGCCCAAGTTCTGGGACTGCAAAGAAAAAAAAGCAAAGGCT
TCCTAGAGAAGAAAAAGCAAAGGCTTCCTTACTTCTAGGACCTGACTAGATAGAAGTAATCCAAGAGAAGAAGGTTTTTCAGGTAGAGGGACCACTAAGA
GAGTAGACAAGGTGGCAAGGACATACACAGTGTGTGCAAGGACACTAAAAACAGTTGGGTGTTGCTGGATTATCAGCAGGATGATTGGAATAGAAGGCTT
TGAAGCTGGAGAGGTAAGTAAGAGAGAATACCTGGGCTGGTAAGAACAGGGGAGGGGAAGATCTTCAAAAACTGGAGTCCATTCAAGACTTGTTTGTAGA
CCATCCTAGGCAGCCAGGGCATTATTCCAACAGATTATTTGAGTATTTAAATAAATAATTCTATATGGTTCATATAACCAGATGGAAATTCATTTTAGTA
GGTTTCTATTGTGGTCCTAATCACTGGATTATTTCTTCGATTATATTCACAGCATTAAGGAGACTGTTCTAACCAGTTCAAGGCCAGTCTCCTGAGCTTT
TTATCATTCACATTGGATCAGAACTTCTCATTTGGAAGCAACTCAAGTGTCCACCAACAGATAATTGAATAAACAAAATGTGATATGTGTGTGTTCATAT
ATACACACATATACATATCACATATATGCTATCTGGTATACATATATATACACACACGCACACACACTGGAATACTGTTCAGCCTTAAAAGGGAAGAAAA
CTTTAATACATGGACATGCTACAACAGAGATGAACCTTGATGACATTATGCTAAATAAAAGGAGCCAGACACACACACACACACACACACACACACACAC
ACACACACACGAATACTGTTCAGCCTTAAAAGGGAAGAAAACTTTAATACATGGACATGATACAACATAGATGAACCTTGATGACATTATGCTAAATAAA
ATGAGCCAGTCACAAAAGGACAAATACTGTATGATTCTACTTATGTGAGGTACTAGAGTAGTCAAATTCAGAGAGACAGAAAGTCTAGTGCTAGTTGCCA
GGGGCTAGGGGTAGGGGACAATGAGCAGCTATTGTTTAATGGGTACAGAGTTTCAGTTTTGCAAGATAAAGGGTTCTGGACATTGGTGGTAATGGTGGCA
ACAGCAATGTGAATGTACTTAATGCCACTGAGCTGTACACTTAAAAATGATAAGATGATAAATTTTGTATTCTGTACATTTTATGACAGTTTTTTTTTTT
TAAACCTCACTTGGTAAAGGTTAGTAATTGGTCTTGCTCATATTTCTAACCCAAGAGAAAAGACAGGATGGAATCTCCACAGCCATGAATGATTATGGAA
TATTCTCTCAGTGACATGTAAGGACCTGAGGCAATGAAGTTGCACAGAGCTGGAAGACATGCCTGCTGCTTCGCTTAATGAAACAACCTTTTTTTTTTTT
TTTTTTTTTTTTTTTGAGACAGTCTCACTCTGTCACTCAGGCTGGAGTGCAGTGGCACAGTCTTGGCTTGCTGCAGTCTCCGCCTCCTAGGCGTAAGCAA
TTCTTGTGCCTTAGCCTCCAGAGAAGCTGGGATTACAGGCTGCACCACTATGCCTGGCTAATTTTTTTGTATTTTCAATAGAGATGGGGTTTTGCTCTGT
TGACCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCTACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGACATGAGCCACTGCGCCTGGCCTTAA
TGAAACACCTTTGATGTTGCTTTTTATCTCTAGGTAGAAAGGGACAATGAGATATAGTAACTTTAAGCTTATAAGAAATGCTGAGAAATACAGGTTCCTG
AGCAGGCTGTTGTCTACATCCAAATTAATTTTGACAGGTGTTTATAGAGCATATACTGTATCCTTTCCCTTCCCAAGGTAATAAATCAGTACTCATCCCT
GCCTTCAAGGCATTTGCAGACTAGAAAGACTAGAAGTCTACATGTGAAACAGAATGATGCCCTTATATGGAGTTATCCAGGCACCAAGTTGCGTGAAGGC
AAATGCTCTTGGTGTGGAAGAAGTTGGAGGGGCTTCCTGGAATAGGAGGTGGACATGTGAGTTGGACTCAAGAGATAAGGGCCTAGGAAGGAATATGGTG
TTCAAAATGAGAAAGAGGTGGTGCACATGGGGTGTGGGGCCAGTAAAATTCCATCCAGAGTGGAGGAATCTGTAGCAGAAAGCAGGAAGTTTTGAAAGTT
CAGAGCTGGGGGGAATATTTTATAATTCCCAGTAAATGCCTTAGATGGTAGGATGACATTTACTGATAAAGAGCATCACTAACTCAGTGAGTCTTTCCCT
CACAGATGGCCACTTCTTCAGTGTGAAATGTCAGTGTATATTGACAATGTTTATGTTCAGAAAACCTCTCAGTATTTCAAAGGCCTTAGGGTCATTAAGC
AAATGACTTAATTCTTTTAATTCACTGAGGCCACTTCTTTGTCTGTAAAATTAGACTAATGCTTCTTATTTCACTGGGTTTGCACATTTATCAGAATAAC
ATGTGAAAAAAATCTTAGCACAGTGTCTAGTCCAGAGTATTAAGTACTGGGGGAGGTGGCATAGGGATGATGTTGACTTACATTTATTAACCTATTCATA
GGAACTCTGAACATGAGCATGGGTGCCTTCACATCCCTTTCAAATTTGAGCCATACCTGGAATGTACAATGTCAGAACATAACTGAAATTCTCAAGCTGG
GTAGCACATCAAATTTTAGGGAGTTAATTTTTCCTGAAAGGAACAGCTCAAGGATCTGCCAGTCTCATGGAAGGGAAATTAAACCACACAGGGATTTGTC
TGAAGCTATGACTTTGGCCAGTCGCTGGGAAATAGGTGTGTGCTGGGGGATGTAAAGATCAATATGTGAGATCCTGGGGCCAATGTTTGAGAATGGTTTA
AAATGCAAAAACTTCTCAGTAAGTGGTAACCCTTCAAAGGTTAGCTCAGATTGCCTACCCTGCAGGATCCTCCAAAGGGAGCCGCCTTCTGGGCTTGCTT
CCATGACACTTTTTTCATCTCTAATTCGCCATTCTCACATTGGGCTATCAGTCTCCCTTTGCTAGATTATGAGCCCTTTGCTTGAGACTGTAAGCAGCTT
GGTGCAGGCTTGATGCCACTTGTAAGGCAGCAGCTATCATCAAGGTAATTTCAGAAGTCGCTGATATTCTTTACAACTAATTACCCCTCTAACCCATTTT
TATGCTGGCTTCTTATTTATTTACTTGCTGTCAGAGTAGTGAGTGAGTTCCTTAGGATCCTTCAAAGTGATCAATTAGGGTATTTTTTAGTATCATTATA
AGCTCACATGTTTAAACATATTCCATGCATTTGAATCTGTTAGAGTTGTTATCCTTATTGAAAGTCAGATTGTCCTATCTTTAACCAGCAGGAGCCTATT
CGAGTTGATTTCTGGATCCTTTTGACTTGACCCTACTAGTCTTTGATAATTTCTTTGTTCTCTGGTATGACAAGATGTTCCAAGTTTATCTTGTACATTT
TCTGACCCAGACCTGGAATTAGCTAGCCATTTCCTCAGAGTCCTGGTTTCTTCTAGTAAAAGTGGTATGCCAAAATCCATGATGGGCACTAAGGGTGCTA
ATTGCTATTGCTGTTATTTTGGCCACACGCTCATTTTTTACATGGTTATAACCAACATCAGTTATCACTTTATTTTTTTTATTATAACATTGTGAATTTT
TTCACTTATATCTACATAGTATTTTTTCCAATTTTTAATTATGAAAAATTTCAGTCATACACAAAAGTAAAGAATACTGATGCACACAATTTCAAATCTT
ATCAAGATTTCATCACATTTCATCTATCTGTTTTTCTGTTTCTTTGCTGGAATATTTAAAGCAAATACTAGACATGTACATAAGTCTTATAAATATCACG
TAAGTGAATGTACCACACCTGTGTGCACATTCCCCCAGTTAAACATTTGTTACTTCCAGTTATTCACTGTTGTATACAGTGCAGGCCTGTCATGTCATAT
AGGTGGCATGTCTGAGAGTTTCACCCATGTTCATGAGCCATAACATTTAGGTGTCATTAACTATTACCACAGTTCACTGCGAAGATTTTCTCGGGTAGAC
AGCGTGTCTTTCCTTAGTGTGCATTGGAAGAACATGCCAATTGGAGTTCTGCTGACTTGCAAGAGCAGGGGAAAGTGCTAAGTTTTACGTATAGTATCAT
GAGGATTGTTGAAATGAGTTTGTTGATCTTTTCATATAATTTCCTAGAGGAAAACATTGAGTATAGGCCAGGGATGTGTGTGTGTGTGTGTGTGTAGCTA
TTCACAGGCAGGACCATAGCACACTACAGCCTCAAACTCCTGAGCTCAAGTGCTCCTCTCACTTAGCCTCCTGAATAGCTGGGACTATAGGTGCACCACT
GTGCCTGGATTTACTTTTTTGGATACCAACAGAGACTATAACTTATTGAGGCTAAAACCTGTTAGAGGTCCACTTGAAGATACTGTCATTAACAGATAGT
AAGTATCTACAGTGTACATAAGTATCTACAGTGTACATAGTATTCCCCTCAAAGTTTATAGTCTTGGTGGGGAAGCAGCTTGAATGTAGAATGTACTGCC
AGGCAGTACATACTACACAAATGACAAAGACCAGTGCCATAGGAGTCCGGAAGAGATTGGTCTAGTGTGGTCAGTGAGGTTAGTGTCATAAGACCTATGT
TTAGATTTTACTTGTGGGTAATCTGCCATTTCACCTCTGTGCCCTCATTTCCTCATATGTTCTTAGGACTAATTTCACTTGCCACCTTGTGGCAGTCTTT
CCTGCACCATCCACCTCATCAGAATGAATTATGAAGCTCCTTCCTCTAGTTCACCTGTGTCACCGTCAGGCCTTAGTACCACTCAGTAACTGTTGGTTTA
CGCTGTGCTTCCCCTAAAATGGTAGCTTTTCCAATGCACCATGCCCTTTGTTCATGTTCTTGTAGCCTTGGTACCTAAAGCACAGTAAGTTATTGGTTCA
TTAGTGCTTTATATGCTTTTAAGTTTTGAACAAATATTACTCAGGATTGGTTATATTGCCTTGGCGAAAAAAAGAGTTTGAACTGGAATTGAATTGAAAA
TGTGATTTGGTTTTGGGTTTTTTTTGTTTGTTTGTTTTGCAACAGGTTTTGGGAACTTTCATAGTATACGCTATTAAACATGGAATTTTTTTGTTAATAC
TTGTTTTATTCACAATAAAGTAATTATAAACACACATCACAAAAATAATATTAATAAATAGCACTTGTAATACTCCTGTCAAGCCTAAACATTAATATTT
TAGAGTATTTCCTAGTCTCTTTTTCCTGTATTTATATGTGCTATGTATATTTTACAAAATGAAGGTGAGGCTGTTTCACCCTTTGTGTGCTTTAAGTTAA
TATATTGAAAATATTTCCCTGGCCGGGTGCAGTGGCTCACGCCTGTGATCTCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTG
GAGAGCAGCCTGACCAACACAGAGAAATCCCATCTCTACTAAAAATACAAGATTAGTCGGGCACAGTGGCACATGCCTGTAATCTCAGCTGCTCGGGTGG
CTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCGGTGACCTGAGAGCACTCCAGCCTGGACAACAAGAGTGAAACTCTGCCTCAAAAAAAA
GAAAAAAGAAAAAATATTTCCGCATCACAAAATAGTCATCTACAACATAGGTTTTTAATGGCCACAGAGTTTCTCAAGCATGTGTAATAAGGACACTTTA
AACATATATTTGTACTGGTTCTTGCTGTTGAATTAAATTATTTTAATTATTTCTTTACCAAAATTTGTATAAACAAAAACTGTGAGGTGTAAACATGTTC
TTATAGCTCTCCCACAATTATATATGAAAACAAATTTACAAATTCAATTTAAAACTTCAGAATCCATATAATTCACGTTAACAACAGTAGATATTTTGCT
GAAACTAAATTGGTGATTCAGATGTGAATATAGCACTTCTTTGATGCCTGTCTGTCCTGTGTCCCATACTTTTTTCCTACCACATTTCTTTGTTTGAACT
ACGGTGAAACTTTGCTTTGTGTAGCAAGGCATTGGCTTTTAATTGGTATGACCACATTATTTATAAGCTGTCACCTCTGTCCTTTCTGATTAGTCATTAG
TATATGAAAATTAAGGAACTTACTACTTGATATCTGTAAGATTTTAAATGCAAATGCTGGCAATCAAGGATCAGCATTCACCTGCAAGATGATTCAGGTA
GTCGATACTATGCTTATATTTTTTAAGAAGATAATGCTTGAGTTGAAAACTCAAGATTGAAAAAAGAAATGTGTACTGGCTTTGCAGATCCCTAAGGATA
TGTTGGATGCTATTTTGAAAAATCCTCATGTAATCATAAAAAGCATGAGCTCTGAGGTTAGTCCTGGATTGGAATCCAAACTAAACCTCCCATATGCTTT
GTGGGTGTGGGCAAGTTTCTTAATCTTTCTGAGCTTTAATCTCCTAGTCTGTAAAATAGAGATAATGGCAACCTTAGCCTGTTAATTGAATAGTTTTCGC
TTAGAGGGGTGCAAACATGAACAATTGTGTTTTTCTCCAGTCAGAACTCCCAACTGCTCTGTCCAAATCTCCCTTCTCCTCTCAAGGACAGATGATACCT
TAGGCAGAGTTCACAACCTCCTGGTCACACTGGGTTACTGAAAGTTGACCATTTGAAAAGTTCAGTATATCTAATTGAAAGGTTTACTTACTCCTGTTAC
TCTAACCAGGCTTGTGGCTATTGGGATATGAAGTGGGAAAAGGTAGACTTGGTTGGTTTGTTTTTGAGATGGAGACTTGCTGTTGCCCGGGCTGGAATGC
AGTGGCATGATCTGAGCTCACTGCAACCTCTGCCCCCTGGGTTCAAGTGATTCCCCTGCCTCAGCCTTCTTTGTAGCTGTGATTACAGGCATGTGCCACC
ACACACAGCTAATTTTTGTACTTTTAGTAGAGACACGGTTTCACCGTGTTGGCCAGGATGGTCTCGAACTTCTGACCTGATGTGATCCGCCTGCCTTGGC
CTCCCAAAGTGCTGGGATTACAGGCGTGAGCCGCCGCGCCTGGCCTGGTTGATTTTTTTTACTCCTCTTCCCCATTCTTCACCTTGGAGAGTGTAGGGGT
GGGAGGAGATACAGTCTCTCTCTGATATTTCTTCCCTGGCCCTTCTGGTCTCCAGTCATTCCAGTGCCCAGTTGCCCAGTGTGTAAAATGAGCAAGAGGG
CGAGGGACAAGGATACGAGTCTCTTCACTGGCTGCTCTTGAGTCCTCCTAGATGGCATTTACAGGTTGCCTGTCTAGCACTGTCTGTGGGTCCACTCCCC
ATTGTTGTGAGTTCTTTGGAGGGTGGGCTTCCTCACCGCATGATCTCCAGACCTGGAGAAGAAACTGGTATTTAGTTCTTTTCRTCTCTTTCAGGACATC
CTCACTCTTCTCTGGTACCACCTGGCCCTGGTCCACTTGCTTATTGGGCAGCCGTTTTGGGTGGGGAACTGGCAAGAGGGCTTAAGACCAGCAATTTCTA
TGGACTGTATGACCCAGGGAAGACATATCTGTGCCAAACAGTGGGGTAACAGCAGTGCTGCTCCTTCTTGCTCAGTTTCTCCTTCCTCTGTCCAGATTGG
TGCAGGCCAAATCTGTAAGTCGACTGCCTGATCAGATATTCACAAGACATTACACTTTTTAAAAGTTATTACCCCAAACCTTTTCTTTTCTTTTTTCTTT
TTTGGTACCCCTAGTCTCTGTAACTGATGATCTTGGAGCCCACCGTGGGGTAGGGAGAGGACCACCCCAAAATACAGCACATTATAGTAGGTCAGGGAAT
CCAAGATTTCCCCTCTTATCTCTGCTCTTCTTTTGTGGACTGTGGAGGGAGAGGGACAGTGCAGGAGCACATGGTTGGGGTAGAAGATCTCATAGTATAG
CTTCTTTTTTGTTTTTTGGTGTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAATGCAGTGGCACGATCTCGGCTAACTGCAACCTCCGCC
TCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTAGAGATGCGTGCCACCACGCCCAGCAAATTTTTTATATTTTTAGTAGACA
TGGGGTTTCACCATGTTGGCCAAGATGGTCTTGATCTCTTGACCTCATGATCTGCCTGCCACGGCCTCCCAAAGTGCTGGGATTACGGGCGTGAGCCACC
ACGCCTGGCCCATAGTATGGCTTCTTAATAAATTCTTTAATTAGCCTGGCACCAGTTATTGACTGCTGTCTTTACCTTGTGGGGAACTCACCTCCTCTCT
GTCTTTAGTTGTGAGTTCTATTTACCAATTGTGGGGCAACTGAAAAAGTCACATTCAACATTCTCTTACATAACTACCTTATGGATTTCTGTGGTATTAA
ATATGATAATGCCAGGCACATTGTAAACACTCTATAAATAAGTGGTAACTGTTACAATTATTGCAGTGCCAAATTTATTTGATTCTTCTGTTCTTGGATA
TTTTAGTCCTTAACTATTTTCCGCTATTTTATAATAGATAATGCTGTGATGATCTTTAGAGCAAAGACTTTTATCCTTAGGATGAATTTCTGCAAAAGAG
GGTCTGATTCAAAGGGTATAATTATTTGTAAGGCTTTTTGATGCATCATACCAAATTGGCTCTCAGAAAGGATAGTTTTGGCTTCCCTGATTCTTCTTTG
ATATTAGACATTTTAATTTTTTAATACTTGATAATTTGATAGGTGAAAAAATAGTTGTTTTGATTTGGATTTCTTTGATTGCTACTGAGTTTGAATATAT
TTTCATGTATTATTGGCTCATATTTTAAATGACTTGTTCAAATGCAAGGTGCTTTTTGATACASTTTATTCGTGTAATTGGGAAAACTGTGTGACTTCAG
GCATTGTAATAAGGGAACTTGGAATAACTAGAGCGGGGGAATCTCCAGCAGTAGGGAGGGAAAAGATTGACCTGACCTGATGTTCCTGTTAACTCAGCAG
CTCCCTTTTGAGACCTTTGCAGTTGTGATTCCATAGATTTCCCCCAGGCAGCCTTTTGATCTTTACTCAGTTTCAAGGCCTGCCTCAAATGTCACATGGT
TTGTGATACTTCCTGATATCCTCCTGAAGGAGATTTATCTTCCCTCAACATCCTGCCTCTCTGCAGCTCCTATGATGTTGCAGCGTGACTGTGTTTTTAG
TCTCTTCTCTTAATTATGGGGACTTCTCAAGGATAGTCATCTTTCTTTTCTAACCTGGTGTTTGGCACATAGGTACAGAAGCAAGAGATAAGACGGTGGA
AAGTGTTGCAAGAAAGTAGAATAGGGTGATTAACTCCACTTGGAGTGGGGCAGTGTCAGAGGCTGCAGAGAAAATTATAATTGAGCTGGGATGTGAAGAG
TGAACAGGAGTTCATCTACAGATGGAAAAGTAACATTTCAAATAATGAGAACAGTTTAAAGGCCTAAAGATGTGAGCTCATGAATGTCGAGGTAAGGTGT
GTGGATGGAGAGGGATGAAGAACAAGGTTCAAGTGAGTCTCTCTGTTCTCCCCAGTACCCCCATCTTCATTACCTTTGCCCACCGTGGTCTCTGCTCTGT
CCAGAGTATCTTCTCTCTCCCCTGCCTCCTCAGACTCTATCGATCATTCCACAAAGTTACTGAATACCTATTATGTACTTGCATCAAGAGAAAGAGGCAA
AAATGGGTTCATGGACAACTTGGAATGGCATCATAGGAATGTTAGCCCCATCCTGAAAAGCCAAGCAGAGTAGTGCCTTACCCATATTCCTTTTCGACTG
CACTGATTGTTCCTAACAACTGAAATGTTTTCTATTGTAGCATCTGTAGATAAAATAGATAACAATCAAAAGAGTTACAGTTTATTTAGTCCCTTGTGAT
GGGACAGTGGTTTCTTTCTAACTAGGCTTAGGCAAAGAAAATACAGTTTTCTTCTTCTTCTTCTTTTTTTTTTTTGTTCGAGAAGGAGTCTTGCTCTGTC
ACCCAGGCTATGGTGCAGTGGCAGAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTACCTCAGCCTCCTGAGTAGCTGGGATT
ACAGGTGCGCACCACCACGCTCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGCTGGTCTCACTCCTGACTTCGTGATC
CGCCCACCTCGGCCTCCTAAAGTGCTGGAATTACAGGCATGAGCTACTGCACCCAGGCAGTTTTCATATTTTCTATAGCTGTCTGCTTCTCTGTCAGTTT
CCATCTTTGTTCCAGTTTCTTTGGCTTCACGATACATCTTTGGTCATGATTAAAGCATGCCCAAAAGTTAATGCCATAAGGTAACCATTTTATTTTACTC
ACAGATTGTGTGGGTCAGGAATTCAGAGAGGGCATGGCAGGAACTTGATTCTGCTCCCCAATATCTGGGGCCCCAACTGGGAAGGCTTGAATGGCTCAGA
GTGACTTGACTGCTAGGAACTGGAATCCTCCGAAAGCATCACTTACATACCTGTCACCAGGGCTGGGATGACTCAAAGGCTCTGCTCAGCTGCAGTTGTT
GATGAGAGCACCTACCAGTGGCCTTTACATGGAGCCCAGGCTTCCTCTCATGGCAGTCTCTAAGCAATCAGACTGCTTACATGGTGCTTAAGGGCTCCAA
GAGTGAATGTCTTAGTGGCCAAGATGAAGATGTCATGGCCTTTTTTAGTGACCTAGCCTTAGAAGTCACATAGTGTTACTTTGGCCATACTTCATTGATT
GAAGGAGTCACAAGTCCACTCAGATTCATGGAAAGGGAACATAGACTTCCAACCTCTTGGTAGATGGAGTATCAAAGAATTTGTGGTCATTTTAATTTTW
ATTTTATTTATTTATTTTTTAATTTAGAGACAGGGTCTCTGTCACCCAGGCTGTTGTGCAGTGGTATGATCTCGTCTCATTGCAGCCTCAACCTCCMGGG
CTCAAGCGATTCTCCCAACTCAGCCTCCTGGACAGCTGGGACCACAGGTGCATGGCACCACATCCAGCTAATTTTTCTGTATTTTGTAGAGATGGTGTTG
CACTATTTTGCCCAGGCTGGCCATTTTTTAAAACTGCCACAATAACATTTATTTTTCAGGATAAAGTCTCCTTTGAATCTTTTCAAAGGTCAGCTTCCTA
ATCAGGGCTCTTTGAGTAAATACTTCCGCTTTCATAGTACCGCCCACTTCCCTATTTCTGCTGGAAATCTTACTTGGYCAAGGCAGGGATTTCATCTGCG
TTATTGATCTCCAGATCCTCATCAATCTAGAACAGTGTCTGGCAAACCGTTGATGTTTAATACATATCACGGATTATGTAATGCTTACTATGTATCTGTG
TGAGAGAGAAGAGGATATCTACATTGGTATCTGTGGAATTTTCTACTTCAGTGTCTAATTTCTGATGTATTCCTGAGTCACCTGTTGAGACTTATTCTGT
CTTTCGGAGTGATGTGCATGAACCCATTATTGGAGGAGATCGCGGTATTGGACATCTGTCTCRAAGTCTCTATACACTGAGAACTGCTTGTCCCAACCAT
AGGCCTCTATAGGTCCACCAGTCTCTTAGCAATTTCTTTATATATATCTATATATGCTGGAGTGCAATGGCACCATCTTGACTTGCTGCAACCTCCGCCT
CCCTGGTTCAAGTGATTCTTGTGCATCAGCCTCCCGAGTAGCTAGGATTACAGGCACCTGCCACCATACTCAGCTAATTTTTATTTTCTTTTTTGTAGAT
ACGGGATCTCACTATGTTTCTCAGGCTGGTCTCAAACTCCTGGGCTCAAGTGATCCTCCTGCCTTGGCTTCCCAAAGGAACAAGTCTTTTTATGAGACTG
TTTAAGGCCTCTGTATAAGTTGGGTTGACCTAGTGAGAAATCCTTTGTTTATAGCTTGCTGGTGTGGGCTATAAAGCAATAGCCTCGCCAAGCCTGGTTT
CATTTATTTCAAACCCTTTGTAAACCAAGGGAACAGATGCAAATTATCTCCTTATTTTCATGAACTTCCATATCAAGGTTTTTTGTTAACTGAATTTGTG
ATTGGTSAGCTTTGAGCCAGTGAGTACTATTTTCTTTTGTTACTGCACGTGGCGTGTGTAGTGTTAACATAAACTGTACTCTAAAGCTGCCTGGTCCTGA
ACTACTGAATTTATGTGGTGGTAGATACAAAAGGATCTATATTATGCTGAAAAGAACAAAGTATTATCTTATCCATGTACAAAATTATTATGCAACAAAT
GCCTAAAATTCCTGCTGTGTGCAAGAACTTCAGCTAGGCATTGCGAGAGAGAAAGGTATAACAAAAGAATGATAGTAAACTGATGATATTGGTAACTTGT
GGGGATTTGACTGGCAGGGGTGGTAAAAGGGGCTTCAACTTTATGGTGTCTCAATTCTGTTTTGAAAATAACAGCTTTGTTGGGATGTAATTCACATACC
ATAAAAGTCACCATTTAAAAGTGTACATATTCAGTGTTTTCAGTATATTTATGCAGTTGTACAGCCATCACCACTATTTTCAGAACATTCTTACCTGAAA
AGAAAACCACGGCCGGGCGCGGTGGCTCACGCCTGTAATCCAGCACTTTGGGAAGCCGAGGTGGGTGGATCACCTGAGGTTGGGAGTTCGAGACCAGTCT
GACCAACATGGAGAAACCCTGTCTCTATTAAAAATACAAAAAATTAGCTGGGTGTGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAA
AAGAATCACATCAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCTTCCTGGGCAACGAGCAAAACTCTGTCTCAAAAAAAAA
AAAAAGGAAAACCACATGCTTTTCTGTCATTCTCTAAAAGAAAAGGTAGAAAAGGACATGGAGTTGTTCTTCATGTCAATCTCAGATGTTTCTCCCAAAG
TAAAATGTCATTTTTCCTGTTGTGATCTCAGAACATGTTGATTGAGACTCTATCTTGGCACTTAATACATTCTGCCAAGAAACTAGGAGCATGAATACCT
CTCCTCTGCCAGCTTAGGAGGACCCTGGGAGCAAAGACTAGGTCTTGTGCTAATTTTACCACCTGTTGAGTAAATGCTTAATATGTACTCATTAAATATC
AGTTTGAATTCTATTGACATCCTTAGACTTTTCAGGTAGATTTCTAGGAGAAAGATCTTTTCTGACCAATACATCCCTAGTTCATTTCTCCGTTGGGTGG
AGTTTCTCATTCTTCTGTTTCTACCCAAAGAAGTATGATTTAAAGTAAGGTAAGGGTTAACTTTCTTTCTCGCTCTAGTTCTCAGTCTCTTTCTCTCTCT
TTTTAACAAAACAAAAATAAGCAGGACTGATGGTGGGAATAGAATCATTGCATTTGCTTATTTTGAAGTTATGTTCTCTAAGGATATCCATAGCTCTGAG
GGCAAAAGGTTGGTAGAGAACATTTGGATAAAGACAAGAGAAATTATGTTCTGGGACTATATTGTGAGCCCCATCTATAAACAATATGATGCCAGGCACA
GTGGCTCACACCTGTAATCCCAGCTTTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGCCCACGAGTTCGAGATCAGCCTAGACAACATAGCAAGACACT
GTCTCTACAAAAAATTCTTAAAAATAGCTGGATGTGGTGGCACATCCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTAGGAGGATTGCCCAAGCCCAGG
AAGTTGAGGCTGCAGTGACGTGTGATCATGCCACTGCACTCCACCCTAGACAACAGAGCGAGACCCTGTCGCAAAAAAACAATGTGGAGGCCAGGCACAG
TGGCTCATGTTTGTGATCTTAGCACGTTGGGAGGCTGAGGCAGCTGGATCTCTTGAAGTCTGGACTTCAGGACCAGTCTGGCCAACAAGGCAAAAAAACC
CCGTCTCTACTGAAAAATAGAAAAATTAGCGGGTGTGGTGGTGCATGCCTATAGTCCCAGCTACTTGGAAGGCTGAGGCACAAGAATCGCTTGAAGCCAG
GAAACAGATTGCAGTGGGCCAAGATCGTGCCATGCACTCCAGCCTGGACTCTGTCTAAAAAAAAAAAAAATACGGAGTCATAATTTATTATGCATATTAT
ATACATATTGAGCACTTACTATATAGAGTACTGTCCTGTGCATTTCTTMTGTATTAGTTAACCTTCACTTTTATTTTCTCCATTTTGTGGATAAGAAACT
AAAGGACAGGGTATTTAGGAAAATTGSAAAAGATGTCTCCATTAGAAAATAAAAGAACCACATTTTGACCCCAAGCAATCTTCCTCTAGTGCCTGGTTGG
TGTCTCCATATAAAATAAACTGAATTTGAATCCTGGCTCTACTATTTAGTAGGAATATAGCTTTGGATAAGTCATCTAATCTCTTTGAGCCTCACTTTCT
ACATGAGGTAGTTGGCAGATTGTGAGTAAAGCTCCTTAGTCCATTGTGATTCCCTTCTGTCATTTATTTGTGGATTTTTCTTGCTAACTCTGTACAGTCT
GACAGCAGGATATGTGAGTGATGGCAGATTTCAACTATTTGTTATGTAATGATTAAGCAGTTCTACACATCCTTTTCTATCGTGTTAACAAATTTGTTTC
TCAACCCACTGAGAGACCACTGTTACTGTGGACTTAATTCTGACCCATTGGTAGAGATTTTGGTAATATAAACTTGATGAGAACTTGATAACGTGATGGT
CAGTTTAGCTTGTTAGCAGTGAAGAGCAAGAACATCGTACCCTAGACTTTAGAAATGCGTATTTCAGAAAGTGTCTGAAAACCTTGACCAATGCTAGTAC
ATCTAGAGAAGATGACAGCCCAAGGGATCATGTGGGAAGCATGCCAGATAAGGAGTAGTTGGAGCCTCAGAGGTCATACAGTGTGAGGAAAAGAAGAGTT
TTAAAAAGAAAGAAAAGAAAAAGAAGATATTCCATTGTGGGGGGCTCACACGGAATCTAAAGTAGAAGGACTGCTTCAGCCTAGCAGCTCTAGGCTACAG
TGAGCTATGACCTAGCCACTGTACTCCAGCCTGGGTGACAAAGTGAGTCCCCACCTCATTCATTGATTGATTGATTCATTCATTCATTATTTTGGTAACA
ACGTTTTGTTTAATGTCTAAATCTAACAAAACATGTCATTTTGATTTAAAAGTACAATTTTATGAAATAATAAATATATAGAAGGCTTGGCCAACATTTA
TAAACCAGATGTAAATCCGTGCCTTCCAACTTCCTTGACATCACATTGTCTCTTCGTAAGAGATAGTCACTTTGGCCAGTAGGGAAGACAGGAAAACCAA
TAACATGAGTAAACAATTTACATCTTGCCTGGCCCTGACTGCGGTCATTACTCTAAGCCACATGCCTTACTTTGCTCTGACACTTCAGGATGTTCCCTCC
TGGTATTAGCTGTGCACCAAGGCTAAGAGGTCACAGGGCCCTCCTTGCCATTCTCAATAAATCAGTTTTGGAAAACCTCCAGGCCTTCTTGCAGAGTATT
CAGGCATATAGGGTTGTAGCTGATCAGCCATAAGGACAGGCCTCCCTTTAGGCCCTGCAGCAGTGTAGCACCAGTTTGAAAGCCTCCATCCAGTGCACAT
AATGAAAGTCAGAAAAAGACCTTCATTACTTATGTGTACTTTCTACAAAGAAACAGATACCTGGATGAGGGCCAAGACTGCCTCCTTCATCATTCCATTT
TGTGTTGTCTGTGTTGACAGAGTCAGCAAGAGAAGAGATATCAAGTGCTTGCAGGGTCCCTAGGTCTGTCCTTGTAGCCAGACCTTCCCTTGCTACTTGT
AATTCCTTGACAGAAGACATTGTGGTAGTGGGTACTCAGGAAAGAAGCAACTAGAATGGGGCACTTCTCCCAGGGCAAACACTGAATCCTCTTTCTGTTA
TAAAGTTCCCTGAGTCCTGGGTTTGATTGTTCACATAGATAGAATGATAGCTATTGAAACTGTCCCTAACTTAGTAATTCTCTCTGAACTCCCTTGAGAG
GGCCCAGGTACTCTTACCTTCCATCTCTCCTGACAAAGAATAAAGAATGAGTCTAAGAGTCTTGACCATCATATATCTCAGGCACTGACTGGGGATGGGG
AAGCTTTGAATAACCAGATACATACGTATAGATAGACAGGTAAAGATATCTCATAGCTACACTTTCATTTTTTTATTAATAAAATACTAATTATGTATCA
GTCTTGTGCTAGGCATGAAAGATGCAATGCTGAATAAGACAGGTTAGATAACTTTTGTGAAGCATAATATGTACCCCTCCCAAATGTTCTGTTGATGACA
GATTCCTATCATTGGGTGCCTCATAATTTTGTATTCTTTCATCACATCTAAAATCAATCTCTACATGGTAACTTTCCTCAGTTTGGAGACATTGGACATG
CTTCCCATCTTCTGTGGAGTTTCTGGTGTCTAAGAAGGCTCAACTGCCTACTAAAGTTTCTCCTGCATATGCTACAAGTATAAGGCTGCTCACCTGTGTG
AGTTCTCTGGTATTTAATAAGGTTGGATTTGTGAATGAATATTTTCCCACATTCATGACATTTAAAGGGCTTCTCTCCTGTGTGAATTCTTTGGTGTGTT
TGTAGATTTGTGTCATAACTAATGCTTTTCCCATACCATGAGCATCTATATGGGTTTATTCCTTGATGTGTCATGAAGTGCTTATTAAGACCTGAACTCC
ATCTAAACCTCCTGTCACATTGTTGACATTTATAGAGTTTCTCTTCAGTGTGAATTCTCTGGTGCTTAATAAGATCTGAGCTAACTCTGAAGATTTTCCC
ACAGTCCTGACATTTAAAAGGTTTCTCTCCTGTGTGGCCTTTCCCGTGAAGATCCATAAGTTTTGGAAGCTCTTGTTTACAAGTTGTAAGTTTCTTTTCT
TCCTTGGAAAAGCTTGATGCCATTTCTATACCCTGTGTGTATCACCATGATTTTCCCTGTCCTTTGTTTTCTGGGCAATTTTCATTCTGGTCTTTTTTGA
TACTTTGTATCCTGCTGTTTGTATTTCAGGTGCAGAAACCGATATTATAGGATAGTCATTTCCATTGTCATTTTTTAGCTTTAACCCTAGAGAGATGGCA
GTCTCATAGATATCCTGCATTACATCATTGTAGAGAGTCTTCTCAAGAGGACCTAATAATTGCCATTCTTCCTCAGAGAAGTACACAGCCATGTCTTCAA
ATGTCAATAAACTCTGGGACTCAGGCCAGATGAGCTTAGGTGCCATCTTCCAGTCTTTGGTGCTTTTGTGCTCAGAAAGGGCTAAAATCTGTTGAACATG
CACAGCTCTTTCATATACAGGCTGGGTTTCTTTCTGAGTATTCCAGCCCAGCTGTTCTTGTAGTACCCTGTATGTGTTCCAGTATTCTTTCTAGAACAGA
CCCATTGGTTCGAGCTCTGCTGGCTTCCACTTGAAGCCTGGGGCCACTGTTGTTCCTCTCAAGAGCACTGCCTCCTCTCCCAGCTCATGGGCTGTGACCT
CATTCTTTGTTCCACCAGGTTCTCTCTGCAAGCGTTCCACCAGGACCAGGGCCTGTTTGGCAAGCTGTGGATGATGCTTCTGCACCCAGTTCTGGGTCCC
CTTTGGCAGGATGGTCAGGAAGTGCTCTAGTACCAGCATTTCCAAAATGTGCTTTTTTGAGTGGATCTCTGGCCTCAGCCACTGATGGCACAATTTCTGA
AGTTGGTTGATAGCCTCAAGCGGTTCAGTTGCTTCATGATAATGGAAGCTCCGGAAGTGCCTGCAAGCACTCCCAGGACTGAGACACTCGATTTGTGTGC
TGTATTTCTTACTCTGACTGGAGTTCTCTTTCACAGACCTGTTGGTCTCCCACATAGCTCCCATATGAGAGTTCAAGCATGCATCTGCCTTCAGCTCTCT
CATTATCATTTGCTCTAGGAAGAGTTTTACTCCTGTGTGTGACATTCACACCCATCTGGTGCCACCTTTGAGGTGCATCAGGTTTGGTACATTTTGGTAC
AAAATGAGAGTGCAGGTTTGGTACAAAATCAATGAATAGATCTTCCCAAGAACACTTCAGTCAGCTCTGGCTTCCCTGGAGGCCCCTTTCCTCTTTCTTT
GCTCAACTATGCCTCTGTCGCCACGCTGCTGCTCTGGGCAGTGAAGCTCTCTGCTCCTGCACCACTGAAAAGCAATGTCAGGAAAGCCAGCAATGTCACG
AAAGCCCGCAATGCCTGGCGAGTAAAGTTCCAAGATTTTGGGAGCCTTGGAAAGGGCCTTGGAAGATCATTTCTCCCATTCAATCCCTCCACCTCCCAGA
GACCTTACCCTGACTCACTACTCCTGGGACGAGGTCTGTGGCCATTCATTTAATTAATTGAGACACGGTCTGGCTCTGTTGCCCAGACTGGAGTGCAGGG
GCATGATCTCAGCTTACTGCAACCTCTGCCTCCTGGGCTGAAGCCATCCTCCCACCTCAGCCTCTCGAGTAGCTGGCATTACAGGCGCACACCACCACAC
CTGGCTAATTTTTGTAWTTTTTTTTTTTTTTTTTTGGAGAGACAGRGTTTTGCCATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAATGATTTTGT
CCACCTCGCCTCCCAAAGTATTAGGATTACATACGTGAGCCACCACACACGGCTGAGACCCCACGTCTTAAAAAAAAAGAAAAAGACATTGTCGTAGCTA
TGCCATTCCTTGTGTTTCAGTGTTTGAATTAATGAATTTTTTATCTTATGCCTACTTTTCATGGAAATGGTAGTATTCTCTACTTGCCAGTCATGACTTG
CAGCCTTTTCTGGAAGATTATTTCATTTCTGTTTTTTCTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGTCTGGAGTGCAATGGCATGGTCTCAGCT
CACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGTGCCACCATGCCCAGCTAATTTTGT
GTTACTGGTAGAGACAAGGTTTTGCCATGTTGGTCAGGCTCGTCTTGAATTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCCAGGATT
ACAGGCGTGAGCCACCACACCCGGCTGGAAGACTGTTTCTAAAGTCAGACAAAGGATAGACTAAATGTGTTTTCTGAGAAACGTTAGTCTAGGGAATCTG
AGAGGCCAGAACCTCTATCATGAGTAAAAGAATCATGGCTCATAATCTCTAGTTTTCATCTCATACTGTTGACTTCTAATCGAGTTCCTTGTTTTAGTAA
CAAATAAAATAAATGTTTTCTGCTCTCAAATCTACAGGGACTTTATTAAAATTGGAGGAACAACATTTGACAGTCTTTTGAACGTTTAGAAAAATAGGAT
TTATTGTGGCTAAGTCTAAAAGGTCTCATGATTACAATTGACTGAAAAGGAAGGAATGCATTGCTTTCCATGCGTGGTGACTTAATTTTATGTGCAGTAC
TATGCAATACACAGAGACTTACCTAACTGCTGTTCTTGGAGGGTCTATTAGGCATTAAAGTGTAAGTATCCCTATTGTTATTTACACTAGGAAAAAAAGC
ATACCTCAGGTCTTTGAGAATCCAGGAAAGCTTTGTTTTAGAATATTGCTCCAGCACTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCG
ACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAATAATAATAAAAAAAAGAATATTGCTCCAGCAGAAGGGGGGGCCAAGGAATTGTAGGCTTTTATTGAG
TGCCTACAGGATGCCTCTCACTGGGGATGTAAATGATACAGTCCTTGGCCTTCAGGAGCCAGGTGTAGAAGGAAATCAATCAACGGTTAACTGAGAGCCA
CTGAGATGCTGCAATTCCGACATAAACAAAGTGCCATGAGAGCACAGAGGAGGGTACAGCTAATTGATTGGGAATATTCAGAGAAGGCTTCAGGGCTTGG
TTCCATCAGCCAGGTCTGGAGGGATCAGTAAAACTTGGACTAGAAGAAGAGAACAAAGGTCTTTTAGCCAAAGGGAACAACTTGTAAAACTTGTTACTGA
CACGCTGGAATGATGAGAATGGAGCTGATATATGAGAAGTGGTGGGATTAGCATGGCCAAGTTATGAAGATTCTCATATGCTAAGGAGTTAGAGCTCTTA
TTCTTTAAGCAGCAAGGAACTGCGAAGTTAAGTGTGTAGGTTTTAATGGCCTGACCTCACATATGTGATACAGCCACCTCTGGTTCTCTGATTAAATAAT
TTGAGAAACAATCCATACTATATTTCTTTTTCATGGTGACTCTATATGTACATAACTACATTGGAGGCTCTGAAATGATAAACTCATTTAATGTGCTTAA
CACAGGGTCAAATGTGCTCAAACATGGAACCTTTTTTTTTTTATCTATTTACCTTTTAGTTTTTAGTAACATGTTTAGGAGATCTGATATAGGGAAAGGA
GGAAGAGGGAGAAACAGGCTTCTAGGGAAATAAAAGAAGAACCTTTTTTACCAGTCTAGCAGTATTTGGCTGTAGCAGGTGGGAGGAGGAAGAGCCATTT
CTTAAATCTAAAGACAGCTCTGTACTGGGAGTGAGGAGGTCTAAGTTCTTACTCTGCCTTAGCTGTTAAATAAGCTGTGTGCCCTTGGCTAGTTCACTAC
TTTTTTGAGACTCATCTCTCAAGACACAGATAAATACTGCTTGACCACAGGTTAGTTGGAGTCTGTGTTAAGTGCTTTATATGTATTAGCTCATTAAATC
CTCAAATCAAACCTAAAGTTAGATTCCCATTTCAAAGATAAGAAAAGTGAGGAATTGAGAGATTAAAGAAGCTATTCAAGACCACCTTCTAGTAAATGAG
ATGGATGGGAGATGGGACATTTTCAGTGGAAGAAACAACTTAAAGGCACAGAAGTGAAAAGGAGCAGGTGATCTTCAAGGAATAATGTGTATAATTTGGT
ATTGTCAACCTTAAATAGTGAGATTCAGAAAATACGATTAAGTAGAGTCTATTTGAGTACAAAGCTTAAGTATGGCCACCTGGGAGACACTGACTCCAAA
TGAATGGGGTCAGAGTTTCAAAGTAGAGAAGATAAGGTTTCACTTACATAGGCAGAGACACAGAAATTTTAACAGGATTACAACATTTCCCATACAAGAC
CAGTGCATACGTTACAGTGATTTGACTGGTTACAGATTCCTACATTCCAAGGAAGATTACTCCATGAGGAGGGACAACGTTCTGAGATGGTCTTATCTCT
GGCGCCATTTGGTCTTAATTACGGGGTGGGGGGTTTGGGGGTGGGGAATGGGGGCAGAAGTTGCAGCTGCATGACATGTGACTCAGGCTGCATAGCCACA
TTCCTCCCAAGGCTCCGAATAATTTAAAGTTCCAATAGCTTTCAGTTTGAATTATTTAATTTCACAGTGTGTAGTGGACTTGGAAGTGTGATAGGAGACA
AGAGTGGAAAATGTAGATTTAGGCAATGTTATAGAGGCCTTTGAATGCTGTGTTTTATTTGCATTTTATTCTACAGCTATTAGGGAGTCTTTGTCATCCC
AATTTTCAAATGAGGCCTTAGAAATGTTCTCATTCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCRGATCACGCGGTCAAGAGATTGAGACCATC
CTGGCCAACGTGGTGAAACCCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCACGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGC
AGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCACACCACTGCATTTCAGCCTGGCGACAGAGCGAGACTTCGTCTCAAAAAAAAAA
AAAAGTTCTCATTCAATGTCATTCACAATTATTTTATATTCCACTAAGCAGGGGAATAAATACCTTATTGAAAGAGTGCTTGTAGACTTATGCGGACATG
GATTTATAGTCCGKCACTCTCTTGCATACACAAAAAAGAAAAGTATAAATGAAACATTGGTAAAGAAATTTCTAAAACTACTTCATAATCAATTCTAGCT
TTCAATCACTTTTTAATTCATTGTCCATATTTGCCTACATAATAACTGCCCTGCATGCCATCAAGAGTATTGATGGTGCAACATTTCTTAAAAATGATTC
AACATTGTCTTCAAATTTTTCTTTCAGGTTACTGACACGTATTTTGCAAGTTTCAACTTTGGCACTTTCTTGGTCTTACTAGAAGATCTTAGCAAAAAGT
CTCACAACTACTGAAATTCATGTTTCTCCTTAAAATGGCCCTTGATTTATTTGTTCAGGGTTGTATTTGTTCAGTCACAATGACAGACATGACAACCAAG
TACACTCTTGTGCAGGCAATGACAGCTGTGTCCTGACTGCAGCTTAACTGTAAGACACTCTCAACAGTAGGAAACATTCTGATTTTGATGTTAAAATAGA
ACTGAATTTGAATTAATGAAATATAGTAGCTTGTTGAAAATCATAGGATGGTGAAGGTATCAGGACCCATTTGCTCACTGTTATCAGTCCAGCCAGTAGG
AAATCTGTCTTGTCGGTCAACTGTGTGAGAAAACCCTTTCCTAAAAAGAAGCTTTACCTTATCTATTTCCCTGTTATTTTGAATTTACACTTACTAAGGA
GGAAACCAAGGCAAGAAAGACAGCCAAGGACATTTTAATTGACTCAAGAGATACTTACTTTTAACCAAGTCTTTTATGTTCTGGAAAGTGCCTTGAGATC
TTTTAATAATCTTGCCAAATCAGCATTTCAATTTGGTACTCAGGATGAGTGATTAGAAGTCATGACAAATCAGCTAGCTTCTCTGTGGAGAATAGCTGAA
GCCTCTGGAGAACCACAGTCTTAAATTAGTCTGAAGAAGCGTGAGGTCACAACAGGAAGTAATGTGAACAGGAGGAGTTACTGATCAGATGGTTCAGAGA
GCTGGATGATCTTAATAACTTGATTCCAATTTTCCTTGTATGTAACGAACACTTATTGATTGCTTCTCTTAAATTCATCTCCTTTCTCCTTCCTTGCAAC
ACCTTAATTTGTGTTCAGACATCTGTGTGATTCTGGGGAAGCTGGCTCCATCTATCCTAAGCTTCAGGTTTGGCTAGTTAGCACATTGCATTCCCTCAGC
CACCATGATTATTTTGGATTGGGCATGTGATCTAAGCAGGTATAGTCTGAGTGTATTCTAGTTGGTATGGTAAGTGGATATAAGGCCTCTATTCTGCCAT
ATGATTTGGTTAAATATAAGAAGTGTCTATGGGGCACAGTGGCTCGTGGTTATAATCCCAACTACTTGGGAGATGGAGGCAGGAGGATTGCTTGAGGCCA
GGAGTTCAAGACAAGCCTGAGCATTAAGACTCCTGTTTCAAAGAAACAAAACAAAAGAACAAAAAGAAAAAAGTGACTATGAATCCTGTACTCTGATCCT
AGGCTTACAAAGAAGTTCACACCATCACAGATATGCAGTCAGGGTGAAGGGAGAAAGAGAGAACCAATGCCTTCACATCAGGGTTGCTATGAGAATTGAA
TGGGATCTTGACTGTAAAGCACCTTGCAGAAAAGTCTGACATAAAATATAAATTCATGTTTTAAGGACTTTTGGAATTGCTAATGACAAAAACCAACTCA
GGTAAATTTAAGCAAGAAATAGAAATGTAATGGTATGATAATAAGGAAGCTCAGAAAATGGAAGAAAATTTTCTAGATACCAGGCGACCTTGGGCACACA
ATCATATTTTAATGGCCCAAGGGCGCTCATTGTATCTCATACTGCTTGTCTGTGTTTGGCTTTCTTTTTTCCTGTAGGCAAGCTGTCTATAGGTGATAAG
AAAGGAGATCACTGGCAACCCTCAGTCCTCTCATCTCTGTAACCTAAAAGGCAAGGTCCTTACTTTTAGAACTCCAAATTTAAAATCCTAGGGAAGGATA
CTGACAGTTGGGGCCATAATTCTACCCCTGGACTGAGCCATTATGGCCAGGGAATTGGAAACTACGGTAGTCAGACTAGAGCTACCTGTGCCTCACCTGA
CACTCACGTGGTAGGTGTGGAGAGGGATGAGTGACAGCTTCGCTCAGAATCATGTTTGCATCTCGTGGAAAGCAATTTCCTCCATGAGAAAGGGAAGCAG
TGCTGGATAGTAAAACAAGTATCCAGTTATTCAGTACTTGCTTTTTGTCTGAAGCAGATTCATCCTCCTTATCTCTGGCAGGGTGGAGGGAAAATAAGAA
AGTAGGAGAGAGAGTGAAGTGTAAATTTTATTGTGTACTTAACTACGTAGTAAGTAAACTTTGCAGGTATGAGCCGATTGCATCTCATTTAATCTTTGCT
ACAATACTGTGCGATAGATAATATTCTCATGTCAGCCAGAAACAAGCTCAAGTTAAGAAACTAGCCCAGGACCATATAAAGCTGAGTCCACTTGTCTCCA
AAGCATAATAGGCTTTTCTGCTGCTACCACGTTCTTCAAAATAAAGTGAGTTAAACTTGCCTGGTCAACATGCCGGTCCCCTGTACTCCCTGCTACCGAC
TCAATGTTTGTGTCCCCCCAAAACCATGTATTGAAATTCTGATCCCCAGTGTGATAGAATTTGGAGATGGGGCCTTTGGGAAAATTGAGTCATGAGAGTA
GAGCCCTCATGATGGGATTAGTGTCTTTATAAGAAGTGAACACACACAAGAGAACTTCCATCCAGTCGCCTTTTTCTGCCATGTGAGGACACAGCAAGAA
GGCAGCCCTCTGTAAAGCTGGAAAAGGGCCGTCACCAGACACTGGACCTACTAGTTCCTTCATCCTGGACTTCCCAGCCTCCAGAACTGTGAGAAATGTC
TGTGTATTAGGCTGTTCTTGCAGTGCTAGAAATAAATACCTGAGACTGGATAATTTAAAATGAAAATAGATTTAATTGGTTTACAGTTCTGCAGGCTTTA
CCAGAAGCATGTTGCTGGCATCTGCTCAGCTTCTGGTGAAGCCTCAGGGAGCTTTCAGTCATGGCAGGAGATGAAAGGGGAAGAGGCACATCACACAGCG
AAAGCAGGGGCAAGCTTGAGAGAGTCGGGGTGGCAGGAGGTGCCATACACTTTTAAATGAACAGCTCTTACAAGACTCACAGCACCAAGCCATGAGGGAT
CCACTCCCATGATCTAAACACCTTCCACCAAGCCCCACCTCCCGTACTAAGGATTACAATTCAGCATGAGATTTGGGCGGGGACAAATATCCCAACTGTC
AGTCTGTTGTTTAAGTCACCTAGTCTATGGTAATTTGTTATAGCAGCCCAGGCTGATTAAGACACTTCCCTAGTCACAGTCTCGGTGCCCCCCTCCAACT
CTCCCTCATCATGAGCCTAGATTAGAACTTGAAACCTAGGTTGTCCAGACTTTTATGGTTATTCTTGCCTTATCCTACAGTAAACAAAGGATGTATTCCC
CAACTTTTAATCAGAACAGAATGTGTGAAAACACATTTCCAAGTTTCACATATACTGAACACAACCTTTTACTTAAAAGATGAAAAAGCTGTAGCAAGAG
CTGGCTGGTCTGTATTTGAATCCCATTACTTACTAACTAGGCAAGTATTCTGTGTCTCAATTTTTTCATCCTTAAAGTGAGGCTAATGATGGAACCTATC
TCATAGGGCTTGTTGTGAAGATTGAGTGAGTTAATACATAAAGTGCTTAGAATAGTATCTGGTACACAGCAAGTACTGTCTCAGTGTTAGCTCTTTATTA
GAAGTATTGTTATTCATCATTAATGGGCTCTTCTTATTAATGCCAAAACAGGCAGACTTTGCTTAGGGAATCTTCATTTTGCTCCTTGAGTTCACATCTG
GGATGTAGGTACTTAGCTCTCAAAGAGAGCTGACTACAATCTAAGGCAAAAATAAACTATTTGTAGTCCAGGAAGTTCTAAGGAAGAAACAGTCTCCCTG
CCTATCTGGTCCTGTTCGTATACATATGATTAACATTTCCCCCATATTTCCCCTCTAATTATACTTACGTTCTGATCTTTTGCACATGCAAGTTTAAATA
AACTTCCCTCTGTTAGACTATGGGAAACAGTTAAATCTGGAATGCACAGAGCTGCTGTATCCAAAGTACTGCAGGTGATTTGGCAGAAGGGTGGTATAAG
GAGTAGGATGGTCTGAGCACATCTGGCAGGCACCAGAAGCCAATGGAGAGTCTGTGTATGAAGCTTCTGAATGAAATGGAATATAGTTTCCTCTGTGAGG
AGCTAGGACAACGTGGTCCCCAAGGAAAATCTGAAGAGCACTCTGTAACTTATTAGTCAGTGAGTCAAAGAGGGAAAATGGAAGGCTATATCACTGACTA
TGTAAGCTTTATAAATTTTGAGGTGTTCGGGCCTTTTCTCTGCCTCTCTAGTTCAGCTCAGATTACTACCTGATTCTAGAATGGGATCTAAAACTCAGTT
GTAATGGGTAAATCTCAAGATGTATCCATTTACTTCTATATCAGTGGGCATATTGGGAACTATACCTCTAGATTGCTGATCAGTTGATGTATCTGTCTCT
AATTTTACCATATATTTGCTGTACCAATAAATGCCTTTTTAATGTTAAACATTTTCCAACAAATATTTCCACCATGTCTTTGCCACTGAAAAGACATTTT
ATATCAGGAAGAGCCTTAGATTTTTCAAACTGTGTATGGATCAAAAAGTACTTTAATTAAGCTGTGCCCAGACTAAAAAAAATACAAACAAAAAAACCCC
ATTTCAAAATGAAAGTGAATAGTTGTGGCCTTTGATTTTAAAAAATCTCACAAGATAGACTGAGACTATTTTGTAGTAGTAGTAGTTTAATTCAAATACC
CAAATATTAGCAGGGCATAGTGGCATGCATCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCGGGAGGATTGCTTGAGCCCAGGAGTTCTAGGCTGCAGTG
AGCTATGATTGTGCAATTGCACTCTAGTGTGGGTGACAGAGCAAGACCCTGCCTCTAAAGAAAATACAAAATAAATAAACGAAATATACAAAGATTGCAA
AGTGTGCAGTTTGTGGTCTTCCCTTTACCAATGTACCTGTGTGTGAAATAGAATTTTCRTTACATGCTACAATTAAAATAATATTTCAATAGACTTGATG
CTGTTCTTGATTTGAAGATCCAATTTAGCAACTGCATTCTGGCATTTATTCCCCTCCTTACCCATCCACCTTGTTTTATGCATAGAATAAACCCATAAAA
TRTTCTTTCTTAGTTCTTAGTTTCCTGGTGTGTCTATCCACCCATTAGAATAATGGGTCTGTCTTTTACATTTCTGTAAAACTGTGTGCCATTATATTAC
TTACTAAATTGTATTTTAATTTAATGTATATAATTTCTGTCCAACTCCAATAAAATATCAAACCCTTAAAGATAGGGATAGTATTCATCTTTGTATTTTT
AGCATTCAGCRTAATGACCAGCATATAATAGACATTCTGCAAATATTTGAATCATTATTTTATACATTAAGAAATGGATGATGAGTAAGGTGTAACAACT
TCACTAACTTATCTAGTCAGTAGCAGAATTGGCACTAGGACTAGACCCCGGGACTTCAGGTTCCCCCCCGGGTAACCCCCAAGTCTTTCCTTTGTTGTAG
GGGTTTGTTGACATGGACAATAAGGTCCTACATAGACATAGTTTTATAATGAGTTCAGAAATGGCTCGACAAAAGTGAAACCTGTGACAAATACCGGATT
ATTTGTATTGTAGACCTTGGTCTTRATAATTTTGTTTTTCTTCGAGGGTTGATGGCAGGTCATGAGATTTGAGAGACACACACAGTAGTCAACTGTATGG
AAAATACTGAGGAAGTGTGTTTTCGGATTACAAAACTAAACTGGGATCAACTTGGACTTTTTCAGTCAAGCTGTTAGAATGTGTGTCTAAAGTTGGCCTG
CTTATCATGTGTTATAATATAATATTGGTTTGGTCAGACCCTCTGATTTGTCAAATCCTTGCCAAAAATGGGTCCCATAGAAGGCAACCTGGGATTAGAA
TGCTTTTCAATGTAAAGTCTCAGGTTTCCAGGGTAAACCATCTTCACTTAGCAGAACTAATTCCTTTAACAAGCATTTGTTGATTCCAACTGTGTGTCRG
GTACTGTGCTAGCCTGGAGCAGCAAAGAAGGATAAAAAGAACCTTGTTTTAGAGGAGCTATTAAGTCAGATTCTGTCCCCAAACTGAACAGCTACACAAA
GAGGTGATTTCTGTTTGAGGGGTTTGTGTGATCATCTAACAACAAAGGAGCTGGGAACCAAGAAAGTTGGGTCAATAATAACAATGACTACATTAATCCA
GTATCATGCCAGGTTCTATTCTAAGCAATTTACATGTATTACTTAAGTATTTGTTTACATTTGCGGAAGTTTTCCTTGTCCCGGGCCCATTCAATGTGTT
ATTTTTATCTCTACGTTTAGAAACTTTGACCTTTTTTGTTTTGTGGCTTGTCCCTTATTTGATTTAAAAAGTCATTATATGGCCAGGCGTGGTGGCTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGTAGTCCAAGACCAGCCTGACCAGCAAGGAGAAACTCCCATCTCTAC
TAAAATACAAAATTAGCCGGGTGTGGTGATGCATGCCTGTAATCCCAGCTACTCCAGAGGCTGAGGCAGGAGAATCGCTTTAACCCTGAGGCGGAGGTTG
CAGTGAGCTGAGATTCCGCCATTGCACTCCAGCCTGGGCAACAAAAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAGTCATTATAATCACCTAGTAG
CTTTAGATATGACTCTATATATAATGTATAGAACAGAGAAGAGTTGTTTGCTCCATAAACATGTACAATTATTTGTCAAAAGAGAAATACAAGTTATTCA
TATTAGTATTCACAGTCTTCCCTTTAGTTTCTCACCGACTCAGTGTATCTACCAAGATTCCCTTGGTAATATCTGTCCCTCAGGTAGTCTGCTTGCCCAG
TGGTAAGTCTTTCTAGGGTGGAAGGATTCTTTCTTACTGGGTCTTCTTCCAGGACTCTACTTCTTTCTAATAGGCTGAATGGAGCGAAAATGTAAAAATA
GGGAAGACACGCTGAATCTTCTTAATAAAGAATTTTTAAGATAAAGGGGAAAGGGGAGAATGCAAATTTGAAACTGGTTTTGAAGGTTGGGAGTGGGGTA
GGTTGGTGAATGAGAGACCCTTGAGCAACTATATTATATGAGAGAATTGATTAAGAGATAAAAAGTGTGTTACGATTTTGATTTCTTCTCGTATCCATTG
AGGAAAGCATGTAAAGACTGGAATTACTGTTTTTTCACTTTTGATTGTTGGACTTTCTACCCAGGACAGCCACTTAGATTGCTGGGGTTTATTCAGGTTA
TACATACCATGCCTCTCTATTTTAACTGGCTTTTTGTCCCTTTCCTTGCTCAGCAGTTTTTCTGCAAGTAGCTGATAAATCAGGAATTCTTAAATTCTTT
TAAAGGGTTTTTCCTGAAAGATAAGTTTTTTTAGAGAAGTAGAGTGGGCCTAGGGAATAATACCAACCTTAGATGTGGAACCTCTAGGGGCTGGTCAAAT
GTATTTGGCACACTTACTCTTTACTATGTCATCAACAAGACTTGGATGTCTTTCCTATTTACTGCCTTTGTCGTTGGAGCTACGATTCACATCTGTTCCA
GAGGTCATGGAAACTCTTCATCTCTCAGCATTTCTAGTGGGTATCCTTGGCAGGCTTAAAGCAGAGTCAGGAGGGTGAGAGCTCAGAGAGAGGCTAAGGT
GAAAGCACTTTGTAAACTTATAGAGGATGGTATTTTGTACAAAGCCTGGCACACAGCAGACATTCAGTAAAAATGCATAGAATTAAAAGAAAAGGAAAAA
AAGCAGATACCTTTTACTCATAGCAGTAATCTCTCTTCTGCTCCCCCTACCTTGGTCAGGATAAGAGTGCCTTGTGACATGGATTAACACCATACGAGTA
ATAGTTTATATTATTTAATCTCATTTCTTAAACTAGCCCTACAAAATATAGTATGATTTTGATTTTATGTTTATGGGAATGAAGGTTTTAGAGGGTCTAT
GTCACTTGCCCAAATATTACCCTTGTAATAAGAGATGGAACTGGGATTGGAATGTAAATGTGTCTAGCTTCAAAACCTTTTATTTATTTTTTTTCTACCT
TTCTGGCCGGTACAGCTGTCAGACTATGTTTAGAAGTCTCATGGGTCCTTCAAGTGACTTTACTAATGGTCTTATGAAAAGCTGTCTCCCCTGAGAATTG
GTGTTTGACGTTCTTGGTTCATTCAGCAAATGTGTGCTTAGCCCCAGCTATAAGCATGAACTGTACTAGACAGCAAAGGTGGACACCAAAGAAATAATCC
CATCCTCATGGAGCTGCCAGTGTAGTGAGTGATCATAAATATAAACAATGTTGGGCAGAGTGATGTTAGCAGTATAACGTGAGGTTGTCCTGGAGGAACA
CGGAAGAGGGATTGAATGAGGGAAGGAAAAGAATCAGCCCCTCTTATGTAAGAGGCAGCACTATGTCTGCCAGAGCCTAACATCTCTTTTAGCCACCTTA
GCTCATTTAATCTTCACTATAACCATGTAATATCCTGATTATACAGATCAGCAACCTACTTGGCGTTTCACAACAAGGAGCAGATGGATAGGATTTTCAA
TCTCAGAACTGTCTGGCTGCAAGTCCCTGCCCTTTTCATTAGACTACTGAGTATAGACTAAGTATAGGTTTTTCCTAATGTATGTTTTTTAAATACATGA
TAGTTAAAGTTCTATTCTGTATACAAGGGTATGCGTTGTGTGAGACTCAGTGTGTCTATCGAGATGCCCTTGGTTCTGTCTGCACCTCAGGCAGTCTGCT
TGCTCAGTGGTGAGTCTTCAGATGTTGCTGCTTTTGCCACGTTTTCTAACAGTGCTGGCTGTCTCATCTTCCCTCTGTGAGGGTGGGGCTCTGGTTTGGT
CTCTGTTAAGTCCATTGTGGAGAGAACTACAGCAACTCATGTGCCTAAGCCCCATTTGGCCAGACCCTGGCCTCTCCTACCACTTTCAAGTTCAAACGTG
GGGTGTGTTCTTCCCCAGTGACTGTCCAGAGTGGCTGGGTAAACACAGCCTGGAAGTAGGGAGTGAGGGCAGTTGACATCACTGACCAGAGCAGTTGGAA
GCTGGAGAAGGGAAGGAGCCAGCAGACAAATTGCTTCGTGTCTGCCTGCCTTTCTCCTCCATTTACCCCTTACACACACACACACACACACATACACACA
CACACGCACACACACATACAATATTAGTAGTTCCATACAACCCATCCTGTAACCTTCTAAATGAGCAGTTGTCTGTGTTTTCATGCTAAGCCGTAGCGGG
TTTGTTGATGCATATAGCCTTGGTTTCCTTTCCCTCCTATTCTTTCCTACCAGTCTTTCCCCACTCTCTGCTCTGAGATTGCAACACATGATAAACAGGT
AAGCTTTGCTCCAGACTGTTTTCTAGAACCTGGGCACAATAGTAGTCAATAAAAAACATCTTGCCCATCACAGACCCTTGCCCTGTTTGCCCTGTTTTAT
ACCTTGTTATTTTTCACTTAGCATAAATCAGGTAATATTTGAATACTACCATATGATTAATGTGCACCAAAATCCTGTGAGATAAAATAAACCATGAGTG
TAGTTCCGTATTTGCATATATAGGTCAATTGTATTTTCTTTTCTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGT
GGCGGGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACTACG
CCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCC
CAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCAGTATTTTCTTTTTTAAAGGAAAGATTATTGCTTTTGTTAAAATGGTACATGTTCGTTA
TAAATCAAGAAATGCTAAAACAAACAAACAAAAAACCCCACGCCAGATGCCATCATCTGGTGATAACCTTTAGGTGAATAACGTTCTGGGGGCGCTCATG
AAGCTCAGCTTTTCTCATTATCTTTATAGTAGTGTCCGAGTATACTACTGTAATTTAACCAACCTGACCAGTTGATAAGCAGTTACAGTATTTTATTTAC
TTAAAAAATGTGCTGAAATGACCATCCTTATAAATGCCTTTGGATTTTTTAAACTTGTTGGTATGTAAGATATATTTCTCCCCCTGAAAATTTTTATTCA
GATACTACCTTGTGACCAACACACCTGTTTTGCAGATGAAAGACTCTGGGCCAAAGCAAAACTAATAGCAAGATAATCTGCCCTTAGGCGACTCTTCTAA
TGAGAAAGAATGGGAACACAAAACACTGTATAAGGGATGCAAGTTTCACATCCCAGATTTTGGTAACCAAAAGAAACCATAGGCCACACAGCTGATCAGA
GGTATATTTGAGCTATTCCATTACATTTTAGATTTTAACTTTGCTACAGTAAGTCATGGCTCAAATACAGTAGAGGCACTGATTGATCATTAAGTTTATA
TACACTGTAAACTAACCCAGTTAAAAGGCAACAGCACCATATTTTGAAGACAGGGTGACCAAGTTTCTAATGCAATGATTGCCATTGATTAATACAATGA
ACTGGAGACCAGCAGGGATGATAAATTTTCCTGGCATTGAGAATTACTTATCTGACTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCTGTCACTCTGTC
ACCCAGGCTGGAGTGCAGTGGTACAATCATTGCTCACTGCAGCCTTGACCTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACT
ACAGGCACATGCCACCATGCCCGTAAATATAAATTTATTTAATAAGTAAATTTATTAATTTTAAACAAATTAAAAAATTTTTTAATTTTTAAAAAATTTG
TTTGTAGCGATGGGGTCTCGCTGTGTTTCCCAGGCTGGTCTCAAACTCCTAGCCTCAAGCAATTCTCCCACCTCAGCCTCCCAAAGTGCTGGGGTTATAG
GCATGAGCCGCCATGCCTGGACTTATCTGACTTTAAAGATGCTTTTCTGGGGTCTGAAGTTGAAGATTTAAACCTATAGAGTTTATTTTTGCTGTCTTGT
CTTTTTTTTTTCAGTTTGTTAACATGCTGTGTAGTTCTGTTACAAACATATGTAGTGAAAGACCAGCTTTTATTAGGGTTAATTGTTCCTTTTCTCATTT
GGTATGCACTAGTATTTAGTGAAATTCTTCCTTCGTGTAGTATGCTTTGTTTCTATTTTTATTAAAACATTTGTTTGTATTGTGACTATTTGTGTAGTAA
TTTATATATTTAATTTGTAGCTTGCTTTTCAGCCATCAGTACTGTATTTCAGTGACTTCTGCACAAACGTGATTTAACTATAGGAAATTTTTTTGTCCAG
GATAATTTACATAAAGTCCCTCACTTGAGAATTTCAGGTGACAGAAGTTTACTATATTTCTAAATAGCAAGCCTATTATAGAGTAGATCAGAATTAATCA
TATTCATGAACAGTATTAATCTGTTGAATAATCAAACCATCAAGGCAGATGCATTGGTTGAGTTGCTGTTCATGGACTTCCTGGTTGAACAAAATGGTCT
TGCCATTCTTAGCAAAGAAATACCTCAGCATGTGGCAACTCATGGATGTGGCCAGTAAGTGCTGTGAGAAGTGAACAAAGAATAGAAAATTAAGCACTGA
CRGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCRAGGCGGGCGGATCACGAGGTCAGGAGATYGAGACCATCTTGGCTAACACG
GTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCAGTGGCGGGTGCCGGTAGTCCCAGCTACTCSGGAGGCTGAKGCAGGAGAATGGCG
TGAATCCGGGAGGCGGAGCTTGCAGTGAGCAGAGATAGCGCCACTGCCTGGGGGGAAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGAAAA
AGAAAATTAAGCACTGACATATTCTGAGATGTTTTCTGAAGGAGCTCAGGCTAAATGCTCTCACCTCCTTAATACTGGCTGAGAGGCTGGATCTTCTGCC
TGCAGCCCAGTAGCACTTGGTTTATAACACTATATGAAGTGACTGCATCTCTAAGCCAAAAATCATGATACATGTTCTAAGACAGATTATAGACTGGTAT
CTTTAGCCTGAATTCCATCTATAAAGTGTTTTGCTTGGCCTGCAGTGTTTTAAACACTTTTAATTAGTCGTAGATTGTTAAAAGCTGAGATCTCTTACAT
AAAATCCGTAAAATGTCCAGCTTCCAGATCTGGGAACACTGGGCCCAAATTTCTGCCTAGCAGCAATTAGCTGGAACTGGGTGGTAGCTTTCCATTTAAG
CCAAAGCATATGCTTTCTAGTCTGCTGTATCACATGCACGCACRCACACATACATGCACACACCAGTCACTCATATATGTACCTACCTGACCCTTTACAC
TTCCAGACCATATGCCCTTCGAAGGCAGGATTTTTGTCTGTTTTGTTCATTGCTTTTTTCTCATGACCAGAATGTTGTCTGGCACAAAGTAGGTTAAAGG
ATATTGCTAGATGGAGGAAGAATGTATTTGTGACTCTTGGTCCAAGTTGATGGGGGAAAAGAAAACAGAAGTTTTCAATTTGGAGCTCCTCCAGATATTT
GAGCTATGTTCCCCTTTACCCCTGAGATACTGTATGGCTCAGGAATATACCTTAGTATCATAATTTTGTATATGACTTATCTCCCTTGCTAGATGGTAAA
TTCATTGGGTTCAGGGACCTGTCTTGTATTTTTTTGCATCCTTAAGAATACCTTGCACATAATGGAAGCTTAAATACTCCTTGGATGGTTAGTGGGTTTT
TAAAATTTCTCATGTAACTTTGTGAATAAAGATGGGGAGATTCTAATGAATATGTTGTTCTGGAGGATCATTTGAGAAGCAACCATTTGAGTTGCTTCTC
CACTATATTTTCTCCAAGCCCTATCCCCAATTACATTCTATTCGCCATCATAGTCTGGATGGGGAATAGAATGTAATTGGGGATAGGGCTTGGAGAAAAT
ATAGTGAATATAGAAGGTTTTTGATAATCCTTAACCCCTGCTCTTTGGTAGCAGGGTAAATTAACCCCCCATCCTCACTTTGTGCATATTCTATTTTAGT
ACTCATCTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGCCTGGAATACAGTGGTGTGATCTCAGTTTACTGCAACCTCC
ACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGACATGCACCACTGTACCTGGCTAATTTTTGTATTTTTAGTAGA
GACGGAAATCTAATTTCGCCATGTTGGCCAGGCTGGCCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGC
GTGAGCCACTGTGCCCAGCCTATTTTAGTACTCATCATATTATGTTAAAGAGCTTGTCTCCTACACTGGACTGTGATTTCCCTATCATTAAGAACTCGGT
ATGGTTTTTGTGCATCTAACAGCTAATACTTGATAATGTTTGTGTGCCAACTCTGTATAAACACTATTCTAGGAACTCAGTAAATGTTTGCATTGAATTG
AGTTTGTGTTAGGAGTTGTATTAGAACTCTACACCACCTTATAGTTTATAAAACATATGTATATTCATTGTCTTATTTAATTTTGAAATCAACTGAGTGC
TGCAAATGAGAAAAATCAAAGCCCAGAGAAAACTGTAACTGGTCCATAATTACACAGCAGTTAATGGCTGAACATCCAGGCTGAACTTTGCCAGTTAGTG
GCTGAATATTCACGAAATTCTGATGCCTCCATAGAGCGGGATAGAATTATGGAGGACTTGTCATTCTGGACTGCGGAATTTGGACCTGTGTATTGAAACA
AGAAGAGAAAGGGAAGTGTTTCTTAAGTTATTTTTGGATGAAGGCTTTTTGCGATCCAAGGCTTCATCCCCTCAAGCTCAACAATAGCATTCCTTGGGGG
AGTGAGAAGATGATGAATGGTCATCAGTTTGCTTGCCTCACCCAGATTCCATTCCTACCTCCCAGAATTTTCCCTGGTCCCACCCAGCTCCACAGTAACA
ATCAATCCCAATCAGTGACTGTACTTCATTTTTTGGATCAAGGAATACCCCTCCCTTTTCTGTCTTCCTCCTTAGGGCTTTGGATAGGAGCCCTTTAATT
GATGTTGACTAAACTGGAGGCCAGCCCCTGCATACCAGGAATGCCAGTGGCTTTGTTAGTTGAGGAGGGCGCTGCATTAGCACTGCCCTCTAAATCCCAG
AGCAGGTGGAGGAAATCTAATTAGCATTTAGTAAGCCAAGGTGCCCTGGGGAGTTTCTGATAAAGAAAAGGTCACTGCAGAAGGAGAAGGGACACTGATA
GGGAGACTTCATTTTCCTAGTGGGAACTTTCTGAAATGGACTGGCAATCAGGTGAGCTGGATTCTAATGCCTGCCTTACTGGTGGCTTTTTAATCACACT
TAAGTCCCTCTGCTTATCTGAGATTTCATTTTCTTGTCTGTGTCTAGTCCGTTACCAGACTCCTTTTCCTACACAAATATTTGTTTCATAACAGTGGAAG
GGACCTCAGATCATTAAGTTGCTATCACCTTGGGGTGACAGGTACACTAAAATCTCAGAAGTCACCACTAAAGATCTTATTCATGTAACCAAATAACACC
TGTTCCCCAAAACCCTGTTGAAATAAAAAAAATGACTGCAGCCATTCCCACCCTTGTATTTCAAGCATAGCATTGCCACCTACTTGCAAAATACTATATA
GACGTATATATATATATTTTTAAAAAGGTGCTATTACCTGGGAAGCTTTTCCCAACATTACATATGTCCAAATCTCACTCTGTATCTACTGAATCTTCTG
ATATCAGTAGATATGTAGTAAATATGTATAGTTTGGGGAAAATTTCTCAGGAAAGTTTGATAAAATCCCTGGTTTATGCTTTTTTGAAGAACTTAAACAC
ATATAGCAAACTCAAGGCCTATCACAGCATTTGCTATCRTAGTTGTTAGTAATATGTTTGGAGAGGAATTTGGGGGGATGGCTATTAAGTGAGAAGCTAG
AGGTAGAATAACCACTGCAAGCAATAAGCATTTTACAAAATGGGGATTGAGCTCTATTCGTAGGTGATGAAATCAATGGTAATGAGTTGCTACCAGTATT
TTCAAAGTAAAATAGTATACAAAAAGTAGCATGTATTGTGTCCAGTTAAGGATATTTATTGAAACTTTTAAGTTCATTGTATTTATAGATACTGTGCTAC
AATTTAAAAGACATTTCTTACTGAATTTTTGTCAAAATCCATTGACCTAGATAGGAATCTGTATTGGAGTAAAGATGGTTCTAAGGGGAAGGAGTGTAGA
GAAGCAATGTGGGAGCCACATGCGGTGGTTCATGCCTATATTCTCAGTACTTTGGGAGGCGGAGGTGGGAGGATAGCTTGAGGCCAGGAATTCCAGAAGC
AATGTGGAAAGGACACTAGGGAATGTAGGTTCTAGTCTTTATCCAAGCTCTTTGACTTCAAGCAAATCACATTTTTCTCCTGGACCTTACATTCTTTTTT
CTCATTGCCCTTAGTACCTTCTGTCTGACTTCAACCCCACATCTGCTTGACAAGAATTAACTCAAATATCTCTTCTTAACACCTACCTGATTCTGGCATA
CAGTAAGTGCTTATAAATATATGTTAAATGGGTGAGAACCTTTCCCTTAGGTCTGTGGGTACTTTCACTGGGCTTGTATATCTACCACTCCATTTAAAAC
TCTACTTACAGCTTTTTAAGAAAATGTATTTCTAAGCCAGGCACAGTGGCTCATGCCTACATTTCCAGCAGTTTGGGAGGCTGAGGTGGGTGGATTTTGT
GCTTGGAAATTCGAGACCAGTCTAGGCAACGTGGCAAAACCCCATCTCTACAAAAAATACAAAAATTAGCAGGGTCATAGTAGTGCGTGCCTATAGTCCC
AACTACTTGGGAGGCTGAAGTGAGAGGATTGCCTAAGCCTGGGAGGTGAAGACTGCAGTGAGCTGTGGGTGTCCCACTGCACTTCAGCCTTGGCAACAAA
GTGAGACCCTGTCTCAAAAAAAAAAAAAAAAGAAAATATATTTCTATTTATCTTTTACTAGGTTGTGGTCCCCTGGAAAGCAGACATTTTTATTCATCTG
TGTATTCTCAGTACTTAACACAGTACCTGGTATGTAATAGGTGCTTCATAGATGTTGGAGAGAATACATATTTTTAAGAGGAGTATTTTAGTAGATGACT
CATAAAACATTTATTGAGCACCTACTATATACCAGGCAGTGTGGTAGGTATGGGAAGKGATACAAATGTGTGTAAGAGACCAACATCTTCCCTTGAGGAA
TTTAGAGATTAATTGAAGCATAAGCACACAGAATTGCTGACAAAGCCATTAGTGTTAGTCTCTAGCTATGTGGTTGCTTATGCAGCTCATGTGTAACTTC
TCATTTCTGTGTTTGAATACTGGTCACCAGAACCAGACAGGAAGAATGTCTTTCCGTTCTGATTAATTTTCTTAGGAATTAAGTAAGAAATTGTGTATCT
GATATGGTGATCTAGTTCCAAGGAAGGTTAACTTGAGTTGGCAAAAGGAGCCTCATCTTTTTTATATTAGTTACTGGGAGGTTGTTTAAAAATCTCCCAT
TATGTAATGGACTTGTCACTTTCTACTTATAGTAATGGCAATTCTTGCTTTATATATTTCGAGGCCATATTACTAGGTACACATACTTTTTAGAAGTACA
TGACTTCTGGGCCTTTGAACCTCTTATCTTTGTGAAGTGCCTGACCCTCTTTGCCTTTTTACCTTAATATCTTTTTTTGCTTGGTAGTCATATACCTGCA
GCAGCATTCTTTTGAGTAATGTATATGCTTTATGTAATTTTTTCCATCCTTTGATTTCAACCTACCTGTGCTCTTGTATTTTAGGTGTATCTTTAAAAAA
CAGTATGTAGCTAGATTATGTTTTTGTTTAGTCTGGAAAGTCTTTCTTTTAACTTGAGAATTTAGTTAATTCACATTTATTGTGGTTAATACAGTGAGAC
AGGCTTTATCTTTTAAATGGTGAATTAAATTGATTTACATTTATTGTGATTATGGAAATGTTTTGATTTGTTGCAACCGTGTAGTGTTGTACCTTACCTT
ACACTGAAATTTTCTGTTGTTTTTTTTAATCTTACCTTTTGGATTGAACATTTTGTTTCCTTYTTCTAATTTYCTTTTTATCCCTCTGCTTATTTGGAAG
TTACACTCTAACTACTTCATTAGAAGTTACTCTAGGTATTTTATTATGCATACTTATTAAAATGTTTAAATTTAATAGATAATACATGCACATGGCTTAA
ACACAAAATATTTGAAAAGTATACTGTGAGAAGTCTCTTCTCTATCCTTCTGCCACCATCTGCTCATTTCTAATAMCCTGGTGTATTTATCTTTATAATG
TATGTTGGCCTGTTAACATATTAGATATGTTAGAATATATCTAATAGAGATTATAAATACGCATACAAATACGTATTAACTCCTCCATTTATACAAATAA
AGGACAACTTTCTCTATACTTGCTTTTTTTTTTTTTACTTCATAATATATCTTGATGCTCTTTCCATATTGATACATGAACAGTTTTCTTCCCCATGCCT
TTTTAAAAAGCAGCTGAGTGGTAGTACATCAATTGGTGAAGGCATAACTAAGTCTTTACTGATGAGCATTTACATTGTTTTCAATATTACTCTTTTAAAT
AGATCCCAAAATGCACATATGTCATTGTGCACATGTTAGTTTATCTCTAGGATAAGTTTCTGGCATTGCCTGGTTAAAGGATATATACWCTTACACTTTT
GGTAGATTATATGTAATTTTGCCACATTGCYCTCCAGAGGGTTTGTAACTATTTACACTCCTGCCTCTTTTTCCACAGTCTTGCCAAGATGATTACCAAA
GTTCTGTATGTTTGCCAGTCTAATGAGAGAAAAGTAATATTTAAGTGTATTTTTAATTTGTATTCCTTTTGTAAGTCAACATTGATCTTTTCACATGTTT
AAAAAWCATTTATAGTTAYTTGTCTGTGAACATTTGCTTATTTTTCTGCAGGGTTAATGTTCTTACTGATTTGTAGGAGCTCTTTATGTAGGAGATTAGC
CCTTTGTAATAGGAATTGTGAATTTTAGCGAAATATTTATGACTTCTAACCCAAGTTACCATTTTTTTCCTTGCTTTGTCCATAGGCRTTTGTGTGGGTG
TGGGGGGGTGTGTCCGTGTTGCCATGCAGGATTTGAAAATAGTTTTCATTTTTAGATTTATAGGTYTCTGTGTAGTCACTRTAACAATCATTGTTATGGT
TTCTGGATTTTAGGTAATAGACTTTCCCTCTTATAGGCTATAAAAGAAATGTACTATGTTTTATAATTTCATTTTATATTACATTTAAATCTGATCCAGT
TGGAATTTTTCCTGATCTATGCTTAGAGGTACAGGTTCAACTTTGTTTCAGCTTTATTTTTAACAGTGTCATTAAATCTTTCCCATGGATTTGAGGTGCT
ACTTCTATCATAATCTAAGCATTTTATGCATTAGTAACCATTTGTGAACTCACTAAGTATTAAATTCCATTAGTCTGTATACTTATAAAATATATATAGC
AATACGCTTTGTTTTGATTAATGAGGTGTGTTTTACCATATGGTTGTAATAGTGTCCTCTGCTATTCTTGTTTTTCTTTATGAACTTTACAATTGTATTC
TCTTATTTAGAACAAATATGGTGGGTTTTTTGTTGTTGTTGTTGTTGTTGTTTTTCTTTGAGACGAAGTTTTGCTCTGTTGCCCAGGYTGGACTGCAGTG
ACAAGATCTTGGCTCACTGCAACTGCCGCCTCCTAAGTTCAAGCGATTCTCCAGCCTCAGCCTCCTGAGTAGCTGGGATTAACAGGGACATGCTACCACC
CCCAGCTAATTTTTGTATTTTTAGTACAGACAGGTTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGCGATCCACCTGCCTCAGCCTC
CCAAAGTGCTGTGATTACAGGCATGAGCCACCACACCTGGCCAAAAAAATGGTGTTTTTACTGAGTTTATGTTAAATTAATAAATTCATTTAGGGAGATT
TGAGCTCTTTATCAGCACATACATTTTAATTTTTTAATTTGGCCTAAAGTATAGCAGTATATTTACTCTCTGTATTAGTTTCTTTTTTCTTTCCTCCTCC
TCTTCTTCTTTTTTTTTTTTTTTAAATACAGAAACAGGGCTTCGTCATATTGTCCAGGCTGGTCTCAAGTACTGTGCCAGCTTTGGCCTCCCAAAATGCT
AGGATCACAGGCTTGAGCTATCATGCCAGGCCCTTAGTAGTTTCTTGTAGTTGCTGTAACAAATGACTACAAATTTGTTGGCTTAAGACAATAGAGATTT
ATCGTCTTACAGTTCAGGAGAGAATAAATCCAGGTGTTACAGCGCTGTGTTCCTTCTGAAAGCACTGGGGAAAATCTTTTGCCTCTTTTGGCTTCCGGTG
GCTCCAGATGTTCCTTGGTTCATGGTTGCATCACTCCAATCTCTGCCCATGGTCACACTGTCTCTTCCTCCTCTCTCTTCTGTCCCTCTGTCTGTTCTTC
CTCTATCTCTGTCTTATATGGATACATATGATTACATTTAGAGTTTCCCTGAATTCTCCAAGAGAAGTGCTGCCTATGAATATTATCTTATATGGCCTAA
GGGTCTGAGACCTTTAACTTAATCACATTTTATGTCATATAAGGTAATATTCACAGGTTCCAGGGATTAGGACATGGGCATATCTTTTGGGAAGGGACCA
TTCAACGCACTACACCCTTCTTCCAAATCATGTAAGAATCTTAGCATACCTAAACTTGAATCACTCCTCCTAACTTATGTTATTGTTGGCCGGTATTTTC
TATCTTATTTATTTATACCCACTTAAAATAATATTCTTGTTTTACACTGGAAGTGTTCAGATTTCCCATGTATTTATCAATATCTGTGCTCGTCTTTGTT
TTCTTTTATGTCAGACCTTCCATCTGGGATTATTTTTCTTCCTAAAGTATATCCTTTAGAATTGCCTTTAGTGAGAGTCTGTCTGTGGCAATTTCTGTTT
TTTTGTCTGAAAATATCTTTATTTTGCATTCATTGAGTTTGAATGGCTATTGACTTCTGCATTGAAAGTTATTTTTTCTTAGCACATTGAAAAATTATTC
TGTGATCTTCTAGATTTCACTGTTGCTGTTCAGGAGTTAGCTGATAGTCTAATTGCCATTCTTCTGCAGGTGATCTCTTGTTTCTCTTTTAATGTCTTCT
TTTTTGTCTTTGGTATTCAATTTCATTACCATATGTGGTTTCTATTTATCCTGCTTGACATTTGTTTAGCTTACTGGATATGCGGTTTGGTATTCTTTCA
ATGGTTCTGAAAACATACCAGCCAAAGGCAGGCATAGAATAATACTCCATCCTCTCTTATTTAATTATTGAACTTCAGTTACAAGATTAGATATATGTTA
GACCCTCTTACTCTATCATCCACGTCTCTTAAACTCTGATTTTTTCATATCTTTAGTTCTTGGTCACATTCTATGGAATTTCTTTGGATTGCTCTTCCAG
TTGACTAACTCTTTAGCTCTATTTAATCTGTTTAACTTGACCATGGACTTTTTCATTTCAATTGTAATTTTCATTTTTGGACATTCAGTTTGGTTTGTTT
TCAAAAGTATTTAGTTCTTTTTTATACTCTCGTTTGCTAATTTTTTCAAGCTTCTCTTCTAAATCTTAAAAATTTTATATTCTGTCTCTAATTCCAACAT
GTGAAGTCTTTGAAGATACGATTCTGTCATCAGTTTTTCCTGGCTGTCATTCATTATGGTATTATGGCTTATTTCCATATATGTTTTTGTTTTACTTTTA
ACAGCAAGTGTTCCTTAGGACTTTACCTGTGGAAGCTATTTGAGGCCTAGGTTAAACATTTATTCTACCAGAATGGATTAGAGGCTGCTGCCTCCAGTAG
CCTCAGGACATTATTAATCCTGGACTACTTTTAGATCTTCACTTGAAGTATCATGAATTTGATCACAAACTTGCATTAGAGCCAGATTTTGATTACAGAC
TTTTAGGAAAGACATTACTTCTTTTTTTTTTTTTTGGTCACTTTATTATTATTATTATTATTATTATTATTATTATTATATTTTAAGTTCTAGGGTACAT
GTGCACAACATGCAGGTTTGTTACATATGTGTACATGTGTCATGTTGGTGTGCTGCACCCATTAACTTGTCGTTTACATTAGGTATATCTCCTAATGCTA
TCCCTCTCCCCTCCCCCCACCCCACAACAGGCCCCGGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAG
AACATGCGGTGTTTGGTTTTTTGTCCCTGCAATAGTTGACTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTT
TTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGT
GAATAGTGCCGCAATAAACATACATGTACATGTGTCTTTATAGCAGCAAGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGATCAAAT
GGTATTTCTAGTTCTAGATCCTTGAGGAATTGCCACAGTGTCTTCCACAATGGTTGAACCAGTTTACAGCCCCACCAACAGTGTAAAAGTGTTCCTATTT
CTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCACCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTG
TCTGGCCAGTGATGATGAGCATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTTTGAGAAGTGTCTGTTGGCTGCATAAATATCTTCTTTTGAGAAG
TGTCTGTTCATATCCTTCGCCCAGTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGT
CAGATGAGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCATTCTGATGGTAGTGTCTTTTGCTGTACAGAAGCTCTTTAGTTTAGTTAG
ATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGAACCAAAAGACATTACTTCTTTTCTAGTGGTCAAGACAGGTCAGTTTTTTTATGGTTC
CTTTCAGTGCTGTAGATGTATTGCCCACACTTGAAACAGTCATCACAATTGTCACTAGTGTTTGTTACATAAATAACCTCAGGGCAAAAAATGGTTTTAG
TGCTCTCTTTCTTTCCAGAATTTCTGCTTTCACTTATTTTTTTTATTGYGGTGAATGAAACATATATAACATCAAAATTATTTTTAAGTGAACAATTCAG
TGGCATTAAATACATTCACATTGTTGCATGACCATCACCACCATCCATCTCCAGAACTTCTCATCTTACAAAACTGGAACTGTGTACCCATTAAACAGAA
ACTCCCTATTACCCCCTACTCACCARCCCCTAATCCCTGGCAACCATTGTTCTACTTTTTGTCCTTATGAATTTGATTCTAGGTATGTTATATAAATGGG
ATCATACAGTATTTGTCCTTTTGTGACCAGCTTATTTCACTTAGCGTAAGTCTTCAAAATTCATCCATATTGTAACATTTCAGAATGCCATTCCTTTTAA
GGCTGAAATCATATTCCATTGTATCTATAAACCACATTTTTTAATCCACTCTTTGTCAGTGAATATTCAGGTTGCTTCCACCTGCTTTCATTTAACTTTT
GTTCTCTACAGATTCCTTACTTCTTGACAGCATGACTCATTTTCAAAATTACTATTTAAGAATATTTTATTTAGCTTTTAAGTTGTTTTCTTTGGGAGTG
TCATTCATGGTATCTAGGCTAACTTAATTGCTCAAAACCAAAGTCTTATACCTACTATAGGTGGACCAGAAGACAACCAGAAAGAACATAATTTGACTTT
CTTTTGGGATGCTAAAAAGGGAAGATTCTGAGATATGAAACAATTAATATGTAGTTTTGCATGTTTTGATTCTTGAGGTCTGCTATAGGTAATATTTTTT
TCCTTGCATGTGAGAAAACCTTAAGAATACTATAAGAAAACATAAACATTTCTGTCTTGCAGGATTTGGCATTGTTACCATGTTGTTAGTACTAACCTCT
CACCCTCAAGTGCCCCAATATCCAGTAGTAGCATTTGAAACTTGTACAGAGATAACAAAATCATAAACTGCTTGAGCTGAAGGGGTCTAATTTCTAAACA
TCACCCCTTCCACCACTGTGTCTTTTTTTTTTTTTTCTTTTTTTTTGAGATGGAGTCTTGCTCTTTCACCCAGGCTAGAGTGCAGTGACATGATCTTGGC
TTACTGCAACCACCACTTCCCAGGTTCCAGTGATTCTCCTGCTTCAGCCTCCTGAGTAGCTGGGATTACAGGCACACACCACCACACCCAGCTAATTTTT
GTATTTTTATTAGAGACGGGCTTTCACCATGTTGGCCAGTCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCTGCCTCGGCCTTCCAAAGGGCTGGGA
TTACAGGCATGAGCCACGAGCCACCACACCCAGCCACTGTGTCTTAAAGATGAGTTGGCTAAGGTTAAGTGACTGACCCAGCCAGGGTCCTATAAGGAGT
TTGTGACATCAAGAACCTCAGTTGCCTCATTTTAATCTCAGTATACTTGGTACTTCTGTGTACTTTCTCTCTCTGAGAAGACCTGTGATCATTTAATGAG
TTCTGAGCTTGGKCTTTTTTTTTTTTTTTTTTTTTTTTTAAGTGAGACAGGGTCTCTCTCTGTTTCCCAGGCTGAAGAGCGGTGGCGCAATCATAGCTCA
CTATAGCCTCGGACTCCTGGGCTCAAGTGATGTTACTGTCTCAGCCTCTTAAAGCACTGGGATTACAGGCATGCGCCATCATGCCCCGCCTGAGCTTGGT
CTCTTGAAATGTTGCTGTGGATGTTGATAAAGATGACCTGACACTGATACATGGGTCAGAGTAGAGGCAAGAATTCTCATCTGGTTAACTGGTGAAGATC
AAATAGAGTTGGCCTTCCAAATACTATTTCACTCCTGTCTCTCCTGTTCATGGAATCTTTTTTGATAACAGAAGGTTACAGTTGGGTGGGAGAGCTCTTG
TGATCATTCGTGCCAATCTCAAATTGCCCACAGGGACGTTTTGGGATCCCCTGCCCAGAAACTTTGCTGTTGTTTATAGATGAGGAAACTGAAACCTAAA
AGATGTAAATATGGTTTCCCTCAAGTCACATAAAGTGCTTTTAGCAAAGCCAGAACTGGACCCACATCTCCTAATCCCTATTCCCGTGGAGGATCTCTAT
TACACTAATGCATTAACTTCACTCCTGATCTTTAAGTAAGCTCCACGTCTGTGGTCTCTGTTTTAAGATTGTGAAATGTCATAAAGGTGGTTTGCCTTTG
AAAATAAGCCAGAACCTAGAGAGTTAATAGAAATTGAACAGTGAAAGTGGAGTCCTTTTCTTCTCTCCTCAACTGGGGAGCCGCCAGGCTGTTTCACTTG
CACCGCMTGTGTTCCATTATGGTATAATGATGTAATTACCAGTAATGCTGCTGCTGCTTGAGTAGTGGTGAAGAGGCAGCATTAAGGAAAAGACTAGCCC
CAGTTCTCTCCTAAGAGCCATTTCAGCCCACTTCAGTCTATTAGATTGAAGATGCTGGAAGGCGAATGGCTTCAGCACAGGAAAAGGTCAGATTTAAAAG
CTTTTCTGGGTTTGGTATTTATTGTTGCTTTTTTGACCTTCAGAAAAGTCCCCTGTGTGTTTGTCCTTGATTCTTGCCTTTCCCATTAATGCTTGAAAGC
TGTATTGCTGTCCAGACCAGGTCTTTGGCATAGATGATTTCCTTTGTGGTGTTAGAGAAAGCCTAGCCCCCACTCCAGATGACCAGTCCTGTTGTCGTTC
ATGCCACCATTGCAGTGTCAAAAGCCTTTTTAACTCTTGAACATTTTAGTTTTCAGCAATTCTGTATGTATATATATATAATATATATGTCATATATGAT
ACAATACATATGATATGATACAGTACAGTACATATGGTCTGTACTAGTATCACATATTCTTTCACAAACTTGCCTAGATCTAAACAATTTATGAATTAAT
ACTTTAAAATACAGAGAAGTAAGCAATAAGACTTGAGTGCCTTGAGCAAACCTTTCTGTGAATCTCTTTCAAAACGTACAGCCTGCCACCTGATGATTAT
GAGGAGGTAATCATGGTCTCTGGAACACAGTAGACACTTCCAAAAGTGTTCCTTTATTAGAGGGTAGCCATCATTCTTTCAATAATAAGCACCTGCTGGG
CCCAAGGTACAGGTTATAGGAAGACAGCAAGTTTTCCTTATTTCAGTAGTTCTCAAAGTGCCATCCCTGGACCAACAGCACCAACATCACGTAAGATCCC
CTGAGAAATGCAAATTCTCAGGCCCCCAAGCCAGAGCTACTGAATCACAAATTCTAGGCTGGGAGCCTTCAGTCTGTGTTTTACCAAGCTTTCCGGTGAT
TCTGATGCATACTGAAGTTTGAGAACCACTTCTTTATTTTGTAGTTCAGTACCAGGAGYTATCTGATAATATAAAATACCTTATGTTTATCTAGAGCTGC
ACTGTCCAATACAGTAGTCATTAGCCATAGGCAGTTATTTAAATTTTAATAAAACCAAGTTATCTAGAGCTGCACTGTCCAATACAGTAGTCATTAGCCA
TAGGCAGTTATTTAAATTTTAATAAATTAAAACCAAGTAAAATTAAAAATTCAGTTTCTGAGTTGTACTAGCCACAAGTGCTCAGTAGACATATGTTGCT
AGTGGAAACCATACTGGACAGCACAGATGTAAACATTTCTATTATCACAGGAAGTTCTATTGAATAATGCTGGGCTCAAAGCAGTGGTCCTCAGATTTTA
TCATGAATCGTATCATTAGTCTGTAAAATATACATTGTTGGGCCCCATCCCCAGTTTCTCCCAGTGTTTCTTTTTATTTGAGACAAAGTCTCACTCTTTT
ACCCAGGCTGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCTCCGCTTTCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATT
ACAGGTACACACCACCATGCCCAGCTAATTTTTGTGTTTTTAGTACAGACGAGGTTTCACCATGTTGGCCAGGCTGGTCTGCAACTCCTGATCTCAAGTG
ATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGCATGCCACCACTCCTGGCTCCCATTCCCAGAGATTGTGATTCAGTAGATCTGGGGTAG
GGCTGGAGAAGATACACGTGTAACAAGCTCCTAGATGATGCTCATGCTGCTGGTATGGGGACCACTTTTTGAGGACTACTGGTCTTGCATAAGGATTCTT
GATCTGAAGTCTGTGAACCTTAAAAAATTATAGGCAAAATACTCTATGTACCCATATAATAGAGGTTGCAGGATATAGGACTCACAGTTTTAATCTGATT
ATCAAGTGGGTCAGCAGGTCAGGAGAACTTTTAGCTGCAGTTAACAGAGAATCTGACTAATAGTGACTTAAATCACAAGGACTTTGATATTCATTTAGCA
AAGTAAGAGGCTGGAAGTTTCAGCATTCTTTCAGTGGCTCAAGCATGTCACCAGGAAAATCAGGCACTTTCCCTCAGAAAACCCCTTATGTTTTTTTTGG
CTAGCAATAGGTCACATGCCCACCTCTAGATCATTCCCATCAATGAGGAATGGGATTTGTATAATTGCTTTTGATTCAGCCCCTGGGGCAAAGGGAGGGG
ATTTACCTTCCCTGATAACATCAGATCTCCACCAGTCCTCTGAACAAAATATGAATTCTGTAACAAGGGTGAAGGGAGAAATGGCTATTTGGTCTCTCAG
TGAGTGACCCARAAAGTGTTAGGAGTGTCTGGTCTGCATCCTTTCAGCTTATCACATGCTTTCAACTTGCTAGGCAAGCAGGGCACAGACACGCCGAGCT
GTGAAGCCCTGCTGAGCTCTGTCCTCTAGTGCCTTATGACGGGTTCTGTGAAGTCATCCTGCATGTAACGGGGATGACGTGGTATGAGATTTAAGAGCCT
GATCCAGGCTTCTGGGAGTCGGCATCAAGTCAGCCTTAAAGCTAGTCCCCGTCTGACTTTGGCCCCCAGTTGTTTTGTGTGGTTGTGTGTTTTTGTTTGT
TTGTTTGAGACGGAGTCTCAGTCCTGTTGCCCAGGCTGGAGTGCAATGGCGCCATCTCGGCTTACTGCAGCCTCCGCCTCCCGGATTCAAGTGATTCTCC
TGCCTCAGCCTCCCAAGTATCTGGGATTAAAGGTGCCCACCACCACACTTGGCTAATTTTTTGTATTTTTAGTAGAGGCGGGGTTTCACCGTGCTGCCCA
GCTGGTCTTGAACTCCTGACCTCAAGTGATCCTTCCACTTCGGCCTCCCAAAGTGCTGGTATTACAGGTGTGAGCCACTGCGCTCGACCTGGCCCCCCAA
TTCTTTTTAGAATTGGCTCTTGCTTGGTTCCTTTTGGTCAAGTCCCTGTCAAAGTACAAGTTTTTGTACTTTGATTCTTTAAAGACTCCCATTATTCTTT
TCTCTCACCAGTCTCCTTGGAATTAGAGTCCTGGTCCTGGATTTGGGGACCAAACACTTGGAATTCTGCTGCCAGACTTCCAGTTCCCTATCTACTTACC
TAGCTCCCTGCTTGTCTTCTCCCAGCAGTATGCTTTAGATGCTTGGCTTTCAGTAGGGAGATAGTGTCTAAAAATGTACAATGTGAGACTATTTCACGTA
GAAATGGTAAATGAAGCACTGGGAGTTAATGAGATTATTGAAGGAGAAGATGTGAGAACGAAAGCTCATACCACCCCTCTACTGAATCAAATGAAGGGCA
TGGTCATTTGTGTGTTCATCTGTACTCTCCACAAGTACCATGAATCCCAGGCTGAGAATCAACAAAGACCTTATAAACAAAGACCCAGGGCCACCTGGGA
ATCCAGAGAGGTGCCTGATGAAAGGGATGACAGTAGCTCAGCTGGCAGAGCTCTCTGCCTGCATCCCCTGCCCCCTAGAGCAGTTCTGCTTTTACTTCTA
TGTTATGCTTCTATACGAAATCTTGTATGTAGAAATAAATAATTCCACTTATTAAAAAAAAAAAAGGCCACTGGGTAAATGATGCCGAAGGCCCCTTCTA
ATACTGAGAATGGGCTCAAGGGCTAGAATACAGGTACTAGGCTATGACATGTGAAACAGAAGTGTAGTCCTGTCGTATTTTAGGAGAAGGAACTCTGGCT
CCCTTGTTCTCTGCATGGTTTTGAGCTGACAGTTGCCTCGGTCAACAGCTGGATACAGTACCCAATTGTTTGCAGCAAAAGTCCTGCGAGTCTGTTTCCT
CTAAAAAGCTTCTTCCACGACTTCCTTCCCCCATCCTCCCAGGACAGAAGTGGACACAAGGGGGAATGTTTCAGTTCCCCTGTCGGGTTGTGTGTCTTCC
TCTCAAACCACTGTTCAAAATGTCTAGGGAATTTTTATTTTCCAAAGTTGCTTACCGGAAACAACTTGGCAGAGCATAGTTTGGGGAGGAGGCTTTAGTT
CAATGAGCACAAAAGCACATGTTCCTGTGGTGAATTCTTAACGTGTGTGAAGGGGAAGCAAAGGAGCTTTAGTAAAATTGCAGTTCAGGCTAAGTCAGGA
ATGGAAATGAGGAACAACCAGAAAACATCACAGTTTGTTTTAGAGCATTTAGTTCCTAACTCTCAATGACACACACTCAGGCTTATGGCTGAATTTCAGA
TTATCCTTGTATATACTTTTTAGAAGTTTTTATTTGGTATCATAATTTATAGTGTAACAATGAAAAGTCGCCTGGCTTTATAACAGATTTCAGAAAGTGA
AACTTGGTTTCTGAGGAATAAACAGGCAGCAGAGCAATCCTCAAAGAGGAAGTGCATGAGAAACTGAGGGTTTAGGGAGATTATATTTGGTTAGAAACGC
TGGGCCTTTGTTAAAAGTTGAAAAACCTGATCACTCCAGTCTTTGGAGGTTCTGAGGGAGAGCATGTCTTGCCAGAGTCTCACGGATGATTAGAGTTAAT
CCCGGCACCCAGGCCTCTTTACTTTTCCTCTGCAGTGTGGGTTCCCCTCCTGAGCTACCCGCTAGAGCCTAGTTTCCCAGGGTTTCTCTCTCTGGTCTGT
TTTTGCAGCTCAAGCCATGTTCTCCTTGATCTGTTGGCCAGGCTTCAGGGGAGATGGACTACAGCTGGTCTGAAATAGGAAGACGGTAAATTTACTTAAA
CTTTCAGCATGACCCATTTGCCTAACTTTTTTTTCAATGTGATGAATGAAAATATAGACAACAGAATGTTTCACAAGACAGCCAACTCAAAGAGAATAAG
AATGAGGASGTGTGCAATTTGCTTTTACCTTTAAAAAGAAGCATATTACAGAACCTCTTGATTGTCTTTCTTTTTTTTTTCTTTTTTTCTTTTTTTTACC
TCTGTCATCTGTGATCCATTCGCCTGTTCAGCCAAGATATTTTGGCATTTTTACTCTGGGAAACCAGTGGGTGGGTGAACATGGAGGAGCCAAAAGTTAA
CAAAATACCAGCAAATGCTGGAGCCAAGTGAGAGGATTCTCCTCTGCTCCAGAAGCAGAGGTGTACCCCACCTCCCACTCTCCCAAGCTGCTTTGAAAAA
GGCTGCTAAAACTCAYCGACTTAAAAAAAATTTTTTAAAAGAAAAAAAACTCCCTGACTTGAGAGGATTTCTCAGTCCTGATGAAGGAAATCTCTAGCAG
CTCTTCTTGTCCCTAGGCTATCAGGGCTTTTCCTTTCTGAGGATGCCCTAAGCACTGTAGGGAATAATAGCATTCGAAGGTAAGTTTATCTGGTCTGATG
CCAGCATACATTGTTGAATCCAAATCTACCATTTACCATCGGGGTGACTTTCAATGAGTTCTTTAAACTTTCTGAGCCTGTTGTCTCATCTGTAATAGAG
AYAATAGTGCCTACCTCATCAAAAGTGTTAGAATTAAGTAAGATGATTTGTAACTTAGTACCAGACACCTCATTAATAATCAAATGTTTTTTGCAATACC
ACTCATTTTCTCACCAACTTCTATACAGCTTCCTGTTTTCCCAGTGATCGTGAGATATGGGAGGTAGTAGCTTGCTAACTTGTTTCCAGTGGCAGCAGGA
GTGGCAAAGGAAATTACTTTTTTCCTTATCAACTTCAAAGGATAATTTACACACAGTGAACTATATCTGTGTACATTTAATGAGTCTCATAGGTGTCTGT
CCGTACTCATGAAACAAGTACTACATTGAAGATGTAGAACATTGGCATCATCCCCAAAAGATTCCTCTTGCCCCTTTGCAGTCTTTCCCTTCCTTTGCCC
TTAGCCCCAGGCAAGCACTCCTCTGTTCTTTGTCACTCTAAATTAGTTTGCATTTTATAGGAGTACAGTATGTACACTTTTTGTGCAGCTTATTTCACTC
AGCATAGTGATTTCTGGATGTGTCCATGTTGTTGCATGTATCCATGTTATTGCTGAGTAGTATTCCATTGTGTGGATATACCACCTATTGATGGACATTG
GGTTCTTTCTTGTTTCTGGCTCTTTTAAATAAAGCTGATATGAACATTCACTTGGAAATCTTTCTGTGGAGCATACATTTTCATTTCTCCCAGGTATACC
CAGCAGTTGAATGGCTCAGTCATATGGTAGATACGTGTTAAACTTTTTGAGAAACTTCCAAACTGTATTGTTTTACTTTCCTATCAACAGTGTATGTGAT
TTCCAGTTGCTTTACAATCTCAGAAGCACTTAGTGTGATCAGCCTTTTTAATTTTAGTCATTCTAATGGGTTTATAGGTCATGGTATTCATTGTGGTTTT
CATTTGTTTCCCTGATGTCTAGTGATGTTGAGCACCATGTGCCAACTGGCATTTTGTATACTATCTTCTTTTGTCTAGTATCTGTTCAAATCTTTTGCCC
ATTTAAAAAATTGTGTCATTTATCTTCTTACTGAGTTGTACAAGTTCCTTTTATGATCTGGATACCAGTTCTTTGTAAGATAGAAATATATTAAACATTT
CCTTCAATCTGTGAAAACATGTGAATACAACTGATCCTTGAACAAAATGGGCTTGAACTGCATGGGTCCATTTATACTTGGATTCTTTTCAGTAAAAGWG
ACACTGAGTGTGCTTGCCTCTCCTGCCTMCCCTTCCTCCCCTTCTACCTCTTCTGCTTCTGTCACTGCTGAGACAGCAAGTCTAACCTCTTCTTTTCCTC
TTTCTCCTCAGCCTACTCAATGTCAAGATGAAGATAAAGACCTTTATGATGATCCACTTCCACTTAATCAATACTAAATACATTTTAATCTTCCTTATGA
TTTTTTTCTCTATCTTTACTGTAAAAATGCAATATATAATATATAACATACTAAGTATGTGTTATTCCACTGTTTATAGTAGTTAAGTTTCAGGGGAGTC
AAAAGTTGTACATGGATTTTTGACTGCATGGGAGGGAGCCATCCCCTAACCCCCATGTTGTTCAAGGTTCAACTGTATGTTCTCCCAGTTTGTGTCATGC
CCTTTCCTTCTCTTAATTGTATCATTTGAGGAACAAAAGCTTTGAATTTTGATGAAGCTTAGTTTTCAGTTTTTCTTTTATGATTTATGCTTTTTGTTTA
CTTAAAGGTCACAAAGATTTTTCTCCTATGTTTTCTTGTAGGAGATGTTTTAGCTTTTACATTTAGGTCTATAATCCAGTTCAAGTTAATGTTTGTATAT
GGTGTGAAGCAAGGGTTAACATGGGGATTATCTTTTAGGTAAGTGTCTATTATGTATCAGGAACTTTATTTCTCAAGAAATAAATGTTCTAAGATAATTA
TCCTTATTTTAATGATGAAGAAAAGAAGTCTCAGAAGTATTAACTTGTTCAAATCGTACAACCAAGGCTCAAGTCCATGATTGCCCAACTCCAAAGCCCA
TGTTCTTTCTACCTTATTATGTTGGCATTGTTTTCAATGTCAGTTTGGACCCATATAAAAACGCCCAGCTGTACCCTATGAGGAGGATATAAAAATGTGA
GATGGTAGTTGACACTCGGAGGACATTCATATCTCCAAACCCAACCTTATGAAGTTGGCCACAGCAAGCATGTTGGAAACTAGAACCAGGGGTTTCATAT
CAAGCCATTTGCTTAGGTCTGTATCTCAAAAGCTTTAAATACAACTTTTTTTGGTGCCCTCTTGATAAGGAGTCTTATACTGAGCTCTTCTTCTCTTTTA
TAGCTGGTCCATCAGAAAGATTAAATTAAACGTTTGGCCACATGGACAGTTAATCCTTAGATCACCCAGTTGGATGGTTCATTCCTGCTATGTTTGGTTT
GATTTTTTATTTTTGGAAAACAAATAGTGAGTCAGTCTGCTTTCCCTCCCTTTCTCTGCCTCACCACTCCTTCTGGATTCTCTTAGATGCTCTGGTCATA
CTAGGTAAACAGTATTTTTCTTAAAATTTTCCTTGAGCCATGACAGAATCATGAGAGAGCTCCCCTGGCTCTGATACTTAATGCCCCCCTCTAAAAAGAA
AGGTCTATTTGAGGCTATTCACTTTTGTCATCTTGAAAGAGTCTCTGAGTCTTACCTAGCAGGAATATTTTGTTTCTTTTCCTAAAAAAAAAAAAAATTA
TATATATATATATATATATATATATATATATATGGAGGGGATGTAAACAGAACAGCCCATACCTCTCTGTTCTTGCTTCTCATTAATGTAGATTTGGTAA
ATTCTCCTTTCTCTTCTCTTCTCTTCTCTTCTCAGGCAGCATGATGTAGGTGGGAAGAATATGGAGCTTTAAAGTGAGAAGTACCTACATTTGAATCCCA
GCTCCAGTATTTACATAGCTAGCAAATCACCCAGTCTCTATGAAGTTCGATTTCCTATTCTGTAAAATGGGAATAACAAGTACTTTATGGGTTTGTTACT
CAGTTTCTGGCACATGTGTGTGCTTATATTATTTCCTCCTGTTCTTTTATTAGATCTCTTTCTGAAGAGTAAGGATGTGAGATGATACTCATAAAAAGTC
TGAATAAGGGGGTGTTGGAAGCTTATAAAGGGTATGTTTTGAATATGGAGCCCTATTTAAGGTGCCTTAACAGATTTATTCCTTTCACTTTGGCTAATCC
GGGCAGTTTGATTTCAAAGTCCAGACATGAAGGGTGAAGAATTGTAGTCATTCTGCCTGTTATTTTTAAAGTTATTTTTAATTTTTTACAGCTGTCGAGT
TGATTGTCCTGGGTCTCTGTAAGCAAACTCTGTTCTCTGTGATGCAATTATTTGCTAGTGAGAAATTTATCTCATGGGCAACAGTGAGACTTAGGAAAAG
AGTGGAGGAGAAAAGACAGTTTATCTGTCTAATACGGAGAGGATCAAATATAAATTGGTAGGAGAGACTGGGAAACTCTGATAACAAATTTGGGAGAGTT
ATACCTCTGTCTTGGGAAACAGAGCCCTGAGAAACACCAATCTTTGTGTCAGCTGGTAGGATGAGGACAGTCGGTGTCTCCCACTATCTTCTGGTTACCG
TGCCTTCCAGCTGGCATCATTTTCCTCTGTTCCATGAGAATTTTCTTTGCATTTCAGTCTGGGCTGCTGGCCTCTGCCTCCTTTTTGCCTACTAAAAATT
CTGTGGACTCTCAAATTAACATTTTCAAACTGGTACATTCTTTGAGATGCAGCTCAAGGCGTAGTTCTTCTAAGAAGCCTCTCCCTTGACTATTCTGCAC
AGTTTAATGGTGCTGAGACCACCCTAAATTATTCAGGTAGCCTTGAGAATCTGAACCTTTGAATATTTAATGAATTACAAAATGTGTGTGTTGAGGAACA
GGAGTTAGCTACAGAGAGACAGATCAGAGTTAGTACCAACTAGAAGCACTTACACCTGACTTCCTTTTACCACTTTTGTCTTCTCAACTAAATTCCTAAA
CCTTCGCAGGATTGCCTTTCTAAAGCCAGGTGATTATATAACTCTAACAGATAAATATAGCTCTAGTTTCATCTATTTGCCCAGTCTTCATATTGTCTCT
ACAATTTTGGGTACAGTTTTTTGTTTTTGAGACAGGATTTCATTCCCATTGCTCAGGCTGGAGTCAATGGTGCGATACTCTACTCACTGCAACCTCTGCC
TCCTGAGCTCAAGGAATCCTCCTACCTCAGCTTCGAAGTAGCTGGGACTATAGGTGCGTGCCACCACACCTAGCTAATTTTTGTATTTTTAGTAGAGACG
GGGTTTTGCCATGTTGCGCGGGCTGGTCTTGAACTCCTAAGCTCAAGTGATTCACCCGCCTCCCTCCCTCCCTCCTGTGCCAGGATTACAGGCGTGTGCC
ACAGCACCCAGCCTGGGTACAGTTTATTTCACTTAATGTTATAAGCTTAACAATGCTTATTATAAAATTTGAGGATAATTTAATGGCTGCAGTGTGACTC
ACTCATTAAACCACTTTTGTGCCACCAAGACATTAGACCCTTTGTCTTCCTAGATTTTCAAAAAAAACAGGATATTGTTGAATCATTAAAGCCTTTAGGC
AAACTTGTCTTATGCCTAAAATTCTGTTTTTCCCTCTATAACTGTATACAGGATATTTTGACTGTCCAACAAGTAAGATGAAGGAATTAATTTTTTTTTC
TCTTAGAAGTGTTCACTGTGTAGATGAATAACATTTACAGTTAGATCTATGAAATATCTTAGGTTTTGTTTGTGATTGATTCTAAGAATTAAACAATGAA
TATTCTTTGCAACACTATAGTCATGTAAATATTCACAGCATAGCTGAGTTTCATAATTTGACCCATAGGACAAAAATAAAGTTTGATGATATTAAGCCTG
CAATATTTAAAAGAGAATATTCCAAACATCAAGATCAAATAGATTCTCTTTCCGTCACTTGCCACATTGTCTTTCCTTTGCATTTATACCTTGTCTTTGC
TTTTTGTTTACCTTGGAATTTTTAATTGCCTTTTTTATCTTAATTGGAGATTTTTTTCCTGATTGAAGAAAAACAGCATCTGCCATTACCTTATGACTAA
GATCACTTAGCTTCTTAATCATACTGTTTGTTATAGGAAAATGACTTTCATCTTGACACATTTTTCTCTAAGTCCTCAGAGTTCCTGTTCTAATTTCAAG
GCCTTCATTGAAATCCTGAGTTAAATCTTTCTCACATGCCATGTCATCCTACTTCTTAAAACCCTTTTTAATTTTGCTGTAAATCATCCCTGGTAATTTG
TTCAGAAAGAGTACACAGGAGTTAAACTTTGTAACTCCTTGCATATCTAAAATGTTTTGCCTAGCTGTTCTATAGACAGTCCTTCAACTCATCACCTTGA
TTTCTCCTCCTCTTCCTGCCGTTACTCTCCTTGTTGTCTAATTCTGTGCTATTCAGTATGGTACCTTCTGGCTACCTGGTCTGTTGAGTACTTGAAATCT
GGCTTATTTGAATTGAGATGTGCTGCAAGTATCAAATACACACTAGATTTTAAAGACTTAGTACAAAAGTAAAGATAAATATGTATACTATTTTTATATT
GATTATATATTGAAATAATATTTTAGAAATATTAGGCTAAAATATATTAAAATTAATTTCACCTGTTTCTTTTTACATTTTAAATGTGGCCACTATAAAT
TTTAAAATCACATATGTGCCTCACGCTACATTTGTATTTGACAGTGCTGCTGTAATTCCCAAGAAGCAGCAGTGGCTGCCGCATACAGCCTTTCCCCATG
GTCCTGAACCTGGCTTCTTTGGGTGGATTATGATACATCAGCATTGYAGTATGTCTACAATAATGTACATTTACCAATATAATCCCATCTATTTCCATCT
TTTGAAAATAGTTAAAAATTTCTAGTCTGTCTTTTTGCCCTTATTCCTCTCTCCCTCTCCTTCTCCCTCTCCCTCCTTCTGTCTCCCTCTCCTCCCTCCC
CCTCCCTCCCTCCCTCTCTCCCTCTCTCCTTCCCTCCCCTAATTACATTATTCCTTCTTGTACTACATTGCCACTTCTTTGGGGTTTGGGAGGAAAATGA
ATTTTCAGTCTATCAACGGGGAAGCAGAAGATTTTACTCATCTCATCACTATTTTTAACAACAGTGCAGTGGTTATCTTCATGTGTAAGTCAGTCTACAT
CTCTAGATATTTTCTCATGGTGGTTTTCTAGAAATAGATAAACTGTTCAGATTATGAATTTCTTGACTCTTGATATAGATATTGACAAGTTGATTCCTCA
AAAAAGTAACTAATTTATATTCTTAGTGGGTTATTCAATAAAAGGTGGGAGCAGTTACTCAAGGGTACCTACATTCACATCTGAACCCCTTATGTGGGTC
TTGTATCTCAGCTTCTGTGGAAAATTTGGCCTCTTTTCTGAATCACTAAACTTTTCTGGGCCTCTTTTATTTGTAAAACTGGGATAATCATACCCTGAAG
TAATGTATGGAAAAGCTCATTGAAAGTAGTATTTTATTATTTCAGCAAGTGCTTAAGAGCCTCCTACTTGTACTAAATACATGTTCTGTACTAGGAACTA
TGGAGGATGTCTAAATGATGTGAACCTGGGCCTCAAAACCAATTTACAAAAAAAAGAAGCTACCACACAAGTCTTTTTGTGATATCTAACAAGAAGTGCA
GGCCAGGCGCGGTGGTTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCCGGCGGATCACGAGGTCAGGAGATGGAGACCATCCTGGCTAACATGG
TGAAACCCCGTCTCTACTAGAAATACAAAAAATTCGCCAGGCGTGCTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGAAGAATGGCGT
GAAACCGGGAGGCGGAGCTTGTAGTGAGCCGAGATGTGCCACTGCACTCCAGCCTGGGCGACAAAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAA
AAAGTGCAAAGTGTTGAAGGGGTTTAGAGGAGGGAGGGTTTATATTGTATTTTAAAGATCAAGGACAACAGCCTAGAGGAGGTGGCATTTAAGGTAAGCC
TTGAAGAAGGAGTTTAATTTCAACAGAGAGTAAGGCTGGGAATAATGCGATGTGAGAATGATCTTGAGAAGAGGCACAGAGGGTAGGTTCAGGGCAGATC
CGTTGATAGCATTCACTAGAGTGTAAGCAAAAGGTGAGGAAAACTGAAATTGTAGGTTGAAATTTTTGTTTCTGCGAGTATACTTATTTGCATTTGCACA
GAAGGTGGTGATCCYTATATTTATTTCTGCTGTGCATCAATAGGGGAGGTGGAGATAAATAATTTCATTGTTTTGGCTCTGGCCAGAATTCATTAGGCAC
AGTTTGTTGTCCATAGGGAGGGGAACACAACACACACTGGCCTTTGTCTCCCTTCCACACAGGCTGGTGGAGATTCTGAGGCATTTTTAAACATTGCACT
TAGCCATTCAGATGATAACTTGGATCAGAAATTTTGAGAAGTGGTGGGATGAAGAAGATCCCTGAAGAGAGSAGTAACTGAGACAAAGGMGAGGCTAGCA
ATAGAGAGACAAGTGAGGGAATTAGACCTTTGGTATCATCATGAAAAGGTGAGTTTTGGGAAACAAAGAGTATGGCGGGCAAGTACCTAGCAGGTTCTGA
ATATTTGTTCTTTAGGAGTCACCATTTAAACAAGACCCCAAGAGTGACATTAGGTGTAACCAAAGTGAAATTGTTGACTACTTGATGAGATTCGTGAGGA
YAGGCATTAAATGATATCTTTTAAGAAACCATTGGCAGTCCTGGAGCTGATGACCCTAGTGCAGGATCATTATGGTTGCTTCTTTCATCATCTCAATTTG
ATGACATATTTGAATTGAACTTAAACTATACCTAAGCCTTAATCCCAGGGTCTACTAGTGATTCAGCTCAGCACATCTAAAGGCAATGATTATTCAAGAG
GATTACATTGGTATCTCCTGTCACACCAGCATTTAGTATTCTATACTTATTCCCTAAATATATCTCGTTGTCATTCTCCGATATTTACCATTTACCAATA
TTACCAATATGCCTAGAGCATAGCAATTGCTCAATAAAAGTGTATTGAAGAAATGACACATAATAGGCATTCAATAAATGTTGAATGAATAAATGAATAT
ATCCAATAAAAGCATRTGCTTCCTTTATTGGATGAGAGATGTGAAACCATAGACTCAAGAATAAAGTCATGGGGTACAGGGTAAAGTAAGATAGTAGATA
TAATCAGGAGCTTCTAGCTGAACTGGAGTCACCTTTAATGCCAGGCACAWGAACTTGACTTCATTTTATAGGCATCAAGAAAGAGCATCTTTGAATGTTG
CTGAAGATGAAAAATATCTTGGGCATGGTAGTAGGGAGGTGGGAGGGAGGTTTACTGTTCCTTAAATGAGGCTTATCCCTTYCTGCTTCCATGCGGCTGA
TCACCATTGTGATGAGGAAAGAGATGATTTTGAGCCAGATCTGGGTTTGAGACCTAGATTTACCTTGGGCAAATTTCTTAAACTGGTTAAAGGCTTTGAG
AGATACACCCTTTCCTAGGGTCATCTGTTGTGAGGTTGTGAGGTACAGATGAGAATTTATGTGTAAGTACTTATCATGGTGGTATCTGTCACGTGGTAAA
TACTTTGTTTTCTTCCTTTCCTGGGGAGTTTCCTTTTCTCTCTTCCCCCAGTCTTACTAAACTCCTGCCCATCTTTTTTTTTTTTTTTTCCTCTTCACAT
AAGCAGTGTAGCTTTTCCAGGGTTCCCAGATGAGACAGATATAAGCTTTCCCTTTGTTCATCTTCATTTGTGGAATTTTAGACTTTTGAAGAAAGATTTC
AAAGTGATAGGAGGAATGACACAGGAAAGGGTAGAAATCTGAACAAAATACTATATTTGGGAGCAGAAAAATAAGGGTCCATGAGAGGGTGTATGCACAG
TGTGAATAAAGGCATCTTGTCACTTAGGGCAACATCATTGATTCTCAGCCCATCTTTGTTCATCCAGGAGGCCAAAGAGAAAGACTGTCTTGCCAGTTCC
TAGAATTATCCACGAAAAAGGGGCTACTCACTCCTCTTTATTCAGTGAGAGCTAGCTACCAATCTCCCAGATAGCCCTGAGCTTTTAGAATATGATGGTA
TGTTTTGATTAGGATTAGGGCAGTCATTCTACAGACTTTTTCTAGGAAAACCGAGCTTGGTAAGCAGAATAGAAAACATCCAGAATGACATCAGTCTGGT
AAGCTTTGAAGGAAACAACCAAAGATGGTCAACACAACTGCTTGTTCTTTTATTTACCATTTCACACCTGGTGCAGTCAGGAAGCTACATTTAAAAAACA
ATTTTCTCTTTAAAAAGAAAAACAACCCGTAGTCAAAAAAGCACTCATTTGCCATAAAGCTGGAAGGATTCATTCATTGGAGCTGATTGTTCACATTTGT
AGAATTTAGAATTTTGTGGTTGGAAGGGGCCTTAGAGTTGAATAAGGTCTTCAAAAGGAAACAAAAGGCTCTTGCTTTCTGTATGAACAGAGTTTATTCA
CAAGTCAGTTTTCCGTGATCTATGAGGAGTGATTTCAGACAATTAGCTAATTGGTTGAGGCAGGTGACCTATCAGCTCTGTAGAGGGGATGTTTGCTCTT
AGGGATCTACATAAAGAACATATCTTACACTTTCCATGACAGTCAAAAGCAGCCCCATTAATCCTCCTATGTAATGGCCAGTCATAACCACAGATGAGGA
GTGCATTTCATGAGAACCTTAACAGCTGTCAACAGTTGATCACTGCCACCATCAGCTCAGTGTTGTGTGGGGCTTTGAAATATTACTGAATGATCTTCCA
ATTTGTTGTATTGTAGGGCATAAGCGGCTCTCCAGATATAGTCTGCTATTTATTTTTTAAGTGTTATCAGATGCTTAGTCTGTTGAAATGACACTTGTCT
ATTGTATGAAAAACAAGGGCAGGACTGACTTGTGACCATCTTGAAACCCCAAATGGGTGCAAAAAAAGAAAAGAGAACAGGGCAAGTTTGGCTAGGCAAA
TGTTATATTTTTCTGGATTTCAAGTGTGAAAGAAATTCAAAATGAAAGAAGAGTGTCATAGATTTGTCATGAAAGGAATCAGGGCCTGTCACAGTGGCTC
ATGCCTGTAATCTCAGCACTTTGGGAGGCCGAGACAGGTAGATCAGTTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATGGCAAATCCCTATCTCTA
CTAAAAATAAAAAAAAAATTAGCTGGGTGTGGTGACACATGCCTATAATCCCAGTTACTCGGGAGGTTGACGCACAAAAATTGCTTGAACCTGGGAGGCG
GAGGTTGTAGTGAGCTGAGATGACGCCACTGCACTCCAGCCTGGGCAACGGAGTGAGATTCTGTCTCAAAAAAAAAAATGTGGGGGTGTACAGGGAATCA
GGAGAAGATGACCAGTATGTATGAATCAGTAAATTCAGTCTCGTTGCCCTTAGTCTAAAACCCAGTGAAATTTGGAGTCATTGTTTTTGGAGCATATTAT
TAAGGTGTTCCCAGAATGTAAAGTTTTATGAGGAGAATGGCTGTGACAATCATGGGATGACTGGTCCTTCAAACCAGAACAACCACAGTACTGGTCATTA
AGAKATCTGGTTTTTTTGACACTGTGTGTATCCTTGTTAGTGTATTGGTTAAGGTCAGGGCTTTGGGTCTGTCAGAAATGGGATTGAATTCTGTTTTTGT
CACCTACCTACTTTATAACCTTGGCCACGCACATGGTAAGCATTTATCTCAGGAATATTTTCAGTTTATGTAAGAGAAAGCGCATAGTGTGTTAAATAGT
TGATTTTTCTCACATTACAAGAAGTCTAGAATAAGCAGTTCCTGCCTTTGGTGTAGACAGTCAGTGTTGCAATCAAGCATGCTTCTTCTGTCTTCCCAGC
CAGCCATCTAGTGTGTGGGCTTTCAGCCTCATGGTAGCAAGAGAAGCAAAAGCTTTCCCAGGAACCTCCAAAAGATTTCTACTTATGTCTTATTATTCAG
AACTGTGACATGTGGATACCTCCAGTTACCAGGAAAGTAAACATTCTGTTTGCCTAGACTCTCTAATTAAGGACAAACAAGGAAAAGGGATTATGAATAG
GCATTATGTTATCCAGCCAACAGTGCAGTGTCTGGCATTGAATTGAACATTGAACATTCAATGCTCTTATGATGGTGATGGTAACAGATAATTCACTTCA
TCCTGCTCTCCTGAAGAGTCAGGTAACATACTTAACATTTTATACTTTATGGAGTACTTTTGTAAGACATTTGATGGTGTATTGTTTTTATATGTTTAGA
AGTTCCTTGCTGACTGAGCCAAAGAAAGAAGATGAACTAGGAAGGATAATGTAGTCCAGGCCTTCATACTGACCTGGCCTGGCCTCGGGTCTTTTGCTTA
CAAAGCTTTCTCAAACCACTCTGAGCTACAGCAGTTGTTCATGCCTCTAAACTCCTAATATTACTTCTGACTTAATGCTGTATTTGTGCTGCTTTATATT
TTAAAAATGTACATGGCTTCTTAGCTAAGTTTGGAACTCCTTAATTACAGGATCTACACAGAATGTGTCTTACGGAATATAGAGAGGAACTCATTTGTGA
TTCATTTATTGACAAAACATTTTCTACTTCTCACCATTAGCTGCACTTGAGATAGGGTAGGGATGGGGAGTTACTAGAATGATGCTTTCTTCTTCTATGA
GGGAAGACTTTTATTTTCTTTGCCTAATACTCTACCATTCTTTCTCCAACTTCCACCTTCTTTCTCTTTTCCCTGCCTCTAAGAGAACGGTGTGGGTTGT
CAGGGGAGAAAACATATCATTCCATTCTTKTATTACTTTCTAGCCCCTCCTTAACTAAGTCTTGTCTGTGACATCACTGTGGGGAATTCTGCCTTACTTC
CTAATAGGGCAAAAACTTCTGACCCCTCCCTGCCATTTCTGAGACTACAGCAAAAAGGAAACCCCCGCATAGTAGCTTCTGGTGCCTTTTGCATATTGCC
TTTTGCCCTGTCCTTATTTCTTTTTGGACATTTGATTTAAGAGGCAAATAGTACTAGATGAGGAAATCAAACCCACTAACTGAAATCTACGCTGAGAAGC
AAATGATTATCTGATCTTTTGCTGAGACCAAATGCTAAGAATGTGTTGAGATCTTGGAACCCAAAGGTATTAGATGAACATTGAGCAAGAAGCATTTAAT
CGCAAGGCTGGTTGCCCAGTCCAAGGTTCTTTGAATGTTGTTCCCTGCTAGTGCTAGTACTATAGTCTTCAGAAGTCCATAGTCAAAGGTAGGTAGATGC
TGGAGTACTCACAGTCAGATTTCTGAGCAGTTGAATACAATGGCTTTTCTTCCCTTTACTATGATATTTTAGAAATAGAAATGACTAGATGCTAACATAT
TTTAGTTCAATATATATCACTTCTTGTCATTAATTCAATTCTTTGGTTTATTTTGTTTCTAATTGCACAGATAACAAGAATTTCCTAACATTTTTCTCAT
ACCCTTTGGCCACTTAATGTTCCCATGCTATTTATTCCTGTTCATTTTTCACTGTTTGATGATGGTTATTGTTGAAATTTAGCAAATAAAATGTCAGCTG
TGGCACCTGTATTTCCAGGGTCTAAAATAATGTGTAGACATCCATAGACAAAACACAAAATTCTAACTATTATCTATTTTATAAAACAAAGCACTTTACC
AAGGTTTTAGAGATTTAAGGTGCCCGTTAATTATCCCTCCTCCCAGGAAGTCAAATTATCCTTGTTTGCTCATGATATGATCTCATATTTGGAAAAACCT
AAAGACTTCACCAAAAAAAAAAAAAAACAACAACTATTACAACTGATAAATTCAGTAAAGTTGCAGGATACAAAATCAGCATACAAAAATCAGTAGCATT
TCTATATGTCAACAGTGAACAATCTGGGAAATAATTCTTGTTGTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGAGACAGTCTCGCTCTG
TCGCCCGGGCTGGAGTGAGTGCAGTGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAACAATTCTCCTGCCTCAGCCTCC
TCAGTAGCTGGGACTACAGGCGTGCACCACTATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATAGGATTTCACCATGTCAGCCAGGCTGGTATTGAAT
TCCTGGCTTCCAGTGATCCGCCTCCCTCCGCCTCCCAAAGTACTGGGATTGCAGGTGTGAGCCACCATGCCCGACCTGGAAAATAATTTTTTAAAAAGTA
ATCCCATTTATAGTAGCCACAAATAAAATTAAATGCCTAGGAATTAATTTAACTAAAAAAGTGAAAGATCTCTGTAATGAAAACTATAAGACACTGATGA
AAAAAACTAAAGAAGGCACCAGAAAATGGAAAGATATTCCATGCTCATGGATTGGAAGAATTAATATTGTTAAAATGTCCATACTACCCAAATCTATAGA
TTCAATGCATTCCCTGTCAAAATACCAATGACATTCTTCACAGAAATAGAACAATTCTAAAATTTATATGGAATCACAAAAGACCCAGAATAACCAAAGC
TATCCCAAGCAAAAAGAACAAAACTTGAGGAATCACATTACCCACTTCAAATTATACTACAGAGCTATACTAACCAAAACAGCATGGTACTGGCAAAAAA
ACAGACACATAGACCAATGGAATAGAATAGAGAACCCAGAAACAAATTCACATACCTACAGTGAACTCATTTTCAACAAAGCTGCCAAGAACACACACTG
GAGGAAAGACAGTTTCTTCAGTAAGTGTTGCTGGGAAAACTGGATATCCGTATGCAGAAGAATGAAACTAGATCCCTATCTTTCACCATATACAAAAATC
AAATCAAAATGAATTAAAGACTTAAATCTAAAACCTCTAACTATGAAGCTCCTACAAGAACTGATTGGGGAAAATCTCCAGGACATTGGTCTAGAAAAAA
ATGGCAAGTGGTAACTCCACAAGCACAGACAACCAAAGCGAAAATGGACAAATGGGATCACATCAAGTTAACAAGCTTCTGAACAGCAAAGGAGACAATC
CCTAAAATGAAGAGACAACCCACAAAATGGGAGAAAACATTTGCAGACTGCCCATCTGACAAGGGATTAATAACCAGAAAATATAAGGAGTTCAAACAAC
TCTATAGGGAAAAGTCTAATCTGATTTTTAAATGGGCCAAAGATTTGAATAGACATTTTTTGAAGGAAGACATACAAATGGCAGACAGACATATGAAAAG
GTACTCAACATCATTGATCATCAGAGATACATAATCAAAACTACAATGGGATATGTCACCTCAATTAAAATGGCTTTTATCCAAAAGACAGGCAATAGCA
AATGCTGGCGAGGATGTAGAGAAAAGGAAACCATCTTACACTATTGGTGGGAACATGAATTAGTACAACCACTAGGGAGAACAGTTTGGAGGCTCCTCAA
AAAATAGAGCTACCATGTGATCCAGCAATCCCACRGCTGAGTATTTACCCCAAAGAAGGGAATCAGTATTTTACACAGAGATACCTGCACTCCCATGTTT
GTTGCAGCACTGTTCACAATAGCCCAGGCTTGGAAACAACCTAAGTGTCTATCAGCAGTTGAATGGGTAAAGAAAATGTGGTACTTATACACAATTACTA
TTCAGCCATAAAAAGAATGAGATCCTCTCATTTGCAACAACATGGATGGAACTAGAGATCATTATGTTAAGTGAAATAAGCCAGGCACAGACAGATAGAC
ATTGCATGTTCTCACTTATTTGTGGGATCTAAAAATCAAAACAATTGCACTCATGGAGATAGACAGTAGAAGGATGGTTACCAGAGGCTGGGAAGGGGAG
TGAGGGGTGGTAAGAGAGGTGGGGATGATTAATGGGCACCAAAAGTAAAATAGAAAGAATGAATAATACCTACTATTTTATTGCACAACAGGGTAACTAT
AGTCAATAATAATTTATTTGTACATTTTGAAATAACTGAAAGAATATAATTGGATTATTTGTAACACAAAGGATAAATGCTCAAGGGGATGGGTACCTTA
TTCTCCATGATGTGATTATTACACATTGCATGCTTGTGTCAAAACATCTCATGTATACCTACTATGTACCCACAAAAATTAAATTAAAAAAGTTACAAAA
TTATAACCATCAAAAAAATTATTATTAGTCCTCCCTTCTGTTGTAGAAAATAGGAAGGAACCAAAAGGAGATGAACTTATCACCTTTACTCATGACAGCT
CAAGAGGGTCTCAGATATAGTCTGGAGATGCCAGTCTAGGAGTACTTGGTACAATGAGAGAAATATGAATCAGCAAGCAATATATAGAGTAAGACAAGAG
AAAACTGAGGGTGAAATCCCAGGGATCATAGACCTTAAAAGGATCCTTATGATGACTGAAAATGAGGATAGAAATGCAGGAAATTGTGGTGTCAGGTAAT
CTAAAGGATTTAGGAGAGGAGCCTTCAGGTGTCTCAAATGCTGCCAAGAAATCAGTGAAGATAAGAGCAGCAGTAAGTATCTATGGGATTTTACAACAAA
AAGTTTTAGATCACCCATGGTGAAAAACTTACTGTTCTCCCTGCCCAGTCTCCCTAGACTAATCACACAGGACCACCTACATTTTGTTTTTCAGTCTGTC
TTCACATCTGGCTCCCACTGTGTATAAAAATATGCCACTGGGCAGGGGGTGGTGGCTAACACCTGTAATCCCAGCGCTTTGGGAGGCCAAGATGGAAAGA
TCTCTTGAGGCCGGGAGTTTGAGACTAGCCTGGGTAACATAGTGAGACCCCCCACCTCTATAAAAATTGTTTAAAAATTAGCTGGGCATGGTGGTGCATT
CCTGTAGTCCTAGCTCTCGGGATGCTAAGGCAGGAAGATTGCTTCAGCTCAGGATTCGAGGCTGGAGTGAGCCATGATCGCACCACTGCCCTCCAGCCTG
AGTGACAGAGCGAGACTTTTTCTCTAAAAATAAAAAATAAAAAAAGTCACCAAAAGATCTTTGGACTCAAATTATTCATTATAATCCTAGAAGAAGGACT
TATCAGTATGTGTATTATTGGAAGATGGTTAGTGATAAGATTTTCCTTTGTAATTGGAGCCCAGTATTTCCGGGTGAAGACTGTAAAGCACTGGATCAAG
AGTATACTGATGGTACCACATGTCCCAGGCAGGCTCTGAAACAAAGCCCAGCATTATCCTCCTCCTTCTGTCATTTGAAGGACCATCTTTCCCATTAAAT
TATAAGAGATTCTTGATCTGCTATAGGGGATACACCAGTGTTGGGGCTCAATAAATATTTGGCAAAATTAGGCTCTGCAGGTATAAGACAAGGCAAAGGG
GAAGGTTCTTAAAAAAACAAAAACTATATCTTCAAATTTCTGCTCAGACTCTAGGGCATGAGGGAACTCCATGTGCCTGCTTCTTCCTCTAAGCACCTAG
AAAGGTTCTTTCTCAAAGTCAATAAACAACACTTCTTAATAGTTACTTTTTGGTCTCCTAAATGTTACTTTTTAGTTTCCCTACTGTTCAAGCCAGAGCT
ATGATTTGTCATTACTCACATATGCCTTCAAGTGCAGATAAATTTCCTGCATGCCATTGCTACCTCTTGCTGCATCCCATTAGACTCTTACTTAAGTTGT
GAGGTTTATTTTTTGATAACCAAAATTCACTTAAACATAGGATGTCATTTGTACTACTGATCCGTTTCTCTCATCATTTGAGTCAGGATATGTGTGTAGG
ACACTGGGGCTTTTACCTTCTTTTTGTGCTATCATAGCTTATATGAATAGAAAGCTCAGACACAGTGAGGACTTGATCAATATTGAAAGGAAATTTAAAT
CATACCAGGTACCCTATAAGCTKCTCCCCCAGGCAAATAAAGCCAGTGTTAAGTTGATCTCCCTAGGTTGGTGGGCAGGGAAAGTCCCAAGCCTGGTGGC
TTCCTCAGTCACTTCTTTAAAAACCAGGGGCCTCACCACTGGTTTCCAATAGCCTGTGTATTTTTAGTCCTGCTTTTCATGTAAGTTTCCCATTAACTGC
TTGCAGGAAATCTTTTCTTGGACATAATCTGCCCATTTCCTGAAGTCTTCCTCCCGCCTTGTGTCAGTTTGGGGATGAATCAAGTCAGCAGTTTTGGAGG
GGGTTTGTTCTGTTCCCCGCCACAGGCTCCCCACTTTGTAGAGTACCAGAAAGCTGCCTTTCTTGTCTTTTCCTAGAGGCAAAGGGAGGAGGGGCAAGCC
CTTGGTGTGTGTCTGCCTCTTGGGTTGCCCAACACAAATGCCCTTTTGTGTGTGGAGGGGGCATGTGTGTTTTTTTTCCCCTTCCCAATGGACACTTTCA
TTTACGAGGTCCGGATGGTGTCCTCTGGGCTATAAACAATGGCATAGGAGATAAAGAGCTGCCTTAGTGACCAGGCTGTGGTGGCAGCCACTGGTTTTCC
ATCTGTGTCTCTGTTTTCCAATCCCCTTGGTCTATTGTGAGTTTGGTCTGATCTGAGCCAGCCTGGGACCTCTGTAATCCCTTTCTAGGCCCAGAGCAGC
GTGGGCACTATTCCTCTTATCCTGAGGACTTCAAGCTTAGAGAAAGAGGTTTTCTGTGGTAAGGATAGCAACTCCTCATGTTTGCACAATGTGTTTAAAC
ACATTATATCTTTTGGAGAACTGAAATTCTGGATTTGTTATCCCTTAAGAATGGAGGATTCGGGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCAC
TTTGGGAGGCCAAGGCAGGCAGATCAGGAGGTCAGAAGATCGAGACCCTCCTGGCCAACATGGTAAAACCCCGTCTCTACTAAAAATACAAAAAATTAGC
TGGGTGTGGTGGTGCATAACTGTAGTCCCAGCTACTGGGGAGGCTGAGGCAGGGGAATCGCTTGAACCTGGGAGGCAGAGATTGCAGTGAGCCGAGATTG
TGCCACTGCACTCCAGCCTGGCAACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAGAATGGAGAATTTGGATCAAAAGAGTTGGAGTGCTGGTCCT
GCTATTTATTTATTTTATTTTTATTTATTTTTTGAGACGGTGTCTGTCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATTTCGGCTGACTGCAACCTC
CACCTCCCGGGTTCATGCAATTGTCCCGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCCACCACCATGCCCTGGTAATTTTTGTATTTTTTAGAA
GAGACAGGGTTTTACCATGTTGGCCAGTCTGGTCTCGAACTCCTGACCTCAAATGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGGTTACAGCCATGA
GCCATTGCACCTAGCCTGGTTCTACTATTAATAACTGTGAGATCTCAGGCAAATTCTAGAACTAATACCTTTCTACTTCATAGGGTGTTCCACAGTTCCA
TTAAGAAAATACGTTATGGGAAGAAAAATATTTCCATTAAGAAAATAACATATGGGAAGCACCCAAATGTTAACCAAAAAAGGAGGGGGTGGGAAGAGGA
AATGTACAATGAGACAATATAAATGAATACGCTATGCATAAGATGCTAAGTATATAGTCACTATTTGGTTTTAGAGGTCTAAGAGTAAGCCTTTTCTCCA
GATAAATCTACCCCTTCACCTGGATTCTCATTCTGACCATCACTTCCTTCTCTGTCATCTATCACTACGGGCCCTTCTTTCACATGTTGACATGACTCTC
CTATCTCAAAGCAAACCACTATTTCTTGATTCCAGCCCCTAGCTCAGTGCTTGGCCCAAAGTAAGGTTCAACATTTTCTTGAATGGATACTTGTGAAAAA
CTCCAAAACGCAAAGCCTTGTATTTCCCTTCTTTCCTGTCCCCAGAGACCTGCTGTTTGTCACTCAAACTTCTTTATTTTTATACCCAGGGATCACTGTG
AGAAATGGAAACCACTCCAGATACTTTAAACAGGAAGGAATTTAATACAAGGAATTAGATGCTTACCAAATGATAGGAAGAACTAGAGCTGCATGTTCTA
GTTTAAGAACTCCATAGGTGACCTCCTAGGACACCACTGGTGATCCATTTAACCCCCACCCACACCCCATAGCTGTGGTCTCGGGTATGGGAGGTCAGAC
TTGAGAAGCTACTAATGAACCTGCCCCATGGCACTCAGGAGGCTGGATAATACCTCAGCCGCATAAAACAATCAAACGTCTATATCCTTTTTTGCCAGTA
GAAACGAGAAATAGCCAAAAGAGAAATGGAAAATGGTCTTAGCCTCATTTCCACCTTACCAGTCTTATATGAATGCAAGTAATTGGCAGACTRCCTGCAA
ACAAATTTGGTAAAGGTGACTTTTAGTTTTCCAGATTTTCTAACTAGAAGGGGAATGGAATTGATGTTGAGTGGGCCAACCTATCGTACATACCAACCAA
CTTCATCTAGAAAGTATTTCAGGTAGCAATATGGCGAGATACATGCTAGCTGAGAAAATCCAAACAGATCTCTGTGTTTCTAGTTATAACACCTTCCAAG
TACAAAACTGCTTCCATAAAATCATGCTTTTCTGTGGGAAATCTTCACATTTCCCTGTGGCCTCTAAAATGGTCTGGTTGCCCTAGCAGCCAGCTCGCCT
TGTACTTGTTGAGTACCTAGGGTATTCTCAACAAATGCTTGAGTGAGTGCCTACTATATGTGTCAGTTACTATGAACACATCAAAAACACATCAAAAAAG
AAAGACAAGGCCCTGCCTTCAAGGAGTTCATGATGGTCTAGTAGGGGGATACAGAGATGAAAACAGTTACAAAGTGATATTATAAATGCTAAAAGGAACA
CAGATGAGAGATACATAAATCGTATTGGGGGATAAAATGAGGATAAATATGAAAGGGCCATCTGTACTCTTGTAAAAAGTTAAGTGTAAGGGATTTTTAA
TTAATATAAAGAGCCTACAAGACTGGCCTTATAAACTCTCTACTCTCTTTCTCCTAGCCACGCAACCCAGACACAAAACCCCAAAAATGTTCTTYATTTT
TGCTAACATTTTTAAATGAAAAATTTCAAACATAAAGCAAGATTGAAAGAATTTTACAATTAACACCTATTTATCAACCATCTAGATTCTGTCATTAATA
TTTTACTATGCTTGCTGTATCACTTATCTATTTGTCTATCCATTCCTTTGACCACCCATTGTGCATCTTATTTTTTATAGCATTTAAAGTAMATTGCAGA
CATTAGCATATTTCTCCCTAAATACTTTAGCATGCATATCATTCCCTAGAGTTCCACATCTGTTGAGTATTTTTCTTTGAGGTAAAATGTACATGGAGTG
AAATGTCAATCTGAAGTGTTCTTTGAGATGTGACAAAAATGTAACTAAAGCTCCTATCAGACTATATAAAACATTACCATCGTTCCAGAAAGTTTCCCCA
TTCCCCTTTCCAAACAATTCTCACCCCACCCCCACCCTCCAGAAGAAACAATCATTCTGATTTTTTTTCTACCATAGATTAGTTTTGCCTGTTTTAGAAT
CTCATAGAAACAGAATCATACAGTATGTACTCTTTTGTGTAAGGCTTCTTTCATTTGGTATAATACTTTTTGAGATCCATCCATGTTGTTGAATGTATTT
ATAGACCATTCCTTTTTATTGCTAAGTAATATTCCATTGCATGAATATACCACTTTGTTTATGCATTCTCCTTCGGATGGATGCCTGTGCCGTTTCCAGC
TTTTGGCTATTATGAGTAAATCTACTATAAGTCTGTAATGTCATTTTTAATAGACTTTTTGTCAGTTTTATTACAGAAGAACTGAGAAGATGGTACAGAG
TTCCCATATACCCCACACCCAGCTTTCCTTATTATTAATGTCTTACACATAATGTCTTTTTTAAAAAGCCTTCCGCGGCTTAGTGTTTTTGATGGCTGCT
TAATGGACTGCTGATTGGGAAGACTGCAAATGCAATGCTACCAGTAAATGCCCTGCAACAGGAAATTGTTTTTGTCATCCCATTGAGATTATTGACCCAG
GATTTATTTTATCAAACAATGTGGACCCGAGAGTGCCTAGTGTTTGGTGTGTATATCCGTTTCTCGGAATCTTGCTCAGGGAAGGGTCCAAGGTCAGGTC
CTTGTGTCTGCAGGTGAGGGTAATAGGGCTTTGTCCTCATCTGCACAAGCAAATGATCAGCCCACCACGACTTTCCCACTTTTCCACTTCTAGGCCTTCC
TGTCACCCACAACAAATTCCCAACAAGTTTGTAAGATGTTTTGCCAAAGCACAGCTTATTATTATAATGACAATATTTATGCTGTACTTGCCAGTTTATA
GAGGTCTTTAACATCCACTTCTTCAATTCAATCTAGTAAGGTATTATATCCATCTTCTAGAGGAAAAACTAAAATTCAAAGAAATTTAATGATTTATCCA
AAGTGACACTGCTAGTTATTAAGAATTTAGGATATAAACCCAGCTGTCTTGCCCTTAAATCCTGATTTTTTTAAATGTATTATTATTTTCAAAATTTGGG
GGGCTCACCATTGTTTTTCAAGGCAAAGTTCAAACCATTTAGTACATCATTTAAGTCCCACTGTGGTTGGGACTCAACCTACCTTTTCATTCTCATGTTT
TCCTGGCTCCCTGTAGGCTCTAGAAACATTCAATGGTATGTTGTTTCCCAAACACTTCATGAATATTGCTACCTCTGTGCACTTTAATGATGCCTTCTCC
ATTATGTTCAGAATATTATTTCCTTTGTTCCATGCTTCATATCTTGGCCCCAAAATCTGTTTCTGGGAATATTGTTCATCCTTTAAGGCTCATTGCAGAT
ATTGTTATTTTCATATGAAACATCTCTTGATTACTTTCCTCCTCCCACAACCATTCCCAGCTTGAGGTGCTTGGTTCCCTGTTCTGTTCATTGATTAGAC
TTTGAATGCCCAGCAGACCCCATTTCATATTAAAATGCAAAGATAATTAAAACATGATTGTTTATCATTCTTATAGGCTATTAGTGAATCAGACATGTAC
AGAAGTGATGATAATATGACATGAGGATTAAAATTGACCCAGATACCGATTTATTGAGTTCCCACTGTATACCCACCACAGATGCTCAGTACGTATTTGT
AGAATTGTATTGAATAATAGACATGATGCATTTGCGCTAAATAGGAATGATCTTGAGTATAGACAAAGAATGGTGGCTTACCTGCTGTGGTTAAAGAGCA
TAAATGGGATCTTTGCTCAAATAAATCTCCATCCAATTTCTTCTTAGCCTTCATCCCATCACTCCACCACCACTTTCTGGCTTTCCTACTTCTAGGCCTT
CTTCTTACCTCCAGTAAATCCTCAACAAGGTTTTAAGACTTTTTTTCCCAAAGCATAGCTTATGGGGAAATTTTACCGGGTCAGAACTGTGTCTGCTTTG
TATATATTTGAGAGTAGCAAACTGAGTTAGTTCTGAGATGACTGAAAAATTCTCCACAATAGAATTTCATGTATTCAACAGAAGTTACTAAGGTCCTATT
CTGTACTGAGAACACAAAGATGAACAAACTGTTATCCTTGACCTCATGAAGCTCATAGCAGAATGCAGACACCACACACAAATTCATGGAAGCAACGTGA
CTCTTTTTTTGGAAAAAGATAGGACAGAAATAATTTGAAGTAACAATTTCTTATTCCTACAGGAAGGCCCTTCAGAGTGCTTTCATGACCAAAGTTTCAG
TTATTTACTCTTCATTTAGAAAAAAAAATTGTCCAAACTTGATTCAGTAGGGTTTACTGTTATCCTATTAACCTGCAACCACTGTATGTCATTTCCTTTT
ATAAAGAAATCCAAATAAATGCAGAAATGAAGTCCTCTTAAAAGTTTCTCAGTGTGACCTTAAGTAATGTTTGCATTTCAGTGGTGTTTGTGTTTTATAG
CCCTCCTCTGACATCAAGTTGTGATATTTTAAATGAGACACTTATGTAAAAATAAGGGTATGACACTTTTTCTATCACACAAGGTTGGAAGCATCTTTCA
TAAAAACTAATGAAGTTATTTAGATATGGATATAGAATAAGCTCCAAGATATAAGTGGAATAAAGCAAAGTGCATTTAATATACTATGATGCTTTACTAT
ATGTATTAAAAGGGGGAAGACATTGTATATATTCACTCTCATATCCATAAAATATCTGTGAAATGAAACACAAGATAAGAATGATTGTCTCTACAAAACA
GAATAGGATGGCTGGAGTTAGGGTAGGGAAGACTTACAGTTTGCTATTTTATACCTCAATTCTTGAGCCATATTGTTAAAAAATACAATGTTTAAAAAGA
AATGAACAAAAATGGTTTGGGGGTAGCTTACTGCTGAAGGTTCATAGGAATAGACTCTGGTGAATTTTCTTTTTTATTTGTGGCAATACTACTGGCATAT
TTTCTAGAGAAATTACCTGTGAAGTATTATCTATATATCTTGTGATTTAACTACTGACAATGTAGTGGTTGTCAGGATGTTGCTAAGTCATGTAAGATCT
TTGAAAGCCCACACTTTACGTGGGTAGTAGTTGCTGTGGTCAGGAAGAAGGCACATCAGAACACAGATAGAGTTCTTAGAAATCTAGCATCATAAACCCC
CAGGGCTGAAAGAACCAGAGTTCATTCTAGTCCACCTCTCTGTATGTTCGTATGTCCTCTACAACATTCTTGCTTAGGGATCTTTGTCATTCCGGTGTTG
TTCAATATTATTAATAGAGCCTCAGCAACGTGGTTTCTGTGCTGTCTGGAATGATCAGTGGACTAGGACTCAAATTACTTGGTTCCTAGTCTCAGCTCTG
CCACTAATTAATTCTGTGGCTTCAGGCAAATCACTTTGCCTCTCTGGGCCTCTGTTTTTTCATGACTGAAGTTAGAGCATTGGCCTGATGGTTAAGCACA
TGGCATGGTCACTGTTGCTTCCCCTCCCCACCTATAATAGACATTACTTCTTAGTTTTGGCAGGTTCTTTGTGGTGGATAACTACAAACAAAGTCTCAGA
ATCCTTCTCAACACAGCCTTCCAGGCAACTAAAATCAGTAGATAGAACTTGGATGGGACTTGACAAACAAGATAAAAGTTACTTACTTCCATCTCTAAGG
TTCTCAAGTAGCAGTGTGCAGGTACATATTTAATGACAAGTTCTCAGCAAAAAAATAAGATGCCCTGGTTTGCATCGTTTGCCAATTCCCATGGTGTAAA
TATTCACACCATGACTGATTTCAGACTACCATTGCGAAGTAAATTGGGTTGCAAAGTTCCCGAAAGTTTAACAGTCAGCTTTTATGAGCTGATAGAAGCT
GTCTCTGGCCCATCACTGTAAAATTAATGACTTTAGATTAGCTGGCCATAACCATAAGTGAATATGAAAATGACCATCTTCCTTTGGGAGTTTTATCMAG
AGGCATAATTCTTACCTTGTRYGGTCTTTTGGACTTCGGAAATACTTGGTTGTCATCAGACCTTGATGTTTTACTTCCCTGAACCTCAGCTACACTATCT
GGAAAATGGGAATAAGGATTCCTACTTCAGAAGATTATAGTGAATAATGAGACACTATGTATAAAGCACTTAGCATGGCATCTAGCATATGGATTGATAT
TCCCCTTCCCTTAACAGTGTGGTAGATTATATCTTTATCTTTCCCAGACTCATGAAAGGCTAGCCATTGCTTTCCCTCTAGCACCTTTCTTTTTCCATTA
TACTCCCTTGGCATTCCATTTTCCTCTGCTCTAATTTACTTAATCTTCTGTCTGAGTGGAATGTTAAATATTTAATCTTACCTGTTCTTAATGTTTTATT
TATCATCTATCCAGGCACATTTGTGAGTAGAGACCAGCCCTGTGTAAGTCTCCTGAATTATACACCATCACAGCATCATAAGTAAATAAGTGCTAATAAG
TCCCCACTCTTGGGATCAAACTTAAGGATGATACCGAAGGGAGCTTGTGTTACATGAGCACAAGAGGAGGCTGCTAAAGATCAGCCAGAATATGATATAC
TTGTAGAATTCTGTCTCCTCCTGTGTACTTATGGCCAGTGACCTCACGGCAAGTAGAAAGAATTTCACATTTTAAGAACATGCCTCTTTAAAAAAAAAAA
ATTCAGAGGGAGTCAGGCATGGTGGATCATGACTGTTATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGTAGTTTGAGACCAGCC
TGGCCCACATGGCAAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGCACCTGTAGTCTCAGCTACTCGGGAGGCTGAGGGAG
GAAAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATGGTGCCAGTGCCCTCCAGCCTGGGCAACAGAGCCAGGCTTTGTCTCAAAAAAAA
AAAAAAAAAAAAAAAAAGAAAGATTCAGGGGGTACACGTGTAGGTTTGTTCCATGGATATATTACAAGATGCTGAGGTGTGGGCTTCTATTGATCCTGTC
ACCCAAATAGTGAACATAGTGCCCAACAGGTAGTTTCTCAACCTTACCCCCCTCCTCCCTCCCCCGACCTTTTTGGAGTCCTCAGTGTCTACTATTTCCG
TCTTTATGTCTGTGTATACCCAATATTTAGCTCCCACATATAAGTGAGAACATTATAAGTGTGGTGTTTGGTTTCGTTTCCTTTTTTTTTGAATTGGGGA
GACGGAGCCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTGACTACAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCCCAGC
CTCTCAAGTAGCTGGGATTACAGGCACACGTCACCATGCCCAGGTAACTTTTTGTATTTTAGTAGAGATGGGATTTCACCATGTTGGCCAGGCTGGTCTC
GAACTCCTGACCTCAGGTGATCGTCCCGTCTCAGTCTCCCAAAGTGCAGGGATTACAGACCTGAGCCACCTCATCAAGACTGGTTTTCTGTTTCTACATT
AATTCACTTAGAATAATGACCTCCAGCTGCATACATGCTGCTGCAAAGTATGTGATTCCATACTTTTTACAGCTGTGTAGTATTCCATGGTGTATATGTA
CTATACATTTTAAATCCAATCCACCATTGATGGGCACCTAGGTTGATTCCCTGTCTTTGCTGTTGTAAATAGTGCTGCAATAAACATATGAGTGCATATG
TCTTTCTGGTAGAATAATTTATTTTCCTTTGTAYATATACTCAGTAATGGGATTGCTGAGTTGAATGGTAGTTCTATTTTTAGTCTTTGCAAAATCTCCA
AACTGCTTTCTACAGTGGCCGAAGTAATTTACATTCCCACCAACAGTGTATAAGGATTTCCTTTGCTCCACAGCCTCTCCAGCATCTGTTGTTGTTTTTT
TTTTTTTTTTACTTTTCAGTAATAGCCATTCTGAGTGGTGTGAGATGGTCTCTCATTGTGGTTTTGAGTTGCATTTCTCTGATGATTAGTGATGTTTGTA
CATTTAAAAATGTTTGTTGGCCCATTGTGTGTCWTCTTTTGAGAAGTGTCTGTTCATGTCCTTTGCCCACTTTATAATGGTATTATTTGTGTTTTTTATT
GAATTATTTAAGTTCTTAGATAAAGATTCTCAGTATTAGTCCTTTGTCAGATGCATAGTTTACAAATATTTTCTCTCATTCTGTAGGTTGTCTCTTTACT
CTCTCGATAGTTTCTTTTGCTGTGTACAAGCTCTTCAGTTTAATTAGGTCCCACTTGTCAATTTTTGTTTTTGTTGTAATTGCTTTAGAGGACTTAGTCA
TAAATTCCTTGCCAAGGCTGATGTCTAGAAGGGTATTTTCTAGATTTTATTCTAGGATTTTTATAGTTTGAGATCTTACTTTTTTTTTTTTTTTTTTTTT
TTTTTTTTTGAGACAGAGTCTCCCTCTGTCAGCCAGGCTTCAGTGCAGTAGCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCC
TYGGCCTCCTGAGTAGCTGGGATTACAGGCACGTACCACCACGCCCGGCTAATTTTTATATTTTTATTAGAGACAGGGTTTYGCCATGTTGGCCAGGCTG
GTCTCAAACTCTTGACCTCAGGTGACCCGCCCACCTCGGCCTCCCAGAGTGCTGGGATTACAGATGTGGGCCACTGTGCCCAGCTGAGATCTTGCATTTA
AGTCTTTAATCTATCTTGAGTTAATAATTATGTATCATGATAGGTAGGAGTCCAGTTTGATTCTTCTGCATATGTTTAGCCAGTTTTCCCAGCACTATTT
ATTGAAGAGTCTTATCCCCATTGTTTTTTTTTTTTTAACTTTGTCAAATATCAGTTTGTTGTAGGTGTGTGGCCCTATTTCTGGGTTCTCTATTCTGTTC
CATTGGTCTACATGTCTGTTTTTGTAACAATACCATGCTGTGTTGGTTACAATAGCCTTTTAGTATAGTTTGAAAGTTGACTAATGTGGTGCCTCCATCT
CTGAAGAACATGTCAATTTTTAAATGCAAGTAGAGTACTTTTCAAAAGTTTCCCAAAACTGAACTTTTGTTAAATCTTACATATAATCTTCTCCCTCCTC
TAGTACAATGTTTATAAAATGAGAGATACTAGAGGAAATGCAGTGTGAWCTGTGCTGCATCTCTTAATTACAGGAACCATTTCTCCGCTTACTGAACACA
TACTGCACTCCACGCTGCTGTGGGCTAGGAGTAAAAAGACATGAGCAATTTTTCCTGCTTGCAAGGAACTTAAAATCTATAGTAAAGAGGTAATTCAGCC
AAAAAGTATAACATAAAGTGATAAGTTCCATCGGTAATAGAGGTAAGCAGGAGGTAGAGCAGACCATACATACGGGTCATTTCCATCAGCCAGGGATGGA
TAGAAGATTGTGGGAGAGCATCCTGGAAGGAGTGATGTCGGAAACATCTGTTCCCCTTCTTTCCTCTCTCACAGCTCTTAGTACTGTGCTAAGGTTAATA
AGTCCTTGGTACAGGGGTACTCATATCCACCCCCATGGCTTCAGTTACCTTTCCTATATGCTGATGACATCCAAATGTACATCTCCAACCCATGCATGAA
CTTTTCAGACCAAATCCTTGGCCTACAGCTCGGGAAACCTGCCTCAGTAGATGTCATAGTTGGCTCAAGCTAGAAACCTGTAAGTCATTCTTCACTCTGT
TTCAACCCCCACATTCCAGCAGTGACTAAGAAATTGATCAGTTAAATATCTCTTTTGCATTACCTTCTCTCTCTCTCCATTGCCCACCACAGTTTAAGCC
ATAATTTCTTACTGGGACTATAATATCTCCCAGTTGAGACTGGGCACAGTGGCTCATGCCTGTAACCCCAGCACTTTGGGAGGCCATGGCAGGTGGATCA
CTTGAGCCCAGGAGTTTGAGATAGATCAGCCTGGGCAACATGACAAAACTCCATCTCTACCAAAAAAAAAAAAAAAAAAAGGCAAAAATTATCCAGGTGT
GGTCATGCACACCTAATCATAGCTACTTGGGAGGCTGCAGTGAGCTGTCATAGCACCACTGCACTTCAGCCTGGGCAACAGAGTGAGACCTTGTCTCAAA
AAAGAAAAAAATCTCCCAGTTAGTATACCTGATGCTAGGCTTGCTCTTCTCAAGCTTTTCACACAGCAGCCAGAGTGATCTTTYTAGAACATAAATCCAG
CCATAGCACTCCTCTTTTCTGTTGTCCTTAGGATGATGTCCAAATTCCTTATCTTCTTCCCACATTGAACAAGGATAAGACCCTCTTCCTTGCTATTAAT
TCTCATGGTGCACCATATTTTCCTTGATCATAATATTGATCATGCTTTATCATAATTACCTGTTTCTTAGCTGGGCATGATGGTACATCCCTGTAGTCCC
ACCTACTGGGAGGCTGAGGCAAGAAGATTGCTTGAGCCAAAGAGCTCAAATCCTGCCTGGGAAACATAGTGAGACCCCTGTCTCTAGAAAAAAAGAAAAT
AAAATTGTTTTTCAAAATTATCTGTTTCTTCTCACCTGGGCGCAGTGGCTCATGCCTGTAATCCCCGCACTTTGAGAGGCCAAGCAGGGGCAGATCGAGG
CCAGGAGTTCCAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCCACAAAAATGCAAAAGTTAGCCAGTGTGGTGGTGTGTACCTGTAATCCCAGCTA
CTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCACACCGGTGCACTCCAGCACTCCACCCTGGGTGAC
AGAGCAAGACTCGGTCTCAAAAAAAAAAAAAAGTCTGTTTCTTTATATCTCTGCCAGATACTCAGCTCTGAGATCATGGACCATGTCTGTTTTGTTTACT
GCTGTATCCTCAGCCCGTGGCACAGTGCCTGGTTTACAGTAGAATAATAAATGTGTAAGTTAATTTTTTATTTTAAGTGCACTTTAATAATTTTATATCT
CATAAAAATGAAAAGGCCTCAAATGTGGCTCTCTGCTAAGTATGATTAGTCATATAGTAAATTATTTTTATAGCAGATCTTGTTTAGGTTGTGAACATGG
GTGAGAAATTCCAGTTTCTGTCATTATGTCTGGTTCTATCAAGAGCCATAGAGATGAATGTTACCAAGCCTAAGGGTAAGTTAGAGAGGAAAACATGGGA
GAAAACTGTAAAGAACAGAAACTCTACCACTTTTTTCCCCAACTAGTACTGCAATATATATCTTCATACATACATCTTTTTCTTTCCTTTGAATTATTAC
CTTAAAGTCAGATGCCAGAAATGAGAATTATTGGGCACAAAGGGATGAACATTTTTAAGGCATTTGAAATACTGCCAGATTATTTTCCAAACACATAATA
CTAACAAATAGTTCAGAGCAACATGCAAGGGTGTCTGTTTTATCACACTACAGGGAATTGTCATGAAAATCTTTTAGCTGGTTTAATGGAGGAAAAAATG
GAGGAAAAAAAATTCATTTTTAGTTAAGGTTTGGTGTTTTTCATCTGATTATTTATGCAGCTCCTTCTGAGGGTGCATCCAAACGCTCACAGCCTTGTTT
CAGAGGCTGAGAGGCCTGCAACCTCAGCGGCCTCTGGGGCACAGCACCTCTGTTGTGCAGCAGCAGGGAGGGGCAGTGATGGAGGGAAAACATAACACAG
ACCRCACCATTGTTAGGGGATGAGGTTGCTGGGATAATGCTGTGAGAAGGGATGAAAAGAACGATTCTCCATTCTTGATTGTTGTGATTTCCAGGGATGA
GCCAACAGCTCCAGTGCGGGAAGGGATGGGTCTTTACTGCATCCAGATGCTCCTTTTTCCAGTGCTGCCTCCGATTATTTCTGGTGAGAAGGGGTGGTGG
ATAACATAGCAGCTGAAACAGATTAACTTTTATGCCAGTTTCCTCCCTTTAAGTGATTGCCCTGGACCTGGGGACATTCAGAATTCGTCAGAAACCGTTT
AGAAATAAGAATGTGGTTCAAGGTCCCTGGTGTGCAAGAGCCAACCTTCTGGAGTTTGCGTACCATTCCTGCCTTTATCTGTGGGAGCTGCTTGAGGCAA
AGGGATCTTTCTTTCCTCTCCTTCCCTACTGCCACTGCCGTTGTTCAGGCCCTTATCCTGTTTTGTCTGGGCTTCCTGTTTCCCTTAATCTATCCTCATC
TATGCTGTTGCCAAAGTGATATTTCTACTATGCACACTGGATCCTATCCCTCTCCAGTTAAAACTGTCAGTGGTCCGCCACTGCCTTCAGGATGAAAGTC
AAGCTCCTTTTCACAGCTTTTTTTTTTTTTTTTTGGCATTTAACAATCAGATCCCAAAATGTCTTTCCTGACTGGCTCCCACCGCTTCTCTGGACTGTTC
CAGGACCCTGACTAGTGCATGCACTCTGTAAGGTGCTTGTGCTGGTCCCTCCTCCTGATAGCCCTTCTGCCTCTGTTCCACCAGATTCACTCCTGATCCC
TCATCTCCCTCCTCAAAAAGAAGTCTCCCTCAATTATCAACTCTCTGATGGATTTTCCCTGGTAGGTAATCAGTTCTGTTCCTGTAACCCTCTAGTAGCA
ACTATATACAAGATTGTGATTTCTATTATTATTTTCCCCTAAATCAGGAATTATCTTCCTTTTGTATATTCATATTTGTGGATCCCCAGCCCTTAGTACA
ATATTTGACACATAATAAATGCTCCAGAATATCTTTTTCTTCCTTCCTGCCAGGTTGTTTGTAAGTTCTTTTACCTTCAATGTGTTCTTAGTTTTAGAGT
TAAAAGGAAATGTAATGTAGTTTAATCTTCTTCTTCTTTTTCTTGTTTTTTAATGGTTGACAAAACCAAAGCCCAGAAAAGAAAAGAATTCACCCTGGGA
TGATCAGCCAGATATAATGGCAGGGCTGTTTAGGGCTGATCTCCTTAGGTAACTTAAAAAGAACCTTGAAACAAAAGATTGCATCAGGAGGAAAGGAAGG
AGCAAAGATTCGTTGCCAAGTTCTTTGCTGAATGCTTAATATATGTTACTTTTTAAAAAAATTATTTCTTCTTTTGATTGTGATAAAATACACATAACAT
AAAGTTTACCATCATAATCATCTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCACTGTTGCCAGGCTGGAGTGCAGTGGCGCCATCTCAGCTC
ACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTATCCCGATTCAGCCTCCCGAGTGGCTGGGACTACAGCTGCCCGCCACCACACCCAGCTAATTTTTGT
ATTTTTAGTAGAGATGGGGTATCACCATGTTGGCCAGAATGGTCTCAATCTCTTAACTTACGATCTGTCCACCTTGGCTCCCAAAGTGCTGGGATTACAG
GCGTGAGCCACTGTGCCCGGCCCATCGTAATCACTTTTAAGTGTATAGTTCAGTGACATTAAATGCATTCATATTGCTGTGCAGCCATTACCACCATCCA
TCTCCAAAACTCCTTTCAGCTTCCCAAACTGAAACTATACCCATTAGACATTGATGCCCTATTCCTCCGGTGGCCTAATAACCACTGTTGTATTTTTTGT
CTCTCTGAATCTGGCTACTCTAGGCTTGCCATGTAACTTTGTCATATAAGTGGAATCACATGGTATTTTCTAACTGCTTATTTCACTTAGCTTAATGCCC
TTAAGGTTCATCCCTGCTGTAGCATGTGTCAGAATTTCCTTCCTTTTTAAGGCTGAATAGTATTCCATTGTATGCATGTACTGTGTTTTATATCTCCATT
CATCCACCAGTGACATGTGGGTAGCTTCCACCTTTTGGCTCTTCTGACTAATGCTGCAATGAACATAGGTGTAAAAATATTCCGTTTGTGTTCCTGCTTT
CAGTTTTTTGGGGTCTGTATCCAAAAGTAGAATTACTGGATCATATGGTAATTCTATTTTCAATTTTTTGAGGAATTGCCTTACTCTCTTCTATAGCAGC
TGCACTATTTTATATCCCCACCAACATTGCACAAGGGTTCCAGTTTCTCCATATTCTCACCAACACTTATTTCTATTTTTTAAAGTAGCCATATTAATAG
GTGCAAGGTAGTATTTCATTGTTTTGATTTGCATTTCCCCAATGATTAGTGACATGAGCATCTTTTCATGTGCTTCTTGGTCATTTTGTATCCCTTCTTT
GGAGAGATGTCTATTCAAGTCCTTTGTCAATTTTTAGTTAAGTTGTTTGTTTTTGTTGTTAYTGTAGTTCTTTATATATTCTAGTTATTAAYCCCTTATA
ATCCTGTACTAGTCAGTGTTCTCCAGAGGGACAGAACTAATAATATGTATATATGAAAGGGAGTTTATACATATTTCATAATATGTATATTATGAAAGTA
AAGAATTGGCTCACACAGTTATAATGCAAAGTCCCACAATAGGCCATCTGGAAGCTGGGGAAGAGAGAAGCCGGTAGTGGCTCAGTTTGGGTCTGAAAGC
CTCAAAACCAGGGAAAACAACAGTGCAGCCTTTAAGTCAGTCCCAAAGGCAGGACACCCACCCCCTGGCCCCCCGTGCAAGTCCCAGTGTCAGGCCAAAG
AACCTGAAGTCTGATGTCCAAGGGCAGGAGGAGCGGGAGGAAGCATCCAATATGGCAGGGGGAGGGGGAGTGGGGAGAAGGAAGCCAGAAGCCTCAGCAA
GCAAGCTTATTCCACCTTCTTCCGCTTGCTTTCTTCTGGCCATGCTGACAGGCAGTAGGATGGTGCCCAACCATATTAAGGGTGACTCTTCCTTTCTCAG
TACACTGACTCAAATGTCAACCTCCTCTGGCAGCACCTTCACAGATAAACCCAGAAACAGTACTTCGCCAGCCATCTAGGCATCCTTCAATCCAATCAAG
TTGACACCTAATATTAACCATCACAAATCCTTTACCAGATATATGATTTGCAAATATTTTCTTCCATTCAGTGGATTGTCTTTTCACTTGGTTGATTGTG
TCCTTTGATTCACTAAAGTTTTAATTTTGATGTCCAATTTATCTATTTTTTGTTTTGCTACCTATACCTTTGGTGTCACATCCAAGAAAACATTGTCAAA
TCCATTGTCATGAAACATTTTTTCTATGTTTTCTTCTGAGAGGTTTATCATTTTCATTCTTATATTTAGGTCTTTGGTCCATTTTGAGTTAATTTTTGTA
TATGGTATAAGGGTCCAGCTGTTTTTTTACATGYGGATATCCAGTTTTCCCAGCACCATTTGCTGAAAAGTTCTGTTATTTCTTTTGTATTTGTGTGATA
GTCCTAGGATGTGTTATAATTACCTTATAGATGAGAAAACAGAAGGTGAAATATTCCTGAGGATCCCCTAAAAGCAGGCTTCTTGCTATCCTTGGCAGTT
CAAAGACATTAAAAAGGGGGGAAAGCCATTTTGAAATAATGCGAGAAGAAGAGGGGAATAGACTGAGAGGAAAAGCAAAACAAAATAAAATAAGATTGGG
ATAGACAGCCAGCCGTGAGCAGAACTTTGAAGTGTGTTTATAATTCACTCAGAGACCTCCTCCCCCCTGCCCTTTTACTCTCCTTCCTTCTCTTACTCTC
TCAATTAGCTCCTTCAGTTTGCTGTCTCTTCTGAAACTCTTTGAAAGCTTTTCTACAGTCTGTGTCCAGCCTGTTTTCTGAGCTTTATCTGCTGTCTCCC
TCGCTGCCACTGTGAAGCTGTAATGGAGTCATGTTAGTTCTCACTGCTCCCATAGCAAGCCCTGCCTTTACAGACCACGTTCATTTTATTCACTTTACCT
TTAATGTGCCATGGTCTTTCTCCAAGGCCTCTTGACGGTGGTGGCACCTCTTCACCTCTGCGTCCCAGTAGCATTGTGGCACAGAGGTGGCTGTTCTGTA
AATGTGTCAAAAAGATGACTAAACCGACAGTTTTTGTTCCTTTGCATAACCATTCCACATATGCAATATAGTCTTACCTTCCGGGATTTAAAGTAAGCAT
GTGACCTGGTCTCTGTCCACCAGTGATTGTAATCTAGCTGGGAGAAAGCAAGGTACTTCTATATACACTTGACACTTTAATATTCTGTATAACATGTTAT
ACTTGTAACCTTCAGTGAATGACAGGGAAGACTTGTTTTATCTCCATTATATTAAGATACTAAAGCACAGCAAAGTTGGAGTTTGGCTGAAATCACATAA
CTAGCAGAAGATCAAGGTGGGACTTAAACCTAGGGGACTGACTTCAGGCAAGATGCTTAACCACTTAAAGCTACTCAGTTTGTTCATCTAYAAAATGAGG
ATAATAGCGTCTACTTCCTAAGTGGTTGTATTAAAAATTACACCATGTGAGTGAAGAATTTTGGCATGTCATATGGGACGCAGTGCAAGCTGCTATTGTC
TGTCTGTCTATATGGTGTTTTTTGTCACTGTTATAACACTTTCAGTGTATTACTTTGGAAAAGAGGCTTGCAAGTACCATCACAACGGTTTCTCCCTGGA
CTTTTGGAAATATTAATGGCCACTCCTGTTTTACATGCGAGCCCTATGTCAAGCACCTCATGTGATGCCTGCCTGACTCAGGGCTCAGTGAATGGTTCCT
TTACTTCCCCTCCTGGCCTTGTGCTTTTATGGGTGAATTGCACAGGACTTGACACTCCCACATCCAGAGGCTAACTAGCTGAATAACCCAGCTAGAACTA
GAACTTAGAATTCTGCCATGTTTTTCAGACTGTGTCTTCTTTTCCATTACTCTTTCTGTAGTCTTTCATGTGCTCTCTTCACATTTTTTTGGTAGGTGGA
TTTAAGTTGGTAGGATCACTGAGGCATAGTAGAAGCTAATCTGTACTGATACCTTATTTTCAATTTGTAGAGGCCCCAGGGCACTTGTGTGATAAATGGT
GCTATGTAAATTAAAATGCAAGTAAGGGTCTCTTCAGTGTTTCTTAAATTAAGTTTATTATATGTGGTAATTTGCACCTAGAGGCTTTTGTTGTTATTTG
TTGTAGTGACTATGGCAGTAATGAGCCTGCTCCCAGAAAAGCTTGGCACATGCCCCATAGACAGTTTATTTGCATTTGGCTGGACTCCATGGTGTACCCT
GAACAAATGAATCAGCCTATTGGAGGGGTGGAGAAACTGAATCATAGGGAGGCTGTGGGTCTTGCACATGATCCCTGGTGATCCTGAGGTGGGGCAATAC
CAGAGTTCTATGTCCTGTTCCTAGCTGGATTATTCCTTAGCCTCAGGATTTGGGAGCATCAAGCACCTTGCAGTTCACCCTTAAAAGCACAAAGCCAGGA
GGGGAAGTAAAGGAACCATTCATTGAACCCTGAGTCAGGCATCATATGAGGTGCTTGACATGTAAAACAGGAGTGGCCATTAATATTCTCAACAGTCTAG
GATTCGGATTCAGTCTTTGCTTTATTGTGGTAGGTAACGCTGTTTATCTGGCAGCTGCATTGATCCAAACCATGTGAAGAACTGAAAAAAAAAGTGCTGG
GAAAAAAAAAGCTTTAGAGTGATCCCAAAGAATACACTAAGGCTTATACACATCAGATTCTCGTGACAACCTTATGAACAGAGCAAGTGACACCTTCTTC
ATGAATCTTAGCCCAAGGAACTTGCCTGAGATGTGGTGATCACACAATAAATAGCAGACCAAGGACTGATAGATCACCACCCAGAGATTCTCTAAGAATT
AACATGAAACAGTATATCATGTTTTATATTACACACACACACAAACACATATTTTTTAGTTCCCGTTTCTGCCACCCTTGATGGGAGTTGAGGACACTAG
ATCTGAGAAGTTTCAGTACTTTTCTGAGACACGTGGGGCAGGTCTTGGTGAGCAAAAAGAGCCCAGAGGACAGAGTCATAAGTCCTTGCTTTGTCGATTT
ATAACTTTATATCTACAATTAAGTTACTTAACCACTTCACCCTCCCAGTTTCTTCATCTTTAAAATTGGATAATAGGCCAGGCGCAGTGGCTCACGCCTG
TAATTCCAGCACTTTGGGAGGCTGAGGCAGTTGGATCGCCTGAGGTCAGGAGTTCATGACCAGTCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAC
TACAAAAAAAATTAGCGGGGCATGGTGGTGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGGGAATTGCTTGAAACAGCGAGGTGGAGGTTG
CACTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAATAAATAAAATAAAATGGGATAATAATAGTAACAA
CTCACAGGATGTTGTAAGGATGGAATGAACTCTTATATGTAAAGTGCTTAGGAGAGTGCCTGGCCCAAAGTAACTGTATTTTGTTTTTGTTGTGGTGGTG
GTGGTGGTGGTGGTGGTAAAGACCACACAGCTTGGAGAAACCCCAGAATCTCCCTCTTGTTTTCCTCTTACTTTCTTATTGAAGAACTGTAGGGAAATTA
CCTTTTTTTTTTTTTTTTAAACTCCACAGGTCATGCTGGCTCAGAGTTTACAGTAAACACCAGGAACATTCAGTTGGTTGTGCCCTCAGTTCAGGGCATC
TTATGTAATGTGCTGCCCTGTGACACAGACCTAGAAAAAGGGCTGTTTTCAAGCCTAGACATGGGAGGAAGGTTGGTATTCTTCGTAATTTGCAGCAAGG
CATGAAGCTGATGTCTATCACTACAGCCAGCCCTGGACGGCATTGTTTGTTAGGTAAAATTGTCGGTAGAACTCTGCTCTGCCTCTTACCTGTTTCTCTC
ACCCCATCTCAGGGCCTCAGGGCTCTGGCCTCTGTATGACCTGGTGGGATTGAGCTTCTGTAGGCACCTCTTCTTGCCCACAGCCTCATACCTAACTACC
GCCTCGCTCCAAGTCCAGTTGTCTCAGGCTTTCTAGGTGTCTTGCTACTCTGGTAAACTAATTGTATCTTATGTATTTATGGAAAGAATTAATGAATAAA
CAAATGCATGGAGGCAATTTAAAAGCAATATAATAAGCAGTACCAACACCACTGCCTGGCCCACAGCCTGGCACGCAGAGGCTTTTGTTGTTATGTTATA
GTGGCTCAGTGAAAACTTATTGAATAATTTATTACTTTTGGTGTAATGCATTTACTATCCTAACCGTATGTTTGAAGCCCAGTTCAAATGCTCTATCCTT
TGTTGAACTGTTCTTATATCAAATAAAAATTCTTCCTTTTCTGTAATAGAACTTTATAGGAAAGTTTATATATATAATATTCTTTAGGGAAAGAAAAAAA
AACAACCTTTATATTACCTTACTTGATTCTTGTAACAACCTGGTTAGGATTATCATCTTCATTTTATAATTGAAACTGAGGCTTAGGTATATGAAAGAGC
TCATTTTTATGCAGCTCTTAAGTAATGAAGCTGACCCCAAAACTTACTTTCATGTATATAAAATGTACCTAATAAGTGTTCAGTAAATATGGGGGGAAGA
AAAAACTTACTTTCATTTAGTAAATTATTTTTACCTCAGTACATTATATAGGCAGATGTATATTTTATGAAGTTGTGCCCATATTTTAGCTTCCCCACTA
GAACAGAAGCCCTTTTGATCTGAGAACTGTCCCATCTTGTTGCCTCTGCTTCCCAGAGCTTCACACATAATAAATGTTTGAAAGTAAATTGCTAATTTTA
ACAGGGTTCTTCAGTGGCAGAATTTCATACAAAATCATTGTAGTGAAAGAAAAAACCTTTAGTAAGGAGACAAATCAAACTTTTTTCCCCTGTGTAGAGA
GCTCCCTAATGGGTCTTCTTATTTTTTTAGAATGAACTGTAGGACATACCCACAAGGGTACTCTTTCTGATGGGTGATACGAGGCTCAGGGTTTGTGGCA
ATGAACTTTGCTCTTTCCCACACCTGAAGCTGCAGCTGTAACACACATCAGAGACTGAAGGACAGTGGCGCTGGAACACGACCAGGCCTGGGCTGCGGTT
CGCCTTGGTGAACTGAGATTCATCACTATTAATATCTGAGTTTCCATTAATAACCCTTTTCACTGTGAGCTCATTTAAATCTTCTGTTCTCTAAGCTATT
TTTAACCACACATTCTTGGGCCTGGGCCTGGTTCCCGCTTACAGATCATAACTTTCATTTTGATTTTTTTTTCTTTTTTTTTTTTTTTTTGAGACAGAGT
CTTGCTCTGTCGCCCAGGCTGGAGTGCAAGTGGCACGATCTTGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGA
GTAGCTGGGACTACAGGCGCCCACCACCATGCCCGGCTAATTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATG
GTCTTGATCTCCTGACCTCGTTATCCAACCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCTCATTTTGGTTTTTGTAC
TTGCAGAAATAATAGGAATTCTGCCCAACCCCTCACTCCCTCCACCCCCACATTTCTCAGAGGCGTGTATTGAAATTGTAGGTGGGACAATTCTTTGTTA
TGCRAGATTTTATCCTATGCATGGTTTGAGGTTAATATACCTGTCCTCTGCCCTCTAATGCCTGTAAGGCTTTCCAATCATTGTGACAACTTACCCCACC
ACTGCCACCACCACACACACAGGCGCGCGCGCACACACACACACACACACACACACACACACACACATTTCTAACCCTCCCCAAAGTGAACCGTACTGGG
ACTGATTGAAAGCCATTATAACCAGACACCTCTCTCTGCCACCCTTGATCTCTCTCTGTTGACTTGAGTCCCTATCCAAGGTAGAACTAGGAAACAGGAT
GTTACTCTCTATATCCTGAGAAAAGCAGCTTTTCTGTTTCCCCAGAGCTCTCCACTTTGTGAAATAGAGAAGCAAATTAAGATCTTGGGGATTGAACTGC
TGAGACCAGTTGAATATCATTGTTGCTCTGTCAAGACAGGTTTTTTAAAAAAATATTAGCCAGGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTCAGG
GGGCTGAGGTGGGAGGATCCCCTCAACCCTGGGGAGGTTGAGGTTGCAGTGAGCTGTGATCATGCCACTGTACTCCAGCCTGAGCGACAGACTGAGACCC
TGTCTCAATTTAAAAAAAAAAAAAAAAAGGCAGGGGGCAGGGTTTAACCACAAGATTTTATTCTCTTAAAATTACATGAAGGCTGGGGAGGGGGACAGGG
ACTGGGGAAAGGCTGTTAGTTAGTATGGAATTTCTTTTTGGGTGATGAAAATATTCTGGAATTAAATAGTGGTGATGGTTGTACAACCTTGCAAGTATAC
TAAAAGCTACTGAATTGTACACTGTAAAGGGTAGATTGTATTGCATGTGAATCATATCTCAATTTTTTTAATTGCTTGAGTCTGCTACTCTTAATATTTC
CCTACCTGTCATCTGATCTCCCAAGCTTGAAACTTTTATCTGGCAGTTACTTTTGACTCTTCTCTCTCCCGCAGTTTTCATTTCTAGTGGGTCACTAAGA
CCTAACTCCTAAGTAATTCTCAAATACCTTTTTTTCTGTCCCCACTCCCAGTGACATTACTCAGGCTCTCCCTTGCCTGTACTGTCGTGACTAGCTGTTA
ATTTCTCTTCCTGTCTCTAGACTTCTCCTACCCTCAGCATCTTTCCAGGATGTTTCCAACTATGTCTTCAACTTTTTATTGTGAAATGGAATACACACAC
AAAAATTATATATAATATATACTGTACTATAAAGGAAACACCCATGTAATTACCACCCAGGTCAAAAAATTGCCAGCATCCCAGAAATCCCTGAATGTCT
CTTTCCAGTCATATTCTTCTTATTCCACTCCATCCCTTCTTCCAAGTATCATGACTTCTGTGGTAGTCATGCCCATGCTTTTGTTTGCAGTTTTACCATA
AGTATGTGTATTCTCAAGAAATATTGTTAGTTCTGTTTATTTTTGAACTTTTGAAATCACATTTTTATACTCGCTTCCTTCTCTCAACTTTGTGTTTGTA
AAATTTACTCATGTTGTGTATATAGCTTGGTTGTGTTTTCTTAAAATCTTGATCTGWTCCTGTTTCTTCCAATCACATAGATGCTAAGTTCAAACTCCTT
GATAATGGCAGCATTCAAGGTCCTCCAGGATCCTGTCTTGTAACCTGCCTCTCCATCTTCATTTGCAGTGACCTCTCTCCCCACATCCTTTCCCATAATC
ACATCAAAGATGCCCTGTCTTTCTTTGAGTAGGGATCTTGCTCTGTCACCCAGCCTGGAGTGCAGTGTTGCAGTCACGGCTTACTGCACCCTCAGCCTCC
CGTATGCCCTCTCTTTCTATGCGTCCTGTGCTTAAAATCTAGACTGTCTTTCTACTCTTTCAACCTAGTGTATTTTTGASTCCCTCCTCAAAGTAGAATA
GACTCATTTTCATAATTATTTATACTCTCTCTCCCTGTTTTAACACTTATAATATGTCTTGTATTGTAAGTGTTATAGGCCCAAGCATCTGGAGTTCCGA
TGTCCGAAGGCCCAAGGATTTGGAGTTCCAATAATGTCCAAGGGCAGAGAAACATGGGTGTCTCAGCTTCAGAAAAGAAAATGTTTTCCCTCTGCCTTTT
TGTTCTTCCAGGCTCTCAACAAATTGGATGGTGCTYACCCACACTGGGTGAGAATGGATCTTCCTTACTCAGTCCACTGATTAAWATGCCAGTCTCTCCC
AGAAACACCCTCAAAGACACACCCAGAAATAATGCTTTACCAGCTATCTGGGTATCACTTAACCCAGTCAAGTTGGCACCTAAAATTAACCATTACACTG
TTATATTCTCACTTCTTTTGTATTAAAAAATAACTCATACACTTTATTCCATTGAATATCATGAACTCCTATGTTTGCAGATTCAATTAGTTATAAACTT
AAAATGTTACAACTTGGACATTGGGAGCCCCTTTAAATCGTATCTTTTGACTCAACATCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTAACATTTTTT
GTAGAGATGGGATCTCACCATCTTTCCCATGCTGGTCTCAAACTCCTGGGCTCAAGAGATCCTCCTATCTTGGCCTCCCAAAGTGCTGGGATTACAGGTG
TGAGCCATCATGCCTGGCCAAGTCCTTAACATTTTTTTTTCTGTGATTTATTTTTTCCTTTATTTATTTTCCCCATCACAAATTTCATACACAATTCTGT
GATATATTTTAAAGCAACCTTGCTTTTATTATTGAACAAAAATAATTTTCAGGCTTACCTTAAATTTTTTTTTAACTTCACAACATAGAATCAACCCCTT
TCCAGAGAGTTTTGATTCCTTTGGTAGAGAATAATGCAAAGGACCCACTTCTAGGACTCTAGGTGCACATGAGGTTGTAGAGGTTGTAGTGTTCATAAGC
ACTGTTGCTGTCATGGGCTACTCTTAGTGACTGAGTTGGAAAGTTAATTTTTTCAAGGTTATGAGTTCACATAAGGGTGCTGTATCTAACTTTTCTTAGA
ATGCTTGGTTTTATTGACCATTAATACTGTCTCCTACATAAATATTAGGAAGTATTTTTAATTACTTGCTGTGATCAGTTCCATTGAATTATGCCCAAAT
ACAGGCCTGGTGAGAGATACATGTTCAAAACAATTAGAAGATAAAAGTTGATATTTATACATAACACATTTTGTAAAACATATATACCTTACTTTATCTC
TTTCTGTGACTATGTGAGATGGATGGAATGTGATCTATTTTACGAACAAGGAAACTAAGGCACACAGCAGAAGTTAAGTGACTCATTAGGGTCATGCAGC
TAATAAGTAAAGGCTGGAATTTTAACCTGTATCTTCAGAATCTAAATCCTGTTTATTTTCCACTGTCTGTACATCCTTTCACTCTCTGCCTTCAAGACGC
TTGCAAACACTTGTGTACCTGAAATAACATAAATAACATTCATGATGAAGCTTGTAGCTTTATAAACCAAGGATTGCTTCCAAATGAAATCTATACTTAT
AATCCTTTCAGAGAAAACTTATGATCTGAATGACTATATTGATAGCTTAAGAAAGTATATAGGGGCCGGGCGCAGTGCTCACCGCCTGTAATCCCAGCAC
TTTGGGAGGCCAAGGTGGGCAGATTGCCTGAGCTCAGGAGTTCACGACCAGCCTGGGCAACATGGTGAAATCCTGTCTCTACTAAGAATATAAAAAATTA
GCCGGGCGTGGCGGCGTGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGGG
CGCACCACTGCACTCCAGCCTGGCTGACAGAGTGAGACTCCATCTCAAAAAAAATGAATAAATAAAAATAAAAAAGTATATAGGTTCTAGATTAGGTTGG
GATGGATTTATATTAGTAAATCAGGTTATATTCTAGTTTATTGAAAGCTCATGTCCATTTGGGGTAAAGTTGAAGGTTCTAACAAAGATAAAGTATTAAA
TTTCTAGGTATAGGGCAGGCTTGGTAAATGGGTATAGATGTTTTAATATAGGGGTTTGCATTCTAGACGTTAAACTGCTGGGCTTGATTCTGTATTTTTG
ACTGCTACAGTGTAAAAAATATTTTTGCTCAGAGAAGGATTAAGGACAGAAATGGTTTGTTTCAGTCTTAGAATTTTATTTAGAATTTCACTAGGGTTGA
GCATGGGCAATGCTTGCCTTTTCCTCTAGGAAGCCATAGCTCCTCAGTTGGAATCTGCAAACTTTTGCTCTGAGGTCTTGGGAGAAACTGAGACCTTGGG
AATGCATCCCGGACTCCAGAGAGCCCTATTCCTCAGGGTCAGGATGTCTCAAGATGAAAAATTATCTAAAAACTATGTTTCAACTCTAATATTTATTTAG
CTGCATTTTCCACTCAGGCACAGGCAAAGAAAAGTGCCAGAAATAAAAAGACCAGGGATTTTTCACTTCTTAAGATGAAAAGGTCCTGGTGCTTTATATC
CAGAAGTGCTCATCACTTACCTCCACACAAAGAGGCAACTCTGAACCTGCTAAGTGGCCACACCAGATTATAAAGTTACAAAGAAGGCTGGCTGCAAGGC
ACCTGGAGCCTCCCTGTGCCACCTCCCCTCTGTGGAGCTCTCTCTTGCCCTGCCTAAACATTCAGGATTCATTCCTGTCTAAAGCCCTGATCTCCATTCT
GTATTAGTTTTATACCTTAAAGTAAATCTAAATTGTGTAGAACACTGCTGGGCAATTTTTGCAGTTTCAGAGACAAGACTCATTTTAGAATAAAAGGCTT
TGGGTCCTATCTATAAAAAAATAAAAAAAGACTAGAGTTTTTGTCCCAGCTCTGCCACAGACTTCCATGTATGAGTTTAGTAAGATATTACCATTTTCTC
AACCACTGCTCCTTGATCTGTAAAATGATTATGATAATCCCTTTCTTTCCCTACTCATAAGGCAATTTTGAAAGTATGAAAAGGGATTTATATTCTGAGG
TCTCATCAGTACTGAGTCCTCAGTTGGCATTCAGCTCAGCTCAGTTCCCGTGCTATCTCTAGAAGGGAAGGAGAGGCACTGTGCCTGTCCTCCCAGAGAG
AGTAAGGAAGGCTTTTGGGCATTCAAGTGGAATCTTGAAGGATTAATAGGATTTTCACAGGGAATATCACATTAAAGCAGTTTGCTTTKCCTGGAATGTC
AGATGTTTTGAGGCTGAGAAATAGGCATGGAGGGGAGGGAAGGTTGAAAATTTCAGGTAGCAGTTTGGAACCAAATGAAGGAAGGCCCTTGAATGCTATC
CTGAGTAGTTTAGACTTGGCACTGTAGGACAGTGCTTTTCAAACTTTTTCATATTACATTATACAAAGAAAACAATACTTTAATGTCAGGCTGCAGGTAG
CTATTGGCAAGGGGTAACTGGCCCAGGGACTACAGTTTCTCTGAGGGCTAAAGGAATTAAAAACTTTTAATAACTTGGCACTTCATCACTGGTTGAAAAG
CACTGCTAGGCAATAAGGAGCCTGGTTAAGAAACTTCAGGAAAAATATTTCTTCTTTGTCTCTCCAGAGTCTAAGATTGTAATGTGACTTCTACTCTAGA
TTCTTGCCTTGGGAGCCTGGCCCTTGGCGAAATCGAGTACACCAAAAATGAGTCAGCCTATCACTACAGATCCTATACCATTAAAAGGTTAATAGGAGAT
TAGTAATTGCCAGGGGATGGAAGAAGGGGAAGATGGAGATTGACTAATGGGTATGGGATTGCTTTTTGGGGTGATGCAAATGTTCTGGAATTAGATAATG
GTGATGTTTGCATAATCTTGTGAATATACAAAAAACCCTAAATTGTATACTTGAAAGGGGTGAATATTATGGAATATAAATTATATCTCATTAAAAAATA
AAAGCATAATAGGAGAATGTTATGAACAACTTTACTTCAATAAATTTGATAAATGAAATTCTATAAAAGACACACATATCAAAACTGACACAAGAAGAAA
GCAAAAAATCTGAAGAGCCCTATACCTGTTAAAATAATTTAATTATAATTTTAAATATATAATTTAAATATAATTCATGGGCCTCATTTGTCTGCCCTTC
CCCCAACTTTGCCCTGATTTTCACTAAATCTTTGCTTAATTCAGTGCTTTGGATATAACTGAGATCAGTTCTTTCAAGGACATGAGAATGAGGTCCCTCA
AGAGAATAACTTTTGTTTCTCCAACATGCAGAGGACTGGCAACAGCTCATCTGTTGCTTTGCCAACGGGAGAGGTAAGAAACCTCCAGGCCTGGATGGCT
TCTTCAGTAAATTCAATCAAACAGTAAAGGAAACATAATCCCTAAATTGATCAATAGATTCAGTGAAACCCCAGTCAAAATCCCAGCACTTCTCTTTTTT
GGGTAAAAATTGACAAACTGATTCTAAAATCCGTATGGAAATGCAAAGGACCAAGAATAACCAAAACAACTTTGAAAAAGAACAAAGTTGGAGAACTTAC
ACTACCTGATTTCAAGACTTATTATAAAACTGCAGTAATTGAGACAGCATGATACTGACATATATGAAAAATGATATTATTTAAACATAGGAAGTCTAGA
AATAGGCCTACATGTATTTGATCAATTGGTTTTTAACAAAAATGCAAAGGTAATTTGATAAGAAAAGGATATTTCTTTTCAACAAATGCTGCTAGAACAG
CTGGATATCCATGTGTAAAAAAATTGAACCATGACCTTTTTCTCATACTCTATACAAACATGGGTCATAGACAAATATCAAAGCTAAAATTATAAAACAT
TTATAAGAAAAGCAAAAAATCTTTTTGACCTTGGGGTAGGCAAAGATTTCCTAGATAAGACACAAAAAAAAGCCTAAACCATTTTTTAAAAAATTTTGTA
TTTCCACAGGTTTTTGGGAACAGGTGGTATTTGGTTACATGAGTAAGTTCTTTAGTGGTGATTTGTGAGATTTTGGTGCACTCATCACCCGAGCAGTATA
CACTGAACCCAATTTGTGGTCTTCTGTCCATCACCCTCCTCTCACCCTTTCCCGAGTCCCCAAAATTCATTGCATCATTCTTTCTTTTGCTTTTGCATCC
TCATAGCTTAGCTCCCATTTATGAATGAGAACATACAATGTTTGGTTTTCTATTCCTGAGTTAATTCACTTAGAATAATAGTCTCCATCCCATCCACGTT
GCTGTGAATGCCATTAATTCATTCCTTTTTATGGTCGACTAGTATTCCATCATATATCTATCTGTATAGATACATATATATATCTCAGTTTCTTTATCCA
CTCATTGATAGGTATTTGGGATGGTTCCACATTTTTGCGATTGCAAATTGTGCTGCTATAAGCATGTGTGTGCAAGTATCTTTTTTGTATAATGGCTTCT
TTTCCTTTGGGTAGATACCCAGTAGTGGGATTGCTGGATCAAATGGTAGTTCTACTTTTAGTTCTTCAAGGAATCTTCACACTGTTTTCCATAGTGGTTG
TACTAGTTTACATTCCCACCAGCTGTGTGGAAGTTTTCCCTTTTCACTGCATCGATGCCAACATCTGTTTTGTTTTTTTTTTAATGGCCATTCTTGCAGG
AGTAAGGTGGTATCGCATTGTGGTTTTGATTTGCATTTGCCTGATCATKAGTGACGTTGAGCATTTTTTCATATGTCTGTTAGCCATTTGCATATCTTCT
TTTGAGAATTGTCTGTTAGTGTCCTTAGCTCACTTTTTGATGAGATTGTTTTTTTCTTGCTAATTTGCTTGAGTTCATTGTAGATTGTGGATATTAGTCC
TTTGTCAGATGTATAGACTGTGAAGATTTTCTCCCACTCTGGCCTGTTTACTCTGCTGACTGTTCCTTTTGCCATGCAAAAGCTCTTTAGTTTAATTAAG
TCCCAGCTATTTATCTTTGTTTTTATTACCTGTGCTTTTGGGTTCATGGTCATGAAATCTTTTCCTAAGCCAATGTCTAGAAGGGTTTTTCTTCTGTTAT
CTTAATAGAATTTTTATAGTTTCAGGTCTTAGATTTAAGTCCTTGATCTATCTTGGGTTGATTTTTATATAAGGTGAGAGACGAGGATCCAGTTTCATTC
TACTACATGTGGCTTGCCAGTTATCCCAGCACTGTTTGTTGAATAGGGTGTCCTTTTCCCATTTTGTTTTTGTTCGCTTTGTTGAAGATCAGTTGGCTTT
AAATATTTGGGTTTATTTTTGGGTTCTCTATTGTGTTCCATTGGTCTATGTGCCTGTTTTTATACCAGTACCATGCTGTTTAATGACTATAGCCTTATAG
TATAGTTTGAAATCAGGTAATGTGATGCCTCCAGATTTGTTCTTTGCTTAGCCTTGCTTTGGTTATGTGGCTAAATGACTCAAAAAAGCCTGAACCATTT
TAAAAATTGATGTTGGACTCATCAAACTCAGAAACGTTTGTTCTTTAAAAGATACCACTAAAGACTGGGTACGGTGGCTCACGCCTGTAATCCCAACACT
TTGAGAGGCCAAGGTGGGCAGATCACCTGAAGTCAGGAGTTCAAGACCAGCCTGGCCAACACAGTGAAACCACGTCTTAAAAAAGAAAAATACAAACATT
AGCCAGGCTTGATGGTGGGTGCCTGTAATCCCAGCTGCTCAGGAGGCTGAAGTGGGAGAATCGCTTGAACTTGGGAGGCAGAGGTTGCAGTGAGCCCAGA
TCACGCCATTGCACTCCAGCCTGGGTGACAGTGCAAGACTCTGTCTCAAAAAAAAAAMAAAAAACCACAAGATACCACTAAGAAAATGAATATGTATAAT
TATTATTTGTCAATTAAAAATAATAATTTAAATTCCAAAAAAGAAAAGGCAAGCCACAGACTGGGAGAAAATGTCCTCCCTTGCTCCCATTATGTGTGTG
TATATGTGTCTGTGTCTGTCTGACAACTGCATCCAGAATATGTAAAGGACTTATAACTCAATAATACCCCCAAAATTAATTCTAAAATGGTGAAAGAATT
GAACAGACCTATCACAAAAGAAGATAAATGACAACTAAACACATGGAAAGTTGCTTACCATCGTTAATCATCAGAGAAATGGAAATTAAAACCACAGCGA
GGCTGGGTGCAGTGGCTTACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATTACTTGAGGTCAGGAGTTGGAGACTAGCCTGGGCAACAT
GGTGAAACTCCATTTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCAGGTACCTATAGTCCCAGCTACTTGGGAGGCTGAGGCTGGAGAATTGCT
TGAACCTGGGAGACAGAGGTTGCAGTGAGCCGAGGTCATGCCACCGCATTCCAGCCTGGGCAACAGAGTGAGGCTCTGTCTCAAAAAAAAAAAAAAAAAC
AAAAAAAAACCAAAAAAAAAAACCACACAGTGAGATAACATTACCCATCCCCTACAGTCGCCATAATGACCAAGTCTTGTGAAGGAATTAGAATTCTCAT
ACGTTGTTGATAGGACTGCAAAAACAGTACAACAATTTCAGAAAACAATGTGGTAGTTTTTTGTTTTTTTGTTTTTTTGTTTTTTTATAAAATTAAACGT
AGACTTACTATGTGACCCATCCATTCCACTCCTAGGTATTTAACCAGGAGAAATGAAAACCTATGCTCACAAAAAAGACTTGTACAATAATGTTCATAGC
TATTTTGTTCATAATGGCTCCAAGCTGGAAACAACCTTATTTATTATCCCTCAATAGGTGAATGGCTAAATAATGGTACCTCCATCATACACTACTCAGC
AATTTTTTAAACTACTGATACATGCAGCAATATGAGTCAGTAATTACAACTTCATGTTGTGCATAAAAAGCCAGGCACAAAAGAATATATACTGCATGAT
TCCATTTTTTGTGATGTTCTAGAAAAGACAAATTTAATCTATAGTAACAGCAGATCAGTGTTTGCCTGGCACCAGGATAGGGAGTGAGGATTCACYTGGA
AAGGGCACAGGGGAACTCTTTGGGGTCATGGAAATGTTGTGTCTTGATTGAAGTGGTGGTTAGATGGTAAATACATTTGTAAAATTCAGCCATCTGAACT
GTTAAGATGGATGCATTTTACGTTATCTAAATTATATCTATGTAATGATGATTTCTGGCAACAAGGAAACAAAAGAAAAAAAAAGGATCAGCCCAGGGTC
ATTCTTTTAATTCTGTATACTGAATTCTTACAAATTAAACAAAAGCCTTTCCAATAGCTCCTAGAGAGGCTAAGGAAGTCTCTGTATGGGAATGTTTTCC
AGCTACATATGCAATACTYCAAGCAGCTGGACTGATGTAAATTGGGGCTCCCAGGAGCAAGATAGTCCATTTACTTGATCACCTGAATTAATCTTTGGAA
TTTGGTTCTGTTTCTCATGTCATCCTTTGAATGATTTCCCTCCATTTTTGTAGAATACTGTGACCAGGGAAGAGAAGCCAAGTTCCTGAAGGGCCCCATT
ATTTGTTCATTCTGTACCTTGGAAGTAGCTTTTCATGATACTGTATTTGCTTATGACCAGCAAATTCCACTGTGTACTGGACTCCAGATGGCTAGTCCAG
ATGGGAAAAGCTCTCCAGAAAGCACCAGACTTTGTGCGCATGTTCATGTGTCTTCACAGTTTGGGCACCTTTGGGAGAGTCAGTCTAGCACAGTCCAGAA
GCTCTGCCTGACATTTTCAATCCTCTGTCTTTTCCTGTGATCTTAAAATGTCAGAAATTGAAGTGATGGTGGGAACAATAATAAAGTCAACACTTGTACG
TTATAGATGAGGAAATGGCCCAGAGCAGGAAAGTGTTTATTTTCCCCCATAAGTTCACATTTCAAAGACAGCTGGAATCACAACCTGAATATCTAAACTC
CTGATACATTTATTCCTCTAGTGCAGGTCACTAAGTCAAGGCTACATCCTGTCAATCATCATTAACAATTTAGTGCATTGTTTCTCAAAATAGGGTCCTT
GAATAGTCTGTAGTAGAGTCATTTGAGGTTTGTATCCCTGGACTGTACTCCAGACCTACTGATCTGAATCCCTGTTGAGACTGAGGCCTGGTATTCTCCA
TTGTGAACAGATGTCTTAGTGATTCTGATGCACATTGAAGTTTGAATACCACTGTTGAAGACAGTAGTGAGCTAATTTAAAGCAAAGAAGTAAAACAATC
AGATGTATATTTACGAAAATATGGAACCAGGTCTTTGGAGGGCCTGCGGGACTGAGAGAGAAGCCTTTGTCCCAGAAGAAAGGAAACAATTTATATTCCT
GGGCATCATTTGTCTACTCTTCCCCCAGCTTTGCCCTGGTTTTCCCTGGTAACCTTTGCTTAATTCAGTGCTTTAAATATAACTGAGATCAGACCATTCA
AGGACATGAAAGCAAGGTCCCTCAGGGGAATGACCTTTCTTTCTCCAATATTTAAAGGGTTGGCAACAGCTCATTTGTTGCTTTGTCARTGGGAGAGGTA
ATTCCCCTAATGGATTTYGAGTCCTCTGTAGAAAGGTTGACCTGGTCTTTGGGGAATGAACCTCACAGAATTCAATCAGTGTAATTACTGATACAGGGCT
TTTTGGTTTCCCAGATGTGACCCTGTCTCTCTCATACACATCAAATTCATCTTGTCCCTTTGTCTTTCATGTGGTAGAGGCAGAGAATGGATAGAATGCA
CCATAATAGACTTGTCAGAGAGATGTGACTGTGATTCTCTTCTCCATCATAATGAGTCATAATACAGCCCACCCACTTGCTCAAGCTGGAAATCTTGAAG
TCTTTATTCTTCCTTCTCCGGTATCTCCCATATTCTGTCCATTATCAAGGTTAGTCATTTCAGCCTCTGAAATATATCTTGGTTGCATATGCCCTCTTCA
ATGTATATACCTTTTGCCACTGCCCTGGTCCATATCACCATTATTTCTTGAGCAGTAGTCTATCTGGGCTTCCTACTCATGCTCTTGCCCTACTTCAATG
CAATTATTATAGGCCAGAATGATCTTTTAGAATTTTAAATATGGAAAAATTTAAAACCATTCACAGCTCTCATGTTCTGTTTACTTAAAAATATAGAATT
ATGTGGATTAAAATGTGAAAGTTCCCTGTATCTTTTCTCTTATATGCCCATTCCCCTCAACAAGGAGCCATTGGTAGCAATTTGAAATGCTTTTCTAAGC
ATTTGTAAAATGTGTGTATGTGTGTATGCTATATATACACTTTATGTGGTTGTATGTATGTTTGTGTACATAAACATGGTATATTTAATATAAATAATAT
GTGAATAATATAAATAGTATAATACATGGTTCTCAAGCTCATTTGCCAATATATTGATTTATTAATCATGCCCCTATTGAGGGATTTTATTTAAGATAAA
ATCTAAACTTCAATCTACCCCTGCCTTTTGCTTGTTCTACTTTCCCCTTTGTTTACTGTGTTCCAGCCATGACCTCCTGTCAGGTTCTCCCATAACCCAA
GCTCGCTTCCTCTTCAGGGCCTTTACCTATGCTGTTCTCCCTGCCTGAGCTACTCCCCTGGGTGCACGACAGTAGTTCCCATATGATGGACTGCTGTGTC
CTGGGTCCTTCAAAACACACACACTCCCTCACACCCAGTATTGCTTATGAACTGAATAAGTGTTTTCCATGAATTTGTACTTTTTTCCCCAAAAAATATG
GATATTCTGATTAAAGGAATCATGAATTCATTGTAGTTTTTTCTTCATTAACAAATACTTAAAAATATGTTATTTTCTGGAGGAATTCTCAGATTTTTTA
ATTTTATAATATTTTAAAATATATTATTATAATATTTGACTTACCTTCAATAATTTTCTCTCCACAGTTTTCTCATCCTCCCGACATAAACGTCACCAAA
CTTACCTTTATCATTTGAGTACACCAAACTTTTTCATATACAGTGAATCCTCATATTCACACATTCTAGATTCTGTACTCACTGAAATTTACTTGTAACC
CCAAAATCAATACTCACCATGTATGGACTGAATGTTTGTGTCCCTCCAAAACGTGTATGTTGAAATCTTATCCCTGATGTGTTGGTATTAGGAGGTGGGG
CCTTTGGGAGGTGATTAGGTGGGCTGTGAGGGCAGAGCCCTCGTGAAGGGGATTTTTGCCCTTACAAAAGCAGCTTGAGGGCTTCCGTTGTCCCCTCCAC
CATCTGTTAGAAACAGGGCCCTCACCAGRCACCAAATCTGCTGGTGCCTTGATCCTGGACTTTCCAGCCTCCAGCMCTGTGGACTGTAAATTTCATGTTT
ATAAATAACAGTCTGAGGTATTTTGTTTTACCAGCCTGAACAGACCAAACAGCATGCTTTGGCTGTTAATCTCAGACATTCACATGGACAGGGCAGTGAA
AACATCTGAGTCTCCTGACGTGCACATTCCCAGCTGAGGTGGCACAAGGCAGTGTTTTGTGTACTTATTTCACCTCTCATCCTGTAAACAAGTGTCTTCT
TTGTCATATATCGGGTACCATGTTTTTTGCATTTTTGTGCTTTTTGTTGGTGATTTCACTGTTTAAAAAGATCCCCAAGCATAGTGCTGAAGTTCTGTCT
AGTGTTTCTAAACACAAGAAGGCTGTAATGTGCCTTACTGAGAAAATACATGTATTAGATAAGCTTTGTTCAGGCAGAGTTGAAGTGCTGTTAGCCATGA
GTTCAGTCTTACTGAATCAACAAATATTAAATAAGGTGTCTTTAAACAGAAACACATATAAAACGAGGTTATGTATTGACCGATTGATAAAAATGTGACC
AGAGGCTAAGAGGAACCTAATCTGGTATTTTTCCCCTAGAGCAGGGGTCCCCAGCCCCCTGGGCCGAGGACCCTTACCAGTCTGGCCTGTTAGGAACTGG
GCCTCACAGCAGGAGGTGAGCAGCTGGTGAGTGAGCATTACTGTCTAAGCTCCACCTCCCATCAGATCAGCGGTGACATCAGATTCTCATAGAAGAGTAA
ACTCTATTGTGAACTGCACATGCAAGGGACCTAGGTTGCATACTCCTTATTAGAATCTAATGCCTGATGATCTGAAGTGGAACAGTTTCATCCCAAAACC
GTCCCTACCCCTTTCCATGGAAAAATTATCTTCCACAAAACCAGCCGTTGGTGCCAAAAAGGTTGGGGATCGCTGCCCCAGAGGAATGATTCAATATTAA
CTAATACAGTGTTTGTGCTGACTTTACAGACCATAACTACCAGAAATAACAAGAGTCACCTATACTCATCTTACTCTCTTTTCCTGAAAGTTCTCCCTCC
AGCAGTTTTTCTTCACCCAGCAAAACTCTTCACATCCTTCAATACCCAATCCAAGTGCCACCTGTCCTGTAAAACTTCTGTGACTCCTCGAGGCAAGCAG
AGTAGTCCTCTCCGTCAAGCATCCACTGTTCATGTGGGTGCTGAGAACACCTACATGAACTGTGCTGAGAACCTCTGTTCATACCATTATAAGAGCACTG
ACCATGTACTGAGTTACCTATGTACTGTACTTGTCTGCCCTTTCCATAAGTCATGAGATCCTGAAGGACCTGGCATTACTGGATTTCATAAATGTTGATT
GAATGATTGGAATGAGGAAGGGAGAGTTTGTGTAGGTGTGAGTAAGTGCTAATGGAAAAGACATTGAAAGTGAAGGAAAAAGAAAGTGGATTGAATAATG
AATATGATCAGGGCTCTTGTAAAGGACCCCTGAGTTACTCCGGTGGTAGCAAACTGGTTCGGACATATGGTTACAGCCTGTATTGATCAGTGACCTAAGT
TACCTTAAATGAGGAAAGAGTTTATTGACCCGGAAAGTCTAAGGGGAAAATCTAAATCTGGCCTCAGCCTCAGGTTAAGACTCACATTTCGCCATTCTAA
CTGGTGTGAGATGGTATCTCATGGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTC
TTCTTTTGAGAAATGTCTGTTCATATTCTTCGTCAACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATCA
GCCCTTTGTCAGATGAGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTCTCTTTTGCTGTACAGAAGCTCTTTAG
TTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTG
CCTAGGTTTTCTTCTGGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCA
GTTTCAGCTTTCTACATATGGCTAGCCAGTTTCCCCAGCACCATTTATTAAATAGGGAATCGTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAATGG
CGATCATTAAAAAATCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATGGGAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAGCCATT
GTAGAAGTCAGCGTGGCGATTCCTCAGGGATCTTGAACTAGAAATGCCATTTGACCCAGCAATCCCATTACTGGGTATATACCCAAAGGATTATAAATCA
TGCTACTATAAAGACACATGCACCTGTATGTTTATTGCAGCACTATTCACAATAGTAAAGACTTGGAACCAACCCAAATGTCCAACAACGATAGACTGGA
TTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGAGTTCATGTCCTTTGTAGGGACATGGATGAAGCTGGAAACCATCAT
TCTCAGCAAACTATCGCAAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGATGGGAATTGAACAATGAGAACACATGGACACAAAAAGGGGAAC
ATCACACACCAGGGCCTGTTGTGGGGTGGAGGGAGCGGGGAGGGGATAGCATTAGGAGAGATACCTAATGCTAAATGAGGAGTTACTGGGTGCAGCACAC
CAACATGGCACATGTATACATATGTAACTAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAGTATAATAAAAATAAAAATAAAAAAAGACTCATA
TTTCATCAATATCCATCTTTTAACCTGCTTGCATGCTCTCGCTCTCCCTCACTCTCACACGTACTCTTTTTCTCTTGCTCTCTCTCGGTTGGCTGTTCTT
AGGCGACAAATAGTGGTTCCTGCAACTTCAGGGAAATATTGTGACAACCCTTTGTCCAGTGACACAGCCAGTTTGAGTAACACAAAACAAAGGTCCTGGA
GTTGAATCTTAATGACTCTGAGCTGGCTTGGAACATAACGCTTGTCGCTAAACTGATCACAGTGGCATGTAGGATGAAATGGTGCAAATTGGCTTAATCT
AGATTACCATGATCTACTCCTTGAAGCCTATAGTTGGAGTCAGCTTTATATAAAGGATTCTAGGTGATCTTTTGTGTTTATGGTGTCTGTGTACCATCTT
ACCTGGAATAGAGATTGTGTTAAATTAACAGATCATCTGACTGAGAGGTTTTTTTCCCCCAAAACAGAAGCAAATAAACATTATTTTGTTCCTTTGGTAT
AACTTTCATTGAACAGTTATATAGTGCTTTGGAAGTATCAAGTCCTGTGCTAAATAAATGCTGGAGATACAAAAGCCCCTGACCTCAGAATGTCATAGTC
TTGGGGTAAGAAAAAATTCATTCTGTGCCCGAGGAGCAAATAAGTTCCTTTAGAGTCCGAGGGAAACTGTACTTATCTGCCCTTTCTCAGATGAATGAGT
CCAGAACAAATACAGTTAACTATGCTGCTCTCTTCTAGGGGATCTGCATTTGAGGAGTGGAAATAACTTTGGACTAGGAGCTGAGGCCTAGATTCTAGTT
GCATTATTGCCATCTGCCATCACCAATTAACTATAAACTTGAATTCATAAACTCTGTGGCCAGTGTTTCTCAAAGTGTAGTGAGCAATTCATCTGCAGTA
GCTTCACCTCAAGTTCTTTGTGGGTCTGGACCCACAGAATAAGAAGATCTTGGGCTGTGGTCTCTGTAAGTTGTTTAATCTCTATGAACTTCTTTTTCCT
CACCTGTTAAGAGGATCCTATTTACCTTGCAGCATTTGTTAAAGGATTAAATGTGATAATGAGTAGAAAGCACATGGCAGGTAGCAAGAGCTCAGCAAAT
ACACTTTTAAAAATTTCCTCAGAGAGTATAAAGTCTCTATGGTCCAGAGTAGTCGAAGGATTGCTAGAGGAAGGATAGCAAAAAGCCTTTCCTCGCTCAG
GAAGTGTGCCTTCAAAAATGTGTAACTGTTACATGACTCCCACTGTACTCTTGTAATGTTTGCTGTTAACTATTATGGGACACGAGACTGGCATAGTAGC
TTCGTGTTGAAATATATTAGGATAGACTTGTACATCATATGTTCAGAAGTGAGATCAGATTCCCCTGTGTCTTTGTGTTTGTTTGAGCTAGAACTCAACC
ACATCACCACCTGAGAGTTGACAGTTGAAAATATTTCTAAACCTCCAGARTCTTCTATCTTCTGCCCTGACTTTGGTATACCAAAGATAACAGAACTCTT
CTTTGATGACTAAGGACTTCTCAAGGTCTCAAATCATCTTTTCTGATACCAAATCTCACGTGCCTTGTGGCTAAGGTTGTAGAAGGGGCAAGACATTACT
TGGAAGAGGCTTTTGCGAAACTCCTGGAATAGGCGTGTCCTTTTAACTTCCCGCTTTCTGAAGAGGGTAAAACCAAAAACTGCCAGTAAACCTAGAGAAT
CCTATGAAGTGAGGTTTATGGTTAATCTGAATCTAACTGAGGTTACTGGGTGATACCTATAATTTAAACCTGTTAGGCGGGTATATGAAGAACATAACAG
TTGTATCTTCAAAAAGCTCTTTGCCTTATTTTTTAAAAATTCACCAATAACAAAGACTGACTCTCTCTCTCTCACACACACACACACACACACACACCCC
TACACACCTCTTAGTGAAGCTCCCAGGTGGAGATGTGGTTATTCAGAAGAACACATCCCTCTGTTCTAAGAATCTGAGTAATCTGATTAAATGAGGTGTT
ACCATATCATGTTTTCTTAGTTAAAAAATACATAAGGGGCTGGGTACAGTGGCTCATCTGTAATTCCAGCACTTTGGGATGCTGAGGTGGGAGAATTACT
TGAGCCTATGAATTTGACATTAGCCTAGCCAGCATAGTGAGACTCCATCTCTAAAAAAAAAAATTAACTGGGTATGATGGCGCATCCTGTGATCACAGCT
AAATGGGAGGCTGAGGTAGGAGGATCGCTTGAGCCTAGGAGGTCGGGGCTACAGTGAGCCATGTTTGCGCCACTGCACTCCCGTCTGGGCAACAGAGGGA
GACCCTGTCGCAAAAAAAAAAAAAAAAAAAAAAAARAAAGAAAAAGAAAAAAGTAAGTCTCTCAAGATAGGGGAGAATAGACCTTAGGTAGTCTCTTGTC
CATCTATTGATCTACTCTTTTTTTTTTTTGAGACAGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCCGCTCACCGTAAGC
TCTGCCTCCCAGGTTCAAGCCATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCTCGCCACCACGCCTGGCTAATTTTTTTTTTTTTTTT
TTTTTTGTCGTTTTAGTAGAGACGGTTTCACCGTATTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCTGCCTGCCTCGGCCTCTCAAAATGCTGG
GATTACAGACGTGAGCCACCACGCCCAGCCTTGATCTACTCTTTGAGCCCTTCTTCTGTCACACTCCCCAACCTTCCCACCCTTTGTTTAGGCCAGGAGT
CAACAAACAAATCCTGCCACCACTTCTTTTTCTAAGCAGTTTTATTGGAACACAGCCATGCCTGTTTGCTTATGAATTGTGTATGGTTGCTGTCATGCCA
CTATAGAACTGAGTAGTTATGACAGAGAAAATATGACCTGTAAAACCCAAAATATTTGCTAACATCCTTAACAAAGTTTGCTGATCCCTCACCTTGCCTC
TTTCTTCAAAATCTCCAGTGTTGAGTATTCTCCAGTTTCCAAGAGACCTGCTTTGGACCACTCATTTAGAAAGTTCTTACGTTCTAAAAAAAATAAAATT
TGGTTTTCCGTAGACTGCTCCTGCTGGTACTTGTTCAACTTGAGTATGTTGAGTAACTAAAAATAAATCAAATCGCTCTTCCACATATTGGCGGCCCTTT
ATATCTTAGAACAACACTATGATCATGACTCCAGGCAGAATCTTGCAGAATCCTGGTGTGATAAACTTTCACGGGCCTTCATTGTCACCAGAAGGGAGCA
TAACACTCTTGCACAGCTAAATTGTGGCCCACCTAGGTTTTCTGGGCGCCAAGAGCAATAAGAGGAAGTTATAGCCTCATTCTACATGCTTGAAGACCTT
GAGATCTAACCCAAAGGATAGAGACAGGTTCATGTGACATGTACTGTCTGTTCAACAGCTAGGAGTGATGCAACTTCCAGGTCATATGTACCCACACTTT
GTGGTCTTGATGGTTGTGAAATGGTTTGTTTTCTGACAGAAGGAAAACAGTCACTTCTATTTCATCAGAGATGGGAGTGGCATACCCTTGATCCTAGACA
CAAATTCTTTTTTCCAACTTTCTTGACAGTAGACCCTATCCATATACTTCTTTAAGCCCCACTGTTAAGTAAAGTGACTTTCATTGTCTTTTGTCTCCRT
TATTACTACCCTAATTTAGATTGCCATCTTCTCTCACCATTGCAGACTATCGCAACAGCTTCTTAATTGTTTTCTTGTCTCTTATTTTTTATTTTTCTGG
TTTGTCTCCCGCACTTTGCCAGATGAGAGCACAGCATTGGTTAACATTTCTCTGCTGATCTATACTCTTCAATGGCTCCCCGTTACAAATAAAGGAAAGA
TGAAACTTCTTAGGGTGGCATTCAAGGCTTTTCAGGACCTCCAAACTCTTCCTTTCCTCCCTCTTTTCCATATTGAGAAGACTGTGCCATATTCTCTGAA
CCTATTTTATCTGTTCCCATGCCCAGGCCTTGGTCATTGGTCATACTGTATGTTGTATTTAAAAAAAAAAAAAAAAAAAAAAAAAAGGTCCTGTTCTTCC
TTTCCAAAACCGCATATCAAACCCTACCTTCCTCATTGTTTGTGTTCATTGCTCCTTCTCTCTCGTGCATGTTTGCTTTCTCTCATGCTGTTTCTCTCTC
TTAACCCTGAAAGTTTGATTCCCTGCTTCAGTGGTCTACTAGCGTATTATGTCTTTTTTTATGGTGCTTACAAAAAAATCTTCTAGTTTTAGGGATATAT
ATTAATGTCTTAACTTCCTGAAACTTTGTAAATATTGTAAGTTACTTCAAAGGAGTATTTTTGGGCCTTGCCTCTTTATCTGTCAAAGCATTCAACACAT
TTTGTGTTTGTTTTTACTGAATTCTATACAAGGAGCTTGTTGATTTCTCATGAAATGTACCTTAGATCCCAAAGATTTTCACCTTTTTTTCTAAACGTTT
TATAGTTTTACATTTTACGTTTAAGTCCATGATTCATTCTGAGTTAGTTTTTGTATAAGATGTGAGACTTAGATTAAGGTCTTTACTCCCCTATGGATGC
TTGATTGCTTCGGCACCATTTCTTGAAAAGGCCTTTTCTTTTCTTTTTTATATTAAAATTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCCAAT
CTCGAACTCCTGGCCTCAAGTGATCCACCTACCTTGGCCCCCCAAAGTGCTGGGATTACAGGCACGAACCATGACAACTAGCTGTTTTCTTGATTGAATT
GCTTTTACACGTTTGTGAAAAATCAGTTGGGCATATTGTGAGGGTCTGTTTCTGGGTTTTCTGTTCTAATCCATTGTTCTTCACTTGATCTTAGCCAAAC
GGCCAAGAATTGATCTATTCCACTTTTCTGTGTCTGTCTCTTCGCCAGTGCTACACAGTCTTGATTGTTGTAGCTATATAATAAGTCTTAAAATCTGGCA
GACTGATTCTTCCCATTTTATTTTTCAGAATTATTTTAGCTATTGTGCTTCCTTTGCCTTTTCATATACATTTTAGAACAATCTTACGTACATCTACAGA
CATTCTTGTGGGATTTTGATGGGAATTGTGTTAAATCTGTACGTCAGTTTGGGGAGATGCACCAAGTCGAGTTGTCCAATCCATGAATATGGTATGTCTC
TTCATTTATTTAAGTCTCCTTTGATTTCTTTCATTAGCTTTGTATAGCTTTTAGCATACATGCCCTGCACAGCGATTTTTTTAGATTTATACCTTTTCAA
TTTTTAAGAACAATTATAAATGGCATTGTATTTTTATTTTATATGCCTGCATATTCATCGCTAGTTAGAAGTAAATTGATTTCTGTATGATTATCTTGTA
TCCTGTGACCTTGCTGAACTCACTTATTCGTCCTGAGAGTTTTGTTGGGTTTTGTTGTAGATTTTTTGTGTTTTTTCTTTTTCTTTCTTCTTCTTCTTCT
TCTTTTTTTTTTTTTTTTTCTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACCATCTCAGCTCACTGAAACCTCTACCTCCTGG
GCTCAAGCAATTTTCCTGCCTCACCCTCCCTAGTAGCTTGGATTACAGGTACCCACCACCATGCCTAGCTAATTTTTGTATTTTAGTAGAGATGGGATTT
CACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGCAATCCACATGCCTCGGCCTCCTAAAGTACTAGGATTACAGGCATGAGCCACTGTGCCC
AGCCACGATTTTTCTATATAGATAATCATGTCCTCTGCAAACAGGGACCATTTTTTTTTCTTCCTTTCCAATCAGTATACCTTTTATATATGTTTTTTGC
TTTATCACCTTGACAAGAACTTCCAGCAATATGTTGAATAAGAGTGATAACAGTGGCTGGGCACGCTGGCTCACACCTGTAATCCCAGCACTTTGGGAGG
CCAAGGCAGGTGGATCACTTGAGGCCAAGAGTTCAAGACCAGCCTGGCCAACGTGGTGAAACCCCATCTCTAATAAAAATACAAAAATTAGCCAGTGTGG
CAGTGCACACCTGTAATCCCAGCTACTTGGGAGGYTGAGGCACAAGAATCACTTGAACCCAGGAAGCGGAGCTTGCAGTGAGCCAAGATTGTGCCACTGC
ACTCCACCCTGAGCAACAGAGTAAGACTCTGTCTCAAAAAAAAAAAAAAAAATGATAAGAGCAAATGTCCTTGCCTTATTCCTGATCTTAGGAAAGAGGA
TTCAGTCTCTCAAATCTAAGTATAGGCCAGGTTTGCTGGTTCACACTTGTAATCACAGCATTTTGGGAGGCCAAGGCAGGAAGATTACTTGAGCCCAGGA
GTTTAAGAACAGCCTGGGAAAAATAGTGAGACCCCCATCTCTACAAAAATTTAGAAATTAGCCAGGCATAGTGGCATGCACCTGTGATCTCAGCCACTCA
GGAGGCTGAGGTGGGAGATTCACTTGAGCCAGGAGGTTGAGGCTGCAGTGAGCCATGTTCATGCCTCTGCATTCCAACCTGAGTGACAGAGTGAGACCCT
GCCTCAGCAAACAACCAAAAAAAACTAAGTATAACATTTGATAGTGGTCTTTTGTTGCTGCTCTTTTTCAAGTTGAAGAAGCTCCCCTCTGTTCCTGTTT
TTCTGAGAGTTTTTATCAAGAATGAGTGTTTAATTTTATCAAATATTTTTTGCATTGAAAGATATGATCATGCAGTTTTTCTTCAGCCTATTAATATGGT
AGATGACGGATTTCAAATATGGAATCAGCCTTACCTCCTTGGAATAAATTCCATTTGGTCATGTGTTTTTATAGATTGCTGAATTCTATTTGTATTTTAT
GTGTAAGTCCATAATCCATTTTGAGTTAATTTTTGTATGAGATTTTATATAGACGTTAGAACAGTCCTGAAAAAGCTTTCTCTTTAATAGCATATTCAGG
ACTCATGTCCCGTATTCTCCTTGCATTATGTGTCAGTAATCCAACAGCAATTTTTCATTTTTGTATCATGGGTTACTTTTCAGGTGAAGCTCCCAGACCC
CCCTTATAAATATTTATTACATGGATACTGCACTTATCAGAATGAAGGGAACAAGGTGCCAAATAACTCACACCATAGAGAATCTATTACACATCTTTAT
CTTATTCTTTTTTCTGTAATCCTCTTGCTGTCCTTCTTTTCTACTTCCTACTGTGAAAGCTTACGTATAAGTTTTATTAATTTGAACAAATTAACATATT
CATGGAATGAAAAAAAATCAACAGATCTTCCCTGAGCTCCTATATGTGTTAAGCACTCTGCCATGTAGTTTTTGGCCACATTGGACCTTAATCTCAGGAT
GCTCAGAACTTAAAGGGGAGAAAGACATATAAGCRTTAGAAATGCCAAAGCAGGGAGTAGAAATGKCAAACCCGGGGAAAGAAATGCCAGCGTGGGGTAA
GCACAGGTTAGTAAGGGAAAACAAGCAGAAGCACCTCCAGCTCTACCTGGGGGAGTCAATAAAGGCCTTCCAGGAGAAGTGACATTTGTGCTGGCACTGA
GAGAACATAGAAATTCTCCAGATGGATGAGGTAAGGTGAAAGCCTTTCTAGGCAGAAGCCATAGCTTGTGCAAAGACATAAAGTCATGAAATTACATGAC
TTACTATTTGGAGAATAATAGGTAATTTTTAGTGCTCCTGTAAATTCTGTGAGACGAGGAATTCATGCTGTATCCTCAGCATTAGAATAATACCTAGAGC
ATAGTAAGCACTGAATAAATATTTGTTGGATGTAAGGAAACAAAGGAGGGAAAGAGCGATGGAGGAAGGAAACATAATTGAGGTGAGAGCGGTAAGAAAG
CTTTGGCAATAAAGAATTTTGTTCATGTCCTAGTTGGGAAGAGACAAGTACAAAAACACTCATGATTGTTGTAAAAACTGACATGCCTTGAAAAGAACAT
AAAAAGCATTATGAAGGTTCCGAGGAAATAGAGGTCCACTTCAGATGAATGGATCAGGGAAGTTGTCACTGAGGCCAGACACTTAGAGTTGTTTGTACTT
GGTTCTGAATTGTTTGGCTTTTTAAAAACACATGGGGCCCCATGCCGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCAAT
TAAGGTTAGGAGTTCAATACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAATTAGCTGGGCATAGTGGCACACGCCTGTAATCC
CATTTACTGAAGAGAGGCGGAGGCGGGAGAATCGCCTGAACCTGGGAGGTGGAAGTTGCAGTGAACGAGATGATGCCACTGCACACCAGCCTGGGTACTC
TAAAAATATATATAAATAAATAAAACSTGGAAGTGGAGAGAAGGTGTTGTGGTGGAAGAGGGATGTGTGAATTTGGGACTAGACTAGACAGCCTTGCTGA
CTCTGTCATAAATATATCAGTATTTTGTAGGCAGCCATTTATCAKCCTACACCACTTACTTGGAAGCAAAACCTGACAGGCTCTGATATTATCTGTAGCA
AACATGGTTTTCTTGTTCATGAGGGTGTCTGTGTTTTTTGTGCTTGCACCTGCATACCAGAGATTTGGGGACAGCTCTTTCCACAGAGACAAGACTAACG
GGGACACATCAACTGAAATGCCAGCTGAACTAGAAACAGATCTTTTTAAAATGCACCTTGGTGCCCACACACTATGTGTCTATGTGTGAACCTGCAGCAC
ACAGAAGTACATGCATAATTCTGAAAGCAGTGACCGGGTTAAGATTTTAAATTACTATAAATAAATAGTACTTATTTTTATTTTTCTCAGCTCCATCCTA
TCTGGCTATACCTCAATTTTCATTTCAGTCTAAGGCTTATTGGGCACCAGTTATGTCTCCTTTGACCTGCTAGATAATAGAAGGATTTCATGCAAGAAAA
TGATTCATTAATTATATATATATTGATTACTAGCTATGTGCCAGGCAATATTCTAAACACCAAGGATGCATCATGGAATAAAAAGAACCAATCCTTGTCC
TGGAGGAGTTTACTTTCTGGGAGGTGGGTGCGGAAAAGTCATAAAAATTGATATCTTTTGGGGGTATACATGCTTTGTGAGACCAGTAAAGCAGGGTAAG
GGGGGAAAGAGAGTGGGAGCATCGGGGACCAGGAATAGCCTGTCCAGTAATGTGACATTTGAATAAGGACTAGAAAAAAAGATTAAGCAATGGAAATATC
TGGGGGAGGAGTGTTCCAGGGCCAGGAAACAACTAGACTAAAGACCGTGAGGCAGGAGCACGCCTGGCACTGTGTAAGGCCACGTGGCCAGAGCAGAATA
GGCAAGGCAGAGGGCAGCAGGAGCTGAGGTGAGGGGTGGGATGAGGCTCAGTCCCATCAGGCCTGTAGGCCATTGTGGGGACTTTGGCTTTACTCTGAGT
GAGATGAACAGCCATTGCAGATGGTGAGCGGAGAAGTGGCATCTTCTGATTTACTTCCTGCTTTCTTACTTTGCGGTTGAGGATAGACTGCAGGATGAAA
GGGTGGAAGCAGGAAGACTACAAAATGGTGGACTAGACCAGGTGAGCAACAGTGGAGGTGAGGAGAAGCAAGCTCATTGTTGATATATTCTGAACTGTCT
GAACTGACAGGATTTGCTTTTGGGTTAGATGTAGAGTATGAAAGGAGTCAGCTATGATACATAGATTTTTGGTCTGACAACTGGAAGGCTGAAGGTGCTG
GTAAATGAGATGGGAGAGAGTGCAGGAAGAACAGATCTGGGAGATATCAGGACCTCAGTTTTGAACACATTAATGTTGAGATACCTACTAGTGAGGAGTT
GGATATACAACTCTAGGGCTAGAGATATAAATTTGGGAATCACAGCAATTCGATGGTTTTTTAAAGCTGTGAAACTGAATAAAATGACCTAGAGAGTGGG
TGTAGAAAAAAAAAAAAGAATCTCAGAACTGAGCATTGGGGCATTCTAATGTTCGGATGTCAGGGAGGTGAAGAGGAGCCAGCACTGGAGACTGAAAAAG
AGAGGCCCGGTAGATAGAAGGAGAGTTGAGAGTGCATGCTGAAGCCAGGTGAAGAAAGTGTTTCAAAGAGGATGGAATAATAAACTGTTGTCAGATGTTG
GAGAGAGATCAAGAGAGATCAAGTTAAGGCCCATGAGTTGATTTATCAGCACTGAAGTCTTTGACACCTTTGATGAGCTATTTCAGTGGTGCAGTTGGGG
TGGTGGGGGGATGGGGGATAGCCTGATTATAGTGCCTTCGAATAGGAGGGGAGGAAACAAAGATTAGTAGTATATAATACTCTTTGAAGTATCACTATAA
AGAGAAGTAGAAAAACTGGGCCATAGTTGGTGAAGAATTGTGGGATCAAGTCAAACTTTTAATTTTTTCTTCTGAGATAGGAAACGTTGATGTCTTGATG
GGAATCATCCTAGTCAGGAGGAAAAATGCAACGATTCTGAAGAAGGGGAGAATTGTTGAAGTGATGTCTTTGTGCACAAATGGAAAAAGGTTGGCCTTCA
TTGGGTGGACTGTCTATGCTCCCTAGTAACAGAGCTCACAGCTACAGGTGCAGGCAGGATGGTAAATGTAGTCATGGAACATGTGTAAATTTTCTTTTGA
TTGTTTGTGTTTTCTCATGAAATAAGATATAAAAGAGTGGAGGCATTGGAGGTTTAAAGAGAGAGGCCAAGAGATTGTTGCCAAAGAACAGGAGAAAGTC
ATTGACTAGGTAAATATAGTAGGATTGTTGGGCAACATGAGGGGCCACTTGAAGTAAAAGTGAGACCAGTCAGCATGGTCATATGATTTTCTCCATGTAT
GTACAGCCAAGTGGGAACAGGTAGAGTTGGCAGAGCATTAGACTTAGCTGGGGTTTGCTGGGTAAATAAGAGGAATGGAGAAAGAAGCAAGGGAATAATT
ATGATAATGGATCGCAGAAATAGAGTTGGATAAGGAAAGAAAAGAGGACAGGGATGAAAGGTGAGAGTGAAAAGATGGTAGAATTAATGGAGTGTAGATC
CCATGGGGTCTAAAGAATTGTGATAATCAAATCCTTGACATTTGTAGTGCTTCAGGGTGTATACAAAGTGCTTTGGGCTCACATAATAACCCTATGGGGT
AGGTAGGGAAAATGGTGGTGGTGGTAGTGATTTTCATATAGATGAGGCAGGATTCAAAGAGGTAAATGACTTAATCAAAAATCACACAGTGCCGGGCGTA
CACAGTGGCTCACACTTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGACTAGCCTGGCCAACATGGTGAAG
CCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGTGGGCATCTGTAATCCCAGCTACTCCGTAGGCTGAGGCAGGATAAATCCGCTTGAAC
CCAGGAGGCAGAGGTTGCAATGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAAATTCACACA
GCCAGTCAATGGTAAAGCATAGACTGAACGCAGATTTCTGTTATATGTAGTCTTTGTGCAATGTCTGCTTACAGATTACTCAGTCTTGTTGAAGAGATGG
AATATGGAAGACAACTTGAGAGAATATGTAATCACGTGTTCAATTCTGTGGTATGGAATGGTATAAGGAGTTTACTCATTCAGTAATACATATTGAAAGC
TTAGTAAGGTACAAGGCATTATCATAAGGACTAAGGAAACATCAATGAACAAGACAGGAAATATAATCCTGAGGTTACATGTTTTTAGAGCAGTTTCTCT
GTGATTCTTCTAAGGCATCATGTTTTGGTTAAAAGCAGGTTGTACTAAAAAGTTAGAAAACTTGTTTTTCTGCTACTTACYGTGTGTAACATTGTTACTT
CAACTCACCCTGCCTTAGTGGGGGTCCCCATGGATAAACTGATTATGGCTTTGCAAGTTCTCCCTTGCCTAAAAATGCTGTGAGTTTGGATCTGTATTCT
AGCCTAAAGAAATAGTTGCTCTAAAGTGTCATCATCTAACTTCCTGATCTAGACAGTGGGAATGCCACATCTTACTTTATAGTGATAAGACCCTGTTTAC
ATAGTGAGATGCTGCACAAACATGCATTCCAAAGTAATCCTCCATTTTTGAAACTTGGGAAATCTGAAAAGGGGACAGGTCATGTGGCACCTGCAGGTCC
CACAGTCCCCGTCTTTAACCTATGATATCTGAGGACCTATTAAAAGCTTTAAGGTCGTCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTTGGG
AGGCCGAGGCAGGTGGATCACCTGAGGTTGGGAGTTCGAGACCCGCCTGACCAATGTGGAGAAACCCTGTCTCTACTAAAAACACAAAATTAGCCAGGCG
TGGTGGCACATGCCTGTAATCCTAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCTGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCAT
TGCACTCCAGCCTGGGTAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAATGCATTAAGGTCAGGCACAGTGGCTCATACTTATAATCCCAGTGCTTT
AGGAGGCTGAGTTGGGAGGATCTCTTGAGACCAGCCTAGGCAACATAGCAAGACCTTGTCTCTACAAAAAAATGTTTTAATTAGCTGGGCGTGGTGATGT
GCGTCTGTAGTCCCAGCCACCCAGGAGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGAGTTCAAGATTGCAGTGAGCTTTGATTGTGCCACTGCACTCCA
GCCTGGGCAACAGGGCAAGACCTGTCTCTGAAAGAAAAAAGCTTTGAAATAACTAATGACTTCTTCCCCCTCTTCTTACTCCTTCCTGATATGATTTAGG
CCTGGAAGAAACGCTGGTTTATCCTGCGGAGTGGCCGGATGAGCGGTGACCCAGATGTTCTGGAATACTACAAGAACGATCACTCCAAGAAGCCTCTGCG
GATCATCAACCTGAACTTCTGTGAGCAGGTAGATGCAGGCCTGACCTTTRACAAGAAGGAGCTGCAGGATAGTTTTGTGTTTGACATCAAGACCAGTGAA
CGCACCTTTTACCTGGTGGCTGAGACAGAAGAGGACATGAATAAGTGGGTCCAGAGCATCTGCCAGATCTGTGGCTTCAATCAGGCTGAGGAGAGCACAG
GTATGAGAACGCACACAGATCTTTCTCATAGGGGGTTGAGGTGAGGCCCTTGGATTCCTGGAGCATTGAGAGCAGGCTCTAGCTAAGGTTTCCTGTTGGA
AGAGCGTTCATAGATAAAGGGTAAAGAGTGTGAAGGGGTTGGCCAAATATTAGAGGGACACCTGGCCCTAATTATGCTCTAACTGGAAACCAAAAAAAAG
TGTTGGGGTTGTGATAAAGCTAAAGGTATTTGTGGTGTTTCCTTAGGTGCCTCAACACCACTGCCGTTCCTCATCCCTCCTGTTTTCTCTCTTCCCTGTG
CTGTCCAGCACTCTGTGTCCCATTATCTGTCACCCATCCCATAGGGAAGGTCTCACCTTGGTCCCTTCTCTCCTTCATCTCTGTCTGTCCTAGCCCATTT
CAGGCCATCCTGCACAGTCACACTKGACCCTTGTTTGTGCGGGTTCTTTGTGATGATTATTGACGATTCAGTGTTCATTTATGTTTACTTGGGAGGGGAC
AGATAAAAGGAGGAAACAGTGATTTATGTTTGGGTTTTTATAATCTTCACAAAAGAGTAGCTCACCTTTTTGAAATGAGTGTTAAATTGTAGAAATGCTC
CTTAACATTTGTTTAGGCTCATCTCAAACTCTCTGGGATGGTTGAAGAGCAGAGTTTTTTCTGGGGCAGTAGAATTGACCCAGGAATTCTACTCGCAGGC
ATATTCCCAAAACATGTTTACACAAACACTTGTACAAGAATGTTCACAGCAGTATTATTCATAATAGCCAAAAAGTGGAAACAACCCAAATATCCATCAA
TAAATCAAATATGGTRTATACATATATATTACTAAGCCATAAAATGGTATGAAGTACTGAAAACATGTTAAGTGAAAGAAGACAGAGAGGACCATCTTTT
TATGATTCCGTTTGTATGAAGGCTCAGAGCAGGCAAATCCACAGAGACAGAAAGTACATTGGTGGTGACTGAGAGTGACAGTGTGAGAAGCGACTGCTTA
TGAGTATGGGGTTTCTTCTTGGAGTGGTAAAAATGTTCTGGAATTAGATAGTGATGATATTTGTACACTTTCATGAGTATACTAAAAACCACTGTATTTT
ACACTTTAAAATGCTGAAATTTATGGCGTGTAAATTATGTCTCATTCTTTAAAAAAAAGTTCCTCAGGTGATTCTGAGGACCAGCCAGGTTAGGGAGCCC
CTAGATGTAAGACCAGGTTCGTGGACATGTGAACTGTGGAGTCACAAAGAGCCCCATCCTTAGAAGGTCTTGCACTTCGTTTAACACTCCACTATTACTA
TCTTGAAGTTCTTAATAGTTTTTTTAACAGGAAGTTCTGCGTTTTCATTTTACACTGGGCTCTGCAAATTATGTAGCCAGTCATTCYTGAACTAGATATC
CTAACCTAGGAATTCTGTGATTTTTATCTTCCTTGGGGAAGGATAATGAGCCCCTATTTATTAAGTTCTTTGGTATAATCTTCTTGCTTCCTGAGTGGAA
TTTCCTGTTTTCCCCAAATCTTTGTCATTTATAGGTTTCATGGAGGTTGTTTTTGTTTTTTTCCTTTATTTTATTCCTGATGGAGAGCAATGCATATTCA
GTAAAAAAAAGTGGTAGAGGGAAAGGGGCCCCAGCTGGGGCAGCATAGCGAGACTAGAGTGCAGTGACACAATCATGGTTCACTGTAACATTTTTATTTC
GATAAAAAATAAAAATTAGCTGGGCATGGTAGCATGCCTGTAATCCCAGCTACTAGGGAAGCTTAGGTAGGAGGATTGGTTGATGCCAGGAATTCAAGGT
TGCAGTGAGCTGTGATCACACCACTGCACTCCAGCCTGGATGACAGAACGAGACCCTGTGTCCTAAAAAAAAAACAAAAATGTTGGGGGTGGGGAATAAG
AAACGAATTAAAAGGCCAGGGAGCTGGGCACAGTGTTTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACCTGAGGCCYGGAGTT
CRAGACCATCCTGACCAATAATGGTGAAAACCCGTCTCTACTAAAAATACAAAAATTAGGCTGTGGTGACGTGCACCTGTATTCCCAGCTACTCAGGAGG
CAGAAGTGAGAGAATTGCTTGAACTCAGGAGGCAGAGGTTGCAGAGACAAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGGGAGACCCTGTCTCM
AAAAACAAACAAAAAACAAAAAAAAAAGCAGACTGGGCACGGTGACTCACGCCTGTAAGCCCAACACTTTGGGAGGTCGAGGCAGGTGGATCACCTAAGA
TCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTACTACAAATACAAAAATTAACCAGGCATGGTGGTGGGCGCCTGTAATCCCAGC
TACTTGGGAGGCTGAGGCAGAAGAATCGCTCGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGACCATGCCATTGCACTCTAGCCTGGGCAACATCAGT
GAAACTCTGTCTCAAAAAAAAAAAAAAAAAAGCAGGGGAAGAAAAACTTCACAAACACACCAGTCTCAAAGCTTTCATAAATGTTGTTAGCAGTGGCAAA
TCTATCTGGGTCTGCAGCAACCTCAATTCTTGCCTCCTCAGAAGAAAGAATTCGGCCAAAGGGCATAAGGCAGAGTGAGACACTGAGCCATGTTTTAGAA
GAGGGGTGAAAGTTTATTAAAAAGTGTTAGAGCAGGAACAAAAGGAAGTAAAGAACACTTGGAAGAGGGCCAAGCGGGCAACTTGAGAGATTTCAGTGCA
CTGTTTGACCTTTGATCTGGAGTTTTATRTATTGGCATGCTTCCAGGGGGTTGTGTCCCTTCTCTCCTGATTCTTCCCTTGGAGAGGGCTATCTGCATGT
GCAGTGGCCTGCCAGCACTTAGGAGGGGCTGCATGCACAGTGTGTTTACTAAAGCTGTACACATGCCCACTTGAGGCRTTCTTTTACCAGCCAAGTGTTC
CTAGAGGAAGGCCAAATACCAGTTAAACTCGACCATTTTGCCTCATAGTGTGCGTGCTTGAGACTTGCCTATCTCCTGAGATGGTATCAGAAAGCTGCTG
ATCACCAGTTTCAGGTGTTTTCTATCGATTGGGAGACCGTCTTTCCCCAGCACCAGCTGCAACCAGTTGTTATTTTAGAGAGTTTAACCGCCTGACTCTC
ACCTGATGGTTGCCTGACATTCCTGGTGAGATGGGGGCAGGAGAGGCTCCTGCCCTGCTCATGTCTGCCTAGCTACCTACTCTAACAATGTGAGAAATGG
GTCCAAGAAGTACCTCAGCTTTTTAAGAAATAGGTRTGATGAGGGGAAAATGTAACCAAAAACCAAATGGCTTTTAATTGAATTATTTTCTTGTGGGATT
AGAGGTGTTCTCATCAAGAAAATATATTCTTGAGATGTGGCAAAAATTACTCAGTGGAGATATCTTTCTTAATCACATATTTAGGCTGGGCATGATGGCT
CCTGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACAAGGTTAGGAGATCGACACCATCCTGGCTGACACGGTGAAACCCCATCTCTAC
TAAAAATACAGAAAAATAGCCGGGCGTGGTGGCGGGCAACTGTAGTCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAG
CTTGTAGTGAGCCGAGATTGTGCCACTGCACTGCAGCCTGGGCGACAGAACGAGACTTCGTCTCAAAAATAAATAAATAAATAAATAAAATAAATAAAAA
TCACATATTTAAAAGATATTGTCTGAATCCTTTTACTGTATAGGACTTCAGTACAATGAAAATGTGGAAACTACATTATCTGAGCTTGCTTTCTTTGGTA
GCAAGGTTCATTTGTTCATTCACACATTATTCATTCAGCAAACCTTATGGGGCATTCATTTTATGCAAGTTCCTGTCATAACCAATGAGGCTACAAAGAT
GAACAGTAGAGTCTGAGTACTCAGACATCATAGCCTAGAGGAGGGGACAGGCATGCAACCAGATAGTAACAGAGTCATGCTATAACGGGAATCACCAAGA
TTAGCGACACATACACCACCAGCTTAGGCCTCCCTAAGGAGGAGAGTATTAGAGGGTGACAAATAATTGAGTGTTTTGTCARTGGCCTTATTAAATAATA
TATTTCCTAGCCTGTAATCCAAGCTATTTGGGAGGCTAAGACAGGAAGATCGCTTGAGCCCAGGAGTTCAAGACTGCAGTGAGCTGTATTTTTTAAGAGG
CAGGGTCTTGTGAGCCCTGTCACCCAGGCTGGGATATAGTGGCATAATCACAGCTCACTGCAGCCTCGAACTCCTGGGCTCAAGCAGCGTTCCCACCTCA
GCCTCCCGAGTAGCTGGGACTACAGGCATGCACCACGGCTCCTGGCTAGGAAATATATTCTTTTCTTCTTCTTTTTTTTTTTTTTTTTGAGACAGTCTTG
CTCTGTCGTCCAGGCTGGAATGCAGTGGCACAATCTTGGCTTACTGCAACTTCCACCTCACAGGTTCAAGCAATTCTCCTGCCCCAGCCTCCTGAGTAGC
TGGGATTATAGACAGGCAACACCATGTCTGGCTAATTTTTGTATTTTTAATAGAGACAGGGTTTCACCCTGTTGTCCAGGCTGGTGTCAAGCTCCTAACC
TCAAGTGATCCACTCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTATTACGCCTGGCCGGAAATATATTCATTCATATATATAGATATAG
ATATATAGATATATATCTGTGTGTGTTTTAGTGTATATATACACACACAGAAATATGTATATACACATATGCATCTATATATTTTCTTAAGCCTTTTTAA
AGGAATTATTTTATTAGATGTCTAGTGTTCTAATTATCAGAGCAAGAATATCATCTGTGATAGAGGTTTAAGGTTATTTGTGAGATCCTTCTGTTGAAAA
CAATTGGCTTTTCTTCTATCTCAGAGGAGAATCTGGTATGTTAAAAGATTCAGTCACATGATGGGTTATGTTTTAATTTAGTGGCTCTCTTAAAACTGGA
TTATATCTGTAAAACCTTCAGGTAAAAAATTAAAACTTAATAATTCATTCAGTGTTTTTTTTTTAACTGAGAATTGGGATCTGAGGAGAAACAGAAAGTT
AACATTTGACTACTTTCTTTTGCTTAGTAGCCTATTTCATTTAATCACTTTATCACCTTTATTTCCATTTTTCAWATGATGAAATTGAGTATTTTTTCTT
CCCTGCCTAGCACTTTTATAACTCCCCGGGGCTAAAAATCTTCTCCGTCTACCCACTCCCCATCCTTGGCTGGGTTCAGAAGGGCTACCCAACTCTTATC
AGCCCCAGAAACTCTTCCTTAATGCAACACTGCTTTCCTTTTACTGGAGCCTGTTGAGAACAATCCAGTCACCTGAGTCTTCATGTCAGCACCTGCTTTA
GGTGAAGAGTACCTAACCCTTGGTGGCCACAAAAAGACATAATCGCAGCTATGTATTGAGCATCTGTTCTGTGAAAGTTGAGACTTTACATAAATTCCCA
CTAAAAAGTCACAGTAATCCTTTGAAACAACAACGATTTGACCCAAGGTCACACAGCTAGAACACGGGACAGTTGGGATTCTAGTCTAACCCAGGCCTGA
CTTTGCATTATAATGTGCTGTGTTTTTGTCCCTGTTCTCCTGGAATATAAGCATCTGCCAGAAACAGGCCTGGATATTTTTGCCCCTTTGGACACTWTGC
ATTGTACTGGAAGCACCCCCAGGGGTCCCTATGGCAGGCTGAGGTTCTCTCTGCTTACTAACCCATATTGCCAAAGTCCTTGGTCTAGAATATTCCTAAT
TTAGTAATTTCAAGGGCTTTAATCCAGTCATCAGGCTCTATTGGTTAGTCTGTACACTGGGGACAAGGATGTCTTAGTTCAAATCACCACTCTGATTACA
TGAGCAGGTCACTTAATAAAGTCTCAACTTCCTTTTATAAAATAGGGATAAAATACTTTCTGTTCTCACCCCATGCTTCTGCTTCTCCATGGATGCATCC
AGACAGACATAGAACCCACTGGCAGCACCTCAAGTTGCACATTTCCCAAAGGACTATTCACATTGTTTTCTGTGTAGGGGTATCCCMTGGAGTTGATCAA
TCCAGTGTCCCTGTCCCTGGTTTGCTCCTATAGAGGCTTCATCATATGTGGAGCCTCTTTCAAGCAGATACTCCCTCTTTTCCTTTCTTTCCTTCCTTCC
ATCTGTTCATCTGTCCTCCTTTGTGTCTGTCTTTCTCTCTCATTTGTCTCTCTGTCTGTCTGTGCCCAGGCTGGAGTGCAGTGGCACAATCATGGCCTCC
CAGTTTCAAGTGATCCTCCCACCTCAGCCTCCAAGTAACTGGGACTACAGGTGTGCACCACTACACCCAGCTAAATTTTTTAAATTTTGTAGAGACAGGG
TCTCACTATATTGCCCAGTGTATTAGTCCATTTTCATACTGCTGATAAAAACATACCTGAGACTGGGCAATTTACAAAAACAAAACAAAAAAAAAAACAG
GTTTAATAGACCTACAGTTCCACATGACTGAGGAGGCCTCATAATCATGGCAGAAAGCAAGGAGGAGCAAGTCATGTCTTATATCAGTGGCAGCAGGCCG
AGAGAGAGCTCTTACAGGGGAACTCCTCTTTTTAAAACCGTCAGGTATCATGAGAACAACCTGGGAAAGACCTGCCCCATGATTCACTTACCTCCCAGCA
GGTCCTTCCAACAACATGTGGGAATCCAAGATGAGATTTGGGTGGGGACACAGCCAAACCATGTCATTCTGCCCCTGCCCCCTTTCAAATCTCATGTCAT
CACATTTTAAAACCAATCATGCCTTCCAAACAGTCCCCCAAAGTCTTAACTCATTACAGCATCAACTCAAAAGTCCACAGTCCAAAGTCTCATCCAAGGC
AAGGCCTTCCGCCTATGAGCCTGTAAAATCAAAAGCAAGTTAGTTATTTCCTAGATACAATGGGGATACAAGCATTGGGTAAATACAGCCATTCTAAATG
GGAGAAATTGGCCAAAACAAAGGGGCTACAGGCCCCATGCAAGTCCAAAATCCAGTGGGGCAGTCAAATCTTAAAGCTCCAAAATGATCTCCTTTGACTC
CCTGTTTCACATTCAGGTCACACTGATGCAAGAGGTAGGCTCCCATGGCCTTGGGCACTCCACCTCTATAGCTTTGCAGGGTATAGCCTCTCTTCTGGCT
GATTTCATGGGCTAGCATTGAATGTCTGCACCTTTTCCASGCACACAGTGCAAGCTGTCAGTGGATCTACCATTCTGGGGTCTGGAGGATGGTGGCCCTT
CTCTCACAGCTCCACTAGGCGGTGCCCCAGAAGGGACTCTGTGTGGGGGCTCTGACCCCACATTTCCCTTCTGCACTGCCCTAGCAGAGGTTTTCCATGA
GGGCCCCACACCTGCAACAAACTTCTGCCTGGGCATCCATACTTCCATACATCCTCTGCAATCTAGGCGGAGGTTTGTAAACCTCAATTCCTGACTTCTG
TGCACCTGCAAGCTCAACACATGGAAGCTGCCAAGGCTTGGGGCTTCCACCCTCTGAAGCAACAGCCCAAGCTGTACCTTGGCCCCTTTTAGTCACGGAT
GGAGTGACTGGGACACAGGGCACCAAGTCCCCAGGCTGCATACAGCAGAGGGACCCTGGGCCYGGCCCACAAAACCATTTTTTCCTCCTAGGCCTCTGGG
CTTGTAATGGGAAGCGCTGCTGTGAAGACCTCTGACATGGCCTGGAGACATTTTCCCCATTGTCTTGGGGATTAACATTCGTCTCCTCCTTACTTATGCA
AATTTCTGCAGCCAGCTTGAATTTCTCCTCAGAAAATGGGATTTTCTTTTCTATTGCATTGTCAGGTGCAGATTTTCCAAACTTTTTTGTTCTGCTTCCC
TTATAAAACTGAATGCCTTTAACAGCACCCAAGTCACCTCTTAAATGCTTTGCTTCTTAGAAATTTCTTCCCCCAGATGCCCTGAATCATCTCTCTCAAG
TTCAAAGTTCCACAAATCTCTAGGGCAGGGGTAAAATGCTTCCAGCCTCTTTGCTAAAATATAACAAGAGTCACCTTTGCTCCAGTTTCCAACAAGTTCC
TCATCTCCATCTGAGACCACCTCAGCCTGGACTTTATTGTCCATGTCGCTATTATCACTTTTGTCAAAGCCATTCACAAGTCTCTAGGAAGTTCCAAACT
TTCCCACATTTTCCTGTCTTCTTCTGAGCCCCGCAAACTGTTCCAACCCCTGCCTGTTACCCAGTTCCTGTCACTTCCATATTTTCAGTTATCTTTTCAG
CAGCACCCCACTCTACTGCTACCAATTTTCTGTATTAGTCCATTTTCACACTGCTGATAAAGACATACCCAAGACTGGGCAATTTACAAAAAATAAAAGA
GAGAGAGACATAATGGAGTTACAGTTCCATGTGGCTGGGGAGGCCTCACAATGATGGCAGAAGGAAAGGAGGAGCAAATCATGTCTTACGTGGATGGCAG
CAGGCCAAGAGAGAGAGCTTGTGCAGGGGAACTCCTCTTTTTAAAACCATCAGATCTCAAGAGACTTATTCACTATCACAAGAAAAGCACAGGAAAGACC
TGCCTCCATGATTCAATTACCTCCCACTGGATCCCTCCCACAACACGTGGGAATTCAAGATGAGATTTGGGTGGGGACACAGCCAAACCATATCACCCAG
GCTTGTCTTAAACTCCTRGGCTCAAGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGTATGAACCACTGTGCCTGACTACCTTTTTTTT
AAAGAGTTGTGATAGGACTCATATAAAAACTTACATGTTTACTTTCAGCTAGAAGAGGTTTGTGGCAGATGGAGACTGTCTGTTTTTTCATCCTTCTTGC
CACCTCCAGATTCTTATTTCTACTGCCACCTTCCAGTCTTCACATATTCCAACCAAAAATGTCTAGGATAAAACCTGCAGGYTCAAGACCAGACCAGGAG
TGAAAGTGAGTTTGAAATCAACATAAGGTTGAAGGAAACAATCTCTTGAKAGAGAACTCGTTCCAAAAGGAAACCAGGAATGATGTTCTAGAAGGAAAAG
CAGTTTCAGGAACACATATCAAGATGCTATATCATATATGTGGGATTTATTTTTGCTTATTTTGTGTGTACAAATGAAAGAACCTCACCTGCCTCTTGGA
ATCAAAATAGCTGTCAGTCCTCAGAATAAGGAAGCAGAGAGCTGCTCTGAGCTGTGTTTATAGGCAGGCGGATCCAAGTCCTCACATTTGTGGCTCAGTT
GTGGGCAGCTATCCCTGACCAGATGTACTACACACAAAAAGAGCCATCTCTCAGTAGAGAGCTTTGATGAATTATTCATGTGCTCAGGAGTCAACCCCTG
TTAGGAAAGCCATCASCCCTTTTGAATTCTCAAAGCTGAGGACTTCTCTTTTCCTTTTATCCCATCCCTCCTCCATTTATTCAGTAGCTATTCTAGGGCC
TGCACAGCCACTATCACAGGGACTCCGAAAGGCAGCTAGCTGCACTTGAGTCTCAACATTGCTACTCATTTGCCTTATTGATGTTGAATAAATCACTTTC
CCTCTTGGAGGTTTTATCATCTGTAAAATGGAGATGATGCTCCTCACAGCGTTGTTGGGAGGTTGCACAGGTAAAGCTTGGAGAATGTACAGGTACACAT
TGTGAACAGCAGCTGCTCACTTCACTTTTTCCTTGTAGTGGTCGTAGCAATAGTAGTGATGATTTYTATGTCTGTAGGACAAGATGAACAGAATATAAWT
TAAATATTTGGTGTTTTTACAGAACTTTATAGTCTATACAACACTTACGCAGTCTCATTTAAGCATGAGGAAACAAAGTGAGATAGGTAGGGGCTGATAA
TATCATTCCTATCGCAAAAGCAAGGAAACTAAGGCTTAAAGGCACTAAGTGATGATGCCAGAAAGCAGAGTGGAAGGGCCCAGAATCCAAGGCTTTTGAC
TACCGTCTATGGCTGTGTCCTCTGACTCCTCACTTTTCCCAACCCATTGTCACAGAGCTGTTTACCATGGCTGCTTCTAAGTCACAAAACGGACAGCAAG
AAGGAAGAGGAGGAGCAAGAGGTTTATAAATCACTGAGAACTGACTATTCTTTTTTTTTTTTTTTTAAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAG
TGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCACCCTCCACCTCCCGGGTTCAGGCGATTCTCCTGCCTCGGCCTCCTGAGTAGCTGGGATTACAGGC
GCACACTACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATGTTGGCCAGGATGATATKGATCTCCTGATCTCGTGATCCACCC
GCCTTGGCCTTCCAAAGTGCTCAGTGCTATCTGTACATCGATATTAACCTCTGATGGCTAAACTAGCAAGATAACATGATCCTTCTTAGAGGAACCTACA
AGCTACTGTGAGTTACAGCTCAGGCAATTTAGCTCACCAGAGCCCCATTTTGTAACTCTTGGAGATTTTGAAATAAGGCCAAAGCCTCCACTGTATCTTC
TCTACTATTTTAGTTTTTTACCTTCTCGAACTCCTTGGCAGGAATTTCACAGTAGTCACATGTCTAATCTTATGGAATAAAGAATTCCCAAAGTTCTGAC
CAACTCTTCTTTATATCTTCCCCACCTTTTCTCTACTAAAATTTTAGTGAGACTGTCCCCTTTAAATATTTTGTAAATACTTAAACTTCTAGTAATCCTT
AAGTTTCCCGAGTAAGTCAACACTCAAATTATTTTAAGTCCTGGGTCCCACCTGGGGTCAAACGATACCCATAGGAATGCTTTTGGGGAAGTCTTCAGCA
TCCAGTGAGGAATGTTAGTGGGGTCTTCAAATAGCTCTTTCTAGAGAGAATGACTGGTGCCTTRAAAGTCAGGACCTCTTATTCAAGCTGGATTTCTTAC
AGCAGGGAGAACTGTGGTAGAGCCAAGTAGTCCATTCAGATTCATTCTGATGACCTTGGTCCTTCCCCCACCATGAAAAGAGAGACAGAGAGCCAGGGAG
AAGCCTTGCTCAGAGACCTTACTCTTTCTGTCTTCTCATCCCTGGGAGGGCCTTTTCCTCCCTCATTCCCTCCCTGACCTTTTGGGTTTTGTTTTATTAA
CTGAAATCAGACCAACTCCTCTGGGGAACCCTTGTTGGAAGCCAAAAGCAAATGTGGGCGGTAATATGCATCTTCTCCCCAGGCTGAGACTCCTCTCTCA
AGGAAGAAAGAACAGAGTGGAGACTGACCCAGGCTCCAGCCCAGAGGCGGAGGCTGCTGTCTGAATCACCCACCCTTTTTTTCCACTGAGACAATGAGGA
AAATAAATATCCAGACCAGTTTCCAGCCAGATCTGAAATTCTAATTCCTTTAAAAAAAAAAGAAAGAAAAAAAGGTTATTTTAAATAACCCTGAAATATC
AGGCCTTCCTCCTCCATCTCTTGCTTGTCATTTTTCATTTACAGCTGGTTCTAGTCATCCACAGAACAGGCCRTGAGTTCAGACATGAGCTCCATAAAAT
CCTCGCAAATGTTTCTGTGTTGTCCTAGAACAAACTCCAACCTTGACCAACTTCAGGGAATTCCAAATCCTCTGAAGGAGGAAAAGGAGACAGGGAGAAA
CCTGACCCTATTCTCTYCGTTCTAAGTCTTCATCCTTATTTCTGCCYTTTTTTTTTTTTTTTTTAAATACCAGACACTCCCCCTCACCACCCCAGCCAGC
CAGCATAGATAGTCTAGTGTTACCTGCCAAAACCCAAAGACTGTTAGACTTGGGAGCATCTCGTCCCAACTCCACAGCGCCAGAAGCTTTGAATGGCTCC
CAAACATCTCATAAGATCCCCCCTACTTTTTTGGTTGAGTGCTTCTGCTTATCCCTATTAAAAGAGGATAATAAATGATTGTTGAATTGGTCCCTGACTG
GATTCCAAAGCCCAGTCTAACTCTAATATTGGGCTAGAGGTAGAATTAGAACTTTGTATTTAGTGGTAAGGTCACCTTGGACCTCTGAAGATCTTGATTA
CGATTAAACATCCGGTTATGTGTAGCGCTACRTAGGATTCAGAACTCTACAAAATCAGTAGATACAGTCTTCTCTCTCTAGGATCTGTGCTGGGAAACAG
AGTTCTGGTTTTAAATTTCAGCTTTGTTACGATTTATCTCAGTTTCYTCAACAGTAAACTAGGAGTGATTTCCAAACCTTTTTTAAAGCATTGCTTTTTA
ACCAAATCTCACATGAAACAGAATAATTTATGAAACAATTGAGAGGGAGCCACTTTGAGTATAGCAGAGGAGAGGGTCAAGTGATACAAGCTGCACTCAA
CTGCCCACCCTTCCTTCTCCCCACTGGTTGCTTGGGAAGGCTGGCACACAATGTGAGGATACTGGTCCGCAGCAGATGTTTCAAAACAGGGACCTGCAGG
GCTGCGCTACAGAAATTTTTATCAGTCCATAAAAATATGAAAACATGAGGAAGATACAATCCATGTTCATAAAACTAAATGTAATCAGATTTTAAGACTT
CCCTTTATTCAGAGACTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTATCACCCAGGCTGGAGTGCAGTGGTGCGATGTTGGCTCAC
TGCAAACTCTGCCTCCCAGGTTCATGCCATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCCACTGCACCCGGCTAATTTTTTGTA
TTTTTAGTAGCGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTCATCTACCCGCCTCGACCTCCCAAAGTGCTGGGATTACA
GGTGTGAGCCACCGCACCTGGCCTATTCAGAGATTCTCTTTGTGCATGTATGTTAGTGTTCTCGTGTGTGTGAAGTGACAGTCTTAGTAAATGGTAGTTT
TCCATATTTGACATTATTAAAAATTGGCCGCCCCATGTGTCCATTTCTAAAAGTGCACAAGTGTATAAACAAAGAGGCAGTGTTTTCACCTGTCCATGAA
ATGGAAGAGTCTGGGAAATAGTGATCTAGAGGTGATACGTGTGTCAGGACTAACTGGTTGCCAGCTTCTGCTTCTGTACTCATGGCCAGGGGCCTCTGAA
CTCTACCATTAAGTCCAGGCCCCCTGCATCCCAGCATAAAGCCAGTGCTGTAGGATCTTTTGTTCCTAGCCCTGCTCTTGTGTGCTAGCTATGGTTAGCC
CTGGGATCTTGGCTAATTTTCCAGTGTCTCAGTCTTTGCCCTGATAACCTGCCTGTAGTGTCAGATCCCACCCAGGAGTGGACCCTGTCCTGCTTTTATG
TAGCCACTTCTCATAGACCAGAGTCTTACCACACCTCAGACCAGTGGCTGGAGCCCGCCTGCCCACTGGAAGGCTTCTGGGTTGCATGTGGTCTCTCTGC
CTGCATTACTGAAAAAAATCTGCTTCTCTTTTCCCAGAACATGCTTCTTCCTCCTCTTGGATTCTACTGCCCACATTTCTAGTGATGCCTCAGTTTCTGT
TTCTGTGTTCACGTATTCAGTGCCCTTACCACTCAGAACCTGCTTTTGCCAGTGGACAGGGGTTAGAGAAGAGCATAAGACATGGACCTGCTTTCAGTGG
ACTCCTGAGCCTTGTTATGTTCTCCAGTTTTTGTTCTCTCTGCCAAACCAGCCTTGGAACTCCTCTTAGTGATTCTCTCTGCCTCCTCTATGTCTGCTTC
TAAGAGGTTCTGGGCTTCTCAGTTTTCAGCAAGATTTACCTGCTTTTAACTGAACCGTGCCTGGCTCCGTGCCAAGATATAACTACCAGATAAAAAATTG
GGGGTTAACCTCAAGTGTGAAAATATTTAATTTTTTAATTCTGAATTTGGTTTCAACATCAAGCCCCCATCTGGCCAGTGATAGAAATGTAAGTTTTAAT
CAACTCCGGGTATTCCTGGTCAATATGGGATTTTCTCAGTAAATTCAAGTTTGTCTTCTTTTGTSCCTGGGCTGCTATTTTAAGTGCCCCAAGGCCTAGA
GAGCTGGAGACAGTTTATTGAGGCTGGAAGGCTGGAGCACAGTTTGGGATTGGGATTGGGGGAGGAGATGCATGGGAGACAAGGGTAAGGACGCRTCTTA
TTCCTCTTTAGATCMCCGTATTAGTAGCCACAGAGTAGCTGCCCAGTAAATATCCACATGATTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCT
CGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTAATCTTGGCTCACTGCAGCCTCCACCACTCAGGTTCAAGTGATCCTCTCACCTCAGCCTCTCAAGTA
GCTGGGATTACAAGCATGCGCCACCACACCCGGCAAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAACCTGGTCTCAAACTCCTGA
CCTCAGGTTATCCACCTGCCTCAGCCTCCCAAAATGCTGAGATTATAGGCATGAGCCACCATGCCTGGCTGAATGTTTTAGTTACAGTGTTTGGTTATAA
ATTGTAAATAGTTACACAAAATTCTTTTTAAAAATTCTGACTTATTTCCAGATATTTTCATTTTGAGAAATTCACTGTTGGGGAGAACAGAAAGCTTTAA
AAACATTCTCATCTTACTCATAGGTGACAAAGTGTGAGATACCTGAAATTCTGTATATTGAAACATATAACATGTACTTTAACATGGTATAAAGTACAAT
GAAAAACAAAAAAATGAAGAAAAGCTCAAAAGAGATGATATACTAACTAGGCTGAAGAGATAGAGCCTGCCAAAGACCTGAAGTTTATTTTACACATCTA
CCATTTGTTTATTGTTTGCTTTTATTTGCTACCTCCTCGGCCCTTTTATGGATGAGGTCAGTGAACAAAATTCTTCATGGCTAGTGAATCATTATTAGCA
AGAACACTCAGCCAAGACAGAAGGGAATAGATTTCATAGAATGAGAAACTTCTAGAATACGAGATCTCAAAGCRTCCTTAGAGAGCATTTAGTTCCAAAC
TGCTCAAATGACAGAGTGTCTAGAGGTGAAGAGAGGGCAACTAATTTGTTCAAGATCATGCAGCTGACTGGCCAGGCTAGAATTAAAATCGAAGTTTCCT
GACTTTTGTGTTTTAAATGATGTTGATGGTTATGGTGGTGATCATATAAAAATCACTTTATGATTTATAGAGTGCTTTTATATATATATATATATGTGGT
ATAGAAGGCCCGTTTATTACATAGGGTCTTAGAATCRCATGAATATGAACCCACAACATTAATGACTTTAGTCTAAACGTGGTCTTGGATAAGTAAATTT
AATTTTTTGAGCTTCAACTTCTGCATCAGTAAAATAGAAATAAGACATTCTTCACAAGATTATTATGAAGATTAAGAATCCACTTAAAGCATATAGCATA
GTGTTTGGTACACAATAAGTACATATTAAATGTCTGTTGAATCTGTGACTAATAACTTGTTGCTGCCTTCTCTGTGATCTTCACAACAGCCCTTTGGAGA
CGTCTACCATGCTACTTTTATCTCCCGAAAACTAAAATATCCTAAATAACCCCTATCTCTGTTTTGCCCAAACTCAAAAACCTTTTTGCTATGTGTGATT
AATATGTTTATCAAATAATAAATCTTGCTGAATTTCCTGATTTGAGGGGCATTACACTTGTCGTTGTGGTACTCAAAAACAAAGATGTCTTGGCCGGGTG
CTGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCAAGGGAGATAAACCACCTGAGGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAAC
CCCGACACTACTAAAAAAAAAAATACAAAAATTAGCTGGGCATGGTGGCACGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGCGGCAGGAAAATCACTTG
AATCTGGGAGGCGGAGGCTGCAGCGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCAAAAAGAGTGAGACTGTGTCTCAAAAAAAAAAAGAAAAAGA
AATTTTTAAAAAATTCCTTTCACAATGGCATCAAAAAATAAAATACTTAGGAATCAATTTAACAAAAGCCATCCTAGATCTCTGTACATAAAACAACAAA
ACATTACTGGGATAAATTAAAGAAGACCCAGAATATGGAAAGAGAGATCGTGTTATGGAGAAGACTCAGTATTGTTAATATGTCAGTTCTCCCCATATTA
ATCAGTAGATTCAGTCCAATCTCTGTCATGATCCCAGCAGGCTTGTTTGTATTGACATCAAAGCAAATTAGGAAGTACTATATAATATATGAAAACAGTA
CTATTTAACACAACAGCATGTCAATAATAATTCAGACCTTTTTCAGTTACAATGTTGGACTTTYTAGAGAATTTTGTGGAGATATGTTAGATTGGTAAAT
AAAAGCTGTTCTCATTTTCCTTACAGTAGAAAAATATACCCAGAAGTTATGTTTATTGCTCCCCCAATGAGATGTTTTACTTAAAAAAAAAAAAAAAAAT
TGACAGGAGACTGACATCCTTGCCCAGGTGACTAGGCACTCAGTCACTGGTAAGAAAATCACTTGATCTCTCTGAACTGTAGGCTTTCTGTCAGTAAAGT
ATTAATATTAAACTAAATGATCCCGKGGGTTATTTCCAGACCTGTGCTTCTGTGATATGGAAAAAGAATAAATGGTTAAGAATCAGAAAGAACAAGCTGG
TGATTTAAGCTTGTTAGTACAAGTTTACCATATTAGACTGTTGATTTTTTTTTTTTTTTTTTCCCCCAGACAGAGTCTCACTCTGTCGCCCAAGTTGGAG
TGCAGTGGCGCGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCTACTAGCTGGAACTACAGGCACCCACC
ACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATTGTCTTTATCTCCTGACCTCGTCATCTGCCCGCCTTG
GCCTCCCAAAATGCTGGGATTACAGGTGTGAGTGACTGCGCCCGGCCAGACTCTTGAATCTTTAAATTCTGTATGCTGACCAACAACTAGCACATTGTTT
GTGCCTAAGGTGTGCTCTAATAAAAAGGAATATGGTTTCTTATAATAATACTAATGGGCTCTTCAAACTAGCTTATCTTGTCATTTCTTCTCTTGGTTAT
TTCAAAGCATAAATTTGGGATTCGATGGTTTCAGTTTTAGCTTAAATCTGTMTCCTTGGTGATSAACTTAAATTAGATGCTAATATTTTGAAGGAGGACA
TGTTTATGCAAACCAGAGTGAGAACTTTTAGTCTAAGGGTCAGCAAACTTTCTCTGTAAAGGGCCAGATAGTAAATACTTTAGGCTTTGTCATCTGTACT
TTGTAGCAACTACTCAGCTTTGCTGTTGTAGTATATATGCAGCCATAAACAATTATGTAAATAARTTGATACAGCTGTGTTCTAGTGAAACCACAGAAAC
AGACSAGATGTAATGTATGGGCTGTAGTTTGCTGACCCCTGTTCTGGTGTAATAATATGCTTTGGCAGGCCTGCTCAAATAATGTACTCAGTATGCAGGC
CCACTCAGTACAGATAGTATTTTGGCCTTCCCAGTGGTGTTAAAAAGACAACTCTCCCTTTTGGACTGCAATTTTAAAAACCTAGAGATGGCAAGGCAAC
AAGACACAAGTCTGGGAGATGAGTAGGGAAACTACAGATGTGAAACCAGGAGATTATTGGGACCCCCGGGACTGGAGGCAGGGGCTGAGAAAGAGCTGCC
AGCTACAAGCTGGGTCCTGCGAGGCTCTGTAGCTGAAGTCCTCTACTCAGCACATGAAGGGCAGCTGACCCCATTTTTGTACCCTCTGCGACAGATCCTG
CCTCTGGTCAAACCCTGAAGGTCTGGGAACACAGAGTTCAAGATCTTTTCCCTCACCAGGTTACCTCCCACAGTGCAGTGCTGAGGGCCAGCTACCATTT
GTGGAGCACCCATGTGCAGGGACTATGTCATTTCTTATTCCCCAGAACAATTCTTCAGGTAGCTGTTTTATAAATTTTACAAATTAGAACTCTTGGATTC
AGGTACCATCCCTAGGTTTCACAACTAGTAAGCTGAGATTCGGACTCCAACGTGCATGTTCCTTTCCCAGTAGCACACTGCTTCTCCTGAAGCCGAAGTT
CCCCTTCAGAGAATTATGTAGATCTCATAATTCCCTAGGCAAAACTGGAGCTCTTTGAATCCYAGCCTAGCCATCCACACTATACCAGTTTAAGGTGCAA
TCTTGTGATTATTGCCGCTGATCACGATTCTTGATAAGCATCCACAACTGATAAGTCTGACGCTTCTGTTTTACACCAATTGCCAGTTGTCTCAGAGTCA
CTGTGAAAGGAGGGAAAAGCTTATCTCTTATAAAGTTGGTTAGCTTCAAAATACAGTGATGTATTTTGGATATTTCTGTGGAAAGGTTACAAGGGTCAAA
TGCATCATTAATGTGAACTTAATATACCCACTTGATGGATTGATTCCTGTGGGAAAACTAATGGGTTCCCAAAGTTCCTCGGGGGAGGGCTGAAGTGCTC
CTCCGAGTATAAATTTGTTCTTTCTGACTGCATGTAAGCTCATAAAGCATAGGCCACCCTTTGGGGCTGGCCTGCAGCTCAGTAGTGCCTCTCGTACCTG
CTCCAGACCCTAAGTAAATCACAAGAGTGCTTCATTTCAAATATGAATGAATCCTTGATGGGACCAACTAACCAACCCAAGCCCCACACGAAGGAACAGG
AGAAGGGTCTGCYGCAGCTAAGGGGTACGATAGGTATAAACAAAGCTTGTAACCTGACCTCTTGCAAATCAACAGCACAGTGCATGGCTAAAGATAGACT
TGCTATCCCCAAACAGAAATACACACAACCCAGAAAACCTCACTAAGTGATAACAATTTCTTGTACCCTAAATAACTGTTTACMTTTGGATCTCATTTGG
TCATTCTTCTAACCCAGGGAGGAAAGATTCCAACAGAACTTGCTGCTCTAGTGTGTTTATTGAAGATCGCCTTGTTCTGGTTCTGGTTCTGGTTTTTGTT
TTGGTTTTGTTGAGACAGGGTCTCACTCTGTCGCCCAGGCCGGAGTGCAGTGGTGTGGTCACAGCTTACTGCAACCTCGACCTCCTGGGCTCAAGTGATC
CTCCCACCTCAGCTCCCCAGCCCCCCAGTCTGGGACTGCAGGCATCTGCCACAATGCCCAGCTAATTTATATGTATGCGTGAGATATATATATATCTCAG
ACATACATATACACACACACATATATATATACATACATACATATATAGAGACAGACAGACAGCGTCTTCCAGTGTTGCCCAGGCTGGTCTTGAACACCTG
AGCTCAAGTGATCCTCCTGCCTTTGCCTCCCAAAGGGCTGGGACCTCCTTGTTCTAATTGGAATGTTTTCTAGGCATAGAACATTGTGCTAAACACGRTT
AGAGAAAAAGATATGGTCTGGATCCTGGATTCTAACAGCTTATAGTTTCACTTCACATGACAGATTTATGAATTCCCAATTAGAATAAATGGCAAAATTA
TGTACTACAAAAGATTTAGAAGGCATAGACTGGGCGCGGTGACTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACCTGAGGTCA
GAAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGACACTACTAAAARTACAAAAATTAGCTAGGTGTGGCAGTGGGTGCCTGTAATCCCAGCTAC
TCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGAAGGCGGAGGTTTCAGTGAGCCAAGATCGCACCATTGCACTCCAGCCTGGGAGACAAGAGCAAG
ACTCCATTCAAAAAAAAAAAAAAGATTTAGAAGGCATGATTAATTCTAACTAGGGAGACAAGGCATTTCCATCTCTRAAATGAGATGCCTCGAGCCAAAG
AAGGTTGTAAAAGGACGTGTGACCAGGAACTGTGCTGTGTCACTAAGCTACAGTCACTCGCTCTCTTTCCTCTTTGCCTTTCACAGAATCAATTTCTGCT
AATGTATACTGTGAGATCGTATGCATCAAGGTCAGGATGTTCTGACTTGGCTCTCCCTAGCGGAGATGGTGTTCTTTCTCAGAGTCTTCCCTTGGAAGGG
GGATGGGGAATCATAGGTCCAGAAAGATCTCATGGGATCTCATGTTACTGCCTGTCTGTCTTTTCTTTTTTCTTCCTSCGCTTTATAGTTCTTATAAACA
TTAGGAAACTTATATTTCTGAACTCGAGAATCTATTTATACTAGTGTTTAGTACTTTGATCCACAAATGTTTACTTACCATGCAAATAATGAGTGATACT
ATAAACTCAAAACAAATAACAGATCTGGTCCAGTTAGTGTCCTGACCAGATCTCATAGCTTGATTGCTCCTGCCCCCAGGCCCACATTACAGAGAGTACA
TCTTCATTCATAGCGATACATCTTTTAGTGCAGGGTAAGGGCTCTTGGAGTAAGTTCTGAATTCTTATTCCAGGGTTCATTTCTGACCTTCTGTGTGGCC
TTGGACAAGTCTTATTTCTCTGGGCCACAGTTTCTCAAACTGTAGATGAGAGATTTGAGAGGTAGGAGGAGGGTGGTGGTGATAAATTAGAGACTGGACT
CTGGGGACCCTTCCAATTGCTATATTATGTGAGTTACTGTGTAAAGTTGAGCCATTTTATGTTTGGCCTTGAATTTATGAATTTCCTCTGGCATAAATTA
TGATATATGCCAAAGGCCTTTGAGACTTAATCCTTCTTAAATAATTTCAGGCTTATGATGAAAAGTGACCTGGAGCTTTGGMTCCAGTCTTGCCCTCAGC
ACCTGTCAGCATGCTTTTGTTTTTAGGATTCTTCATATGTTCCYTGTTTTTCAGTGAGCTTTCTACAGGGACCACACACTCCTTAGAATCCTATCAAATA
CTGTTGTCAAAATTCTTTCGTCATCCTCTCTGCACTAGAACTTTTAGAATTTTACCACCATTCCACTTCTAGTAATAAAAAATGGGACAAGTGTCAGGCC
AACAGCCATTTATTGAGTATTTAATAATTACTGTTTACCTATATTTCATATCAAATCCTCAAAAGAACCCTGTTGAGTAGGTGTTCTCTTTGGCATTTGA
CAGTGTGGGAAATGAGGGATAAAGATATTAAAAGTTTTGCTCAAGGCCCTGTAATAAGATAGTTCCAGACCAAATACCACATGTTCTCACTTATAAGTGG
GAGCTAAATGATGAGAACACATGGACACAAATCAGGGAACAACAGGCACAGGGGCCTACCAGAGGGTAGAGGGTAGGAGGAGGGAGAGGAGCAAAAAAAA
TAACTWTTGGGTACTAGATTTAGTACCTGGGTGATGAAATAATCTGTACATCAAACCCCCATGACACAAGTTTACCTACATAACAAACRTGCACGTGTAC
CCCTGAACCTAAAAGTTTAAAAAGAAAAAATGCCAATGAAAACATTATAAACTTATGAAAATCMAAAAGGGTACCCTATATATGGAATTATAACTGATTC
ATATATTGTATGTGCTATTTAAAGTTTATATATTCAGGCCAGGCATGGTGGTGCATGCCTATAGTTCCAGCACTTTGGGAGGCCAAAGTGGGAGAATCAC
CTGAGCCCAGGAGGTCGAGGCTGCAATGAGCCATAATTGTGCCACTGCACTACAACCTGGACAACAGTGCGCGATCTTGTCTCMAAAAAAAAACAGAAAA
TTAAAAAATTTWAAAAAAATTATAATTCAACTCTAAGAAGCTTCTTAAGAAAACTTTTAAATACATGTTTCTCATTGAGGGGAAAAAAATTAAATAAAAT
AGTTTCAGAACCTGTGTCTGGGAAGTCCACATCAGGGTTATTTTTGTTATACCTKGTTCCTTKGGAGCCATAGATTATGTGAAGGGCCAGAGAGAACGTG
GATGCTTATCAATTTGCAATTTKGATGATCCAAAGGAAGGTTTTKGGAAATATTTGCTCTTTCATTTGTCACTCAAAGCCTGCTTKGCCTTTTCTTCAGT
AGACCCTAACCCTTCTGTCTCTGCCCCAGAATTAAGAACCAGAGGTTGTTAAAACCAAACCAGTGGATCCTAATCTGAATCTCTGTAAATATGACTAATG
AGGTCTGAGGTGGGACCAGCCYTCTGCATTTACATTTCCCAGAGATAACTTTGATGTGTACCCCYGATCTAATCCAACCTCTTCTTTTTGTAAATAGAGA
CAGTGAGGCTTGGGAAGATGAAATGGTATGCCCAGATTCACTCAGCCAGTAGGCGGTAGAGCTAGGCCTGGACCCCCATCCTCATATTTTAACTTTCCTT
CCCTAGTACCATTCACCTCATAGGGCTCTTGTGGGAGTTCTTCCTCTGCACAGGTGAAAAGAATTGGSTTTGGAGACTGTGAGATCTGATTCAGATCTAG
GCTATGCCACTTTCTGGCTGTGTGACCCCAGAGTTTGCTATTGATGTCTCTGAGCCTATTTTTCTTCATCCAAAAAAAAAAAATGGAGGTAATAATATGT
ACCTCACAGGGTAGACTAGAGGCACATAATAGGTGCTTAGTAAATGGCAGCTGTGCTTACCACAGYCACTGTTGTCCTTTTGGTTCTCATTAATTCCCCG
TATACCATCTGTACGGCATATAATTGTGACCAAAACAGTGACAGTTACCTTCCAAGCATCCGTCATGTCTKGGAAAGCAGCTCGTACCTCTTTGGCCAAT
CTCRAGGTCTCAASCAGCTCCATGTGTACTCCAGGAATAGGAGCAATAAGAGTGGCTAAATGCATGATATAAAATGATCTCTATTCCTCACAGCAGTCCT
ACAAAGTACTTAGCCCTATTGAACAAGTGAGAATTAAAAAGGCTTATTAACATATCCAAGGCTACAGAGCTAGGAGTTAGCAGAGTCAGACTTTGAATCC
AGCTCCAATACAGCTTTTGGTCTACCACTTTATGGGTTCTGAGACCCACTGAGGCTTGAGGGTGGGGATAAATTTTTGGGGGAGAAGGGATAAAGATGAA
AAGGGCACTGAGATAAGGGAACTAGTCATTATTTGGCCAGTCATCTTTTCCAGAAACTCCCGCCAACCACCCCTTTCCTGCTCATGTTATCACTAGCCAG
TCGATGGCTGGGTTGGCCTGGGCTGGGCTCCTCGGCTGAAATCCTTCAGAGCTTTCCTGTTCTAGAGTTTTGCAAGAAGGTGGGAGGAGTGTTTGTATGC
TGGGCAGGCTTCCCAGGGGTGATTGTGGAAAGGAAGGGGAGTGATTCTGTAGGGCCCTAAAAAGAAGCCAGGAAGAAGAAAAAAAAAAACTGTTTAAAAG
AAAATAGATTGACTCAGGCATTTGTGGGCATTATCTTTAGTCTAGACTTGGAGATAGAAGCTCAGGCCAGGAGTCTAGAAACCTCCATTTTCTTCTTGTG
TTTTGGGTCATTAGGAAGGTCAGTTACACAGCAAGAAGTACCAAAAACACCCCAGCCACACATTGTTTAATATCTTCCTTTATTTTCACCATTCTTTTCT
TCTCCCAAGGGGTACCCAGGCAATAAAAACAAATCCTATTAATGCCTTATGCATGTGCATGGATTTGCTTCCAAACCCTTATCTCATTCACCTCCTAAAA
CAACCCAGTGAGACAGACAGGTAGGCTAGAGATTATCCTCCAATACTTGATAGTTATGAATTAAAGCTCAGCGACCACACATGATCTCACAGCAAGTTTA
TGGCAGAGCTGGAACTGGATTCCTGGTCTCTTGACTTCTGTCCCGTGCATGAGGTTCACTCACTGGGAGTAAAATTTCAACCCACTTAGATCTATTCTCA
CTCCCCCATGCCTGCCACCAGGTAACCACTAATCTTTTTCACATCCCTGCAGATTTGCCTCTTCTAGATATTTCACATAAATGAAATCATTTCTAGAATC
ACTCCCCTTCCTTTCCACAATCACCCCTGGGAAGCCTGTCCAGCATACAAACACTCCTCCCACCTTCTTAACAAAACTCTAGATCTGTGGTCTTTTATGA
TTGGCTTCTTTCACTTAGCGTAATATTTTGAAGGTTCATCAAGATAACCTATATCAGTATTTTTTATTTCTATGGCTAAATAATATTCCATTGTGTGGAT
ATATCACATTTTGTTTATCCATTCGTCAGGACATTTTGGTTGTTTCCATTTTTTGGCTCTCATGAATAATGCTGATATGGACATTCATCTATAAGTTTTT
GGTGTTTGTGTTTTAATTCAATCCTTTCAGCAACCCTCTATGATAAACTGCAGGGCAAGTTATCCTAGATATTAATAGTCCCTTTTTACAGATGAAGCAA
CTGAGGCTAAGTGATTTGCTCCAGGTCAAATAGCAAGCAGATCTGCCTTTAGGCAGATCTAGGGACAGAGCCAAGTCTCTCCACTATTAGCCTAATACAT
TTTTTTCTGTTACATGTAGCACACCATGTCGCTTTTGTTCTATGAAATGTTTGGAAGTATATTTGAAAACTTTAATTATAGGGAGTGACCCTGAGGGGTG
ATGAAGCCATGAATCACAGCAGTGCCAGGTCTACTAATCAGCCCTGTCCAGAATGGMCATGTAGAATGTACTCCACTTACCAATGGCAAGCCATCTGAAG
GGAGCAGCTTTCAGTGAGCAAAACAAAACAGCACCAAACCCAAGTTGGCTGAAGCTCTTGCCTCCAACTGATGTGGAAAGTGAGGTAGCACCTCCCCGGA
ACCTCATCTATTGGGGCACAGGCAGCTCATCAGAATTGGGGGTTGGAACCACGGAGGAAGAAGTAGCAGGGGTACTCGGCCATCAGGGTCCAAAATGAGA
AAAATCTTATTCCAGAAAAGTTGTCTCTGAATTTAGCTTTGTAATTATTTTTCCTGAGATAAGCAAGAAAACCTTGTTTGATGTTTTAGGTTTTATGGTA
TATATTGGTTTCCTAGGACCTCCATGACAAATTACCACAAAGTGAGTAGATTAAAACAACAAAAATTTACTCTCTCACAGTTCTAGAGGCTAGATATCCA
AAATTAAGGCATTGGTGGTATTGGTTCCTTCTGGGTGCTCTAAGGAGAGTCTGTTTCTACCTTTCCGTTAGTTCCTGGTGGCTGCCAGCAGTCCTTGGCA
TTCCGTGGCTAGTAGATACATCATTTCGATCTCTACCTTGACCCATACATCACATGGTATTCTGCCTTTGTGTTTCTCTGTCTCTGTGTCTCTTTTATAA
GGATACCAGTTCATTGGATGAGGGCCCACCCTAATCCAGTATGACYTCCTCTTAACTATGTACAGAGACGCTATTTTCAAGTAAGGTCACATTCTGAAAT
ACCAGGTAGAYATGAGTTTTGGAAGGACACTAGTAAACCTAGTATAGACACTAAGAAATAATCACATAAATTCAGGCAGAGATCTTTTTAAAGTTGCAAG
CAGAAGTGGGATTTTGGCAAGTTTTAGTGCCAAAACAGCTTTGAAAGAATTTTTCTGGAGCTACATACTTTTTTTTTYCTTTTTTCTTTTTTCTTTTTTT
AGAGACAAGGTGTCACTCTGTCATCTTGGCTGATTGCAGTGGCGCGATCATAGCCCACTGCAGCCTCAATCTCTTGGGTTGGAGCAGTCTTCCCACCTCA
GCCTCCTAAGTAGCTAGGCCTACAGGCACACACCACCACGCCCAGTTAATTTTTTAATTTTTGATAGAGACGACTCTCACTAGGTTTCCCAGGCTGGTCT
CAAACTCCTGACCTCAAGCAACCCTCCTGTCTTGGCCTCCCAAAGCGTTGGGATTACAAGCATGAGCTATTGCACCCAGCTAAGCTATAGATCATTAGAT
GGAGCTGGCTAGTTTCATTGACATGACTTTGTGCTGGTAGAGTAGAAATCCAAGTTTCTGTTGGATGAAGGCCCAATTCATCCTAATCCCTACTTCATCT
TCTTAACAGACCTTAAAACCTCTCTGATTTTGACCACAAGAAACACACATATTTGGATTTTTGCGCCAGGGAAAATTCTTTTATTTTTTCAGTATGATCA
GTCAACAAATGTGTATTGAATACRTACCATGGCTGGGGCTGTTCTAGGCACTAGGGGTACATAAGTGATAGAAGGTGTTCCATGTACCTATGACATTCAA
GATTTTCTAGACCTTATGTGTATTTCATTCTTTTCATCCTTATAGCTGCCCTATGTTGATTTGTAAATAAGGAGACTGAGACTCTGAGAGGTGAAGTGAC
TTCCCCAAGTATGCAGCTAAATAGACTGAGTCACAGATATGACTCCACAGGCTGAGCTCAARGMAGGGGCTGCAGAGGTGAGGATGGGTCACTCCTCTTT
TATTCATACTCACAGCCAAAGCATTCAACATAGGGGGCATGAAGGATGCATTTGATGACAAGGCAGAATAAGTAGGTTGTGTCAATGGCGTTTATTGTAA
TACTGAGGAAACTCGACTTTATTCTGAAGGCAATAAGGAGTCAGTGAATGTTACTGAGGAATAATGATTTCTTATGGTGTGTACTTTTTTTGATCAACGC
GTATTTATTGAATTTTGTCACACACTGGGCTTAATGATGAGGATAAAACCATTTCAAAATCTCTGCCATCACTGTGTTTACAGCCTGATGTACAAAGTGA
TGAGAGAAAGATTGGTATTTTCCTGGAATTTTATTTGAAACACAGGRAAGCACAGGTAAGAAACAASGTTGAAGAAAGAAACAGGAAAATGTCTTTAAAA
AAAGAGGCTGGGTGCAGGGCTTTATACCTGTAATCCTAGCCCTTTGGAAGGCTGAGGCAGGAGGATTGATTAAGGCCAGAAGTTCAAGACTAGCCTGGGC
AACATAGTGAGATCCTGTCTCTACAAAAAAAATTTAAAAATTGGCCTGGCGTGGTGGTGCATGCCTGTATTCCTGGCTATTCCGGAGGCTAAGGCAGGAA
GATTGCTTGAGCCCGGGAGTTCGAGGTTATAGTGAGCTATGATTGCACCATGGCACTCCAGCCTGAGCAACAGAGCAAGACCATGTCTCTAAAAAAGAGA
GCTTTGACTGGGCRTGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCAGTGGTGATCGAGACCATCCTGGCCAACATGGTGAAACCCCA
TCTCTACTAAAAATACAAAAATTAGCTGGGCGTCATGGCATACACCTGTAGTTGCAGCTACTCAGGAGGCTGAGGCCGGAGTATCACTTGAACCCAGGAA
GCAGAGGTTGTGGTGAGCCGAGATCGTACCACTGCATTTAAGCCTGGATGACAGAGCGAGACTCTGTCTCMCAAAAAAAAAAAAAAAAAAAAAAGGAAAG
ATATTTGTAAGTCATCTGAGGTATAACAGAAGAGTTTTAAGAGGGACGGTGACATAATGACGTGACATGGTTGCTGAGAAACAGAAGAGTCATAGATAAT
GCCTGGACTTCTGGCTTGGAGAACTTATTGGCTGGTGATGATGGACCTCACTGAGACAGGGAACACGAGTGATGAAGAGGTCAATTTAGATTGTTGAGTT
TGGCCCACTAGTGGGACGTCTGAAGGGAGGTGCTCAGCAGGTGAAGGGATATATAGCAGGGAGTCCCGGAGAGAGAACTGAGCTAGAGATGAAGATTTGA
GAGTTGTCAGCACATAGGTGGTAACTGAAGCTGTGGAAGTGGACAGGATTACCCGCTGGAGAGTCTTCAGCGGGAGAGAGAGGCTATAGGAGGGTCTAGA
GTGGAGCCCTGAGGAATGCCTCCACTGAAGGGGCAGGCAAAGGAAGAGGAGTCCAACGAGACAACAGAGAATACAGAATCTCACCAGAGGCTTGCTTTTT
GCAGGTTCCCTGTGTCTTCTTAGGCAGTAGCTTGTATTCTTTCCATGGCCCTGTGGCTACTCTGTCCCATAATGTAAACCCTCTCTCCTCCACTATTAGA
GAGTTCATCTTGCAAATCTAATGGAGTAATGAGCTATCGATTCTGTTAACAAATGTCCAGTTTACTGAAAGACTTGTAATGGGAGTTAATTTTGGGGGTC
AATACAGCTGTCAATGGAAMAGTTTTTCCCCAGAGGCCCATCAGCTTTTTCTGTTGTACACTGGCAGGTGTCCTGCCCAGCAGCAGAAATGCCTGGAGAG
TAATTAATACTGTAGAGCATTAATGAGCTGGTGATCCTGCCTAGGACCATGAGAAGGGTACAGCCTGAGATAGGTCAGATGACAGGGCGTAGAAGGTGAA
CTGTGTCCCCTYTGACATGAGTTGAATAACCTTAGAAAATCAACACCACCACAACGTTAACCCACCAGCTATCATACTGCCTAAGATTACATCTTTAAAC
TTTTATTTCTTTCGAACAAGAAGTTTCACTAGTGGAATTTTTGAGTGCTGAATGAATGTGTTGTGTTTGCTTAGTCCGCAGACATGAACTAAGAATCTGC
TATGTACCTTGCCTTTATTAGGTAAATGCTGGGCCTATAATGGTAACAACATCACAGTCACTGTTCTCAGAAAGCCATGGGTTAGACAAGGAAGCATAGT
GACCATGGATATAATGGGAGCATGGGCCAAGTGCTGYTGGCACACAGAAGAAGAAGCAAGTCCAGGAAGATTTGGGAGAGAATATGATATCTGTGTAGGG
TCTAAAAGTCTGCATATGAGCTTGCCAGTAGAGTAGAGGTGAAATCCAAGTGGAAGGAACAGCAGAAGCCAAAACAAAGAATCATAAAAGAGGCTGGTGT
GTTCAAGGACTGATGATGCTTCCATATGCCTTGTTTATGGGTGGAGAAAAGCAGGAAGTAGGTCAGACTGTCAAAAGCCTTGTATGTTATGCTAAGGAAT
TTGGACTAGCTTAGAGAGCCAGCCAAATGAATAATGACCTTGGCTTGGGGTGTAGTACTATAAGCTATTATCCGTCCTTAATACCTCACTTWCTAACACA
ACAGAGAAAAGCTTGAGATAAGAGGGAAAATGACCAATAGACAGGGAGTGGTAGGCAGTGGGGAATGTAACTGTCCTTGGAGGTCTTAGGAGGCCAGGCA
GGAGCAGCTGGAGTCCAGTATTAAGGGACAGCTCCAAATGCATTTGTGCTTTTCTCATTAATGCAGTAAGGCACAGTCCAGAGCCTCAATTAATGAGTCT
TCAGTAAGCAAAGCCTCATTTAACAAAGCCAGCCTTAGCTTTTTTTTTTCCTGTAATTAGATGTTTAAATTTCATTTTTTTTTTAAATTTCAACTTGTTT
TTCAGATGCCAGGGTACATGTGCAAGTGYGTTACATGGGTATATTGTCTAATGCTGAGGTTTGGCCTTCTGTTCATCCTATCACCCAAATAGCATTGTAC
CCCATAGGTAGTTGTTCAATCCTTGTCCCCCTCTCTCCCTCCCTGTTAACATAATCCCCAGTGTCTACTGTTTCCGTCTTTATGTCCATGTGCACCCTGT
GTTTAGCTCCAACTTATAAGTGAGAACATTAGRGTATTTGGTTTTCTGTTTCTGCATTAATTCACTTGGGATAATGATGTTCAGCTGCATTCATGTTGCT
GCAAAAGACATGATTTCATCCTTTGACCACAGCAGGCGCCACCAAAGAGTGGGAAGGTGGTCGTACTCATTACTCTAGAGGCAGACCTTGCCTGAGGGTC
AGGGTCACACTCCTAGACCACAGGTAGCCGTACTTCCTGGAAGTGGGGCAGATATGGCCTACATTGTGATAGGAAGTCACCTCCAGGCTACCCCAGAAGC
CATACAAAGGTAAAGAGGACCTCTTCTTCAACCAAGATGGCCAGGAGGGCAGCAAGGGGCAGGTATATGAGAGGGAGAGAATGCTAGTGCTGGATTATTT
TCTCTGCTCTTACTCTTTTTTCTTCCTCTGACAACTCACTTTGGGATAAGGATACATTTCCTTCCTTTTYCATTCACAGAGCTATTTCTCCTTTTCAGAC
TCCCTGAGAAATGTTTCCTCAGCCGGTCATGGCCCCCGCTCTTCTCCAGCYGAGCTCAGCAGCTCTAGCCAGCACCTTCTCCGAGAGCGCAAGTCCTCAG
CCCCATCACACTCCAGCCAGCCAACTCTGTTCACGTTTGAACCCCCTGTGTCAAACCACATGCAGCCCACCTTGTCCACYAGCGCACCTCAGGAGTATCT
CTACTTGCACCAGTGCATAAGCCGAAGAGCAGAAAATGCAAGGTAGGAGGCTGCCACAGCCATTAGGTGGGTTAGTGACCGCTCACAGGGCCTAGYACTT
TTCAGTCCTTGCTTTTTTAAAGACAAGCAAAACATTATATCGTTTCAGGTAGACAAACACGTCTATGACAAAACATAATTTTTTGCTTCTGTAGCCTTCA
TATTTTATTGGCATCATCTGTGTTGCTACACAGTGATAACTGGGTGCCAGAGAAACTTTTCATTATCAAAAATCATGCTATAAAAAATGTTTGATTTGGA
GGCAGGGGTGAAGGCATTAGGGGACACAGTTTCCGAATTGCAAAAAAAAACAGTCARTTTACTTGGGCTTAAAAGTATAGCTATAAAACCATAACATAGT
TCAACAAATCCATACCTTGCTTTTGCTCTAGAACTGCACTGTTCTGTATAGTAGCTACTACCTGCATATGTCTACATAAATTTAAATTAATTAAAATGAA
ATAAAATGTAAAATTCAGTTCCTTAGTTGTACTAGCCACATTTCAAGTCCTCAGTAGACACATATGTCTAGGGGCTACTGTACCAGACAGCACAGATACA
GAAAATTTCCATCATAACGAAGTTCTAGAGCAAGGACTCCCTGTTCTAGGATAATGGTCTTTTGTTTTTCTAACATCATCAGCTCTTTCACAGGTGCAGA
ACCTGTAAATGTATTTATTATGTTTTATTCCCATTGTTAGGCTAAGCAAAAGTGCAGAGCTGATAGGCTTTGCCAGAGCTAATTCCCAGTTGCTACCATA
GCCAGCAGATTACAAATCACATTTTAATTAACTTACAAGATCTAATTCATGTTATGACAATTAAGGCAAATAGAAAAATGGCTGTACTAATGTATTACTT
GATTTTGTCCTTGAGAATATTTTCATACATAATCTCATTTGAACCAATCAATACACTGAGAAATAGCCAGTATACAAAATTTATCTCCATTTTAAAGATG
AAGGAACTGAGAATCATGACTAATAAATAGCAGAGGTTGGGCTAGAACCCAGGTCTTCTTGTTTCTGGTCCTGTACTCTTTTCACTATGCTACCCTACTT
TTGTTTTTCTGAGTCATCTGCTGTCACACAGAAGAGGCTCCAACACTTAATCTTAAGGCTGCCTCAGATACCCATTTTCATGAAGAACATGATTCATTTG
TTTGTGAACTTTCACTAGTTCAACTTCCATCAACTTATACATGAAGAGCTGAGTCCTAAAAAGATAGAGTGAGTTAGCCAAGGTCACTGAACTAGTTAGT
GGCGTTAACTGTAAATAGTACCTGATTCTCCCGAATCACTAACCAGAGATAGGCAGTGTGGTATAATGAAAAGCATGTTCAGGCTTTGGAGTCAGTCGGA
TATGGGTTCAAATTCAGGTTCTTTTACTTTCTTTGTGATCTTGGGCCAATTATTTAACCTAATTAACCTTCAATATTCTTATCTTCAGAATGGGAATAAC
TAATTCAAAGGCTTACTAATGAGTGTAAAATGATAAAACATACATAAAATAGTAGTAGAGAGTAAATACATTTTACCTGTTCTTCYTATGCCCCATCCTC
TTCTACTACATAGACAACTGCCTGGGAGCAGATAAGGTGAGGTCTTAAAATCATAGTTGTAGTGAAAGGCAAAGTACTTAGCTGTAGTGCCTTGCAGACT
TTAACATGCATATGAAATACCTGAAGATCTTACTGAAATGCTCACTCTGACTCAGTAAGCCTGGCCTAGGTCCTGGGGTCCTTTCTAATAAACTCCAGAT
GATACCAGCRCAGATTGTCTACAGCTCACACTAAGTAGAAGGCTTTATATAGTAGTAACAATTGCCGCCACCACCACTCCAGTGATCCTGCTGACGCATC
AGAGAACAAACGTAGAAACATCTCTGCTTGAATTAGCCTTTAGGGCCCACTCTCTGCACCCCTACCTCCTCTGTGAAATCCCTATTAATCTTCCTACCTG
GAATTCACTTTTTCTCTGAATTGCCACAGCAGTTTTTTATTCTCTCTCTCTCTCWCACAACATTTGGAACTTTCTGCCTTGTAGAATGGATTTTTATATT
AATACATTACTATTATTTGAWGATGGAGCTCACAGTAGGTGCATAATAATTTGAACAAATCCATGTTGTAGAGGGATAAGCTAGTAGAAGAGATAGAACT
TTACGCAGCTGAGGAAGTCACATTGTTGTAGGCCTTTGACCAAGTCATGTTCTTCTCTGTCATGGTTTTCACTTGTGTGGATGAGGGAATGAGAGGGTAA
TGAGCAGGATCTCAGGGAGACTTTTGGAGAAAATAAGTTCAAATAATGTTTGCAGAATTCCAAAGGAAGTTGGGAGGGTAGGAAGGAAGCTTTCTTAAAT
CCAGAAAGACGATATATTTTCTTGTAGTAGTGGAGTTGCTCGCATCATGCTAAACCTACTGTAATAATTATAAACTCTGGACAAAATATTAAAAAATAAC
TTTTTTAAGGCCCTGAAGAGCAATAAAAAAGGCAGAAACTGCAAGAGATCTGACTCTTGAAAGAAGTGAAATTCAGTTTACATGGCTTTTCCTATGATGT
TCCAATAATATATCGTCGAGAATATTCAGTATACAATGAGAAAATGCCAGACATATGAAGAAACCGTATACATTAACCCATAGTTGAGAGAACTCAGTAT
CTAGAAAGAGATCAAAATAAACCCATATTTTGGACCCAGCCTACAAGACTTTAAAATAATTATGTTAATTTTTTAATCTATTGTGGGTAAAGGATATAAT
AGGTGAAGAGATGGTGGATTTTAGGATGGATGTAGAAACCGAAAAAGAATTGGGTAGTTCCAGTTCCACTATGGTGGTGGAAGCCACCACAGGCTTTCCT
TCCCACTGATTACAACTAAAAACTCTGGACAAAATCCAAAGTGCAATACCCAAAGACTCTGAAAAATAAATAAAAGGAGATAGATTGTAAAGAGGAGAAG
AACTTGTAGAAGTGACTACACAGAGATGAACTTTTTGTCTTTCATGCATTTGCCTCCAGGTTGGGCCCCATCACAAAGTAGCACAGTGCAAATGGCTAAA
ATGTCATAAAAAACCCCATCTTTCTGAGTAGGGGAACCAGAAGAGGAGCCCCATTGGGGCTGGAAGGAGCTAGTATATTCCAGAATGAAGAGAGCTGGAG
AAGGGATCTTCTAACTCTGGGAATGAAACTATGTGAGTCTTAGGATCACCTTGGGCTACACATGTGTGGGACAAACCGAATCGAGTGCAACAAAGCCTAT
GTGAACTGAAAGAAGATTTGAACTACCATACACAGGAGGAGAGACAGAACTTGCAGTCTGAGCCTAACCAGGTTGATTTCCTATAAAAATATCACTTCTC
GGCCGGGTGCGGTGGCTCACGCCTATAATTCTAGCACTTTGGGAGGCTGAGGTGGGCAGATCACCTGAGGTCAGGAGTTGAAGATCAGACTGGCCAACAT
GGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCTTGGTAGTGGGCCCCTGTAATCCCAGCTACTCAGGTGGCTGAGGCAGGAGAATCGCT
TGAAGCCAGGAGGTGGAGGTTGCAGTGGGCCGAGATCACGCCACTGCACTCCAGCCTGGGCAACTGAGTGAGACCCTGTCTCAAAACAAACAAACAAAAA
AATAGCACTTCTCCATGGGATTATAACAGAACCCAGCATCTACACAACATCATGTTCACAGCATTCAGGATCTGTAATCCAAAATGTCTCAGCATATTGA
AAACCAGAAAAATATAACCCATTCTCAATGGAAGTCACAGGTACAAACCTCAAAATAACCCAGATGTTGGAATTATCAGACACAGATTTCAAAGCTCCTG
TGAAAACAACATTCCATGTAATAAAGGAAAACACACTYGAAACTAATGGAAAGAAAAAACCCTCTGCCACCGGACACTGTGGCTCACACCTGTAATCCCA
GCACTTTGGGAGCCCGAGGCAGGTGAGTCATCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAA
AATTAGCCAGGCATGGTGGTGGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCTGGAGGCGGAGGTTGCGCCATTGC
ACTCCAGCCTGGGCGAGAAGAGCAAAACTCCGTCTCAAAAAAAAAAAAGAAAAAAAGAAAATAAAAAAACCCTCTGCCAACCAAGGAGTTTATATTCGGC
AAAAGTATCCTTTGGGAATGTAAACAAAATTAAGACGTTCTCAGATAAAGGAAAAATAAGAGCATTTCCAAGAGATCTGCTTTTAAAAACTGATAAGAAA
TTTCCTCAGGCTGAAGCAAGATGGTACTAGAAGGAAACTTGAATTTTCAGGAATGAAGGAAGAGCAACAGAAATAGTAAATCCCTGCATAACTGTGAAAG
ATTATTTTTCCGTTTTAACTTCTTTAAAATATGTATAAGTGTTAGAAGCAAAACTCAAACAATGTCTAGTGAGGTTTTCACCTGGTTTTCTTACTCTTTA
GTATGAAGAGCTCCCTTTGCCATTTCTTGCCATGTGAGTGGCCTGGTGAGAAATTTTCCCAGCTTTCATTTATCTGGAAATTTCTTAATTTCACCTTCAG
TTTTGAGAGAGATTTTGCTAGGTATAGAATTCCAGAATGACAGTTCTGTTTTCTTTCAGCATTTAAAGGATACCATTCTAGTCTTCTGACCTTCATTGTT
TCTGATGAGAGATCAGCAGTTATTTTAATTTTTATTATTCTATATGTATTTTCCTTCCTCTGAATGATTTTTTCTTTTCAAAAATTGTAGTAAATACATA
GCATAAATATATCATCTTAACCATTTTTAAGTGCACAGTTCAGTAAAGTACATTCATATTGTTATATAATCAATCTCCAGAAATCTTTTCATCTTACCAA
ACTGAAATTCTAACCATTCAACAACTCCCCATTTCCCCTTCCCTCAGGCCCTGAAAACCACCATTCTACTTTCTGTCTGTGTGAGTCTGACTTCTCTAGA
TGCCTCATATACATGGACTCATACTACATTTTCTTTATCCATTTATCTGTTGATGACCACTTAGGTTGATTCCATTATCTTGGCTATCGTGACTAATGAT
GCAATAAACATAGGGGTGCAAATAGCTCTTTAACATACTGATTTCCTTTCCTTCAGATATATACCCAGTAATGGGATTGCTGGATCATAAGGTAGTTCTA
TTGTTAGTTTTTTGAGGAACTTTCATACTGTTTTCCATAACGACTGTACTAATTTACATTCCCACCAACAGTGTGTAAGAGTTCCCTTTTCTCCACATCC
TCACTGGCATCTGTTATTTTTCTTCTGGAAAATAGCCATCCCAACTGGGGTGAGATAATATCTCATTGTGGTTTTGATTTGCATTTCCCTGCTGATTAGT
GAGACGGCAAGCTTTTTTTTTTTTTTTTTTTTTTTTACTATGAATGTTGGCTGTTTTTCTGTCTTCGTTTGAAAGATAACTATTTTCAGCTAATTTGCCT
CAACTCCATTATTTGTTTTTTTTTGCTGTTGAGTTGTTTGAGTTCCTTGTATATGCTGGATATCAACCTTCCATCAGATGAATAGCTTGCAGAATGGCTT
TCTCCCATTCAGTAGGTTGTCTCTTTACTCTGTTGATTGTTTCCCTTTGCTGTGCAGAAGATTTTTAGTTTAATATAGTCCCATTTGTCTTTTTTTTTTC
TTTCTTTTGAGACAGAATCTCCCTCTGTCGTACAGGCTGGAGTGCAATGGTGCGATCTTGGCTCACTGCAACTTCTGCCTCCCAGGGTCAAATGACTCTC
CTGGCTTAGCCTTTTGAGCAGCTGGAACCACAGTCATGTACCACCATGCCTGGCCAATTTTTCTATTTTTAATAGAGACAGGATTTTACCACATTAGCCA
GGCTGGTCTTGAACTCCTGACCTCAAGGAATCTGCCCATCTTGAATCTGCCCATCTTGGCCTCCTAAAGTGCTGGGATTACAGATGTGAGCCASCACACC
CAGCCATTTGTCTATTTTTTGTTTTTGATGGTGCTTCTGAGGTCTTAGCTGGGCCCTTTTTTGTTTTTGCTTTTGATGGGAGACTTTTTTTTGCAAATTC
CATCTCATTACTCATAATTAGTCTGTTCAGATTTTCTATTTCTTTTGGGTTCAATCTTGGTAAGTTGTGTTTGTCCAGGAATTTATCCATTTCTGTTAGG
ATTTCTAATTTGTTGGTGTATAGTTCATAATCATCTTTTTTCTTTTTTCTTTTTCTGAGACAGAGTCTTGCTCTGTCCTCCAGGCTGGAGTGCAGTGGCG
CGATCTCAGCTCACTACAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACGTGCCACTGTGCCCA
GCTAATTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTGAGCCAGGATGGTCTCGATCCCCTGACCTCGTGATCTGCCCGCCTCGGCCTCC
CAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCTGGTCCATAATCATCTTTAATGATCCTTTTTGCATTTCTATGCTGTCAGTTACAATGTCTCCTT
TTTCTTTTTTATTTTATTCCTTTATCTATTTTGAGACGGAGTCTCGMTGTGTCACCCAGGCTGGTGTGCAGCTGCGCGATTTTGGCTCACTGCAACCTCC
ACCTCCTGGGTTCAAGTGATTCTCATGCCTCAGCCTCCCGGGTAGCTGGGACTACAGGCGCCCACCACCACTCCTGGCTAATTTTTCTATTTTTAGTAGA
GACAAAGTTTTGCCATGTTGGCCAGGTTGGTCTCTAACTCCTGACCTCAAGCAGTCCACTTGCCTCTGCCTCCCAAAGTGCTGAGATTACAGGCATGAGC
CACCATGCCCAGCCTTTTTTTTTCTTTTTTTTTTTCTAGACAGAGTCTCACTCTGTCGCCCATACTGGAGAGTACGGTGGTGTGATCTCAGCTTACTGCA
ACCTCCGCCTCCCAGGTTCCAGCGATTTTCATGCCTTAGCCACCCGAGTAGCTGGGATTACAGGCGTGTGCCACCATGCCCACTAATATTTGTATTTTTA
GTAGAGACGGAGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTYCTGATCTCAAGTGATCTGTCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCA
TGAGCCACCACACCCAGACTGATTTTGTATTTATTTGGATCTTTTCCCGTTTTTTCTTGGTCAGTCTTGCTACTGGTTTGATTTTGTTTATTCTTTGAAA
AAATTAACTTCATTTTGTTGATCAGTTTTATTTTGTCTCAATTTTATTTCTGCTCTGATCTTTTTTTTCCCCTTTTACTAATTTKGGGTTTGGTTCTTGT
TTTTCTGCTTCCTTGAGATGCATCATTAGGATGTTTATTTGAAAATTTTCTACTTTTTTGGTATTAGCATTTATTGCCATAAACTTCTCTATTAATACTG
CTTTTGCTGTATTCCATAGGCTTTGGTATGTTGTGTTTCTATTTTCATTTGTTTCCAGACATTTCTAAATTTCATTCTTTTTCTTTTTTTTTTKTTTTGA
GACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCTGCCTCCCAGGTTCACACCATTCTCCTGCCTCAAC
CTCCTGTGTAGCTGGGACTACAGGTGCCCGCCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGTTGGTCT
CGATCTCCTGACCTCGTGATCCGCCCACCTTGGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCGGCTCTAAATTTCATTCTTAATTTT
TTCATTGACCCATTAAATCATTCAAGAGCATGTTGTTTAATTTTCCATGTATTTGTACAATTTTGAAATTKCCTCGTTACTGATTTCTAGTTTTATTCCA
TTGTGGTTAGAAAAGATGCTTGATGTGATATCAATTCTTTTAAAATCTCTTGGCCTAACATGAGGTCTGTCCTATAGAATGTCACATGTGCTAATGAGAA
GAATTATACTCTGCAGCTGTTGGATGAARTGTTGTTAGGTCCATTTGATCTAAAGCGCAGTTTAAMTCTAATTGTTTCCCTGTTGATTTTCTGTCTAGGT
GATCTGTCCATGCTGAGAGTGAGGTGTTGAAGTCTCCAACTATGATTATATTAGAGTCTRTCTCTCCCTGTAGATCTTAATGGTGTTCCATAAGTCTTGC
AGGTTTTCTTCACTCTTTTCATTTGTATTCCCCCTTTCCTTCTGGCTGGGTAATTTCAAACTACCTTTCTTCRAGTTCAGATATTCTTTCTTCTAATTGA
TCAAGTTTGCTGTTGAAGCTCTCTGTTGTGTTTTTTATTTCATTCATTGAATTCTTCAGCTGCAAGATTTCTGGGTTTTTTTTTTTCTTTCTCTTTTTTG
AATTTTTTTGTTCATATTGTGAATTCTTTTTCCTAATTTCTTTGAATTGTGTGTGTTTTCTTGTACCTCATTGAGTTTTCTTAAGGTCATTATTTTGAAT
TCCCTTTCTGTAATTTGTTGATCTCCTTTTCACTGGGCTCTAGTTACTAGCCAGAGTTCCTTTGGTGCTTTTTTGGTGTTATATTTCCTTCCTTTTTTGT
GTTTCTTGTGTCCTCATGTTAAGTGTCCATGCTTCTGGTGGAAAGATCACCTCTTCCAGACTTTCTGGAGTGGATTTCTTAGAGAAAGACTTTCACCTGC
AGTTGGGTTTTAGTGTTCCAGTTGAGAAGGATGTGATGACTGTGTTTCCACTTAGGTGCAATGGTATAGTCTCCATGCAGCTTCTTTGCCTATGTTCAAC
ATCAACAATAACTGGGAGTGCCTCAGTGGCCTAGACTATAGAAGTTTGTGCAGCAGCGGTGGTAGCATAGGTTGTTAATATCCTTAGCGTAAAGGGCTTT
TTGGGTCTTTCTCTTCTCATTTTCCCCAAATGAGGAGACTCAGTCAGGGGGATCCCTCTTAGTGTCAGGTCTGGCATGGCCTACAAGTAGCTGCAGCAGT
GCTGGGTTCTAGGTACTGGTGCTTGGAGCTTATGTGGCGTTGGGTTTCTAAGCTCAGAGTCTCATGAACCTATTGTGGCAGCTGGGTCTTGGGGTGCAGG
TTCACTCTCCGTAGCATGGTTGGATGTGGACTGCCCTCCGGGCCAGGATCTATGATATGACTCTGTTGAACCCTCTATCAGCTCAGGTCAGGGGCCAGCT
GTGATTCTACCCCTGGTAGGCAGAGCACAGCACTGGCCTCACCCTGGGCAAGAAGGGATGTTCTGGAGGTTTGGTTTCAGGGAGGAGGATACAACTAGAA
TTTGGGAACCTGAGTCAATAAGGCTCAATGGCAACTTGGGTCCCAGGGATTGATACACCATGTAGCAGTGACTCTACATGGTCCCTCTTTAGGCTTAGCA
AATACCCGGGAATGGCAGAGTATAGCTGTGTTTTGGGCTACAGAGGGGCAGGGAACAGCAGAGCAATGACTCTACTCCCCAGGGAGAGGCGTATCTCAAC
AGCTCAGACTCTAGGGGGCTAGTGCAGCTCCAGGAAAGCAAGGCACTAGAGTTGTTTGGCCTGTAGGGCAGGGTGTCTCAGCTCAGACACTGCTCTTTTT
CCCTGAAACACAGGGTCCTGTATCAGCTCAGCCTTGGAATGCACCCCCTCTCAGCTCAGCTAGGGCACCCATTCCCCAGGGGACAGTGTGCTACTTCAGC
TCAGGCCCAGGAGGGTGTGACTGTTCTGAGTAGCCCAGGCATCCTTTCCCTGGAATGCAGGGAACCATATTATTTTAGCTACTGGGGTACCTCATTCTGG
GGAGTCAGTGCACCGTTTCCTAGGATGCAGCCACTGGCTTCAGCTTWGGCACTGTGGAGGCATGACTGTTCTGAGCAGCCAAGATACTGTTTTCCTTGAA
GAGAGCATACTGCTTCAGCTCTGGCCCAAGGGAGTGGGGAGAGGGGCAGGTGGATTAGCTTTACTTCTGCTTGACCCCCCTGGGAAGGGTGTAACAGCTG
CTCACAGCTCAGCTTTGGAATGTTGGGCCACTGGGCTAGCAATGGCTCAGCCACAGCTTAGCCTCAGGAATGAAAGGGAGCCATGGCTACTCACCTCTGG
AGCAAGACACACTCCAGCCATAGTTCCAATTCCAAGATGGCATAGCACAGTAGCCACACGGAACACAGCTATGTGGACCCTAGGCAACTTCCTTCACTGG
GCTTAGTGCCTATGAGGACTTCAGGGGACTCCAGTGGTGAGGCCTGAGATGTCCAAGGTGTTGATGGCAGTTGCCATGATCCTCTTGCCTACCTTCTCAC
CAAAAGAACTTCGTCCTTGTTCCAAACTGATCTTGCATGGAGTGGTGAAGGCCTAGTGTGTTTCCTTCTGTTCTCTGTGTGACCATCCCAAGTTTCTGGT
TCATCGAGTTTCTGTTACTCCTCTCATGCATTCTGGGACTCTCCCTCCGTTATTTTTGCTAAAATGTAATTGTTCAGGAGGCCAGGTGTGGTGGCTCACG
CCTGTAATCCCAGTAATTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTAAAACCCTGTCTCTACTAAA
AATACAAAAATTAGCAGGGTGTGGTGACATGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGC
AGTGAACTTAGATCACGCCATTGTACTCCAGCCTGGGCAACAGAGCAAGACTCTATCTCAAAAAAATACATAAAATTAAATTAAATTAAAATTTAAAATG
TAGTTGTTTATTCATTGTTCTGCCTGTCTTTGTGAGGGGGACAAGCAGTAGGGGTTTCTTCTTGGCCMWTTTGCTAGCATTACTTCCTTTTTTTTTTTTC
TTAATAGAAATGGGTGCAATGTGGTATCTCATTGTGCTTTTGATTTGTATTTCCCTAATGATTAGTGGTGTTGAGCAACTTTTCATGCGTGCGTTGGCCA
TTTGTATATCTTCTTTGGAGAAATATCTATTTCAAGTCTTTTGTCCATTTTTCAGTCAGGTTGTTTGATTTTTGTTGTTGTTGTTGAGCTGTTGGAGTTT
ACCTATATTAAACCCTTAGCAGATACATGACTTGCAAATGTTTCTCCCATAGATTGGTTTTTTACTCTGCTGATATGTTCTTTGAAACACAGATATTTTA
ATTCTGATGTTCAATTTCTGCATTTTTACTTTTGTTGCCTGTGCTTTTGGTGTCATATTCAGGAAATCACTGTCAAATCCAATGTTATGAAGCTTTTCTT
CTATGTTTTCTTCTAAGAGGTTTATAGTTGTAGCTCTTACATTTAGGTCTTTGATCCATTTTGAGTTAGTTTTTTTATCTGTKTTAAGGTAAAGGTCCAA
GAACTTTGTTCTTGTGGGTTGACTTAGTTTTCCAGTTCTATGTGKKGCTTTTTTTTTKTTAATCTAGTTTAGCAAACTTTCTACCAATATTTCTTCGACT
TTTTTTTTTTTTTAAGAGACAGGGTCTCAGTCTGGCACCTAGGCTGGAGTACATAGCTCACTGCAGCCTCAAACTCCTGGGCTCAAGATCCTCCTGCCCT
CAGCCTCCCAAGTAGCTGAGACTACAGGCATATGCCACCATACTTGATTAATTTTTTGTAGAGATATGGTCTCGCTATGTTGTCTCGAGCAATCCTCCCA
CATTAGCTTMCCAAAGTGCTGGAATGAGCCACCACACCTGGCCTCTTCAAATCTTTTTCTGCCACATTTTCTTTTTTTTTTTTTTTTTTTGTTTCTTCCC
TCAACTTTTATTTTAAGTTGCAGGGTGCATGTGAAGGATGTGCAGGTTTGTTACATAGGTAAACATGTGCCATGGTAGTTTACTGCACAGATCAACCCAT
CACCTAGATATTAAGCCCAACATGCATTAGCTATTCTTCTCGATGTTCTCCCTCCCTCTGCCCACCTAACAGGTCACAATGTGTATTATACACCCACCCC
CAGGTGTCCATGTGTTCTCATTGTTCAGCTCCCACTTATAAGTGAGAACATGTAGTGCTTGGTTTTCTGTTCCTGCATTAGTTTGCTGAGGATAACAGCT
TCCAGCTCCATCCATGTCCCTGCAAAGGACATGATCTCTTTCCTTTTTATGGCTGCATAGTATTCCATGGTATATAGGTACCACATTTTCTTGATCCAGT
CTATCACTGATGGGCATTCCTTCTGAGACTTCAGTTACTTATACACTAGACCACTTGATACTGACCCAACAATCACTTACATTATCTTTTTTTTCCAATC
CTTTTCTCTCTGCTCAGTTAAGATGATTTTTTAAACTGATTTTTCATTTCTACATTTCCCCACCCTTTTTTTTCCCCACAAGTTTTTAGGAAGAAATTGA
AGTACAGTCAGTGGCATTTATATAACATTTCCTCATGCCCCCTTGTAATCCATCCTTCCCTTACCTCATTCCTAGAGAACCAGTAACAGCCTTTCTGCCA
CTACAGATTGATTTGCATTTTCCATAAWTTTACATAGATGGAATCATATTGTAAGTACTAGTTTTCCTGACTTCTTTCATTCTGCATAATGCTTTTGGGA
TTCATCCATGTTTTTCCATGTGTCATTAGTTTGTTCCTTTTTATTCCTCAGTAGTACAGTGTATCTTTATATCACAATTCACTTTTCCATTCACATGATG
ATAAGCATTTAGATTGTTTCCAGTTTTGGCTGTTACACATTAAGACCCATTTGTACTTAAACAGTAATGAGCAAATCTTTGTAGAAACATTTGTTTTTAT
TTCTCTTGGACAAATACCTAGAAAACTATGCCCAGATGGTTTTACTGGTAAATTCTACCAAGCATTCAAAGATAACACCAATCTTACCCACAGTCTTTCA
GAAAACATAGGAGGAGGGGATTCTTTCACAGCTCATTTTATGAGACCRGCATAACCCTACTATCAAAATCTGGCAAAGATGACAGGAAATAAAATTACAG
AGAATATCCCCCATGAATAATAAACAGAAATCCTCTTTAAAAACMAAGGATTAGCAGTCGAATCCAACTAAATACGTATGTGTGTATATCTATATGTGTC
TGTTTGGGACAATATATATATTTTAGGGAATATGCATGTGTGTATACATTARGGGTAAGACATCATGACAAAGTAGTGTTTATCCCAGGAGTGTAAGGTT
GGTTTGACTTCAAAAAAAAACAATCAAAGTAATTCATTACATTAAGAGAATGAAGGAGAAAAATAATATAATCATAACCTCAATAGATGCAGAGGAAGCA
TTTGACAACTCAGTACTTCATTGAAAAAAAAGTATTTCTTAGCAAACTATGAATTGAGGAGAACTTCTTTAAACTGATAAAGGACTTCTAAGGAACCCTA
TAGCTAAGATCATACCTAATGGAGAAATATTGAACATAATGCCCTAAGATTGAAAACAAGGAGAAAGTACCTGTTCTTACCACTTCTATTTAACATTGTA
CTGGAGATTCTCATCAGTTCCATGGAGGAAGAAAAATAAATAAGAGTCCTGGTGTGGTGGTTCATGCCTGTAATCCCAGCACTTTAGGATGCTGAGGCAG
GTGGATACCTGGAGCTCAAGAGTTCGAGACCAGCCTGAGCAACATGGCGAAACCCTGTGTATTTTAACAACAAAAAAATTTTTAAGTGAGTTTAGCAAGG
TCACAAGATAAAAAGGTTTTTATGCAAAAAATAAGTTTTACAGTATGCAGTGAACAATTGGAAAATGAAAAAATTTTAATTATATATCGAATGGTACCAG
AAAACGTGGAATACTTGGGAATAAATTTAACAACAAACATGCAACACCTCTTCACTGAAAACTATCAAATGTTGCTGGTAGAAATTAAAGACCTAAATAT
GGAGAGTGATGTACAGTAGTTATGAACTAGAAGACCTATTATTATTTAGATGGCAGTTTTTCTCAAATTGTTCTGTAGATTCAACACAATCCAAATAAAA
ATCCCAGTCTCGGGTATGTCTTTATCAGCAGCATGAAAATGGACTAATACAGTTAATTGGTACCAGTAGAGTGGGGCGTTGCTGAAAAGATACCAAAAAT
GTGGAAGCGACTTTGGAACTGGGTAACAGGCAGAGGTTGGAACAGTTTGGAGGGCTCAGAAGAAGACAGGAAAATGTGGGAAAGTCTGGAACTTCCTAGA
GACTTGTGGAATGGCTGTGACCAAAAGCCTGATAGCGATATGGACAATAAGGTCCAGGCTAAGGTGGTCTCAGATGGAGATGAGGAACTTGTTGGCAACT
GGAGCAAAGGTGACTCTTGTTGTTTTAGCAGAGACTGGTGGCATTTTGCCCCTGCCCTAGAGATTTGTGGAACTTTGAACTTGAGAGAGATGATTTAGGG
TATCTGGCGGAAGAAATTTYTAAGCAGCAAAGCATTCAAGAGGTGACTTGGGTATCGTTAAAGGCATTCAATTTTATAAGGGAAAGCAGAGCATAAATGT
TCGGAAAATTTGCCACCTGACGATGTGATAGAAAAGAAACACCCAGCCGGGCGCAGTGGCTCAAGCCTGTAATCCAAGCACTTTGGGAGGCTGAGGTGGG
CGGATCTCAAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTCAAAATACAAAAAATTAGCCCGGCATGGTGACGGGCGC
CTTTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCT
GGGCGACAGAGTGAGACTCTGTCTCAAAAAGAAAAGAAAAACCCATTTTCTGGGGAGAAAATCAAACCGGCTGTAGAAATTTGCATAAGTAGCAAGGAGC
CTAATGTTAATCTCCAAGACCATGGGGAAAATGTCTCCAGGCCACATCAGAGACCTTCATGGCAGCCCCTCCCGGTGGCCCGGGAGGAGAAAGTCTGTCG
CTCTGTCTCCCGGGCTGGAATGCAGTGGCATGATCTCAGCTCATTGCAACCTTCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGC
TGGGATTACAGGCGCGTGCCACCATGCTTGGCTAATTTCTGTATTTTTAGTAGAGGTGGGGTTTCACCATGTTGGCCAAGCAACCAAAGAAATTTTTAAA
AGAACAACAATAAAGTCAGGATTTATWTTACTTGRTTTCAAGAATTCCTGTCAAACTATGGTAATCAAGATAATGTTGTATTGGTGAAAGGACAAAAACC
TGTAGATCACTAGAAGAATTAGCAAGTCCAGGAGAGAAATATATATAAATACATATATGTATATAAATATTTTAAATGCATATATAAATAAAAATAGTTT
AAATATATAAATATATATAATTATTAAAAGTATATAAATATATAGATGCCAATGGAGAAAGGAAAAACCTGTTCTGCAAATGATGCTGAAACAGCTTGAC
ATTCATATAGGAATAATAAAAAAAGAACAGCAACCCTTCATATCACACCACTCACCCAAAAATTAAAATGTATCAGAGACATAAATGTAAAATCTAATAC
TACGAAACTTCTAGGCTGGGCGCAGTAGTTCACGCCTGTAATCCCAGCACTTTGGAAGACTAAGAAGGGCAGATTGCTTGAGCTCAGGAGTTGAAAACCA
GCCTGGATAACATGGCAAAACCCAGTCTCTACAGAAAATACAAAAAGTAGCCAGGCAYGGTCACATGTGCTTGCATTCCCAGCTACTCAGCAGGCTGTGG
TGGGAGGATCACTTGAGCCTGGGGGAGGTCAAGACTGCAGTGAGCCAAGATCATTCCATTGCACTCCAGCCTGGGCGACAGAATAAGACCCTGTATTTAA
ATAAAAAGAAAAGAAAAGAAACTTCTAGAAGAAAACATCTCCATGATCTTGAGGTAAGCAAAGATTTTTATATAGGACAGAAAAAGCAAGAATCATAAAA
GAGAAAAAACTGTAGTTTTTGGTGAAGTAGTCTTTATCAAAATTAAAACTAGTTCTTCAAGAGGCCTCTTTAAGAAAAGAAAATGGGCTGGGCGTGGTGG
CCCACGCCTGTAATCTCAGCACTTTGGGAGGCAGCAGGCAGATAACTTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAAGCCCCATGCTAA
ACCTCTGCTAAAAATACAAAAATTAGACAGGCGTGGATGTGCTCATCTATAGTGCCAGCTACTGGCGAGGCTGAGGCTGGAGAATCGCTTGAACCCAGGA
GGTGGAGGTTGCAGTGAGCCAAGATGGCACCACTGCACTCTAGCTTGGGCGACAGAGTGAGCAAGACTCCATCTCAAAAAAAAAGACAAATCACAAAATG
CGAGAAAATATTCAACGCGCATATCTAACAAAGGATTTGTTTGTGGTCCATATAAAGAACTTCTACAACTCAGKAAGAAGAGAGCAATCCAATWTTTTTT
TAATGGGCAAAAAATGTGAATAGATTCTTCAACAAAAAAAGATATAGGAATGTCCAGTAACYACATGAATAGATGATCAGTGATCTGGGAAATGCAAATT
AAAATCTCAGTGAGATTCTGCTTTACCTCTGCTGGAAGGGCTAAAATAAAAATGGCTAACAGGCCAGACGCAGTGGCTCATGCCTATAATCCCAGCACTT
TGGGAGACCAAGACAGGCGGATTGCTTCAGCTCACAAGTTTGAGACCAGCCCGGGCAACATGGCGACACCCCATCTCTACCAAAAACAATTAGCCAGGCA
TGGTGGCACATGCCTGTAGCCCCAGCTACTCAGAAGACTGAGGTGGGAGGATGGCTTGAGCCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCACGTCAC
TGCATTCCAGCCTGGGCAATAGAGCCAGACCTTGTCACCAAAAAAAAAAAAAAAACTTAACAGTGCCAGGTATTGGTAAGTATATGAATAGACTTTAATC
CTGTGTTTCCTCTAACATTCACATTATATACTAGGTGCTCTGGAAGAAAGAAATGATGCTTTAAAGTTTACAAAGCACTTTTACATTAGGTACCTCATAT
GATCTCCAAAGTAATCCTGTAAGATTATTTTTGAGTAGGGGGTATAAAGTGAATCAGCCCATTCATCCTGCCTCGCATAGACTAGACATAACTRTGTCTG
ATTGGATTACTGAGGCTACTAATACCAGCCTTCTATCTATCTCTTTTTTCATTTATGTGGGAACCTGATTGTAAAGATACAGTAAATTAAGCACCTTAGA
AATAAAACTGTGAATTATGTATTTATCATCACTTTTACTGCAATAATAGCCACTAGTCTTCCTTCAAGTACTAGATAATATGTATTCTTGCTAAAATAAC
TTCATTTCTCAAAATGCAGGTCTTCCACTGAGCTAAAATAAGTAACTATTCAGAATAATATCTATTGCCARCGGAAAGAGTTTTGAACTGGCAGAGTCAA
GACAAATAGAGTTCTTTTTCTCTTTGAAGACAAGTTGGTTTCACTGGACTTATTTTTGTCCTCCAGCCTTTGGGGCCTCATTCCMGATTCTAGCCAGTGT
CTGTCTTCTTATTTCAAGAAGGCTGTTAAACCTGTAACAGATGATACATTGATGTGAGTCACATGCCCTGAAAAGCCATAATTCTGGTGAGGGTTACTAG
GAGTGAAATTTCATTGGTGAGATTCCAGAATCACTGACCCTGCAGCAGTAGTCTATAGAAAGATGGTGGGTAAATGGTAAAATTAGAAATGTCAGTGGAG
AGCTTACCCATCATTAATCTTTTCTAAGTCTTCCCTGACTCATTCACCAGAGGCTTTGATTGACTGACCAAAGGCAAAATATACAACTTTTAGTTTCACA
TATACAGCTTTGCTCTGTAACCAGAGTCCTGCCAAAATTGGCTCAGAACTGCAGCCAGAAGGGTTTGAGATACAAAGATTGCCTCATCTCATAAAGATTT
GTGACACAGAGTTTTCTTCTTTCACAGGAAGGATCCATTTGGAATGGGTCAAATGCAAGAGGATAGTTCAAATGACCTCTTAAACATGGCCAGTGACAGT
TACAGAACTCTAAATGGTGTTTAATCTACTTACAAGCATTTTATATTAAGTCACCCTTAAATGGGAACATACTCATTGAAAATCAAAGTGAGTCCTTCAT
CATTAGGGTTCTTGGAGTCCAGTGGGATAGAAAAAAGCAAAATCATCATATAGTATGGTATATAAAATTATATGAAAATGTGTGGAAGAACAAGTACAAA
ATGAAGTGGCTAGAAAAACTAGAAAACCATTTTTAAAAGCCAAGGGAAGGCCGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGG
CGGGCAGACCACGAGGTCAGGAGTTCGAGACCAGCATGGCCGATATGATGAAACCCCGTCTCTACTAAATATACAAAAATTAGCCAGGTGCAGTGGTACG
CTCCTGTAATCACAGCTACTCAGGGTGCTGAGGCAGGAGAATCGCTTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCATCACTGCACTCCA
SCCTGKGAGACAGAATGAGACTYCGACACACACACACACACACACACACACACACACACACACCACACACGCGCGCGCGCGCACCAAGGGAGAGACTGTA
TGGTGGCAATAGCCTCTATAGCCTCTGGAAGAGCCATTGGCCAGGAATGGAAAGGGAAGGCACTTGGCACTGCTGGCTTGAGGGAATATCTTCTCTCAAA
CTTCTTTTTGATTCTGGGGAGCTCCCATACGTGCTTGTGTTTGAGTATCTTCCTGCTCCAACTCTGCCATTTACTGTTTTCCTCATCTGATAATGTGAAA
GTAAGAGGTGTGTCTCAGAACTATTAGGAGGATTTAAAATGAGATCACATGTGATATGTATGGCATAGTATCTTGCCTATTTTATAAGGCTTCTGTAAGC
CCAGCCCTGGAAGAGAAGCCTCTCTCCAAATCCACCACTTCCAGGTGGATTATCCATCCCACAAAAGCAACTCAGGTCATCACAGTGACACAGGCCTCAG
TTAAGGTTTACATGAAAATACTAAAGGCCATAAGACTGCTGAGTATTTGGAATTCCCCATCTAGATTATTGCCCAAAGGGACCACATTTTAGCATGGTTT
GCGCAGTGGGGGCACCCAGAGACCTGGCTGCTAGAACAAATTCCCTGCCCTCTGAGTATGTAACTTTGGGCAAGMGTCCCTTGTTCAACTCCTCTTACTT
GGTTACTGAGGTGATAATCAGTCTCCCTCAACATGTGTCACTATTATCTATCATATGCCTGGCACTATGCCAGGGTACAGGATATGGCCCTCTGCCTTCT
AGGAGCACATGGTCTGGTAGAAGTGGAAAGACACAGACCTGAATAACTGACATAAGGCAGAATAAGGTGAGTGTTGCGATGGAAGCACAGAGTGCTGTGG
TAGCACAGAGGAAGGAATGATTACCATAAAAAGGAGAATTAGGGACCTGTAATACCTTTGTAGAGTGAAAAGGCTTCTTGTGGACTTTGTGTAAGGTGTT
GATGTATCAAGGAAGCGTTCCACAGGGAGGTGAGTAATGCAAGACCAGGGCTGAAGTTTAGACTACACAGGACATGTTTAGGGATGAGTGAGTAGTTCTG
TGAGCGAGACAGGAGGATGCCGGGGTAGAGGGAAGTTGGAACGTAAGCTAGTGGGTTCTACAGAGGAAGGGCTTTGATCTGCTGATCAGAAGGTTTGGGC
CAAGCCCAGGAAAAGGGATAGCAGCAACATACGTTTGTTTATTCATTTGCTTACTTACAACAAACGTTTATTCATTATTTATAATGCAACAAGCATTAAC
CTAGGTGCTAAGGAGAGAAAAATGAGTAAGACACAGTTTCTTTCCTCAAGGAAATCACAGTCTGTTGGCRGAGATAAGTAGTAATGGTGCCTAATATAGG
TAACACTTGCTACCTGCTCCAAGAACAAAGTTAAGCAAGTGATTAAGTTAAGCAATGCTTAGAGGTAGAGGATGTAAGAATGGCCTTAAAAAATGTGTCT
TCTGAGATGAGTTTGAAGGATAAATGGAGTAGGAACTTGCCAGATTGAGGTAAGAAGCCTTCCAGACACAGCCCAACAATGCAGCAAAGCCCAATGCTTG
ACTAACTGGGGCACACAGGGAACACTGCAAAGTTTGGTTTGGATCCTAGAGTGGAAAAGGGAACTAAAGAGAAAAGATTGGTGAGATGAGTTGGGATAAA
CCTAGGAGTTTGGGCTTAATCCTGAAGCATTGAGGCGGTGTTGAAAATGTTTACACTGGGAAGTTAGGAAAGTAAATATTAGTAGGATGGAAGGATCAGA
GAGGCCCTGGGCAGAAATCATAATGTGGGTGACTCCCAGGTTTCTGGCTTGAGTAACTGTTGCCATTCCCAAAATAAGAGAGGCAGGAGGAGAAGAGTTC
CAGAGGAAGATGATGAGTTCATTCTTGAGTATGTTGAAGGTTATTGCAGGGTGCCTGTGATGCTCTTGCAACCCCATCCCCACCTTGAAATCCTTCAGAG
GCTCCCCGTTCCCTTTAGTCCTGGCCTGGCCTCCAGTGTCTTCTCTCAGCCCTGCCTTCTRATGTGCTTGCTGCAGCCTGAGCAGCTTCGAGTTTCTAGA
ACTTGCCAGGTTGTGTTCTACATCTTTGAGCCTTCAACTAGAACACCATTTCCCTTCTCCTGCCTTCTGCCTGGCCAGTTGTGGCTCATCCTTCCAGACT
CACTCAAGATAAAACATCTCTGAAGGAGGCTTCCCTGACATTGTCTACCACCACCCCCAGCAAGGGCTGATACCAACTGTCARCAGCTACATACTCACCC
CTACTTGACTGTAATGATTTGCATCCATGTCATCTCCTGCCCTACTGTGACATTCCCAGACCACCCCTCAYTGGGCAGGTGGCATCTCTGTATCCCTTTT
GCCTGGCCCAGATGGAAATTAGGACATCAGTAAATGTAAAATGAACAAATCCAGATGGGAGCATCCAACAGAGAGTTGGAAATTCCAAAAAAAGCAAAAT
GAAAGGCACCAAAAAAATGCATACAACATTAACACCTTATGTCTACCATTCGCTCCCCCCGCCACCCCCGTCCTCTTCCCTAAGCACTACATTATCTAAA
GCCTAGATGTTCAATCATCCAAGCCCATGGCTGTTGGCTTGGTTATGTGTCTGGAATGGAACAGAAAGGGAGGAGGAGTGCAGAGGCCCAAGGAGGAGCA
TCAGTGAAGGTTTGGAGACTGACCTGGAATTCCTAGCCATCATGGTGGGTACAGTTTACATGAGAGGAAGCCTGGCTTTACACACCTGTTTCCTCTTTCT
AAGCTCTGGCCCCTATTTTCTAACACCATCTGGTGGCCACATCTGTAAATAACAAACTCCTCAGGAGCTGAGAGAGCTTCTATAAGGCAAAAGGTCCAGG
GATTGGCCTCAGAGGGCTATTATGTATTACAGCCCCAACAAGTTTATATGTATACGAGATTTGCCTTTTCTGATGAGACACTCCAAGAGCTTTTGACCAG
AATCTTAAAAACTCCTATAGCCTCCAAAAGGCTTAGAATCCCTGCTACAAAGGATTGATTCTTTTTTTCCCCAAGTGAAATCCTATGAAGAATCATACAC
AAGCTAAAGAAGCAGACCTAAATCCCTGCTTGCTCAGAACCTCACCCTCCAATTTCCCAAAGCACTTACAGAGAACCTGGAATCTAGTTTGAAAACCACT
CTTGTGAAACGAARGGCTTGTAGAGCATYGGGGCCAGATGGGCCCTTAKAAATCATTGTGACGTACTAKGTCCCACCTGAGAGAGGAGGCTTGGTGATAC
ACACAGCACGTATCAGTAGCAGTACTGGAACCTAACACAAGTCTCCCCTCTTGTKTCTCTTCTCTTTTTACTGCTTGCCTTATTGCCCAAAACCTAAATT
TAAAAATGTACTAATCAAAACTTTTTCTATATATAGTTCCCAAACAGGAAACCATTCTTCATATAGATTTCTAGGTCTCTGGAAAGAGATCTTTCCCCTC
AAAATGCCTCTTAACCAACCATAAATCATGGTAGAAAATAAATCTAGAGCTTACGTTTGAATAGTTTGTTGTTTGTTTGTGTTGGGGCGTGTGTTTTTTT
GAAACAGGGTCTCATTCTGTTTACTAGACTGGAATGCAGTGGTGCGATCATAGCTCACTCTAACTTCGAACTTCTGGGTTCAAGCGATCCTCCTCCCTTA
GCCTCACCAGAAGCTAGGACTACAGGTGTGCAGCACCCTGCCCAGCTAGTTCTTTTTTTTTTTTTTTTGGTGGCAATGGAGTCTTATTGTGTTCCCAGGC
TGGTCTTGAACTCCTGGCCTCAAGTGAACCTCCCACCTCAGCCTCCCAAAGTGCAGGGATTACAGTCATGAGCCACTGCACACTGCACCTGACCCAAATA
ATTCTTTTCAACTTACAACATCAATACCCATGGGCTAGTTTCACAGTGGCAGAATAGACTCAGAGAGGTAAAATGACTTGTTTGCTGTTTCCTGTCATCA
ACTTAAAGGTTCTTTCCACTGTCTCACAACATTTGTGTTCGAATGTGCATATTCTGCGGTACTTAAAACAGTGAACAWATAGGCAATCCATCTGGCTTAT
TGATACTTGTTCAGGGAGTGGGGGTTATAACCCCTGCTATTAACTGCCATTTGGAGATGGGGGACGGATGAAGTCTAACATTGTTTAMACATTCATATAM
TAGAGTCTGAACAACCTTCAAAATATGCTTTTAGTCMCCATTTTACAGATGCCTAAACCAAAGTATAGAAAGAGAAAGTGCTTTGCCTCAAGGTCACACA
GCTAGTAATTGTCTCACCCTCSTGCCCTTTCCCTTCTTTCTCTTTTAGGAGTGCCAGCTTCTCTCAGGGCACCAGAGCCTCTTTTCTCATGAGGAGTGAC
ACAGCTGTACAAAAACTTGCCCAGGGCAATGGACACTGTGTCAACGGGATCAGTGGTCAAGTCCATGGCTTCTATAGCCTTCCCAAGCCGAGCCGGCACA
ATACAGAATTCAGAGACAGTACCTACGACCTCCCCCGCAGCCTGGCCTCCCATGGCCACACCAAGGGCAGCCTCACAGGCTCCGAGACAGATAATGAGGA
TGTGTACACCTTCAAGACGCCCAGCAACACCCTGTGCAGGGAGTTYGGGGACCTCCTGGTAGACAATATGGATGTTCCGGCCACCCCACTCTCAGCCTAC
CAGATCCCTAGGACATTCACTCTGGACAAAAACCACAATGCCATGACAGTGGCCACTCYTGGGGACTCAGCCATAGCTCCCCCACCCCGCCCCCCCAAGC
CAAGTCAGGCAGAAACACCTCGATGGGGCAGTCCTCAGCAGAGACCGCCAATCAGTGAAAATAGCAGATCTGTCGCTGCCACCATCCCCAGACGCAACAC
CCTCCCTGCAATGGACAACAGCCGACTTCACCGAGGTCAGTATAAGTCCTAGCTGAGACTCAGAGGGAGGAGGAGGTAACACAGGGGTTCTCAATAGTTT
GATGGTCCTTGGTCATCCATGGCCGAGGGGAACTTACGAACCACCTAGGTCACTGATACTCAAAAACATAGGTGTCTTCTACCCAGATCCCTTACCAGTT
GGTCCTCCAGCACTGGAGGCTGTTAGTAGTAGTTGTCTAACAGAGCTAGCCCCAGAGAAGTTAATGTTCTACTAATGGAGAATAGGACATYCTTGATTAA
CCACAGTATAACATATTATGGGTTTAGAAGCCCAAATCATTKTATTTTATTCATTTGTAAATCAAATCAAAGATTTAAAAAATAAATTCAGAAGATCAGT
CCAAACTGGAGTGAAACCTGTGTGGACTAACAGACTGCTAAAGCAAAACGAGGTCTTAATATTTTCTAAATCATACTTGAATCTCTTTGGTTGAAGTCAA
AACTTTTATTTGAAGTACCTAAATTCTATTGTTACTTGTTTTCCACTGAGAGTATTCCAACTCTGCATGTAACCTCCTCTGTATGATGAAAAAATAGAAC
AATATTAATTCCTTTCATTTTGCATCTTGCTTTATGGTTTGCAAAGCCTTTTCTTGTCCATCCTGTTGTTTAAGCCAGGCAGAGAGGTTGGTGGGACAAA
ACCTCCTTGTCTCCATCTCACATGAGGCCAATGACAGTTAAGAGACTTAAATAGAGTTGCAGAGTCATTGTGCCAGAGATGAGACTCAGACCCTAKAGTC
CCAGCTCCTAGTTTAGACCTCTTTGCCGTCTTTCAATCCATCGACAATTTGAGCAGTCATACTCCGTTTTGGAACTGWGATGATAAAGACATACATAAAA
CATGTKCCTGCCCTTYAGAGCTTACATCTCATTGGGAAAATAAAACCAACACATATAAATCAGGACAAGTATTGTTACTGTGGTGTTCASAGAAGTGATG
GCTGGGGTGAGCASGACASGTGAGTGGTGTAGGAGTCAAAGGAGAGGTGCATAKATGAGGGTAGAGTAGTCAAGGACAGCTTCTCTGCAGATGCTAACAC
TGGAGCTACATCTAGAAGCCCAGGAGGAATTTTTGAACTGAGGAGTGATGTGTTCGAAGAAATTCCTTATCATTTGGGGTTGAGAGTAGTATCTTCTGGA
GTATCAGTAAGACCTTGAACCACACTGGTGAGGGTATGGGTAAGTGTCAACACATGAATCAACCATGAGTACTTATGAATCCTCCTTCCTCTGTCAGCTT
CTTCCTGTGAGACCTACGAGTACCCACAGCGTGGTGGAGAGAGTGCAGGCCGGTCTGCTGAATCCATGAGTGATGGAGTYGGCTCTTTCCTGGTGAGTGT
GGGTTAACCCAAGGGTCCTCAGGCCGGCCTGGTTAGGTAAAAGGTCACACCTTATGGAATTAAAAGCACAACCCCAAAAGAKTGATGGCGTCTCCATCTT
AGGACCCTGCCCAAGTTCTTGTCTCAGTTCAGAACCCTGCGTTGAGTCTTTGGACAAGTAAGATATAAGTATTCTAGTCTGGAAGAAATGTATGTGCTAA
GGTAGACTGGATTACAAGGTTCACCAACCTTGTAGGTAAGCAGAGGATCTAGAATGCAATAGACCCAGGCTGCACGGTGGGGGAACCTCTAAGACAGCAA
CCTTACCCACGTGGCCTCACATGCAGGAGGGAGGCTGCAGTGTGAGACTCCAGGCAAGGGTGGTACTCACAGTCAGGCTAAGTGGCAGAATTATGGCTTG
AGTGCAGGATCCCAGGCTGCCCTCTGGAAGATGCTAACCGCAGTTCTCCAAGGTGTCAGGCAAGAAGACCAGGGCCTGGCTTCAGGCCCACTGAAAAGAC
AGTGAAATCAGGTAACCAAGGCAGAAGCAGCTTAGTTGTATGTCACGGCAGATAGAGCAAGAGTTAGAGGAAGGCTGGGATTGCTGTATCACACAACTCT
GTAGAAGCTCTGACTGCAGCTTGGTGGTCCCCTAGGTGCCTGGAGTGAGCCCCAGGTACTTAGAAACCTGGACTGGGGAAACACAACTGGCCCCAGACCT
CACCTTCCAGAGCCAGGACTCCTAATATGCTCCTTGTTCTGATCCAGGGCCTGAGATGCTGACCTGCCAGTGGTGAGTCTGGACTTGAGGTGGAGGGCAG
GTCCTGAACCAAACCTACAGTCTATGGACTATGCCACCCACAGTGTTGGTCAGGCGTCCAGAAAGCCAAGTGGACCCAGTCACCAAGAATATTTTATACT
CTAGATTTATCAAAAATTATTAGTGGATGCCAAAGGATCGTGAAGGCTTGAAGGGGCCCACAGACCTCATATATTCTTGTCTCCCACTCTGCTTCCTTTT
TTTTATTTTTTATTTTTTGAAACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTACAACCTTGGCCTCCCAGGTTCA
AGCGATTCTCGTGCCTCAGCCTCCTGAGTAGCTGGGACTACAAGCATATGCCACCACGCCCAGCTAATACTTTGGATTTTTAGTAGAGAGGAGGTTTTGC
CATGTTGGCCAAGCTGGTCTCGAACCCCTCACCTCAAGTGATCCACCTGCCTCAGCCTCCCACTACTCTGCTTTCTTATTTGGTCTCCCCAAGGTCTCCC
TTACAGCTTCAAAGTATAGCTAACCCAGTCATGACTTGTCTTGCCTCATTTACAAAGTCTTACCCCCTTCCTGTTTCTTCTTGCTAGTAACAGCTGTATT
TCTTTCACTGTTCCTCTCCCTAGCCAGGGAAAATGATTGTGGGCCGATCGGACAGCACCAATTCTGAAGACAACTATGTGCCCATGAATCCAGGTTCTTC
CACCCTGTTGGCCATGGAACGAGCAGGTGATAATTCCCAGAGCGTCTACATCCCAATGAGCCCAGGGGCCCATCACTTTGACTCACTTGGCTACCCATCA
ACAACCCTTCCTGTGCACCGAGGCCCCAGCAGAGGAAGTGAGATTCAGCCACCCCCTGTCAACCGCAACCTCAAACCTGATCGGAAAGGTAAGTCCATTC
TTTCCCCTGTCCCATCTCTGGACAGTGGCTAGGGACTCTTTCCATTTGCTTAGGGGTCATGTGGATCCTGGACTTGAGAGGTGTGACTTGGGGCAAATCA
TGTAAAATCTGAGTCTCAGTTTTCTTATCTGTGAAATGCAGATGGTAATTCCTACCTCCCAGGTTTGCTGCAAAGGAGAGCATCTAGGATAGTACTTTGG
TACATAGCAGGCGTTCAGTAAAGTCAGCTTTGTGCCCCCTGCATGTAGACCAGGCAAGGKCCTCGTCTGCTACAATCTCACTCTCCTGGCATTGGATCAG
TGGCAAGGATTCAAAGGGAGGAGTAGGATAGCTAGGCAGAGATAGCCCCCTGTGGGTCTGGCCAACAGGGAATTCAAATCTTAGCATTTGGAACTGAAGC
CCTCAAGCCCTTATGGCATCTACCTTCCTCCACTGTGGCTTGCACCGACCTGGCCAGGAGCAGCAGGGAGTAGTCACGGTGACCATCTATACTTCAAATA
TGGTCTCTTGGCTGGGCGCCATGGCTCACGCCTGTACGCCTGTAACCCCAACACTTTGGGAGGCTGAGGCGAGTGGATCACCTGAGGTCAGAAGTTYGAG
ACCAGCCTGGCCAAAATAGTGAAACCCCRTCTCTACTAAAAATATAAAAATTAGCTAAGCGTGGTGGCAGGCGCCTATAGTCCCAGCTACTAGGGAGGCT
GAGGCAGGAGAATCACTTGAACTCAGGAGGCAGAGGTTGCAGTGAGCTGAGATTGCGCCGCTGCACTCCAGCCTGAGCAACAGAGTGAGACCCCGTCTTA
AAAAATACATATATGTGTGTTAATATATAAATAGTATATATTTTTATAAATATTAATATATTAATATATAAATATATTTTATATATAGTCTTTTATTTTT
AAATGAAGTCATAAATTGAGGGAGAAAAATCTGTTGTCAAACCCTGTGTCCCCACTTTTGATTCTGAAAATATAATTACCATAGATACAGCAGAAAGAAT
ATATAATTTGGAATCTGAAGACATGACTTCAAGGCTCATCAATATGGGCAAAGATTATACAACCTCGCTGAGCGTCAGTTTCCCTGTGTGAAACTGGAAT
GACTTTGCAGGCCTTTATAAACATGCTCATGTGTTATATATAAGGTGTGTATGTGTAGCATTATCATTACTGGCTGATTACCAGACTTTCTTTTCCTGCT
CCAGCAAAGCCAACACCACTTGACCTGAGGAACAACACCGTCATCGATGAACTCCCCTTYAAGTCACCTATCACCAAGTCTTGGKCTAGGGCCAAGTAAG
TGCGTATGTGTGGGGGTGGGAGCTTGGAGTCGGGCCATTAKGGAAAATGAGTGATGTGGTAGCTGGCCTGTGGGCCSSGACAGCTGGATTCTGATGCTAA
CGCTATCATTAKCTGATCATGTSTCKATGTCTTGTGGCTTGGKTTCCTCAGCTGTAAAAGAGAATAATTATACCTGCCCTATATCAGATCTTAATCTGAT
GGAGTGTGCAGCTCTAATGGCTGAGGTCTGGGTGTGTGAGGGTCAGGGCCCAGCTGGAGGCTAGAAACATGGCAGCAGCCATGCAGCTTCCCCAGTGTTA
ACTCTTYCTTCCCACAACAGCCACACCTTCAACTCCAGCTCCTCMCAGTACTGCCGCCCCATCTCCACCCAGAGCATCACCAGCACAGACTCAGGAGACA
GCGAAGAGAACTATGTCCMTATGGTGAGTCCTTCGGGCTTCGCTGGAATGACGCCTTTCAAGTCCCSTGGGACCCACCCCTCAGTTCCCCACTTCCCAGC
TTAGCTAACTCACCTCAGCCCAGGGACTCCKTGTATTATTCATGATTTAGTCTCSTGCTACAAACCCTTCTTGAGCACCTGTTTATCAAGCAGTAGGAGT
TGTCATCAGATGTAAGGAAGACATGAGACCTGTCCCAACGAAGTCATGGTCTTCAAGAGCAGGGGCCTGCCTCTCATGACAGTSACATGGGTGGCATGAT
STGTGCCCTTGGATAGRCAGTGCTGGAGGTATCTCCTCAGTGGTGGAGGTATCTCCTCAGTGGTGAGAGGCATACGTGCACATAACTCACTTTGGTGAGG
CCATAATAGAGCTATCAACACAGGCAGAGGAGGATATTTCTTCCCTGAGATTTCCATTAAGGGCGTAACTGCCCAGCACCTGGTAGTCACTGCATAGATA
GTGAAAGAATGAATTAACCAACCAGTAAAGCAGCCAACAAACAGAACACAGGACTATCACCTTCTCATTAGAATAAGACTTCCAGAAAGTTCTAGAGGAG
GTGGTGCTCTGCTAGAGCASGAGCCTGGATGGACAGGATCCTAGAGCGTGTCATCTGAAGAAATGCGGGCTTGTGCAGCCTGGAGATGAAGCCACCCTCT
TCAGATCTTGGAGGAGCTAGGCGGGGGAGCAAGCTGCTTTGGGGTGACTACCCCACTCTAGGCCACAGGTGGGAGTTTCACAGGGGCTGATTTGGTGCGA
CAGAAGAAAACTTTCCAGTGCATAAAGGAAATGTGCTCCTTTCTTAAGCGCCAGCAAGCAAAGGCTGGATGTCTCAGGAGAGCCACTGTTGATGAGACTT
GGCCTGATGTGCTAGAAAGGAGGCAGTGTGGTACAGGGGTTAGCACAGGTTTGGAAGTCAGAAAACAGACCTGATTCCCATCACTCAACAGCTGTGCAGC
CACAGGCAAAGTCACTTCTCTGAAAGTAAAGTGAACCACAGTTTCATCTTTGCTTTAAACAGTATCAACAGTAATCATACCTACCTTACAGGATTGTCAT
GAGGATTAAAATGAAAACATGAAAAGTCCTTAGCATGGTGCATGTGTCAGAGTAGGGCTCAGGGAAACAGTGTTCTTACTCCCAGAGGTGTTTTTCTGGG
TGGTGGGTTAGTCTGTTTTCTGCAGTCACTCACAGTTTTTTCCTCCTCGTGACAGCAAAACCCAGTGTSTGCATCTCCCGTTCCCAGTGGCACGAACAGT
CCTGCCCCTAAGAAGAGCACCGGCAGCGTTGATTATCTGGCCCTGGACTTCCAGCCGAGCTCCCCAAGCCCCCACCGCAAGGTGCCTGGAGTAGAGTTGR
GGGGGCAGTAAGAGCTCTCAGGGTCCCGGAGGCAGAGATCATGGAGGCCAGGGTGCCTTCAACACTGAACAGCAGCACTCAGCCTCCCTCCTGCTCCAGT
ACCCAGCTTTTATGATGCATCTTTAGTCATAGAGCTTTCATCTAGGTCTAAAGACTCCTATTCCTGCTCTCAGAGCACAGTACCCTCAGTCAGAGAACCT
CATCAGTCAGCCCATCCCCCGTGTTGTAGAGATGGGCAAATGAGTGCACAGAGATCTGATTGTCCTAAGGTTACAAAGTGAATCAGCAACAGATCCAGGA
ATGAGGATACTGCCTCCTGGTCCTGGGCTCTCGAGTGGGTCCAGAGCCCTGCCGTCGATACATCAGCCTTCAGAAGGGACTTCCAGGCCTGGGAAAGCCT
CCCCAGGAGGYATCCTTATAGCTAAGCAGTCTAGACAGAAGGGTGCAGAGCTGTGCCTCAGCATGGTTCCCCTTCACAGGGTGGCAGTGAGCACAGCACG
TAAAGTCCTGTGGCTGATGTTTGTTTGCACCTAGCAAATTCCTTCCCCTGGATRAGCGACCTGACAGAGATGGGTGGAGGCAGAGATGAAGGCCTGGACC
CATCCACCAGGGCCAAGGAAGGGCCTGGGTCCTCCCAGAAGCCGGGAAGTAAGAAGGGCTGGCAGGTGCTGCTACATCCTGCAGGAGGGATGATGAGTTT
GGAGTCTGAGCTTTAAAGCCCACATTCAGAAAGAGAAGCCAGGCTCCTGAGGCTGGTCAGTGGCAGGCAGAGGCCATGCTCTTCTCCCCTTCAGACAGCT
CAGGAAGATCCCGTGCCCACCTTCTTCCTCCCCACCTAACTGGTAAYTCACAGCTACTCCCTCTTTCCCACTCTGTCCCCTCAGCCATCTACTTCATCCG
TCACCTCTGATGAGAAGGTGGACTACGTTCAGGTGGACAAGGAGAAGACCCAGGCCCTGCAGAACACCATGCAGGAGTGGACAGACGTGCGGCAGTCCTC
RGAGCCTTCCAAGGGTGCCAAGCTGTGATGAGAGGGCCACCGCAGAGCCCAGGAGGCAGCATCTCCAGAGCTGGCCCTTCCCATCTCCCCTCTCCCCTCT
CCCGTTCTTCCTCCCATCCACCTCCTCTCTACTCTGCCAGTCTCAGCCTTCAAAGCACTTGACATCAGGGACCCTGAACCCTTCCCCTGGGAGGTGAGGG
CCTGATCRAGGCACCTCCTCTGCCCACTCGGGGCCCAGCTGTGATTTTTATCAGTAATGGCCATGCCTCCACCCACCTTAGTTAGGAGCTACTTCCAAAA
AGCATCCTTCAGCCTCTTCCTGTCCTTTAGACCTGACTCTCTACCAGATGTTTGGAGGGAAGGGCTGGGGCTCTGAGCCAGATTCCACACCTCACGTTCA
GTCACAGCCCTCAGCTATCTTCCCTCCGGCCACTGGGCTACCTCTCCTTCAGTCCCAGAAGACAAGTCTCACCAACCCAGGGAGTCAAGGACCAGCAAAC
CARAGTGGATAATGGACTTTTTCAYTCCTGTTTTTCTTGGCAGGAGAGAAGCAAGGCCACTAAAAGAGGAGATGGTGGAGACGGAGGCTCAGCAGTGGTC
TTGAGGGGTAAAGGACTTAGATGCCCAGATGAAGAGGGAAAGCTGACATCTGCAGGGAACCCACTTTGAGGCTGAGGCCATGGCAGGACAGCTGCTGTGG
GGTGCAGAGGCAGAAGATGAAGGACAAAAGGAAGGGAAAACTGATGGCCAACCTAGAGCAGCAAGGAGCAGGGCTTGGAGCTCGGGTGGTGGAGATGACA
AGGACACTGTGGGGTCTGGGTCCCCAGAACTCTGGAGCTACAGGCCACTCTAKGCCCAAGGGCTAKTCCTCTTCCCCAGTCCCCTCAGAGGCCCCCGCCA
GCCCCACCTTGAAAGCAGCATACAGGGGAAGGCTTGGACCAAGCTGGGCGACCAAGCACATGGGGCAGGAACACATGGTAAAGGGGTGGGGAATATGGGA
GGGAGTGTGGTGTGGATGGGGGTGATGCAGGGACTGAGGGGAACCCTGGGACAGGCACAGGCTGGGCAGAGGCACAGGGCAGTGCAGGGGACTCTGCAGT
GGGGTCGGGAAGTGAGTTTCTTTGCAGTGAGCAGTGCAGTGGAAGTCGGGCACAGAGGTAGCAGACAGATGTGAAGCAGTGGTGAAGGCCATGTAGCAAS
TGGGGAAATACATCCAAAGGGCCTGGGAGTTGGGGGGTGCCCAACGCAATCCTTGGGGGTGCAGGGTGGAGCAGAAAGTGAAGGAGGGACACGTGCAAGA
GTGGTGTGCATGGTGGTGTGACATGAGGACCGTTCCTAGGATGGGACAGTGGGTCAGGCAGGACAAGGAGAAAGCAGGGCAGAATGATGCCTAGAGGACC
ACATCAGGCATGGCTGACAGCTTGTGCCCATGGGCTGTGGCGTATGTCAGATCGCAGGGTAGGAACGAGTCTGGCCTGGTGCCGGCCCAGTGTTTCCTCA
GCTCATCCGCCCTCTGTTGCTCCCTAGCATTCCAGGAGCCATCTTGGACTCTCCTCCCCAGGTTTGAAAGGCCATCAGATTAGCAGGGACGGGGTGTAGG
GCATCACCCAAGGTTCCTTCTCTTAAAMTAAGGGTGGGGGATCTGAATGTTTWTATGTTGACTGTTCTTGACTAAATTTTCAAGAGTTTCAGAAGCAACA
GGACAGMCCAGRCGTTTCATTCTACCCTGGGGCGAACAGAACTTCTTCCTCCCAAACAATGACTTCCTGCCATGTTTGATGGGGACAGCTACCACTGTCC
TCTGCCCCCATTCCCCTTTCAGCTCCCATGAGCATGCATAGTTCACCAGMCCAATGGCCTAGCCATTCTCTAAGTCCCATCSTGGAAGAAGTTATTTCTT
CAAGAGSTGCACCTCTCCTCCTAGCATTAGTTTAGATCAACTCAAGGAGTATTTATTAATGGCTGCTGTCTCCAGTTTCTGGGGTTAAGCACTAAGGACA
CAAGAATCAATCAGACCTTCTCCCTGAACTTAAGATAGCCACAATCAGAAAAAGGACAAGGACATGAGACAGTGGTGATGGCCATCAGACASAGACTTCA
AATGCTGATGGAGGGCASAGGAAGTACTTAGGGAGGTTGGTGTCAGAGGCASGAGTGGGGGATCAGGGAAGGTGGATTCTAGGAAAAGGGAGTGCCTGAG
GTAGGCCTTAGAAGGGGATGAGTCAGATTTTTACAGAGGAGGAGGGCAGGGCTTGGGTCCAGTGGAGGAAGAAGGAAGGAGAGGCTTGGAAAGCCTTGTG
TCTTGGGAAMAAAAGGCCTTTGAGCATATGGGTCCAGCCACTCAGAAGTGYAGGGGCCATGCCTTGGTGTTCCAATAAGTGAATGGAAGCAGTGGTGGTA
GCTACACTGGGCAGAGTTGGCAGGGTGCTGGTTCACTCTGCCCAGCCCTGAATGTGTGCCTTAAAGGCCCCCTACAAGGGGCCCCATACGACAGAGCTTT
TAACTGGTGCCTTCCSTGTACCCGCAGCAGCCACAAGTGGGCCCAGACTATTGCAGCCTCCCATAAACATGTGAGCATGTTCTGAGTGTGCCATGATGTG
AGTGGACCTGGCTGGAATCTTCGGAGAGCGACTGAGGTGTTCAAATCGAATCTCCCAGGAGGCTTCCTTCCAGCCCCCTATTCTGGTAACTACCAGGAGG
CTTCCTTCCAGCCCCCTATTSTGGTAACTACCAAAATCCCTCGGGTGCAAGTGTAGGGGTAGAGATGGAAGGATGAGAGGTGAAATTGACCTTTTGAAAG
CAAAGCTSTGGCTCACAGGCCCCAAACTACCAGCCGTATCTAGCATATCCCCACCCTCCACCCACTACCTCCTCCAACAAAGGAGTCAACTCAGTTGAAA
AAACTGGTCCTTTGGCCTATCCATGGGTCAAAGTCCACCTCTCCTGGGGGCCTGGAGAGGACTGAGCCTACGGAAAGGGGATACCTTCCCACTCAGCACT
GCTTCACACAGGCCCCCTGCCTGGGGCTCTCCAAGGAGCCTTCTTCACCCACTTCCAGCTCCACTTCTGCAAGGTTAAGTCAAGTGAGAACGATGAGAAA
TAGGGAGATGGTGTCTCCTTAAGTCCTTGATCTGCCTGTCTGTGGAATGGGAGGTTGGATTAGCTGCGCTGAGGTCCCATCCACAGCTGGTGCTCAGCTG
CTTGAAGGGGAGACTCCCTCCTCTGTAACTTCTTTCTGGGGGATYGGGGTGGGCAGTACCTATCCCCAGTCCCCTCCTAGCTTGACTTTAGTGGTTTCCA
ATGTAGAAGTTAACAAAGTATGCCCCATTCCTGTGACAAAAGCACAACCATTCTGAAGTTACTGGAGCATGGGCTCAGCTCATCCTCCCTCTGGCCCCTT
CTCCCATGGGGACATCTCGGCCCAGCACCCCTATCCCATTTCCAGAGTTCTTCCTTCCCCATCTGGGCCTTCATAAAATGCAGGGGAAGCCAGACTGGTC
TCAGGAGCGCTAAAGCCCTTCCGTGGGGGGTCGTCTTTCTGGGACTAGCCCTGCTGTTTAGGACCTGGGACCACAAYGGGGTACCTGCCGAGGGGGTCCC
CAAGAGATCCAGGCTGTCATGTGATTTATGGTGGCATGTGTTGTGTATTTGTTGGCTACTTGTGTCTTGAAATCTAGAATTATTTCACGCAGAATTGTCA
CTGTTTGTCAGGAAGAGAAAATGGGCTAGTGGAAGCCCAGTCTTGAGTTCTTGTCTTGTTACCATTTAAAATTGACATTTAATTTTCAAATCACTGTTGG
TGCCTAATCACTTAAGTTATTAATTTATTCTGWTGTATTCTTTTTTTTAAATTGTAACATATTTATCCGGTGGGTGGGACAGGAGTGTGTTCAAGTGGGT
CATGTTTTTGCTGTGGTGACACATGGTACAGGCTTGGAGCTTGCAGGTCCCTTTCTACTGTGGTGTTGGAGCAGGACAATAAAGTCCACTAGAARTGCAC
CCCAGAACCAGCTGCCGTGTCCATCTTGTCTTGAGGRGCTTGGTGGTGGAACCYGTTCTCACTCCAGTCTGTTCCAATTTTTGCTTTATTTGGAAATAAT
TGGGTATTTTTCTTGGCTGTGAATAAGAACAAATGCTCTCTACCTCAGCGTCTGTTGTAAAGTGGAAATCATACTAGCATTTACCCATCCAGCTTTCTTA
GGCGTCTAGAGATGGGTTCTGGGCGTGTCTGTCTGCTGCTTTCACAGGTCACTTAGATGTGACATCTTGAGGGTCTGTGACATTGGGCCCAAACTCCACA
CCACCATCACAGCAGGCAGCCCCTGGGGAAGGAGGTAGGTAAAGGCTTGAGAGCTGCCTCCCAGGTGCATCCTCTCCACGGGCAGCATCACCCAGCCCTC
AGTAAGGTAAGTAAGTCAGTCAGTCCACACGTTTACTTACACCCCACTTCAGTAGATTCAGTAGAGGGCTCTTGGCTCCCTGTGGCATCTSACACGTCAC
TGGGGGGCAGGCTGAGTCCTGGCCTCCCCAGACCCCGTGAGCAAAACCCAGTGGCCATCACAGCCCCTGAGTCCAAGGAAGAACAATCTCTTGCTTAGGC
TTACTTTTATTTATTTAAGAACATGGGTGTCTGTCTTSTCTTCGGTTAGAAGTTAGAAGGGGGCTACAGCAGTGTCAGGGCACTTCACCCAACCTGCAGG
TGGCTGCTGTTGCAGCTACAAAGGCCAACTGCTCAGAGGAGCCCACAGGCTTCCTAAGAGCCCACACTTCACAAGGAACATGAACACCTTTGCAGTAAAA
TCAGGACTCTAACCACAAGGGGGATGCAAGTGGTGGCTTCTCAGGCCCTGAGGCAGGCGTGGAGGGGCTGTGGGGGCAAAGGCCTCCTGCTGTGAGAAGC
TAGCCCCCCGCCCCCCCCCCCAAAACCATGCAGTGGCGCTTGGTAAGGGGGCAGGTCTCGGTCTCTGTTCTTCTCAGAAAGGTACAGACAGTGCAGGTAC
CCCCCACCCCCATATGAGAAACAAACAAACAGGACAGCCAGAGGAGACACTGCCCCCCCCACCCCTTTGTGCAAGGCTTGGATCCTGCTGTGCTTTATAC
CGTACAGCAGTCGGAAGGAAAATAGTACTTGATGTCAAAACATTGGAGCTGAGGTCTAGCCTGTTTCCTGAACATCATCAGATCTTCCCGCATGGGGAGC
CTGCTAGGGAAGGAGGGGGAGGCAAAGACCCGTGTGTGCCCATCTCGGCTGCTTCAAGTTAACCAGGACACTTGGGTGTAAAGTTTTAATGGGACTGATC
CCCAATGAAAGGGACTTAGGTCTTACTTCCATATCTGAGAGAATCTCTGTGTACCCTTCATCAGGCTGAGGACTAAGGTGCCATGAGCTGTACCATCCTT
CCTCTTGGTAGGGCCTGCCTCCACAGCTTCCCTCAGGCCCTACCTGGCTCCTGGAGGGAAGGGGTCAGGTTGGCAGCAGGTTCACATTAGAAGACCAGTC
TGTGGAAGTCACCACCATTGCCACCTGCAGGATTGCAGCCCCCTGGAGAGCCTTCATCCTCATCCTTGTCTTCATCAAAGCCCCTCCCCCAGTGCGGAGA
TGTGGGGAGTGCAGAGATGTAGGCCGCCCTGCTCCGGGCCTCCTTCTCCTGCTCCTGGGAACACAGATGAGAGGAGACTTAGACTTAGAATTCACACCCT
GAAGCCAGAGTGAGTCTACCCAGCACAACACCTTTCAATGTTTCCTCTAGGTCCCCAGGGCCTGGACACACAGAGACATTGCAGCTCAGTGGCAGGATAT
CCGGGGTGGACACCTTCAAAAGACTTCAAAAGACCCCCTCCTCTCAATAAAAACTCTAGTCCCTGAGCCAGCTGATACTAGGGTGTGACTGACTAGCTGA
CAAGGGCCTAATGTGGTACCGAGAGGTCTGAGGACTTCGAGGGTCATATCACACCACACGGGAACCTGTCCGCAGGCCTCATGATCACGAGGAATGGGCT
CTGCCTATGAGAAAGCCCATCCTCCTGCTACCAGGACGTCAGCCTCATGGCGATCCTTACCCGCCACCCTGCCTCCATCTGGACAGCATGGCAGAAGCTG
TCCCTGAGAGCCTGACTCAGCCTCAGGCCCCTCCCTGGGCTGCTGCTGGTAAAACAGCACATAGGCTGTGTCCTTGGGGAAGAAGGAGTTGATGTTGGTG
ACACCCGGTCTGGTGTCCCCACACCAGTTGCTGTATTCCCCCGCACAAAACACAAACTCCAGGCACTGGCACCCATCCCACTGGTCAAAGCCCATGCTGT
TCCAGCTGCTCAGTATGCCAGTGCCACCCTTGACTCTAGGGAGTCACACAGGAGGCTCACGTGGGTAGTGGGACCCCCTCCCCCCACACCCGAAGCATCC
TCCTCCCCCTCAGACTCAACTGGTCCCTGTACTCCTCCTTCAGCACACTTATTAACTGCATTAATGGGGTTTTCTAGATGATACAGAATCATGTCATTAT
CTCATCCCAGGAGCTTCTTAAGCTGTTAAGCAACTTCAGCAACTCTCAAGATGATACATACAAAAACCAATGTGCAAAAATTGCTAGCATTCCTATACAC
CAACAAGAAGCAGGGAGCCAAATCATGAACAAACTCCCATTCACAACTGCTACAAACAGAATAAAATACCTAGGAATACAGCTAACAAGGGAAGTGAAGG
AGAGGACACAAATGGAAAAACATTCCATGCTCACAGATAGATAGGAAGACTCAATAGCATGAAAATGGCCATACTGCCCAATGTAATTAACAGATTCAAT
GCTATTCCCGTTAAACTACCATTCACATTCACAGAATTAGAAAAAACTATTTTAAAATTCATACGGAGCCAAAAAGTCCATATAGCCAAGACCATCCTAA
GCAAAAAGAACAAAAGTGGAAGCCTAATGCCTACCTGACTTCAAACTATGCTGTTTTGCTTACTGTAGCCTTGTAGTATAGTACTGGTATAAAAACAGAC
ACATAGACCAATGGAACAGAATAGAGAACTCACTCAGAAATAAGACTCCACACCTACAACCATCTTCAACAAACCTGACAAAAACAAGCAATGGGTAAAA
GATTCCCTGTTTAATAAATGTTGCTGGAAGAACTGGCTAGCCATAGGCAGAATGTTGACATTCGACCCCCTCCTTATACCTTATACAAAAAATTCACTCG
ATGGATTAAAGACTTAAATGTAAAACCCAAAGGTATTAAACCCCTAGAAGAAAATCTAGGAAATACCATTCAGGACATAGGCATAGGCAAAGATTTAATG
ATGGAAACATCAAAAGCAATTGCAACAAAAGCAAACAATGACAAATGGGATCCACTTAAACTAAAGAGCTTATGCGGAGTACAAGAAACTATCATCAGAG
TAGACACAACCTACAGAATGAAAAAAAATTTTTGCAAACTACCCATCTGACCTAAGTCCGATATCCAGAGTCTACAAGGAACTTAAATGTCCAAGAAAAA
AACAACCCCATTAAAAAGTGGGCAAAGGACATGAACAGACACTTCTCAAAAGACATTCATTCATGTGGCCAACAAACGTACGAAAGAAAAATTCAACATC
ACTGACCATTAGAGAAATCAAAACCACAATGAGATACCATCTCACGCAAGCCAGAATGGTGATTATTAAAAAGTCAGGAAACAACATATGCTGGTGAGGT
TGCAGAGAAATAGGAATACCTTTACACTGTTGGTGGGAGTGTAAATTAATTCAACCATCATGGAAGACAGTGTGGCAATTCCTCAAAGACCTAGAGGCAG
AAATACCATTTGACCCAGCAATCCCATTACTGGCTATACACCCAAAGGAATATAAGTCATTCTATTATAAAGATACATGCACATGTATGTTCACTGCAGC
ACATTTCACAATAGCAAAGACATGGAATCAACCCAAATGCCCATCAATGATAGACTGGATAAAGAAAATGTGGCACATATACACCACAGAATACTATGCA
TCCATAAAAAGGAACGAGATCATGTCCTCTGCAGGGACATGGACGGAGCTGGAAGCCGTTATCCTCAGCAAATTAACGCAGGAACAGAAAACCAAATACC
GCATGCTCTTACTCATAAGTGGGAGCTGAACAATGAGAATACATGGACACCTGGTGGGGGTGGGAGGGGACCAACACCCACTAGGGCCTGTTGGGGGGTG
GCGGGGGAGGGCGAGCTTCAGGAAGAATAGCTAACAGATACAGGGTTTAATACTTAGGTGATGGGTTGATCTGTGCAGCAAACCACCATGGCACACGTTT
AAGTAACAAATCTGCACATTCTACACATGTACCCTGGAACTTAAAAAATAAACTGCGTCATTCATTACTCAGTGTCTGTTACTTTGAAGTAAGGGGTTAG
GTCTGTCTGGGCCACCAGTATATACCCAGCACTGAGCAACAGATGAATGGGATTTACAAAAAAGACTTAGAGGGGAAATGACTTATCTAAGCCAGTAGTG
GGACTGGACTCCCTCCACCAAGAGATCAGATCAAAGGCCCCACGGCTCAGCTCACCTGTAGGTAAAGGATGTTGTCTTTGGAAATGGCTTCCATCAAGTC
CTTGTGCAGGGTGGGCTCTGTCCGGACTCTAGAAGAGCCCAACTCAGMCTCGGGCCCCTCCCTGGGCCGCTGCCGGTAAAACAGCACATAGGCTGTGTCC
TTAGGGAAGAAGGAGGTGACGTTGCTGACAGATTCGAAGGAAGAGAAGGACACCCGAGTGTCAYTGAACAGGTACCACTGGTTCTCGGGCTCTGGCCTAT
CGGCAGTTCCCAGAGAAGSGGCAGGGCGGGCAGCGCCCTCACGGGCATAGCAGTAGTAGTGACCACTCTCCGAAGACACTCCAGAGTGCACCACMACACT
GCAGAGGTCATAKGCCTGGCCACGGCCACCAGCCAGTGGCAGGCGGAGCASCAGGGGGATGGAGACGTCATCCAGGATCTTGCGGCGCCGCATGGKGYGC
ASGTCGAAAGAGAAGCGCASCAGTGTGAGGATGAGGTAGCACGGCCCTTGGCTCAGCTCCACCACCTTCTCGGCATCCTGCAGGGAGGCACACGACTCRC
AGTAGTAGCGGTTTTCTGCTGTCAGCTTCTCGGGGGACAGGAAGTAGTTAACCAGGTCCAGGACGGAGCGGGAGCCCTCAGAGCCACATGTCCGCTCCCC
GGAGGGGATGGCAGCATCCGGGTGGGTCCCCGCTCCCAGGCTGTCTTCTTCCTTTTCCTGCTCAGCCTCCTTTTCTGTCTCCTTCTCCACCTTCTCTTCT
TCCTCTTCCACCTCCTCCTCTTTCTCCCTCTCTCCTTCCCCTCTGGTGCTTTCCTCCTCCTCCCCCACTTCTTCCTTCTCCGTTCTCTCCTCCTTCCCTT
CTTCCTCCCTCTCTATCCTTTCCTCCTGACTGCTCTGCCCACCAGCTTCCTTGGAGTCCAGGCCTTCGATGTACAGGCTGGTKGGGGGGGTGTCCTCTGT
GATGCAGTGTTTCCTTTGCCTCCGAGGACCCACCCTGCCTGGCCCCTGTGCACTGGTTGGTGGGGGCAACTCCCGGGCTGTGATGTCTTCTGTGGGGCGC
ATCACAGAGCCCAGGCGGCGGCGGCGACAGCGCTCAGGAGGAGGGAAGGCGAGAGAGAGGTCCGTGAAGGCCTCCTCCCGGGAGGAGACGTTGAGGCAGC
AGAGACAGCAGATCCGAGTCACTATCTTGCCTCCAAACATTTTTTCCACAGAGGTTGAACTTGGGGCCGGGGGCTCCTCGGGMRGAGAGGGCGAGCTGGA
CTGCTTGAGTTTCTGGCAGATCCTTGTGCCCGTTTTCTCCTCTTCRTGCAGCCTGGGGCAGAGAGCACAGAGTCACTACATGTACATGCGGGTCCCCTTC
CGGGGCACTCAGCTTATCCATGCCCATTTACCTTCCCCAACAGCCACACATTGAGACGCACACAAACACACATGCACACACCAAACACCCACACATCCAC
GTACATGCTCACAACAGCACGCTTGCTACACTCACCCACACGCCCTACATAAAGACTTGCTGGAGCTATGTAATGTGCTCCCATGGCAGTGACAAAGATG
CACGGCCCGGTGTGCAGACATACACAATGACCTCCCAGAGATCACTTCCACTCAGCATCTACCAAACCTCCCTCACACTCAGTCCCTGCCCTTCCAGCAC
ACCCCTTCTCCACGCCCTCCACATGTTGGAGGCAGCACACTTATTCCCTGGACGCTGCAACACAGCTCAGAGGTACTGGGCTTGCCCCCAAGGACCCTCT
AGACCTGGAGTCTTCGCGTAGCCCTGGCCCCCTTACCGATCCAGCAGGTACTTCAGATACTCCGAGCAGTCCTGCTGGGTGCCAGGGCTGAACCAGGGCG
TC


SNP Information

Context             (SEQ ID NO:14369):
TTCAGAGCTTACATCTCATTGGGAAAATAAAACCAACACATATAAATCAGGACAAGTATTGTTACTGTGGTGTTCAGAGAAGTGATGGCTGGGGTGAGCA
S
GACAGGTGAGTGGTGTAGGAGTCAAAGGAGAGGTGCATAGATGAGGGTAGAGTAGTCAAGGACAGCTTCTCTGCAGATGCTAACACTGGAGCTACATCTA
Celera SNP ID:            hCV26530864
SNP Position Genomic:     198314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:14370):
GTTGGCAGGGTGCTGGTTCACTCTGCCCAGCCCTGAATGTGTGCCTTAAAGGCCCCCTACAAGGGGCCCCATACGACAGAGCTTTTAACTGGTGCCTTCC
S
TGTACCCGCAGCAGCCACAAGTGGGCCCAGACTATTGCAGCCTCCCATAAACATGTGAGCATGTTCTGAGTGTGCCATGATGTGAGTGGACCTGGCTGGA
Celera SNP ID:            hCV26530792
SNP Position Genomic:     207016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:14371):
CATACATAAAACATGTTCCTGCCCTTCAGAGCTTACATCTCATTGGGAAAATAAAACCAACACATATAAATCAGGACAAGTATTGTTACTGTGGTGTTCA
S
AGAAGTGATGGCTGGGGTGAGCAGGACAGGTGAGTGGTGTAGGAGTCAAAGGAGAGGTGCATAGATGAGGGTAGAGTAGTCAAGGACAGCTTCTCTGCAG
Celera SNP ID:            hCV26530865
SNP Position Genomic:     198290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:14372):
AAGTAGCTGAGACTACAGGCATATGCCACCATACTTGATTAATTTTTTGTAGAGATATGGTCTCGCTATGTTGTCTCGAGCAATCCTCCCACATTAGCTT
M
CCAAAGTGCTGGAATGAGCCACCACACCTGGCCTCTTCAAATCTTTTTCTGCCACATTTTCTTTTTTTTTTTTTTTTTTTGTTTCTTCCCTCAACTTTTA
Celera SNP ID:            hCV26530938
SNP Position Genomic:     185510
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14373):
GCTTGGGTCCAGTGGAGGAAGAAGGAAGGAGAGGCTTGGAAAGCCTTGTGTCTTGGGAACAAAAGGCCTTTGAGCATATGGGTCCAGCCACTCAGAAGTG
Y
AGGGGCCATGCCTTGGTGTTCCAATAAGTGAATGGAAGCAGTGGTGGTAGCTACACTGGGCAGAGTTGGCAGGGTGCTGGTTCACTCTGCCCAGCCCTGA
Celera SNP ID:            hCV26530793
SNP Position Genomic:     206851
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,476|C,1001)   total(C,1001|T,476)no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14374):
AGAAGGGGATGAGTCAGATTTTTACAGAGGAGGAGGGCAGGGCTTGGGTCCAGTGGAGGAAGAAGGAAGGAGAGGCTTGGAAAGCCTTGTGTCTTGGGAA
M
AAAAGGCCTTTGAGCATATGGGTCCAGCCACTCAGAAGTGCAGGGGCCATGCCTTGGTGTTCCAATAAGTGAATGGAAGCAGTGGTGGTAGCTACACTGG
Celera SNP ID:            hCV26530794
SNP Position Genomic:     206810
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|C,9)      total(A,6|C,9) ;JBIC-allele(A,343|C,1146)   total(A,343|C,1146)
SNP Type:                 UTR 3


Context             (SEQ ID NO:14375):
CTTACCAGTTGGTCCTCCAGCACTGGAGGCTGTTAGTAGTAGTTGTCTAACAGAGCTAGCCCCAGAGAAGTTAATGTTCTACTAATGGAGAATAGGACAT
Y
CTTGATTAACCACAGTATAACATATTATGGGTTTAGAAGCCCAAATCATTGTATTTTATTCATTTGTAAATCAAATCAAAGATTTAAAAAATAAATTCAG
Celera SNP ID:            hCV26530867
SNP Position Genomic:     197591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14376):
AAGGACAAGGACATGAGACAGTGGTGATGGCCATCAGACAGAGACTTCAAATGCTGATGGAGGGCAGAGGAAGTACTTAGGGAGGTTGGTGTCAGAGGCA
S
GAGTGGGGGATCAGGGAAGGTGGATTCTAGGAAAAGGGAGTGCCTGAGGTAGGCCTTAGAAGGGGATGAGTCAGATTTTTACAGAGGAGGAGGGCAGGGC
Celera SNP ID:            hCV26530795
SNP Position Genomic:     206652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14377):
ATTTCAGGCTTATGATGAAAAGTGACCTGGAGCTTTGGATCCAGTCTTGCCCTCAGCACCTGTCAGCATGCTTTTGTTTTTAGGATTCTTCATATGTTCC
Y
TGTTTTTCAGTGAGCTTTCTACAGGGACCACACACTCCTTAGAATCCTATCAAATACTGTTGTCAAAATTCTTTCGTCATCCTCTCTGCACTAGAACTTT
Celera SNP ID:            hCV2324189
SNP Position Genomic:     164344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14378):
GTAGACAATATGGATGTTCCGGCCACCCCACTCTCAGCCTACCAGATCCCTAGGACATTCACTCTGGACAAAAACCACAATGCCATGACAGTGGCCACTC
Y
TGGGGACTCAGCCATAGCTCCCCCACCCCGCCCCCCCAAGCCAAGTCAGGCAGAAACACCTCGATGGGGCAGTCCTCAGCAGAGACCGCCAATCAGTGAA
Celera SNP ID:            hCV26530869
SNP Position Genomic:     197159
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14379):
TTCTCCCTGAACTTAAGATAGCCACAATCAGAAAAAGGACAAGGACATGAGACAGTGGTGATGGCCATCAGACAGAGACTTCAAATGCTGATGGAGGGCA
S
AGGAAGTACTTAGGGAGGTTGGTGTCAGAGGCAGGAGTGGGGGATCAGGGAAGGTGGATTCTAGGAAAAGGGAGTGCCTGAGGTAGGCCTTAGAAGGGGA
Celera SNP ID:            hCV26530796
SNP Position Genomic:     206618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14380):
CTAAGGACACAAGAATCAATCAGACCTTCTCCCTGAACTTAAGATAGCCACAATCAGAAAAAGGACAAGGACATGAGACAGTGGTGATGGCCATCAGACA
S
AGACTTCAAATGCTGATGGAGGGCAGAGGAAGTACTTAGGGAGGTTGGTGTCAGAGGCAGGAGTGGGGGATCAGGGAAGGTGGATTCTAGGAAAAGGGAG
Celera SNP ID:            hCV26530797
SNP Position Genomic:     206592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14381):
GGAGACGTTGAGGCAGCAGAGACAGCAGATCCGAGTCACTATCTTGCCTCCAAACATTTTTTCCACAGAGGTTGAACTTGGGGCCGGGGGCTCCTCGGGC
R
GAGAGGGCGAGCTGGACTGCTTGAGTTTCTGGCAGATCCTTGTGCCCGTTTTCTCCTCTTCGTGCAGCCTGGGGCAGAGAGCACAGAGTCACTACATGTA
Celera SNP ID:            hCV25755108
SNP Position Genomic:     214284
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,2|G,36)   total(A,2|G,72)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14382):
CCCATTCCCCTTTCAGCTCCCATGAGCATGCATAGTTCACCAGACCAATGGCCTAGCCATTCTCTAAGTCCCATCCTGGAAGAAGTTATTTCTTCAAGAG
S
TGCACCTCTCCTCCTAGCATTAGTTTAGATCAACTCAAGGAGTATTTATTAATGGCTGCTGTCTCCAGTTTCTGGGGTTAAGCACTAAGGACACAAGAAT
Celera SNP ID:            hCV26530798
SNP Position Genomic:     206407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14383):
GGTTCCTTCTCTTAAACTAAGGGTGGGGGATCTGAATGTTTTTATGTTGACTGTTCTTGACTAAATTTTCAAGAGTTTCAGAAGCAACAGGACAGACCAG
R
CGTTTCATTCTACCCTGGGGCGAACAGAACTTCTTCCTCCCAAACAATGACTTCCTGCCATGTTTGATGGGGACAGCTACCACTGTCCTCTGCCCCCATT
Celera SNP ID:            hCV26530799
SNP Position Genomic:     206212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14384):
AGGGCAGAGCCCTCGTGAAGGGGATTTTTGCCCTTACAAAAGCAGCTTGAGGGCTTCCGTTGTCCCCTCCACCATCTGTTAGAAACAGGGCCCTCACCAG
R
CACCAAATCTGCTGGTGCCTTGATCCTGGACTTTCCAGCCTCCAGCACTGTGGACTGTAAATTTCATGTTTATAAATAACAGTCTGAGGTATTTTGTTTT
Celera SNP ID:            hCV26531235
SNP Position Genomic:     126929
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14385):
CCACAGAGGTTGAACTTGGGGCCGGGGGCTCCTCGGGCGGAGAGGGCGAGCTGGACTGCTTGAGTTTCTGGCAGATCCTTGTGCCCGTTTTCTCCTCTTC
R
TGCAGCCTGGGGCAGAGAGCACAGAGTCACTACATGTACATGCGGGTCCCCTTCCGGGGCACTCAGCTTATCCATGCCCATTTACCTTCCCCAACAGCCA
Celera SNP ID:            hCV25750022
SNP Position Genomic:     214346
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,3|G,35)   total(A,3|G,69)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14386):
ATCTGTCACCCATCCCATAGGGAAGGTCTCACCTTGGTCCCTTCTCTCCTTCATCTCTGTCTGTCCTAGCCCATTTCAGGCCATCCTGCACAGTCACACT
K
GACCCTTGTTTGTGCGGGTTCTTTGTGATGATTATTGACGATTCAGTGTTCATTTATGTTTACTTGGGAGGGGACAGATAAAAGGAGGAAACAGTGATTT
Celera SNP ID:            hCV26531165
SNP Position Genomic:     143625
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14387):
AGCAACTACTCAGCTTTGCTGTTGTAGTATATATGCAGCCATAAACAATTATGTAAATAAGTTGATACAGCTGTGTTCTAGTGAAACCACAGAAACAGAC
S
AGATGTAATGTATGGGCTGTAGTTTGCTGACCCCTGTTCTGGTGTAATAATATGCTTTGGCAGGCCTGCTCAAATAATGTACTCAGTATGCAGGCCCACT
Celera SNP ID:            hCV29155746
SNP Position Genomic:     160905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14388):
GGGCCGCTGCCGGTAAAACAGCACATAGGCTGTGTCCTTAGGGAAGAAGGAGGTGACGTTGCTGACAGATTCGAAGGAAGAGAAGGACACCCGAGTGTCA
Y
TGAACAGGTACCACTGGTTCTCGGGCTCTGGCCTATCGGCAGTTCCCAGAGAAGGGGCAGGGCGGGCAGCGCCCTCACGGGCATAGCAGTAGTAGTGACC
Celera SNP ID:            hCV25752130
SNP Position Genomic:     213264
SNP Source:               Applera
Population(Allele,Count): african american(T,30)   caucasian(C,1|T,37)   total(C,1|T,67)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14389):
ACACAAGTTTACCTACATAACAAACATGCACGTGTACCCCTGAACCTAAAAGTTTAAAAAGAAAAAATGCCAATGAAAACATTATAAACTTATGAAAATC
M
AAAAGGGTACCCTATATATGGAATTATAACTGATTCATATATTGTATGTGCTATTTAAAGTTTATATATTCAGGCCAGGCATGGTGGTGCATGCCTATAG
Celera SNP ID:            hCV2324190
SNP Position Genomic:     164964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14390):
CCTCCCATGGCCACACCAAGGGCAGCCTCACAGGCTCCGAGACAGATAATGAGGATGTGTACACCTTCAAGACGCCCAGCAACACCCTGTGCAGGGAGTT
Y
GGGGACCTCCTGGTAGACAATATGGATGTTCCGGCCACCCCACTCTCAGCCTACCAGATCCCTAGGACATTCACTCTGGACAAAAACCACAATGCCATGA
Celera SNP ID:            hCV26530870
SNP Position Genomic:     197046
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(T,676|C,801)   total(C,801|T,676)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:14391):
TTTTAAATACATGTTTCTCATTGAGGGGAAAAAAATTAAATAAAATAGTTTCAGAACCTGTGTCTGGGAAGTCCACATCAGGGTTATTTTTGTTATACCT
K
GTTCCTTTGGAGCCATAGATTATGTGAAGGGCCAGAGAGAACGTGGATGCTTATCAATTTGCAATTTTGATGATCCAAAGGAAGGTTTTTGGAAATATTT
Celera SNP ID:            hCV2324191
SNP Position Genomic:     165355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14392):
CTATTAACTGCCATTTGGAGATGGGGGACGGATGAAGTCTAACATTGTTTAAACATTCATATACTAGAGTCTGAACAACCTTCAAAATATGCTTTTAGTC
M
CCATTTTACAGATGCCTAAACCAAAGTATAGAAAGAGAAAGTGCTTTGCCTCAAGGTCACACAGCTAGTAATTGTCTCACCCTCCTGCCCTTTCCCTTCT
Celera SNP ID:            hCV26530871
SNP Position Genomic:     196637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14393):
ACATGTTTCTCATTGAGGGGAAAAAAATTAAATAAAATAGTTTCAGAACCTGTGTCTGGGAAGTCCACATCAGGGTTATTTTTGTTATACCTTGTTCCTT
K
GGAGCCATAGATTATGTGAAGGGCCAGAGAGAACGTGGATGCTTATCAATTTGCAATTTTGATGATCCAAAGGAAGGTTTTTGGAAATATTTGCTCTTTC
Celera SNP ID:            hCV2324192
SNP Position Genomic:     165363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14394):
AAGTCCACATCAGGGTTATTTTTGTTATACCTTGTTCCTTTGGAGCCATAGATTATGTGAAGGGCCAGAGAGAACGTGGATGCTTATCAATTTGCAATTT
K
GATGATCCAAAGGAAGGTTTTTGGAAATATTTGCTCTTTCATTTGTCACTCAAAGCCTGCTTTGCCTTTTCTTCAGTAGACCCTAACCCTTCTGTCTCTG
Celera SNP ID:            hCV2324193
SNP Position Genomic:     165423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14395):
CAGGAAACTTACAGTCATGGCGGAAGGTGAGGGAGAAGCAGGCACATCTTACATGGCTGGAGCAGGAGGAAGAGAGTGAGGGGAGAGGTACTACACACTT
Y
TAAATAACCAGATCTCACAATAACTCACTCACTATCATGAGAACAGCACCAAAGGGGAACTCCACCTCCATAATCCAATCATTTCCCATCAGGCCCCACC
Celera SNP ID:            hCV27974919
SNP Position Genomic:     15040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14396):
TGTTATACCTTGTTCCTTTGGAGCCATAGATTATGTGAAGGGCCAGAGAGAACGTGGATGCTTATCAATTTGCAATTTTGATGATCCAAAGGAAGGTTTT
K
GGAAATATTTGCTCTTTCATTTGTCACTCAAAGCCTGCTTTGCCTTTTCTTCAGTAGACCCTAACCCTTCTGTCTCTGCCCCAGAATTAAGAACCAGAGG
Celera SNP ID:            hCV2324194
SNP Position Genomic:     165445
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14397):
GCCAGAGAGAACGTGGATGCTTATCAATTTGCAATTTTGATGATCCAAAGGAAGGTTTTTGGAAATATTTGCTCTTTCATTTGTCACTCAAAGCCTGCTT
K
GCCTTTTCTTCAGTAGACCCTAACCCTTCTGTCTCTGCCCCAGAATTAAGAACCAGAGGTTGTTAAAACCAAACCAGTGGATCCTAATCTGAATCTCTGT
Celera SNP ID:            hCV2324195
SNP Position Genomic:     165486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14398):
ACTGAATTCTTACAAATTAAACAAAAGCCTTTCCAATAGCTCCTAGAGAGGCTAAGGAAGTCTCTGTATGGGAATGTTTTCCAGCTACATATGCAATACT
Y
CAAGCAGCTGGACTGATGTAAATTGGGGCTCCCAGGAGCAAGATAGTCCATTTACTTGATCACCTGAATTAATCTTTGGAATTTGGTTCTGTTTCTCATG
Celera SNP ID:            hCV12045989
SNP Position Genomic:     124019
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,17)   total(C,1|T,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14399):
AGAGATCTTTTTAAAGTTGCAAGCAGAAGTGGGATTTTGGCAAGTTTTAGTGCCAAAACAGCTTTGAAAGAATTTTTCTGGAGCTACATACTTTTTTTTT
Y
CTTTTTTCTTTTTTCTTTTTTTAGAGACAAGGTGTCACTCTGTCATCTTGGCTGATTGCAGTGGCGCGATCATAGCCCACTGCAGCCTCAATCTCTTGGG
Celera SNP ID:            hCV2324196
SNP Position Genomic:     168978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14400):
TGTAAATAAGGAGACTGAGACTCTGAGAGGTGAAGTGACTTCCCCAAGTATGCAGCTAAATAGACTGAGTCACAGATATGACTCCACAGGCTGAGCTCAA
R
GAAGGGGCTGCAGAGGTGAGGATGGGTCACTCCTCTTTTATTCATACTCACAGCCAAAGCATTCAACATAGGGGGCATGAAGGATGCATTTGATGACAAG
Celera SNP ID:            hCV2324197
SNP Position Genomic:     169762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14401):
TTGTTTGCTGTTTCCTGTCATCAACTTAAAGGTTCTTTCCACTGTCTCACAACATTTGTGTTCGAATGTGCATATTCTGCGGTACTTAAAACAGTGAACA
W
ATAGGCAATCCATCTGGCTTATTGATACTTGTTCAGGGAGTGGGGGTTATAACCCCTGCTATTAACTGCCATTTGGAGATGGGGGACGGATGAAGTCTAA
Celera SNP ID:            hCV26530876
SNP Position Genomic:     196478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14402):
GTAGAGCATTAATGAGCTGGTGATCCTGCCTAGGACCATGAGAAGGGTACAGCCTGAGATAGGTCAGATGACAGGGCGTAGAAGGTGAACTGTGTCCCCT
Y
TGACATGAGTTGAATAACCTTAGAAAATCAACACCACCACAACGTTAACCCACCAGCTATCATACTGCCTAAGATTACATCTTTAAACTTTTATTTCTTT
Celera SNP ID:            hCV2324198
SNP Position Genomic:     171712
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14403):
CTAAGGAATTTGGACTAGCTTAGAGAGCCAGCCAAATGAATAATGACCTTGGCTTGGGGTGTAGTACTATAAGCTATTATCCGTCCTTAATACCTCACTT
W
CTAACACAACAGAGAAAAGCTTGAGATAAGAGGGAAAATGACCAATAGACAGGGAGTGGTAGGCAGTGGGGAATGTAACTGTCCTTGGAGGTCTTAGGAG
Celera SNP ID:            hCV2324199
SNP Position Genomic:     172392
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,10)      total(A,10|T,4) ;(T,-|A,-)   Caucasian(T,14|A,66)   total(A,66|T,14)no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14404):
ATTTTGAGTTAGTTTTTTTATCTGTTTTAAGGTAAAGGTCCAAGAACTTTGTTCTTGTGGGTTGACTTAGTTTTCCAGTTCTATGTGTTGCTTTTTTTTT
K
TTAATCTAGTTTAGCAAACTTTCTACCAATATTTCTTCGACTTTTTTTTTTTTTTAAGAGACAGGGTCTCAGTCTGGCACCTAGGCTGGAGTACATAGCT
Celera SNP ID:            hCV11469879
SNP Position Genomic:     185258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14405):
TATCTCTACTTGCACCAGTGCATAAGCCGAAGAGCAGAAAATGCAAGGTAGGAGGCTGCCACAGCCATTAGGTGGGTTAGTGACCGCTCACAGGGCCTAG
Y
ACTTTTCAGTCCTTGCTTTTTTAAAGACAAGCAAAACATTATATCGTTTCAGGTAGACAAACACGTCTATGACAAAACATAATTTTTTGCTTCTGTAGCC
Celera SNP ID:            hCV25746152
SNP Position Genomic:     173696
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,40)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:14406):
TCGCTTGAACCCTGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCATTGCACTCCAGCCTGGGTAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAA
A
TGCATTAAGGTCAGGCACAGTGGCTCATACTTATAATCCCAGTGCTTTAGGAGGCTGAGTTGGGAGGATCTCTTGAGACCAGCCTAGGCAACATAGCAAG
Celera SNP ID:            hCV26531172
SNP Position Genomic:     142552
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,9)   total(A,4|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14407):
TCCCTCAGGGGAATGACCTTTCTTTCTCCAATATTTAAAGGGTTGGCAACAGCTCATTTGTTGCTTTGTCAATGGGAGAGGTAATTCCCCTAATGGATTT
Y
GAGTCCTCTGTAGAAAGGTTGACCTGGTCTTTGGGGAATGAACCTCACAGAATTCAATCAGTGTAATTACTGATACAGGGCTTTTTGGTTTCCCAGATGT
Celera SNP ID:            hCV26531246
SNP Position Genomic:     125218
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14408):
TCAGACCATTCAAGGACATGAAAGCAAGGTCCCTCAGGGGAATGACCTTTCTTTCTCCAATATTTAAAGGGTTGGCAACAGCTCATTTGTTGCTTTGTCA
R
TGGGAGAGGTAATTCCCCTAATGGATTTCGAGTCCTCTGTAGAAAGGTTGACCTGGTCTTTGGGGAATGAACCTCACAGAATTCAATCAGTGTAATTACT
Celera SNP ID:            hCV26531247
SNP Position Genomic:     125189
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14409):
CAAACTAGCTTATCTTGTCATTTCTTCTCTTGGTTATTTCAAAGCATAAATTTGGGATTCGATGGTTTCAGTTTTAGCTTAAATCTGTATCCTTGGTGAT
S
AACTTAAATTAGATGCTAATATTTTGAAGGAGGACATGTTTATGCAAACCAGAGTGAGAACTTTTAGTCTAAGGGTCAGCAAACTTTCTCTGTAAAGGGC
Celera SNP ID:            hCV29155750
SNP Position Genomic:     160664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14410):
ATGATTCCATTTTTTGTGATGTTCTAGAAAAGACAAATTTAATCTATAGTAACAGCAGATCAGTGTTTGCCTGGCACCAGGATAGGGAGTGAGGATTCAC
Y
TGGAAAGGGCACAGGGGAACTCTTTGGGGTCATGGAAATGTTGTGTCTTGATTGAAGTGGTGGTTAGATGGTAAATACATTTGTAAAATTCAGCCATCTG
Celera SNP ID:            hCV12045990
SNP Position Genomic:     123696
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14411):
GTTATAAACTTAAAATGTTACAACTTGGACATTGGGAGCCCCTTTAAATCGTATCTTTTGACTCAACATCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
T
AACATTTTTTGTAGAGATGGGATCTCACCATCTTTCCCATGCTGGTCTCAAACTCCTGGGCTCAAGAGATCCTCCTATCTTGGCCTCCCAAAGTGCTGGG
Celera SNP ID:            hCV12045992
SNP Position Genomic:     116190
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14412):
CAGAAATAATAGGAATTCTGCCCAACCCCTCACTCCCTCCACCCCCACATTTCTCAGAGGCGTGTATTGAAATTGTAGGTGGGACAATTCTTTGTTATGC
R
AGATTTTATCCTATGCATGGTTTGAGGTTAATATACCTGTCCTCTGCCCTCTAATGCCTGTAAGGCTTTCCAATCATTGTGACAACTTACCCCACCACTG
Celera SNP ID:            hCV12045993
SNP Position Genomic:     113704
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14413):
ATCCTCCCACCTCAGCCTCTCGAGTAGCTGGCATTACAGGCGCACACCACCACACCTGGCTAATTTTTGTATTTTTTTTTTTTTTTTTTTGGAGAGACAG
R
GTTTTGCCATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAATGATTTTGTCCACCTCGCCTCCCAAAGTATTAGGATTACATACGTGAGCCACCAC
Celera SNP ID:            hCV26531682
SNP Position Genomic:     40246
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14414):
TACAATTGTATTCTCTTATTTAGAACAAATATGGTGGGTTTTTTGTTGTTGTTGTTGTTGTTGTTTTTCTTTGAGACGAAGTTTTGCTCTGTTGCCCAGG
Y
TGGACTGCAGTGACAAGATCTTGGCTCACTGCAACTGCCGCCTCCTAAGTTCAAGCGATTCTCCAGCCTCAGCCTCCTGAGTAGCTGGGATTAACAGGGA
Celera SNP ID:            hCV8748626
SNP Position Genomic:     62988
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14415):
CTGCAACCTCTGCCTCCTGGGCTGAAGCCATCCTCCCACCTCAGCCTCTCGAGTAGCTGGCATTACAGGCGCACACCACCACACCTGGCTAATTTTTGTA
W
TTTTTTTTTTTTTTTTTTGGAGAGACAGGGTTTTGCCATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAATGATTTTGTCCACCTCGCCTCCCAAA
Celera SNP ID:            hCV26531683
SNP Position Genomic:     40217
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14416):
AGGTCTTTGATCCATTTTGAGTTAGTTTTTTTATCTGTTTTAAGGTAAAGGTCCAAGAACTTTGTTCTTGTGGGTTGACTTAGTTTTCCAGTTCTATGTG
K
TGCTTTTTTTTTTTTAATCTAGTTTAGCAAACTTTCTACCAATATTTCTTCGACTTTTTTTTTTTTTTAAGAGACAGGGTCTCAGTCTGGCACCTAGGCT
Celera SNP ID:            hCV11469880
SNP Position Genomic:     185245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14417):
TGTTTATTCTTTGAAAAAATTAACTTCATTTTGTTGATCAGTTTTATTTTGTCTCAATTTTATTTCTGCTCTGATCTTTTTTTTCCCCTTTTACTAATTT
K
GGGTTTGGTTCTTGTTTTTCTGCTTCCTTGAGATGCATCATTAGGATGTTTATTTGAAAATTTTCTACTTTTTTGGTATTAGCATTTATTGCCATAAACT
Celera SNP ID:            hCV11469884
SNP Position Genomic:     181085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14418):
AGTTATAAACTTAAAATGTTACAACTTGGACATTGGGAGCCCCTTTAAATCGTATCTTTTGACTCAACATCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT
C
TAACATTTTTTGTAGAGATGGGATCTCACCATCTTTCCCATGCTGGTCTCAAACTCCTGGGCTCAAGAGATCCTCCTATCTTGGCCTCCCAAAGTGCTGG
Celera SNP ID:            hCV26531324
SNP Position Genomic:     116189
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,4)   total(C,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14419):
AAATTAATGACTTTAGATTAGCTGGCCATAACCATAAGTGAATATGAAAATGACCATCTTCCTTTGGGAGTTTTATCAAGAGGCATAATTCTTACCTTGT
R
TGGTCTTTTGGACTTCGGAAATACTTGGTTGTCATCAGACCTTGATGTTTTACTTCCCTGAACCTCAGCTACACTATCTGGAAAATGGGAATAAGGATTC
Celera SNP ID:            hCV29155900
SNP Position Genomic:     99021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14420):
TTTCCCTCTGCCTTTTTGTTCTTCCAGGCTCTCAACAAATTGGATGGTGCTCACCCACACTGGGTGAGAATGGATCTTCCTTACTCAGTCCACTGATTAA
W
ATGCCAGTCTCTCCCAGAAACACCCTCAAAGACACACCCAGAAATAATGCTTTACCAGCTATCTGGGTATCACTTAACCCAGTCAAGTTGGCACCTAAAA
Celera SNP ID:            hCV26531326
SNP Position Genomic:     115885
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14421):
TGTTGTGGTGGAAGAGGGATGTGTGAATTTGGGACTAGACTAGACAGCCTTGCTGACTCTGTCATAAATATATCAGTATTTTGTAGGCAGCCATTTATCA
K
CCTACACCACTTACTTGGAAGCAAAACCTGACAGGCTCTGATATTATCTGTAGCAAACATGGTTTTCTTGTTCATGAGGGTGTCTGTGTTTTTTGTGCTT
Celera SNP ID:            hCV26531182
SNP Position Genomic:     138445
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,9)   total(G,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14422):
GAGAATCGCCTGAACCTGGGAGGTGGAAGTTGCAGTGAACGAGATGATGCCACTGCACACCAGCCTGGGTACTCTAAAAATATATATAAATAAATAAAAC
S
TGGAAGTGGAGAGAAGGTGTTGTGGTGGAAGAGGGATGTGTGAATTTGGGACTAGACTAGACAGCCTTGCTGACTCTGTCATAAATATATCAGTATTTTG
Celera SNP ID:            hCV26531183
SNP Position Genomic:     138327
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14423):
TCACATTTTTATACTCGCTTCCTTCTCTCAACTTTGTGTTTGTAAAATTTACTCATGTTGTGTATATAGCTTGGTTGTGTTTTCTTAAAATCTTGATCTG
W
TCCTGTTTCTTCCAATCACATAGATGCTAAGTTCAAACTCCTTGATAATGGCAGCATTCAAGGTCCTCCAGGATCCTGTCTTGTAACCTGCCTCTCCATC
Celera SNP ID:            hCV26531329
SNP Position Genomic:     115257
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14424):
TAGTTTTTGGCCACATTGGACCTTAATCTCAGGATGCTCAGAACTTAAAGGGGAGAAAGACATATAAGCATTAGAAATGCCAAAGCAGGGAGTAGAAATG
K
CAAACCCGGGGAAAGAAATGCCAGCGTGGGGTAAGCACAGGTTAGTAAGGGAAAACAAGCAGAAGCACCTCCAGCTCTACCTGGGGGAGTCAATAAAGGC
Celera SNP ID:            hCV26531185
SNP Position Genomic:     137366
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14425):
AGCTCCTATATGTGTTAAGCACTCTGCCATGTAGTTTTTGGCCACATTGGACCTTAATCTCAGGATGCTCAGAACTTAAAGGGGAGAAAGACATATAAGC
R
TTAGAAATGCCAAAGCAGGGAGTAGAAATGTCAAACCCGGGGAAAGAAATGCCAGCGTGGGGTAAGCACAGGTTAGTAAGGGAAAACAAGCAGAAGCACC
Celera SNP ID:            hCV26531186
SNP Position Genomic:     137335
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14426):
AGAGCTAGCCCCAGAGAAGTTAATGTTCTACTAATGGAGAATAGGACATTCTTGATTAACCACAGTATAACATATTATGGGTTTAGAAGCCCAAATCATT
K
TATTTTATTCATTTGTAAATCAAATCAAAGATTTAAAAAATAAATTCAGAAGATCAGTCCAAACTGGAGTGAAACCTGTGTGGACTAACAGACTGCTAAA
Celera SNP ID:            hCV29155690
SNP Position Genomic:     197642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:14427):
TGCACCCCTACCTCCTCTGTGAAATCCCTATTAATCTTCCTACCTGGAATTCACTTTTTCTCTGAATTGCCACAGCAGTTTTTTATTCTCTCTCTCTCTC
W
CACAACATTTGGAACTTTCTGCCTTGTAGAATGGATTTTTATATTAATACATTACTATTATTTGATGATGGAGCTCACAGTAGGTGCATAATAATTTGAA
Celera SNP ID:            hCV16140379
SNP Position Genomic:     175655
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,10)      total(A,1|T,10) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14428):
CTTGAACTTGGGAGGCAGAGGTTGCAGTGAGCCCAGATCACGCCATTGCACTCCAGCCTGGGTGACAGTGCAAGACTCTGTCTCAAAAAAAAAACAAAAA
A
CCACAAGATACCACTAAGAAAATGAATATGTATAATTATTATTTGTCAATTAAAAATAATAATTTAAATTCCAAAAAAGAAAAGGCAAGCCACAGACTGG
Celera SNP ID:            hCV7961033
SNP Position Genomic:     122464
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14429):
AATACTGCTTTTGCTGTATTCCATAGGCTTTGGTATGTTGTGTTTCTATTTTCATTTGTTTCCAGACATTTCTAAATTTCATTCTTTTTCTTTTTTTTTT
K
TTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCTGCCTCCCAGGTTCACACCATTCTCCTGC
Celera SNP ID:            hCV26530963
SNP Position Genomic:     181294
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,9)      total(G,9|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14430):
AAAGGGACCACATTTTAGCATGGTTTGCGCAGTGGGGGCACCCAGAGACCTGGCTGCTAGAACAAATTCCCTGCCCTCTGAGTATGTAACTTTGGGCAAG
M
GTCCCTTGTTCAACTCCTCTTACTTGGTTACTGAGGTGATAATCAGTCTCCCTCAACATGTGTCACTATTATCTATCATATGCCTGGCACTATGCCAGGG
Celera SNP ID:            hCV26530892
SNP Position Genomic:     193075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14431):
TTTCCTCTGGCATAAATTATGATATATGCCAAAGGCCTTTGAGACTTAATCCTTCTTAAATAATTTCAGGCTTATGATGAAAAGTGACCTGGAGCTTTGG
M
TCCAGTCTTGCCCTCAGCACCTGTCAGCATGCTTTTGTTTTTAGGATTCTTCATATGTTCCTTGTTTTTCAGTGAGCTTTCTACAGGGACCACACACTCC
Celera SNP ID:            hCV11469891
SNP Position Genomic:     164282
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14432):
AGGTGACTAGGCACTCAGTCACTGGTAAGAAAATCACTTGATCTCTCTGAACTGTAGGCTTTCTGTCAGTAAAGTATTAATATTAAACTAAATGATCCCG
K
GGGTTATTTCCAGACCTGTGCTTCTGTGATATGGAAAAAGAATAAATGGTTAAGAATCAGAAAGAACAAGCTGGTGATTTAAGCTTGTTAGTACAAGTTT
Celera SNP ID:            hCV11469892
SNP Position Genomic:     160026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14433):
GTAATCACAGCTACTCAGGGTGCTGAGGCAGGAGAATCGCTTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCATCACTGCACTCCAGCCTG
K
GAGACAGAATGAGACTCCGACACACACACACACACACACACACACACACACACACACCACACACGCGCGCGCGCGCACCAAGGGAGAGACTGTATGGTGG
Celera SNP ID:            hCV26530894
SNP Position Genomic:     192406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14434):
CTCCTGTAATCACAGCTACTCAGGGTGCTGAGGCAGGAGAATCGCTTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCATCACTGCACTCCA
S
CCTGGGAGACAGAATGAGACTCCGACACACACACACACACACACACACACACACACACACACCACACACGCGCGCGCGCGCACCAAGGGAGAGACTGTAT
Celera SNP ID:            hCV26530895
SNP Position Genomic:     192401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14435):
GCACCTAGGTTGATTCCCTGTCTTTGCTGTTGTAAATAGTGCTGCAATAAACATATGAGTGCATATGTCTTTCTGGTAGAATAATTTATTTTCCTTTGTA
Y
ATATACTCAGTAATGGGATTGCTGAGTTGAATGGTAGTTCTATTTTTAGTCTTTGCAAAATCTCCAAACTGCTTTCTACAGTGGCCGAAGTAATTTACAT
Celera SNP ID:            hCV26531400
SNP Position Genomic:     100834
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14436):
GGTGATCATATAAAAATCACTTTATGATTTATAGAGTGCTTTTATATATATATATATATGTGGTATAGAAGGCCCGTTTATTACATAGGGTCTTAGAATC
R
CATGAATATGAACCCACAACATTAATGACTTTAGTCTAAACGTGGTCTTGGATAAGTAAATTTAATTTTTTGAGCTTCAACTTCTGCATCAGTAAAATAG
Celera SNP ID:            hCV11469896
SNP Position Genomic:     158637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14437):
AAGACCAGCCTGGCCAACGTGGTGAAACCCCATCTCTAATAAAAATACAAAAATTAGCCAGTGTGGCAGTGCACACCTGTAATCCCAGCTACTTGGGAGG
Y
TGAGGCACAAGAATCACTTGAACCCAGGAAGCGGAGCTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCACCCTGAGCAACAGAGTAAGACTCTGTCTC
Celera SNP ID:            hCV26531191
SNP Position Genomic:     136035
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14438):
CTTTTCATGTGCTTCTTGGTCATTTTGTATCCCTTCTTTGGAGAGATGTCTATTCAAGTCCTTTGTCAATTTTTAGTTAAGTTGTTTGTTTTTGTTGTTA
Y
TGTAGTTCTTTATATATTCTAGTTATTAACCCCTTATAATCCTGTACTAGTCAGTGTTCTCCAGAGGGACAGAACTAATAATATGTATATATGAAAGGGA
Celera SNP ID:            hCV27948700
SNP Position Genomic:     107362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14439):
GAATCGCTTGAACTTGGGAGGCAGAGGTTGCAGTGAGCCCAGATCACGCCATTGCACTCCAGCCTGGGTGACAGTGCAAGACTCTGTCTCAAAAAAAAAA
M
AAAAAACCACAAGATACCACTAAGAAAATGAATATGTATAATTATTATTTGTCAATTAAAAATAATAATTTAAATTCCAAAAAAGAAAAGGCAAGCCACA
Celera SNP ID:            hCV26531265
SNP Position Genomic:     122458
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14440):
TCATTAATATTTTACTATGCTTGCTGTATCACTTATCTATTTGTCTATCCATTCCTTTGACCACCCATTGTGCATCTTATTTTTTATAGCATTTAAAGTA
M
ATTGCAGACATTAGCATATTTCTCCCTAAATACTTTAGCATGCATATCATTCCCTAGAGTTCCACATCTGTTGAGTATTTTTCTTTGAGGTAAAATGTAC
Celera SNP ID:            hCV29155916
SNP Position Genomic:     94792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14441):
TTTTAATTAATATAAAGAGCCTACAAGACTGGCCTTATAAACTCTCTACTCTCTTTCTCCTAGCCACGCAACCCAGACACAAAACCCCAAAAATGTTCTT
Y
ATTTTTGCTAACATTTTTAAATGAAAAATTTCAAACATAAAGCAAGATTGAAAGAATTTTACAATTAACACCTATTTATCAACCATCTAGATTCTGTCAT
Celera SNP ID:            hCV29155917
SNP Position Genomic:     94595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14442):
GGCTAGAGGTAGAATTAGAACTTTGTATTTAGTGGTAAGGTCACCTTGGACCTCTGAAGATCTTGATTACGATTAAACATCCGGTTATGTGTAGCGCTAC
R
TAGGATTCAGAACTCTACAAAATCAGTAGATACAGTCTTCTCTCTCTAGGATCTGTGCTGGGAAACAGAGTTCTGGTTTTAAATTTCAGCTTTGTTACGA
Celera SNP ID:            hCV29155774
SNP Position Genomic:     155432
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14443):
AAAATTTCTCAGGAAAGTTTGATAAAATCCCTGGTTTATGCTTTTTTGAAGAACTTAAACACATATAGCAAACTCAAGGCCTATCACAGCATTTGCTATC
R
TAGTTGTTAGTAATATGTTTGGAGAGGAATTTGGGGGGATGGCTATTAAGTGAGAAGCTAGAGGTAGAATAACCACTGCAAGCAATAAGCATTTTACAAA
Celera SNP ID:            hCV12038790
SNP Position Genomic:     59139
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14444):
AGGAGACGTTGAGGCAGCAGAGACAGCAGATCCGAGTCACTATCTTGCCTCCAAACATTTTTTCCACAGAGGTTGAACTTGGGGCCGGGGGCTCCTCGGG
M
GGAGAGGGCGAGCTGGACTGCTTGAGTTTCTGGCAGATCCTTGTGCCCGTTTTCTCCTCTTCGTGCAGCCTGGGGCAGAGAGCACAGAGTCACTACATGT
Celera SNP ID:            hCV16023101
SNP Position Genomic:     214283
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,29)   caucasian(A,7|C,33)   total(A,14|C,62)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14445):
GAACCTCAGTTGCCTCATTTTAATCTCAGTATACTTGGTACTTCTGTGTACTTTCTCTCTCTGAGAAGACCTGTGATCATTTAATGAGTTCTGAGCTTGG
K
CTTTTTTTTTTTTTTTTTTTTTTTTTAAGTGAGACAGGGTCTCTCTCTGTTTCCCAGGCTGAAGAGCGGTGGCGCAATCATAGCTCACTATAGCCTCGGA
Celera SNP ID:            hCV12038793
SNP Position Genomic:     68113
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14446):
ATGACCCATTTGCCTAACTTTTTTTTCAATGTGATGAATGAAAATATAGACAACAGAATGTTTCACAAGACAGCCAACTCAAAGAGAATAAGAATGAGGA
S
GTGTGCAATTTGCTTTTACCTTTAAAAAGAAGCATATTACAGAACCTCTTGATTGTCTTTCTTTTTTTTTTCTTTTTTTCTTTTTTTTACCTCTGTCATC
Celera SNP ID:            hCV12038794
SNP Position Genomic:     73809
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14447):
CGAGTAGCTGGGATTACAGGCGTGTGCCACCATGCCCACTAATATTTGTATTTTTAGTAGAGACGGAGTTTCACCATGTTGGCCAGGCTGGTCTCGAACT
Y
CTGATCTCAAGTGATCTGTCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCAGACTGATTTTGTATTTATTTGGATCTTTT
Celera SNP ID:            hCV26530970
SNP Position Genomic:     180845
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14448):
TTTCTTTCTTTTTCTTTCTTTCTTTCTTTCTTTCTTTTTGGGACGGAAAATGCCATCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCT
Y
ACTTTCTTTCTTTCTTTCTTTCTTTGAGAAGGAGTTTCACTCTTGTCACCCAGGCTGGAATGCAATGGCACTATCTGGGCTCACTGCAATGTCTGCGTCC
Celera SNP ID:            hCV26531779
SNP Position Genomic:     16157
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1|-,10)   total(C,1|-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14449):
GATTGAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCAGTGGCGGGTGCCGGTAGTCCCAGCTACTC
S
GGAGGCTGAGGCAGGAGAATGGCGTGAATCCGGGAGGCGGAGCTTGCAGTGAGCAGAGATAGCGCCACTGCCTGGGGGGAAGAGCAAGACTCCGTCTCAA
Celera SNP ID:            hCV25998850
SNP Position Genomic:     55876
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,31)   caucasian(G,34)   total(C,3|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:14450):
GGTCTCAATCTCTTGACCTCGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCGGCTTTCCTGGTTTTTTTTTT
Y
CTACACATTTTACAGGTTTATGTTTTTCCTTTAAGTCCGTGATCCACTGTGAGTTAATTTTCATGTAAGATGTGAGACTTAGATTGAGGTTCTTTTGTTG
Celera SNP ID:            hCV29156076
SNP Position Genomic:     12083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14451):
ATTTCTGTATTTTTAGTAGAGGTGGGGTTTCACCATGTTGGCCAAGCAACCAAAGAAATTTTTAAAAGAACAACAATAAAGTCAGGATTTATATTACTTG
R
TTTCAAGAATTCCTGTCAAACTATGGTAATCAAGATAATGTTGTATTGGTGAAAGGACAAAAACCTGTAGATCACTAGAAGAATTAGCAAGTCCAGGAGA
Celera SNP ID:            hCV16085245
SNP Position Genomic:     189035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14452):
GCATCGATGCCAACATCTGTTTTGTTTTTTTTTTAATGGCCATTCTTGCAGGAGTAAGGTGGTATCGCATTGTGGTTTTGATTTGCATTTGCCTGATCAT
K
AGTGACGTTGAGCATTTTTTCATATGTCTGTTAGCCATTTGCATATCTTCTTTTGAGAATTGTCTGTTAGTGTCCTTAGCTCACTTTTTGATGAGATTGT
Celera SNP ID:            hCV26531275
SNP Position Genomic:     121349
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14453):
GGTGTTCCCAGAATGTAAAGTTTTATGAGGAGAATGGCTGTGACAATCATGGGATGACTGGTCCTTCAAACCAGAACAACCACAGTACTGGTCATTAAGA
K
ATCTGGTTTTTTTGACACTGTGTGTATCCTTGTTAGTGTATTGGTTAAGGTCAGGGCTTTGGGTCTGTCAGAAATGGGATTGAATTCTGTTTTTGTCACC
Celera SNP ID:            hCV29155927
SNP Position Genomic:     85104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14454):
CTTACACTATTGGTGGGAACATGAATTAGTACAACCACTAGGGAGAACAGTTTGGAGGCTCCTCAAAAAATAGAGCTACCATGTGATCCAGCAATCCCAC
R
GCTGAGTATTTACCCCAAAGAAGGGAATCAGTATTTTACACAGAGATACCTGCACTCCCATGTTTGTTGCAGCACTGTTCACAATAGCCCAGGCTTGGAA
Celera SNP ID:            hCV27465953
SNP Position Genomic:     89035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14455):
GGTTAGGATGTGATGTGTTCACTTACATGACTGGAAGCCTCTGCCCCTTCGGAAGTTCAGTTTCCCCCTAACTGAAACTGGTGATATGTGTAACCTTAAG
S
CTCTGGGGAACAGTATGCCTTTACATCTACTTTTCTTTTGGGGTATTCAGAATTTTTGCATCCTGTTGTAAGTTAAAACTCTGCTAGTTTGCTTATTTCA
Celera SNP ID:            hCV29156080
SNP Position Genomic:     8312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14456):
ATATTTGTTCTTTAGGAGTCACCATTTAAACAAGACCCCAAGAGTGACATTAGGTGTAACCAAAGTGAAATTGTTGACTACTTGATGAGATTCGTGAGGA
Y
AGGCATTAAATGATATCTTTTAAGAAACCATTGGCAGTCCTGGAGCTGATGACCCTAGTGCAGGATCATTATGGTTGCTTCTTTCATCATCTCAATTTGA
Celera SNP ID:            hCV25745466
SNP Position Genomic:     82201
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,28)   caucasian(T,38)   total(C,6|T,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:14457):
AATCACATAACTAGCAGAAGATCAAGGTGGGACTTAAACCTAGGGGACTGACTTCAGGCAAGATGCTTAACCACTTAAAGCTACTCAGTTTGTTCATCTA
Y
AAAATGAGGATAATAGCGTCTACTTCCTAAGTGGTTGTATTAAAAATTACACCATGTGAGTGAAGAATTTTGGCATGTCATATGGGACGCAGTGCAAGCT
Celera SNP ID:            hCV26531359
SNP Position Genomic:     109391
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14458):
TACCTCCCACTGGATCCCTCCCACAACACGTGGGAATTCAAGATGAGATTTGGGTGGGGACACAGCCAAACCATATCACCCAGGCTTGTCTTAAACTCCT
R
GGCTCAAGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGTATGAACCACTGTGCCTGACTACCTTTTTTTTAAAGAGTTGTGATAGGAC
Celera SNP ID:            hCV29155792
SNP Position Genomic:     152018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14459):
GATTCTGAGGCATTTTTAAACATTGCACTTAGCCATTCAGATGATAACTTGGATCAGAAATTTTGAGAAGTGGTGGGATGAAGAAGATCCCTGAAGAGAG
S
AGTAACTGAGACAAAGGCGAGGCTAGCAATAGAGAGACAAGTGAGGGAATTAGACCTTTGGTATCATCATGAAAAGGTGAGTTTTGGGAAACAAAGAGTA
Celera SNP ID:            hCV25742996
SNP Position Genomic:     81972
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,30)   caucasian(C,2|G,36)   total(C,10|G,66)   
SNP Type:                 UTR 5;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,28)   caucasian(C,2|G,32)   total(C,8|G,60)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:14460):
CTCCACTATTACTATCTTGAAGTTCTTAATAGTTTTTTTAACAGGAAGTTCTGCGTTTTCATTTTACACTGGGCTCTGCAAATTATGTAGCCAGTCATTC
Y
TGAACTAGATATCCTAACCTAGGAATTCTGTGATTTTTATCTTCCTTGGGGAAGGATAATGAGCCCCTATTTATTAAGTTCTTTGGTATAATCTTCTTGC
Celera SNP ID:            hCV29155795
SNP Position Genomic:     144587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14461):
GTTTACACAAACACTTGTACAAGAATGTTCACAGCAGTATTATTCATAATAGCCAAAAAGTGGAAACAACCCAAATATCCATCAATAAATCAAATATGGT
R
TATACATATATATTACTAAGCCATAAAATGGTATGAAGTACTGAAAACATGTTAAGTGAAAGAAGACAGAGAGGACCATCTTTTTATGATTCCGTTTGTA
Celera SNP ID:            hCV27953260
SNP Position Genomic:     144016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14462):
TTTACTATATTAAATCTTCCAGTCCATGAATTTATTTTACATTTATTTATATATGTCTTTCTTCCTTCGTTTATTTTCTTCTCCTTCCACCATCCCCCCC
M
CCAACCACCCCCACCAGAATCTTGCTGTGTCACACAGGCTGGCGACAGTGGCACAATCATGGCTCACTGCAGCCTCAAATTCCTGGGCTCAGGTGATCCT
Celera SNP ID:            hCV26531793
SNP Position Genomic:     12654
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14463):
CAGGTACAAACCTCAAAATAACCCAGATGTTGGAATTATCAGACACAGATTTCAAAGCTCCTGTGAAAACAACATTCCATGTAATAAAGGAAAACACACT
Y
GAAACTAATGGAAAGAAAAAACCCTCTGCCACCGGACACTGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGCCCGAGGCAGGTGAGTCATCTGAGGT
Celera SNP ID:            hCV26530991
SNP Position Genomic:     177538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14464):
ATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCAGTGGCGGGTGCCGGTAGTCCCAGCTACTCGGGAGGCTGA
K
GCAGGAGAATGGCGTGAATCCGGGAGGCGGAGCTTGCAGTGAGCAGAGATAGCGCCACTGCCTGGGGGGAAGAGCAAGACTCCGTCTCAAAAAAAAAAAA
Celera SNP ID:            hCV25998870
SNP Position Genomic:     55886
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,30|T,4)   total(G,65|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:14465):
CTCAGAGTCTTCCCTTGGAAGGGGGATGGGGAATCATAGGTCCAGAAAGATCTCATGGGATCTCATGTTACTGCCTGTCTGTCTTTTCTTTTTTCTTCCT
S
CGCTTTATAGTTCTTATAAACATTAGGAAACTTATATTTCTGAACTCGAGAATCTATTTATACTAGTGTTTAGTACTTTGATCCACAAATGTTTACTTAC
Celera SNP ID:            hCV16023705
SNP Position Genomic:     163678
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,10)      total(G,2|C,10) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14466):
AGTAAATCACAAGAGTGCTTCATTTCAAATATGAATGAATCCTTGATGGGACCAACTAACCAACCCAAGCCCCACACGAAGGAACAGGAGAAGGGTCTGC
Y
GCAGCTAAGGGGTACGATAGGTATAAACAAAGCTTGTAACCTGACCTCTTGCAAATCAACAGCACAGTGCATGGCTAAAGATAGACTTGCTATCCCCAAA
Celera SNP ID:            hCV16023706
SNP Position Genomic:     162213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14467):
CCTCCCAGAGAGAGTAAGGAAGGCTTTTGGGCATTCAAGTGGAATCTTGAAGGATTAATAGGATTTTCACAGGGAATATCACATTAAAGCAGTTTGCTTT
K
CCTGGAATGTCAGATGTTTTGAGGCTGAGAAATAGGCATGGAGGGGAGGGAAGGTTGAAAATTTCAGGTAGCAGTTTGGAACCAAATGAAGGAAGGCCCT
Celera SNP ID:            hCV26531291
SNP Position Genomic:     118889
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,11)      total(G,1|T,11) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14468):
CATAAAATTAAATTAAATTAAAATTTAAAATGTAGTTGTTTATTCATTGTTCTGCCTGTCTTTGTGAGGGGGACAAGCAGTAGGGGTTTCTTCTTGGCCA
W
TTTGCTAGCATTACTTCCTTTTTTTTTTTTCTTAATAGAAATGGGTGCAATGTGGTATCTCATTGTGCTTTTGATTTGTATTTCCCTAATGATTAGTGGT
Celera SNP ID:            hCV16024436
SNP Position Genomic:     184669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14469):
ACATAAAATTAAATTAAATTAAAATTTAAAATGTAGTTGTTTATTCATTGTTCTGCCTGTCTTTGTGAGGGGGACAAGCAGTAGGGGTTTCTTCTTGGCC
M
TTTTGCTAGCATTACTTCCTTTTTTTTTTTTCTTAATAGAAATGGGTGCAATGTGGTATCTCATTGTGCTTTTGATTTGTATTTCCCTAATGATTAGTGG
Celera SNP ID:            hCV16024437
SNP Position Genomic:     184668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14470):
GGTCTTTAAACAAAATTGCCTAAATTATGGGCTAGTGATGCATGTCCGCTCAGGGCTTGGGGGTGGGGGGATTGTCACCCCAACTGGTTCCGATAGATGG
Y
GCCTATCTTCATGTAAATCATTCAAATGATTTGTTTTCCATTTTTTTCCCAGCAAAAACCGGGGACCATTTAAACAGACACACACAGCAGGGAGTGGAGA
Celera SNP ID:            hCV12034316
SNP Position Genomic:     3316
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:14471):
TATCAATTCTTTTAAAATCTCTTGGCCTAACATGAGGTCTGTCCTATAGAATGTCACATGTGCTAATGAGAAGAATTATACTCTGCAGCTGTTGGATGAA
R
TGTTGTTAGGTCCATTTGATCTAAAGCGCAGTTTAAATCTAATTGTTTCCCTGTTGATTTTCTGTCTAGGTGATCTGTCCATGCTGAGAGTGAGGTGTTG
Celera SNP ID:            hCV16024438
SNP Position Genomic:     181829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14472):
TTAGCCAGGCTGGTCTTGAACTCCTGACCTCAAGGAATCTGCCCATCTTGAATCTGCCCATCTTGGCCTCCTAAAGTGCTGGGATTACAGATGTGAGCCA
S
CACACCCAGCCATTTGTCTATTTTTTGTTTTTGATGGTGCTTCTGAGGTCTTAGCTGGGCCCTTTTTTGTTTTTGCTTTTGATGGGAGACTTTTTTTTGC
Celera SNP ID:            hCV16024439
SNP Position Genomic:     179694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14473):
CTGATAACATCAGATCTCCACCAGTCCTCTGAACAAAATATGAATTCTGTAACAAGGGTGAAGGGAGAAATGGCTATTTGGTCTCTCAGTGAGTGACCCA
R
AAAGTGTTAGGAGTGTCTGGTCTGCATCCTTTCAGCTTATCACATGCTTTCAACTTGCTAGGCAAGCAGGGCACAGACACGCCGAGCTGTGAAGCCCTGC
Celera SNP ID:            hCV29155942
SNP Position Genomic:     71312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14474):
CTTACTGCACCCTCAGCCTCCCGTATGCCCTCTCTTTCTATGCGTCCTGTGCTTAAAATCTAGACTGTCTTTCTACTCTTTCAACCTAGTGTATTTTTGA
S
TCCCTCCTCAAAGTAGAATAGACTCATTTTCATAATTATTTATACTCTCTCTCCCTGTTTTAACACTTATAATATGTCTTGTATTGTAAGTGTTATAGGC
Celera SNP ID:            hCV29155872
SNP Position Genomic:     115580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14475):
ATATGAAATACCTGAAGATCTTACTGAAATGCTCACTCTGACTCAGTAAGCCTGGCCTAGGTCCTGGGGTCCTTTCTAATAAACTCCAGATGATACCAGC
R
CAGATTGTCTACAGCTCACACTAAGTAGAAGGCTTTATATAGTAGTAACAATTGCCGCCACCACCACTCCAGTGATCCTGCTGACGCATCAGAGAACAAA
Celera SNP ID:            hCV26531001
SNP Position Genomic:     175410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14476):
CAGAATGGGAATAACTAATTCAAAGGCTTACTAATGAGTGTAAAATGATAAAACATACATAAAATAGTAGTAGAGAGTAAATACATTTTACCTGTTCTTC
Y
TATGCCCCATCCTCTTCTACTACATAGACAACTGCCTGGGAGCAGATAAGGTGAGGTCTTAAAATCATAGTTGTAGTGAAAGGCAAAGTACTTAGCTGTA
Celera SNP ID:            hCV26531002
SNP Position Genomic:     175186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14477):
TGAGATCAGATTCCCCTGTGTCTTTGTGTTTGTTTGAGCTAGAACTCAACCACATCACCACCTGAGAGTTGACAGTTGAAAATATTTCTAAACCTCCAGA
R
TCTTCTATCTTCTGCCCTGACTTTGGTATACCAAAGATAACAGAACTCTTCTTTGATGACTAAGGACTTCTCAAGGTCTCAAATCATCTTTTCTGATACC
Celera SNP ID:            hCV28035666
SNP Position Genomic:     131350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14478):
TGAGGCCGGAGTATCACTTGAACCCAGGAAGCAGAGGTTGTGGTGAGCCGAGATCGTACCACTGCATTTAAGCCTGGATGACAGAGCGAGACTCTGTCTC
M
CAAAAAAAAAAAAAAAAAAAAAAGGAAAGATATTTGTAAGTCATCTGAGGTATAACAGAAGAGTTTTAAGAGGGACGGTGACATAATGACGTGACATGGT
Celera SNP ID:            hCV12039768
SNP Position Genomic:     170771
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14479):
GCCTCAATTAATGAGTCTTCAGTAAGCAAAGCCTCATTTAACAAAGCCAGCCTTAGCTTTTTTTTTTCCTGTAATTAGATGTTTAAATTTCATTTTTTTT
T
TAAATTTCAACTTGTTTTTCAGATGCCAGGGTACATGTGCAAGTGTGTTACATGGGTATATTGTCTAATGCTGAGGTTTGGCCTTCTGTTCATCCTATCA
Celera SNP ID:            hCV26531008
SNP Position Genomic:     172683
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14480):
CTGACTTTGCATTATAATGTGCTGTGTTTTTGTCCCTGTTCTCCTGGAATATAAGCATCTGCCAGAAACAGGCCTGGATATTTTTGCCCCTTTGGACACT
W
TGCATTGTACTGGAAGCACCCCCAGGGGTCCCTATGGCAGGCTGAGGTTCTCTCTGCTTACTAACCCATATTGCCAAAGTCCTTGGTCTAGAATATTCCT
Celera SNP ID:            hCV16023710
SNP Position Genomic:     148997
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,10)      total(A,10|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14481):
AATTAATGACTTTAGATTAGCTGGCCATAACCATAAGTGAATATGAAAATGACCATCTTCCTTTGGGAGTTTTATCAAGAGGCATAATTCTTACCTTGTA
Y
GGTCTTTTGGACTTCGGAAATACTTGGTTGTCATCAGACCTTGATGTTTTACTTCCCTGAACCTCAGCTACACTATCTGGAAAATGGGAATAAGGATTCC
Celera SNP ID:            hCV1515928
SNP Position Genomic:     99022
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,12)      total(C,2|T,12) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14482):
GCTGTCTCTGGCCCATCACTGTAAAATTAATGACTTTAGATTAGCTGGCCATAACCATAAGTGAATATGAAAATGACCATCTTCCTTTGGGAGTTTTATC
M
AGAGGCATAATTCTTACCTTGTATGGTCTTTTGGACTTCGGAAATACTTGGTTGTCATCAGACCTTGATGTTTTACTTCCCTGAACCTCAGCTACACTAT
Celera SNP ID:            hCV1515929
SNP Position Genomic:     98998
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,7)      total(A,5|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14483):
TTCCTTCAATCTGTGAAAACATGTGAATACAACTGATCCTTGAACAAAATGGGCTTGAACTGCATGGGTCCATTTATACTTGGATTCTTTTCAGTAAAAG
W
GACACTGAGTGTGCTTGCCTCTCCTGCCTCCCCTTCCTCCCCTTCTACCTCTTCTGCTTCTGTCACTGCTGAGACAGCAAGTCTAACCTCTTCTTTTCCT
Celera SNP ID:            hCV16024445
SNP Position Genomic:     75599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14484):
AACTGATCCTTGAACAAAATGGGCTTGAACTGCATGGGTCCATTTATACTTGGATTCTTTTCAGTAAAAGTGACACTGAGTGTGCTTGCCTCTCCTGCCT
M
CCCTTCCTCCCCTTCTACCTCTTCTGCTTCTGTCACTGCTGAGACAGCAAGTCTAACCTCTTCTTTTCCTCTTTCTCCTCAGCCTACTCAATGTCAAGAT
Celera SNP ID:            hCV16024446
SNP Position Genomic:     75629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14485):
CATCACTGTGTTTACAGCCTGATGTACAAAGTGATGAGAGAAAGATTGGTATTTTCCTGGAATTTTATTTGAAACACAGGGAAGCACAGGTAAGAAACAA
S
GTTGAAGAAAGAAACAGGAAAATGTCTTTAAAAAAAGAGGCTGGGTGCAGGGCTTTATACCTGTAATCCTAGCCCTTTGGAAGGCTGAGGCAGGAGGATT
Celera SNP ID:            hCV16024447
SNP Position Genomic:     170167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14486):
ACCATCTGTACGGCATATAATTGTGACCAAAACAGTGACAGTTACCTTCCAAGCATCCGTCATGTCTTGGAAAGCAGCTCGTACCTCTTTGGCCAATCTC
R
AGGTCTCAACCAGCTCCATGTGTACTCCAGGAATAGGAGCAATAAGAGTGGCTAAATGCATGATATAAAATGATCTCTATTCCTCACAGCAGTCCTACAA
Celera SNP ID:            hCV16024448
SNP Position Genomic:     166204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14487):
GTTGTCCTTTTGGTTCTCATTAATTCCCCGTATACCATCTGTACGGCATATAATTGTGACCAAAACAGTGACAGTTACCTTCCAAGCATCCGTCATGTCT
K
GGAAAGCAGCTCGTACCTCTTTGGCCAATCTCAAGGTCTCAACCAGCTCCATGTGTACTCCAGGAATAGGAGCAATAAGAGTGGCTAAATGCATGATATA
Celera SNP ID:            hCV16024449
SNP Position Genomic:     166171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14488):
CATGGCTGCTTCTAAGTCACAAAACGGACAGCAAGAAGGAAGAGGAGGAGCAAGAGGTTTATAAATCACTGAGAACTGACTATTCTTTTTTTTTTTTTTT
T
AAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCACCCTCCACCTCCCGGGTTCAGGCGATTCTCC
Celera SNP ID:            hCV7962459
SNP Position Genomic:     153466
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14489):
ATAATGGTAACAACATCACAGTCACTGTTCTCAGAAAGCCATGGGTTAGACAAGGAAGCATAGTGACCATGGATATAATGGGAGCATGGGCCAAGTGCTG
Y
TGGCACACAGAAGAAGAAGCAAGTCCAGGAAGATTTGGGAGAGAATATGATATCTGTGTAGGGTCTAAAAGTCTGCATATGAGCTTGCCAGTAGAGTAGA
Celera SNP ID:            hCV26531010
SNP Position Genomic:     172037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14490):
CCCAAATTTCTGCCTAGCAGCAATTAGCTGGAACTGGGTGGTAGCTTTCCATTTAAGCCAAAGCATATGCTTTCTAGTCTGCTGTATCACATGCACGCAC
R
CACACATACATGCACACACCAGTCACTCATATATGTACCTACCTGACCCTTTACACTTCCAGACCATATGCCCTTCGAAGGCAGGATTTTTGTCTGTTTT
Celera SNP ID:            hCV29155958
SNP Position Genomic:     56444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14491):
AATGGAGTAATGAGCTATCGATTCTGTTAACAAATGTCCAGTTTACTGAAAGACTTGTAATGGGAGTTAATTTTGGGGGTCAATACAGCTGTCAATGGAA
M
AGTTTTTCCCCAGAGGCCCATCAGCTTTTTCTGTTGTACACTGGCAGGTGTCCTGCCCAGCAGCAGAAATGCCTGGAGAGTAATTAATACTGTAGAGCAT
Celera SNP ID:            hCV26531016
SNP Position Genomic:     171520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14492):
TGCCAGTAGAAACGAGAAATAGCCAAAAGAGAAATGGAAAATGGTCTTAGCCTCATTTCCACCTTACCAGTCTTATATGAATGCAAGTAATTGGCAGACT
R
CCTGCAAACAAATTTGGTAAAGGTGACTTTTAGTTTTCCAGATTTTCTAACTAGAAGGGGAATGGAATTGATGTTGAGTGGGCCAACCTATCGTACATAC
Celera SNP ID:            hCV1515930
SNP Position Genomic:     93893
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14493):
TTTGTGCTATCATAGCTTATATGAATAGAAAGCTCAGACACAGTGAGGACTTGATCAATATTGAAAGGAAATTTAAATCATACCAGGTACCCTATAAGCT
K
CTCCCCCAGGCAAATAAAGCCAGTGTTAAGTTGATCTCCCTAGGTTGGTGGGCAGGGAAAGTCCCAAGCCTGGTGGCTTCCTCAGTCACTTCTTTAAAAA
Celera SNP ID:            hCV1515931
SNP Position Genomic:     91423
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14494):
AATGCAGGGGAAGCCAGACTGGTCTCAGGAGCGCTAAAGCCCTTCCGTGGGGGGTCGTCTTTCTGGGACTAGCCCTGCTGTTTAGGACCTGGGACCACAA
Y
GGGGTACCTGCCGAGGGGGTCCCCAAGAGATCCAGGCTGTCATGTGATTTATGGTGGCATGTGTTGTGTATTTGTTGGCTACTTGTGTCTTGAAATCTAG
Celera SNP ID:            hCV8747886
SNP Position Genomic:     208077
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:14495):
CTCTACCATTCTTTCTCCAACTTCCACCTTCTTTCTCTTTTCCCTGCCTCTAAGAGAACGGTGTGGGTTGTCAGGGGAGAAAACATATCATTCCATTCTT
K
TATTACTTTCTAGCCCCTCCTTAACTAAGTCTTGTCTGTGACATCACTGTGGGGAATTCTGCCTTACTTCCTAATAGGGCAAAAACTTCTGACCCCTCCC
Celera SNP ID:            hCV1515932
SNP Position Genomic:     86330
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,11)      total(G,4|T,11) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14496):
GTGGGTCATGTTTTTGCTGTGGTGACACATGGTACAGGCTTGGAGCTTGCAGGTCCCTTTCTACTGTGGTGTTGGAGCAGGACAATAAAGTCCACTAGAA
R
TGCACCCCAGAACCAGCTGCCGTGTCCATCTTGTCTTGAGGGGCTTGGTGGTGGAACCCGTTCTCACTCCAGTCTGTTCCAATTTTTGCTTTATTTGGAA
Celera SNP ID:            hCV8747887
SNP Position Genomic:     208495
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:14497):
TAGACTCAAGAATAAAGTCATGGGGTACAGGGTAAAGTAAGATAGTAGATATAATCAGGAGCTTCTAGCTGAACTGGAGTCACCTTTAATGCCAGGCACA
W
GAACTTGACTTCATTTTATAGGCATCAAGAAAGAGCATCTTTGAATGTTGCTGAAGATGAAAAATATCTTGGGCATGGTAGTAGGGAGGTGGGAGGGAGG
Celera SNP ID:            hCV1515933
SNP Position Genomic:     82750
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14498):
GAGCATAGCAATTGCTCAATAAAAGTGTATTGAAGAAATGACACATAATAGGCATTCAATAAATGTTGAATGAATAAATGAATATATCCAATAAAAGCAT
R
TGCTTCCTTTATTGGATGAGAGATGTGAAACCATAGACTCAAGAATAAAGTCATGGGGTACAGGGTAAAGTAAGATAGTAGATATAATCAGGAGCTTCTA
Celera SNP ID:            hCV1515934
SNP Position Genomic:     82616
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14499):
CAGCATACATTGTTGAATCCAAATCTACCATTTACCATCGGGGTGACTTTCAATGAGTTCTTTAAACTTTCTGAGCCTGTTGTCTCATCTGTAATAGAGA
Y
AATAGTGCCTACCTCATCAAAAGTGTTAGAATTAAGTAAGATGATTTGTAACTTAGTACCAGACACCTCATTAATAATCAAATGTTTTTTGCAATACCAC
Celera SNP ID:            hCV1515935
SNP Position Genomic:     74402
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14500):
TCCAGCCTGGGAGACAAGAGCAAGACTCCATTCAAAAAAAAAAAAAAGATTTAGAAGGCATGATTAATTCTAACTAGGGAGACAAGGCATTTCCATCTCT
R
AAATGAGATGCCTCGAGCCAAAGAAGGTTGTAAAAGGACGTGTGACCAGGAACTGTGCTGTGTCACTAAGCTACAGTCACTCGCTCTCTTTCCTCTTTGC
Celera SNP ID:            hCV16024450
SNP Position Genomic:     163377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14501):
TGCTGGAGCCAAGTGAGAGGATTCTCCTCTGCTCCAGAAGCAGAGGTGTACCCCACCTCCCACTCTCCCAAGCTGCTTTGAAAAAGGCTGCTAAAACTCA
Y
CGACTTAAAAAAAATTTTTTAAAAGAAAAAAAACTCCCTGACTTGAGAGGATTTCTCAGTCCTGATGAAGGAAATCTCTAGCAGCTCTTCTTGTCCCTAG
Celera SNP ID:            hCV1515936
SNP Position Genomic:     74116
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,14)   total(C,14|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14502):
GTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACCTGAGGTCAGAAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGACACTACTAAAA
R
TACAAAAATTAGCTAGGTGTGGCAGTGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGAAGGCGGAGGTTTCAG
Celera SNP ID:            hCV16024451
SNP Position Genomic:     163152
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14503):
CTGGGAGCCTTCAGTCTGTGTTTTACCAAGCTTTCCGGTGATTCTGATGCATACTGAAGTTTGAGAACCACTTCTTTATTTTGTAGTTCAGTACCAGGAG
Y
TATCTGATAATATAAAATACCTTATGTTTATCTAGAGCTGCACTGTCCAATACAGTAGTCATTAGCCATAGGCAGTTATTTAAATTTTAATAAAACCAAG
Celera SNP ID:            hCV1515937
SNP Position Genomic:     69959
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14504):
TGAGACCTTGTCTCAAAAAAGAAAAAAATCTCCCAGTTAGTATACCTGATGCTAGGCTTGCTCTTCTCAAGCTTTTCACACAGCAGCCAGAGTGATCTTT
Y
TAGAACATAAATCCAGCCATAGCACTCCTCTTTTCTGTTGTCCTTAGGATGATGTCCAAATTCCTTATCTTCTTCCCACATTGAACAAGGATAAGACCCT
Celera SNP ID:            hCV16024452
SNP Position Genomic:     103284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14505):
TTCTCTCCTCCTTCCCTTCTTCCTCCCTCTCTATCCTTTCCTCCTGACTGCTCTGCCCACCAGCTTCCTTGGAGTCCAGGCCTTCGATGTACAGGCTGGT
K
GGGGGGGTGTCCTCTGTGATGCAGTGTTTCCTTTGCCTCCGAGGACCCACCCTGCCTGGCCCCTGTGCACTGGTTGGTGGGGGCAACTCCCGGGCTGTGA
Celera SNP ID:            hCV16024453
SNP Position Genomic:     213983
SNP Source:               Applera
Population(Allele,Count): african american(G,24)   caucasian(G,30|T,6)   total(G,54|T,6)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,1)   caucasian(G,26|T,4)   total(G,53|T,5)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14506):
ACGTTGCTGACAGATTCGAAGGAAGAGAAGGACACCCGAGTGTCATTGAACAGGTACCACTGGTTCTCGGGCTCTGGCCTATCGGCAGTTCCCAGAGAAG
S
GGCAGGGCGGGCAGCGCCCTCACGGGCATAGCAGTAGTAGTGACCACTCTCCGAAGACACTCCAGAGTGCACCACCACACTGCAGAGGTCATAGGCCTGG
Celera SNP ID:            hCV16024454
SNP Position Genomic:     213319
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(C,1|G,39)   total(C,2|G,70)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14507):
GGCTCATCCTTCCAGACTCACTCAAGATAAAACATCTCTGAAGGAGGCTTCCCTGACATTGTCTACCACCACCCCCAGCAAGGGCTGATACCAACTGTCA
R
CAGCTACATACTCACCCCTACTTGACTGTAATGATTTGCATCCATGTCATCTCCTGCCCTACTGTGACATTCCCAGACCACCCCTCACTGGGCAGGTGGC
Celera SNP ID:            hCV16024455
SNP Position Genomic:     194683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14508):
CTCATATGATCTCCAAAGTAATCCTGTAAGATTATTTTTGAGTAGGGGGTATAAAGTGAATCAGCCCATTCATCCTGCCTCGCATAGACTAGACATAACT
R
TGTCTGATTGGATTACTGAGGCTACTAATACCAGCCTTCTATCTATCTCTTTTTTCATTTATGTGGGAACCTGATTGTAAAGATACAGTAAATTAAGCAC
Celera SNP ID:            hCV16024456
SNP Position Genomic:     190994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14509):
ATAAAAGCTGTTCTCATTTTCCTTACAGTAGAAAAATATACCCAGAAGTTATGTTTATTGCTCCCCCAATGAGATGTTTTACTTAAAAAAAAAAAAAAAA
A
TTGACAGGAGACTGACATCCTTGCCCAGGTGACTAGGCACTCAGTCACTGGTAAGAAAATCACTTGATCTCTCTGAACTGTAGGCTTTCTGTCAGTAAAG
Celera SNP ID:            hCV2716700
SNP Position Genomic:     159899
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14510):
CAAATTAGGAAGTACTATATAATATATGAAAACAGTACTATTTAACACAACAGCATGTCAATAATAATTCAGACCTTTTTCAGTTACAATGTTGGACTTT
Y
TAGAGAATTTTGTGGAGATATGTTAGATTGGTAAATAAAAGCTGTTCTCATTTTCCTTACAGTAGAAAAATATACCCAGAAGTTATGTTTATTGCTCCCC
Celera SNP ID:            hCV2716701
SNP Position Genomic:     159764
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14511):
CTGAGCTCAAGTGATCCTCCTGCCTTTGCCTCCCAAAGGGCTGGGACCTCCTTGTTCTAATTGGAATGTTTTCTAGGCATAGAACATTGTGCTAAACACG
R
TTAGAGAAAAAGATATGGTCTGGATCCTGGATTCTAACAGCTTATAGTTTCACTTCACATGACAGATTTATGAATTCCCAATTAGAATAAATGGCAAAAT
Celera SNP ID:            hCV16024459
SNP Position Genomic:     162898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14512):
TTCTGAGAGGTTTATCATTTTCATTCTTATATTTAGGTCTTTGGTCCATTTTGAGTTAATTTTTGTATATGGTATAAGGGTCCAGCTGTTTTTTTACATG
Y
GGATATCCAGTTTTCCCAGCACCATTTGCTGAAAAGTTCTGTTATTTCTTTTGTATTTGTGTGATAGTCCTAGGATGTGTTATAATTACCTTATAGATGA
Celera SNP ID:            hCV29155891
SNP Position Genomic:     108334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14513):
AACCATTTCAAAATCTCTGCCATCACTGTGTTTACAGCCTGATGTACAAAGTGATGAGAGAAAGATTGGTATTTTCCTGGAATTTTATTTGAAACACAGG
R
AAGCACAGGTAAGAAACAAGGTTGAAGAAAGAAACAGGAAAATGTCTTTAAAAAAAGAGGCTGGGTGCAGGGCTTTATACCTGTAATCCTAGCCCTTTGG
Celera SNP ID:            hCV26531020
SNP Position Genomic:     170147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14514):
AGGCTGAGAGGCCTGCAACCTCAGCGGCCTCTGGGGCACAGCACCTCTGTTGTGCAGCAGCAGGGAGGGGCAGTGATGGAGGGAAAACATAACACAGACC
R
CACCATTGTTAGGGGATGAGGTTGCTGGGATAATGCTGTGAGAAGGGATGAAAAGAACGATTCTCCATTCTTGATTGTTGTGATTTCCAGGGATGAGCCA
Celera SNP ID:            hCV29155893
SNP Position Genomic:     104804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14515):
GACTAAGAAGGGCAGATTGCTTGAGCTCAGGAGTTGAAAACCAGCCTGGATAACATGGCAAAACCCAGTCTCTACAGAAAATACAAAAAGTAGCCAGGCA
Y
GGTCACATGTGCTTGCATTCCCAGCTACTCAGCAGGCTGTGGTGGGAGGATCACTTGAGCCTGGGGGAGGTCAAGACTGCAGTGAGCCAAGATCATTCCA
Celera SNP ID:            hCV16023086
SNP Position Genomic:     189558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14516):
GCATGACCATCACCACCATCCATCTCCAGAACTTCTCATCTTACAAAACTGGAACTGTGTACCCATTAAACAGAAACTCCCTATTACCCCCTACTCACCA
R
CCCCTAATCCCTGGCAACCATTGTTCTACTTTTTGTCCTTATGAATTTGATTCTAGGTATGTTATATAAATGGGATCATACAGTATTTGTCCTTTTGTGA
Celera SNP ID:            hCV1515940
SNP Position Genomic:     66826
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,16)   total(G,1|A,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14517):
CCCAAGGTTCCTTCTCTTAAACTAAGGGTGGGGGATCTGAATGTTTTTATGTTGACTGTTCTTGACTAAATTTTCAAGAGTTTCAGAAGCAACAGGACAG
M
CCAGACGTTTCATTCTACCCTGGGGCGAACAGAACTTCTTCCTCCCAAACAATGACTTCCTGCCATGTTTGATGGGGACAGCTACCACTGTCCTCTGCCC
Celera SNP ID:            hCV26530800
SNP Position Genomic:     206207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14518):
CACCCGGCTCTAAATTTCATTCTTAATTTTTTCATTGACCCATTAAATCATTCAAGAGCATGTTGTTTAATTTTCCATGTATTTGTACAATTTTGAAATT
K
CCTCGTTACTGATTTCTAGTTTTATTCCATTGTGGTTAGAAAAGATGCTTGATGTGATATCAATTCTTTTAAAATCTCTTGGCCTAACATGAGGTCTGTC
Celera SNP ID:            hCV16023087
SNP Position Genomic:     181671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14519):
TTGTCACTAGTGTTTGTTACATAAATAACCTCAGGGCAAAAAATGGTTTTAGTGCTCTCTTTCTTTCCAGAATTTCTGCTTTCACTTATTTTTTTTATTG
Y
GGTGAATGAAACATATATAACATCAAAATTATTTTTAAGTGAACAATTCAGTGGCATTAAATACATTCACATTGTTGCATGACCATCACCACCATCCATC
Celera SNP ID:            hCV1515941
SNP Position Genomic:     66649
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14520):
GAGCTTGCAGGTCCCTTTCTACTGTGGTGTTGGAGCAGGACAATAAAGTCCACTAGAAATGCACCCCAGAACCAGCTGCCGTGTCCATCTTGTCTTGAGG
R
GCTTGGTGGTGGAACCCGTTCTCACTCCAGTCTGTTCCAATTTTTGCTTTATTTGGAAATAATTGGGTATTTTTCTTGGCTGTGAATAAGAACAAATGCT
Celera SNP ID:            hCV8747895
SNP Position Genomic:     208537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14521):
CCTCCCCAGGTTTGAAAGGCCATCAGATTAGCAGGGACGGGGTGTAGGGCATCACCCAAGGTTCCTTCTCTTAAACTAAGGGTGGGGGATCTGAATGTTT
W
TATGTTGACTGTTCTTGACTAAATTTTCAAGAGTTTCAGAAGCAACAGGACAGACCAGACGTTTCATTCTACCCTGGGGCGAACAGAACTTCTTCCTCCC
Celera SNP ID:            hCV26530801
SNP Position Genomic:     206153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:14522):
TCATTGGATGAGGGCCCACCCTAATCCAGTATGACTTCCTCTTAACTATGTACAGAGACGCTATTTTCAAGTAAGGTCACATTCTGAAATACCAGGTAGA
Y
ATGAGTTTTGGAAGGACACTAGTAAACCTAGTATAGACACTAAGAAATAATCACATAAATTCAGGCAGAGATCTTTTTAAAGTTGCAAGCAGAAGTGGGA
Celera SNP ID:            hCV16023088
SNP Position Genomic:     168811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14523):
CATAGGCATTTGTGTGGGTGTGGGGGGGTGTGTCCGTGTTGCCATGCAGGATTTGAAAATAGTTTTCATTTTTAGATTTATAGGTTTCTGTGTAGTCACT
R
TAACAATCATTGTTATGGTTTCTGGATTTTAGGTAATAGACTTTCCCTCTTATAGGCTATAAAAGAAATGTACTATGTTTTATAATTTCATTTTATATTA
Celera SNP ID:            hCV1515942
SNP Position Genomic:     62481
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14524):
CATTCCAGGAGCCATCTTGGACTCTCCTCCCCAGGTTTGAAAGGCCATCAGATTAGCAGGGACGGGGTGTAGGGCATCACCCAAGGTTCCTTCTCTTAAA
M
TAAGGGTGGGGGATCTGAATGTTTTTATGTTGACTGTTCTTGACTAAATTTTCAAGAGTTTCAGAAGCAACAGGACAGACCAGACGTTTCATTCTACCCT
Celera SNP ID:            hCV26530802
SNP Position Genomic:     206128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14525):
TACATCACATGGTATTCTGCCTTTGTGTTTCTCTGTCTCTGTGTCTCTTTTATAAGGATACCAGTTCATTGGATGAGGGCCCACCCTAATCCAGTATGAC
Y
TCCTCTTAACTATGTACAGAGACGCTATTTTCAAGTAAGGTCACATTCTGAAATACCAGGTAGACATGAGTTTTGGAAGGACACTAGTAAACCTAGTATA
Celera SNP ID:            hCV16023089
SNP Position Genomic:     168746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14526):
TTTCCTTGCTTTGTCCATAGGCATTTGTGTGGGTGTGGGGGGGTGTGTCCGTGTTGCCATGCAGGATTTGAAAATAGTTTTCATTTTTAGATTTATAGGT
Y
TCTGTGTAGTCACTATAACAATCATTGTTATGGTTTCTGGATTTTAGGTAATAGACTTTCCCTCTTATAGGCTATAAAAGAAATGTACTATGTTTTATAA
Celera SNP ID:            hCV1515943
SNP Position Genomic:     62466
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14527):
GTAGGAGATTAGCCCTTTGTAATAGGAATTGTGAATTTTAGCGAAATATTTATGACTTCTAACCCAAGTTACCATTTTTTTCCTTGCTTTGTCCATAGGC
R
TTTGTGTGGGTGTGGGGGGGTGTGTCCGTGTTGCCATGCAGGATTTGAAAATAGTTTTCATTTTTAGATTTATAGGTTTCTGTGTAGTCACTATAACAAT
Celera SNP ID:            hCV1515944
SNP Position Genomic:     62388
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,11)   total(G,3|A,11) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14528):
GAGCAGGGCTTGGAGCTCGGGTGGTGGAGATGACAAGGACACTGTGGGGTCTGGGTCCCCAGAACTCTGGAGCTACAGGCCACTCTAGGCCCAAGGGCTA
K
TCCTCTTCCCCAGTCCCCTCAGAGGCCCCCGCCAGCCCCACCTTGAAAGCAGCATACAGGGGAAGGCTTGGACCAAGCTGGGCGACCAAGCACATGGGGC
Celera SNP ID:            hCV26530804
SNP Position Genomic:     205366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14529):
TCTAATGAGAGAAAAGTAATATTTAAGTGTATTTTTAATTTGTATTCCTTTTGTAAGTCAACATTGATCTTTTCACATGTTTAAAAATCATTTATAGTTA
Y
TTGTCTGTGAACATTTGCTTATTTTTCTGCAGGGTTAATGTTCTTACTGATTTGTAGGAGCTCTTTATGTAGGAGATTAGCCCTTTGTAATAGGAATTGT
Celera SNP ID:            hCV1515945
SNP Position Genomic:     62219
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,13)   total(C,2|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14530):
CTAGAGCAGCAAGGAGCAGGGCTTGGAGCTCGGGTGGTGGAGATGACAAGGACACTGTGGGGTCTGGGTCCCCAGAACTCTGGAGCTACAGGCCACTCTA
K
GCCCAAGGGCTAGTCCTCTTCCCCAGTCCCCTCAGAGGCCCCCGCCAGCCCCACCTTGAAAGCAGCATACAGGGGAAGGCTTGGACCAAGCTGGGCGACC
Celera SNP ID:            hCV26530805
SNP Position Genomic:     205353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:14531):
CTACAAAATCAGTAGATACAGTCTTCTCTCTCTAGGATCTGTGCTGGGAAACAGAGTTCTGGTTTTAAATTTCAGCTTTGTTACGATTTATCTCAGTTTC
Y
TCAACAGTAAACTAGGAGTGATTTCCAAACCTTTTTTAAAGCATTGCTTTTTAACCAAATCTCACATGAAACAGAATAATTTATGAAACAATTGAGAGGG
Celera SNP ID:            hCV16024460
SNP Position Genomic:     155547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14532):
GTATGTTTGCCAGTCTAATGAGAGAAAAGTAATATTTAAGTGTATTTTTAATTTGTATTCCTTTTGTAAGTCAACATTGATCTTTTCACATGTTTAAAAA
W
CATTTATAGTTATTTGTCTGTGAACATTTGCTTATTTTTCTGCAGGGTTAATGTTCTTACTGATTTGTAGGAGCTCTTTATGTAGGAGATTAGCCCTTTG
Celera SNP ID:            hCV1515946
SNP Position Genomic:     62206
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,12)   total(A,3|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14533):
TCCGGCCACTGGGCTACCTCTCCTTCAGTCCCAGAAGACAAGTCTCACCAACCCAGGGAGTCAAGGACCAGCAAACCAAAGTGGATAATGGACTTTTTCA
Y
TCCTGTTTTTCTTGGCAGGAGAGAAGCAAGGCCACTAAAAGAGGAGATGGTGGAGACGGAGGCTCAGCAGTGGTCTTGAGGGGTAAAGGACTTAGATGCC
Celera SNP ID:            hCV26530806
SNP Position Genomic:     205025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14534):
ATTGTGAACAGCAGCTGCTCACTTCACTTTTTCCTTGTAGTGGTCGTAGCAATAGTAGTGATGATTTCTATGTCTGTAGGACAAGATGAACAGAATATAA
W
TTAAATATTTGGTGTTTTTACAGAACTTTATAGTCTATACAACACTTACGCAGTCTCATTTAAGCATGAGGAAACAAAGTGAGATAGGTAGGGGCTGATA
Celera SNP ID:            hCV16024461
SNP Position Genomic:     153099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14535):
ACATGTTAGTTTATCTCTAGGATAAGTTTCTGGCATTGCCTGGTTAAAGGATATATACTCTTACACTTTTGGTAGATTATATGTAATTTTGCCACATTGC
Y
CTCCAGAGGGTTTGTAACTATTTACACTCCTGCCTCTTTTTCCACAGTCTTGCCAAGATGATTACCAAAGTTCTGTATGTTTGCCAGTCTAATGAGAGAA
Celera SNP ID:            hCV1515947
SNP Position Genomic:     62031
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14536):
CACAGGTAAAGCTTGGAGAATGTACAGGTACACATTGTGAACAGCAGCTGCTCACTTCACTTTTTCCTTGTAGTGGTCGTAGCAATAGTAGTGATGATTT
Y
TATGTCTGTAGGACAAGATGAACAGAATATAATTTAAATATTTGGTGTTTTTACAGAACTTTATAGTCTATACAACACTTACGCAGTCTCATTTAAGCAT
Celera SNP ID:            hCV16024462
SNP Position Genomic:     153066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14537):
ACTCTTTTAAATAGATCCCAAAATGCACATATGTCATTGTGCACATGTTAGTTTATCTCTAGGATAAGTTTCTGGCATTGCCTGGTTAAAGGATATATAC
W
CTTACACTTTTGGTAGATTATATGTAATTTTGCCACATTGCTCTCCAGAGGGTTTGTAACTATTTACACTCCTGCCTCTTTTTCCACAGTCTTGCCAAGA
Celera SNP ID:            hCV1515948
SNP Position Genomic:     61989
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,11)   total(A,2|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14538):
CACAGCCCTCAGCTATCTTCCCTCCGGCCACTGGGCTACCTCTCCTTCAGTCCCAGAAGACAAGTCTCACCAACCCAGGGAGTCAAGGACCAGCAAACCA
R
AGTGGATAATGGACTTTTTCATTCCTGTTTTTCTTGGCAGGAGAGAAGCAAGGCCACTAAAAGAGGAGATGGTGGAGACGGAGGCTCAGCAGTGGTCTTG
Celera SNP ID:            hCV26530807
SNP Position Genomic:     205003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14539):
TTTCCTCATGCCCCCTTGTAATCCATCCTTCCCTTACCTCATTCCTAGAGAACCAGTAACAGCCTTTCTGCCACTACAGATTGATTTGCATTTTCCATAA
W
TTTACATAGATGGAATCATATTGTAAGTACTAGTTTTCCTGACTTCTTTCATTCTGCATAATGCTTTTGGGATTCATCCATGTTTTTCCATGTGTCATTA
Celera SNP ID:            hCV15815898
SNP Position Genomic:     186328
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14540):
TGGGATCTGAGGAGAAACAGAAAGTTAACATTTGACTACTTTCTTTTGCTTAGTAGCCTATTTCATTTAATCACTTTATCACCTTTATTTCCATTTTTCA
W
ATGATGAAATTGAGTATTTTTTCTTCCCTGCCTAGCACTTTTATAACTCCCCGGGGCTAAAAATCTTCTCCGTCTACCCACTCCCCATCCTTGGCTGGGT
Celera SNP ID:            hCV16024463
SNP Position Genomic:     148475
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,8)      total(A,1|T,8) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14541):
TAGATAATACATGCACATGGCTTAAACACAAAATATTTGAAAAGTATACTGTGAGAAGTCTCTTCTCTATCCTTCTGCCACCATCTGCTCATTTCTAATA
M
CCTGGTGTATTTATCTTTATAATGTATGTTGGCCTGTTAACATATTAGATATGTTAGAATATATCTAATAGAGATTATAAATACGCATACAAATACGTAT
Celera SNP ID:            hCV1515949
SNP Position Genomic:     61576
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14542):
TTCCTCCCATCCACCTCCTCTCTACTCTGCCAGTCTCAGCCTTCAAAGCACTTGACATCAGGGACCCTGAACCCTTCCCCTGGGAGGTGAGGGCCTGATC
R
AGGCACCTCCTCTGCCCACTCGGGGCCCAGCTGTGATTTTTATCAGTAATGGCCATGCCTCCACCCACCTTAGTTAGGAGCTACTTCCAAAAAGCATCCT
Celera SNP ID:            hCV26530808
SNP Position Genomic:     204708
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:14543):
TTCAAGTGATTCTCCTGCCTCGGCCTCCTGAGTAGCTGGGATTACAGGCACGTACCACCACGCCCGGCTAATTTTTATATTTTTATTAGAGACAGGGTTT
Y
GCCATGTTGGCCAGGCTGGTCTCAAACTCTTGACCTCAGGTGACCCGCCCACCTCGGCCTCCCAGAGTGCTGGGATTACAGATGTGGGCCACTGTGCCCA
Celera SNP ID:            hCV26531392
SNP Position Genomic:     101682
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14544):
TTTTTTTTGAGACAGAGTCTCCCTCTGTCAGCCAGGCTTCAGTGCAGTAGCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCT
Y
GGCCTCCTGAGTAGCTGGGATTACAGGCACGTACCACCACGCCCGGCTAATTTTTATATTTTTATTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGT
Celera SNP ID:            hCV26531393
SNP Position Genomic:     101602
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14545):
AGTGGTGTGAGATGGTCTCTCATTGTGGTTTTGAGTTGCATTTCTCTGATGATTAGTGATGTTTGTACATTTAAAAATGTTTGTTGGCCCATTGTGTGTC
W
TCTTTTGAGAAGTGTCTGTTCATGTCCTTTGCCCACTTTATAATGGTATTATTTGTGTTTTTTATTGAATTATTTAAGTTCTTAGATAAAGATTCTCAGT
Celera SNP ID:            hCV26531394
SNP Position Genomic:     101134
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,8)      total(A,8|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14546):
AATGCTTTTCAATGTAAAGTCTCAGGTTTCCAGGGTAAACCATCTTCACTTAGCAGAACTAATTCCTTTAACAAGCATTTGTTGATTCCAACTGTGTGTC
R
GGTACTGTGCTAGCCTGGAGCAGCAAAGAAGGATAAAAAGAACCTTGTTTTAGAGGAGCTATTAAGTCAGATTCTGTCCCCAAACTGAACAGCTACACAA
Celera SNP ID:            hCV29155972
SNP Position Genomic:     49899
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14547):
CTACAGTGGCCGAAGTAATTTACATTCCCACCAACAGTGTATAAGGATTTCCTTTGCTCCACAGCCTCTCCAGCATCTGTTGTTGTTTTTTTTTTTTTTT
T
ACTTTTCAGTAATAGCCATTCTGAGTGGTGTGAGATGGTCTCTCATTGTGGTTTTGAGTTGCATTTCTCTGATGATTAGTGATGTTTGTACATTTAAAAA
Celera SNP ID:            hCV26531397
SNP Position Genomic:     101010
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14548):
GTCCTACATAGACATAGTTTTATAATGAGTTCAGAAATGGCTCGACAAAAGTGAAACCTGTGACAAATACCGGATTATTTGTATTGTAGACCTTGGTCTT
R
ATAATTTTGTTTTTCTTCGAGGGTTGATGGCAGGTCATGAGATTTGAGAGACACACACAGTAGTCAACTGTATGGAAAATACTGAGGAAGTGTGTTTTCG
Celera SNP ID:            hCV29155973
SNP Position Genomic:     49525
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14549):
TCTACAGTGGCCGAAGTAATTTACATTCCCACCAACAGTGTATAAGGATTTCCTTTGCTCCACAGCCTCTCCAGCATCTGTTGTTGTTTTTTTTTTTTTT
T
TACTTTTCAGTAATAGCCATTCTGAGTGGTGTGAGATGGTCTCTCATTGTGGTTTTGAGTTGCATTTCTCTGATGATTAGTGATGTTTGTACATTTAAAA
Celera SNP ID:            hCV26531398
SNP Position Genomic:     101009
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14550):
GTATTTTAATTTAATGTATATAATTTCTGTCCAACTCCAATAAAATATCAAACCCTTAAAGATAGGGATAGTATTCATCTTTGTATTTTTAGCATTCAGC
R
TAATGACCAGCATATAATAGACATTCTGCAAATATTTGAATCATTATTTTATACATTAAGAAATGGATGATGAGTAAGGTGTAACAACTTCACTAACTTA
Celera SNP ID:            hCV29155975
SNP Position Genomic:     49211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14551):
TGTTCTTGATTTGAAGATCCAATTTAGCAACTGCATTCTGGCATTTATTCCCCTCCTTACCCATCCACCTTGTTTTATGCATAGAATAAACCCATAAAAT
R
TTCTTTCTTAGTTCTTAGTTTCCTGGTGTGTCTATCCACCCATTAGAATAATGGGTCTGTCTTTTACATTTCTGTAAAACTGTGTGCCATTATATTACTT
Celera SNP ID:            hCV29155976
SNP Position Genomic:     49002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14552):
GAGCTGGGCACAGTGTTTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACCTGAGGCCTGGAGTTCGAGACCATCCTGACCAATA
A
TGGTGAAAACCCGTCTCTACTAAAAATACAAAAATTAGGCTGTGGTGACGTGCACCTGTATTCCCAGCTACTCAGGAGGCAGAAGTGAGAGAATTGCTTG
Celera SNP ID:            hCV12039792
SNP Position Genomic:     145221
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,9)   total(A,9|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14553):
CGGCATATAATTGTGACCAAAACAGTGACAGTTACCTTCCAAGCATCCGTCATGTCTTGGAAAGCAGCTCGTACCTCTTTGGCCAATCTCAAGGTCTCAA
S
CAGCTCCATGTGTACTCCAGGAATAGGAGCAATAAGAGTGGCTAAATGCATGATATAAAATGATCTCTATTCCTCACAGCAGTCCTACAAAGTACTTAGC
Celera SNP ID:            hCV26531035
SNP Position Genomic:     166214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14554):
GATTGGTTGATGCCAGGAATTCAAGGTTGCAGTGAGCTGTGATCACACCACTGCACTCCAGCCTGGATGACAGAACGAGACCCTGTGTCCTAAAAAAAAA
A
CAAAAATGTTGGGGGTGGGGAATAAGAAACGAATTAAAAGGCCAGGGAGCTGGGCACAGTGTTTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGC
Celera SNP ID:            hCV12039797
SNP Position Genomic:     145074
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14555):
GTATATTTGAAAACTTTAATTATAGGGAGTGACCCTGAGGGGTGATGAAGCCATGAATCACAGCAGTGCCAGGTCTACTAATCAGCCCTGTCCAGAATGG
M
CATGTAGAATGTACTCCACTTACCAATGGCAAGCCATCTGAAGGGAGCAGCTTTCAGTGAGCAAAACAAAACAGCACCAAACCCAAGTTGGCTGAAGCTC
Celera SNP ID:            hCV16023090
SNP Position Genomic:     168057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14556):
AGGTCGAGGCTGCAATGAGCCATAATTGTGCCACTGCACTACAACCTGGACAACAGTGCGCGATCTTGTCTCAAAAAAAAAACAGAAAATTAAAAAATTT
W
AAAAAAATTATAATTCAACTCTAAGAAGCTTCTTAAGAAAACTTTTAAATACATGTTTCTCATTGAGGGGAAAAAAATTAAATAAAATAGTTTCAGAACC
Celera SNP ID:            hCV26531039
SNP Position Genomic:     165212
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14557):
GATACATTTCCTTCCTTTTTCATTCACAGAGCTATTTCTCCTTTTCAGACTCCCTGAGAAATGTTTCCTCAGCCGGTCATGGCCCCCGCTCTTCTCCAGC
Y
GAGCTCAGCAGCTCTAGCCAGCACCTTCTCCGAGAGCGCAAGTCCTCAGCCCCATCACACTCCAGCCAGCCAACTCTGTTCACGTTTGAACCCCCTGTGT
Celera SNP ID:            hCV25771527
SNP Position Genomic:     173451
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(T,40)   total(C,7|T,71)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:14558):
GCCATTCTTAGCAAAGAAATACCTCAGCATGTGGCAACTCATGGATGTGGCCAGTAAGTGCTGTGAGAAGTGAACAAAGAATAGAAAATTAAGCACTGAC
R
GCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATTGAGACCATCTTGGCTAACACGGT
Celera SNP ID:            hCV7967493
SNP Position Genomic:     55702
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,25)   caucasian(A,26|G,10)   total(A,35|G,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14559):
AGAATAGAAAATTAAGCACTGACAGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGAT
Y
GAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCAGTGGCGGGTGCCGGTAGTCCCAGCTACTCGGGA
Celera SNP ID:            hCV7967494
SNP Position Genomic:     55779
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,20)   caucasian(C,9|T,29)   total(C,25|T,49)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14560):
TTGATTTGTTGCAACCGTGTAGTGTTGTACCTTACCTTACACTGAAATTTTCTGTTGTTTTTTTTAATCTTACCTTTTGGATTGAACATTTTGTTTCCTT
Y
TTCTAATTTCCTTTTTATCCCTCTGCTTATTTGGAAGTTACACTCTAACTACTTCATTAGAAGTTACTCTAGGTATTTTATTATGCATACTTATTAAAAT
Celera SNP ID:            hCV1515951
SNP Position Genomic:     61363
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14561):
TGAAACTTGTACAGAGATAACAAAATCATAAACTGCTTGAGCTGAAGGGGTCTAATTTCTAAACATCACCCCTTCCACCACTGTGTCTTTTTTTTTTTTT
T
CTTTTTTTTTGAGATGGAGTCTTGCTCTTTCACCCAGGCTAGAGTGCAGTGACATGATCTTGGCTTACTGCAACCACCACTTCCCAGGTTCCAGTGATTC
Celera SNP ID:            hCV26531540
SNP Position Genomic:     67636
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14562):
TCACCTCTGATGAGAAGGTGGACTACGTTCAGGTGGACAAGGAGAAGACCCAGGCCCTGCAGAACACCATGCAGGAGTGGACAGACGTGCGGCAGTCCTC
R
GAGCCTTCCAAGGGTGCCAAGCTGTGATGAGAGGGCCACCGCAGAGCCCAGGAGGCAGCATCTCCAGAGCTGGCCCTTCCCATCTCCCCTCTCCCCTCTC
Celera SNP ID:            hCV26530811
SNP Position Genomic:     204501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:14563):
CCCCATCTGGCCAGTGATAGAAATGTAAGTTTTAATCAACTCCGGGTATTCCTGGTCAATATGGGATTTTCTCAGTAAATTCAAGTTTGTCTTCTTTTGT
S
CCTGGGCTGCTATTTTAAGTGCCCCAAGGCCTAGAGAGCTGGAGACAGTTTATTGAGGCTGGAAGGCTGGAGCACAGTTTGGGATTGGGATTGGGGGAGG
Celera SNP ID:            hCV16023098
SNP Position Genomic:     157365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14564):
GAGAGAATACATATTTTTAAGAGGAGTATTTTAGTAGATGACTCATAAAACATTTATTGAGCACCTACTATATACCAGGCAGTGTGGTAGGTATGGGAAG
K
GATACAAATGTGTGTAAGAGACCAACATCTTCCCTTGAGGAATTTAGAGATTAATTGAAGCATAAGCACACAGAATTGCTGACAAAGCCATTAGTGTTAG
Celera SNP ID:            hCV1515952
SNP Position Genomic:     60458
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,12)   total(G,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14565):
CTGAGGCTGGTCAGTGGCAGGCAGAGGCCATGCTCTTCTCCCCTTCAGACAGCTCAGGAAGATCCCGTGCCCACCTTCTTCCTCCCCACCTAACTGGTAA
Y
TCACAGCTACTCCCTCTTTCCCACTCTGTCCCCTCAGCCATCTACTTCATCCGTCACCTCTGATGAGAAGGTGGACTACGTTCAGGTGGACAAGGAGAAG
Celera SNP ID:            hCV26530812
SNP Position Genomic:     204347
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(C,-|T,-)   (T,-|C,-)   Caucasian(T,12|C,68)   African-American(T,3|C,79)   Asians(T,37|C,47)   total(C,194|T,52)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14566):
AGAAAATACAAAATAAATAAACGAAATATACAAAGATTGCAAAGTGTGCAGTTTGTGGTCTTCCCTTTACCAATGTACCTGTGTGTGAAATAGAATTTTC
R
TTACATGCTACAATTAAAATAATATTTCAATAGACTTGATGCTGTTCTTGATTTGAAGATCCAATTTAGCAACTGCATTCTGGCATTTATTCCCCTCCTT
Celera SNP ID:            hCV1515953
SNP Position Genomic:     48859
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,13)   total(G,13|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14567):
TGCCTCAGCATGGTTCCCCTTCACAGGGTGGCAGTGAGCACAGCACGTAAAGTCCTGTGGCTGATGTTTGTTTGCACCTAGCAAATTCCTTCCCCTGGAT
R
AGCGACCTGACAGAGATGGGTGGAGGCAGAGATGAAGGCCTGGACCCATCCACCAGGGCCAAGGAAGGGCCTGGGTCCTCCCAGAAGCCGGGAAGTAAGA
Celera SNP ID:            hCV26530815
SNP Position Genomic:     204054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14568):
AGACCTAAATCCCTGCTTGCTCAGAACCTCACCCTCCAATTTCCCAAAGCACTTACAGAGAACCTGGAATCTAGTTTGAAAACCACTCTTGTGAAACGAA
R
GGCTTGTAGAGCATCGGGGCCAGATGGGCCCTTAGAAATCATTGTGACGTACTAGGTCCCACCTGAGAGAGGAGGCTTGGTGATACACACAGCACGTATC
Celera SNP ID:            hCV2324208
SNP Position Genomic:     195614
SNP Source:               dbSNP
Population(Allele,Count): SC_12_CA(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14569):
AGTACTGTCCTGTGCATTTCTTATGTATTAGTTAACCTTCACTTTTATTTTCTCCATTTTGTGGATAAGAAACTAAAGGACAGGGTATTTAGGAAAATTG
S
AAAAGATGTCTCCATTAGAAAATAAAAGAACCACATTTTGACCCCAAGCAATCTTCCTCTAGTGCCTGGTTGGTGTCTCCATATAAAATAAACTGAATTT
Celera SNP ID:            hCV1515956
SNP Position Genomic:     35927
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14570):
CTCTGTCTAAAAAAAAAAAAAATACGGAGTCATAATTTATTATGCATATTATATACATATTGAGCACTTACTATATAGAGTACTGTCCTGTGCATTTCTT
M
TGTATTAGTTAACCTTCACTTTTATTTTCTCCATTTTGTGGATAAGAAACTAAAGGACAGGGTATTTAGGAAAATTGCAAAAGATGTCTCCATTAGAAAA
Celera SNP ID:            hCV1515957
SNP Position Genomic:     35849
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,12)   total(A,12|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14571):
CTGCTGTAATTCCCAAGAAGCAGCAGTGGCTGCCGCATACAGCCTTTCCCCATGGTCCTGAACCTGGCTTCTTTGGGTGGATTATGATACATCAGCATTG
Y
AGTATGTCTACAATAATGTACATTTACCAATATAATCCCATCTATTTCCATCTTTTGAAAATAGTTAAAAATTTCTAGTCTGTCTTTTTGCCCTTATTCC
Celera SNP ID:            hCV16238608
SNP Position Genomic:     80247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14572):
AGGCTGAGGCACAAGAATCGCTTGAAGCCAGGAAACAGATTGCAGTGGGCCAAGATCGTGCCATGCACTCCAGCCTGGACTCTGTCTAAAAAAAAAAAAA
A
TACGGAGTCATAATTTATTATGCATATTATATACATATTGAGCACTTACTATATAGAGTACTGTCCTGTGCATTTCTTATGTATTAGTTAACCTTCACTT
Celera SNP ID:            hCV1515958
SNP Position Genomic:     35770
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,12)   total(A,12|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14573):
TTTCAAACCCTTTGTAAACCAAGGGAACAGATGCAAATTATCTCCTTATTTTCATGAACTTCCATATCAAGGTTTTTTGTTAACTGAATTTGTGATTGGT
S
AGCTTTGAGCCAGTGAGTACTATTTTCTTTTGTTACTGCACGTGGCGTGTGTAGTGTTAACATAAACTGTACTCTAAAGCTGCCTGGTCCTGAACTACTG
Celera SNP ID:            hCV1515959
SNP Position Genomic:     33707
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,12)   total(G,12|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14574):
TGCCTCCTGGTCCTGGGCTCTCGAGTGGGTCCAGAGCCCTGCCGTCGATACATCAGCCTTCAGAAGGGACTTCCAGGCCTGGGAAAGCCTCCCCAGGAGG
Y
ATCCTTATAGCTAAGCAGTCTAGACAGAAGGGTGCAGAGCTGTGCCTCAGCATGGTTCCCCTTCACAGGGTGGCAGTGAGCACAGCACGTAAAGTCCTGT
Celera SNP ID:            hCV26530819
SNP Position Genomic:     203911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14575):
TGAGGGCTTCCGTTGTCCCCTCCACCATCTGTTAGAAACAGGGCCCTCACCAGGCACCAAATCTGCTGGTGCCTTGATCCTGGACTTTCCAGCCTCCAGC
M
CTGTGGACTGTAAATTTCATGTTTATAAATAACAGTCTGAGGTATTTTGTTTTACCAGCCTGAACAGACCAAACAGCATGCTTTGGCTGTTAATCTCAGA
Celera SNP ID:            hCV27921694
SNP Position Genomic:     126976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14576):
GTCCAAGGGCAGAGAAACATGGGTGTCTCAGCTTCAGAAAAGAAAATGTTTTCCCTCTGCCTTTTTGTTCTTCCAGGCTCTCAACAAATTGGATGGTGCT
Y
ACCCACACTGGGTGAGAATGGATCTTCCTTACTCAGTCCACTGATTAAAATGCCAGTCTCTCCCAGAAACACCCTCAAAGACACACCCAGAAATAATGCT
Celera SNP ID:            hCV27921698
SNP Position Genomic:     115836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14577):
CCCTTCTTTGGAGAGATGTCTATTCAAGTCCTTTGTCAATTTTTAGTTAAGTTGTTTGTTTTTGTTGTTATTGTAGTTCTTTATATATTCTAGTTATTAA
Y
CCCTTATAATCCTGTACTAGTCAGTGTTCTCCAGAGGGACAGAACTAATAATATGTATATATGAAAGGGAGTTTATACATATTTCATAATATGTATATTA
Celera SNP ID:            hCV27921699
SNP Position Genomic:     107392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14578):
CAAAGTGGGAGAATCACCTGAGCCCAGGAGGTCGAGGCTGCAATGAGCCATAATTGTGCCACTGCACTACAACCTGGACAACAGTGCGCGATCTTGTCTC
M
AAAAAAAAACAGAAAATTAAAAAATTTAAAAAAAATTATAATTCAACTCTAAGAAGCTTCTTAAGAAAACTTTTAAATACATGTTTCTCATTGAGGGGAA
Celera SNP ID:            hCV26531040
SNP Position Genomic:     165184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14579):
CCAACTTCAGGGAATTCCAAATCCTCTGAAGGAGGAAAAGGAGACAGGGAGAAACCTGACCCTATTCTCTTCGTTCTAAGTCTTCATCCTTATTTCTGCC
Y
TTTTTTTTTTTTTTTTTAAATACCAGACACTCCCCCTCACCACCCCAGCCAGCCAGCATAGATAGTCTAGTGTTACCTGCCAAAACCCAAAGACTGTTAG
Celera SNP ID:            hCV8749652
SNP Position Genomic:     155047
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14580):
AAATGATGAGAACACATGGACACAAATCAGGGAACAACAGGCACAGGGGCCTACCAGAGGGTAGAGGGTAGGAGGAGGGAGAGGAGCAAAAAAAATAACT
W
TTGGGTACTAGATTTAGTACCTGGGTGATGAAATAATCTGTACATCAAACCCCCATGACACAAGTTTACCTACATAACAAACATGCACGTGTACCCCTGA
Celera SNP ID:            hCV26531044
SNP Position Genomic:     164806
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,6)      total(A,6|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14581):
GTGTTGTCCTAGAACAAACTCCAACCTTGACCAACTTCAGGGAATTCCAAATCCTCTGAAGGAGGAAAAGGAGACAGGGAGAAACCTGACCCTATTCTCT
Y
CGTTCTAAGTCTTCATCCTTATTTCTGCCTTTTTTTTTTTTTTTTTTAAATACCAGACACTCCCCCTCACCACCCCAGCCAGCCAGCATAGATAGTCTAG
Celera SNP ID:            hCV8749653
SNP Position Genomic:     155017
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14582):
TTTCCCAAAACTGAACTTTTGTTAAATCTTACATATAATCTTCTCCCTCCTCTAGTACAATGTTTATAAAATGAGAGATACTAGAGGAAATGCAGTGTGA
W
CTGTGCTGCATCTCTTAATTACAGGAACCATTTCTCCGCTTACTGAACACATACTGCACTCCACGCTGCTGTGGGCTAGGAGTAAAAAGACATGAGCAAT
Celera SNP ID:            hCV28013925
SNP Position Genomic:     102249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14583):
AGAGCATCTTTGAATGTTGCTGAAGATGAAAAATATCTTGGGCATGGTAGTAGGGAGGTGGGAGGGAGGTTTACTGTTCCTTAAATGAGGCTTATCCCTT
Y
CTGCTTCCATGCGGCTGATCACCATTGTGATGAGGAAAGAGATGATTTTGAGCCAGATCTGGGTTTGAGACCTAGATTTACCTTGGGCAAATTTCTTAAA
Celera SNP ID:            hCV8749659
SNP Position Genomic:     82882
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14584):
TCCGAGAGCGCAAGTCCTCAGCCCCATCACACTCCAGCCAGCCAACTCTGTTCACGTTTGAACCCCCTGTGTCAAACCACATGCAGCCCACCTTGTCCAC
Y
AGCGCACCTCAGGAGTATCTCTACTTGCACCAGTGCATAAGCCGAAGAGCAGAAAATGCAAGGTAGGAGGCTGCCACAGCCATTAGGTGGGTTAGTGACC
Celera SNP ID:            hCV25772337
SNP Position Genomic:     173580
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:14585):
AGAGGGAGAGAATGCTAGTGCTGGATTATTTTCTCTGCTCTTACTCTTTTTTCTTCCTCTGACAACTCACTTTGGGATAAGGATACATTTCCTTCCTTTT
Y
CATTCACAGAGCTATTTCTCCTTTTCAGACTCCCTGAGAAATGTTTCCTCAGCCGGTCATGGCCCCCGCTCTTCTCCAGCTGAGCTCAGCAGCTCTAGCC
Celera SNP ID:            hCV25771392
SNP Position Genomic:     173370
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,40)   total(C,2|T,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:14586):
TCTTTTCAAAGGTCAGCTTCCTAATCAGGGCTCTTTGAGTAAATACTTCCGCTTTCATAGTACCGCCCACTTCCCTATTTCTGCTGGAAATCTTACTTGG
Y
CAAGGCAGGGATTTCATCTGCGTTATTGATCTCCAGATCCTCATCAATCTAGAACAGTGTCTGGCAAACCGTTGATGTTTAATACATATCACGGATTATG
Celera SNP ID:            hCV1515960
SNP Position Genomic:     32878
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,13)      total(C,4|T,13) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14587):
TTTTATTTTATTTATTTATTTTTTAATTTAGAGACAGGGTCTCTGTCACCCAGGCTGTTGTGCAGTGGTATGATCTCGTCTCATTGCAGCCTCAACCTCC
M
GGGCTCAAGCGATTCTCCCAACTCAGCCTCCTGGACAGCTGGGACCACAGGTGCATGGCACCACATCCAGCTAATTTTTCTGTATTTTGTAGAGATGGTG
Celera SNP ID:            hCV1515961
SNP Position Genomic:     32597
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,11)   total(A,3|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14588):
TCCTGCCCCTAAGAAGAGCACCGGCAGCGTTGATTATCTGGCCCTGGACTTCCAGCCGAGCTCCCCAAGCCCCCACCGCAAGGTGCCTGGAGTAGAGTTG
R
GGGGGCAGTAAGAGCTCTCAGGGTCCCGGAGGCAGAGATCATGGAGGCCAGGGTGCCTTCAACACTGAACAGCAGCACTCAGCCTCCCTCCTGCTCCAGT
Celera SNP ID:            hCV26530821
SNP Position Genomic:     203500
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14589):
GCCTATCGGCAGTTCCCAGAGAAGGGGCAGGGCGGGCAGCGCCCTCACGGGCATAGCAGTAGTAGTGACCACTCTCCGAAGACACTCCAGAGTGCACCAC
M
ACACTGCAGAGGTCATAGGCCTGGCCACGGCCACCAGCCAGTGGCAGGCGGAGCAGCAGGGGGATGGAGACGTCATCCAGGATCTTGCGGCGCCGCATGG
Celera SNP ID:            hCV25752951
SNP Position Genomic:     213395
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,31)   caucasian(C,40)   total(A,1|C,71)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14590):
TTTGGATTTCTTTGATTGCTACTGAGTTTGAATATATTTTCATGTATTATTGGCTCATATTTTAAATGACTTGTTCAAATGCAAGGTGCTTTTTGATACA
S
TTTATTCGTGTAATTGGGAAAACTGTGTGACTTCAGGCATTGTAATAAGGGAACTTGGAATAACTAGAGCGGGGGAATCTCCAGCAGTAGGGAGGGAAAA
Celera SNP ID:            hCV1515963
SNP Position Genomic:     30464
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14591):
CTGTGGGTCCACTCCCCATTGTTGTGAGTTCTTTGGAGGGTGGGCTTCCTCACCGCATGATCTCCAGACCTGGAGAAGAAACTGGTATTTAGTTCTTTTC
R
TCTCTTTCAGGACATCCTCACTCTTCTCTGGTACCACCTGGCCCTGGTCCACTTGCTTATTGGGCAGCCGTTTTGGGTGGGGAACTGGCAAGAGGGCTTA
Celera SNP ID:            hCV1515964
SNP Position Genomic:     28984
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14592):
CTTCGGGCTTCGCTGGAATGACGCCTTTCAAGTCCCCTGGGACCCACCCCTCAGTTCCCCACTTCCCAGCTTAGCTAACTCACCTCAGCCCAGGGACTCC
K
TGTATTATTCATGATTTAGTCTCCTGCTACAAACCCTTCTTGAGCACCTGTTTATCAAGCAGTAGGAGTTGTCATCAGATGTAAGGAAGACATGAGACCT
Celera SNP ID:            hCV26530824
SNP Position Genomic:     202231
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14593):
AGTTCCAGCTCCTCAGGAGTCTGAGGCAGGAGAATGGCGTGAACCGGGGAGGTGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCATTCCAGCCTGGGC
R
ACAGAGCTAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAATCCATGTTTTTTCCCCACATTCTGTGGATTAGGATTCTGCCTTTATTTTTTTAAT
Celera SNP ID:            hCV1515965
SNP Position Genomic:     18679
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14594):
ATTATCATTACTGGCTGATTACCAGACTTTCTTTTCCTGCTCCAGCAAAGCCAACACCACTTGACCTGAGGAACAACACCGTCATCGATGAACTCCCCTT
Y
AAGTCACCTATCACCAAGTCTTGGTCTAGGGCCAAGTAAGTGCGTATGTGTGGGGGTGGGAGCTTGGAGTCGGGCCATTAGGGAAAATGAGTGATGTGGT
Celera SNP ID:            hCV2324218
SNP Position Genomic:     201660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:14595):
AGTCTTGGTCTAGGGCCAAGTAAGTGCGTATGTGTGGGGGTGGGAGCTTGGAGTCGGGCCATTAGGGAAAATGAGTGATGTGGTAGCTGGCCTGTGGGCC
S
GGACAGCTGGATTCTGATGCTAACGCTATCATTAGCTGATCATGTCTCGATGTCTTGTGGCTTGGTTTCCTCAGCTGTAAAAGAGAATAATTATACCTGC
Celera SNP ID:            hCV2324219
SNP Position Genomic:     201777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14596):
GAGAAACTTGGGCATCATCTTTGACTCCCCGTCACCCACTATCCCACATCTAATCTGTCACCAAAACCCATTAGTGGTATCATCTAAATATCTTGTTATA
Y
GCTTCTTCATCCCCACTGCCATGACTTTTAGGATTATTTTAGTAGCCATCTGTTGAGCACTTACTTTGTACCAGGCACTATGCTTAGACCATTGATCTTT
Celera SNP ID:            hCV1515967
SNP Position Genomic:     10896
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14597):
CTCCCACAGTGCTGGGATTACAGACAGACATGAGCCACCGCGCCCAGCCTGCATGGTTCCTTTCTTGTTTCCTTTTCTTAGAGTAGATGAAGTGCCACTT
Y
TATCTGAGCTAATCCTGCTACTTATACTTTGAATCATATCTTCTCCTCCCTACTCAAATAATTCTTATCCTGTAACACATCTTCAACTTCTTTCCCTCTC
Celera SNP ID:            hCV1515968
SNP Position Genomic:     10065
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14598):
TGTTATGAAGCTTTTCTTCTATGTTTTCTTCTAAGAGGTTTATAGTTGTAGCTCTTACATTTAGGTCTTTGATCCATTTTGAGTTAGTTTTTTTATCTGT
K
TTAAGGTAAAGGTCCAAGAACTTTGTTCTTGTGGGTTGACTTAGTTTTCCAGTTCTATGTGTTGCTTTTTTTTTTTTAATCTAGTTTAGCAAACTTTCTA
Celera SNP ID:            hCV16103872
SNP Position Genomic:     185183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14599):
GATACCCATAGGAATGCTTTTGGGGAAGTCTTCAGCATCCAGTGAGGAATGTTAGTGGGGTCTTCAAATAGCTCTTTCTAGAGAGAATGACTGGTGCCTT
R
AAAGTCAGGACCTCTTATTCAAGCTGGATTTCTTACAGCAGGGAGAACTGTGGTAGAGCCAAGTAGTCCATTCAGATTCATTCTGATGACCTTGGTCCTT
Celera SNP ID:            hCV2716661
SNP Position Genomic:     154264
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14600):
AGGTTATTTTAAATAACCCTGAAATATCAGGCCTTCCTCCTCCATCTCTTGCTTGTCATTTTTCATTTACAGCTGGTTCTAGTCATCCACAGAACAGGCC
R
TGAGTTCAGACATGAGCTCCATAAAATCCTCGCAAATGTTTCTGTGTTGTCCTAGAACAAACTCCAACCTTGACCAACTTCAGGGAATTCCAAATCCTCT
Celera SNP ID:            hCV2716662
SNP Position Genomic:     154873
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,12)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14601):
TAATGGGCTCTTCAAACTAGCTTATCTTGTCATTTCTTCTCTTGGTTATTTCAAAGCATAAATTTGGGATTCGATGGTTTCAGTTTTAGCTTAAATCTGT
M
TCCTTGGTGATGAACTTAAATTAGATGCTAATATTTTGAAGGAGGACATGTTTATGCAAACCAGAGTGAGAACTTTTAGTCTAAGGGTCAGCAAACTTTC
Celera SNP ID:            hCV2716663
SNP Position Genomic:     160652
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,8)      total(A,8|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14602):
CAGATAGTAAATACTTTAGGCTTTGTCATCTGTACTTTGTAGCAACTACTCAGCTTTGCTGTTGTAGTATATATGCAGCCATAAACAATTATGTAAATAA
R
TTGATACAGCTGTGTTCTAGTGAAACCACAGAAACAGACCAGATGTAATGTATGGGCTGTAGTTTGCTGACCCCTGTTCTGGTGTAATAATATGCTTTGG
Celera SNP ID:            hCV2716664
SNP Position Genomic:     160865
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14603):
CCTCCTGAGTAGCTGGGATTACAGGCGCACACTACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATGTTGGCCAGGATGATAT
K
GATCTCCTGATCTCGTGATCCACCCGCCTTGGCCTTCCAAAGTGCTCAGTGCTATCTGTACATCGATATTAACCTCTGATGGCTAAACTAGCAAGATAAC
Celera SNP ID:            hCV26531123
SNP Position Genomic:     153675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14604):
AGCCAGAACCTAGAGAGTTAATAGAAATTGAACAGTGAAAGTGGAGTCCTTTTCTTCTCTCCTCAACTGGGGAGCCGCCAGGCTGTTTCACTTGCACCGC
M
TGTGTTCCATTATGGTATAATGATGTAATTACCAGTAATGCTGCTGCTGCTTGAGTAGTGGTGAAGAGGCAGCATTAAGGAAAAGACTAGCCCCAGTTCT
Celera SNP ID:            hCV8749660
SNP Position Genomic:     68907
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,11)      total(A,11|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:14605):
TTTCCCAGTAGCACACTGCTTCTCCTGAAGCCGAAGTTCCCCTTCAGAGAATTATGTAGATCTCATAATTCCCTAGGCAAAACTGGAGCTCTTTGAATCC
Y
AGCCTAGCCATCCACACTATACCAGTTTAAGGTGCAATCTTGTGATTATTGCCGCTGATCACGATTCTTGATAAGCATCCACAACTGATAAGTCTGACGC
Celera SNP ID:            hCV2716665
SNP Position Genomic:     161663
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;(C,-|T,-)   JBIC-allele(C,679|T,824)   total(C,679|T,824)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14606):
GCCGGTCTGCTCGTGAACTAAATACAGTGTCGAAGTTTGTATTGATGGCTTCTGGAGACCGAGAGAGTTGACTCTCGGGGCTGGGGCTCCGCGGCAGCCC
S
GAGCAGCTTCAGCCCGCAGGGTCGGGGAGAGGGCGGGAAAGGGGGGCGTAGGCTGTGGGGCCGCGCGGACGGCCCCACAAAGGGCGAGCGCCTCACGCCC
Celera SNP ID:            hCV8749661
SNP Position Genomic:     6528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14607):
ATGGCTAAAGATAGACTTGCTATCCCCAAACAGAAATACACACAACCCAGAAAACCTCACTAAGTGATAACAATTTCTTGTACCCTAAATAACTGTTTAC
M
TTTGGATCTCATTTGGTCATTCTTCTAACCCAGGGAGGAAAGATTCCAACAGAACTTGCTGCTCTAGTGTGTTTATTGAAGATCGCCTTGTTCTGGTTCT
Celera SNP ID:            hCV2716666
SNP Position Genomic:     162384
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,5)      total(A,5|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14608):
CAATGTCATTCACAATTATTTTATATTCCACTAAGCAGGGGAATAAATACCTTATTGAAAGAGTGCTTGTAGACTTATGCGGACATGGATTTATAGTCCG
K
CACTCTCTTGCATACACAAAAAAGAAAAGTATAAATGAAACATTGGTAAAGAAATTTCTAAAACTACTTCATAATCAATTCTAGCTTTCAATCACTTTTT
Celera SNP ID:            hCV12033202
SNP Position Genomic:     43714
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,8)      total(G,8|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14609):
CGCCTAGTCCCCGCCGGGCCGCCCGCCCCGCCCCTGGCCTCCCGCGAGCTGCGCACCGCCGGCCGCTGCCCCAGCTGCCCGAGCCCGCGCCCTCGTCCGC
R
CGACCCGGCGGGGGGCTCCAGGCCGGCAGCATGAGCGGCGGCGGCGACGTGGTGTGCACCGGCTGGCTGAGGAAATCGCCTCCCGAGAAGAAGTTGAGGC
Celera SNP ID:            hCV8749663
SNP Position Genomic:     6067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:14610):
GAGCAAAAAAAATAACTATTGGGTACTAGATTTAGTACCTGGGTGATGAAATAATCTGTACATCAAACCCCCATGACACAAGTTTACCTACATAACAAAC
R
TGCACGTGTACCCCTGAACCTAAAAGTTTAAAAAGAAAAAATGCCAATGAAAACATTATAAACTTATGAAAATCAAAAAGGGTACCCTATATATGGAATT
Celera SNP ID:            hCV2716668
SNP Position Genomic:     164889
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14611):
CTATATGTACATAACTACATTGGAGGCTCTGAAATGATAAACTCATTTAATGTGCTTAACACAGGGTCAAATGTGCTCAAACATGGAACCTTTTTTTTTT
T
ATCTATTTACCTTTTAGTTTTTAGTAACATGTTTAGGAGATCTGATATAGGGAAAGGAGGAAGAGGGAGAAACAGGCTTCTAGGGAAATAAAAGAAGAAC
Celera SNP ID:            hCV12033203
SNP Position Genomic:     42142
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14612):
TGACCAGATGTACTACACACAAAAAGAGCCATCTCTCAGTAGAGAGCTTTGATGAATTATTCATGTGCTCAGGAGTCAACCCCTGTTAGGAAAGCCATCA
S
CCCTTTTGAATTCTCAAAGCTGAGGACTTCTCTTTTCCTTTTATCCCATCCCTCCTCCATTTATTCAGTAGCTATTCTAGGGCCTGCACAGCCACTATCA
Celera SNP ID:            hCV26531128
SNP Position Genomic:     152716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14613):
ACTAGAGTGTAAGCAAAAGGTGAGGAAAACTGAAATTGTAGGTTGAAATTTTTGTTTCTGCGAGTATACTTATTTGCATTTGCACAGAAGGTGGTGATCC
Y
TATATTTATTTCTGCTGTGCATCAATAGGGGAGGTGGAGATAAATAATTTCATTGTTTTGGCTCTGGCCAGAATTCATTAGGCACAGTTTGTTGTCCATA
Celera SNP ID:            hCV15968447
SNP Position Genomic:     81715
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,25)   caucasian(C,8|T,28)   total(C,19|T,53)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14614):
TCTACAACTCAGTAAGAAGAGAGCAATCCAATATTTTTTTAATGGGCAAAAAATGTGAATAGATTCTTCAACAAAAAAAGATATAGGAATGTCCAGTAAC
Y
ACATGAATAGATGATCAGTGATCTGGGAAATGCAAATTAAAATCTCAGTGAGATTCTGCTTTACCTCTGCTGGAAGGGCTAAAATAAAAATGGCTAACAG
Celera SNP ID:            hCV26530900
SNP Position Genomic:     190362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14615):
GTCTTGGTCTAGGGCCAAGTAAGTGCGTATGTGTGGGGGTGGGAGCTTGGAGTCGGGCCATTAGGGAAAATGAGTGATGTGGTAGCTGGCCTGTGGGCCG
S
GACAGCTGGATTCTGATGCTAACGCTATCATTAGCTGATCATGTCTCGATGTCTTGTGGCTTGGTTTCCTCAGCTGTAAAAGAGAATAATTATACCTGCC
Celera SNP ID:            hCV2324220
SNP Position Genomic:     201778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14616):
CAAAATGCGAGAAAATATTCAACGCGCATATCTAACAAAGGATTTGTTTGTGGTCCATATAAAGAACTTCTACAACTCAGTAAGAAGAGAGCAATCCAAT
W
TTTTTTTAATGGGCAAAAAATGTGAATAGATTCTTCAACAAAAAAAGATATAGGAATGTCCAGTAACCACATGAATAGATGATCAGTGATCTGGGAAATG
Celera SNP ID:            hCV26530901
SNP Position Genomic:     190294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14617):
CTTGGAGTCGGGCCATTAGGGAAAATGAGTGATGTGGTAGCTGGCCTGTGGGCCGGGACAGCTGGATTCTGATGCTAACGCTATCATTAGCTGATCATGT
S
TCGATGTCTTGTGGCTTGGTTTCCTCAGCTGTAAAAGAGAATAATTATACCTGCCCTATATCAGATCTTAATCTGATGGAGTGTGCAGCTCTAATGGCTG
Celera SNP ID:            hCV2324221
SNP Position Genomic:     201823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14618):
TCAAAAAAAAAGACAAATCACAAAATGCGAGAAAATATTCAACGCGCATATCTAACAAAGGATTTGTTTGTGGTCCATATAAAGAACTTCTACAACTCAG
K
AAGAAGAGAGCAATCCAATATTTTTTTAATGGGCAAAAAATGTGAATAGATTCTTCAACAAAAAAAGATATAGGAATGTCCAGTAACCACATGAATAGAT
Celera SNP ID:            hCV26530902
SNP Position Genomic:     190274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14619):
TGCAGCTCTAATGGCTGAGGTCTGGGTGTGTGAGGGTCAGGGCCCAGCTGGAGGCTAGAAACATGGCAGCAGCCATGCAGCTTCCCCAGTGTTAACTCTT
Y
CTTCCCACAACAGCCACACCTTCAACTCCAGCTCCTCCCAGTACTGCCGCCCCATCTCCACCCAGAGCATCACCAGCACAGACTCAGGAGACAGCGAAGA
Celera SNP ID:            hCV2324222
SNP Position Genomic:     202007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14620):
GGAACAGCCTTTTCCCTCTAGGTGGGGAACTGGCAGCCTGGGGGAGGTGGAACAGCGTGGCGCTGAGCCGTGGAGTTCTGGCTTTTTTTTTTTTTTTTTT
T
AACCCCTCTCCCCAGAGGATGCCTTGCCTGGTGAGGTCAAAGTACAAGATGGTGCCAGTTACTGAGATTTGGCCGAAATGGTCTTGGGGTAGTCGCGGGA
Celera SNP ID:            hCV1515970
SNP Position Genomic:     7036
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14621):
CGGGCAGCTCCCGGGTGTCTGGGGTCGGGAGAGATCGAGGCTCTCCGCGGCCAGGTGTTGCCAACCGACAGTGTTTACTGAGATCGCTGGAACAGCCTTT
Y
CCCTCTAGGTGGGGAACTGGCAGCCTGGGGGAGGTGGAACAGCGTGGCGCTGAGCCGTGGAGTTCTGGCTTTTTTTTTTTTTTTTTTTAACCCCTCTCCC
Celera SNP ID:            hCV1515971
SNP Position Genomic:     6948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;(T,-|C,-)   Caucasian(C,14|T,66)   African-American(C,4|T,80)   Asians(C,37|T,43)   total(C,55|T,189)
SNP Type:                 INTRON


Context             (SEQ ID NO:14622):
GCAACCGTGTAGTGTTGTACCTTACCTTACACTGAAATTTTCTGTTGTTTTTTTTAATCTTACCTTTTGGATTGAACATTTTGTTTCCTTTTTCTAATTT
Y
CTTTTTATCCCTCTGCTTATTTGGAAGTTACACTCTAACTACTTCATTAGAAGTTACTCTAGGTATTTTATTATGCATACTTATTAAAATGTTTAAATTT
Celera SNP ID:            hCV26531560
SNP Position Genomic:     61373
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14623):
CAGCCCTTGTATTAAGTGACTCATTTGTTTGTCCCCCTTCTTTCCCTTTATTCCGTTCGTCTCTCACAGGCGCCTCCCCCGACCCCGGTGTGACACTGCA
S
TTTGGTCCCCGTGGCTGGCCCGGGTTTGGGACCGGGCAGCTCCCGGGTGTCTGGGGTCGGGAGAGATCGAGGCTCTCCGCGGCCAGGTGTTGCCAACCGA
Celera SNP ID:            hCV1515972
SNP Position Genomic:     6815
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)      total(G,6|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14624):
AACCAGTAAAGCAGCCAACAAACAGAACACAGGACTATCACCTTCTCATTAGAATAAGACTTCCAGAAAGTTCTAGAGGAGGTGGTGCTCTGCTAGAGCA
S
GAGCCTGGATGGACAGGATCCTAGAGCGTGTCATCTGAAGAAATGCGGGCTTGTGCAGCCTGGAGATGAAGCCACCCTCTTCAGATCTTGGAGGAGCTAG
Celera SNP ID:            hCV2324225
SNP Position Genomic:     202720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14625):
TCCCAAACAATGACTTCCTGCCATGTTTGATGGGGACAGCTACCACTGTCCTCTGCCCCCATTCCCCTTTCAGCTCCCATGAGCATGCATAGTTCACCAG
M
CCAATGGCCTAGCCATTCTCTAAGTCCCATCCTGGAAGAAGTTATTTCTTCAAGAGCTGCACCTCTCCTCCTAGCATTAGTTTAGATCAACTCAAGGAGT
Celera SNP ID:            hCV2324228
SNP Position Genomic:     206350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14626):
CTAGATAATATGTATTCTTGCTAAAATAACTTCATTTCTCAAAATGCAGGTCTTCCACTGAGCTAAAATAAGTAACTATTCAGAATAATATCTATTGCCA
R
CGGAAAGAGTTTTGAACTGGCAGAGTCAAGACAAATAGAGTTCTTTTTCTCTTTGAAGACAAGTTGGTTTCACTGGACTTATTTTTGTCCTCCAGCCTTT
Celera SNP ID:            hCV966431
SNP Position Genomic:     191271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14627):
GGGACAGCTACCACTGTCCTCTGCCCCCATTCCCCTTTCAGCTCCCATGAGCATGCATAGTTCACCAGACCAATGGCCTAGCCATTCTCTAAGTCCCATC
S
TGGAAGAAGTTATTTCTTCAAGAGCTGCACCTCTCCTCCTAGCATTAGTTTAGATCAACTCAAGGAGTATTTATTAATGGCTGCTGTCTCCAGTTTCTGG
Celera SNP ID:            hCV2324229
SNP Position Genomic:     206382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14628):
CCATCTGGCTTATTGATACTTGTTCAGGGAGTGGGGGTTATAACCCCTGCTATTAACTGCCATTTGGAGATGGGGGACGGATGAAGTCTAACATTGTTTA
M
ACATTCATATACTAGAGTCTGAACAACCTTCAAAATATGCTTTTAGTCACCATTTTACAGATGCCTAAACCAAAGTATAGAAAGAGAAAGTGCTTTGCCT
Celera SNP ID:            hCV966432
SNP Position Genomic:     196588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14629):
TTGATACTTGTTCAGGGAGTGGGGGTTATAACCCCTGCTATTAACTGCCATTTGGAGATGGGGGACGGATGAAGTCTAACATTGTTTAAACATTCATATA
M
TAGAGTCTGAACAACCTTCAAAATATGCTTTTAGTCACCATTTTACAGATGCCTAAACCAAAGTATAGAAAGAGAAAGTGCTTTGCCTCAAGGTCACACA
Celera SNP ID:            hCV966433
SNP Position Genomic:     196600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14630):
ACCAGCATAACCCTACTATCAAAATCTGGCAAAGATGACAGGAAATAAAATTACAGAGAATATCCCCCATGAATAATAAACAGAAATCCTCTTTAAAAAC
M
AAGGATTAGCAGTCGAATCCAACTAAATACGTATGTGTGTATATCTATATGTGTCTGTTTGGGACAATATATATATTTTAGGGAATATGCATGTGTGTAT
Celera SNP ID:            hCV15800422
SNP Position Genomic:     186845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14631):
AATATGCTTTTAGTCACCATTTTACAGATGCCTAAACCAAAGTATAGAAAGAGAAAGTGCTTTGCCTCAAGGTCACACAGCTAGTAATTGTCTCACCCTC
S
TGCCCTTTCCCTTCTTTCTCTTTTAGGAGTGCCAGCTTCTCTCAGGGCACCAGAGCCTCTTTTCTCATGAGGAGTGACACAGCTGTACAAAAACTTGCCC
Celera SNP ID:            hCV966434
SNP Position Genomic:     196722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14632):
GGTCTTTGATCCATTTTGAGTTAGTTTTTTTATCTGTTTTAAGGTAAAGGTCCAAGAACTTTGTTCTTGTGGGTTGACTTAGTTTTCCAGTTCTATGTGT
K
GCTTTTTTTTTTTTAATCTAGTTTAGCAAACTTTCTACCAATATTTCTTCGACTTTTTTTTTTTTTTAAGAGACAGGGTCTCAGTCTGGCACCTAGGCTG
Celera SNP ID:            hCV15800423
SNP Position Genomic:     185246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14633):
ACCCAGAGCATCACCAGCACAGACTCAGGAGACAGCGAAGAGAACTATGTCCCTATGGTGAGTCCTTCGGGCTTCGCTGGAATGACGCCTTTCAAGTCCC
S
TGGGACCCACCCCTCAGTTCCCCACTTCCCAGCTTAGCTAACTCACCTCAGCCCAGGGACTCCTTGTATTATTCATGATTTAGTCTCCTGCTACAAACCC
Celera SNP ID:            hCV26530839
SNP Position Genomic:     202167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14634):
ACAAAACCTCCTTGTCTCCATCTCACATGAGGCCAATGACAGTTAAGAGACTTAAATAGAGTTGCAGAGTCATTGTGCCAGAGATGAGACTCAGACCCTA
K
AGTCCCAGCTCCTAGTTTAGACCTCTTTGCCGTCTTTCAATCCATCGACAATTTGAGCAGTCATACTCCGTTTTGGAACTGAGATGATAAAGACATACAT
Celera SNP ID:            hCV966435
SNP Position Genomic:     198096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:14635):
GATCTTAATGGTGTTCCATAAGTCTTGCAGGTTTTCTTCACTCTTTTCATTTGTATTCCCCCTTTCCTTCTGGCTGGGTAATTTCAAACTACCTTTCTTC
R
AGTTCAGATATTCTTTCTTCTAATTGATCAAGTTTGCTGTTGAAGCTCTCTGTTGTGTTTTTTATTTCATTCATTGAATTCTTCAGCTGCAAGATTTCTG
Celera SNP ID:            hCV15800424
SNP Position Genomic:     182073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14636):
GATGAGACTCAGACCCTAGAGTCCCAGCTCCTAGTTTAGACCTCTTTGCCGTCTTTCAATCCATCGACAATTTGAGCAGTCATACTCCGTTTTGGAACTG
W
GATGATAAAGACATACATAAAACATGTTCCTGCCCTTCAGAGCTTACATCTCATTGGGAAAATAAAACCAACACATATAAATCAGGACAAGTATTGTTAC
Celera SNP ID:            hCV966436
SNP Position Genomic:     198178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:14637):
TCCTAGTTTAGACCTCTTTGCCGTCTTTCAATCCATCGACAATTTGAGCAGTCATACTCCGTTTTGGAACTGAGATGATAAAGACATACATAAAACATGT
K
CCTGCCCTTCAGAGCTTACATCTCATTGGGAAAATAAAACCAACACATATAAATCAGGACAAGTATTGTTACTGTGGTGTTCAGAGAAGTGATGGCTGGG
Celera SNP ID:            hCV966437
SNP Position Genomic:     198206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:14638):
GACCTCTTTGCCGTCTTTCAATCCATCGACAATTTGAGCAGTCATACTCCGTTTTGGAACTGAGATGATAAAGACATACATAAAACATGTTCCTGCCCTT
Y
AGAGCTTACATCTCATTGGGAAAATAAAACCAACACATATAAATCAGGACAAGTATTGTTACTGTGGTGTTCAGAGAAGTGATGGCTGGGGTGAGCAGGA
Celera SNP ID:            hCV966438
SNP Position Genomic:     198216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:14639):
GAGAAACTTTTCATTATCAAAAATCATGCTATAAAAAATGTTTGATTTGGAGGCAGGGGTGAAGGCATTAGGGGACACAGTTTCCGAATTGCAAAAAAAA
A
CAGTCAATTTACTTGGGCTTAAAAGTATAGCTATAAAACCATAACATAGTTCAACAAATCCATACCTTGCTTTTGCTCTAGAACTGCACTGTTCTGTATA
Celera SNP ID:            hCV7972842
SNP Position Genomic:     173950
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14640):
TGAGCAAAACCCAGTGGCCATCACAGCCCCTGAGTCCAAGGAAGAACAATCTCTTGCTTAGGCTTACTTTTATTTATTTAAGAACATGGGTGTCTGTCTT
S
TCTTCGGTTAGAAGTTAGAAGGGGGCTACAGCAGTGTCAGGGCACTTCACCCAACCTGCAGGTGGCTGCTGTTGCAGCTACAAAGGCCAACTGCTCAGAG
Celera SNP ID:            hCV26530769
SNP Position Genomic:     209138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:14641):
TATAAATCAGGACAAGTATTGTTACTGTGGTGTTCAGAGAAGTGATGGCTGGGGTGAGCAGGACAGGTGAGTGGTGTAGGAGTCAAAGGAGAGGTGCATA
K
ATGAGGGTAGAGTAGTCAAGGACAGCTTCTCTGCAGATGCTAACACTGGAGCTACATCTAGAAGCCCAGGAGGAATTTTTGAACTGAGGAGTGATGTGTT
Celera SNP ID:            hCV966439
SNP Position Genomic:     198354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:14642):
CACAAATTCTTTTTTCCAACTTTCTTGACAGTAGACCCTATCCATATACTTCTTTAAGCCCCACTGTTAAGTAAAGTGACTTTCATTGTCTTTTGTCTCC
R
TTATTACTACCCTAATTTAGATTGCCATCTTCTCTCACCATTGCAGACTATCGCAACAGCTTCTTAATTGTTTTCTTGTCTCTTATTTTTTATTTTTCTG
Celera SNP ID:            hCV26531203
SNP Position Genomic:     133599
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14643):
TGCCCCAGAATTAAGAACCAGAGGTTGTTAAAACCAAACCAGTGGATCCTAATCTGAATCTCTGTAAATATGACTAATGAGGTCTGAGGTGGGACCAGCC
Y
TCTGCATTTACATTTCCCAGAGATAACTTTGATGTGTACCCCCGATCTAATCCAACCTCTTCTTTTTGTAAATAGAGACAGTGAGGCTTGGGAAGATGAA
Celera SNP ID:            hCV2716671
SNP Position Genomic:     165622
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14644):
GGATCCTAATCTGAATCTCTGTAAATATGACTAATGAGGTCTGAGGTGGGACCAGCCCTCTGCATTTACATTTCCCAGAGATAACTTTGATGTGTACCCC
Y
GATCTAATCCAACCTCTTCTTTTTGTAAATAGAGACAGTGAGGCTTGGGAAGATGAAATGGTATGCCCAGATTCACTCAGCCAGTAGGCGGTAGAGCTAG
Celera SNP ID:            hCV2716672
SNP Position Genomic:     165665
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14645):
CAACCAAAAATGTCTAGGATAAAACCTGCAGGTTCAAGACCAGACCAGGAGTGAAAGTGAGTTTGAAATCAACATAAGGTTGAAGGAAACAATCTCTTGA
K
AGAGAACTCGTTCCAAAAGGAAACCAGGAATGATGTTCTAGAAGGAAAAGCAGTTTCAGGAACACATATCAAGATGCTATATCATATATGTGGGATTTAT
Celera SNP ID:            hCV26531132
SNP Position Genomic:     152350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14646):
CTGGACCCCCATCCTCATATTTTAACTTTCCTTCCCTAGTACCATTCACCTCATAGGGCTCTTGTGGGAGTTCTTCCTCTGCACAGGTGAAAAGAATTGG
S
TTTGGAGACTGTGAGATCTGATTCAGATCTAGGCTATGCCACTTTCTGGCTGTGTGACCCCAGAGTTTGCTATTGATGTCTCTGAGCCTATTTTTCTTCA
Celera SNP ID:            hCV2716673
SNP Position Genomic:     165868
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,6)      total(G,2|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14647):
GTTTTTTCATCCTTCTTGCCACCTCCAGATTCTTATTTCTACTGCCACCTTCCAGTCTTCACATATTCCAACCAAAAATGTCTAGGATAAAACCTGCAGG
Y
TCAAGACCAGACCAGGAGTGAAAGTGAGTTTGAAATCAACATAAGGTTGAAGGAAACAATCTCTTGAGAGAGAACTCGTTCCAAAAGGAAACCAGGAATG
Celera SNP ID:            hCV26531133
SNP Position Genomic:     152282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14648):
CTGATTTTGACCACAAGAAACACACATATTTGGATTTTTGCGCCAGGGAAAATTCTTTTATTTTTTCAGTATGATCAGTCAACAAATGTGTATTGAATAC
R
TACCATGGCTGGGGCTGTTCTAGGCACTAGGGGTACATAAGTGATAGAAGGTGTTCCATGTACCTATGACATTCAAGATTTTCTAGACCTTATGTGTATT
Celera SNP ID:            hCV2716674
SNP Position Genomic:     169524
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14649):
TAAATAAGGAGACTGAGACTCTGAGAGGTGAAGTGACTTCCCCAAGTATGCAGCTAAATAGACTGAGTCACAGATATGACTCCACAGGCTGAGCTCAAGG
M
AGGGGCTGCAGAGGTGAGGATGGGTCACTCCTCTTTTATTCATACTCACAGCCAAAGCATTCAACATAGGGGGCATGAAGGATGCATTTGATGACAAGGC
Celera SNP ID:            hCV2716675
SNP Position Genomic:     169764
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,11)      total(A,11|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14650):
CGGGAGTTCGAGGTTATAGTGAGCTATGATTGCACCATGGCACTCCAGCCTGAGCAACAGAGCAAGACCATGTCTCTAAAAAAGAGAGCTTTGACTGGGC
R
TGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCAGTGGTGATCGAGACCATCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAAT
Celera SNP ID:            hCV2716676
SNP Position Genomic:     170514
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14651):
CCTCCCAGGTTCAAGCCATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCTCGCCACCACGCCTGGCTAATTTTTTTTTTTTTTTTTTTT
T
TGTCGTTTTAGTAGAGACGGTTTCACCGTATTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCTGCCTGCCTCGGCCTCTCAAAATGCTGGGATTA
Celera SNP ID:            hCV26531209
SNP Position Genomic:     132505
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14652):
CTCCCATGGCCTTGGGCACTCCACCTCTATAGCTTTGCAGGGTATAGCCTCTCTTCTGGCTGATTTCATGGGCTAGCATTGAATGTCTGCACCTTTTCCA
S
GCACACAGTGCAAGCTGTCAGTGGATCTACCATTCTGGGGTCTGGAGGATGGTGGCCCTTCTCTCACAGCTCCACTAGGCGGTGCCCCAGAAGGGACTCT
Celera SNP ID:            hCV26531136
SNP Position Genomic:     150540
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14653):
TTGGGTAAATACAGCCATTCTAAATGGGAGAAATTGGCCAAAACAAAGGGGCTACAGGCCCCATGCAAGTCCAAAATCCAGTGGGGCAGTCAAATCTTAA
A
GCTCCAAAATGATCTCCTTTGACTCCCTGTTTCACATTCAGGTCACACTGATGCAAGAGGTAGGCTCCCATGGCCTTGGGCACTCCACCTCTATAGCTTT
Celera SNP ID:            hCV26531137
SNP Position Genomic:     150375
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14654):
CCAGCCTTAGCTTTTTTTTTTCCTGTAATTAGATGTTTAAATTTCATTTTTTTTTTAAATTTCAACTTGTTTTTCAGATGCCAGGGTACATGTGCAAGTG
Y
GTTACATGGGTATATTGTCTAATGCTGAGGTTTGGCCTTCTGTTCATCCTATCACCCAAATAGCATTGTACCCCATAGGTAGTTGTTCAATCCTTGTCCC
Celera SNP ID:            hCV2716678
SNP Position Genomic:     172729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14655):
CTCTCCCTCCCTGTTAACATAATCCCCAGTGTCTACTGTTTCCGTCTTTATGTCCATGTGCACCCTGTGTTTAGCTCCAACTTATAAGTGAGAACATTAG
R
GTATTTGGTTTTCTGTTTCTGCATTAATTCACTTGGGATAATGATGTTCAGCTGCATTCATGTTGCTGCAAAAGACATGATTTCATCCTTTGACCACAGC
Celera SNP ID:            hCV2716679
SNP Position Genomic:     172933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14656):
CCATGGATGCATCCAGACAGACATAGAACCCACTGGCAGCACCTCAAGTTGCACATTTCCCAAAGGACTATTCACATTGTTTTCTGTGTAGGGGTATCCC
M
TGGAGTTGATCAATCCAGTGTCCCTGTCCCTGGTTTGCTCCTATAGAGGCTTCATCATATGTGGAGCCTCTTTCAAGCAGATACTCCCTCTTTTCCTTTC
Celera SNP ID:            hCV26531139
SNP Position Genomic:     149387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14657):
AACATTGCACTTAGCCATTCAGATGATAACTTGGATCAGAAATTTTGAGAAGTGGTGGGATGAAGAAGATCCCTGAAGAGAGGAGTAACTGAGACAAAGG
M
GAGGCTAGCAATAGAGAGACAAGTGAGGGAATTAGACCTTTGGTATCATCATGAAAAGGTGAGTTTTGGGAAACAAAGAGTATGGCGGGCAAGTACCTAG
Celera SNP ID:            hCV15968457
SNP Position Genomic:     81990
SNP Source:               Applera
Population(Allele,Count): african american(A,11|C,25)   caucasian(A,7|C,23)   total(A,18|C,48)
SNP Type:                 UTR 5;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,26)   caucasian(A,9|C,29)   total(A,21|C,55)   
SNP Type:                 UTR 5;INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   JBIC-allele(A,684|C,816)   total(A,684|C,816) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:14658):
AGCCACACCTTCAACTCCAGCTCCTCCCAGTACTGCCGCCCCATCTCCACCCAGAGCATCACCAGCACAGACTCAGGAGACAGCGAAGAGAACTATGTCC
M
TATGGTGAGTCCTTCGGGCTTCGCTGGAATGACGCCTTTCAAGTCCCCTGGGACCCACCCCTCAGTTCCCCACTTCCCAGCTTAGCTAACTCACCTCAGC
Celera SNP ID:            hCV26530840
SNP Position Genomic:     202119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14659):
GAAAATGAGTGATGTGGTAGCTGGCCTGTGGGCCGGGACAGCTGGATTCTGATGCTAACGCTATCATTAGCTGATCATGTCTCGATGTCTTGTGGCTTGG
K
TTCCTCAGCTGTAAAAGAGAATAATTATACCTGCCCTATATCAGATCTTAATCTGATGGAGTGTGCAGCTCTAATGGCTGAGGTCTGGGTGTGTGAGGGT
Celera SNP ID:            hCV26530841
SNP Position Genomic:     201843
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14660):
ACACTGCAGAGGTCATAGGCCTGGCCACGGCCACCAGCCAGTGGCAGGCGGAGCAGCAGGGGGATGGAGACGTCATCCAGGATCTTGCGGCGCCGCATGG
K
GCGCAGGTCGAAAGAGAAGCGCAGCAGTGTGAGGATGAGGTAGCACGGCCCTTGGCTCAGCTCCACCACCTTCTCGGCATCCTGCAGGGAGGCACACGAC
Celera SNP ID:            hCV2324234
SNP Position Genomic:     213496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14661):
GGAGTCGGGCCATTAGGGAAAATGAGTGATGTGGTAGCTGGCCTGTGGGCCGGGACAGCTGGATTCTGATGCTAACGCTATCATTAGCTGATCATGTCTC
K
ATGTCTTGTGGCTTGGTTTCCTCAGCTGTAAAAGAGAATAATTATACCTGCCCTATATCAGATCTTAATCTGATGGAGTGTGCAGCTCTAATGGCTGAGG
Celera SNP ID:            hCV26530842
SNP Position Genomic:     201826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14662):
CAGAGGTCATAGGCCTGGCCACGGCCACCAGCCAGTGGCAGGCGGAGCAGCAGGGGGATGGAGACGTCATCCAGGATCTTGCGGCGCCGCATGGTGCGCA
S
GTCGAAAGAGAAGCGCAGCAGTGTGAGGATGAGGTAGCACGGCCCTTGGCTCAGCTCCACCACCTTCTCGGCATCCTGCAGGGAGGCACACGACTCGCAG
Celera SNP ID:            hCV2324235
SNP Position Genomic:     213502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14663):
CCACGGCCACCAGCCAGTGGCAGGCGGAGCAGCAGGGGGATGGAGACGTCATCCAGGATCTTGCGGCGCCGCATGGTGCGCAGGTCGAAAGAGAAGCGCA
S
CAGTGTGAGGATGAGGTAGCACGGCCCTTGGCTCAGCTCCACCACCTTCTCGGCATCCTGCAGGGAGGCACACGACTCGCAGTAGTAGCGGTTTTCTGCT
Celera SNP ID:            hCV2324236
SNP Position Genomic:     213520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14664):
GGGGGTGGGAGCTTGGAGTCGGGCCATTAGGGAAAATGAGTGATGTGGTAGCTGGCCTGTGGGCCGGGACAGCTGGATTCTGATGCTAACGCTATCATTA
K
CTGATCATGTCTCGATGTCTTGTGGCTTGGTTTCCTCAGCTGTAAAAGAGAATAATTATACCTGCCCTATATCAGATCTTAATCTGATGGAGTGTGCAGC
Celera SNP ID:            hCV26530843
SNP Position Genomic:     201812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14665):
TGAAGGAGTCACAAGTCCACTCAGATTCATGGAAAGGGAACATAGACTTCCAACCTCTTGGTAGATGGAGTATCAAAGAATTTGTGGTCATTTTAATTTT
W
ATTTTATTTATTTATTTTTTAATTTAGAGACAGGGTCTCTGTCACCCAGGCTGTTGTGCAGTGGTATGATCTCGTCTCATTGCAGCCTCAACCTCCCGGG
Celera SNP ID:            hCV26531718
SNP Position Genomic:     32500
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,10)   total(A,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14666):
ACTTTCTTTTCCTGCTCCAGCAAAGCCAACACCACTTGACCTGAGGAACAACACCGTCATCGATGAACTCCCCTTCAAGTCACCTATCACCAAGTCTTGG
K
CTAGGGCCAAGTAAGTGCGTATGTGTGGGGGTGGGAGCTTGGAGTCGGGCCATTAGGGAAAATGAGTGATGTGGTAGCTGGCCTGTGGGCCGGGACAGCT
Celera SNP ID:            hCV966441
SNP Position Genomic:     201685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14667):
TCATCGATGAACTCCCCTTCAAGTCACCTATCACCAAGTCTTGGTCTAGGGCCAAGTAAGTGCGTATGTGTGGGGGTGGGAGCTTGGAGTCGGGCCATTA
K
GGAAAATGAGTGATGTGGTAGCTGGCCTGTGGGCCGGGACAGCTGGATTCTGATGCTAACGCTATCATTAGCTGATCATGTCTCGATGTCTTGTGGCTTG
Celera SNP ID:            hCV26530844
SNP Position Genomic:     201741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14668):
TACCAACTGTCAGCAGCTACATACTCACCCCTACTTGACTGTAATGATTTGCATCCATGTCATCTCCTGCCCTACTGTGACATTCCCAGACCACCCCTCA
Y
TGGGCAGGTGGCATCTCTGTATCCCTTTTGCCTGGCCCAGATGGAAATTAGGACATCAGTAAATGTAAAATGAACAAATCCAGATGGGAGCATCCAACAG
Celera SNP ID:            hCV15800430
SNP Position Genomic:     194771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14669):
AGGGCCCAGCTGGAGGCTAGAAACATGGCAGCAGCCATGCAGCTTCCCCAGTGTTAACTCTTCCTTCCCACAACAGCCACACCTTCAACTCCAGCTCCTC
M
CAGTACTGCCGCCCCATCTCCACCCAGAGCATCACCAGCACAGACTCAGGAGACAGCGAAGAGAACTATGTCCCTATGGTGAGTCCTTCGGGCTTCGCTG
Celera SNP ID:            hCV966442
SNP Position Genomic:     202045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:14670):
CGCCTGTACGCCTGTAACCCCAACACTTTGGGAGGCTGAGGCGAGTGGATCACCTGAGGTCAGAAGTTCGAGACCAGCCTGGCCAAAATAGTGAAACCCC
R
TCTCTACTAAAAATATAAAAATTAGCTAAGCGTGGTGGCAGGCGCCTATAGTCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATCACTTGAACTCAGGAG
Celera SNP ID:            hCV26530846
SNP Position Genomic:     201029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14671):
TGCTCTTGCAACCCCATCCCCACCTTGAAATCCTTCAGAGGCTCCCCGTTCCCTTTAGTCCTGGCCTGGCCTCCAGTGTCTTCTCTCAGCCCTGCCTTCT
R
ATGTGCTTGCTGCAGCCTGAGCAGCTTCGAGTTTCTAGAACTTGCCAGGTTGTGTTCTACATCTTTGAGCCTTCAACTAGAACACCATTTCCCTTCTCCT
Celera SNP ID:            hCV15800431
SNP Position Genomic:     194461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14672):
CCCAGCCCTCAGTAAGGTAAGTAAGTCAGTCAGTCCACACGTTTACTTACACCCCACTTCAGTAGATTCAGTAGAGGGCTCTTGGCTCCCTGTGGCATCT
S
ACACGTCACTGGGGGGCAGGCTGAGTCCTGGCCTCCCCAGACCCCGTGAGCAAAACCCAGTGGCCATCACAGCCCCTGAGTCCAAGGAAGAACAATCTCT
Celera SNP ID:            hCV26530773
SNP Position Genomic:     208991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:14673):
CTTTCAAGTCCCCTGGGACCCACCCCTCAGTTCCCCACTTCCCAGCTTAGCTAACTCACCTCAGCCCAGGGACTCCTTGTATTATTCATGATTTAGTCTC
S
TGCTACAAACCCTTCTTGAGCACCTGTTTATCAAGCAGTAGGAGTTGTCATCAGATGTAAGGAAGACATGAGACCTGTCCCAACGAAGTCATGGTCTTCA
Celera SNP ID:            hCV966443
SNP Position Genomic:     202255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14674):
TATCAAGCAGTAGGAGTTGTCATCAGATGTAAGGAAGACATGAGACCTGTCCCAACGAAGTCATGGTCTTCAAGAGCAGGGGCCTGCCTCTCATGACAGT
S
ACATGGGTGGCATGATCTGTGCCCTTGGATAGGCAGTGCTGGAGGTATCTCCTCAGTGGTGGAGGTATCTCCTCAGTGGTGAGAGGCATACGTGCACATA
Celera SNP ID:            hCV966444
SNP Position Genomic:     202384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14675):
TCTACTGTGGTGTTGGAGCAGGACAATAAAGTCCACTAGAAATGCACCCCAGAACCAGCTGCCGTGTCCATCTTGTCTTGAGGGGCTTGGTGGTGGAACC
Y
GTTCTCACTCCAGTCTGTTCCAATTTTTGCTTTATTTGGAAATAATTGGGTATTTTTCTTGGCTGTGAATAAGAACAAATGCTCTCTACCTCAGCGTCTG
Celera SNP ID:            hCV26530775
SNP Position Genomic:     208554
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:14676):
TCATCTTTAATGATCCTTTTTGCATTTCTATGCTGTCAGTTACAATGTCTCCTTTTTCTTTTTTATTTTATTCCTTTATCTATTTTGAGACGGAGTCTCG
M
TGTGTCACCCAGGCTGGTGTGCAGCTGCGCGATTTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCATGCCTCAGCCTCCCGGGTAGCT
Celera SNP ID:            hCV1970309
SNP Position Genomic:     180347
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14677):
AATATGGTCTCTTGGCTGGGCGCCATGGCTCACGCCTGTACGCCTGTAACCCCAACACTTTGGGAGGCTGAGGCGAGTGGATCACCTGAGGTCAGAAGTT
Y
GAGACCAGCCTGGCCAAAATAGTGAAACCCCGTCTCTACTAAAAATATAAAAATTAGCTAAGCGTGGTGGCAGGCGCCTATAGTCCCAGCTACTAGGGAG
Celera SNP ID:            hCV26530849
SNP Position Genomic:     200997
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14678):
TGTCATCAGATGTAAGGAAGACATGAGACCTGTCCCAACGAAGTCATGGTCTTCAAGAGCAGGGGCCTGCCTCTCATGACAGTGACATGGGTGGCATGAT
S
TGTGCCCTTGGATAGGCAGTGCTGGAGGTATCTCCTCAGTGGTGGAGGTATCTCCTCAGTGGTGAGAGGCATACGTGCACATAACTCACTTTGGTGAGGC
Celera SNP ID:            hCV966445
SNP Position Genomic:     202401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14679):
ATTGTGACGTACTAGGTCCCACCTGAGAGAGGAGGCTTGGTGATACACACAGCACGTATCAGTAGCAGTACTGGAACCTAACACAAGTCTCCCCTCTTGT
K
TCTCTTCTCTTTTTACTGCTTGCCTTATTGCCCAAAACCTAAATTTAAAAATGTACTAATCAAAACTTTTTCTATATATAGTTCCCAAACAGGAAACCAT
Celera SNP ID:            hCV8754937
SNP Position Genomic:     195755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14680):
GAAGACATGAGACCTGTCCCAACGAAGTCATGGTCTTCAAGAGCAGGGGCCTGCCTCTCATGACAGTGACATGGGTGGCATGATCTGTGCCCTTGGATAG
R
CAGTGCTGGAGGTATCTCCTCAGTGGTGGAGGTATCTCCTCAGTGGTGAGAGGCATACGTGCACATAACTCACTTTGGTGAGGCCATAATAGAGCTATCA
Celera SNP ID:            hCV966446
SNP Position Genomic:     202417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14681):
CAGAGAACCTGGAATCTAGTTTGAAAACCACTCTTGTGAAACGAAGGGCTTGTAGAGCATCGGGGCCAGATGGGCCCTTAGAAATCATTGTGACGTACTA
K
GTCCCACCTGAGAGAGGAGGCTTGGTGATACACACAGCACGTATCAGTAGCAGTACTGGAACCTAACACAAGTCTCCCCTCTTGTTTCTCTTCTCTTTTT
Celera SNP ID:            hCV8754938
SNP Position Genomic:     195669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14682):
AGTGTTCTTACTCCCAGAGGTGTTTTTCTGGGTGGTGGGTTAGTCTGTTTTCTGCAGTCACTCACAGTTTTTTCCTCCTCGTGACAGCAAAACCCAGTGT
S
TGCATCTCCCGTTCCCAGTGGCACGAACAGTCCTGCCCCTAAGAAGAGCACCGGCAGCGTTGATTATCTGGCCCTGGACTTCCAGCCGAGCTCCCCAAGC
Celera SNP ID:            hCV966447
SNP Position Genomic:     203369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14683):
CCAATTTCCCAAAGCACTTACAGAGAACCTGGAATCTAGTTTGAAAACCACTCTTGTGAAACGAAGGGCTTGTAGAGCATCGGGGCCAGATGGGCCCTTA
K
AAATCATTGTGACGTACTAGGTCCCACCTGAGAGAGGAGGCTTGGTGATACACACAGCACGTATCAGTAGCAGTACTGGAACCTAACACAAGTCTCCCCT
Celera SNP ID:            hCV8754939
SNP Position Genomic:     195649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14684):
TGGGGTCGGGAAGTGAGTTTCTTTGCAGTGAGCAGTGCAGTGGAAGTCGGGCACAGAGGTAGCAGACAGATGTGAAGCAGTGGTGAAGGCCATGTAGCAA
S
TGGGGAAATACATCCAAAGGGCCTGGGAGTTGGGGGGTGCCCAACGCAATCCTTGGGGGTGCAGGGTGGAGCAGAAAGTGAAGGAGGGACACGTGCAAGA
Celera SNP ID:            hCV966448
SNP Position Genomic:     205700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:14685):
TAGGAGGTCGGGGCTACAGTGAGCCATGTTTGCGCCACTGCACTCCCGTCTGGGCAACAGAGGGAGACCCTGTCGCAAAAAAAAAAAAAAAAAAAAAAAA
R
AAAGAAAAAGAAAAAAGTAAGTCTCTCAAGATAGGGGAGAATAGACCTTAGGTAGTCTCTTGTCCATCTATTGATCTACTCTTTTTTTTTTTTGAGACAG
Celera SNP ID:            hCV26531212
SNP Position Genomic:     132236
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14686):
AAGCCCAGTCTTGAGTTCTTGTCTTGTTACCATTTAAAATTGACATTTAATTTTCAAATCACTGTTGGTGCCTAATCACTTAAGTTATTAATTTATTCTG
W
TGTATTCTTTTTTTTAAATTGTAACATATTTATCCGGTGGGTGGGACAGGAGTGTGTTCAAGTGGGTCATGTTTTTGCTGTGGTGACACATGGTACAGGC
Celera SNP ID:            hCV966449
SNP Position Genomic:     208333
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:14687):
TTTTCATTATCAAAAATCATGCTATAAAAAATGTTTGATTTGGAGGCAGGGGTGAAGGCATTAGGGGACACAGTTTCCGAATTGCAAAAAAAAACAGTCA
R
TTTACTTGGGCTTAAAAGTATAGCTATAAAACCATAACATAGTTCAACAAATCCATACCTTGCTTTTGCTCTAGAACTGCACTGTTCTGTATAGTAGCTA
Celera SNP ID:            hCV2716680
SNP Position Genomic:     173957
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14688):
CTTGCTCAGAACCTCACCCTCCAATTTCCCAAAGCACTTACAGAGAACCTGGAATCTAGTTTGAAAACCACTCTTGTGAAACGAAGGGCTTGTAGAGCAT
Y
GGGGCCAGATGGGCCCTTAGAAATCATTGTGACGTACTAGGTCCCACCTGAGAGAGGAGGCTTGGTGATACACACAGCACGTATCAGTAGCAGTACTGGA
Celera SNP ID:            hCV2716682
SNP Position Genomic:     195629
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14689):
GTGTTTGTATGCTGGGCAGGCTTCCCAGGGGTGATTGTGGAAAGGAAGGGGAGTGATTCTGTAGGGCCCTAAAAAGAAGCCAGGAAGAAGAAAAAAAAAA
A
CTGTTTAAAAGAAAATAGATTGACTCAGGCATTTGTGGGCATTATCTTTAGTCTAGACTTGGAGATAGAAGCTCAGGCCAGGAGTCTAGAAACCTCCATT
Celera SNP ID:            hCV7972856
SNP Position Genomic:     166789
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:14690):
ATAACGGGAATCACCAAGATTAGCGACACATACACCACCAGCTTAGGCCTCCCTAAGGAGGAGAGTATTAGAGGGTGACAAATAATTGAGTGTTTTGTCA
R
TGGCCTTATTAAATAATATATTTCCTAGCCTGTAATCCAAGCTATTTGGGAGGCTAAGACAGGAAGATCGCTTGAGCCCAGGAGTTCAAGACTGCAGTGA
Celera SNP ID:            hCV26531146
SNP Position Genomic:     147382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14691):
GGCAGGAGAGGCTCCTGCCCTGCTCATGTCTGCCTAGCTACCTACTCTAACAATGTGAGAAATGGGTCCAAGAAGTACCTCAGCTTTTTAAGAAATAGGT
R
TGATGAGGGGAAAATGTAACCAAAAACCAAATGGCTTTTAATTGAATTATTTTCTTGTGGGATTAGAGGTGTTCTCATCAAGAAAATATATTCTTGAGAT
Celera SNP ID:            hCV26531147
SNP Position Genomic:     146536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14692):
CTTGGAGAGGGCTATCTGCATGTGCAGTGGCCTGCCAGCACTTAGGAGGGGCTGCATGCACAGTGTGTTTACTAAAGCTGTACACATGCCCACTTGAGGC
R
TTCTTTTACCAGCCAAGTGTTCCTAGAGGAAGGCCAAATACCAGTTAAACTCGACCATTTTGCCTCATAGTGTGCGTGCTTGAGACTTGCCTATCTCCTG
Celera SNP ID:            hCV26531149
SNP Position Genomic:     146178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14693):
TCTGTCCTATAGAATGTCACATGTGCTAATGAGAAGAATTATACTCTGCAGCTGTTGGATGAAGTGTTGTTAGGTCCATTTGATCTAAAGCGCAGTTTAA
M
TCTAATTGTTTCCCTGTTGATTTTCTGTCTAGGTGATCTGTCCATGCTGAGAGTGAGGTGTTGAAGTCTCCAACTATGATTATATTAGAGTCTATCTCTC
Celera SNP ID:            hCV3152014
SNP Position Genomic:     181866
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,12)   total(A,12|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14694):
TTCATGGCTAGTGAATCATTATTAGCAAGAACACTCAGCCAAGACAGAAGGGAATAGATTTCATAGAATGAGAAACTTCTAGAATACGAGATCTCAAAGC
R
TCCTTAGAGAGCATTTAGTTCCAAACTGCTCAAATGACAGAGTGTCTAGAGGTGAAGAGAGGGCAACTAATTTGTTCAAGATCATGCAGCTGACTGGCCA
Celera SNP ID:            hCV27870028
SNP Position Genomic:     158374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14695):
AAATCACTTGAATCTGGGAGGCGGAGGCTGCAGCGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCAAAAAGAGTGAGACTGTGTCTCAAAAAAAAA
A
AGAAAAAGAAATTTTTAAAAAATTCCTTTCACAATGGCATCAAAAAATAAAATACTTAGGAATCAATTTAACAAAAGCCATCCTAGATCTCTGTACATAA
Celera SNP ID:            hCV26531077
SNP Position Genomic:     159391
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,10)   total(A,2|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14696):
GTTTAAATCTAATTGTTTCCCTGTTGATTTTCTGTCTAGGTGATCTGTCCATGCTGAGAGTGAGGTGTTGAAGTCTCCAACTATGATTATATTAGAGTCT
R
TCTCTCCCTGTAGATCTTAATGGTGTTCCATAAGTCTTGCAGGTTTTCTTCACTCTTTTCATTTGTATTCCCCCTTTCCTTCTGGCTGGGTAATTTCAAA
Celera SNP ID:            hCV3152015
SNP Position Genomic:     181960
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14697):
CAGCCCAAGCTGTACCTTGGCCCCTTTTAGTCACGGATGGAGTGACTGGGACACAGGGCACCAAGTCCCCAGGCTGCATACAGCAGAGGGACCCTGGGCC
Y
GGCCCACAAAACCATTTTTTCCTCCTAGGCCTCTGGGCTTGTAATGGGAAGCGCTGCTGTGAAGACCTCTGACATGGCCTGGAGACATTTTCCCCATTGT
Celera SNP ID:            hCV27870029
SNP Position Genomic:     150963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14698):
TCCCTGGAATGCAGGGAACCATATTATTTTAGCTACTGGGGTACCTCATTCTGGGGAGTCAGTGCACCGTTTCCTAGGATGCAGCCACTGGCTTCAGCTT
W
GGCACTGTGGAGGCATGACTGTTCTGAGCAGCCAAGATACTGTTTTCCTTGAAGAGAGCATACTGCTTCAGCTCTGGCCCAAGGGAGTGGGGAGAGGGGC
Celera SNP ID:            hCV3152016
SNP Position Genomic:     183647
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,7)   total(A,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14699):
TAGCAGTCGAATCCAACTAAATACGTATGTGTGTATATCTATATGTGTCTGTTTGGGACAATATATATATTTTAGGGAATATGCATGTGTGTATACATTA
R
GGGTAAGACATCATGACAAAGTAGTGTTTATCCCAGGAGTGTAAGGTTGGTTTGACTTCAAAAAAAAACAATCAAAGTAATTCATTACATTAAGAGAATG
Celera SNP ID:            hCV3152017
SNP Position Genomic:     186952
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14700):
GAACTGGCAGAGTCAAGACAAATAGAGTTCTTTTTCTCTTTGAAGACAAGTTGGTTTCACTGGACTTATTTTTGTCCTCCAGCCTTTGGGGCCTCATTCC
M
GATTCTAGCCAGTGTCTGTCTTCTTATTTCAAGAAGGCTGTTAAACCTGTAACAGATGATACATTGATGTGAGTCACATGCCCTGAAAAGCCATAATTCT
Celera SNP ID:            hCV3152018
SNP Position Genomic:     191385
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,9)      total(A,9|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14701):
ATTCATTATTTATAATGCAACAAGCATTAACCTAGGTGCTAAGGAGAGAAAAATGAGTAAGACACAGTTTCTTTCCTCAAGGAAATCACAGTCTGTTGGC
R
GAGATAAGTAGTAATGGTGCCTAATATAGGTAACACTTGCTACCTGCTCCAAGAACAAAGTTAAGCAAGTGATTAAGTTAAGCAATGCTTAGAGGTAGAG
Celera SNP ID:            hCV3152019
SNP Position Genomic:     193770
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,8|A,13)      total(G,8|A,13) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14702):
AACATTTCTTAAAAATGATTCAACATTGTCTTCAAATTTTTCTTTCAGGTTACTGACACGTATTTTGCAAGTTTCAACTTTGGCACTTTCTTGGTCTTAC
T
AGAAGATCTTAGCAAAAAGTCTCACAACTACTGAAATTCATGTTTCTCCTTAAAATGGCCCTTGATTTATTTGTTCAGGGTTGTATTTGTTCAGTCACAA
Celera SNP ID:            hCV26531650
SNP Position Genomic:     43980
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14703):
CCCAGATGTTCTGGAATACTACAAGAACGATCACTCCAAGAAGCCTCTGCGGATCATCAACCTGAACTTCTGTGAGCAGGTAGATGCAGGCCTGACCTTT
R
ACAAGAAGGAGCTGCAGGATAGTTTTGTGTTTGACATCAAGACCAGTGAACGCACCTTTTACCTGGTGGCTGAGACAGAAGAGGACATGAATAAGTGGGT
Celera SNP ID:            hCV25743153
SNP Position Genomic:     143050
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14704):
TTGTTTTAGCAGAGACTGGTGGCATTTTGCCCCTGCCCTAGAGATTTGTGGAACTTTGAACTTGAGAGAGATGATTTAGGGTATCTGGCGGAAGAAATTT
Y
TAAGCAGCAAAGCATTCAAGAGGTGACTTGGGTATCGTTAAAGGCATTCAATTTTATAAGGGAAAGCAGAGCATAAATGTTCGGAAAATTTGCCACCTGA
Celera SNP ID:            hCV26530926
SNP Position Genomic:     188220
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14705):
CAGGTTTGCTGCAAAGGAGAGCATCTAGGATAGTACTTTGGTACATAGCAGGCGTTCAGTAAAGTCAGCTTTGTGCCCCCTGCATGTAGACCAGGCAAGG
K
CCTCGTCTGCTACAATCTCACTCTCCTGGCATTGGATCAGTGGCAAGGATTCAAAGGGAGGAGTAGGATAGCTAGGCAGAGATAGCCCCCTGTGGGTCTG
Celera SNP ID:            hCV26530854
SNP Position Genomic:     200660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14706):
GGCCAGTAAGTGCTGTGAGAAGTGAACAAAGAATAGAAAATTAAGCACTGACAGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCC
R
AGGCGGGCGGATCACGAGGTCAGGAGATTGAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCAGTGG
Celera SNP ID:            hCV25998087
SNP Position Genomic:     55750
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,36)   total(A,2|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:14707):
GTAAATTCTACCAAGCATTCAAAGATAACACCAATCTTACCCACAGTCTTTCAGAAAACATAGGAGGAGGGGATTCTTTCACAGCTCATTTTATGAGACC
R
GCATAACCCTACTATCAAAATCTGGCAAAGATGACAGGAAATAAAATTACAGAGAATATCCCCCATGAATAATAAACAGAAATCCTCTTTAAAAACAAAG
Celera SNP ID:            hCV8754943
SNP Position Genomic:     186748
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14708):
CAGCTCACCTGTAGGTAAAGGATGTTGTCTTTGGAAATGGCTTCCATCAAGTCCTTGTGCAGGGTGGGCTCTGTCCGGACTCTAGAAGAGCCCAACTCAG
M
CTCGGGCCCCTCCCTGGGCCGCTGCCGGTAAAACAGCACATAGGCTGTGTCCTTAGGGAAGAAGGAGGTGACGTTGCTGACAGATTCGAAGGAAGAGAAG
Celera SNP ID:            hCV966451
SNP Position Genomic:     213148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14709):
GCAGGTCGAAAGAGAAGCGCAGCAGTGTGAGGATGAGGTAGCACGGCCCTTGGCTCAGCTCCACCACCTTCTCGGCATCCTGCAGGGAGGCACACGACTC
R
CAGTAGTAGCGGTTTTCTGCTGTCAGCTTCTCGGGGGACAGGAAGTAGTTAACCAGGTCCAGGACGGAGCGGGAGCCCTCAGAGCCACATGTCCGCTCCC
Celera SNP ID:            hCV25758290
SNP Position Genomic:     213599
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14710):
GAGAAGGGGCAGGGCGGGCAGCGCCCTCACGGGCATAGCAGTAGTAGTGACCACTCTCCGAAGACACTCCAGAGTGCACCACCACACTGCAGAGGTCATA
K
GCCTGGCCACGGCCACCAGCCAGTGGCAGGCGGAGCAGCAGGGGGATGGAGACGTCATCCAGGATCTTGCGGCGCCGCATGGTGCGCAGGTCGAAAGAGA
Celera SNP ID:            hCV966452
SNP Position Genomic:     213413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14711):
GAATGGGAGGTTGGATTAGCTGCGCTGAGGTCCCATCCACAGCTGGTGCTCAGCTGCTTGAAGGGGAGACTCCCTCCTCTGTAACTTCTTTCTGGGGGAT
Y
GGGGTGGGCAGTACCTATCCCCAGTCCCCTCCTAGCTTGACTTTAGTGGTTTCCAATGTAGAAGTTAACAAAGTATGCCCCATTCCTGTGACAAAAGCAC
Celera SNP ID:            hCV26530784
SNP Position Genomic:     207745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:14712):
CAGTAGTAGTGACCACTCTCCGAAGACACTCCAGAGTGCACCACCACACTGCAGAGGTCATAGGCCTGGCCACGGCCACCAGCCAGTGGCAGGCGGAGCA
S
CAGGGGGATGGAGACGTCATCCAGGATCTTGCGGCGCCGCATGGTGCGCAGGTCGAAAGAGAAGCGCAGCAGTGTGAGGATGAGGTAGCACGGCCCTTGG
Celera SNP ID:            hCV8754873
SNP Position Genomic:     213451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14713):
TTGCCACAGCAGTTTTTTATTCTCTCTCTCTCTCTCACAACATTTGGAACTTTCTGCCTTGTAGAATGGATTTTTATATTAATACATTACTATTATTTGA
W
GATGGAGCTCACAGTAGGTGCATAATAATTTGAACAAATCCATGTTGTAGAGGGATAAGCTAGTAGAAGAGATAGAACTTTACGCAGCTGAGGAAGTCAC
Celera SNP ID:            hCV8754948
SNP Position Genomic:     175721
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14714):
CCAGCCCCCTATTCTGGTAACTACCAAAATCCCTCGGGTGCAAGTGTAGGGGTAGAGATGGAAGGATGAGAGGTGAAATTGACCTTTTGAAAGCAAAGCT
S
TGGCTCACAGGCCCCAAACTACCAGCCGTATCTAGCATATCCCCACCCTCCACCCACTACCTCCTCCAACAAAGGAGTCAACTCAGTTGAAAAAACTGGT
Celera SNP ID:            hCV26530788
SNP Position Genomic:     207308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14715):
GGGTGCTGAGGCAGGAGAATCGCTTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCATCACTGCACTCCAGCCTGGGAGACAGAATGAGACT
Y
CGACACACACACACACACACACACACACACACACACACACCACACACGCGCGCGCGCGCACCAAGGGAGAGACTGTATGGTGGCAATAGCCTCTATAGCC
Celera SNP ID:            hCV16219127
SNP Position Genomic:     192423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14716):
TCGGAGAGCGACTGAGGTGTTCAAATCGAATCTCCCAGGAGGCTTCCTTCCAGCCCCCTATTCTGGTAACTACCAGGAGGCTTCCTTCCAGCCCCCTATT
S
TGGTAACTACCAAAATCCCTCGGGTGCAAGTGTAGGGGTAGAGATGGAAGGATGAGAGGTGAAATTGACCTTTTGAAAGCAAAGCTCTGGCTCACAGGCC
Celera SNP ID:            hCV26530789
SNP Position Genomic:     207221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14717):
CTTGGCTAATTTCTGTATTTTTAGTAGAGGTGGGGTTTCACCATGTTGGCCAAGCAACCAAAGAAATTTTTAAAAGAACAACAATAAAGTCAGGATTTAT
W
TTACTTGATTTCAAGAATTCCTGTCAAACTATGGTAATCAAGATAATGTTGTATTGGTGAAAGGACAAAAACCTGTAGATCACTAGAAGAATTAGCAAGT
Celera SNP ID:            hCV16219128
SNP Position Genomic:     189027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14718):
AGAGCAGGAACAAAAGGAAGTAAAGAACACTTGGAAGAGGGCCAAGCGGGCAACTTGAGAGATTTCAGTGCACTGTTTGACCTTTGATCTGGAGTTTTAT
R
TATTGGCATGCTTCCAGGGGGTTGTGTCCCTTCTCTCCTGATTCTTCCCTTGGAGAGGGCTATCTGCATGTGCAGTGGCCTGCCAGCACTTAGGAGGGGC
Celera SNP ID:            hCV26531151
SNP Position Genomic:     146029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14719):
GCAGAAGTGAGAGAATTGCTTGAACTCAGGAGGCAGAGGTTGCAGAGACAAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGGGAGACCCTGTCTC
M
AAAAACAAACAAAAAACAAAAAAAAAAGCAGACTGGGCACGGTGACTCACGCCTGTAAGCCCAACACTTTGGGAGGTCGAGGCAGGTGGATCACCTAAGA
Celera SNP ID:            hCV26531152
SNP Position Genomic:     145400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14720):
ACTGCAGAGGTCATAGGCCTGGCCACGGCCACCAGCCAGTGGCAGGCGGAGCAGCAGGGGGATGGAGACGTCATCCAGGATCTTGCGGCGCCGCATGGTG
Y
GCAGGTCGAAAGAGAAGCGCAGCAGTGTGAGGATGAGGTAGCACGGCCCTTGGCTCAGCTCCACCACCTTCTCGGCATCCTGCAGGGAGGCACACGACTC
Celera SNP ID:            hCV25754229
SNP Position Genomic:     213498
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,38|T,2)   total(C,72|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14721):
TGATGTATTCCTGAGTCACCTGTTGAGACTTATTCTGTCTTTCGGAGTGATGTGCATGAACCCATTATTGGAGGAGATCGCGGTATTGGACATCTGTCTC
R
AAGTCTCTATACACTGAGAACTGCTTGTCCCAACCATAGGCCTCTATAGGTCCACCAGTCTCTTAGCAATTTCTTTATATATATCTATATATGCTGGAGT
Celera SNP ID:            hCV8751466
SNP Position Genomic:     33163
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,13)      total(G,3|A,13) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14722):
GTTTTTAGAGCAGTTTCTCTGTGATTCTTCTAAGGCATCATGTTTTGGTTAAAAGCAGGTTGTACTAAAAAGTTAGAAAACTTGTTTTTCTGCTACTTAC
Y
GTGTGTAACATTGTTACTTCAACTCACCCTGCCTTAGTGGGGGTCCCCATGGATAAACTGATTATGGCTTTGCAAGTTCTCCCTTGCCTAAAAATGCTGT
Celera SNP ID:            hCV29155801
SNP Position Genomic:     141881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14723):
AACGAATTAAAAGGCCAGGGAGCTGGGCACAGTGTTTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACCTGAGGCCTGGAGTTC
R
AGACCATCCTGACCAATAATGGTGAAAACCCGTCTCTACTAAAAATACAAAAATTAGGCTGTGGTGACGTGCACCTGTATTCCCAGCTACTCAGGAGGCA
Celera SNP ID:            hCV26531156
SNP Position Genomic:     145202
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14724):
GAATAAGAAACGAATTAAAAGGCCAGGGAGCTGGGCACAGTGTTTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACCTGAGGCC
Y
GGAGTTCGAGACCATCCTGACCAATAATGGTGAAAACCCGTCTCTACTAAAAATACAAAAATTAGGCTGTGGTGACGTGCACCTGTATTCCCAGCTACTC
Celera SNP ID:            hCV26531157
SNP Position Genomic:     145194
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14725):
TTATTGAGGCTGGAAGGCTGGAGCACAGTTTGGGATTGGGATTGGGGGAGGAGATGCATGGGAGACAAGGGTAAGGACGCGTCTTATTCCTCTTTAGATC
M
CCGTATTAGTAGCCACAGAGTAGCTGCCCAGTAAATATCCACATGATTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAG
Celera SNP ID:            hCV26531084
SNP Position Genomic:     157515
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14726):
CTACAGCTATTAGGGAGTCTTTGTCATCCCAATTTTCAAATGAGGCCTTAGAAATGTTCTCATTCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGC
R
GATCACGCGGTCAAGAGATTGAGACCATCCTGGCCAACGTGGTGAAACCCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCACGCACCT
Celera SNP ID:            hCV27870034
SNP Position Genomic:     43371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14727):
CCTAGAGAGCTGGAGACAGTTTATTGAGGCTGGAAGGCTGGAGCACAGTTTGGGATTGGGATTGGGGGAGGAGATGCATGGGAGACAAGGGTAAGGACGC
R
TCTTATTCCTCTTTAGATCACCGTATTAGTAGCCACAGAGTAGCTGCCCAGTAAATATCCACATGATTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGG
Celera SNP ID:            hCV26531085
SNP Position Genomic:     157495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14728):
TCATCCAAAAAAAAAAAATGGAGGTAATAATATGTACCTCACAGGGTAGACTAGAGGCACATAATAGGTGCTTAGTAAATGGCAGCTGTGCTTACCACAG
Y
CACTGTTGTCCTTTTGGTTCTCATTAATTCCCCGTATACCATCTGTACGGCATATAATTGTGACCAAAACAGTGACAGTTACCTTCCAAGCATCCGTCAT
Celera SNP ID:            hCV29155736
SNP Position Genomic:     166066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14729):
GCTCTTTCCTGGTGAGTGTGGGTTAACCCAAGGGTCCTCAGGCCGGCCTGGTTAGGTAAAAGGTCACACCTTATGGAATTAAAAGCACAACCCCAAAAGA
K
TGATGGCGTCTCCATCTTAGGACCCTGCCCAAGTTCTTGTCTCAGTTCAGAACCCTGCGTTGAGTCTTTGGACAAGTAAGATATAAGTATTCTAGTCTGG
Celera SNP ID:            hCV26530860
SNP Position Genomic:     198782
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)   JBIC-allele(C,666|A,815)   total(C,666|A,815)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14730):
TCCTCCTTCCTCTGTCAGCTTCTTCCTGTGAGACCTACGAGTACCCACAGCGTGGTGGAGAGAGTGCAGGCCGGTCTGCTGAATCCATGAGTGATGGAGT
Y
GGCTCTTTCCTGGTGAGTGTGGGTTAACCCAAGGGTCCTCAGGCCGGCCTGGTTAGGTAAAAGGTCACACCTTATGGAATTAAAAGCACAACCCCAAAAG
Celera SNP ID:            hCV26530861
SNP Position Genomic:     198680
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   (G,-|A,-)   JBIG-allele(G,691|A,800)   total(G,691|A,800)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;UTR 5


Context             (SEQ ID NO:14731):
AGCTTACATCTCATTGGGAAAATAAAACCAACACATATAAATCAGGACAAGTATTGTTACTGTGGTGTTCAGAGAAGTGATGGCTGGGGTGAGCAGGACA
S
GTGAGTGGTGTAGGAGTCAAAGGAGAGGTGCATAGATGAGGGTAGAGTAGTCAAGGACAGCTTCTCTGCAGATGCTAACACTGGAGCTACATCTAGAAGC
Celera SNP ID:            hCV26530863
SNP Position Genomic:     198319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Gene Number:                 13
Celera Gene:                 hCG1640630 - 66000115967090
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY08(8614788..8629630)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12173):
CGTGCCCGACCAGCCATGGAGTGTATTGAGCCAAGGAGAAATATGATCTGACTTTGATTAAGTGTGGCCATGCCTGTCTGGAGAGCTGGCCCCAATATCT
GGCTTCTTCTGATTCTTTCCATCCCCTTCAGAGGTCTGCGTCCCAGCCCCAAGGGACTCCTCCTCCAAGCTTCTAAGTTTTAACAACTTCAGCCTCTTTC
CTTCGTTGCCCTTGTCCAAGGACGGTAGCTACTTCCTGCAGTTTCTCTGTCCGTGACACTTAGTGTTTTCTCTTTGCCTTTTCAAGTTTTCAATATCTAG
TTAACACTTTTATATACTAAGTTCTCTCTGTTAGAATAACTGGCATGGTTCCTGTCTCCAAGTGGACCCTGGCTGCACTCTCAATGGTAGACATCCAACT
GTGAATAAGACTTTGTCTCTAGGTCTCCCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCATGGCTCACCGCAGCCTCAAACCCCTGGGCTTATGCC
ATTCTCCCACCTCAGCCTCCCTAGCAGCTGGGACTACAGGTAGGTGCCACCACGTCTAGCTAATTTCCGTTTTGTTTTTTTTTTTTGGTGRGGGGGTTGG
GGGCAGGTAGAGATGGGGTCTCACTATATTGCTCAGGCTAGTCTCAAACTCCTGGCCTCAAATGATCCTCCCACCCCAGCCTCCCAAAGTGCTGGGATTA
CAGGTGTGAGCCATTGTGCCAGCCTCAAGCAATGATCTTGAAGTTGGTTGCAAGGAAAATGCCTTCCCTGCATTTGTTTCCCAGGGCTGCTATAACAAAT
GGCCACCAACTCGGCAGCTTCAAACAACAGAAAAGCATCTTTCATCATTCGGGAAGTCAGAAATCCAAAATCAAGATGCTGTCCAGGCCGAGCTGCTTCT
GGGGCTATAGGGGAGATCTTTCCCGGCCCCTCTAGCTCCTGACAGCTTCAGGCGTTCCTCAGCTCATACATGCACCACTCCCATCTCTGACTCTGTCCTC
ACATGACCTTCTCTGCATCTCTGTGTCTCAAATGTCTCTCTCCCTTTCTTTTATAAGGACCCCTGTCACTGGGCTTAGGACCCACCCTATATCTAGGATG
ATCTCTTCTCGAGATCTTTAATTTCATGACGTCTGCAATGACCTTTGTTCCAAATAAGATCACACTCACAAGTTCCAGGAGCTGGGAAATGAATATATCT
TTTTGGAAGCCACCTTTCAGTACATTCTTCGGTGGCTTGTCTGTTTCCCCCTCTGGGATGGAAGCTGCACAGGATATGTACTTGGAATGGCTGGTGCAGG
ACTGGACATATGGAAGGAGCCTCACCAAAGGTGTGTTGCCTGGCCAATGTTTACTATGTTTACATATTTTGCATTTACATGTTTTAATCCATATTTTAAA
AATCTATGTACAGGTTTTTTTTGCTTTGTGTTTTTTGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCACAGCTCACTGCAGC
CTTGACCTCCTGGGCTCAAGTGATCCTCCCCGCTCAGGCTCCCAAGTAGCTGGGACTACAGGCAAACACCACCACACCTGGCTAATCTGGGGGGGATTTT
TTTTTGTTTCTTTTTTTTTTTTTTTTTTTTGTAGAGATGGGATTTCACCATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGTAATCCTCCCACCT
TTGCCTCCCAAAGGGTTGGGATTACCGGCGTGAGCCCCGGTGCCTGGCCTGTACTGAGTCCTTTAAGCCTCCCTTGACCTGTTGACCCTGCTCATGACCT
ATAGAGGCAGTGGAGGTCTGCTGGTATTTGGTGGTTTTTTTCTACCTGCAGATTATTTGAAGTTTGTTGGGTTCTGTCTCCTAGTAATGTTGAAGGAGTG
AGTCATGGCTTCATTTGCATTCTTTGTTGAGTTTTTACATTTAAGTGAGGATGTGTGCAAAGATTTGAACTCAGGTGGGTGCCATTAACCTTGATAGTAC
ACTTCAGCTATATTAACTCAGCCTTAGCAACAGCTCTAGGATAAATTATTACCCCCGTTAGATGGATGAATATCCTTGATAGATAGCAGTTGCCTTTCAT
GCTGGGAATCTTTAGTCGCCCCTGCAGACCCCTCTCCATCCTTCCCTCCCCTGCTCAGCACTTGTGAGGCTGCCTTTTATAGCTTATATTGGATCCAATG
ATTGTTAGGGGCAGCAAAATATCAGCAGGAGAAAGAGAAGAGAGGAAGCTCAGGGTGTTTTTTTCTGCCACACTGCAGTCCCCGAGGAGGGCCACACAGC
GCACGTCCCAGCCGGGCATTGTTAACTTAAACTATGGTGTGAACGCCGCTGCCTCTCACTCATGGGTCACTGTGAACAGCAAACACATGGCACCTTGGAT
CCTGCAGACACGCTGGCAGTGGAGAAAGGGAGGGAGCCAGCCACGCCTGGGGGTCACTCTCATGAATGGCGTAGAGTGGGGGCCACACGTGAGGACAGGA
AGCATGAATGGCCGTCCCAGAACATCCACATGAGGGTTATTAATAGAGCCGTCCCAGGAGAGGACGCACTGTGCTTGGGAGGGACAACCGAGGAACAGAG
CCGGCTGGACCGTAAGAAGTCCTGTGACATGTGGGAAATGAGGGAGGCGCTGGCAGGCTACCAAAGGCCCTCTGGCTGCCTCTCCTCCCTGACCTTACTC
CCCAGTGAAGGTGGCCACTGCCACTCGGGCTCTGCGTTCTAGGCCCTCTGAGGCTGGCTGCATCCTCCTGGGTGTGCTTGATGACCCAGGAGCCATGTCC
CTCCATTTAAAGGGCTGTGCGGAGCCTGAGGGGCTGGGAACATAGGCAGGCCATGACTGGGAAATCAGACAGGGCCATTGTGAGTTGAATCATGTCCCCA
AAATTCATGTCCACCCAGAACCTCAGTGTGTGACCTTGTTTGGAAAAGAGATCTGTGCAGATGTCATTTGTTAGGATGAGATCATACTGGATTAGGGTAG
GTCCTGGTCCAATACGGCTGATGTCCTTGTAAGAAGAGGAGAGATGCAGACACAGACAGGCAGGGGGGAGGCTGAGTAAAAGCCGAGGCAGAGGCTGCAG
TGATGCATGTACAAGCCAAGGAACACCCCTGATTCCCAGCAACCCTGGAGGCTGGGAGAGGCAAGGACGGCCCCTCCCTAGAGTCCTCAGAGAAGGCATG
GCCCGGTCCACGGTCACAGCCTGTTGGCCTCTGGAACCGTAAGGAGACCATTTCTGTTGTTTGAAGCCACCCACTTTGCGGTGCTTTCTTAGGACAGCCA
CAGTAAACGAACCCAGGCATCTTGTATTTGCAAAGGGTGTTTGCTGTGGGCCTCACTGCATCCTTAGTTTTGCTTTAGGTCTTTGGGAGACTTGGCCTGT
CCTGGGGCAGCCCCATGCAGCGGTGATGCAGAAGTCAGGACCTGCATTCGGCCTGCCTGGGTTCGAATGTCAGTCCGGCCTCCTCCTAGTGGCGGCAGAT
TGAATCTCCAAAGATGGCCACGAGCTGCCCCACCCCATGTGCTCCCACCATGGGACACCGACACTCCTCCCATCGGAAGCAGAGTCCACGTTCCCTCCTC
TTGAATCTGGACAGGCCTGGGCCTGTGGCAGAAGTGACGCTCTGTGACTTCTCAGACTAGGTTATAGCATTGAAGTAGCTTCCACTTTCCTCACCAGAGC
ACTTGCCTGGGAGCCCTGGGGCAACCATGGTGTGAGGAAGCCCAAAGCCACCGCTGGAGAAGCCCTGAGACTCCATGAAGAGAAATGCCTGGCCAGTCCC
CTCCTGTTCCGACTCCAGCCACTGTCTGACTGCAGTAGCATGAAAGACCCTGAGACAGAGCCACACAAAATCCCAAATTCTGGCCAGTCGCAGCAGCTCA
CGCTTGTAATCCCAGCACTTTGGGAGGCCAAGCGGGCATATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGTCAACATGGCAAAACCCCATCTCTACT
AAAAATACAAAAAATTAGCCGAGTATGGTGGTGGGCACCTGTAGTCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATTGTTTGATCCTGGGGAGGCAGAG
GTTGCAGTGACCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGATAGGACAAAACTCCGTCTTTAAAAAAAAAAAAAAAATCCCAAATTCCTGATCCAT
GGAAATCAAGAGCGGGAATAAAATGATTGTTGTTTTAAGCCACCAAGTAATTTGGGGCTAATTTGTTACATAGCAACAGAAAGTGAATACAGGGGAGTAC
CATGATTTCTGTTGTATAAATGAGGAAAGTGAGGCATCCGTTCATCCATTCAACTATTTATTGAGTGCTTGCTATATGCCAAGCACTGTCTGAGCACTGG
GATCACAGCAGAAACAAGGAAAACAGGACCCCTCATTTATGGAGCACAAGATACAGACAGGCTTAGTAATGGCTGAACTTTAATCTAATCTAATCTAATC
TTCAATTCTGTGATCCTAACGCCCAGGGCTTTCTCACCCTACAAAGAAAGTCCTCTGAGGTTGAATTCTTGTCTCTCACCCCAGCTTCTTCCTCCAGTGG
AGGTGAGAGAGAGAACTGAACCCTTCCCGTTGGAAGTTCAGCTCCATTCCCGGGGTGAAGAAGGCAGACAGTGTTTTCTGCCCCACGTTACCCTATTGTT
GGGGGTAGCATCAGGCACTTGGGCTCCCAGAGGAAGCTTTGAGGAGGGAGGAGAGTGGCGGGAATGTCCCAGGGTGTGAGCACTTGGGGAATAAAGCCAA
CCAAGAGCTTTTGCCTCGCTCCCCAGCACCTACTGTGCTTATCTTAATGGGATCACTTTTCTAGCATGATGTGAAGTAGCTTCGGGCAGAACTCCAAACC
TTAGAGAGATCATTTGAAAATACCATTTGGGCTGGGCGCAGTGGCTCATGCCCATGATGTCAGCACCTTGGGAGGCCGAGGCAGGTAGATCACTTGAGAT
CAGGAGTACGAGAGCAGCCGGGCCAACATGATGAAATCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCGCACGCCTGTAGTCCCAGCT
ACTCAGGAGGCTGAGGCAGGAGAATGGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAAATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCAA
AACTCTGTCTCAAATACACACACACACACACACACACACACACACACATATATGCACATATATATGTGCGTGTGTGTTCATGTATATATGTGTGTGTGTG
TTCATGTAATTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATATATAAAATTGTTCATCATAAGTGACAGATGACTCCTGTTCTCGGGAGCCC
ATCAGCCATCAGTCTGTTTTTTTGTCTCTGACTGTGGGGTGAGGGTCATATTCAAGCCATTTATTCAAGAACCACGCGACTCCCTGCTTGACTTAGATCC
CAGTTCCAGCAGAGCTGTCTGCTGTGCTCTGAGAGCGAGCAGTTCCTTCTGTCTGGGTGAGTTTTTAAGTTCATGCTCACAGGCTGGTCCCCGTCACCAA
GACAGGTCCGCTGTTCTCAGCCTCAAAAACAAACAAATGAACAAACAAGAATGAAGAGGACTATTTATTTATTTATTTATTTCAGAGACAGCATTTTGCT
CTGTCACCCAGGCTAGAGGGCAGTGGCATGATCACAGCTCACTGCAGCCTCAAACTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTTGCCA
GGACTACAGGCGTGCAACACCACAGCCCAGCTAACTTTTTTTTTTTTTGTAGAAGTGGGGGTCTCCCTATGTTGCCCAGGCTGGTCTTGACCTCCCGGGC
TCAAGGGATCCTCCTGCCTCAGCCTCCCAATGTGCTGGGATAACAGGCATGAGCCACTGCACCCGGCCAAAGGGAGCTTTAAAAAGCATCCAGAGCAACT
TCCGCAGGCAGCTGCATAAGCTGCRGTACCGCCGGACGTCAGAGCCACCTTGGCGTTCACCCTGGGCTCTGCCTATACACTTGGCTGGCCACCCCGAGTC
ACCAAGGACAAGGGTCCTTCCCTCAGAACCCTGTCCCACAACCTGGTCAAAAACTCCAAGAAGACCATCAGGCACCAGCATGTCACTCTTAAGAAGTACA
ACCCCCCCAAGCTGGCAGCACCRGGGCCAGCTGCCCCCTGAAGACCAAGGGGACGAGATCTCAGTGTCAGAGGAGCTGGAGCCCAGCACGCTGACCCCGG
CCTCAGCTCTGAAGCCCTCAGACGGCATGACCATCAGCAGCCTGGTGGAAGAGGCTTGCTGCCGCAACTAGCAGTRCCTCGGRMTGGGCACCCTGAGCAG
CAGCCTGAGCTGGGCCAAAGCTCTTCCGCATTTCTCTGGACAACCGCATGTTGACCACCAACTGCTGCAGCTACCCGGGGCTGCTGATCGTGCCCCAGGG
TGTCCAGGACAAYGCCCTGCAGTGGGTGTCCCACTGCTACTACCAGAACTGCTTCCCCGTAATCTGCTGGTRCAGCGGGTGGTCCAAGGCAGTGCTGCTG
CGCTCTGGGGCCTGCAGGGCAGAGGTGTCCTCGGCCTCTTCAAGGCCCAGAACGCACCTTCTCCAGGCCMGTCCCAGGTGGACTCGAGTAGCCTGGAGCA
GGAGAAGTACCTGCAGGCTGTGGTCAGTTCCATGCCCCACTATGCCGACGCGTCGGGACGCAACATGCTTACCGGCTTCTCCTCAGCCCACATGGGCAGT
CACATTCCCAGCCCCRGAGCCAGGGTCATCACACTGTCCAACCCCATGGCGCCCTTGCCCTCCAGATGGACTGCACCCCGAAGTAAGTGGGGCAGTGTCC
AGACCAGCGGGCGCAGCAGTGGGCTTGGYGCCAATATGGGCTCCTGGTTAGTTGGCAGAGACGTGCTGGCCCCACCCCAGGCAACAGGGCCCCCTCGCCC
ACCCGGGCTTCCTGCGGCTGCAGCGAGTAGCCCTCTACRTCCTCRGGAACAAAGCCCAGCTCAAGGGTGTGCGGCCAGACTCCCTGCAGCAGTGGGAGCT
GGTGCCCATTGAGGTATTCGAGGAACAGCAGGTGAAGGCCAACTTCAAGAAGCTGCTGAAGGCATGTGTCCCGGGCTGCCCCGCTGCTGAGCCCAGCCCA
GCCTCCTTCCTGTGCTTGCTGGAGGACTCGGAGCGGCTGACCCCAATCCACAAGCTGCTGCAGGTGCCAGTGCTGGTGGTGGAGCCCCTGGATTCAGACT
CCTCTGTGCTGGTGGGCCTGGAGGATGGCTGGGACATCACCTCYCAGGTGGTATCCTTGGTGCAGCTGCTCTCAGACCCCTTCTATTGCACGCTGGAGAG
CTTCCGCCTGCCAGTGGAGAAGAAGTGGTTGTCCTTCAGTCATCCCTTCAGCCACCGTGGAGCCCACACCCTGGCTGGGCARAGCAGCGGCTTCACACCT
GCCTTCCTGTAGTTCCTGGACTGTGTAACACCAGGTCCATCTGCAGTTCTCCATGGAGTTTGAGTTCAGCCAGTTCTACCTCAGGTTCCTCGGCTGCCAC
CATATGTCCCGCCGTTCCGGACCTTCCTACTTGACTCTGACCCTGAGAGCATTGAGCTGGGGCTGCTGTATGAGGAGAAGGGGGAACGCAGGGGCCAGCT
GCTGTGCAGGTCTTTGTGGGAGTGTGTGGACCGGCTGAGCAAGAGGACGCCCATGTTCTACAATTMCATGCATGCACCCGAGGACACAGAGCTCCCGCAG
CCCTACAGCAACGTGTCCAACCTGAAGGTGTGGGATTTCTACACTGAGGAGATACTGGCCAAGGGCCCTCCCTATGACTGGGAACTGGCCCARGGGCCCC
CTGGGCCCCTGGAGGAAGAACGGTCTGACGGAGGTGCTCCCCAGTGCAGGCACCGCGTGGCGTGGCCCTGCTACGACAGCTGCCCCTGACCCCAGCCTGA
TGCTATCTCACTTCTGCTGGAGGAGCTGCAGAGGCTGGAGACAGAGCTGGGCTAATGCCCTCAGTGATGGAAGGACACCTGGGACCAGGTGAAGGCTGCA
CAGCGCCTGGAAGGCTGGCCAGACGGAAGTGGCACCCCTAGCTCCCTTCTAGTGTCCACTGCACCCCACCACCACCGTTCCTGGGTGTGTGACTGCCGGA
GGGGCCCGTGGGCTCCACCCTGAGCCTCAGCCTGGACAGCGACCAGAGTAGTGGCTCGACCGCTTCTGGCTCCTGCCAGGCTGCCCGCCACAGCACCAGC
ACCCTGTGCAGCCAGTTCCAGAGAGCTGAGAGTGAGAACGGGTCCAACGAGGGCACTCTGTAGAAGAAGGAGGCCTTCATGAAGCCTTGGAAGGCCCGCT
GGTTCATGTTGGACAAGACCAGCACCAGCTGTGCTACTRCAACCACTGTGTGGACACAGAGTGCAAGGGTGTCATCGACTGGCGGAGGTGGAGGCTGTGG
CAGGGGCACGCCCTAAGACCATGGATGAGAAGGCTTTCTTTGACGTGAAGACAACACTTTGCGTTTACAACATCTGTGCCCAGGATATGCCCTTGGCCCA
GCAGTGGGTGGACGGGATCCAGAGCTGCCTGTCAGACACCTGAGCCTCCCGGCCCYGCCCAGCTGCTCTGCTTCCGGTCGTTACTGACCACTAGGGGTGG
GCAGGGCTGCCCCAGCCATCTTTACTGCCCCAGCCCTCAACAATATTGAGGCCCTGAGCCCCCAGCACATGGTGCATACAGCCCCTGCCCCATCCCGCCC
YGCCCCACCCAGCTGGCCCTAACTTATTTTGGGGTCACAGCTGAGCACTGTCCCTGGAGGTGACCAAGGTACAGCCCGCAATGGGCCTGTAAATAGCCCA
GCCCTGTCAGCGTGTGCTGGTCCAGCCAGCCGGCTGCAGGCGAGTTGTTTCTAGAACCAGAGTCTATATAAACAGAGAGCTAATGCCAAAAAAAAATAAT
AAATACATAAAGAAATCATACAGAGCAAGACAAATCATCCAGAAATCACCTCCAGGGAACTGAAGCACTTATTCCAGGACATTTGACCCTGCAGCCTGGT
CCCTCTCTCCCTCCCTCCCGCCTCCATCTTTCCCCCCTTCCATCTTCTGTGTTCAGATAAACACCAAGAGCCTTCAAAGAGCCCCCGGGAAATAACTCAG
TTTCTTGGGCACATATCAGCTGCCATGAATGGTTCTACACACTGAAGTCCATTATCTCAGTGACTGCGAGGACTGAATGAGCACAGCCTGGAGCTGAGTC
AGTGTTCCATAAAAGTTGGCTCTTATTTTTATTATACTGGACACAGAAAGGCCAGATGCCTTCCCCAAAGCCCCTCCCTGTGGGTGGCAGTGGCCCAGGA
AGTCTGGCACTAATGTCAGTGCTGTCACCTGCCACTCTGTCCTCAAGGGCCTCTGGGACATGCTGGGAAGGCAGGCCGTGAGCCAGATGTTGCAGAGCTG
GGCCCTGAGACGCTGTCCCTTCAGTGACCTTTCCTGTCCAGGGCCCACAGCGGAAGCTGACATGTGTGCTGCCCCTCCCCTCCGCTCCCCTCCCCTCCCC
ACCCCATTCTACTCTATGGGCTTTGGTGGGAAAAAAACCAGGGCCCCATCCCCTGAGGCCTAGGCCAGTGCAGACATAGACCTCGAACTCTGCCCAACAT
GGATGGCCTCTGCCCAGGTGTGGGAGAACAAAGGCAAGGAAAGGCTCAAGGAACGTTCCAGGCATCAGGAAGCCAGGCTTCCCCTTCAGGGCTGTCGAGT
GCTCAGGTTTCTATGCCTGTCAGTCACCAACACTTTTGCAGTGGGCAGCTACTATGTGCCAGGCACAAAGGGTAACTGGGCACACCTCTTTTCTTGGAAT
GGGTCAGAGGTTGTCATCAAGGAGGTGATGTTTAAACTGAGCTCAGGGGAATAAGGAGGAGCCAGGGTTCGGGGAAGAGCATCCCAGCAGAGGACAGAGC
CAAAGCCAGCGCTTGAGGAGGCAGGGGTGGAAGGAATGTAGTGGTTTGAGGAGCCCTGGCAGGCTGGTGGGGCTGGAGAGGGAGGGTAGGTGGGCTAATT
AATGCCCTCGCAAAGACGTCCACTCCCTAATCCCTGCAACCTGGGAATCTCACCTTATATGGCAATAAACAGACTTTGCAGAGGTGACTAAACTTTTGCA
GTGGTGACTAAATTAAGGCTCCGGAGATGGGAAGACCATCCTGGATTATGCAATGGACCCTAAATATGATCACAAGTGTTCTTATTATACAAGAGGGAGG
CAGAGGGCGACACCACCACACACAGAAGCAGGGAAGGCAGTGTGACCACGGAGGCAGAGACTGGGGTGATGCGGCCACAAGCCAAGGAACACCTGGAGCC
ACCAGAGGCCGGCAGAGGCCAGGAAGTATTCCCCTGACAGCCTCCAGAGAGGGCGGCCCTGCCACACCTCGACTTCAGCCCAGGGATACTGATTTTAGAC
TTCTGGCCTCCGGAGCTATAAGATAATACATCTGTCTTGTTTTACGCCACCGAGTTGTTGGCAATTTGACACAGCAGCCGCAGGAAACTCATACAGACGC
AGGAGGAGAGCTTCGAGACGGTTTAGGAAACTCACATGGAGGGCAGCTCGAGGAGAGCTCTGAGACAGCTTAGGAGGCAGCTGGGGAAAGGGGGAAGGGG
CTGGATTTTGTTCTTAGTGCTTCTCCATCCCCCTCTCATTCACCTCCTCCTTTCTCCCCTCAAAGCTCCTCAGCCCTTTTAAAATAATTTCACTTGTTGC
AGTAAGCAGGTGTCAGTTTTTGTGAAGGTATGAACACGTTTTAAAACCTTGCGGAAGGTCGAGGCTGCAGTGAGCTGTGATCGCACTACTGCACTCCAGC
CTAGGCAACAGAGCAAGACCCTGTCTTTAAAAACAAAACAAAACAAACAAAAAGACAAATATATATATATATAAAACTCAGAGACATTTCCTTTAAAAAT
AAAATAAATAAAATCTCTGGAGGAGAAACAAGCTTCTGGGCCCATCTCCTCCTCCCTCTCCTCCCTGCCATCTCTCCTCTCCTCAAATGTCCCTGCAGTG
TGAACCCCGGCCTTGAGGCTGGGAGCAGGGAGGCCAAGAGAGGAAGCTGTACTCCGCCTAGCTCCTGGCTGTCAGCACCCATGGCTGGCAGGATTGCCAC
AAACTCTGGCGCTCTAAAGGCTGATAAAGCCCCACAGCCTGCACGTCTGGAGCCTGGGCCTCCAGCCCTGATAAGCTGGACCTGTCAGCACCATGGCCAC
ACCTGCTGTAGGCAGTGAGCGCCACCCGCCTCCCCTGGCCACTCCCACTCACGGCTTCCTGTTCCCTGTGCACAGCCAAGCCCTGGCCACCATGCCTAGG
CCACCCCTCCCTGGATGAAGAACAAAGTGGAGTGGCCATGGGCAAGCAGATTTGCCCATTACATTTCATCTCTGCATCCCCCCAACCCCATCCCGCTCTT
AAGCACCAGCGCTGGGGATCAGAAGACCTGGGAGATTCAGGATAGGGGTGCTGGAGCCCACCAGGCACACAGTTCCCTGAGGAAGTCACATGGGCCGATC
ACACGCAGAGCATGAAGTGCTGTCAGCAGCTCCAACACATTCCTGGGATTCTCCAGCCCACCCCATGTGGCCCTGAGGGGAGTGTGCAAGTGCATGGGGG
CTGAGAGCCTGGGTCATTGTCACGGCCAAGCAGGAAGCAAACTATGAGAGTCTTTGCTCCAGCCGGGATCACCTGTGCCCGCACGTGAGTGGGTACAATG
TTCTCCATCCCTCGCCCGGGAAGTCATCGTTCATCAAGCCTGGGCTACTTCCCGTGGTGTGGAAAACCTCCACTCACCACAGCCCACCAAGCGGGCTCCA
GGATGGACCCAGTCTGCCGGCTCTGGTAGGAGAGTTAGAAAGGCCTCTTGGAAAAGGTGGGCAGGCAGCCAGGGACAGGCACCCCTAAGAGATCCTCCAG
GGCTCTTGCTGGTGAGGGACCCGCTCGCCCTTCTCACCGTCCTGGGCTTAGTTTAGCAAACACCTGTTCACACCTACCATGAACTCACCACTGTTGGACG
AAGGCGACCCCCAAATGTCCCTGCCCTCGAGGAATGTGTAGTCAAAACAGAGAAAGACCAAACATGTTTTGTCGGGTTTTTTGCTTTGTATTTTATTAAT
TACAAAGCCCAGATGTCACCAAGTTTCCCACCAAACCTCAGAAATCAGTGGTAGAAAAATAACAAAGTAAGAAGCCCCAAGCCATATAATATAAACCTGG
GGGTTCAGGCTAGAGGGGTGAGGGGCGTGCAGTGGAGGTTTTTTTGTTTGTTTTTGCTTTTTTGTTGTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCT
GGAGTGCAGTGGCGCCATCTTGGCTCACTGCAAGCTCTGCCTCCTGGGTTCACACCACTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCC
CACCACCACGCCCGGCTAATTTTTCGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCTGC
CTCAGCCTCCCAAAGCACTGGGATTACAGGCGTGAGCCACTGCGCCGGGCCCTTTATTTTATTTTATTTTTTTTGAGAAAAAGTAACTCAAGTTTACTTT
TCTCAAAAAGTAGTAGAAATCATGCCAGGCATGGCGGCTCACACCTGTAATCCCAGCACTTTGGGAAACTGAGGCCAGAGGATCGCGTGAGGCCAGGAGT
TTGAGACCAGCCTGAGCAACATAGTGAAACCCCATCTCTAATAAAAAGACAAAAAATTAGCCGGACATGGTGGTGTGCACTTGTGGTCCCAGCTATTAGG
AGACTGAGGCATGAGAATCGCTTAAACCGGGAGGCAGATGTTGTAGTGAGCTGAGATCATGCCACTGCATTCCAGTCTGGGTGACAGAGTGAGACTCTGT
CTCAAAAAAAAAAAACAAAAACAAAAAACAAAAAACAAGAAAAACACACCCATATATGTATATACATATGATTCTATATATCCTGTATATATAGAAGAGG
ACGCACAATTAAAGGTAACTCCCTCCCATCGAACTCCCAGTCCCTCAGCTCCCACCTACTCCCCTCCCAGGCATCGCTGATCAATTTCTTATGCCTCCTT
CATGAATTTTCCTCTACAGCACAAGCACATGCAATTTTTTTGCATATTTGTACTACTTAAATTATTAAGTTATTTAATTACTAAATTGTCTTAGAGATAA
TTCCATATGAACATATTTAGACCTAATAGCATAACCATGTAACATAAATTCCAAACCAGGATGCGTTGGTATGACATGGGTTGTGTTAAAAAGCCCCCCA
ATGGATGGATGTAAACCAGAACTGCCCCAGACAAATGTGTCTTAGCAGGAGCTGGGAGAGAGCCAGCCAAGCAAAGCTGATGCAGCCCCATTCAACTCAA
CACAGCTTTTCTGGGTGTGTTTTATTTTTATTTTTAATTTTTAATTTTTTAATTTAAAAAAATAGAAACGGAGTCTTGCCATGCTGCCCAGGCTGATCTC
AAACTCCTGGACTCAAGCGATCCTCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCGTCTGAGTGTTTAACAAGCCTAAG
CATGTGACAGTGGGACCTGGGGTAGGGAGGGTCAGGCTCTGAGCCCCCACAGGCACTGAGCCATCTCTACTCATATCCAGGAGACAGTATGGGGGTTCTG
AGGGGAACAACTATGCCAGTTTTTGGGGAAACATGTTCATCATTTTCCTGAGCACTTCCCTCTACCTTTGCTACGGAAACCCCAGCTCACCCTCCGAGCC
TGATTCAAGGCCCATCTGCTTGTCGGCTTTGGTCTCGGAGAGGTGCCACGGAGTCAGGCTAAAGAGCAGGGCAGGACAGGGGACCTGCTGGGGCTGACCG
CTGAGCCACGGACAGCCCTGTGGGTGAGACCGGTGGACATTGTCCCCAAGCCCCATTCCAGCAGTGCACCCTCCCATGGTGTCATCCTTCTGGCCTCCTT
TGGTAGACCAAGTCTCCTTTGCCCAGGTAGCCTGTCTGTGACAGCCACCTCCCTGCATTTCTAGGCCCCCATTGTCCAAGAGTGACCAGGGCACTTCCCT
CTTGGTTTCCACCTCAACGAGGGCAACGTGTATCTCTGAGCCCCGGCTTTGTGCCAAGCACTGGAGTTACAACAGCAGGCAGATTCCATGGAGCTGATGT
TCTGATGGGGAGCACCAGCACACAGCAAAAACGGTCCTACAAGAACAGATGGCAATAAGCCTGAGCCTAATGTCCTGGCCTGGGCAGGCCTCTCTAGGGA
AGGGACATTTCCATTGTCTCACATTACATTGAGTAAGTGGGACTCAGCTGGGCGAGGAGGAGAGGGTGTGAACTTGGTGTGTTGGAAAACAGGAGAGATG
GTCACGGGTCTAGGGCTTGGAGTGAGAGCTGGGCAGGGCTGGAATTTGTGGGGCCTTCTGGACGGTGATAAATTCAGACCCCATCCCAGGGCCATGAGCA
GTCGCTAAGGGAATTTAAACAGGAGTGTGGGGACAGGATCAAATTTGCCACCCTCCCTCTCCAGGGAAAACACCTTGGGCTAAGAGGAAAGGCAAATGAT
GAAGCCTTGGACTCCAGGCCGGGGCCCTGAGAGGAGGGAGAGGGGTCGCCTCCATCTCCGAGCAGCGGGACTAAGAGCCCTTTGGCGCCTCACCCCAGGA
AGTCGGCTCTGTAAGGACTTCCCCAGCTTCCTCTGAGGCCAG


SNP Information

Context             (SEQ ID NO:14732):
GGCTGTGGTCAGTTCCATGCCCCACTATGCCGACGCGTCGGGACGCAACATGCTTACCGGCTTCTCCTCAGCCCACATGGGCAGTCACATTCCCAGCCCC
R
GAGCCAGGGTCATCACACTGTCCAACCCCATGGCGCCCTTGCCCTCCAGATGGACTGCACCCCGAAGTAAGTGGGGCAGTGTCCAGACCAGCGGGCGCAG
Celera SNP ID:            hCV25747666
SNP Position Genomic:     6816
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,39|G,1)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,35|G,1)   total(A,69|G,1)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14733):
CTGGAGCCCAGCACGCTGACCCCGGCCTCAGCTCTGAAGCCCTCAGACGGCATGACCATCAGCAGCCTGGTGGAAGAGGCTTGCTGCCGCAACTAGCAGT
R
CCTCGGGCTGGGCACCCTGAGCAGCAGCCTGAGCTGGGCCAAAGCTCTTCCGCATTTCTCTGGACAACCGCATGTTGACCACCAACTGCTGCAGCTACCC
Celera SNP ID:            hCV2482660
SNP Position Genomic:     6376
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,11)   caucasian(A,28|G,10)   total(A,47|G,21)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(G,2)   caucasian(A,3|G,5)   total(A,3|G,7)   
SNP Type:                 UTR 5

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:14734):
TCACACTGTCCAACCCCATGGCGCCCTTGCCCTCCAGATGGACTGCACCCCGAAGTAAGTGGGGCAGTGTCCAGACCAGCGGGCGCAGCAGTGGGCTTGG
Y
GCCAATATGGGCTCCTGGTTAGTTGGCAGAGACGTGCTGGCCCCACCCCAGGCAACAGGGCCCCCTCGCCCACCCGGGCTTCCTGCGGCTGCAGCGAGTA
Celera SNP ID:            hCV2482661
SNP Position Genomic:     6929
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,13)   caucasian(C,23|T,17)   total(C,46|T,30)
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:14735):
GGCTCCTGGTTAGTTGGCAGAGACGTGCTGGCCCCACCCCAGGCAACAGGGCCCCCTCGCCCACCCGGGCTTCCTGCGGCTGCAGCGAGTAGCCCTCTAC
R
TCCTCGGGAACAAAGCCCAGCTCAAGGGTGTGCGGCCAGACTCCCTGCAGCAGTGGGAGCTGGTGCCCATTGAGGTATTCGAGGAACAGCAGGTGAAGGC
Celera SNP ID:            hCV2482662
SNP Position Genomic:     7039
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,21)   caucasian(A,18|G,22)   total(A,31|G,43)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,9)      total(G,5|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14736):
CTGTATGAGGAGAAGGGGGAACGCAGGGGCCAGCTGCTGTGCAGGTCTTTGTGGGAGTGTGTGGACCGGCTGAGCAAGAGGACGCCCATGTTCTACAATT
M
CATGCATGCACCCGAGGACACAGAGCTCCCGCAGCCCTACAGCAACGTGTCCAACCTGAAGGTGTGGGATTTCTACACTGAGGAGATACTGGCCAAGGGC
Celera SNP ID:            hCV2482663
SNP Position Genomic:     7766
SNP Source:               Applera
Population(Allele,Count): african american(A,34|C,2)   caucasian(A,37|C,1)   total(A,71|C,3)
SNP Type:                 UTR 3

SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,6)   total(A,6|C,5) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:14737):
GGCTTATGCCATTCTCCCACCTCAGCCTCCCTAGCAGCTGGGACTACAGGTAGGTGCCACCACGTCTAGCTAATTTCCGTTTTGTTTTTTTTTTTTGGTG
R
GGGGGTTGGGGGCAGGTAGAGATGGGGTCTCACTATATTGCTCAGGCTAGTCTCAAACTCCTGGCCTCAAATGATCCTCCCACCCCAGCCTCCCAAAGTG
Celera SNP ID:            hCV2482647
SNP Position Genomic:     591
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,17)   total(G,17|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:14738):
ACTTTGCGTTTACAACATCTGTGCCCAGGATATGCCCTTGGCCCAGCAGTGGGTGGACGGGATCCAGAGCTGCCTGTCAGACACCTGAGCCTCCCGGCCC
Y
GCCCAGCTGCTCTGCTTCCGGTCGTTACTGACCACTAGGGGTGGGCAGGGCTGCCCCAGCCATCTTTACTGCCCCAGCCCTCAACAATATTGAGGCCCTG
Celera SNP ID:            hCV2482664
SNP Position Genomic:     8656
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:14739):
GCAGGGCTGCCCCAGCCATCTTTACTGCCCCAGCCCTCAACAATATTGAGGCCCTGAGCCCCCAGCACATGGTGCATACAGCCCCTGCCCCATCCCGCCC
Y
GCCCCACCCAGCTGGCCCTAACTTATTTTGGGGTCACAGCTGAGCACTGTCCCTGGAGGTGACCAAGGTACAGCCCGCAATGGGCCTGTAAATAGCCCAG
Celera SNP ID:            hCV2482665
SNP Position Genomic:     8801
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:14740):
TCCCAATGTGCTGGGATAACAGGCATGAGCCACTGCACCCGGCCAAAGGGAGCTTTAAAAAGCATCCAGAGCAACTTCCGCAGGCAGCTGCATAAGCTGC
R
GTACCGCCGGACGTCAGAGCCACCTTGGCGTTCACCCTGGGCTCTGCCTATACACTTGGCTGGCCACCCCGAGTCACCAAGGACAAGGGTCCTTCCCTCA
Celera SNP ID:            hCV27855555
SNP Position Genomic:     6025
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,17)   caucasian(G,20)   total(A,1|G,37)
SNP Type:                 UTR 5


Context             (SEQ ID NO:14741):
TCCCGCAGCCCTACAGCAACGTGTCCAACCTGAAGGTGTGGGATTTCTACACTGAGGAGATACTGGCCAAGGGCCCTCCCTATGACTGGGAACTGGCCCA
R
GGGCCCCCTGGGCCCCTGGAGGAAGAACGGTCTGACGGAGGTGCTCCCCAGTGCAGGCACCGCGTGGCGTGGCCCTGCTACGACAGCTGCCCCTGACCCC
Celera SNP ID:            hCV25743764
SNP Position Genomic:     7893
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,19)   caucasian(A,11|G,21)   total(A,24|G,40)
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,16)   caucasian(A,18|G,18)   total(A,36|G,34)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:14742):
CCAGCACGCTGACCCCGGCCTCAGCTCTGAAGCCCTCAGACGGCATGACCATCAGCAGCCTGGTGGAAGAGGCTTGCTGCCGCAACTAGCAGTACCTCGG
R
CTGGGCACCCTGAGCAGCAGCCTGAGCTGGGCCAAAGCTCTTCCGCATTTCTCTGGACAACCGCATGTTGACCACCAACTGCTGCAGCTACCCGGGGCTG
Celera SNP ID:            hCV25746801
SNP Position Genomic:     6383
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,26)   caucasian(A,8|G,30)   total(A,14|G,56)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,3)   caucasian(A,4|G,12)   total(A,5|G,15)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:14743):
GGCCAAAGCTCTTCCGCATTTCTCTGGACAACCGCATGTTGACCACCAACTGCTGCAGCTACCCGGGGCTGCTGATCGTGCCCCAGGGTGTCCAGGACAA
Y
GCCCTGCAGTGGGTGTCCCACTGCTACTACCAGAACTGCTTCCCCGTAATCTGCTGGTGCAGCGGGTGGTCCAAGGCAGTGCTGCTGCGCTCTGGGGCCT
Celera SNP ID:            hCV25749037
SNP Position Genomic:     6513
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,11)   caucasian(C,19|T,15)   total(C,36|T,26)
SNP Type:                 UTR 5


Context             (SEQ ID NO:14744):
CAGCACGCTGACCCCGGCCTCAGCTCTGAAGCCCTCAGACGGCATGACCATCAGCAGCCTGGTGGAAGAGGCTTGCTGCCGCAACTAGCAGTACCTCGGG
M
TGGGCACCCTGAGCAGCAGCCTGAGCTGGGCCAAAGCTCTTCCGCATTTCTCTGGACAACCGCATGTTGACCACCAACTGCTGCAGCTACCCGGGGCTGC
Celera SNP ID:            hCV25746802
SNP Position Genomic:     6384
SNP Source:               Applera
Population(Allele,Count): african american(A,8|C,24)   caucasian(A,10|C,28)   total(A,18|C,52)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,4)   caucasian(A,6|C,8)   total(A,10|C,12)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:14745):
CAATCCACAAGCTGCTGCAGGTGCCAGTGCTGGTGGTGGAGCCCCTGGATTCAGACTCCTCTGTGCTGGTGGGCCTGGAGGATGGCTGGGACATCACCTC
Y
CAGGTGGTATCCTTGGTGCAGCTGCTCTCAGACCCCTTCTATTGCACGCTGGAGAGCTTCCGCCTGCCAGTGGAGAAGAAGTGGTTGTCCTTCAGTCATC
Celera SNP ID:            hCV26207574
SNP Position Genomic:     7344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14746):
TCAGAACCCTGTCCCACAACCTGGTCAAAAACTCCAAGAAGACCATCAGGCACCAGCATGTCACTCTTAAGAAGTACAACCCCCCCAAGCTGGCAGCACC
R
GGGCCAGCTGCCCCCTGAAGACCAAGGGGACGAGATCTCAGTGTCAGAGGAGCTGGAGCCCAGCACGCTGACCCCGGCCTCAGCTCTGAAGCCCTCAGAC
Celera SNP ID:            hCV27834079
SNP Position Genomic:     6223
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,26)   caucasian(A,8|G,30)   total(A,16|G,56)
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:14747):
GTGCAGCGGGTGGTCCAAGGCAGTGCTGCTGCGCTCTGGGGCCTGCAGGGCAGAGGTGTCCTCGGCCTCTTCAAGGCCCAGAACGCACCTTCTCCAGGCC
M
GTCCCAGGTGGACTCGAGTAGCCTGGAGCAGGAGAAGTACCTGCAGGCTGTGGTCAGTTCCATGCCCCACTATGCCGACGCGTCGGGACGCAACATGCTT
Celera SNP ID:            hCV25748159
SNP Position Genomic:     6670
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,3)   caucasian(A,40)   total(A,69|C,3)
SNP Type:                 UTR 5


Context             (SEQ ID NO:14748):
TACCCGGGGCTGCTGATCGTGCCCCAGGGTGTCCAGGACAATGCCCTGCAGTGGGTGTCCCACTGCTACTACCAGAACTGCTTCCCCGTAATCTGCTGGT
R
CAGCGGGTGGTCCAAGGCAGTGCTGCTGCGCTCTGGGGCCTGCAGGGCAGAGGTGTCCTCGGCCTCTTCAAGGCCCAGAACGCACCTTCTCCAGGCCAGT
Celera SNP ID:            hCV25748613
SNP Position Genomic:     6572
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,27)   caucasian(A,3|G,37)   total(A,8|G,64)
SNP Type:                 UTR 5


Context             (SEQ ID NO:14749):
TCTATTGCACGCTGGAGAGCTTCCGCCTGCCAGTGGAGAAGAAGTGGTTGTCCTTCAGTCATCCCTTCAGCCACCGTGGAGCCCACACCCTGGCTGGGCA
R
AGCAGCGGCTTCACACCTGCCTTCCTGTAGTTCCTGGACTGTGTAACACCAGGTCCATCTGCAGTTCTCCATGGAGTTTGAGTTCAGCCAGTTCTACCTC
Celera SNP ID:            hCV25771685
SNP Position Genomic:     7482
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,40)   total(A,1|G,65)
SNP Type:                 UTR 3


Context             (SEQ ID NO:14750):
CGGGTCCAACGAGGGCACTCTGTAGAAGAAGGAGGCCTTCATGAAGCCTTGGAAGGCCCGCTGGTTCATGTTGGACAAGACCAGCACCAGCTGTGCTACT
R
CAACCACTGTGTGGACACAGAGTGCAAGGGTGTCATCGACTGGCGGAGGTGGAGGCTGTGGCAGGGGCACGCCCTAAGACCATGGATGAGAAGGCTTTCT
Celera SNP ID:            hCV27989686
SNP Position Genomic:     8439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14751):
CCATTCTCCCACCTCAGCCTCCCTAGCAGCTGGGACTACAGGTAGGTGCCACCACGTCTAGCTAATTTCCGTTTTGTTTTTTTTTTTTGGTGGGGGGGTT
G
GGGGCAGGTAGAGATGGGGTCTCACTATATTGCTCAGGCTAGTCTCAAACTCCTGGCCTCAAATGATCCTCCCACCCCAGCCTCCCAAAGTGCTGGGATT
Celera SNP ID:            hCV11461861
SNP Position Genomic:     599
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|-,12)   total(G,6|-,12) 
SNP Type:                 TFBS


Context             (SEQ ID NO:14752):
TGGTTAGTTGGCAGAGACGTGCTGGCCCCACCCCAGGCAACAGGGCCCCCTCGCCCACCCGGGCTTCCTGCGGCTGCAGCGAGTAGCCCTCTACATCCTC
R
GGAACAAAGCCCAGCTCAAGGGTGTGCGGCCAGACTCCCTGCAGCAGTGGGAGCTGGTGCCCATTGAGGTATTCGAGGAACAGCAGGTGAAGGCCAACTT
Celera SNP ID:            hCV25769063
SNP Position Genomic:     7045
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,4|G,36)   total(A,7|G,69)
SNP Type:                 MISSENSE MUTATION


Gene Number:                 14
Celera Gene:                 hCG1640757 - 145000147123920
Gene Symbol:                 Apg4B
Protein Name:                autophagin-1;AUTL1;DKFZp586D1822;KIAA0943;MGC1353
Celera Genomic Axis:         GA_x5YUV32VWPT(47157331..47205595)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12174):
AAACAATAATTTTTTTACCACTTCTTAGTCTATTTCTGCAGTTTTAATTTTTGCAACAGAGAATGTATTGTATTTCTTTTTTTTTTTTTTTCTCTTTTGA
GACAGAGTTGTGCTCTTTGTCACGCAGGCTGACAAAGAGTAGTGCAGTGATGCCATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCTATTCTC
CTGCCTCAGCCTCCTGAGTAGCTGGCATTACAGGAGTGTGCCACCATGCCCGGCTGAGAATGTGTTTCAATAGATGTGTGTCTTTTTTTTTTGGAGACAG
AGTCTTATTCTGTCACCCAGGCCAGAGTGAAGTGGTGCAATCCTGGCTCACAGCAACCTCTGCCTCCCAGGTTCAAGCAATCCACCTGCCCCAGCCTCCC
CAATAACTGGGATTACAAGCGTGCACCACCATGTGCAGCTAGTTTTTGTATGTTTTAGTAGTATGTTTTTGTATGTTTCACCATATTGGCCAGGGTGGTC
TCGAACTCCTGACCTCAAGTGATCTGCCCACCTTAGCCTCCCAAAGTACTGGGATTACAGGTGTGAGCCACCGAGTCCAGCCTCAACAGATGTTTTAATT
GAATAGATGTTAAAATAATTATTAATGTTCATGATGATTTAACTTCAAGGATATTCCTTAAAACGTGAACAGAAAGAACCTCCTCATGATTTTAACAGTT
TCTGATATTTGCTTTTTCTGAGAGTTTACTCTCTTATTTTCCATCTAGTTCCTAACTCATCTGGAATTTCTGTTGCATAAGGTATGAAACAGAAGCTATC
TTTCCCTGTGCACTCTCCACGGAGGCGTTCAGGCACTCCTGGCTGACGCGTGCTGCCTGCCTCCTTCACGGCCTACATCCCTACACACACAGATGCCTCT
TGTGGGACCAGGTGCAGTGAGGCCTGCTTTCTAACCTGGATTCCCTCATCCACAAGGTATGGTTACGACCAGAGCTTCCTCCTGAGAGCGCAGGGAGCTT
GTGACACCTCCCAGAAATGCTCAGGGGACGCTGGCCACCTTGCAGAGAAACCCCTCCTAACGGGAAGGGAACATGGGTACGCGAGGCTCCGGTACTGACC
GCGGCTGGGCGACAGCAGGCTACTTGGATAGGGGACGCTCACTCTCCTCAGCTCATCCAGCTTCTCCTGTAGCTTCCGCACCTGGCTGTCGGAGCGGCTG
ACCCTCTGCCGCAGGCTCTTCAGCTCGCCGTTCTTCTTCTCCACCTGCTCCCGCAGGCAGCACACCTGGCTCTTGTTCTGCCGGGAGGAGAAGCAGTAGG
AGTGCAGTGAGTCGATGAGCTTGCAGGCCCCTGACGCCGACAGGATGACCTCGTTGATGGACATGGGGCTGGCGTCGCTGTGCTCGCTCTGCACGGCTTC
CGTGGCTGGCTTTGGGGTGACGTCGGCAGGAGGGGCAGAGGGGCTCTGGGAAGGCTTCTGCGGTGTYGCGGTAAGTGATGAGCTGGGAGGGCTCTGGGCC
AGGCCCTTGTCGGGTCCCAGGCTGCTCCCACTGCAGCTTGGTTCCACATCTTTCTTCAGCCTCTTGCGGTCAATGGGCTCTCGGGGGACAGATGGCCTTT
CTCGGGTGTGCTTRGAGGAGAAACTGTACGAATGAAGTGAGCCGATAAATTTGCACGCCCCAGATCCTGGGGGCGTAAAGTCATCCATAGAAATGCCACT
CTTATCTGTCACGCCCCCTTCGATGGAGGAAGTGGCGCTCTCATCGCCAGCATCTGTGGCAGACGCTTCTGCTTTTCCCTGACTGCCTGCCACCATGGTG
GCCAGTCCATCTCCTGGAGTCCGTTCCAGAGCTTGCTGGGCCTGCTCCTGGCTGGCGGCCTCCTGGGCCGCCCTGGGTGTGGCTTCACCTTGCAGAGCAG
CTTGCTTCAACCTGCGGGACTCYGGCTTGGCCATCGGGTTTCCACTCGAGGACGGTGACCAACCTGCAGCTCCTCTGCYGGTGGCGGCACTCGAGTGTCC
CCTCACACCCCCTGTGGCCTTGCTGGCATCTTTTCTCCGGGTGCGGCCATGGCCTCCAGCCCCCCTCTTCTTCTCGGTCAGGTGGAAGATGGATGGCACG
GCCGTRGGCTTCAGCAGGCGATGCTGGTCCTCCAGCCTCTTGGAGAAGCTGTCTTTGGTGAAATGCTCACTACAGAGAAATGAATACTTAGTGGGAGTCC
AGTTATCCCTCTGAACAGCTTTTAACCATTGGATTAGACGTTKTGAGTCCTTTRGGGGGAACCTACAGGACAAATGACAAAAAGTAATTAGAAATAATTA
AATGTCTCCCCTTAAAATAATCAACTGTAAAAGCAAAACAAGTATTTTTGCACGCACCCTAAGCCGTATTGACTTCATCCACTTAAAAAAATACTTCAAA
AAGATTTAAAGAACATCTTCTACCTGCAGTTATTACTGGAGTAGAAATCTGAAAGACCCGTTGTCTACCCATACAGAGCTTATAGTCTGTAGGGCGGATG
GGAAAGAAGGTAACCAACTGCTCCCCAGGCTGTGGTAAATGCCCAATGGGGACACAGGATGCTGACAGACAGTGCCAGGATGGCCTCAGGACAGCAGGAA
ATAGCTCCTAGAAGCTGACTGCTAACCAACCCTCCCAACTTGCCTGGAAGGTAGGACTCTGGGTACCAAAACCAGGGCCAGCATCCACAGACACTAGGGC
GTGAGAGGTCAGGACTGCATGGAGGCAGCCCTGGCTGTGCGCAAGCAGCTGAGAATCTGGAGACCTCCAGAAGACTCCAGAGCTACAGTTCTGTGTTCCT
GTTGCATGCCCACCTCCAGGAGTAAAAATGCTCCTTTTAAAAGTCAACCAGCCCAGGGACAGGGCACAATGGTGCTCACCTGCAGTTCCAGTTACTTGGG
AGCCTGAGGCTTGAGGGTTCTTTGAGCCCAGAAATTCGAAGTTACAGTGAGCTAAGACTGCACCACTGCTCCCCATCCTGGGGAACAGAGTGAAACCCGG
TCTTCTCCCCTCAAAAAAAATCAACCAACTCAGATGATCCTTGAGGACATTATACTGAATGAAATAGGGCAGGTGCMAAAAAACAAACACTGCATGATAC
CACTCACATGAGGTACTCAGAGTAATCAAATTCATAGAGACAGGAGAATGCGGGTTCCCAGAGCCTAGGGAGAGGAGGACTGGGGTATTAATGTTTAATG
AGTCCAGAGATTCCGCTTTACAAAATAAAAATAATTCTGGAGGTGGATGGTAGTGACAGCTGCACAACAACGTGAATGTATTTGTTGCCATGAATTGTAC
ACTGAAAAAGCGGTAGGAAAGGCTGGGAGCCGTGGCTCATGCCTGTGATCCCAGCTACTCTGGAGGCTGAGATGGGAGGACCACTTGGGTCCAGGAGGCT
GAGGCTGCAGTGAGCTACGGTCATACCATTGCACTCCAGCCTGGGTGACAGAGTGGGACTCTGTCTCCAAAAAAAGTTAGGATGGTAAATTTCATGTTAC
ATGTATTATACCATAATTTAAAAATGGTGAGAAAAAAGCAACCAGCGCAGGAAGATACTGAATAGGATGTTTAGTCATTTCTTTATTACCTAATAAAGAT
CCTTCATAACCATTTCTTCATTAAGGCAAACTCTGTGTTTAAGAACATAGGCCTGGGCCGGGCGGGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAG
GCCGAGGCGGGTGGATCACTTGAGGTCAGGACTTTGAGGCCAGAGTTCGAGACCAGCCTGGCCAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAA
AAATTAGACAGGCGTGGTGGCGCTTGCCTGTAATCCCAGCTACTTGGGAGGCTGAAGCAGGAGAATAGCTTGAACCCAGGAGCGGGGGTTGCAGTGAGCC
GAGATCGCACCAATGCACTCCAGCCTGGGCGACAGAGGGAGACTCCTTCTCAAAAAAAAGAGAAAAAAAGAAAAAAAAACCAGGCCCTAATGTGCACATA
AGGGACAGGGTGGTCAGTTCTAACTGCTATTTGCTCCACCTGAGGCCAGTGTGGACCAGGACAAATCCTAACAGGATGGACTGGGCCGTTCTAAGCAACA
GGACCTTCTAACCTCCTTTCTGAACACTGTGAGGCCAACTGCAAAGGTACCCCCCCACCCCCAATTCCGATGTCCTTTCCTCCCATACCATGTTAGACCG
TTGCAACACGTTGCCTCGTTTTCAAAAAACAATAACAAAACTTCTAGGACACAAGCTCTGAAGGAAATTGTCAAGAAAGTGCGCTGGCTGACTTGTGAAA
TAATCTAATGTTACTAATTCTTATAATACATTGTAATGATTTAAGACTTACAGCAAACTACTGTGAACTTTCAATAACCCTATAAATAACACGTGCCATT
CCCGTCTTTAAAACTTAAATAACACCATGCAACATAAAACAGAAACATCTCCAAAGTGGTTTTTAAAGTCTGTTCGCGGTTCTGGTGCCTCCCGCGTGTA
ATCCGCAGAAATCTCACTGAAATAGGCTGAACTCACAAGGCCTTAGAGGGGTTTGGGCCCTGCCGCGGGGGCCCACGTGGGAAGCGGCCGAGAGCCCCGG
GCCAGGCTCTAAGGGAGCGCAGGAGGATGCCGTCCCCAGCCGGCCGTCCCGTAGACTCTCCGCGCGTACCCGCGTCCTGGGCTCGGGGGCCCAGTCCCGG
AAAGCCCTCTCGGGGGCTGTCAGCTACGGAGGCGCAGGTCGCGTCTGCCCGGTCGCTCCTGCTCGCAGACATCCAGGCCGACGGCCCGCGCGGTCCGGAG
AGTCAGCAGTCGCGGCCGAGCAGGACAATCGGCCCAGGACCTGCGTTACCAGAGCGTGCGGCTTTCTGAAGCTAGGCGCCGGCNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCGGGGCCCGCGTACCTGTGGAAGGAGACGGCGCG
CTTCTCGCCCTTTCCCTGCCGGTTGGAGCAGTTCACGACCGCACAGCAGATCACCATCGCGGGCCTTGGCCCAGCCGCGCAGCCAGGCCCCGGCCCTAGC
CGCCCGCCCGCCCGCGGACCGCCCCGAGGGAGGGAGCGCGGCGGCGACACGGCTCGGGACGTGGGCCGGCCCGCGGCGTCCGCGCCGTACGGCAAGATGG
AGGCGCAGGCGCCCGCAGCGGGCCCGCCCCCGCCCCATCCCCCGCCCGCGTCCTCGCCAGCCGCGGGTTCGGGCGTCTTCGGACCAGCGGGGCGCCGCAG
GCCCCTCGCAGCGTCCGTCGGCAGGCGGGCAGACGGGCGGGGGAGTCGCCCCGGCGGGGCAAGTCCGTACCGCGACATGGGCGCGCCGAGCACGTCCGTA
CCGCAAGATGGCTGCTCGGACGGGGACAGAGCTCGCCTCTGCCGCCTCGACAACTGCTCCTGGGTCCTCTAAGAGGAGGAAGCGCCACCCATGGCACACA
GTGTCCCGTCGGACAGCAGAACCAGCCGTCGTCCCACGACACGACCCCATGCCGCCCGCAGGGCGCCCCGGGGCTCGCGTCGGCCCGGCCGTACGCCAAA
ATGGCGGCTCCCGCGTATTTCCGCTCGCGCGCCGTATCGTCTTCGCCGCCTGCGCCGGCACACCTATTGGCCCCCGCGGCGTCCCGTCGCCGCGTCGCGT
TGCTGGCCCGTCGGAGCGACGCCGCTCGGGTCAGTCGGCGGCCGGACTGGGAAGATGGACGCAGGTGAGGAGTTGCCGGGGGTCGGTCTTTCCGCAGGAG
GTGCTCGCCTTATCATTGGCCTCCCCTGCTCGGGTCGGGCTGCCGCGACTCGCCTCGGGGCACGCCGGTGCGGGCCAGGCTGGGCCGGGGCGGCGGGCGC
TGCGGGAGCGCGGGGCGGTGTTGGTGGGTGGTGGGCGGTGGGAGCGGGAGGGGGACGGCGGCGCACTGCGCCGCGGAACCCGCCGTCGGTTGCGCTGGAG
CTTCTGCTTTTCCGGTCCCGTCCGGAGCGCTCCGGAGGTTGTGGCTGCACAGGCCCTTGCGCCAGGTCGGCCGTGGAGGGCGGCGGAGCCTGCCGGGCGG
GGAGAGGCGCGGCGGCGAACGGGGCGGCCGCGGTCCGGGCCGGGGACGCGAGCGGCGGGCGAAAGCGTAGCCTTTCCGCAGCTGAGCGTGAAGGGATGGA
AGCTCTTTAACTTTTATGAAGTTATTGGTAGGTTGGAGGAGAGAAACGTGACGTGTTCATCACAGTATACGTATCTTTTTTGTTTTTGTYTTCAATTTAG
TAACCAGTAGATTCTCCAAGCTGCTTTTCCGTGACGAGAAAGAGAAACAGTGAATTTGTATCATCGGGTCTTAGTTTCTTGGGGTCCTAAGAGAGAGAGA
AAGAGAAGGAGTGTGTGTGTGTGTGTATAGGGAGTGTTGGTTTTTTTCCTATCCTTTCATGCTTCCGCTCCATTTTTGCTAGCAAGATTATTTTAAGTCA
GCGCCAAACCCATCGCTAGCCCAGTAGCCCTAGAAATATTTTTACACAGAAGTTTTAGCTCATTCATTCTTTGTAGGAACTGATTTGCCTTTTACCAAGT
ATCCCCCATCTGTAAAGAAAGATTTTCATCTGGTTTAATTCTGTCATTCTGAATGGGATTGTTTTTACTTTTTATTTTTCTGGTAGCTACAACATAAATT
TATTAAGATCTGAGTTGGAAAACTGTAATGTGTATTGCCAATATCTATTAAAATGATTTGTAGCAGCTCACCACTTAAATGTGGTAGGTGGCTGGAGGAA
ACAGGAGCCCTGACTCCCTAAGGAGCATGTTGACCAGGTGTATATCTTGTGAAGTTTGTCTTTTAGAATAACCGTCATTCACGGTTGAACTATTTGCAGC
TGTGTACTATTTGTTGTTTACTATTTTACAACTGTTGTATTATATCTTTTTAGGTGTTATTGTTTGTGATGCAGGATTTTTCTCAGCCACTCTGGCAGCC
AGAGACCTCCGGCTGGCGAGGCCCCTGCCCAGGCCTTGCTTGGGTCCAGGCTCGCCGCAGGAGATACCCCATCTACTTGGTCCACCGGTGGGCACCTGGT
TTGCACTATGGCACGGATACCATGGCCACCATGACTGTATGCTCAGCCCCTGGCGGGAGTGGGTGTGTGGGTGAGTGAGTGCCGGGTCCCGCCAGCTGTT
TCAAGCGCAGGCAGCAGAGTGGGCTCTGCAGAGCTTACAGCTAGACATGTGGCAAGCAACTCCCACGGCGGACTCCAGCGTCCAGACAAAGGGACAGTGG
ATTCTGGTGTCCAGACAAGGGGAAGGTAGTGGCGCCCAAGCAGGGGTGCTTACAACCCTGAAGCCCAAGAGGGGKTGTTGCAGAGTGTCAGCAGCCCTGT
TACTCCCATTGCCCTGCTCCAGGCTATAGCTCTGGGGCTGGCTCCGTCCCCGCTGCTTCCCTTTGCTGCCTCCTGTCACGTGGGGTGTCACAGTGGGTGG
CTGCCCTTTGCCGGCAGAGGGCCCAGGGCCACAGTGTTACAGCCTTCTTTGTACTTGCATTCATTGGGTCCCTAGTTCTTGTCCCACGTCCAAGAAGAAT
GAGACTACACTTAACACTGACAATCGAAGGGTGAGGAGGGTGGAGAATAGTTTTATTGAGTGATGAAACACCCCTCAGCAGAGAGGGGACTCAAGGGTGG
TCTTCCACCCAAAGTCGGGTGGTCTCCCTTGGTGTGGCTGGGTCCAGGGCTTTTATAGGCTCAGAATGGGGAGTGTGTGCTGATTTGTCTGTGAGTATGC
AAAAAAGGTTAAAACAAAGTCACTACTCAAAGGTGGGCACAACAGTGTAATAAACCAATTAGAGAAAAGTAGGTATATGTAAAATAGGTGAAGGGTGGGG
ATTAATTAGAGGAAAGCGCACCAAACAGGAAGAGAGGTTCGCAATCCAGTCTGTGGATTTATCCGAGACTCGTCGCTTGGCTTTCAGGCTTTAAACTGTG
GCTTGAAGGTTGGGTTTCACTGGTGACCCACCCCTCTCTGCCTAGGATTTGTCTGCCTCCTGCCTCTATCATTTCGATACCTTGAGGCTGGAGTATCATA
TGAGAGACTTGGCTAAGGTCAAAAACACGGTTCAGTGTCGATCATATGACCTAAAATGTGAAAATCATCATGTTCAAGTTGGGAGAACAGTTATGTTGTT
ACATGGCGATACTTTATTTTATCTTTTATTTTCCCTTGACAACTGTGTTGACATGGTGATACTTTAATAGGACACTGGATGCTGCTGCATGTGGGATCAG
AGTAGAAAAGGTGTTTGCATTTAAAGGTCTCTGTTTATGCTGATAAAAACGTATATGATGTTTGTAGGATATCATGGGGAATTTTCCTTCTGACTTGATG
CTGTATTTCCTTTCAGAGATGATTAATGATCTGCCCTCCTTTGATCTCTAGAGTTCTTGAAGATTCTGCCTTCCTTGACCATGTGTAATACAGTTTCTGT
TCTGATAGTCATTAATTCAATACACTGTTTGTTACTGACTGTCAGATATGTGTTAGGCATTGTTCTAGACACTAGGACTAGAGAAGTAACAACATAGATG
AAAACCATTGCCCTGGGGTAGCTAACGTTCTAGACATGAGACCAGCATTAGCAGCGAAGTGCGTGGCTCCTGGGGGATGGTGATTTGGGCCAAGGATGAG
GAGGATTGGAATTGTAGCCAGGATGGCCAGGAAGGGTCTCACTCTGAAGGTTTAAGTTTTGACGAAGACTTAAAGCAGTGTAGGAGGAAGGGCAGGTAGC
AAGAGCCTGGTGTGGCTCRGGTGCAGCGGGTGGCGGTGGGAGAAGCAGGAGCTGAGGATAGAAAGGTGACTTAGGCTCAGTGTAGTGGGGCCTTGCCAGC
TCATAGTGAGGACTCGGTGTTTATTCTGAACAGGATGGCAGCTCATAGTGAGGACTCAGTGTTTATTCTGAACAGGATGGCAGCCGTTTGGAAGGTTTCA
TTCTAGAGGAGGAGTCACATGATAGACTGTGTTCAACAGGCTTGCTCTGGCATCTCTTTTGAGAATGTACTGCAGAGGGGCAAGGGCAGAGGCARCGAGA
CCAGCTAAGAGACTGTTGAACAAGCCAGCAAGGAGATGCCAGTGGATTAGCTCAGGGTGGGTAAGAGGTTGACTTCTGCATGTGTTTTGGAGGTTGAGAC
AATAGAATTTGTTTGTAGATTGGAAGTTGGGAGAGGGATGGGTAGAGAGGGGAGGAGTTAAAGATGGCCCCATAGTGTATGGCCTGAGCTAAGCAACTCA
GATGGAGGGGGGCGGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCCTAGGTGGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTG
GCTAACACGGTGAAACCCCGTCGCTACTAAAAATACAAAAAATTAGCCGGGCATAGTGGCGGGCGCCTGTGATCCCAGCTACGCAGGAGGCTGAGGCAGG
AGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGACTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAA
AAAAAAAAGAAACTCAGATGGGGAAGACTTGGGGAGGTCCTGTCTGGTGGGAAGCTTTCTGTTGCGAGTTTGGATTTATGTGTGTTGAATGTGAGGTGGA
TGTTAGACATCCTTGTAGAGCAGTGTCCAGTGGGCTTTTGGGTCTACAGGTTTGGAGCTAAAAGAATAAGCCTGGGCTGGAGATAGACTGGAGGTCACAT
CAGATGAGGTCACCCAGGGTGTGAATGTGGGTGGGAAAGAAAAGAGGCCAAAGGCCTCTGCGGGTGTGGAGAGGTCCAGGAGGTGGCAGGCAGACCACAG
TGTGGCTGTGTTCTCCACCAGTCCCTAGCACTGTCCCTAAAAGCATGCTCCCCATTCAGACGACTGGCAGGTGCCAGCACTTAAATAGCCACACTGCCCA
TTCCTTGAGGACAGAGCTGGTGTCTTGTGCTTGCATTTCTAGTGCATCACTTGTGTCTGGCATGTGGTTGGTAATAAAAAAAAAACAGAACTTGAATTAA
TAATAACCTACACATTCCCCTACTATCAAAGCTTTCAGTTTGTAGAGTTTAACATAAATCCAGTATGTTAGCATAACATGTAATGAATGCAGAGGCTGCT
GGGGAGTGGTTTTTTTTTTTTTCTTGAGACGGAGTCTTGCTCTGTTTCCCAGGCTGGAGTGCGGTGGGCGCGATCTAGGGGAGTGGGTTTTAATGTGCGC
AATCTGCCCAGTGTGTGCACTGAAACAGTGTTTTCTAGCTTTCTGATGTAGCTAAATTTGGAGTTCCTTTCTCTCTTTCTCTGTTTTCATTCAGGACTGA
ACTACTAGCATTCTCATGTAAACTCTTGGAGATTTAAAAAAAAGTAGTAATCATATGCAAACTGTTATCTTAAACCTAAGAGCTTTCTAAAGGAAAAGAA
GAACCTTTGTTGAATTTATAAAATATAAATCTTTTGGAAAATAACTTCTAAGTGTTTTAGGAAGGTTTCTTCGAAATGAAGTGGTTTACAGTAAGCTCTT
AAATTTACTCGTTTTTTTTTTGTAGTCCTCTCTGGTTGAATGAAGTGTAATTGGTACTAAATGGAGAGAAGTTGGTTAAATTCATTGAGTACAATTCCCT
ACATTTCTGCCTGTCAGATTAGTAGTACTAAGTCACATGTTTTTTCTGATGGAATTACTATATTATTAAAATGCCATCTGCCCTCTTCTGCTTGTGATCG
CAGAAGTCCCAGGGAAGAGGGCGTGGAAAATCAAGTGTCTGGGATCCAGCCGACCAAATGGGAGAACTGCTTCTAAGGGGGACTCTTTCTTAAGGTGTAC
AGCACCTCTCCGTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAAGACGGAGTCTCACTGTCGCCCAAACTGGCTGGAGTGCAGTGGCTCTATCTC
AGCTCACTGCAGCCTTCGCCTCCTGGGTTCAAGAAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTGCACCACCATGCCTGGCTAACT
TTTTTATATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATTACCTGGAAGTCTAGAGATGG
GTCTATATATTTATTTATGTATATATGTACATATATATATATAAACATATATATACGTATATATACACATAAATATATACACATATATGTATAAATATAT
ATATACGTGTGTGTGTGTGTGTGTGTATGTATATATTTTTCCCCCCCCCCGTCGTCCAGGCTGGAGTGCAGTGGCGTGATCTYGGCTCACTGCAACGGGG
TTTTGCCATGTTGGCCAGGCTGGTCTTGAACCCTTGACCTCAGGTGATCCACCCACCTTGGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCACTGCA
CCCGGCGAGTGGATATTTTTTCCGAAGTTTGACTCCTTTTCTATCAGGAGCTACATGAATTACCTTATAAATCACATGATGTGGCAYGGGAAGATGATGA
AATTATGACAGGGGCTATGAAATAAGACAAGGGAACCTCTCCATGGCGAATTGCTGAGGCAGCTGGTGTCAGGCCTAAGTGGATCTCATWCATCTGAGAG
TCAGTGAAGGAACAAGTGTGGTGGCTCACACTTGTAGTCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTGGAGCCCARGAGTTTGAGACCAGCCT
GCTTAACATAGGGAAACCCCACCTCTACAAAAAATACAAAAATTAGGCATGACGGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGA
TCCCTTGAGGCCGGAAGGGGGAGGTTGCARTGAGCTGAGATCACACCACTGCACTCCASCTTGGGTGACAGAGCCAGACCCTTGGGTGACAGAGCCAGAA
GGAACGTTTGGGAATGGAATCATCGTGTTGGTCGATCTGCAGATGTTAGTGATTGTGAGCGTTAGTTTTGCACCCATTGTGGGTTCTCACCCCACTTGGA
AAACTGGTGGCTGTGCCCCATTTCATGGGTGAGGAGACTGAGGCTGGAAGAAGTCCAGGCCTGTGTCTGTCCTGTAGCTATYGACCAGGCTCTCAGACTC
CAGAAACAAACCTCAGTAGGAATCAGAAGTGTTGGCCGGGCGCGGTCTGCCTGTAGCTATCGAGCAGGCTGTCAGACTCCAGAACCAAACCTCAGTAGAA
ATCAGAAGTGTCGGCCGGTTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTCGGAAGCTGATGTGGGCGGATCATCTGAGATGAGGAGTTYGAGACCAG
CCTGACCAACATGGGAGAAACCCATCTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACACACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCA
GGAGAATCGCTTGAAACCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGTGACGAGCAAAACTCCATCTCAAAAAAAA
AAAAAGAAAGAAATTAGAAGTGTTAATTCCAAAAAAGTTATCTTCCTCCATTATAAAGTAAGATCTGGAAGGTCAGGGAGGTCTTTGTACCGTTCTGATG
CCTCAGTCCATGGCTCCTCATTGTGTCTTCCTCTTCAGCTGGAGCTGCGAGGGTGTCCAGGAGGGGTGARTTCTGCTCGGAGGGCCTGCCGAGGGCATTC
CTTCCTGTCCTCCAGCATGAGAGGGACAGTGTGGGGCCCCTAGAGTACAGGGAAGACCTCCTYATAACTGAAGAGATGCGAGTCTGAGAGTCTTTATTGG
CTCTTTTGTAGGAATCGCTGCAGGTCTCTTTGGTCCTTGGAGCCAGCCCGTGAGGCCGGGGGCAGGCTCTTGCTCTCTAAATGCAGTCACTCTTGGAGGA
AAGGACGTTATGTTGGATTCAGTGTTAGTAAAGAGACTCATGTTTGGTTGGGTCTCTGTTGACCTTGTACTCTGTGCTGCACCTCTGCTTACAGAATACC
TCCCAWCCATGCCGGTTCGTGACTGCTCACCCGTTTCAGTGATCTGAGARGGCTGGCCCTGAAAGAGTGGTTACTGCTCCCGTGCAGTTTAGAGCTTTTC
CTGCACCTTGACTTGTCCGTTTCACAGTGAGGACACCAAGTCACAAGAAGGTCACTAGCCTGTAAGGTTGCGTGACTGCTCAGTGGTGGGCTCAGACTTC
TGACTCCACAGCTGGCGCTCCAGCTGTCAGGAACGTGCTCCAGGTGTGACGTGTGGACACTCCCCACTTGCAGCGTCCTCCACAGTACCGAGAGGAGGGT
GCAGTGTGGTGGGAGAAGCAAGGGATCATGTTTTCAGAGTGTCCGCCACTAGCCCTAGGGGAATGTATGACTCGCTCCCAACAGAGGGCAGGATTCTCGG
GGAGGGCCGGAGTGCGTTTCTCTGGACGGAGGAGCAGAGCAGCTTGGGGCACGGTGTGGGAGCCCTCCTTAGGGACCTCATGGGTCACGTTCGCCGTGRC
TGCGCCACTCCTGTTCACTGCCAAGCACCGTGATTGCTCCTTGGATTTGCTCCCCTGGGGTTTCCTGGTCTCCTTGATGGTTTATACAGTGAGCAATCTG
AGGCCACACACCTGTAATTTTCACAGTTATAGCTGGAGGTGTGGTGGTGTATTTGAACTTAATGGAACACCTCTTATTCCCTTCACTCTGAAGTTGGCTT
CCTTGCCTATAAAGTTTGGTGATAAACCTAAGAAATACACCTGCTRTGCATTTTACTGCGTCCGTGATGAAAATCCCTCAACTTCACAGCCGCTCAGGCC
TCGTGACCCTGCTTTCAGAGGGAGCCTTTTTCCTTTTCTTCCTTATCTATACTTCTCTCATTCCTTTACCATTTATATTTTTAATATGGGAAACTAGACA
TCCTAGAAGTTTCTCAGCTTCCAGATTCTGTTACTGCAGACTGTTACTGATTCAACAATATGGTCCTTTTCCTGATGACATACGCCACATTCTTCTGAAG
TACAGATGGTCTCCAAACTACCATGGTTTGACTTACAATTTTTTGACTTTACGATAGTGTGAAAGCAGTATGCATTCTATGGAAACCATACTTGACGTTT
TGAATTTTGATCTTTTTCTGGGCTAGCAGTATGCCTCCAGATACTCTCGAGATGCCAGATAGCTCCTCGTCAGCCACATCATGAGAAGGGGGAATGACCC
CTGCTCTACAGGGCACTGTGTTGCCAGCTGAGTTTGCCCAACTGTAGGCTAATGTAAGTGTTCTGAGCACATTTAAGGCAGGCTAGGCTAAGCTATGATG
TTAGGTAGATTACGTGTATTCAATGCTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTCCCACCTGGGCTGGAATGCAGTGGCGCGATCTCAGGTCA
CTGCAGCCTCCGCCTCCTGGGTTTAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCTGCCACCATGCCCGAGTAACTTTTTGT
GTTTTTAATAGAGATGGGATTTCACCATGTTGACCAGGCTGGTCTCCAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCCAAGTGCTGGGATT
ACAGGCATGAGCCCCTGTGCCTGGCCTCAGTGCATTTTTGACCTAAGTATTTTCAATTTACAATGGGTTTATTGGACATAATCCCATCCTAATTAAGGAA
CATCTGTAGTCTACAAAGAGATACTTGCCAGTGTTCATTTAGCTCTGCTGTACTTTAAATAAAAGATATGTGTATCTTTAGTTCAAAGCTGGTGCCTTGG
AACGGTGTCAAACATGAGAAGAATGTTCCAACAGCAAGATGGAATCATTGTCTTGCAGTGTTGAAATTAGACCGGTGGTGGCCAGGCGCAGTGGCTCACG
CCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGAGGATCATGAGGTCAGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAA
AAAAATACAAAAAATTAGCCAGGCRTGGTGGCGGGCGCTTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAGCCGGGAGGCAGAGCT
TGCAGTGAGCCGAGATCGCGCTACTGCACTCCAGCCTGGTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAARAAAAGAAAAGAAATTAGACC
GGTGGTGTTTTCATCCTTTTTCCTTGAGAATAAGTTTTCTGGATTTTAGTCTATATATTGAATAAAGCCTACAGGTCAAAGAATAGTAGGGACTTCTGAA
GATTCAGGAGTGGCTTTAGAGAGGTAGCAGGGACATCATGATGTTTTTCAGCTCTTTAAAAAGATAGGAGTGGGCCRGATGCTGTGGCTCACGCCTGTAA
TCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACTTGAGGTCAGGAGATCGAGACCAGCCTGGCTAACRCAGTGAAACCCTGTCTCTACTAAAAATAC
AAAAATTAGCCGGGCATGGTGGCAGATGTCTGTAATCCCAGCTACTCGGGAGGATGAGGCAGGAGAATTTCTTGAACCCGGAAGGTGGAGGTTGCAGGGA
GCCAAGATCATGCCACTGCACTTCAGCCTGGGCAACAGAGTGAGACTCCATCACAAAAGAATAAAAAAAAGGCATGGACCTTAATTCATCCTAATTCAGT
TTTTGTAATCATGTGCAGAAACAAGTAACATATATATAAAAAGGCAGGAGAGAATGTAAACTTGGACTTTATTTATTCACAGTCACCAAGCAGTTTGGTT
GATAATGTCTCTGAAAGCATGGACAAGTGAAATATGTAAGAGCAGAGCTCTTGGGGGCCAGGTGCAGTGGCTCATGCCTGTAATCCCAGCCTTCGGGAGG
CTAAGGCAGGTGGATTGCTTGAGCCTAGGAGTTTGAGACCAGCTTGACAACATGATTAGACCTCATCTCTACAAAAAATACAAGAATTAGCTGGGTGTGG
TGGCACATGCCTGTAGTCTCAGCTGCTCAGGAGGCTGAGACCGGAGAATTGATTGAGCCTGGGAGTTTGAGGCTGCAGTAAGCTGTGATTACACCACTGT
ACTCCAGCCTGGGTGACAAAATGAGTCCCGGTCTCAAAAAAAAAAAAGAAAAAAAAACAGGAGCAGAGCTCTTGGACAAAGCCCTGCTGTGGAAAGCTTG
CTTCATCTGGCTGCAGCCGCTCCACAACGCCCGTCATCTTGCTCAGGAAGCCACAGCACTACTCTAGGAAAGGGGCAGAGAGGGGCCTGGGTCTCCCACA
GCTGAGAATCCTTTAAACAGTGCCTGTAGGGCCCTCTATTGTGGATTTGGTAGTTCTGCCTGCACCGAGGGAGATGCTWGCAGGTGCTTCTGAACCCTGT
GTTTGGGAATTAGCTGCGCATACAATTAAGGCTTTTGGGTATAGTAAAATTTGTGTGCCTTTGACCCTGTGGTTCTGAGTCCTCGATGTTAATGACAGAG
CGGACATTGCAGCCCTTCTGTCTGCCAGCCAGCACCTCATTGGAAGTGTTTCATTGAAACGTCACACCCATATGCTGAGGCTGTCCTGTTGTTATCCCAT
TTTATGGATGAGGGAACATTCACACTTAGAAGTTAAGTGAGTGGCCCAGGAAACTACAGTTTACCAGTACCCAAGCTGGGCTTTAAATTCTGACTGCCCC
CTGCCTCCCCAAGGGGATTGTGCACAGCACAGAAGTTCACACACGATGCTTTTTAGTATCAGCTTAGGTGGAGATCTGTGTTTATGTAGAATGCTGAGGA
AACCACAGGCATAGTATGATTTCACGTACGAACCTGTGCATAAAGACTTCTGGAAAGAGTCATTGCTGGGCAACGAGGCTTCACGTGATTTGTGTATTTT
TGTAGTCTTCAGAATTTTTTATGATTAGCATATGTCATTCTTATTGAAGTGTGGGGTTGTTATCAAAAAGTAAATTTAGATGTGGGAGAAATTCATATGT
GATTGATTTTCAAAAGATTGCTGTAAAGTTGCTGGTGAAGGATGAGTGATCAGACACCATCAGAGCTGGAGAGGCAGCAGATGGGAATTGTGTGTTCCCA
GTTCCCTGAAGAGCAGCTGGAGAGAGATGCCTCTGGTGCCGCCCCAGAATACGCAATGGGCATCTCGCCACATGGGTGTTTGGGCTGGTGCATTGCTGCT
GGCTGGCGCCTTCTTTTCAGGAACATTGTGGGACATGGGTATCCTCAGCCACAGTTCTGTGGACAGGAAGACCCTGGGCCTCTCTAGTTTCTTTCTTTCT
TTTTTTTCTTTTTCTTTTCTTTTTCTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCAC
TGCAACCTCCACCTTCTGGGTTCAAGTGATTCTCTTGGCTCAGTCTCCCTAGTAGCTGGGATTACAGGCGCCCGCCACCACGCCTGGCTAATTGTTGTAC
TTTTAGTAGAGACGGAGTTTCACCATGTTGACCAGGCTGGTCTCAAACTCCTGGCCTCAGGTGATCTGCCCACCTCGGCCTCCCAGAGTGCTGGGATCAC
AGGCATGAGCCACTGTGCCTGGCCTAGTTTCTTAATTGAAGTAAAACAGAGTAAGATGGCATGCAGGGCTAATCATTAGCCCAGCAGGTAAGCACCATGG
CTCTGCAGCCAGCTGCCTCCTTAGAAAGTGGGGTGTTGCSCCATGGAAGTGGTGGCATGCTCTTCTGGTAGCATTGTTGAAATGAAAACAGGTTCAGTCC
TTGATCACTAGGCTTTTTGTACCCGGGTACCTCTGGGGACTTGGCAGAGAGTTTGATCTCTCAGTGTCCAGGGGTTAACTTTCTACCTGAGAGTAGCACC
CCATGCTTCTCCAGCACCTGCTCCTAACCAGGAAATTGGGGTAGACCAGAACCCCAGTCTTCCCAGCAGCTCAGTGTTTCTTGCCCYGGAGCATCTGCCT
TCATCACAGTGACTCTGAACACGCTGCCATGGTGACATCTGGTAAACCTTAGGATGGCCATGGAAAACGACTCTTTGCCCTGTTTCTTCTTGGCTTCCCT
TGCGTACAAGGATGAAGGAGGTGGTTTAACTTTATTTTTGTCCTTTACTTTTTAAGTCTAAAGTAAGTGCTTGAATCGGGTGGGTTTTCATTTTTTTGCT
TTCTCACCCCTCAGGTTGGCCCCTRACTTGGCCTCTCACCCTCGTGTCAGCTGTTAGACACTGACTCAGTGGCTCAGAATATGAAAGGCTCAGGAAGTAG
CATGCTGGCCCCACCTCCCTGTCCCCATACCTTAGCAGAGCAGCTGCCCAGCAGGGCCTCCTYCTCTTTCCTAAGAGTTTACTCCATCCATGGTGGGTGT
CTTGGTAGGCCCGAGATACGAGAGGGAGTGCTGCTGTTACAAGAATTTACAGTTGTTCTCTTCRGCACAGAAATGCTGTAAATGGCCTCTTTCGATACTA
GTTTATGAAATTATAAGTGTCTGATGATTGTGCATCTTTGGTTTCAACAGCTACTCTGACCTACGACACTCTCCGGTTTGCTGAGTTTGAAGATTTTCCT
GAGACCTCAGAGCCCGTTTGGATACTGGGTAGAAAATACAGCATTTTCACAGGTATCGGCCATGCTGGAGCCCACCCTGGTCTGACCGCTTGGCCTGCAG
AAGCATTTTGTGATCACTGTTCTCTGCTAACTCTGCCATAACTTGTGACTTGCAAACTTAAGGCGTTGTGTGTGTGTGTTTTTTTTCTTTTAAACAACCT
CTAGAAAAGGACGAGATCTTGTCTGATGTGGCATCTAGACTTTGGTTTACATACAGGAAAAACTTTCCAGCCATTGGTAAGTACTCTGTTTTATTACAAC
GCGGGACAAAATATGTTTTTAGGAAGGAGGAAAACTTACGCTTGTAGATTTGACTTCAATATGCCACTGACTTCATTTGAATCTTCACAGCAATCCTGCT
TAACTGAATTGGCCGAGGCCTCACGTGTAGTAGTGGCAAAGCTAGAATCCACGGCGCCTGACTCTAGGCTAGTGTGTTTTCAACTGCAAATCCCAGCTTA
TTACTGGAGCTGGAAATCAGTATCATGAGTTATGACCAACGTTGTTTTAAATGTAGGACAGAATGTCATAGAAAGCGGTGTGTGTCCGCCACGGGCACGC
AGCATGGCGCTTCAGGGATCTTCGTTTTCGTTTGCATGTTTGAGTGTGTGTTCTGGGTCACAGCTGTACAATGTGTTTCTTACTTAGGTCCAGAATGTTT
GGAAGCCATTCTCTGTAGCCCTCATCTTTTTTAGTATTTTCCACACTTAACCTGTGGGGAGATTTGAAGGGCCAGGTGAATGTGACATGTTTTTATGTAA
CACTAAGGTGCATTCTGTTAAAAGCCATTCATCATTGTTGTATACCCTGGAGCTGGAAGGAGATGGGGACTGGTTCTCAGCCTTGCCTCTCACCGGCGGA
GAACTGAGGCCGGAGGTGAGGGCCGGGCTGGCGTCATGCTTCCTCAGTGCCAGGTCAGGGTTTGGTCCCTCTTCTAGGGGTGGTTTCATTCTTTATCCTG
AAGTGAGGTGGAAGTCAAATAGCCACAACGGCTGGACATTGGAGAACACTGACGCGTAGGGACATACGACAGTGTCTCCTTAGGTTGATATTTAATGATA
CACCTTGTGAGATGTACCCTGGGAATATTGATATGTAATGATATATTTTAATGACATACCTTGTCAGATGTGCCCTGGGAATAGTTGCTCATTCCACAGT
TTCCGCTTGTTTCGCAGCTGCGCTGAACCTGCTCTCTTGGCCGCCTTGGATGCAGGTTTGTCCCCAGCCTCCATCTCCTTCACAGCTACCCTGCCGCGTG
CTGGGAAGGAGAACAGGACTGGAGCGAAGCCTTTCTGGTTTGGCAGAGGCCTTGTGGAGGAGGTAGAGGCTGGGGATGAGCCTGCACATGAAGCAGCCCT
GTCGCAGTTCTGAAGGGCAGTGTGCTGTGTTTCCTTCTTAGCCCCACGGAGATAATTTTTTAAAATTATTACTTTCATTTTTTTAATAGATGGGGTTTCG
CTATGTTGCCCAGGCTGGACTTGAACTCCTGGGCTCAAGCAGTTCTCCCTCCTCAGCCTCCTGAGTGTCTGGGACTACAGGTGCACACCACCACGCCTGG
CTCTGAGATACGTTTTTATCAGCAGTAGAGCGATCAGCAGTGGAGCGAGGGTGACCATGGGCACTGCTGATTGGGTTGTTGGTGGGTGACGGCCACCACT
ACCCCAAGACACAGGGTTTATTGTCCGTGCCAGTGCATGGAGAAGCTGCCGGAAGCCCAGAGGTGGGCACAGGGCGAACCTTGTGGTCTGACCCCTGAAT
CTCTGCTTCTCACCCTGGTGTGCAGCCACCTAGCAGCCTCTTGTCTGCTGCACAGGTGGCCCTCTCTGTTGTCACAGCTGTGCAGTGGCCTTCCACTGGA
CCCCTGCTATGGGCTGGCAGTGTTTCCCACGTGCCTGTCACATGCCGCGCAGTTCCATGGTGCATGTTGTCCATCTTTCTGGGCCCCAGGGAGTGGCCGT
GAGGGCAGGGCCCAGGCACCTGTGCTGGAAGGGCTGAGTTGCTGCCCTTGCGGCCCTTCCTGTGCTCTCAGCAGCACTGGATGTCATCAAGCGTTTGAAT
TTCTGCCTTTCTGATAATTGGAAAATGCGTTGTTTTGTTTAACTTTGCATTTTCTGGATGACTTACGRGGGTCAGTGTCTTCATATGTTTGTCAGACATT
CCTTTTGCTCCGTGACTGACTTGTTCATGTGTTTTGCCCATTTTGAGRAGGTTGTCGGGACATTTCACTCTCCAGTAAATGTGGCCCTTGGCGTTACTGA
GTCCTAAGAGGTGTGTGTTGCCCCAGGTGGAGCTGATGGAGGAGGGAGTCGGTGCCTGTGGTGTGGGACTGACYGGCTGCCTCCTGCCAGTGGGCTTGTG
GCCTGTGGGGCCATCTGGCCATGAGCACTTCTCTCTCTGTCTGCCACGACAGGGGGGACAGGCCCCACCTCGGACACAGGCTGGGGCTGCATGCTGCGGT
GTGGACAGATGATCTTTGCCCAAGCCCTGGTGTGCCGGCACCTAGGCCGAGGTGAGTCACAGCCCTGGGGAGGGCGCATGGCCACGGTGTTCTCAGGAAG
CAAAGGGGACTGTGGGGTCAGGGCTCTTTAGAGCAGACCRCAGGTAAAACAGTAAGTAGAACTTGGGGGTTTCTTGAGTAATGAGCCACTTGTTTTTCTT
GATTTAAAAAACTGACTTTAAAGAATGCTAATAAATCCGCATGGGCAACATGGCGAGACCCCGTCTCACAAAAAATACAAAAATTAGCCAGGCGTGGTGG
CTCCTGCCTGTAGTCCCAGCTACTTCGGAGACTGATGTGGAGAATTGCTAGAACCCAGGAGATGGAGGCTGCAGTGAGCTGAGATCGCACCACTGCGCTC
CAGCCTCTGCAACAGAGTTAGACCCTATCTGAAAAAAAAAAAAAAAAAAAAAGAAGAAGAAGAATGCTAATAAATGTTTTAAATTACTGAAACTGTTTTC
TGTACAGATTTGTTTTGATAACTTGGCGTATATGTATTTGAAATCCTGGAGAACATGGGTTTTTACTTTTAAAAGATTCTGGGCTGGGTGTGGTGGCTCA
CGCCTGTAATCCCAGCACTTTGGGATGCCGAGGCGGGTGGGTCACGAGGTCAGGAGATCAAGACCATCCTGGCCAGCATGGTGAAACCCCATCTCTACTA
AAAAYACAAAAATTAGCTAGGCTTGGTGRCATGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTT
GCAGTGAGCCGAGATCACGCCATTGCACTCCATCCTGGGTGAGAGAGCGAGACTCTGTTTAAAAAAAAAAAAAAAAAAAAAGATTCTGAAAAAGGTTTGG
ATGCCATCTGTATCTTTAGTGTGAAAGTGAAAACTTGTTTCTCATATTTATGGTAGAGCTGACCTGTAATTTTTTTTCCAATAGATTGGAGGTGGACACA
AAGGAAGAGRCAGCCAGACAGCTACTTCAGCGTCCTCAACGCATTCATCGACAGGAAGGACAGTTACTACTCCATTCACCAGATAGGTGGGAGGCTGCAG
AATGTGCCAGGCCCCACCCGGGCTGTCTGGAGAGGGTGGAGTGGTCGGTTTCCCCTCAGAGCTTTTCTGGTGTCGTGGGATGTGGAGCAGGAGGCTGTAA
ACCTGTAAACACTGACCTCTGACCATCTGTGCGCTGCTGTCACATCACCYCCGTGTCATCCCACATCACCCCCGTCCCACCCAGGCCCAGACCCTGGGCC
TTGCCCTTCCTGCTGTCCATGCGGCTTGCAGTGCCTGGTGCTCGGCACAGTCTGGGGAAATTGGCCTCGCCCCATCAGTGAATCTGAATGCTCAGATTGA
AGTGGAGTGAGTAAAGAAGAGTTGGCCTTTCTTGCAAGCAAGGCCGGCTTTTGAGCACTGTGTTTTCACTTATAGAAGGAAGTGGTCCCTTCATTTCCCC
TCCTTTTCTAAGTTCATAGTGAAGGACAGTCCCTGAGACCTTGTTTGCCCCCTCATGCCTCCCCCGATCTTGTTGGGGCATCCTTCCGTCTGGAGGCTGG
GTCGGGTGCTGTCCAGGCCTTCCTGTGACGTGTCTCCTGGCACCAYGTGCCACCAGAGGTCAGGGCTGGGGGCGGGTGTGTGTTGCTAATGTGTATCTGT
TCCCTGCAGCGCAAATGGGAGTTGGCGAAGGCAAGTCCATAGGCCAGTGGTACGGGCCCAACACTGTCGCCCAGGTCCTGAAGTATGTACTGCGCTTCCA
CTGCTGAGCATGGGGCAGCAGGGATGTTCCCTGGGGGTTAAATTCTCCTTGAGTCTTCATGGCTACAGGAAATAAGGGGTCTCTAATTATTTACTTCATG
GCCCTCAGAAGGTTTCTCAGCGATGACTGTGTTGAGGTCTTGTGAATAGGAATTTATGTTTTCTAACAAAATGAACACCGTAGTCCACATCCTGGCTGGC
ACATTGGACCCTTGTTCTTTGCTGCATGGATCCACCTGTAATGGTGGCTTCTGATGGGGTGGGCAGCTGAAGCTAGTCTGCAGCCATCTGTGCGGGTGCC
GGGCCCTTCCACCTCTGCAGGCTTGTTGGAGGCTGCCCTCCGCGGGCCTTGCCACCTGCCTTTCTCACTCTACCCGGAGACTCCCTGTAGCCTCGCTCAC
CTTCCCATACACCTCAGCGTCTGAAAGTGTGCTCTGCACCTGCTCCGCACCGCTTCCTTTCGCACCTCACTCAGCCCCATTGCGTGCCCGCCCCCCAGAT
TCCTCTGAGATGACCTTCCCTGCAGTTCCAGAAACTTGCCTGTGGTTTCAGCTTCGTGTCCACTCTTCACTCCTCTTGACCCATCCAGGGTCATTTGGTC
TGATTCCATGTGTCCTGGCATCCCAGCATTTTTGGGGAGGCTCTGGCCAGATCCCCCAGGACTTGTCCCCTCAGGGTCTCCTCCCCACTGGTCTGAGGGC
CAGCGTCTCCCCAGCCTGTCTTCAGCCACGGCCCCCTTGAAGCCTCTCCTTCTGCATCTGCCTGTTCTGTATCCCACTCAAGGCCCTCAGGCATCCCACG
TTCCACATTCCTGAAATGGCCCTGTCTCCCCTCACCCWCAGCCTGCTCCTCAGCATGGCAGTCACTGTCTCCACCCAGCTTTTCTGTCAGGTTCCCTGGG
GTCCTGCACAAGTCCGTCTCTGCCACATCCCACGTCACCCGCGTCCCACGTCACCCCCGTCCCACATCCCCAGCCTGCTGCTCCCTCTGTCTCCAGGGCC
CGCCCTGTGTTTGGCGTGGCACCTGCTCAGTCCCTACTGCATGCCCTTCAGAGTCCTCTGTCCAGCAGCTCCCCAGCCCCCACCACACCCTTCCACTCAC
ACTTCTCTTGCTGCTGCCTGGAGTGGCCCCACCAAGTCAGCGCYGTTTCTCTGGAAGCACCAGGCCACTCGCCATGCTCGCTGTTTCTCCTGGTCCCCTG
CCTGCTCCCCACCAGCCCCCGCCCCTGTTGCTGGATGATCCTCCCCAACCTGCAAGTGCTGTGGCACTCAGGCACATGGACGGCTTCCAGGGCTGATTTG
TCCCTGGACTCCAAGCTCAGGTCCAGCTGCTTATTCTGCATTTCCACCTGGGTATCTGTGTGCATGGTGACCTGACAGCCAGAGCCCGTGCTGGCCCCAG
CCTGCTTCTCCTACAGTGGTCCTTCAGGTGCTCAAACCAAAATCTGGGATTGTTCTAGACCCCTCTTTTTGAGACGGAGTCTCGCTCTGTCGCCAGGCTG
GAGTGTAGTGGCATGATCTCTGCTCAGAATCCCAAGTGATTCTCCTGCCTCAGCCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCA
GGACTCCTCTCTTTTTTCTTTTTTTTTGAGACAGTCTAGCTCAGTAGCCTGGGCTGGAGTGCRGTGGTGCAATCTTGGGCTCACTGCTTCCTCCRCCTCC
TGGGTCCCGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCCCAGTACCTGGAATTACAGGCACCCGCCACCATGCCCAGCTAATTTTTTCAATTTTTAGTAG
AGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCTGCCTTCGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCC
ACCGCGCCTGGCCAGGACTCCTCTCTTTCTTTTTTTTTTTTTTATTTTTTTTCCGAGACAGAGTCTAGCTCTGTAGTCCAGGCTGGAGTGCAGTGGTGCA
ATCTTGGGCTCACTGCTACCTCCGCCTCCCGGGTCCCAGTTCAAGCAATTCTCCTGCCTTAGCCTCTTCAGTAGCTGGGATTATAGGCACATGCCACCAT
GCCCAACTAATTTTTGTATTTTTAGTGGAGACAAGGTTTCACCATGTTAGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCTGCCTCATCCTCC
CAAAGTGCTGGGATTACAGGCATGAGCCACCGCTCCTGGCCAATTCCTCTTTATTTCAGTGGGCCCATTCAAAATATCAATTCCTCTTTCTTTCAGTGGG
CCCATTCAAAATATGTCCAGACTCTGACCAGTGTTCATCCTTTCACTCCCTGTGCTGGTCCCAGCCCCATCTTCTTCTTTCTTGTTGATCTTCCTTCTCT
CTTTGTCATCCTAGAGTCTCTTTAGCAAATAACAGCAGAGCCATCTGCATAAAACATATTGGCCACTGCTCTGCCTTGAACCGCCCTGGCTCTTCACTGC
TGACTCAGGCGGGGCTCTACCCGACCTCCCTGGCATGACACSTTGTGCTCCTGGGACACACCAGCCTCAGGGCCTTTGCATGTGTGGTGCCTGGCACTTG
GACCCTGTTCCCCCGACACCTGCCTGGGTTGCGCCCCATGTCTGCCCAGGTACCCTTTGGCACCAAGGTCTTCCCTGTGGCTACGTTAGTAGTGCCACTC
CCCGTTCCTGCGTTACTGTTCTCTGCAGTGTTGACCACCGGCCCACGTGGCTGCTGCTTCCTTGTTTGCCCTCCGCCAGGTCAGCTTTGCCAGTGCTGCT
GTGTCCCTTGTGTGTGGGTGCGTCTTCGGCACTGCATCTGGGCTAGAGGTGGGAGGAGGAAGGTGGTGTGGGAGTGGGGCGGGGAAGCAGGCTGTCCTCC
CATCTTCAGCACTGCAGCTGGGCTGGAGATGGGAGGAGGAAGGTGGTGGGGCAGGGGGGCAGTGGGGGGCAGGCTGTCCTCCCAGTGTCCCCCCTGGGCT
TGTGCATTGGGAGGGGCTCTGTGTGGTCACCCCAGTCCCCTGCTCCACCCCCACCCAGCTCCCCTCCACAGGTCTTGCATTCTGTCCCCGGGAGCACCAG
GTCTTTGCTGCCTCAGGGCCTTTTCTATTGTTTTACCTTTTGTTGAGGTCCTCTGACCCCACCTCCGCCAGACCTGAGATGAGATCAGAGTCGTGTTAGA
CTTTTGGCTGCAGAATCTGCCCTTCCCTCAGAAGGGGAAATCCAAGGCCATGGTTCCTCCTCACTGGCGTGCACAGTCGTGCTTCCCACTAAGCTGCAGA
TTTCTCTATAAGGACTCAGATTCCTTGGTTGTCAGCTCAGCGTGTTTGGTGGAGGGGAGAGCAGAGCAGAGCGTGAAGGTGCTGGGAGGCCTGCCTCAAA
GTTGGCAAAACCCACAGCGTCTCAGAGCTGCGTTCATGTTCTAGTTCCTGCCTCTGTGCCAGTGAGACCAGAAAACCAGGCCACTCAAMAGCCTCTTGCG
TGTGCTCTCTATGAATGGAGGCTGGGGCAAGGGCAGGACCCCTGGGCCTCAGGCGAGAAGAAGCAGATTTACCCTCAGCTTTCTTCCTGTCTGTGGCATT
GGCTGTGCCCCGGATTTTAGGAGCCTTGGCCCTTCTCATCCGAGAAGCACCTCTAACGCGAACCCTCCTTCGCGCAGCTATAGCTGCAAAGATGAACCGT
CTTTGAATTGTACAAAAGCTTATGGTCATTCTCCTACTCTCTGTAGGAAGCTTGCTGTCTTCGATACGTGGAGCTCCTTGGCGGTCCACATTGCAATGGA
CAACACTGTTGTGATGGAGGAAATCAGTAAGTGGCTCAGAGTTTCCATGGACAAGAAAGTTGAAATCACGGGCAACATACACACTTCCTCGCCTGAGTCC
CCACGGGAGCCTCGGCGAGTGTTGTCRGTCGCCCCATGCCGTGCAGGTGCTCCGTGGGGCCTGTGCGCCAAGCCAGATGCACGGTGGCCTCGCTCTCCTA
TCCCGGCGGTCATACCAAGAGAGGAGAGCCCAGGCTGTCTGGAGGCCGCGACTTGGTATCTCACGTCGTGTTTTGTGTCTTGGTTACAAATCGTTTATGA
AGGCCCTGCTGTGCTTAGGCGCCCTCGTGTGGGAATTCTGGTGAAGTTATTTTGCGTGCCTTGATGTGCGACAGAGAGATGTAGCAACCATCTCTAGCTG
CACCATCTCGAGCAAAGGCACGTCGTGAAGGCAGAGCTCTTTTCAGCTTTCTGGAAGAAAGGTCTGCTGCAACCCTGAAGGAACCTGGGCGTGGCAAYAT
TTACATCTAGGAGGAAAACTGTGGCTCAGTTTTAACAAATGGGCTCATTGAGTGAGTTCCAAATTCATGTTTCACCTTCCATGATGTAGCCAAGCTGAGA
ACTCTTAAAAATGCCTCAYYGCCTTTTTCACTCAGGGCCACCTTTTTCCCAAGGAACTTCTCAAAACTCCCTCAATTCCAATTTTATTGAAGTTCTACAT
GTAGGCTATTGCCTTGAATCCAATTTTCCATAAGAAAGAGCTCATTTAGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACCTTGGGAGGCCRAGG
TGGGTGGATCATGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAGAAACTAGCTGGGCATGGTGGCACG
CGCCTATAGTCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCTTGATCACGCCACTGCACTCCAG
CCTGGCCACAGAGCGAGAATCCGTCCCCCGCCCCCCAAAAAAAAGACCTCATTCAGAGCCACAGCCGTAACTGCGCACAGATTCACAGTGGGAGTGGGTC
CTGCCCTGTGACTGTGGGTGTGCCAGGTCACCACACAGGTGTGTGCTGGGTCACAGACACGCCCCTTCCCTGCCTCTCCATTCTGTTTCTTCRTCGTCTG
GCCATCCTCGGGGGCATTGTGACACAGCGGAGGGAGTGAGGCAGGACTTTATAAGGGAGAGTGAGGCTGGCTTCTGCAGCATTGAGAGCTTTGCCACAGC
AGGCTCTCCTTCCAGGATTCTGTTCCTCAGAGACTTGAACTTGGGATCATAACCAAAGGGTGTTTGTTTCTTCCATCTGCCTTTTTCCTCCATTCTGTTT
CTTGAAATTTTTATAAAACATTGGAAACACAGGAAGAGTACAAAGAAAGAGAAAAATTATTGATTTTACCACTCAGAAATAACTCATATGAGCATTTTGA
CATTCTTACTCTCAGTATTTCTCCTGTGCTTTTCAAAAACTTACATAGTTTCCTAAGTATTTTCTCCTGGCCATGAGTGACAGCATTGTAATTATTAACT
GGCTACACAATATACTATTATACCTTAGTTCCCTGTTCACTGCCCCATCCTCCCTCCCGTGTTTGGGGAAATCACTTACCCCCTCGTTCCGCACGCGTGC
TCAGGATCTCACCAAGTCACACCTCAGTCCCTGGCCTCGGATTAGGGAGGCTGTTGCTGGGTGCAGTGGCCAGGAAGGCGCAAGGGTCAGGGCTTCCTAG
AACCTCCGTCCCTCTGGGTGCAGGTAGCACTGGTGGGAGTGTTGGGGGCAGCTTGTCTGTGTGGACTCCAGCTCCGTCCCTTCGGGAGTCTCAGGGCTGC
CCAAAGCAGTGCTGCTGAAACGTGGCTTGTCAGAGTGAGAGTGGAGTCAGGTCCTGGAAGAGCTTGAATCTGCATTTCCCAGCCCCTGGGGATGGTGGCT
CCCGGGAGGATGTGGAGGCTGCCTGGTCTGACTGGCTTCGTCTCACTGCGTCAGCTGCCTGAAAGGACACTGTTCCTCACAGGAGCATGTGGAAGGTGCC
TGATGCCCCCATTTAGGAAGAAAGGCATCCACATCCAGCCAGCAAAGGCACTGGCATTGATGCACAAGGCTTGGGTTTCTGGGTTCCTGAGTGTGGCGTG
GTGTTGTGAGGAGGACATCGGGGTCGTTCTGAATGACCCCTACCAAAAGCCCCAGGAGGGAGTAGTGGGGGGAGGGCAGGAAGCAGGCTGCTTTTTTCAG
TCGTGCTGCTAAGAGTGCGCAAGGGAGGACGTCTGAGGAAGAAGTCCGCAAAGCCGAAGCTAGAGAAACAGACGTGTCCTTGGCTAAGCAAGGACTTTTC
TTCTAGTTTCTCGGAACTGCTTGTGGAAGGAGCAGTTAGATAGGAGAAGACTGATGCCATTCAGAAATTCCACTAAAGCTTCTTCCTGCAGCGAAAGAGC
TGCCTGACGGTGTTCCCACTCAGATTTTAGGTGAAGCCTGTGGGGTAAGGGGAGACCTTACTGCCTACAGTGTCCCCATCCACCAACCCATCCCCCCCGC
AACTCATCCTTCTGTCCACCCCCAGTCAAAGGCCAGCCAGGACATCCTTAGCATGCTCTTCTTGTCCTTAACGTTGATGGGCTTAGACCTTTCTAACGAC
AGTAGACAGAATGTCACTGAATGTAGGGAGGAAATACAGATTGGAAAACGTGTCAGTCTGGCAGTGAGGACAAATGACTCCAATGAAAGAAAAGTAAATA
CCAGAGCAAGCACAGTCAGAAACAGAGTGGGGAGGAGAATCACAATAGCTGRAACTCAACTCTCTGAGAGGCAGTGCAGCCAAATAGAGGCAGCTGAGAG
CAGAGTATGTGGATTAGAACTTTTCGGGAGAGTTGGCCACTGAAGGAGTAGGAGAAAATTCCCCTGAGTTGGTGAGAGTTGAGTCTTTAGAGCTAAAGAC
CCCCAAATTTTTTTATCAGAAGTACTTAAACATACATRTTCCTGATAATATTTCCAAATTGCAGAAGTAAAGGGAAACTTCTCTAAACATCCAAATAATA
GTATCACTACTAAGCTGCTTTGAAGAAAGGCAGTCTCAACTGGCCTGGGCATCTCATCTTTGTGCCATACCAAATGCTACTGGAAAATGTTTAGAATTCT
GAGAAAAGACCTGGCTTCATGAGGTGAGAGTAGGTATGTGTACTGTGTAGTTGTCATTGATAGAGAAATATAAATTTTAAATGTGTTCAAAATATAAAGA
GAACACGAGAAAATTTCAGGTGGTGGCAGGAATAGGCAAAAGCCCGTTGCACCCTGTTGACAGCAGGGTGTTTGTGACGTGGTAGGTCACACACTCAGTG
CTGGGCTCTGGAGGCACAGAAGCAACCGGCCCAGCTACGCATCAGCCCTTGAGCCGATTCATGTGTTCGATCATATTCCTGAGACAGTAGGGTCTGTGCA
GGTAACAAAGCACCAGTCAGCAGGAAACTCACCACCGGGAAGCCTTTCTATCAAAACATAACTTCAAAATCAGTAAAGTGGGCCGGGCATGGTGGCTCAY
GCCTATAATCCCAACTTCAAAATCAATAAAGCGGGCCGGGCGCGGTGGCTCACGCCTATAATCCCAACTTCAAAACCAATAAAGTGGGCCGGGCGCGGTG
GCTCACGCCTATAATCCCAACTTCAAAATCAATAAAGCGGGCCGGGCATGGTGGCTCACGCCTATAATCCCAACTTCAAAACCAATAAAGCGGGCCGGGC
GCGGTGGCTCACGCCTATAATCCCAGCACTTCGGGAGGCCAAGGTGGGTAGATCACATGAGGTCAGGAGTTAAAGACCAGCCTGGTCAACATYGTAAAAC
CCCATGTCTACTAAAAAAAAAGTTAGCTGGGCATGGTGGCACGCCCTCGTAATCCCAGCTGCTCGGGAAGCTGAGGCACGAGAATTGCTTGAACCTGGGA
GGCAGAGGCTACAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGTGTGACACAGTAAGACTGTGTCTCAAAAAACCAAAACAACAAAAAATAATAAA
AATATATAGAAAACAGAATAATTAACAGATTAGCTATGGAAAGATCAAAGCTACAGGGGACCCAGATAACACAACAGGCAGAGTTTAGTAGATACGTGTC
AAACCCTAGATTGTGACAGCAGAGTGTGCCTGGGAATTTCTATGAAACTAATGCGGAATAAAATGAAAAAAGGACAAAACCCTGCTGCCTGGAAATGTGA
AACCTCAAAAAAGTCAAGTGTAGAGACCSTAACTATGTATCTGAACCTGATGTGTACAGAACTCAGAAGAAAACCTGTGTATCTTCAGTACTAGTATATG
GGTTCTTTACAAAGTGAAAATTAATGAAATAAGCATACAACTCAAGAATTCGGAAAAAGCAAAATTAACTGAAGAAACCAAAGAATAATATTAAAGACAA
ATACAGAAATTAATGATTTAAAGGAAGAAATGTATTAGGCCAGGTGTAGTGGCTCATGTTTGTAATCCCAGCACTTTGTGAGGCTGAGGCAGGAGGATTG
CTTAAAGCCAGGAATTCAAGACCAGCCTGGGCAACATAGCCAGACGTCTATTTTTTTTTTTTTTTTGGAACAGTTCTGCTCTGTNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNTGCCTGGACCTCATTCTATAAAATATTTTAAAAATAAATTTTAAAATTAAATTTATTAGAACTAACACATACTAGAA
CTGGCTCTTTGAAGCAATAACATATATGTTTTAAAAAAATCAAAGTTAAAATCCCTCCCTTGGCTAAGCRCTGTGGCTCCCGCCTGTAATCCTAGCACTT
TGGGAGGTGGAGGCAGGCAGATTGCTTGAGTCCAGGAGTTTGAGACCAGCCGCCTAGGTAACATGGTAAAACCTCATCTCTACAAAAAAACAAAACAAAA
AAACTAGCCGGACATGGGGGCATGTACCTGTAGTCCCACCTACTCGGGAGTCTGAGGTGGGAGGATCCCATGAGCCTGGGAGGTTGAGGCTGCAGTGAGA
CATGATTGCACCACTTCACTCCAGCCTGGGTGACACAGTAAGACCCTGTCTCAAAAACCAAACAGAAACCCAAACAACTCCCTTAAGGCTGGGCGTGGTA
GCTCCTACCCATAATCGCACCTCTCAGGGAGGCTGAGTTGGAGGATTGCTTGAGACCAACCTGGACAACTCCCTCTCTATAAGAAATAGAAAAATGAGGC
CAGGCACATGGCTCATGTCTGTAATCTCAGCACTTCGGGAGGCTGAGGTGAGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCCGGCCAATGTGGCA
AAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGACACACACCTGTAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATTGCTTGAG
CCCAGAAGGCGGAGGTTGCAGTGAACCGAGATTATGCCACTGCACTCCAGCCTGGACAACAGAGAATCGGCTTCAAAAAAGAAAAGTCAGGGGGCACAGT
GGCCCACACCTGTTGTTCCAGCTACTCGGGAGGCTGAGGCGGGAGGATTGCTTAAGTGCAGGTGTTTGAGGCTGCAGTGAGCTGTGGTTGCACCACTGCA
CTGCAGCCTGGGTGACAGAGTGAGACCCCGTCTCTAAAAGAAATTTAAAAAGTTCTGTCTCAGAATCCTTGTTTTCCAGCTGTCTGTTTTGAGAAATTTG
AGTCCTACAAAAAAGTTCAGTGAGTCATGGCCACAAACCCTCCACCTAGATCCACCAATTGTGTTTTGACACGCTTGGTTTTTATGAGCAAGCCTCCTAC
GAATGAGAGTGTTCCTGAGAGCCACACAGCCTCATCACCACAAAAGAGGTGACGCCACGACTCACCAGGGTCCGTCTTGGCCCCTTGCTGTCCAGGGAAC
AACCCRTGCCGCTGATTTGTGTTCCTGGTTGAGGGTCCGGTGCTGTGTGTATATAGTTGTGATGTCTTTCTAGTCTTTAATTGAGAAGGTTCTGCCTCTT
TGTTGTGGTTGTTGCTGCTTTGTGGCATTTTTGACGAGTTCAGGTCAGCTGACCATCCCACACGCTGGATTTGTCTGCTTCCTCACAGTTGGGCTTGGGT
TGAGCCTGTGGCTGAGAGTAGCCTCTGGGTGGCAGTGTCCTCTGCTCTCCCATCCGGGGCCTGCAGTGGGACACTATGTCAGATCCCCRGAGATGGTGTC
TTTTTTCCTTTGTAATTAATGAATAATCCAGTGGTGACACTGAGCATGTCCTGGTGAGCTGTGTGACTCCTGCCTGATAATGGTGGTTTTTCTAGCCTGT
CCTTTCCTTTCACGTTTATTGGTTGGCGTTCTGAGAAGAGCCGCCTTTTCTCCCATCACTTAGTGTGCAGTGTGCTACCTGTCACCTGTCTGTCACCTGT
CAGTCACTGTCACCTGTCACTGTCACTGTCACCTGTCACTGTCCATCTTTTTGATGCTTGACGGTTCCACCTTTGGCCGGTGGCCACCTCAGTCTGGTGG
TGTCTTTTGCCGTGTTCTGGCRTTTTTCGTTTATGTTWTGAGCCCTCCCTTATGTTCTGGGTTAAGCAGATGCTGCAGGCACCTCTGAACATTCCCTGCC
TGGCCCTGGAATCAGCCTGGCTCCTCTGAGTGGGGAGTGGTGTTGAGAAACCTCGATCTAGACGCCGGGCATGCTCCATGCTCCCGGAGTGTCTTCTCCC
ATCACCGCACCCTCCGGTTGATGTGTCCTCCGGACCATTGACTCAYGGGTGTGTGTAGGCAGAAGGGGTGGAAGCGAGGAAAGGCGTTGCTGAGGAGGCC
CGGAGGGAGCGGGTTCTGGCTGTGCTGGCACTAGCCAGGCTGGCAGGCTGCGTGGGTACTTCTGTGATTTTCCTCTCAAGTGCACGTGGCTTTTTCTTGC
ACTGTTTCGTGTGTGTGCTTTATTTCACAATAAAACTCTTGAATTAAGTATGCATAGAAACTATTTCTTTTTTCTCTGGGTGGCAAGATTATGAAAAAAT
TTTCTTACGCTTTTCTATATTTTCCAAGTTTGAATTTCACTGTAAGCACCTGGCTTTGTACYGCCCTTTTTCTGTTACACRGTCATCATTTGCTTGCTTG
TTGTGGGAGCACTTTTGCACAGGTCTGCTTGGTTASTGAAAGCATGTCTCCCTTTCTAGGAAGGTTGTGCAGGACCAGCRTTCCCTGTGCAGGCGCCACT
GCGTTTCCTGCAGATTCCGACCGGCACTGCAAYGGATTCCCTGCCGGAGCTGAGGTCACCAACAGGCCGTCGCCATGGAGACCCCTGGTACTTCTCATTC
CCCTGCGCCTGGGGCTCACGGACATCAACGAGGCCTACGTGGAGACGCTGAAGGTGGGTCCTGCCGTGCGGCGCTTGCCCTGAGTCCCCGTCCCCTTCTC
CCAGTTCTTAGTCACTTTCAGCGCATCGTCGTCACGTGGCCATTTGTGCAGCCGGCTCTCGGGGGAGGGGTAAACAACCCTGGTTTACACCGTTGCCCAA
GGGGTGAGTGGGCGTGAGGCACGTCCATCAGTAGGCACGTGCTGCTTTCGTTCTGCAAGTGTCAAGGCGAGTGTCGAGGATGAAAGCATGAGGCGCTTGC
AGGGGGTCCTYGGAACCAGGTGCCACTCCTCGGCCTGACGGGGAGCCCCGCCCCCTCCCGGGTCTCCACTGTGCCCCAGGCATGCCCACCCCACTCCCCC
ACAGCCCTCTTGGCCTGAGGTCCCTTCGGAGGGTGGGTTGGCCTGTGAGGAAGGGACGTGTGGGCAGGGCCTGGGGATGGGCAGGGCTGTGTGAGGAGCT
CCAGCCACAGGCTCCCCCATGTCATGAAAGCAAAAGGGGGCGGGGAGCGGTGGCTCATGACTGTAATCCCAGCACTTTGGGAGGGCAAAGCGGGCAGATC
ACGAGGTCAGGAGTCTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATATAAAAATTAGCCGGGCATGGTGGTGCGCGCCTGTAGT
CCCAGCTACACAGGAGGCTGAGGCAGGAGAATCTCTTGAACCCAGGAGGCGGAGCTTGCAGTGACCCGAGATCATGCCATTGCACTCCATCCTGGGTGAC
AGAGTGAGACTCCATCTCAAATWAAAAAAAAAAAAAAGCAAGCAGAAGGGAAAACCATCCTTTCTTCAGGTAACTCAAATTTTAGACCAAGGAGTCACAT
TTGTATGGAACTGAAATGTGGCTTCCTGTTAAAATTATTCAGTTGTCTGAACTTGGCCCCTCCGTCCAGCCTTCTGCCCATCCTGTGGGGTCTCAGCTGC
CCCCACACATAGGCCCCGTCTCCATCGCTTCTGCCCTGTCAGGTCAAAGCACTCAGCAGGGCCACCTCCCGCACCCCTGCTCACATCTCCTGCCAGGCCC
CCTCACTCCCGGCCTCCCCAAAGCCCACCTCTGACATGAAGCTTCCCTGAGCTGAGCCTGCAGATTGGGTTTCTTGTGCCTGTGGGATGTCCTGTGGTCT
TTCCTGGACAGTAAGCTCTTTGGTACCATGTCCCCTCCTGTCCCCTCTTGYGTCACCCAGTTGGGCCTCAGCAGGCCCTTGGKYCCCCTATGGCAGTGGG
TGGGGGGACCGTCTGCTCCCACCTGGGACCTGTGCTCAGTCCCCCGCCCCTCCACAGCACTGCTTCATGATGCCCCAGTCCCTGGGCGTCATCGGAGGGA
AGCCCAACAGCGCCCACTACTTCATCGGCTACGTTGGTGAGTCCAGGGTTCCCACCGTGTCCCTGTGGGCCTGGGCCTTTTAAGGGCATTCCATGAGCAG
GTACCACACCCCAGGTGACCACTTGAGGCCACTGGTGGAAAAGCAGCATGCCCTGGGGTTCATTTTCAGCCTGGTCGMGGGCGGCCTCCTGTGTGCCCCT
TTCCCTSATGGTCTGGTGCCCTCGGCTCCCTCCCCACCTCCTGCCCACTGCTTCTCAGTGTGATGTGGGTGCAGTGGGTCTGAAATGCGGCCTCCTCTGT
CCCTTTCCTCTGCCGGCTCGGCCRCCCACCTGCCCACCTGCCTCATCCTCCCAGGTGAGGAGCTCATCTACCTGGACCCCCACACCACGCAGCCAGCCGT
GGAGCCCACTGATGGCTGCTTCATCCCGGACGAGAGCTTCCACTGCCAGCACCCGCCGTGCCGCATGAGCATCGCGGAGCTTGACCCGTCCATCGCTGTG
GTACGTGGCGGCCACCTGAGCACACAGGCATTTGGTGCTGAATGCTGTTTGGGAATGACGAGGAAAACTTTCGGATTTTTGCGTTTTTTTTTTCAGCATG
TTGSGATAAGTACTGTGTTCACGTGGTTGGGAATCTGAAGGGTATAAGAGCCGGAACTGTGTCCTTGCACCCTCACGTCCCTCCCCCAGGCACCACCTCC
TGTGCAGCCTTCATGGCCTTCGAGTGGCCCAGAGAGCGTGTGTCTGGATGTGAGCGTGTGTGGGCGCGTGCTGAGTGTGCATGGATGAGTGTGAGCCATG
GTGAGTGTGTCCCCCTCACACCTACATTTAAACACAYGGGCGGCCCCTCCACCCACCCCTGCACCACCTTCGTCACACCCACATTTAAACACGGGCGGCC
CCTCCACCCACCCACTCCTGCACCACCTTTTGTTTTCCGGAGGCTCTGACTTGACCTCTCTGGGGGATTTCCTAAGAAGGAGCTTCCCTGTTTTTCCATT
TTGATTACCTAGTTGTGATTTTTGGTGTGTGATTTATGCAGACCTGCCTGCCCTCAAATATATTTGATGGGGAAAGAGGCCAAAAAACCCCCCTAGAAAT
CATGAATGACGGTGACATGCTCAGGGAAGCAGTTAACCGAATCGGGGGCTCTGTTGTGGATGCTCCGCCCCATTTAGGAGGAAGAAGGCAGATCTGGGCC
TGAAATGGGACGGTCTCTGAGCTGTGGCGCAGCCCCAGAGTGCACACCACGCTCCATGCACCTCCTGGGCAGGGTGGCAGTAGTGGGGAACATGGGCTGG
AGCTCTGTGGCTCACACTTTTTGTTTGTTTGTTTGTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCRCGATCTCGGCTCACTG
CAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCYTCAGCCTCTGGATTAGCTGGGACTACAGGCACCCGCCACCACGCCTGGCTAATTTTCTGTATT
TTTAATAGAGACGGGTTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGCCACTGCGCGCAGCCTGGCGCACACTTCTTACCAGAACCTAGTCACGAATTCCTCGTCKAACTAGAATTAGGTATGTTTGTTACTGTAAACGCA
GCTTGGTGGCTTACAGTGATTGRCACTCTAACAGTCAGGTCAGGCTAGAGAGCCAGCCACCGCAGACAGAGGAGTGGACGCGTGAACGTTGAGTTGAGAC
CAAAGGGGCCACCTGGTGGGATAACTGTCCTCACCCGTGAGGAGGAGGAATGTCCCCTGTCCCCGGGGGAGAGTGCTCCTACACCAGCGCCGAGGCGGCA
GAATGGTGTCTTCAGGGGAAGAGAGTGCCCAGTTTGAGCTTCTCCCCCCATTTCGTTTCTTTTTGTGTTAACATCTGCGCATCTGGCAGCGTTGAGAATT
CCTAGTGACTGTCATTACAGGCGGCAGCTTTAAGGATGTGATTGCCGGTGACCCTTGGCCGGTCCCCTGTCTCCTGGCTCCTCAGCAGGAGGCTCCCTGT
GTCACGGTGTCCTTGGGCAGTTCTCGGTGGCCTTTGCCGCCAAGCTTCCAGGGAGCTGCTGGGCGAAGGCTGAGACCCAGCGGCCCTGCCTCACAGTCAC
AGAGAGAAGAGCTCCCCACTTGGCCCTAACTCATAACCTGCCCCAATCCCGGAACACTCGGTGAGGTTTGAGAGATGCACACCACGTAACATCTCGTGGG
CGAATCAAGGCACAGCAACGCAGTGGAGCCTGAGGGGAGCCGGGCACTGGTGCAGGGGACCATGCACAGGGCACCCTCGGAGCTCCRTTCCYGGCCACAG
GAGCCAAGGCAGGCTGGAATGTCCAGCACCTGCATGCTGGGGGCCTCTGCTGCGCCACTGGCAGTGGGAATGGAAGCCCCCACCTCTTAGCCGACTGCAG
ATGGGGGTGTCGTGTTCTGCTCATCGTCATTTCGTTTTAGGGGTTTTTCTGTAAGACTGAAGATGACTTCARTGATTGGTGCCAGCAAGTCAAAAAGGTT
TGTAGCCGCCCCACACCCACAGCCGAGCTGAGCCACCCAGGGAGACAGGCAGYGGGGCGTGCAGGGGTCGAAGGCCTGCGTCCAGGTCTCAGGCAGCCTC
ACTGGGCCGTGGGGAGCTTTGTCCCGCCTGGCACAGCTATGTAGCTGAGCAGGGTGGGGCGTCCTGGATTGCCCATCTGGCAACACAGTTAACAACCCTG
GGGAYGGATGTTGCGTGTTGACTTTAGAATGGGATTTCCAGTGTCCTCATCCGTCTCCTGTTGAGATGGGGGTGGTGATGGGGTGCTGAGCTACGCCGGC
CKAGTGCGTGTGGCCCACCCCCCTCTGCCGTGGTGGTCAGACTGTGCTGTGTGTTGATCACCACACTGGGTTCTCGTGTAGCCTTTAGTGTGGAGCTGCC
TCTGTTTTCTCATCAGTGAGATGGGATGACAGGTTTGTCCGCTGGCTGTGGCCGGCTGGCCCCTTTCTCTTGGCCGCAGCAAGCACTGGGGTGAGGCTGC
ACCTAACGGCCATGTCTCACTAACAGCTRTCTCTGCTYGGAGGTGCCCTGCCCATGTTTGAGCTGGTGGAGCWGCAGCCTTCACATCTGGCCTGCCCCGA
CGTCCTGAACCTGTCCCTAGGTGAGAGCTGCCAAGTCCAGGTGGGGTCCCTCGGAGGTACGATCTGTGCCCTTGCTTCYCCAGTCCTGGCCCCCTTGGTT
TTGACCATTAAGGTGTGTGTGAGCCTGAGCCGTGAGCACTTGGCAGTGGTTCGCCTGTGAGACCAGGTATGGAGTGGAGCGTCCCCTCCTCCAAGCTTGC
GCCCAGCAGCCCAGGACCCACCTCGTCTTCCCCACCAGCGCTGCCTGCCSGGGCGCTGTGGAGCTGGGCGTGCTACCATGGAGTCCTCAGGGGTCTGGAG
CAGACAGAACATGCAGGCTCTGTGGTGACGCAGTCCTGGGTGGGGGACTGGTTCACTTGGGCACCACTGGCCATGGGTGGCGTAGACCCCTCGGACCATG
GCCAGCGTGCCGCAGGAGCCGGCCTGGGCTCGTGCAGTGAAGTGAGTGGCCGTGAGCGCGTCCTCCTCATCYCTGTCTCCCTGTGGRAAACTCTACAAAC
AAGGCAATGGCAATGGAACCACTCCTGATGACCACGAGGGTCAGACGCGGGACAGAGGCCCCTCAGGCCTGAGATTGTGCCGGCCGCCCCCTGCCCTCCT
CACCCTGCCCTGCTCCTCTTCTCTGCTCCCTCCCCCCATATTCGCAGGTCTGCACAACCCCCGGACCTGTTCACACCCGCATGGGGACAGCTGTCTGTGG
GCTGCAGAGCAGGCACTGCTCAGTCTGCCCCACGCCAAGGGCCCTTRACTCACACCCAGGTGGCCCACCCAAGATGCCTGATGCGCTATGTCCTGTTCCT
TCTAGATTCTTCTGATGTAGAGCGACTGGAAAGATTCTTCGACTCAGAAGATGAAGACTTTGAAATCCTGTCCCTTTGAAAATCCTGGGGTCGGGGGTGG
CACCTGTGAGAGCCTGGGGCTCCTGGTGCCGCTGCGTTTCATCCATCCCGCCCGCTCGCCTGCCGAGGGCTGCGCCCCGTGCTGCCTCCCCCCAGAGGGC
CACCCGCTGTGCTCGTGGACTGAGGCTGCGCTGCCCGGGAGGCCTTACTGCTTGGTGTCAGACTGCCCAGCTCAGAGTGCCCGTCAGGGCCTGTGCATCC
GCACGCGGAGCCGTCTGTTAGGAGCTTCCAGAGYGTTCTCTCGACACTGCCAGCCCCGTGTTAGCACCTGGGCCTCAGTCCCACTTGCTCCCAGGCGCCG
GTTCTGTGGTTGGTTTGGAATTAAAGTCCTGTTTGAAGTTGTCAGACACAGACATGAATTTCTKGGGCGCTCCCTGAGTCAGAGTCTCAGAAGACCTGTG
CAGGCTGGCGTGAGAGGAGCGGCAGCCACACYGCGGCCCCACGCCCAAGGAYTGGGCTGCTCTCGAGGGGGGCGCGCCCACCGCTGTGTCCTCTCTGCCC
AGCCTGGCTTACCAAGGGCTACCTCAGTGGGAGATGAGGTTGGAGGAACGAAGGCGAGGTTCCTCCTTGCTTTGGGGAGAAAAGTATTCAGGAAGTGGGT
GTGTGGGAAACCTGAAGATGGCGTGCACAGGACACAGCGTGGKCGGCCTGGGCAGAAGGGCGGCTGGCTGTCCTGGAGCTGCTGCTGGAGCCTGCCCTCA
GAGTGTCCCTTTCCAGTGCTGTGGCATTCTGTGGCAGCTTCCCCAGGTGTGGTGACGGGGGGGGCGGGGCCTCCACCTGTGACAGYCAGGCTTGAGGGTG
GACGGCGTGCCTCTCCCAGGAGCCTTCCCCATGTCCTTGCCTTGCTGAGAATTGCCCTCCCATGCCGCTGAGGTGTTAGGTGGTTTAGGGCCAAAAGGGG
AAAACCACTTGAGTCTTGTGGTGTGTGGTGGGCAGACACCACAGGGTGGCATCACCTGGTGGCATTTCCAGAACCTCAGCCCCGATTCCAGCACCCACCA
CCGCCTGACCCTGTGTAACCTGCTGTCCCGGGTCCCAGAGTGCACTCTGCCCCRCTGCTCTGCTGCCTGTCCTGGGAAAGTAKCTTTGCCCCACTAGGAA
ATGTAAACAGGAGGGCTTGGGGAGCGTGGGCACTTTTCTCATGAGCAGCTACTGCGGCRTTGGCAGGACTCGCTGCTGCTGCTGCTGCTTGTGTAGGTCG
GGGAGCYRGAGATCCCCGAGGACGCGCGCCGGACAGTCGGCACTGACCGGCCCACCTGGTAGCAGAGGACACCCCCAGCCCCCCAAGCATTGAAGACATA
GTGTATTTCCTCGTATCCTTTCTCCCTTGGGTGTAGTTGGGGTGGGGAAGCAGGGAAGGCTGGTGCGATCTCCATTCCTTGGGCTCCRCGTCCGAGTTCA
TGGTGCGCCGCTGTGCTGGGAGCTGCAGTGGKAATGTGTGGGACMCCTTGACCAAAGGGGAGCTTTGTCTCGTGTGTTTTGAAAAAGGCTTAATGAAGAG
AATGTTGTTCATTCTTAGTAGTATAGTTTGCAATTCTTAATGGCAAATAATAAGTTTCAGTAGAAAACAAACCTTGTGTCTATTTTTTCCTTAAGTTCTA
ATTGAATGTGAGTTCCAGAAAAAAAATAAGTGAATGTTTCAGCCCGTTCACACGTAAAGGATGTGGCTGCCTGCGTGGCGGGCTGTGGGGCCCTGAGCAG
GTGTGTCCCCAGCCCTGGCAGGGGGCCTGTCCTGCCTGCAGCCTGGCTCTCTACCAGCCGTGGCATCAGCCACCTCATACAACCCTAGAAGGAAAAAGTG
CAAGGAAAATAGGATTTTAGGAAAGTAAAATGGCGGTTCCCATCTTCAGCAGGAGGAAGTCACAGGAAGTGCCTGGAGTTGCAGGGTTTGCCTCGATTTG
AATCATAGCAAAGCCTTCCCCAAGTGCGCAGTGACTGTCCTGGCCTGTGGGAGGCCATGCCTGGGGCACAGCAGGGGGCTTGGTGAGGACATTGCTCACT
CTGGCCAGTGCATCCCTGTGGGCAGCCCTGGTATAGGTGTGAAGGGCCCAAAGCCAGACCGGAGGGGGCCCTGCTGGGTCCCCGGTGAGGTGGCTGAGGA
CTTGTGGCCTCTCCGATGCTCGTATTCGCTTCTTGTGGCTGCTCTAAAAGATGATCACATTCAGTGCCTGGAACAGCACAGCCTCTTCCAGACCCGGAGG
GCAGACAGCCATGTCGTGCTGTGGGCTCTAGGGGAGAACGTTGCTGTGCCTTTCTAGCTTCTGGATGCCAGAAACTGCTTGGCTCATGGCTCTTTCCTCC
AACCACACAGCCAGCAACATGGCATCTCTCCAGCTTTTGCTGTTGGCATCTCATTTCCTGACTCGGACCGCCTGCCTCCCTGTTATGCGGACCCGTGATG
GGCCAGGCATGGTGGCGCCAGCCTGTAATCCCAGCACTTTGGGAGGCTAAGGTGGATCACTTGAGCCCAGGAAAGAGAGGCTGCAGTGAGTCAAGATTGC
ACCACTGCACTCCAGCCTGGATGACAGAGTGAGACCCAGTCTTAAGACAACAAAAAAAGGCCCCTGTGATGACACTGGGCCCACCTGGATAGTCCAGGAA
AGTCTCATCTGAAGGTTCCTCACCCAGGCCCATCCCACAGCCCCTGGCAATGCTTACCCAAGAGTGAAATCCTYTTGTTTTGCCTGGGTTTGTCTCTTGG
CCACAGAAGGGTGCTGAGACCCACAGCTGCTGCCCCCACAGATGGGGGACCCTGCCTGCCTTCTACTCCAGCACACTGTATGCTGCTGTCTATGCGGAGT
GTGCTCTGTGGGACAGATTCTGCCAGGAGTGTCAAATCATTCCTTCTAAGTGTCACTTAAAAGGGGATGCAATGGGCTCGGCATGGTGGCTCATGCCTGT
ACTCCCAGCACTTTGGGGAGGCCAAGGCAGGTAGATCACTTGAGCCCAGGAGTTTAAGACAAGCCTGGCTGGCAACATAGCGAAATCCTGTCTCCACAAA
AAAATTASCCAGGCACAGTGAAGGCCTGTAGGCCTAGCTACTCAGGAGGCTGAAGTAGGAGGATCACCTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCA
CGATCGTGCCACTGCACTCCAGCCTGGGCGACAGTGAGACCCTGTTTCCAAAAAAATAAAAAATAAAGGATAGGATGAGAAGTTAAGCTCCAGGGTTGCA
ATGAAAATAGCAGAGTTAACTTAGGTGAGTTCAGGACGTAAGCTGTGATGACACTCGGATATAGCCTGGCTGGACCCAGCGAGCCCAGGGCATGGCTGCA
ACTGTTCAGACCCACAGTGGGACTCCCTCAACTAGGCAGGAACCAGGGTCCAGGAAGGCCCTACTGGGCCCAATGAAGGCTCTTCTCTCCTGGGATGGAG
GTTCCCATTCAAAGCCAGCTCCGTCCTCAGTCTAAGAAAAGTGAAGCGTTCCACAAACAATTTTCAGGTCTTTTTTTACTAGTGTCTGGAAGACATTTAG
GAGAATTCCAACTGATTACCATTTACAGTGATCACAATGAAACTGCTCAGAGTTATCACTGAACTTCAGTAAGAAAATACAACAGAGTGCCATCAGGACA
GGGGAGAGGGCAGGAGACTGCTCCATCGCTCTGCTCATGTCCACACTGCCAAGGTCCCCACCACGGGGGTCCCCAGTGCACCCCAGCTCCGGGGCAGAAG
AGGCAGCCTGCAGATCTCTGCTGCCGGGAAAGAGCTCCTGAAGTTGTGGGGTCTGGACTCCGCTGGGGACGGGGCCTTCCGCGAGTCTCCCACCTCTCGG
GGGACTGCAGGGAGAGGCGTCTCCAGTGGGCAGCCTTGGGTCACTTCCATAGCTCCCCCAGCGGCTTCTCTGTGGCAGTGCGGATGGCGTCCTCAGAGAG
CACGCGGATGTCCTCATGGACAGCTTCGATGCTTTTGGAAGCATCCACCATCTGTTCCCACCGGGGTTTCAGGAGAAAAAGAGGCTCATCAGCACGTTCC
AGGCTRGTCACGGGAGCCCACGCCTGTAATCCCAGCACTTTGGGAGGCCCACGAGGGAGGACTGCTTGTACCCAGGAGTTCAAGACCAGCCTGGGCTACA
CAGGGACACCCCGTCTCTACAAAAAATGTGGCACCACTCTACTCCAGCCTGGGTGACACAGTAACACCCTGTTTCAAAACAACACCATGTTTCGTTCTGT
CCTCTGTGCTCGTGGGGATTTCACACAGGCCGGGCTCTGGAAGGCCAACCTGAACCTCCTGGCACACTGTGGTGACCTCCGGGATACCCCACACCTTTCT
CTGAACCTCAACCTTGACAAGTGTCTACGGTAGTCACCCGGCATTCCTGCCACAGCCCTGATGCAGGAGAAACATGATGTGCCAACTGCCCACTCCTGCT
TTAAGCCGACCTCAGCCTCGTGACCCCAACCCCGCTGAGTGCCCACTTGCAGGAGTGAGGCACAGCCCACAGCACAGCCAGGCCCACCCAGCCCACCAGG
TCGAGGTGACTGTCCCTCCAGCTCGCAAGCGGCGAGTCGGAAGCACAGAGGGCAGACCCTGCCCTGCCCACGCTCCTGTGGCTCCTGGGCCCTGCCTGGA
AGGTGAGGAAGTTCCGCAGCAGAAGCCAGACAGCAGGACCAGTGCAACACTGGGCCTGACTCGTCCTTGCGGGGAAGATGAATTTGGTCCTAACAGCTGT
GCTGCACAATGGCGTGAACGGTGCGAGGAGCGTGGGGAGGGCATAAGCCCGCAGGACAGCCTTCTCTCCACCAGAAGGCAGGCAGTGAGAGGGACTCAGA
AGCGCTGGCATCTCAGCGGCATCCCGGCTTCTGCTGTCGGGTGGCACCGGACCCTTCTCAAGCTTCTGGGACAGCAAATTCTAGAAAATCTGCCAGGGGC
GTAGAAGGCACTTGGAAGAATCTAACCATTTCATGAGGTGTGACCGTGACGGAAGGAGAGTGACTCCCTACACAAGGGCCACCTTCCCAGATGCCTCTCA
CTGGCCACTGTGCAGCCACACAGCTGTCGCCCAGAACCGCCCAAGATGAGCCTCTCCGGGCGGAATGACTGCCAGAGAGAATGCCGCACTGCCAGAAAAG
GGCACTGCTATCCCACCTGCGTTCCGGGAAACGAAAAGCTGCGTGACCAGCATCATCTGCAGGCACAGCCAGTCGGGCTGGGGCGAGACCCTCGGCCCTG
CTCTGGAGGAGGAGCTCAAGGGACTGAAGCTCYGCGGGCCGTGGCCACAAGCGACAGTGCTGGCGCCCGACGTGCCAGAAGCCCTGGCTGCCGCCTGGAA
AGAGGCCACGTGGGCAGCGGTGGGCACGGGCGACTGGAGTCTGGGAGAGAGGTAGGGGCTGCGGTCGGGAGGAGCAGAGGCGGCCAGCCTGCGAGTCCAC
TGGGAGGGGAGAGTCCAGCGTCCTGGGAGCAGAGCCAGACCTGGGACTGCTGAGACTGAAGGAGGCAGGACTGAAGGGAGAGGCAGCACACAGCACCCTC
CTGAACTTAGATGGCCAGGTGCTGCTGCAGGGCCCATGCCCAGCGAGAGGCCGCACCAGAGGACACAGTGGCAGGAACAGGCTGGCGCTCGTGTCTGAAG
AGGGGCTGAGGATGTGGAGGATTGCGCAGACTCTCACCTGACCCACCAGACAAAGCGCCAAATGTCAACATTTAGCAAAACTCATCGGGTTAGAATTTGC
TGGCACTGGCCGGGCGCGATGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACCTGAGGTCAGGAGTTGGAGACCAGCCTGA
CCAACGTGGAGAAACCCCATCTCTACAAAAAAAATTAGCCAGGCATGATGGCACGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCAC
TTGAACCCAAGAAGCGGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGTTGGCACCCAGAGCAAGATTCTGTCTCAAAAAAAAAAGA
ATTTGCTGGCACCGAGAACCCCTGAACGACTACTCCCGGGGCTCCACATCTGGGAGGACCAGACGGAAACGGCAGCAGCTTTGCTGACACGACTGTGCCA
GCCACCACGGTGTCATCCTGAGCCACTTCTCCACGCTTCCTAGTGTGCAATTCTGGGATTCTCACCTTCCAGTTCAAAGTCGTGTCTTTCATGAGCTGGT
GGAAACACCGGAGCGCCCGCTCCTGGAAAGCCCCGTTCTCATAGCGCTCATGGCCAAACGCTCCCCGCTTGGCAKCATCCGCCAGCTGTAACTGGAGGAA
CAGGACCAGGTCRGGTTTGGGAAGGCCCACGTCTGGCTGTTTACACCARTCTAGGGAAAAATTCTGCCAAGAAAGAACCCAACAGTTAAAGCTTAGTGTA
GTCTAGGTTTTTGTTTCGAAAGTCGTAAAAACAGGAAAAAATGAGGGGACATTTGGTGAGGTACCAAGATGTGAGACTGTTTATATTGTGGCTCGTTTAA
TTTTTAGAACCTCAAAYGTGTCSGTTTCTCCAGTGTCACCTTTGTTTTTCCTTTGTAAACAGACAAGTGGACAGAAAAGTAGGTAGATAGAACGGCTGCC
AGTCCCCGCCACCCACAGCCCAGGCCCCATGGAGGCCCTCCCAGCGCAGCTACAGGCCTGCTGGCCAGGAGCAAACAGTCTATGTACAGAACCCCTGGAG
ACCCCCGGCCTAGAACGCCTGCAGCACAGAGCAGCTGGGTCCGGACACAGGCACGAGGTCCTTGGCAGTGTCTTTTCTGCCACACACACGCCAGGGTCTC
CTCTCCCGTGGAAGAGCAGGAAGAAGACAGGCACTCCTAGAGCCTGTTATGTGCCAGCCTAGTCTCATCCACTGGCCCTTCTTGCCAGGGCTGTGCCAGC
ACCCTCTCTCCCTCCCTTACTCATCCCATCTCCCTCCAAATGCTGTCCTGTTTCCGGAGGAAAGGTAGGACCAGAAAGGCTGTGACTGCAGGCCACACAT
CACACAACAGCACAATGAGCTGAGGGAAGGCGTCCACGAGAACCTCCCACAGAGCCTGCGGCTCTGTCAGCTGATCCGCACAGCAGGAAGAAGCAAAGGA
ATCATGAGTCTTGTCCTCCTTATTATACAACGTAATACTTCAGAGGGGAAGGACTCAAGCTAACACATGAAGAAATGGCAGAATTAAAAAGTGAGGGCGT
GGCCGGGCACGGTGGCTCGCGCCTGTAATCCCAGCACTTTGGGAGGCTGAAGCGGGAGGATCACTTGGGCCCAAGAGTTGTTATAGCGAGCTTTGCTTGT
TCCACTGTACTCCAGCCTGGGCAACAGAGGGAGACGCCCTCTTTCAAAAAACGGGGGAAAAAAGTACTACAAATGAACCATCTTTGAAAATGCATCTGGA
GGCTGGGTGCAGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCTGAGATGAGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACAT
GGTAAAACCCCGTCTCTACTAAAAGTATGAAAATTAGCTGGGCACGGTGGTGCATGCCTATAAT


SNP Information

Context             (SEQ ID NO:14753):
CGAAAGTCGTAAAAACAGGAAAAAATGAGGGGACATTTGGTGAGGTACCAAGATGTGAGACTGTTTATATTGTGGCTCGTTTAATTTTTAGAACCTCAAA
Y
GTGTCGGTTTCTCCAGTGTCACCTTTGTTTTTCCTTTGTAAACAGACAAGTGGACAGAAAAGTAGGTAGATAGAACGGCTGCCAGTCCCCGCCACCCACA
Celera SNP ID:            hCV27983658
SNP Position Genomic:     47217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14754):
TCGTAAAAACAGGAAAAAATGAGGGGACATTTGGTGAGGTACCAAGATGTGAGACTGTTTATATTGTGGCTCGTTTAATTTTTAGAACCTCAAACGTGTC
S
GTTTCTCCAGTGTCACCTTTGTTTTTCCTTTGTAAACAGACAAGTGGACAGAAAAGTAGGTAGATAGAACGGCTGCCAGTCCCCGCCACCCACAGCCCAG
Celera SNP ID:            hCV27983659
SNP Position Genomic:     47223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14755):
GCAGGAGAATCTCTTGAACCCAGGAGGCGGAGCTTGCAGTGACCCGAGATCATGCCATTGCACTCCATCCTGGGTGACAGAGTGAGACTCCATCTCAAAT
W
AAAAAAAAAAAAAAGCAAGCAGAAGGGAAAACCATCCTTTCTTCAGGTAACTCAAATTTTAGACCAAGGAGTCACATTTGTATGGAACTGAAATGTGGCT
Celera SNP ID:            hCV11536230
SNP Position Genomic:     36023
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14756):
TGGGATGTCCTGTGGTCTTTCCTGGACAGTAAGCTCTTTGGTACCATGTCCCCTCCTGTCCCCTCTTGTGTCACCCAGTTGGGCCTCAGCAGGCCCTTGG
K
CCCCCTATGGCAGTGGGTGGGGGGACCGTCTGCTCCCACCTGGGACCTGTGCTCAGTCCCCCGCCCCTCCACAGCACTGCTTCATGATGCCCCAGTCCCT
Celera SNP ID:            hCV11536232
SNP Position Genomic:     36483
SNP Source:               Applera
Population(Allele,Count): african american(G,16|T,8)   caucasian(G,14|T,8)   total(G,30|T,16)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,11)      total(G,11|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14757):
GGGATGTCCTGTGGTCTTTCCTGGACAGTAAGCTCTTTGGTACCATGTCCCCTCCTGTCCCCTCTTGTGTCACCCAGTTGGGCCTCAGCAGGCCCTTGGG
Y
CCCCTATGGCAGTGGGTGGGGGGACCGTCTGCTCCCACCTGGGACCTGTGCTCAGTCCCCCGCCCCTCCACAGCACTGCTTCATGATGCCCCAGTCCCTG
Celera SNP ID:            hCV11536233
SNP Position Genomic:     36484
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,8)   caucasian(C,14|T,8)   total(C,30|T,16)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14758):
GTTCCAGAGCTTGCTGGGCCTGCTCCTGGCTGGCGGCCTCCTGGGCCGCCCTGGGTGTGGCTTCACCTTGCAGAGCAGCTTGCTTCAACCTGCGGGACTC
Y
GGCTTGGCCATCGGGTTTCCACTCGAGGACGGTGACCAACCTGCAGCTCCTCTGCCGGTGGCGGCACTCGAGTGTCCCCTCACACCCCCTGTGGCCTTGC
Celera SNP ID:            hCV27835065
SNP Position Genomic:     1923
SNP Source:               Applera
Population(Allele,Count): african american(T,22)   caucasian(C,1|T,5)   total(C,1|T,27)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14759):
ACCTAGGCCGAGGTGAGTCACAGCCCTGGGGAGGGCGCATGGCCACGGTGTTCTCAGGAAGCAAAGGGGACTGTGGGGTCAGGGCTCTTTAGAGCAGACC
R
CAGGTAAAACAGTAAGTAGAACTTGGGGGTTTCTTGAGTAATGAGCCACTTGTTTTTCTTGATTTAAAAAACTGACTTTAAAGAATGCTAATAAATCCGC
Celera SNP ID:            hCV28031109
SNP Position Genomic:     22040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14760):
TGTAGTTGGGGTGGGGAAGCAGGGAAGGCTGGTGCGATCTCCATTCCTTGGGCTCCGCGTCCGAGTTCATGGTGCGCCGCTGTGCTGGGAGCTGCAGTGG
K
AATGTGTGGGACACCTTGACCAAAGGGGAGCTTTGTCTCGTGTGTTTTGAAAAAGGCTTAATGAAGAGAATGTTGTTCATTCTTAGTAGTATAGTTTGCA
Celera SNP ID:            hCV7440075
SNP Position Genomic:     42132
SNP Source:               Applera
Population(Allele,Count): african american(G,14|T,20)   caucasian(G,22|T,16)   total(G,36|T,36)
SNP Type:                 UTR 3

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:14761):
GCTGAGCCTGCAGATTGGGTTTCTTGTGCCTGTGGGATGTCCTGTGGTCTTTCCTGGACAGTAAGCTCTTTGGTACCATGTCCCCTCCTGTCCCCTCTTG
Y
GTCACCCAGTTGGGCCTCAGCAGGCCCTTGGGCCCCCTATGGCAGTGGGTGGGGGGACCGTCTGCTCCCACCTGGGACCTGTGCTCAGTCCCCCGCCCCT
Celera SNP ID:            hCV457619
SNP Position Genomic:     36451
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(C,3|T,31)   total(C,5|T,63)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,11)   total(C,2|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14762):
TTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGC
Y
TCAGCCTCTGGATTAGCTGGGACTACAGGCACCCGCCACCACGCCTGGCTAATTTTCTGTATTTTTAATAGAGACGGGTTTTCACTGTGTTAGCCAGGAT
Celera SNP ID:            hCV11536240
SNP Position Genomic:     38037
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14763):
CCAGCGTCCAGACAAAGGGACAGTGGATTCTGGTGTCCAGACAAGGGGAAGGTAGTGGCGCCCAAGCAGGGGTGCTTACAACCCTGAAGCCCAAGAGGGG
K
TGTTGCAGAGTGTCAGCAGCCCTGTTACTCCCATTGCCCTGCTCCAGGCTATAGCTCTGGGGCTGGCTCCGTCCCCGCTGCTTCCCTTTGCTGCCTCCTG
Celera SNP ID:            hCV11528225
SNP Position Genomic:     7675
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1)   total(G,1|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14764):
GCCGCAGCAAGCACTGGGGTGAGGCTGCACCTAACGGCCATGTCTCACTAACAGCTGTCTCTGCTTGGAGGTGCCCTGCCCATGTTTGAGCTGGTGGAGC
W
GCAGCCTTCACATCTGGCCTGCCCCGACGTCCTGAACCTGTCCCTAGGTGAGAGCTGCCAAGTCCAGGTGGGGTCCCTCGGAGGTACGATCTGTGCCCTT
Celera SNP ID:            hCV11536245
SNP Position Genomic:     39773
SNP Source:               Applera
Population(Allele,Count): african american(A,34|T,4)   caucasian(A,31|T,9)   total(A,65|T,13)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,2)      total(A,2|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14765):
AAAAATACAAAAATTAGGCATGACGGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCCCTTGAGGCCGGAAGGGGGAGGTTGCA
R
TGAGCTGAGATCACACCACTGCACTCCACCTTGGGTGACAGAGCCAGACCCTTGGGTGACAGAGCCAGAAGGAACGTTTGGGAATGGAATCATCGTGTTG
Celera SNP ID:            hCV39973
SNP Position Genomic:     12630
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14766):
TTCGCCTGTGAGACCAGGTATGGAGTGGAGCGTCCCCTCCTCCAAGCTTGCGCCCAGCAGCCCAGGACCCACCTCGTCTTCCCCACCAGCGCTGCCTGCC
S
GGGCGCTGTGGAGCTGGGCGTGCTACCATGGAGTCCTCAGGGGTCTGGAGCAGACAGAACATGCAGGCTCTGTGGTGACGCAGTCCTGGGTGGGGGACTG
Celera SNP ID:            hCV11536246
SNP Position Genomic:     40050
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,12)   caucasian(C,22|G,16)   total(C,42|G,28)
SNP Type:                 INTRON;UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:14767):
CAGGATGGCCAGGAAGGGTCTCACTCTGAAGGTTTAAGTTTTGACGAAGACTTAAAGCAGTGTAGGAGGAAGGGCAGGTAGCAAGAGCCTGGTGTGGCTC
R
GGTGCAGCGGGTGGCGGTGGGAGAAGCAGGAGCTGAGGATAGAAAGGTGACTTAGGCTCAGTGTAGTGGGGCCTTGCCAGCTCATAGTGAGGACTCGGTG
Celera SNP ID:            hCV11528228
SNP Position Genomic:     9119
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14768):
ATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCCCTTGAGGCCGGAAGGGGGAGGTTGCAATGAGCTGAGATCACACCACTGCACTCCA
S
CTTGGGTGACAGAGCCAGACCCTTGGGTGACAGAGCCAGAAGGAACGTTTGGGAATGGAATCATCGTGTTGGTCGATCTGCAGATGTTAGTGATTGTGAG
Celera SNP ID:            hCV39974
SNP Position Genomic:     12659
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,1)      total(G,1|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14769):
GGTTCTCACCCCACTTGGAAAACTGGTGGCTGTGCCCCATTTCATGGGTGAGGAGACTGAGGCTGGAAGAAGTCCAGGCCTGTGTCTGTCCTGTAGCTAT
Y
GACCAGGCTCTCAGACTCCAGAAACAAACCTCAGTAGGAATCAGAAGTGTTGGCCGGGCGCGGTCTGCCTGTAGCTATCGAGCAGGCTGTCAGACTCCAG
Celera SNP ID:            hCV39975
SNP Position Genomic:     12882
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14770):
TCAGTAGAAATCAGAAGTGTCGGCCGGTTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTCGGAAGCTGATGTGGGCGGATCATCTGAGATGAGGAGTT
Y
GAGACCAGCCTGACCAACATGGGAGAAACCCATCTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACACACCTGTAATCCCAGCTACTCGGGAGG
Celera SNP ID:            hCV39976
SNP Position Genomic:     13092
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14771):
CATTGAAGACATAGTGTATTTCCTCGTATCCTTTCTCCCTTGGGTGTAGTTGGGGTGGGGAAGCAGGGAAGGCTGGTGCGATCTCCATTCCTTGGGCTCC
R
CGTCCGAGTTCATGGTGCGCCGCTGTGCTGGGAGCTGCAGTGGGAATGTGTGGGACACCTTGACCAAAGGGGAGCTTTGTCTCGTGTGTTTTGAAAAAGG
Celera SNP ID:            hCV7440082
SNP Position Genomic:     42088
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,11)   caucasian(A,16|G,22)   total(A,39|G,33)
SNP Type:                 UTR 3

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;POOLE|_CEPH(G,51|A,137)   total(G,51|A,137)
SNP Type:                 UTR 3


Context             (SEQ ID NO:14772):
GCCTGCCTCAAAGTTGGCAAAACCCACAGCGTCTCAGAGCTGCGTTCATGTTCTAGTTCCTGCCTCTGTGCCAGTGAGACCAGAAAACCAGGCCACTCAA
M
AGCCTCTTGCGTGTGCTCTCTATGAATGGAGGCTGGGGCAAGGGCAGGACCCCTGGGCCTCAGGCGAGAAGAAGCAGATTTACCCTCAGCTTTCTTCCTG
Celera SNP ID:            hCV500683
SNP Position Genomic:     27189
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14773):
CACCCCAGGTGACCACTTGAGGCCACTGGTGGAAAAGCAGCATGCCCTGGGGTTCATTTTCAGCCTGGTCGCGGGCGGCCTCCTGTGTGCCCCTTTCCCT
S
ATGGTCTGGTGCCCTCGGCTCCCTCCCCACCTCCTGCCCACTGCTTCTCAGTGTGATGTGGGTGCAGTGGGTCTGAAATGCGGCCTCCTCTGTCCCTTTC
Celera SNP ID:            hCV457620
SNP Position Genomic:     36807
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14774):
CAGGAGGGCTTGGGGAGCGTGGGCACTTTTCTCATGAGCAGCTACTGCGGCGTTGGCAGGACTCGCTGCTGCTGCTGCTGCTTGTGTAGGTCGGGGAGCC
R
GAGATCCCCGAGGACGCGCGCCGGACAGTCGGCACTGACCGGCCCACCTGGTAGCAGAGGACACCCCCAGCCCCCCAAGCATTGAAGACATAGTGTATTT
Celera SNP ID:            hCV7440083
SNP Position Genomic:     41908
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,19)   caucasian(A,7|G,15)   total(A,16|G,34)
SNP Type:                 UTR 3;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:14775):
CGATTCCAGCACCCACCACCGCCTGACCCTGTGTAACCTGCTGTCCCGGGTCCCAGAGTGCACTCTGCCCCACTGCTCTGCTGCCTGTCCTGGGAAAGTA
K
CTTTGCCCCACTAGGAAATGTAAACAGGAGGGCTTGGGGAGCGTGGGCACTTTTCTCATGAGCAGCTACTGCGGCGTTGGCAGGACTCGCTGCTGCTGCT
Celera SNP ID:            hCV7440084
SNP Position Genomic:     41783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14776):
CGTGTGTCTGGATGTGAGCGTGTGTGGGCGCGTGCTGAGTGTGCATGGATGAGTGTGAGCCATGGTGAGTGTGTCCCCCTCACACCTACATTTAAACACA
Y
GGGCGGCCCCTCCACCCACCCCTGCACCACCTTCGTCACACCCACATTTAAACACGGGCGGCCCCTCCACCCACCCACTCCTGCACCACCTTTTGTTTTC
Celera SNP ID:            hCV457621
SNP Position Genomic:     37437
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14777):
TCAGCAGCACTGGATGTCATCAAGCGTTTGAATTTCTGCCTTTCTGATAATTGGAAAATGCGTTGTTTTGTTTAACTTTGCATTTTCTGGATGACTTACG
R
GGGTCAGTGTCTTCATATGTTTGTCAGACATTCCTTTTGCTCCGTGACTGACTTGTTCATGTGTTTTGCCCATTTTGAGGAGGTTGTCGGGACATTTCAC
Celera SNP ID:            hCV27855326
SNP Position Genomic:     21568
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,12)   total(A,1|G,49)
SNP Type:                 INTRON


Context             (SEQ ID NO:14778):
ACCTGGTGGCATTTCCAGAACCTCAGCCCCGATTCCAGCACCCACCACCGCCTGACCCTGTGTAACCTGCTGTCCCGGGTCCCAGAGTGCACTCTGCCCC
R
CTGCTCTGCTGCCTGTCCTGGGAAAGTAGCTTTGCCCCACTAGGAAATGTAAACAGGAGGGCTTGGGGAGCGTGGGCACTTTTCTCATGAGCAGCTACTG
Celera SNP ID:            hCV7440088
SNP Position Genomic:     41754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14779):
CATTTTCTGGATGACTTACGGGGGTCAGTGTCTTCATATGTTTGTCAGACATTCCTTTTGCTCCGTGACTGACTTGTTCATGTGTTTTGCCCATTTTGAG
R
AGGTTGTCGGGACATTTCACTCTCCAGTAAATGTGGCCCTTGGCGTTACTGAGTCCTAAGAGGTGTGTGTTGCCCCAGGTGGAGCTGATGGAGGAGGGAG
Celera SNP ID:            hCV27833838
SNP Position Genomic:     21648
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,14)   total(A,1|G,51)
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:14780):
GAAGGGATGGAAGCTCTTTAACTTTTATGAAGTTATTGGTAGGTTGGAGGAGAGAAACGTGACGTGTTCATCACAGTATACGTATCTTTTTTGTTTTTGT
Y
TTCAATTTAGTAACCAGTAGATTCTCCAAGCTGCTTTTCCGTGACGAGAAAGAGAAACAGTGAATTTGTATCATCGGGTCTTAGTTTCTTGGGGTCCTAA
Celera SNP ID:            hCV323107
SNP Position Genomic:     6590
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14781):
CACCCCCTGTGGCCTTGCTGGCATCTTTTCTCCGGGTGCGGCCATGGCCTCCAGCCCCCCTCTTCTTCTCGGTCAGGTGGAAGATGGATGGCACGGCCGT
R
GGCTTCAGCAGGCGATGCTGGTCCTCCAGCCTCTTGGAGAAGCTGTCTTTGGTGAAATGCTCACTACAGAGAAATGAATACTTAGTGGGAGTCCAGTTAT
Celera SNP ID:            hCV27846656
SNP Position Genomic:     2106
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,17)   total(A,1|G,51)
SNP Type:                 UTR 5;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14782):
GCACCTGGGCCTCAGTCCCACTTGCTCCCAGGCGCCGGTTCTGTGGTTGGTTTGGAATTAAAGTCCTGTTTGAAGTTGTCAGACACAGACATGAATTTCT
K
GGGCGCTCCCTGAGTCAGAGTCTCAGAAGACCTGTGCAGGCTGGCGTGAGAGGAGCGGCAGCCACACTGCGGCCCCACGCCCAAGGACTGGGCTGCTCTC
Celera SNP ID:            hCV11536251
SNP Position Genomic:     41064
SNP Source:               Applera
Population(Allele,Count): african american(G,14)   caucasian(G,19|T,1)   total(G,33|T,1)
SNP Type:                 UTR 3;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,4)   total(G,4|-,4) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:14783):
AGGTCAGGGAGGTCTTTGTACCGTTCTGATGCCTCAGTCCATGGCTCCTCATTGTGTCTTCCTCTTCAGCTGGAGCTGCGAGGGTGTCCAGGAGGGGTGA
R
TTCTGCTCGGAGGGCCTGCCGAGGGCATTCCTTCCTGTCCTCCAGCATGAGAGGGACAGTGTGGGGCCCCTAGAGTACAGGGAAGACCTCCTCATAACTG
Celera SNP ID:            hCV11528232
SNP Position Genomic:     13470
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14784):
AGGGCGGCTGGCTGTCCTGGAGCTGCTGCTGGAGCCTGCCCTCAGAGTGTCCCTTTCCAGTGCTGTGGCATTCTGTGGCAGCTTCCCCAGGTGTGGTGAC
G
GGGGGGGCGGGGCCTCCACCTGTGACAGTCAGGCTTGAGGGTGGACGGCGTGCCTCTCCCAGGAGCCTTCCCCATGTCCTTGCCTTGCTGAGAATTGCCC
Celera SNP ID:            hCV11536252
SNP Position Genomic:     41457
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,3)   total(G,3|-,3) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:14785):
ACTGGGCCCACCTGGATAGTCCAGGAAAGTCTCATCTGAAGGTTCCTCACCCAGGCCCATCCCACAGCCCCTGGCAATGCTTACCCAAGAGTGAAATCCT
Y
TTGTTTTGCCTGGGTTTGTCTCTTGGCCACAGAAGGGTGCTGAGACCCACAGCTGCTGCCCCCACAGATGGGGGACCCTGCCTGCCTTCTACTCCAGCAC
Celera SNP ID:            hCV11536255
SNP Position Genomic:     43374
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 TFBS


Context             (SEQ ID NO:14786):
CGTTATGTTGGATTCAGTGTTAGTAAAGAGACTCATGTTTGGTTGGGTCTCTGTTGACCTTGTACTCTGTGCTGCACCTCTGCTTACAGAATACCTCCCA
W
CCATGCCGGTTCGTGACTGCTCACCCGTTTCAGTGATCTGAGAGGGCTGGCCCTGAAAGAGTGGTTACTGCTCCCGTGCAGTTTAGAGCTTTTCCTGCAC
Celera SNP ID:            hCV11528236
SNP Position Genomic:     13806
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14787):
GGGTCTCTGTTGACCTTGTACTCTGTGCTGCACCTCTGCTTACAGAATACCTCCCATCCATGCCGGTTCGTGACTGCTCACCCGTTTCAGTGATCTGAGA
R
GGCTGGCCCTGAAAGAGTGGTTACTGCTCCCGTGCAGTTTAGAGCTTTTCCTGCACCTTGACTTGTCCGTTTCACAGTGAGGACACCAAGTCACAAGAAG
Celera SNP ID:            hCV11528237
SNP Position Genomic:     13850
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14788):
GCTGAGTTTGCCCAACTGTAGGCTAATGTAAGTGTTCTGAGCACATTTAAGGCAGGCTAGGCTAAGCTATGATGTTAGGTAGATTACGTGTATTCAATGC
T
TTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTCCCACCTGGGCTGGAATGCAGTGGCGCGATCTCAGGTCACTGCAGCCTCCGCCTCCTGGGTTTAAG
Celera SNP ID:            hCV11528238
SNP Position Genomic:     15127
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14789):
GCCGAGGCGGGAGGATCATGAGGTCAGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAAAAATACAAAAAATTAGCCAGGC
R
TGGTGGCGGGCGCTTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAGCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATCGCGCTACT
Celera SNP ID:            hCV11528239
SNP Position Genomic:     15825
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14790):
TTTGGTGAAATGCTCACTACAGAGAAATGAATACTTAGTGGGAGTCCAGTTATCCCTCTGAACAGCTTTTAACCATTGGATTAGACGTTTTGAGTCCTTT
R
GGGGGAACCTACAGGACAAATGACAAAAAGTAATTAGAAATAATTAAATGTCTCCCCTTAAAATAATCAACTGTAAAAGCAAAACAAGTATTTTTGCACG
Celera SNP ID:            hCV27833054
SNP Position Genomic:     2254
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,16)   total(A,51|G,1)
SNP Type:                 UTR 5;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14791):
CTGTGGCTCAGTTTTAACAAATGGGCTCATTGAGTGAGTTCCAAATTCATGTTTCACCTTCCATGATGTAGCCAAGCTGAGAACTCTTAAAAATGCCTCA
Y
CGCCTTTTTCACTCAGGGCCACCTTTTTCCCAAGGAACTTCTCAAAACTCCCTCAATTCCAATTTTATTGAAGTTCTACATGTAGGCTATTGCCTTGAAT
Celera SNP ID:            hCV27987397
SNP Position Genomic:     28119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14792):
GGGGTGAGTTCTGCTCGGAGGGCCTGCCGAGGGCATTCCTTCCTGTCCTCCAGCATGAGAGGGACAGTGTGGGGCCCCTAGAGTACAGGGAAGACCTCCT
Y
ATAACTGAAGAGATGCGAGTCTGAGAGTCTTTATTGGCTCTTTTGTAGGAATCGCTGCAGGTCTCTTTGGTCCTTGGAGCCAGCCCGTGAGGCCGGGGGC
Celera SNP ID:            hCV27987398
SNP Position Genomic:     13563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14793):
AAGACTGAAGATGACTTCAATGATTGGTGCCAGCAAGTCAAAAAGGTTTGTAGCCGCCCCACACCCACAGCCGAGCTGAGCCACCCAGGGAGACAGGCAG
Y
GGGGCGTGCAGGGGTCGAAGGCCTGCGTCCAGGTCTCAGGCAGCCTCACTGGGCCGTGGGGAGCTTTGTCCCGCCTGGCACAGCTATGTAGCTGAGCAGG
Celera SNP ID:            hCV1499293
SNP Position Genomic:     39253
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(C,7|T,25)   total(C,11|T,57)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14794):
TGGGCCGGATGCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACTTGAGGTCAGGAGATCGAGACCAGCCTGGCTAAC
R
CAGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCAGATGTCTGTAATCCCAGCTACTCGGGAGGATGAGGCAGGAGAATTTC
Celera SNP ID:            hCV11528244
SNP Position Genomic:     16271
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14795):
TGAGACCGGAGAATTGATTGAGCCTGGGAGTTTGAGGCTGCAGTAAGCTGTGATTACACCACTGTACTCCAGCCTGGGTGACAAAATGAGTCCCGGTCTC
A
AAAAAAAAAAAGAAAAAAAAACAGGAGCAGAGCTCTTGGACAAAGCCCTGCTGTGGAAAGCTTGCTTCATCTGGCTGCAGCCGCTCCACAACGCCCGTCA
Celera SNP ID:            hCV11528246
SNP Position Genomic:     16936
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14796):
GTCCCAGGCTGCTCCCACTGCAGCTTGGTTCCACATCTTTCTTCAGCCTCTTGCGGTCAATGGGCTCTCGGGGGACAGATGGCCTTTCTCGGGTGTGCTT
R
GAGGAGAAACTGTACGAATGAAGTGAGCCGATAAATTTGCACGCCCCAGATCCTGGGGGCGTAAAGTCATCCATAGAAATGCCACTCTTATCTGTCACGC
Celera SNP ID:            hCV1499298
SNP Position Genomic:     1614
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,4)   caucasian(A,1|G,1)   total(A,7|G,5)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14797):
GTGGCTTCACCTTGCAGAGCAGCTTGCTTCAACCTGCGGGACTCTGGCTTGGCCATCGGGTTTCCACTCGAGGACGGTGACCAACCTGCAGCTCCTCTGC
Y
GGTGGCGGCACTCGAGTGTCCCCTCACACCCCCTGTGGCCTTGCTGGCATCTTTTCTCCGGGTGCGGCCATGGCCTCCAGCCCCCCTCTTCTTCTCGGTC
Celera SNP ID:            hCV26891605
SNP Position Genomic:     1979
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,15)   caucasian(C,5|T,3)   total(C,20|T,18)
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:14798):
AGAGGGGCCTGGGTCTCCCACAGCTGAGAATCCTTTAAACAGTGCCTGTAGGGCCCTCTATTGTGGATTTGGTAGTTCTGCCTGCACCGAGGGAGATGCT
W
GCAGGTGCTTCTGAACCCTGTGTTTGGGAATTAGCTGCGCATACAATTAAGGCTTTTGGGTATAGTAAAATTTGTGTGCCTTTGACCCTGTGGTTCTGAG
Celera SNP ID:            hCV431368
SNP Position Genomic:     17179
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,3)      total(A,3|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14799):
ACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCGCAGCCTGGCGCACACTTCTTACCAGAACCTAGTCACGAATTCCTCGTC
K
AACTAGAATTAGGTATGTTTGTTACTGTAAACGCAGCTTGGTGGCTTACAGTGATTGGCACTCTAACAGTCAGGTCAGGCTAGAGAGCCAGCCACCGCAG
Celera SNP ID:            hCV121723
SNP Position Genomic:     38265
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14800):
CTGAGAGTAGCACCCCATGCTTCTCCAGCACCTGCTCCTAACCAGGAAATTGGGGTAGACCAGAACCCCAGTCTTCCCAGCAGCTCAGTGTTTCTTGCCC
Y
GGAGCATCTGCCTTCATCACAGTGACTCTGAACACGCTGCCATGGTGACATCTGGTAAACCTTAGGATGGCCATGGAAAACGACTCTTTGCCCTGTTTCT
Celera SNP ID:            hCV45400
SNP Position Genomic:     18787
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14801):
GGCGCACACTTCTTACCAGAACCTAGTCACGAATTCCTCGTCGAACTAGAATTAGGTATGTTTGTTACTGTAAACGCAGCTTGGTGGCTTACAGTGATTG
R
CACTCTAACAGTCAGGTCAGGCTAGAGAGCCAGCCACCGCAGACAGAGGAGTGGACGCGTGAACGTTGAGTTGAGACCAAAGGGGCCACCTGGTGGGATA
Celera SNP ID:            hCV121724
SNP Position Genomic:     38323
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14802):
CATGGCCAAACGCTCCCCGCTTGGCAGCATCCGCCAGCTGTAACTGGAGGAACAGGACCAGGTCGGGTTTGGGAAGGCCCACGTCTGGCTGTTTACACCA
R
TCTAGGGAAAAATTCTGCCAAGAAAGAACCCAACAGTTAAAGCTTAGTGTAGTCTAGGTTTTTGTTTCGAAAGTCGTAAAAACAGGAAAAAATGAGGGGA
Celera SNP ID:            hCV410246
SNP Position Genomic:     47049
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,16)   caucasian(A,21|G,13)   total(A,41|G,29)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14803):
TTTAACTTTATTTTTGTCCTTTACTTTTTAAGTCTAAAGTAAGTGCTTGAATCGGGTGGGTTTTCATTTTTTTGCTTTCTCACCCCTCAGGTTGGCCCCT
R
ACTTGGCCTCTCACCCTCGTGTCAGCTGTTAGACACTGACTCAGTGGCTCAGAATATGAAAGGCTCAGGAAGTAGCATGCTGGCCCCACCTCCCTGTCCC
Celera SNP ID:            hCV45401
SNP Position Genomic:     19025
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14804):
GACTCAGTGGCTCAGAATATGAAAGGCTCAGGAAGTAGCATGCTGGCCCCACCTCCCTGTCCCCATACCTTAGCAGAGCAGCTGCCCAGCAGGGCCTCCT
Y
CTCTTTCCTAAGAGTTTACTCCATCCATGGTGGGTGTCTTGGTAGGCCCGAGATACGAGAGGGAGTGCTGCTGTTACAAGAATTTACAGTTGTTCTCTTC
Celera SNP ID:            hCV45402
SNP Position Genomic:     19163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14805):
CTCTTTCCTAAGAGTTTACTCCATCCATGGTGGGTGTCTTGGTAGGCCCGAGATACGAGAGGGAGTGCTGCTGTTACAAGAATTTACAGTTGTTCTCTTC
R
GCACAGAAATGCTGTAAATGGCCTCTTTCGATACTAGTTTATGAAATTATAAGTGTCTGATGATTGTGCATCTTTGGTTTCAACAGCTACTCTGACCTAC
Celera SNP ID:            hCV45403
SNP Position Genomic:     19264
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14806):
ACATGAATTTCTGGGGCGCTCCCTGAGTCAGAGTCTCAGAAGACCTGTGCAGGCTGGCGTGAGAGGAGCGGCAGCCACACTGCGGCCCCACGCCCAAGGA
Y
TGGGCTGCTCTCGAGGGGGGCGCGCCCACCGCTGTGTCCTCTCTGCCCAGCCTGGCTTACCAAGGGCTACCTCAGTGGGAGATGAGGTTGGAGGAACGAA
Celera SNP ID:            hCV25638803
SNP Position Genomic:     41152
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36|T,4)   total(C,73|T,5)
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(C,20|T,2)   total(C,46|T,2)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:14807):
GGTGTATTTGAACTTAATGGAACACCTCTTATTCCCTTCACTCTGAAGTTGGCTTCCTTGCCTATAAAGTTTGGTGATAAACCTAAGAAATACACCTGCT
R
TGCATTTTACTGCGTCCGTGATGAAAATCCCTCAACTTCACAGCCGCTCAGGCCTCGTGACCCTGCTTTCAGAGGGAGCCTTTTTCCTTTTCTTCCTTAT
Celera SNP ID:            hCV513955
SNP Position Genomic:     14546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,8)      total(G,6|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14808):
GGGGAGGGCCGGAGTGCGTTTCTCTGGACGGAGGAGCAGAGCAGCTTGGGGCACGGTGTGGGAGCCCTCCTTAGGGACCTCATGGGTCACGTTCGCCGTG
R
CTGCGCCACTCCTGTTCACTGCCAAGCACCGTGATTGCTCCTTGGATTTGCTCCCCTGGGGTTTCCTGGTCTCCTTGATGGTTTATACAGTGAGCAATCT
Celera SNP ID:            hCV513956
SNP Position Genomic:     14299
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14809):
TTTGAAGTTGTCAGACACAGACATGAATTTCTGGGGCGCTCCCTGAGTCAGAGTCTCAGAAGACCTGTGCAGGCTGGCGTGAGAGGAGCGGCAGCCACAC
Y
GCGGCCCCACGCCCAAGGACTGGGCTGCTCTCGAGGGGGGCGCGCCCACCGCTGTGTCCTCTCTGCCCAGCCTGGCTTACCAAGGGCTACCTCAGTGGGA
Celera SNP ID:            hCV25638807
SNP Position Genomic:     41132
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 UTR 3


Context             (SEQ ID NO:14810):
AGTAAAACAGAGTAAGATGGCATGCAGGGCTAATCATTAGCCCAGCAGGTAAGCACCATGGCTCTGCAGCCAGCTGCCTCCTTAGAAAGTGGGGTGTTGC
S
CCATGGAAGTGGTGGCATGCTCTTCTGGTAGCATTGTTGAAATGAAAACAGGTTCAGTCCTTGATCACTAGGCTTTTTGTACCCGGGTACCTCTGGGGAC
Celera SNP ID:            hCV11528250
SNP Position Genomic:     18540
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14811):
ACAGGAGGGCTTGGGGAGCGTGGGCACTTTTCTCATGAGCAGCTACTGCGGCGTTGGCAGGACTCGCTGCTGCTGCTGCTGCTTGTGTAGGTCGGGGAGC
Y
GGAGATCCCCGAGGACGCGCGCCGGACAGTCGGCACTGACCGGCCCACCTGGTAGCAGAGGACACCCCCAGCCCCCCAAGCATTGAAGACATAGTGTATT
Celera SNP ID:            hCV25638808
SNP Position Genomic:     41907
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,18)   total(C,45|T,1)
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:14812):
AGTAAATGTGGCCCTTGGCGTTACTGAGTCCTAAGAGGTGTGTGTTGCCCCAGGTGGAGCTGATGGAGGAGGGAGTCGGTGCCTGTGGTGTGGGACTGAC
Y
GGCTGCCTCCTGCCAGTGGGCTTGTGGCCTGTGGGGCCATCTGGCCATGAGCACTTCTCTCTCTGTCTGCCACGACAGGGGGGACAGGCCCCACCTCGGA
Celera SNP ID:            hCV25638809
SNP Position Genomic:     21774
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14813):
CGAGGCGGGTGGGTCACGAGGTCAGGAGATCAAGACCATCCTGGCCAGCATGGTGAAACCCCATCTCTACTAAAAACACAAAAATTAGCTAGGCTTGGTG
R
CATGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCACGCCATTGCACT
Celera SNP ID:            hCV11528255
SNP Position Genomic:     22629
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14814):
TGTGGCTCAGTTTTAACAAATGGGCTCATTGAGTGAGTTCCAAATTCATGTTTCACCTTCCATGATGTAGCCAAGCTGAGAACTCTTAAAAATGCCTCAC
Y
GCCTTTTTCACTCAGGGCCACCTTTTTCCCAAGGAACTTCTCAAAACTCCCTCAATTCCAATTTTATTGAAGTTCTACATGTAGGCTATTGCCTTGAATC
Celera SNP ID:            hCV27908076
SNP Position Genomic:     28120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14815):
AGGTAACAAAGCACCAGTCAGCAGGAAACTCACCACCGGGAAGCCTTTCTATCAAAACATAACTTCAAAATCAGTAAAGTGGGCCGGGCATGGTGGCTCA
Y
GCCTATAATCCCAACTTCAAAATCAATAAAGCGGGCCGGGCGCGGTGGCTCACGCCTATAATCCCAACTTCAAAACCAATAAAGTGGGCCGGGCGCGGTG
Celera SNP ID:            hCV27908077
SNP Position Genomic:     31100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14816):
TGGCCAGGACTCCTCTCTTTTTTCTTTTTTTTTGAGACAGTCTAGCTCAGTAGCCTGGGCTGGAGTGCAGTGGTGCAATCTTGGGCTCACTGCTTCCTCC
R
CCTCCTGGGTCCCGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCCCAGTACCTGGAATTACAGGCACCCGCCACCATGCCCAGCTAATTTTTTCAATTTTT
Celera SNP ID:            hCV11528257
SNP Position Genomic:     25395
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14817):
GGTCTTGAACTCCTGACCTCGTGATCCACCTGCCTTCGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCAGGACTCCTCTCTTTC
T
TTTTTTTTTTTTTATTTTTTTTCCGAGACAGAGTCTAGCTCTGTAGTCCAGGCTGGAGTGCAGTGGTGCAATCTTGGGCTCACTGCTACCTCCGCCTCCC
Celera SNP ID:            hCV11528258
SNP Position Genomic:     25630
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14818):
CTGATGTGGAGAATTGCTAGAACCCAGGAGATGGAGGCTGCAGTGAGCTGAGATCGCACCACTGCGCTCCAGCCTCTGCAACAGAGTTAGACCCTATCTG
A
AAAAAAAAAAAAAAAAAAAAGAAGAAGAAGAATGCTAATAAATGTTTTAAATTACTGAAACTGTTTTCTGTACAGATTTGTTTTGATAACTTGGCGTATA
Celera SNP ID:            hCV26056934
SNP Position Genomic:     22332
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14819):
GTTTCATTCTAGAGGAGGAGTCACATGATAGACTGTGTTCAACAGGCTTGCTCTGGCATCTCTTTTGAGAATGTACTGCAGAGGGGCAAGGGCAGAGGCA
R
CGAGACCAGCTAAGAGACTGTTGAACAAGCCAGCAAGGAGATGCCAGTGGATTAGCTCAGGGTGGGTAAGAGGTTGACTTCTGCATGTGTTTTGGAGGTT
Celera SNP ID:            hCV26891611
SNP Position Genomic:     9395
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14820):
TGATGTGGAGAATTGCTAGAACCCAGGAGATGGAGGCTGCAGTGAGCTGAGATCGCACCACTGCGCTCCAGCCTCTGCAACAGAGTTAGACCCTATCTGA
A
AAAAAAAAAAAAAAAAAAAGAAGAAGAAGAATGCTAATAAATGTTTTAAATTACTGAAACTGTTTTCTGTACAGATTTGTTTTGATAACTTGGCGTATAT
Celera SNP ID:            hCV26056935
SNP Position Genomic:     22333
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14821):
AGCACTTAAATAGCCACACTGCCCATTCCTTGAGGACAGAGCTGGTGTCTTGTGCTTGCATTTCTAGTGCATCACTTGTGTCTGGCATGTGGTTGGTAAT
A
AAAAAAAAACAGAACTTGAATTAATAATAACCTACACATTCCCCTACTATCAAAGCTTTCAGTTTGTAGAGTTTAACATAAATCCAGTATGTTAGCATAA
Celera SNP ID:            hCV26891612
SNP Position Genomic:     10376
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14822):
GGCTGGCGTCGCTGTGCTCGCTCTGCACGGCTTCCGTGGCTGGCTTTGGGGTGACGTCGGCAGGAGGGGCAGAGGGGCTCTGGGAAGGCTTCTGCGGTGT
Y
GCGGTAAGTGATGAGCTGGGAGGGCTCTGGGCCAGGCCCTTGTCGGGTCCCAGGCTGCTCCCACTGCAGCTTGGTTCCACATCTTTCTTCAGCCTCTTGC
Celera SNP ID:            hCV29271251
SNP Position Genomic:     1467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14823):
ACCCAGGAGATGGAGGCTGCAGTGAGCTGAGATCGCACCACTGCGCTCCAGCCTCTGCAACAGAGTTAGACCCTATCTGAAAAAAAAAAAAAAAAAAAAA
G
AAGAAGAAGAATGCTAATAAATGTTTTAAATTACTGAAACTGTTTTCTGTACAGATTTGTTTTGATAACTTGGCGTATATGTATTTGAAATCCTGGAGAA
Celera SNP ID:            hCV26056936
SNP Position Genomic:     22353
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14824):
ACATGTAGGCTATTGCCTTGAATCCAATTTTCCATAAGAAAGAGCTCATTTAGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACCTTGGGAGGCC
R
AGGTGGGTGGATCATGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAGAAACTAGCTGGGCATGGTGGC
Celera SNP ID:            hCV28969503
SNP Position Genomic:     28297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14825):
GAGAAGCTGTCTTTGGTGAAATGCTCACTACAGAGAAATGAATACTTAGTGGGAGTCCAGTTATCCCTCTGAACAGCTTTTAACCATTGGATTAGACGTT
K
TGAGTCCTTTAGGGGGAACCTACAGGACAAATGACAAAAAGTAATTAGAAATAATTAAATGTCTCCCCTTAAAATAATCAACTGTAAAAGCAAAACAAGT
Celera SNP ID:            hCV27852590
SNP Position Genomic:     2243
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,35)   caucasian(T,18)   total(G,1|T,53)
SNP Type:                 UTR 5;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14826):
CACTGAAGGAGTAGGAGAAAATTCCCCTGAGTTGGTGAGAGTTGAGTCTTTAGAGCTAAAGACCCCCAAATTTTTTTATCAGAAGTACTTAAACATACAT
R
TTCCTGATAATATTTCCAAATTGCAGAAGTAAAGGGAAACTTCTCTAAACATCCAAATAATAGTATCACTACTAAGCTGCTTTGAAGAAAGGCAGTCTCA
Celera SNP ID:            hCV277384
SNP Position Genomic:     30538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14827):
TGTAATCCCAGCACTTTGGGATGCCGAGGCGGGTGGGTCACGAGGTCAGGAGATCAAGACCATCCTGGCCAGCATGGTGAAACCCCATCTCTACTAAAAA
Y
ACAAAAATTAGCTAGGCTTGGTGACATGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGT
Celera SNP ID:            hCV26056937
SNP Position Genomic:     22605
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14828):
AGTGGGTCCTGCCCTGTGACTGTGGGTGTGCCAGGTCACCACACAGGTGTGTGCTGGGTCACAGACACGCCCCTTCCCTGCCTCTCCATTCTGTTTCTTC
R
TCGTCTGGCCATCCTCGGGGGCATTGTGACACAGCGGAGGGAGTGAGGCAGGACTTTATAAGGGAGAGTGAGGCTGGCTTCTGCAGCATTGAGAGCTTTG
Celera SNP ID:            hCV28969504
SNP Position Genomic:     28693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14829):
CCTGGGAATTTCTATGAAACTAATGCGGAATAAAATGAAAAAAGGACAAAACCCTGCTGCCTGGAAATGTGAAACCTCAAAAAAGTCAAGTGTAGAGACC
S
TAACTATGTATCTGAACCTGATGTGTACAGAACTCAGAAGAAAACCTGTGTATCTTCAGTACTAGTATATGGGTTCTTTACAAAGTGAAAATTAATGAAA
Celera SNP ID:            hCV277385
SNP Position Genomic:     31829
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14830):
CTGAAGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCACGCCATTGCACTCCATCCTGGGTGAGAGAGCGAGACTCTGTTT
A
AAAAAAAAAAAAAAAAAAAAGATTCTGAAAAAGGTTTGGATGCCATCTGTATCTTTAGTGTGAAAGTGAAAACTTGTTTCTCATATTTATGGTAGAGCTG
Celera SNP ID:            hCV26056938
SNP Position Genomic:     22761
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14831):
ATATATGTATAAATATATATATACGTGTGTGTGTGTGTGTGTGTATGTATATATTTTTCCCCCCCCCCGTCGTCCAGGCTGGAGTGCAGTGGCGTGATCT
Y
GGCTCACTGCAACGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACCCTTGACCTCAGGTGATCCACCCACCTTGGCCTCCTAAAGTGCTGGGATTAC
Celera SNP ID:            hCV26056939
SNP Position Genomic:     12083
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14832):
AGAGTGTTCCTGAGAGCCACACAGCCTCATCACCACAAAAGAGGTGACGCCACGACTCACCAGGGTCCGTCTTGGCCCCTTGCTGTCCAGGGAACAACCC
R
TGCCGCTGATTTGTGTTCCTGGTTGAGGGTCCGGTGCTGTGTGTATATAGTTGTGATGTCTTTCTAGTCTTTAATTGAGAAGGTTCTGCCTCTTTGTTGT
Celera SNP ID:            hCV29271253
SNP Position Genomic:     33806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14833):
AGCTGTGGCGCAGCCCCAGAGTGCACACCACGCTCCATGCACCTCCTGGGCAGGGTGGCAGTAGTGGGGAACATGGGCTGGAGCTCTGTGGCTCACACTT
T
TTGTTTGTTTGTTTGTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTT
Celera SNP ID:            hCV26891618
SNP Position Genomic:     37920
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14834):
GCTGTGGCGCAGCCCCAGAGTGCACACCACGCTCCATGCACCTCCTGGGCAGGGTGGCAGTAGTGGGGAACATGGGCTGGAGCTCTGTGGCTCACACTTT
T
TGTTTGTTTGTTTGTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTC
Celera SNP ID:            hCV26891619
SNP Position Genomic:     37921
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14835):
GGCCGGGCGCGGTGGCTCACGCCTATAATCCCAGCACTTCGGGAGGCCAAGGTGGGTAGATCACATGAGGTCAGGAGTTAAAGACCAGCCTGGTCAACAT
Y
GTAAAACCCCATGTCTACTAAAAAAAAAGTTAGCTGGGCATGGTGGCACGCCCTCGTAATCCCAGCTGCTCGGGAAGCTGAGGCACGAGAATTGCTTGAA
Celera SNP ID:            hCV27529027
SNP Position Genomic:     31393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14836):
TGGCAAGATTATGAAAAAATTTTCTTACGCTTTTCTATATTTTCCAAGTTTGAATTTCACTGTAAGCACCTGGCTTTGTACCGCCCTTTTTCTGTTACAC
R
GTCATCATTTGCTTGCTTGTTGTGGGAGCACTTTTGCACAGGTCTGCTTGGTTAGTGAAAGCATGTCTCCCTTTCTAGGAAGGTTGTGCAGGACCAGCGT
Celera SNP ID:            hCV29271257
SNP Position Genomic:     34981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14837):
GGCGTGAGGCACGTCCATCAGTAGGCACGTGCTGCTTTCGTTCTGCAAGTGTCAAGGCGAGTGTCGAGGATGAAAGCATGAGGCGCTTGCAGGGGGTCCT
Y
GGAACCAGGTGCCACTCCTCGGCCTGACGGGGAGCCCCGCCCCCTCCCGGGTCTCCACTGTGCCCCAGGCATGCCCACCCCACTCCCCCACAGCCCTCTT
Celera SNP ID:            hCV29271258
SNP Position Genomic:     35511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14838):
GGCCGTGGGGAGCTTTGTCCCGCCTGGCACAGCTATGTAGCTGAGCAGGGTGGGGCGTCCTGGATTGCCCATCTGGCAACACAGTTAACAACCCTGGGGA
Y
GGATGTTGCGTGTTGACTTTAGAATGGGATTTCCAGTGTCCTCATCCGTCTCCTGTTGAGATGGGGGTGGTGATGGGGTGCTGAGCTACGCCGGCCGAGT
Celera SNP ID:            hCV29271259
SNP Position Genomic:     39405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14839):
TCTCGTGGGCGAATCAAGGCACAGCAACGCAGTGGAGCCTGAGGGGAGCCGGGCACTGGTGCAGGGGACCATGCACAGGGCACCCTCGGAGCTCCGTTCC
Y
GGCCACAGGAGCCAAGGCAGGCTGGAATGTCCAGCACCTGCATGCTGGGGGCCTCTGCTGCGCCACTGGCAGTGGGAATGGAAGCCCCCACCTCTTAGCC
Celera SNP ID:            hCV1499307
SNP Position Genomic:     38992
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,6|T,30)   total(C,9|T,65)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14840):
TAACATCTCGTGGGCGAATCAAGGCACAGCAACGCAGTGGAGCCTGAGGGGAGCCGGGCACTGGTGCAGGGGACCATGCACAGGGCACCCTCGGAGCTCC
R
TTCCTGGCCACAGGAGCCAAGGCAGGCTGGAATGTCCAGCACCTGCATGCTGGGGGCCTCTGCTGCGCCACTGGCAGTGGGAATGGAAGCCCCCACCTCT
Celera SNP ID:            hCV1499308
SNP Position Genomic:     38987
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,6|G,28)   total(A,9|G,63)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14841):
GTATCTTTAGTGTGAAAGTGAAAACTTGTTTCTCATATTTATGGTAGAGCTGACCTGTAATTTTTTTTCCAATAGATTGGAGGTGGACACAAAGGAAGAG
R
CAGCCAGACAGCTACTTCAGCGTCCTCAACGCATTCATCGACAGGAAGGACAGTTACTACTCCATTCACCAGATAGGTGGGAGGCTGCAGAATGTGCCAG
Celera SNP ID:            hCV25638813
SNP Position Genomic:     22910
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14842):
TTCCCCTCAGAGCTTTTCTGGTGTCGTGGGATGTGGAGCAGGAGGCTGTAAACCTGTAAACACTGACCTCTGACCATCTGTGCGCTGCTGTCACATCACC
Y
CCGTGTCATCCCACATCACCCCCGTCCCACCCAGGCCCAGACCCTGGGCCTTGCCCTTCCTGCTGTCCATGCGGCTTGCAGTGCCTGGTGCTCGGCACAG
Celera SNP ID:            hCV25638814
SNP Position Genomic:     23150
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,39|T,1)   total(C,70|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:14843):
TTTTAAGGGCATTCCATGAGCAGGTACCACACCCCAGGTGACCACTTGAGGCCACTGGTGGAAAAGCAGCATGCCCTGGGGTTCATTTTCAGCCTGGTCG
M
GGGCGGCCTCCTGTGTGCCCCTTTCCCTGATGGTCTGGTGCCCTCGGCTCCCTCCCCACCTCCTGCCCACTGCTTCTCAGTGTGATGTGGGTGCAGTGGG
Celera SNP ID:            hCV25638815
SNP Position Genomic:     36778
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,38)   total(A,1|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:14844):
ACAGGTTTGTCCGCTGGCTGTGGCCGGCTGGCCCCTTTCTCTTGGCCGCAGCAAGCACTGGGGTGAGGCTGCACCTAACGGCCATGTCTCACTAACAGCT
R
TCTCTGCTTGGAGGTGCCCTGCCCATGTTTGAGCTGGTGGAGCAGCAGCCTTCACATCTGGCCTGCCCCGACGTCCTGAACCTGTCCCTAGGTGAGAGCT
Celera SNP ID:            hCV25638816
SNP Position Genomic:     39729
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14845):
CATCTGCATAAAACATATTGGCCACTGCTCTGCCTTGAACCGCCCTGGCTCTTCACTGCTGACTCAGGCGGGGCTCTACCCGACCTCCCTGGCATGACAC
S
TTGTGCTCCTGGGACACACCAGCCTCAGGGCCTTTGCATGTGTGGTGCCTGGCACTTGGACCCTGTTCCCCCGACACCTGCCTGGGTTGCGCCCCATGTC
Celera SNP ID:            hCV11528260
SNP Position Genomic:     26242
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14846):
CTGCACCATCTCGAGCAAAGGCACGTCGTGAAGGCAGAGCTCTTTTCAGCTTTCTGGAAGAAAGGTCTGCTGCAACCCTGAAGGAACCTGGGCGTGGCAA
Y
ATTTACATCTAGGAGGAAAACTGTGGCTCAGTTTTAACAAATGGGCTCATTGAGTGAGTTCCAAATTCATGTTTCACCTTCCATGATGTAGCCAAGCTGA
Celera SNP ID:            hCV11528261
SNP Position Genomic:     27998
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14847):
GTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCAGGACTCCTCTCTTTTTTCTTTTTTTTTGAGACAGTCTAGCTCAGTAGCCTGGGCTGGAGTGC
R
GTGGTGCAATCTTGGGCTCACTGCTTCCTCCGCCTCCTGGGTCCCGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCCCAGTACCTGGAATTACAGGCACCC
Celera SNP ID:            hCV477981
SNP Position Genomic:     25363
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14848):
CAAAGAGATACTTGCCAGTGTTCATTTAGCTCTGCTGTACTTTAAATAAAAGATATGTGTATCTTTAGTTCAAAGCTGGTGCCTTGGAACGGTGTCAAAC
A
TGAGAAGAATGTTCCAACAGCAAGATGGAATCATTGTCTTGCAGTGTTGAAATTAGACCGGTGGTGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGC
Celera SNP ID:            hCV26056940
SNP Position Genomic:     15614
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14849):
AAAGAGATACTTGCCAGTGTTCATTTAGCTCTGCTGTACTTTAAATAAAAGATATGTGTATCTTTAGTTCAAAGCTGGTGCCTTGGAACGGTGTCAAACA
T
GAGAAGAATGTTCCAACAGCAAGATGGAATCATTGTCTTGCAGTGTTGAAATTAGACCGGTGGTGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCA
Celera SNP ID:            hCV26056941
SNP Position Genomic:     15615
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14850):
GTCAGTCTGGCAGTGAGGACAAATGACTCCAATGAAAGAAAAGTAAATACCAGAGCAAGCACAGTCAGAAACAGAGTGGGGAGGAGAATCACAATAGCTG
R
AACTCAACTCTCTGAGAGGCAGTGCAGCCAAATAGAGGCAGCTGAGAGCAGAGTATGTGGATTAGAACTTTTCGGGAGAGTTGGCCACTGAAGGAGTAGG
Celera SNP ID:            hCV11528266
SNP Position Genomic:     30352
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14851):
CCCTTCAGAGTCCTCTGTCCAGCAGCTCCCCAGCCCCCACCACACCCTTCCACTCACACTTCTCTTGCTGCTGCCTGGAGTGGCCCCACCAAGTCAGCGC
Y
GTTTCTCTGGAAGCACCAGGCCACTCGCCATGCTCGCTGTTTCTCCTGGTCCCCTGCCTGCTCCCCACCAGCCCCCGCCCCTGTTGCTGGATGATCCTCC
Celera SNP ID:            hCV477982
SNP Position Genomic:     24844
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14852):
AAGAGATACTTGCCAGTGTTCATTTAGCTCTGCTGTACTTTAAATAAAAGATATGTGTATCTTTAGTTCAAAGCTGGTGCCTTGGAACGGTGTCAAACAT
G
AGAAGAATGTTCCAACAGCAAGATGGAATCATTGTCTTGCAGTGTTGAAATTAGACCGGTGGTGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCAC
Celera SNP ID:            hCV26056942
SNP Position Genomic:     15616
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,2)   total(G,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14853):
TGAAGCCTCTCCTTCTGCATCTGCCTGTTCTGTATCCCACTCAAGGCCCTCAGGCATCCCACGTTCCACATTCCTGAAATGGCCCTGTCTCCCCTCACCC
W
CAGCCTGCTCCTCAGCATGGCAGTCACTGTCTCCACCCAGCTTTTCTGTCAGGTTCCCTGGGGTCCTGCACAAGTCCGTCTCTGCCACATCCCACGTCAC
Celera SNP ID:            hCV477983
SNP Position Genomic:     24538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,5)      total(A,3|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14854):
CATGAGCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATCGCGCTACTGCACTCCAGCCTGGTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAA
R
AAAAGAAAAGAAATTAGACCGGTGGTGTTTTCATCCTTTTTCCTTGAGAATAAGTTTTCTGGATTTTAGTCTATATATTGAATAAAGCCTACAGGTCAAA
Celera SNP ID:            hCV26056943
SNP Position Genomic:     15980
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14855):
TGCCCCCTCATGCCTCCCCCGATCTTGTTGGGGCATCCTTCCGTCTGGAGGCTGGGTCGGGTGCTGTCCAGGCCTTCCTGTGACGTGTCTCCTGGCACCA
Y
GTGCCACCAGAGGTCAGGGCTGGGGGCGGGTGTGTGTTGCTAATGTGTATCTGTTCCCTGCAGCGCAAATGGGAGTTGGCGAAGGCAAGTCCATAGGCCA
Celera SNP ID:            hCV477984
SNP Position Genomic:     23546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14856):
CTGTGGCGCAGCCCCAGAGTGCACACCACGCTCCATGCACCTCCTGGGCAGGGTGGCAGTAGTGGGGAACATGGGCTGGAGCTCTGTGGCTCACACTTTT
T
GTTTGTTTGTTTGTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCA
Celera SNP ID:            hCV26891620
SNP Position Genomic:     37922
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14857):
TGTGAGCCACTGCACCCGGCGAGTGGATATTTTTTCCGAAGTTTGACTCCTTTTCTATCAGGAGCTACATGAATTACCTTATAAATCACATGATGTGGCA
Y
GGGAAGATGATGAAATTATGACAGGGGCTATGAAATAAGACAAGGGAACCTCTCCATGGCGAATTGCTGAGGCAGCTGGTGTCAGGCCTAAGTGGATCTC
Celera SNP ID:            hCV26056944
SNP Position Genomic:     12287
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14858):
TGTGGCGCAGCCCCAGAGTGCACACCACGCTCCATGCACCTCCTGGGCAGGGTGGCAGTAGTGGGGAACATGGGCTGGAGCTCTGTGGCTCACACTTTTT
G
TTTGTTTGTTTGTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCAC
Celera SNP ID:            hCV26891621
SNP Position Genomic:     37923
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,4)   total(G,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14859):
GAAGATGATGAAATTATGACAGGGGCTATGAAATAAGACAAGGGAACCTCTCCATGGCGAATTGCTGAGGCAGCTGGTGTCAGGCCTAAGTGGATCTCAT
W
CATCTGAGAGTCAGTGAAGGAACAAGTGTGGTGGCTCACACTTGTAGTCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTGGAGCCCAAGAGTTTG
Celera SNP ID:            hCV26056945
SNP Position Genomic:     12390
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14860):
TGGGGAACATGGGCTGGAGCTCTGTGGCTCACACTTTTTGTTTGTTTGTTTGTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGC
R
CGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCTGGATTAGCTGGGACTACAGGCACCCGCCACCACGCCTG
Celera SNP ID:            hCV26891622
SNP Position Genomic:     37984
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14861):
GGACGGATGTTGCGTGTTGACTTTAGAATGGGATTTCCAGTGTCCTCATCCGTCTCCTGTTGAGATGGGGGTGGTGATGGGGTGCTGAGCTACGCCGGCC
K
AGTGCGTGTGGCCCACCCCCCTCTGCCGTGGTGGTCAGACTGTGCTGTGTGTTGATCACCACACTGGGTTCTCGTGTAGCCTTTAGTGTGGAGCTGCCTC
Celera SNP ID:            hCV29271260
SNP Position Genomic:     39502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14862):
GGATGTCCTCATGGACAGCTTCGATGCTTTTGGAAGCATCCACCATCTGTTCCCACCGGGGTTTCAGGAGAAAAAGAGGCTCATCAGCACGTTCCAGGCT
R
GTCACGGGAGCCCACGCCTGTAATCCCAGCACTTTGGGAGGCCCACGAGGGAGGACTGCTTGTACCCAGGAGTTCAAGACCAGCCTGGGCTACACAGGGA
Celera SNP ID:            hCV27896733
SNP Position Genomic:     44706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14863):
ATCTCATACATCTGAGAGTCAGTGAAGGAACAAGTGTGGTGGCTCACACTTGTAGTCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTGGAGCCCA
R
GAGTTTGAGACCAGCCTGCTTAACATAGGGAAACCCCACCTCTACAAAAAATACAAAAATTAGGCATGACGGTGCATGCCTGTAGTCCCAGCTACTCAGG
Celera SNP ID:            hCV26056946
SNP Position Genomic:     12483
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14864):
TATTTCTTTTTTCTCTGGGTGGCAAGATTATGAAAAAATTTTCTTACGCTTTTCTATATTTTCCAAGTTTGAATTTCACTGTAAGCACCTGGCTTTGTAC
Y
GCCCTTTTTCTGTTACACAGTCATCATTTGCTTGCTTGTTGTGGGAGCACTTTTGCACAGGTCTGCTTGGTTAGTGAAAGCATGTCTCCCTTTCTAGGAA
Celera SNP ID:            hCV27896735
SNP Position Genomic:     34962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14865):
GGGAAGCAGGGAAGGCTGGTGCGATCTCCATTCCTTGGGCTCCGCGTCCGAGTTCATGGTGCGCCGCTGTGCTGGGAGCTGCAGTGGGAATGTGTGGGAC
M
CCTTGACCAAAGGGGAGCTTTGTCTCGTGTGTTTTGAAAAAGGCTTAATGAAGAGAATGTTGTTCATTCTTAGTAGTATAGTTTGCAATTCTTAATGGCA
Celera SNP ID:            hCV27469813
SNP Position Genomic:     42145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:14866):
GCACTTTGGGGAGGCCAAGGCAGGTAGATCACTTGAGCCCAGGAGTTTAAGACAAGCCTGGCTGGCAACATAGCGAAATCCTGTCTCCACAAAAAAATTA
S
CCAGGCACAGTGAAGGCCTGTAGGCCTAGCTACTCAGGAGGCTGAAGTAGGAGGATCACCTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCACGATCGTG
Celera SNP ID:            hCV410260
SNP Position Genomic:     43708
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 TFBS


Context             (SEQ ID NO:14867):
TCTGCTGCCTGTCCTGGGAAAGTAGCTTTGCCCCACTAGGAAATGTAAACAGGAGGGCTTGGGGAGCGTGGGCACTTTTCTCATGAGCAGCTACTGCGGC
R
TTGGCAGGACTCGCTGCTGCTGCTGCTGCTTGTGTAGGTCGGGGAGCCGGAGATCCCCGAGGACGCGCGCCGGACAGTCGGCACTGACCGGCCCACCTGG
Celera SNP ID:            hCV410264
SNP Position Genomic:     41859
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:14868):
TGGAGCCTGCCCTCAGAGTGTCCCTTTCCAGTGCTGTGGCATTCTGTGGCAGCTTCCCCAGGTGTGGTGACGGGGGGGGCGGGGCCTCCACCTGTGACAG
Y
CAGGCTTGAGGGTGGACGGCGTGCCTCTCCCAGGAGCCTTCCCCATGTCCTTGCCTTGCTGAGAATTGCCCTCCCATGCCGCTGAGGTGTTAGGTGGTTT
Celera SNP ID:            hCV410265
SNP Position Genomic:     41486
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,17)   caucasian(C,15|T,23)   total(C,28|T,40)
SNP Type:                 UTR 3

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:14869):
GAGGAACGAAGGCGAGGTTCCTCCTTGCTTTGGGGAGAAAAGTATTCAGGAAGTGGGTGTGTGGGAAACCTGAAGATGGCGTGCACAGGACACAGCGTGG
K
CGGCCTGGGCAGAAGGGCGGCTGGCTGTCCTGGAGCTGCTGCTGGAGCCTGCCCTCAGAGTGTCCCTTTCCAGTGCTGTGGCATTCTGTGGCAGCTTCCC
Celera SNP ID:            hCV410267
SNP Position Genomic:     41343
SNP Source:               Applera
Population(Allele,Count): african american(G,10|T,16)   caucasian(G,8|T,20)   total(G,18|T,36)   
SNP Type:                 UTR 3;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(G,19|T,19)   caucasian(G,15|T,23)   total(G,34|T,42)
SNP Type:                 UTR 3;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:14870):
TCCGCTGGCTGTGGCCGGCTGGCCCCTTTCTCTTGGCCGCAGCAAGCACTGGGGTGAGGCTGCACCTAACGGCCATGTCTCACTAACAGCTGTCTCTGCT
Y
GGAGGTGCCCTGCCCATGTTTGAGCTGGTGGAGCAGCAGCCTTCACATCTGGCCTGCCCCGACGTCCTGAACCTGTCCCTAGGTGAGAGCTGCCAAGTCC
Celera SNP ID:            hCV25638820
SNP Position Genomic:     39738
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,7|T,33)   total(C,10|T,68)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14871):
CCCGGGAGGCCTTACTGCTTGGTGTCAGACTGCCCAGCTCAGAGTGCCCGTCAGGGCCTGTGCATCCGCACGCGGAGCCGTCTGTTAGGAGCTTCCAGAG
Y
GTTCTCTCGACACTGCCAGCCCCGTGTTAGCACCTGGGCCTCAGTCCCACTTGCTCCCAGGCGCCGGTTCTGTGGTTGGTTTGGAATTAAAGTCCTGTTT
Celera SNP ID:            hCV410269
SNP Position Genomic:     40934
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,6)   caucasian(C,14|T,6)   total(C,26|T,12)   
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,11)   caucasian(C,21|T,15)   total(C,44|T,26)
SNP Type:                 UTR 3

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   ;POOLE|_CEPH(C,74|T,114)   total(C,74|T,114)
SNP Type:                 UTR 3


Context             (SEQ ID NO:14872):
CTTCACATCTGGCCTGCCCCGACGTCCTGAACCTGTCCCTAGGTGAGAGCTGCCAAGTCCAGGTGGGGTCCCTCGGAGGTACGATCTGTGCCCTTGCTTC
Y
CCAGTCCTGGCCCCCTTGGTTTTGACCATTAAGGTGTGTGTGAGCCTGAGCCGTGAGCACTTGGCAGTGGTTCGCCTGTGAGACCAGGTATGGAGTGGAG
Celera SNP ID:            hCV25638821
SNP Position Genomic:     39879
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:14873):
GTAAGTGGCTCAGAGTTTCCATGGACAAGAAAGTTGAAATCACGGGCAACATACACACTTCCTCGCCTGAGTCCCCACGGGAGCCTCGGCGAGTGTTGTC
R
GTCGCCCCATGCCGTGCAGGTGCTCCGTGGGGCCTGTGCGCCAAGCCAGATGCACGGTGGCCTCGCTCTCCTATCCCGGCGGTCATACCAAGAGAGGAGA
Celera SNP ID:            hCV25638822
SNP Position Genomic:     27627
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14874):
CAGTCATCATTTGCTTGCTTGTTGTGGGAGCACTTTTGCACAGGTCTGCTTGGTTAGTGAAAGCATGTCTCCCTTTCTAGGAAGGTTGTGCAGGACCAGC
R
TTCCCTGTGCAGGCGCCACTGCGTTTCCTGCAGATTCCGACCGGCACTGCAACGGATTCCCTGCCGGAGCTGAGGTCACCAACAGGCCGTCGCCATGGAG
Celera SNP ID:            hCV25638826
SNP Position Genomic:     35080
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14875):
CCTGGGGAACAGAGTGAAACCCGGTCTTCTCCCCTCAAAAAAAATCAACCAACTCAGATGATCCTTGAGGACATTATACTGAATGAAATAGGGCAGGTGC
M
AAAAAACAAACACTGCATGATACCACTCACATGAGGTACTCAGAGTAATCAAATTCATAGAGACAGGAGAATGCGGGTTCCCAGAGCCTAGGGAGAGGAG
Celera SNP ID:            hCV154887
SNP Position Genomic:     3077
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14876):
TTAGTGAAAGCATGTCTCCCTTTCTAGGAAGGTTGTGCAGGACCAGCGTTCCCTGTGCAGGCGCCACTGCGTTTCCTGCAGATTCCGACCGGCACTGCAA
Y
GGATTCCCTGCCGGAGCTGAGGTCACCAACAGGCCGTCGCCATGGAGACCCCTGGTACTTCTCATTCCCCTGCGCCTGGGGCTCACGGACATCAACGAGG
Celera SNP ID:            hCV25638827
SNP Position Genomic:     35133
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14877):
CGTGGCGGCCACCTGAGCACACAGGCATTTGGTGCTGAATGCTGTTTGGGAATGACGAGGAAAACTTTCGGATTTTTGCGTTTTTTTTTTCAGCATGTTG
S
GATAAGTACTGTGTTCACGTGGTTGGGAATCTGAAGGGTATAAGAGCCGGAACTGTGTCCTTGCACCCTCACGTCCCTCCCCCAGGCACCACCTCCTGTG
Celera SNP ID:            hCV25638828
SNP Position Genomic:     37204
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,22)   caucasian(G,38)   total(C,2|G,60)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:14878):
GAAAAGCTGCGTGACCAGCATCATCTGCAGGCACAGCCAGTCGGGCTGGGGCGAGACCCTCGGCCCTGCTCTGGAGGAGGAGCTCAAGGGACTGAAGCTC
Y
GCGGGCCGTGGCCACAAGCGACAGTGCTGGCGCCCGACGTGCCAGAAGCCCTGGCTGCCGCCTGGAAAGAGGCCACGTGGGCAGCGGTGGGCACGGGCGA
Celera SNP ID:            hCV27520322
SNP Position Genomic:     45933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14879):
GTCACTGTCACCTGTCACTGTCCATCTTTTTGATGCTTGACGGTTCCACCTTTGGCCGGTGGCCACCTCAGTCTGGTGGTGTCTTTTGCCGTGTTCTGGC
R
TTTTTCGTTTATGTTTTGAGCCCTCCCTTATGTTCTGGGTTAAGCAGATGCTGCAGGCACCTCTGAACATTCCCTGCCTGGCCCTGGAATCAGCCTGGCT
Celera SNP ID:            hCV313965
SNP Position Genomic:     34422
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14880):
TTCACTGTAAGCACCTGGCTTTGTACCGCCCTTTTTCTGTTACACAGTCATCATTTGCTTGCTTGTTGTGGGAGCACTTTTGCACAGGTCTGCTTGGTTA
S
TGAAAGCATGTCTCCCTTTCTAGGAAGGTTGTGCAGGACCAGCGTTCCCTGTGCAGGCGCCACTGCGTTTCCTGCAGATTCCGACCGGCACTGCAACGGA
Celera SNP ID:            hCV313966
SNP Position Genomic:     35036
SNP Source:               Applera
Population(Allele,Count): african american(C,16|G,22)   caucasian(C,16|G,20)   total(C,32|G,42)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14881):
GGTCTGCACAACCCCCGGACCTGTTCACACCCGCATGGGGACAGCTGTCTGTGGGCTGCAGAGCAGGCACTGCTCAGTCTGCCCCACGCCAAGGGCCCTT
R
ACTCACACCCAGGTGGCCCACCCAAGATGCCTGATGCGCTATGTCCTGTTCCTTCTAGATTCTTCTGATGTAGAGCGACTGGAAAGATTCTTCGACTCAG
Celera SNP ID:            hCV410270
SNP Position Genomic:     40547
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,18)   caucasian(A,3|G,35)   total(A,5|G,53)
SNP Type:                 INTRON;UTR 3;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:14882):
CCCCTCGGACCATGGCCAGCGTGCCGCAGGAGCCGGCCTGGGCTCGTGCAGTGAAGTGAGTGGCCGTGAGCGCGTCCTCCTCATCTCTGTCTCCCTGTGG
R
AAACTCTACAAACAAGGCAATGGCAATGGAACCACTCCTGATGACCACGAGGGTCAGACGCGGGACAGAGGCCCCTCAGGCCTGAGATTGTGCCGGCCGC
Celera SNP ID:            hCV410271
SNP Position Genomic:     40287
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:14883):
CATGGGTGGCGTAGACCCCTCGGACCATGGCCAGCGTGCCGCAGGAGCCGGCCTGGGCTCGTGCAGTGAAGTGAGTGGCCGTGAGCGCGTCCTCCTCATC
Y
CTGTCTCCCTGTGGGAAACTCTACAAACAAGGCAATGGCAATGGAACCACTCCTGATGACCACGAGGGTCAGACGCGGGACAGAGGCCCCTCAGGCCTGA
Celera SNP ID:            hCV410272
SNP Position Genomic:     40272
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:14884):
TTAAATTTATTAGAACTAACACATACTAGAACTGGCTCTTTGAAGCAATAACATATATGTTTTAAAAAAATCAAAGTTAAAATCCCTCCCTTGGCTAAGC
R
CTGTGGCTCCCGCCTGTAATCCTAGCACTTTGGGAGGTGGAGGCAGGCAGATTGCTTGAGTCCAGGAGTTTGAGACCAGCCGCCTAGGTAACATGGTAAA
Celera SNP ID:            hCV11536222
SNP Position Genomic:     32670
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14885):
TTGGGCTTGGGTTGAGCCTGTGGCTGAGAGTAGCCTCTGGGTGGCAGTGTCCTCTGCTCTCCCATCCGGGGCCTGCAGTGGGACACTATGTCAGATCCCC
R
GAGATGGTGTCTTTTTTCCTTTGTAATTAATGAATAATCCAGTGGTGACACTGAGCATGTCCTGGTGAGCTGTGTGACTCCTGCCTGATAATGGTGGTTT
Celera SNP ID:            hCV11536223
SNP Position Genomic:     34089
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14886):
CAAAGAATAGTAGGGACTTCTGAAGATTCAGGAGTGGCTTTAGAGAGGTAGCAGGGACATCATGATGTTTTTCAGCTCTTTAAAAAGATAGGAGTGGGCC
R
GATGCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACTTGAGGTCAGGAGATCGAGACCAGCCTGGCTAACACAGTGA
Celera SNP ID:            hCV41654
SNP Position Genomic:     16177
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14887):
ACTGTCCATCTTTTTGATGCTTGACGGTTCCACCTTTGGCCGGTGGCCACCTCAGTCTGGTGGTGTCTTTTGCCGTGTTCTGGCGTTTTTCGTTTATGTT
W
TGAGCCCTCCCTTATGTTCTGGGTTAAGCAGATGCTGCAGGCACCTCTGAACATTCCCTGCCTGGCCCTGGAATCAGCCTGGCTCCTCTGAGTGGGGAGT
Celera SNP ID:            hCV11536228
SNP Position Genomic:     34438
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14888):
AGAAACCTCGATCTAGACGCCGGGCATGCTCCATGCTCCCGGAGTGTCTTCTCCCATCACCGCACCCTCCGGTTGATGTGTCCTCCGGACCATTGACTCA
Y
GGGTGTGTGTAGGCAGAAGGGGTGGAAGCGAGGAAAGGCGTTGCTGAGGAGGCCCGGAGGGAGCGGGTTCTGGCTGTGCTGGCACTAGCCAGGCTGGCAG
Celera SNP ID:            hCV11536229
SNP Position Genomic:     34646
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14889):
GGCTCCCTCCCCACCTCCTGCCCACTGCTTCTCAGTGTGATGTGGGTGCAGTGGGTCTGAAATGCGGCCTCCTCTGTCCCTTTCCTCTGCCGGCTCGGCC
R
CCCACCTGCCCACCTGCCTCATCCTCCCAGGTGAGGAGCTCATCTACCTGGACCCCCACACCACGCAGCCAGCCGTGGAGCCCACTGATGGCTGCTTCAT
Celera SNP ID:            hCV25638833
SNP Position Genomic:     36924
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,3)   caucasian(A,10|G,4)   total(A,37|G,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:14890):
GGAAGCCCCCACCTCTTAGCCGACTGCAGATGGGGGTGTCGTGTTCTGCTCATCGTCATTTCGTTTTAGGGGTTTTTCTGTAAGACTGAAGATGACTTCA
R
TGATTGGTGCCAGCAAGTCAAAAAGGTTTGTAGCCGCCCCACACCCACAGCCGAGCTGAGCCACCCAGGGAGACAGGCAGTGGGGCGTGCAGGGGTCGAA
Celera SNP ID:            hCV25638834
SNP Position Genomic:     39172
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,33|G,1)   total(A,65|G,5)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14891):
GCGCCCGCTCCTGGAAAGCCCCGTTCTCATAGCGCTCATGGCCAAACGCTCCCCGCTTGGCAGCATCCGCCAGCTGTAACTGGAGGAACAGGACCAGGTC
R
GGTTTGGGAAGGCCCACGTCTGGCTGTTTACACCAGTCTAGGGAAAAATTCTGCCAAGAAAGAACCCAACAGTTAAAGCTTAGTGTAGTCTAGGTTTTTG
Celera SNP ID:            hCV7440065
SNP Position Genomic:     47013
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14892):
CAAAGTCGTGTCTTTCATGAGCTGGTGGAAACACCGGAGCGCCCGCTCCTGGAAAGCCCCGTTCTCATAGCGCTCATGGCCAAACGCTCCCCGCTTGGCA
K
CATCCGCCAGCTGTAACTGGAGGAACAGGACCAGGTCGGGTTTGGGAAGGCCCACGTCTGGCTGTTTACACCAGTCTAGGGAAAAATTCTGCCAAGAAAG
Celera SNP ID:            hCV7440066
SNP Position Genomic:     46975
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS


Gene Number:                 15
Celera Gene:                 hCG1641163 - 30000036628323
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(4117522..4131716)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12175):
GAAGGATTATTATTGTTGGCCTTATAAAATCTCATAATTTAATATCTAAATTATATTATTTTTTAAATGGAAGTCTACTTTATTTAAATTAAGAGGACTA
GGCTACTTATTTTTTTTATTTTGTTTTGGAGAGTACATGTGCAGGTTTTTTATATTAATACATTGAGCAATGCTGAGGTTTGGGCTTCCCATGGACCCAT
TAACCAAATAGTAAACATAGTACCCAATAAGTAGTTTTTCAACCCTTACCCCCTACCACTGTACCCCCTTTTGGGATTCCCAGTATCTATTATTTCCATC
TCTATGTCTATGTGTACCCATTGTTTAGTTTTCACTTGTAAAGTGAGAACATGCGGTATTTCATTTTCTGTTTCTGACTTATTTCATTTAGGATGATGGT
CTCAAGCTCCATATATGTTGCTGCAAAAGACAGAATTTCATTCATTTTTATGCCTGCATAGTATTCCATGGTATACATATACCACATTTCTTTTTCCAGT
CAACCAGTAATAGACCCTTAGGTTGATTCCATGATTTTGCTATTGTGAATTGTGTTGTGATAAACATACAAGTGCAGGTGTCTCTTTGATGAAACAATTT
CTTTTCTTTTGGATAGATACTGAAGAGTGGGATTGCTGGATTGAATGGTAGTTCTATATTTATTTCTCTGTGAAATCTCCATACTGTTTTCTATAAAGGT
TAAACTAATTTACATTCCCACCAACAGTGTATAAAGTCTTCCCTTTTCTCCACATCCTTGCCAATATCTGTTATTTTTTGACTTTTTAATAATAGCCAAT
CTGACTGGTCTGAAGTAGTATCTCATTGTGATTTTAATCTGCATTTCTCTGATGATTAGTTATGTTGAGCACTTTTTAATATGTTTGTTGTCCTCTTGTA
TGTCTTGTTTTGAGAAGTGTCTGTTCATGTCCTTTGCCCACTTCTTAATTGGATTATTTGTTTGGTTTTTGTTGATTTGTTTAAGTCCCTCATAGATTCT
GGATATTAGTCTTTGTCAGATGCACAGTTTGCATTTTTTTCTCCCATTCTGTTGGTTGTCTGTTTATTCTGTTGACTATTTTTTTATGTGCAAAAGTTTA
GTTTAATTAGATCTCATTTGTCCATTTTTATTGTTGCATTTGCCKTTAGCCTTAGTCATAAATTCTTTGCCTAGGCCAATATCTAGAAGAGTTCTTCTTA
GATTTTCTTCTAGCGATTGCATAGTTTCAGGTCTTATATTTACATCTTCAGTCTATCTTGAGTTAATATTTGTATATGGTGAGAGGTAGGGGTCCAGTTT
GACTTCATATGGCTGGCCAGCTTTCCCAATGTCATTTATTGAATAGGGTACCCATTTCCCATTGTTTACTTTTGTAAACTTTGCCAACAGTCGGTTGGTT
GTAGGTGTGTGGCTTTATGTCTGAGTTCTCTATTCTGTTCCATTGATCTATGTGTCTTCTTTTGTACCAATACCATGCTGTTTTTGTTACTATAGCCTTG
TCATATAGTTTGAAGTCAAGTAATGTGTTGCCTCTGGCTTTGTTCTTTTTGCTCAGGATTGCTTTGCTACTCAGGCTTTCCTTTGGTTTCATATGAATTT
TAGAATTGTTTTTATAATTGTGTGAAAATGACATTGGTAATTTGATAGGAATTGCATTGTATCTGTACATTGTTTTGGGCTCTAAACTCATTTTAAGAAT
ATTACTTCTTCCAATCCATGAATATGGGATAATTTTCTATTTGTTTGTGACATCTACAGTTTATTCAATCAGAGTTTTGTAGTTCTCCTTGTAGCAGTTT
TCACTTCCTTGGTAAAATGTATTCCTAGATATTTTATGTTTTGTGTGTGTGGCTATTGCAAATAGGATTGAGTTCTTGATTTGGTTTTTACCTTGAGTAT
TGTTGGTATACAGAAAGGCACCTGATTTTCATACATTAATTTTGTATCCTGAAACTTTACTAAAGTTATTTGTCAGGTCAAGGAGTCTTTTGAAGAAAAC
TTTAGGGTCTTTTAGATATAAGATCATGTTGTCAGCAAACAGAGACACTTTTATTTCCTCTTTTTCAATTTGGGTGTCTTTTCTTTCTTTTCATTATCAG
ATTTTTCTGGCTAAGACTTCCAGTATTATGGTTAAATAGGAGTGGTGAGAGTAGACATCCTTGGGTTGCTCGAGTTCTGAGGAATGCTTTCAGTGTTTCA
CCATTCAGTTTGATGTTGGCTGCAGGTTTGTCTTACAGTATGTTCCTTCAATGCCTAGTTACTTGAGAGTTTTTATTATGAAAGGCTACTGTATTTTATC
AAATATTTTTCCTGCATCTGTTGAGATGATATGATTTGTTTTTAACTTTGTTTATGTGGTGAATCACATTTATTGACTTGCAGATGTTGAACCACTCCTA
TATTCCTGGGATGAAACCTACTTGATCATGATGAATTGTCTTTTTTTCTATGCTCTTGGATTCAGTTTGCTAGTATTTTCTTGAGGATATTTGTGTCTAT
ATTCCTCAGGGATATTAACCTGTGGTTTTCTTTTTTGTTGTATCCTTGCCAAACTTTGGTAACAGAGTGATACTAGTTTTGTAGAGTGAGTTAGTTAGAA
AGGAATCCCTACGCCCTGATTTCCTGGAATACTTTCAGTAAGATTGGTACGGGCTCTTCTTTACATGTCTGATAGAATTCAGCTGAGAATCCATCTGATC
CTCAACTTTTTTTGGTTGGTAGATTTTTCATTATTGATTTGATTTTATAAATCATTATTGGTTGCACAAGATTTCAATTTCTTCCTGATTCAATCTTGGG
AGTTACATTTCGGTTATTTATCAATTTCCTCTAGGTTTTCTAGTTTGTATACATAGAGGTGTTCGTAGCAGTCTCTGAGAATCTTTTATATTTTTGCAAT
ATCAGTTGTCATGACACATTTGTCATTTCTGTTGTACTTATTTGATTCTTTCTCTTTTTTTCTTGGTTTATCTAACTAGCATTCTATTTATTTTGTTTAA
CCTTTCAAAGAACAAACTTTCTTGTTTCATTGAGCCTTCATTGATTGTTTTATAATTTTAAAAATCAATTTAATTTAGTTCCACTCTGATCTTTTTTATT
TCTTTTCTTCTGCTAGCTTAGTATTTTGTTTGCTCTTGTTTTTCTAGTTCCTTGAGGTGAGGCATTAGTTTATTAATTTAAGATATTTCTATCTTTTTGT
TCAGGCATTTGGCACTATGAGCTATCGTCTTAACACTGCTTTTGCTGTATGCCAGAGGATTTTATAGGTTGTGTCTCTACGTTCATTTGAAATAATTTTT
TGATTTCTACCTTAATTTCTTTGATTCCCTCAAAGTCATTCAGGAGCAAGTTGTTTAGTTTCCACGTACTTGTGTGATTTTCATTTAATCTTCCTTTTGA
AGTGAACCCTATGTCATTATATAACAACCTTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTTGTTCTGTTTATTGTTGTGGGTTTAAAAT
CTGTTTTATCTATTACAAGAATGGCAACCTCTGCTCTTTTTGGTTTTTCATTTATGTGATCTGTCTTTCTCCACCCCTTTACTTTGAACCTCTGGGTCTC
AGTACATGTTAGGTACATCTCCTGAAGGCAGCAGATGGTTCAGTCTCATTTTTTAAATTTAATTTGCCAATCTATATAAGTGGAGAATTTAGGTCAGTTA
TGCTCAAAATTAATATTTATATGTGATATGTAAGGCTTTGTTTGTGTCATCATGTTTTTAGCTAGTTGCTTTGTAGTGTAACTTATTTAATTGCTTTGTA
GGGTTGGTAAATTTGTACTTACATGTTCTTTTATGGTAGCAAGTATTATTCATTTGTTTTCATGTTTAGAACTCCTTTGAATATTTCTTGCAGATTCAGT
CTAGTGGTGACAAACTTTTCTAGCATCTGTCCTCTACCTTGTCTGGGAAAGGCTGTTTCTCCTTCATTTATAAAGCTCAGTTTAGCAGCATATAAACTGG
TTTGTAAGGTTTCTCCTGAGAAGTCTTCCGTTAGTCTGACGGAATTTCCTTTATAGGAGATTTGCCCTTCCATAGCTGTCTTTAAGATCTTTTCTTTAGC
ATTGACCTTGGATAGCTTGATGACTATGAATATGCTTTGGTGATGTTCATCTTGTGTAGTATCTAGCAGGCGTTCTCTAAATTTCCTGTATCCAGATTTT
TACCTTTGTAACTACGTTTAAAAAAATACAAAATTATTCTCTCAAATATGTTTTCCAAGTTTTTTTTTTTTGCTTCTCTCCCAGGAATGCCTATAAGTCA
TAGATTTGGTTGCTTTACGTAATCCCATATTTCTCAAAGGCTTTGTTCTTTCAAACAACTTTTTTTTTTTTGTCTGACTGTGTTAATTTGCAAGACCAGT
TTCCAAGTTCTGATTTTTTTTCTTCTGATTGTTCTGGTCTATTTTTAAAACTTTCTATTGTGTTTTGCAATTCTTTTAGTGAATTTTTAAACTCCACAGT
TCTATTATATATACATACATATCCATACATATTTATAGCCATTTGATATATATATATGGAGATATATATGTATATATCTATACGTATATAAAAAATTGCT
ACAATAATATATAGCCTTCTCATCTCTCATATCTTGAATAATTTTTCTGGTTTCGTTGTATTGGTTTTCAACTTTCTCTTGTATCTCATTGAGTTTCCTT
GGAACCCATATTTTGAATTCTTTGTTATTTCAGAATTTTCATTCCTGTTAGGATCTATTGCTAGAGAGCTACTGTGATCTTTGAAGGTGTCAAAACACTG
TTTTTGTACTGCAGAAGATCTTGCACTGATTCATTCTCATGTGAAAGAGCTGTTGCTTCCTATTTTTGAATTCGCTTTCATTTGTACGAGACTTTTAAAT
GCTTCATTCTTTTTTTCCTTGAGGGTATGACTGTGGTGTATGTTGCATATGATCTTTTGGCTTTATTTCTGGTTGCTTTCAGAGGGCCAAGTCTCTGTAT
GAGTTCCTTCATTGTGGGTAGAATTTGTGTGGTGGCTTTCTCAAATGTTGCTTGTTGTTCAAGTACTTTTAGAAAGACGCTATGTTAAACAAGTGTAACT
GCAGATGTTAGTAGCACTTTTATAATATAATCACCTATAGGTAGAATGAGAAAGTTTCTGGATTTCTAGCACCTAACATTAAATTTCATGCTTTCTGAAA
GTAGGCCGTCTAGGAAACAGTTACTTTTGAATTCTCTGGACTTTTATATTTTTGAATGCAAAGGAAATCTGTTAGCTGTTTGACTGTTTTTCAGTTTGCT
CGAGACTTAAATTGAGCACCCAGTGCTATTTACTGATTCTCACTTGGAAAGAACTTGGAAAGAAAAGTTCCACAGAATAAAGACAGAGTAATTTCCATTG
GTTCACCATGAATTCTCTGATAATTTCTTTACAGAAAAAAACATAGAAAATAGATGTAATTATTATTATATTCCCATTATGAAGTAATAATTTTTGACAC
ATATTATTTTAAATTATCCAGCAATTTCTTTCCCAGTGAAAGAATTGAGGAACTGAAAATTATCACTTTGCCACATTACTCAGAATCACAAAATTGGCTT
CAAAATGGTGTTAAAACTACACTCCAAGTTGCCTGACCCCGAAGCTTGTGTTTAGACCATTTTTTTTTACTAGGGTGTCTAATAGATGGGCAACTGAAAA
GGATCATTACTTTTTTTTTCAGGACAATGGGATGTCATTTAAATACCCAGAAAGAAACAACTTGCCCACTGTTATACTGATTCCCTGAAAGACTTCAAAG
GATGAAGAGTTTACAGCTACAGAGTATTCAATAGACCTTGGGTCAGTGTAGAATCAGAGTTACCTTTATGTTTTAAAATAAATTTGATTTTAATTAAATT
TATGTATTTGTTTTTTTGTTGTCTGCTTAGAAGACCAGGCAAATCATTGTAAGTTTGTGTCCTCCACTCACTTACCCACTTATCTGTAAGAATTACCTAG
CCAGGAACACTAGCCGTTCACGTGTTCGGTCCTCCTTAGCTGACTCGCCGCCCTCGCTGCCGCACCATGGACGCCCCGAGGCACGTGGTCAACTTCGGGC
CTGGTCCCGCCAAGCTGYCTCACTCAGTGTTGTTAGAGATAAAAAAGGAATTATTAGACTACAAAGGAGTTGGCATTAGTGTTCTTGAAATGAGTCACAG
GCCATCAGATTTTGCCAAGATTATTAACGATACAGAGAATCTTGTGCGGGAATTGCYAGCCRTTCCAGACAGCTRTAAGGTGATTTTTGTGCAAGGAAGT
GGRTCTGGCCAGTTCGGTGCTGTCCCCTTAAACCTGATTGGCTTGAAAGCAGGAAGATGTGCGGACTATGTGGTGACAGGGACTTGGTCAGCTAAGGCCG
CAGAAGAAGCCAAGAAGTTTGGGACTATAAATATCATTCACCCTAAACTTGRGAGTTATACAAAAATTCCAGATCCAAGCACCTGGAACCTCAACCCGGA
TGCCTCCTATGTGTATTATTGCGCAAATGAGGTGGTGCATGGTGTGGAGTTTGACTTTATACCCTATGTCAAGGKAGCAGTACTGGTTTGTGACATGTCC
TCAAACTTCCTGTCCAAGCCAGTGGATGTCCAAGTTTGGTGTGATTTTTGCTGGTGCCCAGACGAATGTTGGCTTTGCTGGGGTCACTGTGGTGATTGTC
TGTGATGACCTGCTGGGGTTTGCCCTCTGAGAGTGCCCCTTGGTCCTAGAATACGAGGTACAGGCTGGAAACAGCTCCTTGTACAACACGCCTCCATGTT
TCAGCATCTATGTCATGGGCTTGGTCCTGGAGTGGATTAAAAACAATGGAGGTGCCGCGGCCATGGAGAAGCTTAGCTCCATCAAATCTCAAATGATTTA
TGAGATTATTGATAATTCTCAAGGATTCTACGTATGTCCGGTGGAGCCCCAAAATAGAAGCAAGATGAATATTCCATTCTGCATTTGCAATGCCAAAGGA
GATGATGCTTTAGAAAAAAGACTTTTTGATAAAGCTCTTGAACTTAATATGTTGCCCTTGAAAGGGTATAGGTCTGTGGGAGGCATCCGGGCCTCTCTGT
ATAATGCTGTCACTATTGAAGATGTTCAGAAGCTGGCCGCCTTCATGAAAAATTTTTTGGAGATGCATCAGCTATGAACACATCCTAACCAGGATATACT
CTGTTCTTGAACAACATACAAAGTTTAAAGTAACTTGGGTATGGCTACAAAAAGTTAACAAACACAGTATTTTCCTCAAATGAACATGTTTATTGTAGAT
TCTTCTTTTTTGAAAGAACAACAGCAAAACATCTACAGCTCTGTAAAGCTGGTGGGAACTAATGTTCACCTTAATTCTGACTTGAACTGGAAGCATTTTA
AGAAATCTTCTCATTGCTTTTCTAACAAATTCCCGCTTGTTTAGCCTTTGCTGCTACTTTTTCTAGTTAGATTTCCAACTTGCCTGTGGACTTCATACTG
CAAGTTGCAATTAATTATTTCTAGAGTCATGGGAACACACAGCATAGAGGGTAGGTGGGGCCCTCTAGGTGCTGAATCTAAACATCTGTGGGGTCTCCTG
TGTTCAGAGGCTGTTGATTCAAGGTCAACATTGACCACTGGAGGAGTGGTTTAAGAGTACCAGGCAAAGGGCAAACTGAAGATTGATCATTATACTGTTA
TTACAAGAGAAGTGTCATACTTTATATATGTTTATATTAGCAAGGTCTGTTTTTAATACCATATACTTTATATTTCTATACTTTTATATTTCTAATAATA
CGGTTATCATTGATACATGTAGACACTTTTAGAATTTATTAAATCCTTGACCTTGTGCATTATAGCATTCCATTAGCAACAGTTGCACCCCCTCCCCAGT
CTTCCTCTTCCTCTTTTTAAGCTGTTTTATGAAAAACATCTCGAAGTTCTTGATTCATTTTTACCGTTCTTTCCATAGGTAGAAGAGAAAGTTGATTGGT
TGGTTGTTTTTCAATTATGCCATTAAACTAAACATTTCTGTTAAATTACCTTATCCTTTGTTCTCCTGACTGTTTTCTTTGTAATGTTTGACGATGAGAG
TGATACTTTGCTCAAAAGTCTTTCCCCTATTGTTTATCTATTGTCAGTATTTTATGTTGAATATGTGAAGAACATTAAAGTCCTAAAACATCTAAAAAAA
AAAAAAAGAATCACCTAGGATGGAATAAGATGGAAATGATAGCAATGAAAAATAAAGTTGCAGTTACAGAGTTTTGAGTTTTTCTACTTTAGATTACATT
ATGTACCTACTAATGAAGACTAAGAAGTTTATTTCAATATTAAAAACGTCTCCATAAATAATGAAATAGGAATGCCTGATAGTATAGCTAATAGTTAGCA
GGTAAGGATATTTTTATATGTTTACTTTTAAAAATCAAAATGAATATCTTAACTCAGTTTTGGTATCAAATGGCTCATTGCAGCCATTTAGATTCTTGAA
GGTAAATTTTACTCTGTGCTGATAGAAATTTTATGCATGATTTGCTGATAGTTTAAAAAAAAGCTGATTTTTTTTCTTGCATATGACAAAAGCAAAAAAT
ACAATAAAATGTCTTTGCATTTGTTAAAAGGCTGAGAAGAATTTAGAATGGCAATATTACTAAGAATACAGAGTCTATAATTATCACTTGCTAGTTCCAA
AATACAAATTTTTCTAGAGTTTTATTTGCAAATTATATTTCTCTGGATTCAAGAAATATGCAAGAGAATAGAAAAGAAGAATGAGGGAGAGAAAAAAGAG
GGAGGGAGAGAGAGTGAGAGAAAAAGAAAGAGAGAGTGGGGAGGAGGGGGAGGAGGACGAGTAGGGTGGAGGTAGAGGAGATGGTAACCAGGGAAAGCAC
AATGTCTCCTAATGCTACGCTCTGCTGTGGCTAAAAGATAAGAAAGACTAAGCAAAGAATTATTATGTAGTCTTAAAGAATTATTTCCAATGTACTTTGC
ATGTAACACATAACATCTAACTACTGTTAGTTGAAGGCTCGTATTCCTTCCTCTTCCCCTCCCTCTCTCGTATCACTTTCTCTTTCTCTTGGTTTCTCTT
TCTGTTCTTTGAATATTTCCATTTCCTTTTTTCTAATAGCATGCAGTCTATTCACCTGAATTACAATGTCATGCTGACTTAAGTCTTTTTGTTTCTTTAT
CTTTCAGAAAAAAATTCACTGTACTATAGAAAATCCAAATTAAAGTAAGAAATTCATGAGGCATTAGTGATTCTGATTCTTATCACCAATATATAGTGGA
CTCTTTTTAAGCTATGGAGGATCTTTTGAAGGACAGTGGAATATTTATCTTGCAGACAGATTGATAGTAGAACTGAAATAGTAATGAGGACAGTTTATAT
CAGAACAAGTACAATTAAATTTGGTTATAAAATTTGTAGGTTACATGGGAAATATTTCTTTCTTGTTAAAAGGTATATAGTATGTTAAGAACATTAAAAG
TTTCTTATTACAGCATTTCAGATTTGGGAGAAGATTAAAGAATATTGACATATCTAACTTTGAGAATCTAACTTTCATTTTCTTTTGAAATTCTTTCAGT
ATTACAGCACTCTTATGTTTATTATTTCCCTATGAAACATTTCTGAAACATCTGCTGAGTTTTAAATATTAAGAGATTTTAATATTACAAGAAATGTATG
GTATACTCTTGAGGTAACTTTAAGAGCTGCTTCTTATTACTAAATATTTGTAACTGTTATTATTTGTAGATATTAGTTCAAATATACAAAATATATGTCC
CCATGAATAAAATTAATACTTTCTATGTATTTGAAAATTACATTTTAAGTTATTTTTATGTAGCACATTTGCCAAATGCATTTCACTTACTATGTGCAGA
GAATAATTGAAAGTTGTTTGGTGGTGTTTTTATTCAGACATGATAAGTACAGAGAATAAATGTCATTCAAATTGTTTGATTCTTCCATTTTAACTTTGAG
TAGAAATTGAAGTTAAAATTTTTTTCTTGACAAACTGCAGCTAAAGTTCTTCAACTTATGCCTTTTGTTTGCAAACATTGAGGGAAATTGCCCATAAATG
TTCAGGTACCTGAATAAATTAAGACCTAATGTGCTTGAAGAAAGATGTTTTAAGAGTATCCTTTTGGGGTGATGTTCTCACCAATTTACATGCAAGAGTG
AATTTGTATCATTTAAACCAATTTTCAAAATGTTTGACAAAGACCAGCATTATCTTCTGCTCAGAAGCCTCCTCTAAAACTATTCACATTGTTCACAGAA
ATCAAACTGCTGAGTTTCCTTTAGCTCCTTTTAAGGGCTTTTGATCCTTATATGGATATAAGAACCTGTTTTGCATATACTGGTAGACAAAAAACATGAA
TATTAAGCCATTATTTTCACATTAGCAAGTTTTCCCAAGGTGGGTTTTTAACATTTTAAAGACATTTTGTTTTGTGTGTTACTCTCTTTTTGTCTAATCA
CCTCTAAAATTATGAACACTACAAGAATAATACATACTGAATAACAAAACAGCTTGAAATATTTATAACTAAGAAAGCAACTGTTAAATGTTCATAAACA
AAGTTGTTTGGAGACTCCTTTATTAATTTTTAATTTATCTTCAGTCAATTTCTTATTACTTCCAAATTCCTGCAGGGGATTCTGTTAATTAGTCTTGTGT
AAAATATTCATTAAAACCAGCTTTCTATTTTCTTCTTTTATTGCAAATTTACATTTCTAATCTTATAACCAAAATAAATGCCACTGGGTAGAGGAACCAT
ATTAATTTGGATCAGCCACCAAAAATAGAARCTCATACAGCAAAAGATATGGTAATATAAAATAGACTAACATTGAGGTACTTTGTTGATTGATCACCAT
TTTGCAATAGCAGATGGATATCTAGTCCTTGTTTGAAAAAATATCAACACTACGTAAAATAGAGTGTATTTGAAATCTAGTAATCTAAGATGAAGTAATA
ATGAATTGGTACCTGTATACTTTTGCACATTAAAAACATTTCAGAAACAACATATAGTTTAGTTAGGGATTCAAATTTAATCAACAGCGACAATGTTGAC
ATTAAATTTAAATCATTGGGTAGCAAAAGTTTTACTGAGTTTTTTCAGTTGTTATTTGTTTTAAAATATTTTACTTGTCTTTCCTTACTATGCATTATGT
AGTTTTGATTCTGTGCTGCAAATAGCAAAGTAGTATAGGAAATGGAACATCAATGTGAGTTTAGCATTACTAATATAGCTGTTGACTTTCCCTCTAACAT
AGTGTATGTTAGTAGAACATTCATACAAACATCTCTAAAAGAAATATATGTCAGCATTGTAAGAAAAGTTTGCAATGCCAGGCATAATATTTTCAGAGTG
AAATTCTTGGTTTCGTTGAAAACTCTTAGACTTCTAAGGGTTTGGATACATCTTAGAAATATGAGTTTGGCTACATCTTAGAAGTCTAAGAGTTTGGATA
GACCTTAGAATTATCTTAACATAACTCATCTCTTCTTAAAGTCTATGTCCAAATTTTAAGTCTTCAGTCATTAATTAAAATATGTAAAATATAACTACCA
GATTAGAAAGTTTACTAAAATAAAATAATATTATTTACTGGAAAAAGTGGGGAAAAATGTATTTTATAGGAAGAAAAATGTAATTACACTCAAACAAATA
GAGCACATTTTGTTTACTCTTATGCGGAGTGATAAATTTATTGCCAAATTAAAGTCCTCATGAGTGACAACACATTTACAGCATAGAAACATTTAGTAAC
AGTAAGCACAGGTCTCAAGGTTCTAACTCTGTCTTCTGAGATTAAGTCAAAAAGGAGGCAAAGATTTAGGTAGCACATACTGCTTCAATAACAAAACCAA
CTGAACAGGATGTTTAGAATTATACATATCAACATTAAAAATATATTTGTTTAATAAACAGAAAACCTAATAGAAGACTGAATTTTGGGAAGACAAAATG
GCAATATTGAACCAGATCTCTAAGTAATAGATGGAAATATATTCCAAGAAATAGTTAATTGTAGTACCCAATGGCCAATCATTACAGTCCACGTGCCAGG
TTAATTTTACCTATCAGTCAACACTCTTTTGAAATAGTTATTCTCCTAAAATCCCACCTAACCTGATTATTATCTAGCCTGCATTGACTTCTACATCTTG
AACACAAAAATATTGTCATTCCATAGTAACATACACATCTAAAGTAATCTAACTTATCTACCAGTCTAACATTGTAATAATTTTTTAAATGTTGACTTAA
CATGCCTTGCTGGCAAAGAATTTATACTTGCTCTCCACACGTTGGCAGTCATGATTGCACAGCTGCATGATTTTTGAGTCTTGAAGCAGTCCAATTATCA
AGTATTCCCTAACTTATATAAAGCCCTTTACCATATCTTAGAATCTCTTCTTTGTTTGAGTCTATAATTTCCCTTGATCATGTACTCTGTTTCTAGTTTG
AAAATCATCCTTGGCCGCGCATGGTGGCTCACACCTGTAATCCTAGCATTTTGGAAGGCCGAGGCGGATGAATCACGAGGTCAGGATATCGAGACCATCC
TGGCTAACACAGTGAAACCCTGTCTCCACTAACAAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGA
ATGGCGTTAACCCAGGAGGCGGAGCTTGCAGTGAACCAAGATCGTGTCACTGCGCTCCAGCCTGGGCAACAGAGGGAGACTCTGTTTCAAAAAAAAAAAA
AAAAAAAATCATCCTCATGTCTTAGATGGTGGAGTGAGCAGTAACAAAAGAAGATGGAATTCAATCCTCTCTTTTACAGGTGAGGACTTTGAGGTCAAGC
ACACGTATACTCAGTGAACTGAGGGTCAGCTGGACTTGGAGCCACTTCACATGCTCATTCTCCATTAAAAAATAATTGAAAGTAAAAAAAGAGGTTGGAC
AGTGTGTATGAGTGAGTGTTCTATGAGAAGAAAAATAAAAACACGTGGGTGTTTAAGTTCTACCTCAACCCTTACCCTGAGGCAAATGTTTAAAGTTTCC
TCATCTGAAAAAGGCAAAATAATTTCCTGCTTTGTTTCCACAGTGCTGTGAGGCCCCAATAATACATACATAAGCATACTCTAGTATATCAGGATAAGTT
ATAATAATATAGTCAATTACACCATCTGTCCCTTGTTCTATGAGTTTTTCAAAATAGTCAACATAGCCCATCGTGTTGCTGAACTTCTCAGTTACTGAAA
CTCCTCAGATAGTTATTTTTCTAAACTTTATTTCAGACAAGATATAATGAGTTTTTGTATAACCACTAATGTTTTTTCCCTAACATGTCTTTGTTTTACG
CTCAGTATTTAAAAAGAGTTTTTTAAAAAACATGTGCATGTGTGTTTTACAGGAATATTGACCAGTTTAGTTTCATGTAGAATTGGGATGATAGCTTTCC
CAAAGAATCAATAACAACACTGTCTCAGAAATGTAAGAATTATTTTTTTTTTCTGAAAATATCCTCAACTGTATCTGAAAAACACTTTCAAATTCAATCT
GTGGTTCCTTTTTGGATACATCTCCCCACAACCAGAGAGTTTCCCATTTAAAATATTGCCATATGCAGCAGGCTCTTGCTCCTGAAAAGATTGTGTTTCA
TCTTTACCAAAATATATTCTTCATTTATTTTGAAACAAAGAAACTGTGAGCAAAGGCAGTGTCTTTTAATAAAGAACATCTAAATTTTACACTATTCTAA
AAATGTTTTCTCTCCCATCTTTCAATAGCTAATAGGAAGCTGAGTATTTTGAAAACAAAACAAAACCAAACAAAATGGCACAATGTAACTTGGGGAAATC
ATAAAATATATTTTGTTTTACTGTATGCACTATGAAAATCAAAGCAAACTACAGTTATTATTATGAATATATCTGGTTGTTCCAATAGATTTACATGAAA
TAGTTGCTCATAAAGTTATATCTCAACAGTTTCAAAAGTATCTGCTATCTTAAATATTTTTAAGGAAACGATTAGTGATCAAATGCATGTAAAAATTATT
AAAAGGGCAGTTTTTATTAAGATATTATTCATTTGTTTCTGTTTTTATATTTGTAAAGAATTAGCAATTATATACACTACACTAAAACATACTC


SNP Information

Context             (SEQ ID NO:14893):
ATTAGTGTTCTTGAAATGAGTCACAGGCCATCAGATTTTGCCAAGATTATTAACGATACAGAGAATCTTGTGCGGGAATTGCCAGCCGTTCCAGACAGCT
R
TAAGGTGATTTTTGTGCAAGGAAGTGGGTCTGGCCAGTTCGGTGCTGTCCCCTTAAACCTGATTGGCTTGAAAGCAGGAAGATGTGCGGACTATGTGGTG
Celera SNP ID:            hCV25951709
SNP Position Genomic:     6275
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,38)   total(A,69|G,7)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,30)   total(A,63|G,3)   
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:14894):
TCTTCTTTTATTGCAAATTTACATTTCTAATCTTATAACCAAAATAAATGCCACTGGGTAGAGGAACCATATTAATTTGGATCAGCCACCAAAAATAGAA
R
CTCATACAGCAAAAGATATGGTAATATAAAATAGACTAACATTGAGGTACTTTGTTGATTGATCACCATTTTGCAATAGCAGATGGATATCTAGTCCTTG
Celera SNP ID:            hCV1756200
SNP Position Genomic:     10831
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 hmCS


Context             (SEQ ID NO:14895):
CAAAGGAGTTGGCATTAGTGTTCTTGAAATGAGTCACAGGCCATCAGATTTTGCCAAGATTATTAACGATACAGAGAATCTTGTGCGGGAATTGCCAGCC
R
TTCCAGACAGCTATAAGGTGATTTTTGTGCAAGGAAGTGGGTCTGGCCAGTTCGGTGCTGTCCCCTTAAACCTGATTGGCTTGAAAGCAGGAAGATGTGC
Celera SNP ID:            hCV25951671
SNP Position Genomic:     6262
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,9|G,27)   total(A,10|G,64)
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:14896):
TCACGTGTTCGGTCCTCCTTAGCTGACTCGCCGCCCTCGCTGCCGCACCATGGACGCCCCGAGGCACGTGGTCAACTTCGGGCCTGGTCCCGCCAAGCTG
Y
CTCACTCAGTGTTGTTAGAGATAAAAAAGGAATTATTAGACTACAAAGGAGTTGGCATTAGTGTTCTTGAAATGAGTCACAGGCCATCAGATTTTGCCAA
Celera SNP ID:            hCV25953292
SNP Position Genomic:     6118
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,34)   total(C,67|T,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14897):
CATCAGATTTTGCCAAGATTATTAACGATACAGAGAATCTTGTGCGGGAATTGCCAGCCGTTCCAGACAGCTATAAGGTGATTTTTGTGCAAGGAAGTGG
R
TCTGGCCAGTTCGGTGCTGTCCCCTTAAACCTGATTGGCTTGAAAGCAGGAAGATGTGCGGACTATGTGGTGACAGGGACTTGGTCAGCTAAGGCCGCAG
Celera SNP ID:            hCV25952234
SNP Position Genomic:     6303
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,16)   total(A,1|G,45)   
SNP Type:                 SILENT MUTATION;UTR 5;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,36)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;UTR 5;TFBS


Context             (SEQ ID NO:14898):
CCAAGCACCTGGAACCTCAACCCGGATGCCTCCTATGTGTATTATTGCGCAAATGAGGTGGTGCATGGTGTGGAGTTTGACTTTATACCCTATGTCAAGG
K
AGCAGTACTGGTTTGTGACATGTCCTCAAACTTCCTGTCCAAGCCAGTGGATGTCCAAGTTTGGTGTGATTTTTGCTGGTGCCCAGACGAATGTTGGCTT
Celera SNP ID:            hCV25953562
SNP Position Genomic:     6575
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,38)   total(G,73|T,3)
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:14899):
GGAAGATGTGCGGACTATGTGGTGACAGGGACTTGGTCAGCTAAGGCCGCAGAAGAAGCCAAGAAGTTTGGGACTATAAATATCATTCACCCTAAACTTG
R
GAGTTATACAAAAATTCCAGATCCAAGCACCTGGAACCTCAACCCGGATGCCTCCTATGTGTATTATTGCGCAAATGAGGTGGTGCATGGTGTGGAGTTT
Celera SNP ID:            hCV25951926
SNP Position Genomic:     6452
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(A,12|G,26)   total(A,16|G,60)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:14900):
CATTCTGTTGGTTGTCTGTTTATTCTGTTGACTATTTTTTTATGTGCAAAAGTTTAGTTTAATTAGATCTCATTTGTCCATTTTTATTGTTGCATTTGCC
K
TTAGCCTTAGTCATAAATTCTTTGCCTAGGCCAATATCTAGAAGAGTTCTTCTTAGATTTTCTTCTAGCGATTGCATAGTTTCAGGTCTTATATTTACAT
Celera SNP ID:            hCV26464028
SNP Position Genomic:     1145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:14901):
GACTACAAAGGAGTTGGCATTAGTGTTCTTGAAATGAGTCACAGGCCATCAGATTTTGCCAAGATTATTAACGATACAGAGAATCTTGTGCGGGAATTGC
Y
AGCCGTTCCAGACAGCTATAAGGTGATTTTTGTGCAAGGAAGTGGGTCTGGCCAGTTCGGTGCTGTCCCCTTAAACCTGATTGGCTTGAAAGCAGGAAGA
Celera SNP ID:            hCV1756199
SNP Position Genomic:     6257
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,27)   caucasian(C,13|T,25)   total(C,24|T,52)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Gene Number:                 16
Celera Gene:                 hCG1641222 - 209000105725204
Gene Symbol:                 SERPINA11
Protein Name:                serine proteinase inhibitor A11;GCET1
Celera Genomic Axis:         GA_x5YUV32W0QP(41713237..41757159)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12176):
GGATAGTAATACTGATCTTTCAGGGTCTTGGGAGAATTCAATGCTATAGGTTACACGAACCCACTTGGCATCTGCTGGGCATGCATCCATAGAGTATTGG
CTTTTAGAGGCCTCCAGAGCAGGAAGGGTAGTCCACTGGGTGGGCTTCCATGAAGATTGAATGTCCTTCCAGCACAGACAGCTTTTCCGTAGCTGTTTTC
TTCACCATGATGTGAACAGAGGAATCACAGATTCCTGGGCAAGGCAGAAAAAGGGGCTCTCCAGGATGAAGATCCCTGCTGGGGCAGGAATCTCATGTGT
CCCATGATGTTGAAATAATGACCCCTTGCCAAAAAACAAAAAAAAAACAAAACCCTAGACTAATTAACAGACAGACAAAATTCCTCAAGGCTTGGGGTCC
TGTCTGGTTCTATCTCCCTTCCCTATCTCTACCCTCAGCTTGGTTCAGATTCCTAGAAGTCAGGGGATCACACTGGGCAGGCTAGGAAATGAACAATGTT
GCAGCAGAAAGGGTGGCAGGGAGCTGCACTTCCTGAAACAGATCCATGGTGAGGACTGTGGAACTCAGCTGGGGAGGCTTCTTGACAATCCGAAGGGTAC
CCTCTAGCTAAGATGGCACTCCAAGAGTAGCCTTGAGGTACCCAATCTGCTCCACTGTTAGGAGAAACAATGGGTGAAATATTAAAACAAGTATTGAAAT
AGAAAAGTATAAAGATGTAGCCAGATTTTTTAAATAGTATGAGTATCTCCAATAAACCAGAAGTGGAGCAGAAGCATAAGAATGTGTGAGGCAGGCAAGA
GATCCTGTAGCCAGAGTCCTAAGAGGATCCCAGAAAGGCCTGGACATAGCAGGAGAGGCTCCATGGAGGAGTATGGACTTGGGAGAAGGCTCCATCTTGA
TGGGCCCATGGGGATCTACTCCTGGCTGGTTGCTACTCCAGCAGGCTTGGTTTTATGAATTTGGGGAGAAATGGGTCTTTACTTTCAAGGTGGCCCTGAG
GCCCCAGGAACTGAGGACCTCAGAGCTAGAGGAAACCCTGAAGAGCTTCTCTCTGGGGCAAGGACAGAAGGTGGGGTGAAGGGTAGGAAGAGGAAGCACA
CAGCCCTCCCCACTCTCAAGTCTTCTCATCTTTCCCTGGAAAATCTGATTAGGTAGTTCTGCATGGGACCTGGAAATTTGCATTTTAATGAGAGCCCAAT
TACGCTTGGTAAGTTCCATACTTCTTTAGGCTGCCTCTCTGTGTTTTACCAACTATGAGTCTCTACAAAAGTCCCTGGGTGTGGATGAGCCAATAGTGCC
TGGTCCTCAGGATTCCCAACATCCCTCCCACTTTCTCCTTCCCATGCAATCTGCTACCTCTCTATTACTTACTGATCATAGTCCCGACTCTGGAGGATGC
CTCACAAAGTCCAGACTGTCTAATCAGGGAGACCGACATATAAGAAGATAAACTGCCCTGGTTTGCTCCAGGTGTTTGTAAAGGGAGGGGCAGACTTTCT
GTGGGATCTAGAGAAGACTTTGTGCAGTGGGTGATTTTGAGCTGGAGCTGGCAGGATGGGAAGGAGTGTGTCAGGCAAAGAGAATGAGATAGGTAGTCCA
AGCCAACTGAGATATGTGTGTAATCATAGAGAGTAGAGGAAGAAACAGCAGGGTGGCATTCATTTCAACTTATTGTATTTTGATTTTTATTTAGGTATAG
TTCACATAAAGTACACAAATATTTCTGCCCACTATTTCTTCAAATTTTTCTGTTCTCCACTGTCCCTCACTTTTTTTTGCCTAGGACTCCAATTACACAT
ATGTTAGACCATTGATGTTGTCCCACAAGTCACTGGGACTTGTTTTTTATTATTATTATTTTCCAGCTTGCTGTCTTCAGTTTGAATAGTTCCTATTGAT
ATGTTTTCAAGATCACAGATCTTTTCTTCTATAGTACTAAATTTGCTGTTAAACCCAGCCAGTGAATTTTTCATTTCAGATATTAAGTTTTTCATCTCTA
GAAGTTTGATTTTTCCCACATTACAGTAACATTTTTATTATTTAAGCATATTTTAAGTAACTGTTTTAAAGTCCTTGTCTACAAATTCCTTAATCTCTAT
TATGTCTGAGCCTGTTTATATTGCTTAATTTTTCTTCTGGTCATGGGTCACATTTTCCTAGTCCTAGAAGGTCTAGCAATTTTTAATTGGATGCTGGACA
TCATAATATTACAATTTTGTTGTCTTCCTTTACAGTGTTTGACATTTGTTTTAACAGGCAATACGTTACTTACAGATCTGTTTGAGCTTGTCAAGGCATG
TTTTTAAACTTTGTTAGGGTGGGTCTAGTGCAGCTTTAATTCAAAGTTAGTTTAGCCCTAATGCCAAGATGTGACACTTCTGGGTCTCTACTGAATGTTC
CAGGTCTCTCCACTTTGGGTGCATAACCTTAATATATCCTATGCTTTGTGAACTCTGGAAATTATTTTGCTTATACCTTCACAGTAGGTTTATTTTTTCG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGACCAGCCATGTGGAATTTCACTTTATGCATGCAGAGCTTAGTACTTAGCTTTGGACTTA
AAGAGACCCCTATGAACATTTCTAAAGCTCTCCTCTAGTACTTCACTGCACAAATTATAGCTTCCTCAGTTTTCTCAAACTCTAATGTCTGTCTCCTAAG
CTCAGCAAGCCTCCCATGCCCTCCTTGGGTTTTCTTCCACACGTCCAGAAAGTATCCTTAGGCAGAAAATTGGGACAATTGTAGAGCTTATCTCATTTTT
TACCTTCCCTGCCTGTTCTCTAATGTCTGAATTGTTATATGTATTTTTCGAGTATCTCAATAGTGTCATAAATTTTGTCTAGTTTTCTGTTTACAACAGT
TTGCAACCAATATCAGTTACTTTGTTTTGGCCAAAAGTGTAAGTCAACTCAAACTTTACATATATACCTGTGTAACTTTACCTTAAGTAGCTACAGGACT
TTCCATCACCCTGAGTTCCCCTTGCTTATTACCAGTCAGGATTACTCTTCAAAGATAAATGGATTATTTCATTTTATTTCAATTCATTTATTCTTTTAGC
AACCACTTACTGAACCATGAGTATTGGCCAAAGAGTGGGTGCACAAGTAGACAAAATTAAGGTAGACAGGATCCCTGATTCATGAATTGTTCAGTCACAC
AAATAAATGTGAAACTATGACAGTGATAAGTGTTTCACTGAGAAGTTGATGGTACTATAAAAATAGCTGCTGGGAGAAAGTTTTCTTATTTCAGTGGTCA
AAGAGAGTTTCCTTGAGGAAATCACACAAACTAGGGCCTAAATAATGAATAAAAATTAATTAGGGGAAAAGTCAGATGAAGAGAGTTGGAAGGATATTCC
AGGAGTAGGAAACAACAAATATCACATGTGAGCATAAAAAAAAAATCAGCAGAATGGGCTAACATGGATGTCAAGGGCAAGGGGCTTCATGATCTGTGAT
GAACTTAGAGGAGCCCGCAGAGGCCAGGCAATGCAAGTTAAGACTTCAGTGTTTACTTTGGGAAACGGGAGGCAATTGAGACATTTTAAATACTAAGTGA
CACAGTCAGGTTTGAGTTTTAAAAGACTATTCTAGCTGTCATGTGCAGAGTGAATTGGAGGAGCAGGACAGGGTATGCAGAGAGAGCTGTTAGGAAGCTC
TGTGGTAGCCCAGGCAAGACACAATGACAGCCCAACTAGCCTGCTAGAGTGGAGGCAGAGAAAAGTGGATGGACTTGAGCAACATTCAGGAGGTAAAGTT
GACAAAACTGGGCATAAGTTGACATGAAGAAGAAGGAAGTGCAAGGATGCCCCTCCTAGGCTCAACTAACCAGGTGAATGGTGGACCCAGTGACAGAAAT
GTTGAAAAGAGGTTTCGGTTGTGGCTGTTGCTGGGAGATGGTTCTTGGGAAGGAGTCTGAGTTCACTGTGGTTCATATTGCATGTAAGGTTTATTTGCAA
CATCAGGAGGAGATATCAAGTAGGAAGTTAGACATGTAGAGATCAGAGGAAAGGATTGAGCTGGAGAATAAAAATAATATATCATTTGCATGTCTAGCTG
GAGAATAAAAATAATATATCATTTGCATGTCTTAGTAATGAAGTCATGGGTGTCGTGGCATGAGATCAGCTGGAGGGAGAGGAGAGATTAAAGTGAGGAG
AGAGCTACAACCAAGTAAGCAAGTGTCAGGGCTCACCAACCATGCAAGGACAGGGCAGGAGAAGAGGAACCTGCAAAGGTGGGTAAGGAGGAGGTGCAGA
GAGATCGGGAATGTGGTGTCACTGAGCCAGAGGGAAGGACTGGATCAGAGCATGGTCTTCAGTGTCAAATGCAGCTGGGAAGTCAAATAAGATGAGAACC
TAGACACATTAGTTGGCTTTTAGTAGCATCTGGGTCACATTTTTGTGGATACAGAAGCCAGGCTGGAGTGGACCAGTGAGTGAGTTGGAGGTAAGGCCAC
AGAGACCATGAATACACAGCTCTTGAAAATTTGGGCCACAAGGGGAGGAGTATTGAAATAGGGCAGCTGCTAGAAGCAAATGAGAGGGTGAAAGGAGTGT
TTTTGTTGTTGTGTCGTTGTTGGTTTCTTTGTCTTAACGAGCAAGACTTGAACAGTTTCCAAACTAACAGCAAGGATCAGCTTGAGAGGGAGTGTTTAAG
TGCAGAAAAGAGAGGTGGAAGGGTCCTGAGATGGAGAGAAGAGATACTTTCTAAGGCCCAGGAAGGGGGACTGGACCTCAAAGGAGGGCCGATCCTCTGC
TTTATTGGTGGAGTGGAGGTGTAGGGGAGAGAGAGGGGCGACTGGGAAAGTAGGGATAGGCAGAGAGGATGCCCTTTGAGGGAAGTTGAGACAATTCCTT
TTCATAGGATCTCTCTTTTATGTGAGATAGGAGGCAAGGTTGTCTGCTCAGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTGTGTGTGCACATGT
AGGCACACATGCATATGTAGCACACATGTAGCAGGGTGGGCATCCATTCCACCCTGGAATAAAAAGGTTAAGGACATGGAAAAGGTGAAGCTTTTCCCTG
AAAATGGGAGAGTGAGCTGATGAGTTACATGTTGCCGGGTGGATAAAGGCTGGTGGTTGGGAACCCACAGTGGACGAGGCTGCCTTGCAGAACCCCTCTT
CCAGCAGCACTTGGCAGGGAAGGAGCAGACAGGTAGGTTCTACCACACATGGAGCCTTGCCACAGGGCTGGGACATGAAGACACAGGCCTGGGGGTGAAG
CACAGTAGATTAAAATGAAGCCCTTGACACCCAAGCTGGATAAAGAGGCAAACGAAGATAGGGGATGGGGTGGAATTGAGGAATGCAAACAGCTGGGTCC
TCAAAGATGCAGCTGGGGAGGTGAGTCAGGGCCCAATAAATAAAGCTCTTGAATGTCAGGGGCTTGAGCATTTTTTCTGAGCTCAATGGGGAGCCATTGA
GGAATTCGAGGYGAGGTGAGTGATACACCAGATCAGCATCTGGAAAGGTCACCCTGTCTGCAGGGTGGAGGAGCGCTTGGAGATGGGAGTGAGTGAGAGA
CAATGGAAGGTGGAATGCAGGCTGTGGTAGCTGGGAGGGAGAGGTCCAGAAGAGGCAAGCCCTGGGGACGGCAGAGTGTCCCTGTCACCCCAACGAGCAG
TGCCCCCTGGCCGAACGCTCACATAAACCCGGGCCACAGCCAAAAGAGGGGCAAGGGCCTTGGCAGGGCTGGGAGAGAGAAGGGGTGGCCACAGGAGGAC
AGGAGTTCAGGGTGGGGAGAAGCAAAGTGGGGAGTGTGGTGGATTTTAAGAGCTGACTGAATGAGCTTTGGMCACGGTTTTCCCCCAAGAGAGCAATGAC
CTGGGGGCCCTCAGACATAGATCCCAGACTCAGAAGAGAGGGCCTTTTGAGACCACCTCTTCCTGAAGTCTTGTGAAAAGCAGAGACTTACCTGAAGTCA
CATGGAGGCCAGTACCATCGATGACTCRGGACAYTTACTAGCCAACTCCCCGACTTCAGGTGGGTCTCCCYTACTCAACCCAAGCCCAAAAGAAACAAGA
CTTGGGGCGTGGAGGCCGCGTCTAATAGGCCACCTCTGCTGATGGGAATGCRGATTCTTTAGGAGGCACAACCCAGCRTCAGTGGGGGCCCCCTGAGAGC
CACCTRCCCCACTGCCAGCCTCCACAGAAAGGGGCACAGACCCCTGGTGCTTGTGGCATCCTGGCGCCTGGCAGCACCCGCTTCCCCTCCATGTGGCTGA
TGTCCTCTTCCTTCAACCTGGTCTCCTCTCCCATGGTCATGAATAGCCAGGGACAATCCTATTCCTTCACCCTGATTCCAAGGGAGGGACACAAAATCAT
AAGAGCCACAAGAGAGATGCAGCTTTGGTCTCCTGCCCACCATGGGCTGGATGCCGCACTGGGCGTTCTGCAGACGTTGTCTCGCCCTTCCTCAGAACTG
CCCTCCTTACAGATCAGGGTTGACGCAATTCAGAAGATGAAGCAATTCGAGGACAATGCTGTTCTCTAAACAGAAAGTACTGCTCTGAGGTTAGGAGGGG
AACCATGATCTTGCTTAGGCTCTGACTTCTGAGTGGCCGTCAAGATCAAGTGCTGCCACTTCACCATTGAGGCTAGAGGGCCTGCAGACCCCAAGTTAAC
ACAGTAGACCCCAGCTTGTCACAGGGAAGCCTGCAGATGCCACACTCTTACACGGCGTCCTGAAGAGCCCCAGTCTGTCACAGAGCTCATCAAATAAGAG
AAACTCAGGGTTTCAGTCTTATATTCCAGGAGGCCTCCTTCATTTCACCTCCCTGGTTTTTTGTTGTTGTTGCTTTTTTTTTTTTTTTTTTTTTGAGACA
GAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCCTGATCTCGACTCACTGCAACTTCCGCCTCCCGGGTTCAAGTGATTCTCCTGTCTCAGCCTC
CGGAGTAGCTGGGACTAGAGGTGCCCGCCACCAAGCCTGGCTAACTTTTGCATTTTTAGTAGAGATGGGGTTTTGCCACGTTGGCCAGGCTGGTCTGGAA
CTCCTGATCTCAGGTGATCCACCTGCCTCGAAAGTGCTAGGATTACAGGCGTGAGCCACCGCGCCCAGCCACCACCCCAGTTCTGAGGCTGGTGTWAATG
CTTCTCCATCTCAGGGCAGCMCACCAAGTGTCTACTGAGCCCATACATTGGGCACTTTTCCGTGCTGGTGGGGGAAGGGGGAAGGAGGACAGGAAGCAGG
TGTGTAGAGCAATGAGGAACACAGACAGGTGCAGGGATAGTCTTGAGAATTCTCTGCTGCTGAGGTTCTCTGCAGCCATCCCCCAGTGGGTTCCAGGGCA
CAGAACCAAGTCCGCACATCCCTGCATGGGGCCCCCTCTCTCGGCAGCTGGTCTCTCCTGCTCCCCAGCCCTTCCTGCCGGCTTCTGTGGTGCTGAAATC
TGTGTCAGAACCTTTTCTGTTCCTCAAAGCTGCCTGGCTCTGGTTCCCTCTGGGCCCTTGCACAGGTGGTCCTCCCAGCCTGAATCTCTCTCTTCTCTGC
TTTTCCCTTTTACCTTGCTAACATTTTTCAAGTTTCAATCAGCTGCCACTTCCACTGGAAGCCTTTCTTGTTATGGAATAGGTGTTCCCAATGCCTGTAC
TTACTCATCACACACACACACTTCTTGTGTCTAGTGGTGTTTGCTAATTGTCTGTCTTCCCAGTGGGCTCCTTAAGAACAAGGACCCTGTCTCTCTGTCC
CTCATTGTAGCCCCAACACCTCCTATAGTACCTGCATAATAAGCGTACATGTTCAACCCAATGGACCAAATGCATAAATTACACATTCAAAGAACCTAGA
GATTATCTAAAGGCAYGCGTGTGGTCAGTGATAATCCATTTGGTAATAGAAGTCGAGTAAATTTCAGAAGTGCCAGAAGAGAGAAGGGAGAGAGTGATGA
AGTCACAACAGGAGAGGGGAGCCAGGGAGGGCCTCTCAAGCCGGTAATAGCTAAGTAGAGTCTTCCAGAGTGAGAAACAAGGGCTTTTCCATTAGCAAAG
GAAGGTGGCATCCAGGAGGGGCATTTGTAGCAGAGTATGCTATGCCTGAGCAAGGGGTAGGTGAGTGGGAAGAGAAGGGAGGGAGGTGGACCCTGGGCTG
TTGCTAYTGGTGTTGACTGCAGAGGCTGCAGATAAATTCACTGGCCAGCAGTGGGGCCGAAGAGAGGGGAAGCAGTCAACTCTCAAGGCCACATGTCATA
GGGTTCCCAGAGAACTCTTTAAGAGCCAGGACCCTGGCTATCTGTCCCCCATTGTAGCCCCAACACTTCTATCTCCCAGTAGATCGTCTCTGTGCAGAGT
CAAATTGGTGAAGTTTCTTAAGAAAAACGTTTTGAGGAAGCATGACCAGAGGAGGGAGATGAGTCCAGAAGCCTTCAGGATTGTCCAGGGGAGAGATAAG
GAGGGTTTGGACCAAGGGAAAAGCAAAGAGATGGAGAGAAGCTGGGGCTTGCGATGTCTCGGGGAGGAAGAACGATGTGGGGAAGGAGGGTGGCCGAAGA
GTGCAGAGTGGCCATCAGTCTCCTGACTTGGAAGATGGCAGCATGGGTAAAATGGCCTTCTTGGAGAAAGGGAGAGATGGGGCACTCAGGGTGGGGGCAG
CTCTGGAGGTCAGTTCAGAACAGGTTGGCAAAGAGTCCAGTAGGTGGATGGATGGATGCGAATGTAACTTAGAAAGAAAATTCCACTTTAGTCAAACAGG
CAAATACAAAACTACACAACAGAAATCGCCAATCACATAAGTGGAAATGGAGAGAAATGAACAGKTTTGCAAAAGAATTACTCATTCAGTAAAAGGGTTC
TTTATAAAGTTCCATCTAAGTTAAATTATATCTGGTATAATAAAATGTGATTCATTTACATATTTCATTTCCACAGAGAAATTGTTGGGAATGTGGCTGT
CACATTATGCTTGGTCTGACATAGACAAGTGACTATGTGTGGCAATATTTTTGTCGCTTTTGGCAAAGGTTCTCTTATCTTTTCCTTCTCCATTTCTGGC
AAAATAATTGTTCACTTATTGACTGAATTCTTGTTCCAGTGGGTAAAGTCTTTCCTTCACAATCAGGAGTAACACTTCATGCCGGTGCTCCTAGGAGAAG
AGTTGGTGGCAGCCATTCACACTGTAGTATAAATGACTAAAGAGCAAAGTCTGATGAAGGGCAAGGGGGATTATGAAGGCACTGTGCTTGTGAAAAGGAT
GATGGGGGGAAGGACATCCAGGTCATGGGGGGGAAATTATAAAATTTGTGAGRAGAGAAAAGCCTTCAGACGGATGTGACCTATTGGAGCACACACCTGC
TTTGCTTTCCCCTCTGGCTGAGCACAGACCTCCCCTGGCCTTGCATTGGATTCATACACCTTCCTTCTCTAAAATGACCACTTACTGTTGTATCTCAGGG
TCAAYGCACAGGGTTGGAGCTCCTCTGTAAAGTTGTGTTAAAGGAAATGAAATCTTTCTGATGAAACTGAACAGGTGAGGGTGCTGTAGGCAGGGCTGGG
GAGACCTGTGAGCAGTACTTGATAGAGTTGCTCCAATCAAATTCTCTCTGACTTCAACAAAACAACAGTAAAAGTAATGTATTCAGCGCTCACCATGTGC
TGGGTCCCGTGCTGCACAATTTGTGCCTTATCACACTCAGTCCTCTGAACAACTCTGTAAGGTAACTATCTCTGTTTTACAAAGGCRAAACAGAGAAGTC
CAGAGAGGTTACTTGTCCACCACGAATGTCAGGGTTAGATTCAAGCCCAGCCCTGTTGGGGTTTGAAATTGCTATCAGGTCATTTAGTCTGAAGTCTCCT
TGGGGCCAAAGCCATGTCAGCTGAGGCTTGAAGGGGAAGCAGACAGATGTGACTAGAACTGCARCTCATCAGCAACTGACTGCCAGTGCTCAGGGCACCT
GAMGGAGCACAGCAAAAAGGACAGCCTTTTGCTCCAGGTTTCCACTTTTTGAGAGATATGAACACATTAGTAAAATGCCTGTGTCTGGGAACAGGCAGCC
AGGGTGAGAAAATAATCAGATCTACACAAAATGGATAAAGAATGTGTGGAGGGACCTCCAAAGGGTGAGAAACCACTTCTGGCTGCTAATGCAATCTGGG
TTCACATACTCAATTCTTAAAAAATAAGTCCATGAAGCAGAAACATCAAAAAGCATGGGATTTGGAATTTGAGACCTGACTTTGAAGCCCACACAGAACA
CAGACAAGTCAAYCATGCTATTTGGGGTAAGTTGCACAGACTCTCTGTGGCCTGTTTACTCATTTGCAAGTAAAACAGCAATAATAAGATCTACATCAWG
GGAATATTGTGAGGCTCAGAGATTATGTGAGAGAGCTCTGCTAACTGGCCTATCTGTCCTCATTCTGCTGCTGATGGCGTGGGGGTGTTAAAGGGTCTCT
GATTCAGGGCCTGGACCCTCAGTTTACCMCCTCAATGGTTCTTACTTCTCTTGCAGACATATTTTGTTCCAAAATGGCATCTTACCTTTATGGAGTACTC
TTTGCTGTTGGCCTCTGTGCTCCAATCTACTGTGTGTCCCCGGYCAATGCCCCCAGTGCATACCCCCGCCCTTCCTCCACAAAGAGCAYCCCTGCCTCAC
AGGTGTATTCCCTCAACACCGACTTTGCCTTCCGCCTATACCGCAGGCTGGTTTTGGAGACCCCGRGTCAGAACATCTTCTTCTCCCCTGTGAGTGTCTC
CACTTCCCTGGCCATGCTCTCCCTTGGGGCCCACTCAGTCACCAAGACCSAGATTCTCCAGGGCCTGGGCTTCAACCTCACACACACACCAGAGTCTGCC
ATCCACCAGGGCTTCCAGCACCTGGTTCACTCACTGACTGTTCYCAGCAAAGACCTGACCTTGAAGATGGGAAGTGCCCTCTTCGTCMAGAAGGAGCTGC
AGCTGCAGGCAAATTTCTTGGGCAATGTCAAGAGGCTGTATGAAGCAGAAGTCTTTTCTACAGATTTCTCCAACCCCTCCATTGCCCAGGCRAGGATCAA
CAGCCATGTGAAAAAGAAGACCCAAGGGAAGGTTGTAGACATAATCCAAGGCCTTGACCTTCTGACGGCCATGGTTCTGGTGAAYCACATTTTCTTTAAA
GGTAAGGATTTGAGAAGTTGATTTTTATTTATTTATTTTATGATGATGATGATGATTTTTGCTTAGTGAAATACACAAGCCAGACAAACCCTAGACTGCA
GGGTGGAGAAATGGGAGGGCCTGAGCTCTAATTAGCTTTGCAATTAGCTGGCTGCAGGACCTAGGATAGCTCATGTTTACCAGTTACAGTAGGGACTCAT
TTAGTTCTCTTTGGGTAGACAGATTAAGTGTCTTGAGGTGTGTTTACATTTGACTCAGTGGGAAACCCACAGGAAAAATCTGGAGACTACTTGAGAGAAA
AGATCTCTTGCCACCAGCAGCTGTCCCACTGCCCCTTGAAAGTTTTAGAAAGAAACATGGAACTCTCTGACAACCCAGTTTAAGAAGCAAATCCAAGAGT
GTGAACACTTTCATAGGTGTAGAAATGTAGACAAGCTGATGTGCCTGTCATTCGTATCCCTTATATATATGAAGTCTCCTTCATATATAACTGCATATAG
ATATAGATATAGATGTAGATATATGTTAGAGCTTTACAGTTTCACTGTATTGCAGGGAATGCACATCAGCTTTAAAGTCAAACAACTTGAATTTGAATTT
CACCTCTACCCCATACTTGCTCTATGATCCTCAGCATGTGTCTCTAAAAGATTTACCATGTGTTGAGTGCCTGACCTGTGCCAGTCTCTGTGCTGACTGG
ATACTCTGATGATAAAGCCAACTTTATAGGTTGTGCTTGAGATAGAAGTGCCTGGCATCTCCAGGCAGAGTTTTCATGGATGCCACCGTATCATCCCTCC
CTTCCTCTGTCCCTCTCCTTCCCTTCCTTCCTCCCTCCCTTCATCCACATGTTCACTCATTTATCCATGCACTAGTTTATCTGTCCATCCATCCAGGCAT
GCGCCTAACCAACCAGCCAGCCATCTATCCATTAACGTATTCATCTATCCATCTACCCATTCACCAAGCTATCCATCCATTTGTCCATCCATCAGTTCAT
CCATCCATCCATGCATCCATTCATCCACCTAGCTAGCCAACCACCTGTCCATTAATCTATTCATGTATCTATCCACCCTATATCTGCCCATTCACCAAAC
TATCCACCCATTTATCCATCTGTCATTCATCCATGAATCCATGCATACATCCATCTATCCACCCAGACAGCCAACCATTTATCCATTAACCTGTTCATCC
CTCCACCCTTCATCTACCCATCCAGCAAACTATCCACCCATTTATCCATCCATCAGTTCATCCATCTATCCATCCATCCATCCATCCATCCATCCATGCR
TCCATTCATCCACCTAGCTAGCCATCTAGCTAGCCAACCACCTATCCACTAATCTATTCATCTATCTATCTCTCTATCGGTTCATCCATCCATCCATTCA
TCCATTAATCCATCTATCCACCCAGCCAGCCAACCATTTATCCATTAGCTATTCATCTATCCATCCACCCTCCATCTGCCAGGCTATCCACCCATTTATC
CATCCATCCTGCAAAGAGGAAAGAGAAGGAAAGAAAACTGGTATGGTTTGAGCCCTTACTAAGTTACCTTCAGTTTATGTTGTTCTATTTAACTAATTCT
ATTTTTAATTGAAATAYAATTCACATGTCATAAAATTCACCATTTTATTGCTTTTTAGTATATTCACAAGTTTGGGCAACTACTCCGCTGTGTAATATCA
GAGCATTTTTTTGTCACCTCAAAAAGAAACCTCATACCCACTAGAAGTAATTCCCCATTTCAGTTTGCTGTCTTTGCCTCACTAATTGTACTTTGACATA
AAGACTTCTTTTCTCTCTTTGTGCTAGCCAAGTGGGARAAGCCCTTTCACCYTGAATATACAAGAAAGAACTTCCCATTCCTGGTGGGCGAGCAGGTCAC
TGTGCAWGTCCCCATGATGCACCAGAAAGAGCAGTTCGCTTTTGGGGTGGATACAGAGCTGAACTGCTTTGTGCTGCAGATGGATTACAAGGGAGATGCC
GTGGCCTTCTTTGTCCTCCCTAGCAAGGGCAAGATGAGGCAACTGGAACAGGCCTTGTCAGCCAGAACACTGAKAAAGTGGAGCCACTCACTCCAGAAAA
GGTGGGCATCTGTGTCAATCTCCTGGGCCCTGAGGCAGGGGATGCACACATTCAAARATGAGGGAGAGAWTGTGCTAACAGCTGTTGGATAATCACTTCT
GCACAGTGAGCACCAACTGYATGCAGGACAGAGAGCCTGGGGCTGTCTATACATGTTCACACTTGAAGTTCACTATCACCTGATGAGGAGTCTTAGTACC
ACTCATTACACAGATGAGGAAATGGAGGCTCCAAGGGGTAAGTGAATTGCCCAAGGTCATGTAGCTGTTATATGCTTGCAGAGCTGGCTCTAGAAGCCTA
TCTGATATTGAAATCTATGGAATGATCCCATAAAAGCTAGCAAACAAAAGCATTGGTGGTCACATATAAGAAAGAGGATAACAATATTACCAAATCCAAA
GGTTGGTGAAAAGGTAAAGTAACCTGCTACTTACAAAGTGCTTAGAAGAATTCCTAGAAGATAGTAAGTGTTCAGTAAATGCTAGCTAATAATGTTATTA
TTAGTTCTGTAATTAGTATGGTGAGTAYAAAAAATATGGAGAATAGCAAAAAGATTAATCATGAGATAAAAAAGGAATGTCCAMGTTTTATGTTCTGTCT
CTTAGCAATATATTTTTGGCATCTTAGAATGATTTTAGCAGCGTTCCCTGGTGCTCATAGTCTGGGAAGAGAGAAGGAAGGCTGCAGTGTAACTGGAATT
CAAGAAAGAGATTGRGCAATGCCCCACGGGAGGGCAGGAAAGGTGCTGAGGAGTTTCTGAGCAGAGAGAGATCACTTTCAGCTGGGACTGAGGGACAGCT
TCAAGGAGGCGGTGGGGTTTAGCTGCACATGTGGGTAGCATATGAGCACACAGAGGCTTGGCAAGGGCAGCTTTGGTAGAGGACACAGCACTGGCAAAAA
CTCAAAGTTAAGGATGAAGAGATGCTGCAGGGTGTGTCAGCGATTTCTTCTCTTCTCAGGCTGCATCTGGGGCTGGGGATAGGAAGAGGAGGTGGCACAG
AATTTCAGGGAGGGAGGGACAGAGTACAGAGCAGCAGATGGAGCACAGAGAAAACAGGGAAAGAGGACAGTGGCAGGGAAAAGAGAGCTGTCCCTGGCAT
GAGGGGTCACAAGACACCTGTCAGATGAGGACTGAAATGTGTCCATCCAATATTTTTGTGCTTTCGTTGCTGTGAGTCACTAAGTACATAACCTTGGGCA
AAGCACTAAAAGTAAGCTTTACCGTCTTTAAAAGGGGGAAGTGTTGTTGAATGTGCCTGGGACAATGTCTGGCATATAATAAATGTTCAGGCTGGACTCA
CGCCTGTAATCCTAGCACTTTGGGAAGCCGAGGCGGGTGGATTGCCTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACACGGTGAAACCCTGTCTCTAC
TAAAATACAAAAAAATTAGCCGGGCATGGCCACGTACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAAACACTTGAACCCACGGGGTGGAG
GTTGCAGTGAGCAGAGACTGTGCCATTGCACTCCAGCCTGAGCGACAGAGTGAGACTCCATCTTAAAAAAAAGAAGTTCAACACATGTGGGCTGTTTACT
CTTGGTTCAGGGAAACCATTGCAGAGGAAAAAAAATATTGTGCTAAATTATCAGGTGGTGCTGTTCAATATAGTAGCCGCTAAGCCACCTGCAGTAATTT
ACACTTAAGTTAACTGAAATGTAGTAAAATTAACATTTTAGTTTCTCATTTGCACAAGCCACTGTTTAAGTTGCTCAGTAGCCACACATGGCTAATGGCT
ACCGTACTGGAGAGTGCAGGTCTAGGATCTTCCCAGCATCACAGGAAGTTCTGCTGGACTTTGCTGCTCTAGGGCATTATTAGCAGGGCTTGCATCAGGA
AGTGCTGCTGAGGAGGTATTCCGGACAGTGAGTGGGTGGTTGATGAGCTTCCATTGCTACTGGACGTCTCCTGTTGGTTTCTGCCATAGACTCCCTTGCT
GACTGCTTTTTCACCTCTGCACCCACTTCACTGGGGGCTCGTCTATCTCCTTGCATGTTTTTAGTGCTGGACCTGCTCAGCTGGGAGGCTTATTTCAAGA
GCAACCTGGGTTTCTTGGCTAGGATGTGTTGACCTTTTTAGCAGAAATTAGCAGTGGTTGGAGGAAGAACGGAGTCTCCCAAAATGGCATCTAGGAGCAG
AGATGCAGACACCATGGGCTTGTGACCTCATTGTTTCCTTTTCCCTACTCCACAGGTGGATAGAGGTGTTCATCCCCAGATTTTCCATTTCTGCCTCCTA
CAATCTGGAAACCATCCTCCCGAAGATGGGCATCCAAAATGYCTTTGACAAAAATGCTGATTTTTCTGGAATTGCAAAGAGAGACTCCCTGCAGGTTTCT
AAAGTGAGTTGAATGAAAATATTTGCAAAAMAGTCCAAGCTGGAAGCACCTGCAGAATTAATMACAYGCTCTTATTTCGTTGATAAGGAARCAGAGGCCT
GAAAGGTGAAGTCAGGGTCTTCTGCGGCCAGAAGAACCGAATCTTGCGGCCTATGGCCACCATCCCTCTGGCATGCAGCATTGTTATCCCTCTTCACACA
AATGTTCCGAAGCCATCCTCAGCAGTCAGGTGCTCCCCCATGCCTGCTGCAGGAGAGCAAGTGCTCCCTCAGGATCTGACCTCACTTTCTTCCTCCCTGA
AGTTTAGGCCCTCACACAAGCATCACAGTGTGGCTGCCCATAGGTCATCTGCACCCTGTAGATGTGTTGTCTGGCCTTCAGTGTGTAAGGAGAGAGAGAG
GGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGGAGTTTTAAAGCATAGTATATTAGATCTAAAAGTCTAGATTTCTGATCCTCTTGAAATAAATCACTAA
CTCTAATTCCCACATGGCAACAGTGAGCCTATGTGTCCACATGGCAGCCATCACAGGAGCTGAGCTATGAGTGCCCCTTTTAACCAGACAGTATCCTCCA
GGTAATGTGGGCACCCCATGCTCTTACAAGAAGTCTCCGTCAGTTAATTGGGGTTACCTGCCTAGCCCCTGCACACATATGGGTTACTGATCCCTGACCT
AAAATTTTATTTTGATAGTGGATTATAATAGAAGTGATCCTGGGGCCACTGAAGGGGACCTTTGTCATTGGTTTTCAGAAAATGTTGAGAGGCCCCACTG
GAATATGATGAACATAATGGACATTTTCTYGAGGAAAGTGTATCTGTGAGCCTATGAAAAATAATGCCTGTAGTCACAGGAGCTCAAGCCTCCCTGAAGC
TTAGAAATCCAGGAACTCCAGGTTAAGAATCTCTTCCCTAGAAGACAAAGAAGGGATCTAACCTTAGTCATATCAAACCCATGTCTGCCATGCAAGAACT
GCAGCAATTACTACTGCTGGCAAGTCCACAAGCACTTGCTTTGTATGATCTCTCTTAATTTACACAATAACCTTACGGGGCATATGCAGTTATTATTACC
TTTTATAGATCGGGAACCTGAAGCACGCAGCAYCTTAATAATTTTGCAACCATAAGTGGCAGAACTGAGACTCACTCCGGTCTTCCTGCTCTGTGTTTGT
AACCATCTCAATCCCGGTGTAAGGACCAATGGGCCATAGTCAACACCCACTGCAATGTATTGAGTAAACCCAATGCCAGGCATTTGAACCTTGAATCCTT
TCAAGGTAGACATCACCATTCCAGGGCAAAARCACTCAGTTTAGTTTACTCAGTTAAGTAAAAGTGTCTCCACTAGGGCYACTGATGTTTGTTTTTCCCT
TGGCAGGCAACCCACAAGGCTGTGCTGGATGTCAGTGAAGAGGGCACTGAGGCCACAGCAGCTACCACCACCAAGTTCATAGTCCGATCGAAGGATGGYC
CCTCTTACTTCACTGTCTCCTTCAATAGGACCTTCCTGATGATGATTACAAATAAAGCCACAGACGGTATTCTCTTTCTAGGGAAAGTGGAAAATCCCAC
TAAATCCTAGGTGGGAAATGGCCTGTTAACTGATGGCACATTGCTAATGCACAAGAAATAACAAACCACATCMCTCTTTCTGTTCTGAGGGTGCATTTGA
CCCCAGTGGAGCTGGATTCGCTGGCAGGGATGCCACTTCCAAGGCTCAATCACCAAACCATCAACAGGGACCCCAGTCACAAGCCAAMACCCATTAACCC
CAGTCAGTGCCCTTTTCCACAAATTCTCCCAGGTAACTAGCTTCATGGGATGTTGCTGGGTTACCATATTTCCATTCCTTGGGGCTCCCARGAATGGAAA
TACGCCAACCCAGGTTAGGCACCTCTATTGCAGAATTACAATAACACATTCAATAAAACTAAAATATGAATTCATCTGTCAACAGAGTCCTAATCTGAAA
ATGATTTACTAGCGAACTCGCGATGGCTGGGCTGTCATCCCATGACATCTCAGAGGCTGCATGATTTTTTTCCTTCATTTATTCAGCAAAAATTTATTGA
ACACTTAACATATGTTAGGAGTAAATCAGACAGACAAGATTCCTGGCCTGTTAGGCCTAAATGGGGGAGACAGACCCCCCTACAGCAACAATGAAACCAG
ACCTATAAACATGATCGTAAGAGCTTATGATAAGTGCCATGAAGGCATTGAACAGGATGACTGAGAGTGAGGATAGGACAAGGGAGGGGTGTGAGCATGA
AGGCTGTGAGTCAGGAATGAGTGGCATGTTGGAGAGACAGAGCAGGGACCTTGTGGCATCATGTGTGGCAGATGGAAGAAATGAGAACACAGAGGCTCAA
AGAGGTCGGCTGGTGGAGGCCATTGTTAGCCAAGGAGAGAGTCTGGGTTTGTGGGGAGCGCCGGGACACCGGCTGACGAGGGCTAATGCGTGGGCTGTGA
AGGTCTCCCCGGGTGCCGTGGACCAGTTTCCCATCTCCTCGCGGCTGGCTGCCTTCCTGACTCCGATRACGTCATGTGTGCACACACAGCCCTCCGGGTG
CTCAGCCCCTTCCCTGCGGGTTTGTAACGGCAATGGTCCCGCTTCCATACTCTGAGTCCTGAGAGCAGCACAATGAGCAATGGGCCACGGTTGCACTACA
GCAAAGGCAGCTCGTGTCCTTTGAGTCMGACCCACCGTCCCTCCTTCCCTCGTTGCCTGACAGGCTGTGCTGGCACCTCTATGTCACCCYCATTACCGAG
GGCATCTCTGGCAGCCTCAGTAGAGCCCTTGCTCCCATCAGATCCAAAGGCTCCTCTTCTGGGGGCCCCGGTGCCCCACACACCTCGGATGTGCCAGGGR
CCTCATGTAGGCTTTCTCATGCTATTTTATAAGGAAAGAAACAAAACAGAAAGGAGTTATGCTGGAGAGCTGGCAGAAGTCCCAGGGGAACCTAACCCCC
TGGCCCTCACGCTCCCACTTTATTTCACAAACAGAACAAGCTGCCACTGCACTCCAGCYTGGGCAACAGAGCAAGGCCCTGTCTCAAAACAACAAAAACA
AACAAACAAACAAAAAACAAAAACAGAAGAGCTGACACTCAAAGAGTAAAAACAACTAACCTAAGCCACAGGGCCTTCCTGTGCTGRCTTAGAACAAGGA
CCAATGGCCAGTTATGAAGGGCTCCCGCAACGCTGCCTGAAGCAAGGTTTGTTTTATACACAATGCTCTTCCCTCAGGCTCTCCATTATAAAGGCCACAG
TGGAGAAGCCAGGCATCCTTCCCAGGAAGGAACATACCTGCTCAGACATGGCTCCAGCCTCCTGCAGAGTAGGCAAGAAGATGTCCTACAGTAGCACAAA
GGAGATAGTAGGTGTGAAGAAGTGACTAATGACACTTGYTGTTCACAACTAGTTTTTTCCAGAAACTATGAGGAACCCCAAGTAGTCAGCAGTGGGTGAC
GGCTGTCAGCATCCCTCCRACAGCCTTGCTTCCAGTGGCACTTTACAGTGAAAGCAAGCTTAGGTGGCAACCTGGTGCCCACTCAGACTTGCATTGGCAA
GCAGATACAAAAACAGCCGTGGGACATTTTCTATCAACTTGCTGAGGTCCCAGCTCTGTTTTTTGAAATGCCAATCCTTCGCATTTGTTTTTAAATGTAC
CTCACATTTTGTTTTGAAATCATTTCCACTGGGTATGGTAAGGTGACAGACAGAGACATCTGCCTTTGAAAGAAGAGTTTATTACTTTGAGCACCCAAGA
GGAAGGGGCCTGCCCCACCACACAGGGCCACACGGGGAAGCACCGGGGCTGGTCCAGAGGCACAGGAGCGAGAGGAACATGTGGCCAGAGACTTTAGTAC
TGCAGTGTGGGGAGTGGTTAGGTGGGACATCCCTATTGGGCAGGAAGTGAAGTATAGAGGTTGAGGCTTGTGGTTGGAGAATTTGTAAAATGATTCTTGC
ATGCCCATGAAAACACAGAGAGGGCATGAACATAATCAACTGTGGCCGTTAGTTTGGGCCATCATTTCAAGATGCAAAATCATCAGTCACAGAATATCAA
GCATGAGTATTACAGCATCGCATGAAAGTTTCACTCAAGGCAAGAGTGGCAAATGCAGACCCATGGGCACCTGCACCTCCACCCCATTTAGGGAATCAGG
TTCGACCTCCTAGGAGACTTTATGTTTTACAAGTGCCTTGATTGGAACCACTGTGCCAACCTCAATGACCTTTTATTTTAGGATGAGATTTACTTGTACT
ATTAAATCATTCTACTTTCCAACAATAATGTTTTATTGTTTTTAATTATGAATAAGATGCATGCTCTTTGTAAGAAATTTGGAGAATACAAAAATCTGCA
AAGAAGAACTTAAAAGTCACTTCAATTTTGTCATGAAGAGATTCTCTCATAAATAAATACTCATTTAATTCTAAGCTTGTTCTACTTACTTGGGAGACAT
GGGTGATCATGAGCCAATGATTTCACTTCACAGGTTTCTCAAAGTAGTAAGAAGAAAGGTCTTTCTCTGTTTGTGAAATTTCCTTCCAATTTTCTTTTCG
TCACCTAAGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCTTCTGCTTCCCAGGTTCAAGGGATTATCCAGCCTCAGCATCCCAAGTAGCTG
AAATTACAGGCACCYGCCACCCTGTCAGGCTAATTTTTATATTTTTAGTAGAGACGGGGTTTCAACATGTTGTCCAGGCTGGTCTAGAACTCCTGGCCTC
AAGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCAGCCCCTTCCAATCTTTTTATTCATACACAGATYATAT
TTTATTTGAAGCATCAACAAAATACTGGAATGGTTTGGTGTGGTAGTGAAGGCTTGGACTGGGGGATAGGATCCMAGTTCTGAGTGTGGCCCCATCCGTC
CACTTAATGAGCAAGTGACTTAACCTCACAGAGCCTCAGTTTCCCATCTACAAAGTAGGGATGACTGTGCCTCTCTCACATTCTTGCGGTGAGGGTGACC
AATAAAGAACGTAGCCTAAAAGAAAAAAAAAAGAGGGGGAAAAGTGGCAGACGGAAGGCAAGACTAGATTGCAGCTCGCACTTGGACAGAGCACTGTGTG
GACCTTTGAAAAAAATTTCAAAGGTTCAACACTCGCATCTTCACCCTTTGCTTCAGAACTAATGCAGGAATAAACCAGGAAAGCCGAGAGAACCCACAAA
CCCTCTGAAGGAAGGAGGTTGCTCCTGCAGAACCCAAGAGACAGTCCAAATATTGTGAGTGCCCAAGCTGTGAAAGTGGGAAAGGTGGATTKTCTGTCAC
TGAACACACACCCTCACTGGGGCACCTGAAGGTCTAGATCATGGGAGAAGGATCTGACCTTATCTGGAGCTGAGTCAATTTAGAGAGCCAAGCAAAATAT
AGGGGTAGAGGAAGCAGCAGGAAAAGCCTGTGGGTTTTCCACCCTCAGAAAGCTATTTCAGAGTTGTCTCATGGGTGTTCTTGGGGAGGGCTGCCAGAAA
TACTGGGAAAAGACCACAGGGAGAAGGAAACCCCCAGCTGAACCTTGTAACAATTCCAACTGAACAGGAAGTCTCCTGGCCAGAACTCAAGGGAGGGCCT
GAATCTGGTGTGCAGACTCCACAGGCYRATAGGCGTGAAAGCCCTACTTGTTCTCATAAGTGGGAGKCTGGTAGCCTGGGGCAAGTTCTCAGCCCTTCCT
GCCCACTGCCTATAAACAAACTTGGTGCTGTTTGGGGGGACATGGTGGGAGTGAGACTGGTCTTTTGGGTTGTGTGGGAGCTGGGTGAGGCCTGTAACTG
CTGGCTTTCCCCCACTTCCCTGACAACTTGCATGACACAGCAGAGGCAGCCATAATTCTCCTGGGAACAGCTCCATTGACCTGGGAACCACACCCCCATT
CCCCACAGCAGACATAGCAAGCCCTGCCCAAAGAGAGTCTGAGCTCAGACACACACAGCCCTGCCCCCCTCCCCCCATGGTCCTTCCCTACCCATTCTGG
TAGCTGAAGACAAAGGGCATATACTCTTGAGAGTTCTAAGGCCCTACCCACAGCCTGGTTCTTCCTATACTACCACAACTGATGCTCTCTCAAAAAGTGT
CACCTTCTGGCAGGAGGCCAACCAGCACAAAAATAGTGCATTAACAACAAAAACTAAGGATCTTCACAGAATCCATTTCACCCCCCTGCCATCTCCACCA
GAACAGGTGCTGGTATCCATGGCTGAGAGACCTGCAGATGGTTCACACCACAGGACTCTATGCAGACAATCCCCAGTACCAGCCCAGAGCCTGGTAGACC
TGCTGGGTGACTAGATCCAGATAACAATCACCACAGTTTGGCTCTCAGGAAGCCACATCCCTAGGAAAGGGGTGAGAGTACTACATCAAGGGAGCACCCC
ATGGGACAAACGAATCTGAACAGCAGCCTTGAGCCCTAGATCTTCCCTCTGACATAGGCTATCCAAATGAGAAGGAAGCAGAAAAACAGTGCTGGTAACA
TGACAAAACAAGGTTCTTTAACACCCTCAAAAAATCACACTAGCTCACCACCAAACAAAAAAGAAATCCCTGATTTACCTGAAAAAGAATTCAGAAGGTC
AGTTATTAAGCTAATCAAGGAGCCACCAGAGAAAGGTGAAGTCCAATTTAAGGAAATAAAAAAAATACATAAGAAATGAGGGGAGAAATCTTTAGTGAAG
GAATAGCATAAATAAAAATCAACCCTTTAGGAAATAAAGGAGAGCACTGAGAGAAATGCAAAATGTTCTGGAAAGTTTCAGGAATAGAATCAAAGAAGCA
GAAGAAAGAACTTCAGAGCTCAAAGACAAAGTTTTCAAAGGAACCCAATCCAACAAAGACAAAGAAAAAAGAATAAGAAAAAAAGAACAAAGCCTCCGAG
AAGTTTGAGATTATGTTAAGTGACAAAACCTAAGAATAATTGGCATTCCTGAGGAAGAAGAGAAATCTAAAAGTTTGGAAAACATATTTGGGGGAATAAT
TGTGGAAAAGTTCCCTGGTCTTGCTAGAGACCTAGACATCCAAATACAAGATGCTCAAAGAACACCTGGGAAATTCATCACAAAAAGATCATCATCTGGG
CACACTGTCTTCAGGTTATCTAAAGCCAAGATGAAGGAAAGAATCTTAAGAGCTGTGAGGCAAAATAGTCAGGTAAGATATACAGGAAAACCTGTCAGAT
TAACAGCAGATTTCTCAGTAGAAACCCTACAGAACAGACTAGAAGGGATTGGGGCTCTGTCTTCAACCTCCTTAAACAAAACAATTATCGGCTAAGAATT
TTGTATCCAGTGAAACTAAGCTTCATACATGAAGGAAAGATACAGTCTTTTTCAGACAAACAAATGCTGAAAGAATTCACCACTACCAAGCCAGCACTAC
AAGAACTGCTAAAAGGAGCTCTAAATCTTGAAACAAATCCTGGAAACACATAAAAACAGACCCTCTTTAAAACATAAATCCTACAGGACCTATAAAACAA
AAATACAATTAAAAAAGCAAGGTATACAGGCAGCAAATAGCATGATGAATGGAATACTACCTCACATCTCAATACTAATGTTGAATGGAAATGGCCTAAA
TGCTCAGCTTAAAAGATGCAGAATGGCAGAATGGATAAGAATTCACCAACCAAGTATCTGCTGCCTTCAAGAGACTCACCTAGCACACAAGGACTCACAT
AAATGTAAGGTAAAGGGGTGGAAATAGACATTCTATGCAAATAGACACTAAAAGCAAACAGAAGTGGCTATACTTATATCAGACAAAACAAACYTTAAAG
CAACAGCAGTTAAAAAAGATAAAGAGGGACATTATATAATGATAAAAGGCCTTGTCCAACACAAAAATATTACAGTCTTAAATATATATGCACCCAACAC
TGGAGCTCCCAAATTTATAAAACAATTACTACTAGATCTAAGAAATGAGGTAGACAGCAACACAATAATAGTGAGGGACTTCAATATTCCACTGACAGCA
CTACACAGGTCAACAAGACAGAAAGTCAACACAGAAACAATGAGTTTAAAATATATCCTGGAACAAATGGACTTAACAGATGTTTACAGAACATTCTACC
CAATAACCACAGAATATACATTCTATGCATCAGCACATGGAACATTGTCCAAGATAAACCATATGATAGGCCACAAAACAAGTATCAATGAATTTAAGAA
AATTGAAATTATATCAATTACTTTCTCAAACCACAGTGGAATAGAACTGGAAATCAACTCTAAAAGGAACCTTCAAAATCATGCAAATACATGAAAACAA
AATGACCTGCTCCTGAAGGATCACTGGGTCAACAATGAAATCAAGATGGAAATTTAAACATTATTTGAACTGAACTGTAATAGTAACACAACTTATCAAA
ACCTCTGGGATACAGCAAAGGCAGTGCTAAGAGGAAAGTTCATGACCCTAAATGCCTACATCAAAAACTCTGAAAGAGCACAAATAATCTAAGGTCACAC
CTCAAGGAACTAGGGAAACAAGGACAAACCAAACAAAAACCCAGTAGAAAAAAAAGGAAATAACCAAGATCAGAGCAGAACTGAATGAAATTGAAACAAC
AACAACAAAATAGCAAAAGATAAATGAAACAAAAAGCTGGTTCTTGGAAAAAATAAAAAAAGAAGACCAYGAGCAAGATTAACCAAGAAGAGAGAAAATC
CAAATAAGCTCAATTAGAAATGAAATGAAAGATTTTAAAACCRACACCACAGAAATACAAAAGATCATTCAAGGCTACTATTAACACCTTTATGTGCATA
AACTAGAAAAGCTAGAGGAGATGGATAATTTCCTGGAAAGATCCAATCCTCCTAGTTTAAATCAGGAAGGATTAGATACCCTGAACAGACCAATAACAAG
CAGTGAGATTGAAATGGTAATTTAAAAAATTACCAAAAAAAAAAAAAGTCCAGGACCAGATGGATTCACAGCTGAATTCTACCAGACATTTAAGGAAAAA
TTGGTACCAATCCTGTTGATACTATTCAACAAGATAGAGAAAGAGGGAATCCTCACTAAATCATTCTATTAAGCCAGTATCACCCTAATACCAAAACCAG
GAAAGGACATAACAACAACAACAACAAACTACAGACCAATATCCCTGGTGAACATAGATGCAAAAAATCCTTAACAAAATGCTAGCTAACAGAATCCAAC
AACATATTAAAAAGATAATCCAATGATCAAGTGGGTTTCATACCAGGCATGCAGGGATGGTTGTCAATAAATGTAATACACCACATAAAGAGAGTTAAAA
ACAAAAATCACATGATCATCTCAATAGATGCAGAAAAAGCATTTGACAAAATCCAGCATCGCTTTATGATTAAAACCCTCAGCAAAATCGGCATATAAGG
GACACACCTTAATGCAATAAAAACCATCTATGACAAACCCACAGCTAACATAATACTGAATGGGTGAAAGTTGAAAGCATTCCCTCTGAGAACTGGAACA
AGACAAGAATGCCCACTCTCACCACTTCTATTCAACATAGTACTGGAAGTCCTCGCAGGAGCAATCAGACAAGAGAAAGAAATAAAGGGCATCCAAATCA
GTAAAGAGGAAGTCAAACTGTCACTGTTTGTTGATGAAATGATCATATACCTAGAAAACCCTAAAGACTCCTCCAAAAATCTCCTGGAACTGATAAATTA
ATTCAGCAAAGTTTCAGGATACAAAATTAATGTACACAAATCAATAAGTCTGCTATACACCAACAGTGACCAAGCTGGGGATCAAATCAAGAAATCAACC
TCTTTTACAATAGATGCAAAAAAATAAAATATTTAGGAATATACCTAACCAAGGAGGTTAAAGATCTCTACAAAGAAAACTACAAAACATTGCTGAAAAA
CTCATAGATGACACAAATAAATAGAAACACATCCCGTGCTCATAGATGGGTAGGATCAATATTGTGAAAATGACCATACCACAAAAAGCAATCTACAAAT
TCAGAGCCAATTCCCATCAAAATCCCACCATCATTCTTCACAGAACTGGAAAAAAAATGCTAAAATTCATACGGAACCAAAAAGGAGCCTGCATAGCCAA
AGCCAGACTAAAATGAGGCATCACATTACCTAATTTCAAACTATACTATAAGGCCATAATCACCAAAACAGCATGGTACTGGTATAAAAATAGGCACATA
GACCAATGGAACAGAATAGAGAACCCAGAAATAAACCCAAATACTTACAGCCCAGTTATCGTAGACAAAGCAAACAAAAACACAAAGTGAGGAAAAGACA
CCCCATTCAACAAATGGTGCTGAGATAATTGGGAAGCCACATGTAGGAGAATGAAACTGGATTCTCATCTCTCACCTTATACAAAAATCAACTCAAGATG
GATCAAGGACTTAAATCTAAGACTGGAAACTATAAAAATTCTAGAAGATAACATTGGAAAAATCCTTCTAGACGTTGGCTTAGGCAAGGATTTCATGATC
AAGAACTCAAAAGCAAATGGAATAAAAACAAAGGTAAACAGGTGGGACTTAATTAAGCTCTTTAGAGCTTTTGCACAGCATAAGGAACAGTCAGCAGAGT
AATCAGACAACCCACATAGTGGGAGAAAATCTTCACAATCTATACATCTGACAAAGGACTAATATCCAGAGATATTCCAACAAATTAGCAAGAAAAAACA
AACAATCCCATCAAAAAGTGGGCTAAAGATATGAATAGACAGTTCTCAAAAGAAAACATACAAATGGCCAACAAATATAAGAAAAAATGCTCAACATTAC
TAATGATCAGGGAAATGCAAATCAAAACCACAGTGTGATATCACCTTACTCCTGCAAGAATGGCCATAATMAAAAAATAATAGACGTTGGCGTGGATGTG
GTGAAAAGGGAACATTTCTGCACTGCTGGTGGGAATGTAAACTAGTACAACCCCTATGGAAAACGGTGTGCAGATTCCTTAAAGAACTAAAAGTAGAACT
ACCATTTCATCCAGCAATCCCAGTACTGGGTATCTACCCAGAGGAAAGAAGTCATTGTATGAAAAAGATACTTGCACACACATGTTTACAGCAGCACAAT
CTGCAGTTGCAAGATTGTGGAACCAACCCAAATACCCATCAATCAATGAGTGGATAAAAAAACTGTGGTGTATATATATATATGATGGAATACTACTCAG
CCATAAAAAGGAACGAATTARTTGCATTCACAKCAGCCTGGGTGGACCTTGAGACTATTATTCTAAGTGAAGTAACTCAGGAATGGAAAACCAAACATCR
TATGTTCTCACTCATAAGTGGAGCTAAGCTATGAGGATGGGAAGACATGAGAATGATACAATGGACTTCGGGGACTCGAGAGAAAGAGTGGGAGCGGGGT
AAGGGATGAAAGACTACATATTGGGTTCAGTGTATACTGCTTGGGTGATGAGTGCATCAAAATCTTGCAAATTACCACTAAGGAACTTACTCATGTAACC
AAATACCACCTGTTCCCCCAAAACCTATGGAAATAAAAAAGTTAGAAAAAAAAAGAATACAGCCTGGATCATACAACCACAGACACAGGCAACAGCCACA
ACCACACCACCACCTGCTGCCAGCATCAGAATATTCTCAAAGCGAGCCTGGGCTTAAGTCACAATCCACCATTTGTTTGTGGGACAGGCAGTCAGGGCAG
ATACTTTGAAAAAAAAGAGCCCTTCCTGTTTGCTGTGCATTGTCTTCATACCAGTTCCCAGAATTGACCTGACAAATATTGACCAGGTTGCTGTSATCTT
CAAACACCATTTTCCTGTGGGTAGAGGTGATGCAGTGCTGAAGACCTGGGCCCCTGCTCAGTGCCTTTGCTCTGTAAGTACTTTGCCTGTGCCCAAAATG
AGGGCAGGGGCAGAAACTGCCTCACTCCCTTCTCTCTCTCTCTCTCTGTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTTCCTGGCTTTGATGGTAAGGATGGGAGAAGTAAGTCCCTGAAGAAGAAATGCAACCATGTACTCCCTCTGAGTCTTAAAGGAGAGAC
TTCAGGTTTTCAATCTCCTTTTATGGAAAACTTCAAGAATTTTGAGAGAAGAATCCCAAATATTCCTGCCAGTTAGACAAGAAAATGAAACAATACAACC
CAAAGCACAATGACAATGATGCTGCAGCAMATTTACTAGAAGCTGTCCTGTGAAAAGGGTGCTTAGGAGCTCTGGTCTGGAATCTGAGTCTTGCTCCTGC
TCTCACCAGGCGGCTTGTCCTAACCCTGCATCAGTCATTCCCTGTGTACAGTAGGGCTAATAATCCCTGTGCTTTGAGGTTCTCATAAGGATTAAATTAA
ATAAGACAAAGCAAGTGTTTCTCAACAAGGGCACTACCGGTATTTGGGCAGGACCACTCTTCATTGAATGTGACTATTCTGGGTGYTTCAAGAGCTTTCG
GGAGCCCAGCTGTTCCCCAACTAAACTCCAGCAGCATCCCTCCACCAGGCATTGAGCTGATCCAAAATGTCACCTCTATCTCCTTTACACACAGCCCTCC
CCCTGCCTTTGTCAGGAGCCAGTGTTACAATGCATGTAATATCCTATCACTTCATAAACCCTTAATAAGTGAGAATATTATACTTCACGAATATAGTTCT
TAATTTTCCTCTGGGATCTTTCTGGAAGAGGAATTAAGAAATGAATTGGGCATCATTACCCCAGGCTTGATAGAAAGGGAAAAAAACTGCCATTGAGTAC
TTTCGGCATGCCTGGAGCTTTGTACWTTGACTGTCATATAATCCCGAAATGGCCCCACACCCAGGAGGTGGGCAATATCATTTGCATTTTGCAAAGGGAG
ACACTGAGTTTCAGACAGCTGCTTTTGCACAGTATGAGGCAGTGAGTTACTGCACAGCCTTGATTCCAAGGTCCCCTCATTTACAATTGAATCCCCTTTG
GGAAATAGGTCATTTGCAAGTCAGGGAGTCCCTGGGGTGCAGTGGAGTAGAAAATGGTGCTGAGTTCAATGGGATAAAAAGAATAAACCAGAAATAGTTT
CATTACAGGCACTTCATTTTACCCAGGGGTAGAACAATTTTTAAATTGATTTGCATCTTCCAAATTTTCGATCAAAAGAAAATCTGAAGTGTATGGAAGC
TGTCATTAAGTGAACCCACATTGGGAGTTCACTGGGGCTGTCATTAAGTGAACCCACACTGTGCTGGAGAAAGGGAGGACGTAGCCTTGGGGGCGTGCCC
ACAGTACTTTGACCAGCAAACGCATTTCAACATAGCAGATAATGAGACCACATTCGTCCCTCCTGACACCTGGCCTTTGTCGTTTGGCAGGCTACTTAGG
GCACCAGGGGCTACAAACCCATTTGCAAAAATATAATCTCTCTTTCACTGTCGCAGCATTTGCAATTGATCCAGAAGTCATTGGTTTAGGCAAAAAATTA
TTAAAGGTGCCAGTTAAGACACAAATGTTATCAGGACAAACTGATGAGGAGTGATAGAGGTGGTCAGCAGTGCACAGCTGCTGCGCAATGAATGGAACGG
TGGAAGAGTTGGATTTGAAGGGAGAAGAGAAGGCTGCCTTCCTTACTGAGAAAATCAAGATTTGGGAGGGTCCCAGTAGCAATGTGGTCATGAGTCTTCT
GCAAGAACCTGAAGATGGGTGTAGGGTCGGGGGATGGGACTGAAAGGGAAAGGAGAGCATGGAACATTGGGCAGGGTGAGTAGAGACAACCCTGTTTGCA
CTGCAGTTCCCCCTCCAGCTCAGGCTGCATTCCCAGCCCTAAAACAAGGGGTCTTCCTGCTCCTGTACCACTTTGATCCCTGGAAGTGRAATAAAGGCTC
TTCTGGCACATTTTGTAACTTAAAATAAAGCACAARAGATATCACATTAGTTTGCAAGGGCTATCTTAATAAATACTACATGCCAGGCAGCTTAAACAAC
AGAAATTTTTGACTCACAGTTCTGGAGGTTAGAAGTCCAAGATCAAGGGGTTGACAGGGTTGGTGCCTTCTGAGGCTGTGAAGGAGAATCTGCTCCAGGC
TCCTTTCCTAGCTTTGCCTCTCTCCTAGTTTGCTGGCCATCTTTCGCTTTCCTCGGCTTGTAGAAGCATCACCCTGATCTCTGCCTTCATCTTCACATGG
CATTCTCCCTGTGTGTTGTCTGTGTCCAAATTGCTCCTTCTTGTAAGGACATCAGTCATATTGGATTAGGAGCCTGCTCTAATGACCTCATCTTAACTGA
TTACATCTCCAATGACCCTATTTCCAAACAAGATCATATCTGGAGATACTAGGTGTCTAGACTTCAGCATATGAATTTCGGGCAGGTACAATTCAGCACG
TAACAGACATCATCCCCACAGCCCTGAGGCAATAAAAAAAATAGAGAGGTTTCAGCCTCTGCTTGTGACAAGAGGCATCCCAGATATCAGAGGCTGGACA
GAGACATGGAGACAGAGTTGCTCTCTCTCATCGCTCCTCTAGGCTCCATCAGYCCTGCTACTTTGCTCCCCACTCCTGGGCTGTCTTCATCCACACATCC
AGATGGCCGATCCTCACATCGCCACTCCAGCTAATGAACGACTGGAAAGGGGGAGGGCACTCTTCTTTCTCTTGGGGCCTGACCGAGGCTTTGCACATCA
TCCTTTCCTTTCCAATGGGCAGGATCATAGTCAATAGCCATGCTGGATGTGAGGGAGGCCTAATATCACTGGCAGTGTGGCCAGGACATTTGCTCCAAGC
ATGTTCTTCTCAATTTGTCATCACATATATAGCTATTGAGTGTCACCTAAGCTAGTGTCAATTAAACCCTTAACTCTAGGAAATCTGAAATTTTGTTTAC
TTCTTTCCCCACTAAATACTGAGGACCTAGCTACCTCTTGGACCAGGCAGATACTTGAAAGTTAATGAATGATTGAAAGAATGACTGGAGAGAAGAAAGA
AAAGGGAAGGAAGGAAGAAGGAGGGAAGGAAGGAAGGAAGGAAGGAAAGAAAGAAAGAAAGAGAAAGAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGA
AAAAGAAAGAAAGAGAAAGAAAGACAGACAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGA
GGGAGGGAGGCTAGACTATGGAAGTTGTTTTGCTGTTGTGGTGGTGGTTGTTTTTAAAACAGGTTCTCACTCTGTCATCCAGGCTGGAGTGCAGTGGTAC
AATCACAGCTCACTGCAGCCTAGACCCCCCAGGCCCAAGCGATTCTCCCACCTCAGCGACTACAGGAACATGCCACCACACCCAGCTAATTTTTAAAAAC
ATTTTGTAGAGGGGGTCTCCCTATGTTGCCCAGCCTGGTCTCAAACTCCTGGGCTCAAGCGATCMTCCCACCTCAGCCTCCCAAACTGCTGAGATTATAG
GTGTGAGCCAACATGCCTGGCCAGGAGTTGCCATTGTTGTTGTTGTTATTGCTATTGTTTTATAGTCCAGAGACTTTTACTCAACAAAATGTTAGAAACC
TACTATATGTAAAGCAGATAAAGGGTTGCTACCTTCACTGAAGCCTCGGAGGAAAGTGTCCAGAATCCTAATCATCCACAGCCTTGTCTTCTTCAGTGYC
CCTCATGGCAGCCCTGTGGGGCACATTGTGAAGGTGGGATTTGTGGTATGAGCAAYAGAGAATCATGACATTATTTATGGAGAAAAGTGACATGTTCACC
CTCTTGTTTTCAGAGAATGGGTCCAGCTTGGCTTTGGCTACTGGGAACAGGGATCCTGGCCTCTGTCCACTGTCAGCCCCTTCTTGCCCATGGAGATAAA
AGTCTGCAGGGGCCTCAACCCCCCAGGCATCAGCTCTCAGAGCCAGCCCCCGCCTACCACAGAATCACACCCACCATTACCAATTTTGCTTTGCGTTTGT
ATAAAGAGCTGGCAGCAGACGCCCCCGGAAACATCTTCTTCTCGCCAGTGAGCATCTCCACCACCCTGGCCCTGCTCTCTCTTGGGGCCCAAGCTAACAC
CTCAGCTCTGATCCTGGAGGGCCTGGGATTCAACCTCACAGAAACCCCTGAAGCCGACATCCACCAGGGCTTCCGGAGCCTCCTCCACACCCTKGCCCTG
CCCAGCCCCAAACTCGAACTAAAAGTAGGAAACTCCCTGTTCCTAGACAAGCGACTAAAGYCTCGGCAGCACTATTTGGACAGCATCAAGGAGCTTTATG
GAGCTTTTGCTTTTTCTGCCAACTTCACAGATTCTGTTACAACTGGGAGGCAGATTAATGACTATTTGAGAAGGCAAACATACGGGCAAGTCGTGGACTG
CCTCCCGGAGTTCAGCCAGGACACGTTCATGGTTCTTGCCAATTACATCTTCTTCAAAGGTGAGGCTTGCTCWGACAGAATTATTGCCACTGCCTCTGCA
AGTAAATGCTCTTACAGCAGAGAGCCAGCTAATAGGTTCTTTGCTAACCACTTGGGGAAATCTATGAATAAGATAGAGCTTTCCCACCCTTGCGTAGCCA
CAGTCCATGTGGGTTGGAAATAAGTGCAGAAAATAACTCAGTGGGATGGTGATGCTGTCCTTGCATAGGCATTGGGTGCCACAGAGTTCCCAAAAGAGAC
ACCCATCCAGACTTGAGAAGCTTCCTGGTAAAACAGCCACCCAAGCTAAGACATGAGAGTGAGTAGTATCCACTCAGGTGAAGAAGCTTGGGAGAGGTGG
GGCAAAGAGGGTTCAGGTTGAAAAAACTAGCATATCTAAAGGTCCAGGGAAAAGAGATATCATTGCATTTTCAAAGAACTGAAACAAATTTAGTTGGGAT
AGAACATCAAACACAATAGCAGAATAATAGGAAGAAACCAAGAGTTGCAATGCAGAGGGAAACARGGCCAGGTTGAGGGCTCCCAGCTTTATTCAGGGAA
CCTTAGAATTGCCGAAGACTTTTAAATGTGAAGTGACAGGATTACATATGTTTTAGGAAGCTCAAACTGGCTACAATTTGGAAGGTGGTTTGGAAGGGAG
AAAGGGTGAGAGAGGAGAGACAAGTTGGGAGGTTTTCATAGTGGTCCAAAGTAAGTAGCACGGTGGCCTTGAATAAAGTTGTGGTTTTGGAGGTAGAATC
AGCAATACTTGGTCATTGATTGGGTGTGGGTATGTAGGACAGGATGACCCAGTTCTCCTGTTATCAAGACCAGAGTGCTTGCAAGAGGTGTTTGTGGGGA
CAGATTTATAAGAAGTAAGAGAGAAGATACTACATGTGTGAATGTAACCATGACCCCAAAATTCTGCATTTCTAACTACATCTTAATGGGCTTTTGCCTA
ATGCATGACATTTTATTAATTGAATTCTTTTTCCTTTTTCAGTTTGAAGATTAGGGAGTTGGGGTGGGTGAGTGAAGGAAGGAGCTCTTGAGCGTCTCTG
TAGAAGGTTGTTGTCTAGAGGCAGTTTGGTTGAGAAGGATTAATTCAGTGTTTGCAAGCAATCTGAGCTGCTCAGTCAGTCATCCCAGCTCTGCAAATTA
GTATGWTTAAATAAATTCACAAWGACTCAGTTTGATCATCCCTGATATGGGAATAATACTTATTTCTTATTAATTTTTATGACAATTTAAAGAGATAATG
TCTAACACATGGAAGGTGCTTAGTAGATGGAAAAATACCTTTTGGCTTGTTAGAAGCTAAGTTCCTCTGAAATGGAACAAAATYGTAGGCTGTTAGTGCT
CAAACACTGGTGACTTGTCCTAGAGACTGAGCCAGGCCTAAATTCTGGTCTCCTGGCTCTGTAACCATTCCACATTTTTTGCCACATACTTGCATAGCCA
AGAGGAACTGTGGTTTTGTGTGTGTCTACCCAGAGTTGCTCTCTTGAAAAGAGTTCTCATGGCCTTATGGGTTTTGTGTCCTAAGCCAAGTGGAAGCACC
CTTTCAGTCGCTACCAGACCCAGAAGCAGGMAAGTTTCTTTGTGGATGAGAGGACTTCTCTCCAGGTCCCCATGATGCACCAAAAGGAAATGCACAGATT
CCTCTATGACCAGGATTTGGCTTGCACCGTCCTCCAGATAGAATACAGAGGAAATGCCTTGGCGCTGCTGGTCCTCCCTGACCCGGGGAAAATGAAGCAG
GTGGAGGCTGCTCTGCAGCCACAGACCCTGAGAAAATGGGGCCAATTGCTCCTGCCCAGGTAAGTGTCACAGCAGAAGGATGCTGGCTGACCTTGCTCAA
GAACCCCAGCAGGTCTTGATCAACTCCAGCTGCAAAAGCCCAACATCCATCTCGATTAGGCTCACCATCTTGTCCTTTACTAACTGTGTGATCTTGGCAA
TTTTCTCACMTTTTTTGGGCCTCTACTGTAAAACTAAGAACATGATACCTGCCTCATTGGGTTGCTCAGTAGATTCATTGAGTTTCTACCCATAGAGAAT
GTAGAACTTAGACTGGTACGTGGAGCATAAGAAGTGCTCACCAGGCATTGACTGTTATTATACTTTCCTGGTGTCTGTCTGATCCCCATCTCCTTTCCTC
TTGCTTTCCTCTCTCCCCACCACACCCTCCCATAACAATTCACTAACAGAAGGAACAGAAGGTGGTTAAGTACAGCAAAAAAAATCAGATCAGAGACAGT
GAAAAATAATCATGGCTGGGTGCAGCAGCTCAGACCTACAATCCCAGTGCTTTGGGAGGCCAAGGTGAGAGGATTACTTGAGGCCAGGAGTTTRAGACTA
GCTTGGGCAACATAGCAAGACCCTGCCTCTATGCAAAATDAAAAAAAACATATATAGCTGGACATGTTGATGCATGCCTATAGTCCCAACTACMTGGGAG
GATGAGGAAAGAGGATCACCTGAGCCCAGGAATTTGAGGTTACAGTGAGCTATGATTGTGCCACTGCACTCCAGTCTGGGCAACAAAGCTAGATCCTATC
TCTAATAAAAAATTATTATTATCATYATATTGTTAAAGGGTGCTTCTAYTTTAATTAAAACATGTTTAAAAAATTAAATATTAAGAACATTGTAAACATT
AAAGTTCCTGTTTTATGTGATCTCTAAACTATTTCCCATCTCACTTGCTTTATGGTTTGTAGTTTTATCACAGCAACTTCAGCTTTTTCTAGTTTCCCTA
GACCCCCTTCACCAGCTAATACCTTCTTGGGGGTGCATCTTCTTTTATGGGGTACTCTGAGATGAAATCTGGTACTTAGTTCTACTTACTGCTTGCTGCA
TAACAASCCACCCCAAAACCGAATGACTTAAGACAATCACTTCCTTGGTTCTATGGGTTAACTGGGCTCAGCTGGGCAGTTTTCATGTGTTGGAGTAGGT
GGCAGCTGGAGCTGAAGCCACTGAACTCTCTTCACTTATGTGTCTGGTGCCTGTGCTGGGCTGGCTGGAAGAGATTAAGGCTGGCAGGCATCTCTCTCTG
CATGTAGTGTCTCCATGAGGCTAGCTCAGGTTCAGCAGATCAGCATAGTTAATACTGGTATATGGCAGCTAGGGTCTCCAAGACAGAATATTTCAAAGGC
AGGAAATGAAAGCTACCAGTCTGGTAAGGCCTAGGCCCGGAAATCAGCACAGTGGCACTTCTGCCACATTGTATTGGTGGCAGAGCCAATGGGTGGTTGG
AGAGCCAATGGCTGGGTGGTGCAGAGCCCACCCAGATTCAAGGGGAGGGTGCATAGATGCCACCTTTTGACGGTCATCTTGAATCCACCACAACCTGGGA
GGCACTAGCCACCCCACATATCCAAAAGTGACTTCTCTCAGCACCCCATTCACACTGAGGTACCAGGGATAGAGAAGGCATTTTGTGTTTGGGCAGAGAT
TAAAACACCAAATAAGAGGCACGGGCCAAGGGGAGAGGCCAGGATTTAAGAGATTATTCCTGTTGTCCATGAAGCTCCAYGGCTCTAGTCAGTTGCTAAT
TTCAGCCCCATAGTCCCTGGCTCCTTTGGGGTGAGTCTTCTCCTTGCCCCCATCACAGAAGGGAGTGCCATAGACTCTTCTAGACCAGTAGATTTTCCCT
CAGGGAGGGTTTGGTTTGACTTCTTCCCACTTTGACATTCTAAAAGCAAAACTGACCCAAGTTACTCCTCTAAATCTCAGATATTCCTTGTGCCAGAGAG
TTACAATATCTTAGTATCCATTTTTAGGGGCTTTTAGATATAAGAACTTCAGACTCTGCCATGTTTCACTCCATTCAGATGTGAGGCAGGTTAGCTTGCC
AAGGGGAACTGCACTTCCTGGCACACCATTCGTGTATGTATTCWTTCACAGTTGTTAAACATCCACTGTGTTTTGGGCTCTCTGTCAGACCCCTGCCCCA
CTAGACTCTATTCCACCCCCCAGCCAACTGGCGCGGGTCTTGCTTCCCACCCAAGTGCTGCCTATGGGAAACTTGTCAAATAGCCCTAGATGTCCTCCTA
CTTCAATTAGGCATCCAGACCCTCATATTGCCCAGGAGTCAAACCAGCCACGATTCTCTAACCTGAATTCGATTTTCTGAGGCAGAAGTGTTCAAGTTGG
TTATGAACTAGTCATGCTTTCAGGTGCCTGGGTAGCTGTCAAACCATAATTATAAAGAAGAATAACCCCAGAGAGAAAGGGCAGATTTGCTGTGGATCCA
AAGAAATTTCTGAACTTAACCCAGGGAAATGTGGCAATCAGATGGTAAAGATGCTCCAAACGCAGAAGCAGGAGTTCATTTGTGCCCTATGCCCAACACA
CATGATCTCCCATCAGATCCTCACAACAGCCCCAAGGAGGGGGCATCACCATGCCATTTAACACTAGAGGAACCTGAAGTGGAGATGGGTGAGAGACAAT
GGCTGCTTGTATTAGGGGATGCCAGGAGGTGGATTTAGGACCTAGTTCAGAAGCTGAGCCAACAGAACTTGCTGATGCATCAGATACGGAAGTGGGAAGA
TGTTGACAGTATTTACCTTATGTGGTCATGATTTGGATTCCATCAGTTCAGCCTTGAAAAAACATAGCCAATATCTGACACCTAGAAAGCCCTCTATAAA
TGTGATGAAGATGACAAAGACAGGTAGCTGTGCCTGGAGTCCTCTCAGATCCAGCCACAAGATATTCCAGGAGGTCCAAAGAGAAGGGAGCTGTGGGTAT
GGGTAGTGGCATGGTCCGCCATAGTGAACAGTGTCATGGGAAGACTGGTTGCTTCTCACGCTGGGAAATGCCTCTCTCCCATGGCTCAGGCTGCCRACAG
ACAGAGCAGGAGTGRCACATATTAACAAGAGAGCACCATTTCTCTGTCTGTTTCTCTCTCCAGTCTGTTGGATTTGCACTTGCCAAGGTTTTCAATTTCT
GGAACATATAACCTGGAAGACATACTTCCCCAAATTGGTCTCACCAACATACTCAACTTAGAAGCTGACTTCTCAGGAGTCACTGGGCAGCTCAACAAAA
CCATCTCCAAGGTAAAGTGGTGAACATGGATGTTTGTGGGCAGGTGGGGGTAGGTAGGAGGTTTCTCCTTTGGCATGTGGGACATTTAAAAGTCAAGTTC
CTTGTTCTTTGTCCTGTGCAGACTATTTAATACCACAGTCTTTAAGGCATCTCTTCATGGGCTTTTCCTTCTCTACCTCCCCTTCCTTAGGTCCCTTCTA
TTCTTCATGGCAGGAATACAGTGTCTTCCCCTTGAAGGCCCCCAAACTGATGCTGTCTTCATCTCCTCTTGTCCTCTAGGTGTCACACAAGGCGATGGTG
GACATGAGTGAGAAGGGGACCGAGGCCGGGGCTGCTTCAGGCCTCCTCTCCCAGCCCCCATCTCTGAACACCATGTCAGACCCACATGCCCACTTCAACA
GGCCTTTCCTCTTGCTCCTTTGGGAGGTCACCACCCAGAGCTTACTCTTCCTGGGAAAAGTTGTCAACCCAGTTGCAGGGTAACCATGGTGGGAGGCCAG
GAGTTATCTTATCTCATCCTGGACCAAACAGATAGGCCAGAACCAGCCTGCATCCTGGGGCTGCTATGTGGTTCAGTTAATCAGTGTGCCAAGATTCTAA
TAAAGTTGACCTTGGGTTCTGTGAACACTAAGGAGCAATCCTTACAAGGGAGGAACAGCTTCTAGCCACTCATTCACAATTGTCCCATATCTGGTGTTAG
TTGTGCTTAGAAAGTTGAAGATGAGAACGACCCTCATGTTACAGCCTCCCAGGAGATGTCCACCGCTGCTGCCACCATTGTAGATATTTGTTGAGCATCC
TTTGGGTAAGGGTCATAGTGAAAAACACAGGGGGCATCAGCAGGAGTAAGCCAGTCTTTCCCTTCACAGTGGCCAATATGGGCTGTACAGACAAGAGAGG
TTGTCCTAAAATGTCATTGCCCAGACATCAGGGGCTAGATCCCCTCAAGAGGAGGTTGGACCTGTGTCAGGGCTCCAAATTACAGCCCATGTAGAAAAGC
AGGTGTGCAGATGGGCCGGCGTAATCACGGGTCAACCTGGAGGGAGGTCAAGTTCAAGCAGCAAGAACAGCGTGTCAAAGCCCAGGGCAACACGAAGACC
AAAGAAAGCAGGAAGGCAAACATGGCCGGGAGGGATGATGGACATAGGGCAGGGTCAGTGGGGTGAATTGAGGGCCATATTGAATTGCGATGCAGCCTCC
ATTAGAGATCGAAAGGCTACTCTTCCATGTGTGCCTCTCCAAGAGGCATTCATTTGAAAGTAGTGGGGAAGCAGAAAGAGATGCCCAGCTGCATGTGTGT
ACCACTTGGATGACAATACCCATCACTACAATGAACTCCGTGCCCAGACACGCAGCAGGGTAGGATATAGGTGGTGCATGTCTAGGAAGGAGCCATCCCA
GAAAGTGCTACAGTGGTGGAAACCCCTGACCCTACTCCAAGGAGGTGAGGCTCAGATCCTGAAGACCAGGTAAGCTTTAAATAAAGAGAAAAGGGTAGGA
TAGTCTGGGAGAGGGCAGGGGAGAGATGCGATCGGCAAAAGCAATGGGTAAAGAGAGGAAAAGGTATGCCCCAATAAAATGAGAGAAAACCAGCTTTGCA
GCCATGGAAAGTTCAGGTAGGGTCATGGTGGAAGGTAGTGCTAGAGAGGTGTTCAGAGATAAAAGGCTGGAGGCTTTGGGTCCCCGTGGAGTGAGTGTGA
GCATGGCCTTGTAGACAGTGGAGAGTAGCTGTAGGCCTGTGGGCAGATGTGGATGTGGACAAAGTAGTGATGGGGAAGTCATCTGTCAATTGGGCAGAGA
TAAGAAGGAGTAGGGTGCGGCCAGGGTAAGGCCCAGCCGGGATGGCACCATGAGGTCCATTTGACCACTGACCATGCTGCATGCAGGGCTATCGGAGCAC
ATGCATCCACTGCTTCAACACAGACTTATTAAACACCTCCTATGCCAAGCATTGGGAATGCAGCAGTGAACAAAACAGATAATAGGTCCTGCCTACATGG
GGCTTACATTATAGCAGACAAAACCCGGCAGTAAACAAAACAAGTAAGTAAAATATGTGCTGTTTGACAATAGCAAGGACAAGGTCTTTGTGGTCAAGAA
TATGCCCAGGAAAGTCCCTACAGTGTACATGAAGGGGCAGCTGGCCCCTGATGGTGACAAAGTGGATTGCTCAGTGGCAAAGCTGGATTTAAGCCCAAGG
CTGCAATGTATCCACATTCATCCTTCTTGATAAAAGAAAACTGCAACTGAAAGTTCCCTCCCTGTCATGTCTTCTAAGAAAGTGGCACTTGATTGAGACC
AAAGTAGTCAGTGGTCTGAAGATATTCATTAACTGTCATGGAGGTATGGACCAACCCTTCAAGGCTTCTGTCTTCTGCACCCAGTGCTGCATAGGGAATA
CACTGTTGAGACAAGTCTTGTGTTCACTCCATGTTAGACACCATTATAAGCAGTTGACAGATGTCAATAAACTTTCTATTTCCAACAGTCATGAGAGGGA
GGCACTGCTACATCTTTATCTTACAGGTGGGGAAACTGAAGCAAAATGTGCTAGCATGTGCAGAGCCTGGATTTGAACCCAGGCTGTTCATCTCCACAGC
CCACATGTTTCATCTCTATGCCACACTTCTTTTGTGAGCACAACTCAAAAGCCCTTCAGCCACGCCTCATTGGCTGCCATACCACAAGGATCCAACTCCC
AGGGTCATAGGAAGTGGGAGAGGGAAGAAGCCACATGAGCAGTAGCATCTGGGGAAGACTTTCTAGGGAAAGACCCAGAAGCATGGATGGAAAGTTGGTG
GTTTAAGAAGCACTGATTGAGGACAGGGATGTGCCCTTTGTTGTTTATTTCTGTATTCTAGTACAGAGACTGGCATAGGATAAGTAAAAAAACCTTTTCT
ACCTTAATGCTGTGAGGGGAAGTTGTGTCACATGGCAGAATTCCATGACAAAGACTCAGAGGCAGGAAAGAAAGCACCCTGGTGAAGGACATGATATAAA
GGTGCACTAAGTTTTGGGAGAAAACTTAGTGGGAGAGGCCCCGCTCTACTCCAAGCTGTGTAGACAGCACTCTCTCTCTCTTTGGCCTCTTCCCTTCCTT
TCTCCTTGGGAAGCCAGTTGAGGCAGGCTCCCTGGACTCTAGTAACATCTTACACCCTTCAGCTGGCTGGACAACCTTGGACACATTGCTCAACCCCTCT
GTGCCTCAAGTTCTTCTGCAAAATGGAACATGCAAACCTTGCTTTAAAGAATTGTGGAAATCAAATGAATACATAAATGTGAAACATTAAGCACTTGAAA
TCCACTAGGTGCTCAATGAAGCTTCCTTCTGGCCCCATCTTTTGGCTCCTCCAACCGTCAAGGGTGCTCTTCAAGGGTGCTCTTTCCTCCCACAGAGCAG
AGTTCCGTACCAGGTAATGCCAAAATCCCCCCAGTGGTCACTGGCCACATAACTACCTCCCAGCGAAACCATGAAGGCTGCACATCAAAACACAAATGTG
TTGATGGAGAGGCCTCAGGGGCCTTATCTGGGCACTAAAAGTGACATCTGCAAAACAGAACCATTCTTGCTGCAGGAACATTAGCTATGACACTGTGGCA
CTAAGTGGGGGAACGCTGGCCCAGGGATCAGGGCTGAAATTGCAGAGGCTCACGTGAAGGAGAGCCACATGATTTTCTCTAGAAAAGCATCATTGTTAGA
TTGTTCACTGGGTTTCTTCTCCTTTTTCTCCCTAAGATAACTCCTTCAGTCATCTGTGAATTAGGTAAGAGTCTCCCTAAGCGTACATTTCAGATGTATT
TACACTCCAAACCAACCTTTTAACCACCTAGAAGAATGGACCATTTTCAAGATAAGTCAACAGCCATCTAAAATTTATATTTTCAGAGATCTTGCGATGC
TCTCTGTGGTGGAACTGAACCATCTTTGTAACGCCATAGAGTCCCAGGTATATTTATTTTGACCCTGGAATGGAGGTAAATGGCTTTCAATGTTGGGACT
AATGCCCTGGCCAGTTACAGCCGATATGAACACACAGGTCCAAGTAATGAAAATATCACTAGGGACACTGGTGTCTGTCACTCCACCTCAAGGTTCCATG
TGTATCATAGAGACCATGAAAATATTCATAAAATTTCTATTCCCTTTATTCTGGCCATGAACAGAGCTGAGACCTTTAAAGTTTTCTATGTATGGGTGGG
TCTGTTTCTAGACTGTCATTTACAATTCTATTGAATGATTTGTCTTTCCTTGTGTCAATACTACGCTGTCTTATTTAACCTAGCTTTATAAGTCTTGATA
TTATGTCAAGTCCTCCAGCTTTGTTTATAGAAGTATTTTATTTGCTTATGTTGTTTTGTTTTGCTTTCAATGTTTGTTTTTTATCCTGCCCACTCCACCA
ATTCTGGTTACAGTGGCTGGTGACTCTGTTTCTCCAGCTGCCCCACCCCTTCTCTTCCCACACTTATATAAGCCTCAAGTCCTATGTTAAAACTTTTTAT
TTCACGAAGTATTTGGAGTGTCTCTGTTTTCCTAACCCATATGAAAACATCTTTGTTCTGCCTTCATGCTTGAAGGATATTTTCACTGGGCACACAATTT
TAGATAGCCAGATGTTCTCTTTCAGTGTTATAAAGATGTCACCCATTTTGACTTTCATTATCTGAGTTAAAAAGTTATCTATAATTACTATTATTATCCT
TTGCAAGTAATCCACTTTTCCTTTTGGCTGCTTTAACATTTTTCTCTTTGTTTTTGTCTTTCAATTGTTTTCAAATGATATTCCTAGGTATAGTTTTCCA
TGTATGAATCCTAATTAATCTTAATCTTAATTAATCCTAATTAATATTAGGGTTCATACACCTTCCTGAATATGTGACTTGATGTCTGTTTTGGAAAATA
GATACTATCTCTTTAAAAATTGCTTCTATTCCATTTTCTCTTCTTTCTCTGGGACAATCAAACATATATCAGACGTCTTCATCATGTGTCATGTCTCCTT
CACACTTTTCTGCATTTTCTATTCTTTTTTCTTTCCGTGTGTAATCTGGATGCTTTCTGCATGCCTATCTTAAACTTCTAGTCTTTTCTGCTATGTTTGA
TCTGCTTTTAAATAAATCTATCAAATTCTTAATTTCAGTTCTTTTGATTTTTAGTGCTCGGGTTTTTATTTTACTCTTTTTATGCATTTTTGTTCTCTAT
GAAATTCTTTATATTTTGTTCCATCTTATTACACAGAATGATCAAGGTTGTTTTAAACCCTGTGTTTGATAACTCCAATATCTGGATCACCTGTGAATCT
GTACATTCTATTCTATGTTTTTCTCTTGGTGTTTAATCAGTTTTTCTGTTACCTGGAATGCCTGGTCATTTTCACTGAATGCCACAAAGTGTGTATCAAA
AATTATGTGGCTTTGGGTAATACTATCTTCCTCAAGAGGAGAATTTATTTTCTTCTCAGGCAGATAGAGTATAAAAAGACTACTTTGATTCAGCCAAGGA
TGGATTTCAGTCCTTTGGGGGTCTGGTTTATTTCTTTTGGGCCTTACCCCTATAATGTTGTCTTTGGGAGATGTCAACTAAGAGCCTGGGCTATTTGTGA
GGGCTCCTCCCCGTTAACATGTTTATATACCAATTTTTGTCTCTTCCCTTCTGTGAGGCTGCTAAAATCTCTGCTCTTCTAGCAGGTGGCTTTTGCATGA
TTATTTGCTGTCTCATTCCRCACACGCATCACTTATGAGGCAGAAAATTACCTTGAAGGGAAATTTCATGCAGGACATTGTATCTGCTTCATCATGATTA
TCTTTTATCTAGAAACTTGATCCCTTGAATCCTAACTACGTGTTGACTCTGAATTCCAATTTTTGTTTCTCCAGCCCATTGACACTATTAAAGGCTCTAA
GCCAGCAACCCCCGATCTTTTTGACACCAGGGACTGGTTTCATGAAAGACAATCTTTCCACAGACTGGTGCTGCAGGGAATAGTTTCAGGATGATTCAAG
TACATTACATTAATTGTGTACTTTATTTCTCTTATTACATTGTAATATATAATGAAATCCTTAAACAACTCACCATAATGTAGTAGTACTAGTGGGAGCC
CTGAGCTTAATTTCCTGTAAGTAGACGGTCCCATCCAGGGGTGATGGGAGACAGTGGCAGATCATCAGGCATTAGATTCTCATAAGGAGCACATAACCTA
GATCCCTCACATGTGCAGTTCACAATAGGGTTCACGGTCCCATGAGAATCTAATGCCACTGCTGATATAACAGGAGGTGGAGCTCAGGCAGTAATGCGAG
CAGTGGGGAGCTGCTGTAAATACAGATGAAGCTTTGCTTGCTAGCCCGCCGCTCATCTCCTGTTGTGAGGACCAGTTCCTAACAGGCCACGGACTGGTAC
CAGTCCATGGCCTGGGGAACTGGGGACTCCTGCTCTAAGCGACTGTATTCTGTTCACCTTTATGCCTCAGACTTAAAACCAGCAAAAGTCCTAGAGTAAA
AAGGCAGCAGCAAATGTAAGCCTCACCTCAGTGCTGTTCTCCTCTCTCTGGAATCTCCTCCCAATTCTTAACTTATCGCATTCCTCATTGTGCTCCAGTA
CCTTCAGCCATCTAAATTTTAT


SNP Information

Context             (SEQ ID NO:14902):
CTAACACCTCAGCTCTGATCCTGGAGGGCCTGGGATTCAACCTCACAGAAACCCCTGAAGCCGACATCCACCAGGGCTTCCGGAGCCTCCTCCACACCCT
K
GCCCTGCCCAGCCCCAAACTCGAACTAAAAGTAGGAAACTCCCTGTTCCTAGACAAGCGACTAAAGCCTCGGCAGCACTATTTGGACAGCATCAAGGAGC
Celera SNP ID:            hCV2786278
SNP Position Genomic:     31994
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:14903):
GGAACATGCCACCACACCCAGCTAATTTTTAAAAACATTTTGTAGAGGGGGTCTCCCTATGTTGCCCAGCCTGGTCTCAAACTCCTGGGCTCAAGCGATC
M
TCCCACCTCAGCCTCCCAAACTGCTGAGATTATAGGTGTGAGCCAACATGCCTGGCCAGGAGTTGCCATTGTTGTTGTTGTTATTGCTATTGTTTTATAG
Celera SNP ID:            hCV27205251
SNP Position Genomic:     31265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14904):
GCATTTTCAAAGAACTGAAACAAATTTAGTTGGGATAGAACATCAAACACAATAGCAGAATAATAGGAAGAAACCAAGAGTTGCAATGCAGAGGGAAACA
R
GGCCAGGTTGAGGGCTCCCAGCTTTATTCAGGGAACCTTAGAATTGCCGAAGACTTTTAAATGTGAAGTGACAGGATTACATATGTTTTAGGAAGCTCAA
Celera SNP ID:            hCV2786279
SNP Position Genomic:     32765
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14905):
GGCAAACATACGGGCAAGTCGTGGACTGCCTCCCGGAGTTCAGCCAGGACACGTTCATGGTTCTTGCCAATTACATCTTCTTCAAAGGTGAGGCTTGCTC
W
GACAGAATTATTGCCACTGCCTCTGCAAGTAAATGCTCTTACAGCAGAGAGCCAGCTAATAGGTTCTTTGCTAACCACTTGGGGAAATCTATGAATAAGA
Celera SNP ID:            hCV25929641
SNP Position Genomic:     32273
SNP Source:               Applera
Population(Allele,Count): african american(A,26|T,8)   caucasian(A,28|T,8)   total(A,54|T,16)
SNP Type:                 INTRON


Context             (SEQ ID NO:14906):
ACTTCAAGAATTTTGAGAGAAGAATCCCAAATATTCCTGCCAGTTAGACAAGAAAATGAAACAATACAACCCAAAGCACAATGACAATGATGCTGCAGCA
M
ATTTACTAGAAGCTGTCCTGTGAAAAGGGTGCTTAGGAGCTCTGGTCTGGAATCTGAGTCTTGCTCCTGCTCTCACCAGGCGGCTTGTCCTAACCCTGCA
Celera SNP ID:            hCV27205258
SNP Position Genomic:     28030
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14907):
TACTTACAAAGTGCTTAGAAGAATTCCTAGAAGATAGTAAGTGTTCAGTAAATGCTAGCTAATAATGTTATTATTAGTTCTGTAATTAGTATGGTGAGTA
Y
AAAAAATATGGAGAATAGCAAAAAGATTAATCATGAGATAAAAAAGGAATGTCCACGTTTTATGTTCTGTCTCTTAGCAATATATTTTTGGCATCTTAGA
Celera SNP ID:            hCV11665450
SNP Position Genomic:     13828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14908):
CTGCAGATGGATTACAAGGGAGATGCCGTGGCCTTCTTTGTCCTCCCTAGCAAGGGCAAGATGAGGCAACTGGAACAGGCCTTGTCAGCCAGAACACTGA
K
AAAGTGGAGCCACTCACTCCAGAAAAGGTGGGCATCTGTGTCAATCTCCTGGGCCCTGAGGCAGGGGATGCACACATTCAAAGATGAGGGAGAGATTGTG
Celera SNP ID:            hCV25928952
SNP Position Genomic:     13274
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,8)   caucasian(G,15|T,19)   total(G,43|T,27)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14909):
TTTGGCATCTTAGAATGATTTTAGCAGCGTTCCCTGGTGCTCATAGTCTGGGAAGAGAGAAGGAAGGCTGCAGTGTAACTGGAATTCAAGAAAGAGATTG
R
GCAATGCCCCACGGGAGGGCAGGAAAGGTGCTGAGGAGTTTCTGAGCAGAGAGAGATCACTTTCAGCTGGGACTGAGGGACAGCTTCAAGGAGGCGGTGG
Celera SNP ID:            hCV11665451
SNP Position Genomic:     14015
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14910):
CCTACTATATGTAAAGCAGATAAAGGGTTGCTACCTTCACTGAAGCCTCGGAGGAAAGTGTCCAGAATCCTAATCATCCACAGCCTTGTCTTCTTCAGTG
Y
CCCTCATGGCAGCCCTGTGGGGCACATTGTGAAGGTGGGATTTGTGGTATGAGCAATAGAGAATCATGACATTATTTATGGAGAAAAGTGACATGTTCAC
Celera SNP ID:            hCV27841229
SNP Position Genomic:     31499
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,38)   total(C,63|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14911):
CCGCCCTTCCTCCACAAAGAGCACCCCTGCCTCACAGGTGTATTCCCTCAACACCGACTTTGCCTTCCGCCTATACCGCAGGCTGGTTTTGGAGACCCCG
R
GTCAGAACATCTTCTTCTCCCCTGTGAGTGTCTCCACTTCCCTGGCCATGCTCTCCCTTGGGGCCCACTCAGTCACCAAGACCCAGATTCTCCAGGGCCT
Celera SNP ID:            hCV25929790
SNP Position Genomic:     10766
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,6)   caucasian(A,36)   total(A,66|G,6)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14912):
CGGCAATGGTCCCGCTTCCATACTCTGAGTCCTGAGAGCAGCACAATGAGCAATGGGCCACGGTTGCACTACAGCAAAGGCAGCTCGTGTCCTTTGAGTC
M
GACCCACCGTCCCTCCTTCCCTCGTTGCCTGACAGGCTGTGCTGGCACCTCTATGTCACCCCCATTACCGAGGGCATCTCTGGCAGCCTCAGTAGAGCCC
Celera SNP ID:            hCV11665453
SNP Position Genomic:     18428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14913):
AGCTAATAATGTTATTATTAGTTCTGTAATTAGTATGGTGAGTATAAAAAATATGGAGAATAGCAAAAAGATTAATCATGAGATAAAAAAGGAATGTCCA
M
GTTTTATGTTCTGTCTCTTAGCAATATATTTTTGGCATCTTAGAATGATTTTAGCAGCGTTCCCTGGTGCTCATAGTCTGGGAAGAGAGAAGGAAGGCTG
Celera SNP ID:            hCV29386718
SNP Position Genomic:     13884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14914):
TGCTCAGACATGGCTCCAGCCTCCTGCAGAGTAGGCAAGAAGATGTCCTACAGTAGCACAAAGGAGATAGTAGGTGTGAAGAAGTGACTAATGACACTTG
Y
TGTTCACAACTAGTTTTTTCCAGAAACTATGAGGAACCCCAAGTAGTCAGCAGTGGGTGACGGCTGTCAGCATCCCTCCGACAGCCTTGCTTCCAGTGGC
Celera SNP ID:            hCV11665455
SNP Position Genomic:     19139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14915):
TGGAACTCCTGATCTCAGGTGATCCACCTGCCTCGAAAGTGCTAGGATTACAGGCGTGAGCCACCGCGCCCAGCCACCACCCCAGTTCTGAGGCTGGTGT
W
AATGCTTCTCCATCTCAGGGCAGCACACCAAGTGTCTACTGAGCCCATACATTGGGCACTTTTCCGTGCTGGTGGGGGAAGGGGGAAGGAGGACAGGAAG
Celera SNP ID:            hCV9596744
SNP Position Genomic:     7196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14916):
TGAAATTGCTATCAGGTCATTTAGTCTGAAGTCTCCTTGGGGCCAAAGCCATGTCAGCTGAGGCTTGAAGGGGAAGCAGACAGATGTGACTAGAACTGCA
R
CTCATCAGCAACTGACTGCCAGTGCTCAGGGCACCTGAAGGAGCACAGCAAAAAGGACAGCCTTTTGCTCCAGGTTTCCACTTTTTGAGAGATATGAACA
Celera SNP ID:            hCV29386719
SNP Position Genomic:     9964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14917):
AACCAACCCAAATACCCATCAATCAATGAGTGGATAAAAAAACTGTGGTGTATATATATATATGATGGAATACTACTCAGCCATAAAAAGGAACGAATTA
R
TTGCATTCACATCAGCCTGGGTGGACCTTGAGACTATTATTCTAAGTGAAGTAACTCAGGAATGGAAAACCAAACATCGTATGTTCTCACTCATAAGTGG
Celera SNP ID:            hCV11665457
SNP Position Genomic:     27021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14918):
CTTGGCAGGCAACCCACAAGGCTGTGCTGGATGTCAGTGAAGAGGGCACTGAGGCCACAGCAGCTACCACCACCAAGTTCATAGTCCGATCGAAGGATGG
Y
CCCTCTTACTTCACTGTCTCCTTCAATAGGACCTTCCTGATGATGATTACAAATAAAGCCACAGACGGTATTCTCTTTCTAGGGAAAGTGGAAAATCCCA
Celera SNP ID:            hCV2786240
SNP Position Genomic:     17199
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,16)   caucasian(C,7|T,33)   total(C,29|T,49)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14919):
TACCCATCAATCAATGAGTGGATAAAAAAACTGTGGTGTATATATATATATGATGGAATACTACTCAGCCATAAAAAGGAACGAATTAATTGCATTCACA
K
CAGCCTGGGTGGACCTTGAGACTATTATTCTAAGTGAAGTAACTCAGGAATGGAAAACCAAACATCGTATGTTCTCACTCATAAGTGGAGCTAAGCTATG
Celera SNP ID:            hCV11665459
SNP Position Genomic:     27033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14920):
TCTTTCTAGGGAAAGTGGAAAATCCCACTAAATCCTAGGTGGGAAATGGCCTGTTAACTGATGGCACATTGCTAATGCACAAGAAATAACAAACCACATC
M
CTCTTTCTGTTCTGAGGGTGCATTTGACCCCAGTGGAGCTGGATTCGCTGGCAGGGATGCCACTTCCAAGGCTCAATCACCAAACCATCAACAGGGACCC
Celera SNP ID:            hCV2786241
SNP Position Genomic:     17373
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,34)   caucasian(A,8|C,30)   total(A,10|C,64)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14921):
GGTATGGGTAGTGGCATGGTCCGCCATAGTGAACAGTGTCATGGGAAGACTGGTTGCTTCTCACGCTGGGAAATGCCTCTCTCCCATGGCTCAGGCTGCC
R
ACAGACAGAGCAGGAGTGGCACATATTAACAAGAGAGCACCATTTCTCTGTCTGTTTCTCTCTCCAGTCTGTTGGATTTGCACTTGCCAAGGTTTTCAAT
Celera SNP ID:            hCV25924021
SNP Position Genomic:     37096
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,5)   caucasian(A,26|G,4)   total(A,49|G,9)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14922):
AAGACCCAGATTCTCCAGGGCCTGGGCTTCAACCTCACACACACACCAGAGTCTGCCATCCACCAGGGCTTCCAGCACCTGGTTCACTCACTGACTGTTC
Y
CAGCAAAGACCTGACCTTGAAGATGGGAAGTGCCCTCTTCGTCAAGAAGGAGCTGCAGCTGCAGGCAAATTTCTTGGGCAATGTCAAGAGGCTGTATGAA
Celera SNP ID:            hCV25929503
SNP Position Genomic:     10944
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,35|T,1)   total(C,67|T,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,34|T,2)   total(C,62|T,2)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14923):
GGTTGTTGTCTAGAGGCAGTTTGGTTGAGAAGGATTAATTCAGTGTTTGCAAGCAATCTGAGCTGCTCAGTCAGTCATCCCAGCTCTGCAAATTAGTATG
W
TTAAATAAATTCACAAAGACTCAGTTTGATCATCCCTGATATGGGAATAATACTTATTTCTTATTAATTTTTATGACAATTTAAAGAGATAATGTCTAAC
Celera SNP ID:            hCV2786280
SNP Position Genomic:     33406
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14924):
CACAGACAAGTCAACCATGCTATTTGGGGTAAGTTGCACAGACTCTCTGTGGCCTGTTTACTCATTTGCAAGTAAAACAGCAATAATAAGATCTACATCA
W
GGGAATATTGTGAGGCTCAGAGATTATGTGAGAGAGCTCTGCTAACTGGCCTATCTGTCCTCATTCTGCTGCTGATGGCGTGGGGGTGTTAAAGGGTCTC
Celera SNP ID:            hCV27835532
SNP Position Genomic:     10399
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(A,2|T,36)   total(A,2|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:14925):
AGTTTGGTTGAGAAGGATTAATTCAGTGTTTGCAAGCAATCTGAGCTGCTCAGTCAGTCATCCCAGCTCTGCAAATTAGTATGTTTAAATAAATTCACAA
W
GACTCAGTTTGATCATCCCTGATATGGGAATAATACTTATTTCTTATTAATTTTTATGACAATTTAAAGAGATAATGTCTAACACATGGAAGGTGCTTAG
Celera SNP ID:            hCV2786281
SNP Position Genomic:     33423
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14926):
AATTTAAAGAGATAATGTCTAACACATGGAAGGTGCTTAGTAGATGGAAAAATACCTTTTGGCTTGTTAGAAGCTAAGTTCCTCTGAAATGGAACAAAAT
Y
GTAGGCTGTTAGTGCTCAAACACTGGTGACTTGTCCTAGAGACTGAGCCAGGCCTAAATTCTGGTCTCCTGGCTCTGTAACCATTCCACATTTTTTGCCA
Celera SNP ID:            hCV2786282
SNP Position Genomic:     33584
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14927):
CAGAGTTGCTCTCTTGAAAAGAGTTCTCATGGCCTTATGGGTTTTGTGTCCTAAGCCAAGTGGAAGCACCCTTTCAGTCGCTACCAGACCCAGAAGCAGG
M
AAGTTTCTTTGTGGATGAGAGGACTTCTCTCCAGGTCCCCATGATGCACCAAAAGGAAATGCACAGATTCCTCTATGACCAGGATTTGGCTTGCACCGTC
Celera SNP ID:            hCV2786283
SNP Position Genomic:     33831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14928):
GTGCAGTGGCACAATCTTGGCTCACTGCAACCTCTTCTGCTTCCCAGGTTCAAGGGATTATCCAGCCTCAGCATCCCAAGTAGCTGAAATTACAGGCACC
Y
GCCACCCTGTCAGGCTAATTTTTATATTTTTAGTAGAGACGGGGTTTCAACATGTTGTCCAGGCTGGTCTAGAACTCCTGGCCTCAAGTGATCCACCTGC
Celera SNP ID:            hCV29386976
SNP Position Genomic:     20415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14929):
GAAGTGACTAATGACACTTGTTGTTCACAACTAGTTTTTTCCAGAAACTATGAGGAACCCCAAGTAGTCAGCAGTGGGTGACGGCTGTCAGCATCCCTCC
R
ACAGCCTTGCTTCCAGTGGCACTTTACAGTGAAAGCAAGCTTAGGTGGCAACCTGGTGCCCACTCAGACTTGCATTGGCAAGCAGATACAAAAACAGCCG
Celera SNP ID:            hCV29386977
SNP Position Genomic:     19219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14930):
CAGGTCTTGATCAACTCCAGCTGCAAAAGCCCAACATCCATCTCGATTAGGCTCACCATCTTGTCCTTTACTAACTGTGTGATCTTGGCAATTTTCTCAC
M
TTTTTTGGGCCTCTACTGTAAAACTAAGAACATGATACCTGCCTCATTGGGTTGCTCAGTAGATTCATTGAGTTTCTACCCATAGAGAATGTAGAACTTA
Celera SNP ID:            hCV2786286
SNP Position Genomic:     34210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14931):
TCCCCATTTCAGTTTGCTGTCTTTGCCTCACTAATTGTACTTTGACATAAAGACTTCTTTTCTCTCTTTGTGCTAGCCAAGTGGGAAAAGCCCTTTCACC
Y
TGAATATACAAGAAAGAACTTCCCATTCCTGGTGGGCGAGCAGGTCACTGTGCATGTCCCCATGATGCACCAGAAAGAGCAGTTCGCTTTTGGGGTGGAT
Celera SNP ID:            hCV25924894
SNP Position Genomic:     13052
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,4)   caucasian(C,12|T,4)   total(C,40|T,8)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14932):
GTTGCACTACAGCAAAGGCAGCTCGTGTCCTTTGAGTCAGACCCACCGTCCCTCCTTCCCTCGTTGCCTGACAGGCTGTGCTGGCACCTCTATGTCACCC
Y
CATTACCGAGGGCATCTCTGGCAGCCTCAGTAGAGCCCTTGCTCCCATCAGATCCAAAGGCTCCTCTTCTGGGGGCCCCGGTGCCCCACACACCTCGGAT
Celera SNP ID:            hCV29386978
SNP Position Genomic:     18490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14933):
CTTGGAAAAAATAAAAAAAGAAGACCATGAGCAAGATTAACCAAGAAGAGAGAAAATCCAAATAAGCTCAATTAGAAATGAAATGAAAGATTTTAAAACC
R
ACACCACAGAAATACAAAAGATCATTCAAGGCTACTATTAACACCTTTATGTGCATAAACTAGAAAAGCTAGAGGAGATGGATAATTTCCTGGAAAGATC
Celera SNP ID:            hCV27205260
SNP Position Genomic:     24543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14934):
AATCCCAGTGCTTTGGGAGGCCAAGGTGAGAGGATTACTTGAGGCCAGGAGTTTGAGACTAGCTTGGGCAACATAGCAAGACCCTGCCTCTATGCAAAAT
D
AAAAAAAACATATATAGCTGGACATGTTGATGCATGCCTATAGTCCCAACTACCTGGGAGGATGAGGAAAGAGGATCACCTGAGCCCAGGAATTTGAGGT
Celera SNP ID:            hCV2786287
SNP Position Genomic:     34640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14935):
GCTATGATTGTGCCACTGCACTCCAGTCTGGGCAACAAAGCTAGATCCTATCTCTAATAAAAAATTATTATTATCATTATATTGTTAAAGGGTGCTTCTA
Y
TTTAATTAAAACATGTTTAAAAAATTAAATATTAAGAACATTGTAAACATTAAAGTTCCTGTTTTATGTGATCTCTAAACTATTTCCCATCTCACTTGCT
Celera SNP ID:            hCV2786288
SNP Position Genomic:     34849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14936):
TCAGAGCAGAACTGAATGAAATTGAAACAACAACAACAAAATAGCAAAAGATAAATGAAACAAAAAGCTGGTTCTTGGAAAAAATAAAAAAAGAAGACCA
Y
GAGCAAGATTAACCAAGAAGAGAGAAAATCCAAATAAGCTCAATTAGAAATGAAATGAAAGATTTTAAAACCGACACCACAGAAATACAAAAGATCATTC
Celera SNP ID:            hCV27205261
SNP Position Genomic:     24470
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14937):
ACCGGCTGACGAGGGCTAATGCGTGGGCTGTGAAGGTCTCCCCGGGTGCCGTGGACCAGTTTCCCATCTCCTCGCGGCTGGCTGCCTTCCTGACTCCGAT
R
ACGTCATGTGTGCACACACAGCCCTCCGGGTGCTCAGCCCCTTCCCTGCGGGTTTGTAACGGCAATGGTCCCGCTTCCATACTCTGAGTCCTGAGAGCAG
Celera SNP ID:            hCV29386979
SNP Position Genomic:     18268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14938):
ATTTTGTGTTTGGGCAGAGATTAAAACACCAAATAAGAGGCACGGGCCAAGGGGAGAGGCCAGGATTTAAGAGATTATTCCTGTTGTCCATGAAGCTCCA
Y
GGCTCTAGTCAGTTGCTAATTTCAGCCCCATAGTCCCTGGCTCCTTTGGGGTGAGTCTTCTCCTTGCCCCCATCACAGAAGGGAGTGCCATAGACTCTTC
Celera SNP ID:            hCV2786289
SNP Position Genomic:     35780
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14939):
CTCACATAAATGTAAGGTAAAGGGGTGGAAATAGACATTCTATGCAAATAGACACTAAAAGCAAACAGAAGTGGCTATACTTATATCAGACAAAACAAAC
Y
TTAAAGCAACAGCAGTTAAAAAAGATAAAGAGGGACATTATATAATGATAAAAGGCCTTGTCCAACACAAAAATATTACAGTCTTAAATATATATGCACC
Celera SNP ID:            hCV27205262
SNP Position Genomic:     23594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14940):
GTCAGCCAGAACACTGAGAAAGTGGAGCCACTCACTCCAGAAAAGGTGGGCATCTGTGTCAATCTCCTGGGCCCTGAGGCAGGGGATGCACACATTCAAA
R
ATGAGGGAGAGATTGTGCTAACAGCTGTTGGATAATCACTTCTGCACAGTGAGCACCAACTGCATGCAGGACAGAGAGCCTGGGGCTGTCTATACATGTT
Celera SNP ID:            hCV25929619
SNP Position Genomic:     13357
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,23)   caucasian(A,2|G,36)   total(A,17|G,59)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14941):
AAACCCCCAGCTGAACCTTGTAACAATTCCAACTGAACAGGAAGTCTCCTGGCCAGAACTCAAGGGAGGGCCTGAATCTGGTGTGCAGACTCCACAGGCC
R
ATAGGCGTGAAAGCCCTACTTGTTCTCATAAGTGGGAGGCTGGTAGCCTGGGGCAAGTTCTCAGCCCTTCCTGCCCACTGCCTATAAACAAACTTGGTGC
Celera SNP ID:            hCV27205263
SNP Position Genomic:     21428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14942):
GAAACCCCCAGCTGAACCTTGTAACAATTCCAACTGAACAGGAAGTCTCCTGGCCAGAACTCAAGGGAGGGCCTGAATCTGGTGTGCAGACTCCACAGGC
Y
AATAGGCGTGAAAGCCCTACTTGTTCTCATAAGTGGGAGGCTGGTAGCCTGGGGCAAGTTCTCAGCCCTTCCTGCCCACTGCCTATAAACAAACTTGGTG
Celera SNP ID:            hCV27205264
SNP Position Genomic:     21427
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14943):
ACCCACAAACCCTCTGAAGGAAGGAGGTTGCTCCTGCAGAACCCAAGAGACAGTCCAAATATTGTGAGTGCCCAAGCTGTGAAAGTGGGAAAGGTGGATT
K
TCTGTCACTGAACACACACCCTCACTGGGGCACCTGAAGGTCTAGATCATGGGAGAAGGATCTGACCTTATCTGGAGCTGAGTCAATTTAGAGAGCCAAG
Celera SNP ID:            hCV27205265
SNP Position Genomic:     21092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14944):
GAGACTAGCTTGGGCAACATAGCAAGACCCTGCCTCTATGCAAAATGAAAAAAAACATATATAGCTGGACATGTTGATGCATGCCTATAGTCCCAACTAC
M
TGGGAGGATGAGGAAAGAGGATCACCTGAGCCCAGGAATTTGAGGTTACAGTGAGCTATGATTGTGCCACTGCACTCCAGTCTGGGCAACAAAGCTAGAT
Celera SNP ID:            hCV9596712
SNP Position Genomic:     34694
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14945):
CCACCAGGGCTTCCGGAGCCTCCTCCACACCCTTGCCCTGCCCAGCCCCAAACTCGAACTAAAAGTAGGAAACTCCCTGTTCCTAGACAAGCGACTAAAG
Y
CTCGGCAGCACTATTTGGACAGCATCAAGGAGCTTTATGGAGCTTTTGCTTTTTCTGCCAACTTCACAGATTCTGTTACAACTGGGAGGCAGATTAATGA
Celera SNP ID:            hCV25930736
SNP Position Genomic:     32061
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,38|T,2)   total(C,70|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14946):
GAGAGAGCTCTGCTAACTGGCCTATCTGTCCTCATTCTGCTGCTGATGGCGTGGGGGTGTTAAAGGGTCTCTGATTCAGGGCCTGGACCCTCAGTTTACC
M
CCTCAATGGTTCTTACTTCTCTTGCAGACATATTTTGTTCCAAAATGGCATCTTACCTTTATGGAGTACTCTTTGCTGTTGGCCTCTGTGCTCCAATCTA
Celera SNP ID:            hCV25930915
SNP Position Genomic:     10529
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(A,1|C,31)   total(A,2|C,66)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(A,3|C,35)   total(A,4|C,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:14947):
GGAAGTCTCCTGGCCAGAACTCAAGGGAGGGCCTGAATCTGGTGTGCAGACTCCACAGGCCAATAGGCGTGAAAGCCCTACTTGTTCTCATAAGTGGGAG
K
CTGGTAGCCTGGGGCAAGTTCTCAGCCCTTCCTGCCCACTGCCTATAAACAAACTTGGTGCTGTTTGGGGGGACATGGTGGGAGTGAGACTGGTCTTTTG
Celera SNP ID:            hCV27960691
SNP Position Genomic:     21467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14948):
CGCTCACCATGTGCTGGGTCCCGTGCTGCACAATTTGTGCCTTATCACACTCAGTCCTCTGAACAACTCTGTAAGGTAACTATCTCTGTTTTACAAAGGC
R
AAACAGAGAAGTCCAGAGAGGTTACTTGTCCACCACGAATGTCAGGGTTAGATTCAAGCCCAGCCCTGTTGGGGTTTGAAATTGCTATCAGGTCATTTAG
Celera SNP ID:            hCV29386720
SNP Position Genomic:     9787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14949):
CTTTCCCCTCTGGCTGAGCACAGACCTCCCCTGGCCTTGCATTGGATTCATACACCTTCCTTCTCTAAAATGACCACTTACTGTTGTATCTCAGGGTCAA
Y
GCACAGGGTTGGAGCTCCTCTGTAAAGTTGTGTTAAAGGAAATGAAATCTTTCTGATGAAACTGAACAGGTGAGGGTGCTGTAGGCAGGGCTGGGGAGAC
Celera SNP ID:            hCV29386721
SNP Position Genomic:     9505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14950):
GCCATAAAAAGGAACGAATTAATTGCATTCACATCAGCCTGGGTGGACCTTGAGACTATTATTCTAAGTGAAGTAACTCAGGAATGGAAAACCAAACATC
R
TATGTTCTCACTCATAAGTGGAGCTAAGCTATGAGGATGGGAAGACATGAGAATGATACAATGGACTTCGGGGACTCGAGAGAAAGAGTGGGAGCGGGGT
Celera SNP ID:            hCV11665460
SNP Position Genomic:     27100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14951):
GATGAAGGGCAAGGGGGATTATGAAGGCACTGTGCTTGTGAAAAGGATGATGGGGGGAAGGACATCCAGGTCATGGGGGGGAAATTATAAAATTTGTGAG
R
AGAGAAAAGCCTTCAGACGGATGTGACCTATTGGAGCACACACCTGCTTTGCTTTCCCCTCTGGCTGAGCACAGACCTCCCCTGGCCTTGCATTGGATTC
Celera SNP ID:            hCV29386722
SNP Position Genomic:     9353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14952):
ACCTGCCTCGAAAGTGCTAGGATTACAGGCGTGAGCCACCGCGCCCAGCCACCACCCCAGTTCTGAGGCTGGTGTAAATGCTTCTCCATCTCAGGGCAGC
M
CACCAAGTGTCTACTGAGCCCATACATTGGGCACTTTTCCGTGCTGGTGGGGGAAGGGGGAAGGAGGACAGGAAGCAGGTGTGTAGAGCAATGAGGAACA
Celera SNP ID:            hCV15841874
SNP Position Genomic:     7221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14953):
GGGCAGATACTTTGAAAAAAAAGAGCCCTTCCTGTTTGCTGTGCATTGTCTTCATACCAGTTCCCAGAATTGACCTGACAAATATTGACCAGGTTGCTGT
S
ATCTTCAAACACCATTTTCCTGTGGGTAGAGGTGATGCAGTGCTGAAGACCTGGGCCCCTGCTCAGTGCCTTTGCTCTGTAAGTACTTTGCCTGTGCCCA
Celera SNP ID:            hCV11665461
SNP Position Genomic:     27595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:14954):
AGGAGCTGCAGCTGCAGGCAAATTTCTTGGGCAATGTCAAGAGGCTGTATGAAGCAGAAGTCTTTTCTACAGATTTCTCCAACCCCTCCATTGCCCAGGC
R
AGGATCAACAGCCATGTGAAAAAGAAGACCCAAGGGAAGGTTGTAGACATAATCCAAGGCCTTGACCTTCTGACGGCCATGGTTCTGGTGAACCACATTT
Celera SNP ID:            hCV25928858
SNP Position Genomic:     11092
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,36)   total(A,1|G,71)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:14955):
GGGCATCTCTGGCAGCCTCAGTAGAGCCCTTGCTCCCATCAGATCCAAAGGCTCCTCTTCTGGGGGCCCCGGTGCCCCACACACCTCGGATGTGCCAGGG
R
CCTCATGTAGGCTTTCTCATGCTATTTTATAAGGAAAGAAACAAAACAGAAAGGAGTTATGCTGGAGAGCTGGCAGAAGTCCCAGGGGAACCTAACCCCC
Celera SNP ID:            hCV15841769
SNP Position Genomic:     18600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14956):
GGCATCCAGGAGGGGCATTTGTAGCAGAGTATGCTATGCCTGAGCAAGGGGTAGGTGAGTGGGAAGAGAAGGGAGGGAGGTGGACCCTGGGCTGTTGCTA
Y
TGGTGTTGACTGCAGAGGCTGCAGATAAATTCACTGGCCAGCAGTGGGGCCGAAGAGAGGGGAAGCAGTCAACTCTCAAGGCCACATGTCATAGGGTTCC
Celera SNP ID:            hCV29386723
SNP Position Genomic:     8207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14957):
TCCGCCATAGTGAACAGTGTCATGGGAAGACTGGTTGCTTCTCACGCTGGGAAATGCCTCTCTCCCATGGCTCAGGCTGCCGACAGACAGAGCAGGAGTG
R
CACATATTAACAAGAGAGCACCATTTCTCTGTCTGTTTCTCTCTCCAGTCTGTTGGATTTGCACTTGCCAAGGTTTTCAATTTCTGGAACATATAACCTG
Celera SNP ID:            hCV25923556
SNP Position Genomic:     37115
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(A,1|G,27)   total(A,2|G,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:14958):
GGCGTGGAGGCCGCGTCTAATAGGCCACCTCTGCTGATGGGAATGCGGATTCTTTAGGAGGCACAACCCAGCGTCAGTGGGGGCCCCCTGAGAGCCACCT
R
CCCCACTGCCAGCCTCCACAGAAAGGGGCACAGACCCCTGGTGCTTGTGGCATCCTGGCGCCTGGCAGCACCCGCTTCCCCTCCATGTGGCTGATGTCCT
Celera SNP ID:            hCV29386724
SNP Position Genomic:     6206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14959):
CCATTAACCCCAGTCAGTGCCCTTTTCCACAAATTCTCCCAGGTAACTAGCTTCATGGGATGTTGCTGGGTTACCATATTTCCATTCCTTGGGGCTCCCA
R
GAATGGAAATACGCCAACCCAGGTTAGGCACCTCTATTGCAGAATTACAATAACACATTCAATAAAACTAAAATATGAATTCATCTGTCAACAGAGTCCT
Celera SNP ID:            hCV16190625
SNP Position Genomic:     17591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14960):
ACCCAAGCCCAAAAGAAACAAGACTTGGGGCGTGGAGGCCGCGTCTAATAGGCCACCTCTGCTGATGGGAATGCGGATTCTTTAGGAGGCACAACCCAGC
R
TCAGTGGGGGCCCCCTGAGAGCCACCTGCCCCACTGCCAGCCTCCACAGAAAGGGGCACAGACCCCTGGTGCTTGTGGCATCCTGGCGCCTGGCAGCACC
Celera SNP ID:            hCV29386725
SNP Position Genomic:     6178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14961):
GACTTCAGGTGGGTCTCCCCTACTCAACCCAAGCCCAAAAGAAACAAGACTTGGGGCGTGGAGGCCGCGTCTAATAGGCCACCTCTGCTGATGGGAATGC
R
GATTCTTTAGGAGGCACAACCCAGCGTCAGTGGGGGCCCCCTGAGAGCCACCTGCCCCACTGCCAGCCTCCACAGAAAGGGGCACAGACCCCTGGTGCTT
Celera SNP ID:            hCV29386726
SNP Position Genomic:     6152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14962):
TTGTGAAAAGCAGAGACTTACCTGAAGTCACATGGAGGCCAGTACCATCGATGACTCAGGACATTTACTAGCCAACTCCCCGACTTCAGGTGGGTCTCCC
Y
TACTCAACCCAAGCCCAAAAGAAACAAGACTTGGGGCGTGGAGGCCGCGTCTAATAGGCCACCTCTGCTGATGGGAATGCGGATTCTTTAGGAGGCACAA
Celera SNP ID:            hCV29386727
SNP Position Genomic:     6071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14963):
AAGAGAGGGCCTTTTGAGACCACCTCTTCCTGAAGTCTTGTGAAAAGCAGAGACTTACCTGAAGTCACATGGAGGCCAGTACCATCGATGACTCAGGACA
Y
TTACTAGCCAACTCCCCGACTTCAGGTGGGTCTCCCCTACTCAACCCAAGCCCAAAAGAAACAAGACTTGGGGCGTGGAGGCCGCGTCTAATAGGCCACC
Celera SNP ID:            hCV29386728
SNP Position Genomic:     6034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:14964):
ACTCAGAAGAGAGGGCCTTTTGAGACCACCTCTTCCTGAAGTCTTGTGAAAAGCAGAGACTTACCTGAAGTCACATGGAGGCCAGTACCATCGATGACTC
R
GGACATTTACTAGCCAACTCCCCGACTTCAGGTGGGTCTCCCCTACTCAACCCAAGCCCAAAAGAAACAAGACTTGGGGCGTGGAGGCCGCGTCTAATAG
Celera SNP ID:            hCV29386729
SNP Position Genomic:     6028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:14965):
ACCCTGTTTGCACTGCAGTTCCCCCTCCAGCTCAGGCTGCATTCCCAGCCCTAAAACAAGGGGTCTTCCTGCTCCTGTACCACTTTGATCCCTGGAAGTG
R
AATAAAGGCTCTTCTGGCACATTTTGTAACTTAAAATAAAGCACAAGAGATATCACATTAGTTTGCAAGGGCTATCTTAATAAATACTACATGCCAGGCA
Celera SNP ID:            hCV11665466
SNP Position Genomic:     29689
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14966):
TCCCTACTCCACAGGTGGATAGAGGTGTTCATCCCCAGATTTTCCATTTCTGCCTCCTACAATCTGGAAACCATCCTCCCGAAGATGGGCATCCAAAATG
Y
CTTTGACAAAAATGCTGATTTTTCTGGAATTGCAAAGAGAGACTCCCTGCAGGTTTCTAAAGTGAGTTGAATGAAAATATTTGCAAAACAGTCCAAGCTG
Celera SNP ID:            hCV25925481
SNP Position Genomic:     15642
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,18)   caucasian(C,33|T,7)   total(C,51|T,25)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14967):
GCCCTAAAACAAGGGGTCTTCCTGCTCCTGTACCACTTTGATCCCTGGAAGTGGAATAAAGGCTCTTCTGGCACATTTTGTAACTTAAAATAAAGCACAA
R
AGATATCACATTAGTTTGCAAGGGCTATCTTAATAAATACTACATGCCAGGCAGCTTAAACAACAGAAATTTTTGACTCACAGTTCTGGAGGTTAGAAGT
Celera SNP ID:            hCV11665467
SNP Position Genomic:     29736
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14968):
AAGAGGAATTAAGAAATGAATTGGGCATCATTACCCCAGGCTTGATAGAAAGGGAAAAAAACTGCCATTGAGTACTTTCGGCATGCCTGGAGCTTTGTAC
W
TTGACTGTCATATAATCCCGAAATGGCCCCACACCCAGGAGGTGGGCAATATCATTTGCATTTTGCAAAGGGAGACACTGAGTTTCAGACAGCTGCTTTT
Celera SNP ID:            hCV2786253
SNP Position Genomic:     28626
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:14969):
CAGCCTCTGCTTGTGACAAGAGGCATCCCAGATATCAGAGGCTGGACAGAGACATGGAGACAGAGTTGCTCTCTCTCATCGCTCCTCTAGGCTCCATCAG
Y
CCTGCTACTTTGCTCCCCACTCCTGGGCTGTCTTCATCCACACATCCAGATGGCCGATCCTCACATCGCCACTCCAGCTAATGAACGACTGGAAAGGGGG
Celera SNP ID:            hCV2786254
SNP Position Genomic:     30353
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:14970):
TGTTTATATACCAATTTTTGTCTCTTCCCTTCTGTGAGGCTGCTAAAATCTCTGCTCTTCTAGCAGGTGGCTTTTGCATGATTATTTGCTGTCTCATTCC
R
CACACGCATCACTTATGAGGCAGAAAATTACCTTGAAGGGAAATTTCATGCAGGACATTGTATCTGCTTCATCATGATTATCTTTTATCTAGAAACTTGA
Celera SNP ID:            hCV29386947
SNP Position Genomic:     43020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:14971):
AGGGTGCATTTGACCCCAGTGGAGCTGGATTCGCTGGCAGGGATGCCACTTCCAAGGCTCAATCACCAAACCATCAACAGGGACCCCAGTCACAAGCCAA
M
ACCCATTAACCCCAGTCAGTGCCCTTTTCCACAAATTCTCCCAGGTAACTAGCTTCATGGGATGTTGCTGGGTTACCATATTTCCATTCCTTGGGGCTCC
Celera SNP ID:            hCV29386980
SNP Position Genomic:     17488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14972):
ATTCTTAAAAAATAAGTCCATGAAGCAGAAACATCAAAAAGCATGGGATTTGGAATTTGAGACCTGACTTTGAAGCCCACACAGAACACAGACAAGTCAA
Y
CATGCTATTTGGGGTAAGTTGCACAGACTCTCTGTGGCCTGTTTACTCATTTGCAAGTAAAACAGCAATAATAAGATCTACATCATGGGAATATTGTGAG
Celera SNP ID:            hCV2361143
SNP Position Genomic:     10313
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14973):
CACTTGCTTTGTATGATCTCTCTTAATTTACACAATAACCTTACGGGGCATATGCAGTTATTATTACCTTTTATAGATCGGGAACCTGAAGCACGCAGCA
Y
CTTAATAATTTTGCAACCATAAGTGGCAGAACTGAGACTCACTCCGGTCTTCCTGCTCTGTGTTTGTAACCATCTCAATCCCGGTGTAAGGACCAATGGG
Celera SNP ID:            hCV29386981
SNP Position Genomic:     16833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14974):
GCCTCAAGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCAGCCCCTTCCAATCTTTTTATTCATACACAGAT
Y
ATATTTTATTTGAAGCATCAACAAAATACTGGAATGGTTTGGTGTGGTAGTGAAGGCTTGGACTGGGGGATAGGATCCAAGTTCTGAGTGTGGCCCCATC
Celera SNP ID:            hCV2361144
SNP Position Genomic:     20596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14975):
TCTTTTTATTCATACACAGATTATATTTTATTTGAAGCATCAACAAAATACTGGAATGGTTTGGTGTGGTAGTGAAGGCTTGGACTGGGGGATAGGATCC
M
AGTTCTGAGTGTGGCCCCATCCGTCCACTTAATGAGCAAGTGACTTAACCTCACAGAGCCTCAGTTTCCCATCTACAAAGTAGGGATGACTGTGCCTCTC
Celera SNP ID:            hCV2361145
SNP Position Genomic:     20675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14976):
TAAGGATTAAATTAAATAAGACAAAGCAAGTGTTTCTCAACAAGGGCACTACCGGTATTTGGGCAGGACCACTCTTCATTGAATGTGACTATTCTGGGTG
Y
TTCAAGAGCTTTCGGGAGCCCAGCTGTTCCCCAACTAAACTCCAGCAGCATCCCTCCACCAGGCATTGAGCTGATCCAAAATGTCACCTCTATCTCCTTT
Celera SNP ID:            hCV2361146
SNP Position Genomic:     28286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14977):
AGACAGTGAAAAATAATCATGGCTGGGTGCAGCAGCTCAGACCTACAATCCCAGTGCTTTGGGAGGCCAAGGTGAGAGGATTACTTGAGGCCAGGAGTTT
R
AGACTAGCTTGGGCAACATAGCAAGACCCTGCCTCTATGCAAAATGAAAAAAAACATATATAGCTGGACATGTTGATGCATGCCTATAGTCCCAACTACC
Celera SNP ID:            hCV2361147
SNP Position Genomic:     34594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14978):
CCAGGAATTTGAGGTTACAGTGAGCTATGATTGTGCCACTGCACTCCAGTCTGGGCAACAAAGCTAGATCCTATCTCTAATAAAAAATTATTATTATCAT
Y
ATATTGTTAAAGGGTGCTTCTATTTTAATTAAAACATGTTTAAAAAATTAAATATTAAGAACATTGTAAACATTAAAGTTCCTGTTTTATGTGATCTCTA
Celera SNP ID:            hCV2361148
SNP Position Genomic:     34826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14979):
GTGTCCAGAATCCTAATCATCCACAGCCTTGTCTTCTTCAGTGCCCCTCATGGCAGCCCTGTGGGGCACATTGTGAAGGTGGGATTTGTGGTATGAGCAA
Y
AGAGAATCATGACATTATTTATGGAGAAAAGTGACATGTTCACCCTCTTGTTTTCAGAGAATGGGTCCAGCTTGGCTTTGGCTACTGGGAACAGGGATCC
Celera SNP ID:            hCV25930382
SNP Position Genomic:     31556
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,15)   caucasian(C,1|T,3)   total(C,2|T,18)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,23)   caucasian(C,5|T,33)   total(C,6|T,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:14980):
AGGAAAGAGAAGGAAAGAAAACTGGTATGGTTTGAGCCCTTACTAAGTTACCTTCAGTTTATGTTGTTCTATTTAACTAATTCTATTTTTAATTGAAATA
Y
AATTCACATGTCATAAAATTCACCATTTTATTGCTTTTTAGTATATTCACAAGTTTGGGCAACTACTCCGCTGTGTAATATCAGAGCATTTTTTTGTCAC
Celera SNP ID:            hCV25926107
SNP Position Genomic:     12817
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14981):
GAACTTCAGACTCTGCCATGTTTCACTCCATTCAGATGTGAGGCAGGTTAGCTTGCCAAGGGGAACTGCACTTCCTGGCACACCATTCGTGTATGTATTC
W
TTCACAGTTGTTAAACATCCACTGTGTTTTGGGCTCTCTGTCAGACCCCTGCCCCACTAGACTCTATTCCACCCCCCAGCCAACTGGCGCGGGTCTTGCT
Celera SNP ID:            hCV7854164
SNP Position Genomic:     36144
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,6)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:14982):
CTCCTGGGCCCTGAGGCAGGGGATGCACACATTCAAAGATGAGGGAGAGATTGTGCTAACAGCTGTTGGATAATCACTTCTGCACAGTGAGCACCAACTG
Y
ATGCAGGACAGAGAGCCTGGGGCTGTCTATACATGTTCACACTTGAAGTTCACTATCACCTGATGAGGAGTCTTAGTACCACTCATTACACAGATGAGGA
Celera SNP ID:            hCV25929488
SNP Position Genomic:     13420
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,1)   caucasian(C,34)   total(C,53|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:14983):
GGAGAGAGAAGGGGTGGCCACAGGAGGACAGGAGTTCAGGGTGGGGAGAAGCAAAGTGGGGAGTGTGGTGGATTTTAAGAGCTGACTGAATGAGCTTTGG
M
CACGGTTTTCCCCCAAGAGAGCAATGACCTGGGGGCCCTCAGACATAGATCCCAGACTCAGAAGAGAGGGCCTTTTGAGACCACCTCTTCCTGAAGTCTT
Celera SNP ID:            hCV29386730
SNP Position Genomic:     5872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:14984):
AAACAACAAAAACAAACAAACAAACAAAAAACAAAAACAGAAGAGCTGACACTCAAAGAGTAAAAACAACTAACCTAAGCCACAGGGCCTTCCTGTGCTG
R
CTTAGAACAAGGACCAATGGCCAGTTATGAAGGGCTCCCGCAACGCTGCCTGAAGCAAGGTTTGTTTTATACACAATGCTCTTCCCTCAGGCTCTCCATT
Celera SNP ID:            hCV9596726
SNP Position Genomic:     18887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14985):
ATGCTGGAGAGCTGGCAGAAGTCCCAGGGGAACCTAACCCCCTGGCCCTCACGCTCCCACTTTATTTCACAAACAGAACAAGCTGCCACTGCACTCCAGC
Y
TGGGCAACAGAGCAAGGCCCTGTCTCAAAACAACAAAAACAAACAAACAAACAAAAAACAAAAACAGAAGAGCTGACACTCAAAGAGTAAAAACAACTAA
Celera SNP ID:            hCV9596727
SNP Position Genomic:     18759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14986):
TCTTTTCTCTCTTTGTGCTAGCCAAGTGGGAAAAGCCCTTTCACCCTGAATATACAAGAAAGAACTTCCCATTCCTGGTGGGCGAGCAGGTCACTGTGCA
W
GTCCCCATGATGCACCAGAAAGAGCAGTTCGCTTTTGGGGTGGATACAGAGCTGAACTGCTTTGTGCTGCAGATGGATTACAAGGGAGATGCCGTGGCCT
Celera SNP ID:            hCV25924367
SNP Position Genomic:     13107
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,26)   caucasian(A,2|T,10)   total(A,6|T,36)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,28)   caucasian(A,2|T,10)   total(A,6|T,38)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14987):
CTGAGAAAGTGGAGCCACTCACTCCAGAAAAGGTGGGCATCTGTGTCAATCTCCTGGGCCCTGAGGCAGGGGATGCACACATTCAAAGATGAGGGAGAGA
W
TGTGCTAACAGCTGTTGGATAATCACTTCTGCACAGTGAGCACCAACTGCATGCAGGACAGAGAGCCTGGGGCTGTCTATACATGTTCACACTTGAAGTT
Celera SNP ID:            hCV25929599
SNP Position Genomic:     13370
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,35)   caucasian(A,7|T,33)   total(A,10|T,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:14988):
GCAGGTTTCTAAAGTGAGTTGAATGAAAATATTTGCAAAACAGTCCAAGCTGGAAGCACCTGCAGAATTAATCACACGCTCTTATTTCGTTGATAAGGAA
R
CAGAGGCCTGAAAGGTGAAGTCAGGGTCTTCTGCGGCCAGAAGAACCGAATCTTGCGGCCTATGGCCACCATCCCTCTGGCATGCAGCATTGTTATCCCT
Celera SNP ID:            hCV25926365
SNP Position Genomic:     15791
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,8)   caucasian(A,22|G,6)   total(A,46|G,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:14989):
TATGGAGTACTCTTTGCTGTTGGCCTCTGTGCTCCAATCTACTGTGTGTCCCCGGCCAATGCCCCCAGTGCATACCCCCGCCCTTCCTCCACAAAGAGCA
Y
CCCTGCCTCACAGGTGTATTCCCTCAACACCGACTTTGCCTTCCGCCTATACCGCAGGCTGGTTTTGGAGACCCCGAGTCAGAACATCTTCTTCTCCCCT
Celera SNP ID:            hCV25929889
SNP Position Genomic:     10689
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,32)   total(C,65|T,3)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:14990):
ACACCTCCTATAGTACCTGCATAATAAGCGTACATGTTCAACCCAATGGACCAAATGCATAAATTACACATTCAAAGAACCTAGAGATTATCTAAAGGCA
Y
GCGTGTGGTCAGTGATAATCCATTTGGTAATAGAAGTCGAGTAAATTTCAGAAGTGCCAGAAGAGAGAAGGGAGAGAGTGATGAAGTCACAACAGGAGAG
Celera SNP ID:            hCV2786229
SNP Position Genomic:     7916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14991):
CATCCAAAATGCCTTTGACAAAAATGCTGATTTTTCTGGAATTGCAAAGAGAGACTCCCTGCAGGTTTCTAAAGTGAGTTGAATGAAAATATTTGCAAAA
M
AGTCCAAGCTGGAAGCACCTGCAGAATTAATCACACGCTCTTATTTCGTTGATAAGGAAGCAGAGGCCTGAAAGGTGAAGTCAGGGTCTTCTGCGGCCAG
Celera SNP ID:            hCV25924943
SNP Position Genomic:     15731
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,31)   caucasian(A,5|C,35)   total(A,10|C,66)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14992):
ACCAGAGTCTGCCATCCACCAGGGCTTCCAGCACCTGGTTCACTCACTGACTGTTCCCAGCAAAGACCTGACCTTGAAGATGGGAAGTGCCCTCTTCGTC
M
AGAAGGAGCTGCAGCTGCAGGCAAATTTCTTGGGCAATGTCAAGAGGCTGTATGAAGCAGAAGTCTTTTCTACAGATTTCTCCAACCCCTCCATTGCCCA
Celera SNP ID:            hCV25929416
SNP Position Genomic:     10988
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,1)   caucasian(A,36)   total(A,69|C,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:14993):
CTTCACCAGCTAATACCTTCTTGGGGGTGCATCTTCTTTTATGGGGTACTCTGAGATGAAATCTGGTACTTAGTTCTACTTACTGCTTGCTGCATAACAA
S
CCACCCCAAAACCGAATGACTTAAGACAATCACTTCCTTGGTTCTATGGGTTAACTGGGCTCAGCTGGGCAGTTTTCATGTGTTGGAGTAGGTGGCAGCT
Celera SNP ID:            hCV27885675
SNP Position Genomic:     35107
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14994):
AGAAGTGATCCTGGGGCCACTGAAGGGGACCTTTGTCATTGGTTTTCAGAAAATGTTGAGAGGCCCCACTGGAATATGATGAACATAATGGACATTTTCT
Y
GAGGAAAGTGTATCTGTGAGCCTATGAAAAATAATGCCTGTAGTCACAGGAGCTCAAGCCTCCCTGAAGCTTAGAAATCCAGGAACTCCAGGTTAAGAAT
Celera SNP ID:            hCV27204804
SNP Position Genomic:     16530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14995):
CCTCCACCCTTCATCTACCCATCCAGCAAACTATCCACCCATTTATCCATCCATCAGTTCATCCATCTATCCATCCATCCATCCATCCATCCATCCATGC
R
TCCATTCATCCACCTAGCTAGCCATCTAGCTAGCCAACCACCTATCCACTAATCTATTCATCTATCTATCTCTCTATCGGTTCATCCATCCATCCATTCA
Celera SNP ID:            hCV27204805
SNP Position Genomic:     12500
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14996):
GCTGGGGAGGTGAGTCAGGGCCCAATAAATAAAGCTCTTGAATGTCAGGGGCTTGAGCATTTTTTCTGAGCTCAATGGGGAGCCATTGAGGAATTCGAGG
Y
GAGGTGAGTGATACACCAGATCAGCATCTGGAAAGGTCACCCTGTCTGCAGGGTGGAGGAGCGCTTGGAGATGGGAGTGAGTGAGAGACAATGGAAGGTG
Celera SNP ID:            hCV27204806
SNP Position Genomic:     5512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:14997):
TGGAATTGCAAAGAGAGACTCCCTGCAGGTTTCTAAAGTGAGTTGAATGAAAATATTTGCAAAACAGTCCAAGCTGGAAGCACCTGCAGAATTAATCACA
Y
GCTCTTATTTCGTTGATAAGGAAGCAGAGGCCTGAAAGGTGAAGTCAGGGTCTTCTGCGGCCAGAAGAACCGAATCTTGCGGCCTATGGCCACCATCCCT
Celera SNP ID:            hCV25926404
SNP Position Genomic:     15767
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,21|T,15)   total(C,35|T,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:14998):
TAACTTAGAAAGAAAATTCCACTTTAGTCAAACAGGCAAATACAAAACTACACAACAGAAATCGCCAATCACATAAGTGGAAATGGAGAGAAATGAACAG
K
TTTGCAAAAGAATTACTCATTCAGTAAAAGGGTTCTTTATAAAGTTCCATCTAAGTTAAATTATATCTGGTATAATAAAATGTGATTCATTTACATATTT
Celera SNP ID:            hCV9596735
SNP Position Genomic:     8865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:14999):
TTTCTGGAATTGCAAAGAGAGACTCCCTGCAGGTTTCTAAAGTGAGTTGAATGAAAATATTTGCAAAACAGTCCAAGCTGGAAGCACCTGCAGAATTAAT
M
ACACGCTCTTATTTCGTTGATAAGGAAGCAGAGGCCTGAAAGGTGAAGTCAGGGTCTTCTGCGGCCAGAAGAACCGAATCTTGCGGCCTATGGCCACCAT
Celera SNP ID:            hCV25926408
SNP Position Genomic:     15763
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,30)   caucasian(A,10|C,22)   total(A,16|C,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:15000):
GGGCCAAAGCCATGTCAGCTGAGGCTTGAAGGGGAAGCAGACAGATGTGACTAGAACTGCAGCTCATCAGCAACTGACTGCCAGTGCTCAGGGCACCTGA
M
GGAGCACAGCAAAAAGGACAGCCTTTTGCTCCAGGTTTCCACTTTTTGAGAGATATGAACACATTAGTAAAATGCCTGTGTCTGGGAACAGGCAGCCAGG
Celera SNP ID:            hCV11665449
SNP Position Genomic:     10003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15001):
ACTTCTCTTGCAGACATATTTTGTTCCAAAATGGCATCTTACCTTTATGGAGTACTCTTTGCTGTTGGCCTCTGTGCTCCAATCTACTGTGTGTCCCCGG
Y
CAATGCCCCCAGTGCATACCCCCGCCCTTCCTCCACAAAGAGCACCCCTGCCTCACAGGTGTATTCCCTCAACACCGACTTTGCCTTCCGCCTATACCGC
Celera SNP ID:            hCV2786232
SNP Position Genomic:     10644
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,30|T,2)   total(C,62|T,2)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15002):
GGTTTTGGAGACCCCGAGTCAGAACATCTTCTTCTCCCCTGTGAGTGTCTCCACTTCCCTGGCCATGCTCTCCCTTGGGGCCCACTCAGTCACCAAGACC
S
AGATTCTCCAGGGCCTGGGCTTCAACCTCACACACACACCAGAGTCTGCCATCCACCAGGGCTTCCAGCACCTGGTTCACTCACTGACTGTTCCCAGCAA
Celera SNP ID:            hCV2786233
SNP Position Genomic:     10850
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,3)   caucasian(C,22|G,4)   total(C,47|G,7)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,3)   caucasian(C,26|G,6)   total(C,61|G,9)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15003):
CCCAGGCGAGGATCAACAGCCATGTGAAAAAGAAGACCCAAGGGAAGGTTGTAGACATAATCCAAGGCCTTGACCTTCTGACGGCCATGGTTCTGGTGAA
Y
CACATTTTCTTTAAAGGTAAGGATTTGAGAAGTTGATTTTTATTTATTTATTTTATGATGATGATGATGATTTTTGCTTAGTGAAATACACAAGCCAGAC
Celera SNP ID:            hCV2786234
SNP Position Genomic:     11185
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,28|T,8)   total(C,58|T,10)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15004):
CCACTAGAAGTAATTCCCCATTTCAGTTTGCTGTCTTTGCCTCACTAATTGTACTTTGACATAAAGACTTCTTTTCTCTCTTTGTGCTAGCCAAGTGGGA
R
AAGCCCTTTCACCCTGAATATACAAGAAAGAACTTCCCATTCCTGGTGGGCGAGCAGGTCACTGTGCATGTCCCCATGATGCACCAGAAAGAGCAGTTCG
Celera SNP ID:            hCV2786235
SNP Position Genomic:     13038
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,27)   caucasian(A,15|G,21)   total(A,24|G,48)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15005):
ACAAATATAAGAAAAAATGCTCAACATTACTAATGATCAGGGAAATGCAAATCAAAACCACAGTGTGATATCACCTTACTCCTGCAAGAATGGCCATAAT
M
AAAAAATAATAGACGTTGGCGTGGATGTGGTGAAAAGGGAACATTTCTGCACTGCTGGTGGGAATGTAAACTAGTACAACCCCTATGGAAAACGGTGTGC
Celera SNP ID:            hCV27938760
SNP Position Genomic:     26671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15006):
GGCCATAGTCAACACCCACTGCAATGTATTGAGTAAACCCAATGCCAGGCATTTGAACCTTGAATCCTTTCAAGGTAGACATCACCATTCCAGGGCAAAA
R
CACTCAGTTTAGTTTACTCAGTTAAGTAAAAGTGTCTCCACTAGGGCCACTGATGTTTGTTTTTCCCTTGGCAGGCAACCCACAAGGCTGTGCTGGATGT
Celera SNP ID:            hCV2786238
SNP Position Genomic:     17032
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,7|G,23)   total(A,17|G,49)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15007):
GCATTTGAACCTTGAATCCTTTCAAGGTAGACATCACCATTCCAGGGCAAAAGCACTCAGTTTAGTTTACTCAGTTAAGTAAAAGTGTCTCCACTAGGGC
Y
ACTGATGTTTGTTTTTCCCTTGGCAGGCAACCCACAAGGCTGTGCTGGATGTCAGTGAAGAGGGCACTGAGGCCACAGCAGCTACCACCACCAAGTTCAT
Celera SNP ID:            hCV2786239
SNP Position Genomic:     17080
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,31|T,9)   total(C,67|T,11)
SNP Type:                 INTRON


Gene Number:                 17
Celera Gene:                 hCG1642225 - 65000099366154
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VSLS(8202663..8215639)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12177):
GTAAACGATTGAATCCAAACAACCAGAAGGGAAAGATAAGATGGATGTTTGGTGCCCTTGTCAATCTCTGTGCTTCATAGCTGGTCTAATGTGGGCCCTT
AGTTCTCACCATGTACACTCTTTAGAGATGTGATTTGTGTCTGTGTGATGCAGGCTGGTCTGTTCTCCAGCTTCCTTGCCTTCTTCTCCCTGGTGAAGGT
AAAATACATAATAAAGCTGATCCTAAGGCTGATATCTGACTTGACGTGTGCTCTCTTTTCTCCACCATCAAACCCCTCATTGTCCTTGTGACAACTGTCT
TCTCCTTTGGTGGGGGAGGGGAGTAATCTGAAACAGGAATAAAACACAGACCTCACCGGTGCATAAAACAGCAGTTCTGAAAGAGGCTTCCTGAAGGTCA
CTGAGACCACCCCACCCACAACATATCCTAGGTTCACCCACTTGTGCACTTCACACATGAGAAAATCCAGCAAGGGGCTAGGACCTGCCCACACTCAAAA
CCTCAGGTCCAGGTTCTTTCTACTACAGCATCTTTCCTCTCTGATCCTTGCTTTCCAAAGGGAAAGGCTGAAATGGAAAGGAGGGGAGATGTGTGGAAGA
GGGATCCCAAATCAATTCATAACACCTACAAACATAGCATCTGTGTCAAAGGAGAGAGCGAAGCATGCCTCTGAGATTAATGCAGACTCGAGGACCAAAA
CTGTCTGCCCTGCCATCTGGCCAGGTTTCAGGTAGGCCTGGGGCCTGGGTAACCGGCCTGCTGCCCCCCACCCATGGAGGAAACACAGGCAGTGGCCACT
GGGGTTTGTGAACGGGTGGAGAGGGCACTGTACTGACATGAAATAACCACAGGCTGCTCCCTCGGCAGTGCCCCGAGCTCCGACCTGAGCCCAAAGGAAG
CTATGCCAAGGACCAGCTTCCTAGGGGGGATGTAGCTTCTTACCCATTCTACAGGTGCCCCCTCCCTTCTCAATCCTCATGAGGAAGAGGTGGAGGGCCG
GGACAGCCCCTCCTTGTAGGGCGTGTAGAGCTCTATGTCTCAGTCATTTGGCTAAACTGAGGGTCACTGAGTCTGTGGGTGACATGGACCAGGCCCTGAA
CTCCATGCACATTCTCTATGGGGATTCTAACAGCAGCCTTGGGGAGTTCCTGTGCTGCCCATTTGCTTAGGAACTTGTCCTAAAGCCAGTAAGTGGTGAA
GTCAGGATGCTAACCCAAGTCCCTCTGACTCCAGAATGGAGCTCTCACTTTTGTAATGAAAGTGCTATGGCATACAGAAGAGATTTCCAGAAACTCATTC
ATTCATTTATCCACCTAAAACATGCTCCCTGATACCTACCAGGTGTCAGGCACCATGCCAGGTACTGGAGAGACAGTGGTGAACCAGGCAGTCAGTATCC
CTGTGCAGAGTTACGAGCTGTCTCTTCTGCAGGCCACATGCACCAAGGATACCTTTCTGAAAACCTCCTGGATATCTCAAGTCCCTGAACATCTCCAGAT
GCCTGAATCACAGTTCTCTTGCCTCCTTGCCTAGTCGAAATAGGTTTTCTCATCCATTTTCCAACCTTGGAATAAACCAGCTGCTCCCCAGGGCCAGCAG
CTCCCAGAGCTCCATCCTGCGGAGATGTGCCAGAGAGGCCTTCCTATCAGTGAAGCTTCTGTTCACAGACTCTTCTCCAGCTTGGCTCAAGTCCAAGAAA
CATCTTTGTTCTCCAGCATCAAAGGCATGCACAGATTGGAGTCCRAGATCAGACACCCAGGCATTAAAGGAAGCACGAGGCTAATGAACAGGGAGAGTCC
AGACTTATCAGAGAGAGGGGAAATCTGCTGATTACAGGGGAGGCCTCTACGGTTAGGAAGGGGACAAGTCTGCAGATTGCAGATAGGAGAGCAAACGCCA
AGCAGCCAGCAGGCCTTCATCTAGCTCTGTCATAGGAACCTCCACACCTCCTCATCCTCACAGAGGTCTGCCCCAGCCACTGCCTGGGCCACTGCTGCTG
CAGCCTGGTCTCTTAAGACACAGACCAGGTCCACAGCCACAGAGGCCACAGGGACAGCTAGGACACAGCATTCAGACTTCCCCAGCTGCCGCTTCTGTGC
TGAGCCTTTCAGGAAGTAGGGAGGGGCCTTACCAAGGAAAGCCCTGGATGTTAGGGGTTCTAGCTAACAGTTAACTCAACATGAGACAATAGTGGATCTG
TGGGCCCCATATGCCAAGAGGAAAAAATACAAACAGACAGGAATTCACAGGAGGAGCTGTGGATTCACTCAATCACTCAAAATATTTATGGAGAAACTAC
TATGCCAAGCCAGACTCTGGAAACCTGCGACAGTGCCAGGAGGTGGGCAAGCAGAGCAGTGGCCTGAAAGACTTTCACATCAGGAAGAGTTGAAAAATAT
TTAGTCTACAAAAGAAAATACCCAAGGGAGTGGGACAGCTGAACTCAAATATTTTAAGTGCTTTTATGAGGGAGGAGTGAGATTTTTGTGAAGTGCCAAA
GAACAAAGTTAGGACCCATGGGCAGAAATCATGAAATTGGGCTCAGTTTAAGAACTTTCTTATAATGAGATCTATTGGACTGCGACAGGAGCTGCCTTTA
GATGCACTGTGTCCCATGAACTGGAGGTTTGCAAGCCAGTAGATGACAACCAGCTCCTCCCAATCCATCAAATACTGTGACTCCTCTAACTGTAACTTGT
ACGTGGAAATGGGACCCAGGGGCAGGGAGCCTCCCACGAAGGGAGATTCAGAAGACCTGACCGCAAGCTCAGGAGACAGGAAGTTTCCCTGGCTTCCAGA
ACACTGCTGGGAGGCTCTTCGGGGGGCCCAAACTTCTGGGGACCAGCAGAATGTGTGACCATGGCTTGAAACTAAAAGAAAGGAGGAAGACAGGTAAGTC
ATGGGAAGAGGCTCCCCCAGATTTGGGGTTTTCTTAATGTTTTTGGACCCACAAATGCTTCAGCCCTGAGAAGCACCCTACAGTAATTCCTCACTGCTTT
CTAATCTCGTTCTTCCCAGCTGGGTTTAGTGTGCTCGCTCCCTTTTACATCTCATTTATTTACCATCCAGATACCCTTTCTCTTCTGTACCAAAGTGATC
CGCCTGTTCTTCCACCTGACAACCCATCGCAGATTCCTTTCTGCCTTCACCTTCCTCTCTCCCACCCAGGACTCTCCCCTGTTTGTCTCAGCCAAACCAG
GGGTTTCAACCTGACCTCCAGGAAGCCCTCCATGGTTTCAGCCTAGCTCCTAAGTACTGCAGCTTGGGCTCTGTGCTGCAGTGGCCGCAGGGGTCTGCAG
CCCTCTACCAGCTGCCTGTATTTGAATGACACATGTCTCCTGTCAGCATGAGAGCCCAGATGACAGCTCCTGGGGCTGGCTGTGTTCTTGCCTGACTTCA
CAGGGCCCATCACAGTGAGGTCTGAGACACCTGTACGGCTGGCCACCAGCATGCCCCCTGAGCAGAGACAAAGCGGGGTGCTGGCTTCTAGACCACCTGG
ACAATCTCTTTTATTGATAGGGTAACCAGCTCATCTTGATTTGCCTGGAACTGTCCCAATTTTAGCACTGAAAGTTCTGAATCCTGGGAACTCCCTCAGT
CCCCGACAAACTGGGATGGTTGGTTGCCCTAAGCACCTGTGTGTATAAGACATGATGCTTTGTTCCAGGTGGGGGAGCACAGAGGGAAAGCAGATGAGGC
CCTCCATGCTGGAGGAACTTATAGCCCAAGGGATTTTTCTGGAAAACTGTAAACCCAGGAGGCCTAGTTCCCACTGCCTGCCCCCTCCATAGCCACATTC
TCCATGAGCAGGGGTGGGGGCAGCAGGGGCTGGTGAGGGGTGATCAAATACTAGATCAATGAGCAGGTTCCCAGCCTAGGCCTGTTTCAGCATGAACTGG
CAGGTCTTGACCAGGAGAAGTGGTATCGTGGGGGCCACCACCCCTATTCGACAGCAGATCTGGACTTGTCCACTCCTGCTCTCCTTCTCTCCTACGGACA
CCTGCCTCACATCTGAAAATGGTTGAAAGAAAATAAGTGGCCAGCTGGCAGGGCCTTCTCAACTCAACCTCCCTCATCACCCGGTTCCCAAGCCAGCCTC
ATAACCTGTCTTTCCTCCTTTAGAAGCCGCTGGGGACCGTTTCTCTTCTCTTCCCAACAGCACCACCTGCTGGCCATAGAGGCACTTGGCCTTCTACTAA
TCACACCCAGTCTGGCCTGAGTTGGAGATGGCCGCACACACTCCGGCCGTCAGTGCTCCATGTGGAGAAGACAAGAGTACAGAGATGCAGCATCTAACAG
AGTCAGAGGAAGGCTATATGTGCAAGACAGAGTTACACTATTTATAGGGTGGGAGCAACACGAATAATGGTTCAGGACATAGGCTCAGGAATCAGACTTC
TGGAATTCAAATCTAGACTCCACCACTTCTATTGTTCCCTTAAAACAAATTTCTCCTATGTGAGAGTAAGTGACACAGAATCTCCTATGAGCCAAGCACT
GGAGTTACAGCAGCGAACCAGATACACAGAATCCCTGCCTCCCAGAGCTCACATGAGAAGGAAGACAGACAAAAAGCAACTCAGCAAATGCATAAATAAG
AAAGTGAAAATGAAGAAAATGAAACAAAGTGGTGAGGAGAGACCAGAGAAGAGGGGTGCTCTTTAGCTCGGGTAGCGTGGAAAGGCCGATCTGAGATGGG
GATGTCGGAGTAGCGACATGAACAATAGGAGGAGCCATCCATGTGGGATCGGGGTAAGTATCAGCGCAAAGAGAACAGCAGGTACAGGGAGTACTGCAGG
TCAGACTGCCCCTGGAGCCTTAACTCGGATGCTGCATTTGAAGGTAGACCCTGGCCAACTTTTAGTTCATCCAAATTAATGTGAGAAAAAGAGCGAGGTC
TCTGGGCACCTTGTCACATGAGCTGTGGCTGAAGGAAGGGGGCGTTTCATCCAGAGATGAGGAGACTTAGAGACACACAGTGGCTGTCTTCAGGCCTGTC
AAATGTCAAAGAGAGAGGCAGTGGATATATTCTTTGTGATCCCAAGGAGAATAGCATGGATCAGTGAGTTCTGGGCACAGAAAAGCAGATTCTGCTCATA
TCAGGAATAAAATGGCCCAGCAAATGAAATGAGCTGCTCATGAAGTAGTGATCCCACCATCCATGAAATATGCAAGCAGAGACCAAATAAGTAGCTGAGA
TTATAGGAAGTGTGGATGCAATGCTTTTAATCTTTAATTATCACCTACTCTTGCACTTGAATTGCTTATAGGTTACCACAAGATTTTGCTTCTCTCTGAA
TACAGTAAAATAGCCTTTGTCAGCCAGTCCCTGAAGGGATGTCCGCCCCAGGGTTGGGGAACATCACAGCAAGGCAGGAGAAAACTGGCTGTTGGGTACA
GAACACGCTTCTTGTCAAACCCGGAGCAGACTCTGGCAAAGATGAAAAGCGGAGGTCCTCACCTCCCTTTCATATGCTCCCCTTTTCTGTCCCAGCACCA
GAAGATGGAACTTCCTTTTCCTTACAATGGTCTAAGAAAAAACTAGTCTAAGCAATTAGAGAAAATATCCTACAATTCCCAAGTCCTAAAAGTTTTTATG
TTGCACATCCTGGTAATAAAAATATTTCAGCCTCACCAATAAACATATAAAAACGGTGTTCAACCTCTCATTATTCATCAGAGAAATGCAAATGAAAACC
TCAAAGAGATACCACAACACACCGACTGGAGGGGATAAAAGTAAGAAGACAGAATCACAGTGTGGGTGAGGTTGTGGGAGTGCAAATTGGTACAACCACT
TTGGAAAACTCTTTGACGGTCATGACTAAAGTAGAATGTATACACAGCCAATGACTGAACAATTCCTCTCCTAGGCATCTGCCCCGCATACGGTCACCAA
AACTCAAACATTAGAATGTTCATTCTAGCTCTCATCAGGCATCCTTGTGAAAGTGGCATCACCTTTAAACCCTGCATGGCAACCCCTGACACACTGCCAG
GCTGCCCAGGGAATACAGGGCAACCTGGAAGTCCAACTACTTCCTTCAGATCATCCAATTTTTYAATCATTATCTGAAATGTTTCATTGTAGAAGCAGCA
ATGTGGGCTCCAAGTAGATGCAGCAGATCCACATGTCCCTCTGAGGGAAAGCCATGGTGCCAATRGGCAAGAACACCATGATGTGCAAGGCCATCCAAGG
GCACCTGGAAAACAACCCAGCTCTGGAAAAAYTGTTGCCTCATATCCAGGGAAATGTGGGCTTTGCGTTCACCAAGGAAGACCTCACTAAGTTCAGGGAC
ATGCTGCTGAATAGTAAGGTGCCAGCTGCCACCCATGCTGGTGCCATTGCCCCATGTGAAGTCACTGTCCCAGGCCAGAACACCGGTCTGGAGCCTAAGA
AGACCTCCTTTTTCCAGGCTTTAAGCATCACCACTGAAATCCTGAGTGATGTGCAGCTRATCAAGACTGGTGACAAAGTGGGAGCCAGTGAAGCCACACT
GCTGAACATGCTGAATGAACATCTCTCCCTTCTCCTTTGGGATGATTATCCAGCAGCTGTTTGACAGTAGCAGTATCTACAACCCTGAAGTGCTTGACAT
CACATAGGAAACTGCATTCTCACCTCCTGGAGGGTGTCYGCAATGTTGCCRGTGTTTGCCTGCAGATTGGTTACCCAACTGTTGCATCAGTACCTCATTC
TACCATCAATGGGTACAAGCAAGTCCTGGCTTTGTCTGTGGAAACTGATTGCACCTTCCCACTTGCTGAAAAGGTCAAGGCCTTCTTGGCCGATCCATCT
GCCTTTGTGGCTGCTGCCCCTGGGGCCACTGCCACCACTGCTGCTCCTGCTGCAGCTCCAGCCAAGGCTGAAGCCAAGAAGAGTTGGAGGAGTTGGATGA
GAMTATGGGATTTGGCCTATTTGACTAATCACCAAAAGGCAACCAACTCAGCCAGCTTTATTTGCAAAACAAAGAAATGAAGGCTTACTTCTTTCAAAAA
AAAATGTTTATTCTAGTGTTATTCATAATATCCAAGTATCAGAAAGAATACAAATACCCATCAATGAATAAATAAACGGTGGTATATTCAGACAATGGAA
TTCCATACAGCAATGTATACAAATGATCTACAGCTACACACAGCAATAAGGATGAATCTCACAAACATAAAGTAAGTGGCCAAAAAAAAGACACATAAAA
AAGCATTAGGATGAAACATATGAAATTGCCATTTATGGAGGTCAAAAACTGTTCATAGGGTTCAACATAAAACACGCTGTATAGTTCCATTTATATCATT
TATGTACAGTACAAAAGCTGGCCAAATAAATCTCTGTTGTAGACAGTAAGAACGTGGTTGTGTGTGTGTTGGTTGTAGTAGCGTGGTCATTGGATGGGAG
AAGAAGGAAGGTTTCTGTGTTGCTGGTAACATTCTATTTTTTTATCTGGGGGCTGCTTATCTGGTTGTGTTCAGTTTGTGAAAATTCATTGAGGTGGACA
TTTACAATATATGCACTTTTCTGAATGCATATTTTAATAAAGAGTTGAAAGTTCTATTGGGGTTCATCATATAATACATACATATTATTTAGAAGCAATA
GATATGTACTGTCATTCTAACATCATGAAAGTTAAAAGACAAACACAAAATACAGACAATTTTAAAAGAAAAGATAAAAATACATAAAGAAAAAATTCAA
ATTTTTTCTTTCTGCTCCCAATGAATAGTTTTATGCACCCTCAGTGAACAATCAGCTCTTCTGGAGATTTTTTATAATGAAGTCCTGGATTACGTAAATG
CTGCATGATCTTTGGCAAATCTCCCAGCCTCAGTTTCTGCATCTGTAAAATTGCACTGATGATCACCCACCCATCCTAGATGGCTGTCCTCAGGATCGAA
TGAGGTATTTGTGGAAGTATTTAGTAATTTGTAAAATGTGAAGGGTTAATATGATTATTACTATTAGCAGATAGTTACTATTAACATAGATTTACATGAT
AGTGAAGCCAATTCTATAGTAAATAGTTTGGATTTCATTAAAAGTAGCTAGAGATTTCAAGAGGAGTGTTCCCCATCACTAGGATGGCAAAACTATCTGC
CAAAGGTATTGTAGAGTGATTCCTGCACCAGGAAGAGAGTGGAAATAATAATATTAAAAGTGATAATAATGGTGAATACTATGTGGCAGATATTTTCTAA
GCACTTTATGTATATTAGCTGCTATTATAACCGTTATAACAAGCAAAAGAAGGAGGTCATATTAATATGACTATTTTATAGACAAAAAACTAAGGCTCAA
AGAAATTAACCTACGCGAGATCTCAGAGATAACAATTGAGATAGCCTAGTTTGGATGCTCTTCACATTACCCTCCAAAGCTGATGCGAGCATTCAAAATC
TATTCCCATTCGGCAAAGTTCAGTCTAATATCAAGGCAAACTTCCTTTCATTAATCTACTACTCAGCAAGTATTTTTGAGCCCCTATTACATGCCAAGCT
CTATACTGGGTATTGGGTATGCAATGATAAATAAGCAAACACAGTCCCTGCACTCAGAGCATATGAGCTAGTAAAAGAGGCAATCAATATAAGAAATACA
CAAAAATAAATACATAATTCTAAATTTTGTTACATTCAACAAAAGAAAGTTCTAGGTTATATAAAATAATGAATTGGAGAACCTAATTTAGATTAGAGAT
CAGGAAAATCTTCCATGGGAAAATAAAATTTAATCTGAAACTGGAGAGATAGCAGGAGTTGTCCAGGTGACAAAAAGAAAAAAATTATAGTGAAAACAAA
AGATGGTTCTGATATAGGAAAAGCCTGATTGTTGTCTCAGACACAAAGATAGAGAGTGAGAGGGACTGTGTCCCCAGACAGGGACAGGAGGTGTGTGGGC
AGGAGCAGACCCCACAAGCCTCTGAGACCACGTGACAGGTTTTGACTTTTGCCCTAAGAGTGAAGCATTAAAGATTTTTAAGCAGAGAGTGACAAGATTC
AATTTGCAGATTGTAAATATTGCTCTAGTTAAAGTGTGGAGAATGGATTAGAGGAAGCAAGCAAGAGGTGAAGCGGGAGCCACTGGGGACACCATGGCTA
TAGCCAAGTCTCTGTGCAGCAGCAGCCACCATTTCCAGAAGCAGCTGGGAAAGACTGAAGGAGGAACAGGTTTGGGTGCAGTCCAGGTAAGAAGACCAGG
GGCTCAGTTTTGAACCTGTCAATTTTGAGACGCATACAGAATAACCAAGCAGAGATACAAAGTAAGCACTTACATCTATGAGTCRGGAGCGCGGGAAAAA
TTCAGGAATGGAGATCTACACTTGGGAGCCATCATCGTAGGGGTAGCATTCTAGCTTTGGGGTGTATAGATCATCCAGTGACAGAATATAGATTAAGAAA
AGAAGGGAACTTAAGACCATGCCCTGAGAAACCTCAACAGCTAAAGGTTGAGAAGAGAGAGAGCCCTTGGCAAAAGATTAAGAAGGAGTCAATGATTTAA
GAGAAAAGTCAGGAAGGAGAGAGTGTGCAAAATGCTGAATGCCACTGAGGATCAGGAAGTGCCCACACTGAGTGACAACATGGAGAGCAGGCATGGGGGT
GGGAGGGTCCAGCCAGGCTGGTCACCCAGGGATTGCTCAAATACTGGAACCTCTTCCCACTCACTTCTCTTCTTCTAAGGCACAGTGGTTTGCCATTAGA
TCCTGGTACATGGGAATAAGTGAGTGAATGAATGATAAATGATCTGAGGACCCAAAAGGTTTAACAGCTTGACCAAGATTATCCGGCCAGTAAGTATCAA
TGCCAGAGCTGAAACCCAGCTCATCTGATTCCAATGCCCATATTCTTGGTTTAAAAATACAAGCTTTAACCCAGGGGAAATACCTTTGATGACACACTCT
CTGTCATGTTTAATATCATACTTTAAGGACTATTATACTTATCTCTAAAACTGAATCTATGGCTTAGGAGTTCATCAAAAACTAGGGTAGGGAGTGAGAG
GCATCCCCTAAGGTCGCCTATCCAGGGGATAATGCATGAAGGAATAACCTTTACACTAAATGAATGTATAGTTTGGGTTACATCCTTGAGACCCTGTCTC
AACTGACGAGCATGTGAGAGTCTGGCCACTCGCCCTGTAGGGCCAGCTCAGAGGGGAGCTTGGTGTTCTGGAGTTGTCGGTCAGGGGTGATGGTGGTGAC
TGTGGTATCGTGGGGGCCACCACCGCCATTCATGGTTGAAAGAAAAGAGGTGGTCAGCTGGCAGGGCCTTCTCAACTCAACCTCCCTCATCACCCGGTTC
CCAAGCCAGCCTCATAACCAGTCCTCCCTCCTTTAGAAGCCGCTGGGGACCCCTTTTCTCTTCTCTTCCCAACAGCACCACCTGCTGGCCATAGAGGCAC
TTGGCCTTCTACTAATCACACCCAGTCTGGCCTGAGTTGGAGATGGCCGCACACACTCGGGTCCAGTCAATGCTCCATGTGGAGAAGACAAGAGTACAGA
GATGCAGCATCTAACAGAGTCAGAGGAAGGCTATATGTGCAAGACAGAGTTACATTACTTATAGGGTGGGAGCAACACGAATAATGGTTCAGGACATAGG
CTCAGGAATCAGACTTCTGGAATTCAAATCTAGACTCCACCACTTCTATTGTTCCCTTAAAACAAATTTCTCCTATGTGAGAGTAAGTGACACAGAATCT
CCTATGAGCCAAGCACTGGAGTTACAGCAGCGAACCAGATACACAGAATCCCTGCCTCCCAGAGCTCACATGAGGAGGAAGACAGACAAAAAGCAACTCA
GCAAATGCATAAATAAGMAATTGAAGAAAATGAAACAAAATGACCAGGGAAGAGGGGTGCTCTTTAGCTCGGGTAATGTGGAAAGGCCGATCTGAGGTGA
GAGCAACAGAAATGATGGGTTACATGATGGTGGCAATGGCAGCGTGCTGGAGGTGAGAGGAAATCTGAGGGAACATTTTCTTGAATGTGAATTGACTGAC
AAAAGTGTCACTGAACACATTACCTTTGATTCCTAAATAGCCAGAAWGACAAAGCCTATCTGTAGATTACTCATTGTGTTCTCATTCATTTATTTTTTCA
TTCAACAAATCTTTGTTGAGTAGCTACTGTATGCCAAGCTTTCCTTTAGGTGCTGGAGATGTAGCAGTAAACAGACCAAAAGTGCTGTTTTTGTGGAGTT
TACACTTAGAGGACACCAAAAGCTCATTTATTCATTCACTGAGCTCCTGCTGAGCACCTAATGCCAAGCATGATGCCAGACACTGATGGGTCCCAGACCC
TAAACAATAGGGCTATCTTGGGGTGGGCACATTGTGGCCAGGGTGAATATGCACCTGCATCTGTTTAGGTTTGTTCACAGGCATAAACACACACCTGCCT
GAGCATGTATCCCATCAAACCTCAGACAACATGTATATACTGTTCAGATGTTTTTCAAAATGCATCGGGAAGACCCCGAAGGGGTCTCAGTAGAGGCTTT
TTATTTGATTCAAAGCTTCAAAAGATTATTCCATCTGCAAAATGTATAAAGGCTGGATGTTGGAGGAAGCATGAAATAGGGAGAGGAAGGACCTGCTACT
AGAGTTATGGCTAAAGGTGGTAGATGGCAGCAGTGGAGACAAAGACAAGAGGGTGACGCTAAGTGTTTTGGAGGAATAACTAACAGGAGTAGCAGGGGGA
CTCAATGTGTGGGGTAAAGGAGGAGAAAGAAGGCAGAAATACTCCCAAGTTTATGGCTTAGGCCACTAGGTGGATGCAGAGAGGTGAGGACTAGGAGATA
TGTGGGTACATGTCTGAAGCTCAGAGATATCTGGGCCAAAAATGTACATATTTGAGAGCTGTCATCACATAGAAGGTATTTAAAGATATGTGAGTGGCTG
AGATCACCCAAGGAGAAGAAGAGAGGGCCCTACCGAGCTGAGGACTCCACAAGATCTCAAGGTTGGACAGCGCAGAAGGAGCCTGTACAGCCAGCTGACA
AAGAGCGGTCAGTGAAGGAAGAGAAACTAGGAGGGTGGAGACTGGAAAGACAAGAGAAGACAGGTGTCCAAGAAAGGAAGGAAAATCAATGGAGTCAACC
AATACTAACTGGTCAAGAAATGCAGAGTGGCTGGTGACCTTGATGAGGACAGCCTGAGTGGGGACACAGAGGCCAGAACAGAACAGAGTGGACTGAGGAG
CAAAGGGAGGTACCAAGCAGGGCRGTCTGTGGGGTTCCTGGATGCAGCTGGATTGGTTTGCTGCTCAAAGAAAATCCCAGCTCAGACCTACTCTAGGACA
GAAGAGGCCTTCATGAAAGATGCCTGGCTGCAGGTGTCCAGGTGTGGGAAGGTGAGTGGGAGGAGGCAGGACTGAGCAGCACTTCCCCAAACCAGGAGGG
AAGCCAACACCGAAGCCCAGGCTTCCATTTATAGAGTTTCCACAAGTGGACCCGGACTACTCCACCCTGTTCACAAAGCAACCTCGCCTGAACCTTTGAC
ACCAGAGGCTGAGTCAGGCCCAGATGGCAAACACACTTTAAGCCCTAATCAGACTTTGCATGGGTTTACTCAGCCCATGCCTGCTTCTCTGCCCCTACCA
TGTCCTCCTAGAAGAGGGAGCACCTCTTCCCCGTCACCCCCCAGAGACTCACCTGCATGAGGTTCACACACTGCACTCTCTCACACCATATACCACACAC
ACACACGCACACACATACATACACAAAGTCAGTGTGATGATTCCAGATGCTGGAACCATGCCTCCCCTTGCCCTTTGCCAAATGCCTGCCATGCTGGCCA
CAGAGGCAGAAGGAAAATGACAATTCTGCCCTTTTGTAATGCATGCTACTATTTTTGTCCATCACAGGTTCCTCAATTTGAGGCCTAAGTGTTCCTAGAC
TTCATCCGGTGTTGGAGGAAGCCCTTGCTGCCAGGGAAGCCCCAGTGTGAAGACAGGACATAGCAAACCTCAGGGA


SNP Information

Context             (SEQ ID NO:15008):
ATGTGCCCACCCCAAGATAGCCCTATTGTTTAGGGTCTGGGACCCATCAGTGTCTGGCATCATGCTTGGCATTAGGTGCTCAGCAGGAGCTCAGTGAATG
R
ATAAATGAGCTTTTGGTGTCCTCTAAGTGTAAACTCCACAAAAACAGCACTTTTGGTCTGTTTACTGCTACATCTCCAGCACCTAAAGGAAAGCTTGGCA
Celera SNP ID:            hCV27977033
SNP Position Genomic:     1745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:15009):
GGGATGATTATCCAGCAGCTGTTTGACAGTAGCAGTATCTACAACCCTGAAGTGCTTGACATCACATAGGAAACTGCATTCTCACCTCCTGGAGGGTGTC
Y
GCAATGTTGCCAGTGTTTGCCTGCAGATTGGTTACCCAACTGTTGCATCAGTACCTCATTCTACCATCAATGGGTACAAGCAAGTCCTGGCTTTGTCTGT
Celera SNP ID:            hCV2431186
SNP Position Genomic:     6639
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:15010):
ACCTGGTCTGTGTCTTAAGAGACCAGGCTGCAGCAGCAGTGGCCCAGGCAGTGGCTGGGGCAGACCTCTGTGAGGATGAGGAGGTGTGGAGGTTCCTATG
W
CAGAGCTAGATGAAGGCCTGCTGGCTGCTTGGCGTTTGCTCTCCTATCTGCAATCTGCAGACTTGTCCCCTTCCTAACCGTAGAGGCCTCCCCTGTAATC
Celera SNP ID:            hCV2431179
SNP Position Genomic:     11047
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,8)   total(A,8|T,2) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15011):
CAGCAGCTGTTTGACAGTAGCAGTATCTACAACCCTGAAGTGCTTGACATCACATAGGAAACTGCATTCTCACCTCCTGGAGGGTGTCCGCAATGTTGCC
R
GTGTTTGCCTGCAGATTGGTTACCCAACTGTTGCATCAGTACCTCATTCTACCATCAATGGGTACAAGCAAGTCCTGGCTTTGTCTGTGGAAACTGATTG
Celera SNP ID:            hCV2431187
SNP Position Genomic:     6651
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:15012):
AGAGTGGCTGGTGACCTTGATGAGGACAGCCTGAGTGGGGACACAGAGGCCAGAACAGAACAGAGTGGACTGAGGAGCAAAGGGAGGTACCAAGCAGGGC
R
GTCTGTGGGGTTCCTGGATGCAGCTGGATTGGTTTGCTGCTCAAAGAAAATCCCAGCTCAGACCTACTCTAGGACAGAAGAGGCCTTCATGAAAGATGCC
Celera SNP ID:            hCV2431195
SNP Position Genomic:     12224
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:15013):
CTTTGTGGCTGCTGCCCCTGGGGCCACTGCCACCACTGCTGCTCCTGCTGCAGCTCCAGCCAAGGCTGAAGCCAAGAAGAGTTGGAGGAGTTGGATGAGA
M
TATGGGATTTGGCCTATTTGACTAATCACCAAAAGGCAACCAACTCAGCCAGCTTTATTTGCAAAACAAAGAAATGAAGGCTTACTTCTTTCAAAAAAAA
Celera SNP ID:            hCV2431188
SNP Position Genomic:     6903
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,3)      total(A,2|C,3) ;SC_12_C(C,3|A,14)   total(A,14|C,3)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15014):
AATCATTATCTGAAATGTTTCATTGTAGAAGCAGCAATGTGGGCTCCAAGTAGATGCAGCAGATCCACATGTCCCTCTGAGGGAAAGCCATGGTGCCAAT
R
GGCAAGAACACCATGATGTGCAAGGCCATCCAAGGGCACCTGGAAAACAACCCAGCTCTGGAAAAACTGTTGCCTCATATCCAGGGAAATGTGGGCTTTG
Celera SNP ID:            hCV26809148
SNP Position Genomic:     6165
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   TSC_42_C(A,25|G,59)   TSC_42_AA(A,13|G,71)   A(G,0|A,84)   total(G,130|A,122)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:15015):
GGAGTTACAGCAGCGAACCAGATACACAGAATCCCTGCCTCCCAGAGCTCACATGAGGAGGAAGACAGACAAAAAGCAACTCAGCAAATGCATAAATAAG
M
AATTGAAGAAAATGAAACAAAATGACCAGGGAAGAGGGGTGCTCTTTAGCTCGGGTAATGTGGAAAGGCCGATCTGAGGTGAGAGCAACAGAAATGATGG
Celera SNP ID:            hCV26809142
SNP Position Genomic:     10818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:15016):
TTTAAACCCTGCATGGCAACCCCTGACACACTGCCAGGCTGCCCAGGGAATACAGGGCAACCTGGAAGTCCAACTACTTCCTTCAGATCATCCAATTTTT
Y
AATCATTATCTGAAATGTTTCATTGTAGAAGCAGCAATGTGGGCTCCAAGTAGATGCAGCAGATCCACATGTCCCTCTGAGGGAAAGCCATGGTGCCAAT
Celera SNP ID:            hCV2431183
SNP Position Genomic:     6064
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:15017):
CATGTCCCTCTGAGGGAAAGCCATGGTGCCAATGGGCAAGAACACCATGATGTGCAAGGCCATCCAAGGGCACCTGGAAAACAACCCAGCTCTGGAAAAA
Y
TGTTGCCTCATATCCAGGGAAATGTGGGCTTTGCGTTCACCAAGGAAGACCTCACTAAGTTCAGGGACATGCTGCTGAATAGTAAGGTGCCAGCTGCCAC
Celera SNP ID:            hCV2431184
SNP Position Genomic:     6232
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:15018):
AGGTAAGAAGACCAGGGGCTCAGTTTTGAACCTGTCAATTTTGAGACGCATACAGAATAACCAAGCAGAGATACAAAGTAAGCACTTACATCTATGAGTC
R
GGAGCGCGGGAAAAATTCAGGAATGGAGATCTACACTTGGGAGCCATCATCGTAGGGGTAGCATTCTAGCTTTGGGGTGTATAGATCATCCAGTGACAGA
Celera SNP ID:            hCV2431192
SNP Position Genomic:     9285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:15019):
AAGTCACTGTCCCAGGCCAGAACACCGGTCTGGAGCCTAAGAAGACCTCCTTTTTCCAGGCTTTAAGCATCACCACTGAAATCCTGAGTGATGTGCAGCT
R
ATCAAGACTGGTGACAAAGTGGGAGCCAGTGAAGCCACACTGCTGAACATGCTGAATGAACATCTCTCCCTTCTCCTTTGGGATGATTATCCAGCAGCTG
Celera SNP ID:            hCV2431185
SNP Position Genomic:     6459
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 UTR 5


Gene Number:                 18
Celera Gene:                 hCG1642845 - 84000315067329
Gene Symbol:                 APOA5
Protein Name:                apolipoprotein A-V;APOA-V;APOAV;RAP3
Celera Genomic Axis:         GA_x5YUV32VVY5(26678373..26692900)
Chromosome:                  Chr11
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12178):
TTCTCCACATCTTCACCCACACTTGCTATTTTTGGCTTTTATTTTATTTTTTAAAATAACATTCTAATGGGTGTTAAGTGGTCAGAAATGGTTCTTTTAG
GAGTAGAGATAGAGGCCAGGGGGATGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCTAGGTGGGCGGATCACTTGGGGTCAGGAGTTTGAGATCAG
CCTGGCCAACATGGTGAAACTCCATCTCTATTAAAAATACAAAAATTCGCTGGGTGTGGTGGTGTGCACTCCCAGCTACTTGGGAGGCTGAGGGAAGAGA
ATCGCTTGAACCCGGGAGGCGGTAGTTGCAGTGAGCCGAGATCACACCACTGTATGGCCTGGTGACAGAGCAAGGCTCTGTCTCAAAAAAAAAAAAAAAA
AAAAAAGAGTAGAGATAGAAAAGCATTGAAAACACAGCCTCAGCTCAGCTCAGTCTGCCATGGTGGGAAGCCATTAATTCTTCACTCTTGAAACCTTTTC
GTCCTTGGTGTGGCAGAGGCTGCAAGTCTCCTCTGCAACTTTATTCTTCCCTTCTTTCTCAGTTATAAAATCCCTGATTTTAGAAATATCTTTATTGAGA
TATAATTCACATACCATAACATTCACTACAATTGAATGGTTTTTAGTATATTCACAGATTTGTACAACTATCACCACAAACTAAGTTTAGAACTTTTTTC
ATCATCCCACAAAGAAACCCCACACCCATTAGCAGTTATTCACTATTTCTCCCCAATCAACCTCCCCTCCCCTCAATAGCCCTAGGCAGCCACCAGTCTA
CTTTCTGTCTCTACCTATTTGTCTTTTCTGGACATTTTATACAAATGAGATTTTACAACATGTAGTCTTTTGTGACTGGCTTTTTTCCCCTAGCATAATG
TTTTCCAGGTTCATCTGTGGTGTAGCAGGTATCAGTACTTCAACCCTTTTTATTGCCAAATAATATTCCACTATATGGATAGGTAACATTTTGTTTATCC
ATTCATCAATTGATGGACATTTGGGTTGTTTCCATTTTCTTGACTGTTATGAATAATGTTGCCATGAACATTAATGCACAAGTTTTTGTGCAGATGTGTA
TTTTCATGTGTCTTGGTTTTATACCTAGGAGTAGAATTGCTGAGTCATAGGAGAACTCCTCCATGTTTAACCATTAATGAACTGCCGAACTGTTTTCCAA
AGAAATTGCACCATTGTACAATCCCACCAGCAATGTATGAGGGTAGAATCCCTGATTTTTAACTGATCATTGAGCTCAGGCCCATTCAAAACAAAGATGA
CATTTCCTAACCTTCCTTACAAGTAGTTCTGACCAGTGAGATGGGAGAAGAAGTTAGGTTTTGTCCTTAAAAGAAAGGAGAGTGGCTGGGTGCAGTGGCT
CACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACCTGAGGCCGGGAGTTCAAGACTAGCCTGACCAACATGGAGAAACCTCGTCTCT
ACTAAAAATACAAAATRAGCTGGGCGTCGTGGCGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAG
GTTGTGATGAGCCGAGATTGTGCCATCGCACTCTAGCCTGGGCAAGAAGAGCGAAACTCCATCTCAAAAAAAAAAAGAAAGAAAGGAGAGTACATTCTAC
ACTCTCCTCTCCTCCACCCTGCCCCCTTTCCAGTGGCTGGATGTGGACATGGTGGTAAGCTATCTTAGATCATGTGGACAAGGGAAACACATAGGGATAT
TAGAACCTCCAGACAGAAGGAACTTAGGACCCTGGACAGCTTTGTGGAGCAGTGCTCCCATACCAGCGTGAAGTTTTGTATGGGAGAAAACATACATTTC
CAGCTTTTGTAAGCCACTGTTATTTTGGGTCTCTCTCAGAGCAGCCAAATATATAATTTAACTAATATATTTTCTTTCTGTGATTCTTCTTTATTTTGAT
TATACTTCTACTTCTCTGCCCCTCTTTTAGGTGGGAGGTGCTGCTCCAAGCACTAACTCAGAATATAGACCCTCTCCCTCTTGTAATAGTGCCAGCTTGG
AGTTCTTTGCTTCCACTGTAGGGGAAGGAAGGAAAAAATATGGAGAACTCACATCCACTCTTCATTGTCCTCAAACAGAAGTAACCCATTTTGTTCTGCT
CACAGCCCATTGGCCAGAACTAACTGTATGGCCCCAATCTAATTGCAAAGGAGTCTGGGAAGTACAGCACAGCACATGGATCTTTGGAAAGCGTTAATTT
TCTCTGCCAAAGGCTTCTTTTGTTGTTGTTGTTGTTTGAAATGGAGTCCCGCTCCGTCACCCGGGCTGGAGTGCAGTGGCCCTATCTCAGCTCACTGCAA
CCTCCACCTCCCAGGTTCAAGCACTCCTCCAGCCTTGGCCTCCCAAGTAGCTAGGATTACAGGCGTGTGCCATCATACCTGGCTATTTTTTTTGTATTTT
TAGTAGAGACAGGGTTTTACCGTGTTGGCCAGGCTGGTCTCAAACTCTTGGCTTCAAGTGATCCGCCTGCTTCGGTCTCCCAAAGTGTTGGGATTACAGG
CGTGAGCCACTGTACCCGGCCAATACTGGTGTTTTCTGACCTCAGCGTTTTTCTTTTCTCCTGCCATGTACTCTCCCTAGAGATTTCATCTACTCCCAAG
TCTTCCACTGCTCCTATCTGCTGATGACTCCCAAAACTCAGTCTCCAGCCGAGACTTCTCTCCTGGGCTTGAGACATATGTATCCAACTGCCAGAACATC
TCCAGTGGACAGCCTTTGGGCACAAGGCCACACTAGCTTGTGGGTACAAGTAATCACCCAAAGTCAATTTCAGTGGCTCTCCACTCCCACATTTTTTCAA
CCCCTGGAAATGTTCCCTTCCCAAATACTCTGAGTCTCTCTTCTCTTTTGATGACTGTGGTTTTGTGACTGGATGGTAGCTCCTGTTGCTTTTTTTCCTT
TCAAATGAATTTTCTCTTAGGAGGCTTCTTAGCCATTAAGCAAATAGACCTCAACTGGGCTTGCCCTATGCCTATCTGAAACCCAGCTTAGGTTCGAGTT
AGGACTCCTGTTAATCTGAGCTCTCACTTCCTGTCCCAACCTGCTTATTTTTTTTGGTGAAAGAAAATATCATCCCCCTAGTTGCTCAGAAACCTGGGAA
TCATTGGGATTTTTTCCTCTCCTTCACCTTCCTCATCCAATCAGTCACCAAGTGCTATCAACTCTGCTGCCTTAGTAGCCCTCAATATATACTTACCTAT
CAACCATCACTGCTATGCCATACTTCAGGCCTTCATTTCTCACTTGGATTATTAAAATATCCCTAAATAGTTCCTCTGCCTTCTCTCTGGCCACCCTCCT
GAGTGATCTCTCCATCATGTACCTTTCAGTGACTGCTTGCACAAGCCCCTTTGTGACTTGGTCATAGTCTGCTCTCTTGAACCACCAGAGCCAAGCACCT
GGGTTCTGATTCTGGTTGCAACTCTTACTGCGTGATGATGGACAGGCCACTTGATCTCCTCAAACCTCAGTTCCTAAATCAAATGAATGATTGAATTCAG
TCACTTAACTTTGTATGTAGTAGGTAGGCACTGTGCAAAACATACTAGTGGATATAGAGATGAATAAGAAAAAGCCCCTGCACTCAAAGAGCTCTCGGAT
TCATCAACAAATTATTGTGCAGTTAGATAGTAAGTGCTATAATCCAGGAATATACAGTGTTGTGTGAATAATGTGGAATCAGTTTATCTCCAGAGCAGAA
AAAGGTGAAGGCCGAAGAAGGCATTCAGAGTGATACTGGAGCTGTGTAGCAGGGGCTACTACTGTTCCCTCAAATCCTTTCTTCTCTTCTTCCTGAGTAA
TAGAGTCCTTTTTCAGCTAGGCATACAGCCATCCAAAATAAAAACTATATTTCCCAGCCTCCTTTTCAGCTAAGTGTAGCCATGTGACTAAGTTGTGGCC
AATGGGATGTCAGTACAAGTGGTAATGGCAATATCTGGGATGTGTCTTTAAAAGGAAGGAACATGTCCTTCTCCTTTTCCTCCTTCCTGTTCCCTGGGAG
GTGAACTTGGTAGCTGGAGGTGAAGCAGCTGGAACTTGGATATGAGCGTCTTGTTGATGATAATAGTGCAACAAGATAAAAGCAGCCCGAGCTGGCCTAC
ATTTACATGAGAAGGAAATAAGACTCCATTTTGTTTAAGCTATTCTCTTGCATATATATATACACATATATATCAGCTAAGTGTAGCCATGTGACTAACT
TGTGGCCAATGGGATGTCAGTATGAGTGGTAAGAGCAGTATCTTGTATATATATATGTGTATATATACACACACACATATATATACATATATGTATGCAA
GAATATAAAATATACATGTGTGTGTGTATATATATACACACATATATATGTCCCTTGCAGCCAAGTCTAATTCTAACTAATACAAACTAACTCTAAAAAA
TGAATATATATTCACCAGGGGATAGGCTATTTCAAGCAGAGGGAAGCCTGTATAAAGGCTCAGGGAATGCTGTGGTTTTATGTGGCAGCAGATGAGACTG
GAAATGAGTCAGGATGAGCCACAGTGGAGGATGAATTAAATGGGCAGGAGTGTGGTAGAAAGACCTGTTGGAGGCTATGAATGCAATCAAGGTGACAGAC
AACTGGTGCAATGATGGTAGTGGAAATGGAGGAGAGGGGATTGATTCAAGATGCATTTAGGACCAAGAATCGGGAGCTTGTGAACGTGTGTATGAGTACT
GTAGACGGAGTGGGTGTGTCATCAGAGAAGATCTGAGCATTTGGGCTTGCTCTCCTCAGAGGCCCTGCGAGTGGAGTTCAGCTTTTCCTCATGGGGCAAA
TCTTACTTTCGCTCCAGTTCCTGGGGCTCAGAGTCCCTGGCCCAGATGCCTCTTGCCATCTCATCTTCACCCTGCCTGGCTTCCCTTGCTTGTTCCAGGA
TTGTTTCATAAAGAGGGATGTGGTTGGTCTTTAACCCTATGAATGCTGGCTGAGGATGCCTGCGGAACCTGTAGTGAAGCTTTCAGGGGCTGCTCGGGTT
CTGGCTGGTAGGTGAACACTGTCCATCTTGCCGGCTGGGACACAGTGACTCTGGGTAGTTGTGTAAGAGAGGGGCCCTTGGCAGACAAACAGGTTCTTCT
CTGTTGGTGGGCCAGCCAGCAGGTCAGTGGGAAGGTTAAAGGTCATGGGGTTTGGGAGAAACTGGGTGAGGAGTTCAGCCCCATCCCCCGTAAAGCTCCT
GGGAAGCACTTCTCTACTGGGGCAGCCCCTGATACCAGGGCACTCATTAACCCTCTGGGTGCCAGGGAAAGGGCAGGAGGTGAGTGCTGGGAGGCAGCTG
AGGTCAACTTCTTTTGAACTTCCACGTGGTATTTACTCAGAGCAATTGGTGCCAGAGGCTCAGGGCCCTGGAGTATAAAGCAGAATGTCTGCTCTCTGTG
CCCAGACGTGAGCAGGTGAGCAGCTGGGGCAGAGGGATGGGGGTCACAGTCCTAAGGGAGGGCATTGCAGGTGGCCTCAGGGGAGAGCCTGGGGTGGCCC
CTAAGACGTCCTCTTGGAACATTTTGGCAGAGTTGCCTCTTCGCCCTCATTATGGCTCAGTTTTTCCACCATGAAATGGGAGGGAGGGAGACAGGTGGGC
AGGGGAGAGGTGGTAGAAGTGGCCTAGAGAACTGTTCCTGGGGTCTGGGACCTTTGCGAAGGGGTTAGAGCACCACGCTCCCTGCTATGTGACTGAGGTA
GCAAGAGCACGCCCTCTTCCCATGTCTGAGGAAGACACCCTAGCCTCCTTGACTCACCTAGGTCAGTCCTCTTGAGCCCCAACAGCTCTGTGCTCCCCAG
CCCAAGGAAGGGGTAACAGGATTTCGGGCAGTTGCCCCTGCAGAGGCCCCCTGGGCAAGTCCCCTGCGCCATGTCCCTTCGTCTCCTTCTTCCCCTAACC
AGGCCTCCCTCCACCTGTCTTCTCAGAGCAGRTAATGGCAAGCATGGCTGCCGTGCTCACCTGGGCTCTGGCTCTTCTTTCAGGTGGGTCTCCGACCCTG
ACTTCAACGTGGGGGTGTGGGTGGAGGCTGGCCAGAGKGCCCTGTCCACCCTGGGGGAGGAGAGCCCAGGCCCTGATTACCTAGTCCCTCTCCACAGCGT
TTTSGGCCACCCAGGCACGGAAAGGCTTCTGGGACTACTTCAGCCAGACCAGCGGGGAMAAAGGCAGGGTGGAGCAGATMCATCAGCAGAAGATGGCTCG
CGAGCCCGCGTGAGTGCCCAGGGGAAGGGGTGTAGGCGAAGGGAGGAGACAGCTGGGCCATGCCATGATGACCTGCCTCTGCTGCCTCAACCTCTGTGGC
CGCTGCTGGGACAGAGGAAAGGAGCGGTGCTAGCTCTGTCTGCAGATCCCGGCCATCCTGGGCTCTTTAGCGCCCTCTGCCTGCAGCCCCCGCCTTGACA
ACTCCGTAGCTGTTGCCCCCTTGCTCACTGAGGCGCGGGACCTGGGATCAATCGGGAGGACGCCCGCTGCAGTCCCCAGAATCAAAGGATGATGTGGCGC
ATCTATGTTTCTTTGGAGAGTGTTGTAGGTCTGGATTTGTATGGSCAATGTGTTTGTGCTTCGTGCGTGAGTTGTTACTGGCCAGGGCTAGGACAAGAGC
CCTCGACCCTGGGGCCAACGCCCTGCGTCCTTGGTTCCCCCAGAGGATCAGTGCGCGATGACTTGGGGACAAAGGAGATGATGGRGGCTAGCAGTCTGAC
GGCCTGGATATCTGTCCCCTTCTCCAGGACCCTGAAAGACAGCCTTGAGCAAGACCTCAACAATATGAACAAGTTCCTGGAAAAGCTGAGGCCTCTGAGT
GGGAGCGAGGCTCCTCGGCTCCCACAGGACCCGGTGGGCATGCGGCGGCAGCTGCAGGAGGAGTTGGAGGAGGTGAAGGCTCGCCTCCAGCCCTACATGG
CAGAGGCGCACGAGCTGGTGGGCTGGAATTTGGAGGGCTTGCGGCAGCAACTGAAGCCCTACACGATGGATCTGATGGAGCAGGTGGCCCTGCGCGTGCA
GGAGCTGCAGGAGCAGTTGCGCRTGGTGGGGGAAGACACCAAGGCCCAGTTGCTGGGGGGCGTGGACGAGGCTTGGGCTTTGCTGCAGGGACTGCAGAGC
CGCGTGGTGCACCACACCKGCCGCTTCAAAGAGCTCTTCCACCCATACGCCGAGAGCCTGGTGAGCGGCATCGGGCGCCACGTGCAGGAGCTGCACCGCA
GTGTGGCTCCGCACGCCCCCGCCAGCCCCGCGCGCCTCAGTCGCTGCGTGCAGGTGCTCTCCCGGAAGCTCACGCTCAAGGCCAAGGCCCTGCACGCACG
CATCCAGCAGAACCTGGACCAGCTGCGCGAAGAGCTCAGCAGAGCCTTTGCAGGCACTGGGACTGAGGAAGGGGCCGGCCCGGACCCCCAGATGCTCTCC
GAGGAGGTGCGCCAGCGACTTCAGGCTTTCCGCCAGGACAYCTACCTGCAGATAGCTGCCTTCACTCGCGCCATCGACCAGGAGACTGAGGAGGTCCAGC
AGCAGCTGGCGCCACCTCCACCAGGCCACAGTGCCTTCGCCCCAGAGTTTCAACAAACAGACAGTRGCAAGGTTCTGAGCAAGCTGCASGCCCGTCTGGA
TGACCTGTGGGAAGACATCACTCACAGCCTTCATGACCAGGGCCACAGCCATCTGGGGGACCCCTGAGGATCTACCTGCCCAGGCCCATTCCCAGCTYCT
TGTCTGGGGAGCCTTGGCTCTGAGCMTCTAGCATGGTTCAGTCCTTGAAAGTGGCCTGTTGGGTGGAGGGTGGAAGGTCCTGTGCAGGACAGGGAGGCCA
CCAAAGGGGCTGCTGTCTCCTGCANATCCAGCCTCCTGYGACTCCCCAATCTGGATGCATTACATTCACCAGGCTTTGCAAACCCAGCCTCCCAGTGCTC
ATTTGGGAATGCTCATGAGTTACTCCATTCAAGGGTGAGGGAGTAGGGAGGGAGAGGCACCATGCATGTGGGTGATTATCTGCAAGCCTGTTTGCCGTGA
TGCTGGAAGCCTGTGCCACTACATCCTGGAGTTTGGCTCTAGTCACTTCTGGCTGCCTGGYGGCCACTGCTACAGCTGGTCCACAGAGAGGAGCACTTGT
CTCCCCAGGGCTGCCATGGCAGCTATCAGGGGAATAGAAGGGAGAAAGAGAATATCATGGGGAGAACATGTGATGGTGTGTGAATATCCCTGCTGGCTCT
GATGCTGGTGGGTACGAAAGGTGTGGGCTGTGATAGGAGAGGGCAGAGCCCATGTTTCCTGACATAGCTCTACACCTAAATAAGGGACTGAACCCTCCCA
ACTGTGGGAGCTCCTTAAACCCTCTGGGGAGCATACTGTGTGCTCTCCCCATCTCCAGCCCCTCCCTCTGGGTTCCCAAGTTGAAGCCTAGACTTCTGGC
TCAAATGAAATAGATGTTTATGATAGAAGTTTGCCTGGCGTGACTCTCATTTGGACCATGTCTGAAAGCAGTGGCCTCACCACTATCCCCAAAGCACACC
CATCACCCACTCCATTCCCTTGCTGCTCTTTCTCATCCACCCACTCCCAGTCCAGGTCTGTCAAAGGGGGTCTGGCTGGGCTCTGCTTCAGGGATCCTGG
CTAGACAACGGCTGTCTGTCACACCTGGCAGGAGGGCCTGGGTTACGGGCCCTTCCTCTGCACCTGCACTGTTCACTAGCCTGCTCCCCCACAGGACACT
GTGCATGGAATGCAGGCTGTGTCTGGAAGAGCTGTGGCCCTGGTGGACCTAAGATTCCTGAGGTGGGCTGCCTCCTTTGTTCCTGCTGTTCTAGAGTTTG
AATGGCCTCTTTTTATGCCGGACTCTCTTCTGGGGACTCCCCTCACTCAGGGGCACCAATGCTCCCTATAGATCCCCTGGGAACTGAAACTGGGGTGTGG
TGGAGGACGTGGAAAGGGTAAACACAGCTCCTTGTCTTTGGACTTCCCTGTCCGGCCCCCTTTCCTCCCAGCTCAGCCTACTGTCCCCGGGTTCTCAGCA
CCTGCCTGCTCCCCAACCCCATAGCACAGACCCCACACATATGTAGGCTCATCATGCCTGCAGGCTGGTCTTCCCTGACACCGTGGATTTTGACAATGTT
GGCAACAGAACTGGGTTGTGGACCCAGCACCTGGAGAGAGGAAGTGCTAGAAAGGTAGAAATAATAAAAGGTGTTTTTGTTGTTGTTAGGAAACTGGAAA
AGCATAGGTCAAGGGCTATGATGGGGATGAGGAGGTAGGAGTGAAAATGAGGGCTGTGTACTTGAGGCTGGGATTGGGGAAGGTAGTGATGAGGACAGAA
TAGGGAGTGGGAAGAACAGAAAGGGACAGAGGGATTCAGGGATTGTGAGAGAGGGGAAGAGGCTGAGCCACCCGGAGGGGCGACCTAGCACGCAAGCAGT
ATGTGGCCCAACACTGGAACCAAGCAGCCCGGCTCCGGGCGCACCTTCTCAGGGATTCCTCAGGGACAAGTCCAGCCCCTTGTCGTCAAGGCTCTTGTAG
ACCGACGTAGGGACCAATAGAACCCCGTGCGGTGGAGCTATTGTGAAGGAGCAAAAAAGTGCCCTGGTTCTAAGAGGACGTCTTAGGGGAAGTGACGGCT
GAGTTGAGGTGGATCCGGCTGGCGATGTAAGGTTCGAGCCATATAAACCCGGGAACCGGGAGCCCTTGACGACATTGTTCCCCGAGTGCCCGGAGTCTGC
GGCTTTTTTTGGGGTGGTGGCAGCTGGCGGAAGTGACGGGAGAGGGGTGGGGCCGCGAGAGCGGCGGAAGTAGGAAGCCGAGGTCTGAATTGCGCGTGGT
GGCCATGGCGGCCAGCGGGGCTGTGGAACCAGGGCCCCCGGGGGCTGCCGTCGCCCCGTCGCCCGCCCCGGCCCCGCCGCCTGCCCCTGATCACCTGTTC
CGGCCCATCAGCGCCGAGGACGAGGAGCAGCAGCCCACCGAGATCGAGTCGCTATGCATGAACTGTTACTGCAATGTGAGGCGGGGGCGCGGCCGCGAGC
GGCGGGTGGGTAGGGCTTGTGCCGGGACGAGCCGGGGGTCAGACCCAGCCAGGTGGGCCCGGCCGGGGACCCCGAGGAGCGCCCGGAGATAGTAGGGCGG
GGAAAGGGAGTTTCATTGATTTTTTTCCTTAGCTACTTTCTACTTCACCAGGGCATGACGCGCCTCCTGCTCACCAAGATTCCCTTCTTCAGAGAAATAA
TAGTGAGCTCCTTTTCCTGCGAGCACTGTGGCTGGAACAACACGGAGATCCAGTCGGCAGGCAGGATCCAGGACCAGGGAGTGCGCTACACTTTGTCTGT
CAGGGCTCTGGAGGTGAGAGGACCTCAGAGCAGGTACCTCAGTATTCTAGAGAGAGATTCGGTACTGGGGTCAGAGCTCTGGTCCAGGCGGTCGGATCTT
AAATAAATCCCCCTATGTCTCCTAGCCTTAGTTTCTTTTGTAAAATGGTACTGGTGTTGTCATCAGCTCAAGTGAGATAAGATTTGTGAAAATGCTTTGT
AAATGTTGTCTGAGGGTATGAAATGAGCAGTAGTTGTTATGAATAGTATTCTCACCATTTGGACAGCCTGGCTCACACCACCTGTACTATTCGAAAGGAG
CAGTCTGGACCCTGTGGAGTGGCGAGAGGGAGAGACAGCTGGGCTGCGGTCTGATGGAAGGGGACGGTCTGGTTATTACTTGAGGAGAAGCTGTTCTGCA
GTCTCTTTGTACTGAACGTATTCTTTTCTTCCCAGGACATGAACAGAGAAGTGGTGAAGACTGACTCTGCTGCCACAAGGATTCCTGAGCTAGATTTTGA
AATTCCTGCCTTTAGCCAGAAAGGAGGTAAGTTTAAGATCAGAGTATTTGGGCTGTTCGCATGTAGCTAGAATCTTACCCTCTTTCTTGCAAAACCCCCT
GGTGCCAGGTCTAGTGGTTTGTGTATGGGTTCTACCATGTAATCATTGTAATCTTCATTAGTTAATCATGAGTGGAAAGCTTAGGTAAAACAGCTCGAGA
TGGTAGAAAGTAATGGTAATACCATAGTGTGTTTATTGTAGAATTTTAGCATCACTATTATCAGACATGAATGGAACCTTGCACCTGGCCTTCTCATTTT
ACAGATGAGGAAATTAAGACCCAGAGAGTTCAAGTGAATTGCCCAGGGTCATACAGGGACTTGATAGCAGAGCTGAGGCTAAGTCACACTTGTCTTTTGT
TCTTGTTCACAAGCTCTGACCACTGTTGAAGGATTGATCACCCGTGCTATCTCTGGCCTGGAGCAGGACCAGCCTGCACGAAGGGTAAGCTGGGGTTTTC
TGATTGTAGCAGCTCAAGGAATAATTGCTTATATAGAGTGTCCCATGTGTCTGAAGAGTCTCTGACTAAGTGTTGGAAACTTGCTGGGTAAGCATATGGT
GGTGCTGGAGCTGCTAGAATGTTGCATATGTTATAATTATTGTCTTTTCCACTTCCCTCCCTCAGTATATATTCAGGCCTCATCAGACAATATAACATTA
CCTCTGAAGAGCCTTTCCTAATCCCCTTGGGTTATCTGTGTTTCCTGAGTATTCCACTGCATCTTATATTTATTATGACAGAAGTAATATATTATAGCTG
CATCTTTAGTTATTTGTCTCCTTAATTGGTTGGGGAGTCCCATGAGAGGACTGATATATATACTATTATATCTCTAACGTGGCATGAGTGCCTGGGCTAA
ATGGTTGAATGAGTGAGAAAAATGAGGCTCACCTGTCACCACCCGTCAACTTCAGGCTTGTTTGCTACATCTCATTGTGAAGCCTGAGTCACTCTGTTTC
CACTCACACTGAGATAGGTGGTGACTTCCTAATGGAAGTAACATGGGCATGACAAGGGGCAGGGCATAAGGTACACCACCAGGGCTGATGCTTTACTCTC
TGTTCATGGCAGGCAAACAAAGATGCTACAGCTGAAAGAATTGATGAGTTCATTGTCAAACTGAAGGAGCTAAAGCAAGTAGCCTCCCCTTTCACTCTGG
TGAGTATTGAGAGGCTGGAGTTGCCCTTGATTAGGGGAGGAGGGACCATTAAGACTGCTGGGATTTTCCACTGTGATGCCTGCGTGGTCTGATAGTAGGT
GATGTAGGATTGTTTATGATTTTCTTTTGCAGTGACTCTCTCTTCTCCCATTTGTTAGATCATTGATGATCCCTCAGGGAACAGTTTTGTGGAAAACCCA
CATGCTCCTCAGAAAGATGATGCCCTGGTGATCACACACTACAACCGGACCCGACAGCAGGAAGAGATGCTGGGGCTTCAAGTAAGTGGACTGAAGGATC
CAGAAGAATGCTCTGGAATTATCGCGCACTCTGGATTGCTTGGAGTCAGTGGAACTTATTTTGCTGCTGCTGCTCTGTGTGCCCTATCTCAGCTTGTTTG
TGCTTCTCATCTTGCTTATGTCCAGGACTTGGGTAAACTTCACAGAAAGGATGGCAGTGGCTGTGATCCTATCTTAAGTCCTGTTCTTCCTTTGGTTGGG
GCTTTACTTTGTGGTTTCTCTAACTGATGAGGTGGCACCTGACATAACTGATGAGGTGGCACCTGAGCATTTCTCCCACTCCAGGGCAGGGTGTTGGGGA
CACTGAGGTATACCTGCCAACTTGCGACCTGCATCTTTGCTATTTTAGGAAGAAGCACCAGCAGAGAAGCCAGAAGAGGAAGATCTCAGAAATGAAGTGA
GTCACATTGGCTACTGGTGAGGAAGGAGCAGAGTTGTGGGCTGAGACTGATGCTGTTCAGCATCTGTCTTCCTTGTCACCAACATAGATGACCACTAGCA
TACCAACTGAGTGTCTTTAGCCTGAACATCCCATCTGGGAGGGCTCACCCTTTGTCCTCATGTTGTGTTCCAGGTGCTCCAGTTCAGCACAAACTGCCCA
GAATGCAATGCCCCCGCTCAGACCAACATGAAGCTAGTACGTATCTTTTGCCAAGCAGTTGGGTTGCTCTTCATCTGACTCAGGCATGAAGATTATAATC
AGGCTGGGAGCATCCCTTTCAAGGAAAACACATGCTTTATACCCAGTGATAAGGAAGATATTATCTTTGATTAGACTGTGTACCTTGGGTTTTGTGTTCA
AAGAGAAAATTAGGCCATGGTCACTAGGCTGTGTGTGTGTGACCTGAGCCATGCCTTCAAATGTGTGAACAGGGATTGCCATGGGTTGGGAACTTGCCCT
CTTCTGGAGGACTCTGTGGGCTGCCTCTTGTGAATATTTCCTGCAGTTCTGGGACCAGCATATGTTTGTGTGGGGTTTGGCTTTGTTTTTCCCCAGATGG
TGGTCTTGTTCGCCTGGAAGTAGATTTCCTTAACTCCGTTTTCCAGAAATCCCTCACTTTAAGGAGGTTATCATCATGGCTACCAACTGCGAGAACTGTG
GGCATCGGACCAATGAGGTGGGTGGGCGCCATTATTTGGGAAGAAGACTAGCTTAAGGGTAACCCCCTTTTAACTATCATTCTTCCTAAGTACTTCAGTA
CTCGGGGGCAGGGGGTGTAGAGTAGCTTGGGTCTTTTTCTTAGGTCTAGTGCAGGGTGATGAGCCCTTGAAGGAATGGGAATTAGCCTAGAGAAGAAAAG
TTAGAGATTCTATAACTTGTTTAAGACATATTAAAGGTTGATGATATGGAAGAGAGAAGTCTTTTGACCCACTCCTCAGAGGTGTGGAAGTTCAGGGAGG
CAGACTTTGACTTCACAATGAAGAACTCAATAGAGCTGTCTGAAAATAGAATGAGCTGCCTTAGAGAATTATAAATTCCCTTCCCCTGAGTGTATCTGAG
TATAAGCTAATTAAATTCTTTAACCAGAATATTATAAAGGAGACCCACACATTGGATGCAGTGGATGAAAGGACTGCAATAAATGCTTAAAAGTCTCTTT
CAACCCCAAAAGTCTTTTTTTTTTTTTTTTTTAAGGTAAATTCAGAGTTTATTGGCAATTTGGGATAAGTTTTGGCACGTTACCAGGGTTGGGCACTGTT
CCTGGCCAGCTCTTGGTGTTTTTGGTTTGGGCGACTGCTGTTTAGAAGGCTCTTTCTTTGGTAGCTATTAATGGCCCTAACTGATTGGATGTCCAAGCCT
ACACTCCAGGTCTCCTGGGTACCAAGTGAGGCTCAGGTCTTCTCTCTGTTGCTCCTGACTGTTATCGATGCAGGTGAAATCTGGAGGAGCAGTAGAACCC
TTGGGCACCAGGATCACCCTCCACATCACAGATGCCTCAGATATGACCAGAGACCTCCTCAAGGTAACAGTCTGCTTGGGAAAGTCACTGTTGTCCTCAT
AAGTTAGATAAACTGTCTCTATCTAGGGGAAGTTGTCTTTTAGAAATAATGTTCAGGGACATGAGGTATCTCCTACTTCCCTGGCTTTGAGGACCCCTGA
GCAGAGGGAGTTAATCTAAGATTGGAA


SNP Information

Context             (SEQ ID NO:15020):
GGATCAATCGGGAGGACGCCCGCTGCAGTCCCCAGAATCAAAGGATGATGTGGCGCATCTATGTTTCTTTGGAGAGTGTTGTAGGTCTGGATTTGTATGG
S
CAATGTGTTTGTGCTTCGTGCGTGAGTTGTTACTGGCCAGGGCTAGGACAAGAGCCCTCGACCCTGGGGCCAACGCCCTGCGTCCTTGGTTCCCCCAGAG
Celera SNP ID:            hCV16249722
SNP Position Genomic:     6645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:15021):
GCTCCCAGCCTGATTATAATCTTCATGCCTGAGTCAGATGAAGAGCAACCCAACTGCTTGGCAAAAGATACGTACTAGCTTCATGTTGGTCTGAGCGGGG
R
CATTGCATTCTGGGCAGTTTGTGCTGAACTGGAGCACCTGGAACACAACATGAGGACAAAGGGTGAGCCCTCCCAGATGGGATGTTCAGGCTAAAGACAC
Celera SNP ID:            hCV25970007
SNP Position Genomic:     1517
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,1|G,39)   total(A,4|G,74)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(A,1|G,39)   total(A,3|G,71)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15022):
CCTAGTCCCTCTCCACAGCGTTTTCGGCCACCCAGGCACGGAAAGGCTTCTGGGACTACTTCAGCCAGACCAGCGGGGACAAAGGCAGGGTGGAGCAGAT
M
CATCAGCAGAAGATGGCTCGCGAGCCCGCGTGAGTGCCCAGGGGAAGGGGTGTAGGCGAAGGGAGGAGACAGCTGGGCCATGCCATGATGACCTGCCTCT
Celera SNP ID:            hCV25638151
SNP Position Genomic:     6280
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,32)   caucasian(A,1|C,39)   total(A,7|C,71)
SNP Type:                 SILENT MUTATION;UTR 5


Context             (SEQ ID NO:15023):
GGAGAGCCCAGGCCCTGATTACCTAGTCCCTCTCCACAGCGTTTTCGGCCACCCAGGCACGGAAAGGCTTCTGGGACTACTTCAGCCAGACCAGCGGGGA
M
AAAGGCAGGGTGGAGCAGATCCATCAGCAGAAGATGGCTCGCGAGCCCGCGTGAGTGCCCAGGGGAAGGGGTGTAGGCGAAGGGAGGAGACAGCTGGGCC
Celera SNP ID:            hCV25638152
SNP Position Genomic:     6259
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,33)   caucasian(C,40)   total(A,5|C,73)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:15024):
TCAACGTGGGGGTGTGGGTGGAGGCTGGCCAGAGGGCCCTGTCCACCCTGGGGGAGGAGAGCCCAGGCCCTGATTACCTAGTCCCTCTCCACAGCGTTTT
S
GGCCACCCAGGCACGGAAAGGCTTCTGGGACTACTTCAGCCAGACCAGCGGGGACAAAGGCAGGGTGGAGCAGATCCATCAGCAGAAGATGGCTCGCGAG
Celera SNP ID:            hCV25638153
SNP Position Genomic:     6204
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,4)   caucasian(C,39|G,1)   total(C,73|G,5)
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:15025):
GCAAGCATGGCTGCCGTGCTCACCTGGGCTCTGGCTCTTCTTTCAGGTGGGTCTCCGACCCTGACTTCAACGTGGGGGTGTGGGTGGAGGCTGGCCAGAG
K
GCCCTGTCCACCCTGGGGGAGGAGAGCCCAGGCCCTGATTACCTAGTCCCTCTCCACAGCGTTTTCGGCCACCCAGGCACGGAAAGGCTTCTGGGACTAC
Celera SNP ID:            hCV25638154
SNP Position Genomic:     6138
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,5)   caucasian(G,40)   total(G,65|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:15026):
CTGGAATTTGGAGGGCTTGCGGCAGCAACTGAAGCCCTACACGATGGATCTGATGGAGCAGGTGGCCCTGCGCGTGCAGGAGCTGCAGGAGCAGTTGCGC
R
TGGTGGGGGAAGACACCAAGGCCCAGTTGCTGGGGGGCGTGGACGAGGCTTGGGCTTTGCTGCAGGGACTGCAGAGCCGCGTGGTGCACCACACCGGCCG
Celera SNP ID:            hCV25638155
SNP Position Genomic:     7123
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,36)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15027):
CATGCATGTGGGTGATTATCTGCAAGCCTGTTTGCCGTGATGCTGGAAGCCTGTGCCACTACATCCTGGAGTTTGGCTCTAGTCACTTCTGGCTGCCTGG
Y
GGCCACTGCTACAGCTGGTCCACAGAGAGGAGCACTTGTCTCCCCAGGGCTGCCATGGCAGCTATCAGGGGAATAGAAGGGAGAAAGAGAATATCATGGG
Celera SNP ID:            hCV27842142
SNP Position Genomic:     8161
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(C,1|T,37)   total(C,3|T,67)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:15028):
AGAGCCTTTGCAGGCACTGGGACTGAGGAAGGGGCCGGCCCGGACCCCCAGATGCTCTCCGAGGAGGTGCGCCAGCGACTTCAGGCTTTCCGCCAGGACA
Y
CTACCTGCAGATAGCTGCCTTCACTCGCGCCATCGACCAGGAGACTGAGGAGGTCCAGCAGCAGCTGGCGCCACCTCCACCAGGCCACAGTGCCTTCGCC
Celera SNP ID:            hCV25638156
SNP Position Genomic:     7541
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15029):
TCGCGCCATCGACCAGGAGACTGAGGAGGTCCAGCAGCAGCTGGCGCCACCTCCACCAGGCCACAGTGCCTTCGCCCCAGAGTTTCAACAAACAGACAGT
R
GCAAGGTTCTGAGCAAGCTGCAGGCCCGTCTGGATGACCTGTGGGAAGACATCACTCACAGCCTTCATGACCAGGGCCACAGCCATCTGGGGGACCCCTG
Celera SNP ID:            hCV25638157
SNP Position Genomic:     7666
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15030):
AGCCTTCATGACCAGGGCCACAGCCATCTGGGGGACCCCTGAGGATCTACCTGCCCAGGCCCATTCCCAGCTCCTTGTCTGGGGAGCCTTGGCTCTGAGC
M
TCTAGCATGGTTCAGTCCTTGAAAGTGGCCTGTTGGGTGGAGGGTGGAAGGTCCTGTGCAGGACAGGGAGGCCACCAAAGGGGCTGCTGTCTCCTGCATA
Celera SNP ID:            hCV25638158
SNP Position Genomic:     7826
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,38)   total(A,1|C,75)
SNP Type:                 UTR 3


Context             (SEQ ID NO:15031):
AGGAGGTCCAGCAGCAGCTGGCGCCACCTCCACCAGGCCACAGTGCCTTCGCCCCAGAGTTTCAACAAACAGACAGTGGCAAGGTTCTGAGCAAGCTGCA
S
GCCCGTCTGGATGACCTGTGGGAAGACATCACTCACAGCCTTCATGACCAGGGCCACAGCCATCTGGGGGACCCCTGAGGATCTACCTGCCCAGGCCCAT
Celera SNP ID:            hCV29138169
SNP Position Genomic:     7689
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15032):
GGGCTAGGACAAGAGCCCTCGACCCTGGGGCCAACGCCCTGCGTCCTTGGTTCCCCCAGAGGATCAGTGCGCGATGACTTGGGGACAAAGGAGATGATGG
R
GGCTAGCAGTCTGACGGCCTGGATATCTGTCCCCTTCTCCAGGACCCTGAAAGACAGCCTTGAGCAAGACCTCAACAATATGAACAAGTTCCTGGAAAAG
Celera SNP ID:            hCV16176893
SNP Position Genomic:     6785
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,3|G,35)   total(A,3|G,71)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,273|G,804)   total(G,804|A,273) 
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:15033):
CAGTCCTTGAAAGTGGCCTGTTGGGTGGAGGGTGGAAGGTCCTGTGCAGGACAGGGAGGCCACCAAAGGGGCTGCTGTCTCCTGCATATCCAGCCTCCTG
Y
GACTCCCCAATCTGGATGCATTACATTCACCAGGCTTTGCAAACCCAGCCTCCCAGTGCTCATTTGGGAATGCTCATGAGTTACTCCATTCAAGGGTGAG
Celera SNP ID:            hCV27853957
SNP Position Genomic:     7939
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,34)   total(C,61|T,1)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:15034):
CCTCTAGCATGGTTCAGTCCTTGAAAGTGGCCTGTTGGGTGGAGGGTGGAAGGTCCTGTGCAGGACAGGGAGGCCACCAAAGGGGCTGCTGTCTCCTGCA
N
ATCCAGCCTCCTGCGACTCCCCAATCTGGATGCATTACATTCACCAGGCTTTGCAAACCCAGCCTCCCAGTGCTCATTTGGGAATGCTCATGAGTTACTC
Celera SNP ID:            hCV8907619
SNP Position Genomic:     7925
SNP Source:               Applera
Population(Allele,Count): african american(T,24)   caucasian(C,2|T,34)   total(C,2|T,58)
SNP Type:                 UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:15035):
GCGCGTGGTGGGGGAAGACACCAAGGCCCAGTTGCTGGGGGGCGTGGACGAGGCTTGGGCTTTGCTGCAGGGACTGCAGAGCCGCGTGGTGCACCACACC
K
GCCGCTTCAAAGAGCTCTTCCACCCATACGCCGAGAGCCTGGTGAGCGGCATCGGGCGCCACGTGCAGGAGCTGCACCGCAGTGTGGCTCCGCACGCCCC
Celera SNP ID:            hCV26488223
SNP Position Genomic:     7219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15036):
GGATGACCTGTGGGAAGACATCACTCACAGCCTTCATGACCAGGGCCACAGCCATCTGGGGGACCCCTGAGGATCTACCTGCCCAGGCCCATTCCCAGCT
Y
CTTGTCTGGGGAGCCTTGGCTCTGAGCCTCTAGCATGGTTCAGTCCTTGAAAGTGGCCTGTTGGGTGGAGGGTGGAAGGTCCTGTGCAGGACAGGGAGGC
Celera SNP ID:            hCV2310400
SNP Position Genomic:     7798
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,31|T,9)   total(C,62|T,16)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15037):
TTGCCCCTGCAGAGGCCCCCTGGGCAAGTCCCCTGCGCCATGTCCCTTCGTCTCCTTCTTCCCCTAACCAGGCCTCCCTCCACCTGTCTTCTCAGAGCAG
R
TAATGGCAAGCATGGCTGCCGTGCTCACCTGGGCTCTGGCTCTTCTTTCAGGTGGGTCTCCGACCCTGACTTCAACGTGGGGGTGTGGGTGGAGGCTGGC
Celera SNP ID:            hCV2310401
SNP Position Genomic:     6032
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,3)   caucasian(A,33|G,1)   total(A,52|G,4)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,447|A,866)   total(G,447|A,866)   no_pop(G,-|A,-)    
SNP Type:                 UTR 5


Gene Number:                 19
Celera Gene:                 hCG1642880 - 30000022995751
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W7H1(1465319..1478747)
Chromosome:                  ChrX
OMIM number:                 300038
OMIM Information:            PYRIMIDINERGIC RECEPTOR P2Y, G PROTEIN-COUPLED, 4;P2RY4


Genomic Sequence (SEQ ID NO:12179):
CATAGCTAATGGAGTTTCTGGCCCCTATAATACATGGGTGGAAGAAATATTTTTAGGTCCTTACCCACCCTCATTCTGTACACCCGGATGATATCCCCAA
CCAGACCTTCCAGTTAGAAAATGAKGATCAGATGTCTGCATGAGGAAGGAGTGGGTTATTCAGTAAAAGGTTGTAGCAGACAGAATTGCTTACCAACTCA
ATAGTCATCTCCCTCTTCCTCCTTGTGGAAAGAATCCCCATTTTTAAGGTAATTCATCCTCCTCCGCATGAGTCTGTGCTCCTCTATGCCAGTCATGGTC
GTTTTATCCCCCTTGCCAGTGATCAGCCTAGTTATAGGCATGGTGAAATTCAGGCCACTGTGATGTGAGAGGAGGTATGCTGGAGAGATTCTGGGAAAGT
TTTCTTGAATGATAAAAATAAGCATACAGGAAGAGGCCTTCCTCTTTTACCATTGAATATTGCCATGTCTGGAAACAATGCCTGACCGGCAATAGCCACC
TTGTGACCATGAAAGTTGCTAAATAACATGCTGAGGTTTGCAAATCAGAAAGATGGAAAGAATCAGGATTTTTTAATGACATTGTTGAACTGCTGAATTA
ATCAGCTCCAAAGCCACCCACTACTGAACTTATATGCAAGATAATATATTTCCTTTTTTAAAAACAGTCATCTAAGTTGGGATTTTCTGTTATTGCAACT
GAAAACATAGCAAAAGATTCAAGTGGGATGTGGATGAGGCATTAGCTCAGTGGGGGAGGACGGAACGGAGATAGATGGATTAAATCGCAGAAACAGATTT
CCTGTGCTGTCCTAGGTGCTGAACAAACTAGTCCTGGTCTCCACTCTAAGGTTGTTAACAGCCTTGCTGGAGATAAAGTTGGACATGTAGAAAGACAAAA
AGGGCACACTACAGAGAATACATATGGACAAAGTTAACTTGTGTACAACTATGTGAAGCCAGTCACTTCCCAATGATTTTATTAGTAAGTTTAGACATCC
AGGGCTTCAGATCACTACTCCTTTCCATTGAGATTGAGTGACTTTCGTGTTCCACTTACTCTCAGCAGGTAATTCCATTTGTTCACTTCATAAAGAAAAT
TCAGCCAATTGGAGTGGACCTCACACCTTCCAAATACACGTATACTTTAATTCTCAATAACGACAATGAGGGCACTCTGCTGGGTTCCTTACATGCATTG
CTTCATTGTCTTCTCACAACAAGCTAGGTGCTAGCATCCTCATTCTACATATGAGGAAATGGAGGTTCAGAAAGACTTATCCATAGTCATAGCCGGCAGG
CGATGGAGCCAGAGTTCAACCCTAGGTCTGTCTGACTCCAAGCCTGCATTTTTTCCACTATATCACTTACCTTCCCTCCCTCATTTTCTTCCCTCTCCCT
CCCTTCCTACCTTTATTCCTCCTTTCTCCCCTCCCTCCCTCCTTCCCTCCTTCTCTCCCTTCCTTCGTTCCTTTCCTCCTAACTCAGATAAAGAGATTAG
AAATCATGCCTCTTCCCCCTTTCCTTCTTAAAGCCCCAAGGAAACAGCAAACCTTGCAAAGAAACTGTCATCAAGACAATTACGAATATTAGATGTGAAG
GGCCAGGAGGGAGAGGACTGGAACAAACTGGAGGAGTAGGGCAATGGAAGGGTGTCAGCAATAATGGTATTTGTACATCTTATTTATCTCTGTCAGGGAA
AAAATAGTAAACTTTTCCTGCATACTAAATTCCAGACATCAATGAGATACCCAAGTGTGTGTGTCCTATAGCAAACAACATATATAGGGCTTAGATTATA
GATGTGGGAACCATTCAGTTCAACAAATTATAATTAAGTCATTCATTCACTCAACAACTATTATTGAACATGTACTATGTGGAAGGTACTTGTTTTCTTA
ACTCTGAATTGGAAGGCATTTTTTGGGGGACAGCAGAGAATATAATTTGAAAGGAAATATCTAGAACATATGTTATAATAACTTTACCTGGAAGGCTATG
GGAAAGACAGAGGTAAAATGAGGTACATGTTCTCAAGGAGCTCTGGTTCTGGTATGGGGGTGGGAGGATCAGGAGGAGATGGCCAAAAACACAAATGAGT
ATAATTCTAGGCTGCCTGTGGTATGTGCCATCTCTGTAGAAATCAAATGTGATAAGAGTGTGAGAGAAGGAGAGATGCATTTTGATTAGAGAGAGATCTG
TATGCTGGAGTCTCTTGGCCATTACAATTTTTGATAACCTCTGAGTCATAGTTGAAATCATGAGAGTGGATGTTCCAAGAGAGAAGGGGAAGAGAGGGTG
GGGGTAGGGGGAGAGAGATGGTGGAGAGGGAGAGAGAGGAGAGGAGAGGAGAGGAGAGAGGAGAGGAGAGGATCTTTGGGGGAAGGCTCACATGTTGGGG
AAGTAGGGGAAAAAAGAGCCAGGGAAGGGGCCAGAAGGAACATCCAGAGGAAGAGGAGAACCGGAGTAAAGCAAAGTCACAGGAACCAAAGTAAAGAAGA
GTTTCACAGAAGAGAGTGAGGCTGATCTGCTGCATTCCGTTCCTCTTGGCCCTGGGTGAGGACAGTAAAAGCCAGGCAGGTGTGCCGGTTGGGGAGGGTT
GGGAGAGGTCTTTTCCTGAAATAGCCACTGGGCGGCAGTGGTGGCAGCAGCAGCAGCTGCAGCTGTGTCGGGACATGCAGAAACGTAGCAGAGCTAAGTC
AGGAGAAATGTAGCAGAGGTAAACCAGCCTGAAGCAGTAGGAGCAGGAAGCTGGCTCAGGCTGGGGCTTCTCTAGTGTAGTGCTTCTCCTTGGGTGTACA
CCAAACTTCAAAACACGCTTGTCCACCTCTGCAGAGGCCAGGTTCATTCCTGGGAGCAAAGCAGTAACAAAAAACACCTTCTAAACTTGCAGCATTTTAT
GGTTCACAAAGTGCTCCACACCTGTTAACCAATTCAATATTCAGGAAACCCTAAAAGATTGGTATTATTATTATTCCCATTTCACTGGTGAAGAATGGAA
GTTACAAAGAGGCGCCCAGGCTCACATAACTAATAAGTGGAAGAGCAAGGATTTAAACACCAGCCCGTCTGGCTTCAAAAACTTGGGCCTCTTATGTAAT
GTCACAGTAGTCAGCTGTCCAGGACTCAGGTTATGACTGTGTCCTCCACTGCTACCTTTTATTCCACCCTTTACTCTGCCACAGGGCAAGGATCTTCAGT
TTCCCCATCCAGGTTTCTGGGCTTTCCGAGAGATCTAGATTCTAGATTCTAGAAGTCCGCCTCCTCCTCTCACTCCCAGGATCCAGCTGGGTGACATTCT
CAGGACCTGAGGATCAAGTAAGTTCAGAGTCCCCATTGCTTCTCAGCTCCATGCAGAGTGGATTCTGCTCCAGCCTGCTCACCCCTCCCCAAAGGCACTG
CTTACCTCATCCTCAGAGTCCTCCAGACCGGGTTTGCCTCTAGTGCCTAAGATATACTTACGGAGGCTTAGTTGGCTTCAGGAGCCCCAGATCCTGAGCT
GCTGGCAATTCCCTACACCAGGCTCTCAAACATCTAGGCTTGCTCTCTGCACCTTCTCCACTATATTCAGACCAAGTCTCTGGGAGTGATCAAGAGAGAC
GAGGGGTACTGTATAGAAAGGGGTAGAGTCTGTATGGGAAATGTATTGGCTGGTATCCTTAAGGAGGCATGAACTGTCTCCTGGCCATCCCCTCTTACAT
GTATAATAGGCATCTCAAAATTTACAGGCTGAAAAGTGAACTCCCAATCTTTCCCCTAAACCCACTCCTGTCTCTGTCAACAGTAACTCTATTCTTCCAG
TTGCTCAGGCCGGACATTTTGGAGTAATTTTTGACTCTTCTTTCTCTTATACCCCACATCAGTAAATCTTGCTGTCCCTACTTAAAAAAGTCTATCCAGA
ATTTGACCACTTCTCATCATCTCCACCACTGTGATCCAAGCTACCATCATCTCTATCAGCAATAGCCTCTTGACTGGTCTTCCCCCTGTACCTCCAGCCC
TGCAGTCTATTCTCAATATAGAGCTGGCCAGTGAGCCTTCTAAAATGTAAGTCAGATGACACCTCTCTTCTCTAAACCCTAAGTGCCTTCCCGTTCACCA
AAGAGTCCTTTACAATGGCCTCCAAGGACCTTCATGATCTGGTCCCTGCCAAACTCTCTGACCTCATTTTTTACTTTTCCCCTTCTCACAACACCTGGCC
TTTATTCAAAAGTCACCCTTAATATTTATTTATTTACTTATAGACAGGGTCTTGCTTTGTCATTCAGGCTGGAGTGCAGAGGTCTGACCATAGTTCACTG
CAACCTCAAACTGCTGGGCTCAAGTGATCCTCCTATCTCCGACTCCCAAAGCACTGGGATTACAGGTGTGAGCCACTGTGCCTGGTTTCATTCCTAATAT
TTAAAACAACAACCCTCTCTATTACCCTTTTCCTTCCCTCTTTATTACCCTTTTCCTTCCCTCTTTAATTTTTCTCCATAATGATGATCACAATCTACAT
ATTTTACTTATTAATTTTATTATCCCCCAGTAGTATGTAAGCACCATTAGGGTGGGAGTTTTTATCTATTTTGTCCACTCCTAAGGAACTACCAGTAACT
AGAACTGGACCAGGCAAAAGTAGGCTCTCAGTAAATATTCGTGGTTTTAAAAAAATTATTTATATTTGAGACAGGGTCTCACTTTGTCACCCAGATTGGA
GTGCAGTGGCGCGATCACAGCTCACTGCAGCCTCAACATCCCAGGTTCAAGCACTCCTCCTGCCTCAGCCCCCCATGTAGCTGGGACATCAGGTGCATGC
CACCACGCCCGACTAATTTTTTGTAGAGACAGGGTTTTGCCACGTTGTCCAGGCTTGTCTTGAACTCCTGAGCTCCAGCGATCTGCCTGCCTCTGTCTGC
CATAAATATTTGTTGATTCTTTCCTGGATCATAGCCAGTGGCTTAGAGAGGCAACTTAAGCATAGCAATTAAGTTATGGATGCTAGAGCCTGATCCAAAG
GCAGGCCTGTCTTGGTTCAAATCTTGACTCTACCACTAACTAGCAAGACACCTAAACTTTCTGTGCCTTCATTTTTTCATCAGCAAAGCAGAGACAATAA
TAGTATCTAGCTCATAGAGAGCCTATGGGGTCATTAATAAGTATAAAGCACTTAGAAAAATGCCTGTCACATAGTAAGTGCTATATAAGCATTCTTTGTA
ATTATATGCATATGAGATTTATATTAAATATCAGTAGTTTAGATTTTCTAAAATCTTTCAATGTGTTGTCTTGCACTTGCCCATGTGAAAATTCGTTTCC
CATGTTTCTGCTCACTTACACAGGCTTGTATGATCCCCCTGTAATCTATCTCCAGGGACCTGGCTCTTCATCAGTAAACTTGGATGTTTCCTCGTGTTCT
CCCTCCTGCAGTCATTTCAAAGCTGTTAAATAGTAATCTCGCTGGGCCCCAGTTTCCCAATCTGTACAATGAGTGGGTTGGACTAGGTCATCGTAAAGGG
CCTTTCTAACTCTTTTAATCTCCCAGGTGGGAGGAGGGACAGGCCCCACCTCCAACTCCACCTCCTTGGATATGCCCTCTGGCTGCCAAGGGGAAGGGTG
ACAGAGTCAGCTGAGCTCAGCTTCAAGGGGACCAGGTAGGAGATGTGCCAACGTTCTTGGGCAAGGGTGGCAATGGGGCTCCTGGGCTGTAGGCAGGCAG
TGGGGAAGGTGTCATAGGTAAATGTCATCTGGAGACACTGTGACCAGGGCACTAGGAGAGGCGAAGGCACTGTGGGGAGAGACACTCCTCTTCCAGGGAT
ATAGCTGTGATGACGAGTCAGAAGACACTTTGGGTCTGGGTATCTTCCCACTTTGGATAGTGCTGGGAGGCCTCCACCCTCTTCAGCCAGCCAGGCTCTT
AGGGACAGAGTGAGCTGCAGAGTGAGTACAACCCAAATACACGGGCTGCCTGCCTGAGCCCCAGCACTGCCTGCTGCCCACCACTTCCCAAGCTGGACCA
AGGGAGCTTGGGTAGGGGCCAGGCTAGCCTGAGTGCACCCAGATGCGCTTCTGTCAGCTCTCCCTAGTGCTTCAACCACTGCTCTCCCTGCTCTACTTTT
TTTGCTCCAGCTCAGGGATGGGGGTGGGCAGGGAAATCCTGCCACCCTCACTTCTCCCCTTCCCATCTCCAGGGGGGCCATGGCCAGTACAGAGTCCTCC
CTGTTGAGATCCCTAGGCCTCAGCCCAGGTCCTGGCAGCAGTGAGGTGGAGCTGGACTGTTGGTTTGATGAGGATTTCARGTTCATCCTGCTGCCTGTGA
GCTATGCAGTTGTCTTTGTGCTGGGCTTGGGCCTTAACGCCCCAACCCTATGGCTCTTCATCTTCCGCCTCCGACCCTGGGATGCAACGGCCACCTACAT
GTTCCACCTGGCATTGTCAGACACCTTGTATGTGCTGTCGCTGCCCACCCTCATCTACTATTATGCAGCCCACAACCACTGGCCCTTTGGCACTGAGATC
TGCAAGTTCGTCCGCTTTCTTTTCTATTGGAACCTCTACTGCAGTGTCCTTTTCCTCACCTGCATCAGCGTGCACCGCTACCTGGGCATCTGCCACCCAC
TTCGGGCACTACGCTGGGGCCGCCCTCGCCTCGCAGGCCTTCTCTGCCTGGCAGTTTGGTTGGTCGTAGCCGGCTGCCTCRTGCCCAACCTGTTCTTTGT
CACAACCAGCAMCAAAGGGACCACCGTCCTGTGCCATGACACCACTCGGCYTGAAGAGTTTGACCACTATGTGCACTTCAGCTCGGCGGTCATGGGGCTG
CTCTTTGGCGTGCCCTGCCTGGTCACTCTTGTTTGCTATGGACTCATGGCTCGTCGCCTGTATCAGCCCTTGCCAGGCKCTGCACAGTCGTCTTCTCGCC
TCCGMTCTCTCCGCACCRTAGCTGTGGTGCTGACTGTCTTTGCTGTCTGCTTCGTGCCTTTCCACATCACCCGCACCATTTACTACCTGGCCAGGCTGTT
GGAAGCTGACTGCCGAGTACTGAACATTGTCAACGTGGTCTATAAAGTGACTCGGCCCCTGGCCAGTGCCAACAGCTGCCTGGATCCTGTGCTCTACTTG
CTCACTGGGGACAAATATCGACGTCAGCTCCRTCAGCTCTGTGGTGGTGGCAAGCCCCAGCCCCGCACGGCTGCYTCTTCCCTGGCACTAGTGTCCCTGC
CTGAGGATAGCAGCTGCAGGTRGGCGGCCACCCCCCRGGACAGTAGCTGCTCTACTCCTAGGGCAGATAGATTGTAACACGGGAAGCCGGGAAGTGAGAG
AAAAGGGGATGAGTGCAGGGCAGAGGTGAGGGAACCCAATAGTGATACCTGGTAAGGTGCTTCTTCCTCTTTTCCAGGCTCTGGAGAGAAGCCCTCACCC
TGAGGGTTGCAGGGAGGCAGGGATATCATGGGTGACCTCATCTCTCATAACCCCTTCAGTTGCCGACTCTTTTTAGCCAATGCCAATCTTCTACTCCTTT
CTCGTTGTTTCTGTTCCTTCCTGGGGCCATTGGTCCTACAATCTTCCTGAAAATCTTCCCCAGTCCTCTTTCCCTGTCCCATTTCCCCCACAGCCTCCTA
TAGCATGTGTTTCTCTACCCAGACCAGAGCATTCAGCTGAAGGGGTGGATCAGGCAGAGTCATCTCAGGATTGGCCTGACGTATCTGATGGTGATAACCA
GAATCAGGAAGTGGAGGCAACTTCCATATCACAGATGCCGAGGATGTGCCATATGTAGCACCCACACTGACTTCCTGGTTCTCTCTCAAAGACAGCATAG
TCTTGCTTACCAAGATGCTGGAATAGGGTGTGATCCCAGGGAGCCTGCATGCCAGGGTCCCCGCATGTAGCTGGGGGCCTGACACTGTTGAACTGGTGTG
CAGCATGAATTAAAGTCCTGTGATAGGGTGGGGACCTTAGCTGATAACAGCCTTTGGGACAGGAATGGGACTGGACCTTCTTTATGATGTTTGCTGAGAA
CATGTATATGACAGCTCTCCTGTACTTAACAAAAGGACAAGTGGATGGCTCAGACTGAGGGGGTGGAGCTCTCACGTCTATGGCTGTAAGTTCTAGCATT
GAGGAGTAGAGCAGATTTGTGCAGAGGAAGGTGGTGACAAGAATTGACGCCCAGAGCTAGTGTTTCACTGATCTCTCCACTTTCTCTAGGTCCTGCCCCA
AATAAATGATAAATCTGTCACCAGCTCTTTCAGATCAGGCTTCAGGACTTTGAGGCCAGGGTGGAGCACTAGGACTGGGAAGGTTCTTTTTAAAGTTTCC
CACCCATTCATTGCTTCTCTCTTCCAGTGCCATCTTAGCACTTACAGGCTTATTGGATCAAGTTGCAGAGGGGAGGGGGGTGCATTGGAAATTGAGAAGC
TAACCCCTAAGCCTTGGGAAGTAAGAATTTCTTGGCAGGCATTCTTGAGAAGGGTGGGCTCACACTTACAGGCCTTCTCCCTCTGAAATCACCTTCCAGC
CTGTTGGTCTCCTGAGTCAGACCCCAGCCTTGCCTTTCTTTTTTTCCCACCCTTGCTAACCTGTCTCTGATCTCTTACTTATCTAATGATACTAACTCTT
ATTGGCTTCTAAGCGTCTCTCTCTGTAGAGTAGGGCTGGGGCTGGACTGAAGGAAAAAAAAATGACTTCAGTTCCCCTGAATTTCCCTTTTTGTTTTTTG
AAAGGCTCCCACTTTCTCCCTAGATATCCAGGACCTTCTTGCTATGCAGGACTCCTGCCATTAGGAGTAAATGAACCGGCTTTTTTCTCCTCTTCTTACT
AGTTCTCCCAGTCTCACAGCCACTGTTGCGTACACTGTTCCTCATCTGCACTCTCTTCCTTTTATTCCTATGACCATGGCCTCTTTGCCCATCACCTCCC
CTAACCTGCTGTCCCCACCCAGTAAAGCTGCTCTTTCCATCCCAACTGACTCAGCCTCCTCCATTTCCTCAGTCTATTTAACTCCCATATGCTTAATCGA
GATGAACTTTCTGGTCTGTTACTTTAGGGCTGTCTTCCCTTGCACTTTAGCTTTAAACACCTTGACTTTCACCTTAGGCCAATCTCCTTTCTTCTAGGAC
TGGAGGAAATTGCAGATGAAGCCAGAGAACAAGGCTGGCTTGACCCACTAAGACTTCACATCCTGGAACTTTGCCTAAGCTCTCATTCCTCTTAGCCTGG
TGTGTTCCTAGTGAACATTCCACAGCAGCTGTTTCCTGTCTTTTTCACCTCCACAAGTCCCCAAATTCATCTCCTTCTTGTGATCTCTTAAGAGAGTTAC
CTTGCCTCCTGCGAAACTGAGAAGCTCTAACGCTTCAACTTCCAGTTATCATTCACGATAACTACTCTATATTTGCCCTGTCTTTCTCCCTTTCTTCCCT
GAAGTTCCAGAATAAGAGGTGGTCCCCTTTCTTATTCCTTTGTTTACCTCTCTTCATTATTTCAAGTCTCTTCCATCACCCATTTTATCCCATCTTAAAA
ACAAACAACAACAACAAAAAAACCAAAGCATTATCACTGACACCTTAACCCTGCTGCCGTTTGTCTTTTCTTTTTTCTTTTTTTTTGAGACGGAGTTGCT
CTGTCGCCCAGGCTGTAGTGCAGTGGCACAATTCTCGGCTCACTGCAACCTTCACTTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCT
GGGATTATAGGCACACATCACCACGCCTGGCTAATTTTTGTATGTTTAGTAGAGACAGGGTTGCATCATGTTGGCCAGGCTGGTCTCGAACTTCTGACCT
CAAGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTACCACGCCTGGCCTAGAAACCTTTTATTGTAAATATTCTCCCTGGT
TGCTATAGTCTTTCATATCTATTATTTCAGTTGCCTCATAAAATTACACCTGTCAGTAGATTACATTTTATTTGACTATTCCCCTATTATTGAATATTTA
GATATATTTCAATTTTTCTGTGCTTTGAACATCTTAATGTGTATGGCTTTTTTTCTTCTTTGTAATTCTGTCTCTAGGACAAATTCCCAGGAGTGGGATT
ACCAGACCAAAGAGCATGAATGTTTTTATGGATTGTGACTGCCAAAAGGACTGCAAAAATTTTCAACACCACAATGACGTATGAGTTGTTCCAGTTCCCT
TGCAGCGCTAGCATTGGACTTTAGAAGAAATCTCTTTAGATGATTAAACATTATTTTGATATTTTTTCATTTCTTTGATTACTCATGTGATTGAACTCTT
TCCCATATGTTTACTCTTTGCATCTTTCTTTAATTGGCACCCTAGTGGTATTCTTATATATCTAAATGTATTCTTAATATACATGCTATCCCTTTGTCAT
TATTTGATGTAAATATTTATCTTATTTATTGTGATACTTTTAATTTTAGTTCCTTATTTTATCCTCTTGCTTTAGAATTTCTCTCCTCATGCTTTTATCT
CTCTGATTACTTTCTATCTCCTTTGCTGACTTCTCTTTTGCTCCTTAAGTAAACAGCATTCCTGAGATCGGTCACAGAGTCATAGCATTTGGGGATTATT
TAATGCCCTTTGTTCATCTGACTATTGATTTTGCCATGGAGAAAACATACATGCAGGTGACTCATAGTCCTTGAGAGTACCTCAGAGATCATATAGGGTC
TGTGCACCCCCTCACTTTACGGTGAAGGAAACAGGCCCAGAGAGGTGGCTTGCCCGTGACTCAGTAAGTTAGTGGCAGAGAAGAGGCAAAGTCCCAGGTC
TCCTGACTCCCAGGGCTCCATTATATACCATTATACCAAGCCAACTCAATTCTAGGCCTTCCCTTCTCCCAACCTCCACCTCTACATCTTCAATTGCCTA
CTAGACAGTTTCACTTGGACCTTCCATTGTTACTTCCACCCCAAGATGTCAAAAGCAAAACTCCCTGAACCAGTTTTTCTACCTGTCTTGCTAATTTCTG
TTCATGGCGTCTTCTTTCTTCAAGTCAGCTAGGCTTGAAAACTCTCAGGCAAGTTCAACTCTTGTCTCTCCCTATTTCACAGGTTCTGACATTTCTTTCT
TCATCTTGCCAATTACAATTGGCCTTCCTTTTAGTCTCAGCACCACCATTTTAATACTGGCTTTTGTCACCTTATCCCTGACTGTCATAGGCTCCTAACT
AGTCTTCCTTATCTCCAGTCTCTTCCCATCGAAAGGCATCCTCTACAATGCATATTGCCAGATTAGTCTACCCACACACTGCTTTCAGAGTTTCACTGTC
TTACTCAAAATTTTTTCATGGTTCACTATTGTCCACAAGACAAGTCAAAATCCTTTTGTCAGAAGTTCAAGAGGGTCTTTGAATCTTACTTTCCATTATT
CCCCAGTAAAAGTCTCTCTTCTCTAGCTAAATTGGTCTTTTCATTCTCTTTCCAAACAAGACTTGGATTTTCTCACCTCCGTCTTTATTCTTCCTGTCCC
CCACACTGGAATGCCCTCCCTTTCTTCTTGGGCTGCCCTTTTTCTATTCAGTTTCCAAGGCCAGGCTTAAGTCCTACTTCCTGTTTGAGGCCTTCTCTGC
TGACTCTTACCCACAGTGACCTTCCAGGTCACTCCTAGAGTAATTATTGTCTCTATCAGTCATTGGGCACTTTTATTGTCTTTTAACATTACTTCTACTG
TTATCTTGAATTGTTATTTAACTATTCATGTATGTTTGTCTTGAGTTCCCACCTATAAACCCCTTGAGTTACTGCGATAGAAAGGAAAGAGCATAGAACA
GAAAATCAGAAGACCCAAGTCTGAGCTCTGATTCAGAAAATGGGGCTCAGGTGTGTCATCTTGGATGAGTCACTCAGACTCTCTGAACCACAATTTCATC
ATCTGTAAAAAGAAGACAATTATCTCAGCTTTAAGTACCTCTTCAGATTCTGGTGAAGCTTTAAGTACCTCTTCAGATTCTGGTGCTTAATAAATATTTT
CTGAATGATTATACGTTAGTAATTCAGTTTTTTGTTTCTTCTTCTGGGTATATTTCCACTTTGAGAGGCCACAGGAACCCCAAGGAATTAAAGGCCAAGG
GGACTTTAGGAACAATGGTGGTGGGAGGGCATTGGAAAGATGTTTTGAGGGGAAGTAGACATAACCAGCATCTTTCACATTCCACTCTGTGGGCTACTCA
CTACTTGGCCTGCCTGTAAGGCTAACCTGGATGTAGGGAGGAGGGGAAGGTGACACATTCTGAGCTTTCACTTTGCTTACGTTTTCTATTCCTTCATCCA
ACAATCCCCAGCTGGTTAAGTGAAATGCTTCACTCAGGAGTCTGCTCTCCTTCATTGATGTGATGAAAGCCAGCTTTTGGTAAAGGAAGTGATAAGGAGT
AGTAGAGAGAACAAACAATTTTCATCAGATAACTGGACTTGACTTTGAATCCTTGATCTGATACTCACTAGCTGCATGATCTCGACAAGTTACTTGATCT
CTCTGAACTTCAATTTCCTCGTTGATAAATTGGGATAAGAATACCCATTTGACAAAGCTGTTGCAAAGAGTCAATGGAGTAATGGATGACGAAACATCAC
TTACAATTCCTGTGGGCAGGAACTTCCTTTCAATGGTTTTCAACTTTAGCATAGCTGGACGTGGAATAAGAGCTCCCATTCAAGTACTAATCAGGCCCGA
CCCTGCTTAGCTTCGGAAATCAGATGAGATCGGGCACGTTCATGGTGGTATGGCCATAGATCATGGAACCAGAACTCAATATTTGAATCTGCTGCTTAGA
TGTGATAGTTAAGATCATGACAAAGAATAAACCTTCGAGTGTGAGAAGCAGAGGGCTAAGAACTGATCACCGAGGGATGGCCATAGTGATGGATTGGGAG
GAAACAGTTTGGGACTCTGGCATTGCATCGAGGGAGAAGAGAGTTTCAGAAACAGGGATTTAGGATAGTTATTTAAAAAACAAAAAACCTTTGAATAAAA
AAAGAGAACGATTAAGAAAGCAATCAACAGTGTCAAATGCCTAAGAGAATTCAAGGAGGATGTGATTCTCAGAAACACTCAATAAAAAATACTTGATTCT
CTGCCAAACTGGGTTTATGCATACAATAGATAATAGCCAGTGGCATTGACTAAAGAGGCCAATTTTAAATAGCTTTTGTAATCAAGAACTTTTTACATGC
ATTAGTTGGTGACCACACCTCTTTCCAAAGTTTCCTGTTGACCACACCTCTTTCCAAAGTTTTCAGAATAACCCATTTAATGGGTTACTTGCCATAACTA
CAGAGCTGATATTTCCTATATGAGATGAGATGTGGCTTCTCATCAAAAGGAAGAGCAGAAATATCTGAGTGGAACCAAAGAGTGAGTATGTCTATGAGGG
TACCTTGGTATAGGTTTGATTACCAGAG


SNP Information

Context             (SEQ ID NO:15038):
GCTGCCTGGATCCTGTGCTCTACTTGCTCACTGGGGACAAATATCGACGTCAGCTCCGTCAGCTCTGTGGTGGTGGCAAGCCCCAGCCCCGCACGGCTGC
Y
TCTTCCCTGGCACTAGTGTCCCTGCCTGAGGATAGCAGCTGCAGGTGGGCGGCCACCCCCCAGGACAGTAGCTGCTCTACTCCTAGGGCAGATAGATTGT
Celera SNP ID:            hCV8815432
SNP Position Genomic:     7175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:15039):
GCAGTTTGGTTGGTCGTAGCCGGCTGCCTCGTGCCCAACCTGTTCTTTGTCACAACCAGCAACAAAGGGACCACCGTCCTGTGCCATGACACCACTCGGC
Y
TGAAGAGTTTGACCACTATGTGCACTTCAGCTCGGCGGTCATGGGGCTGCTCTTTGGCGTGCCCTGCCTGGTCACTCTTGTTTGCTATGGACTCATGGCT
Celera SNP ID:            hCV8815433
SNP Position Genomic:     6751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15040):
CGCTGGGGCCGCCCTCGCCTCGCAGGCCTTCTCTGCCTGGCAGTTTGGTTGGTCGTAGCCGGCTGCCTCGTGCCCAACCTGTTCTTTGTCACAACCAGCA
M
CAAAGGGACCACCGTCCTGTGCCATGACACCACTCGGCCTGAAGAGTTTGACCACTATGTGCACTTCAGCTCGGCGGTCATGGGGCTGCTCTTTGGCGTG
Celera SNP ID:            hCV8815434
SNP Position Genomic:     6712
SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,20)   caucasian(A,27|C,7)   total(A,39|C,27)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15041):
CCTGGGCATCTGCCACCCACTTCGGGCACTACGCTGGGGCCGCCCTCGCCTCGCAGGCCTTCTCTGCCTGGCAGTTTGGTTGGTCGTAGCCGGCTGCCTC
R
TGCCCAACCTGTTCTTTGTCACAACCAGCAACAAAGGGACCACCGTCCTGTGCCATGACACCACTCGGCCTGAAGAGTTTGACCACTATGTGCACTTCAG
Celera SNP ID:            hCV8815443
SNP Position Genomic:     6681
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,24)   caucasian(A,1|G,33)   total(A,7|G,57)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15042):
CTATAATACATGGGTGGAAGAAATATTTTTAGGTCCTTACCCACCCTCATTCTGTACACCCGGATGATATCCCCAACCAGACCTTCCAGTTAGAAAATGA
K
GATCAGATGTCTGCATGAGGAAGGAGTGGGTTATTCAGTAAAAGGTTGTAGCAGACAGAATTGCTTACCAACTCAATAGTCATCTCCCTCTTCCTCCTTG
Celera SNP ID:            hCV8815445
SNP Position Genomic:     125
SNP Source:               Applera
Population(Allele,Count): african american(G,13|T,21)   caucasian(G,19|T,3)   total(G,32|T,24)
SNP Type:                 hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:15043):
ATGGCCAGTACAGAGTCCTCCCTGTTGAGATCCCTAGGCCTCAGCCCAGGTCCTGGCAGCAGTGAGGTGGAGCTGGACTGTTGGTTTGATGAGGATTTCA
R
GTTCATCCTGCTGCCTGTGAGCTATGCAGTTGTCTTTGTGCTGGGCTTGGGCCTTAACGCCCCAACCCTATGGCTCTTCATCTTCCGCCTCCGACCCTGG
Celera SNP ID:            hCV25638253
SNP Position Genomic:     6280
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,24)   total(A,59|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15044):
CAGCTCGGCGGTCATGGGGCTGCTCTTTGGCGTGCCCTGCCTGGTCACTCTTGTTTGCTATGGACTCATGGCTCGTCGCCTGTATCAGCCCTTGCCAGGC
K
CTGCACAGTCGTCTTCTCGCCTCCGCTCTCTCCGCACCATAGCTGTGGTGCTGACTGTCTTTGCTGTCTGCTTCGTGCCTTTCCACATCACCCGCACCAT
Celera SNP ID:            hCV25638254
SNP Position Genomic:     6879
SNP Source:               Applera
Population(Allele,Count): african american(G,8|T,26)   caucasian(G,1|T,29)   total(G,9|T,55)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15045):
AACGTGGTCTATAAAGTGACTCGGCCCCTGGCCAGTGCCAACAGCTGCCTGGATCCTGTGCTCTACTTGCTCACTGGGGACAAATATCGACGTCAGCTCC
R
TCAGCTCTGTGGTGGTGGCAAGCCCCAGCCCCGCACGGCTGCCTCTTCCCTGGCACTAGTGTCCCTGCCTGAGGATAGCAGCTGCAGGTGGGCGGCCACC
Celera SNP ID:            hCV25638263
SNP Position Genomic:     7132
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,30)   total(A,1|G,61)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15046):
TTGGCGTGCCCTGCCTGGTCACTCTTGTTTGCTATGGACTCATGGCTCGTCGCCTGTATCAGCCCTTGCCAGGCTCTGCACAGTCGTCTTCTCGCCTCCG
M
TCTCTCCGCACCATAGCTGTGGTGCTGACTGTCTTTGCTGTCTGCTTCGTGCCTTTCCACATCACCCGCACCATTTACTACCTGGCCAGGCTGTTGGAAG
Celera SNP ID:            hCV25638255
SNP Position Genomic:     6905
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,32)   caucasian(A,1|C,33)   total(A,5|C,65)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,29)   caucasian(A,2|C,34)   total(A,7|C,63)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:15047):
CGTCAGCTCCGTCAGCTCTGTGGTGGTGGCAAGCCCCAGCCCCGCACGGCTGCCTCTTCCCTGGCACTAGTGTCCCTGCCTGAGGATAGCAGCTGCAGGT
R
GGCGGCCACCCCCCAGGACAGTAGCTGCTCTACTCCTAGGGCAGATAGATTGTAACACGGGAAGCCGGGAAGTGAGAGAAAAGGGGATGAGTGCAGGGCA
Celera SNP ID:            hCV25638264
SNP Position Genomic:     7222
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,33)   total(A,1|G,65)
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15048):
CTCTGTGGTGGTGGCAAGCCCCAGCCCCGCACGGCTGCCTCTTCCCTGGCACTAGTGTCCCTGCCTGAGGATAGCAGCTGCAGGTGGGCGGCCACCCCCC
R
GGACAGTAGCTGCTCTACTCCTAGGGCAGATAGATTGTAACACGGGAAGCCGGGAAGTGAGAGAAAAGGGGATGAGTGCAGGGCAGAGGTGAGGGAACCC
Celera SNP ID:            hCV25638265
SNP Position Genomic:     7237
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,30)   total(A,61|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15049):
CCTGGTCACTCTTGTTTGCTATGGACTCATGGCTCGTCGCCTGTATCAGCCCTTGCCAGGCTCTGCACAGTCGTCTTCTCGCCTCCGCTCTCTCCGCACC
R
TAGCTGTGGTGCTGACTGTCTTTGCTGTCTGCTTCGTGCCTTTCCACATCACCCGCACCATTTACTACCTGGCCAGGCTGTTGGAAGCTGACTGCCGAGT
Celera SNP ID:            hCV25638266
SNP Position Genomic:     6918
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,32)   total(A,67|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Gene Number:                 20
Celera Gene:                 hCG1643845 - 30000035509535
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VU68(2544286..2562214)
Chromosome:                  Chr17
OMIM number:                 601687
OMIM Information:            KERATIN 12;KRT12


Genomic Sequence (SEQ ID NO:12180):
AACATCTCTGTTTTCTCTCCCCTAGGCTCATTTCCAAGATTCCTCTCATCAGGGTATTATTTTATCATCTTCCTGTCTCCTACCACTTTCAAAATTCTCC
CCTGCTTTCAAGAACCATTGATCTCTGGAGCCCAGAAGTCAATCTCACTCATACCCCTTAGGGTCCTTGTTTAACCCTCATCTCAAAAGCACAATACATA
AAATGTAGGCAACCCAAAATTCTCTCAGTCACTCACAGGATTTTATAATGTTATCCAAAGTGAAAGATGTTACAGATCAAGGGATCAGCGAGTTGCAGAA
AATGACAGGTCTGTCTTACGGGAAAAAACTCAGGTAGAAAACCCTGCAAAGACCAGGACAGAAACCAACCTGACATGAAAAGATGAGGGTATGATTTACT
CAATAAAAATCTAAAGACTTGTAAAAACCACATAACTAATTTTCTCTATTTTGAACATTTCCTAAACTCTACAAAAATGGAAGATATAATTCTTTTGAAC
AGTTTGCCCTGGCTATAATCATTTTCCTCTCTGCCTCAACTTATGCAATCACTCTGCCAACAAGCCCAAGATTGTTTATTGTTTTTTACATCACCACTGC
CTTATACATTAATGTGGCTGTCAAAGAAAATTATTTTCACTTCTAAAACCTCTAAAGCAGAGTCTTGATTATTTAACTTAGCCTCCCACTTAAAAAAAAA
AAGCCACTGAAGAAGAAATATTTCCCTTTTCAACTTCTGAAGTTGCTCCCCATTCATAACTGAATTCAGAATAAATATTGGTCAAAGCATACCAGTAAAT
TAGGGCACAGTCATTTTCAAATGAAATGAATTTCAAATGACACATTCAAACACATTAAGACTTAACTTCTTTCAAATGAAATCATTCAAGGAGTGCAGTG
ATAAAGTTCAGCGAAACACTAGGCTAGGACTCAGGATAAAAAATAAATTAGATGTAGTACCTACCTAACAAGCTTAGTCTAGGATAATATGTTATATGTA
TAGAAACATAAACAAATAATATATAAACATAATTTTTAGAGATTGAGCAATATTATTTAAATTTTACCATAGGCATTAGAGTTGGAAAGTGTACCTTTCA
GCACAAAATCAATTCCAAGTTCAAAAATTCAACTTAATCATATTCCCGTATTATGTGATCAAATCACTGAGGTACAATTTTGAACTTGGCACATTTCTTT
TGACATTTTATTTGCTTCTGTTTTCATTTCTATGGCAGTAAAATGGAATCTCTCTGTCTTGGGGGACACTTGGGAGTGAATAATAGTTAACAACCATAAC
ATCAAGTTCTTGTGTGGGGAGTGCAAGTTTAACTTGTGCTTTATAAGATCTCTGGAGATGTAGTTACAGGTCAAAGCTAAAATGAAAACCGCATTTGCCT
GTGTGTTTACAGAATTTCATGTGTCATGTTGTTGCTTATAAGCCATGAAAAGTCATTCTCTAGGTCTCAGCCCATACACTGAGAAATTCAAGGAGAAAGC
TTAAAAGAAAAGAAAAAAAAAAGAGCACCTCCTGTTAGATGTGCAGGGCAGAAGCCTAGTGTCAGGTGTCATAGCTAGGGGATGTCAGAGTATCCTCTGC
CCTTTTTATTGTCACCGCCAGCAGCAAGGTTGTGGTATCTATAGAAGGCACTGCAGGCCCGAATCCTATCTCTGCCTCCTCCCAGCTGCATGGGCGTAAA
TAAATCACTTAACATCTGGACTCTCAGATTGCTCATCTGTAAAATAGGATAAAAGTACCACCTGAAGCTGGGCGCCTTGAGGTGGCTCATGCCCGTAATC
CCAGTGCTTTGGGAGGCCAAGGCAGAAGGATCACTTGAGGCCTAAAGTTCAAGACCAGCTTACGCGATATAACAAGACTCCATCTCTACAAAAAAATTAA
AAAAAAAAAATAGCCAGTGTTGTGGTGCCCACCTGTAGTCCTAGCTACTTGGGAGGCTGAGGCAGGAGGATTGCTTAAGCTCAGGAGTTCAAGGTTTCAG
AGAGCTATGATCACACCACTGCACTCCAGCCGGAGTGAGGGCAACCAAGCAAGACCTTGTTTCAAACAAACAAACAAATAAAACCAGTACCACTTTAAGA
GCTTGCCGTGAAGGTTAAAAAATAATGTCTGTAATTCAGCTGGCCCAGTGTCCAAAAAGTAGTAAGTACATAATAACTGATAATTCAAACAAGACCAGCT
CAGTCAAAATGCTTATAATATAGATTTAAGGAATCCTTGGTAAAAACCTCCATATGGGGCTAAAATCACTGGCATTTCCACTGACCAGATTTTCATTCTC
TCAAGAAATTAAACAAATGGATCATGGCTTCTCTCAAGCTGAGACTGCCTTAGGTTGCTACATTCTTTCCACATCTATAGCAAATGTGTGATTTCTGCAA
ATCTCTTGCTTAAACCCCCTTTATTTAGAAATCCCACTTGCTTGCTCTTTGTGACGAGTTTAGGTTGGGGAGAAATATGTCCCTTCACATTTGTCCCTTA
TGTAATAATATAAAAGGAAGTTGTAATTGGATTTCACCACGGGTTCATCATTTGTGTCCCTGGGAAAGTGGCTTTTTTTTTTTTTTTTAATAAAAAGTCA
AAACAGTCCTTCCATTTGCCAGAATTGATCCCAGGTATTCCTTATGGAGGTTTGCCATGGGCTTCAGGTGTGACCCCTCGGCATCTGTCCCCTAATCCCC
AGTGGGCACTGCTAGTTCTGGCTCAGGACTCTTCACAATGGAAGAACCTCAGCTTCGGGGAGGCTGTAATCAGGGAGATAATATCTGGATATGCAGGTGG
ACAGGAGGCAGCAGTAAACTACGGGGAATCTAGGCTACAGGTCTGGAATTCCTCAGGAGTCAGTCTGTACTCTACAAGRCAAAACAAGTGCTAACCATTG
AGACTAACTCCAATGAGATAAAGGCCAGCGAAAGAAGCATTCTCAGGAGAAAGGGCTCCCAGGGAAGGTGGAGCAGCAGGGGCTGCAGAAGATCCCTCTG
CAGGGAGCACCTGCACACTGGCACCAAGCAAAGACATCTGAGTGCATGTTTCTGGGTGTGTGTGTGTGCATGCACGTGTACATTAGAATGAGAGTAACAT
CTGAATGTGTCTACATTGTGAATCCACGAATACTTAAATTATTATACTTTGTAGCTTGCCTTTATATTGATACACTCTTTTTTGATTTTGGAAAAATTTC
CTCATACATAACACACATTAATGGCCCAGCAGCTTGATTTATCAAGAGAGAAATCAATAAGCATATATTGAATGCTGACTTTGTCCAAGACACTGGGCAA
ATGGACTAGACATTGAAGAATGGAGGTAACAGCAGACCTAGTACTTGAATACTTTCATGTTGGCTTGGTTGAAATTCTTGATTTAATTTTCAAAAAGACC
ACATCATTTTGACATAATTCAAGTTGTGTAACAGTTACAGGCTTACTTCACATATTATCTCTGCTATTGAAGTGTCCAAAAAAATCAGGTTATTGTTTTA
GTAAGAGAAACAAAAAGTATTGCATATGCTTATGGAAAAACCTTAAACAATAGCCACATATTTGCTAATTTTTATGGTTGATTGTTTGTATTAAGTAAGT
AACATCTCTATGATCTCACAGGTATCCAATAATTTTGCTGAGAAATTAATCTTTACCAGATAGATTCAATCTCCACTTTAAAATGTATAGAAAGCCTCCT
TTTTGGGAATTAAACATTGGGCACTCATGGACATATAGAATGCCAACAATAGACACTGGGAATTACTGTGGGGAGCAAAGGTTAAACAACTATTGGGTAC
TATGCTTACTACCTGGGTGATGAGATGAGTCGTACCCCAAACCTCAGCATCATGAAATATACACACGTAACAAACCTGCACATGTACCTCCTGAATCTAA
AATTAAAGTTGAAATTTTTTAAAAAAAATCCAGTAGTGGTAAATAAATAAAAATAAAAATCTTCCTTTTTATGAAAGGTATGTATTATTAAATCAAATAA
GAATTCAATTTTATTTTAGAAATCTAGAATACTTGTGATATTTTTAAAACTTTTCCTTAGAATAAAATAAAACGCAGAATCCAAATATACCAAATTGAAA
AGGAGTTTTAGTGGCCATCTATAAGCAAACAGAGGTCCCTGATGGAGAAATGAAGGCCCTGTTTCCCACGAGGTAGGAAATGTATCATTACAATGATTTT
AATGTATTTTATTTCAATAAATCCATTCTAGTCAAAATACATATATGTCTATAGCACACACAGTCAGTGTATACCTTATTAATAAAATTCAGTATAAACA
TCTTTGCAAAAAAACTGTTATTTACACCCAGAAATTTTATTTCCTATCATCAAATACAGAGCAAACTGAATTTAGAAATCTGAATCCAACAAAGGATTTC
GAAGAATCCACAATCCATGTTCTGTACCCAATTATTAAAGTTCAAGTGATAGATAAGTATATAATCTTAAGAGAAAAGCAGATTATAAAATCTTATATTG
AATCAATTATGTTCAAAAATGTATATAAAATACTCATATATACATACATCTTCTTTATGTTTTCTGCATCTTCTAAATTTCCTACTATAAATACATAGAG
AGCTATATTTAAAAAAAAACTATAGAACTATTTTGCAATGAGACATGTAGAGAATTGGGCCATCATCTCAAAGAAAACATGTAAAAGAAAAATCCTTATT
CCTTCTTATCCAATCAAAATGCTCACAATTTAAATTCCTAAGGGAATTCCACCACCCTGGAATTGTACTACTCGGTTTCCAGGTATCTACAACTCTCTCT
GAAAGCAGGCTTCTTTCAAGTTAATGCATTTCCTGTAAGAACGTTAGTTCTCATGTTCAATATATAAGCCATATCAATTTCAAAGATAAATAATATACCA
AACAAGAAAGTATAAGAACTTTATGTCTTAAAAATTAAAGATACTGGATATAATTCCTTGAAGCACGCTTTGCAAAGTTTTCACAACAAAGTTTAAAATA
TAACATTTAATTTATTCTATATTGTAAAATTTATCCTTTTTCATCATAGCAGTCAACTGAAATGGTTCACTAGCCTCTTAAACTTGGGGTTTTAATCATT
TCTTAATTTGAACTGTGTTTCCACTTTCTCCTTATTGATAATGGCAACAAAATCTGAAGTGTTTACACAATCCATTCAACTAGTCAACACATTTATTGAG
CAACCATTACAGGCAATATCTGTTGAAGGAATAAACATAGTAAATGCTGAGTGTAGAGCAGTGAGCAATCAGACAAGGTAAAACTGCTAAAACAACTATA
ATAAACTCTACTATAAACAACTGTACTCAAAAATAGTACTTTTCCAAGTTGAAGAATAAGAGGGAAAAGAAACATGCAACATCCTAAAGCCAAGGTTTTA
AAATCCTTGAAAATGCAAATTCTAGTATCCATCTGGAAAATATATTTATTCTCCACCTTTCACCAGTGCATTTCACAGCTGCTTCTGAAGCTGTATTCCA
CTAAAAGGTATACTTGATCATGACTGGATTTTACATTGGATTGGTTTTTCCAAAGGAAACAAATGGTTTACACTGGATTTTCCAAAGGGAACAAACAGAA
AAGATCAGGGAAGAACTTAAAAAAGCATAAGGTTTAGGAAGAAGTATTTAACGTATCCATTCAGCAATCGCTCATTATCTTCCTACTGTGAACAAGACGC
TAGGCAGTGCTGGGAATACAGGCAACAGACTAATTTGGAGAAGAAAAATTCCTTATGACAAGCAGACTCTACTCCACCCAGCTTTCTTTTTCATATAACA
AATATTTAATGRAAAYGATTATTCGATTATTTCTGTATCAATGAATTTTCATTATACATAAATCATTCACTTGTTGAGCTGGCCAAAAACCTGGGGGGAG
GATCCAATTTTGAGTGGAGAAAGTGAACTTTTCAACTGCGACACCCATCTTGCAGCCTATATAAGTTTAGCTTTCTGGCTTGCTGGCACAACTTCCTCTC
CAGTTGTGGCCACCTTCCCCAGGCCATGGATCTCTCCAACAACACCATGTCACTCTCAGTGCGCACCYCCGGACTGTCCCGGYGGCTCTCCTCGCAGAGT
GTGATAGGCAGACCCAGGGGCATGTCTGCTTCCAGTGTTGGAAGTGGTTATGGGGGAAGTGCCTTTGGCTTTGGAGCCAGCTGTGGGGGAGGCTTTTCTG
CTGCTTCCATGTTTGGTTCTAGTTCCGGCTTTGGGGGTGGCTCCGGAAGTTCCATGGCAGGAGGACTGGGTGCTGGTTATGGGAGAGCCCTGGGTGGAGG
TAGCTTTGGAGGGCTGGGGATGGGATTTGGGGGCAGCCCAGGAGGTGGCTCTCTAGGTATTCTCTCGGGCAATGATGGAGGCCTTCTTTCTGGATCAGAA
AAAGAAACTAYGCMAAATCTTAAKGATRBATTAGCTTCCTACCKGGATAAGSTGCGAGCTCTAGAAGAGGCTAATACTGAGCTAGAAAATAAAATTCGAG
AATGGTATGAAACACGAGGAACTGGGACTGCAGATGCTTCACAGAGCGATTACAGCAAATATTATCCACTGATTGAAGACCTCAGGAATAAGGTAAGATC
TCTTTTGGAGGCGCTTTGGGAATTTTTTTTTTCCTTTTTACCATTACAATGTTTTACAGTGATAATCACCTACAACTTTGATATTTTCCAATTTAGCTGT
ACTTGCAGCAATTTTCTCATCCCAGGTTGTTTCACTCCACTTTATCATTTACTAAGAAATGATTGTATTTCCATTATCTTTCTGTAGGAAATCTGCATTT
CTTTACTTCTCAATATTATTTTATACAGATATYGTCTTAGAAAAATGAAACTGTCTTAAACTCTAAATAAAACAGCATTTAATATCACCATTTTCACCTT
TGTGYCAAAAATATATTTGTATAATACTAGTCTTTTAGGGCTTCAATCTTGTGTGTGTCCCTCTCTTTTGCCAGATCATTTCAGCCAGCATTGGAAATGC
CCAGCTCCTCTTGCAGATTGACAATGCGAGACTAGCTGCTGAGGACTTCAGGATGAAGTGAGTCGAATAAACTGAAGATCATGGGCGTGTCCCACCATGT
CTTCTGTCCTACTGTCCTGCCTTCATTGATATAAAATCTTCTGAAGTTCACATACTCCATATATTTACTGTTTTGGTAAATTCACATAGGGTGTTCTAGA
AAGTAATTAGAATCTAATGCAATTCAGATTAAATGTCCTTAAATTATAAGTTACTTAAACCCAGGGCTATGGATCACGATATTTGTAGTGTGCTATTGAC
TCAACTCATGATGTGACTGACACCATAATCCTACCAGTGTCCTAAACCTCAATTTTCTTTTTTTGTTTTTTGTTTTTTGTTTTTGAGATGGAGTCTCGCT
CTGTCACCCAGGCTGGAGTGCAGTGACGCGATCTCGGCTCACTGCAACCCCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTG
GGATTACAGGCGGCTGCCACCGTGCCCAGCTAATTATTGTATTTTTAGTAGAGACGGGGTTTCACTATCTTGGCCAGGCTGGTCTCAAACTCCTGACCTC
ATGATCCACCCGCCTCTAAACCTCAATTTTCAATGTATCAACCATTGTTTTCCTGATGACACATACAATGGAAAGATTAACCATGTACTAATTTTTATAT
TCCTTCCTCCTTTTCCATGCTCAACTCTCCCAGATATAGGTAAGAAATACTAATTTCCTTTTTGCTTCACAAAATTTCTACACAGGAAGTTGCAATGGCC
ATGGTTCTGAACCTGTAAAATCTTAGTCAAAGCCACTAAAGAAGTATCAGTGTTTTAAGTTAAATCATGAAGAACGTTAAGCAAAAAGAGTAACTTATTT
TCAACGGCTTTTAGAAATTCCACTTAGAGAGGGGCTGCTGCTATTTACAGCCACGGCAGCCAGCCAAAGGGAAAATTATTCCCTGGGATGCTGTGGTATT
GGGATTCATCGCTGGTAGGAAAGTATTGCCTTATAATTTATTCACTTTTCTTCTCCTCCCCAACTGAACAGTAAACAATGGTGGGAAAAAAGGAAAGGAA
AAACACAACAGCAAAAACTGCATCATACACTACAATGCTGCCATTATTAAGTAGGTGCACAGATTTAAGCAAGAAATAGCCCTGAAGATCAGTGGCCTTG
TTCAAATGGTTGTGTTGATTCCCTCAACTGCTTTGCACTTGGTTTTCAGGTATGAGAATGAACTGGCCCTGCGCCAGGGCGTAGAGGCCGACATCAATGG
CCTGCGCCGGGTGCTGGACGAGCTGAYCCTGACCAGGACYGACCTGGAGATGCAGATCGAGAGCCTGAACGAGGAGCTGGCCTACATGAAGAAGAACCAC
GAGGATGTGAGTCAGACAGGGCAGCCTCACTCAGCTACTTTTTTTTTTTCTCCCAGACCCAAAAATTACAATTTCAAATTTAGAAATCTGGAGTCAGGAC
AAGTATGGAGAATACATTGTCTCCCTGTTAAAATGGCCRTTTGTTTTAGATTTCTGTGTGATGTGTGTGGTATGTGTSTGTGTGATGTGTGTGTGKTGGT
AGTRGTGATGGTGGTTCCTGCTAAGGCTCAACAAATTTGAGGCACTTTCTGATTTTGTCATTTTCATTATAAGGCAATGACAATAGGAATGCTAACAGTC
CTAATTCAGTGATTTTAAAAAGACTGAGTATTTTAAAAGTTAAAACAAAAGTCTACCAATAATATATAATGTTTTATATGTCAGAGAAACTGGTTATACT
TAGCATAATGCACACCAGAAAACTCTGAGGTGCCATGGTGCATATTGGAGGCTAGGTAGGGAAGGGATGCTGGCAATAGGAAGTTTCTACTAGATTTTCG
ATGATTGTGGCACAAACAGCGTGCAAGCCCAGGTACTGTCTGCAGCCCTCGGTTTGGCAGCTGTAGGTGAAAACCCCAGTGAGTGTACGCCAGGCCTCCT
TTCACGTGAAGGTCGTGGTCCCTCAAGAAGCAGAGCCAACTTACCCATTAGGCACAGCAGGCACTGCTCCCAGGGTCTGTGGTAATTTCAGGGACCCATG
AATATGTCTTAAGTTCTTGTAATATCAGAAGAAAAATATGAATTTTGAGGTTAAAAAAGTTTTAATGTATTACATTAATATATTTGTCTTTATACCAACA
GTCATAAGATAGAATTTTTAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGGAAGGGGCCCAAGAGGACAAAAGTATCCAGGGC
CCACGAAAGTCACAATGGACCCCTGTGCCCCTCTCTCTCACATGCTGTCCCCAGGAGCTCCAAAGCTTCCGGGTGGGCGGCCCAGGCGAGGTCAGCGTAG
AAATGGACGCTGCCCCCGGAGTGGACCTCACCAGGCTCCTCAATGATATGCGGGCGCAGTATGAAACCATCGCTGAGCAGAATCGGAAGGACGCTGAAGC
CTGGTTCATTGAAAAGGTAACACAAACAACAAAGGCTTTGATACATTCACAGAAAGGCCTGCGAACGAGCTCAGCGCTCGAGCCCCCTGGCTGTCTTTGC
TGTTGCAGAGCGGGGAGCTCCGTAAGGAGATTAGCACCAACACCGAGCAGCTTCAGTCCAGCAAGAGCGAGGTCACCGACCTGCGTCGCGCCTTTCAGAA
CCTGGAGATCGAGCTACAGTCCCAGCTCGCCATGGTAGGCTCGTGCGCAAACAGACGTAGCATCCTTTGGACTTCCAAAGAAAATGCTGCATCCAAATTA
CATTAGCCGTTGGCTACCCTCCTCTTTTCGGTCCCCTCCATCGTTATTTCTATGCCATTTCCCTCCCACGTGCAGAAGAAATCCCTGGAGGACTCCTTGG
CCGAAGCCGAGGGCGATTACTGCGCGCAGCTGTCCCAGGTGCAGCAGCTCATCAGCAACCTGGAGGCACAGCTGCTCCAGGTGCGCGCGGACGCAGAGCG
CCAGAACGTGGACCACCAGCGGCTGCTGAATGTCAAGGCCCGCCTGGAGCTGGAGRTTGAGACCTACCGCCGCCTGCTGGACGGGGAGGCCCAAGGGTGA
GCAGACAACGGAGGCTGTAAACACCTTCAGGGGCTGACCAAGAGTGGGCAGCAGAAATAGAAGGAATGGGGTTTTAGTTGACAGAAAAGCAAACAAACAA
ACACAAGTCTAGTAAAGATATGCCTGGGATTTACTAAATGCTCTACACTTTGCAAAGTGTTTTCACCCATTATCTTACTTGATAATTCATAAAATGCTGC
AAAGAACAAAGGCACCACGGTCAGAAACAGTTTGTAAATGAGTACTCCCTGTACTATAAAAGTCACTTACTCAATTTCTGATATCAAAGACCTGATGATA
AGAAGGACACATAGTAGCCACCTGAACCACCTACTCTAACAAGCTTTCCAAAAGTGATCAGAGTCTGCACTAGTTGGAAGAACTCAGGCCTACAAATTGG
GAAATCTAAYTTCTCAGACCAGATCTTCCATTAAAAGCCAGGTTGTTTCACTTTTTGAGGTCATCTCCTTTGTTTTCTTACAGTGATGGTTTGGAGGAAA
GTTTATTTGTGACAGACTCCAAATCACAAGCACAGTCAACTGATTCCTCTAAAGGTATGCAGAAACCCTAGAATCACTTAGAATAAGTCGGAATCACATT
TATTAATGCAAAACCTGTAAGACCTCATTGACTACTGCATTATTATTAATTTTAATTTAAAGCATATTTATATTCTGAGCCAAGGAAAAACATTTATGCA
TTCCTGCACAAAATGAGTAGTCTATACCATATTAAAACTTTTGGGGGCCTGGGCATGGTGGCTCATGCCTGTAACCTCATAGCTTCGGGAACCTGAGGTG
GGAGGATCGCTTGAGGCCAGGAGTTCGTGACCCACCTGGGCAAATAGCGAGACCCCATCTCTACAAAAAACTTAAGAAAAAAAATAGCTGGGTGTGGTGG
TGTATACCTGTGATCTCGGCTACTCTGGAGGCTGAGGCAGGAGGACCGCTTGAGCCCGGGAGTTAGAGGTTATAGTGAGCTATGATCATGCCACTGCATT
CCTACCTGGGCAACAGAGCCAGACCCTGTCTTTAAGAAAATTAAAATTAAAATTAAAAAATAAAAAAAATGGCAAAGCAGAAGGGAAAAAACCTACTCTG
CTGCAAGGTATTATGATCACCATAACCACCTTTGAAATGTTTTCTTAAAAAAAGTTTTCATATATGTACAAGGCAACACTGAATACATTTCATTGTCATT
GGCTAAAACACATTTTTGAGAAGTAAAATTTACTTTTGAAAGTTTAATTAGATGGATTGTATCAACCAATGCTTAATTTAGAAGCCTACATTAAACAACC
AGTGTTGGATTAATATTTGAAACACTAACTCTTGCCCCCTTATTCCATTTTTATCTTTAGACCCAACCAAAACCCGAAAAATCAAGACAGTTGTGCAGGA
GATGGTGAATGGTGAGGTGGTCTCATCTCAAGTTCAGGAAATTGAAGAACTAATGTAAAATTTCACAAGATCTGCCCCATGATTGGTTCCTTAGGAACAA
GAAATTTACAAGTAGAAATTATTCCTTTCAGAGTAACATGCTGTATTACTTCAATCCCTATTTTTGTCTGTTCCATTTTCTTTGGATTCCYTATTCACAT
TGAATCCTTTTTGCCCTTCTGAAACAATATTCAGTCACAAGTCATTTTGGTCATGTTGGTCTTTGTAACAAATCAAAATTACCTTATATCCTTCTGGACC
TGGAGTAGTCTTTTAACGAACTTTCTTCTGGTAACCCGGAATATTTTTTAATCATAGAGCTTTAATCAAGTAGTATTGTTTTAATAGAGTTAATTGTAAT
AAAAGATGAATGGTAATAATGTGAAATGTATGCCTTGATTCCAACAAGAATGTCAAGAGCATAGAGAGAAGTTTTTGAAATACTACTAATAAAATAGAGG
CTGGGAGTAATGACTCACACCTATAATCCCAGCACTTTGGGAGGCTGAGAGGCAAGATGATTGCTTGAGGCCCGGAGTTCAAGACCAGCCTGGACAACAT
AGAGAGACCCCCATCTCTACAAAACATTAATAATGATAATGTAGATAAAACTGGGATGAAGATGTCAGGGTTTGAGGATTAAGCTAAAAGAAGATTCTTT
TAGAAGTTCTGGCCTTTTTATGTAAGCTCATCAAGGTTGTAGCAAAATTATATTGTCTACTACAGCAGTTGAGAGTTGTCCTGTTCATTTTCTAGCACCA
TCATTCATGCAGTCAAGAAACGCTGAGCCCCTACAGTGTGCCAGGTTGGAGGCTCAGTGATGAATATGATATGGTCCTTGCCTTGAGGAGCTCATGGTTG
AGGGCAGAGATAAACACCTACCAAGAATGTTGATACAGTGAGATCTGTTGAATAGAAGTTCAAAGGGCTGGGCACCATGGCTCACGCCCGTAATCCCAGC
ACTTTGGGAGGCTGAGGCGGGCAGATCATGAGCTCAAGAGATCAAGACCATCCTGGCCAACATGGTGAAACCCCATCTTAACTAAAAATACAAAAATTAG
CCGGGTGCAGTTGCAGGTGGCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGCGAATCACTTGAACCCGGGAGGCGAAGGTTGCAGTGAGCCAAGATT
GCACCACTGCACTCCAGCATGGCAATAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAGCAAAAAAAAGAAAACAAACAGAACTTCGAAGGACACATGGAA
GAAGTGAACAATTTTCCAGGAGGGGCAATGAAATGCTACATAAAGAAATCATCCAGGTAGACGAGGGAGAAAGGCAACAGGGCAAATACATGTGAAAAGA
CAGAGGGTGTGAACAAACATGGTTCTGCTCTCCTTTCTCCTAGCTGGCAGCAGTGAGGCCCAGGGTGGGGTCCCCACTGGGGCAGGTCAGACCCACAAGT
CAGTAACAAAAATCATGTTCTGCATTAGGGAAAAAGGCAGCCAAAGTCTCAGCCTGAGTAGATGGTGGTTCAACATGGGTTGCCAAATTCAAAACCCTAA
AAGGAAAATGGGCAAAATTCAATGATTAAGAGCCTGGCCTCTAACATCACACTGGGTTCAATTTCCGGCTCTGCTACTTAATAACAAGTAATTTAACCTC
TGTGTTCCTCAGTTTCTTAAAGTGGAAATGATAGCAATGACTGCACCTGCTTCATGGCACGGGTTTTGTGAAGATGAAATGAGGTCGTGTACCTAAAGCA
CTAGGAACCTGGAAACTATTGGCACCTAGAAAGTACTCAATATTTGTGTCTTATTATTATTTACTGTATGAAACCAAAGTGGGATGAAGAAACAAGGAGA
CACGGTGAATAAGGAGTGTCAAAGAAGCAGAAGGGAGAGGGAGGAGTTGTGTTAGACAAGAGGAATTCCAGAGCTGAGTCCAAAGGCCAATGGCTAGTCA
GCCAACTTAAGCTGATTTGCTTCAGTATGCAGCTTTTCCTTTTAATATCATTTATATGGCCAGATGCAGTGGCTCACGTCTGTAATCCCAGCACTTTGGG
AGGCCAATATGGGCAGATTGCTTGGGCCCAGGAATTCAAGACCAGCCTGGACAACATGGTAAAACTCTGTCTCTACAAAAAAAATTTAAAAAATAAAAAA
AAAATTAGTCGGGTGTGGGGGTGCACACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGAAGGATTACCTGAGCCTGGGAAGGTCAAGAATGCAGTGA
GCTGTTATCGTGCCACTGCACTCCAGCCTGGGCAACAGAGTAAGACCCTGTCTCAAAAAAAAGAAAAGAAAAAAATATTTTTAATGGTTTCAGATCCTCC
ACTCATCTCACTTTATTATACGCTCAGCTCTCTTTGTCTAGCCTTCACCTTCCAGCACACATCCTAGGGTAACCTTTACCTTTCAGACTCAAAAGGATTT
TATCAAGGCCTCTGAACAAGGTCCACAGCCCCCAAGTAATAAATAAAGGATTCTACTTCCCTGGTGCTCAAAAGTGTCTGCAAATAGTTACTGCTTTAAA
TAACATCTGTTTTCCTTACAACTACATAAGAATGGTGTGAGACTCAAAGGGGAAAGGATTTTGCACAAGTATAAATGCAAGGGTCATTTATTAGCTAGTA
CCATAGTTTCTCAGCATTCCCTTCTCTTGGAAATTTTTTACCACAAAGCTCCCAGAGCCATCACTCTGTAGGCAGCTTTTTCTCAGACTTCTGTGACTGA
ATGTTGGCTCAATCCTCTTGTCTTTTCTCTATACTCCCTCCCCAGGTAACCTCATCTGATCCCTCCCCAGCCTCTCCTCCCTGATCTTATCCCATGGGTT
TTGTTTGTTTGTTTGAGAGGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTACAATGGTGTAATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCG
ATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGGCTATAGGCATACACCACCACGCCCAGCTAATTTTTGTAATTTTGGTAGAGACAGGGTTTTGCCATGT
TGGCCAGGATGGTCTCCATCTCTTGACCTCATGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCAGCCAATCCC
ATGGTTTTAAATAGCACCCACATATTGGTGACTTGTGGCAGCCTCCAGGTTGGTGCCAGTGATCCCTGCCTCCTGGTCTTCATTCCCTTGTGTAGTTCCT
TCTCACAATGAACGAGGAGCAGATTTATTGAAGAAGTGACAGTATATGACCTCCAAAGATAGATCACAAAGGCCTTTCAGTTCTTCCTTGGTCTCCTGGA
CTATATGCTCTTGGGGAAGTCAGCTACCGGCAGGGTTATATCGTGGGGGAAAAAACTATCTGAAAAAAATTCGTGATTTCACAAAATTTCCCATTGAAGT
TCCAATGGCTAGGATTTCATGGCACAGCCAGCAAGACCCAAATAATAGTCCTTTTCTGATACTATCTTGGCCAAAATATCCTATAAGTCTTCACTTGGCA
AAGGAAGCATTACATTTCTTATTATGTAACTTCACTTTGCCCTGTTCTCACTGACAAGAAATGCAACTAGCACAGCATCTATCAGTCCCTTCGGGCGGCT
AGAACAAAATACCTCGGACCGCGTGGCTTAAAAATGAGAGAAACTTATTTCTCACAGTTCTGGAGGCAGCTTCACTGTCTGATAAGGACCCGCTTTCTGG
ATCATACACAGCTTCTCGATATATCCTCACATGGCAGAAGGGACAAAGCAATGCCCCAGGGCCTCATTTATAAGGACAATAATCCCCTTCGCCAGGGCTC
CACCCTCATGACCTAATCCACTCTCGAAAACCCCACCTCCTAATACTGGGTCATTGGTGATTAGGTCTCAACATACAAATATGGGGGGACAAAAACTTTC
AGACCATAGCAGCATACTTATCATGAGAGTCTATCCCTCATTCACTAGGCCACAAGCCCTAATTCAACACAGATGTGAGAGGTCCCTTTGGACTCGGCAA
GTAATGAATTGCAGAAGTGGAAGGTCTGTCTTTAAAGAAAAGAACTCCTAAGAAAAAAAAACTGAATAAAGAATCCTATAGCAAAAGACAAGTACATTGT
TTATGATTATCCTAAAATCTAAAATTTTACAAATTTAAATTTTTACTTTGATATGCATATGTTGTGTGTAAAAGCTAGTGGAAGGTCTGGAAAATACTGT
ATATATACTGAACTGTTATAGTAGTTATCTCTTGGGGATTAGCAAGGGGTTTGAAGAATACCTTTATTAAAATGTTTAACAAACAGCATATATGACTCTG
ATAATCAGAAAAAAAAATAAATGTTATTCTCCCAAACAAATGGCTTTGCAAATGGGTCACAGCAGGAAGGAACCACCTAGAAAAACAACCACGTAGAAAA
ACAAAGCCAAAGCTTTATTTCTTTAGGCTTTGTAAGAGTGCCATCTTCTGGAGTCTCAAGAAATGAACTTTAAAATAAACTAACCCTGGCTGGGCGCGGT
GGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGGTCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCTAACATGGCGAAACCCTAT
CTCTACTAAAAATACAAAAATTAGCCAGGAGTGGTGGCGTGCGCCTGTAGTCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATAGCTTGAACCCAGGAGG
CGGAGGTTGCAGTGAGCCAAGATCACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGATTCCGTCTCAAAAAATAAAATAAAATAAAATAAAAATAAG
CTAAGCCTGTGTGTTCAAGCCACTTGAGATGTATTGATACTAGAAGGTTTATCTTTTAAAACAAGAAAGAAGAAAAAAAGCAAACCTTTTACAACGATCA
ACTTAGCAAATTAAAATTGTCTTATTTAACTAATAATTAGTTTCCAAAAAGTTCACCAGTAAGGAGGCAGTTCTACAAGGCATAAAGTGAAAAAGAAAGT
TAGCAATTATTTAGAGTTAAGAAAACCAGCCAATCAATAACTACTCAGGCTTTAAAAACATACTCAAATATCAAATGAAAATGAAATTCTTAATCATATA
GCTGAGTAAATGATTTTTTTATGGGGTAGTAAATGTTTCTTAAATCTTGGAACTGAATCCAAGATTGTGCTGAGCTAAAGAAACCAGACACAAAAGAATA
CATACTGTATGATTCCATTTATATGAAACTTTCAGAAAGATAAAATCTCATCTATAGTGACAGAAATAAGCTCAGTGGTCACCTGAGCTGAAAGGTGTGG
GAGGAGTGAGAATTAACTGGTTAACCTGGAAGGGGCACCTGAGAACCTTTGGGACCGATGGAAGTGTTCCGTATCTTGACTGTGGTGATGGGTCCATTTA
GCAAGGCTCTTCAAACTGCACATTTAAAACGAATATATTTCATTGTAAGTAAATATTAACTCAATAGTCAATTTTAAAATAATAATTGAATATTCTTTCT
TCAGATGATACTGTCCACAGGCGCAGAGAGGCCATGTAGGATCGTCAAAGGTGTCCTAGGGCAAGCTGGCTCTTAATCACTGATCAGTAAATATTCAGGA
ATTTTCCAAGCTGGCTATTAAACCATGGGCAGCTTGAAATTGGCCATGATGGGAGTATTTACACAAATGGAACTTGGGCTTTTAAAATGTATTTCCCAGA
AAACTGTTTTACACCAGTACACCACTGAGCATAGAGGTTAAAAGCACAGTTCAAAGGCCTGAGTTTGGGTCCCAGCTCTGGCACTTTCTAATGGTTTTAC
TTACCTCTCTGTTCCATAGTTCTCTGTTCCCTAAAATCAAGGCAAAAAAGGATACCTGCTTCACGCCCTATTATGAGAATTCTATGGGTCAATTCACACT
TGGCATATAGTAAGCACTAAATATTACCTGCTATTATTATGCAAAGAAAAAAAGTCTCTCTACAACTAAAGAAATGAACTGGTTTACATATTTCCCCCAG
ACATATTTATTCTTTTTCTTCCCTTCATGCACAATCCTAAATTATTCCACTTTTGTAAAAAAAAAAAGTGCACTTTTCTCACCCAACATATGGGGAGGGG
GGAATAATATTTATCTTCCCTCTATCACAAGTTGTGAGCATCAAATAAGCCAACTTCTGTGAAGGAGCTTAACAAGCCATAAAGCACTTTGAAACTATAA
GATGTGCTTTCTTCAGAGATGGGGTCGCTCTCTGTCACCCAGGCTGTAGTGCAATGGTGTGCTCATAGCTCACTGCAGCCTCAAATTCCTGGGCTCAAGT
GATCCTCCCACCTCAGACTACTGCCATT


SNP Information

Context             (SEQ ID NO:15050):
GGTGGCTCTCTAGGTATTCTCTCGGGCAATGATGGAGGCCTTCTTTCTGGATCAGAAAAAGAAACTATGCAAAATCTTAATGATAGATTAGCTTCCTACC
K
GGATAAGGTGCGAGCTCTAGAAGAGGCTAATACTGAGCTAGAAAATAAAATTCGAGAATGGTATGAAACACGAGGAACTGGGACTGCAGATGCTTCACAG
Celera SNP ID:            hCV27531690
SNP Position Genomic:     6444
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15051):
CAACCTGGAGGCACAGCTGCTCCAGGTGCGCGCGGACGCAGAGCGCCAGAACGTGGACCACCAGCGGCTGCTGAATGTCAAGGCCCGCCTGGAGCTGGAG
R
TTGAGACCTACCGCCGCCTGCTGGACGGGGAGGCCCAAGGGTGAGCAGACAACGGAGGCTGTAAACACCTTCAGGGGCTGACCAAGAGTGGGCAGCAGAA
Celera SNP ID:            hCV27541572
SNP Position Genomic:     10056
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15052):
GGGAATACAGGCAACAGACTAATTTGGAGAAGAAAAATTCCTTATGACAAGCAGACTCTACTCCACCCAGCTTTCTTTTTCATATAACAAATATTTAATG
R
AAATGATTATTCGATTATTTCTGTATCAATGAATTTTCATTATACATAAATCATTCACTTGTTGAGCTGGCCAAAAACCTGGGGGGAGGATCCAATTTTG
Celera SNP ID:            hCV27828824
SNP Position Genomic:     5812
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,26)   caucasian(G,34)   total(A,2|G,60)
SNP Type:                 hmCS


Context             (SEQ ID NO:15053):
TGGGGGCAGCCCAGGAGGTGGCTCTCTAGGTATTCTCTCGGGCAATGATGGAGGCCTTCTTTCTGGATCAGAAAAAGAAACTATGCAAAATCTTAATGAT
R
GATTAGCTTCCTACCTGGATAAGGTGCGAGCTCTAGAAGAGGCTAATACTGAGCTAGAAAATAAAATTCGAGAATGGTATGAAACACGAGGAACTGGGAC
Celera SNP ID:            hCV27531689
SNP Position Genomic:     6428
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15054):
CTGGGGATGGGATTTGGGGGCAGCCCAGGAGGTGGCTCTCTAGGTATTCTCTCGGGCAATGATGGAGGCCTTCTTTCTGGATCAGAAAAAGAAACTATGC
M
AAATCTTAATGATAGATTAGCTTCCTACCTGGATAAGGTGCGAGCTCTAGAAGAGGCTAATACTGAGCTAGAAAATAAAATTCGAGAATGGTATGAAACA
Celera SNP ID:            hCV27528088
SNP Position Genomic:     6414
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15055):
GATTTGGGGGCAGCCCAGGAGGTGGCTCTCTAGGTATTCTCTCGGGCAATGATGGAGGCCTTCTTTCTGGATCAGAAAAAGAAACTATGCAAAATCTTAA
K
GATAGATTAGCTTCCTACCTGGATAAGGTGCGAGCTCTAGAAGAGGCTAATACTGAGCTAGAAAATAAAATTCGAGAATGGTATGAAACACGAGGAACTG
Celera SNP ID:            hCV28016627
SNP Position Genomic:     6424
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15056):
TAATATCTGGATATGCAGGTGGACAGGAGGCAGCAGTAAACTACGGGGAATCTAGGCTACAGGTCTGGAATTCCTCAGGAGTCAGTCTGTACTCTACAAG
R
CAAAACAAGTGCTAACCATTGAGACTAACTCCAATGAGATAAAGGCCAGCGAAAGAAGCATTCTCAGGAGAAAGGGCTCCCAGGGAAGGTGGAGCAGCAG
Celera SNP ID:            hCV2557950
SNP Position Genomic:     2879
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 hmCS


Context             (SEQ ID NO:15057):
TTAGGAACAAGAAATTTACAAGTAGAAATTATTCCTTTCAGAGTAACATGCTGTATTACTTCAATCCCTATTTTTGTCTGTTCCATTTTCTTTGGATTCC
Y
TATTCACATTGAATCCTTTTTGCCCTTCTGAAACAATATTCAGTCACAAGTCATTTTGGTCATGTTGGTCTTTGTAACAAATCAAAATTACCTTATATCC
Celera SNP ID:            hCV25640534
SNP Position Genomic:     11691
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,22)   total(C,59|T,1)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:15058):
CATAGTAGCCACCTGAACCACCTACTCTAACAAGCTTTCCAAAAGTGATCAGAGTCTGCACTAGTTGGAAGAACTCAGGCCTACAAATTGGGAAATCTAA
Y
TTCTCAGACCAGATCTTCCATTAAAAGCCAGGTTGTTTCACTTTTTGAGGTCATCTCCTTTGTTTTCTTACAGTGATGGTTTGGAGGAAAGTTTATTTGT
Celera SNP ID:            hCV25640535
SNP Position Genomic:     10510
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,28)   caucasian(C,5|T,29)   total(C,11|T,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:15059):
TTTTTTTTTTTCTCCCAGACCCAAAAATTACAATTTCAAATTTAGAAATCTGGAGTCAGGACAAGTATGGAGAATACATTGTCTCCCTGTTAAAATGGCC
R
TTTGTTTTAGATTTCTGTGTGATGTGTGTGGTATGTGTGTGTGTGATGTGTGTGTGGTGGTAGTGGTGATGGTGGTTCCTGCTAAGGCTCAACAAATTTG
Celera SNP ID:            hCV2557960
SNP Position Genomic:     8539
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,8)   caucasian(A,20|G,4)   total(A,32|G,12)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15060):
GGGCTGGGGATGGGATTTGGGGGCAGCCCAGGAGGTGGCTCTCTAGGTATTCTCTCGGGCAATGATGGAGGCCTTCTTTCTGGATCAGAAAAAGAAACTA
Y
GCAAAATCTTAATGATAGATTAGCTTCCTACCTGGATAAGGTGCGAGCTCTAGAAGAGGCTAATACTGAGCTAGAAAATAAAATTCGAGAATGGTATGAA
Celera SNP ID:            hCV27535909
SNP Position Genomic:     6411
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15061):
ATACAGGCAACAGACTAATTTGGAGAAGAAAAATTCCTTATGACAAGCAGACTCTACTCCACCCAGCTTTCTTTTTCATATAACAAATATTTAATGGAAA
Y
GATTATTCGATTATTTCTGTATCAATGAATTTTCATTATACATAAATCATTCACTTGTTGAGCTGGCCAAAAACCTGGGGGGAGGATCCAATTTTGAGTG
Celera SNP ID:            hCV27844341
SNP Position Genomic:     5816
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,27)   caucasian(T,34)   total(C,1|T,61)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15062):
ACTGCTTTGCACTTGGTTTTCAGGTATGAGAATGAACTGGCCCTGCGCCAGGGCGTAGAGGCCGACATCAATGGCCTGCGCCGGGTGCTGGACGAGCTGA
Y
CCTGACCAGGACCGACCTGGAGATGCAGATCGAGAGCCTGAACGAGGAGCTGGCCTACATGAAGAAGAACCACGAGGATGTGAGTCAGACAGGGCAGCCT
Celera SNP ID:            hCV25640546
SNP Position Genomic:     8327
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,33|T,1)   total(C,69|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15063):
AGGACAAGTATGGAGAATACATTGTCTCCCTGTTAAAATGGCCATTTGTTTTAGATTTCTGTGTGATGTGTGTGGTATGTGTGTGTGTGATGTGTGTGTG
K
TGGTAGTGGTGATGGTGGTTCCTGCTAAGGCTCAACAAATTTGAGGCACTTTCTGATTTTGTCATTTTCATTATAAGGCAATGACAATAGGAATGCTAAC
Celera SNP ID:            hCV7571530
SNP Position Genomic:     8596
SNP Source:               dbSNP
Population(Allele,Count): (T,-|G,-)   Caucasian(T,16|G,66)   African-American(T,10|G,74)   Asians(G,76)   total(G,216|T,26) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15064):
TGGTTTTCAGGTATGAGAATGAACTGGCCCTGCGCCAGGGCGTAGAGGCCGACATCAATGGCCTGCGCCGGGTGCTGGACGAGCTGACCCTGACCAGGAC
Y
GACCTGGAGATGCAGATCGAGAGCCTGAACGAGGAGCTGGCCTACATGAAGAAGAACCACGAGGATGTGAGTCAGACAGGGCAGCCTCACTCAGCTACTT
Celera SNP ID:            hCV25640547
SNP Position Genomic:     8340
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,34)   total(C,69|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:15065):
TATGGAGAATACATTGTCTCCCTGTTAAAATGGCCATTTGTTTTAGATTTCTGTGTGATGTGTGTGGTATGTGTGTGTGTGATGTGTGTGTGGTGGTAGT
R
GTGATGGTGGTTCCTGCTAAGGCTCAACAAATTTGAGGCACTTTCTGATTTTGTCATTTTCATTATAAGGCAATGACAATAGGAATGCTAACAGTCCTAA
Celera SNP ID:            hCV7571531
SNP Position Genomic:     8604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15066):
ACTTCTCAATATTATTTTATACAGATATTGTCTTAGAAAAATGAAACTGTCTTAAACTCTAAATAAAACAGCATTTAATATCACCATTTTCACCTTTGTG
Y
CAAAAATATATTTGTATAATACTAGTCTTTTAGGGCTTCAATCTTGTGTGTGTCCCTCTCTTTTGCCAGATCATTTCAGCCAGCATTGGAAATGCCCAGC
Celera SNP ID:            hCV25640548
SNP Position Genomic:     6905
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(T,36)   total(C,5|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:15067):
TAGCTTTCTGGCTTGCTGGCACAACTTCCTCTCCAGTTGTGGCCACCTTCCCCAGGCCATGGATCTCTCCAACAACACCATGTCACTCTCAGTGCGCACC
Y
CCGGACTGTCCCGGCGGCTCTCCTCGCAGAGTGTGATAGGCAGACCCAGGGGCATGTCTGCTTCCAGTGTTGGAAGTGGTTATGGGGGAAGTGCCTTTGG
Celera SNP ID:            hCV2557958
SNP Position Genomic:     6068
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,17|T,19)   total(C,49|T,25)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3)   Caucasian(T,128|C,184)   Chinese(C,24|T,32)   Japanese(C,5|T,7)   Tfrican(T,8|C,92)   total(C,305|T,175) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15068):
ATTTAGAAATCTGGAGTCAGGACAAGTATGGAGAATACATTGTCTCCCTGTTAAAATGGCCATTTGTTTTAGATTTCTGTGTGATGTGTGTGGTATGTGT
S
TGTGTGATGTGTGTGTGGTGGTAGTGGTGATGGTGGTTCCTGCTAAGGCTCAACAAATTTGAGGCACTTTCTGATTTTGTCATTTTCATTATAAGGCAAT
Celera SNP ID:            hCV26647903
SNP Position Genomic:     8578
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15069):
GGGGGCAGCCCAGGAGGTGGCTCTCTAGGTATTCTCTCGGGCAATGATGGAGGCCTTCTTTCTGGATCAGAAAAAGAAACTATGCAAAATCTTAATGATA
B
ATTAGCTTCCTACCTGGATAAGGTGCGAGCTCTAGAAGAGGCTAATACTGAGCTAGAAAATAAAATTCGAGAATGGTATGAAACACGAGGAACTGGGACT
Celera SNP ID:            hCV27536870
SNP Position Genomic:     6429
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)   no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15070):
CACTCCACTTTATCATTTACTAAGAAATGATTGTATTTCCATTATCTTTCTGTAGGAAATCTGCATTTCTTTACTTCTCAATATTATTTTATACAGATAT
Y
GTCTTAGAAAAATGAAACTGTCTTAAACTCTAAATAAAACAGCATTTAATATCACCATTTTCACCTTTGTGTCAAAAATATATTTGTATAATACTAGTCT
Celera SNP ID:            hCV25640558
SNP Position Genomic:     6833
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,30)   total(C,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:15071):
CTGGCACAACTTCCTCTCCAGTTGTGGCCACCTTCCCCAGGCCATGGATCTCTCCAACAACACCATGTCACTCTCAGTGCGCACCCCCGGACTGTCCCGG
Y
GGCTCTCCTCGCAGAGTGTGATAGGCAGACCCAGGGGCATGTCTGCTTCCAGTGTTGGAAGTGGTTATGGGGGAAGTGCCTTTGGCTTTGGAGCCAGCTG
Celera SNP ID:            hCV25640559
SNP Position Genomic:     6083
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,33|T,3)   total(C,70|T,4)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15072):
TCTAGGTATTCTCTCGGGCAATGATGGAGGCCTTCTTTCTGGATCAGAAAAAGAAACTATGCAAAATCTTAATGATAGATTAGCTTCCTACCTGGATAAG
S
TGCGAGCTCTAGAAGAGGCTAATACTGAGCTAGAAAATAAAATTCGAGAATGGTATGAAACACGAGGAACTGGGACTGCAGATGCTTCACAGAGCGATTA
Celera SNP ID:            hCV27536871
SNP Position Genomic:     6452
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Gene Number:                 21
Celera Gene:                 hCG1645266 - 198000042537719
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32UVRL(2046..34002)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12181):
TGTGGAAGCTGAGGAAAGGCCGGTGACAGGAAGATGGGTGGCGTGACCTGTGGATGCTGAGGAAGTGTCGGTGACAGGAAGAGGGGTGGTGTCACCTGTG
GATGCTGAGGAAGTGCTGGTGACAGGAAGAGCGGTGGCCTGACCTGTGGATGCTGAGGAAGTGTCGGTGACAGGAAGAGGGGTGGTGTGACCTGTGGATG
CTGAGGAAGGGCTAGTGACAGGAAGAGGCGTGGTGTCACCTGTGGATACTGAGGAAAGGCTGGTGACAGGAAGAGGGGTGGCGTGACCTGTGGATGCTGA
GGAAGTGTCGGTGACAGGAAGAGGGGTGGCGTGACCGGTGGATGCTGAGGAAGGGCTGGTGACATGAAGAGGGTTGGCGTGACCTGTGGATGCTGAGGAA
GTGTCGGTGACAGGAAGCGGGGTGGCGTGACCGGTGGATGCTGAGGAAGGGCTGGTGACATGAAGAGGGGTGGCGTGACCTGTGGATATTGAGGAAGTGT
CGGTGACAGGAAGAGGGGTGGCGTGACCTATGGATGCTGAGGAAGTGTCGGTGACAGGAAGAAGGGTGGCGTGACCTGTGGATGCTGAGGAAGTGTCGGT
GACAGGAAGAGGGGTGGCGTGACCTGTGGATGCTGAGGAAGTGTCGGTGTCAGGAAGAGGGGTGGCGTGACCTGTGGATGCTGAGGAAGTGTCGGTGACA
GGAAGAGAGGTGGCGTGACCTGTGGATGCTGAGGAAGTGTCGGTGACAGGAAGAGGGGTGGTGTCACCTGTTGATACTGAGGAAAGGCTGGTGACAGGAA
GAGGGGTGGCCTGACCTGTGGATGCCGAGGAAGCGTCGGTGACAGGAAGAGGGGTGGTGTCACCTGTGGATACTGAGGAAAGGCTGGTGACAGGAAGAGG
CGTGGCGTGACCGGTGGATACTGAGGAAGTGTCGGTGACAGGAAGAGGGGTGGCGTGACCGGTGGATGCCGAGGAAGCGTCGGTGACAGGAAGAGGGGTG
GTGTCACCTGTGGATACTGAGGAAAAGCTGGTGACAGGAAGAGGGGTGGCGTGACCTGTGGATACTGAGGAAGTGTCGGTGACAGGAAGAGGGATGGCGT
GACCTGTGGATGCTGAGGAAGGGCTGGTGAGAGGAAGAGGGGTGGCCTGACCTGTGGATGCTGAGGAAGTGTCGGTGACAGGAAGAGGGGTGGCGTGACC
TGTGGATACTGAGGAAGCGTCGGTGACAGGAAGAGGGGTGGTGTGACCTGTGGATGCTGAGGAAGGGCTAGTGACAGGAAGAGGSGTGGTGTCACCTGTG
GATGCTGAGGAAAGGCTGGTGACAGGAAGAGAGGTGGCGTGACCTGTGGATACTGAGGAAGCGTYGGTGACATGAAGAGGGGTGGTGTCACCTGTGGATG
CTGAGKWAGTGTCGGTGACAGGAAGAGGGGTGGTGTCACCTGTGGATACTGAGGAAGCGTCGGTGACAAGAAGAGAGGTGGCGTGACCTGTGGACACTGA
GGAAGCGTCGGTGACAGGAAGAGAGGTGGTGTGACCTGAAGATGCTGAGGAAGGGATGGTGACAGGAAGAGAGGTGGTGTCACCTGTGGATGCTGAGGAA
GCGTCGGTGACAGGAAGAGGGGTGGTGTCACCTGTGGATGCTGAGGAAGGGCTGGTGACAGGAAGAGGGATGGCCTGACCTGTGGATGCCGAGGAAACGT
CGGTGACAGGAAGACGGGTGGTGTCATCTGTGGAAGCTGAAGAAAGGCCGGTGACAGGAAGTGGGGTGGCGTGAGCTGTGGATACTGAGGAAGTGTCGGT
GACAGGAAGAGAGGTGGCGTGACCTGTGGATGCTGAGGAAGTGTCGGTGACAGGAAGAGGGGTGGTGTGACCTGTGGATACTGAGGAAGTGTCGGTGACA
GGAAGAGAGGTGGCGTGACCTGTGGATGCTGAGGAAGTGTCAGTGACAGGAAGAGGGGTGGTGTCACCTGTGGATGCTGAGGAAAGGCTGGTGACAGGAA
GAGGGGTGACGTGACCTGTGGATGCTGAGGAAGTGTCAGTGACAGGAAGAGGGGTGCTGTCACCTGTGGATGCTGAGGAAAGGCTGGTGACAGGAAGATG
GGTGACATGACCTGTGGATTCTGAGGAAGTGTCGGTGACAGGAAGAGGGGTGGTGTGACCTGTGGATACTGAGGAAGGGCGGTGACAGGAAGAGGGTGGC
GTGACCTGTGGATACTGAGGAAGCATCGGTGACATGAAGAGGGTGGTGTGACCTGTGGATGCCGAGGAAGCGTAGGTGACAGGAAGAGGGGTGGCGTTGC
TGATGAGGGCCGTGGTGAAGGTTTTACCAGACCCTGAAGGTGACAGAGTGTGGGTCTGGGTTTGTGGAGATGTAAGCCCASTGGATGTGATCGATGGAGG
TGTGGGTGGGACTGTTGAGAAGGTGTCGGTTGCCTGGGACGCCAGGCTGATAGTGTCAGACCCTCTGCTGGTTCTTGTCCTCTGAGTCTGGGCCATCCGG
GAAATGGCGGCTGTCTCCTGAGGAGAGGCACTGGGAGAAGTTGGGCTTGACTGTCCTGTCGGTCTCCCTGCAGTGGAGGCCTCAGAGAGGGTGGGATGAA
AGGTGCCGGGGACGATCGAAGACGCCATTCCTGTGCTTACTGGGATGGCACCATGACTGGCTGAGGCGGACAGCAATTCGGTTGTTGACTGGGTTGTGTG
ACTGTCCCTGGAGGGGTTTGATGAAAACCTTGTCGTCTCTCCTGAGGTGGATATTCCTTCGCTTCCTGAAGGTGTTGTGCCACTCGCCCCGGATGAGGAA
GGGGTAGCTGTGCCCGCTGAGGTGGTTCGTGACCCTGAGGAGGCCGGTTCGCTGGTCTGTGTTTGTCCAGAGGCCTCTGTGCTCTCAGCCTGGTGGGTAT
GGGTCATGGCTGCTGCTGTGTCAGGTGAGGTGCTGGCAGAGGCTGATGTCCATTGTCCTTCTGGGCCCCCTGGTGTTGACACTACAGAGTTGGCCAGAGT
AAGGGCACCTGTTTTGGAAAGTGACGTGCCTCCTGAGGGCCCCAGGGTGGCATCATGGCTGCTGGGTGYTGCCTGCAGTGCTGTGGTCGGGGCCTGGGTT
GTGTGACCATCCCCGGTGGGAGCTGGGGCAAAGGTTGTTGCTGCACTTATGGTGGGTGCGTCCTGAGGAACAATTTCTGAGGGCGAGTGCCCACTGGCTG
TGAAGGAAGAACCTGGGGTGGTGACTGTCTTGGTGTCAGTCATGGGGKAGACGGACCTCGTGGTTTGTGATTCTTGTGTGGTCTGCGGGGCTTGAGTGTG
ACCCCTTTGGGAAACAGCTGGTGATTCCTGAGGAGAGGTGCTTGTGGAATGTATTGTTGAATGATTTGTTGATGGTGCCGTTGTAATTTGTTGKGATGTG
TGTCTATCCAGCATAGGTGAAGAAGATGGGGATGTGGCCGTTTTTATCATCTGAGTCACACTGTAGCTTGGGCTGCTGAGAAGAGCCTCTCCAGTGGTCC
CCGTTTCTTGTGTCCATTGTGTCTGGGCGCCTGCCCCTGTTGTTTTTGGGAGAGTTGTGCTGTGGGAGGAGTATGTGGTGGGCTCTCCTGGTTCCCCTAT
TGCTGAGACCTTAGAGGGGACCCTTGGAATAGTGCCAGCTGYCCCTGTAGATGGATTTCCTGTGACAAGCCTAGTGGCAGCACCTGTTGATGTTGAGGGC
AGTTCTGTTTGTGACCAAGTTGTGTGGCCTTTGCTGGAGAATGAGGAAGGCCATGTTGTTGTTTCATGTAGAGTAAATATTTCTTGAGACACACCTGGAG
AGAATGAGCTCCTCTCATGAGGCYGTCCTGTGGTCTCTGCACCTTCACTCTGCTGGGTGTGGAAAGCTGTGGATATTTTTGGAGGTARAGAACTGGGGGA
GAGTGCTGTTGACAGAGTGTCTGACCACCATATGGTTGAAACTTTGGAAGTGATTGCAGAAATGGTTCCACTTACAGATAGTGATGTCTCCTCTGTGTTT
CCAAGAGTAGAGTCTCTGGAGRTTGGCATTCTGAACACCTTTGATGTTACCAGGAATGTATTGCTGACACTGGAAGGGGATGAGRTGGTTGTTTCACCAG
AAGGGAATGTCTCCTGAGAAACTGTTCCACTTGGGTTGAATCCACTTGGTGAGGATAAAACAGTTGATGTTGTAACCGGTGTGAGGGTGTTGAGGGTGTT
GATTTGAGATACTCTGGTGGTCTCCACGCTCTGAGTCTGGTGGTTCTTAGAAAAAGCTGTTGTGTCCTGAGKAGAAGTCCTTGAGAAAGTTGCTGGTGAT
TGTCCTTCTGGATCAAMTGTTACTAAGGCTGCTGAGGTGACTGGCATAAGACTTCCAGTAACAGGTACTGATGATGTCTCCCCTGGGTTTCCAAGAGTGG
AGCCTGTGGAGGTTGTCACTGTTATCTTCTCTGATGTCATCATGGATGTGTTTGTGACACTACAGAGGGATGAGGTAGCTGTTTCACCTGAAGGAGATGT
CTTCTGAGAAACAGTCCCTGTCACATTGTGTACACTTGGAGAGAAAGAAGGAGTTGAAGTGGTTCTGTGTGTTAGGGTGCTGGTTTGAGATTCCCTGGTG
GTCTGCGTGCTCCGAGTCCAGTGGTTCTGAGAAGAAGCTGATGTGTCTTGGATAGAGGTCCTCCAGGAAGTTKTTCGTGATTGTCCTTCCTGTCCAGCTG
TTATTGAGACTGCTGAGGTCACTGGGGTAGAACTTTCAGTTCCTGCTGTTGATGTCTCTTCTGTGTTTCCAAGAGTGGAGTCTGTGGAGGTTGTCATTGT
TATAGTCTTTGATGTCATCATGAGTGTGTTGGTGACACTGGAGGGAAATGATGTGGTCATTTCATCTGGAGGAGCTGTCTCCTGCGTAACAGTCTCCATC
ACATTGTGTACACTTGGGGAAGAAAAAAGAGTTGATGTCATCATCTGCGTGAGGGTGTCGGTTTGAGCTTTGCTGGTGGTCTCCGTGCTCTTAGTCTGGT
GGTTCTGAGATGAAGCTGATATGTCCTGATTAGAGGTCCTTGAAGAAGCTGCAGTTGATTGTCCCTCTAGTGTCGCTGTTGTTGAGCCTGTTGAGGTGAC
TGGGGCAGSAGTTTTACTTCCAGTTATTAATGTGTCCTCTGTGGTTCCTGGAGTGAACCAAAATAGGCAAGCAGAGAGCTAAATCATGAATGAACTCCTA
TTCACAATTGCTACAAATAGAATAAAATACCTAGGAATACAGCTAACAAAGGATGTGAAAACTACCATTCTTCACAGAATGAGAACAAACTACTTTAAAA
TTCATATGGAATCAAAAAAGAACCCAAATAGCCAAGACAATCCTAAGCAAAAAGAACAAAGTGGGAGGCTACCTGACTTCAAACTATACTACAAGGCTAC
AGTAACCAAAACAGCATGGTACTGGTACCAAAACTGACRTATAAACCAATGGAACAGAATAGATACCTTGGAAATAAGACCACACATCTACAACCATCTG
ATCTTTGACAAACCTGACAAAAGCAGGCAATGGKGAAAGGATTCTCTATTCAATAAATGGTGCTGGGAAAACTGGTTAGCCATATGCAGAAAACTGAAAC
TGGACCCCTTCCTTACACCTTATACAAAAATTAACTCAAGGCAGGTTAAAGACTTACATGTAAAACCCCAAACCATGAAAACCCTAGAAGAAAACCTAGG
CAATACCATTCAGGACATAGACATAGGCAAAGATTTTATGATGAAATCTCCAAAAGCACTTGCAACAAAAGCTAAAATTGACAAATGGGATCTAATTAAA
CTAAAGAGCTCTGCACAGCAAAAGAAACTATCATCAGAGCAAACAGGCAACCTACAAAATGAGAAAATTTTTGCAATCTAACCATCTGACAGAGGTCTAA
TATCCAGAATTTACAAGGAACTTAAATTTACAAGAAAAAAATAAACAACCCCATCAAAAAGCAGGCAAAGGATATGAACAGACACTTATCAAAAGAAGGC
ATTTATGCCACCAACAAACATATGAAAAAAGGCTCATCATCATGGATCATTAGAGAAATGCAAATCAAAACTACAAAGGGATATCATCTCACACCACTCA
GAATGGCAATTATTAAAAAGTCAAGAAACAGCAGATGCTGGCAAGGCTGTGGTGAAATAGGAACGCTTTTACACTGTTGGTGGGAGTGTAAATCAGTTCA
ACCATTGTGGAAGACAGTGTGGCGATTCCTCAAGGATCTAGAACCAGAAATACCATTTGACCCAGCAATCCCATTACTGGGTATATGCCCAAAGGAATAK
AAATCATTCTGTTATAAAGATACATGCACACGTATGTTTACTGCAGCACTATTTACAATAGTAAAGACATGAAACCAACCCAAATGTCCATCAGTGATAG
ACTGGATAAAGAAAATGTGGTACATATGCAGCACGGAATACTATGCAGCCATGAAAAAGGAATGGGATCACGTCCTTTGCAGGTACATGGATGAAGCTGA
AAGCCATCATCCTCAACAAACTAACAGGGGAACAGAAAACCAAACACTGCATGTTTTCACTCATAAGTTGGAGTTGAACAATGAGAACACATGGACACAG
AGAGGGGAACAACACACACTGGCGCCTGTCAGGGAYGGGACAAGGGGAGGAAGAGCGTCAGGATAAATAGCTAATACATGCAGGTGATGGGTTGATAGGT
GCAGTAAACCACCATGGCACATATATACCTGTGTAACAAACCTGCACGTTCTGCACATGTATCCTGAAACTTAAAGTAAAAAATGAAAAGAAATAAAAAG
AAAAAATGAAAAATTAATATATCACAACTGTACATATTTGGGGGATAAAAAAATAATAAGAGATGGGGCCGGGCATGGTAGCCCCACCTGCAATCCCAGC
ACTTTGGGAGGCTGAGATGGGTGGATCACTTGAGGTCAGGAGTGCGAGACCAGCCTGGGCAATATGGCAAAACCCCGTCTCTACTAGAAAAAAAAATACA
GAAATAGCTGGGCGTGGTGGTGGGTGCCTGTAATCCCAGTTACTCAAAAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGC
AGACATCATGCCACTTCACTGCAGCCTGGGCGACAGAGCAAGATTCTGTCTCAAAAAAAAAATAAATAAATAAAATAAAAAAGGAGAGAGAGATGGGGGT
GCAGGATTCCCACAGAGGAAGGCCCCTGATAAGCACTGCTTCAAATCGCCTAGAAAAAGCACAGTTGCAGGAATATAGCCAATGGTCTTCTCCAGCTCCC
GCCTGTCTTCCTTGTGAGGAGGAAGGTGAGGTTAGACTAGAATGGTGAATTAACTGTGTTAAACTCCATGGGAAGARGCAAACAGTACCCCTGCTATAAG
CCGGGTTAACTCTCTCAACTTGAATTATAGCATTATCTTTCTTAAAAATAAATTAAATTTCTACTTTTCTTTTTCGTTGTTAACATCTGTGCCAATCTGG
TAAAAAACCCAAGGGGTAAATGCATATACTCTTGCCCTGGTCACAGACTACCAAGAAGCTAATATTATTGACCATAACCACTTTTTWAAAAAAAATTATT
TCCCAGGCAGAGGCCAGGCATGGTGGCTCATGTCTGTAATCCCAGCATTTTGGGAGGCCAAGGTGGGAGGATCACTCGAGGCCAGGAGTTTGAGACCAGC
CTGGGCAAGATAGCGAGACCCTGTGTCTTAAAAAATAAAAATAATAATAATAATAATAAAAATAGATATTWAATAAAGAAAAATATTTCCCAGGCAGAAT
GTTTAAATATTGGCTTTTTTTGTTTAAAATATTTCACAGCACCTGCACTAGCCACATACCATCTTCGTGAATATTACCTTAGCCTCTGAGTCTCTGAACC
AAGAAGAAACCAAGAAAACTTGCCTTTTTTTTTCTCTTAGAAACTGACTCTTTTGGGTTTTCATTAGTTCCCTAGCTGTTCTCAAACTTCTTTCTTTTTT
CTTTTTAAACATATATATATAGAGAGAGAGAGAGAGAGAAGAAAGAGAGAGAGAGAGAAAGAAAGAGAGAGAGAGAAAGAGAGACAGGGTCTTCTGTCAC
CCAGGCTGAAGTTCAGCGGTGTAATTGGCCTTCTGAGTAGCTGGGACTACAGGCACACACAACCATGCCTGGGTAATTTTTTTATTTCTGTAGAGGTGGA
ATCTTGCTATGTTGCCTAGGCTGGTGTCGAACTCCCGGCCTCAAGCGATCCTCCTGCTTCAGACTCTCAAAGTACTGGGATTAAAGGTGTGAGCCACCGC
TCCCACYCTTTTTTTCAACCTCAGTGCTCCTAGATAGTTGGCAAGATGATACTCAGAGAGACAAAGTCTCAGGGAAGAATTCAGCTTCAAGTCCACTTTC
TGGAATTGACTGTAATTCGCCACCTTCTCTTCTTCAGACAGTAACTTAGACTCTCAAGTGAGTGATAATGGTTATGAACCAGCTCTAATTGTTAAAAAAG
TGACTCACGTGCAAGCTTCTGCACTTCATTAATAGTAACTGCTTACTGGTGACACACTTGTAAACCGACGTGGACAAAGGCACGGGCTGAACCGCAGAGC
CCTCTGGGAGGTCCCTGGGCCCCTGGCTTAATCCAAAATGACTCCACTTCAACTTTAAACGGAAACTTCCTTTAGTTGGAATTAGGTTGAGATTTGTTGA
TAGGACTCTAAACTCGATGCCTGCTTTCTCCTAGAGAAAATTTGCAAAACTTGGTTTCTCCAAATAAGGTTTAAATTTAAAAACATTCTCTATGCAGTTA
TTTTTAACCTTATTTCATTTCCCTGATAACATAATTAAGAGCATTTGTCTATCATCAGGCTTTGAGTAGACAGGAGCTATCTAGGGGCCAAACTTTCTGA
ATGTGTAAATTCTTGGCAATTAACATCTTTTCAGAGCCTGCATCACCTCTGCTAAAATCAGTGTCAGCAGCAGAAGTTTCATGACAGCACCGTCCTTTTT
TTTAAAGTAAAGATTTTTGTAGTTCTTTATAAAAGTGGCACAGCTCCATTTCAGCAATATGGAAGAAGAGATAAGCCTCTAATAGCAAAACCAGCCRATG
CCAGATAAATACAGGTTATAAATGTAATAAATGTTTTCTAATGCAGAGGTGAGATGAGAAGAAAGAAAGGGAAACACTCAGGAGTGAAGAAGTTAACAAC
TAAGATGGTGAGTCAATGCCCTTGGAAATGTGCTGACTGAAAGGCTGAAAAAGGAAAGGAAGCAAGACCCTCGGTCACGACACTGAACTGAGTTTCCCTG
CAAAAAGCTGGAACCGCCAGCAAAAAAGGTRGACTAGAAAGACCAGGAAGAAAAAAGAAAAAGGAAGCAGAATGAAGGATATAGTAACAGACCAGAACTC
ACTATAGAAACAATTAAAAATGGAATAAATGAAGCCAAAGATTAGTTCTTTGAAAATAAAACAAAYACCTGGCAAGAGAAAGAAAGTGGGGGGGGGTGTG
GGAGGAGGGAGAGAGAGAGACAGAAAAGACACAGATATCAAGATTATTAGAAACAAAAAAGGGTACATAACTTCAGAAAAAAAATTTAAGAGACAGTGCT
CTGATGAATTTATACCAAAAAGTATGAAAACTTAGATAAATTGGATATACTGTCCTTAAAAATATAATTTATCAAAAATGAATTAAGAAAAAAACCTGGC
TAAAAACTATTTTATTTTATTTATTTAATTTTATTTATTTATTTTTTTGAAACAGAGTCTTGCTTTGTTGCCCAGGCTGGAGTGCAATGGCATGATCTCA
GCTCACTGCAACCTCTGCCTCCCAGGTTCAAGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCATGCCACCACGCCCGGCTAATTTTT
GTATTTTTAGTAGAGACTGGGTTTCACCATGTCGTCCTGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTACCCACCTCGGCATCCCAAAGTGCTGGGA
TTACAGGCATGAGCCACCTCGCCCGGCCACTATAAACTATTTTAAATTGAATCAGCAGTTTAAAAAATATAATCTAGGCCGGGTGCGGTGGCTCACGCCT
GTAATCCTAACACGTTGGGAGGGTGAGGCAGGCGGATCATGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAAAAAAAATTAGCTGGGCATG
GTGGCAGGCGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAACGGCGTGAACCTGGGAGGCAGAGGTTGCAGTGAGCGGAGATCATGCCATTG
CACTCCAGCCTGGGTGACAAGGTGAGACTCCGTCTCAAAAAAAAATATGTATATATAATCTATCCACCCCACAAAAAAATGCAGGCTAAGATGAGTTTAC
AGGCAAATCAGACATTCAAGGAACAGGTAATTTCAATTCTATACAAACATATTCAGAGTTTGGAACAGGAGGAAATGATCTACTAATAATTTTATAAGGT
TGGAAACCAAAGATAGGATAAGAAAGACAAACTATAGATTAATAAGTCCCAGTAATAATACATGGAAGCATCGTAAATAAAATATTAGCAAGCCAAAGTG
CATCATGGCCGGGCGCGGCGGCTCACGCCTGTAACCCCAACACTTTGGCAGGCCGAGGCAGGCGGATCACTTGAGGCCGGGAGTTCCAGACCAGCCTGGC
CAACCTAGAGAAACCCCGTCTCTGGTAAAAATACAAAAAATTTGTATTTTTTTGGATTACAGGTGTGTGCTGGGCTTGGTGGCACACACCTGTAATCCCA
GCTACTCAGGAGGCTGAGGCACGAGAATTGCTTGAACCCAGGAGGCAGAGATTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGTGACAGAGC
AGGACTCTATCTTAAATAAATAAATAAATAAATAAATATTTTAAAAGTACATCATGATCAAGCTGAGTTTAAATCAGAAATGCAAGATAAAGACAATGCT
TTCTTAATGTAAATCACCATATAAACAGAATGGAGGGGAGACACAATCACCACAGCAGATACAGGAAAGTTATTTGATAAAAGTCAACACTTACTCCTGT
TAAAACTCCTAGCAAACTAAAAAGAGACGTTAACTCTTTTAACCTGATAAACAATGTCAATTATAACCCCGTGTAAACATTATACTTAAAACAATAGAAA
CGTTTCTGTAAAATCAGGAATAAAAACAAGATGCCAACAATCACTGCTTCTAATCAACATTAGGTTGAAGGTTTTAGCTGGTGAAATAAGACGAGAAAAT
TAAACAAAAAGTATGAGAGTACAGAAATGTGATTTTGGGTATGGAAGGGATGAAACAAGCCTATGGTTATTTGCAGATAACATAATTGTTTACATAGAAA
CTTCCCRAACATATACATTATTAGCAAAGTTCTATATCCATAATCAAAATTTTAAAAATAATTGCATTCCAGCTGGGTGTGGTGATTCATGCCTGAATCC
CAGTGCTTTGAGAGGCTGAGGCAGGAGGAACACTTGAGGCCAGGAGTTCAAGACCAGCCTGGGTAACATAGCAAGATCCTGTCTCTACAGAAATAAAAAA
TAAAAAAATAAAAAATTAGCTGGGCATAGTAGCACACACATATAGTTCCAGCTACTCAGAAGTTGAGGGGGGAGGATCACTTGAGCCCAAGAGTTCGAGG
CTGCAGTGAGCTATGATCACCCCACTGTACTCCAGCCTGCATGACAGAGGGAGACTCTGTCTCAAAAAGAGATTTAAAAACAAAATAAAACTGCATTCCT
ATATATCAGTGAAAGAGAAAATATTTTTAAGACTATAGTGTTTATGATGGTGACCAAAAAAAGTACATAAAAATAAATCTAACAAAAGATGTGCTTAATC
TTTATGGACAAAATTGTACAACTGCATTGAAATATGCCAAAGAAAACACACATACTGGTTACGTGCATTTGGGAACATTTATAGTTGAAAGATCAAAACC
CATAATCTTGCTACCAGACAATGCTTCCTTCCAGGATGTTTTTATGCTTTAAAAAATATATAGTTTAGGCCAGGMGTGGTGGCTCACACCTGTAATCCCA
GCGCTTTGTGAGGCTGAGGTGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAGGGYGAACCCCCGTCTCTACTAAAAATACAAAAAAA
TTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGGAGGCGGAGCTTGCAGTGAGCCG
AGATTGCACCACTGCACTCCTGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAATTAAAAATTAAAAAATATATATGTATAGTTTAACTTATTC
AGTATACATAATTTTGTATCCTGCCTTTTTAGCCATACCTGATATGAGCATTTCTTCAAGATACTAGCTTCGTAAACATAGCCTGAGAAGACGCACATCT
TTTATGTCTTGGATGGCAGTTCCTTGCTTCCCCCTTTTGGAGTCCTACAAGAGCTGGCTCAGGGGGACTGGGAGAGCTCAGCTCCATAGTAAAATCTAGG
GTGCTGTATAAAAACTCCCCCTGCTGAGCTCTGGTGGCCTCCTTCCTAACAAAGCCACTCCCCCAACTGGAAGCGTTGTTACCCTTCCCATTTTCTGTTA
AACAGGAGCAGGTCTCTCTCCTGTACCACATCCTGCTGTGTGTCCACCATACCCACCTCTCTGTGCAATGAGAGCTCGGGGGTCATGTGGACTCCACTGC
TCCCTGCTCGCAATTTCTCCTTAATACATCTTACTTTATGCCCGTTCTGTGTGTTGCTAGTATGTATGTGTGACACTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGWGAGACACTGTGTGTGTGTGTCCCTGCCCTTATAGAACATTGGACATAGCCTTTAAACATTTTTTTTTCCAGATGGAGTTTC
ACTTCTTGTTGCCCAGGCTGGAGTGCAACGGCACGATTTCGGCCCACTGCAACCTCCACCTCCGTGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGAT
TACAGGCATGTGCCACCATGCCAGGCTAATTTTTTGTATTTTTAGTGGAGACTGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCTTGACCTCAGG
TGATCCACTCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTAAACACTAAATAATAAGCCATCATAGAGAAAGCTCA
TATTGTTAACTTACTGTTGGACAATTAGGATATTTCCAATGTATTGCTTATTTTAAATAAAGCCCTGATGACTATCTTCGTGTCTAATGTTTTGTTTACA
TTATTTCAGCTCATCTCCTTAACATAAATTTCTATCAGTGGAATTGCTGGTTTATGCYGTTATAAAATTTTTCATGTTATTAATACAGACTGCCAAATTT
CTTTGCAGAAAGCTTATGCCAATTTACAGACCTGTTGGCAGTGTGCAAGAGTGTGCCTGTTTCCCCATATCCCTAGCCTGTGAACAAAGGGGCATGATCC
AGGACAGGCCCCATCCCTCACCTGCTGCTCTTTGCTTCACAGCATCGACTGAAAATCGGCCAGGTGCGGTGCCTCACACCTGTAATCCCAGCACTTTGGG
AGGTCGAAGCGGGTGGATCATTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGATGAAACCCCATCTCTACTAAAAATACAAAAATTACCCAGGC
ATGGTGGCRTGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCTCTCAAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCGCCA
CTGCACTCCAGCCTGGGCGACAGAGCGGGACTCCATCTCAAAAAAAAAAAAAATTCTTGCTAAACAGGGCTGTGTCCTGGTAGTCCTCCTTTTAAATCTT
TATTTAGAGAACTTGCTCATCTTGAGCCAAGTTGATTAGAGTTTCCTGCTGCCGCAAATAGGAGGGCAAGTGAGTCACTGCATGTGGAGGACATAGTTTT
ATTGTCTAGGGGAGAAGGCGCTGTCAAAATCTCTCAATCTGTTGGGCTTGTGAGGAGGAAGAGATTAGCATTCGTTACGACAAAACTACAGTTATTGCAT
TTGTCTTTCACCATCATTTAAACAATACCTCTGAAGCCACTCCTGCAATAGATTGATTATTYAGCTGTTTAGGAAAACAATTTGCAGATAACTCAATCTA
CTAAGCTTGAGTAGGTTATTTGTAGGTAAGAAATCCTGTGTTCAAGTATGACCTATCTTTACAAAGAAGAAAAAGAAAGAAATCCTAGTGGATGGAGAGA
CTATGGAGAATGATTTTTGGTAAGAAAATGGTTCTCAGCTGGGCATGGTAGCTCATGCCTAAAATCCCAGCACGGACAGGCAGAGGCGGGAGGATTCCTT
GAGGCCAGGAGTTTGAGACCAGCCTGGGCAATAGCTCAAGRCCCCTTCTCTGAAAAAAAAAAAAAAAAAAAAAGTGGTTCTCAAAAGGCAGAGGGTGCAT
CAGCATTTTAACACATGTCCAGAGTGATTCTGATGCAGGTGGTCCGTGGACCCCACGTTCAGAAACACTTCCCTTAAAATAAAATGATAGTATCCACTCT
TAACAATGTTTGTAAGCCAAAACCATCTCGCTGAAGTTGTCAGGCAGAGAAATTTGAAGCCTTGATCAAGTTTTATTCTAAAAAATACTCATAGCCTTGT
TCTTGCTGCTCAAGTGTTGGCCAGAATGAACTGACCTTGGCTCTCACCAGGATGCAAGTCAGGCCCTTCAGRTTCCGTSAGATTGTCAGACAACTGAAAC
TTGTTCTCACTCTGGCCAAACGCATAAACTTGGGGAGCAGAGAGCTGGGAGATTTGCGCCTAAAGAGTTGATATTGGAGAGAAACAGGTCTCTCCTCTCT
CTTCTCTCCCCGTGACMCTCCATTTTCTACTTCACTGAAAGAACCAAAGCCGTGCCCTTCATCTCCTTCAATGCCCAGAGCCTTCTCCGCACCCTCCCCG
GGGCCCCGGGGCTCCCTCCTGCCCGGATGGCTCACTGCTCTGCCTCTGTGTCTCCGACGTTCTTTCTGCCTTTCTCCTTCTCTCCTGCCTGTGAGCATGT
TCAGGTGTCTGTTGGCCTAAAACAAGTCTGTCATCCGTCTGTGTCCTCCTCGTCCCTCCAGCAGCATGAAAGCCGGGCTTCCCCTGCCGCCTCTTCTTTA
CCACGCACTGCTCGCTCTGCCCCCACCTCACTCACTTCGCTCAAGCCGTTTTCCTCAGAGCTACCAGAATCTCCTTCCCAACAGCAAAAACGATTTTCTC
CAGTCCTCACGCGTCTCATCAGTTCGGCCCCATCCATTCATTCATTCATGAATCTGACAGATGTGTATTGCGCCCCCCSCTCCACGTGCTCTCCCTGGCC
GGCGGCCCCGTGCCACCACCCAGCCTCACCCTCATTGAAGCTGACGGGTCCTGCTCCACCGTCCACGCTCCCGGGCCCTCCACTCCACTCCCCTTGCCAC
CTCTCTCCCCCGCTCCACGCCCAGATGACATGTCTCCAGCCCTTTCCCTCTCCTGCTGCCCCTCCCTCTCTGGCCACCCTGCGTCTACTCTCACGCCTTA
CAAATCTGTACTTCTCCCTGACTTCCCACCCATATGCTGGCCTCACCCTCCCAGGGATTTCCTGCCTAGCTCATGCAATGCAACAGGTCCAGGTCAATCT
TTCCTTGCAAGCTTTCTTCCTTCCTTCTGTTCATGCTAACAACAGTCCCCCAGACATCCAGCCCAGAAAGCTGTGGGTCCTCTGGATTTCTTTCTCTTCC
TTGTCCCCYGTGTCCTAGTCAGTACTCGTTGATCTTCCTCCCAAGTGTTCACCCCATCGCGTCCTCTTGTTTGCTTTGCCACATCCTCCCCGTCGCTTTG
ACTACTGCGGCAGCCTCCTCACTGCCCCTGCTGACTCGGGTTCCGCACCCCTGCTCTCAGCCTCCACCRCACCCCTGCTCTCAGCCTCCACCRCACCCCT
GTGGGTTGATCCTCAGCTCTGAGGGCCAGGAGGGAGGGTTGCTGCTGCTGTCTCCTTAGCTCGAATTGCTTTGGAAAATGGCCTGCCCTGCCTGCCCTGG
AAGGTGTCTGGTAGGTCCTGGGGTCACAGACTGGTGACTGGCATTGGTCCTGGGTGTCTGCGTAGGTCCCGGGGGCGTGGGTCTAGTGGTCAGAGACTGG
TGACTGGCATTGCCATTGTGACACGGATGTCAGAAACCAGAATCCTCAGAGGGAGGCCACTGGGCAAGAATGACCTTCGTCTGGTTGTGACTGAGGAAAG
ATACTTCCAGCGCGTCTGTGTGCGTGGCAGGGTGGCTTCTGTAATAAGAAATGGCCACGCCAAGGGATTTCTCGTTTCTGCGGGAGACATTGTTCAGTTT
TGTAGCCGGCAGCTTAAATTCAAAATGCATTTTAAACATGTTTTCCCCTTTCTCTTGGGTTTCCAAATACAACCTTGAGGCARCTGCAAAGGCCGTTTTC
CTCAGCCTAAAAATAGACTTCACGCCCCTCCCTTTTCTCACGATCTGTACACACTCCCTCCCTCTTCTCACCGTCTGTACACACTCCCTCCCTTTTCTTG
TCATCTGTATACACTCCCTCCCTTTTCTTACTGTCTGTATATACTCCCTTCCATTTCTCTGCGTGCGAGGATCGAATTATATGTCTTCCTAAAAGTTGCA
GGGGCTAAAACCTTGAGAGAGACAAACCACATCTGAAAATCCAGCTGCAAAATCCCAGAAATTACTTCAAGACAGCTCTTGTTAAAATAATGTCAGCCAG
AGGTCCGGACGGACTGGGACCCAGAAGAGCCACCAGAACAAGACATGCGGACACAGGACTCAGCCCGATTCTTGCGTGCCTTCCTTATCAAGGCTTTCCC
CTCTGAAAATTAAAGCAGCTACTTTAAGTAGAAATCTGGCTGCTTCCCCTTTACTAGTTTTGGTTAATAAATTCACGTTCTTCCTACCAGACCTTATGAA
TTAAACTATCCGTTTAATATAATATAAACTCTCTGCAAGCAGCGAGAGCCTCCGCATCTGCGCTGGGTCGAGTGACTGAGGGTCAGCTGACTTGTGATGA
ACACACCAGGGAGGTGGGGCTTCTTTTTACTTCTCTCGTAGGCACGTTATGACTCTATGAATAATACAAATGTTCACAGCTCATGTTCATGTGGTGCTTT
ATAGCTTATCTTGTTAATAGCGGCCCCATTTCACAGGCGGGGAAATCGAGATTCAGCGGCCCCATTTCACAGGCAGGGAAATTGAGATTTGAAGAGACCG
AGTGATATTATATGCCTTGGAAGTAGCAGGGCCGGGGGCTCGGGGTAAGAGCCATTGCTCGGAAGCTGCGAGCTKYTCAGCTCTGGGACTGCCACCGAGT
GGATGGAGAGCTGAGGCAAAGATGGAGAAATGGTCACTGACCTGCCCCAAGTTCTTGGACTGCCACATGCAGAGGGCTCTGAGCCTGAGGCCGAGCCAGG
CACATTCTCGGGGTGGACGCTGTGACACTGGGGTGTTTTTGCAATGTTCCTGGTGTCTCTTTTCTGGGATGATGTTAGAGTGAGTGTGAAGGCTGTTGAC
ACCTTAAGGTGACAAGATCACTGTGAGAAGACACACGTGTGTCATTGAGTAAAACGGATAGTTTTTAAGACATTCTCTCAGAGGARGAGTCTCCATCCAG
GGACGAGGAGGGCACTGGCGTTGGCACTGAGGTAGAGACGTTCCCCACATCTGAGTCCTTGAAGGCTCTGTCAAGCCTCTGCCATCACGTCAGCCAGAGA
TCTCCCATCAAGGTAGTTCTTTTCTCTCCTTGAACCACGTCAGGTGGGAGACGGCCCACAGCTGCCTCACGTCTGTTAGGGCTCCAGGATGTGAAGGCCG
AGTGGCAGTAGGCATCGTTTTCCCCAGATGGCCCCTCTGGTGACTCCACAGGTGTGCCGAGGTGACAGGTGTGCTGTTGGCTCGGGAGAAGGAGTGGCAG
CAGTATGAGTGACGCTGGCAGAAGACAGATTCCAAGAAGGGTGAAGCCACTCCCTGAAGACACACAAAGCCTGCGGCTTTCTAAGTGCTGTGGGTTGAGG
CTTATTCCTAGCATCTGGTCTGTTTGTCTTGGGTTTTTCCTGGAACTGGAGGTGAGGAACCCGTAAGCCGTATCGCCACAGTGTTTCACTTTCCTGGAGG
GGAATTACTTCCTGACGGGTGGGGCCCCTTGCCAGGCTGCCTCGGGCAGGGCAGTGTAAGCCCAAGGGAAGTGCCCAACGGTAAGGATGGCCTTGAGGAG
AACATTCAGCCCCACACAGGCAGCAGGCGGCCCGGAAGGCGCGCAGACGCTGAACCGCTGGCCCCACCGCCTTTGGCAGGGAGCTAATGCTATTTGTGTA
TCAGCCCAGAATCAACTGTGACCAGGGTTGTGTCCACTGGGTAYTTCCCTAGAATTCAAGATGAGGAAAGACACTAACTCAAGATACCCTTGGAATAACW
GAYCTCTTGTGATCTCCAGMGCCTGAAACGAGACTTGGCATACAGCAGTGACTTCRTACACATCTGTGGAATACATCCCAGGCCCTGTGGCCTTTGTTGC
CTTCAGCCGAGGCTGGAGAGAGGGTGACGTTGCCTGTTTCTTTATCTTTATCTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCAGGAG
TGCAGTGGTGCGATCTCAGCTCACTGTAACCTCCACCTCCCAGGTTCAAGTCCCTTCACAGTGGACTCCAAGGCGAGAACTTTACCCGTTCTTTCCAACG
ATCCCCGCCGAAGTCACACCCCAACCCATGGATCCCACCACCGGTCATTTGACCTCATTTCTGTCAGCATCTGGTGTGGCAGCACCCAGCCACTCTGGTG
ATCGCCACAGAAGCTCCAGCACCAAACCAAGAAGCACCAAAATCCGGCTGTGAGCACAGCACGCCGGCCAGCTCAACTCTCTTTTCCCCAACGCCTCCTT
CTCGGAGGTGCCATCTCCAGTCTCCACCATCTTGGTGTTGCCACCCATCTCTCCTGGCTCCCACTGGGGCAGGCACATCCTCCTAGCCTAGCGCTGTCCT
CAGGAGCCTGGCTGCCTCTCCACAGTGGTTAGCCTCGGGCTGTCCTGGTGTGGTGGTGTGTGCCTGTGATCCCAGTTGGAATCAAGTGCTTCTCCTGCCT
CAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCACCACCATCTCCTGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTTGCCATGTTGGCCAGTCTGG
TCTCAAACTCCTGACCTCAAGTGATCTGCCCGCTTCAGCTTCCCAGAGTGCTGGGATGACAGCCATGAGTCACTGTGCCTGGCCTTGTCTGTCATTTTAA
TTACTCAAAATCCATAATCTGGGCCGGGCGCAGTGGCTCACACTGGTAATCCCAGCACTTTGGGAGGCCAAGGTAAGCAGATCACTTGAGGTCAGGAGTT
CGAGACTAGCCTGACCAACATGGCAAAACCCCATTTCTACTAAAAATACAAAAATCAGCAGAGCATGGTGGCATGTGCCTGTGATCCCAGCTACTCGGCA
CGAGTATCCCTTGAACCCTGGAGGCAGAGGTTGCAGTGAGCCGAGATAACGCCACAGCACTTCAGCCTGGGTGACACAGTGAGACTCTGTCTCAAAAATA
TAAATAAATAAAATAACATAAAATTCATAATCTATTCCACAGCTTGCAAAGCCCTGCGCGATCTAACACCTGCCTTCTCTTTCAAGTCCTCCAAGGGGCC
AAGCTCTTTCCTGCCTCTCCATGAGCTCCGCCTCTGCCTGCTCAGGCCTGGCACCTTCTCCACCTGGCTGTCCTCAGCCTCAGGCCTCAGCTCCCCGCAG
AACGGTTCCTCACAGGGCCCTTCCTGACTTGTCAGTCAGATGCACCTCCCCTACTCTCTGGCCATTCGAAATGCAGCTCTCAGCACACCCTGTACTTTTC
CACACTGCATTTACCACATGTGCAGTTGAGAACATTTCYGTAATTATTTGATGTCTGTCTGCACCAAGATTTTAGTGCCAAGAGACTGGGCCACGTCTGT
TTCACTCTTCACTGTGTGCATCCAGTGCTGTGTCCTAGAACAATGTCAGGAACTTAAGGCAGGCGTTTCCTAAATGGTGGTTTAATTAACAAATGAATGA
ATGAATGGCTGTCTCAGCAGGGTGTGTGAATGCTTCTGTTCTTCCCTCCGTCGGTGGGCTGGGCTGGTTTGGAGATTGCCGAAAGGCTGTGTGCTGCAGT
GAGTCAGGAGACCTGGGTTCTAGTCCCAGCTGCCTCACTTATGGGTTCTATGATCTTAAACAAGTCACTTAACTTAGAGAGCTTTGAAAAGCAGGAACTG
TGACGCATTCATCTTCCTGTCCAGAGCAGCTGGCATGAGTAGAAATTCTGCAAGTGAATGAACAACTCCAAAGTCTAGGCTGTTTCTTATTCCAAATTCC
CCCAAAATCCACTGGCCACTGGACTTTTGGAACCTAAACTGCAACCTGGGCGGGGCGGCATCTCTACAGAGAGTCGATGTCTGTCCTCTGTGGTCCCTAA
ACACATACACGGGGAGTGGAGCTGCGGGCAACCCAGGCCAGTGCCCTTYCTCCAAGCAGGGCCGCCATTGCAAGGCCTCACGTGCAACACAAATGCCCAG
TTCCTGAGACTTCTTCAGARTCTCCAGGAAAAGGGTGAAAAGGCATTTAAACCTCTATGAAGTAGGGCCAGGCACAGTAGCTCACGCCTATAATCCCAGC
ACTTTGGGAGCCGAGGCRAGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAACATTA
GCCGCTGTGGTGTTGGGCGTCTATAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCTCTTGAACCCGGGAGGCAGAGGCTGCACTGAGCTGAGACC
ACGCCACTGCACTGCAGCCTGGGGGACAGAGAGAAACTCTGTCTCAAAAAACAAACAAACAAACCCAAAAAACCAACAACAACAGCAACAATAAAAAAAC
CGTCTATGAAGAAATCGTCKATGAGGTGCCAACAGACTCAGTTATTTTGACTCAATTTCTCAGAACATGCTGGGGCGGGAACTCAGCCTAGCAGTAAGAA
AGACGTATATTTAAGGTAAAAGGCTGAAACTAGGGGGAGAGAGAGCCTATAAGGTCTCTGTCCTGGCCTTCAGAGAAGTGGCTCTGTGAGCTACACGATG
TGCATATTTTAAGCACTTAACAGCACCGTGAAATCAGAGAAAAGACACAGAGTAGCAAAACCACCCGTTGAGCGTACAAAAGGCCAACCACTTCTTGTCC
TCTCATTGCCTCTTGTCCTTAGCAATGAAGACACAAATCACTTGCGTGTCAAGCACTGCCAGGCCAGCCTCTGCCAGGCCAGCCTCTGCCTCCACGGCTG
AGCCCAGAAACCAAGGGCGTGGCGGGACTCACAGGCAGGGAGCGGTGAGGCAGAGCTGTCCGCTGGAGCGAGCCCCTGCTCTAGGGCCATGGCCCTCGGG
GTCCGTTCATGCAGCAAGCCACATTCTGAATACACCAAGCCAGCCCTTGCAAACCCACAGGAAGCACGGGGTGGCTTTTTAGAGGCACGAGGATCCTTAG
ATGAAGGGATATGACCCTGGGCCGACACAAGTGCCATTCCGGGTTCAATCACCCTCCTTCCCCCGTCTTCCCAGGCCTCTTTCTCAAACACGTCTTTATG
GCTTTTCTTTTTTTTTTAGACAGAGTCTTGCTCTGTCACCCAAGCTAGAGTGCTGCCATTTCGGCTCCCTGCAACCTCTGCCTCCCAGGTTCAAGCCATT
CTCCTACCTCAGCCTCCCGAGTAGCTGGAATTACAGGCGCTCGCCACCACGCCCGGCAAAATTTTTTATTTTTAGTGGAGACAGGGTTGGCCAAGCTGGT
CTTGAACTCCTGACCTCAGGTGATCCACCCRCCTGGGCCTCCAAAAGTGCTGGGATTACAGCGTGAGCCACCGCGCCCGGCCCTTTATGCCTTTTCTACT
TTACACCAGATGCTGTCTCGTTTCATCCTCATGACAACCCTACRTAGTAGCCCCTTCCCCCTGGGCTCAGTTYGCCGATGAAGAGCCTAAGACTCCAGAG
CCAAAAGGCGTTGCCTGTGTTCCCTGGGCTGCCAAGGGCGTCGCTGATGCTGGACCTCTGAGTTTCAGCCCCTGCTCTTCCCTGTGCACCTTGCTGGTCG
TTGGCCAAAATTTGGCTGATKTTCCTGGCAGGACCTCTTGTCCAGGGATCCTTTCCTTTTGAGTGTCCTGGAGCACAGTGGGGTTTCCCAGAGGGGCAGA
GGGGTCTGTGGAGAGTTTTGGTGTCCTCGGTGGCAAGTTGAGGTGGCCTGTCCCAGACTGACAGATAGACCGGGGGTTCTCCGAGGAGGGGCCCATAAAG
ACCCTTCCCCGTGGAGTGCGCTGTGGCCGGCGTCCCCTCCCCTGCCTGCCCTGCACTTGCTCCAGCCTGTCACCTCCCTGGGGTCACTGATAGTGCTGGA
GACCAAGGCCTATTTCGACCCAGTTGCCTTTCCCTGTGGCATGGAACCAGGACGGCCAGGCTTCCTTCTGAGTCATTCCTGCCTGGGGCGACCAGTAGAC
ACCAAATTTCCATCTGTCCTTGTCTAGCCCACCTCTGTCTGCTGTGYCTTATCCTTTAACCCTTGAGAGCCAGGGCTGTTCCTTAAGGAAACCCTCATTG
CGGCAGCTCCTTTGTGGAAACCCTGTGTTTTTCCTCTGGCCTGGGCTTCAGTGTGACCCAGCCTGGGTGAGGGTCCTGCCGGCAAGTGTGCAAACAGACC
CTAGACTCAAGTATAGGCAGGTCATCTGTAAACCCCTTCAGGGAGCCAAAAGGAACGGGGCTGGCTGGCTGCCAGTCCTCCAGCAGCTGCCCTGTGGGGG
TGGGGGCTGCCCACCCGCCCTTGGTGACTGCTTTTCCTGCCAAGGCCCTGGTCATGCCCGGTCAGATGTGTGGGTGCCATCTCCCAGCCACGACCATCTC
CTCTCCTGGCCCAGCTCCACTTGGTCCCCTTAGCGACGCAAAGGACTCAGCGCTCCACGACATGCCTAGCTTCTTCGGGTCGTCAYGGAGACGCCCTTGC
ACACCAACAGTCCTTCACTCCTTCTCCGGGTCACGCCCCCGTGCTTTTCCACGCCCACCCCAGGTCTTGCCCCTCTGCGCTCCTCTCCACAGACCCCACT
TCCTGGCTCCACATGGAGCTGAGTGTCCAGCTGGTACCCAGCACATTTGGGCTCAGCTTTAAATCACAGATTTGGAAACTCAAGAACTTGGGCGTCAGGA
GGTCCAACCGTTCACCACTGCTTTTTACACAGGGGACCGGGGCCCTGGGGAGACACGGGGCAGGGCCTGGTCACAGGGGCCAGAACAGTTCACGGCAAAG
ACTTGGCMCTGGGGCTCCTAAATCCAAGCTGCCTCCCCGGCGCCCCAAGCCCCAGCCTCGCTCTGGGAGTCATGATTCCCGTGGAGACTCCTTCAACCAC
ATCTGCAGGGCAGGGCCGTGTGGCGGCTCCTTCCGGCCTCCACGTCCTCACGGTGGGATGAGCACTGGAGCGGGGTTGTGTGGCCAGGGTGGGGTGGGGG
TGCTGGAGGGTGGGGAGGTGTAGGGAGGTGGTGGCAGTTTCCTTTGCCCTCAGCCTAGTCCTGAAACATCCCGAGGTGGAAGGGTCCGCTTCACCAGCAT
GGCTTCTCTTGCAGCCTTTAAACGGCAYTCGCCTTCTGACTCACTCCCAGGAAGCTCCTCAAATATGCGCCCAAGAAATATTTTCCCTCGGCGACTGTTC
TTAGCCTGCTGAGAGGCAGGGCAGGAGCTGAGACTCTAACCCCAGCTTGAACTCTGGACCCCAGACTCTCCCCCAAAGACTCAGACACCCAGAAACACAG
AATAAAACTTGGTCCTGAAGCCAGAGGGACAGCCTGGAAAGTGTGGGGAAGAGGACGGGGGCCCCCGAGGGAACATCTCCCACAGGCCTGGCATCCCTCC
CCTCCCRGCTCTGTACACGGAGGAGCCCAAGGCCAATGCCGGGGCTACGAGCCCCAGGCAAGGCCGTGACCCAAATGGAGGCTTTTAAACCCGAGCTCAG
AGGTAAGAAGCCCACGGCCAGCACCTCCCGGCCCTCTGCGCCCTGGCCGCCTCCTCCGCACCACCCTCCCGGCCGGCCTGCCCCTCTCCTCCTTGTCGCT
TCCCTTGCTTGCTGCTGTCTCCCGATCTTCTCCTCTCTCCATTCCCAGGGTCCTCAGTTTGTCTGCGTCTCACCTGTCTCGTCCTCTCACCCTGCAGCTT
TACATGAGTTTTCTTCCGTCTCCATCACCCAGCTTTCCTGGCATCCCCTCTACCCCCAGCTCTGTACACAAGGGTGTACATCTTTCTCCTTGACTCTGTT
CCTCTTGCTCTGGCTCTGCCTGTCTTTCTCTCTGCGAGTAAGCCTGGGCTCTCACCATGGATCCTTCCAGACATCGCCGGGCTGCTCTCTGGCCCTCTGT
TCTCTTTTCTCTCTCTTTCGAGCATTCTCCCTCTGTCTTTCCCCTCAGATCTTGTCCCGTATCTGCCAGTTCATGCCTCCTCTTCCCCACTTTTCTCCTC
TTCTTATTTTTTATTTTATTTTATATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGACAGAGTCTCGCTCTCTCTCCCAGGCTG
GAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGACTCCTGAGTAGCTGGAATTACAGGTGGGG
CCCACCACGACCGGCTAATTTTTGTATATTTAGTAGAGACGGGGTTTCACCATGTCGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTCCTGCC
TTGGCCTCCGAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCACGGCCTCCACTCTTCTTTCTCTCTCCCTCTTCTCTTCCTCTTCTTTCCCTCTCTG
GGTCTCTCTCCACCTTCCCCCCATGTTGTCCCATTCATCTCTTTCTCCTTTCCCTCTCCCTCTTTTTCTCTCCCTTCTCTTCCTCTTCGCTGTCTCCCTT
TCCCCTATTCTCTCTCTCTCTCTCTCTGTCTCCCCGGACCTCTTTCTCTGACAGCTCCCACCTCCCCCAAGTGCTCCCCGCAGCCAGCCTCATCTGCTGT
CTCCATCACTTACCTGGGACCACATGCGGAAGGAGGCAGAGACACAGGCAGCTCAGGGACACCCAGGGGACCCTCCTCCAGCGTGCCCCCTTCATGGCTG
CGGCAAAAGTCCCCCTGGCTCCCTGGGGAAGCTCCACGGCCCAGCAGCTGCAGTGTGAGGAGCAGACGTGAGCCCGTCCCCTCAGGCGGCTGGCCCGAAC
CAAGTGCGTTTCTCCGAAGGGGCCAGGGAACCTGGGAAGAGGACAAAAGAGGGCGGGGCCCCACGCTAATCACCCTTTTCTCTCCTCAGCCCCACCCCAC
TACCCCACCAGGAAAGAAAACACCGATACACCCGTTGCTCTGCTTCTCATCAGCCTGAGCTGAGTGGCGGGAGGGATGGGAGGAGACATGGGGGAATGGG
AACAGGTCACACTGGAAATGGGTGGGCCACCCTCCTAGCCGGGTTCCTGGGTCCTCTCCTCCCTCCCCAGGGGCTGCCCCTGTCCCACCAGAGCTTTGGG
CTGCTGGGAAGAATGGGGAAGAAAGGGCCCCAGAGGGAGCGACCTTGGGGCTGTATGAATGGGGGAAAGAGAGTGAGACTTAAGCAGACCCCAAGGAATT
GGGAAGCGGGGAACCATGTGGGTGAGGGGCAGGAACAGAAATGCACTGTATGCCGTCTTTTGGAAAGGGGTGGTGTGCTTGGAATATCTGCTCAGTGCAG
GCGCGTGGCAGACCCCAGACGCGTGGCAGACCCCAGACGCGTGGCAGACCCCAGACGCGTGGCAGAACCTCAGTGCAGACGCATGGCAGACCCCAGACGC
GTGGCAGACCCCAGACGCGTGGCAGAACCTCAGTGCAGATGCGTGGCAGACCCCAGACGCACGGCAGATCCCAGACACATGGCAGACCCCAGACCCATGG
CAGACTCCAGACGCGTGGCAGACCCCAGACGCGTGGCAGACTCCAGACGCATGGCAGAACCTCAGTGCAGACTCGTGGCAGAACCTCAGTGCAGACGCAT
GGCAGACCCCAGATGCGTGGCAGACCCTCACCAGATGGTGGACTTCTTCTTTCCAGGGCAGGGAGCTGGAGCCAGGGTGCAGGGAGCCAGGGACAGTCTG
GGAGACTGGCCTGAGGGAGCTGGCATGGGCAGTGGGTTGAAGGCAGAACCTCGGTAGGAGGAAGCGACTGTAACCTGTGAGGAGGTGGAGCTGCTCCTGG
AGACCTGGGGGCTCTGCTCACCCCAGTTCCACCTCTTGGAACTCACAGGCACAAGCGAGGAGGGAAAGGGACCCCAAGTAGGGTTGTAAAGACGAAGAGG
GCAGTTGGTGTAGCTCTCTGCAAAGGAAAACGGGGATACCTCCGCTCCCCTCTTTGCCACAGTGTGAATCTCTGCTTCTGATTCCTCAAGACTTGATTCC
CGAATGTGGGGTGTCTGTGGGGTGACTCGTCCCAGAGCAGGGACCTTCGATGCTCAGACACTGTGGGGCCCAGGACAAGGACTCAGGGTTTCTGCATTCC
CAAGCAGAGCCAGCCTTGTCCAGCAAGGAGTAGGCAACCGACGCTGTGGCGCTGTCTCCGAGGGTCACGGAGGCCCTGTGACCACTTGCTTCTAGAAGCT
GAAAGTCTGTTCATGGCCCCAGGCCAAAGCCTGGGCCACGCCATAATAATGCGGATACCGTGGGGAAGTGGCGTGGTCCCCCAACAGTCCCTCCAGCTCT
GGGTGGACGAGCTGACCCTGTTCTTTCCTGGAGGTAAGAAAATCATAAAGGTAAAGAGTCATGTGGAGCATCCTGTGGGCGCCTGGACGGGGCAGCAGGA
GGGACCTACTGCAGGGAATTCGCAGACACCAAGGCCCAGCTTGGCCTTCGTGATCATTTTGCACTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCG
CCCAGGCTGGAGTGCAGTGGCACCATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCCCCTGCCTCAGCCTCCCTAGTAGCTGGGACTA
CAGGCACCTGCCACCACGCCCGGCTAATTTTTTTTGTATTTTTAGTAGGGACGAGGTTTCACCATGTTGGCCAGGTTGGTCTTGAACCCCTGAACTCAGA
TGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCCGTGGTCATTTTTCTGTCAGCTCTTGCTCGTGGGTCC
CCCCATTACCTTTCCACAGGTTTTGTTTGGTGACGCTTTCAGGACAACAGTTTTCCATCTCTAGAGGAGAAAGGAGCATCCAGGTGAGACCAAACTAAGC
GCTGGACATCTTGTTGACCGAACACAGGTAGCTGACCTCTTTCCCATGCCAGGAAGGCCAGAGGCACACAGCGCTCTCCGGAAGCTGCTGTGACGGCCGA
GACTCCAGGAGGGCGTTACAAACCCGGGCTTGATCCCAGCTCTGCCACCGCGTCACCACAAAGTCACAGCCTCTTCGAGCTGTTTTCCTCGTTCACCTGT
AAAATGGGGATAACACCTATCTGAAAGGTTGTAGGGTGGGAGTGAGCCTGTAGATGCTGAGGGGCTGCGGGAGTATTAGGACACCTGTTGTGAGGACACC
TGTTGTTACGACACCTGTTGTGAGGACACCTGTTGTGGAGGACACCTGTGGAGGAACGTGGCTCCTCCTTCCATCCGGGCATCATCCCTGGAGGGAGACA
CAAACGAGGGCCAGCCAGGATACAGGAGGAGTCCGGAAGTGAATTTCCAGGCCCAGGTCTTTCCTGCGTCCCCTTTGAGTCTTATAGGATCCTGATTAGG
AGCGTGAGATCCTGGAGAACTGGGCGTGCGCACTCCTGTTCACCTCTTCCCTGCCCACGCCCGTTTCCCTTCTGCTTTCCAGCTCCCCTCAATATGCCCA
TTTTCCAGAGTTAGGATGCGTCTGGGTCTCTGTGATAAATGGCTCTGTCTTCATCTGGGTTGGGTCACGGGACACCCATTTGTCCTTCCTTCTCTCCTCC
CAAGGCATCCGATGGGGACAGAATGGGGTGAATGAGAGGGGACAAAATGAGTGGCTTCTCTAGTTCCTTGTGGCCGAAAAACCTCCTAGGCCCGCATACT
GCTGGGTCTGCATAGGGGCAGGAGTCTGAAGTCAGGTGTAAGTTAATATTCCACGGGAGGCAGGAAGAGCTTAGTGTGGATGTGGGGTGTAAGTAAATTG
GAGCAAGGATAAGATCATGAGATTCTCCCAGACTTGGCTTGAAGAGACAGCTGGGTTTGAGGCAGCAAAGCCAGGATCTCCAAGAGAGATTCCCCTTCTA
AGCTACCCAAGTAGGAGTCCCTAGTTTTTTGGGTCCCCTAAAATTGCTTACCTTTATATCATTTATGCCTCGTGCTGTGAATAAAGTTCAATCTTGTCAG
ACTTAGGACAACTAGGCTGAGCTCGAGCAGGAAGCTGGATGTTTATTAAGTCTGATTTACCTACTCAGTCTGGACTAAAAAGGTGTGTGGATTCCCTAGT
CAGTGACCCAGCATGAAGCCGGTCACTAGAGTGCCAGGCCCTGAGCCTGTCCCCATGGCCCTGTGAAGTACAAAGCGCTGCCCTACCTCTCAAGTGAGCA
CGCTGAGGCTCCAGGAGCTTCATCATCCCCGAGTCACCGGCCAGGTCGGGCCATCTAGGGAAACTGGAGAGTGTTAACTCCGCAGTTACAGCCTTCTGGG
CCACACACTGTCCCAAAGCTGGAATTTGAGCTCTGTTCTGCCTGGCTCCAAAGCAAAAGAAGGGCAATCACCTGGGCTGACCGCCCACGACATCCTTCGC
TCCGGGTCCTTTCCCGGTGGCAGGTGGAGACGGCCTTTTGGAGGGGCCTCGCTGTCCAGCTGCAAGGATAGTGGTTAGTGGACAGCTCCCAGCTGCTGGC
CCCTGCAGGGTGGGCCTTGCTTTTATGCTGAGCTCATGCTCTTCTCCAGGTGACCCTGTGGCCGATGACTAAGCAAAGTGGCATCACAGTGACCTCACCA
TTTCCACCCCACAAGACTCCGCCAACAGGCAGTCTGCCCCTCAGAGCGCCCCATGGGCAGGAGCTTTGTGGCTGTGTCAGCTGTGCCACATCCTCCTGCC
CAGCCCGGCCTCCTTCTTCTTACACAGGTGCCACATCCTCCTGCCCAGCCCGGCCTCCTTCTCCTTACGCAGGTGCCACATCCTCCTGCCCAGCCCGGCC
TCCTTCTCCTTACGCAGGTGCCACATCCTCCTGCCCAGCCCGGCCTCCTTCTCCTTACGCAGGTGCCACATCCTCCTGCCCAGCCCGGCCTCCTTCTCCT
TACGCAGGTGCCACATCCTCCTGCCCAGCCCGGCCTCCTTCTCCCTACGCAGGTGCCACATCCTCCTGCCCAGCCCGGCCTCCTTCTCCTTACGCAGGTG
CCACATCCTCCTGCCCAGCCCGGCCTCCTTCTCCTTACCGGGTGCCACATACTCCTGCCCAGCCTCCTTCTCCTTACCAGGTGCCACATCCTCCTGCCCG
GCCCGGCCTCCTTCTCCTTATGCAGGTGCCACATCCTCCTGCCCGGCCTCCTTCTCCTTACCAGGTACCACATCCTCCTGCCCAGCCCGGCCTCCTTCTC
CTTACCAGGTGCCACATCCTCCTGCCCAGCCCGGCCTCCTTCTCCTTACGCAGGTGCCACATCCTCCTGCCCGGCCTGGCCTCCTTCTCCTTACACAGAT
GCCACATCCTCCTGCCCGGCCCGGCCTCCTTCTCCTTACAAGGTGCCACATCCTCCTGCCTGGCCCGGCCTCCTCCTTCTTACCAGGTGCCACATCCTCC
TGCCTGGCCCGGCCTCCTTCTCCTTACCAGGTGCCACATCCTCCTGCCGGCCCGGCCTCCTTCTCCTTATGCAGATGCCACATCCTCCTGCCTAGCCCAG
CCTCCTTCTCCTTACCGGGTGCCACATCCTCCTGCCTGGCCCGGCCTCTTTCTCCTTACCAGGTGCCACATCCTCCTGCCCAGCCTGGCCTCCGCCCTTC
TCCTTACCAGGTGCCACATCCTCCTGCCCAGCCCGGCCTCCTTCTCCTTACGCAGGTGCCACATCCTCCTGCCCGGCCCGGCCTCCTTCTCCTTACCAGG
TGCCACATCCTCCTGCCCAGCCCGGCCTCCTTCTCCTTACCAGGTGCCACATCCTCCTGCCTGGCCCAGCCTCCTTCTTCTTACCAGGTGCCACTTCCTC
CTGCCCGGCCCGGCCTCCTTCTCCTTACCAGGTGCCACATCCTCCTGCCCAGCCCGGCCTCCTTCTCCTTACCAGGTGCCACATCCTCCTGCCTGGCCCA
GCCTCCTTCTTCTTACCAGGTGCCACATCCTCCTGCCCGGCCCGGCCTCGTTCTCCTTACACAGGTGCCACATCCTCCTGCCCGGCCCGGCCTCCTTCTC
CTTACCAGGTGCCACATCCTCCTGCCCAGCCCGGCCTCCTTCTCCTTAAGCAGGTGCCACTCCCCTATAGCCTTCACATTCCTTCCACCAACTCAGCATT
TGCTTCTGGGAGGACCCGACCCGAGACACTCACGTAAAAGAGGATGCCCACGTACAGATGTGGCAGCAGGCCCTCCGAGCTGGGATTCAGACCCAGGTCA
GCACGACTCCAAAATCTTTCCTCCTCTGCAGCTCCTTATTCCATGGTTCAGCAGGGAGGCGGGCGGGCTGGAGGCCCCGGCACCTGCTGTATGTGGTCTC
TATCCGAGGCCATGGTGAAAGCAGGGAGGTGGGTGGGCTGGGGGCCCAGCACCTGCTGTATGTGGCCTCTATCTGAGGCCATGGCGAAAGCAGGGGCCCT
GGTACTAGGGTCACACAAAGGCCACTGTCATTCTCTTGGGATTCGGTTTCTCCTTTCCCTAAAAGTGCCAAGCATTCTCACGCCAATTAGCTCATTTCCT
GTCTCATCTCACCTCTGTGGTGGAGCAGGGCATGATTTTTACGCATGCAACGTCTTCTTACGGGCATCCCTGTGAAGCAGGGCCACCCCGGGGCACAGGA
GGGCCTGGAGGTCCAGGGATCTAAACTCATTCCATTCACCCAGCCTTAAGGAGAAGAAAACCGAGGCCAGGAAGTCAGCAAGAACATGAAGTCGGTGACC
CAGCATCCAGGTCCCCGGATTTGCCACCTGTGTCCTTTTGTGGGGCTTCCCTTTGTAAAGCTTGAAAGAATAAGAGGATCTTAACATAATTTTAAAACTG
GAAGAGACCCTGGTGACCATGTCATCCGAAGCCCTCATTCTACCGTGGAGGAGGTGTGGGCCCAGAGAGAAGGGAGGTCCTTGTTGGCGCAGCCGGTGAG
CGGCAGGGTGTGTCCCGGAGCCCGGGTTTCCAGCGCCCTCTCTGTCTTGCTGCCGAGCGTCCACGTCTGTTCGGTTGTCTTTGCACACTCCTGGCTCCCA
GTTAGACCGCTGCTCCCAGGCGGAACGTCTGCCACAGCGGACACGTACATGCGGCCACCATGGGGACTGAATGAGGGTGGGCCCACAAAGCTCTCCAACG
CGGGGTTCTGACAGAAAGCCCAACCCGGGCCGAAAGCCATCTTTTAAAATGAAGTT


SNP Information

Context             (SEQ ID NO:15073):
GAGGGGTGGCGTGACCTGTGGATACTGAGGAAGCGTCGGTGACAGGAAGAGGGGTGGTGTGACCTGTGGATGCTGAGGAAGGGCTAGTGACAGGAAGAGG
S
GTGGTGTCACCTGTGGATGCTGAGGAAAGGCTGGTGACAGGAAGAGAGGTGGCGTGACCTGTGGATACTGAGGAAGCGTCGGTGACATGAAGAGGGGTGG
Celera SNP ID:            hCV27456766
SNP Position Genomic:     1285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15074):
GATGAAGCTGATATGTCCTGATTAGAGGTCCTTGAAGAAGCTGCAGTTGATTGTCCCTCTAGTGTCGCTGTTGTTGAGCCTGTTGAGGTGACTGGGGCAG
S
AGTTTTACTTCCAGTTATTAATGTGTCCTCTGTGGTTCCTGGAGTGAACCAAAATAGGCAAGCAGAGAGCTAAATCATGAATGAACTCCTATTCACAATT
Celera SNP ID:            hCV27456767
SNP Position Genomic:     5109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:15075):
GTTTGCTTTGCCACATCCTCCCCGTCGCTTTGACTACTGCGGCAGCCTCCTCACTGCCCCTGCTGACTCGGGTTCCGCACCCCTGCTCTCAGCCTCCACC
R
CACCCCTGCTCTCAGCCTCCACCGCACCCCTGTGGGTTGATCCTCAGCTCTGAGGGCCAGGAGGGAGGGTTGCTGCTGCTGTCTCCTTAGCTCGAATTGC
Celera SNP ID:            hCV15893369
SNP Position Genomic:     16069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15076):
AAAACCAAACACTGCATGTTTTCACTCATAAGTTGGAGTTGAACAATGAGAACACATGGACACAGAGAGGGGAACAACACACACTGGCGCCTGTCAGGGA
Y
GGGACAAGGGGAGGAAGAGCGTCAGGATAAATAGCTAATACATGCAGGTGATGGGTTGATAGGTGCAGTAAACCACCATGGCACATATATACCTGTGTAA
Celera SNP ID:            hCV26667394
SNP Position Genomic:     6636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15077):
GGAGACATTGTTCAGTTTTGTAGCCGGCAGCTTAAATTCAAAATGCATTTTAAACATGTTTTCCCCTTTCTCTTGGGTTTCCAAATACAACCTTGAGGCA
R
CTGCAAAGGCCGTTTTCCTCAGCCTAAAAATAGACTTCACGCCCCTCCCTTTTCTCACGATCTGTACACACTCCCTCCCTCTTCTCACCGTCTGTACACA
Celera SNP ID:            hCV29195666
SNP Position Genomic:     16583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15078):
TCAAGATGAGGAAAGACACTAACTCAAGATACCCTTGGAATAACTGATCTCTTGTGATCTCCAGAGCCTGAAACGAGACTTGGCATACAGCAGTGACTTC
R
TACACATCTGTGGAATACATCCCAGGCCCTGTGGCCTTTGTTGCCTTCAGCCGAGGCTGGAGAGAGGGTGACGTTGCCTGTTTCTTTATCTTTATCTTTT
Celera SNP ID:            hCV3189451
SNP Position Genomic:     18656
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15079):
GATGCACCTCCCCTACTCTCTGGCCATTCGAAATGCAGCTCTCAGCACACCCTGTACTTTTCCACACTGCATTTACCACATGTGCAGTTGAGAACATTTC
Y
GTAATTATTTGATGTCTGTCTGCACCAAGATTTTAGTGCCAAGAGACTGGGCCACGTCTGTTTCACTCTTCACTGTGTGCATCCAGTGCTGTGTCCTAGA
Celera SNP ID:            hCV3189453
SNP Position Genomic:     20139
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15080):
GGCGGGGCGGCATCTCTACAGAGAGTCGATGTCTGTCCTCTGTGGTCCCTAAACACATACACGGGGAGTGGAGCTGCGGGCAACCCAGGCCAGTGCCCTT
Y
CTCCAAGCAGGGCCGCCATTGCAAGGCCTCACGTGCAACACAAATGCCCAGTTCCTGAGACTTCTTCAGAATCTCCAGGAAAAGGGTGAAAAGGCATTTA
Celera SNP ID:            hCV3189454
SNP Position Genomic:     20749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15081):
CTGACATATAAACCAATGGAACAGAATAGATACCTTGGAAATAAGACCACACATCTACAACCATCTGATCTTTGACAAACCTGACAAAAGCAGGCAATGG
K
GAAAGGATTCTCTATTCAATAAATGGTGCTGGGAAAACTGGTTAGCCATATGCAGAAAACTGAAACTGGACCCCTTCCTTACACCTTATACAAAAATTAA
Celera SNP ID:            hCV27456263
SNP Position Genomic:     5534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15082):
GGTCATGCCCGGTCAGATGTGTGGGTGCCATCTCCCAGCCACGACCATCTCCTCTCCTGGCCCAGCTCCACTTGGTCCCCTTAGCGACGCAAAGGACTCA
G
CGCTCCACGACATGCCTAGCTTCTTCGGGTCGTCATGGAGACGCCCTTGCACACCAACAGTCCTTCACTCCTTCTCCGGGTCACGCCCCCGTGCTTTTCC
Celera SNP ID:            hCV3189456
SNP Position Genomic:     23250
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15083):
AGCCACGACCATCTCCTCTCCTGGCCCAGCTCCACTTGGTCCCCTTAGCGACGCAAAGGACTCAGCGCTCCACGACATGCCTAGCTTCTTCGGGTCGTCA
Y
GGAGACGCCCTTGCACACCAACAGTCCTTCACTCCTTCTCCGGGTCACGCCCCCGTGCTTTTCCACGCCCACCCCAGGTCTTGCCCCTCTGCGCTCCTCT
Celera SNP ID:            hCV3189457
SNP Position Genomic:     23286
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15084):
CCGTTCACCACTGCTTTTTACACAGGGGACCGGGGCCCTGGGGAGACACGGGGCAGGGCCTGGTCACAGGGGCCAGAACAGTTCACGGCAAAGACTTGGC
M
CTGGGGCTCCTAAATCCAAGCTGCCTCCCCGGCGCCCCAAGCCCCAGCCTCGCTCTGGGAGTCATGATTCCCGTGGAGACTCCTTCAACCACATCTGCAG
Celera SNP ID:            hCV3189458
SNP Position Genomic:     23608
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15085):
ACTTGGTCCTGAAGCCAGAGGGACAGCCTGGAAAGTGTGGGGAAGAGGACGGGGGCCCCCGAGGGAACATCTCCCACAGGCCTGGCATCCCTCCCCTCCC
R
GCTCTGTACACGGAGGAGCCCAAGGCCAATGCCGGGGCTACGAGCCCCAGGCAAGGCCGTGACCCAAATGGAGGCTTTTAAACCCGAGCTCAGAGGTAAG
Celera SNP ID:            hCV3189459
SNP Position Genomic:     24207
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15086):
AAAAGTATGAGAGTACAGAAATGTGATTTTGGGTATGGAAGGGATGAAACAAGCCTATGGTTATTTGCAGATAACATAATTGTTTACATAGAAACTTCCC
R
AACATATACATTATTAGCAAAGTTCTATATCCATAATCAAAATTTTAAAAATAATTGCATTCCAGCTGGGTGTGGTGATTCATGCCTGAATCCCAGTGCT
Celera SNP ID:            hCV1003999
SNP Position Genomic:     11407
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15087):
AATCCTAAGCAAAAAGAACAAAGTGGGAGGCTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAACAGCATGGTACTGGTACCAAAACTGAC
R
TATAAACCAATGGAACAGAATAGATACCTTGGAAATAAGACCACACATCTACAACCATCTGATCTTTGACAAACCTGACAAAAGCAGGCAATGGTGAAAG
Celera SNP ID:            hCV2848650
SNP Position Genomic:     5439
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15088):
AAGCTTTCTTCCTTCCTTCTGTTCATGCTAACAACAGTCCCCCAGACATCCAGCCCAGAAAGCTGTGGGTCCTCTGGATTTCTTTCTCTTCCTTGTCCCC
Y
GTGTCCTAGTCAGTACTCGTTGATCTTCCTCCCAAGTGTTCACCCCATCGCGTCCTCTTGTTTGCTTTGCCACATCCTCCCCGTCGCTTTGACTACTGCG
Celera SNP ID:            hCV11560549
SNP Position Genomic:     15909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15089):
TGAGGAAAGGCTGGTGACAGGAAGAGAGGTGGCGTGACCTGTGGATACTGAGGAAGCGTCGGTGACATGAAGAGGGGTGGTGTCACCTGTGGATGCTGAG
K
TAGTGTCGGTGACAGGAAGAGGGGTGGTGTCACCTGTGGATACTGAGGAAGCGTCGGTGACAAGAAGAGAGGTGGCGTGACCTGTGGACACTGAGGAAGC
Celera SNP ID:            hCV26667366
SNP Position Genomic:     1406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15090):
TCGCTTTGACTACTGCGGCAGCCTCCTCACTGCCCCTGCTGACTCGGGTTCCGCACCCCTGCTCTCAGCCTCCACCACACCCCTGCTCTCAGCCTCCACC
R
CACCCCTGTGGGTTGATCCTCAGCTCTGAGGGCCAGGAGGGAGGGTTGCTGCTGCTGTCTCCTTAGCTCGAATTGCTTTGGAAAATGGCCTGCCCTGCCT
Celera SNP ID:            hCV1004000
SNP Position Genomic:     16093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15091):
GAGGAAAGGCTGGTGACAGGAAGAGAGGTGGCGTGACCTGTGGATACTGAGGAAGCGTCGGTGACATGAAGAGGGGTGGTGTCACCTGTGGATGCTGAGT
W
AGTGTCGGTGACAGGAAGAGGGGTGGTGTCACCTGTGGATACTGAGGAAGCGTCGGTGACAAGAAGAGAGGTGGCGTGACCTGTGGACACTGAGGAAGCG
Celera SNP ID:            hCV26667367
SNP Position Genomic:     1407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15092):
AGATTAGCATTCGTTACGACAAAACTACAGTTATTGCATTTGTCTTTCACCATCATTTAAACAATACCTCTGAAGCCACTCCTGCAATAGATTGATTATT
Y
AGCTGTTTAGGAAAACAATTTGCAGATAACTCAATCTACTAAGCTTGAGTAGGTTATTTGTAGGTAAGAAATCCTGTGTTCAAGTATGACCTATCTTTAC
Celera SNP ID:            hCV2950474
SNP Position Genomic:     14262
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15093):
TGTCTCCTCTGTGTTTCCAAGAGTAGAGTCTCTGGAGATTGGCATTCTGAACACCTTTGATGTTACCAGGAATGTATTGCTGACACTGGAAGGGGATGAG
R
TGGTTGTTTCACCAGAAGGGAATGTCTCCTGAGAAACTGTTCCACTTGGGTTGAATCCACTTGGTGAGGATAAAACAGTTGATGTTGTAACCGGTGTGAG
Celera SNP ID:            hCV9712022
SNP Position Genomic:     4085
SNP Source:               dbSNP
Population(Allele,Count): JBIG-allele(G,232|A,1047)   total(G,232|A,1047)no_pop(A,-|G,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:15094):
GTGGTCTCCACGCTCTGAGTCTGGTGGTTCTTAGAAAAAGCTGTTGTGTCCTGAGTAGAAGTCCTTGAGAAAGTTGCTGGTGATTGTCCTTCTGGATCAA
M
TGTTACTAAGGCTGCTGAGGTGACTGGCATAAGACTTCCAGTAACAGGTACTGATGATGTCTCCCCTGGGTTTCCAAGAGTGGAGCCTGTGGAGGTTGTC
Celera SNP ID:            hCV9712023
SNP Position Genomic:     4317
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:15095):
GTAACCGGTGTGAGGGTGTTGAGGGTGTTGATTTGAGATACTCTGGTGGTCTCCACGCTCTGAGTCTGGTGGTTCTTAGAAAAAGCTGTTGTGTCCTGAG
K
AGAAGTCCTTGAGAAAGTTGCTGGTGATTGTCCTTCTGGATCAACTGTTACTAAGGCTGCTGAGGTGACTGGCATAAGACTTCCAGTAACAGGTACTGAT
Celera SNP ID:            hCV27497283
SNP Position Genomic:     4272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:15096):
GTGGCCTTTGCTGGAGAATGAGGAAGGCCATGTTGTTGTTTCATGTAGAGTAAATATTTCTTGAGACACACCTGGAGAGAATGAGCTCCTCTCATGAGGC
Y
GTCCTGTGGTCTCTGCACCTTCACTCTGCTGGGTGTGGAAAGCTGTGGATATTTTTGGAGGTAGAGAACTGGGGGAGAGTGCTGTTGACAGAGTGTCTGA
Celera SNP ID:            hCV29195679
SNP Position Genomic:     3824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:15097):
GAATCTCCAGGAAAAGGGTGAAAAGGCATTTAAACCTCTATGAAGTAGGGCCAGGCACAGTAGCTCACGCCTATAATCCCAGCACTTTGGGAGCCGAGGC
R
AGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAACATTAGCCGCTGTGGTGTTGGGC
Celera SNP ID:            hCV27453116
SNP Position Genomic:     20918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15098):
TAGGGTGCTGGTTTGAGATTCCCTGGTGGTCTGCGTGCTCCGAGTCCAGTGGTTCTGAGAAGAAGCTGATGTGTCTTGGATAGAGGTCCTCCAGGAAGTT
K
TTCGTGATTGTCCTTCCTGTCCAGCTGTTATTGAGACTGCTGAGGTCACTGGGGTAGAACTTTCAGTTCCTGCTGTTGATGTCTCTTCTGTGTTTCCAAG
Celera SNP ID:            hCV2394241
SNP Position Genomic:     4673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:15099):
CCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCC
G
GGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCACCACTGCACTCCTGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAATTAAAAATTAAAAAA
Celera SNP ID:            hCV26667332
SNP Position Genomic:     12275
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,7)   total(G,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15100):
CCTTAATACATCTTACTTTATGCCCGTTCTGTGTGTTGCTAGTATGTATGTGTGACACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
W
GAGACACTGTGTGTGTGTGTCCCTGCCCTTATAGAACATTGGACATAGCCTTTAAACATTTTTTTTTCCAGATGGAGTTTCACTTCTTGTTGCCCAGGCT
Celera SNP ID:            hCV26667333
SNP Position Genomic:     12919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15101):
TAAAGCCCTGATGACTATCTTCGTGTCTAATGTTTTGTTTACATTATTTCAGCTCATCTCCTTAACATAAATTTCTATCAGTGGAATTGCTGGTTTATGC
Y
GTTATAAAATTTTTCATGTTATTAATACAGACTGCCAAATTTCTTTGCAGAAAGCTTATGCCAATTTACAGACCTGTTGGCAGTGTGCAAGAGTGTGCCT
Celera SNP ID:            hCV26667334
SNP Position Genomic:     13458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15102):
GCGGGTGGATCATTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGATGAAACCCCATCTCTACTAAAAATACAAAAATTACCCAGGCATGGTGGC
R
TGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCTCTCAAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCC
Celera SNP ID:            hCV26667335
SNP Position Genomic:     13809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15103):
TGGGGGACAGAGAGAAACTCTGTCTCAAAAAACAAACAAACAAACCCAAAAAACCAACAACAACAGCAACAATAAAAAAACCGTCTATGAAGAAATCGTC
K
ATGAGGTGCCAACAGACTCAGTTATTTTGACTCAATTTCTCAGAACATGCTGGGGCGGGAACTCAGCCTAGCAGTAAGAAAGACGTATATTTAAGGTAAA
Celera SNP ID:            hCV11560559
SNP Position Genomic:     21220
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15104):
GGGCATGGTAGCTCATGCCTAAAATCCCAGCACGGACAGGCAGAGGCGGGAGGATTCCTTGAGGCCAGGAGTTTGAGACCAGCCTGGGCAATAGCTCAAG
R
CCCCTTCTCTGAAAAAAAAAAAAAAAAAAAAAGTGGTTCTCAAAAGGCAGAGGGTGCATCAGCATTTTAACACATGTCCAGAGTGATTCTGATGCAGGTG
Celera SNP ID:            hCV26667336
SNP Position Genomic:     14541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15105):
TAAAAAATACTCATAGCCTTGTTCTTGCTGCTCAAGTGTTGGCCAGAATGAACTGACCTTGGCTCTCACCAGGATGCAAGTCAGGCCCTTCAGATTCCGT
S
AGATTGTCAGACAACTGAAACTTGTTCTCACTCTGGCCAAACGCATAAACTTGGGGAGCAGAGAGCTGGGAGATTTGCGCCTAAAGAGTTGATATTGGAG
Celera SNP ID:            hCV26667337
SNP Position Genomic:     14879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15106):
CAAACGCATAAACTTGGGGAGCAGAGAGCTGGGAGATTTGCGCCTAAAGAGTTGATATTGGAGAGAAACAGGTCTCTCCTCTCTCTTCTCTCCCCGTGAC
M
CTCCATTTTCTACTTCACTGAAAGAACCAAAGCCGTGCCCTTCATCTCCTTCAATGCCCAGAGCCTTCTCCGCACCCTCCCCGGGGCCCCGGGGCTCCCT
Celera SNP ID:            hCV26667338
SNP Position Genomic:     15017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15107):
AGGAAGAGGGGTGGCGTTGCTGATGAGGGCCGTGGTGAAGGTTTTACCAGACCCTGAAGGTGACAGAGTGTGGGTCTGGGTTTGTGGAGATGTAAGCCCA
S
TGGATGTGATCGATGGAGGTGTGGGTGGGACTGTTGAGAAGGTGTCGGTTGCCTGGGACGCCAGGCTGATAGTGTCAGACCCTCTGCTGGTTCTTGTCCT
Celera SNP ID:            hCV26667372
SNP Position Genomic:     2381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 PUTATIVE UTR 5;MISSENSE MUTATION


Context             (SEQ ID NO:15108):
GGGCTAGTGACAGGAAGAGGCGTGGTGTCACCTGTGGATGCTGAGGAAAGGCTGGTGACAGGAAGAGAGGTGGCGTGACCTGTGGATACTGAGGAAGCGT
Y
GGTGACATGAAGAGGGGTGGTGTCACCTGTGGATGCTGAGTTAGTGTCGGTGACAGGAAGAGGGGTGGTGTCACCTGTGGATACTGAGGAAGCGTCGGTG
Celera SNP ID:            hCV27455116
SNP Position Genomic:     1365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15109):
TCCCTGGGCTGCCAAGGGCGTCGCTGATGCTGGACCTCTGAGTTTCAGCCCCTGCTCTTCCCTGTGCACCTTGCTGGTCGTTGGCCAAAATTTGGCTGAT
K
TTCCTGGCAGGACCTCTTGTCCAGGGATCCTTTCCTTTTGAGTGTCCTGGAGCACAGTGGGGTTTCCCAGAGGGGCAGAGGGGTCTGTGGAGAGTTTTGG
Celera SNP ID:            hCV9713195
SNP Position Genomic:     22421
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15110):
CCAGGACGGCCAGGCTTCCTTCTGAGTCATTCCTGCCTGGGGCGACCAGTAGACACCAAATTTCCATCTGTCCTTGTCTAGCCCACCTCTGTCTGCTGTG
Y
CTTATCCTTTAACCCTTGAGAGCCAGGGCTGTTCCTTAAGGAAACCCTCATTGCGGCAGCTCCTTTGTGGAAACCCTGTGTTTTTCCTCTGGCCTGGGCT
Celera SNP ID:            hCV9713196
SNP Position Genomic:     22847
SNP Source:               Celera;dbSNP
Population(Allele,Count): (C,5|T,7)      total(C,5|T,7)Caucasian(C,17|T,39)   Chinese(C,6|T,14)   Japanese(C,9|T,29)   African(T,20|C,40)    ;(C,-|T,-)   TSC_42_A(C,15|T,43)   TSC_42_C(C,17|T,39)   TSC_42_AA(T,20|C,40)   total(C,72|T,102)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15111):
CTGTGCCAATCTGGTAAAAAACCCAAGGGGTAAATGCATATACTCTTGCCCTGGTCACAGACTACCAAGAAGCTAATATTATTGACCATAACCACTTTTT
W
AAAAAAAATTATTTCCCAGGCAGAGGCCAGGCATGGTGGCTCATGTCTGTAATCCCAGCATTTTGGGAGGCCAAGGTGGGAGGATCACTCGAGGCCAGGA
Celera SNP ID:            hCV2023415
SNP Position Genomic:     7587
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15112):
AGCCAATGGTCTTCTCCAGCTCCCGCCTGTCTTCCTTGTGAGGAGGAAGGTGAGGTTAGACTAGAATGGTGAATTAACTGTGTTAAACTCCATGGGAAGA
R
GCAAACAGTACCCCTGCTATAAGCCGGGTTAACTCTCTCAACTTGAATTATAGCATTATCTTTCTTAAAAATAAATTAAATTTCTACTTTTCTTTTTCGT
Celera SNP ID:            hCV27455331
SNP Position Genomic:     7377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15113):
CTATGTTGCCTAGGCTGGTGTCGAACTCCCGGCCTCAAGCGATCCTCCTGCTTCAGACTCTCAAAGTACTGGGATTAAAGGTGTGAGCCACCGCTCCCAC
Y
CTTTTTTTCAACCTCAGTGCTCCTAGATAGTTGGCAAGATGATACTCAGAGAGACAAAGTCTCAGGGAAGAATTCAGCTTCAAGTCCACTTTCTGGAATT
Celera SNP ID:            hCV2023417
SNP Position Genomic:     8307
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15114):
GAGTGTGACCCCTTTGGGAAACAGCTGGTGATTCCTGAGGAGAGGTGCTTGTGGAATGTATTGTTGAATGATTTGTTGATGGTGCCGTTGTAATTTGTTG
K
GATGTGTGTCTATCCAGCATAGGTGAAGAAGATGGGGATGTGGCCGTTTTTATCATCTGAGTCACACTGTAGCTTGGGCTGCTGAGAAGAGCCTCTCCAG
Celera SNP ID:            hCV27455332
SNP Position Genomic:     3394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)   JBIC-allele(G,271|T,1222)   total(G,271|T,1222) 
SNP Type:                 UTR 3;SILENT MUTATION


Context             (SEQ ID NO:15115):
TGACCACCATATGGTTGAAACTTTGGAAGTGATTGCAGAAATGGTTCCACTTACAGATAGTGATGTCTCCTCTGTGTTTCCAAGAGTAGAGTCTCTGGAG
R
TTGGCATTCTGAACACCTTTGATGTTACCAGGAATGTATTGCTGACACTGGAAGGGGATGAGATGGTTGTTTCACCAGAAGGGAATGTCTCCTGAGAAAC
Celera SNP ID:            hCV26667378
SNP Position Genomic:     4022
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   (A,-|G,-)   (A,-|G,-)   Caucasian(G,13|A,71)   African-American(G,12|A,72)   Asians(G,14|A,64)   total(G,39|A,207)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:15116):
TTTTTTTAAAGTAAAGATTTTTGTAGTTCTTTATAAAAGTGGCACAGCTCCATTTCAGCAATATGGAAGAAGAGATAAGCCTCTAATAGCAAAACCAGCC
R
ATGCCAGATAAATACAGGTTATAAATGTAATAAATGTTTTCTAATGCAGAGGTGAGATGAGAAGAAAGAAAGGGAAACACTCAGGAGTGAAGAAGTTAAC
Celera SNP ID:            hCV3189437
SNP Position Genomic:     9097
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15117):
TGCTGACTGAAAGGCTGAAAAAGGAAAGGAAGCAAGACCCTCGGTCACGACACTGAACTGAGTTTCCCTGCAAAAAGCTGGAACCGCCAGCAAAAAAGGT
R
GACTAGAAAGACCAGGAAGAAAAAAGAAAAAGGAAGCAGAATGAAGGATATAGTAACAGACCAGAACTCACTATAGAAACAATTAAAAATGGAATAAATG
Celera SNP ID:            hCV3189438
SNP Position Genomic:     9331
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15118):
AGCAGAATGAAGGATATAGTAACAGACCAGAACTCACTATAGAAACAATTAAAAATGGAATAAATGAAGCCAAAGATTAGTTCTTTGAAAATAAAACAAA
Y
ACCTGGCAAGAGAAAGAAAGTGGGGGGGGGTGTGGGAGGAGGGAGAGAGAGAGACAGAAAAGACACAGATATCAAGATTATTAGAAACAAAAAAGGGTAC
Celera SNP ID:            hCV3189439
SNP Position Genomic:     9466
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15119):
TATGGTGGGTGCGTCCTGAGGAACAATTTCTGAGGGCGAGTGCCCACTGGCTGTGAAGGAAGAACCTGGGGTGGTGACTGTCTTGGTGTCAGTCATGGGG
K
AGACGGACCTCGTGGTTTGTGATTCTTGTGTGGTCTGCGGGGCTTGAGTGTGACCCCTTTGGGAAACAGCTGGTGATTCCTGAGGAGAGGTGCTTGTGGA
Celera SNP ID:            hCV27511356
SNP Position Genomic:     3248
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,22|G,1475)   total(G,1475|T,22) 
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:15120):
GACACACCTGGAGAGAATGAGCTCCTCTCATGAGGCCGTCCTGTGGTCTCTGCACCTTCACTCTGCTGGGTGTGGAAAGCTGTGGATATTTTTGGAGGTA
R
AGAACTGGGGGAGAGTGCTGTTGACAGAGTGTCTGACCACCATATGGTTGAAACTTTGGAAGTGATTGCAGAAATGGTTCCACTTACAGATAGTGATGTC
Celera SNP ID:            hCV11976023
SNP Position Genomic:     3888
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(A,7|G,49)   Chinese(A,0|G,20)   Japanese(A,3|G,37)   African(A,19|G,41)      total(G,147|A,29) ;(A,-|G,-)   (G,-|A,-)   JBIG-allele(A,71|G,660)   total(G,660|A,71)   (A,-|G,-)   Caucasian(A,7|G,49)   African-American(A,19|G,41)   Asians(A,3|G,57)   total(G,147|A,29)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:15121):
ATCACTCGAGGCCAGGAGTTTGAGACCAGCCTGGGCAAGATAGCGAGACCCTGTGTCTTAAAAAATAAAAATAATAATAATAATAATAAAAATAGATATT
W
AATAAAGAAAAATATTTCCCAGGCAGAATGTTTAAATATTGGCTTTTTTTGTTTAAAATATTTCACAGCACCTGCACTAGCCACATACCATCTTCGTGAA
Celera SNP ID:            hCV26667410
SNP Position Genomic:     7771
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,7)   total(A,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15122):
GTGAAGGCTGTTGACACCTTAAGGTGACAAGATCACTGTGAGAAGACACACGTGTGTCATTGAGTAAAACGGATAGTTTTTAAGACATTCTCTCAGAGGA
R
GAGTCTCCATCCAGGGACGAGGAGGGCACTGGCGTTGGCACTGAGGTAGAGACGTTCCCCACATCTGAGTCCTTGAAGGCTCTGTCAAGCCTCTGCCATC
Celera SNP ID:            hCV26667340
SNP Position Genomic:     17786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15123):
CAGACGCTGAACCGCTGGCCCCACCGCCTTTGGCAGGGAGCTAATGCTATTTGTGTATCAGCCCAGAATCAACTGTGACCAGGGTTGTGTCCACTGGGTA
Y
TTCCCTAGAATTCAAGATGAGGAAAGACACTAACTCAAGATACCCTTGGAATAACTGATCTCTTGTGATCTCCAGAGCCTGAAACGAGACTTGGCATACA
Celera SNP ID:            hCV26667341
SNP Position Genomic:     18544
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15124):
AGCCCAGAATCAACTGTGACCAGGGTTGTGTCCACTGGGTATTTCCCTAGAATTCAAGATGAGGAAAGACACTAACTCAAGATACCCTTGGAATAACTGA
Y
CTCTTGTGATCTCCAGAGCCTGAAACGAGACTTGGCATACAGCAGTGACTTCATACACATCTGTGGAATACATCCCAGGCCCTGTGGCCTTTGTTGCCTT
Celera SNP ID:            hCV26667342
SNP Position Genomic:     18603
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15125):
GACCAGGGTTGTGTCCACTGGGTATTTCCCTAGAATTCAAGATGAGGAAAGACACTAACTCAAGATACCCTTGGAATAACTGATCTCTTGTGATCTCCAG
M
GCCTGAAACGAGACTTGGCATACAGCAGTGACTTCATACACATCTGTGGAATACATCCCAGGCCCTGTGGCCTTTGTTGCCTTCAGCCGAGGCTGGAGAG
Celera SNP ID:            hCV26667343
SNP Position Genomic:     18620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15126):
TTCATACACATCTGTGGAATACATCCCAGGCCCTGTGGCCTTTGTTGCCTTCAGCCGAGGCTGGAGAGAGGGTGACGTTGCCTGTTTCTTTATCTTTATC
T
TTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCAGGAGTGCAGTGGTGCGATCTCAGCTCACTGTAACCTCCACCTCCCAGGTTCAAGTCC
Celera SNP ID:            hCV26667345
SNP Position Genomic:     18753
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15127):
AGCTGCGGGCAACCCAGGCCAGTGCCCTTTCTCCAAGCAGGGCCGCCATTGCAAGGCCTCACGTGCAACACAAATGCCCAGTTCCTGAGACTTCTTCAGA
R
TCTCCAGGAAAAGGGTGAAAAGGCATTTAAACCTCTATGAAGTAGGGCCAGGCACAGTAGCTCACGCCTATAATCCCAGCACTTTGGGAGCCGAGGCAAG
Celera SNP ID:            hCV27453056
SNP Position Genomic:     20820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15128):
TCATACACATCTGTGGAATACATCCCAGGCCCTGTGGCCTTTGTTGCCTTCAGCCGAGGCTGGAGAGAGGGTGACGTTGCCTGTTTCTTTATCTTTATCT
T
TTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCAGGAGTGCAGTGGTGCGATCTCAGCTCACTGTAACCTCCACCTCCCAGGTTCAAGTCCC
Celera SNP ID:            hCV26667346
SNP Position Genomic:     18754
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15129):
TTACAGGCGCTCGCCACCACGCCCGGCAAAATTTTTTATTTTTAGTGGAGACAGGGTTGGCCAAGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCC
R
CCTGGGCCTCCAAAAGTGCTGGGATTACAGCGTGAGCCACCGCGCCCGGCCCTTTATGCCTTTTCTACTTTACACCAGATGCTGTCTCGTTTCATCCTCA
Celera SNP ID:            hCV26667348
SNP Position Genomic:     22131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15130):
GCGCCCGGCCCTTTATGCCTTTTCTACTTTACACCAGATGCTGTCTCGTTTCATCCTCATGACAACCCTACATAGTAGCCCCTTCCCCCTGGGCTCAGTT
Y
GCCGATGAAGAGCCTAAGACTCCAGAGCCAAAAGGCGTTGCCTGTGTTCCCTGGGCTGCCAAGGGCGTCGCTGATGCTGGACCTCTGAGTTTCAGCCCCT
Celera SNP ID:            hCV26667349
SNP Position Genomic:     22273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15131):
AACCATTGTGGAAGACAGTGTGGCGATTCCTCAAGGATCTAGAACCAGAAATACCATTTGACCCAGCAATCCCATTACTGGGTATATGCCCAAAGGAATA
K
AAATCATTCTGTTATAAAGATACATGCACACGTATGTTTACTGCAGCACTATTTACAATAGTAAAGACATGAAACCAACCCAAATGTCCATCAGTGATAG
Celera SNP ID:            hCV26667386
SNP Position Genomic:     6300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15132):
ACATTTATAGTTGAAAGATCAAAACCCATAATCTTGCTACCAGACAATGCTTCCTTCCAGGATGTTTTTATGCTTTAAAAAATATATAGTTTAGGCCAGG
M
GTGGTGGCTCACACCTGTAATCCCAGCGCTTTGTGAGGCTGAGGTGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAGGGCGAACCCC
Celera SNP ID:            hCV3189440
SNP Position Genomic:     12075
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15133):
GGCCAGGAGTGGTGGCTCACACCTGTAATCCCAGCGCTTTGTGAGGCTGAGGTGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAGGG
Y
GAACCCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGT
Celera SNP ID:            hCV3189441
SNP Position Genomic:     12168
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15134):
TTTATTCTAAAAAATACTCATAGCCTTGTTCTTGCTGCTCAAGTGTTGGCCAGAATGAACTGACCTTGGCTCTCACCAGGATGCAAGTCAGGCCCTTCAG
R
TTCCGTGAGATTGTCAGACAACTGAAACTTGTTCTCACTCTGGCCAAACGCATAAACTTGGGGAGCAGAGAGCTGGGAGATTTGCGCCTAAAGAGTTGAT
Celera SNP ID:            hCV3189442
SNP Position Genomic:     14872
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15135):
CAACAGCAAAAACGATTTTCTCCAGTCCTCACGCGTCTCATCAGTTCGGCCCCATCCATTCATTCATTCATGAATCTGACAGATGTGTATTGCGCCCCCC
S
CTCCACGTGCTCTCCCTGGCCGGCGGCCCCGTGCCACCACCCAGCCTCACCCTCATTGAAGCTGACGGGTCCTGCTCCACCGTCCACGCTCCCGGGCCCT
Celera SNP ID:            hCV3189444
SNP Position Genomic:     15479
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15136):
AGGGAAATTGAGATTTGAAGAGACCGAGTGATATTATATGCCTTGGAAGTAGCAGGGCCGGGGGCTCGGGGTAAGAGCCATTGCTCGGAAGCTGCGAGCT
K
TTCAGCTCTGGGACTGCCACCGAGTGGATGGAGAGCTGAGGCAAAGATGGAGAAATGGTCACTGACCTGCCCCAAGTTCTTGGACTGCCACATGCAGAGG
Celera SNP ID:            hCV3189445
SNP Position Genomic:     17475
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15137):
AAAGTGCTGGGATTACAGCGTGAGCCACCGCGCCCGGCCCTTTATGCCTTTTCTACTTTACACCAGATGCTGTCTCGTTTCATCCTCATGACAACCCTAC
R
TAGTAGCCCCTTCCCCCTGGGCTCAGTTCGCCGATGAAGAGCCTAAGACTCCAGAGCCAAAAGGCGTTGCCTGTGTTCCCTGGGCTGCCAAGGGCGTCGC
Celera SNP ID:            hCV27456326
SNP Position Genomic:     22244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15138):
GGGAAATTGAGATTTGAAGAGACCGAGTGATATTATATGCCTTGGAAGTAGCAGGGCCGGGGGCTCGGGGTAAGAGCCATTGCTCGGAAGCTGCGAGCTT
Y
TCAGCTCTGGGACTGCCACCGAGTGGATGGAGAGCTGAGGCAAAGATGGAGAAATGGTCACTGACCTGCCCCAAGTTCTTGGACTGCCACATGCAGAGGG
Celera SNP ID:            hCV3189446
SNP Position Genomic:     17476
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15139):
ATCAGCCCAGAATCAACTGTGACCAGGGTTGTGTCCACTGGGTATTTCCCTAGAATTCAAGATGAGGAAAGACACTAACTCAAGATACCCTTGGAATAAC
W
GATCTCTTGTGATCTCCAGAGCCTGAAACGAGACTTGGCATACAGCAGTGACTTCATACACATCTGTGGAATACATCCCAGGCCCTGTGGCCTTTGTTGC
Celera SNP ID:            hCV3189448
SNP Position Genomic:     18600
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,3)      total(A,3|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15140):
CCTGGTGTTGACACTACAGAGTTGGCCAGAGTAAGGGCACCTGTTTTGGAAAGTGACGTGCCTCCTGAGGGCCCCAGGGTGGCATCATGGCTGCTGGGTG
Y
TGCCTGCAGTGCTGTGGTCGGGGCCTGGGTTGTGTGACCATCCCCGGTGGGAGCTGGGGCAAAGGTTGTTGCTGCACTTATGGTGGGTGCGTCCTGAGGA
Celera SNP ID:            hCV27473348
SNP Position Genomic:     3069
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,135|C,1326)   total(C,1326|T,135) 
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:15141):
GTGGTGGCAGTTTCCTTTGCCCTCAGCCTAGTCCTGAAACATCCCGAGGTGGAAGGGTCCGCTTCACCAGCATGGCTTCTCTTGCAGCCTTTAAACGGCA
Y
TCGCCTTCTGACTCACTCCCAGGAAGCTCCTCAAATATGCGCCCAAGAAATATTTTCCCTCGGCGACTGTTCTTAGCCTGCTGAGAGGCAGGGCAGGAGC
Celera SNP ID:            hCV26667350
SNP Position Genomic:     23928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15142):
GTTTTTGGGAGAGTTGTGCTGTGGGAGGAGTATGTGGTGGGCTCTCCTGGTTCCCCTATTGCTGAGACCTTAGAGGGGACCCTTGGAATAGTGCCAGCTG
Y
CCCTGTAGATGGATTTCCTGTGACAAGCCTAGTGGCAGCACCTGTTGATGTTGAGGGCAGTTCTGTTTGTGACCAAGTTGTGTGGCCTTTGCTGGAGAAT
Celera SNP ID:            hCV16269689
SNP Position Genomic:     3642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(T,164|C,767)   total(C,767|T,164)no_pop(T,-|C,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Gene Number:                 22
Celera Gene:                 hCG1645854 - 79000076155139
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(8684602..8707841)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12182):
AAGCACCAGCTCATCTACATTCCCTGACAGCCTTGGATATGCAGGGCTTTTTTATGGACATATTTCAGAAGCTAAAGCTTTTACCTCAATGTTGCAGAGA
CACTCTTCTAACTTCATGACAACTTCAGAAAATTCGGGTCTTCCCTGTAAATAGAAAAAAGAACTTTTTTCCCTTAAGAATAAAAGGAAGGAGACTCTCT
TTGGATGTTAAAATTGGGTATTAGCATTTGTAAAGAATGAGATTAACAATAAAGTATATTTTTATTTAAAATACACTTTTATTGAAGTGTTAATTGAATG
TTCATTTGCTGTTCATGGAGAGATGTTGAGTCTCCCTCTGATAAGAGTTTTAAGTCAGAATTTGCAACTACATTCAGATAATGAAATAGTGGAAAAGCTT
TAATTAGCTTTGCATGTTTTTAAATGGCAGGTTTCCTCTTCAAAATGAAAGAATAATAGTGAATACTAAAAACTATTAACTATCTCAGTGCCTTGTAATA
CACTGCACACTGTGTATAAAAAGAACTGCTAAGGCTAGATTTATAATGAACTTCACTTTTGAAAAGATCATCTCAGATTCAAAACTAAGATGATGATAGA
AACCTCAGGACTATGCCTTACTTTAGGGTTTAAGGTAAGCTTTTTACCTTCAGACAGTGCCATTAAAAATATTGCCCATTATGAACCTCTGTGTCAGACG
AGTTTGGTTAAAAAAAAGTTTATTCCAAATATATTTCAAGCTTTGTTCCAGTTGCAAGGGATATAAAAATGATTATTGGAAAAATTCTTGGAATTTTAGA
AAATGTTGGCCTCTTCTGAGAAAATTGTCTTCTTTTGTCAGATCCTAAAACTATACACCCTATCATTTCTCCTTTTTTGAAACTTTCACTGCCAGGAGGT
GGAGAGCCCAATTTAACATTCAGGTTCAGTAACCAAATAATTTAGATTCTTAGTAGAACAATTTCTCCCTTACTATCTAGCCCACCCCTGAGAACACTGC
TTCCCTTATAAGCTGTTTCCTCTCACATACTCCTTGTATCTCTAGGTTGGTGGGGGCAGTGGGAGCAGTGGGAGCAGTGGAGTGAGCAAAACCCTGTGTC
TTCCTTGCTGTCACTGCTACTTCCAAATGGTTTCTCCTCTAAACACCACCAGCTTGTCAGGCTATACCACCAGAGTCTAGCCACACCCCCTCATTCTTTG
GGGATTTTAAAAACTGGCTTACTTCATACTCTCTAACACTACTCTTTGTACTTTTATTATCCATGCAAATGATCATTAAAATAGCCTGACCTCTGGGTTC
CTTTGCCTACTCTTCTCCAATGAGCTTGTCCTCCAAACTCCTTTAGTCACTCAGCCCCTTAGTTATACCCTAGACCCTGTCATGACCAATGCCTCCACCC
CTCCATGCTCTTTAACCTCTCAATCTTTATCAGACAACTCTCTGAGCTGTCCCTTTCTCTCTACCTCACTTCCTCTAGAAACCTGACTCCAACAAGCTTT
GATCACACTGGTACTTGGAAGCCATTTTACCACTTAAAACAAAACAAAATAAAACAAGAGCTTTTTATTACGAGCAGTTCCAAATATGTCCTAAAGTAGA
TGCTCTTCTTTCTACCTACCTACCCATCTGCCTATCTTTTTCCCTACTTGTTTTTTTGCTCACTTCATCATCTTTTCGCTGTCACTCACTTTCCCTTTAC
CTTATATTTCATTTACATTTATCATTAGATTCACTTCCAACTATCACTCCCTTCCACACATCCTCAACTCCCTTGCTTCATCTTGCATTTGGTACAGTAC
TGAAAGAATCCTAAACTTTATTGAATCCATTCTGCCTGGTCTCACTTCAAAATCTTGACCCTCTAATCTCCCATGGACCGTCAGTACTATTCAGAGAGCC
TATTACATATTTCTAGTCCATTCACTCTCTCACACTTCGGATGGCTATTTTGTACCTTTTCCTCTCTCCTAAACCTCTAGCTCCCACTACTACATTGACC
TACTCACCTATGACCTACATAATTTGCCCTCACTTTTGTTTCTGTGGATGAAATTTGCCTGATTCTCAGGCCAACTCCTTCACTTGTGTGCTCCAGCAAT
AATTCTCTCATCCATTTTTTTTTGCATCGTTCATGTTCCTTCTGTATTGTTTAATCTCCACCAGCATACAGACATACTATACATTCTCCTATCTTAAAAA
CAAACAGCAAAATAAAACCCTTAACGTCCTCCTTCAAGCTACTGTTCCATTGCTGTTTACTTTACAGCAAAATTGTTCTAGAGTTATCCAAATTTGCGGT
CTCTAATTCCCCTTCTCCCATTTGCAATCCATCCTAATCAAGCTTTCTCCTACAACACTGCTGAAACTGCCCTTGTCAAGGTTACAAAGATCTCATTGCT
AAATTCAATGGTTACATCTCAGTGGTCATTTCACTTGGCATAGCATTAAATATAAGCAACAATTCCTTTGTCCCTGAAACATGTTTTTCAATTGGCTTTG
AGGACACCATTTTCTTATTTTATTTTTTTCTGCGCTCATTGGCTTCTTCTTAGTCTCCTCTTTTGGTTTCATCTCTCCTCCTTATCTTTAAGCTTTTTAT
TGCCCCAAGACTCAGTCTTTGAGTCTCTTTACCCTTTAAAATTAATTTGTTGAGGAGTTAATTCAGTCTTATGTCTTTAAAAAACAACTTCCAGATTATT
ATCTCTAGCCCAGTACTTTCTCCTGAACTCTAAACTCATACATGCAATTAATTATATTTATAGCCTTTCCCATTTCAGTAAATGGAAACTCCATCCTTCT
GCTTGCAGAGGCAAAAAAAAAAAAAGCAAAAAACAAAAAACACACACAAAAAAAGTGATGATGTTTGACTACTCTATCATACTTTACTCTTATATACCAG
CAAATTATATTGATACTACCATTCAGTATCTGAATGATCAAGTAGCTTATATTAGATCAACCCTCCTACAGAAAACAACGAGAAACTCTGGACAAAATGT
AAATGACAGCTACCTGAAGGCACTGGAAAGTTAATAAAAGCAAGTAGATCCTGGAGGGGAGTGAGTCACTTAGAAGAAAGGAACTAGTATATTTCCCACC
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTATAGCATTTAGCCTGAGGGTAGACCACTTCTGCATTTTAGGAAACAATTAA
AATTCTGATGGTTTGCTTGTTTGAAGGAACAGAGGACAGAATTCAGGGCAACTGGAGTGTATTAGTTATTGTTTTATAACAAATTACCATAAACCTAGTG
ATTTAAAACAATGTTCATTTTTTATCTCAGTTTCCACTGGTCAGGAGTCCAGTATAGATTAGCCGGGTCCTTTGCTCAGAGTTTCACTAGGCTGAAATCA
AGGAGTCAGCAGGCACTGTGATTCTCATCTGAGGCTCAAGGCCTCTTTTAAGCGCATTGGTTGTTGGCAGTACTGATTTCTTTGTGGTTGTATGACACAT
GTCTGTTTTCTTGCCATCTGTTGCCCAGAAATGACTCTCAAATTCTAGAGGATGCCTACAGCTGCTTGCCAAATAGGCAGTTCACAACATGGCTATTTGC
TTTTTTCCTAACCGGCAAGGGCACATGCCTGACTTCCACTCTGTGACCAGCTGTAAAACTTATTCTGCTTTTGAAGGGCTCACCCAGTTAGGTCAGACCC
ACTTGGGATAATCTTCCTTTAGTCATATGATGAAACATAATCATGGGAGTAATATCTCATCATATTCACAGGTTCTGCCCACACTGAAGGACAGGGTATT
CTACATGGCATGTACACCAGGGGACAGGAATCTTGCAGGTCATGTTAGAATCCTGCTTATCACAAATACGCAGTAGAGAATGAGAGGAGATCCTGGAAAA
AGCCCTGGAGTCTGTGTGTAAATTCTACCTCAATCTCTGGTTTGCCCCTGAACCACACATCCATGAGGCCGACTAACCGGCCAGGTAGGACTAAAATAAA
TGAACTGAGATTAGATCTGCTGCCCCATGCAGGGCATTGTTCTTACTGTTTTCTCAGACTGGAATTACCTAATGCTTATTCTCTGCCCATGGAAATTCAC
TGTACTCTGCAAGGCCCAACTCAAGAGCTACATCCTTCTTAAAGCATCCAAGTTATTCCACAAAGTAATTATTCACTTGCATTTAGATTTACTTCGTTTC
TCCTTGTGTTATAGATAGGTATTTACATGTCTATCACTAGCTAGAAAGTTCTTTGATACAATGGTTTATTTACTCTTAGACACCTAGCACATTCCATCAG
ACAGGTTAAATGAGCTCAAATTTGTTAAATTAAATTGCATCATTATGATAAAAAATCATCTGGAATATGCTTACCTCTCATCCTTCTCTACACCACATCA
TCCCTTCCTTGTATTACTACAATTGCCTCCTATTTTTGCTACTTATGTTCTTTGCTTATCTAAAAGTAGTTCCCAACTCAGTAGTTAAAATGATCTTTAA
AAATAGACATCAGACCAAGTAATGCCACTCACTATAGCCTCCAATTACTTCCCATGTTATTTGGGTTAAAACGCTATGTCTTTGCATTCATCTCTAAGGT
ATACAACAACCTGCTCCTATGATTCTGTGCCCTACTCTTCCTCTTACACACTCCACTCTGGTCATCACACCAACCTCCTCATGCCCTTGAGAACTTTGCA
TTGGATCCTCTCCACCATGACACACTAATGCCTTCACCTTCTCCAGCTTATTGTTCAAATGTTGTTTTATCAGAGAGATTTTCCTTGTTTGCCATATTTA
GAGCCCTCGAGTCAATGCGATCTTCTCCTTTTCTTGTTTTATTTATTCTAGAGCATTTATCACCATATGACTTAATACATATTTTATATTATTTGTTTAT
TGTTTATATCCTTTTATAGAAAGTACACTTCACAAGGGCAGGTGCTTGTCAGCCCCTGCTCTATGCCCAGTACTGTGAGCAGTGCCTAGCATGCAGAAGG
TGATCTACAAATGCTTGTTGAACAAATGATAGAATTAATCATTTTATGTTTTTTCTACATTTTATTTTGTTCTCAAACTATCTTATTATATAGGTAGAGG
GTTTTATTATAATTTGCTCCTTGTTTTTTTTTTTTTAATCAACCAGGGAAGATATTATAAATGAATTGTCTTTTTTGAACATAAAATTCAAATGATGTTA
AATATTTCACTGGGGGGTTGAGAAAGCTTTAAAATAAAGGTAAAGTTTAACATTTACTAAACACTTAGAGTACCCATTTAACTCTTATAATACTCTGTAC
TGTAGACATTTATTATTTCTATTTTACACATGAAAAAGCAAAAAATAAAAAGAAATATTTTTTTCTAAGATAATATAGTCAGTAAAAACAGAGCTGAATT
CAAAGCTAAGTAGAGCTTGTGAGCTTAATCTTGACATCATACTCACTCCCTAGGTGTGGCATTTAAATCTATAAGGAGTAAGAATTTAGTTGTAATCATG
TAAGACTCAGTGTCTGAGATTAGCTTTGCATACTAGAAGAAACACTGGATTGAAAGTTAAAAGACTTGGTTAAATACCTACCCGCTATGTGATTTAGGAT
GGTTTGCTAACCATCCTGAGCTGTTTCTTTAGTCTCCAATTGGGTTGCAGAATTAAAAGAACTAAGTAAGATAATGTTTGGTGAAAGCACTACAAACTAT
ACATTGTTTTGCAAAGTAACTTAATTTTTTCAAAATACTAATAAATATGCCCTGGATGTGAGCTCTCTGAATTTATAGTCAAATGCTTTAACATTTCAGT
TTAAATTCTATGCAAATTAAGGAATGTAGTTATTTACCTGGCATCTTAAGAGAACACCAAGATGCTCATTGAACAGTAGAAATTACCAAAATGCCTCATG
ACCTGTATGTACAGAAATAATGGACAGTGAATGCCAACATTATGATATACATTGCCCTCTACTTTCCTTTCAGGTGGATGGCTGGTACTCTTTGCCATCA
TGTTGCGGTTGGTGGCAGCTTGCCCTGAGTCATGTGTGGTGTGCACCAAAGATGTAACCCTCTGTCACCAGCTAACCTATATAGTAGGTAATAAAACTAA
TAACTCTAAAAAGCAGTGCTCAGTGTACCTGGAAAATTGGTTGCCATACCTTTCATTGTACTGACTGTTCTCTGGGCTCAGCTTAAGAGGTAACCCTTTA
ATGAGTACACTTCATACAATGACTAAAGAGACTGGCAATATTTTATTTTCCTGTTCCTGATGGTCTCAATCAAAACTAYTTAAAGACCTTCARAGGTAAC
TGAGTTATTTTGCTATTGCAAAAGAATATCACCATTTTATCCAGCTACACACTTAACAAATATATCACTTTAATATCTTTGTACATACTTTGTGCAGATT
TGAACYCTACCACCAGCTGGAAGAAATATCAATGAATCAGAAACCTGAACTGCAATTGTTCAGCATTAGTAAGATTAAGTGATGTACCAGTGAAACAGAT
TATTATCAAAGTGCGTCTCATTTTGAAAGTCTGGTCTTTTTTTATTGGTGGTAAATGAGCTGTAGAAATGCTAACAAGATACACTGCCTGTATTCATTAC
ATATTGCTTGCTTAAGTCAACAATTTAATAAGACACCTTATTAACAAATTTGAGGAGAATGTGATTTACATCCTGATATCCAAGAAGAGATAAACAAGCT
ATAAGCTCTGCCAATGGAAAATTTCCATAAACAAGCTTGAGTTACGACAGAGTGGAAGAGGATAATTTCTTCCATTTCTAATATCCCACGACTCTGATAA
TTAGGAGGTAGATGTTGTCACCATCCTTGACAGGACAGAGAGGTTTTCATGGATAGTTGATGTGTATATCGTTTCTAATCAGTATTGAAAATGCTTTAAC
ACTAAACTCTCACCATCTAAAATGGATTTCTTGACTTCACTACATTTATTTTTCCTGATCAGAGACAGTTGATGTCTGTAAGAAACAAATATTTCTCATC
TACATTGTTGCATCTCTATATCCCCCTTCTCATTTACAGAACACCATATTTGTGAAGTTAGATTTCATAAATACAGAGAATAAAATGGATGAATTGTGAG
TGGGGTTTCTGTCTAGACCTAGACAAGAAGTAATTGACAGAAATAATAGCCTGCTCATTCAGAGTCAGTAAATCCCTAAAGGACTGGGGACCCATGAAAA
CAAACCTCCTTCATCCCATATCTAAAACAATGATGAGAGAAACAAAATGCCGAACTGGCCAGAATTAATAGAATCCAAATAATCAATCATAAATGCTGAA
AAAATCACCAGGATTTAAGCTTGCTTGTGCTGCAGGGATGAGAACAGTTCTTCCAAAAGAAGGCACTCTGAGAATCTTTTGTCTTTTACGTATTTTTTAA
TCTCTTTGTTTCCGCGATGCAGTCTGAATTTCCTAAGGGATTTGTGATTTGCTTCCCTGGGGTTGACTATTCTAATATCACCTATAGACCTCCCAGTGAC
AATGGACTCCTCTATCCTTATGACACTGTCATTTGCAGTCAAAACAATGTTAGCATGATAAAGATGTGTTACAATGACTCCTGATTATAATACTTCTTTA
TTGAGTTAAAATGCTTTGATTTSTAATGACAGAGCAGTGATAGCTCTGAGGTGATTATGGTGAAGGGATTTAACAGTTGGAAGCCCTGAGTACCACCTGT
CATCACATGATGGACTTCATTGGAGGGAACAGATATTAGACAGGAGGCCAAGATGGCCCAGACTATAATGAGAACCCCACTGACAGGTACTTGGGTTGTC
TGGATTGAATATATATCCTTACCAAGTTGCCAACTTTTAGCCTGGGGCTAGAAAGCAGAAATCAATGCTCCTTCTCACTCTCCCCATCCCAACTCGCACC
TTTACTTTTGGGAGAAAAGATGATTGACTTCACAGCATAAATACACATTGCTATGGAACACTGACTATGGGGGTCAGACACAGGCTCAGCTCTTAGTTGA
TTCTGTCCTGGATCTGCAGGGCTAGATCAGGTCAGTACATAGCCTCGGAGGGAGGGCCTGAAAAGACACCTTCAAAATAACATCGATGAAGATAATCCGA
AACAATGAATTAACTTTGACATCTAAAGTAACAGATGGGTTTATGTTTCTCAAACAAACATGTCACAGCAGCAAAGAATATAAAAATCCATCATTTTGAT
ATATAGCCAGCTTCCCCTCAAATTTGGAAATCAGAAAATCATTTTCATTTTTTGTATTGTTTATTGTTTTTACCCAGGTGATAAGATTGCTCAGAGGATA
TTGATTCTCTGCTCTCCACCATACCCCCTCCCTCCCACTCATGTGTACCCTGCATCTAGTCTGTGCTTTTTTCCCCACAGCAGCCCCTATGACCACGAGG
GTTTTAATCATCACCGATGGATATCTCTCCTCTATTGAGAGCACAAACCTGTCTCTCTTGTTTAATCTTGCCCTGCTCTCCCTAAGCAGAAATGGTATCG
AGGATGTTCAGGAAGATGCCCTGCATGGSCTTACGATGTTGCGGACCTTGTTGCTGGAGCACAACCAAATATCCAGCTCTTCGCTCACTGATCACACCTT
CAGCAAGCTTCACAGCCTGCAGGTACTGGTGCTGAGCAATAATGCTCTCCGCACCCTACRAGGGTCTTGGTTCCGAAACACAAGCGGCCTGACCCGGCTC
CAGCTGGATGGGAATCAGATTACTAATCTCACAGACAGTTCTTTCGGAGGCASGAATCTCCACAGTCTCAGGTATCTGGATTTATCCAACAATTTTATTT
CCTACATTGGGAAAGATGCCTTCCGGCCCCTGCCTCAACTACAGGAAGTGGACCTTTCCYGAAATAGGTTAGCCCACATGCCGGATGTGTTTACTCCACT
GAAGCAGTTAATCCTTCTGAGYTTAGATAAGAACCAGTGGAGCTGCACTTGTGATCTCCATCCCCTTGCTCGGTTTTTAAGAAACTACATTAAGTCTTCT
GCTCACACGCTCAGGAATGCCAAGGACCTAAATTGCCAGCCATCTACCGCAGCTGTGGCAGCTGCACAGAGTGTGCTGAGGCTGTCTGAGACCAACTGTG
ATTCCAAAGCTCCCAACTTCACTCTGGTTCTAAAGGACAGAAGTCCCCTCCTCCCAGGACCAGATGTGGCCCTGCTGACTGTCCTTGGCTTCGCAGGTAT
GCCGGGGAGAAGTGTGCCCTCCTCTTTTCTCTTCTCTTGTCCATATTTTTGCAGCATGCTAAGTGATGCTTATCTCAGACACTTGGTTGCCAGGGCTATG
GAAAGGAGAGGTTGCCAGTAGATGTGGGAGGATATTAGCTGATTTGGCACAGGTTGCAAGAATTTCCTGTTTCAGGGAAGCTGTCTAACATAGAGGAAAG
GGCCCTGGACCAGAATTCAAGGGCTCCAGCCCTGGTATAAATAGCATTGGTGACCTTGAACAGGTTAACCTGCTATTTAGACTTTAGTTTCCTTGTGTAT
AAYACAGGAATAATATCTATATTTCATCAATCATCCTTTCACCAAAGAGTACTAGTGCATTTGTTATGACACTAGGAGATAGATATTTAAAAACTGATGG
GACATAGACTCTTTCCTCAAGGCACTTACATTTGTRTGCTTCTCCATGGTGTATAGTAAGAGTCAGAGGGCTTTCACAGATGGACGAAGAGATGCTATTA
TGGCAATCTCATATATCTTAGTCTGCAGTGTTTGTATGGCATAGTAGTTAAATAAATGAGCTCTGTAGTTGGATTACCTAGGTTTGAATCCTGGCTCTGC
TATTAGCTGTGTGACTTTGGATGCATTATCTAACTTCTCTGTGCCTTGGTTTTCCTCCTGTTGGGTGGTTTTGAATTCTTCTAAGATTTCTGTTTGTCCA
ACTCTATGTAAACTTGGCCCATACTTCCCCAGACCAACTAAGGGGAGGATAATATGCAATTCTTTATATATTTTTTGTAATTTAAAATTTATGAAACTAT
GCATCAGCTATCATTACATCTCACTGGATGAATAATATAAAATGACACTTAGTGTCATTAGTTGAAGACCAAAGATGCATGAGATTTCTTAAGTTATCTA
GCTCGATGTGTGTGTTTTCCTCTATGCTCTCAGTGCATGGTGAAATCCTCTGCACCTGTGGGTAACCATGGTGATGAGGGGGTGGGGAGAGAAAGAGAGA
GAGACCAGAGACCAACAAATGGCATCCAAGACTGACGTATTTTAAATATGTGCTATAAATCATTATTCTGTAACAGTTATCTAGTGAATTAATTGATTGT
ATTTTTACTTCCTGACAATTACACTTTTAATCAGAATAGATGGAGACCAGCATCAGGTATAGACAATGGAACTACCATCAGCAGTAATCCAACTCACTTG
GAAGGAAATTCAAATGTTAGGAAAATAAATTCTTTTAAAAACCATGTAACTATGTCAGTAATTGTATGTGCTAAGAAATAATTTACCATAAAAGACATAA
GTGATAGGGCAGCAGAGAGGTTTCCCTTAAATGTGCTTCTTAGAATACTAGCACTGGTGGATAATTAATAGATATCCCAATAAAAACACACAGATGCACG
CATAGGCAATAGATGGTGGGGTTCACATAGGTTTAGAAGGTACTAAGTTAAGCAAAGTGAAACAGGTATACTCACTGCAGCACTTCTCGTAACCTTTCAT
TTTCTAATAAGCACTATAAATTTCTAAGAAGAAGGTGTGATATGGAGCATTTCTTGAACTTATTTGGCCATGATCCCTTTTTTTCATAGAGGATTTCATT
GAATTTGTGTTCTAGAGGACATCGTTTTGGAAATATTATAATAGAGCAATTTTTAGTATCTTTTAGTTACTTTTACATCTGTTTTCAGAAATATGTATTC
AGAAATATATTTAGCTACATTAACAGTTCTTTATTAGTATTGAGATGAATACAAATTCTAGAAGATTCCAAAAGTTTTGTCAAAATGACTGGGAGCTTAA
TATACATGAATAAATTCTGATAAATTATAAATATGATTACATATATGTTAAGTTTTGGTGTGAATTATCATACTAATATATCTTTCATCAAATAATTGTT
AAATTGTAGTGCTTTGAGAAGAGATTCTTCTTTAAAAAGACTCTGATTTTTGATGTTAATTTGCTCCATTAAGATTCCACTCTTTCTGAAGCACACGTGT
GGTGAGTTATCTATACTTCTAGATTGTGGGAAAAACACTTAGAACTATAATTTTGCCTATGAGACCATTTTCTTCTTCAGCTATATCTAAGTCATAAAAA
TTCCAAAGAACATAAATAGCTATATTTGTAAATTTAAAACTAATAAATGGTTATTTGGCATCAAACACTAATATCTTGACACTTACACTATGAACTGGTA
GAYAAAAAGTTTTTATGAAGCTGTAATGTGTTTCTAATGTTTCAATAAGAACTTATCATTAATTTTCCCTTTTTCTCTTGCCAACACAGRTAGATTGTTA
GAACACTTTTTAAAAATAGAAACAATGCCCATGGCAAAGAAAATTCAAACGTCTTCTTAATAGCACAYTCCGCCTGCCTACAAGCTTCATTTGCTGCTTT
TGCTTTCTGCACTAATGGAAAGTGACCATACCTGACTGGTAATGGGATACAGATATATACCTAGTATCAAGAGCAGGGGAGTGAGTGGGTCCCTGCCATT
CAGACACAATTAGAGGAGAAACTGTATCCTATAATCAAATTATGTTTACTCTCATTTCAGTGGCTGATTCTTGTCTTAAAGAAAACTTAGCCCTTTTGTT
CCTTCATTATTTGGTCTACTAACTGCACTAGTCATTTAAAATATCATCATAATGATTTATTTTTTGGATTTTTTTGTTCCTGACAGGTGAGTCTTCCAGG
AACCAATAGAGCAATGCAAAACCTAAACAATGGTAGCTCAGTAATAATAATCACAAATCACAATGAACATTCACTGAATCAAAGCACTGTATTAAACATG
TCACATATATTATTTAATCCCTGGGTAGTATTAGTTATCCTCATTTGTGAAAGGAGAAAAAAAATAAGTGTTAGAGGAATTAGAAAATACCCAAGAAAAG
TGTCAGAATATAGCTTTGAATCTTGAGTTTTCTTACCCATATGAGTTAAAGAGTGGTTCTAATTTTTAATTTTTTAATATATTCTTTAACATTTTAAAAC
CAAAATCCTTGTTTGGGATAATTCAAACTCTAGAATCTATCTGTCAATAAAAGGATTATTATTTACATAATTTTGCTACAACTTTAAAAATGTGCCTTTA
ATAGAGATTGCTTCAATATGTTATAGCACTTTCCAAGAGTGTATTGTTGGCAAATGAATTMAAATAGATTTAAGAGTTCAAGATATGGTAAACTATACAA
TGGTATGAGGATTTTACCAGAAACTGCTATTCTCCATGTTTGCTCTTCATCTTTAACAGAAAAAAAAGAAACAATYATGACCTGATACCCTCCCTTTTCA
TTTAAGTTTTAAAAATATGTTTTCATTAATATTGTCTCCAGTGGATAAAACTAGACATGGTGTAGCCAGTCAAAGAATCTGGAATGCTGTCTTTATTTCC
AGAAAAGGGCACTGTCCTCAGGCAGATGTGGGTTTAGGGCACAGATCTCTTTATTCAATCTGTACTGACACCATATCTTCCTAATCACATCTTGAGAATT
TATAAGATTAGATCACCAATGATTTCATTATCAGAATTCATAAACAGAATCCCTTCTGTTGATTTAAGAATATTTAATAAATATTTCTGCCTCCTTTGTC
TCAGAGTTGTGGACACTGGGGATAGAATGTTGAACAGGAMTAAAAGGATGTGTTGCCTCACAGTGCTCAGTTGTAGCAGAGGAGGACAGTCTGCGAACAA
GCATATGAATGAATAAACAGAATAATACACCTCATAAGGGTGAAAAAACAAGGGAAATCATTGTGATAGACAGATAATGAGGATATGACTCAGGGACATT
GGTTTGAACATTTAGGTGGTTGAGGATGCCATTTGTCAAGACAGGAAAAAGTGAAATAGAAACAGGTTAGAGTCGGCACATGGGTTTGAGAAACACTGGA
TCTTGCAATTTTATTCAGAGGACAAACTACATAGAACATGAAATGACAGTACCAGGCAGTCTGAGATTAGAAGTCATTCACTCTATTATGAGAGTTCATA
AAAGGAGGTGACGTAGACCGAAAAAATAATGTTACTGCAGGAACTGTTTTATCTTAAATGAGTTTCAGTTCATGAAACAGCCTTTTTTTCTACCAAAGAG
ATTCCAGATGGTGTTGTTTCTTATAATTTTTAATAGGTATAAAGATCCAAATTGGAAAGCAGAACAATGTCAATGGTAGCCTCTGTCTGGACTGATATTT
TTCCAAATGGTGAAGGACTTCCTACCCATTCTGATATCTTTCAAGCCATTAACCTTTATATTTGTGGTTTTTACATTTGATGATTTATGTGTTTCTTCCC
AAGATGTTATCTTTTAATGGTCTCTCTATTTGTCATAGGAGCTGTTGGTCTCACTTGCCTAGGTTTAGTTGTATTTAACTGGAAACTCCACCAAGGCAAA
GCAAATGAACACACATCAGAAAACCTTTGTTGCAGAACCTTCGATGAACCCCTGTGTGCTCATGAGGCAAGAAATTACCACACTAAGGGATACTGCAACT
GCCACTTAACTCAGGAAAACGAGATAAAGGTCATGTCCAYTGTGGGGTCCAGAAAAGAAATGCCACTTTTACAGGAAAATAGCCATCAAGYAACATCGGC
CTCTGAGTCTGCAACCCTTGACRGATCATTTAKAAACCTGAAAAAGAAAGACCGTGGGGTAGGCAGCACTTTATTTTGCCAGGATGGTAGATTGCTGCAT
TCGGAATGTTCAGAGCCTCCTGGAAATATGASAGCTTTTAATGAAGCAGGCTTACTTACAACATATAATCCAAGGAAAGTTCAAAAGCTATGGAATCTTG
AGCCTGGAGAAGTCCAGCCTCAAACTCTGCAACACCATATAATAAGAACAGAAGGTGAGTTTGTCTTGTTTTAGAARATCCCACTCCGTTTAATTCTTTT
TGAAGGAGGGAGCCTCCCTCCTTTAATTTCCTCAACAGGAAATACTATAAAAATCACTATAGCACTAGTCTATTCCTTTTCTAAAAATACTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGGCTGAGGTGGAGATGAAGTGTTCTTACTTTTAGGAGCTGACAGTGCATCTCCTGACTGCTAAAAGTA
AATTTTGAGGCCCAACACCTAACAATGTTAAAAAAAGAAAAAAGTAGCCTTTTAAATAGCAATAGTGCTGTTAAGATCTATGGGATAGCTAGTATCAGCT
TTTATTCCAACATCCTTCGAGCTCTAATGCCAATTCTGCAGTAAGCAACCTTCCCAGAGCATGACATGTTAGAAGAATGGGCCCTCTAATGCTAGTGATT
CATTTCAGGAATGATGTCAAGAAACGTACTTTGCTTGCTGAGCTGTCAGGGATGATAACTTCCCAGTCCAGGGAAAGTCAGGACTTAATTCATTGTCCCA
CACTGGGAGCCAAGTGAATCTGGCCGTGACATCTACCCACTGTACATGGGCGATGTCAATATTTAGGTGAAGGCAATGAATTAAACGTCTTCCTTTTTCT
TCCTGAATAGTAAGGCTACGCATTCAGGCTCAGCAGTGAAAATGTTGACAGCTGCTCTGTAAAGAGGTTCCTGTCATTTATTTGAATTGGTTCACAACAA
GCAGAGCTTTCTCTAAGAGTATGAATGACAGAGGTGCTGTATCAAGAAATTCTTACCACAGGGGTCTGGCCCTAAGGATGCATTTTGGGGCGACTGGATA
AGAATAAAACCATATGTTATTTCACGTATGTTATAAGGTAGGATGTGAGTTTATTCCATTGCATTCCCACACTCCAGTTCTTACCAGTGTCTGGGGGTTG
ATGATTTCACACAACAGAGGGATGGCTGAGGAAAGAAACATATGCCATAGAAACCAGGTCAGACTGGCTTTATTTTATAAAGAAATAAGCACTTACCCTT
TCATTAGAATCATACCTTAGGCAGATCTTTCATTTCATCTTTTAACTTTGTCCAATGCCTGAACTTCTCTGTGGGAAACTCCTATAACTGAAGGGGATGT
GCTCTTTTAACCATTTAAAACCCAGTCTGTTGTTTTCACACTGAGAACACTGGTTTGTCAGATTAACATGAATACTTTTAAGAAATACCAGAAATTCTGC
TCTATGCCAGGCATTGTACCAGAACTAGAGAGGGCAGGTATTTGAGGAGAAAACAGCCAAGGTCACATCTGCTCCAGAACAGAAATCGGTAAAGAAAAAT
TGCCACTCTGATTATGCCTTCTGACTTGGAAAAAGAATTATAGACTTTCCAGTGTAGAGAGKACTTTAGATCTAGACTAATAGTYCTTAATGTTTATCTT
TGAGTCACAGAACTCTCTGAGACTCTGACAAAGGCTACAGATTCTTTCCCCAACATAATTTGTTTACTTACATAAAGCTCCCATCTAGTCCAACCTTCCA
ATACACAGCGAACAAGCAGCTTCTCCAAGGTCACCCAGAATGTTGACGGCAGATCTTAGATTGGAATTAGATGCTAGTCTGGAACTTAGTTTACCTCTTG
GGGAAAATTGGAGATGGAGTATCCCCACCCTTAGGAGCTGAGAGTACATCTCCTGTCTACTAAAAGTTAATTTTGAGGCCTAACACCTAACAATGTTAAA
AATGAAAAAAAAAAATAGCCTTTTAAATAGCAATAGTGCTGTTAGGATTTTTTGCGGTTAAGATGTTTTGCAGTTAAGATTTCCTTTTTTCTCATGGAAT
AAAAAACTTCTTCCTCTGGATGAAAAAATTTCATGAAACAATAGAAAGTATACTAATAAATAATTTTAAATTTTAGATGCATTGTGGTTAAGACAATAGG
GTCGTTTAATGTCAGATAGACTTGGGTTCAATTCTTGGTTTCAACACTTAGCTGATGTGTGACTACGGGAAAGCATTCAACTTCTTTAAAGCTCATTCCT
TCATCTGTAAAAGTTATAAGACAGTAGGATCTGTCCAATGGATCAYGTCTCTTGTGAATATTAAAAGAGATGATGAACGTACATTATGAGCACAATGCCT
AGCTCTTAGCATGTGCTCAATTAATGGTATTACTATTATTTTTGTCATTAATATTATTTAATGTGTAAAAGGAGATTAGAGGCAGACATTAAGAAGAAGC
CAGTACAAGTTTCCTTCTTCCACATGTGCCTATAGGGCTGTAGATATGGTCTGTCCCCAAACAGTCAAAGGAAGCTTCCTTTCTGAATGGTTCATCATGT
ACTATTTTCCTTTAGTAAATGAAAGATTGTAACATGAAGAGGAATTTGCAGGCAGACATTTAAAAGAAGCTAGCAGAAGAAGTTATAAGATTAATAAGAT
TAAATATTATATTAATCTGTACCATTTTAAAAGTCCCAGGTAAAGACTGCTGCCACACAAACCTGGCTATATTTCAAAATACCTATTTATTTAACAAATA
TTTAATGAACATTTTATTAAGTTATGGGAAATAAAACAGATATGGTCTCTGCTTTCATTGAGTCAATAGTATTGCAAGTATTTCCCTTTCATTGTCAAAT
TATTATCTTATTATTGATTATCTGAAACCTGAACATTACTCAATATTGCACCCATGTTCTGCCCAATATTTAAGTTGCAAATGGGAAATGAATTCAGGAA
AAAATTACTATAGCCATTTACAAAGGATTTACATACTATTCATATTTAAAGCTAACCTAACCAACAACTAAAGATATATGACTATAAATAACATTTATAT
TTCTAACTCCACAACTTTTAAGTCAGCATCGCAACTGACTGCAGTGTGACCATAAAGAGTGTCATTGCAAAACATATGGGACTGACAAATGTCCTTTGTA
GGTTTGGTTACAAATTAGGAAATAGTGAAGAACTGCAATTATCAGAGGAGTCAGTTTTATACTTTTCATAAGGTTTCTACGCATCTGTTTGGTTGGGGTA
ATAAAACTCTGCTAAGTGCTAAATTCTTGCATTTATTGTTCCACAGATATCAGCAGTGACATATTTAGAAGAAGATATGCAACAMCCGCTTCAGCCTTGG
CAGRAGAAAGTCTTGAGAAGCGTTTAACAAATGAATCATGGCAGCCTCCAATAGAAAAAGAAGACAATGGCTTACACCCTCACAGGCAAAGACATTTTAT
TACAAGCTCATCATCCAAGCCTTGTGAGCCTGAGGAACACTATGTACAAAATATCGTACAAAAAAATAGATCAAAATATGATGATCCTTGTGGACTGTTA
AAACAGAGCAAACCTAGGTATTTTCAGCCAAACAATTCTCTTATCTGTAAATATGTGCCCTGTGAGCAATTTGAAGATTACATGAAAGAAAAGAAGCCAA
ATCGTAGACAACACTCAAAGCCTGAGAAAGAGCAAATCCAAATTAACAGTGCAATAGAAAAATTTCTTATGAGTGAGGACAACATAGATTTATCAGGATT
ATCAACAAAAACCAAGAAAGCATATTCCCCAAAGAGGGTTATCTTCCATGATCCTGATTTAGTAGAAATAAATAGGTCGATGATGTCACCCAAAATATCA
ACCCCTTGGAAACGACAGAAAAATCAAAGTAACCAACTGACTAAGTTGGATGTTAAAAAATTTAGCAACACTGGGGAGAGAAACAAAGGAGAAAAATGGT
TTACTAATTCATGGGTTCTGAAAAGGAAGAGAACCCCTCAGTCTGACCTCAAAGGGAAAATTAAAGGACAAAACTTAAAATTAAATTTACATCCTTTTAG
AAAAGTCAGAGTCCATCCAGAAAAATCCTTGTCAAGTCTCCCAAAGCAATGCAAGCAGGTATTGTTGCCTCCTAAGAAATTATCCAAAACTTCTGAGACA
GAAGCCAAAATAAATACTGTGTGTTCTGCAGATTTTCTTCAACAGTCAGAGAGTAGCAACTATGTTAGACTCACTTCAAAGAGGCTGCCTCTGAAACATG
ACTCAAAGCAGACCCCATATTATCAACGAAACACTAAACGTGCCCCCCTGCTCAGTGCTAACAACTTGCGTGTAGTCAACCAGAGCTCTATAGAAAGCAG
CTGTTACTCAGCTGGCCACATTCCTGATGGAAACACATCAAAATTGCCCCAACCTACACCCACTGATGCTGAGCACAGGCACTCACATTCTCAATTCTCA
ACTGAGCAAATGGAAGATGCAACTCAGCTTGAATCAAAAGTGCTTAGTTATTTAGCAACTACTTGGGAAAATACAGGAAGTGATGTTTTACCATTCCAAC
ATTCCAGGAGGGCTACTGACCAAGGGACAACGGAGTCCACTGAGCACATGGGACAGAATGTATCAAAGACCAGTGAGTTAAATCAGTTTTCTTTGTCCCC
GAGGAATCAAACACAACTTTTAGATGCTCACAAGACTGACAGCTACAACAAGGAATACACTTTAGACCAAAATGAAGGCTTACAACACAGAGAGCAAAAT
TCAAGTCATGCACAGCTTGAAAATAAAGAAAAAACATTAATGACAAAACCCCAAATATCACATCAAATTGTGGAAAATTGTATTATGGATAAGGAAGAAA
ATGATGTAGAAAAAAAACTTTCAAAAACAGAAACTTATGATTCCTCTCTCATTCCCCAAACACAATCCAAGAACAACCTATCATTTATGAAGACAAATTC
AATTCCATACCAAAATAGAATAGAACTTCCCAAGGATATCAGTACTTCTCCTGTTAGTAGTCAAGCCGTTTGGCACCTAACCAATAGTAGCGAAAAAGGA
ATTGACAGCACAAATGCATTGCCCAGAAATGACGGCACTGAAGCACTAGAGATAAAAATAGTAGGGAAAGAAGAGAAAAATATGCTTGATGAAAGCAAGA
CAGATTCTAGTATGTTAACTCAGATCTCACAAATGACCTTAAAAGGCATCACAAAAGAAAGGCAGCAAACTTGGGAAAATGGAACAAGTGAAAAATATAT
ATTACATGATGCAAGCTCTGCCGAGGAGACCATTACAGCTAAAGATTTAAGTATCACAAGTTCCCATGAAACCCAAAATAGAATACTTTGCAGTGAAGTA
GATCCTGAAGTTAACAGTAATGTACATAATTTTAGAGAAGTTCAAAATATTCAACCAGATAAAGATAGTGCACATAAAGAAGGCGCAATGACAGTGGAGA
CACATGAAGCGCTTTCCTTCTTACCAGGGTTAAAAGACAGTTTTGAGGCAGAAAATGAGGTGTTTTTAGTTCCTAGCAGAATAAATGAAGCTGAAAACTC
TGCTCCAAAACCTGTACTGTATCCACCATCTGCTGAATATGCTACTACATCACCTTTAGAAACAGAATAAAGTGAACAAAATAACTCAAATAATAATCCT
TTTCTACTTTAGCTTTCTTCAAGAGGACAAACACCCACTAGCCTTTGCATGCATTAGAAGTGGATCATTTTGGAGGACAACAACGTCCTCAGTAACTCTT
TGTTATCAATAAAATAAAACCAGAGTTGAATATATGACAAAAATCAAAGATGGAGTCATAGGATACGTCTGACACAATTAACTGAGTATGCTTCTCTAAG
GAATGAAAAAACAAGTAAGAAAAGTTTTGCCAAGTCTTGCAAAAGCAAGCAAACATTGAAAAAAAAAAGCCTTAAACAAATGAAAAACTACATAAGAAGA
GTATTTGAGCAGATTTACATTTGATGTTTATTTCATGTAAATTATTATACATATCTCAATTAGTGGTATTACAATATTGCTTTCTACATGGATAATTATA
TATTCATATTTGTGTTTGATCTGTTTTCCTAATTATAGTATGAAAATAAAAATTCAGCTTTGTTAACTGTAGTGTAACTGATATGCATATTGGTATGTTT
CATACATTTGCAATTGTCCTGTTGACAATCATCCTAGATTTAAGTAGAAGTCTTTAAAACTTGTTATTTCTCTAAGAGAAAAAAATTAAGGATTTCCAGG
GATAGTTGGCTGTTCCCATAAAGATCTGCAAAATCCTATATATCCACTAGGTGGAGATCTCAGCTTCAATCATTTTAGAAGAACAGGGCTTGAAGATCGA
CACAATGGATCCTGAACAAAAGGAATTTTAATGAGCTTTATTGCCAATTGTTATTAATTTAAGATTTTGAAAACTAAATAACCTATTAGTGCATAGCTTT
CAAGGTCTGATCTCTTGGGTTTCGCATGCCACTGTTGTTTGGAGTGAGAACTCCTCCTTATACACTGGAATTAAATGTGAATATAAATATTAAATTTAAA
AACAGTAACAGAACAAACATGTCTCATTCAAAGCCATGCTTATTTGAAAAATATAGATATATTCAAATAATTTAATTATTGAGACCACTGTAAAAAATAT
TTGAAGCATACCTTCACAATTTAGAATATTATAATATTTTACATTTTTTAGTAGGGGAACAAAAATGTTAAAAGGGAAACAAACTTCCTCTTCTCCTATC
TCTACACCTGTCTAGGTCTATACATCTTTATATCTGCATTTGGTAGAATAATAATAATAAATAAGCTTTATAAACCTTATAAGATTAGAACAACATAAAT
ATTGCCTACATACCCCGCCTCTTTTGTTTCCCTTCCTATTCAGAGTTGCTAGGAAATAACTTAAGTTTCTTATTTTGAAAATTCCTAAACTTCTTACCTC
TCTTCTTCATCTTTTCTCGCCAATATTCAAGACTTTATTGCTTTTAATCCTAATTCCTCTGGTATTTCTGTTCATTATCTCTGCTTGAGCTTAACTGCTA
TGCCACCTATCTGCCTTGCCTGACCCCACTTTATTTTTAAAGCACCTTTAAGGTGAGACGAGTATCTATGCCAACTTCTTGCATGATAAGTTTATTCCAC
CCTAATCGACAGTTTCTTCATCTTTGTAGACCAGGTCACTTTTTTTCTTGGTAGCTATCTTTCTTTTTCCTTTTTTTTTTTCTTCTTCTTTAAAGCGCTG
TCACCTTACTTCAGCACCTTTAGCTTTGTTCTCTCTGCTCTCACTGCCAAGAATATCCCTGATATCTAGAGGCCTAATGAGTACTCTTGGTCACTAACTG
ACTCTCAGGAGGCAGCAATCCTAGTTCTCCTGGTCTCTTTTCTCTCTTCCATTTCTGAAATCCAGTCTTTTACCTCTTTATGATGTTTCCTTTGAAATAG
TTCTCAGGTTTACCCTTGCCCTTGAATCTCCATGGTAACCATTGTAGTCTGTGTGTTGTAATCAACTGGATTACTCAAACAGCAGTCCAGCTGGCTGCTC
CAACTTCATTGTCTTTTGCTTGAGTTTCAACCCATTCATTTTTTATCTTTGTTGGGCACAAATCACCTGGGGCGCTTGTTAAATTGTGGAGTTTCAGGCT
CCATCTGAGAGATTTTAATTCAGTAAACTTAGATTAGGGCCCCAGAATCTTCATTTCAACAAACTTTCCAGGGTAATCTGGAATACATAGTTTGCAGCCC
ACATATTAAGAATCAATGCTTAGCTATTCCAATGAGCATTACAAGATAATTCAGTGTTTGCCTTACTGTAGGAACTACAATTTTTTTAAGTAAATAAATC
CTTTGTATCAAACTCAGATGAACTTCCTAAAAAATTACTTTTATCTTTTCACTCCTTTAGAGAAAAAAATATAATTGCCATAATTTCACGTCCAAATTTC
CTGTTCCAGTTTCCAAAATCTGTCACTATCTAGTATCAGGCTTTTTTCTACCTCTTACTGTTTTCCAACCTTCTCCCATCTTCAATAGACTATTCTTCTT
ACTCTCCTCAATGTTCTAGTTTATGAGTTTTGACTAAGAAGACATCCTGGAGAAAATACTGTGCTTCAAATTCAAGGAATGAAGTAAAGACAGATATGCA
AGAAAAAATGAGAAGCACAGTTCATAACCTAGAAAGTAATGACCAGAATAGCATGATGTTAGTGTCCTCCATCTAAAGATGAACTTGTTTCAAATAATGC
CTGATACAGAGATTTAACCTCTCCATGGCTACAATGTTGCAACTGCTACTAGTCTTTCCCTTGTATCTGTTCTCCTAATGAATTTTCATATGTTCTGGTT
GCTTAGACTGTTTTTCTTTCTCACCAAGCCGCCTTCTTTCAGAAAACTACTGTTTATGGCCTCAGCTCAAGTGTTACTCTTTTTGGGAAGCCTTCACTAA
CCTGCATTCTGTCTTTGTCCCCCAACTTGCGAGTAGTATTGTTTTAGTATATAGTCTCACAGAGTTTTGTCTTTCTTAACCTTGGCAGTTAACTATAGAA
TCATTAAAATGTTTATTCAATCAATCTCCATATAACTAGCAGGTCTTAAACTCCATTTAAGAGTTTACATCTCTATTGAATCCCTTTCCCCTATCCTAGG
AGGTATACAGTAGGAACTCAACAAATAATTGTTGAAGGAAAGAATGAAAAACAGCCCACTGTTCCCTTTTCTTTGCCACTCAGCTTGCTAACATGATGAA
GACCTTACTGGACAATTAAGAAAGACTCAAGTGAGTCACATACAGAAGCAGCTCAACTTCATTATCCTGAGGTGGTTACCAGAGCCAAGTCAGGCTCAAC
TGACTGGCAGACCCACATATCTCAAGCCAGCTGAAGACTTTGCTTTCCTAATATGCTTTTTCTTCATCTTCCCCTCTTCATCTCATCAGCAGAACAAAGA
CTCCGTGCTGACAAACTTCACTTCTTAACAGTACAACTTTTCTGCTAAGCAATCGATTTTTATCCTTTCTTTTTTTTAACAGTATCCTTTGGCCATATTC
CAATTTCTGTTTGTCATTTCCCAACTCTTTGCTTGAGACATCCATCCTACCCAAAAAATGCTTTTAGAACCTGCCAATGACCTATCTTTACATTGATATT
AGAAATTCCACATGCCTGTTATCTATAATTATGAAGAGACACTTCATCAAAGAAAAAGGGATTCCCTTGATTGTTATTTGATGGTAAACTTTGTCATAGT
GTGTCCAGAATTGGTGGGTTCTTGGTCTCGCTGACTTCAAGAATGAAGCCGCACACCCACGCAGTGAGTGTTACACTTCTTAAAGATGGCGTGTCCGGAG
TTTGTTCCTTCAGATGTTCAGATATGTCCGGAGTTTCTT


SNP Information

Context             (SEQ ID NO:15143):
ATGTCCATTGTGGGGTCCAGAAAAGAAATGCCACTTTTACAGGAAAATAGCCATCAAGCAACATCGGCCTCTGAGTCTGCAACCCTTGACAGATCATTTA
K
AAACCTGAAAAAGAAAGACCGTGGGGTAGGCAGCACTTTATTTTGCCAGGATGGTAGATTGCTGCATTCGGAATGTTCAGAGCCTCCTGGAAATATGAGA
Celera SNP ID:            hCV8909398
SNP Position Genomic:     13833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15144):
ATTTACATAATTTTGCTACAACTTTAAAAATGTGCCTTTAATAGAGATTGCTTCAATATGTTATAGCACTTTCCAAGAGTGTATTGTTGGCAAATGAATT
M
AAATAGATTTAAGAGTTCAAGATATGGTAAACTATACAATGGTATGAGGATTTTACCAGAAACTGCTATTCTCCATGTTTGCTCTTCATCTTTAACAGAA
Celera SNP ID:            hCV1079130
SNP Position Genomic:     12361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15145):
GATAAAGGTCATGTCCATTGTGGGGTCCAGAAAAGAAATGCCACTTTTACAGGAAAATAGCCATCAAGCAACATCGGCCTCTGAGTCTGCAACCCTTGAC
R
GATCATTTAGAAACCTGAAAAAGAAAGACCGTGGGGTAGGCAGCACTTTATTTTGCCAGGATGGTAGATTGCTGCATTCGGAATGTTCAGAGCCTCCTGG
Celera SNP ID:            hCV2332906
SNP Position Genomic:     13823
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,11)   caucasian(A,19|G,15)   total(A,38|G,26)
SNP Type:                 NONSENSE MUTATION;INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15146):
TATTTTGCTATTGCAAAAGAATATCACCATTTTATCCAGCTACACACTTAACAAATATATCACTTTAATATCTTTGTACATACTTTGTGCAGATTTGAAC
Y
CTACCACCAGCTGGAAGAAATATCAATGAATCAGAAACCTGAACTGCAATTGTTCAGCATTAGTAAGATTAAGTGATGTACCAGTGAAACAGATTATTAT
Celera SNP ID:            hCV3260550
SNP Position Genomic:     6406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15147):
CCCTGGACCAGAATTCAAGGGCTCCAGCCCTGGTATAAATAGCATTGGTGACCTTGAACAGGTTAACCTGCTATTTAGACTTTAGTTTCCTTGTGTATAA
Y
ACAGGAATAATATCTATATTTCATCAATCATCCTTTCACCAAAGAGTACTAGTGCATTTGTTATGACACTAGGAGATAGATATTTAAAAACTGATGGGAC
Celera SNP ID:            hCV1079131
SNP Position Genomic:     9503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15148):
TTCGATGAACCCCTGTGTGCTCATGAGGCAAGAAATTACCACACTAAGGGATACTGCAACTGCCACTTAACTCAGGAAAACGAGATAAAGGTCATGTCCA
Y
TGTGGGGTCCAGAAAAGAAATGCCACTTTTACAGGAAAATAGCCATCAAGCAACATCGGCCTCTGAGTCTGCAACCCTTGACAGATCATTTAGAAACCTG
Celera SNP ID:            hCV2332907
SNP Position Genomic:     13740
SNP Source:               Applera
Population(Allele,Count): african american(T,20)   caucasian(C,1|T,7)   total(C,1|T,27)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,25)   caucasian(C,8|T,14)   total(C,9|T,39)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15149):
CACAACCAAATATCCAGCTCTTCGCTCACTGATCACACCTTCAGCAAGCTTCACAGCCTGCAGGTACTGGTGCTGAGCAATAATGCTCTCCGCACCCTAC
R
AGGGTCTTGGTTCCGAAACACAAGCGGCCTGACCCGGCTCCAGCTGGATGGGAATCAGATTACTAATCTCACAGACAGTTCTTTCGGAGGCACGAATCTC
Celera SNP ID:            hCV25760722
SNP Position Genomic:     8660
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,21)   caucasian(A,1|G,27)   total(A,4|G,48)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15150):
ACCCTTTAATGAGTACACTTCATACAATGACTAAAGAGACTGGCAATATTTTATTTTCCTGTTCCTGATGGTCTCAATCAAAACTATTTAAAGACCTTCA
R
AGGTAACTGAGTTATTTTGCTATTGCAAAAGAATATCACCATTTTATCCAGCTACACACTTAACAAATATATCACTTTAATATCTTTGTACATACTTTGT
Celera SNP ID:            hCV3260551
SNP Position Genomic:     6293
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;(G,-|A,-)   Caucasian(G,34|A,50)   African-American(A,29|G,55)   Asians(G,21|A,63)   total(G,110|A,142)   (A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15151):
ATCGGTAAAGAAAAATTGCCACTCTGATTATGCCTTCTGACTTGGAAAAAGAATTATAGACTTTCCAGTGTAGAGAGTACTTTAGATCTAGACTAATAGT
Y
CTTAATGTTTATCTTTGAGTCACAGAACTCTCTGAGACTCTGACAAAGGCTACAGATTCTTTCCCCAACATAATTTGTTTACTTACATAAAGCTCCCATC
Celera SNP ID:            hCV1079127
SNP Position Genomic:     15485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15152):
ATGAACTGGTAGATAAAAAGTTTTTATGAAGCTGTAATGTGTTTCTAATGTTTCAATAAGAACTTATCATTAATTTTCCCTTTTTCTCTTGCCAACACAG
R
TAGATTGTTAGAACACTTTTTAAAAATAGAAACAATGCCCATGGCAAAGAAAATTCAAACGTCTTCTTAATAGCACATTCCGCCTGCCTACAAGCTTCAT
Celera SNP ID:            hCV27471356
SNP Position Genomic:     11490
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,52|G,1421)   total(G,1421|A,52) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15153):
GTCACATCTGCTCCAGAACAGAAATCGGTAAAGAAAAATTGCCACTCTGATTATGCCTTCTGACTTGGAAAAAGAATTATAGACTTTCCAGTGTAGAGAG
K
ACTTTAGATCTAGACTAATAGTTCTTAATGTTTATCTTTGAGTCACAGAACTCTCTGAGACTCTGACAAAGGCTACAGATTCTTTCCCCAACATAATTTG
Celera SNP ID:            hCV1079128
SNP Position Genomic:     15462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15154):
ACTTAGCTGATGTGTGACTACGGGAAAGCATTCAACTTCTTTAAAGCTCATTCCTTCATCTGTAAAAGTTATAAGACAGTAGGATCTGTCCAATGGATCA
Y
GTCTCTTGTGAATATTAAAAGAGATGATGAACGTACATTATGAGCACAATGCCTAGCTCTTAGCATGTGCTCAATTAATGGTATTACTATTATTTTTGTC
Celera SNP ID:            hCV3260547
SNP Position Genomic:     16146
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15155):
CCAAAGAACATAAATAGCTATATTTGTAAATTTAAAACTAATAAATGGTTATTTGGCATCAAACACTAATATCTTGACACTTACACTATGAACTGGTAGA
Y
AAAAAGTTTTTATGAAGCTGTAATGTGTTTCTAATGTTTCAATAAGAACTTATCATTAATTTTCCCTTTTTCTCTTGCCAACACAGGTAGATTGTTAGAA
Celera SNP ID:            hCV27471357
SNP Position Genomic:     11403
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,30|T,1467)   total(C,30|T,1467) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15156):
CTTTCACCAAAGAGTACTAGTGCATTTGTTATGACACTAGGAGATAGATATTTAAAAACTGATGGGACATAGACTCTTTCCTCAAGGCACTTACATTTGT
R
TGCTTCTCCATGGTGTATAGTAAGAGTCAGAGGGCTTTCACAGATGGACGAAGAGATGCTATTATGGCAATCTCATATATCTTAGTCTGCAGTGTTTGTA
Celera SNP ID:            hCV27032933
SNP Position Genomic:     9636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15157):
CCTTTTTCTCTTGCCAACACAGGTAGATTGTTAGAACACTTTTTAAAAATAGAAACAATGCCCATGGCAAAGAAAATTCAAACGTCTTCTTAATAGCACA
Y
TCCGCCTGCCTACAAGCTTCATTTGCTGCTTTTGCTTTCTGCACTAATGGAAAGTGACCATACCTGACTGGTAATGGGATACAGATATATACCTAGTATC
Celera SNP ID:            hCV3260548
SNP Position Genomic:     11568
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)   JBIC-allele(T,508|C,969)   total(C,969|T,508)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15158):
GTTCAAGATATGGTAAACTATACAATGGTATGAGGATTTTACCAGAAACTGCTATTCTCCATGTTTGCTCTTCATCTTTAACAGAAAAAAAAGAAACAAT
Y
ATGACCTGATACCCTCCCTTTTCATTTAAGTTTTAAAAATATGTTTTCATTAATATTGTCTCCAGTGGATAAAACTAGACATGGTGTAGCCAGTCAAAGA
Celera SNP ID:            hCV1079129
SNP Position Genomic:     12476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15159):
ACACTGTCATTTGCAGTCAAAACAATGTTAGCATGATAAAGATGTGTTACAATGACTCCTGATTATAATACTTCTTTATTGAGTTAAAATGCTTTGATTT
S
TAATGACAGAGCAGTGATAGCTCTGAGGTGATTATGGTGAAGGGATTTAACAGTTGGAAGCCCTGAGTACCACCTGTCATCACATGATGGACTTCATTGG
Celera SNP ID:            hCV3260549
SNP Position Genomic:     7623
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,7)      total(G,5|C,7) ;no_pop(G,-|C,-)   JBIC-allele(C,505|G,990)   total(G,990|C,505)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15160):
AGAAACCTGAAAAAGAAAGACCGTGGGGTAGGCAGCACTTTATTTTGCCAGGATGGTAGATTGCTGCATTCGGAATGTTCAGAGCCTCCTGGAAATATGA
S
AGCTTTTAATGAAGCAGGCTTACTTACAACATATAATCCAAGGAAAGTTCAAAAGCTATGGAATCTTGAGCCTGGAGAAGTCCAGCCTCAAACTCTGCAA
Celera SNP ID:            hCV25757116
SNP Position Genomic:     13932
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,27)   caucasian(G,34)   total(C,3|G,61)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15161):
AAACTCTGCTAAGTGCTAAATTCTTGCATTTATTGTTCCACAGATATCAGCAGTGACATATTTAGAAGAAGATATGCAACACCCGCTTCAGCCTTGGCAG
R
AGAAAGTCTTGAGAAGCGTTTAACAAATGAATCATGGCAGCCTCCAATAGAAAAAGAAGACAATGGCTTACACCCTCACAGGCAAAGACATTTTATTACA
Celera SNP ID:            hCV25642245
SNP Position Genomic:     17204
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,1|G,35)   total(A,4|G,70)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,234|G,1266)   total(G,1266|A,234) 
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15162):
CCTCTATTGAGAGCACAAACCTGTCTCTCTTGTTTAATCTTGCCCTGCTCTCCCTAAGCAGAAATGGTATCGAGGATGTTCAGGAAGATGCCCTGCATGG
S
CTTACGATGTTGCGGACCTTGTTGCTGGAGCACAACCAAATATCCAGCTCTTCGCTCACTGATCACACCTTCAGCAAGCTTCACAGCCTGCAGGTACTGG
Celera SNP ID:            hCV25642270
SNP Position Genomic:     8529
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,28)   caucasian(G,40)   total(C,2|G,68)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15163):
ACCCTACGAGGGTCTTGGTTCCGAAACACAAGCGGCCTGACCCGGCTCCAGCTGGATGGGAATCAGATTACTAATCTCACAGACAGTTCTTTCGGAGGCA
S
GAATCTCCACAGTCTCAGGTATCTGGATTTATCCAACAATTTTATTTCCTACATTGGGAAAGATGCCTTCCGGCCCCTGCCTCAACTACAGGAAGTGGAC
Celera SNP ID:            hCV25642271
SNP Position Genomic:     8753
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,4)   caucasian(C,35|G,1)   total(C,55|G,5)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15164):
CTGTTTGGTTGGGGTAATAAAACTCTGCTAAGTGCTAAATTCTTGCATTTATTGTTCCACAGATATCAGCAGTGACATATTTAGAAGAAGATATGCAACA
M
CCGCTTCAGCCTTGGCAGGAGAAAGTCTTGAGAAGCGTTTAACAAATGAATCATGGCAGCCTCCAATAGAAAAAGAAGACAATGGCTTACACCCTCACAG
Celera SNP ID:            hCV25642256
SNP Position Genomic:     17185
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,39)   total(A,1|C,77)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:15165):
TACTGCAACTGCCACTTAACTCAGGAAAACGAGATAAAGGTCATGTCCATTGTGGGGTCCAGAAAAGAAATGCCACTTTTACAGGAAAATAGCCATCAAG
Y
AACATCGGCCTCTGAGTCTGCAACCCTTGACAGATCATTTAGAAACCTGAAAAAGAAAGACCGTGGGGTAGGCAGCACTTTATTTTGCCAGGATGGTAGA
Celera SNP ID:            hCV25642257
SNP Position Genomic:     13791
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,38)   total(C,67|T,1)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15166):
TCCGGCCCCTGCCTCAACTACAGGAAGTGGACCTTTCCCGAAATAGGTTAGCCCACATGCCGGATGTGTTTACTCCACTGAAGCAGTTAATCCTTCTGAG
Y
TTAGATAAGAACCAGTGGAGCTGCACTTGTGATCTCCATCCCCTTGCTCGGTTTTTAAGAAACTACATTAAGTCTTCTGCTCACACGCTCAGGAATGCCA
Celera SNP ID:            hCV25642258
SNP Position Genomic:     8922
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15167):
ATAAACAGAATCCCTTCTGTTGATTTAAGAATATTTAATAAATATTTCTGCCTCCTTTGTCTCAGAGTTGTGGACACTGGGGATAGAATGTTGAACAGGA
M
TAAAAGGATGTGTTGCCTCACAGTGCTCAGTTGTAGCAGAGGAGGACAGTCTGCGAACAAGCATATGAATGAATAAACAGAATAATACACCTCATAAGGG
Celera SNP ID:            hCV8909393
SNP Position Genomic:     12840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15168):
CAGCTTAAGAGGTAACCCTTTAATGAGTACACTTCATACAATGACTAAAGAGACTGGCAATATTTTATTTTCCTGTTCCTGATGGTCTCAATCAAAACTA
Y
TTAAAGACCTTCAAAGGTAACTGAGTTATTTTGCTATTGCAAAAGAATATCACCATTTTATCCAGCTACACACTTAACAAATATATCACTTTAATATCTT
Celera SNP ID:            hCV27478251
SNP Position Genomic:     6279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15169):
AAGTTCAAAAGCTATGGAATCTTGAGCCTGGAGAAGTCCAGCCTCAAACTCTGCAACACCATATAATAAGAACAGAAGGTGAGTTTGTCTTGTTTTAGAA
R
ATCCCACTCCGTTTAATTCTTTTTGAAGGAGGGAGCCTCCCTCCTTTAATTTCCTCAACAGGAAATACTATAAAAATCACTATAGCACTAGTCTATTCCT
Celera SNP ID:            hCV25756807
SNP Position Genomic:     14077
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,28)   total(A,55|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:15170):
CCACAGTCTCAGGTATCTGGATTTATCCAACAATTTTATTTCCTACATTGGGAAAGATGCCTTCCGGCCCCTGCCTCAACTACAGGAAGTGGACCTTTCC
Y
GAAATAGGTTAGCCCACATGCCGGATGTGTTTACTCCACTGAAGCAGTTAATCCTTCTGAGCTTAGATAAGAACCAGTGGAGCTGCACTTGTGATCTCCA
Celera SNP ID:            hCV25642269
SNP Position Genomic:     8860
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 NONSENSE MUTATION;INTRON;TFBS;hmCS


Gene Number:                 23
Celera Gene:                 hCG1646666 - 146000220794531
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(1665397..1678715)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12183):
CTGTTGGGTTCTGTGCAAAATGAAAACATGAGATTACCTTATTTAAAGACAGGAAAAAATAGTGTTAAAGGTTCTAAAATAGAAAACATTTCTTTTTTCT
TTCCTTTCCAATCTCCTTCTCTTGACTTTATTTTGCCTTTTATTTGCTATTTAACATTATTCTAAGAAAACATTTAATTTATTAGCATGAATTCTATCAC
TCGGCTTTATATTGTGCAATGCCAATTTCAAATGCAAATATGAGCATTTAAGGCACATGGAATCACTGAAATAACACAATTCATATTATGTAGCTTGTGT
ATGCATATGTATTTTATTCTTACCAGAACAGTGAAAATGCTACACAAAACTTAATTGTTTTTGTCTGACTTCTCGATGCATGCATGTTCTACCTTCACTT
TCTATCTTACTGATTAGTAAGGAAGACCTTAAAGGGAATAGAGTTGTGTGTTGCCTTATATTTTAGTTACCTTCTATGTTATCATCATCACCCCTACCTC
AGTCACAGACATAACACGCTGACGTTGTACTCACTTTGAGACTCACTGACCTGCCAGTCATTATGGGTTCGCCAGTGTGCTCATGAGGCATTACAAACGT
TATATGTGAATGAGGAGACAAGGAACAATAGACACATATATTGCATGTGTCTCCTCTGCTCCCTTGCATGCCCTATTGTCCCATTAGACTTCACTAACAA
ACACAAGTTGAAAGAGAAAATGATTAAGGATTTCAAGGTAGTGACAGCACTGCATGAAAGCAAGTGCCAGGCCCTACCTACATGAAGCCCTATGCATAGG
GTATGCACCCATGAGGCCAGCCCTGCCATCTTTTTACAGAATACATAATAGGGAACATAGGAATCACACACGAGGGTACCGCCATCTCATAAGGAATGTT
CTCAACATTGTTCCTTCATTAATTTTCTAGATGTGCCCCTGACATAACCTTTAGAGGGTGAAATATTTGCCAAGAATATATATTATTAGTTGGAAAATAG
CTTCAGGACTTGGTTAGAACAACTAACCTCAGAAAGTCCCCAGCCCATGTGACCTTCTTTTCTAGGTTCAGATCAAAGAACTGTTGATCTACTAATGGAA
TGGTTCATCTGTCTTTTAATGTATGCAGTATCATAGCTCATCTTTCCCTCTTCTTATGCTAAAATCATATTTTGATTAAAGTTGCTCTTCATCCTTCCTT
TCAACCACTGCCACATTCCTTGTGCATCAATTCCCTGCTTTTCAGAATGCTTAAAATCTAGAGTAATGGAGTATGGTACTTCCACTGCTAAAATGAATTG
GAGATCAATGCACAGAAACTCACAAAGCCAACAAGCCTGCTAGTAATTCTGATACCCTGTTAACTGCATCTTAGTGTCTGGTGGCCTTTGCTTCTCCTGG
AGACAATGTAGCCCTCATTCTGCTCAAGACATACTGTCTTCCATTCGTGGAAAATCACTTAGAATCACTTCGGAAAAAATACCTAAGTGATATGGTAAAA
AAAAAAAAGCTGCTTCCTGGCACATTCCTTTTACCACTCTATCTGCTACCAGACCTTCTATTGACCTTCTGCCCTATTCAAATCCACATTTTGTAACTGA
TGTGGAACACGCAGCATTTTGACACACCGTTCTTGACACACCGTTCGTACGAATTTACTGTAAACCTTGTGCCTGCCTGCATTGTGGTAGAAATCATATT
ACCAGATTCCTAACAAGAAGGCTTATGATGTTAGAAACTGTTAAAAACATGAATGAGAAAAGGCCCCTTCAAACAGAGCCTGAGGAGCTAGCTCAAGTAA
CAAAGCCCTGTTTTCCATCTTTTATGTAAAGCAAATGGATTAACAACAACTGGCATGAAGCTGAACTGACACCCTGACTCACTGTGCCAGGCAAGCGCTC
TATTGAATTGTTTGCACCAGCCATTTCTTGTGTGCAAACAGGAGGAACTTGTTCAGGCAGCAGCCACTCTGAATGGTATGTGAGGATTTAGTGAAATACA
TGCTCAGGACAGCTTTCTTAATCCTTGCGAGTCTGCCCAACAGAGGGAATTCCAGGGTGACGGACGAAGGAAGCGTCCAAGTCTTTCACTAAACACAGTC
AAGTCCAAAAAAAGAAAGTTGAAGTGACTTTGTTATATGTTTAGTTTATGCTCATCCAACAAATACCGCTGTTAGGAAAAAAAGTTTAATGAATGATGGT
AATAAACAGGCTGGTACTACCCACTGATTAAAGTGTCATGATGCCTCTTTCGAAATCAAAGGAGTTATCTTGCTAATGAACTAAATTAGACTGAACTAAC
ATTCATGTTAATAATTATTACTTACAGAGCTAGCTGTGTTAGGAGTGATAATGATAATGTGAAAACTGAATATAATAATAATATTTMTCAGGTGCATATC
CTCTAGTTTAAAGCAAATTTGACAGGAACATGCAGGTACCTCAGTGGCCCAATTTTGAGAAATAGAGGGAATTTTTTCATCGTAAGGATGGTAGATTAGG
TCCTAGGTGAGTAATGAAAAGAAGGCTGAAAAACAAAATTCCTTATTAGAACCAGAAGTGTTAACCTGACAAACACATTCATTCAAACTCTTTAGCACGT
GAAATATATATATGAAATACATATGGTACTCATTTTCCCTTAAAATGAGCCATGATTGAAAAAAKAAACAATTTTACATTCTCAAGGTTGGAAATAGAGA
AGATATGCATTGGCGATAATATTGATTTWAAAAAAAATCTGCTGAAAGGCTATTATTAGACATAGATTATAGTTACAGTGAAAACTGGGAGCTGCTTTTA
ATCCCCTAGGGGGCAGAAAGTTATGTAGGGTCCTTTTTGTCATTTTCAAGGTGTAGAAAGAATGAAAAAGACTGCGGTGTATTTCATTATTAGTACACAT
GAACAGTTTGAACTCTCCATTATTGGGCTGTCTTTTTTCATAGTTGGTAACTTTTTCAGGCTCCTTCTACGAAACTATTTGACAAGGAAAAAAATAGCCT
TCTTGGTTTGATATGTGAGTATATACAAGTTCGCACAGGTTTTCACAAGAAAGTAAATGAAGAGCATGGCCTGCAAGCTTAATCATATTAACTCTGAATA
TAATCAAAGCTTCAAAGTTTAACTCTATCTTAGCACTGAATGTGAATGGAAAACAAAGACTATAATATGAAGACATTTCTTAGTCTTGGAGGAAATTTTT
TATTAAATATAAATTACTACCTCTCAAAGTAAAATTTACATTATATCTATAACAATATGAAATATCTTATTTAGCTACAACCAGATACTATTATTTGACT
GTTTAGAACACAGAACAAAATCCTTCTAAAACCGGTACCTTGGAGGATGTTGTCTTTCTTTGAATTAAAGCCACAACTAACAAGCCAGGCACAGTGGCAA
GCACCTGTAGTCCCAGCTACTTGGAAGGTTGTGGCAATAGAATCCCTTGAGCCCAGGAGCTCCAAGCCCAGTCCAGGTAACACAGCAAGACCTTGTCTCA
GAAAAAAAAAAAAAAAAAAGCGCGCACACACACACACACACACACACACATAGACACATACAAGAAAACACCAACACCAAAGGCCAAATACTTCTCAACA
TACCAACGATTAGCAAGATTAATGATTACTTCTTTAACATATCAGTTCTCTCAAACTATTACTGTTAATAATTATAGGTAACTTGCACCTTTATTTTCTT
TGTGTAGGGGGAAAGAAGTGGCCAAAGTATTTTATTTTAAATTAGTAATCTCACTTTTTTCATCAGAGTTTGTTTGATATGATTCTACTTTCCACATGTT
TCTTATTCGCTGTTTTGTCTTTTAAGGCAGGGAAAGTGAGTCAAAAGCAAATCATGTTTCATGTGAATATTGGACTTTGACACTATTTGGACCAAATTAT
AGAGAAAACAATGTTCCGGAATTTTTTTTTTTCTTTAAACACTTATGAAGTGTCAAGATAGGCCTTAGTGAATCAACCAAGCACATTTTTCAAATTGTTT
CAGTAAAGGGTGAGAAGTTGTAAAAACACCTTTTAAAATCTCAACGTTTTATAATAGCTTATTGCAATAATGGAATAATTTATTCCATTATTCCAAAGGG
TAATGCTGTCTCTTTATCTGTTTGTCCATAATGTATGTCTGTGCAAACTTAGGATGGCTTTTACCTCATCGTGCTAAAAGAGCAAATGAGGAGATTTTAA
ACACGTCTACATTTTAATATGTGAGCCTGTAGGCTGCTATGCACAGTCTTCTACAGTTTATAGTGAGATGTTTCACATCAATTAAAAAAAAAGATGAGAG
AATGGGTTACTTGAAGAGTTTGTTTCCTTATAATCAACTCTAAAGAGAMTAAGGTCATGCAACAGATTTCTTTTTCTTTCTTTCTTACAGGGAGACTATG
TGATGCAAATTGCTTTATTGGTGAAGGGAATTAAAATTATAAAAAGCTGGGCTTAAAGAAGTGCAAAATCAGAGCTGTGTCGGAGCAGGGACAATATAAT
TGTGGTATGGATTCCCATATGGGACTAAATTATCTAGATTTTAGTAAYGTCAGCAGTTCTGTGTAGTTGCTGGAATGCGGCCAATGTGCCATATTTGCTT
CATTTTTAAGATGGTTCTGATTCTACACAATGTTAAATATGCAGAAAGCTACAATTGTTCGGGTATCTTGGTGGCACTTCTCAGATACATCTCTTTGCAT
GTCAGAAATCTTATTTGACTATTAAACAGGAAGTGACACCAATGTGACTTTATTTTTCTAAGCAAAATGCCATTTATTATCATTTCTATCTAGGCTATAA
AATCTTCCCAGTAGGGGGAAAAAATACCCTTTTCTGTRAGTACATATCAAGGTTGTCTTCCTTTACAGTGTACCATTCAGTAATACTGTTTTGTAGCAAC
TCAATAAAGCTGATAGTTTTTCTGGGWAATTACCCACAGCCCCCCTGCAGGACAAATTAGCATTCATGACCTGAATAATGCTTACTAGAAAGAGTTCAAY
GGAATTTACTTWATCAGAATCATTGCTTTCTCTTGGCTAATTTTTTTTTTTACCTAGTCCCCAACGCTTGCTAATAGCAAATATCTTTCAAGCCAATGTT
TGGTATCTGATAGAGAAAAATGCATGAATCTTTAAATGTTCTAATGTATTTGTGAGTCTTGAAAAAATAAATGTATATTTTTTATATTGAGTGTGTGAAA
AATTAAGATATCCATCTTCTTTAAAATTTCTAATTAAACTTACATGCTTATTTCTCTTTTTAATGCTTACTGGTTTCAGAAAGACAGAGAGAGATTTTTC
ATTTTCTAATTATCCCTCAATTGTTTCTCAATTTGCTGAGGACAAAGCTAGAGGATTGGTTGTGATTTTTGATAGATGCTTGGTAATCACTCTGTATCCT
TAGGCATCAAAAATTAGGAGAACTTTGAATAGACAATGGGTGTTGTTTTTGACAATTTGATTGATTCTTACTTTGTTCTTGATGACTTATTTAATAATTT
TATGATTTGAACCAAAATATATGAAATGTAGATACTAAGATATTAGAATAAAGGAGGAGAGAAAGTAATATTCACTGAGCTTCTACTACTTACAAAACAC
TCTGTGAAGTAAACAGTATATTTTATTAATTCTTGAAATGGCTCAGTGAGGGAAGGACTAGTATCTTCATGTTTATAAAAGAGGGAAATGTGTTTCAGAA
GATACTTACTCCAGGTTATACAGCCAGTAATGAAACAGAACCGAGACACAATCCCCAGACTGCCTGAATCAAAAGCTTACACTTTTTTGGTTTTGTGTTT
ATGTGCAAAGATTTTAGGTTTTTAGGAAGGCAAGAAGAGGAAGTTCTAAACCAATTGGTTCTAAACCAATTCCCTTGACTGAATCTTTAATTTGGAAAAG
ACTCCTAACCTGGAAGAGGAAATGTTTCTAAAATACAGCTGCATATCAATGTCTTTGAAGGACAGCTCTATAGACAACAACCAAGATCAGAGAACCACAG
CAATGGGGCCATCCTCTAAAGTTTATTTTAGCTTATTTATCCCCCCTTCCTGTCATCTTCYGTGAATCTTCACAACCCAGTGGAGTAAACKGCAGGTGTG
AACTGTTGAGACACAGGCTCCCACAATGGAGCATTACTGAGGGTTGGGAAGTAATCCAGTCAAATCAAGCTGAAAGACAAAAGTGTGAGATAAGATCCAA
AAATAACAAAGTAAAAGCAGAAAGGTCCTTTGGGGTTTCTATGCACTTAACTCAGTGGAGACATGGAATTTCTGTAGGTTGGGGAGATTTGTCTGGAGGC
TTAGTTTGTATAGCAATCTCAGTTTTTACCTAGGTGGTATGGTTGTTTTGGATTGCATATTATGTTTGTTTAGAGTATATATTTATTGGAGGTGCCTTGG
GGGAAGGCTCTCAGAGATTATGTGGGGTAGTTACAGCCGCAGAAAGAAACCTCTAGGCTCTTCCACTGATTAGATTGCATAGTTCGAATGAATTAAAACA
GTCCAGTGCAACTGAAAAGGAGGATTCACTCATTCAGGCCCTTGTGCCTTGCAGTGCTGAACTGAATTTGGTACTTAATTAAGTTTCCAGGGGTGCAAAA
TGGCTAYCCCATTTCTAAATCTAAATRAATCAAAATGTTTTTTCAACTTTGGGGGTTTCAGAAAACCCACAACACATTTTTTGCGCAGATTTTCCTTCCA
AAMACTAGAATATTGCRAGGAAAATTCAATCCATATGTTTCAGACTCASGTACAGTTGTATCAAAATCTTGTGTTGCAATTGACATTTGATGTTCATGAA
GTTTTCTGAATGCTTCTTATTTGCCTTTAACTCAAGAACATAAAGTTGATTTGTCAAGCTTATAAGTACCAAAAACCCCAAAATATTACATTTGAGTTGA
AGACAACAAATTTAAAATTCTGCATCGGGCATTAAATTTAATAAAGCTTTTGTCTTACCATCTCTGCAGTGTTGTGTACTTGCAGATAGGCATATGCCTG
ATGACATGGAGTACAAAGACACAGTATACTTTTGATATTGACATGGTGAGGAGAAAGTGAAATGATAGAAAAACAAGGACACATATTTTCTCTTCTGGTA
TTCCTCCGTGATTTAAATATTAACAGCATATTGTTTATAATTTAATGCAAAAAATATGTGCACTGACAGCCTATATCTAATTTCTTCTTCCATCCTTCAA
CAATCTCCGTTTAGATTCTGGTTGGTACTTGGCAGCTCTTCCTTTCCTGCCAGTGTTCAGGCAATGATGTATCTTCTGGTCAGTGGGTCCCTCCACATCA
CCACAAAGACAAGAGAATACTGGGAGGAGGAAAGGCAAGAGGAAAAATAAATCATTTAAACTGAAGCATCAGTGTCTTTGGGATGGTTATATAAAAGAAT
CTGTATTTGTTGCTATTAACGCTATTTTAGAGGTTTCTAAAATGATTATGTCCCTTTGTTCAAGGCTAATAATGTGGTTCTGCCTTTGCTTAGAACATGA
TAATGGTGCCTTCCAATCAGAATCAGCTCAGAGAGGAGAATCATTTTCCTAAGAGCCAGGAACCTCAGAAAAAAAAAAAAAAAAGTCTTCTGTTAGCACA
AAATAAATAACAGTGTTCTGACATTTATTTATGACAGTGTCTGTATAGACAGTATAGTAGTTGGTCATTCACTTTGCTATGTGACTTGTATATGTGGGCT
CTTTTATAGTTTTCATTATTCTTGTTTTCAGTGTTTCTTCCCTTAGAACAAAAATGATGTATGTTTATTGTGGAAAATAAGAAAATATTCGTAACTAAAA
GAAGAAAATATTTCCGAAGCCTCACTTTCTAAAGATAACTGCTATTTACATTTATCATATGTCCCTTCATTGTATTTTATACATAAACATTCATGCACTG
TATTTTTTATAAATATAAGATTATACAGCACATACTGTCAGTGGCAATATAGAGCAATAGAAGATTATGCTATATGTTTTTAAATCTTCTTTTCTTCTTT
TATGATATGCTATATTTTAGATGGCTGTATATAGTTCATTGTTTGAGTGAAATATTAAATCAAGTATTCAAATATAATTATTCAAATGACTTCATGGTAT
TCCATTGTCAGAATGAACTATTTATCATCAAAATATTCAAATATAATTATTCAAATTTAATAATTCAAAATTTTAATTTTCAGGCTGTCCTAATACACTG
GTTACATAAACAATACTTGAAAATAAGATCTTTCCTTCAAATCTTTGCCAGTGTGAATAATTTTTTCCTTAGAATAAATGCCCATAAGTGAAATAGCTAG
TCGATGTTTTAAGGCTTTTGAAATATGTTTACAAAAATAGCATGCATTTTACTTTTTTTATTTTTTCAAAATGACAATAGATGTATGCCTCTGCTTCTAT
GACCTTTACTTGATCCTTGTCAGGGCAATTGCGAGAGGTCCAGAAGGTTGGGAATGTAGAATACGGTGGGTGGCCAAGAAAGACAATTATGCTGAAAAGT
ACAAAGTGACTCAAATGCACGTCTTGTTCCAAGATTCTTTGTTATTTAGATTCCTGCATTTTCTTCCTGCATCTTACTCAACACCCCCATCACTCCTGCA
AAGTATTACCTGACTTTTAGAGTCTATAGTAAGAGCCCCACATGTTTTCCATGAATAAGGCTAGTTTTATAGTGAGCTCTGATCATCTGACAAAATAATA
TTTAATTGTAAGAAATGTTTTCAATAATCATGAAAATTCTTGTAAGTCTAACATGGGCCAACTTCTATTCGGGAACGTAATCATGTGTGAAGTCCCTGTG
GAGTAAATTGGAATAATGTGAGTAACTAGGAAATGCAATCATTCTATCCCTAGTTAGGAGATGGATGAGACAGGAAAGCTAAGTGGAAAAGTGTATAGAC
CCTGTGGGAAAAGGTCTGAGTTTACACCCAACCCCTCCATTCACTAACTTTATGACTTCAAGCAAATGACTGGAGCTGCCAAAGTTTCATGTCCCCCTCT
GTTGGGTGCTTATATGTTCTACATGCCATCTCGGTGGCGCAGACACACTAACTTGCATACAGTGGGTGGTTAATAAATAGTAAATACTTTAGCTTTTTTT
AGACAGAGAAGATGCAAGTTACTCACTGAAGGCTATTTTAAATGCCTTTAGCCCATTTCAGCCAGAGGTCATATTGATTAAGAATCATATTCTGCTACAA
GTAACAACAAAAAAAGAGTAGCTTAAACTAATAATTCTTATTTTTTTCACCTACATAATTCCACACCCAGAGGTGAACCTTGTTAGTGGTTATTGGTTGA
AGAATGTCAAAACCGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATTACAAGGTCCAGAGTTCAAGACCAG
CCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGCACGCCTGTAGTCTCAGCTACTTCTTGGTAGGCTGA
GGTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCGGAGATCATGCCATTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCCTCTCAAAAAAAAAAAA
AAAAAAAAAAAAAGGATGTCAAAACCACGATCCTTCGGATTAATGTATCGTTTCCTCTCAGCTACCAACATATGGCTGCTGCCACTGCTTTTGTCCACTG
CTTTAGCCCCATGTCCCCATTTCAGGAAAGGAGAAAGAGGAAGTAATAGGAGGGAGAGGAAGCACCCAGGTGAGACATCCAGAGCAGACTGTGAATATCT
CATTGGTGACTGCCACCCCTCACTGCAAGGAAGAGATGAAGAGCTGGGCACTTGCTTTTCTAAAGAAAACCAGAGTTACATTCCGTCTGCCAAAGATGAC
TTTTTCCTTTCTCTGACCATACCTCTTTCTTTTGTTTGCTTCCTGTTCGAGACAGAGTAGGCTCAGCTAGCATAGTTAGAGGGGCGTTACAAATCCCACC
CAATAATTCTCACCCACCAGTTTCTGAGAATGCCTAAAATTTCAGCATCAGTGAATTAAGCTACCACCCACTATATGTTAAAATGCGTATATCTCTGGGA
GGAAAGTTAGCACCTTGCTTCATTTCCATACTTAACACCTTAGATAACCAATAAATGCATTGATTAAATTCCCTTAAAGAGAAAATTAATTGAGACTAGG
TTTTTAGCGAGGAAGGATGGAGAGTTCAGTTCTGCGTGACAGGCGCTAGCCAGGCAGGCAGGAGTAGGAACGCGTGAAAGGAAATAAAGAGCAGGAAGGG
CAGCGTGAAGCTGCAGACAGGCAGTAGAGGCTGTTAGCAAATATTAGATAAGCACCTCAGAAACAAACACCACCTTTCACAGTGTGTCCTGGGAGTAGAT
CTGATTGCTCCTTTCTCTTTAGTCCTCATCGTGTCTGATCACATGCAAAACTCTATATTAATACACATCGAACACTCCAAACCACAAAATAGATAACTAG
CCCAACCTGTGCCTGATATTCTGTTAAACCTCACTTCAAGCTTCACATTTTGTGAAGCCCAATGTGGTTACACTCAGGAGCCACTATCCAGAGAAATGGG
AATTGTTGGCTATGCAGGCTACTTCTCAGGTGAGAGTCTTCTGACTTGATGTTAAGATAGCGGAAAGAGATGTTCATCCTCAACATTTGATAAGACAGAC
AGTGTAGCATTATTGTTCAGCTCATGATTTCTAGAGACAAACTGTGGCTTCAAATCCACAGTGACTATGGGAGAGGTATTTAACTTCTCTGTGCCTCAGT
TTCTTCATCTGTAAAGTGACCATAATAATGGCATTTAGGCTTGGCGTTGTGGAGGAGGTTGCAGTGAGCTGAGATCGTGCGACTGCACTCCAGCCTAAGT
AACAGAGTGAGACCTTGTCTCAAAAAAAAAAAAAAAGGTATTTATCTCTTTAGTTTGTTGTGAAGATTAAATGAGATATATAACAAGAGCTGAGAACTGT
GCCTGGAACACAGAAGTGTTTGCTTTATTAAGTTTAAAGCATTACTTTTTTCTGTCTCAGATCTTTTCCATAGATACTGATAATCATATCTTATATGTCT
ATAGCTTTTTACGATTTCCAAAGCATTTCCCTATGTATTTACTCATTTCAGGCAGGTGGGTCATTTTTATTAGGCCCATTTTACAGATGGGTGAATGGAG
TCACAGAGATTATGCGTATGTCCAAGGTCACATGGATATTAACAAGGCAGAGACCTAAACCCAGCTATTTGAAGACAAATTCAATGCACTTTCTGTTATG
CCACATTGACATATTTGGAAGCAAAAGTTTTGACATCATGGCAAAATGAACATGTCTCAGAGTTGATTCTGTTTATGTGTATTCCTGATTCCCAAAAGCT
GAGTCTACCTATAGGTATTATCCAGTATACTTGCCTGGGTAGGTGTAAGAAGTATTTGACTTCCTGACTCATATGTAATTTCTGTACTATTCCAGAAGGA
TCACAATTTATTCCATTACTATTGAATGACCCAGTAATTATACTTCTAGGAATATACCCAAGAAAAGAATCTTTAGCAGTGAAAGAAAAAAAAATAGTTG
TATAACAAAAGATACTAATTTAAAGTTATATATAATAGCCAAAGAAGCAACAAATAATCTAAATATACTTGGCATAGGATCAGTTAAGTAAACTCTCACA
CATCAACTTAATGAAATAATGATGATGATAATAACTATTGTATATTGAGCATCCAGTATGTGCAATGCATTTTACTATCTCCTTTCAAATGGCATCTCTT
TTGATTTCCTAAGAGTTAGGCATTACTGTCACCCCATTACACAGATAATGCCCCAAAGCCAAGGTTGTGTGCCCAAAGTGACAGATACGGCTAATGACTC
ATCCTTCAACCTTTCTTGCTTCTTTATTGCCAAGGAGCCCTGATTTTGCTTGAGAAAAAAGTACCCAGCCCCAGAAGATAAATCAAGAATAGTCCAAGCT
GATAAGAGCACTTCCAATCTCCTTGCAAGTACTAAGTCTAGGGATGGGCATGTGGTATAATTCTTGTCAATAAGATTTAAGAATAAATTTTCTTGGGCTT
CTTGAAAATCACTTCCTCAAGTCTTTTTTAATTTTCTTTTTTCCTGCTCCCTTTTTTCTTGCCTTTGAACATTTTTATGAGAGTAGATGATGCTGGAGGC
TGAAGCAGCCATTTTGGGATCATGAAGGGATTAGAAGCAAATGATGAGAATGACAAAGTAAACAAGAAAAGTAATCTAGGCCCCCAGTGGCTGCAATTAG
CCAACAAGCTACCCTGGTATTGCCTGCTGCCTTTTGGGTTTTCTTTGTTTTTTGTTTGTTTTGTTTTTTAATAGAAGCAATACACATCCTTTTGAGATAA
ATCACTACTCATCTACTGTTTAGTACTAAAACCAATTATATTAGGTAGGATTTGATAAAGCTGTGAGTGACATAAAAACACCATCCCCGCCCCTCTGCCA
CACACACACACATACACACACATACTAACTTGAACTTAAACACCTTTTAAAGTCTCTGATATGGTTTGGCTCTGTGTCCCCACCCAAATCTCACCTTGAA
TTGTAATCCCCATAATCCCTACATGTAAAGGGAAGGACCTGAAGGGAGATGATTGGATCATGGGGGTGGTTTCTCCCATGCTGTTCTCATGATAGTGAGT
GAGTTCTCATGAGATCTGATGGTTTTATAAGTGTTTGACAGTTCCTCCTTCAGACTCTCTTGCCTGCCTCCACGTTAGAAGTACCTGCTTCCCCTTCTGC
CATGATTGTAAGTTCCCTGAGGCCTCCCCAACCATGCAGAACTGTGAGTCAATTAAACCTCTTTCCTTTACAAATTACCAGTCTTGGGTAGTTCTTCAGC
AAGGTGAAAACTGACTAATACAGTCTCTCTCATAAAAAGTCTATGACAGGCAGTCTGGCACAAATATGGCATTCCACGAAGTCCTGAGAGACCCAGGCTT
TTCTGGCTTTTCATTCCCCGATCCCAGGATTGTGCCCACCACAGGGACCAATACGGCTACTTGATTTCCAGCATTCTAGCCAACAGAAAGGAGGAAGGAG
CAAAGAAGAACATGTGCCCTAACTTTTAAAATAAGCCAGAAAGTTTCACACACCATTTTATTCACATCACATTGGATAGAACTGCTAGCTGCAGGAAAAG
CAAGGAAACGTCATCTTTATTCTGGAAGGTCATGTACTCAGCTAAAAATCAGTGATTCAATCAGTGGGGAAAAAAGTAAAGAACATGCAGAGGGAAACAC
ATGGCAGCTGATGAATCC


SNP Information

Context             (SEQ ID NO:15171):
AGAACCACAGCAATGGGGCCATCCTCTAAAGTTTATTTTAGCTTATTTATCCCCCCTTCCTGTCATCTTCTGTGAATCTTCACAACCCAGTGGAGTAAAC
K
GCAGGTGTGAACTGTTGAGACACAGGCTCCCACAATGGAGCATTACTGAGGGTTGGGAAGTAATCCAGTCAAATCAAGCTGAAAGACAAAAGTGTGAGAT
Celera SNP ID:            hCV25742159
SNP Position Genomic:     6091
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,3)   caucasian(G,40)   total(G,71|T,3)
SNP Type:                 UTR 5


Context             (SEQ ID NO:15172):
TTCTACAGTTTATAGTGAGATGTTTCACATCAATTAAAAAAAAAGATGAGAGAATGGGTTACTTGAAGAGTTTGTTTCCTTATAATCAACTCTAAAGAGA
M
TAAGGTCATGCAACAGATTTCTTTTTCTTTCTTTCTTACAGGGAGACTATGTGATGCAAATTGCTTTATTGGTGAAGGGAATTAAAATTATAAAAAGCTG
Celera SNP ID:            hCV29321388
SNP Position Genomic:     4349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15173):
GCTATCCCATTTCTAAATCTAAATAAATCAAAATGTTTTTTCAACTTTGGGGGTTTCAGAAAACCCACAACACATTTTTTGCGCAGATTTTCCTTCCAAA
M
ACTAGAATATTGCGAGGAAAATTCAATCCATATGTTTCAGACTCACGTACAGTTGTATCAAAATCTTGTGTTGCAATTGACATTTGATGTTCATGAAGTT
Celera SNP ID:            hCV25745312
SNP Position Genomic:     6703
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,40)   total(A,1|C,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:15174):
CTCATTTTCCCTTAAAATGAGCCATGATTGAAAAAAGAAACAATTTTACATTCTCAAGGTTGGAAATAGAGAAGATATGCATTGGCGATAATATTGATTT
W
AAAAAAAATCTGCTGAAAGGCTATTATTAGACATAGATTATAGTTACAGTGAAAACTGGGAGCTGCTTTTAATCCCCTAGGGGGCAGAAAGTTATGTAGG
Celera SNP ID:            hCV27839037
SNP Position Genomic:     2729
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,40)   total(A,77|T,1)
SNP Type:                 hmCS


Context             (SEQ ID NO:15175):
CCTGACAAACACATTCATTCAAACTCTTTAGCACGTGAAATATATATATGAAATACATATGGTACTCATTTTCCCTTAAAATGAGCCATGATTGAAAAAA
K
AAACAATTTTACATTCTCAAGGTTGGAAATAGAGAAGATATGCATTGGCGATAATATTGATTTAAAAAAAAATCTGCTGAAAGGCTATTATTAGACATAG
Celera SNP ID:            hCV27852809
SNP Position Genomic:     2665
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 hmCS


Context             (SEQ ID NO:15176):
CACTCATTCAGGCCCTTGTGCCTTGCAGTGCTGAACTGAATTTGGTACTTAATTAAGTTTCCAGGGGTGCAAAATGGCTATCCCATTTCTAAATCTAAAT
R
AATCAAAATGTTTTTTCAACTTTGGGGGTTTCAGAAAACCCACAACACATTTTTTGCGCAGATTTTCCTTCCAAACACTAGAATATTGCGAGGAAAATTC
Celera SNP ID:            hCV25768461
SNP Position Genomic:     6627
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15177):
CCCTTTTCTGTGAGTACATATCAAGGTTGTCTTCCTTTACAGTGTACCATTCAGTAATACTGTTTTGTAGCAACTCAATAAAGCTGATAGTTTTTCTGGG
W
AATTACCCACAGCCCCCCTGCAGGACAAATTAGCATTCATGACCTGAATAATGCTTACTAGAAAGAGTTCAATGGAATTTACTTAATCAGAATCATTGCT
Celera SNP ID:            hCV27831247
SNP Position Genomic:     4927
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,2|T,34)   total(A,2|T,72)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15178):
AAATCTAAATAAATCAAAATGTTTTTTCAACTTTGGGGGTTTCAGAAAACCCACAACACATTTTTTGCGCAGATTTTCCTTCCAAACACTAGAATATTGC
R
AGGAAAATTCAATCCATATGTTTCAGACTCACGTACAGTTGTATCAAAATCTTGTGTTGCAATTGACATTTGATGTTCATGAAGTTTTCTGAATGCTTCT
Celera SNP ID:            hCV25745280
SNP Position Genomic:     6717
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,5|G,35)   total(A,7|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:15179):
TGCAACTGAAAAGGAGGATTCACTCATTCAGGCCCTTGTGCCTTGCAGTGCTGAACTGAATTTGGTACTTAATTAAGTTTCCAGGGGTGCAAAATGGCTA
Y
CCCATTTCTAAATCTAAATAAATCAAAATGTTTTTTCAACTTTGGGGGTTTCAGAAAACCCACAACACATTTTTTGCGCAGATTTTCCTTCCAAACACTA
Celera SNP ID:            hCV25768495
SNP Position Genomic:     6607
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,37)   total(C,1|T,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15180):
TTGGGGGTTTCAGAAAACCCACAACACATTTTTTGCGCAGATTTTCCTTCCAAACACTAGAATATTGCGAGGAAAATTCAATCCATATGTTTCAGACTCA
S
GTACAGTTGTATCAAAATCTTGTGTTGCAATTGACATTTGATGTTCATGAAGTTTTCTGAATGCTTCTTATTTGCCTTTAACTCAAGAACATAAAGTTGA
Celera SNP ID:            hCV25744904
SNP Position Genomic:     6749
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:15181):
TGGGCTTAAAGAAGTGCAAAATCAGAGCTGTGTCGGAGCAGGGACAATATAATTGTGGTATGGATTCCCATATGGGACTAAATTATCTAGATTTTAGTAA
Y
GTCAGCAGTTCTGTGTAGTTGCTGGAATGCGGCCAATGTGCCATATTTGCTTCATTTTTAAGATGGTTCTGATTCTACACAATGTTAAATATGCAGAAAG
Celera SNP ID:            hCV27833264
SNP Position Genomic:     4548
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|T,2)   total(C,74|T,2)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15182):
TAGACTGAACTAACATTCATGTTAATAATTATTACTTACAGAGCTAGCTGTGTTAGGAGTGATAATGATAATGTGAAAACTGAATATAATAATAATATTT
M
TCAGGTGCATATCCTCTAGTTTAAAGCAAATTTGACAGGAACATGCAGGTACCTCAGTGGCCCAATTTTGAGAAATAGAGGGAATTTTTTCATCGTAAGG
Celera SNP ID:            hCV1915243
SNP Position Genomic:     2387
SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,26)   caucasian(A,27|C,13)   total(A,39|C,39)
SNP Type:                 TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15183):
GATAGTTTTTCTGGGTAATTACCCACAGCCCCCCTGCAGGACAAATTAGCATTCATGACCTGAATAATGCTTACTAGAAAGAGTTCAATGGAATTTACTT
W
ATCAGAATCATTGCTTTCTCTTGGCTAATTTTTTTTTTTACCTAGTCCCCAACGCTTGCTAATAGCAAATATCTTTCAAGCCAATGTTTGGTATCTGATA
Celera SNP ID:            hCV27858609
SNP Position Genomic:     5012
SNP Source:               Applera
Population(Allele,Count): african american(A,34|T,2)   caucasian(A,36)   total(A,70|T,2)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15184):
TGGGTTACTTGAAGAGTTTGTTTCCTTATAATCAACTCTAAAGAGACTAAGGTCATGCAACAGATTTCTTTTTCTTTCTTTCTTACAGGGAGACTATGTG
A
TGCAAATTGCTTTATTGGTGAAGGGAATTAAAATTATAAAAAGCTGGGCTTAAAGAAGTGCAAAATCAGAGCTGTGTCGGAGCAGGGACAATATAATTGT
Celera SNP ID:            hCV1915246
SNP Position Genomic:     4403
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15185):
ACCAATGTGACTTTATTTTTCTAAGCAAAATGCCATTTATTATCATTTCTATCTAGGCTATAAAATCTTCCCAGTAGGGGGAAAAAATACCCTTTTCTGT
R
AGTACATATCAAGGTTGTCTTCCTTTACAGTGTACCATTCAGTAATACTGTTTTGTAGCAACTCAATAAAGCTGATAGTTTTTCTGGGTAATTACCCACA
Celera SNP ID:            hCV27846867
SNP Position Genomic:     4838
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(G,38)   total(A,7|G,69)
SNP Type:                 hmCS


Context             (SEQ ID NO:15186):
GACAGCTCTATAGACAACAACCAAGATCAGAGAACCACAGCAATGGGGCCATCCTCTAAAGTTTATTTTAGCTTATTTATCCCCCCTTCCTGTCATCTTC
Y
GTGAATCTTCACAACCCAGTGGAGTAAACGGCAGGTGTGAACTGTTGAGACACAGGCTCCCACAATGGAGCATTACTGAGGGTTGGGAAGTAATCCAGTC
Celera SNP ID:            hCV27032504
SNP Position Genomic:     6061
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:15187):
CTCAATAAAGCTGATAGTTTTTCTGGGTAATTACCCACAGCCCCCCTGCAGGACAAATTAGCATTCATGACCTGAATAATGCTTACTAGAAAGAGTTCAA
Y
GGAATTTACTTAATCAGAATCATTGCTTTCTCTTGGCTAATTTTTTTTTTTACCTAGTCCCCAACGCTTGCTAATAGCAAATATCTTTCAAGCCAATGTT
Celera SNP ID:            hCV27835273
SNP Position Genomic:     5000
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,36)   total(C,1|T,71)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15188):
GACAAATTAGCATTCATGACCTGAATAATGCTTACTAGAAAGAGTTCAATGGAATTTACTTAATCAGAATCATTGCTTTCTCTTGGCTAATTTTTTTTTT
T
ACCTAGTCCCCAACGCTTGCTAATAGCAAATATCTTTCAAGCCAATGTTTGGTATCTGATAGAGAAAAATGCATGAATCTTTAAATGTTCTAATGTATTT
Celera SNP ID:            hCV11864379
SNP Position Genomic:     5051
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 hmCS


Gene Number:                 24
Celera Gene:                 hCG1646674 - 104000117902111
Gene Symbol:                 CRTAM
Protein Name:                class-I MHC-restricted T cell associated molecule
Celera Genomic Axis:         GA_x5YUV32VVY5(32731468..32777525)
Chromosome:                  Chr11
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12184):
TTAACTGATGACATTGTCTTGTGAAATTCCTTCTCCTGGCTCATCCTGGCTCAAAAGCTCCCCCACTGAGCACCTTGTGACCCCCACTCTGCCCGCCAGA
GAACAACCACTTTTGACTGTAATTTTCTTTTATCTACCCAAATCCTATAAAACGGCCCCACACTTATCTCCCTTTGCTGCCTCTCTTTTCGGACTCAGCC
CGCCTGCACCCAGGTGATTAAAAGCTTTATTGCTCACACAAAGCCTGTTTAGTGGTCTCTTCACACAGACACGCATGAAAGTTGCCTTAATGATTTACCA
CTTCCCTTCGTATAACTCTTTATAATTAAAAAAAAAAAACACTTCCTCATTTGATCCTCATAACAATTTTACAAAGTAAGGAGATCAGGTATTATCAACT
CAATGAATGAAACTAAGATACTGAGCTTGTGGATTCATTCATCATTCTGTAATACTTATTGAACACTATTTCCAGCAGAGTGGCAGGCTGGAGCTATAGT
GGCAAAAAAGAATGCAAGGCCCCTGCTCTGATGGAGTGGGAGACAGAGAATGAATACATAAATAAACAAGATAATTACAGATTTTGATAAATGCTCTTTA
GGAAATAAACTGGGTAATATGATAGAAAGTAACTTTGAAGGGATGTGGGGCAGGGGTTACACTCTTAGTTAGGGCATGGCGTCCCTGAACAGGTGATGAT
GAAACCAACAGTTAAAACTGAGCAGGAGCTGGTTGGGCTGAAGACCTAAACGAGGAGGGTATCAGGAAGCTGTGTATACAGAAGCCCTCACATGGGAAGA
CACTAGCTGGGTTAGAACAGAAGAGGCTGGGGAGCTAAAGTGTAGTAAGCATGATAGAAAGTGGGGGGCTTATAAAGACATGGGGTCTTACAGACCAGGG
GTCAGCAAAGTATTGCTCATTGTGCAGAATCTCACTCGTGAGCAGAATCTGGCCCACAGCCTGCCTGTACAGCTGCAGGCTAAGAATGATTTTTAGCTTT
TCAAATCTTTGGGGGAAAAAGCAAAGAATAAAGAGATTGATATATGAAATTAGAGTTCCAGTATATATAAATAAAATTTTATTGGAACACAGCCTCATTC
ACTTATTTACATATTGCCTATGGCTATTCCAGGATACAAGGGCAGAGTTGAGAAGTAAAACTATTTTAAATGTTTATACTTGGCCCCTTGCAGAAAAAGT
GGGTTGATCTCATCATAGACCACGGTGAAACATTTGGATTTTATTCTAAATCCACAGAATCCAGCATCAAAACTATTTTACCTGACATAACAATTCATAG
ATTGGTGGCATCCAGTGGCCAGCAAAGTAACAGCTAGCATTTGAGTGCTTGTATTTATCAGACACTTTTCTAAGTACTTCACATGTGTAAGCTTTTTAAA
TCTTCTCACCAACTCTATTCGGTAGAAACTATTATTCCCGATTTATGAAAGAGGAAGTTGAATCTTAGAAAGATTCAATAATTCACACACAGTCACACGG
CTCATGAGTGTTAGGGCTGAGACCAGGACCATGTCAGCCTGGTTCCAGAGCCTGGACTAATCATGGAAAATGTTTTTTAAAAGAAACTTCAATGAAAATA
TTGCAGAAGGCTGAGGTGTCTTGGGGATACCTGGGTTCTTCAGAATACAGTTTGGAAACCACAACTTTCATCTAATCTCATTTATAGATGAAGACGCCAG
GGCTGGTCACTTATCTGGGCAGAGCTCCATGAGCTGGGGCCTGAAGCTGGCCCTTGCTATCCTGTGGTATACTCTCCGAAACCACAATTGCCTTCTGAAA
TCAGCTCATATTTGGGTTGTTTTCAGAATGATCTATTTCACTAGAGTAAATAAAGTTTCTACCCTCACGAAAGCCCAGGTTCACAATAGTAGGTTTTTTC
GGCAGAAGTCTTAACAAAAGGTGAATGATGCCTTTCCTCCTCCCGGCACACCCAACCTACCATGGTTCCTGTGGGGATGAGATGCTGCTCCAGCCACCTG
AGGTCTGCAGATTTATGGAGAATGTTTTTTGTGCCAAGATGCTGGGTGCTCTGGGTATTATAATATTTTCAATTTAACCATCCATGAGTGCCCCATAAAG
AAGGTGTGGCCCCGGGTGAGCTGGTTCTCTTCCACCGAGGGCAAGTATAAAAATTTGAAGTCCTTCAAAGGAATCTCATAGACAAAGAAAAATGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTATCACTGACTCACTGTGTCACTTCAGGCAAACTTCTTAATTCTTTGGGTTTTTTAAATTTTATTTATTTTT
TTTGAGACAGAGTCTCGTTCTGTCGCCGAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAACCTCCGCCTCCCAAGTTCAAGCAATTCTCCTGCC
TCAGCCTCCCAAGTAGCTGGAACTACAGCTACCGTAGTCTGGCTAATTTTTTGTATTTTAGTAGAGATAGGGATTCACCGTGTTGCCCAGGCTGGTTGCA
AACCCCTGAGCTTAGGCAATCCACCCATCTCAGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCACGCCCGGCCAATTCTTCATTTTTAAAAATG
CTACAGTCGAACTTTCTCAGCTCCTGCCTTATGATTCCTGGACAGTCACCTCAGGCTGTAATTATTCTTCCCATTTTACAAGTGAGGAAACTGATTCCAA
CAGGCAGGTAGTGTGCTTAGTGCTACACAGCTGCTAGTGACAGGGCCTAGGGGACAAGCCTGGGTCTGTCTGCTACTCACTCCCATGCTCGTCCCACTAA
GCTCCCACTACTGCTAGGAAACTTCTCTCTGAATCAATAATTAATTTCAAAGGCTGCTGCTCTGGCTTAGAAACTCCACAGTCACTTTGTGCAAGTTTTA
CAGCAGTGCTCAGAAAACCTCAACACTTGGTGTGAGTTATCTGAGGCATCTTCTGGTAGATGCAGGCGAGTCCACCTCTTACTCTGACCTTGGGAAAGGT
CACGATTCTTCACAGAATCTGTGAAAGGTCAAGAAGAAAGTGTAGGCCCCTTTTGTAAATGCAACAAAAAAACCCAGTGGCTTCTAGACATAAGGAAATC
CCCTGTTTTCTGACCCTTAAAACAGTTCATCTTTAGCCTATTTAATAAATGTCTTATTTTTCATGTTTGCACCCCCCCACCCCCAAAACTCAGGTTGACA
AGGGTGACGATGAAAAATAGAGAGGATGTTTGTTTATTTCTCCAAAATATGTCCCCCCTCTGCCACCCCACCAAATGTTATTTCCTATTAGTATTGAAAC
ATAATATGAAGATTTCATAAAACGGAGACCAAAATGACAAACTAGCTATCAGTTGTGAGGTCTCCCACATACTGTTCAGTAGACTCTTTCCCATTAGAAA
ATAGGTAGACCACTTATTACCTTCCAACCTCGTCTTTTTCTCCCAATTCACTGAGCAGCCACAATCTGCTGCCCTCTCCTGTTGAATACTACATGAGCTG
CAGGCTGAAGTGGGGGTAATGAGAACAGGGACCCTGGAAAGCACACATGTATGTCGTCCACCAGTTCACCTTGTAGCATTTCCCCCACCAACCGTTCTTA
ATGTCCAAGTCCAGTGGACTATTGTGACATTTGTCAAGGTTTTCAACCAGTTGAATATGGCACCCGTGGATGAAAAGGATACACTCTCCATCGTCCAAAG
TGCAATTTAAAGTAAGCTCTTCTTTAATGCTCTGGGGAAATTGTAAGTCAAACATCTTTTTAGACTTCAGAGCAAAAAGAGTAGCATTTACATCTCAAAT
AAAGAGTCAATTTAGTCTTTCATTCACTCGTTGACAACCTATGTCAAGTGTTGTTGTGGGTCAGGTTCCTGGGAAACAGAAGCTGATACAGAGATCCGTG
TGCAGAAGTTTATAGATGAGTACTCTTGGTGACAAGAAGGAAGCAAGTTGGAGAATCGGTAGAAGCTGGACTGAGGTGCAGTTACAACAAAGATCTCAGC
TGATCCTGATCCCTTGGGGAGCTTCAGAGTTGCTCCACCTCAAGGCAAGGGAAAAGGACCTTGAGACCCCCTCATGGATGCCCTATGGAGGAAGAGTGAC
CCTGGGTAAACTGTTCTCTTCTACTGAGGACAAGTATAAAAATTAGAAGTTCCTGGGTGGAATATTATGAGCAAAAGGGAAAAAATTAAAAAATGAAAAA
TTTGAAAGACAAAATATTGTGTTTTGGAGGATTTTTTATTTTTATTTTTTTAAGACAGGGTGTCACTTTGTCACCCAGATTGCAGTACAGTAGTGTGATC
ACGGCTCACCGCAGCCTCAACCTCCTGCATTCAAGCAACCCTTCCACCTCAGCCTCCCAAGTATCTGGGACTACAGGCATGCACCACCATGCTCAGCTAA
TTTTTGTATTTTTTGTAGAGATGGGGGTCTCACTATGTTGCCCAGGTTGGTCTTGAACTCCTGGCTTCAGATGATCCTCACACCTCAGCCTCCCAAAATG
CTAAGATTACAGGCATGAGCCACTGTGCCCAGCCAACAAAATATTTGGAAGACATTTTTGATGAGTAAGACTTTTCCTACCCAAACTTCATCAAATTTAT
CAGAGTATTAACACTAATTTCAATTAGAGCCAGTAAGTAGTGTTTCCTTTTCATTTTCCAAGCATTGCAGACTGATCTCTGTTTTCTAAACATAAACTTA
CTAATATTTTACTGTGTGCTCCTGGAAAAACTACATTAAATCTATCTCAATTTGTCCAATTAATGAAAATTAAATACCAGAACTGTTCATATGTACATTG
TCTCCCCCACTAGATTATATTCTCCTGAAAAACAAGGAATTTATGTTTTTTATTTGAGCATGTCTCAAAGTAGTGCATACTAGATGCTGTACAGGTGACA
AGATGAATGGGTGGATAGAAGGATGGATGGATGGATGGATGGATGGATGGATGGATGGACGGACGGACATATGTATAGATAGATGGGTGGGTAAATGGAT
GAATGAGTGGGTGAATGGATGAATGCGTGGGTGGATAGATAGATGGGTGGTTGGGTGGATGGATGAGTATTTGCATGTATAGATAGATGGGTGGGTGAAT
GAATAGGTCATGGACGGATGGATGGATGGATAGATGGATGGGTGAATGGATGGATGGGTGGATAAATGGATGGATGGATGGATGGATGGATGGATGGATG
GATGGATGGATAGATGGATAGATGGATGGATAAATAGATGGATGGCTGGCTGGCTGGATGGATGGAGAGATGGATGGATGTGTGGATGAATAGATGGATG
GATGGGTGGATGGGGAATGAGTGGGCAGGTAATACATGAGTGAGTGGGTGGATGGAAGGATAAATGGATGGGTGGATGGATGTGTGGGTGGATGGATGGA
AGGATGGATGGATGGATAGGTGGATGAATAGATTTGTATTTGTGAGTGGGTGGATGAAAAGATGGGTGGATGGGTGGGTGGACAGATATATAGATTTCAA
AAATGAGTATATCTATATGAATGAATGAATTCCTCCCCGACAACAATTATAAATTGATGTCAGCATAGAAATAAAATATTCCCAAAGGTTGAGCAAAAAT
TATCTAATTGTATTTATCTAATAAACTAGAAAAGTAAAAATAAGGATGACGTCACTACACAGGGACATTTTACAGTATTTCTCCCACCCATGCTCCCTCT
AAAAACCTTGCAACTAGTTGATTTACCAGTACTACCCACTTGTGGTAAAACAATTTTTGTCACCAACACATCACTCACACCTCTCTGCCATCAAGATAAT
ACATGTGGTCCCCARAATGTTCCACCAGGAGGTGTTCTGGGGGCAGCTAACTAAGAGGGGGCTTCCAGACAGATGGAGGAGTTGATACACATGAGGTCAC
AGATCTACTGCCTCTCCCCCTTYAAAAGAAACTACTCAGCTCCATTTGTCTCAGAATCTAGAGGAAGTTGACAAAGGTGCCACAGCAGCACAGCACAGTA
TGTGGTGGAGAGTTCTCAGCTTGCTGGCATGGTTCCCCTTGCAAGGTAAGGACTTAGAGTTATTTTTGTTGTTGCTCAGCTGACTTAATGTTTTGCCACA
TCTACCTATCAGTCAGTCAACTGCATTTACAGAGGAGCTGCTGTAGAAGACAACCCAGGTAACTGCTAATACTTTCCAAGCCATGCTCAAATCATGCATC
TGAGGGATGTTACTGCGTTTATTTGATCTCTCGTTCAATGGCTAAGGAGTATAGAAAGGATCATTATAGTGTGTGTCTCTGTGGGTCCTATGTTACGGCA
AGATGAAACAAGCTTATTAGGCTCTGTCTTTTAAGGGCATACCAGTTGAAAGAGCATCCGTATTGAATTTTATTTTATTTTWTTTATTTATTTATTTATG
AGACACAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGCGGCACGACCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCTTTCTCCTGCCTCAG
CCTCCCAAGTAGCTGGGACTACAGGTGCCCGCCACCACCACGCCCGGCTAATTTTTTTATATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGAT
GGTCTCAATCTCCTGACCTCGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCACCGCGCCCGGCCTCCACGTTGAATTTTA
AAATTTCCTTGCTGTATAAATCTTAGCCAAACGATTTAATCTCTTTGAAACTCAGTTTCTGCATCTTAAAATGAAAATGATAAAAACTTTTGATCCACCA
AACTCCCTGGATTGTTAGAAGGATCAAATTTCAAATGTGAAAGCACTTTGAAAATGATAAAGCGCTGTGCAACACTTATTTAGCTCAGAGGTAATAATGA
GACCAATGAAAACTTCGTGTTTATTTTTAAAGAGTAAGTTATACTTTACATTTTACTATAATTTTCAAATTTGGATTTTAGTGCTTAATCCTAATGTAGC
ATTATGAAAATTAAGGATAGAAGCAGTTACCTTTTTGGAGCAGGTCAAATTATTTTCTACCCAAAAGTGGGGGCAGGGGTGTAGGAAGTGGCTCCTGTTG
TCCCTCAGTCTCTGCTTACAATTGTATCAGATTCATGCAAAGGACATCCCTCACAAATCCACTCAAAAATTTTGCTTTTTGTGTGTTTGTTACCAAATAT
TGAAACTGTAGTTCTGTTTCATGAAATGCACCTATCCTTCTAAATCTACATTTAATCTGGAATGGCATCTGAAGGACGCTACTTTAAAAAACTCGATTTC
CTATTKTACATAGTACTTCAATTCCCTATTTTATATACTTCAATTAATGCCTTCTTTTTTTGGTCCCTGTACCCTGAGGCACTTARTAAGGATTCAATTT
TGGTAATGAATAATATTAGTTTCTTCATTAAGTGGCTTAAAGAATAGCTAATACATTCAAAAAGAGTACATTTAGACAGCTAAAATTAGGATGATTTCAA
TTTTTCCAGAGTTTAAAGCCTTTCACTGACCTTAACTTTTTCAGGCTTTGAGTTATTGCCTCATAAAAAATAACTCATAAAAATACATTTTTTAAATAAA
TAGCAAAAATTATGTTTCAAGGTAAACCTAAATTACTTAAATATTATTTATATAGAGAGGAAAAATATTGTTTCATGCACAGTGCTGAGTACTTTGTGTT
AATTACACTTAATCATAGCGGAAGTACTGAGGTAGGTACTAATATCCCCAATTTAAAGATGAGAAAAGAAGTTATGTAACCTGCCCAAGTTTTAAAGCTA
GAATATGACAACATAAATACCAGCCTATAAAGCACATAGTAAAAGTATTTATTTCATGAAACTTCTAATTAACKTGTGTGTGTGTGTGTGTGTACTAGTT
GTGACAGAAAATGTATTAATGTGGATCAAAAGTTGGAAAACCACTGACTTTCACAATTTGGAGGATTCAATATTAAAAAGTCCTATTTGAAAACTCGTTC
AAGGGGCCACCCGAGGGCATCTAAGCTCAATGGCATTTGAGCAGTGGCTGCCACCCCTGACCTAACCTTGCTCAAGCCCATCCCAGACGTAATTAGGAGG
AGGTGACCATGTTGCTTTCTTGTCAGCAAAAAAGGCAGCAAATCATCAGTTTTGGCAAAGCTATAAACTGTCAGCTGATTTTAGCAAATTAAATTATGGG
AAGATCACTGTGACTACTTCTACAGTGTTACTTCTATGGCTGCCAAAAATTTATGGAAAAAAAAAAAGTCACGTAATCTCAGAGCCTGCCCTCTTTTCAA
GGCCACTCCCAGAATAAATAGTCTTAGGACTGGTAAAAACACAATAAAAATGAAGCATTTTTCAAAATTCATCCCATTAAATTACACTGTAGACAATGAA
AATGTCAAATCCAATGAATTTTGAACCCTCTGTTTTCATTGTTTTGTGGAGGGTAGGATKCAGAAAACAAAGGAAAATTGCAAATTGAGTAGTTCTTTTC
ATACTTTCTTTGCCCAGGAAAAAGTCACATGTTAGATGACATGTTGAGACAGCTTCTTTAAAATGTACTAAAAATATTCCGATTCTGACAAGTCTGATTT
ATTTTTATACCTGCAATTTTCTCTATTGATTCAATCTAAAAATAATAAAAATCTTTTTTTGTAATGATCTGAATTAAAACACACTTTTGCTTAATGCCTC
ATGACAGTCATGTAACTAGGGCTCTGATTTGAGMATTAATGCATTGCATGTCTCTGGCTTTAACTTAGCCCTAGTCTTTATTATTTGATATAACAGTTAA
AGAGCAAAGTTAGCATCCTATTATAATATTTATTCCTAAATATATACTTTTACTCTATTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCCGTCGCCCAGG
CTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAAGCTCCACCTCCCGGGTTGACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCA
CCCGCCACCACTCCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGCTTTCACCATGTTAGCCAGGATAGTCTCGATCTCCTGATCTCATGATCCGCCT
GCCTCAGCCTTCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGAGCCCGGCCTATTTACTCATTTTTATCCACTAATTCAACCAATATCTAAAATTTTA
CATTATGCTAAAATGAGTGGATGGCAAACAGCTTTTCCATAAGGAGTTTGTAATCTATCTACAGAGAAACACCTGTAACCAAATAATTATAAAGTAATGT
GCTAAGTGCTGTAATAGAAGTATATCTCAAGMCTTTGGGAAACTAGGGGAAAGACATTATGGGGAAAAGGGAAGCTAAGGCCTGTTTTGGAAGTTTTGAC
AAAAGTTGTGTAATTTGAGTTGAGCCTATAAGTTGAGTCTTGAGTTGGGTCTTAATGTTGAGTCTTGAAGGAGATGAGAAAGACATTCCAGGACAAGAGA
ATATCATAGAAAAAGACAAACTATCTTCTGGAGCCTGGAACTTTCTGGAAACAGCAAGTGGACATGTACAAGGACTATCTGAAAAGGAGTATCACGACAT
GGCAAAGGAGGAGAACACAGGAGTCAAGTCGGCTGGAATTTGGGCCTGATTCCTATAGGCAATGGAAGCCATAGCAAACACTTGAATGAAGGAAGAGACA
TAATCAAATTCATGGGTTATATGTTTGTTTGTTTGTTTGTTTGTTTGTTGAGATGGAATTTCATTCTTGTTGCCCTGGCTGGAGTGCAATGGCACAATCT
CACTCACCACAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGTGCCTGCCACCATCCCTGGCTAATT
TTTTGTATTTTTAGTAGACATGGGGTTTCACTATGTCGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGAGATCCACCCGCCTCGGCCTCCCAAAGTGCT
GGGATTACAGGCGTTGAGCCACCACGCCCGGCCTCAAATTCATGGTTTTAAAATGTAATCCTAGAACCAGATGATGATGAWGAATTAGAGAGAAGAGAGA
CTAGAACTAAGTTATTACAGTGGTCCAGGAAAGAAATGATGGAGTCCTTAACTAAGGCAGCAATAATAGTGACAAAAGAGGACTAAATTGATTAAAGGAT
GTTTTGGAGAAAGAAGAGTTTAGAGCACCTCTCAAATATCTGGTGTGCAGTGGTTGGTGATGACATTAATTTATATAAGGGAACTCTAGAATGGGGCAGG
TGGYATATCTGTGTTAGACATGGGTGGAGCATGGGGACAGTAGAGATAACGAGTTCCAATGGGACATGTAGAGTTTGGGGTCTTTGCAGGACAGGCTTGC
TCTGCTCTGGTTTTAAATTTATTGCATGTAAAAACTAGGCTATTAAGGCAAGAAAAGGAAAGAATATTTTATTCTTTTCTCAGTCTACATGATAGTCTAT
AGTAGAGGTAAAGATTGCACATGAGAACTTCCAAAATCTTGGGAAAGACCAAAAARTCTTACGAACTGCACTGGTTTTGTCTATGTGTACTTTGGTAGAT
GGCTGTTACTGCTGCTTGTCCTTTTGTTTGGGAGTAGATCACATGTGCTTTGGTGTAAAGCCATCCACTGATAGGACAATTAGTTCATGGGATTTGGGAT
GGTGATGACGGTGAAGGTCACAGGTTCCATTTCCATATATAAAGCAGTCACAATCTATAGCCCCAGGATCAGCTAGCAATCTCATAACATATGGTCATGC
ATGGATGGATGAATTCAGTCACGGAGATAATGACAAAGCCCAGAAGTCAATAATCCATTCTGTAAACATCACCTACCGTAGGAAGTGGTGACCTCACAGG
CGAAACACCACAGTCATTCATTGTCAAGGTCTGTATGTTCAGCATGTGGGGAGCCGTGCAGGGCTAATTTGCAGATAAGAACTCTGAAGCTCAGATAGGA
CTAGGAAGTAGGTGTATGGCACTCGGGGTCTAATAAGAAAGCTTAAAGGTAAATGGGGATGTACATGTCTCTAGAGCCTACAGAGGAGGAAGTGGTAAGC
AAAGAAGATATCTCACACCCCATCCCTCTGACAACAAAGGTGAAAGTCTGACTCCAAACTTAGGTGAAAGAAAAGTCAAAAGAAGTTCTAATTTGGTTTC
CAGTGGCAATGAGAAGACCCTGGGGAACTTGTCCTTGGAAAATGTGCCACCAAAACTTAGGCACRGCATCCTGCTCTTCCACCTTTAACAAAACTACAGA
CATTGAAACATATTTTTAAGCACTACAGTCTAAGCAAAGCTGGGTGGGTCTGTGGCTTCTCACTGGGGCTATTCTTCCCTTCTACAGTGATTTCCTGTTT
CTAAATCGAACATGGGGTCTACATGATAACACTGCAAGATAAGCAGACCCGTAAAGCCAAAAGCAAGGCTTGTTGCAAAGAGTAAAGGAAACAACGAATA
TTCTATGCCTCAAACACAGCCCTTTCCRTATGAAACTCAGGCCTCTACAGTGTGGTCAATCTGGTTAGCCGCCTGATACCGAATTCTCAGCAAGTGCAAA
CATTAATCTTAAGACATACAGTACTTTAGTGTATAATAAAAAGCCAAACTATATTTCATCACAATTTTTAAAATGTTGTAAGGGTTAAATTATACTATTT
AATTCATAAGCATGCATCCTAAGAAAGAGAAAAATGATACATACAACCTTAAAATGGGAGACATTTATTCCTAAACAAGCTGCAGATAAATCTCACCACT
CCCATCTTACCCAATGCAGGCTTTCTGTTTAGACCATCATTTTACCAAAGGTAAGAACGTTGGCAAAACTTCTGTCAATGTCTAGTCCTCAAGGATGAAA
TTAGGGCATGTTTCTTAATACTACTCTTTATTCTATCATTGATTCCATGTGTAACTTTCTTCCAGTAGCTTCCTTCCTGTTTCTCAGTATTTTTATTAAC
AACAGGAGAACAAAGGTATCTGTCAATCACCTACATTATAGTGCCATCGTGAATACTAGCATTAAGCCAGTACTTTTCAAGCTCACATTGTAATAGTTTC
TGTAAGGAATGAATTTTAGAGAAATATAAAACATAGCCGTTGTCCTCTAGAAACTTCAGTCTGTTTATAGGCATCAAGACAGTACACAAGAACTAGTGAG
TAAAACAGTAAGCATCACAATGCTATGGAAGTTAGACAGTTCTGGATTCAAATCTTGGCTCAAAAGCTGCTTAACCTCTGAGCTTTGATGCCCTCATCTG
TGAAATGGGAATAACAACACCTTCTTTACAGAGTTATTGGTTTTGGGCCTGAATAACTAGGCTATTTGCTGTTGGTGAAATCTAAAATAACACATTTGGG
GGAAGAGAATCAAGAGTTTGTGTTGTACTTGTTAGGCTTTCAGACTTCTAACTGATCATCAGAAAGGTGATGAGGCCAGATGAGATGACCTATGGAGTGA
GTATAGAGAGTCTATCCAGGATCTGACCTCCGTTGTGTGAAGGGCAGATTGATGAGAAGAACCCGGAAATAGAGCTGAGGAGCAGCAGCTGCCAGTGAGT
TAGGAAGGGAGTCAAAAAGAGACTGACATCTAGGGAACCAGGTAAAGACACTGATTTAAGGGGCAGAGAGTGATCATATATGGCGAAGGAACACCATAGG
TTGAATAAGATATGGTCTGAGAATGGAGCATTGGTTTGAGCAATGTGAAGGTCTTTGGCAACCTTGGCAAAGAGAGATTTCAACGARGTAGTGGAGTTGA
AAACCTGGTCAGAAAACAAAGAGTGGGATAAACAAATATAGATAGTTCTTTAGAAAAATGTGTCAGTGAAAGAGAGGGAAGGCAGGGCACGGTGGCTCAT
GCCTGTAATCCCAGCACTTTGGGAGGCAGAGGTGGGTGGATCACTTTAGGTCAGGAGTTCAAGACCAGGACAACATGGTAAAACTCCGTCTCTGTACTAA
AAATACAAAAATTAGTCAGATGTGCTGGTGGGTGCCTGTAATCTCAGGTACTCGGGAGGCTGAGGTAGGAGAATTGCTTGCAACTGGGAGGTGGAGGTTG
CAGTGAGCTGAGATCATGCCACTGCACTGCAGCCTGGGTGACAGAATGAGAATCTGTCTCAAAAAAATAAATCAATAAAAAGGAGGGACATAGGGTAGAA
TAGGGTAGTATAGGATAGTAGCTGGAAGGAAATCTGACATCATTTTGTTTATGCATTTTAATATGGGATGAATAGTATATATTTGTGTGCTGATGAGAAT
GACAGTTTTTTTTCTTAATTTTTTGTAAAGACAAAGTCTTATTATGTTTCCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCCTCCCACCTTGGCCT
CCCAAGGTGCTAGGATTACAGGTGTGAGCCACCACATCCAGCCAGAGAATGATACAGTTAAAGAGAAAAAAAACAATGATGGTAGAATTATTTTTGTACC
AAATCATCTTTTGAGAGATGGAGCAACACAGAAGGGAATTCCTTGTGTAAATAAATGAGATGGAAACTAGTGTCCAAGTGGAGATACCGGGTACCCACTC
CATTCACAGCAATGTAGGGCACGCCAAGTATGCAGGATCTAAAAGCAAGTAGATGTGACTTGGGGATGACATTGAGAAACACATATGCAAATAAGTTAGC
ATTTCAATAGCAAACAATTTATGTGATGAAGAGAAGAGAGAAGTGGGAAAACATATTATTATTTAATTTAATTTATTTTTGAGATGGAGTCTTGCTCTAT
TGCCCAGGCTGGAGTGCAACAGCATGAACTCAGCTCACTGCAACCTCCTCCTCCCGGGTTCAAGTGATTCTCCTGCCCCAGCCTCCTGAGTAGCTGGGAT
TACAGGTGCCCACCACCACGCCAGGCTAATTTTGTTCGAGACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCTCACTTCGGCCT
CCCAAAGTACTGGAATACAGGAGTGAGCCACTGCACATAGCCATAAATTTTATTATTTCACAGAGTTCTAACACCTCTGTCTGTCTGTCTGTCTGTCTCT
CTCTGTCTTTTCATCAAATAATGATTGTGTACCATGAACTGAGTGGTATGATTAACTACACCTTTGGTTGGAATCTAAGGTCCAAAATGAAAAGAACTCA
TTATCACCATTTGCTCCTCAAAACCTTTAATCCTTCTGAACTGTTCCAATTTAGATTTACTGCGACTGGAACTGCTTCTTCCTTAATGTCTACTAGGACC
TAACTGCTTCTTCCTTAATGTCTACTAGGACCTTAGAATGTTTAATAATAAATAGTCCTGTAACACTGGGGAAGGAGATCCCTAGTGAAGAGCTGCAGAG
CTACAAGGCTTTGTCTTTTGACACTGACTCTTTCCACTTTTCTTTGTAAAGCAAGAGTCAGTTCAGCTTTTCAAATAATTATTAAGCACTATATACCAAG
TAAAAGAAGAATGTCATGCTTACTATGGACTAAGTACTACACTAGGTTCTTTACATATATTTTTTAATTGCCTCAATGACTCTATGAGATGAATACTATT
GTTTTTCCTGTTTTTATGGTAAGGAAATTCACACACTTAAATTGCCTAAGTTCGTGCTGTTAGTAGTGGAGGAGCCAGGATTCCAACCCAGTCAATTTGG
CTCGTGTGCGTGTGTGTTACCATTGCATCATATGCCACCCAGGTTAGGGACACAGAGATGATTATAAACAGCTCCTCGGTGCAACAGGTTCAGATGGTAC
AAAGCCTAGGGSTCTATTGACAGATAAGACAATCAAGAGCCAGAATGTTCTCAGAAAGCTTGAACCCTCACTCCAAACTTACCAGATAAGACTGAYGTAG
GGAGAATATGAAATCTGAACTTTGGTTCCAAAATGAAATGCATCATGAACACAGGATAGGGAGACGTGATGTGACACAAATTCTCTGAAGAAGATCTGGG
TGTTTTGGGTGACTGCCTCAACAGGAGCCTAGTGAGATGTTACAGCTCAAGAGTGAAACCCTGGGCTTAATAGAACAAGGAAGTCCAGAGGGTGGGTGGT
GATGCAAGTGAATGTCCCCCTATGCTCTTGCCAGCTCTGATGACACATAAGTCCCCTGTCCCATGCAAAGGGGCATATTTTTGGAGGAACATGGACAAAC
TACAGTATATTCACATGTGGCTGTTGGCAAGTGGTGAACAAATGATAATGAAACTAGAGGCATAGCTTCTTTAATTATTTGACCTTATGCTATGGAAAAG
ACTTTTATCTTCAGAAGACCCAGTCTGACTAAGGGCATAAGGGCTTGGACGCAGTGGTATGGTAGAATGTCTTCTGGAAGTCTTTGAAAGTGAGATTGAT
ACTCATCTTCCTGTTCCATGTGGTTTCTGCAGCAGCWGAGAGTTGGTCCCAAGTATCTGAGGAGCAGCCACAGGGCTCTGGAATTTTATTCATTACACTG
CAACTGTGGGCTTTGGGAATAGGATGCTCTGAACACTCAGGCCTGGGGTCAGAAGAACTGATGCGTGGGCCCCACCACGAATTCCGAGTTAATTAGTAGT
GAATGAGGCCAGGACACAAACTCCCTGAGTGAGTCTAACATACTGCCAAGGTGGAGGACCACTGGCTTTCCTACCTTCTTAATATGGATGTCATGAGAAC
ACAAAATAGGGACTCAATGGCTTCTTAAATCTTTATTATCAGCAAAAATCCCTTAGAAGAAATTCTATTGTCATTCTCTATTAATATCATCCTTATTACT
CAATTATGGATTGATGTCACAGAGGAGAATATTTCCAAATGGCCAAACCTAAGCAGAATTCTGGCCTTATGCCCCAGTGCTTTTTTTGGAAAGCACAGAT
CTCTTTTTATTACCTCCTTGTTGTTCATTATGGTATTGGTGGATGATATGGGTGTTTTTCCATTAGAACTCCAGCAAACAGTTTCCCGTGAAAGCTTATA
TGAATCCAATACAATAATTCTGGGTTATTTCTGCTAGAGGCTAGATTCAAATTAATGACCTAGGAATGGAACAAACAAAAAAGTAGACACCAATTAATTC
CCAGAGCTCTCCAAAGCACTTTTCCTAATACTTGAAATTTATCACAAGAAAATATATTCTCCTGGTTTCTTTTTTGTTGTTGTTGTTAAGGTTTAAGATG
ATGCCGTAAAACTTGTTACATTTGCTATTCATAATTTATAACCCCATGGTATTCTTCTGTTTATAAAAGTGGTTTATACCTTCATTGATAAGAATTGCCT
TTTCCTCAGGACAAATAATTTAATTTATAATATGAAGGAATAATGAATGGCAATAAGCATGCCAAATCATCAGGAATGCCAGTTTATTTTTCATCAATTT
CTTTTTTTGGGGAGATAAATGTGCAGCTACTTAGAACAAATTGTTCATCATTCTCTGGGGGTTGTGATTCGGAGAAATTAGACTTGTGTTTGTCTGGAGA
AAGCTCGGCTGTGGAATACTGAATTGAATGAAATCTTAGAACATCCTCCCTCTGGTGTAGAAACTCTCGGACAGGTGGGGCTCAGCCACTTGCCCTGAAG
GGTAACTCCGCAGTTCACCAGAGCACCACGATTATAACATTCTTTCTTAGAATTCTAGACACACAACTTGAAGGTACTAGATGCTCTTTTATAAGCTGAG
GCCAGAAAGGTTGCATTTTCTGGGGCCTTGTGGCTTAGATAGGCTGATGTAGTTACATAAACACGGCCTTTGCCATCCACAGCCCTGGGTACAGATCCCA
GCTCAATGACCTCTGTTACCTTGAGCCTCTATTCCCTCGTCTGTAAAGTGAGCACAATTCTTCCTTTCTAGGGTTAGTTTGAAAATTAAATTCGGGTTGG
GTGCTGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGCAGATGACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGTAAA
ACCACGTCTCTACTAAAAACACAAAAACTAGCCAGGCTTGGTGGTACGTGTCTGTAATCCCAGCTATTTGGGAGGCTGAGGCATGAGAATCGCTTGAACC
CAGGAGGCGGAGGATGTAGTGAGCTGAGATTGTGCCACTGGACTTCAGCCTGGGCAACCAGAGTGAGACTTTGTCTCAAAAAAAAAAAATTAAATTCAAT
ACAGGTAAATGGCCTGGTACAGTTCCTGGCATATGGCAGAGCAATCGCCCAAAACCTGTTGAACTGTAGTTTGACCTTCCCTGTCTTCTGTCAAAATCCT
ACCCCTTCCTTCAGACCTGATTCCAGGGTCCCCTTCTTCAAGAGATATCATTACTGCTCCTACTCTCAGTTCTTGCCTCTCCCCTCCCATTTTGTTTGTA
TTTGCTTATTTTTTGGTTTCTAGAAGAAATAGATAATACATGATTGAATGAATGAAYGAGACAAAATCCCTGAGACACTGTGGACCCCYGGCCTGATCAT
CCCCATTTCTCTTCCTCCACAGMGGCCTCTCTGACTAACCACACAGAAACCATCACCGTGGAGGAAGGCCAGACGCTCACTCTAAAGTGTGTCACTTCTC
TGAGGAAGAACTCCTCCCTCCAGTGGCTGACCCCCTCAGGGTTCACCATTTTTTTAAATGAGTATCCTGGTAAGTGAAAGAAAGAAAGAAAAAATGCCAC
CAGACCTTAACCTGAGGGTTTTTCCAGCCGGACAGTTTGGTGGGACAGAAAGCCTGCATGAGTCACCCAAGGGGTGGGCTCAGCCCACCTACTGTTACAC
ATGAATCACGCCTCCAAATCCTGTTATTTTACACGCAGTGGCTTGCTGGGGGCAGGAACTGTGAAATGGAAACCCCACCAGAATGGTTGTTAAAGGGGGT
TCAGATTACAAAGCACATTTCCATGTCCCCACCCCACACTCACACCACTTTTTCACTCTCAGTAACTATCACACAACCACAGCACAATGACAGACAGGCA
ACCAACTGACTGGGAGCCCGATCCTCATGCAACCACCACCACCCCAGATAAGAAGCCAGCTGCTTCGTTTTCCATCTGAGCAATCCAAAGGCACATTACA
AAGCTCCTTTCCAGATAGCTCTTCTTCTCCTGTTGGTCTTAACATAAAATCAAGATTTTTAAGCAATAGAAATAGACAGGATGTATTAATTTGGAAATGA
GGACAGTCATTTCTCTTTTCACAAACACACATGAAGAAAGTACAAGATGTCTGAGATGGAAAAAGACTCTTAAGAATCTCTTGGGTTCATCTCTTTGACG
TTAGGCAGGGTTTTACTAAACCCTAGATCATTTTATGTCTCCATTTAATATTGCTAACTGCCAAATACTTGGAAAAGTCTAAAACACATTTCAGTCTTAT
TTATAAAGCAGAGCCTCTTAAAGCATATCATGCTGGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACTGAGGCTGGCCGATCATTT
TGAAGTCAGGAGTTCAAGACCAGCCTGGCCAATATTATGAAACCCTGTGTCTACTAAAAATACAAAAAAATTAGCTGGGCGTGGTGGAGCACTCCTGTAA
TCCCAGCTATTGGGGGAGGCTGAGGCAGGAGAATCACTTGAATCTGGGAGATGACAGTTGCAGTGAGCTGAGATAGTGCCACTGCACTCCAGCCTGGGCA
ACAGAGCAAGACTCTGTCTCTAAAAAAAAAAAAAAAAGTTATGCTTTGAAAGCATTATTAGATACTGATATGTTAACATAAAGAAATATATTATTTCAAG
CTAAATCAACTAGAAGTAAATACTAATTGTTAAAAGTTCTGAGAGAAAAAAATTTTAAATAGAGATAATTCTGTTACATAATGCTTTTTGTTGTTTTGTT
TCTGGTTTTGGTACACTGGGAGAAGAGGGACTCTCTCGGATTTCTGCAGCAGAATGGCTTGATCTAGCTCAGTGGTTCCCCACCCGGAATGATCTTACCT
TCCCGTGGAGATAGGACAATGTCTGGAGATAGTTTTGATTGTGCCWAATGTAGAAAGCGGGGCAGTGCTTCTGGCATCTACTGRGTAGAGGCCAACGATT
CATCGGATATCTTTCCTCATAACAGCTCTATTTCCCTCTTGTACAGCTTTAAAAAATTCCAAATACCAGCTTCTTCATCACTCGGMCAATCAGCTCTCCA
TCACTGTGCCTAACGTAACCCTGCAAGATGAAGGCGTGTACAAGTGCTTACATTACAGCGACTCTGTAAGCACAAAGGAAGTGAAAGTGATTGTGCTGGG
TAGGTACCTGCAAGTGAACCCAGTAGGGGAGCAATATGGATAGGAACACGATATGTCGTTTTTAAACTGAACCTTTTAGTTTAAAAATGTTGCCTAGAGC
AAGGAATTGCCTGGGACACCTCTGCCATCTTTTATTGAAAGGAAACAGAAGAGAGCATTTTGAGAAGCAAGACCAAGATTGAACTGTGAACTTGTGAAAT
TTGTCTTTGACAGCAACTAAATTTTCTCTCCAGGGAACTAAAAGAAAAGAAAAATTGATATTTGATGAGCTGCGACTATGCGCCAGGCACCATGTGAGGT
TCTCGGGAATCAGAGATGAATTAGGCACAATCTCTGCCCATAAGGAGTTTGCGCACCAGCTCAGGAAGAAAAACATGTATGCAAATGAAGTGGAACCTCA
TGACAGCAAATCCTAAGATAGAATGAATTCAGATGTAGCTGCACTGCTTGATCTGCTCAAATCCTCTCTGCCAAACAATTCCTCTTTTCTGTAGGAGGGC
GGGATTGGGAGGTGCGGATAGGAAGTGACAGCCTCCTAATTACCTGGGACTTACTCAGTTCTACAGATGGTCAACTGTGTCCAGTATGTCTATCCTTACT
TGTTTTGTTTTTTGTGGCAGAACAGATCGATTAAAAACATTGCTTTTTATTGATCTCTAAGTAACATCATCTCACATATCACACAAATGAATGTCTTAGA
CTTCTCCTGTTGAATTACTGCAGTGTGGTGCCTGCCATACGGTAAAGGCATGATGGGAAAGTAGCTGAGAAGGAGTGGCTCTCGGGGAGGGGTTTGAGAA
CCATTGTGACTCAGCTCAGCGTTGTCTTTTTGTAAGGGAGCACACATCCTGGCTCAGCTGCTTGTGTGCCCTTCTGGGCTCTCATAACACCCCATGTATA
CTCTGTCATTGCTCTCAACACATAATCTTTTCATTAACAGTTTAGGGGCTGAAGCCACACCAGACTATTAGCTCCTTGAATCATACCTTTTTCATCTTCG
TATTGCCAACAAGTAACACATCTAATGTATATTTGGAGCTAAGAAGTGCCTTTATAAGGTCTTGATGGCAGATGGGTGAGTTAAGTAAATGGGGAAGAGC
TCAGTTCTGGACTGAAGTGGAAGTAGAATGGGAAACAGGAAGAAGCAAGCCTAACTAAAAAGTATTTCCAAGACAGAAGTATAAAGAAAAAGGACGAACA
TGCCCTTTATAAGATAAATGCACCTTTTTTTTTTTTTTGATGGGGTCTTGCTCTGTTGCCCGGGCTGGAGTGCAGTGGCGCAAACTCGGCTTACTGCACA
CAACCTCCCCATCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTGCACCACTATGCCCAGCTAATTTTTGTATTT
TTAGTAGAGATGGGGTTTCACCATGTTGGTTGGCCAGGATGGTCTCGATCTCCTGATCTCGTGATTTGCCTGCCTTGGTCTCCCAAAGTGCTGGGATTAC
AGGCGTGAGCCACCTCGCCCGGCCTCATATACCACATTTTAAGAATTGTTGCTACATTGCTTGTTCGGGAATTTTCAGAGACTAACAACACACTGAGTAA
TACACATTCTGGCTTCAGCCAAAGTAGCTTTGCAAGCACATGAAAGCCCTTTAACATGACTGTATTCTGGAAGAGATTAAGTTAAAAAATATGGGCCGGG
CGCAGTGGCTCACACTTGTAATCCCAGCACTTTGGGAGGTGGAGGCGGGCGGATCAATTGAGGTCTGGAGTTCGAGACCAGCTTGGCCACAGAGAAATCT
CATCTGCACTAAAAATACAAAAATTAGCTGGGTGTGATGGCGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCGTGAACCTGGG
AGGTGGCGGTTTCAGTGAGGCGAAATCGTGCCACTGCACTCCAGCCTGGGCGACGGAGACTAAGTCTAAAAAAAAAAAGAAAGCCCATTAATTAGAGTAT
ACCCTATAACAATCACCTACAGATTATTAGCCTCTGTGCTTTGTTGAGATATGCAGACTCATATCTAATTAACACAGAAAAATCCATTTTGTTCTAGCAA
CTCCGTTCAAGCCAATCCTGGAAGCTTCAGTTATCAGAAAGCAAAATGGAGAAGAACATGTTGTACTCATGTGCTCCACCATGAGAAGCAARCCCCCTCC
GCAGATAACCTGGCTACTTGGGAATAGCATGGAAGTGTCCGGTAAGGGGAGAAATGGTTCTCTTTGTCTTCCTTCCTACTCAAATTTCCAGGGGATTTTT
AAATGTTTTGGCACCCTCTAGTGGCAGACAATGCCAGAAGACATCATTTAATATTTCATCAGCTCTTTTCCAGACAAGTTATTCTTACAACCAATCAATT
TTATGCCTTAATCTTGAAAGGCTAATCATAGATATTGAAAATGTTTTTGTTTAAAACAGGTAAAAATSTAAAGTGAACTATAATGACTTCTTAAAATTTC
ACAAAATTGTCTAAAATAAGTATAATACAGAAGTATAATATCTCAGGCGAGGCACAATGGCTCATGCCTGTACTCCCAGCACTTTGGGAGGCCAAGGTGG
GTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCTCGTCCCTACTAAAAATAAAATTAGCTGGGTTTGGTGGTGCATGCC
TGTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGTGGTGTGAGCCAAAAATCACACCATTGCACTCCAGCCTGGGCAACA
GGAGCAAAATTCTATCAAAAAAAAAAAAAAGAAGAAGTATAATATCTGTGAGCATAAACTTTTTCCCAGATATAAAATCGAAAATATATTTAACATAATA
CATATAATTGGAACAGATATGATCTTCCCTATATTGTATAGTACTATATTGTGTCATACCCACAAGAACAGATTAAAAATATTCTTGTAACAAAGCACCT
AAAGGTTGAGCCTTTGAAACAGAATAACTAATTAATTATGGTGTCTGGGTACTGTTTATAGTTTGCTTACATTTCAACAGACATTACCTTTGATATCTAT
GTAATCAACCATCTTTTTTTTTTGAGATGGAGTCTCACTCTGTCTCCCAGTGCAGTGGCACGATCTTGACTCACTGCAACCTCTGCCTCCTGGGTTGAAA
CRATTCTTCTACCTCAGCTTCTGGAGTAGCTGGGATTACAGGTGCATGCCACAACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCAT
GTTGGCCAGGCTGGTCTYGAACCCCTGACCTCAGGTGTTCCAACTGCCTCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCTG
TAATCAACATTCTTAGAGTTGCAAAGGACYCTTTACAGTTGAGAACACTGAGGGCCAAATGGAGTTCTAGAGAGAAAAGACCTAAACCCAGATCTGATTC
CCAGGGCAGTGCCAATTCTACTTCATTATAAGACTTCCCTTTAATTCGCCTTATTCATATAACCAGAATAAGGTCTTGGATCTTTGTGTTTCATAACAAC
ATCAAGCTGTCCTTCTTAAGCTTTGAATTTTTTTTTCCAGTAGTGAAAAGTTTGTAGAAAACCATCATCTACTCTCATTCATCTGTTTGCCTTTGTGACC
AGAACCAAGCCTATACAAGGGAACTGGCTGAGGTTAGAATGAGGTTAGAAATCTAATGTTTGCCATGAAGTCAAGGCCATTGGCCTCTAATAGAACCAAY
CTCATCCAGTAGCATTAAATAGCCATAACCTCTTCAAATTGCTACATAGGTGGAACGCTCCATGAATTTGAAACTGRTGGGAAGAAATGTAATACTACCA
GCACTCTCATAATCCACACTTATGGCAAAAATTCAACRGTGGACTGCATTATCCGACACAGAGGCCTGCAAGGGAGAAAACTAGTAGCACCCTTCCGGTT
TGAAGATTTGGGTAAGAAGAACTAATGATTCTCTTGAATAATTTTTGATTTACTTTAATATTACACTATCAAACAAAATTAAATGCAGTGGGCAGAGTCC
TTCAGATTAAGATTACTGCCAACAAAGCTTTCCTAATAGCAAATTCCTGTAYTGATTGAAATTTCTCCAGGTGAGTGACGGAATTCCAACTATTCCAATG
TTCAAAAGAACCCCAGTTGAGCAGAAAGCCTAGCACAGCGCCATATGCAAATAGTGTCATGCTTGCTTTTTGATAATGACTTTAAATCGTTTTATTGCTG
TTGTGTTTTTGGAGTAATCATATGAATCATACTGCATCTTTGTACTTGACCCAGAAGGAGATAATGTTAGCTGAAATAAACCTAAATTGTCAATATCATT
TTATGTGAATATGAAACACACAGATACATGAAGACATAATTCCTGTTTAGATTTATTTTATTGTTATAATTGCTTTGAAGATTTTAGTTTAACCATGTTA
ATATTCTGAGTTGAACACCATTTTAAACATCCAATATTAAATGTGAAGAGGAGTTGCCTCCATTCTCAGAACCTCTATTCTATGATTCTTTCCCCAAAAG
TCCAAGAAATAATTTTAAAACTGTACACAACTCTTTGAGCCAAGAGGTATCCTTTAAGATGCATGAGTCCTGTAAGAAGTCTGCAATTAGTAGGACTCTG
AGTTTCACTGTTTTACAAGGTACTTCTCTGTGTAATCAAATCCTAAAGTATAAGGAATTACTCACATCAGTGAAAGAGGAAACTGTTGGATGACAATGCA
TTTATTGAAAAAGCTCTTTTATCAGACGAAATCGCTGATGCTGAAAGGCAAGCTTGCTTAGGAGAACCTCACTGTGGGAAAGCTGCCGTGATGCCCTGTG
GGGGCTGTGGCTGCGGTTAACAGGCCCCCTCTGACTACCACAAACTTTCCATGGGTCACTTTCTCACCAAACCAAAAGTAGTCATTGCAGAAGCTGCACT
GTAAGACTCATGGACCTACAGACCGAGCTGTACAGTAACCTTACACAACCACCCCCACCCCTCTGTGAGTCATCCCCACCCCACGCCTCCACCTCCAGCA
GTAGAACTGAAGCATAGGGCATGTGGGGGATGAGCCTGTATCTAAAAGCTTCCTAAAGACATTCAGGTTCTTCAATAGGAGAACCAACAATGTCGAAAAA
AATGCATTCTTAATTTTCAGCAATTGTTCAAGCCATCTACAAAAATTACTATGAAGGGGGAAATGGCAGTTCTCCACCTTTACGGCTATAGCTCTGTATG
ACTCAAAATTATAGCTAAAGATGTTTTTAATAATAGGCTAAGGCCAGGCGTAATGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCCGAGGCGGGCGG
ATCACCTGAGGTCAGGAGTTCGAGACCAGTCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAATAAAAAAATCAGCTGGGCATGATTGTGGACGCCT
GTAATCCCAGCTACTTGGGAGGCTGAGGCACAAGAATCGCTTGAACCCGAGAGGCGGAGTTTACAGTAAGCTGAGATCACGCCACTGCACTCCAGCCTGG
GCAACAGAGCRAGACTCTGTCTCATAATAATAAGAATAATAGGCTAAGACTTAATTTTTATTTGTGATCTATTTGCTGTACTCATTGCCAGATCTCCAAA
TAGTATTCAAAGAGAAACGCCAGCATCAGCTGTTGATAGCTTCCATTAGTTCATTGTTTCTTCCATTTGGCTAGCTGCTACTATATTGACATATAGATGT
TACAAACATTTTGTTCACCCAATTAGGTAAAAAATATTACTAGCTGAGGATGCTTTAAAACACATTTACACATAAGGGTTCTGACCCCTTTCATTCCTGT
GCTCTGCATGGAAGGACCTGGGTAAAGTGAGGGTCATGCCAGCACCAGGACTAGGGTGGTCCTGAGGAAAGAAGTGCCTTCCTCTGAAAAAGCCACAGTG
TGATGCTTCGAGAAAGAGAGTAGAGCAACAGGAATTGATTTTTGAATAGGCTATCTTTGTTTTTATGTTTTGTTTTGTTTTTTGAGACAGGGTCTCACTC
TTTCACCAAAGCTGGAGTGCAGTGGTGTGATCGCGGCTCACTGCAGCCTCAATCTTCCAGGTTCACAATCAGTCCTCCCACCTCAGCCCCTCAAGTTGCT
AGTACTACAGGCATGCACCACTACATCTGGCTAATTTTTAAATTTTTGCTGAGACGGGGTCTCCCTATGTTGCTCAGGCTGGTCTCAAAACTCCTAGGCT
CAAGAAATTCTCCCTCTTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCTCACCCAGATTTCAGAATTATCATTTATTTATTTCTTTTCTTG
AGACGGTCTCACTCTGTTGCCCAGGCTGGAAGGCAGTGACACAGTCTTGGCTCGCTATAACCTCTGCCTCCCAGGCTCAAGTTGATCCTCCTGCCTCAGC
CTCCGGGGTGGCTGGGAGCACAGGCATGAGCCACCACGCCCTGCTAATTTTCATATATTTTGTAGGTATGGGGTTTCGCCATGTTACTCAGCCTGGTCTT
GAATTCCTGAGCTCAAGCGATCCCTCAACCTCTGCCTGCCTCCCAAAGTGTTGGGATTACAAGCATGAACCACCACACCTGGCTCTTTTTGTTGTTCTTG
TTGAGACAAGGTCTCCTTCTGTAGCCCAGGCTGGAGTGCTGTAGTGCAATCATAGCTCGCTGCAGCCTCTACCTCCCAGACTTAAGTGATCCTCCCACCT
CAGTCTCCTGGGTAGCTGGGACTACAGGTGCACACACCACACCTGGTTAATTTTAAAATTTTTTATAGAGACAGAATCTCATTATGGTGCCCAGGCTGGT
CTGAACTCCTGGGCTTAAGTAATCCTCCCTCATCGGCCACCCAAAGCACTGGGATTAGAGGCGTGAGCTACTGCACCTGGTTTATTTCATCTTTTTAGTA
TTTAAAATGCGGAATCTTGGTTTTCTATTACTTACCTGGGGATAGGATTTTTTAAATATTTGAAAAACAGTTCTCAAACTTTTGATTTCAGGACCTCTCT
ACAATCTTAAAAATAATCGAGAACCCCAAAGAACTTTTACTTATATAGGTGATGTCTGTCAATATTTACCTATTAGAAATTAAAACTGAGAAATTAAAAA
AATATGTATCTGTCAATTTATTTTAAAATAATAAATCTGCTACATGTTAACAGAAATGGCATATTTGTTTTTATTTTATTTTTTGAGATGGAGTGCACTT
ATTTTTTGAGATGAGTGCAGTGGCCCGATCTCAGCTCACTGCAACTTCCGCCTCCTGGGTTCCAGTGATTCTCCTGCCTCAGACTCCTGAGTAGCTGGCA
TTACAGGCTCCTGCTACCACACCTGGCTAATTTTTTTGTATTTTTAGTGGACATGGGGTTTCGCCATGTTGGGCAGGCTGATCTTGAACTCCTGACCTCA
GGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGTATTACAGGCGTGAGCCACCGCATCCGGCCCAGAAATGACATATTTTAATGAAAAMAAAAAGTAT
ATTTTGTAACACTGAAAAGATTAGTGTGAAAATGTCATTTTTTTACATTTTGAAAATCTCATAAATGTCTAGCTTAACGGAAAACAATTAGGTTCTTGTA
ACTTTTGCATTCGATCTCTTCCAAAATGTTATTTTGCTTTAAATAAATATATAAAAATTCAATCTCACACAAATATATAATTGGAAAAGGGTAGAATATT
TTAATAGCTGGTTCAGATAATTGTGGCTATTCTTCTTTGATGTTACACCAAAACTCAACAAGTAGTAGTTTCTTAAAGATTAGTTGCTATGTGGACTCTG
GGCCCATGTCAATGAACTTTTCATACTGTTATATTAAAACCCACTGAACTGTCTTACACTTTGCTTAGAATTTTTACCCAGGCATGATTTTTCTAACATT
ATGTTTTAGTCATTTGGAAAATACTGATTCACTAAGTTCTACAGAACTTTCCAATGTTGATATATTTCAGCATCAAAATCACATTCATTAATATCATCAC
CGATCTCATCAGAAATCTTTAAGCATTTGGAGGTTGTCAAACTCACAGTGGTGGATACAAGTTGTCCGAAATTTGAACTTTAAGTGTGACTATTGCAAAT
GAGGAGCTATTTTATTTTTTGAGATGGAGTCTTGCTCTTGTCGTTCAGACTGGAGTGCAATGGTGCTATCTCAGCTCACTGCAACCTCTGCCTCCCAGGT
TCAAGCAATACTCCCRCCTCAGTCTCCTGAGTAGCTGGGATTATAGGTGCCCACCACCATGCCCAGCTAGTTTTTGTGTTTTTATTAGTAGAGTCAGGTT
TCACCATGTTGACCAGGCTGGTCTTGAACTCCCGGCCTCAGGTGATCTGCCCGCCTTCACCTTCCAAAGTGCTAGGATTACAGGTGTGAGCCACTGCACC
TGGCCTAAATTTTTAATATATTTTCATTTTAATTAATTTTAATTTAAATAGTCGTTGGAGCTAGTGCATACCATATTGGATAGCAGAGGTCTACAATATT
CTGACCAACTAGGGGGGTAGATCATCATGTGCCAGTATCCACCCAATTAAAACAACATTCAGTCTAAATGCAATAGTTTGCTAGCTTGTTAATTAACAGG
ATAAATCAAAGTAAATACAGAGTCTAGTTTTAAATATGTATAGATAAAACTTGTTTTGTACATAAACATAATTTTCTGAATTCACATARTATATACTATG
TTAGAAGATTTAAATCACTATTGATAAATTTTATTCTATATGTCCCCAGTGATGTCCTTCTTCTTTTTTAAAATTTTGAGACAGGGTCTCACTCTGTCAC
CCAGGCTGGAGCGCAATGGTGTAATCACGGTTCACAGCAGCCTCGACCTCTCTGGGCTCAGATGATCCTCCTACCTTGGCCTCCTGAGTAGTTGGAACTA
CAGGGGCGCACCACCATGCCCAGCTATTTTTTTGTAGAGATGGGGTCTTGCCATGTTGCCTAGGCTGGTCTCAAACTCCTGGGCTTAAGCAATCTGCCTG
CCTCGGCCCCCCACAGAACTGGGATTACAGGCATGAACCATTGTGCCCGGCCCCATATTCTTCTTAAAATTTATTCCCAGTACTTCTATTTGACTAGCAT
TCCAGCTTTTCCCTCTTTTCATTGCCAGCAGCTCTCCTCTTTCTTCAATTTTCTCTGGCACCTGTGTGGTCAGAGTTCATTTTAGCCTTATAGTCTATAC
TATTATCTCTATAATGTTTCCTTAGTAATTCTTTCTTTCCTCAGAGCCCTTACACACAATTCAGGTATTTTTATATTTTTCATACAGTTTGAATGTTTGA
TTAACCAGATATGTTTTCAAAACCATGGAAAATTATTTGATTAAATAAACACCAAGAAGCACTCACAAATTTTATAAAAACATGAACCACCTGTGACGTG
TCAGTATATATATATACACACACACACACATACATATACGTATATATATATATATATATATATTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGAGGGAGT
CTCCTCGCTCTGTCGCCCAGGCTTGAGTGCAGTGGTGCCATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCTTGCCTTAGCCTCCC
AAGTAGCTGGGATTACAAACACACACACACCACCACGCCCGGCTAGTTTTTTGTATTTAAAGTAGAGATGGGGTTTCACCATGTTGACCAGGCTGGTCTT
GAACTCCTGATTTCAGGCGATCCACCCACCTCAGCCTTCCAAAGTGCTGAGATTACAGGTGTGAGCCACTGTGCCCACCCGACATGTCAGTGTTAGTATT
TGTAAAGTGACAGGCACAGTTATTACATGCTTCCTGGATGTGGCTGGTAAAACCTGTTCAATGACTGGTAAAACCTATACTAGGCTGACCCTCTGGAAAC
ATTCCTAAGCATTGATTAATGTTATACAATAACATTTAGCACTGTGCTTCATAAATAGCTAGGCATTGTACTAAACATGTTATATAAATGAACTTACTAA
TTCTCACAAAACACTCGAAGAGGTAAATGCTGTCAGTATCTCCRTTTTACAGATAAGAGAAAAAAAAGTGCTAGGTCGGGTATCTTGTCCAACTCATTCA
GGAGCAGGTAAATAGCAGCACTGGAATTCAGCCCAGTCTGAGGCTGATTCCAAAGCCATCTAATAGGTAGATAGATAGGTGGATGGGTAGATAAACAGAC
AGAKGGATTGATTGATGGATAGAAGGACACAGATAGAAACAGTGAATACTCTTTGCCTACCACTGCCACCACACAGAGGTCCAGCATGCTGTGCTTTAAG
CCAGGCAGGTGAGCAGATGGACACTCAGTGGGATACAGATTCAAAAACCAGAGCAGGAGCCACAGAACACACAGTTCTGGGGTTTCTGCACRACCTCTAC
AAGCAGGTAGCYGCTAAATATATTCTCCAATCTCTTTTACTGAGCACAATGTGGGTAAAACTGCTCTCTATAGTAGCAGAATTTTGTTTTTCCCCTTTCC
TAGTTACTGATGAAGAGACAGCTTCAGATGCTCTGGAGAGAAACTCTCTATCCTCTCAAGACCCACAGCAGCCCACCAGTACTGGTAAGTGTCAAAATCA
TTCAAACTTGTTTTTAAAAAATCACGTTTCCTTGGGAAGGTTATTTTTCTCATTCTAAGTTTTAAGAATATTTTTTGTTTTAATTTTTACTAAGACCATA
CAGGCCCCTCCAACTGGCTCCAGCTTTGTACCATCCTAGAGAAGAACCACATCAGGCATCGGAATACTTAGTGGGATGGGCTTCAGGCTGACATAAAGCT
TTGCAAGTTCAGTTCTAGTTTGCCTGAGATAGAGATGTACACATGTACACACACACATTCACGACTGTGACATTTGAATTTCCTCTGCAGTAAAGGACAA
AGTTGAATTCATTTATAGAGAGACTCGTTTCTTTTTTTCCCATCTGAAGCACACCAAACACAAAACACAGACTTGGTATCAACAAAGAGAAAAGAAGCAG
AAGCTGGAGATTTGGTGTTGTCATTGAATAACAAAATCACCTCTGAAGGCACATCAATTACTTGATTGTCAATAACTCAGGTCATTTTTGATGATGGGAT
TGAACTACAAATACAGAATAATTTAGAAAGCCTGGATTATAATTCCARTTTTTTAGACAGTGAACTCACTAGAGGTTAACTCAGAGCAATGATTGTATAT
CTAATTTAACTTTGTATTTTACCTAGCATAGTATCCAGCAATAGCAGCTTCTCAGAAAATGAATTACGAAAGAAAGAAAGAAARAAAGAGAGAAAGAAAA
GAAAGAAAGAAAGAAAAAGAAAGAAAGARAGAAARAAAAGAAAGAAAGAAARARAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAG
AAAGAAAGAATTGGTTATGGTGCTTTGAGCAAGACTATTAGCCTCATCCAGAAAGGCATAAATTCCTACATATTCTCTTTCCATTTCATGTAATGTGTCA
ATAATAATTTCATTTGTTGGAATAAGGGCTTTCAGAGCATTATCATGTTCATAGTTCTGAGTATCAGATCATATTTTTAAAAATTTGTATCCTAAATAAT
ATTTAAAAGTAAATGTTTGGGATTTCTAAACACTGATAAATACAACATGTACCATACAATTTTTTGAAGGACAATGGAAATTGAAAATATTATGAAGTGG
AACAGCCACATCACTTGCTTTAATAATCCAATATTTGTAAACGTGTTTAGAATCTAGTAATCTTTAACGGCTTGCTACTGAGCAACTCAATTTTCTGCTC
TGCTTTTTCATATATAAGACTTTTAAAATAGGGTTTCTAAAATTCCTTTCAGCTTTCCATTTCTACGATTTTATTACATTTAATACCCATTTTCAATAGA
ATGGGAGGCTTCATTCCCCTCGGGGTCCACATAGTGGCGCTGTGCAATGGACTAAAAAGCAAGAAACTGCAGAGAGAAAAAAGGAAATTGGAAACATCAG
CAGTAAAATCTGGAAAAAAAAACCACACAGTTTCTGATTTTTTATAATTTATCTTATCTAGAAAAAACATCATAGTACATCCCACTTCTAATGGGGAGGC
AAGCAGAGGTTTGAATAACTGAAGCTATATTTCAACATAAATTTCAGGCTGTAGGTTTTCTATAATTAAAGCTTGGAATGCCGTTCCTCGGTGTTCAGTT
GTTATCTTGAAGCATCCTAAAGACCTTCTCCCTAATAGGCCTGATTCAGGATGGAAATATGAAATAATGGTTTAAATGCTGGGCTCTAGAGTTAGGTAAA
ACAGAGTTTATGTATTGGCTTTGCCACTTATTTGCTACAGGACTTTAGGTACTTTACATAACTGCTCTAAACCTCCGTTTTCTCAGAGCTGTGGTGAGAA
ATAATATATACCAAGTGCTCAGTTCAAGGCCAGGCACAGAGTAAATGCCCAAAACATTTACCTTAAAAAAATAAGGCAAAGTGAGCCTAGCCATTTGCAA
TTATGTTTGCAAGAAATCCATAGTTCACAAATGATCTCAGTACTGTTTTTAAATTTGGCTTCCCAAGCTGCTCTGGGAAGACTTACGTAACTACAGTTGT
ATGTAGTCACATGTATATAATGCATGCATAGCTCATGTTTTATCTTCTTTCACTTTAGTCTCAGTAACGGAAGATTCTAGTACATCGGAGATTGACAAGG
AAGAGAAAGAACAAACCACTCAAGATCCTGACTTGACCACCGGTAAGTGTCACCCACTGCATTTAGAATAAACACTCGACATTTTAACCTCTTAATCGAT
AAATTCAATGGCCTTTGTCAGTCCTCCCTTTTCTTGACCTTTCTGCCCTTTAGGACATGATTGGTTAATCACTCCCTTGTCCCTCCTTGATTTAGTTACC
TCTCGGCTTCTTGACATACTTTTCCTGGTTCTGTTATTTGTTGCTAACCACTGCTTCTCTGTATCCATTAATTAACTTATCTTCCTCTTCTGACTTCTTA
AATGTGTATGTACTTCTGATTTTACTTCTCCATCTTTTGTTCTTCCCTTTTTTTTATATATATATATTTTTTTTGTGAGACAGAGTTTCTTTCTTGTTGC
CCAGGCTGGAGTGCAGTGGTGCAATCCCAGCTCACTATAACCTCCACCTCCCGGGTTCAAGTGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGATTAC
AGGCACACGCCACCACCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTATCCATGTTGGTCAGTCTGGTCTTGAACTCCCGACCTCCGGTGATCT
GCCTGCCTYGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCTGTTCTTCCCTTATTTTTTAAAGAGTTTACTCATTCCCAAGATG
GTTCCTGTTGCCACTAGGCAAAAGATTTCTCTCTTTTTTTTTTCTGGTTTTGTTTTGTTTTTAGAGACAGGGTCTCTCTCTGTCTCCCAGGCCAGGGTGC
AGGGGCACGATCATGTTCACCRCAGCCTTGAACTCCTGGGCTCAAGAGATCTCCTACCTCCACCTCCCAAATAGCTGGGATTACAGGTGTGAGCCACTGT
GCCCAGTAAGCAAAAGATTTCTATACCTATATTTCCAGAACATCCTCCTCAGCATTGCTCCCAATTTCTTTCCATTTTCTATGTATCTGTAGCTGAATTT
TCTGTGATTTCCCCAAACTCAACATTGCTAAATACCAAACRGCACCTTCTCCCACAAAATCAGCTTGTCCAAAGCATCACACAGGCCCCAAAGCAACACA
CGGGTCCCAAACCTTGGTGTTATCTATCACTCCTATGTATGTGTACAAATATATCTATGTGTATATGTATATGCATATGCACACAYGTATATAAAATCAG
TCAATTTCCAAGAACTTTTGAGTCTTGTCTTTCAGGTATTTTGTCCATTGTCACTGTTAACGTCCCAATCCAGGCTCTCATCATCTCCTGCATGGAGTAT
TATAACTTCAGTTTCTCCTCCTCTGGTTCACTTTTAGCACCCTACCATCAAAATATCTCTTTATCTGCATACCTGTGTTCTAAAACCCTTTATAGCTTCC
TGAAGTCTACAACACAGAGCATGAGTCCCAAACACCTCATTAGGTGCCATCTATTACCTACTTCTGCMGTCTCATATCTACAAAGTCCTTATGAGATACA
TATTTTTCTCTGAAAACATCAACCCTTTTCAATCGCCCTGCCCTTGTTTATCCTCACTGCCCCTGGTGGAAGAGGAGACCTCCTCTCACCTCTCCTTACT
CCCTCTTCAAGGCCAATATCTTCACTGAAAACTTTTTTGACCAACTCAACCCTCAGAGACCATTCTTGCCTCTGAACCCCTGAACACACTATGATATAAA
TACATATGGATCCAGAATTTGACATATCTTACTTTTGTTTGTTTTTATTAATTTGTTTATATATAGAGACAGCTAATCCCCAAAGCATGTGAACTGTGCC
TTCTGTAGGTCCAAGCACAATGTTCTACACATAGCTGGCACTCCTTAATTATTCATTGGTTAAGATGAGGTGACTAGGACATTTAGCAAGACTACAGCCC
ATAGAATCAGAATTCTAGGTTTAGAAAGCCTTTTTTTTTTTTTTTAAGAGACAGGTCTCATCTGTCTCCCAGGTTGGAGTGCAGTTTCACAGTCATAGCT
CACTGTAACCTTAAACTCCTGGACTCAAGTGATCCTCTGCCTCAGTCTCCCAAGTAGCTAGGACTACAGGTGTGCACCACTGCTCCTGGCTAATTTTTTA
TTATTATTATTTTTGTAGAGACAAAGTGTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTGGCCTCAAGCAACCCTCCCATCCCAGCCTCCCAAAGTGC
TGGGATTACAGGCATGAGCCACTGCACCTGGCTAGAAATATTTTCACAAGCTCATCTGATTTAGCCCAAATGCCTTCCTGTAGGGCCACATTTAACCTAA
CCAAGATAAATAAATTTTCRTTTTATTTGGATAGTTTTTTAAACTCCTTAACAATCCCTCTTGCTACTTAACTATATTTTGCTAAAAATCATTCCTAAAG
CTAATTTGAATCTCCTGACTATAACTTAAGTCGATTTTCTCATATGCTTTCTGTAGAAATAAAAAATAACTAGCCCAATAGCTACGTCACTTAAAAAATC
TTTTCAAATCATCACACATAATTGCCTTGTTTGTTGTATGCCTGTTTGCTTGTTCTCAGAGAATGAACAATGTAAGTCTCTTTACCTTCAGGGGTAAGCT
CTTTCTCATCTCTTCATCTGAGCTGTCTATTAGCTTATATCACATTGTAGAAGTATTGTTACATATTCTCCAGTGGCAAAAAAAAAAAAAACCCAAAGTA
TCTAAACTCCTTTTTCATTTTCCTTATAGAAGCAAATCCTCAGTATTTAGGACTGGCAAGAAAGAAAAGTGGCATCCTGCTGCTCACGCTGGTGTCCTTC
CTCATTTTCATACTCTTCATCATAGTCCAGCTCTTCATCATGAAGCTGAGGAAAGCACATGTGATATGGAAGARAGGTCAGTGGGCAGGGAACCTGACGG
GGGCTATAAGACGCCAGAACAAATGGCTAAAAAAAAGGGAAATTCTGTCCATTAAAGCTTTCTGTCAGACACTACATAATCTATTTGATAAGTGCTGTCT
CAGATAAGCAATTGTTTGTTTTCTAGTAAACTCGGGTGTGAATCTCCAGGGACTATAGTCTAAGAGTGTATAATCAATAGAAACTAGCATAGATCCAGAA
ATTGGCATTAAATGATAGACACTTCTATTCACAGAAGGATAAAAATCCCAGGACTGCCTAGCACAGTCCCTACAGGAATCAAAAACTATGTGTTGAATTA
ATGAGGTATGAGTTATGGGAGGGGCATGGTAAGTCTACTATTGCACAGTAACAGAGGTATTATCTTATTCAAATATACATTTCTACATGTCCATGGCATC
AGAAATTAGTTGCTTGATTTTCTTTTTTTGYAGAAAACGAAGTTTCAGAACACACACTAGAAAGTTACAGATCAAGGTCAAATAATGAAGAAACATCATC
TGAAGAGAAAAATGGCCAATGTAAGTCAACTGTATGACCTGAGATCTGAACAATGAGGTTCATTAATGTATTAGTCAGATTTCTCCAGAGAGACAGAGAC
AACAGAAWATRTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGAGGTGGGATTTATTAGGGGAATTGGCTCATGAGATTATGGAGGCT
GACAAGTCCTTGGACAGGAGGTCTGCAAACTGGAGACCCTGGTATGCTGGTAGCCTGGCTCAGTCCAAGTTCAAAGGCCTGAGAACTCAGGGGACCGCCA
GCGTTAAGTCCTGAAATCCGAAGCTAGGGAGTCTCGAGTTCTGCTGCCAGGAGAGAGGAGGGAGTGTATTCCAGCTCCAGCAGACAGATCAACACATTTG
CCTTCTTTCTGATTTTGTTCTTTCTGGGCCCCCAACAGAATGGATGGTGCCCATCCACATCAAGGGCAAATCTCAATGCCCACCTACTCCACTCAGACTC
ACACACTAATCTCCTCTAGAAACAACCTCATAGACAAACCCAAAAATAATGCTTTACCAGATTTGAGGTATTTCTTAATCCACCCAACTTAACACTTAAA
ATTAACCATCGCAATTAAGTAGTCGCCTTTAAAAAGAAGGAGGCTGGGTACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGG
ATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAATACAAAACAATTAGCCGGGCATGGTGGCAGGAGCCT
GTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAACCTGG
GTGACAGAGAGGGACTCCACCTCGAAAAAATAAAAATAAAAATAAATAAAAAGAAGGAGAAGAATCAAAATCTGATTTTTTAGCACTAGAAAGTCTCCTA
AATCATCCTGTAGAACTTAAGGAGTCTCATCTGCAAAAATAAATAGTAGCAGTTAAGTTCATGTAGCAGAAGGTGACTTCCTTTTGGGAAGCCATCCTTG
ACTGTTTGACGTCACACACAGGGATACCCCAAGACCACCAGAGGATCCTATGACACCTTTGTCATAGAAGCACGTCTTCCTCCATATTGTAATTTTTGGT
GTTTTTACATAGCTACTACAATACTCCTTTAGGTGGTGAGTAATCAGATTTACTCTGTATCCTCAGATTCTAGCACAGGTTAGTTGATAAATTTGTGTTA
ARTGAGTGACTATAGGCTCAATTAATTCAAGAAGGCATGTGTCAGGTCCTTTGGATGACTTCATTGCAATTCCTGAGACAAAATATGTAAAGAAAATGAA
GAGAATCGGGATGGGAAGGAGATTGTGTATGGGAAGTGGAGGTTGGGGATTGTATTCTTGATAAAGATCTGGAAGGCAGAAGCTAGGACTATAGAAAAGC
AAGAATATTCCACCTTCCAACCATATTATTTCCTCCATACAAACTAACTTATTCTACCCGCCAGGAGCTGCAAGAAATACAGCGAGTTTTGCCGCTCTAT
TCTATTGGTTTTACTGAGGTTTTTGTAGGAGGCTTGTCTTTTATAACACCTCTGCCTCTTTAGGTTTTGACCTACTAGAGCGTGAACTGAAAAGAATGAA
TAGATGTACTAGCTGGGAAAGGAACACAAGAGAATTGACTGTGTGAAAACTGGGGGTGGGAGGGGAAAATGTGTGTAAATAACATCCAAGTCGATTGTGT
TGCAACACCTGTTTCTAAATACCCGTCATCACATACTCACCTGGTGGACAGGAAAATGATGTTAATATCATGTGTGAGTTGGGTTGCTCCCTGAGCTGTT
TTTCCTAGGCAAGAAGAACCAAAACAGTGGGAGTAGAATTATGTCTGTTAGCTGGAAAAATGGAAGCCCTTCCAGTTCAACTTTTAAAACAATTTTTCTT
TCTTTTTTTTTGAGACAGGGTCTCTCACTCTGTTGCCCAGGCTGGAGTGCCATGGTGCCATCATAGGTCACTGCAGCCTTGACCTTTCGAGCTCAATCAG
TCCTCCCGCCTCAGCCTTCCTAGTAGCTGGGACTACAGGCACGCACCACCACGCCCAGTTAATTTTTATATTTTTAGTAGAGATGGGGTTTCACCATGTT
GCCCAGGCTGGTCTTGAACTCCTGGACTCAAGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCAGCCAACTT
TAAGAATATTTAAAATGAGTACCTGCACGACTCAGGGGATTCCTCCCCAGAAAAGTACATCTTCAGGGGTTTGCTGGGGGTTTCACTTTCTCCCGAGCTC
AAGCCTTCACTTTCATCCTCCTTGCCTTAGCACCCTCAAATCTAGCATTTTAATTGTGTTGTTTTGGACATATTAAAAATATTCTCTGGGGCCATCTCTA
GTCTCTTTGTACAGAATTGCATAGGCCTTGAGTGTGATCTGCCCCGACCCTATTTTTGCAGTAAGCCCTGTTATTTCTAGTGTGCAATTTTGCTAAGGCA
ATATGTTATGGTCAGCAACAGATTATTTTACAGCAGAAATATCTGTATATTTTATTTCACGTTTACCAGTATATTGTTTATATAGTAAGACTTCTTTAAA
AATTATAGTATAGGCCAGTGCAGTGGCTTATGCCTATAATCCCAGGATTTGGGGAGGCTGAGGCGGGTGGATCACTTGAGCCCAGGTGTTTGAGACCAGC
CTAGGCAATATAGTGAAACCCCGTCTCTACAAATAATTTGAAAATTAGCTGGGCATGGTAGTGTGTGCCTGTAATTCCAGGTACTCAAGAGGCTAAGGTT
AGAGGATCACTTGAGCCCGGGAGGCTGAGGCTGCAGTGGGCCGTGATCACACCACTGCACTTCAGCCTGGGTGGCAGAGTGAGAACCTGTCTCAAAAAAA
AACCACGAAAAACAAAAAAGAATATAATAATGCCTTCAGACCATTTATATGCATCAGTAAGTTTTAGGTTTTTATAAAGCAATATGTGAACCTAAAAATA
TGATATCCAATCAAAGTGTTTCAAGTAAATGGGTGCAATGTTATTCAAAATAAATATTCATCTTCAACATGTTTTTCTTTCAGCTTCCCACCCTATGCGT
TGCATGAACTACATCACAAAGTTGTACTCAGAAGSAAAAACAAAGAGGAAGGAAAAYGTACAACATTCAAAATTAGAAGAAAAGCAMATCCAAGTACCAG
AGAGTATTGTGTAGTGCTCTCTGCAATGGAACATGTGATTTCAGGGTTGCCGCAGTGTCAMCTCAGTGGACCAGCCTGGGGGAAGGAGCTTAATTGCTGA
GACATTAATAATGACCTCTTAGTGCAATGCAAGATGGTGTCCTCGGATAATGATCTGCCCCGGAGCTAGGGCAGCAACATGAGGACCAAACCATGCACAT
AAAGCTTGTAGTTTAAAAAAGAAAAGCAAAAAAATAATTATGCCTGACACTACTTCAGAGCAGGAGGATTCTACGAAGCCTTGGGGATCAGGGTCAGTGT
GAGCAGCTAACATCCTACCTCAAATGGAACAGGAKTTTTTGATGCTTTGCTCTAATGGAACTGTTTTAAAAATTTTTTTTTCTTTTTAATATTTTCTTCT
GGTCACAAAATAAAGAAATTTGGGATGCAAAGTACCTAAAGATCTCTGATCCTAAGAAGTTACTTCTGGCCAGGCGCGGTGGCTCATGCCTGTAATCCTA
GCACTTTGGGAGGCTGAGGTAGGCAGATCACTTGAGGTCAGGAGTTGGAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATGCAAAAA
TTAGCCAGGCGTAGTGGTGCGCACCTGTAGTCTCAGATACTTGGGAGGCTGAGGGTGGAGAATCGCTTGAACCTGGGAGGTGGAGATTGCAGTGAGTCAA
GATCTCACCACTGCACTCCAGCCTGGGCGACAGAGGGAGACTCTGTCTCAAAAAAAAAGAAGTTACTTCCAAGACAGACTTTTAAGATGTAACCAGCACA
AAGCAATGTCAGGGAGGAGTGATACATGACAATAAATGAGTCAGATGAGCAAGAAGGCCCCAGAACCCATGCCCCAAGGCACAAAGAGGAGCTCAGGGTA
GGCCCAAAGATTCGAATTCCTTAGATTACTAAATCACATGAGCGGACCTTGTCTGTCAGATAAGATTTTTACCTGGAAATTCCATGACCAATACATGTGC
AAAAGAAAATGATGGGTTGAATTTACTGATTATTGACCTAATGGATGGCTTTTTAAAATGTTTTAATAAAAAGCAGAATAGATGTTTGTTTTTCTAGTGG
TTATACCAAGTTATACTTCCTGTTTTCACGTGTGAAAGTAACATGGGACATGCCTTTCTTTTCCGATCAGTTTATTTAAGCTATACAGCAAACTTTGGCA
TTTATGTGGAGCATTTCTCATTGTTGGAATCTGAATAAACCAATTACAAAATAACATATGTGCACATTGTAAGTCTGTAATTTGTGATAGGGGCCAGATC
CAACCATGCTGATTTTTTGTTCTCTTGACAAAACTGTTTTGGACAATCACAACATTACAGAAAAGTGTAAAGATAGAACAAAGCACTTTTCCCCCTGGAA
TCATTTGAGAGTAAGTTGACACAATACCCATCACCCCCCAAATCCTTCAGTGTGTGCTTCCTACAAATAAGAACGCTCTCCTTTAGAAACACAATGCAAC
CATCAAAAGTGGGAAATTAGCACTGTTCTGCTTCCACGAACAGTCCTCAGACTCCATTCAGGTTTCTCCAATTGTCCCAAAGGATCCAGTTCAGAGTCAC
ACTTCATTTTAGTCTCATTCAGTTTGGAACAGTTCTTCGGTCTTGGCTTGCCTTTCATGACCTGGATATTTTTGAAGATTACAGGCTGGTTATTTTGTAG
ATCATCTCTCAATTTGGCTTTGTCTGCTTCCTCGTGGTTAGATTCAAGTTGTGCAGCTCTCATAGGACTGTCACAGAAGCGATGTTAAGTTTATTTCATT
GGGCCAGGCACAATGGCTCACGCCTGTAATCCCAGCACTTTAGGAAGCAGAGGCAGGCGGATCACCTGAGGTCTGGAGTTCGAGACCAGCCTGGCCAACA
TGGTGAAACCCCATTTCTACTAAAAATGCAAAAATTAGCTGGGTGTAGTGGTGCATGCCTGTAATCCCAGCTACTCAGAAGGCTGAGTCAGGAGAATTGC
TTCTACCAAAAAATACAATCCCAGAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCATATAATGGGGTTTTGAGCTAGATGAAATATAGTTCTAT
TGTTCAATGTTGTACCTTCCAAGAGAGAAGCCCTCCCCCTTCCTGTGATTGCTTTGAACAAATTTGTTCAAGAGCAAATTTGTTATAATTGATAATTACT
CTAGACCTGTTGAAATATGTTAATTTTTAGGCCAGGCGCAGTGGCTCACACCTGTAATCCGAGCACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTGA
GGAGTTCGAGACCAGCCGGGCCAAGATGGTGAAACCCCATCTCTAATAAAAATACAAAAATTAGCTGGGTGTGGTGGCGGGCACCTGTAATCCCAGCTAC
TCGGGAGGCTGAGGCAGGACAATTGCTTGAACCTGGGAGGCGGAGGTGGCAGTAAGCCAAGATCGCACTACTGCACTCCAGTCTGGGAGACAGAGCAAGA
CTCTGTCTGAAAAAAAAATTTTTTTAAATGTTAATTTTTTCTTACGTTTTCTGCTCTATGTCTTGTTTCCAGTTAGAAGCAAACCAAAACTAAGGCCACA
AAAATGTCATTATTCTCCCAAATGCCATCTTGCCTAGGTTGATCTCAAACTCCTGGGCTGAAGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGAGATT
ATAGACATGAGTTGCCAAACTGGCCCACACACTTTTAAACAACCAGATCTCGATGAACTCAGAGTGAGAACTCACCCATTAGCAACAGGATGGTACCAAG
CTATTCTTGAGGGACCTACCCCTGTGATCAAAATACCTTCTACCAGGCCCCACCTTCAACACTGGAGATTACATTTCGACATGAGATTTGGAGGGAACAA
ATATCCAAACCACATCAACGAGGCTAGAACATTTTATACTAGAAAGAAAGGAAGCTATCAAAGACTCTTCTGGAACTGTGTTAAAGGGCCCAGAAACCAA
TTTGTGTACACCCTCCAGGGACTTTCAGTGGCCAAAGATGGGATAATCTGAGCATTAAAAAAGAGTAGTGATTGGGCCGGGCATGGTGGCTCATGCCTGT
AATTCCAGCACTTTGGGAGGCTGAGGCAGGTAGATCACGAGGTCAAGAGACCAAGACCATCCTGGTCAACATGGTGAAACCTCGTCTCTACTAAAAATAC
AAAAATTTGCTGGGCGTAGTGGCATGCACCTGTAGTCCCAGCTACTCAGGAAGCTGAGGCAGGAGAATCGCTTGAACCCGGAAGAGGGAGGTTGCAGTGA
GCTGAGATCGCGCCACTGCACTCCAGCCTGGTGACAGAGCGAGACCCTGTCTCAAAAAAAAATAAATAAATAAAATAAAAATAAATGAATAAATAAATAA
AGAGTAGTGATTGAAACATGTTAAATACATTAAAACTCATGAGTTTTTACAATACTTTAAAAATGTACTGATCAGCKTTAGAGATTGCTCAGACACTAGT
TTTTAAACTGAAATTTGAAATATATCATTAAAATAACTATGTAATAAAAACAGCCATGAGCACAAGAAAAGATGGGAAACGCAAATCGAAACTGGAATAT
GATGCCGCTTCACACCTATAAAAATGGCTATAATAAAAAAGAGAAAATAACAAATTTTGGAAAGGTTATAGAGAAATGAGAGCCCTCAGACATGACTGGT
GAGAATGTAAAATAGCTCAGCCACATTGGAAAACAGCCTTGCGTTACTCAAAAAGTTACACATAGGGTTACCATATGCTTCAGCAGTTCTACTCCTAGAA
AGAATATACCCAAGAGAATTGAAAAATATGTCCACACAGGCGGGGCGTGGTGGCTCATAGTGAAACTCCATCTCTACTAAAAATACAAAAATTAGTTGGG
TGTGGTAGTGTGAGCCTGCAAGCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGCCGGAGGTTGCAGTGAGCCAAGATCGTGCC
ACTGCACTCCAGCCTGGGCAATAGAGCGAGACTCTGTCTGAAAAAAAAAAAAATATATATATATATATATATATATCTCCACACAAAAACTTGTACAGTA
ATATTGGCCAGGTGCGGTGGTTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAAGTGGGCAGATCGCTTGAGCTCAGGAGTTTGAGACCAGCCTGGGC
AATGTGGCAAAACCCCGTCTCTACAAAAGATTACAAGAAGGAATTAGTGGGGCATGGTGGCCCTCGCCTATTGTCCCAGTTACTTGGGAGGCTGAGGTGG
GAGGATCACTTGAGCCCCAGAGGTCAAGATTGCAGTGAGCCACGATGGTGCCACTGCCTTCAAGCTGACAATGAGACCCTGTCTCGAAAAAAAAAAAACA
AAAAACAAAACAAAACAAAACAAAAAAACCTTTTACAGGAATATTAATAGCAATATTATTTATAATAGTCAATAGTGAAAACAGCCCAAATTACCATCAA
ATGACGAATGGGTAAATAATAGTGCCACTGCACTCAAGCTGACAATGAGACCCTGTCTCAAAAAAAAAAAAAAACCTTGTACAGGAATACTAATAGCAAT
ATTATTTATAATGGTCAAAGGTGAAAACAACCCAAATGGCCATCAAATGATGAATGGGTAAATAAGTTGTGGTATATTCATAAAGTGAGGCTGGGCGCAG
TGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCAGCTGAGGTCAGGAGTTGGAGACCAGCCAGACCAACATGGAGAAACCCCG
TCTCTACTAAAAATACGAAATACAAAATTAGCCGGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCAGTTGAACC
CAGGAGGCGGAGGTTGTGGTGAGCCTAGATCACACCATTGCATTCCACCCTGGGCAACAAGAGCAAAACTCCATCTCAAAACAGAAAAAAAAAGTGAAAT
ATTATTTGGTAATAAAAAGAAATGGAGTACTGATACATGCTGTAACATGAACTTTGAAAACATTATGCTAAGTGAGAAAAGCCAGACACACACTCACAAA
ACACATATTGTATGAAGCCATTTATATGAAATGTTCAGAATACACCAATCCAAAGAGACAGAAAAGAGATAAGTGGCTGGCAAGGGCTGAGGGAAGTGGG
GAATGAGGGGTGACTGCTAATGGATATGGGGCTTCCTTTGGGGAGACAGTCTGGAATTAGCTGGTCGTGATGATTGTGCCACTCTGAATATTTTAAAAAT
TACTCAATTGTGCATTTTAAGAGGATGAATTGTGAGGTATGTGAATTATACCTCAATAAAGCTGTTACTTTATTTTGAGACTGAGTTTTACTCACTCTGT
CACCCAGGCTGGAGTGCAGTGGCACAGTCTCGGCTCACTGCAACCACCTCCTCCCAGGGTTCAGGAGATTCTCCTGTCTCAGCCTCCCAAATAGCTACGA
TTACAGGCACGCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGGAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCCCGAACTCCTGGACTCAAG
TGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGGTTACAGGTGTGAGCCACTGCACCCAGCCAAGCTGTTAGCTTTTAAAAATCACTTTGTAGAACTTG
TTTGGGTCCTGATTTAAACCAACCAATTATAAAGACACGTAGGAGACAGTCTGGGAAGTCTGAACACTGAGGATTAGACGATATTAAGAAGTTATTACTA
ATTTTGTTTTAGATGTGATCGTGGTGTCATGGTTATTTACAAATGATCTCTTGGGGACACATCTTAAGTACTTACAGATTAAACCATGTGATAGCTGACA
TTTGCTTCTAAATAATTTAGTCTGGGAGGAGCACAGTATGTATGGAAACAAGGTTGGCCACATACTGATCTTTGTTAAAGATGGGTGAGAACAATGTGCC
CATTCATTATACTTTTCTCTCTACTGTTGAATATGGTTTCAAATTTTCATGATGAAATGTTTCAAAATTATTTTTAAGAAAGAAAACCAAGGACACAAAA
AAGGAGAAAAAAGCCTGTCATTAATCATCTGTTCAGGCCAGGCATGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACG
AGGTCAGGAGATCAAGACCAACCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAAAAATACAAAAAGTTAGCCAGGCGTGGTGGCGGGCGCCTGTAG
TCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCAGAGCTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGGGCAA
CAGAGCAAGACTCTGTCTCAAAAATAATAATAATAATAATAATAATCTGTTCATTTGCATTCCTAAGAGCCATCCTTCCAGATCATCTATTTCCCAAAGT
TGATCCCGGCCAGGCTGAATTCTCTTCCTCTGGGCTTCCCCAGCACGTGGCTCGTTCTTCTAGAAGGGTGTCAAAGTTACTCGTATTTCTGTCTGTTGAG
TTTCATTTTCTGTTTAAACATATATTTATACCATTTCAGTCCTCTAAAATTCTCAGGGCTGACTCTTTCTAAGTAAATACTTTTCTTTTGGATAGTTGAG
GTTTATCTCTTTGAGATGTTAAATGTTTTAATATTTTGGACAAAAGTCTTTGTAAAATAAGTTACATGACTTTTACCTTTCTAGTCAATATTTATGAAGC
TGACTTACCCTATATGAGTTTCAAGAAGTTAATCATTATGAAAATTAATCTTGGCACTTGCCATAATAGTGTGATTCTCACACAGGATATTCAGGAATAA
GGCTGTTTGTTCCTTATACCAAATGAACCCAGGTTGCTTTGTTTGTTTGAACATCTCTTGCTTTTGTGATATTTTGGTCACTTCTCTTGCTGGTACTGCC
CCTTCTTTCTGCCCTGAGAGTGCCCTCCTTGACCCTTTCTGATTTACCCTACGTGTGAAGAAACCAGACAATTAAACATATTACAGTTATATGTAGAATG
ACTACACTGCCTGGCTACCCAGGACAATTTCAGTGTATACCTATTGTCCCAGTGTAATTAATAAATAGCATCCTTAAAAAAAATTCTTGAATGTATCCTA
GTTGGCTTTTTCTTTCTTTTTCTTTTTTTTAGTGGTGGGATCTCACTCTGTTGCCCA


SNP Information

Context             (SEQ ID NO:15189):
ATGATTGTATATCTAATTTAACTTTGTATTTTACCTAGCATAGTATCCAGCAATAGCAGCTTCTCAGAAAATGAATTACGAAAGAAAGAAAGAAAGAAAG
A
GAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAA
Celera SNP ID:            hCV26325489
SNP Position Genomic:     30689
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,10)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15190):
GCAGGTAAATAGCAGCACTGGAATTCAGCCCAGTCTGAGGCTGATTCCAAAGCCATCTAATAGGTAGATAGATAGGTGGATGGGTAGATAAACAGACAGA
K
GGATTGATTGATGGATAGAAGGACACAGATAGAAACAGTGAATACTCTTTGCCTACCACTGCCACCACACAGAGGTCCAGCATGCTGTGCTTTAAGCCAG
Celera SNP ID:            hCV12086730
SNP Position Genomic:     29604
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15191):
GTGCTTCATAAATAGCTAGGCATTGTACTAAACATGTTATATAAATGAACTTACTAATTCTCACAAAACACTCGAAGAGGTAAATGCTGTCAGTATCTCC
R
TTTTACAGATAAGAGAAAAAAAAGTGCTAGGTCGGGTATCTTGTCCAACTCATTCAGGAGCAGGTAAATAGCAGCACTGGAATTCAGCCCAGTCTGAGGC
Celera SNP ID:            hCV12086731
SNP Position Genomic:     29444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15192):
TTTTTACATAGCTACTACAATACTCCTTTAGGTGGTGAGTAATCAGATTTACTCTGTATCCTCAGATTCTAGCACAGGTTAGTTGATAAATTTGTGTTAA
R
TGAGTGACTATAGGCTCAATTAATTCAAGAAGGCATGTGTCAGGTCCTTTGGATGACTTCATTGCAATTCCTGAGACAAAATATGTAAAGAAAATGAAGA
Celera SNP ID:            hCV27457852
SNP Position Genomic:     36802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15193):
AAGTCTACTATTGCACAGTAACAGAGGTATTATCTTATTCAAATATACATTTCTACATGTCCATGGCATCAGAAATTAGTTGCTTGATTTTCTTTTTTTG
Y
AGAAAACGAAGTTTCAGAACACACACTAGAAAGTTACAGATCAAGGTCAAATAATGAAGAAACATCATCTGAAGAGAAAAATGGCCAATGTAAGTCAACT
Celera SNP ID:            hCV25643378
SNP Position Genomic:     35431
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(C,5|T,35)   total(C,6|T,70)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15194):
ACTTTAATATTACACTATCAAACAAAATTAAATGCAGTGGGCAGAGTCCTTCAGATTAAGATTACTGCCAACAAAGCTTTCCTAATAGCAAATTCCTGTA
Y
TGATTGAAATTTCTCCAGGTGAGTGACGGAATTCCAACTATTCCAATGTTCAAAAGAACCCCAGTTGAGCAGAAAGCCTAGCACAGCGCCATATGCAAAT
Celera SNP ID:            hCV495424
SNP Position Genomic:     23452
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,32|T,4)   total(C,64|T,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15195):
GGTACAAAGCCTAGGGGTCTATTGACAGATAAGACAATCAAGAGCCAGAATGTTCTCAGAAAGCTTGAACCCTCACTCCAAACTTACCAGATAAGACTGA
Y
GTAGGGAGAATATGAAATCTGAACTTTGGTTCCAAAATGAAATGCATCATGAACACAGGATAGGGAGACGTGATGTGACACAAATTCTCTGAAGAAGATC
Celera SNP ID:            hCV12086736
SNP Position Genomic:     14896
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15196):
CTACTTGGGAGGCTGAGGCACAAGAATCGCTTGAACCCGAGAGGCGGAGTTTACAGTAAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGC
R
AGACTCTGTCTCATAATAATAAGAATAATAGGCTAAGACTTAATTTTTATTTGTGATCTATTTGCTGTACTCATTGCCAGATCTCCAAATAGTATTCAAA
Celera SNP ID:            hCV495425
SNP Position Genomic:     24911
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15197):
GTGTGTTACCATTGCATCATATGCCACCCAGGTTAGGGACACAGAGATGATTATAAACAGCTCCTCGGTGCAACAGGTTCAGATGGTACAAAGCCTAGGG
S
TCTATTGACAGATAAGACAATCAAGAGCCAGAATGTTCTCAGAAAGCTTGAACCCTCACTCCAAACTTACCAGATAAGACTGATGTAGGGAGAATATGAA
Celera SNP ID:            hCV12086737
SNP Position Genomic:     14812
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15198):
GCAATGTTATTCAAAATAAATATTCATCTTCAACATGTTTTTCTTTCAGCTTCCCACCCTATGCGTTGCATGAACTACATCACAAAGTTGTACTCAGAAG
S
AAAAACAAAGAGGAAGGAAAATGTACAACATTCAAAATTAGAAGAAAAGCACATCCAAGTACCAGAGAGTATTGTGTAGTGCTCTCTGCAATGGAACATG
Celera SNP ID:            hCV11487869
SNP Position Genomic:     38735
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,40)   total(C,73|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15199):
CTCCTACTCTCAGTTCTTGCCTCTCCCCTCCCATTTTGTTTGTATTTGCTTATTTTTTGGTTTCTAGAAGAAATAGATAATACATGATTGAATGAATGAA
Y
GAGACAAAATCCCTGAGACACTGTGGACCCCCGGCCTGATCATCCCCATTTCTCTTCCTCCACAGAGGCCTCTCTGACTAACCACACAGAAACCATCACC
Celera SNP ID:            hCV504011
SNP Position Genomic:     17457
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,35|T,5)   total(C,68|T,10)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15200):
TTTTTGAGATGGAGTCTTGCTCTTGTCGTTCAGACTGGAGTGCAATGGTGCTATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATACTCCC
R
CCTCAGTCTCCTGAGTAGCTGGGATTATAGGTGCCCACCACCATGCCCAGCTAGTTTTTGTGTTTTTATTAGTAGAGTCAGGTTTCACCATGTTGACCAG
Celera SNP ID:            hCV495427
SNP Position Genomic:     27616
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15201):
GCAGCAGAATGGCTTGATCTAGCTCAGTGGTTCCCCACCCGGAATGATCTTACCTTCCCGTGGAGATAGGACAATGTCTGGAGATAGTTTTGATTGTGCC
W
AATGTAGAAAGCGGGGCAGTGCTTCTGGCATCTACTGGGTAGAGGCCAACGATTCATCGGATATCTTTCCTCATAACAGCTCTATTTCCCTCTTGTACAG
Celera SNP ID:            hCV504012
SNP Position Genomic:     19046
SNP Source:               Applera
Population(Allele,Count): african american(A,23|T,13)   caucasian(A,37|T,3)   total(A,60|T,16)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,6)      total(A,6|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15202):
CATACCTGTGTTCTAAAACCCTTTATAGCTTCCTGAAGTCTACAACACAGAGCATGAGTCCCAAACACCTCATTAGGTGCCATCTATTACCTACTTCTGC
M
GTCTCATATCTACAAAGTCCTTATGAGATACATATTTTTCTCTGAAAACATCAACCCTTTTCAATCGCCCTGCCCTTGTTTATCCTCACTGCCCCTGGTG
Celera SNP ID:            hCV15824952
SNP Position Genomic:     33568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15203):
ATTTTGTTTGTATTTGCTTATTTTTTGGTTTCTAGAAGAAATAGATAATACATGATTGAATGAATGAACGAGACAAAATCCCTGAGACACTGTGGACCCC
Y
GGCCTGATCATCCCCATTTCTCTTCCTCCACAGAGGCCTCTCTGACTAACCACACAGAAACCATCACCGTGGAGGAAGGCCAGACGCTCACTCTAAAGTG
Celera SNP ID:            hCV25643341
SNP Position Genomic:     17489
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:15204):
GATTGTATATCTAATTTAACTTTGTATTTTACCTAGCATAGTATCCAGCAATAGCAGCTTCTCAGAAAATGAATTACGAAAGAAAGAAAGAAAGAAAGAG
A
GAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGA
Celera SNP ID:            hCV26325490
SNP Position Genomic:     30691
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,8)   total(A,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15205):
GAAGAAATAGATAATACATGATTGAATGAATGAACGAGACAAAATCCCTGAGACACTGTGGACCCCCGGCCTGATCATCCCCATTTCTCTTCCTCCACAG
M
GGCCTCTCTGACTAACCACACAGAAACCATCACCGTGGAGGAAGGCCAGACGCTCACTCTAAAGTGTGTCACTTCTCTGAGGAAGAACTCCTCCCTCCAG
Celera SNP ID:            hCV25643342
SNP Position Genomic:     17523
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,5)   caucasian(A,40)   total(A,73|C,5)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15206):
ATATCTAATTTAACTTTGTATTTTACCTAGCATAGTATCCAGCAATAGCAGCTTCTCAGAAAATGAATTACGAAAGAAAGAAAGAAAGAAAGAGAGAAAG
A
AAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGA
Celera SNP ID:            hCV26325491
SNP Position Genomic:     30697
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,8)   total(A,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15207):
CTTTGTATTTTACCTAGCATAGTATCCAGCAATAGCAGCTTCTCAGAAAATGAATTACGAAAGAAAGAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAG
A
AAGAAAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAA
Celera SNP ID:            hCV26325492
SNP Position Genomic:     30710
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,9)   total(A,2|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15208):
CCGGAATGATCTTACCTTCCCGTGGAGATAGGACAATGTCTGGAGATAGTTTTGATTGTGCCAAATGTAGAAAGCGGGGCAGTGCTTCTGGCATCTACTG
R
GTAGAGGCCAACGATTCATCGGATATCTTTCCTCATAACAGCTCTATTTCCCTCTTGTACAGCTTTAAAAAATTCCAAATACCAGCTTCTTCATCACTCG
Celera SNP ID:            hCV25643343
SNP Position Genomic:     19084
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:15209):
GTATTTTACCTAGCATAGTATCCAGCAATAGCAGCTTCTCAGAAAATGAATTACGAAAGAAAGAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAG
A
AAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAATTGG
Celera SNP ID:            hCV26325493
SNP Position Genomic:     30714
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,8)   total(A,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15210):
TAGAGGCCAACGATTCATCGGATATCTTTCCTCATAACAGCTCTATTTCCCTCTTGTACAGCTTTAAAAAATTCCAAATACCAGCTTCTTCATCACTCGG
M
CAATCAGCTCTCCATCACTGTGCCTAACGTAACCCTGCAAGATGAAGGCGTGTACAAGTGCTTACATTACAGCGACTCTGTAAGCACAAAGGAAGTGAAA
Celera SNP ID:            hCV25643344
SNP Position Genomic:     19186
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,17)   caucasian(C,40)   total(A,7|C,57)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15211):
TAGCATAGTATCCAGCAATAGCAGCTTCTCAGAAAATGAATTACGAAAGAAAGAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAG
A
AAGAGAGAAAGAAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAATTGGTTATGGTGCT
Celera SNP ID:            hCV26325494
SNP Position Genomic:     30724
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15212):
TAGTATCCAGCAATAGCAGCTTCTCAGAAAATGAATTACGAAAGAAAGAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGA
R
AGAAAGAAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAATTGGTTATGGTGCTTTGAG
Celera SNP ID:            hCV26325495
SNP Position Genomic:     30729
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15213):
CCAGCAATAGCAGCTTCTCAGAAAATGAATTACGAAAGAAAGAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAGAGAAA
R
AAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAATTGGTTATGGTGCTTTGAGCAAGAC
Celera SNP ID:            hCV26325496
SNP Position Genomic:     30735
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2|-,6)   total(G,2|A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15214):
TGAAAGAAAAGTCAAAAGAAGTTCTAATTTGGTTTCCAGTGGCAATGAGAAGACCCTGGGGAACTTGTCCTTGGAAAATGTGCCACCAAAACTTAGGCAC
R
GCATCCTGCTCTTCCACCTTTAACAAAACTACAGACATTGAAACATATTTTTAAGCACTACAGTCTAAGCAAAGCTGGGTGGGTCTGTGGCTTCTCACTG
Celera SNP ID:            hCV29069466
SNP Position Genomic:     11265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15215):
ATAGCAGCTTCTCAGAAAATGAATTACGAAAGAAAGAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAGAGAAAGAAAAG
A
AAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAATTGGTTATGGTGCTTTGAGCAAGACTATTAG
Celera SNP ID:            hCV26325497
SNP Position Genomic:     30741
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15216):
ATCCTGCTGCTCACGCTGGTGTCCTTCCTCATTTTCATACTCTTCATCATAGTCCAGCTCTTCATCATGAAGCTGAGGAAAGCACATGTGATATGGAAGA
R
AGGTCAGTGGGCAGGGAACCTGACGGGGGCTATAAGACGCCAGAACAAATGGCTAAAAAAAAGGGAAATTCTGTCCATTAAAGCTTTCTGTCAGACACTA
Celera SNP ID:            hCV15961949
SNP Position Genomic:     34974
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,17)   caucasian(A,11|G,23)   total(A,28|G,40)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,669|G,810)   total(G,810|A,669) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15217):
CTCAGGTGTTCCAACTGCCTCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCTGTAATCAACATTCTTAGAGTTGCAAAGGAC
Y
CTTTACAGTTGAGAACACTGAGGGCCAAATGGAGTTCTAGAGAGAAAAGACCTAAACCCAGATCTGATTCCCAGGGCAGTGCCAATTCTACTTCATTATA
Celera SNP ID:            hCV29069467
SNP Position Genomic:     22730
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15218):
TCAGAAAATGAATTACGAAAGAAAGAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAA
R
AGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAATTGGTTATGGTGCTTTGAGCAAGACTATTAGCCTCATCCAGA
Celera SNP ID:            hCV26325498
SNP Position Genomic:     30752
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15219):
CACTGCACCTGGCTAGAAATATTTTCACAAGCTCATCTGATTTAGCCCAAATGCCTTCCTGTAGGGCCACATTTAACCTAACCAAGATAAATAAATTTTC
R
TTTTATTTGGATAGTTTTTTAAACTCCTTAACAATCCCTCTTGCTACTTAACTATATTTTGCTAAAAATCATTCCTAAAGCTAATTTGAATCTCCTGACT
Celera SNP ID:            hCV11487870
SNP Position Genomic:     34420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15220):
AGAAAATGAATTACGAAAGAAAGAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAAA
R
AAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAATTGGTTATGGTGCTTTGAGCAAGACTATTAGCCTCATCCAGAAA
Celera SNP ID:            hCV26325499
SNP Position Genomic:     30754
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15221):
ATAAGGGCTTGGACGCAGTGGTATGGTAGAATGTCTTCTGGAAGTCTTTGAAAGTGAGATTGATACTCATCTTCCTGTTCCATGTGGTTTCTGCAGCAGC
W
GAGAGTTGGTCCCAAGTATCTGAGGAGCAGCCACAGGGCTCTGGAATTTTATTCATTACACTGCAACTGTGGGCTTTGGGAATAGGATGCTCTGAACACT
Celera SNP ID:            hCV11487872
SNP Position Genomic:     15437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15222):
AAAAAACTCGATTTCCTATTGTACATAGTACTTCAATTCCCTATTTTATATACTTCAATTAATGCCTTCTTTTTTTGGTCCCTGTACCCTGAGGCACTTA
R
TAAGGATTCAATTTTGGTAATGAATAATATTAGTTTCTTCATTAAGTGGCTTAAAGAATAGCTAATACATTCAAAAAGAGTACATTTAGACAGCTAAAAT
Celera SNP ID:            hCV11487873
SNP Position Genomic:     7386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:15223):
CTGTAGTTCTGTTTCATGAAATGCACCTATCCTTCTAAATCTACATTTAATCTGGAATGGCATCTGAAGGACGCTACTTTAAAAAACTCGATTTCCTATT
K
TACATAGTACTTCAATTCCCTATTTTATATACTTCAATTAATGCCTTCTTTTTTTGGTCCCTGTACCCTGAGGCACTTAATAAGGATTCAATTTTGGTAA
Celera SNP ID:            hCV11487874
SNP Position Genomic:     7306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15224):
TTTCAAAATTCATCCCATTAAATTACACTGTAGACAATGAAAATGTCAAATCCAATGAATTTTGAACCCTCTGTTTTCATTGTTTTGTGGAGGGTAGGAT
K
CAGAAAACAAAGGAAAATTGCAAATTGAGTAGTTCTTTTCATACTTTCTTTGCCCAGGAAAAAGTCACATGTTAGATGACATGTTGAGACAGCTTCTTTA
Celera SNP ID:            hCV12086743
SNP Position Genomic:     8460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15225):
CACCAGGAGGTGTTCTGGGGGCAGCTAACTAAGAGGGGGCTTCCAGACAGATGGAGGAGTTGATACACATGAGGTCACAGATCTACTGCCTCTCCCCCTT
Y
AAAAGAAACTACTCAGCTCCATTTGTCTCAGAATCTAGAGGAAGTTGACAAAGGTGCCACAGCAGCACAGCACAGTATGTGGTGGAGAGTTCTCAGCTTG
Celera SNP ID:            hCV209481
SNP Position Genomic:     5923
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,5)   caucasian(C,20|T,20)   total(C,47|T,25)
SNP Type:                 TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,18|T,22)   total(C,47|T,27)   
SNP Type:                 TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15226):
TAATCAACCATCTTTTTTTTTTGAGATGGAGTCTCACTCTGTCTCCCAGTGCAGTGGCACGATCTTGACTCACTGCAACCTCTGCCTCCTGGGTTGAAAC
R
ATTCTTCTACCTCAGCTTCTGGAGTAGCTGGGATTACAGGTGCATGCCACAACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGT
Celera SNP ID:            hCV480152
SNP Position Genomic:     22502
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15227):
TAATTATGCCTGACACTACTTCAGAGCAGGAGGATTCTACGAAGCCTTGGGGATCAGGGTCAGTGTGAGCAGCTAACATCCTACCTCAAATGGAACAGGA
K
TTTTTGATGCTTTGCTCTAATGGAACTGTTTTAAAAATTTTTTTTTCTTTTTAATATTTTCTTCTGGTCACAAAATAAAGAAATTTGGGATGCAAAGTAC
Celera SNP ID:            hCV467459
SNP Position Genomic:     39135
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:15228):
AACACTGCAAGATAAGCAGACCCGTAAAGCCAAAAGCAAGGCTTGTTGCAAAGAGTAAAGGAAACAACGAATATTCTATGCCTCAAACACAGCCCTTTCC
R
TATGAAACTCAGGCCTCTACAGTGTGGTCAATCTGGTTAGCCGCCTGATACCGAATTCTCAGCAAGTGCAAACATTAATCTTAAGACATACAGTACTTTA
Celera SNP ID:            hCV16214246
SNP Position Genomic:     11528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,1)      total(G,1|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15229):
AGGAAAGAATATTTTATTCTTTTCTCAGTCTACATGATAGTCTATAGTAGAGGTAAAGATTGCACATGAGAACTTCCAAAATCTTGGGAAAGACCAAAAA
R
TCTTACGAACTGCACTGGTTTTGTCTATGTGTACTTTGGTAGATGGCTGTTACTGCTGCTTGTCCTTTTGTTTGGGAGTAGATCACATGTGCTTTGGTGT
Celera SNP ID:            hCV70745
SNP Position Genomic:     10556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15230):
TTCTAGCAACTCCGTTCAAGCCAATCCTGGAAGCTTCAGTTATCAGAAAGCAAAATGGAGAAGAACATGTTGTACTCATGTGCTCCACCATGAGAAGCAA
R
CCCCCTCCGCAGATAACCTGGCTACTTGGGAATAGCATGGAAGTGTCCGGTAAGGGGAGAAATGGTTCTCTTTGTCTTCCTTCCTACTCAAATTTCCAGG
Celera SNP ID:            hCV25643354
SNP Position Genomic:     21492
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,40)   total(A,2|G,72)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15231):
CCATTGGCCTCTAATAGAACCAACCTCATCCAGTAGCATTAAATAGCCATAACCTCTTCAAATTGCTACATAGGTGGAACGCTCCATGAATTTGAAACTG
R
TGGGAAGAAATGTAATACTACCAGCACTCTCATAATCCACACTTATGGCAAAAATTCAACGGTGGACTGCATTATCCGACACAGAGGCCTGCAAGGGAGA
Celera SNP ID:            hCV25643355
SNP Position Genomic:     23177
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,36)   total(A,70|G,2)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15232):
ATTGCTACATAGGTGGAACGCTCCATGAATTTGAAACTGATGGGAAGAAATGTAATACTACCAGCACTCTCATAATCCACACTTATGGCAAAAATTCAAC
R
GTGGACTGCATTATCCGACACAGAGGCCTGCAAGGGAGAAAACTAGTAGCACCCTTCCGGTTTGAAGATTTGGGTAAGAAGAACTAATGATTCTCTTGAA
Celera SNP ID:            hCV25643356
SNP Position Genomic:     23238
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(G,38)   total(A,4|G,68)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:15233):
AGAAAGAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAG
A
AAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAATTGGTTATGGTGCTTTGAGCAAGACTATTAGCCTCATCCAGAAAGGCATAAATTCCTACAT
Celera SNP ID:            hCV26325500
SNP Position Genomic:     30771
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15234):
TAGTTGATTTACCAGTACTACCCACTTGTGGTAAAACAATTTTTGTCACCAACACATCACTCACACCTCTCTGCCATCAAGATAATACATGTGGTCCCCA
R
AATGTTCCACCAGGAGGTGTTCTGGGGGCAGCTAACTAAGAGGGGGCTTCCAGACAGATGGAGGAGTTGATACACATGAGGTCACAGATCTACTGCCTCT
Celera SNP ID:            hCV27853762
SNP Position Genomic:     5815
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,32)   total(A,59|G,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15235):
AAGAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAA
G
AAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAATTGGTTATGGTGCTTTGAGCAAGACTATTAGCCTCATCCAGAAAGGCATAAATTCCTACATATT
Celera SNP ID:            hCV26325501
SNP Position Genomic:     30774
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,3)   total(G,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15236):
AGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAG
A
AAGAAAGAAAGAAAAAGAAAGAAAGAAAGAATTGGTTATGGTGCTTTGAGCAAGACTATTAGCCTCATCCAGAAAGGCATAAATTCCTACATATTCTCTT
Celera SNP ID:            hCV26325502
SNP Position Genomic:     30779
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15237):
CCCCAAAGCAACACACGGGTCCCAAACCTTGGTGTTATCTATCACTCCTATGTATGTGTACAAATATATCTATGTGTATATGTATATGCATATGCACACA
Y
GTATATAAAATCAGTCAATTTCCAAGAACTTTTGAGTCTTGTCTTTCAGGTATTTTGTCCATTGTCACTGTTAACGTCCCAATCCAGGCTCTCATCATCT
Celera SNP ID:            hCV26325503
SNP Position Genomic:     33286
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15238):
AAAAATGGCCAATGTAAGTCAACTGTATGACCTGAGATCTGAACAATGAGGTTCATTAATGTATTAGTCAGATTTCTCCAGAGAGACAGAGACAACAGAA
W
ATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGAGGTGGGATTTATTAGGGGAATTGGCTCATGAGATTATGGAGGCTGACAAGTC
Celera SNP ID:            hCV26325504
SNP Position Genomic:     35608
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15239):
AATGGCCAATGTAAGTCAACTGTATGACCTGAGATCTGAACAATGAGGTTCATTAATGTATTAGTCAGATTTCTCCAGAGAGACAGAGACAACAGAAAAT
R
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGAGGTGGGATTTATTAGGGGAATTGGCTCATGAGATTATGGAGGCTGACAAGTCCTT
Celera SNP ID:            hCV26325505
SNP Position Genomic:     35611
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15240):
ATGGCCAATGTAAGTCAACTGTATGACCTGAGATCTGAACAATGAGGTTCATTAATGTATTAGTCAGATTTCTCCAGAGAGACAGAGACAACAGAAAATA
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGAGGTGGGATTTATTAGGGGAATTGGCTCATGAGATTATGGAGGCTGACAAGTCCTTG
Celera SNP ID:            hCV26325506
SNP Position Genomic:     35612
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15241):
TGGCCAATGTAAGTCAACTGTATGACCTGAGATCTGAACAATGAGGTTCATTAATGTATTAGTCAGATTTCTCCAGAGAGACAGAGACAACAGAAAATAT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGAGGTGGGATTTATTAGGGGAATTGGCTCATGAGATTATGGAGGCTGACAAGTCCTTGG
Celera SNP ID:            hCV26325507
SNP Position Genomic:     35613
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15242):
AAGATTTCTCTCTTTTTTTTTTCTGGTTTTGTTTTGTTTTTAGAGACAGGGTCTCTCTCTGTCTCCCAGGCCAGGGTGCAGGGGCACGATCATGTTCACC
R
CAGCCTTGAACTCCTGGGCTCAAGAGATCTCCTACCTCCACCTCCCAAATAGCTGGGATTACAGGTGTGAGCCACTGTGCCCAGTAAGCAAAAGATTTCT
Celera SNP ID:            hCV152160
SNP Position Genomic:     32922
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15243):
AAAAATAAATGAATAAATAAATAAAGAGTAGTGATTGAAACATGTTAAATACATTAAAACTCATGAGTTTTTACAATACTTTAAAAATGTACTGATCAGC
K
TTAGAGATTGCTCAGACACTAGTTTTTAAACTGAAATTTGAAATATATCATTAAAATAACTATGTAATAAAAACAGCCATGAGCACAAGAAAAGATGGGA
Celera SNP ID:            hCV310581
SNP Position Genomic:     42277
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:15244):
ACAGGCGTGAGCCACCGCGCCCGGCTGTTCTTCCCTTATTTTTTAAAGAGTTTACTCATTCCCAAGATGGTTCCTGTTGCCACTAGGCAAAAGATTTCTC
T
CTTTTTTTTTTCTGGTTTTGTTTTGTTTTTAGAGACAGGGTCTCTCTCTGTCTCCCAGGCCAGGGTGCAGGGGCACGATCATGTTCACCGCAGCCTTGAA
Celera SNP ID:            hCV152161
SNP Position Genomic:     32832
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15245):
TTCATCTTCAACATGTTTTTCTTTCAGCTTCCCACCCTATGCGTTGCATGAACTACATCACAAAGTTGTACTCAGAAGCAAAAACAAAGAGGAAGGAAAA
Y
GTACAACATTCAAAATTAGAAGAAAAGCACATCCAAGTACCAGAGAGTATTGTGTAGTGCTCTCTGCAATGGAACATGTGATTTCAGGGTTGCCGCAGTG
Celera SNP ID:            hCV25643327
SNP Position Genomic:     38757
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(C,4|T,34)   total(C,7|T,65)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15246):
CCCACCCTATGCGTTGCATGAACTACATCACAAAGTTGTACTCAGAAGCAAAAACAAAGAGGAAGGAAAATGTACAACATTCAAAATTAGAAGAAAAGCA
M
ATCCAAGTACCAGAGAGTATTGTGTAGTGCTCTCTGCAATGGAACATGTGATTTCAGGGTTGCCGCAGTGTCACCTCAGTGGACCAGCCTGGGGGAAGGA
Celera SNP ID:            hCV25643328
SNP Position Genomic:     38787
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(A,1|C,39)   total(A,1|C,73)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15247):
CAACATTCAAAATTAGAAGAAAAGCACATCCAAGTACCAGAGAGTATTGTGTAGTGCTCTCTGCAATGGAACATGTGATTTCAGGGTTGCCGCAGTGTCA
M
CTCAGTGGACCAGCCTGGGGGAAGGAGCTTAATTGCTGAGACATTAATAATGACCTCTTAGTGCAATGCAAGATGGTGTCCTCGGATAATGATCTGCCCC
Celera SNP ID:            hCV25643329
SNP Position Genomic:     38861
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,29)   caucasian(A,5|C,35)   total(A,10|C,64)
SNP Type:                 UTR 3


Context             (SEQ ID NO:15248):
TTCCAGACAAGTTATTCTTACAACCAATCAATTTTATGCCTTAATCTTGAAAGGCTAATCATAGATATTGAAAATGTTTTTGTTTAAAACAGGTAAAAAT
S
TAAAGTGAACTATAATGACTTCTTAAAATTTCACAAAATTGTCTAAAATAAGTATAATACAGAAGTATAATATCTCAGGCGAGGCACAATGGCTCATGCC
Celera SNP ID:            hCV27985359
SNP Position Genomic:     21768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15249):
CAGAACCAAGCCTATACAAGGGAACTGGCTGAGGTTAGAATGAGGTTAGAAATCTAATGTTTGCCATGAAGTCAAGGCCATTGGCCTCTAATAGAACCAA
Y
CTCATCCAGTAGCATTAAATAGCCATAACCTCTTCAAATTGCTACATAGGTGGAACGCTCCATGAATTTGAAACTGATGGGAAGAAATGTAATACTACCA
Celera SNP ID:            hCV25643366
SNP Position Genomic:     23100
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,36)   total(C,62|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:15250):
AGCAGATGGACACTCAGTGGGATACAGATTCAAAAACCAGAGCAGGAGCCACAGAACACACAGTTCTGGGGTTTCTGCACAACCTCTACAAGCAGGTAGC
Y
GCTAAATATATTCTCCAATCTCTTTTACTGAGCACAATGTGGGTAAAACTGCTCTCTATAGTAGCAGAATTTTGTTTTTCCCCTTTCCTAGTTACTGATG
Celera SNP ID:            hCV25643367
SNP Position Genomic:     29812
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:15251):
TGCTTTAAGCCAGGCAGGTGAGCAGATGGACACTCAGTGGGATACAGATTCAAAAACCAGAGCAGGAGCCACAGAACACACAGTTCTGGGGTTTCTGCAC
R
ACCTCTACAAGCAGGTAGCCGCTAAATATATTCTCCAATCTCTTTTACTGAGCACAATGTGGGTAAAACTGCTCTCTATAGTAGCAGAATTTTGTTTTTC
Celera SNP ID:            hCV25643368
SNP Position Genomic:     29792
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,37|G,1)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:15252):
GGCACATCAATTACTTGATTGTCAATAACTCAGGTCATTTTTGATGATGGGATTGAACTACAAATACAGAATAATTTAGAAAGCCTGGATTATAATTCCA
R
TTTTTTAGACAGTGAACTCACTAGAGGTTAACTCAGAGCAATGATTGTATATCTAATTTAACTTTGTATTTTACCTAGCATAGTATCCAGCAATAGCAGC
Celera SNP ID:            hCV12086727
SNP Position Genomic:     30548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15253):
CTTTTCCATAAGGAGTTTGTAATCTATCTACAGAGAAACACCTGTAACCAAATAATTATAAAGTAATGTGCTAAGTGCTGTAATAGAAGTATATCTCAAG
M
CTTTGGGAAACTAGGGGAAAGACATTATGGGGAAAAGGGAAGCTAAGGCCTGTTTTGGAAGTTTTGACAAAAGTTGTGTAATTTGAGTTGAGCCTATAAG
Celera SNP ID:            hCV27456253
SNP Position Genomic:     9332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15254):
CATCCTCCTCAGCATTGCTCCCAATTTCTTTCCATTTTCTATGTATCTGTAGCTGAATTTTCTGTGATTTCCCCAAACTCAACATTGCTAAATACCAAAC
R
GCACCTTCTCCCACAAAATCAGCTTGTCCAAAGCATCACACAGGCCCCAAAGCAACACACGGGTCCCAAACCTTGGTGTTATCTATCACTCCTATGTATG
Celera SNP ID:            hCV436517
SNP Position Genomic:     33141
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15255):
GCCACCACCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTATCCATGTTGGTCAGTCTGGTCTTGAACTCCCGACCTCCGGTGATCTGCCTGCCT
Y
GGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCTGTTCTTCCCTTATTTTTTAAAGAGTTTACTCATTCCCAAGATGGTTCCTGTT
Celera SNP ID:            hCV436519
SNP Position Genomic:     32709
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|T,7)   total(C,7|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15256):
TGGGTCCTATGTTACGGCAAGATGAAACAAGCTTATTAGGCTCTGTCTTTTAAGGGCATACCAGTTGAAAGAGCATCCGTATTGAATTTTATTTTATTTT
W
TTTATTTATTTATTTATGAGACACAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGCGGCACGACCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCAC
Celera SNP ID:            hCV26325480
SNP Position Genomic:     6382
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,2)   total(A,1|-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15257):
TTGGAGAAAGAAGAGTTTAGAGCACCTCTCAAATATCTGGTGTGCAGTGGTTGGTGATGACATTAATTTATATAAGGGAACTCTAGAATGGGGCAGGTGG
Y
ATATCTGTGTTAGACATGGGTGGAGCATGGGGACAGTAGAGATAACGAGTTCCAATGGGACATGTAGAGTTTGGGGTCTTTGCAGGACAGGCTTGCTCTG
Celera SNP ID:            hCV27464565
SNP Position Genomic:     10304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:15258):
ATGTAACCTGCCCAAGTTTTAAAGCTAGAATATGACAACATAAATACCAGCCTATAAAGCACATAGTAAAAGTATTTATTTCATGAAACTTCTAATTAAC
K
TGTGTGTGTGTGTGTGTGTACTAGTTGTGACAGAAAATGTATTAATGTGGATCAAAAGTTGGAAAACCACTGACTTTCACAATTTGGAGGATTCAATATT
Celera SNP ID:            hCV26325481
SNP Position Genomic:     7874
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,7)   total(G,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15259):
CCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTTGAGCCACCACGCCCGGCCTCAAATTCATGGTTTTAAAATGTAATCCTAGAACCAGATGATGATGA
W
GAATTAGAGAGAAGAGAGACTAGAACTAAGTTATTACAGTGGTCCAGGAAAGAAATGATGGAGTCCTTAACTAAGGCAGCAATAATAGTGACAAAAGAGG
Celera SNP ID:            hCV27464566
SNP Position Genomic:     10081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15260):
ATCTAAAAATAATAAAAATCTTTTTTTGTAATGATCTGAATTAAAACACACTTTTGCTTAATGCCTCATGACAGTCATGTAACTAGGGCTCTGATTTGAG
M
ATTAATGCATTGCATGTCTCTGGCTTTAACTTAGCCCTAGTCTTTATTATTTGATATAACAGTTAAAGAGCAAAGTTAGCATCCTATTATAATATTTATT
Celera SNP ID:            hCV26325482
SNP Position Genomic:     8734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15261):
AGGAACACCATAGGTTGAATAAGATATGGTCTGAGAATGGAGCATTGGTTTGAGCAATGTGAAGGTCTTTGGCAACCTTGGCAAAGAGAGATTTCAACGA
R
GTAGTGGAGTTGAAAACCTGGTCAGAAAACAAAGAGTGGGATAAACAAATATAGATAGTTCTTTAGAAAAATGTGTCAGTGAAAGAGAGGGAAGGCAGGG
Celera SNP ID:            hCV26325483
SNP Position Genomic:     12787
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15262):
CTTCTGGAGTAGCTGGGATTACAGGTGCATGCCACAACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCT
Y
GAACCCCTGACCTCAGGTGTTCCAACTGCCTCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCTGTAATCAACATTCTTAGAG
Celera SNP ID:            hCV26325484
SNP Position Genomic:     22618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15263):
CCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGTATTACAGGCGTGAGCCACCGCATCCGGCCCAGAAATGACATATTTTAATGAAAA
M
AAAAAGTATATTTTGTAACACTGAAAAGATTAGTGTGAAAATGTCATTTTTTTACATTTTGAAAATCTCATAAATGTCTAGCTTAACGGAAAACAATTAG
Celera SNP ID:            hCV26325486
SNP Position Genomic:     26891
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15264):
TTAATTAACAGGATAAATCAAAGTAAATACAGAGTCTAGTTTTAAATATGTATAGATAAAACTTGTTTTGTACATAAACATAATTTTCTGAATTCACATA
R
TATATACTATGTTAGAAGATTTAAATCACTATTGATAAATTTTATTCTATATGTCCCCAGTGATGTCCTTCTTCTTTTTTAAAATTTTGAGACAGGGTCT
Celera SNP ID:            hCV26325487
SNP Position Genomic:     28089
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15265):
GAGCAATGATTGTATATCTAATTTAACTTTGTATTTTACCTAGCATAGTATCCAGCAATAGCAGCTTCTCAGAAAATGAATTACGAAAGAAAGAAAGAAA
R
AAAGAGAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAGAGAAAGAAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAA
Celera SNP ID:            hCV26325488
SNP Position Genomic:     30684
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|-,11)   total(G,1|A,1|-,11) 
SNP Type:                 INTRON


Gene Number:                 25
Celera Gene:                 hCG1646681 - 30000053453510
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W339(29334261..29356687)
Chromosome:                  Chr4
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12185):
GGAGTGCAGTGGCACAATCATAGCTCACTGTAACATCAAACTCCTCAGCTCCAGAGATCCTCTTGCCTCAGCCTCCCGAGTAGCTAGGAATATGGGCATG
CCACTACACCTGGCTCATTTAAAAATTTTTTTGTAGAGACGGGGTCTTGCTATGTTGCCCAGGCTGGCCTTGAACTCCTGGCTTCAAAGGATCCTCCTGC
CTTGGCCTCCCAAAGTACTGGGATTACACACGAGTCACTGCACTTGGCCCTAAATATAGTTTATTTAAATGCAGGTATATATGATTTCATTTTTAATAAT
GATTATTTTTAACAACTGGCTCACAAAATTCTTGAAAATTAAAAATTGGCTCTTATGAGCTGGTATAAGCTGGCTCTAGCAGAGCCCTGGACGTATTGAA
ATATATCTTAGTAAGCATGATTCAGTGTATAATTGTTCATATTCAGTGCAAGCAACAATGGCATGTGGCTTGGATGCAAACAAGGAAATCCAGGGGAATT
CCTCAAGCTGACATGTCTTTTTGGATATTTGTTATATGATTAAGTCTTGGAATTCTGCCTAAGAGCAATGCTAAGCAACTAATTAATAAAGTTATAATAA
TACCTAGACCAGGATGAGAAATCCAGGCTTTCCTCTTTTTGTCTGTACTCTTTTCTCTTTACCGCTCCCTTGTTTAGCCTTGTATTTTATTTTCTCCCTT
CCTTTTCTCTCCATTTCTCTCTTGTTCTTTGCCTTCCATCCTAATTTTCTCTATTTGTGTTTCCCTTGTTCTTTCTCTTTTTTGCTTTTCCCTTTTGATC
CTCTCCTCCCAGTGCTTTTCTCTTCCATTTCTCTCTTTCCTCTTTAATTTTTCTTTCATATTTATTTGTCCTCCTTTTCTTCCCCATGTCACTTCTAATA
GATACACATATTCCTTCTCTGCCCCTAAAGCCTTTGGGATAATTTCTGAGGACGTGGGTTCTAAGTGATGGCTCTTACAACAGGACCATTCCCAGAGTGA
GCAGGGTCAGTTGAGAGGGGAAGTGGGAGCGGGAGTCAGGGGTAGCACATGGGAAAATGAGAGATGAGAAATGTCAATATTTGGTATCATTAGGGAAAGT
TTCGTGGGTGCATTAGAGTTCAAGTTTGTTGGCTCATTGTAGGACTGTCATTTATTAACCTAAGGCTCTAGTCCTGTTTGTGTAATATGGTAGCCACTAG
CCGTATGTGGCTATGGAATGCTTGAAAAGTGACAAACCTGAATTGAAATGTGCTGTAAGTGTAAAACACACACCAAATTTCAAAGACATTATATAAAAAA
AGAATGTCAAATATCTTGCTAGTAATTTTTTATATTGAGTACTTGCGAAATAATATTTTAATGTGGTGAATTATATAAAATATATTATTAAAATTAATTT
CACCTCTTTTTGTCTTTTTAATGTGGTTACCAAATCTCTCCAAAGTCTTTCAGGTTCCTAGCACGTATCTAGGATCATTTTATTTTATTCTTTTTCTTTT
TTCTTTTTTTTTTTTTGAGACGGGCTTTGCTCATGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTTGGTTCACTGCAACCTCCGCCTCCCAGCTTCAAG
CAATTCTGCTGCCTCAGCTTCCCRAGTAGCTGGGATTACAGGTGCATGCCACCATGCCTGGCTAATTTTTTGTATTTTCAGTAGAGACAGGGTTTCACCA
TGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCGCTGTGCCCGGCCA
GGATCATTTTATTTGTTTGAACTAAAATGTTCTCCTTATACTCAAATGTAGTAAATGAATGACAAATGATTTAAATTTTCTAACCATGTGAGAATTTTAT
TACTTTTCATTTATTTTTCAGAAATAGGATTCAGAAAAAAAAAAAAGTTGTTACTATTTTCACTTACTGATACCAGTAATTAAAGTAAAGGAGCTTTCCC
CAGCTAACACGTGCTCCACACTAGACCCTGAACCACCCGCAGTGCTCTTAGGGAGAATGCAAGCCCAGGCCCTTTCTTCTACCCGTGAGCAGCTCTAGGT
CATGTAACTTTCCTACCTGCCTGGATCAGGGACCAAGGCCCTCTTAAAGGCAAGAACTATAAAAATAGACTGGGTGCGGTGGCTCATACCTGTAATCCCA
GCACTTTGGGAGGCCGAGGTGAGTGGGTCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAGATGGCAAACCCCATCTCTACTAAAAATACAAAACT
TAGTCGAGCATGGTGGCACATGCCTGTGATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGAGGAGGTTGCAGTGAGCTGAG
ATCATGCCACTGCACTCCAGCCTGGGCAGCAGAGCAAGACTCTATCTCAAAATAATAATAAAAATAAAATAAGCTAGCCGCCTGTAAGGTGGTCATGAAT
CCTCTGCCCAATAGAGACGCTCCATCTTGCATAGTGAGGCAAAGATCTGATCAGATTTCCCTTCTTGGGGGAAGTATTCTCAGAGCGGGCCTCAGCCCTT
GACTGTAAGCCATGAGCCTGGGAAAAGGCTGTAGGAAGACACATATAGAAGCAAAGGCAGCAATAAAGAGAAGTGGGGAATAGAAAGAGAAGCAGATTGA
GGAAGAGTCAAAGAGAAGTCAAGTCATAGCTAAAGTGGAGAGCAGCCCAACCAGACAGCCTGACCACCACGGCTGCTCTGGGAGTCCCCAGAAGCCACTG
CTCCAGGTCTCTAGAGGGCCTGGCTGTGCTGCTGTGTTTCCTTACAGCCTCTAGTGTCTTTAAAATAAACCTCCATCCCCTTGTGGTAACCCAAGGTTCT
CTGTTCATTGCAACATATATGAAGGCAGAATCACAGCTGGCCCACGTCTGGTATCAGAGGAAGACATAGGAGGGAAATGTGTGTTTGTGTGTTTGTGTGT
GTGCGTGCGTGTGTGTGCGCGTGCCTGCGTGCATGCATGTGTGTAGGGGCAGGGGGAAGTTTTTTAAAAAGGAATAAAAATATTACATCTTAAAGTTATC
AGCACATATGGTTCTGAGCATACTATTCTTGGTTGCTAGTTGTGAATAAAGATTTAAACGTTTTAGAAATCTCAGGTGAAGGCAGAGAGAGTATTACATA
ACCTCTTGGGCATCTGGAGTCGTGAAAAAATTGTGGGCTTTGGAACCAGACTTACTTAGTTTTGAATCTTGGCTCCCTCCCCTATTGGATGATGACCTTG
TGCAAGTTTTTTGTTCTCTCTCAACCAGTTTTTCCATCTGGCGAATGGGAATAAAGTATATGTTCTATGTAGTTTGTGGTGGTGATTAGCCAATATCTTG
TGTGCAATACTATCTGCACTTAGGAAGTAAATGCAAGCTTAATGATGATGATTAGATGACACAAGCAACAACTCTACTTGGCTCAACTTGTTTTTGGTAA
ACAAATGTAAAAACACTTAAAGAAAACTTCTCCGTTTTCTGACAATAAAGTATTTAAACATGTTGGTCTCTGGGGAAAGGAAGAATATGTCTTTGGACAA
CAAAAACCCCAAGTGATTATTTTTCCTTGAGAGGGCAATATACAGTGTGAGTGTGCTGATCATAGTAATTTGAGAATTTCTGAAATGAAAAAGATTTTAG
AGCTTAGTTCATCCAACAAGCTGGGAATCCCCTCTCCAACGTTCCTGACGGGTGTTCCTGTCTTCCTACGTTTGTGTAATATAGACATGTTTGTATATGT
TTAGGTGAGGAGCAGAGCTGGTTTTGTTTTGCTGTTGTTTTTCTTTTTACAGTTATTTATATTTTGTGTGATTTCCCCCTACAATATATGTGGAAATACA
TGGACTACATTTTAAATTTAAAAACCCCAATATGATAGTTAAAAAATGTATTTTAAGAACCCACCCACTCCCCAATTTTATAAGACATAAATCTATTATA
ATCATTCATGTTTAAATTGATCATTCCTCCTGTAGACAAATCCATCTGGAAATTTTCTTCTTTACTCGTGATCTCCAGCAGTCACCTAAATCTTAAGTCA
AGTATGAAAAAAACCTCAAAAATGTTGCTTTAAAAATTGATCCGTACTTTGCGATCTACATTTTAAAAAATACCATGCTTATTTTACCACTTCACTTCAA
GAAAAGGCCTCTAGGTCAGAGGTCTCCAATCTTTTTGGCACCAGGACCAATTTCATGGAAGACAGTTTTTCCACAGACCGGGTTTGGAGATGGAGGAGAG
ATGGTTTCGGGATGATTCAAGCACATTACATTTATTGTGCACTTTATTTCTATTATTATGACATTGTAATATATAATGAAATAATTATACAACTCACCAT
AATGTAGAATCAGTGGAAGCCCTGAGCCTGTTTTCCTGCAACTAGATGGTCCCATCTGACATGATGGGAAGCAGTGACAGATCATCAGACATTAGATTCT
CATAAGGAGCACGCAACCTAGATCCCTCCCATATGCAGCTCACAGTAGGGTCCAAGCTCCTATGAGAATCTAATGCTGCCACTGATATGACAGGGTGTGG
AGCTCAGGTGGTAATGCAAGCGATGGGGAGCGACTGTAAATACAGATGAAGCTTCATTTGCTTACCCACCACTCACCTCCTGCTGTGTGGCTCGGTTCCT
AACAGGCCATGAACTGGTACCTGTCTGTGGCCCAGGGGTTGGGGACCACTGCTCTAGATAACTCCTTTCCACCCTCTTCCTGCCTGATTGCTGAAATTAT
GGAGTCACCATTCCTACTCCTGCCCATCATCACATGACTGCCCCACCCAACTGATGAAAGGGATAACCGACCTGCACCTTGAAGAAAAGCATCATCAAAG
AGCTCTAAGATGCTGTGGAAAACCAGTATGGTAGTTCTGCAAAAAATTAAACAGAATGGTCATACGATCCGTGAATTCCACTTCTAGGTATAGACTCAAA
AGAATGTTAAGTACCAACTTAAATAGATATTTGTGCACCACGTTCACAGCAGCATTATTCACAAGAGCCAAAAGGTGAAAACTACCCAAATGTCCATTGA
TGGATGAATGAATGAACAAAATGTGGGACGTACATACAACAAAATAGTATTCAGCCTTAAAAAAGGAAGGAAAGATTCTATTATTCTATGTAATAATAAT
AGAAATGATATGGATGAACCTTAAAGACATTATGCTCAATGAAATAAGCCAGTCACAAAAAACCAAATATGGTATAACTCCACGGACATGAGGTACCTAG
AGTAGTCAAATTCACACAGACAGAAAGTAGAATTATAGTTTCCAGGGTCTGAGGGAAGGGGAAAATGGGAAATTATTTTTTAATGGCATAGAATTTCAGT
TTGGGATGACGAAAAATCTTTGGAGATGGGCAGTGGTGGTGGTTGCACAACAGTGTGAATGTACTTAATTAATGCCACTAAATTGTACATTTAAAAATGC
TTAAGGTCAGGCGCGGTGGCTCACACCGTAATCCTAGCACTTTGGGAGGCCGAGACAGGCAGATCACTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAA
CTGGCGAAACCCCGTCTCTACAAAAAATACAAAAAACTTAGCCAGGCCAGTTGGTGAGCGCCTGTAGTCCCAGACATTTGCGGGACTGAGAAGCCCAGCC
TCTTGCGGGCTTTAGCGCAAGAGGTCAAGGCTGCAGTGAGCAGTGATCACACCACTGCACTCCAGCCTGGGTGACAAAGTGAGACCCTACCTCAAAAAAA
ATAAAAATAAAAATAAAAATAGAAAGATGGTGAGCATGATAACTCCTATGTTATGTGTATTTGACCACAATTTAAAAAAGTGCTAAGATTATAATGAATA
TATATAACATGCAATACCAGTAGCATGCAGAAGAGGGCGGATGGGGTTTAAGCTTTACAGAAAACCTCGATTCAATTCCCTCCTGCAGCCAATTCTGACC
GTGTCAACGAATCATCCACGCACCTGCAGCTCTGCTGAGAGAGTGCAAGCCGTGGGGTAAGAACCTTAGCTTTGTTTGTTGTAACTCTCATTAAAAAGAT
ATAAGGGCTGCATGGGTATTTTCTAAAAAGGAGATAATTTGAGCTAATATTGAGGGGAGGGAAGTAGGGTTATTTAGATTTTTAGTATTTACTATTTTGT
CTAGATTAATGATTAGTGACCTTGGGGCTATTGATCTGAGGAATTTCTTGCAGATGCTTGAGAGCGTGGGTTTCTTTTCACTGATTGCGGATCAAACCTG
GTCAGCTCTTCTATTCAGATTGAACGGTCCTATGCACTGTGGCAAGTTTTTTCTAGCTCTTATTTCCCCACAGCGTATGTTAACCTCTGCTGGATGAAAC
CTTTGGCTATTTAAGGCATATTTGTTGCTCCTTTACCCCGTTGAAAAGTTCTGCATTTGTGTTACCTGTTTAAAAGTAGGGGCAGATCTGATGGATCTTG
TACAATGCAGTTCTTATTCCGTTTCCTTCAGAAGTGGACAAAGAGGGCCATATGTGGTTGCTGTAAAGAAGAGGATGGTTAACAACCTGTGAGCATTTGG
TTTCTTGATAAGCTTTCTCCCAGACCACCTACAYTGAGCTATTAATTAGGAATAGGATGCACTTCGAGTTTTATTTCAATTCTTGTGAACTTATAACTTT
CCTAAGAATATATTTATACATGTAGGCAAAGTCTCTTGAACTTTGTGGCACCTAGCAGAGTGTCCCACAGCAGCTGCATGAAGCTTCATAGACAGGGGCA
TGGGGTGAGAAAGGAGGAAGTGGCCGCCATGGCAGCTGGTCAGATCAATGGATTCAACCTCAGTGATTCGGTCCTTAGGATGTCGTTACATCTTAAGCCA
CCTCATTTCAAGGTTTGAGGTGCCTTGCATTTGGGTTTAGTTACCATCCAGAAGGAACCAGACAGGTCTGGGTTCAAATCTCTGCTTCTTCAGTTGGTCA
TCTTGGGCAAGTTACTTTACCTCTGGGCTTTAGCTCCTCCATCTGTAAAATATGAATAATAATGGCCGCCATTTTGTTGAGTCATTGAGGGATTAAACAA
GGTAATGGACATAAAACACTTAGCTCCATGTCAGACACGTAGGAAATACTGAAAAGAAGTCATTCTTACTCTTATGTTGCAAAGATCATTCAACATTCAA
TAGGTTCTTAATCTCTTTTCTATTTCTTTATATCATTGGGAAAAGATAAATTAGATGATTAAATATTCTTTGGTAAAACACTAGTTGTCATTTGATGATG
TCTTTTGACTTGGACTTTTAAATTATAAGATATTAAAGATGTATTAAGGAAGGTCATTCTCTGTTTTTTACCTGCTTTTAACGTAGTAGTAGGGATATGA
TATTAACATATATATACTATTTATAGACTACATCACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGTGTGATGGCAGGTGCC
TGTAATCCCAGCTACTCAGGAGGCTGCGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGCTTGCAGTGAGCTGAGATCATACCACTTTACTCCAGCCTG
GGCAACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAGTGTATGTCCTACTTTTAAAATTGCTTTAATGAGGCCAAGCACAGTGGCTCACACCTCTAAT
CACACCCATTTGGGAGGCTGAGGTGGGAAGATTGCTGGAGGCCAGGAGTTTAAGAGCAGCCTTGGCAACATAGTGAGACCCTGTCTCTATGTAAAAGTTG
TTTTTATAAAATGTCATAATGCATAAGTATTGCCTGAGAGATAGGACCTTTACTATTGTTATATTAAGAGAAGTTCAAAAAGAGTTCCTCTCCCATTGTA
GTCCCAGATAAGACTGTGGTATTGGGCAGGGGGAAGAAGTGGGTAAGAGATAGAAACTCTGACTTCTCAGCGCAGAGTTCCAGCTAAAGCAACTGGGTTA
GATTCTGCTGCATTCTTAAGGGGCCATGGCTCTAAGACCTAGAAGCTTAAAGTCAATTGCTACAAATTAAGCACTCTATGAGAGGATAACATTAAAAGCA
CCTTTGTCAACCTAATGATTATAACTGCCAGGGTCCTATCAAGCCATAATAGAGCCTGAGGCAAAAGAAACAATCAGCAATACTGATCCTGTCTTTATGA
AAAATTTCGATATTTTGTTCAACATAGATTTTTGCATTAATTTTCATTTTTAAAAATATTTCATGTAAACATTATCTTGATTACTGAGTTCCTTGGGACC
CCCTTAACATTTATGCCTTCCTTGCTTCACCCGAGTCTTGACCTGATAACTGCCACCATTTATTAAGTGTGATATGCTAGGCATGGTACTAAGTGACTTA
CATACATTGTCTTATGCCTCTTCACAAGCTCCATTTTACAGATGACAAAACCAGATCTTTCAGAGATTAAATAAATGGTCCGAGTACATAGCTAATGAGT
GGATGAATGGTTAACATTGGATTTGAACACAGATCCATCAATCACTAAAACCAAACTTATTCTTTTTTTTTTTGAAACTGAGTCTTGCTCTGTTGCCCAG
GCTGGAGTGCAGTGGTGGCATCTCAGCTCACTGCAACCTCCACCTTTTGGGTTCAAGTGATTATCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGC
ACATGCCACCACGCTCAGCTAATTTTTTGTATTTTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTTACTTTGTGATCCA
CCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGCCACCGCGCCAGGCCTACCAAACTCATTCTTCAACCATCATGCCCTGCACTGTATCAGG
AATTCACAACATAAATTCATTCATTCAACACATATTTATGAGAGCATATTATGCATCACGTTGTACTAAGGATTAAAACGTTGAAATTCATACATACAAG
GATTCATTCATTCATATGTGCATTCAACAAGCAGTAATGAGCAGGCACCATGTGTCAAGCACTATGCTACATGCTGAGGATACAGAAGTGAACAAGACAG
ACAGCTACCACGGGAATGAACAGAGAAGGGACAGGTGACAAGCAAATGAATGAAAGTTTATTTACTAAGAGGTCATTCAGAAGAGATCATGAATTCATGG
AAAATTATTTTCTGCATCTAGTGGCATGGAAATTAAGATATTCTGAATTTTAATGTATAGTTTTAAGAAAACTGAAAGAAAATATAAAGTTTATCATTAT
ACATTGGATACTATGAACACAATAATTTGAGTAGTAATTACACTTCCAGGCCACAGTTGTAAACTGATTTTCTATTAGAAATATTTAAAAGTAGATGTAG
AAAACTTACTCTTAAATATATAACAGTTCAAAAATCCAGCAGGAACTAAGTTAATTAAATAGAATATTCACCTGTTTTTTCTGAYAATTATCCTGTGTTA
TATTTACATATTAATGCAGTATAATATTTTAGTATACATTACACTCTAGGGAGTCACTGAAATGTCAGCAAAGAAAAATACGGCCGGAGGCATCTTAAGT
CATTTGACCACGTTTTTAAAAGTTGGTGTTTTGAGAAATCATCTAAATGTGGTGACCTTACCAAAATGATTGCTTTTTCTCCAAGATATTTGAGAACACT
TACCAGAAACAATAGTTTATGAAATATAAAAATTATATGATCAATGTGGATAATTAATATTTTTACAAAGGAATTCTCCAAGTTTACATTGTAAGGGAGT
TCACACAAAGAAACTATGATCATATGTGTTCCCAAGATAAGAGATAAGATGCTCTCTCTCCTTTACTAGTATCAGCAGCTAATGGAAAACTTGGGAGTGG
CCCTCTCACTCCCTACTCTCCATAGGTTTTCTGGAATTTCTTCACTTCAAGAAAAAAACCAGACTTGGGAAGGTTCTAGAGAAAGAGAAATACAGATGAG
AGAGAGGTAACATTCTAAGTGGCCTTATGTTTTGATTCTGCCCCACCTTTGTTACCCTGCCATGTTTGTGTGCATTCCTGTGGATGGGCGTGCCCACTGC
CTCCCTCACCTCCCATCCAGGCTTTCAGAATGATGGGAACATGACACGCACAGAGAATTCTCTCTAACCCATCCTCTTTCTGTTGAGCATATCTTTTGCT
CCCTCTGCTTGTCTATGGGAGTGACCTGTCTGAGGGAGGTTGAGGGTCAATGTGTAACAGATACATACAAATGGAAGCAGAAAAACTCCCCCACTAACTT
ATCACCTGCTCTTGGTGCCTTCAGAGAGCCTGGTGTGGGGACACGTAGAGTTAAATTGTTTACTAATTTGAAATTAGAATCTAACCACTTCTCTCCACTT
CCATTGATACATTCTCTCTGGCACAAGTTACGCTATAGTGTCCCAAGGAGTCTTCCCTGCCAGCCTTGTGGCTCCCAGTCATTTCCACCCAACAAACAGA
GGAATCTTTTTATTTGTTTGTTTGTTTATTTATTTATTTATTTATTTTATACTGTAAGTTCTGGGGTACATGTGCGGAACGTGCATGTTTGTTACATAGG
TATACACATGCCATGGTGGTTTGCTGCACCCATCAGCCCATCATCTACATTAGGTATTTCTCCTAATGCTATTCCTCCCCTAGCCCCCCACCCCCTGACA
GGCCCCGGTGTGTGTCAATGTGTTCTCATTGTTCAACTCCCAGTTATGAGTGAGAACATGTGGTGTTTGGTTTTCTGTTCTTGTATTAGTTTGCTGAGAA
TGATGGTTTCCAGATTCATCCATGTCCCTGCAAAGGACATGAACACATTCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCATATTTTCTT
TATCCAGTCTATCATTGATGGGCATTTGGGTTGGTTCCAAGTCTTTGCTGTTGTGAATAGTGCTGCAATAAACACGTGTGTGCATGTATCTTTATAGTAG
AATGATTTATAATCCTTTGGATAGATACCCAGTAATGGCATTGCAGGATCAAATAGTATTTCTAGTTCTAGATCCTTGAGGAATCGCCACATTGTCTTCC
ACAATTGTTGAGCTAATTTACACCCCCACCAACAGTGTAAAAGCGTTCCTATTTCTCTACACCCTCTCCAGCACCTGTTGTCTCCTGACTTTTTAATGAT
CACCATTCTAACAGGCATGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTAATGACCAGTGATCATGAGCTTTTTTTCATATGTTTGTTGGCT
GCATAAATGTCTTCTTTTGAGAAGTGCCTGTTCATATCCTTCACCCACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTTTTAATGTTCTTTATAGAT
TCTGGGTATTAGCCCTTTGTCAGATGGACAGATTGCAAAAATTTTCTCCCATTCTATAGGTTGCCTCAAACAGAGGAATCTTTAAAATGTATGTCAGAAC
CTGTCATTCCTGGACTCTAAATCTTCTGCTGGTTTCTTATTTCAGTCAGAGGAAAATTGCCAAGTTCTTATAAGATCCGACCTCTTCTCTGATTCCGTCC
CCTAACTCCACTCCAGGTCTTCCTCACATTTTCCAAGCACATCAGGATCTTTAAATTTGTACTTGCTGTTCTCTCTCTCTCCAAAATACTCTTTCCCCAG
ACAACAAGTGTCTTGCTTCTTTGGCCCCTTTAGATTTCTGCATGAAGATCACTATCAGGGAGGCCATTTTTGATCATTCTATAAAAAAGAAAATCACTCC
CCAGTCTCTCTCTGTTTCCCTTATCTTAGTTATTTTTCCTTCAAGACAATATCACTGCCTGATATTGGTCCCCACCCAAATCTCATCTTGAACTGTAGCT
CCCATAATTCCCACATGTTGTGGGAGGGACCTGGTGGGAAGTAATTGAATCATGGGGGCGGGTCTTTCCCATGCTGTTCTCATGATAGTGAATAAGTCTC
ATGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAATC
CTGTGGTTTTATAAAGAGGAGGTTCCCTGCACATGCTCTCTTGCCTGCTGCCACATAAGACATGACTTTGCTCCTCATTCGCCTTCCACCATGATTGTGA
GGCCTCCCCAGGCATGTGGAATTGTGAGTCATAACATATAAACGTATTGTTTTGTTTGCAGTCTCTCTTTTCTTAACTTCTTTCTAGAATATAAGCTATG
TAGAAACAGAAATCTCTTCTGTTCACTGCTACTTCCCCAGTGCCTAGAAAAGTTTCTGGCAGAATAGGTACTTAATAAATATCTTGAATAATGAATATCG
TAAAATCTTAGTACTCCAACTACCTCTGTTCTACGTCTAATCCAACCACGTGAAGCCTGGCACATCTCCCAAAGTCCTCAGAATTCTATATCCTTCAATT
TCCTCATCTATCAAATGGGAGTAGTAGTACTTCCCTCACAGAGTATGGTGATAAATAAATGAGATAATATACATGAAGCAATTAGTATGTATCTTGGCAC
ATTGAAATCTAACCTGAAAGCTTTGATTCTATGCCATAACAGAATTCAGCAGCTGAATATCAAGACCTTTGAATTCAACAAGAAGTTAAGACATTTATAG
TTGTCTAACAACAGACTGAAGATTGTGGCTTGGTATTCACTGGCAGGTTTCAGACATTTAGATCTTTCTTTTAATGACTAACACCATGCCTATCTGTGGA
GAAGCTGGCAACATGTCACACCTGGAAATTGTTTTTCAACATTAATACTATTATTTGGCAGTAATCCAGATTGCTTTTGCCACCAACCTGAAGACATATA
GAGGCAGAAGGACAGGAATAATTCTATTTGTTTCCTGTTTTGAAACTTCCATCTGTAAGGTAAGTGTTGAAAGTCAGATATTGGCTCCAGGGACTTTCTA
TATCCACAAATACAAAAATTGAGGGGTAACTCCTTGATATCAAGTCAAAGGCTCACAATGTCTGGTAATAAAACAAATTACTTTCAATTTTCTTGAAATC
TTCAGGCTATCAAAAGGAGATGTGAGAGAGGGTMTTGAGTCTGGCCTGACAATGCAGTTCTTAAACCAAAGGTCCATTATGCTTCTCCTCTCTGAGAATC
CTGACTTACCTCAACAACGGAGACATGGCACAGTAGCCAGCTTGGAGACTTCTCAGCCAATGCTCTGAGATCAAGTCGAAGACCCAATATACAGGTTGGA
ACCTTACTCCAACCTCTTGATGAATGTAGTCAGATGTTGGCATTTTTTTTGCAAATAAAAATCCTACAGGATTTAACAAACCAAATAAAAATCTAATATT
ATATACTTTTTTTTAGGGTTTTGAGCTCATCTTCATCATTCATATGAGGAAATAAGTGGTAAAATCCTTGGAAATACAATGAGACTCATCAGAAACATTT
ACATATTTTGTAGTATTGTTATGACAGCAGAGGGTGATGCTCCAGAGCTGCCAGAAGAAAGGGAACTGATGACCAACTGCTCCAACATGTCTCTAAGAAA
GGTTCCCGCAGACTTGACCCCAGCCACAACRACACTGGATTTATCCTATAACCTCCTTTTTCAACTCCAGAGTTCAGATTTTCATTCTGTCTCCAAACTG
AGAGTTTTGATTCTATGCCATAACAGAATTCAACAGCTGGATCTCAARACCTTTGAATTCAACAAGGAGTTAAGATATTTAGATTTGTCTAATAACAGAC
TGAAGAGTGTAACTTGGTATTTACTGGCAGGTCTCAGGTATTTAGATCTTTCTTTTAATGACTTTGACACCATGCCTATCTGTGAGGAAGCTGGCAACAT
GTCACACCTGGAAATCCTAGGTTTGAGTGGGGCAAAAATACAAAAATCAGATTTCCAGAAAATTKCTCATCTGCATCTAAATACTGTCTTCTTAGGATTC
AGAACTCTTCCTCATTATGAAGAAGGTAGCCTGCCCATCTTAAACACAACAAAACTGCACATTGTTTTACCAATGGACACAAATTTCTGGGTTCTTTTGC
GTGATGGAATCAAGACTTCAAAAATATTAGAAATGACAAATATAGATGGCAAAAGCCAATTTGTAAGTTATGAAATGCAACGAAATCTTAGTTTAGAAMA
TGCTAAGACATCGGTTCTATTGCTTAATAAAGTTGATTTACTCTGGGACGACCTTTTCCTTATCTTACAATTTGTTTGGCATACATCAGTGGAACACTTT
CAGATCCGAAATGTGACTTTTGGTGGTAAGGCTTATCTTGACCACAATTCATTTGACTACTCAAATACTRTAATGAGAACTATAAARTTGGAGCATGTAC
ATTTCAGAGTGTTTTACATTCAACAGGATAAAATCTATTTGCTTTTGACCAAAAYGGACATAGAAAACCTGACAATATCAAATGCACAAATGCCACACAT
GCTTTTCCCKAATTATCCTACGAAATTCCAATATTTAAATTTTGCCAATAATATCTTAACAGACGAGTTGTTTAAAAGAACTMTCYAACTGCCTCACTTG
AAAACTCTCATTTTGAATGRCAATAAACTGGAGACACTTTCTTTAGTAAGTTGCTTTGCTAACAACACACCCTTGGAACACTTGGATCTGAGTCAAAATC
TATTACAACATAAAAATGATGAAAATTGCTCATGGCCAGAAACTGTGGTCAATATGAATCYGTCATACAATAAATTGTCTGATTCTGTCTTCAGGTGCTT
GCCCAAAAGTATTCAAATACTTGACCTAAATAATAACCAAATCCAAACTGTACCTAAAGAGACTATTCATCTGATGGCCTTACGAGAACTAAATAYTGCA
TTTAATTTTCTAACTGATCTCCCTGGATGCAGTCATTTCAGTAGACTTTCAGTTCTGAACATTGAAATGAACTTCATTCTCAGCCCATCTCTGGATTTTG
TTCAGAGCTGCCAGGAAGTTAAAACTCTAAATGCGGGAAGAAATCCATTCCGGTGTACCTGTGAATTAAAAAATTTCATTCAGCTTGAAACATATTCAGA
GGTCATGATGGTTGGATGGTCAGATTCATACACCTGTGAATACCCTTTAAACCTAAGGGGAACTAGGTTAAAAGACGTTCATCTCCACGAATTATCTTGC
AACACAGCTCTGTTGATTGTCACCATTGTGGTTATTATGCTAGTTCTGGGGTTGGCTGTGGCCTTCTGCTGTCTCCACTTTGATCTGCCCTGGTATCTCA
GGATGCTAGGTCAATGCACACAAACATGGCACAGGGTTAGGAAAACAACCCAAGAACAACTCAAGAGAAATGTCCGATTCCACGCATTTATTTCATACAG
TGAACATGATTCTCTGTGGGTGAAGAATGAATTGATCCCCAATCTAGAGAAGGAAGATGGTTCTATCTTGATTTGCCTTTATGAAAGCTACTTTGACCCT
GGCAAAAGCATTAGTGAAAATATTGTAAGCTTCATTGAGAAAAGCTATAAGTCCATCTTTGTTTTGTCTCCCAACTTTGTCCAGAATGAGTGGTGCCATT
ATGAATTCTACTTTGCCCACCACAATCTCTTCCATGAAAATTCTGATCAYATAATTCTTATCTTACTGGAACCCATTCCATTCTATTGCATTCCCACCAG
GTATCATAAACTGAAAGCTCTCCTGGAAAAAAAAGCATACTTGGAATGGCCCAAGGATAGGCGTAAATGTGGGCTTTTCTGGGCAAACCTTCGAGCTGCT
RTTAATGTTAATGTATTAGCCACCAGAGAAATGTATGAACTGCAGACATTCACAGAGTTAAATGAAGAGTCTCRAGGTTCTACAATCTCTCTGATGAGAA
CAGAYTGTCTATAAAATCCCACAGTCCTTGGGAAGTTGGGGACCACATACACTGTTGGGATGTACATTGATACAACCTTTATGATGGCAATTTGACAATA
TTTATTAAAATAAAAAATGGTTATTCCCTTCATATCAGTTTCTAGAAGGATTTCTAAGAATGTATCCTATAGAAACACCTTCACAAGTTTATAAGGGCTT
ATGGAAAAAGGTGTTCATCCCAGGATTGTTTATAATCATGAAAAATGTGGCCAGGTGCAGTGGCTCACTCTTGTAATCCCAGCACTATGGGAGGCCAAGG
TGGGTGACCCACGAGGTCAAGAGATGGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGATGGTGCA
CGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGCAGTTGCAGTGAGCTGAGATCGAGCCACTGCACTCCAG
CCTGGTGACAGAGCGAGACTCCATCTCAAAAAAAAGAAAAAAAAAAAAGAAAAAAATGGAAAACATCCTCATGGCCACAAAATAAGGTCTAATTCRATAA
ATTATAGTACATTAATGTAATATAATATTACATGCCAMTAAAAAGAATAAGGTAGCTGTATATTTCCTGGTATGGAAAAAACATATTAATATGTTATAAA
CTATTAGGTTGGTGCAAAACTAATTGTGGTTTTTGCCATTGAAATGGCATTGAAATAAAAGTGTAAAGAAATCTATACCAGATGTAGTAACAGTGGTTTG
GGTCTGGGAGGTTGGATTACAGGGAGCATTTGATTTCTATGTTGTGTATTTCTATAATGTTTGAATTGTTTAGAATGAATCTGTATTTCTTTTATAAGTA
GAAAAAAAATAAAGATAGTTTTTACAGCCTACACATCCTACTCATTTGGCTTGATTCTTCTTTCTGGTCTCACAGGTCACAGGAAGAAAAGCACTCCTGA
AATATAATTTTTGCAAAATTATATTTCAAAAATGACAATTTTGCAAAATTATATTTCAAAAACAAACATCATGTCACTTCTCTGGTTAGAAAAAAATTTT
GTGGCTTAAACACATGATTCAGGGAGAGAATGTCATGCTCCTTTAAGATCTGACAGCAATCTCCTTTTATATCCTTGCATCTTCTTTATTTTTAATTTTT
AGAGACTAGCTCTTGCTCTGTCACCCAGGCTGGAATGCAGTGGTGCGATCATAGCTCACTGCAGTATTGAGCTCCTGGCCTCAAATGATCCTCCTGTCTT
GGACTCCCGAAGTGCTGGGATTACAGGTGTGAGCCACCACACCCAGCCCCTCCTTGCATCCTATCATTGGGCCCTATGGAGCTACTGGCCCTTCCCCAGA
ACTTTCAGTGTTCTTTCATGGCTCCAGAGCCCAGATTTCACATCATGCCTGCTGTAATGCCTTCCCTACTTGGGTTTGTTCAGGAAATCTTACAGTTCTC
TCAGGACACAATCCACATATCGACTCTTCTTTGAAATCATCCTCACTCTTTCCCGTAAGCATGATGCTTCTTGATTCTCTTCCACACTTTGGACATATTT
CTATCACCAACCTAATTATGTACATTTTTAAAGTTTCAATTTCCCACTAGACTATGAACTCCTCAAAGGCTAAGACAGACTTACATCTGCCCTTGTGTCT
GCAGCAGTCCCTGGTTCAGAACTGGTGCTCAAAGAATGTTTATGGAATGGATGTTGGGTTGGCTAGAGGAGCTTAGTGGGAACTCAACTGGCTTAAGGAT
AGATGGTGGAATTTAAAGGCATATTCTGAGAAGCTCAGGAAGAGCAGGAATAGGTAAAACTCAGGTAAGAAGACAGAGAATCCAGAATTGTAGGATTCCT
AAGTAGAGCTCACGTCATGTGAAATTGCCAAAATTTGGTTGCTCTCGACCTAGAAAAGCATCTACTTTTAAAAATCTCATTCCATCTGTATTAGGGTTCT
CTAGAGGGACAGAACTAATAGGATATATATATATATATATATATCACACAATACTATATCTATATCTATATCTATATCTATATATATATATTGCAAGGTC
TATTGTGGGACCTTGTAATTGTGTGGGTCAACACTCCTTAATAAACTCCTATATATATAGGAGGTACATATATATATAAAATAGGATATTACATATAGGA
TATATATATAAAATAGGATATATATATAAAATAGGATATATATATAATAGGATATATATAGGAGCTATATAGGATATATATACAAATATATATAAAGTAT
ATATAAATATATATACTTTATATATATAATAGGATATTATATATATATAGGATATATATAATAGGATATTATATATATATAGGATATATATAATAGGATA
TTATATATATAGGATATATATAATAGGAGATATATATATAATAGGAGATATATATATATAATAGGAGATATATATATATATGAGCTTATTAAGGAGTATT
GACACACACAATTACAAGGTCCCACGGTAGACCATCTGCAAGCTGAGGAGCAAGGAAGCCAGTCCAAGTCCCAAAGCTGAAGAACTTGGAGTGCAATGTT
TGAGGGCAGGAAGCATCCAGCATGGGTGAAAGATGTAGGCTGGGAGGCTAGCCCAGTCAAGTTTCGTCATGTTCTTCTGCCTCCTTTTATTCTAGCTATG
CTGGCAGCTGATTAGATGGTGCCCTCCCAGATTAAGGGTGGGTCTGCCTTTCCCATTCCACTGACTCAAATGTTAATCTCCTTGGCAACATCCTCACAGA
CACACCCAGGAACAATACTTTGCATCCTTCAATCCAATCAAGTTGACACTCAATATTAGCCATCACACCATCTACTAAGACTAATCTCCTAAACAAGTTA
AAACCGGATTCTGCATCTAATTCATTTTCTTATAGTTTGTATCTTATGAATTCCTCATGCTAGTGATTATTTTAAAAATTGTACTCAAGAAGGCCAACCC
GAGAGTACAGGGAGGGCACTGGGTGTCAATCTAGAAGCCAGGCCATGCTACCATTTAGCCAGTAGCTGGAGTTGAGGAGCTAGAGTCTAGCAGCTTGGGG
GCTGAGCATCTCTCTTTCTCTTCCCTGGTGAGCCCATGGTCTGTCTGGCAGAAGGGGAAACCCAAGGAAACCACAGTGGAATGGAGACAAAGCATGGGGA
AGGTGCCTTCCTGGGCAGGACACTGATGTAAATGTGATTCTTGGCTTCTGGAGGAGTGAGACCGATTCTGCACAAGGGTTGGTAAATCTTGAGTAAATTA
TTCAGAATGAGACTTTCACCTTTAATTAGTTAATGAATTCACCTTTAATTATTTAATGAATTCACCTTTGATTAATTAATCCAGCTTTAATTCACATTTA
ATTAATTAACTTGGAACACACGAAGAATGTAAGATTAGCCCTAAAGTCACCAGGATTTAGTTATTTCATGCTAGAACCCTCAGTTTAGCAATACCATTTA
CAAAACAGATGTGTTTTATTACAAGTTTAAAAATAACACATTAGGCTGAGCTCTCAGCAACTTCACAGCTGGACAATCCTTAAATCTTACCTATCAAATC
ATTTTGCTGTTCCTGTCTCAGAAACTTAAATACCATCCAACATTTCCTAATATGCTTGGTTTTGACTGTTATGAATTACAATCAGAAAAAATAAATTTTA
CATGAGTTGAACGTTATTTGCTTTTGAGGCTTGAAATACAAGTAACACCTAGCCTCATACAAACCTGATGATATACTTTTACCCAAGAAATTTCAGATTT
CAACAAAGACCCACTGTTCTGAATCATGACATTGATGCGGAAGTGAGCATACCCAGGCTGAATGCTGTAACAGCAGCCGGTGTCATGAACTCCGATCATG
TTTTAAAAATGACTCTGGAGCTTGTAAGTTCCTTTTTATTTCCTTGCCATTTGTCAACCTGGAGCTTGTTTCATTTTTTTCCCCGAGGAAACTGAACTCT
TAAGTGAAGTCTGTCTGTGTATTCCTCAGGGGGCTTTCACAATCTCTTAGCATCTCTACAGATAAATTGCAATCCTTTCTGGACGTCAACAGTTGAGTTG
TTGAGAATGGTCTGTATTCTCTCAGCAAATGTGGCAAAGAGAGCTGTACTGAAATGGAATTGCAGTCCTTGAATTCCCAACAGATTAGTGGGAAGAAGGA
ATTTTACATCTAAATTTTGGCAAATGTTCCCCAAAGTTCACTCCTTTATCTATTATGATGAACCATTCAAGAGAAGCATAGACTAGGCATATTAAAAGTG
GGTGAGAATTTGGAGATTGTCAAGTATAACTCTCACTTTCAAATGGGGAAATTGAGGCTTTAGAATTTTAAATGGCCCACCCAAGCCCAAGGTCATAGTC
TTTTAACTCCTAATGTTTTTCCTTCCAATCCACAACCAAGTGGCCTTTACTTTTTGCATTTGATTTTTATTCTCTCATTCCTTCTATTGCAATTCTCAAG
AACAGAGCCCTGGATGGGGCACTTTGATTATCCCGTCTATATTCCCCAAAGTCATTTGAGGTCTAGGCTTTCTCTGCAGTCTTCCTCCATGGCCAAAGCA
TCCTGTATTTGCCACCTGATTCTATCCCCGAAAAAAACATTCTTTTGCCATCGGTAACTTGCAATGGGGGCTGCTCCTCAGATCAGCCACCCCTGGTCTA
GGAGCCAGAAAATGTTCTCTATGTAAAGGATGGGGAATAATGGGGAGCCTGTTCTCCCCTGGAGGTTTCAAAGGCAACTTAATCACCAGCATCCTGCTGG
GGATACATACCTTGGTCCCTGAGCTCAATTTTCCACCTGGTGTGCTGTGACCCATGACTTGCTGCTGCCATTGATCCTTTTAACCCTGGACAGGGCTCCT
TGAGGACCCACTTGAGATAGGGAGTGGGTCTGGTAGTGCATCCTGAAGTCCTGCCAGGGGACAAGCACAATGAAAAACTCCTGACTGTGGGTCTGGAAGT
YGCCTACACCTGTACATCTATTCAACAGCCAGCTGCTGAGACACTGCCCTCCTTCACAGATGGGGGCTCTGAGCTGCTGGACAACACTGCGTTCTGGATG
TTCAAGGACAAAGTTGCAGCCAACAGTAGGGGTGTTCAGGATTATGGTTAGGGAAGCTGGGTGGGGGATCCTGGCTAGCACAACTCCCGACAGCAGCCCA
TGTCTGCCTCTTCACAATGAGATTCTTGTCTTCAGAATCTGTCTTGTTAGTGGTGTCCAAGCAGCCTCAAGGGTAACTATTAATACTCTAACAACACATG
CACATTCTAGTCATTATTTTGAAATACTTAATGAAAAGCCAGTGGAGTGAACTCTAAATCAATTCACATTTTCCCCAAGACGTTTATTTCAGTATTCTTT
TTGCCCTTCAAATCTTTGCTCCAATCCCATTTCCGTTGAAGACTTCCTGGATGACCTAGTAGAAAATGGCAGCACTCTTTGTCCACCTTCCTTGCTTTTT
ATTTCTCCATAGCATTTGCCATCTTCTAAGTTTACTTCTAAGTTTTCTCTTTATCCTGCTGATTCCCTGTCTTCCCCCACTAGAATGCAAACTCTTTTAG
AGCAGAAATTTTTTTCTGTTTTGCTCACAGATATTGTCTCTATCTCTGCCTAGAACAGTGCCTGGCACAGGTCCACTCCCCAGGGATTTTCTTTCTGTGT
TGATTTTATTTTCTTTGTTGATTGGCCTCCTCTGCTCCTCTGAAGTCCAGCAGGGCCTCTGTTGCCAAGGCTGCCCCCTTCAGTGTCAGCGCTTATTGTT
GGAAATCAAGGATACAGATTTTACTTGTAAGGGGGTGTATTAGTCCATTTTCATGTTGCTGATAAAGACATACCCAAGACTGGGTAATTTATAAAGAAAA
AGAGGTTTAATGGACTCACTGTTCCATGTGCCTGGGGAGGGCTCACAATCATGGCAGAAGGTGAAAGGCACATTTTACATGGTGGCAGACAAGAGCAAAT
GAGAGCCAAGCAAAAAGGGAAACCCCGTATAAAACCATCAGATCTTGTGAGACTTACTCACTACCATGAGAACAGTATGGGAGAAACTGCCCCCATGATT
CAATCATCTCCTACTGGGTCTCTCCCACAACATGTGGGAATTATAGGAGCTACAATTCAAGATGAGATTTGGGTGGGGACACAGCCAAATCATATCGGGG
GCATCCCTCACCATCTGTATTTTTGCTGACACTTTCTAGGACCTGCCATCACTGGCTTATTGCTTCCCCCAACCACCCCACACTTCATGAATCTTCTCTT
TGCCTCCTCCTATTGGAAGCTGCTGGATCTCAGGTGCTTGCTGTGGGCAGCCCTTTAACTATTTTGGAGTCTGCAGATTATATGAATCACTGCAAATGGG
GTACCTGGTTCCCCCACCCCCAACCACTTCCCCTGTTCTTTTGCTGTCTCAGCCTTTTTAGAGGGGAAGGGGCAGCACTGGGCCAATGAAGCCCCTGCCG
TGAGCCCACGCCTCAGATCTCCCCTT


SNP Information

Context             (SEQ ID NO:15266):
TCGCTTGAACCTGGGAGGTGGAGCTTGCAGTGAGCTGAGATCATACCACTTTACTCCAGCCTGGGCAACAGAGCGAGACTCCATCTCAAAAAAAAAAAAA
A
GTGTATGTCCTACTTTTAAAATTGCTTTAATGAGGCCAAGCACAGTGGCTCACACCTCTAATCACACCCATTTGGGAGGCTGAGGTGGGAAGATTGCTGG
Celera SNP ID:            hCV9482972
SNP Position Genomic:     7638
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15267):
AACAACACACCCTTGGAACACTTGGATCTGAGTCAAAATCTATTACAACATAAAAATGATGAAAATTGCTCATGGCCAGAAACTGTGGTCAATATGAATC
Y
GTCATACAATAAATTGTCTGATTCTGTCTTCAGGTGCTTGCCCAAAAGTATTCAAATACTTGACCTAAATAATAACCAAATCCAAACTGTACCTAAAGAG
Celera SNP ID:            hCV25643380
SNP Position Genomic:     14761
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15268):
GCTTTGCTCATGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTTGGTTCACTGCAACCTCCGCCTCCCAGCTTCAAGCAATTCTGCTGCCTCAGCTTCCC
R
AGTAGCTGGGATTACAGGTGCATGCCACCATGCCTGGCTAATTTTTTGTATTTTCAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACT
Celera SNP ID:            hCV26966980
SNP Position Genomic:     1624
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:15269):
TGCTTGCCCAAAAGTATTCAAATACTTGACCTAAATAATAACCAAATCCAAACTGTACCTAAAGAGACTATTCATCTGATGGCCTTACGAGAACTAAATA
Y
TGCATTTAATTTTCTAACTGATCTCCCTGGATGCAGTCATTTCAGTAGACTTTCAGTTCTGAACATTGAAATGAACTTCATTCTCAGCCCATCTCTGGAT
Celera SNP ID:            hCV25643390
SNP Position Genomic:     14896
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,1|T,39)   total(C,2|T,76)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,1|T,37)   total(C,2|T,74)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15270):
ATGTTAATGTATTAGCCACCAGAGAAATGTATGAACTGCAGACATTCACAGAGTTAAATGAAGAGTCTCGAGGTTCTACAATCTCTCTGATGAGAACAGA
Y
TGTCTATAAAATCCCACAGTCCTTGGGAAGTTGGGGACCACATACACTGTTGGGATGTACATTGATACAACCTTTATGATGGCAATTTGACAATATTTAT
Celera SNP ID:            hCV309083
SNP Position Genomic:     15905
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,22)   caucasian(C,9|T,27)   total(C,11|T,49)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,26)   caucasian(C,9|T,29)   total(C,15|T,55)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15271):
ATAACCTCCTTTTTCAACTCCAGAGTTCAGATTTTCATTCTGTCTCCAAACTGAGAGTTTTGATTCTATGCCATAACAGAATTCAACAGCTGGATCTCAA
R
ACCTTTGAATTCAACAAGGAGTTAAGATATTTAGATTTGTCTAATAACAGACTGAAGAGTGTAACTTGGTATTTACTGGCAGGTCTCAGGTATTTAGATC
Celera SNP ID:            hCV25643391
SNP Position Genomic:     13748
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,36)   total(A,72|G,2)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15272):
GTATCATAAACTGAAAGCTCTCCTGGAAAAAAAAGCATACTTGGAATGGCCCAAGGATAGGCGTAAATGTGGGCTTTTCTGGGCAAACCTTCGAGCTGCT
R
TTAATGTTAATGTATTAGCCACCAGAGAAATGTATGAACTGCAGACATTCACAGAGTTAAATGAAGAGTCTCGAGGTTCTACAATCTCTCTGATGAGAAC
Celera SNP ID:            hCV309084
SNP Position Genomic:     15801
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,33|G,7)   total(A,70|G,8)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,30)   caucasian(A,33|G,7)   total(A,63|G,7)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(T,-|C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15273):
TGACACCATGCCTATCTGTGAGGAAGCTGGCAACATGTCACACCTGGAAATCCTAGGTTTGAGTGGGGCAAAAATACAAAAATCAGATTTCCAGAAAATT
K
CTCATCTGCATCTAAATACTGTCTTCTTAGGATTCAGAACTCTTCCTCATTATGAAGAAGGTAGCCTGCCCATCTTAAACACAACAAAACTGCACATTGT
Celera SNP ID:            hCV25643392
SNP Position Genomic:     13965
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,39|T,1)   total(G,75|T,3)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,39|T,1)   total(G,72|T,2)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,34)   total(G,69|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15274):
AAAAAAAAAAAGAAAAAAATGGAAAACATCCTCATGGCCACAAAATAAGGTCTAATTCAATAAATTATAGTACATTAATGTAATATAATATTACATGCCA
M
TAAAAAGAATAAGGTAGCTGTATATTTCCTGGTATGGAAAAAACATATTAATATGTTATAAACTATTAGGTTGGTGCAAAACTAATTGTGGTTTTTGCCA
Celera SNP ID:            hCV26008455
SNP Position Genomic:     16538
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:15275):
TTAAAAGTAGATGTAGAAAACTTACTCTTAAATATATAACAGTTCAAAAATCCAGCAGGAACTAAGTTAATTAAATAGAATATTCACCTGTTTTTTCTGA
Y
AATTATCCTGTGTTATATTTACATATTAATGCAGTATAATATTTTAGTATACATTACACTCTAGGGAGTCACTGAAATGTCAGCAAAGAAAAATACGGCC
Celera SNP ID:            hCV26966983
SNP Position Genomic:     9485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15276):
AGTCCATCTTTGTTTTGTCTCCCAACTTTGTCCAGAATGAGTGGTGCCATTATGAATTCTACTTTGCCCACCACAATCTCTTCCATGAAAATTCTGATCA
Y
ATAATTCTTATCTTACTGGAACCCATTCCATTCTATTGCATTCCCACCAGGTATCATAAACTGAAAGCTCTCCTGGAAAAAAAAGCATACTTGGAATGGC
Celera SNP ID:            hCV309085
SNP Position Genomic:     15650
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,28)   caucasian(C,9|T,31)   total(C,17|T,59)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,29)   caucasian(C,9|T,31)   total(C,18|T,60)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,18)   caucasian(C,9|T,31)   total(C,15|T,49)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:15277):
GTGGACAAAGAGGGCCATATGTGGTTGCTGTAAAGAAGAGGATGGTTAACAACCTGTGAGCATTTGGTTTCTTGATAAGCTTTCTCCCAGACCACCTACA
Y
TGAGCTATTAATTAGGAATAGGATGCACTTCGAGTTTTATTTCAATTCTTGTGAACTTATAACTTTCCTAAGAATATATTTATACATGTAGGCAAAGTCT
Celera SNP ID:            hCV26966984
SNP Position Genomic:     6634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15278):
CAGTGGAACACTTTCAGATCCGAAATGTGACTTTTGGTGGTAAGGCTTATCTTGACCACAATTCATTTGACTACTCAAATACTGTAATGAGAACTATAAA
R
TTGGAGCATGTACATTTCAGAGTGTTTTACATTCAACAGGATAAAATCTATTTGCTTTTGACCAAAATGGACATAGAAAACCTGACAATATCAAATGCAC
Celera SNP ID:            hCV25473278
SNP Position Genomic:     14387
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,7)   caucasian(A,35|G,5)   total(A,62|G,12)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:15279):
TGCACAAATGCCACACATGCTTTTCCCGAATTATCCTACGAAATTCCAATATTTAAATTTTGCCAATAATATCTTAACAGACGAGTTGTTTAAAAGAACT
M
TCCAACTGCCTCACTTGAAAACTCTCATTTTGAATGGCAATAAACTGGAGACACTTTCTTTAGTAAGTTGCTTTGCTAACAACACACCCTTGGAACACTT
Celera SNP ID:            hCV309086
SNP Position Genomic:     14583
SNP Source:               Applera
Population(Allele,Count): african american(A,22|C,14)   caucasian(A,24|C,14)   total(A,46|C,28)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,4)   caucasian(A,16|C,10)   total(A,28|C,14)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15280):
TCCAGCCTGGTGACAGAGCGAGACTCCATCTCAAAAAAAAGAAAAAAAAAAAAGAAAAAAATGGAAAACATCCTCATGGCCACAAAATAAGGTCTAATTC
R
ATAAATTATAGTACATTAATGTAATATAATATTACATGCCACTAAAAAGAATAAGGTAGCTGTATATTTCCTGGTATGGAAAAAACATATTAATATGTTA
Celera SNP ID:            hCV26008456
SNP Position Genomic:     16496
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:15281):
CTTTTCTGGGCAAACCTTCGAGCTGCTATTAATGTTAATGTATTAGCCACCAGAGAAATGTATGAACTGCAGACATTCACAGAGTTAAATGAAGAGTCTC
R
AGGTTCTACAATCTCTCTGATGAGAACAGATTGTCTATAAAATCCCACAGTCCTTGGGAAGTTGGGGACCACATACACTGTTGGGATGTACATTGATACA
Celera SNP ID:            hCV25643379
SNP Position Genomic:     15874
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,39)   total(A,1|G,71)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,37)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15282):
TGTTTTACATTCAACAGGATAAAATCTATTTGCTTTTGACCAAAATGGACATAGAAAACCTGACAATATCAAATGCACAAATGCCACACATGCTTTTCCC
K
AATTATCCTACGAAATTCCAATATTTAAATTTTGCCAATAATATCTTAACAGACGAGTTGTTTAAAAGAACTATCCAACTGCCTCACTTGAAAACTCTCA
Celera SNP ID:            hCV309087
SNP Position Genomic:     14510
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,8)   caucasian(G,31|T,9)   total(G,59|T,17)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,22|T,2)   caucasian(G,20|T,4)   total(G,42|T,6)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:15283):
GCGTGATGGAATCAAGACTTCAAAAATATTAGAAATGACAAATATAGATGGCAAAAGCCAATTTGTAAGTTATGAAATGCAACGAAATCTTAGTTTAGAA
M
ATGCTAAGACATCGGTTCTATTGCTTAATAAAGTTGATTTACTCTGGGACGACCTTTTCCTTATCTTACAATTTGTTTGGCATACATCAGTGGAACACTT
Celera SNP ID:            hCV309088
SNP Position Genomic:     14199
SNP Source:               Applera
Population(Allele,Count): african american(A,20|C,14)   caucasian(A,25|C,15)   total(A,45|C,29)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,8|C,4)   caucasian(A,7|C,11)   total(A,15|C,15)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15284):
AGGGTGATGCTCCAGAGCTGCCAGAAGAAAGGGAACTGATGACCAACTGCTCCAACATGTCTCTAAGAAAGGTTCCCGCAGACTTGACCCCAGCCACAAC
R
ACACTGGATTTATCCTATAACCTCCTTTTTCAACTCCAGAGTTCAGATTTTCATTCTGTCTCCAAACTGAGAGTTTTGATTCTATGCCATAACAGAATTC
Celera SNP ID:            hCV25474567
SNP Position Genomic:     13631
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,28)   caucasian(G,32)   total(A,6|G,60)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,14)   caucasian(A,1|G,35)   total(A,3|G,49)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:15285):
ATTTGTTTGGCATACATCAGTGGAACACTTTCAGATCCGAAATGTGACTTTTGGTGGTAAGGCTTATCTTGACCACAATTCATTTGACTACTCAAATACT
R
TAATGAGAACTATAAAATTGGAGCATGTACATTTCAGAGTGTTTTACATTCAACAGGATAAAATCTATTTGCTTTTGACCAAAATGGACATAGAAAACCT
Celera SNP ID:            hCV25643404
SNP Position Genomic:     14370
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,1|G,39)   total(A,3|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15286):
GACTACTCAAATACTGTAATGAGAACTATAAAATTGGAGCATGTACATTTCAGAGTGTTTTACATTCAACAGGATAAAATCTATTTGCTTTTGACCAAAA
Y
GGACATAGAAAACCTGACAATATCAAATGCACAAATGCCACACATGCTTTTCCCGAATTATCCTACGAAATTCCAATATTTAAATTTTGCCAATAATATC
Celera SNP ID:            hCV25643406
SNP Position Genomic:     14455
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(C,1|T,39)   total(C,2|T,74)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15287):
ACAAATGCCACACATGCTTTTCCCGAATTATCCTACGAAATTCCAATATTTAAATTTTGCCAATAATATCTTAACAGACGAGTTGTTTAAAAGAACTATC
Y
AACTGCCTCACTTGAAAACTCTCATTTTGAATGGCAATAAACTGGAGACACTTTCTTTAGTAAGTTGCTTTGCTAACAACACACCCTTGGAACACTTGGA
Celera SNP ID:            hCV25643407
SNP Position Genomic:     14586
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,1)   caucasian(C,24)   total(C,41|T,1)   
SNP Type:                 NONSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:15288):
ACGAAATTCCAATATTTAAATTTTGCCAATAATATCTTAACAGACGAGTTGTTTAAAAGAACTATCCAACTGCCTCACTTGAAAACTCTCATTTTGAATG
R
CAATAAACTGGAGACACTTTCTTTAGTAAGTTGCTTTGCTAACAACACACCCTTGGAACACTTGGATCTGAGTCAAAATCTATTACAACATAAAAATGAT
Celera SNP ID:            hCV25643418
SNP Position Genomic:     14620
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15289):
TTGATATCAAGTCAAAGGCTCACAATGTCTGGTAATAAAACAAATTACTTTCAATTTTCTTGAAATCTTCAGGCTATCAAAAGGAGATGTGAGAGAGGGT
M
TTGAGTCTGGCCTGACAATGCAGTTCTTAAACCAAAGGTCCATTATGCTTCTCCTCTCTGAGAATCCTGACTTACCTCAACAACGGAGACATGGCACAGT
Celera SNP ID:            hCV27964597
SNP Position Genomic:     13134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:15290):
TGAGGACCCACTTGAGATAGGGAGTGGGTCTGGTAGTGCATCCTGAAGTCCTGCCAGGGGACAAGCACAATGAAAAACTCCTGACTGTGGGTCTGGAAGT
Y
GCCTACACCTGTACATCTATTCAACAGCCAGCTGCTGAGACACTGCCCTCCTTCACAGATGGGGGCTCTGAGCTGCTGGACAACACTGCGTTCTGGATGT
Celera SNP ID:            hCV27964598
SNP Position Genomic:     20901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Gene Number:                 26
Celera Gene:                 hCG1647772 - 65000099363237
Gene Symbol:                 ZNF255
Protein Name:                zinc finger protein 255;BMZF-2;BMZF2
Celera Genomic Axis:         GA_x5YUV32VTL1(6803403..6834162)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12186):
ATAAATGACAGAATTTTATTATTTTTTATGGTTAAATAGTGTACCTTTGTGTATGTATGCCACATTTTCTTTACCATTTTCTGTTGATGAACACTTAGAT
TGGTTCCATATGTTAGCTATTGCAAATAGTACTATAATAAATATAGGAGTGCAGATAGGAGTTCAACACACTGATTTCCTTTCCTTTGGATATACAGCTA
GTAGTGGGATTGCTGGATCACTTGAATGCTGATATGCATAAGAGGATCTACACTGGAGAAAAACCATGGAAGTGTGGAGATTGTGGTACATGCTTCAGTC
AGGGCTCACATCTTCAAATTCAGTGTCTGTTCTGTAGAGAAACCTTAATAATGTGATATATGTGACAGCAAAGAGTTATAAGATATGAATATGTTAATTT
TAGTAGATACTTCCGAAAAGTATTTCAAACTGGTTGTACCACTATAAACTCTGACCATTATTAGGCAAGAATTGGCTTTTTTTTTTTTTTTCTTTTGAGA
CAGTCTTGCTCTGTCACCCAGACTGGCATGCAGTGGAATGATCACGGCTCCCTGCAGCCTTGACCTCCCAGGCTCAAGAAATCCTTCTGCCTCAGCCCCT
CAAAAGCTGGGACTATAGGCATGCAACAACACGCCTGGCTAAATTTTTGTTGTAGAGATGGGGTCTCACTATGTTGCCCAAATTGGTCTCAAACTCCTGG
GCTCAAGCGATTCTCCCTCCTCAGCCTTCCAAAGTGCTGGGATTACAGGCCTGAGCCATGCGCACAGCATTTTGTTTTGTTTTGTTTTGTTTTTGAGATG
GGGTCTCTCGGTGTTGCCCAGGCTGGATTGCTTATTCACAGATGCAGTTACAGTGCCCTATAGCCTCGAACTCCTGGGCCTAAGTGATCCTCTTGCTTCA
ATCCCCTGAGAAGCTGGGACTACAGGCATGGACCACCACCCCTGATTGATCTTCTTTAGTTTCTATAACAAAATAGTACACTGTTTCCACAAACTTGGGA
AGGCTAGTATTTGGGGGTGGGGGGCGTGGAAATCACTAAACAACAAAGAAAATCTGATGAATTGGACAGCATAAAAATATTGGCATAAAGATGAACATAA
CATAAGCAGGAATATTTAAAGCACATACTTTTTATAGAGTGTCTCCCCTGTAATGTCTCTGGTTAAATGAAAGGGTTTCAAATGTGAAGACAACCCTAAC
CATACTCATTATCTGTAAAAGATGTAGCATTGTCATGGACTCCTTAATAAACGTGAAGACTTTAATCCATCTGAAGGTGCATCACATTTCTGAAGTTTCC
AACACTGACAAGGTGATGGGCTTATGGATGAAAACTCATGAATGGGAAAAACTCAGCTATCGTTAAAGCCCATATATTTTATTAAAGATATTGGGGCTGT
CTCCTAAATCTAGTTAGTGATGAATTTCAAGTCTAGAGCCATCACCGAATCCTTGTCCACATTCATTACACATAGGTTTTCTGAGAAAATTGTCTGCTGG
TTATGAGAGGTCTTCTCCCGTGCCAAAGTGAGTATAATAACCTTGCTTTTGGCCAGGTGCGGTGGCTCACACCTGTAATCCCAGCGCTTTGGGAGGCCGA
GGTGGGCAGAGTGCCTGAGGTCAGGAGTTTGAGACTAGTCTGGCCAACATGGTGAAAACCCATCACTATTAAAAATACAAAACAATTAGCTGGGTGTGGT
GGTGGCGTGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAAGGGAATTGCTTGAACCAGGGAGGTGGAGGTTGCGGTGAGCCGAGATCACGCCACT
GCACTCCAGCCTGAGTGACAGAGTGAGACTCCATCTCAAAAAAATAAAAATAAAAATAAAAGTAAACAAGCTTGCTTTCTTTTATGTGCTCCTTGATTTT
GATGGTGATGTGAAATCAAACTGAAGCTGAAAATACAATAATCACATTTATACAGGGCATTTTTCAAGGAAATTTATTGATTTTTACTTTAATAATTTAG
TGCCTCACTTTTGTAAGTCTCTTGTAAGTGGCCAGGCATGGTGGCTCACACCTGTAATTCCAGCACTTTGGGAGGCTGAGGCAGAAGGATCAATTGAATC
TAAGAGTTTGAGACCAGCTTTTTACAGAGTGTCTCCCCTATAATGTCTCTGGTTAAATGAAAGATTTTCAACTGTGAAGACAACCCTAACCATACTCATA
TTCTAGTTCCTTTGCCTTTCCATATAAATTTTAGAATAATTTTATATCTACAAAATATCTTGCTGGAATTTTGATAGTAATTATTTTAACCCTGTGTATC
AATTTGGGGAGAATGAACATTTTTGCTATATTGAGTCCCACGATCCTCAAACATGGAATGTGTCTCCATTCATTTAATATTGTTGGATTTTCTTCATCAG
TGTGTTGTAATTTTCATCTTACAACCCTTGTACATCTTTTGTCAAACTTCCATCTAGGTATGAACTTTGATTTCCGTGTGTTCATTGCTAGTATAATATA
TATAAATTAATTTTGGTATCCTGATCATGTATCCTATGATCATGCTGAATTCGCTTATTGTCTAGGCATTCATGGATTGGAAGACTTCACATTTTTGTGA
TGACAGTACTACCCAAACCAATCTACAGTTTTACTGCAATCACTATCAAAATCCAAACAGCCTTTTTTTTTTTTGCAGAAATCAATTCATAAATTCATAT
GTAATTGTAATGGAGGCAAATAGACAAAATCTTTCTTTTTTAAAGGAACATGATGGATGGCTCCCACTTCATTTCGAAACTTACTACCAAGCTATAGTAA
TGGAATAGAATTTAGAGTCCATAAAGAAACTCATACATCTAAAGTCACTTGATTTTCAAGAAGGATCCAAGATTGCTTAATGGAGAAAGCATAGTCTCTT
CAGCAAATAATGCTGGGCAAATATATATACATATGCAACATAATGAAGTTAGATCCGCACTTCACACTATACTTAAAAATTAACTCAAAATGATCAATGA
CCTAAATATAAGAGGTTAAGCTATACAACTCTTAGAATAAAACATAAAGGTTAATCTTCAAGACTTTTTATTTGGAATGGATTCTTAGATAAGACACCAT
ATGCACAAGCTAAAAAAACCCCACATAAATTGGACTAGAGCAAAAAAAAAAATGCTATGCATACAGAGACATTGTCAAGAGCATGAATTCTTCTAGTATC
AGAATATATAAAGAACTCTTAGACCAGGTGAGGTGGCTCTCACCTATAATCCCAGCACTTTGGAAGGCTGAGATGGGTGGATCACTTGAGCCCAGGAGTT
TGAGGCCTGCCTGGGCAACATGGCGAAAACCATGTCTCTACAAGAAACAAACAAACAAACAAAAAACAACAACAAAAAACAAAGGTAGCCAGGCATAGTG
ACCCATGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAGAAGGATTGTTTGAGCCTGGGAGGTCAAGGCTGCAGTGGGGCGTGATGTACCATTGCACT
CCAGCCTGGGCAACAAAGAGAGACTCTGTTTCTTAAAAAGAAAAGAAAGAAAGAACTCTTACAACTCAATAACAAGAGGAGAAACCACCCAATTTTCTAA
TGGGCAAAGATACAAATAGAAATTTCAGATATACAAGTTACCAACAATTATGTGAAAAGATGCTCAACTATTAGTCATTAGGAAAATGCAAATCAAACCA
ATAATGAGATGCCATTTTACAACAGCTATGTTAGCTATCATCTTTAAAAATAGAAAATAGCCGATGTGGTGGCAGGCACCTGCAGTCCCAGCTACTTGGG
AGGCTGAAGTAGGAGGATCGCTTGAGCCCAGGAGTTTTGAGGTGTAGTGAGCTATGCCCACTGGGTGTCCACACTAAGTCGACATCAACATGGTGATCTC
CCAGGAGCAGAGGACTACCAGGTTGCCTCAGGAGAGGTAAACTGGCCCAGGGTGGAAACACAGCAGGTCAGAACTCCCATGCTGATCAGTAGTGAGATGT
TGTCTGTGAATAGCCACTGCAATTCTGCCTGCACAACGCAGGGAGACCCCGTTTTCAATTTATACACACACACATATACATATACATATATATTTTATAC
ATACATATATACAAAATAAGTATTGGAGAGGATGTGGAGAAATTACTACCCTCACACACTGAAGGTGGGAATGTAAAAATGGTGCAGTTGCTGTGGAAAA
TTGTTTCGTGGTTCCCAACATAGAATTACCATATGAATCACTAAATTTCATATCTAGGTATATACCCCAAAGAATTGAAAGTAGGTGATGAAACAAATAC
TTGTACACCACTGTTTGTAGCAACACTATTGACTACAGCCAAAAGGTGGAAAGAACCCAAATGTCCCTCAATCAATGAATGGATAAACAAATTGTGGCGC
AAGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACCTGAGGTAAGGAGTTCGAGACCAGCCTGACTAACCTGGTGAAACCCTGTCTCTA
CTAAATACAAAAAAATTAGCTGGGTGTGGTGGCGCATGGCTGTAATGCCAGCTACTTGGGAGGCTGAGGCAGAAGAATCGTTTTAACCCAGGAGGCGGGG
GTTGCAGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGCATCAAGAGGGAAACCCCACCTCAAAACAAAACAAGACAAAGCAAACAAAAAAAACAA
ATCGTAGTAGAAACATAAAATATTATGAAGTACTGGTACATGCTGTGATGTGGATGAACTTTAAAAGCAGTATGCTGGCAGGGCGCGGTGGCTCACGCCT
GTAATCCCAGCACTTTGGGAGGCCGAGGCGGGAGGATCACGAGGTCAAGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAAT
ACAGAAAAATTAGCCAGGCGTGGTGGCACGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCA
GTGAGCTAAGATCGTGCCACTGCACTCCAGCCTGGCACTTTTTTTGAGATTCCGTCTCAAAAAAAAAAAAAAGAAGCAGGATGCTAAGTGAAAGGTGTCA
GAAACAAAAGGTTCCATAATGTATAATTCCATTTATATGAAATGTCCACAATAGGTAATTCAATAGGACAGAGATTAGTGTTAGACAGTGACTGCTTAGT
GGGTATGGGGTTTTTGGGGTGATGAAAATGTTTCCTAACTTTTTATTTGTACTACATATATCCTAAAATGGTGAATTTCACGTTTTGTGCATTACACCTC
AATAGAGATGTTTTAAATAATAAAATACATTAAAATGTTTTGCATAGATAAAACAATAAAAAAAAACGTTTTTGTTGAGAAAATATTTGCGAGATAAAAT
GTTAATATCATGAATATAAGAACAGTGCTTGAAAAGTGAGGGATAAAACCAAAAACTCAATAAGAAAGTGGGCAAAACATCTGGACAATTTACAAAAAAT
GTAATAATGACACCTGAAAATATGCAAGAATATGCCATCTTTACAAGAGTTATAAATTAAAACTACATGCCATTTCTTACCACTGGCAAAACTTATTTGA
AGAGTGTATCATCTCGCTTGTTCCCTTTCCAGTAACACTCCTGTCCTCACTAGAGGGGTTTAGACTTCAGGAATTCCTTTCTATACGGTATTTTCTCTTA
GGCACCCAGGGAGAGGGAAGGACGACTCTCAGGGTAGAAGTCCACATTTCCCAACAGGCGCTCGGGGGTACGAGATTCGTTCCCCGTGGGAAGAGTGGTC
AAGGGCTTCCCAGTAGTCGTCAACACTTCCCTTTGAGTGTAATGCTGCAGGAGTACAGTCCAGACCCTCAGTGGAATCGCGGTCGGTTTAGCTCCGGCAG
TTGGGTCCCAGGGAATTCTGGGAAGTGTAGTCCAGACGCTCAGTGGAGTCGCGGTCAGTTTGGCTCCGGCTGGCGGGTCCCGGGGAATTCTGGGAAGTGG
AGTCCAAACATTCGGTGGAGTCGCGGACACTTCCGCTCGGGGACTGAGGTTGCTGCAGTTTTTCCGCGATAGTTTGGGGCAGTTCCGCGCGTTGCAGGCC
CTTCTGAATTTCCTGGACCTACGCATTGGATCCTCAAAGAACTGGTGATCGAATTAGGGGAAAAGGGGCCTCGTCGGAGAGTAGAGGTTTGGAGGGGCAA
GGGCCGCTGTTTGCGTTCTCGTCCGTGGCACCTTCTTGGGCTTGGGTCTGTCCTCGCTTCCCGGGGGCATTGGTACTTGGTTGGGTCGCGTCTCACCTGG
TTTCAGGGTTTCCGGGGCTCTGAGCTCGCCCACTCCGCCCCCTGCACCCCACGCGCGTGGCCACTTCTTCKCGATATAACGTTGGGGTGTTAATCTCCTT
GGGTTTCCCGTTACTGTTCTTTAAAATGGGGACTTTAGGGCCATCCTAATGGAATCGTTTTGGGAACTGGAAGAGGTAACACAAATGAGAGCCTTAAAGC
AGTCCCTGTCACTTGGTGACTGGTGGTCTCTTGTTAATTTCCCACGAAGGACCGGGTGGGGTCAGAGCTCCAGCTGCAGGGGCCTCGGCCCTTCTCCCTG
ATCCCTGCAGGACGCTGGATGATCCCGGAAGCCTTCTGACCTCTTTTTAGGAGAGCGAGGGTTGCGTCCACTTTCATGAAGGGAAAGGAGCATTTAACTT
TTATGGGGGACGGCGACGCGGTCAAGGTGTTTCACAGCTTTCTCGTTCCCCAACCCGACCTTTCCAGAAGAGCTGCAGGGAGGGACTTCTTGGCTTCTGA
GGGCAAAGCTCTACGTGAGTGGTCCTTGGCTCTTTGACCGAGATGCTCACCCCAACCGAGAGTGTATAGGTTGTGTCCTCGGGCATGGGGGTCGATAATA
ATTAAGTCTTAATTAGTAACTTCATTCTAAGGGCTTTATACAAATAAATTTACGCCACACCGTGGCTCTGTGGAGAAGTATTGCTTTTTTCTATTTTAAA
AACGAAAGTGAGACACAGAGCGCATAGGCACCCGACTAGTGAGAGGTGGAGCTGGGGTTGGAACCTAAGCAGTCTGGGTCAGAGCCTGATTTGATCTTCT
CTTGGGATACGTTGTCAYTGAGGCAGAGGAACTAGTTGGACTTAGGTGGGGAAAGCAAGACTTAGGGGCTTGAAATTTTCTGAGTTTCTAAAAATGTTGT
CAACTATTTTGTTTCAATCATTACAAATATTTTGTATTCTTATAGAACCATGTCATTGTACAGCATTCTATTTTTCTTTATTAAGAACAAAATGGGCCTG
GCGCGGTGGCTTACGCCTGTAATCCCAGCACTTTGGGAGGTCCAGGCGGGCGGATCACGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAAC
CGCATCTCTACTAAAAAATAATTACAAAAATTAGCTGGGCGTGGTGGTGGGCGCCTGTAATCCCATCTACTCGGGAGGGTGAGGCAGGAGAATCGTTTGA
ATCTGGGAGGCGGAGGTTGCAGTGAGCGGAGATCTGCCATTGCACTCCAGTCTGGGCGACAGTGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAGAACAA
AATGTTTTTATTACCTACGAATCCATGAAGTAAAGGTAGCAACTGTTAAGCTCGTAATGTGTTTCTTTCTTTTTGTATATTTATAGGTTTATTTATGAAC
ATTTACAAATTTTTATAATTTTTTTCTTAATATTTCCCYCTTATGTGTTTAACTATGGAAATTTCCAAATGCTGACAGACTAAACTAGTGAATTATCRTG
TTATATCATACTCATTAATCTCATTATTGTTATTATTTTTCCTATGACTGTTTCCTAAAATTATAAAACTTTTTATTTTYATGTCATTTGAAACCTATAG
AAAAGTTGCAAAAGTAGCCTAAGAAATTCTTATTTACTCTTTACCCACGTTTGCCAAGTGTTTACATTTTTCCTGTTTGTTTTGTTGATGACCATCAGCT
GAATACCACTAGAAACATACCTGTAACCAGAGACAGCTGATTATAGCTTTCTGCAGCAAGGAAGCCCACGTACCAGGGGCTGTCTTGGTAAGTAGAATTT
AGGAAGACCTAGTATATGGTTTCACATAACATATTAGATAATTTCAGATTGTATACCAGATAATGTTATTTATTAAATATTAGATATCTATCCAAAGACT
GCTAATAGTAGTTTATTGTATTATCTATTATACAGTGCTAGATAACATATTACCTAACTTCATGTTATGTACTCTGCAGTTCTATATTTAAATTTGTTCT
ATTTTTCACTTAAGGTTCTTACAAGTGTCCCCTACCCATCTGCCACCACCACCTGTGTTCACAGTCTAATTTTATGCATTGCCTTTAATTGTCACATTTC
CATAATCTTTAATCTTGAGGATTCTACACCCTTTGTCTTTCTATGCTTGATATTTTTGAAGAGTATAGGCAAGTTATTTTGGAGAAAGGCATTCATTTGG
AGTTGTGTCTGATGTAATTCATGTGCGGGTTCACATTATGCATTGTTGGTAGGGATACCACAGAAGTGGTGAATTGCGGGTTCAGATTATGCATTGTTGG
TAGGGATACCACAGAAGTGCTGAAATGTCCTTTTCATTGCAACATAACAGGGTCCAAGTGATGTCAGTTTGTCTCTTCATTGGTGATCTCAACCTTGTCC
ACTTGGCCGAGACGCTGTCTTTCAGATTTCTCCACTATAAAGTTACTTAAAAAAAATTGAAAAGAATAAAGTTTCTTAGGAATAGATAACATTATTAGTG
GGCATTCAGCTGTAAAATGACCTTCTCCATTTATTCTTTGTTCAACTACAAATATTCTATCAATATGGCCTTAGAATTGACTCTTAAGTTAGATAACGTG
TACATTAACAATTATTTTTTCCAACCTATTGTATCATATAACTTACTTATATCAGGTGTACATCCAGTGATCATTAGACAGTTTGCTGAATGGAGTAACC
ATCACCACAATTCGGTGATCATTTCATGCTCATATTGATTTCCTCCTGCCTACTTATGGTTAGACTTCATTCTCACTCAGATCTGAAGCAATCACTAATC
AGTTTTCTCTATGCATTTTCCTACCCAGACATTTTATAGAAATGGAATCCTGCAATATGTGGTCTTTTTTAACTGGCTTCTTTCATTTAGCAATAATGTT
TCAAAGGTTCATGTATGTTGTAGCATGAGTCAGTACTTCATTTCTTTAAATTTCCAAGTAAGATTCCATTGTATGGATAGACCATGATTTGTCTATTCAT
TTACCCACAGGAGGGCATTTTGGTTGTGCCGTTTTGGGTTTTTATGATTAATGCTGCTGTGAACAGTCATGTGCCAATTCACAATACACATCCCTGTTGG
TGGGTGGCATCCCTGGCCASCTTTTCATGTCTCTTTTTCTGCCTTTCCTGGCACTTTGCAGGCACAATTCTGCTTTCCCAGGAACTGCATCACTCAGGAC
TCTGCAAGTTTCCAGAAGTAAGAGGGAAAATGACCACRTTCAAGGTGGGTAGGACTTGCTTCTATTACTCTTAAAATTCCCTCTCAGTACTTAAATTGTC
ACAAGTTTTCCTCTGTCTTGGGAAGACTCAAGGAGAAAAACAGACATTTGAGGATCTCTTGTGTACCATGTACTTCCTTTGTTACTTTTGAGTGGATTTT
GCATTTGTTTTTACTACTTGTTTTCTTCTATCRTTTATTCTATGGAGTAGACAAGATTGTAGGAATGGATAATTATTTCATTATACTACTTCTCTGCTCA
CACATTAGCTATTTTTATCCTGTGATACTCTTCCTCATGTGCATTCATAACTGTATTTGTATTGGTGATGTTAATCTAATTTAAATTGCACTCTTTGTAT
TTAATATTATATAATGTTCATTTTTAATGGTTGCACCATATTCCCATTTAATCGATGTTCCTTTTTAATTACTTTATACTTCCAGACACCAGGAACTCAG
TTTTGAAAGGCTACTTTTGATGTGTGCCACGTTGGCTGTTTTGTAGATAGAGTATCCATATGTGGCACATCATGGCAGGCTGTAACTGTGGCTTCACACA
AGGATTGCTGGAAGTTTCCACACAGGAAGAGCTAGATTCTCTTTCCCCCATGCCTGAGTCATGCCTTCTATGTCTTTTACTTACTGGCCTTTCTTTACTC
CTTTATATACTAAGGAATTTGACCAAAGTAATATGTAAGCTAATTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGT
GCGATCTCGGCTCACTGCAGCCTCTGCCTCCCAGGTTCGAGGGATTCTCCTGTCTCAGCCTCCTGAGTGGCTGGGGTTACAGGCATGCGTCACCATGCCT
AATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCYGACCTCAGGTGATCCACCTGCCTCGGCCTTCCRAAGTG
CTGGAATTACAGGCGTGAGCCACCGCGCCCAGCCTAACCTAAATTTTTTGTGCATGATACTAGAAAATTTGCCAGTCACTTGTGTTTTGTTTCTTCATTT
ACTCCTCAGAACAGCTGAATGAGGCTGTTCTTATCTTCCTCTTAAACACATGAAATATGAGAAACCTGCTCAGGTTCAGACAGGAGACCAAGGGTCCAGA
ATATTAGTTATTTTAGCCTTTTTACTCAGTTGAAAGAGAGAGAAAAAGAAAGAGAGAATTCTCCATTGAGGGAACTGTGCCCTGTGGTGTGGGTGTCTGG
AGTGTCCTGTTGAGTGATGATGTCCACAGGTGGCATCGCTCCTCCCTGGACCTACCTTGGGAGGGGGGCATCTTCTCTTCCTGTCGTRGTACCTCTTCCA
TGGCCCCCAGCACTTCAGGCACCCAAGGACGGCAATTACCACAATTGTTATAGAACATTTTAAAATTCATTATGGGAAAAGATGCCTTACACAAACCAGA
AAATGTAACAGTCTAAGGTGAAAATATTTACCATTTGGATATCTAAAACAAGATACAATCCAAAATAAGAATCTTATGCCCAGACCAGGGAAGAAAATCC
AAAGAAATACAAATAAAGGACATTACCAGGAATGTATAGAAGGAGAAAAACAGATGTCAATAAATATTTGAAAAGATGGTGGTATTCATTTATAATCAAA
TAAGTGAGAATAATAAAACAAAATCATGGCCAGGCCTGTGACTCACACCTATAATCCTGGCACTTTRGGAGGCTKAGGAAGGAGGATTGTTTGAAACCAG
GAGCTCAAGACCAKCCTGGGAAACATAGCAAGACTCTATCTCTACAAAAAGAAAAAAAAGAAAAAAACAATTTCTTCCTAATCAGATTACCAAAGTAATG
GGAAAATTGATAACTTGCTTTTGGCTATGTTAAGAAAAACCAGAATAATGTATCCCCTTGAAAGATTTTGAAGTTAGKTAAAAAAAAAAATTGAGAAAAC
ATGACATAATCATAATATTAAATTTCTGACATTTTGTTATTTAAAACTTACTTTAAATAGGAGAGTAAGATCTACCTGAAATGTTCTTTATTGGATTGGT
AATCATGGAAAAGATATAAAATTAAATATTCATTATTTAGAATAACAATAGATTAGTTCCATGGAACACTATGCAGACATGAGATAAAATCGACAATAAT
TGACAAAAATAAAAATAGCTAATGTTTATTAAGTATTCAGTCTTGCTACACACTTTTCCCCAGTAACATACGTATATTCCACTGTTTAATTTGAAAACTA
TATCATGTGACGATCATTATATAGAGAGGAAAGTAATGCATTCAGGCCAACTTGTCCAAGGTCACATGACTGGGAAGGGACAGAGCCTTATATATGCGCT
CTGAGGCACGCTGGCTGCAGATCATGACATTCAGTGTTGCAATTAATGTATGTAGTTTTTGCCTGGAGAGTATAGAGGACTCACTGCATAACTACTCAAA
CATGTCACCATAAGCTTGTCAGTTTGGCAAATGTTGAAGAAAAACAATAACATCCAGGGTTCGAGTTTGAGAGAGGAAGACAATGGGCATTATCAAACAA
AGTCAGGACTGAATTGCTAAATGTTGCTGAGGGTGATTGTCAAGATTTATCAAAACATATATATGTGTAGCCCAGGATGCCACATTTAGAGTCCTAGAGG
GTTACTTACAAGAAGACTCAATGATTGCACGAAGTAAAAATACAGGAAGTCTTTTTCATCTTTGTGTTTCTGGTGGAACTCAGGGAAATCAGTCATTGTC
AGGATACAGACAGAATGAGTAGGAAATCTACGAKTTGACCTATGTCTCTCAAGATCCAAAACAACTTCCCACCCCTCCCCTCTGTCTGCTCAGTGCCACC
CCTCTCCCAGGAATCAYTGGTCATGAGACTGAGATTGCATATGTTTGATGCTATAGGAGGCAATGACCTTCAAGGACGTGGCTGTGGTCTTCACTGAGGA
AGAGCTGGGGCTGCTGGACCTTGCTCAGAGGAAGCTGTATCGAGATGTGATGCTGGAGAACTTCAGGAACCTGCTCTCAGTGGGTGAGGACAGGCACCCT
CTGTAACAGAACGTCAGGCCCCAGARGTGGCTTTGTATCCTAGGGTACAAAGTTTCAAGTCTTAATTAGTAACTTGAACCTATGGTTCAAGTTTGAGTGT
GCAGTAAGAACCTAAATTTCTGGTAAACTTTACCTTGATATTACCTAGAATGTGTTGGGATTAAGCATGTAAGTTTGCCTGTTTGCAGGACATCAAGCAT
TCCACAGGGATACTTTCCACTTCCTAAGGGAAGAAAAGATTTGGATGATGAAGACAGCAATCCAAAGGGAAGGGAATTCAGGTAAGAATCAAGCAACTGT
GAATCCCTGTATGTCTCTTCCACCTGTTTCACTTCTGTCCATGCTCAAATCCATTGCCCTGGCCTAAATGGCCAAACCTCTTTCTTGGATTATTGACAAC
CATCTTACACCTGGTGGCCCTGCCACCCGCCTTCACATCCTGACATCTGTTCTCATAGCAGCCAAAGTGATCCTTAGGAAATGTAAGTCAGATTGCCATT
CCTCAGCTCAAAAGCCTGTTTGGCTTATTTTTATTAAAGTTACAACCTCTTTAATTGACTTTTAGAGACCCTGTGATCTGCTCTTCATCCCCTCCCTGCC
ACCTCTCTAACTACATCTCCTGTCCTCTCCTTCTTGCTCTGTCTTTACCAGCCACTTTATTCTCCCTGCTGTTTCTCTGTCCTCCCAAGGGCACTGTGTT
GCCTTTTGCTGGTACCCAGTGACCACAGACTGAGCAGACTGAGAGACAAACATTTATTATTTTTGTGTTCTTTAGGGATGAAGTCTGATACATCTCACTG
GGCAATTATCAAGTTGTCTGTAGGGCTTCATGTTTTCTGGATGCTCTTGGGGAGAAGCCTTTACTTTAGTTTATCAGTGTCTAGGCACTGTCCATACTCC
TTGGCTCTTGCTTCCCTTCCTCCATCTTCAAAGGCAGCAACTTGCATCCCCATAGTCATGCTCCCTCTGCCACTCTTCTTATGCCTTCCTCTTTCACCTT
TTGGGTCCCTTGTAATTGTTTTGATCACTCCTGGATAATCCAGGATGATCTTTCTGTTCTCTGGTTAACTGACTAGCAACCTTAATTGCATCTACAACCT
CTGTTCCCCTGCTGTATAACAACGTGATCATAAGTCCTGGGGACTGGATGTGGACATCTTTTAGGAACCATTATTCTGTCTCTACAGAAGCTTCTGTCTC
AGCCCTTACTTGCTCATCTCAGTCACTGGGATACTCTGTCACCTCAAAACCTTCTGGCATCTCCTTCAGTTATTCAAGTTTCTTTTCAGTTTTAAAGTCA
TGAGAGAAGCCATCCTAAACCACTCTCTTTATAATTCCATTCTATTTTGATTCTTCTTGTGCTCTCTTGTACCAAGTCTCACATACTTCTGTTTATCTGT
CACTTCTACATGCTGGACTATAATGTCTAAGGAATTTTAACTCTTCGTGGCTGTATTTTCAGTGCCTAGAATGGTCCTGGTACATGGCAGGTTTCCAAAT
TTTTGTTAACCTGATATATGAGCTAATGAATGGGGTGACTTCACTGTCTCCTGAAATTATGGAGAGAACTAATAAGTGAAACACAAACTACGGTGAAAGA
GAGATATTGCAGAACATGTTTTTTGTCTTCCAATGGCCATGTATTTAATTACAATGTTCTTAGATTCCGTTATTTGATTGCCTTGTGTGTTTACGGTGGA
CCCACATCCCATGGAAACTTCTAAGCATTCTATTTATTACCATACTGAGCTATATGCCTTCCATATGACTTATCCTGGAGCTTTTCATAGGAAGCATATT
CATTTCTGGAAAGAAATCATTTTTGAATGARCATTCTGATGTCTACTAGTGAGACAGCTCTTCTACAAGGGGAAAAAATTCTCCATTTTGTGATGTGTCA
GATAATAACCAGCTTCCCAGCTAGCTTTCCTTTGAGAGATTTACCCATCTGCAGCCCATTTGCCTTTCCAAAGTCTGCATGCACGTCACTGACCCCAGGT
TTCTTCTTCTCCTGGGTGGGGAAGAATGAGGAAGAGAGCAACACAATTCATGCAGCTAAACATTGCCTATATTTCTGGTCATCTTTGTTCAAAAATATGT
ATATTTCTGCACCTTCATTGTATACAGATTTAATTGTTAAAAACATAAAAGAATACAGATTTTACAACATAATTTTTCCTTTATTTTTTAGAGACCTAGT
GCTCTATTTTCAACTTTATAACTTGGAAGGAATCAGGAAACTGCCCTCTCAAAATACTGACATCCTGAAAGAGACTCTCTCTTCTCCCCAAAAACCTCTT
AAGTAACAGTGTGTTAAATATATCCATATTCCAGCGTGTACCATTGGGTACATATTTACCTATTACTGTTTTTCCAAGATTCAACCTTGGAAGTTAACTT
TCCATTTGACTGACTTAATTTAGGACTTGGTAATATCCTGACCAAAGTTGTCAACATTTTTATGATTGTGAGTCATAGTAAGAAACACATCTTTCACCAT
AACCAGGACAAACATTTTTCATGCATGTAGATGTCTATGGGTTACTTCAGTAGGCATTTCATGAAATGATACCTTTCTTGCTTGTCATGAAGATGTGATC
ATTTCTTTTCTAGTTCTTTTTTTCTAAATGCTCATTAGAAGGTTTTAAATTTATTTTATAGCTCACTTTTTGTCTATATTCTTCCATTTGGAAATAAGTA
TAAAGGAGTATTTATCTATATCATATATTTTCTGCCCTCTTTTTTCTTCTTTTTTTATTTTTTTGAGACAGGGTCTCACTCTGTCACCCATGCTGGAGAG
CATTGGCATGATCTCAGCTCACAGCAACCTCTGCCTCCTGAGTTCACATGATTCTCATACCTCGGCCTCCCACGTAGCTGGGATTATAGGTGTGCACCAC
CACACCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAATCAGGCTGGTCACCAACTCCTGGGCTCAAGCAATCTGCCCGCCTTGG
CCTCTCAAAGTGCTGAGATTACAGACATGAGCCACTGTGCCTAGCCTCTGGTCTTTTTTATTTTAATGAGAGTCTAATATCCCCACATGGAACCAACCCA
GGGCATGACCCCTCAGGCATTCTTTTTATCCCAAGTGTTCTCACCACCTTTCATTGTCTCATCAGGAGCATCACCCTTTCTTTACCCCTGTCAGGTCCAA
CCTTTCAGATTCCCATCAAAACTGGTTGTCTGTTTCTTACCTATCTCAGTTAACCAAATTATTGTTCACATCTACAGAAAAATAAAATTAAAGATACATG
TTATGCCAAATTCTTGTGTAGGAATATTATGAATATGTAGATATAAACACTCCTAGGCCTTTGATATTATTGTGAAGAGTTTAACTGGCTGCACAGTTTA
GAGCAAGAGTTTACAGAAGATCGCTCTCACTTCACACCAACTGCAAGTGTGGGGATTTCCCAAAACTACCTTCACATTCAGTAATTACCTAGAAAGATAA
GCAGAACTCACTGAATGCTTTTATACTAAAAGTTACGGATATTTACAGGGTAGAGATGCACATTACATTTCACCAAGAGAAAAATAAGAAACAGTTCTGG
GAAGTACCAAATGAGGATCTTGTATTGTATTCTCCCCATAGAGTAGGATGCGTTAAATTCCCAGAATTAAGGTGTGACGTAGAGGGTACAGCGAATCAGG
GAAGCTCACCTGAGCCCTGTATTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAAGC
TCCAACTCCTGGGTTCTTGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCATGTCTGGCTAATTTTTTTGTATTTTTA
GTAGAGATGGTGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCTTCGGCCTCCCGAAGTGCTGGGATTACAGGCGTG
AGCCACCGCGCCCAGCCGAGCCCTGGTTTTACAAGTAATTTTTGAGGCTCCATTACATAGCCATTATTTGTTGATTGATTCCCATGTGGCTAGTCAGTCT
CCTGGGCCACTGATTCCATGTAACCTAAAGCCTCACCTTAAATCACGTTGCTCTTTGTGACATAGGGGGCACCGACCCCCAAAGGCGTGGCCAGCYACAA
CCCTAAATCATATTGTTTCACTTTCCAGTGACCTAGTTTTACTCTCAAGCAAACAAAGACACTCTCCTCAGGCATAAACTCCTAGACATTACCTCTCAGA
TCCTGAGGAAAACATCTAGACCTCATTTTGAGTAAGGTTAATATCTTTACTTTGTAAGGATACACAATATAAACACAAATGTACCAAGTCTTGATTATAT
TACTTTTGTTTAAAATTGGTTTTGATTCATATTTTATTATATACACAATTTATTAGCTTCATAATTTACCATGCAAGATTTTAGACTGATTAGGAAATTC
ACTAGGAAGAGTAGCAGGTATAATGTTTGTATCATATTAATTTTATTATTGTCTTTTATTTTTATTAAAAATTTTATTTCAGTAGTCTTTTTTTATTAAA
GTATATACTGGTTTTTGGTTACATGGTTGAATTGTCTAATGGTGAAGTCTGAGATTTTAGTGTACCCATCACCTGAGTAGTGTACATTGTACCCAACTTG
TAGCTTTTTATCCCTTACCCTACCTTCCACCCTCCCCATTTTGAGTCTSCATAGTCCATTATATCACTCTGTATGCCTTTGCATACCCATAGCTTAACTC
CCACTTATAAGTGAAAACACGGTATTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAATAGCCTCCAGCTCCATCCAAGTTGCTGCAAAAGACATT
ATTTCATTTTTTTATGGCTGAATAGTATTCCCTGGTGAATATATACCATATTTTCTTTATCCACTCATTGGTTGATGGGCACTTAGGTTGGTTCCATATC
TTTGAAATTGTGAATTGTGCTGTAATAAATATAGGCATGCAGGTGTCCTTTTGATGTAAGGACTTCTTTTCCTTTGGGTAGATAGTAGTGGGATTGCTGG
ATCAAATGGTAGATCCACTTTTAGTTCTTTAGAGAATCTCCATACTGTATTTCATAGAGGTTGTACTAATTTACATTCACACCAGCAGCAGTGTATAAGC
GTTTCTTCTCACCACACCCATGTCAACATCTATTGTTTTTCGTCTTTTATTTCTATCAAGTATTTTACATATGATACTTGGTTTAGTTCGAAATTGGCCT
CATCCAAACCAAAGATTATGGTGCACTTGAAAAATACAAACTGAATGTTGTCTATACTCATGAGAGTTTCCTGCCATGGCCTAAGTGAAATCTTGATAAC
ACTGAACAAAGGCTTCACTTGTCCTCATCTTTTAATTCTGTATTCTGATAGGAGACAAGATCCAAACTGAGATGGAGACTGTTTCAGAAGCAGGAACACA
TCAAGAGTGGTCCTTCCAGCAAATCTGGGAAAAAATTGCAAGTGATTTAACCAGGTCTCAAGACTTGRTGATAAATAGCTCTCAGTTCTCCAAAGAAGGT
GATTTCCCCTGCCAGACTGAGGCAGGACTATCTGTAATTCACACAAGACAGAAATCTTCCCAGGGCAATGGATATAAACCATCCTTCAGTRATGTCTCCC
WCTTTGATTTTCATCAACAATTACACTCAGGAGAGAAATCTCATAYGTGTGATGAGTGTGGAAAGAACTTTTGTTACATCTCAGCCCTTCGTATTCATCA
GAGAGTCCACATGGGAGAGAAATGCTATAAGTGTGACGTGTGTGGTAAGGAATTCAGTCAGAGTTCACATCTGCAAACTCATCAGAGAGTCCACACTGGA
GAGAAACCGTTCAAATGTGTGGAATGTGGGAAAGGCTTCAGTCGTAGATCAGCACTTAATGTTCATCAYAAATTACACACAGGAGAGAAACCTTATAATT
GTGAGGAATGCGGGAAGGCCTTCATTCACGATTCCCAGCTTCAAGAACATCAGAGAATCCATACKGGGGAGAAGCCATTCAAATGTGATATATGTGGTAA
GAGCTTCTGTGGTAGATCAAGACTTAATAGGCATTCCATGGTTCACACGGCAGAGAAACCATTCCGATGTGATACGTGTGATAAGAGCTTTCGTCAGAGA
TCAGCACTTAATAGTCATCRCATGATCCACACAGGAGAGAAACCATACRAATGTGAGGAGTGTGGAAAAGGCTTTATTTGTAGGCGAGATCTTTATACGC
ATCATATGGTCCACACGGGAGARAAGCCATATAATTGTAARSAGTGTGGGAAGAGCTTYAGATGGGCCYCRTGTCTTTTGAAACATSAGMGAGTCCACAG
TGGAGAAAAACCATTCMAATGTGAAGARTGTGGGAAAGGATTTTACWCAAATTCACAATGCTATTCCCAYCAGAGATCCCAYASTGGAGAAAAACCATAC
AAATGTGTGGAGTGTGGGAAGGGCTACAAAAGGAGGTTGGATCTTGACTTTCACCAGCGCGTCCATACAGGAGAGAAACTGTATAATTGTAAGGAATGTG
GGAAGAGCTTTAGTCGGGCCCCATGTCTTTTGAAACATGAGAGACTCCACAGTGGAGAAAAACCATTCCAATGTGAAGAGTGTGGGAAGAGATTTACTCA
AAATTCACATCTTCATTCCCATCAGAGAGTTSACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAAWAGKARGTTKRATCTTGAY
ATGCACCAGMRSGTCCACACAGGAGAGARACCRTAYAATTGTAAGGAATGTGGGAAGAGYTTWGGCTGGGCCTYGTGTCTTTTGAAACATCAGAGACTGC
ACAGTGGRGAAAAACCWTTCAAATGTGAAGAGTGTGGGAAAAGATTTAYTCAGAATTCACAGCTTCATTCTCATCAAAGAGTGCACACTGGAGAAAAGCC
ATACAAATGTGATGAGTGTGGGAAGGGCTTCAGCTGGTCCTCAACTCGTCTGACCCATCAGAGACGCCACAGCAGAGAAACACCTCTCAAATGTGAGCAG
CATGGGAAGAACATTGTACAGAATTCATTCTCTRAAGTGCAAGAAAAAGTTCACAGTGTAGAAAAGCCATACAAATGTGAGGACTGTGGGAAGGGCTACA
ACAGGCGCTTGAATCTTGATATGCATCAGAGGGTCCACATGGGAGAGAAAACATGGAAGTGTAGGGAGTGTGATATGTGCTTTAGTCAGGCCTCAAGCCT
TCGACTTCATCAGAATGTTCATGTTGGAGAAAAACCTTAGTGATGTGATGGTGCAATAAAGTCTTCACTCAGTCTTCATGAATGCAGTCTCATCTGAAAG
TTCACAAAGGAGAGACACATTAAAATATGAGGCACATAGTAAGCACTTCCCTTTGAGTATTTTATCTCTGAATCCATGCTGGTGATAAATTTCACCCATT
CTTGGAAGAGGGAAAACATTTGTTTAAGATAACATCAGTGCTTCAGCCATAGCTCAGCATGCCCCAGTAGTCTCAGGACCACCATAATGGAGAATCCTTG
TAAATGGTGCAATAAAGCTTCATTCAGAAGTTTGATAATTACAGCTATCATTCAGGAGACAGGCCTTAGAAAGAGTAAGAGTTCATGAATTTACCAGACT
AATGGTGGACATGTCCAAATTGATGTCCACTAGAATGTAARCTACATGTGTCTTTGCTGCTAAGTCGTCACAGCCTTAACATTGATTAGCHCTTTGTATG
TGTTCAGTACTTGTTTGTTAAATCAATGAAAGGATAAAACATATGTATGGATTTGGATACAATTTTGTGTATCCAAAAAGGGAAGCCTGCAAAAAATAAT
TCTGGGAAACATGAGTTGAAATGCAGAGTAAACTCAGTACTGCAATCCATAGCAATATTTTGCATATTATTATTTTTTCTTTTAAATTTTTTTCTTGATC
AGATTTATCATATTCATTGAACATTATTTTATTGCACTTGGCTCCTGGCTTCCCCCCATCCTGTGCTCTGAAGTCAGAGTATTATTTGTGGCTCTATGAA
ATGTCCATTGCTTGTATACGGTATAAATTTAATTATCTTTTGTAGTTTTTCTCACAGTATAGACTGAAAAGGTTTGGTTAATTTTGCAATAACAGACCAC
TGCATATTTCACAATTAAGTGTTTTCAACAGTATTAAGGCAAGATTTACAGTAACACTTTTAAAGTGCCAGATGTACATTGACAGAAATTTTCTTAGTCA
ATCCTAGATTGATCATGATTTGTGATTTCTATGCAGGCCTTGGTATGATTGCCTTTTAATTGCTGTACAATTTCTTTTTTTTTTTTAACTTCTCTGGTAT
AAAATATTCTAAATTTGAATGACAGCTTTTGTCAACCTTCTTATCCAATATTCTTCCACCAACGCTATGAAACAGGAAGAGAAAATGGAGTTTGGTAATT
TCATCAAATATATTCATTATTGGGGGCAGGAGTAACATTTAAATCCTCCTCTTTATTGCTGGCMGTAAAAATATGTCTTTTGGAGAGCAGAACATGCCAG
AATGTATAAGGTGCAACTGTTTGATATGAAAACCATAGGATAGGAAACTATGCCTATGACACTAAAACTCCAAAAAGTAGAAGACCACATTGATGATGTC
MCTGCATTTTAAAATGGAAAGAACAAGTGTTCAAGAACAGGAATTTGTGTGAATTGCATTTATTCCTATAATAATATGAACTCAATGAGATGATGACATA
GACACAATAACAAAAGGAGAAAAACAATGTGGCTTTTTTTAGCCTTCATAACCTAATCAAATAAATATCTTTGTGTGTTTTATGTTCTTTTGAGTGTTTA
CATACTGTGTAAATGAATATTTTTACTGATCTTTGCTGGCAATGAGTGTTTGCAGGCATTTTTCCATTTTATACTTCCATGCATTTTTAATTTTTTTATG
CCACGATCTTTTAAACAACCAGCTCTTGTGTGAATTAAGAGTGCGAACTCATTCATTACCATGGTGGGGACACCAATGTTTATGAAGGATCTGCTTCCAT
GACCAAGCACYTTCCAATAGTCCCGACCTCCAACACTGGAGGTCATACTTCAACATGAGATTTGGAGGGGATACATATTCAAACTATTGTCAGATGTTAA
TTCATCAGGTATACACCATAGTAATATCTTAAGTGTGTTAAGTTAAAGTGATATATTTTCTAAGGTATAGAACAAATAGGGCTTATCACCCCCCTACAAG
CAAAGAAAATGTCACAATGCTTAGTGTGCCATTTTTGATATTGGATGCAACTTATTGTTTCGATTGTGCTACTCTGACTTTTATGAGTGACCCAAAAACT
TTGACTTGTCCCAGACAAGAGAAGTTTGTGTAATATGTCCCAGCTTCCACGTAAGCTTCTCTGCCACTAAAACCCTGTGACCCCGGGGGTCCAAAAGTGT
TTGAAATGTCCGTGGCAGATAGTATGTTTGAAGCCTATGGTTGGCCCTAATTGGAGAATCAAAATTCAGATGCTTAGTATTTTGAAGCAAATTTCTGCCA
TCCTCTGCATATACTTACTCTCCTCTGGAGAAGAAGCTTTTCATTTTGCTAGGGTGTTTTGTTTTGTTTTGTTTTTGTTTTTGTTTTTTGAGACGAGTCT
TGCTCTGTGGCCCAAGCTAGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCTGCCTCCCGGTTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTA
GCTAGGATTGCAGGTGCCCGCCACYGCACCCGGCTGATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTGGCCAGGCTGGCCTCAAACTCCTGA
CCTCGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCACTAGGGGTCTTAAAACGGACAGAACACTTGA
CCACAGACCACCAAATTAACATGTGACTTATGCTTTCCATCATGAATCGGGTGTTGACCCCTGCACCTTTTTAAGTTACATGTGCAGATTAGTATTCCAT
TTGGAAGTGGTATATATGAGATTGTGTTTGTGCAGGCTCTGAAGCCACAGGTAAGTGCACCTAATATTCATCTCCCTACTCTTGCTGTATTCAGAATGAG
TGAATATAAAGAGAAGTCATCTGAAATTATTGTGTCTCAGCAGCAGAAAGAAGTGGAATACACGGTTGGACGCGGTGGCTCACGCCTGTGATCCCAGCAT
TTTGGGAGGCCGAGGCGGGTGAATCACCTGAGGTCGGGAGTTTGAGACCAGCCTGACCAGCATGGAGAAACCCCCTCTCTACTAAAAATACAAAATTAGC
CGGGCGTGGTGGCACATGCTTGTAATCCCAGCTACGCTGGAGGCTGAGGCAGGAGAATCGCTTGAACGCGGGAGGCGAAACTCCCTCTCAAAACAAAAAA
CAAACAAAAAACAACCAAAACTGAAAGCTGGTAATGAAACAAATACGTATACACGAACATTTGTAGCAACACTGTTCACTACAGCCAAAAGGTGAAAAGA
AGCCAAATGTGCGTCAATGTATGAATGGAGAAACAAATTGTAGTATAAACATAAAATATTCATCTATGAAAAGGAATGAAGTACTGATACGTGGTATGAT
GTGAATAACATTAAAAATATTATGCTAAGCAAAGGGAGTTAGAAACAAAATGTTCCATTCATTTTTATGATTTGTCCAAAATAGGTAATAGAAAAGAGAG
AAAGATTCATGTTTCCCCAGGAATGGGATTATGGACAACAGTAGTGATTGCTTAGTGGGCATGGGGTTTTCTTTGGGTGATAAAAATGTTTTGTAATTCA
AGAGGTGGTGGTTTCACAATGAAGCAGCTACTTTGTCTGAGGTTTAAACCCGGGGTTCGTCGTTAAGCGCCAGAAAAATTTAGGACACGGACACACAAAA
ACTCCTCAGTTTAGGAGCGGAGGTTTAATAGGAAGAAGAGAAAGAGAAACGGGTTCCTCCATAGAGGAAGGGGTCTCCGAGCGGAAAAGGGTCGGCTGGC
AGTGAATGTGCTGAGTTTTACAGACCAGTTTGAGGAGGCAGTGTCTGATTTACATAGGGGTCATAGATTGGTTCGATCAGTTATGACGTTTACATAGTGC
GTGGGGAAGGCTGGTCGCCCCACCCTAATCTTCTTATGCAAATAGGCTTCCCAGTTGATTGGCCCATCTTGCCAGCTTCTTACTGTGCACGTGGCTGACA
AAGAGAAGGGAAGATGGAGCCGCCATCTTTAACATGATTGGCACAACTGCTGGTATCTATGTCTGCGGCAGCTGGATTTTACAGGCTGCTCTTCCTTAGG
AAGGGAAATAATTTGGGGCTGCTTTTCATTAAAAAGAAAAGCCTTACCGAGGGCTCCCATACCCTATCTGCCTAAGTGATGGCTTCTTAACTCGTATATA
TTAACAACACTGTATTCGTACTAGATGCCATTGCCATTGAATTATGTGCCTTAAAATAATTTTGTTTTGTGAATTACACCTCAAAAATATTTTTTAAATA
ATAAAACGACCACGTTAAAAACGTTTTGCATAGCGAAAAACAAGTCAAAGGAAAAAAGCTTTTTGGTTGAGCAATATTTGATACAATGTTAATATGAGTA
TGTAAATAATACTTAACGGAGGGGAAAAAACTAAACACTCAATAGAAATGTGGGCAAACTATTTGACCAATTCACAAAGACTATAATAGTGGCAACGGAA
AATATGCACGGATGTTCCACTTTATTTACAAAAGAACAAATACAAATTAAAACTACATTTAGAAACCATTTCTTACCATTAGATTAGCAAAACTTAACTC
CTCGAAGACTGTGTCTTCTCGCTTGTTCCCTTTCCAATAACACTCCTGTTATCATTGGAGGCGTTTAGACTTCAGAAATTCCTGTCTATTCAGTATTTTC
TGTCCTGGACCAGGGAGAGAGAAGGACGACTCTCAGGATAACAGTTCACATTCCCCACTAGGCAGGCGCTCGTGGCTTTGGGATTCGTTCCCAGTGGGCA
CCTCGGAGTGGCAACGCTTCCCCCTGAAGAATGAGATTTTGAGCGTTTTTCCTTCAGCATTCGGAGGAGTGTAATCCAAATGCTCTGTGGAGTCGTACAC
ACTGGCTCCAGAAGGAGGATACAAGCAATTCTGGGAATGGTAGTCCAGACGCTCAGTGGAGTAGCGGTCAGCTTGGCTCCGGCAGGCGAATCAGGGGATT
TCTGGGAAATGTAGTCCAGACGCTCAGTGGAGTCTCGGTCAATTTGACTCCGGCAGGTGGATCCCAGGGAATTCTGGGAAGTGTAGTCCAGACGCTCGGG
GTCGTCGCGGTCAGTTTGTCTCAGGAATTCTGGGAAGTGGAGTCCAGACACTCAGTGGAGTAGCGGGCCACTTCCGCTCCGTTACTGTGAGGTTGCTGCA
GTTTTGTCCCTGGTAGTTTGGGTCAGTTCCGCGAGACCCTTCTGAATTTCCTGGACCTACGCATTGGATCCTTAACGAACTGGTGATCGAATTAGGGGAA
AAGAAACCTCGTCGGAGAGCAGAGGTTTGGCGGAGCGGGGCCGCTGTTTTCGTTCTCGTCAGTGGAGCCTTCTTGGGCTTGGGGCTCTCCTCGCGTCCCC
GGGGTGTTTGGGACTTGGTCGGGTCGCGTCTCGCCTGGTTTTAGGGTCTCCGGGGCTCTGAGCTCGCCCACTCGGCCTCCCTGCACCCCACGCGCGTGGC
CACTTCCTCGCGATAAAACGCTGGGATGTTACTTAATCTCCTTGGGTCTCCCGTTACAGTTCTTTAAGATGGGGAGTTTAGGACCATCCTAATAGAATCG
TTTTGGGAACTGAAAGCGGTAACACAAATGAGAGCCTTAAAGCAGCCCCTGTCACTTGGTGACTGGTGGTCTCTTGTTAATTTCCCACGAAGCCTGTCAG
GTCCCCGGGTGGGGTGAAACTCCAGCTGCAGGGGCACCGGCCCTTCTCCCTGATTCCTGCAAGACGCTGGGTGATCCCGGACGCCTTCTGACCTCTCTTT
TAGGAAGGCGAGGGTTGCATCCACTTCCAGGAGGGGAGAGGAGCATTTAACTTTTATGGGGCACGGCGACCACGGTCAGAGTGTTTCACAGCCTTCTCCT
TACCCAGCCCGACCTTTCCAAAAGAGCTGCAGGGAGGGACTTCTTGGCTTCTGAGGGCAAAGCTCTACGTGAGTGATCCTTGGCTTTTTTCTTTGACAGA
GATGCTCACCCCAACCGAGAGTGTATAGGATGTGTCTTCGGGCATGGGTGTTGCTTTCAGTTGTCATGTTTTTCTAGTCTTTAATCTTGAAAGATAGCAT
AGCTTTCATCGTTTTTTCTTGGTATTTTATCCTTGTTATTTTTGAAGAGTATAGATGAAGTTATTTTGGTCAAAGATGTTCATTTGGAGTTTTTCTGATG
TATTTCACGTTTAACTTCAAAATATGCATTTTTTGCTGGAATACCACAGAAGTGGTAAATCTCTCTCTCTCTTTTTTTTTCTTGAGACGGAGTTTCGCTC
TTGTCGCCCAGGCTGTAGTGCATGGCACGATCTCAGCTCATTGCAACATCCACCTCCTGGGTTCAAGCTATTCTCCTGCCTCAGCCTCCCAAGTAGCTGG
GATTACAGGTGCCTGCCACCACATCCGGCTAATTTTTGTATTTTTAGTAGAGAAGGGATTTCACCATGTTGGCCAGGCTGGTCTCAGACTCCTGACCTCA
GGTGATTCAACCGCCTTGGCCTCCCAAAGTGTGGGATTACAGGCATGAGCCACCGTGCCCAGCCTGAAGTGGTAAATTTCTTATTGCAACATAACAGGGG
CCATATGTCAGTTTGTCACTTCATTGGTGATCTCAACTTTGTTCACTTGGCTAAAGTCATGTTTGTCAGATTTCCGCATTGTAAAATTATTTTGAATTTT
TTTTTTTACCCCAGGAACACAGATTCAAGTTGCTCTCAATATACACTCCCTAATTTTTTAGTTAAATAAAATTTTGTAAGGAGAAATACATTTATTAGTG
CACATTCTACTGTAAAGGTGAACTCTCCCTTCTCCTTCATTTGCTTATTCATTCATTCAACTATAAATATTCTATCAGTGTAGATCCAGAATCCAGTCTT
ATTAAGTTAAATGACATGTGGATGAACAATTACCAATGCTTTGTCCAACTTTATTGAGGTGTATTCTACATATCATAGAAACTACCCATTTCGTGTGTAC
ACTTTAATGATTTTTAGGAACTTTGTGGAGTGGAATAAACATCACCATAATTCAGTTTAAATAATTTTCATCCCCCATTAAGCCTCCTTGTGCTCACTTA
TAGTTAATCCTCTTTGTCACCTCAAATATGCAGAGACCACCTATCTACTTTCTCGTTATATACACTTGCCTACTCTGGAATTTCATAGATATAGGATCAT
GCAATATGTGGGCCTTCCTATGTGACTGGCTTCTTTCACTTAGCATAATGTTTCCAAAGTTCATGCGTGTTGTAGCATGAATCAGTACTTCATTCCTTTT
AATTTCCAAATAAGATTCCATTGTATGGATAGGCCACAATTTGTCTATCCATGTACGCATAGGAGGGAGTTTGTTGGTGTGCAGTTTTGGGTTACTATGA
ATGATGCTGTTGGGAACATTCATGTGTTAATTTACAATACACATTCGTGTTGGTGGATGGCATCCCTGGCCACACTTTCATGTCTCTTTTTCTGCCTTCC
CTGGTACTTTCCAGGCAGGATTCTGCTTTCCCTTGGACTGTATCACTCAGGACTCTGAATATTCCCTGAAATAGGAGGAAAAATGACCACGTTGAAGGTG
AGTAGAGCTTGCCTCTCTTGCTGTTAAAATTTCTTTTATGGAGACTTGTTCTGTCGCCAAGGCTGGAGTGCAGTGGCCTGATTTTGGCTCATTGCAACCT
CCACCTCCGGAGTTCAAGTGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGACTACAGGCACACACCACCACACCCAGAAAATTTTTGTATTTTTAGTA
GAGACGGGGTTTCATCATCTTGGCCAGGCTGTTCTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTTAGCCTCCCAAAGTGCTGGAATTGCAGATGTGA
GCCACCGTGCCCGGCCGTATTTCTTCTCACTACTCATATTCTCACAGGTTCTTCTCAGTCTTGGGAAGACTTAGGGAGTACAACAGAGATATAGCATGGG
ACAAACAGAATCTAGCTCTTCCCGTGTGAACACCTCCAATAATCCTTGTGTGAAGCAGCAGTTAAGCAGTTATAGCCTGTTGTGTTGTGCCAACACGAGA
GCCAGCGTCCACAGGTGGCACTGCTCCTCCCAGGCACCATTTTGGGGTGATCTTCTTTCTTCCTGACATGACACCTACTCAGATGCACCCAGTGCTCCAG
GCACCCAAGGACAGTGATAACCATAGTCATGATAGAAAATCTTTACTTTCAGTATGGTAAAGGGTACCTCACACAATGTTACCAGAAAATATAACAGCCT
AGAGCAAAAATATTCACTACTTGTATATTTGAAACAGATAAAATCCAAAATAAGAATCTTATGTACAGAATAGAAAAAGAAAATCCAAAGGAATGTGAAT
AAAAGACATTAACAGGCAAGTTTAAAAGGAGAAATTGAGATGGCCAATAAATATTTGAAAAGGTGATGGTATTATTTATAATCAAATAAGTGAGACTGTT
AAATTCTTCCTAATATGATTACAAAAATCATGGGAAAATTGATAACCTGCTCTTGGTTATGGTAAGACAAATCAGTGTACACGTATCCTCTTGAAAGATT
AGGGTTTGGTAAAAAATTGAGACCTGATATTATATGATCACAATTTTAAATATGCCTATTTATTGACATTTTAATTTTCATTTAAAATTATTTTAAATAA
ACAGTAGTAAAATCTACCCAAAATGTTTTTTTTTACAGGATTGGTATTAATGAGCATATATAAAATTAAAGATTATTTAGAGTAGATAAAAATAGATTAT
CAATTCTTTGGAATACTATGCAGACATGAAATGAGATAAAATAGATGGCAACAATGACAATAATAATAAAAAAAATTTTAAAAAGCTAGTGTTTATTAGG
TATTTAGTCTGCACTGATCAACTTTCCCAATGCTGCATGTATTTCCTTGTTTAATCATTGAAAAAACTATAATATGAAAATTATTAGAGAGGGAGTAAAT
AGGTGAACTTGTCCAAGGTCATGTGACCAGGAAGGCACAGAGCCTTGGGATGTGCTTTTAGGCACACTGTCTGCAGATCATAGATCAATGCTGCAATCAA
TGTATGTAGTTTATGCCTTGAGAGTACACAGGATGTACTGTATAGCTGTCCCACACAGGTTACCACAAGCTTTGTTAGTTTGGTGGCAGATATTAAAGAA
AAATGATAACATTCAGGGTTCAAGTATGAGAGAGAACAATGGGAATTATCAGGCAAGACTGGGACTGAATTGTTAAATGTTACTGGGGCAGTTGGCAAGA
TTCACTGAAACCTATATACGTGCAGCCCAGGATGCTGCATTTAGAGTCCTACAGGGTTACTTACAAGGAGACTCAGTAAGTGCACAAAGTAAACCTACAG
GAGGTCTTTTCCATCACTGCACTTCTGGTGGAGCTCAGGAAAATCCATCATTATCAGGATACAGACAGAATGAATAGCAAATCTATGAGCTGGCTGGGCG
CAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAATGTGGTGAAACC
CCATCTCTATTAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCGGGAGGATCACTTGAACCTGG
GAATCGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCCGGGCAACAGAGCAAGACTGTCTCAAAATAAATAAATAAATAAAATAAAATAA
TAAAAAAGGAAGTCTGTGTGTTGACCTATGTCTCTCAAGATCCAAAACAGCTTCTCATTCCTCCCCTCTGTCTGCTCAGTGCCACCCCTCTCTCAGTAGT
CATTGGTCATGAGACTGAGGTTGCATATGTTCGATGCTGTAGGAGGCAGTGACCTTCAAGGACGTGGCTGTGGTCTTCACTGAGGAAGAGCTGAGGCTGC
TGGACCTTGCCCAGAGGAAACTGTACCGAGAAGTGATGCTGGAGAACTTCAGGAACCTGCTCTCAGTGGGTGAGGACAGGCACCCTTTGTAAGGGAACAT
CAGGACCAGGAGTGGCTTTGTATCCTAGAGTGTTCAAGTTTGAGTATGCATTGGGAACCTAAGTTTCCAGTAAATTTTACTTAGATTTTTTTCTAGGATA
TATTGGCACTAAGCACATGACTTTTCACGTTCACAGGGCATCRATCACTCCACAGAGATACTTTCCACTTCCTAAAGGAAGAAAAGTTTTGGATGATGGA
GACAGCAACCCAAAGAGAAGGGAATTTAGGTAAGAAGCAAGCAACTCTGTGTCCTTGTGCGTGACTCTCCCATCKGTTTYACTTCTGTCCATTGCCCAGC
TCTGTTGTCCTGGTCTAAATGGCCAGACCTCTTTCCTGAATTATTACAGCTGACTTTCGGCTGGTTTCCCTGCTCCCACTTTTCCCACCCTGACATCTGT
TTTCCTCATGGCAGCCAATGTATTCCTTAGGAAAGTCAGACTGCCATTCCTCGGCTCAAAAGCCTTTCTGGCTTCTTTTTTTTTTTTTTGAGATGGAGTC
TCGCTGTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAAGCTCCGCTTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGT
AGCTGGGAATACAGATGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCT
GACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC


SNP Information

Context             (SEQ ID NO:15291):
CAGAGGAAGCTGTATCGAGATGTGATGCTGGAGAACTTCAGGAACCTGCTCTCAGTGGGTGAGGACAGGCACCCTCTGTAACAGAACGTCAGGCCCCAGA
R
GTGGCTTTGTATCCTAGGGTACAAAGTTTCAAGTCTTAATTAGTAACTTGAACCTATGGTTCAAGTTTGAGTGTGCAGTAAGAACCTAAATTTCTGGTAA
Celera SNP ID:            hCV25651285
SNP Position Genomic:     12626
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,2)   caucasian(A,32|G,2)   total(A,52|G,4)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,36|G,4)   total(A,68|G,10)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,36|G,2)   total(A,68|G,8)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15292):
AGAAGTGTGGAAAGGGCTACAATAGTAAGTTTAATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAG
Y
TTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGAAAAACCATTCAAATGTGAAGAGTGTGGGAAAAGATTTACTCAGAATTCAC
Celera SNP ID:            hCV25651286
SNP Position Genomic:     19460
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,4)   caucasian(C,6|T,30)   total(C,8|T,34)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,163|T,1310)   total(C,163|T,1310) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15293):
CTAATCAGATTACCAAAGTAATGGGAAAATTGATAACTTGCTTTTGGCTATGTTAAGAAAAACCAGAATAATGTATCCCCTTGAAAGATTTTGAAGTTAG
K
TAAAAAAAAAAATTGAGAAAACATGACATAATCATAATATTAAATTTCTGACATTTTGTTATTTAAAACTTACTTTAAATAGGAGAGTAAGATCTACCTG
Celera SNP ID:            hCV11707392
SNP Position Genomic:     11478
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15294):
AGAAGGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGG
R
GAAAAACCATTCAAATGTGAAGAGTGTGGGAAAAGATTTACTCAGAATTCACAGCTTCATTCTCATCAAAGAGTGCACACTGGAGAAAAGCCATACAAAT
Celera SNP ID:            hCV11707393
SNP Position Genomic:     19508
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,3)   caucasian(A,6|G,32)   total(A,9|G,35)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,18)   caucasian(A,7|G,33)   total(A,23|G,51)   
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15295):
ACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGAAAAACC
W
TTCAAATGTGAAGAGTGTGGGAAAAGATTTACTCAGAATTCACAGCTTCATTCTCATCAAAGAGTGCACACTGGAGAAAAGCCATACAAATGTGATGAGT
Celera SNP ID:            hCV11707394
SNP Position Genomic:     19517
SNP Source:               Applera
Population(Allele,Count): african american(A,17|T,19)   caucasian(A,7|T,29)   total(A,24|T,48)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,3)   caucasian(A,6|T,32)   total(A,9|T,35)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,7)      total(A,7|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15296):
GAGTAGGAAATCTACGAGTTGACCTATGTCTCTCAAGATCCAAAACAACTTCCCACCCCTCCCCTCTGTCTGCTCAGTGCCACCCCTCTCCCAGGAATCA
Y
TGGTCATGAGACTGAGATTGCATATGTTTGATGCTATAGGAGGCAATGACCTTCAAGGACGTGGCTGTGGTCTTCACTGAGGAAGAGCTGGGGCTGCTGG
Celera SNP ID:            hCV22272845
SNP Position Genomic:     12417
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,23)   caucasian(C,32|T,6)   total(C,47|T,29)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,19)   caucasian(C,29|T,11)   total(C,40|T,30)
SNP Type:                 INTRON


Context             (SEQ ID NO:15297):
GAAACATGAGAGACTCCACAGTGGAGAAAAACCATTCCAATGTGAAGAGTGTGGGAAGAGATTTACTCAAAATTCACATCTTCATTCCCATCAGAGAGTT
S
ACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTAAGTTTAATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACC
Celera SNP ID:            hCV27476116
SNP Position Genomic:     19332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15298):
TCTGCCTTTCCTGGCACTTTGCAGGCACAATTCTGCTTTCCCAGGAACTGCATCACTCAGGACTCTGCAAGTTTCCAGAAGTAAGAGGGAAAATGACCAC
R
TTCAAGGTGGGTAGGACTTGCTTCTATTACTCTTAAAATTCCCTCTCAGTACTTAAATTGTCACAAGTTTTCCTCTGTCTTGGGAAGACTCAAGGAGAAA
Celera SNP ID:            hCV25641309
SNP Position Genomic:     9538
SNP Source:               Applera
Population(Allele,Count): african american(G,6)   caucasian(A,1|G,37)   total(A,1|G,43)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15299):
AGTGTGGAAAGGGCTACAATAGTAAGTTTAATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTT
W
GGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGAAAAACCATTCAAATGTGAAGAGTGTGGGAAAAGATTTACTCAGAATTCACAGC
Celera SNP ID:            hCV27479780
SNP Position Genomic:     19463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15300):
ACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTAAGTTTAATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACC
R
TACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGAAAAACCATTCAAATGTGAAGAGT
Celera SNP ID:            hCV27479781
SNP Position Genomic:     19433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15301):
CATCAGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAATGTGGGAAAGGATTTTACACAAATTCACAATGCTATTCCCACCAGAGATCCCATA
S
TGGAGAAAAACCATACAAATGTGTGGAGTGTGGGAAGGGCTACAAAAGGAGGTTGGATCTTGACTTTCACCAGCGCGTCCATACAGGAGAGAAACTGTAT
Celera SNP ID:            hCV27479782
SNP Position Genomic:     19084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15302):
GAGCGCATAGGCACCCGACTAGTGAGAGGTGGAGCTGGGGTTGGAACCTAAGCAGTCTGGGTCAGAGCCTGATTTGATCTTCTCTTGGGATACGTTGTCA
Y
TGAGGCAGAGGAACTAGTTGGACTTAGGTGGGGAAAGCAAGACTTAGGGGCTTGAAATTTTCTGAGTTTCTAAAAATGTTGTCAACTATTTTGTTTCAAT
Celera SNP ID:            hCV26635027
SNP Position Genomic:     7118
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15303):
TTTGAAAAGATGGTGGTATTCATTTATAATCAAATAAGTGAGAATAATAAAACAAAATCATGGCCAGGCCTGTGACTCACACCTATAATCCTGGCACTTT
R
GGAGGCTTAGGAAGGAGGATTGTTTGAAACCAGGAGCTCAAGACCATCCTGGGAAACATAGCAAGACTCTATCTCTACAAAAAGAAAAAAAAGAAAAAAA
Celera SNP ID:            hCV11463732
SNP Position Genomic:     11267
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15304):
GATGGTGGTATTCATTTATAATCAAATAAGTGAGAATAATAAAACAAAATCATGGCCAGGCCTGTGACTCACACCTATAATCCTGGCACTTTAGGAGGCT
K
AGGAAGGAGGATTGTTTGAAACCAGGAGCTCAAGACCATCCTGGGAAACATAGCAAGACTCTATCTCTACAAAAAGAAAAAAAAGAAAAAAACAATTTCT
Celera SNP ID:            hCV11463734
SNP Position Genomic:     11275
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15305):
TGAGATGGAGACTGTTTCAGAAGCAGGAACACATCAAGAGTGGTCCTTCCAGCAAATCTGGGAAAAAATTGCAAGTGATTTAACCAGGTCTCAAGACTTG
R
TGATAAATAGCTCTCAGTTCTCCAAAGAAGGTGATTTCCCCTGCCAGACTGAGGCAGGACTATCTGTAATTCACACAAGACAGAAATCTTCCCAGGGCAA
Celera SNP ID:            hCV15861147
SNP Position Genomic:     18168
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,3|G,37)   total(A,10|G,68)   
SNP Type:                 MISSENSE MUTATION;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,4|G,36)   total(A,11|G,67)
SNP Type:                 MISSENSE MUTATION;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:15306):
GTTCACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTAAGTTTAATCTTGATATGCACCAGAAGGTCCACACAGGAGAGA
R
ACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGAAAAACCATTCAAATGTGAA
Celera SNP ID:            hCV27469989
SNP Position Genomic:     19429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15307):
TAAAACAAAATCATGGCCAGGCCTGTGACTCACACCTATAATCCTGGCACTTTAGGAGGCTTAGGAAGGAGGATTGTTTGAAACCAGGAGCTCAAGACCA
K
CCTGGGAAACATAGCAAGACTCTATCTCTACAAAAAGAAAAAAAAGAAAAAAACAATTTCTTCCTAATCAGATTACCAAAGTAATGGGAAAATTGATAAC
Celera SNP ID:            hCV11463735
SNP Position Genomic:     11314
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15308):
ATCTGCAAACTCATCAGAGAGTCCACACTGGAGAGAAACCGTTCAAATGTGTGGAATGTGGGAAAGGCTTCAGTCGTAGATCAGCACTTAATGTTCATCA
Y
AAATTACACACAGGAGAGAAACCTTATAATTGTGAGGAATGCGGGAAGGCCTTCATTCACGATTCCCAGCTTCAAGAACATCAGAGAATCCATACGGGGG
Celera SNP ID:            hCV22272456
SNP Position Genomic:     18569
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,14)   caucasian(C,31|T,5)   total(C,51|T,19)
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,13)   caucasian(C,35|T,5)   total(C,58|T,18)   
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,2)   caucasian(C,9|T,3)   total(C,13|T,5)   
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:15309):
GGCTACAATAGTAAGTTTAATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCT
Y
GTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGAAAAACCATTCAAATGTGAAGAGTGTGGGAAAAGATTTACTCAGAATTCACAGCTTCATTCTCAT
Celera SNP ID:            hCV25651297
SNP Position Genomic:     19474
SNP Source:               Applera
Population(Allele,Count): african american(C,6)   caucasian(C,37|T,1)   total(C,43|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15310):
GGCAGAGAAACCATTCCGATGTGATACGTGTGATAAGAGCTTTCGTCAGAGATCAGCACTTAATAGTCATCGCATGATCCACACAGGAGAGAAACCATAC
R
AATGTGAGGAGTGTGGAAAAGGCTTTATTTGTAGGCGAGATCTTTATACGCATCATATGGTCCACACGGGAGAAAAGCCATATAATTGTAAAGAGTGTGG
Celera SNP ID:            hCV25981903
SNP Position Genomic:     18849
SNP Source:               Applera
Population(Allele,Count): african american(A,24)   caucasian(A,37|G,1)   total(A,61|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15311):
GAGAAAAACAGACATTTGAGGATCTCTTGTGTACCATGTACTTCCTTTGTTACTTTTGAGTGGATTTTGCATTTGTTTTTACTACTTGTTTTCTTCTATC
R
TTTATTCTATGGAGTAGACAAGATTGTAGGAATGGATAATTATTTCATTATACTACTTCTCTGCTCACACATTAGCTATTTTTATCCTGTGATACTCTTC
Celera SNP ID:            hCV25641310
SNP Position Genomic:     9733
SNP Source:               Applera
Population(Allele,Count): african american(A,6)   caucasian(A,37|G,1)   total(A,43|G,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15312):
TTGGTTGTGCCGTTTTGGGTTTTTATGATTAATGCTGCTGTGAACAGTCATGTGCCAATTCACAATACACATCCCTGTTGGTGGGTGGCATCCCTGGCCA
S
CTTTTCATGTCTCTTTTTCTGCCTTTCCTGGCACTTTGCAGGCACAATTCTGCTTTCCCAGGAACTGCATCACTCAGGACTCTGCAAGTTTCCAGAAGTA
Celera SNP ID:            hCV27838518
SNP Position Genomic:     9420
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,3)   caucasian(C,38)   total(C,67|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:15313):
ATCATAAATTACACACAGGAGAGAAACCTTATAATTGTGAGGAATGCGGGAAGGCCTTCATTCACGATTCCCAGCTTCAAGAACATCAGAGAATCCATAC
K
GGGGAGAAGCCATTCAAATGTGATATATGTGGTAAGAGCTTCTGTGGTAGATCAAGACTTAATAGGCATTCCATGGTTCACACGGCAGAGAAACCATTCC
Celera SNP ID:            hCV22274456
SNP Position Genomic:     18665
SNP Source:               Applera
Population(Allele,Count): african american(G,20)   caucasian(G,8|T,2)   total(G,28|T,2)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,22|T,4)   caucasian(G,38|T,2)   total(G,60|T,6)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,5)   caucasian(G,38|T,2)   total(G,69|T,7)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,4)   caucasian(G,36|T,2)   total(G,60|T,6)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15314):
GATTTCCCCTGCCAGACTGAGGCAGGACTATCTGTAATTCACACAAGACAGAAATCTTCCCAGGGCAATGGATATAAACCATCCTTCAGTGATGTCTCCC
W
CTTTGATTTTCATCAACAATTACACTCAGGAGAGAAATCTCATACGTGTGATGAGTGTGGAAAGAACTTTTGTTACATCTCAGCCCTTCGTATTCATCAG
Celera SNP ID:            hCV22271589
SNP Position Genomic:     18301
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,32)   caucasian(A,3|T,33)   total(A,9|T,65)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,8|T,30)   caucasian(A,4|T,36)   total(A,12|T,66)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,31)   caucasian(A,3|T,37)   total(A,10|T,68)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,3)      total(A,3|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15315):
AGTCTCCTGGGCCACTGATTCCATGTAACCTAAAGCCTCACCTTAAATCACGTTGCTCTTTGTGACATAGGGGGCACCGACCCCCAAAGGCGTGGCCAGC
Y
ACAACCCTAAATCATATTGTTTCACTTTCCAGTGACCTAGTTTTACTCTCAAGCAAACAAAGACACTCTCCTCAGGCATAAACTCCTAGACATTACCTCT
Celera SNP ID:            hCV27872010
SNP Position Genomic:     16796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15316):
CAAAGAAGGTGATTTCCCCTGCCAGACTGAGGCAGGACTATCTGTAATTCACACAAGACAGAAATCTTCCCAGGGCAATGGATATAAACCATCCTTCAGT
R
ATGTCTCCCACTTTGATTTTCATCAACAATTACACTCAGGAGAGAAATCTCATACGTGTGATGAGTGTGGAAAGAACTTTTGTTACATCTCAGCCCTTCG
Celera SNP ID:            hCV25641317
SNP Position Genomic:     18291
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15317):
AGACTTAATAGGCATTCCATGGTTCACACGGCAGAGAAACCATTCCGATGTGATACGTGTGATAAGAGCTTTCGTCAGAGATCAGCACTTAATAGTCATC
R
CATGATCCACACAGGAGAGAAACCATACAAATGTGAGGAGTGTGGAAAAGGCTTTATTTGTAGGCGAGATCTTTATACGCATCATATGGTCCACACGGGA
Celera SNP ID:            hCV25641318
SNP Position Genomic:     18820
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,23)   caucasian(G,40)   total(A,1|G,63)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15318):
CTGAGATTTTAGTGTACCCATCACCTGAGTAGTGTACATTGTACCCAACTTGTAGCTTTTTATCCCTTACCCTACCTTCCACCCTCCCCATTTTGAGTCT
S
CATAGTCCATTATATCACTCTGTATGCCTTTGCATACCCATAGCTTAACTCCCACTTATAAGTGAAAACACGGTATTTGGTTTTCCATTCCTGAGTTACT
Celera SNP ID:            hCV26635100
SNP Position Genomic:     17349
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:15319):
AAAATTCACATCTTCATTCCCATCAGAGAGTTCACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTAAGTTTAATCTTGA
Y
ATGCACCAGAAGGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGC
Celera SNP ID:            hCV25641319
SNP Position Genomic:     19400
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15320):
AACATCAGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAATGTGGGAAAGGATTTTACACAAATTCACAATGCTATTCCCACCAGAGATCCCA
Y
AGTGGAGAAAAACCATACAAATGTGTGGAGTGTGGGAAGGGCTACAAAAGGAGGTTGGATCTTGACTTTCACCAGCGCGTCCATACAGGAGAGAAACTGT
Celera SNP ID:            hCV27469990
SNP Position Genomic:     19082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15321):
TCTTTATACGCATCATATGGTCCACACGGGAGAAAAGCCATATAATTGTAAAGAGTGTGGGAAGAGCTTCAGATGGGCCTCGTGTCTTTTGAAACATCAG
M
GAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAATGTGGGAAAGGATTTTACACAAATTCACAATGCTATTCCCACCAGAGATCCCATAGTGGAGA
Celera SNP ID:            hCV27469991
SNP Position Genomic:     18990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15322):
TGGGAAGAGCTTCAGATGGGCCTCGTGTCTTTTGAAACATCAGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAATGTGGGAAAGGATTTTAC
W
CAAATTCACAATGCTATTCCCACCAGAGATCCCATAGTGGAGAAAAACCATACAAATGTGTGGAGTGTGGGAAGGGCTACAAAAGGAGGTTGGATCTTGA
Celera SNP ID:            hCV27479793
SNP Position Genomic:     19047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15323):
AGGCTTTATTTGTAGGCGAGATCTTTATACGCATCATATGGTCCACACGGGAGAAAAGCCATATAATTGTAAAGAGTGTGGGAAGAGCTTCAGATGGGCC
Y
CGTGTCTTTTGAAACATCAGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAATGTGGGAAAGGATTTTACACAAATTCACAATGCTATTCCCA
Celera SNP ID:            hCV27479794
SNP Position Genomic:     18969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15324):
TGATCCACACAGGAGAGAAACCATACAAATGTGAGGAGTGTGGAAAAGGCTTTATTTGTAGGCGAGATCTTTATACGCATCATATGGTCCACACGGGAGA
R
AAGCCATATAATTGTAAAGAGTGTGGGAAGAGCTTCAGATGGGCCTCGTGTCTTTTGAAACATCAGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTG
Celera SNP ID:            hCV22272532
SNP Position Genomic:     18923
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,6)   caucasian(A,4|G,28)   total(A,6|G,34)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,22)   caucasian(A,4|G,26)   total(A,12|G,48)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,7|G,33)   total(A,17|G,59)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,14)   caucasian(A,6|G,32)   total(A,8|G,46)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,7|G,33)   total(A,17|G,59)   
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15325):
AGTGTGGAAAAGGCTTTATTTGTAGGCGAGATCTTTATACGCATCATATGGTCCACACGGGAGAAAAGCCATATAATTGTAAAGAGTGTGGGAAGAGCTT
Y
AGATGGGCCTCGTGTCTTTTGAAACATCAGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAATGTGGGAAAGGATTTTACACAAATTCACAAT
Celera SNP ID:            hCV27479795
SNP Position Genomic:     18959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15326):
AACCATACAAATGTGAGGAGTGTGGAAAAGGCTTTATTTGTAGGCGAGATCTTTATACGCATCATATGGTCCACACGGGAGAAAAGCCATATAATTGTAA
R
GAGTGTGGGAAGAGCTTCAGATGGGCCTCGTGTCTTTTGAAACATCAGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAATGTGGGAAAGGAT
Celera SNP ID:            hCV27479796
SNP Position Genomic:     18941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15327):
TTAAACAACCAGCTCTTGTGTGAATTAAGAGTGCGAACTCATTCATTACCATGGTGGGGACACCAATGTTTATGAAGGATCTGCTTCCATGACCAAGCAC
Y
TTCCAATAGTCCCGACCTCCAACACTGGAGGTCATACTTCAACATGAGATTTGGAGGGGATACATATTCAAACTATTGTCAGATGTTAATTCATCAGGTA
Celera SNP ID:            hCV11463740
SNP Position Genomic:     21711
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15328):
CTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTAAGTTTAATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACCATA
Y
AATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGAAAAACCATTCAAATGTGAAGAGTGTG
Celera SNP ID:            hCV27508341
SNP Position Genomic:     19436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15329):
TTCATTCCCATCAGAGAGTTCACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTAAGTTTAATCTTGATATGCACCAGAA
S
GTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGAAA
Celera SNP ID:            hCV27508342
SNP Position Genomic:     19412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15330):
TCTTCATTCCCATCAGAGAGTTCACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTAAGTTTAATCTTGATATGCACCAG
M
AGGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGA
Celera SNP ID:            hCV27508343
SNP Position Genomic:     19410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15331):
ATTTACTCAAAATTCACATCTTCATTCCCATCAGAGAGTTCACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTAAGTTT
R
ATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCA
Celera SNP ID:            hCV27508344
SNP Position Genomic:     19392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15332):
GGAAGAGATTTACTCAAAATTCACATCTTCATTCCCATCAGAGAGTTCACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAG
K
AAGTTTAATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGA
Celera SNP ID:            hCV27508345
SNP Position Genomic:     19385
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15333):
GCTTTATTTGTAGGCGAGATCTTTATACGCATCATATGGTCCACACGGGAGAAAAGCCATATAATTGTAAAGAGTGTGGGAAGAGCTTCAGATGGGCCTC
R
TGTCTTTTGAAACATCAGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAATGTGGGAAAGGATTTTACACAAATTCACAATGCTATTCCCACC
Celera SNP ID:            hCV27508346
SNP Position Genomic:     18971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15334):
AGTATGCATTGGGAACCTAAGTTTCCAGTAAATTTTACTTAGATTTTTTTCTAGGATATATTGGCACTAAGCACATGACTTTTCACGTTCACAGGGCATC
R
ATCACTCCACAGAGATACTTTCCACTTCCTAAAGGAAGAAAAGTTTTGGATGATGGAGACAGCAACCCAAAGAGAAGGGAATTTAGGTAAGAAGCAAGCA
Celera SNP ID:            hCV25623971
SNP Position Genomic:     30143
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,40)   total(A,74|G,2)
SNP Type:                 MISSENSE MUTATION;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)   
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:15335):
CTAAACTAGTGAATTATCATGTTATATCATACTCATTAATCTCATTATTGTTATTATTTTTCCTATGACTGTTTCCTAAAATTATAAAACTTTTTATTTT
Y
ATGTCATTTGAAACCTATAGAAAAGTTGCAAAAGTAGCCTAAGAAATTCTTATTTACTCTTTACCCACGTTTGCCAAGTGTTTACATTTTTCCTGTTTGT
Celera SNP ID:            hCV29187661
SNP Position Genomic:     7880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15336):
AGACAGAAATCTTCCCAGGGCAATGGATATAAACCATCCTTCAGTGATGTCTCCCACTTTGATTTTCATCAACAATTACACTCAGGAGAGAAATCTCATA
Y
GTGTGATGAGTGTGGAAAGAACTTTTGTTACATCTCAGCCCTTCGTATTCATCAGAGAGTCCACATGGGAGAGAAATGCTATAAGTGTGACGTGTGTGGT
Celera SNP ID:            hCV22272829
SNP Position Genomic:     18346
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,36|T,2)   total(C,71|T,5)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,37|T,3)   total(C,73|T,5)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,29|T,3)   total(C,58|T,6)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,1)   caucasian(C,3|T,1)   total(C,18|T,2)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,35|T,3)   total(C,71|T,5)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15337):
AAGGAAGAAAAGTTTTGGATGATGGAGACAGCAACCCAAAGAGAAGGGAATTTAGGTAAGAAGCAAGCAACTCTGTGTCCTTGTGCGTGACTCTCCCATC
K
GTTTCACTTCTGTCCATTGCCCAGCTCTGTTGTCCTGGTCTAAATGGCCAGACCTCTTTCCTGAATTATTACAGCTGACTTTCGGCTGGTTTCCCTGCTC
Celera SNP ID:            hCV25623979
SNP Position Genomic:     30275
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,10)   caucasian(G,40)   total(G,68|T,10)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15338):
TATTTATTACCATACTGAGCTATATGCCTTCCATATGACTTATCCTGGAGCTTTTCATAGGAAGCATATTCATTTCTGGAAAGAAATCATTTTTGAATGA
R
CATTCTGATGTCTACTAGTGAGACAGCTCTTCTACAAGGGGAAAAAATTCTCCATTTTGTGATGTGTCAGATAATAACCAGCTTCCCAGCTAGCTTTCCT
Celera SNP ID:            hCV29187668
SNP Position Genomic:     14431
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15339):
CTTCATTCCCATCAGAGAGTTCACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTAAGTTTAATCTTGATATGCACCAGA
R
GGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGAA
Celera SNP ID:            hCV27469859
SNP Position Genomic:     19411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15340):
CTGGTCCTCAACTCGTCTGACCCATCAGAGACGCCACAGCAGAGAAACACCTCTCAAATGTGAGCAGCATGGGAAGAACATTGTACAGAATTCATTCTCT
R
AAGTGCAAGAAAAAGTTCACAGTGTAGAAAAGCCATACAAATGTGAGGACTGTGGGAAGGGCTACAACAGGCGCTTGAATCTTGATATGCATCAGAGGGT
Celera SNP ID:            hCV22274939
SNP Position Genomic:     19734
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,5)   caucasian(A,6|G,30)   total(A,9|G,35)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,14)   caucasian(A,3|G,27)   total(A,9|G,41)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15341):
ACAGCTATCATTCAGGAGACAGGCCTTAGAAAGAGTAAGAGTTCATGAATTTACCAGACTAATGGTGGACATGTCCAAATTGATGTCCACTAGAATGTAA
R
CTACATGTGTCTTTGCTGCTAAGTCGTCACAGCCTTAACATTGATTAGCACTTTGTATGTGTTCAGTACTTGTTTGTTAAATCAATGAAAGGATAAAACA
Celera SNP ID:            hCV2814089
SNP Position Genomic:     20341
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:15342):
TGGTACTTGGTTGGGTCGCGTCTCACCTGGTTTCAGGGTTTCCGGGGCTCTGAGCTCGCCCACTCCGCCCCCTGCACCCCACGCGCGTGGCCACTTCTTC
K
CGATATAACGTTGGGGTGTTAATCTCCTTGGGTTTCCCGTTACTGTTCTTTAAAATGGGGACTTTAGGGCCATCCTAATGGAATCGTTTTGGGAACTGGA
Celera SNP ID:            hCV7815551
SNP Position Genomic:     6371
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,3)      total(G,3|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15343):
GTGAGGCAGGAGAATCGTTTGAATCTGGGAGGCGGAGGTTGCAGTGAGCGGAGATCTGCCATTGCACTCCAGTCTGGGCGACAGTGCGAGACTCCGTCTC
A
AAAAAAAAAAAAAAAGAACAAAATGTTTTTATTACCTACGAATCCATGAAGTAAAGGTAGCAACTGTTAAGCTCGTAATGTGTTTCTTTCTTTTTGTATA
Celera SNP ID:            hCV351560
SNP Position Genomic:     7579
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15344):
GCAACTGTTAAGCTCGTAATGTGTTTCTTTCTTTTTGTATATTTATAGGTTTATTTATGAACATTTACAAATTTTTATAATTTTTTTCTTAATATTTCCC
Y
CTTATGTGTTTAACTATGGAAATTTCCAAATGCTGACAGACTAAACTAGTGAATTATCATGTTATATCATACTCATTAATCTCATTATTGTTATTATTTT
Celera SNP ID:            hCV351561
SNP Position Genomic:     7739
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15345):
AACATTTACAAATTTTTATAATTTTTTTCTTAATATTTCCCCCTTATGTGTTTAACTATGGAAATTTCCAAATGCTGACAGACTAAACTAGTGAATTATC
R
TGTTATATCATACTCATTAATCTCATTATTGTTATTATTTTTCCTATGACTGTTTCCTAAAATTATAAAACTTTTTATTTTCATGTCATTTGAAACCTAT
Celera SNP ID:            hCV351562
SNP Position Genomic:     7798
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15346):
CTACCCATCTGCCACCACCACCTGTGTTCACAGTCTAATTTTATGCATTGCCTTTAATTGTCACATTTCCATAATCTTTAATCTTGAGGATTCTACACCC
T
TTGTCTTTCTATGCTTGATATTTTTGAAGAGTATAGGCAAGTTATTTTGGAGAAAGGCATTCATTTGGAGTTGTGTCTGATGTAATTCATGTGCGGGTTC
Celera SNP ID:            hCV11707388
SNP Position Genomic:     8432
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,16)   total(-,16|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15347):
AGAAAAGTTTTGGATGATGGAGACAGCAACCCAAAGAGAAGGGAATTTAGGTAAGAAGCAAGCAACTCTGTGTCCTTGTGCGTGACTCTCCCATCGGTTT
Y
ACTTCTGTCCATTGCCCAGCTCTGTTGTCCTGGTCTAAATGGCCAGACCTCTTTCCTGAATTATTACAGCTGACTTTCGGCTGGTTTCCCTGCTCCCACT
Celera SNP ID:            hCV25623980
SNP Position Genomic:     30280
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,40)   total(C,70|T,8)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15348):
CCTGAGTGGCTGGGGTTACAGGCATGCGTCACCATGCCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCC
Y
GACCTCAGGTGATCCACCTGCCTCGGCCTTCCGAAGTGCTGGAATTACAGGCGTGAGCCACCGCGCCCAGCCTAACCTAAATTTTTTGTGCATGATACTA
Celera SNP ID:            hCV351564
SNP Position Genomic:     10462
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15349):
ATGCCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTTCC
R
AAGTGCTGGAATTACAGGCGTGAGCCACCGCGCCCAGCCTAACCTAAATTTTTTGTGCATGATACTAGAAAATTTGCCAGTCACTTGTGTTTTGTTTCTT
Celera SNP ID:            hCV351565
SNP Position Genomic:     10495
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15350):
ACCATACAAATGTGAGGAGTGTGGAAAAGGCTTTATTTGTAGGCGAGATCTTTATACGCATCATATGGTCCACACGGGAGAAAAGCCATATAATTGTAAA
S
AGTGTGGGAAGAGCTTCAGATGGGCCTCGTGTCTTTTGAAACATCAGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAATGTGGGAAAGGATT
Celera SNP ID:            hCV25981675
SNP Position Genomic:     18942
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,22)   caucasian(G,40)   total(C,2|G,62)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15351):
GATTTACTCAAAATTCACATCTTCATTCCCATCAGAGAGTTCACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTAAGTT
K
AATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATC
Celera SNP ID:            hCV27469860
SNP Position Genomic:     19391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15352):
AAGAGATTTACTCAAAATTCACATCTTCATTCCCATCAGAGAGTTCACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTA
R
GTTTAATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAA
Celera SNP ID:            hCV27469861
SNP Position Genomic:     19387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15353):
GTGGGAAGAGATTTACTCAAAATTCACATCTTCATTCCCATCAGAGAGTTCACACTGGAGAAAAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAA
W
AGTAAGTTTAATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACCATACAATTGTAAGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTT
Celera SNP ID:            hCV27469862
SNP Position Genomic:     19382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15354):
TTACCAGACTAATGGTGGACATGTCCAAATTGATGTCCACTAGAATGTAAACTACATGTGTCTTTGCTGCTAAGTCGTCACAGCCTTAACATTGATTAGC
H
CTTTGTATGTGTTCAGTACTTGTTTGTTAAATCAATGAAAGGATAAAACATATGTATGGATTTGGATACAATTTTGTGTATCCAAAAAGGGAAGCCTGCA
Celera SNP ID:            hCV2814090
SNP Position Genomic:     20391
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|T,1|-,6)   total(A,1|C,1|-,6|T,1) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:15355):
CGTGTCTTTTGAAACATCAGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAATGTGGGAAAGGATTTTACACAAATTCACAATGCTATTCCCA
Y
CAGAGATCCCATAGTGGAGAAAAACCATACAAATGTGTGGAGTGTGGGAAGGGCTACAAAAGGAGGTTGGATCTTGACTTTCACCAGCGCGTCCATACAG
Celera SNP ID:            hCV27469863
SNP Position Genomic:     19070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15356):
CATATAATTGTAAAGAGTGTGGGAAGAGCTTCAGATGGGCCTCGTGTCTTTTGAAACATCAGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGA
R
TGTGGGAAAGGATTTTACACAAATTCACAATGCTATTCCCACCAGAGATCCCATAGTGGAGAAAAACCATACAAATGTGTGGAGTGTGGGAAGGGCTACA
Celera SNP ID:            hCV27469864
SNP Position Genomic:     19028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15357):
GCTATGAAACAGGAAGAGAAAATGGAGTTTGGTAATTTCATCAAATATATTCATTATTGGGGGCAGGAGTAACATTTAAATCCTCCTCTTTATTGCTGGC
M
GTAAAAATATGTCTTTTGGAGAGCAGAACATGCCAGAATGTATAAGGTGCAACTGTTTGATATGAAAACCATAGGATAGGAAACTATGCCTATGACACTA
Celera SNP ID:            hCV2814091
SNP Position Genomic:     21164
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,9)      total(A,9|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15358):
GGGAGAAAAGCCATATAATTGTAAAGAGTGTGGGAAGAGCTTCAGATGGGCCTCGTGTCTTTTGAAACATCAGCGAGTCCACAGTGGAGAAAAACCATTC
M
AATGTGAAGAATGTGGGAAAGGATTTTACACAAATTCACAATGCTATTCCCACCAGAGATCCCATAGTGGAGAAAAACCATACAAATGTGTGGAGTGTGG
Celera SNP ID:            hCV27469865
SNP Position Genomic:     19017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15359):
CAGTGGTGCAATCTTGGCTCACTGCAACCTCTGCCTCCCGGTTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGATTGCAGGTGCCCGCCAC
Y
GCACCCGGCTGATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTGGCCAGGCTGGCCTCAAACTCCTGACCTCGTGATCCACCCGCCTTGGCCT
Celera SNP ID:            hCV2814092
SNP Position Genomic:     22425
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15360):
AGATCTTTATACGCATCATATGGTCCACACGGGAGAAAAGCCATATAATTGTAAAGAGTGTGGGAAGAGCTTCAGATGGGCCTCGTGTCTTTTGAAACAT
S
AGCGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAATGTGGGAAAGGATTTTACACAAATTCACAATGCTATTCCCACCAGAGATCCCATAGTGG
Celera SNP ID:            hCV27469866
SNP Position Genomic:     18987
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15361):
TGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGAAAAACCATTCAAATGTGAAGAGTGTGGGAAAAGATTTA
Y
TCAGAATTCACAGCTTCATTCTCATCAAAGAGTGCACACTGGAGAAAAGCCATACAAATGTGATGAGTGTGGGAAGGGCTTCAGCTGGTCCTCAACTCGT
Celera SNP ID:            hCV8713541
SNP Position Genomic:     19549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15362):
AATGTATAAGGTGCAACTGTTTGATATGAAAACCATAGGATAGGAAACTATGCCTATGACACTAAAACTCCAAAAAGTAGAAGACCACATTGATGATGTC
M
CTGCATTTTAAAATGGAAAGAACAAGTGTTCAAGAACAGGAATTTGTGTGAATTGCATTTATTCCTATAATAATATGAACTCAATGAGATGATGACATAG
Celera SNP ID:            hCV8713542
SNP Position Genomic:     21301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15363):
GTAAAAATACAGGAAGTCTTTTTCATCTTTGTGTTTCTGGTGGAACTCAGGGAAATCAGTCATTGTCAGGATACAGACAGAATGAGTAGGAAATCTACGA
K
TTGACCTATGTCTCTCAAGATCCAAAACAACTTCCCACCCCTCCCCTCTGTCTGCTCAGTGCCACCCCTCTCCCAGGAATCATTGGTCATGAGACTGAGA
Celera SNP ID:            hCV25651284
SNP Position Genomic:     12334
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,38)   total(G,73|T,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,38)   total(G,73|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15364):
TGTGGGTGTCTGGAGTGTCCTGTTGAGTGATGATGTCCACAGGTGGCATCGCTCCTCCCTGGACCTACCTTGGGAGGGGGGCATCTTCTCTTCCTGTCGT
R
GTACCTCTTCCATGGCCCCCAGCACTTCAGGCACCCAAGGACGGCAATTACCACAATTGTTATAGAACATTTTAAAATTCATTATGGGAAAAGATGCCTT
Celera SNP ID:            hCV80709
SNP Position Genomic:     10888
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Gene Number:                 27
Celera Gene:                 hCG16479 - 79000075953849
Gene Symbol:                 CCL22
Protein Name:                chemokine (C-C motif) ligand 22;A-152E5.1;ABCD-1;DC/B-CK;MDC;MGC34554;SCYA22;STCP-1
Celera Genomic Axis:         GA_x5YUV32W14H(10951511..10970898)
Chromosome:                  Chr16
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12187):
GGAGGGCGGCTGCTGCAAAGGCTGAGCCAGCAGCAAGGACTTGGAGCCCTGCCGAGTCCCTGGGGACTCAGGGGCTCTCCAGGGGGGAGCCCCTGAGCCC
ACCCATGGAGGGACCTCGGCCTTGGAGTGCCCCCTGTAAGAAAACCCCAGGTTCGGGTGAAGAGCCACCAGGCCAATTCTCTGTCACTCACTTTCAGTCC
TCCAAGAGCCGCCCATAGGCCACAGGATGACTTCCACATTTAAAGATTTCTTCTCCGCCACCCCAAGTTTTTATTATGACACATTTTATTCTTATTTATT
TTGTTTTTTCTTTCCCCCCACCCCAATACCTTCAGCTGCCTTTATATGATACATTTTAAATATTCAGGAAAGTCCTTAGAGTAGTTCAGTGATCACCAGT
ATATCCACTGCCAAGCTGCAACATCGTTGATGCTCAGTTTACCACATATACTTAGTCTCTCTTTTCTCTCTCTGGGAGATATGCACACACACACACACAC
ACACACACACATATACACACTATACACACATATACACATACATCTATGTCTACACATGCACATATGCATATATATAAACACATGCATACTACATACACAT
CCATATATACACACATATACAGACACATGTTACATAAATATTCATATATATACACATAGATATGCACATACATCTATAGTTATACATACATATATATACA
CACTACATACACATCCATATATATACACACACATATATAGATATGTACATACATCTGTAGCTATACACACATATATGAACATATATTACATACATATTCA
TATATATACACATATATAGATAGGCACATACATCTATAGTTATGCATACACATATGTATACACACATATTGCATACATATCCATATATGTCTACACACAT
TTTTTTCCCATGAACTCTTTGAAAGTAAGGTGATCATGACCTTTATCCCTAAATACTTCAGTGTTTTATGACMTTTATCCTTAAATACTTCATCTTCTAG
GAATGAGGACATTTTCCCACATTACACTGAAGAAAATCAACAATAAAGCACGAATATCTACTATAATATCCAGCCCATATTCACATTTTCACATGTCCCC
GCTGGTTCCCAAAAGATCTTTTTAGAGCTGTTTTTTTCTTTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCACTGTCGCTCAGAC
TGGAGTGCAATGGTGCCATCTCGGCTCACAGCAACCTCCACCTCCTGAGTTCAAGCAATTACCCTACCTCAGCTTCCTGAGTAGCTGGGATTACAGGTGC
GCACCACCACGCCAGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATTTTGGCCAGGCTGGCCTTGAACTCCAGACCTCAGGTGATCCACCT
GCCTCRGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCCCCTGTTTTTTCTTTTTCTTTTCTGAGATAGGGTCTCACTCTATCAC
CCAGGCTGGAGTGCAGTGCTGTGATCTTGGCTCACTGTAACCTCCACCTCCTGGGCTCAAGTGATCCTCCCATCTCAGCTTCCTGAGTAGCTGGAACTAC
AGGCGCATGCCACTACACTCGGTTAATTTTTTTTGTATTTTTTGTAGAGAGGGGTTTTCACCATGTTGCCCAGACTGGTATTAAACTTCTGGCCTCAAGC
GATCCTCAGACCCACAAAGTGCTGGGATTACAGGCGTGAGTCACCGTGCCCTGACTTTTTTCAAAACTAGGATTCAATCAAGGTCCGTGTATTGCATTTG
GCTGTTATGTCTCTTAAGCCTCTTTTAATCTTAAATGTTCTATTCACTTTATTATTTTTTTAAAACAACATTAACTTTTTTAAAAATTTTGGATACAGAG
TCTCACTTCGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCTCTTCCCAGGTTCAAGTGATTCTCATGCCTCTGCCATCCAA
GTAGCTGGGACTACAGGCACACACCACCACACCCAGCTAAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTAGGCCAGGCTGGTCTCAAACTC
CTGACCTCAAGTGATCCGCCTTCCAGGGCCTCCCAAAGTGCTCACAGGCTTTAGCCACCACGCCGGACCAACATTAACTTTTTGATGATCTGAGGACTGT
TATCCTGAAGAGCATCTGGAAGGTTCCACCTTCTGGGGTTGTCTGATTGCTTCCTCACAGGGCCATTTATCTTTTTCCTCTAGCCCCTGTATTTCTTGTC
AACTGGTAATTAATACTAGGGACTTGATTTGATTGTAGGGGAGCACCTTTTAAAAAATGGTGAAACTGTGAATCACATACATTTACCATTGTAACCATTT
TTAAGTGTACAGTTCAGTGGAATTAAGTACATTCACATTGTTGTGCAACCATCACTATCATCCACCTCCAGAACTTTCATCTTGCAGAATGGAGACTGTG
TCCCCATGAAACACTAACGCCCATTCCCCCACCTCCAGCCCCTGGCAACCACGATTTTGCCTTCTGTCTCTGTGAATGTGACTATTCCAGGTTCCCCAAA
GCAGTGGAATCATACAGTGTTTGTTCTTTTGTGACTGGTCCTGGGTCATGGCTTTTGAAAAGAGGTCCTCCGAGATGATGCCGTGCACTTCAGATTGCAT
CCTAGCAGGAGCTCACAGGAACCCTGCGGTCCCTGCCTGCCAGCCTCTCCACTCAGCTGTGCTCTGCATCTCTACCCATTCTGTCTCTACCCACACTGTC
TCAGCTGTTCAGCCCTCTCACTCTGTCTGGGCCTTTGCATTTGCTGTGCTCCCTGGCAGGCTCCTTCCTATCTTCTTTTTTTTTTTTTTTTTTGAGATGG
AGTCTCGCTCTGCCACCCAGGCGGGAGTACAGTGGTGCGATCTCGGCTCACTGCAATCTCTGCCTGCCTCCGGGGTTCAAGCAATTCTCCTGCCTCAGCC
TCCCAAGTAGCTGGGATTACAGGTGCATGCCACCATGTATGGCTAATTTTTGTATTTCTGGTAGAGATGAGGTTTCACCACGTCGGCCAGGCTGGTCTTG
AACTCCTGACCTCAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCGTGCCTGGCCTCCTTTCTATCTTTGAATTTC
AGCTGAAATGTCACCCCGTTCTAGAGGCCTTTCCCGACTGCCTATCCCAAAGCTGCTTCTTTGTTTCATTCGCTTCCCGGTGTTCCTCCCAGCCTGACAT
TACCTTGTTTGCCATGTTTGTCTGTTGTGGAAGACAAACTCCATGAGAGCAGGGGCCCCTGCTCTCCTGTTCAGGCTGCCTTCCCAGGCTCTGGCAGTGC
ACTTGGCACATAGTAGGTGCTTGTATGAGCTTCCTCTGGCTGCTGTAACAAATGACCATGAACTTGGTGGCTTAAAACATCACAAATTTATTATCCAATA
GCCTGGGAGGTCAGAAGTCCTAAATCAGTCTCAGTGGACTAAAATCAAGGTGTGGGGAGGGATAAGTTCTTTCTGGAGGCTCTGGGGGAGAATCTGTTTC
CTTGCCTCTTCCAGCTTCTCCAGCCCGCCTGCATCCCTGGGTTCACAGTTCCACGTCACTGGGACCTCTGCTCTGTCATCCATCATCTCTTCTGACTCTG
ACCCACAGCCTCCCTCTTGAAATAACTCTGTGATTGCCTTGGGCCTGTCTAGATAATCCAATAAATCTCCCTCTTTAAAGATCCTAGGTCAGGTATGGTG
GCTCACACCCATAATCCTAGCACTTCAAGAGGCCAAGATAGGAGGATTGCTTGAGGCCAGGAGTTCAAGACCAGCCCTGGCAACATAGTGAGATCCCCAT
CTCTACAAGAAATAAAAATGAGCAGGGCGTGGTGGCACACACCTGTAGTCCCAGCTACTTGAGAGGCTGAGGCAGTAGGATCGCTTGAGCCCAGGAGGTC
AAGGCTGCAGTGAGCTGTGATTGCACCACTGCACTCCGGCCTGTGTGACAGAGTGAGATCCTGCCTCTAAAACAACGACAACAACAACAAAAATCCTAAA
CCCTAAACAGTCACATCTGCAAAGTCCTTTTTACCATGTAAGGTAACATATTCATAGGTTTTGGGGATTAGAATGTGGACATTTAGGGGGGCCATTATTC
TGTTTACCACAGCGTTCAATAAATGTTTGCTGAATGAAGGAATTGGATGAATGGATGGGTCCCTTTATACATGGAGTCCCAAGTTCTGAGTTCCAGGCCT
GGCGTAGCCTCTGTGTGGCTGTGTGAACTGGGCAAGTCCTCTCTCTCTGAACCTCAGTTTCCTCCTTCATTAGATGTGTTCTTTTTTTTCTTTCTTTCTT
TCTTTTTTTTTTTTTTTTTTTTTTGAGATGGACTCTCATTCTCTCACCCAGGCTAGAGTGCAGTGGCGCAATCTTGGCTCACTGCAACCTCTGCCTCTCA
CCGGATTCAAGCGATTCTCCTGCCTCTCAGCCCCCCAAGTAGCTGGGATTACAGGCGCATGCCATCACACCCGGCCAATTTTTGTATTTTTGGTAGAGAT
GGGGTTTCTCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTGGGCCTTCCAAAGTGCTGGGATTACAGTCATGAATCAC
TGCACCCAGCCCATGTGTTCTGAGCACCCAACATGTGCCTGATCCTCAGAGGGCCCTGGGAATGCCAAGAAAAATGAAGGGAGACCCCAGCCTCCTAGAG
CTTGGAGTCTGACTTCTAGGGAGGGGCTTGAGAAAGAGAAAACCTGACCCAGTCTGCTCAGGGCCACATTCCAGGTCCCCTAGAAGGCTTTGAAGTCCTG
AGAGGGTGTGCTTACCAAGGACATGACATTTCAAACAGCTTTGACGCATAAGTAGGAGTTTATGTGGTAGAGATGTGGAAAGTGACATTAAAGGCCAGGG
ACAGGCCGCAGTCCCTTTTGAGGAAGTGTGAGGAGTGTGGTGTGATCCCTCAGGGGAAGGAGACCAGTGGGGAAAGGCCTGTCCGGAAACGGGGCCTTGA
AGGCCACAGACAGGAGCCCGGGACCTGCCTTTAGGTGAATGGGGAGCCACGGCAGGGTTCTGAAGCAGGAGAGAGAGTGTGTAGCTCTGGACCACTCACG
CTGGCTGCTGCAGGGTGGGGATGGCATTGAGGAGGCCAGCATCCCAGCCTGAGGTGGAGGTGGCCTGGACTGGGCAGGAACAGTGGGGTTGGAGAGAAGG
AGCAGATCTGAGAGAGATTTAGGAAGCAGAATCAACGGGACATGGACATGGTGAGGGACTGAGACAGGAGTGGGGGAGGGAGAGCCCGGCAGCCACTGGG
AAGGAAGATCAGGCAGGACAGAAGTGTGGGTAGATGCTTTCCATAAACCGTTGAGAAATCCACGACCTGGCCCAAATGTGGACTTCACGAGAAGCCCCAG
ATGGGTCAATGGGTCCATAGGCCTCTCCCATTGAAGAGAGACCAGTAATGCCGTCATTAAGGGTACAAGACAGGCCTCAATTCTAGGTGAGGGTTGGTCC
ACGTTCTCACTTGATTTACAACCAGTGAAGTCAACAGAGCTGTGAAACCATCTCCCCCATTTCCAGATGGGGAAACCAAGTCCCAGAGACACCCAGACAT
GGCCAAGGCCACACAGTGCAGAGACCCTGGGGAGCACAAGCCTCTAAGAGGGGGATTTTACAAGTCTGTCTGAAACCAGAGGCGAGGACAGAGTTGAGGG
GGGGTCCCCTCTGAGTGGTTCCCCGCCAAAGAGAATTTCTCCACTTTGGAGGAAGTGGGAGGTAGTTCTTCTTTTGAGATGTGAATGTCAAGTGACTCTG
GGCACCCCGGTGACTAAGAGGTAAGTAAGTGAGGCTTGTGGGTGGAGCCAGCACCTTAAATAGCAGGTCTTCCTATGTCCCTTTGCAGACACCTGGGCTG
AGACATACAGGACAGAGCATGGMTCGCCTACAGACTGCACTCCTGGTTGTCCTCGTCCTCCTTGCTGTGGCGCTTCAAGCAACTGAGGCAGGTGAGGCTG
GGGAGMAGGAAGACCCCCTACAGAGGCCAGGGCAGACGGTGGKGTGTCTTCCTCATGTCTTGGACAAGCACTGGACCAAGAGCAGAAGACCTCAGTCTGC
TGTTGGCTCTTGCGGCCTTCGGCTAGTTGCAGTGCTTCTCTGGGCCTCAGTTTACAAGTCTGTTGAATGGGCAGTCTTGAAGACTTGGAGTCTAGGATCT
GTCTCACCTGGGTTGGGGGTTGTGGTGGGCATAGCCTCGGGATCTCCTGCCCCAGAAAACTCAAGCATAGGGCCCTAGGGGTGTGGGTGAGGAGCTTCTA
AGGGTCAGGTCTGAGTGGGGGAAGGCAGGGCTGGGGCAAGGGGTTCTCCCTTGGAAAGCTGGTGCTGCCCTCCCACCATCCATTTTTTAAAATGTTATTA
TTATTATTTTTTATTTTATTTTATTTTATTTTTTGAGACACAGTTTCACTCTTGTTGCCCAGGATGGAGTGCAGTGRGGCAATCTTGGCCCACTGCAACC
TCTACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACCACACCTGGCTAATTTTTGTATTTTTAGT
GGAGACAGGGTTTCACCATGTTGSCCAGGCTGGTCTCAAACTCCTGACCTCAGATGATCCTCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATG
AGCCACTGCGTCTAGCCTAAATTTATTTTTTATTTCATTTTATTTATTTATTTTTTGAGATGGAGTCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAAT
CTCAGCTCACTGCAACCTCYACCTCTGGAGTTAAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCTGCCACCATGCCCGGCTA
ATTTTTGTATTTTTAGTAAAGATGGGGTTTCACCATGCTGACCGGTCTTGTCTCGAACTCCTGACCTCAAGTGAAACTCCCATCTTGGCCTCCCTAAGTG
TTAGGATTACAGGCGTGAGCCACTGCTCTGGGCTCACTATCCATTTTTGTCCAGAACCTGTCCTCAGCATGGATTCCTGACTCCTCTTCTCCACCCCACT
CTATACTTTTGCTGTGTTGGGTGGAGGAGTGAGCACTGGAGTGGGGTCAGGCAGCTATAAACAAGAATTGCTCCCAGCTGCTGGGCTTTCTGAGTGCTTT
TCATGCATTAAAGACCCTCTGAAGCTGGTACTGTTATTACCCCTTTGGTCAGAGGAGGAAATTGGGCCTCAGGCTACAGCTGATGCTTAGTTGTTCTGAA
TCCCCGCTCCTAGAGCTGACTGTCCCAGAGTGTAGACATTGGACCCTAAGTGGCTTCTCAGAAGCTCCAAGGGTAGGGTCTTGGAGGGCTCAGAATCCTC
TGGTCACCATCCTTCCACATGAGAACAGAAAAACTGCATCTCTTTCCTGGAGCCTGGAGAGGCCGAGATCAGGGGCTGGGGCCGAGGGTGACCTCTCTGG
GCTCCAGCTTGTGAATTCACTGGGGACCCCTCCCCTAGGCCCCTAYGGCGCCAACATGGAAGACAGCGTCTGCTGCCGTGATTACGTCCGTTACCGTCTG
CCCCTGCGCGTGGTGAAACACTTCTACTGGACCTCAGACTCCTGCCCGAGGCCTGGCGTGGTGTGAGTAGGGAGCTGGGGCCACAGGGCCTTGGTGGGCC
TGACGGGTACAGCCTGGGATGGCCCAGGTGCTGGTGGGTGGGACACACCCAGGGATGAGAGGAATGTGGCAGGGCTACCAGATGCCTGCCAGGATGGCTT
GGCTGGAAGAGATGGCTCAGTTCAGGCTTGGGTGGACTACAAACAAAAATAATGTGATCGTTTAGCCAATATCCTCAGGCGCTTACTAGGTGCCAGGCAA
CATGTCAGGTTCTGAGGATGCAGAGCTGAGTGAACAGGGTGCCACCASAGTGTGGGTATGGCAGTAGGTAGTCAGTAGCTGTGGCATCTAGGGTATTTGG
GTATAGCAGGTATAGGAGTATACCTAGTGCCACTGAGTCAGCAAAGATGCTYCCAGGTTCTGGGCAAAAATGGATGGTGAACCAGGCGTGGTGGCTCATG
CCTGTAATCCCAGCAYTTTGGGAGGCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGATCAGCCTGGTCAACATGGTGAAACCCCATCTCTACTA
AAAATACAAAATTAGCTGAGTGTGATGGTGCRTGCCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCATTTGAACCTGGAAGGTGGAGGTTG
CAGTGAGCCGAGATCGCTCCACCTCACTCCAGCCTGGGCAACAGAGGGAGACTCTGTCTCAAAAAAAAAAAAAAAAAATGCTCACACCAGAAGTGTCTTG
GATCCTCTCCAGGCTCCCAGAAGTCCAAGGCAGCCCATTTTGACCAGAAGAATAACATTAAGAGCTAAAATTTCCAAGGTGCCTCCCGAGTGCCAGGCAC
TGTTCTGATCATTACCTGTGTTAACTGGTTTAATTCTCACAACAATCCTACGAGGAAGTTCAACGATTCCCATGGTAGAGATGGAGAAACAGGCTTAGCA
AGGGACAGTGACCTGCTCAAGGCTGCCCAGGTTGGAGCCAGAACTCACTCCTGGTTCCTCGTTCAGGGCTTTCYCCTGAGTTTCTTGTTCTCCTTTGCTT
CTTTCTCTGGCTTCTTTGCCTCCTTTTCCCTGGCCTGGGGCCTGCACCTGCACCTGGCTGGGTGACAAGTCCTGCCCTCTCTGCGGTAGCCTCTCTGGCT
GCTTCTCCAACTGCTCAGAGCCTGCTGCCTACCAAATCTCACACCTGGGRAGGCTGGGTTTGGGGACTCATGACCCACTTTGGGCCTCTATTATCTTCTC
ATCTTCCTCCTCCTTATTGCTGACACCATCTCTTAGAGGGATCTGCAGGTGAATAATAAAAAAGGCTGAAGCAGGAAGCCCTCCCAGAGTTCTTGTCTCT
TTAACTCTGAGCCTCAGTTTCCCCAACAGTATAATGAAGTAATAACCTAAACTTATTTGACTTATTTGTATTTATCAAACACATAGAGAGTGCTTGCTAA
GTGCTAGGCTCTGCCGTAAGCACTTTATAAATATGAACTCATTTAATCCTTGAAACAATCCTATGCAGTAGGTGCCATCGTGACCCCCTTTTCACAGGTG
AGGAAATGAGCACAAAAAGGTTAGGGGGCCTCTTGAGCATTACAGGGCACAGTAATAGTAAGAGGAAGGTGAAGAGCTCAATGTCTGGCACATAATAGAT
GCTCAATTGCTGGGCATGTAGTGCTTCTCAGTTACTTGGGAGGCTGAGGCAGGAGGATTTCCTGAGCCCTGGATTTTGAGGCCAGCCTGGAAACTTACTG
AGACTCTGTCTTTATTTCATTTTTTTAAATAAAAAAGGCTGAGTGCAGTGGCTTACACCTGTAATCTCAGGACTTTGGGAGGCTGAGTTGGGAGGATCAC
TTGAGGCCAGGAGTTCAAGACAAGCCTCAATAGAGTGAGACCCTGTCTCTAAAATCAATCAATCAATCAATCAAATCATATGTGATCACTGGATTTTGAG
CCAGAAGGGACCCTAGAAAGAATGTGTCTGGAGGCTCAGAGTAGTTAAGTGATATTATAAGACTCTTGGGGATTCTGGCTTGGCGCAGTGGCTCACTCCT
ATAATCCTAGCCTTTGGGAGGCCGAGACAGGCAGGATCACTTGAGGTCAGAAGTTCAAGAGCAGCCTGGCCAACATGGTGAAAACCTATCTCTACTAAAA
ATACAAAAATTAGCTGGGTGTTGTGGCGGGCACCTGTAATCCCGGCTACTCGGGAGCCTGAGGCAGGAGGATCGCCTGAACCCRGGAGTTGGAGGTTGCA
GTGAGCCAAGATCGTACCACTACACTCCAGCCTGGGTGACAGAGACTCCATCTCAAAAAATAAAAACAAAACAAAACAAAAACAAAAACAAAACCCAACT
CTTGGGGATTCTATTTCATGGCCTGATCTGGAACTCAAGGCTGGGATTCAAGAGCTGAGGGTCCTGGAAGTCCTTGCTGCCTCTTCCTCTTTTTTTTTTT
CTTGACACGGGGTCTCATTCTGTTGCCTAGGCTGGAGTACAGTGGAGCAGAGATCTGGGCTCACTGCAGCCTTGACCTCCTGAGTCCAAGCAATCCTCCC
ACCTCAGCCTCCCAAGTAGCTGAGATCACAGGCAGATGTCACCATGCCTGGCTGACTTGTACGTTTTTGTAGAGACAGGGTTTTGCCATGTTGCCCAGGA
TGGCCTTAAACCCCTAGGCTCAAACAATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACTCCTGGCCTCCTCTTCCTCCTGAGAAA
TATTCTTTTCACACCACAGGTGGCTTGTAAATTTTGAACCACTCTATTTAGCAGATAATGTCATATGTAGTAGGTGACTCATAAATGCTGAGCCCTGCAT
AAAGTAGGTGGCTCATAAATGCTAAGCTCCCGAGGGTGTGGCATCCTTGCTGCGTGCTAATGTTGCTGCATTGTCTCTGGGGTCTCCTTCTTCCAGGTTG
CTAACCTTCAGGGATAAGGAGATCTGTGCYGATCCCAGAGTGCCCTGGGTGAAGATGATTCTCAATAAGCTGAGCCAATGAAGAGCCTACTCTGATGACC
GTGGCCTTGGCTCCTCCAGGAAGGCTCAGGAGCCCTACCTCCCTGCCATTATAGCTGCTCCCCGCCAGAAGCCTGTGCCAACTCTCTGCATTCCCTGATC
TCCATCCCTGTGGCTGTCACCCTTGGTCACCTCCGTGCTGTCACTGCCATCTCCCCCCTGACCCCTCTAACCCATCCTCTGCCTCCCTCCCTGCAGTCAG
AGGGTCCTGTTCCCATCAGCGATTCCCCTGCTTAAACCCTTCCATGACTCCCCACTGCCCTAAGCTGAGGTCAGTCTCCCAAGCCTGGCATGTGGCCCTC
TGGATCTGGGTTCCATCTCTGTCTCCAGCCTGCCCACTTCCCTTCATGAATGTTGGGTTCTAGCTCCCTRTTCTCCAAACCCATACTACACATCCCACTT
CTGGGTCTTTGCCTGGGATGTTGCTGACACYCAGAAAGTCCCACCACCTGCACATGTGTAGCCCCACCAGCCCTCCAAGGCATTGCTCGCCCAAGCAGCT
GGTAATTCCATTTCATGTATTAGATGTCCCCTGGCCCTCTGTCCCCTCTTAATAACCCTAGTCACAGTCTCCGCAGATTCTTGGGATTTGGGGGTTTTCT
CCCCCACCTCTCCACTAGTTGGACCAAGGTTTCTAGCTAAGTTACTCTAGTCTCCAAGCCTCTAGCATAGAGCACTGCAGACAGGCCCTGGCTCAGAATC
AGAGCCCAGAAAGTGGCTGCAGACAAAATCAATAAAACTAATGTCCCTCCCCTCTCCCTGCCAAAAGGCAGTTACATATCAATACAGAGACTCAAGGTCA
CTAGAAATGGGCCAGCTGGGTCAATGTGAAGCCCCAAATTTGCCCAGATTCACCTTTCTTCCCCCACTCCCTTTTTTTTTTTTTTTTTTGAGATGGAGTT
TCGCTCTTGTCACCCACGCTGGAGTGCAATGGTGTGGTCTTGGCTTATTGAAGCCTCTGCCTCCTGGGTTCAAGTGATTCTCTTGCCTCAGCCTCCTGAG
TAGCTGGGATTACAGGTTCCTGCTACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGAGGCTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCT
GTCCTCAGGTAATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACAGTGCCTGGCCTCTTCCCTCTCCCCACTSCCCCCCCCAA
CTTTTTTTTTTTTTTTATGGCAGGGTCTCACTCTGTYGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTACAACCTCGACCTCCTGGGTTCAAG
YGATTCTCCCACCCCAGCCTCCCAAGTAGCTGGGATTACAGGTGTGTGCCACTACGGCTGGCTAATTTTTGTATTTTTAGTAGMGACAGGTTTCACCATA
TTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCTTCCTTGTGCTCCCAAAGTGCTGAGATTACAGGCGTGAGCTATCACACCCAGCCTCC
CCCTTTTTTTCCTAATAGGAGACTCCTGTACCTTTCTTCGTTTTACCTATGTGTCGTGTCTGCTTACATTTCCTTCTCCCCTCAGGCTTTTTTTGGGTGG
TCCTCCAACCTCCAATACCCAGGCCTGGCCTCTTCAGAGTACCCCCCATTCCACTTTCCCTGCCTCCTTCCTTAAATAGCTGACAATCAAATTCATGCTA
TGGTGTGAAAGACTACCTTTGACTTGGTATTATAAGCTGGAGTTATATATGTATTTGAAAACAGAGTAAATACTTAAGAGGCCAAATAGATGAATGGAAG
AATTTTAGGAACTGTGAGAGGGGGACAAGGTGRAGCTTTCCTGGCCCTGGGAGGAAGCTGGCTGTGGTAGCGTAGCGCTCTCTCTCTCTGTCTGTGGCAG
GAGSCAAAGAGTAGGGTGTAATTGAGTGAAGGAATCCTGGGTAGAGACCATTCTCAGGTGGTTGGGCCAGGCTAAAGACTGGGATWTGGGTCTATCTATG
CCTTTCTGGCTGATTTTTGTAGAGACGGGGTTTTGCCATGTTACCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCGATCCTCCTGGCTCAGCCTCCCAAA
GTGCTGGGATTACAGGCGTGAYTCACTGCGCCTGGCTTCCTCTTCCTCTTGAGAAATATTCTTTTCATACAGCAAGTATGGGACAGCAGTGTCCCAGGTA
AAGGACATAAATGTTACAAGTGTCTGGTCCTTTCTGAGGGAGGCTGGTGCCGCTCTGCAGGGTATTTGAACCTGTGGAATTGGAGGAGGCCATTTCACTC
CCTGAACCCAGCCTGACAAATCACAGTGAGAATGTTCACCTTATAGGCTTGCTGTGGGGCTCAGGTTGAAAGTGTGGGGAGTGACACTGCCTAGGCATCC
AGCTCAGTGTCATCCAGGGCCTGTGTCCCTCCCGAACCCAGGGTCAACCTGCCTRCCACAGGCACTAGAAGGACGAATCTGCCTACTGCCCATGAACGGG
GCCCTCAAGCGTCCTGGGATCTCCTTCTCCCTCCTGTCCTGTCCTTGCCCCTCAGGACTGCTGGAAAATAAATCCTTTAAAATAGTGTCTGCTTTGGTTT
CCTGGCATTTGCTGTCCCTGTGAGATGGGGCAGGGGGCACCATGATCCCCTCTATCCCACTGGGGAAGCCTTCCCATTGAAATAGGTGGTGACTTGCCCA
AGGTCACCCTGTGAGTGGTGGGAGTCAGGGCTGGACACAAGGGCCTGGGAGGTGGCTGCACAGGTGCTGATGGAGAAGCCCAGACATTTGTCCCAGAGTT
CCCAGCCCACCTTGGGACCAGCTGTCAGGAGGATTTGATGAAACCATTAAAGCAGTCCCCACATCTCGAGCTTTCAGCAGCATAATCACTCAGCCACTCA
GCCTTCACCTTCCCCCTGCACGGGCAGACACTGGAGAAAGGGAGGGAGTATTAGTCAGGAAAGGCTACCTCCTGCAACAAACACCTCCAAATCTCAGTGG
CTCAACTCAGCAGAAGCTATTTCTTCTCACACGAAGTCTAATCAAGCATTCTCAGTCTTAGGCAACCTTCCATGTGGTCATTTCAGGGACCGAGGCCCCT
TCCTTCTGGTACAGCCAGCGTGGTCACAGGCAGAGGAAATGCTAAGCACACGTGGGCAATCCTCCTTACTGGCCAGAAAAGATAAGCTGGGAGAGCTGGG
TGGGACTGGGTCCCAGGGGCCCTGGAGGTGGCGGCAGGGGAGGCCCCCTGGTCATGCCCATCCCTTCTCCCATCCTGGTCCTGCAGGAGTGCCCCGATCT
CCCCATCCTCCTCTCCAGAGCTGTTTCTGTGCTACTTCCAGGGCTGGGGAGTCCCTCATATCCCTCAAGAACAGCACAGGCTCCCTGCTCTCTGGGGCAC
AGGGTCCTGGCCACCTGAGGGCTTGTGGAAGGTGGGGACAAGGACACCCCCATTCTCACCACCCCCACCCCACCCCAGAGGAAATTTTTGCCGTCCAGTG
CTACCCATTTTTTTTTCTCATCATTACTCTAGTTATCCCTCAGTCCAAGACCTTCCCAGCTCTCTCTGGCCTGTGAACAGCATCCTCATTCTTCACTCCC
GCTTCACAATTCTCTGCAGTTGGGCCTAGCCGCAGCCTCCATTGGAGCCAATGGCATCCAGCCATTCCTCACCCCTGAATACGTACTGTGCCTTCCACCT
TGGTGAGGCTTTCACCTCTGCCTGGAATGGTCTGTCAAAATCCTGCCTAGGTGCATGTGGCAGGGTGCCAGCCCAGCATGCCACAGCTGACTTGCAAATC
ACAAGGGGACTAATTCTTCTATAATAAAGATGTCTAGCAATCACCCATCGATCCATCAATCCCATCCATCCAAGGAAAATTGGAGCAACTGGTCCATGTG
AAGTGTACAGTATTACTCATAATAGATTCTTGCCAAGAGTATGTAGCCTGGGTCTAATCAAGCCTTTAGATCTAACTTTCGGTTTACAGGAAATAAATAG
GATAGAGGAACAAATTAGATGACATCACAAGGAAATAACTAAATAACTAAATTAAGAATGAGAACACCGTATAAGACAATGGACTTGACTTTGCTCTTTT
TTTTTTTTTTGAGGCAGAGTCTCACTCTGCCGCCCAGGCTGGATTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCACCTCCAGGGTTCAAGCAATTC
CCTAGCCTCAGCCTCCCAAGTAGCTGGGATTATAGGTGCATGCCACCATGCCCACCTAATTTTTGTATTTTTAGTAGCGACGGGGTTTCACCATGTTGGC
CAGGCTGGTCTCAAACTCCTGACCTCAAGTAATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCGGCCGACTTGAC
TCTTAAGAAAGTTGAAGTCATTAAAAAATGTGCAAGTGGTCTGTGTAGACTCAAAAATACCCATATGCAGTGCATGAACCTAGATCGGATCCTCGTTCAA
AAGATAAAAGCAAGGAGGGAATAAAGGAAAGAAAGAAGGAAGGGAGGGAGGCGCCAGGTGTGGTACCTCACGCCTATAATTCCAGCACTTTGGGAGGCCA
AGGTGGGCAGATCGCTGGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACATGGGAAAACCCCATCTCTACAAAAAAAAAAAGTACAGTAATTAGCCAGGC
ATGGTGGCGTGAGCCTGTGGTCCCAGCTCCTCGGGAGGTTGAGCTGGGAGGATCGCTTGTGCCTGGGAAGTCGAGGCTGCAGTGAGCTGAGATTACACCA
TTGCACTCCTGCCTGGGTGACAGAGAGGGACCCTGTCTCGAAAAGATAAATAAATGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAT
GCCAAGGCGGGTGGATCACAAGGTCAGGAGATAAAGACCATCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAAAAAAAATACAAAAAAAAAAAAA
AATTAACTGGGTGTGGCGGCGTGCGCCTGTAGTCCCAGCTATATTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCAGAGCTTGCAGTGAG
CCGGGACGGCGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGATTCCGTCTCAAAAAATAAAATAAAATAAAATAAAATAAAAATAAATGAATAAAATA
AAAAAGAAAGGGAGTGAGGGAGAGAAGAAAGGAGGCAGGAAGAAGGAAAGAGGGAGAGAGGAGAAACCACAAAATACATTTTGGGGACAATTGGAGAAAT
TTGGGTATGAACTGGGTGTTAGATGACATACAGGAATTATTGTTAATTTTGTTAGATGGGATAATGATATTACATGTATGTAAGACAATAGCTTTATTCT
AAGGAGATGCATGCTGGAATATTTAGGGGAAAAGTGTCAAGCATCTATAATTTACTTTGTAATGGTTTGGCTAAAAAATAAAAATAAAAAAGATAAAACA
AATATTAAAAAATGCTAATCATTGGTGGTAGAGGTTTTGTTTGTTTGTTTGTTTGTTTGTTTGAGGCAGAGTTTCTCTCTTGTTGCCCAGGCTGGAGTGC
AGTGGTGCAATCTCGGCTCACCGCAACCTCTGCCTCCCGAGTTCAAGCAATTCTCTCCCAGCCTCCCAAGTAGCTGAGATTACAGGCACCCGCCACCACA
CTCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCCAACTCCTGAGCTCTGGTGATCCACCCACCTCGGCCT
CCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCGCCCAGCCATTGGTGGAGATTTGAAAGTCTTTGTACGATTCTTTCTTTTGTATTGTTGAATATTT
TCCAAAACAGAAATTTTAAAGAGACAAAGCAAAATTCTGCCCATCTTCAGATGGAAAGATCATCTCTCTCACCCACCTTTCTTGTTTCCCCAACAAGCAT
GCAGTTCTCCCTTCCTGCCCGAGCCCACAGCCTCTAGCCCTCTGGTAGGGCTGGCAACTTCTCTCTCCTACTGAGCTACAGCTCCTGGGGGCAAGGACTT
CAGCTCACTTGCCTTTGTGTCCCCCATCCCACCACATTGCCTGGCACACACCGGGCTCAATAACAGATACTAATGCCTCCTGCGTGCCAGGCACTGTGAA
AGTCCTTAGTTTTATTCACTGTCGTGGTGGCTTGATGAGGTGGCTGTTTGCATCCCATTTTACATATAGGGAAGCTGAAATGCAGAGAGAGGTTAAGTCA
CTTGCCCAAGGGAACACCCCTTATCCGTGGTGGAGTCCTGCTGATGTATTTATTTATTTTTTTTCAGATAGGGTCCCACTCTGTGCCCAAGCTGGAGTGC
AGTGGCATGATCATGGCTCAATGCAGCCTCAACCTCCCCAGGCTCACTTGATCCTTCCACTTTAGCCTCCTGAGCAGCTGGGACTGCAGGCACAGGCCAC
CACACTAATTTTCGTATATTTTTTGTAGGGAGGGGGTTTCACCATGTTTGTAGAGAGGGGGTTTTGCCAGGCTGGTCTCAGATTCCCGGGAATCTGCCTC
TGCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACATCCGGCCTGGAGTCCTGTTTAGCCTTGGGTCTGGCTAGCCTGAAAG
CCTGGTTATTGTGTCCAAATTAAATCTAAATTCAGTTCTTAACATCCTAATGAGATAGATGGGGGTGATCATTCCCATTTTATGGGAGTAGAAGCTGGAC
CTGGGGAGGGTAGAGGGTGTCCAAAGGGTCAAATGAGGAAAAGCAGAGCCGTGCTTTGCATTTTCGCTTCTATTTTATGCCAGGCTCTGTCCCGTACCCT
ATGGACATAAACTCACTTAGTCTTCACATTGGTCCTCGCAGTGAGGGTGGAGGCAGGTGGTGGACCCTACTGGTCTTGAGCTCAGACCTCAGAGCCAGCT
GGCTGGGACGAATCCAGGATCCCTCATTTCCTGGCTGGTGAACCTAAGAAAATGTCTTTTTTTTTTTTTTTTTTTAGACAGAGTCTCACTCTGTCACCCA
GGCTAGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACCCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAG
GTGTGCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGAGGTTTCACCGTGTTGGCCAGGCTGGCCTCGAACTCCTGACCTCAGGTGATCCACC
CACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATCGCACTCGGCCTCCTCCTCTGTTCTTACATGAACAGAGCAGAAAGAACACGACCTCA
GTTTTTATCCCTCCTTGTCCCTCTCTGGGCCTCAGTTTCACCAGTTATAAAAAGAGGGATTGGACATTGGGAATGAGAAGGCTACTAGCTTCCCATGTGC
ACAGGCCAGGACAGATTCTCTGAGCATGAGTGGACCTTGGCTCCTGCCAAGGGTGTTCCGCTACTTCAAGAAGTATCTAGCCTCCTAACCCCTAACCCCA
TGCACCAGGCAGCCCATTGGGTTGGGTGGGGGGGCGGGGGGGGGTGGTTGAGGAGAGAGAGGTCCCTGGCCTTGGGATCTGTGGCCCCTCTGCCCAGCCC
AACTGGCTCATAGCGTGGGATGCTGGCTCCACAACTGGTTTCCCTCAGATTGGCAGCCTGGAGACACCAGTACAGCTCAGTCCTATACCAAGGCAGAGCT
GCTGACTCTTCTGGAGTCTCAGGGATTGTTGCCACTGCCTTTAGGGAAGGCTGCCATGAAGGCAGACTGTGTTCTAATGTGCTCCCAAGGCTGGCAAGCC
TCTGCACCCTTCGGTGAGAGCCTGTTGGAGGGCCGGTGCTGGGAAGCCCTCTCCCCATTGCACTAGCCCAATGCTCTCTTTGGGCAGATAGAGAACTCAG
GCCCCACGAGAGGCAAGCCTTATCCAAGCCACGGCTACAGAGTTGAGGAGCCAAGAGCCACAGAGTTATCGGGGATGGGTTGGCAGCCACCTTGTTCTTT
GGGCTAACAGGGGCCAGAGCAGAGGTGGGAGTGGGTGCAAAGCAGGGAGCGGGAGACCGGGAGGTGGAGGCAGGGAGGCCAGGGCTCTCTCCTGGGTCCT
GAGCTGTCCACATTCTGCTCATCATGGTGGTGGGAGGGGAGTTCTCCACTCTGATGCTGTGGATAACCTGGGGTGGCTCCGGGCCTCAGTTTCCCCATCT
ATCCATATGAAGTTGGACTCAATCCTTCTTTCAGCAGACCCTGCACCAAGCCCCTGCTGACTTCAGGCTCCCTGCTGGGCTCTGGAGATGCATAGATCAA
CAAGGTSCCCCAGGAGCTTGGGATTCTAAGAGGGGAAATTTAGGGGTCCATCCTGATGTGGGCGAGGCATTCTCTGGATCAAAGAAGAGCTTGTCAGACC
CAGGATGGAGGGGCCCTGAGTCTCTCCCGGCCCCTTGGCGCCCCGCTCTCTATTCCACGGCCTGCTGGCCTTTTGTGTGTTGCCCAC


SNP Information

Context             (SEQ ID NO:15365):
TTTAGGAACTGTGAGAGGGGGACAAGGTGAAGCTTTCCTGGCCCTGGGAGGAAGCTGGCTGTGGTAGCGTAGCGCTCTCTCTCTCTGTCTGTGGCAGGAG
S
CAAAGAGTAGGGTGTAATTGAGTGAAGGAATCCTGGGTAGAGACCATTCTCAGGTGGTTGGGCCAGGCTAAAGACTGGGATTTGGGTCTATCTATGCCTT
Celera SNP ID:            hCV8805515
SNP Position Genomic:     12704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15366):
ATACATATCCATATATGTCTACACACATTTTTTTCCCATGAACTCTTTGAAAGTAAGGTGATCATGACCTTTATCCCTAAATACTTCAGTGTTTTATGAC
M
TTTATCCTTAAATACTTCATCTTCTAGGAATGAGGACATTTTCCCACATTACACTGAAGAAAATCAACAATAAAGCACGAATATCTACTATAATATCCAG
Celera SNP ID:            hCV2192302
SNP Position Genomic:     973
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:15367):
CCTGGAGCCTGGAGAGGCCGAGATCAGGGGCTGGGGCCGAGGGTGACCTCTCTGGGCTCCAGCTTGTGAATTCACTGGGGACCCCTCCCCTAGGCCCCTA
Y
GGCGCCAACATGGAAGACAGCGTCTGCTGCCGTGATTACGTCCGTTACCGTCTGCCCCTGCGCGTGGTGAAACACTTCTACTGGACCTCAGACTCCTGCC
Celera SNP ID:            hCV25641681
SNP Position Genomic:     7646
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,36)   total(C,70|T,4)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15368):
CTGGTTGTCCTCGTCCTCCTTGCTGTGGCGCTTCAAGCAACTGAGGCAGGTGAGGCTGGGGAGCAGGAAGACCCCCTACAGAGGCCAGGGCAGACGGTGG
K
GTGTCTTCCTCATGTCTTGGACAAGCACTGGACCAAGAGCAGAAGACCTCAGTCTGCTGTTGGCTCTTGCGGCCTTCGGCTAGTTGCAGTGCTTCTCTGG
Celera SNP ID:            hCV25641682
SNP Position Genomic:     6143
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,35|T,1)   total(G,70|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:15369):
TGGGGCTCAGGTTGAAAGTGTGGGGAGTGACACTGCCTAGGCATCCAGCTCAGTGTCATCCAGGGCCTGTGTCCCTCCCGAACCCAGGGTCAACCTGCCT
R
CCACAGGCACTAGAAGGACGAATCTGCCTACTGCCCATGAACGGGGCCCTCAAGCGTCCTGGGATCTCCTTCTCCCTCCTGTCCTGTCCTTGCCCCTCAG
Celera SNP ID:            hCV2845057
SNP Position Genomic:     13255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15370):
CATGGCCAAGGCCACACAGTGCAGAGACCCTGGGGAGCACAAGCCTCTAAGAGGGGGATTTTACAAGTCTGTCTGAAACCAGAGGCGAGGACAGAGTTGA
G
GGGGGGTCCCCTCTGAGTGGTTCCCCGCCAAAGAGAATTTCTCCACTTTGGAGGAAGTGGGAGGTAGTTCTTCTTTTGAGATGTGAATGTCAAGTGACTC
Celera SNP ID:            hCV1424652
SNP Position Genomic:     5798
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,11)   total(G,11|-,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:15371):
CTCTGTCTGTGGCAGGAGGCAAAGAGTAGGGTGTAATTGAGTGAAGGAATCCTGGGTAGAGACCATTCTCAGGTGGTTGGGCCAGGCTAAAGACTGGGAT
W
TGGGTCTATCTATGCCTTTCTGGCTGATTTTTGTAGAGACGGGGTTTTGCCATGTTACCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCGATCCTCCTGG
Celera SNP ID:            hCV2845058
SNP Position Genomic:     12786
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:15372):
TACAGGACAGAGCATGGCTCGCCTACAGACTGCACTCCTGGTTGTCCTCGTCCTCCTTGCTGTGGCGCTTCAAGCAACTGAGGCAGGTGAGGCTGGGGAG
M
AGGAAGACCCCCTACAGAGGCCAGGGCAGACGGTGGGGTGTCTTCCTCATGTCTTGGACAAGCACTGGACCAAGAGCAGAAGACCTCAGTCTGCTGTTGG
Celera SNP ID:            hCV16164540
SNP Position Genomic:     6106
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,35)   total(A,1|C,73)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,519|C,978)   total(A,519|C,978)   (A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:15373):
GTGGGTATGGCAGTAGGTAGTCAGTAGCTGTGGCATCTAGGGTATTTGGGTATAGCAGGTATAGGAGTATACCTAGTGCCACTGAGTCAGCAAAGATGCT
Y
CCAGGTTCTGGGCAAAAATGGATGGTGAACCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGCAGGCAGATCACTTGAGGTCA
Celera SNP ID:            hCV1089957
SNP Position Genomic:     8152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15374):
TGAGGCAGGAGAATCATTTGAACCTGGAAGGTGGAGGTTGCAGTGAGCCGAGATCGCTCCACCTCACTCCAGCCTGGGCAACAGAGGGAGACTCTGTCTC
A
AAAAAAAAAAAAAAAAATGCTCACACCAGAAGTGTCTTGGATCCTCTCCAGGCTCCCAGAAGTCCAAGGCAGCCCATTTTGACCAGAAGAATAACATTAA
Celera SNP ID:            hCV11778298
SNP Position Genomic:     8461
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,10)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15375):
ACCACGCCAGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATTTTGGCCAGGCTGGCCTTGAACTCCAGACCTCAGGTGATCCACCTGCCTC
R
GCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCCCCTGTTTTTTCTTTTTCTTTTCTGAGATAGGGTCTCACTCTATCACCCAGGC
Celera SNP ID:            hCV8805487
SNP Position Genomic:     1406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:15376):
CTCGAACTCCTGTCCTCAGGTAATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACAGTGCCTGGCCTCTTCCCTCTCCCCACT
S
CCCCCCCCAACTTTTTTTTTTTTTTTATGGCAGGGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTACAACCTCGACCTCC
Celera SNP ID:            hCV11778299
SNP Position Genomic:     11990
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:15377):
TGCTGGGATTACAGGCGTGAGCCACAGTGCCTGGCCTCTTCCCTCTCCCCACTCCCCCCCCCAACTTTTTTTTTTTTTTTATGGCAGGGTCTCACTCTGT
Y
GCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTACAACCTCGACCTCCTGGGTTCAAGTGATTCTCCCACCCCAGCCTCCCAAGTAGCTGGGATT
Celera SNP ID:            hCV26191520
SNP Position Genomic:     12037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15378):
TGCCCACTTCCCTTCATGAATGTTGGGTTCTAGCTCCCTGTTCTCCAAACCCATACTACACATCCCACTTCTGGGTCTTTGCCTGGGATGTTGCTGACAC
Y
CAGAAAGTCCCACCACCTGCACATGTGTAGCCCCACCAGCCCTCCAAGGCATTGCTCGCCCAAGCAGCTGGTAATTCCATTTCATGTATTAGATGTCCCC
Celera SNP ID:            hCV2392430
SNP Position Genomic:     11231
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   (C,-|T,-)   no_pop(C,-|T,-)   JBIC-allele(C,235|T,1258)   total(C,235|T,1258)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15379):
CTTTTTTTTTTTTTTTATGGCAGGGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTACAACCTCGACCTCCTGGGTTCAAG
Y
GATTCTCCCACCCCAGCCTCCCAAGTAGCTGGGATTACAGGTGTGTGCCACTACGGCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGTTTCACCATAT
Celera SNP ID:            hCV26191521
SNP Position Genomic:     12101
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:15380):
GCACCTGGCTGGGTGACAAGTCCTGCCCTCTCTGCGGTAGCCTCTCTGGCTGCTTCTCCAACTGCTCAGAGCCTGCTGCCTACCAAATCTCACACCTGGG
R
AGGCTGGGTTTGGGGACTCATGACCCACTTTGGGCCTCTATTATCTTCTCATCTTCCTCCTCCTTATTGCTGACACCATCTCTTAGAGGGATCTGCAGGT
Celera SNP ID:            hCV2392431
SNP Position Genomic:     8950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15381):
GACCTCCTGGGTTCAAGTGATTCTCCCACCCCAGCCTCCCAAGTAGCTGGGATTACAGGTGTGTGCCACTACGGCTGGCTAATTTTTGTATTTTTAGTAG
M
GACAGGTTTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCTTCCTTGTGCTCCCAAAGTGCTGAGATTACAGGCGTGAGCT
Celera SNP ID:            hCV26191522
SNP Position Genomic:     12184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15382):
GTCAGTCTCCCAAGCCTGGCATGTGGCCCTCTGGATCTGGGTTCCATCTCTGTCTCCAGCCTGCCCACTTCCCTTCATGAATGTTGGGTTCTAGCTCCCT
R
TTCTCCAAACCCATACTACACATCCCACTTCTGGGTCTTTGCCTGGGATGTTGCTGACACTCAGAAAGTCCCACCACCTGCACATGTGTAGCCCCACCAG
Celera SNP ID:            hCV2845062
SNP Position Genomic:     11170
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:15383):
GGTAGAGATGGAGAAACAGGCTTAGCAAGGGACAGTGACCTGCTCAAGGCTGCCCAGGTTGGAGCCAGAACTCACTCCTGGTTCCTCGTTCAGGGCTTTC
Y
CCTGAGTTTCTTGTTCTCCTTTGCTTCTTTCTCTGGCTTCTTTGCCTCCTTTTCCCTGGCCTGGGGCCTGCACCTGCACCTGGCTGGGTGACAAGTCCTG
Celera SNP ID:            hCV2845064
SNP Position Genomic:     8774
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15384):
AATAATGTGATCGTTTAGCCAATATCCTCAGGCGCTTACTAGGTGCCAGGCAACATGTCAGGTTCTGAGGATGCAGAGCTGAGTGAACAGGGTGCCACCA
S
AGTGTGGGTATGGCAGTAGGTAGTCAGTAGCTGTGGCATCTAGGGTATTTGGGTATAGCAGGTATAGGAGTATACCTAGTGCCACTGAGTCAGCAAAGAT
Celera SNP ID:            hCV2845066
SNP Position Genomic:     8048
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15385):
CATCCATTTTTTAAAATGTTATTATTATTATTTTTTATTTTATTTTATTTTATTTTTTGAGACACAGTTTCACTCTTGTTGCCCAGGATGGAGTGCAGTG
R
GGCAATCTTGGCCCACTGCAACCTCTACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACCACACC
Celera SNP ID:            hCV26191511
SNP Position Genomic:     6577
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15386):
ATGAAGTTGGACTCAATCCTTCTTTCAGCAGACCCTGCACCAAGCCCCTGCTGACTTCAGGCTCCCTGCTGGGCTCTGGAGATGCATAGATCAACAAGGT
S
CCCCAGGAGCTTGGGATTCTAAGAGGGGAAATTTAGGGGTCCATCCTGATGTGGGCGAGGCATTCTCTGGATCAAAGAAGAGCTTGTCAGACCCAGGATG
Celera SNP ID:            hCV27841705
SNP Position Genomic:     19207
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 TFBS


Context             (SEQ ID NO:15387):
TCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTGGAGACAGGGTTTCACCATGTTG
S
CCAGGCTGGTCTCAAACTCCTGACCTCAGATGATCCTCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGTCTAGCCTAAATTT
Celera SNP ID:            hCV26191512
SNP Position Genomic:     6724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15388):
AATTTATTTTTTATTTCATTTTATTTATTTATTTTTTGAGATGGAGTCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTC
Y
ACCTCTGGAGTTAAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAAA
Celera SNP ID:            hCV26191514
SNP Position Genomic:     6920
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15389):
GAGTATACCTAGTGCCACTGAGTCAGCAAAGATGCTTCCAGGTTCTGGGCAAAAATGGATGGTGAACCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCA
Y
TTTGGGAGGCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGATCAGCCTGGTCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAATTAGC
Celera SNP ID:            hCV26191515
SNP Position Genomic:     8216
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15390):
CAGGCAGATCACTTGAGGTCAGGAGTTCAAGATCAGCCTGGTCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAATTAGCTGAGTGTGATGGTGC
R
TGCCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCATTTGAACCTGGAAGGTGGAGGTTGCAGTGAGCCGAGATCGCTCCACCTCACTCCAG
Celera SNP ID:            hCV26191516
SNP Position Genomic:     8332
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15391):
GAGACGGGGTTTTGCCATGTTACCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCGATCCTCCTGGCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGA
Y
TCACTGCGCCTGGCTTCCTCTTCCTCTTGAGAAATATTCTTTTCATACAGCAAGTATGGGACAGCAGTGTCCCAGGTAAAGGACATAAATGTTACAAGTG
Celera SNP ID:            hCV2392426
SNP Position Genomic:     12922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15392):
TAAGCTGGAGTTATATATGTATTTGAAAACAGAGTAAATACTTAAGAGGCCAAATAGATGAATGGAAGAATTTTAGGAACTGTGAGAGGGGGACAAGGTG
R
AGCTTTCCTGGCCCTGGGAGGAAGCTGGCTGTGGTAGCGTAGCGCTCTCTCTCTCTGTCTGTGGCAGGAGGCAAAGAGTAGGGTGTAATTGAGTGAAGGA
Celera SNP ID:            hCV2392427
SNP Position Genomic:     12633
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,641|A,852)   total(G,641|A,852)   (G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15393):
ACCTATCTCTACTAAAAATACAAAAATTAGCTGGGTGTTGTGGCGGGCACCTGTAATCCCGGCTACTCGGGAGCCTGAGGCAGGAGGATCGCCTGAACCC
R
GGAGTTGGAGGTTGCAGTGAGCCAAGATCGTACCACTACACTCCAGCCTGGGTGACAGAGACTCCATCTCAAAAAATAAAAACAAAACAAAACAAAAACA
Celera SNP ID:            hCV26191518
SNP Position Genomic:     9984
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15394):
TTACATATCAATACAGAGACTCAAGGTCACTAGAAATGGGCCAGCTGGGTCAATGTGAAGCCCCAAATTTGCCCAGATTCACCTTTCTTCCCCCACTCCC
T
TTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTCACCCACGCTGGAGTGCAATGGTGTGGTCTTGGCTTATTGAAGCCTCTGCCTCCTGGGTTCA
Celera SNP ID:            hCV26191519
SNP Position Genomic:     11672
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:15395):
CCGAGGGTGTGGCATCCTTGCTGCGTGCTAATGTTGCTGCATTGTCTCTGGGGTCTCCTTCTTCCAGGTTGCTAACCTTCAGGGATAAGGAGATCTGTGC
Y
GATCCCAGAGTGCCCTGGGTGAAGATGATTCTCAATAAGCTGAGCCAATGAAGAGCCTACTCTGATGACCGTGGCCTTGGCTCCTCCAGGAAGGCTCAGG
Celera SNP ID:            hCV16172122
SNP Position Genomic:     10730
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,37|T,1)   total(C,73|T,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15396):
AAGTAAGTGAGGCTTGTGGGTGGAGCCAGCACCTTAAATAGCAGGTCTTCCTATGTCCCTTTGCAGACACCTGGGCTGAGACATACAGGACAGAGCATGG
M
TCGCCTACAGACTGCACTCCTGGTTGTCCTCGTCCTCCTTGCTGTGGCGCTTCAAGCAACTGAGGCAGGTGAGGCTGGGGAGCAGGAAGACCCCCTACAG
Celera SNP ID:            hCV3268420
SNP Position Genomic:     6023
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,3|C,31)   total(A,3|C,69)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,9)      total(A,3|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Gene Number:                 28
Celera Gene:                 hCG1651775 - 30000023000758
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6W6(25220929..25240747)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12188):
TATCCAAACACATGCAACTAACATTCTGTTTTCTAATCTCTTTCTCTAGAGCTTCAAGTTTATTAGGTACAAGATCTGCCTCTCAAGTTATTGCAGGCAA
TGGTTTAACTAAATGTTTTGCCATTGTAGAGCATGGATTATCGTCTGTCCAGCCTATGGCGTGCTACCTGACCACTGTTTCATGCTTTCTGTTATGATAG
CACTTTACTTCAAGGCATAAATTTCTGTAACTGCAGATATACTGTCATGTTGCAGTAGTATATCTTGATTAGATGCACTTTTTTTCTTTTTTCTTTTTGA
GAGAGGGTCTCACTCTGTAACCCAGGCTGGAGAGCAGTGGCACAATCTCTGCTCACTGCAGCCTCAACCTCCTGAGTAGCTGGGCTCAAGTGATCCTCTG
GCCCCAGCCTCCCAATTAGCTGGGACTACAGGTGTGCACCACTACACCCAGCTAAGTTTTGTATTTTTTGTAGAGGGTTTTGCCATGTTGCCCAGGCTGG
TCTCAAACTCCTGGCCTCAAGTGATCTGCCCTCCTTGGCCTCCCAAAGTGTGGGGATTGCAGGCATGAGCCACCACACCTGGCTAGATACCCCTTTTAAA
AATGAGAATAAAAGTTTTTAAAAGTTGTATTTGTTAAACTAAATGTGTACATTTATTTTATCATTATTCCCAGCAATCTCATATTATTATCTTACTGGTT
TATATGTGCGTGTTCACTTTTTTCCATGACTRTTTTAAGCTCATTAAGGTAGAGACTGTAATAATACAGTCTATTGCCTGTGCTACTAGCCCCAACAAAA
TGTATCATGGCTCCAAGCACATATGAGGGCATGAAAACATCTTGCTGATTTGGATGTTTGAAGAAGTATAGTATTTTACCACATTTGAGGCTGTGTGTAA
CTCATTGCTAAGACAACAGAGTCTTTTGGTATCTCTTTTTGTGGGCTCTTGGAGTTGACTGTAGTCATCTCGCTGTCAGTGTGTTGAATAATGGCTCCAA
TGCATTATTGAAACTCTTAAAGCTGGTGACAGCTTAGATCATGAGTGGTATAGAGCCAGTCAGTGAAGGGTTCCACCATAGTCAGCCGTGTGCCCATCAT
ATGTTCATTAGTGTGTCCCTGGTATTAGCACATGATTTACATTATAGGAAGTGCTCAATGAATGCTAGATGAGATAAGAATCTGGATCTGTTGATTTAGT
TTGAACTCAGTGATAGCCAGTTACCAGTCTGGCATCCTGATAAGAGTTGTTTTTACCCCAAGGGGGAAAACTGTGACCAAAGGTCAGTGTTGCCTCCTGC
TTACATAAAGAACCATTTTGTTCTCCCCTGCAATCTAGCAAATCCTCTTGTTTTGAATTCGGTACTCTTGGTTCCAACTGATTTATTCATTCTTTCTTTC
AAGAGAGCTGGTATATTCTTCTATGCATTGAGGTACAGCTCTGAATGGAAAAGAGATCACTGAAGAAAATGAGTGACTCAATCCACTCAATTTAGTACAC
ATTTAAAGGTCTATTGCACATGTTGCTTTGGGAGCATGAGTGATATAAGCAAAGATGAAAACATGGCTCTTGATTTCATGGAGCTACCTTCACTGTGCAC
ATGGAAGGTCACTCCTGGGGAGGCCTTGAAAATTCTCCATAAGATGGGCTTAGGGGGTTCAGTCTGGCTAGAAGGGGTTGGCCAGGGGACTTGAGTCTGT
CTTTGCATAGAATACACTGTTTAATCTAGATTGTATATTTGAGGATGTATATTTGGAGAAGGAGGCTGGTAGAGATTATTGGGAAGCAGGGTAAAGTTAC
CCAAATATATGAAGATCCCAGGGAACTATCCTAAAACATGTATGTGAGGGCAAGATACACAAGTATTGGCACAAGAGGTTGAGGAAGGGAACAATGCCTG
AAAGGGTGATTTGAGGAAATCTTTTTGTAGAAGTTACACTTCTGGTTGTTCCAGAGAGAGCTGCAGAGGATTGCACAGGCATGGAGGGGAGCAGGGTGGA
TGGAAGGCCTGTGATCACAGAATTTTGATCGGTTTTTCAGGGCCTTCCAATGAACCTAAGAACAACTTTCTCTTCATTTTCTTCATGTGAAGAAAATGGC
AAAGAGTTGTTCGAACATGTTACGCTAGAGGAAAATAACTTTGCCCTGCTAGAATGTGTCCTGCCTTATGAAAAGATGATGTGTAATTTTACCCAATCTT
AATGAATGTAAAAAAAGATAAGTTACTGTTTTTTGGGGAATGTCTGTGTATCTCTAGGGCACAATGCCTGACACATAGAATGTGTTTAACAAATGTTTGA
CAACCTGAACTGAACTGAGACAAATTAACTTTTTGCAGATCATTTAAATTTCATGTCAGAGCATTTAAACGCTTAATTTTTTTCCTTCAAAAATTGGAAA
CAAAAATATGGCGCTCTCATGAGAAAAGATTGTGCAGAAAGAGCCTTCCTTCACCCTGGGTTTTCTCACTTATCCCAGCAGGCTGGGACTGTCCTCACTG
TGTAGAAAGGAAAGTTTTTCACCCATTCTTGGGAAATTAGGCTACTCTACTCTAGTTTTACTTTTGATTACTTGTGTAAAAAAAAAAGGCAAAAATCAAT
AGCTAATAGGTTATCTCTTCCTAAGCATATATGCCCAGTCCAGTTGGACACAGATGTGGGGCTCAAGTCCAAATCCCCATGTGCAGCCCAGGATTAGGTG
GTACCCTGGAAATCAAGTGGGTGTTCCTGGCTAGGGATTGAAGATGATCTCAGCCCCTGGTCAGCTGGTTGAAAGCATCCAAAGTGCCTCCAGTGAGAAG
CTGAGATTACCTCTTTAATGAGAAACACTTTGGGTGTGGTAGGGCCAACCGTCAACTGGTAGGCAGTATTCTTGCCACAGGTAGTATCTGGTCTAGAAAC
TACTAGATCTCCAAATCCTCTTAAGGTCCCTTACATTGACAAGAATGAATTCAAGTTGCGAAATGACACACCAACTTATACAAGGTAGAGGATGTCATTA
AGGCAACAGTCTCACCAAGTCCATGCGCAGAGCTCTGATCCCACCGTCTCCTCCCCTCATTCTCCAAGTCTGCTTAGTTCTGCCCACTACTCTTCCTTCT
CAGCAACAGTTCCAGCATCCAGAAGTCTTGAGCAGCCTTCTGCCTCACAAGTTGGGGGTGGCCCAATTAAGAAACTTCATGGCAACTTCAAGGCCAAGGA
AACAGGCTGCATTGGCTGGGAAGGCTCGGGTCATCACTGCATCAGACCCTTTAGACAAGGATGTGATTCCTTCATCCCAGATCAGCTCCCTCAGCACATC
TCCAAAACTGTTAGGATATTTCCCAGGAGGTGCRTCTGGAAGGGATACTTGAGCACATCTTGCGGGACTGCCATTGCCCAGTTGAAGATCCCTGCAATGC
ACCCAGCCACCAGGATTCAAGGCACACTGAGCTCACAGRCCCTCTTTCCTTCCGGAGTGAAGATATTTTTTAGCCATTCATTTGTCATGAAATACRTTCC
GCTAGCTGGAACRTCTCACATAAGGGTAAGCACGGTCCCTTTGTAGATGCCTCGGATCTGWAACTCCTGGTACAACTTCTTTGCACAGTCCAAGRTTCCA
GTGTACTTGGTTTCCCCTGAAGAAGGCTGAAAGTGTAACAAGGACTTGATGGGTTCTCCAGGGGTCGCGATGCCTGTGGTGAATGTACCAGATAACATCC
CAGCTGCAAACAGCTGGGGATAGCTGAGCACATCTTCTGGGTGTTTCTGTCATAGTTTCTTCCTCAAACCAAACCCAAAGAAGCACACAGCAAAGATGGG
GGTGACACCGATGATAGGGGCAGCCATTCCCTTATATAGCCCTGTGATGTCCCTTCTAAGAGTCTTTGGGAGAGAGTCAAAGGYCCCAGAGTACATGGGA
GGCTGTCTAGGCAAACTCGGTGGCTGTGTCTGCAGTCGGACCTTGACAGTGTCCAGAGGGTGCCCCATGAACACCAGGCACATGCCACCAAAGCCACTGG
CCAGCAGGTTCTTGAGCAGGCTGATGGGCTTTGGCTGGTCGGCTATGGTCAGTCTGCCTATCCCTCAGTCTGTCAGTTCCTGGGCCGTCCTGGCTCTGCT
GCCCCAGCTGCAGTGCCAGGGCTGCCAATCTTGCATTTAAAGGCTTCTACTTGCTAATTAATTTTGGTTAAAAAAAACCATTCTTAGAGATAGCCAAGGT
AATGGGCATTTAAGTGTTGCATCAATGTGATTTTACATATATGTATATTTGTCCATGGCTCCTGGTTCATAACTCCCACAGCCCTCGTTATATCCTAAGT
GATAAAAATAATAAGCATATCTTTTGTTAGGGTATTTAGCTTTTTTGTCTTTGTTTCCTGAAGCAGCTTCAGACAGCTTCAGAGCAATAAAGGTGAAAAA
GACAGTCTTTTATTGTAATGTTGGGGCACTTTAGGCCTAAGAAATAGGCCTCAGAAAAAAGAATCTCCCTCTCTGAACTTCTCCTGCCCACCTTTTCTCC
CCAAGACCATAGAAACAGAAAATATCCTGTCATCTAACATCACCCCCCACACCTTTTGTCTTGGAGCTGACCATAAAGAAATTCTTTGATTTACCTTGTC
TAATCATAGGCCATAAGACCCTCAATTCAGGAAGGGTCCTCCCCTCTACCCAGGAGGAAGGAAGGCTGCTCAGAGAGGCCAAGAAAAATCTGAACAGGCA
GGCCTGGCTGAATTTCCTCATTCAACCTGTTAATATCAGGTTATACCCTTTTTATCCAATCACATTTGTTTACAGTTTTCCATGTTGTAATCATGTCTGC
CCAATGAAGACTCCATAAAAGGCCCAAGAGGATGGGATACAAAGAGCCTTTGGACCGCTGAACTTGTGGAAGTTCTAAGAAAGGTAAACAGTAACTCATC
CCTGTGCTGGGAGGGTGGTGCACCCCAGCTCCATGGGAAAGAACACTTCTGTGCTTGTGACCCTTTCAAACCTTGCCCTGTGTACCTTTTCATCTGGCTG
TTGACTTGTATCCTTAAAAATATCCTTTAGAATATACTGGTAAATATAAATTAGTGTTCCCTAAGTTTTGTGAGCTGTTCTAACAAATTAATCAAGCCTA
ATCAAACTCAAGCGGTTTGTGGGAACCTGAACTTGAGGCCAGTCAGTCAGAAGTCCCAGAGGCTTGGACCTGTGATTGGTGCTTAAAGTGGGAGCAGTTT
TGTGGGACTGAGCCTTCAGCCTGTGGGATCTGACTCTACCTACCTGGAGATAGCGTCAGAATTGAATTGGATTAGAAGATGCTTAGCTGGCGTTGGATGC
AGAATTGATTGCTTGCTGGTTGATGGAGATAAATGCCCACATACATGGTCATGGAAATCTTTTGTGTTGCTGGTTGTGGTGTGAGAGCAGAGGAAAACAG
TTTGTTTTATCAACACAATGAATAGTGATTATTTATTAAGCACCAGTAGGAGTCTAACCATGGGGTTAAAAAATAATTAGTTCAGGGAGATAACAAAACT
ACCAGGGTATATCATTTCTGAATTTTTCACTTATGTCATTCATTTCTTTAGTTTTGTTTTCCCATTCATAAAATGGAGGTAAAGATAGTTTAGTACCAAG
GCTCCTCTAAGGATGAGTTTTCTCCCATTTAAATCACGATTCATATTGCGTGACTGGAAAGTAGAACATATGGTCCGTGACAAGGGTGTTGGCAATTTGT
GGAAGAACAAAAAAGATTTGACAACAATTTCTAACTTGGTTCATCTCTGTAGTAAATTAAAAATTTTGCTCTGATTTGTGGGCAATGGGGGTGGAAGTAG
GGTAGAAGGAAAGAAAAATTTGGTCCTTTTCCTGTCATCCCTTTCTTTAGGGTCCCCCTTTTGTTCCCCTTCGGGAAATGGAATAAAAAAAAAAACCCCT
GCATTCGTCAGTAACTCYGGGTCAACCACAACTTAAAGACAGTAAGCAGGTCAATCGAAACAGGGGCAATGATTGCTATAAAACTAACAGGTACTCTCAT
TGATAGAACACAGGCATACACAGGAAGATACATTCACAGAAAGAGCTTCCTGCACAAAGTAAGCCACCAGCGCAACATGACAGTGAAGACCCTGCATGGC
CCAGCCATGGTGAGTAGCAGCAATCATTCTGGTTTAAGGACTGTCATGCCTAGGATTTCAGAAAACAGAATCCTAAGGAATTAGGTTTGATTGGGGTCTT
TTTGGAATTACTTCTTAAAAAACAGAGATGACTTTAATTTTGACTCCTGTCTGGTGGAGAAAAAGAAAAAAATAACTAGAAAAGTTATAATGGCATAAMA
ATGCAGCTCCTGGCCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTAGGAGGCCAAGGCGGGCGGGTCACATGAGTTCAGGAGTTCGAGACCAGC
CTGACCAACATAGCGAAACCCGGTCTCTACTAAAAATACAGAAATTAGGTCGAGCCTGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGT
GGGTGGATCACTTGAGGTCAGGGGTTYGAGACCAGCCTGACTAACTTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGGTCAGTTGC
CTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCTTGAACCTGGGAGGCGGAGGTTGCAATGAGCCAAGATCACGCCACTGCACTCCATCCT
GGGTGACATAGCGAGACTCTGTCTCAAAGAAAAAAAAATGCAGCTCCTCACCCAATGGCTTTTGCCCAGGTGGTGTTAGTGTGTGCCCAGGTGGTGTTAG
TGTGTGCAGTCCTTGGCATCACAGACAACTAGCATGTTCTTTCCTGTGGCCATCCATTATAGAGTCAGGTTGGCCTGAAATTCTTATCTCATGGTGGGAG
CTTGGCCAGCACTTTAGGGATTATGTACATATACATTTTAACCAAGGAAACTGGGGCCTCAAGAGGTTTAATGATTCCCCTGAGATTACAGGAGTGCCCT
GGATGGAAGAAATGAAATCACCCAGTGTTGACTTTGGACAGCTCCTAGAGAAGGGAAATTTCCCATGTCTCTGATTGCTATTTATTTATTTTGTACCATC
TCATTCTTCTTGGAGGAAAGAGAGATGTTAATGCAATGAAAATCTAGCCCCAGCAGGTCTGGAATCTTGCCTGACATTAGTCAGATAAGGCCTGAGAAGA
ATTTACTATAGAGGTACATGAAAACAGGGGTTAGGAAATCCYGCATCATATTATTGGCTTAGATAATTTCCTTTTTTTCTCCTTTTACAAGCCATACAAC
TTAAAAGAGCTTGAATATCATAAAAGGTTCATGGCATATAGCAATGGTATGTTTTATTTTATATTTATGTGTTATTTTAAAGATTACATGTAGCTCAGCA
AAGTGCCATATTTAGGGGCATAGGCTTTGATGTCAGGCAGACCTGGCTCCACTGCTTGCTAAATGTAGGATTTTTGGGTAAGTTATTTATCTTCTCTGTG
CCTCCGTTTCCTCAACTGTATGGTGGGGATAACAATGGCATCTTTCTCATGGCATTTATTGGGAGGATTAATTAATATCTTTGAGAATAAATGAGTCTAT
ACTCTGTACTGGCAGATTTGTGTATGCTTAATTTTCAGTTAATTTGGCCATTCTAATAAACAACGACTGATAATGATAGAGAAAGCATTCAGTAAGTGTT
AACTGTTCATATTAATATTGTTATTATTGTCCTGGAAATTCTGATCAATCCACTGAAGTAGATGGGAATACTTTCCACTTTATACAGATGAACAAAAGCT
CAATTAAGCTATTTATTTAACATTGCTGGATACTGTAAGCACAAGAACTGGTACACCAATCTAAGCTTTCTGTCTCCACATACAGTATGCTTTTCTTTGG
TTCAGAGGCAAGATTTGTGAATTTAAAGCCATTGCATCCAAGCAATTCTGTTGGGTAGCTTTGTGCTCCATAGCTATTTCTAATTCTAGTTTCCTTAAAG
AAATCTGTTGGGTTGTCAGCAAGAAACATAACAGTGCAAGGAGCATTGGAATAGGATTAGAAGTTGAGAGGTGCAGGCAGATAGGACATCTTCAATAAGT
AGTTGAGGCAAATTCTCATGGACCTAGAGGTTGGCCAGGTGCATGCTTACATGTGTCCACACATTGCTGGTGAGTATAGAGGATGGATGTTCAGGTTGCT
CAGGTGAGCTCACATTAGAGTGAGGTGCAAAGCTAGGCTGAGAAGGTTGTTGTCCTGTTACAGCTCACCTTCACCTGGTGCTTTCCCTTGCCCCTGTCCC
CTATTATACAGATTGAGAGCGATATCTATTCATCTGCTTTATAGGTGGCATATAAGAGTTCAAGTCATGCTCTGGATTTCTCTGAGAGGTGCTGTTTAAA
TCATTCTTAAGAACCAGCAACAGCCTGGTTCAGAGCCCCTGCTYTGTATTACATAACCACTAAAATCTACAGTTTCAGATCAAAAGCTTTGTGGAGCAAA
TTGGAGTATTTGCAGACATCATCTGATTTCCTGATAACGAGCTATGTGACCTACAACACTTATGCACATCTAGTACAGCTGTCACATTACCTAAAACACT
TAGCTCTTCTAATGAGACAAAACTAAGATTAATGTTGGTAATAATAAAAATGACCTTCAATGACAATAGCACTGACTACTGACACCTAGGTTTGAGTCCC
CAGACTGGTACTCATAGGCTGGTGAACCCAATCAAGTTATTTATTCCCTCTGGGACAGAACTCTTTCACCTGTCTAATTGGGATAATTAATACTAGCTCT
GATTACCTCACCAGGTAGTTGTGAAAATCCAGTGTTTAAAGAGATGTAAAAGAATTTTCTAATATACTCTAAGAATATATAAGCAAATGTAATAATGACT
TGTTAGAAGCATTGTAATTATTGCTAAGTCATATAACTCCAATGTATGTATTTAAAAGTTTTCATAATGAAAATTAATAGTGATTCAGTGAGTATGACAC
AGAAGAGGAAAGAGAAAACACAAAGGAGGAATTTACTTAAGAACCCTAAATATGTGATTGGTAGGCTTGGGAAGTTATCTAAGACCCTCTAATATAAGTT
GGCATCTTTTAAAAAAAAAGTCATAGCAGGCCAGGCGCGGTAGCTCAGGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGCAGATCACTTGAGGTC
AGGAGTTCAAGACCAGCCTGACCACATGATGAAACCCTATATCTACTAAAAATACAAAAAATTATCAGGTGTGGTGGCGCACGTATGTAATCCCAGCTAC
TCGGAAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGATTGCAGTAAACCAAGATTGTGCCACTGTACTCCAGCCTGGGCGACAGAGTGAGA
CTCCATCAAAACAAACAAACAAACAAACAAACAAACAAACGCCATAGCAGTTTGTCAAGACAAGGTATATGAGTGTAAATTCCACATCTGTCTAGTCCAC
TGTGTAGTACAATATAGAGTTAGCAAGAGTCGCCAGTATTGGATACTTATCATATGCTGCCAGTGTTCTTCATAATTTATATGGATCATCTCATTTAATC
TTCACATTTTTTTTTTTTTTGAGGAAACAGAGTCATAGCTTCTAAGAGTCCTGGAATTGAGTTACAGACCCTGGACTTCTGACTCTGAAGCCCATGCCCT
GAGCTACCACACTGTAAAGTCAAGAGCTAGTTGTTGAATGAATGAACGATTGTGGGGGATGAAAGTTGATGATTGCTGATTATCTAAAGGCAAATCAGCC
TCATTCTGACTCTTCTGGGTCAATCTTGCTTTCAACTTCTTTTTAGTGTCAGCTTCCTCAGTATGGCAAATGGACACTATGACCTTTTTGTTTACTCTTA
TTGTTTTTTGTCTCTAGTATCTGCAAAATATGAAAAGGAAGGCCTTTGAAACCAACATGTCTAATCACCTTCCCTACCTTAACTCATGGAAGGTGTGAGC
CTGAACAACGCTAAGCCTAGAGAATAAAAGCAACTTATTTTCAGCTCTTTTTTTTTTTTTTTTTTTTTCCAAGCAGGAGTCTCGCACTGTCGCCCAGGCT
GGAGTGCAGTGGTGCAATTTCGGCTCACTGCAACCTCCACCTCCTAGGTTCAAAGGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTGCAGGCGTG
CACCACCACGCCTGGCTAATTTTTATATTTTTAGTAGAGACGAGGTTTCACCATGTTGGCCAGGCTGGTCCTGAACTCCTGACTTCAGGTGATCCACCCA
CCTCGGCTTCCCAAAATGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTTCAGCTCTTCTTCTGTATTATGTTGAGAGTTGGTGATGGGCCTTGCT
CATCCCCAGTAAGGGTCAGTGGCAATGGTGGGTGAGCAAAGCATGGTTGTGACAAAGGGAATCTGGCAAGATTTGTAGCTTTTCTTTTCATTAGGTCTTC
AGTGCACTTTCATTCTTTGCGCATTCCTATAACACCAGATAAACTGGCATTTCAACGTAAGTATAAAAAAAATGCTCCAGAGCTAAAGAGAAATAGTTTC
CATATTCTCTCTTGTGGTGCATCATTAGTGCCCCGGTTTCTTTCAATTAGCATGGATAATTGGAACTTTGCTATCGTTGGTTTTGCGTAATGTTTTTCTT
AATGCAGTGAGCTTAACTATATAGTTCAATTTAGCTGTATCATTTTGTTCATTCATTCACTCATTCACTCATTCATTCCAAAAGTGTTTATGGAAAATGT
GTAATATGCAGGAACTTACAATCTAATGGGTGTAGATCTGACAGGAACACAAATACTACATTTCTAGACAATTAAAAAATGCTGCTTGAGTGCTAGATGA
TCAAAGCTTTATAATTTAAGGATAATAAACATGCTTCTGATTGAACCATTTTAGGGACTGTTCTTAGAGGAGATCACATCTGAGCTGGGCCTTAATGGAA
GGGTAGGATTTTGACAGACAGAGTATTCTAGGCAGTGTATTCTAGGTAGAGGGGTGGCTCCGAAGAAGGATTTTGTGGGAGATTCATGGGATATCAAGTT
GGAAATAAAAACAAGAGCTATCRTTTATTAAGCCTCTATTTTTCTTATACAGATTTATAGGTGTTTTATATAGAACATTCTATTTAATCTCATTAKTAGT
CTCATAAAGTGAGCATTATTATCCAGTTGGAAGGAAGAGAAACTAGAGGCTCAGCAAGGAAGCCAGGATAGGATTTTAACTCAATCTCAGACCCTTGCAT
CTTTCTGTCTCACTGTTTGGGAGCTTTTAGACTATGGAGGGCTTCAGTTACTAGCTAGGCTACTGAGTTTAGTTCTCAGTTTGGCACCTTGATACCTTTA
GGTGTGAGTGTTCCCATTTCCAGGTGAGGAACTGAGGTGCRAAGAGAAGCCCTGATCCCATAAAAGGACAGGAATGCTGAGTTCCGCCAGACCATGCATC
TCTTGCTAGTAGGTGAGGCGAGTCTCTAACTGATTGCAGCGTCTTCTATTTTCCAGGTCAAGTACTTGCTGCTGTCGATATTGGGGCTTGCCTTTCTGAG
TGAGGCGGCAGCTCGGAAAATCCCCAAAGTAGGACATACTTTTTTCCAAAAGCCTGAGAGTTGCCCGCCTGTGCCAGGAGGTAGTATGAAGCTTGACATT
GGCATCATCAATGAAAACCAGCGCGTTTCCATGTCACGTAACATYGAGAGCCGCTCCACCTCCCCCTGGAATTACACGTAAGTGCAAATGAGACTGATTT
TCACATTCTTTGGAAAAATATGTTAATTCATTCTAATCATAAAGTAGAAAATGTAGAATACATAGAAAAAATAAAAGGGAAAATCCTCTTAACAATGAAA
ATTTCACTTTACCTGGGAGCTCATATCTTTCTTGTTTTGGACTAGGTTCACCTTTGTGGTTGATGGTCCTAATATTTTGCTTCCACGTTCTCATAGACTT
TGTGCCTTTTTCTGCTTCATGTAGTTCTAGGATAGAATTCACAAATTTTCCTGTGTTGGAAGAGAGGGTTCTTTAAAGCAGATTGCATAATTATCTCCTC
ATGAGGATAAATGGGAAACAGAAAAGTCGGTTTAAGGAGATTCASTCAGATTAGACATTATCATTTAAGGAGTGGGAATGAGTGGAGGAGAAAGGCCAGT
CTGGGAAATGGGATGTTAGGTGGAGACCTTCAGGGTACAGTCTTGTAATTTGGCATTAAGATACAGGTTCTTGGAAGACCAAGCACTCCCTCATACTCTC
CAAATGTAAGTATCAAAGTAGATTCCAGGGACAATTGAAGTGCTTCTGGGGTTGTCACATAGCTTCTCATGTGAGTGTGTTATGAGAAAACCTTGGGACG
GTAGTRCCCCCTGCCTCGAACTGGGAAGATATGGAGAGATCAAAGAATGACTTGGACAAGTCCAGCTTAGCGAGTGGATGAGTTTATTAAGACTTACTAT
GGGGCGCCCTAGGGCCACAGCAGGACAGATCTAGAGATCCGCTCTGCCTCCCATCTCTAAGCTGCTCTTAAGCGAATTTTCTGGCTCTTTGCCTACTGTG
TGTGTCCAATGGGACTGTTTTCCTTGGTAGGTTCTCAGATACTCTCTGAGATGTTTGGGTTCTCRGTGGCCTGCTCCTTGGCTGTGCATGGTGGCCTTGG
CTCACTGCCCGTCCTTCAGGGTTCAGACAGTGGACACACACCCTCAAGTAACCTGGTGGGGGTCCTGTCACACTACAAGTGGAATATGTACAATGGCAAG
CTGGCAGGATAAATGTTGTGGTCTTTATGCCTCCAGGCAGAGGGGCCTATTAAAGGAGAAATGGAGAGAAGGTCTGAGATTCACAGACCTCTGGGGCTGT
GGCTTTCCTTTCCAAGCAGCAGGCTCTGTAGACCGACTAGTGATGGAAGACTGACTAGTGACGTTCAATCTCCAGGCAGAGAATAAAGAATTGTAATAAT
AATAATAATAATGCCAATGAAAGATCTAATGTTAATTGAATGCTAACATTTGTACAGTGGGGTATTTTATATGTACTTGTATCACTGAGTATTCTCAACA
GTTGCATGAGAAAATGGTATATGAAAATCCCCATCTTATAGTTGAGGAAACTGAGGCTTAGAAAGGTAAGCCACTGCCAGAGGCTGGTGTATGCTTCCAG
GCTGTGTGGCTCCAGAACCTGTGCCACAGCCCTGCAGAACTGCCTCCCTGCAGGTGAACACTCAGTGCTGTGGGGCTCTCATTCGCTGTCTTCCTCCCCC
ATGCCTCACCATTGTGCTTTGGCTTGCTCCTCCTGCAGTGTCACTTGGGACCCCAACCGGTACCCCTCGGAAGTTGTACAGGCCCAGTGTAGGAACTTGG
GCTGCATCAATGCTCAAGGAAAGGAAGACATCTCCATGAATTCCGTTCCCATCCAGCAAGRGACCCTGGTCGTCCGGAGGAAGCACCAAGGCTGCTCTGT
TTCTTTCCAGTTGGAGAAGGTGCTGGTGACTGTTGGCTGCACCTGCRTCACCCCTGTCATCCACCRTGTGCAGTAAGAGGTGCATATCCACTCAGCTGAA
GAAGCTGTAGAAATGCCACTCCTTACCCAGTGCTCTGCAACAAGTCCTGTCTGACCCCCAATTCCCTCCACTTCACAGGACTCTTAATAAGACCTGCACG
GATGGAAACAGAAAATATTCACAATGTATGTGTGTATGTACTACACTTTATATTTGATATCTAAAATGTTAGGAGAAAAATTAATATATTCAGTGCTAAT
ATAATAAAGTATTAATAATTTAAAAATACTTCAGGTGTTTGTTTGCATTCCCAGCTTGTACTCACAGACTGTGTAGCCCTACACATTTTGGAATTCTATA
TGCCTATCATTTGTTTTTCATATTTCCTCATCAGAGCACCAGTGTTAGAGTTGTTTTGTTATTAATGATGCTTGGAGGTTGGTTACATAGAGAGTTAAGG
AAAATGGTGCAAACAGAACTCAGGTTCCCTAGTGACACTTTCCTGCTTCATTATCCCAACTACATTATTTTACAAAGCAAGTACTTCTTGGCCACTGTGC
TAGCCAGTGGAGACACAAAGAAAAGTAAGAAATGCATATGGAAGGGCCATGTGTTAATAGAGGCCATCCAAAGAGCCCCTGGTCATAAGGGCCATGGTGG
CCACTTTGTTTCCTCCTCTGACTTCTGGGCCCTTTAGGGGTCACTGTTTGTCTTTTGTCCATCTCTTTAACATCTTAGGGGCACGCAAGCTTCCAGATTT
TGATCTCCATGCCACTCTGAGGAAACTCAGAGGTCTTCTGGTGCTTCTGTTGCACACCACATTTTCTCCTTTACTTCCAGCATGCCACTAACTCAGAGCA
CGTCGGCAATGCTGCTGCCTCCCAGGTACCAGAGAGAAAGTGGGCTATAAGTTCTCACTCCCACCTAGGACTTGGCTTGAGGATGGGCAGTCAGCAGGAG
CCTGGCTCCCATTTTGACCTGTTTAGTCTGTTGGTGGGTGTGGAATGGGAGTGGTTGGGGAGGCGAACTCTTTCTCTATCTCTTTGCTCCAGAATCTTGT
GCTTAGGATATAAATATTGACTTTTGTACTTAAAATGTTCAGGTTCTTAACATGTAAAATACCTTCCTCTCATAGCTATCAGCTTCACAATTTTGCTCTG
AATTTCACAAGTTCATTGTGATGCTCACATCTGTGTGAAGAAAGTTTTCTGTTCGTTTGGGCAGTAATAGCTGTACCCTAGGGGTAGTGCATGTAAAAAG
CCCTCTGTCTGAGTAGTGAGGGAAGCATAAAGGAAATTTCAGGGGGAAAAGAATTGCACCACTGAGTGTATCAAGATATTATCTCAGCCCAGTGTGGTGG
CTCATGCCTGTAATCCCAACACTTTGGGAGGCCAAGGAGGGAGGATTGCTTGAGACCAGGAGTTCAAGAGCAGTCTAATCAACACAGATCCCATCTCTCT
CTCTCTTTACACACACACACGCACACACACACAATTAGCCAGGCATGGTGGCACACACCTGTAGTCCTAGCTACTTGGGAGACTGAGATGGGAGGATCGC
TTGAACTAGAAGTTGGAGGCTGCAGTGAGCTATGATCTCATCATTGCACTCCAGCCTCGGTGACAGTAAGACTTTGCCTCAAAAAAAGAAAGACATTATT
TCACATTTCATTACACATGTACACATGTACTTTCAAGGCAGTGTGCCAAATACTGTAATCAAGGTATGAAATGTTAGGAAGATATAGGAAATTCCTGGAA
AGTTTCAGAAACAAGATGACTTTTGCACTGAGACGAATATGAATTGATTTGGAGGAAGATGTGGGAAAGGCATTCCAAGCAAATGTAACAGCATGAGCAA
AGGCAAGAGATACAAAAAAACCTGGTATGCTGGGGGACTGAAAGTAGTTCTATTTGCTCAGGATAGTGTGGACATGGGGACGCGGTGGGGAACACATAAC
AAATATTTCTTTAATGAATAAATGAATGAATTCACTTGGTAGTAGACAAAGAACAGTGGGCAAATGGGCCACTCATGGATGGTTTTGTAAGCTCCGTTAC
AGGAACAACAGGAGTATCGCTATATTTCACAAGATAACTTTGGTGATAGAGTGCAAAAGAGATCAGAAATCTGAAGGCCAGTGAGAAGATCGGAGAGAAA
GCAATTTCACTCCGACAGCACACTCACATTTTTAGAGCTGGATGAGCCCCTGTAGATCACCTGGTCAATCTTTCTCATTTGCAAATGTGGCCCACAGGAA
TTAGGCGACTTGCTCAAGGTCACTTGGTAGTTAGTAGCAGAAACAGGTTCGTTGACTCCAAGTTCATGACTTTGATAAGGGTTTTGCAGCAATGCTGTAG
TGTGTGCAATAAAGACCCATTTCAGTTATTTATGTGGCCTCAGGCTGGCCCTGGGAGAGAGTGCAGAAATAACCCCGCACCGCACATCTCCAAAGACATC
GTATGTGGTGCTCTGGAGCCTGGGGCCCTGAGTCACAAAGCTTCTCTCTGTGGCTTCTGCACTGAGGGTTGGCTGTCCTTCAGGAAACTGCACGTCTTCT
CCTGCTCACAAGGTGGCGAACTGTGTCCAGTTGTTCCCAGATTCCTCAGTATACGTTGAAAGGAAAGAAATGACTGTTTTATGGGTAATTTGTTTTATTT
GGTGACTGGAAGCCACTGCTGAGGCAGAGTGCGTAGGCTGTGTTCTTTTGCTCTGCGCTCAGCTTTCTGGGAGAGCCTTTGTTTTTCCTGTAGGAGAAGT
GGCTGAAGTTGAGCAGTTTAGGTGTTCAAATACAACGTTGCTTCATCATGTGTGGAGAGAGAAACCTTTCTTTCCACGTGGAAACTTGAAAGCATATAGT
CTTTTCTTTCAACATCCAGTTCTTTTTGATGAATGCTTGGCTAAGGGGAAAAAAACCAACATATTCTTTCTCTGTCTCTGTTTCTCTCTTCCTTTCCCGT
TCCCTACCTCCCCAAATTTGGATAAAAGTCACCTATATATATAAAGCTCTGTGTGATAAATTTTACTTGTAAGTTACAGTGAGAAAAATAGTAAGTTGAT
TTTTCTTCCCCCACTCCCTTCCCTAAAAGGAGAGGTAGAAAATATGCATTTAATATGTAGACAGCTTTTGGCTTTGAATCCTGGTTCTACCATTTTCTGC
TTGTATGAATTTAGTCAATTTTGTCCTTCTGAGATTCAGCTTCTTCATACGTTAAATGCAATATAATATCTATTTTAAAGAGCTCTGTGTAAAGCAATCG
AAATTAAAAAAAGGTAAATTACTTAATACAGTAACCAGGTAATAGTAGGCTTGGTAACTGGTAGTCATTATTTCAAGAGGCACAGGAGGACTTAGGTTTC
CCATTTTGCTTGGCCCAAAGAAACTCAGAACCCATTTTTATGTCTAGATACCACAGTTTGCTGGCAGATTAGGCATTCATAAAAGAAAAAAAAACACAGT
TATATTGTTCCTCATGGTTTTCAAATTTGCTTTCTTTATTTAATTTCTATACATATAATAATATAGTATAGTATATATAGTGCAGGTATATATTAGTATA
TAGATCCTGTGTATAAATCAATTTTCCATCTGTGAAAAGTTAAGAAAGCTGTAGATTCAATTCATTAAAAAATTCCCCCTGGACCCAGATRTCTATCGTA
TCCCACTCCGCTGGTATAAATTGGAAGAAAAATATTTTTAGCTCAATTAGTTTTAGGAGTGATACATGTTCAGCTAGATAACTGTGTGCTTTAAAAATTG
TGACCTATTTCTGGCTCCCTGCCAGTTCAGTGGGTACTGATTTTGAGAATTTTGTTCAGTAGTGAAGAAGAACATATTTCAAAACTAAGATAAAAAATGA
TCACGATTTGAGCATCAAGATGTTCTTGCTGGCAAAATGTTGATTTCTTCCCTTAAATGGTACAGATGTCATGGCAATATCAGAGAGCAAGGCATAATGA
CTTAGTGTGTGGACGCTGGAGCCAGATGCCGGGTTAAAATATCAGTTCTGGACCTTACTAGCTGTACTAGTTGCTAATGATTTGGGTCTTGTTACCTAGC
CTCTCTGTGTCTCTTTTTCCTCATATGTAAAATAGAGATGATAATAGCGCCTACTTCATAAAGTCATTGAGAGAATAGAATAATAATCTATAAGGTACTT
GGAATAGTTACTGACATGGTAGGTGTATTGTTTAGTGTATTATTAAGAAAGATAAAATCCATCTATTATTCTACCACAATAATAGATCACATTAATGTTT
TTCTTTCTCTTCTGCTCATTTGCCTCACAGATATATATTTTATAAGGCTGTAACTGTAAGATACATGCAATTTGTATTTGGTAATTTTTAACTTCACATT
ATACTCTATGTATTTCCAATGTTTCCATAAAGTATTCACAATGATTTTTAGTAGCTGTGTAATTCTTTCAAGTTGATGAACCAGAATTTATTTAGTTATT
CTTTTATTTTTGGACCTTTAGCTCCAAAAATAAAAGAATAATTATTAACTTTAAAAAGTTAAATAATGCTTGTAACTGTTTTAATTACTTTTTAAAATTA
TAAACTATGTGATACAAACAGAAGAGTTTATGTCTTTGCATATGGATAGTTGCCTTGAATATCAAAATTCTGTACGCGTGTGTGTGTTTTCATATCTATG
GCCTACCTTGGGGCAAATTAGTTAATTTCTCTGAGTCTTAGTTTCCTCAACTATAAAGCGGGGTGATAATGTCTGTCTCATAGGATTGTAAAGTGGATTA
AAAGAAATAATACATGTAAAGCATTTAGGGCAGTTCCCAGTTCCAACGAGCTGTTTTAGTCTTAGTGGTTATGCAGAGCCTGTGAATGAATGTTTCCACC
TTTAAATTCTTGTTTTGAAAGCCAAAGAAATCAATGCATTAGACAAAAATGAGTTTATGAGTTGTTCTGGGGTTGTGGCTGTGAACATATTCGGAGCCTT
CTGATTCCACTGGCTTACCTCTGTGGTTTTGTTACGTGCTATCTATAGGTGACACACCGCAGCCCTTTGTATGGCCTGAGGTGAGGACCAGACTTTGTTT
ATAGTGGTGACAACACCAGAAGCCCTGTAACCATTTCCCACAACCACATTCTCATGGCTTTGACAGAAATCAGCTCTGGGAGGCACTGCTTGGATGGGGC
GTGCAGGCTGAACGTTGGAGTGGGATCTAAGTGCGACTGTCCCCCTTGTAAGGGACACCATGCTCATGGAAAAGTGCTTAGTATTCTGAAGATACTAATC
CATCAGGCAAGAGTTCCCCAGGGTCCCAGGCATCTGCTGATCTCACATTCCTGGGCTTCTCAACCTCTAAGGGAAAAAACACTCAGACTTCCCACAGACC
ACTTGTCAAAAGCCTGTTTGTCTTCTGCGGTCACCTCAAACCCCAAGTGGGATCCATTAAGAAAGCAAGGTTTGCTTCTGCCTTTTGATATTGAGTGTGT
CTACATATGGGATGCCAAACTTCTGGCTACTGTATTTGAAAGTACAGAAAAAATAGAATTAAATATAAAAGAAAACAGATCTTTCTGTTCGGATCTGTGT
TGCTGAGCTTTGTGAGATCTATTAAGAACTATGATTTCGGTTTAAGAATTGGAATGAATTGTGGTTCTTGCCATATGGAAATGAGTTTTGCTGGGTGAAG
CAATGATATAATTACTTCTACTGTACAGTAGATGAGTACCAAGGGATTCTCCATGATTCTCATTAGTACTAGAATGCTTTGTGATAAAAGCTAACACTTG
CTCACTGGTTACAACAGAAAACACACTTCTAACTTCACATGCATGCACTTAATTAATCATCATCATAACTCTGTGAGGTAGGAAATATTAAATAGGCCCA
TTGTACATATGAGAAAATTGTGGCACAGATTGAGATAGTATCTTTCCTAAGGTTATAATAGTGATATGGTGGTAGACTTCTGCATTTCATCACCAAGCTC
CATTGCCTTTTGTGGGAGATCTGCCACAAATCACTTCCCTTTGTGAGAGGCTCTAAACCATGGCATCTTTTCTGAGGATCACTTTTTCTGTGAATGGTCA
GGGAGAGCAAGCTACAATATTTGCTTAGTCATACAATTACGACATTTTAAGCTTTGTGGAAAGCTCATTAGAAAGCTAACCAATAGATCCTTGGGTTGGC
CAGCTTCCATCAATATCTCAAATTATAATGGCCCTCATCTTGCTTGCCTATGGGAAGTCCAGTCCTTTACCAAGCCCTTGTCCCCAGGGTTTTCTGGGAA
GCTTTAAGCAACATCCTC


SNP Information

Context             (SEQ ID NO:15397):
ATTTTCCTGTGTTGGAAGAGAGGGTTCTTTAAAGCAGATTGCATAATTATCTCCTCATGAGGATAAATGGGAAACAGAAAAGTCGGTTTAAGGAGATTCA
S
TCAGATTAGACATTATCATTTAAGGAGTGGGAATGAGTGGAGGAGAAAGGCCAGTCTGGGAAATGGGATGTTAGGTGGAGACCTTCAGGGTACAGTCTTG
Celera SNP ID:            hCV2488909
SNP Position Genomic:     12145
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15398):
TATTAGTATATAGATCCTGTGTATAAATCAATTTTCCATCTGTGAAAAGTTAAGAAAGCTGTAGATTCAATTCATTAAAAAATTCCCCCTGGACCCAGAT
R
TCTATCGTATCCCACTCCGCTGGTATAAATTGGAAGAAAAATATTTTTAGCTCAATTAGTTTTAGGAGTGATACATGTTCAGCTAGATAACTGTGTGCTT
Celera SNP ID:            hCV2488918
SNP Position Genomic:     17191
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,9)   total(G,9|A,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:15399):
AGATATTTTTTAGCCATTCATTTGTCATGAAATACGTTCCGCTAGCTGGAACGTCTCACATAAGGGTAAGCACGGTCCCTTTGTAGATGCCTCGGATCTG
W
AACTCCTGGTACAACTTCTTTGCACAGTCCAAGGTTCCAGTGTACTTGGTTTCCCCTGAAGAAGGCTGAAAGTGTAACAAGGACTTGATGGGTTCTCCAG
Celera SNP ID:            hCV25942150
SNP Position Genomic:     3561
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|T,1)   total(A,77|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15400):
GAAGGGATACTTGAGCACATCTTGCGGGACTGCCATTGCCCAGTTGAAGATCCCTGCAATGCACCCAGCCACCAGGATTCAAGGCACACTGAGCTCACAG
R
CCCTCTTTCCTTCCGGAGTGAAGATATTTTTTAGCCATTCATTTGTCATGAAATACGTTCCGCTAGCTGGAACGTCTCACATAAGGGTAAGCACGGTCCC
Celera SNP ID:            hCV25940263
SNP Position Genomic:     3439
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15401):
ATTTGGTCCTTTTCCTGTCATCCCTTTCTTTAGGGTCCCCCTTTTGTTCCCCTTCGGGAAATGGAATAAAAAAAAAAACCCCTGCATTCGTCAGTAACTC
Y
GGGTCAACCACAACTTAAAGACAGTAAGCAGGTCAATCGAAACAGGGGCAATGATTGCTATAAAACTAACAGGTACTCTCATTGATAGAACACAGGCATA
Celera SNP ID:            hCV27858598
SNP Position Genomic:     5918
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,31|T,1)   total(C,67|T,1)
SNP Type:                 hmCS


Context             (SEQ ID NO:15402):
TCCAAAAGCCTGAGAGTTGCCCGCCTGTGCCAGGAGGTAGTATGAAGCTTGACATTGGCATCATCAATGAAAACCAGCGCGTTTCCATGTCACGTAACAT
Y
GAGAGCCGCTCCACCTCCCCCTGGAATTACACGTAAGTGCAAATGAGACTGATTTTCACATTCTTTGGAAAAATATGTTAATTCATTCTAATCATAAAGT
Celera SNP ID:            hCV25766100
SNP Position Genomic:     11745
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15403):
GGATTCAAGGCACACTGAGCTCACAGACCCTCTTTCCTTCCGGAGTGAAGATATTTTTTAGCCATTCATTTGTCATGAAATACGTTCCGCTAGCTGGAAC
R
TCTCACATAAGGGTAAGCACGGTCCCTTTGTAGATGCCTCGGATCTGAAACTCCTGGTACAACTTCTTTGCACAGTCCAAGGTTCCAGTGTACTTGGTTT
Celera SNP ID:            hCV25940363
SNP Position Genomic:     3513
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,20)   caucasian(A,7|G,27)   total(A,17|G,47)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,29)   caucasian(A,5|G,29)   total(A,14|G,58)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15404):
AGAAAACCTTGGGACGGTAGTGCCCCCTGCCTCGAACTGGGAAGATATGGAGAGATCAAAGAATGACTTGGACAAGTCCAGCTTAGCGAGTGGATGAGTT
T
ATTAAGACTTACTATGGGGCGCCCTAGGGCCACAGCAGGACAGATCTAGAGATCCGCTCTGCCTCCCATCTCTAAGCTGCTCTTAAGCGAATTTTCTGGC
Celera SNP ID:            hCV27017093
SNP Position Genomic:     12485
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15405):
CCTTCCCTACCTTAACTCATGGAAGGTGTGAGCCTGAACAACGCTAAGCCTAGAGAATAAAAGCAACTTATTTTCAGCTCTTTTTTTTTTTTTTTTTTTT
T
CCAAGCAGGAGTCTCGCACTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATTTCGGCTCACTGCAACCTCCACCTCCTAGGTTCAAAGGATTCTCCTGCCT
Celera SNP ID:            hCV27017094
SNP Position Genomic:     10068
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15406):
CTACTAAAAATACAGAAATTAGGTCGAGCCTGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGTGGGTGGATCACTTGAGGTCAGGGGTT
Y
GAGACCAGCCTGACTAACTTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGGTCAGTTGCCTGTAATCCCAGCTACTCGGGAGGCTG
Celera SNP ID:            hCV28000502
SNP Position Genomic:     6527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15407):
TCTTTCTCATGGCATTTATTGGGAGGATTAATTAATATCTTTGAGAATAAATGAGTCTATACTCTGTACTGGCAGATTTGTGTATGCTTAATTTTCAGTT
A
ATTTGGCCATTCTAATAAACAACGACTGATAATGATAGAGAAAGCATTCAGTAAGTGTTAACTGTTCATATTAATATTGTTATTATTGTCCTGGAAATTC
Celera SNP ID:            hCV27017095
SNP Position Genomic:     7641
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15408):
ATCTTTCTCATGGCATTTATTGGGAGGATTAATTAATATCTTTGAGAATAAATGAGTCTATACTCTGTACTGGCAGATTTGTGTATGCTTAATTTTCAGT
T
AATTTGGCCATTCTAATAAACAACGACTGATAATGATAGAGAAAGCATTCAGTAAGTGTTAACTGTTCATATTAATATTGTTATTATTGTCCTGGAAATT
Celera SNP ID:            hCV27017096
SNP Position Genomic:     7640
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15409):
CATCTTTCTCATGGCATTTATTGGGAGGATTAATTAATATCTTTGAGAATAAATGAGTCTATACTCTGTACTGGCAGATTTGTGTATGCTTAATTTTCAG
T
TAATTTGGCCATTCTAATAAACAACGACTGATAATGATAGAGAAAGCATTCAGTAAGTGTTAACTGTTCATATTAATATTGTTATTATTGTCCTGGAAAT
Celera SNP ID:            hCV27017097
SNP Position Genomic:     7639
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15410):
CGTTCCGCTAGCTGGAACGTCTCACATAAGGGTAAGCACGGTCCCTTTGTAGATGCCTCGGATCTGAAACTCCTGGTACAACTTCTTTGCACAGTCCAAG
R
TTCCAGTGTACTTGGTTTCCCCTGAAGAAGGCTGAAAGTGTAACAAGGACTTGATGGGTTCTCCAGGGGTCGCGATGCCTGTGGTGAATGTACCAGATAA
Celera SNP ID:            hCV25942191
SNP Position Genomic:     3595
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,1|G,39)   total(A,4|G,72)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15411):
GCATCTTTCTCATGGCATTTATTGGGAGGATTAATTAATATCTTTGAGAATAAATGAGTCTATACTCTGTACTGGCAGATTTGTGTATGCTTAATTTTCA
G
TTAATTTGGCCATTCTAATAAACAACGACTGATAATGATAGAGAAAGCATTCAGTAAGTGTTAACTGTTCATATTAATATTGTTATTATTGTCCTGGAAA
Celera SNP ID:            hCV27017098
SNP Position Genomic:     7638
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15412):
AAGTTGGAAATAAAAACAAGAGCTATCGTTTATTAAGCCTCTATTTTTCTTATACAGATTTATAGGTGTTTTATATAGAACATTCTATTTAATCTCATTA
K
TAGTCTCATAAAGTGAGCATTATTATCCAGTTGGAAGGAAGAGAAACTAGAGGCTCAGCAAGGAAGCCAGGATAGGATTTTAACTCAATCTCAGACCCTT
Celera SNP ID:            hCV27856616
SNP Position Genomic:     11196
SNP Source:               Applera
Population(Allele,Count): african american(G,30|T,2)   caucasian(G,38|T,2)   total(G,68|T,4)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15413):
GCTTCAGTTACTAGCTAGGCTACTGAGTTTAGTTCTCAGTTTGGCACCTTGATACCTTTAGGTGTGAGTGTTCCCATTTCCAGGTGAGGAACTGAGGTGC
R
AAGAGAAGCCCTGATCCCATAAAAGGACAGGAATGCTGAGTTCCGCCAGACCATGCATCTCTTGCTAGTAGGTGAGGCGAGTCTCTAACTGATTGCAGCG
Celera SNP ID:            hCV27854754
SNP Position Genomic:     11441
SNP Source:               Applera
Population(Allele,Count): african american(A,22)   caucasian(A,35|G,3)   total(A,57|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:15414):
AAGTAGGGTAGAAGGAAAGAAAAATTTGGTCCTTTTCCTGTCATCCCTTTCTTTAGGGTCCCCCTTTTGTTCCCCTTCGGGAAATGGAATAAAAAAAAAA
A
CCCCTGCATTCGTCAGTAACTCCGGGTCAACCACAACTTAAAGACAGTAAGCAGGTCAATCGAAACAGGGGCAATGATTGCTATAAAACTAACAGGTACT
Celera SNP ID:            hCV27017099
SNP Position Genomic:     5895
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 hmCS


Context             (SEQ ID NO:15415):
GTATTCTAGGCAGTGTATTCTAGGTAGAGGGGTGGCTCCGAAGAAGGATTTTGTGGGAGATTCATGGGATATCAAGTTGGAAATAAAAACAAGAGCTATC
R
TTTATTAAGCCTCTATTTTTCTTATACAGATTTATAGGTGTTTTATATAGAACATTCTATTTAATCTCATTAGTAGTCTCATAAAGTGAGCATTATTATC
Celera SNP ID:            hCV27854755
SNP Position Genomic:     11123
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(A,2|G,34)   total(A,4|G,64)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15416):
TGTTAAACTAAATGTGTACATTTATTTTATCATTATTCCCAGCAATCTCATATTATTATCTTACTGGTTTATATGTGCGTGTTCACTTTTTTCCATGACT
R
TTTTAAGCTCATTAAGGTAGAGACTGTAATAATACAGTCTATTGCCTGTGCTACTAGCCCCAACAAAATGTATCATGGCTCCAAGCACATATGAGGGCAT
Celera SNP ID:            hCV15933666
SNP Position Genomic:     732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:15417):
CACACAGCAAAGATGGGGGTGACACCGATGATAGGGGCAGCCATTCCCTTATATAGCCCTGTGATGTCCCTTCTAAGAGTCTTTGGGAGAGAGTCAAAGG
Y
CCCAGAGTACATGGGAGGCTGTCTAGGCAAACTCGGTGGCTGTGTCTGCAGTCGGACCTTGACAGTGTCCAGAGGGTGCCCCATGAACACCAGGCACATG
Celera SNP ID:            hCV27848811
SNP Position Genomic:     3884
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(T,38)   total(C,3|T,69)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15418):
TCCCATCCAGCAAGAGACCCTGGTCGTCCGGAGGAAGCACCAAGGCTGCTCTGTTTCTTTCCAGTTGGAGAAGGTGCTGGTGACTGTTGGCTGCACCTGC
R
TCACCCCTGTCATCCACCATGTGCAGTAAGAGGTGCATATCCACTCAGCTGAAGAAGCTGTAGAAATGCCACTCCTTACCCAGTGCTCTGCAACAAGTCC
Celera SNP ID:            hCV25765149
SNP Position Genomic:     13547
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,4|G,34)   total(A,5|G,67)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15419):
TCACTGCATCAGACCCTTTAGACAAGGATGTGATTCCTTCATCCCAGATCAGCTCCCTCAGCACATCTCCAAAACTGTTAGGATATTTCCCAGGAGGTGC
R
TCTGGAAGGGATACTTGAGCACATCTTGCGGGACTGCCATTGCCCAGTTGAAGATCCCTGCAATGCACCCAGCCACCAGGATTCAAGGCACACTGAGCTC
Celera SNP ID:            hCV25939890
SNP Position Genomic:     3334
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,4|G,34)   total(A,4|G,72)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:15420):
GTAAGTATCAAAGTAGATTCCAGGGACAATTGAAGTGCTTCTGGGGTTGTCACATAGCTTCTCATGTGAGTGTGTTATGAGAAAACCTTGGGACGGTAGT
R
CCCCCTGCCTCGAACTGGGAAGATATGGAGAGATCAAAGAATGACTTGGACAAGTCCAGCTTAGCGAGTGGATGAGTTTATTAAGACTTACTATGGGGCG
Celera SNP ID:            hCV2488910
SNP Position Genomic:     12406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15421):
AATGCACCCAGCCACCAGGATTCAAGGCACACTGAGCTCACAGACCCTCTTTCCTTCCGGAGTGAAGATATTTTTTAGCCATTCATTTGTCATGAAATAC
R
TTCCGCTAGCTGGAACGTCTCACATAAGGGTAAGCACGGTCCCTTTGTAGATGCCTCGGATCTGAAACTCCTGGTACAACTTCTTTGCACAGTCCAAGGT
Celera SNP ID:            hCV2488903
SNP Position Genomic:     3496
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,27)   caucasian(A,19|G,21)   total(A,26|G,48)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,14|G,20)   total(A,21|G,51)   
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;JBIC-allele(A,473|G,1020)   total(G,1020|A,473)   (G,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:15422):
GGTGGCATATAAGAGTTCAAGTCATGCTCTGGATTTCTCTGAGAGGTGCTGTTTAAATCATTCTTAAGAACCAGCAACAGCCTGGTTCAGAGCCCCTGCT
Y
TGTATTACATAACCACTAAAATCTACAGTTTCAGATCAAAAGCTTTGTGGAGCAAATTGGAGTATTTGCAGACATCATCTGATTTCCTGATAACGAGCTA
Celera SNP ID:            hCV2234165
SNP Position Genomic:     8444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15423):
CTCTTAAGCGAATTTTCTGGCTCTTTGCCTACTGTGTGTGTCCAATGGGACTGTTTTCCTTGGTAGGTTCTCAGATACTCTCTGAGATGTTTGGGTTCTC
R
GTGGCCTGCTCCTTGGCTGTGCATGGTGGCCTTGGCTCACTGCCCGTCCTTCAGGGTTCAGACAGTGGACACACACCCTCAAGTAACCTGGTGGGGGTCC
Celera SNP ID:            hCV2488912
SNP Position Genomic:     12665
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,8|G,9)      total(G,9|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15424):
CTGGTCGTCCGGAGGAAGCACCAAGGCTGCTCTGTTTCTTTCCAGTTGGAGAAGGTGCTGGTGACTGTTGGCTGCACCTGCGTCACCCCTGTCATCCACC
R
TGTGCAGTAAGAGGTGCATATCCACTCAGCTGAAGAAGCTGTAGAAATGCCACTCCTTACCCAGTGCTCTGCAACAAGTCCTGTCTGACCCCCAATTCCC
Celera SNP ID:            hCV2234166
SNP Position Genomic:     13566
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,36|G,2)   total(A,69|G,5)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15425):
TACCCCTCGGAAGTTGTACAGGCCCAGTGTAGGAACTTGGGCTGCATCAATGCTCAAGGAAAGGAAGACATCTCCATGAATTCCGTTCCCATCCAGCAAG
R
GACCCTGGTCGTCCGGAGGAAGCACCAAGGCTGCTCTGTTTCTTTCCAGTTGGAGAAGGTGCTGGTGACTGTTGGCTGCACCTGCGTCACCCCTGTCATC
Celera SNP ID:            hCV2488913
SNP Position Genomic:     13461
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,34|G,2)   total(A,68|G,4)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15426):
TTTTTGGAATTACTTCTTAAAAAACAGAGATGACTTTAATTTTGACTCCTGTCTGGTGGAGAAAAAGAAAAAAATAACTAGAAAAGTTATAATGGCATAA
M
AATGCAGCTCCTGGCCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTAGGAGGCCAAGGCGGGCGGGTCACATGAGTTCAGGAGTTCGAGACCAG
Celera SNP ID:            hCV2488907
SNP Position Genomic:     6299
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15427):
ATCTAGCCCCAGCAGGTCTGGAATCTTGCCTGACATTAGTCAGATAAGGCCTGAGAAGAATTTACTATAGAGGTACATGAAAACAGGGGTTAGGAAATCC
Y
GCATCATATTATTGGCTTAGATAATTTCCTTTTTTTCTCCTTTTACAAGCCATACAACTTAAAAGAGCTTGAATATCATAAAAGGTTCATGGCATATAGC
Celera SNP ID:            hCV2488908
SNP Position Genomic:     7242
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Gene Number:                 29
Celera Gene:                 hCG1653633 - 146000220319415
Gene Symbol:                 IFRG28
Protein Name:                28kD interferon responsive protein
Celera Genomic Axis:         GA_x5YUV32VYQG(8232125..8247813)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12189):
CAGTTTAAAGTGTTCTTACCCTACCAGTACTAGTTCCGGCTGTGAACTTCCATTCCTGGGCTTTGGCTCTGATAAGCTGTGACTCCCTGTATCTGCCCAT
CTATTGCTCTAGTTTTCAGGGTAGCAGTTTGCCCTGTGACTTCAATTCTCTGATGTACTTAAGAGTAACAAACCTGCACGTTGTGCACATGTACCCTAGA
ACTTAAAGTATAATAAAATAAAATATATATATAAAAAAAAGAAGAGTTGTTGATTTTCAGTTCGTTCAGCTTTTCTCTTGCTATGAGGATGGGGGTGATG
ACTTCCAAGCTTCTTACAAGTCAGACTGGAAACGGACTTTTTTACACATGGAAGAAGAAGAAGAAAAAGAAAATAAGTTGCACTCTGTATTGGTTGAAAT
TCTTTTAAAAGCAGAGCCTGAGGCAAGAACTTGCTGCAAGTAGTTAATATGAAAAGTGATCCCTGAGGGCAGGAGTGAGAGATTGGTAAAGTGAATCAGG
AACAGGAGAAAAGTTCATTTACAGAGTATAGCTTTGGCCTGCTTGTTTCCTGACATTGGCCTGATATGGGGGTGATTAAACACTCTGCATATGTAGGGTA
CCTATGTTCACCACAGCCTTGGAACAGAGCAGAAAAAGTCCTGCCTCTGATTTTAAGACCATTTGTGCTGAAATAGAGGAGGTGGCTGTCAAGAATAGGA
GTCGGGGTCTCTATTTGCAGTGGTCTCAACTGGTCACCTCTCCAGGGCTTAGCTTTCATTAAGCTCACAGACATTCTTTCTACTAAAAAATATCCAAATG
ATTGTCTGTTGAGGCAAATTCCACATCTGAACAATGGGCCTCAAGAGGCCTGAGGCCCAGCAGATTTTCACAGAAGCTGTGAAACAAACGGCCCCTTTGG
AAACTTGTAAGTTTTTATTTTAGTTCTTTTGATTTTATACATTTCTTCTTGCTATTTCTCAGAGGTTACCTTTAATCTAATCTTTGCCCTCCTGAATGGT
GTTCTTAGCAGGCTTAGCCCCTAGGCCTGAGTAGCAGTTGGCTCTGGGTGTCACACTTCATTTTACTTCTTGTTTCACCTTTTACAGAGCAGTTGGCCAC
CAAGACAGAGGTTGGACAAGTGTCCTGGGGTAAGAGCTGGCCTTGCCAGCCAAGTGCCATAGACGTTCATCTCTTTCAGTCAGATACCCACCAATTCTTA
TCACTCTTGTCTAGCCTCCTTTCTTCCCAAGCCTAAAATGTCCCCAAGAAGAACATATTTCTATGTGTTAAGTTTTGTGCTAGCCCTATTTGTGATGGGT
CATATGATATTCCAAAAATGGGTACATGCCTAAGGTTCCAAAAACTGAACTTAAGCCTTGATTAACCCAAATCTATCTTGACTTCAGTTTTTGTAATTTG
TTGGACTATTGCAGAAATGGCAAAAATGTTTCATATACCAATCAGTTTCTAGTGGCTGCCTAGAAAGCTGTGATGAGGGAAATTCTTAAGTAACACCCAG
ACCCCGAGGGAAAGGTGAGAAGGTTGATTGGCAATGTCTGTCTTACACAAGAAAAGGGGAGAGACATTGTTTGCCATCCCAGGATTATAAGACCTTGTAG
ATTCATTTCAGCTCTGAACGGTTAAGAATCTAAATTTTGCTATGCCCCGCTTCTTCAGAATTCATCAGTTTTTTTTTTTTTCCAGCTGTCTCTTAGCAGT
TGTTTAACCAATCTGGGATAAACCTTCAACAGTTGAAAGCTCGAAGGTTGCAACTATCACACCGCATTCCTTGGGTAAGTCATTTTCTTCACTGGGTCTC
AGTGAAATTGGAGGGGCTGTCACAAGATATCTAAGGTCTCTTTCAATGACCAAGTCCCGCAATTCTATTATTCTGGAGTTACAATGCCTTGGTGAAAACA
AACAAACAAACAAACAAACCACCCACCAAGTGGCTTAAGTACACTGTAGGGTTGCAGAAGGGGCTGTATTTTCTTCTTTTCCTTCTCTTTCTTTTTCCGT
TCCTTCTTGGTAATGAGGAAGGTAGGTAGTGGGCTTCATCCAGCCCTCAAATCTCAAAGTGATACTGTAAAATATATATTTGATCATTGACTCCATTTCC
TGGCATACAACTCTTAAAATCCTTAGAATCTCTGAAGAGATCTTTTTGTATGCTAATGAAATGACAGGTGGCCGGCAGCTCCTAGGTCGCTTCAGGATGA
GAGCTGGTCGCCAGAAAGTTCCAGGCAGAATTAGAGTGTTGGGACTTTCAGTCTCATCCCCTAATCTCTAAGGCTGAAGACTAAGTTCATCACCAGTGGT
CATAGTTTAATCAATCATGCCTGCGTAATGAAGTCTCCATAAAAGCTCCAAATGGACAGGGTTCAGACAGCTTCAGGATAGCCCAACACAAGGAGGCTCC
TGGAGGATAGTGTGCCCAGGGTGGGCTTCCATGCCCCTTCCCATACCTTTCCGTATGCATCTCTTCATCTGTATCGCCTTTAATACCTTTATAATAAACT
GGCACACATAAGTAAGTGTTCTTCTGAGTTCCATGAGCCACTCCAGCAAATTAATCGAACTTAAGGAGGGAATCCTAATGTATAACCAGTTGGTCAGAAG
CACAGGTAAAATAACATGGGGCTTTCAACTGGCCCCAAGCCCCAGCCTGAAGTTGTAGGGGAACAGTCTTGTGGACTGGGCCCTCCACCCTTGGGATCTC
ATGCTGGGTTGGGGTAGATAGTATTAGAACTGAATTGAATAAGAGGTCATCTAGTTGGTGTCCTCTGCAGAATTAAGTGACTGCTTGCTTGGTGAGGAAA
CTCCCCACATATTAGGTTAGAAGTCTTTTGTGTTGATTGCTACTGAGTGACAGAATAGAAAAAGCACTTTGAGTGTGTTTCTTCAACACATGTTACCCTT
AATCTTCCTGCTGAACCCCCATGCAAAGGACCAGGCTGACCTGAACAATTGGGTATATCAAAGGGCACACATGAAGAAGAGGCAGAAGGAAATCATGAAG
GCATGCAATGCGCCGGATCAAGCTACCTTTTGGGAAAAACAGAGCATTTGAGGTGTCAGGGGTAAGGGGACTCTCTGAAGGTACACTCTGAAGATACAGA
ATAAGTAGAGTGGACTTGGGATCCTAAACCCAGCGGAAAGTGAAGAGAAAGGGTAGAGAAATGATTTATGCATGGGTGGAGCAAGAGAGCAGAACTTGAA
GCCAGGCCCTGTATTGGCACTAATTTGCTGTGTGACCTTAGGCAAGAGACCTTATTCCTCTGGGTCTCAGTTTTCTTTTCTCTTTTTTTTTTTTTTTTTT
TTGAGACGGAGTTATGCTCTTGTCACTCAGGCTGGAGCGCAATGGCATGACCTCGGCTAACTGCAACCTCTGCCTCCTGGGTTCAGGCAATTCCCCTGCC
CTGGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCATCATGCCTGGCTGACTTTGTAATTTTTAAAGTAGAGATGGGGTTTCATCATGTTGGTCAGGT
GGTCTCAAACTCCTGACCTCAAGTGATCTACCCTCCTTGGCCTCCCGAAGTGCTGAGATCACAGGCGTGAGCCACGGTGCCCAGCCTCAGTTTTCTCGTG
TATAAAAATTAAAGGGAAAAGGGATAAGTTGATTTCTAAGGGTTTTCCCAACTCTAACATCCTGTGGATCCAATTACAAGTTCTTAGAGCTTCCTATATC
ATGTGTATAGACACAGGTATCCAGGAAGGGAAGGAAAGAGAGAGGGTGTCTCTGAGTCGCTGACAGGGCACATGGAAGCCTAGAAAACCCAGGAAGACTG
AGGCTGATCCTGTCTCAGACACAGAAGCTGTAGCGGGTGTTCTAAAGACCTAAGTAAGCATCCTGCTTGTCCTATCTCCCCTATTTGAATTTAAGCCCCA
GGAGGACAAAGCTTACTCTCTGGAATCTCCGCGTTTTAGACTTACAAGTGTCTTTAAAGGTCATCTCATCTCAATCCCTTACCCCAAAATGGGAATTCTC
TGTATCCTACCACTGAAAGACGGCCCCCACACCTGTGCGTATTTGCCCTTCCACATAATTTACAGAGTGGAGGGCAGAGTTTGATAATCCCTTCATGCAG
CTGACCTCCTGCCTCAGGACCCAGGAAATCTCCCTACGGTTCCTCTGACACTGGCTCCAGTGTGCCAGCCTGGAACCTGAAATGCCATTCTCAGCTTCTC
TTCAGGGAGTGAGGTGGGCGGACACATGGCAGGTTTTGGAGTCACACAGACCCGGGTTCAAGTCTCACTTCCACTGCTCGTTAACTGAGGGGATTTGGAC
AAAGTACCCCAGCTTTCTGTGCAGTTAACCTGCAAAACYCCAAGAATAATCCTTCGCGGGACTGGTGAGGATACATGGGGTGTAGGAGATGAGCATTAAA
CACGTGCTCCCCTACGCTGCTCCTAACCTCCCTGTCTCCACCTGGGTGTGAGCATCTGTGGGGGCAGGAATTGTTTCTTAGCTACAGGATACTCTTTTCC
CAGTGCCAAAAACAGTGCTTTTGTGTCCGGAATTGGTGGGTTCTTGGTCTCACTGACTTCAAAAATGAAGCCACCGACCCTCATGGTGAGTGTTACAGCT
CATAAAGGCACAGTGCCCAGAGTTTGTTCCTTCTGATGTTCGGATGTGTTCTGAGTTTCTTCCTTCTGGTGGGTTTATTGTCTTGCTGGCTCAAGAGTGA
AGCTGCAGACCTTCCSGGTGAGTGTTAACAGCTGATAAAGGCAGAGCAGACCCAAACACTGCGCAGCAGCAAGATTCATTGCAAAAACCAAAAGAACAAA
TCTTCCACCATGTGGAAGGGGACCCGAGCCGGTTGTCAGTGCTGGCTGGGGCAGCCTGCTTTTATTCTCTTATCTGGCCCCACCCACATCCTGCAGATTG
GTCCATTTTACAGAGAGCCAATTGGTCTGTTTTACAGAGAGCTGATTGGTCCGTTTTGACAGGGTGCTGATTGGTGCATCCACAAACCCTGAGCTAGACA
CAGGGTGCTGATTGGTGCATTTACAAACCTTGAGCTAGATACAGAGTGCCCATTGGTGTATTCACAATCCCTTAGCTAGACATAAAGGTTCTCCAAGTCC
CCACTAGACTCAGGAGCCCAGCTGGCTTCACCCAGTGGATCCCRCCCCGGGGGCAGCAGGTGGAGCTGCCTGCCAGTCCTGCGTGTGTGCCCGCACTTCT
CTGCCCTTGGGCGGTCGATGGGACCAGGCACCATGGAGCAGGGGGTGGCACTCGTCGGGGAGGCTTGGGCCATGCAGGAGCCCAGGGTGGGGAGACTCAG
GCATGGCGGGCTGCAGGTCCCGAGCCCTGCCCCACAGAGAGGCAGCTAAGGCCCAGCGAGAAATCGAGCTCAGTGCCGGTGGGCCGGCACTGCTGGGGTA
CCTGGCGCACCCTCCGCAGCTGCTGGCCCAGGTGCTAAGCACTTCACTGCCCAGGGCTGGGGGCCTGCCGGCCGCTCCGAGTGCAGGGCCCGCCAAGCCC
ACGCCCACCCAGAACTCTAGCTGGCCTGCAAGCCCTGCATGCAGCCCCGGTTCCTGCCCGTGCCTCTCCCTCCACATCTCCCAGCAGGCTGAGGGAGCCG
GTTCTGGCTTTGGCCTACCCAGGAAGGGGCTCCCACAGTGCAGTGGCTGGCTGAAGGGCTCCTCCAGCGCGGCCAGAGTGGGCACCGAGGCCGAGGAGGC
TCCGAGAGCGAGCGAGGGCTGCGAGGGCTACCAGCATGCTGTCACCTCTCACTTTGCCTATTATAAAAAATGAGAGAGAGAAAATAAAAGCGAATTTATA
TGTGACCCCAGAATCTAGAACAGAGCTCTTTATCTCTCTCTCAGCAAGGCCTATTAACTAACACAGTTTTGCTGCTGTCTGTTTTCAGAACAAAGACTTG
TTCTGTGTACTCAGTCTAAAATGAAGGTTGAAAAAAACAGCTCATGTCCATACACAGAAACAGAAACTGAACCGAACACCGAAACTGAAACTGTTTGTCT
CTTCCTGAGAAACGAGCAAACCTGAAAGCTACTCTCTCAGCTTCAGAGGGAAAAAATGGTTGTAGATTTCTGGACTTGGGAGCAGACATTTCAAGAACTA
ATCCAAGAGGCAAAACCCCGGGCCACATGGACGCTGAAGTTGGATGGCAACCTTCAGCTAGACTGCCTGGCTCAAGGGTGGAAGCAATACCAACAGAGAG
CATTTGGCTGGTGAGTGTGGGTTTCYCAGGCAATAGCTCTTCTGAGAAGAGAGGCTCAGGCTCAGCTTAGCATGATTTATTCCTCTGAGAGCTTGTTGAA
GGAGTAAATGTCACCAGGGCCTCCATCCTATTGTGGTCATAGTACTCTTTAGGGTCGACATGATAAGACGACTCCAAACCTCCATTTTGTTTAACTGCTG
GAAGTTTCTTCTTTTACTAGGTTTCCCTCCGTAAATATTTCTGGAAAACCCTGGAGAAGGCTCCCTATTCCATAAATTTTCCCTTCTAGTTTCTCACCAC
GTCATTTGTTCCAGACTACCTCTAGAGTCTTTTGCAGTCTCCCCAGCAGTCCTGACCAGCTTCCCCCAGCTGCACCAGCTCTCCAAGCCTTGGCACTGTT
CAGTACAAGCCTGGGACGGAGCCTTTTTTTTTTTTTTTAAATATCTTAAGAATTGGCTAAGATCAAGCAGTTACTCTGAACATTGCTTTACTGAAGGCCT
GGGGATAATAGTATAGAATGATGTTGCAAAAACTAAATCTAAAACCCAGTTCATGGAGTAACCAAGTAATACTCCTCCCTTACTCACCACTTCCCTCTTT
AACCCCCAGCAAGCCTCCAGGTTGCAGGAACCAGTTTCCTTGACCATGTTAGGAGGGTGAGAATTGCTGACCTGGATAATCAAATTTATTTTTAAATGAC
ACACAGGACCTTCGGTATAGTTTTCATCTGACCTATTACTCAGCTTGCCTGCCTGCCCCATCCTGCCTCAGGTATGGCCTACTCCATTCCTTATGGACTA
TTAGCTATGCCATGCATCTTCAGACTTCCACACTCTTGTTCATGGAGTTCTGCTTGTTCAGCAGACCCTCCCCTCACCCCTCCCTGCTCATCCTTCAAGG
CCCACTCTAGTGCCTCCTCCTCCTAAAAGCATTCTCTGGTTCTCCTAGGCAGAGTAAGTATTCCTTCGTATACATTCCCATAAGATAATGGGATAAGATA
AAATAYATATGTATATGTATACATAAATGATATATAATTATATATACATYTGTACTATGTATTTCAGAATAATAAATTTATAAATAATATATGTATTATT
ATATATTGTATCAAATACAGTATATGCTTATTTTTAGCTGCAGAATCTGTTGTTTAAATAAAGCCTCCTAAACGTCTCCAGAACAGTTCTCAAGTCACTT
GTCAGAGCCCGTATAGCAGTCATGTTGCTCTGCTTTCTAATCCAGGGAAATGTGTAAATATTTCTGTCCACACCAGCCAGAGCTTTTTGAGGGACTCATG
ATGTCTTACAACGTTTTGGCACTCCTCCAAACAGAAAGAAGGTGTKTCTCCTGTTGGGATGATTTGATTTGATTGTCATTTCGAGATCGGAAAAGCAACC
TACCAGTGTACTTTTGGAAAATATCAATCAGCTTTTGAAAAGCATTTTGTAGTTTACAAAGTGTTTTCACATACATCGTCTCTTTTGATGCTGCCAATAT
AACCCTTGAATTTTTTTTTTATGGATTCAAACAATGAGGGTTATAGAAGGGAAGGGCTTTGCCCAAGGTCTTCCTGATGTAAACTGGATCTTCAACCCAG
GTATGAGGGATGCAGTCTGTTTCTCCAGGTGTGAGAGATTAGCTACACTACTCACCAGAGGCAACGTGTTACAGCAGGTAAATGAGWTGAATTTCAGATG
GCCTGAGATTAGCAGCATGCCTCTAACATTTACCCTGTGTGTCCTTAAGCAGGTTGCGTATCCTTTTCATGATTCAGTTTCCTTATCTGGATATTGGGTT
TAATAGTGCTTACTTCACAGATGAAATGGGATAAAATTATAAAGACCAATTATATTGTATGCATCAAAATAGATACTTTACCAAAGCTTTCTATGACCAA
AATTAGGAATAAGTTTCTCTGGAAGATGGCAGACATGATTTTCCCTCAGAGGCATCTGGAGATGTTTTACTAGCAAAGAGGTAGACTTGGGTGTAACATA
TGGGTGGATACTCAGTAGGTCACAGGAAAAAGCCTTATCTGAAACATAGTCCTTCTTGTTCCTGTTTATCAATGACTGGGACAATCTAAATCACATGCAT
TTTTTCAAATGGAAAAGGATGTTAGTGACAGGGGCCAAGACCATTTTCCCTCAGGTTAACAACCAGATGAAGGCATAATGGGTGTCTTCCTTCTGACTGC
AGGTTCCGGTGTTCCTCCTGCCAGCGAAGTTGGGCTTCCGCCCAAGTGCAGATTCTGTGCCACACGTACTGGGAGCACTGGACATCCCAGGGTCAGGTGC
GTATGAGGCTCTTTGGCCAAAGGTGCCAGAAGTGCTCCTGGTCCCAATATGAGATGCCTGAGTTCTCCTCGGATAGCACCATGAGGATTCTGAGCAACCT
GGTGCAGCATATACTGAAGAAATACTATGGAAATGGCAYGAGGAAGTCTCCAGAAATGCCAGTAATCCTGGAAGTGTCCCTGGAAGGATCCCATGACACA
GCCAATTGTGAGGCATGCACTTTGGGCATMTGTGGACAGGGCTTAAAAARCTRCATGACAAAGCCGTCCAAATCCCTACTCCCCCACCTAAAGACTGGGA
ATTCCTCACCTGGAATTGGTGCTGTGTACCTCGCAAACCAAGCCAAGAACCAGTCAGMTGAGGCAAAAGAGGCTAAGGGGAGTGGGTATGAGAAATTAGG
GCCCAGTCGAGACCCAGATCCACTGAACATCTGTGTCTTTATTTTGCTGCTTGTATTTATTGTAGTCAAATGCTTTACATCAGAATGATGAAAATAGGCT
TGCCACTKTCTCTTATTTTAATTCCATGGTAGTCAATGAACTGGCTGCCACTTTAATATAACTGAAAATTCATTTTGAGACCAAGCAGGATCAAGTTTGT
AGAATAAACACTGGTTTCCTAGCYATCCTCTGAAAACAGTATGAAACMTGACCAAGTACATAATGGATTTAGTAATAAATATTGYCGAATTGCTAAAAAG
TCTTCAATCATTCATTCACTAAGTCACTCAGTGATATCAATATACTTAGCTCAGAAAGTGTGGGAGGCTGAATAATGGTGTCTCCCAACATATGCATGAC
TTAATCCCCAGAACCTGTAAACATGTTACTTTACATGGTAGAATGGACTTTGCGGATGTAATTAAGGACCTTGAAATGGTTAGATTATTTCATAYTGTCC
GGGTGGATAAGAACCAGGATTTTGTAACAGGGAGGCAACAAGCTCAAAATCAGAAAAAAGAGATTTGTCAATGGAACAAGAGGTTGAAGTGCTTTGAAGT
TGGAGGAAGAGGTCACAGGCAAAAAAGTACAGGCAGCCTTTAGAAACCCAAAAGGACAAAGGAACAGATTCTCCCCTGGAGTCTGCAGAAGGAACCAGCC
CTGCCTGCACATGGCTTTAGCCCAGTGACACTGATTTTGGACATCTGACCTTCAGAACTGCTTGCTCATAAACTTGTCTTGTTTTAATGCACTAAGTTTG
TGGTAATTTATTAGAGAAGCAATAAGAAATGAATATAGTTATCAATACTACAGTATGAATCAGGGAATTATGTTTTAGGTATGCTTCAGGTTTGATAGAA
AAAAGAGCACTTTATACATTAGAAATACCAGTCAGCCCCATCTCCTCTTGTTCTTCTTTCTCCCCTACTTAAACCCACTCAAATATCTCCATCTCAAAGA
GATTCCCTTTGATTTGATGATCCTTGGAGCTATCATATTCTCACTTCTTTCAGCATTGGATTGGGAATCACAGAAGAACTTGCCAATCCTGAGATCCTCT
GATGCATCCTTCACCTCCTATTTTCATCTGTCTGCTAGGCATTTCTGTGTGGCTGTCATGTTTAAAGCCAAGCTCAACGCCTCTGACTCTCCTGTTTTAA
ATCCCCCAAGTCGCCCAAACTTTTCACCTCAGAGTCATCTTCAACCTCTCCTGATCAGCAACACTTATTCCCTTCTTTTGTCAAGTTACTCCCATCTCTT
CCTTCTACTTTTCCTTGTCATCCTCTCTCCTCACCTAGTTCAAAATTATTGAAAAACGAGGGGATTTGGACTTTATCCCATAGGCAATGTGGAGTCATTG
CAAGCATTTGAGGATATGGGCAAGTTGAGTAGAACCACATTTTTAAAATACCATCTATTTTTTGGGAAAGAATGGAGTACAGAATAGAAATAGTGAGAAG
TCTGTCTTGCAATAGAATAGTGGGAAACACAGAAAGAGGGTCCTGTACACAATAAATATCTTGAAAGAATTTGAAGACAAATATAAGCGACCAAAAGACC
TAAGGATGAAAATATCTCCCTTCTTTCTGCCCATCTCTTCATTTTATTTCAGGATCCCCCTACCAGTGCTCTCTCTGTATACATACCCCCTCCCCAAACC
AAACCACACTATTGAATTCCTGAATTCCTCCTGTTTTCTTCACAAAGAACATTGGCCTGGGGATCTACATGAAAATATTATTTATAGCCTAGCAATGCTG
TATGACCTCAGCAAGTCATAATCCCTTCCGGGGCCTTAGTTTCTCCATCTATAAAATAGGTGGGGGTAAAACATGGAGAGTTGATCACATATATTTACCT
CTGATCTCTCTTGAAACCACACTGAGTGACAGCAAAAGGAAATAAAGGCATCAATAGAGAAGGGCAAGGAGAATGGTTAGAAGATAGAACACTGATGGAC
TAGTGGCAGGTAACTGACTTAGCAGAGTAGGGTGAGCCAGAATATAAGTTTAGTGTGGAAAAACCAAGATGTGATTCATGTTGCACAATTCCAGAAAGGC
TCCAGACTGTAGGATGAAGTAGCTCTGAAAGTGGGCACTGGGAAGGCAAAAGTGGGAGTGTTGGCTGAAAGACTATACCAAATTTCTTTCCCCTCTCCGA
GGCAGCCTCGTAACCACACTTTACCCAACTGAGGGAGAAGAATGGAGGCTGCTTCTCTGAAGACATTTCTCATAGGGACTATGGCTCAGGGAAATCCTTA
AGAGAGGAGGAGCCACAAGCAATCAAAAAGACCATGGTTGTTCACATACTGACTAATGAGACCCTCTTACCCCACTATCAGCCCTTGGAGCTGTTTTATA
ACCTACCTGCCCATCCCTCATAGACACATAACAGTGGAGGACTCCTTTTCTAGAAAAATGGATCTGCTCAAGATAAAAGAAAATATGTACATTGAAAGGG
GGTGGGGGCCCCAATTCCGATAACCTCAGAGTGAACCCATCGGATGGAATCTCCTCCGCCAGAGCTTGCAGGTGGCTTTTTAAGGTCTCATATTTGCACC
TTAAATGTGACTGGACAGACTGCCAAGGGATTCTCAAATGTTTGATAAAGTCCCCTAATATAAAGGCAAAGAAGAAAAAAGGTTAAAACAAAAAAGACTC
TGAAGAAATAGAGATGATTACAGGATAAGAAAGCCAAAAAAACATTTAAAAAGTAAAACTATTATACCTCAGTGAGGTAAGAGAGGGTATAATATTCATT
AGACAAGAATTAGACATCATCCTTTGGGATAACCCTAGATGAGACAGCTACCTTTGGCTGGAATCAGATCTGTGGTAGAGTCTCAGCTACAAGCATCCAA
TAGGCAATGTTCCCAAAAGCTTGGACAATGAGCACCTTAGTCCTCAAGGAAGTGATGTGAGTGGTGCACCACAGCCTCCACTACAATCCACATCTTGCAA
AACTCAAATCTACTTGCTTTGTATAAAAAGTCTACATCTGGAGAAAGGTCTTCTGGGATTCTTTTCTGGCAGAAACATACAAGAGGAAGGTTAGTGGATA
AATTTAGCCCCTACCACTGCATCTGGTCTTGGGACAGCAGATGTACACCCATAATCTCTTTTTTCTACCTCCAGTTCTTGATTTTCCTTATCCTAACACC
TCTGCTGGTTTAAGTGGCTTACCTATAAGGCTATCCAAATGCTTATCGTGAGGACTGTGAGCCCTGGGTCACCACGTCCTTCTCAGTCTGTGGCTTCTTC
CCTTGTCCATCTATTAAATATTATCAAACTTAGGGAAATACCAAGAGATGCGCCAGTGAATCAGTTGGGTGCAAACATATTCTTCCCACACCCATTGTTT
AATAGTAGTCCTATTTCCCTCTGATGATCAGGAAGATAACTCTTTTTTGTTTAAACTTTTATTTTAGGTTCAGGGGTCTATGTGCAAGTTTGTCATATAG
GTAAATTTGTGTCATGGGGGTTTGTTATACAGATTATTTCCTCACCCAGGTATTAAGCCCAGTATCCATTACTTATTTTTCCTGATCCTCTTCCTCCTCC
CACCCTCTGCCCTCTGGGAGGCCCCACTGTGAGTTGTTCCCTTCTATGTGTCCATGTGTTCTCATCATTTAACTACCACTTACAAGTGAGAACATGTGGT
ATTTGGTTTTCTGTTCATGCATTAGTTTGCTAAGGATAACGGCCTCAAGATTCATCCATGTCCTTGCAAAGGACATAATCTCATTCTTTTTTATGGCTGC
ATAGAATTCCATGGTGTATATGTACCACATTTTCTTTATCCATTGTATCATCGATGGGCATTTAGGTTGATTCCATATCTTTGCAATTGTGAATAGAGCT
GTGATGAACATATAGCGTGTATGTGTCTTTATAATAGAATGATTTATATTCCTTTGGGTATATACCCTGTAATGGGATCACTGGGCCAAATAGTATTTCT
GTCTTTATGTCTTTGAGGAATCACTACACTGTCATCTACAATGGCTGGACTAATTTATACTGGCATCAACAGTGTAAAGCATTCCTTTTTTCTCTACGAC
CTTGCCAGCATCTGTTATTTTTTGACTTTTTAAATAGCCATTCTGACTGGTGTGAGATGGTATATCATTGTGGTATTGATTTGCAATACCACATTATGGT
ATTGATTTGCATTCAGGAGCATAACTCTCTTTCTTGTCTGCTGCACTCTTGGCAAAGGATCTCTGGAATGATCAGCCATAGCAAGACATAGGGACTTCCG
CTGTGTTTCTTGGTGGAACCATTCGCCATCTAGGATCTCTAGACCTGCAGAGCCTTGAGTTGTGGCAATGGGAAGCACAGAAAATGGCAAGTGATTTAAT
GTGAAGCATTGTCAACAGAGTTACTCCTAAACCACCTGTTGATTTCCAGACCCATGTATTCTACTTATTGTGAGCACAGCATCATGTGATGGTAATTGAT
TCAGGTTGTATACTGCGTTCTGGTGGATGGTGATTCATCTTTACGAGATAGCATCTCTAAATTGCACCACAGCTGCATCTTAAAGATCATTGATCTGCCA
TTAATCTATCAGGCTGGCRGCTTCTGGGAAATGCAGTATTTGGTAAAACCAGGAAATTCCATGGTCATATTGCCACTTCTGTAACTCTTTTGCTACAAAT
TTTGCCCCTTGGTCTAATGTGACATTATGTGCTATGTTAGTTTGCTAGGGCTGTAAGAGAGAATCAGTTTCCTGCCTATCACTTAGCTTCTAGTGGTTTG
CTGGCAATCTTTAGAGTTCTTTGGCTTGTAGAAGCGTCACCCTAATTCTTGCTTTTTATCTTCACCCGGTAGTCTCCCTGTGTTTATATCTGTGTTCAAA
TTTCCCTTTTTTATAAGGACACCAGTAATAGCAGTAATATTGGATCGGGGGCCACCGGACTCCAGTATGACCTCATTTTAACTAATTACATCTTCAATGA
CCATAATTTCAAATAAGGTCACATTCTGAGGTACTAAGGTTTAGCTCTTCAACATACTTTTGTTTGGGGGGAGGGGGCAGAATTTAGTCCATTACATGAA
GCATCCTGGGCTTGCGGATCAAATACTCCACAAGTCTTTGGAGATTTGTGCTGGCCAAAGCTCTACACGCAAGAAACACAAGCCATATGTGGAGTATGTG
CTGAGCGCAGTCAAGATAAATCACTACCCTCTCCATGATGGAAGGGATATAATTTGCCACCAAATAGCTGGTTTGATTCCTCAAGGGATGGTGCTACATT
GAGGGCTCATGTATTGTTGGCAGATTGGACATTCAGCAGTGGGATTATTCATATCAAACTTAGTGAGTGGAAACTCATACTGTTGGGCCCATGCATACCT
TCCATTCTTACCTCCATGGCCACTCCTTTCATGCACACATAGTGCCAGTACTGGAGTGGCAGATGGCACAGTCTGCTATCAGCAACCGGCATAGACATTC
TGTCTACTTAATTGTCTAGTGCCTCTTCCATGATGGGTGCTTTCTGGTGGGAATCAAAATAAAATACAGAGATCTTTACATTTTGTGCTCACTTTTAAAG
ACCTGTGTACATTCCTTTTCCCCAAACTTTATTATCTCTAATCTTCCCAGGTTTCTCCTTCCAGGCCTCTGATCAACCAGCTGGGCCATTTGTCACTGCA
CATGAGTCTATACTTATGCTTACTGGTCCATTTAGCTTTTCAAATCAAGTGGATGAACAGGTGCACCAATCAAAGCTCTGCCCATTGGGAGGATTTCTTC
TCTCTACTACCTTTCAAGGCCACCCCTGATGGAGGGTGTAATGCAGCCACAGCCTGTTTTCAGCTTTTACCACATATTGAACTAAACCATTGGTTAACCA
TGATTGGCCTTTTCCTTCATCTGTTGGCTGGTTAAAAGTGACAATCCCCCCACCTGCATACCACCACAGCCACGACATGGCCAGATGTGAGCTGAGGGAG
AGGTACTAATGCAACAGTGGTGGTTGACATGAGGGCTGGACCACCGGTTTTCTAGCTCACTTGTGTTCTCTAGCCCGGACTTATCCTTCTCTAGCCTGGC
TGCACTGCTCCCATATTTTGATGGATTTTTAGTGGTTTTAGGACTTAATGGGCCGTTTTGAACCTAGGCCATGATGGGCATCTCTGGCCCCGTTATCTCT
GCATGTCTCATGGTCATGAGTTCTAACTCAACCACAGCCACATAGATTGCAGGAGTTGTTTTTTTTGAATGACATACAATCCTCTGATGAAGAAGGCATG
GCCTTGCTTCAGAGCACAAGTATTATGAACTGTATTTTGTTTTGCATTGGGATTGTCATAAACTAYACATGGTATCAATTCCCACTACAGATAACTAATT
CCAGAGGGTCTGCCAAATAATATGGCCCATGCGGTGAAGCTGCTTACGTTGCATTGTGGACCAGCTGCAGATCCCTTTCCTATTCTGGGTCCTATTCAAA
GCTGTCAGCTATCTCTGTCTTTTGGTAAATGGGTCAGAGCAGTGTGGATTATCAGGTGTTGTGTTTCCTTTTAGTGGTGGGAGAGTCCAGATGCAATAAT
TCGACCTTTATTTTGGAAGTCTTTTCCTGGCATGCTCCAAATTACTATGCCCCTACATGTTTTACTGATTTGGCAGGGAATCTTTACAGAGATTATCTCA
CACTCTCTGGAGTGAATGTGTCTTTCCAAGGCTTCTGATGCAGTTGCCACTTTTGACTCATCAATGATGTCATTGATAGCATAAACCA


SNP Information

Context             (SEQ ID NO:15428):
CCACTTTAATATAACTGAAAATTCATTTTGAGACCAAGCAGGATCAAGTTTGTAGAATAAACACTGGTTTCCTAGCCATCCTCTGAAAACAGTATGAAAC
M
TGACCAAGTACATAATGGATTTAGTAATAAATATTGTCGAATTGCTAAAAAGTCTTCAATCATTCATTCACTAAGTCACTCAGTGATATCAATATACTTA
Celera SNP ID:            hCV27900830
SNP Position Genomic:     9148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15429):
ACAAAGCCGTCCAAATCCCTACTCCCCCACCTAAAGACTGGGAATTCCTCACCTGGAATTGGTGCTGTGTACCTCGCAAACCAAGCCAAGAACCAGTCAG
M
TGAGGCAAAAGAGGCTAAGGGGAGTGGGTATGAGAAATTAGGGCCCAGTCGAGACCCAGATCCACTGAACATCTGTGTCTTTATTTTGCTGCTTGTATTT
Celera SNP ID:            hCV8832551
SNP Position Genomic:     8858
SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,16)   caucasian(A,19|C,21)   total(A,31|C,37)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15430):
CATGACTTAATCCCCAGAACCTGTAAACATGTTACTTTACATGGTAGAATGGACTTTGCGGATGTAATTAAGGACCTTGAAATGGTTAGATTATTTCATA
Y
TGTCCGGGTGGATAAGAACCAGGATTTTGTAACAGGGAGGCAACAAGCTCAAAATCAGAAAAAAGAGATTTGTCAATGGAACAAGAGGTTGAAGTGCTTT
Celera SNP ID:            hCV8832560
SNP Position Genomic:     9395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15431):
GAGTCACACAGACCCGGGTTCAAGTCTCACTTCCACTGCTCGTTAACTGAGGGGATTTGGACAAAGTACCCCAGCTTTCTGTGCAGTTAACCTGCAAAAC
Y
CCAAGAATAATCCTTCGCGGGACTGGTGAGGATACATGGGGTGTAGGAGATGAGCATTAAACACGTGCTCCCCTACGCTGCTCCTAACCTCCCTGTCTCC
Celera SNP ID:            hCV1750082
SNP Position Genomic:     4339
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:15432):
TCTGGTGGATGGTGATTCATCTTTACGAGATAGCATCTCTAAATTGCACCACAGCTGCATCTTAAAGATCATTGATCTGCCATTAATCTATCAGGCTGGC
R
GCTTCTGGGAAATGCAGTATTTGGTAAAACCAGGAAATTCCATGGTCATATTGCCACTTCTGTAACTCTTTTGCTACAAATTTTGCCCCTTGGTCTAATG
Celera SNP ID:            hCV1750091
SNP Position Genomic:     13519
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:15433):
TGAATGACATACAATCCTCTGATGAAGAAGGCATGGCCTTGCTTCAGAGCACAAGTATTATGAACTGTATTTTGTTTTGCATTGGGATTGTCATAAACTA
Y
ACATGGTATCAATTCCCACTACAGATAACTAATTCCAGAGGGTCTGCCAAATAATATGGCCCATGCGGTGAAGCTGCTTACGTTGCATTGTGGACCAGCT
Celera SNP ID:            hCV1750092
SNP Position Genomic:     15266
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:15434):
CGAGACCCAGATCCACTGAACATCTGTGTCTTTATTTTGCTGCTTGTATTTATTGTAGTCAAATGCTTTACATCAGAATGATGAAAATAGGCTTGCCACT
K
TCTCTTATTTTAATTCCATGGTAGTCAATGAACTGGCTGCCACTTTAATATAACTGAAAATTCATTTTGAGACCAAGCAGGATCAAGTTTGTAGAATAAA
Celera SNP ID:            hCV25643941
SNP Position Genomic:     9008
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,35)   caucasian(T,40)   total(G,1|T,75)
SNP Type:                 UTR 3


Context             (SEQ ID NO:15435):
CATGGACGCTGAAGTTGGATGGCAACCTTCAGCTAGACTGCCTGGCTCAAGGGTGGAAGCAATACCAACAGAGAGCATTTGGCTGGTGAGTGTGGGTTTC
Y
CAGGCAATAGCTCTTCTGAGAAGAGAGGCTCAGGCTCAGCTTAGCATGATTTATTCCTCTGAGAGCTTGTTGAAGGAGTAAATGTCACCAGGGCCTCCAT
Celera SNP ID:            hCV25643934
SNP Position Genomic:     6226
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|T,1)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:15436):
CCAGAAATGCCAGTAATCCTGGAAGTGTCCCTGGAAGGATCCCATGACACAGCCAATTGTGAGGCATGCACTTTGGGCATCTGTGGACAGGGCTTAAAAA
R
CTGCATGACAAAGCCGTCCAAATCCCTACTCCCCCACCTAAAGACTGGGAATTCCTCACCTGGAATTGGTGCTGTGTACCTCGCAAACCAAGCCAAGAAC
Celera SNP ID:            hCV25643942
SNP Position Genomic:     8750
SNP Source:               Applera
Population(Allele,Count): african american(G,14)   caucasian(A,2|G,34)   total(A,2|G,48)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15437):
CCATGGTAGTCAATGAACTGGCTGCCACTTTAATATAACTGAAAATTCATTTTGAGACCAAGCAGGATCAAGTTTGTAGAATAAACACTGGTTTCCTAGC
Y
ATCCTCTGAAAACAGTATGAAACATGACCAAGTACATAATGGATTTAGTAATAAATATTGTCGAATTGCTAAAAAGTCTTCAATCATTCATTCACTAAGT
Celera SNP ID:            hCV26425969
SNP Position Genomic:     9124
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:15438):
GCAGGATCAAGTTTGTAGAATAAACACTGGTTTCCTAGCCATCCTCTGAAAACAGTATGAAACATGACCAAGTACATAATGGATTTAGTAATAAATATTG
Y
CGAATTGCTAAAAAGTCTTCAATCATTCATTCACTAAGTCACTCAGTGATATCAATATACTTAGCTCAGAAAGTGTGGGAGGCTGAATAATGGTGTCTCC
Celera SNP ID:            hCV29113731
SNP Position Genomic:     9185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15439):
GAAATGGCACGAGGAAGTCTCCAGAAATGCCAGTAATCCTGGAAGTGTCCCTGGAAGGATCCCATGACACAGCCAATTGTGAGGCATGCACTTTGGGCAT
M
TGTGGACAGGGCTTAAAAAGCTGCATGACAAAGCCGTCCAAATCCCTACTCCCCCACCTAAAGACTGGGAATTCCTCACCTGGAATTGGTGCTGTGTACC
Celera SNP ID:            hCV8832498
SNP Position Genomic:     8730
SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,11)   caucasian(A,11|C,19)   total(A,24|C,30)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,4)   caucasian(A,6|C,16)   total(A,6|C,20)   
SNP Type:                 SILENT MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:15440):
GAAATGCCAGTAATCCTGGAAGTGTCCCTGGAAGGATCCCATGACACAGCCAATTGTGAGGCATGCACTTTGGGCATCTGTGGACAGGGCTTAAAAAGCT
R
CATGACAAAGCCGTCCAAATCCCTACTCCCCCACCTAAAGACTGGGAATTCCTCACCTGGAATTGGTGCTGTGTACCTCGCAAACCAAGCCAAGAACCAG
Celera SNP ID:            hCV8832499
SNP Position Genomic:     8753
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,5)   caucasian(A,22|G,10)   total(A,33|G,15)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15441):
GATCTTCAACCCAGGTATGAGGGATGCAGTCTGTTTCTCCAGGTGTGAGAGATTAGCTACACTACTCACCAGAGGCAACGTGTTACAGCAGGTAAATGAG
W
TGAATTTCAGATGGCCTGAGATTAGCAGCATGCCTCTAACATTTACCCTGTGTGTCCTTAAGCAGGTTGCGTATCCTTTTCATGATTCAGTTTCCTTATC
Celera SNP ID:            hCV29113734
SNP Position Genomic:     7887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15442):
CATGGTGCTATCCGAGGAGAACTCAGGCATCTCATATTGGGACCAGGAGCACTTCTGGCACCTTTGGCCAAAGAGCCTCATACGCACCTGACCCTGGGAT
Y
TCCAGTGCTCCCAGTACGTGTGGCACAGAATCTGCACTTGGGCGGAAGCCCAACTTCGCTGGCAGGAGGAACACCGGAACCTGCAGTCAGAAGGAAGACA
Celera SNP ID:            hCV11684900
SNP Position Genomic:     7206
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,34|T,4)   total(C,68|T,8)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15443):
GGAAATGTGTAAATATTTCTGTCCACACCAGCCAGAGCTTTTTGAGGGACTCATGATGTCTTACAACGTTTTGGCACTCCTCCAAACAGAAAGAAGGTGT
K
TCTCCTGTTGGGATGATTTGATTTGATTGTCATTTCGAGATCGGAAAAGCAACCTACCAGTGTACTTTTGGAAAATATCAATCAGCTTTTGAAAAGCATT
Celera SNP ID:            hCV29113735
SNP Position Genomic:     7546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15444):
TGGTCCCAATATGAGATGCCTGAGTTCTCCTCGGATAGCACCATGAGGATTCTGAGCAACCTGGTGCAGCATATACTGAAGAAATACTATGGAAATGGCA
Y
GAGGAAGTCTCCAGAAATGCCAGTAATCCTGGAAGTGTCCCTGGAAGGATCCCATGACACAGCCAATTGTGAGGCATGCACTTTGGGCATCTGTGGACAG
Celera SNP ID:            hCV1750667
SNP Position Genomic:     8639
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,24|T,12)   total(C,51|T,21)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,7)   caucasian(C,21|T,9)   total(C,34|T,16)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:15445):
GAGTGCCCATTGGTGTATTCACAATCCCTTAGCTAGACATAAAGGTTCTCCAAGTCCCCACTAGACTCAGGAGCCCAGCTGGCTTCACCCAGTGGATCCC
R
CCCCGGGGGCAGCAGGTGGAGCTGCCTGCCAGTCCTGCGTGTGTGCCCGCACTTCTCTGCCCTTGGGCGGTCGATGGGACCAGGCACCATGGAGCAGGGG
Celera SNP ID:            hCV29113749
SNP Position Genomic:     5144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:15446):
CCCAGAGTTTGTTCCTTCTGATGTTCGGATGTGTTCTGAGTTTCTTCCTTCTGGTGGGTTTATTGTCTTGCTGGCTCAAGAGTGAAGCTGCAGACCTTCC
S
GGTGAGTGTTAACAGCTGATAAAGGCAGAGCAGACCCAAACACTGCGCAGCAGCAAGATTCATTGCAAAAACCAAAAGAACAAATCTTCCACCATGTGGA
Celera SNP ID:            hCV29113757
SNP Position Genomic:     4716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:15447):
AGGAGCACTTCTGGCACCTTTGGCCAAAGAGCCTCATACGCACCTGACCCTGGGATGTCCAGTGCTCCCAGTACGTGTGGCACAGAATCTGCACTTGGGC
Y
GAAGCCCAACTTCGCTGGCAGGAGGAACACCGGAACCTGCAGTCAGAAGGAAGACACCCATTATGCCTTCATCTGGTTGTTAACCTGAGGGAAAATGGTC
Celera SNP ID:            hCV1750668
SNP Position Genomic:     7250
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,29|T,9)   total(C,65|T,11)
SNP Type:                 SILENT MUTATION;hmCS


Gene Number:                 30
Celera Gene:                 hCG1654640 - 84000314408112
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VYQG(10436048..10521309)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12190):
CTTCATTTTTTCAAGTAGGCAACGAGACGCATCAAAGGATTTTAAGCCCAGGCATAATGTGATCAGATTTATGTTTTAGGGAGATCTCTTCTCAGCCTCA
TGAAGGAAGGATTGGAGCAAGGAGAGTCTGTGGACATGGAGGCATTTGAAGGTGCTGGGAAGAGATGGACTCATATTTATTGAGCATCTGCAATGTGCTA
GACACAGGGTTTGGCCCTTCAAATAAGTTATTGTATTTAATGTTCACAGCAAGTGTATGAGGTAGGAATTACAATTCTCATTTAAGAGATGAGGCTAAAT
AACTTGCCCCAAATCACCCAACTAGGAGGTTGTCGACCTAAGCTTTGATTCCACTCTGTCTGATTCCAAAGCTGCTGCTCTTTTCTTTCCATTTGAGGGG
ATGATGAGGGTCTGAATTCTGCCGTCAGCAACACTGAAGAGGCATCCTCCCTCCCAACAGAAGACTCTTAATTTAGTTTCACCTCATTTGGAAGCTTCTC
CATCCACTTCATCATTCTAATTGCTTTAATATGACAAATTGACCAATTACTAGCAGGTTATTTATAACCATGGTGGAATTAGTTGCTTAGTTCAATCAAG
CAACCAAAAAGTAACTGAATTGTAATGACTCGATTTATCAAACTGTTCCAAATGGTTGGTGTGCACATATATAACTCATATTAGTGTTAGACCAATATAT
GCAACAGAATAGTGGGGGAGTATTTGACTATTCACAAATGACAGCTGAACCAAAATAATTCTAATCCCAGCTCTATAGCCAAGTGGACAAGTCTTAACTT
TGAACACTAAAAGATGTTCTAGAGAAAGTTCTGGGCTCTTTTTTGTTGATAGAGAAACTGAAGCCTAGAAAGCATAAGGGATTTGCCAAGGTCTCCCAGC
CAGAAAATGCCGGAGCTTAGACTTGAACTATTTGCATTGTTTTGATGCTGTTTTCCTACCATGCCTGCTGCACCATGACATGGAGTCACTTAGCCTCTTG
AATCCTCAATTATTTTGTCTACAACATGAAAGGATTGGTGGATGTATCAGTTAACTTTTGCTGTGTAAGAAACCACCCAGAACCTAGCAGCCTAAAATAA
CGGCCATTTTATGGAGCTTATGATTCTGTGGTTGATCATGGTGGTTGTCCTGGTCTGGACTGGCTCAGCAGATCTCTGTTGGACTCTCATGCTTCTGTGA
CCAGCTGGTRGGTCTACATGATCTGCCATAGCCCCATTCATAGTTCTAGTGGTTGACAGACCATTGGCTGGGGATCAGCTGCTCGCCAACTGGAGCACCT
CATTCTCCTTCACAAAGCATTTTATCCTTTAGCAGCCTTGCTCAGACTTGTACACATGGTGGTCTCAGGGTTCCAACACAGAAGGAAAGGGCAAATCCCA
ATAAGAATGCTGTTTGCAAATCTTTACCATTCTCGCTACTCTTTCATTGGCTAAAGCAAGTCACATGGTGTAGCAGGCAGCTTCTGAAATGGCTCTCAGT
GATTCTTGCCTTCTGGCATTCCTGCCGTCATATAATCTTCTCCCCTTGCATGGAGCTGGACCTAGCAACTTGCTTCTAATGAGTAGAATATGACAAAATT
GATGGAATATCACTCCTGAGAATAGGTTATAAAGGATTGTGGTGCTCTCTCCGACTCTTCTTAAAGACATACTTGTTCTGATAAAGCAAGCTGCCACGTC
TGAACTGTCCTATGGAGAGGTCCATGGAGATCCTAACAACCGGTGAAAAACAACAGTTCCCTAAGGAACTGAATCTTGCTAACATACAGTGAGTGAGTGA
GCTTGGAAGCAGACTCTTCCCTGGTTGAACCTTTAGATGGGAAAGCAGCCTTGGCCCATATTTTCACTGCAGCTTTGTGAGAGACTTAGAAGCCAAGGAC
CTACTGCAGTTACATCTGGGTTCCTGACTCACAGAAACTGTGTGTTCTTTTAATTTGGGAGTGATTTGTTACAGAGCAATAGATAACTAATACACACAGC
TAAGCTCAGAGTCAGTGTGGGAGGTGACTATCCAAGGGTACAGTTATAAGAACAGTAATTATATGAATTATTTATACATACTTGCAAACAATTTACCAAA
GATGAATCTTTTCCAGCCCTTTAGAACCGGAGATGAAATTATTTTCACTATTTCAACAATTATTTATTCTCTGCCCTAAATATTGAAAACAAGATGGAAA
TGTTCCTGTCCTCAAAGAGCGTACAGTTTGTGTCGGGGAAGGGACACAGGGAAAGATATTAATTGAAGAATTCCTTCTTTAATTTTTGTTTACAATTGGG
ATAAGTGACCTGAATGGACAGCGTGTATAGCTCAGTCTGGACTAGTCAGAGAAAATGGCACTTAATCTGAAGAGGTAGATGGGGGATTAAGAGTCAGGGA
CAGAGGAAAATTCCAGGCAGAGGGAGTAGTATTCTTTTTTATTTTATTTTATTTTATTATTATTTTTTTGAGACGGAGCTTTACTCTGTCATCCAGGCAG
TGCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGGTTCTCCTGCTTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCGCGCT
ACCACACCCGGGTAATTTTTGTATTTTTAGTAGAGATGGGTTTTCGCCATATTGGCTGGTCTTGAAATCCTGACCTCAGGCGATCTGCCCGCCTTGGTCT
CCCAAAGTGTTGGGATTACAGGCATGAACCACTGTGCCTGGCAGGGAGTAGCATTCCTTTTTTTTTGAGATGGAGTCTCACTCTGTGGCCCAGGGTGGAG
TGTAGCAGTGCGATCTCGACTCACTGCAACCTCCACCTCCCGGGTTTAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCCAGGATTACAGGTGCGCACC
ACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGTCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCATCCGCCTT
GGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACTGTGCCTGGCAGGGAGTAGCATTCTTAAAGGGGAGCTGGAGAGGTGGTCAGCAGCTACAGGAC
AAGTTCATATTTATGATCAAATTGTATGCTATTATGCAATAATTATGGTTAGAGATTTTAAAATTTCCTTTAGAGATATACACCAAAATATTAATGGATG
AAACGATTTGATGTTTGAGATTGGCTTAAAAATGATCCAGTGGACAGGTTGGGGGCCTGGAGTGGGTGGCGCTGTAGATGAAACAAGGTTTTCTAAATGA
GTTCATAATCGTTGAAACTGGGTGATGGGTACATGGGTACATGGGGGGTTATCTTCATCTCTCTATGTTTGTATATTTTGGAAAGTTTCATAATAAAAAA
TTTAAAAATCGTATCCCAACAACACATCCTGAAAGCTGTGTGTATATATTTGAGAGGTCACAGCAATTACCTCCTCCCGCTCCACACCAGACAGTAGAAA
TCAATAACGTCTTTAGGGCAAGGTGATGGAATGAGTTTCATGGTACAGAAAATGTAAAGGCTTCTCAACTTCAAATCAYGTGTCTAACCTAAAATAAGGT
GTTTGGATAATTCATCTTGCCTCCTAGCTAAAGTGCTATATTGCATGCTTTCTCATGCTCATTTTTTACTAGCTGAGATGGTTTATTTCATATATTGTGG
AATCTTACCACATGGTTCACCCTGGGGTAAAAGTCAGGGGAAGGATCCCATACAAGTATTAGTTACTGAAATACAGAGAGGATGCCGTCATAAGGCCTTC
TATGATAGGGGCAGTATTAGAGTGAGTTATAGGTTGGAGAAAGAGAAAAATAGGGTAGAACAGATGGAAAGTCCCCTTTGAAAAATTGTTGGTTGGCTTG
CTGCAGTAATAATGGAGTATGGATTTCTTTGATTAAGATTTCTCTGCCTTTTACTTCCGTTATTCTGAGGTAGGTCAGACTGTGAAGTTAACAGCAGGGG
TGCATAGATTTTGTGTCAGAGATGTATTCCTTTAGGATTTTTTTGAGGCGGGGAGCAGTTGGGGTGGAAGCTGATGAGATGATTCTTCATGTTTGCAACT
GTTTCAATGTTAGGTTAATGGGGGAACTAGAGTTTGTGATTTTGATTCAGACCTTTCTGGAAAATACTTTTGCTGCCAAATTGAGTCTCTCCCCAATCCC
TAATAAATGAAGATTTCACCAGAGTCAGATATATGCAAATTACATTTCCCTTCTCAAGCCAAGGTTACATAAAAGGGAAAATTATGAAAGATTGCTTATG
GCAGCAAGGATTTTCAAGCTTGAGGATGAATTTGGTTGTTTCAAAACCATGATGAGTCTCTTGTCAGTGCAAAGCAGGAAAGGCATAAAGGAGAAAGTGG
ACCTGGGCATAAACATGTTCCCACACAGTGTTTGTGCTGAAAGCCTTGTTCCTTGAACAAGCATTCTTCTGTGCGTTTGGCAAATAAGGAGGGGGTGTCC
CCTCCTCTTCTGTGTTCAAGGCTGGGTTCTGGCCTTGTTGCAGGGAAACACTAATTCCCAGCAGTGCACCATGGGAGCAAATGGTTTGTTTCCTCTTCAG
TGAATCCAGCCTGGGGTCGGTTCTCAGCAGCAGAGCCTGGCATGGAAAATCTATTTGGAGCAACTTGTCCCCAGGAGGGAAGAGTGCGAGCCAACTGTGT
GGGGAAGCCGCAGCCACCACAGGGTCAGTCACACCTGCTGGCCAGAGCAGGCGCTAACACAGAAAGGCAGAGTCCTCCGCATACATGAGTCCTGTTTGTG
TGCCCACCCACTCCTATGTACCACACACACCCGATTTGATCCGTATATGCCATGTGCACACTCGACATGCCAGATACACGCACTGCACTGCCACACATAT
ACCATACACACACCACTCTGTATTACTAAGCATACCCACCCCCACAACACGTGCACAAGCACATGCACGTCCAACTACACACATATACATATTCTGCACG
CCACACACACTCAACCACACACACACCACCCACACTCCACCTCAGTTATAACATTCATTTCACATACACACGTATACACACACCTCACCAGTCACTTGCA
TCACGCATACCACCCACCATGTACCATGAACACACCTAACCACACACAACCACACACGCATACCCACCATACATACTCCAAATAATCATACACACGCACG
CAACACACACATCCCATGCACACCAAACTACACATACGCAGACACACACACACATCAATGCACCCAGCTTTGTTGCTTTCCCGCTCAACGGAGGCGGGGG
TGGGAGGAGAAGGGGGAGGGGCTGCGGTCCCGGCGAAGGTTGGGGCGGGCGCGGGAAGGCCCGGGCGCACTGGCCTGGGGTTTGGGGCGAGGCGGGCAGG
GGTTGGCGGTGCTGGCCCCTGACGCGCCCTGTGGCCGCGCTGGGGCAGGAGGCCCGCCCTGGGTGGGGGGAGTGCGCGCGTGTGCACGAGCGTGTGCGCG
CCTCCCAGGGGCTCCATGCCCAGACACGGGGAGGTGTGTACGAGGGAGATGTGAGACGCCTGTGGGGACAGGCTGTGTGTGTGAGATCCTCGCTACGCGA
TGCACCCGGCCCGGGCCACTAGGAGGTTCGGGTGGGCGTGGGCCAGGTGTGCGCAGCCCTCCGTGGAGCGTGTGGACGCGTGTGTCAGTTCTCGGTGGCC
AGTGTCACTCGGGGGGAAGTGCATATGTAGGCTGGCGTGCATGTGAGTACAAAGCGGCCGAGGAGTGTGTGTTCACCACGGCCCTCCGTCGGGGTCTTTC
TCCGAGGAAGGAGTGAGTATGTGAGGAGGACCTCGCTGTGACCGGCGGGGACGCCGACGGCCAAGCTCCCCAGCGGCGTGTGTGTGAGAAGGCCGGGCTC
GCTGAGGAACGTCGCGCGGGGCCGACCGGCGCGCGCCTGTGCGCGTGCGTGTGCGCGTGGGGCGCGGCGCGCGCCGCGCCGGAGGGAGGGAGGCTGCCAG
CCCGGACCCGGTCGCAGCGCCCGGGGCGGCTCCTCCTCGAGCCTGGGACCGCCGCGCTCCCGCCGCCGCCGCGTGCTGGCGTGACTCCCGGCCCGTGCCG
CGCCCTCCCGCGTCCGCAGCCGGCTCGGCTTCCTGCCCACCCAGACGTCGCTTCTCCCGGGCTCCCGGTGTCGGCTCCGCGCGGAGGGAGAGGAAATGAG
TGCGGCGGCCTCGCCGGCGTCGGAGCGGGGTTGGAAGAGCGAGAAACTAGATGAGGCTCAGGCCCTRGCGCGGAGTTGCGCCGCCCGCAGACCCGACTTC
CAGCCGTGCGACGGGCTGTCTATCTGTGCCACGCACAGCCATGGCAAGTGCTTCAAGCTGCACTGGTGCTGTCACCTAGGATGGTGTCACTGTAAGTCGA
GCCGCGTCTTCCCGCCTTCCGCCGCGGTCCGGGGGACGCCCGCCGGGCCGTCCGGGGTCGCTGCCGGAACTCTGCGGCCGCGGGGCTCCGGGCTCTGCCG
GGGCTGCTCTGCCGGAGGCTGGGGCCGCCGTGGGCTCCGGGCCCGCCGGAGCTTTCCTTGCGCCGGACGGCTGGGGTTGGCGCTGCCTTGACGACGAGAT
GAAATCCCGTGGGGCGCCTCGCTTTCTTTAGCTACTTCTACAAAAGGGAGCTCCCTGTCCCAGGGAAGCGGGAATCTGGTTTTTTTTCTTTTCTTTTTCT
TTTTTTGACCAAGGCGTCCAGGCGGTGTTTTGAGAAATGGGAGCGAGCCAGCTGAGTTGGCGACAGCTGTTGGGGATGCCTTTTTTCAAGGTTGCTGGTT
AAAGATGCTCCTCTTTTTCTTTCTCACTTTTGTCTTCCTGGGCTGCTATTTAAAAGAAGGAGCCCTTGGATATCCAATTGTTTCCCCCTTGATTGTAYCC
AAATTGAGAAAAAGCGCTAATGTGGGAGGGATTGCTTCCAAGAAGTTAATATTAACAGTTTGGAAGGTCGAGCTCCTTAAATACCCAGATGTAGAATTTA
GAGCCAAATAAATGAGACTTATAAAATTACAAAATAAAATGAGTGAAAGTAAGCTTAATAGTCTTAAACCAATTTATAAAAGCTAGAACCAAATGGTCTA
AACCCTTTCTCTGTGTTTAGCCTCCTGCCTGTGATTTTTAAATAGATTAAACTTAAGTAGCCATTTAATTAGAATTTCACAATTTGATTAGCTAATAGTA
TTTGGACTATATCCGATGAATCATTCATTTTAAGAAATATATTCTAAAGTTAGTTTCCACATATATTTGTAATAGAGGGTTTTGGAGTGCTTATTTAGGA
CATTTTCCAAGTGATCTTAAGTTAAAATGAATTTTTCTTTGTTGAGAAAAAAATAGCTGACAACCAGGAATGCAGTACATAACAAATCCTTATTTACATT
AATCGAACATAAATGAATATTTTAAATCGAATTTATGAATTCAAGGATAGAGGATCATTTTCTTTACAAATTCCAGGCACATAGAACAGTATTGATTTCT
GGTGTTCCATTTGCTTATGGGCCAGTTTCTTCCTATTTCTCATTATTCCTGTTGTGCTCAGATCTGTTCTCTTTTGTTAGTATAAAGCATTGCTTCACGG
TGGGACAGGGTACCGAGTTGGAAGTAGCAACTCTAGGAAACCTGGGATGCTGAAGTGCACAAGTAGAATCTGGACTTTCATTCATTTCGTGGGAAAGTAT
AGAATCGTTGTGTAAAATGTGAGGAATGTTCAAGATAGTCCAGGTTACTGTCTGTCTTATTTTGACAGTGTCTTCTCTAAGTACACCGTTACTGATGGGA
ACCTTGCAGTTTTCTCAGACAGCTTCTCCCTTCATTAGCCTTGACTCTTAAAATACTCTTCCTTATATGGAGCTGAAATCAGTTACTTTCTAACTTCTTT
CTTCTGCTCCTATTTCTGCCTTATGAAATCATATAGAACAATCGAATCCTTTTTTAGATCATGGCTGTTTCAACTCTTCATATATACATTGCTGAATATA
CATATGAATGTCTTGCACATATGGACTGTCTTCTCTCTGTATCCCTGGCCATTCTCACAATGTCTTTCCTGAAATAGGTTTAACAATAATGTTCATTGAA
TGACTGAATGAAGCTAGTGATCATCTTTCTCTTAAGGCATTTCTTTGTCCTATTTATACATTTCCAGTCCCTTCTGCCTTTCCTTTTATGGAATAGTATT
CAGGCTCCTAAGCATCTTGGTTGTTCTCTTCTGAACATGTGCCAAGGTGGTTTTGATCCTTTGAAGACTGTGGCCCCTAGAAAGGTAGACAATATTCCAG
TTGTGGTCTGATCAGTCTAGAGTTGAACAAGACCACTACCTCCCATGTTCGAGATACTGCTATTGCTGCAGCTAGCATCACATTAGCTTTTCTGATATCT
TCATCACATACTGAGCTTGCTGCTGTCAGATTGAACTAAGCTTGCCATCAAAGCCATTGAGCTGTTTTGTTTTTTTTTAACATATGTGACAAGCCACTGT
TTGCCCATCTCACACTTATATTTTTGGACACAGGTACTGATCCCTTAGATATCTTTTCCTATTAAATTTCATTTCATTAGAATGAGCCTAATTTTGTGTG
TGTGTGTTTTTAGATCCTGGCTCTTTCTTAATATATTTATAAGCTGTTTGTCCTAGGTTCATGTCATCCACATACTGGATACCAACAGTAGTACAGTACA
TGTTCATAAAAGTTACTGATAAAATTGTTGAACAAGAGAAAGCCACAGATAGAGTCCTGAAGCTTGCGGGTAGAACTGCCCTTCAGGTTGATAGCAATTC
ATTAATGAGCACTTGTTAGTTATGATTGTTCAAACAATTACCTAGCCACCTAGTTGCACTGTTATCCATCTTATATTTATCTTGTATATKGGTGTAATGA
AAACCTGGTCAAATACCTTATTGAAATCCTACCAACACACTGTTTTTACTGCCTCTTTTTGATCTGTGACCTATCTGTACATACACTCTTTTTTTAAAAA
AAAACAAGAAATTAGRTTAATCTGGTAAAACTCAGGTTGATTCCACAAATGGTTACCATTTTCTTTTCTAAATGGTTAGAAACTGTTTTAAAATAAATAA
TCTGAATTTAGAAAAGGATTGACGTCAAGTATACTGGACTGTCGTTGGCAGTTGTTTCTGTTTTTTAAAAAATCAGGACTACAGTTATTTGTTCTTTTCC
AGTCTTTGGCAGTCCTCCGGTTCTCCACACTTCCTCCACTGGCAGCAGCTCAGTRATCCCATTCACTAAAAGCTTGACTTCATTTAAAGCAGCTAGGTGC
TCTGTTACAATCTCCTCAGTTATCCTGGGAATTAATTCTCTCTATGCTTTTTAGCCCAAAATAAGCAGAGTTAACATGTTTGAGAAGTTCTCCTTTCTTT
TTGGTATTCATGGAGTTTACAGTATCAGTCCTAAGCAGAATTCCTTTAATTCTGTTGAACATATATTGAACACCTTCTCTTTATGAGACATTATTTTGGA
AACTCAGAATAAAAATATGAATACAGCTGGACCACACTGGACCCCATATGGACCATTATGGACCCTATATGCAGAGTCTAAGGACACAATCRTACTGTAT
TTACTGTTTTTTTTTTTTTTTTTKGGGAGACAGAGTTTCACTCTTGTTGCCCGGGCTGGAGTGTAGTGGCGCGATGTCTGCTCACTGCAACCTCCACCTC
CCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGCATGCACCACCACGCCTGGCTAATTTTATATTTTTAGTAGAGACGGG
ATTTCACCATGTTGACCAGGCTGGTCTCGAACTCCTRACCTCAGGTGATCCGCTTGCCTTGGCTTCCCAAATTGCTGGGATTACAGGCATGAGCCACCAT
GCCCAGCCCATACTGTATTTACTTTTGTAATTCTTTTAAAATCACAAATGATAGAAGTGAGAAAACTATCAGTTTGTTTGCCAAATCTGAGAATACTAAA
ATGAGAGGATTATCCTGATGCTTGAAAAAGGTAGATTCAAAACAAGGAAGTTCAGTTTTATGTGGTTGATTTTAATCTTGTGAAATATATAGACTTATAA
AATAGAAAAAGCTTAAAAATATGTACATGTCCATAAAAGACATAAAGCACATATACATTCACAGATTCAGTGCTTGGTGCATTATTAAAGGAAATGTGTA
TTTGGGTAATGGCGCATTTTTGAGGATGTTGCCTGGGAGGAAAGCATCATATGTTCTGTTGGTATCACTGTCAAAAATAGATTATTAAGCTGAATAAACC
ATGAATCTGAATGTGTAACTTAATTTTTCCCAGTAAGGAGTGATATTGGCTTGAATTAACGAGTGAAGGTTTTCAAGAGGCGTTTTGAGAGAGAAAGAAA
TACATGGCTTCGCGAGAGAGGAGGGATGGGAAAGAAATCATATGTAGGTATTGTAAAGTAGAATTTTGTGGCTACTTAGAATACTTAGAATAAGAAATTA
GATTGGTGGAGGTGGAGATAAGAGTGTATTTGAGAGATATTTGAGGTGAAATCTATAGGGTTAATTAAATTTGGTCGGGAAGGGAGGGGAAGATTATTAA
GGTTAACTTCTAGAATTCTGCTTTATGCAGCTGTGGATGGTGGTGCCATTCACTAACAACGAAATACTGAGTAACTAGGATTGGGAGGAAGGTCATGAAT
CTAGTTTTGGATCTGTAGGATTTAAGCTGCCTTTGTCCTCACATGGTGATGTCRGTAGGCAATTAGATACAGGGATGTAGAACTCAGAGGAGAGGTCTGG
GCTAGAAATAATATGTAAGTAATTTACTTACTTATAGGTTGCAGTTGTAGCTGTGATGAAGCGTGAGCACCAAGGGAGAGACTGTAGCGTGAGAAGTAAA
GAAAACCATTAAGCTTTCCCTTTACAACACCAGAGTGTTTTCTTTTAGGACATCAGAGTCTGGGTACAAGAGGATAAGCTGGCAGAGGAGTCTAAGAAGA
GATGGCTAGRGAAGAAAAATCTGGAAAATATGGTATTGCAGAAGCCAGGGGAAATTAGTGTTTTAAGAAAGAGTATGAAGATGAAACCAGTTTTCAGCAG
GCTAATTATTAGATATTGGTAAAATACACAAAGAGTGATTTTCATTATTATGGAGAAGAGGGTGAAAGGTTTAGTCTTGCAACAGTGACTTCAGGAATAT
ACTTAATTGAAGCATTAGTCAAAGCTGTTGGAGGCTCTTGAAGGCAAAAGAGAACAGAGCGTTAGGAGCTAAGAATTAGGACACAGACAATTGTTAATAT
TTACTGAGTGATTACTTTGTACCAGAATAAGCTTATTATGCTGAGCACTTAATAGCCAATTATGTAATTATGTCCATTTCACAGTTGAGGAAGAAGGCTT
AGAGCTTTTCCACGGGCACATAGTAAGGAGTAGAGCCTGGATTCGGATCTAGCTCTGTTCGATTCTACACCCGGACTCTTAACCATCATTGCACTGTAGA
GCAATTTAAAATTAGTGAGCAGAACCAACAGAGCTCAGTTCCATTAAAGCCAATGATGGGGAAAGTTTTTAAGAAATGGGTGGCAAGTTGTATCAATTGC
AGTAGTTAAATCCGGAAGAATGAGAACTGTAAAGAGGTCACTGTATGTGATAGGAAGTGACATTCAAGTTAAGGGTTAAGGAAGAGAAAGTAATTAGAAG
GTGACAGGTGGGGCTGAGTGGGTGGATGTGGTATGATGTAGGTGCTACCAGCCAAACTCAGAGTTGGCTTAAGAATATCACATAAGCTCAGTTTTCTGTA
GAAGAAATCTTAAAAGATTCTGTTTCAGGTTGAAAGCAGGAAGAGTGGGACTTGATGTAGTCTAATAGGTGGTATTAGCATATCTAAAGAAAGACTGTCA
CAGCAAAAGGTAGATGGGCAGCATAGAAATAGAGACAAATGGGAGTTGGAGAACCAGAATTTGGGAGTGCTTTTCAAGACTGTTCAGAGAAGATGTTATG
CTGTCTAGAGAGTTTAATATCTCTGGTCCTTATGGCTGCGCTATCGCAGCAAATGTTTGGTTACACATTTGGCTTCCTGTTTATAGATTTTCTGTAGGGA
GAGAAGGAGTTGATTAGAGGGTTCAACTGTCAGGACTTTGGGGCAAATATACTTCTTTTCGTTAGTAAATTAGCATTGTGATTTTGTGTTGTTCTATTCT
GTTTTTGTGCTTCTATACAACTCTAGGAAAACTCACAAAATCAGGTTCTGACTTCCACGGGAAAATGCCACCTGGTTTTCCTAAAGGACTTCTGATTCAT
ATCAATAACAATAGCTACAAAAAACGTGTTTAAGAAGTTTGATAAATGAAAACTAGCAACAACAACAAAAATAAGGAGTGGTAGTTTGGTTGGAAAAGTC
AACTAAAGTTTTTTTCTAAGAATGAGGGTTCTGCCGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAG
GTCAGGAGTTCGAGACCAGCCTGRCCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAAACTAGCTGGGTGTGGTGGCACATTCCTGTAATCCCAG
CTCCTCGGGAGGCTGAGGCAGGAGAATYGCTTGAACTCGGGAGGCAGAGGTTGCAGYGAGCCARGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAG
CGAAACTCCCTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAATGAGAGTTGTAACTTTGTCTAGTGATTGAAGGAAGAGGATACAGATTTTAAGAGGAGA
GCTGTGAGGTGAAGTTCTGAGTGAGTTTCCTCAAAGCTCTTCCAGAGATAGAGAACGCTGATAGGTTCTTCCAGAGATAGAGAAAGCTGATAGGTTCTTC
CAGAGATAGAGAAAGCTGATAGGTTCTTCCAGAGACAGAGAAAGCTGATAGGTTCTTCCAGAGACAGAGAAAGCTGATAGGTTCTTCCAGAGATAGAGAA
AGCTGATAGGTTCTTCCAGAGATAGAGAAAGCTGATAGGTTCTTCCAGAGATAGAGAATGCTGATAGGTTCTTCCAGAGATAGAGAACGCTGATAGGTGT
CTTTCTGTGTAGCTGGTGCTTCAATGATGGATGCACRTAAACTTCARCAATAACAAATAACACAYATCATGGCTATGTGCAGGCACATAACTTTTTGTAA
TCTTTTCGTATGTGTTTGCTCATTTAAACGTCACAACAATCTTGTGAAGTAGGTACTGTTACTATCTTCATTTTTAAGATTAGGAAATTTGCCCAAGGTC
ACGCGTAGTACCCCTAGCTGCCTGTGGCAAATGTATATCAAAATCTTACAAACCAGCTGGCAACCAGGGCTGTCGGTTTCTTGGTTCCACTGAAGGTATA
GTGAGGATGATTTCAGCTGTTTTAAATTCCTTTTGGAAATAGCATGTTGAGAATGCTTTCTGAGTTTAAGAGAAGGGCAATTATATGCAGTATGAATATT
TTTGGAATGGTTGTGAACTCTATAAAACCATGCTTTCAAAAACATTTAATAATGTATTTGAATRAAATAAAATTAAAATAAGAGGCAAAAAAGACTAGGC
AGTTTTTATTATTTGTATGATACGAAGCTTCAGTCATGTCTTATCCTCAGCTAATCTCTGACTGGCACAAGCCGTTTTTAGAATTGTATACACACCATTA
ATTATTACTGGCTTCCAAGCCTGTTGAACTTAGAGATTTAAACCACATGGCTTTTGAGGGCCTTTCTATAATTTCCCACATTACAAAATCCTCACTTCAT
CCGAATTTGTTCTTTCATGTTATAGATCTCATTAATTACAGGAAAGAATGTTTCTAGGGAAATTGTGTTATTAATTCCAAATCAGTATAGGAACACAGGC
CTTCGGCAACCAGAAGTTGTCTAGTAGAAGATTTGTTTTCTTAAAAAATAGGGAATCGTATACACATAGAATGTGGAAGGCAGAGTATAGTCCAGCAAAG
AGCACCTGTGTTTGAACTGTGAGTCTTATTGTTTGCAGGGTGACTTTGGGTAGATTACTAAACCTCCTGTTGCTTCACTGTACTCTTCTGAAAACTAGGA
ATAACAATTCTGTTTCATCCAAGCGCCATGGTGGGTGCCTATAGTCCCAGTTACTCAGGACCACTTTGGCCCAGGAGCAACATTGCAAGACCCCCATCTC
TTAAAGAAATCCTACCTCACAGAGTTGTTGTGAAGATTAAATGACATATTGTGGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGGCC
AAGGCAGGCGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCAAAACCCAGTCTCTACTGAAAATACAAAAATTAGCTGGGCATGGT
GGTACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCACAAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGTCGAGATTGTGCCACTGCA
CTCCAGCCTGGGTGGCAGATTGAGACTCTGTCTCAAAAATAAATAAATAAATAAACAATATATTGCAAGCAAAGTACTTAGTGCAAGTATTCAGTAAAGG
GAAGGATCAGCCCCTCCTCCAAAAAAAGCAAAAAGCAGTGGAAATACTAGGTAATGTAGATGTCCTGATGGCAGGCACTGGAGTCAGACTTCGTGTTTGA
ATGAGCTCTCCCTACTTAATAGTTACATGGTTTGGGGAAGTTACTTAACCCGTCTTTCAGTTTTCATGTTGTTAATATGGGGATAATAGTACCAGCTTCT
TGGTGTTGTGATTGTCAAAGTCGGCAATTGTTTTCCCCCTTCCTCAAATGTCCTGGTTAATCTGGAATCTACCCTGTGACCGTACTGATTTGTTCAATTA
AACACTGAAAAACAACAAAGAATAAAAATACATGTTTTGAATATTACACTTGGATTTTTTTTATTATTCTCATTGTGGAAAGTTCTATTTTGTAATAGTT
CCTATGTGTTGAGTGTGTGTGTGTGTGTGTGTGTGTGTGKGTTTACCATAGAATCTTATATTTTGCTCCAATTCTTACTCCCCAGCTTCATCCTGTTTTC
CTCCATTGTTAAGCAATGGACAGCTCTGGTTAATCAAATATACCAAATAATAGAGAGCTATCATATATATCACACATGGGTTAACAAGTTTCAAAGGATT
CAAGTATTATAGAGCTCATCCTATGTTAAAGTGAAACTGAACATATTCAACTTTGGTGCTTTAGAAGTCTCATCAGTGTGTACTGAAAAATGGCAAGAAT
GCTAGTTAATAGAGGAGTCCTGGTTGCTAGAATGCTGGGCCAGTAAACTTAATTGCAGCCCTTCCAAGTTATTTTACTCAAATTCACAGGATTTTTCCTT
TGCTTTTCTCTTATACTTCAATTTTCTGATATTTTAAGAGTATTTTGTAAGCATACTGCCAAAAATGTGTAATATCTGGAGTGCCAACAATGTATAATAC
AAACACCCCCCCAGCTGTATCTGTACAATGCCTTCCCAAGTAGGACAAATTCTTTAACCTCTCTAGTGCTTGTTTGTCCATTTAAAACTGGGTGTTTTGG
TGTAATACAGATGTACTTCTGTATATCTCTATCTCATTTTAATGGATGTTTAGTGAAATAAAAGCACTAAGAATATAACAATTTGGTATTTCATGGAAAA
TTTTATCTGTTGGACTCATTTGCTTTATCTTTCCCTTTTTCTGACTACACACTCTCTTCCTCTTGTCTCGCCTTTCCCCCCAATACATTTAGAAGAAAGT
TGCAGACATCATGACACTTCATACCAAAATATATCRGTATGCCAAAAAAAGAGAAATATATCAGTATGCCTGTCTCAAGAATGAGGACATTTTTCTATGT
AACCACAATACTGTACTCACACCTAAGATAATTAACAGTAATTCAGTCTACCATAGTTTTCTTAATGGTAAAGAAAATGACTTTATAAAAAATCCAGGGG
TCAATCAAGATTCATATATCGCATTTTATTGTTAGGTAACTTTAGCCACTTTTAATCACTCTAAAGCAATCACACTTTTTTTTTGATGACTTGAATTTTT
TGAAGAGTCCAAGTTAACTGTTTGGAGAATGTCCTATATTCTGAATTTGCCTAATTGTTTCATCGTGATTAGATTTAGATTAAACATTTTTGTCACATTA
TTACATGAGTGATATTGTGCCCTTCTCACAGCATCACATGAGAAAACACATCATGTGTCTTGTTCTGCCAAGGCTAAGGTGGTAACTGCCACATCTTTCC
ATTATAAAGATGCCTTTTGCTTTTTTTCCCTTTGGTTTTTAATGAGTGATCTGTGGGGTGATACTTTGATGCTGAGTGAATAGTCTGTTCCCTAACAAAC
TTTAACCCAGTGATTTTAGTATTGGCTGAAGATCCTTGCGTGCATCACTTACTACGCTGGTGGTTGCAAAACAGCGATGTTCAAATTTTGTCATTCCTTC
TACCATTTGATGACATCTTTTATAATGAAGAGGTTCTCTAACTGTACCCCATCTTCCTCATGTTACTGTAGACAAATTGATTCTTTGTTTTTGAGCAGGG
TTTCGCTGTGTCACSCAGGCTGGAGTGCAGTGCAACCTTCCTAGGGTCAAGCAGTCCTTCCACCTCAGCCTCCAAGTGGCTGGGGCCACAGAAGCATGCC
ACCATGCCTGGCTCATTTTTTTATTTTTGTAGAGAGGGGGGTTTCACTGTGTTGTCCAGGCTGATCTCAAACGTGTGAGCTCAAGCGATGCCTGCCTTGG
CCTCCCAAAGTGCAGGGATTACAGGCATGAGCCACTGTGCCCAGCCAAATTGATTCTTTTTTTTTCAGTGTGTTATAATCAAGTATTATAATTATTTTTG
ATGTTCAGATTGTCTTTAAATTTGGCCAGTGAGAATGCCTGCAAGCTGGCTTCTATGTCTTTTTCATATATCTCAACATTTATTTGAGCATTTCCCAGTT
TTCTGGCACAAGATGTCCCAGGCTTACCTAATGATTTCCCTGCCCCAGATCAGAAATCATTTTTCTAAGGAAACCGAGTTCCTTTTCATGAGAAATGGTA
TGGAAACCATTATCTGGGTTTTGAGTCTGCTTATTTTTATTAAGAGATTATTGCATTTAGGACTTTTCAGTGGACAAATTTAGGAAATGTGTGTGTGTGT
GTGTGTGTGTGTTTCCTTTGCATTTCCCCACTGCATACTTGTACCTCCCTTGTCAGTAAAACCCTGGTTTCTGATATATCATAATACTCACTAACCTATT
CTTCATTTCTATAATTTTATTCCCAGAATGTTAGTGGAAACATAGAGTACATAACCTTTTGTGATTGGCTTTTTTCATTCAGCATAACTCTCTGGAGATC
CATCCAGTTTGTTGGATATATCAGTAGTTTGTTCCTTTTTATTGCTGAGTAGTATTCCATGGTATACATGTACCACAGTTTAACTTTTCACCTATTGAAG
GACATCTATTTTCAGTTTTTAGTTATTATAAATAAATCTGCTGTAAACATTTTTATACAGTTTTCTACTTGAACATAGTCTTCATTTCTCTGGTATAAAT
GTTCAAGAGTGCAAGTGCTAGGCTGTATGGTAGTTACATGTTTCGTTTTTTTTTTTAAGAAACTGCCAAACTGTTTTCCAGAGGGTCTATTCCATTTTAC
ATTCCCACTAGCAATGTATGACTGGCCTAGCCTCTTTACCACATGCTCACCAGCATTTGGTGTTGTCACTGTCTTTATTTTAGGCATTCTGATAGCTTTT
GTCTTAGTGAGTTCAGGCTGCTATAACAAAGTACCAGAGACTGGGTGGCTTATAAACAATAGAAGTTTGTTTCTTGCAGTTCTAGAAGCTGGAAGACTGA
GATAAGGGTGCCAGCATCTTTGGGTTCTGGGAAGGGTTGTCTTCTGGGTTTTAGATTGCTGATTTCTCATCATATCCTCGCTTGGTGGAAAGAGGGATAG
AGCACTTTCTGGGGTCTTTTTCTTTTTTTTTCTTTTTTTTTTTTTGGTGACAAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGG
GTCACTGCAGCCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTAGGTCACCATGCCYGGCTAATTTT
TGTATTTTTCTTTTTTTTTTTTTTTTTTAGTAGAGACGGGGTTTCACCATGATGGCCAGGCTGGTCTCAAACTCCTGGACTCAAGTGATCCATCCGCCTG
GGCTTCCCAAAGTGCTGGGATTCCAGGCGTGAGCCACCGCCTGGCCCTGGCGTCTTTTTTATAAGGGCCCTAATCCCATTCATGAGGGCTCTACCCTCAA
GACCTATTATTACTTCCCAAAGRCCCCACTTCCTAAGACCCTCACATTAAGGATTAGGATTTCAACGTATGAATTTTGGGGGACAAACATGCAGCCCACA
ACAGGTGTGTATTGATGACTGATTTTGGTTTTAATTTGCATTCACCTAATGGCTAATGTTCACGTGCTTATTTGCCATTTATATATCCTCTTTAGTGAAA
TGTCTATCCATGTCTTTTCTCCTTTTCTAATTGGATTTTTTAAACTGAGTTTTGAGAGTTCTTTATTGTAGATACTAGACTTTTGTCTAGTGGTTTGCAG
ATATTTTCTCTGTAGTTTATCTTTTCATCCTCTTAGCAGAGGCTTCCCCCACCTTTATTTATATGCCAAAAAACTGCATGATTAGTTTATAGTTGACCCT
TGAACAACATGGGTTTGAACTGCATGAGTCCAYGTATGACTGGGTTTTACAACCAAATGTGGATTGGAAATATAGTATTCCCAGGGTGTGAAACCCATGA
ATACCGAGGGCCAACTGTGGGACTTGAGTATGTTCAGGTGGGGGCTCTGGACCAATCCAATGTGTATATTGAGGGATGACTGTGTATAATTTGGTGAGTT
AACAGAGTCTTTTGAGATACAAAATTTTAAATTTTGATGGAGTCCAGTTTATCAGTTTTTCCTTTTATGGATTGTGCTTTTTGATGCTTTTAAGAACTCT
TTGCCAAGCTTGAGATTTCAAATATTTTTATTTTTTTTCTAAAATTTTTATAGTTTTAAGTTTCGTATTTAATTCCATGATCCATTATGAGTAATTTTTT
ATAAGGTGTGGCTTAGATCACAATTCACTTCTTTGCCTATGGATGTCCAGTTGCTCCAGCACCATTTGTTGAAAGATTATCATTCCACCATTGAGTTGCT
GTTGTACCCTTGTCAAAAATCATATTGTGTGGGTCTATTTCTGGGTTTTCTATTTTGTCCCTCTGGTCTTCATGTCTCTTCTTCTGCCAGTACCATACAA
TCTTGCCTACTATAGCTGTATAAGAAGTCTTTAGTTGGGTAGACTGAATTTTTTTTTTTTTTTTGAGACAGTCTTGCTCCGTCACCCAGGCTGGAGTGCA
GTGGTAYGATCTCGGCTGACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGCACCACCA
CACCTGGCTCATTTTCRTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCTGGTGATCTGCCCACCTTGGCC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCAAGCCTGGCTGGGTAGACTGATTTTTTCCCACTTTTTCTCTCGTCGTCATTGTCTTCTTTCTTGCC
CCTTCTTCCTCTTCTCCTCCTCCCCCCTCTCCCCTTCTCCTCCTTTCTGCTCCTCCTTCCTCCTCCTCCTTCCTCCTCCCGCTCCCCCTCCTGCTCCCTC
TCCCTCTCCTTTTTTGAGACAGGGTCTCACTGTCGCCCAGGCTAGAGTGCAGTGGTGTGATCATAGGTCACTGCAGCCTCTACCTCCTGGGCTCAAATGA
TCCTCCTGCCTCAGCCACTCAAGTAGCTGGAACTACAGGTGTATGCCACCATGTCCAGCTAATTAAAAAACTTTTTTTGTAGACACGTGGTCTCACTATT
TTGCCCAGGCTGGTCTCAAACTTCTGGGCTCAAGCAGTCCTCCCACCTTGGCCTCTCAGAGTGTTGGGATTACAGGTGTGAGCCACTGCGCCCAGCCAAA
TCTTTCACCTTTAAGTATAATGTTAGCAGTAGATTTTTTGTAGATGTTCTTTATCAAGTTGAGGAAGTTCCTCCTCTATTCCTATTTTCTGAGAGGTTTT
AAAAAAAATCTTGAATGGGTATTAAGTTTTGTCAGATGCTTTTTTAAAATCAATTAATAGGATCATGTAATTTTTCCTCATTAACCTGTTCATGTGGTAG
ATTATATTGATTTATTTTCAAGTATTGAACCAGCCTTGCATCCATGGAATAAGCCCCACTTGATTAAGGTGTAATTATTTTAGTATATTGTTGATTTCTA
TTGGCTAATAGTTTGTTAAATATTTTTATGTCTTTATGACAGGTGTTGCTTATAGTTTTTTTTTTTATTATTACTGTCTGTCTGGTTTTGGTGTCTGGTA
ATTGTAACTTCATACAATGAATTAGAAAGTTTTTCCCCTTCTATTTTCTCGATGAAAATGTGCAGAACTGGTATTAAATTTTCTTTAAACATTTGGTAGA
ATGCTCTAGTAAAACCATCTGGGCCTGGAGGTTTCTTTTTCTTGTTGTTGTTGTTTTTGAGTTTAAAAATTACTAATTCAATTTTCTTGTTATTATAGGK
CTATTCAAATTATTATCAAGGAATGAATGTAGATCATTGGCATTTTTTCAGGAATTGGTTTATTTCATTCTGAGTTGTCAAATTTATGCTTGTAGAGTTG
TTAATAGTAGTTCCTTACTATACTTTTGTTGTCTCCATGGTATGTATGACATCCTCTGCTTCATTCCTGATACTGGTAATTTGTGCTGTTTGTCTTTATT
CTTTGTCTGTCTTGTTAGAGGTTTGTTAGCTTCATTGACCTTTTAAAAGAGGCAGCTCTTTGTTTCATTGATTTTCTTTCTGTCAGTTTTTCTGTTTAAT
GTGTCTTTGATTTCTGCTCTCATCTTTATTACGCTCTTCTTTCTGCTCACTTTGGGTTTATTTTGTGCTTTTTCTAGCTTCTTGATGGTGGGAGCTTAGA
TTACTGATTTGAGGCTTTTATTCTTTCTAATATATGCATTTGTTACTGTAAAAATTCCTTTCAGCACTGCTTTAGCTGTGTATCATAAATTTTTATGTGT
TTTATTTTAATTTTCTTTCAGTTCCATGTAACTTTTGATTTCCCTCGAAACTTCCTTTCTGACCATAGATTATCCCAAGTGTTTGGAGATTTTTCTAACT
TTTTATTAACTGGTTTCTCGCTTGATTCTACTTTGTATGATTTTAATTCTTTTGAAATTGTTGAGGTTTGTTTTATGGCCCAGGATATGGGTCAAGTGTC
ATGGACACCTGGAAAGAATGGGTATGCTGCTGTTGTTGGATGAAGTGCTCTATAAATGTCTTTTAGATCCTGTTTATTGATTTTGTTGTTGAGTTCTTCT
ATATCCTTGCTTATTTTCTGTCTATATGTTCTGTCAATTGTTGAAAGAGGGTGTATTAGTTCGTTTTCACGCAGCTGATAAAGACACACCTGAGACTGGG
CAATTTACAAAAGAAAGAGGTTTAATGGGATGTACAGTTCCATGTGGCTGGGAAGCCTCACAATCATGGCAGAAGGCAAGGAGCCACAAGTCACATCTTA
CGTGGATGGCGGTGGACAACGAGAGGAGCGCTTGTGCAGGGAAACTCCCCTTTTTATAACCATCAGATGTTGTGAGACTTATTCACTACCACGAGAACAG
CACGGGAAAGACATTCAGTTACCTTCCACCAGGTCCCTCCTACAAAACGTGGGAATTCAAGATGAGATTTAGGTGGGGACACAACCAAACCATATCAGAG
GGGTTTACGTAAATTGTGGGTTCGTCTTTTCAAGTCTGTTAGTTTACCCACAGATATTTGTAGTTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTTGA
GACAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCGACCTCCACCTCCTGGGTTCAGGCGATTCTCCTGCCTCGTTCC
TGAGTAGCCAGGATTACAGGCGTGCACCACCRTACCCGGCTAATTTTTGTGGKTTTTTTTGTTTTGTTTTGTTTTGTTTTTGAGACAGAGTCTTCGCTCT
GTCGCCCAGGCTGGAGTGCTGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGG
ACTGCAGGTGCCCGCCACCACTGTGGGCCCAGCTAATTTTTTTTATTTTTAGTAGAGAGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACC
TTGTGATCCACCCGCCTTGGCCTACCAAAGTGCTGGGATTGAGGCGTGAGCCACCGCGCCTGGCCTAATTTTTGTGTTTTTAGTAGAGACAGGGTTTCTC
CATTTTGGCCAGGCTGGTCTCCAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCTCAAAGTGCTGAGATTACAGGCGTGAGCCACCATGCCTGGC
CAGATATTTGTAGTTCTTTTGTCTGATGCATACACATTTGGGATTGCTGATATCTTGTTACACTGACCCTTTTKTTCATTATCTGATGTCCCTCTCTGTA
TCTGGTAATTTTCTTTTCTGTGAAGTTGACTTTAGTTGATATTAATATAGCCATAACTGCTTTCTTTTGGTTAATGTTCCCATGATGTATCTTTTCCTTC
CTTTTATTTTCAACCTCACTATACTGTTAAATTTGTAGGAAGTTTCTTGTACACAACATATTTTTGTCCTGAATTGCAAGCCATTCTGTCAATCTCTTTT
AATTAATGTTTTTAGACCATTTATGTTTTATGTGATTATTGATGAGTTATAGATTATGTCTGCCATTTTATATTTTATTTTTTTCTTGTTTTTTATTTTT
CTTTTCTTTTTCCTGCCTTCATGTGATTTATTTGAACATTTTTTTGAATTCCATTTTGAATTATCTCTAATATTTTTGAATGTCTTCTTTGTGTATCTCT
TTAAAAATTCGATTTAATTTTTTATTGACACCATATTTGTATATATTTATGGGATACATGTGATATTTTGTTACATGCATAGACTGTGTGATCAAGTTAG
GGCATTTTGGGTATTCATCACTTTGAGTATTTATCACTTCTATATGTTGGGAGCATTTCAAGTTCTCCGTTTTAATTATTTTGAAATGTGCAATACATTG
CTGTTAACTATAGTTACGCTACTCTGCTATCGAACATCAGAAATTATCCCTTCTGTCTAATGTATGTTTGTACCCATTAACCAACTTCTATTCATCCCCT
CCCCACATCTTTCCCAGTCTCTGGCTAATTTTTGTATTATTATTTTTTAGTAGAGACAGGGTTTCATCATGTTGACCAGGCTGGGCTTGAACTCCTGGCC
TCAGGTTTTCTGCCTGCCTCAGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCCTGGTTCTTTATACTTCTTGTCTTTGCCAAGAT
TATTTCTTTTCTGAGGCTTTCTACAGTTTCATTTGCTTGAAGTGTGTTTGCAGTTGCTCACTGAAGCATTTTTTTTTTCATGGTTGCTTTAAATTTATTG
TCAAATCAGTCTAACATCTCTGTATCTCAGTATTGGCATCTGTTGATTGTTATTTTTCATTTAGTTTGAGTTCTCCCTGGTTTGTTGTTATGACAAATGA
TTTTCAATTAAAATCTGAACATTTTTCCATTATATGAAGAGACTCTGAATCTTAATTAAATAAGATCCTTCTGTTTTTGCTGGCTTTTTTRGGATACCAT
TCTGGCAGGGGAAGGGGCTGCRTCCTCATTATTGCCAGATGGAGCTAGAAGTCCAGATTCCACACTTGTCCTCCACGGACACCCTGGAGATGAGGCTCGT
TGGTATCTCTGGGTGGGAGTGGGAGTTTTTGCTCTCCCTTAGGCCTCCACTGATACCACCATGGGGGGCCTCAGTACCACTGAGTCCTGATTTCTGCAAG
GCCTCTGACACTTCCTGGCTAGAGTATTGAGGTACCTTTTTAGAGCCTTTCAAGGGTGGAAGTTCATCTTTGGCCCCAGCTGTCAGCCTTTACTGGCTGG
GGTAAAGTACACAATTTTTTCTCTGATGTTTGGCTGGAGTAGAGCAGTTATTCTCTGAAAGTTTTTTTTGTCATTTTAGGTTGCTCCTTCCCTGGTCCAT
TGGCTAGAGAGAGCAGGCATTTTTTAGGGCTTCTTTTGTCTGCTGCCATTTATGTTTCCTGRTTGACAACTTTTTTAGCCCCAAGTCTGGCAAATAGGAG
GAGAAAAAGATACACAAGAAAATACCAGGGAACTCACTACCGTGTGGTTGCTTGGGCCCCGAGGTTCCTAGTTGGTCAGGCTTCTTCTCCCCACCTTTCA
GTCTTTTTCTGTTTGTTTTATATGTAATGTCTAAGGTATTTAGCTATACTTAGTGGGGAGGAATAGGGAAAAGTATCTATTCCATTTTCCTGGAAATATT
AGTCTCCATCTTTTTTATTTGACTTTAATTTTTGAATAGGTAAAAGTTTTCATGGTTCAAAAGTCAAACTATTTGGTGTTACTGTCACCAGAATAAAAAG
TCAACCTATGTAAAAAAGAATACTAAAAAAGTTTCATTTGTATCCCAATATCTTCTACTGCATTTGAATCCATCTCCTCTATATATATATGATGTATTTT
TTTTCTTTTTCTTTTTGAGACAGAGTCTCACTGTATCACCCAGGCTGGAGTGTGCAGTGGCACAATCATAGCTCACTGCAGCCTTGAACTCCTGGGCTCA
AGCCATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTATAGGCATGCACCACCAAGCCCAGCTAATTTTTCTGTTTTTTGTATGGATGGGATTTCACC
ATGTTGCCCAGAATGGTCTTGAACTCCTGAGCTCAAGTGATCYGCCCACCTCAGCCTCCCAAAGTGCTAGGATTACAGGTGGCTTCTTTCTCATTTCTTC
ATGCTTGCATGCTACTTTGTTGCATATATGTGTAATAGATGTGTTTTGTTTTTGTTTTTGTTTTGAGACAAGTCTCACTCTGTCACCCAGGCTGCAGTGC
AGTAGTGTGATCTGGGCTCACTGCATGCAACCTCTACCCCAGGGTTCAAGGGATTCTCCTCTCTCAGCCTCCCAAGTAGCTATGATTCAGGTGTGCACCA
TGCCTGGCTAATTTTTTTGTGTTTTTGGTAGAGACAGGGTTTTGCTGTGATGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCGCCTGCCTCGG
CCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCATGCCTGGCCTGTGTAATAGGTTTTTTAACCAATTTCTTACTGCTGAGCATTTTGTTTGTTTCT
CATATTTTACTTTTACAAATAATGTTTCATTGAGTAACTTGTGCATCTGTTGTCAAGATATATTTGGGGAGGTACATCTTTAAAGTCCTAGAAGTGGGAT
TGCTGGACCAAATAATAAATACATCTGTAGTTTTATTAGATATTGCCAAATTCTGTTTCATATGGGTTGTACCATTTGCCCTCCCACCAGCAACATGTAA
GAATGCCTGTTTTCTCATAGCTTCACCAACAGAGTGTATTGTCAAGCTTTTGAGTTTTTGCCAATGATTATAAGTGAGAAATGGTATCTCAGTGGTTTTA
ATTTTACATTTCTCGTATTATGAATGAAGTTGAGCATATTTTTGTTTTTAACTGTTCTTTAAAGATATTTTCACTGACTGTGACAGTATGATAGACTTCC
AGTATATTGAAGATCATACCACCATCTTCTGGATTTCTTTGTTGCTGTGAAGAAGTCAGCTGTCAGTTGTCATTCCTTTGAAAGATATCTGTCTCTTTTG
CCATTCCTTTGAAAGTTATCTGTCTCTTTTTTCTCTAGCTGCCTTTAAGATAGTATCTTTGTTTTTGGTGTTCTACATTTCTCTGTGTGTCTGTATTGGA
ATTCTTTTGATGTATCCTGTTTAGAATTAATTTAGCTTCTTCAATCTGTGCATTGATGTCCTTCATCAATTTTAGAAAATACCTGACCACCTGCTCTTCA
AATACTGTCCTTTCCCCATTCTCATTGTCTTCTTCTTCTGGAACTTTGATTAGATATGTATTATACGTTTTCACTTTGTCATTCATTTTTTAACCTTTAT
TTTATATTGTCTGTTTCATATTGAATCTCTTTGTCACTCTATACTGCCTTCTGGAGAATTTCTTCGGATATGCTTTCTGCTTTGTTCACAGATCTGAACA
AACTAAAGTGGAAGGCATATCTGAAGAAATTGTCCAGAAGGCAATATTTAATGCATTGAGTTTTTAATCTTTTTTTTTTTTTGGTATTTTACAGATCTTC
TATTTGATTCTTTTCAAATAGTCATTTTGAAAAAGACTTCCTCATTTTTAATAGTTACTTGTTTTTACTCATATCTTCACTTTCTTTTATTTCTGTGAAC
ACAAGAAACATACTTGTTTTATGTTCTGTTTCTGATAGTTCCAATATTTGAATCTCTGCAGATCTGATTCACTGGATTTTACTAAATGCCTTGCTCATTT
TTATGTTTCACAAATTTTTAACTGTGAGCTCCAGTTTATCCCGTGGAATGTTATCCCATGGAATTCCTTCAGATCGGATTTGCTTTTGTTTTCTCCAGAT
GCCTAGGGACACTATTACTACAGGATTGCTTTAGACTAAACAAATAGCTTGACATACCTGGACCAGCCTGGAAGTCTGAAGTTTGGCTGGAATCTGTGGA
AGGACAGCTTTTGCTTGTGAGTTACAATTTTTCCTCCCCTCTTTCCTCATGTGTCCTGAGTTTAAGCTATGTAAAACCCCTGTAGGAGTTGGTTTATTTG
TAATTTACTCTTACACTGATGATAACTTTTTGGAGAGTTTCTTTTTACAATATCTGTAGGAAGCCTTAAGCTTTATTTCATGAACCTTGACCTTCTAAAA
GGTTACAGAAACCAAAAAGCCAAAGTTTACCTATCCCAGCAAATATCCTCAAAGTAAACATTATGCTCAATTTTCCACTTGCTTTTCTGAATTTCTACTT
TTACTTGGGTTTCTGCCTGAATATTCCTTATTTTTGTCAGTTCATCAATGTAGTGAGGAATATTACAATTTTTTTCTAGCATTTCTCAGTTGCAGAAGGA
TTATTCAGGTTGCCTGGTATACCATTTGGTCAGAAAAAAGTCTGTTACAAAAATCCTGCTATATTGTATGTCCCTTTTTAAAAAGTTGTTTCAAAGTTTG
TTTTGAACAACATGGAATATAAATACATGTACATATGAATTCAGTAAAATAAGAGRCAATAAATATATTAATACTCTGTTTAACCGGATATCAGACTTCA
GGCAAACTCTATTATAACAAGATATTACCACTTGGTTACTTTTTGTTGAGTGGTAAGCACCTCCATTCAAAACACTGCAGAAATGATCACCTAGTCATAG
AGTTCTGACAGTTAATGTACAGGTTAAATTACAACAGCTTCTGTAAAATTAGTTTGATTTGGCTAAGGTGGATATTCTTTTAATTGTTTACTATTTTTAG
ACTGCACCATTTAAGAATTACATTTTAAAGCCGTAATGAATACCACTTCACACCAGCTGGCATGGCAGTAATCACAAAGAAAGATAAGTGTTGGTGAGGA
TGTGGACAGATTAGAACCCTCATGCATTGTTGGTGGGAATATAAAATGGTGTAACCACGTTGGAAAACAGTTTGGCAGTTACTCAAAATGTTAAACATAG
GGTTACCATATGACTTAGCCATTCTACTCCTAGATAACCCAAAATAAATGAAACATATGTCCATAAAAAAACTTGTATACAAATGTTTATAGCAGCATTA
ATCATAATAGCCAAAAAGTAGAAAGAACCCAAAAGTCCATTAATTGATGAATGGATAAACAAGGTATGGAAAATACACAGATGGACTATTATTTGGCAAT
GCAAAGGAACAGAATGAAATACAGACACATTCAGTAACATGGATGGACCTTGAAAACATGTTAAAGGAAAGAAGCCAAACACAGAAAGTAACATATCGTA
TGATTCCACTTATATGAAATGGCCAGAATAAGCAAATTTGTAGAGACAGAAAGTAGATGAGGGGTTGCGATGGACCAGGGAAGGGGAGAATAGGGATTGA
CTGCTGTGGCCAAGAGGTTTCTTTTTGGGGCAGTGATAAAGTTATGAAAGTAGATGGTAGTGGTATTTGTACAACTTTGTGAATATACTAAACCCACTGA
GTATATACTTTTAAAGGATAAATTTTATGGTATGTGGGTCATACTAATAAAAATTATATGAAGAATAGTTTATAGCCCAGGCTGGAGAGCAATGGTGCGA
TCTCGGCTCACTGCACGCTCTGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTATCTGGGACTACAGGCGCCCACCACCACACCTGGCT
AATTTTGTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTCTCGAACTCCTGACCTTGTGATCCGCCCGCCTCGGCCTCCCAA
AGTGCTGGGATTACAGGCATGAGCCACTGCATCCGGCCAATATATTTATTTTTAGCCCAAACTTTAGTAAAATATTTTTATAGGATGAATTTGTGAATAA
TTGACAAAACATGGAATAATTTTCTAGGAAGAAAAGGAAACAGGAAAAATAGAAAGAAGTAATACTATTTCACCTTAATTTAAAGGATTATATTACAAGA
GATACACTGGAACAGAAGCCTGGTTGTTATTTTAGTTGCTTATTTTGAGAATATCTCTAAGCCAAAATGTCAGTGATTACCTTTGATTATTTAACCATAG
TGAAAATATTACTTATGCTTTAGTCTGTTTATTGTAATATAGGCTTTACTTTTTGGATGCTGTGTTACAATCTGCTCTTAATTCAAAATGAATAAGCATG
TTATAATTTTCTTTTGTTTGAATATAAATATTTTGGTAATGGGACAAGTTTAACATTGCCTTCTATTAAAAAGTCAAGAAACAACAGATGTTGGTGAGGC
TGCAGAGAAAAGGGAATGCTTCTGCACTGTTAGTGGGAATGTAAATTAGTTCAGTCACTGTGGAAAGCAGCTTGGAGATTTCTCAAGGAACTAAAAATAG
TACTACCATTTGACCCAGCAGTCCCACCATTGGGTATATACCCAAAGGAAAAAAGACATATGCACTCGTGTGATCACCACAGCACTATTCACGATAGCAA
AGACATAGAATCAACCTACGTGTGCCCATCAGTGGTGGAGTGAATAAGGAAAATGTGGTACATACCCACATGGAATTGTGTGCAGCCATAAAAAAGAACA
AAATTATGTTTTCTTCAGCAACATGCATGTAGCTGGAGGCCATTATCCTAAGTGAATGAATGCAAAAACTAGAAAACCAAATAGCGCATGTTCTCACTTG
TAAGTGGGAGCTAAACAATGCAAACACATGGACATGAACATGGGAACAATAGACACTGTGGACTTTTAGAGGGCAGACGGAGGGGGGCCAGGATTGCAAA
ACTACCTGTTGGGTACTGTGCTCACTACCTGGGTGCAGTATACCCATGTTACCATCCTGCACATATGTACCCTGTATCTAAAATAAAAACTGTAATTTTA
AAAAGTCATGTCTAATGTATTTAATAGTATTTGTCTTTGACTCACAGAAAAAAATAATAATTTAAAATTTATGTTCATAGRAGCTTTTAAAGAGAAATAG
ATAATTGAWTTTTTAAAATTATCAACATGCTGGGCACTCAAGGAATATTTGTTATTAATGATTAAACTCAGATATTAATCACTTGATTAAATCCATACAT
TCATGCTGTGATAGAAATTACCTCTAAGTTCTCTAGAACTTAAGAAAGAAAGCACCTTGAGATCGTCTGTTTCATAGTTTTTCAAATTATGCGAAGACAG
AGTTTCACAGAAGCGCGTTTGATAGAAGGAAATTCACAGTGAAAGTGACCTGTGCTGGGTCCCCCATTCTACTTCAATCAGGCATCTGTTTATCTGTTTT
ACATAAAATGAGGAAACTGAAGAAATTGTCAACATTATCATAAAACAAAGTTATGTTTTTCTGGACTAAGTAGCCTTCAAGGTTAATCAGATACAAATCC
ATTTATTTTCAGAAAAGGAGTTAGAAAACTCAAAAACTTCTCTGATTTCATTAGTGGGTTTTGTTKTTTTTTTTTTTTTTCCGAAACAGTCTCGCTCTGT
AGCCAGGCCGGAGTGCAGTGGTGCGATATCGGCTCACTGCAACCTCTGCTTCTGGGGTTCAGGCGATTCTCCTGCCTCAGCCTCCCAAGCAGTTGGGATT
ACAGGCGTGTGCCACCATGCCCGGCTAATTTTTATATTTTAAGTAGAGGCGGCGTTTCACCATGTTGGCCAGACTGGCCTCGAACTCCTGACCTCAGGTG
ATCCACCCGCCTCGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCTGGCCGATTTTCACTTTTTACCTGGTGGTTTTGTTATGTTACAAA
AGCACTCACTAAAGTCTTCAGGGCTGATACCATCCTTAAAGAATCTATGCTGTAGCAGTGAGGACCATTGTCAGGTTTCAAGCAGCAGTTAACTGTCTAA
AAATCAGCATTATTTGTCATACTAAATTAATGTTGCCCATTTGATGATTATTGGCTTTGCTGCTTGCGTATTTAATTTGAAAATTAGTTTCTGCTTTGCA
GTTGTATAAGAACTATAAGCATAAGAGGTTTATGCTTAACTTTGTGTTTGTTTTAGTGAATCCACACTAATGAAAAAATTGAAGCTGTTCTTGAGGGGAA
AATCTCCTGGGCCAAATCATCCTGTAACCTTAACTCATAAAAGTTGTTTTTCAACGTCTCAATTTTTTAAAGCTGTTGTATCTACTCTAGATTGTTCACA
TGTTGATTATATGGATTTGCTCTTTTTGAGGGAGTCGGTTTACTCGGACAYTAAAAAAACAAATAGTGGCYGGTCATGGTGGCTCACGCCTGTAATCCCA
GCACTTTGAGAGGCTGAGGCGGATGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTAGCCAACATGGGGAAACCTCATCTCTAATAAAAATGCAAAAA
TTAGCTGGGCGTGGTGGCATGTGCCTGTAATCCCAGCTACTTAGGAGGCCAAGGCAAGAGAATCGCTTGAACCCCAGAAGCAGAGGTTGCAGTGAACCGA
GATCGCGCCACTGCACTCCATCCTGGGTGACAAGAATGAGACTCCATCTCAAAAAATAATAATAATTTAAAAAAAGAATGAATGTCTAGGTCTTAGTTCC
TTTCTTCAAGCTAATCTATACCATATATCTTCTCAGGGAGTTAGAAATTAGACTTTTTCTTAMAAGTTGAGATAAAATTATAAAAAGTTTACAGTTCTGC
AACAACATTTAGTTTTTCAGTAACACCTTATTTATCTCATTTTTAGGCCCAGTCTTTAAACTGATTAATATCTTCCCAGCTGTTAGCTTATTTTAGTTCT
GTCAAAATGAATTAGTTTTTTTTACTTTTACTTTTTCATCCTATGGTTCTAGATAGACAGCCCAAAATGATATTCAGGCATATAAAAGGGACCTCTTACA
GGAGGCAGTGGAACGACATTTTCAGATTTTCCTGGATATGAGATAAGGGAATTGGGGAATATCAATAGAAAAGATGGAAAACAGATTAACTGGAGATCTT
TGCTGAGACAGTAAAGTGGATTTTTAAAAAGCTATAGAATCTCCTTTGGGGATTTTAATGTGAAGATTTTGAATAATATTTTTATCAYGTGATTATCATT
GCAGTAAGGGAATGGACAAGTGATTTCTTGCATGTTTAAAATTTGTCAGTGGGCTGTACCATCTCTCCAGGGCTTGTTTTGTGGCCATACAACTGTGCGA
TTGGAGAGGTCCCACTCTTAGAAGGGCCATGTGCTCTGTAAGTTTTGAACAAGGGGCCAGCATTTTCGTTTTGCACTAGGACCCAGCAATGGAGTCAGTC
CTATTTTTTCCCCATGATTGTTTCACTTAAAGCAAAGAAACCCATGTCATTAATGTAAATGAAGATAATATCTATTTCTTGGGTTTATGATAAGACGAAT
TAAAACGTGGAAGTCGGAAGTCCATTTTGAGTTTCCTCAGTATGCATTGTAACTTTCTGTTTTTTATATTATTTCTCACGTATTTCTTCCTGGCTGCTTG
TATCTAGAGGCACCCAGGGAAGTTATTTGGGACTCTGTACTGACAGTAATGATGCTGTTCTATATCTGTTTTGTCATATATCCCTGAATTTCACTTGTCT
GAGAAGWCAGATCCTTCAGTCTGTGACTGACATCCTTTTCTATCATCTTGCAACAACTTCTCTAGGCTATTTTACCTAGGAAATAGGCCTAGAGCTTTCA
GCTGTCATAAGTTGTTAGCTATACAAAGACATTGGCAGCCTGAACTTAGACACTATATCGTTTGATACTTGTTAAATTCAAGAGACCAATTAAGTTAAAG
AGCAGGCTTGAAATTATATATAAAAAACTGCTTAGAAAAGTTGAACATTATAGAATTGTTAGCGATTTATCATTTTTACCTTCATTTTTTCATCGACATC
CTGTTGTACTTGCCATGATCCTTTTCTTTTTTAAAAAGTCAGGCTTATTAATTATAACTTACATACAGTACAATTCACACATTTTTATTTGTACAGTTCT
GTGCATTTTAACAAACATATATAATTGTGTAACTATCATATCATCAAAGTGCAGAATATTCCTATCATCCAAGAAATTTCTTTCAACTTTATAGTCAGTC
ATGTATTCCCATCTCACCCCCATCCCTGGTAACTGCTAACCTGTTTTTATGCCCTAGAGTTTTGTGTTTTTCAGAATGTTTTATACATGGAATCATATGA
TATGCAACCTTTTTATTATACTTTTTATAATATTCCAGGATGTTATATAAATGGAATCGTGTAGCATGTAGCTTTGTCCACTTAACATAAGGATCTCGAG
ATTCATCCMTGCTGTCGAGTATATCAGTAGTTGATTCTTTTCTTTTGCAGTTTAGCATTCCATTGGATGTACCACAATTTGTTTAACATTCATCAGCTGG
TGGATATTTGGATTGTTTCTATTTTGTCTGTTAAGAATAAGGCTGCTATAAATATTTGCATGCATTTTTTGTGAGAATGTATGTCTTCATTTCTCTTGAG
TAAATGCCTAGGAATGGGGACTACTAGGTCACAAAAGTTTATGTTTAATTTTCTAAAAAACTACCAAACTGGTTTTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTTTGGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCATGGTGTCAGCTCACCGCAACCTCTGCCTTCCGGGTT
CAAGCGATTCTCCTGCCTCAAGCCTCCCAAGTAGCTGGGATTACAGGCATGCTCCACCACACCCGGCTAATTTTGTGTTTTTAGTAGAGACAGGTTTTCT
CCATGTTGGTCAAGCTGGTCTCGAACTCCCGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCGTGAGCCACTGCGCCCGG
CCAAACTGTTTTTCAAAGTGGTGGTTTTATTTTGCATTCCCACCAACAATGAATGAATATACCAGTTGCTCTACATCCTTGCCAGCACTCGACAATGTCA
GCGCTTAAAAAAAAGTATCAATTTAAATATATGTGTTATAGTATTTCATTGTAGTTTTAATGGGACTTCTCTAACGTAATGATGTTGGACATCTTTTCAT
GTGCTGGTTTGCCATCTGTATAATCTTTGGTGAAATATCTGTTCAAATTGTTTGCTCACTTTTTTAAAAAAACTTTTTAATTTTTTTTAACTCTTTCTAT
ATACTGGATATCAGACCTTTGTCAGACATATGTTTGCAAATATTTTCTCCCAGTCTGTGGATTTTCATTTTCTTACACTGTCTAGTGAGGAGTTTTACAT
TGTAATGATGCTCAATTTAACATTTTTTTTTAACGGTTTATGCTTTTCGTGTTCTGTTTAAGAATGACTTGCCTCATCCAAGGTCACAAAGATTTTCTCC
TATATGTTCTTCTCGAAATTTTATAGTGTAAGTTTCATGTTTACGTCTCTGACTCCTTCATTTCTAGGACTCCTTTATTTACAAAAGTTTGTTATTTACA
AATTTGTGTCTATCCTTTCACCAGTGCCACATTGTCCTAATTACCATAGCTGTATTGGAAGTCTTGAAATCAGGCAGTGCGAGTCTTCCAACTTCACTGT
TCATTTTCAAAATTGTTTTAGCCATTCTAATTCCTTTGTCTCCATATGCATTTTAGAATCAGCTTCTCTATTTGGACTGCACTTGCATTGAATTTGTGTA
TCAATTTGGAAAGATTTGCTTTTTCTTCATGTACAGTCATTCCTTGGTACCTATGGGGGATTGATTTCAGGATCCCCCYGTGGATACCAAAATCTGTGGA
TACTCAAGTTCCTTATATAAAAGGGTGTAGTATTTGCTTGTAACCTATGCACATTCTCTTGTATACTTTAAATCTCTAGATTATTTATAATACCTAATAC
AATGTAAATGCTATGGAAACAGTTGTTATATTTTATTGTTTAGAGAATAACGACAAGAAAAAAGTCTATACATGTTCAGTAAAGACAAAACTATCCAGTT
TTTCCCCGAATATTTTCAGTCTACAGTTGTTGAATCAGGAGCCTGTCATAATTCTGACAGACAAAATTCCAGACAGTGTAATCCTGAATGTTGAAATTCT
GAAAGATCAAAATCCTGAAAATATAATTCTGGAAAAAATAATTTAAAATTCTTCAAAGGACATTTGTTTACATTTAGAAGTGGGATTTATTTGAGAAACA
TGTAAAAACATGACAGAATACTTCATAGGCCAGTTTACACAATAAAATAGGCAATAATATATATTTTTGTAATCATAAATATTCAGGTATAGTAACAACA
GTCACATATGTATCACAATTATGAGCAGACAAACCATATTCATAAAGAAATAGGTCATAAAGATGGGGACCATGGTGTGTCCCTATAATCCCAGCTGCTT
GGGAGGCTGAAGGGGGAGGATCGCTTGAGCCTAGGAGTTCAAGTCCAGTCTTGACAACGTAGTGAGACCTCATCTCTTAAAAAAAAAAAAAAGGAAAGAA
AAATATATCAAAAAGTGAAATGTATAAAGGCACTATAGTTGGTAATTGTGTGTACCCAGCTTTGTAACTGTAGTCACCCAAAATATCATGATGTTCAATC
TAAGTGTTTTGATGAGATATATCAAAAACCACGATGGGTCACCACTACATATGTCCTCTTTCAAAGAGCCGAGATCTCAAGAAATTTATCTTTCACAAAT
GCAAATGTAAAAAAAGGACTTTTTTTATTTGTTAAGTTTCAGCATTTTTATGCTTACACACACAGTCAACATTGTGATAATGCAGTTTCACAGAGTSAAT
TTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGGTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTYGGCTCACTGCAACCTCTGTCCTCCCAGG
TTCAAGCGATTCTCCTGCCTTAGCCTCCTGAGTAGTTGGGACTACAGGTGTGTGCCACCATGCCTGGCTAATTTTTGTATTTCTTTTTCTTTTTCTTTTT
TTTTTTAGTAGAGATGAGATTTCACCATGTTGGCCAGACTGGTCTTGAACTCCTGGCCTCAGGTGATCCACCTGCGTCGGCYTCCCAAAGTACTGGGATT
ACAGGCATGAGCCACTGCGCCTGGCCCATGGAGTCAATTTTTTGATGTCCAAGGAGCGGAAGAAAAGCCTKTCTCAGCTCTCAGAGACCAATTGCCTTTT
GTATTTGTTCTTTCCTGGCCCTCAGCCAGTTGGATGATGCTTGCCGACATTGAGGTCAGATCTTCCTGCCTAGTCTACTCAGACTCACACACTAACCTCT
TCTGGAAACACCCTCATAGACATACCTAAAATAATGCTTTATCATGTTTCTAGGTATTGCTTAATCCAATCAAGTTGATCCCTAATGGGAAGTCCATAAG
CCCATCTGTCATCACCTTGGCACCCATATGCATCTCCTTAAACCATACTTAATTTCCAAATAAAGACAATAACAAGGTAATAGTTCCACTTTCCGTGATG
CAACTATCCTCGGATGGTGATTTACAGGATTTTAGACACTCGGGGCTTTCGACTTTAGGGATTTTGATCTTTTAAGATTTCAACATTTGGGATTATGGCA
TTTGGGGTTGTCTTTTGAGATTGTGATCCAARCCCAGTTGAATCCACAGGTACAGAACCCACGGATATGGAGGGCCAATGGTATTCTGAGACTCTATTGT
TAGGTTTATACATATTTAGGCTTATATATGTTCTTGGTCAGTTGACCCTTTACCATTATGTAATGTCTTTCTTTATCCTTGGTAATATTACTGGTTCTGG
AATCATCTACTTTGATATTTATATAGTCACTCTAGCTTTCTTTTGATTAATGTTTGCATAGTATATTTCCTTTATACTCTTGCTTTTTTTTTTTTTTTTT
TGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGGGCAGTGGCACGATCTCGGTTCACTGCAAGCTCCGCCTCCTGCGTTCACGCCATTCTCCTGCCTC
MGCTTCCCTAGTAACTGGGACTACAGGCACCCACCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGG
TCTTGATCTGCTGACCTCGTGGTCTGCCTGCCTTGGCCTCCCAAAGCGCTGGGATTACAGGCGTGAGCCACCATGCCCGGCCATGCTCTTGCTTTTAACC
AATTTATTTCTTTATTTTCAAAGAGGGTTTCTTGTAGATAGCCTATCATTGGGCCTTGCTTTTTTATACAGTCTGACATCATGGCTTTCTTTGATTGTCC
TGTCTGACCTAGCCTTACTACTTCTCCAACTTCACATGTCTCATTACACTCTCTCTCCTCTACTCTTCTCCCATCAGATTAACCTTAATTCAGTTTGTAG
AACTAGTGAAATTCTTGCTCAAGACCATTGTTCTTGCTATTGTCTCTGCGTTGAGTGTTCTCATACCCTGTGGCATCTGCCATCCTCCCCCTTTCAGCCT
CTCATGCTATAATAAATAGTCCTCTTGTCATGTCTCTTCTTAAACATTACCTCTTCACAGAAACCTTTCCTGGCTATGCTATCTAGAGTAGGCTCTCCCT
GTTCTTTCTAACAGAATCATGCTTCTTTTTTTTTTTTTTTTAATTTCCATAGATTTTGGGGAACAGGTGGTAATTTGGTAATTTGTGAGATTTTGGTGAA
CCCGTCACCCGAGCAGTATACACTGAATCCAGTTTGTAGTCTTTTATCCCACATCCCCTTCCCACCCTTTCCCCTCAAGTCCCCAATGTCCATTGTATCA
TTCTTACCCCTTTGCATCCTCATAGCTTAGCTCCATTTATGAGTGAGAACGTATGATGTTTGGTTTTCCATTCCTGAGTTACTTTACTTAGAATAATAGT
CTTCAGTCCTATCCAGGTTGCTGTGRATGCCATTACTTCATTCCTTTTTATGCTGACCAGTATTCCATCGTATACATATATACCACATTTTCTTTATCCA
CTTGTTGATTGATGGGCATTTGGGCTGGTTCCATATTTTTGCGATTGTGAATGGTGCTGCTATAAACGTGTGTTCAAGTATATTTTTTGTATAATGACTT
CTTTTCTTCTGGGTATATACCCAGTAGTGGGATTGCTGGATCAAATGATAGTTCTACTTTTAGTTCTTTAAGGAATCTCCATACTGTTTTCCATAGTGGT
TGTACTAGTTTACATTCCCACCAGCAGTGTAGAAGTGTTCCCTTTTCACCGCATCCATGCCAACATCTTTTTTTTTTTTTTTTTTAGTTTTGGATTATGA
CCGTTCATGCCGGAGTGAGGTGGTATTGCATTGTGGTTTTGATTTGCATTTCCCTGATCATTAGTGAGGTTGAACATTTTTCCATGTTTGTTGCCCATTT
GTATATCTGCTTTTGAGAATTGTCTATTCATGTCCTTAGCCCACTTTTTGATGGGATTGTTTTTTTCCTTGCTAATTTATTTGAATTCCTTGTAGATTCT
GGGTATTAGTCCTTTRTTGGGTGTATAGATTGTGAAGATTTCCTCCAACTCTGTAGGTTGTCTGTTTACTCTGCTTATTTTCATCTTTCTTTATTTGCCC
TGCATATCTATTTGTTTACTATACTGTCTACTTTCCCCTCCTAGAATGCCAACATTATGAAGGTAAAGGAATCTTGTCCGTCTTGTTCTTTATTGAATGG
CTAGCATTCAGTAGTACAGTGTCTGGCAGATAGTACATATTTGTTGAATGACCAAATGAATAATTTTCAAAATTTGCTTCTTTCTAGGACTTACATAGTC
TTACATGCTTGTACATTTTCACCGTTAGACAGAAATGTATTTATACTTGCGAAGTTACCCTTTACCCATTAGCAGTCATATACATATCTTAAGTGATTTG
TAGTGCTGTTATTATTATATGACCAAGTATATGATCTTTGTAAGACACTTTTTTCTTTTTCTTTTTTTTTTTTTTTTTGAGACAGAGTCTAGCTCTGTTG
CCCAGGCTGGAGTGCAGTGTCACGATCTCAGCTCACTGCAACCTCTACCTCCCACATTCAAGCRATCCTCCTGCCTCAACCTCGAGTAGCTGGAACTACA
GGCATGCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGATGGTCTCGATCTCTTGACCTCATGATCCT
CCCACCTTGTCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCCTTTTTCATTTTTTTAAAAGCACCCCAAATTCCCTAAGATGCAG
GTAAAATGAGGAAACATTAAACTGAAAATAGATTAGTGATGTACTTTTCTGAAAAATTCGGAGATTAACTGAAAGACCAACATAAGCTTTATTATTTAGA
CATGSCTTTTCAGTTCATTTTCACATTTACATATGTAATGAGATATAGTATACTATTTAAATTTAACATTAGGTGACTAACTTTAAGCTCTGTTAAAATG
GCTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTTGATCTCCTGACTTCGTGATCTGCCCACATCAGCCTCCCAAAATGCCGGG
ATTACAGGCGTGAACCACCGCGCCCGGCTTCTCTTAGCACAAATTTCAAGTGCCATATATAACATATTATTATTAACTRTAGTCACCGTGCTGTACTTTA
AGTCCCCAGAACATACTCATCTTAAAACTGCAAGTTTGTACCCTTTATTGGTCATTAATTTGTTTCTTGAAAACTTGGTATGTTCTTGGTTTAGGAGAGG
CAACCTCATAGTACTAAAATGTGGGCAAATGTGTAGTCATTTGTGAGCTGTGATGGAAGCAAACAAATAACATAAGCTTCCATCCTGATATTGTTTTAAT
TATGCCCACTAAAGACTCATTGGAAAAACATTTAAATGTTTCAAAACTCTGAAGGGATAGATCATGTATTAAGAAAATGGAAGTTGCCTTAGCAACCAAC
TCCTCTCTTTCAATATGGGAATCCAGGAGAAATTTACAGACATCATTACCATCGTCTGTAAAGGGACAAAGTAATTTGCAGGGRGAGTTTTTAAGTTTAA
GTGTCTTTTCAGTAGTAGAGTAACACGGTAGAGTGGTTCTTGAGATCATATTATTTTAAAATGACTTAACTTGCGTAGAGTACAATATTCAACTTTTCTG
TTTTCCTAGAAGTCATACATGAATCTAAATTGTTTTAAAATTTTTATTTAGTGTTCTGATACTTGTTTTAAATTTAACCCTGGAAGCATGACAAGGAAAA
TAGTAGTTTAAAAAAAGTATGCAATTTTTTTTAGGTTATTGTCTTTTCTGAAAAAATTTTAGTGTAATTTAAATGTTAGGGCTTTATGTCAAGTTTTATC
TTTATAATGTTTTCACTATAAAGTAGTGAGGCTGTGTTACAAAGTGCAATATGTGTATATTCATATGTGTTCAGGCATTTACTGAGTACCCCCTCTGTAT
TAAGCACTGTGCTACCAACAAGGTATATAAAGATGAAAGACACAGCCCTTGTCATTAAGGAGCCCATAGTCTAGTGGAAGAGACAGATAAGTAAAGTAAA
AACTATAGTCAAGTATATATGCCGTATAAAAATATATCCAGGATGGTTTGTCAGCACAGAAGCAGAGTATCTAAGACTTAGGGCATCAGGAAGACTTCTA
GAACGRAGGATGCCCGAGCTTAAAGGAAAACAGGAATTGGCTAAAGAAGGAAAGAACCATCATGTCCCATCTCCAGTAAGACTTGCAGATATGAAAGAAC
ATTCATTTATTCATTTATTCAACAAACATTTGTTGAGYATCTATTATATGCCAGACATATACAATGTAATACTGCCTTGGGGACATATTAGAACATAGAA
CTAGACACACTCCTGCCTTTTTAGGCATATGAAGAGAATAATACAATAATCACAAAAAATTGTAAAAACTATAGTTGTGATAAATGCAGTGAAGGAGAAG
TCCAGGGTGCTGTGAGAATGTGTAATAGAGTGGGGATTGGGGCAGTATTCCCTGAGGAAGTAACACTAAACCTGACAACTGAAGGATGGGTCCATAAACA
AAGATTATACAAAATTGTACTGATTTCACTTTTACTGTTAGAAAATGTAGGTTCTTGGGTATCTTTCAAGATCTTCAATGAGTTCAGTCTAGCTAGAACG
TAGCGCACATGTGGGAGAAGGAAAAGACAAGCTGGAGAAGTAGGCAGGAACAAGATCATGGAAAGCCTTGTATACCTTTCTAGGAAAATTGCCTTTTATC
TTGAAGGTGATCGATATTGTGAACCATTTGAGGATTTGAAGCCAAGCTGGGAGAAACATAATCAGATTTGTGTTTTAGAAGGATCTTCTTGAGAAAGATT
ACTGTGGAAGGCAAGGCTGTATCTACTTGTTTCTTTGCTAAGTAATACATGATAGGTTCTGTGTTTTTAAATTTTAATACCATATTTTTGTTCCTTCAGT
TCTGCCATATCAGTGGCTTTTCTCTCTCTCTCTCTCTCTCTCTCTTTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGGTACACAAAT
GGTGAGAACCAGGGTTTTTACCCTAAGTGATGGGCATGGCTTCTAAAGATTTCTCACAGATCTTACAATAACTGAATTGGAGGAAATATATTTTACATAT
TTTAAAGTGATATGGCACTTACCCAGAAATAAATAATAMTAACTGATGTTTTCAGTAGAAAAAAAACAATTGGGAAATTCCTAGATTGTGCTATTTGCAT
TTTTATTGACAAGGTTGCTGATTTTAAAAGTAAGATAGAGGTTCTGTTTAAATAAATAATTGGTAATAAATGTTGATTTTCCATAAATGTGGTTTCTCAT
TTGAAAATGTAGAGGGTCAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACGAGGTCCAGAGATCGAG
ACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTTAAAAATACAAAAAAAATTAGCCGGGCATGGTGGTGGGCACCTGTAGTCCCAGCTACTTGGGA
GGCTGAGGCAGGAGAATGGCGTGAACCCCTAAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCCACTGAGCAAGACTCCGT
CTCAAAAAAAAAAAAAAATGTAGAGGGTTAGACTAACTGACCTCTAAAGACCTTTCTATCATAGTCTATGATTCTGTGTTTGCTTTTCAACAGGTCATTT
TTCAATAGATACATACCTTTGCTTTGCTGTACTGACACAACAAATTAAGGCAGTGGTTCTCAACAGTGGATAATTTTGCCACCCAGGGGACATTTGGTAA
TGCCTGGAARCATTTTTGGTTGTCACAACTGGAGAGTTGCCTACTCATTTCTAGTGAGYAAGAGGTCAGGGATGCTGCTGAACATCCTAGAATGTAGAGG
ATAGCTCTTCACRAGAATTGTCCAGCCTAAAACGTAAATAATAACAGRAACCCTGAATTAAGGCAAGATTGATAAGACTACCTTTGGTTAATATATAGTC
CTTGAGTAGATATGACATTCTATCTGTACTATAATATTTGTTTTTTCGTTCACTCATTCATTCTAAACATTGCCAAATGACGTTAAACACATCATCTTCG
TATTCCATGTGCCATTATCTAATACAGAGTAGGTGGTGTTGAGATCCCTGAGGGGTACCAATAAATAGCATTCTTCCTTTGCTGAGTTGTGGGCCAGTTG
AGAAATAAAATAAGAATATTCATCTGCAAGCCAAAATATTACCGTCTGTCTACTAAACACTGAATTAGAGGATGTAGCTTGTATTTGCTAGCATATGGGC
TTCCAAATTCTGCACCTCAGAAGACTTATCCACCTAGGCATAGCAGCACTGGACTGGGACAAGCTCCGTTGCAGAGACCATCTGCAAGGGACTGAATGTT
TGGTCCCCCACCGTCCAAATTCATATATTGAAATCCTAATCCCCAATGTGATGGTTTTAGGAGCGGTGAGACCTTTGGGAGGTAATAGTTCACGAGGGTG
GAGTCCTCATGAATGGGATTAGTGCCGTTATGAAAGTGACTCCAGGGATCTCTTTAGCGCTCTTTTTGCCGTGTGAGGTCACAATGAGAAGTCAATGATC
TGCAGTCCAGAAGATGGCCCTCACTAGCATCCAACCATGCCAGCAACCTGATCTTATAAACAATAGATCTCTTTTGTTTATAAGCCATACAGGCTATGGG
GCTTTGTTATAGCAGCCTAAAGTGATTAAGACACTGTCTTTAGAGAACTAGGTCAGAACTTGCATTACCTTTGGTTGGCTCACTCCCAAGAGGCAAAAGG
AGGGTGCTGAGCCAAGCATATGTAGTTTTGTTTTTTTCCAAATTTGCCAGCCAAGAAGCTATTCTCTCTCTCCTTGACCATAGGGAGGAAAGGCATAGAG
AGGGGCCAAGAGTTTTATGCCACTTGAGCTCTCTCCATATGGAAGGATACATCAGGGAAGGAGAGGAAGCCTTCTCCATAATGGGTCCCAATAAATGCTG
ACAGATTATGATGTAGAATCTACTGTAAAGTCTACAGGGGGAATATCAGTTTATTTTTTTTCTGGGTTTGTGTACTTTTATTGTGTCTAATCTGTCCATC
AGTTAACCAGTAGCCAAATGACTACAGCCAAAACAGGGGAAAATTAATTAGAATTTTAGATTATAAAAGGGACCTTAAAGATTATTTAGTGTATTGGCTC
TCAGTCTTGGTTGTACATTGGAGTCACTTGAGAAGCTTTTAAAAAAATATATGCCAGAGTACCATCCCAGACCGTGTAAAATAAAATCTTAGGTGGGAGG
AAGTAGGACCTGAGCATTTATTATTTTGTAAAATACCCCTTAGAGGATTCTGCTGCACACCCAAGATTGAGAATCACTGATCTATTCTAACCTTCTCATT
TTATAAAAAATTAAACCAGAGCGTTTGAGTGAATTGCCTGAGGCTGTAATTAGTGAAAGTTAGAGTAAGAATCTGGCCTTCTGCCTCAGAGTTTAGGGCT
TCTTATTGAAAACAAAGTGAGTTCCCTTTTTTTCCCCATAATTTTAGTTCAACAAAAGAATTTGCAAAAGCAATAGTCTTACGTCTGGAGATCTGGATTT
TAATCTGATTCTGGTGTTAGCTTATTAAGTCATTCGGCCTCATTTTCCTTCTTTTTTAAAATTAAAGAATTAGACTAGAGCATTTCCAAGGTTTTTTCAG
TCAGTAAAACCCTATGCTTCTATGGTTTCAAATATAAAGAATGAGCTTTATTGCTCCTTAGGGTTAATTGTTGTTTTAATTTTTAGTAAGAATCCACTGT
CTAGCAAGAATGATGATAGGTGCTTTCATTTACATTCATTCCTTTTAATGGAAACATTTTAGGATAGGTTTCTGATGGGGAATCTTTAATCATTAAAATC
AAGATTCTACTGCTATTTAAATTATAATACCTTGAGCTGGGCTTCTTAGTTTCATTAATTTACTGAAGATGTGGACTCTAAAAACATATTTACATGATAG
AGACTATCTGGAAAAATGCTGTTAATTCTTGGATATTTCCAAGTGTGGATATGTTCACATATCTGAATAATTACTTGACTCCTTTTAATTTAATCTGAAT
ATTTCTGAATATTTCTCAACATATAACAAAACAAAGTTACCATTTATGGTATTTCAGTTATTTTTGTGTTCATTTGGTTATTTTCTTTTTTTGGGGGGTG
GGGGCGGAGTTTTGCTCTTGTTGCCCAGACTGGAGTGCAATGGCGTGATCTCGGCTCACCACAACCTGTGCCTCCTAGGTTCAAGCAATTCTCCTGCCTC
AGCCTCCCAAGTAACTGGGATTACAGGCATGTGCCACCATGGCCGGCTAATTTTGTGTTTTTAGTAGAGACAGGGTTTCTTCATGTTGGTCAGGCTGTTC
TGAAACTCCCGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTAGGTTTACAGGYGTGAGCCACCACGCCCGGCCCATTTGGTTATTTTCTTA
GAGCAATCAACTTAGAAAGTATTCTTTGACATTTAAGTTGTTAATTTAAATTGTTACAGATTCTGACTCTAAGGACAGGACCTATTATATTCCAGGTACT
AAGCCATGTACCTCCCCCTTCCCTGTTCCACATAGCTCTGTCTCTGGCACTTAAGAAGTATATAATAAATTTTGGTTGGCTTATTTACTATTTTATATTC
TGGCATTAATAGCCCACTGTGTCTTTTTTTCATATATATCACAACTGGAATTTTACTTTTGGCACTATCTAGCAATTAGTTATAATAGAAGCCCTAAGAC
TAATGAATAGGATTATTTCAAGAAATGCTTTTACTAGTGTTAGTTATTTATAGGTCCTTCTATGCTTGTTCATTATTTTATGACCGGATAAGTTTTCCTG
ACTTTTTCTTCCTGAATAAACCTCAGGTGAGGCAGGAATCCAGACACTTACTTTCAGCCATGTTCGAAGAAAAGGAAAATGCTCTTTAAGCAGTCTTGTT
TCCTTCAGCCTCTATTCTTAGAATTCTATCCAGAAAAGGTATGGCACAGTTAGTTCTTTACAAGTCTCATCTGTTTTATTTTACATTGCCATTAACTTTC
TTTTTTTCTTTTTTGTATTTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGTCTTGATCTCCTGACCTCATGATCTGCCCGCCTCAGCCTCCCAAA
GTGCTGAGATTACAGGCTTGAGCCACCATGCCTGGCCCTACATTGCCATTAACTTTCTACATATTGTAGATCTTTTCTTTAGTATAGATAAAAACTTCTA
TTTGAAGGCAAACATTAGATGGTCCTACTTTATTTTCATTGCAAATCTCTATGGGATTTATGTGCATGTCAAATGGCAATTATTATTTTGGAATAAAAAT
GTTAAAAATTTAACTCATGTTCAGTGACTCAAGTTTGAAATAATGTCATGAGAAYTTTTACTGAACTTGCATTATTGGTTATTATTTATTGTATACTGAG
AGTTTGGTGGCATGTAATATTCAAAAAAAGAAAATATTAATTAGTTTAGACATGCAAAGTCCAGGGATATAGTGAAAAATACATTAGGTAAAAGTTCAAA
ATAGAGGTTACCTCTTACTGTGATAGGGTAGGAGGAGGGAGGAGAATTAGATTGGGTATGAATATGCAGAGACTTCAACTATATTGATAGTTTTATCTTT
TAACTAGATGGTGGGTACATGAAGTACATAGAGTACAAAAATAACTTATATACCTTTGTGTGAGAAAGATATTTCATAATTTTTTAATGGTAAAAATAAA
TGAATATAGGTTGTGCAAACAGCATAAGTGTAATTTTTAGCCTATCAAGGAATGCTGATATGATTTGTTGAAAAACTTGGCTTAAATAAATTTTCTAGTG
AAATTTGAAAATCGTGGAATTATTTGGCAATAGAAGCAGAGTGTTTCAAGTCTAAATGGATGGGAGAAAGCAAAACTAGTGAAATTATGCTTGCTGGGGA
ATAGGAAAATGAGAACCAGGTGGCAAATGACCAGTCACTCAACCAGTTTCTTGTTACAGTCAGAATATAGTCAGAAAATGGGCCAYGAGTGACTTCTATT
TATTTTTTTTGATACAGAATCTCGCTCTATAGCTCAGGCTGGAATGCAGTGGTGTGATCTTGGCTCACTGCACCCTCCGCCTCCCAGGTTCAAGCGATTC
TCCTGCCTCAGCTTCCCAAGTAGCTGGGATTACAGGCGCCCACCACACCTGGCTTATTTTTTTGTATTTTAAGTAGAGACAGGATTTCCCCATGTTGGTC
AGGCTGATCTCGAACTCCTGACCTCCGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCTGGCCCAGCCCCAT
GATTTCTGTTTGGTGTTTTAAAAGTATTTTCTATCTCTTTGTTTAAATGCTTACTTCATTTATGCATTGTTCTCTTGACTTCAGTTAGCATTTCTGTTCA
GTATTTTGAATTCTTTGTCAGGCAAATAATATAATTACATTTCATTAGGGTCAGTTTCTGGTATTTATCTTGTTCCTTTAAAACATCATTGCCTGATTCT
GTTTCCTTTACTCTCTGTGTTGATGTCTACATATTAGATAGAAGAGAACCCTCTCCTAGTCCTTACTGACTGGACTTGCACCTTCACCAATCAGTGTGGC
CAGAGATCCTGGGGTCCTCTATCAACTCTTCCAAATTGTTTTTCAAAATAGTTTTCCCAAGCAGCTGTATACCATTTTACATCCCCACTATCAGAGTTCC
AGTTCTCCACAGTCTTGCCAACCGTTTTTATTGTCTTTTTTATTGAAGTCATCCTAATGGGGGTGAAATGGTAGCTCATTGCGGTTTTGTTTTGCATTTA
TCTAATGGCTAATGATGTGTTGAGCATTTTTTCATTTGCTTATTGACCATCTTTAAAGACATATYTATTCAAATCCTTTTGATCATTTTAAAATTAGATT
GTCTTCTTATTGAATTCTAAGAGTTCTTTATATATTCTGATATAAATCTTTTGCCATATATATGACTGGCAAATATTTTCTCTCTTTCTGTGGGTTGTCT
TTTTTCACTTTCTTGATGGTATCTTTTGAAGCACAATGATTTTTTATTTTGATGAAATCAAATTTACTTTTTCTTTCATTGCTTATGCTTTAACAAAACA
TTCTCTAATTCAAGATCATAAAGATTTATTCCTATGTATTCTTCTAARAATTTATAGTTTTAGCTCTTATGTTTAGTTCCATGATGCATTGTGAGTTGCT
TTTTGTACTTAGTGTGAGACAGGGATCTAATTTTCTTTCTTTTGCATGTGTGCCAAGAACAGCTCAGTCAGGGAGACCCTAACCCRGCAGCGCTAGAGGA
ATTAAAGACACACACACAGAAATATAGAGGTGTGAAGTGGGAAATCAGGGGTCTCACAGCCTGCAGAGCTGAGAGCCCGAACAGAGATTTACACACATAT
TTATTAACAGCAAGCCAGCCATTCRCATTGTTTCTATAGATATTAAATTAACTAAAAGTATCCCTTATGGGAAATGAAGGGATGGGCCGAATGAAAGGAA
TAGGTTGGGCTAGTTAACTGCAGCAGGAGCATGTCCTTAAGGCACAGATCGCTCATGCTATTGTTTGTGGCTTAAGAATGGCTTTAAGCGGTTTTCCGCC
CTGGGTGGGCCAGGTGTTCCTTGCCCTAATTCCCATAAACCCACAACCTTCCAGCATGGGCGTTATGGCCATCACRAACATGTCACAGTGCTGCAGAGAT
TTTGTTTATGGCCAGTTTTGGGGCCAGTTTATGGCCAGATTTTGAGGGGGGGCCTGCTCCTAACAYGTCCCCCTTATTCGATTTGCAAATCRATAAAAGC
AAGGGCAGCTTTGTCATGGTGAGCTACTTCTCGCAGGAGTCAGGATCCACATCTGCAGACTATACAAAGACAAACAACACAGATTAAAAGCACAATCGTC
ATTGAAATCACAGAGCTTCCAAGTGTTTTTATCCATTTTAACAGGTTACTAGCTGCTAATTTGTCTGCAGCTCCTTCAAGCACTCCAGTTCCTGGCATTA
AGGTCAGGTGTGCCTGGGATACTTTAAATATTTGTTCTTTAATTTTGCAATAGCCAAAGACAAGTTTGTAGAGTGTCTTTCTAGATGCTTTTTTATTCTT
TACCAAATTTTGATCTTATTAAGAGCTATTAATAGTTTCCACAAATCTTTGTGTTTAGCTCCTACAGCGGGCCATATCATATGAGGTTGAGGTGCCACTA
TACCACCATGGTTCCAGATAATAGGAACTCTTGTCATACTTTTTATCATTTCTGCCATCCGACSGTTTTGTTCAGACCAGCTGAACATAGTGTGGCCGTG
GCATGCAGACTGACAGGTGCAATTTAAGCTAAACATCTCCTTAGGGGACCAATTAATAATGATTCCATAGGAATCGTTGTGTAGCACCTCTGTCTGTTCT
GCAGTGCAATCTTCCTAAACAAGTACGTTCATTATTTCTGGCCAGGTTCAATTTTGTTTACAAATAGGTTTTTGAGGGTGGTATGCCTCAATTATAGGAG
CAGATTTATTATGGTAAATACTGAGATCAGAAAGCGTGTGTAACTGTGTCATAGAGTGATTACATCCAGGCATTATTGCCAGCCAAAATGGATAAATATG
CCCAATAAGTATAATTGTTCTCTGTGTCAGCCCTTGTTGAAGGAATACTCAYGGCAGTGGTGATAACCRCTATCATAGCTACCATTAAATTATTCATTGT
GACTGACTGTCCCCCTTTCCTCCGGTTTTCTTCTGCCATCTGTGACAGCTTTTTGATCTGTCCCCAGATGAGTGGCTGTGTTCGACGGGTGTTGCTTGTG
TCAGTTGGGGTCCTCCTCAGCATCAGCCTCSACATGGCTGCAACCGGGGGGTCCTTGGGATCCTCCCAGAATCTCTTCCTCGGCATCTGGCTCATGATAA
AGTTTCAGGTGTCTTGATGGTATCCAAATCAGCTGTTGATTTTGACCTGGAGAAACGCAAGCATAACCTCTACCCCAAGTTATTATTTTATCTATGTCCT
AACTTTTTGTTATCGGATCTCTCCACCAAACCAATTGTTTTGCTTCTGTCTTTGCAGCTGGTTTCTGTAGTTGCTGTTCAGCTGCTGATAACATCTGGCC
TTTGGGCAGGCTCAAAAAATTTAAAGTTAATAATGCCAGATTCAGTTGCATCTGTGGGGTTCCATATTCTCTGTCTCCCCCTTTCTGCTTTTGCAACTGC
TGTTTTAGGGAGATATTCATTCTTTCCACTATGGCTTGTCCTTGAGAATTGTATGGGATGCCAGTAATGTGTTTAATATTCCACRTAGAGAAAAATGTAG
CTAGAGCTTGGCTAGTATAACCTGGGGCATTGTCTGTTTTAATAGAAGCTGGAATGCCCATCACCGCAAAACACTGGAAAAGGTGACGTTTAACACAGGC
AGAAGACTCTCCTGATTGGCATGTAGYCCAGACAAAGTGAGAAAAGGTGTCCACACATACATGTACATAAGCTAGTCTCCCAAACGAGGGAACATGTGTG
ACATCCATTTGCCAAAGAGAGTTAGGTTCCAGTCCTCGAGGATTAACTCCTCCTTTAAAAGATGAGGAATGTACCATTTGGCAAGTTGGGCATCACTGGA
TAATAGCTTTAGCTTCTTTCCAGGTAATGCTGTATCTGYGTTTGAGACTAGAGGCATTAACATGGGTTAAATTGTGAAAGTGTCTAGCATTARATATTGC
MTTAGCAACTAGGCGATTGGCCATTTGATTCCCTTCAGTCAAAGGTCCTGGAAGAAAGAGGTGTATGAGCCCTAATGTGAGTGATGTAAAAAGGGTGCAT
TCTAATTCTAACTGCTGTTTGCAATTGGGTAAATAAAGTCATCAGTTGTTCATCACTTGTATGAAATTGTAACTGAGCATTTTCAATTAACTATGTGGCA
TGAACCACGTATGAAGAATCAGAAATCACATTAATAGGCATATCAAAAGCAGTCAATACCTCAATTACAGCTACAAGCTCTGCTTTTTGATCTGAAGTAT
AGGACATCTGGAAAACTTTACTTTTTGAGCCAGAATAAGAAGCTTTACCATTGCTAGACCTATCTGTAACATTTTCAGCACCTTCARTTGGTTTAAATTT
AGTTATTTTAGGGAGAATCTAATTAGTTAATTTCAAAAACTGAAACAGTTTTAAGAAAATGATTATCAAGAATACTTACAAAGTCAGCTAAATGGGTTTG
CCAAGTAAGACTATTTATAGAAGCTTGCTGTATTTGTGCCTTCGTGAGAGGGACAATAATTTTTCTAGGATCATATCTATGTAATTTAACAATCTGAGTT
CTCCGAATCCCTATCATAGTAGCGATTTGATCTAAATAAGGAGTTAGAGTCCGTGAATTAGTATGTGGAAGAAAAAGCCACTCTTACTAAGTCCTGTTCT
TGGACAATAACACCTGTAGGTGAATGCTGAGTTGAAAAAATTAGCAAATCTAGAGTCTATGACTATTAAAGGCCAATTTTTTGGAATTACAGCAGGAGAA
GGCAATCCTGGCTGTAATGCTCACATAGGTTGTATAACTGAATTGATGGCTCTTAAGTCAGTTAACATTCTCCATTTACTTGATTTTTTCTTAGTTAGGA
AAACTGGAGAATTCCAAGGGGAAAATGTTGGAGCTATGTGCCCATTTTCTAATTGTTCAGTAACTAATTTCTCTAAAGCCCCCAGTTTCTCTTTACTTAG
TGGCCATTGTTCTATCCAAATTGGCTTATCTGTTAACCATTTTAAAGGTGTAGGTTCTGGAGGCTTAACAATGGCCACCATCAAAAATTATTTCCTAATC
TTTGTCAGGAACTTTGTTTTTCCACTTGAAGTGGTTCTTTCAAACCTTGCAAATTTTTTTCTAGTCCCATACCAGGGACATACCCCATTTCACGCATCAT
ATGTTGCCTTTGAGGGCTATATAATTGTTCTGGAATTAGAACTTGTGCTCCCCATTGTTGTAATAAATCTCTCCCCCATAGATTTATAGGTACGGAAGTT
ATAATTGGTTGAATAGTCCCAGGTTGTCCATCGGGCCCTTCACAATGCAAGATATAACTACTTTGATATACTTCAGGGGCTTTACCAACTCCAGCTATGT
TAAATTGAGTAGGTTGAATTGGCCACGTGGACGGCCAGTGCTATAGAGAAATGATTGAAATGTCCGCTCCTGTATCTACCAAACCTTTAAATTTCTTTCC
CTGAATAGTTATTTCACAGGTAGGGTGTTTATTAGTAATTTGATTTACCCAATAAGCTGCTTTGTCTTGTTTATTTGTGCTTCCAAATCCTCCTGTTTGT
TTAATTTCACTTTTCCCCATGTCCACATACGGCACAATCAGGAGCTGTGCTATACACTGTCCTGGCTCTGCTTTCCAGGGAACAGAAGTAGATGTAACAA
TTTGAATTTCCTCATTGTAATCTGAGTCAATGACTCCTGTATGTGTTTGCACTCCTTTTAAATTTAAACTAGACCTTCCTAAAAGTAATCCTATCGTCCC
TGCTGGCAAGGGTCCACAGAGCCCTGTTGGAACTTTTTGCGGGGGGTTCCCCAGGCAGAAGGCTCACAGCTTTTGTGTAGCATAGATCTACTGCGGCACT
ACCGGCTGTGGCGGGGGACAGACATTGTACAGGGGTGAGGGAATGGCCTGAGCYGGAAAGGCCCCGGTTTAGAATGGGGCCTGGGACGGGCCCTCATGGT
GTTTCCCAAAATCAGGTTCCCATCTTTATCAAACTTAGAGTGACACTGATTAGCCCAGTGTTTTCCTTTTTTACATTTTGGACATATTTCAGGCTCAGCA
GTTTTCTTTTTTTCCCTCAACTGGCGGCCTGACTTGCTGATTTTTTCCACATTCTTTTTTAGTATGACCGTGCTTCCCACAGTTAAAAGAAGCTCCAGGA
AATGGAGTATTTCCTTTATCCACTCTCAGTCCTGCCATTGCCTGTGCTAGCAGAGTAGCCTTATGCAGATTACCTCCAATACCATCACAGGCCTTGATGT
AATCAACTAAATGTGCTTTCCTGAATTTAAAAGGAAAAGGCTCAAATGTAGCTATAATATTTCCCTGTTGATCTGGGGGGTGTATTCTAACAGGGAACTG
CCAAGCCTCTAAATCACTCTCTCATCTAGCTTGCTGAATTCCTGCCTGAATAAAACTTAGAGCGGTTGCTCGAGGCGCTGCTCGAACAATCACTGGGGCA
ACTACTTTTCACCCAGTGTCCTCTGGAAAAGAAAGATATGGAGGGTCTTTTTCTTCAAAATAATAATGAGGGGGTGCAGAAGGATAGGGATGAACCTCTC
CTTCCTTTGCCACTTTAGCTGGTAAATAAATATGCTCTGTAACCTCTTCTGTTACTTTGCTATACTCTCCTTCCTCCTCATCATCAGTGTGAAAAAGTTC
CAAGGTGGAACAAACCACACCCCACACTTATCCCATTGTTACCCTGACGCTTCCAAGCTCCCCTTCTTACTCACCACAGGGATTGCTTTAAGAGTACTCT
GGTGTCCTCCAGCTAGTTCCACATTCTCCAACCATCGCTCCAGCGACCCTTCRACCTGGATTCGAGCCCCCACGATGGATGCCATTTGCCGAGACCAGCT
CGGTTGGGGAGACCCTAACCCAGCRGCACTAGAGGAATTAAAAACACACAGAGAAATATAGAGGTGTGAAGTGGGAAATCAGGGGTCTCACAGCCTGCAG
AGCTGAGAGCCCCAAACAGACATTTACCCACATATTTATTAACAGCAAGCCAGCCATTAGCATTGTTTCTGTAGATATTAACTTAACTGAAAGTATCCCT
TATGGGAAATGAAGGGATGGGCCGAATGAAAGKAATAGGTTGGGCTAGTTAACTGCAGCAGGAGCATGTCCTTAAGGCACAGATCGCTCATGCTATTGTT
TGTGGCTTAAGAATGGCTTTAAGCGGTTTTCCACCCTGAGTGGGCCAGGTGTTCCTTGCCCTCATTCCCGTRAACCCACAACCTTCCAGCATGGGTGTTA
TGACCATCATGAACATGTCACAGTGCTGCAGAGATTTTGTKTATGGCCAGTTTTGGGGCCAGTTTATGGCCAGATTTTGGGGGGCCTGCTCCCAACACAT
GTGGATATCCAGTTGTCCTAACATCTACTTAACCTRTTGAACATATAGAATACAGTTGTAGTCATTGTTTTAGTATATTTGCTAATTTTAACATTTGTGT
CAGTTCTGGGTAGATTTTAATTGATACTTTCTACATTATTAGTTGTATTTTCTCCTTATTTGATATGTCTGGTAATCTTTAATTGGTTGTCAGCATTGTG
AATTTTACCTTGTTAGTTGCTGGATATTTATTTTTTAAGTTCAGGGGTATGTGTGCAGGTTTGTTATAAAGGTAAATTTATGCCATAGGAGTTYGTTGTA
CCAATTATTTCATCACCCAGGTATTAAACCTAGTACCTATTAGTTATTTTTCATGATCCTTTCCCTCCTCCTACCCTCCACCTTCTGGTATGCAGTGTGT
GTTGTTCCCCTCTATGTGTCCATGTGTTCTCATCAYTTCACTTCCACTAAGAACATGCGGTATTTGGTTTTCTGTTTCTGCATTAGTTTGCTAAGGATAA
TGGCCTCCAGCTCCATCCATCTCTCTGCAAAGGACWTGATCTCATTCTTTTTTATGGCTGCATAGTTTTCCATGGTGTATGTGTACCACTTTTTCTTTAT
CCAGTCTATCATTGATGGRCATTTGGGTTGATTCCATGTTGTTGCTACTGTGAACAGTGCTGCAGTGAACATATGCATGCATGTGTCTTTATGATAGAAT
GATTTTATATTCCTTTGGGTATTTACCTAGTAATGGGATTGCTGGGTCAAATGGCAGTTCTGTTTTTAGGTCTTTGAGGAATTGCCACACAGTTTTCCAC
AATGATTGAACTAATTTACAYTCCCACCAACAGTGTATAAGCATTCCTTTTTCTCTGCAACCTCTCCAACACCTGTTATTCTTTGACTTTTTAATAATAG
CCATTCTGACTGGTGTTGAAACAGGTCAGGGTTACTGGTCTTGTTGTCTTAAGGTGTTACCCAARCTCATCATCTCACAACCAAGAGAATTAAGGAGCAT
GGACACAAAGGATGAGGTTGGAGGGAAAGTTTAATAAGCAAAAGAAGAAAGCTGTCCACAGCGGAGKGGGGAGCCAGAGTGGATTGCCGTTTTACAGTTG
AACTCAAAAGCTTTTATAAGAAACTCCTGTCATCTCTGTAGCTGTTTGAGTAACTTCTCTTATCTGAAAAGCTGTCTGCATAACTCTCCCTTATCTGTGT
AGTTGTGCGTATGTCTCTAGGCATGCACAAAGCACCCTTTCTCTTGTYTGTATAACTGTGGGTTTCTTTTAGGTAAGTCCCCCTCCTCCCTGTGCAGGTT
CCCACAGAGCCCACCATGTATATGCCTGAAAGGGACAGGAGCCTTTTTCCTGGGAGCCCACTAATCACACAAAGAACAAAAGGCTTCTGTGTTGGATCTT
ACCTGCTTATCTCTGCAGGTGCAGCCTGAGTTTTCCCCAGGCTGCTCTATTTTTGCCTGTAGCCATGATTTTTCAGGCAGGCTGCTTCTCCGAGGACCAG
TCTTAACTGTTTACCTAAATGATTTTTCCTTTTCTTCTCCCTCAGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTGTAATGATCAGTGAT
GTTGMGCTTTTTTTCATATGCTTGTTGGCTGCGTGTATGACTTCTTTTGAAAAGTGTCTGTTCATGTTTTTTGCCCACTTTTTAATGGTTTTTTTTTCTT
GTAAATTTAAGTTTCTTCTCGATGATGGATATTAGACCTTCGTCAGATGTATAGTTTGCAAAAATCTTCTCCCATGCTGTATGTGGTCTGTTTACTCCGT
TGATAGTTTCTTTTGCTGTGTAGAAGCTTTCTAATTAATCCCGTTTGTCTATTTTTGCTTTTGTTGCAATTGCTTTTCGTGTCTTTGTCATGAAATCTTT
GCCCGTTCCTATGTCCAGAATGGTATTGCCTAGGTTGTCTTCCAGGGTTTGTTTGAGACAGAGCCTCACTCTGTGGCCCAGGCTGGTATGCAGTGGCACA
ATCTCTGTTCACTGCAACCTCCGCCTCCCAGATTCAAATGATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCAGGTGCCACCACGCCTGGC
TAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACCCCTGACCTCAGGTGATCCACTCACCTCAGCCTCCCAAAG
TGCTGGGATTACAGGCATGAGCCACTGCCATGCCTGGCCGTCTTCCAGGGTTTTTATAGTTTTGGGTTTTACATTTAAGTCTTTTATCTATCTTGAGTTA
ATTTTTGTATATGGTGTAAAGAAGGGGTTTATTCAGTCTTCTGCATATGGGTAGCCAGTTATCTAAGCATCATTTATTGAATAAGGATTCCTTTCCCCAT
TGCTTGTTTTTATCAACTTTGTAGAAGATTAGATAGTTGCAGGTGTGTGGCCTTATTTTGGGGCTCTATTCTGTTTCATTGGTCTGTGTGTCCGTTTTTG
TACCAGTGTCTTGCTGTTTTGGTTACTATAACCCTGTAGTAGAGTTTGAAATCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTTGCTTAGCATTGCCT
TGTCTATTCGGGCTCGTTTTTGGTTCCAGTGCATTTTAAAATAGATTTTCTAGTTCTGTGAAGAATGTCATTTGTAGTTTGATAGGAATAGCATTGAATC
TATAAATTGCTTTGGGCAGTATGGCCATTTTAATGAAACTGATTCTTTCTAATRACAAGCATGGAATGTTTTCCCATTTGTTTGTGTCATCTCTGATTTC
TTTGAGCAGTATTTTGTAGTTCTCCTTGGAGAGATCTTTCACCTCCCTGGTTAGCTATATTCCTGGTTAATTTTTTGTGTCARTTGTGAATGGGATTGTG
TTTCTGATTTGGCTGTTGGCCTGTTKTTGGTATATAGGAATGCTARTCATTTCTGTACATTGAATTTGTATCCTGAGACTTTGCTGAAGTTGTTTATTAG
CTGAAGGAGCTTTTGGGCCGAGACTGTGGGGTTTTCTAGATATAGGATCGTGTTGTCTGCAAACAGGGATAGTTTGATTTCCTCTCTTCCTGTATGGATG
CCCTTTCATTCTTTCTCTTGCCTGATCTGCCTGGACTTTCAATTCTATGTTGAATAGGAGTGGTAAGAGAGGGCATCCTTGTCTTGTGTTGGTTTTCATT
AAGAATGCCTTACCTTTTACCCATTCAGTATGATGATCGCTGTGGGTTTGTCATAGATGGTTCTTATTATTTTGAGGTATTTTCCTTCAATACCTAGTTA
ATTGAGAGTTTTTAACATGAAGGAATGTTGAACTTTATTGAAAGCCTTTTTCTGCATTGATATGGTTTGGCTGTGCCCCCACCCAAATCTCATGTAGAAT
TGTAATCCCCATGTTGGAGATGGGGCTTGGTGGGAGGTGATTGGATCATGGGGCTGGTTTCTAATGGTTTAGCACCATCCCCCTAGTGTTGTCTCGTTGA
CAGAGTTCTTACCAGATCTGGCTGTTTGAAGGTGTATAGCACCTCCTCCATCACTTTCTCTCCTGCCAGCCATGTGAAAATGTACCTGCTTCCCATTCAC
CTTCCACCATGATTGTAAGTTTCCTGAGACCTCCCCAGAAGCAGACGCCTGTWCATTCTGCAAAACCATGAGCCAATTAAACCTCTTTTCTCTGTAAATT
ACCCAGTCTCAGGTAGTTCTCTATAGTAGTGCAAGAATGGATGARTGCGTGCATCTATTGAGATAATTGTGTGGTTGTCTTTAGTTATGTGATGAATCAT
ATTTTTTGATTTGTGTGTGTATGTTGATCCAAACTTGCATTCCAGGGACAAAGCCTACTTGATCGTGGTGGATAAGCATTTTGATGTCCTGTTGGATTTG
GTTTGCGAGTATTTTGTTGAGGATTTTTGCATTGATGTTCATCAAGGATATTGGCCTGAAGTTTTCTTTTTTTGTTGTGTCTGCCAGGTTTTGGTATCAG
GATGATGCTGGCCTCATAGAATAAGTTAGGGAGGAGTCCTTCTTCCTTAATTTATTGGAATAGTTTCAGTAGGAATGGTACCAGCTCATCTTTATATATC
TGATAGAATTTGCCTGTGAATCCCTCTGGTCCTGGGCTTTTTTTAATTGGTGGGCTATTTATTACCGATTAAATTTCAGAGCTTGTTACTAGTCTATTCA
GCAATTCCATTTCTTCCTGGCTCAGTCTCGGGAGGATGTGTCCAGGAATTTATCCATTTTTTACAGGTTTTCTAGTTTATGTGTGTAGAGGTGTTCATAA
TATTCTCTGATGGTTATTTGTATTTCTGTGAGTTCATTTGTAATATGCCCTTTGCCATTTCTAATTGTGTTTATTTGGATCTACTCTCTTCTTTATTAGT
CTAGGTAGTGATCTATTTTGTTAATTTTTTTTTTTCAAAAAACCAACTCCAGGACCCATTGAGGTTTTGGATGGTTTTTCATGTCTAAAGCTGTTTTAGT
TCAGCTCTGATTTTGGTTGTTTCTTGTCTTCTGCTAGCTTTGGGATTGGCTTGCTCTTGGTTTTCTAGTTCATTTAGTTGTGATGTTAGGTTTTTAAATT
GAGATCTAAGTTTTTGATATGGGTATTTAGTGCTATACATTTCCCTCTTAACACTGTCTTAGCTGTGTCCCAGGGATTCTGGTATGTTGTATCTTTGTTT
TCATTGGTTTCAAAGAATTTSTTTTTCTGCCTAAATTTCATTATTTACCCAAAATTCACTCAGGAGCAGGTTATTCAACTTCCATATAATTGTATGGTTT
TGACAGAATTTCTTAGTTTTGATTTCCAGTTTGATTGCTCTGTGGTCCGAGAGTGTGGTTGTTTTGATTTCAGTTATTTTGCATTTGCTGAGTGTGTTTT
ATGTCCGATTATGTGATTGATTTTAGAGTATGTTTCATGTGGCAATGAGAAAACTGTATATTCTGTTTTGGGGTGGAGAGGTAATGTAGATGTCTATCAG
GTCCATTTGATCCACTACTGAGTTCAGGTCCTGAGTATCTTTTTTAATTTTTTGCCTCGGTGATCTAATACTGTTGGTGGGGTGTTGAAGTCTCTCACTA
TTCTTGTGTGGAAGTCTCAGTCTCTTTAGGTCTCTAAGAACTTGCTTTGTGAATCTGGGTGCTCCTGTGTTGGGTGCATATACATTTAGGATAGTTACGT
CTTCTTGCTAAATTGAATCCTTTACCATTATGTAATGCCCTTTTTAAAAATCTGTGTTGGTTGAAAGGGTGTTTTATGTGAAATTAGGGTTGCATCCCCT
GCTTTTTCTGTTTTCCATTTGCTTGGTAGATTTTTCTCCATGCCTTTATTTTGAGCCTGTAGGTGTCATTGCATGTGAGATGGGTCTCTTGAAGACAGCA
TAATAATGGGTCTTGGTTCTTATCCAGCTTGCCACTCTGTGCCCTTTAATTGGGGCATGTAGCCCGTTTACATTCAAGGTTAGTATTGACATGTGTGGAT
CTGATCCTGCTATCATGCTGTTAGCTGGTTATTTTAGACTTGTTTATGTGGTTACTTTATAGTGTCACTGGTCTGTGTCCTTCAGTGTGTTTTTGTAGTG
GCTGGCAATGGTCTTTCCATATTTACTCCTTCCTTCAGGAGCTCTTGTAAGGCAGATCTGGTGGTAATGAATTATCTCAGCATTTGCTTGTCTGAAAAGG
ATCTTATTTCTCCTTCACTTATGAAGCTTAGTTTGCCTGGATATGAAATTCTGTGTTGGAATTTTTCTTTAAGAATGTTAAATATTGGCCCCCAGTCTCT
TCTGGCTTGTAGAGTTTCTGCTGAGAAGTCCACAGTTAGTCTGATGGACTTCCCTTTGTAAGTGACCTGACCTTTCTGTCTAGCTGCCTTTAACATTTTT
TCTTTCAACTTTGGAGAATCTGCTGATTGTGTGTGTTGGGGATGATCCTCTTGTGAAGTAGCTTACTGGGGTTCTCTGCATTTCCTGAATTTGAATGTTG
GCCTCTATAGCTAACTTGGGAAAGTTCTCCCGGATGATATCCTGAATTATGTTTTCCATGTTGCTTACACTCTCCCCATGTCTTAAAATTAAAATTGGTC
ATATTGGATTATAGTGTTATGGCTATATCTTAMCACTGCAGGTAAAATGAGTTCCACTATATTAGTGTTTTCCAGAGAAACAGAGATAGATGGGTATTGG
CTGATCGTAAGGAATTGGCTCRCGTGATTATAGAGACTGGTAAGTCCAAATCTGCAGTGTGGGCCAGCAGACAGGCCGGAGACCCTGGAGAGCTGACAGT
GTGGATGACGCCCACGGGAAATCACTGGAGATTTTTCTCTTGCTTGGGAAGCTGGTATTTCTGTTCTATTCAGGCCTTCAACTGTTTGGATGGGGCCCAC
CCACATTATGAAGGGCAGTTGGCTTACTCAGACTTCACTGATTTAAATGTTAATCTCATTCAAAGCACCCTCAAAGTTGACATATAAAATTAACCATCAC
ATCTACCACACAGTAAAATGAGTAGTTTTGAAATTAGTTCTCAGACAGTATGATATATGAATACATTTTTTTCTCTGTGGATTCATAAAAATATCAACTG
TAAAGGGAGATGCTTTCTGCCTTCATCACATTTTGTAATCCTTTGAGATTTTATGGGAAAACTRTAGATTTTCTGAGTTATTAGCATTAATCAATAGGCT
CTAGGACCTACTTGTTTGAAATGTGCCCTGCTTGTATTCCAGACCAAAGTAATGAAATCCTAATTAATGTCTTTGAAACCATCCATGAGATCTCATCTGG
CATTTTAGGCTCATAGTCTGTAAAGGATTCACAGAAATTCTATTTGGTTTTTATTAGCAACATTAAATGTATTCCCCAATTGGGGATTAGTAGCATTTTA
ATACATAGCATTTATTATCTATTAGTATAGGTTAAGAACAGCTGGGGACCTCTTTGAGCCAGCCATCTGCATGGATAATTCCCAGGATAGTTTTAGCCTA
GGCATATCCAGAACAGCTGTACCTGGACAGGCTTCATCCTTGCTGTGGGGCTGGCGTCTCTGGCAGTGTTTTTTAGCCACAGCCTTTCCCCTGCAGGCTT
ATGGCTTTGTCTCTCTGCAAGGGTTATGTTTGTGCTGGTGGTACCTTTTATCCATTATATTGTCAAGTGATAATCTTAAAAACCCCATCATGCATGGAAA
TCTTATTTGGTCTTGAAAACCTACATTGTCATATTACCCAATCTCATTGATATTATCAGGCTAAAACCATAAAGTTATCTGCTGTAATTGTAAGTTTCTA
CACACATAACGTGGACAAATAGGTATAAAGCTCCACAGCACCCAACCCAGTGCCGAATGTCTTAGGTTTTACATACTGCTCCAGTTTTGTCTAGAACGTC
ACATGTGAATCAGCATTTCTTTTCTCACGTGGTTGTTTCTGCCTTCTGTGTTCCACATGCGTTATAGGCAGGGGTGCTTCCTCCCTGTCTCTTTTCTCTT
CAAGGGCTTATTCCAGGTTCCTGGGAAAAGAGCTGTATTATCCTTGGCCAGCCATGATGCTCTGCTCTCATTCATAAGGCTACTGAATGTTACTGTCACC
TAGCTGCTAAAGTTTTTCACTCTGGAATTAAGATTAACATGTGTTCATCTATTATGAAGACTGGATTCACAGTTCTTTTCCTAAGCTTGTTCTTTCAGGA
AAAGCACTTTTAACTCAGTAGTTTTATATGCCATTCCTTTGGGGGMGAATAATCAAGGATATTCAGTAAGCTCTCTTGGCTTCACTTAGTTATTTTTGAT
ATTATTGAGATAGAATATTCAAGTAACAAAGACAATGTTCTTTAAAAAATAGGTTTTAGTATACATTCTTCTAAAGTCTTCCTCCGTTAATATTAAACTT
GTTAATATGTCCAGTTATAAACATCTAAAGAATTAGTAGCATTTTAATATATGACATTTATTATCTTATTAGTATAGGTTCCAAATATATAAACTACTTC
TTAATGTTATTTTCTCAGTAGACAATCAAAATTACTACTGTAAGAAATCCCATACCTTGGTCATTGAATCAATTTAAGACCAAACAAGAGATGGAAACCA
CACAGTGGATTAAATGGGGAGGAAGTTTAATAKAGAGTATTATTAAACTCTGAGAAATTAAGGAAATTCTATGCAGTCCCSCAGGGCCTTGGGAGAATAC
CCAAGGAAAGACAAAGTGGGAAGGAGGTCCTTTCACCAAGGCTGGGGGTTCAGCCCAAAGGACAGCAGAGAAACGCACTGCTTCCCCAGGTTGTACTGGT
CTGCAGTTGCTTGGCAAGCAGGAAGCGGCCCTCTGCAGTGCAGGTGGGCACAGGCAATCAGCAACTAATGGTGTGGCTGTGTAGAGGGAGCAGAAGCTTA
GTGTGGGCAGGAGGTCTTCAGAATATTGGTTGCCTTGTGGAGAGGGCATGGGGAGGTTATCACTAGGCCAAGCCAAGACTGTAAGTGAGCCAAGGAACCA
CAYGTTCTGGGTGCATGGCTGGAGCAGACCTCCCGCAGACCCYTCACACTGTCAGCAGCCAGCAGCGGCAGAGCCCCTTCCTCCTGCAGAGTCCTCCGCA
CCCTCCACCAAGAAAGTGTCATCACGTTCACTGTAAAGCAATTCTGTCCATTACGGCAGAGCATATATGGAAGGCAAAATTTGGAGCTCAGTGGCAGTGA
ATTGACAGCTAGCACATTCATAGTCTTATTGTACTCTGGACCCCTTTTTTCTCTTTACTGTTTAATGCTTACTGTGGAATGACTCCCTTTATAGATTTTA
CAACCCAACTATTGTAAGGAAGAGGTGGTTCAGGAACAAAGCTTCAAGTTGAATTTTGGTACCATCATCTTAGTTTTCTTGTCCCCATTCAGGAGTAGTT
AGACAGACAATGAAGTAGACACACTAGTTACCTGTAAATATTAAACTCATTACTTCCCCTAATGCTTTGGATTTCCTCAGTGGCACCAATTTTGAAATTG
GCTGGTTTAACTACAGTTTCAGGAGAAATGAGAGGTAATTATTAAAGAAAAAWACAGAAGTATATTTTCTTTGATTACATTGGGAACTATAATTCATGTA
TATGTTAATAATAGCTCATTGATACTTGAATGTGTTTATTATGGTTATTAAAAAATGAAGTTTTGGCCAGGCGCGGTGGTTCACGCCTGTAATCCCAGCA
CTTTGGGAGGCCGAGGCAGGAGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAATGCAAAAAATTAGC
CAAGAGTGGTGGCACGCACCTATAGTCGCAGCTATTCGAGAGGCTGAGGTAGGGGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCG
TGCCACTGCACTCCAGCCTGGTGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGTTTCAGAATGCTATATTGGCTTGTTTTATATTGAAA
ATGAGGTTCTTGAATAATATACAGACACGTTCCCCTACAAAAGTTTTAACTAAGTTAATCTTTTAAAAAACCAGTAAACATGTTGAGTCTCTGAGTTCCT
GTGCTGAGCACAGATGCTTCAAGATCTTCTTTTTCTTAAATCAGGCTGACTTGTTAGCACCCTTTTCTTGTAATTTTCTGAACTTTTCATCCCCTTATCA
ATAAATAAATGTGACAGATGTCTTTTACTGGTTCCCTTAGCTTACTCTGTTAGCAGTATCTGTCCATTGACTTAATGGCTGCTAATAACTTGTTTGGTAT
CTGTAGAACTCTACAGCTGTGTGCTAGAGCAATGGCAGGAAACTACACGAGAATCATCGTGTTCCAGGCTCTACTTTGCTGCCCCTCCCCCGATAGGGAT
TTCATTGTTCTCAAAATGGATTTTTTCAGACTGCAATTTTAGAAATCTGTTGGTCAGTCTAGTAACTCAACCCACGCACTAGTGATTTTTGCAGAGAAGG
ACAGGAGGCTGAGATGGTCTCATAAAATGTCCATAAGGTCAAGCCTTGTTATTAAAATATCAAAGATAATAATGGTAATGAAAATGAAAGACATTAAGAA
CCATCTTTAGATTTGAAAAGCAGTGGTACCCATGCAGTTTTTCTCTCCTTGTAACAACAGTAGCTTCTGCAGTCAGCCACTCCCCTATTTATGCCTCTTT
CCCCGCATCACACTTCTCTGCACTGTTTTCCTACACTGCAGAGTGCAGACACTTAATACAGACGGGCTGAGTCTGTGTGTGCCCTGTCAGCAGCCGTCCT
TTTTCTGAGCATATGGTTTTCATGCTTCATCTCACCCCCAGTGACCTCTCCTTGTGAGAAGGCTCCCTCAGCTCTCTTTTCTAACCAATAACTGTATTCA
GCTAGCTCTGCAGAATAGCTCCAGGTGGATAAGTATGACTTTCCAACTTACATGGAAACAGGCAGACATACTCGCTATATGAAACCCTTATTTGGCCACC
TAATAGGAACTGGAAGCCTAGGAGATTTTTTTTTTTTTTAATCTACCAGAAGTTTCTAAAAACTCTGGCCGTAAAAGGAGCCTCTCTCAACTGGAATTAG
CCGTGTCTGTAGGTTCAAGGGCTCCATCGTGCTGGTTTATTCAGCAGAATAGCTCTTACTGTATCCCGTCTCCCTTGGCAAGGGAAGGGTTTTGCTCTTA
CCACGTTATAGTGGGCTCTTCATATCCACCGGCTCTGCATCCGGGGATTCAACCAATCATTAATTAAAAATACCTGGGAAAAGAACTAAGAAATAACAAT
ACAACAATAAAAAATACAAATAGKCCGGGCGCAGCGGCTCACGCCTGTAATCACAGCACTTTGGGAGGACAAGGTGGGCAGATCACTTGAGGTCAGGATT
TTGAGACCATCCTGGCCAACCTGGTGAAACTCAGTCTCTACAAAAATATAAAAACTAGCCAGGTGTGGTGGCTCATGCCTGTAATCCCAGCTACTCAGGA
GGCTGAAGTGGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCCAGATCATGCCATTGTACTCCAGCCTGGGTAACAAAGTGACTCCATCT
CAAAAAAAAAAAAAAAAAAAAAACCCCAGRGTATAACTCATTACAAACCATTTACTTTGTATTAGGTACTATAATCTAGAGAGGATTTAAAATATACAGA
AGGATGTGCATAGGTTATATGCAAAATACCATGCCGTTTATATGAGACTTGAGTATCTGGATTTTGATTTCTGTTGGGGTGGGGTGGTCCTCGAACCAAT
CCCCTGAGGATCCTGAGGGATGACTGTATCTAGGTAAAGAGACTGGTCTCAGGTCATAGGAGAGCTCCATTCAGGCCAGTCACCTCACCATCCCTCAGGC
ATCCCATACGTCCCCCCGCCCCCCATTATTGTTGCACAAGGCATATCACTTTACTTTCTTTTGTTCAGGTCCTCGCTCTTTTTAAATTTACATTCCATGT
TTTCTGTGGAGCCTTTTCTAGCCCTTCCAGCCCTCACTTTTCTCTAACTTCTACACCATGTATCATCTATACCCACAGCTTAATACTTATATTTCCTCTT
GTGGTGTCCGTGGATGTTTATGTGACCCAAACTGGATTGTAAGGGGGATGCATTCTACACTTCTCTTTCCCCCTAGTTGTTCACTGGTGGTTGCTTGTTA
AAATACACAATAATTTGTTGCATATATCTGTCCCTTAAACCAGATTTGGCTTCAGGTAGGACTAAATGTGGTTAAAAAGTGTAGAGCCTTCATTATCTCT
AATTTTCAGATTGGCTGTTGTGAATTCCTAAGTATGGCAAACAGCTTCTCTATTTTAGATTTATGGCACTTACAGAAATGTTATTTTTAAGGCTGGTCTC
AGGGTTAAGCTGCCCATACTTGAGGGTGTCAGAGTGTGGCCTGGAGCAGTGTAGCTTGTAGACATCTGTTGGTAAAGGGCTCCTGCCCTGTACAGGTTGC
TTGGTGGTACTTTGTTCCACCACCTCCATTCTCTCTTACTTGACTGAAATCCAGATATCAGCATGATACTGGGAGGGGGTTGGTGGCTTGATTGCTGAAG
TCAGTTTAGTGCTTTGGGAAACCTGAAACACTTCAGATCCCAGGCATTTCAGATAAGGGATACTCAACCTGCACTATACATTGTCCCTTTCTTTTTTTTT
TTTTTTTGAGATGGAGTCTTGCTTTGTCGCCAGGCTAGAGTGCAGTAGCACGATCTTGGCTCACTGCAACCTCCACCTTACGGGTTCAAGCGATTATCCT
GTCTCAGCTTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCGCACCCAACTAATTTTTGTATTTTTAGCACAGACGGGGTTTCACCATGTTGGCCAGG
ATGGTCTCGATCTCCTGACCTCGTGATCCGCCCACCTAGGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCACCGTGCCTGGCCCCAAATATATAATT
TCTAATCACTGACTTTACTTTCTTACCACTTTTTGCCTATCACTTTTATTGGTTTTAATCATTTATATCTTTTCATGTGAGATTTGAAGTATGCATACTG
TCCTAGAGTGTAAGCTCCATGAGGACAGGGTTGTCTGTTTTGCCTGCTGTTTTTACCCCATGAACCTAGCTCAGTGCCTGGCATATAATTGAGGCTCAAT
AAATATTAGTTTGAAAAACAGAGTGAAAGCAAACTCTAGGGTTTGGGGGGAGGTGAGGTAGGTGGCAGAGATCTGGACAGAGAGGAGTTTATGGAAGCAA
CTGAATCAGGAAGCTGGGTACCAGAAACTCAGGAATGGGAGGGCCCTGGGCTTGGGCAGGGATGGCCAAATGCAGCCAAGAAAAGCTCTAGAGTGGCTTG
GAGACACCTCCCAGGCAGCCCCTTGCCTTCTGTCAAGCAGCAAGAATAACAGAATGTGAACAGTGCACCAGAGTTAGAGGGCCAGCTCTGAAAGCAGTAT
AAAGATAAACCACACACCCGCCAGGGGGAGAAGAGGTCACAAGTCCCGAAGCTCGAGGGGGCTGGAAATCTCAGATTACCACTGTCGCAAATGACAAACA
GGCCGGGCAAGTGGCTCATGCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAG
TGAAACCCTGTCTCTACTAAAAAAAAAAAAAAATATATATATATATATATATATATATATATATATATATATATATATATATATGTATGTGTGTGTGTGT
ATGTGTGTATATATATTATATATATATATATAATATAATACATATATAGCTGGGTGTGGTGGCAAGTGCCTGTAATCCCAGCTACTTGAGACGCTGAGGC
AGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGACTGCACCACTGCACTCCAGCCTGCACAACAGAGCAAGACTCTGCCTCCAAAAA
AAAAAAAGTAAAATGGCTCCAAGCAGCAGAGCTGGGATTCATATCCAGGTGTGTCTGACTCTACAGTCTTTGTCCTAACTCCCCTGGGCTCTGCCACCTT
CACAAGATGTGTCTCCTCCTCTTCTAAGCCATGGGACTTAGAACCTCATGCTTAAAAATCTGTAGCAGCCTCTTAACTCCCATCTCTTCTCTTTCCAGTC
CATCAGCACACATTTACCAGACCACATTCTCTTAGAGCCCTCCTTTTGTCATTACTTGCTTCCTCAGTAATCTGTAGCCATTCACCACTGCTACCCAAAT
CTGAACCCCTTGGCTTAGCATTCCAAGCCCCATCCAGCCTCAGTCTTCCTCAGAAACTTTATCCTCCTTTGCCCTTTTGATCGACTGTCTAACCCCAAAT
GCAGAGCTGATAYATTGGAGCCATTCTGCTTGCTACAATACCGGTCTCTGTCTTCTAATATCCATATAAAAATCCTTCAATGAAACTTGGAATCCTGTTC
CACTGCCTGGTGAACGCCCTTGCATATATGCCTATAGTCTTATTCAACTCTTGTTTTACTTATCTTCTGTATCTATCTGAAAGCTCCTATAGAAGCATGA
CTACATACTCTACTTCATYTTATTTCCCCATAGCATCTGACTTAGTAGCATAAACATGGTAGATATGCAATAAGGATTTGCTAGCTGAGTAAATAAGCCA
TGCGTCTGGTGGTCTGTCTCACTAGATTTGCTTTACAATATGTTCCGCCACACTAAAGAAGTTATACATGCAATTTTAAAATGAAGGAACTAGGATCTTG
CATATATTTCTGATTGAGAATTTCAGCTTGTTGGGAAATATGCAAACTTYAGCGTCCTCACAGCTCAAAGTACAAAAATATTGGTGTATTGACTGCCAGT
GGGGCAGAATGAAGGGCCAGGCCACAAAAAATATTGGCTATAATAAATACTAAGTTCATTTGCTTTTGGTTTGTGATATGCTATTCAGTGAAAAATGAAC
CTTCCAGAAATTTCTAAATTAGAATATTTARCATTACTTTCAAAATAATGAATGCCCTTGGGAATAAAATAAACATAATTATAATTCAAAATATAAAGTC
AAAGAACTGAACTGTGCATGCAATTTACCTCAGGCCACTCATTTTTTTTCAGTAGATTTACCTTTCTAATTATATTTTGCTTGCACAAATATTTAAATTA
CTTYGCATTCCCTGAGAGCAGTATACTTCTTGTGTCAAGGAGGACACACATTTAACAACCATAAAACTATCTGCAAAAGCAAAAAGCTCATTTTCCCCCC
AAAGGAGCTTTTTAAGAATCAAAGCGTACAACTGATCAAATAGTTGAGCAAGGTACACACAGTAGCTTAGCAGGGCTTATACATTTATTTTATTTTCTAT
ATTTGTTTGGGTTTATTTTTTCTTTTTCATTCCCTTTGTGCTCTACAACCAAGAGAAAGAAACATCTTCAAGGAATTATATCTGCTATGTAATTATACAG
TGCTGCAAATTGCAATGTTAGCTGAAGTTAAGGGCAGAGAATGACAGGGTAACTAATAGAGCATGATCTAAACCTCATTAAGTAATGGGTATCTTCCTGA
GGAAAGAATACAGGGTTGTCTCAAGGCTGAGTCTAAGAATTGACTCCTATCTTGTTATAAGAGTTTGAGAATGTAATAACTCTTTGTTTCTTTTTTCAAC
CAAAGAGCCAGGATGAGAATATAAATCTTTGTTAGTGTTTCATTGAGGCATTGTGAAAAGGCATATTATTGCCAAACAGCAAAGAAGGAAAACATCATAA
ATATTATGAATCAAAACTTTAATAGTGGAAGTTACTTATTTGTGGTTTGATTGGCCTTTGAAAAACAACTGACAGTATTGATTCATGTACCTCCACCCTC
AAAAAATTTTATTTTTCATTTTCTGGTCACAGTTGGTTTTTGTGTTAGTCATGTTGTATGATCACTTCCATTATTGAGAAAGTGATTTCAGCTCCCTTTA
AAAAGATTAAAGATAAGTTAATGAGTTTGTGATATTTTTATATTATTTTTAAAATGGGTACTGGATACTATAATAAGGTATTATCTTCACTTTCCTATGG
ATGAGCTCTGAGAGTGGTTTGAATGAGTCATTAGCAAACTAAGATTCCACTTCACAGGAGTATTTTAACAACAATCTGAAGAATGTGTGTAAGTTCTTAA
TAAAAGGAACTAGGGCTCCTTGGAGAAATGGCTGCAGATAAAGTACAAATAAACGAGTAATGTCTTCTACTGCCAGAAAGTAAAGAAGTCTTCAGTCAAG
GATGGGAATAGTTGAAAGGACACAGGTCCCGAGCTAAATCTGGAACAATATAAGTAACAAAATAAATGATAGTAACAGGTAGCAATACACAGAATAAATA
TCTGTGGGTCCATGCTTATATAAATAATTGAATAAATAAATAAATAAATGAGGGAGAAGGAGCAGCTTTTGGTGCTTGTGTCAACCAAGAAAAAAAAAAT
GAGGAAAAAAGTCTCCAAATATGTTGAATTTATTTGGGAATTATAACGCAAGTTGGCCTCAGTTTATCAGTGGAGATGCCGTTACTGGGCAGGTGTTCTT
TCGTGGGCATCTTATCCGAATTGCTGCAGTCCTAAAGAAAGAATCTCTTAGAGTTATTTTAGAAAGTCCTTGAGACAAGTCTTTATCTCAGACATAGCAC
AAACCCTCCCCTCTTCAGGCTCTGCTGGCTTAAGTTTGTTTGGGTCTGACAAGATGTGATTTCATCCCAGTATCTTCAATTTCACACATAGAATTCCAAT
TAATAAATGTAGAAGGAATGACGTAAATAGAAAATCTGAAGAATCATGGTGTGTGGTTTAAAAAAAATCAGTTTGGCAAACACCACAGTAATATTTGTTG
CAGACAAGAGCCACCTATCCATGCTAAAATTGGTGAAAGTATGGTGACAAACAGGATATTTGCACAGTCCTAAAATATCTTACAAAGAGAAAAATAGTAA
CTTTATAATGRAGAAACCTAGACAGGCACCACAAAGTTAATAAACATCACCTGTAACGAAGTTTATCAACAGCATGTACCTCCTAATACAATACACCAAA
AAAGGGTGTGTCATCACATCTATGGTGATTATTTCCCTGTTGTTTTAGATTATACATTTTGAAAAAAAATCATAGATTTATATAAAATTTTAAGAAATAC
AGAGCCGTCATGTGCCCTTTGCCTAGTTCCCCCCAATGGCAATTAAGTTGCAAAACAGTAGTACAGTGTCACAACCAAGGTGTTGACATGAATACAGGCA
AGATACAGAACATTTCCATCACTGTAAAGATACCTCAGTCTTACTCTTATGTAGCCACACCCCTTTTTAAGAAAATTGGGTTGTTTTCTCATTATGGAGT
GGCAAGAATTCTTTAAATATTCCAGATCATATGGGTTTTTTCCCTGTAGTCTGTTAATACAGTGAATTATACTAATTTAAAAGTATAGCCGGGCACAGTG
GCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCGGGAGTTTGAGACCAGCCTGACTAATGTGAAGAAACTCCGTC
CCTAACAAAAATACAAAATTAGCTGGGCATGGTGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCATGAACCCAGGAGGCG
GAGGTTGCGGCGAGCCAAGATCGTGCTATTGCCCTCCAGCCTGCGCAGCAGAGAGAGACTCCATCTCAAAAAAAAAAAAAAAATGTATAAAACTAATTTA
AAATACATAAAGTCAAAGAACTGAACTATGCATGCAGTTTACCTCAGGCCACTCATTTTCTTGGTAAATTTTGGTAAAATATACATAATTACCATCTTAA
CCATTTTTAAGTGTACAGTTCAGTGGTGTTAAGTCCATTTATATTGTGCAACCATCACTACCATCCATCTCCACATCTCTTTTCATCTTGTAAAACTCAA
ACTCTACCCATTAAACAACAACTCCCCATCCCCCCGTATGCCCAGTCCCTGGCAAACACCACTCTTGCTTTCGGTTTCTATGAGTTGACTACTTTAGATA
CATCAAGCAAGTGGAATCAGAGTATTTGTCTTACTGTGACAGGCTTATTTCCCTTAGCATAGTGTCCTCAAGGTTCATCTAGTTGTAGCATGGGTCAGGA
TTTCCTTCCTTTTAAAGGCTAATATATTTTACGTGTATATGACCTCTTGTTTATCTGTTCATCCATCATGGACACTTGTGTTGCTTCCAGCTTTTGCATA
TTGCCAGTGATGCTGCTGTGAACATGGATATTCAAATATCCCTGAGACTCTGCTTTCCATTCTTTTGGGTGTGTACCCAAAAGTGGAATTGCTGGATCAA
ACTGATGCTCCTTTTGCTCTCTTTTTCTCTGAGCCCTCACTCTGAGTATCTTTTCCTTTTAGAGCTTTAGGTTTTAAAAGTTCTCATCCATTTATTCTTT
AACACAGTAAACCCTTAATTACGATTGTTCAGAGAATATAGTGGTTATTGAATTTCTTGGCTAAATCGCCAGAAACCCGTTTCAATCCTTGCTGTKGAAG
AAGTKTGTTCATTTTATTCTCATAGTAAACATAATTGAATCTGATAATTCAGGATCTTGCAGTGCCTCGGAGCTATGTGAACATGGATTCTCGGCCTAGG
ATACCCCAGGGATATAAGTTATCAGGGACTGGAGCAAAGCACTAACCCTTCACAGCCCTATAAAACTATATCTTTGAGTTTAATTATTTCTGTGTTTATA
AACAATATAGTATTATGTAATGATTGATATTTCAAAGGTGATTACTAAAGGTTGTTTTTTTATGTGGCCATCTTTACTATTTTCCTCCTCTCTTTCTTTG
CATCCCCATATCACCAGATAATAGGCTCTCACCCTCGCTCTGAGTAAACACATTTAATAGACGTACCTTGTAGAAAGAAGTGGAATCTGGTTCACATCTT
CCTCACCCAGCTGCATTTCTCTCTTACTACATGTCCTGGTCAGTTTGGGCTGCTATAATAAAATACCACAGACTGGGTGGCTTAAACAACAAACGTGTAT
TTCTCACAGTCTAGAAGCTGAGAATTCTAAGAGTGAGGCAGAAGTCASTGTCTGATGAGGACGCTCATCCTGGTTTGCAGATGCTGTACCCTCACATAGA
GGAGAAAGGGATCTGGTCTCTTCCTCTTCTCATAGGGCACTAAACCAATGATTAGAGCCTCCACCTTCTAAACCTCATCTAAACCTAAGTACTCCTCCAA
GGCCTCACCCCCAAATACCATCACACTGGGGATTAGGGTTTCAACATGAAGTTCGTGGGGATACAAACATTCAGTCCACAGCACTACACTTTCAAGAAAG
AAAAACAGAGCTTTGGATGAGTGGGGACCAGAGAAAGAGTAGAACCAAGAGGAAAGAAAGCAAAGAAATTATGAAGAAGCATAAAGGAGGGGAAGGAAAA
AAAAAGAGATGGAGTGAGGAAAGTCCCAAAGCCGGGCTTCACCTTTTCCCTCTATCTTTGGACAAATAAAGCCTTGTTCCCTCTGGATCTGAGGATGGTT
CTGGAAGGCATGAATCAACTACGAGGATCCTCCTGTGGCTGTGACAGTGGATAACTAAACCACAGGTTACTTAGGGCAGGATGAACCTAATCAGCATATA
CAACAAGCACATCTTGACTGCCTGCCTTCCACAGCCTCCTGAGCTCAGTAACTACCAGCCAAGAATGAAAAAGACGAAACCTTCATTCCGCGTTTTATTT
ACCACTCTGTGGACAGAAGAGTAGTTCCCCAGGTTCTCTAAGTCCGTTCTCTATCCCGTGCCCATACATTGCTCTAATCCTGGGGCTGGAGGGTCTGGAG
GGAGGCTTAAAGGTCAGCCTTCTTTAGCCCTTCAGCCGATAGTGTCCACAGTGCTTAGGGGCAGAGGTCCTACCATACCACCTCTTACATCTGACCTGAT
TTTAACTCTGCCTGACAAGTAGTAATTACCTTTTAAAGAGCTGGAGAAATGAAGACGCCTGGTATATTTTAAACATAGTTCCCCCAGGCAGGTGTGACTG
GGTTCTTCTCAATGCGTTTTTATCAGACTGCGGGGTTTGCATGAGGTACGTCCAGGCTTGGAAGCACCCTGGGAACCCAGAGGCTTAACGACTTTAAATG
TACTTTTTTCATATGGTACCCCAGGATGAAAATGAAGGTCTTTTTAGAGTAATTTGGTTATAAAGAAATTGTGGTACCTGAGTGGCTTTTTTGTGCAGGA
GTCAAAAAACAAAAAATATAAGCAGGCTTGATTGATCTTAAGAGATTACTGATGTTGCATGATTTGTGGCCTCTTTACTACTTCATTTCTAATCTGAAAT
TGCTACTCTCCTGTGGCATCATTAACATTATAAAACCTAAGCTAGTTTTCCTTACAAATGTGATTCCTGTCCTAGGATTTCCAGTCTGACAAAGAAATAA
ACAGGAGCAAGTACCATACACATGAGTAATTCGCCTGCAAAAAGATGCTCATGAAGATACCATAAATCACTGGTTCTTAATCAGGGTGATTTCACCCGTT
GGGGAATTTGTCTCATTTGAGAAGGAGCTGCTACTGGCATCTAGTGGGGAGAGGCCGAGGATGCTGCCTAGGATAGACAGCACCCCTCCCCACCACGATG
AAGAATTATCTGGTCCAAAATGCAGGTAGTGCTAAGGTTAAAAGCCCTGTCAACAATGTGCAGAAGATACAACATGAACCGGTAAATTGGCTAAATTAGG
AAAAATTCAAAATGATGCCCACAATTGTGGCTACTTGTCTCTGGGATTTTTAGGASCCCCCATCYCTGCTTTAGCTTTTTGTTTTGAAATCACTTTAGAC
TTACAGATTGGATATTTTCAGCCCTATTTCCTTAGCGTGTGGGAGGCTTTGCTAGATGTTGAATGAAAAATGGGATGAGGACCAAATCCATTTAGGTTTT
ACTTCCATGTCAACTATGTGGGAAACAGTTGAGGGCTCAGAGCAGAGAGGAAGGCTTGGAGATAAGCTTGTGGGCTTCCTAGAAACATCCAGCAGGGTGT
CCTCTGCATCCCTCTGTGTGTTTGCCCTTTGCTTCTGCTTGGCTTAGGTCGCTTAGTGCCAGTGGAATTGGTGTCGGGGAGGGGTGCGGGGGAGACACCT
CCTGATTAGGCCACTGATGAGCTTTGGTCCTCAGAGAAACCATTTCCCACCCTAAACTTTACCCCAGTCATTGAGGGTGGCCGGGACAATCCAGTGGGCC
ACTACCTATTAAATAAATATGTAGGTGTATGTATMTTATAATTAGAACATAGACACCTGGAAAGTGAAAATCTCCCATAATTCTGATGATAAACTTACAT
ACATTTAAAAACTGGAAAAATATATACATTAACACAAACATTATTAGAGATAAACATGGAATTATAATTTTACAGTACATTATACTGTTTTACAACTTGG
TTGTTTTTTTTTTTGAGACAGGGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCGCTTCTGGATCAAGGGAT
TCTCGTGCCTCAGCCTCCCGAGTAACTGGGATTACAGGCGTGTGCCACCATGCCCAGCTACGTTTTGTGTTTTTAGTAGAGACAGGGTTTTGCCACGTTG
GCCAGGCTAGTCTGGAACTCCTGACCTAAAGTGATCTGCACATTACAGGCGTGAACCACTGCGCCCGGCTGTACAACTTGTATTTTTTACCATGCTATAT
TGTGGACCTTTTTTGTTCTAGTATAATGAGTAAATTACTTAAAGTTGTCTGTAAAATAAGGATTATAGTGTCTATCCACCTACTTCAGAGATATCAGAAA
GACACAAATATAAATTGAGATTTAGAAAGTCGATTGAGTCTTTTAGATGAAARTTATTATATACCATGCTGACTTTTTCATTGACTATACCAATGTTGAA
TGATTTTATTACTAGTTTCTTTTGAGGTGTTACTGAAATATTTTTAAAGACATTGAGTCCTCAGAAACCATTATGGCCAYGTTAATATAGTTTGTGTAAT
ATAGATTTCAAGTGTCTTTTTGTGTCTTCACAGGCAAATACATGTATCAGCCTATGACCCCTGTGGAACAGCTTCCAAGCACTGAGATTCCTGCCAGGCC
TCGGGAACCCACAAACACCATTCAGATCTCAGTCTCGCTCACCGAACACTTTTTGAAATTTGCATCTGTCTTCCAGCCTCCCCTTCCCCCTGACTCACCG
AGGTACTGTATGATTTCAGACCTTTTTATTGACAACTATCAGGTTAAATGTATTAATGGGAAGATGTGTTATGTGCAGAAGCAGCYRGCAYCACATTCCC
ACAGAATGAGCCCTGAGGAGGTCTCTGCACACGATGCCTTAATTTCAAAAGAGAGCAATACACCAAAAATAGATCACTGCTCTTCTCCCTCAAGTTCTGA
GGACTCTGGGATCAATGCGATTGGGGCTCACTATGTGGAATCGTGTGACGAGGACACAGAAGAAGGAGCAGAACTGAGTTCAGAGGAAGATTACAGTCCA
GAGAGCAGCTGGGAACCGGATGAGTGCACCCTTCTCTCCCCCTCGCAGTCTGACCTGGAAGTGATTGAAACGATAGAAACGACTGTGTGAGMGTCCAGAC
AGGAAGCCACAGCCTCGGACCCACGCCGAGCTTTTGTACCTTTGTCTGGTGGATCCTTTTTTCCAATGCTGTTGATATTTTCTACCCACCCCGCCCCGCT
CCAACCAACAACCGTAGCAGTTCAGTGGTATGCTGATTAGCTTCTCTCCGTCTTACAACTAAGACATTCTTTTTATTATAAACAGTTTTCTTTTGTATCC
TGACTTACTTTCTATGTAGCATCTGGTGTCATGAATTGTGACCCCGCCTTAATTTCACTGGGAGATTTGAAGGCGGTGAAGTGATGGTCGCAGAGAATCT
TGGATCAGATTGAGGAGGTACCGAAAGGGAAGGAGCCGGTGTTTTCTCGGTAGCCAGTCCTTCACAGAGACTCTTGCCATTCCCTTTGGCATGTTCACAG
GCACTCCCGTCCTGTCCTGCTTGTCCTACGCAAGTAGCACTCCCTACTGAGTGTGCACTGGTAGATGCCGTTTCTTCCCTTCCCCTTCTCCCCACACCTG
CACTGGGTCTGGATCAGAGCTGCCTCGGCTTACTTCTGGGAGGTCACTGGAGGCCAGCTCAGCCCATGGTTTGTGGCCAGTGTCTGTACAAGGCTCCGTG
ACTGGGGCTGAGCTAAACATTCACATGAGAAGAGATGACCTCATCTGTCTCATGCTCAATCCAGCCTTAGCTGAGCACCTGTCCCCTGCAGGGGGCTGTG
GGGACACAGCATGAATAAGACCTGATTCCCACCATGAAGGGGCCCACAGTCCTATATATGACACATTCAACTCATGGCACCCAAAAAGCTCTGGGAACCC
AGGGGAAGGATGAGGTTTACTTGGCTGGGGCTAGCTGGGGAATGTGTTTCAGCATTTGAGCTGGCTTCTTGGTGGGTTCCCCAACATTTTTCTGCTTTTA
ATTGTTCTTCAAGTCTGGGAAAAACTCTTAGGAAGTTATATAGGTATCACATTTAGGTGGCAGCCACATCTGACATCTTAAGGAAAAAAAATAAATTAAT
AGTTTTAGTTAGCATGGAAATGCTACAGACAGAAGCCCTTTAGGGATTAGGACTGAATCTAATAGGTTTGATTAATTCTGCTTCATTTGGTTGTATGAAG
CATTCGTATGGTTTAAGTGAGGAATGGATTAGAATTCAGTGTGATGCATGGATTTTTATGCAGCTGCAAAAGCAGTTGAAATAGTTTGCTGCTAAGTCAG
GAGAAAATATCCAGTGTAATAGCCATTCACTTTCCCACACAGTCTGTCTGTTGTATGTGTTCTCTCCCCTCACATGCACAAAATAGTGACTAATTCTTTC
TTATTTAGCTCTCTTCAGAATTCTACTTCTACTCTCCATTTATACCAGGTATTCTTGTGAGTCAGTTAACTGCTATTTCTCCAAACCTTCTATCCATGAG
GCATAGTTTCAAATCCTGGAAATTTTAAGTATGGCCTAATGAGAACATCAGAGTTGGAGACAGAACAGTACTTCCATCCTAACTATCCAGAAGCGCRCTC
TCAGGCCATTGTGCTCTGAGATTCCCTTGTGCTCTGGCACCATTATGGTACATCTCTACGTCACATTAATTTTTTTTTTTTTGAGATGGAGTTTCCCTCT
TGCTGCCCAGGCTGGAGTGCAGCGGCGTGATCTTGGCTCTCTACAACCTCTGCCTCCTGGGGTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGG
GACTATGGGCACGTGCCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGCTTTCACCATGTTAGCCAGGATGGTCTCGATCTGACCTTGTG
ATCCACCCACCTCGGCCTCCCCAAGTGCTGGGATTACAAGCATGAGCCACCACGCCCGGCCGGATTTGTAAGAAAAAGTTGTGTTCTCCCCTGAAGCCTC
CATTTGGCATCATTCACAAACTACTCAAGGAAGAATTTGCTTTCCCAGTTGTATGTATAATTTAAGTCGTTTACTAGATAGAACTTTTTTTTAGGTTTAG
ATGGCCAAGACATCTATATGGTTTAGAAGGCAGAGTATACATTTTCCTTTGCAAACAGTATGAGTTAAAACTTTCTATGCTAAATGAGAATGCGGCATAA
AGTCTCCACTTACTGAAATTTAAAGATTCAACAAGACAAACCGAGAAGGGGGTCAGAGGAGCTCTAGGAAAGGCCCAGGAGAGGGCAGTTGGAGGCAGGT
GTGAGCATGAGGAGCTKCCCCCTGCCAGGGCATGGCTCAGGTGGCACAGGGACATCTGATGAACCCTGCCCGAGGTTCTCGGTGCCTCCCGTGCATGAGT
GGCTCACTGAAGGCAGGTGTGGAAGCCAAATGCCTGCAAGCCGTGTGTCAGGCCACAGCAGTGCAGTCATGCATCACGCACTCAGGTTTGTAACAGCAAC
ACCAGGGCCCTGTCTAGATTCACCCTGTGGGTGAGCCCGTTCTCCAGATGGGCGTATAAAGGGGCTTTCTCCTCTACACCGTTCCTGTCAATGTTCCGTA
CAGGCCCACATTCCCACCACTAAGCCAATGGAGTCAACCAGATTTCTAAAGCCATGGATATACGTGGTCACGGGGCCACATTTCTGCAGCTGGCTCAGTG
GCAGGCTTGGGCCGTCTCTCAGTACCATCTAAGACTTCTGTCTAGGTTCCTGTTTTTTTAGAMTCCTGAACTGCCATTCTGATTAGACACAATTTTAATG
GAATTTTTGGATTTAATRATAGTTGATAATCACCTTATGTATTTGCACAATCTCTTTATAATTAAAAACTCGCTAAGCTTCACTTGCTACTATCTACTAT
ATAGAATTAGAGACATTCCATTGGATTCTAAGCATCAGACACTCCTGGATCTCAAAATGACCTTTTCTAAATAAGCACAAGATTTATTTTTGTCCTAGCA
CTGTTGATAACACTCTGAAATATGTTATTGAACTGGAATTGTTTCTTTATGCTTGCATTCCAAAACCAACTGAAACAGATTGTAGTTTCACTTTAAATTC
TAGGCCTGTTCTATATTATRTGAAGGAATTCTCTGTAACGCTGATACTATGTTGCTAATTTGTGTACTTACAGRCACTTTAGAAAATGTTTAGACTGCAA
CATGCACTATAACATTGAACTCAGTCACATGAAGTGGTTAACACTTGCACACTGACTGACAGATATGAAAGCTGTATACTTTGGACCCAGTAATATGCTC
ATTGGAGCAAGGGTTGGGCTGTGTGGATGGATAAACTGCTTTCTTGGGTTTACATGGAAACCTGGTACCACTCCTACTTTTGGAAAGTTGGTATAAAAGC
TATTAGGTAGAAGCTTAATTCCACTAAATGTAGAATTTAGTTTTCTTCTCTAACCAAGATTTTAGAAGTTTCAAGTTTCAAATATGCTTATAACTTTTCC
AAGAAATGATGATTACAGTGCTTTTGTGGTTACAACTGTTTGGTATATTAAAAAATAAGGGTTTACTATCACATCTAGGTCTTTTTTACTATGTCATTTT
TAAGATATGAAATAAGAATCTGAGGACAGCCCTGAAGAACAGTCCTTTCCTGGGAGGGGAAGACTTGTAATTCAAGGKCATACAATACAAAATAAAACAA
AAACAAAAGCACCAAGAGCAGAACAAAACAACGTAGTTGCTTTCCTGAAATACTTTTTGGATTTGATTCTATCTTGGGAGTGGTGGCTTTACTTTTTTTT
TTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCCTTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCCAGCTCTGCCTCCCAGGTTCATG
CCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGTGCCCGCCACCATGCCTCGCTAATTTTTTGTATTTTTAGTAGAAACGGGGTTTCACCG
TGTTAGCCAGGATGGTCTTGATCTCATGACCTCGTGATCCACCCTCCTCGGCTTCCCAAAGTGCTGGGATTGCAGGCGTGAACCACCACGCCCGGCCGGC
TTTACTTCTAATCCTCCACTTCTTGGTCTATTTGAACCATCACAAGTATTTTGGGACCGATAACAAACCCCTTTTATGCTAATTTAATTCTTGACTTGGG
TAATAGGTGCACCTGGATAATTTATAAAGCTGTCCATAGATCTAAGTTTAGTGGTACAGATACTACTGGGCAGGAGAAAAAGCACAAGTTAAAATATTTC
TACAGTCAGCTCTTAATATTCCCACATCTTGTTTGCAAAATTTTATGGTCACGTTCTGGCTTTTTTACATGAGGAAAACAAAGTTTTAACAGTTTTCTCT
TCTGTCCCCTTCTCCAGAGGAGGTGTGAACCAGAACTGAGGAGGCCAGTTATATTTTAGGCTTTTCAGTAGTACGATTTTGTCCTCTCCCACTGAGGAGG
AGGGAAGAAGGGGGAAGCCAGTGGGAGTTCCACACACGTGGTCAGTGCTGTAAGTTCCCGGATATCAGTGTCTCTCACATCAACACAGAAATAGGGCACT
TCTCAACATTAATTTTGGAATTATTCACCATTTAAAAATTGTCACTGCTCTTTTTCATTACTGTAGATAACTGAGAGTTAGCTGTTCTAGGAAAAGGCCA
TGTTTCAGTTAGTGCTATGACTTCTTTTTTCGATTAAGGTTGAAGCAGTGTTCTCTTAGTAGCCTGAACACTTCTCAAAGCGACTTATCACTAGCGGCTT
TAATATTGAGCTTCTATATCGTTGTGTCCACCTCACTTTTTAAGGCTGTTCATACCTGGCAATATTCACTTACTCTGCTATTTTTAAAAACTATTTTAAA
GTTTTAAGCACAATGTTGACTSTTCTGTAATTTCCTAAAATTATATTGTTTTCCTACAGACAGCTCAACTTTCCTTGATATGTAACACTCTAGGAAAATA
ACTGCCTTGTAAAATAAACGTGATTTTTTTTTTCTTTTATACCAGAACAAATCTGCTGTTTTGGAGTGTACCCAACCCCAAAACCAAAACTCACGTTTGC
AAAGTGTGAAACATTTATATATCAGGTCTTTCCTACGTGCTAGGAAATAGCGTATGGCCATTACCCCATTAAACCTTTACAAGACCTCAATGAGGTGCAG
ATAAACTGTACTGTCCGCAGTATCTACTCAGAGTCACCACTCATGATAACTCCCAGAACTCTGGCTACATTGGGTTTATAGCAAATAAAACTTGATACCC
CCCCCCCACCACCACCAAATAGCATTTATTTCACACGCAGTTACAGCCTTTCTGTTCGGCTTACACGTGTCATGTGGGGCAGTGTTGGCTGCAGTTCTAA
CTGAAGATCAGGCATCGAGGGAGGCTGCTGCCCGGCAGAGCTTGGGGGGGTCGCTTGGTCACCAAGACTCAGGGGCCAGGCCTCAGCGCGGCAAGTCCAT
ACTCAGAAAAGAACAGCTTCAAGGGTTGGAGTCTATTGAACAACCTTCCTAGGAACTGCTAAATAAAGTCATTATCAGTAATAAAATCCTTGTTAATATT
AATTATAGTTCAATGGCTACCTTAAGCTTTCTATGCATAATCTCCACAGCAACCCTGTGAGGGAGATTAAAGCAGCCCCATTTCACAGATCAGGAAAAGA
GCTCAAGAAGTCCACATCTTTACCCAGTGTGGCACAGCTCGTACATGAGTGGCAGTCAGGGTTTGAACCCGGTCACTTTGGCTCTAGAGTCCGCACTCTT
GGCCCATTGTCTGCATTACTCCATCCCCCTAACCCAGCAGATACCTTCCCACAGACTAGTGCCTCGTCTACCTCAGTGCACCTGGTCCCAACACAGTGGA
GGAGAAACACTGACAGGCTTCCCTCTTTGTCCCCTTCTCTGTCCTCCATACKYTGCCCCCCCACCCCGCACCCTATACCATGTCTCTGCAAATATCTCTA
TGCTCTGATGAGGCCATTGCTTCTTCCATGTTTAATCACCTCTTGACTAGCATTCAAGACTAGCTCTGCCTTTCCTAAAGCTAACTGATCTTTTAAAGTG
ATTCCTGCAGACAGCGCATCTCATCTGCGTGTGCACTCTACTGTTTTAACTCTCTACCTAATTGTATTGCCAAGTCCTAGAAGGCATCTCATTGTAGCCT
CTTACAAATGCTGACTGCACACACTTTTATTCTGCAATAAACTTTAATTTAGCATCTCATCCTCATTACAATTCAGTCACTGGGAATTGGTAATGCCCTT
AACCCTTACTGTCCCACCCTAGTTCTATGCTGAATGAAGGGAGTAAGAAGGATCTCTGGACTCAGCCTCCCTGCGGTAGGGTCAGGAAGGGGCAGTTAGA
GGTCAGATGGAATTCTTCAGGAATCAGGGAGATACGGGAAATTGATGGAAATAAAAAGGCAAAAGGAATGTGCCAAGATTAATAGTGTTTGTTTTAAATT
TTCTACTTTTCTGAAATGAAGATACAATTACTTTTACAATCAGAAACGACCCAGTAAGTTATTTTGATGATGTCAACTCCTAGGACAGTGAGTACACATG
GAGTCTGATTTTGCTGGATCTGTGCCTGGAAGTGGGTTGAGGCCGTGGCCAAACCTGCTCATGCACCTGCTGGAAGAGACTAGCAGCTGGGCTGGGAGTG
TGCGTCATGAAACTAATGGGCCTCCACGGAGGAGTGACCCCTTTCGTGGCTGGAGAGTTCATGGGCCAGGTGGGTTGGAGAAAGGGGTGAGGCTTCATTT
CTTCCTGTCTTCCCCAGTCCCCAGCCTGAAGTTGTGTGTGACTCGAGATAGGAGATGAGAAAGCTTGGGATCCGGGGGGACCATCCTGGCCCTGTATGAC
ACCTAGCTGGTCACCTGTTGTCAAACCCCAGTGATTCCTCCCAGGACAAAGATGATGACAAAATACAAGGCATCGTGGATCAGCAGAACACCACAATGTC
TGAACAGGGACCTGCAGTTTACGTAGCATCTTCCCAGATGGCAGCTTATCTGCTAGACCCATCAACTCTGTGTGGTGGACAGGGCAGGGATATTGGCGAG
TTTCTTGCGAAGCAGCCAAGAGTTAACTTTAAAGGTCACATGGCAGGAAGTGGCAAGGTCAGAGCCCCAGACTTCTGATTCCAAAGCCAGCCTTGCTGCT
TTACCACTTGTTGAGCCGCTGCAACAAAACCCTGCCCTGCTTTGCAGCCCATTTTCTCTTCGCCCCACAGCTGAGGCCACGAGGGCATCCCTTGCCTCGA
GGGAACTACAGCTCAGCCCTCAGGTATCGCCCGAGGTTGCCCTTGGTGCCACATCACTCTGTGCGCCAGCCTGGCTTGACCTGGATCTGAGTCTGTCCGG
AGAACAGGCATGACCTCGTGCTCAAGCGTGGCCGCTGGGTCTGAGAACTCATCCTGGGAATTGGCCTCGGGTCGGCCTTTTTTTTTATTTTTATTTTTAT
TTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACCACAACCTCCACCTCCCGGCTTCAAGCGATTCTTCTG
CTTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGTTAATTTTTGTGTTTTTAGTAGAGACGGGGTTTCATTATGTTGGCCAGGC
TGGTCTCGACCTCCTGACCTTGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCTACCGCGCCCACCAGGTCGGCTCTTTCAG
CAGCAGCTGCTCCTGTCTCCCTCCCTCCTACCTCCATTGGGATTGGGACCTTTGATACCAATTGCTTCCCTCAACTATTGCATGTCCTCAGTAGCATCCG
CTTTGGACTTGCCTCTCGGGCCAGTCTACTTCAGGCGACTGTGTAGATCCTGACTGTCTGATTACCTGGCCACGAGTGTCTCATACCTGCCTCAACCAGG
ACTGTGTGCAGTAAACAAGAGTACATTTCAGCCCTCATGTTTAGAAGCTGCCTGTGTGAGTTGCAATGCCAAAATTCACAGAGCAAATATAGGCACACCC
ATTTATCTGCAGAAGGACCTGGAAAAGCCATCCTGGTCTATGAGCATCACCACTCCAAGCGGTCGGACAGGACTCCGGAGCTCTCGGGAAAAGTGGGAAG
GCCACACAGTACCAGGAGGGGAGGTTCACCGTGGGCCAGGTGTGAGCTGAACAGGGGATTCCCAGAGCGTGTTTTCCCTGAGAACCTGGAATAATGAGGC
AATTCCAGCCTAATTCAGAGGCTGCACTGAGTATGTGGGAAGCACGTCAGATATTTGGGGTTCCCGGGGAAACCAAATGAAGATACCTCGGGAAACCAAA
TATCTGGATGAACATGGGGCACACAGTGGAGATCTCTGACGAGTCACCAAGAGGCCAGTGGAAGATCAGCCAGTCCAGCTAGAATTCACTGAGGTCCTTT
CACATCACTGGGGGTCCAAAGAGGTCAGTCCTATCCCAAAGGGATTTTTGCTGTCCCCATCATCATTTCCAAGGGTCACAGGCAGTGAATTGCTAGAGCT
ATCCAGTGCCTTCTGAGTCAATCAGGGAGTCACCTGGGCCCACATTATGCCACTTAGAGAGGGACTGATGGGGTCACGGAGAGGCCAGCAGCGGTGAGTA
TAAAGGGAGGCAGTTACCTGGAAACCTCATCTCATGTGGAGATGAGGCAGGGGTGGTGTGGGGGTGGGGGCTATGGGCATGCTGGAGGAGGATGGGCCGA
CTCATTCATCTAGAGAGAAGAGGCTGGGCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACGAGGTCAGGA
GATTGAGACCATGCTGGCCAACATGGTGAAACAGTACCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCGTGCACATGTAGTCCCAGCTATTCA
GGAGGATGAGGCAGGAGAATCGCTTGAACATGGGAAGCAGAGGTTGCAGTAAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGTGAGACTCCG
TCTTTTCAAAAAAAAAAAAAAAAAAAGAAGAGGCTGGGTTGGGCAAACCATCAGGCCCAAGTTTGCTAGGGGCTGGGATGTGGACCCCAAGACTACTAGG
ACCCAATGCTGACCTTTGAGATAGGCAAAGCACAGGGATCTGAGGGAACAGATGTCTGGAATGGGGGACTACAGCTTCTCTCATAAGTGCTTCAATGTGA
GCCCAGCGTGGTGGCTCACACCCGTAATCCCAGCACTTTGGGAGGCTGAGGTAGGAGGATC


SNP Information

Context             (SEQ ID NO:15448):
GAGGGTTCTGCCGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTG
R
CCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAAACTAGCTGGGTGTGGTGGCACATTCCTGTAATCCCAGCTCCTCGGGAGGCTGAGGCAGGAG
Celera SNP ID:            hCV26184516
SNP Position Genomic:     12524
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15449):
GTAGCTGGAATTACAGGCATGCACCACCACGCCTGGCTAATTTTATATTTTTAGTAGAGACGGGATTTCACCATGTTGACCAGGCTGGTCTCGAACTCCT
R
ACCTCAGGTGATCCGCTTGCCTTGGCTTCCCAAATTGCTGGGATTACAGGCATGAGCCACCATGCCCAGCCCATACTGTATTTACTTTTGTAATTCTTTT
Celera SNP ID:            hCV26184517
SNP Position Genomic:     9837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15450):
GATAGCAATTCATTAATGAGCACTTGTTAGTTATGATTGTTCAAACAATTACCTAGCCACCTAGTTGCACTGTTATCCATCTTATATTTATCTTGTATAT
K
GGTGTAATGAAAACCTGGTCAAATACCTTATTGAAATCCTACCAACACACTGTTTTTACTGCCTCTTTTTGATCTGTGACCTATCTGTACATACACTCTT
Celera SNP ID:            hCV26184518
SNP Position Genomic:     8890
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15451):
GATGATATCCTGAATTATGTTTTCCATGTTGCTTACACTCTCCCCATGTCTTAAAATTAAAATTGGTCATATTGGATTATAGTGTTATGGCTATATCTTA
M
CACTGCAGGTAAAATGAGTTCCACTATATTAGTGTTTTCCAGAGAAACAGAGATAGATGGGTATTGGCTGATCGTAAGGAATTGGCTCACGTGATTATAG
Celera SNP ID:            hCV27945989
SNP Position Genomic:     59933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15452):
ACAGCATGTACCTCCTAATACAATACACCAAAAAAGGGTGTGTCATCACATCTATGGTGATTATTTCCCTGTTGTTTTAGATTATACATTTTGAAAAAAA
A
TCATAGATTTATATAAAATTTTAAGAAATACAGAGCCGTCATGTGCCCTTTGCCTAGTTCCCCCCAATGGCAATTAAGTTGCAAAACAGTAGTACAGTGT
Celera SNP ID:            hCV11236353
SNP Position Genomic:     70469
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15453):
GCACTTGCATTGAATTTGTGTATCAATTTGGAAAGATTTGCTTTTTCTTCATGTACAGTCATTCCTTGGTACCTATGGGGGATTGATTTCAGGATCCCCC
Y
GTGGATACCAAAATCTGTGGATACTCAAGTTCCTTATATAAAAGGGTGTAGTATTTGCTTGTAACCTATGCACATTCTCTTGTATACTTTAAATCTCTAG
Celera SNP ID:            hCV2690001
SNP Position Genomic:     34779
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15454):
TCTTTTTCTTTTTCTTTTTTTTTTTAGTAGAGATGAGATTTCACCATGTTGGCCAGACTGGTCTTGAACTCCTGGCCTCAGGTGATCCACCTGCGTCGGC
Y
TCCCAAAGTACTGGGATTACAGGCATGAGCCACTGCGCCTGGCCCATGGAGTCAATTTTTTGATGTCCAAGGAGCGGAAGAAAAGCCTTTCTCAGCTCTC
Celera SNP ID:            hCV2690004
SNP Position Genomic:     36082
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15455):
CCTGCGTCGGCCTCCCAAAGTACTGGGATTACAGGCATGAGCCACTGCGCCTGGCCCATGGAGTCAATTTTTTGATGTCCAAGGAGCGGAAGAAAAGCCT
K
TCTCAGCTCTCAGAGACCAATTGCCTTTTGTATTTGTTCTTTCCTGGCCCTCAGCCAGTTGGATGATGCTTGCCGACATTGAGGTCAGATCTTCCTGCCT
Celera SNP ID:            hCV2690005
SNP Position Genomic:     36171
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15456):
AATGCTCTAGTAAAACCATCTGGGCCTGGAGGTTTCTTTTTCTTGTTGTTGTTGTTTTTGAGTTTAAAAATTACTAATTCAATTTTCTTGTTATTATAGG
K
CTATTCAAATTATTATCAAGGAATGAATGTAGATCATTGGCATTTTTTCAGGAATTGGTTTATTTCATTCTGAGTTGTCAAATTTATGCTTGTAGAGTTG
Celera SNP ID:            hCV2810680
SNP Position Genomic:     20800
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,7)   total(G,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15457):
TTAGACACTCGGGGCTTTCGACTTTAGGGATTTTGATCTTTTAAGATTTCAACATTTGGGATTATGGCATTTGGGGTTGTCTTTTGAGATTGTGATCCAA
R
CCCAGTTGAATCCACAGGTACAGAACCCACGGATATGGAGGGCCAATGGTATTCTGAGACTCTATTGTTAGGTTTATACATATTTAGGCTTATATATGTT
Celera SNP ID:            hCV2690006
SNP Position Genomic:     36632
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15458):
AGGGCATGGGGAGGTTATCACTAGGCCAAGCCAAGACTGTAAGTGAGCCAAGGAACCACACGTTCTGGGTGCATGGCTGGAGCAGACCTCCCGCAGACCC
Y
TCACACTGTCAGCAGCCAGCAGCGGCAGAGCCCCTTCCTCCTGCAGAGTCCTCCGCACCCTCCACCAAGAAAGTGTCATCACGTTCACTGTAAAGCAATT
Celera SNP ID:            hCV29021871
SNP Position Genomic:     62343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15459):
CTTAGCTCCATTTATGAGTGAGAACGTATGATGTTTGGTTTTCCATTCCTGAGTTACTTTACTTAGAATAATAGTCTTCAGTCCTATCCAGGTTGCTGTG
R
ATGCCATTACTTCATTCCTTTTTATGCTGACCAGTATTCCATCGTATACATATATACCACATTTTCTTTATCCACTTGTTGATTGATGGGCATTTGGGCT
Celera SNP ID:            hCV2690007
SNP Position Genomic:     37926
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15460):
TGACAAATGATTTTCAATTAAAATCTGAACATTTTTCCATTATATGAAGAGACTCTGAATCTTAATTAAATAAGATCCTTCTGTTTTTGCTGGCTTTTTT
R
GGATACCATTCTGGCAGGGGAAGGGGCTGCATCCTCATTATTGCCAGATGGAGCTAGAAGTCCAGATTCCACACTTGTCCTCCACGGACACCCTGGAGAT
Celera SNP ID:            hCV2810682
SNP Position Genomic:     23991
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15461):
AGAATTGTCTATTCATGTCCTTAGCCCACTTTTTGATGGGATTGTTTTTTTCCTTGCTAATTTATTTGAATTCCTTGTAGATTCTGGGTATTAGTCCTTT
R
TTGGGTGTATAGATTGTGAAGATTTCCTCCAACTCTGTAGGTTGTCTGTTTACTCTGCTTATTTTCATCTTTCTTTATTTGCCCTGCATATCTATTTGTT
Celera SNP ID:            hCV2690008
SNP Position Genomic:     38516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15462):
GTGGGCAGGAGGTCTTCAGAATATTGGTTGCCTTGTGGAGAGGGCATGGGGAGGTTATCACTAGGCCAAGCCAAGACTGTAAGTGAGCCAAGGAACCACA
Y
GTTCTGGGTGCATGGCTGGAGCAGACCTCCCGCAGACCCTTCACACTGTCAGCAGCCAGCAGCGGCAGAGCCCCTTCCTCCTGCAGAGTCCTCCGCACCC
Celera SNP ID:            hCV29021872
SNP Position Genomic:     62303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15463):
TTTTTCCATTATATGAAGAGACTCTGAATCTTAATTAAATAAGATCCTTCTGTTTTTGCTGGCTTTTTTGGGATACCATTCTGGCAGGGGAAGGGGCTGC
R
TCCTCATTATTGCCAGATGGAGCTAGAAGTCCAGATTCCACACTTGTCCTCCACGGACACCCTGGAGATGAGGCTCGTTGGTATCTCTGGGTGGGAGTGG
Celera SNP ID:            hCV2810683
SNP Position Genomic:     24022
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15464):
AATGAGGAAACATTAAACTGAAAATAGATTAGTGATGTACTTTTCTGAAAAATTCGGAGATTAACTGAAAGACCAACATAAGCTTTATTATTTAGACATG
S
CTTTTCAGTTCATTTTCACATTTACATATGTAATGAGATATAGTATACTATTTAAATTTAACATTAGGTGACTAACTTTAAGCTCTGTTAAAATGGCTGT
Celera SNP ID:            hCV2690009
SNP Position Genomic:     39405
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15465):
TCAACGTCTCAATTTTTTAAAGCTGTTGTATCTACTCTAGATTGTTCACATGTTGATTATATGGATTTGCTCTTTTTGAGGGAGTCGGTTTACTCGGACA
Y
TAAAAAAACAAATAGTGGCCGGTCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCGGATGGATCACCTGAGGTCAGGAGTTCGAGA
Celera SNP ID:            hCV2810684
SNP Position Genomic:     31251
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15466):
CAAACAAGAGATGGAAACCACACAGTGGATTAAATGGGGAGGAAGTTTAATAGAGAGTATTATTAAACTCTGAGAAATTAAGGAAATTCTATGCAGTCCC
S
CAGGGCCTTGGGAGAATACCCAAGGAAAGACAAAGTGGGAAGGAGGTCCTTTCACCAAGGCTGGGGGTTCAGCCCAAAGGACAGCAGAGAAACGCACTGC
Celera SNP ID:            hCV29021873
SNP Position Genomic:     61981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15467):
AGCTGTTGTATCTACTCTAGATTGTTCACATGTTGATTATATGGATTTGCTCTTTTTGAGGGAGTCGGTTTACTCGGACATTAAAAAAACAAATAGTGGC
Y
GGTCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCGGATGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTAGCCAACATGGGG
Celera SNP ID:            hCV2810685
SNP Position Genomic:     31271
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15468):
GCTTCTAAAGATTTCTCACAGATCTTACAATAACTGAATTGGAGGAAATATATTTTACATATTTTAAAGTGATATGGCACTTACCCAGAAATAAATAATA
M
TAACTGATGTTTTCAGTAGAAAAAAAACAATTGGGAAATTCCTAGATTGTGCTATTTGCATTTTTATTGACAAGGTTGCTGATTTTAAAAGTAAGATAGA
Celera SNP ID:            hCV2810686
SNP Position Genomic:     41739
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15469):
AACTGTTTACCTAAATGATTTTTCCTTTTCTTCTCCCTCAGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTGTAATGATCAGTGATGTTG
M
GCTTTTTTTCATATGCTTGTTGGCTGCGTGTATGACTTCTTTTGAAAAGTGTCTGTTCATGTTTTTTGCCCACTTTTTAATGGTTTTTTTTTCTTGTAAA
Celera SNP ID:            hCV2690151
SNP Position Genomic:     55405
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15470):
ACTTTCTCTCCTGCCAGCCATGTGAAAATGTACCTGCTTCCCATTCACCTTCCACCATGATTGTAAGTTTCCTGAGACCTCCCCAGAAGCAGACGCCTGT
W
CATTCTGCAAAACCATGAGCCAATTAAACCTCTTTTCTCTGTAAATTACCCAGTCTCAGGTAGTTCTCTATAGTAGTGCAAGAATGGATGAATGCGTGCA
Celera SNP ID:            hCV2690152
SNP Position Genomic:     57453
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15471):
GAAATGGTAGCTCATTGCGGTTTTGTTTTGCATTTATCTAATGGCTAATGATGTGTTGAGCATTTTTTCATTTGCTTATTGACCATCTTTAAAGACATAT
Y
TATTCAAATCCTTTTGATCATTTTAAAATTAGATTGTCTTCTTATTGAATTCTAAGAGTTCTTTATATATTCTGATATAAATCTTTTGCCATATATATGA
Celera SNP ID:            hCV2313910
SNP Position Genomic:     47565
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15472):
ACGCCTGTTCATTCTGCAAAACCATGAGCCAATTAAACCTCTTTTCTCTGTAAATTACCCAGTCTCAGGTAGTTCTCTATAGTAGTGCAAGAATGGATGA
R
TGCGTGCATCTATTGAGATAATTGTGTGGTTGTCTTTAGTTATGTGATGAATCATATTTTTTGATTTGTGTGTGTATGTTGATCCAAACTTGCATTCCAG
Celera SNP ID:            hCV2690153
SNP Position Genomic:     57545
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15473):
CTTGCATATATGCCTATAGTCTTATTCAACTCTTGTTTTACTTATCTTCTGTATCTATCTGAAAGCTCCTATAGAAGCATGACTACATACTCTACTTCAT
Y
TTATTTCCCCATAGCATCTGACTTAGTAGCATAAACATGGTAGATATGCAATAAGGATTTGCTAGCTGAGTAAATAAGCCATGCGTCTGGTGGTCTGTCT
Celera SNP ID:            hCV2690154
SNP Position Genomic:     67919
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15474):
ACACTAAAGAAGTTATACATGCAATTTTAAAATGAAGGAACTAGGATCTTGCATATATTTCTGATTGAGAATTTCAGCTTGTTGGGAAATATGCAAACTT
Y
AGCGTCCTCACAGCTCAAAGTACAAAAATATTGGTGTATTGACTGCCAGTGGGGCAGAATGAAGGGCCAGGCCACAAAAAATATTGGCTATAATAAATAC
Celera SNP ID:            hCV2690155
SNP Position Genomic:     68150
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15475):
GAACTGAACTGTGCATGCAATTTACCTCAGGCCACTCATTTTTTTTCAGTAGATTTACCTTTCTAATTATATTTTGCTTGCACAAATATTTAAATTACTT
Y
GCATTCCCTGAGAGCAGTATACTTCTTGTGTCAAGGAGGACACACATTTAACAACCATAAAACTATCTGCAAAAGCAAAAAGCTCATTTTCCCCCCAAAG
Celera SNP ID:            hCV2690156
SNP Position Genomic:     68504
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15476):
CCACCTATCCATGCTAAAATTGGTGAAAGTATGGTGACAAACAGGATATTTGCACAGTCCTAAAATATCTTACAAAGAGAAAAATAGTAACTTTATAATG
R
AGAAACCTAGACAGGCACCACAAAGTTAATAAACATCACCTGTAACGAAGTTTATCAACAGCATGTACCTCCTAATACAATACACCAAAAAAGGGTGTGT
Celera SNP ID:            hCV2690157
SNP Position Genomic:     70311
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15477):
CAGTAAACCCTTAATTACGATTGTTCAGAGAATATAGTGGTTATTGAATTTCTTGGCTAAATCGCCAGAAACCCGTTTCAATCCTTGCTGTTGAAGAAGT
K
TGTTCATTTTATTCTCATAGTAAACATAATTGAATCTGATAATTCAGGATCTTGCAGTGCCTCGGAGCTATGTGAACATGGATTCTCGGCCTAGGATACC
Celera SNP ID:            hCV2690159
SNP Position Genomic:     71905
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15478):
CTGCTTTTGCAACTGCTGTTTTAGGGAGATATTCATTCTTTCCACTATGGCTTGTCCTTGAGAATTGTATGGGATGCCAGTAATGTGTTTAATATTCCAC
R
TAGAGAAAAATGTAGCTAGAGCTTGGCTAGTATAACCTGGGGCATTGTCTGTTTTAATAGAAGCTGGAATGCCCATCACCGCAAAACACTGGAAAAGGTG
Celera SNP ID:            hCV29021800
SNP Position Genomic:     49985
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15479):
GGCATTATTGCCAGCCAAAATGGATAAATATGCCCAATAAGTATAATTGTTCTCTGTGTCAGCCCTTGTTGAAGGAATACTCACGGCAGTGGTGATAACC
R
CTATCATAGCTACCATTAAATTATTCATTGTGACTGACTGTCCCCCTTTCCTCCGGTTTTCTTCTGCCATCTGTGACAGCTTTTTGATCTGTCCCCAGAT
Celera SNP ID:            hCV29021801
SNP Position Genomic:     49369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15480):
TGCAGAGATTTTGTTTATGGCCAGTTTTGGGGCCAGTTTATGGCCAGATTTTGAGGGGGGGCCTGCTCCTAACACGTCCCCCTTATTCGATTTGCAAATC
R
ATAAAAGCAAGGGCAGCTTTGTCATGGTGAGCTACTTCTCGCAGGAGTCAGGATCCACATCTGCAGACTATACAAAGACAAACAACACAGATTAAAAGCA
Celera SNP ID:            hCV29021802
SNP Position Genomic:     48492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15481):
TGGCCATCACAAACATGTCACAGTGCTGCAGAGATTTTGTTTATGGCCAGTTTTGGGGCCAGTTTATGGCCAGATTTTGAGGGGGGGCCTGCTCCTAACA
Y
GTCCCCCTTATTCGATTTGCAAATCAATAAAAGCAAGGGCAGCTTTGTCATGGTGAGCTACTTCTCGCAGGAGTCAGGATCCACATCTGCAGACTATACA
Celera SNP ID:            hCV29021803
SNP Position Genomic:     48466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15482):
GAATGGCTTTAAGCGGTTTTCCGCCCTGGGTGGGCCAGGTGTTCCTTGCCCTAATTCCCATAAACCCACAACCTTCCAGCATGGGCGTTATGGCCATCAC
R
AACATGTCACAGTGCTGCAGAGATTTTGTTTATGGCCAGTTTTGGGGCCAGTTTATGGCCAGATTTTGAGGGGGGGCCTGCTCCTAACACGTCCCCCTTA
Celera SNP ID:            hCV29021804
SNP Position Genomic:     48376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15483):
TAGAGGTGTGAAGTGGGAAATCAGGGGTCTCACAGCCTGCAGAGCTGAGAGCCCGAACAGAGATTTACACACATATTTATTAACAGCAAGCCAGCCATTC
R
CATTGTTTCTATAGATATTAAATTAACTAAAAGTATCCCTTATGGGAAATGAAGGGATGGGCCGAATGAAAGGAATAGGTTGGGCTAGTTAACTGCAGCA
Celera SNP ID:            hCV29021805
SNP Position Genomic:     48125
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15484):
GCATTGTGAGTTGCTTTTTGTACTTAGTGTGAGACAGGGATCTAATTTTCTTTCTTTTGCATGTGTGCCAAGAACAGCTCAGTCAGGGAGACCCTAACCC
R
GCAGCGCTAGAGGAATTAAAGACACACACACAGAAATATAGAGGTGTGAAGTGGGAAATCAGGGGTCTCACAGCCTGCAGAGCTGAGAGCCCGAACAGAG
Celera SNP ID:            hCV29021806
SNP Position Genomic:     47986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15485):
TTTGATGAAATCAAATTTACTTTTTCTTTCATTGCTTATGCTTTAACAAAACATTCTCTAATTCAAGATCATAAAGATTTATTCCTATGTATTCTTCTAA
R
AATTTATAGTTTTAGCTCTTATGTTTAGTTCCATGATGCATTGTGAGTTGCTTTTTGTACTTAGTGTGAGACAGGGATCTAATTTTCTTTCTTTTGCATG
Celera SNP ID:            hCV29021807
SNP Position Genomic:     47848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15486):
CATCATTTCACTTCCACTAAGAACATGCGGTATTTGGTTTTCTGTTTCTGCATTAGTTTGCTAAGGATAATGGCCTCCAGCTCCATCCATCTCTCTGCAA
A
GGACTTGATCTCATTCTTTTTTATGGCTGCATAGTTTTCCATGGTGTATGTGTACCACTTTTTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGA
Celera SNP ID:            hCV11236366
SNP Position Genomic:     54331
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15487):
TATGCTTGCTGGGGAATAGGAAAATGAGAACCAGGTGGCAAATGACCAGTCACTCAACCAGTTTCTTGTTACAGTCAGAATATAGTCAGAAAATGGGCCA
Y
GAGTGACTTCTATTTATTTTTTTTGATACAGAATCTCGCTCTATAGCTCAGGCTGGAATGCAGTGGTGTGATCTTGGCTCACTGCACCCTCCGCCTCCCA
Celera SNP ID:            hCV29021808
SNP Position Genomic:     46686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15488):
ATCAGCCTCCCAAAATGCCGGGATTACAGGCGTGAACCACCGCGCCCGGCTTCTCTTAGCACAAATTTCAAGTGCCATATATAACATATTATTATTAACT
R
TAGTCACCGTGCTGTACTTTAAGTCCCCAGAACATACTCATCTTAAAACTGCAAGTTTGTACCCTTTATTGGTCATTAATTTGTTTCTTGAAAACTTGGT
Celera SNP ID:            hCV2690010
SNP Position Genomic:     39679
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15489):
TGGCTAAAGAAGGAAAGAACCATCATGTCCCATCTCCAGTAAGACTTGCAGATATGAAAGAACATTCATTTATTCATTTATTCAACAAACATTTGTTGAG
Y
ATCTATTATATGCCAGACATATACAATGTAATACTGCCTTGGGGACATATTAGAACATAGAACTAGACACACTCCTGCCTTTTTAGGCATATGAAGAGAA
Celera SNP ID:            hCV2690011
SNP Position Genomic:     40838
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15490):
CATTGTGAATTTTACCTTGTTAGTTGCTGGATATTTATTTTTTAAGTTCAGGGGTATGTGTGCAGGTTTGTTATAAAGGTAAATTTATGCCATAGGAGTT
Y
GTTGTACCAATTATTTCATCACCCAGGTATTAAACCTAGTACCTATTAGTTATTTTTCATGATCCTTTCCCTCCTCCTACCCTCCACCTTCTGGTATGCA
Celera SNP ID:            hCV11236369
SNP Position Genomic:     54094
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15491):
TAGTCAAGTATATATGCCGTATAAAAATATATCCAGGATGGTTTGTCAGCACAGAAGCAGAGTATCTAAGACTTAGGGCATCAGGAAGACTTCTAGAACG
R
AGGATGCCCGAGCTTAAAGGAAAACAGGAATTGGCTAAAGAAGGAAAGAACCATCATGTCCCATCTCCAGTAAGACTTGCAGATATGAAAGAACATTCAT
Celera SNP ID:            hCV28008651
SNP Position Genomic:     40706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15492):
ATGTGCAGAAGATACAACATGAACCGGTAAATTGGCTAAATTAGGAAAAATTCAAAATGATGCCCACAATTGTGGCTACTTGTCTCTGGGATTTTTAGGA
S
CCCCCATCTCTGCTTTAGCTTTTTGTTTTGAAATCACTTTAGACTTACAGATTGGATATTTTCAGCCCTATTTCCTTAGCGTGTGGGAGGCTTTGCTAGA
Celera SNP ID:            hCV2690160
SNP Position Genomic:     74156
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15493):
AGATACAACATGAACCGGTAAATTGGCTAAATTAGGAAAAATTCAAAATGATGCCCACAATTGTGGCTACTTGTCTCTGGGATTTTTAGGACCCCCCATC
Y
CTGCTTTAGCTTTTTGTTTTGAAATCACTTTAGACTTACAGATTGGATATTTTCAGCCCTATTTCCTTAGCGTGTGGGAGGCTTTGCTAGATGTTGAATG
Celera SNP ID:            hCV2690161
SNP Position Genomic:     74165
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15494):
AGAAACCATTTCCCACCCTAAACTTTACCCCAGTCATTGAGGGTGGCCGGGACAATCCAGTGGGCCACTACCTATTAAATAAATATGTAGGTGTATGTAT
M
TTATAATTAGAACATAGACACCTGGAAAGTGAAAATCTCCCATAATTCTGATGATAAACTTACATACATTTAAAAACTGGAAAAATATATACATTAACAC
Celera SNP ID:            hCV2690162
SNP Position Genomic:     74635
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15495):
AAAATAAGGATTATAGTGTCTATCCACCTACTTCAGAGATATCAGAAAGACACAAATATAAATTGAGATTTAGAAAGTCGATTGAGTCTTTTAGATGAAA
R
TTATTATATACCATGCTGACTTTTTCATTGACTATACCAATGTTGAATGATTTTATTACTAGTTTCTTTTGAGGTGTTACTGAAATATTTTTAAAGACAT
Celera SNP ID:            hCV2690163
SNP Position Genomic:     75253
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15496):
CGTGGTCACGGGGCCACATTTCTGCAGCTGGCTCAGTGGCAGGCTTGGGCCGTCTCTCAGTACCATCTAAGACTTCTGTCTAGGTTCCTGTTTTTTTAGA
M
TCCTGAACTGCCATTCTGATTAGACACAATTTTAATGGAATTTTTGGATTTAATGATAGTTGATAATCACCTTATGTATTTGCACAATCTCTTTATAATT
Celera SNP ID:            hCV2690164
SNP Position Genomic:     78663
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:15497):
ATTGACTATACCAATGTTGAATGATTTTATTACTAGTTTCTTTTGAGGTGTTACTGAAATATTTTTAAAGACATTGAGTCCTCAGAAACCATTATGGCCA
Y
GTTAATATAGTTTGTGTAATATAGATTTCAAGTGTCTTTTTGTGTCTTCACAGGCAAATACATGTATCAGCCTATGACCCCTGTGGAACAGCTTCCAAGC
Celera SNP ID:            hCV25743612
SNP Position Genomic:     75380
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,21)   caucasian(T,22)   total(C,1|T,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:15498):
TTGCCTTAGCAACCAACTCCTCTCTTTCAATATGGGAATCCAGGAGAAATTTACAGACATCATTACCATCGTCTGTAAAGGGACAAAGTAATTTGCAGGG
R
GAGTTTTTAAGTTTAAGTGTCTTTTCAGTAGTAGAGTAACACGGTAGAGTGGTTCTTGAGATCATATTATTTTAAAATGACTTAACTTGCGTAGAGTACA
Celera SNP ID:            hCV29021811
SNP Position Genomic:     40084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15499):
GAGGCACCCAGGGAAGTTATTTGGGACTCTGTACTGACAGTAATGATGCTGTTCTATATCTGTTTTGTCATATATCCCTGAATTTCACTTGTCTGAGAAG
W
CAGATCCTTCAGTCTGTGACTGACATCCTTTTCTATCATCTTGCAACAACTTCTCTAGGCTATTTTACCTAGGAAATAGGCCTAGAGCTTTCAGCTGTCA
Celera SNP ID:            hCV29021812
SNP Position Genomic:     32607
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15500):
TTAGCAGAGGCTTCCCCCACCTTTATTTATATGCCAAAAAACTGCATGATTAGTTTATAGTTGACCCTTGAACAACATGGGTTTGAACTGCATGAGTCCA
Y
GTATGACTGGGTTTTACAACCAAATGTGGATTGGAAATATAGTATTCCCAGGGTGTGAAACCCATGAATACCGAGGGCCAACTGTGGGACTTGAGTATGT
Celera SNP ID:            hCV27986655
SNP Position Genomic:     18833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15501):
TGGGCCAGGTGTTCCTTGCCCTCATTCCCGTAAACCCACAACCTTCCAGCATGGGTGTTATGACCATCATGAACATGTCACAGTGCTGCAGAGATTTTGT
K
TATGGCCAGTTTTGGGGCCAGTTTATGGCCAGATTTTGGGGGGCCTGCTCCCAACACATGTGGATATCCAGTTGTCCTAACATCTACTTAACCTATTGAA
Celera SNP ID:            hCV11236370
SNP Position Genomic:     53741
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15502):
AAATAAAAACTGTAATTTTAAAAAGTCATGTCTAATGTATTTAATAGTATTTGTCTTTGACTCACAGAAAAAAATAATAATTTAAAATTTATGTTCATAG
R
AGCTTTTAAAGAGAAATAGATAATTGAATTTTTAAAATTATCAACATGCTGGGCACTCAAGGAATATTTGTTATTAATGATTAAACTCAGATATTAATCA
Celera SNP ID:            hCV29021813
SNP Position Genomic:     29981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15503):
TTTTTTTTGTCATTTTAGGTTGCTCCTTCCCTGGTCCATTGGCTAGAGAGAGCAGGCATTTTTTAGGGCTTCTTTTGTCTGCTGCCATTTATGTTTCCTG
R
TTGACAACTTTTTTAGCCCCAAGTCTGGCAAATAGGAGGAGAAAAAGATACACAAGAAAATACCAGGGAACTCACTACCGTGTGGTTGCTTGGGCCCCGA
Celera SNP ID:            hCV2954048
SNP Position Genomic:     24462
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15504):
GGTGTCGGCTCCGCGCGGAGGGAGAGGAAATGAGTGCGGCGGCCTCGCCGGCGTCGGAGCGGGGTTGGAAGAGCGAGAAACTAGATGAGGCTCAGGCCCT
R
GCGCGGAGTTGCGCCGCCCGCAGACCCGACTTCCAGCCGTGCGACGGGCTGTCTATCTGTGCCACGCACAGCCATGGCAAGTGCTTCAAGCTGCACTGGT
Celera SNP ID:            hCV29021814
SNP Position Genomic:     6267
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15505):
TTGAGAATGCTTTCTGAGTTTAAGAGAAGGGCAATTATATGCAGTATGAATATTTTTGGAATGGTTGTGAACTCTATAAAACCATGCTTTCAAAAACATT
T
AATAATGTATTTGAATGAAATAAAATTAAAATAAGAGGCAAAAAAGACTAGGCAGTTTTTATTATTTGTATGATACGAAGCTTCAGTCATGTCTTATCCT
Celera SNP ID:            hCV16221721
SNP Position Genomic:     13547
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15506):
CCCCTGACTCACCGAGGTACTGTATGATTTCAGACCTTTTTATTGACAACTATCAGGTTAAATGTATTAATGGGAAGATGTGTTATGTGCAGAAGCAGCC
R
GCACCACATTCCCACAGAATGAGCCCTGAGGAGGTCTCTGCACACGATGCCTTAATTTCAAAAGAGAGCAATACACCAAAAATAGATCACTGCTCTTCTC
Celera SNP ID:            hCV25745002
SNP Position Genomic:     75687
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,40)   total(A,1|G,71)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,30)   total(A,1|G,57)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:15507):
CCCCCTGACTCACCGAGGTACTGTATGATTTCAGACCTTTTTATTGACAACTATCAGGTTAAATGTATTAATGGGAAGATGTGTTATGTGCAGAAGCAGC
Y
GGCACCACATTCCCACAGAATGAGCCCTGAGGAGGTCTCTGCACACGATGCCTTAATTTCAAAAGAGAGCAATACACCAAAAATAGATCACTGCTCTTCT
Celera SNP ID:            hCV25745003
SNP Position Genomic:     75686
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,40)   total(C,72|T,4)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,30)   total(C,59|T,3)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15508):
GCTATATCTTACCACTGCAGGTAAAATGAGTTCCACTATATTAGTGTTTTCCAGAGAAACAGAGATAGATGGGTATTGGCTGATCGTAAGGAATTGGCTC
R
CGTGATTATAGAGACTGGTAAGTCCAAATCTGCAGTGTGGGCCAGCAGACAGGCCGGAGACCCTGGAGAGCTGACAGTGTGGATGACGCCCACGGGAAAT
Celera SNP ID:            hCV2689993
SNP Position Genomic:     60022
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15509):
TGAGGCATAGTTTCAAATCCTGGAAATTTTAAGTATGGCCTAATGAGAACATCAGAGTTGGAGACAGAACAGTACTTCCATCCTAACTATCCAGAAGCGC
R
CTCTCAGGCCATTGTGCTCTGAGATTCCCTTGTGCTCTGGCACCATTATGGTACATCTCTACGTCACATTAATTTTTTTTTTTTTGAGATGGAGTTTCCC
Celera SNP ID:            hCV9735843
SNP Position Genomic:     77497
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,12)      total(G,12|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:15510):
CATCTATTATGAAGACTGGATTCACAGTTCTTTTCCTAAGCTTGTTCTTTCAGGAAAAGCACTTTTAACTCAGTAGTTTTATATGCCATTCCTTTGGGGG
M
GAATAATCAAGGATATTCAGTAAGCTCTCTTGGCTTCACTTAGTTATTTTTGATATTATTGAGATAGAATATTCAAGTAACAAAGACAATGTTCTTTAAA
Celera SNP ID:            hCV2689994
SNP Position Genomic:     61546
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15511):
CTTCCCCTAATGCTTTGGATTTCCTCAGTGGCACCAATTTTGAAATTGGCTGGTTTAACTACAGTTTCAGGAGAAATGAGAGGTAATTATTAAAGAAAAA
W
ACAGAAGTATATTTTCTTTGATTACATTGGGAACTATAATTCATGTATATGTTAATAATAGCTCATTGATACTTGAATGTGTTTATTATGGTTATTAAAA
Celera SNP ID:            hCV2689995
SNP Position Genomic:     62853
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15512):
AACTGGAGATCTTTGCTGAGACAGTAAAGTGGATTTTTAAAAAGCTATAGAATCTCCTTTGGGGATTTTAATGTGAAGATTTTGAATAATATTTTTATCA
Y
GTGATTATCATTGCAGTAAGGGAATGGACAAGTGATTTCTTGCATGTTTAAAATTTGTCAGTGGGCTGTACCATCTCTCCAGGGCTTGTTTTGTGGCCAT
Celera SNP ID:            hCV2689997
SNP Position Genomic:     32088
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15513):
CTGCTATATTGTATGTCCCTTTTTAAAAAGTTGTTTCAAAGTTTGTTTTGAACAACATGGAATATAAATACATGTACATATGAATTCAGTAAAATAAGAG
R
CAATAAATATATTAATACTCTGTTTAACCGGATATCAGACTTCAGGCAAACTCTATTATAACAAGATATTACCACTTGGTTACTTTTTGTTGAGTGGTAA
Celera SNP ID:            hCV2689998
SNP Position Genomic:     27556
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15514):
TGTCTAATGTATTTAATAGTATTTGTCTTTGACTCACAGAAAAAAATAATAATTTAAAATTTATGTTCATAGGAGCTTTTAAAGAGAAATAGATAATTGA
W
TTTTTAAAATTATCAACATGCTGGGCACTCAAGGAATATTTGTTATTAATGATTAAACTCAGATATTAATCACTTGATTAAATCCATACATTCATGCTGT
Celera SNP ID:            hCV2689999
SNP Position Genomic:     30009
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15515):
TTGTGTCCACCTCACTTTTTAAGGCTGTTCATACCTGGCAATATTCACTTACTCTGCTATTTTTAAAAACTATTTTAAAGTTTTAAGCACAATGTTGACT
S
TTCTGTAATTTCCTAAAATTATATTGTTTTCCTACAGACAGCTCAACTTTCCTTGATATGTAACACTCTAGGAAAATAACTGCCTTGTAAAATAAACGTG
Celera SNP ID:            hCV15967630
SNP Position Genomic:     80822
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,13|C,1484)   total(G,13|C,1484) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15516):
TCTCCAACCATCGCTCCAGCGACCCTTCGACCTGGATTCGAGCCCCCACGATGGATGCCATTTGCCGAGACCAGCTCGGTTGGGGAGACCCTAACCCAGC
R
GCACTAGAGGAATTAAAAACACACAGAGAAATATAGAGGTGTGAAGTGGGAAATCAGGGGTCTCACAGCCTGCAGAGCTGAGAGCCCCAAACAGACATTT
Celera SNP ID:            hCV1568337
SNP Position Genomic:     53325
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15517):
TTAAGGCACAGATCGCTCATGCTATTGTTTGTGGCTTAAGAATGGCTTTAAGCGGTTTTCCACCCTGAGTGGGCCAGGTGTTCCTTGCCCTCATTCCCGT
R
AACCCACAACCTTCCAGCATGGGTGTTATGACCATCATGAACATGTCACAGTGCTGCAGAGATTTTGTGTATGGCCAGTTTTGGGGCCAGTTTATGGCCA
Celera SNP ID:            hCV27905949
SNP Position Genomic:     53672
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15518):
TTTTTGGTTGTCACAACTGGAGAGTTGCCTACTCATTTCTAGTGAGCAAGAGGTCAGGGATGCTGCTGAACATCCTAGAATGTAGAGGATAGCTCTTCAC
R
AGAATTGTCCAGCCTAAAACGTAAATAATAACAGAAACCCTGAATTAAGGCAAGATTGATAAGACTACCTTTGGTTAATATATAGTCCTTGAGTAGATAT
Celera SNP ID:            hCV11236380
SNP Position Genomic:     42513
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15519):
TACATACCTTTGCTTTGCTGTACTGACACAACAAATTAAGGCAGTGGTTCTCAACAGTGGATAATTTTGCCACCCAGGGGACATTTGGTAATGCCTGGAA
R
CATTTTTGGTTGTCACAACTGGAGAGTTGCCTACTCATTTCTAGTGAGCAAGAGGTCAGGGATGCTGCTGAACATCCTAGAATGTAGAGGATAGCTCTTC
Celera SNP ID:            hCV11236382
SNP Position Genomic:     42410
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15520):
CCTTATTGAAATCCTACCAACACACTGTTTTTACTGCCTCTTTTTGATCTGTGACCTATCTGTACATACACTCTTTTTTTAAAAAAAAACAAGAAATTAG
R
TTAATCTGGTAAAACTCAGGTTGATTCCACAAATGGTTACCATTTTCTTTTCTAAATGGTTAGAAACTGTTTTAAAATAAATAATCTGAATTTAGAAAAG
Celera SNP ID:            hCV15821605
SNP Position Genomic:     9016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15521):
CCAAGCTCCCCTTCTTACTCACCACAGGGATTGCTTTAAGAGTACTCTGGTGTCCTCCAGCTAGTTCCACATTCTCCAACCATCGCTCCAGCGACCCTTC
R
ACCTGGATTCGAGCCCCCACGATGGATGCCATTTGCCGAGACCAGCTCGGTTGGGGAGACCCTAACCCAGCGGCACTAGAGGAATTAAAAACACACAGAG
Celera SNP ID:            hCV27965186
SNP Position Genomic:     53253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15522):
CCTATTAGTTATTTTTCATGATCCTTTCCCTCCTCCTACCCTCCACCTTCTGGTATGCAGTGTGTGTTGTTCCCCTCTATGTGTCCATGTGTTCTCATCA
Y
TTCACTTCCACTAAGAACATGCGGTATTTGGTTTTCTGTTTCTGCATTAGTTTGCTAAGGATAATGGCCTCCAGCTCCATCCATCTCTCTGCAAAGGACT
Celera SNP ID:            hCV2690035
SNP Position Genomic:     54236
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15523):
GATTTATGTGCATGTCAAATGGCAATTATTATTTTGGAATAAAAATGTTAAAAATTTAACTCATGTTCAGTGACTCAAGTTTGAAATAATGTCATGAGAA
Y
TTTTACTGAACTTGCATTATTGGTTATTATTTATTGTATACTGAGAGTTTGGTGGCATGTAATATTCAAAAAAAGAAAATATTAATTAGTTTAGACATGC
Celera SNP ID:            hCV2690038
SNP Position Genomic:     46055
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15524):
TGACTCACCGAGGTACTGTATGATTTCAGACCTTTTTATTGACAACTATCAGGTTAAATGTATTAATGGGAAGATGTGTTATGTGCAGAAGCAGCCGGCA
Y
CACATTCCCACAGAATGAGCCCTGAGGAGGTCTCTGCACACGATGCCTTAATTTCAAAAGAGAGCAATACACCAAAAATAGATCACTGCTCTTCTCCCTC
Celera SNP ID:            hCV25745014
SNP Position Genomic:     75691
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,27|T,3)   total(C,57|T,5)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,37|T,3)   total(C,71|T,5)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:15525):
TTTCACTTCCACTAAGAACATGCGGTATTTGGTTTTCTGTTTCTGCATTAGTTTGCTAAGGATAATGGCCTCCAGCTCCATCCATCTCTCTGCAAAGGAC
W
TGATCTCATTCTTTTTTATGGCTGCATAGTTTTCCATGGTGTATGTGTACCACTTTTTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGATTCCA
Celera SNP ID:            hCV1568341
SNP Position Genomic:     54336
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15526):
CATTTTTTTCTCTGTGGATTCATAAAAATATCAACTGTAAAGGGAGATGCTTTCTGCCTTCATCACATTTTGTAATCCTTTGAGATTTTATGGGAAAACT
R
TAGATTTTCTGAGTTATTAGCATTAATCAATAGGCTCTAGGACCTACTTGTTTGAAATGTGCCCTGCTTGTATTCCAGACCAAAGTAATGAAATCCTAAT
Celera SNP ID:            hCV26184480
SNP Position Genomic:     60464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15527):
ATCTCTCTGCAAAGGACTTGATCTCATTCTTTTTTATGGCTGCATAGTTTTCCATGGTGTATGTGTACCACTTTTTCTTTATCCAGTCTATCATTGATGG
R
CATTTGGGTTGATTCCATGTTGTTGCTACTGTGAACAGTGCTGCAGTGAACATATGCATGCATGTGTCTTTATGATAGAATGATTTTATATTCCTTTGGG
Celera SNP ID:            hCV1568343
SNP Position Genomic:     54419
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15528):
CTTTTTATTATACTTTTTATAATATTCCAGGATGTTATATAAATGGAATCGTGTAGCATGTAGCTTTGTCCACTTAACATAAGGATCTCGAGATTCATCC
M
TGCTGTCGAGTATATCAGTAGTTGATTCTTTTCTTTTGCAGTTTAGCATTCCATTGGATGTACCACAATTTGTTTAACATTCATCAGCTGGTGGATATTT
Celera SNP ID:            hCV7560866
SNP Position Genomic:     33309
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15529):
GGGTATTTAGTGCTATACATTTCCCTCTTAACACTGTCTTAGCTGTGTCCCAGGGATTCTGGTATGTTGTATCTTTGTTTTCATTGGTTTCAAAGAATTT
S
TTTTTCTGCCTAAATTTCATTATTTACCCAAAATTCACTCAGGAGCAGGTTATTCAACTTCCATATAATTGTATGGTTTTGACAGAATTTCTTAGTTTTG
Celera SNP ID:            hCV26184481
SNP Position Genomic:     58521
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15530):
TCATCATCTCACAACCAAGAGAATTAAGGAGCATGGACACAAAGGATGAGGTTGGAGGGAAAGTTTAATAAGCAAAAGAAGAAAGCTGTCCACAGCGGAG
K
GGGGAGCCAGAGTGGATTGCCGTTTTACAGTTGAACTCAAAAGCTTTTATAAGAAACTCCTGTCATCTCTGTAGCTGTTTGAGTAACTTCTCTTATCTGA
Celera SNP ID:            hCV1568344
SNP Position Genomic:     54867
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15531):
TGTGTCATCTCTGATTTCTTTGAGCAGTATTTTGTAGTTCTCCTTGGAGAGATCTTTCACCTCCCTGGTTAGCTATATTCCTGGTTAATTTTTTGTGTCA
R
TTGTGAATGGGATTGTGTTTCTGATTTGGCTGTTGGCCTGTTTTTGGTATATAGGAATGCTAATCATTTCTGTACATTGAATTTGTATCCTGAGACTTTG
Celera SNP ID:            hCV26184482
SNP Position Genomic:     56683
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15532):
GAGTAACTTCTCTTATCTGAAAAGCTGTCTGCATAACTCTCCCTTATCTGTGTAGTTGTGCGTATGTCTCTAGGCATGCACAAAGCACCCTTTCTCTTGT
Y
TGTATAACTGTGGGTTTCTTTTAGGTAAGTCCCCCTCCTCCCTGTGCAGGTTCCCACAGAGCCCACCATGTATATGCCTGAAAGGGACAGGAGCCTTTTT
Celera SNP ID:            hCV1568345
SNP Position Genomic:     55048
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15533):
ATTTACCTAGTAATGGGATTGCTGGGTCAAATGGCAGTTCTGTTTTTAGGTCTTTGAGGAATTGCCACACAGTTTTCCACAATGATTGAACTAATTTACA
Y
TCCCACCAACAGTGTATAAGCATTCCTTTTTCTCTGCAACCTCTCCAACACCTGTTATTCTTTGACTTTTTAATAATAGCCATTCTGACTGGTGTTGAAA
Celera SNP ID:            hCV26184483
SNP Position Genomic:     54621
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15534):
TGCTAAGGATAATGGCCTCCAGCTCCATCCATCTCTCTGCAAAGGACTTGATCTCATTCTTTTTTATGGCTGCATAGTTTTCCATGGTGTATGTGTACCA
C
TTTTTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGATTCCATGTTGTTGCTACTGTGAACAGTGCTGCAGTGAACATATGCATGCATGTGTCTT
Celera SNP ID:            hCV26184484
SNP Position Genomic:     54389
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15535):
CTCAGTACCATCTAAGACTTCTGTCTAGGTTCCTGTTTTTTTAGACTCCTGAACTGCCATTCTGATTAGACACAATTTTAATGGAATTTTTGGATTTAAT
R
ATAGTTGATAATCACCTTATGTATTTGCACAATCTCTTTATAATTAAAAACTCGCTAAGCTTCACTTGCTACTATCTACTATATAGAATTAGAGACATTC
Celera SNP ID:            hCV1568348
SNP Position Genomic:     78718
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:15536):
TTGCTAAGGATAATGGCCTCCAGCTCCATCCATCTCTCTGCAAAGGACTTGATCTCATTCTTTTTTATGGCTGCATAGTTTTCCATGGTGTATGTGTACC
A
CTTTTTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGATTCCATGTTGTTGCTACTGTGAACAGTGCTGCAGTGAACATATGCATGCATGTGTCT
Celera SNP ID:            hCV26184485
SNP Position Genomic:     54388
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15537):
AACAGATTGTAGTTTCACTTTAAATTCTAGGCCTGTTCTATATTATGTGAAGGAATTCTCTGTAACGCTGATACTATGTTGCTAATTTGTGTACTTACAG
R
CACTTTAGAAAATGTTTAGACTGCAACATGCACTATAACATTGAACTCAGTCACATGAAGTGGTTAACACTTGCACACTGACTGACAGATATGAAAGCTG
Celera SNP ID:            hCV1568349
SNP Position Genomic:     79074
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:15538):
TTTGCTAAGGATAATGGCCTCCAGCTCCATCCATCTCTCTGCAAAGGACTTGATCTCATTCTTTTTTATGGCTGCATAGTTTTCCATGGTGTATGTGTAC
C
ACTTTTTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGATTCCATGTTGTTGCTACTGTGAACAGTGCTGCAGTGAACATATGCATGCATGTGTC
Celera SNP ID:            hCV26184486
SNP Position Genomic:     54387
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15539):
TTTGTGTATGGCCAGTTTTGGGGCCAGTTTATGGCCAGATTTTGGGGGGCCTGCTCCCAACACATGTGGATATCCAGTTGTCCTAACATCTACTTAACCT
R
TTGAACATATAGAATACAGTTGTAGTCATTGTTTTAGTATATTTGCTAATTTTAACATTTGTGTCAGTTCTGGGTAGATTTTAATTGATACTTTCTACAT
Celera SNP ID:            hCV26184487
SNP Position Genomic:     53836
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15540):
TATTTATTAACAGCAAGCCAGCCATTAGCATTGTTTCTGTAGATATTAACTTAACTGAAAGTATCCCTTATGGGAAATGAAGGGATGGGCCGAATGAAAG
K
AATAGGTTGGGCTAGTTAACTGCAGCAGGAGCATGTCCTTAAGGCACAGATCGCTCATGCTATTGTTTGTGGCTTAAGAATGGCTTTAAGCGGTTTTCCA
Celera SNP ID:            hCV26184488
SNP Position Genomic:     53533
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15541):
TAAACATTACCTCTTCACAGAAACCTTTCCTGGCTATGCTATCTAGAGTAGGCTCTCCCTGTTCTTTCTAACAGAATCATGCTTCTTTTTTTTTTTTTTT
T
AATTTCCATAGATTTTGGGGAACAGGTGGTAATTTGGTAATTTGTGAGATTTTGGTGAACCCGTCACCCGAGCAGTATACACTGAATCCAGTTTGTAGTC
Celera SNP ID:            hCV11236390
SNP Position Genomic:     37641
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15542):
TAATAGCTTTAGCTTCTTTCCAGGTAATGCTGTATCTGTGTTTGAGACTAGAGGCATTAACATGGGTTAAATTGTGAAAGTGTCTAGCATTAAATATTGC
M
TTAGCAACTAGGCGATTGGCCATTTGATTCCCTTCAGTCAAAGGTCCTGGAAGAAAGAGGTGTATGAGCCCTAATGTGAGTGATGTAAAAAGGGTGCATT
Celera SNP ID:            hCV26184489
SNP Position Genomic:     50401
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,12)   total(A,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15543):
AAATGCAAATGTAAAAAAAGGACTTTTTTTATTTGTTAAGTTTCAGCATTTTTATGCTTACACACACAGTCAACATTGTGATAATGCAGTTTCACAGAGT
S
AATTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGGTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCTGTCCTCCC
Celera SNP ID:            hCV11236393
SNP Position Genomic:     35797
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15544):
TAATTTAAAAAAAGAATGAATGTCTAGGTCTTAGTTCCTTTCTTCAAGCTAATCTATACCATATATCTTCTCAGGGAGTTAGAAATTAGACTTTTTCTTA
M
AAGTTGAGATAAAATTATAAAAAGTTTACAGTTCTGCAACAACATTTAGTTTTTCAGTAACACCTTATTTATCTCATTTTTAGGCCCAGTCTTTAAACTG
Celera SNP ID:            hCV3279015
SNP Position Genomic:     31663
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15545):
CTCAACAGTGGATAATTTTGCCACCCAGGGGACATTTGGTAATGCCTGGAAACATTTTTGGTTGTCACAACTGGAGAGTTGCCTACTCATTTCTAGTGAG
Y
AAGAGGTCAGGGATGCTGCTGAACATCCTAGAATGTAGAGGATAGCTCTTCACAAGAATTGTCCAGCCTAAAACGTAAATAATAACAGAAACCCTGAATT
Celera SNP ID:            hCV3279016
SNP Position Genomic:     42459
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15546):
TTTCTAGTGAGCAAGAGGTCAGGGATGCTGCTGAACATCCTAGAATGTAGAGGATAGCTCTTCACAAGAATTGTCCAGCCTAAAACGTAAATAATAACAG
R
AACCCTGAATTAAGGCAAGATTGATAAGACTACCTTTGGTTAATATATAGTCCTTGAGTAGATATGACATTCTATCTGTACTATAATATTTGTTTTTTCG
Celera SNP ID:            hCV3279017
SNP Position Genomic:     42548
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15547):
TCACTGGATAATAGCTTTAGCTTCTTTCCAGGTAATGCTGTATCTGTGTTTGAGACTAGAGGCATTAACATGGGTTAAATTGTGAAAGTGTCTAGCATTA
R
ATATTGCCTTAGCAACTAGGCGATTGGCCATTTGATTCCCTTCAGTCAAAGGTCCTGGAAGAAAGAGGTGTATGAGCCCTAATGTGAGTGATGTAAAAAG
Celera SNP ID:            hCV26184490
SNP Position Genomic:     50393
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15548):
AGGATTAACTCCTCCTTTAAAAGATGAGGAATGTACCATTTGGCAAGTTGGGCATCACTGGATAATAGCTTTAGCTTCTTTCCAGGTAATGCTGTATCTG
Y
GTTTGAGACTAGAGGCATTAACATGGGTTAAATTGTGAAAGTGTCTAGCATTAAATATTGCCTTAGCAACTAGGCGATTGGCCATTTGATTCCCTTCAGT
Celera SNP ID:            hCV26184491
SNP Position Genomic:     50339
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15549):
GCATTGTCTGTTTTAATAGAAGCTGGAATGCCCATCACCGCAAAACACTGGAAAAGGTGACGTTTAACACAGGCAGAAGACTCTCCTGATTGGCATGTAG
Y
CCAGACAAAGTGAGAAAAGGTGTCCACACATACATGTACATAAGCTAGTCTCCCAAACGAGGGAACATGTGTGACATCCATTTGCCAAAGAGAGTTAGGT
Celera SNP ID:            hCV26184492
SNP Position Genomic:     50127
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15550):
TTCTGCCATCTGTGACAGCTTTTTGATCTGTCCCCAGATGAGTGGCTGTGTTCGACGGGTGTTGCTTGTGTCAGTTGGGGTCCTCCTCAGCATCAGCCTC
S
ACATGGCTGCAACCGGGGGGTCCTTGGGATCCTCCCAGAATCTCTTCCTCGGCATCTGGCTCATGATAAAGTTTCAGGTGTCTTGATGGTATCCAAATCA
Celera SNP ID:            hCV26184493
SNP Position Genomic:     49531
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15551):
TAGAGTGATTACATCCAGGCATTATTGCCAGCCAAAATGGATAAATATGCCCAATAAGTATAATTGTTCTCTGTGTCAGCCCTTGTTGAAGGAATACTCA
Y
GGCAGTGGTGATAACCGCTATCATAGCTACCATTAAATTATTCATTGTGACTGACTGTCCCCCTTTCCTCCGGTTTTCTTCTGCCATCTGTGACAGCTTT
Celera SNP ID:            hCV26184494
SNP Position Genomic:     49352
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15552):
TAGTAGAGACAGGGTTTCTTCATGTTGGTCAGGCTGTTCTGAAACTCCCGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTAGGTTTACAGG
Y
GTGAGCCACCACGCCCGGCCCATTTGGTTATTTTCTTAGAGCAATCAACTTAGAAAGTATTCTTTGACATTTAAGTTGTTAATTTAAATTGTTACAGATT
Celera SNP ID:            hCV26184495
SNP Position Genomic:     45062
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15553):
TATGGAGCTTATGATTCTGTGGTTGATCATGGTGGTTGTCCTGGTCTGGACTGGCTCAGCAGATCTCTGTTGGACTCTCATGCTTCTGTGACCAGCTGGT
R
GGTCTACATGATCTGCCATAGCCCCATTCATAGTTCTAGTGGTTGACAGACCATTGGCTGGGGATCAGCTGCTCGCCAACTGGAGCACCTCATTCTCCTT
Celera SNP ID:            hCV2810651
SNP Position Genomic:     1210
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:15554):
TGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGGGCAGTGGCACGATCTCGGTTCACTGCAAGCTCCGCCTCCTGCGTTCACGCCATTCTCCTGCCTC
M
GCTTCCCTAGTAACTGGGACTACAGGCACCCACCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGGT
Celera SNP ID:            hCV26184497
SNP Position Genomic:     37001
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15555):
TTGTGATAATGCAGTTTCACAGAGTGAATTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGGTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCT
Y
GGCTCACTGCAACCTCTGTCCTCCCAGGTTCAAGCGATTCTCCTGCCTTAGCCTCCTGAGTAGTTGGGACTACAGGTGTGTGCCACCATGCCTGGCTAAT
Celera SNP ID:            hCV26184498
SNP Position Genomic:     35872
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15556):
TTTTTTATTTGTTAAGTTTCAGCATTTTTATGCTTACACACACAGTCAACATTGTGATAATGCAGTTTCACAGAGTGAATTTTTTTTTTTTTTTTTTTTT
T
GAGATGGAGTCTCGGTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCTGTCCTCCCAGGTTCAAGCGATTCTCCTGCCTT
Celera SNP ID:            hCV26184499
SNP Position Genomic:     35821
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15557):
GCTCCACACCAGACAGTAGAAATCAATAACGTCTTTAGGGCAAGGTGATGGAATGAGTTTCATGGTACAGAAAATGTAAAGGCTTCTCAACTTCAAATCA
Y
GTGTCTAACCTAAAATAAGGTGTTTGGATAATTCATCTTGCCTCCTAGCTAAAGTGCTATATTGCATGCTTTCTCATGCTCATTTTTTACTAGCTGAGAT
Celera SNP ID:            hCV2810655
SNP Position Genomic:     3579
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:15558):
GTTAAAGATGCTCCTCTTTTTCTTTCTCACTTTTGTCTTCCTGGGCTGCTATTTAAAAGAAGGAGCCCTTGGATATCCAATTGTTTCCCCCTTGATTGTA
Y
CCAAATTGAGAAAAAGCGCTAATGTGGGAGGGATTGCTTCCAAGAAGTTAATATTAACAGTTTGGAAGGTCGAGCTCCTTAAATACCCAGATGTAGAATT
Celera SNP ID:            hCV2810658
SNP Position Genomic:     6898
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15559):
ACAGCGGGCCATATCATATGAGGTTGAGGTGCCACTATACCACCATGGTTCCAGATAATAGGAACTCTTGTCATACTTTTTATCATTTCTGCCATCCGAC
S
GTTTTGTTCAGACCAGCTGAACATAGTGTGGCCGTGGCATGCAGACTGACAGGTGCAATTTAAGCTAAACATCTCCTTAGGGGACCAATTAATAATGATT
Celera SNP ID:            hCV11682919
SNP Position Genomic:     48964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15560):
GCAGTGGCGCAATCTCGGCTCACTGCGACCTCCACCTCCTGGGTTCAGGCGATTCTCCTGCCTCGTTCCTGAGTAGCCAGGATTACAGGCGTGCACCACC
R
TACCCGGCTAATTTTTGTGGGTTTTTTTGTTTTGTTTTGTTTTGTTTTTGAGACAGAGTCTTCGCTCTGTCGCCCAGGCTGGAGTGCTGTGGCGCGATCT
Celera SNP ID:            hCV11236408
SNP Position Genomic:     22232
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15561):
TTTCTGTTTTTTAAAAAATCAGGACTACAGTTATTTGTTCTTTTCCAGTCTTTGGCAGTCCTCCGGTTCTCCACACTTCCTCCACTGGCAGCAGCTCAGT
R
ATCCCATTCACTAAAAGCTTGACTTCATTTAAAGCAGCTAGGTGCTCTGTTACAATCTCCTCAGTTATCCTGGGAATTAATTCTCTCTATGCTTTTTAGC
Celera SNP ID:            hCV2810660
SNP Position Genomic:     9255
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15562):
TATTTTGGAAACTCAGAATAAAAATATGAATACAGCTGGACCACACTGGACCCCATATGGACCATTATGGACCCTATATGCAGAGTCTAAGGACACAATC
R
TACTGTATTTACTGTTTTTTTTTTTTTTTTTTGGGAGACAGAGTTTCACTCTTGTTGCCCGGGCTGGAGTGTAGTGGCGCGATGTCTGCTCACTGCAACC
Celera SNP ID:            hCV2810661
SNP Position Genomic:     9592
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15563):
CAGCTGGACCACACTGGACCCCATATGGACCATTATGGACCCTATATGCAGAGTCTAAGGACACAATCATACTGTATTTACTGTTTTTTTTTTTTTTTTT
K
GGGAGACAGAGTTTCACTCTTGTTGCCCGGGCTGGAGTGTAGTGGCGCGATGTCTGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGATTCTCCTGCC
Celera SNP ID:            hCV2810662
SNP Position Genomic:     9624
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15564):
TAACAACGAAATACTGAGTAACTAGGATTGGGAGGAAGGTCATGAATCTAGTTTTGGATCTGTAGGATTTAAGCTGCCTTTGTCCTCACATGGTGATGTC
R
GTAGGCAATTAGATACAGGGATGTAGAACTCAGAGGAGAGGTCTGGGCTAGAAATAATATGTAAGTAATTTACTTACTTATAGGTTGCAGTTGTAGCTGT
Celera SNP ID:            hCV2810664
SNP Position Genomic:     10754
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15565):
TAAGCTTTCCCTTTACAACACCAGAGTGTTTTCTTTTAGGACATCAGAGTCTGGGTACAAGAGGATAAGCTGGCAGAGGAGTCTAAGAAGAGATGGCTAG
R
GAAGAAAAATCTGGAAAATATGGTATTGCAGAAGCCAGGGGAAATTAGTGTTTTAAGAAAGAGTATGAAGATGAAACCAGTTTTCAGCAGGCTAATTATT
Celera SNP ID:            hCV2810665
SNP Position Genomic:     11010
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15566):
TTTTTTTTTTTTTTTGAGACAGAGTCTAGCTCTGTTGCCCAGGCTGGAGTGCAGTGTCACGATCTCAGCTCACTGCAACCTCTACCTCCCACATTCAAGC
R
ATCCTCCTGCCTCAACCTCGAGTAGCTGGAACTACAGGCATGCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTG
Celera SNP ID:            hCV11682922
SNP Position Genomic:     39064
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15567):
TTTTTTTATTTGTTAAGTTTCAGCATTTTTATGCTTACACACACAGTCAACATTGTGATAATGCAGTTTCACAGAGTGAATTTTTTTTTTTTTTTTTTTT
T
TGAGATGGAGTCTCGGTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCTGTCCTCCCAGGTTCAAGCGATTCTCCTGCCT
Celera SNP ID:            hCV26184500
SNP Position Genomic:     35820
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15568):
AGATATATCAAAAACCACGATGGGTCACCACTACATATGTCCTCTTTCAAAGAGCCGAGATCTCAAGAAATTTATCTTTCACAAATGCAAATGTAAAAAA
A
GGACTTTTTTTATTTGTTAAGTTTCAGCATTTTTATGCTTACACACACAGTCAACATTGTGATAATGCAGTTTCACAGAGTGAATTTTTTTTTTTTTTTT
Celera SNP ID:            hCV26184501
SNP Position Genomic:     35715
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15569):
ACTAGCTGGGTGTGGTGGCACATTCCTGTAATCCCAGCTCCTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACTCGGGAGGCAGAGGTTGCAGCGAGCCA
R
GATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCCTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAATGAGAGTTGTAACTTTGTCTAG
Celera SNP ID:            hCV2810669
SNP Position Genomic:     12664
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15570):
CAGCTGCTTGGGAGGCTGAAGGGGGAGGATCGCTTGAGCCTAGGAGTTCAAGTCCAGTCTTGACAACGTAGTGAGACCTCATCTCTTAAAAAAAAAAAAA
A
GGAAAGAAAAATATATCAAAAAGTGAAATGTATAAAGGCACTATAGTTGGTAATTGTGTGTACCCAGCTTTGTAACTGTAGTCACCCAAAATATCATGAT
Celera SNP ID:            hCV26184502
SNP Position Genomic:     35492
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15571):
ATCCACCGGCTCTGCATCCGGGGATTCAACCAATCATTAATTAAAAATACCTGGGAAAAGAACTAAGAAATAACAATACAACAATAAAAAATACAAATAG
K
CCGGGCGCAGCGGCTCACGCCTGTAATCACAGCACTTTGGGAGGACAAGGTGGGCAGATCACTTGAGGTCAGGATTTTGAGACCATCCTGGCCAACCTGG
Celera SNP ID:            hCV2945912
SNP Position Genomic:     64624
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,4)   total(G,4|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15572):
CTAAGTAGCCTTCAAGGTTAATCAGATACAAATCCATTTATTTTCAGAAAAGGAGTTAGAAAACTCAAAAACTTCTCTGATTTCATTAGTGGGTTTTGTT
K
TTTTTTTTTTTTTTCCGAAACAGTCTCGCTCTGTAGCCAGGCCGGAGTGCAGTGGTGCGATATCGGCTCACTGCAACCTCTGCTTCTGGGGTTCAGGCGA
Celera SNP ID:            hCV26184503
SNP Position Genomic:     30466
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15573):
GGCATGCACCACCAAGCCCAGCTAATTTTTCTGTTTTTTGTATGGATGGGATTTCACCATGTTGCCCAGAATGGTCTTGAACTCCTGAGCTCAAGTGATC
Y
GCCCACCTCAGCCTCCCAAAGTGCTAGGATTACAGGTGGCTTCTTTCTCATTTCTTCATGCTTGCATGCTACTTTGTTGCATATATGTGTAATAGATGTG
Celera SNP ID:            hCV26184505
SNP Position Genomic:     25143
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15574):
TTACAGGCGTGAGCCACCATGCCTGGCCAGATATTTGTAGTTCTTTTGTCTGATGCATACACATTTGGGATTGCTGATATCTTGTTACACTGACCCTTTT
K
TTCATTATCTGATGTCCCTCTCTGTATCTGGTAATTTTCTTTTCTGTGAAGTTGACTTTAGTTGATATTAATATAGCCATAACTGCTTTCTTTTGGTTAA
Celera SNP ID:            hCV26184506
SNP Position Genomic:     22774
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15575):
ACTGCGACCTCCACCTCCTGGGTTCAGGCGATTCTCCTGCCTCGTTCCTGAGTAGCCAGGATTACAGGCGTGCACCACCATACCCGGCTAATTTTTGTGG
K
TTTTTTTGTTTTGTTTTGTTTTGTTTTTGAGACAGAGTCTTCGCTCTGTCGCCCAGGCTGGAGTGCTGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCC
Celera SNP ID:            hCV26184507
SNP Position Genomic:     22253
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15576):
TTTTTCTGACTACACACTCTCTTCCTCTTGTCTCGCCTTTCCCCCCAATACATTTAGAAGAAAGTTGCAGACATCATGACACTTCATACCAAAATATATC
R
GTATGCCAAAAAAAGAGAAATATATCAGTATGCCTGTCTCAAGAATGAGGACATTTTTCTATGTAACCACAATACTGTACTCACACCTAAGATAATTAAC
Celera SNP ID:            hCV26184508
SNP Position Genomic:     15836
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15577):
TAGGTTCTTCCAGAGATAGAGAACGCTGATAGGTGTCTTTCTGTGTAGCTGGTGCTTCAATGATGGATGCACGTAAACTTCAACAATAACAAATAACACA
Y
ATCATGGCTATGTGCAGGCACATAACTTTTTGTAATCTTTTCGTATGTGTTTGCTCATTTAAACGTCACAACAATCTTGTGAAGTAGGTACTGTTACTAT
Celera SNP ID:            hCV11236411
SNP Position Genomic:     13165
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15578):
TATTACACTTGGATTTTTTTTATTATTCTCATTGTGGAAAGTTCTATTTTGTAATAGTTCCTATGTGTTGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
TTACCATAGAATCTTATATTTTGCTCCAATTCTTACTCCCCAGCTTCATCCTGTTTTCCTCCATTGTTAAGCAATGGACAGCTCTGGTTAATCAAATATA
Celera SNP ID:            hCV26184509
SNP Position Genomic:     15042
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15579):
AGAGATAGAGAATGCTGATAGGTTCTTCCAGAGATAGAGAACGCTGATAGGTGTCTTTCTGTGTAGCTGGTGCTTCAATGATGGATGCACGTAAACTTCA
R
CAATAACAAATAACACACATCATGGCTATGTGCAGGCACATAACTTTTTGTAATCTTTTCGTATGTGTTTGCTCATTTAAACGTCACAACAATCTTGTGA
Celera SNP ID:            hCV11236412
SNP Position Genomic:     13147
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15580):
AGGTTCTTCCAGAGATAGAGAATGCTGATAGGTTCTTCCAGAGATAGAGAACGCTGATAGGTGTCTTTCTGTGTAGCTGGTGCTTCAATGATGGATGCAC
R
TAAACTTCAACAATAACAAATAACACACATCATGGCTATGTGCAGGCACATAACTTTTTGTAATCTTTTCGTATGTGTTTGCTCATTTAAACGTCACAAC
Celera SNP ID:            hCV11236413
SNP Position Genomic:     13137
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15581):
TACAAAAACTAGCTGGGTGTGGTGGCACATTCCTGTAATCCCAGCTCCTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACTCGGGAGGCAGAGGTTGCAG
Y
GAGCCAAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCCTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAATGAGAGTTGTAACTT
Celera SNP ID:            hCV11236414
SNP Position Genomic:     12657
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15582):
TACAGTCCAGAGAGCAGCTGGGAACCGGATGAGTGCACCCTTCTCTCCCCCTCGCAGTCTGACCTGGAAGTGATTGAAACGATAGAAACGACTGTGTGAG
M
GTCCAGACAGGAAGCCACAGCCTCGGACCCACGCCGAGCTTTTGTACCTTTGTCTGGTGGATCCTTTTTTCCAATGCTGTTGATATTTTCTACCCACCCC
Celera SNP ID:            hCV25741915
SNP Position Genomic:     75992
SNP Source:               Applera
Population(Allele,Count): african american(A,30|C,2)   caucasian(A,36)   total(A,66|C,2)
SNP Type:                 UTR 3


Context             (SEQ ID NO:15583):
GGTCTTTTTTACTATGTCATTTTTAAGATATGAAATAAGAATCTGAGGACAGCCCTGAAGAACAGTCCTTTCCTGGGAGGGGAAGACTTGTAATTCAAGG
K
CATACAATACAAAATAAAACAAAAACAAAAGCACCAAGAGCAGAACAAAACAACGTAGTTGCTTTCCTGAAATACTTTTTGGATTTGATTCTATCTTGGG
Celera SNP ID:            hCV26184582
SNP Position Genomic:     79578
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:15584):
AATTTAAAGATTCAACAAGACAAACCGAGAAGGGGGTCAGAGGAGCTCTAGGAAAGGCCCAGGAGAGGGCAGTTGGAGGCAGGTGTGAGCATGAGGAGCT
K
CCCCCTGCCAGGGCATGGCTCAGGTGGCACAGGGACATCTGATGAACCCTGCCCGAGGTTCTCGGTGCCTCCCGTGCATGAGTGGCTCACTGAAGGCAGG
Celera SNP ID:            hCV7560897
SNP Position Genomic:     78217
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,7)      total(G,7|T,2) ;no_pop(T,-|G,-)   (G,-|T,-)   (T,-|G,-)   Caucasian(G,84)   total(G,84)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15585):
GGCTGCTATAATAAAATACCACAGACTGGGTGGCTTAAACAACAAACGTGTATTTCTCACAGTCTAGAAGCTGAGAATTCTAAGAGTGAGGCAGAAGTCA
S
TGTCTGATGAGGACGCTCATCCTGGTTTGCAGATGCTGTACCCTCACATAGAGGAGAAAGGGATCTGGTCTCTTCCTCTTCTCATAGGGCACTAAACCAA
Celera SNP ID:            hCV26184585
SNP Position Genomic:     72448
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15586):
ATATGTTATTGAACTGGAATTGTTTCTTTATGCTTGCATTCCAAAACCAACTGAAACAGATTGTAGTTTCACTTTAAATTCTAGGCCTGTTCTATATTAT
R
TGAAGGAATTCTCTGTAACGCTGATACTATGTTGCTAATTTGTGTACTTACAGGCACTTTAGAAAATGTTTAGACTGCAACATGCACTATAACATTGAAC
Celera SNP ID:            hCV7560898
SNP Position Genomic:     79020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15587):
AATCCTGTTCCACTGCCTGGTGAACGCCCTTGCATATATGCCTATAGTCTTATTCAACTCTTGTTTTACTTATCTTCTGTATCTATCTGAAAGCTCCTAT
A
GAAGCATGACTACATACTCTACTTCATCTTATTTCCCCATAGCATCTGACTTAGTAGCATAAACATGGTAGATATGCAATAAGGATTTGCTAGCTGAGTA
Celera SNP ID:            hCV26184586
SNP Position Genomic:     67891
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15588):
GAATCCTGTTCCACTGCCTGGTGAACGCCCTTGCATATATGCCTATAGTCTTATTCAACTCTTGTTTTACTTATCTTCTGTATCTATCTGAAAGCTCCTA
T
AGAAGCATGACTACATACTCTACTTCATCTTATTTCCCCATAGCATCTGACTTAGTAGCATAAACATGGTAGATATGCAATAAGGATTTGCTAGCTGAGT
Celera SNP ID:            hCV26184587
SNP Position Genomic:     67890
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15589):
GGAGGTGGAGGTTGCAGTGAGCCCAGATCATGCCATTGTACTCCAGCCTGGGTAACAAAGTGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAACCCCAG
R
GTATAACTCATTACAAACCATTTACTTTGTATTAGGTACTATAATCTAGAGAGGATTTAAAATATACAGAAGGATGTGCATAGGTTATATGCAAAATACC
Celera SNP ID:            hCV26184588
SNP Position Genomic:     64930
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15590):
TACTACTGTAAGAAATCCCATACCTTGGTCATTGAATCAATTTAAGACCAAACAAGAGATGGAAACCACACAGTGGATTAAATGGGGAGGAAGTTTAATA
K
AGAGTATTATTAAACTCTGAGAAATTAAGGAAATTCTATGCAGTCCCCCAGGGCCTTGGGAGAATACCCAAGGAAAGACAAAGTGGGAAGGAGGTCCTTT
Celera SNP ID:            hCV26184589
SNP Position Genomic:     61933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15591):
GTTTAAGAGAAGGGCAATTATATGCAGTATGAATATTTTTGGAATGGTTGTGAACTCTATAAAACCATGCTTTCAAAAACATTTAATAATGTATTTGAAT
R
AAATAAAATTAAAATAAGAGGCAAAAAAGACTAGGCAGTTTTTATTATTTGTATGATACGAAGCTTCAGTCATGTCTTATCCTCAGCTAATCTCTGACTG
Celera SNP ID:            hCV2810673
SNP Position Genomic:     13564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15592):
AGACTAGTGCCTCGTCTACCTCAGTGCACCTGGTCCCAACACAGTGGAGGAGAAACACTGACAGGCTTCCCTCTTTGTCCCCTTCTCTGTCCTCCATACC
Y
TGCCCCCCCACCCCGCACCCTATACCATGTCTCTGCAAATATCTCTATGCTCTGATGAGGCCATTGCTTCTTCCATGTTTAATCACCTCTTGACTAGCAT
Celera SNP ID:            hCV29021863
SNP Position Genomic:     81853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:15593):
ATCTTTTATAATGAAGAGGTTCTCTAACTGTACCCCATCTTCCTCATGTTACTGTAGACAAATTGATTCTTTGTTTTTGAGCAGGGTTTCGCTGTGTCAC
S
CAGGCTGGAGTGCAGTGCAACCTTCCTAGGGTCAAGCAGTCCTTCCACCTCAGCCTCCAAGTGGCTGGGGCCACAGAAGCATGCCACCATGCCTGGCTCA
Celera SNP ID:            hCV2810675
SNP Position Genomic:     16615
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15594):
CAGACTAGTGCCTCGTCTACCTCAGTGCACCTGGTCCCAACACAGTGGAGGAGAAACACTGACAGGCTTCCCTCTTTGTCCCCTTCTCTGTCCTCCATAC
K
ATGCCCCCCCACCCCGCACCCTATACCATGTCTCTGCAAATATCTCTATGCTCTGATGAGGCCATTGCTTCTTCCATGTTTAATCACCTCTTGACTAGCA
Celera SNP ID:            hCV29021864
SNP Position Genomic:     81852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:15595):
CACGATCTCGGGTCACTGCAGCCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTAGGTCACCATGCC
Y
GGCTAATTTTTGTATTTTTCTTTTTTTTTTTTTTTTTTAGTAGAGACGGGGTTTCACCATGATGGCCAGGCTGGTCTCAAACTCCTGGACTCAAGTGATC
Celera SNP ID:            hCV2810676
SNP Position Genomic:     18190
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15596):
CCAGGCGTGAGCCACCGCCTGGCCCTGGCGTCTTTTTTATAAGGGCCCTAATCCCATTCATGAGGGCTCTACCCTCAAGACCTATTATTACTTCCCAAAG
R
CCCCACTTCCTAAGACCCTCACATTAAGGATTAGGATTTCAACGTATGAATTTTGGGGGACAAACATGCAGCCCACAACAGGTGTGTATTGATGACTGAT
Celera SNP ID:            hCV2810677
SNP Position Genomic:     18423
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15597):
CCTGGTTAGCTATATTCCTGGTTAATTTTTTGTGTCAATTGTGAATGGGATTGTGTTTCTGATTTGGCTGTTGGCCTGTTTTTGGTATATAGGAATGCTA
R
TCATTTCTGTACATTGAATTTGTATCCTGAGACTTTGCTGAAGTTGTTTATTAGCTGAAGGAGCTTTTGGGCCGAGACTGTGGGGTTTTCTAGATATAGG
Celera SNP ID:            hCV29021793
SNP Position Genomic:     56746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15598):
ATATTACACTTGGATTTTTTTTATTATTCTCATTGTGGAAAGTTCTATTTTGTAATAGTTCCTATGTGTTGAGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TTTACCATAGAATCTTATATTTTGCTCCAATTCTTACTCCCCAGCTTCATCCTGTTTTCCTCCATTGTTAAGCAATGGACAGCTCTGGTTAATCAAATAT
Celera SNP ID:            hCV26184510
SNP Position Genomic:     15041
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15599):
CTACTATAGCTGTATAAGAAGTCTTTAGTTGGGTAGACTGAATTTTTTTTTTTTTTTTGAGACAGTCTTGCTCCGTCACCCAGGCTGGAGTGCAGTGGTA
Y
GATCTCGGCTGACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGCACCACCACACCTGG
Celera SNP ID:            hCV2810678
SNP Position Genomic:     19507
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15600):
TTGGAGAGATCTTTCACCTCCCTGGTTAGCTATATTCCTGGTTAATTTTTTGTGTCAATTGTGAATGGGATTGTGTTTCTGATTTGGCTGTTGGCCTGTT
K
TTGGTATATAGGAATGCTAATCATTTCTGTACATTGAATTTGTATCCTGAGACTTTGCTGAAGTTGTTTATTAGCTGAAGGAGCTTTTGGGCCGAGACTG
Celera SNP ID:            hCV29021794
SNP Position Genomic:     56726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15601):
TCTTTAACACAGTAAACCCTTAATTACGATTGTTCAGAGAATATAGTGGTTATTGAATTTCTTGGCTAAATCGCCAGAAACCCGTTTCAATCCTTGCTGT
K
GAAGAAGTGTGTTCATTTTATTCTCATAGTAAACATAATTGAATCTGATAATTCAGGATCTTGCAGTGCCTCGGAGCTATGTGAACATGGATTCTCGGCC
Celera SNP ID:            hCV29021867
SNP Position Genomic:     71896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15602):
AATATTACACTTGGATTTTTTTTATTATTCTCATTGTGGAAAGTTCTATTTTGTAATAGTTCCTATGTGTTGAGTGTGTGTGTGTGTGTGTGTGTGTGTG
K
GTTTACCATAGAATCTTATATTTTGCTCCAATTCTTACTCCCCAGCTTCATCCTGTTTTCCTCCATTGTTAAGCAATGGACAGCTCTGGTTAATCAAATA
Celera SNP ID:            hCV26184511
SNP Position Genomic:     15040
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,4)   total(G,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15603):
TGACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGCACCACCACACCTGGCTCATTTTC
R
TATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCTGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGAT
Celera SNP ID:            hCV2810679
SNP Position Genomic:     19617
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15604):
TTCTGTGAAGAATGTCATTTGTAGTTTGATAGGAATAGCATTGAATCTATAAATTGCTTTGGGCAGTATGGCCATTTTAATGAAACTGATTCTTTCTAAT
R
ACAAGCATGGAATGTTTTCCCATTTGTTTGTGTCATCTCTGATTTCTTTGAGCAGTATTTTGTAGTTCTCCTTGGAGAGATCTTTCACCTCCCTGGTTAG
Celera SNP ID:            hCV29021795
SNP Position Genomic:     56554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15605):
ATATTGGCTATAATAAATACTAAGTTCATTTGCTTTTGGTTTGTGATATGCTATTCAGTGAAAAATGAACCTTCCAGAAATTTCTAAATTAGAATATTTA
R
CATTACTTTCAAAATAATGAATGCCCTTGGGAATAAAATAAACATAATTATAATTCAAAATATAAAGTCAAAGAACTGAACTGTGCATGCAATTTACCTC
Celera SNP ID:            hCV29021868
SNP Position Genomic:     68331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15606):
TGAGAATGCTTTCTGAGTTTAAGAGAAGGGCAATTATATGCAGTATGAATATTTTTGGAATGGTTGTGAACTCTATAAAACCATGCTTTCAAAAACATTT
A
ATAATGTATTTGAATGAAATAAAATTAAAATAAGAGGCAAAAAAGACTAGGCAGTTTTTATTATTTGTATGATACGAAGCTTCAGTCATGTCTTATCCTC
Celera SNP ID:            hCV26184512
SNP Position Genomic:     13548
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15607):
TCCAACACCTGTTATTCTTTGACTTTTTAATAATAGCCATTCTGACTGGTGTTGAAACAGGTCAGGGTTACTGGTCTTGTTGTCTTAAGGTGTTACCCAA
R
CTCATCATCTCACAACCAAGAGAATTAAGGAGCATGGACACAAAGGATGAGGTTGGAGGGAAAGTTTAATAAGCAAAAGAAGAAAGCTGTCCACAGCGGA
Celera SNP ID:            hCV29021796
SNP Position Genomic:     54765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15608):
GCTTAGCATTCCAAGCCCCATCCAGCCTCAGTCTTCCTCAGAAACTTTATCCTCCTTTGCCCTTTTGATCGACTGTCTAACCCCAAATGCAGAGCTGATA
Y
ATTGGAGCCATTCTGCTTGCTACAATACCGGTCTCTGTCTTCTAATATCCATATAAAAATCCTTCAATGAAACTTGGAATCCTGTTCCACTGCCTGGTGA
Celera SNP ID:            hCV29021869
SNP Position Genomic:     67713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15609):
GTTGAGAATGCTTTCTGAGTTTAAGAGAAGGGCAATTATATGCAGTATGAATATTTTTGGAATGGTTGTGAACTCTATAAAACCATGCTTTCAAAAACAT
T
TAATAATGTATTTGAATGAAATAAAATTAAAATAAGAGGCAAAAAAGACTAGGCAGTTTTTATTATTTGTATGATACGAAGCTTCAGTCATGTCTTATCC
Celera SNP ID:            hCV26184513
SNP Position Genomic:     13546
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15610):
GGCAGAAGGCTCACAGCTTTTGTGTAGCATAGATCTACTGCGGCACTACCGGCTGTGGCGGGGGACAGACATTGTACAGGGGTGAGGGAATGGCCTGAGC
Y
GGAAAGGCCCCGGTTTAGAATGGGGCCTGGGACGGGCCCTCATGGTGTTTCCCAAAATCAGGTTCCCATCTTTATCAAACTTAGAGTGACACTGATTAGC
Celera SNP ID:            hCV29021797
SNP Position Genomic:     52354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15611):
TGTTGAGAATGCTTTCTGAGTTTAAGAGAAGGGCAATTATATGCAGTATGAATATTTTTGGAATGGTTGTGAACTCTATAAAACCATGCTTTCAAAAACA
T
TTAATAATGTATTTGAATGAAATAAAATTAAAATAAGAGGCAAAAAAGACTAGGCAGTTTTTATTATTTGTATGATACGAAGCTTCAGTCATGTCTTATC
Celera SNP ID:            hCV26184514
SNP Position Genomic:     13545
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15612):
TTGATCTGAAGTATAGGACATCTGGAAAACTTTACTTTTTGAGCCAGAATAAGAAGCTTTACCATTGCTAGACCTATCTGTAACATTTTCAGCACCTTCA
R
TTGGTTTAAATTTAGTTATTTTAGGGAGAATCTAATTAGTTAATTTCAAAAACTGAAACAGTTTTAAGAAAATGATTATCAAGAATACTTACAAAGTCAG
Celera SNP ID:            hCV29021799
SNP Position Genomic:     50787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15613):
ACATGGAGAAACCCCGTCTCTACTAAAAATACAAAAACTAGCTGGGTGTGGTGGCACATTCCTGTAATCCCAGCTCCTCGGGAGGCTGAGGCAGGAGAAT
Y
GCTTGAACTCGGGAGGCAGAGGTTGCAGCGAGCCAAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCCTCTCAAAAAAAAAAAAAA
Celera SNP ID:            hCV26184515
SNP Position Genomic:     12628
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Gene Number:                 31
Celera Gene:                 hCG1660791 - 79000076113689
Gene Symbol:                 PPP1R14C
Protein Name:                protein phosphatase 1, regulatory (inhibitor) subunit 14C;CPI17-like;KEPI;NY-BR-81
Celera Genomic Axis:         GA_x54KRFTF0F9(20405560..20525647)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12191):
ATAGAGAGTTGGAGCAGGACCCCCATGGAGATGGTTTCTGCTGTTCTCTTCCCATTCCTGAAGTCACGGTGTGTCCTTGGCCATAATTCCTTTGGGAAAT
TGCTGGAACCATGGTGAGCCAGTCCTCCCTTCTGTGTTTTTGGTCCCTCTGCAGATAACAGCAGGCATTGTCCTAGGTGCTTTATTCCAGTAACTCACTC
AGCCCTCCCACACACACGCACACACAAGCACCACTGATCATGCTGCAGATGGAGAAGTGGAGGTACAGAGAGATTCAGTAACTTGCCAAGGTCACCCCGT
ACTTCAGTGGCAGAGAGTGAATTTGATCCAGGCAGCTGAGATCTGGGTTTGTGCTGGTGACCACAATACACTTGTTCTCAAGCTGGAGGCTCTCCCAGTT
GCTGTCTTCTCATCTTCACCCTCTGGGCACTCTGGAGGGCATTTCCTAAGGGAGGCTGGAGGCCCAGCCAAGGTGCCTCTTAATGTCAAGAATATGCTTT
CTCTTTGGTTCTTCTGTGGCACCTCCAGGAGGTCACACACGTGCCCTTGGTCAGCCATTTGGGGTCAAAGTTCTTCACCAGAACTCTGAAAAACTTAATA
ATGGTACATTGAGAATGCCTGGGGTGCTGGGCATGGAGGCTCACACCTGTAATTCCAGCACTTGGGAGGCCGAGGTAGGAGAATTGCTTGAGTCCAGAAG
TTCCAGACCAGCCTGGGCATTATAGGGAGACCCTATCTCTACTAAAAGCAAAAAGCAAAAACTACAAAACAAAAAATTTAGCCAGGCATTGTGGCCTGCA
TCTTCTAGCACTTTGGGAGGCTGGGAGGTGGAGGATCACTTTAGCCTGGGAGTTAGAGGCTGCAGTGGGCTATGATCAAGCCACTGTACTCCAGATTAGG
TGACAAAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAATTAAAAAGAAAAAAACCCAGAATGTCAAACGTATCAATAACCACCCTGGAGTGTGCCATTAA
GATGAAGGAGAACCAGGATTCATGTTCATAGGTGCACTGATGGCTGCCAGCAGTGGTTTGAACAGTGGGCTTTTTGCAAGAATGAGTTGCAATCCTTTAG
TGGGTTAGGACTAACTTTAGTATGCTGGGACCAGCATTCTTTAAACATAAAGACACAGAGTAGATTGAGTAGGAAGTGTCAGAGTGTATCACATGAAATA
TGGGTGATATGGTTTGGCTTTGTGCCCCACCCAAATCTCATCTTGAATTGTAATCCTTGGGTGTTGAGGGAGGAACCTGGTGGGAGGTGATTGGTACGTG
GGGGTGGTTCACCCCATGCTGTTCTTGTGATAGTGATTGAGTTCTCACAAGATCTGATGGTTTTATAAGTGTTTGGCAAGTTCCTCCTTCTCTCATTCTC
TCTCCTGCTGCCTTGTGAAGAAGGTGCCTGCTTCCCCTTCTGCCACGATTGTAAGTTTCCTGAGGCCTCCCCAGTTATGCGGAACTGTGAGTCAGTTAAA
CCCATTTCCTTTACAAATTACCCAGTCTCAGGTAGTATCTTTACAGCAGTGTGAGAACAGACTAATACAATGGGTAAGTGTATGTGTGTGGATATATATA
TGGGTCATGACATAAAATGTATTTATTGTGGTTTGTAGTTAAAAAAATGTTTGAAAAACATTGGGCTTGAGTACTATTTACTGTGCTGGCCACCCAGCAC
AGTAACATTACTGTACTGTAATTACAGTACAGTAATTACTGTAATGTTTTGTTTTCTCATGAATTGCTGTAGCTATGTACTGATATACTTTAAATATAAA
GATAATTGTGGAGTGCATTGGCACTGTATGTGGTATGCTGCAGATCTAAAGCTCTGGCCGTAGATCTGCTTGAGGTAATGATTTGAGGGGTCTGTGGCAG
GTAGGTGGGAGTCAAAGCTGCAGGAAGTTGGAGCTCTAGCAAAAGCACCTGGGGAGGCTGTGAATGAGTAAGGAAAGAGCCCAGGGCAGAACTTGGGAAC
CACCTACCTTGAGGGCAGGGGTGTAGGAAAAAGAGCCCACAAAAAACACTCACTGTAATGCAATAGATAAAGAGGTAGGAGGAAAATCAGGAGGGTGTTG
GTACCTGGAGCCAAGACAGGAGAGAGTTTGAATAGTGAGGAAAGGTTCAAGATTGTTAAATGTGGCAGAAGGTCAAGTTATATAAGCGCTGAAACGCGCA
CCTGTGCTTGAGCAACACAGAGCTGGCTGGTGACCTCAGTGAGGGCGCAGGGCTCCACGATGAGATGGGAAGACCTAGAGACGTGGGGGAAGGGACACTT
CCTCCAGAATGTTTGGTGGTAAAAGCGAGGAGCACAAGAGGCCATTGGCTAGAAGGGAGGATAATTTGCTCCTCTAGAAACAAATTTGAACCTAGTTTTT
CAGAAGGAGACAATATACCCCACATGTTAGGCTTACTGAAATGGGCAGAGGTATGTAATTTTTGTTTAAAGGGATGGACAAAGCTATGGTTTTTTTTTCA
CCCATTTTTCATCATGTCTGAACAGTGAGGTGAGAACTTACGTTAGTTTTTGAGACAAAATTTTAGACTTGCAACAATGATTGCTGTTGCTTTTTTTTTT
TTTAATGCAAGCAACGGCCAAATTATTTTGGAATTACGATCCTAAATTGATCCCAGCCTGATACAATCAAAGGTCCAGAATTAGAAGGAGAAAAAGTGGA
GAGTGAAACAGTAGCCAAAAGAAAAACTTCACTGATATACTGTCAACAGCTGTGCTGTTATCACTCTGTAAAGAACAATGAAATATTGGAATGAAAATGG
AAAATGCTGTGGGTAACCAATGGAATCCTGAAAGACAGATTAAGTTTCTTCAACATTTATAATGAAAACCAGACTGAAAATAATTTTTAATTTGTCTTTT
TGCTTCATCAAATCTTGGAGAGGATTCGGATATAGGCATCTTATCATTTGACATTTATTACTCAAGATAAGAAGATTATGTTCAGGTTTGTGGGTCTCCA
GGATGCAATTATAACATTGTCAAAGTAGATTACCAGGTGTTGCATAATTATTGTGCCGTTTAAGGAAATTTGCATCTGAGTATAAACATGTGTATTTAAT
TATTTTCCTGGGGGGTGACAAAAGTTCCAGGACTCCTGATTAAGTCATCCATCCTGTCTAACAACCTTTGGGCATAAAGATCATATTCAGAGATAAAGGA
CCTATATAATTCCTAAACAAACAAACAAAAAACTTTGTCCAATTTGGGAAGCAAGTAAAACATAACCAAGCTAAGAAAACACAAAACTACGAAGAAAAAG
ATTCAAATGAAACATCCTTAGGCTGCCCTCTCATAGCAGGGAGTAATTGCCTTCAGGTAAAAGTTGATTCCGGACCATTCAATTCACTGAAAGCTATTCA
CTGTCTTAGATTAACCAGCACCTAAAAACACTTGACTAAATAGGCTAGAAATAAAAATGTTTTCCTTGAATAAATGTATATATTATTGGTTTTGTAGATG
AGAAATACCACTGGTTTTGCCGAATTTAAATAGTCAGCTATGTAAAGGGTCTCTGGACTAGGAAAAATTCCTTTATTCCTAAATATTTTGGCTTCAATAT
TTGAAATCTGCAAAAGCAGTATTTCTATCTGTCAAAATGAGGCCATTAAGTTTTGATTATTCAAACCTGGAATGAAGTGTGTGTGTCTGGGGGTAGAGGA
GATGATATGGACTTCACTTTGAATATAAATTACGTACTGGGTGGAGCAAATGGATTTAAAGAAAGAGGAACCCTGGTTCAATTCTATTTGCCAGTCAAGG
TGACTCACTTGAACATCTGAAGGCCAGCGTACCTGTGGAAAGAGACTATTTCCTGGATTTTCTTCTGTGAGTCAAGATGCTTAAAACCCATGTCTTTTAG
TATCTGTCATTTTGGAGTTGTAAGGGAAAATTGAGTTTTAAGCATAAAGGAAAAAGCATCTTATGCTGTGAGAAAAAAATTGACATCAGAATTTCTCAGA
AAGAACTTAGTGAATTTTTTAAAATTATTTGACGTTATCCTTGAATGACTGATTTCGTTGTCCAAAGACTTAAAGAAAGGAGTTGGAATTCCCCAGACTT
TGCCAAACTGTGGGATGGCACAATAGGTATTGTCAGGTCCCAGGGCCAGAATGAGGTAGAGATTTTATGTAGTTTCTCCTTTGTTAATAACATTTAAGCT
GTTTTCGTTCTGATTTGCATTCTCCTGATTAGTGCAGTTGGTCAAAGCTGGTGCTAGCGGACTTGGCCAGATGTCTGGAGCCATATAAGCTGATTCTGTG
TGGGAGATGCTGGGGCTGGTTCCTGCCCTCCTTTCCCTTCCTCCTTGCAGACAGAGTTCCATTTTGAGGTGGTCACTCTCTTGGCTGTGTGTTCGGGGTT
TACAGTGACCCACCCTAAAGGCAGAGGGGCAGAGGTGGTGCAGAGACTGGTCATCGGTCTCTAGGGGCAATCAAGGTAATTCATCTCCCTTGTCCCTGAT
AGGCTCGGTGCAAAACCCATCTTCTAAAGGGCAGCTGGCCTCTTCTAGCGGGGCAGAGATCGTTCAGCTTTGACCCCTTTGTAATTATGGCAGGAGTCCA
GGGCCCCACACCAGCCACCCTATTTCAATCTCCGCAGATCCTTCCCCTTCACATTGTGAGGCTTGACATGTCCCTGTGAAGAGCCGCAGGCATGGAACAC
TTTGGGAAAATCCCTATTCAGGCTCTCACTGGAAAACCCCAGACTGAGGGTACAAAGGCAATGGATCCTAAGCCTGGGTAGAGCAGAGCTGGGCGCTGGT
GGATCGCAGAGCCTGAAGCGCCAGGAGAAACCTGCTGGTTACTTTTATTTTGTCTTTGTAGTGTCAGTCTAGAACCCCACACAGGATCTTCTCCATCATA
GGAAAGTGTTCCGAGGAATTTGACTTGGTATCTATTTTATCTCTGAGAAACTTCTTTGAGTAGCTGCCAGTAACCTTTAGGGCTCTTTTATTTAAAAACA
ACAACAACAACAAACAAACAAAAAAAGTTCATGGCCAGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCCAGGCGGGCGGATCATGAGG
TCAGGAGTTCGAGACCAGAATGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTTGGTGTGGTGGCGAAAGCCTGTAATCCCAGC
TCTTCAGGAGGGTGAGGCAGGAGAATCGCTTGAACCCCGAAGTCAGAGGTTGCAGTGAGCCGAGATCTCGCCACTGCTCCCCAGCCTGGGCAACAGAGAG
ACTCCGTCTCAAAAAACAAAACAAAACAAAACCGTTACTAAAAGCCGCTTACTTGTATTCATTCGGACGTCTCTGTGGTTTCTATCAGTTCCTGAACAGG
AATGTATTGTTGTGTACAAGAAGAATATGTTAGTGTCTCCCTAATTTTACACATGCAGTTTTCTGTTTACAACTTCCCTCCCCACCTTATTGTCCTAACC
CTTCTGAGAAGCTCCTTCATGTGTAACTACTAGGCTGTGATGTTTTGCAGTAGAGTCAGGCAGTGCTGTTGCCCTCCTGGGTGGAAGGGGCTGTTTGGAA
TGGGATGGAGAGAAAGCTGGCAGTGCACGGGACGCAACACTAGAAATGTGAAACCAGGACCCTGTCGCCGACCCTCTTAGAGAAATGTTTACTGTCTGGA
TGCCCCCAGACGCCTTGCCTGAGCGCCGTCACGCTTTCTGCCCTTTGGATACGAAGATATCCGAATGCTGTGCCCATGATTAAGCAGACGCTTAGTAAGG
AAAGAAAACATTGGTCTGGAAATAATTTCTCAAGCGCCGTGACTGCCTTATTGCACAAACATCGCCTCTTCGATGTTTCTCACAATCCAGAGAGGAAGTG
GCATCCATCGTGGCATGAATAGGAATGTGTGTTTGGAGCCGTGGGGCGGGGCTGGAGGGGAGGGGACGCTACCCAGCCAACAGAGGAGACGGTGGGGCTA
GGAAAACCTCCTGGGGGAGCCTGCGGCGCGGTCCTTTCCTGTGTCCCCTTCGCTGCGGGTCCTGCCCGGGGCCGCGCCAGGTGGAGGCCCCGAGAGGCGG
CGCGTTTCCTGCGCTCCGGGATTGCGGGAGAAGCGTGAGTCCCTGTCTCCGAGACTAGAGGCCACGGACACCCGCGCAGGAGCATCCCCTGGCACCCCGC
CCCACGCCCGTCCTTCCGGAGTCTACACATCGGCGACCTCCCGTGTCTAGGCGCACACATTTCCCGCCCCGCGGAGACTCCCACGCCCCGGGCCCTCTCT
GCCGCAGGCGCCAGATCCCGCCTCTGGGGGCTGGACCGAGAGGGTCCTCGGCGGCTTCTTTAAGGCTGCGGTCCCCGCCCCGTCGTCCTCCCCGCCCTCC
TCCCTCTCGCCGCGGCTCCTCCCGCCCTCCCAGAGCAGCCGGGCGGCTGGGCGCGCGCGGCGCAGAGCAGGTGCCGGGGAGCCCTTCGCATGCGGCTGCC
GGGCCGGAGGTGGTAGCGGCGCCGGGCGCGCTCCGCCCGCCCCTCCTCCGGGCCGCACTGAGGCTCGGGCGCGCGGGGACATGTCGGTGGCGACGGGCAG
CAGCGAGRCGGCCGGCGGGGCCAGCGGCGGCGGCGCACGGGTTTTCTTCCAAAGCCCCCGGGGTGGCGCCGGTGGCAGCCCCGGCTCCAGCAGCGGCTCA
GGCTCCTCCCGGGAGGACTCGGCGCCCGTGGCCACGGCGGCCGCTGCAGGGCAGGTTCAGCAGCAACAGCAGCGGCGACACCAGCAGGGAAAAGTGACAG
TGAAATACGATCGTAAGGAGCTTCGGAAGCGGCTGGTGCTGGAGGAATGGATCGTGGAGCAGCTGGGTCAGCTCTACGGCTGCGAGGTACCTGGGCGCGG
GGCTGGGAGGGTCGGGGACCTCTCTAGCTCCTCTGTGCCCGCGCAGTAATTTTCCCGGGCTCCAGCTCCGGGGCGCGCATGTCCCTGACTCCCGGGGACC
AAGTGCCAGGAGCGAGGCGCGGCGCCTTCTCTCCCCCGCGGTGCCCTCTGGCGTCGGGCTCAGCGGTTGGGACGCCCCTGTCTGGGTTCGGCTGCCGGTG
CCCGGGGATCTGCGGGCCCCCTTGGTGGCCGTGGGGAGGGTTGGGTCCCGCGGAGCACAGTGCTTTTCTCCGAGCTCCGGGCGCCTCTGGGCTCCAGCTG
CAGCTGCGCAAAGCGGGGCTCGGAGGGGCTCACTCCAGCTGCGCCTCAGCAGCGGTTGGGGATACAGCAGCCAAAGAGAGCAGCGCTCACTGCTGGGATC
CGGGCAGCCCTGATTTTTGTGGAGAACGAGCAGGGAAGGAAGGAAGCTGCCTCGTGGAAAGGAGAGGTTCTGGGGATCTCAGAGGCCCCCTTGGTTCTTG
AAATTCCCCGTGAAAATCCTGAGATGGAACGCTTTCCGCTTTCCAGCCAGCCCCGACGGTGTCTCCATAATTCCGCCCTGCATTATCAGAGCTGCACACG
TTGTGCTTTGTTGAAGCCGTAGTTTTTCCTCTCTAAGCTCAGTTACTCCCAYTGATGGGCGCAGAATGAGCATCTGGGGCAACCTCGACGGGTGCCTCGG
TGGAAGGGCGGGAGCCCTGCGGRGGGCCTGCGGGATCCCGGGATCTGTCAGCTTCAGGCTCCCAGCTCCCCTCTCCTCCACGACATCGTGACTTCCCAAG
GTCCAGGGACTAAGGTCATACACAAGTCTCAGGGACGTGTATACATTTGATTTAGGGAGAAATATGTAGAATAAACTGCAGCAAAACGACTGAAGCCAAA
ATGATCTCTCATGAGCATCTTGAATAACAGTTATTAATTCTAAATGAAGTGACCTCCTCTTAAGGGAGTGGAGTTTGGAAAGGGTGGAAGCATGAAGGGG
TTAATAATTAAGAATGTGGCTTCTAAGCTAAAGCTAGGTTTGTGTTCATTCAACTGTTGTGCTCTTCAACAGAGATGACAACCAGATGAACTCACAGGCT
TTACCACTAATGTCGGGTGTTCTGTATTTGACACATTTCATGGCCTGTTGTGAAGACAYGTTTTCTTAAACACCCTCATTGCACAAGAAAACAGCATACT
CGTTACTGACTACTGATAAATGATTATAATATAATGAAGCTTGACTGTATGACTAATGGGGTTGTAAAAATGTGTTGTTTCTCCAGTCCAGCTCTTACAA
AAAGCTAATTTAATTGCATAAATAAAAACTGGCAAACATAAGAAGTATTCATGAGATTTTTATAGGAAGTTGGCAAAACTCTGTAAAGAAACATTATTTG
ATGTAGATGGGATTACTGTTGGATGAGTGGATGTGCTCAGTCCTGCCTCTGTAGAATCCAGTTAATTTTCATTTATTTCATACTGTTTTTTTTTTCTCCA
TTTGGGATTTGGAAAAGATTCGAATTAATAGAAAAAGCATTGTTGAAATTAACAGTGCACCAGCATGGTTCTTTTTGTGGGAGACTAATTAGGCTTAGAT
TGGGAAGCTAGAAAGAGCTCTACCCACTGAGTAGCCTGATAAACAATATATTTAAAAAATACTTCAGAATAATTAGAAAAAATGGAGGTTTGATTGTTTC
CTGTGTGGAACATGTAGGTTAGGTATATATTTTAAAGGGTAAACATGAGCTTGAATCTTTTCCTTGTATTGTACTTTTCTTCTTGGGTTTTAAATCTTCA
ACCCGTAGCAAACAGCTAGACATTTGAAAGGGAGGTTTTTGTGGTGAAATAATTCAAGATGCTCTATATGCTGCCTGCATGTCATTAACGTGGCAAGTAT
TTTTCTTCAAGTTGTTTGTTCAGTCATTGTAGGCTGAAGGAAGAGAAATAATTAGGTTGTTGGCAATTWGTAATCACTATGCTGGTGGTGTACCTCCATT
TAATAATAAAGAAACATGGGCAAATAAGTAGCCAAATAAAGGCTTGTCTCTTTGYATCTATTTCTCTGCTGATAGTGCTCTATTTTTAGCATTGGGTTCT
CTTGTTGAGTAACCTTTCTTTGTTGATAGCTTCAAGTATTTCAGCCTCTGGTTTGTGAATCAAGAAGGACGCACCCTAGCTTACAGCTCCGAACTTCATG
CATACGAAGATTAGGAAATGTCCTTTTTRTACTTAAAAGTGGTAATTCTTTCAAATGTTTAGCCCATGAAAGTGACACAGCCAATTTCCCAGCCTTCAAA
CCTCAAACCTGCCAAAGGCTTGAGTTATCTGCTGAGTTGGGGTAGAATATGAACACATCTTTAATTTCAGAAGAACTTGACCCAAGCAGGTTAGGAATCA
GATGACTTGACCTTTTCAGAATAGAAAATAATCTTTTGGAGCAGTGTAAAGYGATGTATTTAGAAAGAGGAAGAGGAAAGAAGAAATACACAGAACCACT
TTCTGTCTGTGTTTTTTTCTGGAAGTGTGCAGTGACTAATCAGTTTTGTATGAGAATAATGTCATAGGGGAATTTATTACCTACCTACTAGGTGACTAGG
TGCTCTTCTAGGTACTTTGGGCTAATTCATTTAGTCTTCATAACAACCCTATAAAGAAGATGTTCTTTTTATCCTTGTTTAAATGTAAATAAAGAAGTGA
AGACTCAGAGAGGATTAAAAGGCTGCTTCAAGCTCATGTAGCTGGTGGGTGGGTTGGGGTTGAGGATGAACCCAGTCTGGAATCTGAGTCCACTGTATAC
CCATGAGGCCTGTCTGTACCGTGCAAGAGAGCAAATGTAGGTCTACAAGACATCTGTCTAAATGTTTAAAACTTATGAGTTAAACTAACAACATTTGTAT
AAAATTTCTTCTGTCCACTGATCTTGACAGCTACATCTTCATAATGACCTTGAAGTCTAGGTTTGCATTTTGAATTCAAAATGTTACTTCCCAGAGTCAT
GAACTGAAATGCAGTTAGGAGACTGCCCTGGCCTGGGTTTCTTCCCTTTTGCTTCCCATCCTTGGTACAGTCCCACCTGGTAAAGGACACTGTGTCCACT
CGCACGCCCAGTCTTGGTATGCACCTGCCACTCCTTGACCATGATGCCTCTGCACACACCAGTGGTGATGTCCCCCTAGGCMAGAACAGATCTGGGAGGA
GCTTGTTCATGCCCTAGAAGCTACTTGGGATTTGAGAAGGGAATTCTGGGGACCCGGATCACAGACTAAAACCAAGTGGAGGGGCACTGGTTCTGGATAG
ATGTGTCCACTTTGTCCTAGGAAGTCTTCAGGAAGACAGGTTATGGCAGGAGTGGGGCCCGGAGATGTGGTCCCCTCTTACCCAGTCTAAGGGCAGCACT
GTAAAATACCACGTCAAATAGCCTTTTGAATACGTAGATAAGTGCTTTTATTGGATTCCAAAATGATTTGTTATGTGCTTATAGTTCTTTTCCATCTCAT
CTTCTCTTGGGAAGGCTTATACAGGTACATTTTCAGCTAGGAATTTGATTATAATGTAACCATTAGACTAAATCTACATCTACATCCACATTTAAGGATT
TCTGTTTAAAGACCTTTTTTTTTTTTTTTTAATCTCTTCCAAACCCTGGTGGGTTTTTTTTGTTTTGTTTTGTTTTTGTTTTTTTGAGATGAAGTCTTTC
TCTGTGGCCTAGGCTAGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAACGATTCTCCTGCTTCTGCCTCCTGAGTAGCT
GGGGCTGCAGATGCGTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGYCAGGCTGGTCTCGAACTCCTGATCT
CATGATCCGACTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCAACCCTGGTGGTTTTTAAGAGCATTTGAAATCTGG
CATAATATCTACTTTAACAAGTACTGCAAGATGACTTACTGGATAAGTCATATGAATATTTCCAAGTTTGCCCAGCATCAAGATAACATCTGTACTTCCA
GTTTTGCAATTCAATTTGCTTTGGAAATAAAAACATGTTGCTAAGCTCAGATGATTGCAATGCCCGTAGCATCCTAGCCATAAACAGGCTTGTGTACCTT
GGGTACTTGCTGTGTTGTTCTGACTGTCACCTTAGTAGGTCTTTCCCTTTGCTTCCAGTGTCTGCTTTTTATAAAATGGTTCCTGACTTATTATACCTTT
CAGTCTTCCCTGACTCCCCATTACCCCCATTTTATAAAAACTGTCTTCTGAGAGATGGTGGTGACACAGAAAGAAATACCCTGTTGATTGCTGCCTGATA
CATCTGGATATATAGATTGCTGCCTGACACATGGATACAGAGAAACAGAGAGTCATAGGGTACCACTTAATCTTACTGTATGCTAAGGAAAAATATTATA
AAAGTAATCTGAAACATAACGTCATTAGTGTTTAAATACCATGTTTTATTCCTCACTTTCTGAAAAATGATTTTATTTTTCTAAATTTGTTTCATAATGC
ATTTATGAGTTGTGACCTGCAATTTTAAAAGTACTGCTTCTGAAAGGGAGAAGCCTAAACATGTGTAATAGAGTTAGCAGACACTGGCCGAGTACTTAGC
ACGTACTAGGCAAGGTTCATGTAATCTTGGCAACAACTCTGAGACCCCCATTTTGTGGAGGTGGAATCAGGCACAGGGAAGTTAAGAAGTTGCCCCAGGA
CTCTCAGCTGGGATGTGACAGAACAAGGCTGTGGCCAGGGAGTCAGGCACACCTTAACAAATGGCCTGTCCTGCCTCCTGAGACAGGGCAGAGCCTGGCA
CCTATGTGAACCCCATGGTTTGCCTGTTCCCAGATGCTGCTGTTATACCTTGTAAATGGACTGTGAGTGCATGTGGAGGACACCACTGTTAGCGGGTTAG
TTCTTGCACCTGGATGAGGCCTCTCCTTTTACATGCAGATCCTGGATTTCCACAGACTTTTCCAGGTACAGTATCACATCAGCCGGCTTTGCTACTTTAT
TAGCGCTCAAGCTGGAAGGTAGAAACTGCTACTTAGAACTCGTCTTGTGGATTGTTTGGTAAATCACCATTTGTTCAGGTATTTGAGGACAGGCTTTTAA
ACAACAACAAAACCCCCTGAACTCCATAAACTCAACCTGTCAACTACTAAGGAATAAATTACACATGCAAAAAGTCAGTGGATAAAGCCAGGCATGGTGG
CTCTAGCCTGTAATCCCAGCACTGACGGATCGCTTGAGGCCAGGAGTTGGAGACCAGCCTGAGGAATATGATGAAACTCCGTCTCTACAAAAAATACAAA
AATTAGCCAAAGATGGTGGCATGCGCTGGTGGTCCCTGCTTCTCAGGAGGCTGAGGTGGGAGGATCACCTGAGCCCGGGGAGGTTAAGGCTGCAGTGAAC
CAAGATCACACCACTGTACTCCAGCCTGGGCAACAGCCTGCCTCAAATAAAAAGAAAAAAAAAAGTCAGTAGATAAAAGAATTCTAAATTGCCAAAGGAA
GGAAAGAAAACTGCTTAACACATTCCCTTTGGAACAGTGGTTAGGGAAATGCGGGGTGGAAGCAGTGGTTACAATGTGTGCTTTGAAGTGCGATGAACCT
GAATTCACATGTGGCCCTGTCATTCAGTGGGTATATGTGATTAGGCAATTTCCTTCACCCCTCTGAGCCTCACTTTCTCCATACATATGTGTGTGTGTGT
GTGTGTGTGTGKATGTGTGTGTATATTTCAGACAGTCTGACTCCTGTTGCCCAGGCTAGCTAGAGTGCAGTGGGGCTATCACGGCTCATTGCATCGTTGA
CCACCCAGGCTCAAGTGATCCTCCCACCTAATTTTTTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTGKGGAGACAAGGTTTCACTGTGTTGGCCAGGCTG
GTCTCGAATTCCTGGGCTTAAGTGATCCGTCAGCCTCAGCCTTCCAAAGTGTTAGGATTACAGGTGTGAGCCACTGCGCCCGGCTACTTTCTCTGTATGT
TGAAGGAAATCATCCTGGTGCCTTTGCAGGGCTGTCAGGAGGACTGATTGGTGAGACACCAAGCATAGTACTTAGGACATAGCATGTCAGTGTTGTTATT
GGAGCCACAAGCTGCCACTAACTGTTGGTTATTCTCTATGATGGAGACAGAGGAAAGGGGTGAAGAAAACAAGGTATTCACATCTATTTGGTGCAATAAT
TTGGAGAAGAGTATAGGGTTACTTTAGGGTCAGGGGTGTTGGTGTATGTTTGAACTTGAACATGGGCAAATATTCTCTAAACTGTTCCTCCTGTTTCTAG
AGCCTTCCTCATTCTCTATGTTTTGGTGGATTTTTACATATGTGCAGGGAAGTTAGACTGTAACAACTTGAAGGCAAGGAACTGTCTTAATTTTCATCAT
TTAAAAGTTCATAGCGGGACACAATTCTTCAACATTTAAGCATTTGCTTGAATGAATGAAAAAGGATCAATGTTCAGCAAATGTTTAAAAGTCATTGATG
TTTCTGTATCTGAAYTAATTGGTGATATTCCTTTATCATAGACATGGYGAGGGCAAAAGTCAATCTGTGTTTTTGTTACTGTAGTCATATCACATTCTTG
CATCCTTACAGCTTTATGTCAGTGCTGTTGGAAAATACACCTTTCTTCATTGACTTAACTTGCTCCAAACAGGAACTGAAAGGTGGTAATGGTAGCCAAT
TGACTTTGAAGTTTAGGTTGACAGAATTCTTTTGCAAATGTGATCTTCCCTGAGTCCCACCCACTGTCTTTTCCTTTGCTCCTAACGTGCCCCTGCTACA
CTAGTTCTGCCTGCTGTTCTCATCTCTGTGGGTACATGTTTGCTTTKGCTGTCTTCTGTTTGTCCTTTTCCTCTCAGCCTAAAACAACCTGGCAGCCCCT
GGTCTCCCTCGCCTAGCCCACAGCTCTCTGTCAAGAAGTCTCTTTCTAGATGGAGGGAAGAATCAAATCTGAATTTTATTTTCCATGTGGCACATGCTTT
GGCCACATGGTTTACTTTGTAGTGCATGCTCTTGCTCTTGTTTCCTGCACTGGGCTAGTTCAAGCCTTCACCTGTCTTTTCAAGGCACCTCTTCTGTTCT
CTGCCCTCCCAGTCTCCTCCTCTGCAAGCTAGACCAGCCACCCTCCAGGCACTTCATTCACGACACCCCTTTCTTGGCTGAGTTTTCAACCTCTCTGGCC
CATTCATTTCAGCATATACACAAGTTGAAGTCTCTCTCTTCTGTTTAAACCACCACCATCCCCCACTACCACACAAATACCTTCCCCTCCTCCGCCCTGT
ATTCCCCCACCGCACATGCCGCTCCGTCTTTCTCCTTCCCTTTCTGGGTTTTTCCTCTTYTGCCTGCTCTTCAGTGATGACATTTCTCTGTCTTCGGGCC
CTGGCTCTCTGTTTTTTTTGTTGTTTGTTTTGTTTTGTTTTTTTTTCCTTCACTCCTGCGTGCTGTTTTTGGATGATAAGACCCTTCCTGTGGCTTTAAT
TGCTGTCCATATGCGGACAACGTGTGACTCTGTATTTTTAGCCCTGATCTGTTTTCTGAGTGCCAGATGTATTCAGACAACTTTGAAATGGACAGTGCCA
CTTAGTACCCCAGAGAAACCTCATATTCAACTGGTCTGAAAATGAGTTTCTCATCTTCCTTAGGAAACCTGCTCCTCTTCCTCACTTCCCTCAGTGGGCG
GCAGGCGCTGCTGTGCACAGTTGTCCCAGCCCAAGATTACGTGGCATGCTTATCTCTTGCCTCCTCCTTGCTGTCACAMCCAGGAGTCACAAAGTCTTGT
TGATGCTCCTACAGCTCTGGAATATGAGTCCCCACTGGTCCCTGCCACTGCCTTAATCCAGCTCCTTGTAACTTCTCACCTGTRTAATAGCAATGGTCAC
TGTAGTCCAGTTTCTTTCAAATTACGGCAACCACTCTTTCTGCTACTGCACCCTCCACCACTGCTGCTATTGTTTCTACTACTGCTGGGACTAACCCAGC
TCTCAGGTGACAGCCAGGAGATTTATGCATCTTACCTCATACCATCAATCCTCCCAACAACTTTATGAAGGAGATGGTGTTATCTTCATTTCTTCATTTT
TTGGAGAAAGCAGCTGAGATCTGAGAAGTTGTCCCTTGTCCTTGTCCAAGTTCACACTGATTCCAAAGTCACTTAGCTATGATGCTCCCATTGCTCCCAG
TAGCTCCATTTAAGAAGTGCTGATTGCGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACGAGGTCAGG
AGATCGAGACCATCCCGGCTAAAAAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACT
TGGGAGGCTGAGGCAGGAGAAGGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCAATGCACTCCAGCCTGGGCGACAGAGCGAGAC
TCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAGTGCTGATTGCAAACCTTGTCCTTCATGGGTGCTAATTTAATCCTCGCAGTAACTCTGCAA
GGTAGGTGAAGAAACTGAAGTACAGGGAGTTTGAGCTGCAGGCCTCCGTCAGAGGCCACATGGCGGGCAGGTGGCAGGGTCTCTGGTTCCTGGGTTGGGC
CTCCCGCTCTGTCCCTGCTCCAGCTCCCCACGGTGCTTCAGAGCCACCTCCATGGGCTGCAGCTAGTGTGTTTTCTAAAATCCAGGTGGGATCTTGTTCC
GCACAGCCTTCAGGATAAAGCAGGAGCCCCTTAGCACGTGACCAGGGCTCAGGGGTTTCCCTGCCCCAGTCTCTGGACTTGTCTCTAGGCACCCCCAGCC
CTGCTGTTTCAGCTATCAGCTGAGTCCCTAAGGCAGCTCAGCAGGAGCCCCTCTGCCATAATCACCTCCACCCCCTCCCCTGCCCCCACTCCCTAGCTGT
CTAGCTTGCACCTSTTCTTAGCCTGGTACTTGGCAGTGCCTTCCCAGGAGCTTCTCTGATCCATCTCCTGCTGTCAGGCTGGCTCTGTGGCCTTTCCAGG
GYCCCTCTTTCTGTAATCCTGTCTCCCACCCTCACTGCAGCCTCCTGAAGGCAGAATCTTGTACCTTTGCAGCCCTGGTGACTCTCACACACCTGGCTGC
ACTTGGGTGTCTCTGCTATGGACTGAATGTTTGTGTCTCCCCAGATTCATAGGTTGAAACGCTAGTCCCCAGAGTGATGGTATTTGGAGGGAGGACTTCG
TGGAGGTCATTAGTGTTAGGTGAGGTCGTGAGGGTGGAGGTCCTGTGATGTGATTAATGCCCTTAAAAGGGGAGGAAGGGGCCAGAGCTCGCTCTCACTG
CCATGCAAGGGCACAGCGTGAAAGCACAGCAAGAAGATGRAAGACGGCCACCTGTAGACCAGGAGGAGGATGCTGGCACCCTGATCTCAGACCTCCAGCC
TCTAGAACTGTGAGACAGAAATGCTTGTTGTTGAGCCACTCAGTCTGTGCTATTTATTTGACTGTCAGTGAGTGACAGTGGCTGCATCTTCTGGTTACAT
GATGTGCATTTCAGAAATGTGTTCCCAAAATTAAGCATATGAATATAATTTGGCTCTGCCTGTATTGAAAACCTGCTCTTTCACTGTCAACTTGAAGTTA
TGGTTCTTTTTCCTGGTTATAAATTATAACTATGGAGTCCTTTGAACCTCTGAACTAAAAGGAAGTTGTGGCGTAAGGCACAGATGTATGGGGTAATGAA
AGTCTTCAAAGAAAGGGATCACGAGTTACTGCCATTCTCTGTAATTTTAAGTCTTCAGCATGTCCAAGAATTTTGTTTGCACAGGAATTGCTTATTTCTA
TGTGAGTAGAAATGCTTGTGCAAGGAAGTAGCAAGTGCTTTTCCATCTGTGGATAAGACTTGGAGCAACAGGCTCACACAAGTCTTCACAGAACAAGAAT
GAAAGCCTGGATTCCTGCCTCTGCTTAAAAGGTTGGGGCCAATACATTCTCACTAGGTTTTTCTTAGTCAGCACTGGCATTTTGGAAATCTGTTCCACTG
AGTAAAAGCTTAGAAAAAAGAAGACCAGAACGTGGGTGGGTCTCTAAATCATCACTTTATGGTTGAGGAATAAAGTGATTAAGAAACAGCTTCTTCATTT
TGAAAGAATCCACGGGGAAATCTGTGGAAGGAGCTGTGGAGGGCTGGAATATTCATTCACTCACTCATTCATTTATTTGTTCAACAGATAACATAGGGCA
GGAAAGGGGTTATAAAAAGCTTCACCCTTTTAAACTGTGTAAGGGAAAAAGTAGAAAAAGTAAAGGAACGAACACTTCACATTATGGCAGAAGAATGGAG
GAGACCATATGATTGAAAGCTCTTTGGGGCAGGGACTCTGTCCTGTTCACAGTTGTGTTAGTATATTCCACACAGTTATTTCGTACATAGTGGCTGCATA
TTTCTTTACTCAAAGTCTGTGTTCAGGAAAGGATATGATAAATTCACTGACATTAKATTGCAAATGACTAAAAACAACTTACTTATCTTTCATTTTAATA
GGAAGTCAGATCTTAAGTAAGAGAAAGTAATCTCTTAAGGGCTGGGCTTCAGGAATGAATAAGCCAGGGCAGGATGTATGCTTTGTGGCTGTGGGAACCT
TGCTGGCACCTATGAGATTAATTCCTGTCGGCTGTTCCCAGTGTGAGGTAGTGGGAATGGCCCTTGCCTGTGAGCTCCGTCCTAGTCGGGCCACYGCTGA
CCAGCTAGATGAGCTTGGCAAGTCATTTTCACCAACAGAGTTTGTTTTCAGGTTTTCTTTCTTGATTTGAAAAAAAATGAGGGAGATCTGGGACTTTCTA
GCTCTAACCTTTAGATGTTCTATGCTAAAGCCAGGGCTGCACTGGTGAAAGTGAGATGTATCAAAGAAAGGGTGATATTGAAAGCAGGAGAAATAGAAGT
GTCTTCCCCTTCAAGGCAAACCTGAGACAAGGATTAGACTAGTTCACCAAAGGGCCATCGAATTTGCAGAGCTAATTTCCTGTAGCTGAAGTGGGAGCGT
ATCCATCCTGCACTGGGCATGATGTCTTGTGTGAGTGGCTTGGGTAGGGACTAGAACGTAAGGATTAGATTAATAACTTTTTTTTTTAAATCATCTTTTC
CTCCTCTGAAACCTCTCCTTAACTATTGGCTTTCAAGTTAAGTTTGGAATCTGACAGCACAGACACTYACAGCCACCATAGCTGCTTTTTCTTTGCATTT
AATTGGGTTAACTTTTAAGAAATGGCATGTTTGACTTAMGATTTTTAGGCATATAACCTATAATATTGGCTTTGGGGGGTGCTTTTCTGTTCTTATTATT
TGTCCTTTATCTTGGCACCTCATAATTAACTAATGGTGGTATTTATTTTAACTTGAGGGAGGTTCATTTTGAGATATGAAATGAGCATCTGAGAGGGAAA
ATCACAGCAGCTTTCAGAAGTGAAATTTAACAAGGTGAAATGTACAAATTAGCTTGAATAAGAGCATGACTGAATCTATACTAAGCAAATTACTTTCTGT
TGGGGAGTTTATTCCTGGAATGTCTCTTTATAGTTAGTTTTAGGACTAATAGGATGGGATAACAAGAAAAACTTAAGATTTTTTATGGACAGTTCTGGCA
GGAAGTGAAAAGCAGAACTTATTCTTTGTAATATTTATTTATTTGGTATAATGATAGAATCATAAAGCACCATCAGATAATCCCATTTGACCCACATAAA
TACTCAGTGATATAAGTAGCTACTCCATTTTAAAATGAGAAAACGGGGAGGCTCCAAGAGTCTTAGTAACATGCTCAAGTTTAAACTGCCAGTAACAAGA
GGAAGACTTGCTTCCTGGAAACTGTGAACATCAGTTGCACCATTTCCCCCCAGATACCTTCCATGTATTCTAGCATGTTTGGCCAATACACTGAGCAAAT
CTTTTTTGTTTGATTTACTTGATACATTTTCAAATATGCTTCATCTTAGTTGAACAGTTTACAGGATTCTGTTATTTCTCAAGTGAACCATTTACAGGAG
TCAGCCATTTCTTAAGAAAAATGCAAATCCTGGCTGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACTTGAG
GTCAGGAGTTTGAGACCAGCCTGAACAACATGGTAAGACCCCGTCTCTATTTAAAATACAAAAATTAGCCAGGTGTGATGGTGGGCACCTGTAATCCCAG
CTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCTGGGAGGCAGAGACCGTAGTGAGCCAAGATCGCACCATTGCACTCCAGCCTGGGTGACAGAGT
GAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAAAGAAAAATTCAAATCCATTATCTCTGAAGTAGACACCCCAGTGAGT
GAGCTACTTCTTTCTTTCTTTGCCAGGTTTGCATGAGCCGTTGGTCATGGAGTCCTTGCACTCTTGGTCTATCTATTTAGATGGAATTGACTCCATGCTC
AATCTCTTTTGAGGTTAAAAGTTAGAAACTCACTTTAAATAAGGCAAGGGATACAGAGTATATATTTTATCTTACATATTTGAAAGCAGCAGATATTATC
ATTGACATGGTAGAAGTAATGCTTTTTCTAAATACAATGTAAAAAACTATTAATTACTTGGTTTGCTTATGCTAAATGATGTTTTCACTCAAGTCCTTAG
CTACTGCCGCCAATCATCTGTTAATATTTTTCTCTTATATTTGTATGTCAATAGCGCACACATTGGTAAAGCCATTTCATTCATTTCTGCTAATGTTAAT
GGAATTAAATCTGTTTCAAGCCAGGTAGGTGAGGTGTTGAGTTTTCAGATTGKCAGAGATAGCTTTTCTGTTTGGTTCTTATGAGCTAATACTCTACATA
ACAATTCAAATTAGTCAACTGGTTTTTCTCATGTTTGTGTTGGGGTGTGGCAGCTCTCTGACAAGTCAAAAGAAAATGAGTAATTGATTTGGTGCTAAAA
CATGATTATGCTTGCTATAATGAAAGCACCCTAGAAATATTAAAACTAAAAAACAACACRTACTATCTCTGTTAGACAAGTRCCTTTTGTTATGTTAAGA
TATTCCATTTCTTCTTCATGCGAGATGGTTCAGCATTTACTAATCTTATACCAGAAGCAGTTTACATGGAGAGATATTTAGATAATGAAAACTTGTCTGT
ACTTAGGTAAATGGAAAGGTTGTCACCTGAACTAGCCAGAGACTCCAAAGCATTTAGCTGCCAGTCATGCCTTAAACCTTGGGAACATCCCATGTTAGAC
TTAGATTAAGAACCCTTTTGGGGTTTCAAAGAGGTGACGGGCTGCATTCAATGGTGAATGATCCCAAGGTTGAGTTAACTCATCACTCTGAAGAAGAACA
AAATGAGGAATTTACTTAGTTAACTACTGACACCTTACTATAAACTCTGAAGGAAGGCAAAGAATGAGATACAGATAATGTATAAAATATTTAGTAAAAT
GAAATTCTCATGTCAGCTGTTAAAACCACAACTCCGAGGATGTGAGAGAGTGTGGTCTATACAGGAGGGGTGGAGTGGGTGTGGACCTCAGCCTTCTGCT
CTAGGAATCCATGCTTGTGAATGTCTTCCTAACTCTAGCCCCACTTTACAAAATCAAAACAAACAGAAAAGTTTCTAAGTATGGCTTCTTACTGGTGGTG
GGAAACAGTTTGTCTCATTATCTCATTTCAGAGATGCCTACTGGTTATACTCACAGGTTCTTTTCACATCCTTTATGCCCTGATTGAGAGGATGTCTTAG
TCCATTTTGTGTTGCTGTAGCAGAATACCTGAGACTGGGTGATTTATCAAGAAAGAGSCTTATTTGGCTCATGATTCTGGAGGCTGGGGAGTCCCAGAAG
CATGGCACTGCATCCGTTGGCTTCTGGGCTTCTAGGGAGAATCTCATGCCATGTCATAACATGATGGAAGGTCAAAGGGGAAGTGGACACAGGTGAAGGG
TCAAAACAGACCCTGCCCTGGAGGGAACTAACCTGTCACCTCCAGAATGAATCCAGTCTCACAAGAGCAAGAACTCACTCACTGTAGTGAGAACTGCACC
AAGACACCTAGGCCCAGAGGGCGGAGTCTCTGTGACCCAAGCTCTTCCCATTAAGTTCCACCTCTTAAAGTTTCCACCTCCCAACATTGCTGCACTGGGA
ATTAAGGTTCCAACGTGCGTTTCGATGGGGACACTCAAACCATAGCAGAGACATTGCCTTCTAAGATAGACCCTCCCACCTTCCTGGGCTGGGGGAGCTG
GCTTGGTCTATCTAGAAGGATGMGCAGGCTGCCCACTACCTACCTTTATTAAGAGTGATTTCAGTCATCATACTTGGCTAACTTTAATTTCCACTTTTAA
ATTATCTAATCCTTTCACAGAAATTTTGGGGATTAATAAATATGAAAAACCATCTCCCCAAAAGCTCAGAATATTTATGAAAGTATTATTAGCAACATCT
ACTATGCTTTTGCTATAACTAATTCTGCCTTGTTAATCTAGTATTCAAATTAAAGGTTGTTCTTTGACCCAATGGGGGGCAGAGGCTTATGAGATTTTTT
TTTATTATGGAATAATTTTGGTGGAGTTTCTACCTTGATTGCAAATTTGGTGACACAGCAGGTTTTATGACTATAGAATAATCTAATCAACACTCCAGAA
TCTAATCAACACTCCAGAATGGAAAATCTTGTTGGGTTGCTTCAAGAGAATTACCTTTCTGCAATGGGAGCTCTATCACATTTGAGTTAAGTGATAATAG
ATAACATGTATTCTAGGTAAAACTCTTTTTTCATAGGGTATCTTTTATATGTACCTAGAAAAGAGATTTGGATGATACATGATAACTATCAGTAGTGCTT
TTTAGTATCATTATGGGTAAYTTATTTTGTTTATCTGTTTTGTGCAATGCACATGTATTTCTCCTATAAGAGAATAACTTCAAAGTTGTTTTTTAGAAGG
GGTGGGCATGAGTATCCCACTGTTTTATTGTCATGGGTAAGAAAGGGGCACAAGCCCTCTCCTGCCACAGGGCTTTACAATGTTTGGAATAGCTCAATTG
GTGTTTTTTCCATCTTCTTTTTGAGGAAGATGGGCTTTAAATTTTTAAAAAATTATAAATAAGGAAAAAAAAGCCAGTAGATTTGTTCATATTAGCTTCT
TTATATTTTCAGAGGAAGCAGCCATAACACTTTGGATAGAACACATGGCACTTTGGATAGAACACGTAACACTTTGGAAGACTCCTTTGGTGTCTTCATT
TTTGGGGGGGCAGGAAAGACAGTCTCTGAGGATGAGGATGGTACCACTACCCACAGGACGGAAGGAAAGGTAAAAGGAAGATTGAATCACTCTTCAACTT
CCTTCTGGAGCCCAGCCCTTTCCACCTGCTCAGGGGCTGACTTCTCCGGTATCATCAGCCATTCCTTTGTTTCAAGAGTCATGGACCGTATACTGAAGAT
CTGTGCAGTTTAGGATATGTAAATTATATCTCAGTAAAGTATTAGAACACAAATACACACAAAAGCCTTTCTGTCTTTCTCTTCCTCTCTTCAGCCAGAT
TTGACAGAGAGATTGTCTATATCCTTTGATCGCATTTTGTCAACTTCTGTGCCCCTCTTAGCCACTGCTGTGTGGCTTGTCCTTCTTTTCCACCCAGAAG
GCTCATGACCTCCATGTTGCTAAATTCCAAGTGCCCATTCCAGTTTTTATCTTGTGTGCTCTCGGCTTTCTAAGCCACTCTATCAATTACCCAACCATCA
GCCTTCCCAGCATCCGTCCATCCTTCTGTCAGCCAATGCGCTGTCCTTCTGTCCCTCCTTCCAATATCCACCCACCAGTCCCTTCGTCTGTCTCTGCCAG
GCATTCTTTTTTTTTTTTTTTAAACAAATAAGCTTTATGTTTTAGATGGTTTTAGATTTACAGAAAAATTGCGAAGACAGAACACTATTGCCATATACTC
TGCAACAGGTTTTACCTGTTAGCAACATATGTTAGAATTATACATTTGTCACAATGAATGAACCAATATTGATACATTATTATTCTCTAAAGTCCATACT
TTGTTCGGATTCTTTAGTTTTTGCCTAGAGTCCTTTTTCTGTTCCAGGATCCCATCTGGGACACCACATTGCATTTACCTGGTATGTCTCCTTAGACTCC
CTTGGCTAGGCCAGTTTCTCAGCCTTCCTTTGTTTTTGATGACCTTGACAGTATTGTGGAGTACTTTTTAGGTATTTTGTAGAATGTCCCTCACATGGCA
TTTGTCGGATGTTTTTCTCATGATTAGACTGCGTTTATGGGTTTGAGGGAGGAAGACCCAAAAGGTGAAGAAACACTTTTATCACATTCTGTGAAGGTAC
ATCCTGTCAACGTGGCTTATTACTGTTGATATTCACCTTGAGCACCTGGCTGAGATACTGTCTGTCAGGCTTCTCCACTGTACAGCTACTCCCTCCCTTT
CCACACTATATTCTTTGGAAGAAAATCACTATGTGTAGCTCATTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTG
GAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCACCTCCTGGGTTCACGCCRTTCTCCTGCTTCAGCCTCCCGAGTAGCTGGGACTGCAGGTGCCC
ACCACCACACCCAGCTAATTTTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCGAGGATGGTCTCGATCTCCTGACCTCATGATC
CACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCCACCGCGCCCAGTAGCTCATTCTTAAGTAATGGGAAGTTATGTTCTGCCTCATTGT
GTAGCTACATAATTTATATGGAATTCTTTTGCGTGGGAGATTTGTCTCTTCTTCCTCATTGGTTTATTTAGTCTGCTTTATTTATGTCAGTATGGTTCAC
GTATATTTATTGTTTGTCTTGGATTATAATTCAATTATTACTTTATTTCATGGCCCATATTATTCCAGCTTTGGCTATTGCGAGCTGTTTCGATTGGTTC
CTGTGTTCTTTGACATACCCCCATGATCGTGTGTGTGTATGTATTTAATACTACTTTACTTTCTAGCACTACAAAATACTCTAGGCTTATCTTGTATGTT
TCCTGCCCCAGATTCAGAGTCAGCCATTTCTCCAAGGAACGCTGATTCCTTTTATTAGAGAATGGTATTAGAAACCAAGATATGGCCAGGTGCGGTGGCT
CATGCCTGTAATCCCAGCACTTTGGGATGCCAAGGAGGGCAGATCGCCTGAGGTCAGGAGTTCGAGATCAGCCTGGCCAACATGGTGAAACCCCATCTCT
ACTAAAAATACAAAAATTAGCCAGACGTGGTGGCATGCKCCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAACCCAGGAGGCRGA
GGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTGTTTAAAAAAAAAAAGACGAAGAAAAAAGAAAAGAAAAGAAA
CCAAGATAAGGGATGCCAAGTGTACTTGTTGCTACTGAAATGTAATTGTTTCTAAGATCTCTCACATGACAGCAAGAAAATMTATGTGTGTATTCTTATT
GGCGTATACATATCTACAAATATTTCCATTTGTAACCATCAGCATCTATATCAAGCTAAACATCAGCTCATTTGATGTCTTCGATTCTAATCCATTACTA
CATGGGTTGCACTAGCCCCCTTTCTTTGCCTGTCTTTAAACTCCTACTCCAACAGAGACAAACCTGTGGTTCCCACCATCCGTATCCATTCCCTTAATTG
TTCAGTTGTAGTATATATGTACAGCAATATCAGAATTGTTAACTCAAYCCCTATGGGAAACAACTTTATCAACTAGAAGATGGCGCTTATATGCACTCCT
TTTACATTTGATTTTAACAGACTCTACTTATTTCTAGTTACTTAGGTCAGTACCCTTTTCCCCTATCCCCTTCAGTGAGGTTGTTGCATACATTTGTAAT
ATAGATAGATTGTTTTGTYACATTCTGCATTCCATCCTGGGATCCCCCAATCTCCTAAATGACTTTTTAAATTTGCTTACATTGTACATTAAGATTCATT
CTTTGTGTAGTCAGTCCTATGGACTTTAACAAATGCAGAGTGTCACGTATCCACCCTTGCAGTATCATACAGAACAGTTGCACCCCCTATAAATATCTCC
TGTGCTTTATCCATTTACCCCCCTCCGTTTATTTTCTTTTCTTTTTTCTTTTTTTTTTTTGAGACGGAGTCTTGGTTTGTCACCCAGGCTGGGTGCAGTG
GTGTGATCTGAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTTCTGCCTCAGCCTCCCGAGCAGCTGGGACTACAGGCGTGCGCCTCAACAT
CCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTGGCCAGCCTGATCTCGAACTCCTGACCTCAGGTGATCTGCCCACCTGGGCCTCC
CAAAGTGCTGGGATTATAGGCGTGAGCCACCGTGCCAGGCCAACCTCTGCCATTTCTTCCTGAACCACTGATCTCTTTCCTRTTGCTATCGTTTTGCCTT
TTCCAGTATGTCATATAATTGAAATCATACAGTATACAGCATTTTCAGACTAACTTCTTTCACTACACAATATACATTTAAGATTCATCCGTGGTTTTTT
TGTGACTTGATAGCTCCATTCTTTTTATGGCTGAATAAGATGCCATTGTAYAAATGTACCACAGTTTATCCACTTGGCTCTTGAAGGACATCTTGGTTGC
TTCAGTTTTTGATGATTATGAGAAAGCCTGGTATAAACACGTGTGGGTGGACTTTTGTTTGGATATAAATTTGAAATTAGTGAGGTCAAAATGCCACATG
CACTTTTAGGTGCTAGGGACACAGGTGCTTAGGATACAACAGCGAAAGAGTCCCTGTGCTCYTAAAAACAAATGCAAATGAATAAATCAGAATGGCTTCA
GCTCACGAGTAGTGCTAGGAAAAAAATAAAGCTAATAGGATAATGAGTGAGAGACTGTGGCCAGGTTAGTGGGGCTAGGAAGGGCTTCTTTGAGGAAGTT
CATTGCATTTGTATCTGAGCCTGCATGATGAGAGATGGCACCAGCGGTGTGCAAAGCCCTGGGGGGACATACTGGGCTCAGTTAATGCAAACACCCTCTG
GCAGGATGAATCTTGGCATGGCCAAGGGACTAGGAACAGAAAGTACTGTGAGGTAAAGACATGAATGAGAGTATTTTCTTAAAAACTTTTTATTGTAGGC
CAGGCGCGGTGGCTCATACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGA
AACCCCGTTTCTACTAAAAGTACAAAAAATTAGCTGGGCATGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAA
CCTGGGAGGCGGAGATTGCAGTGAGCGGAGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTCAAAAACAACAACAACAACAAAA
AACTTTTTATTGTAGTATAACATACAAAGTACACAAAACCCAAGTGTAAGTGCACAGTTGATGAATTTTGTCAAATTGAACCCACCCACCTTCCAGATCA
GGAAATGGAATAGTGCCAGCACTGCAGGGGTCCCTCGTGTGTGCTTATCCCATTATCAGCCCCCTTCCCTCCCTCCAAGGTCATCTGATTAATTTTACCT
TCTTAAAAGCTTTTATGTCTGTTTTTTTGTTGTTGTTGTTGTTCAACATTAGATGTGTGAGATACACCCACATTGTTGCATGTCATTTGAGGTTTGATCA
TTTCAGTTGCCACATAGTACTCCATGTGTGAATACACCACAGTTGTTTTTTTATCGATTCTACTTTTGATGGACATTTGGGAGGCCTTCAGTTTTGAGCT
ATTCTGAATTGAGCTCCCGAGAATATTATTGCGTATGTCTTTTGGTGAACCTATGTCTGCATTTCTGTTGGCTTATATACAGAGTGGCAAAATTGCTGGC
TTATAGAGTACGTGTATATTCAGCATTGCTAGGTACTGTCAGATGATTTCTTAAGTAATTGCACCAATCTACATGCCCACTGCACTATATGAAAGTTCTG
ATTGTTTCCCATCCTTACCTACGCTTGTTATTTTCTGACTTTTTCATTTAGCCGTCTGTTATGTAATATAGTGGTGTTGCATTATGGTTCGAATTTACAT
TTACCTGATGGCTAGTCAAGTCCAGCCCCTTTTCATATGTTTACTGGCCTTTGGATATCCTCTTTGTGAAGTGCTTGTTCAATTCTTTTGCCCATTTCAA
AGAGAAAAAACAACAACTTTGGGTTTGGGTTGTCTTTTATATATCCTGGACATTGATCTCTTACAGTCTAGATATGAGTCCTTTGTCAGAAATATGTGTC
CCACTTGGTGAACTGCCTTTTTCACTCTCTGAATGGTGACTTTTGAGGCACAGAAGTTCTTAATCTTAATATTTTCCAATTTGTCAGCTTTTTCCTTTAT
ATTTGGTACATTTTCAACCTATTTAAGAAAACTTTGTCTGCTACAAGGTCATGAAAATGTTTTTCTGTGTTACCTTTTTGATGCTTCATTATTTTACCTT
TTATATATAGATCTGTAATCCATCTGAAATTCATTTTTATGTGTGGTATAATGTAGAGATTACGATTCATGATCCTTTTGTAGTTCATAGCATGATGATT
GGGTGTTCACATGCATGTGTGAAATGTGCCAGCCTTGAACCTTGTTACAACATTGGCACATGACCCATCTGACCTGAATTTGGAACACCCAGTTGACCCA
GCACCATTCATTTAAAGATCATCTTCCCTCACTACACTGTAGTTACAAATAAGGGGATACCGTAGATTGAATGTTTATATCCCCCTAAAATTTATATGTT
GGAATCCTAAGCCCCAGTATTATACTATTGGGAGAGGGGCCTTTCGGAGGTGATTATGTCCTGAGGGTGGAGCACTCATGAATGGGATTAGTGCYCTTAT
AAAAGACACAAGAGAGCTCTCTTTCTCTGCACTCCATCATGGGAGGACACATTGAGAAGTTAGCCATCTGCAAACCAGGAAGCTGGCTCTCACCAGACAT
AGGATCTGTGTGGTACCTTGATGAACTTCCCAGCTTCCAGAATGGTGAGAAATATATTTCTGTTGTTTAAACCACCAGTCTGTGGTAGTCTGTTAAAGCA
GCCCAAACTGACTAAGACAGGAGACCTTGTATGTTTGKCTCTATATAGATTCTAGTGAGTATGTTCTAATATTAGGTAGAGCCTTTCTGTCTTGCTCACT
ATACTCCATCTTCATTTCCTGGCAGTGGCCCCTGTGCTGTAAATATTCAATAAATATCAGCTGGTTGGTGGACAGGTCTGAACTTGCCTTTAGGCAAGAG
TTTTAAAATATCTGGGCTCCCAGTCCAAGAAAAGATACTCAGATTTTGTGTTAGAGAAGACTTGACTTGCCTAGTTAATTACATTTCTTCTCTAGGCCCA
AATATGTTTCTGGACCAGTTCTGCTGGCTAAAGTCCTTGGGGAAGGCTKGTTGACCTCAGGTTGTCCAGTTGGCAGTAATGAATCTATTTAACCATCCAG
CCAGTCATGCAATAAATATCTTTTATGGGCCTACTATGTGGCAGGCATAAAGTAGAACTAAAATAATAGGATTATTTCCAGAGTTTCTATTTTTAATTTT
AGAACATTTGTTGTTTCTTTCTTTACAAGTTAAACACTCAGTGCAAGGAGGGTAATTTTGAGAATTTTCCTCTATTTTGAGGGTAGCTTTATTGTTCTGT
TATAGTTATTTAAAATTTTTGTGTGTGACAGCCTAGATAAACAGGCAACAGGCCTAAGAATTAGAGCTTTTATGTTGCTATCAGACTATTTTAAAACAAA
CAAAACCCTACAAAGAAAAAGAGATGAAAATAAATGTGAAGTGCAGTATTTCACACAGTGAATTCAGCGAGAAGTTAAGTACTTTTCTCATTTTCAAAAT
TTAGTGCCAGACCAAAGACCAAGTTTAGAAAAATAGAGGAATGCATTTTCAGGAGGTTGGTGTGGACTCTGGATGTGCCAGTCAGTGCCAGTACACCAGA
TCGCATTGTGAGTGGGCCACGTGCCATATACCATGTGTCACATGCCACATACCGCTCTTCTTCTTCTTTTTTTTTTTTTTGAGACGGAGTCTGAGTCTCC
CTCTGTTGTCCAGGCTGGGGTGCAGTGGCGCTATCTCGGCTCACTGCAAGCTCCGCCTCCCGGATTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTAGC
TGGGATTACAGGCGCCCGCTACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGAC
CTCATGATCTACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGCCACCGCGCCCAGCCAAATGCTGCTCTTCTTGGTAACTGCCCTCTGGG
GAACAAAAGAGCCCTAGAGGCTTCTCCCATGGTACCATCTTGCTTGGTGACACCAGGGGCTGGGGTTATGTCCCAGGGTCTCTTTGTTCCTCCTTTCCTC
TGGGGATATGAACAAAGAGGGGCAGGGGACAAGCAGATCCCCAAACTGGGGCCAGCTCCAGGCGGTAGCTGTTGGAAAATGGGGCTGCCTCCGCCAGCAC
TTATTGTCCACCACTGCCCATGTCTGGTGGCTGCAGTTTGAGCTGCTCTGAAGCCTTTTGAGGCCACTGGGAGAGGCAGCCTCCTAGCAGGCCTGCCTCA
GGAGGAGGAAGCAGATTGCTAAGGGAACAGGGTGGCTGGTGCTTGTGAATGTTACTTCCGTGATGGGACTGTGATTCTCGTTCTTATTTAGTTAATATCA
TGTCCAATTTCATTTTCAGCTTGTCTCAGGTGAATATTTTATATATTTAGTGAAACCTCACCAACCTTGAAGTCAGGAATTTTGTAACTCCAGTCATTTG
GAACCGAGTGAAGGAACCTAAAGGAAAGCAGAAAGAGGCCAGGCGCGGTGGCTCACGTCTGTAATCCTAGCACTTTGGGAGGCCAAGGCGGGTGAATCCC
TTGAGGTTAGAAGTTCAAAAACAGCCTGGCCAACATGGTGAAACCTCATCTCTACTAAAAATACAAACATTAGGCCGGGCGCGGTGGCTCACGCCTGTAA
TCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCAAACCCCATCTCTACTAAAAATACA
AAAAAATTAGCTGGGCATGGTGGCACACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGAGGTG
AGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCGGGGGGGAAAAAAACAAAAAGCAGAAAGAGTAGCTTTGAGACCCT
AAAGAGATACGATATTTTGGGGTATGCTGGGGTATGTTCTTGATTTATTACAGAGGTCCTTGGGCTTCCATGTAGAGCTTCTGTGCTCTTACTTTAGCCA
CATTTCTAACAAGTTTGGTTTTCTGCTTTTTTAGTTCACTAGATTTAGAAGCAACAAACTAGGCTGCTAGGTATACGTTCTGGGAGAACATCTAGAAGTG
ACAGCTGACAGCCTGACAGTAAGGGAGGAGACAGAGCATCTATAAAAAGCTCGGAAGACCAGAGCTGTCTTATATACTGTATAAGGCAGAGAGCTCTGAG
CCTGTTGCAGCCTGGAGCGTGTCCCGAGAGGCAGTGTGGCAGGACGCCTGGCCACAGGAGTGACCTGAGCCATTCAGACCCCAAAGGCAGGCACACGAGG
AATCCCTTAGAGAGATTTGAAGAAAAAGAGTTGAATACTAGTTATCTGAAATAATTTACATATATAGAACCCTTGTTTTCCTTGGGATACTAAACACATA
AAAGAACTCCCCCTTTCTCTCCATGTCTCCGTTCTCCCCTTCTCTCCTCCCCTCTTTCTCCCCTTCTCTCCTCCCCTCTTTCTCTCCTCCCTTGCTCTCC
TCCCCCTTTCTCCCCTTCTCTCCTCCCGACTCTCCTCTCCCCCACTCCCCTCCCACCTTGCTCTCTCCCTTTCCGTTTTCACTTCCCCTTTTACTTCCCT
CCCCCACTCCTTCTCCCTAACACAATACAGCGTCCCTTTTTTTTTTTTTTTTTTTTGTCTTTGAGGTTCACATATATGCAGTGAGTTGCTGGTGAAAGTT
TAACAACTGGCTCTCATGGGAGAAAAAAATCCCTTGATTCGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGA
TCACGAGCTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAGATTACCTGGGCGTAGTGGCGGGCGCCTGTAGT
CCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATAGCGCCACTACACTCCAGCCTGGGCGAA
AGAGCGAGACTCCCGTCTCAACAAAACAAAACAAAACAAAACAAAACAAAAAAACCCTTGATTCACAGCAGCCCAGTTTCCTTAGTGTAAGTCCTCGCCA
TGGTTGATTTCAGGTGACCATTGTGAAGTCCCTGGGGAGGAGCAGGGACAAGTACTTCCTCCATACAGATGCAGGAGATGGAAGTAACCTTAAGAGCGTA
AGAATAGGCAGATAACACCAAATAATCAGAAAGTCATGTTTTGAGTATTTACAACTTTATTATATAATTACTCTTCTTATACAATTATATAATTTAATTT
AAAAATTTAGTAACATTTAACTCAATGTATCAAAAATATTATCATTTTAACATATCGATAGAAAATTATTATTATTATTTGAGACAGATTCTCACTCTGT
AGCCCAAGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACATCTGCCTCCCAGGCTCAAGTCATTGTCCTGCCTCAGCCTCCCAAGTAGCTGGGAC
TATCGGCACGCGCCACCACACCCAGCTAATTTTTTGTACTTTAGTAGAAATGGGGTTTCACCATGTTGCCCAGGGTGGTCTCGAACTCCTGAGCTCAGGC
GATCCACCCATCGTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCTCAATATAAAATTATCAATAAGATATTTTACACTCCTT
AAAAATATCTAACCTTCCATTATAGTTAGAGGTGATCCTATGACAAATTTTGACCAGTGAAATGAATTCACTGCATGGAGTTTTTGAATAATAATTTAAT
GGTAACTGATTCTGTTGTCATGGGAAACTTGTCTTTTTCCTTACTTCCTGAAATGTAAGTAGAAGAGGAAAAAAAATTAAAAATAGAAACAATAAAATAA
GAACTTACATATGACGTCTTTGAACTGTTGAACAAATGCCAATATCCAACTATGTTGGACTTCTCTGTATATGGCAGAAAAAAAATCATATTTAGTCTCC
AAACTGCTGTTAAAAGGTTGTCGTTGTTGTTAGATGCTGCTAAACCCAATGGTTGAGTAAAAGAGAAGGTGTCAAAAGCAGAGACCTGCATAAGGTGAAG
GCACAGGACAAGTGAATTGTGAATGAAGAAAATTCTAGGCTGATGAAATCGAACATGAAAAGGCCGAAGCGGGAAGAAGCTGAAAGTAGAATGAACCAAG
GTTTACTAATTACCAATACCATGCAACAAACTCCCCCACATCTTAGTGGCTTAAGAAATGACTATCATTTATTTTGCTTGCAAATCTGATTTGTGCATCA
TTTGTTGGGGGTGACTCATCTCTGCCTCATGGGGAATTAATTGATGTGGCAAACTTAGGGCCTGAGTATGTATTTTCAACATGACTTACTCTGCAAACTG
TTGGGGCCATGGGCCATTGTGTCAGCTCTTCAGCATACAGGCTTTTCCATGTGCTATTTCGGTTTCCTTGCTGTATGGGGACTGGGCTCTGGAGTAAACA
TCTCAATACGATCAGGAAGAAGTTGTATTGCTTTTAATGACTTTGCCTTGGAGGTCACATAGTATTGCTTCTGTTCTAATCACAGTTCTAACAAGGCTTC
AAGGAAAAGGAACATAGATTTTACCTTCTGATGGGAGGAAAGTCAAGTGAGATCACCTTGTGAGGAAGGGAAGTGGAATGGGAAATATTGTTGAAGCCAG
TTTTGGAAAATACAATCTGCCACACAAGAAAGAATAAGAAAATATGGGTGATGAGAACTGAATTCAACACATACTCATTACACTTTTGTCATGTGCTAGT
TACTTTTTTTTTTTTTTTCTTTTTTTGAGATGGAGTCTCACTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAAGCTCTGCCTCC
CAGGTTCACGCCATTCTTCTGCCTCAGGCTCCTGAGTAGCTGGACTACAGGCGACTGCCACCATGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGATGG
GGTTTCAATGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGAATTACAGGCGTGAGCCACTGCG
CCCGGCTGCTAGTTACCTTTTAAGCACCCGTGATATCGAAGTAGACCAAAGAGACAAAAATCACTTCCCTTCCTTGTGGGTTTTACATTCTAGGGAAATG
AGAGAGAAGAGTGATACGTGATGAGGTTAGAAGAAACAGAGCCTTGTAGGTTACAGTACGACTCTTTTTTTTTTTTTTTTTAATGGTAAGGAATTTGAAT
TTTGTTCCTAAGTATGATAGCTTTTATGCAGGGAAGTGATATGGTCTTATTATTTTTTATGACTATAAAATTAACTTTTATTTAACATTTTTTTACAAAA
TACATTWAAAAAATTTTAAATCTGTTTTTTAGAGCAGTTTTAGATTCACAGTAAAATTGAGAGGAAGGTACCTTTCCTATGTACTCTCTGCCCAGTCCCC
CAACACAGCCTCCCCACCAACTCCCCCGGCGTGACCCTCCATTGGAGCGGTACATTGGTCACAATCGATGAACCTACGTTGACACACCATTATCACCCAA
AGTGCATAGTTTACATGAGGGTCCACTCAAGGTGCTGTACATTCCATGGGTTTGGACAAATGTTTAATGACATGTACCCACCATGGTAGTTTACAGAGGA
GTTCCACTGACCTGAACATTCTCTCGTTATTGTGTTTGACAGCTGGCTTATAAAATTCCTGAAAATTTAACAGTGGTCTCTAGTGAGCTGGTACAAGCCA
GCTCCATTCAGCACACCATTGTACATACCTAATATCTTATAGTTGAGGGATTCTCTGTAATTTTGTTTGAGCATAACAACAATCTAACTCTTTTATAAGG
AGAATCCCAGAAGCTCACATTTAAAAGAGACCCGAGAGATCTTCTGTCCTGACCTTTCTGCCTGACACACTGATTCCATCTATAGCATGGTAAAAGGATC
TTTCAGGGCCACTGCTGCTCAGATTTCTCACGTCTCCACACAGAATCTGTGATTGACGCACACATTTGAAAGTTAAGKGATTTTCTTCAGGCTGCAAACT
GGGACTGGAATTTCGTCTCTTTCTCTTGTTCTTCTCTAATTTTATTCTCATGCAAACAGCCTGATTTCTGATTTCATAATTTAGCACAAGACATATTTTA
TTTAAGTAGGGATGAATTTAAAGATCACAGAACCATGTCATTAAGTGAAATCAACAAATGTTTATCAGCATTCAGAATTTCTCCATTTCTTTTTTTCTTT
TTTCTTTTTTTTGAGACGGAGTCTTGCTCTCACCCAGGCTGGAGTGCAGTGGTGCGGTCTTGGCTCACCGCAACCTCTGCCTCCCGGGTTCAAATGATTC
TCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTTCCCGCCACCATGCCCTGCTCTTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTGCCACATTG
GCCAGGCTGTTCTCAAACTCCTGACCTCAAGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCASTGCACCCGGCCCAGAGT
CTCYCCCTTTCTTTGCTGAAGAATTTATGYTATGTATTCATCACCTATCTATAAAGTGGTTATAGCTGGGAACCCTTTGCAGATGGGTAATTCATCATTA
GACGGGTTATAGATAATCTCTCTATTCATTATATGGCATTGACATTCAGAACTAATGGTTAAAGTCACTCTAGATGGGAAATATTAGATTCCTTCCCTAG
GCCAGGGAGACTAGACAGCTTTTTAGAAGATCTCTGTAACCCCCAGCATTGGTGCTTTTATGACAAGGTGAAGCTCTTTTGTAAAGCTGTGTTTTTGTGT
GTGTGTGTTAATGCACCAGACCATTCCTGGCCTACTGTGCAAGGCCCTGTGGTGCAGGTGGGGAGGMGGGTAGAGATAGAGAGCGAGGTACAGCTGAGTG
CAGATCCCCAGCTCTGAGCATCACTGGGTGTGTGACTTACTCAATTCATCATTTAGCTATTGAGAGCTGATGTTAGGCATATTCTTTCTTTTCTTATGAA
GCCTTGGTTTATTGTGGGCCTCAGAATAGAAGCTTCTTGGCCTGAAAATGAAGTTCTTTGGAAGTGCCATCTGACACTTCTCCTGGTGGGCAGAGTTGCT
GAAACYGGAAGCAGGGGGTTTGAGGGGTGCTGTAACTGAYGTGGGGAGACCGACTGGGGACAAAGAATGAGGATAGTAACAGGAGATGACTCCTCCTCCC
CAGGAGGCCAGATGCATCCAGAGGCCTCACRTGGCTGGATGTAGGTTACAAGGTCGCTCTCACAGTCAAGGTGTGAGCAAGGCCTTGGTCTTCCCATCAG
CCATGCTGCCTTATAAGCCRCTCAGTCAACTCCCCATCCACCTCCAAACTGCTGCTTGCCTGGCCTCCCTCTTCATTGATGATGTGATGAGCCACCCAAA
TAGACCTGGAGTTTTTTTTGTGTTTTGAAATAATTTTAATTTACAGATTTGCAAAGAAAGCACAGAGTTTTCCCCATGTACCCTTCACCCAGCTTCCTCC
AATGTTGACATTTTCCTGTGCATTTCTCGACACTAAGAAATCAGCAATGGTACAAGGTAGCTAATGACAATCTTTATTGAGATCTCCCCATTTTTTCCAC
GAATGCCCTGTCTCTTCTAGCATGTCTTCTAGGAAACCACATTGCATGAGTGGAGTTGGTTTTCAGCTCCTCTCATTTTCTCCCACACTTGGCACCACCT
AATCTGGTCTCTTATCCTTACCCTTTTTTTTTTCCATCCCTATGGTGAGTGCCCGGGCCCAGCCTTTTCCACTCATGTGGAGCCTTTGGCACCCTCTCCT
GGACTCCCTTCCCCAGATTCTCCCACCTTGCTGTATACATGCTGCTCGGAGAGGCCACTGTAAAAATGACTCTTCTCAGGGGGCTCAGATCTCTCCCTGA
ATGAAGTCTGAGCTCACTACAGCCCTCCTTTGTAACTTTCCAACTTGGTCTTGCACTACTTTCCAATTTCAGCCTTCTTCTGCAGACAGGTGGGTCTCTT
GGCAGACAGATGAGTCTCTTTAACTCTGTTTAATACCTGAGGATGCCTGGTTCTCACTGTGTKTTCCTWACRTGCTTTATCTTGTTCAGTCTTCAGAATA
ATGCCGATGCCAGCCAGCGCTAGRAATGGAGGCCCGCAGAGGCTTATGGAACTGGCCCATGGTCACTCAGCCAGGACATGGGAGCCCAAGACTGCAGACC
TGAGGCTCCTAAGCAYCCCAATCTCTCATCTCAACTTCAGGATAGCCTCGTGAGTTCTGCTCACGCCATTCCCAGGATCCCCCATCCTCAAAGCTTCCTC
TGTCTTAGTCCTGCCCATCCTTCAAAGCCCAACTTGAACCCCGTCTCCATGAGGTCTTTTGTTTTAGGCTGAAATCAATTTGCTTATTTGGCACCTCTCC
CTCCCCCCCACCCCCGAGATTTGTTAAGGTATTATTGAAAAATAATAATTATATATACTTGCAGTGTACAGACATGATGCTTTGATAGGTGCATAYGTTG
TGAAATGATTAAATCAAGCTAATTAGCATATTCATCACCTCACATACTTACCATTTTCTAAATTGTGAGAACACTTACTAACTTACCCATACTTCTTGGT
ATTTATAAATCAATTACAAAGAAATGCTATGAGTCTCCCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCTGCCTCCTG
GGTTCACACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACCGGTGCCTGCCACCACTCCCAGGTAATCTGTATTTTTAGTAGAGATGGGGTTT
CACCATGTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCC
TGGCCGTGTGTGCATTTTTATCTTCTCAATTCGACTGTAAGCTCCTAGAGGGTAGGAACATTGGCTTATAATATATTCTGTCCTCTGGAAGGCCTGGCAG
ATATTCAGTGTTCAACGGTGTGTTTTAAATAAATATAATTTCCTGGAATATCATTTAATAATAAGTAGTGAAAGCTGGGCGCAGTGGCTCACGCCTGTAA
TCCCAGCACTTTGGGAGGTGGAGGTGGACGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAATACGGTGAAACGCCATCTCTACTAAAAATACAC
AAAAAATTAGCTGGTCATGGTGTCGCACGCCTGTAATCCCAGCTACTCAGGAAGCTGAGACAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCGGTG
AGCTGAGATCATGCCACTGCACTGCAGCCTGGGCGACCGAGGGAGATTCTGTCTCAAAAAAAAAAAAAAAAGTAGTGAAGAGGATGTTTCTTTTTTGCTC
TCATATTTGAAACATATGATCAATTGGCTTGAACATTGTTTATGATACCACTATGACATTTAATCCGTGTTGACCAAATAATAAAACCAGAAACAACAAT
AACAGTAGTAGCTCACATAGTGCTTATTATGTGCTGGGCTGTTCTAAGGCTTGCCCATGTTAACTCCTTTCACCCTCTTAATAAACCTGTGAGGTGGATG
CTATTTCTGGTCCCATTGTAGCGATGGAACCAGGCAGGAAGAAGTCCAGTAACTTGCTGAGAGCCGTGGAGAAGGTGGTGGAGTTGGAAGGGGCCCCCAC
TCTGAGCTGGGTCTCTTGGATCTGCTTCAGTGGGATCTCTTAGCAGAGGTCACACATGGACCCAGTGCTTCCCTCTTTTTCTGTGTAAAATCACAGTGGT
CATTTACTAAGGATGCAGAGCTCTGATATGTTGAATATGTTTTTGGGAAAGTGAATCTGTTAATATTGTGAGTCCTTATAAATATTTAACTCTCTGCTCT
TTATGACTAGTTAGTAATTTCCTTTGTAAAATATTACTTCAACAATAAAAGTGAACTCTTGAGCATGGGGCTGGTGAGGGCATTTCCAAATGCAAGGAAG
TTAYTTTGACATCTCCCTGGTGGTGCCCAGGTACAGACGGTGGGTAATTACCAGAACTGTTGCTTTGTATGMTTTCCCTARTCAAAGGCTTAATCATTTG
ACAGTATCTAACCCAGTGTTATTGGRTAACATAACCCATGGCTCTTGACTGTGCTAGGTATGAGGCTGGTGTTTTCTCAGCAGAACCAGTTAAAATAAAA
CCTAGATGTCATATCCCARTCTGGCCTGTTTGGGAAAATGCAGTTTGAACCACAAGCGCAATCTACCCGTGGTGTTTTATAACACTGTTTGCTTGGCCAG
TCTTCTTCAGCAGGCCCTGAATATCTTGTACTTCTCTCCCTGGTAACAGGATCTCTAAACCGGCCACACCTGTCATAAGTGACTCTACTAAAGGRGAATT
CAGAATTCCACTGGGGATACTTAGAACAGTGAGSTGATGTGATCTTGTGTTATTTTCCCTTTCTTGGGGGTTATCCCTTGATTAATTACCTGTCTGTTGG
AGAGAGAGTGTTCTTATAATTGGGGTGAACAGGAGGGCYCTAGTGGGCACCCCGGGGTGAGGGAGTGTGGGGCATTGCAGTAGAACCTAGGCAGCGCTTG
GAGCCAGCCCTACTGGCTATCTGGGCAGGCCAGCCYTGGAAGGATTCCCATCTTCTCAACGGGAGTGCCCGTGGCTTCCATGAGTTACCAAGCTGGGAAT
TGCTTCTAACAATCGAGTTGGAGGCGGGGTGCCCGTGGTACAATCTGTGTCTGGCTTCCTTGGCAACTACCTCTTGTCTTGTTTCCTGCTTCCAGTCAAT
GCCTTTAGGATTAGGCTGAACTTTCCCCTTCATTGTATGTCTCAGCGTCAAAGAGAGGACAGAGAAGGAACATCTTGTTGCTGTCTTACTTGAAATACCA
GATAAGTTCAGGGTTCAATAAAGGTGAGACCTTCCTTAGCTTATTTGAAGGAACTGCTGTTAGTCTAATTCATGATCTGTGTCTTTCTACTGCTATTTTG
GTGGATTTGTGGATTGGCGTCCCTGGTCCAGAAGAGTTTTATTATCATCCTCAAATAGTCCACATTCAAACAAATCCCTTTTGGATCACAGAAGTGAGAT
TTTTTTCCTTTAAGCTGTTATAATGAGTGAGGCCCAGGTAAGGGCAGTGTCCTGCCGTGGCTGCAGGTGTCTGGGTTTGCAGAGGGCCTGAAGGAGTGGC
TTCAAACAGGACAATCCTGTTCATCGTGTGGGAGACCCTGTGGGCAAGGAGATGGGTTTTATACGGATGAGGCCACTCAAGGAAGAGGGAGGAGAGATCA
CGAGGAAGGGCTAGTTATTTAGGGCCGGTCCCACCCTCCAGTGATCCGGCCTCCCCCTGTGTGTCTCTCCCTACCTTCTGGCTGCCTGTGTCCTAACTCC
ACGTCCTGTTTGCTGCCTTCCCCATACCAGAAATCCTAATATCCACGGCTCAGCCTGGCCCTGGTTCCTGAGAGATGTCTTGCTGTGTAGCTCTGTGGTG
GATGTTGTAGACAGTGAACGGCTCTCTGGGCACAATTCAGCCAGTCTCTGTTGTCAGTGGAAGCAGCACAGATCTTCCCTGCACCGTGTGGCCATTTGAA
AACAGGGGTGCACTTGACAACTCCAAAAAAACTAAGGTAGACTGTCTTTACCTGTTGTTTCTGTGAAAGGATCTGGGGAGAAGAGAGGGAAAAAATGAAG
TCATAGTTTCAGAGCCATATATGGGCCTCACTTAATGGAGTGAGTGTTGGGGCCAGATTTATATTGGGAAGGAAACTATCTTGGTAGATAAGAAGTGAAA
ATTCTTGCTGGTGTGACCAAAAGGCTGGGACCTGTCTGTTGACAGCAGAGAAGGCAAGCGAAGGGTCATGTGTAGCACGTTCTCAGGCCTGGCCTTGGGG
CCTGTGGAGCTTCCATGCAGATCCGGTGGTCACAGATAGCCTTACTGTTCCTTTCCCCCCTCAGTCCCTCTCTGTCTCTCTCTCCCCGGTAGGGTTCAAC
ATACACATATCTGTGGGTGCAAATACATGAGCAGCTCTGAGTCAGTCTTCTTTCCCTCATTGTTGTCCCCAAAGTCCCACAGTCTTTTGTCCTTCTCGGA
GACCAGTTGGATTCAGCACCCTGTGAGGCCTGGGGTTCAACTCAGGACAGCTGTCGGGGAGGCAGGGAGTGGGACCTGGGCCGCTTTCTCTGAGCCAGTC
CGGACTGCAGCAGAACCCCAGTGACTGTCCCAACAAGAGGCCGGGACAGACTCATCTCCTGAGGCCCCGTCGTCAGGCAAGAAAGATGGGCTTCCCTGTG
GCATGTGTGTTTTCCCTCATCACTGTGTGGTTAGCCCCAGCGGGGATATAAATATTGTCCAGATGCTCACTGGTTAATGTTTTACCTCGCACAAGAATGT
GCTGTTCCCAGGCAGCTGTGTGTCATAGTTACAGTCTCCTAGAGGGCTTGTGCGTGTGTCTCCTGGAGCCGCGGCTGGCCCTCACCCCCCATGCAGCCTC
CGCGAGGCCTTTTGTGCAGAGCCTTGCCCTTGTGTGTGCCCTCCTACTCCATCTGTATCTTGTCGTCAGTTGCTGGCGCCACCTCAGCAGGRTTTACTGT
GACCTTTCTTGGGCCCATCTGGGAACAGTGGTAGTAGGTCTGGACCTAGGGGTCCAGTGGGTCTTTCCCACAACCTAGCCTGTGTAAGAGGCTGGAGGAA
ACCCTGAATGCAGGCAGAGAAGTCTGTCACAGAGGCCCCTGGGGACAGTGGACGCTGGCTCTGTGGGCCGACCAAGGAGCGAGACCAGCTGGAGCATGTC
AGGGGATGGTGGGTGTGATTGGAGAGGAGGGCRGTCACAGCAGGTGAGGTTGTGTCCCTCTCCTAATATGCAGGGCCAGCCTTTGAAGTTCATTTCTTCA
GTTCAGGTAAAGTCAATACGATTGATTTCTAGACCTATAGACCTATGTGAAGTATCTCAACCAAAGAGATGTTTATCTCCAACCTAAGCATAGCTCTATT
TTATTTCTCCTTTTGTTTTTKGGAATCATTAAAGATAAAACTACTCCCAGCCATTACAACTGTCATGATGACATAAAATACTGCATCAGAAATAGTAACC
AGGGTCTTTATACTGTTGTTTATTTCATTACTTGGAATGAAARTGACAATCTAAGGTGAAGAGATGGACTTGGTTTGTCTGAAATASGGAAACATCTAGG
TGTAGATTTTCAGATCTCACAGGGGACAAATTTCTTCATCTGCAGAGGAGGAAATAAACAGGATCTGTGTAGCTCTTGGATGACCAGCTCAATACATGGA
TGCTGGAGGTGAAGGGAGCTCTCTAGGGAAAGTTTGATGGCTGCATTTTTTTGCTTTCTATACTCTCCCTGTCACTACGAATATGGAAGTGTTTTTCGAA
GCCTGTTCTACTTCCTAAAACACCTTATAATGCTTTTCCTTTTAGGAGGAAGGGAGGCCTGGAACCAACCTGGGAAGGCACTGGGGAGACCCAGGGAGGA
AGGAGACTGTGGTCGCCAAGCATGGTGGCTCATACCTGTAGTCCCAGCACTTTGGGAGGCCAAGCTAGGGGCGCTGCTTGAGCCCAGGAGTTCAGTACCA
GCTGGGACAACATAGCAAGACCCTATCTCTATACAAAATAAAAATTTRCCAGGTGTGGTGGTGCTAGCTACTCAGGAGGCTGAGGCAGGAGGTTTGCTGG
AATACAAGGGTTCAAGGCTGCGATGAGCTATAATTGCACCACTGCACTCCAGCCTGGGCAGCAGAGTGAGACACCAACAGAAAGAAAGAGAGAAAGAGAG
AGAGAGAGAAAGAAAGGAGGGAGGGAGGGAGGGAGGGTCGGCCATGAAGACTTTATCTATATAGCGAGGGTAACAGACAGCCCAGGTGTRGAGAGTCCAG
ATAAGTGTCTCGATTTTTCCACGTTGGCCTATGTTTTTAAATGGAAACGAACTCTGCAGACCTGCCCTTCATTAGAATCTGAATCCCCAAACATCTTTCT
CATGTTTAATCTCTGCCATTGGTTCATGGGCTGTTAAAAAAAAAAAGGGGATAATATCCATGAAGGCTCTCTTACACAGGTGACATAAATAACTTTTTTT
TCCAAATACAGCTGTGACAAAACTGAGCAATTATATCCATGCATAGAATGAGTGAGAAAGACAGGAGTTTGAGTCCCAACTCTGCCACATTACTGACTGT
GTGATCTTAGGCAAGTTACTTAGACTCTGTTTTTTGGTTTTTCTCATTTGTAAGGTGTGTTTTGGGGAAACAGATAACAAAAGGGATGTTGTAAGAATTA
ACTGAGATGGGCCAGGCACGGTGGCTCCGGCCTATAATTCCAGCTGTTTGGGAGGCYGAGGGGGATAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCT
GGCCAACATGACAAGACCCTGTCTCTACCAAAACCACAAAAATTAGCCGGGAGTGGTGGCATGTGCCTGTAATCCCAGCTACTCAGGAAGCTGAGGCGTG
AGAATCACTTGAACCTGGGATCTGAAGGTTGCAGTGAGCCGRGATTGTGCCACTGCACCCCAGCCTGGGTGACAGAGTGAGACTCCATTTCAAAAAACAA
ACAAACAAGAAAGAATTAACTGAGATGATTCATGCAGTCAAGCATTAGCATAGTGTCTGGTAGATAGGGTGCACTCAGTGGATGTTAGCTATTATTATGT
TTGAGACAGTATAGTATGGATTGGTACAAGTGTTGGCCTCAGCTCTAGCTGTGTGACTGTGGGCAAATAACCCCGAGTCTCAGCTACTTCATCTGTAAGA
TGGGGATATTAGTTGCATCTGCATGAAAGAGTGGCTGTGAGAGCTATACGTGGCAGGGCTTGGGGAAAGTAGTTTAATGAAATCTAAGCACTGTAAGATT
TAATGCTTCCATGTTTCATCCAGCATTATATAAGGAACTCTGCACATGTGGGTACATCTCATGAGCTCCTCAGTTTGCCTCCTGTTGTTTTCTCTGATGT
CAGTGTTGTCATAGCTGTTCTTGGAAGAGTTGTTTTAGGCATGTGTCTTGAGGTCCTTCCTGTGGTCACTTTAGTGGGTGACACAGGAGAGGCAGTCTGT
GAAGCTCCCTAAGAGCATGGCTGGGGTGGGGGCGGAGTGAAGGGTGAAAGCCTCAGATTGTGTGACTTTGAAGGGAGCCTGGAGCTGAGTTGTTTGGAGA
GATGATTTTTCTTGCTGAATGATGACCCTGGACTACATCAGCAGGTCTGACAGGGGCTCTAGACAAAATAAGAGACAATCTGGTACAAATCTGCATAGTT
ACTGGAAAAATTAGTGTCCACATTCTTCTTACAGTGCATCCAAAATAAGGACCCAATGTCAAAGTGTAGGCTTAACTGGATGAGAGAAAGGTAGAGAAAC
TACAGCTCCTCCCTCAGGTCAGATTTAAATTGAGTGGTTACTGATGTCTTTTTTAAAATGTGAAATTTAGTGGAGCTGCCTTTGGAAGTGTGGTATTTAT
CCCCGCTTTAGTCTGTCTATCCATAGTGGCTGGGAGCTTCAGGTTAGGCTGGCATTCTATGAGGTGTTCTTGGTAAGGATTAGCTGGCCTGGAGTCTCAC
TATGTCACCAGGCTGGAGTGCAGTGGCGCGATCTCATCTCACTGCAACCTCCACCTCTCGGGTTTAAGACTCTCTTGCCTCAGCCTCCCGAGTAGCTGGA
ATTACAGGCACACACCACCACACCCAGCTAATCTTTCTGTAGAGGTTATTATTATTCAAGGGTGTTTTTCAGGAAGCTGGTGGACAGTGGTGGGCATTTC
TGCTCTGGGATTCAGGTTGTCCTTAGAGGAGAAATTCTAATGATCTGGTAGAACATTAAAAAAWGTTCTCGAATATTTAATTATTAGCTATCAATGTTCT
TTTCTGCTGCCCTGTCTCTTCGCTTACTTTATTTCTTGTTCCCCAAGTAATCCACTTCTCAAATTGGCTCCTTGCACATAATGTTTTTTTAAAAAAATTT
TTTGCTGATATCTTAATTAGGGAAAATGTCAGCTCTGCGCTTAGCCTTCTTGTTTCTAAACATAGTAAGATGCCTTTGTCCTTCCCCTTAATTGTACTTG
CTGCAGAGCTAAGCTGTTAGGTTTGCTTTGAGTGTGTGTGAGCCATCTTTTTGACAAACATAGCATACTTTTTGTGTATATGTGTTAAGATCTTTCATTA
AATGTGACTTGATTTATTTATGATTTTGATCTACGACAGGTTTTCTTTTTCATTGCTTCTCAAATTTGCCTTGAAATAGAATTACTTACTGCAGTAAATG
ATTTGCAGTATGTTTATCCCCTTCTTCTTCGTCCGTAGCAGCTGCTRGTTGAAGTGGGAAATAGGATTCAGTGGTGGAATAAGAATTAGTTTTTTTTGGA
TATGCCAAATTTCAAATTGACTATATAGCTAACTAACTTGTGTGTAAAGGATATTTAAAAGCCATAAAACTTAATCTTGTCATTTGACTAAATTCAGCCA
TTTTCATGAAATTGGTATGCATTTATAATTTTCATGTTATGGTCAGCAGAACAGCTTTAGTCTGTGTAGTGGTCATGGGCATGCACTCTGTATCCAGACC
TGCCGGCTTTGAATCTGGCCTCCCTATTTCCAAGCTGTGTACCGTGAGRCAAATTATTCAACCTCTCTGTTTTAATTGCCTCAGGCTGCTATAACAAAAT
ACCATAGCCTGGGTAGCTTGAACAATATAGATGTGTTTCTCACAGTTCTGGAGGCTGGGAAGTCCAAGGTTAGGATGCCAGTAGATTGGGTATTTGGTGA
GGGCCTACTTTCTGGTTTGCAGATGGCTGTCATCTTGCTGTATCCTCACATGGAAAGATAGAGATCATCCATTCATGAGGCCTCCACTCTCATGACCTAA
TAACCTCCCAAAGGTCTCACGTCCTAATGTCATCACTATGGGGGTTAGGGCTTCACTATGTGAATTTTGGGGGACACAAACACTCAGTCCATAGTAGCAC
TCTCTATTTGCTTAACTATAAAATGGGGATAATAAAGACATGGACCTACCTTATAACGTTATTGTGAAGATTAAATGAGATAATACATGTGAGGTGCACA
GTATAGTGGCTGTTACCAAGTAGGTACAATAGCCAGCCATGCTTTGCTTAGTGATGGGGATATGTTCTGAGAAATGCATCCTTAGGTGACTTTGTTGATG
TGTGAACATCATAGAGTGAACTACACACGCCTAGATGGTACAGCCTACGACACACCTAGGTTCTATGGCACAGCCTATTACTCCTAGGCTACAAACCTGT
GCATGTGACCATCCTGAATACTGTAGGCAGTTGTAACACAATAGAAGCAATTGTATATCTAAACACATCTACACACAGAAAAAGTGCAGTAAAAATATGG
TATTTTAATCTTATGGGACCACTGCTGTATATGTGGTCCACTGTTGGTGGAAATATTATTATGCTGGAAATCCATAAATATCCACTTGGCACAAATAGTA
CAAATATTCTGTTGTTTTTTTAATTCTATCTTTCATGATTGCTATGGCAAATTAGACTTTTCATATTTGAAGGGGATTTTTTTTTTTTTAGTGAGTTATC
TCGGACTRTTAGCAAGCAATTCTGGCTGATGTTAGTCATAAAGTTTACTTGAATTTTCTTTAGTACAATCATCCCTGAAATTATAAAGAGGAAATGAGTT
GGTCAAAACGGGTATGTAAATTCAACTTTATTGCTCCACCTGTACAAAAAGGAAGTAGAATAAAAAATAAACATATTTTGTGTTAGGACTTCAGGGAAAT
TCAGTGTTCAGAAAAATGCTTCCAAATGTCGTAGTACAGAGAAAGTTATTATGAACCTGGTTAACATCTGACTGCGGGTTCTACCAAGTCACCAAACTGG
GACATTTCTTTTTTTTTTTGAGACGCAGTCTCACTCTGTCACCCAGGCTGGAGTGCAAAGGTGCGATCTCGGCTCACTGCAACCTCCACTGTCCGAGTTT
AAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCTGCCACTGCACCTGGCTAGTTTTTTGTATTTTTAGTAGAGATGGGGTTTCA
CCACCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCAGCCTCCCAAAATGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCCAAAC
TGGGACATTTCTTAAGATGAGCAAGTGAAACAAAAGTTTCAGTGGTTTATRTAGAATCTCATGTTGATGTATATTTATAAGCATGTTTATTTTAAACATC
TGAGAGAAACAGCAGAGACTTGCTATGGTGTAACGCTTACTTTCCRACAGTTCACATATTTCCCAAGTTTTAAGGAGTTCCTATTGATGGTAGGTGAGTG
ATTCTTTTGGTTTTTGAAGAAGGATTAGTTGTGACAACCCCGTGAGCTAATCAGGCAAGTTGAATGTTATTTTATTCTCTGTCATAGATTCAGAAGTTAA
TATGTGGGTTCCTTAGCAACTAATTTGCAGGTGTAGTCACACATCCAAGTGCGCGTGGAGAACGAGTATCCCAGGTAGGATGTGATGAGAGCATAGGAGG
GACTCAGCCTGTGACCAATCATGTCTTTGTGCTTTTAAGGCACAAATGGAGCATGGAGGGGCCGTCTCCATCATACCACCTCCTCTTGCTCCTAGGCGAG
CCTAACTTCCTTTGGAAGGGGATATCCAGCCACCTCCTGGTAGATAGTATCTGGCACGACAGTCATATGCTGCACAGGTGTGTGGACTAGGAGCAATAGG
CCATACCCTACAGCCTAGGCATGGAGTAGGTTGTACCATCTAGATTGTGTAAGTTCACTCTGTGATGTTTGCACAATGACAGAATCACCTATGGATGCAT
TTCTCAGAACATATCCCTTTTGTCCCCTCCCCCACCCCATCCTCTTCATGGCCACATGKTGTGTTTTGTCGTTACTATACCTATATCTTGGAGACAGCAC
TTTTTAAGCATATTTTGGACTTCTCTCTGCCAAAAATGCGGACAAGTGGCCTCTCTTTTGCCCTCAGTGGGTCCTTACTCCCAGTCTGTCTAGTTTCTCC
CCTTGATTGAAAGCCTCCTTGAGAGCAGCCACCGCATGATTTTGTTTACTGTTGTGTCCTGGAGTGTAAGACACAGTGCCTTACACAGGGCTGGTGCCCA
GAAAGATTTGTGAATGAGTTGGTGAATGAATGAAATTATCTATTTGAACAAACCAAAGCTGGACACACATGGGTAGCCGTATAGCCTGGCTGAGATATGC
TTGATCATGAAGTTATGGCTTTATTCATCTGTTGGCAGTGGGATTGACTAATTCTCCCTTCACTCCCTCATGCCCATGGTTGGGCAGCCAGGACCTTCTC
ACCTAAACATACCATCTGTTGTTGGCTCCTGGCTATCACATTTAGTTACAGGTCTTTCCCCCTTTTAATTTCCGGCTGTTATTAACTATCCTCTATTTCT
GATGTAGTAGCATTCTCACTTCCTGCTTTTCAGTTTGACTGGGTTGCAACGGGTCCATTATTTACTCAACTTCTTTCTTTATCRATTTCCTCATCTATAA
CATGTCAACAATGGTATTGCCTCTCTTACAGGGTAGTTGTGAGGATGAAGGGGTTAAATGCAGGTGAAACCCTTAGAGAAGTGCCTAGCAGTAGTCAGCC
TGACACCGACCATGTCTCATGAAAGTCACACAGACCTGCAAGGCTCCTGCAATCTGCCCTTTACTCTTTGCCCTTCCCAGCTACCTCATCGATTTCCTGA
CTGCTCGTCTTGCCRTGGGGACCATCCTTGCATTAACCACAGGAATTTCCAGCAACAGTCCACTACCATATTCCTAGCACTGAGCATAGAGTCTGACAGA
TGATGTGTGTGATTGGAAGATGCTGTGTTTCTGCCTACCCTTGGCTGCTGGGTGCAGGGCTCAGGGCTCCACAGAGTGAAGGCTACCTCTGCATAATAGC
TCTGCGGCCTCCCTGTCTGTATTAGGAAGCTGATGATCATTTATTATTCCAGCAAGCAGTGACAAATCAGCTCTGTGTGTYGGTGAGGATAGGCGAGGCT
ATGTTACACTCAGGAGTGACCCAAACTTTCAGTGGCTTAAACCGAGCAAGTCATATTCTCACTCGTGCTGTGTAGCTTATATTGGCTGATGTAGGGGTTC
TACCCTCACCATCACTCAGGGACCTAGGCTGCTGAGGCTCTGTGTAGACACATGTGGCCATGACTAGCAAGGCAGGCAAGGGTCAGGCGTGGCACCTATC
GGCTCCTAAAGCCTCTACCAGGAAGTGCACACATCACTTCACATCAGAGTTCACTGGGCAAAGCAAGTCCCTTAGTCACACCCAACTTCAGAGGGGCAGC
AAAGCCCAGCCCTACCCTGTCGCTGGAAGGAGGCCACCAGAATATTCGTGCCTGGTCTTTGATGCTCCMGTGACCAAGGATGGGTTTGCGATAAATGGAG
TGGGGCCCCACTGTTCTCAGGGCTTCTAAAAAGGAATGCCCCTTGCCACATCTCCACCCTCAGTTCCGATAATTAATTGTTTTATTTAATCAGGGAGAAA
AGACATTAATTCCAGGAAGCTTAGCAAACAGGCGGTTCCTCTAGGTATGGTCTTCAAAAGCCCTCAGGAGCAATTTTCCCATCCACTTTGAAGGATATAA
TTCCACTGTTGGTCTGAAGAGCAAATGCCCTGCGTAATTTAGAGCTGGGCCTCAGAGGGGAGTGTGTTACCGGACARTCCCCTCAGCAAACTCAGTTATT
CCACTGGGCTTTTGCTGAGCCCTGCTGTGTGTTTGGACTTTATGTGACCTTCAATACTGACTGATCCATAGGCTTGTCATTGCATAGGTGAGCTCCACAT
CCTGTCAACTTGATTTTGACAATCTGAAGCTGGAAAAGCTTTGGGGAGCAGCGCCTCTGCACACTGTGTCAGGACCTGGGCTTCCGGGGCTCCAGAGTGG
TTGATAAACATCATGGCGGCTCAGAGAGGGAGAAGCCAACCAACAGTGTTTGCTAGAGGCCAAGGTGGGGTCAGGGCCTGAGGCGGGGGATGACCTGAAG
CTGGGGACGGCCTGGACCAGTAGGTGGCTGACTCAAAGACTGAGCACTGAGAGCCTGGGGAAGAAAGGGGGAGAAAGTTCAGGAAATGGATACCAGCTGG
GGGTGGCTGCTAAGAATGAGGCAAAGCTGGAGAAGTTGCTGGGGTCCAACCAGGAGGACCTTGTGGGCCAAGCCAGGGAGTCAGAATTTTCAGCTGAGTG
AGGAGCCATGGAAGCAGTGGTGTGGGGTGGTCAGGTTTGACTTTTCTTTTAAGTTATGCTTGACTTAGTCTTTTTTTTTTTTGAGACGGAGTTTCACTCT
TGTCGCCCAGGCTGGAGTGCAATGGTGYAATCTYGGCTCACTGCAACCTTCGCCTCCTGGGTTCAAGAGATTCTCCTGCSTCAGCCTCCTGGGTAGCTGG
GATTATAGGCACCTGCCACCATGCCCAGCAAATTTTTGTATTTTTAGTAGAGACAAGATTTCATTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGAC
CTCAGGTGATCTGCCCACCTTGGCCTTTCTCTTTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGCATGCTTTTAACTTC
AACTTTTAAGTTCGGGGTATAAGTGAAGTTTTGTTATATATGTAAATTTTTGTTATGGGAGTTTGTTGTACAGATTATTTTGTCACCCAGGTATTAAGAT
GAGCACCCATTAGTTACTTTTTCCTGATCCTCTCCCTCCTCCCACCCTCTACCCTTAAGGCCCYAGTGTGTGTTGTTCTCCTCTGTGTGTCCATGTGTTC
TCATCTTTTAGCTTCTACTTTTGGGAATGTGTGGTATTTGGTTTTCTGTTCCTGCATTAGTTTGCTAAGGTTAATGGCCTCCAACTCCATCCATGTTTCT
GCAGAGGACATGATCTCTTTCTTTTTATGGCTGCGTAGTATTCTATGGTGTATATGTACCAACTTTTCTTTATCTAGTCTATCATTGATGGGCATTTAAG
TTGATTCCATGTCTTTGCTAATGTGAATAGTGCTGCAGTGAACATACATGTGCACTGTCTTTATGATAGAACGATTTATATTTTTTGACTACAGGATCTT
GACAAGATTTACATTCCTTGACCACAGTTAAATGGTACTTGACTTAGTCATTGTTTTTTATTTTTTACATGCTTTACTTCTTGGCATGATTTGTATTTCT
ACAACTGATTGGTTTTCACAATATTTGTTTTAATCCCAAAGATATATGTTACACCGAATAACCACATCACATTTAATCTGATCCTTTTCAATATTTTTTC
ACTCACACAGAAGACTCAACAATGTAAAAAAACTGAAGTAGAATATTATATTCTAACATAGTTTTAGTCACTGTTGGAGAAAGGTCTGTTTATTATCAGG
GTTTCTTTATTTTATTGGGTGGTTGTTCTAATTTGTTGTTTTGTCAAAATTTAACCTTGTATTTATGTGCTTAAAACATTAAGGATCTCTAATTTAGAAC
AGATTAGTCTTCTGGATTAATTAGTCTTCTTCTAGATTTGCTGGTTTGATGGTGAAATAATGTATTTTCATGAATCTTCTTTTGGTAATAGCTTAATTAA
ATGATCAGACAAATGTTTATACAACACATTCTAAAATCATACATTTTGTTCAGAAGAGATTGAAGGTGAATTGGAATTTTAAAAAGACCCTTCTGTGCTC
AGGGCATGCCTTCCTGATGGGCGGGTCCTGCGGAAGATTGATCGGTGTGGGAACAGAAGAACAGGAATTACCTTTTTTTTTTTTTTTTTTTTTTGAGACG
GAGTCTCGCCCTGTTGCCCAGGCTGGAGTGCAGTGAAGTAATCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCC
TGAGTAGCTGGGACTACAGGCGCCCACCACCACGCCCGGCTAATTTTTTGTGTTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTTGAT
CTCCTGACCTCATGATCCACCCGCCTAGGCCTCCCAAAGTGCTGAGATTATAGGTGTGAGCCACTGCGCCTGGCTAGGAATTACCTTCTTATGGGACATT
TTTTCTTACAGGATTTTTTATTTTTTTATTTTTAATTTTTTAATTATTATTTATTTATTAATTTTTTAGACAGATTCTTGCTCTGTCACCCAGGCTGGAG
TGCAATGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATCACAGGTGTGCGCC
ACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTTGCCATTTTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGCTTC
AGCATCTCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCTGGCCCTTACAGGATGTTGTAATTAACCTTTGTTCACTCACTAAATTCCTCCTTCTT
GTAAGTTCTTTTTTCTGGACAGCACTGAGATCAATCCGTGAGGGTCTGTGTACTCCCTTCTCCTCGAAAGCACCAGGTGAAGGGTGATGCATTTAAACTA
TTTGATAGCACTCTCCACCCCTCACACCCCATTTCTTAATCTATTTCTGTTGACACAGCGCCACCCCAGACAGGGATCATAATGCAATAGAGCAGATGTC
AGTGTTCCTTCATGACTTGCTCTACATTCTAGTCCCATTTCTCAGGGCCACTGTTATTGGATTTGAGCGAGAGTCTAGCCTCTTGATTGGATAAGGAAGA
CACCTGGCTATCCTTGATTGCATTTGGAAAACATTCTGCTTTTTTTTTTTTGTGGAAGATTGAGAAATACTCTAGTCTCATCTTCAATATAGTATCAAGT
CATCTTTTATGTTGGAGGCTTTCTGTTGATGGCTAAACTCGTCATTTTGATATTGATTGCTTTTGCTTTTCTTTCGGTAGAGAACATTTCTGACTTTATA
TTCTAGGATTGCTCCCATTTGAAACCTTCGAAACCTTTCTTCAGACTGATACAGAATGCTTTATTATCAAGCACACCTCTGGATAAAACTGTGGATTCCT
TGGCACCAACAGCCACAGTTTGGAATCTTGACCCTGAGTAGTTCTAACTGAATCCAGCAGCTTCTACTCACCTTTCTGTTCTTTTAAATGGGTCACATAA
ATCTGTCCCCCAACCCCCCAACACAGAACCCCTCCAGGCATCTACAGGAGGGTGAAAGCTGATGGTCACCCTTCAGCAAGGCTTTCTTAGGTGCGTAGCC
TGCCCTTGATTCCAACTTGTAAGTTAAAGGTGAGAAAAGGATGATTTTGGTCAAATTCTCCCTTGATGCCTGACCCAGGGCAAACCATGTCACCTTTCTT
ATCCTTCTGCATGCTATATTTTGAGGTTCTGTCTCATGGCTTAAAATGCTGTCTATATACTGGTGAATCACAAATGTATATCTCTAGCCTGGACGCGTTT
ATGAAACTTTATTCTTATATCTCCAACTTCCTCTTCAATGTCTCCACCTGAACACTTAGTAAGAAGCTCAGCCTTAGTATGCCCAAAGCCCAGCCCCTGA
TCTTCAACCCCACTTTTCTCCACGGCACTTCCTCCCCACTTTATGCATGTTAGGAATGGCAACTTTATCCTAACAGTTGTTCAAGGCAGAAACCTTAAAG
TCATCCTAGATCTCTGTATTTTGCCTTTTTTTTTTTTTGAGATGGAGTCTCTCTGTCACCAGGCTGAAGTGCAGTTGCATGATCTCAGCTCACTGTAACC
TCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCATGCCAGCACACCCAGCTAATTTTTGTATTTTTAGT
AGAGACGGTGTTTCACAATGTTGGCCAYGACGGTCTTGATTTCTTGAGCTCGTGATCCACTCTCCTCGGCCTCTTAAAGTGCTGGGATTACTGCGGTGAG
CCACCACACCCAGCGTATTTTGCATTCTGTAGTCAATTTGTCAGCAAATCCCATTGGCTCTACCTTCAAAATAGACCCAGAGTCTGTCCTTCTCTACCTT
GGTCCATACCACTAAGTTCTCTTGCTTGTATTACTTTTGCAGCCCCTACCTGCCCTCCCTTCTTCCTCTCTTGCTCCCTATCCTCAACCCGGATGCCAGA
GTGATCCCGTTAATATAAGTCAAATGGTGTACAGTGGCTATGTCTTTACACTGGTCTGTACCACCTGTGTGATCTGACTCCCCCACCCTACCCACACGGT
TACCTCTCTGATCCCCTACTTCTTTGCYCTTCACTCTCTCTGCTCCCGACATTGGCCTCCTTGGTCCTCAYATGTTTTCTCCTCTGGGCTCTGCAGCTTA
CTGTTCCCTCTGTCTGGAACGTTCTTCTACATGGTTCCCTCCCTCACCTTCAGGACCTTATCATACGTCAGGCTCCCAGTGAACCTTCCAGGATCAACTG
TTGTTGAAATGGCAGCAGCCTCCATACTTCCTGGCTCCTTTTCCTGCGTTGCTTTTCCCTGTAGCACTTATCTCCTGCTAACATTATTTTGCACATCTAA
AAGCTAGGAGTGCAAAGATTCTGTCAATTTTGTTTCCTGCTCTATTCCCAGCATCTGGAACAATGCCTGGCATATAGCAGACATTCARTAAGTATCTGTG
GAGTGATTGTATCCACCAGATGTTTTTTACTGACTGTGTGCAAAGAACAGTTCTCGAAATTGGGAGAGACACAAGTACATCAGATGTGTGTATGTCTCTC
AGAGCATCCGCAGCAGTGTGACAGAGGGCAAGGACCATAACACCTGCTCTTAGAATCTTCATTTAAGCACCATAGATCCTTGATTGAATCTGGAAAACAC
TCTGCTCTCCTTGTGGAAGATTGGGGAAATATTCTGGTCTCATCTGCAATATAGTGTCAAGTCATCTTTTATGCTGGAGGCAATATAGTACCTGTATATT
TAACTGCTTGGTAGTGGATGTTTGCTATTCTTTAGCATCTCAGAGAGTATAGGGGAAATCTGCGTGTTTGAGTACTTATGCACATTGAATGTGGTTATTG
ACATGAAATTCAAAGGTGAGACTTTAAAAGAGGGAGACCTTACCCTGCTGACTATTCATGAAGGAAATGGTTTCAGGCAATGGAGTGGTCTCTGAACTGG
GATTTGAGGTGTAGATAGGGAAAGAAGAGGGTTCCAGGTACAGATTACTGTGTGCACAGAGGCTGGAGCTTGCTGACTCAGTGTCTGGGAATGAGCACCA
TTCCAGATTCTGTTTGTTTCTCAATGTCTCCCTAAAGGATACTACTGAATCCTCTTCTCGGAGTCCTCACACAGCATGAAATTCCATGCATGAGATTTGA
TTGGCTGCAGGTTTAGGCTGGTCCGTTTTGACTTTTCCCATTCATTCTGTGGGCTTGATTTGGATGCCGCCTGGGCTGCCTGGTTATTTTGTTGTCTCTA
AATTCTGGCCCATATTATTTGTGTTGTACTTGAGTCTGCTAGAGCAGTGGTCCCCAACCTTTTTGGCATCAGGGGCTAGTTTCACGGGAGACAATTTTTT
TCACAGACTGGGGGTTGGGTGCAGATGGTTTCGGGATGAAACTGTTCCATCTCAGATCATCAGGCATTAGATTCTCATGAGGAGCATGCAACCCAGATCC
CTTTCGTGCGTGGTTCACAATAGGGTTTGCACTCCTATGAGAATCTAGTGCTCCCACTGATCAACAAGAGACAGGGCTCAGGCGGTAATGCTTTCTTGCC
CATGTTCACCTCCTACTGTGTGGCCTGGTCCCAAACAGGCCATGGACCAGTACCACTGTGCTTTAAAGGAAATTCAGACTGGCAAATTACCTATCTGCTC
CAGGTATCTGTTGTTGCATGCCACAAAACACCCCCCAAATCTCAGTAGCTTAACACAATATGTGTTATTATATTTCATGGTTCTGGGGGTTGATAGGACT
CAGCTGGATGGTTCCCTCTTGGGCTCTCTTACACAGCCGGAGTCAGATGGTGGCTGGGTCTGGAATCATCCGAAGACTGGACTGGGCTGGTTTTCCACGA
TGGTTCCTTCACCTACAGGTCTGGCTTCTTGCCCTCTCTGTTTCCACACAGTGTCTCAYCTTTCAGGGCCTCTCATCTTTTGGGACTGGTACTAGTCCAT
GGCCTGGGTCTTGGGACCCCTGTGCTAGAGGATGACATGGCACAGTCACACATTTGGCTGACCTTTTAGTGGGAGGGAGATAGACCCTGGAATATTCTGA
GTGATCAGTTCTCTTTTCCCAGTTATCTTTTTCTTACTCTGTTGTTTAAGTACAGAGTATAAATCATTTTTTGTATAGGCTGTTCCTGGCAGATATGGGC
CAAGCTTTGATTCATAGAGAGAAGGAAGCTTAGACGTTACCAAGACCAGTGCTTCCCAAATCTCCTGATTATCCAAATCACCGAGGGAGCTTTAAAAAGT
CACTCAAGGCTTGTTTAATCAGCATCTCCAGGACACAGGAAGAAGAAAAAGAGGAGGAAAAAGAGGAGGAAGAGACAAGGATGTCTCACATGTGAGAAAA
TCTCAGAGACTGCTACACTAGATGGAAAGTTGCCTATGTCAGTGGTCCCCAAATGCCACACTACTCAGAAAGACAGGAAAACAAGAAAAAAAGTACATTT
TCTTTATTAGAATTGGAGTGTGTAGATGTCTGTATCAGAGTCTGCATTTTCAAAAGAATTTCCAGGAGTGAGTAAGAGAAAGGAAGATGAAGAAGAAGAG
AGCTACGACGGGAAAGAGATCGGAAATGAGAAGATGGACTTGGCTTGCATCCTGCAGATAATGAGTAAATGCTGAAGTCCTCGATGGAGGGCCAGGGCTG
GGAGAAGGGGAGGAGGGAGGGGTGGGAGGTAGCTGTATACATCTGGAGGAGGGAGGGGATGACATCTGCCTCTGCTGGGTCACTCAGATCTGGAATGTCC
TTGCAAGGAAGCCCATTCTGATTTTGAACAGCTGCTCTTGATAAAAGCTCATTCCCCATTTCCTTCTACCATTCATAGGATGTAGCTCTGGAGCCCCCTG
TCCTAAGCCTCCTTATCCTGGCTTCCATCCACTTCTTCAGCAGGCATTTATTGAATGCCTAATGTGGGTGACATGGTTTGGCTGTGTCCCCACCCAAATC
TCATCCTGAATTGTAGCTCCCATAATTCCTGCGTGTTGTGGGAGGGACCCTGTGGGAGATCATTGAATCATGGGGGGCGGTTTCCCTGATACTGTTCTTA
TGGTAGTGAATGTCTCACGAGATCTGCTGGTTTTGTAAAGGGAAACTCCTTTTGTTTGGTTTTCATTTCTCTCTTGCTGCTGCCATGAAAGCAGTGCCTT
CCGCCTTCTGCCATGATTGTGAGGCCTCCCCAGCCATGTGGAACTGTGAGTTCATTAAACCTCTTTTTCTTTATGAATACCCAGTCTCGGGTATGTCTTT
ACCAGCAGCGTGAGAACAGACTAATACAGTGGGCATGGTTTTCTTATTTTGTTTTTTTCTCTAAATCCCTCTTCCATTTCTGTTACCTTCCACTTATCCC
AAGAAATGGTTACTTAACAAATTCAAAACACTTATAAGGATTTGGACACAGCTTGAGCCAAGATTTATCTTTCTTTGGCAACCCCTGTTTGTTTTGTCTC
TTGAGAGTATGTACAAAATGATACTGTAAACAGGATTTTAAGTGGCATGTGTAATTTAGTGAAGAGAACCAAATAATGTTCTACTACAATTTGTATGCCA
ATTATAAATCATGCTTTTCCATTAATTAAAGGAGTAGCTCTTTGATTATCTACCAGTAGGATGCAAAAATGATTAAATAGTGTTTTATTTAAAATATTTT
ACATTTTATTAAACCACCTTGGCTTCTGACTACTCCTAACTCACCTCGCCTTTAGCACAAACAGTTCTGTCCTTGGTGAATCTGATAAAATGATTTGCTT
GTTCWGCTATAAAACGTAAAAGAGGCTCTTATAATTTGTTGCATAGTTTAAGACCCTGTTTTGTTTGACCACTGCTTGGGGGTTGATGTTTGTTATTCTT
TAGCATCTCAGTGAGTACCGGGGAAGTCTACTTGTTTGAGTACTTACACATGTTGAATACAATTATTGACACTGATTTAAAGGTGAGATTGACTCAGTTC
ATAAATATGACAGTTGATCCAGGAGGCATTCTGTCTGGAATAAATTGATAAAGGCAAAAGTTATAAAAAGAATATGTGTCTGCTTTTGCTTTGTACTTTA
CTTACATACCTAGAGCAGTTACTAGTTATAGCCTTTTGAATATAACCTGTATGACCATCTTCAAATCTGTCTCAATTTCAAGAGGAGGTTACTCATGCAA
TTATGTGGGTTACTCTTATTCTTAACTTGAACATTTCAGAAAATGMGTTTTATGGTAGTTTTAAGCCTAAGCATTTTACATGGCAGAGAGCTCCGGTTTA
TTCACTCAATAACAAATTGCAGTATATGTGTGTGTGTGGATACCATGTTATACATGGGGGCTAAAAAAATAAATGAAATGCAGTTCCTGCCCTCAAGGAG
CTCTTAGTTTGCTAGTGGAGACAACTGATACACATCTGGATTGACATKTTTTGTTTTTGAGATAGAGTGTCGCTATTGCCCAGGCTAGAAAGCAGTGGTG
CTATCTCGGCTCACTGCAACCTCTGCCTCCTGGGCTCAAGCTATCCTCCCACCTCAGCCTCCTGAGTAGCTGGAACTACAGGCACCCACCACCATGCCTG
GCTAATTTTTGTATGTTTATACAGATGGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAGCTGAAAGTGATCTGCCCACCTTGGCCTCCCAAAATGCTGG
GATTACAGGCATGAACCACCATGCTCAGCCCCTTGTTTTGTTTTTTTATTGTTGTAAAATACACATAATATAAAATTTAACATTTTAGCCATTTTTAAGT
GTACAGGTCAGCTACATTAAGTACATTTACTATTTTTTTTTGCAACCATCCCCACCATTCATCTCCCGAACTTTCTCATCTTCCCAAACTRAGACACTGT
GCCCATTCTTGATGGGTTTTAATATGCCTAGGACCACAGAGCTATGGGAGGCCAGAGGACAGGAAACTCCCAGTTCTAAGGCAGTGTCAGGTCATGGGCA
GTGATTGGCCTGAATGCCCCTTGCCCATCTTCTGCTGTGTCCAAGGACTGAAGACCTGCCACTCTGCAGCTTGGTCGCTGTCTGGGCTGAAGAACCTGTC
TCAGTGAGTGGGGGACTGGGATTCTCCTCTCTTGTGTCAGAGAGACTAAAACCGTAGTTCTGCTAGACCTCTCACCCCTTTCTATAAATAGGAGCATCAA
TGGGGCCTTCCAAAGGAAGTCATTGCAATACACTGTTGTTAAGCCTTCTGAGCTTCTAGCTGTACTGCCTGGAACAGCCTAGAAACTGGCAAAGATTTAT
GGTCATTGAGGGCAACTGGGCAACAATAAATCTTCAGCCCTGCTTGCCTTTATAGCATCTGTGTAAGCTTGCTGGTTCAGAGCCACTGGGACTCAAAGTA
AATCATTCAGTCAGTCACTCAGCAGATAATTATGGACCGCCCACTAGGTGTGAGACATTCTGTTTCTCCTTTCTTTTATGTCAATATTTAGCAGAAGTAG
TAGCAAGGCATCCAATTCTTGAATCTAGTTTCTCTTCTAAGGACTTTTTTTTTTTTTGAATCTCTAAGGTTGTTTTGAGTATGTTCTCCTCAATCCAAAT
TKTTCCCTGCTCAGGAGAAAATAAAGCTCTGGGGAGAGGCTTAACCATTTAATCATGTACCATTTAACACCTCTTTCTGGGAATGGAAACATAGATCAGC
ATAAAGAACTTGTCCCATTAGTATTTGCCACCGTTTTTCCTTTGAAAAGTAAAGATGTGTTTCAATCACTTCATTTGTTAAAATTAAAGCATGGCCTCTC
CTTCTCCCTGTCCATCTGCTGTGACTTGTGATCTGATTTGAGTGTCTGTTCTAGTAGCAGAAGCAGCAGAGGTAGATGAGACAACAATTTACTGCCTCAG
TGGAAACTTACTTCATGGCCGAGTCAGAATAACACAGTTGGAGTTTTTAAAATTAATTGGAATTTTATTCTACACTACTTGTCTGGAGTCTAAGCTACAA
AGCTGTTGTTGTAAAGGTGAAAATCTAGCCTAATCAGTGCCAATGGCATTTGCAGAAGATGCCAAGAACTTCCTGGGTCTCAGGAAGGCTGGAATGTACT
TGTCCTCCCTTCTCCCTCCCTCCAGTAAACACAACCTTCCACCCTCCCCTCAGGCTCCAGCTGCTGCTTGCTGCACCTCTATAGATCCCGAGTTTGGGAA
CTGGCTGGAGTCTCTGTTGAAGGACTGGAGAAGGTTACAAGGATTGTCTCTGCCCCTGCCTACCTCAGGCCTCCCASAGGTGGGGGATGAGGGAGTCTGT
GGAAGAGGAAAGAACTAAGGGAGGAGCCCAGTGTGAGAGGCTCTGCTCCCGCCTGCGGCACTTCCCTGCACCTGCCACAGGTCCAATTCATGGGAACAGC
TGGACTTTCTAGCCACTGTCGTTGGTCTAGGAAGTTAAACTGTGGGCCTCTTACCCACCGCAGTCACTCCCTGGAGGTGGCCTCAGAGCTCTGGCTCCAG
AGGGCACCTGTCTTGCATGGAGAGGTAAGAAATGTTTGAGTTGAACTGAATATTCGCTGCCGGCCTGGGGTCGGTGAGATTAGTGAGAAGGGAACAGGTG
GCGTAAAAGCTAATGGGATGCTTTAAGATTGGCACATTGCTGATTTCCAGGCTGCCGTGGGAAGGCTGGTGGTGGGTATCCAGGTTGCTGTAGCGGGGTG
GAGAGAAAGCACCTCCTGTTTTCCAATGTGGAGGCAATCTGGCCATGACATCTGTGTCCCTGCCCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTG
TGTGCCCCTGGCCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGGCCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTG
CCCCTGCCCTTCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGCCCGCCACAGTGGAGGAGGGCCTGGATGCCCAGCTTTGTGTGCCCC
TGCCTGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGCCCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGGC
CGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGGGCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGGCCGCC
ACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGCCCGTCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGSCCGCCACGG
TGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGGCCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGGCCGCCACGGTGGA
GGAGGGCCTGGATGCCCGGCTTTGTGTGCGCCTGGCCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGGCCGCCACGGTGGAGGAG
GGCCTGGATGCCCGGCTTTGTGTGCGCCTGGCCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGCCCGTCACGGTGGAGGAGGGCC
TGGATGCCCGGCTTTGTGTGCCCCTGCCCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGGCCGCCACGGTGGAGGAGGGCCTGGA
TGCCCGGCTTTGTGTGCCCCTGGCCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGTCCCTGCTGTGGCTGCGTGGTTGTCAGGTGACCATC
CTCTCCAGGGAGGGGAGAGCTGCCCCTTGCTGAGGGAGGGTGTGCATGGCTTGTTCCCCTGCCAGAATGTCCCATTCCTTGACATTTTGACCAGTCTTGC
CACATTCTATGGGTTAAGACCTGGATGATTACAAAAGTTGTGGAAGATGGTTTTCTTGACGGTCTTGTTTGCAATGGAGGTGCCAGCAGGTGCTGAGAAA
CACTGAGGGACCTCAGCAATGCCATCTGTTCTCAGAGGGGCTCAGGAGAAGCAAAGATGAGCAGTGGCCGAGGAATGGTGCCGCTGACATAGTCCGGGCA
GCCCCGCTGGCACTTATGCTGCTGAGCTTGGCTTCCACAGCCAGGGAAAAGGGTGTCTTTCTGTAGCAGCCATCTGCCTCGCTCATCATCAGTTGTGATG
ATTTTGTCTTACCTGCCAAGTGGTAGTTCTTACGTCTTGCAGATCTTTGAATCCTCAGCACCTAGCACAGTGCCCTGCCTGCAGTAGGGGTAACATAGCC
AGGAAGCACAGCATGCACGATTGTTTTCTCCAAAAGATGTGCAGAAATCAGTGACCAGACAGAAGTGGTAGGCTTCTTCTTTTTTTTTTTTTATTGTCAC
CATCTATAATGGAATGGCATCCTTTACTTAAACTCAACACCTTTGGAAGCACTGGCTCTCAGAGGCTAATGCCTGTGGCTCCCAACTATGGTGACTTGTG
ATACCTCACTCAGATATGACGGGTCAGTGGCTTTGGAGGGGGTTCTCAGGAATCTGCATTTTTACAAGTTCATGGGGGTGATTCTGGGGCAGGTATTTTA
TGAATGTGAATCATAACTTGAAAAAGAACAGGCTTTCAGCTGAGGCACGGCTATCATTCGAATGTGTCCCCTCCAAAATTCAGGTGTTGAAATTTAATGG
CTAAAATGATAATATTAAGAGGTGGCCCTTTAAGAGGTGATTAGGCTCTGAGAGCTCCTCCCTCATGAATGAGATCAAGGCCCCTGTGAAAGAGGCTTCA
TGCAGCATTCCATTTCACCTTCCTCTGATCTGTGTGAGGACACTGTGTTCTGGAGGGTGCAGCAAGGAGGCATCATCTTGGAAGCAGACACCTAGTCCTC
ACCACACAATAAACCCACCAGCCTCTTCATCTTGGACTCCAGAACCAAGAAAAAAATTTCTGTTCATGGTCAGGCATGGTGTCTCACACCTGTAATCCCA
GCTCTTTGGAGGCTAAAGTGGGAGAATTGCTTGAGCCCAGGAGTTCAAGACCAATCTGGGCAATATAGTGAGATGCCATCTCTGCAAAATTTTTAACATT
AGCCAGGCTTAGTGGCACGCATCTGCAGTTCTAGCTCCTCAGTAGGTTGAGGCAGGAGGATCGCTGGAGCCCAGGAGTTCAAGGTTACAGTGAGCTATGA
TTGTGCCACTGTATTATAGCCTGGGTGACAGAGCGAGAGCCTGTCTCTAAAAAAAAAAAAAAATCTGTTCTTTATACATTACCCAGCCTTTTGTATTTTG
TTAGAGCAGTGCAGATGGACTAAGTCAGATACGCTCTGGAAATGGATTTTCCAAGTGGGGAATAAACAACGAGGAAGGTAACTCTGTGTCATTTCCACTT
TCTTACACCTGGGGTGCTTCACACTTTAATTTTTGTCACACCTCGTGTAATCCCCTTGGTACTCTTTAACATTAATCTTGAAGAACACCTTACATTTTTG
GTAGCATTATTGAAACCAGTTGATATATTAATATTTGAGGGCTTTTATAGGATATATATATATACACACACACATACACACACATGTACACAACACACAC
ACACACAACACACACATACACACATACCTGTAGGATGTACAATGAAAAACCAGTTAACTTTCTGAAGTACAGGATTTTAAATAGACTCTATTTGAGCCCT
GGAGATTGGCAGTAGTCTCGGCTACCCCTCATGGTGCCGGGGTCCGAATTACTCGCCTCTCTGGGACAGCTCCCTTTTCTCCCTCCCTTGTGATCTTGCA
TCCAACCCTTCCTTAACCAAGTCTGCAGACTTAGGTTYGTCCTCACCCTAAGGTGAACCAGCCAGCTCCTGTTCTCAGTCTRGGGAGTGCTCCTTTTCCA
CTGCTGAGCAGAGACTGGAGCAGGAGACACAGTGATGCGTCTCATGGCCCTGCCCCTGGCTCTCTTCCCTTTGGACACACCCCTAGGTGCAGCTGTGGCC
TCCTCTGTAACAGGTCTGCAGAAGAGCAAGATTAGAAGCAGCCATATCCCCTACATTTGTAACAGGAGAGGCCCAGACCTCCAGCTGGGGGATTAACATG
TTCTCCAGAAATGGCTAGTTACTCCCAAACTTGCTTCTTTCCTCCAAGTCTTCACTGAGAGCCTGAATCCATTCATATCTGCCTCACAAGGAGTGTGGTC
CCCTGAGTGTGTGAAAGCTGTCGTCATCCTCTAAGTTTCCATGGAGTTTCCTGGGCTCCAGCTGGCTGTGGATACCAGGGCTTGAATGTGYTGGGTGCCT
GGAGCCGCATGTCTGAAGGGCTCTGCTCTCCTCCCTTGCTGCTCCAAAAGTCACGGAAGTCAAAAGGGAGAAATCATTCCCCAGCCATGCTGCATCCTGA
AAGGCACATAGCACAAGTTGTAGGGGCCATACATTTTGAGGTCAGATTGTCCAGGTTTGGAACTAAGGAAGCGATCGGCCCTATTGGGCAGGATACTCAG
ACATTCCATCTGTAAATAGAGATGATGATAATACTCACCTCAGGGAATTGTTTGTTATTTTATTTACAAAATGATTATCGGGGTCATGTGTCAGGCGCTA
TCCCAGGCACTGCTCTTGGTCCTCCAGTATGGGGAGGCAGACTGAGAAATGTGAATTGGAAGAGTGTGGAAAGTGCAGCGAAAGAGAGGTGCAGGGCATT
CTAAGTTTCCAGGGCTGGGAGGTTGACCTCATCACAAGTCTGGCGAAGACATTTTGCTTTAGGAAGTGATGGCTGACACGAGATAACAAGAAGAGTGTCC
TACACATGCACCCAGCACGTGCAAAGGCCCTGTGGAGGCCTGGCTGGGGAGTGTCCTGAGGGATCGGAGGAGACCAGCGGAGTTAGAGCTCAGGGAGTTG
GGGTGAGGCATTGAATGGAGAGGAGGCCGGGAGCCCAGCAGGGGAAGCCTTCCAGGCAGAGGTAAGACTGTTGGTCCTAAGACTGGTAGGAAGCCACCCG
TGAGTTCTAAGCTGGTGAATGACAGATCTGTGTTCTTAAAGTTGCTACTCTGGCTACAGAGTGGAAACTGGGATGGCGGAGGCATGAGGGTGAGTTTATG
GAAGCCAGTTAAGAGGCTCCTGCTATAGCTTATGCAAAAGATGATTTAGCTTTCACTAGGGGGGCAGTGGAGGTGGTACAAAGTGCAGGTTCAGGAGACG
GTAAGCCATAGAATTGACAGTTATGGTGATGGATTGGATGGTGGCGACAGGGAGAGGAGGGGTCAGGAGTGAAGTATTCCATGAACCGTCACATTGCCTG
CATAAACATGCATTACAGGTAAACGATTATGGTAATAATTTACAAAGAAGCATGCCCTTTGCTCTGCTCATTTCACAAGGCAGCTCTGGTTAAATGACTT
TTTATTTTGGACTGGCCTCATTCCCTAAGACCAAAGGCAGCTGAGCCTGTGTGCCCCGGGGGCCTGCCCTCTGACCCTGGTGTAGCCTTGCATCAAGCGT
GAGCTCCTCTCTCGCCTCTCTGCTGTGTGGTGTGAGGAAGGTAGTGCAAGGAATGTTCTAGCAAGTTTCTCATCCTCATGCAGAACATCCCTGGTGGGTG
CCCACCCCACAACAAGGCTTGCCAGCCTTGAGTCTCTGTTAATCTCTGTGTCCCTCCCCTGTACCCCCACTCTGTCACGCAGGCTGGGTCCCACGGAAGA
GGCACTGCCTGGCTCCGGCTGGCTTTTCCCAGATCAAGCCCACACCTCCTTGCCTCAGGCTGTCCTGGTGTCTGGCTTTGCTTCTCCCTCTCTCATTGGC
ACCCTTGCTGTTCTTAGGTTTGTCCCTTTCTCATTGGCACCCTTGCCGTTCTTAGGTTTGGGGCAGGCCCGTGTCTTGTCAGCAGCAACCCTGGCTCCTC
TCAACCAGGAGCTGGAGTCCCCATTGGGCAGAAGAAGCTTCGGCCGACTTTGCCGCTCCTTTGCCGCCGGGACAGCCCTGCAGGCTCTTCTCTGGGAGGG
TCCCCATGGTGCCCTCCCACACAGCCTGGCCTGGTCTCAGGGCTGAAGCTGAGGACCTGGGTGTGCCTCAGTTGGCTGAASGTCATTGTATGACTCACAC
CTGGACCTTTTGCCCAGCCCTCGGCTGTAAGAAGAACCAGCAGAGCCAGTCACAGGAAGGCCTGGCCCTCACCTTCCTGGGTTCAGCCACCACCAACACA
TTAGTCTTGGTCTTTTGTTTTGTTTTGTTTTAATTTAATCACTTAATTTTTTAAAAGCATTTTAGATTTACAGAAAAATTGAGCCAAAAACACAGAGAAT
TCTCATCTACCCCTTTCTTTCTCCTCCCTCCAGTCCGGTTGTCCTTTTTCTTAACATCTTGCATTAGTGTTGTATCTTGGTTACAATTGCTGAGACAATC
TTGCTACATTATTATTAGCTAAAGCTCATCATTTCCATTCAGACTCACTCTTTGTGTTGTACATCCTGTGGGTTCTGGGGTTGTGTGTCATTTTCCTCTA
ATTGGGTTTTGGCAAATGTGTGATGATATAGATGCACCCTTATAAGATCACACAGGTTTTCTGGCCTGAAAATTGCCCTGTGCTCTGCCTTAGTCATCTC
TCTTTCCTCATTGGCCCCTGGCAATCCCTGATGGTTTTACTATCTCCATATTTTAGTCTTTTCCAGAACGTCCTGTAGTTGGAATCATGCGTATGGCAAC
TTTCCATTTTGGCTTCATTCACTTATGGATCTGCATTTAAGGTCCTTCGTGTCTTTTCATGCTTGATGGCCCATATCAGCAATGGTCTTTTATACTCCAA
GTGCAGTGTGTCTGCTCACCGGCTGGAGGCCTTGCGATGGGATTCACAATTTCCTCTCAGTGTCTTCCAAGCGGCTTTTCCGTATCATCTTCTCAGGCTT
CTGTGCACCTGCCCGTACTGGACATATTTGGCCATTGCTGATCTAGGAGCCTTCCCGAGGCAGGAGGTGAAACGGTCTGGATTTCGTGTTCTGTGTTAGG
AAATCTAACACTGCAGCAACCCCGAATGCCTCAGTCATGAGCAGTTGATAGTGCAGGGGAACCGTCTTCTCTCCAAGAATTGGCTAGAACGGGCTTCTGC
CCACTGCTTTTATTCCATCATCGGGTAATTTGAGTGTTTCCAGTCTAAGAGAATTCTGCTTGGCCCTAAGCCTTTCCACTGCAAATCTGGATGTGGACCA
TCTTCTATCAGAGACAGCTCAGGCTCAATCCCTAAATTAATGGCAAGCAAGACGTAGACAGGTGTGACTTCTTAGAGACAGGCTGGACTGCTGCTGCTCT
GTCCTTGGGTGGCGCCAGCCCTTCCTTTATTCTTTCCCAGTCTTCTTATCCATTGCCTGTAGCCCAGGACCAGTGCCAAGCCTGTAGCTTCCGCATGGTG
TTCCTCTCCCTTCCGGGGATCTTCATGTAGGTGCTGCACGGRGAAAGAAGGGCCCTGAGAAGAGAGGCTGCTGTCGGCACAGGAGCCGTGAGGGTGGCGG
CCGYCTGGCCACTGTGTCCAGTGCTTTCAAGGTGTTCTCAGTGTCCTCGTTTATGCCACGGCTTAGAAGATTGTCCTTGCCATCTTTAGCAACTGTCTCA
GCCGTCACTTATTTTCACTCGTCTTACGAGGACCAACCTGCCGACTTTCTCGTCACKGGGGCATTGTTAACAACCAGCTGTGCGTGTTTAGTGTKCATAA
GCAGAGCAAAGTGTGATTGTCTCCAGGAAGCTCTGCATCTGGGTTTTTTTGCTGACATTTTCTTTTCTTTTTTTCTCTTTGAAYGCTGTGGTTTTGAACA
AATYGGTAATGTGATAAGTCTTCACTTAACGATTTTCAGGCATCAGGAGTACACGATTCCCTGGAAGAGACATTTACATGGAATATTTATTTATTTGAAG
AGGAATCGGATGTGCCCAGTCAACTTAGCACCCACTGAGGTCCTGTCACCATTTGTTGAGTTTGCACAACGTGCGTGGGCATGATTGTGCCCGATTTCTA
TCCAGCCCCGAGAATTAGCTAGCAGTCCCCATTTYACAGGTGTGGGAACTAAGGGTTAGGGGATGCGTTACCCTGCCCCAGCTCTCACGGGTTGTCAGAG
GCAGAGATGAAACTGAAACCTGGGTCTGCTTCTCTCCAAACTCCATGCTCTGGGCACAACACCACTTGGCCCCTACCCAAGGGACCGACTCTGTGCTGAG
AAGCAGGGCAGCCTGGGGCATACACGGGAAGTCGGAGGCTTCAGTCGCTTTCTTCCCATGCTGTGCTCTGTTCACCAGACTCCCTAGGGTCCTCCCATTG
CAGGAGGAAGTGGCCTCTTGAGCCCTTTGAGATCAAGGCTGGGCATAGAACACAACCTCTGCTCCAACTCAGAGTCTTTTTTTTTTTTTTTTGTTAAACT
GTGTCTGGAGCACTTTGATAATCTCTCCAGAGATAGTCATTTTTGCTAAAATGAATTGCTAAATGTAGGGGAGAGATTTGGGGGCACGAACTAAGCCTGC
CCTGGGTGCCAGTGATACTGGCAACTTCCCTGGTGGGTGGGAAAGAGAAACCTGCCTGGTGGGTGGGTTCMGGACCTAGAAAAGACCTCCTCAGCCTAGT
TCCTTGTTGCTTTGCCRCCGCCCCCAGGCAGTTCAGCCTGGGCTTAGTCAGTGTCTAGCAGCCTCACTGAACTTCTGGGACCAACAGCCCCTGGGTACTT
CTCTTACCACCTGGTCTGCATCGTCAGTGGCTCACACACCCATCACACTGGCCTGCTGCTGCTGTTGCATAGGTGTGAGCTTGGTACTTGTGATCTTGCA
AAGTGCTAAATGGCTCACCCAACTACAGTACCTGATGGAGCTCTTGAGATACCAGTTTGCTCTCTGAGGTTTGGATCAGCAGTGACCCAGATAAGAGTTC
GTTTGTAAGAACAAAATATATATATCATGCTTGGGAGGCTGAGGTGGGCGGATCACTTGATGTCAGGAGTTTGAGACAAGTCTGGCCAACATGGTGATAC
CCCGTCTCTACTGAAAATACAAAAATTAGCTGGGTGTGGTGGCAGGCACCTGTAATCTCAGCTACTTGGGAGGCTGAGCAGGAGAATCCCTTGAACTTGG
GAGGTGGAGATTGCAGTGAGCCGAGATAGCRCCACTACACTCCATCCTGGGCGACAGAATGAGCCTCCGTCTCAAAAAAAAAAAAAAATAATGGAAATAA
AAAAGAAAAAGAAATATATATATCATGCTACTCCCTAGTTAAAGCCAGTGTCATCTCTTCCCAGCTTATTTCTGTGGCCTCTTAACTGGTCTTTTCGCGT
ATGCCCTCCTTTCTAACAGGTAAACCATAACCCATCATGCCTCTGAAAGAATGAGAACCCATCAATGGCTTTTCTCTTGCTCACGGTACAAGTCAGAGGC
TTTACAGGGGCCTCTGAGTCTCCACATGCTCTGTCCCTTCCCCCACCATGGCCCCAACTCTGATACAGTGACCCCGGGCTCCTGGCAGCTTCTTAGACAC
AGCCTGGCATTACGTGTTTTCCCTTGATGCTGTGTCTTTAATCAGATACCTTTCTCGCTGAGCCTTACCCTGTCACTGCCTGACTTAAAATTCCAGCCCC
CATACTCCCTGTCTCCCCTGCCTAATTTTTCTGCAAAATATTTATCAAYCTTTGCCACTGTACGTATTGTACTTATTTGTTTATTGTCTGTCTTCCCCCA
TTAGAGTTTAATCCCCACGAGAGCAAATATTTTTGTCAATTGTTTATTCCTTAACCCTGGCATCTAGGACAGTGCCTGGCAGGTAGTAGGTGCTCAGTAA
ATCGGTGCTGCAGGGGTTTGCCTGGTGTTCTGAGATCCTGATGTAGATGTGCCTAGTTCTAGAATAATCTGACGTAACCCGTGATGTGCATCTTCATGTG
TGAGCACTGGTATTTGTTTTACAGTGTTGATTTGTGAGACAATGCCACTCCTGTTCACTTGTGTTGGAATGTGTCTTCATGAGCAGGAGGAAAGGGAGGC
GTTCTACACGGGGCATGAGGATGGTCCCTGCCGGGAGCTCTCCTCTCTGCCGCAGCTGTCATTTGCATCTGCGTCAGTGCCCCAGAAGTGAACCTTCGTA
GGATATAGGTAGGTCAGGACCTGCTCTCCTGGGTGACAAGAAAGGCGATTCCTGTAAATATTATGTAAAACATTCCTTCACTTCACCATGGAGTCAATGG
AGTCAGGTTCAGTCAGGCTATTTTGATGTTTTTTTTTGTTTGTTTCTGTTTTTGTTTTTTTTTTGCGACAGAGTCTCGCTCTGTTGTCCGGGCTAGAGTG
CAATGGCATGATCTCGGCTCATTGAAACCTCTGCCTCCCGAGTTCCTGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACATGCCAC
TATCCTCGTCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCAACACGTTGGTCAGGCTGTTCTTGAGCTCCAGACCTCATGATCTGCCTGCCTCGATC
TCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCGGCCTATTTTGATGTTTTTAAAAAGGGCTTTGGGAGGACTTTGCTCTCTGGCTCTAAGCA
AGCTTTAGCCATTGGTTTAACTTTAAAAACAAATGTGTATTAGGGAAATACTGGTAATATAGGATCCCACTGGAAAGGCATATGCTTGTTTACCCATGCT
ACTTCTGTCTAAGGCCCAAGGTGAGGCCATCCTACCCCAGCCACTCTAAATGGCCTGGCCACCTGTGCAGATGGGTGCCCGGTGGGGCTGGGCCCTCGAT
TCGCATCAGGCAAGCTCATCTCCATGCCTTGCGTGCTCCCCAGCTTGTCAAGCCTCCATCTGTTTCGTTCTTCACTCCRGCATCCCATGTACCTTCCTCA
ATCTGGATTTGGGGACATGCCCTCTGGCCTTCATGAGCCACAACTGTAGAGGATATAAGAAAATCAAAGTTTATTTCTCTATTTTTCTGGAGCACTCCTT
CCCAAAACAGGATAAATACATGAAGATGTAAGACCTAATATGTCTTAAAATGTCTATGGTTTTTTCTCTACTCTTGATAGATAGTCTGAGAATGTCTTAG
TTCATTTTCTGTTGCTGTGACAGAAGACTACAGACTGGGTAATGTATACAGAAAATAAATTTATTTCTTTTAGTTCTGGAGGAAGATAATCAATGTCAGC
AGGCTTCCCAATGGAAGCCAAGAGCAGGGATTCCAGAATCCCAAGAGGAACCAATTTCCAACCTCAAGGCCTGGGAAGTTCAAGGTCGAGGGGTCAYATC
TGGTTGGCTTCTGGTGACAGCGTTCATCCCGTGTAATAGCATGGCAGAAAACTGGAAGGGCAGGCAAKCGCTTGAAAAAAGAGATGGGGCAAAGGGGGCT
GATCCACTTTATAACAACCAGCGCCTCATGAGAACCAAYTCAGTCTCTAGAGAACAGTGTTAATGCACGCATGAGGGTGTGCCCCCATGACCTAATCACC
TCTGAARGTTCCCATTACCTCTCACTCAGTACTGTTGCCCTGGGGACCAAATTCACCCTGAGTTTCGGAGGGGTCAAACCACATCCAAACCATAGCAGGG
AGGATGTAGGCCTTGAGGGTGGAAATGGTTTCCTCTCGGGTTTCTGGAATATTTGCTGTTGGCTTCCATGCTCTGTTGCTATAGGGAAACCCACTGACAT
TAATTCTCTATCTTCCATGTGTGGCCTGGTTTTCTTCTGAAAGCTTCCAGGATCCTCCCTTTATCCCCAGTGTTCTGACATTATATAGTGATGTGTCATA
GGGTAGGTTGGGCCCCTTGTTAAGTGGGAACATTTTTTTTTGCAGATTCCAGGGCTGATTTAAATATTTAATGTTATATTATTTAAATACATACCACTTA
AAACTGGGTATAAATTCCTTATGCTATGGTTATAAAAATCACATCCAAATTGCAAATTAAACATAAAGTACCAGCTAATGAAACTCAAATGCACAACATC
CCTTTGCTGTGATGGCTGGCTTCACTCCTTTTGTCACTGGAATTAGGTACAGATTGCCGTCTCTCAGTGTCCTTTGAGTGATAGCGTTTGGCTTCACTTG
GCGTGAATGAGTCATTTATATATTAAATCTACCCTGTGGCTTTTTTCTCATTAGCCACAACAATTAACATAATTCTGCTTGATGCCAATGTGTAAACACA
GAGCAGCCCGGCACAGCGTGGTTATAGCACGGCTGTCCAGACTATTCTTAGACTGTGCTTGCTTACAGGAATTATTTTGGATTGTCATTACAATGAAAAC
ATGAGATGTAAATGTTTTCATAGACAGCTCACATAGTCCCAAGGATTCAGTTCTTTTTATACGCTTCCTATGCCAGTTTGCTCCCATAGGCCTATAGAAA
GATGAGCTATAAGAAATTGTGGCTATTGTTCAGATGAGTGTTTGAACAGGCCATAATAAGCTGACATTTGCCACTCCCCACCCCTGCCACCCCACGTTTC
TCCATCAGCTGCCACAATTTGCACAGGAGTTTAATCCCGTGTTACGTTGCCATCCCTATTTTGAAATGGAGACGGATGAGAGCTGTTAGCCACAGTCATT
TCCAGGAAGCTGCCAAGCTATGTCTCCTAGAGCTTGGAGACCATGATCCATCTTCAGGTGAGGTTTTAGCTTGAACATTCCTGCCTGCTCCCTTCACTGC
TGTGGGCAGGGGTGAACGTTTATATTTTTTAAAAGCTAATGTGACATCAGACAGGGCTGACAGTGTAAACTTTCTGGCTAGTTAGAAGTGTGTGTATATA
TCTGTGTGTTTATTTGTGTATGTGTGTATGTGTGCATGTGAGTGTATGAGTGGTGTGGAATGGGTGTATTCATGTGTGTGTATGTTTGTGTATGTGTTTG
TGTGTGTGGATGTGAGTGTATGAATGGTGTGGAGTGTGTGTATTCATCTGTGTGTATGTTTGTGTATATATTTGTGTGTGTGTATGCATGTGAGTGGTGT
GGAGTGTGTGTATTCATGTTTGTGTATTCATCCATGTGTGTATTCACATGGAGTGTATGTTTGTGTATGTATTTGTGTGTGTGTGTGTGCATGTGAGCGT
ATGAGTAGTGTGGAGTGTGTGTATTCGTGTGTGTATGTTTGTATATATATTTGTGTGTGCATGCATGTGAGTGAGTAGTGTGGAGTGTTTATATTCATGT
GTGTGTATGTTTGTGTATATATTTGTGTGTGTGTGTGTGTGGATGTGAGTGTATGAATGGTGTGGAGTGTATTCATCTGTGTGTATGTGTATATGTTTGT
GTATGTGTGTGTGCATGTGTGTGTATGAGTGGTGTGGATTGTGTGTATTCATGTGTGTGTATGTCTGTGTATATATTTGTGTATGTTTGTGTATATATTT
GTGTGTGTGTGTGTGTTGTCACTGCGGGCCAGCTGTGTTTCAGGACCCTGCTTTGCTTGCATTTCTGCATCCTGGTACCTGAGCCTGTTCTGAGCTTCAT
CCGTGGCATGCCCAGCGCCAGGTTCTGCAGCGCTTCCCAGTGCAGTGGCAATGCGGAGTCCCACTGCTGCTTGCAAGTTGGGGCAAGGGGGCTGGTGATG
GCCAAGCCTACACTGTGTGTTGGTTTGTGAGGTGTCTTCAGAGCCCCGGTGTGCTCCCGTCATTACTGTCCTTCTCCAAAACCTCTCAGCCTCAGAACCT
GGATCTTATCTTTACCTTTTCTTTCCCCCGATCCCTCATCCAGTTCATCTCCAAACTCCATCTGTTTATTCCTCCCTATTATCACTATTTTAAAATCTTA
TTTTTGCCAGGATCATCTTCAAGCCCTGTTGCTTCGCACCTGATACATGACATTCCCACAGCCTCCTGCCTCCTCCCTGTTATCCCGGGCTCCGCAGTGG
GGCCATCTCTTCCTTCTGTCATTCCCCTGTCTTGTTCTGGAGCCATGGAGCCTTCAGTGTGACAGTCTCTGCAGGACAAGGGGAACCGGCAGCCTATGGG
CCAATGGGTTTTGTTTATCCTACACAATATTTTAAGAAGTTGACGGACAGCTTTAAAAATTGGAATTTTTTTACATTAAAAAACTCTATTTTCAGTTATT
CCTGAAAACGTAGAAAATCCAGCAGCACTGAGCACATATTCCTAGAAGGTGACAGGAGGTGGGAATGGCGTGTTCCCTGCTGCTTTCCCTCAGGCCATGT
TTTCTCCAGTTTGCTGCACTCCTCACTCTACTGTATAGCCCCTCAGCCTGCTCCATTTCTGTCACCTGTCTGGCCCCCATCGACGTGCATATTTGCAGCC
CAGAGCTGACTGGCTTCCTGGCCAAGGACCTTTCTACACCCACATTTAGAATTCATCTTGTCTCTTTGCCTCCTGCTACCATTTTGCCTCTTGGGAGKGC
TCTCCCTTCCCTCTAAACCTGTTCAAATCCTGTCATTCCGCAAGGTCAGTTCACCTCCTCCCTCCTRTGTGCAACTTCCCTGCCTGCCCCTGGCGGAGTT
TTCTCTCTCCCTGAATCACTAAAGCGCTTCAGGTTTGTCTGTGGCTTTGGGGCCATTGCATGTCATTGTGTTTGTCAGAGCTGTGTTTAGACAGCCCGTC
CCCCAGTGCCAGGGCCTCACTGTGGCTGACACACAGTGCCTTGCACTCTGCGGACTCTGGGTTCTCAACAAATGTACGACAAGAAAGATGTGTAGAGGTG
ATCCAGGGCCTCGTGCTATGGGTACCAACAGGARGGCCTCTCACTAATGTGGGGCAGGGAGTAGCTGATAACTTTCCCCAGCAGCTGTGAAGACAGTTGT
TTCACTTTTTGTCACCAGAGCCACTGTTTAGGGACACACCTTTAATGTGGGAAAATGCCCAAACACAACTAAGCTCTGGGACGTCATGGTGGGCCATGGG
CATGTTCCCTCCTTTGTAAGTGATTTGATCTATCACTAAGGTCATTCAGTGATACTGCTCTAAGATCAGCATACAGAAGATAAAGTTAAATAGGACTTCA
ATCAAATTTAGAATATTTCCATACTTCTCATTAAGAATATTAAGTACCAATTTACAGGATTCTCTACTTGGTACTAGGTGCTGTCTTTGCTTCCCAGGAC
TCTCCCTCAAGAGCCTCTGGGTCTCTATGTTCTTCTCACCTGGGTTTTGTTTCAGCTTCACTGACATTCAGAACACCCGGGACGCATGCTGAGCTGGGAG
CGGGATGCCTTTCTCTTCCTATGCCTCTGATAAATCAGGGTGGGATTTCTGAGAAGCAGCATAGGTTGGTAAAAAGCGCAGATGCCTAATGGCTGTTAAC
GATGACTCAATCACTTGAGGTTTTTTCCCCAACCCTTGAGATCTGGGCTTTGTTTGCATCAGCTTTCTGGCTGGTAAAACCAAGCTCAGGGTTTCTCATC
ACATGCCCTTGGGTAGTAGGAGTGACCTTGAGATGCCTGGCATTTTTTTCTTTACTCCTGTCAAGCCCCTTTGAGAGGGGAAGGGGCTTTGCTTCCCAAC
TTCTGGGCCAGAGGGCGAGTGTACTCTGGGGTAGCACTGTCCAATAGAGCTTTCTGCTACAATGCAAGTGCTCTCCATCTGTGCTTTCCAGCACAGTAGC
CACTTGCCTCGTGTAGCTATTGAGCACTTGAGATGTGGTCATTGCGACTGAGGAACTGAGTTGTATTTCATTTTAATGTATTCAAATGTGCTTACCACAT
ATGCTTACCATATGGGACAGCCCAGATCTCAGGGGTTGGGGAAAATGGGTCAGTGCAATACCTAACAGAGAGCCGTGCACAGTCCTAAGGGGAAGATGCC
TAACTGAAGATGCCTACTGTGTAGGGCGAGGCTCTACACTGCTATGCAAGTCAAAGCCTGTTTGGCCTAACTTGGCTGGCGTCAAAACTATTTGAATTAT
ATTTGCAGAAAAACCCATTGCTGTGCTGTTCTGCGGAGGGCATTAGTTACTAATTGTTCTYTCATTTCCTTTAAAAATAGCAGACACCAAGCTCCCTTAG
CTGTGATTTAAGGAGCCACAGTGGTATAGCTGGCGAGTGCAGTCACGAACCGCATAACAGCATTTCAGTCAACAATGGACTGCATATATGACAGTGGTCC
CATAAGATTATAATACCCTGTTTTTAACGTACCGTTTCTATGTTTAGATGCGCAAATATTTCCCACTGTGTTACCGTTGCCTACATTATTCCGTATGGTA
ATATGCTGTCCGGGTTTACAGCCTAGGAGCAATATAGGCTGTGCTATACAGCCTGGGTGTGTGGTAGGCTACGCCATCTAGGTTTGTGTAAGTTCACTCT
GTGATGTTTGCCCAACGATGCTCCTAGCCATCGAAAGGTCATCCTTCAGCTTTATTATCATCAAAGCGTTTCAACTTCCTGTTTCTACATCATCTGCTTC
TATTAATAGCTACATGATTGTTAAGTACAAATATGAAAATTATGTCGAGGAGTACAAAATCTTTCTTCCATTAGGCAGAACCGCACAGATGAGATCTAAA
ACGTTCACATTGATAAATACTGCTTTTGAAGTGGATTTTTCCCCTTAAGAGCCAAGCAAAGGATCAAAACGGAAATTCTCCACAGAAACAAGAATAAATC
ACTAGAGAGGTTGTTTCTGGAATTTTCCTGCCCATTGAGGGCCTGTTCTTGGAGCTAATGTCAGCGAGGATAGTGTATCATATTCCTTGACTTCCTCAGT
ATACTGGGGTCCTCACTTTTGTGTTGTAACACACACACACACACACACACACACACACACACAAGAGGTTGAGTACTATTACTGAATAAATGCACTTTAG
TAGGAAGGAAACATTCAGAAAGTCAGCCTCTTCTGGGAAGCCAAGACAAACAGCTCTTGGAGCCAAGACACAGAGAGGCCACACCCAGGGAATGCCCGGG
TGTCCCCAGTGTCCCCATGTACACCTTTCTCTCTAGCTCCTGCAGATGCTTCTCAGCCATCCCTGTGGCTGGAAGGAGTTGGGCTGCCATGACTCCTGAT
GAAATGCAAAATTGCAGGACTCTCTTAAATGCTCTTTTATTTTGACATTTTAAAATGCTATTCTGAGAGGTATAGAGAAGACTTAGGTAACAGAAGAGAT
GAGAAATAGCCAAGATCTCCTTTGAAGTTCAGATTCCAAATCAGTGGGGTCTTTCACCAAATCCATCTGGCCCTTCTTCCCTCTTTTTGGGCTAGAGGTC
TTTGGTGGCAGGAATATTAAACTAGACCCACAYTGGCTGCAACAATGAAAGAGGTTGATTCACTCACTGATAGGCAGGCTTCAGAGGTGGTTTGACACAG
GGATGTGGTGACTTTATCTAGAACCCTGTTTTCTTATTCTCTTCAGCTCTGCCTAACGTGGAGTCAGCCTCATCCAAAACAGCCTTTCTTCAGGGTTGTA
TGGTAGCCACCGGTAATTTCCGGTGCCACACTTCCTCGGTTCAGAGGGAGTGAAGGGGACGTTCTTGTAAAAACAGCGCCTTTTCCCAGAGCCCCCTTAG
TTCTTAGTTGGACCACGTGTCTTCTCTTAAATCAGTAACTGGGGCTAAAGCCATACTGATGCCCCAAATCCCATGGTGGAATCAGGTTTTCCATAGACCC
AGAGCTGTGAAGGAAGATGTGGACCCCCAAATAAAGATTGGGGTAATCACCCAGCAAAGGGTGGCTGTCAGATAGGAAACTGYCATCTCCCGGCTCTATC
ATCTGCCAGTCTCCCCTTATATACTTACAGATGCAGCTTAATGCTAGAAAGTAGAAAATTCTCATTTTTTGAAAGATTACTTTTATGGCTTTGTGACTCT
TAATTCTCCTTTGCTCCCCCTCCTCCTTCTCTTCTTTTCCCCTACTCTCCTTTTCCTTCCTTCCTTCATTTCCCTTCTTCATCTGTCCCCATCCCTCCTT
CCCTTTTCCTGTCTTTTCCCTTCTTCTCCTCTTTACCCCTTCATCCTKTTTCCCCTTTTCTCTCTTTCCTTCCCTCCTCTCCCCCTAGCCTCTCCTTCCC
CCTGCTTATCTGTCAGCCCTTCTCAATTGATGATCTAGTTGTTTGTTCAACTTAACCTAACTGGTGGGGTACAGTCAGGTTTCTTACTAAATTAAATGCC
TTCATATCCTCCCACTGCCCCCCAGGAAGAAGAAATGCCAGAGGTAGAAATTGACATTGATGATCTTCTTGATGCAGACAGTGATGAAGAGAGAGCTTCA
AAATTACAGGTAAGCAGTTTCCAAAATTGAGAACCTTCTAATCATGGACACTTGAGAGTCTACTTGGGTCTTCAGTGCTTGGCATCAACTGATTCCGCCC
TGTGGTGGTGTTGGCACCAGGACCTGGGCCATTTGCAGAGAGGAAAGCAATGGGCTGCTAAGTGTTCACTCTCTTAAACTGCCTCTCTGAGGATAAAGCA
GCCCTTGACTATAGTCCATTTTCAAAGCGCCTTATGGGTATAACTTTCTCCAGCCCCATTTTCTTGGGAGAAACAGCTGATTCTGCTTCCAAAGATCCAC
TTGCCAGGGAAGGGAAGTGATGCCCCACAGTTGTATGAGAAAGAGAGGGACTGAGCTAGCACTGGAATATCCAAGACTAGAGCTCTGGTCTCACAGTTGT
GGACTGTATCATTCATGAAATTAATTTCTAAATATTGCTTATGACATAATTCTATTTAGTAGACGATCTGTTCATAGACAGTGCTCACCTCATAGCATTC
CAGTACAACGATGGATATTGAGATGTCTAGTATTTCCTTAGTGGACAGCAATAAAGTACAGTACTTATTTCCCTTCCCACAGGAGGTCAAATCTATCATT
TTTAAATCTGCTTTTGGGAGTTTCTAAAACCAATTAACTTKTGACTTGCCATTGTTCTTAATGTCCACTGATAATTACTGTTAATGACTGTTGGTGACCA
CAAATGGCAAATGGCCACTACGGCAATCAAAGGGCACATTTGAATGWATTAATGTGTTTAATGCATTAGTTATTACTAGCATCCCTTGAGTGGTGAACAG
TCTCAATTATGACAATTATTTCTTCTTGCTAGATTTAGCTGGGAGACAATAGCATCCTAGTTATAAAATTTTAAAAAGATAACGCAGGTATCAGTTCTAT
AGAAAATGTAATGACATAACAGAGTTTTCTTAAAATTGAGAACTTGAGAGGAGTTTTTAAGCTATCATCACCCCGCACCCCCCAGTTCCCAGGTGAGGAC
CCAAGCTGGTTTATGGCTGCATTGCACTTAAACCCCTTGCTTCCTGAGTGCAGTGTGGGTGCCACCATCTTGCACAGGCTGGCTCAACTTGAATATCCAC
CAAGTTGGCAGCCAAAGGAAAGGTGTGTGCATGCGCGTGTGCATACAGAGGAGGTAAAAAGTCATTGACCAGAGGAGTGGGTTTGAAACCATTTGGATCC
TGCCGGGTTATATCCAGTTAATTGAAGGAAAACCGGAAAGGGGGATTTRGTTCCTGTGGAAGGCCATCCTGGATTTGAGCTACTAAATTAGTCCACATCT
CTCTGAAGTCTGCAACCTAATGGATGCTTGAGCATCCCTGTCCTTTTTTAAAAGAAGCTTTTTTCCTCAGCAAGACATTCAAAACCTGGTCAAGGGGCTG
GGCRTGGTAGCTCACGCCTGTAATCCCAGTGCTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGGCTAACAGGGCAA
AAACCTGTCTCTACTAAAAATACAAAAACTAGCCGGGTGTGGTGGTGCACACCTGTAGTCCCAGCTATTCGGAAGGCTGAGGCAGGAGAATCACTTGAAC
TGGGAGGCAGAAGTTGCAATGAGCTGAGATCGCACCACTGCACTCTAGTCTGGGTGACAGAGCGAGATTCTGTCTCAAAACAAACAAACAAACAAACAAA
ACTGGTCAAGGGTTATATTTTGTTTTCAATGCTATGGTAGCAAAAAAAAAAAATAAATATTTTCCTGTTCAAAAAACTTCTATGTAGCACATGTGTATGC
AGGCTGAAGAATTTATGAAGGTTAAACGTTTTCTATCTTCAGACTACCAACTGGTGCTGAAATGAAGTGCGTTTCTAGATAGTATGAAATCTTGATTTAC
CATTATAAAATAATACTATGAATATAAAATGATTTTTAATTTTGCCTTAAAAATAATGCTGAATTTTAAAATAATAAAACTGATTTTCTGTGTGTTTAAT
TCTAGGAAGCTCTTGTAGACTGCTACAAACCAACAGAGGTAAGCAAATCACTTTTCCTAAATGCCATGTTTGAACTGGTTTTTATTAAATCAATTTGTCT
ATTTTTAAAGCAAACCACAATAAGTAGGTTTGAGTGTGTGTATACCAATTAGCAATTATTATCCATGAGTGCATATGTTTGAATAGCTCTAACTTCATTA
TTTCTAAGCCTAAACATGTCTAGTTCAGAGATACTTAAAATTAATGGAGCAGAGTGTGTTGCTTGTGTTAGATAAAAGCCAAACTTCAAAGGAAATTGTG
AAAGGGTTTGGAATCATTTTAGTAAAAGTTTTAGGTTTATAACTGGTTTATATATTCTATTGGTTTATTGGTATGTWTTTTTTTTTTTTTTTTTTGAGAC
GGAGTCTCGCTCTGTTGCGCAGGTTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCCTGAGTTCAACCAATTCTCCCGCCTCAGCCTC
CTGAGTAGCTGGGATTACAGACGTGCGTCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAA
CTCCTGACCTCAGGTATTCACCCRCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCGGCCTATCGGTATGTATTTTTTAAAAGC
GTAAAGGCAGKTCTGTCTTTCCAAAGAGTTACCTTTATTGGGAAAAAATGTTATGCTTTGTTTAGATATTTATCAAGTGTAATGTATAAACATTATCATA
AAAATGAGCATTAATGTGATTAGACTAAAGCATTTCATGTAGACTCTCATGACTGACAGCACATAGTAGAAATTAAGGTTTTAATCAGTTATGAAAATAT
TAGCAAGAGAAGTACTTTCTTCCTCTGATAAATTGGAGAAATTATAAGATCCGTCAGATGTTTTGAAGTCTGTTTGTAACATCAAAGCAATGGTGATAAG
ACTTCTGATTTTTGAAGAGGTCTAATTAAAAGGGGGGAGGAAAGCATGCTTTTACAAGTGTCTGATTTCAATGACTTGGTTTGGGACTAGTTACCTATTT
GAGCTTTATGCTTCCAACCTCCAGCTTTGATTACATCTTGCAGTCATAGAGATTTTTAATTTTAATTTTAGCCACCAAAATATATACTTTTAGACCAGGC
TTGGTGGCCCACACCTGTAATCCCAGGCCAATCACTTGAGTGCAGCAGTTCAAGACCAACCTGGTCAACATGGCGAGATCTCGTCTTTTAAGAAAAAAAA
ATTGGCCTGTCGCGGTGGCTCATGCCTGTGATCACAGCACTTTGGGGGGCCRAGACGGGTGGATCACGAGGTCAGGAGATCGAGGCCATCCTGGCTAACA
CGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCCGGTGCCTGTAGTCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATGG
CGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAGAAAAAAAAAGAAAA
AAGAAAACAATATTATATGTATATATTTAAATTAATGTAATACTAATACATCTGAACCCCCCCCCCCCAAAAAAAATTCTGAGGCTTATTTTAAAAAGGT
AACAGTGACTTTCTCCACCTTTCAGGCCCTTTTCCTATTTTATATTATATTTATGTATTGTATTTCTATATTTTCATAAGCAACACTTTTGCGCTTTTGG
CTGTTTCCCTTCCCTGCTATTTGCTCTTTTCTTTCTTTTTTTCTTTTAGAGACAGGGTCTCATTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCATA
ACTCCCTGCAGCCTCGAACTCCTGTATTCAAGCAACTCTCCCACCTCAGCCTCCTGAGTAACTAGTACTGCAGTCGTGCATTACCACACCCAGCTAAATT
ATTTTTATTTTTTTATAGAGACTGGGTCTCACTATGTTGCCCAGACTTGTCTTGAACTCCTGGCCTCAAGCTRTCCTCCTGCTTCAGCCTCTCAAAGTGC
TGGAATTACAGGCATGAGCCACTATGCCTGGCCTACTTATTCTTTTATTCTTAAATATGCATTTACTGTTTTTTTTTCATTTATTGACTTTAGGAGAAAG
ATGATCACTCTCTCTCTCTCCACACAATTCCTTTTCATCTATACCCTCATCAGTTATTTAACAGTATTTTGTTAAATTAGTAGTCAAGGTTTATAATACT
ATGATTTAAACAAATGTTTTTCACTGTTAAGCTAACAGTAAATATGATCATGGTTCCTTTTTGTATAGCCCTTTGTTTCTCTTGGAGTTGACAATCCTTG
CCTTTATTATTATTATTATTATTATTTTGAGACAGGGTCTCGCTCTGTCACCTAGGCTGGAGTGCAGTGGTACAATCTTGGCTCACCGCAACCTCTGCCC
CCCAGGTTCAAGTGATTCTTGTGCTTCAGCCTCCTGAGTAGCTGGGATTACTAAGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATG
TTGGCCAGGCTGGTCTCAAACTCCTGGCCCCAAGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGYCACTGTGCCCGGCCATA
ACGCTTGTCTTTGGTTTTGTCTAATACCAATTGGTATTTTTTGTTGAACTCTCCAGTGTGTTTGTCAAACATGTAACATATTTCCTGACTGTTCAATCAC
ATCATTACCATCCCTCTGCCCCCAGACTTTTCTCCTGGAGCCCCTATACAACAATCTGGAGAAGTTTTTCTTTGTGTTTATGTTTTAAATTATTCTACTC
TCTGCATTGTCTCTGTTTTCTCTGAATCTTACCTTTTTCTGCCTATTTTCATGTCTTTGCTGATTTTTGGTAGCATAGTCACATTTTAATATGGGGAGAC
AGTAAACTGATTTGCATTTGTGTGTATAAGAACGGCTTGTTTTTTTGTTGTTTTTGAACAGAGTCTTGCTCTGTCACCCCAGGCTGGGGTGCAGTGGCGC
CATGTAGGCTCGCTGAAAAACCTGCCTTCCGGGTTCAAGCGATGCTCRTGCCTCAGCCTCCTGAGTAGTTGGGATTATAGGCATGGGGCACCATGCCTGG
CTAATTTTTGTATTTTTAGTAGAGGCGGATTTTGCCATGTTGGCCAGGCTGGTCTGAAACTTCTGGTTTCAAGTGATCCACCCACCTTGGCCTTCCAAAG
TGCTGGGATTATAAGCAAGAGCCACCGCGCCCGGCCAAGACTGTTTGGCTATTGCTGGGTCTCACTATGGAGTGACCAAGTTGCAAGCCAGATTTTTCTT
CTGAATCTGTTATGTGTGGAAGGGGATGGCTCCTCAAAAATGTCAATGTTTGGTTCTTTTTCTCTGGAGATTCAGGATTTTTAGAGTTTGACCCTCAAAT
TCCCTATGTGAGGGTTGACGGTCTGACTTTAGGCTTTCTGGAAGCAGAGAGGAGAAGGCAGGAGACTTTACCATTTAGCTGTTTGGGGACTAAAGCTTCT
TTATTTATAGGTAGTTGGGGAATTAATATAGGAAAGCGATTTTAAATTGTGTGATGGGTTAGACAAGAAAAATAGAATTGTAGTCAAGAAAAATGATGAA
TGAYGTAGATGAATGAACATGTAATATGGGAGTGGAAGGGGTTGCTGCAGAGAGGAGGCCCCATTGGTCGCTGCAGACACGCATTCACTAATTTCATCAA
TCCCTTTTTCTTCAGTTCTCCACCTAAGTGAAGAAATTCATGCTTTGGTTATTTGGGTGAGAGAGTTTGGACTTGCAGATTTCTCTTTTGCCTGGCTTCG
CAGCCAACAGTGAAATGCAGTAAAAGCACTGCATTTTCTCATGGAAATGAGCCCGTTCTCTCCCTAGGTTTTATAATGTCTAGGGAACCAATATTTACAC
TAGTTAGGAGCCATGCTGTTCAATGAAAATGGTGGGTCTTGCCTCCAGAGCAAAAATATTTCTCATCTGGTTTCTATACGGAGGGTCAGGAGATGAAAGA
ATGTATTATTTGAACACTCTTCAGAGTTCCAAAAGCAGAAAAAGGAGCTGGAGTCTCTAACTGAACATCCCTGTGTTCTTTTTTTAGCTCCCATTTCTAG
GAATGGAGAAATGATGTAAAATGCTGAGGAATTTCATTCAAGTTCACTTATCTGTTAACGGGTCATTTCAAAAAGGCTGGACACTTTTGCCTTTGAGCAT
ATGATCACAGGAAACAGATTTTACTGGCATCTGGATTGTGATAATGACAATTAATAGCTTATATTTTTCCAGAGCTCTGTAGTTCACATTGCACTAACAT
ACATTACTTTATTTAATCCTCACAATTGTCACTTTAAGTAGACAGGGTTTGGGTAGCTTGCCCGTAATGTCAGAGCAGTGAGCAAGAGAGTCAGGACTCA
ACCCGAGTTTCTGACACCTGATCTTGTGCTCTTTCTTTCCAATCTGCCAGTCTTCCTAAGCTACTTGACTCAGCAAGAGGCTTAGAACTTTATAGGACTT
TGCCCTGTCTGAACTAAATGCCTATCAATTAATGGTGTTCTTTTCTAAGCAGGGATCTCTAGAGGTGCTGTTATTGATCAAAATTATTTTACTTAAAATT
GTTATGCCACTTGGAAGTTAGAAATGTGAGGAAGATGTCTTTGCTGATTCAGATACTTTTATTTTATAATCCCTCATTGCAGAAGTAGGGTGAGTGGTGG
AAAGAATACTGGAATTTGAGTCAAAAGTCTTATGCCAATGCTAGCACTAACTGTGTGACTTCAAGCAATGTTCTCAACCTCTCTGAGTCTCCCTTTCCTC
CTCTATAAAATGGAGGTAATAATAACCATGTCTCTGCATATTGGTAAGGATTATTTGCTGTGATAATTTTTAAAATTTATTTTATTTTAATTTTTTTTGA
GAAAGAGTCTCACTGTGTTGCCCAGGCTGCAGCGTGGTGGCACAATCTTAGCTCACTGCAGCCTCAATCTCCTGGGCTCAAGCGATCCTCCTGCCTCAGC
CCCCCGGGTAGCTGAGACAACAGGTGCACACCACCACACTCAGCTAATTTTTGTTATTTTTGTAGAGACAAAGTTTCTCCATGTTGCCCAGGCTAGTCTC
AAACTCCCGAGCTCCAGCAGTCCACCTGCCTGGGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCGCCAAGCCTGACCCACAATGATAATTTTAGTGG
TGGTAACGATAGCAATGATAATGGCTAAAAGATCACTAGGCACTTAGCAGATGCCGGGTGCTGATCTAGTCACATCTCATGTATTAACAGATTTAATCTT
TTTTTTCAGAAAAATCTTGACATTTGTTAAATTCTTCATAGCTTTTAAAAGATAATTTTAAGTAGACTTTATTATTTAGAGCAGTTTTAGGTTCACAGTG
AAATTGACTAGAAGGTACAGATTTCCAATATGCTCACTCCCATCCACCTCACACATGTACACAGCCTCCCCAATTRTCACCATCTCCTCACAGAGAGGTA
CATTTGTTAGAACTGGTGAACCTACATTAACACATCATTATCGCCCGAAGTCCACGGTTAACATTAGGATTYACTCTTGGTACTGTACATTATGGATTTG
ACTGATTTCATAATGACATGTATCCACCACTACAGCATCATACAGAGTAGTGTCACTGCCCTAACAATCCTCCGTGCTCTGCCTGTTCATCTCTCCTTCC
CCACTCACCCCTGGCAAYCACTGATCTCTTTATTGTCTCCATAGTTTTACCTTTCTCAGAATGTCATATCTTTGGAATTAACCGTATATAGCCTTTCTAT
TTTCAGAATAGCCATAGCATGAACATTTGAAGCCTTTTCAAACTGGCTTTTTTTTTTTTTTTTTTTTTTTTTKTGGTGGGGTCTTGCTTTGTCTCTCAGG
CTGGAATGCAGTGGCACGATCTCTGCTCACTGCAACCTCTGCCTTCCAGGTTCAAGTGATTCTCCTACCTCAGTCTCAGTAGCTGGGATTACAGGCGCGT
GCCACCACACCCGGCTAATTTTTGTGTTTTTACTAGAGACTGGGTTTCACCATGTTGGCAAGGCTGGTCTTGAGCTCCTGACCTCAGGTGATGTGCCCAC
CTCAGACTCCCAAAGTGCTGGGATTACAGGCATTAGCCACCATGCCCAGCCCAAAATGGCTTTTAAAAAATGTGATGTCAACATTTAGCAGCTACAGACT
GGCTTCTTTTCCTTAGTAATATGCAYTTAAGTTTGCTCCAGGTCTTTTCAYTGCTTGATAGCTCATTTCTTTTCAGTGCTGAATAATATTCTATTATCTG
GATGTACCAGAGTTTATCCATTCATTCACCTACTGAAATACTCTTGGTTGCTTCCAAGTTTTGGCAATTAATGAATAAAGCTGCTATAAACATTCCTGAG
CAGGTTTTTGTGTGAACATAAGTTCTCAAGTCTTTTGGGTAAATACCAAGGAGTAGGATTACTGTATTGTAAGAAAAGTGTGTTTAGGTTTTGTAAGAAT
CTGCTTACCTGTCTTCCAAAGCAGCTGTACCATTTTGCATTCTCACCAGCAAAGAGAGTTCTTGTTGCTCCACATCCTCACCAGCATTTAGTGTTGTCAT
TGTTCTGGATTTGGACCATTCTAATTGGTGTGTAGTGGTATCTCATTATTGTTTTAATTTGCATTTCTCTGGTGACGTATGATTTGGAGAAACTTTTCAT
ATGCTTATTTGTCATCTATATAACTATAGATGTTAACTATGTCTGTTAAGTTTTCTGGTCCATCTTTTAACTGGGTGTGTTTGTTTTTTTTTGTTGTTGA
ATTTTAAGGGTTCTTTGAATATTTTGGATAATAGGCCTTTATCAGACATGTTCTTTGCAATATTTTCTCCCAGTCTGTGGCTTCTCTTTTAATTCTCTTG
ACAGGGTGTTTCACAAAGCAGGAATTTTTGTTTTAGTGAAATCCACCTTATCAATGTTTTCTTTCACGGATCATGCCTTTTGTGTTGTATCTACAAATCA
CTGGAAAACACAAGATCATTTAGATTTTTCTCCTACATTACCTTTTGGGAGATTTATAGTTTTGCACTTTACATTAGGTCCATGTGCGATCCATTTGAGT
TAATTTTTGTGAAGAGTGTAAGGTCTGGGTCCAGGTTCATTTTTTGCACGTGGATTTCCAGTTGTCTCAGGATCATTTGTTGAAAAGCCTACCTTTGCTC
CTTTGAATGCCTTTGCTTTTTTGTCAAAGATCAGTTGATATTTATGTCAGTCTGTTTCTGGGTCTCTTTTCTATTCCAATTATCTACGTGTCCATTCTTT
CACCAATACCACACTGTCCTGATTATTGTGGCTTCAAGTATGTCTTGAGGTTGGTAGTGTGAGTCCTCCACCTTTATTTTTGTCCTGCAACATTGTGTTG
GCTGTTCTGGGTCTTTTGTCTTTCTATATAAACCTTAGAATCAGTTTATTGATTTTATCCACAGAACAGCTTCCTGGGATTTTTATTGGGATTTCATTGC
GTCTGTAGATCAAGTTGGGAAGAACTGACATACTGGCCATATTGTATCTTCCTATCTATGAACATAGAATACCTCTCCAATTATTTCTGTCGAGATATCC
TCAAGCTTAAAGATTCTTTCCTCAGCTGTGTGCAGTTTACTAATGAACCCATCAAAGGCATTATTTCTGTTATAGTATTTTTCATCTCTAGCATTTCTCT
TAGAATTTCCATCTCTCTACTTACATTCCCCATCTGTTCTTGCATGCTGTCTACTTTATCTATCGGAGCCCTTAGCGTATTAAACAGAGTTGTTTTAAAT
GCCTGGATGGATAATTCCAACATTCCTGCTGTATCTGAGTGGTTCTAATGCTTGCTCTGTCTCTTCAAATTTTTTTGCCTTTTACTGTGTGTTATAATTT
TTTTTTGATATCTGAATATGATGAATTAGGTAAAAGGAACTGCTGTAAATGGGCCTTAAGTAGTGTGGTAGTAAGGTGTGAGGAGAGGGGAAGCATCCAT
AGTCCTGTGATTAGTTCTCAGTCATATAGGGAGCCTGTGTCCTTGAACTGTGAACTTCACAAGTGCTTCTCGGTCGCCCCCATGCCCCTTTAGGTGGAAT
GGATAGCTAGAGCCAGCTGGAGTTTGGTATTTCCCTTCCCCCAGGTCACTCAGGCTCTACTAAAACCCTGTCAGGTTAGGCTCTGGTTAGTTTCTCCTCA
GGACAGATCTTGTTAAATAAACTTTTAGACTTTGGGGAAAAAAAAAGAAGAAGAAAAAGAAGAAGAACAGAATGCTCCGGTGTATTTCAAAATGGTTCCT
TTTTATCTCGTCCTGCTGGAAGTTCAGGGGAATTTTTCTCCAGTGTTCACTGTGAGGACCTGGGAGAATTCTTAGAGGTAAGACTCGTACAAAGGTATGC
TCCTACCTCTGCCCGTGACTGGATCCCCATGGAATTTTTATCTCTAAAACTTGTCCACTCTGAGACTAGCAATTTGTCAATTCCAGTTCAAGTTTTTCTA
CTCATCCTTTGGTTCCCACAAAGGTTGTTCCTTGTGAGTTTCTCTTCCAGGCAGTTGTGATTTTCTGTATTCACCTGTGAGTCCCTCTACTTCGGGGGCA
TTTGTTTGCTCAGTGACCTCACTTCCCTTGTGGATCTAAAAAGAGTTGTGGATTTTTGAGTTTGTTCAGCTTTTTACTTTTGTTAGGATGGGATGGCAAT
TTCCAAACTTCTTACATACCTGACTGGAAACAGGAAGTCTCATTTAATCTTCACAACAAAGCTAATAGATTGACACCATTGTTGTCAGTTAAGGAATTTG
AGGCATAGAAGTGTTCTGTAATTTGCCTAAATTCACACAGTTAATGAACGGAGAAGTCAGGTTATGTATTAAAGCACATGACATAAAGCTTCACACATAT
TAGGCCCTTAGTATGCTAGTTGAATCTTATTCTGTATAAAGTAATGCTTGCCTATCACATGTTAAATATGCAAGAAGTCCAAGTTTGCCAATAATGATAT
TCTTGGATTATTRCATTTAAAGAGTTGACTTTAAAGAATCTTCTAATTTCCCAGAAGTGATATTGTTTTTGGTGTGTCACCTTCTGTCATMTACTTTGGG
TCTACGGCTTCATCCTATATGGGCCACTGGCCAATAGGGAAAGGACTTGTGTGCCCCCATTTTGATTCATATTCATTYYCCCCCCCAAATCCATAGCTGA
CCTGACTGATTCATATTCAGTCTGCGGACTCTTGTCATGTAAATCTTCCTGACTGCTGGGAAACACAGCAGTATAATTGTGAGCACCTCACTAATGTATG
AGTGAGTGATTAGTAAGAATGGTGATTTCATTTTTTTCCTTAAGTAAATGCCATTTCTAATGYAGTGAATATTAAAATAGATCTGACTTACAGGTAGCAA
AAGGATGTTTCCATATAATGCAAGAGGCAAAAGTAATTTTATTTTGGATATTACTTGTATTTGCATGATCAGTAGTGTTAGCCTAGTGGACATGGTAAAA
ATCAGAGATGGGGGTCTGGAAGCCTGCTAGCCAGACTTAGGAGGAGCTKCTTCTCCTTTTTCTCACTATCTTTGCACAGTTTCCAATTTTGGGATTACAA
AATAGAACCTCCATTGTACTGGGAGGATGAACAGAAAATGCATTTAATGTGGGCTTGAGGGCATCTGCCTTACCGTCTGTTAGGGGAGTTGTCTAGTCAA
TGAGCTTTTTTAAAAAAATCTCTTTTTATAGCTGAAGATACCTATGCCATTGCTCTTTGATAAACATCAGGTTTTTCTTTCCATGCATTTATTTTTTTTT
TGAACTAGAGGTTTTGATAGAACCTATCATTGTATCAAATTATACAATGATATCAAAGCCTATACATTGATAGGCATCCATTCATCCAGGATAACTAAGT
CCGAGAGTAGGTGGCAAAAGGCATTTCTGGGTTCCAGTAATCTACCAGGTAATGGAAATGTCATGGACACACACTGGTACCAGAAAGCCATGTGTGATCT
GGTTTGTGAGTAGAAATCGAGCAGTGTTTTCTAAAAGGCAGGCCTGCTCTGCTGTTCTTCTCATATTGGCAGTAAGAAGGCAGAGTTTCCTTCTACCATG
ATTTCATGGTAACTGACTTTCAGACTAGCTTTGGTGATGGCCATTGTCAATCATTTATTTAGCATTTAAACTGATCTTTTAAAATCATTGTTCAGTTTAT
GGATACATGGAAGTACATTCCTTCTGCATTGAGCTGTTTACAGTGTAGAGAGAATATAAGTGGTATTTACAATACAGGAAAACCATGTGATGACTGAAAG
AGACACAGCTTGGTGTTTTACAATCTTTTCTTTATTCATTTGCTCAACAAATGTGTATCGAATATCTGTGTGCCTGTAACTAATCTAGGAACTGAGACCT
GGCAGGGAACTTCTACATCCATTTTTAAAGCAACCTCTTGGAAGGCCACAGTAAACTATGGTGGAAATTTAAATGTTCAAAGAACATTTAGGAATGAAAG
GACAGAAATGTCAGGCTGTGAGCTTATTCRATGGTTCTCTAAGTTAGAAACCAAATTGCTTGACAGAATGTGCTTTTTAGGGCATCTGCACTTGCTAGAG
GAAGCAGTCACATTATTCATTTCAATGGGTCTGAGTGTGTGTCCATAGGCAGGGAACTCCTTTCTTATGTCAGACCCTTTTCATCTGGCTGTCATGGGGT
TTCCTCGAAAAAGACGGCAATCTTGGGCTGGGATGAGGAACAGAGCTTGAATGCTAGATTGGTGAGTTGAAAAGACACCTTTAAAAAGTTGTCACGTTTA
GAACAATGTTTCTGAATAGAGAAGGAATTGAGAAGGACAGACCAGAATCAGATGAAAACTACATTTTAGTGGCTGTAGCCACTGGCTACAAAAGCCTTAT
AATGTTTTAGTGTCATTGGGCAGGCAAGTATTAAAGGATTGGGGTTTATTAGCCAGAAACATGTGTRGCTTTACTTAATAGCCCAAAGGATTTTGGTCCC
ATTATTACAATTGCTCACATACTTTCATTAGGATTCTATGCACCAGACCTCATCTGCCCCAGGTAAAAGAGCCGTACGTGCTGGAGCTGGAATAGGACCC
ACATTTGAGTCCAAATCCTATGCTCTGTCAACTCTTCACTGCCTTTTCCTGAATTTTTATGAATTGAGCACAAGCTCTACTTTAGAATATTTATAAAGCT
GATTAAGATTTATAAATTGAGGAAAATCAACCCAGAAATGTTAGGTAAGCTTGCTGAAGACATGCAGTCATGAAGCAAAACTCTGCATTTATTTCCTGGA
CTTCATTCAGCACTCTTTGTAAAGTTAGGGAACTGTCCAAAAGACTGCTGTCACTTCTGGCACCAATCACAAGTTCACACGTCCTCAAAACCAACTTCAG
CTTTGATAATTTGCAAGAAGAATTCAAATATTTTATACTCATGGTTCTGGTTTATTACAGGGAAAGGCTATAGTCAAGGGAAGAGACACAGGGGACAGAG
TCCAGGAAAGTGGCAAATGTGAAGCTTCCACTTGTCTCCTCCCTGTGGAATGGACAGCATTCTCTTAGCAGTGATGTGTGACAATATGCAGGAAGTATTG
GCAATCTGAGAAGCTAACCTGAGCCYGGGAGTCCAGAGTTTTTACTGGGGCTTAATCACATAGACATAGTTGACTACCCATGTGGCTGACCTTGTCTCCA
GCTGATACCACATGACTCAAAGCGTCTACTCTAAATCACATCGTTAGACTATCTATCTTGGCACCGTACCCCAAGTATACGAAGATGCTTTTTTTTCAGG
CAGATATTCTAAGGGCTTAGAGCTCACCTCTCAGGAGGTGAGGGCAGGTTAAATTTTTCACTATACACTCTTAGAAGCAGGATGACCATGAGATGGTGAT
GATAACAATAATAATAATAGTGATCAGAAGAAATTAGATGGCAGTRTAGGAAAAGCCACGTGGGCCTTGCTTTTGGGTGCCTTCTTTCTCTTGATAATTA
ATAATTGTTATTTTTATAAGAGACACGATAGAGGAGGCACAAGCTTTAAAGGGCAGTGGACCCGRTTAGCATTTTCAAATGATTGACTGTGATTTTATGG
CCTTTTCTTATTCATTAAACTGAGAATGGCCAACCCTGTATTAGAAACAGCTCTACACTCTCTTCCTATGCTTAGACTTATCTAGACAAAAGAAAGAATA
TAAAATAAAGACAATGTGACACATGACTTTAATTTCTATGTCTATAACAGAGATAGTTATAATCAAAAGTCCCCAAAAGCCCGGAAATGGGTTTCTTTTA
TTTAGGCAAAATTCAGTTATTTGTAGCAAATAATACACTCCCTCATTGACAATGAATGAGAATCTTGGTGAAGTTATTTATACTTTAGTTCCTCAGTGAT
TTTAAAGTCGGAGATTATAATTTTGCCAAATTTACTCTATTGATTATTTACTGTGACTGGATGATATATGTGAATTTTATTTTACATTGCCCAAATTGAA
AATGTAAAGATTCTGAGACACCAGTTAGTAAGTGAGGGGAGAATTAAATGCTGTAAGATTGAATCTAGGGGAGGGTTAATGAACTGTTCTGCTGCATACA
AATAGAGGTTGGGATTTGGGTAAAAAAATAAATTAGCCCAAGAACAATGGACTGAATCTATAAAATAGATTAATGGGACTTCGCTCACAGTGGAACAAAT
TACTATTTAAAGGCAGATAGTCTAGAAAATAAGTGGACAAACATCGTGTCAGTGGTTTTAAGTTAAAGGAGGGGGAAAAAACAGGATGTAGTTAAGACCT
TCAGGAATTTATGTTGACAGAAGTCATTTTAACAACAGCAGCCACAAACCCTTACCCATAACAGATCCATAAGCCTCCTTTCAGATAATGAAAAATAGGA
TCAGTTCTGGTGCGCCMTGCCAGCAAATGAACCTCTCGAAAGATAAAAACAACCCCTGCCCCCCAAAAAGAAGGGGGAAATTAAATGTGTCAGTGGTGAG
TGATGGTGGGCGAGAGGGCTTGCTGTGGAGCTGATTCATGCCTGTAACTTCCAGGAGCAAATCCCCGTGTCACACTGAGTTGGGGAACACCCCAAAGCTG
AGCTCATCAGTACTGATTCAACTGCCTGCCTGTTTGCCCTCATCCAGGAGTTTTCAGTGTGATTTTTAAATGCCTAGCTGGTTCTTTGGGYGAGGACATT
TTGCCATTTGGAACAATTTGCAGGTGTTATCCTCACCTTTTCCAAGAGGCACACACCACCTGCCCATTTTCCTCACTCATCTAAACTTTGGGCATCTGGA
AATTCTTCCCTTCCCACCACCCGCTTCACACTTTGCCTGCTTCCCACCCATCTGCTAATGTCAGGCTTTTTGGAAGAAGTGTCGGGTAGCTGCTTCACAG
GAAACTCACCATGGAGTTGACTCAATTTGCTGTAAGTTGGCAGCCAGCCCCCAGGCCCAGGGCAGATGGCTCCTGTGAATGTGCACCTTGAAGGAAGTAA
CTGATCAGGGGCACAAAGAGGAGGCAACACGTGGGGAGTTGCATGGCCCATGTGGATCCCAGCCTTTGGAATCCTCATCTGCTGTTTCTCTCCCGTCCCC
CCACCCTCTGCGTAGGGAATGGATGGGTCTTTTTTTGTTGTTGTTGTTGTTTGTTTGTCTGTTTTTGGAAAAGCTGGGTGAGCATCCGCAGTTCTTCTGG
GCACCCTTTATTAGAGCTTGCGTAATGTATACAATCACTGCCATTGGTGAGACTGTTTCCTGAGCAGGGATTTTAAGCATTTCTTCTTTTGTCAGGAAAT
ATTTCCAATCCAAGGGCCACTGCATAATATCCATTTATCTCGTTTAGCTTTTTAAATGGCTCAAAATGCTTAAAAGAAGGACATAAGTATAGGTAATGCA
CAGAACAGGGATTTGCAGTGATACTGTAGTTTCCCCTTTTCCTACTTGCCAACGGGCCCATCTTTTTAAAGCAGCACATTATCATCAATGAGAGGAACAG
ATGAATTACTTTGAATGACTAGGGAAGGCTACCAGATAGTTGGCTGTGGTGATAATTACAAAATGTGTGTCCATCTGCTGCTGCTGGTACTGGCTAGAGC
AGGTGGGGCGCTGAGGGTGGAATATGAAAGTCATGAGCCCCAAGACGGACTAGTGCAGGGCKCAGAGCTCAGAGTAGAGGGTGGCCACTGTGATACCACG
CCCCTGTGACAGAGCCATGTGGTAGAAACTCCAGGGGGAGAGAAAGGACCTTGTGTTTTCATGGCCGCTGCCGCATCCCCTCCGAAACGTGTTTGGACTT
CTTTCTTTCTTAGAAGTCTCTCAGCAGCATGTTGTATAAAGTCAGTTTTCCAAGCTCCCTGGAAATGTTGCTTGTCTTTCTATTGCCTCTTCGATGTCTC
CTCTGTATTAGTATGTGTGAGTATAAAGGAACATCCAAGGCCCACCCTTCCCCTAATGCTCTGTGTCTTCCGTCACACCCCAAGTCTGGCTAGCTTCCAG
TGCTCGAAGGGGCATGTCTGGAGCCTTCATAGTTCCTGGGCCGGTTGACACTTTGTCTAGTTTTTTCCTCACTCAGTTGACATTTAAAGATTTCAGTGTC
TCCTCTCTCTTTTTCTTCACTTTTATGCCAGAGTTACAGGAATTAATCAGTTCATTTGTACAATCCTTTACTCTGCAAAACTTTGAGCAGCTCCTCTTAT
TTCTTATGCACTCACTATGCTAGGAAGACAAAGATGAGTAAGACTTTTGGAATCATGTGGGGGTGACAAGTATGCACATGGATTATTTTGTATGCATTGT
AACTGTGTGAAGAATATTTTGCAAATTTTCTTTCTCAGCTTGTGTATTTTGCCCAACATTAGGTGTCGGACACTTATCCTTGTTAATACAGAAAGCTGTC
GTTCATTCATTTTTATTACTGTATAGTATTTCTTTCTGTTCATACACTGTAATGTATTTATCCATTCTTCTGTTGATACTCAGGCTGTATTCAGTTTTTC
ATTATTATGAACAGTGGTGCAATAAAATAACTATTATTGGCCTGTTGCCTTCCTTGTGTACAAGACTTTCTCCAAGAATATATAAGAAATGGAGTTGCTT
TTAAATGTTTGCACCAGCATGCATGCCCACCAACAGGATATAAGAATTCCCTATTGAACTCATGATTTCTACACCTGGTATTGCTAAGTGTTAAAAATTT
TGCCAACTGATGCTATTTCATTGTTTCAACAAAATTTTTCCTGACTGCTAGTAAGGTTGAGACATTTTTTTTTTCCTACTTGCTTATTGGGTGTTCATGT
TTCCTTCTCTGGGAATTTCCATTTTGAAATCTTTGCCCACTTTTCTTTTGAGTTGTTGGTGTTTTTCTTGTTGATTTTTAAGAGTTATTTATATATTCTA
GATGACAATCCTTTGACCTTGATATAGGTTGCAAAGTTATTTTCCCAAACTGTGGAGCTTATTTTCACTTGTGTTATCTTTTGTGTACAGAAGTTTTAAA
TTTTAATTGAAGCCAAATTTATTAATGACATCTTTGGCTTGTGCTTTTTAAAAAAAGGCTTGTTTAAGAAATCTTTCRTGACTGTAAGGTCTTAAATACA
GTCTTCCTTGTATTTGGCTTTGAAAGCTTTCACTTTCACTTTTTACACCTAGGTATTCAAACCCTCTTGAATTTGTCTTTGTATATGGTGTAAGGTAGGG
ATCTAATTATGTTTTGGCCTATTGTCCCAGTCCCATTTATTGGGCAGTCAGTTCAGTGTACCCTCACTGCTCTGTAATCCACTTCTGTTGTATGTCAAGT
TTCCTTATAAGTAGGGACTACTTCTGGCTATTTGTCTACCCCTGCATTTTGTCTCAATTACTAGGGCTTTAGAATAAGTTCTTAATAAAGGTCCAATAAG
TCTACAATTCCTTATTCAAAGTGTCTTAACTATTCTYGAATATTTGTATTTGACTAGAATTGCATTAAATTTATAGGTTAATTTGGCSAGAGAAGAGATC
TCGATGATGATTTGTTCAGGRCACACAAAAATGGACACTGTAACTTCCTGAAGGGCAGGGACAGGTTGTAGGAACAGATGGGTAACAGTGAGTTAGTTCA
CTTTTGGTCATTTGAGACTGATCTGCCCATGGGACATCTCATGGAGATCTTTGGTAGCCCCAGAAAATGTGGGTCTGGATCTCAGGGTGAAACCAGAGCT
AAAGATGAGATCTGAGTCACTAGTGTGGCTGGTAAAAGAGAGTGCCCCAAGGGGCCTGGGAACAGAGCTTTGGAGGCCAGCATTTAATCAGCAGGTGGTG
GGTGGGAGTGCAAAAAGGGGAGTGAGGAGGGGCGGTTAGAGACCCAGGTGGAGAAAGTACAGCAAATCTTCACTTCACATCATTGGTAGGTTCCTGGAAA
CTGAGATTTTAAATGAAACTACATATAAACAAAACCAATTTGACCATAGGCTAATTGATATACACGAGAGTTAAGTTCCTACGGCATATTTCTGGTCTCA
AAAACATTTCCAAACTTCTAAATAAAGACCCCCAAACACTTCTAATATTAAACATTGAAATAAATGTGAGCTATATAGACATTTAAGAAAGACTAATAAA
ATCAAATTTGATAATTAGTCACCCCGTTTGTGGTGAATCTGTGAGTGATAGTGATCATAGTGGCAGTGGGTTAAATCCAGGAACAAATGTGTGCAAAGTG
AAAATTGTAAGGAGCGCCCCCCTCCCATCACATGGTTCCAAAATAATCAGTAACCAGTGTGGGAGACTGGCCAGGCACTTTCGGACTGCATTGTTGATTG
CCATGCCTTTGAGTGATCATCATATTCTTTATGATTTTTGTTTTATAATAATTTGTATTCATTTATTTTCCACCCCTCTTTTTCCAGTTCAGTGTGGCTA
GTGGCTGGAGCTCATCCTGACAGCTCAGAGCACGCACCAGGCAGGAACCAGCCCTGCAAAGGAAGGCACCCCATTGCAGGGCATGCTCACACCTGCACCC
ACATTCACTCACACTGGAACGTTGTAGCTATGGCAGTTCACGTAACACACACAGCTTTGGGATGTGGGAGGAAGCCAGAGGACTGGTAAAACACTCAGGC
AGACATGGGGAGAGTGTGCGAATTCCCACGCAGACAGTGGCTCTGTGGGGGAGTCTATTTTTTTTCCCCAACCTTATGTCAAAACAATGTGGAACAAACC
AATGTTCTTGGAGGCCCTGCTGCAGAGGGAAGTAGGCAAGCTCCTTGAAAAACTCCCCCCAAAATTGTACTGCTATACACTCACTAGAATGACTAATATG
AAAAATACTGACAACACCAAGTGTTGGGAAAGATGTGGAAGAACTGAAATTCTCGTACCCCACTGGTGGGAGTGTAAAATGGTACAATCACTTTAGAAAA
CTGTGGGGAGGGGGGCGGTTTAGAAAAAGTTGAGCATACACATTCCACAACTCAGCCATTGCATTACTGAATATGGGCTCAAAAGAAACAAACAACAAAA
AAAAGACCATAAAATTACTTGTGCAATTTATTCGTAACAACTTTATTTGCAATGACGAGAACCCCAAACATTTATCAGCAGATGAATGGATAAACAAATA
GCAGTCTAGCTATACAGTAGAGTACTACTCAGCAATATAAAGGATCAAGCCAGCTGGGCATGGTGGCTCATGCTGTAATCCCAGCACTTTGAGAGGCCAA
GGCAGGCAGATCACTTTAGGTCGGGAGTTTGAGACCAACCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGG
TGCACACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAAATTGCGCCACTGAACT
CCAACCTGGGCGACAAAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAATCAAACTGCGGACGCACACAATAGTATCTAATATTG
GTGAATCTCAGAAATATTGAGTGAAAGAAGCCAAGTAAAAAAGAATACATAAGAGGAATGATTTCATTTACATAAAATGCAAACTAATTTATAGTGACAG
ATTAACTGGGTTTGGGACCAGATGAGCTCTAAATGGGAATAAGACATCTTTGGTGGTGATGGAAATGTTTTTTCTTTGTTGTGTTTTAATAGGCAGGATC
TCATTTTGTTGTCCATGCTGGAGTGCAGGAGCACGATCATAGCTCACTGCAGCCTCGAAATCCTTGGGCTCAAATGATCCTCCTGCCTCAGTCTCCTGAG
TAGCTAGGACTATAGGTGCGCACCACCACACCCAGCCAATGTTTTAAATTTTTTGTAGAGATGGGATCTCGCTTTATTACCTGGGCTGGTCTCGAATTCC
TGGCCTCAAGTGATCCTTCTGCCTCAGCCTCCCAAAATGCTGGGATTGCAGGTGTGAGGCACTGCACCCAGCTGACGGAAATGTGCTGCATCTTGATAGT
CATGGTGGTTTCCTGGGTGTAACCAATTGTCACCACTGATCAGTGATACACTTGAAATAGATGCAGTTTATTGTTCTTAACTTATTCCTCAATGAAGTTG
ATAACTTAAAGAGAAAAGGAAAAATAGGGGTCCTTAGCAGTGTCAAGGGACCTGGCTGGGGGCACTGGACGTGCCAATGAGGAGAGTCTTGATGATTCTG
AGGGCTGCCTGGGTAGAATTTCAGTGGGCAGAAAAGTCAGCATTCCACGCACTCTATTCTTCCTTTCCTCCTTCCCCTCCTCTTTCTTCTTTTTTTCCCT
GCTTTGCCTCCTTCTTAAATTCTTCTTTTCTAATTTATAAGACAGCTAGAATAGGAGGGAGATACTGAGGGCTCTGGAGATTTTTATTGTCCCCTTGGGA
AGAGGCTACGGGCAGAACTGGAGGAAAAGGTTCGTCGTACTCAGGGGAGAATTTCCAGTCTAGCTGTGGACACTGACCTTTGCATGTCTTTCGTCCCTCC
TCCCATACTGGAAAATGAAAGGATTGTTGTGTTTATCATAACACATTTTTGGTCATTTTAGTTTAGTTTGTAATTAGACTATAATTACCTAACCCGGTTG
CTTAATAATAAAGACTTCTCACCCCAGGCAGCATGGTGCAAAGGGAATTGTGCCCTCCACCCCAGGGYGGTGATCATCCCAGGTCCCTTTGGCCTTTATA
TTAACCTACGGTTTGAATCTTGGTCTGACCATTGAGCTGCTGTGTGACCTCAGACAAACCGCTAAACCCTTGTGAGCCTGGTTTATAATACTTGTAATGA
TCAAATGAGACAGTATGTGAAAATAAACAGAGTGGCTGTCACATGAAAGGTGCCCAGTAAGTATGTGCTGTATCTGAGTCCCTGACAGATACTCAGTACC
CGCGAGAGCACGGTACTGTGCCAAGCAAACTAGAAATGCACACACATAGGAAAGAATAGTCTCGGGTGAGTGRATGCATTAAAAAGGTCCATGCGGTGCA
TTCTCAGATCCCAAAATAGTGCCCAGGACTGAGATGAGAGGTAGGGGCCCAGGAGTTTACTGAAGACAGGACCTTTTCATTGTTTTCYGTGAGAGGGTAA
AACTTCACCTGCAGTGTGACAGCGGCCACATCCAAAGACTCAGAGGAGCCAGCATGAGGAGGAGGAGCTGAAAGCGGAGGGARGTGGTTGGTGCCACTGT
GTGTGTGTGTGTGTGTGTGTGTKTGTGTGTGTGTGTGYGYGTGTGTGTGTTTAGCCAGGAGGGAGCTGTTGGGAAATGCCASCTAAGGAATGTTTTCAAG
TGCAATTCTAGCACTTCATGATGTGAAGAATAAATACGATCTCCTTTGTAGTCCCTTGAGACGGGAGGTCGCACAGTCTGGGTGGCTCTGGAGTGGCTGA
TTTTGGTCCTGGGCTGTTGCTCAGGCTGTGGGGAGGAGCGGTCCCAGGCAGGAATCTGAGGAAGGAGCTACAGGGACTGTGGCCCTTGGCCAGGCAGGAC
GGAGAGCCTGCTGTGGATTTTCTCAGCGGTTAGAGTCTCTGTTGTCTAAGCTGGGAAAACTGACCATCACTGAGGGAGAAACACTGGTGGAACACTGACA
GCTTCCTCAGAAGAAACACATGTGTGCTGCGCCCAGCCTGACATCCATGCCCCAGCCTGAGCACCCATGGTCTCACTTGGTGTCACACAACATACTTCTC
CTCTGTCTTCAATGTCAAACCTTTCCCATGGCGAAAATGGGCGGGGGTGGGGCAGGGGGGATATAAGCTACATTTTTCTTAGTGTGGTCAGAGTAGCATA
TTCTTTTTTTTTGTTGTTTGAAACGGAGTGTTGCTCTGTTACCCAGGCTGGAGTGCAATGGTGTGATCTCAGCTCACTGCAACCTCCACCTCCTGGGTTC
AAGTGATTCTCCTGCTTCAGCCTCYGGAGTAGCTGGGATTACAGGCATGTGCCACCATGCCCTGCTAATTTTGTGTTTTTAGTAGAGACAGGGTTTCACC
ATATTGGTCACGATGGTCTCGAACTCCCAACCTCAGGTGATCTGCTTGCCTCGGCCTCCCACAGTGCTRGGATTACAGGCGTGAGCCACCATGCCTGGCC
CAGAGTAGCATATTCTTGATTTGAATTTGTAGACTGGAAAGTTCAGTGTAGTCTGATGATGATGATGATAAYGATGATGACAGTATCAAGCACTTGTACA
GCACTTACTACTCTTTAAGCACTTTTCCAAACATGTAACATACAGTAATTCATCTCATCATTTAATCCTTACAGCATCCTTGAGGTGAGGTCTTATTGTC
ATTGCTCCTATTTATAGGTGAGGAAAACTGAGGCATGGAGAAAATGATTCATTTCTAAGTGGTGCAGAAGGATTTGAACCCAAGTCATCTGACTCTAGAG
TCCCTCTCGTAGGCATGTGGCTACACTGCTTCTTACCATGTGTGGTRTGTATTGGGTGACTCCTTTCTGGCAGGAACAAGCCCATTAGGTTTTTTTTAGG
CATCTGTTTCAAAGGGTTCTTCTATATTTGTAAGCCAAACCTTTTTCTTCTGTTTCTCTCCTTCTTGCATCATTATACGATCCATAGTCCTCAGGACACA
CGGCCCCAGCCTCATCACAAGCAGTACATGCGACAATTTGTCCACCTGCTGTTCTGTCCCTGCCCAGGGCTGAGCACAACAGCCCACAGAGAATGCTTCT
GCTGAGAGGTAGATTCTAAGGTGTGGACCCAGGATCTCTTAGGTAGTATTTTGAGACATATTTGGACAAAAGCTACTGAGGCAGTGTAGAAAATAGATAC
TGCTTGTCTTGAAAGCTAGGTCAAGGCAAATGTTTGTTTGTCTTTTAAAAATTATGGCAGTTAGCTGAAATTGTATTTCAACTGCTAGGAAACTAGAATG
GCCAGATCTTAGAAACTGGTGGAGAGGCAGTCAGTTAATAAAAATTTCCCCGGAAGGAGTGATGGGGGAAGGAGAGAGGAGAGGGTGGGAGGAAGGAAAG
GGAGGGAGCTGGCCCTTCCAGAGCAGTCATTTCCGGATTCTGTGGCCTTTCARTGAACACAGAGGTCTTTCGAGGCCTCTCAGAGCTCTGGCTGCCTTCT
CCAGTCTTTGGCTGTGGGAGGCAGCATGGGAGGAGCCTGAACTGGCCTGACAGGGGCTGTCCTTTGCCCGCAGGGCACCCGTTCACCCCCAGCTGCAGCT
CATGCCATATGTTGGCAGGGCCTGTGTTTCTGTGTCTTCTTTCCCAGCTGGCCTGGGAGCTCCTGGAAGGCAGGGCCTCTGCCACCTTCTGCTCTGCATC
TCAGCACTTGAGTAGAGTCTGGCATAGACTCYACTTAGATTAGAGCATGGGCTCAGTACATACTTATCAAATTCAGTTGGCATCAAGAAGCCTGGATTCA
AACATTTGCTTGGTGATCGTAGGCAGTGACTTGTAATGAACTAGAATATCAGTATTTTTGAACTGTAAAACCTCTACTACATTGGATTAAATACGGGACC
ATGTAAAGAGGCCACATAGAGGAGGCCTTCAATCAGGGTTTCCTTCTTTTTTTTTTGGCGGTCGAGCGTAAGCAGTGTCAGATCCCCATACAGAAACCAC
ATCCACCAGGGAGTTCCTCATTGATCCTCACCCATCCTATTAGCCAGGGACTGAAACTTCAAAAAAGAATGGATTCCCTTTTTAGAATATTGCAAAAGAT
CATGTCYGTTGTGGTTAAAGAATTGCCTTAAATAACATATCATTTTCACTTGAATATCCTGCAACAGGGGAACACTCGTGTTCATCCTTTCTTTCAGCAT
GTCCAATATACGTACAAGTTACATGGGAGGAGGCTGTATAAAGGTAGTGGTGAAACATCAGCTTGGAGGCAGCCTGGTTTTTAATAAGATGTACACAGAA
CTTTTATGAAGACAGACATATTCTGGGACAGAAAGCAATTTTCAAATTTAAAAAGATTCAAGCCATACAAAGTGTGTTCTTTGATTACAGTGGAATTACA
TTAGAAATAAGTAACAGAAAGATTATCTGGAAAATCTCCAAATCCTTAGAAACTAAATGACACATTTCTAACCCACAGTCCAAAGAAGAAATTAAAAGGG
AAATTAGAAGCTATTTTAAACTGAATGAAAATAAAAGCCCATCATATCAAAATGTGTGAGATGCCACTAAAGCAATGCTTAGTGCTGCTGGGGGTGGGGG
AACATATAGCAGTAAATGTCTGCATCAGGAAAGGTCTCAAAGCAATGGCCTGAGCTTCCACCTTAGGAACCAGGAAAAGAAGAGCAAATTAAACCCAAAG
CAAGGTGGAGAAAGGAAATAATAAAGATAAAAGCAGAAATCAGTGAAATAGAAAACAGAAAAACATGCTGGGCACAGTGTAATTACACGCCTGTAATCCC
AGCACTTTGGGAGGCCAAGGCGGGTGGATCACTTGGGGTCAGGAGTTTAAGACCAGCCTGGCCAACATGGTGAAACCCCRTCTCTACAAAAAATATAAAA
AATTAGCTGGGCGTGGTGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGGAGGAGAATCACTTGAACCTGGGAGGTGAAGGTTGCAGTGAGCC
GAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAGAAGATAAAAAAAAGAAAACCAATAAAGACAATCAGTGAAAC
AAAAGCCGATTATTTGAAAAGGTCAATACAATTGATAAACTTGTAGCCATAATGATAAATGGAAATAAGGAGAGAAGACACATTACTAACATTAGGAATG
AGAGAGGTGACATCACTACAGATTCTATAGATATTATGCACAAGCTTGTGCCAGTAAAKCCAACAACTTAGTTGAAATAGGCCTGATATTGTTACCAGTG
GAGAATGTCCAGGTTCTTCGCGTTTTGAACAAAGAATTGGACAAAACACACAAAGCAATGAAAGAATGAAGCAATGAAAGCACAGATTTGCTGAAACGAA
GGTACGCCCCACAGASTGGGAGTGGGCTGGAGCAAGTGGCTCAAGAGTGCTGGTTACAGAAACCTCTAGGGGTTTCCCATTGGTTACTTGGTTAGACCCT
ATGTWAATGAAGTAGTGGCCTGCAACCAGTCTGATTGGTTGCAGAAGGTGACCAATCAGAGGCTGAAGTGAATTTTCAAAGTTACACCCCTGTGCAGATG
AAGGCTAGGCCTGTGACCAGTCTGATTGTTTGCGGGAGAGGACCTATCAGAAGTACTTTCCATTTTTCATCTGCAATGCAGAAAGTGRGGAGGGTTGGAA
AGAGAACAGCCTCTGATCCTTTTGTTACCTGAGTGTGGAAAGTTAGGGTTTTCCTTTTGATTCACTTCTAGTCAGTCTGTGCAAACCAGCCTTAGTTTCC
CTGCCTCCAGACCCTATTCTCCTGCCTTAACATTGTAATATAATAAGAAATACATATTTGCTCTCTGCTCCAGGTCCTTGGCACAGAACTCCTAAAACTC
TTACAATTTCCTGAGCAATCAGTTGCTATGTACATCTTTTGTTATAATATTTCATCTTTGACCGCAGTTCTTGACCCAGATCTCCTAATCTGTTGGAATT
TCCTGGGTGATAGGAGTGTCTTTTGTTCTAATGAGGCATGTCTTGGTGGGCACCTAAGTGGGTGCTGGTCACCAGAAAGACCAAGCCACAGTTAGAAACT
TGGAACTTTCAGCCCTACCCCCATCCTCCAAAAAGAGGAAGGGGGCTGGACATAGGGTTAATAATTGATCATGCCTATATGATAAAGCCCACATAAAAAT
CCCTGAAGAACTGTGGGGTTCAGAGAGCTTCTGGGTTGCTGAGCATATGTATGTGCTGGGAGAGGGGCCCAGAGAGGGCACGAGAGCTCCATGCTCCTTC
CCTCAAGCCCTGACCTGTGTGTCTCTTCATCTGCTGTTCATYTGTATCCTTTATCACATCCTTTATTAATGTAATAAGTAAATATAAGTGTTTCCCTGAG
TTCTGGGAGTTGCTCTAGCAAATTATTGTACCCTCAGAGAGGGTCATGAGAACCTCAATTCATAGCTGGTCAGCCAGAAGTATAGGTTGACAACCTGGAA
CCTAGAATTGGCATCTGAAGCTGGAGTCAGGCTTGTGGGCCTGAGACTTTAACCCGTAGCATCTAACTCTAACGCCAGCTCCAGGTAAATAGTGTCAGAA
TCAGCCAGGCACAGTGGCTCACGCTTGTAATCTCAGCATTTTGGGAGGCCRAGGTGGGCGGATCACTTGAGGCCAGGAGTTCGAGACCAGCCTAGCCAAC
ATGGCGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCACATGCTTGTAATCCCAGCTACTTAGGAAGCTGAGGCACAAGAATCG
CTTGAACCCGGGAGGCGGAGGTTGCAATGAGCCRAGATCATGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTTGTCTCAAAAGAAAAAAAAAG
TGTCAGAATTGAATTGAATCGTAGGACACTCTGTTGATGTCTTCTGGAGAATTACTTGATATGTGGGGAAACCCCCCACCCACATTTTGGTGACATGAGG
TATTCTGTGTTGAGTGTGGGAGTAGGAAAGAGAGTTTTGTTTTTGCTGTCTCATACAGGAAAATTTCTTAATAGGTATAACCTTTCAAAACCTCCCCTCA
AACACACAACAAAACAAAACAAAACAAAACAACAACAACAACAACAAAAACCCTCTAGGCCCAGATGGCTTCAGTGGGGAATTTTACCAGACATTTAAGA
AAGAAATTCTACCAACTCTACATAAACTCTTCCAGAAACTTGAAAAGGAAGGAATACTTCCCAACTCATGCTATGAAGCTGGCAATACCCTGATACTAAA
GATAAAGATATTACAAGAAAAGAAATGTACAGACAAGTATTGAATTCAACAATATGTAAAAAAGCCATTATGATCAAGTGTGGTTTATCCCAGGAATGCA
AGATTAGTTTAACATTCGAAAATCAATGTAATTCACCACTTTAAAAAACTAGGAGGGGGAAAAACCCCTCTAATCATGTCAGTAATGGAAAAGCATTAGG
CAAAACCCAGCCTCTATTGCTGATACAAACAGCACACTAGAAATAGAAGTGAGCCTCCTTAAGTTGATAAAAAATATCTGCAAAAAACCTACAGGTAACA
TACTTGCTGGTGAAGGACTGAATGCTTCCCCCTAAGATCAGTAACATGGTCAGGGTATTCACTTTCACCACTTTTATTCAACACAGTATTGCAGCTTTTA
GCCAGTACAGTTAGGCCAAAAAGAAATACAAGGCTTCTAAATAGGAAGAAGTAAAATTGTTTTTATTGATAGACAATGTGACTGTGTAGAAAATTCAATA
GAATCTACAAAAAAATCTCCTAGAACTAATATGAGTTCAGCAAGCTTGCAGGATACAAGATAAATATATGAAAATCTATTGTATTTCTCTATACCAGCAA
CAATTGGAAATAAAAATATACTGTTTACAATAACATCAACAATATTAAATAGGAATATATCTGACAAAAGATGAACAATATTTGTACACTGGAAATTATA
AACCATTGCTGAGATAAGTTAGTTCTTAACTGAGAGTAGAGATAAATCATGTCCATGGGTGAGAGGATTCATTAGTGTTGAGATGTCAGTTCTYCCCAAA
TTGATCTACAGATTTAAGGCAATCTCAGTCAAAACCCCAACAGGGAAATTTACAAGCTGATTCTAAAATTCCTTTTTTTTTTTTTTTTTTTGAGATGGAG
TCTCACTCTGTCACCCAGGCCGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGA
GAAGCTGGGATTACAGGCACCTGCCACCATGCCTGGCTAATTTTTGTATTTTTTTAGTAGAGACAGGGTTTCACCATGTTGTCCAGGCGGGTCTTRAACT
CCTGACCTCAGGCGATTGAACCACCTCRGCCTCCCAAARTGTTGGGATTACAGGCATGAGCCACGGCACCCAGCCCTAAAGCTCTTAAGGAAATTTAAAG
GACCTAGAATAGCCAAAACAATTTTGAGAAAGATCAACAAAGTTGGCAGACTAACATTACCTGATTTCAGGATTTACTATAAATAAATCTGTACTTTTTA
AGACAATATGGTATGGGTATAAACATAGACAAATAAATAGATCAGTGATTCAGCCATTCCACTCAGAGATATTTACACAAAAGAAATGGAAGCATATTCC
ATACAAAGATTTGTACATGAATGTTTTAAACAACTTTATTTATAATAGCCCCAAACTGGAAACAACCCACATTTCTAYCAACAGGTGGATGGATAAATTG
TGGTACATCTTTATGATGGATGCTACTCAGCAACAGAAAAGGAATGAACTATTAATCCATGCAGCAGTGTAGCTGAATCTCCAAATAATAGTGCAGAGTG
AAAGAAGCCACACTAAAAAGTACAGTGTTATGATTCCATTTATGTAAAACTCTGGAGAAGGAAAACTAATCTGGAGTGACAGAAAACAGGTCAATTTTTT
CCTGGGAATGGGAGGAGGGAGATTGCACAGAAGCATGAAGAAGAAACTTYTGGAGGTGTTGGATGTTTCCATGATGTTAGATCATGCAGATAGTATGCTT
GTGGTTGTTGTCTGCCTTAAATACGTTCAGCTTATGGCATTTCAATTATGCCTTAATAAAGCTGCTAAAAAAAAAAAAACTCACTGGGAACCTTGTAGCC
TCTTTCCCAACCATTCTACTCAAACTTCTSTCATCTAAGACACACTGGCCCTTTCTTGCCCGATCCATTATATTTGTCTCTGTCCTTGATTTACTTAACT
TCTCATTGCACTTGACTTAGGTGAGCACCTCTTTCTGCTAGAAACACTTTTCCTTCTTGGCTTCTGAACAGCACATTCTCTTGGGTTTTTCCCCTAGCTC
TTGTGGCTCCAAGTCCTCTAGCAAACCTCATTTGTTAGGGTCACCTTTGACCCTATCTTCCTCTCTATTTATACTCTACTCAGCTCCAACGTTATCCCAC
CTAGTCCTGCAATTTAAAGCAGCAGCATCTGTACATCCCAACAGAATTTTCTGGGATAATAGAAAGAGTCCCTATCGGCATTGTCCACATGGCAGCCACT
AGCCATCTGTGGCTATGGAGTACTTGAAATGTGGCTAGCGTGACTAACAAATGAATTTCAAATTTTATTTATTTTATTTAATTTCAATTTAAATAGCCAC
ATATGGTTAGTGGCTACCGTATTGAATAGTCCAGGTCTAGATCACTGTATGTTTACAAACTGTGGGTGGGAACACATTTGCTGGTCTTGACTTTTATTTT
TTCAGAATAAAATAAATTCTATTTTTCACAAAATATTTGTTTCAGGCTGGTATCTCCAGGGCTCACACATAGTTGTTTTTTTGGTTTGGTTTTGTATGTA
AGTTGAAAGGCACTGATCTAGATGCCAGTAATGTCCATGTTAATGTTTTCAACCATGAGCTGAGGCCCAAAGTCATATTTGTCATCCTGACATCTCATCA
CAAATCTGTAAGCCTGGTGTTTTTCCCTCCAGTTTTCCCACACCTCAGCAAATGGCACTATCTTTTCCTCCAGTTGATGCGGAACAGTGACCTTAATTTT
CTGCTTTCCTGTTCCCCCTCCCCGCCACACCCTACTCCCACACTCAGTCCAGCAGCAAGGTCTACTGGCTCTGCCTCCTAAATGGGTCCCGGGTCTACCC
ACTTGTTTCCATCTGGGTTTCTATCAACATACTCTAAGCCCATGGCATCTCTTGCCTGGAGTACTGCTGTAGCTTTAAACTGGTCTGTGATTCACTGTTA
TCTTCATAAGACCCACAGTGGCCAAAGGAATCTTCCAAAGCCATAAATCAGATGCTGCTGCTGCCCTACTCCAGAGCCTCCAAGAGCTTTCCACCGTGAT
GCTCTGTTGTCACCTTACTGTGCCTATGAGGCCCTGGTGACTGGGCCCAGCCCTCCGCCACAGTCACCCTGTCCATTCTGTGCCAGGGACTTCCACTTCC
TTGCTTATTTATCTTCAGGGCTCTGCACATGTGCTGTGACCTAGGCCCGCCAGATCTTCCCAAGATGGCCCCTCTCTGTTAATTCGTCTTAACTCAGAGG
TGATTTCCTCAAAGGAGCAGCACTTCTCTGACTAAATCAGTGTCTGTAACCCAAGTTGGAGTGATAGTATTTTAGGAGTAAATGAGATACATTGTTACTG
AAATAGAGTGCTTTTGAGTAATAGGAGCCAAGAGCCATCAAAGTATTCTTGACTAGAGATCCTTGAATTTTCTTTGCAAATCATCTGTAATCAACAAAAT
CCTTCTGTGCAAGTGATACTGCCAAGTTTCTGTATGGAGAATAAATATTGGTCTTGCTATTTTTTAACTTACTCGACTGAGCACCCCATTATGCAAATTT
AATGAGCAGTTTAAAATATGCATATTATGCACAACATAGTGTATTAAGATATAGATGTATAAATTATGTTAATATAAAATTTAAAATGAGAGTATTTCAT
TAATGTGAATATATCATATGCACAAGGCAAATAGCATTTATTTAAACTTTTTAATCTCTGAAATTTATGTACATCATGGTTAGCTTTGTGAGAAAGTTTG
AATTTGATTTAGGTTACCAAATTTGATTTCAATTATCCAAATTTAAATTTGATTGTCATGAAGAGAAAGGGTCTGTAGGGTCGATTATTCCTTATGTAAT
TTTAGTCTTTACTTTTGAAAATGTGTTATTAAAATAGTGCAGAAAAATTACCAGTTATTAACAAAATAAATTATAGGGTTTGTGATTTTTGACCTTTGCT
TTAAAAAAAAAACAAGCTTACATTCAAATACTGAAACTTTTTGTAGTAGTCATATGCATAACAGATTCCAAAAACAACARAATTGAAACTGTATGTGCAG
AATACTATGTATTGGTTAAACCACATAACACAGGAGGCAATAGGAAATGCATTTACATTTGCAAAATGAAAATTGAATATAAATAGGAAAATGTGGCATG
ATTTTATCCTAGAAAATTATTTAAATCAGAATAGACAGTGTTCAGAAAATTAAAATAAGGCCTCCATTTTACTTCACTTGTATTTCATTCTGTACAAGTT
CAGAAATGGTGGTGATTAAAATATTTAAGTCACTTTACATTCTTCTGGGATAGCTCTCCAAAGGGAATAATCCAAGCTACAGACAAAAATTTATGTACAA
AGACATTAGTTATGGCATTTTTTATAATTTTGAAAAGTCAGGAGCCATCCAAATATCCAGTGGTGGGAGGAATTAAGCAGATTGTATAACATCCTTACAA
AAAGATTATATAACCACTAACATTAATTTTTAGGAAGATTGTTTAATGTGGGAAAAAGCATCTGACATAATGCTAGGTGAAGAAAAAGGATATATTTATA
TGGTATGATCTTAATTAGGTGAAAACAATATATTTTCTTCAATATCCATAGAAGAAAATATATTAATAGCAGTTAATTCTGAGGACTGCATTGTTGCTGG
TTGTATTTTCCAGGTTTTCTAGAAAAAACACATATTACTTTTATAATAGGGAAAAGATTATTCATAAAATAAATTTTGGTGCTAATATAATATTAAATAT
TTAGGGTTACTGTGCTTTATAGCCAGAGAGTAGTGCAGGGCTCATTTAGTCTGGGAGCTCATGAGTGAGGATTATAATTGATAAGGGAGATTGAGAGCTG
TTTTTCAGATGGCTCCATGGACAGCAAAGTTCCTCGGTGTTTTTGCTCTCAGATAGTCCCTGATGTGCTCAGTTCTGTCACTTACTGACTGTCGCTTGCT
GATCAGAAAGTCTGATTGGCTGTTAGCTTTGTATTTGACAAATATAAAACAGGAAGACCAGGTAGTTGTTACCTAATAAATATGACTTATCTGGTGGCCA
AACATTTTAAAACAGGAGGCAACAATGAGAGATTCCTGATTGTGTAAAGTGGGAACCATTCTGGATCATTTTTCAGTCTTTAGGTTCTGATCGATTTACA
GGTCATGAAATCCTTTTAGTGAGTCTTCCCTAGCATTACTTTGTAAATGAAATTAGAGTAGAATAGAAATACCAGAGTGCATGGCATGTAGTAAGTATCC
TGTAAGTTTTAATTTCAGATGTGTGTTTGTAGGTACCGGATTGTAACATAAAGTGTGTTTTTGTTTTGGTGTGGTTTTTTTATCTATAGTTTGCTGTCAA
AAAACTTCAAAGACTCTTAGTGTGATCTACACCAGTGGTGTGCAGTATTCTCCAGTGATAAGTAGCATCAGTGTCACCTGGGAGCTTGTCAGAAATGTAC
CTTATTGGGCCCCACCCAGATCTACTGAATCACAAACACTAGTGGTGGGTCCCAGCACTGTGTGGTCCTTAATGAGTCCCTGTCTTAGTAGTCAATTTTC
TGTTGCTGTAAGAGAATATCACAGGCTGGGTATTTTATTATAATAGAGGTTTATTTAGCTCACAGTTCTGGAGGCTGGGAAGTCCAAGAGCATGGCACTG
GCATCTGGAGAGGGCCTTTTTGCTGCGTCATGTCATGGTGGAGGTTGTCACATGGTGAGAGGACAAGTGTGTGCCAGCTCAGGACTTTCTTCTTCTTATA
AAGTCACCAGTCCCATCTTGGGGGCCCTACTCTGATGACCTTATCTAATCCGAACTACCTCCCAAAGGCCCTACCTCCAAATGCCATCAACATATTAATT
TGAGGATTAAGTTTCCAATACATGAAATTTGGAGGACACATTCAAACCGTAGCAGTCCCCCTGGTGATTCTGATGCACACTCAAATTTGAGGCACACTAG
TCCAGCCTTGCCATTCTTGGTGAGGTTCAAGGACTAACACTGGCATCACCTGTGAGCTAGTTGGAAATGCAGAATCTCAGACCCCAACCTGGACAGGCTC
ACTCAGAATCTGTGAGATCACCAGTTAATTTATTTGCATGGTAATGTTAAATAGCTCTGATCTCAACACAAATGCCTCAGGGGCCAAGTAGGTCATGTCA
GTAGTGAAAGTAGCCTGGTTTCCCCCGTAAAGAAAGTAGAACAATAAGAAGGCATTGTGGTGTGAAGTTTTAGTATTCTTGATTTGTTTTTAAAAATCCT
GTATTATACCAGTGGGGGTTAACACATTCAACCAAATTCATCAACTAAGGTTAACTGCAGTTGACATCAATTACTTTAAGCAGATTTTTAAACASAGAAT
TTTAATAGTGACCCTCATATTAACTTCTTCTGATCTCTTTTAGGAATTTATCAAAGAGCTGCTTTCTCGGATAAGAGGCATGAGGAAACTGAGCCCTCCG
CAGAAGAAGAGTGTATGATTCTGGAACAGGGTGAAACTCTCCCAGAGAYGAAGAAAGAGTCCTGGGATTTGTACTTCATGAAGACTTTTGTGAAAGAATA
GGTGTCCTTATGAACAACKTTTTTKTTTTTTTTTTTTTCTTTTTTGGTGTGAAGGTGGGGGGGTCTATTAGACATTTATTCAAGAGCGTTCTTTTTTTGG
TTTTAAAGGTTTTTGTTAATGTAATATTTTAATAGCAAAGATATCATGACTCTAGCCACAGCCTAACCAAGGATTATCAAAGGAGGTGGACACTCAAGGA
AGGGCCACGCCAGGCTGCGTTTCCTGCAAGGACTCAGATGTTCAGTACCTTATGATACAGGGAAGATAGTTTTCTTACAAGTAGTTTGGTAATATTTTTT
TTCTTAAGTTGTAYATTTGACTCAGCTGTCAAATTTCTCACACTTGTATATATCTACACACAACTAAGTTAAAATGTTGATGTGAGTTTTATTTCACATG
GATGGAATAAACTTGTGGTTGTCCTTTAACTGGAGGTCCCAGCACATGTGTTTTCAAGAGGCCACTAGGCATTCTTCACTGAGTGCTGCTGACTTCAACG
TTCACTTTATGCACCAAAGTGAAAGAATTCAGTGTATCCGTTATTTTAATGCACTACACCACAGAAATGTTAAGTTGGTCAAGGGCTTAATTTATGGAAT
TTCTATTATTTCATTGGTTGGGATGCTTTGCCAGGTCATGTGCTTATTGTCTCATTTTGTAGTCTTTTAAAGTTGTATGAACCCTTAATTTGAAGAACTA
ACTTGATTTCTAGAGAAATATCCACACTATCTCAGTGGTATTTTGCATTGGAAAAAGGAAGCACTGTGTAGCAGTGAATTGTCTGCTTTCCACCGAGTAC
TGTGTTTATTCTCTCTCCAGGAAAGCAGRTCAAAAGAAAGTTAGCAGATCGAGTGTCTTCTTCCTTAGAAATAGGTTCTGGTAGCTTCTGTGCCTGGGTA
GYATCAGACCAGTGGGAGTAAACCGAGTGTTAAGTGTCAAGGTGAGAAAGCCTCACATTCTCTCAAGACAGTTGCTCTAGGAGCTGAGTTGCTGGTTTGG
AAGTGTGGAGATTGCATTTCTGGCTTCTCTCAATGGCTTGTGTTGAGGACTCTGGGTGCTCCTGGCCCTAATTGTGCACCCTGATCCCCGTGCTTGGAGC
TAGGCCTGGTGGCGTGCTCTAGCCCTCTCAGTTACCAGCTCTTTGGAGAAGGATCAAAATTCAGATGGAATGTGGGATGGGTAATAGGTGAGAGTAGAAA
CCCTTCCCTCCAGGAGGCCCCCGCTGMCTCCCACAGAAACCCACCTACCATAAGATGTCTTCAGGTGGCCTTGTCCAAGGATGGGGGTCAGGCATTTTAT
ATCAAGGGTGCTCTGAACATATTTTATTTTTTAAAAAAACTATGTTTGTGAATTTTGCGTATACTGGCAAGCTTTTGAAAATGTATTTAATTTTGTATTG
TTTACCAATGATTTATTTACAAGATATTTACTCAAATAAATGGAGCTGCTTACAAGCCTGTTGACATGTGTGGCTTGCACAACACGTTAACATGATGGTT
TTGCTGTGTCAGTTTCTCTGCAGAGGTGAGGACCAAGCACCTCACCTCGTTTCATTTCATTTTCAAGGATTTCTAGGCATGTAATCCTGGCCCTCTCCTC
AGGCATCTTCAGATCAGGTGGTGAAAGCAAAGGAGCTGGGCCACATTCTTGGGCTGAGAAAGAAGACGAGCTCTGTGTGCTCAGCCTGGCACTGTCCTAG
GCCATGCTCCTTTCATTTAATTAAAACTCCTCTTTGCCATCTTACAAGAACCCTCAAAAACATTTCAAATTAGTAAACTATTCCACTTGTTAGAATGCCT
TGCACCATGGAAGTCGGAAAAATACAGAATGGGCAGGATTTCTGTTAGGCTTAATTGACCAGCCCATGTGATGGTCTCAGATGAAGTAAGAATTGACTTT
TCCTCCAAAGGCCTCTGCTCCCACCACACACTTCCTCCCCACCTTCCCTCCTGCCCTGATCCCCGTGAGTGCTTCAGCAAGAAGTTTGGGCCTCTTCCTT
GACTCCCCAGTATGCTCCCAGTCACCCAGCTTGTCCTCTGTGAATACTTCTCAAACCTATCCCATGTCCAACTTTCCTGGATTGCTGCCACCACCTTGGG
AACAGATTCTCCATGTCCAGGCTTGTCTCCCTCTGATCCATCCTCCACCCAGTTGCTAGAATAGTCTGACGACTCCACCCCCTGCTTGAAACCCGAACCC
TCTGCATGCCTTATGAGAAATGTTGTCTCTGCCTCTCCCACCTCATCTTTTGGCCTTGTGCTCATGCCCAGTTCTGCCAAATTCCTTGGAGTTTCTGGCG
TGTTCTATGTATTTTCTTCTCTGGTGCTTTGTAAAATCTGTTGCCTTGGCCCAGAACGCCCCCTCTGCCAACAGGCTGTATCCAGAGAGCTGGGTTAGAC
CCCCTCCTAGGTGTGTTCCCCCTCAGCTCCAGCCTATACTCTGTCATAGACGCATCCACAGTATCATTATTGCCTATCCATTTGTTGGTGTCTTCTGTTA
GAATCTGGGATCCTCGAGGCTGGGAATCTAGACTTCACCAAGCATCTGGTCCTAGGCTTGGCCCATCAAAGAGATTGTGTGTTTGCCAGTTGAATGAAAA
TGACAAAAGATTCAAGAAAACTCCACTGTTTTCTTCCCAGCTAGAGTTGTGGTTCTTAGATCTGAGTGTACATTTGAATCACTGGGAAGCTTTAAAAACA
ATGGAAGCCTAGGCCTCAGTCAATTCTGACCAGTTAAATCAGCGTCTCCAGGACAAGAGCTGGGGTGTTTGTTTTCAAGCTCTCCAGCTTGCGCATCGCT
GGGCCATTGGGTCACTCTTGTGCCATTGGATGGCCAGATGCATTAGCCTGACCTCAGCTCTCCATGTTTATGCTATTACAGCAGGTGGCAGCTGTGGTAT
TAGCACACTCACTATTTCTCATACAGAGTCTTCTCACTAGGGCAATGGCTCCAAATTATCCAACTTCTAGTGCCGCGCTCACTTGAACATTGGGAAATCT
CAATGTAAACTTCATGGAGTGGCTTCCATTTATAACGATCATAATAAAAGCACTGTGCTAAGTGCATGCTTTATCTCATTTAATCCTGACCTTAACCTTA
TGAGGCAGGTGGCATTCTCATTTTACAGATAAGAAAATAAACTCAGGCTTAGCAGCTTACCTAAGTCCACACAGCTACAACACTGAGATTCAAACCCAAA
CCTATTTGGCTCCAAAGTCCCATAACCATTAGACTTTCTTGCCACTCTTAGGGAATTACTCTTAGTCCCACTCACAAGAGTGAACCCCAGAAGCCACATT
TAAAGTGAGCCAGGTCCCTGAGCTGGCAGGGTAGGGGAGGAGGCCTTGTGGATGGAGGAGATCCCAGCCACCTGTGGGGCTCTTCCTCACTCCTGGGAAC
TGAGGGACTCCCTGCTCCCCATCTGCAGTGCAGCCAGGCCCTGTGATGCTGGCCCTCCTTATCCAGAGTCCTCTTGCCTTTTCCCCATAACATAAAGCTC
CTGGACTTGGGCTTAGCAGCTGAGCAAGGAGTATCCAGCCATCAGTTTCCTGAGAAAGAGCAGCTCAGGACAAGGTGATTTTCAATTCCTGAAACACAGG
AATTAAACAGGTTTTTACTTATTTATCACTGACATAGTTTGGATATTTGTCCTCTCCAAATCCCATTTTGAAATTTGATCTCCAGTGTTGGAGGTGAGAG
GTGTTTGGGTCATGGGGGCAGACCCCTCATGAATGGCTTGGTGCCATTCTCCTGGGATTGAGTGAGTACTTACTCTTAGTTCCCTCTAGATCTGGTTGTT
AAAAAGAGCCTGGCACCTCCTCCCCTCTCTGTCTTACGTCCTCTCTTGCCATGTAACAAGCCGGCTCTCCTTCTGCCGTGATTGGAAACTTCTGAGGTCC
TCACCAAAAGAAGATGCTGGTGCCATGCTTCCTATACAGTCTGCAGAAGCACGAGCCAAATAAACCTCTTTTCTGTATAAATTGCCTGCCCTCAAGTACT
TCTTTATAGTAACACAAACAGCCTAAGACAATCACCTAAAGTCTCCATAAAAGATTGTGTGCTGTGCAAAATCAGCTTTTGGAAACCTAAGCTGTTTTTG
ACATGACTGCTGTTTAGCAAGAGAGTGGCAGGTCCACAGCTACTGGACACATCCCCATCCCTACTCAGCCACCCTATTTTTGCCTCTGAGTGAAAGGTTC
TGGGGCTTCCCTCTGCTTCCTGGGAACCTTTCCTGGAATCTAGCCACTTTGAGAGTGAGCCTGTGTAGTCATGAGTCATATCTGTCCCTCTATGGCCCCT
ATCTACTTCCTTTGACTCTTGTCTTTGGGTGCTCAGAGTCAAGGAGTCAGCACGCTTCAGTGCTGCTGCATAGCCTAAGAGAGAAGTGCTGTGGGTGGCA
GGGACCCTTGTCTGTTGTCTAAGAAAACAAAACTCCTATCGGGTAGTTGGAACTTTCTGAAAGCCATTTTCAAATTGGACACAAGCATACCACTATTTTC
CCCTACTGGTTTCTCTTTGCTTGAATTAATTTTAACCCAAATAGTCCTGGAGAATTATTCCTCAGAACTAGTCTCATTTCCTTGAGGGCTTGGGGTACAA
CCCACTGTGTGTTTGTAATTTGCCTGTGAAAATGGAGTGGCTTCTCAGTCTTCTATGAGTGAGAAAGAACAGTGCAGGCTTCATGGAGTTCCCACCCAAC
CCCACTCAGAAACAAATGCTGGAAATGCTTCACTAATAGCCTTCTTGTGCGGCCATGAAGGCCAACCAGTTCTCTCTTGCTGACTGGAACATCTTGCCTG
GGGATGGATTGTTCTTTTAAGACTGGATTGTTCTCTGCCTCCCGTGTCTCTGTGGGTGTTCCCATCACAACACATTAGCAGACATTTCAATAAGACTGAT
ACTAGAACAGCTACAAACGAAGTCCTTGAGAAACCTGCTTTTCTGTTGTTTTATTGAGTCAATTGGATAAATAAGGGCAGATTAGTGTCTGGTGTGTGTT
TTCTTCATGCTCAGTCTCCTTGGTGGGGTGTAAATGAAACTAGCGGGGTGGGCTTCTTTGGGCTCACCTTGTTCCAGTGGATTCTAGGAGGTAATTAGTT
CCAGCAAGCACAGGGGGTAAAGAAGAGTGCATTCTAAACATAGGCGCTGTATAGACTTAATTGTAATTCAGTGTTCAAGTTGTTAGGAGACATTTCTACA
TGGTTCTCATGTTTCTGCATGTCTTGTGAGTGAGACTGCCTTTGTTCCAGACCCTTTTTTCAAGAACGTTTATATGTATAGCAAACAGTCTTGGAAGTTA
GAGATAGTGTCTCCATGCAGAGCAAAGCTGTCTATTATAAAAGATATGGGTTCCCTAAGTGTCGAGCCCCTTTCCTGGGATGCGACCCACTGCATGCACR
GGCGTCATCTGTCCTTCTTTGCAACACCCTAGGAGAACTGGGGCTCGAGAAGTGCCACTACTCTAGCCACTGCTATTGCTGTAACTGTCCTTCCTCTCTG
ACTCAGGAATGTAGCATCTTCTACCAGCATCTATGAAACTGACAGGCTAATTTGTTAGCTTACAGTAATGTAAAACCTTAGACCCTATACAAGTCTTGAC
AATGGTCAGTTGTCTTGGTCTCTTTCAATAGGACTTGAATCATTTTTGTCATTAATAGACATTTTCTTATATTTAGACTCTGATTGATTAATCATTTTCA
AATGCATAGGGTCGGAAGTTTCCTTTAAAGAGATTTCATGCCTGGAAGTGGTTGTTCTGTGGAAGGAATTTAATTTCACAAAAGCCACCTTTTCTTTTCC
TCGTTGTTGGTAACGTGAAGCGAATGTTGCCTGGGGTGAAAAGACTCATGAAAGAGAGATGGAGAGATGGACTGTCCTGGGAGTTTACAGCAAAATTACC
CAGTAGAGTGAGGCAGAGAAGACAAGCAAAGATTCTTGCCTCGAATCTTTCTGTTTAAAATATGTATCTACATAATATGAGTGGTGCATCATCACTGGCA
ATTTTGAAATTCCCCAGTTAATCTCTAGAAGCAGTTTTGTGAACTTACTTGCAGTATCACGGCCCACCCAGTGGTTACCAAAAATAGAAATTGAAGTCAG
GGAATATCTGAGGCTACCAGATTGATTCTATTCAGGTCGCTAAATGATTCACATAAAGTGTAACCCAACACACCCTCCGGGTCACAAGATGCTTGAGGGT
GAGTGATTTACTATTTGGTTTTCTGTTATTAGTAGCACAAAATTACTCCTTTGGTGTTGATTAGATTTTTAAAAGGGAACATTTCTAACTCAGACCTCCT
TTCTGATAGCTCATGGATAAGGGACAAATAAGCTTATTTGTCTTTTCTTAAATATCCTTCTACAGCACTTAGGGTAGCACCTTGCTCTTTTTGGCTGTAA
TCTCAACATGGGGAATCAGTATGTGTAATCTATAGTGTTTCATCCTCACGGAATACCCCAGAGCCATAGAGAATCACCTCTTTCTGTAATTGGTAATGAG
AGAATTAACCAAAACCTCTCAAACTGATTTAAAAAAAATGCATAGTTTTTTTTTCTCCTAATCTTATTTTCTATCTGAAACATCTGTGCTTATTTGAGAG
CTGGGAAACTCGCTACTTAAATCTTTAATCTAGGATGTCTTAAAATTATAGTTCATGTGGACTTAGTGAGGTCCTCATAATCTCTGAAACTGTGTAGGAG
ATGGAACTTAGAAAGGAGAGACAGATTGAGGTGAGCCACACATAGAGCAACAGAGAGAGATGGTGATCCCAAGACAGGATGCTGGAATGAAGAGAGCCAG
AGAGTAGCAGACAGGCATGAGCATGTGTGGGAGGGTCCATGCCACATTGGGGTCTCAAAGTGTCCATACCTCGAACAGGTGAAGAGCCAGGACCCAGAGC
CTTGGAGCCCAGGCCCACAGGAGACTGCAGCCACCCAGGGAGCCAGGGCTCGGGTGTCCCAGGAATAGCCAGGGTCAAGCTCTGCCTCCCATCCTCAGGC
TCAGCCTTCACCTTGATCGGATTTCCTGGTCTCCTTCATTCCCACATCATCCACTCTGCTGAATTCCTTCCATAGATGATCACTTCTCCCCAGGACACCG
CCCCAGCAGCAAGTAACAGCCTGCCTGGCAGCGAGCCTTGCACGGGCCCATCCCCACCCGCTCACAGGCACACACTGGCTTGTTCAGGAGGTGGGTTCCA
GCTCTCTTCTTCCTCCCTGCACTCCATGTTGGGTTGCTTCGCCTGTGGGTTCTCATGCTTACAAGCCCTTGGTGTAACTTTGCCTCCAACCCGTTCAGCA
TCACGTCAACTTCAATTGCCAATGCCCTAACCCACTCCCTTATGCTTCCATCATCTTGTTTAGGCTATCAGACAAACAAATTAAGACAGACATGTGAATA
CTGCCATGCAATACAGAGCAATGGATGGGAGGAAAGTCCATATTTTGTCGTCTTATCTCCAGGAAGAAATGAAGGCGGGAAGAGTAA


SNP Information

Context             (SEQ ID NO:15614):
GAAGGAGTGATGGGGGAAGGAGAGAGGAGAGGGTGGGAGGAAGGAAAGGGAGGGAGCTGGCCCTTCCAGAGCAGTCATTTCCGGATTCTGTGGCCTTTCA
R
TGAACACAGAGGTCTTTCGAGGCCTCTCAGAGCTCTGGCTGCCTTCTCCAGTCTTTGGCTGTGGGAGGCAGCATGGGAGGAGCCTGAACTGGCCTGACAG
Celera SNP ID:            hCV8913167
SNP Position Genomic:     102153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15615):
AATTATAAACCATTGCTGAGATAAGTTAGTTCTTAACTGAGAGTAGAGATAAATCATGTCCATGGGTGAGAGGATTCATTAGTGTTGAGATGTCAGTTCT
Y
CCCAAATTGATCTACAGATTTAAGGCAATCTCAGTCAAAACCCCAACAGGGAAATTTACAAGCTGATTCTAAAATTCCTTTTTTTTTTTTTTTTTTTGAG
Celera SNP ID:            hCV8913168
SNP Position Genomic:     106794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15616):
AAGGTCCAATAAGTCTACAATTCCTTATTCAAAGTGTCTTAACTATTCTTGAATATTTGTATTTGACTAGAATTGCATTAAATTTATAGGTTAATTTGGC
S
AGAGAAGAGATCTCGATGATGATTTGTTCAGGGCACACAAAAATGGACACTGTAACTTCCTGAAGGGCAGGGACAGGTTGTAGGAACAGATGGGTAACAG
Celera SNP ID:            hCV27890723
SNP Position Genomic:     96588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15617):
TATGTTGGAATCCTAAGCCCCAGTATTATACTATTGGGAGAGGGGCCTTTCGGAGGTGATTATGTCCTGAGGGTGGAGCACTCATGAATGGGATTAGTGC
Y
CTTATAAAAGACACAAGAGAGCTCTCTTTCTCTGCACTCCATCATGGGAGGACACATTGAGAAGTTAGCCATCTGCAAACCAGGAAGCTGGCTCTCACCA
Celera SNP ID:            hCV27890724
SNP Position Genomic:     28295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15618):
TAACTTCTTTCACTACACAATATACATTTAAGATTCATCCGTGGTTTTTTTGTGACTTGATAGCTCCATTCTTTTTATGGCTGAATAAGATGCCATTGTA
Y
AAATGTACCACAGTTTATCCACTTGGCTCTTGAAGGACATCTTGGTTGCTTCAGTTTTTGATGATTATGAGAAAGCCTGGTATAAACACGTGTGGGTGGA
Celera SNP ID:            hCV16211509
SNP Position Genomic:     25951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15619):
CTTTTGTGTACAGAAGTTTTAAATTTTAATTGAAGCCAAATTTATTAATGACATCTTTGGCTTGTGCTTTTTAAAAAAAGGCTTGTTTAAGAAATCTTTC
R
TGACTGTAAGGTCTTAAATACAGTCTTCCTTGTATTTGGCTTTGAAAGCTTTCACTTTCACTTTTTACACCTAGGTATTCAAACCCTCTTGAATTTGTCT
Celera SNP ID:            hCV29430795
SNP Position Genomic:     96178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15620):
TTCCACTTGTCTCCTCCCTGTGGAATGGACAGCATTCTCTTAGCAGTGATGTGTGACAATATGCAGGAAGTATTGGCAATCTGAGAAGCTAACCTGAGCC
Y
GGGAGTCCAGAGTTTTTACTGGGGCTTAATCACATAGACATAGTTGACTACCCATGTGGCTGACCTTGTCTCCAGCTGATACCACATGACTCAAAGCGTC
Celera SNP ID:            hCV29430796
SNP Position Genomic:     92226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15621):
GGCTACCTCTGCATAATAGCTCTGCGGCCTCCCTGTCTGTATTAGGAAGCTGATGATCATTTATTATTCCAGCAAGCAGTGACAAATCAGCTCTGTGTGT
Y
GGTGAGGATAGGCGAGGCTATGTTACACTCAGGAGTGACCCAAACTTTCAGTGGCTTAAACCGAGCAAGTCATATTCTCACTCGTGCTGTGTAGCTTATA
Celera SNP ID:            hCV3124340
SNP Position Genomic:     49081
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15622):
ACCTTCTGTCATCTACTTTGGGTCTACGGCTTCATCCTATATGGGCCACTGGCCAATAGGGAAAGGACTTGTGTGCCCCCATTTTGATTCATATTCATTT
Y
CCCCCCCAAATCCATAGCTGACCTGACTGATTCATATTCAGTCTGCGGACTCTTGTCATGTAAATCTTCCTGACTGCTGGGAAACACAGCAGTATAATTG
Celera SNP ID:            hCV29430797
SNP Position Genomic:     89779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15623):
CCCTTAGTCACACCCAACTTCAGAGGGGCAGCAAAGCCCAGCCCTACCCTGTCGCTGGAAGGAGGCCACCAGAATATTCGTGCCTGGTCTTTGATGCTCC
M
GTGACCAAGGATGGGTTTGCGATAAATGGAGTGGGGCCCCACTGTTCTCAGGGCTTCTAAAAAGGAATGCCCCTTGCCACATCTCCACCCTCAGTTCCGA
Celera SNP ID:            hCV3124341
SNP Position Genomic:     49469
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,6)   total(A,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15624):
CTTTATAACAACCAGCGCCTCATGAGAACCAACTCAGTCTCTAGAGAACAGTGTTAATGCACGCATGAGGGTGTGCCCCCATGACCTAATCACCTCTGAA
R
GTTCCCATTACCTCTCACTCAGTACTGTTGCCCTGGGGACCAAATTCACCCTGAGTTTCGGAGGGGTCAAACCACATCCAAACCATAGCAGGGAGGATGT
Celera SNP ID:            hCV29430798
SNP Position Genomic:     71807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15625):
TCCCATCCACTTTGAAGGATATAATTCCACTGTTGGTCTGAAGAGCAAATGCCCTGCGTAATTTAGAGCTGGGCCTCAGAGGGGAGTGTGTTACCGGACA
R
TCCCCTCAGCAAACTCAGTTATTCCACTGGGCTTTTGCTGAGCCCTGCTGTGTGTTTGGACTTTATGTGACCTTCAATACTGACTGATCCATAGGCTTGT
Celera SNP ID:            hCV3124342
SNP Position Genomic:     49777
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15626):
CAGCAGGCTTCCCAATGGAAGCCAAGAGCAGGGATTCCAGAATCCCAAGAGGAACCAATTTCCAACCTCAAGGCCTGGGAAGTTCAAGGTCGAGGGGTCA
Y
ATCTGGTTGGCTTCTGGTGACAGCGTTCATCCCGTGTAATAGCATGGCAGAAAACTGGAAGGGCAGGCAAGCGCTTGAAAAAAGAGATGGGGCAAAGGGG
Celera SNP ID:            hCV29430799
SNP Position Genomic:     71597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15627):
TGTTGTACAGATTATTTTGTCACCCAGGTATTAAGATGAGCACCCATTAGTTACTTTTTCCTGATCCTCTCCCTCCTCCCACCCTCTACCCTTAAGGCCC
Y
AGTGTGTGTTGTTCTCCTCTGTGTGTCCATGTGTTCTCATCTTTTAGCTTCTACTTTTGGGAATGTGTGGTATTTGGTTTTCTGTTCCTGCATTAGTTTG
Celera SNP ID:            hCV3124344
SNP Position Genomic:     50864
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15628):
AATGTGTGTCCATCTGCTGCTGCTGGTACTGGCTAGAGCAGGTGGGGCGCTGAGGGTGGAATATGAAAGTCATGAGCCCCAAGACGGACTAGTGCAGGGC
K
CAGAGCTCAGAGTAGAGGGTGGCCACTGTGATACCACGCCCCTGTGACAGAGCCATGTGGTAGAAACTCCAGGGGGAGAGAAAGGACCTTGTGTTTTCAT
Celera SNP ID:            hCV1266760
SNP Position Genomic:     94762
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15629):
CCCAAAGCTGAGCTCATCAGTACTGATTCAACTGCCTGCCTGTTTGCCCTCATCCAGGAGTTTTCAGTGTGATTTTTAAATGCCTAGCTGGTTCTTTGGG
Y
GAGGACATTTTGCCATTTGGAACAATTTGCAGGTGTTATCCTCACCTTTTCCAAGAGGCACACACCACCTGCCCATTTTCCTCACTCATCTAAACTTTGG
Celera SNP ID:            hCV1266761
SNP Position Genomic:     93791
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15630):
CTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCATGCCAGCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGTGTTTCACAATGTTGGCCA
Y
GACGGTCTTGATTTCTTGAGCTCGTGATCCACTCTCCTCGGCCTCTTAAAGTGCTGGGATTACTGCGGTGAGCCACCACACCCAGCGTATTTTGCATTCT
Celera SNP ID:            hCV3124345
SNP Position Genomic:     54028
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15631):
ACAGAAGTCATTTTAACAACAGCAGCCACAAACCCTTACCCATAACAGATCCATAAGCCTCCTTTCAGATAATGAAAAATAGGATCAGTTCTGGTGCGCC
M
TGCCAGCAAATGAACCTCTCGAAAGATAAAAACAACCCCTGCCCCCCAAAAAGAAGGGGGAAATTAAATGTGTCAGTGGTGAGTGATGGTGGGCGAGAGG
Celera SNP ID:            hCV1266762
SNP Position Genomic:     93517
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15632):
TGTACAGTGGCTATGTCTTTACACTGGTCTGTACCACCTGTGTGATCTGACTCCCCCACCCTACCCACACGGTTACCTCTCTGATCCCCTACTTCTTTGC
Y
CTTCACTCTCTCTGCTCCCGACATTGGCCTCCTTGGTCCTCACATGTTTTCTCCTCTGGGCTCTGCAGCTTACTGTTCCCTCTGTCTGGAACGTTCTTCT
Celera SNP ID:            hCV3124346
SNP Position Genomic:     54428
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15633):
AGGTTAAATTTTTCACTATACACTCTTAGAAGCAGGATGACCATGAGATGGTGATGATAACAATAATAATAATAGTGATCAGAAGAAATTAGATGGCAGT
R
TAGGAAAAGCCACGTGGGCCTTGCTTTTGGGTGCCTTCTTTCTCTTGATAATTAATAATTGTTATTTTTATAAGAGACACGATAGAGGAGGCACAAGCTT
Celera SNP ID:            hCV1266763
SNP Position Genomic:     92546
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15634):
GATCTGACTCCCCCACCCTACCCACACGGTTACCTCTCTGATCCCCTACTTCTTTGCCCTTCACTCTCTCTGCTCCCGACATTGGCCTCCTTGGTCCTCA
Y
ATGTTTTCTCCTCTGGGCTCTGCAGCTTACTGTTCCCTCTGTCTGGAACGTTCTTCTACATGGTTCCCTCCCTCACCTTCAGGACCTTATCATACGTCAG
Celera SNP ID:            hCV3124347
SNP Position Genomic:     54471
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15635):
TTTGCACATCTAAAAGCTAGGAGTGCAAAGATTCTGTCAATTTTGTTTCCTGCTCTATTCCCAGCATCTGGAACAATGCCTGGCATATAGCAGACATTCA
R
TAAGTATCTGTGGAGTGATTGTATCCACCAGATGTTTTTTACTGACTGTGTGCAAAGAACAGTTCTCGAAATTGGGAGAGACACAAGTACATCAGATGTG
Celera SNP ID:            hCV3124348
SNP Position Genomic:     54788
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15636):
ACACAGCAGTATAATTGTGAGCACCTCACTAATGTATGAGTGAGTGATTAGTAAGAATGGTGATTTCATTTTTTTCCTTAAGTAAATGCCATTTCTAATG
Y
AGTGAATATTAAAATAGATCTGACTTACAGGTAGCAAAAGGATGTTTCCATATAATGCAAGAGGCAAAAGTAATTTTATTTTGGATATTACTTGTATTTG
Celera SNP ID:            hCV1266767
SNP Position Genomic:     89963
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15637):
CACCTTCTGTCATCTACTTTGGGTCTACGGCTTCATCCTATATGGGCCACTGGCCAATAGGGAAAGGACTTGTGTGCCCCCATTTTGATTCATATTCATT
Y
CCCCCCCCAAATCCATAGCTGACCTGACTGATTCATATTCAGTCTGCGGACTCTTGTCATGTAAATCTTCCTGACTGCTGGGAAACACAGCAGTATAATT
Celera SNP ID:            hCV1266768
SNP Position Genomic:     89778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15638):
AGGTGGTAGCGGCGCCGGGCGCGCTCCGCCCGCCCCTCCTCCGGGCCGCACTGAGGCTCGGGCGCGCGGGGACATGTCGGTGGCGACGGGCAGCAGCGAG
R
CGGCCGGCGGGGCCAGCGGCGGCGGCGCACGGGTTTTCTTCCAAAGCCCCCGGGGTGGCGCCGGTGGCAGCCCCGGCTCCAGCAGCGGCTCAGGCTCCTC
Celera SNP ID:            hCV16187255
SNP Position Genomic:     6608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;SILENT MUTATION


Context             (SEQ ID NO:15639):
CAAAAGAAATGGAAGCATATTCCATACAAAGATTTGTACATGAATGTTTTAAACAACTTTATTTATAATAGCCCCAAACTGGAAACAACCCACATTTCTA
Y
CAACAGGTGGATGGATAAATTGTGGTACATCTTTATGATGGATGCTACTCAGCAACAGAAAAGGAATGAACTATTAATCCATGCAGCAGTGTAGCTGAAT
Celera SNP ID:            hCV8913178
SNP Position Genomic:     107478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15640):
AGATCATGCAGATAGTATGCTTGTGGTTGTTGTCTGCCTTAAATACGTTCAGCTTATGGCATTTCAATTATGCCTTAATAAAGCTGCTAAAAAAAAAAAA
A
CTCACTGGGAACCTTGTAGCCTCTTTCCCAACCATTCTACTCAAACTTCTCTCATCTAAGACACACTGGCCCTTTCTTGCCCGATCCATTATATTTGTCT
Celera SNP ID:            hCV11415471
SNP Position Genomic:     107879
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15641):
TCCAACAGAGACAAACCTGTGGTTCCCACCATCCGTATCCATTCCCTTAATTGTTCAGTTGTAGTATATATGTACAGCAATATCAGAATTGTTAACTCAA
Y
CCCTATGGGAAACAACTTTATCAACTAGAAGATGGCGCTTATATGCACTCCTTTTACATTTGATTTTAACAGACTCTACTTATTTCTAGTTACTTAGGTC
Celera SNP ID:            hCV16211513
SNP Position Genomic:     25048
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,4|C,5)      total(C,5|-,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15642):
TTGAATGAATGAAAAAGGATCAATGTTCAGCAAATGTTTAAAAGTCATTGATGTTTCTGTATCTGAACTAATTGGTGATATTCCTTTATCATAGACATGG
Y
GAGGGCAAAAGTCAATCTGTGTTTTTGTTACTGTAGTCATATCACATTCTTGCATCCTTACAGCTTTATGTCAGTGCTGTTGGAAAATACACCTTTCTTC
Celera SNP ID:            hCV3121802
SNP Position Genomic:     13548
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15643):
CCCCCACTACCACACAAATACCTTCCCCTCCTCCGCCCTGTATTCCCCCACCGCACATGCCGCTCCGTCTTTCTCCTTCCCTTTCTGGGTTTTTCCTCTT
Y
TGCCTGCTCTTCAGTGATGACATTTCTCTGTCTTCGGGCCCTGGCTCTCTGTTTTTTTTGTTGTTTGTTTTGTTTTGTTTTTTTTTCCTTCACTCCTGCG
Celera SNP ID:            hCV3121803
SNP Position Genomic:     14360
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15644):
TAGTGGCTGTAGCCACTGGCTACAAAAGCCTTATAATGTTTTAGTGTCATTGGGCAGGCAAGTATTAAAGGATTGGGGTTTATTAGCCAGAAACATGTGT
R
GCTTTACTTAATAGCCCAAAGGATTTTGGTCCCATTATTACAATTGCTCACATACTTTCATTAGGATTCTATGCACCAGACCTCATCTGCCCCAGGTAAA
Celera SNP ID:            hCV11415478
SNP Position Genomic:     91567
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15645):
ATAATGATATTCTTGGATTATTACATTTAAAGAGTTGACTTTAAAGAATCTTCTAATTTCCCAGAAGTGATATTGTTTTTGGTGTGTCACCTTCTGTCAT
M
TACTTTGGGTCTACGGCTTCATCCTATATGGGCCACTGGCCAATAGGGAAAGGACTTGTGTGCCCCCATTTTGATTCATATTCATTTCCCCCCCCAAATC
Celera SNP ID:            hCV1266770
SNP Position Genomic:     89691
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15646):
CCAAAATGGCTTTTAAAAAATGTGATGTCAACATTTAGCAGCTACAGACTGGCTTCTTTTCCTTAGTAATATGCACTTAAGTTTGCTCCAGGTCTTTTCA
Y
TGCTTGATAGCTCATTTCTTTTCAGTGCTGAATAATATTCTATTATCTGGATGTACCAGAGTTTATCCATTCATTCACCTACTGAAATACTCTTGGTTGC
Celera SNP ID:            hCV1266771
SNP Position Genomic:     86851
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15647):
ACAGGCATTAGCCACCATGCCCAGCCCAAAATGGCTTTTAAAAAATGTGATGTCAACATTTAGCAGCTACAGACTGGCTTCTTTTCCTTAGTAATATGCA
Y
TTAAGTTTGCTCCAGGTCTTTTCACTGCTTGATAGCTCATTTCTTTTCAGTGCTGAATAATATTCTATTATCTGGATGTACCAGAGTTTATCCATTCATT
Celera SNP ID:            hCV1266772
SNP Position Genomic:     86826
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15648):
AATTGTCACCATCTCCTCACAGAGAGGTACATTTGTTAGAACTGGTGAACCTACATTAACACATCATTATCGCCCGAAGTCCACGGTTAACATTAGGATT
Y
ACTCTTGGTACTGTACATTATGGATTTGACTGATTTCATAATGACATGTATCCACCACTACAGCATCATACAGAGTAGTGTCACTGCCCTAACAATCCTC
Celera SNP ID:            hCV1266774
SNP Position Genomic:     86172
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15649):
CTTCTTATCCATTGCCTGTAGCCCAGGACCAGTGCCAAGCCTGTAGCTTCCGCATGGTGTTCCTCTCCCTTCCGGGGATCTTCATGTAGGTGCTGCACGG
R
GAAAGAAGGGCCCTGAGAAGAGAGGCTGCTGTCGGCACAGGAGCCGTGAGGGTGGCGGCCGCCTGGCCACTGTGTCCAGTGCTTTCAAGGTGTTCTCAGT
Celera SNP ID:            hCV29430800
SNP Position Genomic:     67742
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15650):
TTAGAGCAGTTTTAGGTTCACAGTGAAATTGACTAGAAGGTACAGATTTCCAATATGCTCACTCCCATCCACCTCACACATGTACACAGCCTCCCCAATT
R
TCACCATCTCCTCACAGAGAGGTACATTTGTTAGAACTGGTGAACCTACATTAACACATCATTATCGCCCGAAGTCCACGGTTAACATTAGGATTTACTC
Celera SNP ID:            hCV1266775
SNP Position Genomic:     86076
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15651):
ATTTTTAAGTGTACAGGTCAGCTACATTAAGTACATTTACTATTTTTTTTTGCAACCATCCCCACCATTCATCTCCCGAACTTTCTCATCTTCCCAAACT
R
AGACACTGTGCCCATTCTTGATGGGTTTTAATATGCCTAGGACCACAGAGCTATGGGAGGCCAGAGGACAGGAAACTCCCAGTTCTAAGGCAGTGTCAGG
Celera SNP ID:            hCV29430802
SNP Position Genomic:     59191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15652):
TTTATAGGTAGTTGGGGAATTAATATAGGAAAGCGATTTTAAATTGTGTGATGGGTTAGACAAGAAAAATAGAATTGTAGTCAAGAAAAATGATGAATGA
Y
GTAGATGAATGAACATGTAATATGGGAGTGGAAGGGGTTGCTGCAGAGAGGAGGCCCCATTGGTCGCTGCAGACACGCATTCACTAATTTCATCAATCCC
Celera SNP ID:            hCV1266776
SNP Position Genomic:     84204
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15653):
GGCCAGTCTTCTTCAGCAGGCCCTGAATATCTTGTACTTCTCTCCCTGGTAACAGGATCTCTAAACCGGCCACACCTGTCATAAGTGACTCTACTAAAGG
R
GAATTCAGAATTCCACTGGGGATACTTAGAACAGTGAGCTGATGTGATCTTGTGTTATTTTCCCTTTCTTGGGGGTTATCCCTTGATTAATTACCTGTCT
Celera SNP ID:            hCV29430803
SNP Position Genomic:     39395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15654):
TTGTTTTTGAACAGAGTCTTGCTCTGTCACCCCAGGCTGGGGTGCAGTGGCGCCATGTAGGCTCGCTGAAAAACCTGCCTTCCGGGTTCAAGCGATGCTC
R
TGCCTCAGCCTCCTGAGTAGTTGGGATTATAGGCATGGGGCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGGCGGATTTTGCCATGTTGGCCAGG
Celera SNP ID:            hCV1266777
SNP Position Genomic:     83648
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15655):
GCCTTCTTCTGCAGACAGGTGGGTCTCTTGGCAGACAGATGAGTCTCTTTAACTCTGTTTAATACCTGAGGATGCCTGGTTCTCACTGTGTTTTCCTTAC
R
TGCTTTATCTTGTTCAGTCTTCAGAATAATGCCGATGCCAGCCAGCGCTAGGAATGGAGGCCCGCAGAGGCTTATGGAACTGGCCCATGGTCACTCAGCC
Celera SNP ID:            hCV29430804
SNP Position Genomic:     37072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15656):
GTCGTGCATTACCACACCCAGCTAAATTATTTTTATTTTTTTATAGAGACTGGGTCTCACTATGTTGCCCAGACTTGTCTTGAACTCCTGGCCTCAAGCT
R
TCCTCCTGCTTCAGCCTCTCAAAGTGCTGGAATTACAGGCATGAGCCACTATGCCTGGCCTACTTATTCTTTTATTCTTAAATATGCATTTACTGTTTTT
Celera SNP ID:            hCV1266778
SNP Position Genomic:     82573
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15657):
TTGTGATTTTTGACCTTTGCTTTAAAAAAAAAACAAGCTTACATTCAAATACTGAAACTTTTTGTAGTAGTCATATGCATAACAGATTCCAAAAACAACA
R
AATTGAAACTGTATGTGCAGAATACTATGTATTGGTTAAACCACATAACACAGGAGGCAATAGGAAATGCATTTACATTTGCAAAATGAAAATTGAATAT
Celera SNP ID:            hCV8913183
SNP Position Genomic:     110080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15658):
TCAGCCTTCTTCTGCAGACAGGTGGGTCTCTTGGCAGACAGATGAGTCTCTTTAACTCTGTTTAATACCTGAGGATGCCTGGTTCTCACTGTGTTTTCCT
W
ACGTGCTTTATCTTGTTCAGTCTTCAGAATAATGCCGATGCCAGCCAGCGCTAGGAATGGAGGCCCGCAGAGGCTTATGGAACTGGCCCATGGTCACTCA
Celera SNP ID:            hCV29430805
SNP Position Genomic:     37069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15659):
GCTGCGTTTCCTGCAAGGACTCAGATGTTCAGTACCTTATGATACAGGGAAGATAGTTTTCTTACAAGTAGTTTGGTAATATTTTTTTTCTTAAGTTGTA
Y
ATTTGACTCAGCTGTCAAATTTCTCACACTTGTATATATCTACACACAACTAAGTTAAAATGTTGATGTGAGTTTTATTTCACATGGATGGAATAAACTT
Celera SNP ID:            hCV8913184
SNP Position Genomic:     112914
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:15660):
CCAATTTCAGCCTTCTTCTGCAGACAGGTGGGTCTCTTGGCAGACAGATGAGTCTCTTTAACTCTGTTTAATACCTGAGGATGCCTGGTTCTCACTGTGT
K
TTCCTTACGTGCTTTATCTTGTTCAGTCTTCAGAATAATGCCGATGCCAGCCAGCGCTAGGAATGGAGGCCCGCAGAGGCTTATGGAACTGGCCCATGGT
Celera SNP ID:            hCV29430806
SNP Position Genomic:     37063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15661):
AGCGCACACATTGGTAAAGCCATTTCATTCATTTCTGCTAATGTTAATGGAATTAAATCTGTTTCAAGCCAGGTAGGTGAGGTGTTGAGTTTTCAGATTG
K
CAGAGATAGCTTTTCTGTTTGGTTCTTATGAGCTAATACTCTACATAACAATTCAAATTAGTCAACTGGTTTTTCTCATGTTTGTGTTGGGGTGTGGCAG
Celera SNP ID:            hCV29430807
SNP Position Genomic:     19953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15662):
TAAGTTTGGAATCTGACAGCACAGACACTTACAGCCACCATAGCTGCTTTTTCTTTGCATTTAATTGGGTTAACTTTTAAGAAATGGCATGTTTGACTTA
M
GATTTTTAGGCATATAACCTATAATATTGGCTTTGGGGGGTGCTTTTCTGTTCTTATTATTTGTCCTTTATCTTGGCACCTCATAATTAACTAATGGTGG
Celera SNP ID:            hCV29430808
SNP Position Genomic:     18339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15663):
GAACCTTGCTGGCACCTATGAGATTAATTCCTGTCGGCTGTTCCCAGTGTGAGGTAGTGGGAATGGCCCTTGCCTGTGAGCTCCGTCCTAGTCGGGCCAC
Y
GCTGACCAGCTAGATGAGCTTGGCAAGTCATTTTCACCAACAGAGTTTGTTTTCAGGTTTTCTTTCTTGATTTGAAAAAAAATGAGGGAGATCTGGGACT
Celera SNP ID:            hCV29430809
SNP Position Genomic:     17795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15664):
GGGATTACAAAATAGAACCTCCATTGTACTGGGAGGATGAACAGAAAATGCATTTAATGTGGGCTTGAGGGCATCTGCCTTACCGTCTGTTAGGGGAGTT
G
TCTAGTCAATGAGCTTTTTTAAAAAAATCTCTTTTTATAGCTGAAGATACCTATGCCATTGCTCTTTGATAAACATCAGGTTTTTCTTTCCATGCATTTA
Celera SNP ID:            hCV11415480
SNP Position Genomic:     90291
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,6)   total(G,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15665):
TATTACTTGTATTTGCATGATCAGTAGTGTTAGCCTAGTGGACATGGTAAAAATCAGAGATGGGGGTCTGGAAGCCTGCTAGCCAGACTTAGGAGGAGCT
K
CTTCTCCTTTTTCTCACTATCTTTGCACAGTTTCCAATTTTGGGATTACAAAATAGAACCTCCATTGTACTGGGAGGATGAACAGAAAATGCATTTAATG
Celera SNP ID:            hCV11415483
SNP Position Genomic:     90149
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15666):
ATTGATTTCTAGACCTATAGACCTATGTGAAGTATCTCAACCAAAGAGATGTTTATCTCCAACCTAAGCATAGCTCTATTTTATTTCTCCTTTTGTTTTT
K
GGAATCATTAAAGATAAAACTACTCCCAGCCATTACAACTGTCATGATGACATAAAATACTGCATCAGAAATAGTAACCAGGGTCTTTATACTGTTGTTT
Celera SNP ID:            hCV16127387
SNP Position Genomic:     42021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15667):
GTCATCTACTTTGGGTCTACGGCTTCATCCTATATGGGCCACTGGCCAATAGGGAAAGGACTTGTGTGCCCCCATTTTGATTCATATTCATTTCCCCCCC
C
AAATCCATAGCTGACCTGACTGATTCATATTCAGTCTGCGGACTCTTGTCATGTAAATCTTCCTGACTGCTGGGAAACACAGCAGTATAATTGTGAGCAC
Celera SNP ID:            hCV11415484
SNP Position Genomic:     89786
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15668):
ATGCTAGTTGAATCTTATTCTGTATAAAGTAATGCTTGCCTATCACATGTTAAATATGCAAGAAGTCCAAGTTTGCCAATAATGATATTCTTGGATTATT
R
CATTTAAAGAGTTGACTTTAAAGAATCTTCTAATTTCCCAGAAGTGATATTGTTTTTGGTGTGTCACCTTCTGTCATCTACTTTGGGTCTACGGCTTCAT
Celera SNP ID:            hCV11415485
SNP Position Genomic:     89613
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15669):
CTGTTATTGGATTTGAGCGAGAGTCTAGCCTCTTGATTGGATAAGGAAGACACCTGGCTATCCTTGATTGCATTTGGAAAACATTCTGCTTTTTTTTTTT
T
GTGGAAGATTGAGAAATACTCTAGTCTCATCTTCAATATAGTATCAAGTCATCTTTTATGTTGGAGGCTTTCTGTTGATGGCTAAACTCGTCATTTTGAT
Celera SNP ID:            hCV11415559
SNP Position Genomic:     52951
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15670):
AATTTTTGTATTTTTTTAGTAGAGACAGGGTTTCACCATGTTGTCCAGGCGGGTCTTGAACTCCTGACCTCAGGCGATTGAACCACCTCGGCCTCCCAAA
R
TGTTGGGATTACAGGCATGAGCCACGGCACCCAGCCCTAAAGCTCTTAAGGAAATTTAAAGGACCTAGAATAGCCAAAACAATTTTGAGAAAGATCAACA
Celera SNP ID:            hCV27337005
SNP Position Genomic:     107139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15671):
CATGCCTGGCTAATTTTTGTATTTTTTTAGTAGAGACAGGGTTTCACCATGTTGTCCAGGCGGGTCTTGAACTCCTGACCTCAGGCGATTGAACCACCTC
R
GCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACGGCACCCAGCCCTAAAGCTCTTAAGGAAATTTAAAGGACCTAGAATAGCCAAAACAATTTTGAG
Celera SNP ID:            hCV27337006
SNP Position Genomic:     107128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15672):
ATGTATCCACCACTACAGCATCATACAGAGTAGTGTCACTGCCCTAACAATCCTCCGTGCTCTGCCTGTTCATCTCTCCTTCCCCACTCACCCCTGGCAA
Y
CACTGATCTCTTTATTGTCTCCATAGTTTTACCTTTCTCAGAATGTCATATCTTTGGAATTAACCGTATATAGCCTTTCTATTTTCAGAATAGCCATAGC
Celera SNP ID:            hCV11415488
SNP Position Genomic:     86318
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15673):
CCTGAGAAGCTGGGATTACAGGCACCTGCCACCATGCCTGGCTAATTTTTGTATTTTTTTAGTAGAGACAGGGTTTCACCATGTTGTCCAGGCGGGTCTT
R
AACTCCTGACCTCAGGCGATTGAACCACCTCGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACGGCACCCAGCCCTAAAGCTCTTAAGGAAATTT
Celera SNP ID:            hCV27337007
SNP Position Genomic:     107096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15674):
AATTAGCTGGGCATGGTGGCACATGCTTGTAATCCCAGCTACTTAGGAAGCTGAGGCACAAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAATGAGCC
R
AGATCATGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTTGTCTCAAAAGAAAAAAAAAGTGTCAGAATTGAATTGAATCGTAGGACACTCTGT
Celera SNP ID:            hCV27337008
SNP Position Genomic:     105534
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15675):
AACCCGTAGCATCTAACTCTAACGCCAGCTCCAGGTAAATAGTGTCAGAATCAGCCAGGCACAGTGGCTCACGCTTGTAATCTCAGCATTTTGGGAGGCC
R
AGGTGGGCGGATCACTTGAGGCCAGGAGTTCGAGACCAGCCTAGCCAACATGGCGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTG
Celera SNP ID:            hCV27337009
SNP Position Genomic:     105351
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15676):
CAGGTATTCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCGGCCTATCGGTATGTATTTTTTAAAAGCGTAAAGGCAG
K
TCTGTCTTTCCAAAGAGTTACCTTTATTGGGAAAAAATGTTATGCTTTGTTTAGATATTTATCAAGTGTAATGTATAAACATTATCATAAAAATGAGCAT
Celera SNP ID:            hCV1266782
SNP Position Genomic:     81211
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15677):
AAAGGACACTGTGTCCACTCGCACGCCCAGTCTTGGTATGCACCTGCCACTCCTTGACCATGATGCCTCTGCACACACCAGTGGTGATGTCCCCCTAGGC
M
AGAACAGATCTGGGAGGAGCTTGTTCATGCCCTAGAAGCTACTTGGGATTTGAGAAGGGAATTCTGGGGACCCGGATCACAGACTAAAACCAAGTGGAGG
Celera SNP ID:            hCV29430810
SNP Position Genomic:     10082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15678):
GGTTGTTGGCAATTTGTAATCACTATGCTGGTGGTGTACCTCCATTTAATAATAAAGAAACATGGGCAAATAAGTAGCCAAATAAAGGCTTGTCTCTTTG
Y
ATCTATTTCTCTGCTGATAGTGCTCTATTTTTAGCATTGGGTTCTCTTGTTGAGTAACCTTTCTTTGTTGATAGCTTCAAGTATTTCAGCCTCTGGTTTG
Celera SNP ID:            hCV29430811
SNP Position Genomic:     8955
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15679):
TGCTGCCTGCATGTCATTAACGTGGCAAGTATTTTTCTTCAAGTTGTTTGTTCAGTCATTGTAGGCTGAAGGAAGAGAAATAATTAGGTTGTTGGCAATT
W
GTAATCACTATGCTGGTGGTGTACCTCCATTTAATAATAAAGAAACATGGGCAAATAAGTAGCCAAATAAAGGCTTGTCTCTTTGCATCTATTTCTCTGC
Celera SNP ID:            hCV29430812
SNP Position Genomic:     8869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15680):
TGAAGTCTGCAACCTAATGGATGCTTGAGCATCCCTGTCCTTTTTTAAAAGAAGCTTTTTTCCTCAGCAAGACATTCAAAACCTGGTCAAGGGGCTGGGC
R
TGGTAGCTCACGCCTGTAATCCCAGTGCTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGGCTAACAGGGCAAAAAC
Celera SNP ID:            hCV1266787
SNP Position Genomic:     79904
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15681):
GTGCTCTTCAACAGAGATGACAACCAGATGAACTCACAGGCTTTACCACTAATGTCGGGTGTTCTGTATTTGACACATTTCATGGCCTGTTGTGAAGACA
Y
GTTTTCTTAAACACCCTCATTGCACAAGAAAACAGCATACTCGTTACTGACTACTGATAAATGATTATAATATAATGAAGCTTGACTGTATGACTAATGG
Celera SNP ID:            hCV29430813
SNP Position Genomic:     8059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15682):
AGGAGGTAAAAAGTCATTGACCAGAGGAGTGGGTTTGAAACCATTTGGATCCTGCCGGGTTATATCCAGTTAATTGAAGGAAAACCGGAAAGGGGGATTT
R
GTTCCTGTGGAAGGCCATCCTGGATTTGAGCTACTAAATTAGTCCACATCTCTCTGAAGTCTGCAACCTAATGGATGCTTGAGCATCCCTGTCCTTTTTT
Celera SNP ID:            hCV1266788
SNP Position Genomic:     79749
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15683):
TGCCATTGTTCTTAATGTCCACTGATAATTACTGTTAATGACTGTTGGTGACCACAAATGGCAAATGGCCACTACGGCAATCAAAGGGCACATTTGAATG
W
ATTAATGTGTTTAATGCATTAGTTATTACTAGCATCCCTTGAGTGGTGAACAGTCTCAATTATGACAATTATTTCTTCTTGCTAGATTTAGCTGGGAGAC
Celera SNP ID:            hCV1266789
SNP Position Genomic:     79247
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15684):
TTTTTCCTCTCTAAGCTCAGTTACTCCCATTGATGGGCGCAGAATGAGCATCTGGGGCAACCTCGACGGGTGCCTCGGTGGAAGGGCGGGAGCCCTGCGG
R
GGGCCTGCGGGATCCCGGGATCTGTCAGCTTCAGGCTCCCAGCTCCCCTCTCCTCCACGACATCGTGACTTCCCAAGGTCCAGGGACTAAGGTCATACAC
Celera SNP ID:            hCV29430814
SNP Position Genomic:     7623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15685):
GAGCAAAGTGTGATTGTCTCCAGGAAGCTCTGCATCTGGGTTTTTTTGCTGACATTTTCTTTTCTTTTTTTCTCTTTGAACGCTGTGGTTTTGAACAAAT
Y
GGTAATGTGATAAGTCTTCACTTAACGATTTTCAGGCATCAGGAGTACACGATTCCCTGGAAGAGACATTTACATGGAATATTTATTTATTTGAAGAGGA
Celera SNP ID:            hCV15875790
SNP Position Genomic:     68104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15686):
GTGTTTAGTGTTCATAAGCAGAGCAAAGTGTGATTGTCTCCAGGAAGCTCTGCATCTGGGTTTTTTTGCTGACATTTTCTTTTCTTTTTTTCTCTTTGAA
Y
GCTGTGGTTTTGAACAAATCGGTAATGTGATAAGTCTTCACTTAACGATTTTCAGGCATCAGGAGTACACGATTCCCTGGAAGAGACATTTACATGGAAT
Celera SNP ID:            hCV15875791
SNP Position Genomic:     68084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15687):
TTGGTGGCCCACACCTGTAATCCCAGGCCAATCACTTGAGTGCAGCAGTTCAAGACCAACCTGGTCAACATGGCGAGATCTCGTCTTTTAAGAAAAAAAA
A
TTGGCCTGTCGCGGTGGCTCATGCCTGTGATCACAGCACTTTGGGGGGCCGAGACGGGTGGATCACGAGGTCAGGAGATCGAGGCCATCCTGGCTAACAC
Celera SNP ID:            hCV16148152
SNP Position Genomic:     81801
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15688):
TTTGAGACGGAGTTTCACTCTTGTCGCCCAGGCTGGAGTGCAATGGTGCAATCTTGGCTCACTGCAACCTTCGCCTCCTGGGTTCAAGAGATTCTCCTGC
S
TCAGCCTCCTGGGTAGCTGGGATTATAGGCACCTGCCACCATGCCCAGCAAATTTTTGTATTTTTAGTAGAGACAAGATTTCATTCACCATGTTGGCCAG
Celera SNP ID:            hCV11415560
SNP Position Genomic:     50480
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15689):
CACGGCTTAGAAGATTGTCCTTGCCATCTTTAGCAACTGTCTCAGCCGTCACTTATTTTCACTCGTCTTACGAGGACCAACCTGCCGACTTTCTCGTCAC
K
GGGGCATTGTTAACAACCAGCTGTGCGTGTTTAGTGTTCATAAGCAGAGCAAAGTGTGATTGTCTCCAGGAAGCTCTGCATCTGGGTTTTTTTGCTGACA
Celera SNP ID:            hCV15875792
SNP Position Genomic:     67957
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,466|G,1033)   total(G,1033|T,466) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15690):
GTTTTTCAGGAAGCTGGTGGACAGTGGTGGGCATTTCTGCTCTGGGATTCAGGTTGTCCTTAGAGGAGAAATTCTAATGATCTGGTAGAACATTAAAAAA
W
GTTCTCGAATATTTAATTATTAGCTATCAATGTTCTTTTCTGCTGCCCTGTCTCTTCGCTTACTTTATTTCTTGTTCCCCAAGTAATCCACTTCTCAAAT
Celera SNP ID:            hCV11415563
SNP Position Genomic:     44864
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15691):
AACAGGGTGAAACTCTCCCAGAGACGAAGAAAGAGTCCTGGGATTTGTACTTCATGAAGACTTTTGTGAAAGAATAGGTGTCCTTATGAACAACGTTTTT
K
TTTTTTTTTTTTTCTTTTTTGGTGTGAAGGTGGGGGGGTCTATTAGACATTTATTCAAGAGCGTTCTTTTTTTGGTTTTAAAGGTTTTTGTTAATGTAAT
Celera SNP ID:            hCV27438540
SNP Position Genomic:     112625
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:15692):
TTTTGTGTTTTTAGTAGAGACAGGGTTTCACCATATTGGTCACGATGGTCTCGAACTCCCAACCTCAGGTGATCTGCTTGCCTCGGCCTCCCACAGTGCT
R
GGATTACAGGCGTGAGCCACCATGCCTGGCCCAGAGTAGCATATTCTTGATTTGAATTTGTAGACTGGAAAGTTCAGTGTAGTCTGATGATGATGATGAT
Celera SNP ID:            hCV27337010
SNP Position Genomic:     101169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15693):
TTCTGGAACAGGGTGAAACTCTCCCAGAGACGAAGAAAGAGTCCTGGGATTTGTACTTCATGAAGACTTTTGTGAAAGAATAGGTGTCCTTATGAACAAC
K
TTTTTGTTTTTTTTTTTTTCTTTTTTGGTGTGAAGGTGGGGGGGTCTATTAGACATTTATTCAAGAGCGTTCTTTTTTTGGTTTTAAAGGTTTTTGTTAA
Celera SNP ID:            hCV27438541
SNP Position Genomic:     112619
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:15694):
GGTTTGACTTTTCTTTTAAGTTATGCTTGACTTAGTCTTTTTTTTTTTTGAGACGGAGTTTCACTCTTGTCGCCCAGGCTGGAGTGCAATGGTGCAATCT
Y
GGCTCACTGCAACCTTCGCCTCCTGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCTGGGTAGCTGGGATTATAGGCACCTGCCACCATGCCCAGCAAATT
Celera SNP ID:            hCV27337011
SNP Position Genomic:     50434
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15695):
AGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCCCAAGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAG
Y
CACTGTGCCCGGCCATAACGCTTGTCTTTGGTTTTGTCTAATACCAATTGGTATTTTTTGTTGAACTCTCCAGTGTGTTTGTCAAACATGTAACATATTT
Celera SNP ID:            hCV11415493
SNP Position Genomic:     83183
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15696):
ATTAGCCGGGAGTGGTGGCATGTGCCTGTAATCCCAGCTACTCAGGAAGCTGAGGCGTGAGAATCACTTGAACCTGGGATCTGAAGGTTGCAGTGAGCCG
R
GATTGTGCCACTGCACCCCAGCCTGGGTGACAGAGTGAGACTCCATTTCAAAAAACAAACAAACAAGAAAGAATTAACTGAGATGATTCATGCAGTCAAG
Celera SNP ID:            hCV11415566
SNP Position Genomic:     43542
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15697):
TGGTCAGGTTTGACTTTTCTTTTAAGTTATGCTTGACTTAGTCTTTTTTTTTTTTGAGACGGAGTTTCACTCTTGTCGCCCAGGCTGGAGTGCAATGGTG
Y
AATCTTGGCTCACTGCAACCTTCGCCTCCTGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCTGGGTAGCTGGGATTATAGGCACCTGCCACCATGCCCAG
Celera SNP ID:            hCV27337012
SNP Position Genomic:     50428
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15698):
TAATTACACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACTTGGGGTCAGGAGTTTAAGACCAGCCTGGCCAACATGGTGAAACCCC
R
TCTCTACAAAAAATATAAAAAATTAGCTGGGCGTGGTGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGGAGGAGAATCACTTGAACCTGGGA
Celera SNP ID:            hCV27438542
SNP Position Genomic:     103580
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15699):
GTGTTTTGGGGAAACAGATAACAAAAGGGATGTTGTAAGAATTAACTGAGATGGGCCAGGCACGGTGGCTCCGGCCTATAATTCCAGCTGTTTGGGAGGC
Y
GAGGGGGATAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGACAAGACCCTGTCTCTACCAAAACCACAAAAATTAGCCGGGAGTGGT
Celera SNP ID:            hCV11415567
SNP Position Genomic:     43357
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15700):
ACTGGTGGAGAGGCAGTCAGTTAATAAAAATTTCCCCGGAAGGAGTGATGGGGGAAGGAGAGAGGAGAGGGTGGGAGGAAGGAAAGGGAGGGAGCTGGCC
C
TTCCAGAGCAGTCATTTCCGGATTCTGTGGCCTTTCAGTGAACACAGAGGTCTTTCGAGGCCTCTCAGAGCTCTGGCTGCCTTCTCCAGTCTTTGGCTGT
Celera SNP ID:            hCV27438543
SNP Position Genomic:     102115
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15701):
TGTTAGAGAAGACTTGACTTGCCTAGTTAATTACATTTCTTCTCTAGGCCCAAATATGTTTCTGGACCAGTTCTGCTGGCTAAAGTCCTTGGGGAAGGCT
K
GTTGACCTCAGGTTGTCCAGTTGGCAGTAATGAATCTATTTAACCATCCAGCCAGTCATGCAATAAATATCTTTTATGGGCCTACTATGTGGCAGGCATA
Celera SNP ID:            hCV27337014
SNP Position Genomic:     28849
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,6)      total(G,4|T,6) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15702):
AGGTGGTTGGTGCCACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCGTGTGTGTGTTTAGCCAGGAGGGAGCTGTTGGGAAATGCCA
S
CTAAGGAATGTTTTCAAGTGCAATTCTAGCACTTCATGATGTGAAGAATAAATACGATCTCCTTTGTAGTCCCTTGAGACGGGAGGTCGCACAGTCTGGG
Celera SNP ID:            hCV27438544
SNP Position Genomic:     100382
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15703):
TCTACTAAAAATACAAAAATTAGCCAGACGTGGTGGCATGCTCCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAACCCAGGAGGC
R
GAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTGTTTAAAAAAAAAAAGACGAAGAAAAAAGAAAAGAAAAGA
Celera SNP ID:            hCV27337015
SNP Position Genomic:     24598
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15704):
TCAGAGGAGCCAGCATGAGGAGGAGGAGCTGAAAGCGGAGGGAGGTGGTTGGTGCCACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCG
Y
GTGTGTGTGTTTAGCCAGGAGGGAGCTGTTGGGAAATGCCACCTAAGGAATGTTTTCAAGTGCAATTCTAGCACTTCATGATGTGAAGAATAAATACGAT
Celera SNP ID:            hCV27438545
SNP Position Genomic:     100340
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15705):
TGCGTCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTATTCACCC
R
CCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCGGCCTATCGGTATGTATTTTTTAAAAGCGTAAAGGCAGGTCTGTCTTTCCAA
Celera SNP ID:            hCV11415496
SNP Position Genomic:     81124
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15706):
GCAGATCGCCTGAGGTCAGGAGTTCGAGATCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGACGTGGTGGCATGC
K
CCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCC
Celera SNP ID:            hCV27337016
SNP Position Genomic:     24539
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15707):
TATCAAAGAGCTGCTTTCTCGGATAAGAGGCATGAGGAAACTGAGCCCTCCGCAGAAGAAGAGTGTATGATTCTGGAACAGGGTGAAACTCTCCCAGAGA
Y
GAAGAAAGAGTCCTGGGATTTGTACTTCATGAAGACTTTTGTGAAAGAATAGGTGTCCTTATGAACAACGTTTTTGTTTTTTTTTTTTTCTTTTTTGGTG
Celera SNP ID:            hCV25643119
SNP Position Genomic:     112549
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34)   total(C,71|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:15708):
ACTCAGAGGAGCCAGCATGAGGAGGAGGAGCTGAAAGCGGAGGGAGGTGGTTGGTGCCACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
Y
GCGTGTGTGTGTTTAGCCAGGAGGGAGCTGTTGGGAAATGCCACCTAAGGAATGTTTTCAAGTGCAATTCTAGCACTTCATGATGTGAAGAATAAATACG
Celera SNP ID:            hCV27438546
SNP Position Genomic:     100338
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15709):
ATTGTGAAAGGGTTTGGAATCATTTTAGTAAAAGTTTTAGGTTTATAACTGGTTTATATATTCTATTGGTTTATTGGTATGTATTTTTTTTTTTTTTTTT
T
GAGACGGAGTCTCGCTCTGTTGCGCAGGTTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCCTGAGTTCAACCAATTCTCCCGCCTCA
Celera SNP ID:            hCV11415497
SNP Position Genomic:     80895
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15710):
TTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCACCTCCTGGGTTCACGCC
R
TTCTCCTGCTTCAGCCTCCCGAGTAGCTGGGACTGCAGGTGCCCACCACCACACCCAGCTAATTTTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTT
Celera SNP ID:            hCV27337017
SNP Position Genomic:     23756
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15711):
CGGCCACATCCAAAGACTCAGAGGAGCCAGCATGAGGAGGAGGAGCTGAAAGCGGAGGGAGGTGGTTGGTGCCACTGTGTGTGTGTGTGTGTGTGTGTGT
K
TGTGTGTGTGTGTGCGCGTGTGTGTGTTTAGCCAGGAGGGAGCTGTTGGGAAATGCCACCTAAGGAATGTTTTCAAGTGCAATTCTAGCACTTCATGATG
Celera SNP ID:            hCV27438547
SNP Position Genomic:     100323
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,8)   total(G,1|-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15712):
AGCGCTAGGAATGGAGGCCCGCAGAGGCTTATGGAACTGGCCCATGGTCACTCAGCCAGGACATGGGAGCCCAAGACTGCAGACCTGAGGCTCCTAAGCA
Y
CCCAATCTCTCATCTCAACTTCAGGATAGCCTCGTGAGTTCTGCTCACGCCATTCCCAGGATCCCCCATCCTCAAAGCTTCCTCTGTCTTAGTCCTGCCC
Celera SNP ID:            hCV11920712
SNP Position Genomic:     37216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15713):
TTTTCCGTGAGAGGGTAAAACTTCACCTGCAGTGTGACAGCGGCCACATCCAAAGACTCAGAGGAGCCAGCATGAGGAGGAGGAGCTGAAAGCGGAGGGA
R
GTGGTTGGTGCCACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCGTGTGTGTGTTTAGCCAGGAGGGAGCTGTTGGGAAATGCCACC
Celera SNP ID:            hCV27438548
SNP Position Genomic:     100283
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15714):
GGTGACAGAGCGAGATTCTGTCTCAAAACAAACAAACAAACAAACAAAACTGGTCAAGGGTTATATTTTGTTTTCAATGCTATGGTAGCAAAAAAAAAAA
A
TAAATATTTTCCTGTTCAAAAAACTTCTATGTAGCACATGTGTATGCAGGCTGAAGAATTTATGAAGGTTAAACGTTTTCTATCTTCAGACTACCAACTG
Celera SNP ID:            hCV11415499
SNP Position Genomic:     80253
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15715):
TCCATGCGGTGCATTCTCAGATCCCAAAATAGTGCCCAGGACTGAGATGAGAGGTAGGGGCCCAGGAGTTTACTGAAGACAGGACCTTTTCATTGTTTTC
Y
GTGAGAGGGTAAAACTTCACCTGCAGTGTGACAGCGGCCACATCCAAAGACTCAGAGGAGCCAGCATGAGGAGGAGGAGCTGAAAGCGGAGGGAGGTGGT
Celera SNP ID:            hCV27438549
SNP Position Genomic:     100188
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15716):
CCGGTGGGGCTGGGCCCTCGATTCGCATCAGGCAAGCTCATCTCCATGCCTTGCGTGCTCCCCAGCTTGTCAAGCCTCCATCTGTTTCGTTCTTCACTCC
R
GCATCCCATGTACCTTCCTCAATCTGGATTTGGGGACATGCCCTCTGGCCTTCATGAGCCACAACTGTAGAGGATATAAGAAAATCAAAGTTTATTTCTC
Celera SNP ID:            hCV28003514
SNP Position Genomic:     71179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15717):
CTCTGTTTAATACCTGAGGATGCCTGGTTCTCACTGTGTTTTCCTTACGTGCTTTATCTTGTTCAGTCTTCAGAATAATGCCGATGCCAGCCAGCGCTAG
R
AATGGAGGCCCGCAGAGGCTTATGGAACTGGCCCATGGTCACTCAGCCAGGACATGGGAGCCCAAGACTGCAGACCTGAGGCTCCTAAGCACCCCAATCT
Celera SNP ID:            hCV11920716
SNP Position Genomic:     37124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15718):
AGAGGCCTCACATGGCTGGATGTAGGTTACAAGGTCGCTCTCACAGTCAAGGTGTGAGCAAGGCCTTGGTCTTCCCATCAGCCATGCTGCCTTATAAGCC
R
CTCAGTCAACTCCCCATCCACCTCCAAACTGCTGCTTGCCTGGCCTCCCTCTTCATTGATGATGTGATGAGCCACCCAAATAGACCTGGAGTTTTTTTTG
Celera SNP ID:            hCV11920717
SNP Position Genomic:     36320
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15719):
TGTAACTGATGTGGGGAGACCGACTGGGGACAAAGAATGAGGATAGTAACAGGAGATGACTCCTCCTCCCCAGGAGGCCAGATGCATCCAGAGGCCTCAC
R
TGGCTGGATGTAGGTTACAAGGTCGCTCTCACAGTCAAGGTGTGAGCAAGGCCTTGGTCTTCCCATCAGCCATGCTGCCTTATAAGCCACTCAGTCAACT
Celera SNP ID:            hCV11920718
SNP Position Genomic:     36231
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15720):
GTGGACAGCAATAAAGTACAGTACTTATTTCCCTTCCCACAGGAGGTCAAATCTATCATTTTTAAATCTGCTTTTGGGAGTTTCTAAAACCAATTAACTT
K
TGACTTGCCATTGTTCTTAATGTCCACTGATAATTACTGTTAATGACTGTTGGTGACCACAAATGGCAAATGGCCACTACGGCAATCAAAGGGCACATTT
Celera SNP ID:            hCV1266790
SNP Position Genomic:     79141
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:15721):
TCCTTTTCCTTCCTTCCTTCATTTCCCTTCTTCATCTGTCCCCATCCCTCCTTCCCTTTTCCTGTCTTTTCCCTTCTTCTCCTCTTTACCCCTTCATCCT
K
TTTCCCCTTTTCTCTCTTTCCTTCCCTCCTCTCCCCCTAGCCTCTCCTTCCCCCTGCTTATCTGTCAGCCCTTCTCAATTGATGATCTAGTTGTTTGTTC
Celera SNP ID:            hCV1266791
SNP Position Genomic:     78248
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,5)      total(G,4|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15722):
CAGGTTTTCCATAGACCCAGAGCTGTGAAGGAAGATGTGGACCCCCAAATAAAGATTGGGGTAATCACCCAGCAAAGGGTGGCTGTCAGATAGGAAACTG
Y
CATCTCCCGGCTCTATCATCTGCCAGTCTCCCCTTATATACTTACAGATGCAGCTTAATGCTAGAAAGTAGAAAATTCTCATTTTTTGAAAGATTACTTT
Celera SNP ID:            hCV1266792
SNP Position Genomic:     77983
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15723):
ATTCCAAATCAGTGGGGTCTTTCACCAAATCCATCTGGCCCTTCTTCCCTCTTTTTGGGCTAGAGGTCTTTGGTGGCAGGAATATTAAACTAGACCCACA
Y
TGGCTGCAACAATGAAAGAGGTTGATTCACTCACTGATAGGCAGGCTTCAGAGGTGGTTTGACACAGGGATGTGGTGACTTTATCTAGAACCCTGTTTTC
Celera SNP ID:            hCV1266793
SNP Position Genomic:     77533
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15724):
TTTGGCCTAACTTGGCTGGCGTCAAAACTATTTGAATTATATTTGCAGAAAAACCCATTGCTGTGCTGTTCTGCGGAGGGCATTAGTTACTAATTGTTCT
Y
TCATTTCCTTTAAAAATAGCAGACACCAAGCTCCCTTAGCTGTGATTTAAGGAGCCACAGTGGTATAGCTGGCGAGTGCAGTCACGAACCGCATAACAGC
Celera SNP ID:            hCV1266796
SNP Position Genomic:     76261
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15725):
TGCCTCCTGCTACCATTTTGCCTCTTGGGAGTGCTCTCCCTTCCCTCTAAACCTGTTCAAATCCTGTCATTCCGCAAGGTCAGTTCACCTCCTCCCTCCT
R
TGTGCAACTTCCCTGCCTGCCCCTGGCGGAGTTTTCTCTCTCCCTGAATCACTAAAGCGCTTCAGGTTTGTCTGTGGCTTTGGGGCCATTGCATGTCATT
Celera SNP ID:            hCV1266798
SNP Position Genomic:     74767
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15726):
GCCCAGAGCTGACTGGCTTCCTGGCCAAGGACCTTTCTACACCCACATTTAGAATTCATCTTGTCTCTTTGCCTCCTGCTACCATTTTGCCTCTTGGGAG
K
GCTCTCCCTTCCCTCTAAACCTGTTCAAATCCTGTCATTCCGCAAGGTCAGTTCACCTCCTCCCTCCTGTGTGCAACTTCCCTGCCTGCCCCTGGCGGAG
Celera SNP ID:            hCV1266799
SNP Position Genomic:     74698
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;(G,-|T,-)   Caucasian(G,42|T,42)   African-American(G,84)   total(G,126|T,42)   (T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15727):
TCTGAGTCCCTGACAGATACTCAGTACCCGCGAGAGCACGGTACTGTGCCAAGCAAACTAGAAATGCACACACATAGGAAAGAATAGTCTCGGGTGAGTG
R
ATGCATTAAAAAGGTCCATGCGGTGCATTCTCAGATCCCAAAATAGTGCCCAGGACTGAGATGAGAGGTAGGGGCCCAGGAGTTTACTGAAGACAGGACC
Celera SNP ID:            hCV27438550
SNP Position Genomic:     100073
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15728):
CAACAAATGTTTATCAGCATTCAGAATTTCTCCATTTCTTTTTTTCTTTTTTCTTTTTTTTGAGACGGAGTCTTGCTCTCACCCAGGCTGGAGTGCAGTG
G
TGCGGTCTTGGCTCACCGCAACCTCTGCCTCCCGGGTTCAAATGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTTCCCGCCACCATGCC
Celera SNP ID:            hCV11415576
SNP Position Genomic:     35252
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,2)   total(G,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15729):
TTGTAATTAGACTATAATTACCTAACCCGGTTGCTTAATAATAAAGACTTCTCACCCCAGGCAGCATGGTGCAAAGGGAATTGTGCCCTCCACCCCAGGG
Y
GGTGATCATCCCAGGTCCCTTTGGCCTTTATATTAACCTACGGTTTGAATCTTGGTCTGACCATTGAGCTGCTGTGTGACCTCAGACAAACCGCTAAACC
Celera SNP ID:            hCV27438551
SNP Position Genomic:     99768
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15730):
AACACATCTTTAATTTCAGAAGAACTTGACCCAAGCAGGTTAGGAATCAGATGACTTGACCTTTTCAGAATAGAAAATAATCTTTTGGAGCAGTGTAAAG
Y
GATGTATTTAGAAAGAGGAAGAGGAAAGAAGAAATACACAGAACCACTTTCTGTCTGTGTTTTTTTCTGGAAGTGTGCAGTGACTAATCAGTTTTGTATG
Celera SNP ID:            hCV3124308
SNP Position Genomic:     9352
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15731):
CCTTGCTTTTGGGTGCCTTCTTTCTCTTGATAATTAATAATTGTTATTTTTATAAGAGACACGATAGAGGAGGCACAAGCTTTAAAGGGCAGTGGACCCG
R
TTAGCATTTTCAAATGATTGACTGTGATTTTATGGCCTTTTCTTATTCATTAAACTGAGAATGGCCAACCCTGTATTAGAAACAGCTCTACACTCTCTTC
Celera SNP ID:            hCV27438552
SNP Position Genomic:     92665
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15732):
GCAACCTCTTGGAAGGCCACAGTAAACTATGGTGGAAATTTAAATGTTCAAAGAACATTTAGGAATGAAAGGACAGAAATGTCAGGCTGTGAGCTTATTC
R
ATGGTTCTCTAAGTTAGAAACCAAATTGCTTGACAGAATGTGCTTTTTAGGGCATCTGCACTTGCTAGAGGAAGCAGTCACATTATTCATTTCAATGGGT
Celera SNP ID:            hCV27438553
SNP Position Genomic:     91130
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15733):
GATATAAATTTGAAATTAGTGAGGTCAAAATGCCACATGCACTTTTAGGTGCTAGGGACACAGGTGCTTAGGATACAACAGCGAAAGAGTCCCTGTGCTC
Y
TAAAAACAAATGCAAATGAATAAATCAGAATGGCTTCAGCTCACGAGTAGTGCTAGGAAAAAAATAAAGCTAATAGGATAATGAGTGAGAGACTGTGGCC
Celera SNP ID:            hCV11415578
SNP Position Genomic:     26162
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15734):
CGGGACACAATTCTTCAACATTTAAGCATTTGCTTGAATGAATGAAAAAGGATCAATGTTCAGCAAATGTTTAAAAGTCATTGATGTTTCTGTATCTGAA
Y
TAATTGGTGATATTCCTTTATCATAGACATGGCGAGGGCAAAAGTCAATCTGTGTTTTTGTTACTGTAGTCATATCACATTCTTGCATCCTTACAGCTTT
Celera SNP ID:            hCV8913130
SNP Position Genomic:     13515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15735):
TGGAATTAACCGTATATAGCCTTTCTATTTTCAGAATAGCCATAGCATGAACATTTGAAGCCTTTTCAAACTGGCTTTTTTTTTTTTTTTTTTTTTTTTT
K
TGGTGGGGTCTTGCTTTGTCTCTCAGGCTGGAATGCAGTGGCACGATCTCTGCTCACTGCAACCTCTGCCTTCCAGGTTCAAGTGATTCTCCTACCTCAG
Celera SNP ID:            hCV27438554
SNP Position Genomic:     86473
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15736):
CAGTATCATACAGAACAGTTGCACCCCCTATAAATATCTCCTGTGCTTTATCCATTTACCCCCCTCCGTTTATTTTCTTTTCTTTTTTCTTTTTTTTTTT
T
GAGACGGAGTCTTGGTTTGTCACCCAGGCTGGGTGCAGTGGTGTGATCTGAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTTCTGCCTCAG
Celera SNP ID:            hCV11415579
SNP Position Genomic:     25460
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15737):
TACCTTTCTCAGAATGTCATATCTTTGGAATTAACCGTATATAGCCTTTCTATTTTCAGAATAGCCATAGCATGAACATTTGAAGCCTTTTCAAACTGGC
T
TTTTTTTTTTTTTTTTTTTTTTTTGTGGTGGGGTCTTGCTTTGTCTCTCAGGCTGGAATGCAGTGGCACGATCTCTGCTCACTGCAACCTCTGCCTTCCA
Celera SNP ID:            hCV27438555
SNP Position Genomic:     86448
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15738):
AAAAAGAAAAGAAAAGAAACCAAGATAAGGGATGCCAAGTGTACTTGTTGCTACTGAAATGTAATTGTTTCTAAGATCTCTCACATGACAGCAAGAAAAT
M
TATGTGTGTATTCTTATTGGCGTATACATATCTACAAATATTTCCATTTGTAACCATCAGCATCTATATCAAGCTAAACATCAGCTCATTTGATGTCTTC
Celera SNP ID:            hCV1920398
SNP Position Genomic:     24782
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15739):
TTACCTTTCTCAGAATGTCATATCTTTGGAATTAACCGTATATAGCCTTTCTATTTTCAGAATAGCCATAGCATGAACATTTGAAGCCTTTTCAAACTGG
C
TTTTTTTTTTTTTTTTTTTTTTTTTGTGGTGGGGTCTTGCTTTGTCTCTCAGGCTGGAATGCAGTGGCACGATCTCTGCTCACTGCAACCTCTGCCTTCC
Celera SNP ID:            hCV27438556
SNP Position Genomic:     86447
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,4)   total(C,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15740):
GGTTTATTGTGGGCCTCAGAATAGAAGCTTCTTGGCCTGAAAATGAAGTTCTTTGGAAGTGCCATCTGACACTTCTCCTGGTGGGCAGAGTTGCTGAAAC
Y
GGAAGCAGGGGGTTTGAGGGGTGCTGTAACTGATGTGGGGAGACCGACTGGGGACAAAGAATGAGGATAGTAACAGGAGATGACTCCTCCTCCCCAGGAG
Celera SNP ID:            hCV11920721
SNP Position Genomic:     36106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15741):
TCCCTGAGTCCCACCCACTGTCTTTTCCTTTGCTCCTAACGTGCCCCTGCTACACTAGTTCTGCCTGCTGTTCTCATCTCTGTGGGTACATGTTTGCTTT
K
GCTGTCTTCTGTTTGTCCTTTTCCTCTCAGCCTAAAACAACCTGGCAGCCCCTGGTCTCCCTCGCCTAGCCCACAGCTCTCTGTCAAGAAGTCTCTTTCT
Celera SNP ID:            hCV8913133
SNP Position Genomic:     13847
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15742):
GAGCGAGACTCCGTCTCAGAAAAAAAAAGAAAAAAGAAAACAATATTATATGTATATATTTAAATTAATGTAATACTAATACATCTGAACCCCCCCCCCC
C
AAAAAAAATTCTGAGGCTTATTTTAAAAAGGTAACAGTGACTTTCTCCACCTTTCAGGCCCTTTTCCTATTTTATATTATATTTATGTATTGTATTTCTA
Celera SNP ID:            hCV27438557
SNP Position Genomic:     82168
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,4)   total(C,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15743):
AGACTCTACTTATTTCTAGTTACTTAGGTCAGTACCCTTTTCCCCTATCCCCTTCAGTGAGGTTGTTGCATACATTTGTAATATAGATAGATTGTTTTGT
Y
ACATTCTGCATTCCATCCTGGGATCCCCCAATCTCCTAAATGACTTTTTAAATTTGCTTACATTGTACATTAAGATTCATTCTTTGTGTAGTCAGTCCTA
Celera SNP ID:            hCV8913134
SNP Position Genomic:     25219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15744):
AGAGCGAGACTCCGTCTCAGAAAAAAAAAGAAAAAAGAAAACAATATTATATGTATATATTTAAATTAATGTAATACTAATACATCTGAACCCCCCCCCC
C
CAAAAAAAATTCTGAGGCTTATTTTAAAAAGGTAACAGTGACTTTCTCCACCTTTCAGGCCCTTTTCCTATTTTATATTATATTTATGTATTGTATTTCT
Celera SNP ID:            hCV27438558
SNP Position Genomic:     82167
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15745):
CAGAATGGTGAGAAATATATTTCTGTTGTTTAAACCACCAGTCTGTGGTAGTCTGTTAAAGCAGCCCAAACTGACTAAGACAGGAGACCTTGTATGTTTG
K
CTCTATATAGATTCTAGTGAGTATGTTCTAATATTAGGTAGAGCCTTTCTGTCTTGCTCACTATACTCCATCTTCATTTCCTGGCAGTGGCCCCTGTGCT
Celera SNP ID:            hCV8913135
SNP Position Genomic:     28538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15746):
AAGACCAACCTGGTCAACATGGCGAGATCTCGTCTTTTAAGAAAAAAAAATTGGCCTGTCGCGGTGGCTCATGCCTGTGATCACAGCACTTTGGGGGGCC
R
AGACGGGTGGATCACGAGGTCAGGAGATCGAGGCCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGG
Celera SNP ID:            hCV27438559
SNP Position Genomic:     81852
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15747):
ATCTATAGCATGGTAAAAGGATCTTTCAGGGCCACTGCTGCTCAGATTTCTCACGTCTCCACACAGAATCTGTGATTGACGCACACATTTGAAAGTTAAG
K
GATTTTCTTCAGGCTGCAAACTGGGACTGGAATTTCGTCTCTTTCTCTTGTTCTTCTCTAATTTTATTCTCATGCAAACAGCCTGATTTCTGATTTCATA
Celera SNP ID:            hCV8913136
SNP Position Genomic:     34978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15748):
TAGCTTGCACCTGTTCTTAGCCTGGTACTTGGCAGTGCCTTCCCAGGAGCTTCTCTGATCCATCTCCTGCTGTCAGGCTGGCTCTGTGGCCTTTCCAGGG
Y
CCCTCTTTCTGTAATCCTGTCTCCCACCCTCACTGCAGCCTCCTGAAGGCAGAATCTTGTACCTTTGCAGCCCTGGTGACTCTCACACACCTGGCTGCAC
Celera SNP ID:            hCV11920724
SNP Position Genomic:     16102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15749):
ACGGGGTTTGCCACATTGGCCAGGCTGTTCTCAAACTCCTGACCTCAAGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCA
S
TGCACCCGGCCCAGAGTCTCTCCCTTTCTTTGCTGAAGAATTTATGTTATGTATTCATCACCTATCTATAAAGTGGTTATAGCTGGGAACCCTTTGCAGA
Celera SNP ID:            hCV8913137
SNP Position Genomic:     35483
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15750):
CCCGACGGTGTCTCCATAATTCCGCCCTGCATTATCAGAGCTGCACACGTTGTGCTTTGTTGAAGCCGTAGTTTTTCCTCTCTAAGCTCAGTTACTCCCA
Y
TGATGGGCGCAGAATGAGCATCTGGGGCAACCTCGACGGGTGCCTCGGTGGAAGGGCGGGAGCCCTGCGGGGGGCCTGCGGGATCCCGGGATCTGTCAGC
Celera SNP ID:            hCV11920726
SNP Position Genomic:     7552
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15751):
AGGCTGTTCTCAAACTCCTGACCTCAAGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCCGGCCCAGAGTCTC
Y
CCCTTTCTTTGCTGAAGAATTTATGTTATGTATTCATCACCTATCTATAAAGTGGTTATAGCTGGGAACCCTTTGCAGATGGGTAATTCATCATTAGACG
Celera SNP ID:            hCV8913138
SNP Position Genomic:     35504
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15752):
TTGGGAGTGCTCTCCCTTCCCTCTAAACCTGTTCAAATCCTGTCATTCCGCAAGGTCAGTTCACCTCCTCCCTCCTGTGTGCAACTTCCCTGCCTGCCCC
T
GGCGGAGTTTTCTCTCTCCCTGAATCACTAAAGCGCTTCAGGTTTGTCTGTGGCTTTGGGGCCATTGCATGTCATTGTGTTTGTCAGAGCTGTGTTTAGA
Celera SNP ID:            hCV11415507
SNP Position Genomic:     74791
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15753):
CTCCTGCTTCTGCCTCCTGAGTAGCTGGGGCTGCAGATGCGTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGG
Y
CAGGCTGGTCTCGAACTCCTGATCTCATGATCCGACTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCAACCCTGGTG
Celera SNP ID:            hCV3124310
SNP Position Genomic:     10775
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15754):
CCTTTCTCGCTGAGCCTTACCCTGTCACTGCCTGACTTAAAATTCCAGCCCCCATACTCCCTGTCTCCCCTGCCTAATTTTTCTGCAAAATATTTATCAA
Y
CTTTGCCACTGTACGTATTGTACTTATTTGTTTATTGTCTGTCTTCCCCCATTAGAGTTTAATCCCCACGAGAGCAAATATTTTTGTCAATTGTTTATTC
Celera SNP ID:            hCV1266800
SNP Position Genomic:     69949
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15755):
CAGTGGGGCTATCACGGCTCATTGCATCGTTGACCACCCAGGCTCAAGTGATCCTCCCACCTAATTTTTTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTG
K
GGAGACAAGGTTTCACTGTGTTGGCCAGGCTGGTCTCGAATTCCTGGGCTTAAGTGATCCGTCAGCCTCAGCCTTCCAAAGTGTTAGGATTACAGGTGTG
Celera SNP ID:            hCV3124311
SNP Position Genomic:     12868
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15756):
TCCTCACTTCCCTCAGTGGGCGGCAGGCGCTGCTGTGCACAGTTGTCCCAGCCCAAGATTACGTGGCATGCTTATCTCTTGCCTCCTCCTTGCTGTCACA
M
CCAGGAGTCACAAAGTCTTGTTGATGCTCCTACAGCTCTGGAATATGAGTCCCCACTGGTCCCTGCCACTGCCTTAATCCAGCTCCTTGTAACTTCTCAC
Celera SNP ID:            hCV3124312
SNP Position Genomic:     14779
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15757):
AATCCTGTATTATACCAGTGGGGGTTAACACATTCAACCAAATTCATCAACTAAGGTTAACTGCAGTTGACATCAATTACTTTAAGCAGATTTTTAAACA
S
AGAATTTTAATAGTGACCCTCATATTAACTTCTTCTGATCTCTTTTAGGAATTTATCAAAGAGCTGCTTTCTCGGATAAGAGGCATGAGGAAACTGAGCC
Celera SNP ID:            hCV25643130
SNP Position Genomic:     112395
SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(C,31|G,1)   total(C,57|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:15758):
TGGGTGTGGTGGCAGGCACCTGTAATCTCAGCTACTTGGGAGGCTGAGCAGGAGAATCCCTTGAACTTGGGAGGTGGAGATTGCAGTGAGCCGAGATAGC
R
CCACTACACTCCATCCTGGGCGACAGAATGAGCCTCCGTCTCAAAAAAAAAAAAAAATAATGGAAATAAAAAAGAAAAAGAAATATATATATCATGCTAC
Celera SNP ID:            hCV1266802
SNP Position Genomic:     69431
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15759):
GAGTCACAAAGTCTTGTTGATGCTCCTACAGCTCTGGAATATGAGTCCCCACTGGTCCCTGCCACTGCCTTAATCCAGCTCCTTGTAACTTCTCACCTGT
R
TAATAGCAATGGTCACTGTAGTCCAGTTTCTTTCAAATTACGGCAACCACTCTTTCTGCTACTGCACCCTCCACCACTGCTGCTATTGTTTCTACTACTG
Celera SNP ID:            hCV3124313
SNP Position Genomic:     14884
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15760):
ACTGGCAACTTCCCTGGTGGGTGGGAAAGAGAAACCTGCCTGGTGGGTGGGTTCAGGACCTAGAAAAGACCTCCTCAGCCTAGTTCCTTGTTGCTTTGCC
R
CCGCCCCCAGGCAGTTCAGCCTGGGCTTAGTCAGTGTCTAGCAGCCTCACTGAACTTCTGGGACCAACAGCCCCTGGGTACTTCTCTTACCACCTGGTCT
Celera SNP ID:            hCV1266803
SNP Position Genomic:     68917
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15761):
AAGGGATACAGAGTATATATTTTATCTTACATATTTGAAAGCAGCAGATATTATCATTGACATGGTAGAAGTAATGCTTTTTCTAAATACAATGTAAAAA
A
CTATTAATTACTTGGTTTGCTTATGCTAAATGATGTTTTCACTCAAGTCCTTAGCTACTGCCGCCAATCATCTGTTAATATTTTTCTCTTATATTTGTAT
Celera SNP ID:            hCV11415583
SNP Position Genomic:     19746
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15762):
TATCAGCTGAGTCCCTAAGGCAGCTCAGCAGGAGCCCCTCTGCCATAATCACCTCCACCCCCTCCCCTGCCCCCACTCCCTAGCTGTCTAGCTTGCACCT
S
TTCTTAGCCTGGTACTTGGCAGTGCCTTCCCAGGAGCTTCTCTGATCCATCTCCTGCTGTCAGGCTGGCTCTGTGGCCTTTCCAGGGCCCCTCTTTCTGT
Celera SNP ID:            hCV3124314
SNP Position Genomic:     16014
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15763):
GAGAGATTTGGGGGCACGAACTAAGCCTGCCCTGGGTGCCAGTGATACTGGCAACTTCCCTGGTGGGTGGGAAAGAGAAACCTGCCTGGTGGGTGGGTTC
M
GGACCTAGAAAAGACCTCCTCAGCCTAGTTCCTTGTTGCTTTGCCGCCGCCCCCAGGCAGTTCAGCCTGGGCTTAGTCAGTGTCTAGCAGCCTCACTGAA
Celera SNP ID:            hCV1266804
SNP Position Genomic:     68871
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15764):
GTCCTGTGATGTGATTAATGCCCTTAAAAGGGGAGGAAGGGGCCAGAGCTCGCTCTCACTGCCATGCAAGGGCACAGCGTGAAAGCACAGCAAGAAGATG
R
AAGACGGCCACCTGTAGACCAGGAGGAGGATGCTGGCACCCTGATCTCAGACCTCCAGCCTCTAGAACTGTGAGACAGAAATGCTTGTTGTTGAGCCACT
Celera SNP ID:            hCV3124315
SNP Position Genomic:     16440
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15765):
AGAGATAGTGTCTCCATGCAGAGCAAAGCTGTCTATTATAAAAGATATGGGTTCCCTAAGTGTCGAGCCCCTTTCCTGGGATGCGACCCACTGCATGCAC
R
GGCGTCATCTGTCCTTCTTTGCAACACCCTAGGAGAACTGGGGCTCGAGAAGTGCCACTACTCTAGCCACTGCTATTGCTGTAACTGTCCTTCCTCTCTG
Celera SNP ID:            hCV1266731
SNP Position Genomic:     118000
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:15766):
AGCCAAACTTCAAAGGAAATTGTGAAAGGGTTTGGAATCATTTTAGTAAAAGTTTTAGGTTTATAACTGGTTTATATATTCTATTGGTTTATTGGTATGT
W
TTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCGCAGGTTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCCTGAGTTCA
Celera SNP ID:            hCV27438560
SNP Position Genomic:     80877
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15767):
TGTTAGTATATTCCACACAGTTATTTCGTACATAGTGGCTGCATATTTCTTTACTCAAAGTCTGTGTTCAGGAAAGGATATGATAAATTCACTGACATTA
K
ATTGCAAATGACTAAAAACAACTTACTTATCTTTCATTTTAATAGGAAGTCAGATCTTAAGTAAGAGAAAGTAATCTCTTAAGGGCTGGGCTTCAGGAAT
Celera SNP ID:            hCV3124316
SNP Position Genomic:     17556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15768):
CTGAGGTCCTGTCACCATTTGTTGAGTTTGCACAACGTGCGTGGGCATGATTGTGCCCGATTTCTATCCAGCCCCGAGAATTAGCTAGCAGTCCCCATTT
Y
ACAGGTGTGGGAACTAAGGGTTAGGGGATGCGTTACCCTGCCCCAGCTCTCACGGGTTGTCAGAGGCAGAGATGAAACTGAAACCTGGGTCTGCTTCTCT
Celera SNP ID:            hCV1266806
SNP Position Genomic:     68335
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15769):
GATTAATAACTTTTTTTTTTAAATCATCTTTTCCTCCTCTGAAACCTCTCCTTAACTATTGGCTTTCAAGTTAAGTTTGGAATCTGACAGCACAGACACT
Y
ACAGCCACCATAGCTGCTTTTTCTTTGCATTTAATTGGGTTAACTTTTAAGAAATGGCATGTTTGACTTAAGATTTTTAGGCATATAACCTATAATATTG
Celera SNP ID:            hCV3124317
SNP Position Genomic:     18268
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15770):
GGTGAAGCTCTTTTGTAAAGCTGTGTTTTTGTGTGTGTGTGTTAATGCACCAGACCATTCCTGGCCTACTGTGCAAGGCCCTGTGGTGCAGGTGGGGAGG
M
GGGTAGAGATAGAGAGCGAGGTACAGCTGAGTGCAGATCCCCAGCTCTGAGCATCACTGGGTGTGTGACTTACTCAATTCATCATTTAGCTATTGAGAGC
Celera SNP ID:            hCV939260
SNP Position Genomic:     35867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15771):
CCCTTGAACTTGGGAGGTGGAGATTGCAGTGAGCCGAGATAGCACCACTACACTCCATCCTGGGCGACAGAATGAGCCTCCGTCTCAAAAAAAAAAAAAA
A
TAATGGAAATAAAAAAGAAAAAGAAATATATATATCATGCTACTCCCTAGTTAAAGCCAGTGTCATCTCTTCCCAGCTTATTTCTGTGGCCTCTTAACTG
Celera SNP ID:            hCV27438562
SNP Position Genomic:     69488
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15772):
GTCTCAGCCGTCACTTATTTTCACTCGTCTTACGAGGACCAACCTGCCGACTTTCTCGTCACGGGGGCATTGTTAACAACCAGCTGTGCGTGTTTAGTGT
K
CATAAGCAGAGCAAAGTGTGATTGTCTCCAGGAAGCTCTGCATCTGGGTTTTTTTGCTGACATTTTCTTTTCTTTTTTTCTCTTTGAACGCTGTGGTTTT
Celera SNP ID:            hCV1266807
SNP Position Genomic:     67995
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15773):
CTCTCCCTTCCGGGGATCTTCATGTAGGTGCTGCACGGGGAAAGAAGGGCCCTGAGAAGAGAGGCTGCTGTCGGCACAGGAGCCGTGAGGGTGGCGGCCG
Y
CTGGCCACTGTGTCCAGTGCTTTCAAGGTGTTCTCAGTGTCCTCGTTTATGCCACGGCTTAGAAGATTGTCCTTGCCATCTTTAGCAACTGTCTCAGCCG
Celera SNP ID:            hCV1266808
SNP Position Genomic:     67804
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15774):
TCTGGAATCATCCGAAGACTGGACTGGGCTGGTTTTCCACGATGGTTCCTTCACCTACAGGTCTGGCTTCTTGCCCTCTCTGTTTCCACACAGTGTCTCA
Y
CTTTCAGGGCCTCTCATCTTTTGGGACTGGTACTAGTCCATGGCCTGGGTCTTGGGACCCCTGTGCTAGAGGATGACATGGCACAGTCACACATTTGGCT
Celera SNP ID:            hCV939261
SNP Position Genomic:     56259
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15775):
TCCCTTGAACTTGGGAGGTGGAGATTGCAGTGAGCCGAGATAGCACCACTACACTCCATCCTGGGCGACAGAATGAGCCTCCGTCTCAAAAAAAAAAAAA
A
ATAATGGAAATAAAAAAGAAAAAGAAATATATATATCATGCTACTCCCTAGTTAAAGCCAGTGTCATCTCTTCCCAGCTTATTTCTGTGGCCTCTTAACT
Celera SNP ID:            hCV27438563
SNP Position Genomic:     69487
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15776):
GACAAGTCAAAAGAAAATGAGTAATTGATTTGGTGCTAAAACATGATTATGCTTGCTATAATGAAAGCACCCTAGAAATATTAAAACTAAAAAACAACAC
R
TACTATCTCTGTTAGACAAGTGCCTTTTGTTATGTTAAGATATTCCATTTCTTCTTCATGCGAGATGGTTCAGCATTTACTAATCTTATACCAGAAGCAG
Celera SNP ID:            hCV3124319
SNP Position Genomic:     20160
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15777):
AGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCCGGCCCAGAGTCTCTCCCTTTCTTTGCTGAAGAATTTATG
Y
TATGTATTCATCACCTATCTATAAAGTGGTTATAGCTGGGAACCCTTTGCAGATGGGTAATTCATCATTAGACGGGTTATAGATAATCTCTCTATTCATT
Celera SNP ID:            hCV8913140
SNP Position Genomic:     35530
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15778):
ATCCCTTGAACTTGGGAGGTGGAGATTGCAGTGAGCCGAGATAGCACCACTACACTCCATCCTGGGCGACAGAATGAGCCTCCGTCTCAAAAAAAAAAAA
A
AATAATGGAAATAAAAAAGAAAAAGAAATATATATATCATGCTACTCCCTAGTTAAAGCCAGTGTCATCTCTTCCCAGCTTATTTCTGTGGCCTCTTAAC
Celera SNP ID:            hCV27438564
SNP Position Genomic:     69486
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15779):
TCTGTTGTTTTTTTAATTCTATCTTTCATGATTGCTATGGCAAATTAGACTTTTCATATTTGAAGGGGATTTTTTTTTTTTTAGTGAGTTATCTCGGACT
R
TTAGCAAGCAATTCTGGCTGATGTTAGTCATAAAGTTTACTTGAATTTTCTTTAGTACAATCATCCCTGAAATTATAAAGAGGAAATGAGTTGGTCAAAA
Celera SNP ID:            hCV8913141
SNP Position Genomic:     46608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15780):
CTCAGTTACCAGCTCTTTGGAGAAGGATCAAAATTCAGATGGAATGTGGGATGGGTAATAGGTGAGAGTAGAAACCCTTCCCTCCAGGAGGCCCCCGCTG
M
CTCCCACAGAAACCCACCTACCATAAGATGTCTTCAGGTGGCCTTGTCCAAGGATGGGGGTCAGGCATTTTATATCAAGGGTGCTCTGAACATATTTTAT
Celera SNP ID:            hCV1266737
SNP Position Genomic:     113827
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,2)      total(A,2|C,2) ;no_pop(A,-|C,-)   ;(A,-|C,-)   JBIC-allele(C,189|A,1286)   total(A,1286|C,189)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15781):
CTCCCATTGCAGGAGGAAGTGGCCTCTTGAGCCCTTTGAGATCAAGGCTGGGCATAGAACACAACCTCTGCTCCAACTCAGAGTCTTTTTTTTTTTTTTT
T
GTTAAACTGTGTCTGGAGCACTTTGATAATCTCTCCAGAGATAGTCATTTTTGCTAAAATGAATTGCTAAATGTAGGGGAGAGATTTGGGGGCACGAACT
Celera SNP ID:            hCV27438565
SNP Position Genomic:     68692
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15782):
GTGTTTATTCTCTCTCCAGGAAAGCAGATCAAAAGAAAGTTAGCAGATCGAGTGTCTTCTTCCTTAGAAATAGGTTCTGGTAGCTTCTGTGCCTGGGTAG
Y
ATCAGACCAGTGGGAGTAAACCGAGTGTTAAGTGTCAAGGTGAGAAAGCCTCACATTCTCTCAAGACAGTTGCTCTAGGAGCTGAGTTGCTGGTTTGGAA
Celera SNP ID:            hCV1266738
SNP Position Genomic:     113502
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:15783):
CCTCCCATTGCAGGAGGAAGTGGCCTCTTGAGCCCTTTGAGATCAAGGCTGGGCATAGAACACAACCTCTGCTCCAACTCAGAGTCTTTTTTTTTTTTTT
T
TGTTAAACTGTGTCTGGAGCACTTTGATAATCTCTCCAGAGATAGTCATTTTTGCTAAAATGAATTGCTAAATGTAGGGGAGAGATTTGGGGGCACGAAC
Celera SNP ID:            hCV27438566
SNP Position Genomic:     68691
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15784):
ATCTCAGTGGTATTTTGCATTGGAAAAAGGAAGCACTGTGTAGCAGTGAATTGTCTGCTTTCCACCGAGTACTGTGTTTATTCTCTCTCCAGGAAAGCAG
R
TCAAAAGAAAGTTAGCAGATCGAGTGTCTTCTTCCTTAGAAATAGGTTCTGGTAGCTTCTGTGCCTGGGTAGTATCAGACCAGTGGGAGTAAACCGAGTG
Celera SNP ID:            hCV1266739
SNP Position Genomic:     113429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;JBIC-allele(G,124|A,1361)   total(G,124|A,1361)
SNP Type:                 UTR 3


Context             (SEQ ID NO:15785):
CCTGGCCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGCCCGTCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTG
S
CCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGGCCGCCACGGTGGAGGAGGGCCTGGATGCCCGGCTTTGTGTGCCCCTGGCCGC
Celera SNP ID:            hCV27438567
SNP Position Genomic:     61591
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15786):
TTATACATGGGGGCTAAAAAAATAAATGAAATGCAGTTCCTGCCCTCAAGGAGCTCTTAGTTTGCTAGTGGAGACAACTGATACACATCTGGATTGACAT
K
TTTTGTTTTTGAGATAGAGTGTCGCTATTGCCCAGGCTAGAAAGCAGTGGTGCTATCTCGGCTCACTGCAACCTCTGCCTCCTGGGCTCAAGCTATCCTC
Celera SNP ID:            hCV27438568
SNP Position Genomic:     58748
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15787):
GCTTGAACCCGGGAGGCGGAGGTTGCGGTGAGCTGAGATCATGCCACTGCACTGCAGCCTGGGCGACCGAGGGAGATTCTGTCTCAAAAAAAAAAAAAAA
A
GTAGTGAAGAGGATGTTTCTTTTTTGCTCTCATATTTGAAACATATGATCAATTGGCTTGAACATTGTTTATGATACCACTATGACATTTAATCCGTGTT
Celera SNP ID:            hCV27438569
SNP Position Genomic:     38371
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15788):
CGGGGTCCGAATTACTCGCCTCTCTGGGACAGCTCCCTTTTCTCCCTCCCTTGTGATCTTGCATCCAACCCTTCCTTAACCAAGTCTGCAGACTTAGGTT
Y
GTCCTCACCCTAAGGTGAACCAGCCAGCTCCTGTTCTCAGTCTGGGGAGTGCTCCTTTTCCACTGCTGAGCAGAGACTGGAGCAGGAGACACAGTGATGC
Celera SNP ID:            hCV8913147
SNP Position Genomic:     64138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15789):
CCTCCCTTGTGATCTTGCATCCAACCCTTCCTTAACCAAGTCTGCAGACTTAGGTTCGTCCTCACCCTAAGGTGAACCAGCCAGCTCCTGTTCTCAGTCT
R
GGGAGTGCTCCTTTTCCACTGCTGAGCAGAGACTGGAGCAGGAGACACAGTGATGCGTCTCATGGCCCTGCCCCTGGCTCTCTTCCCTTTGGACACACCC
Celera SNP ID:            hCV8913148
SNP Position Genomic:     64182
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15790):
TCTGCCCACCTGGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCGTGCCAGGCCAACCTCTGCCATTTCTTCCTGAACCACTGATCTCTTTCCT
R
TTGCTATCGTTTTGCCTTTTCCAGTATGTCATATAATTGAAATCATACAGTATACAGCATTTTCAGACTAACTTCTTTCACTACACAATATACATTTAAG
Celera SNP ID:            hCV1920402
SNP Position Genomic:     25782
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15791):
GCCTGAAAATGAAGTTCTTTGGAAGTGCCATCTGACACTTCTCCTGGTGGGCAGAGTTGCTGAAACTGGAAGCAGGGGGTTTGAGGGGTGCTGTAACTGA
Y
GTGGGGAGACCGACTGGGGACAAAGAATGAGGATAGTAACAGGAGATGACTCCTCCTCCCCAGGAGGCCAGATGCATCCAGAGGCCTCACATGGCTGGAT
Celera SNP ID:            hCV1920404
SNP Position Genomic:     36140
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15792):
CAGGCTCTTCTCTGGGAGGGTCCCCATGGTGCCCTCCCACACAGCCTGGCCTGGTCTCAGGGCTGAAGCTGAGGACCTGGGTGTGCCTCAGTTGGCTGAA
S
GTCATTGTATGACTCACACCTGGACCTTTTGCCCAGCCCTCGGCTGTAAGAAGAACCAGCAGAGCCAGTCACAGGAAGGCCTGGCCCTCACCTTCCTGGG
Celera SNP ID:            hCV11415514
SNP Position Genomic:     66381
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15793):
TCTCCCTCCCCCCCACCCCCGAGATTTGTTAAGGTATTATTGAAAAATAATAATTATATATACTTGCAGTGTACAGACATGATGCTTTGATAGGTGCATA
Y
GTTGTGAAATGATTAAATCAAGCTAATTAGCATATTCATCACCTCACATACTTACCATTTTCTAAATTGTGAGAACACTTACTAACTTACCCATACTTCT
Celera SNP ID:            hCV1920405
SNP Position Genomic:     37496
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15794):
TGACTAGTTAGTAATTTCCTTTGTAAAATATTACTTCAACAATAAAAGTGAACTCTTGAGCATGGGGCTGGTGAGGGCATTTCCAAATGCAAGGAAGTTA
Y
TTTGACATCTCCCTGGTGGTGCCCAGGTACAGACGGTGGGTAATTACCAGAACTGTTGCTTTGTATGATTTCCCTAGTCAAAGGCTTAATCATTTGACAG
Celera SNP ID:            hCV1920407
SNP Position Genomic:     39004
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15795):
TGGTGAGGGCATTTCCAAATGCAAGGAAGTTACTTTGACATCTCCCTGGTGGTGCCCAGGTACAGACGGTGGGTAATTACCAGAACTGTTGCTTTGTATG
M
TTTCCCTAGTCAAAGGCTTAATCATTTGACAGTATCTAACCCAGTGTTATTGGATAACATAACCCATGGCTCTTGACTGTGCTAGGTATGAGGCTGGTGT
Celera SNP ID:            hCV1920408
SNP Position Genomic:     39072
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,8)      total(A,8|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15796):
GAGTGTGGTCCCCTGAGTGTGTGAAAGCTGTCGTCATCCTCTAAGTTTCCATGGAGTTTCCTGGGCTCCAGCTGGCTGTGGATACCAGGGCTTGAATGTG
Y
TGGGTGCCTGGAGCCGCATGTCTGAAGGGCTCTGCTCTCCTCCCTTGCTGCTCCAAAAGTCACGGAAGTCAAAAGGGAGAAATCATTCCCCAGCCATGCT
Celera SNP ID:            hCV11415519
SNP Position Genomic:     64591
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15797):
CATTTCCAAATGCAAGGAAGTTACTTTGACATCTCCCTGGTGGTGCCCAGGTACAGACGGTGGGTAATTACCAGAACTGTTGCTTTGTATGATTTCCCTA
R
TCAAAGGCTTAATCATTTGACAGTATCTAACCCAGTGTTATTGGATAACATAACCCATGGCTCTTGACTGTGCTAGGTATGAGGCTGGTGTTTTCTCAGC
Celera SNP ID:            hCV1920409
SNP Position Genomic:     39081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15798):
AATTGATTTGGTGCTAAAACATGATTATGCTTGCTATAATGAAAGCACCCTAGAAATATTAAAACTAAAAAACAACACGTACTATCTCTGTTAGACAAGT
R
CCTTTTGTTATGTTAAGATATTCCATTTCTTCTTCATGCGAGATGGTTCAGCATTTACTAATCTTATACCAGAAGCAGTTTACATGGAGAGATATTTAGA
Celera SNP ID:            hCV3124320
SNP Position Genomic:     20182
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15799):
CTCTATAGATCCCGAGTTTGGGAACTGGCTGGAGTCTCTGTTGAAGGACTGGAGAAGGTTACAAGGATTGTCTCTGCCCCTGCCTACCTCAGGCCTCCCA
S
AGGTGGGGGATGAGGGAGTCTGTGGAAGAGGAAAGAACTAAGGGAGGAGCCCAGTGTGAGAGGCTCTGCTCCCGCCTGCGGCACTTCCCTGCACCTGCCA
Celera SNP ID:            hCV1266810
SNP Position Genomic:     60577
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15800):
TTCTTTTCACATCCTTTATGCCCTGATTGAGAGGATGTCTTAGTCCATTTTGTGTTGCTGTAGCAGAATACCTGAGACTGGGTGATTTATCAAGAAAGAG
S
CTTATTTGGCTCATGATTCTGGAGGCTGGGGAGTCCCAGAAGCATGGCACTGCATCCGTTGGCTTCTGGGCTTCTAGGGAGAATCTCATGCCATGTCATA
Celera SNP ID:            hCV3124321
SNP Position Genomic:     20958
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15801):
AGCAAGGCATCCAATTCTTGAATCTAGTTTCTCTTCTAAGGACTTTTTTTTTTTTTGAATCTCTAAGGTTGTTTTGAGTATGTTCTCCTCAATCCAAATT
K
TTCCCTGCTCAGGAGAAAATAAAGCTCTGGGGAGAGGCTTAACCATTTAATCATGTACCATTTAACACCTCTTTCTGGGAATGGAAACATAGATCAGCAT
Celera SNP ID:            hCV1266811
SNP Position Genomic:     59902
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15802):
CGATGGGGACACTCAAACCATAGCAGAGACATTGCCTTCTAAGATAGACCCTCCCACCTTCCTGGGCTGGGGGAGCTGGCTTGGTCTATCTAGAAGGATG
M
GCAGGCTGCCCACTACCTACCTTTATTAAGAGTGATTTCAGTCATCATACTTGGCTAACTTTAATTTCCACTTTTAAATTATCTAATCCTTTCACAGAAA
Celera SNP ID:            hCV3124322
SNP Position Genomic:     21423
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15803):
AACTCTTTTTTCATAGGGTATCTTTTATATGTACCTAGAAAAGAGATTTGGATGATACATGATAACTATCAGTAGTGCTTTTTAGTATCATTATGGGTAA
Y
TTATTTTGTTTATCTGTTTTGTGCAATGCACATGTATTTCTCCTATAAGAGAATAACTTCAAAGTTGTTTTTTAGAAGGGGTGGGCATGAGTATCCCACT
Celera SNP ID:            hCV3124323
SNP Position Genomic:     22021
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15804):
CCTGTATGACCATCTTCAAATCTGTCTCAATTTCAAGAGGAGGTTACTCATGCAATTATGTGGGTTACTCTTATTCTTAACTTGAACATTTCAGAAAATG
M
GTTTTATGGTAGTTTTAAGCCTAAGCATTTTACATGGCAGAGAGCTCCGGTTTATTCACTCAATAACAAATTGCAGTATATGTGTGTGTGTGGATACCAT
Celera SNP ID:            hCV1266813
SNP Position Genomic:     58546
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15805):
TTTATTAAACCACCTTGGCTTCTGACTACTCCTAACTCACCTCGCCTTTAGCACAAACAGTTCTGTCCTTGGTGAATCTGATAAAATGATTTGCTTGTTC
W
GCTATAAAACGTAAAAGAGGCTCTTATAATTTGTTGCATAGTTTAAGACCCTGTTTTGTTTGACCACTGCTTGGGGGTTGATGTTTGTTATTCTTTAGCA
Celera SNP ID:            hCV1266814
SNP Position Genomic:     58105
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15806):
TGCTTGAACCCGGGAGGCGGAGGTTGCGGTGAGCTGAGATCATGCCACTGCACTGCAGCCTGGGCGACCGAGGGAGATTCTGTCTCAAAAAAAAAAAAAA
A
AGTAGTGAAGAGGATGTTTCTTTTTTGCTCTCATATTTGAAACATATGATCAATTGGCTTGAACATTGTTTATGATACCACTATGACATTTAATCCGTGT
Celera SNP ID:            hCV27438570
SNP Position Genomic:     38370
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15807):
GCTTATGGCATTTCAATTATGCCTTAATAAAGCTGCTAAAAAAAAAAAAACTCACTGGGAACCTTGTAGCCTCTTTCCCAACCATTCTACTCAAACTTCT
S
TCATCTAAGACACACTGGCCCTTTCTTGCCCGATCCATTATATTTGTCTCTGTCCTTGATTTACTTAACTTCTCATTGCACTTGACTTAGGTGAGCACCT
Celera SNP ID:            hCV1266743
SNP Position Genomic:     107930
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15808):
TGCAGCCTCCGCGAGGCCTTTTGTGCAGAGCCTTGCCCTTGTGTGTGCCCTCCTACTCCATCTGTATCTTGTCGTCAGTTGCTGGCGCCACCTCAGCAGG
R
TTTACTGTGACCTTTCTTGGGCCCATCTGGGAACAGTGGTAGTAGGTCTGGACCTAGGGGTCCAGTGGGTCTTTCCCACAACCTAGCCTGTGTAAGAGGC
Celera SNP ID:            hCV3124327
SNP Position Genomic:     41592
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15809):
CCTAAGTATGATAGCTTTTATGCAGGGAAGTGATATGGTCTTATTATTTTTTATGACTATAAAATTAACTTTTATTTAACATTTTTTTACAAAATACATT
W
AAAAAATTTTAAATCTGTTTTTTAGAGCAGTTTTAGATTCACAGTAAAATTGAGAGGAAGGTACCTTTCCTATGTACTCTCTGCCCAGTCCCCCAACACA
Celera SNP ID:            hCV27438571
SNP Position Genomic:     34307
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15810):
AGGCCCCTGGGGACAGTGGACGCTGGCTCTGTGGGCCGACCAAGGAGCGAGACCAGCTGGAGCATGTCAGGGGATGGTGGGTGTGATTGGAGAGGAGGGC
R
GTCACAGCAGGTGAGGTTGTGTCCCTCTCCTAATATGCAGGGCCAGCCTTTGAAGTTCATTTCTTCAGTTCAGGTAAAGTCAATACGATTGATTTCTAGA
Celera SNP ID:            hCV3124328
SNP Position Genomic:     41833
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15811):
CTCCAACAGAGACAAACCTGTGGTTCCCACCATCCGTATCCATTCCCTTAATTGTTCAGTTGTAGTATATATGTACAGCAATATCAGAATTGTTAACTCA
A
CCCCTATGGGAAACAACTTTATCAACTAGAAGATGGCGCTTATATGCACTCCTTTTACATTTGATTTTAACAGACTCTACTTATTTCTAGTTACTTAGGT
Celera SNP ID:            hCV27438572
SNP Position Genomic:     25047
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15812):
CTCTGGAGAAGGAAAACTAATCTGGAGTGACAGAAAACAGGTCAATTTTTTCCTGGGAATGGGAGGAGGGAGATTGCACAGAAGCATGAAGAAGAAACTT
Y
TGGAGGTGTTGGATGTTTCCATGATGTTAGATCATGCAGATAGTATGCTTGTGGTTGTTGTCTGCCTTAAATACGTTCAGCTTATGGCATTTCAATTATG
Celera SNP ID:            hCV1266745
SNP Position Genomic:     107750
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15813):
ACTCCCAGCCATTACAACTGTCATGATGACATAAAATACTGCATCAGAAATAGTAACCAGGGTCTTTATACTGTTGTTTATTTCATTACTTGGAATGAAA
R
TGACAATCTAAGGTGAAGAGATGGACTTGGTTTGTCTGAAATAGGGAAACATCTAGGTGTAGATTTTCAGATCTCACAGGGGACAAATTTCTTCATCTGC
Celera SNP ID:            hCV3124329
SNP Position Genomic:     42143
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15814):
ACTCCAACAGAGACAAACCTGTGGTTCCCACCATCCGTATCCATTCCCTTAATTGTTCAGTTGTAGTATATATGTACAGCAATATCAGAATTGTTAACTC
A
ACCCCTATGGGAAACAACTTTATCAACTAGAAGATGGCGCTTATATGCACTCCTTTTACATTTGATTTTAACAGACTCTACTTATTTCTAGTTACTTAGG
Celera SNP ID:            hCV27438573
SNP Position Genomic:     25046
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15815):
TACTCCAACAGAGACAAACCTGTGGTTCCCACCATCCGTATCCATTCCCTTAATTGTTCAGTTGTAGTATATATGTACAGCAATATCAGAATTGTTAACT
C
AACCCCTATGGGAAACAACTTTATCAACTAGAAGATGGCGCTTATATGCACTCCTTTTACATTTGATTTTAACAGACTCTACTTATTTCTAGTTACTTAG
Celera SNP ID:            hCV27438574
SNP Position Genomic:     25045
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,5)   total(C,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15816):
AGCATATGTATGTGCTGGGAGAGGGGCCCAGAGAGGGCACGAGAGCTCCATGCTCCTTCCCTCAAGCCCTGACCTGTGTGTCTCTTCATCTGCTGTTCAT
Y
TGTATCCTTTATCACATCCTTTATTAATGTAATAAGTAAATATAAGTGTTTCCCTGAGTTCTGGGAGTTGCTCTAGCAAATTATTGTACCCTCAGAGAGG
Celera SNP ID:            hCV1266747
SNP Position Genomic:     105042
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15817):
CTACTCCAACAGAGACAAACCTGTGGTTCCCACCATCCGTATCCATTCCCTTAATTGTTCAGTTGTAGTATATATGTACAGCAATATCAGAATTGTTAAC
T
CAACCCCTATGGGAAACAACTTTATCAACTAGAAGATGGCGCTTATATGCACTCCTTTTACATTTGATTTTAACAGACTCTACTTATTTCTAGTTACTTA
Celera SNP ID:            hCV27438575
SNP Position Genomic:     25044
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15818):
CCCTGTGCAGATGAAGGCTAGGCCTGTGACCAGTCTGATTGTTTGCGGGAGAGGACCTATCAGAAGTACTTTCCATTTTTCATCTGCAATGCAGAAAGTG
R
GGAGGGTTGGAAAGAGAACAGCCTCTGATCCTTTTGTTACCTGAGTGTGGAAAGTTAGGGTTTTCCTTTTGATTCACTTCTAGTCAGTCTGTGCAAACCA
Celera SNP ID:            hCV1266748
SNP Position Genomic:     104388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15819):
CGCCCCACAGACTGGGAGTGGGCTGGAGCAAGTGGCTCAAGAGTGCTGGTTACAGAAACCTCTAGGGGTTTCCCATTGGTTACTTGGTTAGACCCTATGT
W
AATGAAGTAGTGGCCTGCAACCAGTCTGATTGGTTGCAGAAGGTGACCAATCAGAGGCTGAAGTGAATTTTCAAAGTTACACCCCTGTGCAGATGAAGGC
Celera SNP ID:            hCV1266749
SNP Position Genomic:     104205
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15820):
GGCCTGGGAAGTTCAAGGTCGAGGGGTCATATCTGGTTGGCTTCTGGTGACAGCGTTCATCCCGTGTAATAGCATGGCAGAAAACTGGAAGGGCAGGCAA
K
CGCTTGAAAAAAGAGATGGGGCAAAGGGGGCTGATCCACTTTATAACAACCAGCGCCTCATGAGAACCAACTCAGTCTCTAGAGAACAGTGTTAATGCAC
Celera SNP ID:            hCV8913158
SNP Position Genomic:     71668
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15821):
GCATGGCAGAAAACTGGAAGGGCAGGCAAGCGCTTGAAAAAAGAGATGGGGCAAAGGGGGCTGATCCACTTTATAACAACCAGCGCCTCATGAGAACCAA
Y
TCAGTCTCTAGAGAACAGTGTTAATGCACGCATGAGGGTGTGCCCCCATGACCTAATCACCTCTGAAGGTTCCCATTACCTCTCACTCAGTACTGTTGCC
Celera SNP ID:            hCV8913159
SNP Position Genomic:     71739
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15822):
CCCAGGTACAGACGGTGGGTAATTACCAGAACTGTTGCTTTGTATGATTTCCCTAGTCAAAGGCTTAATCATTTGACAGTATCTAACCCAGTGTTATTGG
R
TAACATAACCCATGGCTCTTGACTGTGCTAGGTATGAGGCTGGTGTTTTCTCAGCAGAACCAGTTAAAATAAAACCTAGATGTCATATCCCAATCTGGCC
Celera SNP ID:            hCV1920410
SNP Position Genomic:     39126
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15823):
TTATTGGATAACATAACCCATGGCTCTTGACTGTGCTAGGTATGAGGCTGGTGTTTTCTCAGCAGAACCAGTTAAAATAAAACCTAGATGTCATATCCCA
R
TCTGGCCTGTTTGGGAAAATGCAGTTTGAACCACAAGCGCAATCTACCCGTGGTGTTTTATAACACTGTTTGCTTGGCCAGTCTTCTTCAGCAGGCCCTG
Celera SNP ID:            hCV1920411
SNP Position Genomic:     39219
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15824):
CTCTCCCTGGTAACAGGATCTCTAAACCGGCCACACCTGTCATAAGTGACTCTACTAAAGGAGAATTCAGAATTCCACTGGGGATACTTAGAACAGTGAG
S
TGATGTGATCTTGTGTTATTTTCCCTTTCTTGGGGGTTATCCCTTGATTAATTACCTGTCTGTTGGAGAGAGAGTGTTCTTATAATTGGGGTGAACAGGA
Celera SNP ID:            hCV1920412
SNP Position Genomic:     39434
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15825):
GTGATCTTGTGTTATTTTCCCTTTCTTGGGGGTTATCCCTTGATTAATTACCTGTCTGTTGGAGAGAGAGTGTTCTTATAATTGGGGTGAACAGGAGGGC
Y
CTAGTGGGCACCCCGGGGTGAGGGAGTGTGGGGCATTGCAGTAGAACCTAGGCAGCGCTTGGAGCCAGCCCTACTGGCTATCTGGGCAGGCCAGCCCTGG
Celera SNP ID:            hCV1920413
SNP Position Genomic:     39539
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15826):
GGCTCTAGTGGGCACCCCGGGGTGAGGGAGTGTGGGGCATTGCAGTAGAACCTAGGCAGCGCTTGGAGCCAGCCCTACTGGCTATCTGGGCAGGCCAGCC
Y
TGGAAGGATTCCCATCTTCTCAACGGGAGTGCCCGTGGCTTCCATGAGTTACCAAGCTGGGAATTGCTTCTAACAATCGAGTTGGAGGCGGGGTGCCCGT
Celera SNP ID:            hCV1920414
SNP Position Genomic:     39636
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15827):
TCTGTGATGTTTGCACAATGACAGAATCACCTATGGATGCATTTCTCAGAACATATCCCTTTTGTCCCCTCCCCCACCCCATCCTCTTCATGGCCACATG
K
TGTGTTTTGTCGTTACTATACCTATATCTTGGAGACAGCACTTTTTAAGCATATTTTGGACTTCTCTCTGCCAAAAATGCGGACAAGTGGCCTCTCTTTT
Celera SNP ID:            hCV16074058
SNP Position Genomic:     47959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15828):
CAGAAATAGTAACCAGGGTCTTTATACTGTTGTTTATTTCATTACTTGGAATGAAAATGACAATCTAAGGTGAAGAGATGGACTTGGTTTGTCTGAAATA
S
GGAAACATCTAGGTGTAGATTTTCAGATCTCACAGGGGACAAATTTCTTCATCTGCAGAGGAGGAAATAAACAGGATCTGTGTAGCTCTTGGATGACCAG
Celera SNP ID:            hCV16074059
SNP Position Genomic:     42187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15829):
CACTTTGGGAGGCCAAGCTAGGGGCGCTGCTTGAGCCCAGGAGTTCAGTACCAGCTGGGACAACATAGCAAGACCCTATCTCTATACAAAATAAAAATTT
R
CCAGGTGTGGTGGTGCTAGCTACTCAGGAGGCTGAGGCAGGAGGTTTGCTGGAATACAAGGGTTCAAGGCTGCGATGAGCTATAATTGCACCACTGCACT
Celera SNP ID:            hCV3124330
SNP Position Genomic:     42648
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15830):
GAGAAAGAGAGAGAGAGAGAAAGAAAGGAGGGAGGGAGGGAGGGAGGGTCGGCCATGAAGACTTTATCTATATAGCGAGGGTAACAGACAGCCCAGGTGT
R
GAGAGTCCAGATAAGTGTCTCGATTTTTCCACGTTGGCCTATGTTTTTAAATGGAAACGAACTCTGCAGACCTGCCCTTCATTAGAATCTGAATCCCCAA
Celera SNP ID:            hCV3124331
SNP Position Genomic:     42890
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15831):
CTTCGCGTTTTGAACAAAGAATTGGACAAAACACACAAAGCAATGAAAGAATGAAGCAATGAAAGCACAGATTTGCTGAAACGAAGGTACGCCCCACAGA
S
TGGGAGTGGGCTGGAGCAAGTGGCTCAAGAGTGCTGGTTACAGAAACCTCTAGGGGTTTCCCATTGGTTACTTGGTTAGACCCTATGTAAATGAAGTAGT
Celera SNP ID:            hCV1266750
SNP Position Genomic:     104116
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15832):
TTTTCATTGCTTCTCAAATTTGCCTTGAAATAGAATTACTTACTGCAGTAAATGATTTGCAGTATGTTTATCCCCTTCTTCTTCGTCCGTAGCAGCTGCT
R
GTTGAAGTGGGAAATAGGATTCAGTGGTGGAATAAGAATTAGTTTTTTTTGGATATGCCAAATTTCAAATTGACTATATAGCTAACTAACTTGTGTGTAA
Celera SNP ID:            hCV3124334
SNP Position Genomic:     45347
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15833):
ATGGAAATAAGGAGAGAAGACACATTACTAACATTAGGAATGAGAGAGGTGACATCACTACAGATTCTATAGATATTATGCACAAGCTTGTGCCAGTAAA
K
CCAACAACTTAGTTGAAATAGGCCTGATATTGTTACCAGTGGAGAATGTCCAGGTTCTTCGCGTTTTGAACAAAGAATTGGACAAAACACACAAAGCAAT
Celera SNP ID:            hCV1266751
SNP Position Genomic:     103959
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15834):
GAACAGCTTTAGTCTGTGTAGTGGTCATGGGCATGCACTCTGTATCCAGACCTGCCGGCTTTGAATCTGGCCTCCCTATTTCCAAGCTGTGTACCGTGAG
R
CAAATTATTCAACCTCTCTGTTTTAATTGCCTCAGGCTGCTATAACAAAATACCATAGCCTGGGTAGCTTGAACAATATAGATGTGTTTCTCACAGTTCT
Celera SNP ID:            hCV3124335
SNP Position Genomic:     45649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15835):
CTCCCAAAATGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCCAAACTGGGACATTTCTTAAGATGAGCAAGTGAAACAAAAGTTTCAGTGGTTTAT
R
TAGAATCTCATGTTGATGTATATTTATAAGCATGTTTATTTTAAACATCTGAGAGAAACAGCAGAGACTTGCTATGGTGTAACGCTTACTTTCCGACAGT
Celera SNP ID:            hCV3124336
SNP Position Genomic:     47251
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15836):
GAGGCAGAGACCGTAGTGAGCCAAGATCGCACCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAA
A
GAAAGAAAGAAAAAGAAAAATTCAAATCCATTATCTCTGAAGTAGACACCCCAGTGAGTGAGCTACTTCTTTCTTTCTTTGCCAGGTTTGCATGAGCCGT
Celera SNP ID:            hCV27438580
SNP Position Genomic:     19441
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15837):
CAGGGAGTTCCTCATTGATCCTCACCCATCCTATTAGCCAGGGACTGAAACTTCAAAAAAGAATGGATTCCCTTTTTAGAATATTGCAAAAGATCATGTC
Y
GTTGTGGTTAAAGAATTGCCTTAAATAACATATCATTTTCACTTGAATATCCTGCAACAGGGGAACACTCGTGTTCATCCTTTCTTTCAGCATGTCCAAT
Celera SNP ID:            hCV1266753
SNP Position Genomic:     102807
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15838):
TTTATATAGAATCTCATGTTGATGTATATTTATAAGCATGTTTATTTTAAACATCTGAGAGAAACAGCAGAGACTTGCTATGGTGTAACGCTTACTTTCC
R
ACAGTTCACATATTTCCCAAGTTTTAAGGAGTTCCTATTGATGGTAGGTGAGTGATTCTTTTGGTTTTTGAAGAAGGATTAGTTGTGACAACCCCGTGAG
Celera SNP ID:            hCV3124337
SNP Position Genomic:     47346
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15839):
CCGCTCCGTCTTTCTCCTTCCCTTTCTGGGTTTTTCCTCTTTTGCCTGCTCTTCAGTGATGACATTTCTCTGTCTTCGGGCCCTGGCTCTCTGTTTTTTT
T
GTTGTTTGTTTTGTTTTGTTTTTTTTTCCTTCACTCCTGCGTGCTGTTTTTGGATGATAAGACCCTTCCTGTGGCTTTAATTGCTGTCCATATGCGGACA
Celera SNP ID:            hCV27438581
SNP Position Genomic:     14419
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15840):
GTGTCTTCTTTCCCAGCTGGCCTGGGAGCTCCTGGAAGGCAGGGCCTCTGCCACCTTCTGCTCTGCATCTCAGCACTTGAGTAGAGTCTGGCATAGACTC
Y
ACTTAGATTAGAGCATGGGCTCAGTACATACTTATCAAATTCAGTTGGCATCAAGAAGCCTGGATTCAAACATTTGCTTGGTGATCGTAGGCAGTGACTT
Celera SNP ID:            hCV1266754
SNP Position Genomic:     102432
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15841):
AACTATCCTCTATTTCTGATGTAGTAGCATTCTCACTTCCTGCTTTTCAGTTTGACTGGGTTGCAACGGGTCCATTATTTACTCAACTTCTTTCTTTATC
R
ATTTCCTCATCTATAACATGTCAACAATGGTATTGCCTCTCTTACAGGGTAGTTGTGAGGATGAAGGGGTTAAATGCAGGTGAAACCCTTAGAGAAGTGC
Celera SNP ID:            hCV3124338
SNP Position Genomic:     48584
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15842):
AGTCAATCTGTGTTTTTGTTACTGTAGTCATATCACATTCTTGCATCCTTACAGCTTTATGTCAGTGCTGTTGGAAAATACACCTTTCTTCATTGACTTA
A
CTTGCTCCAAACAGGAACTGAAAGGTGGTAATGGTAGCCAATTGACTTTGAAGTTTAGGTTGACAGAATTCTTTTGCAAATGTGATCTTCCCTGAGTCCC
Celera SNP ID:            hCV27438582
SNP Position Genomic:     13658
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15843):
ATTCATTTCTAAGTGGTGCAGAAGGATTTGAACCCAAGTCATCTGACTCTAGAGTCCCTCTCGTAGGCATGTGGCTACACTGCTTCTTACCATGTGTGGT
R
TGTATTGGGTGACTCCTTTCTGGCAGGAACAAGCCCATTAGGTTTTTTTTAGGCATCTGTTTCAAAGGGTTCTTCTATATTTGTAAGCCAAACCTTTTTC
Celera SNP ID:            hCV1266755
SNP Position Genomic:     101547
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15844):
TCTCATGAAAGTCACACAGACCTGCAAGGCTCCTGCAATCTGCCCTTTACTCTTTGCCCTTCCCAGCTACCTCATCGATTTCCTGACTGCTCGTCTTGCC
R
TGGGGACCATCCTTGCATTAACCACAGGAATTTCCAGCAACAGTCCACTACCATATTCCTAGCACTGAGCATAGAGTCTGACAGATGATGTGTGTGATTG
Celera SNP ID:            hCV3124339
SNP Position Genomic:     48815
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15845):
TGGCCCTGTCATTCAGTGGGTATATGTGATTAGGCAATTTCCTTCACCCCTCTGAGCCTCACTTTCTCCATACATATGTGTGTGTGTGTGTGTGTGTGTG
K
ATGTGTGTGTATATTTCAGACAGTCTGACTCCTGTTGCCCAGGCTAGCTAGAGTGCAGTGGGGCTATCACGGCTCATTGCATCGTTGACCACCCAGGCTC
Celera SNP ID:            hCV27438583
SNP Position Genomic:     12712
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,1|T,1)   total(G,1|T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15846):
CAGTGCCTTGCACTCTGCGGACTCTGGGTTCTCAACAAATGTACGACAAGAAAGATGTGTAGAGGTGATCCAGGGCCTCGTGCTATGGGTACCAACAGGA
R
GGCCTCTCACTAATGTGGGGCAGGGAGTAGCTGATAACTTTCCCCAGCAGCTGTGAAGACAGTTGTTTCACTTTTTGTCACCAGAGCCACTGTTTAGGGA
Celera SNP ID:            hCV8913160
SNP Position Genomic:     75034
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15847):
ATTACAGGCGTGAGCCACCATGCCTGGCCCAGAGTAGCATATTCTTGATTTGAATTTGTAGACTGGAAAGTTCAGTGTAGTCTGATGATGATGATGATAA
Y
GATGATGACAGTATCAAGCACTTGTACAGCACTTACTACTCTTTAAGCACTTTTCCAAACATGTAACATACAGTAATTCATCTCATCATTTAATCCTTAC
Celera SNP ID:            hCV1266756
SNP Position Genomic:     101272
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15848):
TTTTCAGCTAGGAATTTGATTATAATGTAACCATTAGACTAAATCTACATCTACATCCACATTTAAGGATTTCTGTTTAAAGACCTTTTTTTTTTTTTTT
T
AATCTCTTCCAAACCCTGGTGGGTTTTTTTTGTTTTGTTTTGTTTTTGTTTTTTTGAGATGAAGTCTTTCTCTGTGGCCTAGGCTAGAGTGCAGTGGCGC
Celera SNP ID:            hCV27438584
SNP Position Genomic:     10530
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15849):
GGAGTGTTGCTCTGTTACCCAGGCTGGAGTGCAATGGTGTGATCTCAGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCTTCAGCCTC
Y
GGAGTAGCTGGGATTACAGGCATGTGCCACCATGCCCTGCTAATTTTGTGTTTTTAGTAGAGACAGGGTTTCACCATATTGGTCACGATGGTCTCGAACT
Celera SNP ID:            hCV1266757
SNP Position Genomic:     101025
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15850):
GCTTCAAGTATTTCAGCCTCTGGTTTGTGAATCAAGAAGGACGCACCCTAGCTTACAGCTCCGAACTTCATGCATACGAAGATTAGGAAATGTCCTTTTT
R
TACTTAAAAGTGGTAATTCTTTCAAATGTTTAGCCCATGAAAGTGACACAGCCAATTTCCCAGCCTTCAAACCTCAAACCTGCCAAAGGCTTGAGTTATC
Celera SNP ID:            hCV27438585
SNP Position Genomic:     9129
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15851):
GTGTCTTAACTATTCTTGAATATTTGTATTTGACTAGAATTGCATTAAATTTATAGGTTAATTTGGCGAGAGAAGAGATCTCGATGATGATTTGTTCAGG
R
CACACAAAAATGGACACTGTAACTTCCTGAAGGGCAGGGACAGGTTGTAGGAACAGATGGGTAACAGTGAGTTAGTTCACTTTTGGTCATTTGAGACTGA
Celera SNP ID:            hCV1266758
SNP Position Genomic:     96621
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15852):
TACCCCTGCATTTTGTCTCAATTACTAGGGCTTTAGAATAAGTTCTTAATAAAGGTCCAATAAGTCTACAATTCCTTATTCAAAGTGTCTTAACTATTCT
Y
GAATATTTGTATTTGACTAGAATTGCATTAAATTTATAGGTTAATTTGGCGAGAGAAGAGATCTCGATGATGATTTGTTCAGGGCACACAAAAATGGACA
Celera SNP ID:            hCV1266759
SNP Position Genomic:     96537
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Gene Number:                 32
Celera Gene:                 hCG1685795 - 149000145736721
Gene Symbol:                 SCNN1G
Protein Name:                sodium channel, nonvoltage-gated 1, gamma;ENaCg;ENaCgamma;PHA1;SCNEG
Celera Genomic Axis:         GA_x5YUV32VTB5(5101076..5147219)
Chromosome:                  Chr16
OMIM number:                 600761
OMIM Information:            SODIUM CHANNEL, NONVOLTAGE-GATED 1, GAMMA SUBUNIT;SCNN1G


Genomic Sequence (SEQ ID NO:12192):
TGGCATGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATAGCTTGAACCCAGTGGGTGGAGGCTGCAGTGAGTCGACACTGTGCCACTGC
GCTCCAGCCTGGGTGGCAGCAGTGAAACCCTGTCTCAAAAAAAAAAAAAGTCTCTTACACTAGAAAAATGGTACTAACTTTTGCCAGAAACATATGTGTA
CCCTTTGGGGAAAAAGGGTCCTAGAAAATTAATGTAACCAAGCTTATATTTCTCTATTTCAACAACTGATGCTATTGGCTTAAGCTAAGACTATACACAG
AAATAGTATCCAGGTCATTGAATTAGAGTCCAATTAATAAATAAGAATGGTCTTCTACCATGCCACCACCCTCATCAGCCCAGCAAGAAAGACTTTCCTT
GTCTTCAACAAGGAAGACCTTGTTGATTGCTTCTTAGAACCCTCCCATCCGACTACATAATATAAATGTGATCCTGGAAATGTGAGTCCCTTTGACCCCA
CACCTGACTCATATTAGCCTTAGGTCCTATGAAGATAATTTGGTAAACTTTGGGTCTTATTGAGATAGCTGGTTGGGCGCGGTGACTCACACCTGTAGTC
CCAGCACTTTGGGAGGCTGAAGTAGGTGGATCACTTGAAGTCAGGAGTTCGAGACCAGCCTAGCCAACACAATGAAACCCCGTCTCTACTAAAAATACAA
AAGAAATAGCCTGACATGTTGGAGCATGCCTATAATCCCAGCTACTCAGGAGGCTGAAGCACGATAATTACTTGAACCCAAGAGGCAGAGATTGCAGTGA
ACTGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGAGACAACATCTAAAAAAAAAAAAAGAGAGAGAGAGCTAGGATCAAGGGGAGTCTATTTCCCT
GTCAGAGTTCTAATTACCTGTTATCCCTTTAAATAGCTCAGGGCTCTCCCTGTTGTCATTTGGCATATAAAAATGTTGCCCAGATTTGTAGATATTCATC
TGGGACTAGATATGAAATACACTCACTTTAAGAAACAGAAGAAGACATCACCACATCCAAGTGGGAAGATAGGATTTTTATTCTCTATATTAGTTGGGAC
TTTTTTGGTTTTGAGTGAGATAAACAACTCAAAATGTCCTAAACACAATAGCAAGTTTATTGGCTCATATGACTGAGAATTCCAGAAGGTAGACCCAGCT
GTAGGCAGTGCTGGGTCCAGAGACTTGCTGGAACCCTCTCCATCACTGGGCTCTGCTTTTCTTTGTGTTGGTTTCACTCTAAGGCCCTATGTGATACTTT
CCACAGCCCTTGGATCACACAGTCCTTTCTGCTAGAAGTCCCAGTAAAAAGAGACATCCTCCTTTGCAATATTCTAGACAAAGTCTTGGGTGGGTGTGAC
TCTCAGACTCTCATTGGATTGAATTTCTGTCTGTGCCCACTCCTGAGCAAAAGACTGTAACCTAAAGGCCAGGCATGGTGGCTCATGCCTGTAATTCCAG
CAATTTAGGAGGCCAAAGTGGGTGGATCACCTGAAGTTAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAAAAAAAAAAG
AAAAAAAAGAAATTATCCGGGTGTGGTGGTGTGCACATGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGATT
GCAGTGAGCCGAGATAGCACCACTGCATTGCAGCCTGGACGACAAAGCGAGATTCCATCTCAAAAAAAAAAAAAAAGACTATAACCTGAGTGACAAGATA
AGCTGATTTGCTAGAGCCAGAGATGGGGGTCAACCTAAGTTGAACCACATGAATGAGGATGGGGGGTGTGGATAGGATTGAATGGTTCTCCAAAGGAAAT
TCAGGGATGTCTCTAGAATAAAAAGAATGGATATTGGCAGAAAAACAAGCAAATGGCTTCTACACCATTGCTCTCGACAAGCAAGTCTAAAATCTTAGTA
TTTAGGGGGCAATGTAAGTCTCATCTATATTGCTTTTTCCTAAGTGGACCAGAAGTGTTTTTTTGAAAACAAAGGGAAATGTTGGTTCACTTGTTTTAAG
GTTTCTTCCTCACTTACAGCCACATGATCTGAGAATTTCCCATTTACCAGTAGTGGTGAATCTCTTCAGTCATATTTGTTTTACCCATTCCTACCCTCAC
AGTGTTAGCTGATTGGACCAGGAATGAATACACCTGAGCCAAAGAAACTAGCTCATTGGCAGGCCAGTGGCCAATCAAATTTATCTTCAGGACTCATGAG
ACTAAGACAGGCTTTGAAAATTCAAGAAAGCCCACAAAATCCTCTGCCAGGCGCACTGACTTACACCTGTAATCCCAGCACTTTGAGAGGCCAATGCGGG
TGGACTGCTTGAGCCCAGGAGTTCGAAACCAGCCTGGGCAATATAGAAAGACCTCCATCTCTACAAAACCCACAAAATGTATCTGGGTGTGGCAGTGCAT
GCCTATGTTCCCAGCTACTCTGGAGGCTGAGGGGGAAGTATCACTTGGGCCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGC
CTGGGTGACAAAGCCAGACCCTGTCTCAAGTAAAAATAAAAATAAAAAAAGACCACAAAATCCTCCTCCTGAGAGATCCAGACCTTTCCTGGTTCCCATT
CTCCTGAGACCCTCTGTGTTTCTTTGGATTCTGTAAAGGAGCCCTGCCTGCATCCATTTAATAATTTATTGATTCTGCTTGAGCTAATTTGAGTCTGTTT
CTGTTGCCTGAAACCAAATGACTTTGCTAAGGCTAGGTTCGGTCATAGTCATATGCAAGGATGGCACGGAGGCCAGTGAAGGTGAAGCAGAATATGCGAG
TGTGAGTAGGAAGAGACGAGGGCAGAGGGACAACAGGGTCAGATGATGGAGGGCCTTGCAGATGACCATAAGGATTTTGGCTTTCATTATAAATGAAGCA
AGAAGCCACTGAATGGGTTTAAATAGAGAAATGGCATGATCTAACCTTAATTCAATAAGAATCTCTTTGACTGGCTTATTGACAAGAGGCTGTGGAGGGC
AGAATTAGCAAGATTAGTGAGGAGCCTATGGCAATGATTCGGGTGAGAGACAATGATCAATTAGAGCATGGTGGTGGCCCCAGAGGTGGGGAGAAGTAGA
TTCTAGGTATATTTTATAAATCTGAACACTGATGCTTCAAGAAGGAGAGGACGTTGCCTATGGTCTTATGATGACAGGAGTGGTTTAGAGGCAATACCAC
TCTGTACTGAAGAATCAGATGGTGTTGGTCATAGGAGTGTACACATTTACCAAAACTCCTTGACTTGTACATTTTGGGCCAGGTGCAGTGGCTCATGCCT
GCAATCATAACACTTTGAGAGGCCAAGGCAGGCAAATTTCTTGAGGCCAGGAGTTCAAGACCAGCCTGGGCAACATAGTGAAATTCCATCTCCACAAAAA
TAAAAAATTAGCCAGGCATGGTGGCACAGACCTCTAGTCCTAGCTACTATTTTGTAATCTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTGGAGGCTGC
AGTGAGCTATGATCACACCACTGCATTCCACCCTGGGTGACAGAGCAAAACCTTGCCTCAAAAACAAACAAACAAAAAAATTGTGCGTTTCACTGTATAT
AAATTTTAACTTGAATCTAGCCTAATTCCATGCCTATAATGCCAGCACTTTGGGAGGCTGAGATGGGTAGATCCCTTGAACTCGGGAGTTCAAGACCAGC
CTTGCAAACATGGTGAAACCCCTTCTCTACCAAAAAAAAAAAAAAAAAAAAATTAGTTGGGTATCGGTGGCATGCACCTGGGGTCCCAGCTACTTGGGAG
GCTGAGGTGGGAGGATCCTTGGAGCCACAGGAAGTTGAGACTGCAGTAAGCCATGATCATGCCACTACATTCCAGCCTGGGTGACAGAGCAAGACCCTGT
CTCAAAATAAATAAATAAATAAATAATTTAAAAGACAAAAAGAAGAAAAAGCTGGCTTTATTTTGCAGTGAGAATATAACTGTGTATTGTCATTCAAAAC
AAACATAGAATTTGAACAGTGTGTGTTTCAAAATCCCATTATATATGTATGTGTATATATATAAAACTAATATGTGTGTGTGGACACACACACATACACA
CACACCAAATAATAACCAAACTGTTAGCCATGCTTATTTGGGGAGGGGGGGGCACAGTTTATTGTTTTAATTCTTTGCAATGAGCATATATTGTTAGAAG
AAGCAGCTGAGATTTTTTAGAGGATTTTCTTTAAATTTCTCTCCAATAATGCTGGACCTGTTTCCATCCACCTGGGCAAACCGCCCTTGGACCAGCAACC
AAGGCATCTCCTAGGAATTTGGAAATTCGGACTCTTAAGACCCACTCCACCCCTATCGAGTCAGAATCTGCATTTTAACAACATCCATAGGTGATTGTAA
CCACATTCAAATCTGAGAAGCTCTAGGTAAGAACAGATCCTTTCCTCTCTCTGGGCTTCAGTTTCTCCCCGGCACAAAGGGGCTGTGTCTCTATGGTCCC
TCCCAATTGCAGTTTTCTAATCTCGTTTCTTGTAGTTATCTGAGTCCCTATAAAAAGGCAGCTGAAGCTAGGAAAGGTGGCTTACCTCTGTAATTCCAGC
TATTTGAGACGCTGAAGTGGGAGGCTCGCTTGAGCCCAGTAGTTGGCAGCTACAGTGAGCTATGATTGCAGCACTGCACTCCAGCCAAGGTGACAGAGGG
AGACCCTGTTAAAAAAAGAAAGAGAGAAATAGAGGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGGAAGAAAGAAAAAGGAGGGAGGGAGGG
AGGAAGGAAGGAAGGGAGAGAGAGAAAGAAGAAAGAGGGAGGGAGGAAGGAAGGAAGGCAAGCAAGCAAGAAAGAGAAAGGAAGGAAGGAAGGAAGGAAG
GAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGTGGGCGGGCGGGAAGGCAGGCAGGCAGGCAAGGAAGGAAGGAGGAAAGAAAGGAAAGAAAGAGAGAA
AGAGAAAGAAGGACAGGCCAGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGACGCGTGGATCACCTGAGGTCAGTAGTTTGAGAC
CAGCCTGGCCAACATGGTGAAACCGCGTCTCTACTAAAAACACAAAAATTAATCCGGGCATGGTGGCGCGCGCCTGTAACCCCAGCTACTTGGGAGGCTG
AGGCAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGTAGTGAGCTGAGATAGCGTCATTGCACTCCAGACTGGGCGACAGAGCGAGACTCCGTCAAAA
AAAAAAAAAAAGAAGGAAAGAGGAAAAGAAAGAAGAAGGAAGGAGGAAATAACGAAAGAAAGAGAAAGAAGCAGCTGAAAAGGTCAAAGGATGAGTGGCC
TGGCTGAACAGCCCCTGCTGCCTACAGCCGGACGCTGGTGGGCACTGAAGCTGCAGGTCTGGAGGGAGTCCGAGGAGCGAGGCTGCGTGGGATTACTGCT
GGTGCTAGGGCAGGCACCTGCCATCTGGACGGGAGTGGAAGGAAGTCGCGGGGCAGTAATAGGGGGCAGCAGGCGCTTTGAGGCGCCTTGGGGTAAGTGC
CGCAGAGACCCAGCGGGAATGCAGGATGGCAGGGCGGCCTCGGGGCGGCAGCAGGCACTGCGCGGTGGCCCAGGAAGACGCAGCGCGGCCGGGCTGGGGC
GCAGGGCGGCTTCGGGGCGCCAGGGGGCGTTGTGAAGTCGTGGCCCGCTCCGGGCGGTCTCAGGTGCCTGGCGGCCTGGGGAAAGCACCTGGGCAGGTGG
GGGCGGGGCCTGGGGAGGCGGGTCCCTAGGGGGCGGGGCCTGGCCGGCCCACAAGAGCCCGCGGTGGCGCTGCCAGGGGATGCTAGCCCGAGAGCGAGCA
GAGGAGCAGCGCACCCGCACGAGCCTTGGACCCTTTGGAACCGAAAGGTGAGTTCAGCCGGGTTGGGTCGGACCAGCTCGGGGGTTCTGGGCACTGGAGC
GGATGCCGRGCGCCAGGGCGTCGGACGCCGTCAGCGCGGTGGGTGGCCGAGCCAGCATCAGCSRGTGGCGGCTTCCCGGTGCCCGGGATGCTGGGACACC
TTGCCCGGGCGGTAGCGGCCAGCTCTCCCGGGTCTACCCACGCCGTGGCCCGGAGCACGAAGCCAGTCGAGAGCCACTCAGAGTCCGGGGGTCTGGGGGT
CCCGGGCCACACCTGGCCTCTTTTCTCCGCCCAGCGCCTGTTCAGCCCCCTTCCCTGCCGGGGTGAGTCGCGTGGACCTGTCCGCTACTGTTCCTTCTAC
CCTCTGGAATGCTTTCTCCGGGGTGACTTGGTGCAGAAAGAAGCAAACACTTGAAGTGGGCTGGTTGGATTCGCTCCAGCGCCTTCAGCCGGCGCTCCCC
CGGGGCAGACGTGGCTTCCGCCACAGGACAGCGCCCGCTCGCTCCGCGCAGGGAGGGCAGGGCTGCGGGGTCGCTCGGCAGGAGCTCGGGTCAGGGCCCT
GAGGTTGAGTTCAAGTGATTTCTGCACAGGACTCGCCCTTCGGGACGGGCACTGATCGGGAACTCTCCGGTCCAGCGAACCCAACGCTAGACTTGGGGCA
AATCTCTCATCCCTCTCCAAGCTTTGGGGTCCTGCACTGTGGGATGGGGGACAGGCAAAGTCGGTGGTAGGTGAGGAGGGGGTGCACGGAGCCGCTGCGA
TGAGCCAGGGCCCTGGAATTCTAAAGAATCCTTCAAATCCTTTCTACCTGTGTGGTCTTGGGCAAATTACCTAACCTCTGTGCCTCAGTTTCCTTCTCTG
TGAAATGGGCCAAGTAATAGCACCTCATATAACTAGTGAGGATTAAATCAGGTAGTGTGTGAAAAGGACTGAGTGGGATGCCTGGGAGTACAGAAAGGGA
TCAATAAGTGATAGCTGCCATTATTGCTGCTTTCCCTGCTGCTGTTATTATTATTAATGATTGAAGAGCAGCCTAGTTAGTCGTTAAAGGGACTCCTAGG
TGCAAATCCCAGCTCAGCCACTTTCTAGTGTGACCTTGGGCAAGCTACTTAACCTGTCAGCGTCTGTTTCATTTGTACAATGGAGGTGGTTGTGATACCT
ACCTCAGACGATTATCGTGAAAATTAAATGAGGTGACAGCTGCAAAGTACTTAGAAGAGTAAGTGCTGGGTATCAGCTAGTAATTCTTCCACCAAGGGTA
TCACATTGGCTCAGGCTGCATAATCTAATGGTAGCTACAGTCTTGTTTTGCTTTGAAGTTGAAATATTATTTATATGAATATTTTATCTGTTTTGCAAAG
AGCAAGATCAGTTCCCTTCCTTCACTTGGGGGCTCCTCTGACATTGTCGACTGATCCATTGGGGTCAAGGTCGGTTCTGGGGAAGGGGCTGATGGGGCAG
AGGTACCCCTGAGAGCTGGGGATAGGAGCTTCCAGAATCACAGCTTCTGTTGAACAYTCACAGAGGAGGGCTGCAGTTTTATTTGACAAGCAATTGAACC
TGGACCTAGATTTTAAAAACAAACTCTYGCTAATTTTTTTCTTTCTTTCCTTCTTCTTTATTTCATTTTTTATTTTTTTGGATTGTAGTGAGGGAGGAGG
TAAGGATAGGCAATATTTTAAGTGATAAAAAAATAAATTATATTCCTCTTGCCCAGAGGCTACTAGCATCATTTTGATGGTGTTCTTCATCCCAGCAAAA
TCATATCAATCTATGGAGGGTTTAGAGCAGTTTGKCTGCTCTGGACATCTCACCTCCATGCCCAGCACTCCATTTCCTTTCCATCTGAGGCCTTAAACCC
ACTMGCATCATAAGCTTGGAAGCCTCCTAGCTTTGCCCCAGCTTCCAATTTTAGCCCATATTTCATGGGTTCAGGGTGGGAAAAAAAGACATAACTCTGC
AGGTTCCGAATACTGCCTAAAAATCTTGATGGGGCACRTCGAAGTCACAGACAYGGGTCCTCTCTGGTCCTGGGGACCACCCTGTATGCCCTAGGATATG
TCCTAATTTGCCTTTGTCACTGTAGAAGGCATAGGACGACACAGTTTTCATATATCCCCCACCCCCAATACTAGTGCTCACAAGTCTTGGGAAGTGGTCA
TGTGCACTGTTCAGAGTTTGGAAATTAAATAGCTGTGTTCCTTCTCTTTCCTCCTACCTTTAGTTCTTGGTATTGTTAATTAACTCCCTGCACCCAGCGT
ACTACCAGGCCCCTCAAAGGCGTATGCCATAGCGGTGAAGGCTGCAGGGTTCCATCCAGCTCCTCCACTAACCAGCTGCATCATCTTACACAAGATATTC
AACCTCTCTGAGCCCATTTTTCTCCTCTGTAACATGGATATAATAATAGCATGCCTACTTCATGGAATTATTGAAACACAAAAGGAAATATATGTAGGCT
AYGTGTATATTTATAGAGAGAGACAAATTTACTTATGAGACTAATGAGACTATATATTATAAACATGAAATGAGTTTTTATGTAGTATATTAGTTCATTT
CTAAAATTATTTCTCATTGTAAAGTTTGTATAGTTGAGATGCATCGTGYACATTGATGAATGTGATAATTTGCCTTCCAATACTGGTACTCTCCCCCAAA
GCTGTTATTAAATCAAGGGCATTCTCTAAATTAATGGTATCTTAGAATCAAGGAAATATGGCACAATGCCTGGCAAACACTAAGTGGCCAATAGTTGCAG
GTTATTGTTACATCAGGTGATCTAGAAACATTAAGAGCTTGACTGTAAAGAGAAGAAACAAAAGAGAAATCGTTTCACTTATAATAAAGCCTCAGAGAAA
AGGCTGGGGAAAATGCAGCCAGGAACATGATCTAAGGTGGCTGCCGGGAAATTTTCTTGGCAGATTTCATCTGTCAGTTACAATCTGCCGAGCACTGCTC
TGTGCCAGACACTGTGCTAGGAACCRGGGGGCATAATGAGATAGGAATGCTGCCCTTGAGGAAGGCGGGCTACTGGAGGTGATAAGGCACGGGTACCCCT
GCCTGATAAGAGAGCTGATGGGGCTGCTTCCAGAGTTCCTGCCCAGGAACCCGGGGAAAGGTCCTGCAGCCTGTCCAGCCAGCGCTTCGCAGGTTGCACC
TCACCCAGCCCCYGCACGGCTAGGCCTGGGGGCCGTAAGAGAAGTAGGCAGCTTCTCTGGCAGCTGTGGTGGCCAAAAACAAACGTCCCGTGGAAAAGGG
GCCAAGGATTCAGAATGCAAAGTGCCTAAGCCACAGAGGAACAGAGGAAGGAGGTCTCTAAGGGCGCATGGACTGGTGTTTCCCARACTGTGGTCTCCAG
GGACACACTAGCCGGCTAGTGCCTGCCAGCTCACCTGCTTCTCTTCTTTGCCCCTSCAGCACGCCCGTCCTCRGAGTCCCGTCCTCAAAGTCCCATCCTC
GCCATGGCACCCGGAGAGAAGATCAAAGCCAAAATCAAGAAGAATCTGCCCGTGACGGGCCCTCAGGCGCCGACCATTAAAGAGCTGATGCGGTGGTACT
GCCTCAACACCAACACCCATGGCTGTCGCCGCATCGTGGTGTCCCGCKGCCGTCTGCGCCGCCTCCTCTGGATCGGGTTCACACTGACTGCCGTGGCCCT
CATCCTCTGGCAGTGCGCCCTCCTCGTCTTCTCCTTCTATACTGTCTCAGTTTCCATCAAAGTCCACTTCCGGAAGCTGGATTTTCCTGCAGTCACCATC
TGCAACATCAACCCCTACAAGTAAGAGGCATGAGCAGGGAAACGCGAGTAGGGAGCCAGGCCCCCCACAGAGGCCAAAGCCCCTCCCGAAAGTGACACAC
TGGCAGCCTGGAGGTCGATTCCAGCCTACAAATGTGCTTTCTAGAAATTTGAATTTGTTGCTAACGCTGGTAAACAGCCCCCTCCCCAGTTCTAAATCTG
TATGTACCAAGTTTTCAGACCATCAGTGACTTGTTTTTTTTCTTTTCTTTTTCCTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGGATGCAR
TGGTGCGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCTAACAATCCTCCCGAGTAGCTGGGACTACAGGGGTGTACCACAGCGCCAGGCTAATTT
TTTTGTGTTTTTAGTAGAGACAGGATTTCACCATGCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGC
TTGGATTACAGGTGTGAGCCACAGTACCTGGCCTTTTCTTTTTTTTTTTTTTTTTTTTGGAGGCAGGGTCTCACTTTGTCACCCAAGCTGGAGTGCAGTG
GTGCAATTATAGCTCCCTGCAGCCCCGACCTCCTGGGCTCAAGCAATTCTCCTACTGCAGCCTCCTGAGTAGCTGGGACTATAGGCACATGCCACCACAT
CCAGCTAAAATTTTTTATTTTTTAAGAGATGGGGTCTCGCTATGTTACTCAGGCTGGTCTCAAACTCCTGAGCTCAAGTGGTGCTGCCACTTTGGTCTCT
CAAAGTGCTGAGATTACAGGAGTGAACCACCACACCCACTCCATCAATGACTTCTGAGGATGGGCTAGCCCAGAGAGAGCAGAAAGAGGAAGCTGCAGGA
TTTGTTTCACTTAGAAGAGGCCTGGAACGAACTAACCCCCTCTGCACACTCCCCATATCAAGCCCAAATTAGCCAACCCCCATCTGCATCTGCACCCCTG
GCTCTCCRAGCTCACATGTTCACTCTGCCTGCAGCATAAGTGAGCTCAAGGCTGACTCAGAAGTGACACCCAGGTGACTTCTGTAAGCACCTCAGCTGCC
CCAAACCCTCATCTGAATAAACCCAGCCCCATTAATTGAGCTCATCGGGCCCTGGGTGTGATCAGCCCTTGGGACTGCCCTATCATCCTCGGCAGGACCT
GTTCTAAATGGGTCATCAGAGTCCTTCTCAGGATTATGGAAAACTGGTCCGTGAGGCAGGTCAGAATCAGGCAGACTTTGTCAGAGCAGGGGTGGGGAGA
AGGGAAGAAGAACAGGGGAGAAAGATTATCAAACGAAACTAACTTGTCCAGAATCRTCAGTGAGTTGGTGCAAAGCTCAAAATCAAGATCAAGTCTAAGA
CTCTCTCTCCGCCCTCCATGTCTTCCTCTTCTTTCTTTCTCCCTCCCTCCTTCTCTCTCTCTCTCTGGTCCTCCTTCCTTCTTTCCATCCATTATTTGTT
CCATAATAATTTACTCAGCATCTATAAACTGTCATGCACTGTACTAGGTTCTGGGATAGAGAACTGAACAACCCAAACACAGTATTTGCCCTAGTGGAGC
TTATACTGTAGTGGAGGAATAAAGTCTTAATAAATATAATAACACTAATATAACTAACAATAGAGGCACAGTGGCTCATGCCTGAAATCTCAGCACTTTC
AGAAGCCAAGGCATGAGGATTGCTTGAGGCCAGGAATTCGAGACCAGCCTGGGCAACAGAGCAAGGCCCCCTCTCTAAAAATATTTTATTTTAAATTAGC
CAGGTGTGATGGCACACATTCATAGTCCCAGCAACTTAGGAGGCTGAAGTGGGAGGATTGCTTGAGCCCAGGAGTTCTAGGCTGCAGGGAACCATGATTG
CACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACCCTGTCTCTAAAATAATAACAATAATAGAGGGCATTTAATTATCTATATGTATGTCTGTGTGTG
TTTATTATATTTAATAAACTCATTGAACCTTCCCAGCAAATCCCGTTTTACAAAGGAGAATGCTAAAACACAGAGAGGCTAAGACATTTGTCCAAGGTCA
GGTAGCCAGTACCAGGATGGGGAACCTAAACTCAGGTAATTTGGCTAAACCCAGGGGTTTCTATTCTCAATTGCTATGCTCTGCTGCCTATGCCTAGAGC
AAGTGGGAGAAAGGAGAGWGGAGAGAGTTAAGAGGAGGCTGGAACCATTTGATTTGTGAAAATTAAAAGATGGTATATTGTGCTTCACGCAGGCAACTCC
TTTATAACTATTTTGTGTTCTTGGGGGTCATCGAGGTAACAGTTATACCCTCCTTCCCCCCAGCACAGATTTGAGGACAATCAGTGGGCAGAGGCAGAGT
GAGCTGGGTGGAGAAGGAGCCTGCCCATTAGGTAGACTCCTGGTTGGCAGTTATTTACTTGTCCTCACTGTGGCTGGTTTATGGGAGGCACCTGACAGTC
ACCACTACAGAAATGCTGGTTGGGACAAACTTGTCAACACACCCTGAGGGCAAGCAGACAGTGGTGGCAGAGGTGAAGCCACAGGAAGTCACACATGGGT
CACCCATGAGCCTTTCCCCATTTGCCAGAGCCAGGGGTCACTTTGGATGGGTCAAGTCATGAAAGGCGTGGTCTCCTCTGCCAAGGAGTTGGGAAAGGTG
GGCAYGAGGCTGACACGTGTTGATGGAAAACAGCCTGGAGGAGCACCAGAGTTCTGCCAGGGCCGCCTCCCCTCTCCCTGACTTTTCCTCCCCACCTTGG
CAGGTACAGCACCGTTCGCCACCTTCTAGCTGACTTGGAACAGGAGACCAGAGAGGCCCTGAAGTCCCTGTAYGGCTTTCCAGAGTCCCGGAAGCGCCGA
GAGGCGGAGTCCTGGAACTCCGTCTCAGAGGGAAAGCAGCCTAGATTCTCCCACCGGATYCCGCTGCTGATCTTTGATCAGGATGAGAAGGGCAAGGCCA
GGGACTTCTTCACAGGGAGGAAGCGGAAAGTCRGYGGTAGCATCATTCACAAGGCTTCAAATGTCATGCACATCRAGTCCAAGCAAGTGGTGGGATTCCA
ACTGGTAAGATTTCACCTTCTCATTCTTTCACTGCTTAGGGGCATGGGATGGGCTGGGTCCAGGACTCTTCTCCTTGACCACTAGCCCCTGTGGTCCAAC
TGGAAGAAAYACACCCAGCTGGGGTCAGACACAGTGACTCATGCTTGTAATCCCAGCGCTTTGGGAGGCCAAGGCGGGCGAATCACCTGAGGTCAGGAGT
TCGAGACCAGCCTGGCCAACGTGGTAAAACCCATCTCCACTAAAATACAAAAATTAGCTGGGCATGGTGGCACATGCCTGTAATCTCAGCTACTTGGGAA
GCTGAGGCAAGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCCAGATGGTGCCACTGCACTCCAGCCTGAGTGACAGAATGAGACTCTGTT
AAAAAAAAAAAGGGGAGAGTTGGGGGGCAAACGGAGGGAGAGCATTAGGACAAATACCTAATGCATGCGGGGCTTAAAACCTAGGTGACTGGTTGATAGG
TGCGGCAAACCACCATGGTACATGTATACCTTTGTAACAAACCTGCATGTTCTGCACATGTATCCCAGCACTTAAAGTAAAATTATTTTTTAAAAAAAGA
AAGAAAGAGAGAAAGAAAGAAAAGAAAGGAAAGAAAGGAAAGACACCCAGCTGGGATGATTCAGCTGCAAACAACTGAAACTGATTCAGGTAATTTTAAG
TAGTGGGGGGCAGAGTGGGGGTAAATGTATTAGAAGGCAACCAGTAACTCATGGAGGCCTCTCAAAGGGCAGAAATTAGGGCAGATGCAGGGATCTGGGT
AGCAAGAAATGATGAAAAGTCATTTCAGATATTGCTGCTGGAGTAAAGAAGCATCAAATATGTTCAGTTTTTGTTGGTGTTGTTAATGCTTAAGAGTCAA
ATTCCATCTTGGGACTATCTGGTTGGTCAAGCTTGGGTCACCTAATCACCCTTTGGCTAATGGATGGTGGAGTATCTTCATGGACAATCTCACCAGGCTG
TATCCAGAGGGGGAAAGGAAATTCTTCCAAAGCAAAATTGAGGTGCAGGCACCCAAAAGAAAAAGACGGACAATAAACAGCAGAAACATCAATATTCGTG
CAGTACTTGCCTTCATGAGGTGCTTGGCTTGACTTCATTTTCCCTTTTGGTCCCATTTGAGGGGATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGAC
AGAGTCTCATTCTGTCACCCACGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACTTCTACCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTC
CTGAGTAGCTGGGATTACAGGCATGCACCACCATGCTTGGCTAAGTTTTTGTATCTTTAGTAAAGACTGGGTTTCACCATGTTGGTCAGGCTGGTCTCGA
ACCCTCSACCTCAGGTGGTCCCCCTACCTTGGCCTCCCAAACTGCTGAGATTACAGGCGTGAGCCACCGCACCTGGCCTGAGGGGCTCTTGAGAAATGCC
ATTCACTGAAAATGAATTCTAGTACCTTCCTGGGCAAACTCTATCACCACTCTCCCTCTCCATGCCCCAGCCACCTCTGGAGGACAGGGGCTATGTCCAT
ACCTTATAGGCTTGATTGCCAATTGTGTGACCTTGTAGCTATAGTCCCAAATCCTGAAAAATGGACCTTCTTCTAAATCATTGAGATTTCAAAGTCTTCT
TGGGTCCTTTCATGGGATATCTGCAAGGCTCTTCTTGATACCAAAATCAACTCTTTATATAGATGTTTGTTTGTTTGTTTTARAAACAAGATTTCACTCT
GTCACTCAGGTGGGAGTGGTGCAATCATAGCTCACTGCAGCCTAKAACTCCTGGGCTCAAACAATTTTCCCACCTCAGCCTCCCAAGTAGCTTGGACTAC
AAGAATGCATCACCACACCTGGATAATTTTTCTATTTTTTATGGAGATGGGGTTTAGCYGTGTTGCCCGGGCTGGTCTCGAATTCCTGGCCTCAATCAGT
CTTCCCACTACAACCTTCCAAAGYATTAGGATTACAGGCATGAGCCACTGCAACCAGCCAAAATCAGTTGACATCTGTCCATTTAGAAAAGTTTCCAAGC
TTTGTGTGATAAGAACATTTGGAATGTATAATGGCTTCTCTATAAAGTTCTCATTGTATATTTCAAACATGGGTCCTCCCAGCTACCACACGTGGTTGGG
AAGGATGGTGTTTCAGTCAACATTTTGTGGGTGAGATAATGGGCACAGAATACCTTGCCTGAGATCCTGCAGAGAAGTAGTCTCTCCCCCTCCTGCAGAG
TCTGGGCTGGAATCCAGATGTCTTGACTTTTGATATGATAGGAAATGGGAAAGGTTGTTAGGAACGTAGTAGCATCAATCGGATGAAACCTAGGTGCCTA
GGGACCCTGAAGAGCTGGTTTTGCTTCTTCCTTGGTGGGCAAGTAGTGCAGAGTTGCAGGAGTAGGACTCTGTGTCCTTTCTCACTCAGCCCCTTTTTGG
TCCTTGAGGCTTGAGGATGATCACTCCCAACCCCTAGAAGTGAGAGGAAACCCATCCTTGCCCCAGATATCCAACCTGTTCCCCTGAGTATCTGGCCTGG
AGTCTCAGTCACTCATTCTTATGGTCCTTCTGAAGAGTAGCGATAGGACCGATGGCTTCAGCCTCGCATCTCCTCTTATTCACAGTGCTCAAATGACACC
TCCGACTGTGCCACCTACACCTTCAGCTCGGGAATCAATGCCATTCAGGAGTGGTATAAGCTACACTACATGAACATCATGGCACAGGTGCCTCTGGAGA
AGAAAATCAACATGAGCTATTCTGCTGAGGAGCTGCTGGTGACCTGCTTCTTTGATGGAGTGTCCTGTGATGCCAGGTCAGGAGAGAATGCTGCTCTCTC
AGCCTCTAAGGACTGGCAGCTCTGAGTACCAGGCCCCTTGCAGGAACCTACAGCCTTGATGATAGGTCTTGGGAGCAAAAGGTGCTCTTCTCACTGATGC
TGCCTTTTGGAAACTGCTTACATGGGAGCTGTGTTCTAGAGTCAGTGAGTGAGGTATACATGACATAAAATCAAAATATCCTTAAACTCATTAAACTACT
CATTAAAAACAAGGTAGTTGGCCAGGCATGGTGGTTCACGCCTCTAAATCCCAGCACTTTGGGAGGCTGGGGTGGGTGGATCACTTGAGGCTAGGAGTTC
AAGACCAGCCTGGCTAACATAGCGAGACCCCGTCTCTACTAAAAATACAAAACTTAGCCAGGCATGGTGGTGCATGCCTGTAGTCCCAGCTATTCAGGAG
ACTGAGGCAGAAGAATCGYTTGAACCCGGGAGGCGGAGGTTGCAATAAGCCAAGATTGCACTACTGCACTCAAGCCTGGGCTGCAGAGTGAGACTCTTGT
CTCAAAAAAAAAAAAAAAAAAAAAAAAAAAACCCAACCCACAAGGTATTAGATTGGCACAAAAGTAATTGCTGTTTTTGTCATATGGTGTGCCTATAACC
TAACCTTGTATATTACCATCATGCATACTGATGACTAAGAACCATCGTTCTAAGGAAGGAAGGAAGAGATGGAGGGAGGGATGGGAGGAGAAAGGCCCAT
GTTCAAATATGTGAGATTTCAAACCTTTCACCTTTATGATAACACTCAGATCCCTTATAGTGACTGAGCAGTGGGTGAGACATTCTAAAGTGTTCCTGGG
CTGGGCACAGTGGCTCACGCTTGTAATGCCAGCACTTTGGGAGGCTGAGGAAGATGATTGCTTGAGCTCAGGAGTTCGAGACCAGCCTGGGCAATGTGGC
AAAACCTCCTTTCTACAAAAAAAATTCAAAAACTTATCTGGGCATAATGGCACACACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAAGATTGCT
TGAGTCTGGGAGGTTGAGGCTGCAGTGAGCCATAATTGCGCCACTGCACTTCAGCCTGGGCAAAAGAGCAAGACCCTATCTCAGAAATAAAAATACAATA
CAATACAATAMAATAAAACACTAAGCCTCTTTCACCTATCTGTATATGTTAGCAGACAGATTGGTTCTTGTGAAAAGTAAATAACTGGAATCATGTCTCC
CTAAGAGTTGGGTTCCAAAGTCATGTAAGGGCACAGATGATGCCCTGGGGATTATTTTCTAGGACTGAGAATTTTAATGGAAAATGTCAAGTGTTGGCTG
AGAAATTCAAAAGTGGAGGAATTTGGGGACAGACATGGCACAAAGAATGTCAAGTCAGGATAGAGATGAAGGTGAGAAGATTCCGAGAGAAAACAGAAGG
CAGAGAGTCTAGTTCTATGTCCATGTGTGTCAACCAGGATGAGGGGCCTTGTTTGTCATTTGATCAGGAGCAAGATGGGGAAAATGAGTCACATCTCTCA
CACATTCTCCCCAAAGAGAGTTGGCTCCATTAGCACTGCCCTGCCCAACTTCAGCTAAGATGCATGGGGGAGATCCCTTTCTGACCCATTTTCTTCCTCC
ATAGGAATTTCACGCTTTTCCACCACCCGATGCATGGGAATTGCTATACTTTCAACAACAGAGAAAATGAGACCATTCTCAGCACCTCCATGGGGGGCAG
CGAATATGGTAAGGAAACCTGTGCCAAGGAGATCTTGAGGCCCTCCAATAGTGGACATGGGGGCAGCAGSACAGTGGGGATGCGGGAGCCCTCTGGAAAA
GCGGGATCTCTCCCACTTGGCCAGAAACCAGGGATGCCCCTTTTTCTATCAGTGTTTCCATCAGTGTTCATGCTGGTTCCTTCCTTCCAAGTTAGTGTTT
GTTTTCCTTTTTGACTTTTCTTCCATCTTTGAGAGAGCGACAGGGACATCACTGGGGTTCCTTCTGCTAGGGAACTACTCTGGTTTAAACTCATAGCTAG
GGTGAGTAATGCAGGACAGGTGGTTTCCAAAGGGAGTTGAGCCCAGATATGCTGAACAGATTAGGGAAGTAGACGCACATTTATCTTAGTTCAGGTGACA
GATTCTGGACGGAGCCGAAACCCAGCTTGGCCACTCACTGTGTGACCTTGGGCAAGTTACTGCGCTTCGTCTATAAAGCGGGACTAATAATAGTATCTCC
CATGTGAGATTACTGACAGGACTTAAGATACAGACTTAGAATAAGACCTGCTCTGCACTCTGTTAGTCTGCTTGGACCGCCATAACAAAATACCAGAGAC
TGGGTGCCTTGGACAGTAGACATTTATTTATCACAGTTTTGGAGACTAGAAAGTCTAAGATCAAGGCACAGGCAGACTCGGTTCTGGTGAGGCTTCTCTC
TTWGGGTTGCAGAAGGCTGGCTGTCTTCTCTCCATGTCCTCAGATGGCCTTTCCTCTGTGGTGTGTCAACAGAGAGAGGCCTGTGATGTCTCTTCCTCTT
CTGATCAGGACATCAATCCTATCAGATTAGAGCCCCCTGCTTGTGACTTCCTTTCACCTTAATTAAAGTCCTATCTCAAAATAATATCCCTTTGGGGGTT
AGGGCTTCAACATATGAATTTGAGGCAGAAAACAATTCAGCCATAACACATACCAAGCACACAATAAGTGCTAGTTGCTATTGTTATTACTGCTATTATT
ACCGTTACTAGCATTGCTACSAGTCTACCACCATTGCTGCTGCTGCTACTACCCTCAAAATAATACCACTGCAATTTCCAGCACTACTATTCCACTATGA
TTACATTTCTAGGGAAGGTAGGAACTGAACAGATTGGCCTGGCTTATGCCCAAAAGGAATTCTTGAAAGGTCCCATGCAAATTGAAAATGATGTGATATG
TAGATATACTCGCACCAGGACAAGGGAGGGCCTGTCATAAAGGAAATCCACACTTGGAATCCTGGCCTTTGTCCCTGTGTAGTCTGTGCTCTTACTAAGT
CTGCAAGAAATCATAATTCAGTGCACATATTCCATGGGGAAGAAGTAATCTGGAAACTGAAAGTGAAAAGTTGCAGAGTACTGGCTCTGCTATGGAGGGG
CTGTGTGACCTCAAGCAATTCACTTCCCCTCTCTGGGCTTTGTTTGTAATTGTTTACAACTTATTTACAAATTGTTTGCAATTGTTTACAAGTTGTTTAC
ACATTGTTTGCAATTGTTTACAATCGTTTGCAATTGTTTACCAATTCTTTGCAATTGTTTACAAATTGCCCTTGTTTACAAATTGAATGTCAGAATAACT
CTCAAAATTCTCTTCTTTCCATCCATATAGACCCTGCTGATTCACTCATCCACTTACCAAGCATGGAGTTTCTCCTGTTTGCCAGGCCCTCTTCTACGTA
CCAGGGACACAGCAGTGAAAAGATAGATGTCTTCTCTGCTGTTAGGAAACTTACATTTTCGTGGGGAGAGAGAGATGAAAAATGAGTACACAACTACACA
GACATGATCTAGTTACAAATCCTAAAGACTGCTATTCAGGGAAGAAAGAGGCAGAGTAGGAAGACAGAGTGGCTGGGGTCAGGATGGGGGGGTTAGTTTG
GATAAGAAGGCCCAGAAAGATCTCTAAGAGGAGGGCTATTTAAGGAGCAAAAGATTCATGTTAAGGTCTACACAAGAACATTCCAGGGACTAGCAAGGGC
AAAGGCCCTGGGAAGGATGTGAATCAGATGTGTTCTAGAAACAGAAATAAGACCAGTGTGCTTGGAGCTTATTGAGGTGGGGAGACAGTGGGAGGAGATG
AGGAGGGAGAAGTAGGCAGGGCTGTATCATCATCACCTTGATAGATGCAGCCAGGTTTATTCTGTGGCATTCCCATATATCCAGTGAGATGCCACTGAAG
AGTTTCAGGTTTCAGGGAGTGACCTGGCCTGAGGTCCAATTTTCAAAGGACCTCAGCCCATACATGAATGAGCAGGGTCTCTACGGATGGAAAGAAGAGA
ATTTTGAGAGTTATACTGACATTCAATTTGTAAACAAGGGCAATTGGTAAACAATTGCAAATGATTTGTAAACAATTGCAAACAATTTGTAAATAAGCCC
AGAGAGGGGAAGTGAATTGCTGGAGGTCACAGCCGATCCATGGCAGAGCCAGGACTCTGCAACTTTTCACTCTTAGTTCCCATGTGCACTGATACTGTGT
TTACTCTGGTGCTGTGTCCGCATAGACTTCAGGGGGCAAGAGCAGGAGTGGGAGGAGAAGTTGGGCCAGTGATGAGAAACACCATTAGTGATTCATCTCT
TCTCTGAGTGCCCACCCTGAGGGGTTAAGCAGCCGGAGCAATGCATCTTCTTTTGAATGTTCCGAGCTCCCCATCTCAAAGGACCACATGGAGATTCATG
TCTCAGGCAGAGTGGCAATTTCCTTACACTTGGCAAAAACGTATGCTTGGCAAGAACTGTGACAGTAATACTGTGTTTGAACCCCTGTTTTGGGCTAAGC
TGTGGGGGCACAGCAGAGAGCAAGTCAGGCATGCATTCCAATCTCACRGAGCTTCCAGTCTAGCCCTCGTCCACCTGTCACTTGCTAGAAATACCTGGTC
TTGGGTTTGAAGCTCCTGAAGCAGTGGGAGAGGTGGTTTACCCCCAGGAAATGTTTTCCTAGCCTTGGATCACAGCAGGTTGTCTTATCCTCCCAGGGCT
GCAAGTCATTTTGTACATAAACGAAGAGGAATACAACCCATTCCTCGTGTCCTCCACTGGAGCTAAGGTGATCATCCATCGGCAGGATGAGTATCCCTTC
GTCGAAGATGTGGGAACAGAGATTGAGACAGCAATGGTCACCTCTATAGGAATGCACCTGGTAAGAGAATATTCTCATTTCCATAGGCTTGGAGAGAACA
GATCTTTTTTTTTCCAAGGATAACCAATGGGGTGCAGCTTATGGAAAAGGGTGTTTGTTTCAAAAGGGAACATGGTCCCAGATTTTCCCATGGTTATCCC
ATTCATTTCAGGAGTTACATTAAAGGTTGTGTTTGTATCTTCTGGCCGGCTGCAGTGGCTCACACCTGTAATCCTAGCACTTCAGGAGACCGAGGTGAGG
TCAAGAGTTTGAGACCAGCCTAGCCAACTTGGTGAAACCTGTCTCTACTAAAAATACAAAAAATTAGTTGGGTATGGTAGTGTGTGCCTGTAATACCAGT
TACTAGGGAGGCTGAGGCAAGAGAATAGCTTGAACCCAGGAGGAGGAGGTTGCAGTGGGCCGAGATCACGCCACTGCACTCCAGCCGAGCAACAGAGCAA
GACTCCATCTCAAAAAAAAAAAAGGTTGTATTTGTATGGATTAATAGGACAGGGTGCCATTTGGGGAGAGAATTTCAAGACACCAGCATTTATGGAACCT
ATGCTGGAAGCAAGGCATTAGGACACTAACTATATATTTGTCAGTAATACAAACAGATAAGATTACCGTCTATCTTTCTGGGCTGCTTAGAGGCCTATGA
GGCATGTCAATAACTGTATTAAAGCCTAGTGGAAAGTCACTCAGCTATCCAAAGTCTATTTAGCCCATTACACTCCTGTCAATTTTACCTCATTTACCAA
GAACCCCTTCTCCCTCCAAATTTGACCTTTGTGGACCTCATTGGGCACTGAGAACATGCAAACCTATCAACAGAAGCACAAGTAAGCCGCAGACTCCAAT
CCCCGAGTCAGCCTTGCCCAATGGGAGCTGAATGGCAAGATGAAGAGTGGACTCTGATGGCCTTGGTCACTCCACTGCTTATGGAGTTTTCTTGTTTGCA
GGCCTGGGGTCTTTTTATTCCAGTATCTATCTGCCTCTCCCTTTCTCTCTTTCATAGAATGACTGTTAAGAACTTATTTAGACCGGGCACAGTGGCTCAT
GCCTATAATCCCAGCACTTTGGAAGGCCAAGGTGGGTGGATCACTTGAGCCCAGAAGTTTGAGACCAGCCTGGGCAACATAGCAAAACCCCATCTCTACC
AAAAACGAAATACAAAAAAAATCACCAGGCATGGTGGCACAGGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTAGGAGGATCACCTGACCTCAGGGAG
GTCGAGGCTTCAGTGAGCCATGATTGTACCATTGCACTCCAGTCTCGGTGACAGAGTAAGACTCTGTCTCAAAAACAAACAAACAAACAAAAACTGATTT
AAAGGAGTTAGGTGCAGTGCATAGACTTGTAGTCCCAGCCACTCAGGAGGCTGAAGTGGGACGATCACTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCA
ACATAGCAAGACCCCATCTCTACAAAAAATATAAAATTAGCCAGGCATGCTGGGGCACACCTGTAGTCCCAGCTTTGCAGGAGGCTGAGTGGGGAGGAGT
GCTTGAGCCCAGGAGTTCAAGACCCAGCTTGGGCAACATAGTGAGACCCTGCCTCTATTTTTTTTTTAAGAACTTATTTAAAGAGAGTGTCCACACCAAC
CATACCAAGGAGTGTACCAAGCAGAGTGTATCTCTCTTCCACTCCCGACATCCAGACTTCTCCTTCCTCTCCAGAGGGACCACCACTGTTGCTACTGTGT
CTTGGCAGGGATATTCTAGTCATTCAAGCAAGTGCATATAGGTATAAGCATTTCTCCTTTTATGCAAATACAAAATATTTCTCACTTAATGCTATAGCTG
GGAAATGGTTCCATATCAAAACATATAGATCTGCATCATTCTTTTAAAAGATTCATAGTCTTCCATTGCGTGAATAAGTTATTGATGCAACCCCCCATTG
ATAGACATTAGGTCATTTCAGGCACAACTAAAAGCAATGGTGCAATGTGACGTGTATTTGCCCAGTTACTTCCTAGAAGTTTGTCAAACAGGACATGTGT
TTGCCAGATTGTCCCCCAATGAGGATATAGCAATTGAGAACCMCMCCAGCAATATGAGAGTAGCTATTTCCCCACACTCTAACCAACATAATGTATTAAT
GTTTAATCTTTGCTAATCTGTCAAGAGAAAAATGGTATCTGTTATCATTTTAATTTCATTCTTTCATAATGATGTTTTTCTTTTCTTTTCTTTTCTTTTT
TTTTTTTTTTTTTTTTTTTTGAGACAGAGTGTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTTACTGCAAGCTCCACATCCCAGGTT
CATGCCACTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGTCACCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTC
ACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCCGCCTCAGCCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCACAGCGCCTGGC
CCATAATGACGTTTTTCTTTACCTGTTTRTGGGTGGGGAGAAAGAAACAAAATCTCCTTGTGGACTATACATTTGTTCATGCCTTTATTTAAATCCAACC
TTAATATCCCCAATTAAACTTCCTAGCTTTTATCCTTCACAAACATATCCTCCAGAGAAGTGGTTTCCAAACCTGGTTGATTATCAGACTCAAAGCCAYT
GAATCAGAATCTCTAGAAGATGAGCCCAAGGATCTATATTTTTACCAAGTTGTAGTGGTTATTCTAAGAGGCAGCACCCTTGGGAGTCTTGGCTTGACCT
TTTTTTAATGTTTAAATTTAAAAAATTTTTAGAGTCAGGTTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGACACAATCATAGCTCACTGGAGCCTTGA
ACTCCTGAGAGCCTTGGCTTTAGAGCAATGCAGAATTAGAGGAAAAGCTAATTGTGTCTTCCCAAGTAAAAGTGAAGCTAGAATGACACAAAGTTCTAGC
TATAGCTTTGCATTGGGTTACATAAAAAGATGGTGGGCAATTAGGGCTTGGATATCCGCCTGTCATTTATCCATTCAATTGACATTTTCTGAGCACCTTC
TATGTGCTAGACATGGGRCACCTCAGTGTGGAGGACACCGTCCCTGTCCTGAGAGAGTCTAGAGTCCAGSAGAGAGGATTGAGTAATAAACCAGAAATAA
TACAAATGATTCATTATAATTGCCATAASTGCTATGAAGAAGAAATGTAAGACCATATGAGTGCATATTATGACACGACTGACCTGGGGCTCATTTTCAA
TGGGGAAGATGAGGTTCAAGGAAGGCTTTCCTGAGGAGGTGCTATTTAAGCTGAGACAGCGAGATGATGAACCGGAATGGAAGTATGACAGATGAAATST
GGGGCTTCACTGCCTCATGGTGCCCCATGAAAAGGACAACACTGGACAAGGGAAACCATCAAAATGGTCTTTCTGGGCCCCCAGATGCTCTCAGGAGGCA
TGTTACTTAGGGGCTTTGTTCCAGCATGGGAGGGAAGTAATGTGTATCAGCTTGAGCTGTGTGAATGAAAAAGGAAAAACTATCTCGAACCCTCAATCTG
CTCAAACTGTGACTTGAAAAGACTTTTTTAAGAGATAGCCACTTAAGCAGCTGGGCAACTCATTCTTTTGTTCACTGGCAGATGGCAAAACCTCAGAGCA
CAATGGTGAGCATTTTGGTCAGACATGTCCCACACACTTTTATCTGCACCCTGAAGTAGGATCCAGGATTTGCAGCGCATCCTTCCCTTATCCTTTCGCC
CTCTTCCCCCTTTTCAAACTGGTGTAAGTTACTAGAGCTTGTAAAAGTATAAGAACTAAGGAATTCTGCTCTCTTGTTTTCTTGCTCTGAGCTTGGAAAT
ACCCACCACATTGTTAAGCAAATGTTCTCTTTACCAGTAGTGGGTAAACAAAGACATGAGTGAGTTTTCTGCTACACCTAATTTAAGATGTAGAAAATCA
AAGCCACAGAGCAGGGTCAGTCAGCTCTAGGTCTGATTTATGAGCATTTAGAACAACAACAACAAAAAAAAACAGGGTTTATGAAGAGGTCAGCAGAGTG
TCACTAAGAAAAACTCCAACCAAACTAGACTTCCTTCCTTTCTTCTTTTCTGATTTTATTTATGTATTGATTGATTAATAGGTGTGTGAAGCTGGTAGGC
TCAGTCAGGCTGGCCAGGCAGTTGGTAAACAAAACTTCCTTTATTCACTGAGAGATTGTGTGTCCAAAGCACTGAATATTAAAAGGTGAACCCAACAGAG
CTCCTACCTTCAAAGTTCCTAACTTTCAGAGGGGAAGACAAAAGTTTGTTTGCTTTTTTAAAGACAAGGTCTTGCTCTGTCATCCAGCTGGAGTGCAGTG
GTGTGATGACAGCTCGCAGATCACAGCAACCTCGACCACCTGGGGTCATGGGATTCTCCTGCCTCAGCCTTCCAAGTAGCTGGGACCATAGGCACATGCC
ACCATATCTGGCTAATTTTTACATTTTTGTAGAGATGGGGGTCTCGCTATGTTGCTCAGACTGGTCTCAAACCCCTGGCCTCAAACAGTCCTCCCATCTT
GGCTTCCCAAAGTGCTGGGATTATAGATGTGAGCCACCACACCTGACCAAAGACAAAAGTAAGCACAACTTTGCAATACAGTTTCCATCTCTGTGGAAAC
AGACCTTTTCTGCCTGGTTCCAAAGCTTACTTCTTAGAACATAACAGATCCTCAGTAAATATTGATAGATGACAGATGGATGGGTGGGTGGGTGGGTGGA
TGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATAGGTGAGTGGGTAGATGGGTAGGTGGATGGATGGCTGGCTGGCTGAATGGATAGA
TAGGTGAGTGGGTGCGTGGGTAGGTGCATGGATGGATGGATGCCCAGACAGAAGCTACTGGAGAAGGCTTTCTAAATAATGGATTTAGAAGGACAAGTGC
AGGCAAATAGTCAAGAAGAGCCAGTCCAGACAAAGAATGTAGCAATTACAGAGGAGTCACAAAAAGGAGTTTATTTAAGCTGTGTAGAGAAACTTTTCAA
AAAATCATTTTAGTGGAAGTACAATCAGTACACTGGAGACAGCACATTTGTAGTAATTCTAGAAAGAAATGATGTGGACCTCAGCTGAGGCAATGGCTGT
GGAGATGAGCAGAGGAAATAGATTTCACGGATATTATAGCACAGAAGCAACAGGACTTGACAGCCAATGTTAGCCAGAAGGGCCGGGGGAAGTTAGATTG
ATATTTAGGTCCTGGCTTGGGCAGGGAGATGGAGGAATGCCAGGCTCAGAATTAGAGAATCCAAGGGCAGGGTATGTTTTTGGGAGAAGATGACCACTTC
GATTTGGGACAGACCCAATTTGTTATGCCTTTGAGAAGTCAAGGTGAAAAGAAAGCATTCATTAGATGCTATGGACCTGGAGTTAAGGAGAAAACCTTGG
GGGGTAATTGTAGACATGGAAATAAATGCCATCACCCAAGACCTGAGACAGAAMCCTAAACATGCAAATGTTTAAGGGCTGAGCAGAAAGTAAAAGGAGA
AAGAGAGGCAGATAAGTAGGAACAGAAGCCAGAAAGAGTTGGCATCAGATAAATCAAGGAAGAGAATTTTACAGAAGGTGTGACCAAATAAGCAAGTACA
GTCGAGAGGTCAGGCAAGGTAGAAGGCAAAAGTATTCTCTGGTTTTGGCAGCCAAGAGGTCACCAGTGTTCTATGCCAGAGTTGTTTTCAGTGGAAGGAG
TGGAACAGAAACCGAAGTGCAGTGGGTCGAATGGTGAATGGAAAATGAAGAAGTGGACGTGGGTGGACCACTCACCCAGTGGGGTTGGGGACCAGGCCCT
GGAGAATGGGGAGACTCCATGTCATTACAAATCCTGTTGTACATTTTGATTCTAAAGCACATAGCCAGACTTTATTTCACAAGTTCAGTCTATGCCAAAC
AGGGATTAAGCGCTCTGATGGGTCAGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACGAGGTCAGGAGATTGA
GACCATCCTGGCTAATACAGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGG
CTGAGACAGGAGAATGGCATGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCT
CAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGCTCTGATGGCTGAGATTCAAACCCACCCCAGTTTTGCACATTGGTTGTATAATCTCTGCCTCAGTGAT
CTCATCTGTAAAATAGGGATGATAATAATGACGTTACTTCATGGCTGGTGAGAATTTAATGAGTTGGTGCATGTGAAACGCTTGGAAATGTGTTTGGCAT
ATAGTCAGTGCTTAAAATATATTGGCTTGGCTGAGGGCAGTGACTTACACCTGTAATTCCAGCACTTTGGGAAGTTGAGGCCAGTGGATCACTTGCACCT
AGGAGATTTGAGACCAGTCTGGGCAATATGGTGACACCCCATCTCTACAAAAAATATAAAAATTAGCCAGCCGTGGTGGCACACACCTGTAGTCCCAGCT
ACTTGGGAGGCTCATGCGGGAGGATCACTTGAACCCAAGAGGCAGAGATTGCAATGAGCTGTGGCCATGCCACTGCACTGCAGGCTGGGTGGCAGAGTGA
TACTCCATCACAAATATATACATATATATATATATATATATATATATATATATATATATATATACATATATATATATATATATATATATAGAGAGAGAGA
GAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGACTATTACTATATATTTTTTAAGAAAAGAGGTGAAGAGAAGGAAAAATAACTTTGAGTGAAAAAGGA
AAAAGAGGGGTTAGGGAAGGTTTCTATTGTCTTTTTTGACACCTCTCTCCTTTATGAATTTTATATATATATACATATATAATATATATTTATATTATAC
ACTACTAGTACATTATATATAAAAGATACTATTAATAATTATACATACATAAAGGATAATGATTATTTGCCGTATGTGTTGCAAACATCTTTCCCAGTTT
GTGGTTTTCTTTAGGGTACTTTTTCACATGCAAAATAGTGAATGTTTACATAGTCAAAGTCTTTGTTTTCTTCTTTAATCATTATGTTAATGAGAGTTCT
TCCTCTTTGAGACCAGATACTAAATTGAGTTTGCTTCCAGTTATTTTATTATTTCATGTAATATTCTAAACCATCAGAATTTTTTTCACCGGGTACAGTG
GCTCACGCCTATAATCCTAGTGCTTTGGGAGGCCAAAGTGGGAGCTTACTGCCGCTCTGACCTCCTGGGTTCAAGCAATCCTCCCACCTCAGCCTCTCAG
ATAGCTGGGATTATAGGCGTGCACCACCACACCTACCTAAATATTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTAGACAGGCTGGTCTCAAACTCC
TGACCTCAAGTGACCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCTATCATGCCTGGTCTATTGTTGTTATTGTTTAATCAAAATC
AAATAGCCACTAGGTAGCACAGTGGGAATCTGATTTCAGACTTGTTCGGATCCAAGCCTACATTCCTGACCCCTTAGCTAGCCTGCCTGGTGCTCCCGGT
TGTTTAGGGGTGAATGACCATTGACCATAATACGGTCCGTTGAGAAAAAGCCTTCTAGAAGGGCCCAGAATTCAACCCCCTTACGCCCACGGTCAGAGGA
GACCATCAGGACAGGGTCATGGGAGGGGCCCTGAGACAGCCTAGAGACCCAAAGCAAACAAAACCTCCTCAATAATGAGTCCAAGCTGGGCACAGTGGCT
CATGCCTGTAATCTTTGGGAGGCCAAGGAGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAA
ATACAAAGAAATTAGCCAGGCATGGAGGCACACACCTATAATCCCAGCTGCTTGAGAGGCTAAGGCATGAGAATGGCTTACACCCGGGAGGTGGAGGTTG
CAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGGCTCCATCTCCAAGAAAAAAAAAAAAAAAGTCCCTCCCAGGTCTGCACAG
GTTCAAGAAGAAAACCATCCACCTGTTCCATCCCCAGCCTGGCCATCCCTGCTGTCCCCTCCCTGGCAGAAGCAGCAGCAGTCCATTCTGAGAAACAGGG
GTATAGCATGGAAACCAAGGGAAAGAAAAGCCCCCCACCCACCCCCAGAGCCCAGCTGCCACTTTAGCCTGTTGACTGGGGCTGGTAGACACCTCCACCA
TGCCCTCAGTGGCTGGGGGAGGAAGTCCTTTTTACTACTGGGAGAATCTCTCACTCAAACAAAGTCTTACCCAGAAATGTACACAATGGAAACAGAAATG
CAGGATGAATGTAGCTGAGCCTGGGAAACCAGCCTGCTTACYGCCCACCCCGCTGTGATGGGCCCTAAAACAGGGTGCAGACAGAACAGAATTTGCAAAC
CTCTAAGCTGTGGCAAGACAGGCAATCTTTCTGAGAAGGTGACTTGGGATTACTGGCTGGGACAAGAGTTACCACTGAAATGTGAGAACAATGGTCTGAT
AGCCACCTTGTCTGGGAATAGCTTGGCTGGACTGACCACCTTACAGATGAGAAGTGATTATACTGGTTGGAAGGTCTCAAGGTTGCAAGAAGGTGGGAGC
TGGCTCTCTAACCCCAGAAGCTGTGGGGGCTTTGATAAAGGCCCTCCTCTTGTCACCTCCCTTCCCCTCAGGCTCTGCTGCCATCTGGGCTTTCCCCCTT
AGCACTGTTTATACCTTAAAGAATGAGCTTGCTGGGTGCAGCGCCCCATACCTATAATCCTAGCACTTTGRGAGGCTGAGGTGGGAAGATTACCTGAGCC
CAGGAGGTCAAGGCTGCCATGAGCCATGATTGCACCATTGCACTCCAGCCTGGGTGACAGATCGAGACCCTGTCTCAGAGAGAGAGGGTGGTGAGCTAAG
GACTCCTATACAATTGTCTCCTTCCCCCAAGATCTTCAGAAAGAAGCAGAAAGAATCTGGTTTGATATAAATGGGCTCCGTGTCCCACACATATACCCCT
ATACCTACACATACATGCCCACATCCACTCACACACATCCACACATACCTATGTGTGCACACACATACACACTTTTACATGCATAAGTGTATGCATAGAT
ACACATACAAACTCACACATATGCACACATATACACACTCTTTTTTGTGTGTCCCTAGGGGTCAGGATAGAAGTCAAAATGTCTTCCTAGCCTCCACAAG
CCAGCAGTTCTAGAAAACTGAAAGCTGGGGCCGAGGGAAGAGCATTCTGTCAAAGTTCATGCATTCGAGGCATGAACAGAAAATTTGCTCCATTTGCTCT
ACTTCTGGTTGCTTCGGAAAACAACCTGAACCTTTCAAGAGCTGTGAGTTTGATAAGCATCGTTGCAGAATGAAGGGCCATTGAGTACTCAGAAAGCGTT
GAAATCCAAATGGTTTCTCATAATCAGTTTCCTGGAAGCAGGCCATGGGCTGGTTTTCAGGGTAGAGGGAGCCCCAGCCACCCCTGCTGGCTGCACTCGG
CTTGCCTAAGTGGACAGACCCCTCATCTGGATGCCAGAGTATTATGCTTTCCTACCCCAGGAAGCTAGAGCCTGTAGCTGACACTCTAGACTCTGGGAAC
AGTTCAGCAGGACCGGGGGGACCAAAGGAACGCTTCTGCCCAGGGATCCTGCTGCTTGGAGAAGCTTAGAGGATGGCAAGGAATTGTGACCTCAAGGAAG
GCCACTGCTTGGCATCTTTGCACCTCTGTGCCCAGCCCAGCCCTGGTGTGCACTAGAGGCCCTGCATGCATTTGCTACCCATCTATTAAGTCTATTTATT
CTGTACTGACATAGAAAGACACTCACTCTTGTTAGTGAGAAGGGCGGGTTGCAGGGCAAAGTAAATGTATGAGTCCATGTCTGTCTGTCTGAGATGCAAG
ATCTGATCTGCTAGTGCGGGCACCCTGGGAAAGAGGGGAGGCCAGACAGCCACTTTCCCCTTTGTTTGCTTCTGTTGTTTAAACAGTTTTAAATGAGCAT
CGTCAATTGCCCTGGAGGTACTTGCAGCTAATTGAGGGAGACTAATGGGTCAGCAGATGAAATGCAATACAAACAGAAAGGGATTATACCAGTTGAGATG
GCTAGTTTCCACCTGCCTCAAACCTCTTAATTCCTTCCCCCTCTACCCGTKTTCATTCTTTCTTCAAAGAGAAAATAATTTTCTTCCCTCCCACAAATCT
GCCATTCTTTTTSTCTTTACCCCCATCTCCCCAACCAAAAAAATAAAAACAATTATACATGGGCACGTGGATGCACACAGCACACAAACACACAGTTGTA
ATAAACTGGTCACTATTTATCTTCCATTGAGTTGCTGACCTTAGAAGATGTTATCCTCCCACCCCCATTTTTGCTTGTTTGGCTTGGCTGGATTATTTAT
TTGCAGTGACAAATATTAAGCTAGAGCAAAATTTAGTAATCCACAATAAAACATCATTGAAGCCAGGTGCAGTGGCAGGAGCCTGTGGTCCCAGCTACTC
AGAGAGGCTGAGGCAGGAAGGTCCATTGAGCCCGGGAGGTAGAGGCTGTAGTGACCCTTGATTGTGCCACTGCACTCCACCCTGGGTGACAGAGTGAGAC
CCTCATCTCTAAAAAAMAAAAGCAAAAAAAATTATTGAATAAGGATTTTGAATTTTGAGTGACAATGCTGTTTACCTCCTCTCATGATCAGGGTAGCATT
CTACTCTGTTGAGCTTTCCTTAGCTTTTTTCTAAGAAAGTCAACATCCTTCAAGTCAACTTCTGGGACCAGAAAACAAGGCAATGGGTCCTTCACCTGAG
CGAGAATCCCAAGCACTCACAGTCCCTGCTCCCGCTTCCTTTCTCTCCCTTCCCTTCCCTTCCCTTCCCCTCCCCTCCCCTCCCCTTCCCTTCCCGCCCT
TCCTTCCTTTCTCTCTCTCTCTTTCTTTCTCTCTCTTCTTTCTTTTCTTTTTTCCTTCCTTTCTTCCTTCCTTCCCTCCTTCCCCCCTTCCCTCCCTCTC
TCTCTCTCTTTGTTTTCAAAATAGGGTCTTCCTCTGTCACCAACGCTGGATTGCAGTGGCACAACCATAGCTCATTGCAGCCTCAAACCCTGGACTCAAG
GAATCCTCCCTCCTCAGTCTCCCAAAATGCTGGGATTACATGCATGAGCCACTGAGCCTGGCCCCTGCTCATCTTTCTAATCCCTCCTCCCACGTCCCAG
TGGATTTGCCAACTGCAAATTCATTTCATTCAGACAATCAAATCCAAATTTCTCAGCTGGGCATGATTTGGCCTCAACCTCCCCATCTGACTTTATCTCC
AGCAATTTCTCTATTTTGCCATTTTCAGCCATACCAGCCCATCTTGCTTCAAGCCTTTCCTGTTTGCTCTACCCAATCGTACTCTGTCCACTTCATCCTC
TTTTTTAAAGATAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTACGACGATGGCTCACTGCAGCCTTGACCTCCTGGGCTCAAGTGATCCCCC
CATCTCAGCCTCCCTAGTAGCTGTGACTACAGGTGTGTGTCACCATTCCCGACTTCCTGTCCACTTCTTGACAAGACCAGCTCTTTCTTGCAGTTCCACG
CTAAGCCAACAGGTCCCTTTTTCGGAAATACCTTCCCTAATCACTCTATGGGAAAAACTGCCCATCTGCTCTTAACGCCTCCAGTTTCCCTACCCYATTT
CATTAAACACCATCCAGATTTATCCAAAATATCTTGTTTATTTATTTGCTTGCTGACCATTTGTTTACCCCACTGGAAGSTAYGTTCCAGGAGAGCAGGG
AACTTATCTATCTTGATCATTGCTGATTTCAGTGTCTACCACAGTACCAGGCACCTAATAGGTTCTCACTAACTTTTCATTAAATGAATGACCAAATAGC
TTCTCAGCTCCCAAGGGCTGCTTGCAAAGTCCCCTGTCTGGTGCTCCTTGCAAAGCCCCCGCCTGGGTCCGGGGGGAGGACAGGGCTGAGTGTGTGCTGC
TGTGATTGCAGACAGAGTCCTTCAAGCTGAGTGAGCCCTACAGTCAGTGCACGGAGGACGGGAGTGACGTGCCAATCAGGAACATCTACAACGCTGCCTA
CTCGCTCCAGGTAACAGATTGGCRGGGGCACCCAGCCCTGGGTTTATGGCCCGGACCCAGGAGACAAAGTTATATCTARGCTGGGGTGTGGCTTGCACCA
GGAACTCTGGTGAGGATCCCTGGGGTTCATCCAGAGACCTCAAGAACAAATGATGCCGGCTGGTTCCAGTCCTCTGCAGTTCGTCTGTAACCAGAGCTTA
ATTGATACACCGAGGTTTCYGTGGAACTCAATGTACAGCTGAGACAGRCCCACCTCCTAAGTAGGCCTTGGCAAGGGAGGAACAGGAAAGAAGCGGTCTG
GGAGAGACACTGGCTGAAGGGTCAAGAGCATGGCTTCCGGGCCTGCTGGTGCCCCTCKCTGGATRATGGCCTTGGGCCAGCTGGGTTCCCCTCAGCAACC
ACAAGGGGAGGTGGGATTGGATCAGGGGCTGCTAATTTGCAGCTCCCAGTCGCCTTCCAGGTGGCATACCTGGTTTTTCAAGAGCCTGGATGGTGTTCGA
AAGTCAAGGAATTTCACAAGAAAATCCAGATTYCCAGCCTCTCGAAAAAATGAAACGATACRGCAACATTGAGCCCATATTTCCTGCAGGATAAACAGTG
GGTGTAGCTACCCCAATAAATGAAGCAGGTGTTCTCTGGCTCCCACAGTTTTCACTACCCCTCCAGTATGTCACTTMCATCACTGTCTCCTGTAGACATC
TGACTTTTCAACACTTAAGTGAGATGATCTGTTCTGCCTCCTCTCACATTCTGGGAATTTATAGTTCACCTCCTACCAGGATACCCCAGAGAGTCCATGA
RAATCATCCCAGCAGAACAAAAGGACCAGAAACCTTCAGCACTGAGTCTTCCAACTTAGATAAGAGCTGAGCTGAGAGGTGGTGTAGACACTGAGTAAAA
GAGGACTTTTGGGCCAGGCATGGTAGCTCATGCCTATAATCCCAGCACTTTGGGAGACAAAGGTAGGAAGATCACTTGAGCCCAGGAGTTTGAGACCAGC
CTKGGCAACATAGCAAGACCTTGCCTCTAAAAAAAAAAAATTTGTTTTAATTACCTGGGCATACTGGTGCACACCTGTAATCTCAGCTATAAGGGAGGCT
GAGGAGGGAGGATCCCTTGAGCCTAAATGTTCAAGCCTGCAGTGAGCCATGATCACACGACTGTACTTCAGCCTGGGTGAGAGAACAAGACCCTGTCTTT
AAAAATAAAAAAAGTGAGCTCATCAGAAAGATACTTCTGGATGACATTTAGTGAGARCTACCATGCACACACACACCTTACATGTATCAATTCATTTCAT
GCTCACAACTTCATGAAGTTGATATTATTATAAAGAAAGCAAAGCATCTGAGAGGTTAAGTAACTTGCATGATGCCAAACAGCAGAAAAATAGCAAAGAT
KGGATTTGACYTGAGTAGCCTGCCTTCAGGAACTCTGCCATTAGCTTTTATGCTATAAGCTCCAYGGATATTGTGGTAGCTTATGATCCATGAAGATCCA
ACATGGAGGGGTTGGRCTTGAGAATAGGAACACAGGGACTGTGTTTATTTCTCTCTGTTTCTTGACAACTCCTCTAATTTTCCCACTTATCTTTGTGTTG
GCACCCACATGATGGAAAATGACCACCCAACTACTGCAGCCCCAGCTCAGCCCCATCTCCATATCTCAGTTAGTCTAAATTCTTAATACATCGGCCAGGT
GTGGCTCATGCCTATAATCCCAGCATTTTGGAAAGCCAAGGTGGGAGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCT
GTCTCTACCAAAAATACAAAAAAATTAGCTGGGCATGGTGGTGTGCATCTGTAATCGCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAG
GAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGTCTGGGCAACAGAGCAAGACTGTCTCAAAAAACATAAAAAATAAAAATAATAAGT
AAATTATTAATACATCTTCCAGGTTGGGCCCTTTGCAGTTCCGGGACCATGCCCAGCCCAGTTGGCATAAGGGGCAGGTTCATGTGGTTGGCCAAGGTTA
AGGGAGGCTGACCCCCTGGGCTGAGGGATGTGCAGGAAACYCCCTGACATCCCTGAGCAAAGACATGAATGGCATTCCTGGGTCTCCTCTTTCAGATCTG
CCTTCATTCATGCTTCCAGACAAAGATGGTGGAGAAATGTGGGTGTGCCCAGTACAGCCAGCCTCTACCTCCTGCAGCCAACTACTGCAACTACCAGCAG
CACCCCAACTGGAGTGAGTGAGACCCAGCTCCAGCCTTGCATGCCCCAGGACCAGGGTCAGCCTAGTCCTGGCAATAGGCACTCCTGGGACTCCACCCCT
GTTGCCTTTTGCGTGAGGGAGGTATTGGTTGAGAGCCATTAACTAGAGTTTTACTTCTGTTGTCAAGCCTGGCTTAAATTATACTTTGCAACTGACCACC
TTAGTCAACTCCAGGAGGTAGGAACGGTGGATATTACCTTTTCACAGAATAGATAACCAAGGCCSAGAAAGGCTAAGTGGCTTGCCCAAGGTCACACAGC
CAGAAAGGAACAGAGCTGGATCCAAACCAAGGGTGGTCTGACCTTCAACTCACATCCTCAACCGCCATTGCTTTCTGTTTCCCAACATCACAATGCAATA
TGTGTTTCCAGAGAGTTGGTAGAAAGTGGGAGGAGAAATCATTAAAATGAGACTGCGGGGCTGTCCTTGGTGACCTGGGGATGGCCAGGAAGGGTCCTGT
GGCTCCAAAGCTCATGCTGCCCTCTCCCTTGTCCCTCAGTGTATTGTTACTACCAACTGCATCGAGCCTTTGTCCAGGAAGAGCTGGGCTGCCAGTCTGT
GTGCAAGGAAGCCTGCAGGTATGTGGACCCCAAGGGGTGAGACGGGYGGCTGGGTTGGGTTGGGCTGCCTACACTCATGCTGTCCCCTCCTCCCTTAGCT
TTAAAGAGTGGACACTAACCACAAGCCTGGCACAATGGCCATCTGTGGTTTCGGAGGTAAGTTCTTCTGCCCACCCTTCCCCACTGAAGCCCCCAGCCTG
GAGCCCCACTGACATTTTTGCTGTGTCCTCTGGCCTGGGACATGGTCCAGGGGGAAAAGAATTACCTTGTGGAGGCTGGGGGACAAGTTGGGGAGCCTGA
GGCGGGAGGCTGGCCCTAGCCTCTCAGGCACCCTCAGGCCCACGCTTTCTCTCTCCRTTGTAGAAGTGGTTGCTGCCTGTTCTCACTTGGGACCAAGGCC
GGCAAGTAAACAAAAAGCTCAACAAGTAAGTTACCTCTACCCTGTTCCTCTGTCTCTKCCCACCACAGCCCCCAGCCTTCTCACTTGCTTCTGTATGTGT
ATGGCCAAATCCTCTTTTTTTTTTTTTTTTTTTTTATGGAGTCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGTAACTTCT
GCCTCCTGGGTTTCAGCAATCCTCCTGCCTCAGCCTCCYAAGTAGCTGGGATTATAGGTGCGCAACATCACATCTGGCTAATTTTATATTTTTAGCAGAG
ATGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTCCCTTGGCCTTCCAAAGTGCTGGGATTATAGGCGTGAGCC
ACCAAGCCTGGCCCCCTCTCCTTTTCATTCACTCACTCATTCATTTCCTCAAAGCTGGGAGACGGTGAACTCACATCTGTGAATCATGCCATGTGAACTC
ACATTTCTCTAAGCCATCACTATCTCCCTCATGCGCACTGCTGGGCCTGCCTGCCATGAGAGCCAATCTGGCCAATCTTGCKTCCAACATTCATAGAGCA
CCCCCTAGGTGCCAGGTGCTGTGTGAGGTGCTGGGGGAACCAGGACAATCAAGCAGACATAGTCTCTGTCCCCCGAGGTACTTACACTCTAATGAGAAAA
TAGACTTTGACCAAGCAATTGCAAACCATTAAACCAAGTGTTGCAAGCTGGTGACTGATCCTTGGCCCAAATCTAGCCTCATGAAAGCAACCCATTATTT
CCAACTTTTCCTGAAAATTCAAAAGTTCTGGCAAGAACGACCCTCCACTGTTTTGTAGCACCAAACAGCTGAGTAATACTTGCTCTTTTGGCTGAGTCAT
GGTCCAGTTCACCATCGTCCTATCAAGAGGCAGTTTAGTGCAATGGTTAAGAGCATGGACTTTGAAGCTAGATCTAAATGAGTTGGAGTACTGGCTCAGC
CAATTATTGACAGCATAGTCTTGGACAAGTTCCTTAACCAATCTGCATCTCAGTTTCCACATCTGCGAAATGAGGATGATGAAAATATACATACCTGCCT
CATAGGGCTGTTGGTAGAATTCAATGAGTTAGTTCACATAAAGTTCTTACGACAGTGCTTGGCAACACAGGAAGTGCCCCATAAATGCTTGTTGCCATTG
TGCCTATTATCATATTACCTCAACTACCCTGCTCATGTACATTACCTGTACATACTTGAGATTGCAATCAATCAATTACAAATGTCAATGTTTAATGAAG
AACAGGGTACAATGGCAGTATGGCTGGGTCGACTGACTTAATCTGGAAGTTGGGGAGCAGTTCTTGAGTGAATGAATGACCTGTGGACCAGATCCAGGCT
GGAGATATGCTCTGGGGTGTAGACGGAGCCCTTATGGGCCAGGTTCTAATATCCCCAAGGAGCTCAGTGCCTTGGCCATGCTGCCAGCTTGGGTAGGAGG
GAGACAGCCATGCTGAGGACTGGTAATCTGGTAGGATGCCAAGGCTCTTGATTCACCTGTTGGAATTTTGCAGGACAGACTTGGCCAAACTCTTGATATT
CTACAAAGACCTGAACCAGAGATCCATCATGGAGAGCCCAGCCAACAGTGTGAGTAGAGTGGCTTCCTTCCAGGACCTGTCCTGGGCCTACAAATGTGAG
CATCTTCCTGGCCTTGGGGAGCAGAATCAGGGTAGGGGGTTCCAGCCTACTCTAGGAGGGCTGTTGTAGGCTAGCCAGGTCTCAGGTCGGAATGCACAGA
GTAAGAGGAAACAGGAAGGCTGCCTGCTTCTTCCTCCCAGCCTGTGCAGGGTCGGGGCTGACCCGTGGCTCCCTTGGGAATCAGGGTTCCTGTGTGAGGC
CAACTTGGGGGGAGGTTCCTCTTGATGGTGTGGCTTGGCCTGTCTTGCAGATTGAGATGCTTCTGTCCAACTTCGGTGGCCAGCTGGGCCTGTGGATGAG
CTGCTCTGTTGTCTGCGTCATCGAGATCATCGAGGTCTTCTTCATTGACTTCTTCTCTATCATTGCCCGCCGCCAGTGGCAGAAAGCCAAGGAGTGGTRG
GCCTRGAAACAGGCTCCCCCATGTCCAGAAGCTCCCCGTAGCCCACAGGGCCAGGACAATCCAGCCCTGGATATAGACGATGACCTACCCACTTTCAACT
CTGCTTTGCACCTGCCTCCAGCCCTAGGAACCCAAGTGCCCGGCACACCGCCCCCCAAATACAATACCTTGCGCTTGGAGAGGGCCTTTTCCAACCAGCT
CACAGATACCCAGATGCTGGATGAGCTSTGAGGCAGGGTTGAGAAGACAGATCTAGTCAGGACCACCAGCCATGKTCTAAGGACATGGATCGGGTGCCCC
CAGACRTGTGCACAGGGGACCCTCTGCCCCACTCTGGGCTTTTCAGATACTCTGACCAAAAAGCCTGCTTTAAACCGCAAGATGGGGCCKGGGCATGCGC
AGGAGGAGCCATCGGGTACTACGCAGCAACACTCACAACTGTCCAGGCTGAGATAAATCCCGGGACYTGAACTATTAGCACGTCACTAGAGACTGGGARC
CGAGGCAGTGGTGCTGGCCCAAGTGAAGGCCAGAGTGAGGACTGATGCAGCTCTTTACGGGTCTTGAGAGGGAAGGACTCTTCCAAAGCCCCAAAGCCGA
GGGTTTCACCCACACTGCCAGCCTGGGTTGGGGCCCAAGGATGTGACCTTGAGTGTCAAGGCTGGACAGCTACTGCCAGATGCCAAAGATAGGAGAAAGT
GCCAGCCCTGAAGCTGGAGCCGTTTGTGAATAAACTGTTCTTCATCATTGACACTGGAGAAAGGTGTCCTCCATGCCCTCAGGCAGCAGAGAACTGGCCC
AGRGCCCTTGGAGTGTTGGTGGAGATCAGAGTGCCGWGGTGGAGGTCTGGGACTATGTCAGAGTGTCCTCACTTTGGGGCATGGGTGGGCCCAGGAGATG
GATTTRGTTATTCAATTTTGTGGATGAATAAATTGAGGCACAGAAAGATTAAGTTACCGGCCCAAGGTGACACAGTGAGGAGGTGGCAGAGCTAGGATTT
GAACCCAGACAATCTGACTCCATGATTTTGCATCCAATTCGTGTCTGTGCCTTTTAAAGGGTGAGGTCTGTGTCACTTTGGGTGGGGAGGGGGAGCATGG
TGGGCCATGCTCTGGGCAGCTGTTCCAAGACAGAGCTGACCCTTCCATTACCAATGGCCTGTCCCTCACCAACAAGCCAACTGCCACAGATGACCCACTT
CATACCACATTCACATCTTTCCACCTGAAATGGCTAACAGGTATTAAATCCTTGGTTGGTGTTTAAAGCCAACCCAAGAACAGGGTGTTAGGTACTGTTT
TAAGCACCTAGATAGGTTAGCATAGGGGACTGCAAATGGTGTTCCGCAAAGCAAATCCTGTTTTTGACCATGAACTAAGAATTTTATTTTATTTTATTTT
TTATTTTTTGTAGAAATAGGATCTCACTATGTTGCCCAGGCTGTTCTTGAACTCCTGGCCTCAAATGATCTTCCCACTTCAGCCTCCCAAAGTGCAGGGA
TTACAGGCACAAGCCACCGTGCCCAGCCAAGAATTTTTATTTTTGCTTTTAAATAGCAAAAGAAGAAGATTCTGTGACTCATGAAAATGATATGAGATTC
GAATTCCAGTGTCTATAAATAAAGTTTTATTGGTACACAGCCACATCCATTTGTTCAAGTTTTGTTTATGGCCATTCATGCACTACAGTGGCAGAGTTGA
GTAGCTACAACCCAGACCTGCAAAGCCAGCAAACCCTAAAATATTTTCCCTCTGTCCCTTTACGGAAAACTGTGCTGACCCTTGGATGAGCACATTCAAT
GGGTATGATTATCCCATTTTGTGGATGAAGAGACTGAGGCATAAAAGATTAAGTTACTTGCCCAAGGTGACACAGCTAAGAGGTTGCAGAGCTAGGATTT
GACCCCAGACAGTCTGACACCAGAGCTGGTGCCTTTTATCACTCCATTATTTTGCAGCCATTCTGGTCTGTACCTTTTAAGAGTGAGTCCGATGTCATTT
TGGGTAGGAAGAGGGAGAGGCTAAATACCCTGGCTCTAGGGCTAAAGGAAGTCCTTCATCCATGGGTGGGGAAGGTCCACATTTCAGGACTAATCCCTTC
ATGAGAATGGCTGCTAGTAAGGGCAAGAGTCTTGGTAAAAGAGAGGGGCTGTAGGGACCCTGTCTGGACCTGGGCATCCCTGGTCCAACTCAACCCCAGG
CCTGTGGCTAGAGTAAGCCTCTGCTCTATCTGGTGTTTCCACCAGACCTTATAGGGCAGGGCATTGCCAGGAGGCATGCCAGCCAGCAAGGAGGAGGTCA
TAGAGACCCCAGACTGGAGGGAGCTCCCCTGTGAAGTGGGCTCAGGAGCCAGGCCCATGCAGGTGAGGATTGGGCTACAGAGGCCGTGAGCCTGGCTTTC
GTCCATGCTGGGCTCTGGCGGCTGTAGCCGGTGCCGACAGGGAACTTGCAGCTGATGTCTACCTGAGCACAGCACAGACAGGAGCTTCCTCCTCCTCCCC
AATGGTGGGGACAGGAGGTGCCCTCAGATTCGTGGAATTGGCCAGCCTCTGCCTGATGGAGGAACACTTCTAGTAGGCTTGTCAAAGGCAAGGCCATGAG
AATCCAAAGCCAACAGCCGCTCAACTCCCCCCAAGCACACGGGCGTGCACACCCAGCAAACTCCAGCTGTCTCCATTCTTGTTTGGCTCTTGCAGTGCCC
AGCATCGTCTTCCCTCCTTCTCCACTTCACCCTTCCAGGCCAGCTGCAAATGTCAGCACCTCTGTAAAGTTTTCCCTGACCCTCTTCCCTTGCCCCAAGA
AGTTGGAGCTTCCACCATTACACAACTTTCACCCATATATATATATAATATATATAAAATATATTATATTATATTTTATATATATTATATATTATATATA
TTATATATTATATATATATACGTATTTATATATTATATATATATATACGTATATATATATATGAAACAGGCAGGGTCTTGCCTCTGTTGCCCAGGCTGGA
GCGCAGTGGCATGATCATAGCTGACTGCAGCCTTGACCTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCTTGT
CACTACCCATGGCTCATATTTAAATTTTTTATAGAGACAAGATCTCACTATGTTGTCCAGGCTGGTCTTGAACTCCTGGACTTCAAACAATCATAGCTCA
CTGCAGCCTCAACCTCCTGGGCTAAAGCAATCCTCCTGCCTCAGCTTCCCAGGTAGCTGTAACTATAGAAGCACACAATTATGTCTGGCTAATTTTTTAT
TATTATTTTTTGTAGAGATGGGTTCCTGTTATGTTGCCCAGGCTAGTCTCAAACTCCTGGACTCAAGCTATTCTCCCGCCTCAGCCTCCCAAAGTACTGA
GATTACAGGATGAGCCATGGTGCCTGGCCCTGTATACAATTTTTTATCCACATCTGCCTCTATCATTAGACTATGAGCTCTGCAAGGGCAGGAATTGTGT
CTTATCTCCTTGTCCCTAGATGGGGACGGGACAGAGTACAGTGTTGGCATTTAGGAAAAGTTTGTGGCGCTTATAAAAACAGTGACAATACTAACAATGG
CTAATATGCATTGAGCTCTTATGGTTTGCCAGGGATTCTGCTAAGCACTTCACACACATCAGCTTGTGTAATTCTAACAGCTCAGGAACTCATAAAGAAA
GAAATGGAGGCCGGATGTGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCAGAGCGGGCAGATTGATTGAGCTCAGGAATTTGAGACCAGCCTG
GGCAACATGGCAAAACCCCATCTCTACAAAAAATATGAAAAGGTATCTGGGCATGATGGTGGCGCACGCCTGTAGTCCCAGCAGCTACTCAGGACACTGA
GGCAGGAGGATGTCTTGAGCCCAGGAGGTTGAGGCTGCAATGAGCTGAGATTGTGCCACTGCACTGCAGCCCGGGGAACAGAGAGAGATCCTATCTCAAA
ATAAAATAAAATAAAATAATTAAGAGAAAAGAAAAGAAATGGAGTCACAAAGAGTTCTCACGGCCACACTGCTAGTAACTGCTGTGCCCAGGCTAGCAGG
CAGAGCCAATGCACTTAAGCACTGTGCAAACTGCCTTTCAGATAGAAGCTTTTCCCTAGAGGCTAAGTGTGTCTGCCCCTGAAGTTTTCTCCAGCCCTCT
TTAGCTTCAGATCCGGCCTACTCAGCTGAGGGGCCTTCTTTTCCCAGGACAAAGGTGAGGACAGAGTAGAACAACTTCATTCCCAGACCCCTTTCATAAG
CAACTGCCATAGCTAGGAGCTACTGATTCCAAGGGACACCGACTCCATTTGTAAGTCACAAGAATGCCTGTTCTTAATGTACCCCTGGTCTTCTCAAATG
GAGCCACCACCCTCACTAGTCCTCTGAGTCACTGAATCCCAGACCCTAGTGTCCTGCCACCCATGGACCACCTCCCTGATGAACAGAGGCACTGCAGACT
CAGCCTATGTCCTGTGATCCTGCACAAGGGAAGATATTAGATAAACATGCTAGTCTCTTCTGGGGTTAAAAACTCAGGAGAGAGGTCTGGGCTAGATGGA
GACATGGGCATCATCCAGGCAGGACAAAGCCAGGGGTGTGGATTAGGTCACCATGGAGGAGAAGCAGATCAGAAGAGGAGAAAAGGGTTCGGTGCAGTGG
CTCGCACCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGAAGACTGCCTGAGCCCAGGAGTTAGGGGCTGCAGTGACCTGTGAGTCTGTCTGTACTCC
AGCCTGGGCAACAGAGCAAGATCTTCATCTCAAAAAAAAATAATAAAGAAGAGAAAAGAGTCAAAGATGGAGACTCCGAAACACTGACGTTTAAGAAAGA
GACTTAATAAGGACAAAAGGTGAAGTGACAGGAAGCTCCCCTCCTCTTCATGAATCTCCCTTCTTCCAGCTCTCCTTCCTCCTTCCCTACTCCAGGCTAT
GCCAAGAGAATGTCTCCGAAGTGCAGACTGGACCACAGCACCTCCTGCTTAGACACTTCTTGGCAGTGCCCCATCTGCCCCATCTGCCCCATCACACCTT
GGCCATGTTTCTCAAGTTGCAGGACTCACCCTACGGTGATAATTTTAGGCAGCACACAGACTTATCTGCAACTCTGAATGGTTCCCTCTCTCTTCCTCCA
CTCACCCTCCACTCATTCACGCATTCCTTCAAGATCAGATGCAAATGTCACTCTCTCTATATGGTCTTCCCTTGCAAGTTGGAGCATCAAATATCATTGA
CAAACAGAATAAGAAAGCTAGTCCATTTTCCAATGTGCAAAAACAAAGTTCAGCCAGTGTGGTGGCTCATGCCTGAATCCCAGCACTTTGGGAGGCCAAG
GCAGGAGGATTGCTTGAGCCTAGGGGTTCAAGACCAGCCACAACACAGGGAAACCCTGTCTCTACAAAAAAATATACAAAAATTAGCTGAGTGTGGTGGT
GTGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATGGCTTGAGCCAGGGAGGTCAAGGTCACAGTGAGCTGTGATTGAACCACTGCACTC
CAGCCTGGGCAACAGAGCAAGACCCCATCTCAAAAATAAATCCCCAAAAAGCAAAAAACAAAATCTCGGTTCGATGTTCACATGTCTTCAATACTTTCTA
ACACTGTTCGTCTCTCTTTTCTAACAAAGAGAGAGCTGCCTCAGAGCCTGTAGCTCTCTAGCTCTCTTGCTATCTAATTTGAACTTAGCAGCATCAATTC
TTCACTGCCTTTGTTTTCTCAGTGGTCTTCTGCTTAATGTAACCAATGCTTAATGTAATCAATAGAAAAAAAAGTCAATTGATTGACCGAGATTTGCCAA
AAAAAAAAAAAGTGCAAGATCATGTACTATAGAAGAACGCATCTCCTTTAGTCACTAGTTTAACAATCACTTATTCATGCAACAAACGTTTATTGAGCAC
TGTATTCATTTCCTGTGGATGCTGTAACAAACTACCACAAACATAGTAGCTTAAAACCACAGAAATCTATTCTCTTACAGTTCTGGAGGCCAGAGCTCTG
AAATGAATCTTATGGAGCTAAAATCAAGCTATCAGCAGGGCTGTGCTCCCTCCAGAGGCTCTAGGGGAAAATCTGGTTTTTTGCCTTTTCGAACTTCTAG
AACTGCATCCCTTGGTTCCTGGCCCCTTCCTCCATCTTCAAAGCCAGCAGAGAAGCCTCTTACTTCAGTCATCACATTGACTTCTGTTGTTGCCAAATCT
CCTTCCGCCTCCTTTTAATAAAAACACTTGTGATTACATTTAGGGTACACCCAGATAATTCAAGATATTTTCCACATCTAAAGATCCTTAACTTGGCGGG
GCACAGTGGCTCATGCCTGTATTCCTAGCACTTTGGGAGGCCAAGGTAGGTGGATCGCTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAA
ACTCTGTCTATACTAAAAATACAAAAATTAACCAGGTGTGGTGGCATGCACCTGTAATCCCAGCTACTTGGGATGCTAGACAGGAGAACTGCTTGAACCC
AGGAGGCAGAGGTAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAATAAATAAATAAATAAAATAAGTA
TATTCCCAGCAGAATATTATTCACCCATTAAAAAGAAATGAACTCCAAGAGGTAGGAAGGTGGGAGGAATGAAACACTACCTATTGGAGACAATGTACAG
TGTTCAGGTGACAGCTACACTAAAAGCCCAGACTTCACTACTAATGCAATATATCCGTGTAACACAACTGCATTTGTATCCCTAAATCCATAAAAATAAA
ACAAAAAGTTTAAAAAGAATGAACTACTGACATATGAATGAACCCTGAAAACATCACGCTAAGTGAACAAAGCCAGCAGACTCAAAAGGTCATATATGGT
CCCATTCCATTTATACAAAATACTCAGAATGGATAAATTCACAGACAGAAAGCAGATTGCAGGGAGGAGAAATGGAGAGTGATTGCTTAATGGATATAGA
GTCTCCTCTGGGGATAAGGAAAAAGCTTTGGAACTAGATAGAGGTGGTGGTTACATGGCATGGAGGACATAATAAATGCTGCTGAACTGTGCACTTTAAA
ACAGTTACGTGGCTGGGCGCGGTGGCTCACCTCTGTAATCCCAGCACTTTGGGAGGCTGAGGAGGGTGGATCACCTGGCGTCAGGAGTTCGAGACCAGCC
TGGTCAACAAGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGTAGATGCCTGTAATTTCAGCTACTCAGGAGACTGAGGCA
GAAAAATGGCTTGAACCCAGGAGGCGGAGGTTGCAATGAGCTGAGATCATGCCACTGAACTCCACCCTGGGTAGCAAGAGTGAAACTCCATCTAAAAAAA
AAAAAGAGTTATGTGATTAAAAAAATACAAAATCCAAAAACTAAATTTATTTAAATGAAAAGAGAGCGAGTTGACCTAATGAAAAATAATAAGTGAAATT
ATAAAGAAAAGCAAGATGCACTGAGCACAGTTAGAAGAGCATA


SNP Information

Context             (SEQ ID NO:15853):
AGCAGCCTAGATTCTCCCACCGGATCCCGCTGCTGATCTTTGATCAGGATGAGAAGGGCAAGGCCAGGGACTTCTTCACAGGGAGGAAGCGGAAAGTCGG
Y
GGTAGCATCATTCACAAGGCTTCAAATGTCATGCACATCGAGTCCAAGCAAGTGGTGGGATTCCAACTGGTAAGATTTCACCTTCTCATTCTTTCACTGC
Celera SNP ID:            hCV380785
SNP Position Genomic:     12835
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38|T,2)   total(C,73|T,3)
SNP Type:                 SILENT MUTATION;INTRON;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;40 Africans; 32 white Americans; 2 CEPH individuals(T,7|C,140)      total(C,140|T,7);HYP3(T,7|C,141)   total(C,141|T,7)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15854):
TCTCCCTGACTTTTCCTCCCCACCTTGGCAGGTACAGCACCGTTCGCCACCTTCTAGCTGACTTGGAACAGGAGACCAGAGAGGCCCTGAAGTCCCTGTA
Y
GGCTTTCCAGAGTCCCGGAAGCGCCGAGAGGCGGAGTCCTGGAACTCCGTCTCAGAGGGAAAGCAGCCTAGATTCTCCCACCGGATCCCGCTGCTGATCT
Celera SNP ID:            hCV380786
SNP Position Genomic:     12673
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,9|T,31)   total(C,16|T,62)
SNP Type:                 SILENT MUTATION;INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;40 Africans; 32 white Americans; 2 CEPH individuals(C,37|T,111)      total(C,37|T,111);(C,-|T,-)   HYP3(C,37|T,111)   total(C,37|T,111) 
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:15855):
CATGAGCCTTTCCCCATTTGCCAGAGCCAGGGGTCACTTTGGATGGGTCAAGTCATGAAAGGCGTGGTCTCCTCTGCCAAGGAGTTGGGAAAGGTGGGCA
Y
GAGGCTGACACGTGTTGATGGAAAACAGCCTGGAGGAGCACCAGAGTTCTGCCAGGGCCGCCTCCCCTCTCCCTGACTTTTCCTCCCCACCTTGGCAGGT
Celera SNP ID:            hCV380787
SNP Position Genomic:     12505
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15856):
GGGGAACCTAAACTCAGGTAATTTGGCTAAACCCAGGGGTTTCTATTCTCAATTGCTATGCTCTGCTGCCTATGCCTAGAGCAAGTGGGAGAAAGGAGAG
W
GGAGAGAGTTAAGAGGAGGCTGGAACCATTTGATTTGTGAAAATTAAAAGATGGTATATTGTGCTTCACGCAGGCAACTCCTTTATAACTATTTTGTGTT
Celera SNP ID:            hCV380788
SNP Position Genomic:     12019
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,7)   total(A,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15857):
GCAGGTCAGAATCAGGCAGACTTTGTCAGAGCAGGGGTGGGGAGAAGGGAAGAAGAACAGGGGAGAAAGATTATCAAACGAAACTAACTTGTCCAGAATC
R
TCAGTGAGTTGGTGCAAAGCTCAAAATCAAGATCAAGTCTAAGACTCTCTCTCCGCCCTCCATGTCTTCCTCTTCTTTCTTTCTCCCTCCCTCCTTCTCT
Celera SNP ID:            hCV380789
SNP Position Genomic:     11156
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15858):
TCCCGTGGAAAAGGGGCCAAGGATTCAGAATGCAAAGTGCCTAAGCCACAGAGGAACAGAGGAAGGAGGTCTCTAAGGGCGCATGGACTGGTGTTTCCCA
R
ACTGTGGTCTCCAGGGACACACTAGCCGGCTAGTGCCTGCCAGCTCACCTGCTTCTCTTCTTTGCCCCTCCAGCACGCCCGTCCTCAGAGTCCCGTCCTC
Celera SNP ID:            hCV27854830
SNP Position Genomic:     9386
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,2|G,34)   total(A,2|G,66)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15859):
CCTGACCTTGTGATCCGCCCGCCTCAGCCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCACAGCGCCTGGCCCATAATGACGTTTTTCTTTACCTGTTT
R
TGGGTGGGGAGAAAGAAACAAAATCTCCTTGTGGACTATACATTTGTTCATGCCTTTATTTAAATCCAACCTTAATATCCCCAATTAAACTTCCTAGCTT
Celera SNP ID:            hCV7699530
SNP Position Genomic:     23229
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15860):
TTGTAGAAGTGGTTGCTGCCTGTTCTCACTTGGGACCAAGGCCGGCAAGTAAACAAAAAGCTCAACAAGTAAGTTACCTCTACCCTGTTCCTCTGTCTCT
K
CCCACCACAGCCCCCAGCCTTCTCACTTGCTTCTGTATGTGTATGGCCAAATCCTCTTTTTTTTTTTTTTTTTTTTTATGGAGTCTTACTCTGTCACCCA
Celera SNP ID:            hCV25474289
SNP Position Genomic:     36458
SNP Source:               Applera
Population(Allele,Count): african american(G,10|T,24)   caucasian(G,8|T,30)   total(G,18|T,54)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15861):
TGATCAGGATGAGAAGGGCAAGGCCAGGGACTTCTTCACAGGGAGGAAGCGGAAAGTCGGCGGTAGCATCATTCACAAGGCTTCAAATGTCATGCACATC
R
AGTCCAAGCAAGTGGTGGGATTCCAACTGGTAAGATTTCACCTTCTCATTCTTTCACTGCTTAGGGGCATGGGATGGGCTGGGTCCAGGACTCTTCTCCT
Celera SNP ID:            hCV11894753
SNP Position Genomic:     12875
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,39)   total(A,2|G,76)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               HGBASE
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(A,3|G,64)   total(G,64|A,3) 
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:15862):
TCATGAAGTTGATATTATTATAAAGAAAGCAAAGCATCTGAGAGGTTAAGTAACTTGCATGATGCCAAACAGCAGAAAAATAGCAAAGATTGGATTTGAC
Y
TGAGTAGCCTGCCTTCAGGAACTCTGCCATTAGCTTTTATGCTATAAGCTCCATGGATATTGTGGTAGCTTATGATCCATGAAGATCCAACATGGAGGGG
Celera SNP ID:            hCV7709860
SNP Position Genomic:     34511
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15863):
TTGCATGATGCCAAACAGCAGAAAAATAGCAAAGATTGGATTTGACCTGAGTAGCCTGCCTTCAGGAACTCTGCCATTAGCTTTTATGCTATAAGCTCCA
Y
GGATATTGTGGTAGCTTATGATCCATGAAGATCCAACATGGAGGGGTTGGGCTTGAGAATAGGAACACAGGGACTGTGTTTATTTCTCTCTGTTTCTTGA
Celera SNP ID:            hCV7709861
SNP Position Genomic:     34565
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15864):
TAGCCTGCCTTCAGGAACTCTGCCATTAGCTTTTATGCTATAAGCTCCATGGATATTGTGGTAGCTTATGATCCATGAAGATCCAACATGGAGGGGTTGG
R
CTTGAGAATAGGAACACAGGGACTGTGTTTATTTCTCTCTGTTTCTTGACAACTCCTCTAATTTTCCCACTTATCTTTGTGTTGGCACCCACATGATGGA
Celera SNP ID:            hCV7709862
SNP Position Genomic:     34616
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15865):
TTACTACCAACTGCATCGAGCCTTTGTCCAGGAAGAGCTGGGCTGCCAGTCTGTGTGCAAGGAAGCCTGCAGGTATGTGGACCCCAAGGGGTGAGACGGG
Y
GGCTGGGTTGGGTTGGGCTGCCTACACTCATGCTGTCCCCTCCTCCCTTAGCTTTAAAGAGTGGACACTAACCACAAGCCTGGCACAATGGCCATCTGTG
Celera SNP ID:            hCV25472798
SNP Position Genomic:     36047
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,25)   caucasian(C,9|T,31)   total(C,22|T,56)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,25)   caucasian(C,9|T,31)   total(C,20|T,56)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,25)   caucasian(C,9|T,31)   total(C,22|T,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:15866):
CACTTAGAAGAGGCCTGGAACGAACTAACCCCCTCTGCACACTCCCCATATCAAGCCCAAATTAGCCAACCCCCATCTGCATCTGCACCCCTGGCTCTCC
R
AGCTCACATGTTCACTCTGCCTGCAGCATAAGTGAGCTCAAGGCTGACTCAGAAGTGACACCCAGGTGACTTCTGTAAGCACCTCAGCTGCCCCAAACCC
Celera SNP ID:            hCV380790
SNP Position Genomic:     10808
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15867):
GTATGTACCAAGTTTTCAGACCATCAGTGACTTGTTTTTTTTCTTTTCTTTTTCCTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGGATGCA
R
TGGTGCGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCTAACAATCCTCCCGAGTAGCTGGGACTACAGGGGTGTACCACAGCGCCAGGCTAATTT
Celera SNP ID:            hCV380791
SNP Position Genomic:     10100
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15868):
CTGGTGTTTCCCAGACTGTGGTCTCCAGGGACACACTAGCCGGCTAGTGCCTGCCAGCTCACCTGCTTCTCTTCTTTGCCCCTCCAGCACGCCCGTCCTC
R
GAGTCCCGTCCTCAAAGTCCCATCCTCGCCATGGCACCCGGAGAGAAGATCAAAGCCAAAATCAAGAAGAATCTGCCCGTGACGGGCCCTCAGGCGCCGA
Celera SNP ID:            hCV380792
SNP Position Genomic:     9473
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,5)   caucasian(A,33|G,7)   total(A,64|G,12)
SNP Type:                 UTR 5;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,31|G,5)   total(A,62|G,6)   
SNP Type:                 UTR 5;INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;40 Africans; 32 white Americans; 2 CEPH individuals(G,66|A,81)      total(G,66|A,81);HYP3(G,67|A,81)   total(G,67|A,81)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:15869):
CTCTAAGGGCGCATGGACTGGTGTTTCCCAGACTGTGGTCTCCAGGGACACACTAGCCGGCTAGTGCCTGCCAGCTCACCTGCTTCTCTTCTTTGCCCCT
S
CAGCACGCCCGTCCTCAGAGTCCCGTCCTCAAAGTCCCATCCTCGCCATGGCACCCGGAGAGAAGATCAAAGCCAAAATCAAGAAGAATCTGCCCGTGAC
Celera SNP ID:            hCV380793
SNP Position Genomic:     9456
SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,6)   caucasian(C,33|G,7)   total(C,63|G,13)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,13|G,3)   caucasian(C,20|G,6)   total(C,33|G,9)   
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;40 Africans; 32 white Americans; 2 CEPH individuals(G,44|C,103)      total(G,44|C,103);HYP3(G,44|C,104)   total(G,44|C,104)
SNP Type:                 INTRON


Context             (SEQ ID NO:15870):
AGCTGATGGGGCTGCTTCCAGAGTTCCTGCCCAGGAACCCGGGGAAAGGTCCTGCAGCCTGTCCAGCCAGCGCTTCGCAGGTTGCACCTCACCCAGCCCC
Y
GCACGGCTAGGCCTGGGGGCCGTAAGAGAAGTAGGCAGCTTCTCTGGCAGCTGTGGTGGCCAAAAACAAACGTCCCGTGGAAAAGGGGCCAAGGATTCAG
Celera SNP ID:            hCV380794
SNP Position Genomic:     9213
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,3)   caucasian(C,24|T,4)   total(C,43|T,7)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,32|T,6)   total(C,64|T,10)   
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:15871):
CATGATCTAAGGTGGCTGCCGGGAAATTTTCTTGGCAGATTTCATCTGTCAGTTACAATCTGCCGAGCACTGCTCTGTGCCAGACACTGTGCTAGGAACC
R
GGGGGCATAATGAGATAGGAATGCTGCCCTTGAGGAAGGCGGGCTACTGGAGGTGATAAGGCACGGGTACCCCTGCCTGATAAGAGAGCTGATGGGGCTG
Celera SNP ID:            hCV380795
SNP Position Genomic:     9026
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,3)   caucasian(A,33|G,7)   total(A,64|G,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15872):
ACCTCTCTGAGCCCATTTTTCTCCTCTGTAACATGGATATAATAATAGCATGCCTACTTCATGGAATTATTGAAACACAAAAGGAAATATATGTAGGCTA
Y
GTGTATATTTATAGAGAGAGACAAATTTACTTATGAGACTAATGAGACTATATATTATAAACATGAAATGAGTTTTTATGTAGTATATTAGTTCATTTCT
Celera SNP ID:            hCV380796
SNP Position Genomic:     8502
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15873):
GCCCATATTTCATGGGTTCAGGGTGGGAAAAAAAGACATAACTCTGCAGGTTCCGAATACTGCCTAAAAATCTTGATGGGGCACATCGAAGTCACAGACA
Y
GGGTCCTCTCTGGTCCTGGGGACCACCCTGTATGCCCTAGGATATGTCCTAATTTGCCTTTGTCACTGTAGAAGGCATAGGACGACACAGTTTTCATATA
Celera SNP ID:            hCV380797
SNP Position Genomic:     8054
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15874):
CCAGCTTCCAATTTTAGCCCATATTTCATGGGTTCAGGGTGGGAAAAAAAGACATAACTCTGCAGGTTCCGAATACTGCCTAAAAATCTTGATGGGGCAC
R
TCGAAGTCACAGACATGGGTCCTCTCTGGTCCTGGGGACCACCCTGTATGCCCTAGGATATGTCCTAATTTGCCTTTGTCACTGTAGAAGGCATAGGACG
Celera SNP ID:            hCV380798
SNP Position Genomic:     8038
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15875):
TCCAGTTTCCCTACCCTATTTCATTAAACACCATCCAGATTTATCCAAAATATCTTGTTTATTTATTTGCTTGCTGACCATTTGTTTACCCCACTGGAAG
S
TATGTTCCAGGAGAGCAGGGAACTTATCTATCTTGATCATTGCTGATTTCAGTGTCTACCACAGTACCAGGCACCTAATAGGTTCTCACTAACTTTTCAT
Celera SNP ID:            hCV28004652
SNP Position Genomic:     32780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15876):
TATCAATCTATGGAGGGTTTAGAGCAGTTTGTCTGCTCTGGACATCTCACCTCCATGCCCAGCACTCCATTTCCTTTCCATCTGAGGCCTTAAACCCACT
M
GCATCATAAGCTTGGAAGCCTCCTAGCTTTGCCCCAGCTTCCAATTTTAGCCCATATTTCATGGGTTCAGGGTGGGAAAAAAAGACATAACTCTGCAGGT
Celera SNP ID:            hCV380799
SNP Position Genomic:     7904
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,7)      total(A,7|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15877):
CCTTAATATCCCCAATTAAACTTCCTAGCTTTTATCCTTCACAAACATATCCTCCAGAGAAGTGGTTTCCAAACCTGGTTGATTATCAGACTCAAAGCCA
Y
TGAATCAGAATCTCTAGAAGATGAGCCCAAGGATCTATATTTTTACCAAGTTGTAGTGGTTATTCTAAGAGGCAGCACCCTTGGGAGTCTTGGCTTGACC
Celera SNP ID:            hCV7699540
SNP Position Genomic:     23399
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15878):
GGAACATCTACAACGCTGCCTACTCGCTCCAGGTAACAGATTGGCGGGGGCACCCAGCCCTGGGTTTATGGCCCGGACCCAGGAGACAAAGTTATATCTA
R
GCTGGGGTGTGGCTTGCACCAGGAACTCTGGTGAGGATCCCTGGGGTTCATCCAGAGACCTCAAGAACAAATGATGCCGGCTGGTTCCAGTCCTCTGCAG
Celera SNP ID:            hCV27894152
SNP Position Genomic:     33179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:15879):
AGTTTCCCTACCCTATTTCATTAAACACCATCCAGATTTATCCAAAATATCTTGTTTATTTATTTGCTTGCTGACCATTTGTTTACCCCACTGGAAGCTA
Y
GTTCCAGGAGAGCAGGGAACTTATCTATCTTGATCATTGCTGATTTCAGTGTCTACCACAGTACCAGGCACCTAATAGGTTCTCACTAACTTTTCATTAA
Celera SNP ID:            hCV27894153
SNP Position Genomic:     32783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15880):
CCACGCTAAGCCAACAGGTCCCTTTTTCGGAAATACCTTCCCTAATCACTCTATGGGAAAAACTGCCCATCTGCTCTTAACGCCTCCAGTTTCCCTACCC
Y
ATTTCATTAAACACCATCCAGATTTATCCAAAATATCTTGTTTATTTATTTGCTTGCTGACCATTTGTTTACCCCACTGGAAGCTATGTTCCAGGAGAGC
Celera SNP ID:            hCV27894154
SNP Position Genomic:     32696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15881):
AGCATTCATTAGATGCTATGGACCTGGAGTTAAGGAGAAAACCTTGGGGGGTAATTGTAGACATGGAAATAAATGCCATCACCCAAGACCTGAGACAGAA
M
CCTAAACATGCAAATGTTTAAGGGCTGAGCAGAAAGTAAAAGGAGAAAGAGAGGCAGATAAGTAGGAACAGAAGCCAGAAAGAGTTGGCATCAGATAAAT
Celera SNP ID:            hCV27894155
SNP Position Genomic:     26254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15882):
TGGAGGACACCGTCCCTGTCCTGAGAGAGTCTAGAGTCCAGCAGAGAGGATTGAGTAATAAACCAGAAATAATACAAATGATTCATTATAATTGCCATAA
S
TGCTATGAAGAAGAAATGTAAGACCATATGAGTGCATATTATGACACGACTGACCTGGGGCTCATTTTCAATGGGGAAGATGAGGTTCAAGGAAGGCTTT
Celera SNP ID:            hCV27894156
SNP Position Genomic:     23929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15883):
AGCTGGGATTACAGGCATGCACCACCATGCTTGGCTAAGTTTTTGTATCTTTAGTAAAGACTGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACCCTC
S
ACCTCAGGTGGTCCCCCTACCTTGGCCTCCCAAACTGCTGAGATTACAGGCGTGAGCCACCGCACCTGGCCTGAGGGGCTCTTGAGAAATGCCATTCACT
Celera SNP ID:            hCV27894157
SNP Position Genomic:     14307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15884):
AATCATGCCATGTGAACTCACATTTCTCTAAGCCATCACTATCTCCCTCATGCGCACTGCTGGGCCTGCCTGCCATGAGAGCCAATCTGGCCAATCTTGC
K
TCCAACATTCATAGAGCACCCCCTAGGTGCCAGGTGCTGTGTGAGGTGCTGGGGGAACCAGGACAATCAAGCAGACATAGTCTCTGTCCCCCGAGGTACT
Celera SNP ID:            hCV27077765
SNP Position Genomic:     36982
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,10)      total(G,10|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15885):
GAGTCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGTAACTTCTGCCTCCTGGGTTTCAGCAATCCTCCTGCCTCAGCCTCC
Y
AAGTAGCTGGGATTATAGGTGCGCAACATCACATCTGGCTAATTTTATATTTTTAGCAGAGATGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTC
Celera SNP ID:            hCV27077766
SNP Position Genomic:     36639
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15886):
AAGCCTGGCTTAAATTATACTTTGCAACTGACCACCTTAGTCAACTCCAGGAGGTAGGAACGGTGGATATTACCTTTTCACAGAATAGATAACCAAGGCC
S
AGAAAGGCTAAGTGGCTTGCCCAAGGTCACACAGCCAGAAAGGAACAGAGCTGGATCCAAACCAAGGGTGGTCTGACCTTCAACTCACATCCTCAACCGC
Celera SNP ID:            hCV27077767
SNP Position Genomic:     35665
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,9)      total(G,2|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15887):
GGACTTTTGGGCCAGGCATGGTAGCTCATGCCTATAATCCCAGCACTTTGGGAGACAAAGGTAGGAAGATCACTTGAGCCCAGGAGTTTGAGACCAGCCT
K
GGCAACATAGCAAGACCTTGCCTCTAAAAAAAAAAAATTTGTTTTAATTACCTGGGCATACTGGTGCACACCTGTAATCTCAGCTATAAGGGAGGCTGAG
Celera SNP ID:            hCV27077768
SNP Position Genomic:     34103
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15888):
TGACTTTTCAACACTTAAGTGAGATGATCTGTTCTGCCTCCTCTCACATTCTGGGAATTTATAGTTCACCTCCTACCAGGATACCCCAGAGAGTCCATGA
R
AATCATCCCAGCAGAACAAAAGGACCAGAAACCTTCAGCACTGAGTCTTCCAACTTAGATAAGAGCTGAGCTGAGAGGTGGTGTAGACACTGAGTAAAAG
Celera SNP ID:            hCV27077769
SNP Position Genomic:     33901
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15889):
ACAGCATAGTCTTGGACAAGTTCCTTAACCAATCTGCATCTCAGTTTCCACATCTGCGAAATGAGGATGATGAAAATATACATACCTGCCTCATAGGGCT
G
TTGGTAGAATTCAATGAGTTAGTTCACATAAAGTTCTTACGACAGTGCTTGGCAACACAGGAAGTGCCCCATAAATGCTTGTTGCCATTGTGCCTATTAT
Celera SNP ID:            hCV418579
SNP Position Genomic:     37510
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,7)   total(G,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15890):
AAGAATTACCTTGTGGAGGCTGGGGGACAAGTTGGGGAGCCTGAGGCGGGAGGCTGGCCCTAGCCTCTCAGGCACCCTCAGGCCCACGCTTTCTCTCTCC
R
TTGTAGAAGTGGTTGCTGCCTGTTCTCACTTGGGACCAAGGCCGGCAAGTAAACAAAAAGCTCAACAAGTAAGTTACCTCTACCCTGTTCCTCTGTCTCT
Celera SNP ID:            hCV25473247
SNP Position Genomic:     36357
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,25)   caucasian(A,9|G,31)   total(A,20|G,56)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,10)   caucasian(G,20)   total(A,10|G,30)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15891):
TAAGTAGGCCTTGGCAAGGGAGGAACAGGAAAGAAGCGGTCTGGGAGAGACACTGGCTGAAGGGTCAAGAGCATGGCTTCCGGGCCTGCTGGTGCCCCTC
K
CTGGATGATGGCCTTGGGCCAGCTGGGTTCCCCTCAGCAACCACAAGGGGAGGTGGGATTGGATCAGGGGCTGCTAATTTGCAGCTCCCAGTCGCCTTCC
Celera SNP ID:            hCV11192578
SNP Position Genomic:     33458
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,10)      total(G,10|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15892):
AAACAATTTTCCCACCTCAGCCTCCCAAGTAGCTTGGACTACAAGAATGCATCACCACACCTGGATAATTTTTCTATTTTTTATGGAGATGGGGTTTAGC
Y
GTGTTGCCCGGGCTGGTCTCGAATTCCTGGCCTCAATCAGTCTTCCCACTACAACCTTCCAAAGCATTAGGATTACAGGCATGAGCCACTGCAACCAGCC
Celera SNP ID:            hCV121235
SNP Position Genomic:     14859
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,14)   total(C,14|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15893):
AAGCTGAGTGAGCCCTACAGTCAGTGCACGGAGGACGGGAGTGACGTGCCAATCAGGAACATCTACAACGCTGCCTACTCGCTCCAGGTAACAGATTGGC
R
GGGGCACCCAGCCCTGGGTTTATGGCCCGGACCCAGGAGACAAAGTTATATCTAGGCTGGGGTGTGGCTTGCACCAGGAACTCTGGTGAGGATCCCTGGG
Celera SNP ID:            hCV11895899
SNP Position Genomic:     33124
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(A,37|G,111)      total(G,111|A,37) ;HYP3(A,37|G,111)   total(G,111|A,37)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:15894):
TTACATAAAAAGATGGTGGGCAATTAGGGCTTGGATATCCGCCTGTCATTTATCCATTCAATTGACATTTTCTGAGCACCTTCTATGTGCTAGACATGGG
R
CACCTCAGTGTGGAGGACACCGTCCCTGTCCTGAGAGAGTCTAGAGTCCAGCAGAGAGGATTGAGTAATAAACCAGAAATAATACAAATGATTCATTATA
Celera SNP ID:            hCV495082
SNP Position Genomic:     23818
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15895):
TCCATTCAATTGACATTTTCTGAGCACCTTCTATGTGCTAGACATGGGGCACCTCAGTGTGGAGGACACCGTCCCTGTCCTGAGAGAGTCTAGAGTCCAG
S
AGAGAGGATTGAGTAATAAACCAGAAATAATACAAATGATTCATTATAATTGCCATAAGTGCTATGAAGAAGAAATGTAAGACCATATGAGTGCATATTA
Celera SNP ID:            hCV495083
SNP Position Genomic:     23870
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15896):
AAATTATATTCCTCTTGCCCAGAGGCTACTAGCATCATTTTGATGGTGTTCTTCATCCCAGCAAAATCATATCAATCTATGGAGGGTTTAGAGCAGTTTG
K
CTGCTCTGGACATCTCACCTCCATGCCCAGCACTCCATTTCCTTTCCATCTGAGGCCTTAAACCCACTAGCATCATAAGCTTGGAAGCCTCCTAGCTTTG
Celera SNP ID:            hCV380800
SNP Position Genomic:     7835
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15897):
TCCAGATGTCTTGACTTTTGATATGATAGGAAATGGGAAAGGTTGTTAGGAACGTAGTAGCATCAATCGGATGAAACCTAGGTGCCTAGGGACCCTGAAG
A
GCTGGTTTTGCTTCTTCCTTGGTGGGCAAGTAGTGCAGAGTTGCAGGAGTAGGACTCTGTGTCCTTTCTCACTCAGCCCCTTTTTGGTCCTTGAGGCTTG
Celera SNP ID:            hCV11190188
SNP Position Genomic:     15313
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,9)   total(A,4|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15898):
GCTTCCAGAATCACAGCTTCTGTTGAACATTCACAGAGGAGGGCTGCAGTTTTATTTGACAAGCAATTGAACCTGGACCTAGATTTTAAAAACAAACTCT
Y
GCTAATTTTTTTCTTTCTTTCCTTCTTCTTTATTTCATTTTTTATTTTTTTGGATTGTAGTGAGGGAGGAGGTAAGGATAGGCAATATTTTAAGTGATAA
Celera SNP ID:            hCV380801
SNP Position Genomic:     7628
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,9)   total(C,9|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15899):
ATAGCGAGACCCCGTCTCTACTAAAAATACAAAACTTAGCCAGGCATGGTGGTGCATGCCTGTAGTCCCAGCTATTCAGGAGACTGAGGCAGAAGAATCG
Y
TTGAACCCGGGAGGCGGAGGTTGCAATAAGCCAAGATTGCACTACTGCACTCAAGCCTGGGCTGCAGAGTGAGACTCTTGTCTCAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV11190189
SNP Position Genomic:     16219
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15900):
GCGCACCCGCACGAGCCTTGGACCCTTTGGAACCGAAAGGTGAGTTCAGCCGGGTTGGGTCGGACCAGCTCGGGGGTTCTGGGCACTGGAGCGGATGCCG
R
GCGCCAGGGCGTCGGACGCCGTCAGCGCGGTGGGTGGCCGAGCCAGCATCAGCCGGTGGCGGCTTCCCGGTGCCCGGGATGCTGGGACACCTTGCCCGGG
Celera SNP ID:            hCV11894737
SNP Position Genomic:     6109
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(A,4|G,76)      total(G,76|A,4) ;HYP1(A,4|G,76)   total(G,76|A,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:15901):
CATTGGGGTCAAGGTCGGTTCTGGGGAAGGGGCTGATGGGGCAGAGGTACCCCTGAGAGCTGGGGATAGGAGCTTCCAGAATCACAGCTTCTGTTGAACA
Y
TCACAGAGGAGGGCTGCAGTTTTATTTGACAAGCAATTGAACCTGGACCTAGATTTTAAAAACAAACTCTCGCTAATTTTTTTCTTTCTTTCCTTCTTCT
Celera SNP ID:            hCV380802
SNP Position Genomic:     7557
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15902):
TTGGGTCGGACCAGCTCGGGGGTTCTGGGCACTGGAGCGGATGCCGGGCGCCAGGGCGTCGGACGCCGTCAGCGCGGTGGGTGGCCGAGCCAGCATCAGC
S
GGTGGCGGCTTCCCGGTGCCCGGGATGCTGGGACACCTTGCCCGGGCGGTAGCGGCCAGCTCTCCCGGGTCTACCCACGCCGTGGCCCGGAGCACGAAGC
Celera SNP ID:            hCV11894738
SNP Position Genomic:     6163
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(G,29|C,118)      total(G,29|C,118) ;HYP3(G,30|C,118)   total(G,30|C,118)
SNP Type:                 INTRON


Context             (SEQ ID NO:15903):
GCCTTGGCAAGGGAGGAACAGGAAAGAAGCGGTCTGGGAGAGACACTGGCTGAAGGGTCAAGAGCATGGCTTCCGGGCCTGCTGGTGCCCCTCGCTGGAT
R
ATGGCCTTGGGCCAGCTGGGTTCCCCTCAGCAACCACAAGGGGAGGTGGGATTGGATCAGGGGCTGCTAATTTGCAGCTCCCAGTCGCCTTCCAGGTGGC
Celera SNP ID:            hCV29337092
SNP Position Genomic:     33465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15904):
TGGGTCGGACCAGCTCGGGGGTTCTGGGCACTGGAGCGGATGCCGGGCGCCAGGGCGTCGGACGCCGTCAGCGCGGTGGGTGGCCGAGCCAGCATCAGCC
R
GTGGCGGCTTCCCGGTGCCCGGGATGCTGGGACACCTTGCCCGGGCGGTAGCGGCCAGCTCTCCCGGGTCTACCCACGCCGTGGCCCGGAGCACGAAGCC
Celera SNP ID:            hCV11894739
SNP Position Genomic:     6164
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(A,4|G,76)      total(G,76|A,4) ;HYP1(A,4|G,76)   total(G,76|A,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:15905):
TAATTTTTCTATTTTTTATGGAGATGGGGTTTAGCCGTGTTGCCCGGGCTGGTCTCGAATTCCTGGCCTCAATCAGTCTTCCCACTACAACCTTCCAAAG
Y
ATTAGGATTACAGGCATGAGCCACTGCAACCAGCCAAAATCAGTTGACATCTGTCCATTTAGAAAAGTTTCCAAGCTTTGTGTGATAAGAACATTTGGAA
Celera SNP ID:            hCV29337093
SNP Position Genomic:     14924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15906):
ACTATATATTATAAACATGAAATGAGTTTTTATGTAGTATATTAGTTCATTTCTAAAATTATTTCTCATTGTAAAGTTTGTATAGTTGAGATGCATCGTG
Y
ACATTGATGAATGTGATAATTTGCCTTCCAATACTGGTACTCTCCCCCAAAGCTGTTATTAAATCAAGGGCATTCTCTAAATTAATGGTATCTTAGAATC
Celera SNP ID:            hCV29337094
SNP Position Genomic:     8649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15907):
ATATTTCCTGCAGGATAAACAGTGGGTGTAGCTACCCCAATAAATGAAGCAGGTGTTCTCTGGCTCCCACAGTTTTCACTACCCCTCCAGTATGTCACTT
M
CATCACTGTCTCCTGTAGACATCTGACTTTTCAACACTTAAGTGAGATGATCTGTTCTGCCTCCTCTCACATTCTGGGAATTTATAGTTCACCTCCTACC
Celera SNP ID:            hCV27077770
SNP Position Genomic:     33777
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,7)      total(A,7|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15908):
TCTGTTGTCTGCGTCATCGAGATCATCGAGGTCTTCTTCATTGACTTCTTCTCTATCATTGCCCGCCGCCAGTGGCAGAAAGCCAAGGAGTGGTGGGCCT
R
GAAACAGGCTCCCCCATGTCCAGAAGCTCCCCGTAGCCCACAGGGCCAGGACAATCCAGCCCTGGATATAGACGATGACCTACCCACTTTCAACTCTGCT
Celera SNP ID:            hCV27860514
SNP Position Genomic:     38505
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;INTRON


Context             (SEQ ID NO:15909):
TGGCATACCTGGTTTTTCAAGAGCCTGGATGGTGTTCGAAAGTCAAGGAATTTCACAAGAAAATCCAGATTCCCAGCCTCTCGAAAAAATGAAACGATAC
R
GCAACATTGAGCCCATATTTCCTGCAGGATAAACAGTGGGTGTAGCTACCCCAATAAATGAAGCAGGTGTTCTCTGGCTCCCACAGTTTTCACTACCCCT
Celera SNP ID:            hCV27077771
SNP Position Genomic:     33662
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15910):
TAATTTGCAGCTCCCAGTCGCCTTCCAGGTGGCATACCTGGTTTTTCAAGAGCCTGGATGGTGTTCGAAAGTCAAGGAATTTCACAAGAAAATCCAGATT
Y
CCAGCCTCTCGAAAAAATGAAACGATACGGCAACATTGAGCCCATATTTCCTGCAGGATAAACAGTGGGTGTAGCTACCCCAATAAATGAAGCAGGTGTT
Celera SNP ID:            hCV27077772
SNP Position Genomic:     33633
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15911):
GAAGGTCCATTGAGCCCGGGAGGTAGAGGCTGTAGTGACCCTTGATTGTGCCACTGCACTCCACCCTGGGTGACAGAGTGAGACCCTCATCTCTAAAAAA
M
AAAAGCAAAAAAAATTATTGAATAAGGATTTTGAATTTTGAGTGACAATGCTGTTTACCTCCTCTCATGATCAGGGTAGCATTCTACTCTGTTGAGCTTT
Celera SNP ID:            hCV27077773
SNP Position Genomic:     31617
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,5)   total(A,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15912):
CAGCAGATGAAATGCAATACAAACAGAAAGGGATTATACCAGTTGAGATGGCTAGTTTCCACCTGCCTCAAACCTCTTAATTCCTTCCCCCTCTACCCGT
K
TTCATTCTTTCTTCAAAGAGAAAATAATTTTCTTCCCTCCCACAAATCTGCCATTCTTTTTCTCTTTACCCCCATCTCCCCAACCAAAAAAATAAAAACA
Celera SNP ID:            hCV27077774
SNP Position Genomic:     31151
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,9)   total(G,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15913):
TACACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGGCTCCATCTCCAAGAAAAAAAAAAAAAA
A
GTCCCTCCCAGGTCTGCACAGGTTCAAGAAGAAAACCATCCACCTGTTCCATCCCCAGCCTGGCCATCCCTGCTGTCCCCTCCCTGGCAGAAGCAGCAGC
Celera SNP ID:            hCV27077775
SNP Position Genomic:     28979
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15914):
TGGCAAGAACTGTGACAGTAATACTGTGTTTGAACCCCTGTTTTGGGCTAAGCTGTGGGGGCACAGCAGAGAGCAAGTCAGGCATGCATTCCAATCTCAC
R
GAGCTTCCAGTCTAGCCCTCGTCCACCTGTCACTTGCTAGAAATACCTGGTCTTGGGTTTGAAGCTCCTGAAGCAGTGGGAGAGGTGGTTTACCCCCAGG
Celera SNP ID:            hCV25643504
SNP Position Genomic:     20348
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,34)   total(A,1|G,71)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15915):
AATGGGGAAGATGAGGTTCAAGGAAGGCTTTCCTGAGGAGGTGCTATTTAAGCTGAGACAGCGAGATGATGAACCGGAATGGAAGTATGACAGATGAAAT
S
TGGGGCTTCACTGCCTCATGGTGCCCCATGAAAAGGACAACACTGGACAAGGGAAACCATCAAAATGGTCTTTCTGGGCCCCCAGATGCTCTCAGGAGGC
Celera SNP ID:            hCV27077776
SNP Position Genomic:     24099
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15916):
AGCAATATGAGAGTAGCTATTTCCCCACACTCTAACCAACATAATGTATTAATGTTTAATCTTTGCTAATCTGTCAAGAGAAAAATGGTATCTGTTATCA
T
TTTAATTTCATTCTTTCATAATGATGTTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTGTCACTCTGTCACCCAGG
Celera SNP ID:            hCV27077777
SNP Position Genomic:     22848
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15917):
CAGCAATATGAGAGTAGCTATTTCCCCACACTCTAACCAACATAATGTATTAATGTTTAATCTTTGCTAATCTGTCAAGAGAAAAATGGTATCTGTTATC
A
TTTTAATTTCATTCTTTCATAATGATGTTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTGTCACTCTGTCACCCAG
Celera SNP ID:            hCV27077778
SNP Position Genomic:     22847
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15918):
CCAGCAATATGAGAGTAGCTATTTCCCCACACTCTAACCAACATAATGTATTAATGTTTAATCTTTGCTAATCTGTCAAGAGAAAAATGGTATCTGTTAT
C
ATTTTAATTTCATTCTTTCATAATGATGTTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTGTCACTCTGTCACCCA
Celera SNP ID:            hCV27077779
SNP Position Genomic:     22846
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15919):
CTGGGGTTCATCCAGAGACCTCAAGAACAAATGATGCCGGCTGGTTCCAGTCCTCTGCAGTTCGTCTGTAACCAGAGCTTAATTGATACACCGAGGTTTC
Y
GTGGAACTCAATGTACAGCTGAGACAGACCCACCTCCTAAGTAGGCCTTGGCAAGGGAGGAACAGGAAAGAAGCGGTCTGGGAGAGACACTGGCTGAAGG
Celera SNP ID:            hCV27982773
SNP Position Genomic:     33320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15920):
CCGGGACCATGCCCAGCCCAGTTGGCATAAGGGGCAGGTTCATGTGGTTGGCCAAGGTTAAGGGAGGCTGACCCCCTGGGCTGAGGGATGTGCAGGAAAC
Y
CCCTGACATCCCTGAGCAAAGACATGAATGGCATTCCTGGGTCTCCTCTTTCAGATCTGCCTTCATTCATGCTTCCAGACAAAGATGGTGGAGAAATGTG
Celera SNP ID:            hCV25474701
SNP Position Genomic:     35241
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,11)   caucasian(C,3|T,15)   total(C,8|T,26)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15921):
TGAGGCAGAAAACAATTCAGCCATAACACATACCAAGCACACAATAAGTGCTAGTTGCTATTGTTATTACTGCTATTATTACCGTTACTAGCATTGCTAC
S
AGTCTACCACCATTGCTGCTGCTGCTACTACCCTCAAAATAATACCACTGCAATTTCCAGCACTACTATTCCACTATGATTACATTTCTAGGGAAGGTAG
Celera SNP ID:            hCV473494
SNP Position Genomic:     18521
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15922):
GGTGCCTTGGACAGTAGACATTTATTTATCACAGTTTTGGAGACTAGAAAGTCTAAGATCAAGGCACAGGCAGACTCGGTTCTGGTGAGGCTTCTCTCTT
W
GGGTTGCAGAAGGCTGGCTGTCTTCTCTCCATGTCCTCAGATGGCCTTTCCTCTGTGGTGTGTCAACAGAGAGAGGCCTGTGATGTCTCTTCCTCTTCTG
Celera SNP ID:            hCV473495
SNP Position Genomic:     18203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,5)      total(A,1|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15923):
AGACCATTCTCAGCACCTCCATGGGGGGCAGCGAATATGGTAAGGAAACCTGTGCCAAGGAGATCTTGAGGCCCTCCAATAGTGGACATGGGGGCAGCAG
S
ACAGTGGGGATGCGGGAGCCCTCTGGAAAAGCGGGATCTCTCCCACTTGGCCAGAAACCAGGGATGCCCCTTTTTCTATCAGTGTTTCCATCAGTGTTCA
Celera SNP ID:            hCV11190190
SNP Position Genomic:     17570
SNP Source:               Applera
Population(Allele,Count): african american(C,22|G,14)   caucasian(C,12|G,26)   total(C,34|G,40)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,5)      total(G,4|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15924):
GAACCCAAGTGCCCGGCACACCGCCCCCCAAATACAATACCTTGCGCTTGGAGAGGGCCTTTTCCAACCAGCTCACAGATACCCAGATGCTGGATGAGCT
S
TGAGGCAGGGTTGAGAAGACAGATCTAGTCAGGACCACCAGCCATGGTCTAAGGACATGGATCGGGTGCCCCCAGACGTGTGCACAGGGGACCCTCTGCC
Celera SNP ID:            hCV11895900
SNP Position Genomic:     38728
SNP Source:               Applera
Population(Allele,Count): african american(C,22|G,12)   caucasian(C,27|G,7)   total(C,49|G,19)   
SNP Type:                 SILENT MUTATION;INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,24|G,12)   caucasian(C,28|G,8)   total(C,52|G,20)
SNP Type:                 SILENT MUTATION;INTRON;TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(G,37|C,111)      total(G,37|C,111) ;HYP3(G,37|C,111)   total(G,37|C,111)(C,-|G,-)    
SNP Type:                 SILENT MUTATION;INTRON;TFBS


Context             (SEQ ID NO:15925):
TTGGAGAGGGCCTTTTCCAACCAGCTCACAGATACCCAGATGCTGGATGAGCTCTGAGGCAGGGTTGAGAAGACAGATCTAGTCAGGACCACCAGCCATG
K
TCTAAGGACATGGATCGGGTGCCCCCAGACGTGTGCACAGGGGACCCTCTGCCCCACTCTGGGCTTTTCAGATACTCTGACCAAAAAGCCTGCTTTAAAC
Celera SNP ID:            hCV11895901
SNP Position Genomic:     38775
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(T,4|G,76)      total(G,76|T,4) ;HYP1(T,4|G,76)   total(G,76|T,4)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:15926):
ATACCCAGATGCTGGATGAGCTCTGAGGCAGGGTTGAGAAGACAGATCTAGTCAGGACCACCAGCCATGGTCTAAGGACATGGATCGGGTGCCCCCAGAC
R
TGTGCACAGGGGACCCTCTGCCCCACTCTGGGCTTTTCAGATACTCTGACCAAAAAGCCTGCTTTAAACCGCAAGATGGGGCCTGGGCATGCGCAGGAGG
Celera SNP ID:            hCV11895902
SNP Position Genomic:     38806
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(A,4|G,76)      total(G,76|A,4) ;HYP1(A,4|G,76)   total(G,76|A,4)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:15927):
TCGGGTGCCCCCAGACGTGTGCACAGGGGACCCTCTGCCCCACTCTGGGCTTTTCAGATACTCTGACCAAAAAGCCTGCTTTAAACCGCAAGATGGGGCC
K
GGGCATGCGCAGGAGGAGCCATCGGGTACTACGCAGCAACACTCACAACTGTCCAGGCTGAGATAAATCCCGGGACCTGAACTATTAGCACGTCACTAGA
Celera SNP ID:            hCV11895903
SNP Position Genomic:     38890
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(G,29|T,118)      total(G,29|T,118) ;HYP3(G,30|T,118)   total(G,30|T,118)(G,-|T,-)    
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:15928):
GCTTTAAACCGCAAGATGGGGCCTGGGCATGCGCAGGAGGAGCCATCGGGTACTACGCAGCAACACTCACAACTGTCCAGGCTGAGATAAATCCCGGGAC
Y
TGAACTATTAGCACGTCACTAGAGACTGGGAGCCGAGGCAGTGGTGCTGGCCCAAGTGAAGGCCAGAGTGAGGACTGATGCAGCTCTTTACGGGTCTTGA
Celera SNP ID:            hCV11895904
SNP Position Genomic:     38967
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(T,37|C,111)      total(C,111|T,37) ;HYP3(T,37|C,111)   total(C,111|T,37)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:15929):
GCCCGTGACGGGCCCTCAGGCGCCGACCATTAAAGAGCTGATGCGGTGGTACTGCCTCAACACCAACACCCATGGCTGTCGCCGCATCGTGGTGTCCCGC
K
GCCGTCTGCGCCGCCTCCTCTGGATCGGGTTCACACTGACTGCCGTGGCCCTCATCCTCTGGCAGTGCGCCCTCCTCGTCTTCTCCTTCTATACTGTCTC
Celera SNP ID:            hCV11894746
SNP Position Genomic:     9648
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(T,6|G,61)      total(G,61|T,6) ;HYP2(T,7|G,61)   total(G,61|T,7)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:15930):
GCAGGAGGAGCCATCGGGTACTACGCAGCAACACTCACAACTGTCCAGGCTGAGATAAATCCCGGGACCTGAACTATTAGCACGTCACTAGAGACTGGGA
R
CCGAGGCAGTGGTGCTGGCCCAAGTGAAGGCCAGAGTGAGGACTGATGCAGCTCTTTACGGGTCTTGAGAGGGAAGGACTCTTCCAAAGCCCCAAAGCCG
Celera SNP ID:            hCV11895905
SNP Position Genomic:     38999
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(A,37|G,111)      total(G,111|A,37) ;HYP3(A,37|G,111)   total(G,111|A,37)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:15931):
TGAAGTCCCTGTACGGCTTTCCAGAGTCCCGGAAGCGCCGAGAGGCGGAGTCCTGGAACTCCGTCTCAGAGGGAAAGCAGCCTAGATTCTCCCACCGGAT
Y
CCGCTGCTGATCTTTGATCAGGATGAGAAGGGCAAGGCCAGGGACTTCTTCACAGGGAGGAAGCGGAAAGTCGGCGGTAGCATCATTCACAAGGCTTCAA
Celera SNP ID:            hCV11894747
SNP Position Genomic:     12760
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,9|T,31)   total(C,16|T,62)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(C,22|T,125)      total(C,22|T,125) ;HYP3(C,22|T,126)   total(C,22|T,126)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:15932):
CAGCCCTGAAGCTGGAGCCGTTTGTGAATAAACTGTTCTTCATCATTGACACTGGAGAAAGGTGTCCTCCATGCCCTCAGGCAGCAGAGAACTGGCCCAG
R
GCCCTTGGAGTGTTGGTGGAGATCAGAGTGCCGTGGTGGAGGTCTGGGACTATGTCAGAGTGTCCTCACTTTGGGGCATGGGTGGGCCCAGGAGATGGAT
Celera SNP ID:            hCV11895906
SNP Position Genomic:     39303
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(G,37|A,111)      total(G,37|A,111) ;HYP3(G,37|A,111)   total(G,37|A,111)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:15933):
AAAGCAGCCTAGATTCTCCCACCGGATCCCGCTGCTGATCTTTGATCAGGATGAGAAGGGCAAGGCCAGGGACTTCTTCACAGGGAGGAAGCGGAAAGTC
R
GCGGTAGCATCATTCACAAGGCTTCAAATGTCATGCACATCGAGTCCAAGCAAGTGGTGGGATTCCAACTGGTAAGATTTCACCTTCTCATTCTTTCACT
Celera SNP ID:            hCV11894748
SNP Position Genomic:     12833
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(A,4|G,76)      total(G,76|A,4) ;HYP1(A,4|G,76)   total(G,76|A,4)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:15934):
GAGAATCTCTCACTCAAACAAAGTCTTACCCAGAAATGTACACAATGGAAACAGAAATGCAGGATGAATGTAGCTGAGCCTGGGAAACCAGCCTGCTTAC
Y
GCCCACCCCGCTGTGATGGGCCCTAAAACAGGGTGCAGACAGAACAGAATTTGCAAACCTCTAAGCTGTGGCAAGACAGGCAATCTTTCTGAGAAGGTGA
Celera SNP ID:            hCV191760
SNP Position Genomic:     29342
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15935):
GTTCTTCATCATTGACACTGGAGAAAGGTGTCCTCCATGCCCTCAGGCAGCAGAGAACTGGCCCAGGGCCCTTGGAGTGTTGGTGGAGATCAGAGTGCCG
W
GGTGGAGGTCTGGGACTATGTCAGAGTGTCCTCACTTTGGGGCATGGGTGGGCCCAGGAGATGGATTTAGTTATTCAATTTTGTGGATGAATAAATTGAG
Celera SNP ID:            hCV11895907
SNP Position Genomic:     39337
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(A,44|T,103)      total(A,44|T,103) ;HYP3(A,44|T,104)   total(A,44|T,104)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:15936):
GAGATTTCAAAGTCTTCTTGGGTCCTTTCATGGGATATCTGCAAGGCTCTTCTTGATACCAAAATCAACTCTTTATATAGATGTTTGTTTGTTTGTTTTA
R
AAACAAGATTTCACTCTGTCACTCAGGTGGGAGTGGTGCAATCATAGCTCACTGCAGCCTAGAACTCCTGGGCTCAAACAATTTTCCCACCTCAGCCTCC
Celera SNP ID:            hCV27535751
SNP Position Genomic:     14683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15937):
GGCTCTGCTGCCATCTGGGCTTTCCCCCTTAGCACTGTTTATACCTTAAAGAATGAGCTTGCTGGGTGCAGCGCCCCATACCTATAATCCTAGCACTTTG
R
GAGGCTGAGGTGGGAAGATTACCTGAGCCCAGGAGGTCAAGGCTGCCATGAGCCATGATTGCACCATTGCACTCCAGCCTGGGTGACAGATCGAGACCCT
Celera SNP ID:            hCV191761
SNP Position Genomic:     29771
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15938):
ACGACTGTACTTCAGCCTGGGTGAGAGAACAAGACCCTGTCTTTAAAAATAAAAAAAGTGAGCTCATCAGAAAGATACTTCTGGATGACATTTAGTGAGA
R
CTACCATGCACACACACACCTTACATGTATCAATTCATTTCATGCTCACAACTTCATGAAGTTGATATTATTATAAAGAAAGCAAAGCATCTGAGAGGTT
Celera SNP ID:            hCV7709855
SNP Position Genomic:     34357
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15939):
CTGCCTCAAACCTCTTAATTCCTTCCCCCTCTACCCGTTTTCATTCTTTCTTCAAAGAGAAAATAATTTTCTTCCCTCCCACAAATCTGCCATTCTTTTT
S
TCTTTACCCCCATCTCCCCAACCAAAAAAATAAAAACAATTATACATGGGCACGTGGATGCACACAGCACACAAACACACAGTTGTAATAAACTGGTCAC
Celera SNP ID:            hCV191762
SNP Position Genomic:     31213
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,12)   total(G,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15940):
CCTTGGAGTGTTGGTGGAGATCAGAGTGCCGTGGTGGAGGTCTGGGACTATGTCAGAGTGTCCTCACTTTGGGGCATGGGTGGGCCCAGGAGATGGATTT
R
GTTATTCAATTTTGTGGATGAATAAATTGAGGCACAGAAAGATTAAGTTACCGGCCCAAGGTGACACAGTGAGGAGGTGGCAGAGCTAGGATTTGAACCC
Celera SNP ID:            hCV11895909
SNP Position Genomic:     39406
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(G,37|A,111)      total(G,37|A,111) ;HYP3(G,37|A,111)   total(G,37|A,111)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:15941):
GCTCACAACTTCATGAAGTTGATATTATTATAAAGAAAGCAAAGCATCTGAGAGGTTAAGTAACTTGCATGATGCCAAACAGCAGAAAAATAGCAAAGAT
K
GGATTTGACCTGAGTAGCCTGCCTTCAGGAACTCTGCCATTAGCTTTTATGCTATAAGCTCCATGGATATTGTGGTAGCTTATGATCCATGAAGATCCAA
Celera SNP ID:            hCV7709856
SNP Position Genomic:     34501
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15942):
ATGTGACGTGTATTTGCCCAGTTACTTCCTAGAAGTTTGTCAAACAGGACATGTGTTTGCCAGATTGTCCCCCAATGAGGATATAGCAATTGAGAACCAC
M
CCAGCAATATGAGAGTAGCTATTTCCCCACACTCTAACCAACATAATGTATTAATGTTTAATCTTTGCTAATCTGTCAAGAGAAAAATGGTATCTGTTAT
Celera SNP ID:            hCV27077780
SNP Position Genomic:     22745
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15943):
CAATGTGACGTGTATTTGCCCAGTTACTTCCTAGAAGTTTGTCAAACAGGACATGTGTTTGCCAGATTGTCCCCCAATGAGGATATAGCAATTGAGAACC
M
CACCAGCAATATGAGAGTAGCTATTTCCCCACACTCTAACCAACATAATGTATTAATGTTTAATCTTTGCTAATCTGTCAAGAGAAAAATGGTATCTGTT
Celera SNP ID:            hCV27077781
SNP Position Genomic:     22743
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15944):
TCAAAAGTGGAGGAATTTGGGGACAGACATGGCACAAAGAATGTCAAGTCAGGATAGAGATGAAGGTGAGAAGATTCCGAGAGAAAACAGAAGGCAGAGA
G
TCTAGTTCTATGTCCATGTGTGTCAACCAGGATGAGGGGCCTTGTTTGTCATTTGATCAGGAGCAAGATGGGGAAAATGAGTCACATCTCTCACACATTC
Celera SNP ID:            hCV27077782
SNP Position Genomic:     17207
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15945):
TTCAAAAGTGGAGGAATTTGGGGACAGACATGGCACAAAGAATGTCAAGTCAGGATAGAGATGAAGGTGAGAAGATTCCGAGAGAAAACAGAAGGCAGAG
A
GTCTAGTTCTATGTCCATGTGTGTCAACCAGGATGAGGGGCCTTGTTTGTCATTTGATCAGGAGCAAGATGGGGAAAATGAGTCACATCTCTCACACATT
Celera SNP ID:            hCV27077783
SNP Position Genomic:     17206
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15946):
AAATGATGCCGGCTGGTTCCAGTCCTCTGCAGTTCGTCTGTAACCAGAGCTTAATTGATACACCGAGGTTTCCGTGGAACTCAATGTACAGCTGAGACAG
R
CCCACCTCCTAAGTAGGCCTTGGCAAGGGAGGAACAGGAAAGAAGCGGTCTGGGAGAGACACTGGCTGAAGGGTCAAGAGCATGGCTTCCGGGCCTGCTG
Celera SNP ID:            hCV28026490
SNP Position Genomic:     33348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15947):
AGGTTGAGGCTGCAGTGAGCCATAATTGCGCCACTGCACTTCAGCCTGGGCAAAAGAGCAAGACCCTATCTCAGAAATAAAAATACAATACAATACAATA
M
AATAAAACACTAAGCCTCTTTCACCTATCTGTATATGTTAGCAGACAGATTGGTTCTTGTGAAAAGTAAATAACTGGAATCATGTCTCCCTAAGAGTTGG
Celera SNP ID:            hCV27077784
SNP Position Genomic:     16911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,14)      total(A,14|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15948):
AATCAACTCTTTATATAGATGTTTGTTTGTTTGTTTTAGAAACAAGATTTCACTCTGTCACTCAGGTGGGAGTGGTGCAATCATAGCTCACTGCAGCCTA
K
AACTCCTGGGCTCAAACAATTTTCCCACCTCAGCCTCCCAAGTAGCTTGGACTACAAGAATGCATCACCACACCTGGATAATTTTTCTATTTTTTATGGA
Celera SNP ID:            hCV27077785
SNP Position Genomic:     14745
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,18)      total(G,18|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15949):
GAGGCCTTAAACCCACTAGCATCATAAGCTTGGAAGCCTCCTAGCTTTGCCCCAGCTTCCAATTTTAGCCCATATTTCATGGGTTCAGGGTGGGAAAAAA
A
GACATAACTCTGCAGGTTCCGAATACTGCCTAAAAATCTTGATGGGGCACATCGAAGTCACAGACATGGGTCCTCTCTGGTCCTGGGGACCACCCTGTAT
Celera SNP ID:            hCV27077786
SNP Position Genomic:     7987
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,9)   total(A,3|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15950):
TAGCTACAGTCTTGTTTTGCTTTGAAGTTGAAATATTATTTATATGAATATTTTATCTGTTTTGCAAAGAGCAAGATCAGTTCCCTTCCTTCACTTGGGG
G
CTCCTCTGACATTGTCGACTGATCCATTGGGGTCAAGGTCGGTTCTGGGGAAGGGGCTGATGGGGCAGAGGTACCCCTGAGAGCTGGGGATAGGAGCTTC
Celera SNP ID:            hCV27077787
SNP Position Genomic:     7432
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,8)   total(G,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15951):
ATTTCACCTTCTCATTCTTTCACTGCTTAGGGGCATGGGATGGGCTGGGTCCAGGACTCTTCTCCTTGACCACTAGCCCCTGTGGTCCAACTGGAAGAAA
Y
ACACCCAGCTGGGGTCAGACACAGTGACTCATGCTTGTAATCCCAGCGCTTTGGGAGGCCAAGGCGGGCGAATCACCTGAGGTCAGGAGTTCGAGACCAG
Celera SNP ID:            hCV380784
SNP Position Genomic:     13010
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15952):
AGCTGCTCTGTTGTCTGCGTCATCGAGATCATCGAGGTCTTCTTCATTGACTTCTTCTCTATCATTGCCCGCCGCCAGTGGCAGAAAGCCAAGGAGTGGT
R
GGCCTGGAAACAGGCTCCCCCATGTCCAGAAGCTCCCCGTAGCCCACAGGGCCAGGACAATCCAGCCCTGGATATAGACGATGACCTACCCACTTTCAAC
Celera SNP ID:            hCV27528860
SNP Position Genomic:     38499
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;INTRON


Gene Number:                 33
Celera Gene:                 hCG16924 - 63000132519791
Gene Symbol:                 TDRKH
Protein Name:                tudor and KH domain containing protein;TDRD2
Celera Genomic Axis:         GA_x5YUV32VSLS(9594015..9624982)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12193):
ACAAAAATGCTCCATCATTCTCTCCTCCCCTGTCCCCTTCTCCCACCAGCACCCATCTGAGGGAGAGGCAAGAGACTTTGGGTGGAACTCTTGCTGTAAG
AAGTCAGTACGGTGGTGACTCAGGCTGGAGAGTATCTGAAAACAGGGACTCCTGGGTCCTGTTCCTCCAAATTGCTTCGTAAGGGGAATTAAGTAGGAAG
ATAGAGCTGGGTGGTGGTGGTCAGAGAGGCTGAGGAGAATTCTTTCCTAGGGCATCTGCCACAATTAAATCTGGCCTAAAGATTGAATAGTAGCACCAGC
ATAAGTGAGGACACTAAGGCTCTGCTCCCAGTCGCTGGTTTCTGGTGAAGAGGCTTAAGTGGGGAGGAGGGGGTGACTCCTACGATGGGCAACAGGAGAG
ATGAGTGCTGTTTTTCAGACTCAGACAGCTGAACAGCACTTGAATGAATCATTCGTATGTTGTACAGGGAAGGAACTCTGTGGGCAGCCAAGGCTCCGGA
GCCAGGCTCCTTGTATTTCAGAGCCCCTCACTGCCCAGATCCCTAGCTAAGATCTTCTTTCCTGCTTCAGTTTACTAAAGGGAACACCTGCTCACTGAAC
CCTCTGGGAAACCCAGAACTTATCTTAACTCACTCCACCTAATGCCTCCCACAGCCTGTTCAGAACACCCTTCAGGGAAAGAGAATAGACTCTTAGGACT
GGAGATGAGAATAAAGAAATTACAATTCACTCAATCCCAGCATCTCACAATTCAATCTTTCAATCCTGATTTGGGATCTGAGAGGAGAAATGAGATGACA
AATCCCAAATGTACAGTGACTTGAGGGTGAGTTTGGCATCAGCTCACTCGAAGTTATTTCTTCTGCTCCCCAACCTCCCTACCCAGCAAGTTAGAATTCA
ATCTGATTTTAAAATAAGATCAAATAAATCTCATTTTAAAATAAGATCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGATGCTGAGGCAGGTGGA
TCACCTGAGATCAGGAGTTCAAGATCAGCCTGGGCAACATGGTGAGACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGTGTGCACCTA
TAATCCCAGCTATTCGGGAGGCTGAGGCAGGAAGATCATTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGA
TGATAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAATCCGGGAAAAGTGATGCCACCTGGCTTTTCACTGCTCTGATTAAGAAATTCCTCCTGTGA
GGCTGAGCACACTGACTCACTCCTGTAATCCCAGCACTTTGGGAGGCTAAGGCAGGTGGATGCCTTGAGCCCAGGAGCTGGAGACCAGCCTGGGCAACAT
GGTGAAACCCCATCTCTGCTAAAAAGACAAAAATTAGCCGGGTGTGGTGGTGCATGTCTGTAGTCTCAGCTACTTGGGAGGCTGAGGCAGGAGGATCGCT
TGAGCCCGGGAGGTGGAGGTTGCAGTGAGTAGAGATCATGCCATTGCCCCAAGCCTGGGCAACAGAGCAAGACTCTGTCTTAAAAAAGAAATAAATTCCT
CTTGTGGTTTAACTATAAAGTGTAACCCCCTTTTTGGACTTCATTTCCTCTTTTTTGCCCATCCCACCTTCACTGGAGCTAGAAGAAGATGGACCCATAA
AGTAGGTCTGTATTTTTATAGCAACACTGGACACATTCTTCCTTGGATTTGAACTACCATTTTACTTTTTTTAAAGTAAAAATAGCTATAGCAATCAAGG
CACTCAATACCTAGGAATAATTTTAATAAGAAGTATGTAAATTCTACATAATGAAAACTAAAATTCTACTGATGGGGTACCAATGACTTGAATGTATAGG
AAGATAGGAAGATTCTTATCATACATTCTCCTTTAGATAATCTAAAAATATGTGATTCCAGCCAAAATAACAGTAACAGAATAGAAGAGTAAATTATGGT
TCAATATAGCCTCACAATATTATACCACACAGTAGTCAGAATGAAGGGACTAAAACTATACACAATATGGCTGAATCTCACAGAAATAATTTGAACAAAG
GAAGCCAGACACAAAAGAGTACATACTCTGTGATTCTCTTTATATAAAAAGCAAGAACAGGCAAAATTAGTTTATGGTATCAGGAGTCAGAAGAGTGGTT
GTCCTTGAGAAGAGCAGTGACTGAGAGGGAACACACAAGTGGCTTCTGGGGCACTAGCAATGTTCTGTTTCTTGATCTGCTGCTGGTTACACAAATGTAT
TCCATTTGTGAAAATTCATCAAGATATATACTTGTCATTTGTGCATTTTTCTGCATGTATATTATAAATTAATTTTTTAAATTGTGGTAAAAAAAAAAAC
CATAATGTATACAATTTAAAAAATTTTTAGGCCGGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCAGGTCA
GGAGACCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGTGGGCACCTGTAGTCCCAGCTA
TTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCAGGGAGTTGGAGGTTCCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAG
ACTCCGTCTAAAAAAAAAAAAAAAAAAATTAATGATCAATGGAACAAAATGAAAAAAATCCAGAAATAGACCCAAATACATATGGCAATTTGGTATTATA
AAGGTAGCATTCAAAAACAATGGAGAAAACATGGGTTATTCAATAAGAAGGATTTGAATAAAACAAAACAAAATTGGATCTCTATCTCACACCTTTACAC
CAAAATAAATTCCAGATGAATCAAATATTTACATATACAAAGACACTATCAAAGTACTTTTTAAAAAAACATAGGAGCTTTAAGAATAATCTTAAATAGT
GGGAGACTTTACTAAAAATTATATGAAACACAGAAGTTGGCCAGGCACAGTGGCTCACGCCTGTAATACCAATACTTTGGGAGGCTAAGGCGGGTGGATC
ACTTGAGGCCAGGAGTTTGAGACCAGTCTGGCCAACATGGCAAAACTACTCCGAGTCTACTAAAAAATACAAAAATTACCCAGGTATGGTGGTACATGCC
TGTAATCCCAACTACTCAGGAGGCTGAGGCACGAGAATCTCTTCAACCTGGGAAGCAGAGGTTACAGTGGGCCAAGATCATGCCACTGCACTCCAGCCTG
GGCGACAGAATGAGACTCTGCCTCAAAAAAAGAAAGAAAGAAACCCAGAAATTATCAAAGAAAATATTGATAAATTCAATTACATAAAAATTTTTAACAT
TTGCAAAGAATAACCATAAACAGGCTGAGGGCAATGGCTCAGGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCAGGCTGATCACCTGAGGTCAGGAGT
TGGAGACCAGCCTCAAAATATGCAATATACATAGAACAAACTTGGAAAAGGGAAAATACTTGTTATATGTATAAACAATATACATAGAACAAACTGGGAA
AAGGGACATACTTTTTTTTTTTTTTTTTGGAGATGGGGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCAATCTCGGCTCACTGCAACCACCGCTTC
CCCAGTTCAAGTGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAAGCGCTTGCCACCATAACCGGCTAATTTTTGTATTTTTAATAAAGACGG
GGTTTCAGCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATTAGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGACCCACCA
CACCTGGCCGGGGAAAATACTTTTAACTTATATACAAACAGCAAGTATTAAGAAATGACCCTATAACCAATAAAAATATGAACAGAATATAAAAACAGAG
AATTTACAAAAAAATTGCCATTTAAATATATTAAAAGATGCTCAACTTTACTTATAAGAGCAATGAAATTTTATCTTGCAATGAGATAGCATTTACACTA
TCAGATTGTCAAAAATCAGGAAGTTTAACAGCACCAGTGTGCTATCAAACAGGTTCTTTTCATACATTGCTGACAGGAGACAAAATTGGTAAAATTTCCA
GGGAAGGCAATTTGGTAATACTAACTAAAATCATTTTCAAAAATTGCTGGTGGGATTAAAATTATAAAAATCTTTGTGGGAGGAAGGGAATTTACAAAAT
TTTATCTATCCAAATGAAAAAACAATGCACACATTTCTTTAACTTGGCACTTGCATTTCTAAGTATTTATCATACACATATGCAAGAGGGAAATGAAGTA
TCCTTGCATATCAATCAAATGTTAAAGGACTGGTTAAATATATCTTCATATATCCCTCAGGCATACTATGAAACTATCACTATGAGGCAGATACGTATAT
GCTGCTACGGAAACATTTCCAGACTGTATCAAAGAAAGTTGCAAAATAGTATGTATGTTATCAACTGGGTTAAAAAAATATATGTGTGTGTATATATATA
TACACTTTATATATTACACATATACACACGTTAACTATAGAATATCTTGTGAAATTTTTCACAAGAAACTGGTAACCCTAGTTGCCTTGAAGGAAGGAAA
ATTTATTCACTATAATAACCTTGTTTCTTCTGAATTTTGTAGAATGTAAATGTATTACTTATTCAAAACGCATACACATTTTTATATTAATAGAAAGCAA
AACCTGAGGCCCAAAGGCATCTGCCTAATTGACAAAAGATACAACCTTGCGTTCTTTCAGCAAATATTTATTGCTCATCACCTGCCAGGTATTGTGATGG
AAGCTAGTGCGGAAGATCCCCCAATGACCAGGATCGCCCGACCCCTGTYCCCAGGGTGAGCCCCTAGCGCGGAGCGGGGACAGGGTGGACCGAGTAGGGC
GCAGTGCTGGTCTCGCGAGGCTCCCTGCCCCACGGAGGCAGTAGCAGGACCCAACCGTTCCTAACCGTCCAGGGACCAGGACAGCGTCTGGAATAAAATC
TTCCAAAGCAAACTTCCGCCTGCGGAGACCCGCTCCCTTCCTCGCCCCCACAGAAACGCCCCCCGCCACCACCCCCTCCCCCGGCGTAGGCCTTCACGCT
GTCGCCTCGACCCGTTTCCTCGAATCCCCARGGAAGGGTGGGCCCCTGGCGCCCCTATGGCCCGCCGCCCCCTTACCACCGCGGTCGGAGCCCGGGTCTC
ACTCTCCTGCCGCTGTTTCGGGCCACACCGTGTGTCCGTGCCTCCGCAAAGGAATAGAAGAGTGGGTCCTCGCTCTCTGCGGCGCACCGCTTGTCCCTTG
ACTTCCTGTCCATCTACAAAGCCTATTTCATGTTTTCCAGAAAGAAAACGTTTTCCGTGTCTCTTGAGTCCTCATCGCCATATGCGGGGCGGGACCGATC
TATGCAAAAGATCGCAAGAGAAAACTGATGGAGCATCGCCCATCATGAGGCTGCTCTCCCGATGGTCACTGAGTTGTGTTGTGGCACTGTCTTTGTACAA
AGACACCAATTTTTGCGAACGGTGCCACTCATGATTCAACGCTCTCATGCCTCGGTCCCAGCTGCTGGAGCGCAGATTTTCCTCCAAGGGTTAGAAGATA
GAAAACTCCTCGGTAATTGGCCTAGAGGTGGTCTGCGAGGACGCCGGGAAGYTTGTAATTGGCTGTTTAATTCTCAGCAGGTGCGGTCTCAGTTAACAAC
ATCTGCTTTTCCTGGATCTTATTGGCTGACAGGGTGGGCCTGCTTTGGATTCCATCCGGGTAATTGGGCAGCGGCTAGCAGCAGCCACGTCGCTCAGGGG
CAGCCCGCGGAAGGATTGGTTGTGACGGGAGAAGGCGATTGGTCGGACTGCGAGCAGGGTGTTGATTGGTGCTGTCGGGCTGCGGGGGCGGGGAAGTGGC
GGCTGAAGCGCCGCCGGCGGGGCTCACTGTGGTGGTGTGAGTGGGAGGCGGCGGCGCTGGTGGCTGCAGCTGGGGTGAGGCGCGAGGCGGCGCACTCGAC
GGCTGACTGGAGCAGCGGTAAAGGCGAGGATGGAGACCGAAGGTTTGGGGAGTGGGAAAGACAGGGTCATGGGCAGCCCTGGCCACTAGGAGACGGAAAT
GCGGGAGCGAGGGAAGGGAGGGGTCTGGCGTGCCCCGGGGCGAGGGAAGGATGTGGGGCGCAGCGGGGGAGTCAGAGCCCTGGGCTGTGAGACGCCGCTC
GGGGGCAACTTGACCCACTGGGAACTCGTAACTGTATCTGAGGAAGATGCTCCAGTCACCCGCTTACGCCACAACGGACCCGGTGCGGGAGCGTTTGTGT
TTGCCCTGAGTCAGTTCAGACTCTTCCRCTGGGCCTTTTTGAGACTGAGAGCTGCCATCCGTATATCACTTTGCCTTTAACTTTCCCCAGCTTTTTCTTT
AGTTATCGCTAATAGGATGGCTGTTTACAGTCGTCAGAATAATACATTGGGGTTTTTGTTTTTCCAGTATCCCTCATTCCTTAATCCAGGTATCATCGTG
GGGGTTGGCTGGAGACCCCTATTTCAAAGACTGACTTTTAGACCCTTTCCTTGTTTTGAGAGAAAGGGGTTGACACTTTTTTTTTTCTCSTGAATTTAAA
ATAAACGTACCAAGGATGAGAACATTGAGCTGCTTCGATTCAAGCATGTCACCATGTTGTAGGTTCTTTGTAGGTTCTGGTTATTAGGAGATACTGGAAT
GAGTTATCTATGCTTTCATGGAGCTAACAATGTGATTTGACTTCTCATCACATCCTATTTGACTCCTGTCATTTTAAATGATAAAGTAARCCTTAGCGAT
GCATATCAGATAGTTTTTGGCAATTGTTCAATACAAATGTCAGGAAATTTCAAAGTTAGCTTTCACTGAAAACCATTATCTAACCACATTCCTCACTGAA
CAATGATCCTCATCTTCTCTTCTTAGCTTCCCCTAGAAACTGTGGTCTTAAGTTCTAGTATTTTCCTCCTTCCCATTCAATTTTTAAGTAATAAAATCAA
ACACAAGCTAGCAGTCAGTACTATGCAGTTATYCCCGTTTACATTATATTATTTTCCATTTCTCTTTAAGAGAAACTTATAGCTGAAAGGATAYGAAAAT
TGTGAACAAAACCATAGTGACAGATCAAGTAGAGTCTCATTTTTTGAGACATCAGCTGATAACTCAATTAGCACAAATTCATTTGTAATGTTTGAAGAGG
AGTTAGTGAAATTTACCTTTTGCTTCAAATAGAAGTCGGCCAAAACCGCACCTATAATCTCAGCTACGCCGGAYGACTGCGGGAGTTCAAGGCTGCAGTG
AGCTATTATCATTCACTGCATTCCATCCTGGGTGACAGACCAAGGCTCTGTCTCTAAATAAACAACAACAAACTCTCCAATTCATCTGTTCTCCATCTCC
ATCATTGACACCTGGACTAGGCCCTGATTGGTCTCCTGCAGCCACGGTTGCTGCCTTCAATTCATTCTCCTCACCACGGACACAGATGTTAATCAAGAAT
GACAAGCATGGCATGTGTTATCAAGGGATATTGGGGATTCTGTGGAAACCCATAGCAATGTAATTCAACCCAGTGTAGGGGGTCGAGATTGAGGGGCCTT
GGCTGCAGAGACCCCTCTGCACTTGATCTTGATAGTGTCAGAACTGGAAAACAAAAGTGCTGCTAGTCCTTTGGGCCTCTGTAAAGAGGTGTGATTATGA
CTGGCCATCAAAACAGACTTATTTCYATTGCACACTGTATTGTGTAGAAATGACTAATGAGCTGTGTGATCTTAGATCAATCCTTTTCTATCCCTTAGCC
GYAGTTTCCCAAATTGCAACGTTATTAATGGAATCAAATAAGTTCTGTAGTCCCTTCTAGTTATAAAATCTTGTGATTTCTATGCCCCATAAGCATCAAT
TATGGCCAGTTTTTAAAAGCAGACAGCATGAAAATACAGATCCAGTTTATTCTTGTTCACAGGGCTAGATTTCAGTTTCCCAAAGCCCTTAAGACCTAAA
GACTCCTGCCTGTCAAGATCTTCCTTGCCAGACAGGAAACTCCATGAAGGCAGCTGCCAAATCTATCTTGACTGTTGTGTCCCGAGGGTCAAGCACACAT
CAGAAYTCGATATTTATTGGCTTGAATAAATGTCCATTTAGTGCAGTTCATTCATGTAGTATAGGTTTGCGGAAGAAAAGTGAGTTGTATTTTAATGAGA
TGATTTTCAACTATACACCATCTAAGAAATAAACCTTAAGGTTCTAGCTACTTTCAACTGTCGCATTGACCAAGAATTTATACAGTTGTCCCTCCCTTCR
TTATTTGCAGGGGATTGGTTCCAGGAACCCTGCAGAACCCAAATCCATAGATGCTCATGTCCCTTGTATAAGATGCATATTATTTGTATATAACCTACAC
ACATCTTGCCCTATACTTTTTTTTTTTAAACCCCTTGAGACAAATTCTCGCTCTGTTGCCCAGGGTGGAGTGCAGTGGTGTCATCAGTTTACTGCAGCTT
CCACCTCCTGGGCTCAAGCCATYTCCCACCTCGGCCTCCTGAGTAGCTGGAACTACAGGTGTGCAACACCACGCCTAGCTAATTTTTTTTTTTTTTTTTT
TTTTTTTTTTTTTGTAGAAACAGAGTCTCACTATGTTGCCCAGGCTAGTCTTGAATACTTGGTCTCAAGCAGTCCTCCTACCTTAGCCTCTCAAAGTGCT
GGGATTAACAGGCATGAGCCACTGTGCCCAGCCTGTTTTGGTGTTTATGTTTCCTAGACTATGAATRTTTCCAAGTAGAAATTCTTCTTCCTCCTTCTGT
CCCCAACGTGCTCAGCACACAAGAAAGAGCTAGCACTATTTAACCAAGATGCATTAATAATGGAAACAAGCTTTGCACTTTAGTGGTCATATAAGAAAAT
ACCTAAGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCATGAGGTCAGCAGTTCGAGACCATCCTGGCCAA
TATGGTGAAACCCTGTCTCTACTAAAAATACATAAATTAGCTGGGCATGGTGGCAGGTGCCTGTMGTCCCAGCTACTCATTAGGCTGAGGCAGAAGAATC
GCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAATATATATAT
CTAAAGTAATCAGGGGACAAAAGAAGTCAAATTCTTTCTAGACACCAAGAATAAACCATCTCAATGTAGGAAAGTAGCAGTTTGGGAGGTGTGTATTCAA
GAATTATTTAAGTCAAAAATCTCCTTTATGAAACAACTTGTTTCCTTTCCTTTGGTATATACAACGATGCTTATATAATACCATCCAAACTTTCAGGATG
GTGAAAGCTTTTATTTGCAGTGTATTTAAAAAAAGAGAAGCTTATCCAATGACTTGGGAAAAGAACCTCATAAATGAAAACAAACAGCCTACATTAACCT
CAACCCTTTCTGTCCTACATTCTAAAAAGGTCGGGAGAGAACAGTATTCCCTCAGATTGATAGTCTCTAAAAATGATATACTGAATTCACTGAGTAACTA
ATGACCCAAAATAGACGACACCCTTGAAAAGAGGTACCCATCCCCCACCTCGGGTAGTAAAAGGCCGTTTTATTWTTTGCTCAGGCTTTTGAGTCCGGGC
AAGAAGGTGGATTAAATTTGTTTAAAACCAGGATATAGAAAAAATAGATTTGGCAAACTTCTGGTAGTTCTCTGAAGAACTTTATTCAGTTCTRTTGATC
AGTAAAGCTGTGAGGCCAGATGCAAATTCTGGTCATCTGTATGACAGTGTAGTAGTCTMCCCTTCTCCGTGGTTTTGCTTTCACTTACCCATAGTCAATC
CTGGTCCAAAAAGATTAAATGGGAAGTTCCATACGTAAACAATTCTTAAGTTTTAAATTGTGCACCATTCTGACTAGCATGGTGAAATCTCCATCCTGGC
CCAGACGAGAATCCTGCCTTTGTCCAGCATATCCATGCTGTATATGCTACCCGCCTCTTAGTCACTTAGTAGCCATCTTGGTTATCAGATTGAAAAAACC
TATAGTTTTCAGTACTCCAAGGCATCCACTGGGGTTCTTGGAACATATTCCTCGAGGATAAGAGAGGATGACTGTTGTAAGAAATCTACCTCCAGCCTCC
CTTACCTGACTATATCTGCTCCTCAGTGAGATTTCGGTGCTAGATGTTCTCCTTTCTCTCTTTACTCTTCCAGATTGACTGTGCTTTCCCTGAAAGCCTA
AGTTTTATTCCACAGTAGGTTTTGTATTAATGAGTATGTTTTTAGCCTTACCAGGATATAGCCAGTTTTTCCCCCCAGGGTGAAATACATTTTTGTTTAT
TATAATTATTTGGGTTGAATTTTTGTACCTGGAGGTAAATTATGGCATAAGTTACATTTACTCATTTTTAAGCAAATCTTATTTAAAGCCAGCTTGCTTT
GTTCTACTAGATTGTAATATCTGGAAATACAGATATTTAGTTTTCAGTTTTTTATCACCTATCTTTAGTTTTTTAGTCTTCAGTGYTTTTTTAACCACCT
ACAGTACTTTCTACCAGTATTAATTTTGAATTGAATATGTTGATCAAAATAAAGAATAAAAATACAGGTGCTGTTACCCTAAGAGCTTAGGTAAAAGGAA
GAGTGGGGAAGGATTTCTAAAATCACTTTACAAGGTTTTTTACAAGCAAGAATAACCCAGACTCTGGGTTAGAGATTAGATAACCTCTTCAAGCATGGGT
ACTCTTCTATGGGATTAATATTTCCTGCCTTACAGGGTTATATGACTGTAAAATAAAATTATGTAATTTGCCTGGCATAGTAGCTACTCAACACATTATC
TCTTCATTTTTGTGTCTTTAGTGCCACAGTAGCATCTAGCACATAGTACTTACTCCAGCTCTTGTGTTGAGAATAAACTGAATGGACAATGGCAAAGGCA
GGAACGTAATTAAGCAATGCAGTAATCTARGGAAAAGATAATGGTGTTTTAGAGCAGGGTCATAGAACTGCAAAGAGAAAAAGTGGTCAGATTCTGGATR
ATTTGAAGGTAGAGCAAATAAGATTTGTTGACAGGCTAGGTGTGCAGTGTGAGAGAGAGGATGACTAAGGGAGTAAGAGAATGCAGTCGAGGCAGAGCAC
AGTGGTTCACACCTGTAATCTCAGCACTTTGGAAGGCTGAGGTTGGTGGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAACCC
TTTCTCTACARAAAATACAAAAATTAGCCGGGCATGGTGGCATGCACCTGTAGTCTCAGCTACTGGGAGGCTGAGAGATGGGAGGATTGCTTGAGTCCAG
AGGTTGTGGCTGCAGTGAGCCATGGTTGCGCCACTGCACTCCAGCCTGGCAACAGAGAAAGACCTTGTCTCAAAAAAAAAAAAAAAAACGAATTGCCATT
TGCTGAGATGGCAAAGATTATGGGAAGGGGGTGAATCAGGAGCTCAGTGTTAAGTTTGAGATGTCTATTAGACATCAAATGGAGATCCATGTAGGCAGTT
GAGAAAGGTCCTAAATGGATCTATTAATTTGGAAGTTATCAGCATCTAGATAGGAGTTAAAGCCAGTCCGTGAATGAGACTTGAGATCACCAAGAAAGTG
AGGTAGAACAGAGAAGAGGGCGAAGGACAGATCCCTGAGGCACTCCAGTGTTTAGAGGTTAGAAAAATGTGAAGAAACCAGCAACTGGGAGACTGATGGA
ATAGCCAGAAAGGAAAGAGGAAAACCAGGAGGGTGTGCTATGGAGAATGTGTTTCAGAGAAGAGGGAATCATCAGCTGTGCCAAATACTGTGGGGACATC
TGGTAAGATGAAAACTGAGAATCGATCTTTGGATTGAGCAGTATGAAATCATTGGTGACTCTGATGTGAGCAGTTAGAGTGGATTTAAGAAGAGAACTTG
AGGACAGATATATTGACACTCGAGTTTTCCTTTAAAAGGAAGAAAAGAAATGGGAAGTAGTTGAAGTGAAATCCAGGAAGGGTTTTCTTTAAGAACAGAG
AATGTTTGTCTGCTGATGGGACTATCCAGTAGAGAGGAAAGAAAACGTTAATCATGTAGTAGAAGCAAGGAGAACTTGTGGAGCAGTGCTTTTATGAAAG
ACTTCAGTGCTAGGAGCAGAGACAGTTCATCTGTGGTCACAGGAGAGAACAGCAAGCATTTAGGCACAGGTGGAGGAAGGTGGGCAAATGTGTAGAAGCT
TGTGGATATTTTCTCTGAATGCTCTCCTTTTTTAGTGAAATAGCAAGGACCTCAGTTGAGAGAGGTTGGAGGAGGCAGCACGAGACGTTTGAGTGGAGAG
GGAGGCTGAGAAACTATGTGGAATAAGGAAATATAATGAGGAACATGTTAAAATTTGCTTGGCAGCAAAATGAAGATACAGTGTCAAAGAGAAACTCAGC
ACAAAAGCCTGTAAGAAGTCCACTGCTGTGGTCTAAATAAGATTTGAGCTTCTGAATCAGGCCAGATGCAGCATTGTTGATGTCATTAGCATATAGGTAG
TAATTGAACCCACATATGTGGATGAAATGGTCTAAAGAGAGCAGAGTGACATTAACAATTGATGGCACAGGATGAGAAGCCCAAACTTGGAAGGACCCTC
CAGGGAAATAAGAGGAAACCAAGAGAAAGAGGGCACAGAAACCAAGGAAAGAGTTTTGTGGAGGGAGTGGCCACCTTCCTGCTACCGCAGAGAGATGGGT
GAGATAAGGCTCCATGCATGACCTGTAGGTTGATTATCTGGGAAGTTACAGTTTTGGCGATGGAGCAGGGAAGAACCCCATTTCACTGTTCGTTAAGGAG
TAAATAAATAGAAACCAAAAGTAGAGACAGTAAATGAAGACTGTACTTCCAACAAAGATAAATAGTAAGGCCTTTACTAAGCCTGGAATGGCATTTCTTG
CAGAGGCAGCAGCTTCTGGAAAGCCCTGGAGGCATAAAAGGACTTAGATAAGTAATTTTAAATAATTTAATATGAAATCTAAGTATATATATTTCAAATA
TTTGATTCATTTAATTTTTTTTGTCTTTTAAAACTGACTTGGGTGGGGAAAGTGAAGTATGCTTCTATTTAATTCTATGTGTACCTTAGCTAACTTTTAA
AAAATACCCTGAGCCCTTTTTATATGAAATAAATTTTGAAATTGCTGAAGCTCTTGAAATTGGAAGGTAGGCAGTAGTAGTCTTTTCAGTAATAATGTGC
TCCCATGCCTCTCTGCTATTCATAAAAGGATTGGATGAAACCTCCCTCTTTTCCCTGCTTTGCTTGTTTCAGGATATAAGTCAAAGAGTACAGCAGAAAA
TGTCTACTGAACGGACTTCTTGGACAAGCCTGTCCACCATTCAGAAAATAGCCCTGGGCCTTGGGATCCCAGCCAGTGCAACAGTTGCCTATATCCTATA
CCGCAGGTATAGGGAAAGCAGAGGTASGTGAACCCTATGACTGTGTGTGTGAAAATGTTCAGACATGCTCCTGCCTTGTTAAATTGAAAAAAACTCTTTC
CTTGCCAGGTATTGTGTGTGTTTTGTTTTGGGGTTTTTTGTGGGGTTTTTTTGAGACAGGGTCTCACTCTGTCACCTAGCCTGGCGTACAGTGGCACAAT
CTTGGCTCACTGTAGTGTCGACCTCCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCCAAGTAGCTGGGACCACAGGCCTGTATTTTTTGTAGAGATGGG
GTTTTCCCATGTTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGCAACCCACCTGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCATGTGCCTCCAT
GCCTGACCCAGGTATTTTAATTGACTTTCTGTGAGGAATCTTTGACTAAAATTATTTAGTCTTTTTTTTTTCTTTGAGACAGAGTCTCACTCTGTCGCCC
ACACTGGAGTGCAGTGGAGCAATCTCGGCTCACTGCAACCTCTGCCTCCCGAGTTCAAGCAGTTCTCCTGCCTCAGCCACCCTAGTAGCTGGGATTACAG
GCGTGTGCCACCACTCCTGGCTAATGTTTGTATTTTTAGTAGAGACGGGGTTTCACCACCAGGGTGGCTGACCTCAAGTGATCCACCTGCCTCGGCCTCC
CAAAGTGCTGAGATTACAGGCATGAGCCACTGCACCTGGCCTAGTCTTTGCTATGTTCTTACATAGCAAAGTAAGCTAGTCTATGAAATGAACTCATTTT
ATAACTCCATTGATGTGCTTTCTTCAGCAACATCAACACAGCAAAGAGTTCTTTTTTAATTTCTATACTCATCTTTTTTATATATTCCTTTTCTCTAATT
AGTTGTTAGTAGAAGGCACTTACCTCAAAGGCTGGATCTAGAGAATAGGACCTAGAGAAATGACTTATGTACCTATCAGTCAGGAGAAGTTCTGAGCCTA
ATGGACCCCTCAGGTAACTTTTGGCCTTCATTCTTCTCCAGTAGTCATGTCTTGGGAGAAGTAGTTTGCCCAAACCCCAGCACCTGTTTATTGCAGAATC
TGCTTTTCCCATTTTAGCATCTGAAACAGTGTCCCAGAGAAAATGCCCATCTCTGATCCTTTGGGACCTTCTAATTCCCATTCAGATGCCACTTTTCCTT
GTTGTTATGGTTGAGATCCTCACTTTATCTCTTGGATCAGTGTCTCTTTGACAGCCAGATTCTGGGGAGGACTGGTAGTTATACTRGCTTTGGGTGTTAT
CTAAGTCTGATCTGATGAACAATGATCTGTGCAGAAGAGCGGCTGACATTTGTTGGGGAAGATGACATTGAGATAGAGATGCGGGTTCCCCAGGAGGCTG
TGAAACTCATCATTGGCCGGCAAGGAGCCAATATTAAACAGGTAAGTGTGTGAGTAGGCAGTCTGCTTTCCCAAGGATTGATTCTGTTYATTGATTTCTT
GTTTCCTTCCACTGACCCCATATCACAAAACATTCACATGCTCTGTGTGTGTGTGTATGTGTGTGTGTATATATAAAATATATATATATTTTTTTTTTTT
TTGAGATGGAGTTTCGCTCTTGTTGTCCAGGCTGGAGTGCAATGGCACGATCTCGGCTCACTGCAACATCCGCCTCCTGGGTTCAAGTGATTCTCCTGCC
TCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCCACCACGCCCAGCGAATTTTTGGTATTTTTAGTGGAGMCGAGGTTTCGTCATGTTGGCCAGGCT
GATCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCACTGGGCCCAACCACTATGTATATTTT
TAAAAGAACAAATAGAGGAACTTTTTAGCTAACTAAACTTTTTAGCTACTTCCCTTCTAGAGAAGAGTACTTCTCCCTAGAGAAAGGATGACTTAGCTTG
AAATACGGGTTTTTGACTGGGTGATTGTCAGCATGGTATAACTTGAATTATCCTTTTTTTTTTTTTTTTTGAGACAGAGTCTGGCTCTGTCACCCAGGCT
GGAATGCAGTGGCATGATCYTGGCTCACTGCAAGCTCCGCCTCCCATGTTCACATCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCC
CGCCACCACTCCCAGCTAATTTTTTGTATTTTTTGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCAGCCGC
CTTGGCTTCCCAAAGTGCTGGGATTAGAGGCGTGAGCCACCGCGCCTGGTCAAATTATCCTTTTCTACTATGGAATTAATGAACTCTCATTAATTGACAG
TAAATATTGAATGGCTACCTGGTTCTTCTTACCATCTTCCATTGTTCAGCTGAAATGTCAAGAAAACAAAATATTTGATTCTCTAATCCAAATAAAATTA
GTAAGGGGAAAGGATTCTAAACACAAAGATAAATGGGTTTGAATTTACTGCTATTTGGGGTTACATTTGTTACTAATCTCCTTCCATAAAGTGAGGACTG
GTTGTATAGATAGTAACTGAGGTTGTATATAAAGTAATTGAGGACTGGTTGTATAGATAGTATTAGCTAATTCCTTTGGCTAATTCTATCTACCTCCAGG
GTTTGTTTTAGAGTGTCTGTAGCTGGGCTCAAATGGGAGCTCTTCCAGAATGTACTGCCAAATGTCCTTTTCTTTGCAGCTGCGGAAACAGACAGGTGCT
CGGATTGATGTGGACACAGAGGATGTAGGCGATGAGCGAGTGCTGCTTATCAGTGGTTTTCCTGTTCAGGTGTGCAAGGCCAAAGCAGCAATCCATCAGA
TCCTGACAGAGAATACCCCAGTGTCTGAGCAGCTTTCAGTTCCCCAGAGATCTGTGGGCAGAATCATAGGTACCACTGGATGGCTTCCTCTATTGTTTCC
TTTATTCTTTACYTTTGCCCCTCTTTCACACCTTCCCAGGGTTTTTTCTGGCCTAGTTCCCCTTCACCATGTGAGGGGAAAAAAAGGGACATTGAGACCA
GAGGTTTACTGTTTGTAGAACTGGTGGTAAAACCAAACCTGTTTCCTCAAGAAGTTGTATGATCTGAACCTTACAAATTGATTCTTTAAGGGTTCTAGTA
GATGTATTATATTTACCTTATAATTGATTTTTAAAGGGAAGCTTGGGATGCTCATGTTATCTCAAGTCTTTCAAGACAGTGCTCTAGAGGGTACCTTTTA
TGCTTTCCCCTAGAGCATTGCTTAGTGCTGCTGTTAGAGGCAGAGAAATGTCCTGTCCTTGATCCGGTGTTCTGACACACTATGTAGCATATCTTCTTGT
GACCTGATATGGCCATGCTGAGTGGTCAAAATGAAAATGACATGAAGTTAGCCAAAGTGTAGAGTTTAAATAAAATGGAAAAAGGAAAGAATATGGTATT
CTCCTTTTCACAGTAATGATTTCAGTAGCTCCTGATTTCCATTCAACATCTTGTATTTTGTTCACTTTAGAAATGAGAACTGATTCTCTTCTCCTAGTAT
ATACAAAACAGTGATTTCTCCAGTAGCTAAGGTTGGCCAGGAGGGAAGGGCAGGTTTTTATATATTGTTTAATGTAGGGAGAGGCGGCGAGACAATTCGT
TCTATCTGTAAGGCATCTGGAGCCAAAATTACCTGTGACAAAGAATCAGAAGGGACATTACTACTATCAAGACTTATAAAAATCTCAGGAACACAGAAGG
AAGTGGCAGCAGCCAAGGCAAGTAGCTAATAGACTTGAATTATACCTGAGCATGAGAAGATCCTTTTACTCTATCCCAGGTCAGAATATCATCCTTTCTC
TTGTTTTCCACAGCATTTGATACTGGAGAAAGTTTCAGAAGATGAAGAACTTCGGAAGAGAATTGCTCATTCTGCAGAAACCAGGGTCCCACGCAAACAG
CCAATCAGTGTGAGAAGAGAAGACATGACAGAGCCAGGTGGAGCTGGAGAGCCAGCATTATGGAAAAACACCAGTTCTAGCATGGAGCCGACTGCACCCC
TGGTGACTCCTCCACCCAAAGSAGGAGGCGACATGGCTGTGGTAGTGTCAAAGGAAGGTTCCTGGGAGAAACCTAGTGATGACAGCTTTCAGAAGTCTGA
AGCCCAGGCCATCCCAGAGATGCCCATGTTTGAAAGTATGTAACAAAGAGGGAGCCCATTAATCATTGAAGATAGAAATACTGGCTTAGATATTGGAGAG
ATTAGAAGGAATGCYTTCTCAGTCTGAGCAGCCAGTATAATATGGCTGGGGTCAGGACAGAAGATTCGGTAAGATATTTTGAAGATGGGATGGAGGTAGA
ATCCACACCAACAGTTGCTGGACAGTTTGAGGYTGCAGATGTTGATCACTGAAAATGATTTATGCAGGTATAAGATTCTGCTCCTAATTGTAGGAGAGAA
CTTGGTGCCTCTTCCACTCTGAAGCAAAGTTGATGAAAGTCTTCTTCCTTTTCCAAAACCCAACCTGAACTACTTCTTTCTTGAGACAGACTATATTGAG
ACAAGTTGTTACCAGCAAAAGATAGATACATGACCTTTATTAACAAAAATGAATTAACCAAGAGGATATTTGTAGTTTATTATTTACCCCAAACTTTCTG
TGTCTGGGTACCCTCTGAGTAGGCCTATAATTCCTGCCTTCACTGTATGCATTTTMTGTAAGCTAGCAGACCTATGTGGTGAGAATGCACAGGAGCTTGG
AGGTATAAATAGACAGGGTGGGAAAGAGAGAGCTCCTTTCRCCATGTTTTACCAGCCCGCTCTGTTATAACCTCTTAGGTTATATTCTTTAATTTCCAAC
CTTTTAGGTTAGTTTCTGTAACAGAACAAATGAGTCTGGGATAAAGTCCTCAAAGTACTTCARATGGTAATTGTTTTGTTTTTGTAACGGCTTAACAAAT
AACCTAGGTTTTCTGTTTAAAAAAAAAAGAAATACTGGCTTAGGGCATGGTGGCGCAACCTGTGGTTCCAACTACTTGGGAGGCTGAAATGGGAGAATCA
CATGAGCCCAGGAAGTCGAGGCTACAGTGAGCTGGGATTGCACCGTTGCACTCCAGCCTGGGTGACAGTGAGATCCTGTCTCAAAAAAAAAAAAAAAAAA
TTAACTATTTTTTTAAAAAGAAATACTGGCTTAGATTACCCAAAATAGGAAGCAATAAAAAGTCTTTTTTCATGAATACACTTATGTCTATCATCACAGA
TATTCCTTACTGGTAATAATATTTTACTTGAATTAATACTAAACATAAATATTTTTCTAAATATAAAACAGCTGATGGAAATGGCAAAATAATGCTGACA
CAGGAAACAAATGAGTAATACATCAAATAATTGGATTTACATGATATTGTTCCTCTAGACATACTTTTTTTTTTGAGACAGAGTCTTCCTCTGTCTCCCA
GGCTGGAGTGCAATGGTGCATTCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCGAGTGATTCTCATGCCTCAGCCTCCCRAGTAGATGAGACCACAGG
TGCACACCACCACATCCGACTGATTTTTGTATTTTTTAGTAGAGATGGGGTTTCACCATGTTGGACAGGCTGGACTCGAACTCCTGGCCTCAAATGATCC
ACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGCCTAGACATACTTTATCAACAAGTAAAATTCTCAGCCAGATTTTA
TATTGCCTTTTTCATTACTGTTTTTAAAAATCATCACTATTGAAAAGGCTGTGAGCTTTCTCTTCTGTACATAGGTTTTGGYGTGGGCAAAGAGGACCTG
GRTTCCCAAGAAGCTCACAGACTTGTCCAGGGTCATGTAAAGAGTCAGTGGTAGAATGGGATCTGGAACAGGTCCATGTCCGTCACTGTCCATGTAAAGA
TTGCTGTCCATATACCTTTTTACTGATCCATGCYGTAGCTAGCATATGGAGGTTTACCTTCTGTATAATTGGTGACCGATTTGAMTATGTAGCACATGAC
AAAGAATGTAAGCTGTTATTACTCAGTTACATGGAAAGGTACAAAGGATAGCTTAGTATCTTTCTTTAGGATATTCTTGTTTGATTCATCCAGTTGCCTC
TCCTGCCATTTTAAAATGGTAACAGCCATTGGTATTTGTACCTCTCACTACCCTGGTTAGTCTCTTCATTCCAACCAGAGATGGGTCTGATGTGGCCACC
ATCCTTATCTCTGTGTTCAGTCCCCAGTCCTGACTTCAGTTTTCATGCTGATGAGTACCTAGAAGTCTACGTTTCTGCTTCTGAGCACCCTAACCACTTC
TGGATCCAGATCGTTGGCTCCCGCAGCCTGCAATTGGATAAGCTTGTCAATGAGATGACCCAGCACTATGAGAATAGTGTGGTGAGTTGCCATAGGGACA
GGGCTGGGGTTTAATGAAAAGAAGGCATATCTTTTTCATTGTACTCTTCCTTTCCCTGTGGAGCAAYTACTTTTCTTTCTTCCTCCTGCAATTCTGTTTA
TGAGCCTACCACTTTGTAACTCTCTGCCTTTCTCCTCCTCCCCACATACAGCCTGAAGACTTGACTGTGCATGTAGGAGACATTGTAGCAGCACCTTTAC
CTACAAATGGTTCCTGGTATCGAGCCCGGGTCCTCGGCACCTTGGAGAATGGGAACTTGGACCTCTATTTTGTTGACTTTGGAGATAATGGAGATTGCCC
ACTGAAGGACCTCAGGGCTCTCAGGTCAGTGCTGAGGTCAGCTCAATCCCAACTGCTGACTCAGTTCTGGCCATAGGGTGGTGAGCTGTTGGCAGTTGTC
AGGGGGATTTGGAAGGGAACCTGTTTACAGAGAGCAGATGGTTATCGTCTCATGTTAGTTGGTTCTTTCTKAAAGCAGCAATGTAAGAAGATGTTTTTGG
CCCCAGGATTCTAATTTTAGTTTCTTTTACTTCAGGAGTGACTTCCTAAGCCTTCCATTTCAAGCAATAGAATGTAGTCTGGCACGGATTGCTCCCTCAG
GTAAATTGGTCATGCCATCTATTGAGCTTACCTCCAAATAGAATAACTTCATACAGTTCATTGGAAGGAATTCTCACATTCCCAGGCTTTTTGAATTCTG
GGGACTCAGGTGCCTTTTCCTCACCAGCACTAGCAGCAGCCAGAAACTTGCCTGGCAGACCCAACCCAACCAGAGAAGACACAGGTGCCTTCCTGAGTAG
AAAAGGGTAGTTCCAACTTCCCTCCAGGGTATAAGCCCCACCCCTATCAGCAGTAACCCCTACAATCTTTTGCCAGGTGACCAGTGGGAAGAGGAAGCTT
TGGATGAGTTTGATAGACTCACTCAYTGTGCTGACTGGAAGCCTCTGGTAGCCAAGATCTCTAGCTATGTCCAGACTGGGATCTCAACTTGGCCAAAGAT
CTACTTATATGATACTAGCAATGGGAAGGTAAGACTGGCATTCACTCACTGCTTGCCATATCTTCAGTATATTTATAGCCTAATTTACTTTTTCTTYCTC
AGAAACCCTTATCTGATATTACTCTTACTGTAAGATCCTTCTCACCATCTCACCAAAGGAATRTCTTTAAAGTATCAGTCCTTCTGCCTTGTTTCCTCAA
ATTTGCCCTTGCTTACTGAGAGAACATCATTCCCTTTTCATTTTTCTTCTCAGAAACTTGATATTGGGCTAGAATTAGTACACAAAGGATACGCAATTGA
GCTTCCTGAAGACATAGAAGAAAACAGAGCTGTCCCAGACATGTTGAAGGACATGGTGAGCTATTGTAGTTATATAGGGTGCTGCTTCCAGGCAAATCTA
GCACATAGACACTAAGGGCTTCTAGTCCTGATACTGTGTTAGCTTTCCTAAGGACTTTGAGCTCCTCCAGTAGTTGACCAAAGGAGCATTTTGTCCCTCT
TGGTAGCCAAATGCAACTGCCTTAACCAGGTCCTATGAGAAGAATGAAAGGGTGGCCTCTTTTTTCCTAAAAGCCAACATGTTCCTCCTTTTTTCCTGTT
TTCATCCACTCAGGCCACAGAAACAGATGCCTCTCTCAGCACGTTGCTCACTGAGACCAAAAAGAGCTCTGGAGAGATAACACATACCCTGTCCTGCCTC
AGCTTATCAGGTACAAGCAGTATTTCCTCCCTAGAGCATCTTTGGAGATTAACTTTTCTCATTCAGTCTTTCCAGAGTAGGGAGGTTAATTGAAGGCTTG
GTTCCTAGTCAGGTCATTGAGTACCAAGAGGTCCATTTTTCTTTTGAGCCTCRCTGGCATTGCCTGCTAGAATAGGGCAGTGTCTAACTTTCTCCTTCTT
ATTTATCTTCAATAGAAGCTGCTTCCATGTCTGGTGATGATAACCTTGAAGATGACTACTTACTCTGAAGTCTGGGCTTCAGTTTGCTCAGCCATCTGCT
TTGCTGTGTGAGTGCAGCTATCATCTATCTGTAGCAACAGGAAAGTAATGAGGGCGACAGTGGGGCACTTGCTTTGATTCCCTCTTTCCCATGCCCTGTC
TTAATATACTTCTCTGCAGCTGCTTTCCTGCAGCTTAACTTGCTCTCAGATTGAGCACTTTCAAGCTTTTTGTGTATTTCTGTCTTTGGCAGGATTTGGC
ATAGGAATTGGTGCATGGAGGAGAGGAGTGTATGATAAAGGATCCATGCAGTCCTTCCTTTATTACACATATAGTCTGGCTTGCTGTGGACCAAATTAAT
ATTCTCCTCCCATCAGACTACAAAAAAATTGGACTACCACGCTACAAGTGTGTCTCCCCCATTCCACCTCCKGATCCCTCCCCAACCCTCCAGTGTTTGA
ATACTGCTGTGTTACTTCCAGGCCGTTCAACGTCAGGCTCAGTCCCCTCTACCAGTCATGATTCACATTACTACTAGGCTGTATCCTTTTTGAGGCTGGG
AAACAGTCAGGCTTTCGTCATTGGAAGTGATTCTGCAGACTTCTGACTCACCTTATCAGGTGACTCTGGTTAAGGAAAGCTTTTGAGTGGTGAACTCAAA
GACTCCAGTTGAATCAGGAGGCAAAGGCAAAAATTAGCATAATTATATTTAAAAGCCTCARGAAGTGGGAAGAGAATACTGCCTCCCAGCCTCAATTGCT
GATATGTTATTGGAGACAGGCTTTTGAAACTGCTCCAGCTATTTCTCTGTAACCTTTAGTTAAAATATAAGTAGAAAGGAGACAGGAGGCTCAGGAAATT
TTYTAAATTGCTAGTAWAATATCTATATGTATACMCACATATACACCCGTGGAGAGAGAGGAAGAGTATACAGTCCTGTTTGAATCATTTGGAGGATTTT
TTTGCTGAATAAAGTTCTCAAGAAAATTTTCTAAAACCAAATTCTGATTGAATCACAAGGTGGAAGCAGGCTGTGAGCCTAAATCTGGTGAAAACTGCCA
ACTGCCTCACAGAAAGGATCACATCTATGAAACAAGTGTCCCTCCCATATACACATTCATATTCTTTCTCTAAAGTCACTTCAGAAATAACCATTCACTG
GCTGGGCACGGTAGCTCACACCTGTAATCCCAGCGCTTTGGGAGGCTAAGGCAGGCAGATTACTTGAGGCCAACATGGTGAAACCCTGTCTCTACTAAAA
ATACAAAAAATTAGCCAGGCATGGTGGCATGCACCTGTTGTCCCAGCTGCGTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGC
AGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGAGAGACTCTGTCTCAAAAAAATACAAAAATACAAAATACAAAAATTAGCTGGGCG
TGGTGGCAGGCACCTGTAATCCCAGCTATTTGGGAGGCTGAGGCACAAGAATCACTTGAACCTGGGAAGCGGAGGTTGCAGTGAACCCAGATTGCACCAC
CACACAACCTTGTCTCATAAAAAAAAATTCACTAGGAACCAGAACCAATTTAGGTTTAGGCTGTGTGAGTAAGACCCCACCTATACTATTCAAAAGAAAA
GGCCCAGATTAAGATTCTAGAAACCTGGATTCTAGGAGCAGCTCTGGTAAGTAGCTCATGTAGTCTTGGAGGAATCTTTAAGGAGTAGATCTCCACTGTA
AACTTTTTGCAAAATTTTAACGTGTTTCCTTATAGCATCTTTCTGACAGTACTGTGAGGCTCAAATGCGAGGCTTGAAGTACTTGAGGTGCTTGAAAGTA
AATATAAATGTATAGTAATGTGGATGGTAGAAAAATGGCAAGTGAATTTTTTTTAAGGATAAAGCAAGATAAACTAGAAAATTTAAAACTAGCACATAAG
GATGCCTTACACAGGTCTTTTTTTTAAATTTAGGGATTAGTAACGTCTACCTCTATACTACATGGCARCTATATTTTCTCACAACCACAATTCTCAAAAT
TTATTTTCTCAGAAAAATCTCAGTATTAGCCAGGCACCGGTGGCTCACACCTATAATCCCAACACTTTGGGAGGCCGAGGCGGGCAGATTGCTTGAGCTC
AGGAGTTCGAGACCAGCCTGGCACCATGCTGAAACCCCATCTCTACCAAAAATACAAAAAAATTAGCCAGGCATGGTGGTGTGTGCCTGTGGTCCTAGCT
ACTTGAGAGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGGAAGCAGAGGGTGCAGTGAGTGAGCCAAGATTGCACCACTCCACTCCAGCCTGTGTGACAC
AGCAAGATGCTGTCTCCAAAAAAAGAAAAGAAAAATCTCAGTCCCAATTAGCAGAAAGGCTCTAGTGAAGGAACAGTTCTGGTGAGTAGTTCAGGTACTC
TTGGAGGAATCTTTAAGGAGCTTCCATTTATTTGATGTTTCAGATGTTGCCTGCAATGAACTCGCTGAAGCRTGCTCAGCCCTGGAACTGGTGCTACCAG
AGTTCCGTAGGGAACCTTTACTCTTTAGAGGTTCCCTGATATAAATCATTCATAAGACTTCCTACCCTGGAAAATGAGTAATGTCTCATTCTTACCTGCA
GTTTGTTACTATGTATAAAAGTCTTTTTCTTTAATATGCCTTTAAGTCTTACCTGTTTACAGCCCATTCTGATGGGTTCTTTGTCATTCTGTTAGTATAA
CCCAGTACTTTTCCTGCTGCCTGGAATGCCCTCTTCTRTGTTACCTATTCTGTCCGTTGAGATCCCCCAACTTGGGCCAAAGCCAAGAGATCTATGTGCC
TTCTCTGGTTTTCTCCACATCTATAGCACCTCAACTGAAATATATGGATAAAAACAGCCTAACAAAGCTCAGTCTTTCTGAACTAGGAAGTTCACTGATT
AGTGCTCAGTAAATGGTTAGAATAAATGGGGAAATAGTTTGGGGCATGGAGGAAGGCAAAGGGAACCAAAAATCCTTAGGTACTTTCCTCCGTAGTTCAG
GTCCCTGTGATCTTTTCAGTGAATTTAGCTCTGTTAAGGTGTATATCCCACTCCAGTCAACCCTATTACCCACCCCCCCAAGAAACCGTGAACACTTGAT
GATTGCACTACCCTTTATTCCTAGGATGGAAAGTGTCCTGAATCACATCCCGGGCCCCTGATTCCATGTGTCAAGGCTTCCAGCCCCTCAAAGCGTTGGA
ATAAGCATGTTCAAGGAGGCTCACTGGGCAGGTGGCCAACATCCCTTTCAAGGGGATACACCATAAAGATGACATTGTCCAAGGGAGGGAGGGCAGGGTG
ATCTGGTCTGACCACCTCAAAGCCCATGTAGCTGAAGGCCCGCAGCAGGGCACCTGTGAAAGGATAGAACAAATGATTAGAACATGCTTTAAAACTCAAT
ACATGTATGCCCCCAGATTTGATTTCTTCCACTAGGGAGTGGCCCTGGGAAGCAGTGTAGTGCAGGCATATAGGATGTGCTTTAGTCCAACAGACCTAGG
CTCTAACTCTGGTTTTAACACTTGTTCTGTGAGTTAGTCCTGCAGAACTTCAGTTTCCATCTATAGAATTTTCCATTTATAAATCATAGAACCTTCCTCC
TCACAGAATTTAAGATGAAATGAGATGTTCATGAAGTGCTTAACACTAGAGATTAGTGAGGTCTACCTATATACTAATACAATGATGGCATAGTAAGCTC
TGAAATAGTATCTATCACTTATGAATGGTTATTCACCATCCCTTATATCCAACAGAGTTTGAGCTCCTTGAGGCAAGAGGCTATAGTTTCTGTAACATAT
GCTCCAGGCATCCGGTTAAATATGTCCCCGTTCCCTTGGCCTTATGTCTGACCCTTTCACATTGTAGGTGCTCCATATGTTTGAGATCCATTTTGTCCTG
CTGGCCACATCCCTTGAATGGATTCTGTGTAATTTCACCAGTGCTCCTTCAGTCTGGCCCCTAACACCACCTGCAGGGGCTTCCTCAGAGTCCAGTTGTA
ACTTGATGGAACAAGTTACAACTTCCCACCTTCGTGGTAGGTGGGAAGAAAAGAATCCCTGAAATGCCTGAGGGTGCATTTTTAAAGACAGGGGAAGAGG
GTCTCCTGTAAAGGAAAAGGAGTTATCCAGCTGCCTCAGCGCGAAAAGCAAGGAAGAACAGCAGATCCCCACCTCTGTCGTTCCGATCATTCTGGAAGTT
CACAAACACAGAGTCCACATTTGTCTTCTCTTCCACGTACTCCAGGGTTGCAGTCAAACTAGGAGCCACAGAAAAACAGTTAAAATGTTTGGCCGCTCCC
TCTCCCTCTCCCTCTCCCTCTCCCTCCACGGTCTCCCTCTGATGCCACCAAAGTTGTGAAAGCCGAAGCTGGACTGTACTGCTGCCATCTCGGCTCACTG
CAACCTCCCTGCCTGATTCTCCTGCCTCAGCCTGCTGAGTGCCTGGGATTGCAGGCGCGTGCCGCCAYGCCTGACTGGTTTTCGTATTTTGGTGGAGACG
GGGTTTCGCTGTGTTGGCCGGGCTGGTCTCCAGCTCCTAACCGCGAGTGATCTGCCAGCCTCGGCCTCCTGAGGTGCCGGGATTGCAGACGGAGCCTCGT
TCACTCAGTGCTCAGTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCGCTACAACCTCCACCTCCCAGCCGCCTGCCTTGGCCTCCCAAAGTG
CCGAGATTGCAGCCTCTGCCCGGCCACCACCCCGTCTGGGAAGTGAGGAGCGTCTCTGCCTGGCCGCCCATCGTCTGGGATGTGAGGAGCGCCTCTGCCC
GGCCGTCATCCCGTCTAGGAAGTGAGGAGCGTCTCCGCCCAGCCGCCCATCGTCTGGGATGTGGGGAGCGCCTCTACCCGGCCACGACCCTGTCTGGGAA
CTGAGGAGTGTCTCTGCCCAGCCGCGACCCCATCTGGGAGGTGAGGAGCATCTCTGCCCGTCCGCCCTGTCTGAGAAGTGAGGAGCCCCTCCGCCCGGCA
GCCGCCTCGTCTGGGAAGTGAGGGGCGTCTCCGCCCGGCAGCTGCCCCGTCCGGGAGGTGGGGGGCAGCCCCCGCCCGGTCAGCCGCCCCGTCTGGGAGG
GAGGTGGGGGGCAGCCCCCGCCCGGTCAGCCGCCCCGTCCAGGAGGGAGGTGGGGGGCAGCCCCCGCCCGGTCAGCCGCCCCGTCCGGGAGGGAGGTGGG
GGGCAGTCCCCACCCGGCCACCGCCCCCTCCGGGAGGTGGGGGGTGCGTCTGCCCGGCCGCCCCTTTTGGGAAGTGAGCCCCTCTGCCCGGCCGCCACAC
CGTCTGGGAGGTGTACCCAAGAGCTCATTGAGAATGGGCCATGATGACGATGGCGGTTTTGTCGAATAGAAAAGGGGGAAATGTGGGGAAAAGATAGAGA
AATCAGATTGTTGCTGTGTCTGTGTAGAAAGAAGTAGACATAGGAGACTCCATTTTGTTCTGTACTAAGAAAAATTCTTCTGCCTTGGGATGCTGTTAAT
CTATAACCTTACCCCCAACCCCATGCTCTCTGAAACGTGCTGTGTCCACTCAGGGTTAAATGGATTAAGGGCGGTGCAAGATGTGCTTTGTTAAACAGAT
GCTTGAAGGCAGCATGCTCGTTAAGAGTCATCACCACTCCCTAATCTCAAGTACCCAGGGACACAAACACTGCGGAAGGCCGCAGGGTCCTCTGCCTAGG
AAAACCAGAGACCCTTGTTCACTTGTTTATCTGCTGACCTTCCCTCCACTATTGTCCTATGACCCTGCCAAATCCCCCTCTGTGAGAAACACCCAAGAAT
GATCAATAAATACTGGGAAAAAAAAATTTGGCCAACTCAGAATCCAGAAAGACACCTACTTGGAGCAGTAAAAATATTATTGGTCGTTTTCTGCCCTCCA
CCCACCCAAGCCAGGAAATGAAAGTTGCTAAACTAGTTTTGGTAGATTTTTCTTGGAAGCCAAGAGATTGCACATCACTGGATGTAAGCCACAGAAGGGG
TCTGGGGAGAAAGGACTACTGAGATGAACAGCTAGAAAGTACTTCCCGTTATTCAACTATTTCTGGATCTGAGTCCAGCTTCCCATGGACTCTTATCCCT
TGAACCCCAGATCCTGGCTCAGCTCACAGGCTTGTCTGCATGCCAGGTGAATGGATTGCTTATATCTAGCTCCAGAATTAGCCTTATGTACTATGACATG
ATAGAAGGGTGAAATCCCCTACCTATTCCCTCCCCATTCTCCCATCCAGGCTCAGTCACCTTTCCCGGTTGCCTTGATCCAAGGCCTGATATGGGATATC
CARGAAGAGTCGACGGTCACAGAGAAGGCCGTGCCAATGGGCAGAGGTCTGGGAGGTAAGGCGGAAGTGAAAGTCTAACTGTACTGGGTCCTGGTGGAGC
AGGGGGTCAGTAGCCAGCACCGTCAAGTTCCCAGCCTGGAAAAGGAGTAAAAATGCTCCTCTAGTCTTCAAATCAGACCTCAGGCAGATTGGGGTGTGTC
CGTTGAAGCAAGGTGGGCATTGATGGGGAGAGCCTGGGAGAATTGGAGCCAAGATCTTAAAGATGCAATAATATCCCTTAGTCCCAGGAACTAATAGCCT
ATGCCTATTGTGGAGTTCTCCTTTATATCAAACAATCCAGCTGAGGCAGTATTACTGCCTGTTGACTTCAACCCAGGAGTACAATAACCATTTAGGAACT
TAGAAATGTTTACATCAGAGAGCTTAGGATTTAAACAAAGCTTTATAATGTGCTTCCTTTCTCACTAATAATTTCCACTTTTTTCATTATATGGGTTTTC
TCTAAATTCTTCTATTTAAAATGCCATGGTTACAACCAGGCTTGTTATTGCAATATGATATGTGGGCAAGTTCTGGATTCCAGATCCTGCTTAGCATCTT
TAAGCAGGATCTTGGCATAAACAGCTTTATGTCCCAGAAGTCCTACAGAGTTTGTTTTACCTTTGTCCCCACTCCCTCTTTTCCCAATCCTGATTTTCAC
TACCATCTGTATGACCTTGATTTTACAGTCTGTGGGCCAGAATGCTTGTCTATATAGCAAGTAGCTTTTACACATGCGTTCCAAGATTCCATCTACCTCT
GTAATTCATCTTCCAACTTGCTAATGTCCCTCCTCTGCAAGGTATGCAAGAAAAGGGTTGCCCTGTCACAGCACTAGCTCACAGTCCACTTACCGAATAC
AGTTCTTTAAGCTGGTCGTGGTTACCCTGCTCGGTGCTTTTGCCCTCCTGGAGGCCTACTAGGGACTCAGGAGCACTGGAGGCAGGAACGGGGCTGGAGT
GTCAAGTCCTCCTCTTCCTTATAAGTGATGCTGGTTGGGAAAGAGACCCAAATTAGTTTATCTTGGAATCTGAGGTGGGAAGATACACAGTACCAGGCTC
TGGCATGATCTTCTGTATTTTCTGTTGTCCAGCCTGTTTCTATGTTCCTGGGCCCAACCAGATGGAAAAATTCTAAAGTTCCATGCCAGCTTTCCACCCC
CTATTCTGTTGTTATTTCTTGCCATTTGGGAAATTCTTTCAAATTCTTTTACTTTTTCCTTACATTTTATATAAACAACTACAAATAGAGATGAAAACAA
GTACCTTTTATAACAACGAGGCAGCATCTTCTCCCGGAGAGTGATCCGGTACTTGTAACAGTAAAGGTAATAGGCGTATGGTGACCAGATCGGGTAGAGG
TAGTTACGTGTTTTTCCCCTCTTGATATAAGAAAGGGAGTAGACAGAGGGGCGACACCTCTTACAAGGCAGTTTTTCAGTTCAGTGCCTCCCTGTGGCAA
AGTGAAGTTCACAGGTGGGTGGCAGAGGTTTAGGCAACCTGGTGGCATTGTGACCCAGTGGGCACTATGACATGGATAAGGGGTCAGCCCTTATGTCACC
TCAGGACTCCACTCTGCTGCTTATCTACCCTAATCCCTTATCCAAGGCTCATATTCGACTAGTATGCATGTTATGGCTGTATGAATGATTAAAAAATAGA
ACTTGAAGACTTCTGTACTGGTTGGCCAAAAGCCCTGCCTGAGCACTTGTGCCCACCCACCCTGCTCCTCTGTGGACACTCCCCTTCCCCCAAAATCCAG
CAAGTAAAGAGTTGGTATCTGACTCTTCCAAGGCTCTGATCCAGTGGTGACCTGATTAGTTGGTTCCCAGTTCATACCAGTTGAGTATTTTTATTATCAT
CCCTACCCTTAATAACCCAGGATCCTTGTAGGGTAGGAATTGCAAACTAATTGTCTAGGCCCCTTCAGGGGCCTAGACAGCTTATGGAAATTAGTGGAGT
GGCAGGGTAGGGCTGTAGCAAAATAGGAAAGCTCACACGTTATCTAAAGGAAGTCCACACAACTCAATTCCATCCAGTTCCATGCAAGAATGCAGACTTG
ATGGTGCTGTATCGTATGATTTTTGAACAGAAACTGGAAAGACAGTTTTGTAGTAAATCTCACCAATTTTAAAAAATATCGACTACTGGGCCGGGCACGG
TGGCTCACGTCTGTAATCCCAGCGCTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGATGAAACTCTGTC
TGTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCAGGCGCCTGTATTCCCAGCTACACGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGG
CGGAGCTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCAACATAGCGAGACTCCAACTCAAAAAAAAAAAAAATCAACTACTAAAAAATT
GTTGATAAAAAAACAACATTGTAAGCAAAATTTGGTTCTGGGACTGCCACTTTGAGACCTCTGCATA


SNP Information

Context             (SEQ ID NO:15953):
CTAGAAACTGTGGTCTTAAGTTCTAGTATTTTCCTCCTTCCCATTCAATTTTTAAGTAATAAAATCAAACACAAGCTAGCAGTCAGTACTATGCAGTTAT
Y
CCCGTTTACATTATATTATTTTCCATTTCTCTTTAAGAGAAACTTATAGCTGAAAGGATATGAAAATTGTGAACAAAACCATAGTGACAGATCAAGTAGA
Celera SNP ID:            hCV118446
SNP Position Genomic:     7133
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15954):
TTCTGGTAGTTCTCTGAAGAACTTTATTCAGTTCTGTTGATCAGTAAAGCTGTGAGGCCAGATGCAAATTCTGGTCATCTGTATGACAGTGTAGTAGTCT
M
CCCTTCTCCGTGGTTTTGCTTTCACTTACCCATAGTCAATCCTGGTCCAAAAAGATTAAATGGGAAGTTCCATACGTAAACAATTCTTAAGTTTTAAATT
Celera SNP ID:            hCV1834359
SNP Position Genomic:     9959
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,5)      total(A,5|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15955):
GATACTGGAATGAGTTATCTATGCTTTCATGGAGCTAACAATGTGATTTGACTTCTCATCACATCCTATTTGACTCCTGTCATTTTAAATGATAAAGTAA
R
CCTTAGCGATGCATATCAGATAGTTTTTGGCAATTGTTCAATACAAATGTCAGGAAATTTCAAAGTTAGCTTTCACTGAAAACCATTATCTAACCACATT
Celera SNP ID:            hCV118447
SNP Position Genomic:     6890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15956):
GCTGGACTGTACTGCTGCCATCTCGGCTCACTGCAACCTCCCTGCCTGATTCTCCTGCCTCAGCCTGCTGAGTGCCTGGGATTGCAGGCGCGTGCCGCCA
Y
GCCTGACTGGTTTTCGTATTTTGGTGGAGACGGGGTTTCGCTGTGTTGGCCGGGCTGGTCTCCAGCTCCTAACCGCGAGTGATCTGCCAGCCTCGGCCTC
Celera SNP ID:            hCV26672863
SNP Position Genomic:     26568
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15957):
CAGTATAATATGGCTGGGGTCAGGACAGAAGATTCGGTAAGATATTTTGAAGATGGGATGGAGGTAGAATCCACACCAACAGTTGCTGGACAGTTTGAGG
Y
TGCAGATGTTGATCACTGAAAATGATTTATGCAGGTATAAGATTCTGCTCCTAATTGTAGGAGAGAACTTGGTGCCTCTTCCACTCTGAAGCAAAGTTGA
Celera SNP ID:            hCV27975851
SNP Position Genomic:     18033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15958):
CCATTCTCCCATCCAGGCTCAGTCACCTTTCCCGGTTGCCTTGATCCAAGGCCTGATATGGGATATCCAGGAAGAGTCGACGGTCACAGAGAAGGCCGTG
C
CAATGGGCAGAGGTCTGGGAGGTAAGGCGGAAGTGAAAGTCTAACTGTACTGGGTCCTGGTGGAGCAGGGGGTCAGTAGCCAGCACCGTCAAGTTCCCAG
Celera SNP ID:            hCV26672864
SNP Position Genomic:     28434
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:15959):
TATGAGAATAGTGTGGTGAGTTGCCATAGGGACAGGGCTGGGGTTTAATGAAAAGAAGGCATATCTTTTTCATTGTACTCTTCCTTTCCCTGTGGAGCAA
Y
TACTTTTCTTTCTTCCTCCTGCAATTCTGTTTATGAGCCTACCACTTTGTAACTCTCTGCCTTTCTCCTCCTCCCCACATACAGCCTGAAGACTTGACTG
Celera SNP ID:            hCV25645440
SNP Position Genomic:     20167
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,39|T,1)   total(C,73|T,3)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,39|T,1)   total(C,75|T,3)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15960):
AGGGTATAAGCCCCACCCCTATCAGCAGTAACCCCTACAATCTTTTGCCAGGTGACCAGTGGGAAGAGGAAGCTTTGGATGAGTTTGATAGACTCACTCA
Y
TGTGCTGACTGGAAGCCTCTGGTAGCCAAGATCTCTAGCTATGTCCAGACTGGGATCTCAACTTGGCCAAAGATCTACTTATATGATACTAGCAATGGGA
Celera SNP ID:            hCV25645441
SNP Position Genomic:     21026
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,17|T,23)   total(C,21|T,57)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15961):
GATAAACTAGAAAATTTAAAACTAGCACATAAGGATGCCTTACACAGGTCTTTTTTTTAAATTTAGGGATTAGTAACGTCTACCTCTATACTACATGGCA
R
CTATATTTTCTCACAACCACAATTCTCAAAATTTATTTTCTCAGAAAAATCTCAGTATTAGCCAGGCACCGGTGGCTCACACCTATAATCCCAACACTTT
Celera SNP ID:            hCV15887239
SNP Position Genomic:     24068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15962):
CTTTTCTCATTCAGTCTTTCCAGAGTAGGGAGGTTAATTGAAGGCTTGGTTCCTAGTCAGGTCATTGAGTACCAAGAGGTCCATTTTTCTTTTGAGCCTC
R
CTGGCATTGCCTGCTAGAATAGGGCAGTGTCTAACTTTCTCCTTCTTATTTATCTTCAATAGAAGCTGCTTCCATGTCTGGTGATGATAACCTTGAAGAT
Celera SNP ID:            hCV9624471
SNP Position Genomic:     21953
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,12|G,26)   total(A,22|G,54)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,11)      total(G,11|A,7) ;(A,-|G,-)   (G,-|A,-)   Caucasian(A,38|G,46)   African-American(A,17|G,67)   Asians(A,25|G,59)   total(G,172|A,80)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15963):
CCAGCTATTTCTCTGTAACCTTTAGTTAAAATATAAGTAGAAAGGAGACAGGAGGCTCAGGAAATTTTCTAAATTGCTAGTATAATATCTATATGTATAC
M
CACATATACACCCGTGGAGAGAGAGGAAGAGTATACAGTCCTGTTTGAATCATTTGGAGGATTTTTTTGCTGAATAAAGTTCTCAAGAAAATTTTCTAAA
Celera SNP ID:            hCV9624459
SNP Position Genomic:     22935
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15964):
GCGTTCTTTCAGCAAATATTTATTGCTCATCACCTGCCAGGTATTGTGATGGAAGCTAGTGCGGAAGATCCCCCAATGACCAGGATCGCCCGACCCCTGT
Y
CCCAGGGTGAGCCCCTAGCGCGGAGCGGGGACAGGGTGGACCGAGTAGGGCGCAGTGCTGGTCTCGCGAGGCTCCCTGCCCCACGGAGGCAGTAGCAGGA
Celera SNP ID:            hCV60265
SNP Position Genomic:     4949
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:15965):
AACCAAGAGGATATTTGTAGTTTATTATTTACCCCAAACTTTCTGTGTCTGGGTACCCTCTGAGTAGGCCTATAATTCCTGCCTTCACTGTATGCATTTT
M
TGTAAGCTAGCAGACCTATGTGGTGAGAATGCACAGGAGCTTGGAGGTATAAATAGACAGGGTGGGAAAGAGAGAGCTCCTTTCGCCATGTTTTACCAGC
Celera SNP ID:            hCV230480
SNP Position Genomic:     18356
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,8)      total(A,8|C,5) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15966):
CAGAGATGCCCATGTTTGAAAGTATGTAACAAAGAGGGAGCCCATTAATCATTGAAGATAGAAATACTGGCTTAGATATTGGAGAGATTAGAAGGAATGC
Y
TTCTCAGTCTGAGCAGCCAGTATAATATGGCTGGGGTCAGGACAGAAGATTCGGTAAGATATTTTGAAGATGGGATGGAGGTAGAATCCACACCAACAGT
Celera SNP ID:            hCV230481
SNP Position Genomic:     17915
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,8)   caucasian(C,26|T,10)   total(C,52|T,18)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;(C,-|T,-)   JBIC-allele(T,409|C,1094)   total(C,1094|T,409)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15967):
CTGCCTGTCAAGATCTTCCTTGCCAGACAGGAAACTCCATGAAGGCAGCTGCCAAATCTATCTTGACTGTTGTGTCCCGAGGGTCAAGCACACATCAGAA
Y
TCGATATTTATTGGCTTGAATAAATGTCCATTTAGTGCAGTTCATTCATGTAGTATAGGTTTGCGGAAGAAAAGTGAGTTGTATTTTAATGAGATGATTT
Celera SNP ID:            hCV9087854
SNP Position Genomic:     8206
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15968):
ATGATTTTCAACTATACACCATCTAAGAAATAAACCTTAAGGTTCTAGCTACTTTCAACTGTCGCATTGACCAAGAATTTATACAGTTGTCCCTCCCTTC
R
TTATTTGCAGGGGATTGGTTCCAGGAACCCTGCAGAACCCAAATCCATAGATGCTCATGTCCCTTGTATAAGATGCATATTATTTGTATATAACCTACAC
Celera SNP ID:            hCV9087855
SNP Position Genomic:     8400
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15969):
GTAACTGTATCTGAGGAAGATGCTCCAGTCACCCGCTTACGCCACAACGGACCCGGTGCGGGAGCGTTTGTGTTTGCCCTGAGTCAGTTCAGACTCTTCC
R
CTGGGCCTTTTTGAGACTGAGAGCTGCCATCCGTATATCACTTTGCCTTTAACTTTCCCCAGCTTTTTCTTTAGTTATCGCTAATAGGATGGCTGTTTAC
Celera SNP ID:            hCV1834343
SNP Position Genomic:     6428
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15970):
TAGCATCTAGCACATAGTACTTACTCCAGCTCTTGTGTTGAGAATAAACTGAATGGACAATGGCAAAGGCAGGAACGTAATTAAGCAATGCAGTAATCTA
R
GGAAAAGATAATGGTGTTTTAGAGCAGGGTCATAGAACTGCAAAGAGAAAAAGTGGTCAGATTCTGGATGATTTGAAGGTAGAGCAAATAAGATTTGTTG
Celera SNP ID:            hCV1834361
SNP Position Genomic:     11130
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15971):
AGGAACGTAATTAAGCAATGCAGTAATCTAGGGAAAAGATAATGGTGTTTTAGAGCAGGGTCATAGAACTGCAAAGAGAAAAAGTGGTCAGATTCTGGAT
R
ATTTGAAGGTAGAGCAAATAAGATTTGTTGACAGGCTAGGTGTGCAGTGTGAGAGAGAGGATGACTAAGGGAGTAAGAGAATGCAGTCGAGGCAGAGCAC
Celera SNP ID:            hCV1834362
SNP Position Genomic:     11200
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15972):
CCATAGGGTGGTGAGCTGTTGGCAGTTGTCAGGGGGATTTGGAAGGGAACCTGTTTACAGAGAGCAGATGGTTATCGTCTCATGTTAGTTGGTTCTTTCT
K
AAAGCAGCAATGTAAGAAGATGTTTTTGGCCCCAGGATTCTAATTTTAGTTTCTTTTACTTCAGGAGTGACTTCCTAAGCCTTCCATTTCAAGCAATAGA
Celera SNP ID:            hCV1834363
SNP Position Genomic:     20571
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,1)   caucasian(G,5|T,7)   total(G,8|T,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,5)      total(G,5|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15973):
ATGCCACTTTTCCTTGTTGTTATGGTTGAGATCCTCACTTTATCTCTTGGATCAGTGTCTCTTTGACAGCCAGATTCTGGGGAGGACTGGTAGTTATACT
R
GCTTTGGGTGTTATCTAAGTCTGATCTGATGAACAATGATCTGTGCAGAAGAGCGGCTGACATTTGTTGGGGAAGATGACATTGAGATAGAGATGCGGGT
Celera SNP ID:            hCV1834348
SNP Position Genomic:     14886
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,10)   caucasian(A,27|G,13)   total(A,55|G,23)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15974):
AGATCTACTTATATGATACTAGCAATGGGAAGGTAAGACTGGCATTCACTCACTGCTTGCCATATCTTCAGTATATTTATAGCCTAATTTACTTTTTCTT
Y
CTCAGAAACCCTTATCTGATATTACTCTTACTGTAAGATCCTTCTCACCATCTCACCAAAGGAATGTCTTTAAAGTATCAGTCCTTCTGCCTTGTTTCCT
Celera SNP ID:            hCV1834364
SNP Position Genomic:     21197
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,29)   caucasian(C,16|T,12)   total(C,25|T,41)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,28)   caucasian(C,20|T,20)   total(C,28|T,48)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;SC_12_T(C,3|T,18)   SC_12_C(C,4|T,16)   SC_12_TT(C,5|T,15)   total(C,12|T,49)   JBIC-allele(C,418|T,865)   total(C,418|T,865) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15975):
AACAGTTCTGGTGAGTAGTTCAGGTACTCTTGGAGGAATCTTTAAGGAGCTTCCATTTATTTGATGTTTCAGATGTTGCCTGCAATGAACTCGCTGAAGC
R
TGCTCAGCCCTGGAACTGGTGCTACCAGAGTTCCGTAGGGAACCTTTACTCTTTAGAGGTTCCCTGATATAAATCATTCATAAGACTTCCTACCCTGGAA
Celera SNP ID:            hCV27501688
SNP Position Genomic:     24572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:15976):
TTCAGTATATTTATAGCCTAATTTACTTTTTCTTCCTCAGAAACCCTTATCTGATATTACTCTTACTGTAAGATCCTTCTCACCATCTCACCAAAGGAAT
R
TCTTTAAAGTATCAGTCCTTCTGCCTTGTTTCCTCAAATTTGCCCTTGCTTACTGAGAGAACATCATTCCCTTTTCATTTTTCTTCTCAGAAACTTGATA
Celera SNP ID:            hCV1834365
SNP Position Genomic:     21263
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,10|G,26)   total(A,20|G,54)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,12|G,28)   total(A,22|G,56)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   JBIG-allele(A,398|G,1081)   total(G,1081|A,398) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15977):
TAGTCTGGCTTGCTGTGGACCAAATTAATATTCTCCTCCCATCAGACTACAAAAAAATTGGACTACCACGCTACAAGTGTGTCTCCCCCATTCCACCTCC
K
GATCCCTCCCCAACCCTCCAGTGTTTGAATACTGCTGTGTTACTTCCAGGCCGTTCAACGTCAGGCTCAGTCCCCTCTACCAGTCATGATTCACATTACT
Celera SNP ID:            hCV1834366
SNP Position Genomic:     22472
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,8)      total(G,8|T,3) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15978):
TGACTCTGGTTAAGGAAAGCTTTTGAGTGGTGAACTCAAAGACTCCAGTTGAATCAGGAGGCAAAGGCAAAAATTAGCATAATTATATTTAAAAGCCTCA
R
GAAGTGGGAAGAGAATACTGCCTCCCAGCCTCAATTGCTGATATGTTATTGGAGACAGGCTTTTGAAACTGCTCCAGCTATTTCTCTGTAACCTTTAGTT
Celera SNP ID:            hCV1834367
SNP Position Genomic:     22761
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:15979):
GTATCATCGTGGGGGTTGGCTGGAGACCCCTATTTCAAAGACTGACTTTTAGACCCTTTCCTTGTTTTGAGAGAAAGGGGTTGACACTTTTTTTTTTCTC
S
TGAATTTAAAATAAACGTACCAAGGATGAGAACATTGAGCTGCTTCGATTCAAGCATGTCACCATGTTGTAGGTTCTTTGTAGGTTCTGGTTATTAGGAG
Celera SNP ID:            hCV26672854
SNP Position Genomic:     6690
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15980):
ACTGTCCATGTAAAGATTGCTGTCCATATACCTTTTTACTGATCCATGCTGTAGCTAGCATATGGAGGTTTACCTTCTGTATAATTGGTGACCGATTTGA
M
TATGTAGCACATGACAAAGAATGTAAGCTGTTATTACTCAGTTACATGGAAAGGTACAAAGGATAGCTTAGTATCTTTCTTTAGGATATTCTTGTTTGAT
Celera SNP ID:            hCV11260525
SNP Position Genomic:     19685
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,10)   total(A,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15981):
TTTTTAAACCCCTTGAGACAAATTCTCGCTCTGTTGCCCAGGGTGGAGTGCAGTGGTGTCATCAGTTTACTGCAGCTTCCACCTCCTGGGCTCAAGCCAT
Y
TCCCACCTCGGCCTCCTGAGTAGCTGGAACTACAGGTGTGCAACACCACGCCTAGCTAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGTAGAAACAG
Celera SNP ID:            hCV26672855
SNP Position Genomic:     8623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15982):
AAGCAGTCCTCCTACCTTAGCCTCTCAAAGTGCTGGGATTAACAGGCATGAGCCACTGTGCCCAGCCTGTTTTGGTGTTTATGTTTCCTAGACTATGAAT
R
TTTCCAAGTAGAAATTCTTCTTCCTCCTTCTGTCCCCAACGTGCTCAGCACACAAGAAAGAGCTAGCACTATTTAACCAAGATGCATTAATAATGGAAAC
Celera SNP ID:            hCV26672856
SNP Position Genomic:     8867
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15983):
CTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCCACCACGCCCAGCGAATTTTTGGTATTTTTAGTGGAG
M
CGAGGTTTCGTCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCA
Celera SNP ID:            hCV11260526
SNP Position Genomic:     15374
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15984):
CAGGCTTTTGAAACTGCTCCAGCTATTTCTCTGTAACCTTTAGTTAAAATATAAGTAGAAAGGAGACAGGAGGCTCAGGAAATTTTCTAAATTGCTAGTA
W
AATATCTATATGTATACACACATATACACCCGTGGAGAGAGAGGAAGAGTATACAGTCCTGTTTGAATCATTTGGAGGATTTTTTTGCTGAATAAAGTTC
Celera SNP ID:            hCV9624460
SNP Position Genomic:     22917
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15985):
AAGCCAGCTTGCTTTGTTCTACTAGATTGTAATATCTGGAAATACAGATATTTAGTTTTCAGTTTTTTATCACCTATCTTTAGTTTTTTAGTCTTCAGTG
Y
TTTTTTAACCACCTACAGTACTTTCTACCAGTATTAATTTTGAATTGAATATGTTGATCAAAATAAAGAATAAAAATACAGGTGCTGTTACCCTAAGAGC
Celera SNP ID:            hCV26672857
SNP Position Genomic:     10686
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:15986):
GGTGATTGTCAGCATGGTATAACTTGAATTATCCTTTTTTTTTTTTTTTTTGAGACAGAGTCTGGCTCTGTCACCCAGGCTGGAATGCAGTGGCATGATC
Y
TGGCTCACTGCAAGCTCCGCCTCCCATGTTCACATCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCCGCCACCACTCCCAGCTAAT
Celera SNP ID:            hCV26672858
SNP Position Genomic:     15720
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15987):
TATGTTATTGGAGACAGGCTTTTGAAACTGCTCCAGCTATTTCTCTGTAACCTTTAGTTAAAATATAAGTAGAAAGGAGACAGGAGGCTCAGGAAATTTT
Y
TAAATTGCTAGTATAATATCTATATGTATACACACATATACACCCGTGGAGAGAGAGGAAGAGTATACAGTCCTGTTTGAATCATTTGGAGGATTTTTTT
Celera SNP ID:            hCV9624461
SNP Position Genomic:     22903
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15988):
AGCCTGTCCACCATTCAGAAAATAGCCCTGGGCCTTGGGATCCCAGCCAGTGCAACAGTTGCCTATATCCTATACCGCAGGTATAGGGAAAGCAGAGGTA
S
GTGAACCCTATGACTGTGTGTGTGAAAATGTTCAGACATGCTCCTGCCTTGTTAAATTGAAAAAAACTCTTTCCTTGCCAGGTATTGTGTGTGTTTTGTT
Celera SNP ID:            hCV25645434
SNP Position Genomic:     13627
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,38)   total(C,75|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:15989):
CCCAGGAGGCTGTGAAACTCATCATTGGCCGGCAAGGAGCCAATATTAAACAGGTAAGTGTGTGAGTAGGCAGTCTGCTTTCCCAAGGATTGATTCTGTT
Y
ATTGATTTCTTGTTTCCTTCCACTGACCCCATATCACAAAACATTCACATGCTCTGTGTGTGTGTGTATGTGTGTGTGTATATATAAAATATATATATAT
Celera SNP ID:            hCV25645435
SNP Position Genomic:     15089
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,36)   total(C,1|T,73)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:15990):
ATTGCCTTTTTCATTACTGTTTTTAAAAATCATCACTATTGAAAAGGCTGTGAGCTTTCTCTTCTGTACATAGGTTTTGGCGTGGGCAAAGAGGACCTGG
R
TTCCCAAGAAGCTCACAGACTTGTCCAGGGTCATGTAAAGAGTCAGTGGTAGAATGGGATCTGGAACAGGTCCATGTCCGTCACTGTCCATGTAAAGATT
Celera SNP ID:            hCV27954272
SNP Position Genomic:     19502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15991):
GACATGACAGAGCCAGGTGGAGCTGGAGAGCCAGCATTATGGAAAAACACCAGTTCTAGCATGGAGCCGACTGCACCCCTGGTGACTCCTCCACCCAAAG
S
AGGAGGCGACATGGCTGTGGTAGTGTCAAAGGAAGGTTCCTGGGAGAAACCTAGTGATGACAGCTTTCAGAAGTCTGAAGCCCAGGCCATCCCAGAGATG
Celera SNP ID:            hCV25645436
SNP Position Genomic:     17722
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,2|G,36)   total(C,2|G,74)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:15992):
ATACCCCAGTGTCTGAGCAGCTTTCAGTTCCCCAGAGATCTGTGGGCAGAATCATAGGTACCACTGGATGGCTTCCTCTATTGTTTCCTTTATTCTTTAC
Y
TTTGCCCCTCTTTCACACCTTCCCAGGGTTTTTTCTGGCCTAGTTCCCCTTCACCATGTGAGGGGAAAAAAAGGGACATTGAGACCAGAGGTTTACTGTT
Celera SNP ID:            hCV9088175
SNP Position Genomic:     16613
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:15993):
AATTCTCAGCCAGATTTTATATTGCCTTTTTCATTACTGTTTTTAAAAATCATCACTATTGAAAAGGCTGTGAGCTTTCTCTTCTGTACATAGGTTTTGG
Y
GTGGGCAAAGAGGACCTGGATTCCCAAGAAGCTCACAGACTTGTCCAGGGTCATGTAAAGAGTCAGTGGTAGAATGGGATCTGGAACAGGTCCATGTCCG
Celera SNP ID:            hCV230475
SNP Position Genomic:     19482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15994):
AGTCTTCCTCTGTCTCCCAGGCTGGAGTGCAATGGTGCATTCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCGAGTGATTCTCATGCCTCAGCCTCCC
R
AGTAGATGAGACCACAGGTGCACACCACCACATCCGACTGATTTTTGTATTTTTTAGTAGAGATGGGGTTTCACCATGTTGGACAGGCTGGACTCGAACT
Celera SNP ID:            hCV230476
SNP Position Genomic:     19182
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15995):
CAAATTCATTTGTAATGTTTGAAGAGGAGTTAGTGAAATTTACCTTTTGCTTCAAATAGAAGTCGGCCAAAACCGCACCTATAATCTCAGCTACGCCGGA
Y
GACTGCGGGAGTTCAAGGCTGCAGTGAGCTATTATCATTCACTGCATTCCATCCTGGGTGACAGACCAAGGCTCTGTCTCTAAATAAACAACAACAAACT
Celera SNP ID:            hCV27997578
SNP Position Genomic:     7374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15996):
TGTTATAACCTCTTAGGTTATATTCTTTAATTTCCAACCTTTTAGGTTAGTTTCTGTAACAGAACAAATGAGTCTGGGATAAAGTCCTCAAAGTACTTCA
R
ATGGTAATTGTTTTGTTTTTGTAACGGCTTAACAAATAACCTAGGTTTTCTGTTTAAAAAAAAAAGAAATACTGGCTTAGGGCATGGTGGCGCAACCTGT
Celera SNP ID:            hCV230478
SNP Position Genomic:     18563
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:15997):
CATGTAAAGAGTCAGTGGTAGAATGGGATCTGGAACAGGTCCATGTCCGTCACTGTCCATGTAAAGATTGCTGTCCATATACCTTTTTACTGATCCATGC
Y
GTAGCTAGCATATGGAGGTTTACCTTCTGTATAATTGGTGACCGATTTGACTATGTAGCACATGACAAAGAATGTAAGCTGTTATTACTCAGTTACATGG
Celera SNP ID:            hCV29196223
SNP Position Genomic:     19634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:15998):
CACTGTATGCATTTTATGTAAGCTAGCAGACCTATGTGGTGAGAATGCACAGGAGCTTGGAGGTATAAATAGACAGGGTGGGAAAGAGAGAGCTCCTTTC
R
CCATGTTTTACCAGCCCGCTCTGTTATAACCTCTTAGGTTATATTCTTTAATTTCCAACCTTTTAGGTTAGTTTCTGTAACAGAACAAATGAGTCTGGGA
Celera SNP ID:            hCV230479
SNP Position Genomic:     18441
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:15999):
GCCTTTAAGTCTTACCTGTTTACAGCCCATTCTGATGGGTTCTTTGTCATTCTGTTAGTATAACCCAGTACTTTTCCTGCTGCCTGGAATGCCCTCTTCT
R
TGTTACCTATTCTGTCCGTTGAGATCCCCCAACTTGGGCCAAAGCCAAGAGATCTATGTGCCTTCTCTGGTTTTCTCCACATCTATAGCACCTCAACTGA
Celera SNP ID:            hCV27487036
SNP Position Genomic:     24838
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(G,113|A,944)   total(G,113|A,944)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:16000):
TGGCCATCAAAACAGACTTATTTCTATTGCACACTGTATTGTGTAGAAATGACTAATGAGCTGTGTGATCTTAGATCAATCCTTTTCTATCCCTTAGCCG
Y
AGTTTCCCAAATTGCAACGTTATTAATGGAATCAAATAAGTTCTGTAGTCCCTTCTAGTTATAAAATCTTGTGATTTCTATGCCCCATAAGCATCAATTA
Celera SNP ID:            hCV118442
SNP Position Genomic:     7902
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16001):
ATCATGAGGTCAGCAGTTCGAGACCATCCTGGCCAATATGGTGAAACCCTGTCTCTACTAAAAATACATAAATTAGCTGGGCATGGTGGCAGGTGCCTGT
M
GTCCCAGCTACTCATTAGGCTGAGGCAGAAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCA
Celera SNP ID:            hCV1834356
SNP Position Genomic:     9165
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,9)   total(A,3|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16002):
ATCTTGATAGTGTCAGAACTGGAAAACAAAAGTGCTGCTAGTCCTTTGGGCCTCTGTAAAGAGGTGTGATTATGACTGGCCATCAAAACAGACTTATTTC
Y
ATTGCACACTGTATTGTGTAGAAATGACTAATGAGCTGTGTGATCTTAGATCAATCCTTTTCTATCCCTTAGCCGCAGTTTCCCAAATTGCAACGTTATT
Celera SNP ID:            hCV118443
SNP Position Genomic:     7826
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16003):
GCTGAAATGGGAGAATCACATGAGCCCAGGAAGTCGAGGCTACAGTGAGCTGGGATTGCACCGTTGCACTCCAGCCTGGGTGACAGTGAGATCCTGTCTC
A
AAAAAAAAAAAAAAAAATTAACTATTTTTTTAAAAAGAAATACTGGCTTAGATTACCCAAAATAGGAAGCAATAAAAAGTCTTTTTTCATGAATACACTT
Celera SNP ID:            hCV26672860
SNP Position Genomic:     18783
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16004):
ACCTGTAATCTCAGCACTTTGGAAGGCTGAGGTTGGTGGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAACCCTTTCTCTACA
R
AAAATACAAAAATTAGCCGGGCATGGTGGCATGCACCTGTAGTCTCAGCTACTGGGAGGCTGAGAGATGGGAGGATTGCTTGAGTCCAGAGGTTGTGGCT
Celera SNP ID:            hCV9087885
SNP Position Genomic:     11411
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16005):
GATATACTGAATTCACTGAGTAACTAATGACCCAAAATAGACGACACCCTTGAAAAGAGGTACCCATCCCCCACCTCGGGTAGTAAAAGGCCGTTTTATT
W
TTTGCTCAGGCTTTTGAGTCCGGGCAAGAAGGTGGATTAAATTTGTTTAAAACCAGGATATAGAAAAAATAGATTTGGCAAACTTCTGGTAGTTCTCTGA
Celera SNP ID:            hCV1834357
SNP Position Genomic:     9775
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16006):
TCGGTCCCAGCTGCTGGAGCGCAGATTTTCCTCCAAGGGTTAGAAGATAGAAAACTCCTCGGTAATTGGCCTAGAGGTGGTCTGCGAGGACGCCGGGAAG
Y
TTGTAATTGGCTGTTTAATTCTCAGCAGGTGCGGTCTCAGTTAACAACATCTGCTTTTCCTGGATCTTATTGGCTGACAGGGTGGGCCTGCTTTGGATTC
Celera SNP ID:            hCV11260530
SNP Position Genomic:     5752
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:16007):
AGAAGGGTGAAATCCCCTACCTATTCCCTCCCCATTCTCCCATCCAGGCTCAGTCACCTTTCCCGGTTGCCTTGATCCAAGGCCTGATATGGGATATCCA
R
GAAGAGTCGACGGTCACAGAGAAGGCCGTGCCAATGGGCAGAGGTCTGGGAGGTAAGGCGGAAGTGAAAGTCTAACTGTACTGGGTCCTGGTGGAGCAGG
Celera SNP ID:            hCV15887232
SNP Position Genomic:     28403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16008):
TCCGGGCAAGAAGGTGGATTAAATTTGTTTAAAACCAGGATATAGAAAAAATAGATTTGGCAAACTTCTGGTAGTTCTCTGAAGAACTTTATTCAGTTCT
R
TTGATCAGTAAAGCTGTGAGGCCAGATGCAAATTCTGGTCATCTGTATGACAGTGTAGTAGTCTACCCTTCTCCGTGGTTTTGCTTTCACTTACCCATAG
Celera SNP ID:            hCV1834358
SNP Position Genomic:     9894
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16009):
AAATCAAACACAAGCTAGCAGTCAGTACTATGCAGTTATCCCCGTTTACATTATATTATTTTCCATTTCTCTTTAAGAGAAACTTATAGCTGAAAGGATA
Y
GAAAATTGTGAACAAAACCATAGTGACAGATCAAGTAGAGTCTCATTTTTTGAGACATCAGCTGATAACTCAATTAGCACAAATTCATTTGTAATGTTTG
Celera SNP ID:            hCV118445
SNP Position Genomic:     7194
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16010):
CGCTCCCTTCCTCGCCCCCACAGAAACGCCCCCCGCCACCACCCCCTCCCCCGGCGTAGGCCTTCACGCTGTCGCCTCGACCCGTTTCCTCGAATCCCCA
R
GGAAGGGTGGGCCCCTGGCGCCCCTATGGCCCGCCGCCCCCTTACCACCGCGGTCGGAGCCCGGGTCTCACTCTCCTGCCGCTGTTTCGGGCCACACCGT
Celera SNP ID:            hCV11260531
SNP Position Genomic:     5231
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Gene Number:                 34
Celera Gene:                 hCG16944 - 64000127233979
Gene Symbol:                 TCFL4
Protein Name:                transcription factor-like 4;MAD7;MLX;MXD7
Celera Genomic Axis:         GA_x5YUV32VU68(4240202..4258310)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12194):
GAGTGTAGTGGTGCGATCTCGGCTCACTGCAAGCTCTTCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTCT
GCCACCATGCCCGGCTAATTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCC
GCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTCAGCCACCGCGCCCGGCCGGGAGTTTCGCTCTTGTTGCCCAGGTTGGAGTGCAATGGCACAATCT
TGGCTCACCGCGACCTCCGCCCACGGGTTCAGGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGCCATGCGCCACCACGCTCGTCTAATT
TTGTATTTTTAGTAGAGACAAGGTTTCTCCATATTGGTCAGGTTGGTCTCGAACTCCCGACCTCAGATGCTCTGCCCACCTCGGCATCCCAAAGTGCTGG
GATTACAGGCGTGAGCCACCGCGCCCAATCAGCCTTTGCCTTTTTCTCCTGTCCACAGAGACCCCGCAAACAAGCGCATCAGAGGATCTGGGTGGTGCGA
GAGCCTCCTACAGCAGCCAGGTACACACAAGGCCTCAGTTTTTCCATCTGTGAAATGGGTACGTGGACAGACCTGTCCAGTAGCCTCCCATGTGAGAATC
CTCGGACTGAGAGGGTACTAGGAGGGCTAATACAGCGCAGCCCTGTGATTCCCCACCTCTGTCCCTGGAATGAAGGAAATCTGGGTGTTAGTTCTGGCTT
TGCCGATGCCTCTTGGGTGGCCTGGCTGAAACTAATCTCTCCTCATCAGGCCAGAAGGGAATCTGTGAAATGGGCTTTGAAACCTGCCTTGCCTTTCTCC
GCCCGGTCCCAGCGGGGGTCCGATCGGCATCAAGGATTCACCCACTCCCAGAGCCTTCGGGATCAGCCCCACCCCATCAGCAGGACACAGCCCATGCCAC
TGGAAATCTCGCGAGAATCCCGCGCTGAAGCGAAGTCGAGACGTTTGACCTTCCTCCGTTTCCGTAGTTCCGAGTTGCGGTTTCTCCGTTAGTGCTTCCG
RGTTGCAGCCAGGGAAGCCTCCGCGGTGGTGCAAGTGGAACCCAAGCCTTGAGGTTTCAGTGAGTAGGGGGCCGACGTGAGCTTTAGCGTCCCCCTTTAG
CCTCCCTCTTCGATTCCTTGAAGACCCTGGTGCAGCTTAGCAAGAGGGCCCAGGATTTTTGGATCCCCAGCCCTGTGACAAGGGTTCCTGTCCAGTTTCC
CCCTCCCAGGATTTCGACTCAGTTCAGCGAAGTCACCGCCCCGTCTGAGAAATGAGGACACCAAGGCTTAGAGCACAGCCCCGAGGCGCCGTCTACCAGG
CCCCGTCCCCTCCCCCGGCTCCTGTCGGTCAGCACTGAAACCCCGTCCCTGCTCCAGGCCTCCTTCTCTGKGGTCCAAGGTCCCATACAGGCCTCTGCCT
CGGCCGCAGGCCCTTCAGTCACCGTCGCCTCGTCTCCCTGACTGTCCGCAGGCCTGGGCAGCATGGCCGTATTCCGGTCGGGTCTCYTGGTGCTGAMGAC
GCCGCTGGCCTCCCTAGCCCCTCGCCTGGCCTCCATCCTGACCTCGGCGGCCCGGCTGGTGAATCACACACTCTATGTTCACCTGCAGCCGGGCATGAGC
CTGGAGGGCCCGGCTCAGCCCCAGTMCAGCCCCGTGCAGGCCACGTTTGAGGTTCTTGATTTCATCACGCACMTCTATGCTGGCGCCGACGTCCACAGGC
ACTTGGACGTCAGAATCCTACTGACCAATATCCGAACCAAGAGCACCTTTCTCCCTCCCCTGCCCACCTCAGTCCAGAATCTCGCCCACCCGCCAGAAGT
CGTGTTGACAGATTTCCAGACCCTGGATGGAAGCCAGTACAACCCGGTCAAACAGCAGCTAGTGCGTTACGCCACCAGCTGTTACAGCTGTTGTCCGCGA
CTGGCCTCGGTGCTGCTATACTCCGATTATGGGATAGGAGAAGTGCCCGTGGAGCCCCTGGATGTCCCCTTACCCTCCACGATCAGGCCAGCTTCCCCCG
TGGCCGGGTCTCCAAAGCAGCCGGTGCGTGGCTACTACCGTGGCGCTGTCGGTGGCACGTTTGACCGCCTGCACAACGCCCACAAGGTGTTGCTCAGTGT
CGCGTGCATCCTGGCCCAGGAGCAGCTTGTGGTGGGAGTAGCAGACAAAGATCTGTTGAAGAGTGAGTAAGAGGGACCCTGGACTAGGGTGGAGGATCCC
CAAATCTCCCCACCCCCGACCCTTATGCCGAGATCAAGGAAGGGTAGGGCCATTCATTACTTCCCACCCTTCCCAAATGTCACAGTGGTTGACACTCAAT
TGGTGCTAAGGCCATTTTGTCAAATGAACAGCTTTCTCAGCATGTGGTCCAGTCACCACTCAATCAGAATACCCCAAATGTGAAGCAAAGGTATCTGCAT
TTTAGCAAGTTTTCCAGGTGATACACCCTAATGAGACACTGGGAATGAATGGGTGAGTGAGCTGCAGGTAGCAGTGCCACAGACAGGAGGAGGAAACTCA
AGCATGGCATGGGTCTTGGAATTTTCCATCTGCCTCTGATGCCCTCTGGCACTGCTCGTTCTCTGGAGTGGTTTCCTGGTGGCTTATTCTCTGGACACAT
GCCAGCCCTTGGAGTGACTATTGTGCTTGCCTGTTTCTTCACCTTCATGCTCCCCTCACCATCACCATAGGCCTTACCAGTTGAACCCTTTCTGCCACCC
CCTCTGGGGATACTGTACTTAGGGACACTTTTTCCCAAACTGGCCCATACTCTCCTCCCCAATAAAAAGATCTCACTGTTCTTCTGGGCTCCTTCCCCAG
GCAAGTTGCTCCCTGAGCTGCTCCAACCTTATACAGAACGTGTGGAACATCTGAGTGAATTCCTGGTGGACATCAAGCCCTCCTTGACTTTTGATGTCAT
CCCCCTGCTGGACCCCTATGGGCCCGCTGGCTCTGACCCCTCCCTGGAGTTCCTGGTGGTCAGCGAGGAGACCTATCGTGGGGGGATGGCCATCAACCGC
TTCCGCCTTGAGAATGTAACCCCTGAGGGAGACTGGCAGAGGGAGTGGATGGGGGACGGGGAAGGCCATTTTGAGGGGGCTGTTGGAAGTACCATGGCCC
CAGAGGAGAGAAGTGGGGGCTCAGGGTGGTGGGAAGAAGCAAGGAGGAACTGGTTCTCAGTTTGCCCGCTGAGTCGGAGGAGGAGGAGCCTGGGTAGGAA
GGGGAGGATGGGGGGGCAGGTTGGATGTCAGGGTCTTCCTCTCACTCCCTCCTTCCCTCTTTTTACCCTTTCCTCTTTACCCCAGGACCTGGAGGAACTT
GCTTTGTACCAGATCCAGCTGCTGAAGGACCTCAGACATACRGAGAATGAAGAGGACAAAGTCAGCTCCTCCAGCTTCCGCCAGCGAATGTTGGGGAACC
TGCTTCGGCCTCCATATGTAAGCTCCTCTCCCTCCTTCCCTCCTGCTTGGTGTCCTGGCAATGCTGGAGAGTAGAAGCTGAGGGGCTCAGCCCCAGGCAT
GAGGCTGAGGGCCCCAGTAACTGTGGGTTCCCTTTCACCTATCCCCAGGAAAGGCCAGAGCTCCCCACATGTCTCTATGTAATTGGGCTGACTGGCATCA
GTGGCTCTGGGAAGAGCTCAATAGCTCAGCGACTGAAGGGCCTGGGGGCGTTTGTCATTGACAGTGACCACCTGGGTCATCGGGCCTATGCCCCAGGTGG
CCCTGCCTACCAGCCTGTGGTGGAGGCCTTTGGAACAGGTAATAACTGGGGAAGGCTGAAAGTGGCCTGGAGTGAGGAGCTAGCCAGGCCTCTGTGCTCA
GTTGTCTGTCTGTGTTGTCCAGATATTCTCCATAAAGATGGCATCATCAACAGGAAGGTCCTAGGCAGCCGGGTGTTTGGGAATAAGGTAAACAATAACT
TCCTAAGGGCTCCTAAGCCGCTACTAGACCCAGGGGTCAGGGTCCAGTGGACCTCTCTGGTCTGGCCCAGAATGCCATTTCCATTGATCTGTTCCCAACA
CCACCTTGCTCGGGCTGGCTGCCTCTTCTAGAGAAGGTAACCTCTGCCCTCTGTTCCCCTCCCCAGAAGCAGCTGAAGATACTCACGGACATTATGTGGC
CAATTATCGCAAAGCTGGCCCGAGAGGAGATGGATCGGGCTGTGGCTGAGGGTGAGTGGGAGGGAGGATGGCAACAGCTAAGGGGACAGTTAAGCTGTTT
CTTCCCCTGGGAGCTTCCCTGCCCAACGTGGGACTGTCTGTTCACCCTGGGACTGTGTTCTGCCTGGGAGAACGTCGGCACTGCTGGCGGTGACTGGGGT
CTYCCCACAGGAAAGCGTGTGTGTGTGATTGATGCCGCTGTGTTGCTTGAAGCCGGCTGGCAGAACCTGGTCCATGAGGTGTGGACTGCTGTCATCCCAG
AGACTGAGGTATCTCGCCCCACCCCCCACACCATCCCTACTGCAGATCCTATCCTGTGAGCTGGAATTCTTCCTGACAAATGTCTCGTCTGTGSTCAGGC
TGTAAGACGCATTGTGGAGAGGGATGGCCTCAGTGAAGCCGCGGCTCAAAGCCGGCTGCAGAGCCAGATGAGCGGGCAGCAGCTTGTGGAACAGAGCCAC
GTGGTGCTCAGCACCTTGTGGGAGCCGCATATCACCCAACGCCAGGTTGGTGCCCAGGGCAAGGCCGGGTTGTGGGGAAGGAGTCTCCAGTGGGTACTGC
CTGACCCTGCCCTCTCTTCCTCCCAACATCCTGGCCTGTCTGAAGGTGGAGAAAGCCTGGGCCCTCTTGCAGAAGCGCATTCCCAAGACTCATCAGGCCC
TCGACTGAAAAGTTCTCAGTGGGGCCAGACTGGCTCCTGGAGCTGACAAGCGACCCCGTGGTGAGGAGAAATGGGGGCCTTGATGCTCACCCTGGTTCAG
GCCCAGAGGTCCAAGCTATACTGTGCAGGACATGGCCAGGCCTGGTGGACACAGGAAGCCTACCCAACACGCTGGTATTTGGCCAACACTGAGGATGTGG
TTCATGGGGGAGCAGTCCCCTCCCCACTCTTGCCCATGGGTGACTCTTACCCACAGCTGACTAGGGCCAGCGCAAATACTGGAACCTGTAACAGAATTAA
AGGTGAATGTTCTGAGATGTTGCTTGTATGGTGTCTGCTTCCTGTTCCAATGCCCCTAAGTATCTTTGGGATCCTTAAGCCACAAGTGCAGGGCCCAGGC
CTGAGCTGGAAGCCTGGGCAATGCAGTGGTTAAGAGAATGGCCTTTGAGGCTAGCCAGAGGCGAGCTTTGGCCCTCCCACTGACCAGCTGTGTTCTTCTG
AGTAAGGTGTAGACTTTCTAGGTACTGCCGTGTTTTATTGTTTTTGTTTTGTTTTTAATATGAGAGGCCGCATAACCTAGCTAGCAGGTTCTTTGCAAGG
GTTCATTCCACATGCATCCTGCCAGACACTGGGCTGGGTGTTGGAAGATCAGCCTTCCGCGCGCCAGGCGGGGCCTCTGCCCTCACAGAGCTTGCAGCCT
GGTGGGGTCGGACGATGTGGCTGGGGGCTTCTCTGCCCGGTTCCTGACACACCGGCCAGCAGTGCAGGTCCGGTGAGCGCGGGGAGGCCGCCCTCAGGGT
AACGTGGGGAGCCGGCCGGCCGGACAGTGCGCGTGCACACACTATCTGCGGCGGTGTGCTGACAAGCCAATTGAGGGGACTCCATCTTACAAAACGCGCT
TCATGTCGCCGCCATTCCACTGCCTAACCCGGGGAGGGCAGGCACGGCGGGGAGCAGTCTCGAAGGAGGCTGGCGCCAGGCCAAGCGCCGGGCCTTGACG
GCTGGAACCGTGGAGTAAAGTCTTTGGGCTGCGCATGCGCGATGCTTCGCCCTGCCCCACCTCTCGGTCGCGGATTGGCGGGCGCGGGTCACGTGGGCAC
GCCACCCGCTTCCTCGCCGCAGGGGGCCMGCCCGCTGGCCCGTTTCCGGTCCGGTGGGTACAAGATGACGGAGCCGGGCGCCTCTCCCGAGGACCCTTGG
GTCAAGGCAAGCCCCGTGGGCGCGCACGCCGGCGAGGGGAGGGCGGGTCGGGCTCGTGCACGTAGGGGGGCCGGAAGACGAGGGGCTTCCCTCCTGTCCC
CAAAGTCCCCCACGCTCTCCGTGCCCCGGGGCTGCAGAGAAGACAGCTCTCACCCCGCGTGTGCCAAGGTGGGGAGACAAACGAGGCGTGTGCGCGCGAG
TCGGGGGAACGGGGCACTGGGGTGGAGTAGGGGCGGAAGGGATCATACACAGGGGAGGCACTCGCACGCCCTAGCCTGTGCCAGTCTCGGGGGACYCATT
AAGCTGCCCGCGCACCCCGGGCTGTGTGTGTGCAAGCGCGCAGGGTGACAGAGGCGCCTTCCCGGAATGGGGGGCGCGCTGTGCGTGCCTGCAGTGGAAG
GGGCGCCTCCCCCTAGGGGCGGAGGTCTGACGGGCCCTTCCCGTGCTCTGTGCCGCAGGTGGAGTATGCCTACAGCGACAACAGCCTGGACCCCGGTGAG
TAGCTGCCCCATCTTAAGCTCTAGAGGGACACTCCCGCCCAGGCTCTCTAGATTCTTGTGGCGTTGCCAACCACGCCTGAGCACAGTCCACTCTCCCTGA
GCAGAGTTCCTGGCTTGAGACAGCAGGAGCTGAAGGACAAGGGCAGAAAACAACTGAGGGTGACACCTAGTTCCCTCTGCTCTGGAACAGGGAAGTGGTG
GAACTGATCACTCACCACTCAGTGGAGCAGCTGATCACTCACACCCTCATCACGTCCACATGCCCGTTTGTGAGCCAGGGGGGTATCATGCAGGCCTATG
GAGCAGTGTAGACACTAGGGAGCAGAGCACTGCAGCGTGGTCTGGCAGGAAGTGGGGGGCCCAGTATGGTTGGCTTTGGGTTGAAGGGAAGAGGTCAGCA
TTTAAGAAAGCCATTGTGTGGCCGGGCGCGGTGGCTCACCCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGACCGAG
ACCATCCTGGCTAACACGGTGAAACCCCGTCTCCACTAAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAG
GCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCTAGCCTGGGCGACTGAGCGAGACTCTGTC
TAAAAAAAAAATAAATAAATAAAAGAAAGCCATTGTGTCCTACAGGTGTCTGAGGGTCTGGCAATGTTCCCCACCCCACCCCTTAGTGATTGGGGCCTCT
CTTTTCCAGGGCTTTTTGTAGAAAGCACCCGCAAGGGGAGTGTAGTGTCCAGAGCTAATAGCATCGGTTCCACCAGTGCCTCTTCTGTCCCCAACACAGG
TAGGCAGTAACATCCCCCCCGACCTCRGGGGGCTCAGATATGTCATAATTGTARTACCTTTCCTAGACAGGGAAGCCCCAGCCATCCACACAGGGGTGCT
GGAGCCAAAGTATCAGACASAAGGTCTCACCATCTTTCACCTCATCTGGAACATTAGGTGGTTCTGTCCATCTGCCTTCTCTGGACACCAGGTTCTTCCC
AGCTGGGGAAAGGTGGGCTAGCTGGACCCCACTGGGCCCCAAGATGACCTTTCCCTGCCCCCATCTCTGAGCGTAGATGATGAGGACAGTGATTACCACC
AGGAGGCCTACAAGGAGTCCTACAAAGACCGGCGGCGGCGCGCACACACTCAGGCTGAGCAGAAGAGGAGGGACGCCATCAAGGTGAACAGGGAGGCCTG
TGCCTCAGCCAGTGCGGGAGGGCCCTGCATAGTTTAGCTTCCCTGTGCCCTGACCCACTCAGAYAGTCCCAGGCACCCTAGGGGGTGGGCAGGTAGTATA
GTCCCAGGCACAAACACCTCCCTTGCAGCCTTCCCACCCCATTGAGTTTGTGAGCATAGAACTTGGTGTCATGGAGGAACTTTGTGCCATTTTGCTTTAA
TCTCTCAGGGTTAAAGAACCCATTTCCCCTGCTGTTTCCACAGAGAGGCTATGATGACCTTCAGACCATCGTCCCCACTTGCCAGCAGCAGGACTTCTCC
ATTGGCTCCCAAAAGCTCAGCAAAGCCATCGTTCTACAAAAGAGTATGGCTAGGGAAAGCACTGGAGGGGATGGAGCCAAGMGGGGCTGTGAAGAGGCCA
GTGCCTCCTACCCACCCATGGCTCGGCCTTGGTGTGGTGATTGCCATGGGATAGTTGGGGTCTGGGGTAAGGGGAACAAAGTCAGCCTTATCTTCTTGGT
TGAGAATACTTCTGTACCTGTCCTTTTTTTCTTGCCCCCACCCTAGCCATTGACTACATTCAGTTTTTGCACAAGGAGAAGAAAAAGCAGGAGGAGGAGG
TGTCCACGTTACGCAAGGATGTCACCGCCCTAAAGATCATGAAAGTGTAAGAGGGGTGCTGAATGGGGGGAACCAGAACTTCTGAGGCAMCTTCATTGCA
CACCCTCCCTTGTTCAAAGGCCACATCAGTTACTGCTGTACAGATAATACTCTTAGTTCCTGAGCTAGCCAGTAGGACTGTGTATCCCCAACTGTCCTTA
CACATGGCAGACACTCAGGAAATGCCTGTTGGATTAATGTAAGGAAGGTTGGAGAGAGAGGGCCACCTTTCCTGACCTGGAAGCAGTATCTCCCTGATAC
TGAACCCCACCCAGAAGCTCTCTGGGGCTGCCATTCCTGGGAGTACACAGGATAGTCCCGTCATTCTTCTTGGGTGGGCGGAGCTGCTGCAGCACCTCAG
CCCTGGCCTGCATGCTTTTAGGAACTATGAGCAGATTGTGAAGGCACACCRGGACAACCCCCATGAAGGGGAGGACCAGGTCTCTGACCAGGTCAAGTTC
AACGTGTTTCAAGGCATCATGGATTCCCTGTTCCAGTCCTTCAATGCCTCCATCTCAGTGGCCAGCTTCCAGGAGCTGTCAGCRTGTGTCTTCAGCTGGA
TCGAGGAGCACTGTAAGCCTCAGGTATGGGGCAACAATAGGCACAGGGTCTGCGGTTTTCTCTACCATCAAGCAAAGTGGCCCAAGCCATCAGCTGTTGA
GAAAAGCGTGGCAGCTGCTTTTAGATCTTAAGGGCGTTTCTACAGCTTTGAGGGCCCTGGTATTTTCCCTTTTCTTTGCTGTCTAACCCACATCTTCATG
TTACGGTTTCATTCGGCAAGTGTGACGTGAGCTCAATGTGAAGTCCAGCTCTTGGCTTTTGTCTAGCCCATGTTATCGCTGCCCCTGTATGGAAGCCCCA
GGCATCTGCAGCAGAATTGGAAACGCAAATTCTGGGACCCTACCTTTAGGCCCCCTAAAGTAGTTGCCCCAAGAGCTTTTTAAAAATTTATTTATAATGG
AGATGTGCTAATGGTATTGCACTAAGTCTTCTAATTGAAGTCTGGTTGCTTTTTCTGAGGTTTTAAACTTGTGTCTGAGATTTCTTGTTTGTTTCTCAAC
ATTTTTTTTTTTGAGACGGGAGTCTCGTTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCACGCCA
TTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTGTGCCACCATACCTGGCCAATTTTTTGTATTTTTTAGTAAGACGGGGTTTCACCGTGT
TAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCTCGTTT
CCCAACATTTTTATTGTGAAACACATTAAACATATTGCGATGTTGAGAGGAGTTCACAGTGAACACTCGTATACCCGCTCCCTAAATTTTACCGAAACAT
TTTACTATATTTCCATCTCTCCATCTTGCTTCAGGAGCACCTCAAATTAAACTGCAGACATCAGTACTTCCTGGGGGCTTTTTTTTTTTTTTTTTGAGAC
GGAGTCTCACTCTGTCACCAAGGCTGGAGTGCAGTGGTGTGATGTCAGCTCACTGCAACTTCCACCTCCTGGGTTCAGGCGATTCTCATACCTCAGCCTC
CTGTGTAGCTGGGATTACAGGCATGTGCCACCACACCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAAATTC
AGGTGATCCACCYGCCTTGGCCTCCCGAAGTGCTGGGATTATAGGCGTGAGCCACCACACCTGGCCCCCGGGGGGCTATTTTTAAAGCACTTTTCTAAAG
TACATGGCTGATCTAGGCAGGCATCTTGGAAACTACTCTGCGTTGACTTGGGCATTGTCTATTTCTTCCTCTGCTGCCCTCGCCAGACCCTGCGGGAGAT
TGTGATTGGCGTCCTGCACCAATTGAAAAACCAGCTTTACTGACCGGTTCTTGGAAACCTGGAGAACAGCCAACAAGAGGCCCTTGAATCTCTACGTGGC
CACTGAACTGCTGGGCCCGGGAGACTGGACTACAACACCTCACACTGGTCAGCTGGTTTSTACTTGGTGTTTGGTTTTTCCCAGCCCCATTTTATCTTCA
GCRGAGCCGCGGTGTTTGTTTTGTGAAAGCTTCTGATTAATTTATTATATTGACGATAAAACTCAAACCTACCCAGCCTTCCCCCCACTCCATGGAAGTC
CTTGGGATGGGCRTCTGCTCTGGACACCCCAAAGAGCTCCTGCCCTCTCAGCCCTTTATTCAAGCCTCAGATTTCTGCTCATGATCTACATAGATTTGGA
AACTGTTTTCCTCTGTTTTGGTCTCTTGGGCAACATTTTTGGCCCAAGTTTGGGCAACATTTGGCCCAAGTTTGGGCATTTTGGCAGTAGCTGTATGGGA
GAAAAAGAGTAAGAGGAAATATTCCCACAGCCATGAAGGGTGAAAGGGCACCTTGTGCCTAGACTAGGGCTGCCTGGTCAGTCCCAGGTGAGGCCAAGGG
CTTTCTGGCCATCTCAGGGAGGGGCCACCAGGTTCCTCCCCTCACCCCATATTCCATCACCTTCCTCCTCTGCTCTGGGTGGTAAGGGAAGCCCTCCYGG
TTCCCACAGGCTATGATGCTGCATGGCAGAGGCAGGTATAACACAGCACTACATATTGGAAATTTTTTATTTTTCTAAATACCAATGCAGTTTTGCTACG
GTTACAATTTTGAAATATTAACTGAGCCTCAAAATCACCCTTTCTGTCAAGCATATCTTGGCCTCTCCCATGTCTCAGTGTTGCCTGCATTTCTCCCAGG
ACTTGGGGGTGGGGTGAAAAGCGTACAAAAGATACTTAAAAGGGCTCCTGGGGTACACAAGCCCAGCAGGTCCTGAGTGAAGCCGTGGGCCCTCCAAATG
CTCGTTTTATAGCAACCTCTCTCTACCCTAGTTCTCCAAATTCACTTCTGCCTTCCTCAGGTTTGATATCTGGCAGGTTTGACTATCCAGAGGAAATTAA
ATATTTTTATATAAAATTAAATTATAATAAATATTGCCAAATGCTTTCCTTTAGCATTGTTCCAAGTCTAAATGTTAACCTCAAGCTACTGCAATTTAGA
CAATGAAATGGGCTGGGTCTACCCCCAGCCACCAGCCCTCATCCTCTCTACCCAGTGCTCTGGTTTATGCTTGTCTCCTGACTGCTCTGCTTAAAGGTGA
AAGTAGCAGGAACAACAACAAAAGCCAACCAAAAACAAGGTAGCCAGTGCAAGACATCTCACTCTTCTGACATCCTGCAGTCCCCACCAGTCCTGACCGT
GGGCCCCTCAGGGGTCTGGGAGTGTGACGTTGTAATCTTCATCCGTCTCTATCCCAACTTCCTCCTGTGAGACAGGGAGACAAGTGAATGAGATGTCACC
AGGATAAGACCACAGGGAAGCAAAGAAGGAAGAGAGCTCCACTTACAAAGAACTGCTTCTTGCTCTTGGGGTATCCTTCAAGTATTGCATCAGACAGCTC
TGTAGCCTGACAAGAAATAAAACCACCCGTTTTCAGATGGGCAGCACTGGGCACTGCCTGTCAGTTTATGATATTGTGTAGCGGCTGATCTGGTGCCTGC
CATTTTCAAAGGCACCTCCAGGGCCTGTCTCGGAGCTCCCACACACTTACCATCCTCTTCCTCTTCCTCCACTCCTTACAGTACTTCTGCCTCTCTCTGT
ACACCTAGAAGGAAAAAGCAAGTTCCTCTAACTCCTCAGAACCACAGCAGCCCTCTGGGGCTCAGCCCTGATGTTCACTCTGGACCTGCACAGCGGTCCT
ACAGCCTTCCAGCTCACCTGCTCTTTCTCTTCTGGAGTCACATGATTGGTAGCTGCTTTAATGTTCTTCAATCTCTCTCTGTAGCCAGCGCATTCCTTCT
TTAACTCCTGGATTTCTTTCTGCATCTCTGGTGTGGTCAGGGCACTAGATAATTCCTTGAGCTCTGAAACCACATCCCCCTGGGGTCACTTGCTACCCCT
GAGGAAGGAGTTCTGTCTTTCCCAGTGGGTGCTCCCTGAGGTGTTCCACCTTGCTCTGGATCTATCATCTCACATGGAAACTAAGCCATACAGGATTATT
TATTCTTCTAATTTTCTTTCTTCCTCCATCTACAAGTGGCGTGGGTGTGAGGTTGAACACTTACTTAGGCGTAGCCAGTTAAAGAAGCAGGAATAAAGGG
AAACGTGGGGACAGTGTACTGATAATCGTGGCAGGGAGAACAAATGCGTATCTTGTCCATTTGTTGGTACACAAAAGCCGTTAGTTATCCTACATTTCTT
TTTATGCCTAAGGGAGCCCAGCAAAGGGGTCTTAGCTGCAACAAGATGCTGCAGTCATTGAACCATTCATTTAGTAATTCCTGACCTCTAGAATGAACCT
AAGCCTATGGGCACTTTGGAGGGGCTACCCAGTCCTACCAGCCTCCATGTAGCGGCAGCTCTGCTGCAAGCTCTGCACCTTAGCAGTGAGGGCCACGATT
TTGCCATCTAGGACTTGAAGGTCAGCATCACTCACCATGTCAAACTGGTCCTGCCAGACAAAGAGGGAAAATACAAGTGAACTGTTGTGAGGCACAAAGA
TGGGAACACACACCTGGGAAGGCACCATTTGGATATGCTCAGGAACCAGCCACACCCCAAAGTCTCCAGAGGGTCTGCAGAAATAGTGGGAGAGTACTTT
TGAGAAATTGTTTTCAGTTAAGGAGCGGCCCCACTAAAAAGGTAGGAAAGAAAAGCTGAAATCTAATGCTTGTCCTTAAGCTACTAGGTTGACAGGATAC
TGATTAGGACAGAAATCTTCCCATTTAGTGATAAAACCACTACCTGGGCTGAAGCAGTTAAGTAACATTGTTCCCACGGTGGGGAAACCTAGATCATGGG
TTTCCATAATAGATAGAAACTGGACAGGTGAAGAAGCATGATGGATGGGATGGATGGACTTCTTTTCTTCTTCCTTCCTGTCCTTTCTTCCCATCCTTCT
TTCCACCTTCCTCTCTCCCTCCTTCCTTCCTTCCTTTTTCCTCCCTCCCTCCCTCTTTCTCCCTCCCTTCCCTCTTTTCCTCTCTTTCTTTCTCTGTCAC
CCAGGCCAGAGTGCAGTGGTGCAATCTTGGCTGACTGCAACCTCCGCCTCCTGGCTTCAAGCGATTCTCATGCCTCAGCCTCCTAAGTAGCTGGGATTAC
AGGCGCGCACCACCAAGCGCAGCTAATTTTTGTATTTTTAGTAGAGAAGGGGTTTCACCACGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGTGAT
CCATCCGCCTCAGCCTCCCAAAGTGCTGGGATTACATGCATGAGCCACTATGCTGGGTCTTGGGATCCATGTAGATAAGGGATTCCAGTAAGTCTGAGGA
GCTTCTCTCATGAGGGGCCATTGCTAGAAAAGAACTGCACTGGGGATCAGTGTGGGGGTGGGGGAGGTCACATCAGTTGGTGATGGGGAGCAGGTTGAAA
AAGTATGCCAGCCAGTGCAGTCTGGACTCTACACTTGGGCAAGGTGAACCTATAGGGCAGAGGCCAGCAAACTATGGCCAGCAAGCCAAATCCTGCCAGA
TGCATGTTTTTGAAAACAAAATTTTATTGAAACAGCCCCACCCGTTCATTTACATAGTCTACAGCTGCTTCTGTTCTACAGTGGCAGAGGTGAGTAGTTG
TGGCAGTTGTACAGGCAGCCATGACAAGAGATACATATGGCCCACAAATCCTAAAAATACTGTCTGGCCATTTGCAGAAAAAGTTTGCCAAACCCTCCTT
TAGAGAATTATCTTTAGATGAGTAACACAATGCAGCCTGTTTTAGGAAAGTCAGCCTTAAAAGTGGTTTGGTTCAGTTTAACGAGTAATATCTGCTGGAT
GTTAGATACTGCGGAGGTGCTGATCAGATAAAAATGAATTGAGAAATGGGGTCTGCCCTAGAGGAACTTCAGTTGAATAAAGGAGACAAGTAAAAATTGT
AATACAGCATGCCTCAAAAGAGGTAAGGGCCAGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGG
TCAGGAGATCAAGACCATCCTGGCTAACACGATGAAACCCCATCTCTACTAAAAATACCAAAAAAAAAAAAAAAAAAAAATTAGGCTTCGTGGCGGGTGC
CTGTAGTCCCAGCTACTCTGGGAGGCTGAGGCGGGGGAATGGCGTGAACCCAGGAGGTGGAGCTTATAGTGAGCCGAGATTGTGCCACTGCACTCCAGCC
TGGGTGACAGAGCGAGACTCCGTCTCAACAACAACAACAACAACAATAACAAAAAGAGATAAGGGCCTGAAAAAGAAACAATTAGCTCGGAGCATTCAAG
GAAGATTTCTGGAAAAGGTGATGTCTAAGTGAAATCCTCAAGGAAAGAAAGAGCTGGCCAGGAAGAGAAGCAGGTACAGGGAAGACAACATGCAAAGGAC
AGAGCAGTAAAACACATCAGAATTATCTAGTGTTCGTGGATAGAAAAATAATGAGGATTGGTGAGGCCAGAGGCTGGCTGGGGCGTCTTCCGGTGCCTTT
TACATGTTTTTTGCAGCACTAGAGAGCCATTGAAGAGTTTTAAATAGGGAAGGTGCATGACCAGATCTATTTAGACAGATCATTCTGACTGCAATGTTTA
AGAGTTTAAGATATGTTTGAAGAGCCAAGATCTGTTAGGAGGATACTGCAACAAATAAAGAGGGCGTGAACTAGAGCAACCATGGCAGATGGAAAGGAGA
GTGGATTCAAGAATGGAAAAATTAGCCAGGCTCTGTGGTTCACGCCTGTCCTCCCAGCACTTTGGGAGGCCAAGACAGGAGGATCACTTGAGCCCAGGAG
TTGGGACCAACCTGGGCAGCACAGTAAGACCCATCTCTATAAAAATTAAAAAAATAAATAAAAACGGAAAAATCAGCTGGACTTGATGGTTGACTAGTAA
AGGAAGTCAAGAATTGCTCCCAATTTCTGGTTTGGGTGAAGAGTAATTCCATTAGGGGAGGAGAATGTTAGAAAGAAACCAGTCCGGGGTGGGGGGAAGA
TGAGGCATTCTACTGTGGCAATTTTGACTCTGATATTAATGCCTGACAGATTCCAGCTGGAGGTCTGGGCTGGAGAATATAAATTTGATATGTGTGTTTA
GAGAATCGGATGGAGGCAGGAGGAACATCATTTGGCAGAGGGTGTTGCTAATGTAGATGATAAGGAATAAGAGCTTTGGAGCGGAAATGGATCTTGGTAG
CAACAATACAGAATCTTCTGTCATCCATCATATTGTAAATCTGGAAACCTCGTGAAGTTGGGATCCTAACAAGAGGAGTACACACCTTGATTTAAGGATG
GTGGCCTAAGACAGGTGAGTTTTCCATGGGGGGCCTTGTCCCCAAAGAGTTCACACCAGGAGTAGATTCACCCGTTGTCGGGCTCTCATGGGTGACAATC
GGCGCAAGTTCTCCTCACCTGATCCGCAAAATAGATCTTCTGCTTGCCGTACATCTTCTCTTTGATCTTGCCTTGTTGCGCCAGCTGCTCCAGCGTCTTC
ACCACCACCTGGCAGAGGAGAGAGAAGGAGCAATCAGAGGAGTCTGAGCCTGGGTCTGGGGAAATCCAGCCAGTGATGTGGAAAACGCCCAAGGCTCCAA
AGGGCACGACCCCAGCCTGAATCCAGGGAGTCCGACGGAGAGGGAATCCCGGGAGAAGGTCCTCACCGCCTTGCCCAGTCCGTGTTCCCGCTGTAGGTTC
CCGAACACATCCTGGGAGCTGTAGGGCCGGTTCTGCTCCTGCAGGTACCTCAGGAGGATCCCGGCGGCTACGGAGAGAAAGGCAGGGGAGGGGGCCACTC
AACCGACCTCCTCACCCACTGCCCTCCCGGGTCTTCCCCGCGCCCACGGCGCCGTTACCTCCCGCCGCAGCTTCTGCCCGGCCTTTACTCATCGCCTTTC
CCGCCACCCAACTCAGAAAGCCGGACGTTGTAGTTGCTCGGGGCGACGGCTCCTTCCGGCGACGGGGGCGGGCCTCGAACGGTGATTGGCTGAAGGGGAA
GCCTTCCGGAGGAGCAAAGCGACCCCTCCCGGACTCCATAGTTCATTTCAGGTCGGAACTTGCGCATTCGGGCCGGACCTCAAGCCATGGGCCTCTGCGA
AGGCGCCGGCGTGCCCACGGCTAAGAAACTTCCTCTTTCTGCTCCCGGGAACGAAGGCTGTAGCAGAGAAGGCCTTCAAGTTTCGAGACCCAGTTCCAGC
CGCAGCTGAGCACTGGTGACCTTGAATTAAGTCTAATGTTGGGATTGGAAGACGCTTCAGACATCCGCTGCCGCCCTGGGCAAGCGACCAGCTCAAGGTT
ACCCCACAGGGACGTGCTCTGGTCCCACGGTCCAGTGCTCTTTTGTCGGTTAGTTTTGTCATTTGTAAAATAGGAACAGTAGATAGTGGTAGGAAAGTGG
TTGTGAAAACTTAATAGAAAGCTAAGCGCCTTGGTCGGGCGCAGTGGCATGTCACCCCTGCAATTCTATCACTTTGGGAGGCTGAGGCGGGCGGATCGTT
TGAGCCCAGGAATTCGAAACCAGTCTGGGCAATATGAAACCCCATCTCTGCAAATAAAGTACAAAAAATTAAGAGTGGTGGCGCGCTTCTGTGGTCCCAG
CTACTCTGGAGGCTGAGGTGGGAGGGTCACCAGAGCCCCGGACATCGAGGCTGCAGTGAGCCACTATGAGCGCGCCACTGCACCCCATCCTGGCGACAGA
GCGAGACGCAGTCTCGAACAAAAAAAAAAAAAGTGGGAAGGGGGGACAGCTAAGCGCCTTGGAGAGCAACCACCCTTATTTGCCTAATACCGAGCTTCGC
ACCCAGGGGGCACTCGACACCTACTGTAGTTTGGACGCCAAGGAACGATAGGGTTAGGAGGGGGCTACTGTTCAACCACAAAGCTTGTGGAAAAGTTTGT
TAGCCCAGACAATCTCAGGGCAACACCTGGCAGGTGCTTTCCACCCCTGACCACAGTGGCCAATGGGACAGAGCCTGAAATAAATATTTCTAGTTTCTGA
GGTGAGCTGAAGACCAAAGAGCAGCTGTCCCTGCAGCTCAAACCATCCAGTGGAGGAGTAAGGTGCTACTTTTTAAAGCCTTCTGCTACCTACAACCTCC
TTAGCCTTTAAAACGTGTGCTTGTCTCTGCACGTTTAGGAGACAATATTAAGAATTAGAAATGAAAGGGCCGAGCGCGGTGGCTCACGCCTGCAATCCCA
GCACTTTGGGAGGCCAGGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACTGTGAAACCCCATCTCTACTAAAAATACAAAAAAT
TAGCCAGGCGTGCTGGTGGGCGCCTGTAGTCCAAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGAGATC
GCACCACT


SNP Information

Context             (SEQ ID NO:16011):
CTATGTTCACCTGCAGCCGGGCATGAGCCTGGAGGGCCCGGCTCAGCCCCAGTACAGCCCCGTGCAGGCCACGTTTGAGGTTCTTGATTTCATCACGCAC
M
TCTATGCTGGCGCCGACGTCCACAGGCACTTGGACGTCAGAATCCTACTGACCAATATCCGAACCAAGAGCACCTTTCTCCCTCCCCTGCCCACCTCAGT
Celera SNP ID:            hCV27839972
SNP Position Genomic:     1773
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,40)   total(A,1|C,75)
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16012):
CTGCGCATGCGCGATGCTTCGCCCTGCCCCACCTCTCGGTCGCGGATTGGCGGGCGCGGGTCACGTGGGCACGCCACCCGCTTCCTCGCCGCAGGGGGCC
M
GCCCGCTGGCCCGTTTCCGGTCCGGTGGGTACAAGATGACGGAGCCGGGCGCCTCTCCCGAGGACCCTTGGGTCAAGGCAAGCCCCGTGGGCGCGCACGC
Celera SNP ID:            hCV27839973
SNP Position Genomic:     6029
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,31)   caucasian(C,38)   total(A,1|C,69)
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:16013):
TGGAAATCTCGCGAGAATCCCGCGCTGAAGCGAAGTCGAGACGTTTGACCTTCCTCCGTTTCCGTAGTTCCGAGTTGCGGTTTCTCCGTTAGTGCTTCCG
R
GTTGCAGCCAGGGAAGCCTCCGCGGTGGTGCAAGTGGAACCCAAGCCTTGAGGTTTCAGTGAGTAGGGGGCCGACGTGAGCTTTAGCGTCCCCCTTTAGC
Celera SNP ID:            hCV27832220
SNP Position Genomic:     1101
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,40)   total(A,1|G,69)
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:16014):
TCCCCTGGGAGCTTCCCTGCCCAACGTGGGACTGTCTGTTCACCCTGGGACTGTGTTCTGCCTGGGAGAACGTCGGCACTGCTGGCGGTGACTGGGGTCT
Y
CCCACAGGAAAGCGTGTGTGTGTGATTGATGCCGCTGTGTTGCTTGAAGCCGGCTGGCAGAACCTGGTCCATGAGGTGTGGACTGCTGTCATCCCAGAGA
Celera SNP ID:            hCV25921812
SNP Position Genomic:     4403
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,28)   total(C,61|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16015):
GCTAATAGCATCGGTTCCACCAGTGCCTCTTCTGTCCCCAACACAGGTAGGCAGTAACATCCCCCCCGACCTCAGGGGGCTCAGATATGTCATAATTGTA
R
TACCTTTCCTAGACAGGGAAGCCCCAGCCATCCACACAGGGGTGCTGGAGCCAAAGTATCAGACACAAGGTCTCACCATCTTTCACCTCATCTGGAACAT
Celera SNP ID:            hCV2350910
SNP Position Genomic:     7554
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,5|G,19)   total(A,15|G,47)
SNP Type:                 UTR 3;INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,695|G,796)   total(G,796|A,695)   (A,-|G,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:16016):
GCCTCGGCCGCAGGCCCTTCAGTCACCGTCGCCTCGTCTCCCTGACTGTCCGCAGGCCTGGGCAGCATGGCCGTATTCCGGTCGGGTCTCCTGGTGCTGA
M
GACGCCGCTGGCCTCCCTAGCCCCTCGCCTGGCCTCCATCCTGACCTCGGCGGCCCGGCTGGTGAATCACACACTCTATGTTCACCTGCAGCCGGGCATG
Celera SNP ID:            hCV27828339
SNP Position Genomic:     1597
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,38)   total(A,2|C,74)
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16017):
AGAGGAGGGACGCCATCAAGGTGAACAGGGAGGCCTGTGCCTCAGCCAGTGCGGGAGGGCCCTGCATAGTTTAGCTTCCCTGTGCCCTGACCCACTCAGA
Y
AGTCCCAGGCACCCTAGGGGGTGGGCAGGTAGTATAGTCCCAGGCACAAACACCTCCCTTGCAGCCTTCCCACCCCATTGAGTTTGTGAGCATAGAACTT
Celera SNP ID:            hCV2350911
SNP Position Genomic:     7964
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,22|T,6)   total(C,56|T,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;TSC_42_C(T,26|C,56)   total(C,56|T,26)   (T,-|C,-)   no_pop(T,-|C,-)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16018):
CCAGCAGCAGGACTTCTCCATTGGCTCCCAAAAGCTCAGCAAAGCCATCGTTCTACAAAAGAGTATGGCTAGGGAAAGCACTGGAGGGGATGGAGCCAAG
M
GGGGCTGTGAAGAGGCCAGTGCCTCCTACCCACCCATGGCTCGGCCTTGGTGTGGTGATTGCCATGGGATAGTTGGGGTCTGGGGTAAGGGGAACAAAGT
Celera SNP ID:            hCV2350912
SNP Position Genomic:     8282
SNP Source:               Applera
Population(Allele,Count): african american(A,30|C,6)   caucasian(A,15|C,13)   total(A,45|C,19)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,673|C,796)   total(A,673|C,796)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16019):
TGGAGAACAGCCAACAAGAGGCCCTTGAATCTCTACGTGGCCACTGAACTGCTGGGCCCGGGAGACTGGACTACAACACCTCACACTGGTCAGCTGGTTT
S
TACTTGGTGTTTGGTTTTTCCCAGCCCCATTTTATCTTCAGCGGAGCCGCGGTGTTTGTTTTGTGAAAGCTTCTGATTAATTTATTATATTGACGATAAA
Celera SNP ID:            hCV2350913
SNP Position Genomic:     10660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:16020):
CTGAACTGCTGGGCCCGGGAGACTGGACTACAACACCTCACACTGGTCAGCTGGTTTCTACTTGGTGTTTGGTTTTTCCCAGCCCCATTTTATCTTCAGC
R
GAGCCGCGGTGTTTGTTTTGTGAAAGCTTCTGATTAATTTATTATATTGACGATAAAACTCAAACCTACCCAGCCTTCCCCCCACTCCATGGAAGTCCTT
Celera SNP ID:            hCV25645632
SNP Position Genomic:     10703
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,34)   total(A,1|G,65)
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:16021):
CTGGCCTCCATCCTGACCTCGGCGGCCCGGCTGGTGAATCACACACTCTATGTTCACCTGCAGCCGGGCATGAGCCTGGAGGGCCCGGCTCAGCCCCAGT
M
CAGCCCCGTGCAGGCCACGTTTGAGGTTCTTGATTTCATCACGCACCTCTATGCTGGCGCCGACGTCCACAGGCACTTGGACGTCAGAATCCTACTGACC
Celera SNP ID:            hCV2350908
SNP Position Genomic:     1726
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,1)   caucasian(A,7|C,13)   total(A,12|C,14)   
SNP Type:                 UTR 5;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,18|C,20)   caucasian(A,19|C,19)   total(A,37|C,39)
SNP Type:                 UTR 5;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   JBIC-allele(A,703|C,786)   total(C,786|A,703)    
SNP Type:                 UTR 5;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16022):
CGACCTCAGGGGGCTCAGATATGTCATAATTGTAGTACCTTTCCTAGACAGGGAAGCCCCAGCCATCCACACAGGGGTGCTGGAGCCAAAGTATCAGACA
S
AAGGTCTCACCATCTTTCACCTCATCTGGAACATTAGGTGGTTCTGTCCATCTGCCTTCTCTGGACACCAGGTTCTTCCCAGCTGGGGAAAGGTGGGCTA
Celera SNP ID:            hCV25645625
SNP Position Genomic:     7620
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,24)   total(C,59|G,1)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:16023):
TCACTCCCTCCTTCCCTCTTTTTACCCTTTCCTCTTTACCCCAGGACCTGGAGGAACTTGCTTTGTACCAGATCCAGCTGCTGAAGGACCTCAGACATAC
R
GAGAATGAAGAGGACAAAGTCAGCTCCTCCAGCTTCCGCCAGCGAATGTTGGGGAACCTGCTTCGGCCTCCATATGTAAGCTCCTCTCCCTCCTTCCCTC
Celera SNP ID:            hCV2350909
SNP Position Genomic:     3442
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,18)   caucasian(A,19|G,21)   total(A,39|G,39)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16024):
TGTTTGTTTTGTGAAAGCTTCTGATTAATTTATTATATTGACGATAAAACTCAAACCTACCCAGCCTTCCCCCCACTCCATGGAAGTCCTTGGGATGGGC
R
TCTGCTCTGGACACCCCAAAGAGCTCCTGCCCTCTCAGCCCTTTATTCAAGCCTCAGATTTCTGCTCATGATCTACATAGATTTGGAAACTGTTTTCCTC
Celera SNP ID:            hCV7529584
SNP Position Genomic:     10813
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:16025):
ATCCCAGAGACTGAGGTATCTCGCCCCACCCCCCACACCATCCCTACTGCAGATCCTATCCTGTGAGCTGGAATTCTTCCTGACAAATGTCTCGTCTGTG
S
TCAGGCTGTAAGACGCATTGTGGAGAGGGATGGCCTCAGTGAAGCCGCGGCTCAAAGCCGGCTGCAGAGCCAGATGAGCGGGCAGCAGCTTGTGGAACAG
Celera SNP ID:            hCV25645806
SNP Position Genomic:     4594
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,34|G,2)   total(C,42|G,2)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|G,3)   total(C,73|G,3)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16026):
GGGCTTTCTGGCCATCTCAGGGAGGGGCCACCAGGTTCCTCCCCTCACCCCATATTCCATCACCTTCCTCCTCTGCTCTGGGTGGTAAGGGAAGCCCTCC
Y
GGTTCCCACAGGCTATGATGCTGCATGGCAGAGGCAGGTATAACACAGCACTACATATTGGAAATTTTTTATTTTTCTAAATACCAATGCAGTTTTGCTA
Celera SNP ID:            hCV7529585
SNP Position Genomic:     11198
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   ;POOLE|_GEPH(A,54|G,134)   total(G,134|A,54)   (A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:16027):
CTGACCAGGTCAAGTTCAACGTGTTTCAAGGCATCATGGATTCCCTGTTCCAGTCCTTCAATGCCTCCATCTCAGTGGCCAGCTTCCAGGAGCTGTCAGC
R
TGTGTCTTCAGCTGGATCGAGGAGCACTGTAAGCCTCAGGTATGGGGCAACAATAGGCACAGGGTCTGCGGTTTTCTCTACCATCAAGCAAAGTGGCCCA
Celera SNP ID:            hCV7529579
SNP Position Genomic:     9084
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,10|G,30)   total(A,11|G,65)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16028):
GATTACAGGCATGTGCCACCACACCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAAATTCAGGTGATCCACC
Y
GCCTTGGCCTCCCGAAGTGCTGGGATTATAGGCGTGAGCCACCACACCTGGCCCCCGGGGGGCTATTTTTAAAGCACTTTTCTAAAGTACATGGCTGATC
Celera SNP ID:            hCV26309343
SNP Position Genomic:     10313
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16029):
GGCCAAGGGCTTTCTGGCCATCTCAGGGAGGGGCCACCAGGTTCCTCCCCTCACCCCATATTCCATCACCTTCCTCCTCTGCTCTGGGTGGTAAGGGAAG
C
CCTCCCGGTTCCCACAGGCTATGATGCTGCATGGCAGAGGCAGGTATAACACAGCACTACATATTGGAAATTTTTTATTTTTCTAAATACCAATGCAGTT
Celera SNP ID:            hCV26309344
SNP Position Genomic:     11192
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,12)   total(C,12|-,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:16030):
GCGAGTCGGGGGAACGGGGCACTGGGGTGGAGTAGGGGCGGAAGGGATCATACACAGGGGAGGCACTCGCACGCCCTAGCCTGTGCCAGTCTCGGGGGAC
Y
CATTAAGCTGCCCGCGCACCCCGGGCTGTGTGTGTGCAAGCGCGCAGGGTGACAGAGGCGCCTTCCCGGAATGGGGGGCGCGCTGTGCGTGCCTGCAGTG
Celera SNP ID:            hCV25472073
SNP Position Genomic:     6396
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,22)   caucasian(C,10|T,16)   total(C,12|T,38)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,358|C,393)   total(C,393|T,358) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16031):
GGAGGAGGAGGTGTCCACGTTACGCAAGGATGTCACCGCCCTAAAGATCATGAAAGTGTAAGAGGGGTGCTGAATGGGGGGAACCAGAACTTCTGAGGCA
M
CTTCATTGCACACCCTCCCTTGTTCAAAGGCCACATCAGTTACTGCTGTACAGATAATACTCTTAGTTCCTGAGCTAGCCAGTAGGACTGTGTATCCCCA
Celera SNP ID:            hCV25472172
SNP Position Genomic:     8590
SNP Source:               Applera
Population(Allele,Count): african american(A,27|C,11)   caucasian(A,40)   total(A,67|C,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:16032):
ACAGGCCTCTGCCTCGGCCGCAGGCCCTTCAGTCACCGTCGCCTCGTCTCCCTGACTGTCCGCAGGCCTGGGCAGCATGGCCGTATTCCGGTCGGGTCTC
Y
TGGTGCTGACGACGCCGCTGGCCTCCCTAGCCCCTCGCCTGGCCTCCATCCTGACCTCGGCGGCCCGGCTGGTGAATCACACACTCTATGTTCACCTGCA
Celera SNP ID:            hCV27847839
SNP Position Genomic:     1587
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,1)   total(C,75|T,1)
SNP Type:                 UTR 5;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16033):
ACCCGCAAGGGGAGTGTAGTGTCCAGAGCTAATAGCATCGGTTCCACCAGTGCCTCTTCTGTCCCCAACACAGGTAGGCAGTAACATCCCCCCCGACCTC
R
GGGGGCTCAGATATGTCATAATTGTAGTACCTTTCCTAGACAGGGAAGCCCCAGCCATCCACACAGGGGTGCTGGAGCCAAAGTATCAGACACAAGGTCT
Celera SNP ID:            hCV2769190
SNP Position Genomic:     7527
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,15)   caucasian(A,10|G,14)   total(A,27|G,29)
SNP Type:                 UTR 3;INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:16034):
GATAGTCCCGTCATTCTTCTTGGGTGGGCGGAGCTGCTGCAGCACCTCAGCCCTGGCCTGCATGCTTTTAGGAACTATGAGCAGATTGTGAAGGCACACC
R
GGACAACCCCCATGAAGGGGAGGACCAGGTCTCTGACCAGGTCAAGTTCAACGTGTTTCAAGGCATCATGGATTCCCTGTTCCAGTCCTTCAATGCCTCC
Celera SNP ID:            hCV2769191
SNP Position Genomic:     8951
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,8)   caucasian(A,22|G,10)   total(A,50|G,18)
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16035):
GAGCACAGCCCCGAGGCGCCGTCTACCAGGCCCCGTCCCCTCCCCCGGCTCCTGTCGGTCAGCACTGAAACCCCGTCCCTGCTCCAGGCCTCCTTCTCTG
K
GGTCCAAGGTCCCATACAGGCCTCTGCCTCGGCCGCAGGCCCTTCAGTCACCGTCGCCTCGTCTCCCTGACTGTCCGCAGGCCTGGGCAGCATGGCCGTA
Celera SNP ID:            hCV27839971
SNP Position Genomic:     1471
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 UTR 5;INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 5;INTRON;TFBS


Gene Number:                 35
Celera Gene:                 hCG16948 - 64000127257960
Gene Symbol:                 HUMGT198A
Protein Name:                GT198, complete ORF;TBPIP
Celera Genomic Axis:         GA_x5YUV32VU68(4245204..4262942)
Chromosome:                  Chr17
OMIM number:                 602976
OMIM Information:            TRANSCRIPTION FACTOR-LIKE 4;TCFL4


Genomic Sequence (SEQ ID NO:12195):
AAAAGAAATATGTAGGGTCTGGTGGAGAGGATGTTGGAAGCTGAGATATTTTCTCCAGTGTTTTCAACTCACCTTGCATTTAGGCTCAGCAGCTCAGCCT
TCTGTTATTATTATGTAGGCTTAGAGCCAGATTCAGAGAGGCTCTTTGTTTTGTGTTCTGATTTTATGTCTTTAAAGTCCAAAGGGGATTTTACGCTGGG
AGAAGGTATCAAGCAAGACTTTGTGCTCTTCCCACAGTACGCCGCAGAGCTCTCCACCCAGAACGAGCCATGGACAACCACAGTGACAGCGAAGAGGAGC
TTGCTGCCTTCTGTCCTCAGGTATCTTGAGTGTGGGAGCTGCTTCACTGTCCAGTTTTCTTTAGCTCCCTTTTAACCATCCGACAGCTCACATTTAGGCC
ATAACCAGGTTTGAGGCCTTAGACTCCCCTTGTTCCCAAGACAAGGAGAGAAGTGAGACTTTGTTCCTAGATCTCAATTTTTTTCTTTATCATATCATTC
CTGTAATCAACCTAGGTCTCAATTAGAGCCTGATGCCCAGCACCGCTCTTCCGTATCTCTTTTTACCCTACCATTATGGAAGAACTTCTGGAGCTAGTAT
GATCATCTTTTAAACAGCCCAGTTCACCCTTGGGTCTGTGCAGTATGTGTATCCTCCTACCACTTTGAAAAATTATCTCTGGATCAATTATTTGCCTTAA
AGTAAGTGGGTAATTGACTCCCCCAAGACTGCTTTTCTTCCTGTGCTTAAGAGGTTATGAATGAGTGTTTTCTTTGGGAGAGCAGCCTAAAAGGGGTCAA
GATTTTTTTTGTTGTTGTTACTTTCACATGTATTGATTAAAAAAAAAATAAAGGGGAGAGGGAGTTTTCAACGGGAAGTTACCATCTATCCCTGGTTACA
TTGATTTGATGGCCTTCGGATAACTAATGCTAGCTGATTAGTAAAGCTGTACCTGGTGACTACACCTGGTTCCTGATGGCATTATCTCACATTTGTTGGT
CTTTTCCTAAGCTGGACGATTCTACTGTTGCCAGGGAATTGGCCATCACAGACTCTGAGCACTCAGACGCTGAAGTCTCCTGTACAGACAATGGCACATT
CAATCTTTCAAGGGGCCAAACACCTCTAACGGAAGGCTCTGAAGGTGAGGGGAGCCTTTGACCTCAGTTGATAATGGCTCTGACTGTTGCCTCTTAGCTT
CCCTGAACAGAGGGGATACTGGTGCTTGCCCCTCTCCTGTTTTCTGAGCTATGGATCAGGCGGCAGAGCAGCCTGAGTGCTGTGGCTACAGCCAGGATGG
CACTGCTGCCCTTCTTGAAGACTTTAGTCCCTTAGTAGCCTCAGGCACTAGCCTCACAGGGGACATAGAAGAGAGGGGGAATTGTGTAGAGATCACAGCC
ACCTATAAGTGGAGGGGAAAGGTATACCAGTCCCATGGGTTTATTTCGCCCTGAGAAAGCCAGGGTGGGAAAAATCTGGTCATGTGGGGCTGGGGCACAG
GAGGGCCAGGTAGGTGCCATGACTCAGACACTTCTGTATTCCACCAGACCTAGATGGTCACAGTGATCCAGAGGAATCCTTTGCCAGAGACCTTCCAGAC
TTCCCTTCCATTAATATGGATCCTGCTGGCCTGGATGATGAGGACGACACTAGCATTGGCATGCCCAGCTTGATGTACCGTTCTCCGCCAGGGGCTGAGG
AGCCCCAGGCCCCACCTGCCAGCCGGGACGAGGCTGCGCTGCCGGAGCTCCTGCTTGGTGCTCTTCCTGTAGGATCCAACCTCACCAGCAACCTTGCCAG
CCTGGTCTCCCAGGGTATGATTCAGCTGGCCTTGTCAGGGGCCTCCCAACCAGGCCCTTCTGGAGCACCTGCCCAGAGAGCAACGAGAGGCTTCCTCCGG
TCCCCCAGTTCAGACCTGGACACTGATGCTGAGGGGGATGACTTTGAACTTCTGGACCAGTCGGAGCTGAGTCAGCTGGACCCTGCCAGTTCTAGGAGCC
ACTGAGGCAGAGACTCCTTTTGGGAGTCACTGTGGTTTAGGTTTTTTTCTCCCCATCCCACTTAAGGTGATGGGGCAAGGGAAGAACTCAGCTCCCCTCC
CCTGAATTATATTTGTATGCTGGGTGGCCTGGCTGATGCTCAGAGGCCTCCTTAGAGAGGACACTCACTCCCCTCCCACCAGCTGGATGCCCATTTCTGA
GCTCAGTCACTGAAGTGAGAGTGTGCTCCCCCAAGGGAGGCTTCTCTCCATCAGGATGGTACTTTGGGGGAACAAAATAGTCAGGGATATTGGTTCCCCT
TTGAGGAGGTGCTGCTGTTTGCTTTTAGGTATGAGTGCTCAGGGGCCCTCACTGAAAGAGCCCATGCCTGCCTTCCTCCTTTCATCGCCTCTCTAGAGCC
CCCAAAGTCAGGCAGCAGCTGGAGTAGTTACATTGTCATCATCTTTTTTTTTGAGACAGTTTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCT
TGGCTTTCTGCAACGTCTGCCTTCCAGGTTGAAGAGGTTCTCCTGCCTCAGCCTCCTTAGTAGTGGGATTACAGGTGCCCGCTACTATGCCCGGCTAATT
TTTCTTTTGGTATTTTTAGTAGAAATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGAGCTGACTGCCTTGGCCTCCCAGA
GTGCTGGGATTAGTCGTCATCTTTTGTTAAACCAGGATTTGATTTTTTTCTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTGAGACAGAGTCTCTC
TCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAGCCTCCGCCTGCCGGGTCAAGCGATTCTCCTACCTCAGCCTCCTCAGTAGCTG
AGATTACAGGCATGCACCACCATGCCCGGCTAATTTTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCGTGCTGGCCAGGCTGGTCTAGAACTCCTGACT
GCAAATGATCAGCCCGCCTCAGCCACCCAAAGTGTTGGGATTACAGGTGTGAGCCACTGTGCCCAGCGTGATTTTTTTTTTTTTTTAAAGCAAACTTGTC
CTTTGGTTTTGCAGAACAGGCCTGCTCCCTCTCATCTAGCCCATCATTTCTTGGGGCCTGAACCCCAGTGGTCCAAAGTATTGCTTGTGAAATTTAAAAA
ATGTGAATATGATGTGGGGATGGGCCTCTTCTACATTACCTTGGCCCAGGGGGATCAGCTGGCTGGGAGGATTAGTGAGCACCTCTGTATTTTGAGGTCT
GAGTCTTCTGGAGCTGTGTAGTTAATCTTCGGTTTCTGATAACCCCTGGGTCCATCTGGCCATCAGCCTCAGCAGTGAGCAAAGCAATACCATACTCATT
TCTATGTTCCTGTTCCTTCCTCTGCTCCTCCTTTGGAGAAGCAATAATTCATGGGGGATGATACAGTAGCACTTTACAAATGGCTCCATGTCATTCATCC
CAGGGGCCATAATCTCTTGCACCACCTATTCTTACTTCCTGTTCAGCTCCTTTACAGCTTTTATTTTCAACTGCTTCCCAACTTGGTGGGGCCTCCTTTA
AGGATGAGCCAATAGTAAGAATGTGGCTGTAATCAGCAGAGACCCCTCTGAGGGGTATCTGTTCTGCAGCCCCTAGTGAAATCATGTGATGTGAGACAGA
AACCTAAACATGGTACTTGATTCTAAACCTGTGCCAGTCTATAGCCTCTGCCTCSCCAAGCAGAGCTCAAGCCAAACGCTTCTGTCCTCTTTCCTTCTGC
ATTAACCCTTTGCTGATCCTCAGGGGCCACTCCCCCAACACCCCTGTACTTGGGTGAGGGATGTTGGACAGAGCCTGTTTTCATGTACTGCAGGTGGGGG
TGTGCTGACATGTTTGCTCTTGGTTGATGGAGAAGGTACAGAGGCCAGGGAGTGAAAATGGTTGACAGAAGAGGGAAGAGTTAGGTGTCTCATAGTCACT
CATAGTGGGGTGGTCAGGGGTAATGGCATCTCCCCACTTTAGGCTTCTCAAACAGACTTTTGACACCTCTCAAGTTCAGAGCTCTGATGTGGAAAGACAG
GAGGTGTGGGGAAGGAGGGGGATTTCGTGTGTTTGCATGAGTGTGCGCTTCAGGCCTTGGGAGTTGGCAARAGGGAGGGARGGAAGGAGAGCAAAATCTT
CGGAAGGTGTTTCTTGTACCTGAGGGATCCTGCCCTGAATCTCCWTAGTCTCCMCTGTGAACTGAGGAGGGGAGGGGTGTGCTGGGGAATAAATCTTGTA
TGAGAACAATCTTTAAGAGACTGATGCTGAATGGTGTCCTACCCTTGATAGGTCTTCTCTTGTAAATCTGAGTTCTGATTAATTTGAAGTGATAGCCTTA
AAAGAGGAAGCCCAGGTATGAGGGACCCACCAGCCCACCCCTATTTTTACTTCGTGATGGCCAGAACATCACCATAGTATGAGGCTACTTTCCTTCTTGT
GAGAGCCCCACCATCAGTATAACTGGCACTCTTGGCTAGTATTTAGCCTGTATTTCCTTCATTTCTAATTTCTTTTTTTTTTTTTTTTTTTTCCTGAGAC
GGAGTCTTGGTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTG
AGTAGCTTGGACTACAGGCGCCCACCAGCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACAGTGTTAGCCAGGATGGTCTCGATCT
CCTGACCTCGTGATCCGCCCGCCCTGGCCTCCCAAAGTGCTGGGATTGCAGGCGTGAGCCACCGCGCTCGGCCCTTTCATTTCTAATTCTTAATATTGTC
TCCTAAACGTGCAGAGACAAGCACACGTTTTAAAGGCTAAGGAGGTTGTAGGTAGCAGAAGGCTTTAAAAAGTAGCACCTTACTCCTCCACTGGATGGTT
TGAGCTGCAGGGACAGCTGCTCTTTGGYCTTCAGCTCACCTCAGAAACTAGAAATATTTATTTCAGGCTCTGTCCCATTGGCCACTGTGGTCAGGGGTGG
AAAGCACCTGCCAGGTGTTGCCCTGAGATTGTCTGGGCTAACAAACTTTTCCACAAGCTTTGTGGTTGAACAGTAGCCCCCTCCTAACCCTATCGTTCCT
TGGCGTCCAAACTACAGTAGGTGTCGAGTGCCCCCTGGGTGCGAAGCTCGGTATTAGGCAAATAAGGGTGGTTGCTCTCCAAGGCGCTTAGCTGTCCCCC
CTTCCCACTTTTTTTTTTTTTGTTCGAGACTGCGTCTCGCTCTGTCGCCAGGATGGGGTGCAGTGGCGCGCTCATAGTGGCTCACTGCAGCCTCGATGTC
CGGGGCTCTGGTGACCCTCCCACCTCAGCCTCCAGAGTAGCTGGGACCACAGAAGCGCGCCACCACTCTTAATTTTTTGTACTTTATTTGCAGAGATGGG
GTTTCATATTGCCCAGACTGGTTTCGAATTCCTGGGCTCAAACGATCCGCCCGCCTCAGCCTCCCAAAGTGATAGAATTGCAGGGGTGACATGCCACTGC
GCCCGACCAAGGCGCTTAGCTTTCTATTAAGTTTTCACAACCACTTTCCTACCACTATCTACTGTTCCTATTTTACAAATGACAAAACTAACCGACAAAA
GAGCACTGGACCGTGGGACCAGAGCACGTCCCTGTGGGGTAACCTTGAGCTGGTCGCTTGCCCAGGGCGGCAGCGGATGTCTGAAGCGTCTTCCAATCCC
AACATTAGACTTAATTCAAGGTCACCAGTGCTCAGCTGCGGCTGGAACTGGGTCTCGAAACTTGAAGGCCTTCTCTGCTACAGCCTTCGTTCCCGGGAGC
AGAAAGAGGAAGTTTCTTAGCCGTGGGCACGCCGGCGCCTTCGCAGAGGCCCATGGCTTGAGGTCCGGCCCGAATGCGCAAGTTCCGACCTGAAATGAAC
TATGGAGTCCGGGAGGGGTCGCTTTGCTCCTCCGGAAGGCTTCCCCTTCAGCCAATCACCGTTCGAGGCCCGCCCCCGTCGCCGGAAGGAGCCGTCGCCC
CGAGCAACTACAACGTCCGGCTTTCTGAGTTGGGTGGCGGGAAAGGCGATGAGTAAAGGCCGGGCAGAAGCTGCGGCGGGAGGTAACGGCGCCGTGGGCG
CGGGGAAGACCCGGGAGGGCAGTGGGTGAGGAGGTCGGTTGAGTGGCCCSCTCCCCTGCCTTTCTCTCCGTAGCCGCCGGGATCCTCCTGAGGTACCTGC
AGGAGCAGAACCGGCCCTACAGCTCCCAGGATGTGTTCGGGAACCTACAGCGGGAACACGGACTGGGCAAGGCGGTGAGGACCTTCTCCCGGGATTCCCT
CTCCGTCGGACTCCCTGGATTCAGGCTGGGGTCGTGCCCTTTGGAGCCTTGGGCGTTTTCCACATCACTGGCTGGATTTCCCCAGACCCAGGCTCAGACT
CCTCTGATTGCTCCTTCTCTCTYCTCTGCCAGGTGGTGGTGAAGACGCTGGAGCAGCTGGCGCAACAAGGCAAGATCAAAGAGAAGATGTAYGGCAAGCA
GAAGATCTATTTTGCGGATCAGGTGAGGAGAACTTGCGCCGATTGTCACCCATGAGAGCCCGACAACGGGTGAATCTACTCCTGGTGTGAACTCTTTGGG
RACAAGGCCCCCCATGGAAAACTCACCTGTCTTAGGCCACCATCCTTAAATCAAGGTGTGTACTCCTCTTGTTAGGATCCCAACTTCACGAGGTTTCCAG
ATTTACAATATGATGGATGACAGAAGATTCTGTATTGTTGCTACCAAGATCCATTTCCGCTCCAAAGCTCTTATTCCTTATCATCTACATTAGCAACACC
CTCTGCCAAATGATGTTCCTCCTGCCTCCATCCGATTCTCTAAACACACATATCAAATTTATATTCTCCAGCCCAGACCTCCAGCTGGAATCTGTCAGGC
ATTAATATCAGAGTCAAAATTGCCACAGTAGAATGCCTCATCTTCCCCCCACCCCGGACTGGTTTCTTTCTAACATTCTCCTCCCCTAATGGAATTACTC
TTCACCCAAACCAGAAATTGGGAGCAATTCTTGACTTCCTTTACTAGTCAACCATCAAGTCCAGCTGATTTTTCCGTTTTTATTTATTTTTTTAATTTTT
ATAGAGATGGGTCTTACTGTGCTGCCCAGGTTGGTCCCAACTCCTGGGCTCAAGTGATCCTCCTGTCTTGGCCTCCCAAAGTGCTGGGAGGACAGGCGTG
AACCACAGAGCCTGGCTAATTTTTCCATTCTTGAATCCACTCTCCTTTCCATCTGCCATGGTTGCTCTAGTTCACGCCCTCTTTATTTGTTGCAGTATCC
TCCTAACAGATCTTGGCTCTTCAAACATATCTTAAACTCTTAAACATTGCAGTCAGAATGATCTGTCTAAATAGATCTGGTCATGCACCTTCCCTATTTA
AAACTCTTCAATGGCTCTCTAGTGCTGCAAAAAACATGTAAAAGGCACCGGAAGACGCCCCAGCCAGCCTCTGGCCTCACCAATCCTCATTATTTTTCTA
TCCACGAACACTAGATAATTCTGRTGTGTTTTACTGCTCTGTCCTTTGCATGTTGTCTTCCCTGTACCTGCTTCTCTTCCTGGCCAGCTCTTTCTTTCCT
TGAGGATTTCACTTAGACATCACCTTTTCCAGAAATCTTCCTTGAATGCTCCGAGCTAATTGTTTCTTTTTCAGGCCCTTATCTCTTTTTGTTATTGTTG
TTGTTGTTGTTGTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTATAAGCTCCACCTCCTGGGTTCACGCC
ATTCCCCCGCCTCAGCCTCCCAGAGTAGCTGGGACTACAGGCACCCGCCACGAAGCCTAATTTTTTTTTTTTTTTTTTTTTGGTATTTTTAGTAGAGATG
GGGTTTCATCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGT
GCCCAGCCTGGCCCTTACCTCTTTTGAGGCATGCTGTATTACAATTTTTACTTGTCTCCTTTATTCAACTGAAGTTCCTCTAGGGCAGACCCCATTTCTC
AATTCATTTTTATCTGATCAGCACCTCCGCAGTATCTAACATCCAGCAGATATTACTCGTTAAACTGAACCAAACCACTTTTAAGGCTGACTTTCCTAAA
ACAGGCTGCATTGTGTTACTCATCTAAAGAYAATTCTCTAAAGGAGGGTTTGGCAAACTTTTTCTGCAAATGGCCAGACAGTATTTTTAGGATTTGTGGG
CCATATGTATCTCTTGTCATGGCTGSCTGTACAACTGCCACAACTACTCACCTCTGCCACTGTAGAACAGAAGCAGCTGTAGACTATGTAAATGAACGGG
TGGGGCTGTTTCAATAAAATTTTGTTTTCAAAAACATGCATCTGGCAGGATTTGGCTTGCTGGCCATAGTTTGCTGGCCTCTGCCCTATAGGTTCACCTT
GCCCAAGTGTAGAGTCCAGACTGCACTGGCTGGCATACTTTTTCAACCTGCTCCCCATCACCAACTGATGTGACCTCCCCCACCCCCACACTGATCCCCA
GTGCAGTTCTTTTCTAGCAATGGCCCCTCATGAGAGAAGCTCCTCAGACTTACTGGAATCCCTTATCTACATGGATCCCAAGACCCAGCATAGTGGCTCA
TGCATGTAATCCCAGCACTTTGGGAGGCTGAGGCGGATGGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACGTGGTGAAACCCCTTCTCTAC
TAAAAATACAAAAATTAGCTGCGCTTGGTGGTGCGCGCCTGTAATCCCAGCTACTTAGGAGGCTGAGGCATGAGAATCGCTTGAAGCCAGGAGGCGGAGG
TTGCAGTCAGCCAAGATTGCACCACTGCACTCTGGCCTGGGTGACAGAGAAAGAAAGAGAGGAAAAGAGGGAAGGGAGGGAGAAAGAGGGAGGGAGGGAG
GAAAAAGGAAGGAAGGAAGGAGGGAGAGAGGAAGGTGGAAAGAAGGATGGGAAGAAAGGACAGGAAGGAAGAAGAAAAGAAGTCCATCCATCCCATCCAT
CATGCTTCTTCACCTGTCCAGTTTCTATCTATTATGGAAACCCATGATCTAGGTTTCCCCACCGTGGGAACAATGTTACTTAACTGCTTCAGCCCAGGTA
GTGGTTTTATCACTAAATGGGAAGATTTCTGTCCTAATCAGTATCCTGTCAACCTAGTAGCTTAAGGACAAGCATTAGATTTCAGCTTTTCTTTCCTACC
TTTTTAGTGGGGCCGCTCCTTAACTGAAAACAATTTCTCAAAAGTACTCTCCCACTATTTCTGCAGACCCTCTGGAGACTTTGGGGTGTGGCTGGTTCCT
GAGCATATCCAAATGGTGCCTTCCCAGGTGTGTGTTCCCATCTTTGTGCCTCACAACAGTTCACTTGTATTTTCCCTCTTTGTCTGGCAGGACCAGTTTG
ACATGGTGAGTGATGCTGACCTTCAAGTCCTAGATGGCAAAATCGTGGCCCTCACTGCTAAGGTGCAGAGCTTGCAGCAGAGCTGCCGCTACATGGAGGC
TGGTAGGACTGGGTAGCCCCTCCAAAGTGCCCATAGGCTTAGGTTCATTCTAGAGGTCAGGAATTACTAAATGAATGGTTCAATGACTGCAGCATCTTGT
TGCAGCTAAGACCCCTTTGCTGGGCTCCCTTAGGCATAAAAAGAAATGTAGGATAACTAACGGCTTTTGTGTACCAACAAATGGACAAGATACGCATTTG
TTCTCCCTGCCACGATTATCAGTACACTGTCCCCACGTTTCCCTTTATTCCTGCTTCTTTAACTGGCTACGCCTAAGTAAGTGTTCAACCTCACACCCAC
GCCACTTGTAGATGGAGGARGAAAGAAAATYAGAAGAATAAATAATCCTGTATGGCTTAGTTTCCATGTGAGATGAYAGATCCAGAGCAAGGTGGAACAC
CTCAGGGAGCACCCACTGGGAAAGACAGAACTCCTTCCTCAGGGGTAGCAAGTGACCCCAGGSGGATGTGGTTTCAGAGCTCAAGGAATTATCTAGTGCC
CTGACCACACCAGAGATGCAGAAAGAAATCCAGGAGTTAAAGAAGGAATGCGCTGGCTACAGAGAGAGATTGAAGAACATTAAAGCAGCTACCAATCATG
TGACTCCAGAAGAGAAAGAGCAGGTGAGCTGGAAGGCTGTAGGACCGCTGTGCAGGTCCAGAGTGAACATCAGGGCTGAGCCCCAGAGGGCTGCTGTGRT
TCTGAGGAGTTAGAGGAACTTGCTTTTTCCTTCTAGGTGWACAGAGAGAGGCAGAAGTACTGTAAGGAGTGGAGGAAGAGGAAGAGGATGGTAAGTGTGT
GGGAGCTCCGAGACAGGCCCTGGAGGTGCCTTTGAAAATGGCAGGCACCAGATCAGCCGCTACACAATATCATAAACTGACAGGCAGTGCCCAGTGCTGC
CCATCTGAAAACGGGTGGTTTTATTTCTTGTCAGGCTACAGAGCTGTCTGATGCAATACTTGAAGGATACCCCAAGAGCAAGAAGCAGTTCTTTGTAAGT
GGAGCTCTCTTCCTTCTTTGCTTCCCTGTGGTCTTATCCTGGTGACATCTCATTCACTTGTCTCCCTGTCTCACAGGAGGAAGTTGGGATAGAGACGGAT
GAAGATTACAACGTCACACTCCCAGACCCCTGAGGGGCCCACGGTCAGGACTGGTGGGGACTGCAGGATGTCAGAAGAGTGAGATGTCTTGCACTGGCTA
CCTTGTTTTTGGTTGGCTTTTGTTGTTGTTCCTGCTACTTTCACCTTTAAGCAGAGCAGTCAGGAGACAAGCATAAACCAGAGCACTGGGTAGAGAGGAT
GAGGGCTGGTGGCTGGGGGTAGACCCAGCCCATTTCATTGTCTAAATTGCAGTAGCTTGAGGTTAACATTTAGACTTGGAACAATGCTAAAGGAAAGCAT
TTGGCAATATTTATTATAATTTAATTTTATATAAAAATATTTAATTTCCTCTGGATAGTCAAACCTGCCAGATATCAAACCTGAGGAAGGCAGAAGTGAA
TTTGGAGAACTAGGGTAGAGAGAGGTTGCTATAAAACGAGCATTTGGAGGGCCCACGGCTTCACTCAGGACCTGCTGGGCTTGTGTACCCCAGGAGCCCT
TTTAAGTATCTTTTGTACGCTTTTCACCCCACCCCCAAGTCCTGGGAGAAATGCAGGCAACACTGAGACATGGGAGAGGCCAAGATATGCTTGACAGAAA
GGGTGATTTTGAGGCTCAGTTAATATTTCAAAATTGTAACCGTAGCAAAACTGCATTGGTATTTAGAAAAATAAAAAATTTCCAATATGTAGTGCTGTGT
TATACCTGCCTCTGCCATGCAGCATCATAGCCTGTGGGAACCRGGAGGGCTTCCCTTACCACCCAGAGCAGAGGAGGAAGGTGATGGAATATGGGGTGAG
GGGAGGAACCTGGTGGCCCCTCCCTGAGATGGCCAGAAAGCCCTTGGCCTCACCTGGGACTGACCAGGCAGCCCTAGTCTAGGCACAAGGTGCCCTTTCA
CCCTTCATGGCTGTGGGAATATTTCCTCTTACTCTTTTTCTCCCATACAGCTACTGCCAAAATGCCCAAACTTGGGCCAAATGTTGCCCAAACTTGGGCC
AAAAATGTTGCCCAAGAGACCAAAACAGAGGAAAACAGTTTCCAAATCTATGTAGATCATGAGCAGAAATCTGAGGCTTGAATAAAGGGCTGAGAGGGCA
GGAGCTCTTTGGGGTGTCCAGAGCAGACGCCCATCCCAAGGACTTCCATGGAGTGGGGGGAAGGCTGGGTAGGTTTGAGTTTTATCGTCAATATAATAAA
TTAATCAGAAGCTTTCACAAAACAAACACCGCGGCTCYGCTGAAGATAAAATGGGGCTGGGAAAAACCAAACACCAAGTASAAACCAGCTGACCAGTGTG
AGGTGTTGTAGTCCAGTCTCCCGGGCCCAGCAGTTCAGTGGCCACGTAGAGATTCAAGGGCCTCTTGTTGGCTGTTCTCCAGGTTTCCAAGAACCGGTCA
GTAAAGCTGGTTTTTCAATTGGTGCAGGACGCCAATCACAATCTCCCGCAGGGTCTGGCGAGGGCAGCAGAGGAAGAAATAGACAATGCCCAAGTCAACG
CAGAGTAGTTTCCAAGATGCCTGCCTAGATCAGCCATGTACTTTAGAAAAGTGCTTTAAAAATAGCCCCCCGGGGGCCAGGTGTGGTGGCTCACGCCTAT
AATCCCAGCACTTCGGGAGGCCAAGGCGGGTGGATCACCTGAATTTCAAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAA
TTAGGTGTGGTGGCACATGCCTGTAATCCCAGCTACACAGGAGGCTGAGGTATGAGAATCGCCTGAACCCAGGAGGTGGAAGTTGCAGTGAGCTGACATC
ACACCACTGCACTCCAGCCTTGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGCCCCCAGGAAGTACTGATGTCTGCAGTTTAATTTGAG
GTGCTCCTGAAGCAAGATGGAGAGATGGAAATATAGTAAAATGTTTCGGTAAAATTTAGGGAGCGGGTATACGAGTGTTCACTGTGAACTCCTCTCAACA
TCGCAATATGTTTAATGTGTTTCACAATAAAAATGTTGGGAAACGAGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCG
GGTGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTTACTAAAAAATACAAAAAATTGGCCAGGTATGGTGGCACAC
GCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGC
CTGGGCGACAGAACGAGACTCCCGTCTCAAAAAAAAAAATGTTGAGAAACAAACAAGAAATCTCAGACACAAGTTTAAAACCTCAGAAAAAGCAACCAGA
CTTCAATTAGAAGACTTAGTGCAATACCATTAGCACATCTCCATTATAAATAAATTTTTAAAAAGCTCTTGGGGCAACTACTTTAGGGGGCCTAAAGGTA
GGGTCCCAGAATTTGCGTTTCCAATTCTGCTGCAGATGCCTGGGGCTTCCATACAGGGGCAGCGATAACATGGGCTAGACAAAAGCCAAGAGCTGGACTT
CACATTGAGCTCACGTCACACTTGCCGAATGAAACCGTAACATGAAGATGTGGGTTAGACAGCAAAGAAAAGGGAAAATACCAGGGCCCTCAAAGCTGTA
GAAACGCCCTTAAGATCTAAAAGCAGCTGCCACGCTTTTCTCAACAGCTGATGGCTTGGGCCACTTTGCTTGATGGTAGAGAAAACCGCAGACCCTGTGC
CTATTGTTGCCCCATACCTGAGGCTTACAGTGCTCCTCGATCCAGCTGAAGACACAYGCTGACAGCTCCTGGAAGCTGGCCACTGAGATGGAGGCATTGA
AGGACTGGAACAGGGAATCCATGATGCCTTGAAACACGTTGAACTTGACCTGGTCAGAGACCTGGTCCTCCCCTTCATGGGGGTTGTCCYGGTGTGCCTT
CACAATCTGCTCATAGTTCCTAAAAGCATGCAGGCCAGGGCTGAGGTGCTGCAGCAGCTCCGCCCACCCAAGAAGAATGACGGGACTATCCTGTGTACTC
CCAGGAATGGCAGCCCCAGAGAGCTTCTGGGTGGGGTTCAGTATCAGGGAGATACTGCTTCCAGGTCAGGAAAGGTGGCCCTCTCTCTCCAACCTTCCTT
ACATTAATCCAACAGGCATTTCCTGAGTGTCTGCCATGTGTAAGGACAGTTGGGGATACACAGTCCTACTGGCTAGCTCAGGAACTAAGAGTATTATCTG
TACAGCAGTAACTGATGTGGCCTTTGAACAAGGGAGGGTGTGCAATGAAGTTGCCTCAGAAGTTCTGGTTCCCCCCATTCAGCACCCCTCTTACACTTTC
ATGATCTTTAGGGCGGTGACATCCTTGCGTAACGTGGACACCTCCTCCTCCTGCTTTTTCTTCTCCTTGTGCAAAAACTGAATGTAGTCAATGGCTAGGG
TGGGGGCAAGAAAAAAAGGACAGGTACAGAAGTATTCTCAACCAAGAAGATAAGGCTGACTTTGTTCCCCTTACCCCAGACCCCAACTATCCCATGGCAA
TCACCACACCAAGGCCGAGCCATGGGTGGGTAGGAGGCACTGGCCTCTTCACAGCCCCTCTTGGCTCCATCCCCTCCAGTGCTTTCCCTAGCCATACTCT
TTTGTAGAACGATGGCTTTGCTGAGCTTTTGGGAGCCAATGGAGAAGTCCTGCTGCTGGCAAGTGGGGACGATGGTCTGAAGGTCATCATAGCCTCTCTG
TGGAAACAGCAGGGGAAATGGGTTCTTTAACCCTGAGAGATTAAAGCAAAATGGCACAAAGTTCCTCCATGACACCAAGTTCTATGCTCACAAACTCAAT
GGGGTGGGAAGGCTGCAAGGGAGGTGTTTGTGCCTGGGACTATACTACCTGCCCACCCCCTAGGGTGCCTGGGACTGTCTGAGTGGGTCAGGGCACAGGG
AAGCTAAACTATGCAGGGCCCTCCCGCACTGGCTGAGGCACAGGCCTCCCTGTTCACCTTGATGGCGTCCCTCCTCTTCTGCTCAGCCTGAGTGTGTGCG
CGCCGCCGCCGGTCTTTGTAGGACTCCTTGTAGGCCTCCTGGTGGTAATCACTGTCCTCATCATCTACGCTCAGAGATGGGGGCAGGGAAAGGTCATCTT
GGGGCCCAGTGGGGTCCAGCTAGCCCACCTTTCCCCAGCTGGGAAGAACCTGGTGTCCAGAGAAGGCAGATGGACAGAACCACCTAATGTTCCAGATGAG
GTGAAAGATGGTGAGACCTTGTGTCTGATACTTTGGCTCCAGCACCCCTGTGTGGATGGCTGGGGCTTCCCTGTCTAGGAAAGGTACTACAATTATGACA
TATCTGAGCCCCCTGAGGTCGGGGGGGATGTTACTGCCTACCTGTGTTGGGGACAGAAGAGGCACTGGTGGAACCGATGCTATTAGCTCTGGACACTACA
CTCCCCTTGCGGGTGCTTTCTACAAAAAGCCCTGGAAAAGAGAGGCCCCAATCACTAAGGGGTGGGGTGGGGAACATTGCCAGACCCTCAGACACCTGTA
GGACACAATGGCTTTCTTTTATTTATTTATTTTTTTTTTAGACAGAGTCTCGCTCAGTCGCCCAGGCTAGAGTGCAGTGGCGCGATCTCGGCTCACTGCA
AGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTTGTATTT
TTTAGTGGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGGTCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGG
GGTGAGCCACCGCGCCCGGCCACACAATGGCTTTCTTAAATGCTGACCTCTTCCCTTCAACCCAAAGCCAACCATACTGGGCCCCCCACTTCCTGCCAGA
CCACGCTGCAGTGCTCTGCTCCCTAGTGTCTACACTGCTCCATAGGCCTGCATGATACCCCCCTGGCTCACAAACGGGCATGTGGACGTGATGAGGGTGT
GAGTGATCAGCTGCTCCACTGAGTGGTGAGTGATCAGTTCCACCACTTCCCTGTTCCAGAGCAGAGGGAACTAGGTGTCACCCTCAGTTGTTTTCTGCCC
TTGTCCTTCAGCTCCTGCTGTCTCAAGCCAGGAACTCTGCTCAGGGAGAGTGGACTGTGCTCAGGCGTGGTTGGCAACGCCACAAGAATCTAGAGAGCCT
GGGCGGGAGTGTCCCTCTAGAGCTTAAGATGGGGCAGCTACTCACCGGGGTCCAGGCTGTTGTCGCTGTAGGCATACTCCACCTGCGGCACAGAGCACGG
GAAGGGCCCGTCAGACCTCCGCCCCTAGGGGGAGGCGCCCCTTCCACTGCAGGCACGCACAGCGCGCCCCCCATTCCGGGAAGGCGCCTCTGTCACCCTG
CGCGCTTGCACACACACAGCCCGGGGTGCGCGGGCAGCTTAATGAGTCCCCCGAGACTGGCACAGGCTAGGGCGTGCGAGTGCCTCCCCTGTGTATGATC
CCTTCCGCCCCTACTCCACCCCAGTGCCCCGTTCCCCCGACTCGCGCGCACACGCCTCGTTTGTCTCCCCACCTTGGCACACGCGGGGTGAGAGCTGTCT
TCTCTGCAGCCCCGGGGCACGGAGAGCGTGGGGGACTTTGGGGACAGGAGGGAAGCCCCTCGTCTTCCGGCCCCCCTACGTGCACGAGCCCGACCCGCCC
TCCCCTCGCCGGCGTGCGCGCCCACGGGGCTTGCCTTGACCCAAGGGTCCTCGGGAGAGGCGCCCGGCTCCGTCATCTTGTACCCACCGGACCGGAAACG
GGCCAGCGGGCKGGCCCCCTGCGGCGAGGAAGCGGGTGGCGTGCCCACGTGACCCGCGCCCGCCAATCCGCGACCGAGAGGTGGGGCAGGGCGAAGCATC
GCGCATGCGCAGCCCAAAGACTTTACTCCACGGTTCCAGCCGTCAAGGCCCGGCGCTTGGCCTGGCGCCAGCCTCCTTCGAGACTGCTCCCCGCCGTGCC
TGCCCTCCCCGGGTTAGGCAGTGGAATGGCGGCGACATGAAGCGCGTTTTGTAAGATGGAGTCCCCTCAATTGGCTTGTCAGCACACCGCCGCAGATAGT
GTGTGCACGCGCACTGTCCGGCCGGCCGGCTCCCCACGTTACCCTGAGGGCGGCCTCCCCGCGCTCACCGGACCTGCACTGCTGGCCGGTGTGTCAGGAA
CCGGGCAGAGAAGCCCCCAGCCACATCGTCCGACCCCACCAGGCTGCAAGCTCTGTGAGGGCAGAGGCCCCGCCTGGCGCGCGGAAGGCTGATCTTCCAA
CACCCAGCCCAGTGTCTGGCAGGATGCATGTGGAATGAACCCTTGCAAAGAACCTGCTAGCTAGGTTATGCGGCCTCTCATATTAAAAACAAAACAAAAA
CAATAAAACACGGCAGTACCTAGAAAGTCTACACCTTACTCAGAAGAACACAGCTGGTCAGTGGGAGGGCCAAAGCTCGCCTCTGGCTAGCCTCAAAGGC
CATTCTCTTAACCACTGCATTGCCCAGGCTTCCAGCTCAGGCCTGGGCCCTGCACTTGTGGCTTAAGGATCCCAAAGATACTTAGGGGCATTGGAACAGG
AAGCAGACACCATACAAGCAACATCTCAGAACATTCACCTTTAATTCTGTTACAGGTTCCAGTATTTGCGCTGGCCCTAGTCAGCTGTGGGTAAGAGTCA
CCCATGGGCAAGAGTGGGGAGGGGACTGCTCCCCCATGAACCACATCCTCAGTGTTGGCCAAATACCAGCGTGTTGGGTAGGCTTCCTGTGTCCACCAGG
CCTGGCCATGTCCTGCACAGTATAGCTTGGACCTCTGG


SNP Information

Context             (SEQ ID NO:16036):
GCGTGCGCGCCCACGGGGCTTGCCTTGACCCAAGGGTCCTCGGGAGAGGCGCCCGGCTCCGTCATCTTGTACCCACCGGACCGGAAACGGGCCAGCGGGC
K
GGCCCCCTGCGGCGAGGAAGCGGGTGGCGTGCCCACGTGACCCGCGCCCGCCAATCCGCGACCGAGAGGTGGGGCAGGGCGAAGCATCGCGCATGCGCAG
Celera SNP ID:            hCV27839973
SNP Position Genomic:     16712
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,1)   caucasian(G,38)   total(G,69|T,1)
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:16037):
GCTCTGATGTGGAAAGACAGGAGGTGTGGGGAAGGAGGGGGATTTCGTGTGTTTGCATGAGTGTGCGCTTCAGGCCTTGGGAGTTGGCAAGAGGGAGGGA
R
GGAAGGAGAGCAAAATCTTCGGAAGGTGTTTCTTGTACCTGAGGGATCCTGCCCTGAATCTCCATAGTCTCCACTGTGAACTGAGGAGGGGAGGGGTGTG
Celera SNP ID:            hCV27839974
SNP Position Genomic:     4181
SNP Source:               Applera
Population(Allele,Count): african american(A,30)   caucasian(A,34|G,2)   total(A,64|G,2)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:16038):
GCTCAGACTCCTCTGATTGCTCCTTCTCTCTCCTCTGCCAGGTGGTGGTGAAGACGCTGGAGCAGCTGGCGCAACAAGGCAAGATCAAAGAGAAGATGTA
Y
GGCAAGCAGAAGATCTATTTTGCGGATCAGGTGAGGAGAACTTGCGCCGATTGTCACCCATGAGAGCCCGACAACGGGTGAATCTACTCCTGGTGTGAAC
Celera SNP ID:            hCV25769264
SNP Position Genomic:     6592
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16039):
TTTATCGTCAATATAATAAATTAATCAGAAGCTTTCACAAAACAAACACCGCGGCTCCGCTGAAGATAAAATGGGGCTGGGAAAAACCAAACACCAAGTA
S
AAACCAGCTGACCAGTGTGAGGTGTTGTAGTCCAGTCTCCCGGGCCCAGCAGTTCAGTGGCCACGTAGAGATTCAAGGGCCTCTTGTTGGCTGTTCTCCA
Celera SNP ID:            hCV2350913
SNP Position Genomic:     12081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:16040):
TGAGTAAAGGCCGGGCAGAAGCTGCGGCGGGAGGTAACGGCGCCGTGGGCGCGGGGAAGACCCGGGAGGGCAGTGGGTGAGGAGGTCGGTTGAGTGGCCC
S
CTCCCCTGCCTTTCTCTCCGTAGCCGCCGGGATCCTCCTGAGGTACCTGCAGGAGCAGAACCGGCCCTACAGCTCCCAGGATGTGTTCGGGAACCTACAG
Celera SNP ID:            hCV25767906
SNP Position Genomic:     6250
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,36)   total(C,69|G,1)
SNP Type:                 UTR 5;INTRON;TFBS;hmCS


Context             (SEQ ID NO:16041):
TGTGACTCCAGAAGAGAAAGAGCAGGTGAGCTGGAAGGCTGTAGGACCGCTGTGCAGGTCCAGAGTGAACATCAGGGCTGAGCCCCAGAGGGCTGCTGTG
R
TTCTGAGGAGTTAGAGGAACTTGCTTTTTCCTTCTAGGTGTACAGAGAGAGGCAGAAGTACTGTAAGGAGTGGAGGAAGAGGAAGAGGATGGTAAGTGTG
Celera SNP ID:            hCV15969190
SNP Position Genomic:     10399
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,10|G,1491)   total(G,1491|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16042):
AAGGACTTCCATGGAGTGGGGGGAAGGCTGGGTAGGTTTGAGTTTTATCGTCAATATAATAAATTAATCAGAAGCTTTCACAAAACAAACACCGCGGCTC
Y
GCTGAAGATAAAATGGGGCTGGGAAAAACCAAACACCAAGTAGAAACCAGCTGACCAGTGTGAGGTGTTGTAGTCCAGTCTCCCGGGCCCAGCAGTTCAG
Celera SNP ID:            hCV25645632
SNP Position Genomic:     12038
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,34)   total(C,65|T,1)
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:16043):
CAGTACACTGTCCCCACGTTTCCCTTTATTCCTGCTTCTTTAACTGGCTACGCCTAAGTAAGTGTTCAACCTCACACCCACGCCACTTGTAGATGGAGGA
R
GAAAGAAAATTAGAAGAATAAATAATCCTGTATGGCTTAGTTTCCATGTGAGATGATAGATCCAGAGCAAGGTGGAACACCTCAGGGAGCACCCACTGGG
Celera SNP ID:            hCV11626739
SNP Position Genomic:     10020
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,17)   caucasian(A,17|G,15)   total(A,32|G,32)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   JBIC-allele(A,695|G,800)   total(G,800|A,695)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16044):
AGTATCTAACATCCAGCAGATATTACTCGTTAAACTGAACCAAACCACTTTTAAGGCTGACTTTCCTAAAACAGGCTGCATTGTGTTACTCATCTAAAGA
Y
AATTCTCTAAAGGAGGGTTTGGCAAACTTTTTCTGCAAATGGCCAGACAGTATTTTTAGGATTTGTGGGCCATATGTATCTCTTGTCATGGCTGCCTGTA
Celera SNP ID:            hCV7529590
SNP Position Genomic:     8331
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16045):
CCCCACGTTTCCCTTTATTCCTGCTTCTTTAACTGGCTACGCCTAAGTAAGTGTTCAACCTCACACCCACGCCACTTGTAGATGGAGGAAGAAAGAAAAT
Y
AGAAGAATAAATAATCCTGTATGGCTTAGTTTCCATGTGAGATGATAGATCCAGAGCAAGGTGGAACACCTCAGGGAGCACCCACTGGGAAAGACAGAAC
Celera SNP ID:            hCV25743571
SNP Position Genomic:     10031
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(C,1|T,39)   total(C,2|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:16046):
GCTGCAAAAAACATGTAAAAGGCACCGGAAGACGCCCCAGCCAGCCTCTGGCCTCACCAATCCTCATTATTTTTCTATCCACGAACACTAGATAATTCTG
R
TGTGTTTTACTGCTCTGTCCTTTGCATGTTGTCTTCCCTGTACCTGCTTCTCTTCCTGGCCAGCTCTTTCTTTCCTTGAGGATTTCACTTAGACATCACC
Celera SNP ID:            hCV7529591
SNP Position Genomic:     7624
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16047):
GAAGATCTATTTTGCGGATCAGGTGAGGAGAACTTGCGCCGATTGTCACCCATGAGAGCCCGACAACGGGTGAATCTACTCCTGGTGTGAACTCTTTGGG
R
ACAAGGCCCCCCATGGAAAACTCACCTGTCTTAGGCCACCATCCTTAAATCAAGGTGTGTACTCCTCTTGTTAGGATCCCAACTTCACGAGGTTTCCAGA
Celera SNP ID:            hCV29062130
SNP Position Genomic:     6701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16048):
GCCTTGGGAGTTGGCAAGAGGGAGGGAAGGAAGGAGAGCAAAATCTTCGGAAGGTGTTTCTTGTACCTGAGGGATCCTGCCCTGAATCTCCATAGTCTCC
M
CTGTGAACTGAGGAGGGGAGGGGTGTGCTGGGGAATAAATCTTGTATGAGAACAATCTTTAAGAGACTGATGCTGAATGGTGTCCTACCCTTGATAGGTC
Celera SNP ID:            hCV7529592
SNP Position Genomic:     4254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:16049):
GTATCTGTTCTGCAGCCCCTAGTGAAATCATGTGATGTGAGACAGAAACCTAAACATGGTACTTGATTCTAAACCTGTGCCAGTCTATAGCCTCTGCCTC
S
CCAAGCAGAGCTCAAGCCAAACGCTTCTGTCCTCTTTCCTTCTGCATTAACCCTTTGCTGATCCTCAGGGGCCACTCCCCCAACACCCCTGTACTTGGGT
Celera SNP ID:            hCV27845836
SNP Position Genomic:     3755
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,38|G,2)   total(C,76|G,2)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:16050):
TAGCAAAACTGCATTGGTATTTAGAAAAATAAAAAATTTCCAATATGTAGTGCTGTGTTATACCTGCCTCTGCCATGCAGCATCATAGCCTGTGGGAACC
R
GGAGGGCTTCCCTTACCACCCAGAGCAGAGGAGGAAGGTGATGGAATATGGGGTGAGGGGAGGAACCTGGTGGCCCCTCCCTGAGATGGCCAGAAAGCCC
Celera SNP ID:            hCV7529585
SNP Position Genomic:     11543
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   ;POOLE|_CEPH(A,54|G,134)   total(G,134|A,54)   (A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:16051):
AAAGATAATTCTCTAAAGGAGGGTTTGGCAAACTTTTTCTGCAAATGGCCAGACAGTATTTTTAGGATTTGTGGGCCATATGTATCTCTTGTCATGGCTG
S
CTGTACAACTGCCACAACTACTCACCTCTGCCACTGTAGAACAGAAGCAGCTGTAGACTATGTAAATGAACGGGTGGGGCTGTTTCAATAAAATTTTGTT
Celera SNP ID:            hCV7529586
SNP Position Genomic:     8426
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,9)      total(G,2|C,9) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16052):
TAGGACCGCTGTGCAGGTCCAGAGTGAACATCAGGGCTGAGCCCCAGAGGGCTGCTGTGGTTCTGAGGAGTTAGAGGAACTTGCTTTTTCCTTCTAGGTG
W
ACAGAGAGAGGCAGAAGTACTGTAAGGAGTGGAGGAAGAGGAAGAGGATGGTAAGTGTGTGGGAGCTCCGAGACAGGCCCTGGAGGTGCCTTTGAAAATG
Celera SNP ID:            hCV15969189
SNP Position Genomic:     10440
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,30)   caucasian(T,40)   total(A,6|T,70)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,31)   caucasian(T,36)   total(A,7|T,67)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,162|T,1335)   total(A,162|T,1335) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16053):
AGGCTGGGGTCGTGCCCTTTGGAGCCTTGGGCGTTTTCCACATCACTGGCTGGATTTCCCCAGACCCAGGCTCAGACTCCTCTGATTGCTCCTTCTCTCT
Y
CTCTGCCAGGTGGTGGTGAAGACGCTGGAGCAGCTGGCGCAACAAGGCAAGATCAAAGAGAAGATGTACGGCAAGCAGAAGATCTATTTTGCGGATCAGG
Celera SNP ID:            hCV25768829
SNP Position Genomic:     6523
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,38)   total(C,74|T,2)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16054):
TGGGCCACTTTGCTTGATGGTAGAGAAAACCGCAGACCCTGTGCCTATTGTTGCCCCATACCTGAGGCTTACAGTGCTCCTCGATCCAGCTGAAGACACA
Y
GCTGACAGCTCCTGGAAGCTGGCCACTGAGATGGAGGCATTGAAGGACTGGAACAGGGAATCCATGATGCCTTGAAACACGTTGAACTTGACCTGGTCAG
Celera SNP ID:            hCV7529579
SNP Position Genomic:     13657
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,30|T,10)   total(C,65|T,11)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16055):
GCGCTTCAGGCCTTGGGAGTTGGCAAGAGGGAGGGAAGGAAGGAGAGCAAAATCTTCGGAAGGTGTTTCTTGTACCTGAGGGATCCTGCCCTGAATCTCC
W
TAGTCTCCACTGTGAACTGAGGAGGGGAGGGGTGTGCTGGGGAATAAATCTTGTATGAGAACAATCTTTAAGAGACTGATGCTGAATGGTGTCCTACCCT
Celera SNP ID:            hCV7529597
SNP Position Genomic:     4245
SNP Source:               Applera
Population(Allele,Count): african american(A,22|T,4)   caucasian(A,24|T,6)   total(A,46|T,10)
SNP Type:                 hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:16056):
CAAGTTCAGAGCTCTGATGTGGAAAGACAGGAGGTGTGGGGAAGGAGGGGGATTTCGTGTGTTTGCATGAGTGTGCGCTTCAGGCCTTGGGAGTTGGCAA
R
AGGGAGGGAAGGAAGGAGAGCAAAATCTTCGGAAGGTGTTTCTTGTACCTGAGGGATCCTGCCCTGAATCTCCATAGTCTCCACTGTGAACTGAGGAGGG
Celera SNP ID:            hCV7529598
SNP Position Genomic:     4171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:16057):
AACTGCATTGGTATTTAGAAAAATAAAAAATTTCCAATATGTAGTGCTGTGTTATACCTGCCTCTGCCATGCAGCATCATAGCCTGTGGGAACCGGGAGG
G
CTTCCCTTACCACCCAGAGCAGAGGAGGAAGGTGATGGAATATGGGGTGAGGGGAGGAACCTGGTGGCCCCTCCCTGAGATGGCCAGAAAGCCCTTGGCC
Celera SNP ID:            hCV26309344
SNP Position Genomic:     11549
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,12)   total(G,12|-,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:16058):
TTTTAAAGGCTAAGGAGGTTGTAGGTAGCAGAAGGCTTTAAAAAGTAGCACCTTACTCCTCCACTGGATGGTTTGAGCTGCAGGGACAGCTGCTCTTTGG
Y
CTTCAGCTCACCTCAGAAACTAGAAATATTTATTTCAGGCTCTGTCCCATTGGCCACTGTGGTCAGGGGTGGAAAGCACCTGCCAGGTGTTGCCCTGAGA
Celera SNP ID:            hCV27836216
SNP Position Genomic:     5028
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,20)   caucasian(C,19|T,17)   total(C,37|T,37)
SNP Type:                 hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:16059):
TCCATGTGAGATGATAGATCCAGAGCAAGGTGGAACACCTCAGGGAGCACCCACTGGGAAAGACAGAACTCCTTCCTCAGGGGTAGCAAGTGACCCCAGG
S
GGATGTGGTTTCAGAGCTCAAGGAATTATCTAGTGCCCTGACCACACCAGAGATGCAGAAAGAAATCCAGGAGTTAAAGAAGGAATGCGCTGGCTACAGA
Celera SNP ID:            hCV15969200
SNP Position Genomic:     10163
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,31)   caucasian(C,19|G,21)   total(C,26|G,52)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   JBIC-allele(G,692|C,811)   total(G,692|C,811)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16060):
GGAGGCATTGAAGGACTGGAACAGGGAATCCATGATGCCTTGAAACACGTTGAACTTGACCTGGTCAGAGACCTGGTCCTCCCCTTCATGGGGGTTGTCC
Y
GGTGTGCCTTCACAATCTGCTCATAGTTCCTAAAAGCATGCAGGCCAGGGCTGAGGTGCTGCAGCAGCTCCGCCCACCCAAGAAGAATGACGGGACTATC
Celera SNP ID:            hCV2769191
SNP Position Genomic:     13790
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,28)   caucasian(C,10|T,22)   total(C,18|T,50)
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16061):
GTAAGTGTTCAACCTCACACCCACGCCACTTGTAGATGGAGGAAGAAAGAAAATTAGAAGAATAAATAATCCTGTATGGCTTAGTTTCCATGTGAGATGA
Y
AGATCCAGAGCAAGGTGGAACACCTCAGGGAGCACCCACTGGGAAAGACAGAACTCCTTCCTCAGGGGTAGCAAGTGACCCCAGGGGGATGTGGTTTCAG
Celera SNP ID:            hCV25743978
SNP Position Genomic:     10077
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,39)   total(C,1|T,75)
SNP Type:                 INTRON


Gene Number:                 36
Celera Gene:                 hCG17046 - 66000115636126
Gene Symbol:                 ICSBP1
Protein Name:                interferon consensus sequence binding protein 1;ICSBP;IRF-8;IRF8
Celera Genomic Axis:         GA_x5YUV32W3V0(2272519..2307963)
Chromosome:                  Chr16
OMIM number:                 601565
OMIM Information:            INTERFERON CONSENSUS SEQUENCE-BINDING PROTEIN 1;ICSBP1


Genomic Sequence (SEQ ID NO:12196):
CAGGAGTTCGAGGCTGCAGTCAGGCATGATTGCAGCACTGCACTCCAGCCTGGGAGACAGAGCAAGCCCTTGTCTCTTAAAAAAAAGAGGGGGCAGGAGA
GAAGGGCAGAGTGATGTGATGTGAGAAAGACTCACTCGCCATTCACAAAGCCATTGTGGGCTTTGAAGATGGAAGAAAAGGCCGTGAGCCAAGGCAGGCA
GCTGGAGAGAAGCTGGAAAGACAAGGAGTGGATTCTCCGCTGCAGCCTCCAGGAGGAGCCGGCTCTGACGACACCTTCATTTTAGCCCAGTGACACCGTG
TTGCACTTCTGACCCGAAGAACTATAAGATTATAAACTTGCGGCCGGGCACGGTGGCTCTTGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGG
TTCATGAGGTCAGGAGATCGAGACCATCCTGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCC
TCTAGTCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATGGCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATTGGGCCACTGCACTTCAGCCTG
GGCAACAGAGCGAGACTCTGTCTCAAAAAGAAAAAAGAAAAAAGAAAAAAAAAGATTGTAAACTTGTGCTGTTTTAAGCCATTAAGTTTGTGATAATTTG
TGACAGCCACCATAGGAAGTGCATTGAGATTTGTAGTATTTTGCGGGGTGAAGAGGAGGGTGAAAAGGAATGGACAAGCCTGTCAGGTCCCTGGATGGAG
ATTTAATGACGATGCCAAGACTATGGATCCTAGTGAGAATCCTGCATCCCCCATGCCCTACAGCTACCAGGGAGATGAGGCACTGGGAGAGTTAGTACTC
GGCTGGTGGTTTTGTGCCCTCTGGGCCTAGAAAGTATGTAATGCTGCCATCCCTGTATGCGCAGAAAGATGGTTAATGCAGCCCCACTCAGGGCAGTTTG
GGGGCTTACCTGAATTTCCCCACTGGGAGCCTCTCTCCTGACTTAACCTCAACAGAGGCATCTTCTTCCAAGTGCTGCTTGTAACTCAGCCCCCAATGCC
TGAAGACACACCTTCAGCCTCTCTCCTGACGTTCCCCTGCCTTTCCAGGAGGCCCTGGAGGGAAGGACCCCACACTGGCTCTCTGCTGAGTGGCCCAGCT
CTGGCCTATGGGACACGTGTGCGTTTGCCTTGCCCAGCACACGCTGGGGCTGCCACCATTCCCAGAGCAGTGCAGGCTCTTGGCGCCACCACCCAAGTGC
CCTGTCAATTTCCAGGGCAGGAGTCAGAGCCCCATCTGCAGGTGACTCTGGCTTTCTCAAGACTGAGTTGACACCTGTGCTCTCAGCAAACATGTTTCTG
AGCACTCTTGAACTCACTTGCTAAGCTTGGCTTGGAAAGTGTGAAGGGAGAGCTGGGGTCCGCAGCTGGAAAGACTCTCACCTCCTGCCTCTCTCCTGAA
CCCATTTGATGTCTCTCCTCTGGCCAAGGGGTAAATCTGCACATGTAAGTCTCATACACTTTGGCTCTTCATGGAATTGGTCCCTGTAGAAGCCGGGCCA
GAAAGAATCTAGCACCCTCTTGCACTACAATTTATTGAGCCTTTACTTTGTGTCAGGCACCGTTCTAAGCAGTTTATATCTAAGATTGGATGGATTTCCA
CCACTCCTATTCCCATTTCGAGAAAGAGTACCCTTTCCCAAGACAGGAAAAACAGCCAGGGCCATAAAGGAGGGCCTTTTGTGACATCATCAGAAGTGGA
GAAGAGGTACCCAGATCCCATTAGCAAAGTGCAGCCGAAGAGTCAWGCTAAGTTCACTGTGTCCSTTGCGGCATTGCCTTCCTCAGTGCTGGCTGCCATC
ATACAACCCCATAGCTTGTGTGGCTTAAACAGCAGACATTTATTTTCTCAGTGTTCTGGAGGCTGGAAGTCTGAGATCAGGATGCCAACATGGTCAGGTT
TAGGGAGGGCTCCCTTCCTGGCTTGCAGACAGCTGCTTTCTCACTGTGTCCTCACATGGGCAGAGAGTGAGTGAGAGCAAGCTCTCTGGTGTCCCTAGTC
CCTCATCGAAACTTCATTACCCCACGAAGGTCCCATCTCCAAATACCATCACGTTGGGGGTTAGGGCTCAACATATGTATTTGGGGGGACATCATCTGGT
CCATAGCAGGCACTGTCCGGGTCAGAAGGCCTCCCAGGGATTTGGTCCTGAGGCTGGCTGTGGAAGGTGCCCTTGCTTCATCACCTCTGCACCTGCTCCA
CTGTAAGAACTGGGCAGACAGATTGGCAGCTTAGGCCAAGCAAGATAGATGGTACGGAGGCTCGACAGGAAGGTTTCTGGAGATCAGGAAGATAGGAATT
AAGGAAGGTGAAGAGGAAGAAAAAAGGACTCCATGAAGAGGAGAGGGTCTCTAAAAGCTGGAAACATAAGTGAGGAGGTGAGAACCAGTCTGAAGCACCC
ACCTGTGACCTGGTGGGGGCAGGAAGGTGTTAGAGGAGCTAGGGAGCTGACCAGACGGGAGGAACCCTTCCCATTCTTCATGGAGGCAGATTATCGCTGG
TCTGCAACTGGCATTCTTAGAGTTAGGAATCACTGTGTCCATTTTTCTAGACTTCTCTCATTGGTGATGATTTGACCTTTTCCTCTTGCACTAATGAGCA
AGGTGGAGGAAAGAGATCTCTCTCTCTCACACATATACTATCTCACTCAATGCCCACCAATCCTAAGAGGCAGGAACAATTGGGTTACGCCATAGTGAAC
TGCCCTTCTGTAGGTCAAAATTTAAATGTAGGTGATGTCACAGAGTTTAACCTAGTATTACCATCAATGCCATTATACAGATTAGGAGACTGAGGCTTCG
GAAGGTTAAGTCATTTGCTCAAGCTCACACATTTGGTGAGTCAGGGAGCTTGGATGTGAACTGGGGCCTAACTCCCAAACCTGCTGTGGTAGGCTGCCAT
CCATGGAAACAGGGGTTCCTGCGGGAATGTGTAAGAGATGAGGTTGGTAAGTATGACTTTTAGATGCCAGGAGTTGACCTGTGTGGCTACCAATGGGAAG
CCCCTGAAGACAGAAAGGTAGGGTAGCAAAGTAGAATCAACAGGGAAGGGATGAGGAGGCCGGAGGGTAAGTAGGCCACTGCGAGATCAGGACGAAATTT
ACTGGGATCGTGAGATGCTGGAAGGAAGGATCAGAGAATCTGGGACCATGCTCTGCATCTTTTTGCTGCAATAAATGGTATTGCATGAGATACCATTTAT
TGCCATGTGTCCTCATTGTAGTCATTTTTGTAATTTATATGACAAGAAAAAATGACAGGGTGATTTTTACATATGTGCATACCTATTTACACACCTTCCA
GATCAGGAGTGGTGATCTGAGCTCACTAGATATGCTCAATTAGGTAATAATCAATTCAGGTCATCAAATTGATCACCCAAATCAATTTAGGAAATTGATG
ACCTCAATTAAGGCAAATATATACAATGAAATATATGCAGCTGTTAGAAAGGGCTAGATCCCATATACTAAAATGGAAAGAAAGCCCTTTGAAACCTAAG
AAAACTGTGTTTCCATTATGTGAGTAGAAATCTTGTGTACACAGAAAAATGGTCTTTCTTCTTCCCCTCCCCTCCCCTCCCGTCCTCTGAGACGGAGTCT
TGCTCTGTTGCCCAGGCTGGAGTGCGGTGGCGTGATCTCGGCTCACTGCAACTTCCGCCTCCTGGGTTCAAACTATTTTCCTGCCTCCTGAGTAGCTGGG
ACTACAGGCGTGCGCCACCATGCCCAGCTAAGTTCTTTGTATTTTTAGTAGAGACAGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGGACTCCTGACCT
CAGGTGATCTGCCCACCTCGGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCACCGTGCCCAGCCAGAAAAATGGTCTTTCAATTGGAAATGTAATTC
CAGAGAATAAAGAATAGAACCACACTGTAATATGACAAGTAATAACACACACAAGCGCTAAAGGATTTTTTTTTTTTTTTTTTTTTTGCCTCCCGATATC
TGAGGGGCAGGCTCCGTGGAGCCTCCAGGCTGAGAGGCTGAGACTGGCAGAGCAGGCTGGGTTCTGGATTCTGATACTCCTGGGCAGGAGTGTCTCAAAG
ATTGAGACATTATGTTCATTCTTTGGGGCTCCTGTTCTTGGCACTATATCTAGCACATAGTAGTTGCCTCATAAATACCCATTAAATAAGAGCAGAACTA
AACACATCTGGTTAGAAATTGTTCCTAGGCAGCAAGGAACCAACACGTGGAAAATATGGGGTTTCTGGAGCAGTGTTAATGCAAGCCAGTTCCTGTAATG
TACATAGTGACACCTACTGCCAATGACACGTGCTGGAGCCCTTCCACTGTTGATTTCCTATATTCACTTACCCTTGTCTTTAAGTGGATGTTGGTGGAAA
CTTGAGGATACATCTTTGTGCAGCAGACAGCATTTGTAAGTAAATCTGTGTAGGCTTAGGGCCACATTGATAAAAATATATGAGAGTAAACATATACAGA
AGCTGTTTTAAGAACTTCTGATGTCCTAGATGCTCTGATTTCTGGAAGCTCCATCCCACATCGTAGCAAATATATTAAAACACTCTCATATTCTCTAAAT
ACTCTTAAATAATGTGAGTGTTAAAACAGTAGTTTCATTTGAAATTATTTGATGTTGCGGAACTCACTTTCTAATGACTATGACTTCCCGGCAATCACGG
CATTAGGGAATTCATACCAAGTGATGTCTAAGTTATAGTTTCAAAATATAATGAAACATTTATCCATCAATACATTACAATTATGAAATTAACATGTTTT
GGGGACCTTCATTTAAACATTTATTAATCTCAGATTTGCAGTATACTTTTTGTATTGTGCAGTCAATAAAATTTTCAGTCTCAAACATTTTCATAGGTCC
CTGAAAAGCTCAACGCAAAAAACAGCCCCCATGTGTGATTCTCTACTGGGCAATAAAAGCCAATCGCGACCCTCATTTTCCCCCCATTCCAGGGCTTCCC
CAGGATAGAACGCGGAAACGCTTCTTTTTCCGTTTCCAGGGATTTCTTTCTTTTTCCAGTGTCGTTCTCCCTCTCCCCCACTTCATTTTTACAATAAATG
TCAGTGCACACCCAGGAGCGGGTGGTCCCACAGGGGACATCTTAACGCCCACCSAGGAGCGGCTGGTCCCACAGAGGACCTCTTAACGCTGACGCTTTCT
GGAGAAAAGGATTTGTGATGAAAATTTCCCCAAGGGGACCTTCTAGCGCCTAGCACCTTCGATGCTCCTGTTTCAGTCGCGGTCTCAGCGGGCAGTGGCC
TCCTTTGAAGCTGGGATTCTCCTGCCCCTCCCGGGCAGCGCAGGCCACCGGTGACCCGGGACGGTCTGTAAACGACCTTCGCGTCCCCGTCCCCGTGGAA
TAACGCGCGGCGGGCATCACTGCCCAATATCCAGCGCTCGTGAAGGCGGAGACCGGCGGGGCAGCTAGTTTCTGGCTGTGGATTCTGATTAATGGGCCGC
AGGCGCACGGTCTGCACCGTCCGGCTCGTTGCTAGTGGCTCGCTCGGGAGCCGCCGCACTCCCGGGGCTGTCCGCCCGAGCCGGCCTGGAAGGCAGAGGA
CGCCTCCAGGTCGCTCCGCGGGGCCTCCGGAATTCCTGGGAAAGCCCCCCTGCAGCGCCGCCCCTGGACCCCAGGTGTGAGGAGCGGGGCTCGGCCAGCG
GCTCCAGAAGAGGCCCGGACCCCACTGCCGTGGCTGCCGGGGGCGGGAAAGTGATTTCTCGGAAAGCAGAGCACTTCGAAGAAGGCGGGCCGCGCGAGCC
AAGCTGACGCTATTGGTCGGTGTGGCCGTCGCTCTGCGCACCGCCCGTCCCCCCCACGACCCTTTTTAAGGCCGCGCGACCGCTGGCGCATCGCCTGGAG
CGCGGCAGCAAGCGTGGGAACGCGGGCGGCRRGACGGCGGCAGGACGGCGGCAGGTAGGCACAGTGGGCGGGTAGGGCGCCCGTGTCCCGCGCGGTCCGG
TCCCGCGGGGTCCCCGACGCCAGGCGGGGCGTGGGGGTGGAACTACCTACCGTAATGTCCCCGGGCGCAGCTCAGTGGCCACCCGTGTCCCTCTCTGCTT
TTTGCCTATTTTYCAGCCACCTAAGTCCAATCTGAATGCCCAAGTCGTTGATTGTCGTTTGCYTGTTTCCAAAGATTGGTAGATAGATGCCTTTTTAAAA
ATCTCATTTTTCTTTAAATCTGGTTTACATGGAAAACGTTAGGAGAGCTCATATAATGAACGGCAATAGCAACCCCCTATCTTGAAACGCGCTCTATCAT
CCCACTGAAATTCTACCACGTGGAATAATGCTTGGAGGGTCAGAGTTGTGGAACTGCCCAATAACCARTCGTTACTGAGGGTTAGTTTGTGAAGGAGGGG
ACAGACTGCTTCTAAAATTCTGTTTAATGACAGTCAATTAAGATTTCTGAGTCTGGCTTGAGGGCCTTTGCTTCCATCACAGCCCAGTCGTCCTTGGCAA
GAGAGTCTGTATATGGGCCACAGCTCACAAAAGCATTGTTTGAAAAAATTTATTGAAAGAACATTGTTTGTAAAATGAGTCCCAATACATAGGACAGACT
TTCCTAAGGTGAGATGTGTTACTTACCCAGAGCTGTGAAAGGCTTTACGGATGGAAACTAGAGACTGAATTTTCCAGAATTTTAAGAAGTCTCCCCAACC
AATGGCCCCCCACTTTCTTTTTTTAAACCAAAGGTAAGAACTGGTAGTTAAAATGACAGTTCAAAGCTTGTCCTTTTGGGTTACGGCAGCTTCCTCTATG
AAAAGATTTGGGAGTGATTCAGTCACTTGAGGAAGGTTGGTGCCAGAGAGAGAAATGGCTTTGGTGCTTTCTGGTCTAGTGATGCGGGTATGCTAGGCCA
GAGCGAGTGCCCTGGGCCCTCCGAGGCGGGGGAGAGGGTGGGGTCTGCTGCTGCCAGCTCAGGTGTGACCTGTAATCTGGATTAGGTGGGCCCAGGGCAA
CCTCTTATCACGTCCCTCCTGGAAAGCCTGACTGCTGTATACATTTCTAGGGCTGCAGATAGGGCTTGGCCAATAGATTACCTCAAAATCAAGAAGAGGA
AGTTATAAACATGTGATTAGACTTATTAATTTTTCCTGGCTGGGCATTTGGTGGAATTCGTTTGTTAATGTTTAATAAATCATTATGGATCATAACTGTA
GTAGAATCTCAGGCTTTTGATGTTACTTAGAATCTTGGAGGAGACCACGAAGGACACACAGACGTGGCTGCACATGTGCAGAGATCTTGTAAYGTAACTA
TGGCTTTTCTCTGCACCATGTGTGAAATAAGCTGCCGCTGGCGTTGGGRCGCCGGCCTGGGTTCCAACACAGTCCGCTGGCTGCCTCGGTATTTGCCGTG
CCTCTCTGGGCCTCAGTTTTTCCTCTCTTAAATAAAGAGGGGACTGGATTAGATGATTTCTAAAGTATTTTCCAGCTTTCAGATGCTATGACTTACTCTT
CTCTTTTTCCTTTTAAAATTTCTTTTTCCTGTAAATCACCAAGATAGTTGTCCTGAACAGTTTAGATGTTATGAATCCATTAGGAATCCTGATAAGAAAG
TGTTGACCCTCTTTCTAGAAAAATGCGTGTACTAACAAAATTTTTGCTTTTGGTTGCAGGAGGCTCAGGAACTGTGGATTCTAGTTTAAGAAACTTGTAG
CAAGGAAATCAGGGGAGTTGAAAGTCTCAGAAGCCAACCCCTATGTTGTGTTCTGGCCACCTCTGTGCAGCTCATTCCTCAATCTAGGAGAAATTTTTCT
ACCTTGCCCCAGGAAAGAGCTGCTAACTTGTTTTCGGGGAGTGTGGGGGGGTCTTTGGTATTGGTGTTCCATTTCTCTTCTCAGGTACCCTCTCCCAAGT
CTGTCCCTTCTTTATGATAAACACAGTGGCCTGCTTTAGAATTCTGGGTCTCTTGAGATACAGCCTCTCAACTTACAGGTGAGGAAGCCTCAGGGAGAGG
TTCAAGTGACGTCACAAGGTCTGGTTAGAGAAAAGCCTTTGCCAGAGTTCAGAGTTTTCAAACCAAGGTCTAATTTGGGTGGGCGCAGTGGCTCACACCT
GTAATCACAGCACTTTAGGAGGCTGATGTGGGAGGATCACTTGAGGCCGAGAGTTCAAGACCAGACTGGGCAACATAGCGAGATCCTGTCTCTAAAATGT
ATATCTGGGTGTGGTGGCATATGTCTGTAGTTCCAGGTACTCAAGGGGCTGAGGCAGGAAGATCGCTTAAGCCCAGGAGTTCCAGGCTGCCGCGAGCTAT
GATGGCACCACTGCACTCCTGCCTGGGTGACAGAGCWAGACCCTGTCTCTAAAGAAAAAAAAATTGAACTCATCCCCTTTTAAATCCATAAACGCACAAC
TGAGGTTGTTGGATGGGGAATTTAAGAAATCCCACCTCCTCCTCCCTGGGACCTGGCCCTGTTTCCCGTCTCATGGCCACCTGCAGGGTGGCTGAAGTTT
CCAGAATGCGTACTTCTTGTGAAGGTTCTGATTGATATTTTGCTTTCTGGACCAGTGTGGCTCTACCATATTTTGGGATGTTATGTCTTGTTACTGCTGA
TTGTTTCAAACTCGTTTGCCCAAAGAGGTCACATTTTAATCAGAAGAACAAAAATGCTATTTTTTTTTTTTTTTGGGTGGGCGTCTATCCAGCTGTCTYG
GGGATTTCCAGCACTGTTCTTGGAAATGTTGGCTCTAAGTCGATAGGTCATGCTAGTTCTCTCTCTCTTTCTCTGTGCTGTTGGGGAAGCTGTCTGCTTG
GGTGAGAGTGTTCTTCCAAAGGATGTCTTTGGGTGCCCTGGGATGGTTAGGTCCCTAGAGTGGGACATGTTCTGGAAGAGGAGCCCAGTGAACTTTGCCC
TGTTCGGTAGCTGCAGTTTATTTCCTCACTCTTGTCCCTATCTTTCAGTTGGTCGTAGGAGTTGCCCAGGAAGGAAGTTTGGATAATAATAATGACATCT
GGCRTGTAAGGTCCAGGCCCTGTCTCAGTTGCTTTCCGTGTAGCATCTGAATTCTCTTACAACCAGTACAGGTAGTGTTTTGTTAGCTGCATCTGGGACT
GGGTAGCTGATGCCCTGAGTTTAAATGCTGATCCAGCGTCTCCCAGCTGAGCGGTGGCGGGACTTGAATGAGATCGCGGTTCTGTCTCATTCTCAAACTG
CTGCTCTTATCACTGTGAAGGAACAGCTATTTAGATGGGCTGGCCTGAGGGCCTCCTCTTTCCCAGACGGCACGGACGCAGTATTCTATCAGGGAATGTG
GGGCCAGCTGGGCATCTGGTAGCCCAGTTGGTTCTTCGGATAATGGGCTGCTCAGTGAAGGAACCTGGTGCTGTAAAAGTGATTCCCCYTCTCCTTCCAG
TCTTGGGCTAAAACTGGAGCTGTTCACTGTGGTTGTATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGC
CTGCAGGGGGCTGCWGGTGGCTGCWGGTGGCTGCAGGTTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTC
KCATGGCAGGTGTCCCGGAGTCCCTGAATCTGTGGGTTTCCCCCAAGCCAGCACCTTTGCTGCAAACCTCTGAGTTTCCTGTTAGCAGTTTTTGGGTTGC
TGTGATGAATGAGACAATATCCGTAATATCACAGCGTGTATTTCTGTCTTTCCAAGGATGTGTGACCGGAATGGTGGTCGGCGGCTTCGACAGTGGCTGA
TCGAGCAGATTGACAGTAGCATGTATCCAGGACTGATTTGGGAGAATGAGGAGAAGAGCATGTTCCGGATCCCTTGGAAACACGCTGGCAAGCAAGATTA
TAATCAGGAAGTGGATGCCTCCATTTTTAAGGTAAAGAGCCCAGCTCCCTTCCCCACTGTGGGCACAGTGTCTCCTTTCCCTCATGGACTAGTGGAGATG
TTGAGTGACATCTTTCTCATTTACTTAAAAATTAATCCAGTTTTTTAAAAGCAAACATTGGTTCAGGAGTGCTGAATGTGTCTCAGACATGTACATGAGC
TGATTTCACATCTYTTGAATTACGGAGTCACTTTTGTGGTCGCTTGTATTCTGATGAGGAGATCGAAGSCTCTTTTCTTCTCTTTTCTGCTGCTTCCTTT
TCCTGATGAGCCAAGTGGGAGAAAATACTTCGAGACCTTCACGCTAAGACCTTTCCCCACGGGCTTCCATTAGAGGCGATGCATATACCAGGGAAGGTTT
CAGTCCTTGTTCTTTCAAAGCTGATACTTCTGCCTGGCATTGTAGGGCCAGCTCAGGAGGGTGAGATGCCATCTGTCATTCCTTTGGGGGCTGGGCCGTG
TGGGGGGTTGTGAACCTGCAGCAGATGTCTAAAAATAGTCTCACCTCCCTTGAGAGTAATCGGTTCYCCATGCGTGGAGAGACGTGATGGAGGGTTTGTT
CTGTGCCAGGCCTGGCCCACGGCTTGTTTTCTGCTCACATGATCCTGTGTGGTAGATGCTGTTCCCACCCTCATTCTATAGAGGCACTGAGAGGAGAAGT
GACTTGTTGAGGTCTCACAGCTCTTGTATGACGGAGCCAGCATTCAGATGCAAGATGGCCCAACTGTGAACCCTTGGTCCTAACTCCAGAATAGCTGATC
AACAGAGATTTCTTGCCATTACACCTAGATTCAGACAGAGGAACCAGGAATTAGGGCAGCCCAGCTCTGCAGACCAGCTGGGCTATCGAATSCCTTGTGG
GTCATCAGAGTCCTGTGTGGGCATCTCTAAGGCTCCAGATGTCCAGGTTTCACCTCTGGGAGATTCGGAGCCCAAGGTCAAGGTCAAGCTAGACTTCCAC
GTTTGCCAGTGTGGACACTACACGTAGTCTGAGTCCTAGCCCAGGTTATAAGCCATTGCCATGTGTGCTTATTCTCTTGCATTTGGGGGCCAGAGATGGG
GAGGGGAGAGTGAGTGTGGGAGAGGGGTGAAAGGGGCTGAGTTGTTGGGGGCCAGAATCAGACCTGAGACCACAAACAAGGTGTGGAGGGGGTCAAGGCT
GTAGGAGCCCATGACAGTGCTGGACTCCCAGCCACAGATGACTGTCCCCTGACACCAGAGAACAAAAATGACAAAAGATCACACCTTAACCCCAGAGTGG
ACCATAAATAGGTCAAAGGTAGCTTAAGATGCATTTTGGTCCTGCACGTCTCTGCCTGACCGATGTTTGCAGTGGGGCTGTGCGTTTCAGTAATTCTGTT
AAATCTGCAATTTGAGGTTGCTGATCTTCTTGAGAATCTGATGCCCATTACTGACCACGCCAAGGAATATGGGGACAAGGGAACGCTTTGCACTCACTTT
CGAGGGGTCCCTTGGTGCCCCCACACGTTCCAGATTCTTTCTGATCAAGGACCCCAGGTCAGGGAGCCTCAGCACCAAGAAGTTTTGTGATGCCACTGCC
TGCCTCCTCACCCTTAGTGCCATTGTGGATTTCTCTCTTGTTTGATTGCAGATCTTTTTTTTTTTTTTTTTTTTTTGCCTTTGGCATCATGGTGAACTTC
TCTTGGGAAGGACTGCAAATGTAAACAGTGCCAGAGTCCCATTCAGTCGGTTGGGAACTCTGCATTATAGATAACCCCAAAAGCCGGAATTTCTCTGCCT
CGCCACTGTTGATGTCTGGGTCTGGGCAATTCKTTGTTGTAAGGGTTCCCTATGCCTTGTGGGATGTTTAGTGGCATCTCTGACCTCTACCCACCAGATG
CCAGTAGCATCCCCTCCCYTACTGTCACAATCAAAAATGTCTTGGACATTGCCAAATATCTCCTGGTGGGGCAGAGTCTTCCCCTCCCCATTRAGAACCC
TGATAAGAGCTGGCCACTGCCAGGATCAACAGACTTAACCAGAGGTGTTGGGTGCTGAAGGCACAGTTGCAGRTTGGACATCAGTAAAACATCTTTAAGA
CATGGCAGAGGGTGCTGGACTAGGCTGTGTAGCCCTGACATGTGGCATGCTGACGGAGACGAAGCTTCTCCCTTCACCCCATTCCCTACTTCAACTTGTG
CTCGGGGGGTAATGAAATAAAGCCCCAGATTTATACATCTTATGCAATGTTCTTCATGGCCGTTTCAACAGTGTTGAGAAAAATGTGCAAGATTCCCAAT
GTTTCCGTTGGTTACGCAGTCGCCTGATGTGGCAATCTGAAATGAGTCTACCATCTCAGCAGGAATGGGGCCAGGAGGGAGACGCGGGTGCCCACTGGAG
CAGGGAGGCCATCGGGAGGGCCACCAGTGCCGGTGGAGACATGGCGCCAGCAAGAGCCCATCATGTGCTTCCCTGAGCTATGCTTCTTCCCATCCATCCT
CTGAGAGGCCTGTCTCTGTGACGTTGGCCGGATAGATCTTTGGCTGTTGGATGAAGTCAACCTCGGTCAGGTAGAGCCATCTTAGGGATTTTCCGGTTAT
GTAGACACTTGTTTCTTTCAACTGTTCAAAGAAAACCTTTCAACAATTTAGGAGTTAAGAAAGAAATTTATGAGTTTGGTTTCTTCCGTAATAAGTGGAT
GGTAAAAGGGGCCACTTATACCAGAAAATCCCTCATTGTCTGCAGGCATCATCCTGAGGCCGGCCTCATGGTATAGATCACAGAAGAGAAATTGAAAAAA
CATTGAGCTCATTTTGTACSGACCCTGAGTACACTGATGAGGCCCTGATAGCAACTCATTTAATTTTTAAAAAGTACTTTACCTTCTWGACATGACGACA
AGGRGGGAAAATCTAGTTAAGTGAGGATTATGATTCATGGTTATTCCAGGCATCGTAACAGTCCTGAATGAGTTAAAGCTCACTTAGTAGCACAGATATT
TCTCATTCAGCAGGCCTTGAAGGGAAAAATAGCATTTAATTAAAAAAATGCAACATGAAACAATCATATTAAATTAGGAAGACCTCCTGGTCTTAGTTCA
GTGCTGTCAGCCTGAGTTGTGCGTCAACAGGAGAAATAAGTTATGGTGGAGGCTGAATGAGCCATAGTGACTGTTGCTGGCGGCAGGGGTGGGGGGGCCC
TGAAATCACTCTCATGTCTAGTTTTTGCTCTAGCTCAAGAAGGATCTYGAGAGATCATCAAGCTAAGTTGACCTTTTAATGCTGGCCAGAGAGGCTGGGA
GAGGGCCAGGTGCCTGCTGTGTCACAGAGTTCAGGGCAGGCGGCAAGCCAGGTACCCGATGGTGGCCCTGGATGCTTCCTGGCCGTGGGCCCTGCTGTGA
TGGATGATGTGGCCTGGACTTGCTCGTGGGGTGAGTGTGAGCTTGGCGTGAACGAGTGAGTATGGCAGTGCCTTGCAGGCACCGCGGTTGCGTATGTGTA
CCAGCGGATCACAACGTTGCCATGAAATCTGTGCATTTCAAGGCCCGTTTGGGATGTGGGTTAACTCAGTGGTTCTCAGGTGGGGGAGGTATCATGATTT
ACCCTCCAGGGAATACTTGGCCATGTTTGGAGACCTTTTTTGGTTGTCACAGCTAGGGGAGGGGTGCTATTGGCATCTGGTGGGTCAAGGCTAGGGATGC
CGCTGAATATTCTACAATCCACAGGACCACCCCGCCACAAAGAAGGGTCCCAGCTGATATGTCAGGCTTGCCACGGTGGGGAAACCCTGATTTAAAGTAA
TAAAAATTTGAAACTACAGTTGATTTAGTACATGGTTTGCTGGTTTATTTCTTTAAAAATAAACAACAGCAACAAAACCCAAATTAATGCCCGGTCAGTG
ATGCAGTCAATGAAGAGAGCATTAAAGACCGTGTGCTTTAAGAAATAGTTTTAGAGGGGAGTTTTACATCAATGTCACATGAGGAAACTACCACTTATGC
TCACTAATGGGAATGTTCTTCCAGTCTCTTTACCCCAGGTAGAGGTGCAACATTTTGCATCAACAAAGTAGGCAGCATTGGCCTTGAACAGTAAGCATTC
TTGTCTTTTTTGAGAGGAAAAACAGTCTGGGCTATTTTAAAGGAGCTGTGACTCATGGGGGCATGATGGAGTTTCTGGAAGTGTGGTCTCCTGGGTAGCT
AAATCCAAATCCCTGGAATACTGGCTAAAGACAGCTACCTGGGCCGGGCGYGGTGGCTCACGCCTGTAAGCCCAGCACTTTGGGAGGCCGAGGCAGGCGG
ATCACGAGGTCAAGAGATCAAGACCATCCTGGCCAACATGGTGAAACCTCGTCTGTACTAAAAATACAAAAATTAGCTGGGTATGGTGGTGCACACCTGT
AGTCCCAGCTACTTGGGAGGCTGAGGTAGGAGGATTCGCTTGAACCTGGTAGGTGGAGGTTGCAGTGAGCCAGATTGCGCCACTGCATTCCAGACTGGTG
ACAGAGTGAGACTCCGTCTCAAAAAAATAAAAAAACTAAAATAAATAAAAATAAAAAATAAAAAAAGMCAGCTACCGAGACCCAACCTCCCTTCCCCAGT
GAGAATCTTGAGGGGCAAGGCCCAGGAATCTGCATTTTCACAAGCTTCCCAGGGGCAGGGGGTTGGTATATGCATTAAGCCTGAGAACACTTGCTGTGGT
GGGGAAACTGTTGGGTTGGAAGTGGGTACAGCTGGCATTTAATCCCAGACTGGGTGGCCTTGGGAAAGTTACTTACCTCTTGGAATTGCATTTTCYTGAA
GTGGGTACAGCTGGCATTTAATCCCAGACTGGGTGGCCTTGGGAAAGTTACTTACCTCTTGGAATTGCATTTTCCTGAAGTGGGTACAGCTGGCATTTAA
TCCCAGACTGGGTGACCTTGCGAAAGTTACTTACCTCTTGGAATTGCATTTTCCTGAATGGGATCGGGATGTCCCTACAGATCTCCTATCATTTTAGGCT
GGAGGACACTGYCTGATTTTTCCTGAAACCGAAGATAATTCTCATCTGACTGTGGTTACCTCCTAGTTGGTGTGTCTGTATTCCAATTTTGCAAGCTTAA
AATCTGTCCATTCACCTGTCTTATTTTTTTAAAATCTGTACTGCCCCATTCTACATTATGACTTTAAGATTTCAGCTTTGAATTTCTGGTCCTAGTTCAG
ATCCTAAGGTTTGGAAAAGTCAGAAAACAGATCTATTAAAAAAAACACACACACATTAAAGGGAAAGTACTTCATTACATTTTAAACAGCACCTGGGGGG
AAAAGTCTAGAATAAATGCAAAAATGCAAAACAAAATTTCTATTAAAAGTAACAGGGCGATGGATGACCATTTTGACTTTTTGCAAATGTTCCCTTTTCA
TGCTAAATTTTAGGGGTTGATCTGAAAAAGCAACAACTTGTTCTTTGTTTTGAACGCTCTGGTGAAACCATATGCAACTTCCTCTTTGTGCTGTGTAAAC
CTCAGGTGTCTCCAGCTCTTCAGCCAGGCAAGGGCTTGGCTAAAAGGTGCACTCCAGGGTTGGAGGAGCCTTCAGCCTGGGTTCGACTTCTGACTCAGCT
GTATGAACCTGGGGGACCCCCTCCCTGGCTTGGGTCTTTCCACATCTGGTCCCCAGATGTGAAAAGACTCAAGACATCTGATTGGAGTCTCTTTGGGTCC
TGAAATTGAATGAGAGTTGATGGCCAACAAAGAYTCATGGGAAGGGAAGGATGTGTGGGGTCCTGGTCATGGTGACGGATATTTGTGATTGGAGTCGGCC
ATGAATTTAATGTGCTTCTGTTTCTTTCTTCARGCCTGGGCAGTTTTTAAAGGGAAGTTTAAAGAAGGGGACAAAGCTGAACCAGCCACTTGGAAGACGA
GGTTACGCTGTGCTTTGAATAAGAGCCCAGATTTTGAGGAAGTGACGRACCGGTCCCAACTGGACATTTCCGAGCCATACAAAGTTTACCGAATTGTTCC
TGAGGAAGAGCAAAAATGTAACTATCCTTTATGGGCATGAAACCTTCCAGAAGCTGCCCTGGCCTGTAGCCTTCACCACAGAACTTGGGTCTGGGGTAGA
CACAGGGTCTGGGGCACATAGTTTCAGTTAAACAAAGCAGTTCTCTCCTTCGTGTAAGCAGAAATTGAGATCTCTTTCCAGTGACCTCAGAGGGAAGGGC
GGAGGAGATTGGGTGCTGCCCAACCTGTGCCCCACTTGCTGCCTGACCACAGACATTTGTAGGGCCTCCCTGGACAGGAACAAGCATCCTCCAGCAGTTT
CTGATGAGGAATCCTTTCATTTTCCAGCAGCTTGCAGAGGAGGCCAGGGGAAAATATGGTGACCACAGAAGGCCTGGATCRTGAGGGTTGGGAGTAAAGC
TCTCASATGAAGTTGTCAAAGATGGCACCATGGCCTTCGTTGTTGGAGATGGGATATGCCTCAGTGTGTTACTAGATCCTGATTGTTATTTGGGAACTCC
GGGATGTGATCATTCCTGAGGTTTCTTCCAGCTCTCAAATCCCAAGAAAGCATTTGTGACAGATTAAAGCAGGACAGCAAAAACATGCCGCACCCTGGTC
CTACATCACTAAAATAAATCCCAAAGTACTGAGCTGGGATCTGGCCTCAGAAGGCTTCTCARAGCCCTGTGCTGTGCCGCTGCCATGAATTGTAGCTGAT
TTAYGAGATAAAACCTAATTACCAGCGCTGGTTTAGAACATGCTTTTAACACATTGATTTTCTTAGCCACTTGATGAGGCTTTTAGAATAACCCACTCTG
GCTTTCTCCTTCTAAGCTTCTGAGTAGTCCACGAATGCCTGTAAGAAACAGAAACCCCCAAAACTTCTTGGGGCTGTGCAGAAGTTTGAAGTTTGCACTC
TTCCCGCTGTGGGGGTGTTGACTTAGAATTTTTTAAGAAGTTAAAATGGTGATTCAAACAAATCTATAGTGAATCTGTGTCAGAGAGTTGTGTAATCGTC
ATGAAGGAGGCAGCATGATGGTAAAGATGGTGGACAGAGAATCCGAGGTGCTGGTGAATGTGGCCCATGAACGAGAAAGCTGAGCCAAAGCCGATGCCCG
ACCCGGACAGTACAATTGCGGTTTGGGGCGTTTGTAGCCTAATCGTCTGCAATTAGCACCTAACTCTACTGAGCGTGAACCCTAGTCAATACTAAATAGT
AAGGCCAACAAACTGACCTTCCCTTGGAGAATCGGGTGCCCTTTAGGAGGAAACCTCTATATAATAGTCTGGGGTGACCCTGAAAGGCTAAGCAGTCATC
TTTTTGCCTCATTTCCCAGTTTTGGACAATTTTTTTTATCACCAAAAAGTAAAGTGTGATTTGAAGGAATAGAGAAGTTTCTTTTGGCCCCTACTGCCAC
CCCCAAGATCAGTCAGGCTTGAACCGGCAGGTGACCCCAACTTGTTTATAGCATGGGGTGCAGCCAGCATCACCTGCTAGTGATGTTAAAGAAGCAGCAG
GAGGTTCTCAGGGGTGAAGCAATGTAGCATTTGCATAATTGCCTACAGGGGCCCACTCGCCTCTAACCTCAGTGGTTTGCAGGCTCCATGGTGGGCGCCC
CACCTGCTCCCTACTTCCCCATCAGTAGCTTCTCAGTGAATTCTTTAATCTATYGAAATGGAATCAAAATTCAGCCRGGAGGAAACAGTGGGTAAATTCT
GTAGGTCACTGGGAATAATGAATTTTTGTAAGTGTTGGTTGTGATACGTCTCACACTGATAAACTTCATAAGGTAAGTTGTCGACTGAGGAAGCGGCATG
AGAAGGGAAAGAGCAGAGGCTGGCCCAGCGTGCCCCTGTGGACACTGTGCACCTTTAGGCGGTTTGTGATTACGGCTGGTGCCCACTGGGCATCAGTGAG
GGTGCTGCGGTGTGTGTGTGTGCATGGCTGTGTGCACTGATGCACATGTGTATATTTGGAAAGGCCAAAAAGAGATTTCCTGCCAACTGGCAATACAAAA
AAGACCCCAACCTGCCAACACGTTTTGCCAGGAAATCKGTGAGTGTTTTCAAATGCCCTGKCTTATAAATGTAACCTTCTTAAGTTAGCAAATGCTTGCT
GTAAAGTATATCTGATACAGACTCATTTTGGATCTCAGAAAATAGAAGAAAGAGACCAAAGTGCTGTCTTTATCCTTTAAAAGTGTTAGCAGAAACAACC
ACCACCACCACCACCACCAACTTCTCTCTTTTGACTTTGCTGATCAGATGACTGAAGYATGGGAAAAAWATTCTGTGCCTTTCCCAAACCAATGAAGACA
CTCACTAACTTAAYGTTTCCTTAAACTCAGCATTTACAGAGTAGATTATGGCTTCAGCAAAGGCTGTGATGCCTCCGTGCCATGTGTCATGGTGTTTGTC
TGGTTTTCTGTAGGCAAACTAGGCGTGGCAACTGCTGGCTGYGTGAATGAAGTTACAGAGATGGAGTGYGGTCGCTCTGAAATCGAYGAGCTGATCAAGG
AGGTAAGCAGAGGCAGCATTTCAGGGGTCTGGCCCTGCCAGGAGGAGTCTCATGTCTTCTGGCAGGGAGGGGCACCGTTCTTGCTGTATGAAGGCAGCCA
GACCCTCGGGCTCGCTGAGGAAGTGGCATCTCCACCTGTACAGATCTGGAACGGAAGGACTGGCTGGGCGCCCCCTCCCCAGGCCAGCTTCTGCCGACAG
GTCAACCCCTCACGCCAGATCCCTCCTTCATCCCTAGGGCTGGGCCTGAGCTGCCGGTTATGTGTCAGTGAAGTTCCTTCCAGCTCCAAASTGTTCGAAC
ACTTTGGACAGCAGTCTTTTAAATGGCATCGTGAATTCCCTTGCCTTCCTAGCAGGCTACAGAGAACAAAATGTAAACTTTCCTTGCTGCCTGCGCTTGT
CATGATGGCGGGKGTTGTTGTACCAGCTCTCATGGCTATTTGATTGCTTCCTTTTTAATGTGCAGKTTTTATTCCTTAACGGATTGGAAAGCTGGATAAC
CAAGCATGTTCACATTGCACATAAATTCCTAACAGGCTACAAGGGAGAGCATAATCGGGGCCTCCTTAGGCAAGAAYACATGGCTTTTGTATACCCATTT
CAGCTATTGGGATGCCCTTTTCTTCTGTCTTTGGCCTCTTAACTATGCTTTTCATGGGTATTACAAGGTGGACATTTGCATGACTAAACCTCGTGCAGCC
TTTGCAAAAGGTTGTGTGTGAGTACTGCATAAATTCTTCTTCTTAATAACATAGMAATAATGGAATCCTTAAGAGTAGCTTGGCTGTCAGAGAATGAAGA
TAACAGAATGTAACCTACCCGAACGGCCTTGCTCTTCTGCACAGGCAGCTGCCAAGTGTCTGGGTGGTCTTTGGCAGCCGACTGAGTGAATTCTTGGCTT
CGTGGCCCTCCACCAATGTCCTGTTTTCTGTAGAAGGCTTTTCTGCTGACTCAGCTGAGAGAGTGAGATAATCGGATTGCCACACCGGGGTCACAAGAAA
AGCAATTTCAAAACATTTCATAATTGGATTTATCAGCCTCCTTTAAGGAATGGGCCAGAGAYTGAACATCTGCATGTGGCTCGTTGAGCGAGATTCTTGA
AAGCATGGCAGCCTTTGGCCAGCATCACTGTTCACTGGTGTCTCAGAGCTTGTCTGCGTGTCCAGGGCGTTGAGGGCAATTGGATAAYCTGGAACACTGG
GTCTGCAACAGGCAGGTCSTGGAAAGGGCCARGAAACTTATTAGTGGCCCCCAAAGAGCCTAGTAATTTGGCCACATGGTTTGAATGCTAAGCCTGGTAG
ATTTAAGGCCTAGGGCCTTTCAGGTTGYAAAGTGAAACTTGACTTTTGTCTCCTGAGATAAAGGTGACAATATGGTTTTACTTACACATGAACTGTTCAT
TTTTACAAACACTGGAGCCCCAGGTGGGAGATCAGTGACTGAGCTGCCCTCCTCTCCCTCCCCTGACTGTGCAGCCTTCTGTGGACGATTACATGGGGAT
GATCAAAAGGAGCCCTTCCCCGCCGGAGGCCTGTCGGAGTCAGCTCCTTCCAGACTGGTGGGCGCAGCAGCCCAGCACAGGTGAGGGTGGGTGGCCTAGA
ATTGTCACCAGGCATGGCCTGAAGGGTTTACRGCATTCCACCAGCCAGGGACGGAGTGGGGGTGGTTGTTGCTATCATGATCCATGTCTCATTAAAGGTA
GCTCAGCCCTGAGAGGTGAAGAACGATGGCCCTGGTTTCCCAACATGAGGGCAGAGCCCAGCTGTGCCTTTGGCCCTGCTCTCCGCTGCTTCTCAGGAGG
GCACAAGCTGCTTGTTCCCTAGGTGATGTCCATGCCAGCTCTCCCCACGCTCCTGGGAAAGTCCAGGGAAGAGGGTCTAGTGAACTTGTGTAAGGCCAGA
GGGAAGATGCAGCTCTTGGCCACGCTGGCGCCCCCTCCCTGGGTACTCCCTTAGGTCGGCCAGTCTGTTACGACATTAAGGACCCCCTCAGAACCAAAGA
GAGCCCAGGGCATTTGGAGGAGAGGAGAACTCAGACCAGGAACAGGAAGTTTGTTCAGAGCCCTRGATTTGAATCCCACGCTGGGAAGTTACAGATCTTG
AGCCTCAGTTTATTCATCCGTAAAACAGAGAAACCAGGACTTGCGCCATGGGGTCACGAGGGTTAAGTGAGGCATTCATCCTTTGATTCTCTTTTGATGA
GCCACTCAGAACYCCCAGCTGCTTGAAATGCCCCCGCCCCCGCCAGGCCCAGGCTTCTGCAGCCSGTGAATGTGTTTGCTTCCTCCCTCGGCGTCTTCCC
CCTAGCCCTACATCCCCTGTGGGAGTCTGGGAGGTGGCAGCTGGCCCCGGAGGCCTTGAAGGTTGCCAGGCCTTGGGTGTCGAGTAAGAGGTCCCTGGAA
AGGCACCTCTGTCTGTGCTGCAGGAACACCATCCGGAAAGCTAGCTTGCACCCCCAGGCTCTCCCCCAGAGATAAGCCCTGGGTGGTGGGTATGCAGTCC
AGTGGTATTCTGGGGGYAAGTGCTTGAGGTGGGAAGGAAATGTGGCCCCACAGTGTCACATTGACACATGGTCAGAAATCCCACAGCATAGAGGAAGTCC
CCCCGACTTGCCACTCTGGTTTTCTGCATTTGTGAAACAATGGCTCTCTGCTCTGGTGGGGAAAAGCACTGAATTCAGCGGAAGCCTGTGCTCCCTGGAG
CCTCTGGCACGCCATGTGCAGCCTTTTAAGGGACTTTTGGAGAAGGAGCGATTGGGGTTACTCCCTGTACACCACACCTGGGTGGCTCTGAGCTTGCTTT
TCTGTTTCTCCTGCAGGCGTGCCGCTGGTGACGGGRTACACCACCTACGACGCGCACCATTCAGGTACGGGGTGGTCCGGGCTGAGAGGGGCGTGGGCAC
TGTTTGAAGACAAAGCCCAGATAACCCAAGCAGGGTTGCGGGGTTTCGAGGATGAGCAGGACCTGGTGTGGAAGTCTAGGCCTGGTTCCAAGGATGAGCA
GGACCTGGTGTGGAAGTCTAGGCTCCGTTCCGAGGATGAGCAGGACCTGGTGTGGAAGTCTAGGCCYGGTTCTGAGGATGAGCAGGACCTGGTGTGGAAG
TCGAGGCTCCGTTCCGAGGATGAGCAGGACCTCGTGTGGAAGTCTAGGCCCGGTTCTGAGGATGAGCAGGACCTGGTGTGGAAGTCGAGGCCCCAATTTC
TCCTCCTCACCATTTGGRCAGGAGCTGGCGAGTGGCCTCTTTTGAGGCCACTTTTCTTGGACTGGACCAGCAAGTAGACAGAGTACTCTTTGAGGCTGTA
ACTGTGCAGGAGAGACAGTGAGGGACAGGCCAGCGTCTGTCCCAGCGCTGCCTCTCTTTTGGGGCTGCAGGTGGAGTGRTGGAGCCTCTCAGAGCCTCAT
CTCAGGCTCCCCTGCCCACCACCTCTAGGTGGATGCAGCTGTTCCCATTTCGCGGGCTCASVBADCTTGTGTGCTCCAGACTGGGGGCCTCCCCGCGGTG
GGCAGAGGTGGCCTTTGTGTGTAGTCTCAGCGGCTAAGGACCCTGGCTGCACTTCTGCCAGCTGCCCCTGGAAGTGACGCTCAGGCGTGGTGACGGCATC
TTCTGAACAAGGAAGCTGGGGCATCTTCCAGCATTGGCTGGTTCTGTGGGAGGCGAGCAGCTGGTCTCATCAGATGGGCCACAGAACGTTAGGGCTGGGC
CTCTGGGCAGGGGAGGAAATGGGGCAGGGATAGAAGCGTGCTGGCTGAGGACTGCATGGGACAGTTTTGTGGGTAGCAGAGGTCGGTGCTCACCCAGGCA
GGAAAACTRTCSAGATGGCAATGCCCTGTCCATGAAGCTCTTGTSTATTTCCTGGCAGCCCTTTGAGCTGGGGGGTTGTTTTCACTCCGGCTTCACAGAT
GAGGAGACTGAGGCTGGGAGGTTCAGKATCTCATCCAGGTCGCGCAGGCCTCTGGCTGGAGCCTGTTCTTGAGGCCTCCTTGTGCCCGGCAGCCGCCATG
CTCACAGGRTCTCAGTTCTGGGAGGCCTGGGTCATGAGGCTAAGCCTCCGGGCTCGCCAGCCACTGGGCTATGGCCTGGGAGTCTGCTGACCAGTGCTTT
CCGGGGGCTGTGGAGTAGCCAGGCACAGAACTGAGCCATCTCGGTGAGATGCAGAGGCACARTTTGGGGAGAGCATGTCCTTGAATTAGTCCAGCAGGGT
CATAGCCACTKCCTCATGCACAGAACATCCTTCTAGAAGCTGTGAGCTTTGGTACCTCTGTCCAGCCCCGCCCCCACCTCTATGTAAATCCATGCYTCAG
TTTCCTTACCTGGAAAATGGGTATAATAATAATCTACCTTACAGGGTTAAATGTGCTGGTAGGTCCCAAGCCCTGGGCACAGCACCTGATATGAGCTGTG
TAGACCATAGTCTGTGGTTTATAACTTCAGGAGTCTTGTCTGTGTAGRTAAGCATTTGTCCTGTTACCCAGTTTCTTTAACTGGTGCTTACCTGTGCCGA
GCACAAATACAAGCTCCGATAATCCTCACAGCAGCCCAGTGAGGTGGATGCTGTTTTTATCTCTACTTTGCTGATGAAAAGCTGAGGCACAGAGTGGGGA
AGCGGCTTGCCCCAGGTCATCCAGCTGGGCAGCRGCTGGGCTGGGACCGCACGTCAGGCAGGTGGGCTGCAGGGTCTGTGCTGCGGGTGTCTTTGTTGCT
GCCTCTGTGGTCAGGCCGTTCCCCAGCAAGGCTGTTCTTGTGGGTGAGTGGCTCTATAAGGGCAGGGCTGGGTCGCAGCAGGCCCTTACTGTTGCAGAAG
GCTCACCTGCCTCACCTTGGCAGCCCTTGGTGAGCTGCTTCTCACCTGTCAGGTACAAGCCTGACAGCTGGAACCTTCTCTTAGCATAAGACGTTCTGGG
GTGTGTGGTCACTAAGACACTCCTGCTTAGGCGTCTCTGAAGCACTTAGCTGTTCCGGGTGAAGCTGCCAGTTCACATGACTGAGAGGTGCTGGTACCAA
GATAAGGCCCCGGAAATGACAGGGCAAAGGGCCAAAGGGGTGACGGAGTTGCCTGAAGCGTTTCATTCATTTGGAACAAAGTTCGAAAGTTGCTTCAGGG
TAAAGGGAGGGGAGTGTGTGGAGTCCGCAGGCAGTGCAGAAGTTGCAGACTTGGCGTGGGGGGAAGATGATGAGTGAGGAAGAGCGAGACCAGCGGGGAA
GATGGTGAGCAGGGAAGAGCGAGACCAGTGCTGCCATTTCCTTCTGGGTGACCCTATCTAGGATTCAGTTTCCTGAAGTGTCAAATCAATGAGGTGGACC
AGAGCTTCTGCAGCTCTAGCTTCCTACCCTGCATGATTCTAGAACCTGCGTAACTCCAGCATGGCTGGAAATGGAGCCCGTGAATGGTGGGTTGTCAAAT
AATAAGGCAGGGAGCAGAGCCCAATGGGAGGGTCCAAGGAGTTCTGAGTGCCCAGCAGTGTCAGCAGGGAATGCAGATGGACTCAGGGCCTCCCCAGATG
TGGTCAGCCTTGCACAACTCTAGGGGGCGCCGTGGAGTTAGGCACCTCACAACTTGTGTGGCTCCACAAGGCAGCCTCGAACCGGTCTGGGGTACTTAGA
AGGAGCTGCAAACTCACTAAGCTCATTGCTAGCGTATGTAATTCTTTTGGTTTAAGGCRATTAAAATGCAGATACCTCCCTGCATTTACATGTTATCTGC
ATTCCTACCTTAGWTTAGTGTTTTCCAAACTTTGGTCACTTGAGGTCCAGTGTCACAATTGGTTTTCACAGCCTGGACTGTTACTAACATCATGTTTTTC
CTCAAATCTTAATCTTAAAATAAAACTTAAGTTTATTTTAAATGAGAACCCACTATCATTGGCTGTAAAGGAAGACCTGTGGCACCTGGTATAAGTAGGT
AATACTGTCTGGCTAGAATTGATTAAGATTGTATTTGTCTTTCATTGAATTTGTCTTGACCTCTGACAATGCCCTGAATTTGGAGCCCTAAGTTCAGTGC
CATTATTCAAAAGGGAGGTTGACAGGTGTTAGGTGTTAGAGAGCTATCAGCACCAAACTGAGGCTTGCTTTTTGAGGTAATCAGAGGTTGGRAGAATATT
GAAGATGGAATAATCTTGTGATTACATGTATCACCCCTCCCCCATTATTCTGTGTGTGCCACTTTTGGGGAACCCCTGCTTTAGTTTGAGTGTTTTTCAG
ACTCTTTCCTGAGAACAGATTTGGATGAAGGGTTTTGCAGAGATTCTTAATCTGAAATCCAGGAAATACCAAGGGCGCTGTGAATTTGTTGAGAAAAAGA
TTATGTCTTTATTTTCTTTAACTTCAGGTTTAAATTGAGCATTTCCTTTTGTTATGAATGTAGGCAGCAGACYGCAGTGCCCTTGGCAGTGCCTATGAGA
CGGAGTATTGTCATAAGAARTGAGTTGTCGAAACATCGTTTGCCCTCAGCTTGACGTGTAAATTACAACAGTTACCAGACCTTCTCTAGACCTTGTATTT
AAAGAGTCAGTGAAGAAGTACAGAGAACACTGTKGTAGTTAATATGTTCAGTCATTGGTTTCCTTAGTCATTCTGTGTATTTATTCATGCATATAAAAAC
ATTACTTCTACAAGCAGTACATGGATTTCCCCAGAATATCAAAGTGGTTCAAGACACACAAAGAGTTACCCGTGTAGGTGTGAGACAGACTGTGCACTTG
GGCAGGAGGGACCCTGTATGTCTCCCCGCAGCACCGTCATCGTGTCCCTCTTGTCCACAGCATTCTCCCAGATGGTGATCAGCTTCTACTATGGGGGCAA
GCTGGTGGGCCAGGCCACCACCACCTGCCCYGAGGGCTGCCGCCTGTCCCTGAGCCAGCCTGGGCTGCCCGGCACCAAGCTGTATGGGCCCGAGGGCCTG
GAGCTGGTGCGCTTCCCGCCGGCCGACGCCATCCCCAGCGAGCGACAGAGGCAGGTGACGCGGAAGCTGTTCGGGCACCTGGAGCGCGGGGTGCTGCTGC
ACAGCAGCCGGCAGGGCGTGTTCGTCAAGCGGCTGTGCCAGGGCCGCGTGTTYTGCAGCGGCAACGCCGTGGTGTGCAAAGGCAGGCCCAACAAGCTGGA
GCGTGATGAGGTGGTCCAGGTCTTCGACACCAGCCAGTTCTTCCGAGGTCTGTACCGTCGTCACCTTGCTGCCCCCACATCTTAGAGATCACGCCTCCTA
TCTGTGTGCCATTTGCAGCTCAGGGTGGCCCTGTGGTCTCATGGAGGGATGTGGAGGAGGAGTGAGGGGCATGGTGTGGCAAGGAGGTGCTCCTTTGAAT
GGCACTCTGCCCTCTCCACTGAGCGATCCTGGGGTGCTTCTCTGTGCCTCAACTTCCCCATGTGTACAGTGGGGGTGCAGAATCAGTACCCTCATCAGGT
GATTGTCGGGAGGGTAAAGGAACTTAACCTCATGTACCTTGGAGTATGTTCCAAGGATGGTCCCTGAGCGCTGGCTAGAGACRCAGAGTCTGAGGCCCTG
CTCCAGCCACAAGATCCGAACCTGCATCTTAGCAAGGTCCCTGGGGATCTGTGTACAGGTTTTGAGACACGCTGACTTTCCGCACACTAAGTGCTCAGGA
TGGCAGCTGCACACACTAAGTGCTGCCTGTTAGCTTTCGTTACGCTGTAGGGAGGATGTGTAGGATMCCAGCCTGGGTGTCTCCTGGAGGGTTAGGATGG
CGTCTCCCTTCTCCACGTCCCCATGCTCTCTGCTCCTCTCCCTGTAGYAGCACAGCCCGAGATAGTGTCAGGTCTCAGCTGCCACTGGCCTGAGAACTGC
CAGAGGAGGGGCCTGGAAGGGCGGGTGCAGGGGTATGTGTGAGCTCAGGGGCATAAGCCCTGAGGAATCCCCCTAGTGAGGAGGTGTGAGGCCGCGGTTA
TCACCCCTGAGCAGGCAGAGCGGCACAGAAGTGYGTCCTGCAATGTACATTCCCGGGCCTACCTCACATCCTCTGATTCCATGGGTCTGAGGCGGGGCCC
AAGATTCTACATTTCTAATGAGCTCCCAGGGAAGGCGACTGCTGCCGGTCCACCGGCCCACTTTGAGACCCTTTCAGTTGGCTGTCAGAGATTCGGGTGA
GGGCTGCAGCCCTCCCTGGGTGTCCTCAGGTCGGGGTTGCCAACTCAGTTGCCTCCAAGGGCCAGGCAGGTAAGAGCAATGCACGAATTGAGAGATAAGA
GAGAGCACTGGGCAGCTGTGCCCATGGAGAKGCGTTCAAACGAGGCATTAAAATCCCGGCAACAACCTGGAATGGCCAAACGAACAGCTCCTTGCTTGGA
ATTTGGCCCAAGGGCCACCAGTTTGAGATCCCATGGTGCCCTGGCCTAAATGCTACAAGCCCTGGGCCTCCTGATCCCCCAGCCCTGCTGCTGCGGGAGT
TGGAGGTCATCTCGGCCTTSCTTGCAAACACCCTCTGCCTGTGTCATTCCAGAGCTGCAGCAGTTCTATAACAGCCAGGGCCGGCTTCCTGACRGCAGGG
TGGTGCTGTGCTTTGGGGAAGAGTTTCCGGATATGGCCCCCTTGCGCTCCAAACTCATTCTCGTGCAGGTAAGTATGGGCAGCTTTTTTTTTTTTTTTTT
TTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGTGTGCARTGGCGTGACCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGYGATTCTCC
TGCCTCAGCCTCCCGAGTTGCTGGGACTAYAGGCCCGTGCCACCACGCTCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCA
GGRTGGTCTTGAYCTTGTGATCCTCCCAGCTTGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACCTCGCCCGGCAGTCTGGGCAGCTTTGAGCCC
TGCATCCAGGTCTCCTGGCCCTGTCATGTAAGGATCAAGTTTTGGGCTGGAGAAGAGGACACAAGGACAAGTTTCCACCTGTGTAGGAGGCAGGCCTGGG
CAAGACCTTCAATATGCGGGAAGCGGATTCTTGCCATCTCCGAGCCATCTTCTGGTGTCTGGGACGCGCACAGTCTGTGTGTGTGTGTTTTCTTTTTTCT
TTTTTGGTTTTTAAATCTAAGCCTCTTCTCCAGAAAGATTCTACCTGTTCAGTTGCCCGAAGGTCTAAGTGACAGATTAGGGCATTGCCAGCCCTTATTT
CATGTAGTCAAGGGAATGAATCTCTAATGGTGGGATCCTGGGTGCTGGCTGTCCCAGCTGGGACAGTACTGGGGAGTATGGAACAGTTTTGGCAGGAGTA
CTGCTTGCCCTTCCTTGGCATTCTGGCTCATTCACTTGGGACTCACGTGGCACTGGGGTCATCAGAGGACCTGGCTAGGGTCAAAGACAGTGCCCACCCC
CTTTGGAGCCTCCGCCTCTGCCTCTGACTTTCTGCACCTCCCATCTAGATTGAGCAGCTGTATGTCCGGCAACTGGCAGAAGAGGCTGGGAAGAGCTGTG
GAGCCGGCTCTGTGATGCAGGCCCCCGAGGAGCCGCCRCCAGACCAGGTCTTCCGGATGTTTCCAGATATTTGTGCCTCACACCAGAGATCATTTTTCAG
AGAAAACCAACAGATCACCGTCTAAGTGCGTCGCTTGGGCGCCCCACCCCGTCTGCGTCCTGCATCCATCTCCCTGTTACAGTGGCCCGCATCATGATTA
AAGAATGTGGATCCCTCTGTCTGGGGTGGGATGCCTTACTTTGCACTTAATTTAATAAGGGCATTCTCGGAGGAGTAGACGTTTAATACGAAGTGGCGGC
ATAGCCCTGCCGAGATGTCGGTGATGGCCTGGATGCTGTAACCACAACCTGTGGCTAAAAATTTTATTTTCTATCCTTTACCCGTCATTATCATTAGTTG
CTATGATTCTTTCTGCATTTTCGGTTAACTATCATTTCCAAAGACTTGTCATTCAGTAATATTAGCAGATAGCTGCTTCGATAAAGGAATTTGGAGTTTA
AAAATCAACTTGTGAAAACAAGGTTGTTTTTGTCTTTATCKTTTGTTAGAGTTATAGATTTATGATTTCATAGGCTTGATTCTATGTGAAATATCTTTTT
ACTTTTATGCATTTTAATAAGATTTAAAAATATTTAGATTAAAGCCCCCTTTAATGAGTACAAGAAAAACTCTTGGCTTGTTAGAAGAAAGTATATTCTT
TCTAGAATTTGGTGCAGGAATATGTGTTCATATCCAGGCAAACGGGTGTGTTTTTATCTTCAGACAATGAAACCTTCTCCTCTGGGGCTTTGTTGCCAGG
AAGATTAGAACTAAATTTATTTTTTTCATTTCTGTCATGAAATCATTCCAGATACCTCTTTTCTTCTTTCCAAATGGTTTTCACATGTGTTTGAAATATY
TGTACTTYGAATTGTCGGATTTTCCATGTCCTCCTTTCTCCTTTGTGCCCAGCCTGAGTCAGCACCATCCCGCATTCAGAACCTCCCAGTGAAAGGGCAG
CCTTCATTTTGAGAAGGTGGAAGGTGTTAGGGTTTGGGAGACAGCTCATCCAATCTCCCAAGTCTCATGGTGGATTTGTGACTGTGAGAGTTTCCGGTTT
AAAATCTGAAAAGCCAGATATGCCTGTTTCCTTTTCCCAGCACCATGCCTGTGGAGGGGACAGTCAGACCCAGAGGTCCTTTACGTGTGGATGGAGTTCA
CAGGCGAATAGAGGAGAGGACCAGGGGACGTGGCTTGTCCCTTTTGTCCAACAAAGCATTATATTTTTAAGAATGGCAGWCCTGTTTGCTGAAGTGTTCA
TAAGATAACAATAGGCTTGAATCTCCAATTCAAATGAATGTCAAAGCACATATCTTTAATATGCTGAATGAATATTTATTTTTGTATCCATTAAAACAGT
ATATTGATCTCTTTTATTCTTTATTAAAATAAAATGCTCTTTTTTAAAGCTGCTGTGTACTGTATTTTTTTAGTCACTGTCAAATATGATGTAATTCTCA
CCAGATTCTAGGTTCTGTAAAGGGGGAGTTACTGCTGCAATGTGCAGTGTTAATTCAGTGCACTGGACTGAAACAATATCGCACTGGGATTTTAAGGATT
TTTTTTTTTTTTTGAGACAAAGTCTTGCTCTGTCACCCAGGCTGAAGGGCAGTAGTACGATCTCGGCTCCCTGCAACTTCCACCTCCCAGGTTCAAGCGA
TTCTCGTGCTTCAGCCTCCCAAGTAGCTGGGATTACAGGCATACGCTACCACATCTGCCTAATTTTTTTTTTAAAATTAGAGTTGTGATTTCACCATGTT
GCCCAGGCTGGTATCGAACTTTTGGCCTCATGTGCTCTGCCCCAACCTCTCCCCCAGCCTCCCAAAGTGCTGGGTTTACAGGTGTGAGCCACCTCACCCA
ACTCCTGTTTTAAGGATTTTTCTTTTTCAACCTATCCCTTAAACAACAGCAAAAAGATACGGAGACTTAGACTGATCCTATGGAATGAAAACATTGGAGA
ATGTTTTTATTCCGAATGGGGGGCTGTTTGGGTTTCTGTGAGCTGACAGATGAGTGTGCGGAAGGGTGTGGAGGAAGTGGGGTCTTGTGCTGATTTCATC
CTCCTGGATGCAGCTGGGGTGATTTGTACGAGGCGTCCCTGGTTGGGTCAGCCACACGTGGCTGGAGTGTGTGTCCTATTTACGCACATCTCGCTGTGCT
AGGCCCTCAGGATACAGCAAGGACATGAGGGACCCAGGTTGGCAGTCACAGAGATGACTTCCAGCCTAGTAGGACATTCCCATCCATCAACACAACAAAA
CCCATCAATTCTGGGAGGTGCAGGGCTGGCCAACCCAGGTGGAGAGAAGTTCCCCAGCAAGCTTCATCCGCAAGGCCATGTCTGTTCTCTCCTCTGCCCT
CATACGAGCCCAGTGAGACTGGGCCTGTTCTTCATTTCTAGCTTACAGATGAGGAAACTGAGGCACAGGCTCATGCGTGGCTGACTGAGAGCCATCTATG
TCCCAGGAGGACAGCTTCGCCTGAGAGGCTTCATGAGCAGATCTCGCTGCCATCCTTGAGCTGGTGGGCTTCCTAACACCCCACGCAAGAGGTCAGCAGC
TGGGTGCGTCGCTCACTGTCTTAGGCATCTTTGCCATGAGTCACACTAATGTCCGCACGCTGCAAGTAGGAATTTTGTTTACAAGCAAGCTCTTCTCCAT
CCTGTGGATTCAAGGCCAAATGTGGAAAGTTGATATCGTCTGTTGTCTCCCCAGAGTTCAACGCTCTCGTGCAGACGGTCGACAAATCCTTCCTACTCAA
CTTCTTGCAGCAAGCTCGGGGAGAGGCGGGAGAGGGGAGTGTTTTCATTTGCAGAGGAGGAAATTTGGGAACAGGATGCTTCTTTAAGAAGTCGGGTTTC
TAGAGAATGCTGTGAGGGCCCTGGATGTGAACTGACTTTTGAGATGCTGACCCCACACTGGCCAGTTAGCTCTGGGCCCTGGAGGGAAGCTGGTGGGGAT
GGGCTGACGGGACATCCTGAAAAACAAGYCATCTCCACTCTTGGTAGTTTAAAAATGTTTTAAGAAGTTAAGGTATTTCAACAATTCCTTTCTGAGTGAT
TGCCACTTAGTTCATTAACTTTTGCAAAATCCCACTTTGGGAGGCCAAGACAGGTGGGTCACTTGAGGTCTGGAGTTCGAAACCAGCCTGGCCAACATGA
TGAAGCTCTGTCTCTACTAAAAACAAAAACAAAAACAAAACACAAAAATTAGCCAGGTGTGGTGGCAGGCACCTGTAATCCCAGCTACTTGGGAGGTTGA
GACAAGAATCACTTGAACCCAGTGGGGTGGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAGAA
AAAATGTGCAAAATCCATCTGGGACACAACATTTTTGCTTGCCCTCGTAATGTCCAGAAGGCTGGAGATGATGACCCCTGGGTCCAAGCATCCTCAGGAT
CCGGTGGGTCCTAGAAATCCTGGGAAAATCTTCCTGAAAGGGCTTCACCGGGCAGCCACSCATGCCTGCCACAGGGACACTTTCTCTCCATAAAGAAGCA
GCTGTGGGAATCAGGAAGAAATGACTCCTGTGCATGATTCAGACTCTCCATAATAGAAAGTTTTGCAACCCAATGACTCGGAAATGTTTAGAAATTCTAA
AGAATAATCTATAATTAATGACTGTAATTTTAACAACCCAGTGGGCTGAGAGTGGGGTGTGGCAGTTTCTCAGTGGAAAATCTGGCTGCTTTTACTACAA
GTAGGAGGAGAATGACAAATATCCTGGCCCCAGGGCACACCTGATCTCAGGCTTTCTCTTCAAGCACACCGTTCATTAATCTGTTAAAAGGCCTAGCTCA
TGGTAAGAAGCCCATTTAAACCAGCATTTCCCAAACTTATTTGACTTGACGTTTTGCCTTGCAGCGTGTCTGTGGATGAGAGGTGCCCACAAGCGTTCAG
TCTTTTATCACAATCCGACTGGAACATCTTAGGAGTTGAGAAGAGTGTGTACATTATTTCTTTCCTATTTTCTTTGGGCTACCTTTCAGTCTGGATGGAG
TCTGCCAGGGATGGGGATGGCTTCAGTCTCCTCTTTATATGTAACTAACTATTCCTAAACTTAGTGGTATAAAAAACGCTTTATTTTGTGGGTCAAAATT
TAGACAGGGTACAGTGGTGTTGGCTTTTCTCTGCTCTGCAATGTCTGGAATGTTAGCTGGGAACAGCTGAGAGTGACTTGAAGTCCTGCAGATAGAACCA
CCTGGAAGCTTTTTCATTCACATGTCTGGTGCTTGGGCTGGAAGGAGGTGAGGCTGGGCACAGTTGGGATACCGATGAGAATATTGACTTTGGCCTCTCT
ATGGAGTTTGGGCTTCCTCACAATATGGCAGCGTCAGGGCAGTCCCGTGGACACAGGGGAAGCTGAATGGCTGTTTGTGACCCAGCCATCACTCAACTGG
ACAAACAAGCCCTCCTAGGTTCAAGAGGAATGGACAGAAACACCACCTCTTGAGGAAGAAGTGTCCAGGAATTTGCAGCCATGCTTTCAACCTGCCACGG
GAGCCCCGAAGCCTCTCCTTTGCTGCAATCCCACCTGCCTTTTATCCCCCTGACCTCTCCTTGGGCATCCTGATTCCTTTCTGACCCTATTCCTTGAGTC
CCAGGCAGATGGGCCTTTTCCTCACTTTGTCTTGGGAGTATGGCAGTGGACTCTGCCTACTTCATAATGGAGCCTTTTTCTTGTCCATTTTGATGACCTC
TCAGAGCAGGGCTCTGACACGTTACTGGGTTACAAAGACCCCTCCCTGCCAGGGCCAGCGTGCAGCACAGGGTGCTTTTGAGTTCCGGTGAACGGGGTGC
TCTGGCTGGAGCCTAGTGCGAAGTTTCCCCTTCTCCGCCCATTCCTCATCCCTCAGGGCACACAGGTCACCTTTCCTCGCCTTCTCGTCCCCACCTCTAA
GGCTTGGCCAAAGTTTCTTCATAAAAGCAAGAAAGATAACGAAAGAGCCCCCCATGGGTTATGGTTTTTGTGGGGCCAGGAATGCCCAGTTTGAACCTCC
AGTTCCGCCACCTGTAGCCGAGTGAAAGAGGCTGGGTTATTCAGACACCCCAAGCCTCAGTTTCCCCACTTGTTGTGAGGCTTGAGTGTGCTAACACATC
AAGGCAACCCAGAACAGCGCTTGGCAGAGACTCGCAGTTTATCACTGTGAACTGTCGTTATTGGAAAGTGGGTGGAGTCGGGTTTGGATTCCCCCAGGAG
CAGAGACAGAAACAAAAGGATTCAAGGTAAGCGGCCTGTATGGGAGGTGATCTCAGAAGTGCTGGGAGGGGAAGGGGACCTGTGGCTTTAATGGTGACCC
TGTGCTACTGGAGGCCTGGGATCTCTGAGGAATGCTGAGGCCCAAGCCCTGCAGAGCCAGCCCCGGGTTGTTAATTACTTGGCACTTTCCTCTTGCCTTA
TGTGCAGGGGTGGGCTCAGGCGACTGAAGTCTCAGACACTGCTGCAGGTGCTGGCAGGGGGAGTCACAGCTGCATAAACTGGAATGGGGCAGGTGGGGTG
GGGCGGGTAAGGGGTTGTGTTTGCTTCGGAGAGGGTTTGTCAGCACTTTGAAGGAAAATTTGTGTAGTGGCCGGAACCACAGATGACCCAGGGTTTGTGT
TCCAGCCCAGGGATCATTAGCTGTGTGCGTCACTTAAACTTTCTGTTCCTCAGTTTCTTCATCTGTAAAAAAGGGGCAATAATGTTACCTATTGGGAGGA
TTAAATGACTTAATAAGTATGAGGGGCTTAGAACAGTGCCTGGCACGCAGTACATACTAAGAAAGTGGATTTGCACATATCATTAATGCCTCCCTCCCTT
TCTTTCTTTCTTGTTTATTTATTATTAAATAGTTATAAGTATAAATAATTACAATAATTTATGTCAACGAACTATAGTGTCAACAATAACTATAGGTAAT
TATTTAATAATTAGTAATTATAAAATAATTGATACTAAATTAACTATAGAATTATATAGTGCCAGAGTTGTTTGGCTATCTTTAATTATACATGTAGTTA
TTTAATTTCACAAATAGTTATATGAATTATGGAAGTGAAGGTACGATGGTATAACTATACAATTATTAGATAACTTATCATAGTGGTATACATATTTATC
ATGCAGTTATTAAATAATTACAATGGAATGACTTATTCGCTCTCTGCGTTTGTGCAAGGGCAAGGATGGCCACGTCCCAGCTCTATCCAGCCCCTGGCCC
AGTGCCTGGGGTTCGGTGGCGCTCAKTTCACGCTTGCAGAGCGAGCGGCGGTGAGTGGATGCGGTGGGGTCGGGCTGTGGTGGTAAAGGTGGCCGTGAAC
AGGAGGGGCCACTAGAGCACACAGACGTGAATGACATGGGGCTCCAGGAGGGGCAGGAAGAGCTACAGAAACAGCATCCCCAAAGCTGCCTGGCACGGAA
GAGGTGCTGCAGAAATGGGACTTCCCTTCCCATCCTCTTCTCCTGATAAACAACTGAAAACATAAGAGCGAGATCTTGGGGCTTCTGTGAGGTTAAATGA
ACGAACAAAAGTCTTACAGCGGAAATCACTGAGAATCTCCCCTCCCCTGTCTTCCAAGGAGAACATGATTGTGAGCCTGCTCCTCCCTTCCTGGGGGGGT
TGCTTCCTGCTGGGGAGAGGCTAAGTTGAACTCTAGGATCAAGAAAGGGAAGGAGGCAGAGAAAGGTGAGAAAGGTGAGAAAGATGAGAAGGTGCTCGCA
TGGAGCGTCCGGGCAGTACCAGGCTGGCCCGAAGGAGGTGCGGATGAGGGGGAAAGGCTGTTTACAGATGTGGTGGCTTCTCCGTGTGCATTCACCTCCT
GGGTCTCAACTCGTGCAGATGGAGGGTCTGAGTTAATCTGAGGTTACATTTGTTTGCTCAGCTATGCTTTTTCAAGAGGCCATTCCTCTGAGACTGAGCC
CCATGGCTCCTGGCTTTACATGAGTTACACGCATCTTCTTCTCCTTTTTTCTAAATAGTAAGGGGCAGAGAGAGTTAGAAATAAAAAGGAAAGCTGAAAA
CAAAAACCTCTCAGAAGAGACTCTGGCTGTTTTTTGTTTTTTTTTAATTTTTAAGTTTTTATTAATGCTCATCTTCCCTGAAGAGCCCTGGCTGTTTTCT
TGACCAGCTTCTGGAGAGAAAAATCACAGTGCATTTGAGTAGCTCCAGATGTGATCTCCCCATTCAGCATTTCCCTTCCTGTAGCATCTGCCGAGCCTTC
CTTCTGGCTTCTCTGCTCTCCGTGCCTGAAAGGAGACATTGAGCAATCCAGGCCAGTTCGAAATCCTGAGCCCAGAAATAAAGTGACTGTTGCTTTTGCG
TCCTTGCACGTTTGCCCCGGCTCTCAGCAGAGGCAGAAGGTGAT


SNP Information

Context             (SEQ ID NO:16062):
AGAGTCTTCCCCTCCCCATTAAGAACCCTGATAAGAGCTGGCCACTGCCAGGATCAACAGACTTAACCAGAGGTGTTGGGTGCTGAAGGCACAGTTGCAG
R
TTGGACATCAGTAAAACATCTTTAAGACATGGCAGAGGGTGCTGGACTAGGCTGTGTAGCCCTGACATGTGGCATGCTGACGGAGACGAAGCTTCTCCCT
Celera SNP ID:            hCV3189956
SNP Position Genomic:     12073
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16063):
GGAGGCTGAATGAGCCATAGTGACTGTTGCTGGCGGCAGGGGTGGGGGGGCCCTGAAATCACTCTCATGTCTAGTTTTTGCTCTAGCTCAAGAAGGATCT
Y
GAGAGATCATCAAGCTAAGTTGACCTTTTAATGCTGGCCAGAGAGGCTGGGAGAGGGCCAGGTGCCTGCTGTGTCACAGAGTTCAGGGCAGGCGGCAAGC
Celera SNP ID:            hCV3189957
SNP Position Genomic:     13248
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16064):
CTGCAGGTGGAGTGATGGAGCCTCTCAGAGCCTCATCTCAGGCTCCCCTGCCCACCACCTCTAGGTGGATGCAGCTGTTCCCATTTCGCGGGCTCAGGTA
D
CTTGTGTGCTCCAGACTGGGGGCCTCCCCGCGGTGGGCAGAGGTGGCCTTTGTGTGTAGTCTCAGCGGCTAAGGACCCTGGCTGCACTTCTGCCAGCTGC
Celera SNP ID:            hCV27271198
SNP Position Genomic:     21965
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5|T,5|-,8)   total(G,5|A,5|-,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16065):
ACTCATGGGGGCATGATGGAGTTTCTGGAAGTGTGGTCTCCTGGGTAGCTAAATCCAAATCCCTGGAATACTGGCTAAAGACAGCTACCTGGGCCGGGCG
Y
GGTGGCTCACGCCTGTAAGCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTCAAGAGATCAAGACCATCCTGGCCAACATGGTGAAACCTCG
Celera SNP ID:            hCV3189958
SNP Position Genomic:     14251
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,10)      total(C,10|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16066):
GGCTGCAGGTGGAGTGATGGAGCCTCTCAGAGCCTCATCTCAGGCTCCCCTGCCCACCACCTCTAGGTGGATGCAGCTGTTCCCATTTCGCGGGCTCAGG
B
AGCTTGTGTGCTCCAGACTGGGGGCCTCCCCGCGGTGGGCAGAGGTGGCCTTTGTGTGTAGTCTCAGCGGCTAAGGACCCTGGCTGCACTTCTGCCAGCT
Celera SNP ID:            hCV27271199
SNP Position Genomic:     21963
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,5|T,5|-,8)   total(G,5|C,5|-,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16067):
CAGAGTACTCTTTGAGGCTGTAACTGTGCAGGAGAGACAGTGAGGGACAGGCCAGCGTCTGTCCCAGCGCTGCCTCTCTTTTGGGGCTGCAGGTGGAGTG
R
TGGAGCCTCTCAGAGCCTCATCTCAGGCTCCCCTGCCCACCACCTCTAGGTGGATGCAGCTGTTCCCATTTCGCGGGCTCAGGTAGCTTGTGTGCTCCAG
Celera SNP ID:            hCV12110090
SNP Position Genomic:     21879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,7)      total(G,7|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16068):
CAAGCATCCTCCAGCAGTTTCTGATGAGGAATCCTTTCATTTTCCAGCAGCTTGCAGAGGAGGCCAGGGGAAAATATGGTGACCACAGAAGGCCTGGATC
R
TGAGGGTTGGGAGTAAAGCTCTCAGATGAAGTTGTCAAAGATGGCACCATGGCCTTCGTTGTTGGAGATGGGATATGCCTCAGTGTGTTACTAGATCCTG
Celera SNP ID:            hCV3189959
SNP Position Genomic:     16381
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16069):
TGTGGAAGTCTAGGCCTGGTTCCAAGGATGAGCAGGACCTGGTGTGGAAGTCTAGGCTCCGTTCCGAGGATGAGCAGGACCTGGTGTGGAAGTCTAGGCC
Y
GGTTCTGAGGATGAGCAGGACCTGGTGTGGAAGTCGAGGCTCCGTTCCGAGGATGAGCAGGACCTCGTGTGGAAGTCTAGGCCCGGTTCTGAGGATGAGC
Celera SNP ID:            hCV12110091
SNP Position Genomic:     21567
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16070):
TAGATTATGGCTTCAGCAAAGGCTGTGATGCCTCCGTGCCATGTGTCATGGTGTTTGTCTGGTTTTCTGTAGGCAAACTAGGCGTGGCAACTGCTGGCTG
Y
GTGAATGAAGTTACAGAGATGGAGTGCGGTCGCTCTGAAATCGACGAGCTGATCAAGGAGGTAAGCAGAGGCAGCATTTCAGGGGTCTGGCCCTGCCAGG
Celera SNP ID:            hCV25646350
SNP Position Genomic:     18442
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,38)   total(C,66|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16071):
TAAAGGGAAGTTTAAAGAAGGGGACAAAGCTGAACCAGCCACTTGGAAGACGAGGTTACGCTGTGCTTTGAATAAGAGCCCAGATTTTGAGGAAGTGACG
R
ACCGGTCCCAACTGGACATTTCCGAGCCATACAAAGTTTACCGAATTGTTCCTGAGGAAGAGCAAAAATGTAACTATCCTTTATGGGCATGAAACCTTCC
Celera SNP ID:            hCV25646351
SNP Position Genomic:     15948
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16072):
GGGCGCTGTGAATTTGTTGAGAAAAAGATTATGTCTTTATTTTCTTTAACTTCAGGTTTAAATTGAGCATTTCCTTTTGTTATGAATGTAGGCAGCAGAC
Y
GCAGTGCCCTTGGCAGTGCCTATGAGACGGAGTATTGTCATAAGAAATGAGTTGTCGAAACATCGTTTGCCCTCAGCTTGACGTGTAAATTACAACAGTT
Celera SNP ID:            hCV29404840
SNP Position Genomic:     24873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16073):
GTTCAGTGCCATTATTCAAAAGGGAGGTTGACAGGTGTTAGGTGTTAGAGAGCTATCAGCACCAAACTGAGGCTTGCTTTTTGAGGTAATCAGAGGTTGG
R
AGAATATTGAAGATGGAATAATCTTGTGATTACATGTATCACCCCTCCCCCATTATTCTGTGTGTGCCACTTTTGGGGAACCCCTGCTTTAGTTTGAGTG
Celera SNP ID:            hCV29404841
SNP Position Genomic:     24592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16074):
TGTCCATGAAGCTCTTGTCTATTTCCTGGCAGCCCTTTGAGCTGGGGGGTTGTTTTCACTCCGGCTTCACAGATGAGGAGACTGAGGCTGGGAGGTTCAG
K
ATCTCATCCAGGTCGCGCAGGCCTCTGGCTGGAGCCTGTTCTTGAGGCCTCCTTGTGCCCGGCAGCCGCCATGCTCACAGGGTCTCAGTTCTGGGAGGCC
Celera SNP ID:            hCV29404842
SNP Position Genomic:     22427
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16075):
CTGAGGACTGCATGGGACAGTTTTGTGGGTAGCAGAGGTCGGTGCTCACCCAGGCAGGAAAACTGTCGAGATGGCAATGCCCTGTCCATGAAGCTCTTGT
S
TATTTCCTGGCAGCCCTTTGAGCTGGGGGGTTGTTTTCACTCCGGCTTCACAGATGAGGAGACTGAGGCTGGGAGGTTCAGGATCTCATCCAGGTCGCGC
Celera SNP ID:            hCV29404843
SNP Position Genomic:     22345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16076):
TGGCTCCACAAGGCAGCCTCGAACCGGTCTGGGGTACTTAGAAGGAGCTGCAAACTCACTAAGCTCATTGCTAGCGTATGTAATTCTTTTGGTTTAAGGC
R
ATTAAAATGCAGATACCTCCCTGCATTTACATGTTATCTGCATTCCTACCTTAGATTAGTGTTTTCCAAACTTTGGTCACTTGAGGTCCAGTGTCACAAT
Celera SNP ID:            hCV27928462
SNP Position Genomic:     24159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16077):
GGGGCTGCAGGTGGAGTGATGGAGCCTCTCAGAGCCTCATCTCAGGCTCCCCTGCCCACCACCTCTAGGTGGATGCAGCTGTTCCCATTTCGCGGGCTCA
S
GTAGCTTGTGTGCTCCAGACTGGGGGCCTCCCCGCGGTGGGCAGAGGTGGCCTTTGTGTGTAGTCTCAGCGGCTAAGGACCCTGGCTGCACTTCTGCCAG
Celera SNP ID:            hCV29404844
SNP Position Genomic:     21961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16078):
TTCATCCGTAAAACAGAGAAACCAGGACTTGCGCCATGGGGTCACGAGGGTTAAGTGAGGCATTCATCCTTTGATTCTCTTTTGATGAGCCACTCAGAAC
Y
CCCAGCTGCTTGAAATGCCCCCGCCCCCGCCAGGCCCAGGCTTCTGCAGCCGGTGAATGTGTTTGCTTCCTCCCTCGGCGTCTTCCCCCTAGCCCTACAT
Celera SNP ID:            hCV29404845
SNP Position Genomic:     20713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16079):
AGGGGAGGAAATGGGGCAGGGATAGAAGCGTGCTGGCTGAGGACTGCATGGGACAGTTTTGTGGGTAGCAGAGGTCGGTGCTCACCCAGGCAGGAAAACT
R
TCGAGATGGCAATGCCCTGTCCATGAAGCTCTTGTCTATTTCCTGGCAGCCCTTTGAGCTGGGGGGTTGTTTTCACTCCGGCTTCACAGATGAGGAGACT
Celera SNP ID:            hCV11950483
SNP Position Genomic:     22309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16080):
TGCCATCTGTCATTCCTTTGGGGGCTGGGCCGTGTGGGGGGTTGTGAACCTGCAGCAGATGTCTAAAAATAGTCTCACCTCCCTTGAGAGTAATCGGTTC
Y
CCATGCGTGGAGAGACGTGATGGAGGGTTTGTTCTGTGCCAGGCCTGGCCCACGGCTTGTTTTCTGCTCACATGATCCTGTGTGGTAGATGCTGTTCCCA
Celera SNP ID:            hCV29404847
SNP Position Genomic:     10567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16081):
GTACTCAAGGGGCTGAGGCAGGAAGATCGCTTAAGCCCAGGAGTTCCAGGCTGCCGCGAGCTATGATGGCACCACTGCACTCCTGCCTGGGTGACAGAGC
W
AGACCCTGTCTCTAAAGAAAAAAAAATTGAACTCATCCCCTTTTAAATCCATAAACGCACAACTGAGGTTGTTGGATGGGGAATTTAAGAAATCCCACCT
Celera SNP ID:            hCV8898520
SNP Position Genomic:     8437
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,6)      total(A,6|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16082):
ATTCATGGGAAGGGAAGGATGTGTGGGGTCCTGGTCATGGTGACGGATATTTGTGATTGGAGTCGGCCATGAATTTAATGTGCTTCTGTTTCTTTCTTCA
R
GCCTGGGCAGTTTTTAAAGGGAAGTTTAAAGAAGGGGACAAAGCTGAACCAGCCACTTGGAAGACGAGGTTACGCTGTGCTTTGAATAAGAGCCCAGATT
Celera SNP ID:            hCV8898522
SNP Position Genomic:     15833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 ACCEPTOR SPLICE SITE;hmCS


Context             (SEQ ID NO:16083):
CCGAGTTGCTGGGACTACAGGCCCGTGCCACCACGCTCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTTGA
Y
CTTGTGATCCTCCCAGCTTGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACCTCGCCCGGCAGTCTGGGCAGCTTTGAGCCCTGCATCCAGGTCT
Celera SNP ID:            hCV22272998
SNP Position Genomic:     27313
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,16)   caucasian(C,15|T,25)   total(C,35|T,41)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16084):
TTTATCCTTTAAAAGTGTTAGCAGAAACAACCACCACCACCACCACCACCAACTTCTCTCTTTTGACTTTGCTGATCAGATGACTGAAGCATGGGAAAAA
W
ATTCTGTGCCTTTCCCAAACCAATGAAGACACTCACTAACTTAACGTTTCCTTAAACTCAGCATTTACAGAGTAGATTATGGCTTCAGCAAAGGCTGTGA
Celera SNP ID:            hCV15969758
SNP Position Genomic:     18269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16085):
CATCACTAAAATAAATCCCAAAGTACTGAGCTGGGATCTGGCCTCAGAAGGCTTCTCAAAGCCCTGTGCTGTGCCGCTGCCATGAATTGTAGCTGATTTA
Y
GAGATAAAACCTAATTACCAGCGCTGGTTTAGAACATGCTTTTAACACATTGATTTTCTTAGCCACTTGATGAGGCTTTTAGAATAACCCACTCTGGCTT
Celera SNP ID:            hCV3189960
SNP Position Genomic:     16704
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16086):
ATGCCTCCGTGCCATGTGTCATGGTGTTTGTCTGGTTTTCTGTAGGCAAACTAGGCGTGGCAACTGCTGGCTGCGTGAATGAAGTTACAGAGATGGAGTG
Y
GGTCGCTCTGAAATCGACGAGCTGATCAAGGAGGTAAGCAGAGGCAGCATTTCAGGGGTCTGGCCCTGCCAGGAGGAGTCTCATGTCTTCTGGCAGGGAG
Celera SNP ID:            hCV3189961
SNP Position Genomic:     18469
SNP Source:               Applera
Population(Allele,Count): african american(C,24)   caucasian(C,32|T,6)   total(C,56|T,6)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16087):
TTTACGTGTGGATGGAGTTCACAGGCGAATAGAGGAGAGGACCAGGGGACGTGGCTTGTCCCTTTTGTCCAACAAAGCATTATATTTTTAAGAATGGCAG
W
CCTGTTTGCTGAAGTGTTCATAAGATAACAATAGGCTTGAATCTCCAATTCAAATGAATGTCAAAGCACATATCTTTAATATGCTGAATGAATATTTATT
Celera SNP ID:            hCV12110061
SNP Position Genomic:     29280
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:16088):
TGGGTATTACAAGGTGGACATTTGCATGACTAAACCTCGTGCAGCCTTTGCAAAAGGTTGTGTGTGAGTACTGCATAAATTCTTCTTCTTAATAACATAG
M
AATAATGGAATCCTTAAGAGTAGCTTGGCTGTCAGAGAATGAAGATAACAGAATGTAACCTACCCGAACGGCCTTGCTCTTCTGCACAGGCAGCTGCCAA
Celera SNP ID:            hCV8898527
SNP Position Genomic:     19255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16089):
ACAAAATGTAAACTTTCCTTGCTGCCTGCGCTTGTCATGATGGCGGGTGTTGTTGTACCAGCTCTCATGGCTATTTGATTGCTTCCTTTTTAATGTGCAG
K
TTTTATTCCTTAACGGATTGGAAAGCTGGATAACCAAGCATGTTCACATTGCACATAAATTCCTAACAGGCTACAAGGGAGAGCATAATCGGGGCCTCCT
Celera SNP ID:            hCV3189962
SNP Position Genomic:     18966
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,14)      total(G,5|T,14) ;no_pop(G,-|T,-)   JBIG-allele(T,719|G,754)   total(T,719|G,754)   (T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16090):
GCGAGATTCTTGAAAGCATGGCAGCCTTTGGCCAGCATCACTGTTCACTGGTGTCTCAGAGCTTGTCTGCGTGTCCAGGGCGTTGAGGGCAATTGGATAA
Y
CTGGAACACTGGGTCTGCAACAGGCAGGTCCTGGAAAGGGCCAGGAAACTTATTAGTGGCCCCCAAAGAGCCTAGTAATTTGGCCACATGGTTTGAATGC
Celera SNP ID:            hCV8898528
SNP Position Genomic:     19688
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,11)      total(C,11|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16091):
TAACGGATTGGAAAGCTGGATAACCAAGCATGTTCACATTGCACATAAATTCCTAACAGGCTACAAGGGAGAGCATAATCGGGGCCTCCTTAGGCAAGAA
Y
ACATGGCTTTTGTATACCCATTTCAGCTATTGGGATGCCCTTTTCTTCTGTCTTTGGCCTCTTAACTATGCTTTTCATGGGTATTACAAGGTGGACATTT
Celera SNP ID:            hCV3189963
SNP Position Genomic:     19077
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,16)      total(C,5|T,16) ;JBIC-allele(T,650|C,809)   total(C,809|T,650)   (C,-|T,-)   (T,-|C,-)   (C,-|T,-)   Caucasian(C,36|T,46)   African-American(T,24|C,58)   Asians(T,33|C,49)   total(C,143|T,103)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16092):
CTGTTACGACATTAAGGACCCCCTCAGAACCAAAGAGAGCCCAGGGCATTTGGAGGAGAGGAGAACTCAGACCAGGAACAGGAAGTTTGTTCAGAGCCCT
R
GATTTGAATCCCACGCTGGGAAGTTACAGATCTTGAGCCTCAGTTTATTCATCCGTAAAACAGAGAAACCAGGACTTGCGCCATGGGGTCACGAGGGTTA
Celera SNP ID:            hCV3189964
SNP Position Genomic:     20565
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16093):
AAGTGAGGCATTCATCCTTTGATTCTCTTTTGATGAGCCACTCAGAACCCCCAGCTGCTTGAAATGCCCCCGCCCCCGCCAGGCCCAGGCTTCTGCAGCC
S
GTGAATGTGTTTGCTTCCTCCCTCGGCGTCTTCCCCCTAGCCCTACATCCCCTGTGGGAGTCTGGGAGGTGGCAGCTGGCCCCGGAGGCCTTGAAGGTTG
Celera SNP ID:            hCV3189965
SNP Position Genomic:     20765
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,5)      total(G,5|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16094):
GCTGCAGGAACACCATCCGGAAAGCTAGCTTGCACCCCCAGGCTCTCCCCCAGAGATAAGCCCTGGGTGGTGGGTATGCAGTCCAGTGGTATTCTGGGGG
Y
AAGTGCTTGAGGTGGGAAGGAAATGTGGCCCCACAGTGTCACATTGACACATGGTCAGAAATCCCACAGCATAGAGGAAGTCCCCCCGACTTGCCACTCT
Celera SNP ID:            hCV3189966
SNP Position Genomic:     21017
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,10)      total(C,10|T,6) ;(C,-|T,-)   Caucasian(C,37|T,43)   African-American(T,33|C,51)   total(C,88|T,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:16095):
ACCAGAAAATCCCTCATTGTCTGCAGGCATCATCCTGAGGCCGGCCTCATGGTATAGATCACAGAAGAGAAATTGAAAAAACATTGAGCTCATTTTGTAC
S
GACCCTGAGTACACTGATGAGGCCCTGATAGCAACTCATTTAATTTTTAAAAAGTACTTTACCTTCTTGACATGACGACAAGGGGGGAAAATCTAGTTAA
Celera SNP ID:            hCV27502230
SNP Position Genomic:     12820
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,20|C,1479)   total(G,20|C,1479) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16096):
TGGAGTAGCCAGGCACAGAACTGAGCCATCTCGGTGAGATGCAGAGGCACAATTTGGGGAGAGCATGTCCTTGAATTAGTCCAGCAGGGTCATAGCCACT
K
CCTCATGCACAGAACATCCTTCTAGAAGCTGTGAGCTTTGGTACCTCTGTCCAGCCCCGCCCCCACCTCTATGTAAATCCATGCTTCAGTTTCCTTACCT
Celera SNP ID:            hCV3189968
SNP Position Genomic:     22711
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16097):
AGGGTCATAGCCACTGCCTCATGCACAGAACATCCTTCTAGAAGCTGTGAGCTTTGGTACCTCTGTCCAGCCCCGCCCCCACCTCTATGTAAATCCATGC
Y
TCAGTTTCCTTACCTGGAAAATGGGTATAATAATAATCTACCTTACAGGGTTAAATGTGCTGGTAGGTCCCAAGCCCTGGGCACAGCACCTGATATGAGC
Celera SNP ID:            hCV3189969
SNP Position Genomic:     22796
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16098):
GGGCTGCAGGTGGAGTGATGGAGCCTCTCAGAGCCTCATCTCAGGCTCCCCTGCCCACCACCTCTAGGTGGATGCAGCTGTTCCCATTTCGCGGGCTCAG
V
TAGCTTGTGTGCTCCAGACTGGGGGCCTCCCCGCGGTGGGCAGAGGTGGCCTTTGTGTGTAGTCTCAGCGGCTAAGGACCCTGGCTGCACTTCTGCCAGC
Celera SNP ID:            hCV27271200
SNP Position Genomic:     21962
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,5|G,5|-,8)   total(G,5|A,5|C,5|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16099):
GGATGAGCAGGACCTCGTGTGGAAGTCTAGGCCCGGTTCTGAGGATGAGCAGGACCTGGTGTGGAAGTCGAGGCCCCAATTTCTCCTCCTCACCATTTGG
R
CAGGAGCTGGCGAGTGGCCTCTTTTGAGGCCACTTTTCTTGGACTGGACCAGCAAGTAGACAGAGTACTCTTTGAGGCTGTAACTGTGCAGGAGAGACAG
Celera SNP ID:            hCV27271201
SNP Position Genomic:     21718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16100):
GGAAAAACAGCCAGGGCCATAAAGGAGGGCCTTTTGTGACATCATCAGAAGTGGAGAAGAGGTACCCAGATCCCATTAGCAAAGTGCAGCCGAAGAGTCA
W
GCTAAGTTCACTGTGTCCCTTGCGGCATTGCCTTCCTCAGTGCTGGCTGCCATCATACAACCCCATAGCTTGTGTGGCTTAAACAGCAGACATTTATTTT
Celera SNP ID:            hCV619494
SNP Position Genomic:     1846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:16101):
GTGGTGGGGAAACTGTTGGGTTGGAAGTGGGTACAGCTGGCATTTAATCCCAGACTGGGTGGCCTTGGGAAAGTTACTTACCTCTTGGAATTGCATTTTC
Y
TGAAGTGGGTACAGCTGGCATTTAATCCCAGACTGGGTGGCCTTGGGAAAGTTACTTACCTCTTGGAATTGCATTTTCCTGAAGTGGGTACAGCTGGCAT
Celera SNP ID:            hCV27271202
SNP Position Genomic:     14796
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16102):
TAAAGGAGGGCCTTTTGTGACATCATCAGAAGTGGAGAAGAGGTACCCAGATCCCATTAGCAAAGTGCAGCCGAAGAGTCATGCTAAGTTCACTGTGTCC
S
TTGCGGCATTGCCTTCCTCAGTGCTGGCTGCCATCATACAACCCCATAGCTTGTGTGGCTTAAACAGCAGACATTTATTTTCTCAGTGTTCTGGAGGCTG
Celera SNP ID:            hCV619495
SNP Position Genomic:     1865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:16103):
AGCCAGATTGCGCCACTGCATTCCAGACTGGTGACAGAGTGAGACTCCGTCTCAAAAAAATAAAAAAACTAAAATAAATAAAAATAAAAAATAAAAAAAG
M
CAGCTACCGAGACCCAACCTCCCTTCCCCAGTGAGAATCTTGAGGGGCAAGGCCCAGGAATCTGCATTTTCACAAGCTTCCCAGGGGCAGGGGGTTGGTA
Celera SNP ID:            hCV27271203
SNP Position Genomic:     14568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16104):
TGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGCTGGTGGCTGCAGGTGGCTGCAGGTT
T
CCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCCCGGAGTCCCTGAATCTGTGGGTTTC
Celera SNP ID:            hCV27271204
SNP Position Genomic:     9640
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16105):
TTCCAGTGTCGTTCTCCCTCTCCCCCACTTCATTTTTACAATAAATGTCAGTGCACACCCAGGAGCGGGTGGTCCCACAGGGGACATCTTAACGCCCACC
S
AGGAGCGGCTGGTCCCACAGAGGACCTCTTAACGCTGACGCTTTCTGGAGAAAAGGATTTGTGATGAAAATTTCCCCAAGGGGACCTTCTAGCGCCTAGC
Celera SNP ID:            hCV1334945
SNP Position Genomic:     5254
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,10)      total(G,2|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:16106):
CTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGCTGGTGGCTGCAGGTGGCTGCAGGT
T
TCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCCCGGAGTCCCTGAATCTGTGGGTTT
Celera SNP ID:            hCV27271205
SNP Position Genomic:     9639
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16107):
GGGCGCAGCTCAGTGGCCACCCGTGTCCCTCTCTGCTTTTTGCCTATTTTCCAGCCACCTAAGTCCAATCTGAATGCCCAAGTCGTTGATTGTCGTTTGC
Y
TGTTTCCAAAGATTGGTAGATAGATGCCTTTTTAAAAATCTCATTTTTCTTTAAATCTGGTTTACATGGAAAACGTTAGGAGAGCTCATATAATGAACGG
Celera SNP ID:            hCV15957678
SNP Position Genomic:     6263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16108):
ATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGCTGGTGGCTGCAGGTGGCTGCAG
G
TTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCCCGGAGTCCCTGAATCTGTGGGT
Celera SNP ID:            hCV27271206
SNP Position Genomic:     9637
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16109):
GAAGGACACACAGACGTGGCTGCACATGTGCAGAGATCTTGTAATGTAACTATGGCTTTTCTCTGCACCATGTGTGAAATAAGCTGCCGCTGGCGTTGGG
R
CGCCGGCCTGGGTTCCAACACAGTCCGCTGGCTGCCTCGGTATTTGCCGTGCCTCTCTGGGCCTCAGTTTTTCCTCTCTTAAATAAAGAGGGGACTGGAT
Celera SNP ID:            hCV1334947
SNP Position Genomic:     7449
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16110):
CCCGACGCCAGGCGGGGCGTGGGGGTGGAACTACCTACCGTAATGTCCCCGGGCGCAGCTCAGTGGCCACCCGTGTCCCTCTCTGCTTTTTGCCTATTTT
Y
CAGCCACCTAAGTCCAATCTGAATGCCCAAGTCGTTGATTGTCGTTTGCCTGTTTCCAAAGATTGGTAGATAGATGCCTTTTTAAAAATCTCATTTTTCT
Celera SNP ID:            hCV15957679
SNP Position Genomic:     6213
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,215|C,1288)   total(C,1288|T,215)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16111):
TATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGCTGGTGGCTGCAGGTGGCTGCA
G
GTTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCCCGGAGTCCCTGAATCTGTGGG
Celera SNP ID:            hCV27271207
SNP Position Genomic:     9636
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16112):
GTATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGCTGGTGGCTGCAGGTGGCTGC
A
GGTTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCCCGGAGTCCCTGAATCTGTGG
Celera SNP ID:            hCV27271208
SNP Position Genomic:     9635
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16113):
TGTATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGCTGGTGGCTGCAGGTGGCTG
C
AGGTTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCCCGGAGTCCCTGAATCTGTG
Celera SNP ID:            hCV27271209
SNP Position Genomic:     9634
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,5)   total(C,5|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16114):
CCAGCATCACTGTTCACTGGTGTCTCAGAGCTTGTCTGCGTGTCCAGGGCGTTGAGGGCAATTGGATAACCTGGAACACTGGGTCTGCAACAGGCAGGTC
S
TGGAAAGGGCCAGGAAACTTATTAGTGGCCCCCAAAGAGCCTAGTAATTTGGCCACATGGTTTGAATGCTAAGCCTGGTAGATTTAAGGCCTAGGGCCTT
Celera SNP ID:            hCV12110103
SNP Position Genomic:     19719
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,10)   total(G,5|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16115):
TCGGTAGCTGCAGTTTATTTCCTCACTCTTGTCCCTATCTTTCAGTTGGTCGTAGGAGTTGCCCAGGAAGGAAGTTTGGATAATAATAATGACATCTGGC
R
TGTAAGGTCCAGGCCCTGTCTCAGTTGCTTTCCGTGTAGCATCTGAATTCTCTTACAACCAGTACAGGTAGTGTTTTGTTAGCTGCATCTGGGACTGGGT
Celera SNP ID:            hCV1004441
SNP Position Genomic:     9104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16116):
TGGAGCTGTTCACTGTGGTTGTATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGC
W
GGTGGCTGCAGGTGGCTGCAGGTTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCC
Celera SNP ID:            hCV1004442
SNP Position Genomic:     9615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16117):
TTCTCATTTACTTAAAAATTAATCCAGTTTTTTAAAAGCAAACATTGGTTCAGGAGTGCTGAATGTGTCTCAGACATGTACATGAGCTGATTTCACATCT
Y
TTGAATTACGGAGTCACTTTTGTGGTCGCTTGTATTCTGATGAGGAGATCGAAGGCTCTTTTCTTCTCTTTTCTGCTGCTTCCTTTTCCTGATGAGCCAA
Celera SNP ID:            hCV1004443
SNP Position Genomic:     10214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(C,104|T,775)   total(C,104|T,775)   SC_12_C(C,3|T,18)   SC_12_AA(T,9|C,12)   SC_95_C(C,14|T,167)   total(C,29|T,194)(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16118):
TGTCGGAGTCAGCTCCTTCCAGACTGGTGGGCGCAGCAGCCCAGCACAGGTGAGGGTGGGTGGCCTAGAATTGTCACCAGGCATGGCCTGAAGGGTTTAC
R
GCATTCCACCAGCCAGGGACGGAGTGGGGGTGGTTGTTGCTATCATGATCCATGTCTCATTAAAGGTAGCTCAGCCCTGAGAGGTGAAGAACGATGGCCC
Celera SNP ID:            hCV22271625
SNP Position Genomic:     20132
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(G,38)   total(A,5|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:16119):
TAGCTGATCAACAGAGATTTCTTGCCATTACACCTAGATTCAGACAGAGGAACCAGGAATTAGGGCAGCCCAGCTCTGCAGACCAGCTGGGCTATCGAAT
S
CCTTGTGGGTCATCAGAGTCCTGTGTGGGCATCTCTAAGGCTCCAGATGTCCAGGTTTCACCTCTGGGAGATTCGGAGCCCAAGGTCAAGGTCAAGCTAG
Celera SNP ID:            hCV1004444
SNP Position Genomic:     10892
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,11)      total(G,2|C,11) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16120):
TAAATGTGCTGGTAGGTCCCAAGCCCTGGGCACAGCACCTGATATGAGCTGTGTAGACCATAGTCTGTGGTTTATAACTTCAGGAGTCTTGTCTGTGTAG
R
TAAGCATTTGTCCTGTTACCCAGTTTCTTTAACTGGTGCTTACCTGTGCCGAGCACAAATACAAGCTCCGATAATCCTCACAGCAGCCCAGTGAGGTGGA
Celera SNP ID:            hCV3189970
SNP Position Genomic:     22948
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16121):
GCCCAGTGAGGTGGATGCTGTTTTTATCTCTACTTTGCTGATGAAAAGCTGAGGCACAGAGTGGGGAAGCGGCTTGCCCCAGGTCATCCAGCTGGGCAGC
R
GCTGGGCTGGGACCGCACGTCAGGCAGGTGGGCTGCAGGGTCTGTGCTGCGGGTGTCTTTGTTGCTGCCTCTGTGGTCAGGCCGTTCCCCAGCAAGGCTG
Celera SNP ID:            hCV3189971
SNP Position Genomic:     23134
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16122):
GTGACCTTGCGAAAGTTACTTACCTCTTGGAATTGCATTTTCCTGAATGGGATCGGGATGTCCCTACAGATCTCCTATCATTTTAGGCTGGAGGACACTG
Y
CTGATTTTTCCTGAAACCGAAGATAATTCTCATCTGACTGTGGTTACCTCCTAGTTGGTGTGTCTGTATTCCAATTTTGCAAGCTTAAAATCTGTCCATT
Celera SNP ID:            hCV1004446
SNP Position Genomic:     15012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16123):
GAATGACTTATTCGCTCTCTGCGTTTGTGCAAGGGCAAGGATGGCCACGTCCCAGCTCTATCCAGCCCCTGGCCCAGTGCCTGGGGTTCGGTGGCGCTCA
K
TTCACGCTTGCAGAGCGAGCGGCGGTGAGTGGATGCGGTGGGGTCGGGCTGTGGTGGTAAAGGTGGCCGTGAACAGGAGGGGCCACTAGAGCACACAGAC
Celera SNP ID:            hCV8898536
SNP Position Genomic:     34326
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,10)      total(G,10|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:16124):
GTCTTTCCACATCTGGTCCCCAGATGTGAAAAGACTCAAGACATCTGATTGGAGTCTCTTTGGGTCCTGAAATTGAATGAGAGTTGATGGCCAACAAAGA
Y
TCATGGGAAGGGAAGGATGTGTGGGGTCCTGGTCATGGTGACGGATATTTGTGATTGGAGTCGGCCATGAATTTAATGTGCTTCTGTTTCTTTCTTCAGG
Celera SNP ID:            hCV1004447
SNP Position Genomic:     15734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16125):
CCACCAACTTCTCTCTTTTGACTTTGCTGATCAGATGACTGAAGCATGGGAAAAAAATTCTGTGCCTTTCCCAAACCAATGAAGACACTCACTAACTTAA
Y
GTTTCCTTAAACTCAGCATTTACAGAGTAGATTATGGCTTCAGCAAAGGCTGTGATGCCTCCGTGCCATGTGTCATGGTGTTTGTCTGGTTTTCTGTAGG
Celera SNP ID:            hCV22271735
SNP Position Genomic:     18314
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,10)   caucasian(C,14|T,24)   total(C,26|T,34)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,609|T,874)   total(C,609|T,874) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16126):
GATTAAAGCAGGACAGCAAAAACATGCCGCACCCTGGTCCTACATCACTAAAATAAATCCCAAAGTACTGAGCTGGGATCTGGCCTCAGAAGGCTTCTCA
R
AGCCCTGTGCTGTGCCGCTGCCATGAATTGTAGCTGATTTATGAGATAAAACCTAATTACCAGCGCTGGTTTAGAACATGCTTTTAACACATTGATTTTC
Celera SNP ID:            hCV1004448
SNP Position Genomic:     16662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16127):
TCAGTACCCTCATCAGGTGATTGTCGGGAGGGTAAAGGAACTTAACCTCATGTACCTTGGAGTATGTTCCAAGGATGGTCCCTGAGCGCTGGCTAGAGAC
R
CAGAGTCTGAGGCCCTGCTCCAGCCACAAGATCCGAACCTGCATCTTAGCAAGGTCCCTGGGGATCTGTGTACAGGTTTTGAGACACGCTGACTTTCCGC
Celera SNP ID:            hCV3189974
SNP Position Genomic:     25983
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   JBIC-allele(A,670|G,787)   total(G,787|A,670) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16128):
CACTCGCCTCTAACCTCAGTGGTTTGCAGGCTCCATGGTGGGCGCCCCACCTGCTCCCTACTTCCCCATCAGTAGCTTCTCAGTGAATTCTTTAATCTAT
Y
GAAATGGAATCAAAATTCAGCCGGGAGGAAACAGTGGGTAAATTCTGTAGGTCACTGGGAATAATGAATTTTTGTAAGTGTTGGTTGTGATACGTCTCAC
Celera SNP ID:            hCV1004449
SNP Position Genomic:     17654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16129):
ACACGCTGACTTTCCGCACACTAAGTGCTCAGGATGGCAGCTGCACACACTAAGTGCTGCCTGTTAGCTTTCGTTACGCTGTAGGGAGGATGTGTAGGAT
M
CCAGCCTGGGTGTCTCCTGGAGGGTTAGGATGGCGTCTCCCTTCTCCACGTCCCCATGCTCTCTGCTCCTCTCCCTGTAGCAGCACAGCCCGAGATAGTG
Celera SNP ID:            hCV3189975
SNP Position Genomic:     26167
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,9)      total(A,9|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16130):
TAGGGAGGATGTGTAGGATACCAGCCTGGGTGTCTCCTGGAGGGTTAGGATGGCGTCTCCCTTCTCCACGTCCCCATGCTCTCTGCTCCTCTCCCTGTAG
Y
AGCACAGCCCGAGATAGTGTCAGGTCTCAGCTGCCACTGGCCTGAGAACTGCCAGAGGAGGGGCCTGGAAGGGCGGGTGCAGGGGTATGTGTGAGCTCAG
Celera SNP ID:            hCV3189976
SNP Position Genomic:     26248
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,9)   total(C,9|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16131):
TATGTGTGAGCTCAGGGGCATAAGCCCTGAGGAATCCCCCTAGTGAGGAGGTGTGAGGCCGCGGTTATCACCCCTGAGCAGGCAGAGCGGCACAGAAGTG
Y
GTCCTGCAATGTACATTCCCGGGCCTACCTCACATCCTCTGATTCCATGGGTCTGAGGCGGGGCCCAAGATTCTACATTTCTAATGAGCTCCCAGGGAAG
Celera SNP ID:            hCV3189977
SNP Position Genomic:     26434
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,9)      total(C,9|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16132):
TCGGGGTTGCCAACTCAGTTGCCTCCAAGGGCCAGGCAGGTAAGAGCAATGCACGAATTGAGAGATAAGAGAGAGCACTGGGCAGCTGTGCCCATGGAGA
K
GCGTTCAAACGAGGCATTAAAATCCCGGCAACAACCTGGAATGGCCAAACGAACAGCTCCTTGCTTGGAATTTGGCCCAAGGGCCACCAGTTTGAGATCC
Celera SNP ID:            hCV3189978
SNP Position Genomic:     26731
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,12)   total(G,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16133):
CTGCCGACAGGTCAACCCCTCACGCCAGATCCCTCCTTCATCCCTAGGGCTGGGCCTGAGCTGCCGGTTATGTGTCAGTGAAGTTCCTTCCAGCTCCAAA
S
TGTTCGAACACTTTGGACAGCAGTCTTTTAAATGGCATCGTGAATTCCCTTGCCTTCCTAGCAGGCTACAGAGAACAAAATGTAAACTTTCCTTGCTGCC
Celera SNP ID:            hCV832828
SNP Position Genomic:     18791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16134):
GCTCCAAACTCATTCTCGTGCAGGTAAGTATGGGCAGCTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGTGTGCA
R
TGGCGTGACCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTTGCTGGGACTACAGGCCCGTGCCACCAC
Celera SNP ID:            hCV3189979
SNP Position Genomic:     27146
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,35|G,5)   total(A,70|G,6)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16135):
CCCAGGCTGGTGTGCAATGGCGTGACCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTTGCTGGGACTA
Y
AGGCCCGTGCCACCACGCTCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTTGATCTTGTGATCCTCCCAGC
Celera SNP ID:            hCV25646337
SNP Position Genomic:     27230
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:16136):
TTGCAGGCTCCATGGTGGGCGCCCCACCTGCTCCCTACTTCCCCATCAGTAGCTTCTCAGTGAATTCTTTAATCTATCGAAATGGAATCAAAATTCAGCC
R
GGAGGAAACAGTGGGTAAATTCTGTAGGTCACTGGGAATAATGAATTTTTGTAAGTGTTGGTTGTGATACGTCTCACACTGATAAACTTCATAAGGTAAG
Celera SNP ID:            hCV2023526
SNP Position Genomic:     17677
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;JBIG-allele(G,366|A,1125)   total(G,366|A,1125)   (A,-|G,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16137):
CCTCAGCCTCCCGAGTTGCTGGGACTACAGGCCCGTGCCACCACGCTCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGG
R
TGGTCTTGATCTTGTGATCCTCCCAGCTTGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACCTCGCCCGGCAGTCTGGGCAGCTTTGAGCCCTGC
Celera SNP ID:            hCV25646338
SNP Position Genomic:     27303
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,40)   total(A,74|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:16138):
AAGGCCAAAAAGAGATTTCCTGCCAACTGGCAATACAAAAAAGACCCCAACCTGCCAACACGTTTTGCCAGGAAATCGGTGAGTGTTTTCAAATGCCCTG
K
CTTATAAATGTAACCTTCTTAAGTTAGCAAATGCTTGCTGTAAAGTATATCTGATACAGACTCATTTTGGATCTCAGAAAATAGAAGAAAGAGACCAAAG
Celera SNP ID:            hCV2023527
SNP Position Genomic:     18061
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,7)      total(G,5|T,7) ;JBIC-allele(G,412|T,1069)   total(G,412|T,1069)
SNP Type:                 INTRON


Context             (SEQ ID NO:16139):
CGGGAGTTGGAGGTCATCTCGGCCTTGCTTGCAAACACCCTCTGCCTGTGTCATTCCAGAGCTGCAGCAGTTCTATAACAGCCAGGGCCGGCTTCCTGAC
R
GCAGGGTGGTGCTGTGCTTTGGGGAAGAGTTTCCGGATATGGCCCCCTTGCGCTCCAAACTCATTCTCGTGCAGGTAAGTATGGGCAGCTTTTTTTTTTT
Celera SNP ID:            hCV25646339
SNP Position Genomic:     26994
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,36)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16140):
TTGTATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGCTGGTGGCTGCAGGTGGCT
G
CAGGTTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCCCGGAGTCCCTGAATCTGT
Celera SNP ID:            hCV27271210
SNP Position Genomic:     9633
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16141):
AGTCTTTTAAATGGCATCGTGAATTCCCTTGCCTTCCTAGCAGGCTACAGAGAACAAAATGTAAACTTTCCTTGCTGCCTGCGCTTGTCATGATGGCGGG
K
GTTGTTGTACCAGCTCTCATGGCTATTTGATTGCTTCCTTTTTAATGTGCAGTTTTTATTCCTTAACGGATTGGAAAGCTGGATAACCAAGCATGTTCAC
Celera SNP ID:            hCV2023528
SNP Position Genomic:     18913
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,15)      total(G,5|T,15) ;JBIC-allele(T,724|G,765)   total(G,765|T,724)no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16142):
GGTTGTATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGCTGGTGGCTGCAGGTGG
C
TGCAGGTTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCCCGGAGTCCCTGAATCT
Celera SNP ID:            hCV27271211
SNP Position Genomic:     9631
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,5)   total(C,5|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16143):
AGTGAGATAATCGGATTGCCACACCGGGGTCACAAGAAAAGCAATTTCAAAACATTTCATAATTGGATTTATCAGCCTCCTTTAAGGAATGGGCCAGAGA
Y
TGAACATCTGCATGTGGCTCGTTGAGCGAGATTCTTGAAAGCATGGCAGCCTTTGGCCAGCATCACTGTTCACTGGTGTCTCAGAGCTTGTCTGCGTGTC
Celera SNP ID:            hCV2023529
SNP Position Genomic:     19562
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|T,7)   total(C,7|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16144):
TGGTTGTATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGCTGGTGGCTGCAGGTG
G
CTGCAGGTTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCCCGGAGTCCCTGAATC
Celera SNP ID:            hCV27271212
SNP Position Genomic:     9630
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16145):
CTGCAGGGGGCTGCTGGTGGCTGCAGGTGGCTGCAGGTTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTC
K
CATGGCAGGTGTCCCGGAGTCCCTGAATCTGTGGGTTTCCCCCAAGCCAGCACCTTTGCTGCAAACCTCTGAGTTTCCTGTTAGCAGTTTTTGGGTTGCT
Celera SNP ID:            hCV27829709
SNP Position Genomic:     9701
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(T,34)   total(G,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:16146):
GTGGTTGTATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGCTGGTGGCTGCAGGT
G
GCTGCAGGTTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCCCGGAGTCCCTGAAT
Celera SNP ID:            hCV27271213
SNP Position Genomic:     9629
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16147):
CACTGTGGTTGTATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACAGTGGGAGGGGCCTGCAGGGGGCTGCTGGTGGCTGC
W
GGTGGCTGCAGGTTTCCCACGGAGCTTTCAGTTTGCACTCAGGGCTGTGAGGTCATGGAGGCCAGCATTGCCTTCTCATGGCAGGTGTCCCGGAGTCCCT
Celera SNP ID:            hCV27849166
SNP Position Genomic:     9625
SNP Source:               Applera
Population(Allele,Count): african american(A,34|T,2)   caucasian(A,16|T,2)   total(A,50|T,4)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16148):
GCTCTGCGCACCGCCCGTCCCCCCCACGACCCTTTTTAAGGCCGCGCGACCGCTGGCGCATCGCCTGGAGCGCGGCAGCAAGCGTGGGAACGCGGGCGGC
R
AGACGGCGGCAGGACGGCGGCAGGTAGGCACAGTGGGCGGGTAGGGCGCCCGTGTCCCGCGCGGTCCGGTCCCGCGGGGTCCCCGACGCCAGGCGGGGCG
Celera SNP ID:            hCV619501
SNP Position Genomic:     6031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:16149):
CTCTGCGCACCGCCCGTCCCCCCCACGACCCTTTTTAAGGCCGCGCGACCGCTGGCGCATCGCCTGGAGCGCGGCAGCAAGCGTGGGAACGCGGGCGGCG
R
GACGGCGGCAGGACGGCGGCAGGTAGGCACAGTGGGCGGGTAGGGCGCCCGTGTCCCGCGCGGTCCGGTCCCGCGGGGTCCCCGACGCCAGGCGGGGCGT
Celera SNP ID:            hCV619502
SNP Position Genomic:     6032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:16150):
TGATGCACATGTGTATATTTGGAAAGGCCAAAAAGAGATTTCCTGCCAACTGGCAATACAAAAAAGACCCCAACCTGCCAACACGTTTTGCCAGGAAATC
K
GTGAGTGTTTTCAAATGCCCTGGCTTATAAATGTAACCTTCTTAAGTTAGCAAATGCTTGCTGTAAAGTATATCTGATACAGACTCATTTTGGATCTCAG
Celera SNP ID:            hCV1004450
SNP Position Genomic:     18038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16151):
AGCAACCCCCTATCTTGAAACGCGCTCTATCATCCCACTGAAATTCTACCACGTGGAATAATGCTTGGAGGGTCAGAGTTGTGGAACTGCCCAATAACCA
R
TCGTTACTGAGGGTTAGTTTGTGAAGGAGGGGACAGACTGCTTCTAAAATTCTGTTTAATGACAGTCAATTAAGATTTCTGAGTCTGGCTTGAGGGCCTT
Celera SNP ID:            hCV619503
SNP Position Genomic:     6468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16152):
TAACTGTAGTAGAATCTCAGGCTTTTGATGTTACTTAGAATCTTGGAGGAGACCACGAAGGACACACAGACGTGGCTGCACATGTGCAGAGATCTTGTAA
Y
GTAACTATGGCTTTTCTCTGCACCATGTGTGAAATAAGCTGCCGCTGGCGTTGGGGCGCCGGCCTGGGTTCCAACACAGTCCGCTGGCTGCCTCGGTATT
Celera SNP ID:            hCV619504
SNP Position Genomic:     7393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16153):
AAAGTGCTGTCTTTATCCTTTAAAAGTGTTAGCAGAAACAACCACCACCACCACCACCACCAACTTCTCTCTTTTGACTTTGCTGATCAGATGACTGAAG
Y
ATGGGAAAAAAATTCTGTGCCTTTCCCAAACCAATGAAGACACTCACTAACTTAACGTTTCCTTAAACTCAGCATTTACAGAGTAGATTATGGCTTCAGC
Celera SNP ID:            hCV1004451
SNP Position Genomic:     18258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16154):
AGGGTGCTGGACTAGGCTGTGTAGCCCTGACATGTGGCATGCTGACGGAGACGAAGCTTCTCCCTTCACCCCATTCCCTACTTCAACTTGTGCTCGGGGG
G
TAATGAAATAAAGCCCCAGATTTATACATCTTATGCAATGTTCTTCATGGCCGTTTCAACAGTGTTGAGAAAAATGTGCAAGATTCCCAATGTTTCCGTT
Celera SNP ID:            hCV12110118
SNP Position Genomic:     12209
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,8)   total(G,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16155):
TGAGGCTGGGAGGTTCAGGATCTCATCCAGGTCGCGCAGGCCTCTGGCTGGAGCCTGTTCTTGAGGCCTCCTTGTGCCCGGCAGCCGCCATGCTCACAGG
R
TCTCAGTTCTGGGAGGCCTGGGTCATGAGGCTAAGCCTCCGGGCTCGCCAGCCACTGGGCTATGGCCTGGGAGTCTGCTGACCAGTGCTTTCCGGGGGCT
Celera SNP ID:            hCV1004454
SNP Position Genomic:     22509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16156):
AAGACTTGTCATTCAGTAATATTAGCAGATAGCTGCTTCGATAAAGGAATTTGGAGTTTAAAAATCAACTTGTGAAAACAAGGTTGTTTTTGTCTTTATC
K
TTTGTTAGAGTTATAGATTTATGATTTCATAGGCTTGATTCTATGTGAAATATCTTTTTACTTTTATGCATTTTAATAAGATTTAAAAATATTTAGATTA
Celera SNP ID:            hCV3189980
SNP Position Genomic:     28541
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:16157):
CACTGGGCTATGGCCTGGGAGTCTGCTGACCAGTGCTTTCCGGGGGCTGTGGAGTAGCCAGGCACAGAACTGAGCCATCTCGGTGAGATGCAGAGGCACA
R
TTTGGGGAGAGCATGTCCTTGAATTAGTCCAGCAGGGTCATAGCCACTGCCTCATGCACAGAACATCCTTCTAGAAGCTGTGAGCTTTGGTACCTCTGTC
Celera SNP ID:            hCV1004455
SNP Position Genomic:     22662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16158):
GAAGATTAGAACTAAATTTATTTTTTTCATTTCTGTCATGAAATCATTCCAGATACCTCTTTTCTTCTTTCCAAATGGTTTTCACATGTGTTTGAAATAT
Y
TGTACTTTGAATTGTCGGATTTTCCATGTCCTCCTTTCTCCTTTGTGCCCAGCCTGAGTCAGCACCATCCCGCATTCAGAACCTCCCAGTGAAAGGGCAG
Celera SNP ID:            hCV3189981
SNP Position Genomic:     28900
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:16159):
GAACTGACTTTTGAGATGCTGACCCCACACTGGCCAGTTAGCTCTGGGCCCTGGAGGGAAGCTGGTGGGGATGGGCTGACGGGACATCCTGAAAAACAAG
Y
CATCTCCACTCTTGGTAGTTTAAAAATGTTTTAAGAAGTTAAGGTATTTCAACAATTCCTTTCTGAGTGATTGCCACTTAGTTCATTAACTTTTGCAAAA
Celera SNP ID:            hCV1004456
SNP Position Genomic:     31029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:16160):
GAACTAAATTTATTTTTTTCATTTCTGTCATGAAATCATTCCAGATACCTCTTTTCTTCTTTCCAAATGGTTTTCACATGTGTTTGAAATATTTGTACTT
Y
GAATTGTCGGATTTTCCATGTCCTCCTTTCTCCTTTGTGCCCAGCCTGAGTCAGCACCATCCCGCATTCAGAACCTCCCAGTGAAAGGGCAGCCTTCATT
Celera SNP ID:            hCV3189982
SNP Position Genomic:     28908
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:16161):
AGTTTGAGATCCCATGGTGCCCTGGCCTAAATGCTACAAGCCCTGGGCCTCCTGATCCCCCAGCCCTGCTGCTGCGGGAGTTGGAGGTCATCTCGGCCTT
S
CTTGCAAACACCCTCTGCCTGTGTCATTCCAGAGCTGCAGCAGTTCTATAACAGCCAGGGCCGGCTTCCTGACGGCAGGGTGGTGCTGTGCTTTGGGGAA
Celera SNP ID:            hCV25646340
SNP Position Genomic:     26920
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(C,4|G,32)   total(C,5|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:16162):
CTCCCATCTAGATTGAGCAGCTGTATGTCCGGCAACTGGCAGAAGAGGCTGGGAAGAGCTGTGGAGCCGGCTCTGTGATGCAGGCCCCCGAGGAGCCGCC
R
CCAGACCAGGTCTTCCGGATGTTTCCAGATATTTGTGCCTCACACCAGAGATCATTTTTCAGAGAAAACCAACAGATCACCGTCTAAGTGCGTCGCTTGG
Celera SNP ID:            hCV15957725
SNP Position Genomic:     28038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16163):
AGGTGACGCGGAAGCTGTTCGGGCACCTGGAGCGCGGGGTGCTGCTGCACAGCAGCCGGCAGGGCGTGTTCGTCAAGCGGCTGTGCCAGGGCCGCGTGTT
Y
TGCAGCGGCAACGCCGTGGTGTGCAAAGGCAGGCCCAACAAGCTGGAGCGTGATGAGGTGGTCCAGGTCTTCGACACCAGCCAGTTCTTCCGAGGTCTGT
Celera SNP ID:            hCV25646341
SNP Position Genomic:     25553
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16164):
GCACCGTCATCGTGTCCCTCTTGTCCACAGCATTCTCCCAGATGGTGATCAGCTTCTACTATGGGGGCAAGCTGGTGGGCCAGGCCACCACCACCTGCCC
Y
GAGGGCTGCCGCCTGTCCCTGAGCCAGCCTGGGCTGCCCGGCACCAAGCTGTATGGGCCCGAGGGCCTGGAGCTGGTGCGCTTCCCGCCGGCCGACGCCA
Celera SNP ID:            hCV25646342
SNP Position Genomic:     25331
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,36)   total(C,63|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16165):
TTTGGAGAAGGAGCGATTGGGGTTACTCCCTGTACACCACACCTGGGTGGCTCTGAGCTTGCTTTTCTGTTTCTCCTGCAGGCGTGCCGCTGGTGACGGG
R
TACACCACCTACGACGCGCACCATTCAGGTACGGGGTGGTCCGGGCTGAGAGGGGCGTGGGCACTGTTTGAAGACAAAGCCCAGATAACCCAAGCAGGGT
Celera SNP ID:            hCV25646343
SNP Position Genomic:     21336
SNP Source:               Applera
Population(Allele,Count): african american(G,20)   caucasian(A,1|G,27)   total(A,1|G,47)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16166):
TCACTGGTGTCTCAGAGCTTGTCTGCGTGTCCAGGGCGTTGAGGGCAATTGGATAACCTGGAACACTGGGTCTGCAACAGGCAGGTCCTGGAAAGGGCCA
R
GAAACTTATTAGTGGCCCCCAAAGAGCCTAGTAATTTGGCCACATGGTTTGAATGCTAAGCCTGGTAGATTTAAGGCCTAGGGCCTTTCAGGTTGCAAAG
Celera SNP ID:            hCV2023532
SNP Position Genomic:     19732
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,4)   caucasian(A,30|G,6)   total(A,42|G,10)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|G,8)   total(G,8|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16167):
GCCAGGAAACTTATTAGTGGCCCCCAAAGAGCCTAGTAATTTGGCCACATGGTTTGAATGCTAAGCCTGGTAGATTTAAGGCCTAGGGCCTTTCAGGTTG
Y
AAAGTGAAACTTGACTTTTGTCTCCTGAGATAAAGGTGACAATATGGTTTTACTTACACATGAACTGTTCATTTTTACAAACACTGGAGCCCCAGGTGGG
Celera SNP ID:            hCV25646344
SNP Position Genomic:     19828
SNP Source:               Applera
Population(Allele,Count): african american(C,24)   caucasian(C,37|T,1)   total(C,61|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16168):
GAAATTGAAAAAACATTGAGCTCATTTTGTACCGACCCTGAGTACACTGATGAGGCCCTGATAGCAACTCATTTAATTTTTAAAAAGTACTTTACCTTCT
W
GACATGACGACAAGGGGGGAAAATCTAGTTAAGTGAGGATTATGATTCATGGTTATTCCAGGCATCGTAACAGTCCTGAATGAGTTAAAGCTCACTTAGT
Celera SNP ID:            hCV27517534
SNP Position Genomic:     12888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16169):
TTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGTGTGCAATGGCGTGACCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAG
Y
GATTCTCCTGCCTCAGCCTCCCGAGTTGCTGGGACTACAGGCCCGTGCCACCACGCTCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCAT
Celera SNP ID:            hCV2023534
SNP Position Genomic:     27192
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,14)   caucasian(C,14|T,24)   total(C,28|T,38)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16170):
GAGGAATCCTTTCATTTTCCAGCAGCTTGCAGAGGAGGCCAGGGGAAAATATGGTGACCACAGAAGGCCTGGATCATGAGGGTTGGGAGTAAAGCTCTCA
S
ATGAAGTTGTCAAAGATGGCACCATGGCCTTCGTTGTTGGAGATGGGATATGCCTCAGTGTGTTACTAGATCCTGATTGTTATTTGGGAACTCCGGGATG
Celera SNP ID:            hCV27484051
SNP Position Genomic:     16406
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,140|G,1317)   total(G,1317|C,140) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16171):
GGCTGGAGATGATGACCCCTGGGTCCAAGCATCCTCAGGATCCGGTGGGTCCTAGAAATCCTGGGAAAATCTTCCTGAAAGGGCTTCACCGGGCAGCCAC
S
CATGCCTGCCACAGGGACACTTTCTCTCCATAAAGAAGCAGCTGTGGGAATCAGGAAGAAATGACTCCTGTGCATGATTCAGACTCTCCATAATAGAAAG
Celera SNP ID:            hCV2023536
SNP Position Genomic:     31560
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 TFBS


Context             (SEQ ID NO:16172):
TCATGGTGTTTGTCTGGTTTTCTGTAGGCAAACTAGGCGTGGCAACTGCTGGCTGCGTGAATGAAGTTACAGAGATGGAGTGCGGTCGCTCTGAAATCGA
Y
GAGCTGATCAAGGAGGTAAGCAGAGGCAGCATTTCAGGGGTCTGGCCCTGCCAGGAGGAGTCTCATGTCTTCTGGCAGGGAGGGGCACCGTTCTTGCTGT
Celera SNP ID:            hCV25646349
SNP Position Genomic:     18487
SNP Source:               Applera
Population(Allele,Count): african american(C,22)   caucasian(C,36|T,2)   total(C,58|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16173):
TGAGCTCATTTTGTACCGACCCTGAGTACACTGATGAGGCCCTGATAGCAACTCATTTAATTTTTAAAAAGTACTTTACCTTCTTGACATGACGACAAGG
R
GGGAAAATCTAGTTAAGTGAGGATTATGATTCATGGTTATTCCAGGCATCGTAACAGTCCTGAATGAGTTAAAGCTCACTTAGTAGCACAGATATTTCTC
Celera SNP ID:            hCV27484052
SNP Position Genomic:     12904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16174):
CATCGTTTGCCCTCAGCTTGACGTGTAAATTACAACAGTTACCAGACCTTCTCTAGACCTTGTATTTAAAGAGTCAGTGAAGAAGTACAGAGAACACTGT
K
GTAGTTAATATGTTCAGTCATTGGTTTCCTTAGTCATTCTGTGTATTTATTCATGCATATAAAAACATTACTTCTACAAGCAGTACATGGATTTCCCCAG
Celera SNP ID:            hCV29404838
SNP Position Genomic:     25034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16175):
TCACTAAGCTCATTGCTAGCGTATGTAATTCTTTTGGTTTAAGGCAATTAAAATGCAGATACCTCCCTGCATTTACATGTTATCTGCATTCCTACCTTAG
W
TTAGTGTTTTCCAAACTTTGGTCACTTGAGGTCCAGTGTCACAATTGGTTTTCACAGCCTGGACTGTTACTAACATCATGTTTTTCCTCAAATCTTAATC
Celera SNP ID:            hCV27972723
SNP Position Genomic:     24214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16176):
AACTTCAGGTTTAAATTGAGCATTTCCTTTTGTTATGAATGTAGGCAGCAGACCGCAGTGCCCTTGGCAGTGCCTATGAGACGGAGTATTGTCATAAGAA
R
TGAGTTGTCGAAACATCGTTTGCCCTCAGCTTGACGTGTAAATTACAACAGTTACCAGACCTTCTCTAGACCTTGTATTTAAAGAGTCAGTGAAGAAGTA
Celera SNP ID:            hCV29404839
SNP Position Genomic:     24920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16177):
GGAGGAAATGGGGCAGGGATAGAAGCGTGCTGGCTGAGGACTGCATGGGACAGTTTTGTGGGTAGCAGAGGTCGGTGCTCACCCAGGCAGGAAAACTGTC
S
AGATGGCAATGCCCTGTCCATGAAGCTCTTGTCTATTTCCTGGCAGCCCTTTGAGCTGGGGGGTTGTTTTCACTCCGGCTTCACAGATGAGGAGACTGAG
Celera SNP ID:            hCV11950479
SNP Position Genomic:     22312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16178):
GGTCTGGGCAATTCTTTGTTGTAAGGGTTCCCTATGCCTTGTGGGATGTTTAGTGGCATCTCTGACCTCTACCCACCAGATGCCAGTAGCATCCCCTCCC
Y
TACTGTCACAATCAAAAATGTCTTGGACATTGCCAAATATCTCCTGGTGGGGCAGAGTCTTCCCCTCCCCATTAAGAACCCTGATAAGAGCTGGCCACTG
Celera SNP ID:            hCV12110122
SNP Position Genomic:     11919
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16179):
GATTGTTTCAAACTCGTTTGCCCAAAGAGGTCACATTTTAATCAGAAGAACAAAAATGCTATTTTTTTTTTTTTTTGGGTGGGCGTCTATCCAGCTGTCT
Y
GGGGATTTCCAGCACTGTTCTTGGAAATGTTGGCTCTAAGTCGATAGGTCATGCTAGTTCTCTCTCTCTTTCTCTGTGCTGTTGGGGAAGCTGTCTGCTT
Celera SNP ID:            hCV3189952
SNP Position Genomic:     8799
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,10)      total(C,2|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:16180):
AGAGTCCCATTCAGTCGGTTGGGAACTCTGCATTATAGATAACCCCAAAAGCCGGAATTTCTCTGCCTCGCCACTGTTGATGTCTGGGTCTGGGCAATTC
K
TTGTTGTAAGGGTTCCCTATGCCTTGTGGGATGTTTAGTGGCATCTCTGACCTCTACCCACCAGATGCCAGTAGCATCCCCTCCCCTACTGTCACAATCA
Celera SNP ID:            hCV12110125
SNP Position Genomic:     11833
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16181):
TCAGGGAATGTGGGGCCAGCTGGGCATCTGGTAGCCCAGTTGGTTCTTCGGATAATGGGCTGCTCAGTGAAGGAACCTGGTGCTGTAAAAGTGATTCCCC
Y
TCTCCTTCCAGTCTTGGGCTAAAACTGGAGCTGTTCACTGTGGTTGTATCTGCCTGAAAGGAAAGGGCAGATGAAAGCTGGAAGGAGCACAGCCAGCACA
Celera SNP ID:            hCV3189953
SNP Position Genomic:     9489
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,32|T,4)   total(C,67|T,5)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16182):
GTGCTGAATGTGTCTCAGACATGTACATGAGCTGATTTCACATCTCTTGAATTACGGAGTCACTTTTGTGGTCGCTTGTATTCTGATGAGGAGATCGAAG
S
CTCTTTTCTTCTCTTTTCTGCTGCTTCCTTTTCCTGATGAGCCAAGTGGGAGAAAATACTTCGAGACCTTCACGCTAAGACCTTTCCCCACGGGCTTCCA
Celera SNP ID:            hCV3189954
SNP Position Genomic:     10269
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,8)   total(G,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16183):
ACCAGATGCCAGTAGCATCCCCTCCCCTACTGTCACAATCAAAAATGTCTTGGACATTGCCAAATATCTCCTGGTGGGGCAGAGTCTTCCCCTCCCCATT
R
AGAACCCTGATAAGAGCTGGCCACTGCCAGGATCAACAGACTTAACCAGAGGTGTTGGGTGCTGAAGGCACAGTTGCAGGTTGGACATCAGTAAAACATC
Celera SNP ID:            hCV3189955
SNP Position Genomic:     11993
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Gene Number:                 37
Celera Gene:                 hCG17112 - 84000314096018
Gene Symbol:                 LAMB1
Protein Name:                laminin, beta 1
Celera Genomic Axis:         GA_x5YUV32W188(5123908..5215522)
Chromosome:                  Chr7
OMIM number:                 150240
OMIM Information:            LAMININ, BETA-1;LAMB1


Genomic Sequence (SEQ ID NO:12197):
GTATTTTAGTAGAGACAGGATTTCACCATGTTGCCCAGGGTGGTCTTGAACTCCTGAGCCCAGGCGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGAT
TATAGGCGTGAGTCACCACGCCTGGCCAACAAATGACCATTTTTAAGACAGTGTTGATAAAGTCCTGCCTGCATCAGTCAATATGCTGCAGTTTTTTTAA
AGCCTCCTAAATTTCAGGCTAAAAACAACAAGTTTAGGTCTCTCTCATGCTACATGTCTAGAAAAATGTATTGGCTAAGGTAAAGTGTACTGGCTTCAGG
TATAGCTGGATCAAGATACTCCAAAGTGTTCTTCAAGGACCCACCCTCTGGTTCCCTCAGATCTTCTTTCCTTTGTGTTGGCTCCAGTCTCAAGCAGCCT
CCACCAGTTCCAGGCTGACATTCACATAACTCCCAAGTCCAGAGGGAAAAAGAGGTGTTTTTTGTTTTTTGGTTGTTTGTTTTTTCCCAGGAATTCCAAC
AAAAATCCCAGAGTCAYCTTATCTAGAATATATGAGTTTCATATCCATCCCTGAACCACTCACTAGAAAGAGGAAGATGGAAATGCACTGAATAGCCTGG
AGTTCATGGGGGAATTAGCCCTATTCAAATCAAGTAAGCTGAAAATGGGAGAGGACTAGTCCCTCAAGGAAAATCCAGCCAATGTTACCAGATGAAGGGA
GGATGAATGTTAACGCAAGCCCAAACTACTGTTTGCATTATATGGTTCGAGGCTTAAAATGTTGTGACTCCCTGCCTGGTTTCAGGCCCTGATGGTTTTC
CTATTACAGAGGGTAGCAATAACGTCCCCTGTGTGTTCCCTTAACAATTATAAAGAAGGTTACTCAATTTTATTCATCCAACAAGCAGATATTGTGTGTC
TATAATATACTAGAAACTGCCACCTGACGGGAATCCAAAGTCTAATGAAAGACAGTCTCTGCTTCTGGGAAGAAGGAAACTAAAACAAAACTACAAATTA
CTGTTGTACGTATTATAAAAGACATATATATATATAAAGTATAGCATGACATTTGACCTGAATCTTACTGGTCATTGAATTTACTTTTCTAGATCAATTC
TGAATCTCACAAAATGCACTTAAATCTAATTTTTAAAACAGAAAAATCTAGTATTTTTCATGAGAACAATGTTATATAAATAGCCACATTTCAGGACCCA
AAGATTGAAGTCTAGAATGTAGCATCCTTGTTGTTCTACTGTCAATCAGGATTTCAAAGGAGACACACACATGGTGTTCTAAGACTGTGTGAAAGTGAAG
GTGACCTTGAAAACAGTTCTTGTTTTGTTTTCAAACGAAAATAATAAATGCTGCAGGGAGATAACTGTCACACATTCTTTGAGACAGAACAGCCAACAAT
TTGCAATCCCATCTGCCATTTAAACTGCTGCAGAATTCTTTGGTAAAGACTGCTTTATGCTAAAGCAGGTAGTGCCAGCTTAGTACAAATGATAGACGAG
AGAGGGTTGTGTTGACAGCCAGAGCAAAGCCCTGGACAGGCTTACTAACAGAAGAGATTCATTCCTCCTCAACTTGTCACATCTTCACAAATCAGAGGAA
ATTGTATGAAATATAATAGACGAGAAGAATTTGTGAGTGAAACTTGGAATTATTCCCAAAATTAAGTCAAGTGGTGGTATTTCTTTTTCTCTTTGGCTAG
AAATTCATATTAAGGTAGAAAAAAGTGGACATTTAAGATTTAAGGAAGTTTTTAAAACATGGAGACTAGTCTTCATTTACTTTCATTCGAGACACACTTA
TTGAGCACATGTAATGTGCCTCATTTTATGCAAGGCAACATTAATGCAAAAACGAATGTTACACAATACTTGTCCTTGTCTCACTGTCTATTGGGGGAGA
TAAGGGCATAAACAAATAGTTACAGCATTATGTTATATATGCTGTAACAGGCTTTTACAAGGAGGAGGAGAGAGAGGCTCATGGAGAAAGTCATGTTTAA
GAGGAGTCTTCAAAGGTGTGCAGTTCACTAAGTTGACAAGGTCAAGGAGGACCCACGTAGTGAAAGGAAAGCCATGAAGGAATAAAGTATGTCATACACA
GGGAAGGAGCAGAGGGCAGCCATTGAAGGCTTTTGAATAAGGGAATGACATGATCAAAGTTTTGACTCTGAAAAAATCCTTCTGCGGGTATTAGGAAGGA
TTAGACTGAAGAGAGGAAGAGTCTGGAAGTAGGAACACTTGTCGGGGGCTCTGGCAGGCATTCAGACTGAAATCTAAGGGAGGGCAATGAGGTTGGAGCA
AGGGGACATGCTGGCTAGTTGCTAGGAAAGTAGAAATGACAGGACCTAGTGATGGGGAGGGGAGGGAATGAAGGAACGAGAGGTGCCCAAGATTCCCAGG
CTAGGCTGGCTTCATGGGCATGTGATTTGTGCAATTGCACAGCACCCCCTACCCCACTCAGGAGAGTCCCATGCTAGGTTTAATGCTCTTTCACTGTCTT
TACATTAATAATAATAGAGGGGCTCCACATTTGTGCCCTGCTAATCATGCAGCCAGTCCTGTTCCCAGATCTCCGTCTTGAGCTAAGGGGTGGATTATGG
TGCCAATAATTGAAATGGGAAACAGAAGACAGAACACATTTTGTTGTAGGAGAGGTGGGTGGAGAGATTTCAGTTTTGCCACAGATGAATTTCATTTACC
TATGGGTCATCAAAGTAGAGATATTCAATGGCCTGTTGGAAATGGTATGTAAATTCCAAGTGAGGTACAAGCTAGAGATATGGGAATTAGAGGTTGAGGA
GAGTCCAAGTGATGCACCCCTGGATATGGATGAGTAAAGGGAGCAGAAAAGAGAGACAGAACCTTTGGTAGCACCAATGTTTAAGGGATCAGAGAAGGGC
AAGATAAATGGGAGAGGAGGGGTCAAAGTCTTGTGGGAAAATTCTGGAATTATGTCCTGGAAGCTAAGGAGAAAGGAGTCTCAAGAAGGAGGGTGTGATC
ATCTGAAGCATAAGCCACAAAGAGATCAAATAAGATCACAATGGGAAAACGTCCATTGCATTCAGATTAGAAAGTCAAGGGCACTTACCAAGAATAAATG
TGTGCGCAAAGAATTGCAGGGTGCACAGAGCTTCCCCTCCTTCCTAGGAAGACATTGTAGATGCCACGCCCATTCCAAGCTCTTGGATACGAGGGGCGGA
GAGGACGTGTCACTTTCTAAAGAACAAACACAACAGGTGGACCCTGTTTCTAAAGGGTTAACCCGCCTTCCCCGAGTGCAGGGCATGAGAGTTTTAGCCG
TGGGCACCGTTTGGTGATTCTCCAAAGGAAGGAGAGGGAGTATAGAGTCTTTATCCTTCATTCCAGCCACATTGCCTAGAGCAGGAGTATGGAACAAAGC
TCAAGCTTTGATTGAGCAAACCCTAGAATTTGCTCAATCCTTCCTTTGGCTTCATAGCTCAGGTTCTTGAAAGTATAGTTTGCTCTTATGCTCTGCTTTC
CCCAAGTTCCTCCTCCATTCCATGGCAGTGTGGCTTCCATCTCCACCACGGTTCTTGGTAACTGACCTTGACTTTTTTTTTTTTTTTTTTTTTTTTTTTG
AGACGAAGTCTTGCTCTTTTTGGCCAGGCTGGAGTGCAATGGCTCAATCTTGGCTCACTGCAATCTCCACCTCCCGGTTTCAAGCAATTCTCCTGCCTCA
GCCTCCCAAGTAGCTGAGATTACAGGCGCCTGCCACCACACCTAATTTTTGTATTTTTAGTAGAGACGGGTTTCACCATATTGGACAGACTGGTCTCGAG
CTCCTGACCTCGTGATCCACCCGCCTCACACCCCTTACAGGCATGAGCCACCATGCCTGGCCACCCTTGGCTTTCTAATTGCTGAATGCAATGGACATTT
TCCCACTGTGATCTTATTTGATCTCTGTGGCTTATGCTTCAGATCTCCCTCTTGAAACTCTTTTCTCCTTAGCTCAATCTTTGATTCCATGAGCAAATCT
CCAGAGCTCAAGCTTTGATTCCATACAATGCAGAGTTTGTGTTGTTTTTACTTAAAACAGGAGGAGGCTGAGCAAGTATATGAGAGCACTGAACTTAGTA
GATGAGAGGAGGGCACACTTCTAGGAGAGAAGCACAAAAGATACAGGTGGGAAGGGAGGTAGGCAAATTCATAGATGAAGTGGTCAGAAGGTGAGTGTTA
CACACACTCCTCCCCCTGCACATATACAGGCAAATTTTTAAAAACCTAATTTTCTCAGTAGTGTTCAATTTACTACTGCAAGTGAGGTGATCAGGAGAGC
AGGTAGGCTTCTAAACAGTGCTGAAAGTAAATGACCTTTTGCAAGGGGAGAGGACGCTGAGCAGGGACAGGTAGCAAGGAGGGCTCAGCTGCTGTGAGAG
CAGAGGTTAGGCTCAAGAAAGAAAAGGAGCTGAAAGATGCTTGCAGTGTGTGCACATGAAAATACGAAACTCTGGCCCAGGGTATTAAAAGCTCAACAGG
AAGAAAAGACATTTGCCTTTTAATATTTTTCTTTTAATTAAGCCCTGAAGACCCTCCATTGCAATTCTACAGCCTCCCAACAGCAAGGACTTTCTCAGCG
CTTTCAGGCTACCCAGCCGGCGCAGAGGATCCTAAGCCTCAGCAGAGGCAAAACCTCCCCAGGCTGTAGCAGGGCAAGTGCTGATTTGGTGAATAATKAA
TGCCTCACTCACCTAGACCCCAAGGCTCCCGCCTGCCTCAGACTCGTGCAGGCTTACGAACTCGTAAAGCAGCTGACTCTAYGGTCTAATGATTAAACTT
CTCTGGGCCTTATTTCGTTACAGCTAAGTTAAAAACTGACCAGCTAGCYGCTTAAACTCTTCTCCCGGAAATGACTGGAAAACAAGCCAAGTCTCCTGAC
TGGACTGACAACTAACTATACTCCCTGAATTCCAGCCACATTTGCCCAGAGCAGGACTCCAAGCTTTGACTCTGTCCATTGCTAAGGGTAGCAGAATGGG
TGGTGGGGTCCCGTCACCAACCTCTTTTCCCTCTCCAACCCCTAGAAGGTGGTGAGTTTCTATGTACCCCTAATTTCACCAGGCAGGTTACACTGTGTTG
TTAGAGACCCTTCATTAGAGGCCCTCTCCCCACCTCAGCATTTGCACACCATGGAGAATCGTCGAGATGAGCGTTGTGGGGAAGTGCCTCTCATGAGAGA
TTTCCACTTCCTKGCTGTGTCAACTCTTCCACGGCGAGATGGGAAACGGAGTCAGTAACAATAATAGTGTCATTTGAGGAATTACCTGAGCTAAAGCCAT
CATCTGGATATAGGTAGGAAGATTTTTTTTTTTTTTTGAGACGTAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCCCGGTTCACGGCA
ACCTCCTTCTCCCAGGTTCAAGCGATTTTCGTGCCTCGGCCTCCCGAGTAGCTGGGATTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTGTATTTTT
AGTAGAGATGGAGTTGCACCATGTTGGAAGTAGATTTTTTAAAAACAGAACTGGACGTTCAATTCAATGCCGTGACCACCTGGGTAACAGGGATTACAGA
TAGGTCCTGAATAAATGTGTGCGCAAAGAATTGCAGGGCGCACAGAGCTTCTCCTCCTTCCTAGGAAGACACTGTAGATGTCGCGCCCATCCCAAGCTCT
TGGATACTAGGGGCGGAGAGGAAGTGTCACTTTCTAAAGAACAAACACGACAGGTCGACCCTGTTTCTAAAGGGTTAACCCGCCTTCCCCGAGCGCACCG
CACGAGAGTTTTAGCCGTGGGCACGTTTRGTGATTCACTTCTTGCGAACGTAAATGCGCGAGTCCGCGGTAGGTCCCGCCGGCCCCCTGGCTGGGCAACC
TGAAAACCCACCTCGGAGACGCCCCCACGCATCCGCCCCCCTCGCTGGACGGCCCCGCCGCGCGCCGTTCTGGGACGCGCACCCCGGGGCGGACCCGCCC
TGGGACCTGGAAGCGCCCCAGCCCCGCAGCGATCGCAGAYTCGGCTTTCAAACAAAAGAGGCGCCCCGGGGGGTGGGACCGGGACCTCACCCGGTCCTCG
CAGAGTTGCGGCCGCCCGCCCCTTCAGCCCCGGCTCTCCGTATGCGCATGAGCAGAGGCGCCTCCCTCTGTTCCTCCCAAGGCTAAACTTTCTAATTCCC
TTCTTTGGGCTCGGGGGCTCCCGGAGCAGGGCGAGAGCTCGCGTCGCCGGGTGAGGAGAACAAAGTGGCTGCACGATTTTCCCCMCTTTCCAGCCCACCC
CCCGCTTCCGTGGGAGCGACAGGAAATGGAAGGGCGCCTCTTCTCTCTTTGAACATTTGCCTTTTTTCCCCTCCKTTCCACCTCTCCAGAAAGGAAGACG
GGAAGAAAGGGCAGGCGGCTCGGCGGGCGTCTTCTCCACTCCTCTGCCGCGTCCCCGTGGCTGCAGGGAGCCGGCATGGGGCTTCTCCAGTTGCTAGCTT
TCAGTTTCTTAGGTAATTCCGTGGAAACGGTGCGGGGAGGCGGACGGACTTGGGCATGGGGAAGGAAAACCCAAAAGCTGCTTGCTCACCTTCGTGGGAT
CCTGGGGGCTTGGGAGAGGGACTGGATGGAAATGACGCCCCTGGGATTAAACGCCACCGCCCTTGCTTCGGTGGTGGCTGGAGACAGCGCACGCGGAGCG
CCGCGGACCCTCATCCCCCGGGCTCTGCGCCCAAGCCCCGGCCCCTGCGGCCTCCCGCGGCCCCCGCTCAGGGTTTTGCACCCTCGGCCGGTTCACCCTG
GGTTTCCCCACCGCAGAGGGCAGGTTCCCTGGGGTTGGCGGTGCTGACCGAGGAGGGCTCTCCAAAAATCCATTGCCCAGGAGAGTGCCTGAGCTGAGCG
GAGGCTTCATTCTGGGAACAGATGGGGGCCATGTGGCTTTAATTAACCATCTCTGTTTGTCTCCGGATGGCACCAGAAACAGCAGGACCTGGCGCTTCCC
TGGAATGGAGAAGCCTTGAAACCACTCCAGAGCCCCAGGGACTGTCCATGGGCTCCCCTAGCTCCGGAAAGCGGCGTCCACCGCGAGCCCCGGCGCCTCG
TCCCCAGCGAAGCGCCGGTGACCCTCGCGCGTGCACGCACACGCACTCTCGCTTCCCAAGCTCACAGATCTCCACGCGCACACTCACACYGAGGATGCGC
GGGCTGCCGCGTGCACGCGGGTTCACGTGCGTGGGTGTGTGGCCCTTTGGGGGTCAGCCTCCCTGCGCCGGGCTCCGGACACGTCGAAGTGGAGGGTCTA
CACATCCACCCTTTGTTGGGGGAGCTGCTCCCCGGGGCTGATCAGGGTGGGCGCGAGCGTCGGTGGGTTTCCCGGGAGGGAGGCTCTCGCTGCTGGACAG
ACCTGATGACGTGTGTGGGTTTCTTTCCGTGTCCTTCTCCTTTCGGAGTCCCTGCCTTCCCAGCCTCTCCTGCGCTYATCTCTCCATTGTCTTTTCTGTG
CATTTTGCTTTCTTCCGAATGGACTGTCCTCTCTCCGCACCCACTCSCCCGCCCCCGCTTGTTCGTTTTTTTCGGGCTCCACTCCCTGYTTGTGTCCCCC
CAACTCTGTTGCCTGTCCTTCCCGCAGCCCTGTGCAGAGCCCGAGTGCGCGCTCAGGAACCCGAGTTCAGCTACGGCTGCGCAGAAGGCAGCTGCTATCC
CGCCACGGGCGACCTTCTCATCGGCCGAGCACAGAAGCTTTCGGTGACCTCGACGTGCGGGCTGCACAAGCCCGAACCCTACTGTATCGTCAGCCACTTG
CAGGTGAGGGCTGAGAGCGGGGTTCGAGGCTCTGCTAGCGCCTCCTCCCGTCCAGACCTAAGGGGCAGGCCCTGGGGACTCCGCATCCTTCCAGCAATCC
AGATAGGAAGCGCAGCCAGCCGGGGAGTCCCGGGATTAGGCTTGTAGCTCAACCTTTCGCCCCATCTCAGTTTGCACAGTTGCATCCGCCACACATTTCC
TGCCGGCGCGGTGAGTATGGAAAGGCAGGACTGCCGACAGCCCTGGCTGCCCTGACCCAGAGCCTCCAAAAGGCCTGATTGTGTGTGTGTTTTTTAAAAC
TTTAGTTTTGGAAGTGTGCATTAAAGGTGATTTATCCTCTTTTTAAAACCCTTGGGTTTCCCCACCCCYCTCTACCGCATCTTCACTTGRGTAAAGAGGA
TTCCAGCAATGACAGGCGTCTTGCAAGGTGATTCCAATCACTGAACGAACCCGTTTTCCTCTCCTCATTTGGTGCTGTTCCCAACTAGATATCAGGATCA
GATGCTTGCTTTTACGAAATGCCCTGGTTGCCATGGTACCCTGATACAGGAAGACCACAGTGAAATTTCAGGGTGTTACCTGTTTCTAAAAGAGGGCCCA
AATTTTAGATTTCAGGGGTCATATTTATACAAAGTCAAAAGTAATTTTAAAAGAAGACACAAAGTGTAAAATATTCAGAATCAGAATACTTTTCCTTCAT
TTTTAAAAAGGAGGCTGGCCGGGAGCAAAATGGCTCCATGCCTGTAATCCCAGCACTTAGGGAGGCTGAGGTGGGAGGATCACTGGAGCCCAAGTGTTCA
AGACCAGCCTGGACAACATAGACTCAGTCTCTACAAAAAATTTTTAAAACTTAGCTGGGCRTGGTGGTCCACACCTGTGGTCCCAGCTGTCTGGGAGGCT
GAGGTGGGAGGATCACTTGAGCCCAGTAGGTCGAGGCTGCAGTAAGCGATAATCAGTCCACTGCATTCCAGCTTGATCAACAAAGGGAGACCCTGTCTCA
AAAAATTTTTTTAAATAAAGGCTGATATTTCTGGCCTCTAACAAAAGCAGAAAGTATCAGTTTCACATTCGGGGCAAGTTCCAAGCTAATTGCTCAGAAC
ATGGTCAGCCCACCCACCTGTACAATTGCCCTTCAGAAGGAGGACAGAGTATTGTGTGTGGTTTGCACAGCAGATCCCTTAAAATGGAGTCACTTTTACA
AAGCAGAAAGCCCATTCTGGAGACCTGATCAATTAGACCAAAGGAATGTGGTAAAGTGGATTCCGTTCATTTGCTTCCAGGTTTATACAGAGATGTCTAG
ACTGCTTCCTCCTGATTAGAAGGGAGGCTGTAATTAAACTTTTTTAAACTTTTTTTTTTTTTTGAGTTCTGGTGATTGTTCTCCAGTACTAGTTTCCTTG
ACTACAAGTTATTGAAGGCAGTTGATGTTACTTTTCTAATATTAGCATTTAAATTTTACCTACAATATTATGCTAACACTTACTTGAGAGGCCAGGACAT
CCTGTAAATGAATCACCAGATTCTGAAATCAGCTTTGACCAAAATGAGAATCASACTGTTTGTATTAAAAGCAACTGGAAAGACTATCCTCTCAGTGATG
ATTTCTATAGTTCGTTACTAGAGAAGTTTCTCTAAACATGTAGAGAGCATCAGAAACCACAAAAAAGAGGTGCAGCGGTCTCTCCTGAGTGTGAAGCTGG
CTCTTGGTATTGCTTCTTGGTTCTTCTCTTCCTTTGGGAGAGTAAGAGGAAGAGGATGCAGTCTTAGTAGTTTCCCTTAAAAAAAAAAAAAAAAAAAAGC
AACTGGAGCCAGGCTCTCTGGTATATATGATTAGCCATGCATTTGTGAAGTGCTTTTCACAGATAGCAGGGCCTAAAGAAAGGGACTGGACATATGCTTT
TCTCAAACATCTAGTGGGCATCAAGATTGAGACAGGAAGCTTGTTTTATCCAGGCTCCTAATGCATCCCTGGCTTTGGGTCTCTGTTTTTTAGACAGTAC
ATCTTGCCAGTCTCCAAATCCTTTTGAGAAGAAGGTAATAACTAAATAAATACGATGTGAAATACAACGTAAAAGTACGGTCAGTTAATTGTGTCCTTAT
AAGAATATTACCCTTAAATGCTGTTTGTAACATACATGTGGGTCTCTATGTATTTCAGTCTTAGCCTCATTTTCAGACTTAAGAATAGTCTGCATTTCAG
AAAATGTAGGTACAGAGCAAAGCTCCTTGTGGAAAGAGAACTATTAAGCTCTGTTGTTTATGATTTGCCTTGATGGAATGCACAGGAAGTAGATAACTCT
CCTAACCCAACTGCCCAGGTGGCTCTGGCTCCCATTTTAGGAGAAAGAAAGTAAGAGAAATTCAAAGCTAACCTAAAACTTACAGTCTATCTTCATCCTA
GTTCATGCCCATGTTGGGGTTCTTTGAACTGGCCCCAGATTATAGTGGGCCCAACATGGCGTGGTCCTCCCAACAGCCTGGTCCTCCCTTCCCCAGATAT
TCTGAGCAATTTGCAGGTTAGCCTGCATGCCACCACCATTGATTCACTGCTCGGGCAGGGTGGAAACGAAGAAATCTTGTTCTGTGGTTCCCAAAGCTTC
TCTAAATACTTCTGCCTAATACTTGGTTTCTGCTTCATTTAGGTTTTAGAAAATCAGGCCAAGTGAACTGTATTTTTTTCTTTCATTTTTAGTTTGCTTT
ATGTCAGCAAAAATTCTCTAATATCTCCTCTGCATTTTACTGTAGAGTAAGCTTCTCTAGCTGTTTATTGAGATTAAGGTTTAAGCCTAGAAATTTGATT
TTGGTTAAATTAATAGCTTGTGGAAACAATGCCCTCTTTTACTTTAGATCTTGAATTTGCAAGGAAGGAGGAAATTATTTTCAAGACTATTTTAGACTCA
GCAAGTTAAAAGTGAAAGATGTGATACAAATCWCCTRAGCAATTTTCACACAATTATTTTTCTTGAAGCTAATAGGTTGATTTTTGTATTAGGAGCTTCA
TGGGGTTTTTTTAATTAAAAATGTTTTTAATGAGATTGCTTTCTAGACTGATGAACTCAACTTTGTTTGTAGGAGGACAAAAAATGCTTCATATGCAATT
CCCAAGATCCTTATCATGAGACCCTGAATCCTGACAGCCATCTCATTGAAAATGTGGTCACTACATTTGCTCCAAACCGCCTTAAGATTTGGTGGCAATC
TGAAAATGGTATGTGGTTGGTGTGGGGACAAGTTCCGTTGAGTGTGATTGATAACTTGGGTGGAGCTTACAGGTTCCTGGGTGTTTGTAATTATGATTCA
CTTCTCTGTCCTGTAATTATGGCCTCTGACAGATTGACTGCCTGGAGCACTAACTTCTCTTGGTAAAATCTTATCCTTCTTCCTGAAGCATGTATTTCCT
ATAAGAAAGCAGTCTGTCATGCTAGACCAAAGGAGCATTTCATAGTCCTTATTCTGAGGGGCTTTTGGAGAGAATACTTGTGTGCCGGGGGCTGTCTGGG
GAGGGTATGGGTACTATCTCAGGCCCTTATTCTTCCACAAAATGTAACATCTTTCATTTTGATCAATCCCAAAGGAAGGGGCAGAATCATAGCCCCCACT
CCTCCCCCCACTGCCTTCCTTCATCTACAGAAARTGTCTTGATAGTAATAGTAACACTATGAATAAGCAGCAAGATGTAATTTTTTCAAAGACTCTGTCA
ACATGGATATGACCCCAAGTCAAATGGTTCCTCCAGTGATTGCATGAATTACACCCTTTTTCCTGTCTTTGCTATTTGGGATTTGGTGTAATACATTCAT
CAAATATGATTTTACTATTGCTGTGACATGAAGCCCAGATGAGTTTCACATTTGTTTCAAACTCGAATGCTGAAATTTGGGGAATAAAGGTAGAGTTATT
GTGTTCGTTAATTAACAATGTACTGTTAGATCTTTAAAATAAATAAATAAATAAGTATCCTCAAAGAAGTGAACCTAACCCTGGCCGTTAAAAAGCCTGG
AGACTACTAGATTTCTTTATTCTATGCAGTACACCTGGGCAGGCTTTGGATGCCGCTGCAGCCATCTATCATTCTGTAAAGACAAACGCCCTTAATAGAT
TTCTTTGTCATTGACTGTTTGTTTGTTTGTTTGTTTATTTTTGAGGCAGAGTCTCCCTCTTTCACCTAGGCTGGAATGCAATGGCGCAATCTCAGCTTAC
TGCAACCTCCACSTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACATGTCACCACGCCCAGCTAATTTTTTGTA
TTTTTAGTAGAGGTGGGGTTTCACGGTGTTAGCCAGGGTGGTCTCAATCTCCTGACCTCGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACA
GGTGTGAACCACCACGCCCAGCCATCGACTGTTAAATTGCAATATTTTCTAGACTATTGGTTTCTAAGGAGAGTTGGTTTGTTCATTGGTTGGCCTTGGC
AATTCATTGGTTACAAACTTCATTGGGTCATCAGAAAGCATTTATCATTTAGAGCCATGTTCATTCTTACGGGGGCATATTTTGGTTGATACTTCAGTGT
GAAAGAGAAGTTTCTGTAAATCTGCAGTGTACCCCGAGGACTTCTGAAACAGCAGCAAGCTTATTATGAACAAAGACTAGGAACATTTCCTGATCTCCCA
CATTCTTCTAGTGAAAGACCGTTTGAAGAAGATGCCTCAACATTAGGATGGAGACTGTCCCCATTTTAGTCAGCAGACAGTGAAACAGTTTATCATGTGC
TGTAGTTCTAGAGGAAGGTTTTTCTTAGTTATGTCGAGTTAATCAACTTCTACAACTTTGAATCTCTGGGACAAAAGAGACCAGATGCCAGAAAGAAGAG
ATTTTCCAGTAGAGGGGCTTGAGTTCTCTGTCACTCTGTCACAAGAGATTAGATGAGATTAGACTGATGGAACTTAGTCTTTAGAAAGTCAGACTGATTG
TTACTATACCCTATCATCTCTCTGTTGTCTGATCACAGTTTAAGAGTTTATGAATGTGATTTTATCTATTTTCTGTGTGTTGTGCACAAGTTGTGCTTAT
ACGTGGCGGGGCTAAATTATCAGTGTCCAGGCACAGAAACGAGCTTGGAATGTACGACTATTTTTACCCATCGTGATGATCTCTTCCTAGGTCTGACAGA
AATCAAATACACTATAGAAGAATGACCTTGTTTCTTTTCTCTGTGGATTTTTCTTCCCATATAAAAAAAAGCCTGTAGTGCTTTATCAGGTTATAAATCT
AAATGGAATGTGCTTTTGGTGCACACATTGCAGCATATGTTCTTAGGTTACAGAAATGGCACTAGTCTTGCTTTGCACTTTACATTATTTTGTTATCTCT
TAATTTTGAACAAATATTGTAGGTTTTTAAAAGCCTGGAAGAGGAGAGATGTACAGTTGCCTAACATTTCACTCAAAAATAAATGCCCAGTGTAGTTCTG
TAATATGGTTCTTTTTGATAAGTTAGGTAAGATTAGTTAGTGTGAATATAATGTTTTTCTTTTAACATTCCAGCTAACTCATATCCGTTCCAATGACCAC
TTTCCTCACCCCCCGCCCCCTCAATTGACTTGGCAATTTTCCAGCAAGAGTTTATTTCAAAAGGTCCTCCTGATTTCCTGAAAATACACCAGTCTGTGAC
ATGATTCATTCTGACACATTCCTGTCTTTCCSCATTTAAGACTTCTTTTGCTCTCAAGATGGACCCCAAAAGCTCTCTCAAACACAAGAAGCGTGGCAAG
CCTCCCTTGCTGAACAGGCAGGCTTGAGAGCTCTAGGGACTGGGGAGGAGGTGCTTTCCATCTCTGGAATTCCAGTGGCCTTTTTAACGTGTTTAAGTGA
GACTGACTGACCCTCAGGGCAAGGGTGCAAAGGCTCATTTGTTTGTTCAGGCTTTCCCCTGAAAGAGAAGATGTTAGTATTTGTTCTGAGCCAGTTTATT
TGACAGATTCTTTTTTYCTCTGGCGTTGTTTTTCATTGTGGAAATGCATCCAAARGTTTCCCCATCAGGGATAGGTTTTTCTAAGTTGTGGTATAACTAA
CATATGTGGTAGACTCTTATTTATTTTCTTTGCTGCTGCATAGAGAAAAAGGAATATTTGTGTTTCTACTGGAGGAGGATTGTGTCCTTGTGCATCAGAC
TGCAAGCTGACCCCCTACTGTGCACAGGAAGTGCCCCTCCCTTTTTTCCTTTGAGAGCAGCTTGGCTTAGAGGGTTGGGAAGATGTTTCACTTCTGGCTA
GGCAAAGGATGTCTTTCTTGACAGCAGCTAGAGGCACTCTGCCAGATGTCTTGTTCCAGTGAGCAGATTCAATCTGTTGAACTCCAGAATGATTTGTGGA
AAACTAAAGAATCATTCAACTTGTGCTTTACCACCTAAATAAGCCCATGGGATTATTATTTAGTTTCAGCTTCAGCTTAAGGTAGAATGCGAGGATAATT
TCTATGGGGAACATAAAAGTAATTTAAAAAATAGTCTSAACTATTCACAGATGTTTCTATTTACAGTTTCATTTATTGTTTTATTTTTTTTAAATCTCCT
GTAGGTGTGGAAAATGTAACTATCCAACTGGATTTGGAAGCAGAATTCCATTTTACTCATCTCATAATGACTTTCAAGGTAAGAAATCCATGACTTTCTC
ACAAATGACACATGAGAGCACTGTGTAATGTCCCCTTTCAAAATGGATGTCAGATGTGAGTTGACCTAAATGGGAACTTAAATATTATTGTTGCCATAAA
TTGGGGTAATTGAGCAGTTTTTAAAACGAGCATGAATAACTGCATTTAACAAATACTCTATCTTCATGACAATAAGTAGAAAGAGCCTCTATTCTAAGGT
AATTSAACTGTAAACTTTTAATTAGGTATCTTTTTATTTCCCCATAGAGTAAGGCAGTGTTGACCCTTTTCCAAACCGCAATAAAACATCTGGAGAGTAA
ATCCCTGGTCCCTTGTGTTTMTGTTTTAATACTGACTTTGGTAACTGGAAAGGAAGTGTGTTCTCTTTGGTTTTCAGAGTTTTGCACAATTTGTGAGCAG
ATTCAATCTGTTGAACTCCAGAATGATTTGTGGAAAACTAAAGAATCATTCGACTTGTGCTTTACCACCTAAATAAGCCCATGGGATTATTATTTAGTTT
CAGCTAAATAATAGCTTAAGGAACAGTTTTACAGTTCCTTAAGAAATGTGTAATGCCTTCTTAAATGTGGATTTTCTCATCATTTTTCTTTGAGAGATGT
AAAATGACTCCAGAACTAGGGAATGTCTCTGTACAAAGTCCCTTTGTTTCTTCTTAAGCAGCTGCCTGGAAATGACAGGCTTCACATGGCTTAAAGTACA
CATTGGCTCACAGAAAACCCATAATTTAGTTATTGCTTCTCAGATTAAAAATCACTTTTGAATAGCTTTCAGTTGGAGTTGGGAACCTTATCTACACCCT
CTCAGGATAGGAAAAGGTGCCAAGGATAGATTTACCATGTGGGCGGGTAGCCATGAAAGTCTCACTGTCTCTGCCACCAAAGTGGGAGGCCAAGGAGCTA
GGGTGGGTGTGGGAGTCAGAATGCAACTAGGAGGGATGCTGGGCTGTGCCTCTGAGCCTTTATCCCCTTGCCCACTCCCCAGCAGCCTGCTGTTCCTGCT
GGAGCAGGAAGGTGGGCACTGTGACTGTGACACCTGGTATTGAGAGTGGTGGGGAAGGTTTCACTAAATAAATTGTCAACTACTCCTTGTCACCAACCGC
TTGTCCCTTCATTGACCACACAATCTGGTGATTAAACTGATGCTCATCGGCCTACAAGGATGTTACCTTTATGTTATGTGACACCTGAGAATACTCAAAA
TCATCTTTATTAATGTTTATGATCCTATTTTTTCCTTTGCAGAGGGCATCTGTTCATATACATGGATAGTTCTGAGTTCATCTAGATCCAAAATCCTTTA
GGCACATGTTTTGTAGTTGAATACTCATTCAGGTGAATACAGTGGGAGAAAGAYGAACTTACTTGTGTAGGCGCAGAAGGTAAAACGGGGGTGATGATTG
AACTGAGACATGCAGAATGGCTACAAGTTGGGGCCAGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACTTGAG
GTCAGGAGTTCAAGACCAGCCTGGCCAATACGGTGAAACCCCGGCTCTACTGAAAATACAAAAATTAGCCAGGCGTGGTGGCACGCGCCTGTAGTCCCAG
CTACTTGGGAGGCCGAGGCAGGAGAATCGTTTGAACCCTGCAGGCGAAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGGGT
GAGACCCTGTCTCGAGAAAAAGAATAGGTACAAGTTATCACACTGGTTTATGAGAAAACAACTCATCCTTCGGGTCCTAGCTCCAGTGAGAAGAGCAACA
TCTATGGGGTTGGGTACATTGGGTGTGAATCCCTGCCTGCTCCTTCTTGGCATGTGTGGCCAGAGCTGTGACTTCCTCATTGGTAAATGGGAAGAGGAAT
AATACCTACATCATAGGACATAGGACAGAATGGTGATGTTCTCCTGTTCCCCTCTGTTTTTTGTTTTTTAAATACTGAGTCTTGCTCTATTGCCCAGGCT
GGAGTGCAGTGGTGCAATCTTGGCTCACTACACCCTCCGCCTCCTGGGTTTAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAACTATAGGCACA
TGCCACCACACCTGGCTAATTTTTGTATTTTTGGTAGARGCAGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTAACCGCAAGTGATCCTCCCAC
CTTGGCCTCCCAARGTGCTGGGATTACAGGCGTGCCTACCGCGCCTGGCCTGTTCCCTTCTGTTCTGGGAACTGGGATAATCTTGTTGCCCTGGCGGATA
GTGGGAACCTGAAAGTCTTTATAAATGCAGATGCTTGGCATATAGTAATTGCTCTACAAATGTTTACTGAATGAAAGAATAAGTGGATAAATGAATTCAA
CCATCTTCTGTTTGTAAGAAACTACCCTACTTTAAGCCTTATGGGAAATTGTAAAGATAGCACAGTGACTGCCCTCCAGGAGCTTCCAGTCTTCCAGAGG
AGAAAGATATACTTGCAAATAACTTACAGTATGTGACAGAATGTGCTAATGACTACAACAGAAGTTCAGACAATCTTTGTTAGCCTGGAGGAGGGTGAGA
TTAATTTTAGCCTGGAATAAAGAAGAAACCTAGGACTGGGACTGCACTTGACCTGGGCCAGGAAGGGAGAGCAGGGATGTCAGTGGGAGGAGATGGAAGA
AAGGCCATTCATGGCCGGAGGGAAACAGTCTGAGAGCAAGGCACTGGTGGTGGGACAGTGGGTCAGGATTTGCTCAGCAAGTGCTATGTAGATTTGCCTC
GAGTTTGGGGTAGTGAGAGAAGGAAAGGAAAGGAAAGTAGAAAAGCAGATTAGATGCAAAGGACATTGACTCCTTGCTAGGGAGTGTGAACTTTATAAGA
AATAGGGAGCCATTACAACTGATGAATCTTAGAAATTCTTTTTTTTTTTTTTTTTTTTTGAGACGAAGTCTCGCTCTCTCCCAGGCTGGAGTGCAGTGGC
GCGATCTCAGCTCACTGCAAGCTCCACCTCCCGGGTTCAAGCGATTCTTCTGCCTTAGCCTCCCGAGTAGCTAGGATTACGGGCATGTGCCACCATGCCC
AGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCATGATCTGCCCGCCTCGGCGTCACAAAG
TGCTGGGATTACAGACGTGAGCTACCGCGCCCAGCCTAATCTTAGAAATTCTTTTAGTAATTTTTTTTTTTTTTTTGAGGATGGAGTTTCACTCTTGTTG
CCCAGGATGGAGTGCAGTGGCACGATCTTGGCTCACTGCAGCCTCTGCCTCCTGGGTTCAAGCAGTTCTCCTGCCTCAGCCCCCCAAGTAGCTGGGATTA
CACGCATGTACCACCACACCCGGCTACTTTTGTATTTTTAGTAGAGACGGGGCTTCACCATGTTAGTCAGGCTGGTCTCAAACTCCTGACCTCAAGTGAT
CCACCTGCCTCTGCCTCCCAAAGTGCAGRGATACAAAAGAGGCATGAGCCACTGTGCTCAGCCTCTTTTTTGTATTTTTAATAAGAAATGAATGATCATT
TCTTGCCAAAATTTGCCACTATGAGGTGATTGCAATAATTCTGTTGCAAAAACATTAACATTTAGTATGAGTCTTTTTTACTGTATTCTTGCAGTTAATA
ACTGCTGCTATCATGTTATTTTGTGCTTTATTTTTGTTTATGCCAGTCTTAAAGATCCAGATTTCTGAATCTTTTAAAAAAAATTAATACCAAAAAAAAA
TTGGGAACCATTGACAAGAAAATGAGACCTGTGTTTCAGGAAGGTAGCCCAAGAGGAAATACAAAGCAAGGACTGGGATGGCGAGAATAAAGGGCATGTT
GGGAGGCTCTGTTGATGTCAGCATTGATGAAGCATTAATGGAGGGTTACTGCTAATGCAAAAACTGGCTGTGATTCTTAAGTAGGAGGGAGCCTTTTCCT
GCAACCCAGGAGTCCTGTAAGAATATCTTAGAAAGCTTTTTCAAATCCCATGTGTCCACTCACTGCCATACTCTGATACTCTCTGCTGTTAACTGCCTTT
GAGGATCATTGCCAAGATGAGGTGCCCCTGTTTTCTAAGGGCAGTCATTTGGATACTTTAAAATCAAAAGCTGAACCATGAAATGGAGAAAGATTAGAAG
CAGAACAGTGGAAGGAAAGGGCTGAATCAAAAATTACTTAGGGCTGCTCTGCTTATGGAGTAGCCATTCTTTTCTTCCTTTACTTTCTTAATAAACTTGC
TTTCACTTAAAAAAAAATTAGTTAGTCAAGTGAAATAACTAGGAAGATGGTGAAGCCACTGACAGTAGTGAAATCAGGAAGAGAACTGAGGTTGTTGATT
TTTTTCCCCCAAGTTCGCCATAGAGATGGCTAATTGCTAAGTGGATTTAGACTAGCAAAAGCTCATTTAGCATGTACACAGTATGTTTTTCTATATTACT
AGATGTTTCAAAACTCATAACTCTTGGCCAGGCATAGTGGCTCATGCCTGTAATCCCAACACTTGGGGGTGCTGAGGTGGGGGGATCGCTTGAGCTTCAG
GAGTTCAAGACCAGCCTGGACAGCATAGCAAGACCCTGTCTCTACAAAAAATTAAAAAATTAGCCAGGCATGGTGGCACACGCCTGTAGTCCCAGCTACT
CAGGAGGCTGAGGTTGGAGGATTGCTTGAGCCCGGGAGGTCAAGGCTGCAGTGAACTATGATTGTACTAGTGCACTCCAGCCTGGGCAACAGAGCAAGAC
TCTATCTCAAAAAACAAAACAAACAAAMAAAAAAAAGCCACAAAAAACTCATAGGTCTTTTGTTTATTATAAATTTGGAGGCAACTGTGCAGCAATGGCA
GGCCTGGGAAGGTTGATGACTAAGCAGAGAGTATGGAAAGGATTCTATTCGTTAGGTAAAATGTGTTGTTCTGGTTTCCAGCAGCTTCTTAACTCCACGG
GAAATTGGATGACTCGTCAATGGTCCTTTGGGACTTAAAAGTTTCCAAAAGAGAGGGAGAAGGAAGCACAGCCAGAAATGGCTTTCACAGAGCCATTGGC
ACAGAGAAGTCCGATTAGACCTTCCCCTCTCTTCCTCTCCCCAAGCCTCCCAGCCAGGCTCTCACGGGGAGTTTGCCATGGTACGTGGCACACATGGTTC
AGTTAGTCCTTAGGGATTTTTCTCTCTTACTTTAAAATTCTTAGGCTGATATTCTCTTGAGTTGAATACGGTATCATTTTCTTATATTCCTGGGTAGGTG
AAAAATAAACCTAAGCAGCTAGTGAGTGAATAAGTCAAAGAATCTGTCAAAATGTAATTGTCCATGTTCTTATCCTTGACATCTTTTATCAGAGAAAAAG
CTCAGCAGGATTATTAAGGAGGGCTAAAGGAAGCCTAAGCATGTTTCTAGTTTTCACCATTAACCCTCACCCAAATTTCTGTCAAGCGTTGGTTTTAATT
CGGAAGTAAGTGTCTTTATTTAGGTTCTGTTTTCTAGGTCAGCTGAAATTTCCTTTGATCTTTTTCCCTTGTAATCTGACTTCCAATTCCCCAAAATGCA
TCACTGTGTTGGTTAGTGTCAAAACCTTTGCCTGTTTGCCTATTTTTCAGCRCTCTTTCTGCTTCATCTTTTACTTCCAGTTGACCCTGTTCACTACACC
CTCCTAAATCTCCCTCCTGCCTTGGTTTCAGAAGACTGCCTTTTTTTCTCTTTTCCCTCTGACACTCATTTTTCAGTCTTCTGTGCCTTCAGCCAGTGAG
GGAGAAAGATAGGAATGGATTTGAATCTAAGCTCTGCCTGTAACTAGCAAGTCAGTGTCTCCGAGCCTCAATTTTCTCATTTGTCAGACAAATGTGTTGT
GAGGGTGCCTTGGTTTCCTAGGGATGCCATAACAAAGTGTCACGGACTGGGTGGCTTAAACAACAGAAATGTGTCTTCTCACAGTTCCATAGGCTAGGAA
TCTCAGGGTAWGGTGTTGGCAGGGTTGGTTTCTGCTGAGGCCTCTCTCCTTGGTTCGGGATGGCTGTCTTCTCCCTGTGTCTTCACATGGTCTTCCCTCT
GTGCATGTGTGTGTCCTCATCTGTTCTTATAAGGACACCAGACATATGATTACAGCCCACCCTCATGACCTCATTTAACCTTAATCACCTCTTTAAAGAG
CCCATCTCCACATCTAGTGACCTGAAGTATGGAGTTAGGTCTTCAGCATATGAAACTTGCAGACACACAAATCAGCCCAAATTATAGAGAGTTAAAGTAA
AGAATGTAATGAGGGGTACTGGCACCACTCTGTTTTCCTTGTCTAGCCCCTGGTTGATACGTTTTTCTAGAGCACAGACTTAGGCTCTCTTTATCTTACC
CATTCCTTTTTTCTTTTTTTTTGTTTGAGACATCATATACTTGGAGGTTTCAAATATGTGTGTGCAGTGACTCCCAAATTCATGTTTCAAGCTCCATTCT
TGCAGCTGAGTGCCAGACCACTTTTTCCAAGTGTCTGATGGGTGTCTCCAAGTGGACATCACACATGTGACTAATTAGCCTACAACCAAATGCTTTCACG
CCTCTTCCACGTTGTCGTCATTGGCAACACAKCTACCTGGCTACCCAAGTTCAGGTGCCTGTATTTCTTTCCTCACCCTGCCTTTTCCACTACAATCTAA
TTGATCACCAAGTGTAATTCAATAGAGTCTTCTGTCACTAAATTTTCAGAGTGGTCAGTTCCATCCCTTTCTATCTACATTGTAATTTCTCAGGTTAAAA
CCGTCATCTTTTTTCTTTCACTTGGTTTTCCTGTGTTTTGTATCATCCATGTCCAGTAACTACCACAAGAGTTATTTTTCTAAAGTGCAATCTGATCATT
TCATTTGTCCACTTAAATTTTTTAGTGTTCTCTTTTCCTTGCAAAAACGTAAGTCCCTTAGCATGGCAACTTCTTACCTGCCCCGACCAACCTCTTCTGC
CACGTGCAGCCGCCTCCACCCACTGCCTGGAAAACACCTTGTTGCCCTTTTAAGATCCAGTTTGGCCCAGGCGCGGGGGCTCACACTTGTAATCCCCTCR
CTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCTAAACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAAATAGAAAAATT
AGCCAGGCGTGGTGGTGCGTGTTTGTAATCCCAGCTACTCGGGAGGCTGAGACAGAAGAATTGTTTGAACCCAGGAGGCGGAGGATGCATTGAACTGAGA
TCGTGCCACTGCACTCCAGCCTGGGCCACAGCGAGACTCTGCCTCAAAAAAAGATCCAATTTGATGCCTTCTTCTCTGTGAAGTATTCCTAGCTTTTTTT
TTCTTGGCAGTAAAATATCCATAACAGAAAGTTTACCATTTTAACCATTTTTAAGTGTATAAWTCAATGGTGTTAGGTATAGTCACAATGTTGAGCAACC
ACTAAGACTGTCTATTTCCAGAACTTTTTCATCACCCCAAACAGAAATTCTGTGGCCACTGTCCCTCTGCCCAGCCCCTGGTAACTGCTAATCAACTTTG
TGTCTCTGTCTACTTAACCAATTCTAGGTATTTCATACAAGTGGAATCACACAATATTTGTCCTTTTGTGTGGCTTATTTCTCTTAGCATAATGCTTTCA
AGGTTCATCCATGTTGTAGCATGTATTGGCATTTCATTCCTCTTTATGGCTGAGTAATATTTCACAGCATGTATATATCATATTTTGTTTATCTTCATCA
GTTGATGGGTACATGGGTTGTTCCCGCCTTCTGGCTATTGTGAATAATACTGCTGTGGTGAACATTCATGTACAAGTGTCTGTTTGAGTTCCTGTTTTCA
ATTCTTCCGGGTGTATACCTAATAATGTGGAATTGCTCGATTTTCCAGCTTCTTGAGTTATTAATTTCTTCCTCTTGCTTTTCCAAAGCACATTGCRTGC
AACCCTACTATGGTGTTTGACATAGCATATTGCAAATTATTGACACCCATATCTGCACCTCATTGGACTGTGTATAACATATACAACATATAGTCCACTG
GCTGATACTAAGGAGGTAGTCATACCTTTATTGAATGATTAAATGAACGAATGAAGGAACGAGCACTCAAACTTGCCACTCATATTACAGTGGACATGGT
GACTAAATATACGAAAGTGTGTTTGCTATTTAGGCCTGTTTATAATCAGCTTCTAAAGAGAAACAGTTTACTTATCCAGTAGGGTGGGGAAAAGTATACA
TTTTAGAGGTTAGACAYTTTCCTTGCAAGAAGAGTCTCTGTGGAACAGCTTGAATTATTTGAAATCCAGCCACAGTCTGAAATACAAACCATATGCAGTT
CAAGTTTGTGGCATGCAGTTGAGTGACATTTTTACCTGAGATTAAAAAAAGTAGAGACTACCAATAAAAAACATCAAATGAGATTTTTGCTCCTGCCTTT
AGACATTCCGTCCAGCTGCTATGCTGATAGAACGATCGTCYGACTTTGGGAAAACCTGGGGTGTGTATAGATACTTCGCCTATGACTGTGAGGCCTCGTT
TCCAGGCATTTCAACTGGCCCCATGAAAAAAGTCGATGACATAATTTGTGATTCTCGATATTCTGACATTGAACCCTCAACTGAAGGAGAGGTTTGTTTG
CTTCTGTGTTTTACATTCTACTTGCAAATCTACTTTTTGATTATTGCAGAAGTACCAATTACTCTTGTTTCCATTTTTAGGTGATATTTCGTGCTTTAGA
TCCTGCTTTCAAAATAGAAGATCCTTATAGCCCAAGGATACAGAGTAAGTTCATTTTCAAACAAAAGTGTTTTTTGTTAGTTTGTTTGTTTGTTTTGTTT
TGTTTTTTGAGACAGAGTTCCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCTGCTCATTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCT
CCTGCCTCAGCCTCCTAAGTAGCTGGAATTACAGGCATGTGCCACCACGCCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCA
GGCTAGTCTTGAACTCCCAACCTCAGGTGATCTGCTCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCTGACCCAAATAAAAT
TTTTTGTTTGTTTGTTTTGTTTTGTTTTGTTTTTTTGAGATGGAGTTTCACTCTTATTGCCCAGGCTGGAGTGCAGTGGCGCGATCTAGGCTCACTGCAA
CCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCCGCCACCATGCCCAGCTAGTTTATTTTTGTATT
TTTAGTAGAGACGGGTTTTCACCATGTTGGCCAGGCTGGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTAC
AGGYGTGAACCAGCGCGCCTGGCCCAAATAAAAGTTTTGATGGTAAACAGCAGCCATGGAATAAGTCTTACTCAGAATCTAAATATTCAGTGCTAAATCT
ACCTTTTTCATTTTCCTTCTTTCTCTGTGTTACCTGACCAGAGGGTCTTGAAATTAGCAATAATTACTCTCCACTGATAGGGAATACATTTACATCTGAT
ATAAGATGTAAATACAATACATCCGATATAAGATTGATAGGTTATCAAGTAATTGTGTTGATCATAATACCTTATTTTATTGCTCAGTATATTAGGGTAT
ATATTGGGCTTTTGTATCAAAGAGTCTCCCCAAATCTAGTTGTTCAAATAAGGTGAAAGTTTCTTTCTCTCTTACAAAACCCACCAAAGAGTTTTCTAGA
GAAGAAGTGTAGCTCAATTGCCATAATTAAGCTTACCAGATAAAATACAGGATGATGCCCAGTTACATTTGCAAATAAATAATTCTTTTTTTTAGCATAA
CTATATCCCATATATCCCATATAATATTTGTGACTAGTACAAGTGTGTCTCATGCAATATTTGTGGTTGGTATAACCATGTCCTATGTGATATTTGAGAC
ATACTTTATCCTAAAAAATAGTTGTTTATCTGCAATTCAAATTTAACTGAGTGTCATTTATATTTACTTGTTAAATCTGGCAACCCTAGTTATAAGGCCA
TCCATGTTTCCAGGTTTATTCACATGGTTAGAGTTAGACCACCACCACTATGTCCTCACCTCAACTCGGGAGAAGAGGGAAGACGAGGCAAGCAAATTCC
ATTTAAAGATGAKACATGGGCCAGGCGTGGAGGCTCACTCCGTAATCCCCAGCACTTTGGGAGGCCAAGGCAGGYGGATCACTTGAGGTCAGGAATTCGA
GACTAGCCTGGCCAACATGGTAAAACCKTGTCTCTACTAAAAATATAAAAATTAGCTGACATGGTGGCATATGCCTGTAATCCCAGCTACTCAGGAGGCT
GAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGGGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCA
AAAAAACAAAAAAATGAGATGTGGAAGTTGCACACGTCACTTCTGCTCACATCTCATTGGCCAGAATTAGTCACGTGGCTATACTGCAGGAGACACTGGG
AAACATCTCTAGGTGTTTCATGTGCTCTACTAACACTCTTGGCGAGGGCTCTTACTGTCAAAGGAACAAGGGAAGAAAGAATACTGAAGAGAAATCAGAA
GTCTCTGCCATTCTCAATATACTCAATAAAATGAGGGTTGCATTTCCGTTTAATAGAAAAATAAGCTGAAGCTTATAGAGTTGGATGTTATTACGTAAAG
TGATATGGCTATTAAATGGCAGTCAGATCTTGAATCCATATGTTACGGTGCTCAGTTCAGAGCTCTTTACCACATTCAACAACTGCTCTTATTACACAAT
TACATTTTAATCTTCTTGGGAGGCATGTATGGTAATTAAAAGAATGGGCTCACTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGAGAGGCCTA
GGCGGGTGGATCACGAGGTCAGGAGTTTGAGACCATCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATAGAAAAGTTAGCCAGGTATGGTGGTG
CGTGCCTGTCGCTTGAACCYGGGAGGCAGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGTCTGGGTGACAGAGCAAGACTCTGTCTCAAAAA
AAAAAAAAAAAAAAAAAAGGGCTTTGGAGTCACAAAGTCCTGGATTTAAATGTGTTCATAAATCATAAATGTGTTCAGTACATCAAAGCTGTTGCTACAT
TTGTTGCTGTTGATGTTGCTGTGACTATCAGCTTTGGTTTGGGTTTTGCACAGGACTAGTTCCAAATGTTGGAATGAAAGGTGAGCCTGCCTCTCCTGCT
ACTAAGGTGCAACCAGTTGAGTAGAGGCGGGGCTGATTCTTGCTGATCTTTCCCAGCTGCACAAGGCCCTATTTTTAACCAAGGCCCCAAAAAACTTCCA
AGCTTGAAGCAAGGAAGAGTGGAGTGGAAGAAGTCCAGGGAATATTGCCAGAAAAATGCTGCTTCCCCATTTAAATTAATTTTACATGTGGCCCAGCCTG
TCTCTGGTCTGTAATTTACTCATTCATTCTCTTGTAAAACAAATATTTAATAGATGTGTCCAGCTCTGRGCCAATTTCTGAGTGAGCCATGAGGCCTTTC
CTGCATGTCTCAAARTGCAGTTATGAAAAACGTCCACAAGGGCTCTGGGACAGACACCCCCTAAGTCCCTAAAAGGACTCAACCATCTGCTCCCTTTAAG
GTGAAATTTGTGGGACTTGGAGGATGTGTTGTCTTTATAATTTTGATTCTTTTGTCTTTTGTGGTTAAATGRCATCGGAGAATCTTTTTCTATGTTACGG
AAGCATGCATGTTAGCTGATCATGCATTTGATTTACTTTGTAATCAAGGGAGCAATATCTCTTTAGTTGTCTATTGTTGAGACCTGAGACTCACTTCAAA
AGTGATTTGCCACTTAGAATAGCAGTCAAGATGAGGCTCGCTTTTTAAATATGGCAGGAGAGAGTGGGGGGAGCATATTTGCTCTACTGAGGGGTTTCCR
CAAAGGTCAGTTCAAGGGTTTCTAAATACTCCAGCTGCTCTTCAAGTTTGTTGTTTGGCCTCTTKTCAATAGGCGCTTGTRCTCATTTTGTGCAGGAGGA
TTTGTGCAGGAGAAAATGTTGGCGTTCATAACTGCCATTCAGTTGGGGAGTACCACGGTTTCTCTGTTTAGTTTTTGATTTTACAAAGAACCTAAGTTTA
ACACATGGACTTTTCCTTTCTACCCGCAGCCATTTCTATAGCTTCATTGTAAGCTATGCATGTATTAAAAGCATTTGAAATTGTATTTGGGCTGTGAAAA
TATCTGATGTACTGGGCCACTACCCTGTTGTCTTATGTTGTAATTTATAAGAATGCACAGACATAAATGACAGTAAAGAACCGTTTCAGGCTACAGAGCT
TGAGAGTGCAGACAGATGAATCAATCTCTGGGGATCCAGTTCAGCATGAAGAACTTAGTAACTCACGAAAACCCCGTGGAGAAGGTTGAATGGCTCTTCG
TTTGTCTAGTTACTATAGAATGAATTGGTAGCCCAGCATTTACAATAAGCAGAAGTCTGCAGACCTAGGAAGAAGAGGGAAAGATAAAATTGATTTAGAG
GTAACTTGTATTTGAGAAAAAATAATTTGCCCCACATCCTAATACTAAGCTTATTTATGCTTATGTCACTATATAATATTGAGAAAYGTGGAAACGTTTT
GTAAAACTGGGACAAAAAAGTTGTGGACCAAAATGTTGCTTAAAAACTTGAAATGTTCTCTCCTTAGGTTGTAGTTATTCTATAGCGTTAACACTATTTT
GGTAACTTGGATGTCATTTAAGYGGTGGGAAATTTCAAATTTTCCCTTCCAAAAATAGAGACAAAAATGTTTCTAACTATCTTATAATAACAATGAGAAC
TGGAGTGCTTTGATAAATCTTTTCCTACCTGAATGGAATTTTCTCATGTTGAAACTGACAYTAATTGCTGTGGGAAGCAGATGGCATTGTGCTACTTCAA
ATTACTGTCTGCCCGCAGGTTCCAGCAGTCATGCAGCTGCGTTCTTATAATTTCTCCACTTTCACACTTCTTCCTAAATAGCTGTTCTGCAAACAGACCC
ATCACAGAATAGCTACTCTTTTTTGTTGTCGTTCAGGCAACTCTCCTGCCTCAACCTCCAGAGTAACTGGGATTACAGATGCCTGCCACCACACCTGGCT
AATTTTTTTTTTTTTTTTTTAAACAGTTTTGCTCTTGTCGTTCAGGCTGGAGTGCAATGGCACAATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCA
AGCGATTCTCCTGCCTCAGTCTCCCTAGTAGCTGGGATTACAGGCGGATGCCATGATGCCCAGCTACTTTTTGTATTTTTAGTAGAGATGGGGTTTCACC
ATGTTGGTCAAGGCTGGTTTTGAACTCCTGACCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAATGCTGGGAATACAGGTGTGAGCCACCGCGCCCGGT
CTAATTTTTGTATTTTTTTAGAGATGGGGTTTTGCCATGTTGGCCAGGCAGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTTGGCCTCCCAAAG
TGCTGGAATTACAGGTGTGAGCTACCACGCCCGGCCGACATTCTTATGAAACTGATGAGAGGGCAGTAACCTTTCCTCTTTGCAGTCATGTTATGTTAGG
CTTCACTATTGGAGTCATCTAGATCATACAAGAGGAGGAACTTAAGCTATTTTCATGTGTCATGCCTTTCTCTAAAAAGAAATGATGCAAGGAAAAAAAA
AAAAACTTCTTGCTTGTCTGATCAGACTTTTCATCTTCTTGATGACCTTCCTAGATTTATTAAAAATTACCAACTTGAGAATCAAGTTTGTGAAACTGCA
TACTTTGGGAGATAACCTTCTGGATTCCAGGATGGAAATCAGAGAAAAGTATTATTATGCAGTTTATGATATGGTGGTTCGAGGAAATTGCTTCTGCTAT
GGTCATGCCAGCGAATGTGCCCCTGTGGATGGATTCAATGAAGAAGTGGAAGGAATGGTAAGTAAGCCCTCTGTGCACCTTTCTCCTTTATGTGGCTGGT
AATAAAATGCAAAGTGAAGCTAGTCTTACCTTAAGCCTTTTACATTTTCTGGGGGTTTTAGTTTTACAGAGTTACATTTAGCCCTTTGCACCATACAGGT
AGCTGATTGTTGATTTTCTCTTTGAAGAGTTTCTTGGACACGGAGAATGTACAGACTACTCATTTCATAGACGATGAATTTTTGGAATTTGTTGCTTCAG
GCTATTGCTAAAGTAGATATTTTAGTCAACAAGGATTAAAAAGTTGTCTAAATAACAATTGAGTCTGCCTTTACATAGGGAAGATTAAAAACCGCAGTTA
TGCTAGAAGGCATAAATTGATCTCAACCCAAAGAAATGGATTTTTTTTTTTTTTTCTTGAGACAGAGTCTTGCTGTGTTGCCCAGACTGGAGTGCAGTGG
TGCAATTTCAGCTCACTGCACCATCCGCATCCTGGGTTCAAGCAATTCTTGTGCCTCAGCCTCCCAAATACCTGGGATTATAGGCCCACACCACCATGTC
TGGCTAATTTTTGTGTTTTTAGTAGAGGTGGGGTTTCATCATGTTGGCTAGGCTGATCTCAAACTCCTGACCTCAAGTGATCCACACACCTCAGCCTCCC
AAGTAGCTGGGATTACAGGCATGTGCCACCGTATCTGGCTAATTTTGTATTTTTAGTAGAGACAGGGCTTCTCCATATTGGTCAGGCTGATCTCAAACTC
CTGACCTCAAGTGATCCGCACACCTCTGCCTCCCAAAGTGCTGGAATTACAGGCRTGAGCCAATGCGCCCTGCCCACGGCTGGAAAATTTTAACCCACAC
CCATGGGATATCATTTTAGGGATCAAATGGAGTTGGTTTCTTTCTATCTTTTCCTCCTAATTCCATTCTTTTCCCCACTTTTATGCCACATTTGCAACTT
ATGTACATTTTGAAATTTGGGATTTGGGTGATTTGCCAAATGGATAGATGAGTTTATTCTATTAGTATCTAGGAGAATTCTTACAGACCTAGAGGATTTT
AAGGCCAGATAGGACTTATGAGATCACCTAGACCAACTATTGGTGATAGAGCCCAAGGATTAAGTAATTTACTAGAGAGCCYTAAGTAAATGAGCAGCAG
GTGGAAGCTCAAGCCTCTCCTCACTCAGCCCCAGGGTTCCTTCCCCTAAGCTGTGGCCTCCCCTCATGAAGGCTGTGCTTATGTGCTGTTGCCTTTTCAA
AGATTGTTAGTCCTTAGAAGGTACAGGATTGAGTGTATTCAGCCCTTTAAAAACTTCTGCCTTCCCTTTACTCCAGTTAGAACTTTTGTTGCACAACAGA
AGTTGAATTTTTGACGGAGCCTGAAGGGGAGGGAGGTATTTCTCTAATCTTATTGGTCCATCTTTCAGAATGCTAGGTAGATTATGTTCCCTTTACGGCA
TAACAAATCAGCTGTGTAGCTAATGTCCTGTTACTATCACGGGTCTCACAGCATGTGCTGTTGATTCAGGCCCAGTAGGGTCTTATGGTATGTGCTTTGG
AACTGGTTTTCAGTTTATGTAAAACCACCTGGTAATAACAGGACTTTAGTCTTCTGCTAACTGCATTCCCACCAAGGTGGGTCCAGGAGGGACCTGTCTG
TCCTGTTCCTGAATTCCATTCTGTAGAAACTCTTGTTAAGGTGAGATGCCCATATACATGCATATTTAGTGGACCAAAAGGCCGTAATTCATTTATCATT
TATATGCCTCAAGGGTCGTAAGTGTGCCTTACAGTGACACAAGGCAAAATCATATATCATGGGCCTTTCATCAGGCAAATTAATATATTTCTTTTACGAG
ATCTTATATTTCCTTACATAAAAGGAAAACATAAATGTAAATGTGATAAATGATTAATTTTTAAAATTTTACTGTCATTGAAAGAAAAATTTAAGTGCTA
TGCCTGAAGTAAAAAAAAACTAAAATAAGCTAGCTAACAAAAACCTTTTTAAAAAAATGGTGATTTGGCTAAGTGGTAAATCGTGCAGTAATATAAATTG
GTTTCCAGGTGGTATGTATGCATTTAGTTCTACATTATAACTTTTGTAGATTTCTATTACAATAGGTTTTCTTAAAAAAATCTTAAGTAACTAGTTTTTT
TTTTTTTTTTTAATTTTAAGTAATTTTCTTCATCTGGGTTCTTTTCATAGATACTCAGTAAAATATTTCTTGTGCATCCACTATGTAATAGGAACATTCT
AGAGATGAGGCATGTAGCCATCAACAAGACAGACAACTCACTGCAGGCAGGGAGAAAATAAAAACAACCAAACAACCCTTTTCTGTGGTGAGCTAGAGAT
TAGTATGAAAAAGGGTTTTAAACTTTCAATTGATTATGGAGAAACGTGGCTATTCATACATCTCTTCCTTTGTTCTCTCCTGTTTTTATAACTTTCAAGG
TTCACRGACACTGCATGTGCAGGCATAACACCAAGGGCTTAAACTGTGAACTCTGCATGGATTTCTACCATGATTTACCTTGGAGACCTGCTGAAGGCCG
AAACAGCAACGCCTGTAAAAGTAAGTCTGTGTTGAAGGGACATTTTAAATCCATTCAGGCTCTAGTATCCATTTCCTAATTAGAGGTACTGYAACAGTGT
ACTGTTTTGCAGAGGGTAGAAAAGTTACTGTCTTTTTTCCAGCTTCACCCTGATACTCCTAGACAACCAACAATCTGCATTCAGTTAATTAATATTCACT
GAACAGCCTCTGTGTGTTTGACACTGAGCTGAGTAGTTTGGCAGCTACAGTAGAAAACTAAGGTGCTGTCCTTGACATTGTATCTGTTTTGTTTTTTGGT
TTTTTTTTGTCGCCTAGGCTGTAGTGCAGTGGCACAGGCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGGAGTAGCTGAGATTACA
GGCACGCGCCACCATGCCCTGCTAATTTTTTTTGTAATTTTAGTAGAGGAGAGGTTTCATCRTGTTAGTCAGGCTGGTCTTGAACTCCTGACCTCAAGTG
ATCTACCCACCTTGGCCTCCCAAAGTGCTGGGAGTTTACAGATGTGAGCCACCGCGCCAGGGCTGTTTTTAAGGCAAGATGACCGTGAGAGAAAAATGAA
AGAACTATATGGCAGGGTAGCTGATGAAGGTCTAAGAGATATGGAGTAGCATTTTTGGCCTTGTTTCTGTGCCAGTCCAGCTGCGGCCTCTGGCATACCT
CCCTCCATCCATCTCAGGGGTTTTCTCCGGGTGGAGATGTAGCCGGCAACACCACTGCCCCTCCCCACTCCACAAACAGTGATTCTGATGCATGTCCTCC
CCTTGAAGAGCAGCTCCGCCTCTGCCCCCACTGAGAAGGACTATTATAGAAGTTCAGCAGCCAGTGAGAGTAGGGAGTGGTCAAGGCTTGCTTTGTAGGT
AAAAACCAGATGGCCCTTGATGGATACTTAACATGGAGAAGGAAGGGAGGGAGGGAGGAAGGGAAGGGGAGGAAAGGAAGGAAGGAGAGAGAGGAAAGGA
AGGAAGGAGGGAGAGGAAAGGAAGGAAGGAGGGAGAGGAAAGGAAGGAAGGAGAGAGAGGAAAGGAAGGAAGGAGGAAGAGGAAAGGAAGGAAGGAGGGA
GAGGAAAGGAAGGAAGGAGGGAGAGGAAAGGAAGGAAGGAGAGAGAGGAAAGGAAGGAAGGAGCAAGAGGAAAGGAAGGAAGGAGGAAGAGGAAAGGAAG
GAAGGAGAGGAAAGGAAGGAAGGAGAGAGAGGAAAGAAAAGGAAAAGAGAGGAAGGAAGATGGGAGGGAGTTCAGGTAAGAACAACAATGTGAAGCACAA
GGCCKCAAGGATGTTCTTGAAACCATCACAGAGTCCATGCTGGGAAGGATTACTCCAAGGYTCACTTCAACCAGTGTATTGAGAGCAGTACTCTGTTGGG
CACCAAGGATGTGAGTAGATAAGACACAGTCCCTCTTCTGCAGGCTGTTGTGTTGCAGGGGGAGACAGGCAAGGTGGGAGGCTGGAGTGCAGAGGCTCAG
GAGGGCCAGGCTGAGTCAAGCTTCCCTGTGCAAAGACAAGAATGGGATTGTTAAGCCCGAGAGCGAGATGATTAAAGCTGGGTGGCACCAAGATGACCGC
CGAATGGGCTCGCAGAAGGAAGCGCTGCACCCAAGGGGGTCAGCTAGCTGGCTGTTAAACAGACCTACCTTCCTTACTATGGCCTGGCCTGGTGTGGTGG
TGGGAATATGGGAATACGGAGAAGGGAATCCATCCTTCAGGCCTCACGGTCCTTGAAGCAGGGAGCCCGTGGACAGGCTTTCCTAGCAGCACATCATCTG
GAAGGTCCCTCGCTACAGTGTTCTTCCATCCAGTCCCACCTCGAGTGGACCAGAAAGCGCCCTCAGTGGGATGGCAGCCATCCTCTGTCATACACTTCCA
AAGGGACTTTCCCTTAGAGTTTTCCATTTTTCATAGCCCATTCTCTTCCACAGAGGTCAGATAACTGTTTATTTTATAAAGTTCACATTTTTGAGATTTC
TCATCTACTTTAGGGTTTAAACAGTGTCATCGGTGGATGCGTCCTTTTTCCCCAGGAGTCCTGCTTGTTGACTGCCATTTTGTCTGAACTTAGTCCCTGG
TTTCCTAAAGGATCTTCCTGCCACCCCCATCCTCCATTGGTCCATAGATTTAAAAAGCTTTTCTTGACGTTGCTCTTGTCACGCAGAATGTAACTGCAAT
GAACATTCCATCTCTTGTCACTTTGACATGGCTGTTTACCTGGCCACGGGGAAYGTCAGCGGAGGCGTGTGTGATGACTGTCAGCACAACACCATGGGGC
GCAACTGTGAGCAGTGCAAGYCRTTTTACTACCAGCACCCAGAGAGGGACATCCGAGATCCTAATTTCTGTGAACGTATGTTGAGAAATGTCACTCACTG
TGTGGGACCTACTTCAGATTGCCTTCCAAAYTGAATAGTCRGTAGTCTCAGAGCTCATAKTATGAGCAGTAAAGCCAGCATTGTTATTGTAATTGCASTT
GAAGACGCTGGGAGTGGAATTTACTTGGTAGTTGTGCTGCTTTTAGTCGACTTTTGTGAGATTTAGAGGGAGGAAGGGAATATATGTATTTATACAAAGA
TACATTGAGTTTCCTCCTGATTTTAACCTGGTGCTTTGCATTCTTCTCAGGATGTACGTGTGACCCAGCTGGCTCTCAAAATGAGGGAATTTGTGACAGC
TATACTGATTTTTCTACTGGTCTCATTGCTGGCCAGTGTCGGTGTAAATTAAATGTGGAAGGAGAACATTGTGATGTTTGCAAAGAAGGCTTCTATGATT
TAAGCAGTGAAGATCCATTTGGTTGTAAATGTAGGTCTGTTTGCTAAAAAGTTTGGGAGTTTTCTTGTGTTTGAAATTCCCATTTTACTTTGTAATTCCA
AAGCCAGATTATTATTTGAAACTCACGTGGTCTGTGTTTCTCCACTTYATTTTGTTTTAATACAGCTTGTGCTTGCAATCCTCTGGGAACAATTCCTGGA
GGRAATCCTTGTGATTCCGAGACAGGTCACTGCTACTGCAAGCGTCTGGTGACAGGACAGCATTGTGACCAGTGCCTGGTAAGTAAATCCTCATTACGTG
GGATGGGTGGTTGGTGAGGATGACATGTTTTAATAGAGAAGCCTTTTCGCCATTGTAGAGTCTGCGATCACCCTCACGTGTACGTGTTAAAAGACATGAG
TAGACAATGCACACAATAGGAATTACTAATGGATGATTTCACAAGATGTTCACCATCCCTGTTAGAAGTGTAAAGGAAAGCCACAATAAAATACCACTTT
TATAGACACAATTAACACAAGTTTTTAAAAATGGGAATGTTTACTATTAGGATATCATGAGGTACTGCTACTTCTTGGCTGCTGGTGGGCATCCATATTG
GTTTGTACTTTTGTGAAAAGCATTTTGGAGATACATATCAGTAGCTTGTAGAAATGGGCATACCCTTTGACCCAGTAACCCCACYTCTGGGAATCTATTC
TAATGAAATAATCAGAAAATTGGACAAAGATTTATTCTCCAGAAGACTCATTGCATCTTTTATTAATCATAGCAGAAGRCTTGGAAACAACAGTGGAAAA
ATAGTTAAGTGTGGGGACTTCTATACAATGTAATATTTGGTTGCCACTGAAAATGACAATAACATCAGGAAATGCTCATGCTGCTTGCTATATTTAAAAA
AAAAAACACACACAGGATATGAATAGTATCTTGATTAAGTAGGAAATAAAATTCATCAAGGAAAACAAAATCTGGAAGGAAATACACCAAAAAGTTCACT
GTAATAATTCCAAGTAGGATAATTATGAGATAAGTTTTTWAAAATCTGTATTTTTAATAACATTGTTATACTTTCTAATTTAGGGAGGATTCACTACCCC
CAAATTATTACCATTAAATATGTATATTTATATATAATCTTAATAYATTCTTAAAGGAGATTTCTGGAAGTCTAAATTGATGAGCCTGGTCAGGTGTGAT
GACTCATACTTGTAATCTCAGTGCTTTGGGTGGCCAAGGCAGGAGGAATGCTTGAGATCATGAGTTTGAGACCAGCAAGACCCCATCTCTAAAATTTTTT
AAAATCATAAATAAAATAGGCTGGGCACAATGGCTCACMCCTGTAATCCCACCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGTCAGGAGTTCAAGAC
TAGCCTGGCCAACATGATGAAACGCCATCTCTACTAAAAATAATAGAAAAATTAGCTGGGTGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGC
TAAGGCAGGAAAATTGCTTGAAACCAGGAGGCGGAGGTTGTAGTGAGCTGGGATCACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTTCATCTC
AAAAAAATAAATAAAATAAATTGGTGAACCTGTTTTTATATACTCATTTTTGAAGTGCACAGAGCTCCTCTTCCCTACTGTTCCATTTCTCTTTATTTCC
ATCTCTGGTGCTCTAAAGATCTGATTTCCTCGTGGCTCAGTGGTGAGAATAGTCGTAGCTGTATGCTACATTTCCACATAAATTCTTGGAGGGCTTTCTG
TATGGGATTGATGACAGACTGAACTGAGGGCAGATTTAAAGGCCTGCCAAATCCTTGCCATAATTCTCTTACAGCCAGAGTAATTATAATGAGGAAAATT
GGTATCTTTACTGCTTGCTCTTCTTAGTTGTTGGATGGAGGTTATCTATAGGGCAGAGCAGCTAGTCTTTGACCTGGCACGATCCTGTGATTGTGAACGG
CTCTCTTACGCCAGTGCCTACAGCTCAGGTTTCTTGATTTCAGAATACTCCTTCCTTTTGTTGGCTTTCTGCTTTAATGATGAAAATGAGCATTTGGTGG
AACAGCCGAAACAAGCTTTAACTTGCTTGTTGCTGAGTCTGTTGCATAATTACAGAAACCTACCGTTACATGTTTCACGTTTTGTTCTGCAGCCAGAGCA
CTGGGGCTTAAGCAATGATTTGGATGGATGTCGACCATGTGACTGTGACCTTGGGGGAGCCTTAAACAACAGGTAAATGGAGCTCTACGTATGCTCTTGT
CCTCAGTCTTCCAGGAAAGTCATGACTTAYAGGAATGGGTGACATTCAGTTGTTTCTCAAAAAGACATGCAAAATATTTTTTGTATGTCTTGATAAATGT
GTGTAGGTACCTCTATGGACTAGATTCCCAGTGATGGAACTGCTAAGTCAAAGTACATATGTATTTTTAATTTTAATAGAGAATGTTAGGTTGTTCCAGA
CATATTGAACTAGTTTATTTTCCTATCAGTTACAAAAGTACCTTTTCCCCCATCCCCAGCAACAGTTGGTATCATCAACCATTTTATTTTTCAACAATCT
AAGCACATGGAAAATGGACTCCTGTTTTGATTTGTGTAGAGAATCTTTTCATTTTCTTTTTTTCTTTTTTTTTTTTGTGACTTCCAAGTCCATTAATGAA
AATCACATGAGATAATGTTGAGCTACTTAAATATGCTAGTATTCCTTGAATAAATGAAGCATAAAGCTCCACCAGAAGCTATCAGAACACACATTTGGCA
AGATGTTAAATCTGTGGGAGTTTAACCACCTTCGAGTCAAAGAGAATGTTGGTCTCTGTTCCTGGCTCAGAGTCAGAACATCTGGAACAGATAGTGTAAG
TGACTGCTGAGAGAATAGACAGATGTTTCCCTGTGGCCTTGAGTCTTCCCAGAGAGAACACTCTGAATTCATTGAGCAAGCTTCATGTACTCAAAAATGG
ACTTTCTTTCCCAATTATTTCCCAACACCATAGTAGTCTGCTGGGAAGGAATGAGGTATTCAGCAGCAAGAACATGTTGYGTTTGTCCTCTTTATTTGGG
TTTGTTCTGTTCGAGGTCGTGCCATAGACCCAGTACAGCATGTAGCCTCTGAAATCCGGTGTGAATATCTGTTCTTAGAAAACCTCCAGAGAGGAGGAAG
CTAGGATAATTCCATAAAAGCAGGGAAGAAAGACAGAATGCTGTCTGCTTGTGGAATCACTTTTCTGACTTTTCCTTTGTGACTCCCAGAACACATGTTG
AATCCTTTAGTAAATGACTCCTCAGTTCAAAGCTGTCATCACTCCTAAAGTCCTTCTTGATGAKATAAAAGTGGCATATGCAATTCCCCAAATTATGTCA
TAAACTCAGGAATGTCCTATGATTCTTAACCCTAAGTAAGTTTTGTTCCTACACTCCCTTCCTCTTTTTCTCTATTCCATACACACTTCCTGTCTGTCTC
CACCCACGCACAGGCCCTAGCCTGCCCTCTAATCTCTTGTGCAAAAATTTATAAAAACCAGAATGTATTCACCAAGAGAGTTTGGGAAGCAAAATTGTCT
AGTAAAGATTTTTAAAGCAGGTAATCATCTGATCTTTCTAGCATGATTGATGGGATGCCCTATCTTTGAGAATCATTGGTGGAGGGGAAAAAAAGAACAT
TTAAAGATGCCTTGTAGTCTGGTGACTCTAGAGTGTTTTATGGTGAGCCTTTTCAAAGTTGTTGTCCCTCAAGAGGAATTTCCCCAGGAGCCCCTTAGGC
AGGGTCAACTGAAGCACTGATTCTACTGGGAGATGTGCACAGATGCCGCTTGGGAAATGTTTACTGGATGATTGGTTTGTTGCAATCACTCATCAAAACC
TTTTACCTGATATTTCTTTTTACGTAGTAAAAGAAATACGTTGTAGGTACTGAATAAATGCTGATTGAGTAGAATTTAAAAATAAAAGATTTCTAAGATG
TTAAAAACTAGATATGTACTCCTTAGAGAGGCAATCTCTAAATGTGATCCCAGACACTMCTTAGTTACTTTGTTGAGGGACAGAATTAACCATAAAAATC
ACTGGAAGTGGTAAAAGCTTTAAGATGTTTTGTATAGTGAGCTAAATGGATTTTTGGTAGTACAACAAAAGTTTAATAATCCATGTCTATTATATTGACA
ACTAACCTGAACTTTGGAATAATTAAAGAAGTGGCCAGGCGCGTTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCRGCGCGCCAGATCACCTGAG
GTCAGGAGTTCAAGACCAACCAGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACCTACCTGTAATCTCAG
CTACTTGGGAGGCTGAGGCAGGGAGAATCGCTTGAACCTAGAAAACAGAGGTTGCAGTGAACCAAGATCACGCCATTGCACTCCAGCCTAGGCAACAGAG
CAAGACTCTGTCTCAAAGAAAAAAAAAAAATAATAAGACCTAATTAATTTAAATAATCTAACTGAAGCCAAGTTAATGAAGTTTTGCCTAGTAGATTACC
TGTTTTAATGAAAAAGAATTGGCATTGGTTGCTAGGTAAATGCTACTTGTAAATGTTTAATAACATTGAAAAATATAAACATTTTTACAGCATCCTTCAA
GATTATTTTAACAATGAAATGTAGAGTTTTCATATCTGGCTTGAAGCCCACCCCCCCCTTTTTTTTTTTTTTTTTGAGACAGAGTTTCGCTTTGTCACCT
AGACTGGAGTGCAGTGGCATTGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCCACCTCAGCCTCCCGAGTAGTTGGGACTACA
GGCACCAGCTACCACACTCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTCTTGAACTTCTGACCCTCAAGTGAT
CTGTCTGCCTCAGGCTCCCAATGTGCTGGGATTATAGGCATGAGCCACCATGCCTGGCCCCACCTCTTTTTTGAACTCACCGTGGTGAAGCCCCGAACCC
TCCCTTGATGCATTGCTTCTGCATCTCTTTTAGCATTTATTTTGCTCTTATAGTTGTGTTAAAAAGGTCYCTTTGGACAGAGATTATGTCATCTTTGTTT
TTGCATCTCACTTGGCACCCAGCACGGTGGACCTGGCAGGTACTCAATAAATGAGGGACTAAAATTTATTGTACTTCGAATCCAGAACGGAAGTTAGTAG
ATATTTTTATCATTGTATTGAATGACTATGGTGTAGCTAACCCTTTGTTAATTATAATCATGTACTGCATAATAACATTTCAGTCAAGGATGGACCACAC
ATACAACGGTGGTCCCATAAGATACTGTATTTTTACTGTAGCTTTTCTACATTTTGATATGGTTGAATACACAAGTTCTTGTCATTGTGTTACAATTGCC
TATGGTATTCAATACAGTAATATGCTGTACAGGTTTGTAGCTTAGGAACAATAGGSTATACTCTACAGCCTGGGTGTGTAGTAAGCTATACCATCTAGGT
TTGTGTAAGTACACTATGATGGTCACACAACAACAAAATTGGCGAACAACACATTTCTCAGAACATATCCCAGTCATTAAGTGACACATGACTATACTGT
GATAGAACAGGATTATAGGACGTAGGTCTTACCAAAAAGAAAGTGTCCTAGTTGGGGGTGGGGAGGAATGCCACCCTGAGAAAATGAATGGTGCTGACGG
AACACTGTGGTTGGTTATTATGAATGATGTTTTTTATGCTTTAATATTTTTCTGCCTAATTCCTTAGTAATAGGGAAATGTTAAAATTCCATTTTCTTTA
TTCACCACCATTTAAATGAAATGGAATTTTTAAATGTTGCCAATTTCTATATTTATGATTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCC
CAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAAGCTCCGCATCCCAGGTTCATGCCATTCTCCCGCCTCAGCCTCCCAAGTAGCTGGGACTACA
GGCACCTGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTGGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCTTGATCC
GCTCGCCTCGGACTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCAGCCATAAATGTATTTTTTTAAGAAATAATCTTGGCCTTCACCCACT
GAGAAAACATAGAGCCTGTATCAGTTTTCTATTGCTGCCATAACAAATTACCACAATTTGGTTGTTTAAAACAATATAAGTTTATTATTTTCCAGTTCTA
TGTGTCAAATACAGTCTCAGTGGACCAAAATCACGATGTTGGTAGGGCTGCATTGTTTTCTAAGGCTCTAAAGGAGAATCTGTTTCCAGCTAATTTGGGT
TGTTGGCAGGATTCTGCTCCTTGCAGTCGTAGGCTGAGGTTCCCCTTCTTTTGCTGGCTGTCATCTAAGGGCTATTCTTGTCCTCTAGAGCTGCCCACAT
TCCTTGACTCATGGTCCCCTCTCTCCATCTTCAAAGGTACCACTGGGTCAAATCCTTCTTATGTCACAGCTCTCTGACCTACTTACTTCCCTGCCTGCCT
CTCCCACTTTTAAGAATTTATGTGATTAGATTGGACCCACCCAGATCATCCAATAATCGCTCCATCTTGATGTCCTTACCCTTAATCACATCTGCAAAGT
TCCTTTTGCCATATGAGGTAACATCCYACAGATAACAGGGATGAGGATGTGGACATCTTTGGGGGCCATTATTCTGCCTCACACAGGCCTTATTTATTTT
ATGTCCTTATTCTCCCTTACTGATTTAATGAAATTGAATCTCTAGTTTACAGAGAAATTTGTAGAGAATACATAAGAATCTAAGATGTGCCATTTCTATC
AGATTTGATTTTTACTTGAACACAGGAGAGAGTAATTACATGTAATAAATCATTGGTATCACTGTGAAGAAGCCAGGATTTGTGCTTGAGTTTTGAAAGC
TGAGATTTGAAAGGTGCGATTAGTGAGCAGGGGAGGGCCTCCGAGCTGGGAGGGAAAAGATGGGTAAAGGCACAGAGATGGGAATGACTGTAGCAAGGTC
GAGATCTGGTCTGATCTTGACCATCTCTGCCCACATTCCCCCATCACCCTCTTTGCTCCTGTTATTCCTGTCCTCTCTCTGCCTGTCAAGTCCTCTCCAG
GCTTTAAGGACACCTCTTTCATGACGCCTCCCTCAGTCTTCTCARTCAGATGAATCATATCTTCTTCTCCCTTAGTGCTTTGCTTGTAACTCTATCAATG
CATAGGTTCTTACTGCATTTTGATTTGTTGCATTGGTTAATTTCTTTATTGTTTATCCCCAATTAGACTGTAAGTTCTTGAAGACAGGGACTATTTTTTT
TTCTATTTCTCTTTCTGTATATCATTTAGCCAGAAATAATAGACTTAGTGAGGAAGTAAGGATTCATTCAGAACAAAGTTCACAATGGACTAAAATGTGA
GAATACCTGCACTGRGAAGCAAGGCTGCTAGGGCCAATATTTGATCAGTAAATATTTGCTGAAGAGTATGAGGAGTGTGGCTCATTGGAAAGCAAAGAGT
CGGCACCAGAAAGAGAAGCCGTTTTCAGAGGATGGGTTATGGAGGCTGCAGAAAGCCAGGCAGAGGCATCATGGCTTGATATCATAAGAAACAATTGTGG
GTTTTCRTGAAACAATGAAAGCAGCACTGTAGGAAGATCGGTTGGCCCGTGGTAGACAGGATGGACTAGGCAGAAGAGGAAGAAGAATTTGAGAGGTCAG
TTTAGGAGATTGTTAGAGTAACAGGTATGGGGTGATGCCATCCTGGACTGACGCAGTGGCAGTGGCAGTGACAATGAGAGGAAGCTGCTAAGTTGAGAAA
CATTTTGAAGTAAAAGCTGAGTATTGGGATAAAGGAAAGAGAAGGTGATGTCTCACCTATACCATGAGAAGAATTTTAAATCTACTGGCAGAAACAGCAG
AGCTGAGGATAAGAAGTCAGTGTGGGTGGTGATGATCTGTTTGGGACAAGATGAATTAGAGATGACAGCTGGCCAGTCCATGGAAATGTCCCATTGATGG
CTGGAAATAGAGAAGCAGAGCCCAGCCACCTGCTGGGTGCTGAGAGCTGTAGGGTGAGGGCCATCTGCATAGGAAAGCCACAAGAATGAGTTCACTGAAG
GAGCCAGTGTTGAATCAGAGCCATGCCTATCTGTGATGACAATTCAAGCCTGTGGACACAGACTTGTGATTGGCAGGGCCGCTGTTAAGGGAATTCCTTT
CACATGATCAGCTCTCATGGAGCCATTCCTTGTTTAGAATTGTGCTGCAGATAGAGGCAGCACCGGGAGCCTGCTGGCGCCTTTGTCCTCACCTTCATTT
GCTCGTTCTCTAATGGTTGCATGTGAAGGTCTAGTTGTTTTCTTCTTTGGTGGTTCATGTTTTGGATATTTGTTGTCTCAGTAAACATCTGGGGAGGAAA
GAATTTTCTTTTGTCCATATGATGTAATGTCTGATGCCTGAATTTCTGAAAATAGCTTTTGTTCATGGACTGTGCCAAAAGAAGGCTAGGTCCTAATTGG
AACAAGCTTTCCTTTCTTGGGAATTGGCTATGGGACGTTAAGAATTCCTATTCCTGGCTGGGCGTGGTGGCTTACACCTGTAATCCCAGCACTTTGGGAG
ACCGAAGCAGATGGATCACGAGGTCAGGAGATTGAGACCAGCCTGGCCAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGG
TGGCAGTCGCCTATAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGAATCGCTTGAACCCAAGAGGCGGAGGTTGCAGTGAACCGAGATCGTTCCACTGT
ACTCCAGCGTGGGCGACAGTGCGAGACTCCATCTCAAAAATAAAAAAATAATAATAATAAAAAGAGTTCCTATTCCTGTAGGATAACAACATGATACACA
AAAAGAGGACTTCAGCTATGCTGCGGCAGGGTCGTTTAGGATTTTATTTATTTATTTATTTATTTTGAGATGAAGTCTCACTCTGTCACCCAGGCTGGAG
TGCAATGGCATGATCTCGGCTCACTGCAACTTCCACCTCCTGGTTTCAAGTGATTCTCCTGTCTCAGCCTCCCGAGTAGCTGAGATTACAGGTGTGTGCC
CCTACACCTGGCTAATTTTTTGTATTTTCAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGCAAGTGATCCACCTGCCTTGGC
CTCCCAAAGTGTGGGATTATAGACGTGAGCCACTGCGCACCCGGCCTTGGGACATTTTTAATAAGCCTGTGAGTGCAAAGTGTTCCTGTGAGTTGCAACT
TGCCTTAGGTACCTTGTTTAAAACTTTGGGATGAGAAAAAAAGAAAGAACAAACCTTGAGAATGAGTTGAAAGTAACAATTCCAAACCACAGCTCTTCTT
TAAGTGAAGTAAAAATGGATACATGTAATTTGAGTTTTGTATTGTATACAAAATTATGATACTAATAAAAGGGACATAAGCTGAGAACAGAAGTTTCACT
CTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCAGCTCACCTCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCSTGCCTCAGCCTCCCAAGTATCT
GGGATTACAGGCCTGCGCCACCACGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTGAGGCTGGTCTCGAACTCCCAACCTC
AGGTGATCCGCCTGTCTCGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGTGCCCAGCCGCATTTCTTATATTTAGCATAGCATAGCCAATGG
AAAGGGGGAAGAGAGACACAAGATGCAGAAGTAAAAATCACAGAATTTGGTTCCTGATGGAGTGTGAAGAAAGAATCTGGAGAAGAACGGGGACTAAATT
TCTGACTTGGTTGACTCAGCAGGTGGTAGTGCCTTCACCCTGATAGAGACCATCCGAGGGATTGAGGGCTTCTGTCTTAGATCCGTTGGTTTGGGATGCT
CTGGGACAGCCAAGCTGGAGATGTTCTTCAGGGAGCTGGATATTTGAGCCTAAATCTCAGGAAATAAGCAAAAGATGTAACATGCCAAAGCAAGAARGTT
TGGGATGTGGAAAACCTTCATGTGATGCGGACGGCGTGTTAGTCAAGAGAGGGCAAGGGAGGTAAAACCGAGAAGACCAGGTTCTCAGCCACGCTTYTGG
AGTTWGGGATTAATCCATAGGCACTAYTTTTTTCCACATATGTATTTTCTGAAGAAAACAAGAACATGCTATGTATTTGGTCCTGTGTACTGAGTAATGG
CAGCTGTAGAGCTGCTTCTGGCGGGTTGACTCGCGTGACCATGAACTCAGCTGATGTGGCTCCTCCTCCCTTCCAGTTGCTTTGCRGAGTCAGGCCAGTG
CTCATGCCGGCCTCACATGATTGGACGTCAGTGCAACGAAGTGGAACCTGGTTACTACTTTGCCACCCTGGATCACTACCTCTATGAAGCGGAGGAAGCC
AACTTGGGGCCTGTGAGTAGGGGAGTGTGTGGCAGGTCGGTAAAGCAGTGTTTTGGGGTGTAGTGGAACATACATGCTTTGTAAAGACCCCATTTCAGAA
GCATTTTTATAGCTTTGTCAGTGAGCACAAAATAAGGATCAGGACCATGCCTTCCTGAGAAGAGTCATATTTAAAGCTAAGTAATTCTATMACTCACAAA
TTGGCTTTGGAGCATTCACTGATAAGGCTTTTGGTTGGTTTAAGAAATGTGTCTTTACAAGAAACTTTTCTTCTCTCTACTTATGCTCCAAAGTTATCAA
CCTAGCATGGTAAATACTGAGGCAAGGATATTTTTTCATCTATTCATCCCCAAATTTAGTGACTTTAAATGTATGCCTGGCTCTTGAGCTGGGGTGGCTG
AAACAGCTGGAGGCTGGCTGGGCATTTCTCTCCACACGAACACGACCTTTCTTTTTTCTTTTTTTCGAGACTGAGTTTCGCTCTTATTGCCCAGGCTGGA
GTGCAGTGGCACTATCTCAGCTCACCACAACCTCCGCCTGCTGGGTTGAAGCGATTCTCCTGCTTCAGCTTCCCGAGTAGCTCGATTATAGGCATGTGCC
ACCACGCCTGGCTAATTTTGTATTTTTAGTAGGGATGGGGTTTCATCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCCGCCYGCCTTG
GCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACTGTGCCTGGCGATAGTGAGATTTCTTAGATGGCTTCCAGCTTCCAAAAAGAGGAAACAAGCTGC
CAGCTCTCTGAAAGCTTGGACTCAGAAGTCCTAGAAAGTTCCKCAGGTTCTGTTGGTCACAAGTCACAAGGATTCATGGAAAGGATAACATAGTTTGCAC
CTCTTGATGGGTAAGGCCACACACGGGTACATACAGATACATACAGGGAATGAAAGAGTTGATCCCAGCCATTTTTGGATATGACCAACCACAGGTATTA
AAAAATAACCCTGTAAACAATTAATCAGAATTAACTCATCAGTTGTGAACATTCATTATATCAAGTTTCTTCACTTGAAAATGGAGCCTGAAACTAATGC
CAGTATGAGAGACAGAAATCCACTAGATACTGGACTAACCTTATGGAGAATCTGGGAAGCACCTTATGATTCCTAGACTTGCTTATAACGGCATGTGGGA
TGTTCTCTTTTTTCTTTTATGCTTACTCTCCTGGTCATATCAAATAAGGTATATCCCAAGCCTTTGAGTGCTATATCCAGTGTCCCAAGACTGCTCCAAC
CACAAAACTAAAAAGAAACCAGTTTCCTGTTTGGATATCAGAAACTTTTTACAATCTATTAGGGGAGATTTGACTATAAAAAATAGACATAAGGTAGCCA
CCCTTTTTGAATCTTTGGGTGACTTCGGATTACTTTGACTATTGAAAATTATTGAATTCCATTTCAAATACAGAATAACCATTGTTTGCCATGCCCTCAG
GGGGTTAGCATAGTGGAGCGGCAATATATCCAGGACCGGATTCCCTCCTGGACTGGAGCCGGCTTYGTCCGAGTGCCKGAAGGGGCTTATTTGGAGTTTT
TCATTGACAACATACCATATTCCATGGAGTACGACATCCTAATTCGCTACGAGCCACAGGTAAAGAAACCACTTAGTGGACTGGTGGAGGAGGGAGGGGA
GAATCAGTAGAAAAATAGTACTTCTAMTGGGTATTATATATAGTTATGAAATATGGAGGTTGCATTAGAACAGATCAGATTCCTATAGTCTCACCTCCTC
CATGGAAGTTAAAATAAATGTACCATTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTGAGTCTCGCTCTGTTGTCCAGGCTGGAGTGCAGTGGTGCCATCT
CGGCTCACTGCAATCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCCAGCTAAT
TTTTGTATTTTTAATAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGATCTTGAACTCCTGACCTCAGGTGATTCGCCCGCCTCAGCCTCCCAAAGTGCT
GGGATTACAGGCGTGAGCCACCACACCCAGTCAAAACGTACCATTTTCTTGAATCCAGTTTCTCAAACGTAGTGATCTTTTGTGAGGCACTCAACCTTGC
TGACRACTGAGGTGGTGATGAGGATGTATGAGATCCTCTCCTTCCCTCACAACCTGGCTGTGCAGTGACAGACTGAAGCCCCGAACTGTAACGAAAGACT
GAAGGTGACGGTGTAACAGCAGAGAGATGCATGATCCTAGAAGATGGGCATGCACCAGCCAGCCCGAGCCAGGGCTACCAAAACRTTTTCCTAGAGAATC
AGAGCTAGGCCTTAAAGTGTGAATGGAATTGTGGAAAGTTGGCACAAAAGTAAGAAATAGTGTGAGTGGAAGAGAGAAGAGAGGGTTTTGTTTTTATTGA
GAATCATTCCACATAGCTTGATGAGAGATATGGTTGGAGATGCTGTTGGCAAAAATACTAGGATTAGTAAAGGAATTTGGACTATAATATTCACAGGAAG
CTATTGAAGCATTTCAAGCAGGGGATTGTCATTATCTGAGCTGCTTTAAAGTGGACTGAAAGGGACATTGGGAAGAGGCAGAAAACAGTTGAGAGGTGTT
TCAGCATCCAGGGCAGAAGGGATTTGGGCTGGAACCAGGGGAGTAGCAGAGGTAGTAGTAAAGAGAAAAGTGAAGAGCAACTGTTTGTTTTCCATTTCAA
CTTGGCAATTGATTGATTCAGAGAGGTCTTTTTATAAACAGGCAGTGGTGGGCTAACTATCTTTTCATTGTTTGTTTCTTATTCTAGCTACCCGACCACT
GGGAAAAAGCTGTCATCACAGTGCAGCGACCTGGAAGGATTCCAACCAGCAGCCGATGTGGTAATACCATCCCCGATGATGACAACCAGGTGGTGTCATT
ATCACCAGGCTCAAGGTCAGTGTGACGGTGGTTTGGCAGCTCAACGGGCTTCATATGCAAATTAGTATTTTTCTAATATTTTGCGAGTTTTCAAGTCACC
ATTTCAGAGCCAGACGTTGACTGCTGACTTTTTTCCTTTGGAATTATCGATGCAGAGCTTTSTTTTTAATTTTTATTTTTTGGATGCAYGAAGGTTGACT
TTCGTTGTTGTCTTTCTTTTTTGTTTGGGGGCAGATATGTCGTCCTTCCTCGGCCGGYGTGCTTTGAGAAGGGAACAAACTACACGGTGAGGTTGGAGCT
GCCTCAGTACACCTCCTCTGATAGCGACGTGGAGAGCCCCTACACGCTGATCGATTCTGTAAGTGCGAGATTGCTTCTGGCATATGCAGGAAAGCCTGGG
CGGAAAGTGCCCAGCTGCTCTCAGGGTGTTTTGTTGAGGGGTAATGCTGAGGCCAGCGTAAGCAGAATCATTCTTTCTTGCCTCCRCGGTTACTTTGCTT
ATACTCCACCCCATGGAAAGGATTTATTCCTTCTAAAAATATAAAATGTCTTTTAAAAAAAACAGCATTTCACTAGGCGTAGTGACTCACACCTGTAATC
CCAACACTTTGGGATGCTGAGGCAGGAGGATCATTTGAGGCCAGGAGTTCAAGACCAGCCTGGGCGACAAAGCAAGACCCCATCTCTAAAATAAAAATAA
ATAGCATTTAAAAGCCATCAAGCTGTGTAAAACATATCTAAAATTTCCTGCCAAGAGTATTTAGGAATAGGGAGGTTTATACTTTATTTAATGAGTCTAA
TGATTTCTGTTCAAGGGTCAAAGAAGCATTTGGGTTTTCTACACGTTTGCTTGCTTAAACCCATGCCATGGGGCACCACTGTAAGGATGTTTGGCCGTTC
TCATTTCTTCACAGCTTSTTCTCATGCCATACTGTAAATCACTGGACATCTTCACCGTGGGAGGTTCAGGAGATGGGGTGGTCACCAACAGTGCCTGGGA
AACCTTTCAGAGATACCGATGTCTAGAGAACAGCAGAAGCGTTGTGAAAACACCGATGACAGATGTTTGCAGAAACATCATCTTTAGCATTTCTGCCCTG
TTACACCAGACAGGCCTGGGTAGGTATTGCTGGGCAGCTGCAGCAGCTGCTGTTTCTGGCTCTGAGTATATCTGGCACATGAAGTACAGTGGAGTGCCCA
CCCCCTAGCCCTGTGTTAGGCAGCACAAGGGAAATAGTGTCTCAGTTACAGTTTGTCTTTATCTTTTTAAGTAATATTTCAGTGAAAGAGCACCACTGAA
GATGGAATTGATATTCAAGAAATATGCAAATAACAGGTGACCAGGGGAAAAGTCCATGAGGATAAAGCATTTCCATAAGCAGGGTAGGGAGAGGGGAATG
GAATCAGAGAAGCATCAAATACCTGAAATGTATGTTTTTCTCTTTGAAACRTCAGACCATCCTCTGAAGGTCACTGGGCTTTGGTCTAATGTCCTGTGAT
ATTTGAGCTTTGAAGGCAAGGGGAGAAAACATTAATGACCTCCTGCCTAGAAAAACTGTTTTGATCTGCCAACTCTGCCTCCCCTTTCTTCCCTTCCGCT
CATCATAGGGATGATACTGTTTTAAACCAGAACTCTGAATAATCCAAAGTAGTTAAAGGAGAAAGGATCAGGGAGAGCCCGATGATGTGCTGCTCCGTGT
CATGGGTTCTGGCCTCTCTTTACCCACAGCTTGTGAATGCGACCCTCAGGGTTCGTTAAGTTCCGTGTGTGATCCCAACGGAGGCCAGTGCCAGTGCCGG
CCCAACGTGGTTGGAAGAACCTGCAACAGATGTGCACCTGGAACTTTTGGCTTTGGCCCCAGTGGATGCAAACGTAGGTTCCTCAAAAGCATTGTTATGC
ATTCATTCAGATTAACTCAGCCATTGTGGCAGGGTTCCATTGCTGCAGAGCCGATGCTTCCCTCCTGAAGTTGATCACACCAACCCATGAGCATTCTGAA
TTGGGGACAGGGTGCTTATAAAAGGAGCATGTTTCCATTGAATGAGTTTCTCAAGGCAGTTCCTTGTTTGCCTGTTTCTTTAGCTTGTGAGTGCCATCTG
CAAGGATCTGTCAATGCCTTCTGCAATCCCGTCACTGGCCAGTGCCACTGTTTCCAGGGAGTGTATGCTCGGCAGTGTGATCGGTGCTTACCTGGGCACT
GGRGCTTTCCAAGTTGCCAGCCCTGCCAGTGCAATGGCCACGCCGATGACTGCGACCCAGTGACTGGGGAGTGCTTGAACTGCCAGGACTACACCATGGG
TCATAACTGTGAAAGGTATGCAGATGCTGAAAGTAAGGAGAATGTAGTGATCTCTGGCTGAGCAGACAGCATCTTAGACCAACCACAGAATTCATCTCCA
CCAGGCTTCAGCTCGCTCATTCATTTCTGACCACCTCACTATTTTCTAGGATCTTGTTTGTTTATCCAGTACATATTGAGTTGACATCCTCTATGTGCCA
GGCACCGTTCTGGTGCTGGAGATACCGCAGAGAACAAAACTGACATGAATCCGTCCTCTTGGCGAGTCACCCTAGAGCTTACCATAGGGCTGTATAGAAA
TTCTGTCTGTCTCAGCAGATTCTGGCGGAGGATAAGAGTTGTGAAATGCTCCTGCCTAATTTAGGCGAAAGGAGAAACTAATCCAAATGGGATTAGTCAT
TTTAAATAGCTTTGTTTTTCAGAACGTTTTATGCAACTACAGTTTCCAGGAGACTCTATAAAACATGCCTAAGTAGATCTGTTCTCCAGTTAGCAAATGT
CAGTTGAATAATCATTATGGATGTGCTAGATGTAGAGTAAGAATAGGAGAGAGAATATACCTCCATAACATTAATAGGATAGCTCAATAGATAAAAAATA
CTCCGTATGAAAAAGTTACCTGCTGACTTACACTGTTTATTACTAATTAAGAAATGCAGACAGTACTGTTAGAACTGGCTTTTTGGGCGTAATAGTCTCC
ACCTTTTCACTGTGATAATTTTTCTCTCTTCCAACATCCATTCGCCCTATCGAAGATATTTGTTTTTAAAAGTCACTTGTGAAACATTGCAGCAAGTGCT
TCAGTCAGTGGTGAAGTTACTCATCAGGTGAAAGAGAAATTGTTAGTGAAAAACTGAGTATGTGATTAACTTTTGGCATGAAGATGTTCATGGAGGCAAA
CACGTGGCTCTCGGCTCAATGCTAGAACGGTACTCAAGAATTTGGAGGTCCCACGGACTACCCTTTGAATAAAAATTATCCCTTCCAACCTTAAAATTGT
GTTGTAGAAAGATAGCAAGGACACAGTTATACAACAGTGAAAGGAGGAAATTAATATTTTGGGGTCATCTTTTTCTTTTCAGCCGTTTTCCATTATTGTT
TTTTCAAAGAGAGATGGAGAATAAGTACGAGAGAAAGATATGAGAAAACAGAGAAAGACATGAGAAAAAGATTAACAGGGAGCAGAGAGAGGAGGGGGAA
CAGAAGCAAACAGCAAAGGGAGCTGCCACAATGCTGATTCAGAATCAGCACTCACACTGTAGAATGCATTTGAACGAACATCATGTCAGAATGGCATAGT
TGATATCTGTGACCAGCTTTGGATTTTATTTGTAAAGGGTTTTGAGAATGAGAAAGGGTATGGGAGAAGGAAGATTTTTAACAATAGGTTTGGGTGGCAA
ACACTTGATTTTAAGTATTTGGAATTCTACTATCTAGTTTGAGCCAGTTTCTCATCATTCTTTTTTCTCATTCCAAGATAACCAGAGTTTCAATCCTGTG
AATTTACAAAAAAACTCTACACTTAGATTGTCCCCAAGGGGAGGCAAGAAATGAACACTCAGTTTCTATCATGATGTATTTGGATTGCCTCCAAAAGACT
TGAGAAACAAATTGAATTGGAAATCCTTGGACCTCAGTTCCTGGCCCAATTCTGCTTCTAACTTGCTTTCTAACCTTGGGTGAGTTAGGATATCCAGCTT
CTAGAAAATTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGAAGTACAGTGSTGCAATCTCAGCTCACTGCAACCTCTGACTCGCAGGTTCAAG
CAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCTTTTTGTTGTTGTTGTTGTTTGTTTGTTTTGAGATGGAGTCTCATTCTGTTGCTCAG
GCTGGAGTGCAATGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAGGTGATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGATTACAGGC
ACAGGCCACCATGCCTGGCTAATCTTTTGTATTTTTAAGGGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCCAACCTCAGGTGATCCA
CCCGCTGCAGCCTCCCAAAATGCTGGGATTACAGGGGTGAGCCACCGCACCTGGCCGGAATATCCAGCTTTTCATAAGTAGAATAACTAGGTTGGATGAG
ATTGTCTCCAAAGTTCCTTCAAGATGTTATGTTGTAGGACATAAAAAAGTAACATAATTACCATTCACCTTGACAAGCAGGCTAACATAGTAAAAGAATG
TATTGCTTTAAGGACCCCAAATTCAAATTCTGGCTCATTATTTAACTAGTTGTATAAACTTTGAGAATCCTTTGACCTCCCTGTATTTGTTATCTTTAAA
GAGTGGGATTGACATGTTGGATATGGGAATTAATAAGTAACATGACCCATCCCTGCCTGAGTTTGGAACCACCTGAGAGACAAACACAGGGGCTACACAG
CTGGAGAGCACCCCTGTCACCCCCTCAGCTCCAGTACTGGGAAAAGCTGGGTTATAGCACATGGCTTTAGACCTGTGGCCACCGTGGGCTTGCCAACACA
TCACCCCTCTCAGGCATAGGCAGAGGCTGACAGGTATAAGCCCCGCCTAGGAGGACAGACTCTGTAATACAAGGAGGGAGCAGAACTGAATGGTCAGGAC
AGGCAGGCAGCTGATAGAACAATCAAGTGCACATGGGGAGAGGTGGCTCTTCCTCTGGGGAGCAGTGAGTGAGGGGCCAGATGAAGCCATGGGTGTCACT
CGAACGCAGTGGTCCTGCAAGTAGGATCCCTAGATCAGCAGCATCAATATTATCGGGGACCTACTGAATCAGAAACTCGGTGGGAGGAGCCCAGTCATCT
GTTTCAGGTGATTGTGATTGAAGCTAAAGTTTGAGAACCACTGTTCCCATAGTAAATCTTCCACATGAAAACATAAAGAGAGGTGGGCAGATCACCTGAG
GTCAGGAGTTTGAGACCAGCTTGACCAACATGGTGAAACCCCATCTCTACTAAAAATATAAAAATTAGGCTGGGTATGGTGGCTCACACCTGTAATCCCA
GCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGATCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAA
TTAGCCGGGCATGGTGGTGCATGCCTATAATCCCAGCTACCTGGGAGGCTGAGGCAGGAGAATTGTTTGAACCAGGAGGTGGAGGTTGCAGCGTGCTGAG
ATCGTGCCACTGCACTCCAGCCTGCGCAACAGAGCGCGACTCCATCTCAAAAACAAACAAAAAAACAGCCAGGTGTGGTGGTGTGTGCCTGTARTCCCAG
CTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAAAAAACAGAGGTTACAGTGAGCTGAGATAGTGCCACTGCACTCCAGCCTGGGTGACAGAGC
AAGATTCTGTCTCAAAGAAAACATGAGGAGTGGAGAAGAGTGTGCCCAAACAGAACAGTTTTCAAGACTTTCCTTGGAACAGGTTTCTTAGAACTGTGGG
GTCATGGCCTGTTCTCTTCTGTGACTGATGCAGGTGCTTGGCTGGTTACTATGGCGACCCCATCATTGGGTCAGGAGATCACTGCCGCCCTTGCCCTTGC
CCAGATGGTCCCGACAGTGGACGCCAGTTTGCCAGGAGCTGCTACCAAGATCCTGTTACTTTACAGCTTGCCTGTGTTTGTGATCCTGGATACATTGGTA
AGTCGTGTGCATACTTTGGGAGGCAAAGAGAGAGAAAAAGATGTCTTTATGAGTTCATTGTTAATGAGAAAAAAAGATGCAAAGTGAACCAATTAAGTCT
ACTTTTATAATTTTTAATTAAAAATTAGAAAAGATGCTCTTTTCCTATTTGGCACATGGAGTGGAGTCAATTCATATTGAGTCTCTGATAAGAACGTTAT
AACACAAAGCAGGAAAGTAAGCTCGTGGAAATCTAGAAACCCTGTGGAACACTTTTCTGTTATTAAACATTAGAAAGATTAACTTAAGTTTTACTCSTGC
CTTTCTTTATCCAACTCCTAGCAAAAGTATCTCAAAGCTGTGAGGTTACCAAATAGTAGTCAGAAGAAAGAAATAATATCATCCAGGGAATCACAAGATG
GCCGAATATATTCTTCACTGTTAATGATACTCACATTATCTATCAAGATTCAATTAATCTAGCTGGGTTGTTAAAAACTCCCTCTTATTTCATCCTTGAA
GCCACTGTTACAAATACTAATTATGTTTATATGTAACTCAGTAAAATTTTTTTGCATATAATTTCAGAATTTCTTAGGGAAATTGGTCATCATTAAAGAT
CCCATTTTTCAGGTTGCTCACAGAGGAGTGGTAACTTTTCAGTTTCTGTAATTCTTTGTTTTGTTTTGTTTTTGAGACGGGGTCTCACTCTGTCACCCAG
GCTGGAGTGCAGTGGCACAATCTGGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCAGCCTCAGCCTCCCGAGTAGCTGGGGCTACAGGC
ACCTGCCACCATGCCCCACCACCACGCCTGGCTAATTTTGTTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCC
TGACTTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCAGCCCACTTTCTGTAATTCTTGAATTAGGCTGG
GTGTGGTGGCTCATGCTTGTAGTTCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTAAGAGACCAGCGTGGGCAAGATGGCGAG
ACACCATCTCTCCAAAAAAAAAAAAAAAAAATTTTACAAAATTAGTCAGGTGTAGTGCCGCAAACCTGTAGTCCCAGCTGCTGGGAAAGCTGAAGTGGGA
GAATTCCTTGAGCCCGGAAATTCAGGGCTGCAGTGAGCTATTATCATGTCACTGCATTCCAACCTGGGTGATAAAGCAAGGCCCCATGTCTTAAAAAAAT
GTAATCCTTGGATTAGGATTTCTACATGAAGCTATGCTTTACATTGTTAGTTTGCTCCYAACATGCTCCACCCCCATGTGCTCAGAAGCTAAAGTCTCAT
GTGCTAGGACCTAACTGTCCACAGCCGCTGTGGCCTCTGGGGCAGTTGCAACACTGTTAGAGACTACAAAACATTAGATTGGTGCAAAAAGTTACTATGG
TTTTTGCCACTGAAAGTAATACTGCCTTCCTCTCACAACTCAAAGCCTATTCTTTCCCCTTCAGATGTGATCACCCTGGGCTCTTTAAACAGTGCAGTGA
AGATGAAGCACCGCCACGATCAGCTCTCTCTAGGCATGAGTGTCGGTGCACTGGTGAGCTTTCAGTCAATAAGCTAAACATCTTGTGTTTGGTTTTATCG
GGTGACAGGTTCCAGATGTGACRACTGTGCCTCAGGATACTTTGGCAATCCATCAGAAGTTGGGGGGTCGTGTSAGCCTTGCCAGTGTCACAACAACATT
GACACGACAGACCCAGAAGCCTGTGACAAGGAGACTGGGAGGTGTCTCAAGTGCCTGTACCACACGGAAGGGGAACACTGTCAGTTCTGCCGGTTTGGAT
ACTATGGTGATGCCCTCCRGCAGGACTGTCGAAGTAAGATGCACATTTATTCTGCCCACTTCTTAGAATGACTTCCACCTTTTTTTCATTATCAGCAGAT
TTTATTCTTCCTGTATTTATTTCACTTGGGAAAACACTTGTTCAGAGAGGTAAAATTTCACTTTCAACTAAGGAAAGATGAGACCAATTTTTTTTTTTTT
TTTAATGAGACAGAGTCTCACTCTATCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTATAACCTCTGCCTCCAGAGTTCAAGTGATTCTCAT
GCCTCAGCCTCCCGAGTAGGTGGGATTGCAGGCACCCCCCACCATGCCCAGGTAATTTTTGTATTTTTAATAGAGACGGGGTTTCACCATGTTGGTCAGG
TTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCGTTGCACCTGGTCATTTTTATTTTT
TTCTTTACATCCACATTTTCTGGCAGGAGTGAGGTCTCAAGATGTGACTCAGTGCCTGGGAGAGATAACAGGAAAGAAAAACCATGTAGCTGTCCCCATG
ATAAATGGCATCCAGTAGAGGGTACTGATGGTATGCTCTGCCCATGAACTTGCTGGTTGGATGGACTTCGAAATCCTAAATACCCACTGTGGTCCCACCT
TTTCTAGTGGCATTGATGGAATAGAGCCTTCCAGCTTAAGGAAGAGAAAGAAGTAGCATCTCTAACATCTCTCTTTTGGACCTCTTTATTTCTCTCTTAC
CGAGATCAACTAGCATTTCCTCTTGCTGCAGCTGCACAGCCCCCAGGCTCCTGGCTTTGTTTATACAAACATGTGTGGAATGCTAGGGACCAGCAGGACT
GGATTCCTTAAAAGCCTTAGTAGCTTAAAGGGCTTTTACCTGCTATGTCCAACACGTTTATTACGGCTGTTCTCTGCCAAGAGTTTGAAATTATTAGATA
TCTCAATTCCCACTGGCATTTTTTAAAATTATTTCCAGTTAAGCCTTCAATTTTAAAATGACTCACCAGCATCTTGTCAAATCTGTGTATTTTGAACATA
CTTTTAGGTGAAATGTGTCATTGTGTGTATCTGGGAAATGTCAGAACTGTGTAAGAAATCACGAGAACTTCTAAACAGTAATTTTAGCTTTATTTTTGAA
TCACCTCCATTTCTTTCCTTCTTTGCATTTCAAGGTCAAGATGTGAAGTGGGAACATCTTAGCATTTAGATGTGGCTAACATCCGCATGCCTGTGTATTT
GGGAGTGTGACAATAAGTAAATGTGATGTTCTTTTGCAGAGTGTGTCTGTAATTACCTGGGCACCGTGCAAGAGCACTGTAACGGCTCTGACTGCCAGTG
YGACAAAGCCACTGGTCAGTGCTTGTGTCTTCCTAATGTGATCGGGCAGAACTGTGACCGCTGTGCGCCCAATACCTGGCAGCTGGCCAGTGGCACTGGC
TGTGACCCATGCAACTGCAATGCTGCTCATTCCTTCGGGCCATCTTGCAATGAGGTGAGGGGCTGCTGCTGGGGATGATGCCTTTATGAGCTCAGGTGTC
AGCCYATGGTGACTTTGCCCCAGTTAGAGCAAGGCACCAGGGCACACAGCTTGAAACACAGCGTGGCCTGGATCTTAGCCCTCATTTGTACCCCTTGGCT
GGGTCTACATAACTGTGCACAGAGTCCCCATCAGACACATCCATAGCATTTCAGTAGAGGGTCCCAGCTGCAGATGCAGACTCACTTAACAATAGACAAG
GGTGTGCTAYTTCTCTTCAGTACCTGGGCGCTGAAGCAGACTCTTTTCTTAGCTTCTCGAAAGGAACCAATTAGCCATACCCAGCATTGTAAAAAGTGCT
GTTGTTTCCTGACACATGCTAAGGAGGGCATACTCCCTAAGTCAGGCGAGTCAAAGGTGGCCCAGGATTGTGGCTGATCTGTGAGGATAAAAGTGAGGAA
ATATGTAAATAAATAATAACATGCCACAGACCTTTCCAAGCCCTGTTGCAAAAGAGCACTTAGATGCTGGCATGGGGCTCTCGACACCTACRAYTGAAGT
GGGAGTCCCTTTTCCTAGTCAATGGAGACCTTCTCAGGTAAACAGTTCATTCCTACTTCTAAGTGGCAGCTAGAAAAAAAAGATGACAACTGGCTTCTGG
CCTGAAGCCTGCTTGACCAAGGTCTGTGTTCTGGCCGCAGTTCACGGGGCAGTGCCAGTGCATGCCTGGGTTTGGAGGCCGCACCTGYAGCGAGTGCCAG
GAACTCTTCTGGGGAGACCCCGACGTGGAGTGCCGAGGTGAGTTGTGGGCGTTCTYGCATTGACTTGATCAGAGAGTGGAGGGAACTGGGGTTCTACAAG
AGCCTTCTGTAAATTATAAAACACAGTACAAATTAACGTGTCTATAAGAACCTGTATTTAATTGCAAAATAAATTAACACTGATTGTTTAAAAAACAATC
TAACAAATCTAGCCCTGCCCATAAGTATAGGTAGTCAAGAGTGGATGTGCATACTCTCCCGGCCTCACACCCTGGGGTAAAGTTTGTTTCTGTGTGTAAG
CACACACACACACACACACACACACACACACACACACCACAAATACACACAGAGCTGCTTTTTAAAATACTTTTAACCAAGGTGGGACCATGTGAACCCT
ATGTTTGGCAAAGTGACTTTTTATCCCCTCTGAACAGTATTTTGTGGCCAACTTCCTTGATGGCACAAGAAGAGGTAAATGGTTATCCTAGTAAGATCAC
TGGATTCAGTGGATCAACTAGACTCTGTTGACAGTTTAAGCTCTTGGCGTATGTGTGTAAGATAACATCCCCACCAGTGAAAACTGGAGGGCAATGTCAT
GGAGACTTCGTGCACAACAAAGGGCTCCAAGGTCAGGGGCTCCAAGTCAGTTTAATGTGAATAAAACCCAGATTTTCACCTAAGCTTATGATTAAACAAA
CAAACAAAAAAAGATGGAAATGACATTTTCTTACAAACAAAAACTTGTTAAAATTATGTGAATCATCAGGATTGCTTGATTTTTATGGTATTGCAGTTTT
TTTGACCTGGAAAATTATTTTTCAGATCTTAAAGTCAAAATATGGAAAAGACTGAATAGGCTGTTGCAACTCTGTTTTTATATTCTTTCTTTCCTACTTG
ATTTTCTTCCCTGTTTTTAATTGATCATTATGGATAAAAATTTTCTGTAGTTTCTTAAGTGCTCTTTSGTATATTTGTTGCACATCTGAAATTATAGGTC
TCTGTTGGACTCTTGAATTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCTAGGCCGGAATGCAGTGGCATAATCTCGGCTTACTGCAACCTCCA
CCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAATAACTGGAGTTACAGGCAAGCGCCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAG
ATGGGGTTTCACCATATTGGTCAGGCTGGTCTCAAACTCCTGWCCTCATGATTCACCCGCCTCGGCCTCCCAAAGTTCTAGAATTACAGGTGTGAGCCAC
TGTGCCTGRCCAGGACTCTTAAATTTTTAAAATGACCGTTTTCTTTTTTTGGACACAACTACAGCAAGAAATAATACAGATCTTCAAGTTGGCAACTCAT
TCAATATCTCCTACAGAAGGTCAGGAACCTAGAAACTGTGTTCCTTCAGGGTGCAAACCCATGTGTTCCTTAACAGCAGAAAAAGGTCAGTGGGCAAGAC
CAGAACAAATTAGATATGATTTGTTTTTTAAGTTGAGGCTTAGCCAGAAGGGTTTGTATGGACCTCTTAGATTAAGGTTTGTTTCACAGTGGGGATAATG
TTTGCTATGTCAATAAACAGGTACTTTTCTTTCATCATTCTCCAAATTTGGTTCTTAATGAGATCTGACATCCCCTCTTCCATTAGAAGGTATTGAAATC
CAGTGGACCAGTTTCTCCAAGATGTCTCTTGAAAGTAAAACTCTGCTTAAAATCTGTTTTTTCCAGGGCTCTAATCACTACTCTGTTAAATTCCTCAAAC
TTGTAATGCCCCAAGGCTTGATTTTTTCCAGATAATGGCTCTATCGTTGCACATACCCTGATTCTGTCAGCATGTGTCATTGGCAAAATAGCTTTCTCTG
CCAAAGCTTTCTGACCTTTGGCTCCATCTTAGCTTTGTTAGCAGGAAAGGCCTGCTACCCAGAGTCAGAGTCAATCAGAGAATTGTTCATGTGGTCCTTA
GAACTTTACTCCTTACCCTTTTATCTTTTCTTTAAACTTTCGCCTCTAAATCTGCCAGGGAAATTGTGACTTATAGAAACCTTGTCAACTTGTTTGGGTC
AAAAGTTAGATCCTGTTTTAGAAACTCTGCAAAGAGTGAGATTCATGGCATCATTGTTCGCCAACTTCTTTGTTCCTTTCATCCAGAAGAAAGGTCAGCT
CATTACRTAAGAAACTTTTCATCAGGAAAAGCAAACAACYGATAAAAAACAGAAACTAAGTATTCTGCAAGGAAACCTGGTTTAAGGAGAATGTATTGAA
ACTGGATATGTCTGTTCCTTTTTACTCCTCCCTTTGGCATTTCCTTTTTTTTTCTGTAAGATAATCATAGAAATTTAGTTAATGGAGGAACTACAAAGAT
CACATGGCTTTATGGTTTGCCTATTATGCTGGCCAATCCCGGTGGCACGAGGGCAGCAGGGATGCAGACAGATGAAGAGGTCCCATAGCCAAGAGTGTAG
GTCCTGGAGCCAGACTGCCCACATTCACTTCAAGCAATTGGTACTCCTGTATTAGAAGAAAACAAAGTCCCTTCTCATCTCCTCACCCAGTATACTCCTC
TTTTTACTCAGCTTGATAGGAATCTTTCCAGTCCTCTCTGCATTTATATGTATACATCATTCGTATTCGTGACCCTAATAATGATACCCAGTCAGCTCAC
ACCAGCAAGAAAAAGTATTTTTCAAGCCCTCTGGAAGCATTGGAAGCTCCAAGTGAGCATAAGTGAAAATACCCTAAGAGATACTTCCAGGTTCTAGATC
CAGGTGTTTCATTTTCCCCTTGTTTTCCCACTACATTGTCATCTCTCCAACCTTATCTTTAGTTTTGTTTTTTTCATGGAAGACCAGAAAGCCCCTTTCC
CCAAAGTGTTAAAATCTGGGGTGAAGGCAACTGACCTCATTGCATACTTTGGCAATTCAAAGTTATAAAATGTTAGCCGGGCACGGTGGTTCACGCCTGT
AATCCCAACACTTTGGGAGGCCAAGGCGGGCGGATCACTTGAGGTCAGGAGTCCGACACCAGCCGGACCAACATGGTGAAACCCCATCTCTACTAAAAAT
AYGAAAATTAATCAGGTGAGATGGCGCACACCTATAATCCCAGCTACTTGGGAGGCTGAGGCATGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGT
GAGTGAGCAGAGATCGTGCCACTGCCCTCCAGCCTGGGTGACAGAGCAAGACTGTCTCAAAAAAAAAAAAAAAAAAAGAAGAAGAAGATATAAAATGTTG
GGGCATCTTTATTTGGGGTGTTAAAGTAGATACTGTCTCTCCTTTGTGCCCACAGTGGCTGAGCTGGGGTGGGGACATTTGGAAATTTGGGAGGAGGGGA
GTATTTTGGGTCATCACCATAATGGGGTCATTGCTATAGGCACTTGGTATGCAGGAGCCAATAATAATAAATGTCCCACAGTGCTTAAGGCAGTCTGTCA
AACAGAGAATGTGTCGGATCCTCAATGCTTTTAGCACTCTTTGGAGAAAGCTCATAACCTACAAAGCACCCAGAGAGAGTGAGAATTGATTTGAGTGGAC
AATGGGGGATTGATTCATGGCCAGCTATGGGGTCTGGTGCAGACAGGGTGGCAACAGGAGTAGGACCAGTGTGGCCTGTGAAGGCAGGGGCCAAGATGCA
GAGGCAGACAAGGCTCTTGGTTATGTTTGTGCTGGAATGCATTCACGATTAGAAACAGGAGCACAGGGGCTTTCTGAAGGGATGGGCCCAGAGATCAGCA
GGGACAAGAAGAGGTGTCATTCAAAATTAGATGGAACTATGCAAAAAGAACATCAGCTCTTTTCTCCAGTTATGTAATTGCTTGACAAATATGTTTTCAG
TTGAATTGGTTGTTAGAGGGCATAAATTTAGACTTTCTGATGCCAACTAGCTAACAATATGCTTATAGAAAGATTTAAGTCCTAGCTAAGTATTCTCCTT
ATGGAAAAAAAGAATGTAGTTATGTAAAAGACAAATGAGTTGAGCCTCCAACTTACAGATTGTTGAATGTTCCTATTGTCCAGGCGGGTTGGGGCTGTTG
GTCGATGGTGCCAAGCCTGAACAAGCCCACCACTGTGCTGGGATGGAGAGGGAATCTCATCCACCCACCATGAACGTGCTGGAGAAAACAGCCTGGAGCG
CTGCATTGTCCTCCTCAGGAGTCAAAGAGTCACAGGAGGAATCTTTCTGTTGATTCATAGATAGCAAAAAGGAAGGGTAAAGTTTCCATTTGGGGCCTCT
GGCTCTTGGAAAAGGGCAGTGTCTCTAAACCCAGGCAAACGGTAAATGTGGGGCATAGGCAAGAGGGTCCGGGTAGTGGCCACTTCCCCATCATGCTCGT
TTCTCATTTTGTGTTTTTTAGTAGAAAAACACAGTGTGTTCTTTTGCCCAGACATTAATCTTTAGAATGCCTGTATTTTCTAATGTTGGGATTTCTTTCA
CAACCACCCACCTTAATATTTCCATTGTGACTCAGAAAATCAGACTTCATTCGATTCTTTAGAGAACTATAAATACTGTTGTCAGTAGAGTGAAGTCTTG
TCTTATGTAATCCTAATTACAGAATGTGTTCTCAGAAGAGGTAGGCTAGACCAGAGCTGGGCAGACCACAGGCAGAGGCCAAATCCAGCCCCCTGCCGAT
AGTAGCTAATATAAGTTTTACACCCACTTGTTCATGTATTTTCCCTGGCTACTTGTGGGCAGCAATGCCAGAGTCAAGTCATCATAACAGAGACAGAATG
GCCTGAAAGCTGGATTTACTATTTCAACTTTTACATTAAAACTTGATGACCCCTGTGCTAGACAGGCAGCTCATTTCTGCAGGTAAAATTATATTCATCT
CCCAACTTTCATTCCAAAATTGAACCTATATTACTGAGGCCAAAAAGGGAARAGGATAAAAGAGAATGTCAGAAAAAAGAAAATCCCATGTAAGAAATAA
AAATTATTTAAATTGCCCTTGCTTTTAGTAAATAGAAATGCCTAAGTAAAGTATCAGTAAAATTCTTGGCATTGCAGCAGATCCTGGAGTCCCACGTTGC
TTTGAGGCAAGGTCCACGGCAGAAGAAAACCCCATTACCTGAATCTTAGGGTGTAGCAGTTTCTCTGTCCCAAGGCAAATTTAAGTTKCCAACAAAAAGG
AGGATAATCAGCCCAGTACTGAGTGACCAATGGTATAGAGTGGGGAGTGGACACAGAGAGAACAGCTGATACTGTTCTGCCACTTGCAGGCTATTTGGGG
ACATGGGGTACATAAAATGAAGTAACAAGATAGCAGAAAGTAAGTGGCACAAACTTTTCAGTTGTCAGAAGAGGGCAAGATCAGTAGGAAATGGAGTCAT
TAGGGAAGGGTTTGCAGAAAAGATTAGCTCTAGTGGCCATCTACAGAGAACRTGCTGAGTGCCAAGCACTTTTAGGCATATTATATAAGTATTCTTAATT
TTATCCTTGCAACAAAGAACCTATGGGGGTAAGTATCATCTCCATTTCACACTTGACTAATCTCAGACTCAGAGAGGTTAAGGGACTTGCCCAAAGTGAG
GAAAGAACTGGGATCTGAAGCCAGGCCTATGTGGCCCTGTGTCCCAGCTGTTTCCACAAGCCTGGGGGCTCCTCATTGACAGCTGGTATTTAGAGAGGAA
ATTATCATCCAAGCTAAAGGACAACACAGACAACATGAAGCAGCATGGCTCTGGGAGGTGCCCTCGGGAAACAGTCTCAGCTGGAGAGTCATGGAGAGAT
TTGGTTTCACCAGATTGTGTGAAGCCTTCGGTGCTGGGCCATTAAGGGTAGACTTTGTTCARTGGGCACAGGAAGGTCTGGAGGAGGAGAGGGAAGGATG
TAAAGGAAGCAGGCAAGTTAGGTCTATGTGATAAATGGGTACATAGACTATTTCCCATTGTGGCATTGACTTGCTAGTGTTTTCCTCTGGACCTTAGTAT
CTTTAAAATCGGTACAATAGCTTTCATTTACCTACTTCTTAACAATTATGTTTGAAATGATAAGAAAACTTAGTAAAAATAGAGGAAGCCTACTGGCCAC
AGAACAGAGAGTGTGTTTACAGATGAAAGTCAAATTATTATGGCTTGTTAAAATGAGTATCTCATTTAAAAAATACTRTTCTTCATCTTCATGATTTGTT
CATCTTAAAGATTAGGCAACAACTTTTGCTATRTATGCTCTCCTTTCCAAGAGAAAGTTTCTGATTCTCTGCCAAGTAATCCCATTTCTTAAAATAAGAC
TGCTTTATCTAGGTCATTTGGATTCTGATTCCTTTCTCTTAAGAGAGAAGGAGCCCACTGGACCTCATCAGCTGCAGCCTGAATAGTCAGTTCACAGTTT
TTCAGATCCTGGTGGGTGTGTGAGATGATGGGAGAATCTCCTCCATACATTAGTGTCCATGAAGTTTTACTAACTTGTCAAGTGTGAACTGACCTTTCTG
CTTCAGCCACGTGAGTGTGGGAGTTTCACTGAAAATATTCTTGAAGTGGAGGGGGTCTTTTTACAAGGTTGTAAAATGTGGGCCTTCTGGTGCCTGCCTC
TTAGGTGACTCCAAGAGAAGCAATTCTGGAAATTCAATAGCCAGGGAAGGAAGCACATGACCAGGGGCTTCAGCTTGAAATCAAAACCTGGTACATTTGA
GACTAGTTATTTGGTGCCCTCCCGGAGAGTCAGGCCCAACTTTTTCAATAATGACACTGCAATCCGGTCATCTGTGAGATTTGATGGTTTACTTTTCAGG
TGGGAGAAAGGAATGTTGGTCAGTTTGGCTGAACTGGTTGTTGACTTCTGGAGAGAGCCGAAGCTCTGCTAGCTCATTGGAACTCTTACCCAGGCTAATT
TCCCTCGGCCAGATAAAGAGGGAAGMCTTATCTGCCTTTTAAGTCTTTCAGGGTTGGGCTGTTTTCCCCTTAAAGATGCCTATGACAGAATGGGAGCAAG
ACATGTCTTTGGCAACGAAATAAATGAAAAATGATCACAGAAATTAAAAATAAATCAACGTATGCATGCATCCCTTGCCCCAAGCATGAATCCAGCAAAA
ACCTAATGTTTAGGACTGAACAAAGGTATACCTTTGCATCATCTATGGGAAAGAAATAATTGTCTAAGCAAACTATAAGCATATGCAACTCTGCCTCAGT
TGTGTCAAGTCTAAGGGAGATGGGTGAGTAGGCCCCAGAGGGCTGCCTCACCCTGACCACTGGCTGGTAGACAAGGTAAGTTTTATTACAAATGGCATCA
CTTCTTCCTCTGTTACGTAAGTCCTGAGATTTGTGCATCAGCCTACATTGCTGAACTTCCGAAGTCGTGATTCTGCTCCAGCTCCACCTTTTGAAGGGTA
TCTCTTTCTCCATCTCTCACACAGACACACAGATACACACACACGCACATGCTCTCTTTTTTTCTCTAATATACAGAAGGCGGGCAGAAACAGCTGGGAA
AGTAACAGTCAGTGCTCCACAAAACGGGGTCGCGTGACTGTGAACATCAGTATCTCCTGGGAACGTGATAGAAATAAAAATAGTTCTGGGCCCCACCCAG
ACCTACTGAATCAGAATCTGGGGATGGGAGGAGAGTAGAGAAGCAATCTGTTTTTTATGAACCTTCCAGGTGATTCTGATACCTACCCAAGTTTGAGAGG
TGAGGACCCAGGTGACTCGGGGGTAACTTTTAGCTTTCTGGAAGATGACTAAATTTTACCAAATGATAATGGAAATGTATTCCTAAAATCTAAACAACAT
AAACTCTTAAGGTACTAAGTTATTTAAGTTATTTGTAAGTTATCTAAGTTCTTCCTAATCTCAGAAATCGATTAATGTAGTGGTTTTCCCAAGCCTTTCT
CATTATTTCTCTTGGGTGTCACTGGCATTGACTTCCACTAAAAAAAGATCCCATGGTCAAATGACTTTGGCATACATACAACTGGATAAAAACAATATAA
AACAGTTTTTCCTGCAGAACTCTTCTGAGTCTGTAATATGCTGACACTTGTTTTTAATCTTCAAGATAAGGATACAGAAYTTTTCATCATGGGATAGTTT
TTTCAAGGAACACATCATAGAACGTATGGTCTACGGATCACCATTAAAGTTATCCATGGTTTGCCTAAACAGCTTCCTGATTCATTACGAGAATATTCCC
CAAACAAGAAAAATGAAACATACTTTAAGTACCTGGAAAGGATCTGTTTTTTGAAAAGCATACACCCAAGTTTTACTTTTGAAATCCTAAGGTCTTGGTT
TTGAAAACCCCAGGCGCTAAGGAAATTACATGTTTTAAAATCCTAAAGGTTGAGGAATTAATATTCTAAACTTCAAATTTTTGAATAATCATGACGTTAT
TGGCAAATACATATAAATAAACATATAACCGGAACACGTTTTTCCCCTTTATCCAATGGAAATAYGATCAAGCATCACTCTTAGCAGAAGACTACCAGAC
ACTTGTAGGGACACGAAAAGTGATAATAAAAACAATTTATTTATTGAATGCTTGCTATAGACCAGATGCTCTTCTAAGCACTTTGTAATTATTTTATCTT
GAAAGCAGTCCTGTATTTATAATCATTACCTCTTCTTACAGATGTGGAAGACGTGACTCAGTTTCCTGATTACCCAGGGTCACATAACATGTGTGGAGAA
GGCAGGATTTACCACCTCAGTCCGCAGTTCATGCTCTTAACCATAATGCTGTACTCCTCAAACCTGCCACTCGAGAGCTTGGAATGTAGGGGGAGAACAA
AGACAATAAAAAGATAAACTAGCAATACAAGGCAGGATGTGGTGAGGGCCAAATGAATGGGCCACAAACACACACCTCTGGGTTGAAAGGATGGTGATGT
TATAGCAGATCTCAGGACCCTCAGTATAACTGGTTCTGGGAGATGTTCCATTAGAAAGTTTTTCAGAGGAAGGCCGGGCGCGGTGGCTCACGCCTGTAAT
CCCAGCACTTCGGGAGGCCAAGGTGGGCGGATCACAAGGTGAAGAGATGGAGACCATGCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAA
AATTAGCTGGGCATGGTGGTGCATGCCTGTAGTCCCAGCTATTTAGGAGGCAGAGGCAGAATAGCTTGAACCCGGGAAGTGGAGGTTGCAGTGAGCCGAG
ATCATGCCACTGCACTCCAGCCTGGGAGACAGAGTGAGACTCTTCCAAAAAAAAAAAAAGTTTTTCAGAGGCAAATCACAGCTATTGACCCAAGAGTGGC
TCACACCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTCGGGAGTTCCAGACCAGCCTGACCAACATGGAGAAACACCGTCTC
TTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCCGGGTGTGGTGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGGGAATTG
CTTGAACCCAGCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGCCATTGTACTCCAGCCTGAGCAACAAGAGCAAAACCTCCGTCTCAAAAAAAAAA
AAAAATCCGAGAAAGCATGAATCTGTTGTGCTTTGCCACAGTTGACATTGCACTTCAGGAGGATTATTTTCTTTTATGAAGGTATGTAAGTGTCCTTGCA
TGCCTAGACTAAAATGAGGTTAGGGCTTCATTTGGCAAAGACGTTTGGATTCTGATTGCAAGTTAACCCTGAGTCCGATGCTGAAAAACGAAAAATGGTT
TAAGATGTGCCCCTGCCCTTGGAGTCCACAATCCAGTTAGGGAAATAAGATAGTATATTCTTTATTTATTCCTGTCTTTCCTCAGAATGGGTGGAAGCCC
AGCGATAAGATGTTAGCATAAGGCCTTTCGTAATTCAAACCCTGTATAAATACTTTCAAATGTCAGATGTTGATATAAAAATGATTTGGTCACCTGAAAT
TTGGGAATCTAAGCCAGGGTTCAAGGGCACAGCCACTGTGCTAAGTAATCTCAGCCACAGCTACTGGCCAAGAACACATTTTGTCCTGTACGGCACGTGA
TTTTCCTGTGCCATTTGGCTTTGCATRAGGTGCCAACCCTATTGGGCCTGTGAGACGCTGAGACTGAATGGCTCCCAAGATCCCTGCTTGTAGTACTGGC
AGTGGTCATCACAATGGCAGACACCCCCAAGTTAGATTATACTTAGTTGAAAGCCTTTAAACTGGATACTTAGAATTCCTTTGGGTTTTGTTTTGTTTTG
ATCATGTTTATTGCATTTCATCAAGTATGTTTTGTTGTGAGATAGAGTCAGGTACGTAARGAGCTTCTCATTTGTGATGTATCCGATGCCAGGTGGCACA
TTATCAGGATGTAACCTGGATTGTTTGTACAGACATGGTCTGTGGGGAAATCCTAAGTAAGGGGGAGGCAAAGGCAGGACGGAGGTGAAGAGTATAGACT
CCGGAGTTGCAAAGAACTGAATCAGAATTCTGGCGTGGCCTTTTCCTTGCAGTGAGACTTGGGGCATGTTACATAATCTCTCTGATCTCTSAGTTCCCAC
ATCTGTGAAATAGTGATTATTATAACACGTATCCCATAGGGTTATTGTGAGAGTTAAATGGGATCATTCATATAAAACATTTCTGTTTAAAGTATTATTA
CTGCTAAGAAGGGGTTAGCAACCACTGAAGTCACGCATGTGCTAGAGGAAGCTGCTACAGTCTCTACCTGAGCCATTGGTCAATTGTTGTCGATGGTTGA
CACCTTCCCATTTTCACAGTGAAGTGAGTATTCTAAATGCCACATCTTGTCACTGAGGTTCATGATYAAGTAGATCAGCTAGCATTGCTTATTCCCTTCT
AGCCTGTGACTGTGACCCCAGGGGCATTGAGACGCCACAGTGTGACCAGTCCACGGGCCAGTGTGTCTGCGTTGAGGGTGTTGAGGGTCCACGCTGTGAC
AAGTGCACGCGAGGGTACTCGGGGGTCTTCCCTGACTGCACACCCTGCCACCAGTGCTTTGCTCTCTGGGATGTGATCATTGCCGAGCTGACCAACAGGA
CACACAGATTCCTGGAGAAAGCCAAGGCCTTGAAGATCAGTGGTGTGATCGGGCCTTACCGTGAGACTGTGGACTCGGTGGAGAGGAAAGTCAGCGAGAT
AAAAGACATCCTGGCGCAGAGCCCCGCAGCAGAGCCACTGAAAAACATTGGGAATCTCTTTGAGGAAGCAGAGTAAGTAGTTAATGAGCCAGAGGAATTA
CTCATAAAGCTGAAAAAATATTGTGAGTTAACAGCAAAGATTTCCTGGCATGGTGCTTCCATCAGGAGGTTTTGTTAGTCCTGTGGGTGAGAACAGATTC
TGAGCCATTTATTTTCCAGCAGTCTTGACTGGGCATTTGGGTGAGTGAACGTTGGCACATCAGTGGGGACCAGCCTTCTGGAGGCTGCAGTACAGAATAT
GCAAGCATTATATTCAGTGCTCCTCCTTGCAAATCATGTTCTAAGTCAGTAAAATGGGAGGAATGCTGGATTTAGAAGACAAAGATCCATAATTGAGTCT
TGGCTCTGATGCTAGGCTTGTGAACTTGGATGACTCAATTCCTGAGCCTGTATTTTCTCTCCTGTGGAGAAGGGGTAGGATAATATATGCCATTACCTTA
TGAAGTAATGAAAGGATTTATATATAAAATAACAACAGGATTGCAGAAAATTATAAATTAAGTATTGCTACTATGGGGGAAATTCCATTACCTCAAAATA
AGACTGCTTACTTCAAGTTTTTTCTGCTTCTCCGCCATTAGTCCACCAGACCAGTGCTTCATTCATCTAGTTATAACAGCTGCTCTATGCTGAAAAGTCC
TCATCCCACCCCTTCTCTAGGTAATCTTCCCTCTGATTGGACAGTGTTTGTTAGTGGAAGCCTAGAGAATTGACCTTCTCAAGGATCATTTATCTACCCT
TTCTCCTACCTCCCCTCTCTTGCCCCTAAACWTCCCAACTCCTTTTGCCAAAAAGGAACCCCCAAAACAGCACAATAAGACCTAAGTGCTAAAGGACAAA
AAYAGAAAAGGGTATGAGGCATCTGTGCTTCCCTAGATGCTATGGTTTTTTCACTGCAGACTCACCATCTAGGCCTGAGGGGACTGCTTCACAGTTAAAT
CCTGCACACTGAGGTGTTTATATGACGAAATGACAGTAACATTTTTTGTGTGTGATGAGACTTTAATCAGCACCTTTAAGAAGCCAGAGGGACTTTTCAT
CTCATACCAGGCATGAGTAGCAGAGGACAGCTGACATTAGCTCAAGCGACTTGAAGGAGGTCCTTCCTAGACCTAGATTTAAAGTAACTGGACCTTGATG
TCAAGCCTTGGGTTTTATGCCCAAGACCATGTAGCTGGCCAGAGTGTTAGGAAACGTCTGATGTAGAGTGACAATGCATTTAGTGAGGCATTTTACCTCA
CTGAAAAGACTAAGCCTCCTAATGTGCAGAGATCACAGTTTTGGCAGGCCGTGGTCCGAATGCAAGCCCATTTAGGAAATGATCCTTGGCCTGGGTCTTA
GGCATCTCTGGGAGGAAGAAAAAAATCTGGTGTCCTTTGAGAGCCTGCCAGAAGAGAGATTACATTCCCAAAACAGCTCTGTTTCTACCGTCACTATTCA
TTTAACTAGACAGATTGTAATAATCACAGGAAAACTAGTTCCATTACTCTTTTTTTTCAACATACTATCCAAGGATACATGTTTTAGGAACCAAAGTGGC
CTTATTTTAAAATACGATGTTAGATTTGCTTGTTTTAAAAAAAATTGTATCATTTTATGAGACCTGAGAAGAAATGAAAGCCTTCTGTGAGTCATATAAT
TAATAAAAGCAAAGCACTGAAAAAAGAAACTATGTATATTAGCCTCAGGAAAAAAAGGCACTGAAATGTAATTTAATCTACCATTTTAAACCATCCCTTT
AAGTACTTTTTCTTTGAGTTGGGTTATAGTTTTATCTCAGCCTTACATATCATTTTTCTAATGGCTCCCAACCTTTCAGCATCTTTACATTTTCCTGGTT
TTTTATACTATTATATCGCCAAGAAGACAATTACATTCAATTAGGTGAACCAGTAATACCCAGARGTAAAATCTGCTCAAATATTACTTTCTTTACAATA
CACATACAACCCTACCCACACCCACCTGGAGCACACTCGCATGTGCACACACACACCCATATCCACACTATGTACACAATAATATACAAATAGATGTCAA
AAGTACGGCTTTGTAGGTTTGAAAGTACAGAACAAAATGCAGTTTAGATTCCAAATTAAATACTGTGAAAGCTAAATCTTCTTATTTCATTCTTAGTAGA
TGCTATTTTCTTATAAAAAATAAAAAGGCTGTTGGTAGAAGGAGGCCCCTCTGAYGGAAGAGAGGAGTGTATGAAAGCTGATACTGGTGGCTCCTGTTGT
CTTTGTGGCAGGCTATAGGGCTTCCCCTCTGCATGTTCCATCTTGAAGGAGATCCCTGAGGCTTAGGGAAGAATGTTTTGGGCTTGTGGCTGGGAGGCCT
AATTGTATAACTGGAGTCATTTATGTCTTCAGTTTTCACAATTGTAAGGGCTTGAAGCTGCCTGTGAATAGAGCCAGAACTCCACACTCTGACCTGTGCT
CATCTTACAGCAGAAATTTGGAATCCCTTAAATGGCTTGTCTGCCACAACTCAGCTGAGTGGTACTTCTGTGTTTCTCTCAAAAGTCATTGAACAAAGAA
AAATTGTTAGATTTAATACTATCTGTTATAAGGAAAATAAAACTAGCACTTAGGGATGAAATGTTACAAATTACTGAATTGGTTTGAAATTAGTAATGGA
TACAGTACTAGTAGAAAATATGAAACGTGAAAGTTCTCCCTTGGGTTTATTTTATGTAAGYAAGCTTAACTTTCTCTTTACAGGAAACTGATTAAAGATG
TTACAGAAATGATGGCTCAAGTAGAAGTGAAATTATCTGACACAACTTCCCAAAGCAACAGCACAGCCAAAGAACTGGATTCTCTACAGACAGAAGCCGA
AAGCCTAGACAACACTGTGAAAGAACTTGCTGAACAACTGGAATTTATCAAAAACTCAGATATTCGGGGTGAGCATTTTTTGGTGCAAATAGTCCCAGAC
AATGGATTTAACGATATGTCTAACGTTTTAATATAGCACTTTTGGGGAARAAAAAAGTTTTCTAATAAATTTTAAAACTTTTGCTCATCCAGTTTCTGGC
ACAAATGAGGATCAAAGTCCCCATTTTACAAATGTGGGACTTGGGCACAGAGAACCTAAGAGACATAGCAAAGGTCCCACAGAGTGAATGGCAGTAGTTG
TATCAGAATGGTATCCATTTCCTGATTTTTTTTTTTTCCCTCCAGTTAGTAGTTTAATCCCCTGGCCTTTTCTTGGAAGGGGGTTCTTTTGAATAGTTAA
GGTATTAATACTTCTGCAAATCCTTTCACATTCAAGAATGCTGCTTGGTCAGAAAAAAACTTTTGCAAATCATTATTTATATCATAGACTGTAAAGGATC
CTCAGCAAAAAGTGAATGTAGAAATATGTTACATCATACTGTCCAACTATCCATACTGTTTTATGCATGATTGCTTTTGGACTAAAGCTAAAAACATGTC
ATGCTGTTATATATAATACCGTCATCCCTTGGTATCCATGGGGGATTGGTTCCAGGACCCACTGCAGAAACCAAAATCCACAGGTGGTCAAGTCCGTTAT
ATAAAATGGCACTTGCATATAACCTATGCATATCCTCCTATATACTTCTTTCTTTTTCTCTCTCTCTCTTTCTTTCTTTCTTTAAGAGATGGGCTCTTGC
TATGCTGCTCAGGCTGGTCTTGAACTCCTGGACTCAAGTGATCCTCCCGTCTCAGACTTCTGAATAGCTGAGATTATAGAGGTGAACCACCACACCCAGC
TTTACTTTTTTCTTTTTTTCCCTTCAGTATATTTAAAAGTAATCTGTAGATTACTTACAATACCTAATACAATGTAAATGCTATGTAAATAGTTGTTATA
CTTTATTGTTTAGGAAATAATGGCAAGAAAAAAGTCTGTACACATTCAGTACAGATACAACCATTTTTTCCAAATGCTTTCCATCCACAGTTGGTTGAAT
CCACATATGTGGAACCTACAAATATGGAGGGCTACTATATTAGTCATTTGAGTGGATCCGAATAAAGGATTGAGAAAAGTCATCTAGTCATATAATCTTC
AGGCTGCCTGAAACCAGCTATTTATAAAGAACTGGATGTTTGCTTGTGTATAGAAACAAGATTGCATGATTTTCTTAATTTTTCATTTTTCACCCAGATG
TTTGCCATACTCGAGCTGGAGTAGGTGCTAATGGGACAAAACATATTCATTGCTCATGAAAACTGTACTTCATAAATATTTTTTCTTGAATTTTAAAACT
TTACAGTAAATTTAGGACCCGAAGACACCAAATATAGACACTGCTTGGGGAGGAARCCTAGTATGATGAGGTTAACTGTGGGCAATTTCATTTCCTACCC
TAGGTGCCTTGGATAGCATTACCAAGTATTTCCAGATGTCTCTTGAGGCAGAGGAGAGGGTGAATGCCTCCACCACAGAACCCAACAGCACTGTGGAGCA
GTCAGCCCTCATGAGAGACAGAGTAGAAGACGTGATGATGGAGCGAGAATCCCAGTTCAAGGAAAAACAAGAGGAGCAGGCTCGCCTCCTTGATGAACTG
GCAGGCAAGCTACAAAGCCTAGACCTTTCAGCCGCTGCCGAAATGGTAAGGTTTGGGGATGTGGCCTTACTGCTATGGTGCCAAGCAAAAAAAAAAAAAC
AAAGAAAAACAAACCATCTTTTGTCATTATTACAATAATTTGCAAATGAATCAGCAGGACTGAAACTCCTAGGCTGAGGTCTCTGGATCCTGGAATGGGG
TATCTGTAACCAAGACAGATTAAAAGCAGCAGCATATGGGTTTCCAGCCTTCCCCTCTTCTGTTTCTCTGTGGTCCTCAACTAAAGAATGAATCATGACT
ATTCTCCCATACTGTTTTAGCTACTCAGTGACACYGCACTGAAACTTGATCCTTTTTACACTGTGGACATTTCTTTAATATTTTTTTTCCTAAGTAGAGA
CAGGGTCTCACTACATTGCTCAGGCTAGTCTTGAACTCCGGGTCTCCAGCAATCCTCCTCTCACCTCAGCCTCCTCCCAAAGTGCTGGGATTACAGGCTA
ACACCCCAGCCCACCCCCACCCCCGCTTTTTTTTTTTTTTTAAAGAGATGGAGTCTCACTACGTTGCCCAGGCTGACCTCAAACTCCTAGGCTGAAGCGA
TCTTCCCACCTCACCCTCCTGAGTAGCTGAGATGACAGGCATGTGCCACCACACCCAGCTTGGACATTCCTTTTTTAGTTTGTTCTGATTTGAATTATAA
AACCCATCTCAGTGTAGGAATTCAGARTCATTCTAGAAGGGGCTTCCATTAAAAATTAAAGGGAGCAAAAGAATTTTTTCACGGGTATTAGCTATTATGT
TCCTTTGTTCCAGTAACTTTACCTGGTGAAGATTAACCCTGAAACCAGCCTAGAAAGTAGATTCATTTCCCAGAAGCTTTTAAAAAGGAACTCTGGAGCC
AAATGAAATTGGGTTGTGAGTTTAATGAAAATCAGGCAGAAGGCCCCAAAAAAGCCTAACTGAGCCTGTTTCTTCCTCTTCCTTCCTGTGTTTTCAAGGA
AGGATACCTATGTGAAATAATTTGGAGGGTATTTTTTATAGACTAAGGTTTGTGTTCTCTTAGCCCAGAGACACAGAGAAAGTTAAAGATGGAAGGTACA
TAGGYGCAGAAGAGTTCAAACTTCATTACAGCTTTGTCTTAGTGATGCTTCCTCCCTCCTCTCATCACTTTCTCTGAAATAGACAAAATTGGTCACAATA
TAAGACAGTGTTTATTGATGCCTGCTAGGTTTCATACTCATTATCTTCTGAAACTTTATAGCAAATAGGGAGCAAATAATCTGTCATTTATTAAATGGAA
AAATAAAAGATGAAGAAAAAAGAAAAATGAAGGCTTAGAGCAATGTGTAAATTGCAGCTAACAGGAGACAAAGTTATGAAGCATGAAATGCCAATTCTCT
CCATCTTTCCCTTCAGCATTGATTCCTTCCTTACATATTGTAGTTAAAAAAAAAAAATCAGYTATCACAAACAAGTTCTGTGTGACCTACAAGAAACAGC
TAAGCATGCTAAAGGATTTTTGTCTTGAACCGGAGGCATCTCCGTGGGCGGCAGGGAGATGCATGGGCGGTGGGTGGGGTTCGGGGTTCCTCTGGCCTTT
CAAATGTGTGCCCTTCCCTGTGCTTGCTTTTCCACCTGGTAAACTACCTAGGGATTAGCAGCTGCTTCAGTTCTCTTACTGTGTTTTTGTCTTTGTTAAT
GATCCTGTGAGAATTCTTTCTGTAAGTTCTTTACTGCCATTTCCTTGTGTAGAGAGAGTTTTGTCCTTTTGTTTTTCAGGTACTTCTAGTTCTGTATCTT
TGTGGATGTTTAGCTAGAGCCATACTGTGTTTTTTTTTTTCCATGTCTGCCCCATCTGTTGAAACAAAACAGATCTTCTATGTGTGCTGTCAGATTGTTT
TTAGAAAGCAACCGAGGTTTTACACTTATGTTCTTAAGACTCATGTTTTACAGCATGCAGAATACACTTTATTTTCTGAAGCTTTTTGTTTTTGTAAGCC
AGATAAATGACTTATTTAGTTGTAATTTGAGATATAATGGAATTATAATTATYTTAAAATTATTAGGCTAAATAGTTGATTGTATTTATTTAAAAACTAC
TTTTTTGTACTTTTTAATAACAATACTTGTTTGGGAATATTCTGTTAACTCCTTTTCACTGCAGTAAATCTTTGTCTTCTTTTCAGTATGAGAATTTCCA
CAAACAGCTCTAAATGCAATTTTCTCCCTGCTCAGCCTTTTCTATCATATAGCACACTTGTATTATAATTTATCAATTTGCATTTGTATGCCATGACCAA
GTGGTGATCTTTGAGAGGTTTTGGTAGGTAAGAAAGGAGGACTCTATGCATGTGTGATGGCAGTCGGGGGTGGTAATTTGGGAACACTTCATCTACCTTT
GTTCCTTTGTTTGTACTGTTTTCTTTAACCTGTGGAATGTTTTCCCACTTCCCCTGCTCAAATCCCACCAGCCAACAGCTTCTTCAGCTACAACTGTAGC
ATTCCTCTGCAGTCTCTCCTTTGTCTACTTTCTTTCATAGTGACTGCATCTGACCTATTCTTGGCTATTTTATGTGGAATGATCCAGTCCTAACTAGATG
GGAAGTTACTAAAACGCTAGKTAATAGATCTTTTMTGTCACCATATTTACTGGAGGAGTTAACATGGTGCTGGTGCTGKTCCCAAAGATGGTTCACAATA
GSTTTTTTTTTTAAACTCTAACTGGTTAGAAAAAAAGGAAGGCATTCCTTGGCCCTTGCACTGGCAGAATTCAACTTGATATAGCAGATGTTTGCATCCT
GGGCAGAGCTCATATAGTATTTTAACTCATTTGGGCAGAAGATATTGATGAGTTGTAAACTTCCATTGTTTCCTTGGAAATAAGCAGGTTAGTTTAYTCC
TAAACTCTCTGCTCCTCTCTCCATTCTGTCTCCCAAACACTGTTTTCAAGCACCCTTGCTGAGGACCACCTACACATTCTCTGGGGCCACCCAGGCCCTG
CACAGCTGTTTTGCTGCAGCAGATTCACTATCCGAAGTATTGTGCCTGATCCTTGGCTTGTTGCAGACCTGTGGAACACCCCCAGGGGCCTCCTGTTCYG
AGACTKAATGTGGCGGGCCAAACTGCAGAACTGACGAAGGAGAGAGGAAGTGTGGGGGGCCTGGCTGTGGTGGTCTGGTTACTGTTGCACACAACGCCTG
GCAGAAAGCCATGGACTTGGACCAAGATGTCCTGAGTGCCCTGGCTGAAGTGGAACAGCTCTCCAAGATGGTAACTCAGTGGATGGCCTCAGTTTTTGTT
ATGYATGTTTGCTTTCAGCTGTGGACTAAAGGATCTGAAAGGGAGAAATCAATTCTAAATGCTAACTGAAATGAAAAGGGCATATCACAATCAAATATGA
AAGTTCATGTTTCTGTGAGGTCAGAGAAAGAGATGGGGAGATTTTCTTCACAGATAAAGAATTTGCTTTCTCCTCACTCAACACATGCTTTAGAGCAAGA
TGTTTAAATCTTATACTGGATAATTTGAGATAGCCATCTTACTTTTCTGACTCCAGGGTTATAAATACATCCAGCTGTATGACAAAAACTCTATACTAAG
CAATTGAGCATTTATTCTTCTAAAGTGACACACACTTTTTAAGTATTTATGTGGGCACCTGAGAAAAAGACTCAGGACTATTTTATAGGCCAGGAGTTAA
AAAACAACTTGAAAAATTTTAAATGCTAGTTCTATTTATATCAGAATACTGTTTAGGAATCTCTATACTGAATACTTGCAGTCTGTAAGATACAATACTT
TGTTGAATGGGAGAAAGTTGTTTCCCAGACATATGATTCCAAGTACATAGTTTTTCAACATCATTTTTGAGCCATTTCCAATATTCTGGTCTCCTTTAGA
AAGAATGAAAGTCTTCCCTGGGTAATTTATTCTTCATATTTAGGTCTCTGAAGCAAAACTGAGGGCAGATGAGGCAAAACAAAGTGCTGAAGACATTCTG
TTGAAGACAAATGCTACCAAAGAAAAAATGGACAAGAGCAATGAGGAGCTGAGAAATCTAATCAAGCAAATCAGAAACTTTTTGACCCGTAAGAAATTTT
TTCATTTTACTTTTAGACATTTGTTTCTGTGTGATTCTCTGTTTACATTTTAGATAAAATCCATTTCTGTCAGGGTACTAAGTGACATTTCCAAATAAGA
AAAACGTCCGTATATTAAATGTTTCCACTTCTTAAACTTATATATGTGTATCAAATAACTTTCTCCAATGTTACGCAGATACAGACACACCTGATGGGAT
ACTCAGGTAGCCAATCAAAAGTCAAATATTTACATTGAAAATTGAACGTGGAATTTGTTAGAAATTACGTATAGTAATTTCTAACCTTAAAGAAGTGGAG
TTTGTTATTTTGGCATTGCCCCCAAAGCTTTGTAATTCTATTATTTACAGGATATTATACCTATAGTTAGTTAAGAGTGTTGCTAGTCACAGTTCAAGTG
TTACCAGTAAAGATGGTTTTGGCTGCAAATTACAGAAAACTCTCAAGTGAAAGGGACTTAATCAAAAAGGATGTTTATTATCTCACATCTTAATAAGATA
TCCAGTAGCAGGATAGCTTCCTGGGTCTGCSACCCACATACTTTTCATCTTTCTACTCTACCATCTTAAGCATATCAGCTTTGTCCTCTAGCTCCTCATG
GTTACAAGGTAGCTGCCAAAGTTCCAGACATCATATAAAGATTAATAATGGAAGAAGAGACCACCTATTCCTTGCATCTTTTTAAAAAGGAGGAAGTCTT
CCCTAGAAGCCTTTAAGCAGTCATCCTTATAAACCTCACTGGCCAGCAATAAGTCACATGCCAATGCATAAATGTCACTGGAAAATGGAAATGCGATTAC
AGTAATTCACAAACTAATATTTAATGCTGGGTTGATAATTTTACCTGACTTAGAGGCAGGTRCCTGAAAAAAAATCAGTATTCTGTTAGCAAGAAAAAAG
GCATGGCTAATAAGGAGTCAACAGTATTTGCTAAGGATATCTTAGGTAATATTTTATGGAAGCCATCATTCAAGTACATATTTTATTTGAATAAATCCTC
TGGGGTCCATTTTTATGTTCAATAGTTTAAAACATAAGCAAAGCTTGAAAGTAAATGAGGATCTGACGTATTTGAAGCTTAACTTCATAAACTTTTTTTT
TCACCATCTTCCACATTTTACATTTGAAACTCCTTGGCTTTGTTGACAACCCATTATTCCGGTTCTCCTGCTTCTATAATTTTCTCCCTTTCTATAATTT
CCTGAATCTAGATCATTTGTAGGAAATATCAAATCTCCATATCTGCATTCACAAGTTTCTGAGCTATTCGTCCAACCTCAATTAAAAGATTTCATTGCCT
TTAAGTCTCAGCTTTAAGCTCTGGCCCTCTATGGTTTTCCACAATGTTCAGATTCACTCTGCTATACTTTCCCGTAACATACTCTGCCGTTCCTGTCTCC
CCATCTGGAATTGTCCTTTCTTCTTTCAAATTCTATTATCCCTTAAAATCTGATCAGCTCCTCATCTTCCACGAAGGTTTCCCTCACTACCCAGCCTAAA
ACAAATTCTAGTAGTACTCAATTGTCTGCAGTTACTTTTTTGTGTGTGTAGGTCTCATCTCCCCTCAAAATCCCAGATAGATTATAAACTCTTAAWCAGG
AAGTTAGTGTCTCTTGGTGTGTAACCCCACCATGCTAGTCCATAGTAGATGACCAGTAAGTGGTTGAATGAATGAACCATCTATTCTTTTCACCTCTTTT
TGGGGACATCTTTGCTTTTCACAGAGGATAGTGCTGATTTGGACAGCATTGAAGCAGTTGCTAATGAAGTATTGAAAATGGAGATGCCTAGCACCCCACA
GCAGTTACAGAACTTGACAGAAGATAYACGTGAACGAGTTGAAAGCCTTTCTCAAGTAGAGGTTATTCTTCAGCATAGTGCTGCTGACATTGCCAGAGCT
GAGATGTTGTTAGAAGAAGCTAAAAGAGCAAGGTATCTAAAGACATGGCATCTAAGGGGCTTATTTTGTGTATCTATCATGGAGTAAAAAGTATCTCTTT
AACCAATGAAACTTCTAAGAAGGACCTATGCGAGTCTCTCTGGGTCATTTCAGGAAGGCTATTCTTTAAAGAAAAGAACACTGAGAGTACWTTTTTCATG
TTCAGCAACAATATACTGTCTCATTATTTTTTACTCAGCAAAAGTGCAACAGATGTTAAAGTCACTGCAGATATGGTAAAGGAAGCTCTGGAAGAAGCAG
AAAAGGCCCAGGTCGCAGCAGAGAAGGCAATTAAACAAGCAGATGAAGACATTCAAGGAACCCAGAACCTGYTAACTTCGGTAGGCATACACAATCATTA
CATGAATGGGAACACACCTACATATACACTTACCAGAAAAGTACATTTGTTATCTATGAACAGAAATTCTTACAWCTCAACATTAAAGGATTCCTTTAAT
AAATCTAAACTACTCCGTTAGCATGGATGCTAAAAATAAGTGGAGATAGGTTTTCAAGGAATAAAAGGACTCTGATTCAGACACTGGACCATTACGTCCC
ATCTCATTTTCTCCCCCACAAAGTCTGAGAAAGATAAAAACTTCTATTCTTGGGCGGGCATGGTGGCTCACGCCTGTAATTCCAGCATTTTGGGAGGCCG
AGGTGGGTGGGTCATTTGAGGTCAGTAGTTCAAGACCAGCGTGGCCAACATGGCAAAACCCCTTCTCTACTAAAGATACAAAAGTTAGCTGGGCATAGTG
GTGTGTGCCTGTAGTCCCAGCTACCTGGGAGGCTAAGGCAGGAGAATTGCTTGAACCGGGGAGGTCGAGGTTGCAATGAGCTGAGATCACACCACTGTAC
TCCAGTCTGGGCAACAGAGACTCCATCTCAAAAAAAAAAAAAGCACTCCTATTCATTGAGGAAACAGCATATACTCTGTTCAGTAGTATGAAGTATAATA
ATTTTAGAAAACTGTCCTGATGTTATAAAGCAGCTTATCTGGTTAAGAAGGCCAATGTCTCAAGATTTTGGTCATCAAACATTTTACTATATAGTAGTTT
TGGAAACTATGGGAGAACAGTCAGTCTGCTTTCAATACCCAATTCTAGAGAAACCTAATAGAGCACTTATAGCTAAACAATCTGTTCTGTTTAGAATGCA
TGGAAAACTTAATGTTTTTTATAAGRAATATACTGTGACTACCAGATATTAAAAGTACTCATTACGAATTTTTCATAGGGATCTAGCACYTTGCTCTAAA
AATCCTCTTTATCTCTTAAAAGAAGTAATGCAAACATAATTCCATTAAATTCTTTTGTTTCTCAGAAAGTTAATGTTTTCGTTCCAATTTTACGAGTTTT
TAAAAAATGAAGAAAATTGATGAGTTATCTAATCCCTATACAGGTTCTCAGAATATACTTTGAAATTAAATGCTCCCATACCCAGCATTGTCAGCCTTCT
CAGGCCAATCCTCCATGTGTTTAAAACCTGGGAAGATGAATTTTCAACATGCTTTTCTTACCATTAGTTGGTAAAAACCTGTGTTCCCCTATTCTATTGC
TGTCAGTTAAATGAAGGCCAATAATTCTGTCCATTTTCCTCCTTAAATTTCGAGTATCAATAAGACTTTTTCTTCAGGCTATTTGTTCAAGTTTAGAAAA
ATTATGTTTTCCCACCAGACTATAAATATTTTGATGTTTCGATCTCTAGGTTTTTCCATTTTCTCAGTTTGCTGTTAATATTTTAGTGAATATTATGTCA
GTGACTGTAGAAATTATTGTTTTGAAAGCCAGGTGCAGCAGTGTGTGCCTGTAGTCCCAGCCACTTGGGAGGTGGAGGTGAGAGGATCACTTAAGGCCAA
GAGTTTGAGACTATAGTGCACTATGATCATGCCTGTAAACAAACAGTCACTGCACTCCAGCCTGGGAAATATAGCAAGACCCTGTTTCTTGAAAAAAATT
GTTCTGAAAAGCAAATTAGAAAATMATTATAGGTGAGATGTGGCTTGATGATGCAAGTTAATAATTGGGGTTCTGTTTTTCAGGGGCCCTRGGGGGCAGG
AAGTGTTTTAGGTTAGTAACAATAAGAAACAAAGAGAACCTCTAACTAAACTGTGTTCATGAAAGCTTATCAGAAACAATTCACTCAAACTTTATCTTCT
AAGAATTATAATTTCTAAGAATTTTATTCTAATTAAAGGGTCCTTAGGTTTGAAATATTTACAAATTTTAGCCTATGTCTTATACTGACCCTTATTAACT
TCATTATAGCAGTACTGTTATTCAGTTAATTCTATGTAATTAGACCCATCCTTGAAGATCATTTTAAAGAAAAATTGAGTGCTCAGTGAAATTGATTCTT
TTGTCATGGGCYCAACTGCTTACTTTGGCTAGCTTTTAAAAGTCAATGTTTATTGATTCTACTTTGAAAGGAGATCAGATGTGGATCCTCACCAGTTGCC
CAGATATTTTTTTTTCCCTAAATAACTTTGTGTATTTAGAGTTTACAGCTGTAACGTTCCCAGACCATACATCATCTCACAATTCTATAGAAATTCAAAG
AACATCCCTAGTCTCCATGTCTTCAGTAATTAGCTGAAATCTCCACTACTAGAGTTTAACATTTATTTTCCCACTCACATTAAGTTGGAAATTTATGTGG
AAATCCCTCTTCGCACAGCTGCTTATTTGTGAATGTTCTTTAGCCAAAGTTTGCAGGTGTCCTTAAAATGCTTTCTCAACACATCATGCTCCTTGGGGRG
GTGGGGTTTTTTGTTTTTTTTTACTGTCAGAAAAAATTTTACATCAATCTCAGCTTAGATCATCAGAAGTACTGAAAGAATGAAGTGAATATATGAAATG
TAGCAAAGACTAAAGTTAGATACTTCATGTAACTTTTCCTGAAATATTCTTTTTAGTAATTACTTCTTTTGGTCTAGAGCAAAATGGCACAGCAGACTTT
TAAATCTTCCTCCAAACTTGTACTCATAGTAATTCCATTTCTTAAACTAATGTCTTGCTGGAAAATTGACATRCTTTTAGATTGAGTCTGAAACAGCAGC
TTCTGAGGAAACCTTGTTCAACGCGTCCCAGCGCATCAGCGAGTTAGAGAGGAATGTGGAAGAACTTAAGCGGAAAGCTGCCCAAAACTCCGGGGAGGCA
GAATATATTGAAAAAGTAGTATATACTGTGAAGCAAAGTGCAGAAGATGTTAAGAAGGTACGTAAATCTTTGTAATTTCAGAGCTATGTTGTTAAAGGAG
CCACCAGTCTCCTCCTTGCCTGCCTTAGAGTAAGGGACATGGACCTAACAGAAACAGAATTCATCAGAAATATCAAATGACCTGTTTTGCAACAGCCGTC
TTTAGAAGTGTGGATGGGAAAGAATATGGAAATATCTAATAAGTATGACCTATGTCCTCAAATCCAAATTTGGACAAGAGTTTAGAAGAACGGAATTAAC
TTAGGGGTAGAAGTCTCAAAACAGGCTTTTTTTTTTTTTTTAAACCAACTATATTGACAAAAACCAGTCATATTGAACTTTTATTTCTGTGCGGTAGTCA
GTTAAATTCTTCATGGCATATAGTAATTATCAGGCCATTTGAGAATATTTTACAAGCAGGTTGGAACAGAGAACAGGTAGTAGGAAACCAAATCTTATCT
CTTTGAGACTCATTTTGAATTAACTACCCCTCACCTCTCATTCGAAGGCACTATATTTTGCAGAGAAAAACTCACACAACCCAAATGTTTAATCAGAAGC
CATGTAATAACTGAAACACATGTTCAGTTTCTCAATAATGCTTATTTCTAAAGAGAACATTAAAAACTTGGTGGCGCCGGGGTGGGGCTTAAAACCATTG
AATCACTGGTCCCCAACTTTTTTGGCACCAAGGACCAGTTTCCTGGAAGACAATTTTTCCAGACTCGGGGGTGGGGATGGTTTCAGGATGAAACTGTTCC
AGCTCAGATCAGGCATTAGATTCCATAAGGAGTGCACAACCTAGATCCCTTGCATGCACAGTTCCCAATAGGATTCGTGCTCCTATGAGAATCTAATGTC
ACCACTGATCTGACAGAAGGTGGAGCTCAGGCAATAATACTTGCCTGCCCACCCAGTTCCTAACTGGTCCGTAGGCCTGGGGGCACCTGCATTTACTGAC
CTAATTTCAGTATTTAACTCCCTACTATTCAAAAATTTTCTGGAAGTTACTGTAGCTTTTCGGGCATTACGTAAGAGTAACTTTCCCTACCTCTCTCTAG
GTTGGGAAAGAGAACAAAACAATGAGAAAAGTTCACTGCCACAATATCAGACAGCTGTCTTTTCTGTTTTGGTTTGTGTGGTTTCCTGCAGTACTGAGGA
CACAAATTTCTCAAGTACTCTGCTTCAGGGCATTTTGCATAATGACATTTTATCACAAGAGAAAGGAACAAAATCTCTTGAAATGAAATTTCCATAAATG
GCTATTTGAACAGTTTCTAAAAAGAATCATTTGCATTCCAACCCCACACCCCATTTCTCTTCTCCTCACTCACTTCTTGCATATGCTACAATCTCACCTT
TCCTTCCTGTATCTTTTGTTTAATCTTTTTCCTCTGATTTCCTTATAAGCAAGTCTTCACAAATCCTAATTTAGTCAAGATCCAAAGAGCCTCCACTTCT
TCAATATGGGCTTCTCTAATGTCTAATCTACTTTTGAAAAATCTGCRCTTCTCTATGTAATTTGCAATACAATTATGCTACAACTTTTCTATAGAAAAGT
AATAATCAGGAGAATGAGGACTTAGCCCTAAGGATTTGCTGCAACTCCAGAATTTTTTGAAATGTTCTTTAAAATCAKGTCAATTTTGCATTCAATTCCA
CTGTTTGAAGATAAAATTTTAAATTACTTACCAGTGAATATCCTTGGTGGCCCTTAATCCAGAATGCATGCCATGATTACACTATTGCTCTTAAATGTAA
TTACTGACACTAACATTACCACTTCTTTCTGTCTAAATGTGGAACTATAGACTTTAGATGGTGAACTTGATGAAAAGTATAAAAAAGTAGAAAATTTAAT
TGCCAAAAAAACTGAAGAGTCAGCTGATGCCAGAAGGAAAGCCGAAATGCTACAAAATGAAGCAAAAACTCTTTTAGCTCAAGCAAATAGCAAGCTGCAA
CTGCTCAAAGGTGGGTCTTTTCACACAGGCTTATTTTTTAAATTACTTTAAGGCATCCATAGTTTATTTAAAAGTGAAAAATATATTCACTTTGTCTTGA
GATCATCATAGTATAAATTGCTCAGACTTTATATATATATATMTCYCCACAGATTTAGAAAGAAAATATGAAGACAATCAAAGATACTTAGAAGATAAAG
CTCAAGAATTAGCAAGACTGGAAGGAGAAGTCCGTTCACTCCTAAAGGATATAAGCCAGAAAGTTGCTGTGTATAGCACATGCTTGTAACAGAGGAGAAT
AAAAAATGGCTGAGGTGAMCAAGGTAAAACAACTACATTTTAAAAACTGACTTAATGCTCTTCAAAATAAAACATCACCTATTTAATGTTTTTAATCACA
TTTTGTATGGAGTTAAATAAAGTACAGTGCTTTTGTATATATTTTGGTGTACTTGTTACTTTCACTGATTGTTGATGAATCCCTTTTTTCACTGTAAACG
TGGATTTATAAACAAGTTTACTGCGTCCATGAAGACCCTAATTTATGTTGTCTATAAACAAGCTATTATATTTATTTGACAGGTAAACATCCTCCAAAAC
TCCACACCCTTGACTCCCCTCCTCCCAATCACCTCCCAGTGGGATTCCCAGGTTGAGGTTAAGGAGGACAAATATAGTCTATGCTACCATCACTATTTCA
ATGGTTGCTGAGTTGCTCCAGCCATCAAAACTCCTGTAAGTAAGTATTCCTTGCTCTAGGAATGAGAAAAAGCAACATTTTAGAAAATCAGCAGGATGTA
CTAGGGTTTGTAGTCATTACCACCTAGAAAAGGACTAGGGTTACTGAGGGGAAGGTTTCAGTTAAATCAGGCCAGAGTTTATGGATACTGCTCCTGCCAA
TTGAGCAATGCTACTACAGAGCACGGAATGATGCTCTAATTTCTCAGCTTTTGTATTGTATTTTATACTACAGAGCACAGAATGATGCTCTAATTTCTCA
GCTTTTGTATTGTATTTTATGTGATTTTGCAACTAATCTAACGAAAGTAATTGCCAGGCCCATGTCAACTTTATTGCCTAACTAGCTGTATAAAAGGCTA
GCCCCTATGTGTTTTTTTCACACATTCTTAGAGCAAGACTATTCTGTGGACTGCTTAACAACCACCCACACATCCAACACAGCTGCATCTGAAGCTGGGC
CTGGACAACAGTTATGTAAACAGCTGTAAGTTAATAACTTTCCTCTGGCCCAAAGCAATAATTTGTCACTTTTATGGTACTGTTACCAAAACAGATATAT
AGACCAATGGAACAGAACAGAGGTCTCAGAAATAACACCACACATCTACAACAATCTGATCTTTGACAAACCTGACACAAGCAGTAGGGAAAGGATTCCC
TATTTAATAAATGGTGTTGGGAAAACTGGCTAGCCATATGCAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAACATTAACTCAAGATGGAT
TGAAGACTTAAACGTAAGACCTAAAACCATAAAAACCCTAGGCAATTACCATTCAGGACATAGGCATGGGCAAAGACTTCATGACTGAAACACCAAAAGC
AATGGCAACAAAAGCCAAAATTGACAAACGGGATCTAATTAAAGAGCTTCTGCACAGCAAAAGAAACTATCATCAGAGTGAACAGGCAACCTAGAGAATG
GGAGAAAATTTTTGCAAAGAACTTCAACCCCATCAAAAAGTTGGTGAAGGATATGAACAGACACTTCTCAAAAGAAGACATGCATGCAGCCAACAAACAT
GAAAAAAAGCTCATCATCACTGTTCAATAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCATGCCAGTTAGTTAGAATGACAATCATTAAAAA
GTCAGCAAACAACAGATGCTGGAGAGGCTGTGGAGAAATAGGAACACTTTTACACTGTTAGTGGGAGTGTAAATTAGTTCAACCATTGTGGAAGACAGTG
TGGCAATTCCTCAAGGATCTAGAACTAGAAACACCATTTGACCCAGCAATGCTATTACTGGGTATATACCCGAAGGATTATAAATCATTCTACTATAAAG
ACACATGCACATGTATGTTTATTGAGGCACTGTTCACAATAGCAAAGACTTGGAACCAACCCAAATGCCCATCTATGACAGAATGGATAAAGAAAATGTG
GCACATATACACCATGGAATACTATGCAGCCATAATAAAGGATGAGTTCACATCCTTTGCAGGGACATGGATGAAGCTGGAAACCATCGTTCTCAGCAAA
CTAACACAAAAATAGAAAACCAAACACCACATGTTCTCACTTGTAAGTGGGAGGTGAACAATGAAAACACATGGACAAGGGGATGGGGGTGGGGGAGGGA
TAGCATTAAGAGAAATACCTAATGTAGATGATGGGTTGATGGGTGCAGCAAACCACCATGGCACATGTATACCTATGTAACAAACCTGCATGTTCTGCAC
ATGTACCCCAGAACTTAATTAAAAAAAAAAATCCCAATAACTAGCAAAAATGGTCATACCCCATCATCTACTAGAGCAATTATGTAGTATTTTACTTAGA
ACAGTAGAAACACTCTCCATTCCTTTTCAGCTAAACAACTAAAGATCTCACTTTGAAATTACTTTTTTTTTTTTTTTGAGACGGAGTTTCGCTCTGTCGC
CAGGCTAGAATGCAGTGGCATGATCTCAGCTCACCGCCTCCTGGGTTCAAGTGATTCTGCCTCAGCCTCCTGAGTAGTTGGGATTACAGGGGCCTGCCAC
CACACCTGGCTAATTTTTATATTTTTAGTAGAGATGGGGTTTTACCACATTGGTCAGGTTGGTCTCAAACTCCTGACCGCAGGTGATCTGCCCGCCCCGG
CCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACCGCTCCCAGCCAGTTGAAATTACTAATTTTAATCAGTTCAATGAAGTGGACAATTAATTTCACTC
TTCACAAGCCACAAAAATATTGACAGCTTAGTAGATAACAGTAAGTGAACACTTAAAACTTGTTTTATTCCTAGGACTTTATTCCCCATACAGATAAATT
TGCATTCTCATACTGAATGTAAACACTTAAAGATGGATTTAACTCTACAGCTAGAATTCCATATTAAATTATATTTCACTATTCCCTAACTAAAAACTTT
TTTTTCCCTGAGTAAGGGATATGTTGAGATTTACATAAACAGCACTTCACATGATACCGGGATTTCAAATTTTTAAAAAGATGCAGAGTTCACTTCTAAT
AATGGCAAAGTAGCACACAGATATCAGACCAACCCTCCTGCTGATAGCAACTGCAAACTCTGAACAAATATATTTTAGAAAAAACTAAAGGCACTGGAAA
CAACTATAAACAAGTGGAAAGTAGAGGGAAGTTGGCACTTAAAAAGTGAACAGCACTGGCTCAATGTCTCATTTTTAACGGGTTCTCACTTGAGGGGGAA
ACAAAAGCCAAGTTTTATTGGTTAAGGATCAGAAGGCAGAATATGGGGCAACCACAACAGCTGGAACATAAAGGGGAAACCCCCAAAAAACAGGAGGCAC
AGAAGGGGCAGACTTCCTTCTGCCCAAACTCTGGTTGACCCCTGAACTACACACTTGCATGGGAAAGACTTCCAGCAGCATAGCTAAAGCTAAAACAACT
GAGAAGAGATTTCAGCTGCTGCCACCTACAAACAAGACAGAGTGTGGAGTTGGTGTTCAGCCAAGTTAACTGCCTCCTAAGACAACAATCAATTTTCTTT
AGAAGTATGTAACAGAATCCAGGGTCATTATGTCACTCATGAGCATGAGACAATCTATGCTATCTATACCAAATTTCAGAACTACTTAATCTGAATTATT
CTTAAATTTAGTTACAATATGCAAAAGCCTACTTAGCATTTAGTACTTTGTTACTTAAGTTTCCTCAGGACATGGCCATTTTAAACACCACACATCCAAT
TTTACAGCACTCTTTAAATAAACAGTCATTAACCCAGACAAGGAAAACACAGATTAAAGACTCCCTTATGTTGTACTTCTCCAAAAGTATATATTAAACA
TTTAGTAGGTGTATCTAAAATAGATGAAAGGATGATGACCTTTAAAATGCCTTAATATTGTCCTATAACATGAAAATAAAGATACATTCAGGCCTAGAAA
AGAAATTAGAATATACACTAGAAGTAGTCATAAAAAAAACTATGACCATCTCAACACGTACTCATGATAACCAGTAAATGAATATTTAAGACGTTTATTT
CAGTATCTTCATTCCCCACTGTAATACATTTGAATGCCCACGTATTTGAGTTCCGTAAATAGACTCTCTTAATTTGGGTAACTATATAATTACCCTTCAG
AGTTGCAGACAACAATGGAAGCTTTAAAACCTCTTCAACACAAATGCTACCCCTAAAATGAAAGAATTTAGAGGTTAAATAAAACAAGTGAGAGACCATT
TACTTACATCAGTTCGGTTTATAGACATTTGAATCATATCTGAATGACTGACTTGTTTCCAATGTGAAAACCAAATTAAAAATAACTTGATCACTGTGCT
TCAAACACAACTGTTCACATATCAAATTCTAGCTCCAGCCATGTAAAATTCAACTTTTCTGTATCAGAGAAAAAAGCTATTTAAATTCAGGGGCATTGAA
TCTTTCATGAACAGCATGAAAATATGAGTTGACGGAGATATTCCAGGATGCTACAATAAGTAGCTTTTTGTCTTACACATTAGTGCACTGAAACAAAATA
CTAAATTTATGTAAAATATAGATATAAGAGTATTCCATTTTGTCCAAACCTATTAAATACCTTCCAAAAGTTTCATAATTCAGTCCTAGAAATTCTTGGA
GCTGTGAGAATATCCTGTTCAGGAATGTGACTTCTACAAAAGCTCCCAGGAAATTTMAGAAAAAAAHATATATAATCTTCTAATTCAAAAGTTGATTGAT
TTGCCAAATGACGCAGCAAGAKTTGCTTCTCYAAAAGCTTCTGATAAGGTCTGCAAGGGAAGAAATTTAAAATTAAAATCCAAATATTTGTGGGTCAGAA
GAAAATTTAGGCAACCATCAATTCTATATGTTGTTAATAATTACCRGATGTGCATGACAGACTCTAGCTATATCTTCACAGGATGCKCCATATTCCAAAG
CAAGAGCAGCTTCATTTACCATTTCTCCAGCACCCTTTAAAATAACAAGCCAAGTAAATTTGCTTCCAAGGCAAAAACTACATGCTAATAGGATAGCAAT
TGTTGAGGGGAAGCTTTTAGATCTTAAAAACGCCTTAAATCTGTTTCTTTATCAGTTGAAGAAAAGTCAGGAAAAGCTTAATAGAAAAGGTGACACAGAA
GAGCTTGGGCTCTGGAGCCAAAGGGCCTTCAATTCATATCTACCACTTACTACCTTAACCATTCATTGGTTCTTTGTGCTTCATTCAGTTTCTTCACCTC
AAAAATAACAGCACCTATTTCAAAAAGCTGATGTAAAAATAACAAAATGTATACTAAAGTGACACAGCACTCAAATATTCTATTCTCATTATTGTTACAT
CAGATACAAGAGATATCTACAAGAAAGATACATACTTTAGGCTCAGTGGTAGGAAAGGCTTCCCTTAGGAGGTAACATTTGAGCTGAGACCTGAATAATA
AGGAGCCAGCCATTCAAAGATCTGGAGGCAGAACAGTCTAAGCAGAGGGTATCTTAAGCACAAAGGCCCTAAAATGCAAATATTTGGTCTGTTGTGAAAA
TGAGAGAAGGCCCATGTGACATGGCATTAATGAGTAAAAGAGAGCAGAAAAAGAAGAGGTCAGAGAAGTAGGCACAAACAGATTCAGTGAGGCCTTGGAT
GTAACAATCTGAAGTTGAAAAGCACCACTGGAGGATTTTAAGGGGCATAATCTGGTGTATGTTTTAAAGAGAGAATCTTGGCTGCAGGACAAAGTAGATG
ATACAGTGGGCAAGACTGTGAGAGTGCTGCTGGTATCCTTCTAGAAATGATGCACAGAGAGCCATATTCAAAGTTTTGCTGGAAATGAGCAACCTCAGAC
TAACACCAGGTGGTTTATAATTAATAAACAGCAATGCTTTCTAGAAATCTTAATGGGATTTCTCTGGTTTTACAATACTCACTGGTCCAAGAATATGTGC
TCCCARTACTCTGTCTGTCGATTTCTGCCCAAGGATCTTCACCATGCCATCTGTGTCAGCATTTGTCTTAGCTCTGCTGTTAGCAGCAAATGGGAATTTC
CCAACTTTGTACTCAATACCCTGTGACAGTCAGAAAAAAAGAATCTACGTAACTGCCAGAAAAGTTCTTTCCAATTTGTAAAATCATCTACCATTTGTTC
AGAAAATAAATCCCAAGAAGGGAATTGTTCGCAAAGCACATAGAAGGAAAGGAAAGACCAGAAGACTGGTTAATGAACTATATCTCAGGCACGAATACAA
GCAAATACAAATGT


SNP Information

Context             (SEQ ID NO:16184):
GCTTCATGTACTCAAAAATGGACTTTCTTTCCCAATTATTTCCCAACACCATAGTAGTCTGCTGGGAAGGAATGAGGTATTCAGCAGCAAGAACATGTTG
Y
GTTTGTCCTCTTTATTTGGGTTTGTTCTGTTCGAGGTCGTGCCATAGACCCAGTACAGCATGTAGCCTCTGAAATCCGGTGTGAATATCTGTTCTTAGAA
Celera SNP ID:            hCV8856562
SNP Position Genomic:     37180
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16185):
AGGATCTGTCAATGCCTTCTGCAATCCCGTCACTGGCCAGTGCCACTGTTTCCAGGGAGTGTATGCTCGGCAGTGTGATCGGTGCTTACCTGGGCACTGG
R
GCTTTCCAAGTTGCCAGCCCTGCCAGTGCAATGGCCACGCCGATGACTGCGACCCAGTGACTGGGGAGTGCTTGAACTGCCAGGACTACACCATGGGTCA
Celera SNP ID:            hCV22274373
SNP Position Genomic:     50003
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,4|G,36)   total(A,4|G,74)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16186):
GCTCTCTCTAGGCATGAGTGTCGGTGCACTGGTGAGCTTTCAGTCAATAAGCTAAACATCTTGTGTTTGGTTTTATCGGGTGACAGGTTCCAGATGTGAC
R
ACTGTGCCTCAGGATACTTTGGCAATCCATCAGAAGTTGGGGGGTCGTGTCAGCCTTGCCAGTGTCACAACAACATTGACACGACAGACCCAGAAGCCTG
Celera SNP ID:            hCV25921835
SNP Position Genomic:     55623
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16187):
CCTGAGCCATTGGTCAATTGTTGTCGATGGTTGACACCTTCCCATTTTCACAGTGAAGTGAGTATTCTAAATGCCACATCTTGTCACTGAGGTTCATGAT
Y
AAGTAGATCAGCTAGCATTGCTTATTCCCTTCTAGCCTGTGACTGTGACCCCAGGGGCATTGAGACGCCACAGTGTGACCAGTCCACGGGCCAGTGTGTC
Celera SNP ID:            hCV22274379
SNP Position Genomic:     68967
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,10)   caucasian(C,25|T,13)   total(C,53|T,23)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   JBIC-allele(T,171|C,1314)   total(C,1314|T,171)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16188):
ACTTCGGTAGGCATACACAATCATTACATGAATGGGAACACACCTACATATACACTTACCAGAAAAGTACATTTGTTATCTATGAACAGAAATTCTTACA
W
CTCAACATTAAAGGATTCCTTTAATAAATCTAAACTACTCCGTTAGCATGGATGCTAAAAATAAGTGGAGATAGGTTTTCAAGGAATAAAAGGACTCTGA
Celera SNP ID:            hCV22274665
SNP Position Genomic:     80375
SNP Source:               Applera
Population(Allele,Count): african american(A,30|T,6)   caucasian(A,36)   total(A,66|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:16189):
AAATACAGAATAACCATTGTTTGCCATGCCCTCAGGGGGTTAGCATAGTGGAGCGGCAATATATCCAGGACCGGATTCCCTCCTGGACTGGAGCCGGCTT
Y
GTCCGAGTGCCTGAAGGGGCTTATTTGGAGTTTTTCATTGACAACATACCATATTCCATGGAGTACGACATCCTAATTCGCTACGAGCCACAGGTAAAGA
Celera SNP ID:            hCV25644683
SNP Position Genomic:     46366
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16190):
TTTCAAGTCACCATTTCAGAGCCAGACGTTGACTGCTGACTTTTTTCCTTTGGAATTATCGATGCAGAGCTTTGTTTTTAATTTTTATTTTTTGGATGCA
Y
GAAGGTTGACTTTCGTTGTTGTCTTTCTTTTTTGTTTGGGGGCAGATATGTCGTCCTTCCTCGGCCGGTGTGCTTTGAGAAGGGAACAAACTACACGGTG
Celera SNP ID:            hCV25644684
SNP Position Genomic:     47989
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:16191):
AATAGAGGAAGCCTACTGGCCACAGAACAGAGAGTGTGTTTACAGATGAAAGTCAAATTATTATGGCTTGTTAAAATGAGTATCTCATTTAAAAAATACT
R
TTCTTCATCTTCATGATTTGTTCATCTTAAAGATTAGGCAACAACTTTTGCTATGTATGCTCTCCTTTCCAAGAGAAAGTTTCTGATTCTCTGCCAAGTA
Celera SNP ID:            hCV16170588
SNP Position Genomic:     64278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16192):
TCAAAGAAGCATTTGGGTTTTCTACACGTTTGCTTGCTTAAACCCATGCCATGGGGCACCACTGTAAGGATGTTTGGCCGTTCTCATTTCTTCACAGCTT
S
TTCTCATGCCATACTGTAAATCACTGGACATCTTCACCGTGGGAGGTTCAGGAGATGGGGTGGTCACCAACAGTGCCTGGGAAACCTTTCAGAGATACCG
Celera SNP ID:            hCV25644685
SNP Position Genomic:     48718
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,33)   caucasian(G,40)   total(C,1|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16193):
CCTGTGCTAGACAGGCAGCTCATTTCTGCAGGTAAAATTATATTCATCTCCCAACTTTCATTCCAAAATTGAACCTATATTACTGAGGCCAAAAAGGGAA
R
AGGATAAAAGAGAATGTCAGAAAAAAGAAAATCCCATGTAAGAAATAAAAATTATTTAAATTGCCCTTGCTTTTAGTAAATAGAAATGCCTAAGTAAAGT
Celera SNP ID:            hCV16170589
SNP Position Genomic:     63052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16194):
TGGAGGCTCACTCCGTAATCCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACTTGAGGTCAGGAATTCGAGACTAGCCTGGCCAACATGGTAAAACC
K
TGTCTCTACTAAAAATATAAAAATTAGCTGACATGGTGGCATATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGA
Celera SNP ID:            hCV27207830
SNP Position Genomic:     24928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16195):
CCACGTGCAGCCGCCTCCACCCACTGCCTGGAAAACACCTTGTTGCCCTTTTAAGATCCAGTTTGGCCCAGGCGCGGGGGCTCACACTTGTAATCCCCTC
R
CTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCTAAACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAAATAGAAAAATT
Celera SNP ID:            hCV27207831
SNP Position Genomic:     21600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16196):
GAGCCCGGGAGGTCAAGGCTGCAGTGAACTATGATTGTACTAGTGCACTCCAGCCTGGGCAACAGAGCAAGACTCTATCTCAAAAAACAAAACAAACAAA
M
AAAAAAAAGCCACAAAAAACTCATAGGTCTTTTGTTTATTATAAATTTGGAGGCAACTGTGCAGCAATGGCAGGCCTGGGAAGGTTGATGACTAAGCAGA
Celera SNP ID:            hCV27207834
SNP Position Genomic:     19328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16197):
GGGCAAGGGTGCAAAGGCTCATTTGTTTGTTCAGGCTTTCCCCTGAAAGAGAAGATGTTAGTATTTGTTCTGAGCCAGTTTATTTGACAGATTCTTTTTT
Y
CTCTGGCGTTGTTTTTCATTGTGGAAATGCATCCAAAGGTTTCCCCATCAGGGATAGGTTTTTCTAAGTTGTGGTATAACTAACATATGTGGTAGACTCT
Celera SNP ID:            hCV29388100
SNP Position Genomic:     13817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16198):
GCCTCCTGGGTTTAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAACTATAGGCACATGCCACCACACCTGGCTAATTTTTGTATTTTTGGTAGA
R
GCAGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTAACCGCAAGTGATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGCCTAC
Celera SNP ID:            hCV27207835
SNP Position Genomic:     16639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16199):
TCCACAAAATGTAACATCTTTCATTTTGATCAATCCCAAAGGAAGGGGCAGAATCATAGCCCCCACTCCTCCCCCCACTGCCTTCCTTCATCTACAGAAA
R
TGTCTTGATAGTAATAGTAACACTATGAATAAGCAGCAAGATGTAATTTTTTCAAAGACTCTGTCAACATGGATATGACCCCAAGTCAAATGGTTCCTCC
Celera SNP ID:            hCV29388101
SNP Position Genomic:     11434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16200):
GACTGTTTGTTTGTTTGTTTGTTTATTTTTGAGGCAGAGTCTCCCTCTTTCACCTAGGCTGGAATGCAATGGCGCAATCTCAGCTTACTGCAACCTCCAC
S
TCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACATGTCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGG
Celera SNP ID:            hCV27207837
SNP Position Genomic:     12013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16201):
CCGGCGCCTCGTCCCCAGCGAAGCGCCGGTGACCCTCGCGCGTGCACGCACACGCACTCTCGCTTCCCAAGCTCACAGATCTCCACGCGCACACTCACAC
Y
GAGGATGCGCGGGCTGCCGCGTGCACGCGGGTTCACGTGCGTGGGTGTGTGGCCCTTTGGGGGTCAGCCTCCCTGCGCCGGGCTCCGGACACGTCGAAGT
Celera SNP ID:            hCV29388102
SNP Position Genomic:     7190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:16202):
TAGATTGGACCCACCCAGATCATCCAATAATCGCTCCATCTTGATGTCCTTACCCTTAATCACATCTGCAAAGTTCCTTTTGCCATATGAGGTAACATCC
Y
ACAGATAACAGGGATGAGGATGTGGACATCTTTGGGGGCCATTATTCTGCCTCACACAGGCCTTATTTATTTTATGTCCTTATTCTCCCTTACTGATTTA
Celera SNP ID:            hCV345303
SNP Position Genomic:     40927
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16203):
GATCATGCCTGTAAACAAACAGTCACTGCACTCCAGCCTGGGAAATATAGCAAGACCCTGTTTCTTGAAAAAAATTGTTCTGAAAAGCAAATTAGAAAAT
M
ATTATAGGTGAGATGTGGCTTGATGATGCAAGTTAATAATTGGGGTTCTGTTTTTCAGGGGCCCTAGGGGGCAGGAAGTGTTTTAGGTTAGTAACAATAA
Celera SNP ID:            hCV27207693
SNP Position Genomic:     81925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16204):
AAAGTTTCATAATTCAGTCCTAGAAATTCTTGGAGCTGTGAGAATATCCTGTTCAGGAATGTGACTTCTACAAAAGCTCCCAGGAAATTTCAGAAAAAAA
H
ATATATAATCTTCTAATTCAAAAGTTGATTGATTTGCCAAATGACGCAGCAAGATTTGCTTCTCTAAAAGCTTCTGATAAGGTCTGCAAGGGAAGAAATT
Celera SNP ID:            hCV2193678
SNP Position Genomic:     90067
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,30)   caucasian(A,12|C,2|T,20)   total(A,18|C,2|T,50)
SNP Type:                 UTR 3;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(T,-|A,-)   ;POOLE|_CEPH(A,86|T,102)   total(A,86|T,102)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:16205):
TTTAGAATGCATGGAAAACTTAATGTTTTTTATAAGAAATATACTGTGACTACCAGATATTAAAAGTACTCATTACGAATTTTTCATAGGGATCTAGCAC
Y
TTGCTCTAAAAATCCTCTTTATCTCTTAAAAGAAGTAATGCAAACATAATTCCATTAAATTCTTTTGTTTCTCAGAAAGTTAATGTTTTCGTTCCAATTT
Celera SNP ID:            hCV16252092
SNP Position Genomic:     81190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16206):
ATACCTTCCAAAAGTTTCATAATTCAGTCCTAGAAATTCTTGGAGCTGTGAGAATATCCTGTTCAGGAATGTGACTTCTACAAAAGCTCCCAGGAAATTT
M
AGAAAAAAATATATATAATCTTCTAATTCAAAAGTTGATTGATTTGCCAAATGACGCAGCAAGATTTGCTTCTCTAAAAGCTTCTGATAAGGTCTGCAAG
Celera SNP ID:            hCV25644541
SNP Position Genomic:     90057
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(A,5|C,29)   total(A,6|C,62)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:16207):
GTACTGTTATTCAGTTAATTCTATGTAATTAGACCCATCCTTGAAGATCATTTTAAAGAAAAATTGAGTGCTCAGTGAAATTGATTCTTTTGTCATGGGC
Y
CAACTGCTTACTTTGGCTAGCTTTTAAAAGTCAATGTTTATTGATTCTACTTTGAAAGGAGATCAGATGTGGATCCTCACCAGTTGCCCAGATATTTTTT
Celera SNP ID:            hCV29388034
SNP Position Genomic:     82312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16208):
TTTGTGGGTCAGAAGAAAATTTAGGCAACCATCAATTCTATATGTTGTTAATAATTACCGGATGTGCATGACAGACTCTAGCTATATCTTCACAGGATGC
K
CCATATTCCAAAGCAAGAGCAGCTTCATTTACCATTTCTCCAGCACCCTTTAAAATAACAAGCCAAGTAAATTTGCTTCCAAGGCAAAAACTACATGCTA
Celera SNP ID:            hCV25644542
SNP Position Genomic:     90287
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,19)   caucasian(T,34)   total(G,1|T,53)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16209):
GAAAAAAATTGTTCTGAAAAGCAAATTAGAAAATAATTATAGGTGAGATGTGGCTTGATGATGCAAGTTAATAATTGGGGTTCTGTTTTTCAGGGGCCCT
R
GGGGGCAGGAAGTGTTTTAGGTTAGTAACAATAAGAAACAAAGAGAACCTCTAACTAAACTGTGTTCATGAAAGCTTATCAGAAACAATTCACTCAAACT
Celera SNP ID:            hCV29388035
SNP Position Genomic:     81991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16210):
AGTGAGGAAATATGTAAATAAATAATAACATGCCACAGACCTTTCCAAGCCCTGTTGCAAAAGAGCACTTAGATGCTGGCATGGGGCTCTCGACACCTAC
R
ATTGAAGTGGGAGTCCCTTTTCCTAGTCAATGGAGACCTTCTCAGGTAAACAGTTCATTCCTACTTCTAAGTGGCAGCTAGAAAAAAAAGATGACAACTG
Celera SNP ID:            hCV16252096
SNP Position Genomic:     57892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16211):
ACTGTAACGAAAGACTGAAGGTGACGGTGTAACAGCAGAGAGATGCATGATCCTAGAAGATGGGCATGCACCAGCCAGCCCGAGCCAGGGCTACCAAAAC
R
TTTTCCTAGAGAATCAGAGCTAGGCCTTAAAGTGTGAATGGAATTGTGGAAAGTTGGCACAAAAGTAAGAAATAGTGTGAGTGGAAGAGAGAAGAGAGGG
Celera SNP ID:            hCV16252097
SNP Position Genomic:     47185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16212):
CTGTATATCATTTAGCCAGAAATAATAGACTTAGTGAGGAAGTAAGGATTCATTCAGAACAAAGTTCACAATGGACTAAAATGTGAGAATACCTGCACTG
R
GAAGCAAGGCTGCTAGGGCCAATATTTGATCAGTAAATATTTGCTGAAGAGTATGAGGAGTGTGGCTCATTGGAAAGCAAAGAGTCGGCACCAGAAAGAG
Celera SNP ID:            hCV15922104
SNP Position Genomic:     41715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16213):
GATGCCTTCTTCTCTGTGAAGTATTCCTAGCTTTTTTTTTCTTGGCAGTAAAATATCCATAACAGAAAGTTTACCATTTTAACCATTTTTAAGTGTATAA
W
TCAATGGTGTTAGGTATAGTCACAATGTTGAGCAACCACTAAGACTGTCTATTTCCAGAACTTTTTCATCACCCCAAACAGAAATTCTGTGGCCACTGTC
Celera SNP ID:            hCV15922105
SNP Position Genomic:     21963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16214):
GATTCATGGCATCATTGTTCGCCAACTTCTTTGTTCCTTTCATCCAGAAGAAAGGTCAGCTCATTACGTAAGAAACTTTTCATCAGGAAAAGCAAACAAC
Y
GATAAAAAACAGAAACTAAGTATTCTGCAAGGAAACCTGGTTTAAGGAGAATGTATTGAAACTGGATATGTCTGTTCCTTTTTACTCCTCCCTTTGGCAT
Celera SNP ID:            hCV16170590
SNP Position Genomic:     60340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16215):
GATTTTCCCCCCTTTCCAGCCCACCCCCCGCTTCCGTGGGAGCGACAGGAAATGGAAGGGCGCCTCTTCTCTCTTTGAACATTTGCCTTTTTTCCCCTCC
K
TTCCACCTCTCCAGAAAGGAAGACGGGAAGAAAGGGCAGGCGGCTCGGCGGGCGTCTTCTCCACTCCTCTGCCGCGTCCCCGTGGCTGCAGGGAGCCGGC
Celera SNP ID:            hCV25644690
SNP Position Genomic:     6375
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(G,1|T,37)   total(G,1|T,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16216):
GGGAGTGTGACAATAAGTAAATGTGATGTTCTTTTGCAGAGTGTGTCTGTAATTACCTGGGCACCGTGCAAGAGCACTGTAACGGCTCTGACTGCCAGTG
Y
GACAAAGCCACTGGTCAGTGCTTGTGTCTTCCTAATGTGATCGGGCAGAACTGTGACCGCTGTGCGCCCAATACCTGGCAGCTGGCCAGTGGCACTGGCT
Celera SNP ID:            hCV25644691
SNP Position Genomic:     57201
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,38)   total(C,72|T,4)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16217):
CAGTGCATGCCTGGGTTTGGAGGCCGCACCTGCAGCGAGTGCCAGGAACTCTTCTGGGGAGACCCCGACGTGGAGTGCCGAGGTGAGTTGTGGGCGTTCT
Y
GCATTGACTTGATCAGAGAGTGGAGGGAACTGGGGTTCTACAAGAGCCTTCTGTAAATTATAAAACACAGTACAAATTAACGTGTCTATAAGAACCTGTA
Celera SNP ID:            hCV25644696
SNP Position Genomic:     58156
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,28)   total(C,63|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:16218):
ATGTTACAAATTACTGAATTGGTTTGAAATTAGTAATGGATACAGTACTAGTAGAAAATATGAAACGTGAAAGTTCTCCCTTGGGTTTATTTTATGTAAG
Y
AAGCTTAACTTTCTCTTTACAGGAAACTGATTAAAGATGTTACAGAAATGATGGCTCAAGTAGAAGTGAAATTATCTGACACAACTTCCCAAAGCAACAG
Celera SNP ID:            hCV25644697
SNP Position Genomic:     72061
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16219):
GAAAGCCATGGACTTGGACCAAGATGTCCTGAGTGCCCTGGCTGAAGTGGAACAGCTCTCCAAGATGGTAACTCAGTGGATGGCCTCAGTTTTTGTTATG
Y
ATGTTTGCTTTCAGCTGTGGACTAAAGGATCTGAAAGGGAGAAATCAATTCTAAATGCTAACTGAAATGAAAAGGGCATATCACAATCAAATATGAAAGT
Celera SNP ID:            hCV25644698
SNP Position Genomic:     77204
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:16220):
GAAGTTACTAAAACGCTAGTTAATAGATCTTTTCTGTCACCATATTTACTGGAGGAGTTAACATGGTGCTGGTGCTGGTCCCAAAGATGGTTCACAATAG
S
TTTTTTTTTTAAACTCTAACTGGTTAGAAAAAAAGGAAGGCATTCCTTGGCCCTTGCACTGGCAGAATTCAACTTGATATAGCAGATGTTTGCATCCTGG
Celera SNP ID:            hCV16223604
SNP Position Genomic:     76602
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16221):
TTATAACACAAAGCAGGAAAGTAAGCTCGTGGAAATCTAGAAACCCTGTGGAACACTTTTCTGTTATTAAACATTAGAAAGATTAACTTAAGTTTTACTC
S
TGCCTTTCTTTATCCAACTCCTAGCAAAAGTATCTCAAAGCTGTGAGGTTACCAAATAGTAGTCAGAAGAAAGAAATAATATCATCCAGGGAATCACAAG
Celera SNP ID:            hCV27471116
SNP Position Genomic:     54197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16222):
CTACAACTTTTCTATAGAAAAGTAATAATCAGGAGAATGAGGACTTAGCCCTAAGGATTTGCTGCAACTCCAGAATTTTTTGAAATGTTCTTTAAAATCA
K
GTCAATTTTGCATTCAATTCCACTGTTTGAAGATAAAATTTTAAATTACTTACCAGTGAATATCCTTGGTGGCCCTTAATCCAGAATGCATGCCATGATT
Celera SNP ID:            hCV2193684
SNP Position Genomic:     84778
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,3)      total(G,3|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16223):
AAGCAAGTCTTCACAAATCCTAATTTAGTCAAGATCCAAAGAGCCTCCACTTCTTCAATATGGGCTTCTCTAATGTCTAATCTACTTTTGAAAAATCTGC
R
CTTCTCTATGTAATTTGCAATACAATTATGCTACAACTTTTCTATAGAAAAGTAATAATCAGGAGAATGAGGACTTAGCCCTAAGGATTTGCTGCAACTC
Celera SNP ID:            hCV2193685
SNP Position Genomic:     84647
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   POOLE|_CEPH(G,94|A,94)   total(G,94|A,94) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16224):
GCATGCAGAATACACTTTATTTTCTGAAGCTTTTTGTTTTTGTAAGCCAGATAAATGACTTATTTAGTTGTAATTTGAGATATAATGGAATTATAATTAT
Y
TTAAAATTATTAGGCTAAATAGTTGATTGTATTTATTTAAAAACTACTTTTTTGTACTTTTTAATAACAATACTTGTTTGGGAATATTCTGTTAACTCCT
Celera SNP ID:            hCV29388041
SNP Position Genomic:     75953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16225):
TACCTATGTGAAATAATTTGGAGGGTATTTTTTATAGACTAAGGTTTGTGTTCTCTTAGCCCAGAGACACAGAGAAAGTTAAAGATGGAAGGTACATAGG
Y
GCAGAAGAGTTCAAACTTCATTACAGCTTTGTCTTAGTGATGCTTCCTCCCTCCTCTCATCACTTTCTCTGAAATAGACAAAATTGGTCACAATATAAGA
Celera SNP ID:            hCV2193686
SNP Position Genomic:     75005
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;JBIC-allele(T,549|C,938)   total(C,938|T,549)   (T,-|C,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16226):
TATGGGTTTCCAGCCTTCCCCTCTTCTGTTTCTCTGTGGTCCTCAACTAAAGAATGAATCATGACTATTCTCCCATACTGTTTTAGCTACTCAGTGACAC
Y
GCACTGAAACTTGATCCTTTTTACACTGTGGACATTTCTTTAATATTTTTTTTCCTAAGTAGAGACAGGGTCTCACTACATTGCTCAGGCTAGTCTTGAA
Celera SNP ID:            hCV2193688
SNP Position Genomic:     74235
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16227):
ACCCATGCAACTGCAATGCTGCTCATTCCTTCGGGCCATCTTGCAATGAGGTGAGGGGCTGCTGCTGGGGATGATGCCTTTATGAGCTCAGGTGTCAGCC
Y
ATGGTGACTTTGCCCCAGTTAGAGCAAGGCACCAGGGCACACAGCTTGAAACACAGCGTGGCCTGGATCTTAGCCCTCATTTGTACCCCTTGGCTGGGTC
Celera SNP ID:            hCV22273733
SNP Position Genomic:     57405
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,18)   caucasian(C,28|T,8)   total(C,48|T,26)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16228):
CTGTTTTGCTGCAGCAGATTCACTATCCGAAGTATTGTGCCTGATCCTTGGCTTGTTGCAGACCTGTGGAACACCCCCAGGGGCCTCCTGTTCCGAGACT
K
AATGTGGCGGGCCAAACTGCAGAACTGACGAAGGAGAGAGGAAGTGTGGGGGGCCTGGCTGTGGTGGTCTGGTTACTGTTGCACACAACGCCTGGCAGAA
Celera SNP ID:            hCV27468475
SNP Position Genomic:     77006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:16229):
AAAAACTCAGATATTCGGGGTGAGCATTTTTTGGTGCAAATAGTCCCAGACAATGGATTTAACGATATGTCTAACGTTTTAATATAGCACTTTTGGGGAA
R
AAAAAAGTTTTCTAATAAATTTTAAAACTTTTGCTCATCCAGTTTCTGGCACAAATGAGGATCAAAGTCCCCATTTTACAAATGTGGGACTTGGGCACAG
Celera SNP ID:            hCV11607693
SNP Position Genomic:     72350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16230):
CTTTGTTTTTAATTTTTATTTTTTGGATGCATGAAGGTTGACTTTCGTTGTTGTCTTTCTTTTTTGTTTGGGGGCAGATATGTCGTCCTTCCTCGGCCGG
Y
GTGCTTTGAGAAGGGAACAAACTACACGGTGAGGTTGGAGCTGCCTCAGTACACCTCCTCTGATAGCGACGTGGAGAGCCCCTACACGCTGATCGATTCT
Celera SNP ID:            hCV11607694
SNP Position Genomic:     48058
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16231):
GCAGGAGGAATGCTTGAGATCATGAGTTTGAGACCAGCAAGACCCCATCTCTAAAATTTTTTAAAATCATAAATAAAATAGGCTGGGCACAATGGCTCAC
M
CCTGTAATCCCACCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGTCAGGAGTTCAAGACTAGCCTGGCCAACATGATGAAACGCCATCTCTACTAAAA
Celera SNP ID:            hCV11607695
SNP Position Genomic:     35439
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16232):
GTGTGTTTGCTATTTAGGCCTGTTTATAATCAGCTTCTAAAGAGAAACAGTTTACTTATCCAGTAGGGTGGGGAAAAGTATACATTTTAGAGGTTAGACA
Y
TTTCCTTGCAAGAAGAGTCTCTGTGGAACAGCTTGAATTATTTGAAATCCAGCCACAGTCTGAAATACAAACCATATGCAGTTCAAGTTTGTGGCATGCA
Celera SNP ID:            hCV11607696
SNP Position Genomic:     22817
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;JBIC-allele(C,367|T,1108)   total(C,367|T,1108)no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16233):
TTCAATTCTTCCGGGTGTATACCTAATAATGTGGAATTGCTCGATTTTCCAGCTTCTTGAGTTATTAATTTCTTCCTCTTGCTTTTCCAAAGCACATTGC
R
TGCAACCCTACTATGGTGTTTGACATAGCATATTGCAAATTATTGACACCCATATCTGCACCTCATTGGACTGTGTATAACATATACAACATATAGTCCA
Celera SNP ID:            hCV11607697
SNP Position Genomic:     22497
SNP Source:               dbSNP
Population(Allele,Count): JBIG-allele(G,362|A,733)   total(G,362|A,733)   (A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16234):
TAACTGTGCACAGAGTCCCCATCAGACACATCCATAGCATTTCAGTAGAGGGTCCCAGCTGCAGATGCAGACTCACTTAACAATAGACAAGGGTGTGCTA
Y
TTCTCTTCAGTACCTGGGCGCTGAAGCAGACTCTTTTCTTAGCTTCTCGAAAGGAACCAATTAGCCATACCCAGCATTGTAAAAAGTGCTGTTGTTTCCT
Celera SNP ID:            hCV15870481
SNP Position Genomic:     57610
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,135|T,1158)   total(C,135|T,1158) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16235):
TGTCTGATGGGTGTCTCCAAGTGGACATCACACATGTGACTAATTAGCCTACAACCAAATGCTTTCACGCCTCTTCCACGTTGTCGTCATTGGCAACACA
K
CTACCTGGCTACCCAAGTTCAGGTGCCTGTATTTCTTTCCTCACCCTGCCTTTTCCACTACAATCTAATTGATCACCAAGTGTAATTCAATAGAGTCTTC
Celera SNP ID:            hCV15922115
SNP Position Genomic:     21132
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,171|T,1324)   total(G,171|T,1324) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16236):
AAGTGATTTGCCACTTAGAATAGCAGTCAAGATGAGGCTCGCTTTTTAAATATGGCAGGAGAGAGTGGGGGGAGCATATTTGCTCTACTGAGGGGTTTCC
R
CAAAGGTCAGTTCAAGGGTTTCTAAATACTCCAGCTGCTCTTCAAGTTTGTTGTTTGGCCTCTTGTCAATAGGCGCTTGTGCTCATTTTGTGCAGGAGGA
Celera SNP ID:            hCV16252102
SNP Position Genomic:     26700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16237):
AGTCCCACGTTGCTTTGAGGCAAGGTCCACGGCAGAAGAAAACCCCATTACCTGAATCTTAGGGTGTAGCAGTTTCTCTGTCCCAAGGCAAATTTAAGTT
K
CCAACAAAAAGGAGGATAATCAGCCCAGTACTGAGTGACCAATGGTATAGAGTGGGGAGTGGACACAGAGAGAACAGCTGATACTGTTCTGCCACTTGCA
Celera SNP ID:            hCV1091262
SNP Position Genomic:     63288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16238):
TTTTACCTACAATATTATGCTAACACTTACTTGAGAGGCCAGGACATCCTGTAAATGAATCACCAGATTCTGAAATCAGCTTTGACCAAAATGAGAATCA
S
ACTGTTTGTATTAAAAGCAACTGGAAAGACTATCCTCTCAGTGATGATTTCTATAGTTCGTTACTAGAGAAGTTTCTCTAAACATGTAGAGAGCATCAGA
Celera SNP ID:            hCV16252109
SNP Position Genomic:     9354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16239):
ACAAAAATGTTTCTAACTATCTTATAATAACAATGAGAACTGGAGTGCTTTGATAAATCTTTTCCTACCTGAATGGAATTTTCTCATGTTGAAACTGACA
Y
TAATTGCTGTGGGAAGCAGATGGCATTGTGCTACTTCAAATTACTGTCTGCCCGCAGGTTCCAGCAGTCATGCAGCTGCGTTCTTATAATTTCTCCACTT
Celera SNP ID:            hCV1091264
SNP Position Genomic:     27661
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   JBIC-allele(C,356|T,1125)   total(C,356|T,1125)   (C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16240):
GTGGACCAAAATGTTGCTTAAAAACTTGAAATGTTCTCTCCTTAGGTTGTAGTTATTCTATAGCGTTAACACTATTTTGGTAACTTGGATGTCATTTAAG
Y
GGTGGGAAATTTCAAATTTTCCCTTCCAAAAATAGAGACAAAAATGTTTCTAACTATCTTATAATAACAATGAGAACTGGAGTGCTTTGATAAATCTTTT
Celera SNP ID:            hCV1091265
SNP Position Genomic:     27523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   (C,-|T,-)   JBIC-allele(T,358|C,1145)   total(C,1145|T,358)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16241):
TCACCATATTGGTCAGGCTGGTCTCAAACTCCTGACCTCATGATTCACCCGCCTCGGCCTCCCAAAGTTCTAGAATTACAGGTGTGAGCCACTGTGCCTG
R
CCAGGACTCTTAAATTTTTAAAATGACCGTTTTCTTTTTTTGGACACAACTACAGCAAGAAATAATACAGATCTTCAAGTTGGCAACTCATTCAATATCT
Celera SNP ID:            hCV16170600
SNP Position Genomic:     59409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16242):
ATTAAAAAAAGTAGAGACTACCAATAAAAAACATCAAATGAGATTTTTGCTCCTGCCTTTAGACATTCCGTCCAGCTGCTATGCTGATAGAACGATCGTC
Y
GACTTTGGGAAAACCTGGGGTGTGTATAGATACTTCGCCTATGACTGTGAGGCCTCGTTTCCAGGCATTTCAACTGGCCCCATGAAAAAAGTCGATGACA
Celera SNP ID:            hCV1091266
SNP Position Genomic:     23041
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,37|T,3)   total(C,72|T,6)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16243):
TGGTTTCCTAGGGATGCCATAACAAAGTGTCACGGACTGGGTGGCTTAAACAACAGAAATGTGTCTTCTCACAGTTCCATAGGCTAGGAATCTCAGGGTA
W
GGTGTTGGCAGGGTTGGTTTCTGCTGAGGCCTCTCTCCTTGGTTCGGGATGGCTGTCTTCTCCCTGTGTCTTCACATGGTCTTCCCTCTGTGCATGTGTG
Celera SNP ID:            hCV1091267
SNP Position Genomic:     20511
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|T,7)      total(A,6|T,7) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16244):
TGGGAGGGAGTTCAGGTAAGAACAACAATGTGAAGCACAAGGCCGCAAGGATGTTCTTGAAACCATCACAGAGTCCATGCTGGGAAGGATTACTCCAAGG
Y
TCACTTCAACCAGTGTATTGAGAGCAGTACTCTGTTGGGCACCAAGGATGTGAGTAGATAAGACACAGTCCCTCTTCTGCAGGCTGTTGTGTTGCAGGGG
Celera SNP ID:            hCV16170602
SNP Position Genomic:     32661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16245):
AGTATAGACTCCGGAGTTGCAAAGAACTGAATCAGAATTCTGGCGTGGCCTTTTCCTTGCAGTGAGACTTGGGGCATGTTACATAATCTCTCTGATCTCT
S
AGTTCCCACATCTGTGAAATAGTGATTATTATAACACGTATCCCATAGGGTTATTGTGAGAGTTAAATGGGATCATTCATATAAAACATTTCTGTTTAAA
Celera SNP ID:            hCV2193690
SNP Position Genomic:     68691
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16246):
AAAGGCCTGATTGTGTGTGTGTTTTTTAAAACTTTAGTTTTGGAAGTGTGCATTAAAGGTGATTTATCCTCTTTTTAAAACCCTTGGGTTTCCCCACCCC
Y
CTCTACCGCATCTTCACTTGAGTAAAGAGGATTCCAGCAATGACAGGCGTCTTGCAAGGTGATTCCAATCACTGAACGAACCCGTTTTCCTCTCCTCATT
Celera SNP ID:            hCV1091268
SNP Position Genomic:     8169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16247):
AACTGGATACTTAGAATTCCTTTGGGTTTTGTTTTGTTTTGATCATGTTTATTGCATTTCATCAAGTATGTTTTGTTGTGAGATAGAGTCAGGTACGTAA
R
GAGCTTCTCATTTGTGATGTATCCGATGCCAGGTGGCACATTATCAGGATGTAACCTGGATTGTTTGTACAGACATGGTCTGTGGGGAAATCCTAAGTAA
Celera SNP ID:            hCV2193691
SNP Position Genomic:     68460
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16248):
GCACAGCCACTGTGCTAAGTAATCTCAGCCACAGCTACTGGCCAAGAACACATTTTGTCCTGTACGGCACGTGATTTTCCTGTGCCATTTGGCTTTGCAT
R
AGGTGCCAACCCTATTGGGCCTGTGAGACGCTGAGACTGAATGGCTCCCAAGATCCCTGCTTGTAGTACTGGCAGTGGTCATCACAATGGCAGACACCCC
Celera SNP ID:            hCV2193692
SNP Position Genomic:     68227
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16249):
TGCACAGCTGTTTTGCTGCAGCAGATTCACTATCCGAAGTATTGTGCCTGATCCTTGGCTTGTTGCAGACCTGTGGAACACCCCCAGGGGCCTCCTGTTC
Y
GAGACTGAATGTGGCGGGCCAAACTGCAGAACTGACGAAGGAGAGAGGAAGTGTGGGGGGCCTGGCTGTGGTGGTCTGGTTACTGTTGCACACAACGCCT
Celera SNP ID:            hCV25644702
SNP Position Genomic:     76999
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16250):
TTACTCTTTTTTTTCAACATACTATCCAAGGATACATGTTTTAGGAACCAAAGTGGCCTTATTTTAAAATACGATGTTAGATTTGCTTGTTTTAAAAAAA
A
TTGTATCATTTTATGAGACCTGAGAAGAAATGAAAGCCTTCTGTGAGTCATATAATTAATAAAAGCAAAGCACTGAAAAAAGAAACTATGTATATTAGCC
Celera SNP ID:            hCV27207784
SNP Position Genomic:     70944
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16251):
TCTGACTTTTCCTTTGTGACTCCCAGAACACATGTTGAATCCTTTAGTAAATGACTCCTCAGTTCAAAGCTGTCATCACTCCTAAAGTCCTTCTTGATGA
K
ATAAAAGTGGCATATGCAATTCCCCAAATTATGTCATAAACTCAGGAATGTCCTATGATTCTTAACCCTAAGTAAGTTTTGTTCCTACACTCCCTTCCTC
Celera SNP ID:            hCV346777
SNP Position Genomic:     37464
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16252):
TACAGACCTAGAGGATTTTAAGGCCAGATAGGACTTATGAGATCACCTAGACCAACTATTGGTGATAGAGCCCAAGGATTAAGTAATTTACTAGAGAGCC
Y
TAAGTAAATGAGCAGCAGGTGGAAGCTCAAGCCTCTCCTCACTCAGCCCCAGGGTTCCTTCCCCTAAGCTGTGGCCTCCCCTCATGAAGGCTGTGCTTAT
Celera SNP ID:            hCV11428591
SNP Position Genomic:     29882
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16253):
CTAAAACAAATTCTAGTAGTACTCAATTGTCTGCAGTTACTTTTTTGTGTGTGTAGGTCTCATCTCCCCTCAAAATCCCAGATAGATTATAAACTCTTAA
W
CAGGAAGTTAGTGTCTCTTGGTGTGTAACCCCACCATGCTAGTCCATAGTAGATGACCAGTAAGTGGTTGAATGAATGAACCATCTATTCTTTTCACCTC
Celera SNP ID:            hCV25644703
SNP Position Genomic:     79596
SNP Source:               Applera
Population(Allele,Count): african american(A,31|T,5)   caucasian(A,38)   total(A,69|T,5)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16254):
GATAGTGCTGATTTGGACAGCATTGAAGCAGTTGCTAATGAAGTATTGAAAATGGAGATGCCTAGCACCCCACAGCAGTTACAGAACTTGACAGAAGATA
Y
ACGTGAACGAGTTGAAAGCCTTTCTCAAGTAGAGGTTATTCTTCAGCATAGTGCTGCTGACATTGCCAGAGCTGAGATGTTGTTAGAAGAAGCTAAAAGA
Celera SNP ID:            hCV25644704
SNP Position Genomic:     79827
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,37)   total(C,1|T,73)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16255):
TCTAAACTTCAAATTTTTGAATAATCATGACGTTATTGGCAAATACATATAAATAAACATATAACCGGAACACGTTTTTCCCCTTTATCCAATGGAAATA
Y
GATCAAGCATCACTCTTAGCAGAAGACTACCAGACACTTGTAGGGACACGAAAAGTGATAATAAAAACAATTTATTTATTGAATGCTTGCTATAGACCAG
Celera SNP ID:            hCV2193697
SNP Position Genomic:     66565
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16256):
AGGGAGGCTCTCGCTGCTGGACAGACCTGATGACGTGTGTGGGTTTCTTTCCGTGTCCTTCTCCTTTCGGAGTCCCTGCCTTCCCAGCCTCTCCTGCGCT
Y
ATCTCTCCATTGTCTTTTCTGTGCATTTTGCTTTCTTCCGAATGGACTGTCCTCTCTCCGCACCCACTCCCCCGCCCCCGCTTGTTCGTTTTTTTCGGGC
Celera SNP ID:            hCV25644705
SNP Position Genomic:     7477
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:16257):
AACTGGATAAAAACAATATAAAACAGTTTTTCCTGCAGAACTCTTCTGAGTCTGTAATATGCTGACACTTGTTTTTAATCTTCAAGATAAGGATACAGAA
Y
TTTTCATCATGGGATAGTTTTTTCAAGGAACACATCATAGAACGTATGGTCTACGGATCACCATTAAAGTTATCCATGGTTTGCCTAAACAGCTTCCTGA
Celera SNP ID:            hCV2193698
SNP Position Genomic:     66180
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16258):
AAACTTTCTAATTCCCTTCTTTGGGCTCGGGGGCTCCCGGAGCAGGGCGAGAGCTCGCGTCGCCGGGTGAGGAGAACAAAGTGGCTGCACGATTTTCCCC
M
CTTTCCAGCCCACCCCCCGCTTCCGTGGGAGCGACAGGAAATGGAAGGGCGCCTCTTCTCTCTTTGAACATTTGCCTTTTTTCCCCTCCTTTCCACCTCT
Celera SNP ID:            hCV11428667
SNP Position Genomic:     6285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16259):
TGGCTGAACTGGTTGTTGACTTCTGGAGAGAGCCGAAGCTCTGCTAGCTCATTGGAACTCTTACCCAGGCTAATTTCCCTCGGCCAGATAAAGAGGGAAG
M
CTTATCTGCCTTTTAAGTCTTTCAGGGTTGGGCTGTTTTCCCCTTAAAGATGCCTATGACAGAATGGGAGCAAGACATGTCTTTGGCAACGAAATAAATG
Celera SNP ID:            hCV2193699
SNP Position Genomic:     65026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,9)      total(A,3|C,9) ;(C,-|A,-)   Caucasian(C,30|A,52)   African-American(C,34|A,46)   Asians(C,9|A,71)   total(A,169|C,73)no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16260):
AGTCCCTGCCTTCCCAGCCTCTCCTGCGCTCATCTCTCCATTGTCTTTTCTGTGCATTTTGCTTTCTTCCGAATGGACTGTCCTCTCTCCGCACCCACTC
S
CCCGCCCCCGCTTGTTCGTTTTTTTCGGGCTCCACTCCCTGCTTGTGTCCCCCCAACTCTGTTGCCTGTCCTTCCCGCAGCCCTGTGCAGAGCCCGAGTG
Celera SNP ID:            hCV25644709
SNP Position Genomic:     7547
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,2)   caucasian(C,40)   total(C,74|G,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16261):
TTTGAACTCACCGTGGTGAAGCCCCGAACCCTCCCTTGATGCATTGCTTCTGCATCTCTTTTAGCATTTATTTTGCTCTTATAGTTGTGTTAAAAAGGTC
Y
CTTTGGACAGAGATTATGTCATCTTTGTTTTTGCATCTCACTTGGCACCCAGCACGGTGGACCTGGCAGGTACTCAATAAATGAGGGACTAAAATTTATT
Celera SNP ID:            hCV15922127
SNP Position Genomic:     39270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16262):
GGAAATCCCTCTTCGCACAGCTGCTTATTTGTGAATGTTCTTTAGCCAAAGTTTGCAGGTGTCCTTAAAATGCTTTCTCAACACATCATGCTCCTTGGGG
R
GGTGGGGTTTTTTGTTTTTTTTTACTGTCAGAAAAAATTTTACATCAATCTCAGCTTAGATCATCAGAAGTACTGAAAGAATGAAGTGAATATATGAAAT
Celera SNP ID:            hCV22275564
SNP Position Genomic:     82699
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,8)   caucasian(A,24)   total(A,42|G,8)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16263):
TGGGGGGAGCATATTTGCTCTACTGAGGGGTTTCCACAAAGGTCAGTTCAAGGGTTTCTAAATACTCCAGCTGCTCTTCAAGTTTGTTGTTTGGCCTCTT
K
TCAATAGGCGCTTGTGCTCATTTTGTGCAGGAGGATTTGTGCAGGAGAAAATGTTGGCGTTCATAACTGCCATTCAGTTGGGGAGTACCACGGTTTCTCT
Celera SNP ID:            hCV15922128
SNP Position Genomic:     26765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16264):
AAAGGACTCAACCATCTGCTCCCTTTAAGGTGAAATTTGTGGGACTTGGAGGATGTGTTGTCTTTATAATTTTGATTCTTTTGTCTTTTGTGGTTAAATG
R
CATCGGAGAATCTTTTTCTATGTTACGGAAGCATGCATGTTAGCTGATCATGCATTTGATTTACTTTGTAATCAAGGGAGCAATATCTCTTTAGTTGTCT
Celera SNP ID:            hCV15922129
SNP Position Genomic:     26472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16265):
AACTGGCTTCTGGCCTGAAGCCTGCTTGACCAAGGTCTGTGTTCTGGCCGCAGTTCACGGGGCAGTGCCAGTGCATGCCTGGGTTTGGAGGCCGCACCTG
Y
AGCGAGTGCCAGGAACTCTTCTGGGGAGACCCCGACGTGGAGTGCCGAGGTGAGTTGTGGGCGTTCTCGCATTGACTTGATCAGAGAGTGGAGGGAACTG
Celera SNP ID:            hCV11607702
SNP Position Genomic:     58088
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,38)   total(C,71|T,5)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16266):
GCGCTTTCAGGCTACCCAGCCGGCGCAGAGGATCCTAAGCCTCAGCAGAGGCAAAACCTCCCCAGGCTGTAGCAGGGCAAGTGCTGATTTGGTGAATAAT
K
AATGCCTCACTCACCTAGACCCCAAGGCTCCCGCCTGCCTCAGACTCGTGCAGGCTTACGAACTCGTAAAGCAGCTGACTCTATGGTCTAATGATTAAAC
Celera SNP ID:            hCV27845147
SNP Position Genomic:     4698
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(G,1|T,39)   total(G,1|T,75)
SNP Type:                 TFBS


Context             (SEQ ID NO:16267):
GAGAGGAAAGGAAGGAAGGAGAGAGAGGAAAGAAAAGGAAAAGAGAGGAAGGAAGATGGGAGGGAGTTCAGGTAAGAACAACAATGTGAAGCACAAGGCC
K
CAAGGATGTTCTTGAAACCATCACAGAGTCCATGCTGGGAAGGATTACTCCAAGGTTCACTTCAACCAGTGTATTGAGAGCAGTACTCTGTTGGGCACCA
Celera SNP ID:            hCV16170612
SNP Position Genomic:     32605
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,66|G,1435)   total(G,1435|T,66) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16268):
GTCTTTTCTGTGCATTTTGCTTTCTTCCGAATGGACTGTCCTCTCTCCGCACCCACTCCCCCGCCCCCGCTTGTTCGTTTTTTTCGGGCTCCACTCCCTG
Y
TTGTGTCCCCCCAACTCTGTTGCCTGTCCTTCCCGCAGCCCTGTGCAGAGCCCGAGTGCGCGCTCAGGAACCCGAGTTCAGCTACGGCTGCGCAGAAGGC
Celera SNP ID:            hCV25644710
SNP Position Genomic:     7589
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:16269):
TCTAGAGCAAAATGGCACAGCAGACTTTTAAATCTTCCTCCAAACTTGTACTCATAGTAATTCCATTTCTTAAACTAATGTCTTGCTGGAAAATTGACAT
R
CTTTTAGATTGAGTCTGAAACAGCAGCTTCTGAGGAAACCTTGTTCAACGCGTCCCAGCGCATCAGCGAGTTAGAGAGGAATGTGGAAGAACTTAAGCGG
Celera SNP ID:            hCV25644711
SNP Position Genomic:     82973
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,32)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:16270):
CTAAACATCTTGTGTTTGGTTTTATCGGGTGACAGGTTCCAGATGTGACGACTGTGCCTCAGGATACTTTGGCAATCCATCAGAAGTTGGGGGGTCGTGT
S
AGCCTTGCCAGTGTCACAACAACATTGACACGACAGACCCAGAAGCCTGTGACAAGGAGACTGGGAGGTGTCTCAAGTGCCTGTACCACACGGAAGGGGA
Celera SNP ID:            hCV25922169
SNP Position Genomic:     55674
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,38)   total(C,73|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16271):
GAATAGCTTGAACCCGGGAAGTGGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGAGACAGAGTGAGACTCTTCCAAAAAAAAAAAA
A
GTTTTTCAGAGGCAAATCACAGCTATTGACCCAAGAGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTCGGG
Celera SNP ID:            hCV27207793
SNP Position Genomic:     67359
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16272):
AGAATAGCTTGAACCCGGGAAGTGGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGAGACAGAGTGAGACTCTTCCAAAAAAAAAAA
A
AGTTTTTCAGAGGCAAATCACAGCTATTGACCCAAGAGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTCGG
Celera SNP ID:            hCV27207794
SNP Position Genomic:     67358
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16273):
CTCGAGAGCTTGGAATGTAGGGGGAGAACAAAGACAATAAAAAGATAAACTAGCAATACAAGGCAGGATGTGGTGAGGGCCAAATGAATGGGCCACAAAC
A
CACACCTCTGGGTTGAAAGGATGGTGATGTTATAGCAGATCTCAGGACCCTCAGTATAACTGGTTCTGGGAGATGTTCCATTAGAAAGTTTTTCAGAGGA
Celera SNP ID:            hCV27207795
SNP Position Genomic:     66970
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16274):
ACTCGAGAGCTTGGAATGTAGGGGGAGAACAAAGACAATAAAAAGATAAACTAGCAATACAAGGCAGGATGTGGTGAGGGCCAAATGAATGGGCCACAAA
C
ACACACCTCTGGGTTGAAAGGATGGTGATGTTATAGCAGATCTCAGGACCCTCAGTATAACTGGTTCTGGGAGATGTTCCATTAGAAAGTTTTTCAGAGG
Celera SNP ID:            hCV27207796
SNP Position Genomic:     66969
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16275):
CCTCTTTTACTTTAGATCTTGAATTTGCAAGGAAGGAGGAAATTATTTTCAAGACTATTTTAGACTCAGCAAGTTAAAAGTGAAAGATGTGATACAAATC
W
CCTAAGCAATTTTCACACAATTATTTTTCTTGAAGCTAATAGGTTGATTTTTGTATTAGGAGCTTCATGGGGTTTTTTTAATTAAAAATGTTTTTAATGA
Celera SNP ID:            hCV25644715
SNP Position Genomic:     10733
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,36)   caucasian(T,40)   total(A,2|T,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:16276):
CACTCGAGAGCTTGGAATGTAGGGGGAGAACAAAGACAATAAAAAGATAAACTAGCAATACAAGGCAGGATGTGGTGAGGGCCAAATGAATGGGCCACAA
A
CACACACCTCTGGGTTGAAAGGATGGTGATGTTATAGCAGATCTCAGGACCCTCAGTATAACTGGTTCTGGGAGATGTTCCATTAGAAAGTTTTTCAGAG
Celera SNP ID:            hCV27207797
SNP Position Genomic:     66968
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16277):
ATTAAATACTGTGAAAGCTAAATCTTCTTATTTCATTCTTAGTAGATGCTATTTTCTTATAAAAAATAAAAAGGCTGTTGGTAGAAGGAGGCCCCTCTGA
Y
GGAAGAGAGGAGTGTATGAAAGCTGATACTGGTGGCTCCTGTTGTCTTTGTGGCAGGCTATAGGGCTTCCCCTCTGCATGTTCCATCTTGAAGGAGATCC
Celera SNP ID:            hCV29388063
SNP Position Genomic:     71555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16278):
TTTTACTTTAGATCTTGAATTTGCAAGGAAGGAGGAAATTATTTTCAAGACTATTTTAGACTCAGCAAGTTAAAAGTGAAAGATGTGATACAAATCTCCT
R
AGCAATTTTCACACAATTATTTTTCTTGAAGCTAATAGGTTGATTTTTGTATTAGGAGCTTCATGGGGTTTTTTTAATTAAAAATGTTTTTAATGAGATT
Celera SNP ID:            hCV25644716
SNP Position Genomic:     10737
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:16279):
ACCATTGTTTGCCATGCCCTCAGGGGGTTAGCATAGTGGAGCGGCAATATATCCAGGACCGGATTCCCTCCTGGACTGGAGCCGGCTTCGTCCGAGTGCC
K
GAAGGGGCTTATTTGGAGTTTTTCATTGACAACATACCATATTCCATGGAGTACGACATCCTAATTCGCTACGAGCCACAGGTAAAGAAACCACTTAGTG
Celera SNP ID:            hCV22274480
SNP Position Genomic:     46378
SNP Source:               Applera
Population(Allele,Count): african american(G,13|T,25)   caucasian(G,10|T,30)   total(G,23|T,55)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;JBIG-allele(G,374|T,1119)   total(T,1119|G,374)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16280):
CCACTCGAGAGCTTGGAATGTAGGGGGAGAACAAAGACAATAAAAAGATAAACTAGCAATACAAGGCAGGATGTGGTGAGGGCCAAATGAATGGGCCACA
A
ACACACACCTCTGGGTTGAAAGGATGGTGATGTTATAGCAGATCTCAGGACCCTCAGTATAACTGGTTCTGGGAGATGTTCCATTAGAAAGTTTTTCAGA
Celera SNP ID:            hCV27207798
SNP Position Genomic:     66967
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16281):
AATAAGCCCATGGGATTATTATTTAGTTTCAGCTTCAGCTTAAGGTAGAATGCGAGGATAATTTCTATGGGGAACATAAAAGTAATTTAAAAAATAGTCT
S
AACTATTCACAGATGTTTCTATTTACAGTTTCATTTATTGTTTTATTTTTTTTAAATCTCCTGTAGGTGTGGAAAATGTAACTATCCAACTGGATTTGGA
Celera SNP ID:            hCV25644717
SNP Position Genomic:     14338
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,33|G,5)   total(C,69|G,7)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16282):
GAGTACGACATCCTAATTCGCTACGAGCCACAGGTAAAGAAACCACTTAGTGGACTGGTGGAGGAGGGAGGGGAGAATCAGTAGAAAAATAGTACTTCTA
M
TGGGTATTATATATAGTTATGAAATATGGAGGTTGCATTAGAACAGATCAGATTCCTATAGTCTCACCTCCTCCATGGAAGTTAAAATAAATGTACCATT
Celera SNP ID:            hCV22274481
SNP Position Genomic:     46527
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|C,3)   total(A,75|C,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:16283):
AATTATTATGGCTTGTTAAAATGAGTATCTCATTTAAAAAATACTATTCTTCATCTTCATGATTTGTTCATCTTAAAGATTAGGCAACAACTTTTGCTAT
R
TATGCTCTCCTTTCCAAGAGAAAGTTTCTGATTCTCTGCCAAGTAATCCCATTTCTTAAAATAAGACTGCTTTATCTAGGTCATTTGGATTCTGATTCCT
Celera SNP ID:            hCV2193700
SNP Position Genomic:     64333
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16284):
ATCCCAACACTTTGGGAGGCCAAGGCGGGCGGATCACTTGAGGTCAGGAGTCCGACACCAGCCGGACCAACATGGTGAAACCCCATCTCTACTAAAAATA
Y
GAAAATTAATCAGGTGAGATGGCGCACACCTATAATCCCAGCTACTTGGGAGGCTGAGGCATGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGA
Celera SNP ID:            hCV2193702
SNP Position Genomic:     61202
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16285):
AACTCTGTTTTTATATTCTTTCTTTCCTACTTGATTTTCTTCCCTGTTTTTAATTGATCATTATGGATAAAAATTTTCTGTAGTTTCTTAAGTGCTCTTT
S
GTATATTTGTTGCACATCTGAAATTATAGGTCTCTGTTGGACTCTTGAATTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCTAGGCCGGAATGC
Celera SNP ID:            hCV2193704
SNP Position Genomic:     59068
SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   Caucasian(C,27|G,55)   African-American(G,72)   Asians(C,13|G,65)   total(G,192|C,40)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16286):
GCCTGTGACAAGGAGACTGGGAGGTGTCTCAAGTGCCTGTACCACACGGAAGGGGAACACTGTCAGTTCTGCCGGTTTGGATACTATGGTGATGCCCTCC
R
GCAGGACTGTCGAAGTAAGATGCACATTTATTCTGCCCACTTCTTAGAATGACTTCCACCTTTTTTTCATTATCAGCAGATTTTATTCTTCCTGTATTTA
Celera SNP ID:            hCV2193705
SNP Position Genomic:     55819
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,27)   caucasian(A,10|G,16)   total(A,19|G,43)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16287):
CTGCTTTCAATACCCAATTCTAGAGAAACCTAATAGAGCACTTATAGCTAAACAATCTGTTCTGTTTAGAATGCATGGAAAACTTAATGTTTTTTATAAG
R
AATATACTGTGACTACCAGATATTAAAAGTACTCATTACGAATTTTTCATAGGGATCTAGCACCTTGCTCTAAAAATCCTCTTTATCTCTTAAAAGAAGT
Celera SNP ID:            hCV15958107
SNP Position Genomic:     81126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16288):
CCAACCTGGGTGATAAAGCAAGGCCCCATGTCTTAAAAAAATGTAATCCTTGGATTAGGATTTCTACATGAAGCTATGCTTTACATTGTTAGTTTGCTCC
Y
AACATGCTCCACCCCCATGTGCTCAGAAGCTAAAGTCTCATGTGCTAGGACCTAACTGTCCACAGCCGCTGTGGCCTCTGGGGCAGTTGCAACACTGTTA
Celera SNP ID:            hCV2193706
SNP Position Genomic:     55259
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16289):
ATTTAAATTAATTTTACATGTGGCCCAGCCTGTCTCTGGTCTGTAATTTACTCATTCATTCTCTTGTAAAACAAATATTTAATAGATGTGTCCAGCTCTG
R
GCCAATTTCTGAGTGAGCCATGAGGCCTTTCCTGCATGTCTCAAAGTGCAGTTATGAAAAACGTCCACAAGGGCTCTGGGACAGACACCCCCTAAGTCCC
Celera SNP ID:            hCV15922139
SNP Position Genomic:     26269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16290):
CTAACTTGCTTTCTAACCTTGGGTGAGTTAGGATATCCAGCTTCTAGAAAATTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGAAGTACAGTG
S
TGCAATCTCAGCTCACTGCAACCTCTGACTCGCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCTTTTTGTTGTTGTTG
Celera SNP ID:            hCV2193708
SNP Position Genomic:     51858
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16291):
AGTCCATGAGGATAAAGCATTTCCATAAGCAGGGTAGGGAGAGGGGAATGGAATCAGAGAAGCATCAAATACCTGAAATGTATGTTTTTCTCTTTGAAAC
R
TCAGACCATCCTCTGAAGGTCACTGGGCTTTGGTCTAATGTCCTGTGATATTTGAGCTTTGAAGGCAAGGGGAGAAAACATTAATGACCTCCTGCCTAGA
Celera SNP ID:            hCV2193709
SNP Position Genomic:     49251
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   JBIC-allele(A,382|G,1101)   total(G,1101|A,382) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16292):
CCAGGTGGTTTATAATTAATAAACAGCAATGCTTTCTAGAAATCTTAATGGGATTTCTCTGGTTTTACAATACTCACTGGTCCAAGAATATGTGCTCCCA
R
TACTCTGTCTGTCGATTTCTGCCCAAGGATCTTCACCATGCCATCTGTGTCAGCATTTGTCTTAGCTCTGCTGTTAGCAGCAAATGGGAATTTCCCAACT
Celera SNP ID:            hCV8856530
SNP Position Genomic:     91306
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,29)   caucasian(G,40)   total(A,7|G,69)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16293):
CTTTAAGGCATCCATAGTTTATTTAAAAGTGAAAAATATATTCACTTTGTCTTGAGATCATCATAGTATAAATTGCTCAGACTTTATATATATATATATC
Y
CCACAGATTTAGAAAGAAAATATGAAGACAATCAAAGATACTTAGAAGATAAAGCTCAAGAATTAGCAAGACTGGAAGGAGAAGTCCGTTCACTCCTAAA
Celera SNP ID:            hCV11428539
SNP Position Genomic:     85246
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,16|T,24)   total(C,23|T,55)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,26)   caucasian(C,21|T,15)   total(C,31|T,41)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16294):
GGAATGTGACTTCTACAAAAGCTCCCAGGAAATTTCAGAAAAAAATATATATAATCTTCTAATTCAAAAGTTGATTGATTTGCCAAATGACGCAGCAAGA
K
TTGCTTCTCTAAAAGCTTCTGATAAGGTCTGCAAGGGAAGAAATTTAAAATTAAAATCCAAATATTTGTGGGTCAGAAGAAAATTTAGGCAACCATCAAT
Celera SNP ID:            hCV8856535
SNP Position Genomic:     90122
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16295):
CATTAGAGGCCCTCTCCCCACCTCAGCATTTGCACACCATGGAGAATCGTCGAGATGAGCGTTGTGGGGAAGTGCCTCTCATGAGAGATTTCCACTTCCT
K
GCTGTGTCAACTCTTCCACGGCGAGATGGGAAACGGAGTCAGTAACAATAATAGTGTCATTTGAGGAATTACCTGAGCTAAAGCCATCATCTGGATATAG
Celera SNP ID:            hCV27488315
SNP Position Genomic:     5213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:16296):
AAGGTCTGCAAGGGAAGAAATTTAAAATTAAAATCCAAATATTTGTGGGTCAGAAGAAAATTTAGGCAACCATCAATTCTATATGTTGTTAATAATTACC
R
GATGTGCATGACAGACTCTAGCTATATCTTCACAGGATGCTCCATATTCCAAAGCAAGAGCAGCTTCATTTACCATTTCTCCAGCACCCTTTAAAATAAC
Celera SNP ID:            hCV27861842
SNP Position Genomic:     90246
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16297):
TGAAAAAGGGTTTTAAACTTTCAATTGATTATGGAGAAACGTGGCTATTCATACATCTCTTCCTTTGTTCTCTCCTGTTTTTATAACTTTCAAGGTTCAC
R
GACACTGCATGTGCAGGCATAACACCAAGGGCTTAAACTGTGAACTCTGCATGGATTTCTACCATGATTTACCTTGGAGACCTGCTGAAGGCCGAAACAG
Celera SNP ID:            hCV25644721
SNP Position Genomic:     31206
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16298):
TTCTACAAAAGCTCCCAGGAAATTTCAGAAAAAAATATATATAATCTTCTAATTCAAAAGTTGATTGATTTGCCAAATGACGCAGCAAGATTTGCTTCTC
Y
AAAAGCTTCTGATAAGGTCTGCAAGGGAAGAAATTTAAAATTAAAATCCAAATATTTGTGGGTCAGAAGAAAATTTAGGCAACCATCAATTCTATATGTT
Celera SNP ID:            hCV27861843
SNP Position Genomic:     90132
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16299):
AAAGCTTTTCTTGACGTTGCTCTTGTCACGCAGAATGTAACTGCAATGAACATTCCATCTCTTGTCACTTTGACATGGCTGTTTACCTGGCCACGGGGAA
Y
GTCAGCGGAGGCGTGTGTGATGACTGTCAGCACAACACCATGGGGCGCAACTGTGAGCAGTGCAAGCCGTTTTACTACCAGCACCCAGAGAGGGACATCC
Celera SNP ID:            hCV25644722
SNP Position Genomic:     33554
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16300):
TTGACATGGCTGTTTACCTGGCCACGGGGAACGTCAGCGGAGGCGTGTGTGATGACTGTCAGCACAACACCATGGGGCGCAACTGTGAGCAGTGCAAGCC
R
TTTTACTACCAGCACCCAGAGAGGGACATCCGAGATCCTAATTTCTGTGAACGTATGTTGAGAAATGTCACTCACTGTGTGGGACCTACTTCAGATTGCC
Celera SNP ID:            hCV25644723
SNP Position Genomic:     33623
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(G,40)   total(A,4|G,74)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16301):
CAGGAGTTTGAGACCATCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATAGAAAAGTTAGCCAGGTATGGTGGTGCGTGCCTGTCGCTTGAACC
Y
GGGAGGCAGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGTCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGG
Celera SNP ID:            hCV15922140
SNP Position Genomic:     25720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16302):
TTAGTATTTTTCTAATATTTTGCGAGTTTTCAAGTCACCATTTCAGAGCCAGACGTTGACTGCTGACTTTTTTCCTTTGGAATTATCGATGCAGAGCTTT
S
TTTTTAATTTTTATTTTTTGGATGCATGAAGGTTGACTTTCGTTGTTGTCTTTCTTTTTTGTTTGGGGGCAGATATGTCGTCCTTCCTCGGCCGGTGTGC
Celera SNP ID:            hCV2193710
SNP Position Genomic:     47962
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(C,3|G,35)   total(C,4|G,72)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(C,4|G,36)   total(C,5|G,71)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16303):
TTACAGGCGTGAGCCACCACACCCAGTCAAAACGTACCATTTTCTTGAATCCAGTTTCTCAAACGTAGTGATCTTTTGTGAGGCACTCAACCTTGCTGAC
R
ACTGAGGTGGTGATGAGGATGTATGAGATCCTCTCCTTCCCTCACAACCTGGCTGTGCAGTGACAGACTGAAGCCCCGAACTGTAACGAAAGACTGAAGG
Celera SNP ID:            hCV2193711
SNP Position Genomic:     47005
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16304):
TGGCGATAGTGAGATTTCTTAGATGGCTTCCAGCTTCCAAAAAGAGGAAACAAGCTGCCAGCTCTCTGAAAGCTTGGACTCAGAAGTCCTAGAAAGTTCC
K
CAGGTTCTGTTGGTCACAAGTCACAAGGATTCATGGAAAGGATAACATAGTTTGCACCTCTTGATGGGTAAGGCCACACACGGGTACATACAGATACATA
Celera SNP ID:            hCV2193712
SNP Position Genomic:     45643
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16305):
TACAGAAAACTCTCAAGTGAAAGGGACTTAATCAAAAAGGATGTTTATTATCTCACATCTTAATAAGATATCCAGTAGCAGGATAGCTTCCTGGGTCTGC
S
ACCCACATACTTTTCATCTTTCTACTCTACCATCTTAAGCATATCAGCTTTGTCCTCTAGCTCCTCATGGTTACAAGGTAGCTGCCAAAGTTCCAGACAT
Celera SNP ID:            hCV27207731
SNP Position Genomic:     78531
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16306):
ATGTGCCACCACGCCTGGCTAATTTTGTATTTTTAGTAGGGATGGGGTTTCATCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCCGCC
Y
GCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACTGTGCCTGGCGATAGTGAGATTTCTTAGATGGCTTCCAGCTTCCAAAAAGAGGAAACA
Celera SNP ID:            hCV2193713
SNP Position Genomic:     45494
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16307):
TGCTCTGGGACAGCCAAGCTGGAGATGTTCTTCAGGGAGCTGGATATTTGAGCCTAAATCTCAGGAAATAAGCAAAAGATGTAACATGCCAAAGCAAGAA
R
GTTTGGGATGTGGAAAACCTTCATGTGATGCGGACGGCGTGTTAGTCAAGAGAGGGCAAGGGAGGTAAAACCGAGAAGACCAGGTTCTCAGCCACGCTTC
Celera SNP ID:            hCV2193714
SNP Position Genomic:     44397
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16308):
CAGAAAGAGAAGCCGTTTTCAGAGGATGGGTTATGGAGGCTGCAGAAAGCCAGGCAGAGGCATCATGGCTTGATATCATAAGAAACAATTGTGGGTTTTC
R
TGAAACAATGAAAGCAGCACTGTAGGAAGATCGGTTGGCCCGTGGTAGACAGGATGGACTAGGCAGAAGAGGAAGAAGAATTTGAGAGGTCAGTTTAGGA
Celera SNP ID:            hCV2193715
SNP Position Genomic:     41907
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;JBIC-allele(A,341|G,1154)   total(G,1154|A,341)
SNP Type:                 INTRON


Context             (SEQ ID NO:16309):
CACCCTCTTTGCTCCTGTTATTCCTGTCCTCTCTCTGCCTGTCAAGTCCTCTCCAGGCTTTAAGGACACCTCTTTCATGACGCCTCCCTCAGTCTTCTCA
R
TCAGATGAATCATATCTTCTTCTCCCTTAGTGCTTTGCTTGTAACTCTATCAATGCATAGGTTCTTACTGCATTTTGATTTGTTGCATTGGTTAATTTCT
Celera SNP ID:            hCV2193716
SNP Position Genomic:     41445
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16310):
TTACTTTAAGGCATCCATAGTTTATTTAAAAGTGAAAAATATATTCACTTTGTCTTGAGATCATCATAGTATAAATTGCTCAGACTTTATATATATATAT
M
TCTCCACAGATTTAGAAAGAAAATATGAAGACAATCAAAGATACTTAGAAGATAAAGCTCAAGAATTAGCAAGACTGGAAGGAGAAGTCCGTTCACTCCT
Celera SNP ID:            hCV11428541
SNP Position Genomic:     85243
SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,7)   caucasian(A,24|C,14)   total(A,37|C,21)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,17)   caucasian(A,20|C,20)   total(A,37|C,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:16311):
CCATGTCTATTATATTGACAACTAACCTGAACTTTGGAATAATTAAAGAAGTGGCCAGGCGCGTTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCC
R
GCGCGCCAGATCACCTGAGGTCAGGAGTTCAAGACCAACCAGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGG
Celera SNP ID:            hCV2193717
SNP Position Genomic:     38381
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16312):
TGCTGATTGAGTAGAATTTAAAAATAAAAGATTTCTAAGATGTTAAAAACTAGATATGTACTCCTTAGAGAGGCAATCTCTAAATGTGATCCCAGACACT
M
CTTAGTTACTTTGTTGAGGGACAGAATTAACCATAAAAATCACTGGAAGTGGTAAAAGCTTTAAGATGTTTTGTATAGTGAGCTAAATGGATTTTTGGTA
Celera SNP ID:            hCV2193718
SNP Position Genomic:     38159
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16313):
CTCCTACCTCCCCTCTCTTGCCCCTAAACATCCCAACTCCTTTTGCCAAAAAGGAACCCCCAAAACAGCACAATAAGACCTAAGTGCTAAAGGACAAAAA
Y
AGAAAAGGGTATGAGGCATCTGTGCTTCCCTAGATGCTATGGTTTTTTCACTGCAGACTCACCATCTAGGCCTGAGGGGACTGCTTCACAGTTAAATCCT
Celera SNP ID:            hCV11428543
SNP Position Genomic:     70203
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16314):
GTCGACCATGTGACTGTGACCTTGGGGGAGCCTTAAACAACAGGTAAATGGAGCTCTACGTATGCTCTTGTCCTCAGTCTTCCAGGAAAGTCATGACTTA
Y
AGGAATGGGTGACATTCAGTTGTTTCTCAAAAAGACATGCAAAATATTTTTTGTATGTCTTGATAAATGTGTGTAGGTACCTCTATGGACTAGATTCCCA
Celera SNP ID:            hCV2193719
SNP Position Genomic:     36430
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16315):
TCTGATTGGACAGTGTTTGTTAGTGGAAGCCTAGAGAATTGACCTTCTCAAGGATCATTTATCTACCCTTTCTCCTACCTCCCCTCTCTTGCCCCTAAAC
W
TCCCAACTCCTTTTGCCAAAAAGGAACCCCCAAAACAGCACAATAAGACCTAAGTGCTAAAGGACAAAAATAGAAAAGGGTATGAGGCATCTGTGCTTCC
Celera SNP ID:            hCV11428544
SNP Position Genomic:     70132
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16316):
TCCTGGGCAGAGCTCATATAGTATTTTAACTCATTTGGGCAGAAGATATTGATGAGTTGTAAACTTCCATTGTTTCCTTGGAAATAAGCAGGTTAGTTTA
Y
TCCTAAACTCTCTGCTCCTCTCTCCATTCTGTCTCCCAAACACTGTTTTCAAGCACCCTTGCTGAGGACCACCTACACATTCTCTGGGGCCACCCAGGCC
Celera SNP ID:            hCV15757010
SNP Position Genomic:     76797
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,32|C,1467)   total(C,1467|T,32) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16317):
TGGAAGGAGAAGTCCGTTCACTCCTAAAGGATATAAGCCAGAAAGTTGCTGTGTATAGCACATGCTTGTAACAGAGGAGAATAAAAAATGGCTGAGGTGA
M
CAAGGTAAAACAACTACATTTTAAAAACTGACTTAATGCTCTTCAAAATAAAACATCACCTATTTAATGTTTTTAATCACATTTTGTATGGAGTTAAATA
Celera SNP ID:            hCV8856543
SNP Position Genomic:     85419
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,29)   caucasian(A,11|C,23)   total(A,16|C,52)
SNP Type:                 UTR 3

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   POOLE|_CEPH(C,77|A,111)   total(A,111|C,77) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:16318):
CCTCGGGAAACAGTCTCAGCTGGAGAGTCATGGAGAGATTTGGTTTCACCAGATTGTGTGAAGCCTTCGGTGCTGGGCCATTAAGGGTAGACTTTGTTCA
R
TGGGCACAGGAAGGTCTGGAGGAGGAGAGGGAAGGATGTAAAGGAAGCAGGCAAGTTAGGTCTATGTGATAAATGGGTACATAGACTATTTCCCATTGTG
Celera SNP ID:            hCV11428548
SNP Position Genomic:     63962
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16319):
CAGGCTTACGAACTCGTAAAGCAGCTGACTCTATGGTCTAATGATTAAACTTCTCTGGGCCTTATTTCGTTACAGCTAAGTTAAAAACTGACCAGCTAGC
Y
GCTTAAACTCTTCTCCCGGAAATGACTGGAAAACAAGCCAAGTCTCCTGACTGGACTGACAACTAACTATACTCCCTGAATTCCAGCCACATTTGCCCAG
Celera SNP ID:            hCV27493369
SNP Position Genomic:     4849
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,35|T,5)   total(C,67|T,9)
SNP Type:                 hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:16320):
AACTTTTCAGTTGTCAGAAGAGGGCAAGATCAGTAGGAAATGGAGTCATTAGGGAAGGGTTTGCAGAAAAGATTAGCTCTAGTGGCCATCTACAGAGAAC
R
TGCTGAGTGCCAAGCACTTTTAGGCATATTATATAAGTATTCTTAATTTTATCCTTGCAACAAAGAACCTATGGGGGTAAGTATCATCTCCATTTCACAC
Celera SNP ID:            hCV11428549
SNP Position Genomic:     63552
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16321):
TGAGGAAATATGTAAATAAATAATAACATGCCACAGACCTTTCCAAGCCCTGTTGCAAAAGAGCACTTAGATGCTGGCATGGGGCTCTCGACACCTACGA
Y
TGAAGTGGGAGTCCCTTTTCCTAGTCAATGGAGACCTTCTCAGGTAAACAGTTCATTCCTACTTCTAAGTGGCAGCTAGAAAAAAAAGATGACAACTGGC
Celera SNP ID:            hCV3268606
SNP Position Genomic:     57894
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(C,13|T,25)   total(C,18|T,56)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;JBIC-allele(C,288|T,611)   total(C,288|T,611)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16322):
ATGATCCAGTCCTAACTAGATGGGAAGTTACTAAAACGCTAGTTAATAGATCTTTTCTGTCACCATATTTACTGGAGGAGTTAACATGGTGCTGGTGCTG
K
TCCCAAAGATGGTTCACAATAGGTTTTTTTTTTAAACTCTAACTGGTTAGAAAAAAAGGAAGGCATTCCTTGGCCCTTGCACTGGCAGAATTCAACTTGA
Celera SNP ID:            hCV8856549
SNP Position Genomic:     76579
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16323):
TTTGTATTTTTAGTAGAGACGGGGCTTCACCATGTTAGTCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGCCTCTGCCTCCCAAAGTGCAG
R
GATACAAAAGAGGCATGAGCCACTGTGCTCAGCCTCTTTTTTGTATTTTTAATAAGAAATGAATGATCATTTCTTGCCAAAATTTGCCACTATGAGGTGA
Celera SNP ID:            hCV27950865
SNP Position Genomic:     18029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16324):
CAATGCATAAATGTCACTGGAAAATGGAAATGCGATTACAGTAATTCACAAACTAATATTTAATGCTGGGTTGATAATTTTACCTGACTTAGAGGCAGGT
R
CCTGAAAAAAAATCAGTATTCTGTTAGCAAGAAAAAAGGCATGGCTAATAAGGAGTCAACAGTATTTGCTAAGGATATCTTAGGTAATATTTTATGGAAG
Celera SNP ID:            hCV134053
SNP Position Genomic:     78862
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16325):
GGTTTATTCACATGGTTAGAGTTAGACCACCACCACTATGTCCTCACCTCAACTCGGGAGAAGAGGGAAGACGAGGCAAGCAAATTCCATTTAAAGATGA
K
ACATGGGCCAGGCGTGGAGGCTCACTCCGTAATCCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACTTGAGGTCAGGAATTCGAGACTAGCCTGGCC
Celera SNP ID:            hCV15922152
SNP Position Genomic:     24813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16326):
GGCTAATTTTTGTATTTTTGGTAGAGGCAGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTAACCGCAAGTGATCCTCCCACCTTGGCCTCCCAA
R
GTGCTGGGATTACAGGCGTGCCTACCGCGCCTGGCCTGTTCCCTTCTGTTCTGGGAACTGGGATAATCTTGTTGCCCTGGCGGATAGTGGGAACCTGAAA
Celera SNP ID:            hCV15922153
SNP Position Genomic:     16714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16327):
AGTAGAGACGGGTTTTCACCATGTTGGCCAGGCTGGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGG
Y
GTGAACCAGCGCGCCTGGCCCAAATAAAAGTTTTGATGGTAAACAGCAGCCATGGAATAAGTCTTACTCAGAATCTAAATATTCAGTGCTAAATCTACCT
Celera SNP ID:            hCV27927829
SNP Position Genomic:     24004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16328):
TAGGAAATAAAATTCATCAAGGAAAACAAAATCTGGAAGGAAATACACCAAAAAGTTCACTGTAATAATTCCAAGTAGGATAATTATGAGATAAGTTTTT
W
AAAATCTGTATTTTTAATAACATTGTTATACTTTCTAATTTAGGGAGGATTCACTACCCCCAAATTATTACCATTAAATATGTATATTTATATATAATCT
Celera SNP ID:            hCV2193720
SNP Position Genomic:     35140
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16329):
GCCAGATTATTATTTGAAACTCACGTGGTCTGTGTTTCTCCACTTCATTTTGTTTTAATACAGCTTGTGCTTGCAATCCTCTGGGAACAATTCCTGGAGG
R
AATCCTTGTGATTCCGAGACAGGTCACTGCTACTGCAAGCGTCTGGTGACAGGACAGCATTGTGACCAGTGCCTGGTAAGTAAATCCTCATTACGTGGGA
Celera SNP ID:            hCV2193721
SNP Position Genomic:     34303
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,2|G,34)   total(A,6|G,66)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16330):
TGATTTGGTGAATAATTAATGCCTCACTCACCTAGACCCCAAGGCTCCCGCCTGCCTCAGACTCGTGCAGGCTTACGAACTCGTAAAGCAGCTGACTCTA
Y
GGTCTAATGATTAAACTTCTCTGGGCCTTATTTCGTTACAGCTAAGTTAAAAACTGACCAGCTAGCCGCTTAAACTCTTCTCCCGGAAATGACTGGAAAA
Celera SNP ID:            hCV27855006
SNP Position Genomic:     4782
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 hmCS


Context             (SEQ ID NO:16331):
TGAAGGCCGAAACAGCAACGCCTGTAAAAGTAAGTCTGTGTTGAAGGGACATTTTAAATCCATTCAGGCTCTAGTATCCATTTCCTAATTAGAGGTACTG
Y
AACAGTGTACTGTTTTGCAGAGGGTAGAAAAGTTACTGTCTTTTTTCCAGCTTCACCCTGATACTCCTAGACAACCAACAATCTGCATTCAGTTAATTAA
Celera SNP ID:            hCV2193722
SNP Position Genomic:     31392
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,2|T,38)   total(C,5|T,73)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16332):
AACTGGAGTTACAGGCAAGCGCCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATATTGGTCAGGCTGGTCTCAAACTCCTG
W
CCTCATGATTCACCCGCCTCGGCCTCCCAAAGTTCTAGAATTACAGGTGTGAGCCACTGTGCCTGGCCAGGACTCTTAAATTTTTAAAATGACCGTTTTC
Celera SNP ID:            hCV27207814
SNP Position Genomic:     59343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16333):
TGCTGAGATCGTGCCACTGCACTCCAGCCTGCGCAACAGAGCGCGACTCCATCTCAAAAACAAACAAAAAAACAGCCAGGTGTGGTGGTGTGTGCCTGTA
R
TCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAAAAAACAGAGGTTACAGTGAGCTGAGATAGTGCCACTGCACTCCAGCCTGGGTGA
Celera SNP ID:            hCV27207815
SNP Position Genomic:     53494
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16334):
GTATCTCTTTAACCAATGAAACTTCTAAGAAGGACCTATGCGAGTCTCTCTGGGTCATTTCAGGAAGGCTATTCTTTAAAGAAAAGAACACTGAGAGTAC
W
TTTTTCATGTTCAGCAACAATATACTGTCTCATTATTTTTTACTCAGCAAAAGTGCAACAGATGTTAAAGTCACTGCAGATATGGTAAAGGAAGCTCTGG
Celera SNP ID:            hCV22275017
SNP Position Genomic:     80091
SNP Source:               Applera
Population(Allele,Count): african american(A,5|T,31)   caucasian(T,32)   total(A,5|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:16335):
AAATTGATTTAGAGGTAACTTGTATTTGAGAAAAAATAATTTGCCCCACATCCTAATACTAAGCTTATTTATGCTTATGTCACTATATAATATTGAGAAA
Y
GTGGAAACGTTTTGTAAAACTGGGACAAAAAAGTTGTGGACCAAAATGTTGCTTAAAAACTTGAAATGTTCTCTCCTTAGGTTGTAGTTATTCTATAGCG
Celera SNP ID:            hCV2193727
SNP Position Genomic:     27387
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   JBIC-allele(T,298|C,1199)   total(C,1199|T,298)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16336):
TAGATCCTGTTTTAGAAACTCTGCAAAGAGTGAGATTCATGGCATCATTGTTCGCCAACTTCTTTGTTCCTTTCATCCAGAAGAAAGGTCAGCTCATTAC
R
TAAGAAACTTTTCATCAGGAAAAGCAAACAACCGATAAAAAACAGAAACTAAGTATTCTGCAAGGAAACCTGGTTTAAGGAGAATGTATTGAAACTGGAT
Celera SNP ID:            hCV11428551
SNP Position Genomic:     60307
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16337):
AAGCTGAGAACAGAAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCAGCTCACCTCAACCTCTGCCTCCCGGGTTCAAGCGATTCTC
S
TGCCTCAGCCTCCCAAGTATCTGGGATTACAGGCCTGCGCCACCACGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTGAGG
Celera SNP ID:            hCV27207818
SNP Position Genomic:     43878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16338):
GCTTGAACCTAGAAAACAGAGGTTGCAGTGAACCAAGATCACGCCATTGCACTCCAGCCTAGGCAACAGAGCAAGACTCTGTCTCAAAGAAAAAAAAAAA
A
TAATAAGACCTAATTAATTTAAATAATCTAACTGAAGCCAAGTTAATGAAGTTTTGCCTAGTAGATTACCTGTTTTAATGAAAAAGAATTGGCATTGGTT
Celera SNP ID:            hCV27207819
SNP Position Genomic:     38630
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16339):
CTTTGGGAGGCTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTAAGAGACCAGCGTGGGCAAGATGGCGAGACACCATCTCTCCAAAAAAAAAAAAAAAAA
A
TTTTACAAAATTAGTCAGGTGTAGTGCCGCAAACCTGTAGTCCCAGCTGCTGGGAAAGCTGAAGTGGGAGAATTCCTTGAGCCCGGAAATTCAGGGCTGC
Celera SNP ID:            hCV11428553
SNP Position Genomic:     55031
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16340):
GAGGGAAGACGAGGCAAGCAAATTCCATTTAAAGATGAGACATGGGCCAGGCGTGGAGGCTCACTCCGTAATCCCCAGCACTTTGGGAGGCCAAGGCAGG
Y
GGATCACTTGAGGTCAGGAATTCGAGACTAGCCTGGCCAACATGGTAAAACCTTGTCTCTACTAAAAATATAAAAATTAGCTGACATGGTGGCATATGCC
Celera SNP ID:            hCV2193729
SNP Position Genomic:     24875
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16341):
AAACGCTAGTTAATAGATCTTTTCTGTCACCATATTTACTGGAGGAGTTAACATGGTGCTGGTGCTGGTCCCAAAGATGGTTCACAATAGGTTTTTTTTT
T
AAACTCTAACTGGTTAGAAAAAAAGGAAGGCATTCCTTGGCCCTTGCACTGGCAGAATTCAACTTGATATAGCAGATGTTTGCATCCTGGGCAGAGCTCA
Celera SNP ID:            hCV27207748
SNP Position Genomic:     76612
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16342):
TCATAGTGACTGCATCTGACCTATTCTTGGCTATTTTATGTGGAATGATCCAGTCCTAACTAGATGGGAAGTTACTAAAACGCTAGTTAATAGATCTTTT
M
TGTCACCATATTTACTGGAGGAGTTAACATGGTGCTGGTGCTGGTCCCAAAGATGGTTCACAATAGGTTTTTTTTTTAAACTCTAACTGGTTAGAAAAAA
Celera SNP ID:            hCV8856550
SNP Position Genomic:     76535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16343):
GACATTCACATAACTCCCAAGTCCAGAGGGAAAAAGAGGTGTTTTTTGTTTTTTGGTTGTTTGTTTTTTCCCAGGAATTCCAACAAAAATCCCAGAGTCA
Y
CTTATCTAGAATATATGAGTTTCATATCCATCCCTGAACCACTCACTAGAAAGAGGAAGATGGAAATGCACTGAATAGCCTGGAGTTCATGGGGGAATTA
Celera SNP ID:            hCV2631053
SNP Position Genomic:     517
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:16344):
CTGTATTTTTAATAACATTGTTATACTTTCTAATTTAGGGAGGATTCACTACCCCCAAATTATTACCATTAAATATGTATATTTATATATAATCTTAATA
Y
ATTCTTAAAGGAGATTTCTGGAAGTCTAAATTGATGAGCCTGGTCAGGTGTGATGACTCATACTTGTAATCTCAGTGCTTTGGGTGGCCAAGGCAGGAGG
Celera SNP ID:            hCV152495
SNP Position Genomic:     35246
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16345):
CCCCACCTCTGGGAATCTATTCTAATGAAATAATCAGAAAATTGGACAAAGATTTATTCTCCAGAAGACTCATTGCATCTTTTATTAATCATAGCAGAAG
R
CTTGGAAACAACAGTGGAAAAATAGTTAAGTGTGGGGACTTCTATACAATGTAATATTTGGTTGCCACTGAAAATGACAATAACATCAGGAAATGCTCAT
Celera SNP ID:            hCV152496
SNP Position Genomic:     34879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16346):
GTGGGCATCCATATTGGTTTGTACTTTTGTGAAAAGCATTTTGGAGATACATATCAGTAGCTTGTAGAAATGGGCATACCCTTTGACCCAGTAACCCCAC
Y
TCTGGGAATCTATTCTAATGAAATAATCAGAAAATTGGACAAAGATTTATTCTCCAGAAGACTCATTGCATCTTTTATTAATCATAGCAGAAGACTTGGA
Celera SNP ID:            hCV152497
SNP Position Genomic:     34785
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16347):
TTGTCTACTTTCTTTCATAGTGACTGCATCTGACCTATTCTTGGCTATTTTATGTGGAATGATCCAGTCCTAACTAGATGGGAAGTTACTAAAACGCTAG
K
TAATAGATCTTTTCTGTCACCATATTTACTGGAGGAGTTAACATGGTGCTGGTGCTGGTCCCAAAGATGGTTCACAATAGGTTTTTTTTTTAAACTCTAA
Celera SNP ID:            hCV8856557
SNP Position Genomic:     76521
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16348):
CATTTCAGAAGCATTTTTATAGCTTTGTCAGTGAGCACAAAATAAGGATCAGGACCATGCCTTCCTGAGAAGAGTCATATTTAAAGCTAAGTAATTCTAT
M
ACTCACAAATTGGCTTTGGAGCATTCACTGATAAGGCTTTTGGTTGGTTTAAGAAATGTGTCTTTACAAGAAACTTTTCTTCTCTCTACTTATGCTCCAA
Celera SNP ID:            hCV8856558
SNP Position Genomic:     44991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   JBIC-allele(A,310|C,1173)   total(A,310|C,1173) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16349):
CTTTGACATGGCTGTTTACCTGGCCACGGGGAACGTCAGCGGAGGCGTGTGTGATGACTGTCAGCACAACACCATGGGGCGCAACTGTGAGCAGTGCAAG
Y
CGTTTTACTACCAGCACCCAGAGAGGGACATCCGAGATCCTAATTTCTGTGAACGTATGTTGAGAAATGTCACTCACTGTGTGGGACCTACTTCAGATTG
Celera SNP ID:            hCV22274722
SNP Position Genomic:     33621
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,40)   total(C,70|T,8)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16350):
GCGGACGGCGTGTTAGTCAAGAGAGGGCAAGGGAGGTAAAACCGAGAAGACCAGGTTCTCAGCCACGCTTCTGGAGTTTGGGATTAATCCATAGGCACTA
Y
TTTTTTCCACATATGTATTTTCTGAAGAAAACAAGAACATGCTATGTATTTGGTCCTGTGTACTGAGTAATGGCAGCTGTAGAGCTGCTTCTGGCGGGTT
Celera SNP ID:            hCV22273637
SNP Position Genomic:     44527
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,38|T,2)   total(C,71|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:16351):
ACTTTCTAAAGAACAAACACGACAGGTCGACCCTGTTTCTAAAGGGTTAACCCGCCTTCCCCGAGCGCACCGCACGAGAGTTTTAGCCGTGGGCACGTTT
R
GTGATTCACTTCTTGCGAACGTAAATGCGCGAGTCCGCGGTAGGTCCCGCCGGCCCCCTGGCTGGGCAACCTGAAAACCCACCTCGGAGACGCCCCCACG
Celera SNP ID:            hCV27927830
SNP Position Genomic:     5829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:16352):
AAAGTTTGGGAGTTTTCTTGTGTTTGAAATTCCCATTTTACTTTGTAATTCCAAAGCCAGATTATTATTTGAAACTCACGTGGTCTGTGTTTCTCCACTT
Y
ATTTTGTTTTAATACAGCTTGTGCTTGCAATCCTCTGGGAACAATTCCTGGAGGGAATCCTTGTGATTCCGAGACAGGTCACTGCTACTGCAAGCGTCTG
Celera SNP ID:            hCV25644673
SNP Position Genomic:     34248
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:16353):
GCAGGAAAGCCTGGGCGGAAAGTGCCCAGCTGCTCTCAGGGTGTTTTGTTGAGGGGTAATGCTGAGGCCAGCGTAAGCAGAATCATTCTTTCTTGCCTCC
R
CGGTTACTTTGCTTATACTCCACCCCATGGAAAGGATTTATTCCTTCTAAAAATATAAAATGTCTTTTAAAAAAAACAGCATTTCACTAGGCGTAGTGAC
Celera SNP ID:            hCV29388093
SNP Position Genomic:     48286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16354):
CAGGAGACAAAGTTATGAAGCATGAAATGCCAATTCTCTCCATCTTTCCCTTCAGCATTGATTCCTTCCTTACATATTGTAGTTAAAAAAAAAAAATCAG
Y
TATCACAAACAAGTTCTGTGTGACCTACAAGAAACAGCTAAGCATGCTAAAGGATTTTTGTCTTGAACCGGAGGCATCTCCGTGGGCGGCAGGGAGATGC
Celera SNP ID:            hCV16170577
SNP Position Genomic:     75362
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,589|C,686)   total(C,686|T,589) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16355):
GATATGGTTGAATACACAAGTTCTTGTCATTGTGTTACAATTGCCTATGGTATTCAATACAGTAATATGCTGTACAGGTTTGTAGCTTAGGAACAATAGG
S
TATACTCTACAGCCTGGGTGTGTAGTAAGCTATACCATCTAGGTTTGTGTAAGTACACTATGATGGTCACACAACAACAAAATTGGCGAACAACACATTT
Celera SNP ID:            hCV29388094
SNP Position Genomic:     39656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16356):
CTGAGATGACAGGCATGTGCCACCACACCCAGCTTGGACATTCCTTTTTTAGTTTGTTCTGATTTGAATTATAAAACCCATCTCAGTGTAGGAATTCAGA
R
TCATTCTAGAAGGGGCTTCCATTAAAAATTAAAGGGAGCAAAAGAATTTTTTCACGGGTATTAGCTATTATGTTCCTTTGTTCCAGTAACTTTACCTGGT
Celera SNP ID:            hCV16170578
SNP Position Genomic:     74627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16357):
GCTCTACTGAGGGGTTTCCACAAAGGTCAGTTCAAGGGTTTCTAAATACTCCAGCTGCTCTTCAAGTTTGTTGTTTGGCCTCTTGTCAATAGGCGCTTGT
R
CTCATTTTGTGCAGGAGGATTTGTGCAGGAGAAAATGTTGGCGTTCATAACTGCCATTCAGTTGGGGAGTACCACGGTTTCTCTGTTTAGTTTTTGATTT
Celera SNP ID:            hCV29388095
SNP Position Genomic:     26781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16358):
TTTACTCATTCATTCTCTTGTAAAACAAATATTTAATAGATGTGTCCAGCTCTGCGCCAATTTCTGAGTGAGCCATGAGGCCTTTCCTGCATGTCTCAAA
R
TGCAGTTATGAAAAACGTCCACAAGGGCTCTGGGACAGACACCCCCTAAGTCCCTAAAAGGACTCAACCATCTGCTCCCTTTAAGGTGAAATTTGTGGGA
Celera SNP ID:            hCV29388096
SNP Position Genomic:     26315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16359):
ACCAGCACCCAGAGAGGGACATCCGAGATCCTAATTTCTGTGAACGTATGTTGAGAAATGTCACTCACTGTGTGGGACCTACTTCAGATTGCCTTCCAAA
Y
TGAATAGTCAGTAGTCTCAGAGCTCATAGTATGAGCAGTAAAGCCAGCATTGTTATTGTAATTGCAGTTGAAGACGCTGGGAGTGGAATTTACTTGGTAG
Celera SNP ID:            hCV349070
SNP Position Genomic:     33731
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16360):
AGTTTGGGATGTGGAAAACCTTCATGTGATGCGGACGGCGTGTTAGTCAAGAGAGGGCAAGGGAGGTAAAACCGAGAAGACCAGGTTCTCAGCCACGCTT
Y
TGGAGTTTGGGATTAATCCATAGGCACTACTTTTTTCCACATATGTATTTTCTGAAGAAAACAAGAACATGCTATGTATTTGGTCCTGTGTACTGAGTAA
Celera SNP ID:            hCV25644677
SNP Position Genomic:     44497
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,40)   total(C,72|T,6)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16361):
TCATATACATGGATAGTTCTGAGTTCATCTAGATCCAAAATCCTTTAGGCACATGTTTTGTAGTTGAATACTCATTCAGGTGAATACAGTGGGAGAAAGA
Y
GAACTTACTTGTGTAGGCGCAGAAGGTAAAACGGGGGTGATGATTGAACTGAGACATGCAGAATGGCTACAAGTTGGGGCCAGGCGTGGTGGCTCACACC
Celera SNP ID:            hCV29388097
SNP Position Genomic:     15854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16362):
AGAGAGGGACATCCGAGATCCTAATTTCTGTGAACGTATGTTGAGAAATGTCACTCACTGTGTGGGACCTACTTCAGATTGCCTTCCAAACTGAATAGTC
R
GTAGTCTCAGAGCTCATAGTATGAGCAGTAAAGCCAGCATTGTTATTGTAATTGCAGTTGAAGACGCTGGGAGTGGAATTTACTTGGTAGTTGTGCTGCT
Celera SNP ID:            hCV349071
SNP Position Genomic:     33741
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16363):
ATGTGGAAAACCTTCATGTGATGCGGACGGCGTGTTAGTCAAGAGAGGGCAAGGGAGGTAAAACCGAGAAGACCAGGTTCTCAGCCACGCTTCTGGAGTT
W
GGGATTAATCCATAGGCACTACTTTTTTCCACATATGTATTTTCTGAAGAAAACAAGAACATGCTATGTATTTGGTCCTGTGTACTGAGTAATGGCAGCT
Celera SNP ID:            hCV25644678
SNP Position Genomic:     44505
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,34)   caucasian(T,40)   total(A,4|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:16364):
ATTAGGTATCTTTTTATTTCCCCATAGAGTAAGGCAGTGTTGACCCTTTTCCAAACCGCAATAAAACATCTGGAGAGTAAATCCCTGGTCCCTTGTGTTT
M
TGTTTTAATACTGACTTTGGTAACTGGAAAGGAAGTGTGTTCTCTTTGGTTTTCAGAGTTTTGCACAATTTGTGAGCAGATTCAATCTGTTGAACTCCAG
Celera SNP ID:            hCV29388098
SNP Position Genomic:     14821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16365):
CCAGGTTCAAGCGATTCTCCTGGAGTAGCTGAGATTACAGGCACGCGCCACCATGCCCTGCTAATTTTTTTTGTAATTTTAGTAGAGGAGAGGTTTCATC
R
TGTTAGTCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCTACCCACCTTGGCCTCCCAAAGTGCTGGGAGTTTACAGATGTGAGCCACCGCGCCAGGG
Celera SNP ID:            hCV27207820
SNP Position Genomic:     31762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16366):
CCTAATTTCTGTGAACGTATGTTGAGAAATGTCACTCACTGTGTGGGACCTACTTCAGATTGCCTTCCAAACTGAATAGTCAGTAGTCTCAGAGCTCATA
K
TATGAGCAGTAAAGCCAGCATTGTTATTGTAATTGCAGTTGAAGACGCTGGGAGTGGAATTTACTTGGTAGTTGTGCTGCTTTTAGTCGACTTTTGTGAG
Celera SNP ID:            hCV349072
SNP Position Genomic:     33760
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16367):
TGTACTGAGTAATGGCAGCTGTAGAGCTGCTTCTGGCGGGTTGACTCGCGTGACCATGAACTCAGCTGATGTGGCTCCTCCTCCCTTCCAGTTGCTTTGC
R
GAGTCAGGCCAGTGCTCATGCCGGCCTCACATGATTGGACGTCAGTGCAACGAAGTGGAACCTGGTTACTACTTTGCCACCCTGGATCACTACCTCTATG
Celera SNP ID:            hCV25644679
SNP Position Genomic:     44686
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16368):
TCCCCTGAAAGAGAAGATGTTAGTATTTGTTCTGAGCCAGTTTATTTGACAGATTCTTTTTTTCTCTGGCGTTGTTTTTCATTGTGGAAATGCATCCAAA
R
GTTTCCCCATCAGGGATAGGTTTTTCTAAGTTGTGGTATAACTAACATATGTGGTAGACTCTTATTTATTTTCTTTGCTGCTGCATAGAGAAAAAGGAAT
Celera SNP ID:            hCV29388099
SNP Position Genomic:     13855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16369):
GGTATGTATGCATTTAGTTCTACATTATAACTTTTGTAGATTTCTATTACAATAGGTTTTCTTAAAAAAATCTTAAGTAACTAGTTTTTTTTTTTTTTTT
T
AATTTTAAGTAATTTTCTTCATCTGGGTTCTTTTCATAGATACTCAGTAAAATATTTCTTGTGCATCCACTATGTAATAGGAACATTCTAGAGATGAGGC
Celera SNP ID:            hCV27207821
SNP Position Genomic:     30911
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,9)   total(-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16370):
CTGTGTGGGACCTACTTCAGATTGCCTTCCAAACTGAATAGTCAGTAGTCTCAGAGCTCATAGTATGAGCAGTAAAGCCAGCATTGTTATTGTAATTGCA
S
TTGAAGACGCTGGGAGTGGAATTTACTTGGTAGTTGTGCTGCTTTTAGTCGACTTTTGTGAGATTTAGAGGGAGGAAGGGAATATATGTATTTATACAAA
Celera SNP ID:            hCV349073
SNP Position Genomic:     33798
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16371):
CCTTTGATCTTTTTCCCTTGTAATCTGACTTCCAATTCCCCAAAATGCATCACTGTGTTGGTTAGTGTCAAAACCTTTGCCTGTTTGCCTATTTTTCAGC
R
CTCTTTCTGCTTCATCTTTTACTTCCAGTTGACCCTGTTCACTACACCCTCCTAAATCTCCCTCCTGCCTTGGTTTCAGAAGACTGCCTTTTTTTCTCTT
Celera SNP ID:            hCV2193730
SNP Position Genomic:     20152
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,13)      total(G,13|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16372):
TGGTATGTATGCATTTAGTTCTACATTATAACTTTTGTAGATTTCTATTACAATAGGTTTTCTTAAAAAAATCTTAAGTAACTAGTTTTTTTTTTTTTTT
T
TAATTTTAAGTAATTTTCTTCATCTGGGTTCTTTTCATAGATACTCAGTAAAATATTTCTTGTGCATCCACTATGTAATAGGAACATTCTAGAGATGAGG
Celera SNP ID:            hCV27207822
SNP Position Genomic:     30910
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16373):
CCTCGCTGGACGGCCCCGCCGCGCGCCGTTCTGGGACGCGCACCCCGGGGCGGACCCGCCCTGGGACCTGGAAGCGCCCCAGCCCCGCAGCGATCGCAGA
Y
TCGGCTTTCAAACAAAAGAGGCGCCCCGGGGGGTGGGACCGGGACCTCACCCGGTCCTCGCAGAGTTGCGGCCGCCCGCCCCTTCAGCCCCGGCTCTCCG
Celera SNP ID:            hCV15868037
SNP Position Genomic:     6040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;JBIC-allele(C,310|T,777)   total(C,310|T,777)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:16374):
ATGAAAACTGTACTTCATAAATATTTTTTCTTGAATTTTAAAACTTTACAGTAAATTTAGGACCCGAAGACACCAAATATAGACACTGCTTGGGGAGGAA
R
CCTAGTATGATGAGGTTAACTGTGGGCAATTTCATTTCCTACCCTAGGTGCCTTGGATAGCATTACCAAGTATTTCCAGATGTCTCTTGAGGCAGAGGAG
Celera SNP ID:            hCV15922092
SNP Position Genomic:     73656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16375):
GGTAATTGAGCAGTTTTTAAAACGAGCATGAATAACTGCATTTAACAAATACTCTATCTTCATGACAATAAGTAGAAAGAGCCTCTATTCTAAGGTAATT
S
AACTGTAAACTTTTAATTAGGTATCTTTTTATTTCCCCATAGAGTAAGGCAGTGTTGACCCTTTTCCAAACCGCAATAAAACATCTGGAGAGTAAATCCC
Celera SNP ID:            hCV2193731
SNP Position Genomic:     14705
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16376):
GGCAATTTTCCAGCAAGAGTTTATTTCAAAAGGTCCTCCTGATTTCCTGAAAATACACCAGTCTGTGACATGATTCATTCTGACACATTCCTGTCTTTCC
S
CATTTAAGACTTCTTTTGCTCTCAAGATGGACCCCAAAAGCTCTCTCAAACACAAGAAGCGTGGCAAGCCTCCCTTGCTGAACAGGCAGGCTTGAGAGCT
Celera SNP ID:            hCV2193732
SNP Position Genomic:     13532
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16377):
GTGGTATGTATGCATTTAGTTCTACATTATAACTTTTGTAGATTTCTATTACAATAGGTTTTCTTAAAAAAATCTTAAGTAACTAGTTTTTTTTTTTTTT
T
TTAATTTTAAGTAATTTTCTTCATCTGGGTTCTTTTCATAGATACTCAGTAAAATATTTCTTGTGCATCCACTATGTAATAGGAACATTCTAGAGATGAG
Celera SNP ID:            hCV27207823
SNP Position Genomic:     30909
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16378):
TATGGTAAAGGAAGCTCTGGAAGAAGCAGAAAAGGCCCAGGTCGCAGCAGAGAAGGCAATTAAACAAGCAGATGAAGACATTCAAGGAACCCAGAACCTG
Y
TAACTTCGGTAGGCATACACAATCATTACATGAATGGGAACACACCTACATATACACTTACCAGAAAAGTACATTTGTTATCTATGAACAGAAATTCTTA
Celera SNP ID:            hCV22275024
SNP Position Genomic:     80272
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,20)   caucasian(C,12|T,20)   total(C,28|T,40)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)   JBIC-allele(C,459|T,634)   total(C,459|T,634) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16379):
CTCCCAACCTTTCAGCATCTTTACATTTTCCTGGTTTTTTATACTATTATATCGCCAAGAAGACAATTACATTCAATTAGGTGAACCAGTAATACCCAGA
R
GTAAAATCTGCTCAAATATTACTTTCTTTACAATACACATACAACCCTACCCACACCCACCTGGAGCACACTCGCATGTGCACACACACACCCATATCCA
Celera SNP ID:            hCV15922093
SNP Position Genomic:     71265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16380):
TGGCTCTTGGTATTGCTTCTTGGTTCTTCTCTTCCTTTGGGAGAGTAAGAGGAAGAGGATGCAGTCTTAGTAGTTTCCCTTAAAAAAAAAAAAAAAAAAA
A
GCAACTGGAGCCAGGCTCTCTGGTATATATGATTAGCCATGCATTTGTGAAGTGCTTTTCACAGATAGCAGGGCCTAAAGAAAGGGACTGGACATATGCT
Celera SNP ID:            hCV2193733
SNP Position Genomic:     9598
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16381):
TAAATTGGTTTCCAGGTGGTATGTATGCATTTAGTTCTACATTATAACTTTTGTAGATTTCTATTACAATAGGTTTTCTTAAAAAAATCTTAAGTAACTA
G
TTTTTTTTTTTTTTTTTAATTTTAAGTAATTTTCTTCATCTGGGTTCTTTTCATAGATACTCAGTAAAATATTTCTTGTGCATCCACTATGTAATAGGAA
Celera SNP ID:            hCV27207824
SNP Position Genomic:     30894
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,10)   total(G,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16382):
GGAGGCTGAGGTGGGAGGATCACTGGAGCCCAAGTGTTCAAGACCAGCCTGGACAACATAGACTCAGTCTCTACAAAAAATTTTTAAAACTTAGCTGGGC
R
TGGTGGTCCACACCTGTGGTCCCAGCTGTCTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAGTAGGTCGAGGCTGCAGTAAGCGATAATCAGTCCAC
Celera SNP ID:            hCV2193734
SNP Position Genomic:     8661
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16383):
ATAAATTGGTTTCCAGGTGGTATGTATGCATTTAGTTCTACATTATAACTTTTGTAGATTTCTATTACAATAGGTTTTCTTAAAAAAATCTTAAGTAACT
A
GTTTTTTTTTTTTTTTTTAATTTTAAGTAATTTTCTTCATCTGGGTTCTTTTCATAGATACTCAGTAAAATATTTCTTGTGCATCCACTATGTAATAGGA
Celera SNP ID:            hCV27207825
SNP Position Genomic:     30893
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16384):
GGTCTCCAGCAATCCTCCTCTCACCTCAGCCTCCTCCCAAAGTGCTGGGATTACAGGCTAACACCCCAGCCCACCCCCACCCCCGCTTTTTTTTTTTTTT
T
AAAGAGATGGAGTCTCACTACGTTGCCCAGGCTGACCTCAAACTCCTAGGCTGAAGCGATCTTCCCACCTCACCCTCCTGAGTAGCTGAGATGACAGGCA
Celera SNP ID:            hCV27207752
SNP Position Genomic:     74441
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16385):
TTTTTTAAAACTTTAGTTTTGGAAGTGTGCATTAAAGGTGATTTATCCTCTTTTTAAAACCCTTGGGTTTCCCCACCCCCCTCTACCGCATCTTCACTTG
R
GTAAAGAGGATTCCAGCAATGACAGGCGTCTTGCAAGGTGATTCCAATCACTGAACGAACCCGTTTTCCTCTCCTCATTTGGTGCTGTTCCCAACTAGAT
Celera SNP ID:            hCV2193735
SNP Position Genomic:     8190
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16386):
TAAAAGGAAAACATAAATGTAAATGTGATAAATGATTAATTTTTAAAATTTTACTGTCATTGAAAGAAAAATTTAAGTGCTATGCCTGAAGTAAAAAAAA
A
CTAAAATAAGCTAGCTAACAAAAACCTTTTTAAAAAAATGGTGATTTGGCTAAGTGGTAAATCGTGCAGTAATATAAATTGGTTTCCAGGTGGTATGTAT
Celera SNP ID:            hCV27207826
SNP Position Genomic:     30719
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16387):
AGTAGAGACAGGGCTTCTCCATATTGGTCAGGCTGATCTCAAACTCCTGACCTCAAGTGATCCGCACACCTCTGCCTCCCAAAGTGCTGGAATTACAGGC
R
TGAGCCAATGCGCCCTGCCCACGGCTGGAAAATTTTAACCCACACCCATGGGATATCATTTTAGGGATCAAATGGAGTTGGTTTCTTTCTATCTTTTCCT
Celera SNP ID:            hCV27207827
SNP Position Genomic:     29555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16388):
CCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGTCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAA
A
GGGCTTTGGAGTCACAAAGTCCTGGATTTAAATGTGTTCATAAATCATAAATGTGTTCAGTACATCAAAGCTGTTGCTACATTTGTTGCTGTTGATGTTG
Celera SNP ID:            hCV27207828
SNP Position Genomic:     25818
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Gene Number:                 38
Celera Gene:                 hCG17138 - 79000075263027
Gene Symbol:                 LRRFIP2
Protein Name:                leucine rich repeat (in FLII) interacting protein 2;FLJ20248;HUFI-2
Celera Genomic Axis:         GA_x5YUV32VV34(37031190..37204133)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12198):
TCAATCAGGGGTAATTCCTCAACAGCTGCCTCCACAGTTCCTGTGGCAGCAGGAAGAGTGTAGGGTCAACCTCTCCTCACACTGGGAGGAGAGTTGGGCC
TTTAGTCTCAGCTGAAAGCTCCACCCATGCCATCCCCAAGCCAAACTGTCTTTTCAGCCTGGGAAAGGTGGAGGAGAGGCTTTTCTTCTCATGGGTAGTG
ATTTCACCCCAGATAGCTCCTGCACCAGTTAGCTCCTCAACAGGGCACACCCAAGAACTGTTCATTCCAGATTCAACCTCCAGAAAACTCCAGAGACACC
TCGATTGATAGACATTGTTACATGTGGAACTTCACGTCTGCCCAACACTCTCAGACTCAGTATTGTCTATACTTCAAGCACAATATAATTCTCATCTCCT
GTCTTGATCATGGGGCACTTTAAGGGTAATAGATTTTAATACATATACACAAACACTCATGCATTTTCTGAATAAATACATTTTACTTATTTCAGACTTT
GAGGATTACATTTCATTACAGAATCATCTTGCAAAAGTCACGCTCAGTAAACTGGTGTCTCTAATGGTCCCAGAAGTGTGTGATTTCAGAATTATATTCT
TTCTCCATTTGAAAGGGCATTATTCAGAGTACAATGACCTGCTACTGGCTTGAACAGTCTTTGAGAGAAAAAGACAGTCTCTCTTCTATCTTTTCCTATT
ATGTATGAAAGAATTGCCTGTCCTCCCAAGGCCAAGGGACAAATGCCATAGCATAGCAGTGTGGGATGACTGTGAAAATATTGACATTTAACAATAGGTG
CCAACCACAAACTGTGACAACTCAGCAGCTGGGCCAACCCAGGACAGGTTACAGATGCAGCCAAAAGAAGCTGTGCCCAACTAGTTCCCAGATGAAGAGG
TTTCTGCTGTGGGGCAAGTCCTCTGACCCCCACCCCAGGCAACTAGAGGACAGCACTGACTTATTTGTGACTTACTGACAACCAGAGATAATCGCTCATA
TACAGGGAGATGGGCTGTCCTCTGTAACCTGCCCTTTTCTCTACTCATACAATTTCCCCACAACCCCTAGTGTGGAGGACATCTGCTTTCACAGGAAACT
GAATGATGCCTAGGTAAGAGCTCATAGACATCAATCTACTGCCATTGCCTCCCGGTCTCCTCTACTTTCCCCGAGCTACCTTGACTTCAAGGTAATCCAC
CAAGTCAAGTAGAATTTGCCTGTTTCTCAAATGCTCTCCTTCCCCCTGTTCCCTATTTTCTGATATTTCCATGTATCATCATCAGTTAGGGTCAAATCAG
GAAAACATAACTCATACCAGGTAAGGGGAACTAATTAAATTGGTATTGGAAAATCAAACGGATGATTAGCAAGAGCAGGGAGCTGCTACCACCCCTAGGA
TGAGGAGGGAGAAAGAATACTTGAGAAATAGAAGATTCCTAGGAATGGAGGGAAAGGAAAATAGAGTCCTAGGTATAGATGGAGAGATTGGCCTTAGGTG
GAAAGAGACAGATCCTCTATGAAAACAGGAGGGAATAAGAGAAGATATATGCAGAAACAGGAAGTTTAAGGTCCAATAATTTTGCTAAATCCTTTTGATC
AACGTTAAACAGATTTTACTTCATATAGCTTTCTTCTGCTGATGCTTTTTTTTTAAAAGACAGCATCTTGGCTGGGCGCAGTGGCTCACGCCTGTAATCC
CAGCACTTTGGGAGGCCAAGGTGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATTGGTGAAACCCCATCTCTACTAAAAATACAAAA
AATTAGCCGGGCGTGGTGGTGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGGAGGAGAATGGCATGAACCCGGGAAGTGGAGCTTGCAGTGAGCC
AAGATTGCGGCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGACAGCATCTCGCTCTGTTG
CCCAGGCTGGAGTGCAGTAACGTGATCTTGGCTCACTGCAGCCTTGAATTTTGGGCTCAGGTGATCCTCCCACTTCAGCCTCCTGAGTAGCTGGGACTAT
AGGTGCGCACCACCATGCCCAACCAACATTTTAATTTTTGTAGAGACCAGGTCTCTACAAGCCCAGGCTGGCCTTGAACTTCTGGGCTCAGGTGATCCTC
CCACCTGGGCCTCCAAAAGTGCTGGGATTATAGGCATGAGCCACTGCACCTGCCCCTTATAGAGTTCTTAACTGCTTCCTTCAGAATCTTTAGTATACTA
ACATATATTGGAAATCATTCAGAGTCTTCCCAATCATAACTGACCACAGAACCCCTTTTCATGAATCACCTAGGGGTCTTGTTTTCTGGAAGACATTCCT
TGAAAAACACTGACTTACCCAATATATGCCTGGACTTTCCTAGCTATTAAATGGAGACAATAAGATCTTATCTGACTATAATTACTTCATTGTGATGTTG
TAAACATAAGTTTGAAAAACATATACATTTCATTAATAAGTTCTCAGTGTAGAGATTCAAGTAAGGAAAAGCAATTTCCATCAACATTTATAGTCTAGGT
GGTCATCTAGAACAGACTGTTATCTGGGAAACCTCCAAGGGTGGCATTTAATCACCTTCTGAATTTACCAAAGCTTGCAGACTCAGAAGCTGTTTCCTCA
AAACACTGACAGCAGACATCTCTCAGAAGTAAGTGCACATGGACCAGCATCTCCAGATAGAGACATAAACTAAAATTTATTAATTTACAACAATGAGAGC
TACCTCTGTCACATTATTTATGGTAGCCTTACTCATGCATTCAGGAGTATTTATTGATTGTCAATTACATGCTGGGCCATGAAATGGGTATAAGATGCAG
GCAGCACTAATCAGTGTCCTCCAGGGATGCGATACACAAATCTCTTCCTGCTGGCATTCCCCTCCCATCACCCCCCAGGACCAAACCAGTGATGGAACGG
GGCAGTGAGGACCTGACCTGAGCTGCCCGAGCTGCATGATAGCATGTGACTCAGGCTGCTAGGGAAATTAAAGGTGGTGTAAAGTTCTGTCTGCAGTAAG
AGAAGAAAAGGTGAATATACCAAAAAAAAGTTGTGACAAACTGGTTTGGGAACTGAATGGAGAGAGAGTCTGGTTGACCATGAGTCCAGAGTTCAAGTCT
CTGAGACCCTAGATTCTTGGGCTCTTCCTTCCACCCTCTAAACTAGCCCAGGATCCTTCCCAGTTATCTGAATCAAAAAAATCTCTTTCTGCGTAAGCTG
GTTTTACTCAGGTTTCTGTCGTTTGTAACTGACAAAGTCCCAACTTCTATACCTGACATGCAACTTGTTTGGATCAAGCAAATTTGAAGTCATTTAGAGC
AGCTGGTATTTCCTCATGATGCGTGAACCTCAACAAAGAAGATGAAAGAGACAGGTTAGGCAGGGAGGCTTTTAAGTCTAACGTCTGCAAAATCTGAGAA
AAAGGACTAAAGAATGGCATTTTCCTTTGTGGCTTTATAAAGCACAGTGTTGCCCCTTTACAAATAGAAGAATAAGGCTGGGCACGTTGGCTCATGCCTG
TAAACCCAGCACTTTGGGAGACTGAGGCAGGGGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGTCAACATGGTGAAACCCCATCTCTACTAAAAA
ATACAAAAATTAGCTGGGCATGGTGGCGGGTGCCTATAATCCCAGCTACTTGGGAGGCTGAGGCAGGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGC
AGTGAGCCAAGATCGTGCCACTGCACTCCAGACTGGGCGACAGAGCGAGACTCCGTTTCAAAAATAAAACAAATAAGAAGGATAGAATTGTGCCAGTCTT
TTAAACGTTTGATTGCAGAACCAGTTAGTACCAGCCTGCCAGCCTGTTTCCTCAGTGTCTGTCCACACCTGGGTTTACCATGTTCTCAGCTGCGCCCCAG
CCTCCCACCCCCAGGCCCAATCATAGCCTGTTAAGAAAGCATTTGACTAGCTCTTACCTCACAAGCTATGCATCAGCATGGATTACTCTATTCTAGTTGC
AGTGACCCAGTTCTGATAATTGAGCTCTAGTCTCAACAGGATCACATCCAGCATCCCCATGTGTTCCAATTACTTGGCTTCTGCCTTCTCTTTATTTCTA
AATTCTTATTCTCATACTCTGCCTAGTACCTCATTCTGCCTCCTCCTTTATGGACTATAGATTTGCTCCTTCCCTCAGGCCAGGGGCCAGCATCTAGCCA
CCCTCTTTCCAATCTCCCTGGATTGTGCTCATCCTGAAGTCCTATCTTTCTACCATGCTTATTTATTTATTATTTTTTTTTTGATACGGAGTCTTGCTCT
GTCGCCCAGGCTAGAGTGCAATGGCATGTTCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGG
ATTATAGGCATGCGTCACCACACCCAGATAAATTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTGGTCAAGCTGGTCCCGAACTCCTGACCTCAT
GATTCGCCCACTTCAGCCTCCCAAAGTGCTGGGATTACGGTCGTGAGCCACCATACCCAGCCTAACCATGCTTATTTTTAACAGTTTCAGGAGGCTCAAT
TAATGACCTTCTACTTTCAAGTTCTGAACCAATTGAGAGAGAAACACAGAAGTCAAACAGATGGCGAACAAAGTAACAGTTTTAGAACTGACAAGAATTA
TATGGAAGGCCAGGCGCAGTGGTTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGAGAATCACTTGGGCTCAGTAATTCAAGACCAGCCTGG
GCAACATGACAAAACCCCATCTCTACAAAAAATACAAAAATCAGCCGGGCATGGTGGCATGCACCTGTAATCCCAGCTACTTGGGGGCTGAGGCAGGAGG
ATCACTTGAACCTGGGAGATCAAGGCTGCAGTGAGCCGAGATCATACCACTGCACGCCAGCCTGGGTAACAAAGTGAGACCCTGTCTCAAAAAAATAAAA
ATTAAAAAATAAATAAATAAGTAAGAATGATGTGGGAGTAAGCAGCTTGTTGTATGGTCCATATATTTGCTAGTAATCTTCATTCCAGACTTAAACTAAC
CATGCAGAAGATGTGGAGGCAGAGTGTGCTGTCCCAGTATCTGTGTCCTGATGATGGTCCTCGGGCTTAGGCTAAGCAGCAGGCTGCCAGCACTATGTCC
AAATCACCCAGCCCCCAGTGACAACTGCCCTTGTGGTCATCTAATGCCTTAGTTGGGTAACCCCAGAAGCAGATGCTGAGAGTGCAAGGAGTTCATTTGA
GAGACAAAGAAGGAGGGGAATTGAGAAAGTATAGGAAAGGCAGCCAAATAAAGGAGGCATGGGCATTACCCAGCCAATCACCATGAGGACAAATGGAGCT
CAATCATGATAGGAAACTCTGGGAGCCAGTGTAGACTCGTGCTCAGGTATCCCACCCAAGGAATGAGGAGCTTTGGTATTTATACACTAACTTCCATTAA
TCATTAGCTGAAGTCTACTGGGAGCTGTGGGGAGGAACAGTAATTCCTGGACATCTGCAGCTTGCCACACAGGTGAGCAAAGTGGGCTTCAGTGACCAGA
GAACAGCCCTTAGCCAAAGTTGCAGGTGTCAGCAGTTGGAAGTTGGGCTGGTGTGCCCTGAGGGGTTATGTGGTTTAGCCTCTGGATTCTATCTTTGACC
TCAAGGAGAAGAATCTGAATGAGAAGCTCCTCTGCTTCCTGCTCAAGGGTGACTATGACTCAGGCTCATAGTTACTTCTCCTGCACCCCCAACCCCCTCC
TGCTTACCCCCCAGGACCAAACCAGTGATGGAACAGGGCAGTGAGGACCTGACCTGAGCTGAACCAGCAGCTGTTGCTCTGGTAGCAGCTACTGGGAGGC
CATGGCTATGAAATCTGAGGACTTCCCTCCAGACAAGAAGGGACTGAGGGAAGTCCTGATCAAAGGACTGAGAAGGAAGGTAAAGATTAGGCATTTCCCA
TAGTAAGTTGTGAAGCAAAAGGAAATATTTCTAAAGTAGCAATAATAGACAGGGCGCAGTGGCTCAAGCCTGTAATCCCAGCACTTTGGAAGGCAAAGTG
GGAGGATCAGTTGAACCCAGGAGTTTGAGACCAGCCTGGGCAACAAAGCGAGACCCCATCTCTACAAAAAATAAAAAAATTAGATGGCCGTGATGGTGCA
CACTTGTAGTCCCAGCTACTTGGAAGGCTGAGGCAAGAGGATCACTTGAGCCCAGGAGGTCAAGGTTGCACCTATGATTGCATCACTGCACTCTAGCCTG
GGCAACAGAGCAAGACCCTGTCTCAAAAAAATAAAAATAAATACTATTGATAGCACAATAAGGTGACTATAGTCAATAATAACTTAATTGTATATTTTAA
GACTATAATTGGATTGTTTGTAACTCAAAGGATAAATGCTTGAGGGAATGGATACCCCATTCCCCATGATGTGCTTATTTCACATCGCACGCCTGTATCA
AAACATCTCATGTACCCCATAAATATATACAGCTACGATGTACCCACAAAAATTTTTTGAAGTCATAAAAAAATAAATAAAATTAAAATAAAGTAGCAAT
AACCAAAAACAAATTGTGGTCAACCATGTAAGAGGAAAGACTGAATTACCTTCTATTCTCTTTCTAGAAGATGGCGTTACAAAGTTGGTGTCATATGAAG
AGATAACCAAAGAGTAGACAGACATAAAACATAGGAAAACATATTATAGAAGTGAGATGGGCAAGGTGGTTGGATTTCAAACCGTGCCAGATTACAGGCC
ACCCCGGGCACAGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAAGTAGACCACTTGAGTCCAGGAGTTTGAGACCACCCTGGGCAACA
TGGTGAGACGCCCCCCCTCTACAAAAAATACAAAAAATTAGCCTGGTGTGGTGGTACGTGTCTGTGGTTCTAGCTACTCGGGAGGCTGAGGCAGGAGAAT
CGCTTGAGCCTGGGATAGGGAGGTTGCAGCGATCTGGATTCTGAGACTGCACCACTGCACTCCAGCCTGGGTGACAGAGTAAGACCTTGACTCAAAAAAA
AAAAAAAAAAAAAGTGAGATGAACGTAGTGAAAAAGTGAAAATATAAACCCTCTTCTTTCTTTTTTGTATGACACAGTGGCTGGATGAGACAGTTCCAGT
GGCAGCTTCAAGTTCTGTCCAGAGTCAGACCTCTGTCCCCACCAGTTCTCTTTGACATTCAGGCACTTTTTTCTAGTTCTTACTCATTGCACCAAGTCCC
TTTCTCCCTTTGAGCCTGCTCTCTGAGCCTCCATTGTCTGCAATCTGAGCATCACTGGAGTGACTCACCTATCAGATATGTTTATATAGTTGGTATGTGT
CTGAACTCTAGGGATTGTTAAGAAATAAAGGTGCTCCTTAGGAGCAATCTCAGGAGATTCTAAATTCCCAACGTGGATTAGCAAAAAAGGAGTGTTATCT
AACCTCTCTGCCAATAGCATTGCATGCAGCTCATGTCTACTTACATACCATGGGTAGTAGTCACAATTGGTACTCTCTCCAGATACCTTTACCTGATGGT
GAGTTTGGGGCTGCTATGACTGATGTGGCTAACGACTTTACCTATGAGCTTCTGTAGTCACTGAGCACTTGGCATGTGACTAAAGAACTGAGCTTTAAAT
TTTAACTCCTTTTAATTAATTTAAATTTAAATAGCTACATGTGGCTAATGGCTGCCATACTGAACAATACAGCTCCAGAACCGCCCATGGATCAGTCCAA
AGCTAGACTTTGCATGCAACCACATCCTTGCTCATCTCTTTCCTTTTTCCTTCTCTATTTCACCTCCTGCTTTACTAATCTCCTGAGAGCATGACCTCAA
TAAATCATGTGCACTCAAATCCCTGTCTCAGACTCAACTTCTAGGGAACCCACCTGAGACACTGTGTTACAATTATTTAACAGTGAATTACAGAAAGCTT
AAACCTTGAATCAAAAGTGCACATAAAAATTCAATGCCAGTCAGAATGTTTTTAGCAGAAGGTATAAAAGAGTCCCAAGCCCAACTGTCTTAAACAAAGA
AATGTGTTATTCTGCACCTACGAGTCCAAGAATAGGACAGCTCCAGGGTTGGGTAATTCCATGGCTCAATGACACTTTCAAGAACCAAGTTCTTTCCATC
TTGCTGCTCTGTCATTCTGCTGGGCAGGCTTCATTTGGGGGCTAGCTTTCCCCTTCTTGTTGCAAGGTGACTGCCCTAGTGCCAGCCTTCATATCTGGAT
ACAACCATACTCAGAATAAGAAAAGACCATCTTTTCTTGTATGTCTTTTATTAGGAGCAAGAAAATCTTTCCCAGAAACCCCCTGCAGATTTATCCTCCA
TTTACTGGTCAGAGCTGCATCGCATGGCCTTGTCTAAACCAGTCCCTGCAAAGGGAAATGGGAAGACCATGATTGCCTTTGAACAATCAGGATCTACTCC
CTGGGTCTGTGGCCAGCCTCTCCTGAAGCACATGGTTGAGCAGAGAAGGGTGGGTACCTAAACACAACATACCATCTGTTGTAGGGGTTGGGAAGCTGGA
TAAAATGAGTGTTTGGTAACCACAGTATCGGCTGGTCACAGTTTCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTAAGGCGGGCGGATTGCTTGAACC
CAGGAGTTCAAGACCATCCTGGGCAGTATGGTAAAACCTCACCTCTATTTTATAAAAAAAGAAAATTAAAAAAAAATTAAAAGATAACCACAGTATCAAT
TACACGTTTCTTTAGGCCAGCTTGTACAATGTGTTCTTTGAACCACCTACCCGAAGATCATTTAGGGGGCTTGTTAACATGCAGATTCTGAGGCCCAAAG
CATTGTCTGATACATGTCAGGAGCTTAAAAGATACTTGTTGGTGAAATACTTTCTGGGAAGCCAAAAATAAAAATAAAAATAAAAATAAAAGAGATTTTT
CGGAAGGAAGGAAGGGAAGGAAAGAGAGAGACCTTTTGAGTTAGAATCACCTGGCCAGGCACATTGGCTCATGCCTGTAATCCTAGCACTTGGGAGGCCA
AGGTGAGCAGATCCCTTGAGGTCAGGGGTTCGAGACCAGCCTGGCCAATATGGCGAAACCCTATCTCTACTAAAAGTATAAAAAAATTAGCTGGGTGTGG
GTGCACGCCTGTAATCCAGCTACTCAGGAGGCTGATGAAAGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCACGCTCCTGCACT
CTAGCCTGAGACTYTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAATCACCTGCAGATGGTTTTTCTACTCAGTAATGCTGGAGAACCACTCACTTAAG
CTGAAAACTAAAAATTCACCTTCAGTCCCTTCATTACCAGTCTCTTGGCAGAAGGGATGAAGAATGTGATCATGTTGCCACACGTATGCTGCTTTGCTCT
AAAACTCTCAGTGATGTCAAGATGACAAGGGTGCTTATCAGTTGTACTTAACATACATTATTTATATGGCTTTCAGCTTTACTTGCTGAATCCAGGATTC
CTGTTACAGCACCTCATGAAAAATAAATGAATGTGATAATGGCTTCCACTTTGTGGAGTAATATATTGAAAAACCATCTAAGAAGTTTGTGAAAAGCAGC
ATCTGGGATCATTTTTTTTTAATGCAATAAAAGATCTTGGAGGTGATTTTGGCATATAAAAAGCAGCTGTCACCAACAGGAAAGCCTAGCTGTTTATCTT
CTGGACTCTAAATGGAGTCTGATAGAATGCTCACTCTCCAGTTAACTAACATTAATTGCCAGGGGAAAGGGAGCTTGAGAAGGGAGGAACTAGCTTTTTT
TGTTTTGTTTTGTTTTGTTTTGAGGCAGAGTCTCACTCTGTCACCGAGGTTGGAGTACAGGGGTGCCATCTCGTCTCACCGCAACTTCTGCCTCCTGGGT
TCAAGTGATTCTCATGCCTCAGCCTCCCAAGTAGCTGGGATTACAGCCATGTGCTAACATGTCCAGCTAATTTTTTGTATTTATAGTATCATGGGATTCT
TTTTTTTTCTTTTTTTCTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCCCCCAGGCTGGAGTGCAATGGCACGATCTTGGCTCACTGCAACCT
CCTGGGTTCAAGAGATTCTCCTGCCTCAGTAGCTGGGATTACAGGCGCATGCCACCACACCTGGCTAATTTTTGTATCTGCAGTAGAGATGGGGTTTCAC
CATATTGGTCAGGCTGGTCTCGACCTCCTGTCTTCGTGATCCACTTGCCTCGGCCTCCCAATGTGCTGGGATTACAGGCGTGAGTCACCACACCCGGCCT
GTATCATGGGATTCTTGGGGTGTCACTTCACCAGCTGGAAACTTCTGAGGCCAGTGGCTTTTTTTGCCTGAGTTTTGCTCAGGCCCACTGGGCTTATTCT
GGCTGCTCAGCCTGGCAGGCTGTACTCATATTGCACTATTGGCCTGGAGCCCACTGCCTGCCAATGGCAAGCCAGGCATGGAGCAGCAAGGGGTGTGTGA
GCAACTGTAGGGTCTGGCCATTGCGCACAATCAGGCACACCAGCTATGGCAGAGTGGGCAGCTCCAGGTGCTGGCATGGGTCCCAGCTCCCTGGGAGGCT
GCAGCTGGGCCAGGCATACTGCAAGCAGCTTCCATGGCTGGCACCAGGGAACACAGTGGTGCCCTGAAGCTTGGAGATGCCAGGAACCCCAGAGTTCCAA
AGAGGGTGTCACAGCCCTGGCTCAGGGAGCTCCTAGGTCTGGGCTCCCCAATGGGCCACAGCTCTTCTCTCCCTCTCTCTTCTCTCCTTCTTGTCACCTG
CAATGTGGCAAGCAAGAGGCATGTTTCAGCCCTGTTTGTGTTACAGCTCTTTTAGCCCTGCCATTTGGTGGGTCCCAAGTTCTTGTCCTGTGTCCAGAAA
GAATGAGGTATGCAGACAAATGGAGGGTGAGCAAGGCAAAAAGGAGCTTTATTGAGTGACAGTATAGCTCAGAGGAGACCGGCATTGGGTAGCTCCTCTC
CACAGGCAAGATGTCCTGATGAGCATTCAGCTCACAGCAGAGAGGAGAACCTGGAGTGGGTAGCTCCTCTCTGCAGCTAGTCGTCCCATTGTATCTTCAG
CTCTCAGCCAACAGGAGTCCCTGGGGTCGGTAGCTCCTCTCCACCACTGGTAGTCCTGTCATCTCCCCAAGTCTGCCTGAGTCTGGGGTTTTTATGGGCT
TCAGAGCAGAGGACGTGCATGCTGATTGGTCCATGGGCAGCCATGGGCAGGCCCAGRAAAAGCACCACAAGTTTCCACTCTGGTCCATGGGACCAACAGC
CTGGCCATCAGGCTTCAGGCTCTCCCCAGCTTGAAGGTGGAGCTTCACTGGAGACCTGCCCTCTTCCGCCCAGGAGCCTCTCTGCCTCTTGCTGCAGCTC
ATGGCATGCCAGGCTGTTTGTGCGGAAGGGCGCCTGCAGACCAGCAATGAGCTGCCCTCAGCCCCCACCTCAGCCTCCCTCTCGTACTGATCAGTGCCCA
AAGTCCAGAGGGGGCCAAGGCAGCAGGGGGCTGCTGTGTCACAACCTGGCTGGGCTGTGACAGCAYCCAGGCTTGACCCCAACCTTGCTCCAAGATCGGA
GTGGGTGCCAGGAGCAGAGAGAGTCCAGGAAGTGGGAACAGACACCTCTGAGTCTGCAGGGGCAGGGGGGCCCTTCCTGGCCCCAGAGAGTGCAGAGATG
CCTGGGTCTGCAGCTGCAGTTTGGGCAGCTGYGGCTGCGCCCAGGAGGGTGGGGCTCTTGCCTGCTTCCTGCAGAGACAAGAACTTAACTTTTCACTGTG
ACTTTTTGTAACCTGAATGCTTTGGCCTAGTTAAAAGATAATTATCTATTTTAAATGTAGACAGATATAGTGACTCTAAAATCAAGACAGGTTAGTTAAG
CCATCCCAGTATGAAATTCGCCTTGTGCCTGCATTTGGGGGAGTAAATTCCAAAACAGGCTGTTCTTCAGCACTGGAATCTTTCCTTGATATCATAACTG
CAATTCGTTTAAGTTGCTTTGTAAAGAGAATCCAATCATGTAGAGACTTATTGAACTTAGTGGGCAGGGTAACAAATGAGAGAACACTTGTCATATGTAA
AGCTCCATGCCTCTAACTAGGAAAGAAAAAAATCTACTTTGTGGTTCAGAGGTGACAAATGCAATAAGTTTCTAATGTGGTTTCCACTATGCAGTCTTAC
TGCTCTCATGATTTTTAGGTCTTTGGTCTGGGAGGATAGGGATGGGAGGACGGAATAATTAGATGATTCTCCACTCCAGAATAGATGCTGCAAGTTGGTG
TGTCCCAAATGTCAGTGGGACATACATATCTCTGGGGKTACATAAGGGGATTTTAGGTGCTCCTTGGCATTTCCTAAGTATGATCTGCCTTTCATGGTGA
CCCTTTTCCTCTACTGCCCTTTAGGGGAAAGGGCTTGCCAGTTCTGGACAAGGCCAGCAGAGAGAAACATGCTTGCAGGACTACTCAGAATGGTGGCTTC
TTCTGCTAATGGAGGCCTGGTGAGAAAAGACTGTCTCAACACCTCAGTCAGGGTCAGMGGAGGAGTGACCTTCCCTGCCCCAGGGCCAGTTCGATGTGTG
AGCCTTGRAGCTGATGGAGGGAGGGAGAAGGCATCATGCTACCTGCCTCCTCTGGGTCTGATGCTGCAAGTGATGGTGCAGTTGGATATGTGGAAAATGT
TATCCTAGATGATGTATAATTCTCTGCAAATTATAAAGCTTAAGGTAATCATATACCACTCTACAACTCATTTAAATGAGTTGAATATTGGTTGAATACA
TTTCTTTTTCTCTTTTTTTTTTTGAGACAGAGTTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGTAACCTCCGCCTCCTGG
GTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGTGCCACCACTCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTT
TCATTATGTTGGCCAGGCTGGTCTCAAACTCCTGACTTCAGGTGATCCATCCGCCTCAGTCTCCCAAAGTGCTGCGATTACAGGCGTGAGCCACCGCGTC
TGGCCAGAATACATTTCTTAAATTATTTTCAGATACCTTCCCAGAACCTGTCAAGTTAYGAGAAGGCTCAGGGCTACTGAGCTGATAGTCTCAAGTTTTC
TATATTGGTCACATAACATTAACTACTTAACCACCTAGGTTCCGGGCTGTCTACTTATTTCAGACTCATGTTTCTGAAATAAACATGGCTCTCTTTCTAT
GGCCCTGGCCTCAGGCTTGCTGCTGGCCATTTTCAACCAAAGTTCCCTCTGTAGTGCTGTTCTGCGGACAGCAACAGAACAGATATCATCAGGCAGGGGC
AGTGACAGCCAGATATTAAGAGATGACCAGCCCTGGCTGGGCGCTGTGGCTCACACCTGGAATCCTAACATTTTGGGAGGCCAAGGCAGGTGGATCACCT
GAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACACCATCCCTACTAAAAATACAAAAATTAGCCAGATGTGGTGGCATGCACCTGTAGTCC
CAGCTGCTCAGAAGGCTGAGGCAGGAGAATTGCTTGAACCTGGAAGGCGGAGGTTGCAGTGAGCTGAGATTGTGTCACTGCACTCCAGCCTAGGCAAGAG
AACGAGGCTCCATCTTAAAAAACAAACAAACAAACAAACAAACAAACAGAGATGACCAGCCCAAAGGTAATGAACAGACAAGGGAGTTGAAAGTTACCAA
AGAGACACACGGATCAAGTCTGCAGAAGACAGAGCGTAGAGTCCTGGATTAGATGATAGAATCCAGATTCAATGAGGGCTCAGTTAGCTAGAATGTGAGT
CCAAACTGACAAGAGGAAAATTTAAAGGAATACAATTTTACCTGCTTTTGCTTTTGGTATCACCATGCCATAGGCATTGATGGAAGACACTTGGCCTGGG
AGCAATTTTATGTGAAAAATATCTTGGGGTTTCGATCAGACAACCCAAATGTAAGCCTGGACTGTTAATACAGGACTAAGGAGAATGGGATATAATGAAT
CTCTTGAACTCTTTTTTGTTTTTTTTTCCAGACAGGGTCTCACTCTGTTACCCAGGCTGGAGTGCAGTGGCCCGATCTTGGCTCACTGCAGCCTTGACTT
CCCAGGCTCAAGGGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAAGCATGAGCCACTGTGCTCGGCCTGGATTCCTTGAATACTACACTTCA
GACTACACCTGGGATATTTGGGTCCTGGTCTGACTATAATGACTGAGATGAGATATGAGCAGAAGGTATACAGATCCTCTTTCCTGGTCACCCATTTCCC
ACATGCTGTTGAGCGTCAGCTGCTAACCCTCCTGAGAACTGCCCTTGCCCAAATGGGAACCACTTCACTCAGGAAGGTTTCCTCGAACACCCCTCACCCC
CAGAGCCAATGACTGAGTGTCACAGTATACAAGACTGAACCCCTTGCCTCAAGGTGAGACTCACTCTGTAGCACCACTCAGGATCCAGAGCTCCCCGTGG
CATCAGGCTGGGCTGGTCTCTGGCTAAACTGCATCCTTGCTTAGCTCCGCCCTCTTGCCCATCCTGTTTCCCTGGCTTCCCTACAGGTTTCCCCTGTGGC
CACTCCCCAGTAAATCACTTGCACCAGCATCCCTGTCTCAGATCCTGGATGATGAATGAAGGCTCTGGGAATCATTCAGGGAGAGATAAAGAAGCTAAAA
TATTTAGGAAAAAAGATTTAGGGAAATATGATAAGCAGCTGCCTTCAATTTTTTTTTTTTTTTTAGAATTAGAGGGCTGGGTGCAGTGGCTCACACCAGT
AATCCCAACACTTTGGGAGACCAAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTAAGACCAGTTTGGGCAACATAGCTAGACCCTCTCTCTACAAAAAAT
AATTTTAAAAATCAGCCAGGCAGGACAGGTATGGTGGCTTACATCTGCAATCCCAGCACTTTGGAAGACTGAGGCAGATGGATTACTTAAGGTCAGGAGT
TCAAGAATAGCCTGGGCAACATGGCGAAACCTCATCTCTACTAAAAATACGAAAATTAGCCAGCGTGTTGGTGCACGCTTGTAATCGCAGCTGCTTGGGA
AGCTGAGACAGGAGAATCACTTGAACCTGGGAGCTGGAGGTTGCAGTGAGCCAATATTGTGCCACTGTACTCTAGCCTGGGTGACAGAGTGAGACTCTGT
CTCAAAAATAATAATAATAATAATAAATTAGCCAGGCGTGGTGGCACACACCCATGGTCCTAACTACTTGAGAGGCTAGCTAGGAGCTAGCCCAGGAGTT
TGAAGCTGCAGTGAACTATGATCACGCCATTGCACTCCAGCCTAGGCAACAGACCAAGATCCTGTCCCCACCCCCCCCCAAAAAAAATTAGAAAGTAGAA
AAAGAATTGTATAGAAATGGAATAAAAGCAGAATTTGACTCAGTTTCAGAAAGAACTTTCTAATAAGCAAAGCTTTACACCATAGGTATAGCCTGTCTTG
TAGAATAATTGGAAACCTGTCATCGGAAATATTTACACAGAATCCAGAGGACCTTCCTACATCATCTGGTGAGTCACTGGACTGACCAAAGGCACACTGT
GAATGTTATTACTCCAAGTGGCCACAAGATGGCAGCAGCAGAGAACGTCCCACAGGTGATTAAGTAGAAAATTCTAGTTTCCAGAATTTTTTTTTTTTTT
TTTTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAGCCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTC
CTGCCTCAGCCTCCCGAGTGGCTGGGATTACAGGCGCCCACGACCATGCCCCGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCA
GGCTGGCCTCGAACTCCTGGCCTCAGGTGATCCACCCGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTACGCCCAGCCGTTTCCACAA
ATTTGATTCCAAACTCTAACCATGATGATAGGTGTTATGTCCATTATTATAAGCCCTTATAGATTTATGATACACAAAACTGAGAAAGTAAAAACATTTC
CCCCAAATTTGTATCTTACTATTAGAAAAAAAGGAAACTGAAGGCCGGGTGAGGTGGATCATGCCTGTAATCCCATCACTTTGGGAGGCTGAGGCAGGTG
GATCACCTGAGGTCAGGAGTTCCAGACCAGCCTGGGCAACATGGCAAAACCGTCTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGTGCACACC
TGTAATCCCAGCTACTCAGGGGGCTGAGGCAGGAAAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAATATTATACCACTGCACTTGGGCAAC
AGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAATCTCAGAGGTAGAAAGAGGTAAGCCCTGATCAGTGAGGTTTATCCTGATTCARARA
AAATGTGCTTCTTACATTCTGATCATGATGCTACTTCCATCTGACTGCACAATTTCCAGGCCCAATCATTGTGTACCTTCCAAGARAGGGAGTCTGTATT
TGAAATAGCCTCAATAATGAGGCCACACATTAGGCTCAGCCTATGTTGGCTTATGGTTCTCACAGAAAAAATTATCCACACTGCTAGTCTTCTTCCTGCA
CCAACCTCAAAGTCTACAGAAAGATGTCCCAGCACTGGGAGCTTGAATAACACCTCTACTGGGGAACCGAAATATACCAGTGATTCAATGAAGCAGATTA
ATATCAGAGTTCTGTTTGCAACCCTGAGGCCAGTCAATCCTACCAGCCCTTGCCTCCATCTGTGGTAGCCAGCCTCCAAGATGGCCCCCTATGATCTTTT
CCTCCTGATATCTATGCCCTTGTATCATCCCCATCACACTGAATCATGGCTAGTCTGTGTGAATGACAAGATATGTAGAAGTAATGGTGCATTTCTTCTA
AGACTAGGCCATTAAAGACACTTRCAGCTTCTTCTGCCATTCTCTCTTGGATCATTCACTGTGGAGGAAACCAGCTGCCATATTGTGAGGACACTCAAGC
AGCCCTATGGAGAGGTCCTCATGGGGAAGAACTGAGGCTTCCTGCCAATGGCCAGCAGTTTGCCAACCACATGAGGTCCTCTAGCCCCATTCAAGCCTTC
AGATGGCCACAGCCCCAAGTAACATCATAAGAGACCCCAGGTCTAAACTGCCCAGATCTGCTTCTCCTGAATTCCTGACGCACTGAATCTGAGTTAATGT
TTATTTTTGTTTTAAGCTACTATGTTGTTTTGTTTTGTTTGTTTTTGAGACAGGGTCTTGCTCCAGGCTAGAGTGCAGTGGCACAGTCTCGGCTCACTGC
AACCTCCACCTCCTGGGTTCAAGTGATTCTCATGCCTCAGCCTCCCAGTGAGCTGGGATTACAGGCACTTGTCACCACACACAGCTAAATTTTTTGTATT
TTTAATAGAGATGTGGTTTTGCTATGTTGGCCAGGCTGGTCTTGAACTCCTGCCCTCAAGTCATCTATCTGCCTCGGCCTCCCAAAGTACTGGGATTTAC
AGGTGTGAGCCACTGGGCCCGGCTTAAGCTACTAAGTTTTAAAGTAATTTGATATGCAGCAATAGGTAACTAATACAACACCCAAAATGCCACCATCCCT
GACCATATACACTCTCTTCTCACTTTCCTCTCTATACTCTGGCCACTCTCCTTACTATTCTGGTTAAGTAATAATAACCTGCTAACTTTGAAACTTAATA
GATATTTTCCAGACCTTGCATTACTGCATCTCTCTGCATAATTTTTACGATGGGAAGAATCTTCTTGAAAATTCCTATTCTCTGACTTCCTTGACACTGT
TCTGACCTGGCTCTCCTGATTTTCTCATTCAGGTCTTCCTGTCTGAATGAGAAAATCATTCAGGTTTTCTCCTGAATTGTTCTCCTGAATGATTTTTTCA
TTCACGTCTTTCTCCTTCAAAGATGCTCCTYTTCCACATGCTACCTAAAATGTTGGCCTTGCATCAAATTCGATTCCTGTTCTCTCCTTTTGACCCTGAA
CCAACTCCTTGGGTTATCTTGCTGTTCCCCTAGCTCCAATGACCATCACTTCGAAGATGACCACCAAATCCATCTCTCCAGCCCACATTGCACTCCTGAA
CCTCATACCCTTAAATCCACCTACCCACAGGCAGTGGTGTGCTGGAGCCTGCTCACACCAACTTGTGAGAGCCAACAGTGCACATCTCTTCTCAACTCTA
TATTTAGCAATGCCACATTGGCAGCTTGAATACCAACGGTGGGAGTGTTGATGTTGTGGAATTCAACAAATGCTGCAAATCGGAACTTTTTCCACTGAGA
GCCAGTTGATAAACATTTACCAGCACACCACTGCTCTTACCAGATGCTTCTGCCTTCTGTGTCCCATAAATACCTCAATTCAACATGTCCCAAGCATGTC
CCAAAATGTATTTTCTCATTCATTCAAAAATACTGGCTGAGCGTGTTGGCTCACGCCTGTAATCCCAACACTTTAGGAGGCTGAGGCAGGTGAATCACCT
GAGGTCAGGACTTCAAGACCAGCCTGGCCAACACGGTGAAATCTTGTCTCTACAAAAATACAAAAATCAGCCGGGCATGAAGGCAGGTGCCTGTAATCCA
AGATATTTGGGAGGCTGAGGCAGGAAAATTGCTTGAATCCGGGAGGCAGAGGTTGCAGTGAGCTGAGGTGGTGCCATTGCACTCCAGCCTGGGCAACAGA
GCAAGACTCTGTCTCAAAAAATAAAAAATTATAACTGTTTTTTCAAGTTCTGCGTGAAGGATAAATATTCTCTGCCTTCAATAAACTTATTCTCTGTTGG
AGGAGGCAGAAAGGTTCAACAGGCAATCTCAATAGCATAGTAAATGCTGTCTCATGCGTCCTTGCGAAGAGACCACCAAACAGGCTTTGTGTGAGCAACA
AGGCTGTTTATTTCACCTGGGTACAGGTGGGCTGAGTCAGAAAAAAGAGTCATCAAAGGGCGCTGGGATTATCATTAGTTCTTATAGGTTTGGGATAGGC
ATACAAAGTACCTTCTTAAGGGCGGGGGAGAATATATCTTCTCAGTTAGGGTAGGGCAGATGACAATGGTGGAATGTCATCAGTTAAGGCTATTTTTACT
TCTTTTGTGGATCTTCATTTGCTTCAGGCCATCTGGATGTATAAATGCAGGTCACAGGGGATATGATGGCTTAGCTTGGGTTCAGAGGCCTGACATTCCT
GTCTTCATGTATTAATAAGAAAAACAAAACAAAATAGTGGTGAAGTGTTGGTGTGGCAAAAATTTTTGGGGTGGTATGGAGAGATAATGGGCAATGTTTC
TCAGGGCTGCTCCAAGTGGGATTGGGGTGGTGTGAGAACCTAGAGTGGGAGAGATTAAACTGAAGAAATATTTTGGGGTAAGGGGTGATATTGTGGAGTT
GTTAGAAGGAGCATTTGTCATATAGAATTATTGGTGATGGCCTGAATGTGGTTTTGTATGAATTGAGAAACTAAATGACAGACACAACTTCTGAATAAGA
GAAGGAGAAAAACAAGTATTAAAGGACTAAGAATTGGGAGAACCCAGGACATCCAATTAGAGAGTGCCCAAGGGGGTTCAGCATAATTATATTCTTAGTT
GACGAGTTTTGGGGCTCTATCCTTGAGTTTTTTTATGTTGTCATATACCAGGCCAGATTGATTAAGGTAAAAACAACACTCTTCATTTAAAAATATACAG
AGTCCTCCCTTTTCAGCAGTGAGTAAATTGAGGCCTTGGTGATTTTGGAGGAAAGAGAAATGCAAAGCCAGCAATTGTTTGTTAAAGAAGGATTAGAAAT
AGCTAGGAGAGAGTGAGTGAAATTGATAGTGTGGTGGAGATAGCTGGGGAGAGGTAGAGGGTGGCAATAAGAATGGGAACAAGAATAAGAGTGAGTATAA
AAGTAAAGAATAGGACTTCATCAGGGTGAAAGTGTTGGAATGTGTCCTGTCAGCAAAGATCATCTATCCACTCCAAGAGGGAGTCAAGAGTGGAGGACTG
GGGATAGATATTCACGATGGAAAGGAAATGAGAGGTTTGAAGAGGCAGACTAACGGCTTGTAACCTACCGTGGAAGAGGTTATGAAATGACAACAGAATA
GAATGGGCATGTGAGGCTGGAAGGAGATATTTTCCTTGGTCCAAGAACAATTTGCCTTGTGCGGGAAGAGATTGATAGGTGGAAACTTCAGTAGGAGAGT
AAATAGGAGTGACCAATTAGAAGGAGAAAAACTGGCCATGAGGGACAGAAGTTGGAACACTAGGTGCTTCTTTAGCTACCTTATCAGCATAAGCGTTGCC
CTGAGCAATGGGATCTGATGTCTTTTAGTGGCCCTTGCAGTGTATGACTCCAGCTTTCTTGGGAAGTAAAGCGGCCTTGAGAAGAGTTTTTATTAAAGAG
GCATTAATGATGGAGGACCCTTGCATAGTGAGGAAACCTCTTTCAGCCCATATAACAGCATGGTGGTGCAGGATATGGAAGGCATATTTACAGTCTGTAT
AAATATTGATGCATAATTCCTTTGCAAGAGTGAGTGTTCGAGTTAAGGCAATGAATTTGGCTTGCTGAGAGGTAGTGGAGGAGGGCAGAGTGGTAGCCTC
AGTGATAGATATGGAAGATACTATAGCATAGCCTGCCTTTGCTGGTGAGTGGCGGTTAGGCCTGGTGGAACTGCCATCAATAAACCAAGTGTGATCAGGG
TGAGGAACATGAAAGAAGGAAATACGGGGAAATGGAGTGAATGTCAGGTGGATCAGAGAGATACAGTCATGGGGGTGGGGGCCAGCCAAAAAGAGTAAGG
TCAAGTTGTTTGGACAGAAAGGCTACAGGGTGCAGTCCCAGCTCTTGTGTAAGAATTTTGACTGCACAGCCCTGTACTTTGGCTGTGTGTAATGAAAAGG
GTTGGGATGAGTTAGGGAGAGCTAGTGTGGGGGCAGCTTCTAGGGCTGTTTTTAAGGAACAGAAAGAGGAGTGGTGAAAGGATTTAGGATCTATGGGGTC
AGCTAGGTTTGGTTTTGTGAGTTTATATAATGGTTTTATTAGGATGGCAAAACCAGGTATCTAAAGGTGAAAGTATCCAACCATGCCTAGGAAGGAAAGG
AGTTGTTGTTTTGTAGAAGGGGTTGGGGTTTGGGAGATTAGCCAGACACAATCAGCAGGGAGAGCACGTGTGTTTTCATGAAGAACTATGTCGAGATAGG
TAATGGATGAGGAAGAAATTTGGGCTTGACTGAAGTAATGGGGGCTGTCCGTGAAGCCTTGTGGCAGTACAGCCCAGGTAATTTGCTGAGCCTGATGGGT
GTCAGGGTCAGTCCAAGTGAAAGCAAAGAGAGGCTGRGATGAAGGGTGCAAGGAATAGTAAAGAAAGCATGTTTGAGATCCAGAACAGAATAATGGGTTA
TGGAGGGGTTGTGGAGGGAGGTACTGAGGATAGGAGAGTATATGGCTTTGGCACCATGGGGTGGATAGGCAAGACAATTTGGTTGATAAACGCAGATCCT
GAACTAACCTGTGAGACTTGTCCAGTTTTTGGACAGGTAAAATGGGGGAATTGTAAGGAGAGTTTATAGGCTTTAAAAGGCCATGCTGTAACAGGCAAGT
GATAACAGGCTTTAATCCTTTTAAAGCGTGCTGTGGGATGGGATATTGGCACTGAGCAGGGTAAGGGTGATTAGATTTTAATAGGATGGTAAGGGGTGCA
TCATCCATCGCCAAGGAGGGAGTAGAGGTGTCCTACACTTGTGGATTAAGGTGGGGAGATACAAGGAGAGGATGTGCAGGAGGCATTGAACTGGGGCAAA
AGGCAGTAGTGAGGTGTGGCTTTAACCCAGGAATAGTCAGGGAAGCAGATAATTTAGTTACAATGTTTTGAACTAATAAGCGAGCTGGGCAGGTGGGATA
ACTAAAAAGGAGTTCATTAAAGAATGTTGTCCAAGTTGGCACCAGAGTTGGGGAGTTTTAAGAGGTTTAGAAGCCTGGCTGTCAATACTCACAACAGTTA
TGGAGGCAAGGGAAACAGGCCCTTGAAAAGAAGGTGCTTGCCCCCGCAGGAAAGTGGAAATGGGGTGGGAGGTGCTTGCCCCCCAGGAAAGTGGAAAAGG
GGTGGGAGGTGCTTGCCCCCCAGGAAAGTGGAAAAGGGGCAGAGACATGGAGAGAAGGGGTGGGGGGTACTTGCCCCCCTAGGAAAATGGAAAAGGGGCA
GAGACACGGAGAGAAGGGGTGGGAGGTTCTTGCCCCCCAGGAAAGTGGAAAAGGGGCAGAGACACAGAGAGAAGGGGTGGGGGGTGCTTGCCCCCCAGGA
AAGTGGAGAGAAAAGAGAGGGTAGAGACACGGAGAGAAGGGGTGACATGAGCAGCCCTGGGCTGCAATGTGGGTGAGCAGCCAAAGCAATTGTCCCTACA
ATTAACTTGCCACCAAGGGAATGTGGGTGAATGACCAAGTTAGGCATCCCCACGGAGATCAGACACCAACGGAATGTGGGTGAATAATCAGGCAGGCATC
CCCACAATGATTAAACACCAAGGGAAGGCTGTGTTCCTGAGTCTGTGACCTGTGCCGGAGTTTTGGGTCCACAGATAAAATGTGTCTCCTTTGTCTCTAC
CAGAAAATGAAAGGAATTGAAATTAAGAGAAGGGAGAGACTGAAGGGTGGTGCCAAGATTGAAAGGAAAAGAGGTTGAGGGATAGTGAGAGAGGTTGGAG
AAGAGAGTAGAAAGAGGCCGCTTACCCGATTTAAAATAGGTGAGATGTTCCTTAGGCTGGTTGGTCTGAGGACCCAAGGTCGTAGGTGGATCTCTTCACA
GAGTGAGGGTGAGGATGGGGGACTGGTCTCCCAAAGGAGTCCCGCTGACCCAGGTCTTCGGCACCAAATGTCTCATGCGTCCCTATGAAGAGACCACCAA
ACAGGCTTTGTGTGAGCAACAAGGCTGTTTATTTTACCTGGGTGTAGGCGGGCTGAGTCCAAAAAAGGAGTCAGCAAAGGGTGGTGGGATTAGCATTAGT
GCTTTTTTTTTTTTTTTTTTTTGGGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAAGCTCTGCCTCCCAGG
TTCTCCTGCCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCGCCTGCCACCACACCTGGCTAATTTTTTGTATTTTTTTAGTGGAGATGG
GTTTTTACCCTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCACGATCCACCCGCCTCGGGGCCTCCCAAAGTGCTGAGATTAGAGGTGTGAACCACCG
CACCCGGCCGGGATTATCATTAGTTCTTATAGGTTTGGGATAGGCATACAAAGTACCTTCTTAAGGGCAGGGGGAAAATATTACAAAGTACCTTCTTAAG
GGTGTGGGAGAATATTACAAAGTACCTTCTTAAAGGTGGGGGAGAATATATCTTTTCAGTTAGCTCCAGCTGGAGTAAGCACTAGATGTTCCAGCTGTAG
ATGCACTAGATGCTCCAGCTGGAGTAAGCACTAGATGTTCATGGAGCACAGAGCAGGGGAAGACTTGAAAGGGGGTGTCTCATCTCAGCCAAGACCTGAA
GGATTGACAGGAAGTTTCCAGGCAAAGGAAGAACTACAGAAAGGCTCAGTGTTAAGAACAAGCACCCCATGTTTGGGGAGCTGCAAATGCTTCAGGTAGA
GATGCGCTTGGTATGAGACAAGCAAGGTCAGCTCAGAAAGGCTTGACAAGTCCTGATAATTGCTTCGGGCTATTCCTGAGGGTAGTAGGAAGTTTTTCAA
GGATTTTAAAGGACTTGATATGCTTTGTGGAACACTCACTGCAGTTGTAGTCTTGGAAGGGGGCTAAATAGACCCACTCCCTCCTTTGAGAGACTTTCGT
CATTTTGGCTTCCAGGAAAACATACACTACAGTTTTTGTCCTACTACCTGTGTTCATTCCTTTGCTGGCCTCTTGTCTTCTCCCCGATTGTTCATGATGG
TGGGTCCCAGGGCTTCCACTTTTTTTTCCTCCAATCTACTTCCAATACGGCAGCCAGATTTAAAACATGAGGCAGGTCAGTCCTTTCTCTGCTCAGGACT
CTCCAATGGCTTGCTGTTCTACTCAGAGTAAAAGTCAAAGTTCTTACAGTGGTCCCCGAGTCCCTACATGATTGGTCTCACTTTTCTCTCCACCACCAGC
TCACTCTGCTGCAGCCACCCTGTCCTGCTTACTGTCTTCTGTACACACCAGGAATGCTTCCACCTCAGGGCCTTTGTGCTGGCTCATCTGTCTGCCCAGA
ATCCTCTTTGCCCAGATATCCTGTGGTTCCATCCCTGATCTTCAAGTCTCTGTTCAAATGTCGCCTTCTCAATGAGACTTTTCCTGACTGCCCCATTTAA
AATTGCAACATTTCCTTCTAGCCTGACACTTCTGATACCCATTTCCCATTCCCTTTTCTTTCTTTCTTTGTAGCCCTTATAACCTTTTAACATCTTATAT
AATCTCTGTATTTGTTATTTTTATAGCTTATTGACTCTTACTCCCACTAGGTTGTAAATTCCACAGAGATGGAGCTCTTGGTGTCTTGTTCACTGATACG
ATCCAAATATCTCTTAGGATGTTTCCAGCTACATCCTGAGGCTTTCCCCAAGGATTCCCCTCTACCTGGAGGGGACTGTTCCCAAGTCCCTGAGCCCAGA
AGATCCCTCAGAGACCATATAACCTGGAGATCATAAAGTTGCCTAAGACATAGCTGATTATGAAGGAGAGAACCCTGGAATTTAAGCAGATAAGGTGGAT
GTGGAGTTGACTGAACATTTCCCAGCTTTGTGATCTTGGGCAAGTCACCCCACCTCACTGAGATTCAATTTCTTTGCCTGTGAAATGAGGTTAATATTTG
TCCCTCCTACCTTGCAGTGTGTGGTGGAAGTGTGGCCTTTTAGTTTAAATCCCTATGCTTTAGCAGGGCTCGATGGCTCACACCTGTAATCCCAGCGCTT
TCAGAGGCCCAGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGTCAACATGGTGAAACCCTTTTTCTACTAAAATTACAAAAATTAGCC
AGGTGTTGTGGTGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGTCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCCA
GCCACTGCACTCCAGTCTGGGTAACAGAGCAAGACTCCATCCCCAATAAATAAATAAATAAATAAATAAATAAATAAATWAATAAATCCCTATGCTTCAA
TATCCTAAGGAAAAGACCCACCTGCAGTTTATGATAACACAATGGCTATGTCTATATTTGTGCCAATTGGCCTTGAAGATAAAATGTCAGCTGTGGGGGA
GGATATATTTGTGTTTAAAATTCAGAGATCCTGAGAGCATCAGGATGAGGTGGAGAAAGCGTGAGATTATGGTATTACAGACAGAATGGGCAATATTCAC
AAGGTGGAGGAGGAACGTTCATGCCATGGTCAGGGGCTACTGATAGGGGAAACCCAGGCATTGAGAGGATTAACCACTTTCCAGAAGTCCTAATAGACCC
TTGGTGGACTCTAGGATTTTCAAGTCCCAGGCCAGCACTTTCCCCATCACTGTCTTCTCGAAGAGTGATAAATGAAGTTGTTTTCATAATACAGTGACAT
TTTCAGGTCCATTTCCTCAGACTCACTGGGTACTTCATGGACCATCACACTCCTGTTTGAGCATCTGGGCTGCATCTGCATCCAGTTTCCAAGGGTCTTG
TCAGAACAGGAGGTAAACCCAGGTTATTGTCCCAATTTTGCCAGTCACTTGGGTCCCTGACTATTCCACAGCTCTGAGTCATAGATCACCATTTCTCTTT
TAACCTAGTGGTAGAAGTTTATGCCTGTTGGATCATTGCTTTTATATCTTGTTAGCTTTGTCTAGGATTTATTAGTCTGTAATTTCAGATTGGGCCCCAG
GGGTATTTCTGAATATAACTGTGTGTTTTGTGTGTGGGTGGGTATGCATGCAGGGATAATCTATGGCTTTAAATCTGAAGTTTAACTGGAAATAATAATA
ATTACTAATTAACAATGTGGATTTATATAAAATGTTATTGATGAAAATAATAGCAGCAGCCATCATTTATTGAGTGCTTATTATGTGCCAGCCACCATAT
TAATTTGAGGTAGGGACCATTTAAGGGTAAGAAAATCAACCACACAACATCAGTGATGGAGCTAGGATTCAAAYCCAGGCTGACCAAAGAGTTCACTCTA
TTCTTTGCAATTACTGCATCCTCAAACAATCCCCTCCTCCACGGCTCTTGTTTTTCTTCAGTAATGGTTCCCAACTCTTTGCTGCCTGGACACACTAGAC
AGATGATATTTGGCCAGCATAACCCACTTCTGAGGCCCAGCTCCAATTTTTAGTGCATCCTGCCAACTTGTCTGTTGSCTGGCTCTACCTCCATCTGCAG
CTCTCACGACTACGGCCCAGCAGTGTATCCAACAACATTGTGTGAACCTCTGCTCTAGGAGAAAGGCCATACCCTCCAGTCCACTCTGGCTCCACTCCAC
ATCCCCCTCCTAACTTCTCATACCTCCCCCTTTGGAATCTCCCCTTGAGTTAGGCCAAGCAGAGTTCTGGAGAGGCCTTACAGATGATGTTCTCCTGGAC
TGGGATAAGTTCTGCATCCTTTTCAGCTACTCATGCCAGTTCACGTTCCTACATTTTCCAGGAACCCTTGTTGTACCAAGCAGGGTTCTCAGGTTGCCAA
TCACAGAAGCAGACCCTTAAAAGACCTTATTGGAATGATATGGGAAAGCTCACAGAATTTACAGAATCTGAGCCGGCAGGCCCCAGGAAGAGCAGTTAGG
GGACCTGAGGTGTCCAAGTAGCAGGAGTTAATGGGAGGTCCCTTCAGAGAGCTTCCATCCGGGATAGATTTTCCACCCTTATGTTCCTGTACTCAAGATT
CAAATCCCGGCCGGGTGGGGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGAGGATCACGTGAGGTCAGGAGTTTGAAACCAGCCTG
GCCAACATGGTAAAACTCAGTCTCTACTAAAAATACAAAAATTAGCCAGGGTCGGGGCGCGCGCCTGTAGTCCCAGCTACTCCGGAGGCTGAGGCAGGAG
AATCACGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCGCTGCACTCCAGCCCGGACGATGACAGAGCGAGACMCCGTCTCAAAAAAAAAA
AAAAAAAAAAAGATTCAAATCCTTGGAAGAGAGAGTGTGAATGGCCTAGTTTGGGTCTCTGGGCCACACATACCCATCGACCACAGCACTTTAATTCATA
GTCCCGGCCAGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGACGGGTGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAA
CACGGTGAAACCCCGTCTGCACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCCGGCGCCTGTAGTCCCAGGTACTCTGGAGGCTGAGGCAGGAGAAT
GGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCACTGCACTCCAGCCTGGAAGACAGCGAGACTCGGTCTCAAAAAAAAAAAAAAAAA
AAAAAAAAATGCATAGTTCCGCCAAGTCCACCCACATGCAACTAGTTGGGGACAGTTTCTTAAAGGATAATTACAGTGCTGCAACAAGGCTGGGCGCAGT
GGTTCAAACCTGTAATCCCAGCACTTTGGGAGGCCAAGGAGGGCAGATTACTTGATGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGTAAAACCCCGT
CTCTACTAAAAATACAAAAATTAGCCAGGAATGGTGGTGCACACCTGTAATCCCAGCTACTTGGGAGGCTGGGACACGAGAATCGCTTGAACCCAGGAGG
TGGAGGTTGCAGTCAGCCAAGATCGTGCCACCACACTCCAGCCTGGGTAACAGAGTGAGACCTTCCCTCAAAAAAAAAAAAAAAAAAAAAAGTGCTGCTA
CCAGAAGAGGGGAGAAGGGATGCTGAGCAGGCTGGACACTAAGGCCACAGCCTTCTCTCCCTTCTCTCAAGCCTTAGATTCACACTGCTATTTTCCCTAT
TGATGGCCTCTCACTGACCTGCCTCACCTAGGGTTGTTATTTAAACGTGTGCTGCGAAATGCCTGTCATAGCCATCATTGTGCTTGCTTCAGAGCACATA
TGTTACCTTCCCCCAAAGTTGAGAAACTCCTGGGAGGCAAGAGCTGAGGCTCCTAAGTCCACAGGTTTGCTCGGAGCCAAACTATGGGCCAATTAACAGG
TTTTAGGGACTGGCTGAGTGACCAGCTGCATGTTTGTATGTTGGGTGGAAGAGCGGGATACCAAGACAGTGAGGTAAGTGGGAAGCTTTCCCTGGAGAAC
TTTTTAACCCCCAGAATACACCTATTTTCCAGTGAAAGCAACTAAGTCAAGAGGTTCTGGGAGAATTAGTTAAAAGAATTGCAGCTCAAGACTGGCTCCA
TTAGGCCAGGTTCTTCTAGACTTCCACCATGGTCATATACACTTCTGAAAACTGTCACTGCCATTAAATCTCCCGTTACGATTCTTTTTTCCCTCTTAGT
TTCTTATTAAGAGCCTTTATGGGGGCTGTGTGCCGTGGCTCACACCTGTAATCCCAGTGCTTTGGGAGGCCAAGGTGGGAGGAATACTTGAGGCTAGGAG
TTTGAGACCAGCCTGGGCAACATAGTGAGACTCCATTTATATATATTATATATATATATACATATATACACATATATATGTATATATATATATAAATTTT
TTTTTAATTTAGCAGCACAAGGATTGCTTGAGCCCGGGAGTTTGAGGCTGCAGTAAGCTATGATCATGCCACTGCACTCCAGCCTGGGCAAAAGAGTGAG
ACCCTGTCTCTAAAAACAAACAACAAAAACAAACAGAAAAAAAAGAAGGCTCTTATAAAAAAACATTGGCTTTCCCTCTGCTAACCTGCAGTTTGGGAAA
GAGCCTGGATAAAGATTGAGGACATGTGGCAACTGGGACCCACTCTGCCCTTAACTGCTTAGCTGCTCATTCAGTCAACAAATAAACACTGAGAACCTAC
TATGTGTCAGGCATTGTTCAAGACACTGCTAGGGATACAGTGGTGAACCAAAGATACCAAATCTTCTTAATTTCTTTTCTTTCTCGGAGATAGGAGGCCT
TTATCAGCTCTCATGGCTTTTTCAGAGCTATCATTCCAGAATTATATGAATGAAGGAAAAACAATTTTCTCTCTCTCATTCAAGGCAAAGGGGTATTCAA
GGTGCCTCAGGAGGTAAAGCAAGTGGTGAYATTTTCTTGGAAATAGTTCAGAATCTGGATGGATGGAGAGAGAGAGATTACATAATGAAAAGCCCACAAA
TGTTGGTTCATTGCTGGCACACAGTGAACACAGTGAACTCTTACTAAGTATCTGTTTGGTGGATGAATCATGTGGGAAAAAGAAGGGGACTTAATGGGTG
GCTGCAGGGAGAATTTCCTCACTGTGACTCGAGACCCTCACATGTGCCTCTTTGCCTCTATCCTGTCTTGGGAGTACTGCTCCTTCCGTAACTCCCCCAT
CTCCTCAGGCATTTGGACCCCAGYGTTCCGGGCCTGAGAGTCCAGAATTTCCACTCTCTGTGATACAAAGAAGAGGCCCTGGCTCATTATTGACTATAAC
CCTAGGGTTTTTCCTCTTAAGAGGGAAACCTTCCCTCTCTTAATCTTCCGGGTCTTCCTAAGAGGAAAGAATGTTTGCTTCCTAGGCACCTAATATAAAC
TCCCTTAATGGGTTTAAGCCTGGGGTCACAGAATCAAGTGCACACAGAAAGAGGCCAGGCAGGTAATGTCAATTGTGACAGACAATAAGGAATGCTGGGG
ACTGTGGTGACCTGGAGAGCTGAGCCTCATGTGAACAGCATCATACTTTAAAAAAGTACTGTGTGGGCCAAAACAGTGGCACTCATGTGTGGGTGTTCGA
AGATCAGTGAACTATCAGTTTATGGCATCTATTATTAGAAACAAGCCAGAAAAACTTGTCAACTTTTCATTCTTCTCTCTGCGGCATGTCTCCCTGAGAC
CACATGGCTGCTTGAATGGAGGGAAAGAAGAGGAGGACATGCCAATCGGAGAATGTAGGTTAATATCTTCAATAGTATTCTACCATACCCACATTTGGCT
TGGATAGAACGTTTTCTTGGGCTAAACTCCATAAAATTCCTATAGAGGCACAATTACTGACTCAAACAAAAGCTGCCTTTGACTATTGAGAGAGGAGTGT
CTAGGTCAGAAGGATCAATTTTCTGATGAATCAGTGAGCAATTCTGAGTGGAACTAATCAGGCTTGTGTTGTGTCACCCTTTATTTATAACCCATGGTTC
AGTGATCTGAAATCTGACCACTCCTCCTCTGACTTCCCCCGACCTCCTTCTACTTTCCTAACATGTGTGCAAATGTACCACATGTATACACACACAGAGA
AATACAAAGATGAAGAAAAGCATTTTTCAGAAACAAGAAGGCTCAGAGAGATGTTAGAGCCTTCCTGACAGTACTGGAAACAACAAAAGATGCAAGGGTG
TGACGGCCAGTGGAAGTAATTTAACTCCTGTGCCTCCAGGGAATCACAAGGTCTCAGGAAAACAGCCATGAGTAACAAATTAGCTCCCCAGCAAGGCAAA
TTCCTGGAGGATTAAAGACAGGGAGTGATCCCAGCAACATTTCTAGTTACTAATGCCTAGGGATAGGAAGGGCAATSAATTAATTTTTCCCTCAGGATTC
CAACTGAGGTTGTCCCATAAAGTATTGGGTCATATTTCCAAAGCCACGTTAGGTCAGGCCTTGGTTACCCATCACATTAGTTAAGGTTATATTGGTTTCA
GGGAAGAAAAGGAAACTTTGGCTGACTTAAACAAAAAGGAGGATTATTGGGAAGCTCCTGTGGGCTTTGATGAAATCAAAAAGAAAGCTGGATAACCACA
GCTCAGCAAGGGAAGAAACTGAGCACCAGGAGTTCATGGTTGTGTTGCCATTGATATGATTCTGTTTCAGTGTGCCCAGGCTCTCTGGTTCTTTGGGATA
AAAGGATCTCATGGGCCCTATGACTTAGCTTGGGTTCCCCAAAGGCAGAGGGATTCTGTTGTGATGTACGGGGAGAGTGCTCTCAGGAGAAATCCATTAA
GGGAGTGAGGGAAGCAGGGTGGTACAGGAGACAGAGCTAAGCAAGCCTAGCCTCAGCCTGATCCGGTGGTGGGACCTGGAGAGTGAATGACATGACTGAG
TTATCCCACTTTGAAGCAATGGTGTTCCTCTCCCTCGAGGGGGAGAACATACTTTCTCAAGCATTTTTGGGAAGATGATTCAATAGCAAAGCCACCTGTG
AGGTGTTCATAGCCAACATTCACAGCAGCTGGGGGATGGTGCACTGCCTAGTCAAGGAGATCTGGGTAGAGCACCAACAGAATCCACTGCTCCTGGCTTG
GGTAAGGTGTCCACTCAAGAGCAATTAGCCATTGAGAGAGAGGCAAAACCTTGAAGTCTAGACATGGCAGCAGGGCTATTTCCAGAGGAAAGTGTACAAG
AGTGATGGGAAGTTATACCAAATGGTGTCCATAGTACCCACTTGAATAACTTTTACTGAAAATGCTCTCCTGGCCAGTATGTACAACTGGCCAGGTGTTT
CTTCCTCAGTAAGAAGAGTATTTCCCAGGCACTTAACATAATCTCCTTTTTTTTTGTTTTTCTCACGTCAGTCAGGTAATATGTCAACATGGTAACAAGG
TTCGAGGGTGGCTCATCTCACACGTGGGCAGGAACACCCAATCATCATGCTCATGAACTACAAAAGGATCATCTCTGTTTTTTTAAAAATCTCTCAAACA
TTGTTTATTATACAAGTAAACCCCAATTCTCATGATGGGCTTATTGGTAGGATTTCTGGTAGCAAGCATGGGTACCAGCGTCTCTTAATTTTTTGGATTA
GTGGTGGTGGAGGTCAGCCACCAGCAGGATCTGGTCGTACTGTATGAGGATGTCTTTGATCTTTGTCTTTGATCTCCTCCTTGGAAAACTCATCCATATA
CTTCTGGTAATAGGACACCAGGGCTTTGAGGCTGGACTGATGGATAGCATATATCTAGGCCATGTGATCACCACCCTTCACATGGACACGTCCATGCCAG
CAAATCACTCCTTGTCTGGAAGCAGAACTGGTTCCAGCAGCTCATATATTGGTATGTATAGCTCGATCATCTCCAGGGGCCGCCTGTTCACCTTGATTGC
TGCGTTTGCAGTGTGCCACAGCTGTGGCTGTCTTCTTGCATCTGAAGACCTGCACAAAGTGCAATGAGCCCTTGGAAAGAATGGCTACAGGTATAGATAA
GAACTCCTCTCTTTTTTTTCTTTTTGAGACAGGGTCTTGCTTTGTTGCCCAGGCTGGAATGCAGTGGGGCAATCTCAGCTCACTACAACCTCTGCCTCCT
GTGTTCAACGAATTCTCCTACCTTGGCCCCCGAGTAGCTGGGATTACAGGTGCCTGCCAGGAAGCCCAGCTAATTTTTGTATTTTTGGTAGAGATGGGGT
TTCACCATGTTGGCCAGGCTGTCTTTTTTTTTTTTTTTTTTTTAACATAATCTTAATAGGGAGCTCTCCAGTTTAACCACAGTCCTTGACACTCCCTACT
GTCTACCACAATTGATCATATGATAGAATCTTTCTGTGTGCATTTGAGTTTGTGGCCCCAGGCCTAAACCCATTAAGGAAGAGTATTTTAGGTGCCTGGG
TACATAAGTAGAAGTGGAATTTATGGATTCTGGGGCATGAATGTGTTCAGCTTTAGTGTATATTGCTGAAGAGTTCTCCAACATGGTTGTATCATTTGAT
ACTGCTTTTAACAATGTATGAAAGTAGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTGTAGGAGGCTGAGGCGGGCAGATCACCTGAAGTCAG
GAGTTCAAGACCAGCCTGGTCAACGTGATGAAACCCCATCTCTACTAAAAAAATACAAAAATTAGCCAGGCGTGGTGGTGCATGCCTGTAATCCCAGCTA
TTTGGGAGGCTGAGGCAGGAGAATTGCTAGATCCTGGGAGACAGAGGTTGCAGTTAGCCAAGATCATGCCACTGCATTCCAGCCTGGGCAACAGAGCAAG
AGACTGTCCCAAAACAAACAAACAAACAATGTATGAAATTTCCACTTGCCCCACATCCTTACCAGAACTTGGTATTGTCTGTCTTTTTCATTTTACCTAT
TCTAGTAGATACGCAGTATTATCTCATGGTGGTTTTAATTTGTATCTCTAGGCCGGGCATGGTGGTTCACACCTGTAATCTCAGCACTCTGGGAGGCTGA
GGCAGATGGATCACTAGGAGTTTGAGACCAGCCTGGGCAACATGGCGAAAACCTATCTCTCCTAAAAATAAAAGGAAATTAGCTGGCTACAGTGGCACAT
GCCTGTAGTTCTAGCTACCTGGGAGGCTGAGGTGGGAGAATCACTTGAGCATGGGAGGTGGAGGCTGCAATGAGCCATGATCTTGCCACTGCACTCCAAC
TTGGGTGACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAGAAAGAAAAGTATTTGGCATCTGCCTAATAAGTAATGAAGTCAAGCACTATT
TGATGTCTTTTCTTGTTGGTTCAGGTAAACTGTTTATGAATTCTGTATATCAGGTGAACTGTTTATGAATTCTGTATATGAATATACAAAGCTCTTGGCC
TGGTATGGTGGCTCATGCCTATAATCCCAACACTTTGGGAGGCTGATTCGGGACAATGGCTTGAGGCCAGGAATTCGAGGTTACAGTAAGCTATGATAGT
GCTACTGCACTCCAGCCGGTGTGACAGAGCGAGACCTTGTCTCTTAAGAAAAAAAAAAAATTCTTTAACTCAAAAAAACCAAATCCTCTGCACTGTGGCC
AATGAATAATTTTATGGCAGATGGGTCTTTTGCCCCTCGTTTTATACTAATATATAATTATTACATATTGAACATAATACTGAAGCCCAGTATATTCACC
CGTTTGGTGAAGTTGAGATTATAGCCCATGTTTCCTGACAAGCTGTGCACACATCTGTTGGTTCTCCTCGGCCTGGCATCCCTTAATCCTACTTACCTCT
CCTTTCTTCCTTCTCCATTTCAACCATGGGACTCCAGGGAGGTTACCAATCACATTATTCCCTCCCTTTGGCTACGTGGCCATAAACTGGGCCCATCAAT
TTATTTCTCCATAAAACTTGAAACTCCAATGAAAGCCTCTTGAAGTCTCATAGATGTGCCCTGAGAGCAGGCCCAGGGTCACCTGCTGGTAAGGACCTGG
AGCTTCCCAGTTTCCTGTCCTTCCAAAGGTCATGATCTCTATCTCTTCCCTCAGTTCTGGAACTACTCAAGAATCCTTTTTCCAATAAACCCCTTCTTCC
CTTAGTCAGAGTCAGTTTCTATTGTGTGTTAGTCAGAGAACTAATATAATCCCAATTCTCTTTTTTTCTGCCACCATCAATGAGCAAAATGGGAAATTTT
TAAATTATTTAATTGCATTATACTTATTCATATTTTATTTATTACATTTTGTAAATAAGATTTTCGTGGCCGGGTGCCATGGCTCATGCCTGTAATCCCA
GCACTTTGGGAGGCTGAGGTGGGCGGATCATCTGAGGTCAGGAGTTCGAGATCAGCCTGGCCAACATGGTGAAACCCTGTCTCTAAAAAAATATAAAAAT
TAGCTGGGCATGGTGGTGTGCACCTGTAGTCCTAGAAACCTGGGGGGCTGAGGCAGGAGAATCGCTTGAACCAGGAGATGGAGGTTGCAGTGAACTGAGA
TTGTGCCACTGCACTCCAGCCTGGGCAATAAAGTGAGACTGTCTCAAAAACAAAATTGGCTTTTAATTTCTTAAAATTGGCTTAGTTGGTCATTGCATGT
TAAAACCATATCTGCAGCTACTCAGGAGGCTGAGGCTGGAGTATCCCTTGAGCCCAGGAAGGAGTGGTTGCAGTGAGCCAAGATCGCAGCACTGCACTCT
GGTTAACAAGAGTGAGGTCCTGTCTCAAAAAAAAAAAAAAAAAAAAAATTGGCCGGGCACGGTAGCTCATGCCTGTAATCCCAGCGCTTTGGGAGGCTGA
GGCGGGTGGATCACCTGAGGTGGGGTGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTTTACTAAAAATACAAAAATTAGCCAGGTGTAGTGG
TGCATGCCTGTAACCCCAGCTACTTGGGAGGCTGAGGCAGGAAAATCCCTTGAACTCAGGAGGCGGAGGTTGCTGTGAGCTGAGATTATGCCACTGCACT
CCAGCTTGGCCTGGGAGACAGAGTGAGACTCTATCTCAAAAAAAAAAAAAAAAAAAAAAAAATTAAATGTAATTTCATTTAAAAAACCATAACTGAGTTT
TTGAAATATGCGTCATTTGAGTACCTGTATCCCAGGTTTATTTATACTAACAGGGAGCTAGCAACTTAGAAAAACATTTTTATTTCTATCCCTTTGAATC
GTCTAGTCTAAGGGGAGGCAAACTTTTCTATAAAGAGCCAGGTAGTAAATATTTTCGTCTTTGTGGACCACATGGTTTCTTTCATAACTACTCAACTGCT
GTTGTAGCCACAGATGGTACATAAATGAATGGGTGTGGCCATGTCTTAATAAATAGACACTGCAATTTTTGTTTTTGTTTTTGAGATGGAGTTTTGCTCT
TGTTGTCCAGGCTGCGGTGCAATGGTGCGATCTCGGCTTATTGCAACTTCCACCTTGTGGGTTGAAGCGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGG
GATTACAGGCATGTGCCACCACATCTGGCTAATTTTGTACTTTTAGTAGATATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAG
GTGATCCACCGGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCCGACCCGGCCCTTTTTTTTTTTTTTTTTTTTTTTTCTGAGATAGAG
TTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGGGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTG
AGTAGCTGGGATTACAGGCACATGCCACTACGCCTGGCTAATTTTTGTATTTTTAGTAAAGACGGGGTTGGTCAGGCTAGTCTCGAACTCCTGACCTCAG
GTGATCCACCTGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCTGATACTGCAATTTGAATTTTACATAATTTTCAGGTG
TCATGTCATAATATAGTCTTCTTTGATTTTTTTAAAAAGACCATTTAAAAAATGTCGAAATGATTCTTAGTTTTCAGGCCACAGTGGCCAGATTCATTCT
ATGGGGCACACTTTACCAACTTCCGCTCTAATCTTCTGATTGATTATACATTATTATTATTGTTATTATTTGAGACGGAGTCTTGCTCTGTTGCCCAGGC
TGGAGTGCAGTGTTCGATCTTGCCTCCACCTCCTGGGTTTAAGTGATTCTCCTGCCTCAGCCTCCCAAGTGGCTGGGATTACAGGCACACACCACCACTC
CCAGCTAATTTTTGTATGTTTACTTTTGTATTTTATTTATTTATTTATTTATTTATTTATTTATTTTTGAGATGGAATCTTGCTCTGTTGCCCAGACTTG
AGTGTAGTGGCACGATCTCGGCTCAGCCTCCTGAGTAGCTGGGACTACAGGCAAGTGCCACCATGCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGT
TTCACCATGTTGGTCAGGCCGGTCTCAAACTCCTCACCTCAAATGATCCACCCGCCTCAGCCTCCCAAAGTGCTAGGATTATAGGCATGAGCCACTGTGC
CTGGCCTGATTATACATTATTGAACATAATAAATATTGACTTCTTAAATTGAGATTATAAAATAATTGGCACTATTTATGGAATAAATAAGTAACTTATT
TGTCTCCTAAATTGATGAGAATACAGTCAAGGATATAACTATAAAATAGCAACTGGATAAAATTTTTCTTATTCCCAGGAATTCCTATGTAACACTGCAG
AACGTAGAAAGATCATACTATACACTAAATTTCTTTGTAGTTGTTTTGGAACTATCTAATTTTATAGCACACCAATTAAACATTTATTGTTAACATAGAA
TCAAGGAAAATAAGGGGCTTTAAGATGTAAATCACTTAGTCACTTACAATAATAATGATGCCTAGATTTATACAGCTAGTTTACAAAAATTATAGTTTTA
TATATTATCTCTTATGATCCTCACAACAACCATGGAGGTAGACAGGCAAGGTCTTATTATCTTAATTTAAAGAAGATCAACCTGCCCAAGATGACACAAG
TGACAAGGGAGTGGCAGAGATACTCTAGTCACATCTCTGAATCATAGTCAAAAGTTGTTTCCATAAAATATAATACTAAAATCATACAATTCAAGAACAG
GTAATGAGTAAATCCTGCTTCATCAGCTGAGGAACATAAGACATCTCACCATAAGGATGCCTTTCATTTGTCAACTCAAGCTGCATGTGCCTAGATTAGT
GGAAAATCTAGACCTTTCCTTCTCCCCTCTTAGCTCAACCTCCTTCCCCTGATAAGCTTAGGAGTCACAGTGGTCACAACCACAGCTGATTGCTCTGGAA
GGTATCACCCTAGCTGCTGCAGAAGCTGAGAGCCCGGTGTCACTGCTGATTCTGAAATGTTTTAAAGCAATATCTTTGTCAAAGTTATACCCTTGAAAAG
CCATGCCTTTTGTCAACTTCCACTGCTGACCACAGGATTTCAGCACAGTATCCTTATGTCTACTAAAGCCCCAGTCAGAAATAATTGCAGCCCATCTCAA
ACCCAAGTTCCAGCTACCAATACTGTGATCTCTTGCTAACACATAGGCCATCTGAAAGAAATGACTTGGATTGAGATTTGTGTCCTCGCTGGGGCTGATA
CTGGTACACCTTCCTTCAAGCCTTCCACTAAAAAAGGAAGGGAGATGCCTTTTTCCTCAGGATTACACATTTAGACAAGAGCACTCAAAACCAAGTGGTA
CAGGGATCCCGATATTACAGTTCTTTGGATTCATTCATTCAGTCTCTTCCCCAGGGCATAAGCCAAGTGCAGACATAAATTGCATTAAAGCCTTTATTTA
TTTACTTATTTAAAATTTAACTTCTTGTTACGAAAATGTCCAAACATACAAAAAAAAAAAAAAAAAAAAAGGCCAGACACAGTGACTTATGCCTGTAATC
CCATGTAATCCCAGCACTTTGGGAGGCTGAAGTGGGCGGATCACTCAGGAGTTTGAGACCAGCCTGGCCAGCGTGGTGAAACCCGTCTCTACTAAAAAAT
ACAAAAAAATTAGCCGGGTGTGGTGGTGCGCACCTGTAATCTCAGCTACTGGGGAGGCTGAGGCAGGAGAATAGCTTGAACCTGGGAGGCAGAGGTTGCA
GTGAACCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAATGGTATTATGCTCCT
CCCCTGCTCCCGCGTACCCATCACTAAGCCTTAATATTTATTGACTGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCG
GGCGGATCACGAGGTCAGGAGACCAAGACCATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCTGCACGTAGTGGCGTG
CGTCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAGCCCGGGAGGCGGAACTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAG
CCTGGGCGACAGAGCGAGACTCAGTCTCAAAAAAAAATAATAAAAAAAATTTATTGACTCTCTCCTAATCTTCTGTGCTGCCACTTCCTCTCCTCTGAAG
TATTTTGAAGGAAATACTGGAGACCGTATAATTTCATCCTTAAATAATTCAGTATATGTCTCTAACAGAAAAAGACTTTTTTTTTTTTTTTCCATTTTCT
TGTTTGAGACAGGGACTCACTCTATTGCTCTGTGACTCCATCTGGGCTACTGCAACCTCCACCTCCCAGCCTCAAGAGATCCTCCCATCTCAGGCTTCCG
TGTAGCTAAGACTACAGATGTGCACCACCACGACCAGCTAATTTTTGTATTTTTTTGTAGAGATGGGGTTTCGCTATGACACCTAGGCTAGTCTTGAATT
CCTCCTGGGCTCAAGCAATCAGCCTGCTTTAGCCTCCCAAATTGCTGGGATATAGGCATGAGCCACCACACCAGGCCAACTGTTTTCAAAAACACAACCA
CAGTATCATTAAGACACTGACAGAAATATTAATCTGTAATTAATATTAATTCCTTAATATAATTTAATATCCAGCCTATAGTCAAATTTGCCCATTGTCT
CAGAAATTTATTTTTAAATAATTGGATTATGAAATAAAGATCCACATACTATATTCAATTGTTATGTTTCTTTCTTTTTTTTTTTTTTTTGAGACAGAGT
CTTGCTCTGTCACCCAGGCTGGAGTGTAGTGGCACGATCTCGGCTCACTGCAATCTCCGCCTCCCGGGTTCAAGCAAGTCTCTTGCCTCAGCCTCCCAAG
TAGCTGGGACTACAGGCGTGCACCACCATGCCCAGCTAATTTTTGTACTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCAATCTCTT
GACCTCGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTATCATTTCTTTTACATTTATTAGTTGAAA
ATATTTTATACAAAAGGACTTTTCCTTTAAAACTCATTGGCTACCCTGAAATACAATTTGTACAACAAAGGCAGAACAAATGTTTGGTTATTTCCCTTTT
TTATTTTATTTTATTTTATTTTATTTTTTTCAGACTAAGTCTCACTCTTGTCCCCCAGGCTGGAGTGCAAATGGCGCGATCTCGGCTCACTGCAACCTCT
GCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGA
GACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCTTGACCTCAGGCGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGC
CACCGCGCCTGGCCTATTTCCCTTTATTTACCAATTACCATTACCATATAATTAGCAACTTGCCATGGCAACTTCTATAGGCAAGTAGTGAATTTCTTTC
CTTTTTAAAAAATTTTTGTAGAGACAGAGTCTCATTATGTTGCCCAGGTTGGTCTTGAACTCTTGGGCTCAAGCAATCCCCCCACTTTGGCCTCCCAAAG
TGCTCAGATTACAGGTGAGCTACCGCACCTGGCCTGAATTTATTTTCTTAGTATCATTATGAACTTGTCAATTTTAACATCATTGGTGTGATAAGTGATT
TAAAATACATTCTGTGCTTTGGGAGGCCAACGTGGAAAGATTGCTTGAGCTCAGGAGTACAAGACCAGCCTGGGTAACATGGCAAGACCCAGTCTCTATT
AAAAAATTAATAATAAAATAAAAATCTATCAATAGGCCAGGCATGGTGGCTCACATCTGTAATCTCAGCATTTTGGGAGGCCGAGGCACGTGAATCACCT
GAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAATGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTATTGGCTGGGCACAGTGGCTCAC
GCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGATAGACACCATCCTGGCTAACACGGTGAAACCCAGCCTCTACTGA
AAATAAAAAAAAATTAGCCGGGCGTGGTGGTGGGCGCCCCTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGGGAACCCAGGAGGTGGAGCT
TGCAGTGAGCCAAGATCGCGCCACTGTGTTCCAGCCTGGTCAACAGAGCAAGACTCCGTCTTAAAAAAAAAAAAAAAAAATTAGCTGGGTGTGATGGTGC
ACACCTGCAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAAAGGAGAATCTATTGAACCCAGGAGGCTGAAGTTGCAGTAAGATCGCGCCTTTGCACTC
CATCCTGGGTGACAGAGCAAGGCTCTGCCTCAAAAAAAAAAAAAAAAAAAAAAAAAATTGAACAATAAACTTCCTTTGCTTTAAAGAGAAATATTTTCCT
GAAGAACCAAAATGTAAGACCAAAATCTCTAAACATACTTAACAATATTTCCAGGATTTTCTACCTGTTCTCTGATTTTCTCCTTTTCCTTTACTCAGTT
TACTGGCTTTTATTTAATGAATTTTTGGTGTCTGATTGAGGCTAAAGATTGACTGCTCTGGCACCCCTACTAGTGATTTCCATTTTTATGTCATTCAGAT
TACATTTATAAGACCTACTTTTCCTATAACTAGTATTTGCATCTGCATTTTCATAAAATAAGAGCAAATAAATATTCCAATAATTGAACACTACTCAAAT
AACTGAACACTCCCATACCATGTGGACAACCACAGGGATGCTGCTTAAACTGAAGCAATGACTGACAGTCACTACCACTGCGTGTGAGTTTCACTTGCTT
GGTAGCTTAGCTATCAAAGCCAGCATTTGATGTGTAAAAGAAGGTTTAGGTATTTTGATGGAGGATGCATGAAACCCTGTTATTGACTGTGACATACTGG
ATTGTTTCTGTTAGCTTACTTGTTATATCTCCTCTAGACAGTTAGTTCTGGGGGAACAGTAACCACATCTGTATCTGTATACTTATTTTACTCCTAGCAT
CTGTACAATCTGTACATGCTGTTGTTTTTTTTTTAAGATGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCAATGCAACC
TCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGAATTATGGGCATGCACCACACCTGGCTAATTTTGTATTTGTAGTAGAG
ACGGGGTTTCTACTACAGCCTGTTGATCAGGCTGGTCTCAAACTCCTGGCCTCAGGTGATCTGCCCGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGGG
TGAGCCACCACACCCAGCCCTGTACATGCTTTTTTTTTTTTAAATGGAAGAATAAATGATGTATGCAAAGGCTGGGCGCCGTGGCTCACGCCTGTAATCC
CAGCACTTTGGAAGGTCGAGGGGGGAGGATCATGAGGTCAGGAGATAGAGACCATCCTGCGTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAT
AAAATTAGCCAGGTGTGGTGACAAGCACCTGTAGTCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGGTTGCAGCGAG
CCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGACTCCGTCTCAAAAAAAATAAAATAAAATAAAATAAAATGTATGCAAGACAAGAGAGAA
ATCTACCATGGTTTTGAGCAGTAAGAAGCATAATTAGACTTTTTTTTTTGAGACAGGGTCTTGCTTAGTCACTCAGGCTGGAGTGACACGATCATAGCTT
ACTGTAATCTCAAATTCCTTAGCTCTAGTGATCCTCCTGCCTCAGCCTCCCAGGTAGCTAGAACTACAGGCACGTGCCACCATACGCGCATAATTTTTAA
ACATTTTTTTGTAAAAACGAGGTCTCCTTATGTTGCCCAGGCTGATCTCAAATTCCTGGGTTCAAGTGATCCTCCCACTTTGGCCTCCCAAATCATTGGA
ATTACAGGATTACAGCCCAGCCTAGATTTAATTTTKAGTTTTTTATTTTGATTCTGTCATATTGGTATTTGTCTTAGTCCATTTGGACTGCTATAACAAA
ATATAGCTTTTGTGGCTTATAAACAACTGAAATTTATTTCTCAAAATTCTGAAGGCTGAGAAGGCCAAGATCAAGGTGCCAGCAGATTCAGTGTCTGGTG
AGGATCTGCTTCCTCATAGACAGCTGTTTTCTCATTCTACTATCACATTATGGACCAGGGAGGGGTGTCTCTTAGGCCTGTTTTATAAGGGCACTAATCC
TGTTCATGAGTGCTCTGCTGTCATGGCCTAATCACCTCAGGAAGGCCCCACCTTCTAATACCATCACCTTGGGGGTTAGGAGTTCAACATATGAGTTTTG
GCAGGACACAACATTCAGACCATAGCAGTAACAGACAATTTTTTTTTTTTTTGGAGACAGACTTTCGTTCTTGTCGCCCAGGCTGGAGTACAATGGCTCG
ATCTCGGCTCACTGCAACCTCTGCCTCCTTGGTTCAAATGATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGATTACCGGCGTGCACCACTACGCCTGGC
TAATTTTGTATTTTTAGTAGAAACGGCGTTTCACCATGTTGGCCAGGCTAGTCTCAAACTCCTTAACTTGGGTGATCTGCCCGGCTCAGTCTCCGAAAGT
GCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCGCAGATGTGGTATATTTCACGTTTGAGTATTTTTGAAAATAAAAATAAAATAAAATAACTGATAG
TTCCATTCCTTAAACTTAACATTTGGGTGTGTTTTCTAGTATTTTTTCTGTATTTGTATTATTATTTGTGAGACGGGGTCTTGCTCTGTCACCCAGGCTG
GAGTGCAGTGATGTGATCAAAGCTCACTGTAACCTTGAAATCCTGGGCTCAAGCAAATCCTGCCGTCTCAGCCTCCTGAGTAGCTAGGACTACAGGCGTA
GGTCATCACACATGCCTGGCTAATTAAAACAAAAATGTTAAATGTTCATCTAGAACATATTGTTTAGTAACCTACTGTTTTACGTTAAAACATTATCCAC
TTTCTCCTACAATAGAAATTGTAATGGCTATAATACATGATTATTTCATTATCACATCTATTTTTAARGAAACCAGGCCTAAATCTAGTTTCCATAATAT
TCTGATGAGCAGGACCACAGAGCAGTGATTTTGATCAGGATTGTGCCTGTTAAAAGCTGGCTACTCCATGGCATGCRCAGCTCCAGGATGGGAGATTAAC
TTCAACAACCATTCATTTAGTTTGGTTTGATTTTCTGCCAGTCTCATGACCGACTTGAAGCACGTCCTAGAACAGAGAATGTTATGTTTGGTGTCCAAGG
AAGCAGCAAACTAGAGGCGCCATCCCAAATTCTAGAATAATAGAGTCAACAATCGTTTCACACCAAAGTCATCCATTTTCTGAAGCAAATTTTGAACTAA
AATGTTAAAAATGTTTTGTAAGGTAGATTAAACGTCATGTGGGGAAAATAACTTGTTAGTGCAAAAAGGAAAAGAAACTGAAAACAGACATATCTGTAGA
TAAATTTTCCTTTCAAGATTCTACAGTATAAATATCCATCTAAAAGATGAATTGGCTTCTTAAGCCAATTCATTGTCACTTGCTTCTGAAGTGTTTCCCA
GGCACCTTAGTTATCAGCCACCCTGCCCCTAGGGTATYGAGGACAAATACGTTTCAGGTAGCTTGACAACAGGAAAGAATTTTAAGGACAAGAAACTACC
TGCAATACCAGTTGGGAGTGTCCTGAAAAGTGATGTACTGAAATACTGACCCTTCCAGCTGGTTAACTTTCATAATCATGCATTTACTTTTCAATGGCAA
CTGAATATATGACTGCCTGATGATTCAGGGGAAAAAATGCAGTATTGTGTGTGGAATTGGAAGAGATTCAAAGTGAGTGCCATGGCAGTGACTAACTTCT
TTCAAAAGCTTAAGGAAGAAACAATGCATAGGCCTTTSAGTTAGTTGGTGTAGTAAGCATTGTGTTTTCACCATCAGTATCCATTTCTATATTTTGGTGA
CAGTACTCCATTTTGTTCTTCCGGGAACCACTCCTCTCCTATAGTCCATGATCTTTGGGTGGACCASAGGTAAAGCATATGACTCAAATYTGGCTAATCA
TAGCACAAGAGTTTTCCTTGCTACAGTAATTTGTTAAAGGATGGGAAGGTAACTCTCTATCCTTTAACAAATTACTGTAGCAAGGTAATTGGTTCAGTGA
ATCTAGGAGCTACTGGAAGGGATCTCTTGCTGGACTTGGACTGGAGTGAATATAGAACTAAAGTTTTTGAGAACTGTCTTGTTGCCACATGATGAAGTCT
GAGTATAAGCCAATATGGAGAAAAGCTGATTGGGGTTTTTTTTGTTTTGTTTTGTTTTTAAAAGAAACAGGATCTTGCTGTGTTGCCCAGGCTGGAGTGC
AGTGGCTATTCACAGGCACAATTGTGGTGCCATATAAGCCTTGGACTCCTGGGCTCAAGCTTCCTGAGGTAGCTGACATTACTACTACAGGCACAAACCT
GGGCCTTTTTTTTTTTTTTTTTTTACCCCCCAGAAGGCTCTCTCTTTATTTGTCTGACCTGAAATGGGCATAAGTTGCAACAGATTGAAAATTCTAACTC
TACCTTCATTTTCAGAAGTGTCTAAATTAAACATTTATAAGAAAATTGATGTTTTATAAAAACAAAAGACATGAAAAGCTCTGTATTCAAATATTTTTAT
TCTGTGAACATTGAAAATGCCTTCTAGGAATATGGCATTGCGGGGTGTATACAAAAAAATAGATCTTTTCTCAAAAAGCATGTAATCTGCTTGGGAAGAC
AAGAAYATTATTAAAAAAAACCCTTTAGAACACAAGTGAGTTGTGGACAGTAATACATATAAATAATCTGAATGGCAGTATATAATAACTGATAACTATC
TACAACCAAAACCAGCCTAGAACAAAAGCATGAGTAAGAGGCTTTAGGGTACACTTCTGAGCATTTTCTTTTAATTCTCAAGACATTTGTCCTTGTTTTC
CTAATCTTTAGGTGGATTCATACATTTGTATTTCCTACCTGGTATTTCCTCTGAATTACTGACTTGTAATTCAAACACCACATCTGCTCCCAACCACTTC
CTACCACTTCCACTGCTACCTGAATTATTGTTATAGCCTAACTGGTCTTCCTGCTCTCACCTTTGCTCCYCTAAAGTCTATTCACAATAACCAGTTTAAA
CTATTATTTTATTAGGAAAAATTTCAAACACACAGCAAAGTTGAAAGAATTTTACAGCAATCACTTCTGCATCCACCACTTATATTCTACCATTAACAGA
ATACTCCTTTAAATAATGGCAGATGTGTAGTTCCTCTGCTCAAAACCCTCCCACGGCTTAGCTTACTCAAAGAGGAAAAACCAGGCTGGGCGTGATAGCT
CACGTCTGTAATCCCAGCATTTTGGAAGACTTTAGGAGGCTGAGGTGGGAGGATCACTTGCGGGCGGGAGTTTAAGACCAGCCTGGGCAACATAATGAAA
TACCATCTCTTAAAAAAAAAAACTTAGCTGGGCGTGGTGCTGGATGCCTGTAGTCCCAGTTACTAAGGAAGCTAAGGCAGGAAGATCACTTGAGCCCAGA
AGTTCAGGACTGCAGTGAGCTATGAGCAYGCCATTGCACTCCAGCCTGAGTGACAAAGTGAGACCCTGTCTTAAGGGGGAAAAAAAAAAGGAGAAAAGCC
AATTTGTTACCATGGTCACCAGTATGATCTGGCCTCTGTTACCATTCTTCCCACTTGTCCTTTACTCTTCAGCCTTGTTACTGCTCCTTAAACATGGCAG
GCACATTTTTGTTTTAGGGCCTTTGCACTTGCTGTTCCTTTGCTTCAAATGCTCTTCTCCCAGGTATTTACATGGCTTGCTTCTCTTTCTTTCGATCACC
TCATTAGTTCTGACTCTTCCAAGTATTAAGTTGAACCATATGACCCTAATGTCACACAACTGGATTGAACCATTCAAACCTAAGGTGTAATGTCATTCTC
AGGTCAAAAATTATTTTTAAAAATCAGTAATTTCATAGGATTCAAGCTTATAAAATAGCAACTCCACCCTACCCTTTCATTCTCACCCTGTTCCAATATT
CTTACAGCACTATTATCTTATTTATGATTTGTATATTGTATGTAAGATCCTCACAGATAGGGAATTTGTCTGTTGTCCACTGCCGTGTGCTCTGTGTGCA
GAGTAGGATTTGGTCTATAGCAGGCCTTCAGGATGCATTTATTTAAAGAATGAGTAGCTGAGACTACAGGTGCGCACCACCACACTTGGCTAATGTTTTC
ATTTTTTTATATTTTGTAGAGATGGGGTCCCACTATATTGCTTAGGCTGGTCTCAAACTCCTGGGCGCAAGCAATCCTCTCACCTTGGCCTCCCAAAGTG
CTGGGCTTACAGTTGTGAGCTACCACACCTGGCCAAAAATGAATTCTTTTTAAAAAATTTTTCTTTTTTGAAGCAAAGTCTTACTCTGTGGCCCAGGCTG
GAGTGCAGTGCCATGATCTCGACTCACTGCAGCCTACGCCTCCCCGGTTCAAGCGATTCTTGTGCCTCAGCCTCCYGAGTAGCTGGGACCACAGGTGCAT
GACACTATGCATGAATGAATTCTTAACATTGAAGTCAGAGTGGTCTTTTGAAAATACAAATCTGATCATGTTGCTCTCACTAAAAACTCGATTGGTTTGC
AGATTTCGGAACAAAGATTAGAATCTTTACCACAGCCTCTAAGACCCTGAATGGTGGACCCTTAACTCTCCAGACTCATCTCACATTCTCTCATTTCAGT
CCCTGGGACTCTGTTGCTTCTATCATGAGGTCTATTTGTGCTTTCTTGCTTTCCCCCACCTCTGCATGTAGTTTATACTCTGAGGCACTTTTAAATCTCG
GCTTGAAACATCTATTCCCAGGAGAAGGCATTTCTGATACCTCAGGTTAGGTCAAGTCCCAATGCTTTTATGCCCTCATGGCAGCACATACCTACCCTTT
GTAATACCTGTTARATTTTAAAGGTACTTTTGTGAGATTGTCTAACTTACCAGTTTCATAAGAAAAAGAAACATTTTTGTTTTTGCTTCCCGTCGGATGT
CTAGCATTTGCAAATTATCTAGCACATAGTGAGAGCTTAACATTAAAAAAATATATATCAACAGAAACTCTGGAATTCTAGCTCCTTAAGAGCAGAGATT
GTTTTGTCCCTGTGTCAAGTACCTAATTGGGTGCTTGATTTATCTGCTGATACACAGCAGATAAATAATAGTTTGTTAAATAAGCTATAATATGAAGGAT
GTTTTTTACTCATTTATAGTAAGTACATAATGCAGAAAAACCGTCACTTGATAATCAGTGATTAGGTGCTCATAACATAATTGATACCTACACAAAGTCC
CAAATTTTCCCCTTTCATCAACCTTTCCTCAAGACTAAGATTGAACAAAGTAATTTAGCCTTCATTTTTTCCCTGTTTATTCTCTGGTGGAGTAAAGGGT
GAGTGCCCTGGGTAGGAGAATCCATGTAGAACCAGAATTAGCCATAAGTGAGATTTTGCACACTAACCAACAAACCACAGCATTCTTTTTTTTTTTTTTT
TTTTTTTTTTTTGAGGTAGGATCTTGCTCTGTCACCCARGCTGGCTTGCAGTGGTGTAGTCATGGCTCACTGCAGCTTTGACCTCCAGGACTCAAGTGCT
CCACCCACCTCAGCCTCTGGAGTAGCTGGGACTACAGGTGTGGACCACCACAACCAGCTATATTTTTTTTTTTTTGTAGAGACAGGATTTCACCATGTTG
CCCAGGTTGGTCTARAACTCTTGCTCAAGGTATCTGCCCACCTTGGCCCCTCAAAGTGCTGGATTACAAGGCGTTAGCCACCATGCCCACCCAGTATTCT
TGTTTTGACAGTTAGATGTTTARAAACTTTTTTAAAAAATCCAGTCAAATGACGAGTCTTGTATTCCTCTGTTTTCCTTTGATAACAATCTGTGAAAAAA
CTGCAGTGGTCAGAAGWTGTGTTAAAATATACACACACAAGTTGTATAATGTTGCAGGTTTATTAGGGCAGGATGACATGGAACAGTATGACCAGAGAAA
GCAACCACCTTACAAATAAATCACTTTCAATTGTGTTGACCCAGATAATTTTAAAAATAAACTTGTAATTCAAGATGAGCACTAGGACAAGCTTATTAAC
ATTTGCTAATTTAGGAGAGGAAGGGCCAAGTCAAATATAATAAAAATGAATTACTGCAAAATGGAAACTTTTTGATATGAAACATAAAAATAAATTAAAA
ACCTAAAGACTGTAGTATGTCAATTTCCTGGTTTTAATAAGGTATTATAGATATGTAAGATATCAATAGGGTAAACTGGGCAAATACTACACATGMCCGC
TATACTATTTTTGCAACTTTTTAATAATTATATCCAAATAAAAAGTAAAAAAGAAAAAAATAACAACATGAAAAAATAAATCTAGATAGGAATTCTTAGA
AGGAGAACTTAAAACAAATATACACAGTAAAAGACAATTACATTGCCAGGTTTCCATAGGCTTGTAAGGAGTTAAATAAAATTAGAAAAATGTTTCTAAC
ACACACACAGACACACTTTTTTTTTTGGAGACAGGGTCCTGCTCTGTCATGCAGGCTGGAGGACAGTGGTACGATCACATCTTACTGCAGCCTTGACCTC
CTGGGCCCAAGCAATCCTCCCACCTGGGTCTCCCAAGTAGCTGAGACTAACAGGCACATGCCACCATGCCCAGCTAATTTTCTGTAGAGACAAGGTTTCA
CCATGTTCCCCAGGCTGGTCATGAACTCCTAAGCTTATGCAATTCACCTGTCTTGGCATCCCAAAGTAGTGGGATTACAGGTGTGAGCCATTGTGCCTGG
ACCAGACACACTTTACCAATACAAATATTAGGCTTTCAAAAGTGGTATCCTACTTTTAATGTTTGAACTAATGATCTTTCACATCTTAGAGATGTGCAGT
GTGAAACACAGTATTACCGTGTTTGTGAAAGACAACTTTTGTGAAAACCACAAAAATAAGTATTTGCTCTTAAGAAAGGAAAAAATTTATTGCTTGGCCT
CATCAAAGAAAACTGAAGAATTTGCTATGAAAGGAACAAAAATGTACAAATTGTACCACCTCAACCCCCCAAACTGTATAAACAACTGCAAAATTTTCCT
TCATCTATTGATACAACCCCAGAGAAGCCAGTCCTCACAGACCTGGGGGCATTCCCATGTCAGAATATTCCATAAAGATCTAGGAACACATACATTTGGC
AGAAATAAATCAATTAAGGTGCAGGGAAAGATTGCCCATGAAATAATTTATGGTGATGCATTTAGTAGGGCCAGAGAGATCTGAGTTCAAATTTTGGCTC
TTCCAGCTACTAGTTTTGCTACCTTAGGTATGTCACAATCTCTCTGAATCTCAATGTCTTTGTTACTAAAGTGGGTATAATGATACCCATATCTCAAGGT
TAGTCCTAATACTGGAAGCACAATGCTGTGTAAATAGAAGGTGATTAAGTGTTAGCTACCTCCCAGTCCCTTTTCCCAGAAACACAATGCAAAATATTTC
TGCTGGTTTGCATGAATCAAAACAAGTGGCTAAGGAGAAAAATTAAAAGGGCAAGAGAATCTAATGTATTATCCAGACAATCTATTAATTATGTCGTTAA
TATTTAATACGTGTTGGGTTTTTGGTATTATTCAGGTACTGCATCTGAATAGATCCTCTCACTTTGTCTTCAACAAATTTGGCAAAAGATGTCATTAATC
ATTTTATTCAGATCACAACATGCCAACGTAAAAATCATAGTTTTAATGTTTACTCATGACTCTGAGAAATATAGTGACATAGAAACAGTGAAAAGGTAAA
GAATTTGTCTCTCAAAGCTGATGGGTATAATTCTCCCTGTCTCTCGAACCTCCCCCATTAGTGCCACAGTGCCAGCCCCCATAAACTGTAAGGGTGATCA
AGCCTTCTGAAATTGCAGGGGAAGTGGGCAGCACAGAAACAGCCCTTAGAAGGCTTTAGAGACAGGTGCTCAACATGGAATTAGTGGGCTTATTCAGGGG
GTTCTGGAATCTGCAGTCCCTGTATGTAAAGTCGTGGTTAGGTGTATTTCGTGCCTTTTTTGTCAGGAGGCTCCTCAACTATCACTTCCTCCTAGAGGTC
TTTTTTAGCCATCCTATCCAGCCAGAGGCTTCRTCTACAAAATCTTTTTCATCACTCTGTGTGTTTCCTGCAAAGCCATACTACACCTGTCATTACCTTG
TTTGTTTGCTTCAGCCMGTCTATTCCACTAAGGTAAGCTTTTCAAATGCACGACCCTGGTCCTTCCCCAGTGCCTTGAACCTGGTGGGCCTCGTTAGATA
TTTCCGGAATAAATAACAAGTCCGTGTCTATCAGATTTTTAACRGACTCTATACTCCTCCCTCCATCCCGCTCCCCGCCCCCCCCCCCACACCTCTCGCG
CAAGCATTCTTCTCCAGAAATAATTTTAAGGTCATGCGTCTTCATTTTTGAAACGAGGCTTGGGCATTTCGACCACACCCACCCTCCCTCCCTCGCATAC
TCGTTTCCTAACAGAGCGCTACTCCAGCCCACTTGCCCAAGCCCACCAGGCCGCAGGGTTTGGGGCAACCAGGGGTGGGGCAGCCCTGAACCGGAACAAG
TGTCAATTCACATTACCCGCACTGGTCCTGGTTCGAAGAGCCTGGGCAGGAACCGTGGGACCCAGAGAAGCCACCCGCCCAAGGCCGCCTCCGGCCTCCG
CCCCGCCAGCAGCCCAGGGCCCCGCCCTACCGGCAGCCGCGCCTCGCCGCCCTCCCTCCAGCTTGGCCCTAACGGCTCGCAATGGCGGAACAGGGAGCCA
GGGGCATCGCCGCTTGGGGAACCTCACCCGCCGGCCCAGGGCTCAGCTCGCCGTGTGACAGCCCCGGGTACTTTGCCCAGCGGGGTGCAAGCCCGGACCG
CGGCAAGCGCCACTCCCGGGCAGTCGCGGCCACAACTGCTTCCGGGTGAGTGGGTCGTCGACCCTGTGGCCCCGCCCATCCTTCGCCTCCTCAGTCGGCC
GCTCAGGCTGCGGCTCCTCCCGGGGCCGGTTCCCGCTGTCTCAGCCGCGGCGCAGAGGGCACATCGGCCTGACCGACTAGCCGGCTGCCAGTGCCGGGAG
CCGCCGCGTCCATCCCCGCCCGCCTGGCCGGGGACCCAGGACTGAGTCGTCCAGCTGCGCCCCTCGCCCATAGCCCCAGCGGGCGCCGGGCGGGCGAGCA
GCTCTTCGGCCCTTCCCGGACAGCGACGCAGTCGCAGCGCGCGCCCTAACACAGRTAAGGGCCGCTCCTCCCGCCAGCCCGGTGGGAGCAGGGAGCGGGG
AGTTGGGAACCTTTTTCCCGGCCTCCGCAGTCCCGTGGGATCCGCGCCGCCTCCGACCTCGGCTAGGGGGCCGGGCTTCCCTGGGGACTGGCCGGCCCGC
GGCGGGCTCCCGGGCTGGGGTCGCCCCCTGCCTGCGGCGTTCTCAGACATCCCGTCTGATTTCTAACGCTCACCCTTCCACCGCGCTGGGGAAAAGGTAC
GTGTTATTCCCACTGTGGGAGAAATTAAATTGGGCAGCTGTCCCTCCGTTTCGGGTGCCCTAGGCGCCTTCTCTTCCTCCTTAGACGCCACACTACGGTT
CTGTCCCAGGACGAGCACCCCCAGGGAACGGTGTCAGGACGGTGTAGGGCGTAGCATTTTTTGGGAATTTTACTTCTTCCTCCTTGACCTGAGCTGGATC
GCGCGGGTTTAACAGGCGCTAGCTGGGTTAATACTTGACTAATAYGAGGCGTTATTGACACCCAGATTGTTAAGTTACAGAACTCCAGTCAGCCCTGCCT
GTGAGTAACCAGCAGCATGYAGGAGGACCTAAGGAAACCCACTTCTTTTTCTTTCTTAGAGGGAAAAAAGTTCAAGTGTTTGCTTTACTTTTTTCACCGT
GGGAGATACAAATACAGGCTGCTGAGACATGGCTAGATAAATATTGTATCCTAAACCTTAACTGTTAGTAGCTGGTTTTCTTTGAGTTTCCATTTAGTGA
CTCAGCGTTTCTACTATAAACAGAAAAATTGTAGAGTGGATTGATTGACTAAAAATGATATGTAAGGATAAAGGTGACTTAATTTTTTTATGTTGTCATA
ATGGGAAGAGAATGTGGATGTAGTAATGAAACAAGAGAGAAGGAGAGCGGGGTATGGATGTATAAGTTCTTAATCAGTGTTTAAAATAATATTTTTTCAA
GATAACATTTTATTTTGAGGATAAATCTATATGAAAAAGTGCAGTTATTGGAGAATGCAGTGTTGCAAATAGAATTAGTTGGCAGGGACTCCACGGTTGT
TGTGGTTTGAATATCTTGCAGCACTAACCCTGTTTAACCAACGTCATGCTCTGTTTAACAGATGCAGAGATAATGACCTAGTATTATAATATGTAGAATA
AGAATTTCAGAAAGTGTGATTCATTTCGAAGGTAGATCACTCACTTTGTGAATCATTGCTATGAATCTGAAAATTGAAATAGAGGAAACCTAAGTTCGTA
TCTGCCTAATGAGATGGCATTCTTTACTCATTTTATAGGAAGTGTTGTATTATGTTTTGTTAGGTCTGTTGCTGGATATTTATCATCGTGAAGAATGGTA
ATGAAATAAAAGTTGAAGTATTTGCAGAATGCTGGAATTTAGAATAGTTTGTTGGTTTATAAGTGATTGCTTTGATTTTACTCCTTCCCCCCCTTTTTTT
TTTGCCAGATGTGGGAAGATAAATGAAGGGGTCTAGATGTAAATGTCAGTGGARAGGAGAGCTACCATCACTAAGGTATGAAAATGTTCACTGAAAGAAT
TTGCACTATACAAAATAGTCTTTTGAGTGGAAAGCATCACCCATTTTTGTGATTCTGTCTTTAAAAATGTAGAATGAAACTACATGAGTTATTAAGTTCT
GTTCTAGAAGAAAGTGTGTATTGAAGTTGTGATTGGAATGGATTCACTTTAAACTAGAAATAGCTTTTTATTGCTGAAATGTAATTTGCTCATTTTTGAC
TTTAAAAATGTTAAGTAAAATAAGGTTGAAATCACAGAGTTCTTAATACCCTTACCCTTGTTTTTCTTTTCCTTCTGTTAGAGTTCAGCTGATTTTTACC
TTGATTTTCATTTATAAAGAACTTTAGTTAAAAAATAATGRCAAGTCTATCCTGTTGGTCTAGCTTACTAAATTCCTTTACTTCTTTCACTAAATTTTGG
CATCTTTTTTTTACTTTGGATATCCATTATATTCAGAGTGTTCCCTAATGTTGCTTTTGATTTTTGTCCAGCTAATTTAAATAGTGACTTAAGAGTTTCA
GTTCCCTGTGAACACAGATTCCCTTTTGGAAAATCCCTTTTGGAAATCACCGTAACTGACAGTCTTGATAGGTAAATATGCAAGGGAAACCTTCCTAGGT
CAGGATTTAAGTATCTCCGTTAACGAAAGGAAAAGGTAATATGGAGAATATATTTGGCAAAGTATCTCTGTCTCTCAAAACAAAAACAAATCTTTATTAG
AAATGAATTTAGCAAGAGGGAGGGAGCAATTTCTTGAAGAACTCTTTGTGGATTGTTTACCCTGTTCCTAGTGTGAGAAGCAACAGAGTTGATGATATAT
AGAAAAAAATAATTCTTGCAGTGTGCTGGGAATGTTGATGAGGATCATTCAGAAGGAAATAAAATTCTTCTGTCTTTATCTTAGGATCATCATCCATTGC
ACCTGCAAAATACAGGCTGTTTCGTAGCTTTTTCCTTTTAGGTAGTTGCTTTCTATGTGGAACATCTAAATTGAGAGATGGTCCTTTAATAGGGAAAATG
TACTACTTTGTTCAGTCTGCAAATAAAGAATATAATCTGTGATCATCATTTAAAACTCAACTTTTGGAAGCCAAGGCAGAAGGATTGCTTGAGCCCAGGA
GTTTAAGACCAGTCTGGGCAACATAGTGAGACCCTGTCTCTACAAAAAAATTAGCTGGTGGTGTGTCCCTGCAGTCCCAGCTGCTTGTGAGGCTGAGATG
GGAAGACCACATGAGTTCTGCAGTGAGCCCTGAAAACACCACTGCACTCCAGCCAGGGAGACAGGGTGAGACCCTGTCTCAAGAATAAATAAATGAAACT
CAACTTTTTTTTTTTTTAGGTGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTTCTGGGTTCATG
CCATTCTCCTGCCTCAGCCTACCCAGTAGCTTTGACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTTATTTTTTATTTTTTAGTAGAGACGGGGTT
TCACCCTGTTAGCCAGGATGGCTTCGATCTCCTGACCTCGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGGATGAGCCACCACGCCCG
GCCAATAAAACTCAACTTTTAAAACTTCAGAAGGAAGGAATTGAACAAAACTTGCCTTGTGAACTTTTTGGCTTATAATAAATTATGCTGGACTTCAAAG
GAGTCAAACAACTAGGCTAAAAACTGGGTTGATCATGTGTTATACTTCTTCATTAGTTCATTATTCATTTATTTTGATGGGGAGGTCAAGAGATAATTCC
ACTTCATAGGGAACATATGTATGCATTTGTTTTAGCCTAGTGGTAGGGAGAGCAGTAGATAAAAGTAGAGATAATTAGGGAAGGGGAAGAAATGGCATTA
TAGAAGGAGAATGCTTATTTCATGGGTTCAGTAGATGTTTATGGGACTTTTAAAAATTGATAAAACATTTTAAAAGGTGGTATATGATGAAAAGAAAGTC
TGCTTTCCACCACAAACTCCCAGCCTTTCCTTACCCCAACCCCCCAATCCAAGCAACCATATTCAATCACATATGTCTAGGAGAAATATATTGTATCTTT
CATTCTTATCTTTGGCATATGAAGATCTTTTTGTATTTAGCACATATTTCTTACTTTTTTAAAAAAGACCGCATGCCTTGCTAGTGTAGATGAACCATAA
TTTATTCATTTTCCGTAATTTATTTTACCATTTTCTATTGACAGATATTTAGGTTGTTTTTAGCCTTCTACAAACACTGCTGTAATGAACAATACATATA
TAAGTCTTTGCATTAGTTAGTATCTATACAGAATGTATTTTCAAAGTGTGACTGTAAGATTGAGACTGAAGTTATGAAAAGTTAAAACTATTTCAATCCC
ATGTTGGCTTTATTTATAATAGAATTTAACTTATTTCTTGGGCTTGTGGAAGGGGAAAGGAGCTCTTAATTACTTTGTATTCTTTATCCATCTCTCCATT
TAAAAAATATTGCAAATTATTTTATAAGGTACTTAAAAACATTTGAGTGTCAGGTGATTAATTTTATTTGTATTGGTAAAAGTAGAAATATTGTGGTTTG
AAGACTGGTACTGTCATATAGAAGCATTTATATTTGATAATAGTTAAATGGCTACATCTTAAGTAGGTTGATTGTTTCAGAATTTTATGACCAGTATCAA
TTAAAAGCATTGTGTATAGTTTAAATTCTTKCCCTGCATAAGTCGGCTACTATATTATTAGTCAGGAAAGAAGTAAATAATCTACCTCCTTTTTTCCTTT
ACCTTCCACATCCTAATCTATACATAATAAAATAAACCTCTATGGAGTTTGAGATCCAAAAATCCTTTTGCAAACTAGAGTGCTATTTGATGGATTACTT
TCTCAAGGCAGGAAGGAGGTACAGATTCAATCTTTATTCTGCAAAGTTTTTGTAAACAGAATAAAGGAGGCTTAGGTTTGATGTTATATAGGTTACTTGT
GGCCAGGAGGAGGTTCAGGATTCTTTGCCTTTTTGAAATGAGAGAGACACTAGAGAGAAAAAAAAAAAATTACATACTGAAGGGCTATAGTTTGATGAAG
TCGGAACTCATGAGTGGCAGCTTCCCTGGCTTGTGCCCAGGGTCTATTTTGAGACCTTGTCAAAGCTTGCCTGACAGAACCTACCACATAACCATAATCT
GGCCTGGTCCTCTTGCAAGTCAGGAAGGCCTGCGGTTTAGGATCAGTGGCAAGCACAGAAGGGGGAGTTATAAAGGACATTTTGCCTTCAGAAGATTAAG
GCTAGGTTTTGGGGTGAACAACTACTTAGCCCGTATATCCGAGGATCCAAGTTTTTAGTGCTACCTCCTCCTCCCCTGCTTCTTCCTCTTATTAAGGAAA
GCTAAGGAATAAAGGTTTTGTTTGTTTGTGTGTTTGTTTTGAGACAGGGTCTCACTCTGATGCCCACGCTGGAGTCCAGTGGTATGAACACAGATCACTG
CAGCCTCGACTTCCTGGGCTCGGGTGATTCTCCCACCTCAGCCTCCCAAGTAGCTGAGACTACATGCATACATCATCACACAGGGCCAATTTTTGTATTT
TTTGTAGAAACGGGGTGTCCGCATGTTGCCCACGCTGGTCTCTAACTCCTGGGCTCACATCGTTCACCCACCTTGGCCTCCCAAATTGCTGGGATTACAA
GCATGAGCCACTGCGCCCGTCCAGGAGGAAAGTTTTTAGAAAAAGGTGCACAAGAAAGAGCATAGGATTGTGCCAGCATTGATGTTATCTTCTGGTTATA
TGAGAGTGTTTGCCAAGAATCGGTCAAATGTTTTACATTAGGGAAAAAGCATTATTGTTACTGGCATAGGGAGGGCCCCAGTTAAAATAGCAGTCCAATT
CAGAGACCTTCGTATTTGTCGTTAAGATCAAAAGGACTCTTGGAATAATGGACTATGCTACAGGATTATTTTAAGTTCAGATAGATAAATTAGCTTCTTC
CCAAATTCTCATTCTGCTTTTCCTGTGGTACTRTATAGTATCATGAAGTTATATCTTTAAACTCTTAGTTTGTACTATGTGGTGTCTTATGAAAACCTTG
ATTTGTTTATACTTAGTGAATGAAACACTTGGGTTTAAAGTTCTTTAACTGATGTCACTTCTTAGGCTAGAAAGCTGTTGAAAGAACTTAGTGTTCCACC
CTTAGACCAAGGTTCATGTCACCATATTTAACAGCAGCTTTGTATTACGGTCAAGATTGTTTGAAGAATTCAGCATACAAACTTAATTTACAGATGCAAG
CCTGCAGATGGACCTCCCCMCCCCCACTTTTTTGCTTTAGATTAGGTTGTGACTGGAGGAAATTTAGTTTTCCTTTGCCTTCAGTTATTTGCAGCTGTTC
ACATTTATGATGATGAGAATGATGATGATGATAATGTATTTAGGATTCAGTGTGAGGAGAAAAAATAAACTAGTTTTTCTTTCTTCCTTATCAGTTTATT
CCCATTATCTTATTTTCCCTTCTCTGTCTCTGCCTTCCTTTCCTCCTCGGGAAAAAAAAGAAAAAGAAAAGAAATAAAAAGCAGCAGTGAAAGAAAGTGG
TAAAGAGCTGGGAAAAGCCTTGGAATACATACCAGGGTGCTTTCTCAGAGGTGGAATATAAACACCTTCATTAAAGAATCATGGATTATCTTTTTCCATT
GTTTTCATTTTGAACCCTGTATATCTTAGTGTTCCTTCATTACCACATTTTAACTACTTTTGATATAACAGATATCTTTACTGCTTTAGGGAAGCAAATT
TAATTTTTATGTTACTGTTCTGAGCATGTTGTTCCTTACATGCCCACTTTCCTAAGTAGAAATATATTAACAGCTASAAGAAATCTTTTGGCTTTCTGTT
TTGTAAGTTAGAGTATACCGTACTGTATGCAGAGGATTAGGATGTTAAAATATTTATTTCCCTGTTAAATGGCTTAAATCATGAACAAACTGAATATATA
GCATTGCTTTTTTTAAAAAGTGAGTATCCCAGTTAAGTGACCTAAGGATTATAGGACTAAATGTAGAAAAAAATTCAGCTTTAGATTAGATGTTTTTTCC
CTTGTCACAGATAATGCTGTATCTAGGTGARCAGTCAAGGAAATGAGAGGGCATTGTTCTTGTCTTGCCAGATTCATCCTTTGCAATCAAATAAAGTTTG
TTTTGTTTTTAAAATTGTGGTACAATATAGATAACATAAAATTTACTCTGTTGACCTTTTTTAAAAATATTTTTATTATGGTAAAATACAGTCATTTGTT
GCTTAATGACAGGAATATGTTCTGGGAAATGCATCATTAGGTAATTTTGTCAAGCAAACATCATAGAGTATACTTACACTAACCTGGACAGTATAGCCTA
CTACACACCTAGACTATATGGTATAGTCTGTGGTTCCTGGGCCATAAACTTGTGCAGCATGTCACTGTACTGAATACTATAACTGTAGACAATTATAACA
CAGTGGTAAATTTTCGTGTATCTAAACATAGAAAAGATACAGTTAAAATATGATATAAAAGATTAGAAAATAGGCCAGGCATGGTGGTGTGCACCTGTAA
TTCCAGGTACTCAGGCTGAGGTAGGAGGATCACTTGAGATCAGGAGTTCTAGGCTGTAGTGTGCTATGAGCACATCTATGAATAGGCACTGCGTTCCAGC
CTGGGCAACATAGTGAGGCCCCATCTCTTAAAAGGGCACACGTGTATAGGACAGCTCCATTATAATCTTATGGGACCACTGTAATATGTGTAATCCATTG
TTGACTGGAACATCCTTATGCAGCACATGACTGTGTACATAACTTAAAATTTATCATTTAAACCATTTTTAAGTGTACAATTCGGTGGTATAAAGTACAT
TTACATTATTGTGTAACTATCACCTCTATCCATCTCCCTAACTTTTTCATCATCCTAAACAAGCTCTGCCCATTAAACAATATCACCTCATGCCCATAGC
CCTTGGTAACCATTGTTCTACTTTTTGACTCTATGAATTTGTGTACTCCAGGTACCTCGTATAAATGGAATTATGTAATATTTGTCTTTGTGTCTGGCTC
ATTTCTCTTAGCATGATGTCTTCAAGATTCATCCATGTCATAGCATGTATCAGAATTTCATTTGTTTTAAGGCTGAAAAATATTCCTTCGTATGTTTATA
CCATATTGTTTAATCATCTTTTGATAGATGGGTTGTTTCCATCTTTCTGCTTTTGGGAATAGTGCCACCATGAATATGAGTATGCAAATGTCTGTTTGAG
TGCCACATTCAATTCTTTTGTGTATGTACCCAGAAGTGGAATTGCTAGTAATTTGATAATTACCAAATTTCATTTGGTAATTCTATGCTTAATATTTTGA
GAAACCACCATACTATTTTCCACAGTGGCTATACCATTTTACATTACCACCAGCAATGCACAAGGGTTCCAGTTTCTCCACATCCTTGCCAACATTTACT
ATTTTCTGTTTTCTTATTGATTGATTTTTATTTATGTTGAGCCAGGGTCTCACTCTGTCACCAAGACTGGAATGCAATGGCCCGACCACAGCTCACTGTA
GCCTTGACCTCCCGGGCTTAAGTGTTCCTTCCCACCTCAGTCTCTCGAGTAGCTGGGAGTACAGGTGTGCACTGCCATGCCTGGCTAATTTTTGTATATT
TTGTAGAGATGAGGTCTCTCCATTAGCCCAGGAGGGTCTCAAACTCCTGAGCTCCGCCAGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCA
TTGTTCCTGGTCCCGTTTTCTTTTTTTTTTCTTTTTTCTTTCTTTCTTTTTTTTTTTTTTGAGACAGAGTGTTGCTCTGTTGCCTAGGCTAGAGTGCAGT
GGCGCGATCTCGGCTCACTGCAACCTCTCCCTCCTGGGTTTAAGCGATTCTCCTGCCTTAGCCTCCCAAGTAGCTGGGACTATGGGCACCCGCCACCACG
CCCGGCTAATTTTCGTATTTTCAGTAGAGACGGGGTTTCGCCCTATTGGCCAGGCTGGTCTCGAACTCCTGACTTTGTGATCTGCCCGCCTCGGCCTCCC
AAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTGCTTGTGCCTGGCCCTGTTTTCTAACACAAAAAAATCGATTATTTTTAAAATAAAATCT
CTAATAGGGTGGTATTTCACTGTGGTTTTGATTTGTATTTCCCTGGTGATGGGTGACATTGTGCATCTTTTCTTTTTCTCTTCTTTTCTTTCTTTCTTTC
TTTTTTTTTTTTTTTTGGAGACAAGATTTTGCTTTGGCACCCAGGCTGGAGTGTAGTGTCACAATCATGCCTCACTGCAGCCTCGACCTCCTGGGCTAAA
ATGATCCTCCCACCTCAGCCTCTCCAGTAGCTGGGACCACAGGCATGTACCACCATGTTCAGCTGATTTTCTTTTCTCCTTCTGTTTCTTTTTTTTTTGA
GACAGAGTTTCGCCCTTGTTGCCCAGGCTGGAGTGCAATGGCGCTATCTCTGCTCACTGCAACCTCTGCCTCCCAGGTTGAAGCGATTCTGCCTCAGCCT
CCCAAGTAGCTGGGATTACAGGCATGCGCCACCATGTCCAGCTAATTTTGTATTTACAGTAGAGATGGGGTTTCTCCATGTTGACCAGGCTGGTCTCGAA
CTCCCAACCTCAGGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTTGCCTCTTTTTTTTTATATTTTGTAGA
GACATGTTGCCCAGGCTGGTCTCCAACTCTGGGTTCAAGCAACGTCCAGGCTGGTCTCCAACTCCTGGGCTCGAGCAATACTCCTGCCTCAGCCTCCCAA
AGTGCTGGGATTACGTATGTTGAGCCATCATGCCCGGCTGAGCATCTTTTCATGTGACCATTTTTGTATCTTCTTTGAAGAAATGTCTACTTATGTCTTT
TATCTTTTTAATTGGGTTTTTGTTGTTGCTTAGTTGTAGGAGTTCTTTATATCAATCCTTTATCAGCTATGTGATTTGCAAATTTTTTTTTATTCCGTGG
TTTGCCTTTTTACTTTTTGATAGTGTGCTTTGATGTACACAGTTTTGTTTTTATTTTATTTTATTTTATTTTATGTTATGTTATTTTAAGATGGAGTCTT
GCTCTGCCCAGGCTGGAGTGCAGTGGCCCAATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCTATTCTCCTGCCTCAGTCTCCTGAATAGCTG
GGATTACAGGCATGCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGTTTTCACCRTGTTGGCCAGGCTGGCCTTGAACTCCTGACCTC
GTGATCTGCCTGCCTTCCAAAGTGCTGGGATTCCAGATGTGAGCCACCGCGCCCTGCCCAGAGTTTTTAATTTTGATGAAATCCAACTTACCTTTTCTTT
TGTTGCTTCTGCTTTTGGTATTATGTCCAAGAAATCATTGCCAAATTCAATATCATGAAGTTTTTCCCATATATTTTCTCCTACGAGTTTTATGGTTTTA
GCTCATTTGTTTAGGTCTTTGATCCATTTTGAGTTTTTTCTTCTTTCTTTCTTTCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTT
CTTTCTTTCTTTCTTTCTCTTTCTTTCTCTTTTCTTTTCTTTTCTTTTCTTTTTTTTGTGACAGAGTTTCTCTCTTGTTGCCCGGGCTAGAGTGCAATGG
TGTAATCTCGGGCTCACTGCAACCTCCACCACCTCCTGGGTTCGAGCAATTCTCTGGCCTCAGCCTCCCGAGTAGATGGGATTACAGGCACCTGCCACCA
CGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGGTCAGGCTGGTCTTGAACTCTTGACCTCAGGTGATCCGCCTGCCTTGGCCTCCCA
AAGTGCTGGGATTATAGGCGTTAGCCACCATGCCTGACCCCTGAGTTAACTTTTCTATATGGTATAAGGCAGTGGTCCCCAACCTTTTTGGCACCAGGAT
TCAGTTTTGTGGAAAGCAATTTTTCCATGGACGGGGGTGGGGTGGGTGGGGGGGTTGGTTTCGGGATGAAACCATTTCATCTCAGATGATCATCAGGCAT
TAGATTCTCATAAGGAACGCACAACCTAGATCCCTCACATGCACAGTTCATTTTTTTTTGTTTTTTTGTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTC
ACCCAGGCTGGAGTGCAGTGGTGCAGTCTCGGCTCACTGGAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAACT
ATAGGCGCTCACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCCGACCTCGTGA
TCTGCCAGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTCAGCCACCGCACCAGGCTGGAAGACAGTCTTATATAATGTAACATAGTTATGGGAGTA
GCATCCTGTATAACCTTTGCCATATTCTGTTGGTTAGAAGTAAGTCACAGGACCCACCTACATTCATGGGGGAAGTAATTACACAAAGGTGTGAACAGTA
GGAAGGGCGATTAGGGTGGGGAACCACCTTAGAATTTGTCTACCATAACTGATTACAAAATAGCATGTTTTAGGAACTTTTTTTTTTTTTTTTGAGACGG
AGTCTTTTTCTGTCATCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCCACATTCAAGCAATTTTCCCGCCTCTGCCTCCC
ATGTGGCTGAGATTACAGGCGCCTGCCACCATGCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGTTTCACCATGTTGGTCAGGCTGATCTCGA
ACTCCTGACCTCAGGTGATCTGCCCACTTCAGCCTTCCAAAGTGCTGGAATTACAGGCATGAGCCGCCATGCCCTGCCATATTAACCAATTTTTGTTTAA
AAAATAATGTTATTAAAATAGGAGTATCTTCGGATGGTGGGACTTACTGGTGGTTTTATTGTTATTTTGTATTTCTTCACTATTTCATCCCACTTTCCCT
CCCTGCAACATTCCAATTTTGAAATTTTAAATCAATAGTTGGTGTTTTCATTATAATGAAATAAATATTGTTTACTGATCAGCCATGTRGTATATCATAC
TTGTTTCCTTTCTTGTTTAACTTTGTTTTTTCAGGGAGTTAAAATTTGCCTTTTACATTTACATAATTTTCTGTTTACCTGTTGCTTTCCCCCTAAATGC
GCCAACAGATTTTTCAAGAGTCTTCATCTATCTATGTATCTATCCATCCATCCATTCTAGCTTATAACATCAATTTATAAGCTATAAAACGAATTTATTT
TGCATAAAATTAGTTGTGAACTATAGAGAAATATAAAACAAAAATACAGTTTTAGGAAGAAGAATACATGAACACCTGTGGTCTCACTACCTAGGTCAAG
AAATTACATGTTACATTTATCCTAGAAGTTTCCTCAAGATATCCTTTAATGGCACCCCCTCCCTTCCAGGAAATCACAAGCCTATTTTAACATATTAGTC
ATTCTCTTGGGACCATTCTCTGCTCAAGCCTGCAATATCCTCCATGTCCATACATGTATTTTTGGCCAAAATTTTTAATTTTGAAAAACCAAAAAGCTCT
ACTACCTCTCTAARTCTGTTAGTCAGGATAGGCTGAACTACTTTAATGAATAATTACCAAATCAGTGGTTTTTAACACAAAATTTATTTCTCACTCACAT
CTTTGCTGTGAGTTGAAAAGCAGTGACAGAGTGGTGGTCTGTTCCACAGAGTCATTGAGGGACTCAGGCTGCTTTCAGCTAGTGATTCTRCCACCCACTG
GGGCCTCAGAGACTTTGAATTTCCTGCATCTGGCTGGCAGATGCGAGGACAAAGAGAGGGACTGTGGTAGATTGCATGGAAAGTTTGATGGGCCAGGCCA
GGATGTGGTATACATCAGTTTTGTCCGCATTCCACTGGCTAGAACTGAGTCAAATGGCTACACTTAACTGCAAGGAAGGAAAGGGAAAACGCCTTGGTCA
ACAATGAGCCAATCTCTGCCATGGTATGTATCCCTAAGAAATATATCATTTTGTTTTGGAAAACTGAATAGCAAGCATCAACTGAGGCTGTGAAAGGAAA
GGTACATACTGCTGCTATTAGATGAAAGCTCTCAGAAGATAAGCTGAAAAGAGTCTTCCTTGATCTTTTTTGGATAAGTCATTGGGAAAGTTTGTTATTG
AGTCTGGAGAAACACAGGCTCCCCACAGTCAGGGAATCTGGCAAAACTAAAGTGTTTACAAGATACTACGGTAAATATCTAGAAGAAATGTGATTGGGAG
AGTAGATTGCTCTATGTGGTTTTGCTTYTAAGCTAAGCTTATCACGCTTTAGCTCTCAAGAATAAGGAAAAGCAAAACATGTCTGTGCTGTGAAATAAGT
CTTCAGCCCATCTAGGCTCCAGGAACTTTATCAACACGGGGTCAAGACAAACTAAATTCCAATGAAAACCTGGACCAGGCACATCTCATGTTAAATGGAT
GTGCCCCAAAGGCTGTGGGGATTTTGGTAATGACAGTCCTTCATTATGTCTCTTGAGTCATATTGCTCCAATCTGTAGCTTTCTTTCTGAGATACACCTA
TCATTCTTCTGGAGGTTCCCTTTTGCCCCTCTTCTGTGTTTGATTTATTTCCTGTATGCTAAGTTTCCCTCTCTGTTGGTTTTTCAGTTTTACTTGCTGA
AGCCTATCTTCTAGTAGCTTATTGACAAAGAGTGTAAAAGAGGTAAATTTTTGAGACCTTTCATGTCTGAAAATGCCTTTAATAATCAAGTATGAAAAAG
AGGGATTTGACTGGTATAGGCTACTTATAGATTGTCTATAATTTTCCTTCAAGAGTTTGAAGGCATCACTCTTATCATCTTCTTGTTTCCAGAATTACTT
TTGAAAGTCTTGAAGCCATTCTTAATCTTTTATGTGTGGCCTGACTTTCCTACCCTGTGGAAGCTTGTAAAGTCATCTTTGTTCTCATTGTTTAAAATTC
ACTAAGATATACCTTGGTGTGAACTCAGGACTTGTGTTGAACACTCTGGGCCCTTTTAGTCTGGCACCTCATGTTCTTAACTTCTGGGAAGTTATTTTAT
TAATAATTTATTTTTGTTTTCTCTCTCTCTCTCTTCTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTTTGTCACCCAGGCTGGAGTACAGTAGC
ATCAACATGACTCACTACAACCTCGACCTCCTGGGCTCAAGCGATGCTCCTGCCTCAGTCCCCACCACGCCTAGCTAATATTTGTAGTTTTTGATAGAGA
TGAGAGGAGGTTTTGCCATGTTGTCCAGGCTCGAACTCCTGAGCTCAAGGGATCCACCTGCCTTGGTCTCCCAAAATGTTGGGATTACAGACATGAACCA
CCGCACCCAGCCTGTTTTCTCTTTCTCCAGTTATTTGAACGTTRGTCCCTATGGACTGATACTTTAACCTTATATATTTTTCTTTCTTATTTTCTACCTC
TCTCTCTTTTTTTTTTTTTTCTGTTTTCTGTAAGACTTCTTGAACTTTATTTCCCAACCTGAGTTTTGTAAAACTAATTTTTTTATTGAGGTACTACTCG
TGTGTCATAAAATTTACCCCTTTAAAGTAGTGACCTTTTCAGTGGTTTTTTAGTGTAGTCACAAAGTTGTGCAGCCATCAGCCCTAATTCCAGAAGGTTT
TCATTACCCCTACAAGGAAACTTCATACCATAGCAGTCACTCTCCATTTCCTCTTTACCCGAGACTTTGTGGAAAGCACTAGTCTGTTATACTTTCTGTC
CCTATGGATTTACCTRTTCTGGACATTTTACATAAATGAAGTTATTCAATATGTAATCTTTGTGTCTGGCTTTTATCACTTCTCATGTTTTCATGATTCA
ACCTTGTTGTATGTAGCACGAGTCAATACTTTATTCCTTTTTTTTTCTTTCTTTCTTGAAACAGTCTTGCTTTTTGCCCAGGCTGGACGGAGTGCAGTGA
TGCGATCTTGGCTCACTGTAACCTCTGCCTCCTGGGTTCAAGTGATTCTCATGCCTCAGCCTCCAAGTAACTGGGATTACAGATGTGTCCCACCGTGCCT
GGCTAATCTTTGCTTTTTTTTTTTTTTTTTTTTAGTAGATGGGGTTTCACCATGTTGACCAGGCTGGTCTCCAATTCTTGACCTCAAGTGATCCACCTGC
TTTGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCATCATGTCAGGCCCAATATATTTGTTTTTATGGCTAGGTAATATTCCATTTTATGGATATGC
CGCATTTGCTTATCCATTCATCAGCTGATGGACATTGGAATTGTTTTCACTTTTGGCTGTTAGGAGTAGTGCTACTGTGAATATTCCGTTACAAGTTTTT
GTGTGGGCATAAGTTTTCAATTCTCTTGAGTATAGAGTGGAATTGATTATTTCTGTTGTGTTTTTAATTTCTACTGTCATGTTTTAATTTCCAAGATCTT
GTATTCTCTGAATTTTTTTTTCTTTTTTTTTTTGAGACAGAGTTTCACTCCTGTTGCCCAGGCTTGAGTGCAATGGCGTGATCTCGGCTCACTGTAACCT
CTGCCTCCTGGGTTAAAGTGATTCTACTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTACCACCACGCCCAGCTAATTTTGTATTTTTAGTAG
AGATAGGGTTTCACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCTGCGTCAGCCTCCCAAAGTGTTGGGATTACAGGTGTGAG
ACACTGCGCCCGACCCTGTTCTCTGAATATTTTAATAGCCCCTTGTTCTTGTTTCATGGCTATAATTTGCCTTAATTTTCTGAAGATATTAATGATGGTT
ATTTTTGAAGTTTTCTTCTCCCTGCGTAGTTTATTTTCACTAAGTTATTCTTCTGAGTTAGTGGGTTTTCACAGACTTCTTGGTTTGAAAGTAGGTGGGG
TTGGTCAATTTTGACCTCCCTCGAAAAGGGGTATATATTTTGGTAGCAGGATGGGTGATTTAAAGGGGGCTGAAGCAGTCCCACATTTCAAAATGCATAC
TTTCACCTAAGCCCACACTTCCTACTCCCTCCCTGTTCCCATTGCTTACCCTTCCCTTCCCCAGAGCCCCTTTGTCTTCTAGAACTTCTGGTRTCCTGGA
GAATAGGAGATGAAGTTGAAGCTGAGGTAATAGCCTAGCAATGGAAAGGGGACCTGGAGGTCTAACTACTTAATTAAAGACTTTTAAGTGAATTTTTTTT
TTTTTTTTTTTTTTTTTTTTTTTGCGCATAGGGCTTACTCATTGGGCTCAAGCAATCCTCCTGCCTCARCCCTGCAAGTAGCTGGGACTACAGGTGTGAG
CCACTATACCTGGCTAATTTTTGTGTCAAAACCCCAGCTGCCTTTTTTTCCTCCCCTTCTTTTTCTTTCCTTTTTTTTTTTTTTCTTCCAGAAATTGAGA
AACTCAGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTGGAGGCAGGTGGATCACCTGATGTCAGGAGTTTGAGAACAGCCTGGC
CAACGTGGTGAAACCCCATCTCTATTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAATCCCAGGTATTCAGGARGCTGAGGTAGGAGA
ATTGCTTGAGTCAGGGAGAAGGAGGTTACACTGAGCTGAGATCGCACCACTGCACTCCAACCTGGCCAGCAGCGAGACTCTGTCAAAAAAAACAAAAAAG
AGAAAGTAACAAACTCATTCTAAAATTTATATGGGAATGTAAAGGGCCCAGAATAGCCAAACAGTGTTAAAGAACAAAAAATTTGGAGGACTCACTTTTT
CCAATTAAAAAATTTACTGCAAAGCTATGTGAATCAAGATGGTGTGATACTGGCATAGGATAGACATTTAGCTCAATGAAATAGAATTAAGTATCCAGAA
AGTAAACCCTTACTTTTATGGTCAGTTGATTTTTGACAAGGGTGGCAAGGTAATTCAGTGGGAGAAACAATGGTCTTTTCAACAAATGATGCTGGGACAA
ATAGATATCCATGTGCAAAAGTGTGAAGTTGGATCCCTGTCTTATACCATATATGAAAATGAACTGAAAATGGATCATGGACCTAAATATAAGAGGTAAA
ACTGAAACTCTTAGAAGAAAATGTAAAAATAAATCTTCATGGCCTTGAGGTAGGTTTCTTGGATATGACATCAAAAGAAGCAACAAAAGAAAAAAATGGA
TAAATTGGACTTCTTCAAAATAAAAACTTTTGTGCTTCAGAGTACCTTCTCTCTGGTCTCTTTACTTTTATTTTCCCAGTATTCTCTTTTGCCTACTGAG
AAGGCAGTGACAGTGCTATATAAATAGTGCCTTGCAAATTCTCAGTAAATATTTGTTGAAAAGGGAAAAATTAAAGGTATGTGATAGGTTTTACTTTATG
AAAATTTCTAGCTTTAGAGCCTCCTTCATATTAATTGCATTTTTTTAATATTGAAAAATTATATCCTTGTTACATGTGTTCCCATTTCCCTTACTTTTTG
TTTCATCTTGATTCTTTGGTTCTTTGCTACCTAGGCTTATATTGTTCTTTCTAATACTTCTAGTCTTTTCCTGTTTTCTGCTTTATTTCATACTTTTTTT
TTTTTTTGAGAGGAGTCTYGCTCTGTTACCCAGGCTGGAGTGCAGTGATGCGACCTTGGCTCACTGCAACCTCTGCCTCCCAGGATCAAGCAATTCTCCT
GCCTCAGCCTCCCAAGTAACTGGGATTACAGGCATGTGCCACCATGCCTGGCTATTTTTTGTATTTTTAGTAGAGATGGGGTTCCACCATGTTGGCCAAG
CTGGTCTCAAACTCCTGACCTCAAGCGATCCACCTGCCTTGACCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCTGTTTCACACTT
TTAAGTCTTTCCTACTCTCAGCAATATGTAATTGTTGGTCTCCCTTTCTTTTATACTCTGATTGTATGTCCATACATCTCTGAGATACTTTAAAAGGTAT
CAAGAAAGGAGGCTATTTGAATGGTACTAGAAAGTGGTTTGCTTCTCAGAAAATACGGATAAGTGAATTGTTTAGTCTATCTTCCTAATTTGGGTTCTGC
ACAGTTGATGAAATAGTATAAAGATTTATGTCCAACATATAGCCCATTAATGTTCATTTATAGAATAACATAACTACCAAGTAAAGAAATGCAACCACTG
GCATGTTATATGAAGGGAGGAAATGGAAAGATTATCAGTTGTGTTGGAGAYATGAGGATAGTGGGTAGTCAAAATATGATACTTTAAAAATATTTTTGAT
AATTCTTAGGACAAATGACTATAAAAGTAGGAGAAATAATTATATAGGTTCTCTTCCTTTGTAAGCATTTCTCTTTATAAAGTATGAGTTGTAAGTTAAC
CATTATAGTTTCTAATGTTCTTCTGACATTTAGTTTGTGTTTAGCATTTGCCTTTCCTTGTTTTGCCAAGTTCTCCAGTTTTGCCTGTATATATTTTTTT
CATTTTGTACTTTGCCTCAATTTCTGAATGTACCTTCTATATTCTTTCTGTAGGTTTTGCTAATGATTTATTCATTTTATGTAACGATCTCATTTAGATA
TTTGCAGGATTGATGTCTTTAACTGTAATCCCTCCCTCCTTCCTCTTTTCCCCTCTCTCTCCTCCCTCTCCTTCTTAATTGTCTTCCTCTCCCTTTACTT
TCCTTGTTTTCCTCTTCTGGTTGGAGCCATTTTCTGCCTGCCCATAATCTTTATTTTATCTTACTTTTTTGAGACAAGGTCTCACTCTGTCATCCAGGCT
GGAGTGCAGTGGTGTGATCAAGGCATACTGCATCCTCTACCTCCTGGGTTCAAGCAATCCTTCCACCTCAGCCTTCCAAGTAGTTGGGACTATAGGTGTG
TGCCACCATGCCTGGTTAATTTTTGTGTTTTTTGTAGAGACAGGGTTTCTCCATGTTGCCCAGGCTGGTCTTGAACCCTTGGGCTCAAGTGATCCGCCTG
CCTCAGCCTCCCAAAGTACTGGGATTACAGGCATGAGCCACAGTGACCTGCCATAATCTTTATTTTGTTTGTTTGTTTGTTTTGAGACGGGGTTGCACTC
TTGTTGCCCAGGCTGGAGTCCAATGGTGCAATCTTGGCTCACTGCAACCTCTGCCTTCCAGGTTCCAGGAATTCTCCTGCCTCAGCCTCCCAAGTAGCTG
GGATTACAGGCATGTGCCACCACGCCCAGCTAATTTTGTATTTTTAGTAGAGATAGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCCAACCTCA
GGTGATGCGCCTGCCTTGGCCTCCCAGAGTGCTGGGATTACAGACATGAGCCACCACACCCCGCATAATCTTTATTTTTAATGTGTATGTAACTACTAGG
TATTCTTCAGTGCTATGATTACCTCTGCCTTCCTTTTYTTTTCCACTCTAGATTTTTAATTGCAATTCCTAATTCCCATGCCTTTTTTTCACCTAGTCAT
CCACACTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGATACTGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTAGGTTCACTGC
AAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATTTTTTGTATTT
TTAGTAGAGACGGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCAGCCTCAGCCTCCCAAAGTGCTGGGATTACAGG
CATGAGCCACCGTGCCTGGCCCTAGTCATCCACATTTCTTAAGCAGTTACTCTTTCCCCAACATTTTATTATAAAAAATTAAAAAAAAAATTTTTTTTAA
AGATAGAGTTTCACTTTGCTTTCTAGGCTGGTCTCAAACTCCTGGGCTCAAGCAACTTGCCTGCCTCGGCCTCGCAGAGTGCTGGGATTACAGGTGTGAG
CCACCATGCTTGGCTGATGATAAAAAATTTTAAGCATAGCCCGAGCATGGTGGCTTTCGTCTGTAATCCTAGCACTTTGGGAAGCTGAGGCAGGTGGATT
GCTCGAGCCCAGGGGTTCAAGATGAGCCTGGCTAACATGGTGTAGCCCTGTGTCTACCAAAAATACAAAAATTCGCCAAATGCAGTGGTGTACGCCTGTT
GTACCAGGTACTTGGGAGGCTGAGGCAGGAGAATCGCCTGAGCCTGGGAGGCCGAGGTTGCAGTGAGCCAAGGTCGCACTATTGCACTCCAGCCTGGGAG
ACAGAGTGGGAGACCCTGTCTCCAAAAAAAAACTTTTTTTAAACATACAGAAAAATTGAAAGAGTTGTGCTGTGAACACTCATGTACCTACCATCTGGAT
TTCATCATTTTATCTTTTGTTGTTGCAGTTTAAAGTAGCAGATCTCAGTACACTTCAACCCTAAATATTTTAGCATGCACATGATTGGCTAGAGTTTAAT
ATTTGTGTAGAGGACTTTTTTCTTTTGAGGTAAAATTTACATAGAACAATATGCAAATATTTTAAATAGAACATTTAATGATCTCTATCTTCTGTTTCAA
GTCACTTGTGTTCTACTAAGAGGACTAGCATAACCATTGTAAGGCTGCACTCCCAAAACTTGGCAGTTTTAGAAGTAAACTTTGAATACAAAGTACCTTA
AAAATTTCTCCTTTTTTGTTTTTATTGTATACATGTGCTAGACAGCAAAATGATTATAGTCAAGGCATTTATTTTTTCCAAATTGTTCTATACTATAGCA
GAAACTCTTAGCATGGTTTAATGCTATTAGACAGTGCATGCTGGAGGAAATCGAGGATATTTTTGTTTAGTTAAAAGTATGAAAAGGATTGCTTTTTTTT
TGTCAATTTCACAAGCTAAATATGCAAAATAGGTAGTTAATTCAAAATGCTTTAAATATTTATGGAGTGCTTTATAGTTTATTAAGTGCTTGGATTTTTC
TTAATTCATTTGAGCTTCACATTAACCATGTTATATCAGTGAAACTGATAAAGAGATGGAGGCTTAGAAAGTGGGGAGGGTAACACAGGAAGTGGTAGTG
CAATCAGTTGAACTTGGATCTTCTCATTTTAAGTTTTGTCAAGTGGCAACAACTGCAGTCACACTAAGTCTTTAGTTCAGGGACAATTCCATATACTGGG
ATTTGTTTATGAATAACTATGAAATGTTTTCTTGTGCAGACTAGCGTTCACTGTAATGGCAGCTGTGATGCAAAGACATACTAGGACAATATTTTGAATT
CTCCATGATGCAATACTTAGATATAAAAGAACTATCTATCAGGATCCAGATTAGGCACAGAACTTTCTAAGTGTCCTGTATTTAGAATGTGACATACTGA
TGCTACATGCACATTCTGTTCTTACAAAAGTGGACAATATCATGATTGAAGTGCCACTTTTACTGTGGCAAAATGCCTATTGTTTCAGACGTATATTATA
TGAGAAGCTCATTGGAGAAGACAAAGCCTTATTGAAATATCTGTCTGTTTTGGAAGGTTTATATTCTGCAAGATCCTGAAGATACTTTCCTTCTTTTCTG
TAAGTAAAATATGTCATGACAAAACCATCTGGGGAAAATCAACTTGACACTATGTGGGTAAAGGACTTGACAAAAATACAGGCAGTTTTGTTCTTACCAA
TTGAGGAAAAGGTTTAGTTCTTTAAGTTGTTTGATACCACCAAGGAAACACTGGAAGGAGTTAATGTGCTCCTGAAGAAAAGKGTTCTTGAGGAAACCTT
AGGGTAGAAATTTACTGCAAGTCCTTTAGGATCAGAAACAAAATTATTTAAGGTTTCCTTTGAGTCTACATTCTCAGTTTTGTCATTTTGTTGAAAAGTT
TCCCACTGGCTATGTTAAGAATCGTATTCCTTTCAAGGTTTCCTCCATCACTGATACAGAATGACCTGGAGTTACTAGAAAATAGATTGCATGAGAACGG
AAAAACCTTTCATCTTTCCTTCTTTTTTTTCTTTTTTGAGACAGGGTCTCCCTCTGTCACCCAGGCTGGAGTGCAGTGGTATTATCACGGCTCACCGTAA
CCTTGACCTCCCTTGGCTCACATAGTCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGTTCGTCAACATGTCTGGATAATTTTTTTTTTTTG
TAAAGACARAATTTCACCATGTTGCCTAGTCTGGTCATTTTTCTAATATTGGTAAGGAAATCTGCCTACAGGGTCCAAATAATACAGTTCTTTTAAAAGT
ACTAGGTTATCCTTTGAACTAGGTAGTCCTTGATCTGCATCATGTGAACTGAAAAAGGTAACTGGACCTGGCCAATCAGTCATATAAAAACCTAGGTGTT
CTCTGTAGATATGACAAGAAGAATAAGGAAGATAGACAGGAAGTTCTTCCTATTTCCTGCTTATCCTGTGCTGCTTTTTCCTGTCATCTCTTTCTCAGGG
CTGTCTATTCTGGAGCTTGTTGAAACCATTTTGTTTGGAAGCAATTTTAAGAAAGAATAATTTTTTACATAAATCTGTGGTCCAGGAATACTCTGGCAGG
TCTAAGGCATAGGCATTGTTAGTTGAGAAGGAAAGAAAATGGATCATGGGGGTAGAGGAGAAAGAAAAGAAAGAAGTACATTCAAAAGAATGCTACCAGA
AGTGGTTTCAGATTAGTGTCTCAGTAGTATGGCATATTATGTTTAATTTTGATGTGATCCAGTTGGGGACTAGTTTATTTTTTGAGCCTTAGATTGGAAT
GTTTTTATTTTTATTTATTTATTTTTTGAGATAGGGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGATCATGGCTCACTGCAGCGTTGACCTCCCAGG
GTCAGTCAGTTCTTGCACCTCAGCCTCCCAAGTAGCTGGAACTACAGGCGTGTGCCACCATGCCTGGCTAATTTTTTTAAAATTTTTCTAGAGACAGGGT
TTTGCCCAGGCTGGTCTCAAACTCCTATGCTCAAGCAGTTCTCCTGATTCAGCCTCCCAAAGTGCTGGGATTATTAGATGTGAGCCACCACGCCTGGTTT
TAAAATGCATCTCTTTTTCCTTAATGCTATTGAAATTTTAGAGAATTAAGAAAAAATGCATCCATAATCCTATCTTCCTAAAAAAACCACTGTTAAACTA
TTGATATACTTCCAGCCAAATCTATTTTTATTCTCTAATGATTTTTATGTGTCTGGAATTAGAAAATGCTTACATTTTTGTTTCCTGCTTCTGTGAAATA
TCTTTCATTGTGTCCTTGGAAAGCTGACTGATGGACAAATATTGGATGATACCATAGTGCATTCACTAAATTGTCAATCTAGTCTGAAAAGGAACATTGC
ATTGCATGTTGCTTATTTTTAGTAGATGGCTAATATTTGCATGCACCACTACCATTTTTTTAAAAATTTCATTTCGGTCATGTGGCTCATGCCTGTAATC
CTAGCACTTTGGAAGGCTGAGGCGGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGTCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAATTACAA
AATTAGCCAGGTATGGTGGCACACACATGTAGTCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCACTTGAACCCGGGAGGCAAAGACTGCAGTGAGCC
AAGATCATGTCACTGCAGTCCAGCCTGGGCAAGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAATTATTTCAATAGTTTTTGGAGTACAGATGGTTTTT
GGTTATGTGGGTAAGTTCTTTAGTGGTGATTTCTGAGATTTTAGTGCACCTGTCACCCAAGCAGTTTATGGTGTACCCACTGTGTAGTATTTTACTCCTT
ACCCAGCCGTCCTTGCCCCCACCACCAAGTCCCCAAAGTCTATTATATCATTCTTATGCCTTTGTGTCTGTATATTTTAGCTCCCAATTATAAGTGAGAT
CATATGTTACTTCACTTACAGTAATGGCCTCCAGCTCCATCCAAGTCACTGCAAGAGACATTATTTCATTCATTTTTATGGCTGAGTAGTATTACATGGT
GTATATATATCACATTTTCTTTATCTTCTTGTTGGTTGATGAGCACTTGTGTTTTTTCCGTATCTTTGCAATTGTGAATTGTTTTGCTATAAACGTGTGT
GTGTATGTGTCTTTTTCATATAATAACTTCTTTTCCTTGGTAGAGACCTAGTAGTGGGATTGCTGAATCAAATGGTAGTTCTACTTTTAGTTCTTTAAGA
AATCTTCCGGCCAGGCCTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCCGCCTCCTGAGGTCAGGAGTTCAAGAC
CAGCCTGGCCAACATGGCGAAACCCCGTTTCTACTAAAAATACATAAATTCGCTGGGCATGGTGGCATACGCCTGTAGTTCCAGCTACTTGGAAAGCTGA
GGCAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGTACCACTGCACTCTAGCCTGAGTGACAGAGCGAGACTCCATCTCAAC
AAAAAAAAAAAAAGAAAAAAAAAAGAAATCTTCATATTGTTTTCCATAGTGGTTGTACTAGTTTACATTTCCACCAGCAATGTATACACTGTTACTATTA
GGTAAGTGAATAATCTTTAAAATTATGCTGAAGATGATTAGAGACCTCTGAGAAAAGTTTTCTGTCCTTATCAGGAGTTGTTCTGATTTGTATCTGGGAT
ATATCAGCTGCTACATTAAGAAGTACCTTTTGTCATGTTCCCTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGTTGGAGTGCAGTGGCACG
ATCTCGGTTCACTGCAATCTCCACCTCCTGGATTCAAGCGATTCTCCTCCCTCAGCCTCCCGAGTACCTGGGATTACAGACATGTGCCACCTCGCCCAGC
TAATTTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGACTGGTCTTGAACTCCTGATCTCCTGTGATTTGCCCGCCTTGGCCTCCCAAAG
TGTTGTATTACAGGCATGAGCCACCATGCCCAGCTGGTGTTTCCATTTTTAAATGAGTTCTTAATAATCATATCCAGATATATCTTCTCTAGTGAAGTAA
AAGTAATAAACCATCATCAGTCTTTATTCTGGTGGACAGAATAACAAGCTAGCTCTGATGAATGAGAAATGGTGTCAGATAAGTTGGGAATGTCCTGAAT
CTTTATTGGAGAAAACTTTTTGGTGGAATAGTTCTGCTTTATTTAGCCGGAATCAACTAAATTCCAGTACATTAAAGTCACTTAGAATTTCAGTATAGCC
AATTGTGTTAGGACAGACTTACTTGAGAATTTCTTTGTGATTCATACTGTAATGAAATTTTGCTGGTTTATTTTGTTAAAGCAAGTCAAAAATTTTTTAA
GTTAYGGAATATTTAGCTAAATGAGCTATACTTCTTAGCAATGTGTATAGAAGAAAAGAGGGCATGAAATTTGGGTTGCATTCTTTCATGGTAATCTTTA
ATCTCAAATACCATCTAACCAAAGGTTAGATGGTCTTTTTCATCCTTATTATTTAATCCTGGTGGATGGGTTTTTCTTCTTCCTTTTGTTAAAATAGGTC
TAATAAGTAATAGTAACAGGTTCATAGATATATTCTTTTTTTTATATTTCGAGAAGGAGTTTCTCTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGCAACC
TCGGCTCACTGAAACCTCTGTCTCCCAGGTTCAAGCGATTCTCCTGCCCCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCATGTCCTGCTAA
TTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTTGAACTCCTGATCCCAGGTGATCCACCTGCTTTGGCCTTCCAAAGTGCT
GGGATTACAGGCGTGAGCCACCGCGCCTGGCGATATATTCTTAATCATTTGACTATATCAGTTTTCTTCATCACCGTACCTTTAGCACCTCCTATAGTAC
CTGGTAACAACATGGACAGTGTTGGTTATTGTTAATTGCAGAGTAATAAACCTTCATTTTTTCTTTTATATGGTTGTGGGTTTTTTTTGTCTGTTTGTTT
TTGTTTTTTTTTGAGGTGGAGTCTCTCTCTGTCACCCAGGCTGGAGTCCAGTGGCGTGATCTTGGCTGACTGCAACCTCCATCTCCTGGGTTTAGGTGAC
TCTTGTGCCTCAGCCACCATAGTAGCTGGGATTATAGGCATGCGCCACCATGCCTGGCTAATTTTTGAATTTTTAGTGGAGATGGGGTTTTACCATGTTG
GCCAGGCTGGTCTCGAACTCCTGGCTTCAAGTGATCTGCCCACCTCAGCCTCCCCAAGTGCTGGGATTACAGGTGAGAGCCACCGTGCCTGACGTTGTCA
TGGTTTAATTGGAATTTTTCTTAAATTACACTAAAAAGCAAAGTTACTTTTGTAACTATAAGGCTTAGTAGTAAAACCTCTTGAACATTTTCTTCTAAAA
GTTTAGGCTGAATAACTTCTGAAATGTTTTTCATTCTGGGATGGAAATTGGTTTTAGAAATAACTATAGTTATTTATTTATTTATTTATTTATTTTGAGA
CAGAGTCTTGCTCCGTCTCCCAAGCTGGAGTGCTGTGGCGCAATCTTGGCTCACTACAACCTCCGCCTCCTAGGTTCAAGTGATTTTCCTGCCTCAGCCT
CTAGAGTAGCTGGGATTACAGACATRCACCACCCTGCTCGKCTAATTTTTGTATTTTTGATAGAGACAGGGTTTCACCATGTTGGCCAGGCTGCCCAGCT
ATAGTAATTTTAAATGGTTAAGTAGAATTTCTGCTGATGGCAGCTTTCTGAGGCTAATATTATAATACACACAGATTGCTGTGGGTAGCATAGTGAAAAG
AAGTAGRAGTTTTAGTAATTAGTATAAAATTAAATATTCTAAAATTTATTGGAATAATTTGGTAGTGGGAAGAGGTATTTGGTGACTAATTTCTCTGTTA
AAAGTGAATATATAAATGAGCATGAAAATTGCACAAAGAAATACCTTAAGTTATTATGTTTTTGTTTACTTCAGGGCTGAAAACACAGTTAAATCACTTT
CAAAGTTAAAAGACTATTAAGAACACAAGATGGGGACTCCTGCTTCTGGAAGGAAAAGAACACCTGTGAAAGACCGATTTTCTGCAGAAGATGAAGCTTT
GAGTAACATTGCCAGAGAGGTATGTTTGGTAAATCCCCTCTCAACACTGAGTTGCACAGATGTATTGTAAAAATGCCGATTTGACAGAGATATAGACGTT
TACTCATTGAACTAGTTTCAGATGTTTATTATGAGCAAGATGTTATAGCTAGTCTCTAAAATAGTGTGTTAGAATAAAATATAGTTGGATATTATCAACA
GAAATCAAATATAGAGATGAATCTCTGAACAACACATTTTATTTGAGACAGTAGAATTGTAATTTGGGCATACACACAGACTGCATTGGTCTTTGGTATG
TCCAAAGAACAAAGAAAAGATTGAGGTTTTTATTAGAGAAATGTTATGCATTGTTTTGAAAGAAAATGCATTGGCACTAGCGAAGTTTTTGGGAGCTGGC
ATGCTCTGATTTGTGAGTGACTGTGGTAGGTAAAACTAGTCTTAGAGTTATAGCAGTTCGTTTCCGCAGCTACTAGGTAAAACTGATCTTAAGGTTATAG
CAGGTCATTTCAGCAGCTGGCTTGCCAGATAATCCCTGGGCAGGTGCTTGTGCCCTAAGTGCTTTTCTTTTCCTTTTCTTCCTCCCTCATCTCATGACTG
TAATTTAATTGGGTATGACAAGATAATTCCAATTTATATAATCAATTTTCACAATATCCAATGCATCCAAAATTAATTTTTCTTTATATTTTTATGGGTT
ACTTGAGTTCCATGTACTTGTTATAATGTATTGAAGTTTATAATTAATCTTTCGAATGTAAACTTAGGATAATTAGAATGTTGAAGATATGATGACTATA
TTATAGAAATACTCATTGGGCTATGCAGTTAATATGCTTCAGACGTGGTATGTAAATGTTGATGGAAACAATATTTCATGTCGGTTCAGATTCAGTGTTT
TATTTTTTGAAACATTGCAGTGGAATTTTTATGTTTAATTCTGTTAGCTGGTAACAGAACTTCTGGGGCAATTTTGTTTCAGTTTGTTGTAACTCAGAAA
AAAGAAAAAGGGAAGGGGCGTCACCTATTGAATCGCTGGCAACATTTCCTGCCGTATATTGGAAATTTAAGATGACTGCCAGCTGGGATTTCTTACTTAA
TTGCCAACTTTGTTTCAGACTCTATCTGCAACTGCAGACTGACCACAAACTAATATGGTATAAGAATTGCTTAGAGCATCATTAAATTATATTCTTTTGG
TGAGAATTATTACCATATCACTTCCTCTTTGTTATTAGTAAATAACTTATTTAGGAATAGTGTATTTCCTTTTGACACATTACACACTTTTTTGATCCAG
CTCATTGTTATGATTTTCCTTTTGGAAGCTGCTCAGTTAGCTTTTGAATTAGAAGTCAAATGCTGTAGGAGGCTATTTGTAGCAAAGGAAAGTTATTACC
TAAAACCTGATAAGAAATTGTGATATTACTATAACAAAAATACATTAAAAATCAATGAGAGCGTTTGGGTTGATTCCATGTCTTTGCTGTTGTGAATAGT
GCTCCAGTGAACGTACATGTGCAGGTATTTTTATAATAGAATGATTTATATTCCTTCAAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGGTTCTAGG
TCTTTGAGGAATCACCACACTGTCTTCTACAATGGTTGAACTAACTAACATTCTCACCAACAGTGTAGAAGTGCTCCTGTTTCTCCACAGCCTCGTCAGC
ATCTGTTGTTTCTTGACTTTTTAATAATCACCATTCTGACTGGCGTGAGATGGTTTCTCATTGTGGTTTTGATTTGCATTTCTCTAATCAGTGATGTTGA
GCTTTTTTTCATGTTTGTTGGCTGCATACATTGCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTTGCCCACTTTTTAATGGAGTTTTTTTTTTCTTGTAA
ATTTCTTTAAGTTCCTTGTAGATTCTGGATATTAGACCTTTGTCAAATGGATAGATTGCAAAAATTTTCTCCCATTTTGTAGCTTGTCTGTTCACTCTGA
TGATAGTTTCTTTTGCCTTACAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTCTTACTTTTGTTGCGATTGCTTTTGAACATGAAATTTTTTG
CCTGTGCTTATGTCCTTAATGACATTGCCTAGATTTTCTTCTAGGGTTTTTATAGTTTTGGGTTACATTTGAGTTACATCAACTCAAATGCCCATCAGTG
ATAGACTGGATAAAGAAAATGTGGTACATATACACCACGGAATATTGTGCAGCCATAAAAAGGAACTATATCATATCCTTTGCAGGGACATGGATGGAGC
TGGAAGCCATTATCCTCAACAGACTAACACAGGAACAGAAAACCCGGCACTGCATGTTCGCGGGGAAAAGTGGGAGGGGAACAATGAGAACGCCTCCCCC
CCCACCCCCCCAAAAAAGAAAGAAAATAAGGATCTATCCTTGCTAAGTAAGTGGTCAAACCATGGTAGATATATTATCTGAATAGTTTGGGTTTTCTATT
GTGAGGTGATTATTCAGATAATTTAGTTTAATTTTATAAGTATCAAGAGCAAAGGTAAGATTTAGTACAGTTGTAATTGGATCCTGATATATTACTTAAT
CATTATTTCCCAAACTGTGTTTCTTGGAGCATGACCCTTGAAGTATCATTTAGGGTTTATTTAGTAATGTGGTCAAGTCTGAGAAATACTATATATTCTA
TCCTCTTCTTTGAGATTCATAATGCATATTATTAAGGACTCTGATTTTAAAAAATGTTTAACTTAGCATTTTCCAAACTTGTTATTAATAGGTTATAAGC
TCCCCTTTATCCCATTTTATATATTAAGTTTTATGTATTAGAATTTTATATATTTTAGTATTTATTTAGCTTAGGCATTTTTGATGCATTCAGTCTCATC
TATTTAAAAAATTTAAATTGAGATATAATTCACATACCATCAAAACTATTCACCATTTAAAAATATTCAGTAGTTTTTAATATATTCACAAAGATGTGCA
ACTGTCACCTACCTAATTGCATAACATTTCATCAGCCCAAAAAGAAACCTCATACCACTTAGCAGTCACTCCTCATCTTCCCCTTCCCCAGCCCCTGGCA
ACCAGTAATCTACTTTCTGTCTTTATGTTTTTGCCTATTCTGGACATTTCATATAAATTGAATCATGCAATATGTGACCTTTTGTGTCTGGCTTCTTTGA
CTTAGCAAAATGTTTTCAAGGTTCATTCATGTTGCATCCTGTATCAGTGTTCGATTTCTTTTTAAGGCTGAATAATATTCCATTGTATGGATAATCTCGC
TGGTTTATTCGTTCATCAGTTGATGGATATTTGGGTTATTTCTACTTTTTGGCTATTGTCAATAATGCTGCTATGAACATTCATTTACAGGTTTTTGTGT
GGATATATGTTCTCGTTTCTCTTAGGTACATATTTAGAGGTGGATGGATGGTATCACTGTGTTTAACTTTTGAGGAACTGCCTCAGCAGTTCACACAGCA
ATTGTGCCATTTTACATTTACCCCTGTAATATATGAGGGTTCTAATTTCTCCACATCCTTGCCAATTTTAGTTATTTTCAGTTGAAAAACATTTTTTATC
ATAGCAATCCTAGTGGATATCAAGTATCTCAATATGGTTTTAATTTACATTTCTTTAATGACTAATGATGTTGAGCATCTTTTTATGTACTTATTGGTCA
TTTTTATATCTTCTTTGGAGAAATGTCTATTTAAATCCTTTGCTCATTTTAAAATTATTTATATTTTTATTGTATCTCATCTACTTTTCTCAAATTCCAA
AAGAACATAATACAAAATTATGATGGTAAAGGAAGTATCTAATGTAGAAATACATAAACCATAGTACATGTTTAGTTCTCTTTTCCTGGAAGTTCTTTTT
TTTTTTTTTTGAGACTGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATAATCTCGGCTCACTGCAGCCTCCGCCTCCTGGGTGAAGCGATTCC
CCTGCCTCAGGCTCGCGAGTAGCTGGGATTACAGGTTCACGCCACCATGCCCAGCTAATTTGTGTATTTTTAGTAGAGACAGGATTTCACCATATTGGCC
AGGCTGGTCTTGAACTCCTGACCTAGTGATCAGCCCGCCTTGGACTCCCAAAGTGCTAGGATTACAGGTGTGAGCCAACGTGCCCAGCCTTTTTTTTTTT
TTAAACAGTAATTTAAAGTTTATTCCAGCTATAATGCAGGTTATTCTGACTTTAAGGTAGCATCATATGGCATTCTTCTGAGTCCATTCCCGAGATATTC
TGTTGTACTTTTACGTCTGTCTATTTTATGGATCCGTGTGCTCTCTGGCACTAGGGGGTCATCTGGGTTTGGATCACATAGCAGTGAACAAATGGATAAA
AGAACTTTAGAAATAGTTTTAAAGCAGGCAACCACTGTGATCTTAGAATATCGAGACAAATGCTGCCATTACTGTTAATATTTGGATGACAAATCCTTGT
TGTACAYGCAACCTTAGGTGGTTTGAAGGAGCAGTCTGTAGGAAAATGAATTGCCAAAAAGAATACACCGCTTTGATATGGGCTGTCATTAGGTCCCATA
ATTGTGGCTTGCCAATGAAACATACCATCCTCAACTGGACCTGCAGAACATTGTGCTGGAGGGTCATGGGCCAAATCACTAAGTTCCTTATTAATCTGTC
TTAGTGCCATAGTATGTGCTTGTCATCTGGCTCCTCACTCTCYCGGTATGTGCTCAAAAGTCTGGCCAAAACTCCTGGTTATCCCGGAGGTGGGACAGCA
TTGTCTCATCTCATACCGGCTCTGCCAGACACAAGCTCTTGGTATTGTGGAGACGACTCTCATGACAACTTTGTGGCTGGCTAACCAGAGCTGTAGCTTT
GCAATGACTTAAGAGCAGTTTTTTGTGCTCTTCCGAATGGGGTTCCACCCCCAAATCCACAAATTCTTGCGAGATGCAGTGAGGTACCGGCTCGAACTGG
AGCAGGCCACCGCCAGGCCGAGAAGTTCTTTCTTAGTGTCCATTATGTGATTCCTAATTATTCATTGAGTGATACAGTGAATATTCTACAAATTTAAAAG
TTCTGTGAGTTTAAATACAACCTAATGCATTTGTTCTGGGAGTGATCAAAGCCCATGATTTTCACTGTCTTTTTTTTTTTTTTTTTGAGACAGAGTCTTG
CTCTGCTGCCCAGGCTAGAGTGCAGTGGTGCCATCTCGGCTCACTGCAACCTTCGTCTCCCAGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGTAGC
TGGGACTACAGGCAAGCGCTACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATATTGGCCAGGCTGGTGTTGAACTCCTGAAT
TTTTCTGAATTTTTCTGAATTTTTATATTAACTTTATTATAACAGTTGGGGTCATATCAGCCGAAAGACTCTAAAAGTATTTAAATAATTTAGGCTTCTG
AATACTTCTAATTTATATCTTATTCTGACTTTTAAATTAGCCAACTTCTTTTGGTAAAATATATGTAACATGAAATTTATCATGGTAACTATATTTAAGT
ATATAGTTTAGTGGCATTACATCCATTTGCATTGTCATGCAGCCATCACCACTATCCTTAAGAACTCTGTCATCATCCAGTACTGGAACTCTGTACTCAT
TAAATAGTRAGTCCCATTTCCCCCTACCCTCAGTCCCTGGCAACCACTATTGTGCTTTCTGTCTGTATGAATTTGACTATTTTAGGTTTCTCATTAAGTG
GAAGTATACAATATTACTCCTTTCTGTCTGGCTTATTTCATTTAGTATAATGTCTTCAAGATTCATCCATGTTGCAGCATGTATCAAAATTTTCTTTTTA
AGGCTGAATGATCCAAAGTATGTGTATACCATAATTTGTCTATCCATTCGTCCATTGATAGATATTTGGGTTGTTTCTGCATTTTGACTGTTGTGAATAA
TGCTGCTATGAACATTGGTATATAAATATATGTTGTCTCTGCTTTCCAGTTCTTTTGTATATGTACCCATAGGTGGAATTATTGGATCAAATGGTAATTG
TGTGTTTTAGCCAACTTTATTTTGTTTTGTTTGTTTGTTTTCTGAGACAGAGTTTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCA
CTGTAACCTCTGCCTCCAGGGTTCAAGTGATTCTCATGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGCATGCACCACCACGCCCAGCTAATTTTTTCC
ATTTTTAGTAGAGACGGGATTTCGCCATGTTGACCAGGCTGGTCTTGAACTCCTGGTCTCAAGTGATCTGCCCGCCTTGTCCTCCTAAAGTGCTGAGATT
ACAGGCGTGAGCCACCACGCCCAGCCTTTACTGTGAATTTAGTTAAATCTTGGTTGTCCTTTATTGTTATATCCCATTTATTTTGTATGTATGAGGTGTA
TATTAAAATGAATCTGTAGCAGCTCTTTATCTGATTGTATTCTGAGGTAAAAATGCTAGTGTTAACTACCTAGAAGTATGTTTTATGTACCCATAATTGT
CTATTCAAAAATAATTTTAAAATATATCACAATAAGTTATAGAGCATATATTTCGTCTACTAGGTTGGAATCAGTGTTGGCTCCTTGCTACTCCTGCTTR
TCCATGTTGCTTCAAGCATCTAGTAATAATGTATAGAAAGAACCAGATAAAGTAGTTTTAAATCCTGTTTATTTCTTTTAAAGCATGTGGTTTTAATGGC
CTCTCTTCAACACAGTCTCCAAGGGAGGTAACATCTGAGTTGGCTAAGTAACAAAGGGAAGGGTGTTTGTGTGTCTCTGAAGCCCATGTTCTTTCTGTTC
CTTTCCTTTTTGTAGTTAAAAATGTCTTATTAAAGAATAGATTTTAATTATCTCTAAGTTGGGTTTTATGAAGGAAGTCTCATTTTAGTATATATAGATT
GTACAGAATTGGCCACAGACAAATCTTAGAAGGATAAAATTAGCATTCTTGAATTAAATTTCTAAAGGAGGCTTCAGGTACAATTTAATATACATGTAAA
TGAAAATTCCTACACATTGATAGGGCTTTCTTAAAAAGGTTTGRAAGTTTTGATGCTTTGTGATTTTAAAATACATTTGCTATCTACTTAAGCTTAAAAG
CCTTGAAGTGTTTCCTATTAAAAAAAAAAAACTCTAATAAGAAACTAGTGTCTACTCATAGAGGGGTGAAGAAGGCAGATAACTTGAAGCAGAGCATAGG
TTTTGAAAAGACGGAGGCCAGTGTAAAATTCATGGGAGAAAACTAATTTCTCTAGATTGTTAGTGGTTACAGCTTACGGTTGGTAGATTACAATTTACTT
TGCAGGGGTTTTTCTATTAAAAGACCAGTTACACAGACTGGGAAATTGCCACAATTGGAATAGTTGAGTAGCAGTTAACTATTTAACTCTCTCTGCTTCT
TAGAAGCCTGCTGTGACTTTGCCAGGCAAAACTAATTTCTCCCTCCTACATGCTTCCTTCCCATAAGCATTGTGTCTCTGTATTCTTCAACTTTGTGAGC
TGCTTTAGGGCAGAGATGTCATACTTTACTCTGTATTTTCAGCACCTAGCATAATTGCTTAATGTAGTAGATCCTTTTAAACATTGGTTGAGTTTATTCT
TACTATGAGACTTGGGCACGAATATAACAACATGGGAAGACAACAACTATAGTTATCAGAGGGGATAGTCTGAATCAGAGTTAGGATGTGACCAAGGACA
GAGGAAACCATTCCACTACCATATAGAAAGCAGACAGAAGATTTCTAAGTTTCATGTGGCACATTAAGCTATTTCCTTATCTCATTTCCTTGATACTGTG
ACCTATGCCCTGCAATTCATTTGTTTTTTTTTAGCAGACCTTGAGGCATAAAAGTTGTGGGGTGAGAGAAGCATGGAATTTTAATACAACATAATAAAGC
CGCAATAGAGACATGGGTATAGAGCCTTACTTTATGAAAGAGGGACTGGGGAGAATCTTCATAGAAGGTAATATTTTACTGAATAAGAGAAAGGAGAACA
GCTCCTGCCAAACAGTTTGTGAAGAGAGGCGTAACAGAACACAATAGAGTCCAGGAATGGAGAGAGATGGGATGCACCCAGTACACGTGGAGCAAGTAGA
GTAGTCCCCACCCCTCCAATCCATGGGAGATACATTCCAAGCCCCCCAGCAGATGCCTGAAACTGTGGATAGTAGCAAACCTGATTGCCATCAATCAGAA
CACATTTCTATTCATGTTTTCCACCTACAAATGTAATGCCTTTTCCATCTTAACTATCATGCACTGTGGCTGTAACTTTTGCCGTTTGAGGTGCGGCAGC
AAAACTAGCACAAATTTCTTTTTCCTTCTTCACAATTTCATGGATAGAAGATTTGTTCTTACCATAGATCTTAGCAACCTCAGTGCATGATTCTTTTTTC
TATTAAGGTAGAACGTTCACCTTTTCACTTAAAGGAAGCACTGTGTGGCTTCTCTTTGGCATACCTGAATTGTCAGAATTACTCTTGCTCTTTGGGGCCA
TTATTAAATAAAATGAGGATTACTCCAACACAATCACTGTGATTTGATAACTGAGACAGCTAACAAATGGGTAGCATAGACAGGATGGATATACTCGACA
AAGGGATGATTGACGTCCTGAGAGATTTTATCATACTACTCAGAATGGCGTACAATTTAAAACTTATGAATTGTTTATTTCTGGAATTTTCCACTTAATA
TTTTTGTACCTTGGTTAACCATGGGTAACTGAAACAACAGATAAGGGGGGAACTACTGGACTTGGAAGTAAGGTGGGGACCTGACTGTGAGGAGCCTTAT
TTCAGTTTTACCTTTCTTCTTTCTGTTCCTCCCTTTGTGCTGTTCTGTGGAATTTTTGCTTTAACCATAAGTAATAAGGAGTTGGTGGAGGATTTTATGC
AGTGGAATGATGTGATCAGAAATAATACATTTTGAAAGGCTGATTTGTCCATCATATAACCATGTAGAAGATAAATTATAAGGCAGATTCTGGAAGTAGG
CAGATGGATTTGGAGGTAACTGTAAGCAAGAGATGAAGAATTCCTATGGTATGATTCCATGTATATGAAATGTCCAGAATAGGCGAATGCATGGACACAG
AAAGTAGATTAGTGGTTGCCAGGAGCTGGGAGAAAGGGTTAATGGGGAATGACTACTAATGGGTACCAGGTTTCATTTTGGGGTGTGAGAATGTTCTGGA
ATTAGTCATGATGATTGCACATCCTGTGAGTATACTAAAAACCACAGAATTGTATACATTTATTTATTTATTTTTGAGACAGCGTCTCACTCTGTCATCT
AGGCTGCAGTGCAGTGGCATGATCTCAGCTCACTGCAGCCTCCACCTTCCAGGTTCGAGTAATTTTCCTGTCTCAGCCACCCAAGTAGCTGGGATTACAA
GTGTGCACCACCACACCTGGCTATTTTTTTTATTTTTAGTAGAGACAGGGTTTCATCATGTTGCCTAAGCTGGTCTCAAACTCTTGGCCTCATATGATCC
TCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGCCACTGCATCCAGTCGGAATTGTATACATTTAAATAGTGAATTTGATGATATGTGAAT
TCTGTCTCAATTTTAAAACAGAGGTGGGGAGTGGGGAGATGAAGAGTTCCTGAAATGAGCAGGAACAGTGAGAATAAAGAAAGCTGAGATGGGTTTGATA
GAGACTCAGTGGTAGAGAATTGTCAGTACTTGGAGACTGATTATTGGCAGTGTCCAAAATGAAAGAGAGGTTGGCTCTGAAGTTTCTAGTTTATATGATT
GAATCAATGGGGAAAAAATTCTGGAAAAAGAGTAAGTTTGGAGAGGCATATAACAAACTGTATGAAATGTGTTGAGTGTGTAATCAAACAAGAAGTTAAA
GGTAAAGGCCCGGATTTGAGGAAAGACTTAGGAACTAGAGAAAGAAATGAGTTTATAAGAGTTGATTAAAACAATCAATCAAACTTGCTTGCTGATAGAT
AATATCTTSTCCTGCCCACCCCTTTTGCGTGGTAATGTCCCRTTCTTTATTTTCAAATCTGGTGTACAGGTTGTTTTTGTTTTTGTTGTATAAAGCTGAG
TTTTATATTACTTTTCAGGCAGAGGCAAGGCTGGCAGCAAAACGGGCTGCCCGGGCAGAAGCAAGAGATATACGCATGAGAGAACTGGAACGACAACAAA
AAGAGGTAATTTGAGGGAATAACCCTAATTTCATATTTGTCTCCCCCAAAATCAGTACTTGGCTAGTTTATTCTGATGTGAATCTGGTTTCCTTTGAAAC
ATTGAAAATAGTATAAACTGATGTATGTATTTTATCAAGCCATTCTGTGCCAGCAAATTAAATGTGATATTTGTTTTAAGTAGTAACAACAAACACATTT
ATAGCTATTATCGTGTCCATTGTTATAAGTTACTAGTATTATGAGTGCTTCACTTACATTAGCTAARGTAGCTTTAGCAATGACAAAGTGTAGTATAGCT
TTAATTGTCCTAAAATTTGGATTAATTATATTATGATATCTATATAGTAAAACACTGTAAAGTCATTCAGACTTACAATTTTAAAACATATTTAATAATA
GAGGAAAATATGTAAGAATATGAGATAAAAGCAAACCAAAACAATAAAATTTGTAGGACCCCAATTTTATATTACAAAAACCAGTATCCATATATAGCAT
CAAAAAACTACTAGAAGGAAGTGATTATTAATACTGCAGTTTGTCTATGGTGGAATTATTGTTGGTTTTTCTTTCTTTCTATACTTTTCTATAATTTACA
AACTTTCAGTATACTTTTATCAGAAAGGAAAACAAGAAAAAAATTTTTAAGAATAGGCATATGGAAATTGGGCTGATTAAAATGAAATAAATATGCTTTT
ACTTTTCTGACATTGACTTGGTCCTGAAAATTCCCATAATAAATATTTTTGATGTTGTAGTAGTATGAAGGGGCAAAAGCCTATGGGACAGTATTAAACA
CTTTCTTTTGATTTTGGTGGTGAATTTTCTGTGAGCAGGTTAAAAAGCAATGTAAATATTTTATATTGTCACAGCTCAAGAAAAACACTAACAATTGACA
TGTTGCTAATTTTCTTTTAACCTCATGTATAGTTTCAAATATGGAATGCAGTTCTTGAAGAGGAAGTGTTGCAATCCGTTGTCTTTTTACTCCTAAAATT
ATACTAAATATAATAATAAGTGGATAAGCTGAAGTGGAGGATCACTTGAGCCTGGGAGTTTGAAGTTGTAGTGAGCTATGATGGCACCACTGCATTCCAG
CCTGGGCAACTAAGTGAGATCCTGTCTCAAAAAAATAAATAAATAAATAAATAAGTGAATGAGACAGTTATTAAATGTAAGTTCTATTTACAGTTCTCTG
AACTACAGGGAAACATGCATCTCTTACTATTGAACATATTTAGCTTACTAATTTTCTGTATTTTGAATGTGTAACTTTGAGTCAGCTATCATTGTTTTTT
AGGGAAAATGTGTATGATTAATTTAAGGTTTTTGGAGAATGCAATATGTTAGAAACTATTTGGTTTATGAAATTTTTGCATTTCTAGTACTCTCTTCATT
CCTTTGATCGGAAGTGGGGACAGATTCAGAAGTGGCTGGTAGGCCAGTATTGCCTGTCCTGCATGTTGTGATCAATTGCTGAAATAATGCAGTCTTGAAG
TAAAACATTAACTAATAGTTTGCAAAGTAGGAGTGTTTGGCCTGTGTGAACCTAAAGGTCAGAGTGTCTATTCTGTCTATAGTGGACCAGAGGTATACTT
GGAGTCCTGCCATTTTATGTTGTAGTCAGTATCCTCACCTTCATCTCATGAATGCTCCTGATCAAGAAAGAGTGAGAAAATGAATGTGTGTTTTCTTTTT
ATGGGTTTGTTCTTTTCTTCCCCCCTTCTCTCTCCCCTTTTTTTTTAAAAAAATAAGTCCACATGGTCTTCATTGAAAGATGACCCAAGTAATTCTTTTC
ATTTCCTCTGAAAATTACTCTTATTATATCAACTCCTTCAGGTCCTTTTTAAATTCTCTACCACTACTCTCAAATTTGTTAGCTATAAAAACAAATTGTG
AATCAGTAAAATGTTAGATAATGTGAATCATTCCTAAATTTGAACTTTTTTTTAGGCTTGGTAAGTTCCCCACTGTCTCCTATTACAGGGCTTCTTAACT
TGGTATATGACTAGGCTTGGGAGAGGGATATGAAGCCTTAAATTCTACTGCAGACTTTCAAATGTAATTATTTTTATGGGAAATGCCCACAGGTATTTTT
ATTGTCAGATTCTCAAAGTAGTCTGTAATTCCTAAAGGGTTAAGAACCACTGTCTGATTGCTGCTAAACAAGCAACTTTCTTTCTTTCTTTCTTTCTTTT
TTTTTTTTGAGATGGAGTTTCGCGCTTGTTGCCCAGGCTGGAGTKCAGTGGCACAATCTCAGCTCACTGCAACCTCCGTCTCCTGGGTTCAAGCGATTCT
CCTGCCTCAGCATCTCAAGTAGCTGGGATTACAGGCGCCCGCCACCATGCCCAGCTGATTTTTGTATTTTTAGTGGAGACAGGGTTTCATCGTGTTGGCC
AGGCTGGTCTCGAACTACTGACCTCAGGTGATCCGCCCGCCTCGGCCTCTCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCAGCCAAATCTTTT
TTTTTTTTAAACCTCTGTGAAATTTGTATAGTTTAGGCAGTGAGTACGCTAGATTTTCATTGAAAGGGGTGACCTTTGGGCTAGAGTTTTAAAATTCAGG
TAGTGACTAATCCAAGTCTTGATTTATGGGCAGGACTTGGACCTGCAGAGAAAGTGGCATTTCTTTTCAGATGGGAATAATTATCACTTCTAACCCGTTC
TGACACTTGCTTTTACCCTGTTAAAACTGATTCTTTGGGTCTGGGCATAGTGGCCCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATT
ACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACCAAAAATACAAAAATTAGCCAGGCACGCTGGCGGGCGCCTGTA
ATCCCAGCTACTCAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTAAGCCAAGATTGTGCCACTGCACTCTAGCCTGGGC
AACAGAGTGAGACTGTGTCTCAAACAAACAAACAAACAACAACAACAACAAMAAAAAAACTGATTCTTTGGTGTGAGTTGGTTGAAGGTAAACAAAATAA
ATAAAAAGAAAAAGAAAAAAAGAAAAAAATTAAACTGATTCTTCTGCTCATTTATCTTTGTCTCTCTGGCTGCTTTATCTGTGAGCCCATAAGGAGAAGT
TGGCATGTAATAGTTACAATACAAAATATAAATGGCTAATGTTTATAGTAAAATAAATGATGCATACACACACAATCCACAATAGGATTGTCAGTTACTA
GAAGGAAGGAAATTTTCCTATATTTGTAATTTCCCCTAATTATAATACCTTTTTTTGGGTGGGAGTGTGATGTTGGGACATGAATAGGGAATGAAAAGGA
AGGAAGCTCAGAAATGAGTCCAACTTTGAGTGCATACTGTATATCAGCACTGTGCTAGGGCTTTTTACATAGGTTTTTATTTCACATTATAAGACAGTAT
TACTGTCTCAATTTTATAGACATGTTTATAAAGAATTGGTGAAGTAAATAACTTGCATAGTCATTGGCAGAACCAGTATTTGAAGGTATGAGAGAGTGCC
ACACCTGGTAATGTGCTGGAAGGTGAAAGGACCAGGAAGAAAAGGACCCACACCTTCCTGGGCCTCCCATTAGTGTTAGTTTAGTCAACTTTCCATGAAC
CCAATGATTCTATTTTTAAACTGGGTGTCTTTCTTAATCAGTGGTGATTCTGAAAGAGTAAATGCATGTCTTGAAGAGTAAATACGGTTTTTGAAGTTCC
TTCTAATTTGAAACTGAAGGAATGACTTTGGTGTCAACTTAGTAACAAATACTATTTGTTGACAGAAAAGATGGCCAGGTATATTCATGGGACTGTGGTT
TTCTTTTAATAGAACCATTCATCCTCCCTTCAGGTGAACGTTTAAAAACAAAGAGTATATTTCATTTTCATTAAATGTATCAAAACAGCATTTTGAACAA
ATACATGTCTTTTTTTTTTAAGGCGTTGTACTGTTTGTCCAGTCTTTAGTGCTTTAGTGCTAATAAGGACTTTTGGGATAATGACGATGTATTATTTTCC
TCACTGTGGAATAGAGGGATACACCTTGTAACTGGCACCTAAGAACACAGTTTGCTGTAATCTGTTATCTTTGTCCACTGGTATAATTTCTTCAAGAGAA
ACCTATTGGCAATATAAATAGTGCTCTAGAAATACCTGGCAAATGAAGCTTTTTGTTCTTCCAGAGAAGGAAGAATCTCTGAGTAAAAACCAGAATACCT
TGCCATTTTCTTTCTTTCTTTTTTTCTTATGTAATTGGTGGAAATTTAGCCAGTATAGGATGTTATCTTTACAGTTCAGTTGTCTGGTGAATAAAAACGT
CTAAATGCTGGTCTCAGCTTTATGATCTCATAGATTCTTACTTAATCCTTCTGTGCTGCAACTTTCTTACTGCAAAATGAAGGGGTCAGACTAGATRATC
TCTAAGGACTCTTCTAGCTCTTAAAAATAGAATTGCTACCAGGGTCACTTTATATCGTTGCTACCAGGGTCTGTTTCCCTCATGTTTGCCACTGTGCAAA
AGTATTCAAGGTAGAAGTAATTAAAAATGACCCAAATGTTTTGCCTTTCTATATGAGAGTGGTCCTACTTAGCAGGCTCTTAGTAGAATATGTGTTTTGA
ACGTTTTTGGTATAATTAAAATTTGCCTTGAGCTTGCCTTACAGTTTTACGTAAACACATTTGTCAAATAGGTTTAGAGAAGTGCTGTCAAGTATGGTAG
CCCCATGTAGGTAATTAAATTTAAATTTAAATTGACTAAAATTAAATAAAATTTAAAATTTGGTTTCTCAGTTGCATTTCAAGTGCTCAGTAGCCACGTG
TGGCTAGTGGGTACTACATTAGCACAAATATAGAATATTTCCATGGTCAGAGAAAGTTGTATTGGACAGTGCTTATTTAAGGTATAGTTTGTGACTGTGG
AATAAACTATACTCTYTGTCCAAATTAACTGACCTGTATGGGGGTTTATATTTTATTCTGTAGTTTTCAGAAGTCTTTTTAGGCCAATTTTTCAAATGGA
GCAAGAAAAGCTGTTTAAATATAGAGGTACTATGTATCAATACTTAATAAGGTATTTTAATTTATAATTGTTTTTATTAATATAAGGGGCATAATTGAAA
GTATGACTTCATCTGTCTTTGCTGCATCTTTAATGGGATATGCTCTTTAGGTGAGATTTTTGAAAATGCTCTGTGTGATAGATGGAATGGAAAAAAGGCT
AGAATAAAGGGAAGATTAGACATTAAACCGTATTTACCCTAGTACCTCAAATAATATTGGAAGAGGCATGTTGAGTTAACTCACCTTATAGTAAAGGCTT
TTTGAACTAACCAAACTAAGTAGCCTAGAACTGATTACCACTTACTAAGCTGTACCTGCCCTTCTAGGCTAACACACATGCCCCCAAAACTTTCGTGGTT
GATAAAGAAAGGGAAGAAATTTTCTTGGCTTCTTGCAGACTACATGTGTCTATTGCATAATAAAAAATGTAAATCAGTGGCCAGGCATGGTGGCTCATGC
CTGTAATACCAGCACTTTGGAAGGCCGAGGCGGGCAGATCCCTTGAGGTCAGGAATTCGAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTGCTAA
AACAAAAAGTAGCCGGGTGTGGTGGTGGGTGCCTGTGGTCCCAGCTACTTAGTAGGGGGCCAAAGCACGAGAATTGCTCGAATCCAGGAGGCTGAGGTTG
CCATGAACTGAGGTCGCGCCACTGCATTCCAGCCTAGGCGACAGAGCGAGACTCCGTCTCAAAAAACAACAACAACAACAACAACAACAACAACAAATGT
AAATCAGTGAYGAATTCCTAAAGATCAGAATACCTGATTAGAAATTGAATCATAGTAGTGCTTATAAACAGACTTCAGCATACATTTGGTCAAGGGCATC
AGTCACAGCAGATGTCAACCAGGGAGTTTTGAGGCATTGATTCATTTTGCAAAAATACAGCATTGATAAGCTATGAACCCAGTTGGTCAGTAATGTATAG
ATTTTCAGTCAGCACACATTACTTTAACACTTTGGACTTGAAATTCTGAAAGATCAGAAATTCCTTACTGTTTGAGATGATTAGGTTTTAGGGACTAGCC
ATTTTATCTCACATGACTCAGGCCTTAATGCTCCATTGCTAATAGCTAAATGTGGAAAAGTTTAGAATTACATTTAATTTAGTCAACTGTTAGGCTGCAA
TCATTTTTTTTTAAAAATCTGCTTATGGCATTATTCGAGATAACTTGACCAACTCTAAAATATATATGTAATTACTTCTAGATGTAAGTAGTTTTTCATA
TTAACAACACAATCAGGCTCTGTTTCAGTTAGTTCTTAGAGTGGTGAAAAAAAATCTTTACAGTAAGTGCAAAATTATAATCCAAGTATTTTTAGAATCA
TATACTGTCTTAAAATACATCAGTGATAATGTTAACACTTCTTCCTACCTGCATAAACTGATGATCACAATGAAAAAATAGATTAATGTCTTTTTTTAAT
GCTGAACTCAAGTTCTCTTTGTTAAGTATACTTGCACATTTTTATCTTGGTATATTGAACTCTCTTGGTCTTATACAGACCATTCCAAGTGGTCTGACAT
ACATACGCCTGATAAAATAGGAACATTGCCAAGATTATTTCTACTTTCTTTCCAACCAAAGAATGTGACCGCCCCACACATACACACCATGGAATACTAT
GCAGGCATAAAAAAGGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAGCTGGAAACCATCATTCTCAGCAAACTGTCGCAAGGACAAAAAACCAAAC
GCCGCGTGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACACTTGGACACAGGAAGGGGAACATCACACATAGGGCTTGTTGTGGGGTGGGGGGAGG
GGGGAGGGATAGCATTAGGAGATATACCTAATGTAAATAATGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTTACAAACCTGCAC
GTTGTGCACATGTACCATAGAACTTAAAGTATAATTAAAAAAAAAAAGAAAGAAAACTAGTACTGCTATATTGAAACTTACACACACACACACACACACA
CACACACACACACACACACACACGAATGTGGCTGCCCCTAAGATAAGTTATCCAAACCTGCCTGCTCTCAGGAGTTGTTGCTGTGCTGTTAACTGACTGC
TCTTTGCTCAGTTGTTCTGATAAACAACTGTCTATTCAGTGATTAACTCTCCATGTACTTTCTCCTTTCCCAGGAAGATTCGGAAAGGGCCAGGTATTCC
CACCGGTCCAGTCACCATCGTCCTTATCTGGTTTGTAATAACCTATACACTTGCCTCTAATACTTTTCCTCATTAGCTTAATGTAATCACTCACAAACTT
TTACTGTGTTTATTTTYATTTTTATCAGGGAGTTGAGGATGCATTGTCCATTCGAAGTGTTGGCAGTCACAGGGTTGGTATTTTAACTTGTCTACACAAT
ACAAAGCTTACGTGTGAGCTTTCTTCARTAATGTTGCCTAAACAATCTGACAATGTTCCTGTATTTCTTTGCGTTTTTAAAAGAAGTATAAAATATTGGC
AAAGACCTTTCATTGGAAAATGATGCTTTCTTTCAAATTATTGTCATAAGTAAATCAACTCTAAAATCATGAATACTTTAATCTATTAACATGGGTCYAA
TCTCTTTTTCTATAGAAGGACCTTTGATTTTGGAAAAGTATCACAAAATAATTAAGATTGATCTTGTAGAATAACATTTGTTTGGTTCTAACTTTCAGAC
TTTCCCTACTTTCATATCTTAAAAAATGACAATTAAATGCAAAATAGCTTTGGGGCTTGGATGATTAATTGTAATTTTATTATGTGGAAAATTTGAACAA
CTGATTTGAAAAGTTCTCTGAATATGTATAGGAATTATCATGCTTTGACATTTTGATTAACATTTTATAGAATGCCCCAGGTTGTTTTTTGCATGGATTG
TTATAAGTCAGGAGGAAGGAGAAGTTGCTCCTTAAAAACCCTTGTATTATGCCAAGACCCTAATTTCTGTCTTAAAAAAGTATGCTTTACACCTTAAAGC
AGCACTTTTATTTTGCACATTGATAATGCTGTATGTATACTTTCTTTTTTTCCATTTTATTTTATTTAAAATTTTTTTTATTTTAATAGCTTTTAGGGTA
CAATTGCATTTTGGTTACAATGCTGTATGTATACTTCCATGTAGTTTTCTTAATCAGTAAAATGATCTTTCATGTTAAAGTCTCTATTTGTTAGTTTTCC
CTGACTGTAATTTTCTTTCTACCTTGTATAAATGATAAAAATAGACTCTAATAAACTGAGTGTGCTCTGGCATACTAGTTATTGACATGTTTATATTCAC
AAATATAAACTCCAGGCTGGCTGTTTTTCTTGGTGAATGTTCTCCAGGCTGGTTATTTTTCTTGGTGAATGTAATGTACTGTCTTTTTAGAGTAAGTTAC
TAAGCTGGTTACTAAATCAGGAATATTTTAGTTATAAAACTTTAGATTTTTAAGAATATTGGCCAGGCACGGTGGCTCACACCTGTAATCCCAGCACGTT
GGGAGGCCAAGGCGGGTGGATCACCTGAGATCGGGAGTTCAAGACCAGCCTGGCTAACATGGTGAAACCTGTCTCTACTGAAAATACAAAATTAGCCGGG
TGTGGTGGCGCATGCCTGTAATCCCAGTTACTTGGGAGGCTGAAACAGGAGAATTGCTTGAACCTGGAAGGCGGAGGTTGCCGTGAGCCAAGATTCGCCA
TTGCACTCCAGCCTAGGCAACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAAAAGAATATTAACAGATCTTTACAGAAATCTAAGATAATTGGCA
GCTTATAAATGATTTTACAGTAGAAAAATTTTAATAGTGAATTCATCATACTTCTCCCTGGAGATATAGTACTTTGTTTTTTTCTCTTTAAATATTTTGA
AAAGGCCGGGAGCGGTGGCTCACATCTGTAATCCCAGCACTTTGGGACACTGAGGCGAGCAGATCACCTGAGGTTCAGAGTTCCAGACCAACCTGGCCAA
CATGGCAAAAACCCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTAGTGGCTCACGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCATGAGAA
TCAGTTGGATCCGTGGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCACCGCACTCCAGCCTGGGTGACAGAGTGATACTCTGTCTCAAAATAAAAATTAR
AATAAATATTTTGTAAAGAATCATGCAGGGAGTCAGTCAATAAAAGCTTTAAAGTTAAGTCTCAAAGGCTGTGAAAATAATCCTCTTCTTGTATTTATGG
CTTTTTCATTTGCTTTTCAKTATAATGTTCGCAGTGTGTATTTTCACACAGTTGTTATTAAGCCGGTTATTTATAAATTTGTATGTGGCCTTAGGAAATT
TGATTATATATTTGTTTAACTTAAAGGTAGAACCAGCAAAATTTGAACATTTGGGGGCCTTTAAAACAAATCTGCAAACAAAAAAGGAATCTGCAGTTAA
ACCGATAATAACTATATACCAGAATGTATATAATCAGGATGATTTTATTTTTATGGCATTTGTATCATTAAACAAATTTAAGATATAACTCCAGTATTTA
ATTTCATTATGTTGATTTTGAAAATTTGTTACTATGGGATAGAATAAAACTCCCAGTATTTAAAAACGTCAATGTATAAATGTAAAAATTAATAAAAGTT
TTACATCCTAGAGGAGATTCTAGTACATTACTCTCTGTGAGTGCACATCTAACACAGTTTAAATGTTTAGACTTTCCTGGAAACAAGTCTGAAGGCTCAC
TACTAATTTCATTTAAAAGAAATATAATTGAGATAAAACTTTTTCTGTTTTACCCAAATAATATTGWGAGTTCTAAGTTTTCATCAAATTATTTGCTTTT
AAAATAATTTTTCCATTAAGCTGAATTGTTAGACAACTTTTGTCCTCTGTAGATGGCCTAAACACTGACCTAAATTTCCTTGTGGTTTGCTATATAATTT
TGGAGTTATGCATTTCTCAGCCAGTTATTTTTAAAAACTTAAGGCCGTGTACTAAGAGGTCTAATACTTTYTGAACGTAGTATTTGATGTTTGAACATTA
GCAGTACCTGAATGTGAGGTGGATATATTTATGGTCTTATGCTGCATTCTTAGGACTTTAGGTTTCTCCTTTTGTCCAATTAACTTTCATATACTATCTT
TTTGAAAGGTGGCTTACCAGAAGCTATATGGGCTGGAAATGTTGGTGTCAGTGCTATAGACATTATGTATAAAAATAAAAACAGCAAAGGTAGTTCAAGA
CTGTGAATGGTAGGATTGGGGGAGGGAAGATTAAATCAAAGTTAGGAATTTAGAATTGAAACAATCTGTGTCTATTAGTTTTGTATAATGATTGGATTAT
TAATAGTGCAGAACATTAGTAGCTGCTTGGTCATTGCTTTATACATTGAAATACAAGAAGACAGTAAGGTAAAGATCCAAAATTAGAAAATGAAGTGATC
TTGGCCAGGCACGGTGGCTCACGCCTTTCATCCCAGCACTTTGGGAGGCTGATGCAGCAGAATCACCCAGGAGTTTGAGATCAGCCTGGGCAAAGTAGTG
AGACCTTGTATCTACTAAAAATAAATAAATACAAATAAAATAAATTAGCTGGGTGTGGTGCTGCATGCCTGTGGTCTCAGCCAGTTGGGAGGCTGAGGTG
GGAGCTGTCCGGGAAGTCGAGGCTGCAGTGAGCGTTGATTGTGCCACAGCATAAAAACGAAGAAAAAGTGATCTTGATTGAATCAGAGCAGTAGGGATAC
ATTGCCTTTTCTCATTGGTGGAGATTTTTACTGTTGCATGTATTTAGTTACTATTTATATACCAGTAGCCTTGGTATAATTTTAATGAATTTAATTTTTA
AAATATACTTACAATTTTGTGTTTTATTATTTACTATTACACTGTTTAATTCTATTGAAGAACCCATCAAAGGATATAACTGGGACACTTTGGAGTAGAG
CCAGTACACCCAAAAGGAAAGACACTATGGTGTGTAGCCCAGGAAAATGTGTGGTATTAGTGTTATGCATTCACTTTTGACTTTCAGTGTCCTTGATATT
TGAGTAATAGGTACATTCTAATAGAGATTGACACTTGCTGAACTTTGTTCACTGTATGTACTTTCTTTCTAGTTTGTTTCCTAATGAAAACTTTCAGGCA
AGTTTGACAGTTAAAATTTCTTTAAAAGATTACAATAGCAAATTTTGGATTTTTTTTTAACTTTTAAAGTTAAAAAAAATTTTCTTTTTTCTCTATGGTT
ATAGCATCAAAAATTTGGAAATGAGCCCTTACTATTTTCACTTTTACCTCCTTTGATGAATCTTTCTTTTCTTTACAACAATATAAAGGCCAACTTTTAC
TTATTGGGGTGACTTTTTTTGTTTGCCCATTGTTCTAGTAGAAATTGGTATGCCCAAATTATGGATTTTCCTACCAGATAGATTCAACATTTTTTTTTAA
ACCAGCTGAATTCTACATTATATTTTGGRAAAGGAAAATTGAAACAGGTTATTTCCAGTTTGGCTTGTTAAATCCTATGCCTGTGTAAAATGCCACTGGT
GCTATAGAGAGGATGATAAGAGGAAAGACAGCTACTCTTTTCCATGAACTTACCTTATTTGGAGGATGGAATAGCTTATCTGCTAGAATGTGTGACTTGA
GTAATATGTTTTGGTCATGGAGGTTTTTTTTTTTTTTTTAAACAAAAGGGTTAGATTTTTTTTAATTTARAAATTTCTATAGAGAAGCAACTTTATTTTT
GGGGAAGTGTCTCTCCATGGTAAGTGACATTTTACTACTACACAGTTTAAATGCATACTATTACGCATTTTARAAAATTTTGTAACAAGATTTTGTTACA
CATGCAATAATAATATTTTTTATTGKGTTTTCTGTTAGTTTCAGGATAATATAARAAAAGCATGCGGTACAGATATTTTGCTCCAATAAAATTGGTATTT
ATTACAATAACATTTTCAATGAATTTATACCAGTGGTAAAATGGTACCACTTAGTCTGATACTTATGGAATTTATTTTTTGAGGTTTCTGCAATGTTTTT
TGTAAATGACCATTTCATTAGGCATGAATGGAAGGGCTTTATTCTGACTGAACTATTATTTTAATGTCTTATTAGAACTAGATTATATACTTTGATTTTC
TAATATATTTTAAGCTTTTTAAAAATTGTGATCTCTACAACAAGAAATACATTTTACACCATAAGTCAGTATACACATGAAGATTCATGCATGTGGATTT
GTATATATGTAAAAGTATAGAAAATACATTATTGAAACAAAAGTTTCACAAAATAATATTTGCACTTACTTTGCACAACACCCTCTAATATTTTCTCTTC
TAGTTTAGTTTTTAAAATGCTGGTTGAGGGCAGGGTACGGTGGCCTCTGCCTGTAATCCCAGCCCTTTGGAAGGCTGAGGTAGGAGAATTGCTTGAGCCC
AGGAGTTCAAGACCAACCTGGGCAACATAGCAAGACCCCATCTCCTAAAATTAAAAAAAAAAAAATTAGGTAAGTATGGTGGCATGTTCCTGTAGTTCTG
TAGTTCCAGGTACTTGGGAGCCTGAAGTGGGAGGATCACTTGAACCCAGGAGTTCGATGTTGCGGTGAACTATGATCAAGCTATTGTACTCCAACCTGGG
CAAAAGAGTGAAACCCTGTCTCAAAAAAAGCTGGTTGACCCTACTAAGTTGATTTTATGAACTACTGATGAATTGCAACCTATCCTTATGAAAACGTTAC
TTTAGATTGGGTTTTTGAATAGTATTGCTTAAAATTTTAAATGAATATAAGAGTTGGAAAAGAAAGATATTTTTATCAAACAATTAGTATTTAAACTACC
TGAGGAACTTGTTCATTGCTTTTATTTGTTTTGTATATGACTTTCTGGGTAGACAGCTTAAAAATATAAACTAGAATGCTTAAGAAACGATGTGTGAAAA
CCATAAATCTATGTAGTTACTATTTAGTTTTTCTTCCCTGGATTTGAAATGTGGTATTACATATCTTACTTTTAAAAAGGATCCTACATGAAATGTGGGT
GTTCTGGTCTTACGAGTTTTGTATATTTTTCTTTGATTTATATTCAGTGTCACACCTGTATGTATACTGTGCAGTTCACACATTGACCAGATTTCTCAAA
ATGAGAAATCGGCATTTTCTTGAGGAAGGACATTCTTAGGTGTTTGTTCACAAGCAGATCCAAGGGAATGTTCCCCATCTTGGTGCTGCAATTGTTCTTT
TGTAAGCTTGACCATGCTTGTTATGTCAGCTTGCCTCATTGCCTGTTCATCCTTTGCTTTTGCCATTTTTCAAACAATAGGAAATGATGTTAAAAGTGAT
AATAATTTTCTTAAAAAGCATTTTTGACTTTAGAATGCTTAATTCTTGTATTTAAAGGCTCCCTTAGGATGTTTTGTGCTRTAGTGTACTGAGATTGAAT
CATATCACTATTACTGATTATGAATTTTGTTGTTTAAAAGAAAAATAAACATACAGTTTTGAATATACATACAGTTTAGCAATACTTTATACTAGGAAAA
AGTAGGAGGAAGAATATTTTTTAATTCAACTGGATTAGCTTTCATGTTTAATAATTTTTTATTTTAAAATAGTGCTGGATTTTTAAAATAACCTCAAATA
TTACTTCTTCTCTTCTTTATATTTCTGAATTTGGAAACAAACCAACTTTCATGTTTTGCTGAAACCCAGTATGATATGTTCAAGGATAGATCATCAAGAC
TTTCATCATTAGTATGTAGCACATGACTTTGTGTTATATGTGGAATTTTACTTTATAAACATCTGTTGATGCTAATTATAGAATATGACTAACTTTCATG
GCTTTGTTATGAACTTTTGGGGAAAATGTGTGACTAACAAAGCAAAAAGCTAATGTTTTGTGGTTGTGGCATGAATAGTAATTTTTTTCTTTAGGATTTC
AGAATTAGACACAAGTTATTCTTATCTATTGAGGACTAGGATTGGTAGTAATATCTTTTTTTTTTTTTTAATTTTAAAGATGGGGTCCCTCTCTGTCAAC
CAGGCTGGAGTGCAGTGGTGCAATCATAGCTTACTGACTGCAACCTTGAACTCCTGGATTCAAGGGATCCTCCCACCTCAGCCTTCTGAGTAGCGAGTAC
TATAAACATGTGCCACCATGCCCAGCTAATTGTTTTATTTTTTTTGTAGAGATGGGGTTTTGCTATGCTGTCCAGGCTGGTCTCGAACTTTTGGTCTCAA
GTGATCCTCCCACCTTGGCCTCCCAAAGTGATGGGATTACATATGTGAGCCATCATGCCCAGCTGGTAGTAATATATCTTTTCTTAAAATGATGAGCCAC
CCACCTAACATATACTCATTGTCATTCTAACACTGTTAGAAACTTGTCTTCATGTTGAGCACAAGCCCAAATTGTGTTTTATGTCATATGTCACAAAGCT
GGCAGGTGTGAAGTTGCTAGATAGAAAACATCCAGTAGTGTTAGAGGACACCTAAGACATCAGTTATGTCCAAACATTTTGGTTTGATTTGGTTAGTTTT
TTATGGTATGTCATTAACCAAGGAATTTAAGTTATAGCTTGTTTTTCTTGGGTTAATATTTTGTCAATAGGTTGCCTGAGTTTCTAAATTACATAGACAT
CTCTTAAAATATTCAGAGTAATGTATAAAAAGATGCATATTCAAAAAAAAAAAAGTAAAATGAGTTTTTAATCATTGATTGGGAATACAGCTATATATAT
GTGAGATGGTTTACCTAGAGCAGTCTGTTGCCTTTGGCTCTTGATAGGTAGGGCACTTCTAGCCACACTCTCTTATTTCAGGCAAGTAGTACGTACCTAG
ATTAGATTTCTTATCTACCAATTTACCTATTTAGTAGTATTGCTAGCCTTAATTTCCCCATATGTACTTGGCTGTGTACTCCTAGGAAAAGTTAGGTATT
GAGACAATCCTGTCTTCAAGGGACCCTTTTATAAGGTGACCATTTATGGTATGCTGGGCAATCCATACCATGTTGGTTGTTTTCCTCCTGAGCATTACAT
ACTGTGGATTCACTAATTTGGGTTAAGAGTACTGTCTGGGACAGTTTAATGTCATGTTCTTTGTTCTCTCAGTCCTGTTTTAATTGTTCCAAAAGATTGC
TTTTTGACCTTTAGGTAAGGAAGACTATAGAAGGAAATGAATTATCTTGTTACCTATACCCTTAGCCAGGAGTGGTGTCTCATGCCTGTAATCCCAGCAT
TTCAGGAGGTTGAGGCAGGAGGATCACTTGAGGCCAAGAGTTCAAGACCATCCTGGACAACATAGCAAGACATTGTCTCTACCTGTTCCCCCAACCCCAA
ATTAGCTGGGTGTAGTGGTACATGCCTGTGGTCCTACCTACTCAGGAGACTGTGGCAGGAGTCCAGGAGTTCTAGGCTGCAGTGAGCCATGATTGTACCA
CTATACCCCTGTCTGGGTGACAGAGTGAGACCCTGTTTCTATTGAAAAAGAAAAAAAAGAAGTCAGAGGGACTCAAGTGTGGTGTGAAGGTCTCCACAAA
TATTCTGCCTGGTTCTTAGTTCTAATCAAGTTTTCTTTAGCTGGCCAGACACACAGATGCTTGGCACAGAGGGAGGTGAGGGAGGAATGCAGATGTGTAG
AGAGGCCAGGTAGACTAGCTAGTAAAGTGCAGTGAATTGTTTACTAACCTTTGGGAAATAAATTGCATGTAAACTATTGTGTATCTCATATAGACCTTTG
TGTATATAATTTGAAGATGAATTTTATTATTTTCATAACTTCGCTATGCAATCATTGAAGTTAACTTGGAATATTTACTTCCAGAATCATTCTTACAGTC
ACTCTCATGGAATGAAGAAGAGGTCTTCTGATTCTCATRAAGACCTACTGGTTAGTTCTGTTGTCTCTCATATCACAATTCACGAAGTACTGTTAGGAAC
TTAAGGATTATGATTGCTTTGGTGTGCTACTAGGACATTATTGAAACTTGATAATCTGCTGAAACATGATTTATCAGAAATTTAAAAATAATTTTGTTTT
CATTTGCAAGTTTTAGTATTAACATATGCAAACCCTAGCAGCCAGAGTTAGTACTATATCACAAGAAGCTCATTAACAAGTATTTTCATTTATTAATTGT
CCTTTGGAATATACCTCAAGAATAGGTTTAGTAAGATTCTCATCCTTATTTTAGGAATTTGAATTGATTTAGTTGTGGTATTATGGGCCGTAACTAAACT
CACAAATAGGTTTCATTCTAAAAGTTTGTGTTTTGGGAACTTGGAATGCATTTTCTAGTTTCTTCAATAAATATGTAATGGCAAAGTTTCCATACTAGCT
TGCTGAAAACTCTTTAACCTATAATGTAATTAAACTGCAGAATTAATATACTCTTTATTCTAGTCACTTTGTGAAACAACACTTCTTTTTTCTTTTTCTT
TTTTTCTTTTCTTTTTTTTTTTCTTTTTTTGAGATGGAGTCTCGCTCTGTCTCCCAGGCTGGAGTGCATGGCGCGATCTCGGCTCACTGCAACCTCCACC
TCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACTCTTCCTGGCTAATTTTTGTATTTTTGTAGAGATG
GGGTTTTGCCAGGTGATCTGCCCGCCTCTGCCTCCCGAAGTTCTGGGATTACAGGCATGAGCCACAGTGCCCGGCTGCTAAACAAATTTCTGTGAGGAAA
ATAATGTCTCCAGAATGCCCACTTGGTACATTGGAAACACCCATTTCCTGTTAGGCTGCAACAGTACTGGCAAAGGAAGTGCAGTCCCAACTCCTTGCTA
ATTCAGGGTTCCCATGGGTTGAACSGGGAGAGGGTTGGAAGGCTTTGGTTGGTACAAGGGAGGAGAGAAGGGAGAATGTAATGGGGAGGAAATTAACGAG
AGGCCCTGGAAGGTAGGGTCTTGGGATCTCTGGGGAGAGGTGAGCCTTAGGTGCCTAGTTGAGGGTGTGAGTGGGGAGTGAGGAGYGGTGTGGGAAGGCA
GGGCTAGGGGTGGTAGGGATGGGGTGGGAGTAGGGATGTCCTCAACTCCACTGTCAACACTGATGGAGTCTTTAAGTCAGAGATTGCCTAAATTTGCTTA
ACCTTGAGTAAAAAAGTTGGCTAGAGAAGTTGGGAAGGGAATTTTATAGATGGTTTTCTCTCCCTCAATTAGCTATAATGTGTACTATTGTTTATTTTGT
ACATTGTATAAATGAACCTGCCGTAAGTGTTTTAGATCAAACCATATTTATCGTACTCTCTCTTTCATTTTGGTAACTTAATTTGTCAGTTTATTTTGAC
AAGTAATGGGACTAGGAAATGTTTGGAACCAAATACATAGCTCTTTAATAACTTCTGTGGCTTTGCCAGATGGATTGTAAAACTGGTAATTATTCAGTTG
TCCAGGAGTGTTCAAGGACTTTCTTAAGTATGGCATGAGAATAAATTGTTTTCATTCCATTTTCTCTGAGGGTTTATTGTCTTGTTTTTAAATTTAAAAA
TTTAGTAATGTCTTTGTTTTAGGGGCTTGAAATAATTGTCRCTTTGACTTAATGTGATATGATGATTTAAAAACATTTTGGAGAAGAAGGGATTTGGCAA
TATCATATTTTGCCTTTTTGTGTTCAGTTTTGCCTTTGTGTGTTGTTAGGTTATTAACATTTAGCCTAAGAAAAATGTGTTTAATTTTGCTTTTTGCAGA
GTGGCCTCTACTTTGACCAGAGAAACTATAGCAGTCTTAGACATAGCAAACCCACCTCTGCCTACTACACTCGGGTTTGTCTAAACTTTTTTGGCTTTAT
GTGTTTGATTCACTTTTAACATATTTCTRATCTCCCCATTTTGCATTTTGACTAGCTGTAACTAATCTGTAAATGGCTACGTATATACTAGTTTTTGGTA
ACTGAATTTATATAGTCTGTGGGAGTCTCTTTAAACAACGGGAACTATTCAGTCATCATGTTTATAAATCAGTACCATTAAAGACATTTTTAAATAAAGA
TGTTTAAATGTACAAAAAAAGTTCAAGGAATAATACAGTGAACATCACATACCTATCATTTAGATTATATAATTCATTATATTTCCTTTATCACATAATT
ATCTATTTGACCCTCTAACCATCARTTCATCTTAGTTTTTGATACATTTCAAAATAAGTTGTAAGCATCCATATACTTCAGAGTGGGTACCCTTTTAAAA
AAGCTTACATATAAAAATGTAAACACGTGGCATGAGAAGAATGTAATTATTTAATGTTAGAATCTCTTGTTTTTTTAAAGGCATTTGACACATCATACAT
TTAAGACACATTAAGTGTATGGCACACAGTACATTTAAAATAATTTTGTTTAAAAAACCTGCACACGCAACTTAAGTACTCTTATTTTTCATCTCTGATT
GGGTTTGGTGAAAACTTGAAAAGTATGTCCTCAGATGACATCAGGAAAAGCAAGATTTAATTCCTTTAAAAACATGCTGTGTTCTTTTAGTGCATGGATT
CATTGACTAGTACAATTTATCTAATTCAACTAAGGCACTTTGTCCATGGCTTGTTTTGAAGAACAGGTTTTCTAATCTATTTGGAAAAGAGTGTTTGTAG
AGATAACTTGGAGCTTATTTATCTGGTTCTCCAAAAATCAGTCTAAGCCAATTAGGAGTTGGTCATAAAATCACTGAAAATATCATAAGAACTGGGTGAG
TGGGATGTGGCCACTGTTTTCCACACTCCCGGTACCATGACCCTCTTTCCCTCAGTGTTTTCTTACTTGCCATTCCATATCCTAACAATAATGCTCGAAG
ACCAATGGGACATAAACATATTTATAATTCATAGAAAACTGTTCCAGCTGTTTCTTATCCCTTACAATTAATATTCAAAACAATTTCTAATTACTTAAGT
TTTTCTTATTTCTTGTGTTTCTTAACTACCTTAAGCACTCAGGAATTGCTAATGAATTATGGAGTATAAAATCATAAACTTAAGTCCTCTGCATTCATGA
TGGTGAGACCAATTCATCTTTGTTTTTGTTTTTGCTTATTTATTTTGTTTTTGTCTCTTAGCAGTCTTCTTCCCTGTACAGTGACCCTCTGGCAACATRT
AAGAGTGACAGGGTTAGTACTTTCTGAGGAATGTTCTGCCTTTAGAGCTACCAGTTGCTTTTTTTGGGGTTTAATAATACACTTTTTTCTTAGGCCTCTC
CTAYTGCAAATTCTGGTCTGCTGAGAAGTGCCAGTCTGGTTTGTATTTTCCTCTTCCAGTGTGTGCASTGCTGGTGGGGTCAATGTCATGGTGCTAACTC
TATGGCTTGACAGCTTTTCTCCAAAATAGTTAAGGACACATGATTTTAGTGTCATGTATACTGCAGAATGTGCTGCCTGTGCTTAAAATATACAACTTTA
GGGTATTAAAAATGAACATATTCCTTTCACAGAGGGCTGTTGGTAGCCCTTGCTTAGAATCAGTTTTTTTTTATCTAGAGAAGATAGATTTGCTTGAGTC
CTACCACACTCACATACTTTTGTGAGATGGCTGCTTATGGAAAGGATATTGTTTTTCTTTGGGACAGTTATGATCTTGGCCTCTGATACTAGGATCTAAT
AAAGCAAGCTGACTAGAAAAGTAAAAGCAGTAGCTCTGTGTAATGTGTGAGCTGTGAATTTGTTGCTTTCAAGCTGTTTGTTGTGTTGTGGCCTGTTCTA
GTGGACTGGGATCCTGAGGTTTTATAACTTAATTTTATTGTAGTAGTAGGCAAAATGCTCTTTGTACCTCAGTTTCCTTTCCTGCTCTGTTTCCTCTTTT
GAGAAGATAAATGTGTACACGTTAATTCTCCCAGTTTCATAACATGATGGTGAAAGAAAATACTGTAACCAGGGGTGTTTTTTAAAAAATGAAGTGCAAG
GTTGATAGCAATTTTTGCATATAAATGAGTATTACCGCCTTCAGGGTTTTCATTCTGGGAGGCTATACACTTATATCATTCTCCAAAACTTTTTTGGTAC
TGAGTATTGTGAAAACATTAAGTCATTTTCAAAACAACCTTGAAGCTAAATAGCTAAGTGATATTTCCTTTGTTCCTTAGGCATCATTGTACAATGGTGG
ATTATATAACCCTTATGGTCCTCGAACTGTAAGTCTAAATAGGGGAAGGTGGTGAAGAGGAGGGAAATGTGGGTGGGCACAGTTTACTTTCAAAGAAAAA
GTCAAAAATTAATAAAAAAGAAAAATATACAAAGAAAAAGTCATTTAATCTGACCTGGAATTACTCTCTAAGCTGTGATCAAGTCATTGAGCTAGCCAGT
TGTGACTCTCACCCAAGCTGTGATAAAATGCCTGCTGGAAATCATGATTTCAAGTATTAGGGAAATGCATAGAAAAACCACTTTTCTTGTTCATTAGTTC
CTCCTGAAGAAGTTCTGAGCAGCACTTCTCAGGGCATCCCCTTCCTCTTCGCTCCCTCTAGCCAAGGGCTGGTGGATCTTGAGGGTGGGGATGAGGTAGA
GTTCTACACCACTGAATAACAGTTACCTTTATCTTGAGAACCAGGGGCAAGTTAGGTAAATGGTCCCTAATGTATTCTCATTAGAATAATGAGGTGATCA
TTGTTGTAAAACCTTTCTTCTTGGAAACTTTATAGCCWTCTGAATGCAGTTATTATTCATCAAGAATAAGTTCAGCCCGAAGCAGTCCAGGGGTGAGCTG
TCTAGTCTCTGCATGCTTTGTAGAAATTTTTGATTGTTGCGTTAATCTGTACTCACTGTTTAGAATATTGAGGATATGGTGTGATTCACTTYGTTGTGCA
TGGATTAGRTGTTCCCTTAGTACATAAACTCAAGCACTAATTTGTCCTAATAATTGGTGATTTCTCTATAAATGTGACTTAGCATGTAATTTCTTAAATG
AGTCTCTAACCAGTGCCATTAGAATTTTTAAAGTTTTTATATTTAATTTTCATTTGTGTAGAACTTCTTGTCTTTCAGTGGTGATAATTCATTGTATAGG
TTGACTATCCTGTGTTTCTCCTTTCTATCTTTACATTCTGCACATTGAGCCATTTCACCTGCTTGCCAGCGCTTCTATCAGTGCAGTGAAAGGAGAAGAA
ATAAAACAAGCTGATTAAAAAAAATTGTTATACGAAAGACAAAACTGGGACAATTATAATTACCTAATCTTTCTAGAGTATTTTTAAAAGTTTATAAAAA
TAATATTAGTTAAGGAAAATTCAAAGTAAAATTCCCCATTTTCCTTCCCCAAATGTAATCTCTGTTCTTCAATAACCTTTCAGAGATATTTTATGCAYGT
ATGAGTGCTCTTTATTTTGAGTGCAAATGGGTCATATTACATACTGCTCCTCAATATATTTTCTTTATTTAAAGTAGCTTTCTGTATCAGCACCTATAAA
TTTATTTCATTCTTTCTTTTTTTGATAAAAATTTTAAACAAGTAAGCTGTGTCCCTTAGTTTTTCCACTTCATGTCTCTTAGAGGTAGTTTCATATTAGC
ACATTCTTTTTAATGGCAATATATTCTGTTAGTGCGTAAGTATACATTTTAAAAGTCATTTCCTGTCCGGGCATGGTGGCTCACGCCTGTAATCCCAGCA
CTTTGGGAGGCCGAGGGCACATTACCTGAGATCGGGAGTTTGAGACTAGCCTGACCGACATGGTGAAACCCCACCTCTACTAAAAATACACAATTAGCCT
GGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGTGGAGGCTGCGGTGAGCCAAGATCACG
CCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAATAGTCATTTCCCTGTGATGGACATTAGATTGTCATATTTTTG
CTACTATAGACACTTATACAATGACCATTCTTATCCAAGTATATTTTTGTGTACTTACATGGGTAAATCTGCAAGGTAAATTGTGAATCATGAAACTTGT
GACCTCAGGTGGTCCACCCACCTCAAACTTGTGACCTCAGGTGGTCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCACTGTGCCT
GGCCTAATTTTAATTTTTATTTAGAGAGGGTAGCTTTCTATGTGGCCCCTGCTAGATTTGAACTCTTGGGCTCAAGTAATCCTCCTGCCTCAGCCTCCTG
AGTAGCTGGGACTGCAGGTGTGTATTACTGTACCCAGCTTATATTTTCAGTCAAATGTAGGATCTTGTCCTTATAGGCTGGCTAGATCGTATTTCATTTG
CAGGTTGGGGTTAGAATAACTATTTTAGTGATGCCAGAATGGTTTCTTAGTGATGTTAGAATGGAGATAAACTACACATATCGAAGATGAGTCTTTGGCT
GGTAAAGCAAGAAGATGACAGAGCCATGTAGGGTGATGTTAGCAACATCTCCACTAGCTGCATAGGAATGAATAAAGGAAATAAGAACCATCACTTCGTT
GTCCTTGTTGTAGGAATTTCTGTCATTGACTTACATTGTTTTGCTTTAAAATATTCTTTTATTTTCTCTCTCAAACAAAAACATTAAGTATATTTGTTGA
CCCCTGATGGGATCCCAAAGGGCCCAGAGGTTTAAAAAGTATGAAATCCCTAGCTGGTTTTGGTTGGCTTACTTATGCACCTCMCCTTCTTTAATTTTTT
GAGGTGGTGTCTTGCTCTGCCACCCAGACTGGAGTGCAATGGCACGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCCAGCAATTCTCCTGCCTCG
GCCTCCCGAGTAGCTGGTATTACAGGCACCCGCCACCATACCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGTTCRTC
TTGAACTCCTGACCTCAAGCAATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCTCCTGGCTTTCTTTAATGTAACTTAA
ATAAAATATAAGGTTTTACTTTATTTGTGCTTTTTGGAAATGTCTCCTGATTTTTAATAACAGTTTATTATGCCTTGTACCAGCTTTTTTATTAATATAT
AAGGTGCCCACTATATTATACCAATTATGCTGCTTATATAGTTATTCATATGCATCTCAAAACCTTCCTTAATGTACTTATAATGAGGTAACACCATAGC
AAAATTGCATCTTTTTCATTATCTGCATTTAATATCTATAGTTTACCAACGATGACACTGCAAGCATTGTGTCTTCTGATCGTGCCAGTCGTGGACGAAG
GGAGAGTGTGGTGAGCATGATTTGCATGCAAAGAAATAAGATGAGTTTTAAATGACAGCAATGCATGATCACATGAAGTCTGTTGGAAAGTGAAGTTTGC
ATTTGACAAAAAGAGCATTTTCCTCAAATTTAGTTATATAAATATTTTGCCTTATAAAACATGTTGAGAACACATATTCTCTGTGGGCTGTGCAAGCTTT
CATTAATAATTTGCCTTTTTACATCTCTTAGGAGTGAATCATTATTTGAAAAGTTTTTACTTTTTCTTCTTTGTTGCTGTTTTATGCACATACATGTGTG
TGCAGTTCACCAAAGACAAATTTCTTCAGCAAAATTAATGTTTCCATATTGTATAAAACTCATAACTATGGATTACAAATCATGTTACCATTAATTGCTT
TCTATATTGTTGTATTTAGATTTAACCAGTGTTTATCCACCTGTTAAGACCTGTAATCCAGTCAGGGTGGCTCATGCCTATAATCCCAGCTACTTGGGAG
ACTGAGGTGGGAGGATTGCTTGAGCCCAGGAGTTTGAGGCTGCAGTGAGCTATGATTGCATCACTGCACTCCAGTGTGGGTAGCAAAGTGAGACTGTGCC
TCTCAAAAGAAAAAAAAAAAAAGACTTGTGAACTTAAGAATTGCTAATGACAAAATTTAAAAATTCTAGTCTTAGACATTCAATTGGATAATAATTGTAG
AGGCAACAAATAGCTATGTTAGAATACAAATAATATAATTTCAGGTTATTCTTTAATGAAGCTTTAAATTTTACAGAAAACTGATGACATTTTTGTTATA
TTTAAGAAATTGATTTGGAAAATACATTGTTCCGGATGGTATGTCAGCTTAGAGCTAGAATAAAGAGCATAAGAGGCTGTAATTCCTTTAAGAAAAATAG
GCCATTTAACATGAGTTATGTGAAAGATTATAAACCCGAGTTTTCATAGAGAAGGGGAACATTAAATGTTGGAGAGATTTGTTACCATACATTCATTTAT
TTAATTAAAGCCGTTTTAGTTCCTTAGCAAAGCAACTAATGCTCACGCTCACAACTGAAGGAGAAATAATATGCCACAACACCTAAAAACACCTTGGAAC
GCAGTGGAGTGGAAAGGGCAGGGACTTTAAATAATGATGCTTGGGCTTGTATCCACTTCTACTACCTGTTAGTGTGTAAATGGCAGTGTCTTTATTTGTA
CATTGGGGATGTTAATACTATCTTTGTAGGTAGGTTTAATATATGGATTAAATGGAATACTATATAGAAAATGCCTATCAAAATTCTCAAATAGGTGCCA
ATAAATATTAATATCTATAAATGCAATCATTATTATTATTATTGTGAATAAAAATACCATTGCTTGATTTTATCAGTCCTTAGCAAAACTTCATACTTGT
AAGCCTGTTTTATCTCTGTGGATGGGCTTCTGAATTCCCTTCCTTGAGAAGTATTTTAAAGCAAGGCAAACAGTCAGCTGAAGTAAGGAATAGATGATGA
ATGAGGTTAAAAAAAAATCACTTATTTTAAAATTAAATAAATGTTTGTGGAGTACCTGTTGTATTCAAAGCCCTGTGTTAAGTGCTAGGAATACTATTTT
AAGCCAGTCAGACTAGATTTCTGACTTTATGGAATTTATATCCTCGTGAAAGAGATGGAAAATAAGCTAGTAAAGAAACAAAAAGAAAGAAATGTCAGGG
ACTGTGAAGAGAACAGATAATGTGATAGGGAACCTGGAGGGGTCTATGTGTGTGGGTTACCCTTTGGATGGGGTGATTAGARATGCTTCTCTGAGAAACT
GACCTTTGAGCTGAGACCTGAAATGTGAGGAGCCAGTTGCTTGAAGAGCTGGGAGGGGAGCGTTCTAGGCCAGTGCCAAGGCCTAAGGTGAGGGAGAACT
GGTGTGTTTGGGGAACTAAAAAGAGGCCGGTATAGTTTATTTCCTTCATTATTTTGTCTTACATTTCCTGGTCTTTGGGAATATAAAAAAAGGGGAACTG
TGTAAACTGAGAAAAGGTGCAGTAAACACCCTGCAAATAATTCTGCATTCAGCATATATATTCTTAACAGAGTTGATAGCTATAATGAATTATAAATTTT
GAGAATTATAGTAGAGGTATATACTGACCTAGAAATGCCTCTGTTCAGGGTGATAAATATCTTAAACATGAGAGATTTGCTGGTCCTCAGGAAGTAAATG
TTCTCTGTAGCATAGGACTCTAGTTAAGATGAGTAAAAAAGCTGATTGTAGAGCTGTGATTTCATTTAGGAACCCCTTTTCTTTTTTATTTTTTTGAGTA
GGTTAATTGCAGCAGTTTCCTCATTTTATTTCTTGGTACTTTATCACCCATCAAAATTTTAAAAAACTTTTCCCTAATTGGCCAATGTTCTTATTTTTTT
CTTTCTTTTTTCTTAACCTTKAAAGCATCTTGTTTTTTTTCTGACCGAAAGGTATCTGCCGCTGATTATTTCAGTCGCTCCAATCGTAGGGGAAGTGTTG
TCTCTGAGGTGGATGATATCAGTATCCCAGATTTGTCCAGCGTGAGTGTATTGCATGGGGTGGTTGGTTATGTTGTCCCAGGCTTGTGACTAACAGCTAA
TATGTTAGCTATTTTATAATAAAAGTGGGAACTTGATTTATTGTCTTAAGAAATATTTGTTTGGGCCGGGCATGGTGGCTCACACTTGTAATCCCAGCAC
TTTGAGAGACCAGAACAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGGTGAAACTCTGTCTCTATTAAAAATACAAAAAAAAT
TAGCTGGGTGTGGGGGCGCACACCTGTAATCCCAGCTACTCTGGAGGCTGAGGCAGGAATATCGCTTGAACCTAGGAGGTGGAGGTTGCAGTGAGCCGAG
ACCACACCACTGCACTGTATCCTGGGCAACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAGAATTGTTTGAACATGTTAAAATCAAACACATTT
GCTCTGTTTTGGAATGTATTTATTAATATGTTCTTTTTTAAAAAAAAACTTTTTCCCCCTCTGTGGAAAAATCTCCGCATAGAACCCATCAGCATCTGCA
ACAATTATCAATATTTTGCCAATTTTGTTTCATTGATTTCTTCCCCCTTCCCTCCTTTTTTTCCCTGAGTTATTCTAAAGCAAATCCCATGTCATGTCAT
TTCCCAATAAATAGTTCAATATGTATCTGTAACTGAACATTTTTTCAGATCTCTTATATCATTATCATCACTAATGAAATAAGTAATTCCTTAGTATCAT
CTAATACCTAGCCCTTATTCAGACATTCCTTATTGGTTAAAAAAAGTATTTTCCTTTTTGATTTTAGTGAATCTATAAAGTGATAGGTAGACTTAGAAAG
TTGAATAATGAAATATAGCACTTAGTAAAGTGTCACTAATTTGTACTAACCAGGAACAATCTGAATATATTTTAAATATTTGGATTATGGCATTGTTCTG
AAGAAGTGTGCCTATCCATTGCTCCCACATTCATCAGGAACTGAATTTAGGAAAGGATTGTCCTTGGGGCATTTGTCTTAATGAATGAACTCCAGCCAAC
AACTTAGGATCTACCTGCTCATCTCAAAATAACAGCCTGATTATCTCTCTGACGCTTCTCCTCTCTTGCTGGCATTAGTGTTGTTTTGCCCATGGACCAA
GGCTATACTGATTGTACTGATTGTCAAGCACTTTGGAGGGGGTGAGAGGTGGCATTTTTCTTTCTTTCTTCTTCTTCTTCTTTTTTTTTTTTTTTTCTTG
GTGACAGGGTTGAGACCTATCGTCCAGGTCGGAGTGCAGCAGTGCGATCACAGCTCACTGCAACTTCAACCTCCTGGGCTCAAGTGATCCTCCCACCTCA
ACCTCCCAAGTAGCTGGGACTACAAGCGTGTGTCATCACGCCCAGCTAATTTTTGTATTTTTTGTAGAGCTAGGGTTTTGCTGTCTTGTCCAGGCTGGTC
TCGAATTCCTGACCTCAATCAATCTACCTGCCTCAGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCATCACTTCTGGCCAACATTTCTTTCTTTTTT
TTTTTTTTGAGACGGAGTCTCACTCTGTCACCTAGGCTGGCATGCAGTGGCACGATCTTGGCTTACTGCAACCCCCACCCTCCGAGTTCAAGTGATTCTC
CTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGTCTGCCACCACGCCTGGCTAATTTTTTTTATTTTTAGTAGAGACGGGGTTTCACCATCTTGGCC
AGGTTGGTCTTGAACTCCTGACCTCATGGTCCACCCACCTCAGCCTCCCAAAGTGCTGAGATTACATACATGAGCCACCGCGCCCAGCCAACATTTCTTA
ATAGAAACGTTAGACAGTAGTTTTAAATGAAGAAATAATTATTTATAATTAGCATTTCACTGATCGTATTTAAATAACTATTTCTGAACTGTTTTAATTC
TAGAAGATAATTTTATGTGTGGTTCTTAAGCATTCCAGATCATTGGTTCTCAAATCTGGCTATGCAACAGTATCATCTTGGTGTGGGTCTAATCAATAAC
TCTCTCTGCATACAAAGTTAGAAGACTGGTTTCCAAGTCATTCCCCTGAAATATTGCCCTTTATATTAAATTGCCTAGCAATCCCCGTTTTTCCCCCATA
AGTATGGACAATTAAACTTACTGTTTACATCTGTTCTCTTAAAAACTGAATTCTGTCAGCCTCTTAATTTATAATATCTGAATTAATAGTTATGTCTTCC
TTATATTTATTTTGTGATGATTTACTTTAGTACTTACATATAAGTGAAAGTGCTGACAGTTTAAAAAATCTCCCCCTGCCCCTACTAGTTAACTGTAACT
CTTTAACATAAGGAAAAAGTTCTCTAGAACAGGGATTTACAAATCTGGCTAACCCCTGTTATTTTATAGTCTGCAAGCTACTGGTTTATTTATATGTATT
TGTGTATACACACACAGACACACACATGTGTATACATATATGTATGTATATGTATATATACATACACATGTATGTATGTATGTATACATGTATGTATGTA
TGTGTATATATATACGCATACATACATATATTTTTTTAAAGAGACAGGGTCTCGCTCTGTCTCGCAGGCTGGAGTGCTGTGGAGCCATCATAGCTCACTG
CAGCCTCAAACTCTTGGGCTCAACTGATCTTCCTGCCTCAGTCTCTCAAAGCGCTGGGATTACAGGTGATTTGTGTATTTTTAAATGGTTACATATCAGT
ACCTTATCCTTAATTTTGCCTCCTGGAAAAGCCTACAGTATTTTCTGGGCCTCTCTCTGGAGCAAATAACTTTCTCTAGTAGTATTTCTTTTTAAGGGTA
TGCTGTAGTCCAACTCATCTTGTAGAGGAATACAAAGGGGACTTGATGTTGATAGACCTCCCTCCCCTCCCACTTTCAAAAAACGGTGACCTGGAAATAT
TTCAACATGAAATATTATGATTTTTAAATGCTGGCAACGAATTCAGAATTTTAAAAGACATTTTCTGGTTACCTCGTTGTGTACTAAATATGTTTGTAGG
CTAATAGTTTATAACTTCTGAGCTAGGAGGTGCTGAGAAAGGGTGCCAGGTCATGTTTCTGCAAGCCTATATAATATTTTTGGGGGTTCTAGCCTCTTAT
TTTCTTCTACATTGGCTTTATTTCTGTTTTGTAAGTCAGGCTACAATAAAGCAAACAAATGTAAATGTTTTTTAAGCAAAACTGAAATTTTGCTGATTGT
TAATAATTAAACCCATTTCTAAATGGAATCCTTAGCCAGTTTTGCTTTAGGAAATTGTTAAAATTGATTGATGTCTTCCCTTCTGTGGTTGTGGAAATCA
GATATTTTTTCAAACAATTTTTGAGTAGCATTATCAAGTTAGTATATATATAAATTAGAAATTAACAAAAGATCAAGATCCAATGACTGCATTGAAGAAA
CTACACTGTAAATACTTTATTAAACTACAGTTTTACAGCTTAATATATTAAATATGATTAAATTTTATTCTGTTTAAAAAGCTTTTTTCTGGATCTGGCA
GACTCTGGATCATCATTATGAACATTAGCTTGTTATTGCATTGCAGCCATGTAGAACTCTTGGCTGTTGGATCCTATTGGGCTTTTAGAATACCAAGTTT
CAGCTAGGTTTTTGTCTAAATGGAAGATAGCACACAAGATAGTACAAGTCTAAGAAGTGAGAACTTGCCAAGTTAGTGTAGCCAAAATAAGAGAACTATG
GCATGGTTGCTTTGGGTAATTTTTGCTGGCTTGACAATCTCCGAGGTTTGGTGCATGATCAGTTTGGGTTGCGACAATTGGGATCTCTCAGAAGATGGTG
AAAGCAATAGAGTCAACATTGTGATGGATTAGTTCAGTGATGCAACCTCTGAAATATAAGATTATTCCATGGACAGTCTATTAAAAACTGGATGATTTTG
GAGGTCATTTTTGTGAGAAGTGGGTATGAGGAAGGATTTCAAATAAGCTTAGAAGACTTTTAATTTTGAATGCTGTGTGCTTTTCTCTTTAACACATTAG
CAGAAAAGAGTTGGAAAATACTCAGGAAGATAAGGCAGTTTATTCAAATATAATATTTCTTTCATCTTGAAGAATAATACATTAAATATTGGGCAATGCA
GTATAGATGTGTAAAAGGATTATTCCTTTTTATGGCAATAATTGGCAATATAGTATTTAAAAACAAATTTCAGGCCAGGCATGGTGGCTCATGCCTGTAA
TCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGTTGAAACCCCATCTCTTCTAAAAATAC
AAAAAAAAATTAGCCGGGCGTGATGGCGGGTGCCTGTAATCCCAGTTACTTAGGAGGCTGAGGCAAGGAGACTAGCTTGAACCTGGGAGGCAGAGGGTGC
AGTGAGCCAAGATCGCACCATTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAAAAGAAAAAAAAGAAAAAAAATTAAAGTTAAAAAAA
GCAGCATGGCACATGTATACATATGTAACAAACCTGCACGTTGTACACATGTACCCTAGAACTTAAAGTATAGTAAAAAAAAAAACATTTCAATCGCTGT
CATTACCTGCTTTGAAACATTTATATGTTGTTTTAAAAATTAAAATGAACTAAAATTAGTTTCTTTTTCAGAGTTTTTACAGCAAGAAGTAACAAAGAGT
TAAATGTCTAAAAATAGTGTTTATATTACTGATGTAATACTATCATCATAATAAAGAATATTTATAAACATAAGTGTGGGTAATAAAAAGAACACTAAAA
ACTTTCAGATATGTGGAAGTTAGGGTGAAGTGTTCTGAGTAGAGCCAGAAATGATGTTTCATGTTTTAATAATTAACTGAGAAGGTTTTCAGATCTCTTC
TCTAGATTGGGTCTAGAAGGTTTGTGTAGGAGTTGGAGTTATTTTCATTTAGTTACATCCCTATGTGCCTTTTTTCTCCTGGTGATAATTGGAATAACAT
ATATATTCAGGTAAACAATATGAACACTGAATTGAAAATTTACAAAACTAAGGGTTGGATTCAGCTCTGCAACCTTCAGCAAAATCTGTCACCTCTGAAT
TTCTTTTTCCTTAGCTATAAAACTCAGGGTTTGGACTAGACTTTTAAGGTACCTCCCTTCTTGAAATACTGTCTGAAACAACCTTAAGGCCTATCTACAG
AAGATAGGTTAATTTAATTGTGGCAAGTTGAGATAACAGGCTACTATGAAGCTGTTTAAAATAAATGAGGGAAGTCTATTAGTATAGATGGGGTATGATT
TATTCATTCATCCAACAAATTTTGAGCCCTTCTCTATGCCAGACACTATTCTTGATACTAGGAGTACAGAAAAGAACATACTGATATAGAGCTTACATTA
TAGAAAGAGAGCAGACAATAAATAAATGGATAAATACCGTAGTGTCAGGGAGTGATAAATGCTATGAAGAAAGATGAAGTAATTTCTCAAATCTCTGAGA
CTTGGTAAGGGGAAAAAGAAGATGTAGAACATATATGGGACACTTACTAGAATTTTTTTAAAGACTTTGTGGTTGGTTGCTATTAGAGACTGGTGGTCAG
GGTATGGCATGGTAGGGAGAGAGCCCTACTCATACTCTTTTGTGCTGTTTGATTTTTTTTTTTTTTTTGGTCATGTGCATGTATTACTGAGAAAACAAAA
AATCCTTGATGTGGGGGAAAATATTTTGGTGACATATTTAACATGCTTTAATCTAATCTGAACTTTTTTGGCTGAGTGTACTAGTCTTTATCTGTGTGTC
CTGTGTCCTAATAATGTTTAGAAATAAAAGTTTTTCGCTTTTGGTTTTATCAGACTTTTCTTTTTGATATGTACAAGCTTTTTTTGTATTAACATTTGCA
GTGCTAAAACTTTATATGTAGCCTTCTTTAATGTGTTTTAAATACCTTAAACAGAAAATTTACCCAAAAGTTCTAAACTTTTGAGTAAACATAGATTGCT
TACTCAGTGTCTCCCTTAGGATAAAAATTAAAGTTGCTGACATTTTATCTTATGTTAAACTGGAATTTTAATTTCATTTTTAATATGTTTATTTTTAGGC
TTCAAACATCATTGAACTTGGAAAACTCAAGATCACTTTTTTCCTCCCAAAAAAAGTCAACTTGCTAAGCATCTTTACTGATTTTTATCTTTGTTCTTTT
CTAGTTGGATGAAAAATCTGACAAACAGTATGCTGAAAATTATACAAGAGTGAGTATGTAAATTCCTAAGGGAAATTCTCAAGGTCARTTAAACTTGCTA
TCTGTAACTTGTTCATTATTTATTTTACAACAATTGGTCTGATGTAGCTGCTCTTCCTCCCTTCATCTATTTCCTGTCCTTGACCCTCCAAAATTCCTTC
GGAGTTAAATCATGTGAGGCCCTGGGAAGAGAAGAGGCACTGCATTTTATTTCCTTGAATGTCACCTCTTTAGCTTTTGGCTGCTCTTTTGATTTTCATT
CCTCTAGAAATTGATCCTGAGAAGAAGCCAGTAAACACTGAAAATGAAGTTTCTTTAGGAATGGTGGTGACAAACTCTGAGATATTTTTTCCTTTTATAT
ATATAAATTGTTTCTTGAAGTAAAATAACTCCTTTCTAGAATTTGCTTTGTGTTAAAGTCTCTTTCTTCTGAAAGTATTATTAGAAAGTCAGGGAGATGA
TTTATCAAGATTAATTTTATGCTATACCCAAGAAAGATAAATTAACTCTGTCCAGTAGAAATGTAATGCGAGCCACAAATGCGAACTTATATGTAAGTTT
AAATTTTCTGGTAGCCACATTTAAAAAGTAAAAAGCAGGTAAAATTAATTTAGGTGATATATTTTATTTAATCCAAATATCCAAACTATTTCAACATATA
ACCAATATAAAATTACTAGGCCAGACTAGGTAGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCAAGGCAGGTGGATCACTTGAGGTCAGGAGTTCGA
GACCAGTCTGACCAACACGGTAAAACCCTGTCTCTGCTAAAAATGCAAAAAAAATATTAGCCAGTCATGGTTTTGCGTGCCTGTTGTCCCAGCTACTCCT
CAGTCTGGGAGGCTGAGGCATTAAAATTGCCTGAACCCAGGAGGTAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGCAACAGCGA
GACTCCACCTCAAAAAAAATAATAAAAATAATAAATATAAAATTATTAATGAGATATATTTCATTCTTTTTTCTACACTAAGCCTTCAAAATCTGGTATG
TATCCTATATGCAACTCTCAATTTGGACTAACCACATTTCAAGTGCTCAGTAGCTGCATGTGGCTAATCGCAAGTATATTGGACAGCACAGATTCATGCA
GTTTATTAATCAATAGCATAATCTCACGTTTAAATGAATTTTGGGAAGAACAGTCTACATTCATAGTGATATCCAGTGTTGCTACTCTCTGCTGCAAATA
GTATCTTCACCTTTATCAACTCAACAGAGTATTAGAGAAAGAAGAGATTGATAAGCAGTTCAGAAATTAAAAAGGGGAAGTGCTGATTAGCATATCAGTT
ATAAAATTCTAAAACTGCTTTAAGTTAATCTGATGTGCTCACTTCAGTATTGTTTACAGGATAGCAAAGATAAACTTAGAAAATAACCCTCATAAAAACG
ATTTTCTTTTTGGTTATTACGAATTATAGATTTTGATAAGGTATTTGTGTCATGAAATTTTGCTTAGTATGCTTGGGCCCTTCTCTGTATACCTGGATAC
CTGCAAAGCCAATCTAAATTGACCATTGATTACACATGGTAACTTCTTCATCTGAAACCCACATCTTCCCCCAACCACCCTGCCCTGTTTTYAGTTTCCA
CAGCAAACATATTTTTAAAGAAATGAGACTTAGAAGGGTCATATTTCTCTTTCTAGCCTTCATCTCGAAATTCTGCCTCAGCAACAACCCCTCTAAGTGG
AAACTCATCCAGACGAGGAAGTGGGGACACCAGCAGCTTAATAGATCCAGACACTTCATTAAGTGAATTGCGGGTAAACTGAAGTTTTTGGTTTTCTTTT
TAAAAGCAGTTTTTTGACTTGGTAATATACTGGAACTTTTAACCTTTAATGTGACTTAGTAGAAAGAAGGAATATGATTTCTTTTTAAAAAATAAGTACT
GTACAAAAGTGTGACTCAAGTGTTTCAGAGCTTGAAAGGAAGGAGATTAGATAGTTCTTTTTTCTGTCCTCTTTCCTGTAAATTTAATGGTGTTGGAATT
TCTGCTAATTTACAAATGCCAAAAAAAACCCACTTTGTAATGTATGTAAAAGTAATTCTCTCAGAAACAACTGGCCATGTTTTAAATGGAAAATATGTGA
GTGTACAAAGAACTAGATTGTGGGAATTATTAGTCTTTTGAGCCTTGATGGTATTCAGCTGCTTGAATATAGTTATCTCTCAGTTTTTCATAGTAATAGA
AGTGTAATAATATTTGGGTAACAGAAATACCTGAGATAATGAAAAGCTTATTTGACTCATTAAGTCTCCATCCTTATTAACCCCTTTACTTGGAAAAAGA
GAACTTTAAAAAATATATATTTTATTTGCTGAACCTGCTGTTTGTGAGGCAGGGGATAGTGAGAGAAATTGCATACATTTGTTCATTCAAGATTTATTGA
GCACTTGGCCTTGGAGATTTAAGAGGCAAAATATGTTCTGGCCTTCAGGATTTCCCTTTTTCATAGGGAAGACAAACTGATACAAACCAATAAAACCAGG
TGGTGTTATACAATGGTAGTAGCAAGAATGGGGCTGTTAAGGTAATTCAAGAAAGCATCATTTAAATTGGACTAGGAGAAGAGGTAACAAAAGGCTTTTC
AGAAAAGACAAACTCTGAGCTAAAGTTTGAAGGAAAAATAAAAATTAACCAAGGAAAGTAATTGAAGGGGGAAGGCTTCCTCAAAGAGATGCATTCAGAC
AACCCAGAAAGCTACCTGTATAGCAAAGTTGCCAGAGGGTGGCATGAGAAGTGAAGAATAGTAGCGTGTAAGAGAGAAGGCTGGAAAAGTAGTGAGGGGC
CAAATCACAAAGCATCTTGTATGCTAGCCTGAAAGGAATTCAGTTTTACCCTGACAACTGTGGGATATTAAATAGGAGAGCAATACTATCTGCTTTGCAT
TCTTAAAAAATAACTTTGATCACAGTCAGAGGAAGCATTGCAGGCCAGAAGTTCAGTAACCCTGTGGTTCAACAGTGAGGATGAGGTGAGCAAGTCAAAA
CTGCAAGGGGAGAAAATATGAGAAACTTGCTCTGGAGTGAATACGAGAGACTGGGAATTGGTTGGGCAATTGGTAGGGAGAGAGAAATTTAAGAAAAGGT
TTTTAGCTTTCTTTTAAAGGTGAGAGTGATTATTATTTTCTTTGGTTGGGTTGAACCAGTAGAGAGAGGAGGAAGGTTGAGGAAGGAGAGAGGGGTAACT
GACAGATCAAAATACCTGCGTGGGTGAGAGGAGAGTCCAGGACTCAGATGGATGAGCTTGCCTGGACTGGAGGTCCCCTCTTCACTGGAGGGGAGGTAGA
GGACAGGCGGTGACTAAGATTGTAGGTAGGGGCTAGTCTGAGTGCAGTAATGTTTACAAGTAATTGATCACAAGCGGTTACAGATTTATTTGTTCCTTCT
CCACCTTCATTGCTTCACTTGACTAGCCTTAAAAAAAAATTTGTCACCCATGTAATCCCAGGACTTTGGGAGGCCAAGGCAGGTGGATCACGAGGTCAGG
AGTTTGAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGTAGCCACCTGTAATCACAGCTACT
TGGGRGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCTCTGCACTCCAGCCTGGGCAACAGTGCGAGAA
TCCATCTCAAAAAAAAAAATAAATTGTCGGTAGGGTTGGAAAAGGAGTCTTACTTGTGAAAATGGGTTGGGGGGTTAGGGGAGGATAGAGAGGCTTGCAA
CAGCGGCAGAGAAGGAGAGCACCTAGGCCAGCATGGCCATTGGTTTGAAGGTGACAGTATTAATTGAGCTCTTACCAGCTCTTACTATGTACCAGACATA
AATGCCAGGGTGGAAAGTTGAATAAGATAAACTCTTGCCTTTAGCTACTGCATTCTAATGGGACAAAAGGATATGAGAGGACAAGGCCTTCCAGCCTTAG
ACTTAGCTTTCTTTTGTCATACTACTTGTTGCTTGTTTTTTCTTCCTTGAGAGAATGACCTTCTTGAAGGAAGTGTTATTTTTGTATCCTACCATCTGCC
TCCTAAATAGGTCCTTCATAAATGTGTATTGAATGAATCGATAAGTAAAAGACAGTCAAACCTACTGGAGAGGCAATGAAGGAGGCAGGGAAAATATAAT
ACYAAAAATGTGTATAATCAGCCTTTAATAATTGATCCTGCTTGTAATTGCAGAATTGTATTTAGGGCCCTGTGCAGTTATTTCGGACATAAATCGAGCA
TTCAGAATAGACCTTATATAACAAGGTCAGACACAGGGAAACAGTATTTTCCATTTAAAATTTGACCTGTTTCACTTTTCTTATAAGGATTATAGTAACA
TTTGGAGCAAGTGCTTTTCTCATCATTTAAATGGTATCCTCAGGATAGAATATCTCATTTGACATTCTGTTCAAAATGTTTAACTTCCCTCCCTTTACTC
CCTTTCTCTCAAGTTAATTGTGGCCAGTAACCAAGTCATTGAAAGAAAACTTTGTTCATATTCATTTATTATATTTTTAAAAAACTTTTGCATGAATCAT
TAAAATTTGCCACCTCTTATTAATTTACTGTATATTTTACTAGTTCTAGGTGAAGCATTGTGCTAAAAAAATTTTAAGTGATTTATAAAATATTAAAAGT
TGTATGATTTTAAATATTATAATTTATATAGCTTTTTCCTCCATATATAGCCCTGTCCCCATTTGCTACACTGTTATTAACAGAATTTAATGCCAAGAAA
ATATTTAACATTAGATTGATTACTCTAGACCTTCCCCCAGTCCCACTATCCCCTGACCTATTTGCCCTTTTCAGTGGTTGGGAGTGGGAGTTATGTTTTT
GTACTTTGATTTCTCTGCTTTTAGTCTGGAAYATACAAAAGTGAGTCACATTTCATCTGAATCCTTTGCGATTTAAGATACGTTTGTGCATGGTTTTATG
CAATGGTTCATTCCTATGTCCTGCAGGATATCTATGACCTTAAGGACCAGATACAGGATGTAGAAGGGAGATACATGCAGGGGCTTAAAGAACTAAAGGT
ATCAGGGCCCATTCTGCAGCCCAAGCATGCTCTGTATGCAGAAGTGTTGGCAATGGTGGCTTTGCAAGTTCTGTTAACCAACTGCACATAGCTTTACTAA
CAGTGTTTGTCTTTCAAGCATGTGCTTAACCTGCAGTGCATAGGAATGGTGAACTTTCAATCTCTGCTTATGTTTAAATGTGTAGTACAGTTTTTGAATA
TTCCGCAGAAGATATCATTTACAGTTTTTTTTTTTTCTTTTTTATTTTTCTTGTACAGACAGGATCTTACTGTGTTGCCCAGGCTGGTCTCAAATTCCTG
GGCTCAAGCCATCCTCCTGCCTTGGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACCTCGCCCAGCCTCCTTTACAGTTTTAAAACCTTGTAAAAT
ACATGCATATCCGTGGTGTCTTAGCCATACAAAATTAAATTGGTCAAACACCTAAAAAAATACTAAGAATATTTTTATTGAGAATTAGACCTCAAAATTT
CTTCCACGCTAAATGAAAAAGTGTTGCATATTTCTGTTACCAAACTCAGTCAGTATTAAATGTGAGAGGAAGTAGCAACTGAGACACCATTATTATAAAT
ATCCCCCCTGGAGGAAGGAACATGAAGGCATGAGGCCTATATTTTCTTTTGGCTTGGATTTTTTTAACCTATAGGTCAAAAAAGATGACACAGATCTAGT
GCCTTAAAGAATTTGGAGGTAAATGTAAATGGTCTTTATCTTTTCCCAGAAAGGATCACTGACATTTTTCAATATAAATGTGTGAGGCAGACAGTTTGGT
TGTACATAGCATTTGGTTATCATGCTCTTCTTTTCCTCACATGTCATTCTGAAGTTCAAGCCTCCTGTTATGAAGAAACCAGAAGTTTATTTGAACACAT
GTATGTCCTGATTTGAAATCAAAATACACACTACAGGGCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATGACC
TGAGGTCAGGAGTTTGAGACCAGCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTCACCAGGCATGGTGGCAGGCGCCTGTAAT
CCAAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGAAGGTGGAGGTTGCAGTGAGCTGAGATGGTGCCATTTCACTCCAGCCTGGGTGAC
GGAGCGAGACTCTGTCTCAAAACAAACAAACAAACAAACAAACAAAAAAAGTAAAATACACACTACACCTCTAAAAAAGCAAAAAGCAAGACATTTAGAA
GGGTGACTCAGGATATATCCAAAGGACAAAGCATAGATTTCATGGGCAAGGGTTTTGTCATCTTCCCTGGCATGATTTGAAGTAGCGCCACTATCAGCCA
AACTCTTCATGCAAGTGATATGGTCCATGAGAAACAGAGTAAGACTCAGGACCCAAAAAGGTGAGAAGTCCAATGGGAAGTGCCCATGAGGGAAGCCTGC
AAGTTGCTGATAGGGCAGCATGAGTTTGTCAGTAAATATCAGAAGAATTACRGAAATAGTTGATGTTCTCATTTAATCTTACTCCTTTAATCTTCAGGAT
TTAATCTCTCTTTTAAGGTTTTAGAGATACGACTTTTGAAATTATCTTGGATCAAACAAATCGGTACATTAAATAAATATATTAAAGTCACATGTGTAAC
AGTGTATCAGGAAAGCAATCATGTGATTCAGGGGCATTCTTACTGGCATTTTATTTAAAACGTTTTTTCCTTTCATGTTAGATCTACCATTTATTGCATT
CTTTGAAGAATACAAAAGAACAGATTAGATTTGAGATTTGAACAGATGAGATCCCTTGTCCTAATTCATGCCAGAATATAATTGAACTTGACTTCAGATT
ACGTTTATCCTTGACACTTGAAGTGGAAAAAAACCCATAAAAATAAAGAAAAGATTGTCTGATTGGTGACCAAGCATGGTGGTATGATGTATCCTATTGA
AAAAGGATGTTGGSTCATTGCTTGTGACATTACTGTTATTATGTTTGCCTTTGGGATGCTCTCAACCACTCTCCCCTCCATCCTTTTATCAGGAAAGTTT
ATTATTACTAATACAGCATTTGCCCATGCTGTACTAGTATATATGTGTATATATGTGTATATATATTCATGTGTACTATTACCCAGAAAATGCAGTAAAA
TATTAATTGTAAAATTTAGGTGATCTATTTCATGAAAGATTAACGATTTTGTAAGTCAAAGGACTAAACCCATTAACCCATTTTAAAAACTATTAAAATT
AATACTTTATTAAATTTAAGTACAGAGTTATAGCAATAAATAACAATAGTAAATCTATAGTGACTGAAAACTTTCCAAGATGTATTGAAAAAAGGCAAGC
TATAGAACAAAATGTAGAGTATATAATTTGTATTAAAAATATATATGAAGTCAAGGGTATATATTTTATACTGTAAACAAATAGGAAATGGCCTGAAAGA
TAATCTACCAAACCAATAGCACTTGTGCCTCTGGAGGGCGCGTGGTCAAGGAAGACTTTTGCTTTATCTGTATTATTTATTTTTACCTCCAATGAAAATC
TTATGTTTTACTTAGGTACTTTTTTTAAAATTAAAATTTTATTTTTTTATTTAAAATTTTTTTTTAGAGACAAGGTCTCTTGCTCTGTCACTCAAGCTGG
AGTGTAGTGACACAATCGTAGCTCATTGCCACCTTGAACTCCTGGACTCAAGCGATCCTAAGCCTGCTGGGACTATAGGGGTGCACCACCATGCCTGGCT
GATGTTTTAATTTTTTATAGATACGGAGTCTTGCTATGCTGCCCAGGATGGTCTTGAACTCCTGGGCTCAAGCAGTTCTCCCGCTTGGCCTCTCAAAGCA
TTGGGATGACAGACATTAGCCACCATGCTTGACCCCTTCGCTTTTTTTTTTTTTTAAATGCAGTCTCACCATGTTGCTCAGGCTCATCTACAACTCCTGG
GCTCAAGCAATCCTCCCACCTCTGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCTGGCCAATGTTCTTTTTAAATATTGCCCATGCCTT
TAATTCTTAGAAGGACAGTAAGAATAAGGAGAGAAATAGCTTTAACTTCAGTAATCCCAGAAAGAACTGTCAAGAGTTAATAGACTGTAGGGGTAAGTCT
TGCCATCAGCTGTAAATTGACTGATGTATGAAGTGACTGAGAATAAAACAATGAAGGTATCATGTCCCTGAATTCAGATAGCTCACAATCTGGTTGACAA
TTTTGGTCATAGGGTTGTGAAGGCTTGTTCTAGAAGTATATGGGCATAGGTAATCAATGCTTAAACATTAACACAGTGGCTTCAGCACTTTGGTGTGTGT
CATAATCACCTGGAGCTTTTAATAAATACAGATTGCTAGACTTTACCCTCAGATTTTCTATTCATTGGGTCTGGGATGGCATTGGAAATTTGCATTTTTA
CCCAGTTCCCAGGAGATGCTGTTGCTGCTGATCTGGAACCCACACTTTGAAAATCGGTGACTTAGAAGCATTCAAGGCTGGGCACGGTGGCTTACGCCTA
TAATCACAGCACTATGGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGGTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTTTCTACTAAAA
ATACAAAAACTAGCCAGGCATGGTGGCGGGAGCCTATAATCCCAACTTCTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCTGAGGTTGCA
GTGAGCTGAGATTGTGCCATTGCACTCCAGGTTGGGTGACACAGTGAGACTCCGTCTCAAAAAAAAAAAAAAGAAGCATTTAAGTAAAACCAATTCCAAA
TGGGTATCACTATGTGAGTGAGATTAAGATCACTAAAATACCTGACACTTCTGTTTAAAACAGTCTTTTGTGGTCTAGTGTTTAAAGGAAGATTACATTG
GATACATTTATGTCTTATTTATTGTATTATATATTTTGTGCATGCATCTAGTACTTGAGCTATCTTAAATTCTGGTGTTCATGTGGTTTTATATGGCACT
GAGTTGTGATGACTTTTTTCCTGCTATTAGCCTCTCAGATGGATGAGAATTATTTAAAGTCTGCAGTATAGTAAGATACATTTAGATACATTTAGAGCAC
TGTATAATTGACTTTGCTTATATTCTTTGTTTTGGTTAAATTTGTTTCTAATCGTAGTTTAAATCTTCCCTGACAACTTAATTCTGGTTTATGAAGCATT
ATTAAAAGTGTGTGTGGCCAGGCGTGGTGACTCATACCTTCAATCCAGTTTTGGAGGCCAAGGTGGGTGGATCACTTGAGCCCAGGAGTTTGAGATCAAC
CCGGGCAACATGGTGAAACCTTGTCTCTACAAAAAATTAGCCAGGTGTGGTAGTACGTGCCTGTGGTCCCAGTTACTCGGGAGGCTGACATGGGAGGATC
ACCTGAGTCTGGGGAGGTCGAAGCTGCAGTTAGCTGAGATTGTGCCACAGTGGTCTAGCCTGGGTGACAGAGTGAGACCCTGTCTCCAAGAAAAAAAAAA
AAAAGTGTGTGTATGTATGTATGTATTTTTATTTAGATATAATTCACATTCCATAAGAATTTACCCATTTAAAATATATAATTCAGTAGTTTTTAGCATA
CTCACAGAGTTGTGCAACTAGCACCACAACCCATCTTTAGAACATTTTCATCAGCCAGAAAAGAAACCCCAATCACTAACTTTCTGTCTCTGTAGATTCG
CCTATTCTGGAGATTTTATACAAATGGAATCATACAATATGTGGTCTTTTGTGATTGGCTTTCATTTAGCATAATATATTCAATATTCACCCATGTCATG
TTATCTGTCAGTCTTTTTTTAATGGCTAGATAGTATTCTACTGTATGGATTTGCTGCATTTTGTTAATCCATTTGTCAGTTGATAGGCATTTGGGTTGTT
TATACTTTTCTGTCTATTATGAATAATGCTGCTGTGAACATTTGTGTGCAAGTTTTTGTGTAGACATATCTTTTCAATTCTCTTTGGTAGATTGCTAGGA
ATAGAATTGCTGGCTCATGTGGTAACACTATATTTAACATTTTGAGGAATTGTCAAACTGTTTTCCAAAGTAGCTGCACCATTTTATGTTCCTACCAGCA
ATATATGGGAAATGTAGTTTCTCCACATCCTTACTAACACTTGTCTTCTGTATTTTTGATTATAGATTATAGCCATCCTAGTGAGTGTGGTGGTATCTTA
TTGTGGTTTCGATGTGCATTTTCCTAATGACTAATGATGTTGAGCGTGTTTTCATGTGCTTATTTGCCATTTGCATATCCTCTTTGGAGAAATATCCAGG
TCCTTGCCCATTTTTAAATTGATTTGTGTGTCCTTTATTGTTGAGTTGTAAGAGTTGTTTATATATTATTCTGCATATAAGTCCCTTATCAGATATAAGA
TTTATAAATATTTTCTCCCATTCTGTGGGTTGTCTTTTTACTTTCTTGATCATATCATTTGCAGCATAAAGGTTTTACATTTGGGCCAGGCGCAGTGGCT
CATACCTGTAATCCCAGCACTTTGGGAGGCGGAGGTGGGCAGATCATGAGGTCAGGAGTTCGAGACCAGTCTGGCCAACATAGTGAAACCCCATCTCTAC
TAAAAAATACAAAAAATTAGCCGGGAGTGGTGATGTGTGCCTGTAATTCCAGCTACGCGGGAGGCTGAGGCAGGAGAATCGCGTGAACCCGGGAGGTGGA
GGTTGCAGTGAGCCAAGATCGCGCCATTGCACTCCAGCCCGGGCAATAATGTGAGACTCCATCTCGAAAAAAAAAAAAAGTTTTATATTTGAGTGAAGTC
TTTTTTTTTGGTTTATAATGCTTTTTGTTTGTTTGTTTGTTTTTGAGACATGGTCTCACTCTGTTACCCAGGCTGGGGTACAGTGGCATGATCTTGGCTC
ACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCACCACCATGCCCGGCTAATTTTTGT
ATTTTTGGTACAAGAGATAGGGTTTTAGGGTTTTACCATGTTGGTCAAGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAA
GTACCAGGATTACAGGCATGAGGCACCGCACCCGGCTGGTTTATAGTGCTTTTGGTGTATCTGAAAAACCATTGCCTATCCCAACTTCATGAAGATTTGT
CCATATTTTCTTTGAAGCGTTTTATTGTTTTAGCTCTTACATTTACATCTATGGCTTATGCTGAGTTAATTTTTGTGTATGGTGTGAGGTGGGAGTCCAA
CTTCATTCTTTTGTTTGTGGGTATCCACTTGTCCCAATACCATTTATTCTTTTCCCATTGAGTTACATGGACCCCTTTGTCCAAATTAACTGATTGTAAA
TGTAAGTTCTGGGCTGTTAGTTCCATTTCATTGATAAACATTTGTGCTAGTATTTTTTAAATTTATTTCCATAAATGATTACTTTTCCTGTGTGAAACAT
TTTTTTTAGCTTTAAAAAAGTCATTAGGCAGTAGTAATTACCAAAGTAGATATAGTTACACACAAAAAAACATGTAAGCTATTTTAGGCAGAAAATTTTG
AGATATGTAACGTTCCAGGCATTTTGTGGTACCTTTTTTTTTTACTTCAAAACTGTGACACTAGATCAGACTCTCTTATTTTGTTTTGTTTTATTGATAG
AGATAGGGTCTCGCTCTGTCACCCAGGCTGGAGTGCGGTGGCACAATCTCTGCTTACTGTAGCCTTGACCTCCTGGGCTCAATCGGTCCTCCCACCTAGC
ATCCCAAGTAGCTGGGACTACAGGTGTGCGCCACTGTGTCTGGCTAATTTTTGTACTTTTTTTTTTACAGAGACAGGTTTTTGTCATGTTGCCCAGGCTT
GTCTTGAGCTCCTGGGCTCAAGCAGTCTACCCCCTTGGCCTCCCAAAGTGCTGGGATTACAGAGATGAGCCACTGTGCCTGGCCAAGCTCTTTTTTTAAT
ATTCATTTTTGTGTTGCTTATTTAAACATGATTGAAATTTGGATAATTGCTAGAAAAAATATTTACCTTTATGTTGGCATTTTTATGCAGAACAGGAAAG
TACTAAAAACAACTGTCTAGAAAGTGGCAAAATTCAAATGCGTATGAAGTTCACCTGTGTAAAGAGAGGCTGTATTCTGTGGTATCACTGYGTTCTGAAC
ACCAGTCTGTTATTAAAATTATAAGAGTAAAATTTCTGAAAATATTGATGATTCTTCATTTTATGACCCTTACAGATATATGTTGTTGCAATTCTTTTCA
TCTTTCAGAGGCTATGTTGCTGCTTAATTTTGTTTTCTTGGGGAACAGAGAGCACATATTGTTCTTATAAAGGCATTATCGGCTTATTATTGTCTTCCTG
TTTCACATGCATGTTACTAAACAAGGAGTTCCCCAAACCGCTTGTATTTTATGAAAATGCATCTTTATGTGTTTGTGGCAGTGCTATAATTTCCTGTTAT
ATTGCATGTATTCAATTAACATTTTAGATATCAGACTGATGACTTAACTCTCATTTARGAATCTTTGTCTGAAGTGGAAGAAAAATACAAGAAAGCCATG
GTTTCCAATGCACAGTTAGACAATGAGAAGAACAATTTGATCTACCAAGTAGACACACTCAAGGATGTTATTGAAGAGCAGGARGAACAGATGGCAGAAT
TTTATAGAGAAAATGAAGAAAAATCAAAGGTAATGCTTATCTTGTATTTTCTCTTGGGGCAGAAAATAAAAGCCTGCCACTTACAAAGTGATGGAAGATT
GCAGCATACTTATTTAGGAATGATGTTTCAGTCAAAACTGAATGGCCCAAGGAAATTGACAGAACACCATGAGATATCAGGCCCTGGATGACTCTTTTTT
TATTTAAAAAAATATTTTCTTGAGGAAAAGCTTATGTCTTCTGTTAAGTTTCTGAAAATAGAATACAACTCAAGTTTTAGCKTCATTTTCTATCTCTTAA
TTGGGACTGTAATTACAGTGTTACTTATTTCTTCTGGTTACAAGTGACTGGAACTCCCGCAAAGCTCCAAAGACTCTCAATAGGATGATTCATTTTTTTT
CTATGAACTTCTGAACGGTTCAAGAGAATCCATTTTCTAAATAATTGGATAGAAGTCTTTAATCAGTTATTTAAAATCAGCAATTTGGAGATGTGGGTCA
GAAATTGAAAGATGTTTTCTTTAGAGGTTTATAAGYTGTAATGTTAAAATGTACAGATGGAGAATATAACGCATTGTCCAAGGCCCAGATTTGCTCTCTG
ACAACTGCAGAAAACAAATTGGATTCTTTTAAAAGCATATGTTTTAGACTTTTTGAAGGGTTGATGTCAGTTCAAGCAGAGGTCAAATGGGTATTATTGC
CAGAAATGGATTGCTACTACATTGCCAATATAAAAAATCCAGAAAATAATTTAGGAAGTGCATATTGATAAATTGTTAGAAACAGCAATCTGAATTTGCA
CATAATAAAGGGAGAGAAGCTGTTTATATAACCTGTAGGAGACCAACATTATTACTGTAGTCTTTATAGGAATTTCTTTCCTTGAGGACTAGAAATGCCC
ATTCCAGCCTGTTTTGGTCACATTCAAAAAGTGTTAGAAAGTGTTTGCCAGGCGTTTGGAGGAGAGGGATGAATAGACCAGAGCACAGAGGATTTTTAGG
GCAGTGATACTATTCTGTATCATATTATAATGGTGGATACATGTTATTATGGATACATGTATGGATACATTTGTCCAAAACCATAGAATGTACACCACCA
AGAGTGAACCCTAATGTAAACTCTGGACTTTGGGTGATAGTGATCTGTCAATGTTGGTTCAGTGATAGAACGAAATGTACCACTCTATTGTGGGTTGTTT
ATAATAGGGTAGACTGTGCGTGTGTGGGGACAGGGAGTATATGAAAACTCTCTGTACTTTAAACATAATTTTACTGTGAATCTTAAACTGCTCTAAAATT
GTTTATTTAGGATTGGTATTTAGATGGTGAAAAAGAGGCTTCTAGTTGTTTTCATATTGGACTGACAGTGGCCCATTGAAGAGCATTATATATGCTAGAT
ATGTATATCTTTGATTCTTCTTATATATCCCATAGGCCATTTTTGGAGATTCTGAGCCATCATGCTTTTCCTAGAGCCTCTGGACTCCTTTTTTTGCTGT
CCCACACATTTTTTCTTATCTGTCTTTGGCTCTTTGCTTCTAGCAGACTAGAGTAAAAATCTCATGCTAAGTATTTAAGGGTCATTACTAAAATGAATTA
TCTTTCCATCGTCTCAAATATCCTTCAGCATTTTTAAAAATAAAGAAAACCCTTATAATTAGCTATTTTAACCAACTTAGTTTTTCCCTCCATCATTTTA
GAAGGTAATAGAGTTATTTTAGTATGCATAGAGTTGTTTTCTTAATCTTGKCCTTTTTTTTTTTTTTTTTTTCTTTTGGAGACAAGGTCTCACTCTGTAG
CCCAGGCTGGAGTGGAGTAGCGCAAGTATAGCTCACTGCAGCCTCTGTCTCCAGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTAC
AGGCACGTACCACCACGCCTGGCTAATTAAAGACAAATTTTTTTTTATAGAAACGGTTTCACCATGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAG
CAATCCACCCACCTCAGCTTCCCACAGTGCTGAGATTACAGTTGTGAGCCACCGTGGCAGGTCTTGTACTTTTCAAACCTAAAATGTATTGTTTTTTTTA
ATACCCTGGAAATTTGCTTCACGTACTGTGATGCAGAACACTTTGTGACAGTATCTCTCTCTAACATACCTTTACTCCGAGCTCTCTTGTTCTAAACAAC
TATTGCTTTATAAAGTAGAATGTTTATATTCAGAGATACACAAAGAGGTCAGGCATTCTGGTGTATTTCATTACAGAAGCAGGTAGTGAGAGTAGAGAAG
GACCATTCCATAATAATTATACAGTATTAATAAAAATTTTCAAAATGTCTTTGGTGCCTCCTCCTGGAATTACAATAACTATTTTGTTTTATATTTTAAT
TTAATTTAATTTTATTGTTTTTACAGACAGGGTCTTGCTCTGCTCCCCAGGCTGGAGTGCAGTGGCACGATCATAGCCCACTGTAACTTTGATCTCCTAC
GCTTAAGTAATCTGGAGTAGCTAGAACTGTAGGCACATGCTACCATGCCTGGCTGTTTTTTAAAAATCTTTTTGTGGAGATGGGGCCTTGCTGTATTGCC
CAATCCTCCTTCTTTGACCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACTTTGCCCAGCCCATTGTTTCTCTTTTAAAGCATAATCAAAAGACCATT
TCACACCTGTAAAATTAACAATAATTCATATTATATATCTAATCAATGTTAAAATTTCAGTAGTTTCAAAATGTCATAAATGATTTTTCTTTTTTACACT
TAAAAAAATCGGGATCCAGGTAAGTTKCACACCTTAGAATGAGTTGATAAATCTTTTAAGTCTCTTTTCATGTATAGGTCCTCTTTCATGTTTTTTCTCC
TTATAATATATATGTTGAAGAAACTGGGTTGCTTAATATTTCCCAGTCTTACAAGTTTTTCCGTTTTCGTCCCCATAGTATCTTTACCATGTTTCCCTTT
CCTCTGTATTCTCTGTAAATAGGTAGTTAGGCACAGAGGCTTAATCAAATATAACTTCAGTTTTTTTTGAAAGTCTGCTTCATAGATGATGCAGTTGTCT
TCCTTCAGGAGGCCCAGATGTGTGGCTGACTGTTAGGCTGTATGTGTGTGCTTAGATCCTTTAATTGACTAGGGGCTGCAAAATGGGATGTTCTGATTTT
ATCATTACCAATTTATTTTATTTTATGTTATTTTATTTATTTTTTTAAATTTTATTTATTTTATTTTTTTAGACGAGTTTTGCTCTTGTTGCCCAGGGTG
GAGTGCAATGGYGCAATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTTCTGAGTAGCTGGGATTACAGGCATGG
ACCACCACGCCTGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCACTTTGTTGGTCAGGCTGGTCCCGAACTGACCTCAGGTGATCCACCCACCTCG
GCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCYGGCCTATTTAATGTTATTTTTAAGCAGCTTTATTGAGATATAATTCAAATAACATAC
AAATCATCCATTTAAAGTGTACAATTCAGTGGTTTTTAGTATATTCACATATATGTGTAACCTTCATCACAGTTACTTTTAGTATGTTTTCATTACCTCA
GAAAGAAACCATATACCCTTTAGTATCATCTTCCTTTCCCCCAAACCCCTCAGTCTTAAGTAACCACTGATCTACTTTCTATCTATAGAGTTCCCTATTC
TAGACTCATATGAAAGGAGTCATATAATACATGGTCTTTTGTGACTGGCTTCTTTCGCTTAGYGTGATGTTTTCAAGGTTCATCCATGTTATACCATGTA
TCAATACTTAATTCCTTTTTATAGCCTATTAATATTCCATTTTTTTGGGTATGCTACATTTTGTTTACCCATTTGTGCATTGATTGACATTTGGGTTGTT
TATACTTTTTCCTGTTAAGAATAATGCTTCCATAAACATTTGTATACAGGTTGTTTTTTGGACGTAAGTTTTCTTTTTCTTTTTTATTCTAAGAGATGGG
GCCTTGCTATGTTGCCCAGGCTGGTAACTCCTGGCCTCAAGCAATCTTCCTGCCTTGGCCTCCCAAAGTGTTGGAATTACAGGCATGAGCCACTGCTCAT
GGTCTGGATATATGCTTTCCTTTTTCTTAAGTATATACTTGGGAGTGGAATTGCTGATTCATACGATAAATCTGTGTTTAACCATTTGAACAGTGCCAGA
CTGTTTTCCGAAGTGGCTGCACCATTTTATATTCTCACACCAGCAATGTATGCAGGTTTTGATTTCCCCACATCCTCACCAACACTTGTTATCTGTCCTT
TTTATTCTAGCCATCCTAATAGGTGTGGTTTTGATGTGCATCTCCCTGGTGACTAATGATTTTGAACATATTTTCATGGGCTTATTGGCTATTTGCATAT
CTTCCTTGGCAAAATGTCTATTCAGATCCTTTGTCCATTTTAAAATTGGATTTTGCCTTATTATTATTGACTTGTAAGGTTTATATATTCTAGATATAAG
AATTTTATCAGATATATTATTCGCAAATATTTTCTCCCTTTATGAGTTTTCAAAAAAAGGAATTGGTTGTGACCAATTACTTTTCTCTTAAAATATCAAT
ATGAAGTCATAAATTCAAGCATTTGATATCTTCAGTTGCATTGCAGCTTTTATTCTTTTTGATGATAAAATTGTCCCATCTTTGGCTAATGTGAACCTCT
TGAGGTTGATTCTCAAGTACTTCTGGTGAGTCTAATTGTTTTTGATAGCTTCTTTGCTTTCTGGCAGAAGATGTCCCAGTCTCATCTTGTACATTTTCTG
CCCCAGACCTGGAATCAGCCATTTGTCCAAGGAGCCCTAGTTCTGTTTTAGTATGAGTGCTAGAGATGCTCATTGCCACCAAGTAGGTCAGTGTTTATGG
GTCTTTTCAGTGGATAAATTTGGGAAATATGTGTGTGAAGTTTTTTTTTGTTTTTAACAACAAAATACATTATGAGTTCTTGCTGATAGTTCCAGTTCAC
ATGCAGGACTCTAGGGTTATTTAACCTCTTCTGTCTTACATCTGTATCTTTGTTTGTTTCCCCTACACTACAATTCCTAGTTCTCAAAGTTTCTAGGGAT
GATAGTAATTATGTTACGTTCTGTTCTCTTTGCTTTATCCGAAGTTGCCTAGAATAGCAATACCAACATTAACACCAACAATTTAATTACTGAAAATAGT
TAAAAGATTTTTATTTTGTTKGTTTTGCTTGGCTGTTATTTTTGCCACTAGTCTGTGTGTGGCCAAACTATTGTTTTTAGAAGTTACTTGAAATAGTTTC
TTTCTGCGCTTCTAACTGGATGTATAGTTAGGTTCACTGCATTTTATTTTCAATATTTGGAATTACTTTTAAAATTATTTTTATTTTAAAAAATTTAATT
ATCATTAAAAAACATGATAAATTTATTATCTTAACCATTTTAAAGTGTAGAGTTCAGTAGTGTGAAGCATATTCACATTAGTGTACATCAGATCTCCAGA
AATTTTTTATCTTTCAAAACTAGAACTCTGTACCCATTAAACAATTACCCATTTCTCCCTACCACCAGCCCTTGGCAACTACCATCCTACTTTCTGTCTC
TGTGAGTTTGGCTACTCTGTGTACCAAACTCATAAGTAAGTAGAATCATATAATAATATATCTTTTCTTGACTGGTTTACTTCATTTAGCATAATGTCCT
AAGGCTCATCCATGTTGTAGCGTGTGACAAGAGTTTCTTTTTTAAAGCTGAATAATATTCCACTGTATATATACCACATTTTGCTTATGCATTCATCTAT
CAATGGCCACTTGAATTGTTTCCACTAGGAATTGCTTTTTAAATTTAATTTTGTTTTACAATTTTGTAACTATCTAGAATAGTTACATAGATCTGGAGTC
ACGTTAACAAAGAATATATCTGAAGAAGTTAATCTTCTATCCCTGTCTCTGTCTCTATTTTCTCCTTCCTTTAGGGAATTTTAAATTTTAATGGTTTATC
TTTCCATGTTTTAAATCCAAGAAGATAAATTAGGTAGCCATTTTTAATCTAAAAAGATATATATGTATATATAATCATTCAAAATATATGTACAAATATA
TGTATTTCTTACTCTTCTTAGAAAATAGTAGCATATTGTTAATATAAATGCTGTCGTGCATGTAGATTTTATCACCTTATGAATGTTGTATAGAGATATC
TTGCTCATTCTTTTTCACCACTGCATAATTATTCCACAGTATGGATGTACCACACTTTATTCTACCAGTTCCCTATATTAATAGACATTCAAGTTTGTCA
TGTTTTGCTGTTAAAAATAGTCCTGTAGAAATAACATACTGCATAGGTCTTTTTGTATTTTTGCCAATGTATCTATGATGAAGAGTGAGATTGCTGGGTC
GAAAGGTATGTAGTTTTGCAGATACTGCTGTAGTCTCCTTTGTAAGCATTATACCATTTGCATTCTCACCAAAATGTATGAGGGCCTATTTCTTTCCCCA
TAGTTCTGTTCTGGAATATGTTGTCAAGTTTTTGAACTTTTGCTAGTATTTTGTTTGTTTCCGTTTCTCTTAGTATGAGTATCTTTTCATATTCAGAGCT
ATTTCTATTTCTTTTTCTGTAAACTGTCCGTTTCCGTAGCTTATTATTCTATGCAGTTAGTGTTTTCTTTCTTTCTAGTTTTTGTTTGTTTGTTTTTTAA
GACAGAGTTTCGCTCCTGTTGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACCACAATCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAG
CCTCCCGAGTAGCTGGGATTACAGGCATGCACCACCACGCCTGACTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCTATGTTGGTCAGGCTGGTCTC
GAACTCCCGACCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCTAGTTTTAGAGATTCTCTGC
CATTCAAAAGTTTTATTTATTTATGTATTTATTTTTTGGAGACAGAGTCTCACTCCGTCGTCAGGCTGGAGTGCAATGGCACCATCATGGCTCACTATAG
CCTTGACCTCCCCAGGCTCAGGTGGTCCTCCCACCTCAGCCTCCAGAGTACCTGGGACTACAGGCACACGCCACCAACCCTGGCTAATTTTTGAATTTTT
TTTATAGAGATGGGGTTTTGCCATGTTGCCCAGGCAGGGTCTTGAATTCTTCGGCTCAAGGGATCTGCCTGCTTCAGCCTCCCAGAGTGCTGGGATTACA
GGCATGAGCTACCAYGCCCAGCCCAAAATTTTTATTTTTATGTAGTCTAATTTATTGTACCATTACCTCATTGCTTGTGGATTTTTGAGTCATTTTTTCA
GTAAAGATTGCCCCACTCCTTGGTTACTTTTATTCCTGTACAGTTTGTTCTCCCTTCCCTTCCCTCTTCCCCCATTCACTCCCTGGCTTTCTTTCCTTAT
GTAAATCTCTGATTGATTTGGAATTTGTCCTGGTGTGTGGTATGAGGTATAGTTCCAATTTTATCTTTTTCCAAATGGATATCCAGTTATCCCAACATTA
CTAATTTAAAAGTCTTTCCTTCTCATTGATTTGAGATGCTCTTATTTTTATTGTTTTTAAATATATTTGTATATTTAAGTGGGTTTTTCCTGAATTCTCT
ATTCTGCTCCCTTGGTCTATATTCATGTGCCATAACAACATTGTTTTAATTATAGAAGCTTTATAATATGTTTTAATACCTAATAAGGCCGGCTTTCTTC
TTTTTCAGTATGTATTTTTCTGGCTACTTTTTCTTGTGTTTTTCTTTCAAATCAACTTGCTCTGATGATGATAAAAGAAAAACCTGATGGTATTTTTATT
TGTACTACATTAAATGTATAGATTAATTTAGGGAGAACTGGCATTTTTATAATGTTGTGAGACTTTTAATCCAAGAAGACGGTATGCCTTTCCATTTATT
CAATCCTATTTCTCTGTCTTTTGGGAATGCTTTATATAATTTTCCTCATATAGGTTTTTGATATATTTTGTAAGTTTACATGTATGTTTTTTATTTAATA
TTGATTTTATTTTGATATTGCATTTATTATTCCTTCTTTGAATTTTATTTGTATATGAATGTCATTGAATTGTATATGTTCATTTTATAACCTGTTACTT
TACTAAATTATCTTTTGTTTTTAATAATTTTGCCATTGATTAGTTCASGTTTTCCTGATAATTATACAAGATGGAATTTTAAAATTTTCTTAACTTTTCT
ATAGAATACACAATTTTTCTAAGTTACTATGAATCAGGAGTTTGGGCATGTTTCTGGAGGTCATACTTAACCTCTGTGTTGTATTGTGTATGTTCAAATT
TCTTGTGTGCCATGACCTGTGTAAATGATATTATTTGTTTAATAACAGGAGTTAGAAAGGCAGAAACATATGTGTAGTGTGCTGCAGCATAAGATGGAAG
AACTTAAAGAAGGCCTGCGGCAAAGAGATGAGCTTATTGAGGTATGTACATGAACTGTGGGAATACTTAATTTTGAAAAAAAATGAGTTGAATGGGATGA
GGATGTGTTGGGAGGGAAGGAGAGTTAAGATGCATCAGAGTTTGTCTCTTTATATTTGACTGTACACTAMAAATTTTCAAACATAAACCAGATTATGCTT
AAAAATTAATACTATAAATCCTATAAACATTACCCCACTTTGGTAGCAGAAATTTTTGTGTCTTTTATTCCTAAGCACACTGTTTCCTACAGATATCTTA
GGAAATGGGCAAAAGGAAAAATTATAGAATAACATTATTCTTTGGAATTAGTGAATGCCATCTTTTGGGACATGATTCTTGGGGAATAAGTTTGATTTTC
ACTCAGGTAAATACATTTCTCAGGTGGCTAAATGAAAAAAGAAGAAACATCAAGATACGTTCTGTACAAAAAGGTAAAGAATGGTTAGTCTGAAGGTTCA
GGTTTCTGCAAGCRAAGGGACTCTGCCACATTGCTGGCAACATCTTAGGAATGGAATGAAGCATAGTCTACCAAGAACTCTTTGAAAACATTAGTCATCC
TTGCAGGCCTGCTACATTGCATGCATCTTTTTTCTTTAAATGTGGTTTTCCCTCCTGAGACGATGTTTTTAGATAAATATGGAAATAAGTTTGAAGGGGG
ATCCTGCCCACTATCTAGGTGTGGCTATCAAAGGCATCTAATGTTAAGTTAGTGTTGACACGCCAGAGATGTCAGGAAGCATAGATTGTTAATGATCCCA
GGAGAGAGATCTCACAACCACACTTGTCCACATTCCTGGCTACTCAGACCTTAGCCTTTCTTTTTCTCTCCCTCTTTCTCTCTTTCCCCTCGGACCTRCC
TCTTAATATGTCTCTCTACAAATGATTTTTAAAAACCATTTAATAGAGAAAAAGAAATGACTTTAAATTTGAAGACGTGTTAATTTTTGTCATCATTAAG
AATAATTGAACATACTCAGAATTTGTGGATTTCAAGTGCAGATACAGATAACCTTTTGGATCTATCAGATTACATGTGAAGTTAATTTTCTTGGTTTTTC
TCCATATAAGGTAGGAAGCATATTTTCCAGAATCTGTATCCTGCTGGTATTTTAAAATAATGTGAAATTCTTTCCCTTTTTGTTCTTTTATCTTTTTGTG
CCAAAATGCCAACCACATAAAATAATAAACCTGCTTTGGGGGCTGCTTCTCAAATTCAATAGCTTAAGTTAGGACTGGTAAAGTGTTCTAGTAATTAATT
GTAATTGCATTTAAGAAGAATATAATGCTTGATTTCTATAGTTCATCACTGTGGCTTCTTTAAAAGCTTAGGGTGCTAGGTATACAAACTTTGAGAACTA
TAGTTTTAGATGTTTTTTACATCTAGAATGAACATCTTTTAGATGTTAGTATCTATGGTTATGCTGAAAAACTTTAAATATTACAAATAATGTTTTTTGG
TCTTTGGAATTGAAAATTCCATGGTAAAGTACCTAATGTATGAGTAGGGAAAGGAGGACATAATAATTTACCAATAATGCATAAGAAGAAAACCTGTTAA
GCACCATTGCCTAATTAGAAAGGTCATTTAAGGATTGTTAAATGCTAAATTTAAATGTTTCAAAATAATATAATTTTAAAATAATACAAAATTCATGGTG
TTCTTGCTGTCATAGATTTTGCTAACAGAAATTCAAAATGATCAGTTCTGCTTAAAAAATAAAATTCAAAACTGCTTGTTCTCTAAGATGAAAGATCATT
TGTTCATAAGCAAACCTAAATTTCCCTCTCTAGGAATGTAAGTTCTTGTTTGGTAAAAAGGCAGTTATCAAAGAAAGAATATACATATGGAGCTGTATGT
ACACAGAAATTCTAGCTGGCTTGCTGCCACGTAGCTGTGGTTGGAACAATTATTCCTGGTTCCTTTGCTTACTTTTGTAGGGGCAAGCCAATAAGAATCT
TGTGGCCAAGACTGTGAATGTCATCTTTTCTTTTGGCAGACCAATTTTGCTTTTCCTGTTCATCACAGACTTTCCCTTTTGGTTAAGTTTCTTTATCGGC
TTTATTTTTGTTTCCTCCCTCAAACCTCCTCTCCCTTTTCTTTCTGCTCTTTTATTACTTCTCTTCCCCTCTTCCTCTGCAGGAGAAGCAGCGCATGCAG
CAGAAAATAGACACCATGACAAAAGAGGTGTTTGACCTCCAGGAGACACTTCTTTGGAAAGATAAAAAAATTGGGGTATGAAATGAAATTGGGCTTTGGT
TAGAAGCTCATTGATGAGGACTACAGTAGAATTTAACCTAGAGATTGAAAAAACCTGTCCTTTTGATTCTTCTTGAGCATTTACACAGTATGAAAAATGA
GTCAGTAGGAGACAGAGACTTCCATAGGAAAACCTGACGTTGTGCCTGGAAGAACTCTTCTTTTCAGCAAACACTAGGCTTGTAAAATGTATAAGTAGGA
ACTTTTAAAGGAAGTTTCTCTGTATTCCCTTAGGATTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGC
AGTGGCATGATCTCGGCTCACTACAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACACACAACC
ATGCCCAGCTAATTTTTTGTCTTTTTATTAGAGACGGGGTTTCACCATGTTAGCCAGGCTGGTCTCCAACTCCTGACCTCAGGTAATCCACCCACCTTGG
CCTCCCAAAGTGCTAGGATTATAGGCGTGAGCCACCATGCCTGGCCTCCCTTCAGATTCTTATCCAGAAACAGCCACAGGCATTCAATTCAAACTCTGTG
GTTAACTTGATATCCTTACGTTACAGGAATTTGGATAAGAAGAGGGTAGTGGTGGGGAGAAAGTTATTAGCATCCTATAAATCCTTGGTGTATAAAATAG
GAAGAGATTAAAATCAATTCAATTACAGAAATGGATAGGAATGTAAGACTTTCTAGGGTGGCTGTCTGTAATTATAACCACAGAACTCCCCCAAGTAAGG
GCCCAGATAAACGAAATGTCTTCATTGCTGTTTTGCTAAGCCTTGCAGGTAGATTCCATGTACACCAAAAGCTGGAAAAAATTCCCTCCAGTTCATCTCA
TGTGGCCTTTGATTGGCAGTCCCATCACCTGGCTGAGCTCTCTGTTCTACAGTAGGGGAACCACTTAGCCATAGTTGCCAGAGGCTTACCTTGTCAGGGA
AGGGCAGAGGAAATAGAACATGTAAGAAAAGTCTTGTTCTGCTTAAGGTTAGGGGGAGTAGGGAATAGTTGTTAAAGATCCCTGAGAACATCTCTTGAGA
GACAGGCCTGGATATGAAATCCTGTGGATTATACCCTCAGAATGTTGTTAGGAACATTCTGAAGCCCAACCAGTAGTCAGCAGGATCCAGTCTTTTTCAT
CACTTCAAGGACCTCTCTCATTAATATACACATGGGAAGATTACATTACCTCTTAAGAGTTTGTAGGCTCATGCCTGGAATCCTAGCACGGAGGATCGCT
TGAGGCCAGAGGATTGCTTGAGGTCAGGAGCTTGAGACCAGCTTGGGCAACATAGTGAGACCCACCCTGTCTCTGCAAAAGAATTTTAAAATTTGCAGAG
CATGCACCTGCCCCAGCTACTTAGGAGGCTGAGGTGGGAGGATCACTGGAGCCCACACGATGGAGGCTGCAGTGAGCTATGATCGTGCCATGGCACTCCA
GCCTAAGCAATAGAGTGATACCCTTTCTTTAAAAAAGTTTGTAGACCAAAAATTTAAAGAACAAAAGCTACTTTATAGATAATTCTCTGACTTTCAAATT
GCTGAGTATTAAAAATTCCATCTAAACCTAGAAAAGCCTTCTGGGGAATAAATCAATAATTCTGTTAGGTGTTTTGAAACTATGATTTTAAAATTGAAAT
TTGAAATTGAAAAGTGAAATTTGATTGTTGAACCATTGATTTGATTTAAATTTTTGCTTGGGAAATATAAGAGGTGAAAAAACGTGGGGCAAAGTAGGTA
ATTTAAAATTTTTAGTTAAAATCTGGTCACTGTCTAGAATGGGCTTCTTTTAGGACTTCACATAATTTTCTTTAACACAGATCTGTAGGCCCAGGATTTC
TAGCTTGTATGAGTGCCTTAATATTTTAAACTGATAATCTTGGACCAGCCATAGAAACCCCTCAGATGTCTCAGTTTAAAATATAAATTATTTGGCTTTT
AATTGGAAAATATTTTATTTTAGTATTCTTTTTTTGAGATGGAATCTCTCTCTCTCCCCAAGGCTGGAGTATAGTGGCACGATCTCAGCTCACTGCAACC
TCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTGCACCACCACGTCCGGCTAATTTTTGTATTTTTAGTAGAGAT
GGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTTCCAAAGTGGTGGTACTACAGGCGTTAACCCC
CGCAACCGGGCCTAACCCTTTTTAAATTAACCATTCAGTGGCATTCAATACATTTACCGTGTTAGGCAACCCCTACCTTTACCTAGCTTTAAAGCCTTTC
CATCCCTTTTCGATTAACCCCCTTAACTGTTCCTTCCATTTCCTTTTCCCTCCGCCATTTGCAACCCTCCATTTGCCTTTTGTCTCTATGATTTTTTTTT
TTTTTTTTGAGACAGGATCTCACTCTGTCACCCAGGCTGAAGTTCAGTAGCGTGATCTCGGCTCACTGCAACCTGTCTCCCAGGTTCAACCAATTGNNNN
NNNNNNNNNNNNNNNNTTTCCTCTTAAGAGGCCTTTCCATTATACCCCGTGGGAAGTTCCCTCCCCTCTTAAGAGTTGGAGGGCCCAGCCGGAACCCCTA
GCACGAAGTTCCGTTTGAGGCCAGAGGATTGCTTGAGGTCAGGAGCTGAAGCCAGGTTTGGCCACATTAGTGAGACCCACCCTTGTCTCTGCAAAGGATT
TTTAAAAATTTGCAGAGCATGCACCTGCCCCAGCTACTTAGGAGGCTGAGGCATGAGAATCACTTGAATCCGGGAGGCCAAGGTTGCAGTGAGCTGAGAT
CATGTCACTGCAGTCCAGCCTGGGCAACAGACCAAAACCCTGTTTCAAAAAAAAAAAAAAAAAGAGGAAATTTAACAGAGATCCTATATATTCTTTGCTC
AATCTTCCCCAAATGTAACATCTTACAAAACTATAGTACAATATCACAACCAGGATATTGCCCTTGATATGGTGAAGATACAGAACATTTCCATCAATAT
AAGGGATTTCTCCTCCTCTTGCCTTTTTATAGTCATAGCCTTAATCTCCCCTTCCCCTCCCAAGCCCTAAGAACCACTAATCTTTTCTTCATTTGTGTAG
TTTTGCTCTTTTAAGAATGTTATAAAAATGGAATTATATAGTATATGTTAACCTTTTGGAATTATCCCTTTTCACTCTGTATAAGTCCCTCAAGATTCTT
CCAAGTTATTGAATCACGAGTTGACTCTTTTTTAATTTGAAAAATTGTGCTAAAGTACAAATAACATAAAATTTACCATTTTAACTATTTTTAAGTGTAC
AGTTCAGTGGCATTGAGTACATTCATGTTGTTGTGCTACTGTCACCACCATAGAACTTTTTAGTCTTCCCCAGCTGAAATCTGTACCCATTAAACAACTC
CCCATTCAGTCCCTTCTCCCAAACCCCTGGTGGAATGGCAACTACCATTCCACCTTCTGTCTCTGTGAATTTGACTGCTCTAGGTACTTCATGTAAGTGG
AATCATACAGTATCTGATTTATTTCACTTGGCATTATGCCCTCAAGGTTCATTTTGCAGCATATGTCAGAATGTCCATCCCTTTTAAGGCTGAATCATAT
TCCATTGTATGTATATACCACATTCTTCTGTTGATATATCAACACATCTACCTTTTGGCCATTGTGAATAATGCTGCTGTGAACATGGGTATTCAAATAA
CTCTTCAAGACTCTGCCTTCAGTTGTTTTCGGTATGTACCCAGAAGTGGAATTGCTGGATCATATGGTAATTCTGTGTTTAATTTTTTTGAGTAACAGTT
ATACTGTGTTCTGTAGCAGATGTACCATTTTACATTCCCACCACTAGTGAACAAGGGTTCCAATTTCTCCATGTCCTTGCCAACATTTGTTATCATTATA
ATACAAGGGCAGTGGTCCTCCCTTGACTTTTAAGACACATTTTCAGTATGGTCAGTAACTACTTGTCTCTAGCTTCATTTTTAAGATTTACATTTAGTAA
CTTAATGAAGAAATATGTCCATTATTCCCAGGTTAAAGTTCAGTTCATTAGTGGTCTTGCCTCTAGCTCCACTGCGGTTCTAAACACCAGGAGCCCATGT
ATAGAATAGGTGCGTATGAAGAACTTGCGTATCTCTATAGCCCAGCATAAACTCACTTCCATTCTGACCAAAGATATTTGTTCCCCAGTACAATTATGTG
GAGAATTAACCCCTTGCCCAAAAGTTCAGCCCATTATACACATCCTTTTGGCTTCCGGGTGGTAGGATTTGAGGTTAGGTCAGGGATAAAGAGTTATTTT
GAACTCTACAAGCGTGTACTTTTTACCCTAAAAAAAATCTACTGTAGGAGCTATTGTTGCACACAAACACAAGGGTAGTGGTTATATGGTCAGGTAATAC
AGAGGGTTTTAGATCCAGCTTGAATACATTTGATCCAATTATAAGGTATTTTAGTAGTCTTCAAACTTTGTGGTGAAGTGGGTGAATTTACAGGATGTAT
TTTATTTTCTCATCTGTAATTATGGGAAGAGGAAATTAAAAAGTCCGAAGGTAAAAATAAAACCCAGTGCAATACGATGTGGAAGAAGAGCAAATGTCAT
GTATATCATTTGCTAGAATTCCTAGTTTCAAATTGGCCTGTTCCTCAGAGGTCTTTTTTATTCAGTGTTGTTGTTTATGTAGAGCATGTTGTGACAGTGA
TCATTTACCCACTTATATGTGGTGATACATGACATAACTATGCATGCAGATACCAGTAACCAAAAATACYTAATCCATAAAGTGACACTCAACACATGGG
AAAGTATTGTTGTGCTTTGTTTTCCCAATGTTTCAGTTATTATTAATTATTAACATAATGGAGTGTTAACACTAGCTAGATGGTGCTAGAAATGCACATT
GTTAATTCACAGGCAGACTTGAGACACATCATATAGTGTGAATGTAAATTGTTGAAAAGAAGTCAGATATTGACATTGCAGTTTGGATAAGTAAAGAGTA
GGATTTGCCGTATGGACTCCTTTCCTAGCATCATCTGGGCTAACAATAAGGGAATATAATGTGGCCTTCATAGAGCTGTGATATTTAAAAAACTATTTAA
GGGCTTTGGAAACAAAAACAACCAGATTCATTTTCTGGTTTTGCCACTTACTGTGACTTTGGGCGAAAAAATATAACCACTGTGAGCCTCAATTTTCTGA
TCTGTTAAATGGGGATAATACAAGTACCTCACAGGATATGTAGAGGTTTCAAATGTAAAATAATGTATAAGAGAGAAATTATATAAAATAGTGCCTGCCA
TATAATTTGTGCTATACAAATCGTAGTTGCTATCATCCCTTATTTACTTGCTCCCTATTTGGTTGCAAAACAGGATTATAATGATTTTTTGAATTGCCCA
GCTATTCAGCTATCAATTTCTCAGCAATTCGCTGTCCCACTTCCAAACCCAGTGAACTGAGAGGAAAGTTACCTGATATAGTTTAACTTCTTGGATTAAT
GGGAATGCTAACAGAAGACATTAAATATATGAACAAAAATATTTGGGGAAAGGCTTTTTCAAATAGGCCAGTAATCAGATTCCTGCATAGACTACTTACC
TTGGGTGTATTTTTAATTCTGGGTTATTTTCTTTTACAATAGATTTTATTTTTTCATAGTAGATTTTATTTTTCATTGATGACCAAAGTATGTTCCTGCT
TCTGCATTGTCCTCAGCTGACAGTTGTGAGATTAAGGAAATGGCAGGGAATTTACAAATGAAATCACCAACCTGATTCTCCTGAACTGTCCCTGCTATCT
AGGCATTACAGGCAATGCTTTACCTTGATTTATGCCTCTGCCCTTGGGATGGGTGCTATTATCCCTTCTGTTTTTCCAGTGAGGAAACTGAGGCATAGGA
CAAGTATGTGCCAGAACCCAAAAGCCTGATTCTGAAATCCATATTCTGTAACTCTTCATAGCTTGGCTGTATTTATTTTGTCAGTGTTTATTTTTGTTTT
TCACATTTTGGGAGTATAACAGAAAGCCAAATGAGTCTCAGTTATATTTAATTAAGTTGTCAGAAGTTGATCTTTGAATCCTTTTGGAGGTTAACTATTT
TGAATTAAGTGGTATTTGAGTATTTTGCCACACTACTTGGAGAAAAATCTACAGCCAATATTAAATTAAAATACCTATGTATAATAGTTATTTTTATTCC
AGAACTATTTTTTAAAAAATCAACTGTATTCTTGAATAAACTAGTTTAGTTAAACATGAAATGTGGGGTTTTTTTTGTTCACCAAATAAAAATGCACTTA
GGCAGTCAGTAAGGAAAGCTTTATTTTACTCTGGCTTCTCTCTTTATCTTCCTTTTCCTGTTTTATTTTTTTCATTGACTGGAAAAGATTTATTTCCCTG
CTTGATGTGATTAAACATGTTTTGCCAAATTGATGCATGAGAACCAGTTTCTATGAGAAGTCTCTTCTGGAGATGTATATCCATGTAACTYTGTATTTCC
TCCCATATCTGACTGTTTGTTTCCAATCTTTTGACTGCTTTCTTGCTTTTTATGCCTTTATCTTTGCTTATTTGAATTAGGTACTTCTCTGCTACCTTTC
ACCTGCTCTTTTTCTGTGCCATTGTTTCCCTTGCTACCTTACCTAAAACCAGGCCCTAGAGAAACAGAAAGAATACATTGCCTGCCTTAGGAATGAGCGA
GATATGCTCAGAGAGGAGCTGGCTGACCTGCAGGAGACAGTGAAGACGGGAGAGGTATGTTAGCATTAGCCTGGAATTCAGGTCCCTCACTGTTTTACTC
TCTATCTTCCTTCCTTTCATCCTGCCATCTTTCCTAGCCTAAATACAAACTACAGTGTTTATTCTCTAATCCAGATTTGGTAGGTTGAAGCTATTTCTTA
CACAGAGCTATATTTCATGTAACTGATTCTAACCAGGTTTTACCTGTAGCAAACATGTATTGTTGCAGAGTGACCTCACAGAGCTTACAGCTTCCATAYG
GGCCTTTTGTGATGGTGGGTTTTTCCCCCCTGCAGAAACATGGCTTAGTTATAATCCCCGATGGCACTCCCAATGGTGATGTCAGTCATGAACCAGTGGC
TGGAGCCATCACTGTTGTGTCTCAGGAAGCTGCTCAGGTCTTGGAGTCAGCAGGAGAAGGGCCATTAGGTAAGATACTGGTTGCTATGTTGACTTGGATT
AATGTTACCCTATTGGGTTTTCTGCTTTTTCATATCCCAGCTTGGAAAACAAAAACAGCATAAGGGCTGAGACTCAAGTAGATCCTTAACTAGAAGAATC
TGGGCACATTGGCACATTGTCTTCAGACATCCTTGACCTTGGGAAATCAGCATCTGGGTCACTGTAAGGCAATAAGTGTAACTGTAAGGCCTGTGGATGG
AAGTACTATGGGCCTATACACATCGGTTTTTACTTAACTACAAACTKTTCTGCAAAGAGATAGTCTAGTATACCTGTGCTAGGGGAGCAGTAGGCTAGCA
GGAGACTTCTCAAGTGTGTTATAAGTTTCTCATCCTTGGAACATCTGGTTTTATGTTCCACTGCTTACCCCAGGGTTCTGTACCTCTTTTCCACCACATT
TCTTAAGCCAAGAAACAGATGACCAAAAAGATATCAGAGAAGTATGACTTCCAGAGCAGGGCTTCCCAGACTCTTAAAGTCTAAACCTCTTAAATTTAAC
CCTTTGAGAATCTGACACCTCTCTCCAGGAAACCACAAAGTTGCTGACACCTCTGTCTGAGAAATCAAAGTCACCCATCCATTGACCCCACAAAGAAATC
TACTCTAGAGGAAGAAAAATGGCACAGATAGATACTGTATCATTAGCTCACTTTTATTTTAAAAAAAAACAATTTTTTTGTTTTTCATCTTGTTTTCATA
TATGTGTAAGCTTCTTAGAGGAGTGAGAGATACAAGTGTGAAGCAAACTGAAAAACATTTTGAAAGTTAGTAAGCACATTCTCTAATGTGCATTCCAGAA
ATGTGATTGTAGGGCACTTTGAATAAAACAGGATGCTGGGTGAGCAAGAGAGATCTGGAGAATGGAACGAGAGTCTGGCTATAGGCAGCCCAGAGTGTTT
CCCTGCTGTTTTTTCCCTCGTCTGCAGGTCCAAGCAGGCAGATCTGCTTGGAAGGTGCAGAAGAAACCAAAATCTTTATTTGGCTATGACCCTGTTTACA
GAGGGTAGTGGTTGGCGAGGTATCAGCTGCTTTTTTAAGTGAACCATGGTATCTCCTCAGCTGAAGGGGCCTATTTTAATGCAGGCTTGGGAAGAGTCAA
ACCTCCACAGGCTAGGAGTGAGCCCTAATGGTGCTGCCACCAAGCCGCAGATCYACCCATGGATGCCCACATCTTTTTTTTTTTTTTTTTTGAGACGAAG
TCTCACTCGGTCGCCCAGGCAGGATTGTAGTGGCGCGATCTCAGTTCACTGCAACRTACAACCTCTATCTCCCAGGTTCAGACGGCTTCCCGAGTAGCTG
GGATTACAGGCGCCTGCCACCACGCTTGGTTAATTTTTGTATTTGTTTAGTAGAGACGTGGTTTCACCATTTTGGCCAGGCTGGTCTTGAACTCCTGACC
TCAAGTGATCCACCCACCTAGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCTGGCCTGGCTGCCCACATCTTGGAGTGGGTCCCCTTC
CCTCCCTACTAGCTTTTGGGGACTTTGCTTCTTCCAGCATTATGCTCCTCTCTTTTCTCTTCTCTAGCTTCCTTTGCCCAGTCCTGCTCTTACCCCATCT
TCTTTCACATATTTGGATCTCTCCCGCTAAGGGCTCAGCCTTTAGGAACACACTTGACATTTGAGTTGTCTGTCTACTAGTGAAAGCTTGAAACAAGGAA
ATGACCTCCTTTGTAYTTCTGTTTGTCTTTAAGTGGCAAATCACTGCTGTGGGGAACAAATGTTGGATTTGGTGCCCTGATAAATATCAGTTGTGTGGAA
ATACTTTTTAGATAGTTAAGAACTTTTCTGTAATGCTATTAACACCTTTATTTCTTTAGATATTCAGAGCTGTAAGTAATGTAATTTATCAGATAATATT
AGCTGTTTATGAGTTTGAAAAATTTTTAATTGTTTATGTACTATATCATCACATATTTAGTTTATGATCTTTTTCATTTGTTTTAGATGTAAGGCTACGA
AAACTTGCTGGAGAGAAGGAAGAACTACTGTCACAGGTAAAGGCATTCTTATTGGAGTGTAATATAATTTTAACAAAGTTACATGGTAAAATACTGGCTA
ATTGAAATGTTCATTAAAAAAATATGCTTCTTTCAAACATCAGTACTCAAGTGAGATATGAAGGATAGATAATTCATATTTTACCTCTTTGTTATTTTCT
GTTCTTAAAACATTTTTTTAAGGACACATAGTTTAAGGAGTCATATAGTTTTTTACAAAGCTTGTTATGAACACAGCAGTCCCCTGCCCTGGCTCCTCTG
ACCTCGCCCCTGACCATTTCTGTTAAATACTTTTAGCTGATTCTTGTGTACTGTCCTTGTATCTCTGTATAAMATACTTATGTTGCATCTTGATTGTTCT
GCTTCAGGCATTCTATATTGACATCCTTTTATGGAAGATGAGGATTTAGCTGTTTTTCATCCTTTGTCCCTGCCACACACATACTTATTTTCCACTCTTA
TATCCTCCTAATAAAGGAACAGTGTAATTCCAGCCTGCTTGTGTCATTAGGACCCTCTAAACACTACTCACACAGTGGAGCCAGGTTGCATTCTAGGATC
ATCTCCCTCAGAACTATTAGTTTCCTCTAAAGTTAATGTTATGGTTTTTCTTTGTATTTGCTTGGTTTTCTATCATCAATTTAGCCACAGAATCTCCAAG
AGTAGATTAATCCCACTCAGTATTTTCAGATGCATCTGGTGTTATTTCAGTTCCAGTTTGTTGAATCTTGGTGCATCTGACTTGTCCCTTTCTAAACTAG
TGACTTGCCCTCTCGGTACATAGATGTGGTCACCCTTCATTGGCATCTGGAGATTTTCTTTGCATGTGATTTAGGTTGGGTTCCCTTTTTCCGGTGTCTC
ATGCCTTTCTCCTTATTTATTCTCTTATTTTGGTACATCTTCCAGTAGCTTCCTGAGAAGAGGGTTTGTGGATTGTTAATTTTTCATGACCTTGCAGGCC
TGAAGATGTCTTCATTCTACCCTCTCACTTGATTAAAATAGTTTGGCTGGGTAGAGAATCCTGAGTTGCCATGGTTCTCCTTAAGATTTTTTAAAAGGAC
ATTTCTTCATTGTGCTGTGACTTCGAGCATGGCTGTTGAGTTTTCATGAACATTTTGAGTTCTGATCTTTTCTGATTTGTGATCTATTTTTCTCCTCTTT
GTGGAAGCTTGTATCCTATTCTCTTTCTCTCTAGCATTCTGGTGTAATTTGAAGATAGTCATGTGATTTGAAGTTTTCATGTGTGATGCTGGGCCCCTGT
CAATTCTAGGAGCTCCCATCCTTTAGTTCTGGGAAAATTTCTTGAATGATTTTGTTACTGATTTTTTTCCCCTCCCATATGCTGTGTTCTCTATTTTGGA
ACTCCTATTCAGTCATTCAACAAATGTTGAGTGAGATTCTACTATTTAACATGCACTATTCTAGGCACTGGGATATTTCAGTGAATAAATTAGTTTAGAA
AAAAAAAATTCCTGCCTGAGAGGCATTCTAGTAGGAAGACATCAGACAATATTATATGATATGTTAGAAGGTTTGTGTGAATGCATTTATTATATGTGTT
TCTCTGGCTACTTACAGCAGCATAGGGGCAGGCATGGAGTGGGTAGAGAGCTAGATTTTACTAGGACAGTATTAATGGGGCAGGAGAGGTGAGGGAGTAT
GTAAGAAAATGATTATAATGATGGACCTTGAAATTAAACTGGATGAAGAGGATTCGGGAGATATTCAGGAACACATCAAGGTATAGTAGAAAGAAGATGT
AATCTGTAGATTAGTGGTACCAGTGTGGTTGAAGGGTTGTTGGAATTCGGGTCTAGAGAGAATGACCTGGAAAGATGAGGAATAGTGGTTAGAGAGAGGA
TACATGGAACTAAATTGTGTAGGGATTACAATTGTCTAATGATGAGATCTGGTATATGACTGTGGGAGTGAGTAGCTGAGGGCAAGAAGGGATAGATAGC
AAGATCCTTGGAAGGGAGGTGGGTTAGTCCATTTTTTGCTTCGCTATAAAGGAATACCTGAGGCTGGGTAATTTATAAAGAAAAGATGTTTGACTGGGCA
CAGCAGCTCATGCCTGTAATCCCAGCACTTTTGGAGGCTGAGGCAGGTGGTTGAGGTCAGGAGTTGAGACCAGCCTGGCCAACATGGTGAAACCCCAACT
CTACTAAAAATATACAAAAATTAGCCGGGCATGGTGGTGGGTGCCTGTAGTCCCAGCTACTTGGGAAGCTGAGGCAGGAGGGAGGTGGAGGCTGCAGTGA
GCCAAGATTGCGCCACTGCACTCCAGCCTTGGGTGGCAGAGTGAGACTTTGTCTCAAAAAAAAAAAAAAGGAAAAAAGAAAAAGAAAAAGAAAAGAGGTT
TAAACTGGCTCATGGTTCTGCAAGCTGTAGAGGAAGTATGTTGTCAGCATCTGCTCAGCTTCTGAGCTCAGTTTCCTGAGGCCTCAGGCCAGGCTGGTCT
TGAACTCCTGACCTTAGGTGATCCACCCACCTCGTCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCAGCCTCAGGAAACTTCTCA
TCACGGCGGAAGGTGAAGGGGCAGCAGGCACGTCATATCTCGAGCGGAAGCCAGAGAGAGTGGGGAGGTAACATACACTCTTAAACAACCAGATCTTGTG
TGAACTACCAGAGCGAGAACTCACTCATCACCAAGGGAATGGTGCAAAGCTATTCATGAGGGATCTGCCCCATGACCCAGATACCTCCTGCCAGGCCCCA
CCTTCAGCACTGGGGAATACATTTCAACATGAGATTTGGAGGGGACAGACATCCAAACCGTAAGAGGAGATATACCAGAAATTGAGAGATCATTTGTAAG
GGAGATCCTCTACTTAGATGTACATTGAAATTGCCAAAAATTAAGACAGGAATAGTCTAGAGGGAGTGCAAGTTGGGAGCTATTTAATAAATGGTGATGA
AGGAATGGGATTTTGGCAATGATAAGTAGTTAGTGTATATAATTTGAAGAGACGAGATTAAGACCTGGGACTTTTAGGGAAGATGGAGGGAAAATACCAG
CAAGGAAAGCAAGAGGACACCTATTCCATTTCTAGATTCAGTGGTAGGAAGCTGTGGAAGTACAAAAAAAAAAAGGGCCGGGCATGGTGGCTCATGTCTG
TAATCCCAGCACTTGGGGAGGCCAAGGTGGGTGGATGACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGACGAAACCCCATCTACTAAAAATA
CAAAAATTGGACGTGGTGGCATGCACCTGGAATCCCAGCTACTCGGGGGGCTGAGGCAGGAAAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCT
GAGATCATGCCACTGCACTCCAGTCTGGGCCACAGAGCGAGACCCTGTCTCAAACAAACAAACAAAACAAAACAAAACAAAACAAAAACAGTGTTTGAGA
GAGCTGCAGAAGCAGCAGGAGAGGGTTATCAGAGCACGAGGGTAAAGGGGGGATGCTCAGAAAAGACTGAGGACAGAGGGTGTTTGCTGATGATGGACTG
ATAATTCTAGAGGGCCCAGTGGAAAAGTTTCAGGCATTGGGAAAGGTTAGGAGATGAAGGTTAGTGGTCGTACAGACCCTTGTGAGGAAGACTGCAGAGG
AAGGATATGACCCTTTGTGAGATGCACATAAATAGGAATGATGGAGATACTGAGATTTGTCCTGGTTCCCTCAAGGCAGCTAATGATGGTGACCCTGTGT
GTTGAAAGGGCAGAGGTGCCTGGGAAGTATAGAGTTAGTCCCAATATAGAGCTTACCCTTTTCCCATTGGGGAGTGGCAAACTTAATCTTAGTGCAGAGG
CCTCCCTTTGACCCCTGTTGGTGGAGTTAAGGACAGCTGGGGAAGCCATCTCTATGTATCCAATTATTATTATTATTATTATTTTTTTTTTTGAGACAGA
GTCTCGCTCTGTCACCAGGCTGGAGTGCAGTGATGTGATCTCCACTCACTGCAACCTCCACCTACCAGGTTCAAATGATTCTCCTGCCTCAGCCTCTGGA
GTAGTTGGGACTACATGCGYGTGCCACCATGCCCCACTAATTTTTGTAGTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGYCTCGATCTCT
TGACCTTGTGATCCGCCCGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCCCAATTATTTTTACATACAGGATGTTTTC
TAAGTAAGAAAATTTAACCTATGTCTAAAAGTAAACAACAAAAAACTGCTCATGGAATCTTCCATTTTAAGAAATAATCTCTTGAATATACCCTATCAGT
TAACTGTTTATATTTTTGTTTTATTTTTTTTAGAGATGAGGTCTCACTGTGTTGCCCAGGTCGGTCTCAAACTCCTGGGCTCATGTGATCCTCATGCCTC
AGCCTCCCAAGTAGCCTGATACATAGGTACATGCCACTATGCCTGGCTAGAATTTTCCATTTTAAATAAAAGTAACAAAAAATACCCCAAAGATGTACTG
TTCCATAAGCAGACACAAATTTAAAATATGGCTATTTTCTACTGGGACACCTGGTCCTGGGGCTTGCTCTTTTCGATRTTTGTTCGTAGCTTATCTTTAG
CACCTAGGACGATGTGTGTCTCCTATTAGGCACTCAAGAAAATAGGTTTTGAATGAATGTGGSTGATACGATAAGGGTCTGCTTTGTTCTATGATGTGAC
CATAGAATAAGCATCGGCTTCATTTGAGAGATTGGATCTTGCTGATGAACCTTTATTTTCATTTCAGATTAGAAAACTGAAGCTTCAGTTAGAGGAGGAA
CGACAGAAATGCTCCAGGAATGATGGCACAGTGGGTGACCTGGCAGGACTGCAGAATGGCTCAGACTTGCAGTTCATCGAAATGCAGAGTAGGTACCAGG
GGACAGGCCAGTCCCAGTCTGTATATAGACTGTGTCCCAGGGGTGGGTTTGTCAGCAGGTTGCTGGTATCTTGTAATACACTTTTCTTTTTTTTTTTTTT
TTGAGATGGGAGTCTCACTCTGTCACCCAGGTCAGAGTGCAGTGGTGCAATCTCCGTTCACTGCAGCCTCTGCCTCCTGGGTTCAAGTAATTCTCCTGCC
TCAGCCTCCTGAGTAGCTGGGATTATAGGCGCCTGCCACCATGCCCGGCTAGTTTTTTATGTTTTTAGCAGAGACAGAGTTTCACCATAGTTACCAGGCT
GGTCTCGAACTCCTGGCCTCAGGTGATCTGCCCACCTCAGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCGTTAATATGCTTTT
CTTAAGAAGAGCTATGCTGCAAAAATTGGTTAGTCCTTGGCTAGTCCAGAAAAACAGTCCTAGTCAGCAATATAGCTGAATAGAGGCTCCACTAGCCTGT
GTGCTTCAGGGGATAATGAGGTTTATTGCTCTTACCCTTTCTGGATAAAGTGATTTCTAGGAACTTTTTGCACACAGTGAAATGCCTTTTGACAACCTGG
CACTGTCCTTTTCCACATCCATTTGTCATCTTTAAGCTCCCATACAGCAAGCACCCTTCCCCATTAAAGTTTTTTCTCTGGAATTTGTCTTGGATAATTG
GAYGAATCTATTTGGAACTACTTCACACTAAATTGAGTAGTTTCAGAATTTTCCTAGAAGTATTTTGTTAATCCAAGTTTATCTTTATTAGATGAAATTT
AAAATAAGTCCACAAAATAAAGTCTATTCTATTCATTTTACCCGAATTATTCCAGTTTTTCTCATTTTTCTACTTCTGACCTCATAATAAAATGATCACT
GYAGTCACACTAATTCCCATAGTAGGAAGATTTCAGCAGGAATTTGTAGTTAGCCTTTGTTAGTGATTATGTGTAATTCTCGGACAGAGGAGATTTTCAT
TTTTCCAATAAGAATAGTGACTTTTCTGATAACTAATATTAAAATCTTGTTTATTCCATGGACTTTTCATCTAAACCTTCTGAGATAGGCTGCCAAGAAA
AGACATGTTGGGGCCAGGCGTGGTGGCCCGCACCCATAATCCCAGCATTTGGAGAGGCTGAGGTGGTGGATTGCTTGAGCTCAGAAGTTTGAGACCAGCC
TGGGCAATGTGGTGAAAACCCGTCTCTTCAAAAAAAAAAAAAAGAGAAAAGACTTTTTGGGTTAAGGCTTATTAATACTAACTTTTGATATTGGTATTAT
CTTTTCTGTTGGACATCAGTTAGGACACTTGTGACATTTCCTGGTGAATATTTTGTTCAAGAATGTCATTTTGGTGTTGGCGGTAGATGAGAACAGGGAC
ATGGGAAAAGGCAGGCTGACTAGTTAGGAAGCTACTACAGTGGTGAGCCTGAACCAGTTCAGTAGCTGTCAGCAGTCTTAGAGAGAGGGTAGGGAATAGA
TCTGAGAGATTGTCCTTAAGCAGCAAATTTAAAAGGAAACAGATTTAGGGGGAATGGGCTGGCATTTATGTGTGAATACTTCCTAGAGTAGGTAGGTTGT
TGTATAGCTGGTATTTGCAGAAGGTAAAGTACCCAGGCAGGAGGTGTAGAACAAAGTGAGCTTTGCAGGACTGTGGGAAAGCTGGCAAAGACAAAAGCAA
GCAGCTTCCCTGGACCAGAAGGCCAGGAGTGGAGCAACTCTTGGTTCTGGATGGTGCCTTGCCTATTATGAGAGTGTTTTGGAATGGGATTTCAAAACAC
ACATGAAGTTACTGAGATAAGAGACTTAAACTTTTGAAAACAGGAAGGGAAAGGTGGTTTGGAGAGTGAGAAGGAAGAAGTACATTTGGATAATCAATAG
ATTGCTGAGGATAACAATTTAAAAATCAGATCCTGAAGCTTGTTTTAGGGCTCAGAAATAGGAATACTTCTCTTTCACTACCAGATATGGCTTTTGGGGA
GATGGTAACCCTGTTCCTTTTAAGGTGACAGTAATTGTCCAATTAGAAAAACCTCTCACCACTTTAGGAGGCTGAGGTGGGTGGATCACGAGGTCAGGAG
ATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTTAGCCAGGCATGGTGGCGGGTGCCTGTAGTCCCAGCTACTCA
GGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGTGATGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCTAGCCTGGGCGACAGAGCGAGACTC
CATCTCAAAAAAAAAAAAAGAAAAACCTCTCACATTGAAGACTGTATAAGTAATTGTAACCTTGGTCATGTGGAAATGTAGAAAAGTTCTTAAGTTAGAT
AATCTGAATATTTCCTGTGGTATGTTAGATTTGGTTTATCTTTTGCAAATCTTATTACTGTAATCATGCCAGAGACTGATTTTTGCTAAACTTGGATTCT
TGGAGGGATTTTAAAAGTCCCCTGCCATCATTTCTAAACTTTTCATTTTAAGTGATTTACTTCCTAGGTCAGATGTTCATCTAGTAACTTATAGCTCTAC
CCATAACACATTATCACATTACTGAACAGCATTTATTCCAACATATATTTATTTAGGCATACACTGTGTGCACTTGGCTAGGTACATAGGTAGATTTAGG
AAGGCCAAGACAGGGCCCCTCTYCTTGCTTACACATACGATGTTTAAAAAGCATGACAAATGTCATAAAAATGCAAATAAAATACAGCAAGGGAAGGACT
TATAATTAAGGGGAGTCATGAAAGAGGTGAAAATTGAGCTTGGCCTTGAAGCAAGTCAGAGGTGGGAGAAAAGGACCCTTACAGTATTGGACAGCAGAAG
CAAAACCTGGGAGATGGGAAGGCATGGGGCCGCGTTCAGGGAACTAGAGGGCCCAGTCCCGTGGGCAGGGAGGCTCCACAAGGTTACACACAGGGTTGGT
AGGGGCTGCTGCTGAATTGGCAGGGCTCCTTTCTCAAGCCCTGCTCACACATATCATAGGGTAAAGAATTTTCTTCTAACTCTTGCTGCAAGGGATACTG
TAGTAACATATATGCTAGAGCATCTTGTAGTATATACAGTCCAGAACCTGGGCTGCTGAAGATGCTGTGGTTGTTGTGTGTRCATTTGTATTTTGTAATT
TTTTTTTGGCAGGGGGACGGAGTATCGCTCTGTTGCCAGGCTGGAGTGCAGTGGCGCGATCTTAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGAT
TCTCCTGCCTCAGCTTCCCGAGTAGCTGGGACTACAGGCCTGTGCCACCACGCCCAGCTAATTTTTATATTTTTAGTAGAGACAGGGTTTCACCATGTTG
GCCAGGATGGTCGCCTCTATCTCTTGACCTCATGATCCACCCACCTCGGCCTCCCAAAATGCTGGGATTACAGGCGTGAGTCACCGCGCCCAGCCCTGTA
TTTTGTAATCTTAAGACTGCATGGTCCTCTCTGTGCCACAGAGGTACTGCCTGATGGCTCATACTGTCATCTCTGACAGGTGAAGATAATTCATTGTCTT
CTTCTGTTCTAGGAGATGCCAATAGACAAATTAGCGAATACAAATTTAAGCTTTCAAAAGCAGAACAGGATATAACTACCTTGGAGCAAAGTGTAAGTAC
TTCTATATGGTACTAAGTTATTTAAATGTCCTTCCTGCATCTAAGTGGCTAACAACCCATGAGTGCCTGGGTTGCCTTTGCAGTTGGATCAATAATAGTT
CTGTATTAAAATAGAAAAGCCAGCAGAGAGCACTTGTTGGGACATTTTAGCCTTCTGTTTTCTCTAAAACCATAGGAAACTATAGCTATCAKTTTTTGTA
GATATTTCAGGAGAATTCAAGATCATCATTTGTAATAAAATCCCTTACGCATTCCAAAAAGTGTAMGAACTTTTCCATTTAGTGTCTCTTCCTATATTGC
TTTGGCACTTAAACAATATGGTCATAATAAAACTTAGCATGGGAAATTGGCCCTAAAATGACTCTACAGCTGTAATCCTCTCTGGGGACATTACTTGATT
TATAAATAGCAACTGAGTTCTGAGAGGACTTATGAGTCACCCTTAGGGGACTTGTTAGTAGATTACTTGGCATTTATAATGACATTGTATTTCCATCCTG
GCTACCAAAAAGTGGTGACTTCTAGTGCCCAGTACTAGAGGCCTRTGTTCTCATAYTTACAGATTAGCCGGCTTGAGGGACAGGTTCTGAGATATAAAAC
TGCTGCTGAGAATGCTGAGAAAGTTGAAGATGAATTGAAAGCAGAAAAACGGAAGCTACAACGAGAGGTACTTCTTTTAATATGTTTCTTGGAGAATACA
TTCCTAAAAAGAAAAAATCTTCTGGAAATAATTCTTAGCTGTGTAAGAAATTTGATACTTAAGGAAACAGCAGTGGAGTCACTTAACTAATTTGTGTTGG
TTTTTGACCTGCATAGTGACTGCCATTTACTTTTATGTTTTGGTCAATTAGATACTAAGTAAAAAGATAGTTTGTATTTTTGCTTCAGATCAGGTCTATT
TCTCCAACTTCTATATATCCTTTCTGTGATTAAAACAAATAAACAATCCTCAGTATCATCATTTAACACCTCTAACTGATAGAAAAAATGAGGTTGTGGG
TCCTGTGCAAGGCCATCACAGTTAGCAGTGCTTTCATTTCCCAGGAAGTTGAAAATAGAGTAGCACTGGATGTTGTTTCTGACCACATGTAGTGACTGCA
TTCTCCCTGTCTCCAGTTACGAACAGCACTGGACAAGATTGAGGAGATGGAGATGACCAACAGCCACCTGGCCAAGCGGCTGGAGAAGATGAAGGCCAAT
AGGACAGCACTTCTGGCCCAGCAGTAGGAAAACCACCCTTCAACCTGGGTGATGCTCCTTGGGGCCCTACCTAGAGGGACTGACTTTTGTCCATTGACAC
AAACCCCTTTTAGTACTGTTTTGAGTTTTGTCATTAAAACAGCCACCTTTGTATTTTATAATTTATGACAGAATGAAGTCATTTTGAATCTACATGAATG
AACACTTTGGATTTTGTTGTAGTTTGATTCTAGGGTAGAACCAGTCCATGCTGTTTTTATTTTTTATCTCCGTAATTGTAGAATCATGTTTACTCAACRT
TTTTCCCCAGCTGCCTCAGTAACTGGGCACTCGGAGGCCTTGGCACGGGTTCTGGAGGACAGACAGCAATTCTATGAGTGCTCACTGAGATACTTGCTGG
AGACCTCAGAAAACACAAGTGCCTTCTCCACGGTGCAATTCAGACTTCAGTGATCTCCAGTGGTCAAAAGACATTTACCCTTAATATCAGACAACATTTA
TATTTTAGTGAAGAAACAAGTTCTCGGGTGGGGAATCTATGTTTCACTCAGATTTATATGTTTGGAGGAAAAAAGCCTTTTTTTGTAAAATATTTAAATT
TATATAAGAAAATGTTAGAAAAAAATATGGGGAGTGTATATAAAACTTGCTTTATTGCATGGGGCAGGGGAAGTCCAGGCCTAATACTCYTAAAGTAAGA
GTTGGGTCCTTTTTTTCTTCAATACAACTGTGCTGTACCTTGTAAAGTATTTTATCTGCTGCTTATTTGTGGAATGAAACCTCAAACAAACCCAAAGGGG
GAGGGTAGGGCAGGGCAGGCAGATTGGAAATCTGCCTGCAGATTCTRTTAAATACACCCTTTTGCCAACCACAATTGGCTACTGACATGTTCATTTTGTT
ATAGGAGACTTTAAAACAAATCATGGCAACCACATCCCTCTTCTTTTGTCTCCTTCTCAAGGAAAAACAATCTGGAATGTAGAACTTTTAAAGACTTGAG
TTTCACCTTTAGAGGTACCCTGTCCAAGAGGTTTTTTTAAAATCATGGAGTGCAACTACTTTGCAGAATTTATGATTCTCTTTTGCTCTTAGTACCCAGG
TGGTTTTATAGAAATGATTATTGTATCTTTAAAGTGCTTACACAGAAAATATATTGGGGGAAAATCTAGTGACTAAAGGCACATAAGATAATAAAACTAG
ACTTTAAAAAGGTAACTCAAAAGTGAATAAAATCTCTAATATTTGTTCCTTTTTTAATTAGCCCTTCATTTAAAAAATATGGATACCAATCTTCTGAATT
GAGATGATTTTCTATACATTTTCTTTCTTTTTTTTTTGAGACAGAGTTTCGCTCAGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAA
CCTCTGCCTCCCAGGTTCAGGTGATTCTTCTGCCTCAGCCTCCCGAGGAGCTGGGACTACAGGTGTGCACCACCACACCCGACTGATTTTTGTATTTTTA
GTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACTTCAAGTGATCTGCCCACCTCAACCTCCCAAAGTGCTGGGATTAGAGGTG
TGGGCCACTGTGCCTGGCCTCTTTTTTTTTTTTGAGAGACAGTCTCGTGCTGTCACCCATGCTGGGGTGCAGTGGTATGATCTTGGCTCACTGCAACCTC
TGCCTTCCGGGTTCAAGCTTGATTCTCCTGCCTCAGCCCCCCAAGTAGGTGGGATTACAGGTGTCTGCCACCACACCCTGCTAATTTTTGTATTTTTAGT
AGAGTTAGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTACTGACCACAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGTTGGGATTACAGGCATG
AGCCACCGTGCCTCAGCCTATACATTTACTAATAGTAGCAAGTTGTGTGGTTGGGGGTGGGTAGAAAGGTGTTCTAAAGTGCAGGTTTGTTCTAGAACTC
CATCCCAGCTAAAACCAACACACTGTGTGGCCCAGCTCTTGAAGCTCAGAAAACCCCTCTTCCTCTCCACTCAAGATCACCCAGCCTGTGCCCCACCTGG
GCTCATGGAACCTCACTTCTGAGATGCCCTGGTCTACTTTATGGAGTTCTTATTGTTCAAAACTGACCTTGCCTATTTTGTGGCACAACAAATACGTCTG
TAACATTTTGTCTTCCTAGTCTTTCCAAGTGAAATTGCTCCATTTCTTCATAAGATGAGAGTAGTCTGTTCTTTATCACTGAACTTTCTTCACTGAGTCT
TGGAATATGGATTTTACCTTAAAACCACAGACATTCTTCCTTTCTGAGCTGAATGCTCCATTTCTCTAAATGTAGGCAAATATTAAGGAAGTTTATTTTG
TCACTCACAGTTTAAATTTATATTTTTACATCATCCTTCAAACAAGATTACCTAGAAACTTCTTTATCTTAAGCTATTAGTACTCATAGTCATTAACAAA
GTGGGCTAACTTAAAAACTCATACTTAATGCCGGCCGCAGTGGCTCATGCCTGTAATCCCAGCACTTAACTTTGGGAGGCTGAGGTGGGAGGATCACCTG
AGGTCAGGAGTTTGAGACCAGCTTGGCCAGCATCGTGAAACCACATCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCAGGTGCCTGTAATCCC
AGCTACTCAGGAAGCTGAGGCAGGAGAATTGCTTGAACCCGGTAAGCGGAGGTTGCAGTGAGCCAATATCGCGCCACTGCACTCCGGCCTGGGCAACAAA
GCAAGACTCCGTCTCAAAACAAAAAAACAAAAACCTCATTATAGATGAAGTAAGGACTATTTTCTTTCTTCAAGTTTTTTTCCTTAATAATTAGCTTTGG
TTATTGTAGACACCAGATGATCAAATCAAGCTTTCTCCATGGTCAGTGCCATCAGAGCCTGTGACATGTTCAAGACCTCTTTTTGGCATCTGAACTGACA
CAATATATACATAATAAAATTAAATAAGAAATTATGTTAAGACACATCTATTTATTTATAATCAATCCACTGTGTATAAAGGAATACTATCAGAAGGCAA
GTATAAGTCTTAAGTGCTACCAACACTTATGTTGGTACACTTTGTATATCACACTTTGATACAACACTTTGTATCGGAATACAGAGAAAGAAGAACACAT
CCCACAGTGCATAAATAACCATATTTAACACCWCTCAAAGACTYTSTATAGATCAGGCAGGTTAGCAAGCTGCAGGATATTTCCATCTTCTGTGAAATGT
TWAGGAGGCASAATGTGTGAGCGCAAGGCTTTWTAGACAATRTRTTCCAYAGTYCACTTCCAGGAGTTTGGAATGGARCCAGGCACTTCACTCTGGAAAA
CACATTAGATGTCATAAGCCTCCCTGTTTGCATCCCAACATACACTGGTGTCCTGGCTGATGGGATGTGCACTGGGTCTGGAAAGACTTGGTGTTATCTA
GGGCTTTTGAAGTGGATCTTGTGGGCTAGCCTCTCAGGGGATCCCACAGGCCTGAACACAAGAGGATTTTTTGTTTGTTTGTTTATTTAGAGACAAGGTC
TTGCTCTGTCACCCAGGCTGAAGGGCAGTGGTGTGATCATAGCTCTACAGCCTCAAACTCCTGGGCTTAAGCCATCTTCCCACCTCAGCCTCCTAAAATG
CTGGGATTACAGGTGTGAGCCACTGTGTCCAGCCAACATGAGGTTTTAAAGGGAGGAAAAGAAGCCACTGCTCTGTGGGACTGTCTCCTGTGGAACCTTT
GTTTTCATTCAGGGAGAAAATGGTTTTATTGTAGCAGGAGCTAACATCATGTCTGATCCTGACTGATATTTGGATGGCAACTGTAGGAAGTACCTAACTT
ACCATTAAAATCGGGTCTGAAAGTAGTTCTAATCCCCAGGGGAGGAATGAAAATATTAATGAGGATTATTTTGCCTCATTATTCCTCTCCTTCTTGTAAG
CCTTAGCTGTCTCATGTGTAAGAAAATGTTCTTTCTCAACTGTCCTTCCTCTTCTTGAGGTAAAATTTCTAATCAAATGAGATAGTTTCCACACAGTTTG
GTAAGTGTGTTGCCTTCTCCACTGGAGTGAGAAATTCCCTAGAGGCTTTGGCCAACAGGACTAAATCTCTGCCCTCCCACCTACAGACTTGGAATCCTCG
AGCATGCCTGACTGGCCTTCAGCCTCCTCATCTGAAACTCGCTCACACTGCTCAGGAGATGACTGTGAGCAATCAGGGGTCATACTCTGATTAAAGTGGG
CTACTCTTTGATTCTTAGAATATTTCAACTCTCCCTTCCAACCTCCCCCAAAATATATGTTGATTTGAAAAGCATTATCATCTGACTGGGAAAAGTGACA
ATGAAACATTAGGAATCCAGGCACCCTTTTTGTGTCAAGCTGACCTGTAAGAGGAGTTATAGAGCCTTGTTTTCCTGGCAGGGCAGTGGTCGGATAAAGA
GTAAGGCAAAAGCTAAGAGAGACTGAGGCAACTGACCCAGAATCTGAAGACTGGCTACACACTTCAGAGCTAACAGTGGGAGTATATGGACTCTCCAGCC
TTAGACAATCTAACTCAACCTCCCATTTCTCACTGTGATGGCTTGTGTTTTCACATTTGACAATTTCTGAGGTCACTCTGGAGGTATGTTCTACATCAGC
AGATGGAAGTAAAAATCATGAATAAAAGCTGACTGTTGTGTTTGAACCTTGTTGGGTACAAAGAAATCCCGAAATTTTAGAGATGGGCAAGTTTCATCTC
CTAAAGATTGTATGAGGTCCTGTCCTAGTCCTGGGGTGCCAGTGTGCATCACCACTGTACCTGCTGGCCTSAGAGGGTCGACTCCTCAGATATGTACTGC
TTCCRGATGGAATAGAACATAGYGCATTCTTTACTGAGGCTTTCAAAACATTCCTTTTCTTCGTCCCAATTCACCTGGTCCAAAGAAATTCAATACCTCA
AAATAGGTACGAATTTAAACATTCTCATTCTAAACGGAGATCACAGACTACTTAAAGCTAAAAAACGAAATGTGATACTTTAGGCGTTAAAACTRTAAAT
GGGACTGCTGAATATTGCTGGGAATGAATATTAGTGGGGATGAGAGCAGGCCTTCAGCTATCCCACCCTTATCATCTTTATCATTCCAGATCAAAGGGTG
GTCATTTGCCCTTTCCCTCCAGCACACATGCATGTACCGAAATGCTTAGTATCTGCTTGATCACTGACCTCAGKGGCTAGTSRAAGAATGAAGATAGGMA
GTCCCTCCAAAGGGGRCACATAGTTGTCAATCAGAAGGGGTAATCCAATYAGGTTCCCTTCCTGCTTGCAGGAAAAASGACAAGGGAACAAGAAATAATG
CTGTCATAGTTTAAACAAATCCCATTTCTCCAGTGCTTTCCCAGGCCTTGTGCTCCTATCTGCCACTCTGGGTGACCACGTTACTTGATTGGGCTGGGCA
CTGGGGGCAGACCTAAACACTTAAAAAAGAGTTTTTCATCCTGACAAACAGCACGGCAGAACAACCTTTTCTTTGGATCTGTTCACGATCCAAAGAACAC
ATCAAGATGGAGAGCCCCAAAAATGAAAGAATAAGAAGAAATGGGAGCAAATGGCATAATCTCATTTATAATGGCCTGCAGGGATTCGGCTCTCCATGTC
TGGGTCCTTCACCCTGGGAACAAGAGTAGGCATGCATGGATAGTAGTACAGTTATATAACCTAGAAATGCAAATAGGGAGTGGAGAGGATGTCACATATG
TCACTTGCTGCTTCTGAGGGGAGGCCTAGTCCTGACCTTGGAACGTTCTTTTTTTTTTTTTTTGAGACGCAGTCTCGCTGTCGCCTAGGCTAGAGTGCAG
TGGTGCAATCTCGGCTCACTGCAACTTCTACCTCTTGGGTTTAAGTGATTCTTCTGCCTCAGCCTCCTGAGCAGCTTGGATTACAGGTACCCGCCACCAC
GCCTGGCTAATTTTTCTATTTTTTTAGTAGAGACGGGGTTTCATCATGTTGGCCAGCTGGTTTTGAACTCCTGACCCCAAGTTATCTGCCCACCTCAGCC
TCCCAAAGTGCTGGGATTACAGCCATGAGCCACCGCACCCGGCTGGAAATTTTATTTGAAGAATACAACAGAAGTATAAGAATGGCTGTCACACCTCATC
AATTTCCAAAGAGAAATAGTCTGCAAGCATCTCAGCCKWCTTCTTCAGAAACTCAACAATGTATTCAGCAWGTCCTTCTTWGSGACCATCTTCCTCTGTC
CAGCCACTCTCTGGACTATCTAAGGCAAGCATGGCAAGGTCAAAGASCGGTGCTGGCYCCTAGGAAGAAGCAAGAACATGAAGGAGCAAGCTTTAACGGA
GCATCCAAATGAAGCCTGAATTCCCAAGAATCCACTATCAGAATGGCAGGTGAGAAACCATAAATGTAACACTCATCCCCCATATACCCCAAAGGAAGTG
CCTGAACAATCCACAACAAAACCCCTTTCCTCCTCTTGTCAATGGCCATTTCAACAGAGAAGATACGACAGACAAAAAGCCTGCTGAAAGGATGGGAAGG
GTGAAGCCCTGGGGAGGTACTTTCTTTCTGTGTAGCCTTAAGGACTCAACTTTCGTATTTCTAGAAAACCACAGGCAGATCATTTCTTTCTACTGCCTCA
TAACCAAAGCTGGGCGGGTGAGGATGGAGAGTAAGTTAAATTGAATGACATTTCAGGTAAATCATCTAATGCAGAAACAAAGGGAAAACTATGCTTAAAA
ATAAGATGCCTAAGTTATCTTCCATTTCTCCCCTTCTGATAATATGTTACTCATACTTTTACATATGTTATAAACCCACAGTATATTATCTTTTCATAAT
AGAAGAGTCCATTATCAAAAGGATATAACAATCCTAAATGTTT


SNP Information

Context             (SEQ ID NO:16389):
CCCAAAAAGGTGAGAAGTCCAATGGGAAGTGCCCATGAGGGAAGCCTGCAAGTTGCTGATAGGGCAGCATGAGTTTGTCAGTAAATATCAGAAGAATTAC
R
GAAATAGTTGATGTTCTCATTTAATCTTACTCCTTTAATCTTCAGGATTTAATCTCTCTTTTAAGGTTTTAGAGATACGACTTTTGAAATTATCTTGGAT
Celera SNP ID:            hCV15757756
SNP Position Genomic:     129652
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,193|G,1298)   total(G,1298|A,193) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16390):
AATAGCTTATCTGCTAGAATGTGTGACTTGAGTAATATGTTTTGGTCATGGAGGTTTTTTTTTTTTTTTTAAACAAAAGGGTTAGATTTTTTTTAATTTA
R
AAATTTCTATAGAGAAGCAACTTTATTTTTGGGGAAGTGTCTCTCCATGGTAAGTGACATTTTACTACTACACAGTTTAAATGCATACTATTACGCATTT
Celera SNP ID:            hCV7534666
SNP Position Genomic:     102470
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16391):
GTGACTCGAGACCCTCACATGTGCCTCTTTGCCTCTATCCTGTCTTGGGAGTACTGCTCCTTCCGTAACTCCCCCATCTCCTCAGGCATTTGGACCCCAG
Y
GTTCCGGGCCTGAGAGTCCAGAATTTCCACTCTCTGTGATACAAAGAAGAGGCCCTGGCTCATTATTGACTATAACCCTAGGGTTTTTCCTCTTAAGAGG
Celera SNP ID:            hCV707369
SNP Position Genomic:     30124
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16392):
GTCTCCCAAAGTGCTGCGATTACAGGCGTGAGCCACCGCGTCTGGCCAGAATACATTTCTTAAATTATTTTCAGATACCTTCCCAGAACCTGTCAAGTTA
Y
GAGAAGGCTCAGGGCTACTGAGCTGATAGTCTCAAGTTTTCTATATTGGTCACATAACATTAACTACTTAACCACCTAGGTTCCGGGCTGTCTACTTATT
Celera SNP ID:            hCV29123836
SNP Position Genomic:     13359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16393):
ATTTTGAAAAAAAATGAGTTGAATGGGATGAGGATGTGTTGGGAGGGAAGGAGAGTTAAGATGCATCAGAGTTTGTCTCTTTATATTTGACTGTACACTA
M
AAATTTTCAAACATAAACCAGATTATGCTTAAAAATTAATACTATAAATCCTATAAACATTACCCCACTTTGGTAGCAGAAATTTTTGTGTCTTTTATTC
Celera SNP ID:            hCV15757757
SNP Position Genomic:     144670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16394):
AGGACTCTTGGAATAATGGACTATGCTACAGGATTATTTTAAGTTCAGATAGATAAATTAGCTTCTTCCCAAATTCTCATTCTGCTTTTCCTGTGGTACT
R
TATAGTATCATGAAGTTATATCTTTAAACTCTTAGTTTGTACTATGTGGTGTCTTATGAAAACCTTGATTTGTTTATACTTAGTGAATGAAACACTTGGG
Celera SNP ID:            hCV7534950
SNP Position Genomic:     58633
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16395):
TCTCAAAGACTTTGTATAGATCAGGCAGGTTAGCAAGCTGCAGGATATTTCCATCTTCTGTGAAATGTTTAGGAGGCAGAATGTGTGAGCGCAAGGCTTT
W
TAGACAATGTGTTCCACAGTCCACTTCCAGGAGTTTGGAATGGAGCCAGGCACTTCACTCTGGAAAACACATTAGATGTCATAAGCCTCCCTGTTTGCAT
Celera SNP ID:            hCV27530818
SNP Position Genomic:     169333
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16396):
GGCAAAGACCTTTCATTGGAAAATGATGCTTTCTTTCAAATTATTGTCATAAGTAAATCAACTCTAAAATCATGAATACTTTAATCTATTAACATGGGTC
Y
AATCTCTTTTTCTATAGAAGGACCTTTGATTTTGGAAAAGTATCACAAAATAATTAAGATTGATCTTGTAGAATAACATTTGTTTGGTTCTAACTTTCAG
Celera SNP ID:            hCV3028611
SNP Position Genomic:     98298
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16397):
AGGTCGCGCCACTGCATTCCAGCCTAGGCGACAGAGCGAGACTCCGTCTCAAAAAACAACAACAACAACAACAACAACAACAACAAATGTAAATCAGTGA
Y
GAATTCCTAAAGATCAGAATACCTGATTAGAAATTGAATCATAGTAGTGCTTATAAACAGACTTCAGCATACATTTGGTCAAGGGCATCAGTCACAGCAG
Celera SNP ID:            hCV3028612
SNP Position Genomic:     96411
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,14)   total(C,14|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16398):
ACGTCTAAATGCTGGTCTCAGCTTTATGATCTCATAGATTCTTACTTAATCCTTCTGTGCTGCAACTTTCTTACTGCAAAATGAAGGGGTCAGACTAGAT
R
ATCTCTAAGGACTCTTCTAGCTCTTAAAAATAGAATTGCTACCAGGGTCACTTTATATCGTTGCTACCAGGGTCTGTTTCCCTCATGTTTGCCACTGTGC
Celera SNP ID:            hCV3028613
SNP Position Genomic:     94997
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16399):
TAGTGGCATTACATCCATTTGCATTGTCATGCAGCCATCACCACTATCCTTAAGAACTCTGTCATCATCCAGTACTGGAACTCTGTACTCATTAAATAGT
R
AGTCCCATTTCCCCCTACCCTCAGTCCCTGGCAACCACTATTGTGCTTTCTGTCTGTATGAATTTGACTATTTTAGGTTTCTCATTAAGTGGAAGTATAC
Celera SNP ID:            hCV3028614
SNP Position Genomic:     85909
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16400):
GCAGAACATTGTGCTGGAGGGTCATGGGCCAAATCACTAAGTTCCTTATTAATCTGTCTTAGTGCCATAGTATGTGCTTGTCATCTGGCTCCTCACTCTC
Y
CGGTATGTGCTCAAAAGTCTGGCCAAAACTCCTGGTTATCCCGGAGGTGGGACAGCATTGTCTCATCTCATACCGGCTCTGCCAGACACAAGCTCTTGGT
Celera SNP ID:            hCV3028616
SNP Position Genomic:     84943
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,32)   caucasian(C,19|T,19)   total(C,25|T,51)
SNP Type:                 INTRON;UTR 5

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:16401):
GTGTTAGGACAGACTTACTTGAGAATTTCTTTGTGATTCATACTGTAATGAAATTTTGCTGGTTTATTTTGTTAAAGCAAGTCAAAAATTTTTTAAGTTA
Y
GGAATATTTAGCTAAATGAGCTATACTTCTTAGCAATGTGTATAGAAGAAAAGAGGGCATGAAATTTGGGTTGCATTCTTTCATGGTAATCTTTAATCTC
Celera SNP ID:            hCV3028619
SNP Position Genomic:     78405
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16402):
AGATTGTATGAGGTCCTGTCCTAGTCCTGGGGTGCCAGTGTGCATCACCACTGTACCTGCTGGCCTGAGAGGGTCGACTCCTCAGATATGTACTGCTTCC
R
GATGGAATAGAACATAGCGCATTCTTTACTGAGGCTTTCAAAACATTCCTTTTCTTCGTCCCAATTCACCTGGTCCAAAGAAATTCAATACCTCAAAATA
Celera SNP ID:            hCV27528251
SNP Position Genomic:     170905
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16403):
GAAGTATAAGAATGGCTGTCACACCTCATCAATTTCCAAAGAGAAATAGTCTGCAAGCATCTCAGCCTTCTTCTTCAGAAACTCAACAATGTATTCAGCA
W
GTCCTTCTTTGGGACCATCTTCCTCTGTCCAGCCACTCTCTGGACTATCTAAGGCAAGCATGGCAAGGTCAAAGAGCGGTGCTGGCTCCTAGGAAGAAGC
Celera SNP ID:            hCV27535900
SNP Position Genomic:     172271
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16404):
CCTTATAATTAGCTATTTTAACCAACTTAGTTTTTCCCTCCATCATTTTAGAAGGTAATAGAGTTATTTTAGTATGCATAGAGTTGTTTTCTTAATCTTG
K
CCTTTTTTTTTTTTTTTTTTTCTTTTGGAGACAAGGTCTCACTCTGTAGCCCAGGCTGGAGTGGAGTAGCGCAAGTATAGCTCACTGCAGCCTCTGTCTC
Celera SNP ID:            hCV1219110
SNP Position Genomic:     137651
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16405):
CAATCTTGGCTCACTACAACCTCCGCCTCCTAGGTTCAAGTGATTTTCCTGCCTCAGCCTCTAGAGTAGCTGGGATTACAGACATGCACCACCCTGCTCG
K
CTAATTTTTGTATTTTTGATAGAGACAGGGTTTCACCATGTTGGCCAGGCTGCCCAGCTATAGTAATTTTAAATGGTTAAGTAGAATTTCTGCTGATGGC
Celera SNP ID:            hCV27830482
SNP Position Genomic:     79741
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(G,35|T,1)   total(G,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:16406):
CCCTGGATGACTCTTTTTTTATTTAAAAAAATATTTTCTTGAGGAAAAGCTTATGTCTTCTGTTAAGTTTCTGAAAATAGAATACAACTCAAGTTTTAGC
K
TCATTTTCTATCTCTTAATTGGGACTGTAATTACAGTGTTACTTATTTCTTCTGGTTACAAGTGACTGGAACTCCCGCAAAGCTCCAAAGACTCTCAATA
Celera SNP ID:            hCV1219111
SNP Position Genomic:     136182
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,10)   total(G,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16407):
AGGGGACTTGTTAGTAGATTACTTGGCATTTATAATGACATTGTATTTCCATCCTGGCTACCAAAAAGTGGTGACTTCTAGTGCCCAGTACTAGAGGCCT
R
TGTTCTCATACTTACAGATTAGCCGGCTTGAGGGACAGGTTCTGAGATATAAAACTGCTGCTGAGAATGCTGAGAAAGTTGAAGATGAATTGAAAGCAGA
Celera SNP ID:            hCV578238
SNP Position Genomic:     165345
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,10)   caucasian(A,21|G,7)   total(A,37|G,17)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;(A,-|G,-)   JBIG-allele(A,317|G,388)   total(G,388|A,317)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16408):
AACAGGAAAGTACTAAAAACAACTGTCTAGAAAGTGGCAAAATTCAAATGCGTATGAAGTTCACCTGTGTAAAGAGAGGCTGTATTCTGTGGTATCACTG
Y
GTTCTGAACACCAGTCTGTTATTAAAATTATAAGAGTAAAATTTCTGAAAATATTGATGATTCTTCATTTTATGACCCTTACAGATATATGTTGTTGCAA
Celera SNP ID:            hCV1219112
SNP Position Genomic:     135391
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16409):
CTAAATAGGTCCTTCATAAATGTGTATTGAATGAATCGATAAGTAAAAGACAGTCAAACCTACTGGAGAGGCAATGAAGGAGGCAGGGAAAATATAATAC
Y
AAAAATGTGTATAATCAGCCTTTAATAATTGATCCTGCTTGTAATTGCAGAATTGTATTTAGGGCCCTGTGCAGTTATTTCGGACATAAATCGAGCATTC
Celera SNP ID:            hCV1219113
SNP Position Genomic:     127203
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16410):
AAAAATACCCCAAAGATGTACTGTTCCATAAGCAGACACAAATTTAAAATATGGCTATTTTCTACTGGGACACCTGGTCCTGGGGCTTGCTCTTTTCGAT
R
TTTGTTCGTAGCTTATCTTTAGCACCTAGGACGATGTGTGTCTCCTATTAGGCACTCAAGAAAATAGGTTTTGAATGAATGTGGCTGATACGATAAGGGT
Celera SNP ID:            hCV25927503
SNP Position Genomic:     160778
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:16411):
TCGGCCTCCCGAGTAGCTGGTATTACAGGCACCCGCCACCATACCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGTTC
R
TCTTGAACTCCTGACCTCAAGCAATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCTCCTGGCTTTCTTTAATGTAACTT
Celera SNP ID:            hCV1219114
SNP Position Genomic:     113698
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16412):
CTGCATGCTTTGTAGAAATTTTTGATTGTTGCGTTAATCTGTACTCACTGTTTAGAATATTGAGGATATGGTGTGATTCACTTTGTTGTGCATGGATTAG
R
TGTTCCCTTAGTACATAAACTCAAGCACTAATTTGTCCTAATAATTGGTGATTTCTCTATAAATGTGACTTAGCATGTAATTTCTTAAATGAGTCTCTAA
Celera SNP ID:            hCV1219115
SNP Position Genomic:     111609
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,11)   total(G,11|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16413):
ACACTTGAAGTGGAAAAAAACCCATAAAAATAAAGAAAAGATTGTCTGATTGGTGACCAAGCATGGTGGTATGATGTATCCTATTGAAAAAGGATGTTGG
S
TCATTGCTTGTGACATTACTGTTATTATGTTTGCCTTTGGGATGCTCTCAACCACTCTCCCCTCCATCCTTTTATCAGGAAAGTTTATTATTACTAATAC
Celera SNP ID:            hCV27495130
SNP Position Genomic:     130114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16414):
GGTTTAATAATACACTTTTTTCTTAGGCCTCTCCTACTGCAAATTCTGGTCTGCTGAGAAGTGCCAGTCTGGTTTGTATTTTCCTCTTCCAGTGTGTGCA
S
TGCTGGTGGGGTCAATGTCATGGTGCTAACTCTATGGCTTGACAGCTTTTCTCCAAAATAGTTAAGGACACATGATTTTAGTGTCATGTATACTGCAGAA
Celera SNP ID:            hCV1219116
SNP Position Genomic:     110068
SNP Source:               Applera
Population(Allele,Count): african american(C,17|G,9)   caucasian(C,16|G,10)   total(C,33|G,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,10)      total(G,10|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16415):
TCCTCAGCTGAAGGGGCCTATTTTAATGCAGGCTTGGGAAGAGTCAAACCTCCACAGGCTAGGAGTGAGCCCTAATGGTGCTGCCACCAAGCCGCAGATC
Y
ACCCATGGATGCCCACATCTTTTTTTTTTTTTTTTTTGAGACGAAGTCTCACTCGGTCGCCCAGGCAGGATTGTAGTGGCGCGATCTCAGTTCACTGCAA
Celera SNP ID:            hCV1219047
SNP Position Genomic:     155254
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,14)      total(C,2|T,14) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16416):
GTCTATTCTATTCATTTTACCCGAATTATTCCAGTTTTTCTCATTTTTCTACTTCTGACCTCATAATAAAATGATCACTGCAGTCACACTAATTCCCATA
G
TAGGAAGATTTCAGCAGGAATTTGTAGTTAGCCTTTGTTAGTGATTATGTGTAATTCTCGGACAGAGGAGATTTTCATTTTTCCAATAAGAATAGTGACT
Celera SNP ID:            hCV11529305
SNP Position Genomic:     162022
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,7)   total(G,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16417):
AGGTCTTCCTGTCTGAATGAGAAAATCATTCAGGTTTTCTCCTGAATTGTTCTCCTGAATGATTTTTTCATTCACGTCTTTCTCCTTCAAAGATGCTCCT
Y
TTCCACATGCTACCTAAAATGTTGGCCTTGCATCAAATTCGATTCCTGTTCTCTCCTTTTGACCCTGAACCAACTCCTTGGGTTATCTTGCTGTTCCCCT
Celera SNP ID:            hCV707371
SNP Position Genomic:     18331
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16418):
ATCCTGATTCAGAGAAAATGTGCTTCTTACATTCTGATCATGATGCTACTTCCATCTGACTGCACAATTTCCAGGCCCAATCATTGTGTACCTTCCAAGA
R
AGGGAGTCTGTATTTGAAATAGCCTCAATAATGAGGCCACACATTAGGCTCAGCCTATGTTGGCTTATGGTTCTCACAGAAAAAATTATCCACACTGCTA
Celera SNP ID:            hCV707372
SNP Position Genomic:     16886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16419):
ACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAATCTCAGAGGTAGAAAGAGGTAAGCCCTGATCAGTGAGGTTTATCCTGATTCAGA
R
AAAATGTGCTTCTTACATTCTGATCATGATGCTACTTCCATCTGACTGCACAATTTCCAGGCCCAATCATTGTGTACCTTCCAAGAGAGGGAGTCTGTAT
Celera SNP ID:            hCV707373
SNP Position Genomic:     16799
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16420):
CAACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAATCTCAGAGGTAGAAAGAGGTAAGCCCTGATCAGTGAGGTTTATCCTGATTCA
R
AGAAAATGTGCTTCTTACATTCTGATCATGATGCTACTTCCATCTGACTGCACAATTTCCAGGCCCAATCATTGTGTACCTTCCAAGAGAGGGAGTCTGT
Celera SNP ID:            hCV707374
SNP Position Genomic:     16797
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16421):
ACAGCAGTCCCCTGCCCTGGCTCCTCTGACCTCGCCCCTGACCATTTCTGTTAAATACTTTTAGCTGATTCTTGTGTACTGTCCTTGTATCTCTGTATAA
M
ATACTTATGTTGCATCTTGATTGTTCTGCTTCAGGCATTCTATATTGACATCCTTTTATGGAAGATGAGGATTTAGCTGTTTTTCATCCTTTGTCCCTGC
Celera SNP ID:            hCV11529309
SNP Position Genomic:     156473
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,6)      total(A,3|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16422):
ATTTCTATAGAGAAGCAACTTTATTTTTGGGGAAGTGTCTCTCCATGGTAAGTGACATTTTACTACTACACAGTTTAAATGCATACTATTACGCATTTTA
R
AAAATTTTGTAACAAGATTTTGTTACACATGCAATAATAATATTTTTTATTGTGTTTTCTGTTAGTTTCAGGATAATATAAGAAAAGCATGCGGTACAGA
Celera SNP ID:            hCV7534671
SNP Position Genomic:     102573
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16423):
CTTGCTGCAAGGGATACTGTAGTAACATATATGCTAGAGCATCTTGTAGTATATACAGTCCAGAACCTGGGCTGCTGAAGATGCTGTGGTTGTTGTGTGT
R
CATTTGTATTTTGTAATTTTTTTTTGGCAGGGGGACGGAGTATCGCTCTGTTGCCAGGCTGGAGTGCAGTGGCGCGATCTTAGCTCACTGCAACCTCTGC
Celera SNP ID:            hCV16125339
SNP Position Genomic:     164282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16424):
CTTTGGAAGGCTGAGGTAGGAGAATTGCTTGAGCCCAGGAGTTCAAGACCAACCTGGGCAACATAGCAAGACCCCATCTCCTAAAATTAAAAAAAAAAAA
A
TTAGGTAAGTATGGTGGCATGTTCCTGTAGTTCTGTAGTTCCAGGTACTTGGGAGCCTGAAGTGGGAGGATCACTTGAACCCAGGAGTTCGATGTTGCGG
Celera SNP ID:            hCV26449851
SNP Position Genomic:     103265
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16425):
GACATTTTACTACTACACAGTTTAAATGCATACTATTACGCATTTTAGAAAATTTTGTAACAAGATTTTGTTACACATGCAATAATAATATTTTTTATTG
K
GTTTTCTGTTAGTTTCAGGATAATATAAGAAAAGCATGCGGTACAGATATTTTGCTCCAATAAAATTGGTATTTATTACAATAACATTTTCAATGAATTT
Celera SNP ID:            hCV7534672
SNP Position Genomic:     102626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16426):
AGTGACAGGGTTAGTACTTTCTGAGGAATGTTCTGCCTTTAGAGCTACCAGTTGCTTTTTTTGGGGTTTAATAATACACTTTTTTCTTAGGCCTCTCCTA
Y
TGCAAATTCTGGTCTGCTGAGAAGTGCCAGTCTGGTTTGTATTTTCCTCTTCCAGTGTGTGCAGTGCTGGTGGGGTCAATGTCATGGTGCTAACTCTATG
Celera SNP ID:            hCV25928810
SNP Position Genomic:     110004
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:16427):
ATACTATTACGCATTTTAGAAAATTTTGTAACAAGATTTTGTTACACATGCAATAATAATATTTTTTATTGTGTTTTCTGTTAGTTTCAGGATAATATAA
R
AAAAGCATGCGGTACAGATATTTTGCTCCAATAAAATTGGTATTTATTACAATAACATTTTCAATGAATTTATACCAGTGGTAAAATGGTACCACTTAGT
Celera SNP ID:            hCV7534673
SNP Position Genomic:     102655
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16428):
TGCATCTTTATGTGTTTGTGGCAGTGCTATAATTTCCTGTTATATTGCATGTATTCAATTAACATTTTAGATATCAGACTGATGACTTAACTCTCATTTA
R
GAATCTTTGTCTGAAGTGGAAGAAAAATACAAGAAAGCCATGGTTTCCAATGCACAGTTAGACAATGAGAAGAACAATTTGATCTACCAAGTAGACACAC
Celera SNP ID:            hCV7534678
SNP Position Genomic:     135758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 ACCEPTOR SPLICE SITE;hmCS


Context             (SEQ ID NO:16429):
CCAGGAGAGAGATCTCACAACCACACTTGTCCACATTCCTGGCTACTCAGACCTTAGCCTTTCTTTTTCTCTCCCTCTTTCTCTCTTTCCCCTCGGACCT
R
CCTCTTAATATGTCTCTCTACAAATGATTTTTAAAAACCATTTAATAGAGAAAAAGAAATGACTTTAAATTTGAAGACGTGTTAATTTTTGTCATCATTA
Celera SNP ID:            hCV7534679
SNP Position Genomic:     145398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIG-allele(G,182|A,1287)   total(G,182|A,1287) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16430):
GGAAACTTCATACCATAGCAGTCACTCTCCATTTCCTCTTTACCCGAGACTTTGTGGAAAGCACTAGTCTGTTATACTTTCTGTCCCTATGGATTTACCT
R
TTCTGGACATTTTACATAAATGAAGTTATTCAATATGTAATCTTTGTGTCTGGCTTTTATCACTTCTCATGTTTTCATGATTCAACCTTGTTGTATGTAG
Celera SNP ID:            hCV3028622
SNP Position Genomic:     67616
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,12)      total(G,3|A,12) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16431):
CTCTGGAGTAGCTGGGACTACAGGTGTGGACCACCACAACCAGCTATATTTTTTTTTTTTTGTAGAGACAGGATTTCACCATGTTGCCCAGGTTGGTCTA
R
AACTCTTGCTCAAGGTATCTGCCCACCTTGGCCCCTCAAAGTGCTGGATTACAAGGCGTTAGCCACCATGCCCACCCAGTATTCTTGTTTTGACAGTTAG
Celera SNP ID:            hCV26450107
SNP Position Genomic:     49515
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16432):
CTCACTCACATCTTTGCTGTGAGTTGAAAAGCAGTGACAGAGTGGTGGTCTGTTCCACAGAGTCATTGAGGGACTCAGGCTGCTTTCAGCTAGTGATTCT
R
CCACCCACTGGGGCCTCAGAGACTTTGAATTTCCTGCATCTGGCTGGCAGATGCGAGGACAAAGAGAGGGACTGTGGTAGATTGCATGGAAAGTTTGATG
Celera SNP ID:            hCV3028623
SNP Position Genomic:     65590
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16433):
CATTCTCTGCTCAAGCCTGCAATATCCTCCATGTCCATACATGTATTTTTGGCCAAAATTTTTAATTTTGAAAAACCAAAAAGCTCTACTACCTCTCTAA
R
TCTGTTAGTCAGGATAGGCTGAACTACTTTAATGAATAATTACCAAATCAGTGGTTTTTAACACAAAATTTATTTCTCACTCACATCTTTGCTGTGAGTT
Celera SNP ID:            hCV3028624
SNP Position Genomic:     65414
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16434):
AGCTATTCTCCTGCCTCAGTCTCCTGAATAGCTGGGATTACAGGCATGCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGTTTTCACC
R
TGTTGGCCAGGCTGGCCTTGAACTCCTGACCTCGTGATCTGCCTGCCTTCCAAAGTGCTGGGATTCCAGATGTGAGCCACCGCGCCCTGCCCAGAGTTTT
Celera SNP ID:            hCV3028625
SNP Position Genomic:     62967
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16435):
AGTTAAGTGACCTAAGGATTATAGGACTAAATGTAGAAAAAAATTCAGCTTTAGATTAGATGTTTTTTCCCTTGTCACAGATAATGCTGTATCTAGGTGA
R
CAGTCAAGGAAATGAGAGGGCATTGTTCTTGTCTTGCCAGATTCATCCTTTGCAATCAAATAAAGTTTGTTTTGTTTTTAAAATTGTGGTACAATATAGA
Celera SNP ID:            hCV3028626
SNP Position Genomic:     59731
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16436):
TTTACTGCTTTAGGGAAGCAAATTTAATTTTTATGTTACTGTTCTGAGCATGTTGTTCCTTACATGCCCACTTTCCTAAGTAGAAATATATTAACAGCTA
S
AAGAAATCTTTTGGCTTTCTGTTTTGTAAGTTAGAGTATACCGTACTGTATGCAGAGGATTAGGATGTTAAAATATTTATTTCCCTGTTAAATGGCTTAA
Celera SNP ID:            hCV3028627
SNP Position Genomic:     59477
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16437):
TATTTGATAATAGTTAAATGGCTACATCTTAAGTAGGTTGATTGTTTCAGAATTTTATGACCAGTATCAATTAAAAGCATTGTGTATAGTTTAAATTCTT
K
CCCTGCATAAGTCGGCTACTATATTATTAGTCAGGAAAGAAGTAAATAATCTACCTCCTTTTTTCCTTTACCTTCCACATCCTAATCTATACATAATAAA
Celera SNP ID:            hCV3028628
SNP Position Genomic:     57331
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16438):
AAATGCACGACCCTGGTCCTTCCCCAGTGCCTTGAACCTGGTGGGCCTCGTTAGATATTTCCGGAATAAATAACAAGTCCGTGTCTATCAGATTTTTAAC
R
GACTCTATACTCCTCCCTCCATCCCGCTCCCCGCCCCCCCCCCCACACCTCTCGCGCAAGCATTCTTCTCCAGAAATAATTTTAAGGTCATGCGTCTTCA
Celera SNP ID:            hCV3028629
SNP Position Genomic:     52144
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16439):
TGGAGTGCTGTGGCGCAATCTTGGCTCACTACAACCTCCGCCTCCTAGGTTCAAGTGATTTTCCTGCCTCAGCCTCTAGAGTAGCTGGGATTACAGACAT
R
CACCACCCTGCTCGGCTAATTTTTGTATTTTTGATAGAGACAGGGTTTCACCATGTTGGCCAGGCTGCCCAGCTATAGTAATTTTAAATGGTTAAGTAGA
Celera SNP ID:            hCV27849989
SNP Position Genomic:     79726
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,36)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:16440):
CAGGCAGGTTAGCAAGCTGCAGGATATTTCCATCTTCTGTGAAATGTTTAGGAGGCAGAATGTGTGAGCGCAAGGCTTTATAGACAATGTGTTCCACAGT
Y
CACTTCCAGGAGTTTGGAATGGAGCCAGGCACTTCACTCTGGAAAACACATTAGATGTCATAAGCCTCCCTGTTTGCATCCCAACATACACTGGTGTCCT
Celera SNP ID:            hCV578244
SNP Position Genomic:     169354
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16441):
TCTTAATACCCTTACCCTTGTTTTTCTTTTCCTTCTGTTAGAGTTCAGCTGATTTTTACCTTGATTTTCATTTATAAAGAACTTTAGTTAAAAAATAATG
R
CAAGTCTATCCTGTTGGTCTAGCTTACTAAATTCCTTTACTTCTTTCACTAAATTTTGGCATCTTTTTTTTACTTTGGATATCCATTATATTCAGAGTGT
Celera SNP ID:            hCV29123998
SNP Position Genomic:     54941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16442):
TCCTAGTCCTGGGGTGCCAGTGTGCATCACCACTGTACCTGCTGGCCTGAGAGGGTCGACTCCTCAGATATGTACTGCTTCCGGATGGAATAGAACATAG
Y
GCATTCTTTACTGAGGCTTTCAAAACATTCCTTTTCTTCGTCCCAATTCACCTGGTCCAAAGAAATTCAATACCTCAAAATAGGTACGAATTTAAACATT
Celera SNP ID:            hCV578247
SNP Position Genomic:     170923
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16443):
CTGGAGTGCAGTGATGTGATCTCCACTCACTGCAACCTCCACCTACCAGGTTCAAATGATTCTCCTGCCTCAGCCTCTGGAGTAGTTGGGACTACATGCG
Y
GTGCCACCATGCCCCACTAATTTTTGTAGTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGCCTCGATCTCTTGACCTTGTGATCCGCCCGC
Celera SNP ID:            hCV1219050
SNP Position Genomic:     160220
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16444):
TGGCTGTCACACCTCATCAATTTCCAAAGAGAAATAGTCTGCAAGCATCTCAGCCTTCTTCTTCAGAAACTCAACAATGTATTCAGCAAGTCCTTCTTTG
S
GACCATCTTCCTCTGTCCAGCCACTCTCTGGACTATCTAAGGCAAGCATGGCAAGGTCAAAGAGCGGTGCTGGCTCCTAGGAAGAAGCAAGAACATGAAG
Celera SNP ID:            hCV27864860
SNP Position Genomic:     172283
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16445):
CAGCCTCTGGAGTAGTTGGGACTACATGCGCGTGCCACCATGCCCCACTAATTTTTGTAGTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGG
Y
CTCGATCTCTTGACCTTGTGATCCGCCCGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCCCAATTATTTTTACATACA
Celera SNP ID:            hCV1219051
SNP Position Genomic:     160290
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16446):
CTGTCCTTTTCCACATCCATTTGTCATCTTTAAGCTCCCATACAGCAAGCACCCTTCCCCATTAAAGTTTTTTCTCTGGAATTTGTCTTGGATAATTGGA
Y
GAATCTATTTGGAACTACTTCACACTAAATTGAGTAGTTTCAGAATTTTCCTAGAAGTATTTTGTTAATCCAAGTTTATCTTTATTAGATGAAATTTAAA
Celera SNP ID:            hCV1219052
SNP Position Genomic:     161803
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   JBIC-allele(T,182|C,1301)   total(C,1301|T,182) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16447):
TAGTAGATTACTTGGCATTTATAATGACATTGTATTTCCATCCTGGCTACCAAAAAGTGGTGACTTCTAGTGCCCAGTACTAGAGGCCTGTGTTCTCATA
Y
TTACAGATTAGCCGGCTTGAGGGACAGGTTCTGAGATATAAAACTGCTGCTGAGAATGCTGAGAAAGTTGAAGATGAATTGAAAGCAGAAAAACGGAAGC
Celera SNP ID:            hCV1219053
SNP Position Genomic:     165356
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16448):
CATTCTTGAATTAAATTTCTAAAGGAGGCTTCAGGTACAATTTAATATACATGTAAATGAAAATTCCTACACATTGATAGGGCTTTCTTAAAAAGGTTTG
R
AAGTTTTGATGCTTTGTGATTTTAAAATACATTTGCTATCTACTTAAGCTTAAAAGCCTTGAAGTGTTTCCTATTAAAAAAAAAAAACTCTAATAAGAAA
Celera SNP ID:            hCV29123920
SNP Position Genomic:     87344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16449):
GTGGGAACAGACACCTCTGAGTCTGCAGGGGCAGGGGGGCCCTTCCTGGCCCCAGAGAGTGCAGAGATGCCTGGGTCTGCAGCTGCAGTTTGGGCAGCTG
Y
GGCTGCGCCCAGGAGGGTGGGGCTCTTGCCTGCTTCCTGCAGAGACAAGAACTTAACTTTTCACTGTGACTTTTTGTAACCTGAATGCTTTGGCCTAGTT
Celera SNP ID:            hCV7534822
SNP Position Genomic:     11932
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16450):
TTAGTACCCAGGTGGTTTTATAGAAATGATTATTGTATCTTTAAAGTGCTTACACAGAAAATATATTGGGGGAAAATCTAGTGACTAAAGGCACATAAGA
T
AATAAAACTAGACTTTAAAAAGGTAACTCAAAAGTGAATAAAATCTCTAATATTTGTTCCTTTTTTAATTAGCCCTTCATTTAAAAAATATGGATACCAA
Celera SNP ID:            hCV26100115
SNP Position Genomic:     167189
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:16451):
CTTAGTACCCAGGTGGTTTTATAGAAATGATTATTGTATCTTTAAAGTGCTTACACAGAAAATATATTGGGGGAAAATCTAGTGACTAAAGGCACATAAG
A
TAATAAAACTAGACTTTAAAAAGGTAACTCAAAAGTGAATAAAATCTCTAATATTTGTTCCTTTTTTAATTAGCCCTTCATTTAAAAAATATGGATACCA
Celera SNP ID:            hCV26100116
SNP Position Genomic:     167188
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:16452):
ACCTCAAAATAGGTACGAATTTAAACATTCTCATTCTAAACGGAGATCACAGACTACTTAAAGCTAAAAAACGAAATGTGATACTTTAGGCGTTAAAACT
R
TAAATGGGACTGCTGAATATTGCTGGGAATGAATATTAGTGGGGATGAGAGCAGGCCTTCAGCTATCCCACCCTTATCATCTTTATCATTCCAGATCAAA
Celera SNP ID:            hCV1219057
SNP Position Genomic:     171095
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;JBIC-allele(A,167|G,1276)   total(G,1276|A,167)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16453):
TCTTAGTACCCAGGTGGTTTTATAGAAATGATTATTGTATCTTTAAAGTGCTTACACAGAAAATATATTGGGGGAAAATCTAGTGACTAAAGGCACATAA
G
ATAATAAAACTAGACTTTAAAAAGGTAACTCAAAAGTGAATAAAATCTCTAATATTTGTTCCTTTTTTAATTAGCCCTTCATTTAAAAAATATGGATACC
Celera SNP ID:            hCV26100117
SNP Position Genomic:     167187
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,8)   total(G,8|-,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:16454):
GAAGAGTCAAACCTCCACAGGCTAGGAGTGAGCCCTAATGGTGCTGCCACCAAGCCGCAGATCTACCCATGGATGCCCACATCTTTTTTTTTTTTTTTTT
T
GAGACGAAGTCTCACTCGGTCGCCCAGGCAGGATTGTAGTGGCGCGATCTCAGTTCACTGCAACATACAACCTCTATCTCCCAGGTTCAGACGGCTTCCC
Celera SNP ID:            hCV26100118
SNP Position Genomic:     155291
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,14)   total(-,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16455):
AATGGCTGTCACACCTCATCAATTTCCAAAGAGAAATAGTCTGCAAGCATCTCAGCCTTCTTCTTCAGAAACTCAACAATGTATTCAGCAAGTCCTTCTT
W
GGGACCATCTTCCTCTGTCCAGCCACTCTCTGGACTATCTAAGGCAAGCATGGCAAGGTCAAAGAGCGGTGCTGGCTCCTAGGAAGAAGCAAGAACATGA
Celera SNP ID:            hCV27541616
SNP Position Genomic:     172281
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:16456):
ATATCACACTTTGATACAACACTTTGTATCGGAATACAGAGAAAGAAGAACACATCCCACAGTGCATAAATAACCATATTTAACACCTCTCAAAGACTTT
S
TATAGATCAGGCAGGTTAGCAAGCTGCAGGATATTTCCATCTTCTGTGAAATGTTTAGGAGGCAGAATGTGTGAGCGCAAGGCTTTATAGACAATGTGTT
Celera SNP ID:            hCV27541617
SNP Position Genomic:     169246
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:16457):
TAGCTGGGTTAATACTTGACTAATATGAGGCGTTATTGACACCCAGATTGTTAAGTTACAGAACTCCAGTCAGCCCTGCCTGTGAGTAACCAGCAGCATG
Y
AGGAGGACCTAAGGAAACCCACTTCTTTTTCTTTCTTAGAGGGAAAAAAGTTCAAGTGTTTGCTTTACTTTTTTCACCGTGGGAGATACAAATACAGGCT
Celera SNP ID:            hCV29124006
SNP Position Genomic:     53620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16458):
TCCAGCCAGAGGCTTCGTCTACAAAATCTTTTTCATCACTCTGTGTGTTTCCTGCAAAGCCATACTACACCTGTCATTACCTTGTTTGTTTGCTTCAGCC
M
GTCTATTCCACTAAGGTAAGCTTTTCAAATGCACGACCCTGGTCCTTCCCCAGTGCCTTGAACCTGGTGGGCCTCGTTAGATATTTCCGGAATAAATAAC
Celera SNP ID:            hCV3028630
SNP Position Genomic:     52017
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16459):
CGTGGTTAGGTGTATTTCGTGCCTTTTTTGTCAGGAGGCTCCTCAACTATCACTTCCTCCTAGAGGTCTTTTTTAGCCATCCTATCCAGCCAGAGGCTTC
R
TCTACAAAATCTTTTTCATCACTCTGTGTGTTTCCTGCAAAGCCATACTACACCTGTCATTACCTTGTTTGTTTGCTTCAGCCAGTCTATTCCACTAAGG
Celera SNP ID:            hCV3028631
SNP Position Genomic:     51933
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16460):
AGTATGCTTTACACCTTAAAGCAGCACTTTTATTTTGCACATTGATAATGCTGTATGTATACTTTCTTTTTTTCCATTTTATTTTATTTAAAATTTTTTT
T
ATTTTAATAGCTTTTAGGGTACAATTGCATTTTGGTTACAATGCTGTATGTATACTTCCATGTAGTTTTCTTAATCAGTAAAATGATCTTTCATGTTAAA
Celera SNP ID:            hCV26449868
SNP Position Genomic:     98779
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16461):
CTGCGCCCCTCGCCCATAGCCCCAGCGGGCGCCGGGCGGGCGAGCAGCTCTTCGGCCCTTCCCGGACAGCGACGCAGTCGCAGCGCGCGCCCTAACACAG
R
TAAGGGCCGCTCCTCCCGCCAGCCCGGTGGGAGCAGGGAGCGGGGAGTTGGGAACCTTTTTCCCGGCCTCCGCAGTCCCGTGGGATCCGCGCCGCCTCCG
Celera SNP ID:            hCV29124008
SNP Position Genomic:     53055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 DONOR SPLICE SITE;INTRON;TFBS


Context             (SEQ ID NO:16462):
TAAAAACCTAAAGACTGTAGTATGTCAATTTCCTGGTTTTAATAAGGTATTATAGATATGTAAGATATCAATAGGGTAAACTGGGCAAATACTACACATG
M
CCGCTATACTATTTTTGCAACTTTTTAATAATTATATCCAAATAAAAAGTAAAAAAGAAAAAAATAACAACATGAAAAAATAAATCTAGATAGGAATTCT
Celera SNP ID:            hCV3028632
SNP Position Genomic:     50096
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|C,12)      total(A,4|C,12) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16463):
TGTTTAGAAACTTTTTTAAAAAATCCAGTCAAATGACGAGTCTTGTATTCCTCTGTTTTCCTTTGATAACAATCTGTGAAAAAACTGCAGTGGTCAGAAG
W
TGTGTTAAAATATACACACACAAGTTGTATAATGTTGCAGGTTTATTAGGGCAGGATGACATGGAACAGTATGACCAGAGAAAGCAACCACCTTACAAAT
Celera SNP ID:            hCV3028633
SNP Position Genomic:     49717
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,11)   total(A,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16464):
ATTCCCAGGAGAAGGCATTTCTGATACCTCAGGTTAGGTCAAGTCCCAATGCTTTTATGCCCTCATGGCAGCACATACCTACCCTTTGTAATACCTGTTA
R
ATTTTAAAGGTACTTTTGTGAGATTGTCTAACTTACCAGTTTCATAAGAAAAAGAAACATTTTTGTTTTTGCTTCCCGTCGGATGTCTAGCATTTGCAAA
Celera SNP ID:            hCV3028634
SNP Position Genomic:     48714
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16465):
AAGTCTTACTCTGTGGCCCAGGCTGGAGTGCAGTGCCATGATCTCGACTCACTGCAGCCTACGCCTCCCCGGTTCAAGCGATTCTTGTGCCTCAGCCTCC
Y
GAGTAGCTGGGACCACAGGTGCATGACACTATGCATGAATGAATTCTTAACATTGAAGTCAGAGTGGTCTTTTGAAAATACAAATCTGATCATGTTGCTC
Celera SNP ID:            hCV3028635
SNP Position Genomic:     48276
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16466):
TTCACCATCAGTATCCATTTCTATATTTTGGTGACAGTACTCCATTTTGTTCTTCCGGGAACCACTCCTCTCCTATAGTCCATGATCTTTGGGTGGACCA
S
AGGTAAAGCATATGACTCAAATTTGGCTAATCATAGCACAAGAGTTTTCCTTGCTACAGTAATTTGTTAAAGGATGGGAAGGTAACTCTCTATCCTTTAA
Celera SNP ID:            hCV3028637
SNP Position Genomic:     45767
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16467):
TGCAGTATTGTGTGTGGAATTGGAAGAGATTCAAAGTGAGTGCCATGGCAGTGACTAACTTCTTTCAAAAGCTTAAGGAAGAAACAATGCATAGGCCTTT
S
AGTTAGTTGGTGTAGTAAGCATTGTGTTTTCACCATCAGTATCCATTTCTATATTTTGGTGACAGTACTCCATTTTGTTCTTCCGGGAACCACTCCTCTC
Celera SNP ID:            hCV3028638
SNP Position Genomic:     45638
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16468):
ATCTAAAAGATGAATTGGCTTCTTAAGCCAATTCATTGTCACTTGCTTCTGAAGTGTTTCCCAGGCACCTTAGTTATCAGCCACCCTGCCCCTAGGGTAT
Y
GAGGACAAATACGTTTCAGGTAGCTTGACAACAGGAAAGAATTTTAAGGACAAGAAACTACCTGCAATACCAGTTGGGAGTGTCCTGAAAAGTGATGTAC
Celera SNP ID:            hCV3028639
SNP Position Genomic:     45338
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16469):
CCTCCAGCACACATGCATGTACCGAAATGCTTAGTATCTGCTTGATCACTGACCTCAGTGGCTAGTCGAAGAATGAAGATAGGCAGTCCCTCCAAAGGGG
R
CACATAGTTGTCAATCAGAAGGGGTAATCCAATCAGGTTCCCTTCCTGCTTGCAGGAAAAAGGACAAGGGAACAAGAAATAATGCTGTCATAGTTTAAAC
Celera SNP ID:            hCV27860224
SNP Position Genomic:     171316
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16470):
CTTCGCTATGCAATCATTGAAGTTAACTTGGAATATTTACTTCCAGAATCATTCTTACAGTCACTCTCATGGAATGAAGAAGAGGTCTTCTGATTCTCAT
R
AAGACCTACTGGTTAGTTCTGTTGTCTCTCATATCACAATTCACGAAGTACTGTTAGGAACTTAAGGATTATGATTGCTTTGGTGTGCTACTAGGACATT
Celera SNP ID:            hCV25928037
SNP Position Genomic:     106639
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,38)   total(A,74|G,2)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:16471):
AGATCAGGCAGGTTAGCAAGCTGCAGGATATTTCCATCTTCTGTGAAATGTTTAGGAGGCAGAATGTGTGAGCGCAAGGCTTTATAGACAATGTGTTCCA
Y
AGTCCACTTCCAGGAGTTTGGAATGGAGCCAGGCACTTCACTCTGGAAAACACATTAGATGTCATAAGCCTCCCTGTTTGCATCCCAACATACACTGGTG
Celera SNP ID:            hCV27529435
SNP Position Genomic:     169350
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16472):
ATTTTAAATGGTTAAGTAGAATTTCTGCTGATGGCAGCTTTCTGAGGCTAATATTATAATACACACAGATTGCTGTGGGTAGCATAGTGAAAAGAAGTAG
R
AGTTTTAGTAATTAGTATAAAATTAAATATTCTAAAATTTATTGGAATAATTTGGTAGTGGGAAGAGGTATTTGGTGACTAATTTCTCTGTTAAAAGTGA
Celera SNP ID:            hCV25930242
SNP Position Genomic:     79907
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,38)   total(A,1|G,67)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,36)   total(A,2|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:16473):
AATGTATTCAGCAAGTCCTTCTTTGGGACCATCTTCCTCTGTCCAGCCACTCTCTGGACTATCTAAGGCAAGCATGGCAAGGTCAAAGAGCGGTGCTGGC
Y
CCTAGGAAGAAGCAAGAACATGAAGGAGCAAGCTTTAACGGAGCATCCAAATGAAGCCTGAATTCCCAAGAATCCACTATCAGAATGGCAGGTGAGAAAC
Celera SNP ID:            hCV27863061
SNP Position Genomic:     172358
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16474):
CCCAGGCTGATCTCAAATTCCTGGGTTCAAGTGATCCTCCCACTTTGGCCTCCCAAATCATTGGAATTACAGGATTACAGCCCAGCCTAGATTTAATTTT
K
AGTTTTTTATTTTGATTCTGTCATATTGGTATTTGTCTTAGTCCATTTGGACTGCTATAACAAAATATAGCTTTTGTGGCTTATAAACAACTGAAATTTA
Celera SNP ID:            hCV26449726
SNP Position Genomic:     43636
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16475):
AGAAACTCAACAATGTATTCAGCAAGTCCTTCTTTGGGACCATCTTCCTCTGTCCAGCCACTCTCTGGACTATCTAAGGCAAGCATGGCAAGGTCAAAGA
S
CGGTGCTGGCTCCTAGGAAGAAGCAAGAACATGAAGGAGCAAGCTTTAACGGAGCATCCAAATGAAGCCTGAATTCCCAAGAATCCACTATCAGAATGGC
Celera SNP ID:            hCV27863062
SNP Position Genomic:     172347
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16476):
AGCATGGGAGGTGGAGGCTGCAATGAGCCATGATCTTGCCACTGCACTCCAACTTGGGTGACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAA
A
GAAAGAAAAGTATTTGGCATCTGCCTAATAAGTAATGAAGTCAAGCACTATTTGATGTCTTTTCTTGTTGGTTCAGGTAAACTGTTTATGAATTCTGTAT
Celera SNP ID:            hCV26449727
SNP Position Genomic:     34148
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,11)   total(A,11|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16477):
CATTCCAGATCAAAGGGTGGTCATTTGCCCTTTCCCTCCAGCACACATGCATGTACCGAAATGCTTAGTATCTGCTTGATCACTGACCTCAGTGGCTAGT
S
GAAGAATGAAGATAGGCAGTCCCTCCAAAGGGGGCACATAGTTGTCAATCAGAAGGGGTAATCCAATCAGGTTCCCTTCCTGCTTGCAGGAAAAAGGACA
Celera SNP ID:            hCV27863063
SNP Position Genomic:     171282
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)   no_pop(T,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16478):
GAGCATGGGAGGTGGAGGCTGCAATGAGCCATGATCTTGCCACTGCACTCCAACTTGGGTGACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAA
A
AGAAAGAAAAGTATTTGGCATCTGCCTAATAAGTAATGAAGTCAAGCACTATTTGATGTCTTTTCTTGTTGGTTCAGGTAAACTGTTTATGAATTCTGTA
Celera SNP ID:            hCV26449728
SNP Position Genomic:     34147
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,13)   total(A,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16479):
ATTCCAGATCAAAGGGTGGTCATTTGCCCTTTCCCTCCAGCACACATGCATGTACCGAAATGCTTAGTATCTGCTTGATCACTGACCTCAGTGGCTAGTC
R
AAGAATGAAGATAGGCAGTCCCTCCAAAGGGGGCACATAGTTGTCAATCAGAAGGGGTAATCCAATCAGGTTCCCTTCCTGCTTGCAGGAAAAAGGACAA
Celera SNP ID:            hCV27863064
SNP Position Genomic:     171283
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:16480):
AAGAAATGAGTTTATAAGAGTTGATTAAAACAATCAATCAAACTTGCTTGCTGATAGATAATATCTTCTCCTGCCCACCCCTTTTGCGTGGTAATGTCCC
R
TTCTTTATTTTCAAATCTGGTGTACAGGTTGTTTTTGTTTTTGTTGTATAAAGCTGAGTTTTATATTACTTTTCAGGCAGAGGCAAGGCTGGCAGCAAAA
Celera SNP ID:            hCV25989087
SNP Position Genomic:     90342
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,12)   caucasian(A,13|G,19)   total(A,33|G,31)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,190|A,1271)   total(G,190|A,1271) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16481):
ACCCAGGAGGTGGAGGTTGCAGTCAGCCAAGATCGTGCCACCACACTCCAGCCTGGGTAACAGAGTGAGACCTTCCCTCAAAAAAAAAAAAAAAAAAAAA
A
GTGCTGCTACCAGAAGAGGGGAGAAGGGATGCTGAGCAGGCTGGACACTAAGGCCACAGCCTTCTCTCCCTTCTCTCAAGCCTTAGATTCACACTGCTAT
Celera SNP ID:            hCV26449729
SNP Position Genomic:     28491
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,8)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16482):
ATCTTTATCATTCCAGATCAAAGGGTGGTCATTTGCCCTTTCCCTCCAGCACACATGCATGTACCGAAATGCTTAGTATCTGCTTGATCACTGACCTCAG
K
GGCTAGTCGAAGAATGAAGATAGGCAGTCCCTCCAAAGGGGGCACATAGTTGTCAATCAGAAGGGGTAATCCAATCAGGTTCCCTTCCTGCTTGCAGGAA
Celera SNP ID:            hCV27863065
SNP Position Genomic:     171274
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16483):
GAAATTTTAGAGATGGGCAAGTTTCATCTCCTAAAGATTGTATGAGGTCCTGTCCTAGTCCTGGGGTGCCAGTGTGCATCACCACTGTACCTGCTGGCCT
S
AGAGGGTCGACTCCTCAGATATGTACTGCTTCCGGATGGAATAGAACATAGCGCATTCTTTACTGAGGCTTTCAAAACATTCCTTTTCTTCGTCCCAATT
Celera SNP ID:            hCV27863066
SNP Position Genomic:     170871
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16484):
GTATATCACACTTTGATACAACACTTTGTATCGGAATACAGAGAAAGAAGAACACATCCCACAGTGCATAAATAACCATATTTAACACCTCTCAAAGACT
Y
TGTATAGATCAGGCAGGTTAGCAAGCTGCAGGATATTTCCATCTTCTGTGAAATGTTTAGGAGGCAGAATGTGTGAGCGCAAGGCTTTATAGACAATGTG
Celera SNP ID:            hCV27863067
SNP Position Genomic:     169244
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16485):
TGGTACACTTTGTATATCACACTTTGATACAACACTTTGTATCGGAATACAGAGAAAGAAGAACACATCCCACAGTGCATAAATAACCATATTTAACACC
W
CTCAAAGACTTTGTATAGATCAGGCAGGTTAGCAAGCTGCAGGATATTTCCATCTTCTGTGAAATGTTTAGGAGGCAGAATGTGTGAGCGCAAGGCTTTA
Celera SNP ID:            hCV27863068
SNP Position Genomic:     169233
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16486):
GCCTAAATCTAGTTTCCATAATATTCTGATGAGCAGGACCACAGAGCAGTGATTTTGATCAGGATTGTGCCTGTTAAAAGCTGGCTACTCCATGGCATGC
R
CAGCTCCAGGATGGGAGATTAACTTCAACAACCATTCATTTAGTTTGGTTTGATTTTCTGCCAGTCTCATGACCGACTTGAAGCACGTCCTAGAACAGAG
Celera SNP ID:            hCV3028640
SNP Position Genomic:     44877
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16487):
TAACCTACTGTTTTACGTTAAAACATTATCCACTTTCTCCTACAATAGAAATTGTAATGGCTATAATACATGATTATTTCATTATCACATCTATTTTTAA
R
GAAACCAGGCCTAAATCTAGTTTCCATAATATTCTGATGAGCAGGACCACAGAGCAGTGATTTTGATCAGGATTGTGCCTGTTAAAAGCTGGCTACTCCA
Celera SNP ID:            hCV3028641
SNP Position Genomic:     44768
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16488):
ATATTTGTTTTAAGTAGTAACAACAAACACATTTATAGCTATTATCGTGTCCATTGTTATAAGTTACTAGTATTATGAGTGCTTCACTTACATTAGCTAA
R
GTAGCTTTAGCAATGACAAAGTGTAGTATAGCTTTAATTGTCCTAAAATTTGGATTAATTATATTATGATATCTATATAGTAAAACACTGTAAAGTCATT
Celera SNP ID:            hCV27920460
SNP Position Genomic:     90767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16489):
AAATTAGCTCCCCAGCAAGGCAAATTCCTGGAGGATTAAAGACAGGGAGTGATCCCAGCAACATTTCTAGTTACTAATGCCTAGGGATAGGAAGGGCAAT
S
AATTAATTTTTCCCTCAGGATTCCAACTGAGGTTGTCCCATAAAGTATTGGGTCATATTTCCAAAGCCACGTTAGGTCAGGCCTTGGTTACCCATCACAT
Celera SNP ID:            hCV3028642
SNP Position Genomic:     31277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16490):
ATCATCCCCATCACACTGAATCATGGCTAGTCTGTGTGAATGACAAGATATGTAGAAGTAATGGTGCATTTCTTCTAAGACTAGGCCATTAAAGACACTT
R
CAGCTTCTTCTGCCATTCTCTCTTGGATCATTCACTGTGGAGGAAACCAGCTGCCATATTGTGAGGACACTCAAGCAGCCCTATGGAGAGGTCCTCATGG
Celera SNP ID:            hCV3028644
SNP Position Genomic:     17324
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16491):
AATGGAGGCCTGGTGAGAAAAGACTGTCTCAACACCTCAGTCAGGGTCAGCGGAGGAGTGACCTTCCCTGCCCCAGGGCCAGTTCGATGTGTGAGCCTTG
R
AGCTGATGGAGGGAGGGAGAAGGCATCATGCTACCTGCCTCCTCTGGGTCTGATGCTGCAAGTGATGGTGCAGTTGGATATGTGGAAAATGTTATCCTAG
Celera SNP ID:            hCV3028645
SNP Position Genomic:     12808
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,13)   total(G,13|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16492):
TGTTCATTTATAGAATAACATAACTACCAAGTAAAGAAATGCAACCACTGGCATGTTATATGAAGGGAGGAAATGGAAAGATTATCAGTTGTGTTGGAGA
Y
ATGAGGATAGTGGGTAGTCAAAATATGATACTTTAAAAATATTTTTGATAATTCTTAGGACAAATGACTATAAAAGTAGGAGAAATAATTATATAGGTTC
Celera SNP ID:            hCV26450058
SNP Position Genomic:     71151
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16493):
CAGAGAGAAACATGCTTGCAGGACTACTCAGAATGGTGGCTTCTTCTGCTAATGGAGGCCTGGTGAGAAAAGACTGTCTCAACACCTCAGTCAGGGTCAG
M
GGAGGAGTGACCTTCCCTGCCCCAGGGCCAGTTCGATGTGTGAGCCTTGGAGCTGATGGAGGGAGGGAGAAGGCATCATGCTACCTGCCTCCTCTGGGTC
Celera SNP ID:            hCV3028646
SNP Position Genomic:     12758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,14)      total(A,2|C,14) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16494):
AGGGATGGGAGGACGGAATAATTAGATGATTCTCCACTCCAGAATAGATGCTGCAAGTTGGTGTGTCCCAAATGTCAGTGGGACATACATATCTCTGGGG
K
TACATAAGGGGATTTTAGGTGCTCCTTGGCATTTCCTAAGTATGATCTGCCTTTCATGGTGACCCTTTTCCTCTACTGCCCTTTAGGGGAAAGGGCTTGC
Celera SNP ID:            hCV3028647
SNP Position Genomic:     12538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,12)      total(G,2|T,12) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16495):
TATTTCCCTGCTTGATGTGATTAAACATGTTTTGCCAAATTGATGCATGAGAACCAGTTTCTATGAGAAGTCTCTTCTGGAGATGTATATCCATGTAACT
Y
TGTATTTCCTCCCATATCTGACTGTTTGTTTCCAATCTTTTGACTGCTTTCTTGCTTTTTATGCCTTTATCTTTGCTTATTTGAATTAGGTACTTCTCTG
Celera SNP ID:            hCV25926159
SNP Position Genomic:     153391
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:16496):
TGCTGGTATTTTAAAATAATGTGAAATTCTTTCCCTTTTTGTTCTTTTATCTTTTTGTGCCAAAATGCCAACCACATAAAATAATAAACCTGCTTTGGGG
G
CTGCTTCTCAAATTCAATAGCTTAAGTTAGGACTGGTAAAGTGTTCTAGTAATTAATTGTAATTGCATTTAAGAAGAATATAATGCTTGATTTCTATAGT
Celera SNP ID:            hCV26449803
SNP Position Genomic:     145742
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16497):
CGGAGGCTGAGGCAGGAGAATCACGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCGCTGCACTCCAGCCCGGACGATGACAGAGCGAGAC
M
CCGTCTCAAAAAAAAAAAAAAAAAAAAAGATTCAAATCCTTGGAAGAGAGAGTGTGAATGGCCTAGTTTGGGTCTCTGGGCCACACATACCCATCGACCA
Celera SNP ID:            hCV26449730
SNP Position Genomic:     27683
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16498):
GTTGCAGTGAGCCAAGATCCAGCCACTGCACTCCAGTCTGGGTAACAGAGCAAGACTCCATCCCCAATAAATAAATAAATAAATAAATAAATAAATAAAT
W
AATAAATCCCTATGCTTCAATATCCTAAGGAAAAGACCCACCTGCAGTTTATGATAACACAATGGCTATGTCTATATTTGTGCCAATTGGCCTTGAAGAT
Celera SNP ID:            hCV26449731
SNP Position Genomic:     25680
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2|-,8)   total(A,2|-,8|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16499):
ATATGTTTTAGACTTTTTGAAGGGTTGATGTCAGTTCAAGCAGAGGTCAAATGGGTATTATTGCCAGAAATGGATTGCTACTACATTGCCAATATAAAAA
A
TCCAGAAAATAATTTAGGAAGTGCATATTGATAAATTGTTAGAAACAGCAATCTGAATTTGCACATAATAAAGGGAGAGAAGCTGTTTATATAACCTGTA
Celera SNP ID:            hCV26449732
SNP Position Genomic:     136637
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,16)   total(A,1|-,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16500):
AATGGGGGCTGTCCGTGAAGCCTTGTGGCAGTACAGCCCAGGTAATTTGCTGAGCCTGATGGGTGTCAGGGTCAGTCCAAGTGAAAGCAAAGAGAGGCTG
R
GATGAAGGGTGCAAGGAATAGTAAAGAAAGCATGTTTGAGATCCAGAACAGAATAATGGGTTATGGAGGGGTTGTGGAGGGAGGTACTGAGGATAGGAGA
Celera SNP ID:            hCV26449733
SNP Position Genomic:     21737
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16501):
TATCTCTGGGGTTACATAAGGGGATTTTAGGTGCTCCTTGGCATTTCCTAAGTATGATCTGCCTTTCATGGTGACCCTTTTCCTCTACTGCCCTTTAGGG
G
AAAGGGCTTGCCAGTTCTGGACAAGGCCAGCAGAGAGAAACATGCTTGCAGGACTACTCAGAATGGTGGCTTCTTCTGCTAATGGAGGCCTGGTGAGAAA
Celera SNP ID:            hCV26449734
SNP Position Genomic:     12627
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,14)   total(G,14|-,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:16502):
ATCCAGCTACTCAGGAGGCTGATGAAAGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCACGCTCCTGCACTCTAGCCTGAGACT
Y
TGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAATCACCTGCAGATGGTTTTTCTACTCAGTAATGCTGGAGAACCACTCACTTAAGCTGAAAACTAAAAA
Celera SNP ID:            hCV26449735
SNP Position Genomic:     9414
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16503):
TTGTATAGATCAGGCAGGTTAGCAAGCTGCAGGATATTTCCATCTTCTGTGAAATGTTTAGGAGGCAGAATGTGTGAGCGCAAGGCTTTATAGACAATGT
R
TTCCACAGTCCACTTCCAGGAGTTTGGAATGGAGCCAGGCACTTCACTCTGGAAAACACATTAGATGTCATAAGCCTCCCTGTTTGCATCCCAACATACA
Celera SNP ID:            hCV11987930
SNP Position Genomic:     169344
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): NIH Coriel panel(A,3|G,84)      total(G,84|A,3) ;(G,-|A,-)   ;(G,-|A,-)   TSC_42_A(G,-|A,-)   TSC_42_C(G,-|A,-)   TSC_42_AA(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16504):
CCTGGATACCTGCAAAGCCAATCTAAATTGACCATTGATTACACATGGTAACTTCTTCATCTGAAACCCACATCTTCCCCCAACCACCCTGCCCTGTTTT
Y
AGTTTCCACAGCAAACATATTTTTAAAGAAATGAGACTTAGAAGGGTCATATTTCTCTTTCTAGCCTTCATCTCGAAATTCTGCCTCAGCAACAACCCCT
Celera SNP ID:            hCV25926665
SNP Position Genomic:     124592
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,9)   caucasian(T,10)   total(C,1|T,19)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16505):
CCGGCTGGAAATTTTATTTGAAGAATACAACAGAAGTATAAGAATGGCTGTCACACCTCATCAATTTCCAAAGAGAAATAGTCTGCAAGCATCTCAGCCT
W
CTTCTTCAGAAACTCAACAATGTATTCAGCAAGTCCTTCTTTGGGACCATCTTCCTCTGTCCAGCCACTCTCTGGACTATCTAAGGCAAGCATGGCAAGG
Celera SNP ID:            hCV27541346
SNP Position Genomic:     172239
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:16506):
CTACAAATTTAAAAGTTCTGTGAGTTTAAATACAACCTAATGCATTTGTTCTGGGAGTGATCAAAGCCCATGATTTTCACTGTCTTTTTTTTTTTTTTTT
T
GAGACAGAGTCTTGCTCTGCTGCCCAGGCTAGAGTGCAGTGGTGCCATCTCGGCTCACTGCAACCTTCGTCTCCCAGGTTCAAGCGATTCTTCTGCCTCA
Celera SNP ID:            hCV26449950
SNP Position Genomic:     85386
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16507):
CACCTCAGCCTCCCTCTCGTACTGATCAGTGCCCAAAGTCCAGAGGGGGCCAAGGCAGCAGGGGGCTGCTGTGTCACAACCTGGCTGGGCTGTGACAGCA
Y
CCAGGCTTGACCCCAACCTTGCTCCAAGATCGGAGTGGGTGCCAGGAGCAGAGAGAGTCCAGGAAGTGGGAACAGACACCTCTGAGTCTGCAGGGGCAGG
Celera SNP ID:            hCV2731970
SNP Position Genomic:     11766
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16508):
TGTCATCTCCCCAAGTCTGCCTGAGTCTGGGGTTTTTATGGGCTTCAGAGCAGAGGACGTGCATGCTGATTGGTCCATGGGCAGCCATGGGCAGGCCCAG
R
AAAAGCACCACAAGTTTCCACTCTGGTCCATGGGACCAACAGCCTGGCCATCAGGCTTCAGGCTCTCCCCAGCTTGAAGGTGGAGCTTCACTGGAGACCT
Celera SNP ID:            hCV2731971
SNP Position Genomic:     11457
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16509):
CACCATATTTAACAGCAGCTTTGTATTACGGTCAAGATTGTTTGAAGAATTCAGCATACAAACTTAATTTACAGATGCAAGCCTGCAGATGGACCTCCCC
M
CCCCCACTTTTTTGCTTTAGATTAGGTTGTGACTGGAGGAAATTTAGTTTTCCTTTGCCTTCAGTTATTTGCAGCTGTTCACATTTATGATGATGAGAAT
Celera SNP ID:            hCV16054428
SNP Position Genomic:     58920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16510):
TTAAGTATATTTGTTGACCCCTGATGGGATCCCAAAGGGCCCAGAGGTTTAAAAAGTATGAAATCCCTAGCTGGTTTTGGTTGGCTTACTTATGCACCTC
M
CCTTCTTTAATTTTTTGAGGTGGTGTCTTGCTCTGCCACCCAGACTGGAGTGCAATGGCACGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCCAG
Celera SNP ID:            hCV29123871
SNP Position Genomic:     113484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16511):
AAATAATATTAGTTAAGGAAAATTCAAAGTAAAATTCCCCATTTTCCTTCCCCAAATGTAATCTCTGTTCTTCAATAACCTTTCAGAGATATTTTATGCA
Y
GTATGAGTGCTCTTTATTTTGAGTGCAAATGGGTCATATTACATACTGCTCCTCAATATATTTTCTTTATTTAAAGTAGCTTTCTGTATCAGCACCTATA
Celera SNP ID:            hCV29123874
SNP Position Genomic:     112098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16512):
GAACCAGGGGCAAGTTAGGTAAATGGTCCCTAATGTATTCTCATTAGAATAATGAGGTGATCATTGTTGTAAAACCTTTCTTCTTGGAAACTTTATAGCC
W
TCTGAATGCAGTTATTATTCATCAAGAATAAGTTCAGCCCGAAGCAGTCCAGGGGTGAGCTGTCTAGTCTCTGCATGCTTTGTAGAAATTTTTGATTGTT
Celera SNP ID:            hCV29123875
SNP Position Genomic:     111438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:16513):
AAGGAATAATACAGTGAACATCACATACCTATCATTTAGATTATATAATTCATTATATTTCCTTTATCACATAATTATCTATTTGACCCTCTAACCATCA
R
TTCATCTTAGTTTTTGATACATTTCAAAATAAGTTGTAAGCATCCATATACTTCAGAGTGGGTACCCTTTTAAAAAAGCTTACATATAAAAATGTAAACA
Celera SNP ID:            hCV29123877
SNP Position Genomic:     108925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16514):
AATACAAGAAAGCCATGGTTTCCAATGCACAGTTAGACAATGAGAAGAACAATTTGATCTACCAAGTAGACACACTCAAGGATGTTATTGAAGAGCAGGA
R
GAACAGATGGCAGAATTTTATAGAGAAAATGAAGAAAAATCAAAGGTAATGCTTATCTTGTATTTTCTCTTGGGGCAGAAAATAAAAGCCTGCCACTTAC
Celera SNP ID:            hCV25925504
SNP Position Genomic:     135884
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16515):
CTGTTCTCTTTGCTTTATCCGAAGTTGCCTAGAATAGCAATACCAACATTAACACCAACAATTTAATTACTGAAAATAGTTAAAAGATTTTTATTTTGTT
K
GTTTTGCTTGGCTGTTATTTTTGCCACTAGTCTGTGTGTGGCCAAACTATTGTTTTTAGAAGTTACTTGAAATAGTTTCTTTCTGCGCTTCTAACTGGAT
Celera SNP ID:            hCV26450064
SNP Position Genomic:     141221
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16516):
ATAAATTGTTTTCATTCCATTTTCTCTGAGGGTTTATTGTCTTGTTTTTAAATTTAAAAATTTAGTAATGTCTTTGTTTTAGGGGCTTGAAATAATTGTC
R
CTTTGACTTAATGTGATATGATGATTTAAAAACATTTTGGAGAAGAAGGGATTTGGCAATATCATATTTTGCCTTTTTGTGTTCAGTTTTGCCTTTGTGT
Celera SNP ID:            hCV29123879
SNP Position Genomic:     108341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16517):
TCTTTCTCCAGTTATTTGAACGTTAGTCCCTATGGACTGATACTTTAACCTTATATATTTTTCTTTCTTATTTTCTACCTCTCTCTCTTTTTTTTTTTTT
T
CTGTTTTCTGTAAGACTTCTTGAACTTTATTTCCCAACCTGAGTTTTGTAAAACTAATTTTTTTATTGAGGTACTACTCGTGTGTCATAAAATTTACCCC
Celera SNP ID:            hCV26450065
SNP Position Genomic:     67320
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16518):
CTCAAGGGATCCACCTGCCTTGGTCTCCCAAAATGTTGGGATTACAGACATGAACCACCGCACCCAGCCTGTTTTCTCTTTCTCCAGTTATTTGAACGTT
R
GTCCCTATGGACTGATACTTTAACCTTATATATTTTTCTTTCTTATTTTCTACCTCTCTCTCTTTTTTTTTTTTTTCTGTTTTCTGTAAGACTTCTTGAA
Celera SNP ID:            hCV26450066
SNP Position Genomic:     67244
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16519):
ATATTTAAATTTATATAAGAAAATGTTAGAAAAAAATATGGGGAGTGTATATAAAACTTGCTTTATTGCATGGGGCAGGGGAAGTCCAGGCCTAATACTC
Y
TAAAGTAAGAGTTGGGTCCTTTTTTTCTTCAATACAACTGTGCTGTACCTTGTAAAGTATTTTATCTGCTGCTTATTTGTGGAATGAAACCTCAAACAAA
Celera SNP ID:            hCV8256053
SNP Position Genomic:     166690
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(T,-|C,-)   ;POOLE|_CEPH(C,85|T,103)   total(C,85|T,103)
SNP Type:                 UTR 3


Context             (SEQ ID NO:16520):
GATCTCTCCCGCTAAGGGCTCAGCCTTTAGGAACACACTTGACATTTGAGTTGTCTGTCTACTAGTGAAAGCTTGAAACAAGGAAATGACCTCCTTTGTA
Y
TTCTGTTTGTCTTTAAGTGGCAAATCACTGCTGTGGGGAACAAATGTTGGATTTGGTGCCCTGATAAATATCAGTTGTGTGGAAATACTTTTTAGATAGT
Celera SNP ID:            hCV28987644
SNP Position Genomic:     155816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16521):
GAAATGATGTTAAAAGTGATAATAATTTTCTTAAAAAGCATTTTTGACTTTAGAATGCTTAATTCTTGTATTTAAAGGCTCCCTTAGGATGTTTTGTGCT
R
TAGTGTACTGAGATTGAATCATATCACTATTACTGATTATGAATTTTGTTGTTTAAAAGAAAAATAAACATACAGTTTTGAATATACATACAGTTTAGCA
Celera SNP ID:            hCV25929865
SNP Position Genomic:     104181
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,2)   caucasian(A,26)   total(A,56|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:16522):
TCAGCATCTGGGTCACTGTAAGGCAATAAGTGTAACTGTAAGGCCTGTGGATGGAAGTACTATGGGCCTATACACATCGGTTTTTACTTAACTACAAACT
K
TTCTGCAAAGAGATAGTCTAGTATACCTGTGCTAGGGGAGCAGTAGGCTAGCAGGAGACTTCTCAAGTGTGTTATAAGTTTCTCATCCTTGGAACATCTG
Celera SNP ID:            hCV28987645
SNP Position Genomic:     154347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16523):
CAGTTTTGTTCTTACCAATTGAGGAAAAGGTTTAGTTCTTTAAGTTGTTTGATACCACCAAGGAAACACTGGAAGGAGTTAATGTGCTCCTGAAGAAAAG
K
GTTCTTGAGGAAACCTTAGGGTAGAAATTTACTGCAAGTCCTTTAGGATCAGAAACAAAATTATTTAAGGTTTCCTTTGAGTCTACATTCTCAGTTTTGT
Celera SNP ID:            hCV27948280
SNP Position Genomic:     74683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16524):
CCCGGATTTGAGGAAAGACTTAGGAACTAGAGAAAGAAATGAGTTTATAAGAGTTGATTAAAACAATCAATCAAACTTGCTTGCTGATAGATAATATCTT
S
TCCTGCCCACCCCTTTTGCGTGGTAATGTCCCATTCTTTATTTTCAAATCTGGTGTACAGGTTGTTTTTGTTTTTGTTGTATAAAGCTGAGTTTTATATT
Celera SNP ID:            hCV25989029
SNP Position Genomic:     90309
SNP Source:               Applera
Population(Allele,Count): african american(C,19|G,11)   caucasian(C,13|G,19)   total(C,32|G,30)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16525):
TAGTCGAAGAATGAAGATAGGCAGTCCCTCCAAAGGGGGCACATAGTTGTCAATCAGAAGGGGTAATCCAATCAGGTTCCCTTCCTGCTTGCAGGAAAAA
S
GACAAGGGAACAAGAAATAATGCTGTCATAGTTTAAACAAATCCCATTTCTCCAGTGCTTTCCCAGGCCTTGTGCTCCTATCTGCCACTCTGGGTGACCA
Celera SNP ID:            hCV15759323
SNP Position Genomic:     171378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16526):
CCCATGGATGCCCACATCTTTTTTTTTTTTTTTTTTGAGACGAAGTCTCACTCGGTCGCCCAGGCAGGATTGTAGTGGCGCGATCTCAGTTCACTGCAAC
R
TACAACCTCTATCTCCCAGGTTCAGACGGCTTCCCGAGTAGCTGGGATTACAGGCGCCTGCCACCACGCTTGGTTAATTTTTGTATTTGTTTAGTAGAGA
Celera SNP ID:            hCV7535078
SNP Position Genomic:     155356
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,14)      total(G,1|A,14) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16527):
AACCACTGTCTGATTGCTGCTAAACAAGCAACTTTCTTTCTTTCTTTCTTTCTTTTTTTTTTTTGAGATGGAGTTTCGCGCTTGTTGCCCAGGCTGGAGT
K
CAGTGGCACAATCTCAGCTCACTGCAACCTCCGTCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCATCTCAAGTAGCTGGGATTACAGGCGCCCGCCAC
Celera SNP ID:            hCV1482638
SNP Position Genomic:     92745
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16528):
TCTTTGTTCTTTTCTAGTTGGATGAAAAATCTGACAAACAGTATGCTGAAAATTATACAAGAGTGAGTATGTAAATTCCTAAGGGAAATTCTCAAGGTCA
R
TTAAACTTGCTATCTGTAACTTGTTCATTATTTATTTTACAACAATTGGTCTGATGTAGCTGCTCTTCCTCCCTTCATCTATTTCCTGTCCTTGACCCTC
Celera SNP ID:            hCV25929434
SNP Position Genomic:     122988
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:16529):
CCCACTTTCCCTCCCTGCAACATTCCAATTTTGAAATTTTAAATCAATAGTTGGTGTTTTCATTATAATGAAATAAATATTGTTTACTGATCAGCCATGT
R
GTATATCATACTTGTTTCCTTTCTTGTTTAACTTTGTTTTTTCAGGGAGTTAAAATTTGCCTTTTACATTTACATAATTTTCTGTTTACCTGTTGCTTTC
Celera SNP ID:            hCV1482639
SNP Position Genomic:     64889
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16530):
TATTTTGGTGACAGTACTCCATTTTGTTCTTCCGGGAACCACTCCTCTCCTATAGTCCATGATCTTTGGGTGGACCAGAGGTAAAGCATATGACTCAAAT
Y
TGGCTAATCATAGCACAAGAGTTTTCCTTGCTACAGTAATTTGTTAAAGGATGGGAAGGTAACTCTCTATCCTTTAACAAATTACTGTAGCAAGGTAATT
Celera SNP ID:            hCV7534926
SNP Position Genomic:     45790
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16531):
GAACATTGAAAATGCCTTCTAGGAATATGGCATTGCGGGGTGTATACAAAAAAATAGATCTTTTCTCAAAAAGCATGTAATCTGCTTGGGAAGACAAGAA
Y
ATTATTAAAAAAAACCCTTTAGAACACAAGTGAGTTGTGGACAGTAATACATATAAATAATCTGAATGGCAGTATATAATAACTGATAACTATCTACAAC
Celera SNP ID:            hCV7534927
SNP Position Genomic:     46506
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16532):
TGAGAACAGCCTGGCCAACGTGGTGAAACCCCATCTCTATTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAATCCCAGGTATTCAGGA
R
GCTGAGGTAGGAGAATTGCTTGAGTCAGGGAGAAGGAGGTTACACTGAGCTGAGATCGCACCACTGCACTCCAACCTGGCCAGCAGCGAGACTCTGTCAA
Celera SNP ID:            hCV16143732
SNP Position Genomic:     69486
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,14)   total(G,14|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16533):
TCCCTTGGCTCACATAGTCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGTTCGTCAACATGTCTGGATAATTTTTTTTTTTTGTAAAGACA
R
AATTTCACCATGTTGCCTAGTCTGGTCATTTTTCTAATATTGGTAAGGAAATCTGCCTACAGGGTCCAAATAATACAGTTCTTTTAAAAGTACTAGGTTA
Celera SNP ID:            hCV11578951
SNP Position Genomic:     75109
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16534):
GTTCTTTGCTACCTAGGCTTATATTGTTCTTTCTAATACTTCTAGTCTTTTCCTGTTTTCTGCTTTATTTCATACTTTTTTTTTTTTTTGAGAGGAGTCT
Y
GCTCTGTTACCCAGGCTGGAGTGCAGTGATGCGACCTTGGCTCACTGCAACCTCTGCCTCCCAGGATCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAA
Celera SNP ID:            hCV11578952
SNP Position Genomic:     70519
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,12)   total(C,3|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16535):
CATTTCTCAGGTGGCTAAATGAAAAAAGAAGAAACATCAAGATACGTTCTGTACAAAAAGGTAAAGAATGGTTAGTCTGAAGGTTCAGGTTTCTGCAAGC
R
AAGGGACTCTGCCACATTGCTGGCAACATCTTAGGAATGGAATGAAGCATAGTCTACCAAGAACTCTTTGAAAACATTAGTCATCCTTGCAGGCCTGCTA
Celera SNP ID:            hCV29123885
SNP Position Genomic:     145014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16536):
CTTGATTCTTTGGTTCTTTGCTACCTAGGCTTATATTGTTCTTTCTAATACTTCTAGTCTTTTCCTGTTTTCTGCTTTATTTCATACTTTTTTTTTTTTT
T
GAGAGGAGTCTTGCTCTGTTACCCAGGCTGGAGTGCAGTGATGCGACCTTGGCTCACTGCAACCTCTGCCTCCCAGGATCAAGCAATTCTCCTGCCTCAG
Celera SNP ID:            hCV11578953
SNP Position Genomic:     70507
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,13)   total(-,13|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16537):
TAGCAGTCTTAGACATAGCAAACCCACCTCTGCCTACTACACTCGGGTTTGTCTAAACTTTTTTGGCTTTATGTGTTTGATTCACTTTTAACATATTTCT
R
ATCTCCCCATTTTGCATTTTGACTAGCTGTAACTAATCTGTAAATGGCTACGTATATACTAGTTTTTGGTAACTGAATTTATATAGTCTGTGGGAGTCTC
Celera SNP ID:            hCV25923552
SNP Position Genomic:     108629
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,38)   total(A,71|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16538):
CCACAGTGCATAAATAACCATATTTAACACCTCTCAAAGACTTTGTATAGATCAGGCAGGTTAGCAAGCTGCAGGATATTTCCATCTTCTGTGAAATGTT
W
AGGAGGCAGAATGTGTGAGCGCAAGGCTTTATAGACAATGTGTTCCACAGTCCACTTCCAGGAGTTTGGAATGGAGCCAGGCACTTCACTCTGGAAAACA
Celera SNP ID:            hCV27528227
SNP Position Genomic:     169302
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:16539):
GTATTTTATCTGCTGCTTATTTGTGGAATGAAACCTCAAACAAACCCAAAGGGGGAGGGTAGGGCAGGGCAGGCAGATTGGAAATCTGCCTGCAGATTCT
R
TTAAATACACCCTTTTGCCAACCACAATTGGCTACTGACATGTTCATTTTGTTATAGGAGACTTTAAAACAAATCATGGCAACCACATCCCTCTTCTTTT
Celera SNP ID:            hCV27479714
SNP Position Genomic:     166847
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:16540):
AAAACCATAGGAAACTATAGCTATCAGTTTTTGTAGATATTTCAGGAGAATTCAAGATCATCATTTGTAATAAAATCCCTTACGCATTCCAAAAAGTGTA
M
GAACTTTTCCATTTAGTGTCTCTTCCTATATTGCTTTGGCACTTAAACAATATGGTCATAATAAAACTTAGCATGGGAAATTGGCCCTAAAATGACTCTA
Celera SNP ID:            hCV25927699
SNP Position Genomic:     165066
SNP Source:               Applera
Population(Allele,Count): african american(A,20|C,2)   caucasian(A,12|C,14)   total(A,32|C,16)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16541):
GTGGTGCCATATAAGCCTTGGACTCCTGGGCTCAAGCTTCCTGAGGTAGCTGACATTACTACTACAGGCACAAACCTGGGCCTTTTTTTTTTTTTTTTTT
T
ACCCCCCAGAAGGCTCTCTCTTTATTTGTCTGACCTGAAATGGGCATAAGTTGCAACAGATTGAAAATTCTAACTCTACCTTCATTTTCAGAAGTGTCTA
Celera SNP ID:            hCV11578958
SNP Position Genomic:     46224
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16542):
GGGAGTTGAGGATGCATTGTCCATTCGAAGTGTTGGCAGTCACAGGGTTGGTATTTTAACTTGTCTACACAATACAAAGCTTACGTGTGAGCTTTCTTCA
R
TAATGTTGCCTAAACAATCTGACAATGTTCCTGTATTTCTTTGCGTTTTTAAAAGAAGTATAAAATATTGGCAAAGACCTTTCATTGGAAAATGATGCTT
Celera SNP ID:            hCV27509287
SNP Position Genomic:     98128
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,33|A,1084)   total(G,33|A,1084) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16543):
GCTCATTTGTTTAGGTCTTTGATCCATTTTGAGTTTTTTCTTCTTTCTTTCTTTCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTT
C
TTTCTTTCTTTCTTTCTCTTTCTTTCTCTTTTCTTTTCTTTTCTTTTCTTTTTTTTGTGACAGAGTTTCTCTCTTGTTGCCCGGGCTAGAGTGCAATGGT
Celera SNP ID:            hCV26450078
SNP Position Genomic:     63301
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16544):
TGAACACTTTGGATTTTGTTGTAGTTTGATTCTAGGGTAGAACCAGTCCATGCTGTTTTTATTTTTTATCTCCGTAATTGTAGAATCATGTTTACTCAAC
R
TTTTTCCCCAGCTGCCTCAGTAACTGGGCACTCGGAGGCCTTGGCACGGGTTCTGGAGGACAGACAGCAATTCTATGAGTGCTCACTGAGATACTTGCTG
Celera SNP ID:            hCV7535083
SNP Position Genomic:     166299
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,10)   caucasian(A,14|G,14)   total(A,32|G,24)
SNP Type:                 UTR 3;INTRON

SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:16545):
ATTGTTCTAGTAGAAATTGGTATGCCCAAATTATGGATTTTCCTACCAGATAGATTCAACATTTTTTTTTAAACCAGCTGAATTCTACATTATATTTTGG
R
AAAGGAAAATTGAAACAGGTTATTTCCAGTTTGGCTTGTTAAATCCTATGCCTGTGTAAAATGCCACTGGTGCTATAGAGAGGATGATAAGAGGAAAGAC
Celera SNP ID:            hCV2973090
SNP Position Genomic:     102229
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16546):
TAAATTTCCTTGTGGTTTGCTATATAATTTTGGAGTTATGCATTTCTCAGCCAGTTATTTTTAAAAACTTAAGGCCGTGTACTAAGAGGTCTAATACTTT
Y
TGAACGTAGTATTTGATGTTTGAACATTAGCAGTACCTGAATGTGAGGTGGATATATTTATGGTCTTATGCTGCATTCTTAGGACTTTAGGTTTCTCCTT
Celera SNP ID:            hCV2973091
SNP Position Genomic:     100771
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16547):
ATCATGCAGGGAGTCAGTCAATAAAAGCTTTAAAGTTAAGTCTCAAAGGCTGTGAAAATAATCCTCTTCTTGTATTTATGGCTTTTTCATTTGCTTTTCA
K
TATAATGTTCGCAGTGTGTATTTTCACACAGTTGTTATTAAGCCGGTTATTTATAAATTTGTATGTGGCCTTAGGAAATTTGATTATATATTTGTTTAAC
Celera SNP ID:            hCV2973092
SNP Position Genomic:     100020
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,11)   total(G,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16548):
ATCAGTTGGATCCGTGGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCACCGCACTCCAGCCTGGGTGACAGAGTGATACTCTGTCTCAAAATAAAAATTA
R
AATAAATATTTTGTAAAGAATCATGCAGGGAGTCAGTCAATAAAAGCTTTAAAGTTAAGTCTCAAAGGCTGTGAAAATAATCCTCTTCTTGTATTTATGG
Celera SNP ID:            hCV2973093
SNP Position Genomic:     99900
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16549):
TACACAGAGCTATATTTCATGTAACTGATTCTAACCAGGTTTTACCTGTAGCAAACATGTATTGTTGCAGAGTGACCTCACAGAGCTTACAGCTTCCATA
Y
GGGCCTTTTGTGATGGTGGGTTTTTCCCCCCTGCAGAAACATGGCTTAGTTATAATCCCCGATGGCACTCCCAATGGTGATGTCAGTCATGAACCAGTGG
Celera SNP ID:            hCV15757732
SNP Position Genomic:     153899
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,10)   caucasian(C,16|T,18)   total(C,44|T,28)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,188|C,1303)   total(C,1303|T,188)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16550):
TGAACAGCATTTATTCCAACATATATTTATTTAGGCATACACTGTGTGCACTTGGCTAGGTACATAGGTAGATTTAGGAAGGCCAAGACAGGGCCCCTCT
Y
CTTGCTTACACATACGATGTTTAAAAAGCATGACAAATGTCATAAAAATGCAAATAAAATACAGCAAGGGAAGGACTTATAATTAAGGGGAGTCATGAAA
Celera SNP ID:            hCV15994114
SNP Position Genomic:     163823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16551):
GTTTTGCCATGTTGCCCAGGCAGGGTCTTGAATTCTTCGGCTCAAGGGATCTGCCTGCTTCAGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCTACCA
Y
GCCCAGCCCAAAATTTTTATTTTTATGTAGTCTAATTTATTGTACCATTACCTCATTGCTTGTGGATTTTTGAGTCATTTTTTCAGTAAAGATTGCCCCA
Celera SNP ID:            hCV578287
SNP Position Genomic:     143315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16552):
TTAGACTTTCCTGGAAACAAGTCTGAAGGCTCACTACTAATTTCATTTAAAAGAAATATAATTGAGATAAAACTTTTTCTGTTTTACCCAAATAATATTG
W
GAGTTCTAAGTTTTCATCAAATTATTTGCTTTTAAAATAATTTTTCCATTAAGCTGAATTGTTAGACAACTTTTGTCCTCTGTAGATGGCCTAAACACTG
Celera SNP ID:            hCV578288
SNP Position Genomic:     100567
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;JBIC-allele(A,398|T,1075)   total(A,398|T,1075)
SNP Type:                 INTRON


Context             (SEQ ID NO:16553):
ATCGTCCTTATCTGGTTTGTAATAACCTATACACTTGCCTCTAATACTTTTCCTCATTAGCTTAATGTAATCACTCACAAACTTTTACTGTGTTTATTTT
Y
ATTTTTATCAGGGAGTTGAGGATGCATTGTCCATTCGAAGTGTTGGCAGTCACAGGGTTGGTATTTTAACTTGTCTACACAATACAAAGCTTACGTGTGA
Celera SNP ID:            hCV11985779
SNP Position Genomic:     98017
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:16554):
TGAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGTAGCCACCTGTAATCACAGCTACTTGGG
R
GGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCTCTGCACTCCAGCCTGGGCAACAGTGCGAGAATCCAT
Celera SNP ID:            hCV27499253
SNP Position Genomic:     126605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16555):
AAATAAGTCCACAAAATAAAGTCTATTCTATTCATTTTACCCGAATTATTCCAGTTTTTCTCATTTTTCTACTTCTGACCTCATAATAAAATGATCACTG
Y
AGTCACACTAATTCCCATAGTAGGAAGATTTCAGCAGGAATTTGTAGTTAGCCTTTGTTAGTGATTATGTGTAATTCTCGGACAGAGGAGATTTTCATTT
Celera SNP ID:            hCV27499254
SNP Position Genomic:     162002
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,214|C,1275)   total(C,1275|T,214)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16556):
CCCGGCTGGAAATTTTATTTGAAGAATACAACAGAAGTATAAGAATGGCTGTCACACCTCATCAATTTCCAAAGAGAAATAGTCTGCAAGCATCTCAGCC
K
TCTTCTTCAGAAACTCAACAATGTATTCAGCAAGTCCTTCTTTGGGACCATCTTCCTCTGTCCAGCCACTCTCTGGACTATCTAAGGCAAGCATGGCAAG
Celera SNP ID:            hCV27536615
SNP Position Genomic:     172238
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16557):
ATAAATAACCATATTTAACACCTCTCAAAGACTTTGTATAGATCAGGCAGGTTAGCAAGCTGCAGGATATTTCCATCTTCTGTGAAATGTTTAGGAGGCA
S
AATGTGTGAGCGCAAGGCTTTATAGACAATGTGTTCCACAGTCCACTTCCAGGAGTTTGGAATGGAGCCAGGCACTTCACTCTGGAAAACACATTAGATG
Celera SNP ID:            hCV7535091
SNP Position Genomic:     169311
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Scottish and American(G,141|C,-)      total(G,141) ;TSC_42_A(G,-|C,-)   TSC_42_C(G,-|C,-)   TSC_42_AA(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16558):
CTTTGTATAGATCAGGCAGGTTAGCAAGCTGCAGGATATTTCCATCTTCTGTGAAATGTTTAGGAGGCAGAATGTGTGAGCGCAAGGCTTTATAGACAAT
R
TGTTCCACAGTCCACTTCCAGGAGTTTGGAATGGAGCCAGGCACTTCACTCTGGAAAACACATTAGATGTCATAAGCCTCCCTGTTTGCATCCCAACATA
Celera SNP ID:            hCV7535092
SNP Position Genomic:     169342
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Scottish and American(A,2|G,139)      total(G,139|A,2) ;(G,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16559):
TATTTCCATCTTCTGTGAAATGTTTAGGAGGCAGAATGTGTGAGCGCAAGGCTTTATAGACAATGTGTTCCACAGTCCACTTCCAGGAGTTTGGAATGGA
R
CCAGGCACTTCACTCTGGAAAACACATTAGATGTCATAAGCCTCCCTGTTTGCATCCCAACATACACTGGTGTCCTGGCTGATGGGATGTGCACTGGGTC
Celera SNP ID:            hCV7535093
SNP Position Genomic:     169378
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Scottish and American(A,4|G,137)      total(G,137|A,4) ;(G,-|A,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16560):
CTTGCTCTTTTCGATGTTTGTTCGTAGCTTATCTTTAGCACCTAGGACGATGTGTGTCTCCTATTAGGCACTCAAGAAAATAGGTTTTGAATGAATGTGG
S
TGATACGATAAGGGTCTGCTTTGTTCTATGATGTGACCATAGAATAAGCATCGGCTTCATTTGAGAGATTGGATCTTGCTGATGAACCTTTATTTTCATT
Celera SNP ID:            hCV25926902
SNP Position Genomic:     160863
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,40)   total(C,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:16561):
TCTATTCAAAAATAATTTTAAAATATATCACAATAAGTTATAGAGCATATATTTCGTCTACTAGGTTGGAATCAGTGTTGGCTCCTTGCTACTCCTGCTT
R
TCCATGTTGCTTCAAGCATCTAGTAATAATGTATAGAAAGAACCAGATAAAGTAGTTTTAAATCCTGTTTATTTCTTTTAAAGCATGTGGTTTTAATGGC
Celera SNP ID:            hCV707355
SNP Position Genomic:     86900
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16562):
TGGTCATTTGCCCTTTCCCTCCAGCACACATGCATGTACCGAAATGCTTAGTATCTGCTTGATCACTGACCTCAGTGGCTAGTCGAAGAATGAAGATAGG
M
AGTCCCTCCAAAGGGGGCACATAGTTGTCAATCAGAAGGGGTAATCCAATCAGGTTCCCTTCCTGCTTGCAGGAAAAAGGACAAGGGAACAAGAAATAAT
Celera SNP ID:            hCV7535098
SNP Position Genomic:     171299
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): NIH Coriel panel(A,11|C,870)   Scottish and American(C,141|A,-)      total(A,11|C,1011) ;(C,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16563):
TATCTGCTTGATCACTGACCTCAGTGGCTAGTCGAAGAATGAAGATAGGCAGTCCCTCCAAAGGGGGCACATAGTTGTCAATCAGAAGGGGTAATCCAAT
Y
AGGTTCCCTTCCTGCTTGCAGGAAAAAGGACAAGGGAACAAGAAATAATGCTGTCATAGTTTAAACAAATCCCATTTCTCCAGTGCTTTCCCAGGCCTTG
Celera SNP ID:            hCV7535099
SNP Position Genomic:     171350
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Scottish and American(C,141|T,-)      total(C,141) ;(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16564):
GGTACATTGGAAACACCCATTTCCTGTTAGGCTGCAACAGTACTGGCAAAGGAAGTGCAGTCCCAACTCCTTGCTAATTCAGGGTTCCCATGGGTTGAAC
S
GGGAGAGGGTTGGAAGGCTTTGGTTGGTACAAGGGAGGAGAGAAGGGAGAATGTAATGGGGAGGAAATTAACGAGAGGCCCTGGAAGGTAGGGTCTTGGG
Celera SNP ID:            hCV11985786
SNP Position Genomic:     107625
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,14)      total(G,14|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16565):
TAATATTTTGTCAATAGGTTGCCTGAGTTTCTAAATTACATAGACATCTCTTAAAATATTCAGAGTAATGTATAAAAAGATGCATATTCAAAAAAAAAAA
A
GTAAAATGAGTTTTTAATCATTGATTGGGAATACAGCTATATATATGTGAGATGGTTTACCTAGAGCAGTCTGTTGCCTTTGGCTCTTGATAGGTAGGGC
Celera SNP ID:            hCV26449836
SNP Position Genomic:     105454
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16566):
GGTTTATAAGTGATTGCTTTGATTTTACTCCTTCCCCCCCTTTTTTTTTTGCCAGATGTGGGAAGATAAATGAAGGGGTCTAGATGTAAATGTCAGTGGA
R
AGGAGAGCTACCATCACTAAGGTATGAAAATGTTCACTGAAAGAATTTGCACTATACAAAATAGTCTTTTGAGTGGAAAGCATCACCCATTTTTGTGATT
Celera SNP ID:            hCV7534943
SNP Position Genomic:     54554
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:16567):
GTTGTTTATGTAGAGCATGTTGTGACAGTGATCATTTACCCACTTATATGTGGTGATACATGACATAACTATGCATGCAGATACCAGTAACCAAAAATAC
Y
TAATCCATAAAGTGACACTCAACACATGGGAAAGTATTGTTGTGCTTTGTTTTCCCAATGTTTCAGTTATTATTAATTATTAACATAATGGAGTGTTAAC
Celera SNP ID:            hCV28032256
SNP Position Genomic:     151670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16568):
GATGGTGAGACCAATTCATCTTTGTTTTTGTTTTTGCTTATTTATTTTGTTTTTGTCTCTTAGCAGTCTTCTTCCCTGTACAGTGACCCTCTGGCAACAT
R
TAAGAGTGACAGGGTTAGTACTTTCTGAGGAATGTTCTGCCTTTAGAGCTACCAGTTGCTTTTTTTGGGGTTTAATAATACACTTTTTTCTTAGGCCTCT
Celera SNP ID:            hCV25929384
SNP Position Genomic:     109899
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|G,1)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:16569):
AGTTTCTTTTTCAGAGTTTTTACAGCAAGAAGTAACAAAGAGTTAAATGTCTAAAAATAGTGTTTATATTACTGATGTAATACTATCATCATAATAAAGA
A
TATTTATAAACATAAGTGTGGGTAATAAAAAGAACACTAAAAACTTTCAGATATGTGGAAGTTAGGGTGAAGTGTTCTGAGTAGAGCCAGAAATGATGTT
Celera SNP ID:            hCV26449769
SNP Position Genomic:     121458
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16570):
GTCAGGGAATCTGGCAAAACTAAAGTGTTTACAAGATACTACGGTAAATATCTAGAAGAAATGTGATTGGGAGAGTAGATTGCTCTATGTGGTTTTGCTT
Y
TAAGCTAAGCTTATCACGCTTTAGCTCTCAAGAATAAGGAAAAGCAAAACATGTCTGTGCTGTGAAATAAGTCTTCAGCCCATCTAGGCTCCAGGAACTT
Celera SNP ID:            hCV29123973
SNP Position Genomic:     66128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16571):
GGTGAGCTGTCTAGTCTCTGCATGCTTTGTAGAAATTTTTGATTGTTGCGTTAATCTGTACTCACTGTTTAGAATATTGAGGATATGGTGTGATTCACTT
Y
GTTGTGCATGGATTAGGTGTTCCCTTAGTACATAAACTCAAGCACTAATTTGTCCTAATAATTGGTGATTTCTCTATAAATGTGACTTAGCATGTAATTT
Celera SNP ID:            hCV25924084
SNP Position Genomic:     111592
SNP Source:               Applera
Population(Allele,Count): african american(T,26)   caucasian(C,1|T,33)   total(C,1|T,59)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16572):
ATAATAGTTCTGTATTAAAATAGAAAAGCCAGCAGAGAGCACTTGTTGGGACATTTTAGCCTTCTGTTTTCTCTAAAACCATAGGAAACTATAGCTATCA
K
TTTTTGTAGATATTTCAGGAGAATTCAAGATCATCATTTGTAATAAAATCCCTTACGCATTCCAAAAAGTGTAAGAACTTTTCCATTTAGTGTCTCTTCC
Celera SNP ID:            hCV25927131
SNP Position Genomic:     164992
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,2)   caucasian(T,14)   total(G,2|T,16)
SNP Type:                 INTRON


Context             (SEQ ID NO:16573):
AAAGAAAGAAATGTCAGGGACTGTGAAGAGAACAGATAATGTGATAGGGAACCTGGAGGGGTCTATGTGTGTGGGTTACCCTTTGGATGGGGTGATTAGA
R
ATGCTTCTCTGAGAAACTGACCTTTGAGCTGAGACCTGAAATGTGAGGAGCCAGTTGCTTGAAGAGCTGGGAGGGGAGCGTTCTAGGCCAGTGCCAAGGC
Celera SNP ID:            hCV11576076
SNP Position Genomic:     115882
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16574):
TCTAAATAATTGGATAGAAGTCTTTAATCAGTTATTTAAAATCAGCAATTTGGAGATGTGGGTCAGAAATTGAAAGATGTTTTCTTTAGAGGTTTATAAG
Y
TGTAATGTTAAAATGTACAGATGGAGAATATAACGCATTGTCCAAGGCCCAGATTTGCTCTCTGACAACTGCAGAAAACAAATTGGATTCTTTTAAAAGC
Celera SNP ID:            hCV11576079
SNP Position Genomic:     136436
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,16)      total(C,2|T,16) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16575):
TTTGTATATGAATGTCATTGAATTGTATATGTTCATTTTATAACCTGTTACTTTACTAAATTATCTTTTGTTTTTAATAATTTTGCCATTGATTAGTTCA
S
GTTTTCCTGATAATTATACAAGATGGAATTTTAAAATTTTCTTAACTTTTCTATAGAATACACAATTTTTCTAAGTTACTATGAATCAGGAGTTTGGGCA
Celera SNP ID:            hCV1219104
SNP Position Genomic:     144248
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16576):
ACCACTGATCTACTTTCTATCTATAGAGTTCCCTATTCTAGACTCATATGAAAGGAGTCATATAATACATGGTCTTTTGTGACTGGCTTCTTTCGCTTAG
Y
GTGATGTTTTCAAGGTTCATCCATGTTATACCATGTATCAATACTTAATTCCTTTTTATAGCCTATTAATATTCCATTTTTTTGGGTATGCTACATTTTG
Celera SNP ID:            hCV1219106
SNP Position Genomic:     139763
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16577):
GTTTCACTTTGTTGGTCAGGCTGGTCCCGAACTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCC
Y
GGCCTATTTAATGTTATTTTTAAGCAGCTTTATTGAGATATAATTCAAATAACATACAAATCATCCATTTAAAGTGTACAATTCAGTGGTTTTTAGTATA
Celera SNP ID:            hCV1219107
SNP Position Genomic:     139443
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16578):
TTTATTTTATTTTATGTTATTTTATTTATTTTTTTAAATTTTATTTATTTTATTTTTTTAGACGAGTTTTGCTCTTGTTGCCCAGGGTGGAGTGCAATGG
Y
GCAATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTTCTGAGTAGCTGGGATTACAGGCATGGACCACCACGCCT
Celera SNP ID:            hCV1219108
SNP Position Genomic:     139212
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16579):
CATATTATATATCTAATCAATGTTAAAATTTCAGTAGTTTCAAAATGTCATAAATGATTTTTCTTTTTTACACTTAAAAAAATCGGGATCCAGGTAAGTT
K
CACACCTTAGAATGAGTTGATAAATCTTTTAAGTCTCTTTTCATGTATAGGTCCTCTTTCATGTTTTTTCTCCTTATAATATATATGTTGAAGAAACTGG
Celera SNP ID:            hCV1219109
SNP Position Genomic:     138727
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16580):
TTACAGACATGAGCCACCACACCCCGCATAATCTTTATTTTTAATGTGTATGTAACTACTAGGTATTCTTCAGTGCTATGATTACCTCTGCCTTCCTTTT
Y
TTTTCCACTCTAGATTTTTAATTGCAATTCCTAATTCCCATGCCTTTTTTTCACCTAGTCATCCACACTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV707361
SNP Position Genomic:     72338
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16581):
CTTAATTAAAGACTTTTAAGTGAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCGCATAGGGCTTACTCATTGGGCTCAAGCAATCCTCCTGCCTCA
R
CCCTGCAAGTAGCTGGGACTACAGGTGTGAGCCACTATACCTGGCTAATTTTTGTGTCAAAACCCCAGCTGCCTTTTTTTCCTCCCCTTCTTTTTCTTTC
Celera SNP ID:            hCV707362
SNP Position Genomic:     69169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16582):
ATGCATACTTTCACCTAAGCCCACACTTCCTACTCCCTCCCTGTTCCCATTGCTTACCCTTCCCTTCCCCAGAGCCCCTTTGTCTTCTAGAACTTCTGGT
R
TCCTGGAGAATAGGAGATGAAGTTGAAGCTGAGGTAATAGCCTAGCAATGGAAAGGGGACCTGGAGGTCTAACTACTTAATTAAAGACTTTTAAGTGAAT
Celera SNP ID:            hCV707363
SNP Position Genomic:     68993
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16583):
GTGGAGGTTGCAGTAAGCCAAGATTGTGCCACTGCACTCTAGCCTGGGCAACAGAGTGAGACTGTGTCTCAAACAAACAAACAAACAACAACAACAACAA
M
AAAAAAACTGATTCTTTGGTGTGAGTTGGTTGAAGGTAAACAAAATAAATAAAAAGAAAAAGAAAAAAAGAAAAAAATTAAACTGATTCTTCTGCTCATT
Celera SNP ID:            hCV26449911
SNP Position Genomic:     93552
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1|-,6)   total(A,1|C,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16584):
TTAGAAATAGTTTTAAAGCAGGCAACCACTGTGATCTTAGAATATCGAGACAAATGCTGCCATTACTGTTAATATTTGGATGACAAATCCTTGTTGTACA
Y
GCAACCTTAGGTGGTTTGAAGGAGCAGTCTGTAGGAAAATGAATTGCCAAAAAGAATACACCGCTTTGATATGGGCTGTCATTAGGTCCCATAATTGTGG
Celera SNP ID:            hCV25927357
SNP Position Genomic:     84707
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:16585):
TAGGGCGTAGCATTTTTTGGGAATTTTACTTCTTCCTCCTTGACCTGAGCTGGATCGCGCGGGTTTAACAGGCGCTAGCTGGGTTAATACTTGACTAATA
Y
GAGGCGTTATTGACACCCAGATTGTTAAGTTACAGAACTCCAGTCAGCCCTGCCTGTGAGTAACCAGCAGCATGCAGGAGGACCTAAGGAAACCCACTTC
Celera SNP ID:            hCV707364
SNP Position Genomic:     53545
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16586):
TGGGCGTGGTGCTGGATGCCTGTAGTCCCAGTTACTAAGGAAGCTAAGGCAGGAAGATCACTTGAGCCCAGAAGTTCAGGACTGCAGTGAGCTATGAGCA
Y
GCCATTGCACTCCAGCCTGAGTGACAAAGTGAGACCCTGTCTTAAGGGGGAAAAAAAAAAGGAGAAAAGCCAATTTGTTACCATGGTCACCAGTATGATC
Celera SNP ID:            hCV29123831
SNP Position Genomic:     47329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16587):
TCATTTTATTTCTTGGTACTTTATCACCCATCAAAATTTTAAAAAACTTTTCCCTAATTGGCCAATGTTCTTATTTTTTTCTTTCTTTTTTCTTAACCTT
K
AAAGCATCTTGTTTTTTTTCTGACCGAAAGGTATCTGCCGCTGATTATTTCAGTCGCTCCAATCGTAGGGGAAGTGTTGTCTCTGAGGTGGATGATATCA
Celera SNP ID:            hCV15757751
SNP Position Genomic:     116521
SNP Source:               Applera
Population(Allele,Count): african american(G,14|T,8)   caucasian(G,10|T,14)   total(G,24|T,22)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16588):
GCTCAAGGTATCTGCCCACCTTGGCCCCTCAAAGTGCTGGATTACAAGGCGTTAGCCACCATGCCCACCCAGTATTCTTGTTTTGACAGTTAGATGTTTA
R
AAACTTTTTTAAAAAATCCAGTCAAATGACGAGTCTTGTATTCCTCTGTTTTCCTTTGATAACAATCTGTGAAAAAACTGCAGTGGTCAGAAGATGTGTT
Celera SNP ID:            hCV707365
SNP Position Genomic:     49623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16589):
TTCAAACACCACATCTGCTCCCAACCACTTCCTACCACTTCCACTGCTACCTGAATTATTGTTATAGCCTAACTGGTCTTCCTGCTCTCACCTTTGCTCC
Y
CTAAAGTCTATTCACAATAACCAGTTTAAACTATTATTTTATTAGGAAAAATTTCAAACACACAGCAAAGTTGAAAGAATTTTACAGCAATCACTTCTGC
Celera SNP ID:            hCV29123832
SNP Position Genomic:     46870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16590):
GAGGAAATTAACGAGAGGCCCTGGAAGGTAGGGTCTTGGGATCTCTGGGGAGAGGTGAGCCTTAGGTGCCTAGTTGAGGGTGTGAGTGGGGAGTGAGGAG
Y
GGTGTGGGAAGGCAGGGCTAGGGGTGGTAGGGATGGGGTGGGAGTAGGGATGTCCTCAACTCCACTGTCAACACTGATGGAGTCTTTAAGTCAGAGATTG
Celera SNP ID:            hCV27482672
SNP Position Genomic:     107786
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,414|T,1055)   total(C,414|T,1055) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16591):
TAGCCATAAGTGAGATTTTGCACACTAACCAACAAACCACAGCATTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGGTAGGATCTTGCTCTGTCACCCA
R
GCTGGCTTGCAGTGGTGTAGTCATGGCTCACTGCAGCTTTGACCTCCAGGACTCAAGTGCTCCACCCACCTCAGCCTCTGGAGTAGCTGGGACTACAGGT
Celera SNP ID:            hCV707366
SNP Position Genomic:     49339
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16592):
ATCATTCCAGAATTATATGAATGAAGGAAAAACAATTTTCTCTCTCTCATTCAAGGCAAAGGGGTATTCAAGGTGCCTCAGGAGGTAAAGCAAGTGGTGA
Y
ATTTTCTTGGAAATAGTTCAGAATCTGGATGGATGGAGAGAGAGAGATTACATAATGAAAAGCCCACAAATGTTGGTTCATTGCTGGCACACAGTGAACA
Celera SNP ID:            hCV29123833
SNP Position Genomic:     29830
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16593):
TTTGCTGCCTGGACACACTAGACAGATGATATTTGGCCAGCATAACCCACTTCTGAGGCCCAGCTCCAATTTTTAGTGCATCCTGCCAACTTGTCTGTTG
S
CTGGCTCTACCTCCATCTGCAGCTCTCACGACTACGGCCCAGCAGTGTATCCAACAACATTGTGTGAACCTCTGCTCTAGGAGAAAGGCCATACCCTCCA
Celera SNP ID:            hCV29123834
SNP Position Genomic:     26878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16594):
TTCCCCCAGTCCCACTATCCCCTGACCTATTTGCCCTTTTCAGTGGTTGGGAGTGGGAGTTATGTTTTTGTACTTTGATTTCTCTGCTTTTAGTCTGGAA
Y
ATACAAAAGTGAGTCACATTTCATCTGAATCCTTTGCGATTTAAGATACGTTTGTGCATGGTTTTATGCAATGGTTCATTCCTATGTCCTGCAGGATATC
Celera SNP ID:            hCV15757755
SNP Position Genomic:     127932
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,182|T,1299)   total(C,182|T,1299) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16595):
ACATTAGCACAAATATAGAATATTTCCATGGTCAGAGAAAGTTGTATTGGACAGTGCTTATTTAAGGTATAGTTTGTGACTGTGGAATAAACTATACTCT
Y
TGTCCAAATTAACTGACCTGTATGGGGGTTTATATTTTATTCTGTAGTTTTCAGAAGTCTTTTTAGGCCAATTTTTCAAATGGAGCAAGAAAAGCTGTTT
Celera SNP ID:            hCV7534665
SNP Position Genomic:     95516
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16596):
GTGCTTATTATGTGCCAGCCACCATATTAATTTGAGGTAGGGACCATTTAAGGGTAAGAAAATCAACCACACAACATCAGTGATGGAGCTAGGATTCAAA
Y
CCAGGCTGACCAAAGAGTTCACTCTATTCTTTGCAATTACTGCATCCTCAAACAATCCCCTCCTCCACGGCTCTTGTTTTTCTTCAGTAATGGTTCCCAA
Celera SNP ID:            hCV29123835
SNP Position Genomic:     26674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 39
Celera Gene:                 hCG17177 - 63000132525541
Gene Symbol:                 DAP3
Protein Name:                death associated protein 3;DAP-3;MRP-S29;MRPS29;bMRP-10
Celera Genomic Axis:         GA_x5YUV32VSLS(5689972..5752864)
Chromosome:                  Chr1
OMIM number:                 602074
OMIM Information:            DEATH-ASSOCIATED PROTEIN 3;DAP3


Genomic Sequence (SEQ ID NO:12199):
TTACAGACATGAGCCACCCCACCTGGCAAGATCTTATATGTGTATTCAAGATATTACACAACTCACTAAGTCTCCAGATGAAAACCAGAATCTCTAAATA
TAGTTTGACAGTTTGACAATGCCCAATGACAGACTAAATGAGAAATTAGGAGGCAGCTTGATTTTTTTTTATTTCCTCAGAGATCTTTGTTCTGAGTTCT
GACTCTTGTTCTACAAATATTCAAAGTCGAAATGATTATCATGTTAATGGGTAAAGAGCTTCAAATCTTTGGCTATCTCATTTTTTTTTAATTTTTATTC
ATTTGTTTTACCTTATGTGTTCCTCTACAATGGATATCTAGGAAGTTAACAACCATTCTAGCTATCTAGCATTCTGGTTCTTGATATCATGTAAAATGAG
CGTTCTGATCTCTGACACACAAAGCTATTTAGAAGATAAAAAATAGACATTTTTTTCAACAATCATTTTACTTTTTTCTCTACATCTACATACTCTACAT
GTCAGAGTTTTTGTTTCTGTTTTTTCGAGAGTAGCTGGGATTACAGGCACCTGCCACAACACCTGGATAATTTTTTGTATTTTTAGTAGAGATGGGGTTT
CATCATGTTGGCCAGGTTGGTCTCCAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCAGGGATTACAGGCATGAGCCACTGCACCC
AGCCAAGTACTTTGATTCTTAATGGAGGATTTAATCCACTGACATCCCAAAGGACAAACTATCCAATGGAATTCCTGGATAAAACACAGGCACACAGTGT
CTCTTCCTCAGAGGAAAGAAATTTTTGTCAACAGAAGAATTTTGCTCTTCTGGGCGTGGTGGCTCCTGCCTGTAATCCTAGCACTTTGGGAGGCTGAGCC
TGGAGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACCTGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCTAGCGTGGTGGCTA
ATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGTCGGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTCCA
GCCTGGGCGACAAGAGCGAAACTCCATCTCAAAAAAAAAACAAAAAACAAAATTGATTTGCTCTAGCAGAAAAATAATTATATTTCAGGAATTCCTTCAG
GAATCCTATACCAGTACTAAAAGATCCTATATTGGAAAATGAAAATGCCCAAATTAATAAGTCCTGAGATAGAGGAGAAGGGATCTTGTTTTGTCCATCA
CTGTATCTTAGTACCTGGAATAGTGCTTGGCACATAATAAGCATTAAATACATACATGGCAGTCTTGTTTCTGAACCAAAATGAGGTGGTTTAATGAAAG
AGATGGGTTTGGCTAGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGGTCAGGAGTATGAGAACAGCT
TGGCTACTGGCTAACATGGTGAAACCCTGTCTCTACTAACAATACAAAAATTAGCCAGGTGTAGTGGTGCGTGCCTGTAAACCCAGCTGCTCAGGACATT
GAGGCAGGAGAATCACTTGAATCCGGGTGGCAGAGGCTACAGTGAGTCAAAATCCTGCCACTGCATTCCAAACTGGGCTACAGAGCAAGACTCCATCTCA
AAAAAAACAAAACAAAACAAAAAAAACAACAACAAGTGAAATACTGAAATACTGATCAGCTTTAAAAAGAGAACTGTCATAACCACCCCAATTTAGTTCC
AAGACTTAGGCTTCCCCACCAAGGCAAAATTAACACAGTAAGAAGGCTATTCCAGTTCATTTTGGAGAAAATCTTGGATTTGGTAAGCAGGTAAAAAGAG
CTGGGCATGCTGGCTCACATCTGTAATCCCAGCAAACTGGGAGGCCAAGACAGGAGGATGGCTTGAGGCCAGGAGTTCAAGACCAGATTGATCTACATAG
CAAGACCTGGGCCAGGTGCAGTGGCTCACTCCTATAATCCCAGCACTTTGGAAGGCCGAGACGGCTGGAGAACTTGAGGTTAGGAGTTCGTGACCAGCCT
GGCCAACGTGGGGAAACCCTGTCTCAACTAAAAATACAAAAATCAGCAGGGCGTGTTGGCACGCGCCTGTAATCCCAGCTATTTGGGAAGCTGAGGAAAG
AGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGGCAAGATTGTGCCATTGTACTCCAGCCTGGGCGAGGAGAGCGAAACTCTCTCTCAAAAACAA
AAACAAAAACAAAAAACCATAGCGAGACCTAATCTCAATTAAAAAAATAAAGAAATTGTATACACATACATGCACATATATGCACACTACACACACATAT
CACATGTACGTTTTGAGAAAAATAACACCATGAACCTACTACCCGTTAAAAATTAGAGAAAATATTAAACTTTTCACAAATTTACATAGCATTCTTATAC
AGGGGCCATGTCAATAGAAAGAAAGGACTATCAGACAATTTTTCCTAAAACTTCTCCATTATCTCACTGAATCCTATAATCTGTCCTATTAAAACACCTT
TTTACATTTCTTGCTTTTTTTTTTTTTTTTGTGAGACAGAGTGTTGCTCTGATGCCGAGGCTAGAGTGCAGTGGCATGATTTCAGCTCACTGCAACTTCC
CCCTCCCAGTTCAAGCAATTCTTGGTTCAAGCAATTCTCGTGCCTCAGCTTCCCGAGTAGCTGGGACTACAGGTGCACTCCAACACATGCAGCTAATTTT
TTGTATTTTAGTAGAGACGGGGTTTCACCGTGTTGCCCAGGCTGGTCTCGATCTTCTGAGCTCTGACAATCCATCCGCCTCGTCCTCCCAAAGTGCTAGG
ATTACAGGCGTGAGCCACCCCACCTGACCAATTTCTTGTTCTTTTAAAAGTACAGTAATTATTTTTAAGTTCCAGTAATAAATTAATGGGTAGTCTGTCA
AATAGCTACTGGATTTTATATCAGGAGGGCTTTCTACATGTATGTATACCCAAAAATGACATTAAGACCTTTTTACATAAACTCACTGTAGAGATACATC
CCAAAACAAGGTAAGGAATATAAATGATGTTTACCTTCTTTTCAAACCAACAGTTCCTTTATACAAAAACACCAGATGATACAAAACATATTTTTTTAAA
GTACAAAGTTCCATACAGAATAAAATAAACACTTTATGGTTATTCCTAAGAATAAGTAGTGACAAAAAGTCTTTGCAATTGGGTAATAAAATTTCAGCTT
CTAGGAATATGTTTCCCTCTTCCTTGTCCTTTTGAGAGCTGCCACTATCACACAATTCACAGCATCTCTTCAACCACAGAAAATTAGCGTCTCTTCAAGC
ACAGAGACCATATATTAATTATCTTTGTGTCTCCTGCATAGGATTAACTCAGTGTTTGTTATAACTAAGTTAAACTCCAAGACAGGAGCTTCAAATCACC
TCAGGCCCAATCCAAAACTGAAAAAAAGACGCTTCTCAGAGTTTGAGAACAAAAAGATACTGACAAAGAACAAAGCCATAGATACTTGTGCGACATTAGC
TTCCCTTTTTACCAAATACAGAGTCATTTACTAATACTGCAGAAATGTTTGCAGACGATAAAAAGAATAAATTAAAAATATGGATCCTGTCAACATGTTC
AAATACTAACATAGACTCCTTCACCTTAAACTCATACTAACATCCACACACCCGAACAATGAAAATGAAAGGTTTTCAAATGAGATCTAAATATAAATTG
GCTCTATTTCATTACAGTTTAAGTTCCTAAAATCATATATATAAATCATGTGATTGCGCTTATGCTCATCTTCTAACTTGAGGGCCCAGTGTCTTTCATC
CGATTCTCTGAAGGATAAGTGACCCCAAAAAACTTTTAAGAACCACTAATCTAGCCTATCAAGAAACATCCCATTTTCCAGAAGAATACAGCTAAGTTGG
CTTAGTTCATGCATTCTTACCTCATATTCATAGAGTTCATAGACGGGATCCTTACTACATGAAATCAGTCTTTTTTTTTTTTTTTTTTTTTTTTTTGGAG
ATGGAGTCTCCTCTGTGGCCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCT
CCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCATCCTGTTAGCCAGGATAGTCTC
GATCTCCTGACCTCGTGATTCGATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCTGCCG
AAATCAGTCTTTCAAAGGATTCCTTCAGCCCAGCCAAGAAGTTCCAACATCCACAGGCACATATATTAACAATTACCAGTACCCAAAAACAGTTCTCTGG
TTTTAATTCCACACTGCCTCCCTCAACTTAATACCTACCACCGTCAAAACAACTCCCCTCAGATTGCATCCAGGCTATTTACAGAGACACCTTGATGATC
CTCACCTCAAGGCATGGACCATTCATTGAATGGTTATATTTGTTGAATGAGTGAAAAAGGATCCTTCCTCCCACAGATTTCAAGTTAAGCTGTCAGCACC
CATGCAGCTGCTCTGGTACAAGTTAAGCTGTGAAAGCCTTCTCCCTCACGCATACAACCTTAAGTGTCAGAAATGCTCTGCTTCCTCCATAAATCCAAAA
TAATATAGCCATGGATATGCATTTCATACAGGTCAGACTCGGCAAGGACAGCTACGTTCCACATACATATCTGACACAATCGGTCTCCCCCAAATACAAG
CCAACCAGTCTTATGTGCTCCTATCTTTCCAGCATACTCAGATTTGCCGACAAAGACTTCCTGAGGCACCATGGTATGCTGAATATACTGCTGCAGTAGT
AGTGAAAATATGGGAGTTACAGTTCCAACTTTGTCACCAATTTAACATGCGGCCTTGGAGAAGTTCTCTCCTTATGCCTAAATTTCCTATTTTGTAAAAT
GGAAGAAAGCATCCTACCATTTTCACAGAGATTCAGTATCACAAAGAAACTGAAAGAGCTTTCTTATTGTATTGTAAACTATTACTATAAACCCGCGACA
ACAAATAAGGCCACCCATTCTTTACAGCTTTGTAGCAATGATTCTGTTAAAGATATTTTGGCCCTTCACATTTACACAACTCACTCTAACCAAAGGCACA
AACTATTCTTAAGACCACAACTGGCTATGCCAAGTTTCTCCCCTCCCTGACCTCACAGACACATGCTGTACAGAACACTACCATTGCCGCTCTTTCCCAA
CAAGTAACTAGGGGCTCCCAATCCCTAAAATACACACACATATCAACCTGCAAGGAACCTCCCAACATTTATTCAAGAAATAAGCTAACTTATAAGGGGA
ACTCCATTACACTTACACAAATAAAGGCAAACTCTTACGGAAACACTTGCCATCCTCACATACACACACCAACACAGCCGCTACACACCAACAGACCATC
TGTCTGCTAGACCAAAAACATCTCTTTCCATGTACAAACTAACCAGTGACATTTATTAAACGTACAACACTGAGATCATCCTGTCGTTCCCACATACCGT
TCAACGCGGCAGGGACACCACAGACCTTGTCACACAGGTAAAATCCCCTCTCAAGATCGTGTCCTCGACCACTCTTATCCCTTAATTAAACACACACAAA
CTGGACTATGGGGGAGGCTCCGATCATGCCTACAAACACAAACTAACCTGTCAGGGGCACAGCCGACTCCGCCTCCACTCGCTTACTTCCCAGCCCCCTC
CGGGAGTCTGCCTGTCAGGGACACCCCTTCACCCCGCCTGGAGGGACTTCCCGGTAGGCTCAGGATCCCCCTCCCTGCTCTCCCCTCCCCCATCTTCACC
ACTGCTCTCYCAGAGRTCCAGGTCCGGGAGATGACAGTGGCTCCCAGAAAGCCCAGGATTCAATCGCTGAGAGAGTGCTTAGGCCCGAATGCCGGCCCAA
ATCGTTCTACTCACCGTGTCGGAGGCCGAGAGCGATGAGAGTRCAGGGAAGTGAGGAAGAGGGGGTGGCCGCCAGGCTCCTCCGCTTCCCTGGGTCCACC
GCGGATCCCTCCCGCTTGTCAGGAGGCGGCCAGCGGGTAAGCCGACTGGCGGAAATGCGAGAGAGGAGAAGGGAAAGGTGGAGGGCTAAAGGGGCAAACT
GAGAGGAGGCGGATCCCGCAACCGACACTGGGATCGTYTCCCCTCGCAAAGCGAACCCAAAATGGCGGCGGCAGCGGCGGCAGCAGAGTGGCCGCGGCAG
CTCCTCCAGAGGGAGGGAGCTAAGGGCGCCTAGCGACACCCCCAACCTCCCACTCCTCCCTCCTCGCGTTCTTCCCCACGGYCCCCCGCTTCGCCCGACT
CCGGCCATGTAGCGCGCACGTCAGCCCGCACGCGTACGAGTGTCTACGGGCTCGTCGCTGGCTGCTCCCACCAACCACCACCTTCGGCCGTCCYGCGAGC
CAGCCATCCCGTACGCGCTCACCCACGGGAACCTCCTCGCCCAGTTCTCCACTCCCCCTCAGACCCTGTCAAGCCGGCTCCAGCGCAGGCCCTCACGCGT
ACCTTCAGCGGCGCGAGCCCAAGCCTTCTCCACCTCCTCTTCTCTCCTCCCCCTCCCTCCCCGCCCGCACGGCCACCAACCGCCGCCAAAGCAGCCGCCG
CCAGCACCCCCACCCTACACTCCTCGCGCGTGCGCCTCCCACAGTCCCCACCGCGGGACTGTTCCATTCCTGGCGGCTGCAGGGGCAGGAGAGGAAGGGA
CCGGCAAAGCGAGTCTGGCTTGCCRTTTGACTGGAATTGCCAGGGTGGCCGGCCGAGTCCCATGACAACCTACCTCCCTGGGTTCGTCGCCGCGGCGCTG
CGGCTCGCCTCCTCCTCCATGGGACCGCGGCGAGGGGATCGAGGGCGGCCTAGCGCCCCTCTGCCGGCCGGTGGTTGGAGGCCGCGGCGGCTGCGCGTTG
AGTCGTTTCCTGCCGGATGACCCGACCCTTTTTTGCAGTCTCAGGACGGGCGCTTTGGAGCCGGCCCCAGGCAGCGTGTGTCGGTCGCCTAGKCTGGAGA
ACTAGTCCTCGACTCACGGTGAGGGAATGGACCGACACGGGTATTGTACCGCTGAGGGAAAGGAGCGGGACTCCGGACCTCCAGGAGGTAGGGAGTGAGG
CCGGTAGACCGGCGCGCCTCCGGGGGGGATTCCTCCCGGGCGTTGAGTTGCCAACCTGGGACCCGAGGAAGWTCGGCGTGGTGGTGTGCTTTTTGTTGTT
GTTAACCCTCCTCGGATTTCTCGAATTTCACACCACTGTCCATATGCGATGATGTTTGTTTGCCCTTGACGCACTTACTCATGGATGGTACTTCAGCCTC
GTTAGACAGCCTGGTGATGGAGGATGAAGAAACCATGTGCTTYTCATTCAGTTCTGGACTYAGTTTCCCTTGTCTTCAGCAAGTTATTTTTGTTAGTTCC
TTATCAAAAAGTGTACATAAAAATTAGGCAACTCCAAACATGCCTCCAGGGTTGGTGTGTGAAATAATAAGATAGGGCTGGGCGCGGTGGCTCACGCCTG
TAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATGACAAGGTGAAGAGATCGAGACAATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATA
CAAATATTAGCCGGCCGTGGTGGCGGGCGCCTGTAGCCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGCGGCGGAAGTTGCAGTG
AGCCGAGATCGCGCCACTGCACTCCAGCCTGGCGACAAAGCGAGACTCCGTCACACACACACACACACACGAAATAATAATATATGTAAAGTGGAATTAG
CTCCTAGGCATAGGGAAGGTGCAGAGTATTGCCGTGTTGTCATTTACAGTTCTGTTGATGTCGATAACGTTTGTGGGTGTAATGGGTAGTGTTCTGTCCC
TCCAAGTCGTTAATAAAACAAAGCAGGCCGGGCGTCTTGTTAAATAGTTGTATCAATGACTTGATTTAGATTAATGAGGATATATTTTTCAAATTTATGC
CTTTTACAAAATTTTTAAAGAGTAGGTAATGTCGGTGATAGATATAAAGAAAGGAAAAGATCTCCAGATGTGGAATCTTCTACTGGATCCTGTAACAGAA
AGAAGACATTAGGCTGGGCGCAGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCGGAGGAGGGCGCATTGCTTGAGCCTAGGAGTTCGAGACCAGC
TTAGGCAACACGGTGAAACCCCATCTCTACAAAAAGACACAAAAATTAGACAGGTGTGGCACACGCTTGTAGTCTGAGCTACTTGGGAGGCTGAAGCAGG
AGGATTGAGGAAGAGGTTGCAAAGTTAGCCGAGATCACGCCATCACACTGCAGCCTAGGTGACAGAGCGAGACCCTGTCTCAAAAAAAGAAAGAAGACAT
TAGCAGAAAAGCTGAGGAAATGCAAATAAAGTCTGCAATTTTTAAATAGTATTGTACCAGCTTTAATTTCTTAATTTTGAAAATTGTACCATGGTCATAT
GTATGTAACATTAAGGAAACTCTAATGAAAATTGTAAGAAAGCACTTTGTACTACCTTTGCAACTCTTCTGTAAATTTACACTTTTTTTTGTTTGTTTGC
TTTGAGATAGGATCTATGTCGCCAAGGCTGGAAGGCAGTAGTGCAGTCCTGGCTCACTGCAACCTCAAGCTCCTTGGCTCAAGGGATCCTCCCACCTCAG
CCATCTGAGCAACTAGGACTACAGGCACATGCCACCACATCCAGCTAATTTATTTTATTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGA
GTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCGCGCCATTCTCCTACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCCGC
CACCACGTCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGCTGGTCTCGATCTCCTGACCTCATGATCCACCTGCCTC
AGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCAGCCTCCACTATCGAACTTTAGAACATTTTTTATCACCCCCAAAAGAATCTTATCA
GTAAGTTGCTTTCCATTCCTCCCTCCCATTGCCTCTCGCAACCACTAAATCAGTTTATGTAATTAATAAGCAAATTATGGACATTTCATGTAATTGAAAT
CATACTATATGCAACTGTCTTCTTTTACTTTGTTTTGAAGGTTCATCCAGTTGTGTAATGCATCAGAACTTTGTTTCGTATTGCCAAATAATATTCCATT
ATATGGCTATACCACGTTATGTTTATTCATCAATTGATGGACATGTGAGGTATTTCCACTTTTTGGCTCTTATGCATAATACTGCTACGAACATTTGTGT
ACAACTTTTGCATACACTTGTTTTTATTTCTCTTTTATACCTGAGAGTGGAATTGCAGGTTCATATGGTAACTCCATGTTTTACCTTTTGAGGAACTGCC
AAACTTTTCCAAAGTGGCCTCACCGCTTAAAAAATCCTAACAGCAACATATAAGAATCCTAGTTTTTCCAGATTCTATCCAACACATGTTATTATCAGTT
CTTTTGAATTTCATCATTCTAGTGGGTGTGAAGTGTATCTCATTGTGGTTTTTATTTGCATTTTCTTAATTTTGGGGGACCAGTCTCAGCACCACCCGTA
GGGTATCCGAAGTCCGGTGGCGACAAAGGAATGAGAAGAGACAGGTTAAGTGTTCATAAAGGTGGGAGCCAGGGGGCCAGTTGCAAAATGGAGGCTGCAA
AAGGCCCAGAGTTCTGATCTCCACACTGTTTATTGAGTACAGTCACTTAGATCTAAGAAGCAGATGTTCAGGGCGAAACAGTCAAAGGGAAGCAGTACGT
CATACACATAATCTGTAGCAGTGGCGGTTTAAGTGAATCTCCTTTGTGCTTAAACAACGTATCTTTAGTTAGCTGGTGGGAGTGGGCTTAACTAGGAGCC
TGCATATCTAGCCACATTCCAGTGCTTCAGAGGAGCGTCTTTCTTCTTGAGCACAGTGTTTATAGATAAGAGAGCAGGTTGTGCTCAGAGCATGGGAACA
TAATGGCGATAAGAAGGCTTTCCTCCTCAGAGTCCTCTTGTGGCTTTCCACAACTTACTGTCCCATGTTTTTATGGCCAGTTTATGCAGGCACCCTGTAA
GCCTTTTTCCCAACATGCCCCCCTTTTTTCTTTTTTAAAACTGCCATTGCTATTAAGACTTGTTCCTGGTGTCTGGTCTCTCTCCAGAGGCATCTTCCGC
ATCTGCAGACTAAAAGCAAACAGCATAAACAGGTACACATTAAAGCAAAATTTGCGATAGTTGATTCTCTAACGGTCTTAATCCACTTAAGAGGATTTAT
GTTTGAAAGTCCATCAGCAGCTCCAGTGAGAATGTCAGTCCCAGGCAGGAGAGTTAAATGAGCCTGAGATGCTTTAAAAACCTGTTCCTTTAATTTGGCT
ATATTCAGTGTAAAATTTCCATCCCTTTCTTCCAGATGATGTCTAACTTTTTCCCAGTGATGTTCAGTAGCATTGTATGAATGGGGAGTTATGCAGAAAT
CAGAAGTATTCCAATCACATTGCATTTGCAATCGATGCTCTAAGCTTATTATACGATCTCTCATCCAAATAACAGTCTGTCTAAGATCATTTATTTGATT
TGCCAATTGTTGGTCTATCCGGGTCTGATAATTCCACAATTTTGAGGAATTCTTTTGCCAATTATTTACATATTCTGCAGTTTGAACAGAGGAGTGTAAA
GCAATTCCAGCAGCCACAACAGTAGCTGTGACTGCAATAAGGCCCATAATGACTGCTATAAGGGTAAAAATAAATCTTTTTGTTCTGGTAAACACTCCCT
TTAACATTTCTGTGAGGATATGAATGGAAGAAGAGGCTTTCCAAGGTCTATTGAGGGAAACCGGTATCTAAACTCCTCTAGCCCTCACCAGCAACACAGA
TGTTTTCACATCAAACGTGGAATCAATACAGGTGAAAAGGTGACAGTTTTGACAAGTAATAGTTTGAGAATTAGGTCGAATATCAATATTTCCGACCATC
AACATAAAAGGAGGCTTGACACAGCTCTGAATGGGCGCCATTCGGTTGGAAGAAAACTGATACACAAATTGAAGTCTCTCACCTTTTCCCTCAAGGTAAT
ATTTTTCTTCTCAAACCTGAATATGAGATTGGGCCATCATTACCTTCCATAATTTGGGATGTTCAGGGCCTATTATTGGATTAATCATTTTTGGATGTGG
GCCGGCTATACCAAAATTGGTTGAAATTATGGGAAACTGGGCATGTTTTTCAGTGTAAATAGTGTCATCTCTTTGAYAGTATAGTTCCTGTTTTAGTCCT
GTCTTGTATCTATCATTCTGATTGGTACAATTAACTGCAAAGGTCCCCTTAGGGGACCAATCAGTGACAATTCCATAGGAATTATTTTGAAGTACCACAG
CGTGATCAGAGATGCAATCCTGGCCGGGAGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCCGGCAGATCACCTGAGGTCGGGAGTT
CGAGACCAGTCTGGCCAACATGGAGAAACCCCCTCTCTACTAAAAATACAAAATTAGCAGGGTGTGGTGGCACATGCCTGTAATCGCAGCTACTTGGGAG
GCTGAGGCAGGAGAATCCCTTGAACTTGGGGGGCGGAGGTTGCAGTGAGCTGAGATTGCGCCATTGCACTCCAGCCTGTGCAACAAGAGCAAAACTCCCT
CTCAAAAAAAAAGAAAGAAAAAAAAAGAGATACAATCCTTTCAAATCAATATTTCTAAATCATTTGACTGTTGTTGAGGTTGTTGACACCTCTCTTTTCT
GGGCTTAAACTGTTACAGTTGAACTGAACTCTGTGGATGATCCGGGCTCCATCCAGAAAATAAATGATAGGATACTGGTCTTTGATTATGACCTGAAATT
TTAACTAGCCAATGTTGTCCGTAGCCTTTTAGGCAACCGACAGCTGGCCCTATGCAAAGAGGAGGGGAACTGATAACCCATGGACATATTTATTAACATT
CCTTCCTCCTCTGGGTGAGAGGGCCCTTGAGTATCTGTAGGCTCAGGCATCCAAACACTATTATTAACATAAGCCTCAACCGGGGGTTCCAACCATGTGA
CAGGCCTAATTAAAGGTGGAAATGGGACGTATGCCCAATAGGTATAATTTTGGTCTGCTGTAGCCACAGGGAGACTTACCACCATGGTAATTACCGCAAT
CATAGCTACCATCAGGTTACTCGAGGTTAGTGGTTTTTGTTGTGTTTTCAGGTTTTCTTCTGCAAGGTGGGTCAGCCTCTTGATCTGTCCCCAAGTTGGT
GGGCTCGCTTGATGGGTTTTGTTGGTCTTCATCTGGTTGGCTGAAATGTTCATTCGAGCCATCAGGCGTGCTGGGAGTGGAGATCTTGGTTCCAAAATCC
TTTTCTCTTCTTTGGAAATTTGCTCATGGTAGAATTTAAGATGTCTTGTAGGTACCCAAACTGGAAGCTGGTTTTCTTCTGGGGAAATACAAACAAACCC
TCTTCCCCATGTTATATCTCTCTTTTTCCCAGGTCTTTGTTTTAAAGTCCTTCCACCACACAGGTTTTCCTTCATGAACATTTACCTTCTGTCCTGTTAA
ATGCTCTTCAGCTGCTATAGTAACCTGATTGCGGAAGATGTTCAAAAAATTTAAGGTAACAAGAGCCAATTGTAACTGCATATGAGGGGTGGAATATTCC
CTATCTCCCCCTATTTTCTTTTTATGTAATTGCATTTTTAAGGTTCAGTTGGCTCGCTCAACAATCGCTTGCCTTTGAGAATTATAGGGGATAACCGTAC
TGTGTTCAATGCTCTGTTGTTTTAAAAATGTTTGGAAAGATCTACTACAGTAGCCTGGTCTGTTGTCTGTTTTTAATTTTTGTGGAATTCCCATGACAGT
AAAACAGGAAAGCAAGTGTCTTTTTATATGTGTTGTAGTCTGGCTGGTTTGGCAAGTAGACCATATAAATGAGAATATGTATCTATGGTCACATGGACAT
AAGAAAGTTTGCCAAATGCAGGAATGTGGGTGACGTCCATTTGCCAGATCATGTTAGGTGCCAACCCTCGAGGGTTAACACCAGTTCCTTGATACGGTAG
TTGCAGTACCTGGCACTGAGGACGATGTTGTACAATGTCCTTGGCCTGTTTCCACATAATTTGATAGTTGTTTGTAAGTCCTGTTACATTAAGGTGTGTT
AATGAGTGGAAAGTCTGGGCATCAGTAAGTATGGGGGAAACCAACAAGTCAGCTTGCTCATTAGCCTCAGTCAAGGGTCCTGGAAGATTGGTATGTGCTC
GGATATGAGTTATATAGAAAGGAAAATCCCGAGCACACACAGCTGTTTGTAAAGAGTTGAACAATTGATAAAGCTGTTTATCAATAATATATTTAATTAA
GGCAGTTTCAATATGCTGAGTAGCTTATACAACATAAGCTGAATCTGAAACAGTATTAACTGGCTGATTAAAATCTTCTAATACTGCAATCATTGCCTGT
AATTTAGCTCTTTGGACTGAGGAAGAGTTAGTGTGGATAACTTTACCACAAGGTCCCACATATGCCGCTTTCCCAGTACTGGAGCCATCAGTAAAAACAA
TCATGGCTCCTTCCAAAGGGGCATCACGAGTAATTTTCGGAAGAACCTATGTAGTTAATTTTAAGAACTGGAAAATTTTATTTTTAGGATGATGATTATC
AATACATTCAATAAATTCTGCTAAATTAACTTGCCATGTAACTGAGTTAATAAATGCCTGCTTAATGTGACTTTTATTTATTGGAACTATAATCTTATTG
GGCTCAGTGCCATAAAGTTTAACAATTTGCATATGAGCCTGTCCAATTAAAATTGTGATCTGATCTACATAGACTGTAAGTGTTTTCATGGTATTATATG
GCAAAAAAGACCATTCAACCAAATCATTATTTTGAACAATAACCCTCATTGAGGAGTGTGAAGTAGGGAACACAATGAATTGAAAAGGCAAGACTGAGTC
AATCCTACTAACCTGGGCTTGCTGAATTTTTTTTTTTCAATTACTCTTAACTCATTCATGGCCTTGGGTGTTAATTCTCTTTTATGGTGTAAGTTGCAAT
CTCCCCTCAATATTTAGAAAATATTAGACATAGCATAAGTAGAAATTCCTAAGGTGGGCTGAATCCAATTAATGTCTCCTAACAATTTTTGAAAATCATT
TAAGGTTTTTAAAGAATCTTTTCTGATTTGAACCTTTTGAGGCTTAATGRCTCTATCTTGTACTTGTATCCCCAAATATTGAAAAGGAAGAGTTGTTTGA
ATTTTGTCAGGTGTTATAAGCAATCCAGCATTTGTAATTGCCTTTTGCAAAGATGAATAACATTGAATAAGTTGGTCTCTATTTTTTGTTGCACATAGTA
TGTCATCCATATAATGAATGATGTAACAATCTGGAAATTGATCTCTAACTAGCTGGATAGCTTTGCCTACAAAAGTTTGACAAACTGTGGAACTGTTTAA
CATACCTTGGGGTAAAACCTTCCAATGATATCTGGCTGCAGGTTCTTTGTTATTAATGGCAGGGATAGTAAAGGCAAATTTTTCAAAATCTGTCTCTGCC
AAAGGAATTGTAAAGAAGCAGTCTTTTAAATCTATAATAACAAGCAGCCAGTCTTTAGGGAGCATGGTGGGGGATGGGAGCCCTGGTTGTAAAGCTCCCA
TTGGTTGCATTACAGCGTTGACCTCTTGCAARTYGGTCAGCATGCACCATCTACCATACTTTTTTTAAAATTACATATACTGGGGAATTCCAAGGAGAGA
AAGTGGGTGAAATATATCCTTTTTCTAGTAGTTTTTTAACTATTTCATGGAACGCCCCCAAGTTTTTCTGAGGGAGCGGCCACTGTTCGACCCAGACAGG
ATGCTGCAGGGYGAGCCTGAATTGCTTCTTCACCATAGTGAACTGCAGGTTGGGCAGTAATGGGTGCGGCAAGCTGAGTTTCAGGCTCCCTCCCCCTGCA
CTCACTCAGCTGAGGAGGAGGTGGCCATTCCGGACATTTCTCTGAAGAAGCTGCGGGCTGAACAATTTTCTGTGTAGGTTTAGGGAGACCGGGGGGATTG
GTAGAAATCACCTCCGGTATCGGGGGAACCAGCCCCCAATATTTCAACATAGGTTCTATTTTCCGTAAGTGTGCCAGTCTGAGAAATAAAGAGAAAGAGT
GCAAAAGAGAAATTCTACAGCTGGGTCTCCGGGGGTGACATCACATTTCAGCAGGTTCCATGATGCCCCTGAGCCGCAAAACCAGCAAGTTTTTATTATG
GATTTCAAAAGGGGAGGGGTGTACGAATAGGGAGTGGGTCACAGAGGTCACATGCTTCAGAGGCAGTAAAATATCACAAAGGCAGAGAGGCAGAGCGAGA
TCACAAGGCCAGGGCGAAACTAGAATTACTGATGAAGGTCCATGTCCCGCTGGGCACATTGGACGTTGATATTGATAAACATCTTAACAGGAAACAGGGT
TCGAGAGCAGACAACCGATCTGACTAGAATTCGCCAGGCTGGAATTTCCTAATCCTAGCAAGCCTGAGGGTGCTGCAGGAGACCAGGGCATATTTCATCC
CTTATCTCCAACTGCATAAGACAGACACTCCCAGAGCAGCGATTTTACAGATGTCTCCCTGGGAATGCATTCGTTTTCCCAGGGTTATTCCTTGCTGAGA
AAAGAATTCAGCGATATTTCTCCTATTCGCTTTCTGAAAGAAGAGAAATATGACTCTGTTCTGCCTGGCCCCACAGGCAGTCAGACTTTATGGTTATCTC
CCTTGTTCCCCGAAAATCGTTGTTATCCTGTTCTTTTCAAGGTGCCCAGATTTCACATTATTCAAACACAAATGCTTTACAAACAATTTGTRCAGGTAAT
GCAATCATCACAGGGTCCTCAGGCGATATACATCCCCAGCTTAYGAAGATGAYGGGATTAAGAGATTAAAGTAAAGACAGGCATAGGAAATTATAAGAGT
ATTGATTGGGGARGTGATAAATGTCCATGAAATCTTCACAATTTATGTTCAGAGATTACAGTAAAGACAGGTGTAAGAAATTATAAAAGTATTAATTTAG
GGAACTAACAAATGTCCATGAAATCTTCACAATTTATGYTCTTCTGCCATGGCTTCAGCCGGTCCCTCTGTTTGGGGTCCCTGACTTCCTGCAACACTCT
GGACTCTCCCTTTTTATTAGTACTTGGTAGGGGTGGTTCAGAGTCCTGATCATTAAACTCCTCTCTCTCCTCTGACTCAGCCTCATCATCTATCTGAAAA
GCCTCCAGTGCTGTACACACCAATGACCAAACTGACCAAACAGGCAAAGGAATTTCCTTTCCCTTTCTTTGTGCTCTTTTAAGGTCCTTTCCAATTCTTT
CCCAATCTTTCAATTCCAAAGTTCTCTGTTCCGGGAACCAAGGGCAAAATTGTTCCACAGCATAAAACAAATCCATAAGATTTTTTGTATCAACTTTTAC
ACCACTACGCTTCAAGAGCTGCCATAGCAAGCTCAAATACATGGCGTACTTACTTTCAGTTTGTCCCATTTGTGTCCCTAGCTTTCTCCAAGTGCCCCGC
TCACCTGCGGAGCTTAAAACTTTTTCGTCTTTGGGAGTCCTTTGTCTGTCGGTCCTCCATTTCACACGCTTGAGCATGCCTTCACTGGATTCTTTCGGGC
CTCATGTTGGGCACCAGAATGTAGGGGACCAGCCTCAACACCATCCGTAGGGTACCTGAAGTCCGGTGGCGACAAAGGAATGAGAAGAGACAGGTTAAGA
GTTCATAAAGGTGGGAGCCAGGGGGCCAKTTGCAAAATGGAGGCTGCAAAAGGCCCAGAGTTCTGGTCTCTACACTATTTATTGAGTATAATCACTTAGA
TCTAAGAAGCAGATGTTCAGGGCAAAACTGTGAAAGGGAGGCAGTACGTCATACACGTAATGTGTAGCAGAGGCGGTTTAAGTGAATCTCCTTTGTGCTC
AAGCAGCATATCTTTAGTTAGCTGGTGGGAGTGGGCTTAACTAGGAGCCTGCATATCTAGCCACATTCCAATGCTTCAGAGGAGCGTCTTTCTTCTTGAG
CACAGTGTTTATAGATAAGAGAGCAGGTTGTGCTCAGAGCATGGGAACATAATGGTGATCAGAAGACTTTCCTCCTCAGAGTCCTCTTGTGGCTTTCCAC
AACTTATTGTCCCATATTTTTATGGCCAGTTTATGCAGGCACCCCATGAGCCTTTTTCCCAACGCTTAATGACTAGTAATGTTAAACATCTTTTCAGGTG
CTTATGGGCCATTTGTATAACTACTCTGGAGAAATGCCTACTCAAATATTTTTCCTTTTCATTTTTTTAATTTGAGGCAGGGTCTTACTCTGTTACCTGG
GCTGGAGTGCAGTGGTGTGATCATAGCTCACTGCAGCCTCAAGCTCCCAGGCCCAGGTGATCCTCCCACTTTAGCCTCCCAAGTAGCTAGGACCACAGGC
TCACACCACCACACCTGGCTAATTTTTTAAATTTTTGGTAGAGRACAAGGTCTCATTATGTTGCCCAGGCTGGTCTCAAACTCCTGGAATTAAGCAGTCC
TCCCGTCTCAGCCTCCCGAAGTGTGAGAATTACAGGTGTGAGCCACTGCACCTGACCCTTTTGCCTATTTTTAAATTGAGTTGCCTTTCTTTTTTTTGAG
ATGGAGTCTCGCTCTGTCGCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAGCCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCT
CCCCTCTAGCTGGGACTATAGGCGTGCACCACCACGCCCAGTTAATTTTGGTATTTTTGGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCAA
TCTCTTGACTTCATGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCCAGCCTTGAGTTGACTTTATTGTTAAGTT
GTAAGAGTTCTTTATATATTATGGATATAAGTTAAGTTCTATGTGATTTGCAAATATTTTCTCCCATTCTGTGGGCTGTCTTTCACTTACTTGATGGTAT
CCCTTGAAGTACAAGTGTCTGATTTGGATAAAATTCAATTCTCCATTTTTAGTTTTTTTGCTTGTGCTTTTGATGTTATAGTTAAGAAACCATTGCATAA
CACATGATAATGAAGATTTACTTTCTCTGTAGAAAATTAGAAAACTTGAGGGAGGTGGGGGGGGCGGTCACCGTCCCGTGCCAGCCGCCCCATCCGGGAG
GGAGGTGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCCCGTCCGGAGGTGAGGGGGCCTCGGCCGGCCGCCCCTACTGGGAAGTGAGGAGCCCCTCAGCC
CGGCCAGCCACACCGTCCGGGAGGGAGATGGGGGGGTCAGCCCCCCAACCCGCCAGCCGCCCCGTCCGGGAGAGAGGTGGGGGGGTCAGCCCTCCGCCCA
GCCAGCCGCGCCGTCTGGGAGGTGAGGGGTGCCTCTGCCCGGCCGCCCTACTGGGAAGTGAGGAGCCCCTCTGCCCGGCCAGCCGCCCCGTCCGGGAGGG
AGGTGGGGGGGTCAGCCCTCCGCCCCGGCCAGCCGCCCCCTCCGGGAGGGAGGTGGGGGGGGGTCAGCCCCCCTGCCTGGCCAGCCGCCCCGTCCGGGAG
GTGAGGGGCGCCTCTGCCCGGCCGCCCCTACTGGGAAGTGAGTAGCCCCTCTGCCCGGCCACCACCCCGTCTGGGAGGTGTGCCCAACAGCTCATTGAGA
ACGGGCCAGGATGACAATGGCGGCTTTGTGGAATAGAAAGGCGGGAAAGGTGGGGAAAAGATTGAGAAATCGGATGGTTGCCGTGTCTGTGTAGAAAGAA
GTAGACATGGGAGACTTTTCATTTTGTTCTGCACTAAGAAAAATTCCTCTGCCTTGGGATCCTGTTGATCTGTGACCTTACCCTCAACCCTGTGCTCTCT
GAAACATGTGCTGTGTCCACTCAGGGTTAAATGGATTAAGGGCGGTGCAAGATGTGCTTTGTTAAACAGATGCTTGAAGGCAGCATGCTCGTTAAGAGTC
ATCACCAATCCCTAATCTCAAGTAATCAGGGACACAAACACTGCGGAAGGCCGCAGGGTCCTCTGCCTAGGAAAACCAGAGACCTTTGTTCACTTGTTTA
TCTGCTGACCTTCCCTCCACTATTGTCCCATGACCCTGCCAAATCCCCCTCTGTGAGAAACACCCAAGAATTATCAATAAAAAAATAAATTAAAAAAAAA
AAAAAAAGAAAATGATCAAAACAAATGACAGGGCTCAGGGCAAGGGGCAAAACTGTTCCCCTGCCAGGCTGTTTGATAGAAAAAGGAATGGTTTTCTTAG
TTCTAAAGCTTCAACCACACTGGATCCTTGTGTTTTCACAACCCTTAAGGTTAGAGCCAACTTTCAAAAAGAATAATTAAATCGGGAAAKAAGTGGGGTC
AGCAGGTTTCGTAGTGCTTTTAAACAGGAAGTCTCAGAACTCATGGAGGGAAGTAGCTGACAGCAAAACTGCTTTCCTACTCATCAACCCAAAGAACTGC
TTAATTCCAGAAGAAGATAGAGGAGCACATCTCACCAAAGACAAGTTGACCCTAACTCTTAAATCATCTACAGCCAAAAAACTGATTCTGTACCTGGTTG
ATCATGCCTGTAAAAAAAAAAAAATTAAAAATTAAAAAAATTGATTCTGCCTATAAAAAAAAAAAAAAAAAAAGAAAATTAGAAAACTTGGGCCAGGCCC
CGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCATGAGGTCAGGAGATCGAGATCATCCTGGCTAACACAGGGAAACCCCG
TCTCTACTAAAAAAAATACAAAAAAATTAGCTGGGCATGGTGGCGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAGTGGCGTGAACCC
GGGAGGCAGAGGTTGCCGTGAGCCAATGAGCTGAGATCACACCAGTGCACTCCAGCTTGGGGGACAGAGCGAGACTCTGGCTCAAAGAAAATTAGAAAAC
TTGCCCCTGCAAGTTTTATTCTTGGAGCTCTTATGAGTACGTCTATGATCTATTTTGAGTATGATATGAGGTAGGGGTCCATTTTCATTCTTTTGTGGGT
GAATTTCAGGTTGTCCCAACAGCATTTGTTGAAGACACTATTCTTTCCTCATTGAATTGTCTTGGCATCCATGTTGAAAATCAGTTGACCAGGCCGGGCA
CGATGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCTGGTGGATCATGAGGTCAGGAGGTGAAGACCAGCCTGGCCAAGATGGCGAAACTCC
GTCTTTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGAGAATTGCTTGAACCTGGGA
GGCAGAGGTTGCAGTGAGCTGAGATGGTGCCACTGCATTCCAGCCTGGGTGACAGAGTGAGACTCCGTTTCAAGAAAAAAAGAAAAAGAAAAAGAAAAAT
CAGTTGACCGTGATGTAAATGTATGCCAATACCACACTATCTTGATTACTGTAGTTTTGTAGTAAGTGTTGGAATCAGGACATATGAGGCCTCCAAATTT
GTTCCTTTTCAAGAATACTTGGGCTATTCTAGGTCTGTTGCATTTCCAAATGAATTTTGAGATTAGCCTGTATATTAGTCCATTTTCACGCTGCTGATAA
AGACACACCCAAGACTGCGTAATTTATTAAGAAAAAGAGGTTTAATGGACTCACAATTCCACGTGGCTACGGAGGTCTTACAATCATGGCAGAAGGCAAC
AAGGAGCAAGTCATATCTTACATGGTGGCAGGCAAGAGAGCATGAGAGCCAAGTGAAAGGGGAAACACCTTATTAAATTATTAGATCTTGTGAGATGTAT
TCACTGTCACATGAACGGTATGGGGAAACCGCCCCCATGATTCAATTATCTACCATGGGGTCCCTCCTACAACACATGGGAATTATGGGAGCTGAAATTC
AAGATGAGATTTGGGTGAGGACACAGCCAAACCAAATCAGCTTGACAAGTTTTTTCTTAAGACAGGGTCTTGCTCTGTCGCCCAGACTGGAGTGCAGTGG
CATGAACTTGGCTCACGGCAACCTCTGCCTCCCGGGCTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTATCTGGGACTACAGGCGCCCGCCACCACACC
CAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTTCTGACCTCGTGATCCACCCACGTTGGCATCCCA
GAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGACCTAGACTTTTTTAACTTGAAAACTAGTGAGGGCCAGGCATAGTGGCTCGCGCCTGCAATCTC
AGCACTTTGCGAGGCTAGGGCAGGAAGATTACTTGAGGCCAGGAGTTAGAGATCAGCCCAGGCAACATAGCCAGACCCCATCTCTGTAAAAATAAAAAAT
TAGCCACCAGGTGGTTGCACATGCCTGTAGTCCCAGTTACTTAGGAGGCTGAGAAAGGAGGATTACTTGATCCTAGGAGTTAGGGGCTGCAGTGAGCCTA
GATTGTGCCACTGCACTCCAGCCTGGGCAACAGACTGAGACCCGATCTCACAAAATAATCAAGTAGTGAGGAAATACTGAAGAATTTTAAGCAAGGCTTC
AGTGGAGAAAATGTTTAAGTCTGGATGCTGGTAGATCATTTATTTTAATTTGGGTTCAAGATGATAGTGTCCTRGAACRGAAGCTGATTACACGTTCTGA
CCGTCATTTCTCATAGTGTCTATAACATAGGCAAAATAATAGCTCCAGTGTCCACAGGCACGCCTATGGAAAGAAGKGCATCTGGACCATGTCACACACT
CCTTCCTCTCCAGTACCCAGCCTGCTTCCTAGTCCACAGCTCTTCCAGTAGTGGTTGTGCCGGGGAGCATTGAGAAGATCTGGGGAGCACAGTGGGGCAG
GTCAAATACTATTGGAGTGACATTGCACTCTAGAAAAGGAGCCCTGAAATCCCACAAGTGAAAAGGCAGGCAGGCCAGTAGAGACCAYCCCAGTCTTATT
CACCACTATAGACTCTGTGTAGTGTGGGCGTGTGGAAGCATGTCATATGCTTCTTGAATGACTGAGTTTAGGAGTGCTTTGGCGTCTTCATTAAATAGTA
TGGCTGGGCAGGTGGCTTATGCTTGTAATCCCAATACTTTGGGGGGCTGAGGCGGGAGGATCACTTAAGGTCAAAATTTTGAGAACAGCCTAGCCAACAT
GGCGAAACCCTGTATCTACTAAAAATACAAAAATAAGCTGGCGTGGTGGCRGGCGCCTGTAGTCCCAGGTACTTGGGAGGCTGAGGCAGGAGAACTGTTT
GAACTCGGGAAGTGGATGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGCAATATTCCATCTCAGAAATAAACAAACGAATC
CAGTATATTTAAGGCCAAGTGCGATGGCTCATACCTGTAATCCCAGCACTTCGAGAGGCTGAGGTGGGAGGATCACTTGAGTCCAGGAGTTCAAGACCAT
CGCTGGCAACATAATGAGACTCTGTCTCTACAAAATAAAAAAGCCAGGCACAGTGGCACGTGCCTGTAATTCCAGCTACTTGGGAGGCTGAGGTGGGAAG
ATCACTTAAGCAGGGGAGTTCGAGGCTGCAGTGAGCTGTGATTGTGCCACTGTATTCCAGCTTGGATGACAGAGCAAGACCCTGTCTCAAGAAAAATAAC
AAATGTGATAAAGTTGAAGCAGAGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGCCCAGGAGTTCAAG
ACCATCCTGGGCACCATAGCAAGGGTTATGTCTACCCAAAAAAAAAAAAATTTTTTTTTTAATATGCCAGGCAATGGCACCTATATTCCCAGCTACTTGA
AAGGCTGAGGCAGGCGGATCACTTGAACCCAAGAGTTTGAGGCTACAGTGTGCTGTGATCTTGCCATTGCACCCCATCCTGGGCAATGGAGCGAGACCCT
GTCTCAAAAAAAAAAAGAAAGAAAAAAAAAACAGAAAGGAAATAAAATGAAAGGAATTTATGTTATTCTCTCTCTCTTTTTATTTATTTTTAAATATTAT
TTATTTATTTATTTATTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGCATGCAATGGCGCAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGT
TCAAGCGATTCTCCCGCCTCAGCCTCCTGAGTAGCTGGGAAAACAGACATGCACCACCATGCCAGGCTTATTTTTTATATTTTAGTAGAGATAGGGTTTC
ACCATATTGTCCAGGCTGGTCTTGAACTCCTGAGCTCAGGCAGTCCATCCATCTCGGCCTCCCAAAATACTAGGATCACAGGTATGAACCACTGCACCTG
GCCTCTTTTCATTTATTTATCTATTTATTTAGACCAGATCTGAGTGTATCATGCAGGCTGGAGTACAGTGGCATGATCATAGCTCTTTAACACCTGGCCT
CAAGTGAGCCTTTTGCCTCAGCCTCCTAAGTAGCTACGACTACAGTCCTGCACCACCCTGGCAAACTAATTAATTTTTTTCTTTTGTTTGTGGAATTGGC
GGTCTTACTATGTACCCAAGCTGGTCTCAAACTCCTGGGCTCAAGCAGTCTTCTCATCCCCGCCTCCCAAAGGGCCGATATTACAGGCATGAGTCACCAT
GCCCAGCCTATGTGATTCTCTTGACTGTACTATAAATTCCTTGACTATAAGATCAGGGACTATAATAGTTTGTTCACCATTCCATTCACAGAGCCTGACA
CACAGTAGGTGCTCAGTAACTGTTGGGTTAATTGGTTGCAACTCTATGGTTGTTATTATTGTTGCTTTAAAGATTTGGGTTGTGAAAGGTGTGTCTGGGT
GCGGTGGCTCACGCCTGTAATCCCTTTGGGAGGCTGAGGTGGGAGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGT
TTCTACTACAAGTACAAAAATTAGCTGGACATGGTGGTGTATGCCTGTAGTCCCAGCTATTTAGGCAGCTGAGGCAGGAGAATCGCTTGAGCCCGGGGAG
GCAAGGTTCCAGTGAACTCCAGCTTGGGTGACAGAGCAAGACTTCATCGCAAAATAAATAAATAAATAAATAAATAAAATAAAATAAAGAAAGGTGAAAA
TGATAGCCAAGGGGGCCGGGTGTGGTAATTCACACCTGTAATCCCAGCGCTTTGAGAGGCCTAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCA
GCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTAGCTGGCATCTCTAACTTCAGTTACTCAGGAGGCTGAGA
GGAGAATCGCTTTAACCCGGGAGGTGGAGGTTGCAGTGAGCCGGGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAAAAA
ACCAAAACAAAACAAACAAAAAAAATTTATAATAGGCCAGGCRCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGAGGATCACAA
GGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCATTACTAAAAATACAAAAAATTAGCGGGGCGTGGTGGTGGGCGCCTGTAGTCCC
AGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGA
GCAAGACTCCGTCTCAAAAAAAAAAAAAAAATTTATAGCCAAAATGAACTAATTAATTACATAGACATTTAATTCAGTTATTCCATAACTACTGGATATT
GAGAGTTACATTTAAGTATTTTAAACCTCTTAGCTCCAAAAGATTCGGGCTTTTAAATTAGATATTTCCTGTATACAAAAAAATGAATATAATACACATG
ATATGAAAATAATAAATTCTCATGTATCCATTATCCAGTGTTAGTTTATTATCAGTTTCCTTGTGTGCCCTGCCCCAATCTTCTTCCCTTTTCTTCTCCC
CAGGAGTAACCATTATTCTAAATGTTGTTTTTATCATTCTCTTGCTTTTTTGTTTCAGTTTTCCTATTTATATCCCCCAAATAATTAATGAAGCTTTTTG
GTTTTGAATTTTATATGTTATGTCATGCCAGATGTAATAGCGTTCACTCAGTATTCATTTTTGAGATCCATGTTGATGCATGCAATGGTAATTTTTTCAT
TTAATTGCTTTCTAATATTCCATTTTATGACTGTCTCTATCTACTGTTCTACTAAGGGACATTAGTTTTTTCTACAGTTTTTTTATAATTCATACTCTGC
TAGTATGAACCTCCTTATATATATTTCCCAGTGTACATGTAGAAGTTTTGGTTTTGGTTTTTGTTTTGAGACAGAGTTTCACTCTTGTTGCCCAGTCTGG
AATGCAATGGCACGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGGAATCCTCCTGCCTCTGCCTCCCGAGTAGCTGGGATTACCGGTGTGTA
CCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATTGGGTTTCACCATGTTGGCCAGGCTGCTCTTGAACTCCTGACCTCAGGTGATCCACCTGC
CTTGGCCTCCCAAAGTACTGGGATTACAGGCTTGAGCCACCACACTTTCAACTTTTTGTTTGTACATTTTCAACTTTGCAAAGATAGTGTATTTTCAACT
TTGTTTTGTGCATTTTCAACTTTGCAAAGATAGTGTATTTATACTTTCATTGACATGTATGAAAGTTGAATACAATGTAATGTTTCGCAGCCTATTTAAC
ATTTGCTATTGTCTGACTTTTTAATTTTCTTTTTCTGTTTTTGTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCTGGGCTAGCGTACA
GTGGTGTGATATCAGCTCACTGCAACCTCTGGATGCAAGCAATCCTCCTGCCTTAGCCTCCAGAGTAGCTGGGACTACAGGTGCATATCACCACTCCTGA
CTAATTTTTTTTTTTTTTTTTTTTTGAGACACAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGTAAGCTCCGCCTCCC
AGTTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCACCACCACACCTAGCTATTTTTTTGCATTTTTAGTAGAGACGGG
TTTTCACCGTGTTAGCCAGGACCGTCTCGATCTGACCTCGTGATCTGCCCRCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCGTG
GCCTCCGACTAATTTTTTAAAATATTTTTTGGTAGAGATGAAGTTTTACCATGTTGGCCAGGCTGGTCTCGAATTCCTGACCTCAAGTGATCTGCCCACC
TTGACCTCCCAAAGTGCTGGGATTACAGGTATGAGCCATTACACCTGGCCTATTTTCTTTTTTTTTTTTGAGGTGGTCTCACTCTGTCATCCATGCTGGA
ATGTAGTGCATCTCAGCTCACTGTGACCTCCACCTCCTCCCAAGCTCAAGTGATCCTCCTGCCTCGGCCTTCCGAGGAGCTGGGACTACAGGCATGCACT
ACCATGCCCTGCTAATTTTTATATTTTTTGTAAAGACAGGGTCTCACTTTGTTGCTGAGGCCAGTCTTGAACTCCTGGGCTCAAGCAATCCACCCACCTC
AGCCCCGAGAAGTGTTCCTCCCAAAGTGTGGGGATTGTACATGTGAGCCACTGTGTCCCGCCTGACTTTTTTATTTTCCCAGTATGATGATTGTGAATGG
TATCTGGTTTTCATCATTTTAATTAGCATTTCCCTGATTTGTAATGAGGTTCAAAAATCTTTTCATGGGTTCACTAGCCTTTTGTGTTTCGTTTTCTGTG
AAATGCCTGTTCATGCCTTTTGCTCATTTTTTTAATGAAGCTGTAGGCATTCTTTATATATTCTAGATATTAATATAGATTATTAATCCCTATTAATCTA
TTGTCAGTTTTCCATGTTGCACACATCTTTTCCCATTTGTGGTTTACCTTTTCACTTTTTTTTTTTTTGTAACAGTGCAAGGATGATGCTGAAAGGAATA
ACAAGGCTTATCTCTAGGATCCATAAGGTGAGTCCTGACTGACCTGAACACTCTGTGCATACTGCCTTTAGGTTCCCAGATTCTTGTTTTCAGATGGATT
CATTGTATCTAGAGTGAAATGCTCTGGAAAACTTCATATGTAACAGGTTTCAGTAGAATAATTGTGCTTGAGAATTTACCATGGAATAGGAGAATTAATA
TTTTTCCAGAAAACATAAGTAAGTTTGACTGTAATTATCTTTATTAACTTTATTTCTCTAGCCAACTAGAGAATGGTTATCATCCCTTAATGAAGTATTT
AAAAGAAAAACAAGTTGCCAATTTACAGCTTTAGCATCTAAAATAGAATAAAAAATAAAATTGTACATGAAAAAGACCATTCTGCTGGTTTACTTCATTT
TTTCACATATTTACCAAATAGTTTTTCAGTACTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGTGCAGTGGCGCAAT
CTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCTATTCTTCTGCCTCAGCCTCCMGAATAGCTGGGACTACAGGCGCTTGCCACCATGCCCGGCTA
ATTTTTGTATTTTTAGTAGAAACGGTGTTTCATCATATTAGCTAGGCTGGTCTCGAACTCCTGACTTCGTGATCTGCCCACCTAGGCCTCCCAAAGTGCT
GGGATTACAGGCGTGAGCCACTGTGCCCGGCCTTCAGTACCTTCTATATGGCAGGTACTCAGAATTCTAAGATGCCTCATTTCACTAATAATAGTTATTA
TTTGTTGGGTATTATTATGTGCCAGGTACTACACTAAGTGMTTTATTTTTTTAATCCTCATGATCAACYCATGARCGAGATAATATCCTTGTTTCACAGA
TGGAGAAACTAAAGATGAGACTGGCTAGGTAACTTACCTGAGGAAATAGCCTGTGAGGTTGCAAAGCCCRCACGAGATGCCAGGTCTGTCTGACTTCAAA
GCCTGTGGCCTAAMCACTGTGCTCTATTGCATTTTATGGTCCATGTTCTCCAGAAGCTTACAGTCCAGTAGAATCATGAAAAAATGACTATTTCAGTATG
GTGCTCTTACAGCACCAAAGAGGAGCACCTGAGCGGGATTAGTCGAGTCAGCAGGAGATCCTGAAAGGCTCAGAACTGAGCCAGAAAGACTTGGTCATTT
TCAGCTGATTATTTAATTACAGATTAGATTTCCTAGAAAAGGAGCCCTTCCTCCTATATGGCTCYCCCTGCATGTGCCCCCTTCCCTCAGGCCTATATAT
TAATACATAAAATAACCCATTATTATAAAATGAAACGAAAGCAAGGATCAGCAGAGGGATGGATTCTGGACTCAACTGATCRTATTACAAGGCTAAAATA
AATTTCCTCTCTCGGCCGGGCACAGTAGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGCAGTTTGAGACCA
GCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGCGTGTGGTGGCACACGCCTGTAATCCCAGCTACTTGGGAGGCTGAGG
TAAGAGAATCGCTTGAACCCAAGAGGTAGAGGTTGCAGTGAGCCAAGATCACGCCACTGCACTCTAGCCTGGGCAATAGAGCGAGACTCCATCTCAAAAG
AAAAAAAAAAATTTCCTCTTTCTTAATAACAGACAACAAAGACCTGAGGCTAGACTGTAGAGTGCTGTTGGTGAGAGAAAGTTTTGTTTTTTTTTTTTTT
AYTAGTTTGGTTCAGGGTGACTGTATTAGTCAGGGTTCTCTACAGGGACAGCACTAATAGGATAGAAGTATATATGAAGGAGAGTTTGTTAAGGAGTATT
GAGTCACACCATCTGGCGAAGTCCCACAGTAGGCCGTGAGCAAGCTGAGGAGCAAGTAAGCCAGTCCAAGTCCCAAAACTTCAAAAGTAGGGAAGCTGAC
AGTGCAGYCTTCAGTCTGTGGCTAAAGGCCTGAGAGCCCCTGGCAAATCACTGTTGTAAGTCCAAGGGTCCAAAAGCTGAAGAACTTGGAGTCCAGTGTT
CGAGGGCGGGAAGCATCTAGCTCAGGAGAAAGATGAAGGCTGGAAGACCCAGCAAGTCGGCTCATCCTACCTTCTTCTGCCTGCTTTATTCTAGCTGCCC
TGGCAGGTGATTAGATGGTGTCCACCCACACTGAGGGTGGGTCTGCGTCTCCCAGTCCACTGACTCAAATGTTAATCTCCTTTGGCAACACCCTCACAGA
CACACCCAGGAACAATACTTTACAGCCTTTAATCCAATCAAGTTGACGCTTAATATTAACCATCACGGTGATCTTCTAGATTGGCTCACAAATGCTCTTT
CAGAAACTGCAGGATGTTCATTCTGGAACTGTACAGAGGCAATTGTACAGATGGTTGTTTTCTCTGGAAACAACAGTCTACTTGAGTGATAACATATATA
AAACTTTAAGAACTAAAGATTCCATTTTGCTGTAGGCCAGGCATGGTGGCTTACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCT
GAGGTCGGGAGTTCGAGACCAGCCAGACCAACATGGAGAAACTCCGTCACTACTAAAAATACAAAATTAGCCAGGCGCGGTGGCGCATGCCTGTAATCCC
AGCTACTCGGGAGGCTGAGGCAGCAGAATCGCTTGAACCTGGGAGRCAGAGGTTGCAGTGAGCCAAGATCACACCATTGCACTCCAGCCTGGGCAACAAG
AGTGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGATTCCATTTTGCTAGCTTTTAATTTGCTTCAAAAAGTACCTGTAGTTTCAGCTACTTGG
GAGGCTGAGGCAGGAGGATCATGYGGGCCCAGGAATTTGAGACTGTCCGGGGCAATATAGCAAGACCCYACCCTATGTCAAAAAAAAAAGTRTAACAAAA
ATKTCATCACATTACTGTAGAAATAGSACCACCTTGTGRCCCTTGAATAGTTTGTTTTCCACTCTGCTTTCTCTCCAGCTAAAGAGGCATGGTGCTTTCT
CTCCGGTAGATAAAATTGAGTAGCGTTTAAGTAGTACTAGKGTGTGTTATTCAGATTGCTAYSCTGAAGTAACAAGCCTTGTATTCTCAGTGGCCTAACA
CAAAGGATATTGTTTGTGTTGTGTGYATGTGTTTTGCTTTGTTTTTGCTGTTCCTGTCTTTCAAAAMGGCTTTGCAAGCAAGAYTGAAGTCTGGATGGAG
GGACAAAAGTTTACCTTCTTGGGATACATCGCAACATATAGCTTTTAAGGTGGGGAGGGAGAGATAATTTATACCTCACACTTAATTGGCTCTGATTAGA
AAGGACACAATGACACAAGTTATTTTCATTCATAGGTCTTTAGCCAAAGGAATCACATGACCCCTCCTGTTTCTGCAAGGGAGGCTGAGAAGTGTAGAGA
ACGATTTGGATATTTGGATATTTCCCAAGCATTGCTGCTTCAGCTGTAATTTACAGTCATACATTCTCAGACAAAGCTGGAGCAACTCTAGTACTTGACA
GTTACTTTATATTAAAATCTACAAGTAATGGTTCAGAAGTTTCTGTGTATACTTCACTAAGTTTCCTATAGAGCATTTACTTTCCTTCGTGGATGCTTTA
CGTACTCTCTCATTGCATGTTTTCAGTTTCAGATTCTTTATTCCAGGGCAAACTAAATACCTGTAGTGTGTTAAGTACTCAGAGAGGGAGATATGAAAAT
GAATAAAATCTGACCCCTTTTCTTCCGAGCGTGTAGCCTAGGAGACAAGCATGTGTAAGATAACATGATACAGTTTTTTTAAAATAGAGACAAACTTGGA
TGTCAATTCTAGTTCACCACCTAAAACTCTGTGACCTTAATCAAAATTACTCAGCTTCCCTGAACCTTATCTTCCCCATCATAACACAGGGTTGATAATA
TTCTGCCTATCTTCTAGGATTTCTAGGTTTAAAACTAGTACATGTACAATACTGTATTGCCTAACATCTAATAGATACTCAGTTAACAGTAGGCATGAGT
ACAACTCAAGGCAGTGTAATAAAATTGCTGTGCAATACAAAGAGTGCTATTAGCAGAAAGGAAAGAGAATTACTTTTGACTGGAGGTGTCTGGCAAATTT
TCACTGAGGATGTGACATTCGAGTTGAGGCTTGATGAATGGGAAAGATTTAAATGGGGAGARAGGGAAGTTGAAGTAGAATGAGCAGAAGTATAGAGGCA
TAAAAGTGACATGTTTCAGCATGGTCATATGGTTATAAATGAAATTACAAAGGTAGGCTGAAGTCATCACAGTGGTCTAGATTGTTATGCTAAGGAATTT
GAGACTTATTTTGACATCGTTCTGGAACCTTCTAAGCTTTTTAAAATTTTTTTATTGTCGGGGTCTCACTGTGCTTCCCTGGCTGATGTGGAACTCCTGC
CCTCAAGCAGTCCTTCCACTTTAGTTCCCAACTAGCTGGGACTACAGGAGTGGACCACCACACCTGGCTCCATCCAAGCTTTTAGATTAGTCGAAGGTTA
AACCTATTTTCGGGAAGGTTAAGGACTATGAACGATGAAAAAATCAAAGATTTAGAGATAAAGATACAAGTTAAAATGTTATGTGTTGGCTGGGCATAGT
GGCTCACACCCATAATCCCAGCACTTTGGGAGGCTAAGGCGGGCAGATCACCTGAGGTCAGGAGTTCCAGACCAGCATGACCAACRTGGTGAAACCCAGT
CTCCACTAAAAATACAAAAATTAGTCAGGCGTGATGGCGGGCGCCTGTAATCCCAGCTACTGAGGCAGGAGAACCACTTGAACCTGGGGGCAGAGGTTGT
AGTGAGCTGAGATCATGCCATTGCATCCCAGCCTGGGCGACAAGAGTGAGACTCCGTCTCAAAAAAAAAGAAAAACAAAAGTGATGGGTACAATACTGTC
TCTCAACCTGTGTAGTGGGAATGTTAGACACATAATTTAGGATCATGTCATAAAATGGGTGTAAGTGTGAGGAGGGATGGTACAGAGATAACATATATTT
TCTGCACTCAAAAAGCTGCTTGGTAGGCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGCCTGGGGTGGGAGGACCACCTGAGGTCAGG
AGTTTGAGACCAGCCTGGCCAACATGGCAAAATCCTGTCTCTACTAAAAATAGAAAAATTAGCTGGGCATGGTGGCACACTCCTATAATCCCAGCTGCTC
AGGAGGCTGTGTCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGAGAGCCAAGATTGTGCCACTGCACCCCAGCCTGGGCAACAGAGCAAGACT
CCATCTCAAAAAAAAAAAAAAAACCCACAAAAAGCTGCTTGGTGAGCCAGGTACAGTGGCTCACACCTATCATCCCAGCACTTTGGGAGGCTGAGGCAGG
AGGATCGCGTGAGTGCAGCAAGTTGGAGAGCAGCCTGGGCAACATAGCAAGACCCTGTCTACAAAAAATTAAAAAAATTAGCTGGGCATAGTGGCATGCA
CCTGTAGTCCCAGCTACTTGGGAGCCTGAGATGGGAGCATGGCTTGGGCCTGGGAGTTTGAGACTACAGTGTGCCGTGATCGTGCCACTGCACTCCAGCC
TGGGTGACAGAGCAAGACCCTGTCTTAAAAAAAAGAGAGAGAGAGAGAGAAGCTGCTTGGTGAGACTATAAAATACTGGTAGCTTTCATATGATAACCTA
TTTATTAAGCAACTCCCTTATTACACTATCCATTATATTTCTGTTCTCTTGCTTCTCCTGGCTGCATTCCCTAATCTTTTCCTCATAACACATCTTTTCA
CTTTCTACATAAGGTTTGTTATCCTTAAGCTCAGTTTTGGGGTTTTTCACTTACCATTTTGTTAGATTTGTCTACCGAAATCCGCCCCCTTCCCCTCCCT
GTTGGTTCAGAGGTTTCGGTGTACAGTTCACTGAGTTACCTATAGAGCAGTTTGCTTTCACTTAGCTGTGTATTTGACATACTCCCTTATTACATGTCTC
TAATGAAAGATCCTTTATTCCAGGGCACAATTAGCAGGAAAATTGTTACAGGGCATGTAATTATAGCTGTCACATAGTGAGGAGCATTGCACTGATCCCC
TGATAACTGAGGTGACTGACAGAGAATGAGAATTACACAGTTTTGACAACCATTCATCGCTGTGCAAGCGCATTAAAAGAGCTTTCCTGCTTCAAGTTTG
CTAATGGCTATGCTATGTATGCTCCTGAATAATCTCTGACAGAATTGTTTGTTTCCGTATAGGACAGACCCCTGATAAGGCAATACACAGACTGGAACAG
ATACAGAATATGAATAATGTCATTGGACTTAGTGAATTTTAAATAATAACAGGGATCCTTTTTACATAGAAGAAAAATGTTGCCGGGCGCGGTGGCTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCGGGCGGATCATGAGGTCATGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCTACTAAAAATA
CACCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTAAACCCAG
GAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAGAAAAATGTATGTTAG
TGACATCCCTATTGCAGACATGGCTCACCTTCTCAGTGTTTTGGCAAGCATAAAAAGTTTGATTAGCCAGGTGTGGTGGCTCAAGCCTGTAATCCCAGCA
TTTTGGGAGGCAGAGGCGGGCAGATCACCTGAGTTCAGGAGTTCAAGACCAGCCTGGCCCATATGGTGAAATCTTGTTTCTACTAAAAATATAAAAAATC
AGCCGGGTGTGGTGGCGCACGCCTGTAATCCCAGTTACTCAGGAAGCTGAGGCAGGAGAATCACTTGAACCTGGAAGGCGGAGGTTGTAGTGAGCCTGAG
ATCACGCCATTGCACTCCAGCTTGGGCAACAAGAGAGAAACTCCATCTCAAAAAAAAAAAAAAAAAGTTTGATAACCCCGTAACACTGAAATGGTTTCTC
TTATAGTTGGACCCTGGGCGTTTTTTACACATGGGGACCCAGGCTCGCCAAAGCATTGCTGCTCACCTAGATAACCAGGTTCCAGTTGAGAGTCCGAGAG
CTATTTCCCGCACCAATGAGAATGACCCGGTGAGTTACTAATATGTATATGGGGTTTCTCAGGGCTTATGATTTGTGTTCCTGTCCTCATTTTGCATAGG
AAAACTGAAACTGAAAGAAGCTTAGTAGATTTGCATTTACTCAGATAGTGCACCTGAGATAGCACTCTGGAACCCAGATTCTCCCTGTCCCTGTCTGATA
CTGTGGTAACATACACTGGCCAGCTCGGTCTGTATCAGTTCCCATGTAATCTCTACTAGTGAATTCACCTAGTTCCACGGATTTTGCTGAGCATAGAGTT
GTCGAATACTCAATACTTACTAAGTTTAATTTCTTACTGGGYAAGTTTACCAATTATTATTGCTTATATTATGTGTTGGGTGACAGRCTTTTTCTTAAAG
GACCATGTAGTGAATATTTCAGGCCGATGGACTGAGATGATCTGTCACAAGTACTCAACTCTGCCATAAACAAATGGGTGTGAACATGTTCCAGTAAAAC
TCTATTTACAAAACAGGTGCCCAGCCATAACTTAACAAACTCTGGTATGGAGAGTACTAAAGAAATTAAACTACTTGCCCACAATTTTCTACCAGGGCAG
GTTCAGAACCCAATTTTTCTAATAACCAATCTGGTGCTATTTTGCAGTTTTGTAAGTGGATTTCCTAGGGTCTGGAGAGGGAACTAACTTGGTTTGTTGT
GAGAAGAGCAGCATTTAAAGTGAATTTTGTCTGCAGAAGCCAGGATTCCAGCAGTATCTAGTGTTGCATTTTCTAGTCCAGTTCCCCATTAGACTGGATA
TTGATTTCTTTTTGTTGCTGCCTCTCATAAATGAAATTAATTTGTGGTGTGTGCTGTAATGTTAGGAACCAATAGCTTTCTTTCCCTGCCCCTACCCTCT
GAGTCTTCCCATCTTAATATAGTCTGTGTGGAAAGAAAAAGTAAACACCCATTACCCAAAACATGATCTCAGCAGGGTGTGTTTTAAATATATCTCTAGG
CTTCGGCCATGCGGGGTGGCTCACGACTGTCATCCTAGCATTTTGGGAGGCCGAGGCAGGAGGATCACTTGAGGTCAGGAGTTCTAGACCAGCCTAGCCA
ACATGGCGAAAGCCTGTCTCTACTAAAAATACTAAAATTAGCTGGGTGTGGTGGCGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAAT
TGCTTGAACCCAGGAGGCAGAAGTTGCAGTGAGCCAAGATCGYGCCACTGCACTCCAGGCTGGGCAAGAGAGCAAGACTCTGTCTTAAAAAGTATATATA
TATGGCTGAGTGAGGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAAGCCAAGGCAGGCGGATCATGAGGTCAGGAGACTGAGACCATCCTGGCTAACA
CAGTGAGACCCCATCTCTACTAAAAATACAAAAAAAAATTAGTTGAGCATGGTGGCGGGCGCCTGTAGTCCTAGCTACTCGGGAGACTGAGGCAGGAGAA
TGGTATGAACCTGGAGGTGGAGCTTGCAGTGAGCTGAGATCGTGCTACTGCACTCCAGCCTGGGCGACAGTGCAAGACTCTGTCTCAAAAAAAAAAAAAG
AAAGAAAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATATAGATATAGATGAAGATATATATATATACCATTCACCTMTTTTCACAAA
CACAAAATGAAGTAGAATAAATGAATCAAGCCACTGAAGTGTCTTTTCAGCTTTCTTTGTAATTGCAGTCCTTTTATCTGCCAATTCCTCTGGGGTTTCT
ATGGAAACAGCAGCATGCAGATGATCTTGTCACATGACTGGAGCATCTCTATACACAGCACAGAAGAATCCAGATGGCAAGAATTGTCTTTGCTACCCCT
ACATCTACGGTTTACTTTGATGAGCAATTGGCTTCATTATTTGGGCCACCACTTTTATATACATACTGGGTTTGAGGGCAGCAACCAGCATTCTTGGCTA
AGATAAATGAGGCTGGGCACAGTAGCTTATGCCTGTAATCCCAGGACTTTGGGAGGCCTAGGTGGGAGGATCACTTGAGCTTAGGAGTTCTAGACTAGCC
TAGGCAACATAGCAAGACCCTAACTCTAAAACAATTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTCTTGCCCAGGCTGGAGTGCAATGGCGCA
GTCTCGTCTCACTGCAACCTCCACCTCCTGGGTTTAAATGATTTTCCTGTCTCAGCCTCCCAAGTAGCTGTGATTACAGGCATCCACCACCATGCCTGGC
TAAGTTTTGTATTTTTAGTACAGATGGGGTTTTACCATGTTGGCCAGGCTGGTCTTGAATTCCTGACCTCAGGCAATCCGCTCACCTTGGCCTCCTAAAG
TGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCAAAAAAATTTTCTTTTTCTTTTTCTTTTTTTTAGACGGAGCCTTGCTCTGTCACCCAGGCTGGA
GTGCAGTGGCGTGATCTTGGCTCCCTGCATCCTCCACCTCCCGGGTTCAAGCAGTTCTCTGCCTCAGCCTCCCGAATAGCTGGGATTACAGGCGCCTGCC
ACCGTGCCTGGCTAATTTTTTGTATTTTTTGTAGAGACAGGCTTTCACCCTCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCATAATCCACCCACCTTG
GCCTCCCATAGTGCTGGGATGACAGGCATGAGCCACTGCACTCGGCCAAAAGTTTTTCAATTAGCAGTGCATAGTGGCATGCGCCTGTAGTCCCAGCTAC
TCGAGAGGTTTAGGTACAAGGATCACTTGAGCCCAGGAGGTCAAGGCTATAGTCAGCTGAGATCAGGCCACTGCACTCCAGTCTGGGCAACAGGCTTTCT
CAAAACAATGGGAGATATCTTTTCCAGCTTTAAGAGATGAGTGGTCCAGGTGCAGTGGCTCACGCCTGTAATCCCAACACTGAGAGGCCAAAGTGGGAGG
ATCACTTGAGCTCAGGAGTTCAAGACCAACCTGGGCAACATAGCAAGACCTCATCTCTACCAAAAAAGTAAAAAAATGAGCCAGGTGTAGTGGTGCACAC
CTGTGGTCCCAGCTACTTGTGAGGCTGAGGCGGGAGGATCTCTTGAGCCTGGGAATTGGAGGCCTCAGTGAGCCGTGATTGTACCACTGCATTCCAGCCT
GGTAAACCGAGCAAGATCTTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGACATAAAGGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTT
TGGGAAGCTGAGGCAGGTGGATCACTTGAGGTCGGGAGTTCAAGACCAGCCTGTCTCTACTAAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAAT
TAGCCAGGCATGGTGGCACATGCCTGTGATCCTAGCTACTTGGGAGGGTGAGGCAGGAGAATTGGTTGAACCCGGGAGGCGGAGGTTGTGGTGAGCCAAG
ATCGCGCCATTACACTTCGGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAACAAAACAAACAAACCAAAAAAAACACATAAAGACATGAGTG
AATAGCAGGCCTTATCCAATTTTCAAAGTCTTGGTCACAGATAAAAAGACAAGGCTGGGCTAGGCGCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGG
AGGTCGAGGTGAGCGGATCACGAGGTCAAGAGATCAAGACCATCCTGGTCAACATGGTGAAATCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCGT
GGTGGCGCGTGCCTGTAGTCCCAGATGCTCGGGAGGCTGAGGCAGGAGAATCTCTTGAACCTGGGAGGCGGGGGTTGCAGTGAGCCGAGATTACACCATT
GCACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAGAAGACAAGGCTGGGCAAGATGGCTCACCCTGTAATCGCAGCATTTTGGGAGG
CTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTTAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAGAAATACAAAAATTAGCCGGGTGCG
GTGGCAGATTGTAATGCCAGCTACTGGGAGGCTGAGGTAGGAGAATTGCTTGTACCCAGGAGGCGGAGGTTGCAGTGAGCTAAGATCGCACCATTGCACT
CCTGCCTGGGTGACAAAAGTAAAACTCCATTTTAAAAATAATATATATATATGTATGTGTATATATATATGTATGTATGTGTATATATATATGTATGTAT
GTATATATATATATATATACACATAGACATACATATATACACACACATAGATAAGACAAAAAAGAAAGTCTTGGTCACTTTGTCACCATTATACCTGTTT
GCACTCTTATTTCCTAGGCCAAGCATGGGGATCAGCACGAGGGTCAGCACTACAACATCTCCCCCCAGGATTTGGAGACTGTATTTCCCCATGGCYTTCC
TCCTCGCTTTGTGATGCAGGTGCTCAAGACAGGGAATGGAATTGRAGGGAGCCCAGAATACAAGCTGCTGCTAGCAAAGGGGTGGGGCTAAATGAGAAGA
AAATTTAAAAAGATGAAATTTAATCTGAAAAACAGAAATTCATGTGTTGATTACCTTTTGTGACTAGTACAATTACTTTAAGCTCATGTTTAAACAATAT
TGATGTTTTCCTCCTTGTATAGCCCAAGAAGATTCCAGTAATTTCAGCATCAAATAACTGTTTTAAATGAACTTAAAATTTGCCTTGGCAAAATATCATG
AAAATAGTTAATATGCTGCACAAAAGCAAAATCATAGTACACTCCTGAGCTAAATAGAAGCAATATTTTGATTAGATGCATTGGTTTTTATTCTCTTGTG
GATTTTGTGAAAATGTTATCAAACTTGCCTGTGCAGGTGAGTTTTAGCATGCGAGCCAGAGGATCTCATTTCTTTAGTGTGGTTTATTTCGGGAAATTAG
ATGAATAATAAGGGCATAACAGGCCGGGCGCTATGGCTCACGCCTGTAATCCCAGCTGCACTTTGGGAGGCCAAGGTGGAAGGATCACTTGGGCCCAGGA
GTTCGAGACCAGTCTAGGCAACATAGGGAGACCTGTCTCTACAAAAATTAAAAATTAAAAATTAGCTGGGCATGATGCACACCTGTAGTCACAGCTACTC
AGGTGGCTGAGGTTGGAGGATCGCTTGAGCTCAGGAGGTGAGGGCTTCAGTGAGCCATGATTGCACCACTGTACCCCAGCCTGGGCAACAGAGCAAGACC
TTATCTCAAGCATAAAATAAAATAAGGTATAACAGGCCAGGCAAGGTAGTTTATGCCTGTAGTCTCAGCACTTTGGGAGGTGAAGGTGGGAGGATTGTTT
GAGCGCAGGAGTTCAAGACCAGCTGGGCAATATAATGAGACTGTATCTTTATTTAGAAAAGAAAAACATGGGCAACCCTCTCGGGTCCCCTTCCACACTG
TGGAAGCTTTGTTCTTTTGCTCTTCTCAATAAATCTTGCTGCTGCTCACTCAAAAAAAAAGAAAAACATTTAGTCATGTGTGGTAGCTGCTTCGGAGGCT
GAGGCAGGAGGATGGCTTGAGCCCAGGAGTTCAGGCTGCAGTGAGCTACGATAGTGCCACGGCACTCCAACTCAGACAACAGAGTGAGACCCTGTCTCCA
AAAAACAATTTTAATTAAAAAAAATTTTGTTGAAGAAATCATCTGCAGTGGCACTTTAAACTGTTCCAAGACATACACAGTACAATGTTTATTCAGCTTC
AGAGCTGTGAGGTTCTATCTTTAATTAACTATTTGAAGTTGTTTTCAGACTGGCTTAACCAACAATGCTCTGTAAGAACTTACAGGTTCTTTTCATAATT
TTCATTTACATGAAGGCCTACTTCCTCACCATTGTTTGTGGATATTAGCATTGTCATACTGCCTAATATGACTTTTTTTTTTTTAAATACTGCTCCTTTT
GGAGCAGACCTAACTCACGGACAGTGTGCCCAGGGTAGCTGACTTTATTTTATTACTATTATTTTAATTATAGAGACAGGGTCTCACTCTGACAACCAGG
CTGGAGTACAGTGGCGTGACCACAGCCCACAGCACACTCTACATCTCTGACCTCCTGGGCTCAAGCGATCCTCCTGTATTGGCATCTCAAAGTGCTGGGA
TTACAGGTGTGAGCCACAGCTCCCAGCCCTGATGTGACTTTTTTTTGAAATGGAGTTTCACTTTTGTCGCCCAGGCTGGAATGCAGTGATGCGATCTCAG
CTCACTGCAACCTACGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAAGAGCTGGGATTACAGGTGCTCGCCACCACGCCTGGCTAATTTT
TATATTTTTAGTAGACATGGGGATTTGCCATATTGGCCAGGCTGGTCTCCAACTCCTAACCTCAGGTGATCCACCTGTCTTGGCCTCCCAAAGTGCTGGG
ATTACAGGGATGAGCCACCACGCCCAGCCAACATTTGTTTTAATACCTTTATCATGTTTTTTTGAACATTGAGCCTTCCATTAAGTTTGGAATTGCCTGT
CAAATCCTACACCAATTCAATTGTTTTGTTAGGATTTCTTTTAAAAATATCAACACTGGCTGGGTACAATGGCTCACGCCTGTAATTCCAGCACTTTGGG
AAGCTGAGGTGGGCAGATTACTTAAGGCCAGGAGTTCAAGATGAGCCTGGCCAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAATTAGCTGGGC
GTGGTGGCACACGCCTGTAGTCACAGCTACTTGTGAGGCTGAAGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGTCA
CTGCACTCCAGCCTGTGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAATTAACACTATTTTAGTTATACTTACAAACAGTATTTGTTAGAT
ATTCTTATTAGTAGACATATTTTAATATTTTCTTTGCAAATCAGTTTCACACACATTAGTACTTCCCAAATTTCCCACCAAAGTATTCTGGTAGCAAAAG
GGGAATTAAACTCTGAAAGGTTAGTATGCTGGAGGTATGAGGTATGGATGGCCTTAGAGTTGTGAGGCAGCTGGTCACACCTGCTCCTGAGCCGCCATGT
ATTTAGTTCTAGAGAAAAAAGTCTAAATGGTTAAAGTAATAAAAATAAATTTTAGGCCAGGTGCGGTGGCTCACGCCTATAATCCCAGCACCTTGGGAGG
CTGAGACGGGTGGATCATGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAAGCCTGTCTCTACTAAAATTACAAAAATCAGCCTGGCATGGT
GGTGGCACCTGTAATCCCAGCTACTGAGGAGACTGAGGCAGAAGAATTGCTTGAACCCCGGAGGCGGAGGTTGCAGTGAGCCGAGATCACACCACTGCAC
TCTAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAGAAAAAAAAAAAAAATCAACTAAAAATAAATTTTAGGCCAGGTGCAGTGGCTCACGCCTG
TAATCCCTGCACTTTGGGAGGCCAAGACGGGGGTGTCACCTGAGGTCGGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACTCCTTCTGTACTAAAAA
TACAAAATAGCCGGGCATGGTGGTGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACTGGGAGGCAGAGGTTGTGGTGA
GCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCGTCTCAAAAAAAAAAAAAGAAAAAAAATTTAAAGAGTTAATGTTTATTGA
ATTATTAACTTGTGTCAGAAATTTTAAGCATTTTTCTATATGCTTTCCATATTTACAGTGGCCCTAAGTGGTATACATAATTTTGTTATGAGATATATCA
ATTATTTATAGATTTCAGCTGAGATAGAATATATGCTTCAGTAATAGGAATAATCAAAAGCTGACTATCATGTTACTTAGTGCGGAATAATGTATTTCAG
TTTTTAGCTAAGTTATATGGATAGATTTTCAAACTCAGTACCAACCCAGCTTCTCCTAACTGAGTAAATTAGAGGCATGCAATCTGATGGTCTTGGTTGC
CACTTTAGGCAGAGTATATATACCACCCCCCACCCACTCCTTCCACACCCACCCACTCTTTCCTTCTTTCCTACTTTATCAGGTGAAGACATTCAGTGAA
GCTTGCCTGATGGTAAGGAAACCAGCCCTAGAACTTCTGCATTACCTGAAAAACACCAGTTTTGCTTATCCAGCTATACGATATCTTCTGTGTATCCTTT
CCTGCYTGCGTGGACCCTCATGAACCAATGCTTTCTCCCCTCAAATAAGGCAACAGAAGAAATGAAAAAAAGTACTGTTGAGGCCGGGCATGGTAGCTCA
CACCTATAATCCCAGGAGTTTGGGAAGCCGAGGCAGGCGTATCGCCTGAAGTCAGGAGTTCAAGACCTGCCTGGCCAACRTGGCGAAACCCCGCATTTAC
TAAAAATGCAATATATTAGCCGGGTGTGGTAGCGTGCACCTGTAATCCCAGCTACTTGGGAAGCTGAGGCAGGAGAATCGCTTGAACCCGGGAAGCGGAG
GTTGCTGTGAGCTGATATCAAGCCACTGCACTCCAACCCCATCTCAAAAAAACAAAACAAAGCATAACTACTGTTCACATACAAGTGATCCTTCCAGTCA
TGTTTTCTTTAACAACATATACTTTAGATGGAGAGAAGGGAACAGGAAAAACCCTAAGTCTTTGCCATGTTATTCATTTCTGTGCAAAACAGGACTGGCT
GATACTACATATTCCAGATGGTAAGAACTTCCTGTTGTTTCTTCTGTCTGTTAGGTTTAGTTATCCTGTTACTGTGGTAGCCTTGCAGCTTTAATTTTCT
TTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTCGGCCAGTCTGGAGTGCAGAGGCGCAATCTCAGGTCACCGCAACCTCC
GCCTCCCAGGCTCAAGAGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCACCACACCACCACGCCCAGCTAATTTTTTTTTTTTTT
TTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTTC
TGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCGGCTAATTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGC
CAGGCTGGTCTCGAACTCCTGACTTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATTGCACCCGGCCTCAGCTTT
ACTTTCCTAACAGGGATCTGATAGCTAAAGGAAAAGCCTTTGCCAGTCACGATGGCTCAAACCTATAATCCCAGCACTTTGGGAGGCTGAGGCTGGAATA
TTGCTTAGAGCCCAGGAGGAGGCTGCAGTGAGCTGTGATCGCACCACTACACTCTAGCGTGGGCAACAAAGCAAGACCCTGTCTCAAAAAAAAAAAAAAA
AAAGAAGAAGAAGAAAAGCCTTTACTCCAGATGTAGAGCAGACTGAGCTCATCCATCATGATTTCTTCGTGATATTACTGCCAAGCAGATTATAAGGTGA
AGTCAATGTGACAAAAGGAAATTCGGCTAAAAGCTTCCTGAAGCCTTTTGATGCTAAGCAGTCCTTCTTTTGATATTTAATACCCATGGACATAAACTTC
TGCCTTAGAGGTCGCCATGGAGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTGCCATCTGTTAACAGTCCTGAGTACCCATAGAGCCTTTTACTATTTAT
CAGCATTCTAGAGTCGTCAGTATGGATTGTCAAAACTTGCAKTTGTCTCTTTTTTGTTCAGTGTTGTGTGCATCCACATTTTCTTTCTTTTTTAAACAAC
CCTGCTTATGTAACATCCACATTTTCTGACTTACCTTTCAAACCTGCCAGAAAGCAGAAGTGATATTTAATACACTTGGTATGTTTTATATATTGATTCT
AATGATAATGTTTAGTCTAAGATGGACCTGACAAGGCCAGGCATAGYGGTTCAACAGCACTTTGAGAGGCTGAGGCAGGATGATTGCCTGAGCCTAGGAG
TTCAAGGTTACAGTGAACTGTGATCACATCCTGCCTTCTAGCCTGGGTGACAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAAAAGAAAAGAAATATA
TATATGAGAAACTAAAGTCATTTCCCATAACTTAAAAGAGGCATAGAATATTTCGAGTTGAATACAGTTTCTGCCTGGCTTGTTTTCTTCTGCCTCTTTT
TTTTAAAGCTCATCTTTGGGTGAAAAATTGTCGGGATCTTCTGCAGTCCAGCTACAACAAACAGCGCTTTGATCAACCTTTAGAGGCTTCAACCTGGCTG
AAGAATTTCAAAACTACAAATGAGCGCTTCCTGAACCAGGTGACTAGACTCCCAGAAGTTGAGTGCTAGGTAGTCCTTACATGGATTCTTTGTGCCCTGR
GTACCAAYAGACTATGGAGAACTGATACTGGAGTTGGAATAACTGTATCATTTTTAATTTCTTTCATACGTTTTGCTCACAGTGGACTCATAACTTGAAA
CTCATTTATCCATGTGAAATAAATAGGCAACAGTAAGTTGTTCCCATTTTGTGGGTAGCAAAGTGAAATCCAGTTGATTCATTGACTTTTCAAGGTACAG
CCTCCAATCCCTCGCAAGCRCATTTCCAACTACATGATTTTCTCCAGACAATATCTTTTTAGGGAACCAGAAATGTATTGGAAAAATTCTTCTTTACCCT
GGTGATTCTTAGATACCCTGTCTAGACCAGGGGCCTTCAACTCTGGATATAAAGCAGAGTCACCTAAGAGCTTGTTAAAAATGCAGATGCCAGAGTCTCA
TTCTGGACATTTTCATCAGAATCCCTTATGTATGTTTATTCAAGGCTCCAAGCAGAAATGGATTAGAAAGCATTCACTTTGGTCAGGCACAGGGGCTCAC
ACCTGTAATGTCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTCAGGAGTTCAAGATGAGCCTGGCCAACATGGTGAAATCCCATCTCTACT
AAAAATACAAATATTAGCCGGGTGTGGTGGTGCACGCCTGTAGGCCCATCTATTCAGGAGGCTGAGGCAGGGGAATCTCTTGAACCTGGGAATCAGAGGT
TTCAGTGAGCCGAGATAGCGCCATTGTACTCCAGCCTGGGTAACAGAGCGAGATATGGTCTCAAAAAAAAGATAAAAGAGGTCAGGCGTGTGGCTCAGAC
ATGTAATTCCAGCATTTTGGGAGGCCGAGGTGGGYAGATCACCTGAGGTCAGGAATTCTAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTACTAA
AAATACAAAAATTAGCCAGGCGTGGTGACACACGCCTGAAATCCCAGCTACTTGGGAGGCTGAGGCAAGAGAATCCCTTAAACCTGGGAGGTGGATGTTG
CAGCGAGCTGAGATCATGCCACTGCACTTCAGCCTGGGTTACAGAGAAAGAAGCWGTCTCAAAAAAAAAAAAAAAGAAAGAAAAGAAAGCATTCACTTCT
ACATTGAGGTCTCTTACAGAACCTGAACAATAGATTAAAATGAACTCCTGTTAACCTTAGCCTCCAACCTTTTCAAGGGATGGTTTCACCCTTAGGCCAA
GTAGCCTTTTTTTTGGTTTTTATTTTCTTTGCTTGCTTTTAGATAAAAGTTCAAGAGAAGTATGTCTGGAATAAGAGAGAAAGCACTGAGAAAGGGAGTC
CTCTGGGAGAAGTGGTTGAACAGGTATAAGAAAAAACACTGAATGTGTAACATGCGATAACAAGAGAAGGCCTCTGGTAGCACTACAATCCACTGTCTCT
CCCAATAGGGCATAACACGGGTGAGGAACGCCACAGATGCAGTTGGAATTGTGCTGAAAGAGCTAAAGAGGCAAAGTTCTTTSGGTATGTTTCACCTCCT
AGTGGCCGTGGATGGAATCAATGCTCTYTGGGGAAGAACCACTCTGAAAAGAGAAGATAAAAGCCCGGTAGGAAAACTGGGTGTCTCTATCTTGTTTCTC
TGATTTCTGATTCCATCAGTATGGAGGCTGGGTCTTAGCCTTGTAGACCATGCAATATGTTTTCTTGCCCTAGGAATATTTGAAGATAAACAGTAAAGAG
CTGGGTGCAGTGGCTCACGCCTGTAATCCCATTGGCTCACGAGGCTGAGGTGGGAGGATCGCTTGAGGCCAGGAGTTCAAGACTAGGATGGGCACTATAG
CAAGGCCCCTGCCTCTAAAAAAATAAGAAATTAGCCGGTAGCTGGCATGGTGGCACACACCTGTAGTCACTGCTACTGGAAGGCTGAGGCCAGAGGATCA
CTTGAGCCCTGGAGTTCAAGGTTGTAGTGTGGCATGATTGCAACACTGCACACCAACCTGGGTGACAGAGTGAAATCCTGTCTCTTAAAAAATATATATA
TGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTGGGGAGGCTGAGGCGGGCGGATCACCTGAGCTTGGAGTTCGAGACCAGCCTGACCAACAT
GGAGAAACCCATCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGTGCATGACTGTAATCCCAGTTACKCGGGAGGCTGAGGCAGGAGAATCGCTTG
AACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCCATATATATATATTCATATATATGTATATATACACACATATATATTCATATATGTATATATAC
ACACATATATTCATATATATTTATATATACATATATTCATATGTTTTCATAATATACGAATATACCTATATGTTCATATATGTATATATAATATTCATAT
ATGTATATATGTATATATAATATTCATATATGTATATATGTATATATACGTATATATGCACACATACATATTCGTATATGCATATGCACACATACATATT
CGTATATATATGTGAAGATAAACAGCAAGGCCTGGTGTGATGGCTGATAAATCCCAGCACTTTTAGGAGGCCAAGAGGTGATTTGCTTGAGTCCAGGAGT
TTGGAGTTTGAGGTCAGCCTGGGCAGCACAGTGAAACCCTGTCCCTACAAAAAATATAAAAAACTAGCTGGGCATGGTGGTTTGCACCTGTATGTAGCTC
CAGCTACTTGGAAGGCTAAGATGGGAGGATGGCTTGAGCCCAAGAGGCAGAGCCCGCAATGAGTGGAGATCGTGCCACTGCATTCCAGGCTGGGCAACAG
AATGAGACTCTGTCTCAAAAAAATAAAAAAAAAGAAAAGATAAACAGTAAAATGGAATCAGAGGAGGAGGTAATGCCAAGAGTTCCACTATTCATTGAAA
ACTAAGGGAGTATGTTGTGGAAAGAGAATGACAGCAGAAGCTATGTTTTCTTTCTTAATTTTTATCTGTCTTTTGATTCTTTTTTCAAAATGAGTCTAGA
TGGTCTAAGCAGAGGAGATCAGAAGCATCAAAATGGGGCTGGTTTGGGGCAGTGGGTGTTTTTCTCAGTGACTGTTAATCTCCAGAAGCATGGCAGTTCT
AGGGCCAGAGGCTACGTGGCTTATCCTAGAGGGAGTACCTTCAGGTATACAATTATGTCTTAGTTGAGGGTTTTAAAAAAATTGTTGTCACCAGGTGCAG
TGGCTCATGCTTGTAATCCCAGCACTTTGGTAGGCCGAGGTGGGTGGATCACAAGGTCAGGAGTTTGAGACCGTCCTGGCTAACACGGGGAAACCCTGTC
TCTACTAAAAATACAAAAAAATTAGGCTCTGGTGGCGCGCGCCTATAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTG
GAGGTTGCAGTGAGCCCAAATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCAAAAAAAAAAAAAAATTGTTGTCAATTGTTTCGGG
AGAACATCTAGGAAAGGCACGTGATGATCTCTTCTCTCTTTCTGTCCGATATRCAGATTGCCCCCGAGGAATTAGCACTTGTTCACAACTTGAGGAAAAT
GATGAAAAATGATTGGGTAAGTGCATATGATACCTCACACATTTCAGAAAGAAATGTATTATCATTTTAAACATGTTCTACTATTTCATTGCTAATACTT
TACAGTCTCTAATTTTATGGACAGTAAGTTATTATGTCTTATTTAATTCCTGTATCTGTACCAAGTTAGAAATAAAGTCTGAATTAAAATCTATATATAT
GTGGTTTATAATCTTTCCAAAGTAAGTTTATTCAAAACCATTTTATTTAAATATTGGCCTAATTTTATTTTGCTTGCAGACATTTAAAGTGTTTTTGTAT
CTCCTTACCGTCTTTGGAAAAGAGTTTGAGACCCACAAATATGTCATGGTAAATTTAAAATCAGGTAGCAGTTTATTGTCAGAGCCAAATCTGGAATAAC
CAATTTAGTTGCCATTTAACTGTGCTAGACCACACTTTTGTAACACTGTATGCCCAAGAAAGAAAAAAAAAATCTACAGATGATTAATGCAGTTTTCCAT
CCTTTTTAACTTTTTCCAGTTCAGCCTTTTCTCTTTTCTTTCAGCATGGAGGCGCCATTGTGTCGGCTTTGAGCCAGACTGGGTCTCTCTTTAAGCCCCG
GAAAGCCTATCTGCCCCAGGAGTTGCTGGGAAAGGTCAAGTCAAAGGAAAATTTGTTTCTACTTAGATTGTTATCCTGTTTAAAGAAAAATATTTTTATT
AATCTATGTATTTTGACATAATTTCAGACTTAGAGAAAAATCATATTCCTGTATGCCCTTCCCCTGGATTCCTAAAATATTAACTTGATCATCATTGCTT
TATCCGTCTCCGTCTTTCTCCAGAGTTTCTTTTCTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCAMCCAGGCTTGAGTGCAATGGCGCAATTTCG
GCTCACTGCAACCTCCGCCTTCCGGGTTCAAGTGATTCTCCTGTCTCGGCCTCCTAAGTAGCTGGGATTACAGGCGTCCACTACCACGCCCAGCTAATTT
TTTGTATTTTTAGTAGAGACGAGGTTTCACCATGTTGGCCAGGCTGGTTTCAAGCTCCTGACCTCAAGTGATCCGCCTACCTCAGCCTCCCAAAGTGCTA
GGATTATAGGCGTGAGCCACGGCGCCTGGCCTTGATGCTTCTTTGTCTCCAAATAATGTCTCATTCCTAAGAACAAAGATACTCTAATATACCCTGAGCA
TAATTATCAAAGTCAGAAAATTGACATTGATATCATACTTTTACCTAATTGGTGGGATTTATTCTGATGTAGCCAGTTATCCCAGTATCTTTTATAGAAA
AATAAATCCCAGATAATGTGTTACATTAAGTTGTCATGTCTCTGGCTGGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGC
GGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTCGTGGCGCGTGGC
TGTAATCCCAGCTACTCAGGAGGCCGAGGTAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTACAGCGTG
GGTGACAGAGCGAGACTCCGTCTCAAAAAAAAGAAAAAGTTGTCATGTCTCTTTGGTCTCCTTTAATCTGTGACAGTCTGTCAGTCTTTGTCATTTGAAA
TCTTTATGTTTTTGGCATGTGCATGCCAGCTATTTTGTAGGTCACTTTTTGGGGTTGTCTGAGGTTTCCTCCTGAATAGAAGTGATGTTAGAAGTGATGA
CATGTCTGAGTGAGTGCATCCTATCAGGAGGCACATTTCTCCCATTACTGGTAATGATTTTGGAACTGTTAGCTGAGGTGTTGTCCATCTGGTTTCTCTT
CAGTAAAGTTATTATTTTGCTTTGGAATTAATATGTATGTTGTAGAGATATACTTTGAGACTAGGTAAAGATCCTGTTACTTCTCAAACTTCCACCTACT
GGTTTTAGTATCCATTACTTTAGTTATACCTGGCATGGAGCCTCCGCAGCTGGTATGGTCTTGTGGATTTTTATTTAATAGAATCTAAATCATTACTGTC
ACTTTTTATTTTGGTGCTCAAATCATCTTAGATTTGGCCATTAAAAATTCCTTCATTGGCCGGGTGTGATGGCTCACGTCTGTAATCCCAGCACTTTGGG
AGGCCAAGGCGGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGTGAAATCCTGTCTCTACTAAAAATGTAAAAATTAGCCAGGTGT
GGTGGTGCGTGCCTATAGTCCCAGTTACTCTGGAGGCTGAGGCAGAAGAATCGGTTGAACCCAGGAGGCGGAGGTTGCAGTGAACCAAGATTGTGCCATT
ACACTCCAGCCTGAGCCACAAAGCAAGACTCCGTCTCAAGAAAAACAAAAAACAAAAAAACAATTCCTTCATGGCCAGGCTTGGTAGCTCACAGCTGTAA
TCACAGCACTTTGGGAGGCCAAGGCAGAAGGATCCCTTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAACAAAGTGAGACCCCATCTCTACAAAAAAAAA
TTTTAAAACTAGCTGGGCATGGTGGCATTCACCTGTAGTCACAGCTACTCTGGAGACTGAGGTGGGAGGATCGCTTGAGCCCGGGAGGTCAAGGCTGTAG
TGGGCCCTGATTTTGCCAGTGTACTCCAGCCTGGGCAATAGAGTGCGGCCCTATCTCAACAGGAAAAAAAGCTCCTTCAAGCTAACTTCTATATCCTTTT
AAAATGTCCCCATCATTATTTTTTTGGAGATAGGGTCTCACTCTGTCACCCAGGCTGTAGTGCAGTAGCACCATCATAGCTCACTGTAGCCTTGAGCACA
TGCCACCACACCCAGCACTGAATGTTGTCTTTTTCTTTTCTTTCCTTTTTTTTTTTAGAGGCATGGTCTTAACTATGTTGTTGCCTAGGGTGGTCTTGAA
CTGCTASSCTCAGGCAATCCTCCCACCTCGGCCTCCTAAAGTGCTGGGATTACTGGCGTGAGCCACCATATCCAGCTCCTATCATTCTTTGACCACTTCT
TTATTTTCTGTCATGAGAATATGTTCCAGACCCCTCTTATACTTCCCATGCCCAGCCCTGGAATCTCCATTTCTCCAAAGAGCATTGGCTTATTTTAGAG
GAGACTGGTATTTAGCAACCAAGGCCTGAGTCCTAGGTATACTCACTGCTACTGAGGTGTCCTTTCTCCTAGGCCCTCACAGCAAAGTTCATAAATAGAT
GTACATACATACATGTATGTATGTATATGTGTGAACCATATGCATATACATGTTTATACACATCCACACACATCTGCGTTTGTTTCTCTAATCATATTAA
AAAACTATGAGTTCCTACTAGTAGCCAATTCCATGCTACCATCACAGCAGTCATTATACCCTTTCCATATCTGTAACTCTAATCTAAAATAATGAGAAAT
CTGCTGCCAGTAGCCATAGTATATTTACTTATTAGCTCAATACTAGAATATATGAAAAGTAGTTTCAGATTTGATAGCTCTCAGGCTGGGCGTGGTGGCT
CATGCCTATAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCTAGACCGGCCTGGCCAACATGGTGAAACCCCGTCTCTAC
CAAAAAATGAAAAAAAAAAAAAAAGAAAAAAAAATTAGCCGGGCGTGGTGGGGCGCCTATAGTCCCAGATACTCCGAAGGCTGAGGTGGGAGAATCGCTT
GACCCTGGGAGGCAGAGGTTGCAGTGAGCTAAGATGTGCCAATGCACTCCAGCCTGGGAGACAGTGAAAAAGAAAGAAAAAAATAAGTTCCTTGGGCCGG
GCGCAGTGGCTCACGCCTATAATCCCTGCACTTTGGGAGGCCAGGGCGGGCGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGATGAA
ATCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGTGCAGGCATGTAATGCCAGCTACTCGTGAGGCTGAGACAGGAGAATCGCTTGAAC
CCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCTAGCCTGGGCAACAGGAGCAAAACTCAGTCTCAAGAAAATGAAAAAAAAAAAAG
AAATACAGTTTGATTACTTCATTTGTTTCCATTTGTTTTCCATCTAGCGTATTTTTTCCCATTATTTTTATTTTTTATTTTATTTTATTTGAGATGAAGT
CTTGCTCTGTCACCCACGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAG
TAGCTGGGATTACAGGCACGCATCACCACGCCTGGCTAATTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAGTGCAGT
GGCTTAATCTCGGCTCACTGCAACATCCACCTCCCGAGTTTAAGCAATTCTTCTGCCTCAGTCTCCCGAGTAGCTGGGACGACAGGTGCATGCCACCACG
CCCAGCTAATTTTTGTAATTTAGTAGAGATGGGGTTTCACCATATTGGCCAGGCAGGTCTTGAACTCCTGACCTTGTGATCTGCCCGCCTCAGCCTCCCA
AAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGTAATTTTGTATTTTTAGTATTTTCACCATGTTGGC
CAGGCTGATCTCGAACTCCTGACCTCAGGCGATCTGCCCTCCTTGGCCACCCAAAGTGCTGGGATTACCAGCATGAGCCACCATATTCCTTTGAAAATAT
GAAACATTAACTTTGTTTCAAAAGCCAAAACTGTCCAAAATACATACACACAATATGTGTGTGTGCGTGTGTATGTGTGTGTATTCACACAAGTAGCATC
CGCCTCCTCAAGCATTGCCTTTTTTTKTGTGTGTGTAGACATGGTCTTACTCTGTCACCCATACTGTGACAGTATGTGTAGTGGAGCAATCGCAGCTCAC
TGCAATCTCAACCTCCTGGTCTCAAGCAATCCTCAGCCTCCCGAGTACCTGGGGCTAGAGGCACGCAGCACCACTCCTGGCTAATTTTTGTATTTTCTGT
CGAGACAGGGTTTTACCACATGGCCCAGGCTCGTCTGGAACTCCTGGGCTCAAGCAATATGCCCATCTCAGCCTCCCAAGGTGCTGGGATTACAGGTGTG
AGTCACTGTGCCCAGCCACCTCTTTTTAATATATAGCATTTGTGGCCACGTAGAGCACGAGTAGCCAGCCACCATATGTGGAGTCCATATGTGGAGTCCT
GTATCAGGCAATGTTGCCAGAGAATGAGAAGTAGAGTTACATAGAAGAAAAACAAATACCTTACCTTCAAAGTGCTTAAGTAGAGTCTGTCTGTCTGGTG
CTTTGTTCCTTAACTAACATGTTTCCTGATCCTTTTTCTTCCCCAGGAAGGATTTGATGCCCTGGATCCCTTTATTCCCATCCTGRTTTCCAACTATAAC
CCAAAGGAATTTGAAAGTTGTATTCAGTATTATYTGGAAAACAATTGGCTTCAACATGAGAAAGGTCCATCATTTAGTTTTTTCCTATCAGGGCTTTGTG
ATCACAGTAGAATCCCACTCAGTCAGAGCCTTGATCTCTTCTTCCCTTAACAACAGCCTCTAATTTGTACTTCATCCTTTATCTTGACTTCTTTCTGGCT
GATAAATGGTACAGAAAAGCGGGTGGGAGGCAGTTAAGGTTTAATTTACAAAAGAGATTTTATCCCTAAATTTTCCATGATAAAGAAGGGAACAAAGGCA
ACTCCATCCACTGGGCAGAATTTCCAGGTAATTGGGTTCCTGCCACATTCTCCTTATTGAATTTATTTATTCAATAGACTTCACTGGAGAGACTCATGCT
GGGACACCCACAGAAAAATTCATACTGTGCAAGGGCTACTCCAGCACCTAAGTAAATCTTTGCCACACCTGTCCTAGTATATGTACAGAAATTAACTTTC
AGCACTATATTTCATCTACTCTGACTGAAAGCATTCCAACTGTTCATTTACTTGCCCTTGACCTCACATTTGAGTATGAAGAGGGGATATAGAAGAAAAG
CTAAGGCTGCTCTATCACTAGATAATAGAGTTAATAGTAATCGGAGGCCTGGTGCAGTGGCTCACACCTGTAATCTACACTTTGGGAGGGCAAGGTGGGA
AGACCACTTGATGTCGGGAGTTTGAGACCAGGCTAGGCAATATAGTGAGACCCCATCTCTATYGAAAAAAGCAAAAAAAAAAAAATACTATTTAGAATAG
CTTATTAAAGGAGTACAGTGAAGAGTGTAAGACTAACTGTAGCATGTTAAGTTGGGATGCACAATAGACAGATTTCTAAGAGTTGGGAGATGTCACAAAA
TCCTGAAGTCCAGAAGACACTCTTGGAGTGGAGAGAGAGCTCCATGCTGGTTTGGAGGAGTAGACACAGAAAAGGAAGTAATGCATACAAAAGAAGAGTA
GCTTGTTGGGGTGAGGGTCTAGAAGTAMGATYTCTTGGGAGATGATAATTACCTCAGAACGTAATTTGGATATGGTAGCCTCTGACTACACGATATTCTG
GGGAACACAGTGCAGCAGGAGGAAACTGCCACTTACCTGTGTTTGTCTCCATTTTAGCTCCTACAGAAGAAGGGAAAAAAGAGCTGCTGTTCCTAAGTAA
CGCGAACMCCTCGCTGCTGGAGCGGCACTGTGCCTACCTCTAAGCCAAGATCACAGCATGTGAGGAAGACAGTGGACATCTGCTTTATGCTGGACCCAGT
AAGATGAGGAAGTCGGGCAGTACACAGGAAGAGGAGCCAGGCCCTTGTACCTATGGGATTGGACAGGACTGCAGTTGKCTCTGGACCTGCATTAAAATGG
GTTTCACTGTGAATGCGTGACAATAAGATATTCCCTTGTTCCTAAAACTTTATATCAGTTTATTGGATGTGGTTTTTMACATTTAAGATAATTATGGCTC
TTTTCCTAAAAAATAAAATATCTTTCTAAAGTGTTGTGTTAGATTAATAATATGGAAGGAGTCTTTAGATTGGCCAAATTGCATTTCTCTGATATTCCTC
TTGTTGCAGGTCAGAAGAGATCAATTCTACAGAAATTTCCAGTGGTTCTGTTGAGGCTTTATGGAATTCAGCATGTCAAAATTCACAGCTGGCTGGGCAC
AGTGGCTCATGCCTGTAATCCCAGCACTTTGGAAGCCCAAGGCGGGCAGACTGCTTGAGTTCAGGAGTTTGCAACCAGCCTGGGCAACATGGTGAAAACC
TGTCTCTACTAAAAATACAAAAATTAGCCGGGCACGGTGGCATGCGCCTGTAATCCAAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTCAACTTGGG
AGGCGGATGTTGCAGTGAGCCAAAATTGCASCACTGCACTCCAGCCTGGGCAGCAGAGCAAGACTCCGTCTCAAAATAAATAAATAAATAAATAAATAAA
TAAATAATAAATGTATACTGTACTGTTTTACATGACCGACTTCAGCATCTAAGGATGTTGCTACCTGGAGGAAGTGGGATCCTGGAACGAATCCCACATA
GGTATGAGGAATAACAATAATGGAAAATCAGGTATCTTCCCTTTCTCCCAGTGCTTTTCTAAAAGGAATTTCTGTTACCAAATCCTAGAGATGATACAAT
TCTACACAAATATATATATGGCCGGGCGTGGTGGCTCATGCATGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACTTGAGGTCAGGAGTTTA
AGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAGTAGCCGGGGGTGGTGGCACATGCCTCTAATCCCATCTACTCGGGAGG
GTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTAGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGGTGACTGATAGAGACTCTGTCT
CAAAAAAAAATATATATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTATATATGTATATACACACACGATATGCATATCATATGTATATATTATGTCTGT
TATACGTATATATATGTTATGTTTATATTAGTATTACTATTAATATGTTAGATACATATTAAAAATATGTTTACTTTGACAGTAATATATAACTATCAAA
GTAGTATACTAATAGGTTGTATATTATATATTGTATATGACAATATATAGTATATTACTCATAATATTGGGTCCTATATATTATGTATATGTATTATATA
TGTTATATGTATTTGTATATATTTTATATATATGTTATATATATATTTTTAATTTATATTTATATATTTTTAAGAGACAGTCTTGCCCTGTCTCCCAGGC
TGGAGTGCAGTGGCATGATCACAGCTCACTGCAGCCCCAACTCCTGGGTTCAATCAGTCCTTTTGCCTGAGCCTCCCTAGTAACTTGGGACCACAGGTGT
GTGCTACCACACCTGGCTAATTTTTTAGTGTTCAGTAGAGACAGAATGTAGCTTGGTTTCCCAGGCTAGGCAATATGGCAAAACCTCAGAGTGAGAGAGA
CCGAATCTCTAATAAATAACTTGAACAAAATAACTGCTAAATGTACACTAGAAACCATATTCCTTTTTCTTTTTTTTTTTGAGACGGAGTCTTGGTCTGT
CACCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCCGCAGCCTCCCGAGTAGTTGGGAC
TACAGGCACCCGCCACCGTGCCCGGCTAATTTTTTGAAATTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTG
ATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCAGCCTAGAAACCATATTCCTGATGATAATTTAAAAGATCTTAC
TAAATGGAAAGATTCTCCATGTTCATTGATTGGAGTACTCAGTAATAAGATGGCAGTTATTCCCATATTGACCTATAGATTCAATGCAATCATTATCAAA
ATTTCAGAAGGTTTTTTGCAAAACTGGAAAACTGACCAAGCACGGTGGTCCATGCCTGTAATCTCAGCATGCTGGGAGGCTGAGGTGGGCAGATCACTTG
AGCCTAGGAGTTTGAGACCAGCCTGGGCAACATGGAGAAGCCTAGGCTCTACAACAAATACAAAAATTAGCCAGGTATGGTGGCATGCGCCTGTAGTTCC
AGCTACTTGGGAGGCTGAGGCAGGAGGATCACTTGAACCCCAGAGGTTGAGGTTTCAGTGAGCCGTGATCATGCCACTGCTCATCCTCAGCTGCAGAGTA
AGACCCTGTCTCAAAAAACAAAAAGGAAATAAAAAAGGGAAACTGACCTAAAGTTTATGTTTTTATTAATATTATTTTGAGACAGGGTCTCACTCTCTGT
TACCCAGGCTGGAGTGTAAGGCCACACTACAGCCTCGACCTTCTGGACTCAATCCTCCTACCTCAGCTCCACGAGTGGTTAGGACTACAGGCACACACCA
CCACACGTGGCTAATTTTGATTTTTTTTTTTAATAAAGATGGGATCTCACTATATTGCCCAGGCTGGTCTCAAGCTTCTGGACTCAAGTGATCCACCTGT
CTCAGCCTCCCAAATTGCTGGGCGTATAGGCTTGAATGACTTTGGCCAGGCTATAACCCCATCGTCTGTTTCTGGGAAGACCTAATGCACCCAAACGCAA
TGCTACCCTTCAAGAGACAAATCTAAAATTGCAAGTAAAAATTCAAAAGAGGGCCGGGTGTGGTGGTGCACGCCTATAATCCCAGCACTTTGGGAGGCCG
AGGCGGGTGGATCACCTGAAGTCAGGAGTTTGAGACCAGCCTGAGTAATACAGTGAAACCCCGTCTCTACTAAATACAAAAACATCAACCGGGCATAGTG
GCGGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGCTGCAGTGAGCCGAGATCGCGCCACTGCAG
TCCAGCCCGGTGACAGTGTGAGACTCTGTCTCAAAAAAAAAAAGTAAGGATATAAAAGATTGAGTAGCATGATTAACACTTGTCCTAATGGAAGTATTTT
TAAAAATTGAATCCCCAAACAACTTTTTTTTGGTAGAAGCTCTTTTACATTCACATACTTTATTTTTAATAGCCTAACTACAGTTATCCTTTTCTTTAAC
CCAGGAAGGCAGAGAGAAAAGAGAGCAAATTAAGTTGCCTAAAGCTGAACTTGGACATCACCAAACTTCTAGAAAGGCAGATTATGAAATAATGCTTTAA
TAAACATATTATTAATTTAATAAGCATCTGTTGTTCTAAAAAGTAGAAAATACATCAGGTCATTATTGTTGACCCTTAAACAATAACGTTTTTGGACTGC
ATGGGTCCACTTATTCACATATATATTTTTTTTAAAGGGTCTTGCTCTGTTGCCCAGGCGGGAGTACAGTGGCATGATCTCGGCTCACTGTAACCTCTGC
AACCTTGGTTCAAGCTATCCTCCTGACTCAGCCTCCCTAGTAGCTGGGCTTACAGGTGCACACCACCACGTCCGGCTGTTTTGTATTTATAGCAGAGACG
GGGTGTCACCATACTGGCCAGGCTGTTCTCAAACTCCTGACCTCAGGTGATCCGCTCACTTCGGCCTTCCAAAGTGCTGGGATTACAGGTGTGAGCCACC
GAGCCCGGCCTCACAGATCTTTTTCAATAGAAGTTATACGGAGTGGACCTGCCTTTCTGGCCTCACCTTCCACCTATCAAATCCCAAAACTTCTGAATGT
ACTTTCTTTTGAAGCACATAAAGAACCTGTTCAAAATTGACTGACAATGGACCATAAACCAGCTCAATATATTTCAAAGAATTTAAATCATACAGCCGTG
TACTCTGATTCTAATGCAATTTAAACTAGAAACCAGTAACAAAAAGAGAAATAGAAACTCCTCATGTGTCTGGAAATTAAAACATACTTTTCTGATGTGC
CCATTGGTCAGGGAGAAAGATCAGAATGGAAATGAGAAAGTAATTCAAATTAAATGATTGTGAAATTACTAAACACAAAACTTAAAAATTTTGTACGTTG
AAAATACTGGCTGGCAGGGCACAGTGACTCAGGCCTGTAATTCCAGCACTTTGGGATGCCGAGGCGGGAGGATTGCTTGAGCCCAGGACTTCAAGACCAG
CCTGGGCACCATGGTGAAACCTCATCTCTACCAAAAATGCAAAAATTGACCAGGCGCAGTGGCTCACGTCTGTAATCTCAGCACTTTGGGAGGCCAAAGC
GGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGCAAACTCCTGTCTCTGCTAAAAAAATACAAAAATTAGTTGGGCGTGGTGGC
AGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGGAAATTGCTTGAACCCAGGAGGCAGAGGTTACAGTGAGCTGAGATCACGCCACTGCACTC
CAGCCTGGGTGACAGAATGAGACTCAGTCTCAAAAAAAAAAAAAAAAAAAAAAAAATTAGCTGGATTCGTGATGGCACATGCCTGTAGTCCCAGCTACTT
GCGGGAGCTGAGGTGGGAGGATGGCTTGAGCCCAAGAGGTTGAAGTTGCAGTGAGCTGTTTGTACCACTGCACTCCAGCTTGAGTAACAAAGTGAGATCC
TATCTCAAAAAAAAATAAAAAATTAAATTAAAAATTAAATATTTTAAAATATTAAAATTGGCCAGGTGCGGTGGCTCACACCTGTAATCCCAGCACTTTG
GGAGGCTGAGGCTGGCAGATCACGAGGTCAGGAATTTGAGACCAGCCTGGCCAACATAGTGAAACCCTTACTAAGAATACAAAAATTAGCCGGGTGTGGT
GGCGCATACCTGTAATCCCAGCTACTCAGGAGTCTGAGGCAGGAGAATCGCTTGAACCCGGGAAGTGGAGGTTGCAGTGAGCTGAGATCGTGCCGTTGCA
CTCCAGCCTGGGCGACAGGACGAGACTCCGGCTAATTTTTGTATTCTTAGTAGAGAGGGGGTTTTGTCATGTTGGCCAGGCTGGTCTCGAACTCCTGACC
TCAGGTGATCYRCCCACSTCRGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTACTACGCCAAACCCAGATCCAGTATTTTAAAAGGATAATCAACAT
AAATGAGTTTGGGATAATTTTAGGAATGCAAGATAGTATTACATGAAAATCAGATGTATTCATTAGTGCAACAAAGGAATGATAAAATAATGTAATTATC
TTAGTGCGGAGAAAGCTGTAAAAAACATTCAAATCTATTCATGACCAAAATTCTTAGCAAAACAGGAATACAGAATTTCCTTAAGCTGTCAGAGTACCTA
CAGAAACTTTTCAGCCCACATCATACTTAGAAGTGAAATGGTAGCTGCGCACAGTGCCTCACACCTGTAATCCCAACACTTTTGGAGGCCGAGGTGGGCA
GATCACTTGAGCTCAGGAGCTCAGGAGTTTGAGACCAGCCTGGGCAAGACGGTGAAACCCCATATGTACAAAAAATAAAAAAAATTAGCCAGGTGGTGGT
GGTCCATGCCTGTAATTGCAGCTATGCAGGAGGCTGAGGTGGGAGGATCGCTTCAGCCCAAGAGGTTGAGGCTGCGGTCAGCCGAGATTGCACCACTGCA
CACCAGCCTGGGCAAGAGAGTGAGACCCTGTCTCAAAATAAATAAATAAGACTAAATAAATATGGAATTACAAGGAGCTCAGAATAGACAAGAGAGGCTA
AGATTTTATTTTTTATTTTCAGACGGAGTCTTGATCTGTCGCCCAGTTTGGAGTGCAGTGGTGCTATCTCAGCTCACTGCAATCTCCACCTCCGGGGTTC
AAGTGATTCTCCTACCTCAGCCTCCGGAGTAGCTGGGATTACAAGCGCCCAACACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGTTTCACT
ATGTTGGCCAAGTTGGTCTACAACTCTTGACCTCAGTGGTCCGCCGACCTCGGTCTCCCAGACTGCTGGGATTACAGGCTTGAGCCACCGCGCCTGGCCA
CTTTTTTTTTTTTATTTTTTGTTTTATCTGTATTTTTTTGAGACAGGGTCTCACTCTGTCGCCCAGACAGGAGTGCAGTGGTGCGATCATGGGTCACTGT
AGCCTCGAATTCTTGGGCCCAAGCAATCCTCCCATCTCAGCCTCCAGTTGGGACGACAGATGTGAGTCGCCTGGCTAACTTTTTGAAATATTATTTTATA
GGGAGTTGGGGGCTGGTGTCTCACTAGGTTGCCCAGTTTGGAATTTCTGGATTCAAGCGATCCTCCTGCCTCAGCCTCCCAAAACCTGGGAA


SNP Information

Context             (SEQ ID NO:16597):
GGACGAGACTCCGGCTAATTTTTGTATTCTTAGTAGAGAGGGGGTTTTGTCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCAC
S
TCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTACTACGCCAAACCCAGATCCAGTATTTTAAAAGGATAATCAACATAAATGAGTTTGGGATAAT
Celera SNP ID:            hCV28022355
SNP Position Genomic:     61618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:16598):
CTGAGCATAGAGTTGTCGAATACTCAATACTTACTAAGTTTAATTTCTTACTGGGCAAGTTTACCAATTATTATTGCTTATATTATGTGTTGGGTGACAG
R
CTTTTTCTTAAAGGACCATGTAGTGAATATTTCAGGCCGATGGACTGAGATGATCTGTCACAAGTACTCAACTCTGCCATAAACAAATGGGTGTGAACAT
Celera SNP ID:            hCV11341722
SNP Position Genomic:     35387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16599):
CCATGTAATCTCTACTAGTGAATTCACCTAGTTCCACGGATTTTGCTGAGCATAGAGTTGTCGAATACTCAATACTTACTAAGTTTAATTTCTTACTGGG
Y
AAGTTTACCAATTATTATTGCTTATATTATGTGTTGGGTGACAGGCTTTTTCTTAAAGGACCATGTAGTGAATATTTCAGGCCGATGGACTGAGATGATC
Celera SNP ID:            hCV11341723
SNP Position Genomic:     35342
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16600):
AAAGAGAATTACTTTTGACTGGAGGTGTCTGGCAAATTTTCACTGAGGATGTGACATTCGAGTTGAGGCTTGATGAATGGGAAAGATTTAAATGGGGAGA
R
AGGGAAGTTGAAGTAGAATGAGCAGAAGTATAGAGGCATAAAAGTGACATGTTTCAGCATGGTCATATGGTTATAAATGAAATTACAAAGGTAGGCTGAA
Celera SNP ID:            hCV11341725
SNP Position Genomic:     31962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16601):
TTCTCAGTGGCCTAACACAAAGGATATTGTTTGTGTTGTGTGTATGTGTTTTGCTTTGTTTTTGCTGTTCCTGTCTTTCAAAAAGGCTTTGCAAGCAAGA
Y
TGAAGTCTGGATGGAGGGACAAAAGTTTACCTTCTTGGGATACATCGCAACATATAGCTTTTAAGGTGGGGAGGGAGAGATAATTTATACCTCACACTTA
Celera SNP ID:            hCV11341726
SNP Position Genomic:     30984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16602):
GAGGCCGGGCATGGTAGCTCACACCTATAATCCCAGGAGTTTGGGAAGCCGAGGCAGGCGTATCGCCTGAAGTCAGGAGTTCAAGACCTGCCTGGCCAAC
R
TGGCGAAACCCCGCATTTACTAAAAATGCAATATATTAGCCGGGTGTGGTAGCGTGCACCTGTAATCCCAGCTACTTGGGAAGCTGAGGCAGGAGAATCG
Celera SNP ID:            hCV27490624
SNP Position Genomic:     43580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16603):
AAGATGCCTCATTTCACTAATAATAGTTATTATTTGTTGGGTATTATTATGTGCCAGGTACTACACTAAGTGATTTATTTTTTTAATCCTCATGATCAAC
Y
CATGAACGAGATAATATCCTTGTTTCACAGATGGAGAAACTAAAGATGAGACTGGCTAGGTAACTTACCTGAGGAAATAGCCTGTGAGGTTGCAAAGCCC
Celera SNP ID:            hCV27065090
SNP Position Genomic:     28569
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16604):
CTTCTATATGGCAGGTACTCAGAATTCTAAGATGCCTCATTTCACTAATAATAGTTATTATTTGTTGGGTATTATTATGTGCCAGGTACTACACTAAGTG
M
TTTATTTTTTTAATCCTCATGATCAACCCATGAACGAGATAATATCCTTGTTTCACAGATGGAGAAACTAAAGATGAGACTGGCTAGGTAACTTACCTGA
Celera SNP ID:            hCV27065091
SNP Position Genomic:     28541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16605):
GTCTCGCTCTGTTGCCCAGGCTGGAGTGTGCAGTGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCTATTCTTCTGCCTCAGCCTCC
M
GAATAGCTGGGACTACAGGCGCTTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAAACGGTGTTTCATCATATTAGCTAGGCTGGTCTCGAACT
Celera SNP ID:            hCV27065092
SNP Position Genomic:     28259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16606):
GCGCCCACCACCACACCTAGCTATTTTTTTGCATTTTTAGTAGAGACGGGTTTTCACCGTGTTAGCCAGGACCGTCTCGATCTGACCTCGTGATCTGCCC
R
CCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCGTGGCCTCCGACTAATTTTTTAAAATATTTTTTGGTAGAGATGAAGTTTTACCA
Celera SNP ID:            hCV27065093
SNP Position Genomic:     26851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16607):
CCTGATGGTAAGGAAACCAGCCCTAGAACTTCTGCATTACCTGAAAAACACCAGTTTTGCTTATCCAGCTATACGATATCTTCTGTGTATCCTTTCCTGC
Y
TGCGTGGACCCTCATGAACCAATGCTTTCTCCCCTCAAATAAGGCAACAGAAGAAATGAAAAAAAGTACTGTTGAGGCCGGGCATGGTAGCTCACACCTA
Celera SNP ID:            hCV1463656
SNP Position Genomic:     43406
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,7)   total(C,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16608):
GGGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAAAAAACCAAAACAAAACAAACAAAAAAAATTTATAATAGGCCAGGC
R
CGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGAGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCC
Celera SNP ID:            hCV27065094
SNP Position Genomic:     25043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16609):
CAGCACTACAACATCTCCCCCCAGGATTTGGAGACTGTATTTCCCCATGGCCTTCCTCCTCGCTTTGTGATGCAGGTGCTCAAGACAGGGAATGGAATTG
R
AGGGAGCCCAGAATACAAGCTGCTGCTAGCAAAGGGGTGGGGCTAAATGAGAAGAAAATTTAAAAAGATGAAATTTAATCTGAAAAACAGAAATTCATGT
Celera SNP ID:            hCV1463657
SNP Position Genomic:     39545
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,12)      total(G,12|A,2) ;SC_12_AA(A,5|G,18)   total(G,18|A,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:16610):
CACAGTGGGGCAGGTCAAATACTATTGGAGTGACATTGCACTCTAGAAAAGGAGCCCTGAAATCCCACAAGTGAAAAGGCAGGCAGGCCAGTAGAGACCA
Y
CCCAGTCTTATTCACCACTATAGACTCTGTGTAGTGTGGGCGTGTGGAAGCATGTCATATGCTTCTTGAATGACTGAGTTTAGGAGTGCTTTGGCGTCTT
Celera SNP ID:            hCV27065095
SNP Position Genomic:     22488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16611):
AAAAAAAAAAGAAAGAAAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATATAGATATAGATGAAGATATATATATATACCATTCACCT
M
TTTTCACAAACACAAAATGAAGTAGAATAAATGAATCAAGCCACTGAAGTGTCTTTTCAGCTTTCTTTGTAATTGCAGTCCTTTTATCTGCCAATTCCTC
Celera SNP ID:            hCV1463658
SNP Position Genomic:     36690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16612):
ACGGAAGCTGATTACACGTTCTGACCGTCATTTCTCATAGTGTCTATAACATAGGCAAAATAATAGCTCCAGTGTCCACAGGCACGCCTATGGAAAGAAG
K
GCATCTGGACCATGTCACACACTCCTTCCTCTCCAGTACCCAGCCTGCTTCCTAGTCCACAGCTCTTCCAGTAGTGGTTGTGCCGGGGAGCATTGAGAAG
Celera SNP ID:            hCV27065096
SNP Position Genomic:     22277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16613):
GAAGAATTTTAAGCAAGGCTTCAGTGGAGAAAATGTTTAAGTCTGGATGCTGGTAGATCATTTATTTTAATTTGGGTTCAAGATGATAGTGTCCTAGAAC
R
GAAGCTGATTACACGTTCTGACCGTCATTTCTCATAGTGTCTATAACATAGGCAAAATAATAGCTCCAGTGTCCACAGGCACGCCTATGGAAAGAAGTGC
Celera SNP ID:            hCV27065097
SNP Position Genomic:     22179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16614):
AAGGCTCAGAACTGAGCCAGAAAGACTTGGTCATTTTCAGCTGATTATTTAATTACAGATTAGATTTCCTAGAAAAGGAGCCCTTCCTCCTATATGGCTC
Y
CCCTGCATGTGCCCCCTTCCCTCAGGCCTATATATTAATACATAAAATAACCCATTATTATAAAATGAAACGAAAGCAAGGATCAGCAGAGGGATGGATT
Celera SNP ID:            hCV15910596
SNP Position Genomic:     28965
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16615):
ATACTGAAGAATTTTAAGCAAGGCTTCAGTGGAGAAAATGTTTAAGTCTGGATGCTGGTAGATCATTTATTTTAATTTGGGTTCAAGATGATAGTGTCCT
R
GAACGGAAGCTGATTACACGTTCTGACCGTCATTTCTCATAGTGTCTATAACATAGGCAAAATAATAGCTCCAGTGTCCACAGGCACGCCTATGGAAAGA
Celera SNP ID:            hCV27065098
SNP Position Genomic:     22174
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16616):
GCCAAAAAACTGATTCTGTACCTGGTTGATCATGCCTGTAAAAAAAAAAAAATTAAAAATTAAAAAAATTGATTCTGCCTATAAAAAAAAAAAAAAAAAA
A
GAAAATTAGAAAACTTGGGCCAGGCCCCGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCATGAGGTCAGGAGATCGAGAT
Celera SNP ID:            hCV27065099
SNP Position Genomic:     20073
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,10)   total(A,5|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16617):
AGAGAGAGCTCCATGCTGGTTTGGAGGAGTAGACACAGAAAAGGAAGTAATGCATACAAAAGAAGAGTAGCTTGTTGGGGTGAGGGTCTAGAAGTAAGAT
Y
TCTTGGGAGATGATAATTACCTCAGAACGTAATTTGGATATGGTAGCCTCTGACTACACGATATTCTGGGGAACACAGTGCAGCAGGAGGAAACTGCCAC
Celera SNP ID:            hCV25922352
SNP Position Genomic:     55932
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,2)   total(C,28|T,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16618):
CTACAATCCACTGTCTCTCCCAATAGGGCATAACACGGGTGAGGAACGCCACAGATGCAGTTGGAATTGTGCTGAAAGAGCTAAAGAGGCAAAGTTCTTT
S
GGTATGTTTCACCTCCTAGTGGCCGTGGATGGAATCAATGCTCTTTGGGGAAGAACCACTCTGAAAAGAGAAGATAAAAGCCCGGTAGGAAAACTGGGTG
Celera SNP ID:            hCV9632088
SNP Position Genomic:     47183
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16619):
GGCGGGAGGATCACTTAAGGTCAAAATTTTGAGAACAGCCTAGCCAACATGGCGAAACCCTGTATCTACTAAAAATACAAAAATAAGCTGGCGTGGTGGC
R
GGCGCCTGTAGTCCCAGGTACTTGGGAGGCTGAGGCAGGAGAACTGTTTGAACTCGGGAAGTGGATGTTGCAGTGAGCCGAGATCATGCCACTGCACTCC
Celera SNP ID:            hCV1582718
SNP Position Genomic:     22751
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16620):
GAGACTGTCCGGGGCAATATAGCAAGACCCTACCCTATGTCAAAAAAAAAAGTGTAACAAAAATGTCATCACATTACTGTAGAAATAGCACCACCTTGTG
R
CCCTTGAATAGTTTGTTTTCCACTCTGCTTTCTCTCCAGCTAAAGAGGCATGGTGCTTTCTCTCCGGTAGATAAAATTGAGTAGCGTTTAAGTAGTACTA
Celera SNP ID:            hCV11341736
SNP Position Genomic:     30739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16621):
CTATAATAACAAGCAGCCAGTCTTTAGGGAGCATGGTGGGGGATGGGAGCCCTGGTTGTAAAGCTCCCATTGGTTGCATTACAGCGTTGACCTCTTGCAA
R
TCGGTCAGCATGCACCATCTACCATACTTTTTTTAAAATTACATATACTGGGGAATTCCAAGGAGAGAAAGTGGGTGAAATATATCCTTTTTCTAGTAGT
Celera SNP ID:            hCV29332648
SNP Position Genomic:     15032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16622):
GCCCAGGAATTTGAGACTGTCCGGGGCAATATAGCAAGACCCTACCCTATGTCAAAAAAAAAAGTGTAACAAAAATGTCATCACATTACTGTAGAAATAG
S
ACCACCTTGTGACCCTTGAATAGTTTGTTTTCCACTCTGCTTTCTCTCCAGCTAAAGAGGCATGGTGCTTTCTCTCCGGTAGATAAAATTGAGTAGCGTT
Celera SNP ID:            hCV11341737
SNP Position Genomic:     30727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16623):
GCTCTGGACCTGCATTAAAATGGGTTTCACTGTGAATGCGTGACAATAAGATATTCCCTTGTTCCTAAAACTTTATATCAGTTTATTGGATGTGGTTTTT
M
ACATTTAAGATAATTATGGCTCTTTTCCTAAAAAATAAAATATCTTTCTAAAGTGTTGTGTTAGATTAATAATATGGAAGGAGTCTTTAGATTGGCCAAA
Celera SNP ID:            hCV27065065
SNP Position Genomic:     56378
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:16624):
ATCTGCTTTATGCTGGACCCAGTAAGATGAGGAAGTCGGGCAGTACACAGGAAGAGGAGCCAGGCCCTTGTACCTATGGGATTGGACAGGACTGCAGTTG
K
CTCTGGACCTGCATTAAAATGGGTTTCACTGTGAATGCGTGACAATAAGATATTCCCTTGTTCCTAAAACTTTATATCAGTTTATTGGATGTGGTTTTTC
Celera SNP ID:            hCV27065066
SNP Position Genomic:     56278
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:16625):
TTTTCTTCCCCAGGAAGGATTTGATGCCCTGGATCCCTTTATTCCCATCCTGGTTTCCAACTATAACCCAAAGGAATTTGAAAGTTGTATTCAGTATTAT
Y
TGGAAAACAATTGGCTTCAACATGAGAAAGGTCCATCATTTAGTTTTTTCCTATCAGGGCTTTGTGATCACAGTAGAATCCCACTCAGTCAGAGCCTTGA
Celera SNP ID:            hCV27065067
SNP Position Genomic:     54934
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16626):
GGCGACAGGACGAGACTCCGGCTAATTTTTGTATTCTTAGTAGAGAGGGGGTTTTGTCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATC
Y
ACCCACGTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTACTACGCCAAACCCAGATCCAGTATTTTAAAAGGATAATCAACATAAATGAGTTTG
Celera SNP ID:            hCV27950427
SNP Position Genomic:     61611
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:16627):
ACACCCAGCACTGAATGTTGTCTTTTTCTTTTCTTTCCTTTTTTTTTTTAGAGGCATGGTCTTAACTATGTTGTTGCCTAGGGTGGTCTTGAACTGCTAG
S
CTCAGGCAATCCTCCCACCTCGGCCTCCTAAAGTGCTGGGATTACTGGCGTGAGCCACCATATCCAGCTCCTATCATTCTTTGACCACTTCTTTATTTTC
Celera SNP ID:            hCV27065068
SNP Position Genomic:     52308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16628):
GCGCGTTGAGTCGTTTCCTGCCGGATGACCCGACCCTTTTTTGCAGTCTCAGGACGGGCGCTTTGGAGCCGGCCCCAGGCAGCGTGTGTCGGTCGCCTAG
K
CTGGAGAACTAGTCCTCGACTCACGGTGAGGGAATGGACCGACACGGGTATTGTACCGCTGAGGGAAAGGAGCGGGACTCCGGACCTCCAGGAGGTAGGG
Celera SNP ID:            hCV1463664
SNP Position Genomic:     7193
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,23)   caucasian(G,11|T,13)   total(G,18|T,36)
SNP Type:                 UTR 5;INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:16629):
CACACCCAGCACTGAATGTTGTCTTTTTCTTTTCTTTCCTTTTTTTTTTTAGAGGCATGGTCTTAACTATGTTGTTGCCTAGGGTGGTCTTGAACTGCTA
S
CCTCAGGCAATCCTCCCACCTCGGCCTCCTAAAGTGCTGGGATTACTGGCGTGAGCCACCATATCCAGCTCCTATCATTCTTTGACCACTTCTTTATTTT
Celera SNP ID:            hCV27065069
SNP Position Genomic:     52307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16630):
TGGATTAATCATTTTTGGATGTGGGCCGGCTATACCAAAATTGGTTGAAATTATGGGAAACTGGGCATGTTTTTCAGTGTAAATAGTGTCATCTCTTTGA
Y
AGTATAGTTCCTGTTTTAGTCCTGTCTTGTATCTATCATTCTGATTGGTACAATTAACTGCAAAGGTCCCCTTAGGGGACCAATCAGTGACAATTCCATA
Celera SNP ID:            hCV1463665
SNP Position Genomic:     11577
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16631):
GCGAGACTCTGTCAAAAAAAAAAAAAAATTGTTGTCAATTGTTTCGGGAGAACATCTAGGAAAGGCACGTGATGATCTCTTCTCTCTTTCTGTCCGATAT
R
CAGATTGCCCCCGAGGAATTAGCACTTGTTCACAACTTGAGGAAAATGATGAAAAATGATTGGGTAAGTGCATATGATACCTCACACATTTCAGAAAGAA
Celera SNP ID:            hCV16182865
SNP Position Genomic:     49253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16632):
CCCGACTCCGGCCATGTAGCGCGCACGTCAGCCCGCACGCGTACGAGTGTCTACGGGCTCGTCGCTGGCTGCTCCCACCAACCACCACCTTCGGCCGTCC
Y
GCGAGCCAGCCATCCCGTACGCGCTCACCCACGGGAACCTCCTCGCCCAGTTCTCCACTCCCCCTCAGACCCTGTCAAGCCGGCTCCAGCGCAGGCCCTC
Celera SNP ID:            hCV697454
SNP Position Genomic:     6594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16633):
CGCGCGTGCGCCTCCCACAGTCCCCACCGCGGGACTGTTCCATTCCTGGCGGCTGCAGGGGCAGGAGAGGAAGGGACCGGCAAAGCGAGTCTGGCTTGCC
R
TTTGACTGGAATTGCCAGGGTGGCCGGCCGAGTCCCATGACAACCTACCTCCCTGGGTTCGTCGCCGCGGCGCTGCGGCTCGCCTCCTCCTCCATGGGAC
Celera SNP ID:            hCV697455
SNP Position Genomic:     6925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16634):
CTCCCAGGCCCAGGTGATCCTCCCACTTTAGCCTCCCAAGTAGCTAGGACCACAGGCTCACACCACCACACCTGGCTAATTTTTTAAATTTTTGGTAGAG
R
ACAAGGTCTCATTATGTTGCCCAGGCTGGTCTCAAACTCCTGGAATTAAGCAGTCCTCCCGTCTCAGCCTCCCGAAGTGTGAGAATTACAGGTGTGAGCC
Celera SNP ID:            hCV27065100
SNP Position Genomic:     17844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16635):
GGCTGAGGCAGGAGGATCATGTGGGCCCAGGAATTTGAGACTGTCCGGGGCAATATAGCAAGACCCTACCCTATGTCAAAAAAAAAAGTGTAACAAAAAT
K
TCATCACATTACTGTAGAAATAGCACCACCTTGTGACCCTTGAATAGTTTGTTTTCCACTCTGCTTTCTCTCCAGCTAAAGAGGCATGGTGCTTTCTCTC
Celera SNP ID:            hCV11341740
SNP Position Genomic:     30703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16636):
GGGTCCTCAGGCGATATACATCCCCAGCTTACGAAGATGACGGGATTAAGAGATTAAAGTAAAGACAGGCATAGGAAATTATAAGAGTATTGATTGGGGA
R
GTGATAAATGTCCATGAAATCTTCACAATTTATGTTCAGAGATTACAGTAAAGACAGGTGTAAGAAATTATAAAAGTATTAATTTAGGGAACTAACAAAT
Celera SNP ID:            hCV11259458
SNP Position Genomic:     16313
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16637):
CCAGCCTCAACACCATCCGTAGGGTACCTGAAGTCCGGTGGCGACAAAGGAATGAGAAGAGACAGGTTAAGAGTTCATAAAGGTGGGAGCCAGGGGGCCA
K
TTGCAAAATGGAGGCTGCAAAAGGCCCAGAGTTCTGGTCTCTACACTATTTATTGAGTATAATCACTTAGATCTAAGAAGCAGATGTTCAGGGCAAAACT
Celera SNP ID:            hCV27065101
SNP Position Genomic:     17129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16638):
GCTACTTGGGAGGCTGAGGCAGGAGGATCATGTGGGCCCAGGAATTTGAGACTGTCCGGGGCAATATAGCAAGACCCTACCCTATGTCAAAAAAAAAAGT
R
TAACAAAAATGTCATCACATTACTGTAGAAATAGCACCACCTTGTGACCCTTGAATAGTTTGTTTTCCACTCTGCTTTCTCTCCAGCTAAAGAGGCATGG
Celera SNP ID:            hCV11341741
SNP Position Genomic:     30692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16639):
CAATTTATGTTCAGAGATTACAGTAAAGACAGGTGTAAGAAATTATAAAAGTATTAATTTAGGGAACTAACAAATGTCCATGAAATCTTCACAATTTATG
Y
TCTTCTGCCATGGCTTCAGCCGGTCCCTCTGTTTGGGGTCCCTGACTTCCTGCAACACTCTGGACTCTCCCTTTTTATTAGTACTTGGTAGGGGTGGTTC
Celera SNP ID:            hCV27065102
SNP Position Genomic:     16439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16640):
TTCAAAAAGTACCTGTAGTTTCAGCTACTTGGGAGGCTGAGGCAGGAGGATCATGTGGGCCCAGGAATTTGAGACTGTCCGGGGCAATATAGCAAGACCC
Y
ACCCTATGTCAAAAAAAAAAGTGTAACAAAAATGTCATCACATTACTGTAGAAATAGCACCACCTTGTGACCCTTGAATAGTTTGTTTTCCACTCTGCTT
Celera SNP ID:            hCV11341742
SNP Position Genomic:     30669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16641):
TCACATTATTCAAACACAAATGCTTTACAAACAATTTGTACAGGTAATGCAATCATCACAGGGTCCTCAGGCGATATACATCCCCAGCTTACGAAGATGA
Y
GGGATTAAGAGATTAAAGTAAAGACAGGCATAGGAAATTATAAGAGTATTGATTGGGGAAGTGATAAATGTCCATGAAATCTTCACAATTTATGTTCAGA
Celera SNP ID:            hCV27065103
SNP Position Genomic:     16253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16642):
GCCCAGATTTCACATTATTCAAACACAAATGCTTTACAAACAATTTGTACAGGTAATGCAATCATCACAGGGTCCTCAGGCGATATACATCCCCAGCTTA
Y
GAAGATGACGGGATTAAGAGATTAAAGTAAAGACAGGCATAGGAAATTATAAGAGTATTGATTGGGGAAGTGATAAATGTCCATGAAATCTTCACAATTT
Celera SNP ID:            hCV27065104
SNP Position Genomic:     16244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16643):
AAAAAAAAAAAAAAAAAGATTCCATTTTGCTAGCTTTTAATTTGCTTCAAAAAGTACCTGTAGTTTCAGCTACTTGGGAGGCTGAGGCAGGAGGATCATG
Y
GGGCCCAGGAATTTGAGACTGTCCGGGGCAATATAGCAAGACCCTACCCTATGTCAAAAAAAAAAGTGTAACAAAAATGTCATCACATTACTGTAGAAAT
Celera SNP ID:            hCV11341744
SNP Position Genomic:     30624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16644):
GGTTATCTCCCTTGTTCCCCGAAAATCGTTGTTATCCTGTTCTTTTCAAGGTGCCCAGATTTCACATTATTCAAACACAAATGCTTTACAAACAATTTGT
R
CAGGTAATGCAATCATCACAGGGTCCTCAGGCGATATACATCCCCAGCTTACGAAGATGACGGGATTAAGAGATTAAAGTAAAGACAGGCATAGGAAATT
Celera SNP ID:            hCV27065105
SNP Position Genomic:     16192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16645):
ATATATCCTTTTTCTAGTAGTTTTTTAACTATTTCATGGAACGCCCCCAAGTTTTTCTGAGGGAGCGGCCACTGTTCGACCCAGACAGGATGCTGCAGGG
Y
GAGCCTGAATTGCTTCTTCACCATAGTGAACTGCAGGTTGGGCAGTAATGGGTGCGGCAAGCTGAGTTTCAGGCTCCCTCCCCCTGCACTCACTCAGCTG
Celera SNP ID:            hCV27065106
SNP Position Genomic:     15212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16646):
TAAGGTGGGCTGAATCCAATTAATGTCTCCTAACAATTTTTGAAAATCATTTAAGGTTTTTAAAGAATCTTTTCTGATTTGAACCTTTTGAGGCTTAATG
R
CTCTATCTTGTACTTGTATCCCCAAATATTGAAAAGGAAGAGTTGTTTGAATTTTGTCAGGTGTTATAAGCAATCCAGCATTTGTAATTGCCTTTTGCAA
Celera SNP ID:            hCV27065107
SNP Position Genomic:     14550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16647):
TGCCCTTGACGCACTTACTCATGGATGGTACTTCAGCCTCGTTAGACAGCCTGGTGATGGAGGATGAAGAAACCATGTGCTTCTCATTCAGTTCTGGACT
Y
AGTTTCCCTTGTCTTCAGCAAGTTATTTTTGTTAGTTCCTTATCAAAAAGTGTACATAAAAATTAGGCAACTCCAAACATGCCTCCAGGGTTGGTGTGTG
Celera SNP ID:            hCV27065108
SNP Position Genomic:     7561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16648):
TATGCGATGATGTTTGTTTGCCCTTGACGCACTTACTCATGGATGGTACTTCAGCCTCGTTAGACAGCCTGGTGATGGAGGATGAAGAAACCATGTGCTT
Y
TCATTCAGTTCTGGACTCAGTTTCCCTTGTCTTCAGCAAGTTATTTTTGTTAGTTCCTTATCAAAAAGTGTACATAAAAATTAGGCAACTCCAAACATGC
Celera SNP ID:            hCV27065109
SNP Position Genomic:     7543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16649):
TCTGTCTGTCTGGTGCTTTGTTCCTTAACTAACATGTTTCCTGATCCTTTTTCTTCCCCAGGAAGGATTTGATGCCCTGGATCCCTTTATTCCCATCCTG
R
TTTCCAACTATAACCCAAAGGAATTTGAAAGTTGTATTCAGTATTATTTGGAAAACAATTGGCTTCAACATGAGAAAGGTCCATCATTTAGTTTTTTCCT
Celera SNP ID:            hCV25645646
SNP Position Genomic:     54886
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16650):
CCTAAAATATTAACTTGATCATCATTGCTTTATCCGTCTCCGTCTTTCTCCAGAGTTTCTTTTCTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCA
M
CCAGGCTTGAGTGCAATGGCGCAATTTCGGCTCACTGCAACCTCCGCCTTCCGGGTTCAAGTGATTCTCCTGTCTCGGCCTCCTAAGTAGCTGGGATTAC
Celera SNP ID:            hCV27065071
SNP Position Genomic:     50171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16651):
AAGTAACAAGCCTTGTATTCTCAGTGGCCTAACACAAAGGATATTGTTTGTGTTGTGTGTATGTGTTTTGCTTTGTTTTTGCTGTTCCTGTCTTTCAAAA
M
GGCTTTGCAAGCAAGACTGAAGTCTGGATGGAGGGACAAAAGTTTACCTTCTTGGGATACATCGCAACATATAGCTTTTAAGGTGGGGAGGGAGAGATAA
Celera SNP ID:            hCV2346096
SNP Position Genomic:     30967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16652):
CCTGGGTAACAGAGCGAGATATGGTCTCAAAAAAAAGATAAAAGAGGTCAGGCGTGTGGCTCAGACATGTAATTCCAGCATTTTGGGAGGCCGAGGTGGG
Y
AGATCACCTGAGGTCAGGAATTCTAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGACACACGC
Celera SNP ID:            hCV27065072
SNP Position Genomic:     46535
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16653):
TCAAAACTACAAATGAGCGCTTCCTGAACCAGGTGACTAGACTCCCAGAAGTTGAGTGCTAGGTAGTCCTTACATGGATTCTTTGTGCCCTGAGTACCAA
Y
AGACTATGGAGAACTGATACTGGAGTTGGAATAACTGTATCATTTTTAATTTCTTTCATACGTTTTGCTCACAGTGGACTCATAACTTGAAACTCATTTA
Celera SNP ID:            hCV27065073
SNP Position Genomic:     45708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16654):
AGCAGAGTGGCCGCGGCAGCTCCTCCAGAGGGAGGGAGCTAAGGGCGCCTAGCGACACCCCCAACCTCCCACTCCTCCCTCCTCGCGTTCTTCCCCACGG
Y
CCCCCGCTTCGCCCGACTCCGGCCATGTAGCGCGCACGTCAGCCCGCACGCGTACGAGTGTCTACGGGCTCGTCGCTGGCTGCTCCCACCAACCACCACC
Celera SNP ID:            hCV11341786
SNP Position Genomic:     6482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16655):
GAAGAATTTCAAAACTACAAATGAGCGCTTCCTGAACCAGGTGACTAGACTCCCAGAAGTTGAGTGCTAGGTAGTCCTTACATGGATTCTTTGTGCCCTG
R
GTACCAATAGACTATGGAGAACTGATACTGGAGTTGGAATAACTGTATCATTTTTAATTTCTTTCATACGTTTTGCTCACAGTGGACTCATAACTTGAAA
Celera SNP ID:            hCV27065074
SNP Position Genomic:     45700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16656):
TAAGCCGACTGGCGGAAATGCGAGAGAGGAGAAGGGAAAGGTGGAGGGCTAAAGGGGCAAACTGAGAGGAGGCGGATCCCGCAACCGACACTGGGATCGT
Y
TCCCCTCGCAAAGCGAACCCAAAATGGCGGCGGCAGCGGCGGCAGCAGAGTGGCCGCGGCAGCTCCTCCAGAGGGAGGGAGCTAAGGGCGCCTAGCGACA
Celera SNP ID:            hCV15910573
SNP Position Genomic:     6338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16657):
CCAGAAAGCAGAAGTGATATTTAATACACTTGGTATGTTTTATATATTGATTCTAATGATAATGTTTAGTCTAAGATGGACCTGACAAGGCCAGGCATAG
Y
GGTTCAACAGCACTTTGAGAGGCTGAGGCAGGATGATTGCCTGAGCCTAGGAGTTCAAGGTTACAGTGAACTGTGATCACATCCTGCCTTCTAGCCTGGG
Celera SNP ID:            hCV27065075
SNP Position Genomic:     45247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16658):
GTAAAACTCCATTTTAAAAATAATATATATATATGTATGTGTATATATATATGTATGTATGTGTATATATATATGTATGTATGTATATATATATATATAT
A
CACATAGACATACATATATACACACACATAGATAAGACAAAAAAGAAAGTCTTGGTCACTTTGTCACCATTATACCTGTTTGCACTCTTATTTCCTAGGC
Celera SNP ID:            hCV27065076
SNP Position Genomic:     39319
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16659):
AGTAAAACTCCATTTTAAAAATAATATATATATATGTATGTGTATATATATATGTATGTATGTGTATATATATATGTATGTATGTATATATATATATATA
T
ACACATAGACATACATATATACACACACATAGATAAGACAAAAAAGAAAGTCTTGGTCACTTTGTCACCATTATACCTGTTTGCACTCTTATTTCCTAGG
Celera SNP ID:            hCV27065077
SNP Position Genomic:     39318
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16660):
TGGGTGTGGTGGCGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAAGTTGCAGTGAGCCAAGATCG
Y
GCCACTGCACTCCAGGCTGGGCAAGAGAGCAAGACTCTGTCTTAAAAAGTATATATATATGGCTGAGTGAGGTGGCTCACGCCTGTAATCCCAGCATTTT
Celera SNP ID:            hCV27065078
SNP Position Genomic:     36243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16661):
TTGGCTGGGCATAGTGGCTCACACCCATAATCCCAGCACTTTGGGAGGCTAAGGCGGGCAGATCACCTGAGGTCAGGAGTTCCAGACCAGCATGACCAAC
R
TGGTGAAACCCAGTCTCCACTAAAAATACAAAAATTAGTCAGGCGTGATGGCGGGCGCCTGTAATCCCAGCTACTGAGGCAGGAGAACCACTTGAACCTG
Celera SNP ID:            hCV27065079
SNP Position Genomic:     32486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16662):
CACACCTGTAATCTACACTTTGGGAGGGCAAGGTGGGAAGACCACTTGATGTCGGGAGTTTGAGACCAGGCTAGGCAATATAGTGAGACCCCATCTCTAT
Y
GAAAAAAGCAAAAAAAAAAAAATACTATTTAGAATAGCTTATTAAAGGAGTACAGTGAAGAGTGTAAGACTAACTGTAGCATGTTAAGTTGGGATGCACA
Celera SNP ID:            hCV697424
SNP Position Genomic:     55663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16663):
GTTTTGTTTTTGCCATCTGTTAACAGTCCTGAGTACCCATAGAGCCTTTTACTATTTATCAGCATTCTAGAGTCGTCAGTATGGATTGTCAAAACTTGCA
K
TTGTCTCTTTTTTGTTCAGTGTTGTGTGCATCCACATTTTCTTTCTTTTTTAAACAACCCTGCTTATGTAACATCCACATTTTCTGACTTACCTTTCAAA
Celera SNP ID:            hCV15970206
SNP Position Genomic:     45042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16664):
CCCAGAAAGCCCAGGATTCAATCGCTGAGAGAGTGCTTAGGCCCGAATGCCGGCCCAAATCGTTCTACTCACCGTGTCGGAGGCCGAGAGCGATGAGAGT
R
CAGGGAAGTGAGGAAGAGGGGGTGGCCGCCAGGCTCCTCCGCTTCCCTGGGTCCACCGCGGATCCCTCCCGCTTGTCAGGAGGCGGCCAGCGGGTAAGCC
Celera SNP ID:            hCV25990810
SNP Position Genomic:     6143
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,32)   total(A,67|G,1)
SNP Type:                 UTR 5;INTRON;SILENT MUTATION


Context             (SEQ ID NO:16665):
GGCACGGTGGCATGCGCCTGTAATCCAAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTCAACTTGGGAGGCGGATGTTGCAGTGAGCCAAAATTGCA
S
CACTGCACTCCAGCCTGGGCAGCAGAGCAAGACTCCGTCTCAAAATAAATAAATAAATAAATAAATAAATAAATAATAAATGTATACTGTACTGTTTTAC
Celera SNP ID:            hCV11341711
SNP Position Genomic:     56831
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,18)   total(G,2|C,18) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:16666):
ATAATAACAAGCAGCCAGTCTTTAGGGAGCATGGTGGGGGATGGGAGCCCTGGTTGTAAAGCTCCCATTGGTTGCATTACAGCGTTGACCTCTTGCAAGT
Y
GGTCAGCATGCACCATCTACCATACTTTTTTTAAAATTACATATACTGGGGAATTCCAAGGAGAGAAAGTGGGTGAAATATATCCTTTTTCTAGTAGTTT
Celera SNP ID:            hCV697460
SNP Position Genomic:     15034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16667):
TAAATAGGCAACAGTAAGTTGTTCCCATTTTGTGGGTAGCAAAGTGAAATCCAGTTGATTCATTGACTTTTCAAGGTACAGCCTCCAATCCCTCGCAAGC
R
CATTTCCAACTACATGATTTTCTCCAGACAATATCTTTTTAGGGAACCAGAAATGTATTGGAAAAATTCTTCTTTACCCTGGTGATTCTTAGATACCCTG
Celera SNP ID:            hCV697429
SNP Position Genomic:     45920
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16668):
GTGGAGAGAGAGCTCCATGCTGGTTTGGAGGAGTAGACACAGAAAAGGAAGTAATGCATACAAAAGAAGAGTAGCTTGTTGGGGTGAGGGTCTAGAAGTA
M
GATCTCTTGGGAGATGATAATTACCTCAGAACGTAATTTGGATATGGTAGCCTCTGACTACACGATATTCTGGGGAACACAGTGCAGCAGGAGGAAACTG
Celera SNP ID:            hCV25922337
SNP Position Genomic:     55928
SNP Source:               Applera
Population(Allele,Count): african american(A,22|C,4)   caucasian(A,2)   total(A,24|C,4)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16669):
ACGCCACAGATGCAGTTGGAATTGTGCTGAAAGAGCTAAAGAGGCAAAGTTCTTTGGGTATGTTTCACCTCCTAGTGGCCGTGGATGGAATCAATGCTCT
Y
TGGGGAAGAACCACTCTGAAAAGAGAAGATAAAAGCCCGGTAGGAAAACTGGGTGTCTCTATCTTGTTTCTCTGATTTCTGATTCCATCAGTATGGAGGC
Celera SNP ID:            hCV11341717
SNP Position Genomic:     47228
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,27)   caucasian(T,2)   total(C,3|T,29)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16670):
TCCGGACCTCCAGGAGGTAGGGAGTGAGGCCGGTAGACCGGCGCGCCTCCGGGGGGGATTCCTCCCGGGCGTTGAGTTGCCAACCTGGGACCCGAGGAAG
W
TCGGCGTGGTGGTGTGCTTTTTGTTGTTGTTAACCCTCCTCGGATTTCTCGAATTTCACACCACTGTCCATATGCGATGATGTTTGTTTGCCCTTGACGC
Celera SNP ID:            hCV27065110
SNP Position Genomic:     7372
SNP Source:               Applera
Population(Allele,Count): african american(A,11|T,21)   caucasian(T,32)   total(A,11|T,53)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): SC_12_AA(T,3|A,12)   total(A,12|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16671):
TTCCCTCAGGCCTATATATTAATACATAAAATAACCCATTATTATAAAATGAAACGAAAGCAAGGATCAGCAGAGGGATGGATTCTGGACTCAACTGATC
R
TATTACAAGGCTAAAATAAATTTCCTCTCTCGGCCGGGCACAGTAGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAG
Celera SNP ID:            hCV11341751
SNP Position Genomic:     29082
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16672):
CAGGGACACCCCTTCACCCCGCCTGGAGGGACTTCCCGGTAGGCTCAGGATCCCCCTCCCTGCTCTCCCCTCCCCCATCTTCACCACTGCTCTCCCAGAG
R
TCCAGGTCCGGGAGATGACAGTGGCTCCCAGAAAGCCCAGGATTCAATCGCTGAGAGAGTGCTTAGGCCCGAATGCCGGCCCAAATCGTTCTACTCACCG
Celera SNP ID:            hCV27065111
SNP Position Genomic:     6016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:16673):
GCCTGTCAGGGACACCCCTTCACCCCGCCTGGAGGGACTTCCCGGTAGGCTCAGGATCCCCCTCCCTGCTCTCCCCTCCCCCATCTTCACCACTGCTCTC
Y
CAGAGGTCCAGGTCCGGGAGATGACAGTGGCTCCCAGAAAGCCCAGGATTCAATCGCTGAGAGAGTGCTTAGGCCCGAATGCCGGCCCAAATCGTTCTAC
Celera SNP ID:            hCV27065112
SNP Position Genomic:     6010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:16674):
GCGACAGGACGAGACTCCGGCTAATTTTTGTATTCTTAGTAGAGAGGGGGTTTTGTCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCC
R
CCCACGTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTACTACGCCAAACCCAGATCCAGTATTTTAAAAGGATAATCAACATAAATGAGTTTGG
Celera SNP ID:            hCV28015527
SNP Position Genomic:     61612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:16675):
CGAGACTCCGGCTAATTTTTGTATTCTTAGTAGAGAGGGGGTTTTGTCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACGTC
R
GCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTACTACGCCAAACCCAGATCCAGTATTTTAAAAGGATAATCAACATAAATGAGTTTGGGATAATTTT
Celera SNP ID:            hCV27935746
SNP Position Genomic:     61621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:16676):
TGTTTGCACTCTTATTTCCTAGGCCAAGCATGGGGATCAGCACGAGGGTCAGCACTACAACATCTCCCCCCAGGATTTGGAGACTGTATTTCCCCATGGC
Y
TTCCTCCTCGCTTTGTGATGCAGGTGCTCAAGACAGGGAATGGAATTGGAGGGAGCCCAGAATACAAGCTGCTGCTAGCAAAGGGGTGGGGCTAAATGAG
Celera SNP ID:            hCV9632106
SNP Position Genomic:     39496
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:16677):
GGAGGGCAAGGTGGGAAGACCACTTGATGTCGGGAGTTTGAGACCAGGCTAGGCAATATAGTGAGACCCCATCTCTATTGAAAAAAGCAAAAAAAAAAAA
A
TACTATTTAGAATAGCTTATTAAAGGAGTACAGTGAAGAGTGTAAGACTAACTGTAGCATGTTAAGTTGGGATGCACAATAGACAGATTTCTAAGAGTTG
Celera SNP ID:            hCV1463641
SNP Position Genomic:     55685
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16678):
TTTAAGTAGTACTAGGGTGTGTTATTCAGATTGCTACCCTGAAGTAACAAGCCTTGTATTCTCAGTGGCCTAACACAAAGGATATTGTTTGTGTTGTGTG
Y
ATGTGTTTTGCTTTGTTTTTGCTGTTCCTGTCTTTCAAAAAGGCTTTGCAAGCAAGACTGAAGTCTGGATGGAGGGACAAAAGTTTACCTTCTTGGGATA
Celera SNP ID:            hCV27065080
SNP Position Genomic:     30926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16679):
TCTGCTTTCTCTCCAGCTAAAGAGGCATGGTGCTTTCTCTCCGGTAGATAAAATTGAGTAGCGTTTAAGTAGTACTAGGGTGTGTTATTCAGATTGCTAC
S
CTGAAGTAACAAGCCTTGTATTCTCAGTGGCCTAACACAAAGGATATTGTTTGTGTTGTGTGTATGTGTTTTGCTTTGTTTTTGCTGTTCCTGTCTTTCA
Celera SNP ID:            hCV27065081
SNP Position Genomic:     30863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16680):
CTCTGCTTTCTCTCCAGCTAAAGAGGCATGGTGCTTTCTCTCCGGTAGATAAAATTGAGTAGCGTTTAAGTAGTACTAGGGTGTGTTATTCAGATTGCTA
Y
CCTGAAGTAACAAGCCTTGTATTCTCAGTGGCCTAACACAAAGGATATTGTTTGTGTTGTGTGTATGTGTTTTGCTTTGTTTTTGCTGTTCCTGTCTTTC
Celera SNP ID:            hCV27065082
SNP Position Genomic:     30862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16681):
AAAACTGTCCAAAATACATACACACAATATGTGTGTGTGCGTGTGTATGTGTGTGTATTCACACAAGTAGCATCCGCCTCCTCAAGCATTGCCTTTTTTT
K
TGTGTGTGTAGACATGGTCTTACTCTGTCACCCATACTGTGACAGTATGTGTAGTGGAGCAATCGCAGCTCACTGCAATCTCAACCTCCTGGTCTCAAGC
Celera SNP ID:            hCV1463644
SNP Position Genomic:     54327
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,8)      total(G,8|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16682):
CCTTGAATAGTTTGTTTTCCACTCTGCTTTCTCTCCAGCTAAAGAGGCATGGTGCTTTCTCTCCGGTAGATAAAATTGAGTAGCGTTTAAGTAGTACTAG
K
GTGTGTTATTCAGATTGCTACCCTGAAGTAACAAGCCTTGTATTCTCAGTGGCCTAACACAAAGGATATTGTTTGTGTTGTGTGTATGTGTTTTGCTTTG
Celera SNP ID:            hCV27065083
SNP Position Genomic:     30841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16683):
GTCACTACTAAAAATACAAAATTAGCCAGGCGCGGTGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGCAGAATCGCTTGAACCTGGGAG
R
CAGAGGTTGCAGTGAGCCAAGATCACACCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGATTCC
Celera SNP ID:            hCV27065084
SNP Position Genomic:     30446
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16684):
ACCATCTGGCGAAGTCCCACAGTAGGCCGTGAGCAAGCTGAGGAGCAAGTAAGCCAGTCCAAGTCCCAAAACTTCAAAAGTAGGGAAGCTGACAGTGCAG
Y
CTTCAGTCTGTGGCTAAAGGCCTGAGAGCCCCTGGCAAATCACTGTTGTAAGTCCAAGGGTCCAAAAGCTGAAGAACTTGGAGTCCAGTGTTCGAGGGCG
Celera SNP ID:            hCV27065085
SNP Position Genomic:     29708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16685):
TTGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCATCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGTGCATGACTGTAATCCCAGTTAC
K
CGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCCATATATATATATTCATATATATGTATATATACAC
Celera SNP ID:            hCV1463648
SNP Position Genomic:     47872
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,9)   total(G,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16686):
AAAAAAAAAATTTCCTCTTTCTTAATAACAGACAACAAAGACCTGAGGCTAGACTGTAGAGTGCTGTTGGTGAGAGAAAGTTTTGTTTTTTTTTTTTTTA
Y
TAGTTTGGTTCAGGGTGACTGTATTAGTCAGGGTTCTCTACAGGGACAGCACTAATAGGATAGAAGTATATATGAAGGAGAGTTTGTTAAGGAGTATTGA
Celera SNP ID:            hCV27065086
SNP Position Genomic:     29502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16687):
GGAGGCTGAGGCAAGAGAATCCCTTAAACCTGGGAGGTGGATGTTGCAGCGAGCTGAGATCATGCCACTGCACTTCAGCCTGGGTTACAGAGAAAGAAGC
W
GTCTCAAAAAAAAAAAAAAAGAAAGAAAAGAAAGCATTCACTTCTACATTGAGGTCTCTTACAGAACCTGAACAATAGATTAAAATGAACTCCTGTTAAC
Celera SNP ID:            hCV1463649
SNP Position Genomic:     46755
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16688):
GATGAGACTGGCTAGGTAACTTACCTGAGGAAATAGCCTGTGAGGTTGCAAAGCCCACACGAGATGCCAGGTCTGTCTGACTTCAAAGCCTGTGGCCTAA
M
CACTGTGCTCTATTGCATTTTATGGTCCATGTTCTCCAGAAGCTTACAGTCCAGTAGAATCATGAAAAAATGACTATTTCAGTATGGTGCTCTTACAGCA
Celera SNP ID:            hCV27065087
SNP Position Genomic:     28714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16689):
CATGAACGAGATAATATCCTTGTTTCACAGATGGAGAAACTAAAGATGAGACTGGCTAGGTAACTTACCTGAGGAAATAGCCTGTGAGGTTGCAAAGCCC
R
CACGAGATGCCAGGTCTGTCTGACTTCAAAGCCTGTGGCCTAACCACTGTGCTCTATTGCATTTTATGGTCCATGTTCTCCAGAAGCTTACAGTCCAGTA
Celera SNP ID:            hCV27065088
SNP Position Genomic:     28670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16690):
CCTCATTTCACTAATAATAGTTATTATTTGTTGGGTATTATTATGTGCCAGGTACTACACTAAGTGATTTATTTTTTTAATCCTCATGATCAACCCATGA
R
CGAGATAATATCCTTGTTTCACAGATGGAGAAACTAAAGATGAGACTGGCTAGGTAACTTACCTGAGGAAATAGCCTGTGAGGTTGCAAAGCCCACACGA
Celera SNP ID:            hCV27065089
SNP Position Genomic:     28575
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16691):
CAGTGCAGCAGGAGGAAACTGCCACTTACCTGTGTTTGTCTCCATTTTAGCTCCTACAGAAGAAGGGAAAAAAGAGCTGCTGTTCCTAAGTAACGCGAAC
M
CCTCGCTGCTGGAGCGGCACTGTGCCTACCTCTAAGCCAAGATCACAGCATGTGAGGAAGACAGTGGACATCTGCTTTATGCTGGACCCAGTAAGATGAG
Celera SNP ID:            hCV9632077
SNP Position Genomic:     56108
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16692):
GGTTTTCTTAGTTCTAAAGCTTCAACCACACTGGATCCTTGTGTTTTCACAACCCTTAAGGTTAGAGCCAACTTTCAAAAAGAATAATTAAATCGGGAAA
K
AAGTGGGGTCAGCAGGTTTCGTAGTGCTTTTAAACAGGAAGTCTCAGAACTCATGGAGGGAAGTAGCTGACAGCAAAACTGCTTTCCTACTCATCAACCC
Celera SNP ID:            hCV1096861
SNP Position Genomic:     19790
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 40
Celera Gene:                 hCG17193 - 63000132525338
Gene Symbol:                 SYT11
Protein Name:                synaptotagmin XI;KIAA0080;MGC10881;MGC17226;SYT12
Celera Genomic Axis:         GA_x5YUV32VSLS(5543800..5581487)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12200):
ATTGGTACATTTGTGTTCTGGGTGAGCATTCCAGAGCTCAGAGATGTATCCTCCATACCAAGCTGATTTCCTGCATCCTGCAAAGACTGTACTTCGAAGC
CAGCTACTCTGCCATGACTTGGATCCCAGGATAGTGACACCGAACTCAAGTCCTTAACCTGGTCAGATTCTGGTTTAACGGCTGATTCTAGGTCTACGTT
GTTTTCCTCTTGATTGCCTTTATGCTGTAGGGACTCTGTCACTGTAGTTCTTCTCTTCTTACAGGGCAACATTTTAAAAGTCCCACTTTTGTTCCATTCT
GAAAGAATAAAAAGTTCTTACTGCCTTCATATTAATTAAAAGTAATAACATTTACTCAATTATCTTTTCATTTATTCATGTTCGATCATGAACACAATAC
TTCACACCAAATGCACAATTTCCCTTTAGGTGGAAGTTGAGAGACAGTGGTTAAGTGACTGAGTTCAAATCTCAACTCTACTGATTACTACTGATGGACT
ACTGTTACCTAGGCCAAGTGATTTAACCTCGCAAGTCTTCAGTACCCTCAACAGTAAAAAATAATTGCTCTTACTTCATAGAATTGTTACAATTAAAGAG
TAAGTGATTAATAAACACTGTGGGTTTATTTTTGTGTTTTTTTGTTTTTGTTTTTGTTTTTGAGACAGAGTCTCACTCTGTCTCCCAGGCTGGAGTGCAG
TGGCGCAATCTCGGTTCACTGCAACCTCCGCCTCTCGCGTTTTACGCCATTCTCCTGCCTCAGCCTCCTGAATAGCTGGGACTACAGGCGTGCACCACCT
ACGCCTGGCTAATTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGAACTCCTGACCTTGAGATCCACCCGCCTCGG
CCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGTCCAGCAAACATTGTTATTATTACCATCAGGGTGGTAGACTAGCATGATGCTGAGAGTAAA
CTGTGGAATCAGACTGTCTGGATGTTTCCCAAGTCACCTTCTCTCCAGCTTTATGACCTTGTGGAAGTTACTCAACCTGAATCTCAGTGTCTTCAGCTAT
AAAATGGAATATAATAGCATCTACTTCATTAGATGGTAAATGATCAATACATGTTTGCTATTGCTGTTTTCATAAACAGGTATTTCCATTAATAGAAACA
AATCAAAAGCAAAGTGTGATTGTTTAAAAGGTTAGGCTATGTTGGCTGGGCACGAGATGGCTCACGTCCGTAATCCCAACACTTTGGGAGGCCAAGGTGG
GCAGATTACCTGAGGTCAGGAGTTCGAGACCAGCCTGATCAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCGGGCGTGGTGGCACACG
CCTGTGATCCCAGCTACTCCAGAGGCTGAGGCAGGACAATCACTTGAACCCGGAGACAGAGGTTGCAGTGAGCCGAGATCACTCGCCATTGCACTCCAGC
CTGGGCAACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAAAGGTTAGGCTACATTAACAACAAACTTTGTGTCGAAACAAGGAAGATAAGAGTCCTAC
TATCCTCTGCGCTATGTTACTTCTTGGCTTTTTGCTTCAATTCTAGTTATCACATTTTAAGGGCATTACTGACCTAAACCAGAGGGTATCCTCTATGTTC
TTTTAGTATCTGTTTGTAAACCTCTTTTACGGTACTTATCAGTTTTGTAATGGTCTCTCATCTTTCTCTTTCTCATCTCCTTCCTCCAAAACTATCAGCT
TTTCGAGAAATGGGATTATTTCAACTCATATCCCTAATATCCAGCAGTATCTGGGTTTTTTTTTTTGAAACAAGGTCTTGCTCTGTCACCCAGGCTGCAC
TGCAGTGGCACGAACATAGTTCGCTGCAGCCTCGACCTCCTGGGCTCAAGCAATGCTCCCACCTCAGCCTCCCAAGTCATTGGGATTACGGTCCCATCCA
AGCCACTGCACCAGTTCAGTATTTGGGTATTGTAGATACTCAATGTATCACTGAGTATTGATACTCAATGTGTCACTGAATATTGTAGATACTCAATGAA
TGCTCCCTGAATAATAAATGAAACAGAGGTTAAACAACTTATTCTGTGCAGCATTTGGGCCAAATGTTAAGCATTATATAAAAACTGATAGTGGCTTGGT
GCAGTGGCTCACGCCTGTAATCCCAACACTCTGGGAGGCCAAGGCGGGCGGATAACAAGGTCAGGAGTTCGAGACCAGCCTGGTCAATATGGTGAAACGC
TGTCTCTACTAAAAAATACAAAAATTAGCCGGGCATGGTGGTGGGCACCTGTAGTCCCAGCTTCTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGG
GAGGTGGAGGTTGCAGTGGGCCAAGATCATGCCACTGCACTCCACCCTGGGCAACAGAGGGAGACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAG
GCATCTTATTACCCAGGAAAACTTTACTGTCATAAATAGATCCAATAATAGAATAGGCCGCCTTGTGTTAGATCACTGGCAATGTTCAAGCGAAGCCTGA
ATGTCCACTTATCAGAGTACTAGATGAAAGCCTGAACTAGAGAACTGAAAAATAAAAGTTCTTTGTAACTCTAAGCGTCTAAGGTTAGATTTCTCTTTCT
TCTTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCCAGAGACAAGGTCTCGCTCTGTTGCCCAGACCGGAGTGCAGTGGCAAGATCCTAGTTCACTGCAG
CCTCAGACTCCTGGGCTCCAGTGACCCTCTGGCCTCGGCCTCCCGAGTAGCTAGGACTACAAGGCACTTGCCACCACCCTCAACGACTTTTTTTCTTTTT
TTTTTTTTGTAGAGACGGGGTCTCGATTTGTTACCCAGGCTGGTCTCAAACTCCTGGCCTCAAGCGATCCTCCCGCCCCAGCCTCCCAAAGTGCTAGGAT
TAGAGGCGTGAGCCACCGCGCCCGACCTACAGTTAGTTTTAAACCTCCCTTCTGTTTCTCCAAGACATTAGGGGAGATTCTCCATCCCCTCAATCAACTG
ATGTAATTAAAACTCAGTAACTAAAGCTCAATAAAACATGAAGATTTCGTTGATTCCTGTGAGAGATGGTGGTGACCTTATAAGAAATAGAATGGGAGTA
GCCAGGGCAGCTCTTTTATTTCACAGATAATTACTGAGATCAAAAAAAGGGGAAAAAAAGAAAAAGAAAGAAAGAAAAAGAAGGAAAGAAAGACAGCTAC
TTCAGCTCCAGGCACCTCAAACACAGCAGTAGCTCGACAGAATCCACTTTTTTGGGAACCCAAGTCGGACCAGCAGGGTGAATGAATGCCAATGTGGAGG
CAGCCCCGGCACGGCCCTCTCCTAGGAAAACATTTTCAAAAGGGGTCCTAACCGCGCTTCCACCTCGGTGCCCAGGGCTGGCTCCAGTCCCCATTCCCAA
CTAGACACTGGACTTCACGCCCTTAACTTCCGCCACGCACCCAGCGCCCACCCTCAGACCCGACCTTCTCAACCTGGACATCGTTCGTCCAGGTGTCCCA
GCTCCCACCTGCCTCTTCCCACCCCACCACACACAAACCTGTACCCTCACCAGCCGGCCTGATTCCACGGAAACGGCTTTGGCACCACCGGAAGTCAGCC
AACAACAGCGAATTGCGTGCGCGTCCCCGAGCCTCGGAGCGCCGCGCCGCAGTGCATCAAGGAGCATGCGCCTAACACTATGCGCCATCCCATTTTAGGG
CAGAGTGAAGCCACAACGTTAGTGCGTCAGTTATTGGCAAAAAAATTTAAAGGCACTACTTAGCTTTCTCTGCCCATGGAGTTATCCTACTCAAAACTGA
GGTTAAGATTCAGTGGTTTAGATTAACAGCTAATTTGGGGGCCAGGCGCGGTGGCTCACGCCTGTAATCCCGGCACCTTGGGAGACGGAGGCGGGCGGAT
TACCTGAGGTCGGGAGTTCGAGATCACCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAATATACAAAATTAGCTGGGCGTGGTGGCGCACGCCTGTA
ATCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGACGGAGGTTGCAGTGAGCCGGCATCGTGCCACTGCACTCCAACCTGAGCG
ACAGTGAGACTCTGTATCAAAAAAAAAAAAGATTAACAACTAATTTTTCTCACTACGAGTCACCTGGAACACAGGACCAAGGGACTGAAGAAGTCATAAA
ATGCCAGAAAAAGAAGTCTCTAAATTACAAATAGTGCAGGCTCCTGATTAAAACTAAGGCACTCTTGGACTCAGGCTATAGTAATTATTCATATATGTAC
AATATTCTGCATTTTACAAAATGCTCTCACATTTTCTTAGGTGACTTGGTCTCCACAATAGACTGTAAGATTATTATATCATATTCCAGTTTGCACAGGA
CAAAGTTCTGGCTCATCTGAGTAGGTGATTTCACAACGGTACACAGACAGCTATCAAGGAGAATCAGGTATTAAGTCTCCTAACTCTAGCTAATAATGCA
TTGACCCAGTGTCCAGGAGGCTGCCTGGGGTGTAACAGATGTTCAATAATTCAATACGTGCTTTTTGAATGAGCGAATGAATGAATGACTTCTAAAATGA
TGTTATTTCCACTTTTCTAGAAAAACAATGTCTGGAATCCACGGAGATTAAAAAAATAATAAAAAACAGAATGTCAAAAGGTGGAAAAATACTTTCAACC
CCCTCATTTTACAGGTAAACCACCAACACAAATTTATACATTTGAACTAATCCTATCTGTAAACAGAATCCAACGGATGAAATTATCCACAGCCAAAATG
AAGGTTGAAATTTATGCAAACATGGCAGTAGTCTGACTAACCTGAATCACACCAACTCTCCCAAATACCAAGGAAGACTCCAGAAGCTCGGAGTTTCATG
TGTGTTGTTCTTTGACCTACAGAATACACAGATCTTTCGGTTTGGCCTCTCTCATACGAAACCCTAAGCACTTGAGGTTCATGAAAAAAATTCAACACTG
ATTAACTTTGGCACTTTTCATTAGTTGTTTTTTTTTTTTTTTTTGAACAGCTTTGCATACCACAATATCCATCTGTTTTACGTGTACAACCAAATTTTTT
TTTTTTTTTTTTTCAAACGGAGTCTTGTTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGTTCACTGCAACCTCCACCTCCTGGGCTCAAGCGA
TCCTCGTGTCTCAGCCTCCCAAGTAGCGTGTGCCACCACGCCCGGCTAATCTTTGTATTTTTAGTAGAGATGGGGGTTTCACCATGCTGGCCAGGCTGGT
CTCGAACTCCTGACCTCAAGTGATCTGCCCGCCTTGGCCTCCCAAAGGTTTGGGATTACAGGCATGAGCCACCGTGCCCGGCTGTTTTTTTAAAATTAGT
AAATGTTCAGAGTTGTGCAACCATCCCCAGGTTTGGTCTTTCATCAGAGTTTCTGAGGTTTAAGACAGTTTCCATCCACTGTGAAATATAAGCCAAAAAA
AAAAGTTCCGTAATAACCTTTAGCGGTCTCAGAAATGCATAATGATGGCAGTCGATACTGAAATCCAGGCAGTACAGAATTTTATTTTCCCAAAATTCTG
GAACTCAGGACCGAGAACATTTTGCTGCTGTATTAAAGCCCAGAAAACTGAAATCAGAGGATTTCATATAATAATCTACCTATGCTTCTTACCCTTCAGT
ACTTTCTCGTTTTGGAACCACAGCGCGTCAGTGGGCGGGGCCTCATTCTCGGGAAAACTCGGCGGTGGGAGGAGTCCCCTCCGGGAGAGCTTCCTGAAGG
GGGCGAGGGCTGACTTCCGTAATCTTTCGGAAGAGGCGGAGTCTTCTTCCGAGGACCATTCGGAAGAGGCGGAGTCTTCTTCCGAGGACCATTCGGAAGA
AGGCGGAGCCTACCTCTCATCAGGACCAGTCTGACTGCACCTGCATCCTTAGCTCAGMGCATCCCCGGAGCATCTTAAGAGCTGAGCGCAGCTGACAACT
AGGGGCCGGACCGTCGCAGGAGGCGTCCGCTGGATACCTTCCCCCTTCCCTGACCTAGAGCTCTACAGCTGCTGCSTCGGTACTGACCGAGGGTTCCCAG
AGCTGTCTYACCATTGCAAAAACGTTATAGCAACAGCCTCTGATTACGACATGGCTGAGATCACCAATATCCGACCTAGCTTTGGTAAGTAGACTCGGGA
AAACTAAGCTTGAGGTGGTCAGAATGGTTGCAAGGCCAAGGGGGCCCAGCGGCAGGGCAGAGAATGCAGCCCAGACCAGAGCCTTCAAAATGCCAGCCCC
ACTAAAATCGGGCCTGTGGTGGTGGGTAGTGGGTAGTGGGCAGTTGACAGTGCATGAACTTGAGCTATGGGCTGCAGGGACTGGCAGGGCCTGAGCCACA
CCGAGGGTGGGGAAGTCCAGGATGCTAAAACCTTGTATGGTGCACTGTCAGCACTGCTGGAGGTGAGAAACAGCAAGCGTGCGGAGGATGTGAACCCCTC
CTTCTGGGGGAGGAGAGGTGGGGTAGGCCAAGCCCTCCCCCTTGGGGCACACAGGGCGGTGCCCCTTCCTCCCCCTCCCATTCCTAAGGGCTGCGGGGGA
GGGAAGTGACAAGGGGGATGGGGCATCAAGATGGCAGCTTGGAGACTGTGGGCCGTGTGGCTGGCAGCCAGGGGAGGCGGCGGCCTCTGGGGAAAGAGGG
GTGCGGGGTGGGGAGCAAAAAGGAAGCCACTCCTTAAGCCGGTCAGCTGGATGCTGGGGCTAGGAGGAAACGTGAGCCCTGCAAGCTCCATTCCGCATCG
TAATGGTGGGGTCCCTCCGATGCTACCAAATGGCGCTTGGCGCTGCTGGGCTGGGGGATGACGTGATGTCTATTTCTGGGCCTCCTGGCAGCGCCGACGC
TCTCCTTCCGGGGCCTTTGTTCCCTGTTTCCCTGGGCCGCCTTTTCAAAAAGGGGGACTGACCAGCGTTGATGCTGGCGGGGGCGCGATCCAGGCCGGAG
GGGGAGGGGCGAAAGAGGCCCAGCCCGGGGGAGGCCGCTTTGTGTACCGCAGAAAGCATTACGTCATTTCAGAGCGGCTGGTCCCCGACCCAGCCCTGTG
GGCTCCAAGATTAGTTTTACACTCTCTGGAGCAGAAAGTGGAGTGGAAAATAGGGAAGAAGGTGGCAAAGACAAGCTTGAGAAGGAAGTTTTTTCCTCTT
TGGGGACTCCTGCAGTATATGCTAAAGGAGCAAACTTCCTGTGTTATGCTTTCCTGATCAAATAAATAAAATATAATTGCCCTGCTTCTCCTTGATTCAG
TTTAGATGGGGGAAGCCAGTGAGAGTTGCTGCCAAAGAACCTTCTTATTCCTTCAGGGATTCTATCCCTCAGACAATCCAGTAGGTTTGAGCATCGGGAC
TCCAGTTTTTAGGGTGGAGACACAATCCAGCTAGGAAATGGCTTTTCTCATTCCTGAATAAGAGGTACAGTGAAATGAGCAGAATCCAGTGTGCTCTATC
CCCTCAGAATAAGGAAGAAGAAATCAAATCAGATGTGTTCAGATAACTGATCTTCACACTCATTAACTACTTGTTCTCACTTATTCCACAAGGCTAAATC
TTGATGGTATTTTTTCTTCCACTTCACCTTCCGCATCTTTATTCTTTGAGTTCTAAGTTTCCAAAACAAAAGTCCCTTTCATGATCACATGAGCAATCCA
TGATTTCTTCCTGTTCTTTTTCTTCTTATTCCCTTCCAACAGATTCCTTTCTCTAACTGCAGTTCCAGAATCCTTGAAAAAAGGAGATGGTGTGGAACAT
AATATAGTGATTTCTCTTAGAGGGACTATTATTGGGAAAGGGAAAATAAATTATATCAGCCTGTTACATACTACATTTTATTTAATCCTAACAAATACCC
TCGAGTGTATGTATTATTATATATACTTGCCAGACAAGGAAACCAAAGCTCAGAAATAAAATAACTTGGCTAAAGCCAAACAAATGACTAAAGGTAGCAC
TAGTTTGTTTTTGTTTTTGTTTTTGAGACGGAGTTTCGATCTTGTTGCCCAGGTTGGAGTGCAATGGCGTGATCTTGGCCCACCACAACCTCTGCCTCCT
GGGTTCAAGCGATTATCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGACAAGTGCCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGT
TTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCTGCCTACCTTGGCCTCCCAAAGTCCTGGGATTACAGGTGTGAGCCACTGCAC
CTGGCCAATGCTAGGATTTAAACCAATGTCTGGCTGAAGCCAAAATTTATTCTCATTCCATTGTATTATATTTGTCTACTTGACTGCGAAAAGCTATGTT
TAGGAAAGGGGGTGTCAATAAAAGCAGTTCTGGTCAGAAGCTGAAGGAGCTGGCCAATAGCCCAGATGTGTCTTGCAGGTCTTTAAACCATTACAGAGGA
TCTCCTACATAGAGAACTACCACTTCCAACTTTTTCACATCTCATAGAGTACTTCATTTCAAATGCCACAGCACTTGGGTGATACACCAAGCCAACACTC
AATTATCCATGACCATGAAGGACAAAAGGAGCGAGAAGCACAGGTCACTGCAATTTATAGCTACTTTAAAACACTCACTTCAGCCATTAGTTTCAACTTC
CATTTCCCACCAAGCTTTGGACTAAAGCAAGACAGAGAGCTCTAGGTTTTAATATCTTTGATGATTCTAGCTCATTGTCTTGGTTTCAGGGAGAGAGGCA
ARAGTTAACAAATACTAAAATGAAGAAAGAACAGCAAAAATAGGAAACAAGGCCAGGGGGAACAACTAGATAATTCAAAGATGCGTTCATCTGTTTCTCT
TCTTTTCCTTCTCTATCCTCCTGGAATATGAGAATTCTTCATCTTCTCTCTTTTCTACCCTATCTCCATTTTCTAACAATAAAAGTTGATGCATTGTAAA
TATGTAAGCAGCAGTGGGTTGCCCCCCGCTCCTCCACCGCACTGCTGCAGGGAATAAATCTATGATAGAGCCAAAAGAATTGCCCAGGTGTCTCCTAATC
TAAGCCTTCAGATCTCTCTTTATGATCATTCCAAAAAATATGCCTGTCTTGGTAGTTTGCTGTGTTCCTCTTCTCATAGAGACAGTGTTCAGTTTCACTA
ATGAGTAGCAAACAATTTGCAGGAAAGCACCTGATTGATGAATGGAGAGCCACTTCCTTAGGCTGTGCCCATTCTTAATGGCAACTGAATCCAATTAGTT
GTTCAACCAAATATTTACTGAACTCCTATTAGAAGCAAGAGACTCTTGAGGGATTCAAAGATCCATAGGATATTGTTCCTGCCTGCCTTCAAGTAGCTTA
CTACCAAGGCTGTCTCCATTTTGTGAAAACTTTCCCTAAAAGCTATTTCATTTAATACTTTGAGACTAAACACTATTATTATTCGGTATGGATATAGACA
TGGTCACCTTGATTTATTTTGTTAATAATGTTTTGCTCCTTATCTATATTATTTTAAAATGTACCCGGGTACAGTGGGTCGTGCTTATAATTCCAGCGAC
TCAAGAGACTGAGGCAAGAGGATCTTGAGGCCAGGAATTCAAAACCAGACTGGGCAACATAGCACCTTGTCTCTAAAAAAAATTTTTTTTAATTAGCCAG
GCATAGTGGCATGGTCCTGTAGTCCCAGCTATTCAGGAGTCTAGGGTAGTAAGATTGCTTGAGCCCAGGAGTTCAAGGCTGCAGTGAGCTGTGATTGCAC
CACTGCACTCCAGCCTGGGCCACAGAGTGAGACCACGTCTCTAAAAAAATAATAACAATAAATATATATTTTAAATAAAATGTAACTCTTCCTTGGTTAG
GCATGGTGGCTTGCACCTGTAATCCCAGCAATTTGGTGGAGACTAAAGCAGAATTGCTTGAGCCCAGGAGTTCAAGACCACCTGGGCAATATAGTGAAGA
CTCATCTCTAAAAAAAATTTAAAAATTAGCTGGGCATGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGGGGCCAAGGCTGGCAGATCACTTGAGGTCA
GGAGTTCGAGACCAGCGTGGCCAATATGGTGAAACCCCGTCTCTACTAAAAATACAAAAACTGGCCAGGTGTAGTGGCACGTGCTGGTAATCCCAGCTAC
TCAGGAAGCTGAGGCAGGAGAATCACTTGAACCAGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGCCATTGCACTCAAGTCTGGGCAAAGCAAGACTC
CATCTCAAAAAAAAAAAAAATTAACCAGGCATGATGGCACATGCCTGTAGTCCTAGTTCCTCAGGAGGCTGAGGCAAGAAGATCATTTGAACTGGGGAGG
TCAAAGCTTCAGTAAGCTGCGATCATGCATGCCACTGCACTCCAGCCTGAGTGACATGGTGAAATTCCATCTCTGCAAAAAATACGAAAATTAGCCAGGT
GTGATGGCATGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGGATCACTTGAGCCCAGGTGGTGGAGGTTGCAGTGGGCCAAGCTTGTGCCA
CTGCACTCCAGCCTAGGCAATAAAATGAGACGCTGTCTCAAAAGAAATAAAAAAAGTAAGCTCTACCACAATGCCTGGCAGGGACATATAAATTTACACA
AAAAATAGCAATTTTATTATTGTCACTGCTATACACAATATTACATGTATATTATGACCAGTGCAGATGAAATTATACCTGCCTCTCATGTAATCTGGAC
ATTATGCTCATAGTATTGTGCTCATGATGCTCATAGGCTTTCTAGAGAAGATAAACSCTTCATCTAGGTTTGGAGGGAAGAAAAAGCCATGGATTGGTTG
GAGAGGATAGGAGAGGATACCTCTAATAGAAGGGAAAACAGTAGGCATTATACTAATTATAGTCCAAGATTGTGGTTGCCTAAATTCCTAAGTCATTTTT
GACTCATCAAGTGAGGTTATTGACTATAAATAGGTTTTTGAGTCCAAATAGAAATTTACATTTATCCCTGATATATGTAATCATCTTGACTCAATCCTTT
TTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGAATGGAGTGCAGTAGCACAATCTCAGCTCACTGCAGCCTCCGCCTCCGAGGTTCAA
GCTATTCTCCTGCCTCAGCCTCCCAGGTAGCTGGGATTACAGGCACCTGCCACCATGCCAGGCTAAGTTTTGAATTTTTAGTAGAGACAGGGTTTCACCA
TGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCAGGCCT
CAATCCTCTCTTTCTAATCTGTGGAGGCTGTTTTGAATTCACTGACTCTTTTGTTCACTGAACGCTTACTACATGCCGCATAGTTCTAGGACGTGGAACT
ATAGCAGTGAACAAAACAGACAAAGTTGCTGTTTTATTAAGCTTGTCTAGTGATCAAAGAAAGATAATAAATATATGTCAGGATAATAAGCTCCATGAAG
AAAATTAAGGAAGGGTGATGGGGACATTATCTTACTTGGGGCAGACAGGAAATATTTCCCTCATCCAGTGAGGTTCGGGGCTCACGATAAGTGAAGCAGT
GAGCTGCACAGATGCCTGATACAAGAATGCTTTAGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAATTGGATCACTT
GCGGTTAGGAGTTCGAGACCAGCCTGACCAACGTGGAGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGACATGGTGGCGCATGCCTGTAATCC
CAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACTCTGGAGGCGGAGGTTGCGGTGAGCCGTGATCGTGCCATTGTACTTTAGCCTGGGCAACAA
GAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAGAATATTCCAGAAAGAATCGGGGAAATGCTGGAATTATGTCTATTTCCTTTTCTTTTTTTTCCTCGCT
CTGTTGCCCAGGCTGGAGTGCAGTGGCACGATTTTAACTCACTGCAACCTCCACCTCCTGGGCTCAAGTGATCCTCTTACCTTGGCCTCCCAAATAGCTG
GGACTACAGGCATGTGCCACCATGCCCTGCTAATTTTTGTAATTTTTTTGTGTAGAGATGGGGTTTTGCCATGTTGCCCAGGCTACATTTATTTCCTTAG
TTCTCCCTCCCTTCCAAGTGGTCCCCTAAAAAGTAAAGTGGAAAAAACTATAGGCCTAATCTGGACCTTTAAAGCCTAAACCCAATTTAGCCTCAATGAA
CTTGAGGGAGCGAAGAAACTTGAGGGTCCAATTTTTGTGGGAAAAGATAAGACTAGGGTAAGGGAAACAAAAAAAAAATCTATTTCTCTTTCTCTTTTTT
TTTTCTTTTTTTTTTTTTTTGAGATGGGGTCTCGGTCTTTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCWGCTCACTATAACCTCCACCTCCCGGCTT
CAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGTGTCACCACACCTGGCTAATTTTTGTATTTTATTTTAGCAGAGACAGGGT
TTCGCCATGTTGGCCAGGCTGGTTTTGAACTCCTGACYTCAGGTAATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATAACAGGCGTGAGCCGCCACAC
CCGGCCTATTTCTGTTTAGTTATTTGTTCATCCAACACATAGTGCCTGCTATGTGTTTTAAGTGCTGAGGGTACAGCCGTGAACAAAACAGACATAAATT
TTTGTCCTCATGAGACTTATATTCTAGTGAAGATAAATAATAAATTGTAAAATAATATGCGTGTGGGTGTTTATTCTTACATATTTGTGTATGTATTTTA
TATATTTTTTTCTTACATGTGTAGGGGTGTGTGTATCAGAGAGCGAGAATGACGGCATGTTGAAAAAAATTAAGCAAGGCTAGGAAGAGTGGGTGGTGAG
GATGGAGAAGATTGCACTTTTAAATAGGTGAGTCAGGAAAGGCCTAAGAAGGTGACATTTGAGCAGAGATCTGACATTTTCCACTAATAGGGAAGAAAAC
CCCTATTTCTTCCAGTGAAGGATTTATTAAGGTAATAATAATGAAAAGAGAAAGTCTCTATTTCTTCCTATTTAGAATAATATATGTATACATAAATACA
TATATATACACACACACATATATACATATATACACACACATATACATATATACACATACACACACACACACACACACAYATATATATATACATACATACA
CACACCTATTTTTTTGCCTACAATGGATATATTCATCCTGGAGGAATACCTTTTTTTTTTTTGAGACGAAGTCTTGCTCCATCACCCAGGCTGGAATGCA
GTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCATCAGCCTCCCAAGTAGCTGGGATTATAGGCACATGCCACCA
CGCCCAGCTAATTTTTTATATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGTCTGGTCTTGAACTCCTGACCTCAAATGATCCACCTGCCTCAGC
CTCCCAAAGTGCCRGGATTACAGGTGTGAGCCACTGCACCCAGCCTTGTATTTTATATACCTGGGAGCTAAAATTTTGGAACATATTTTAAAAGTACATA
AACCCAGAATTCTTCCTTTTGGCACCCATCCATTTTTACTACCCTGAACACCCTACCAAGACCATCTAAACTCATCTCCACACCCTTCCACCCTAGCCTG
ACAGCGAGTCAGTCAGTGCAGGCCCTGTTCTGGATGCTATGGAATATCCTGAAACCAAACATCTTGTGTAACAGTTGAAGTGAACAGGTGCTCATGTAAA
AAGGTGATCTTAGAACACGTACAGAGCAGCTTTATGTGAAGCACAAATCAGTATGAGCAAACCAAGTCTATAAGTGCTGAGAGAAGGTCTAGGAAAGAAC
ATAGAGTCAAGTGGGGTGCTTCAGAGAAGGCTTTCTATAGAAGGCTGGGAGGAAAAGCCGTGGAGTGGTTGGAGAGGTTGGGAGAGGGTGCCTCTAATAG
AAGGGAAAAATTCTGAAGCCCAGATGAGCACATTTTGCTTTAGAGGCTAGATTGAAGATTAGCTTGGCTCCAGCAGTGGCAATGAGCAGGGGAGATCTAG
ACAGGAGGTGAAGTCCACCCGCCCTGACACATCTCTGATCTCCGCCTTCAGATGTGTCACCGGTGGTGGCCGGCCTCATCGGGGCCTCTGTGCTGGTGGT
GTGTGTCTCGGTGACCGTCTTTGTCTGGTCATGCTGCCACCAGCAGGCAGAGAAGAAGCASAAGAACCCACCATACAAGTTTATTCACATGCTCAAAGGC
ATCAGCATATACCCAGAGACCCTCAGCAACAAGAAGAAAATCATCAAAGTGCGGAGAGACAAAGATGGTCCTGGGAGGGAAGGTGGACGTAGGAACCTGT
TGGTGGACGCAGCAGAGGCTGGCCTGCTAAGCCGAGACAAAGATCCCAGGGGGCCTAGCTCTGGATCTTGTATAGACCAATTACCCATCAAAATGGACTA
TGGGGAAGAACTAAGGAGCCCTATTACAAGCCTGACCCCTGGGGAGAGCAAAACCACCTCTCCATCATCTCCAGAGGAGGATGTCATGCTAGGATCCCTC
ACCTTCTCAGTGGACTATAACTTCCCGAAAAAAGCCCTGGTGGTGACAATCCAGGAGGCCCAYGGGCTGCCAGTGATGGATGACCAGACCCAGGGATCTG
ACCCCTACATCAAAATGACCATCCTTCCTGACAAACGGCATCGGGTGAAGACCAGAGTGCTGCGGAAGACCCTGGACCCTGTGTTTGACGAGACCTTCAC
CTTCTATGGCATCCCCTACAGCCAGCTGCAGGACCTGGTGCTGCACTTCCTTGTCCTCAGCTTTGACCGCTTCTCTCGGGATGATGTCATTGGCGAGGTC
ATGGTGCCACTGGCAGGGGTGGACCCCAGCACAGGCAAGGTACAACTGACCAGGGACATCATCAAAAGGAATATCCAGGTGAGTAGGAAGTGTGTGTTGG
GGAGCAATGGTAGGTTGGGGGAGAAAATATCTCAGGGGATAAATGGAAGTGGGAGGGGAGTGGGTTGGGTGGCAAAGAAGGGCTGTAGAGAGGAAGCTCT
TGGATGTCAAGGATAAGCAGTGGTCAGAGTAAGACAGAGGGCCTGGCAGATGAGGTCTCCTCTAAGAAGCAACTTCCTGGTGAGAGAAGGTYCAATAGCT
TTCACCATTTCACTTAGTGGTTGGCATCCTGATGCTGTCCAGCTTACTTGGAACAGGCTGGCCTACCATTTGTAGATCCTTCATTATATCAGGGATATGG
GAGCTAATTTCCTCTCCAAAATGATGTGATCTTCCTCCAGTGAATTTATTTTTCACAGCTGAGAAGCTATGACAATAATTCAGTAATTTTTCCCTCAGCT
TCCCTTTCCCAACCCTAACCTAGGGGTGTAAATGATACCATGTACATGTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTCGCC
CAGGCTGGAGTGCAATGGCGCAATCTCAGCTCATTGCAACCCCCACCGCCCAGGTTCAAGCTATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTGCA
AGCACCCATCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAAACGGGGATTCACCATGTTAGCCTGGCTAGTCTTGAACTTCTATCCTCAGGTGAT
CCACCTGCCTCGGACTCCAAAAGTACTGGGATTACAGGCATGAGCCACTGCACCCAGCCGTCATGCACATGTCTTCTTATGACCATTTTACAATGCAATT
CAATGAATTGCTTCACCCTTCTAGGCCCAAACCTTTGCCATAGACACTTCCCCTCTCTCCATTTCTCCTGTCCTCCCTCTTTGTATTAGAAGAGGGACGA
GGGCCCTCCATCCTGCCTTCTCTCTCCCTCTTCCCACTGGACCGACATTGGCTCTTGAGTTGTAATTTCAGGAGCACAGTAAGTGTAGCCCCACCCAACC
CCATTAGTTCATTTATTTCTTCCACAACTGGGGAGGCAGTGAAATGCTGCAGTTAAACACTTGGGCTCCAGAATTGGACTGCACGACTTTACTCTCCAGC
TTACCACTTGCCAGCCGTGTGACACGGGTGAGTTACTCGACCCCTCTAAGCCTCTATTTTSTCATTTGTAAAATGGAGCTGATAATATTGYCTTCCTTAC
AGAGAATCAAATGAGATAATATGCCTGGCATATGATTGCCCTTGAAGAGGTTTCACTTTATTGAAGGAGAAAGACAAATATTTTTTGTAATTACTGTATA
GTGAGTATGGTAGGTGCTATGAAAGAAGTTGTTGAAATTTTAAACTTAGAGTTTCATGTCTTTTTCAGGGTATAACATAAGTGGTTAAAATAGCAAGGAC
TTTGAAGTCAGACCTGAGTTTAAATCCAAATTCCACCAGCTAAATGACCTTGGGCAAGCTGCTTCACTTTCGCTAAGTCTCAGTTTCTTATGGGAATAGA
GTAGGATGATGATTTTATATAGCTACTAGGACACAGTGAGCCTTCAATAAATTGTGACCGTTACTATTATTGTTATTCCTATTATTAGTCAAGTTTGATA
CCTGGGTGATGCATGTGGTTTGTAAATATTTATATTTTGTTTTGACACAGTGAAGGAAGACAAGGGAGGAATTGGTGAAGGAGGTTAGGAAAGAATTTCG
AGGCCACTAGAAACAACTGCACATCTCCCAGAAAGAGCTCTGCCTGTGGGCAGATCATACTTATTTCTTGATACCTTTTTTACCTGCAAGTCCTCACTGG
ACTCAGTGGGTAGACAGGAGGCTCAGGACTGGATAGAAGAGGCTCCTAAGTTAGCAGGTGCAGAGTGTGCAGTGAGTACCCAGGAACAAGGTTTGCCTGC
TGAAGAAGGGTACTGTGCCAAGTCTGGGTGGGGGACAGCAGGGAGCACACTTTGTGTGTGTGTATTCTTGCCTTCTCTGCTCTGTAGTAGGCACCTGTCC
CCCTGCAGCCAGCCCGGTCCTGCCTTTCATTGCCTGAAGGAACTGCTACTGCCACCTGGCACACTCAGATCCATGTCACGGGCCAGGGAAGTCCAAGAAT
YTTGAAGAATATTAGACACATTTGTGATTGTGATTTAGGGTAGAGGTGGCCCTCAGGACATCTGGCCCCAAGAAGGGTTTATTGAGGTTATGTTCATCCA
CCTAATACAAGGGCTCCTTGGCTAGAAAATCACTCTGAAAGAGGTTCTGCTAATTATAGGAAAACTTGGTGAACGTCAGAGCATAAACAAGACACTGCCA
CAACATCTTGTGGTTCTCAATGCCAGGATACAATGAGACATCCCAGAGTCCAGCCCTGAAGGGGTTTTCGCATCCTCTGAGACTGGAATCAGAAGGTGTG
AATAGAAATGGAAGCAGTGGCCTGTTTCATCCCCTTCTCTCCCCTCCCCTGTCCCATCTTTTTTCCTCAGGGCTCTGCCGACCCATTCTGCTGTTTCCGT
ATTCCCTTCACAGCAGCTCCCATCCTCTACTCCTTCCCTTGTCTACCTCTCCTTGAAGGAGGAGCCTTTCCAATACACCCTTCCCTGTGACTCCAACCTT
GGTAAAGTCACCAACCAGCTGGACTCCTCCAGACAGCTATACACTTGCAGCCCAAGGCTGGGAGTAGAACATGGCTCTGTGCCAAGCTGCAGCTGGGAAG
AGACTGGCAATGAAAGGGACTGATTTGGGCTGGGAACAAAACAGCCTCAAATCAAGGGCACTGGACACAGCACAGACAATGGCATTTGCTAAGCTGCCAG
GGGCTCTTGGCAAGAGCCACATTTCTTTCCACTTTATTAACTCCCTTGAGGAGGGATAAGCCAGGGCTAGGATCCTGAGCAACACATGCCCTGGAGAAGG
CCCGAGATAGGWTACCCAGAGCCTGTGCAGCCCCACCCTAGAGCCTTCCAGCCTCCCAGGCTTCCTAAACCCATTTTCCCAACCAGTGCCCGTAGGCAGG
ACTATGTTCCATCTGAGCCATGGCTGTCATCTCCCTAGTCACTCATCCACTAGGTTCCCTAGAAGTGCAGGCTGCAAATGTCTATCCCAAATCCTCCCTA
CCATAGCAAAGTAGGATCTCYCCTTGGTGAACGTCAGCTAGAGCTGCCCTGGACCATGCCACACTGGCTGTAAAGGGCTTTTTCCTGGTCTGGATTACAT
AGACCAGGAAAAAGCTACTGCACTCTAGCCTGGATGACAGAAGGAGACCCTGTCTCAAAATAAAAAATAAAAAATAAAAAATAAAAAAATAAAAGAAAAT
ATGGCCAGGCACAGTGGCTCACCCCTGTAATACTAGCACTTTGGAAGGCCAAGGYGGGAAGCCCAGGAGTTTGAGGTTGCAGTGAGCTATTACCACAAAC
TGCACTCCAGACTGGGCAACAGATCATGTATGTGTATTGCAGGGAGGAAAAGGGGGATGGGATTGAATGTTAAGGTTTTGTTTTCCCATGGTTGTGATTT
AGGCTAGAGGTGGCCCTCAGGACATCTGGCCTCAAGAAGGGTTTATTGAGCTTATGATGGTCCACCTAATACAAGGGCTCCTTGGCTAGAAAATCACTCT
GAAAGAGGTTCTGCTAATTATAGGAAAACAGACTATCCCTTGCCTAAGTATTATTTCTTCTGAGTGTATTCTTTAGGACCACTGTTCCTGTTCCTCTGTT
CCACTGAAGGAGCAAGGAGATTGCCCTCAGAGAGCCGAGCCCCGCAGCTCTGTCAGGCATGAGAAAATCCTTTCTCCCCCTTGTCCTTCTGCTTGCCTGC
CCCCCAACAGGGCCTTTGCCTCACTAGGCCAAGGGGCTGGGAAACAGAGCTTGCTCACAGCCTTCAATGGCTCTTTCAAAAGAAAGAGCCATTGACATAG
CTACTTGGAATGGGAATTGGGTAGAAAGAGAAAGGGAGGGAGCTTGAGGGAATGACATTAAAYTGCCTTCAATGCAGAATGGAGTGGCATTCAGGTGGTG
TTGTGGCTACAGACTTGGGCATCACAAAGCGGCGCTGAGTGGGGATGGGCATGCTGCCCGTGTGAGATGGCACAAGGTGAAGGAGGGATCAGATGGAGGA
CAGTTGCCTGAGGAGTGATTTTAAGGGAGAAAAAAATGAAAAGGGTAACCAGAAGTTGTCAACTTTCCCAAAAAACTAGGAAAGAGGCATGGGGATTTTG
ATTAGGAAGATTTTCCTAGAATGGATGATTTAGGATACAGAATTTTAAATAAGTAATCGGGAAACCTAAGCTATAATCTTGTCATTCGTGTTATTCTTGC
AAATAAAACTGTGCTTTTAAAATCAGATGTCGGCTAGGCGCGGTGTCTCAGGCCTGTAATCCCAGCCCTTTGGGAGGCCGAGGCAGGCGGATCACAAGGT
CAAAAGATTGAGACCATCCTGGCCAACATGGTGAAACCCCGTTTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACGTGCCTGTAGTCCCAGCT
ACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGACAGAGGTTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGCGACAGAGCAAG
ACTCCGTCTCAAAAAAAAGAAATAATGAAACGTTGCTTTTCCCCCACCTATCCTTCCTCTGTATATAAAGTTAGAATCATATTTAAAGACTGCATATTTA
GTATTTAGATACTCAGTATTGAAGGATGGCCCCAGAAATGGATATATCAAACCTAGCTAACATTTTATTATTATTCATGGAAACAGACGGGAGCAGTAGC
CAAAACAATGCAAAAGTCCTTTCTAGATCAGTGCCGTCTAATGATGATAGAAATGTTCTATATTTGCACCATGCAGTGTGGTAGCTACTAGCTACATGTC
GCTATTGAGCACTTGAAATGTGGCTAGTGTAACTGAGGAACTATAATTTTAATTTTATTTAATTTAAATTAAAATGTAAATAGGCACGTGTAGCTAGTGG
CTACTGTATTGGATAGCTCAGTTCTGAATGTTTTGGAATCCATTCAATTTTCTTTTCCATATGGGATTACTTTTCATTTGATGTGGCTAATAGTAAAAAT
GAGTTTATATTCACTGATTACATTCTGATTTCTGGCAAAAGGAAAAAGCCCAGAAGTATACTGGTTGGCAAGRGCAACCAGACTGTAATTCAAAACTGGC
TGAGGGCCAGGCATGGTGGCTCACGCCTATAATTCCAGCACTTAAGGAGGCTGAGGTGGGCGGATGGCTTCCACTCAGGAGATCAAGACCAGCCTGGCCA
ACGTGGCGGAAACCCCAGACATGGTGATTSACGCCGGTAATCCCAGCTACTCAGGAGGCTGAGACACCAGAATCGCTTGAACCCAGGAGGTGGGGGTTAC
CGTGAGCTGAGATCGTGCCACTGCACTCCAACCTGGGTGACAGAGCAAGACCCTGTCTCRAGGGGAAAAACAAACAAAACAAACAAAAACACATTGGCTG
AGGGACCAAGCATGGTGGCTCACACCTGTATTCCCAGCACTTTGGGAGGCTGAGACGGATAGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAA
CATAGCAAAACCCCATCTTTACCAAGAATACAAAAATTAGCTGAGCCTGGTAGCACATGCCTGTAGTCCCATCTACTCAGGATGCTGAGTTGGGAGGATC
ACTTGAGCCCTGGATGTCAAGGCTGCAGTGAATGCACACCACTGCACTCCAGCCTGGGCAAGAGAGTGAGACCCTATCTCAAAAATAAAAATAAGGCCGG
GCGCGGTGGCTGACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGATAGAGACCATCCTGGCTAACACGGTGAAAC
CCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCAGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGCCAGGAGAATGGCCTGAACCC
GGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAAAAAATAAAAATAAAAATAATAA
AAATAAAATAAAACTGGCTGAGGATACTTTCCATGGATACGATTAAGAGCTGACAATAGGCCGGGCATGGTGACTCACGCCTGTAATCCCCGCACTTTGG
GAGGCTGAGGCAGGCAGATCATGAGGTCAGGAGTTTGAGACTAGCCTGGCCAATGTAGCGAAACCCCGTCTTTACTAAAAATACAAAAATTACCCGGGCA
TGGTGACATGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTAAGCCATCGCACCACTGC
ACTCCAGCCTGTGTGACAGAGCGAGACTTCATCTCAAAAAAAAAAAAAAAAAAGCTGACAATACATATGTTATGGGTAAGGACAAAATGTGGGGCTTCTC
TCTAGCAGAGAAAAAACATGAAAATATTTTTAAAGTTGATCCCCTTTTGTATTTCAATTTCAAAAGCTAAGGAGTGGGTTTAAACCTTGGTTAGATTTTT
TTTTTTTCTGAGACAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATTTCAGCTCACTGCAAACTCCACCTCCTGGGTTCAAGCGATTCTCC
TGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGCACCATCATGCCCCACTAATTTTTTGTATTTTTAGTAGACGGGGTTTTACCGTGTTGGCCAGG
CTGGTTTTGAACTCCTGACCTCAAGTGATCCGCCCTCCTCGGCCTCCAAAGTGTTAGCATTACAGGCGTGAGCCACCATACCCAGCCTAGTTAGTTATTT
TTTATGCCCTGTGAGAGACATTTCCATATGCTCCTAGGACGAAACATAGACTCAATAAATTTTTAAAATCATGTGAAATATCACAGTTTCATTCCTGGAG
ATGACTTAAGGCCTACAATCAAAGCACAAACTATTAGGCTTATTTCTTGTTTTTTATTGATGAGTTAATTGGCATATTTGCTGCCGCTGTTCTTTCCTGC
ACCAGACATACCTGAGTAGATAGTGAACTAGCCTGGGAGCTTCTTAAGGGTAGGATTCCTCAGTATCCATCTTTTCAGCCCTAGCTTCTAGCAGAGAGTG
CCTGGCACTTAATAAGTGCCTAACAAGTCATTTTTGTGGGTGTGTGGTGTATATAAGGTTGGTGATGAGCATAGTCTATTTTTGCTCAATTTAAGAATTC
CTGGAGTAGATGACATTTCTTTGGGGCTTTGAAGAATACAAGGAATAAGGGTGATTGTGGGGGTATGATTTTGTCCCAAATTTAACTTATTATGTTCTAC
ATTCCTCAAAACTCACCTCCCTTTTTTTTTTTTTTTTTTTTTTTTCTTTTGAGACGGAGTCTCGCTCCGTCTCCCAGGCTGGAGTGCAGTGGCGCGATCT
CGGCTCAATGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACCACAGGCGCCCGCCACCACGCCCGGCTAAT
TTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCCCGATCTCCTGACCTCGTGATCCGTCCGCCTCGGCCTCCCAAAGTGCT
GTGATTACAGGCGTGAGCCACTGCACCCGGCCAAAACTCACCTCCTTTTGTTTTCTTTATCCCAGCCTCATCCCCACTTTCTAAAGCTAAAAACACAAGA
AATAGTCCACCCTTTCCTCCCTCTTCCCTACGCTTCACAGCCAATTAACTGCCCAAGCCTAAAAACCCCTGACAATTCTTCCTGAGACATATTTTACCTC
CATGTCCATCTCCTCTGCCACAGYCCTAGTTCCAGTCCCAATCATTTCTTCTGTAGCACGTTGCTACAGAACAACGAAGTCTGCTTTTTTGAGATGGAGT
CTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCAAGGTTCACCTCAACCTCCACCTCCTTGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAG
TAGCTGGGGTTACAGGCGCCCGCCACCACACCCGGCTAATTTTTCTATTTCTTTTTTTTTTTTTTTTCCTGAGACGGAGTCTTGCTCTGTTGCCCAAGCT
GGAGTGCAGTGACTRCAATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGACTACAGGCAC
CCGCCACCATGCTTGGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCTTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCC
ACCTCAGCCTCCCAAATTGCTGGGATTACAGGTGTGAGCCACTGCGCCCGGCCTAATTTTTCTATTTCTAGTAGAGATGAGGTTTCACCATGTTGGCCAG
GCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTTGACCTCTCAAAGTGCTGGGAATAGAGTCGTGAGCCACTGCGCCCAGCCACAGCAGCTTC
TTTTTGACAGGGTCTCACTCTGTCACCAAGGCTGAAGTGCAGTGGCTCAAACACAGCTCACTGCAGCTTCGATCTCCGGGGCTCAATCAGTCCTCCCAAG
TAGCTGGCTCTATAGGCACACGCCACTGCGCCCAGCTAATTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGCCGGAGTGCAGTGGC
GCAATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCGCAGCCTCCCCAGTTGCTGGGACTACAGGCGCCAGTCACCACGCCC
GGCKAATTTTTTTGTATTTTTTTAGTAGATACCAGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGAACTCGTGATCCGCCTGCCTCGGCCTCC
CAAARTGCTAGGATTACAGGCATGAGCCACTGCTCCCGGCTATAGCGGCCTCTTAACTGAGCTTTCTGATGTTGGTCTTCCTCGACTTTAGCTCATTTTC
CACCTTTCTCTGAAATAATAATAATTTTAATAAAATGATGACAACTGGCCAGGCATGGTGGCTTACACCTGCAATCCCAGCAGTTTGGGAGGCCAAGGTG
GGCGGATTGCTTGACCCCAGGAATTTGAGATCAGCCTGGGCAACATAGTGAGACCCTGTCTTTACAAAAAATACAAAATGTAGCCTGGCATGTTGGTGCA
CACCTGTAGTCCCAGCTACCTGGGATGCTGAGGTGGGAGGATCTCCTGAGCCCAGGAGGTGGAGGTTGCAGAAAGCCGAGATCTCACCACTGTCCTTCAG
CCTGGGCAACAGAGTGAGACCCTGACTCAAAAAAATGACAGCTTTGCCACTCCTATACTCACCAACCTCCTCTTGTATGGGTGCTGCTGACTCTGCTCTT
TGGTAGTGTCCCAACAGCCCTTTACTCTAGCCTTGCCCACCTTTCCAGGTTCCTGACCTACCCCTCCTATCAGCCACCCCCACTTCAGGCATATTCACCT
CTCAACCATTCTCTGAACACAGCTTACCTTTTCAGGCCCAACTCCTTTGTACCAGCCATTTCTGTCAATCTGCCTGATATGATCATCCCTCTGCCCATTG
CTTCATGGTTTTGTACCCCCATCAACTCAGTCCAGGCATCAGCTGGTAAAGCCTTCCCTGAATCTCCATGGCCGGGCGCGGTGGCTCACGCCTGTAATCC
CAGCACTTTGGGAGGCCGAGACGGGCGGATCATGAGGTCAGGAGATCAAGACCATCCTGGCTAACATGGTGAAGCCCCGTCTCTACTAAAAATACAAAAA
AAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGATGAGGCAGGAGAATGGCATGAACCTGGGAGGCGGAGGTTGCAGTGAGC
CGAGGTCTCGCCACTACACTCCAGCCTGGGTGACAGAGCGAGAGACTCTGTCTCAAAAAATAAAATTAAAAAATAAATAAATAAATWAATWAATWAATTA
ATTAAAAAAGCCTCCCCTGAATCTCCCAGCTCTAGGTGCCCAGAGCACTTAGACAGGCTTCTCATTTCTCTGACAAGTCCCGCACAGGTTTATTTACTTC
TCTGACTCTTCTACTAAGTGGTAAGCTCCTTGGGAGCAACAACTGAGTCCCATCAGCTCTGGATCCTCAAAACCTGGCATGCAGTGCCTATGAAAATGTT
CTTTAAAATGTTCTTGGAGGGGCCAGGCACGGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGTAGACAGATCACTTGAGGTCAGGAGTTC
GAGACCAGCCTGGCCAACATGGTGAAATCCTGTCTTTACTAAGAATACAAAAATTAGCCGGGCATGGTGGCGGGCACCTGTAATCCCAGCTACTCTGGAG
GCTGAGACAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGCGACAAGAGCGAGCCTCTGT
CTCAAAAAAAAAGTTATTGGAGGACTAGAGGTTTTTTCAAGCTCAAAATGGAGCCTAGCATCACATTTAAAGATGGAGAAACAAAGATCAGGGTGCTGGG
GAGGAAGCTGACTTGGCTGGAGAAGATACACTGGAGTGCACATTGGGGTGGGCAGAGCAGGTGTGGATATTCACCCTGTGAAATGCAGGGACAGGTTCAG
GGACTTGCCCAAGGACATGTGGTGAGTAAGTGGCAAGGTTAAGATTCAAACCCAGTTCTCCTACCTCCCACTGTACAGTCTTCAGAACTTTTTAAAGGAT
AAGAACCAAATGAGAGGATGCACTTCTATAGTGCGCACTATGTGCTGGGCACCATTGCAGTTTACAAATTTTAACTTATTTAATCCTTCTGATAATGCTA
TGTGGTAGGTACAACCTTTCACCCACATTTTATAGGTGAGGAAACTGAAGTACAGAGATGTTGAGTAACTTGTCCAAGGTCACAGATAAGAAATAGCAAC
TGGGCATGGTGGCTYATGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCGGGAGGATCACTTGAGACCAGGAATTCAAGACCAGCCTGGGCTACACAGT
GAGACTCTGTGTATAGAAAAAAGAAAAATTAGCCAGATGTGGTGGCACACACCTGTAGTCCTAGCTACTCAGGAGGCTGAGGTGGGAGGATTGCTAGAGT
CCAGGAGATGGAGGCTGCAGTGAGCCAAGATCACGTCACTGAATTCCAATCTGGGCAACAGAGTGAGAACCTGTCTCAAAAAAAAAGAGAAATAGTCAGG
ATTTGAATCCAGGCTAATCTGGCTCCAGAGGTCATGCTCATAAATCCAAGGCTATGTGGGCTCTCCATGCAAATTATTTAATATCAGAATTATGGTTATA
ATGTTTCCTTTCTCCCTCCTTGTTAAATAAAATCATAACACCTTTCCAGGGGATGAGCATCTTTCCAAAAAACTTATCATCCCTGCACTTGTCCTCCCCC
AGACTCTTCCCACTGCTCTGCACACTTTTTGTGCTCTGCCCTGCACCCTCTGCCAGGATTCTCACCTGCCATTTTTTCCTCACAGAAGTGCATCAGCAGA
GGGGAGCTCCAGGTGTCTCTGTCATATCAGCCTGTGGCACAGAGAATGACAGTGGTGGTCCTCAAAGCCAGACACTTGCCGAAGATGGATATCACCGGTC
TCTCAGGTAGCAGCTATTTACTTCAACCTATTTCTTACTGTCTGAACCATCCCCGACTCCTTGCCTGTGGCCCAGATAGACCTCCACACTTCAAGATCCT
TGCCTCTTTCACTTTTAATCTGCTCCTCTTTCTGTAGACATTCTCTTCCTGAYGAGTATCTACGTCCAATAGATTTCCCTGGCTAGGAAGATTCTTCAGT
TGAACAAATGGGGTCTTTACATTTGGCAAGGTATCCTAAATAATATTCATGCCAGGTGCTAAGAGAGACTTCTCAAAAAGGCTGCAGGCATTTGTCTCTG
TGCCCTTTAATATACTTCTTGGTATCATGGGATTTCTTCAGACCTAACCTGAGAAAGTTGTTCTGTTCTATTCCTGCTTGGTTTCCTTGGCCCCTCATCC
AGGCARGCAGACTSACATATAGTCAGTGTGTGTTTATTGTGCAATCACTAAAGAACACATGGGATGGCCATCAAAGATACGAACAACAGAGCCCCCCCTT
TCCCAACATGAAATTACCATTACATAGGAGAGGACTGTGTCATAGGTCTGTCTCCCTTTTTCTTATCTCTTTGGGGGCCCCAGATCCTTATGTCAAGGTG
AACGTCTACTACGGCAGAAAGCGCATTGCCAAGAAGAAAACCCATGTGAAGAAGTGCACTTTGAACCCCATCTTCAATGAATCTTTCATCTACGACATCC
CCACTGACCTCCTGCCTGATATCAGCATCGAGTTCCTCGTTATCGACTTCGATCGCACCACCAAGAATGAGGTGGTGGGGAGGCTGATCCTGGGGGCACA
CAGTGTCACAGCCAGTGGTGCTGAACACTGGAGAGAGGTCTGCGAGAGCCCCCGCAAGCCTGTGGCCAAGTGGCACAGTCTGAGCGAGTACTAATCCTGT
TCTTCTCTCCTCTAATCCCCGGGGGCCAAGCTGGGGAGGGATGTGGAGGGGAAAAAGATGACAGAGAAGTGGACTCCAAACCTCATTTTAGTTGTAGAAG
AAAATTTCTTACAAAACAAATTCCACAAAGAACACCCTATATGACCACAGCTGCAGATCAGTTCTTAGCAATGATGTTTTTTTTTCTGCTTTGCAAGGCG
CTAGAATCTTTTATTTTACTTTATTTTTTTTGAGGTGGAGTTTCGCTCTTGTTGCCCGGGCTGGAGTGCAATGGTGAGATCTCAACTCACTGCAACCTCT
GCCCTCCAGGTTCAAGTGATTCTCCTCCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCCACGAGCATGCCCGGCTAATTTTTTGTATTTTCAGTAG
AGATGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAATTCCAGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGCGAGC
CACCGTGCCCGGCCTCTGGTTTTGTTTTGTTTTTTTTTTTTAATGGGGGACAAAAGAGAGGGAAAGACCCCTATAAATCTATATATAACAATGTAACCAT
ATACTTGCATGTCTAATACAAACTGAAGAAATTAGCCTAACTGCCAATATCAAGTTGCAGATTTTAATCCATGGAAATTGTGTTTTGTGCTGAATTGTAT
TTKCTGATTACCTGAAATTGGCTTCTTTTTATTGGGCTTCTCTGGAGAATTTCTCCCACTCCCCACCTCTGCAGAAGAAAATTTTGCTCTTATAAAACCT
CATGTTTTCATCATTCCYATCTTTTCTTTTTATTGCCTCTTATATCTCTGCTCTTTGACCTCAAGGTCTAGAGGTCTGCAGTAAGCCAAGAAACAAAGGT
GGGGTGGATGAGGCAAGGTTTGCAGGAGAAAGAGGAATTGAGAAATGGGGTATTTTTGCTATCAGCTCTTCTGCTATGAAGTAGTAAAAGGCAGTCTATA
ATTAACTGACAGACCTAACTGAAGCACAGAGAATACATCAGACTTATGCATCCAAGACATCAGAACTTGGATTTTATCAAACTTGATGACTTCTCTAAAA
GGAGCTTTGGAAACTTCAAATTCAGCTATAGGATAGTACCAATGAACACATCCAGCTGATCCCAAAAGCTGTTTTCAGGTATAAGGACAAGGAGAGGAGA
CAAGTGACGACAGCCATTCCCCTTTGCAGCTATCTACTGTAGTGACAGCCATTTCTTGGTTGATGGGTTGGAAGTCATCAGAGGTTTGAAGAATTACACT
GGCCTTTGTTTTTCTGGAAATGCCGACCATGGAGATGCTTTAGAGTCTTCTCAAATAGCTTAGATGTTGTAATGAGGTTAGCTTTGCTTCATAAAACAGG
GGCCCTCAGAAGTTCTCCTTAAATTTTTCAATAAAAATTTAGCTCTTAAAAAAATAACAGTGTGACTGAGTGAATGAAGATAAGTTGGATTCTTTCAGAG
CATTCTTTTCCTCAAAACGAGCTGCATAATTCTTGGAATTTATGTCTTACCACATGGTGGAGGGATGGAGGAACTACAGGATGCAATTCTTCTTCTACCA
ATGGGCAATAGAGGTTGAGAGAGATTCAGCATCTTTCTGGGATTAGAATTCAAGTCTCTTTACTCCTACAGCAGCTGTGTCTCCAACGTTGAGACTTTGC
AGATGGCACAGACTCCATGGATAATAGGTAAACTTGGGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGTATTTTGGGAGGCCGAGGTGGAAAGATCG
CTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCTACATGACGAAACTCCATCTCTATCAAAAATACAAAAAATTAACTAGGTGTGGTGCTGCACGCCTGTG
GTCCCAGCTATTCAGGAGGCTGAGGTGGGAGGATCATTTGAGCCCAGAGGTAGAGGCTGCAGTGAGCCATGATCATGCCACTGCACTCTGGGCTGGGTAA
CAGAGTGAGATCCTGTCTCAAAAATTAATTAATTAATTAATTAAAATAAACTAGGTAAACTTGGATAGGCAGTAGATATTTTTGCCCACCTGAGGAGGAA
CTCAGTCAAGCTGTTGCTTAACAGCTTGATCCAGGGCGTGAAAGGTTAGTTGAGACTGAAGTGTTCACTTCCATAGAAGAACATCACTTTTAACCTTGCT
TTGGCGAAGGGAGTCGGAAAGCTGAGTCTCTATGGACGGGGGGGTGATCTTGCTTTCAGTGTTCCCTCAGCTTTTGTGGATTTAAAACCATTCTGCTCCC
CCTAAACCTTTTGTTTGATTTCAGCCCATGTTCTTGACAATGCAGAGCAATTCTGAGCAGTCACAAAGCCTACTCTCTGTTCTTGTCCCTGCCAACCCCC
ACCCCCCATAATCTGACTCACAACTTCACCATCAGTTGGGGTCATACCACTAGTCTCTGTCCTATACCCCATGAAATGTAAATACTGTATCATAAGTAGA
AGAAAATAATTTTTGTTTTCTAAAAATGCATTTTGAGATAGTTTAATGTAAATCTGACAGGAGCATTCTGAAGCCCCATTAGGAAAAAATTTAAATGGTT
CCTCTTCATCGCCTTAATGTCTAAAGATCAGAAATCGCTGAGCAAACCCGCTTTTGTTTCCTTCCCAGAAACAATGCAAAACAACAGGTGGAGATAGTCT
GGTCTTTGCCCTGCTGTGTGTGCCTCTGTAGCTCCTCCTGACAAACGTCTGGGAAAACAGCCTCACCCCACTCTCCTCTCTCTTCCCCATTTCCTTGTAG
CTTTATTCCTTGCATCTTTGGGTCTACTGAGCAGTGGGTGCTGAGGTGACAGGGGAGGAACCAGTTGTTCTGTAGCCTAGGAACTGCCTCAGTGTCTTTG
CCAGAAAAAGGCAAAGAGGCGGACAGTGCAGGGCTCCTCCCTCCTACCTCAGGCCTGATCCATCGTGCCCTTGACTTTGCCGTCTCAAAGTTTCTTAGCT
GACTTTGGCTTTCACATTTGTTCTTTCCAGAGCTAACTGATAAGAGTGGAGGAGGAATGCCTTCTCCTAAGAGTCAGTTGAAAGAAAGACAAGAGAGTCA
CATCTTAGCTTTTGCACAAGGCATTCGTGGTCAGGAATAGGTTAGGGAATGGTCACTTCTGATTTTCCAACAGTTGCTCCTTCTCTGAAGAGATCTTGAT
TCCTTTGGGAAGACAAGAATTTTTCTTAATAACAAAGGTCCCTTTATGAGTTATTCCTTCTTTCAGTTCATCTCACTGGAGCACAGCCAAGATGGACATG
TTTATGGACAGTGCTCTAGATGTGAAAACAGATAGAACTGGTTTGTGGGACAGGGGCAGCTTGCTCAGGAGAGGGAATAACGCAGGTCCCTTTTCTTGGA
AGGCTTGTACTATGGCCATGACAGTGACATTGCCCTCACCATGATCCCTCTCCAAAGTGGTTGTCTTTYTTTACCTTGTGTCTTCTCTTGTAAAAATGAA
ACTCAAAAATAAAATAAATGTGTCAAATTTTGAAAAAAAAAGAAAACTGAAAAAGCTAACATGAATTGTGTGAAATTGCATAATGCTGTAATGCTAATCT
ACAATATGTAATGCTATCTTGTATSTTGAATTTGTTAATGCMCCACACAAGTGCAAAATAAAGACTGATTCACATTACATAGGCACAGTGATGTCAGCCT
GATTCTCTGGAAAGCTGGAGGACTCTCAGTGAGGTTAACACTCAGACTCCAAAAGGATGTTCTAGGGTGTGTTTTCCAAACTGTGGTCCCCAGACCACTT
GATTCAGAATCATCTGAGGCACTTGTTTAAAAATGCAGATTCCAGGCTCCCATCCTAGATACTCTCATTTGACAAGTGAGTTGGTTTGCTGCTTGCTGTA
GTTAGGACTTCTGGTCTTTCTGTTTTCCTCTTGAAATGTAATTTCTGAGACCATCACTACCAGAGGGAGAGATGATGGTTCGTAGTGCTGAGAATCAATC
TGCCCCTTTAATTGGAAATATTTATCCCAAAAAGCAATCCTGAGACAGGCCAATTCTGTTCCCTCATTCATTCATTTACTTTTTTTTTTTTTTTTTTTTT
TTTTTAGACAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCTCAATCTCGGCTCACTGTAACATCCGCCTCCTGGGTTCCAGCGACCTCAAGCAGC
TGGGACTACAGGTGCGTGCCACCAAGTTTGGCTAATATTTGTATTTTTAGTAGAGATGGGGGTCTCACCATATTGGCCAGGCTGGCCTGAAACTCCCGGC
CTCAAGTTATCCTTCTGCCTTAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTCAAGGCCTGTCAGGAGCTATGAAGGATCTC
CCTAGACCTGAACATGGGAGGATGTGGGGCTGAGGCTTCTGTAGTCACTGTGCCCCAGAGAGGAGAGAGCCTGAGAATGGAGCCTGCACAGAAGTACAGC
TAAAACAGGGGGAGAGAGAAATCAGACTCCATGACATCTTTGACCTCAGATGAAGCCGTGTCTTCAGACAGATCTGAGCCTTCTCAGTTCCAAGGCTTAA
TAAATTACCTTTTTCTTTTCTTTTTTTTTTTTTTTTGAGATGGAGTCTGGCTTTGTCGCCGAGGCTGGAGTACAGTGGCGCAATCTTGGCTCACTGCAAG
CTCTGCCTCCCGGGTTCACCCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATGTTTTGTATTTTTA
GTAGAGACGGAGTTTCACTGTGTTAGCCAAGATGGTCTTGATCTCCTGACCTTGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTG
AGCCACTGCGCCCAGTCAAATTATCTTTTTCTTTATGCAGCTTGCACTGGGTTATGAAAGTTTAATTTCTGAGTGAAACATTAAATGGCAAAAGTTAATG
TTTGATGTTTGGCTTGAATAATTTTCTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCG
TGATCTCGGCTCACTACAAACTCCACCTTCCAGGTTCAAGCGATTCTCCTGCATCAGCCTCCTGAGTAGCTGGGACTACAGGAGGGCGCCACCATGCCCG
GCTAATTTTTATATTTTTAGTAGAGACAGGATTTCAACATGTTGGTCAGGCTGGTCTCAAACTCCTGACTTCGTGATCCACCCGCCTCAGCCTCCCAAAG
TGTTGGGATTATAGGTGTGAGCCACCACACCCAGCCATAATTTTTTTTTTCAACTTTCATTTTAGATTCAGGGGGGACACATGTGCAGGTTTTTGTTATC
TGGCTTTATTGAGTGATGCTGGGATTTGGGATCCTAATGATCCTGTCACCTAGATACTTAGCATAGTACCCAGTTGTTCGTTTGTTTGTTTTAAAACAGT
CACTCTATTGCCCAGGCTGGAATAGAGTGGCGCAATCATGGCTCACTACAGTCTCGACCTCCTGAGTTAAATTGATCCTCCTACCTCAGCCTCCCACATA
ACTGAGACTGGTGCACACCACCATACCTGGCTAATTTTTTTTTTTTTTTTTCTTGAGACAGAGTCTCACTCTATTGCCCAGGCTGGAGTGCAGTGGCACG
ATCTCGGCTCACTATAAACTCTGCCTCCCAGGTTCAAGCAATTCTTGTGCCTCAACCTCCTGAGTAGCTGGGATTACAGGCACGCACCACCTTGCCCGGC
TAATTTTTGTATTTTTAGTAGAGATGAGGGTCTCACCATATTGGCCAGGATGGTCTTGAACTCCTGACCTCAGGTGACACACCTGCCTCGGCCTCCCAAA
GTGCTGAGATTACAGGCTTGAGCCACTGTGCCCGGCCACCTGGCTAATTTTTAAATTTTGTTTTGTAGGGATGTGGCCCTCACTATCTTGGGAAGGCTGG
TCTTTTTTTTTTTTCCGGGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACAGCAACCTCCGCCTCCTGGGTTCA
AGTGATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGGATTGCAGGCATGCATCACCACACCCCGCTAATTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTT
CACAATTGTTTCCCAGGCTGGAGCGCAATGGCACAATCTCGGCTCACCGCAACCTCCGCCTCCAGGTTCAAGCAATTCTCCCTGCCTCAGCCTCCCAAGT
AGCTGGGATTACAGGCCCGCACCACTACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCTCTGGTCTTGAACTCCTGACCTCAGGTGATCC
ACCCACCTTGGCCTCCCAAAGTGTAGGCCGATAGTTTTTAAACCCTCCCCCTTCTGGTAGTCCCCAGTCTCTATTGTTGCCGTTTCTGTGTCCATAAGTA
CTCAATGTTTAGCTCCCTCTTACTAGTAAGAACATGCAGTACTTGGTTTTCTGTTCCTGTGCTTAGGATAATGGCCTCTCATTCATTTATTAGTCAACAA
ATATTTATTTGAGTGTCTACTATGTGCCAGGCACTACAGATACAATACATTGGTGAACAAGAGTGCTGTTCTTGTAGAGTGTAGCAGAGGACAATATTAA
TCAAATAATTACACTAATAAATATATGATTACAAATTAGGAAATGCTCTAAAAGAAAAGAAACACAGGCCGGGTGCGGCGGCTCATTCCTGTAATCCCAG
GACTTTGGGAGGCCAAGGCGGGCGGATCACCTGAGGTTGGGAGTTGGAGACCAGCCTGACCAACACGGAGAAACCCTGTCTCTACTAGAAATACAAAATT
AGCTGGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGTACCTGGGAGGCAAAGGTTGCGGTGAGCCGAGA
TTGCGCCATTGCACTCCAGCCTGGGCAACAAGATCAAAACTCCATCTCAAAAAAAAAAAAGAAAGAAAGAAAGAAAAGAAACACAGGAAAATGCAACACT
CTAGGGTAATATACTGGGGGTAATATGACCCTTGCAACTGCTCTTTGTGGATTTCTCTACATGCCTTAAAGTCTGGAGTGATTCACTTTTCATATTTTCT
GTTCTGTGTAATTTATCCTCCCTGTGAGAGGAAGAGAGAATGGAAGGAGAATCAATTCCTGCTCTTTAAAAGTTTCAGTGAAGGAACTACAAAATATTTT
CAAATTATAAACTAATATAAGCACATTATAAGAAAACTGGAGCAGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTCGGGAGTCCGAGGCAGGCGGA
TCACAAGGTCAGGAGATCGAGACTATCATGGCTAACATGGTGAAACACTGTCTCTACTAAAAATACAAAAAAATTAGCCAGGCATGGTGGCATGCACCTG
TAGTTCCAGCTACTTGGGAGGCTGAGACAGGAGAATCACTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGTGCCACCGCACTCCAGCCTGGG
CAACAGAGCGAGACTCCATTTAAAAAAAAAAAAAGAAAACTGGAACCAGATGCAGTAGCTCACAGCTGTCATCCCAGCACCTTGGGAGGCTGGGGCAGGA
GGATTGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACAGGGAGACCTTGTCTCTACAAAAGTCAAAAACTTAGCTAGGCATGGTGGCGTGTACCTG
AAGTCCTGGCTACCTGGGAGGCTGAGGTGGGACATCCCTTGAGCCCAAGAGTTCAAGCCTTCTGTAAGCCATCATAGTGCCACTGCACTCCAGCCTGGGT
GACAGAGTAAGACCTTGTCTCAAGAAAAAAGAAAAAATTGGAAAATAGAGAAAAGAAAAAAATAGTCAAGATTCCAAAATCTTAATAATTACTTTGTCTC
TTTATTTTTTTATTTTTTATATTTATTTACTTATTTTTATAAATAGAGACAGGGTGTTGCTCTATTGACCATGGTCTCGAACTCCTGGTCTCAAGCTATC
CTCCTGCCTCAGCTTCCCAAAATACTGGGATTACAGGCATGAGCCACCGTGCCTGGGCCCATTTTGTCTTCTGAGCTTATCTCTTGTGCATATTTTTCTT
GATACATCACTCAGAATCAATGTAGAAAATATGTAAAATAAAGTTCAAGTCATAGAAATAGGGGGAAATCCACTCAGAGGCAAGCATTGCTAATTTTGGC
ACATCTTCCAATTTGTTTTAACTTATGATTGCAATCATGGTATGTATATCATTTTGTATATTACTTTTTTCTAGATGACTGTCTTAAAAATAACAACATC
ATCATATCACAATGATGGTAAGATTATCTTGGCACTCAGCATACTTTTGGCTACAATTAACAGGAAACCCATTTCAAGTTGGCTTAAACATTAAGAAAAT
GCATCAGCTAACCTAACTGGAAGTCCAAAGGTGGGGTAGCCTTCCAAGTTGACTTCTGCAAAAGGTCACTAATACTGTCAAGGACTCAGATTCTTTCCGT
GGGTCCCCCCTGACATTCAATGTCAGCTTCATCCTGTGGCTTTCATCTGATGAACCACTCCCAAGGTTTCTTGCTTCCTCATTCACCGCCAGGTGGAAAG
AGGAGATGGCTCAGGACCTTTCCCAGAAAAATAAGAGAGCCTTATTCCCAGAATAAATTCTGAAAAGCCTCTAGCAATCCTCTCATCTGTTTTTCCTGAT
CCAAAATGTAACATGGTCATTTCTGAACCAAACATTGACAAGGAGGATGGAATTTTCTTTAGATCACTTAGGACTGTCCTGGAGCTGGGCACGGGAAAAA
GGTGAATTCTTGAATGAAATGTCAGTTTTTCTGGAAGGAGGAATAGATGCTGGGCGGGCAGCCAACCAAGAGCACTGCAGTAGTCCACCCTACCCTAATC
CTGGGTTTTGTTTTCTGCAGTTTCACTTACCCACAGTACAACACAATAAAATACTCTATTTTGAGAGAGACCACAGTCATGTAACTTTTATTACAGTGTA
TTTTTATAATTGTTCTATTTTATTAGACTGTTGATAATCTCTTACTGAATCTAATTTATAAATTTAACGTTATTATAGATACATGTGTATAGGAAAAAGT
ATACATAGGGTTCGATACTATCCATGATTTCAGGCATCCTCTGGGGATCTATGAATGTATCCCTTGTGGATAACCGGGAGCTACTGTGCCTTGTATTTTT
GTTTGTTTGTTTTTTTGTTTTCGTTTTTGTTTTTGAGATGGAGTTTTGCTCTTGCTGCCCAGGCGGGTGTGCAATGGCGTGATCTCAGCTCACTCCCAGG
TTTAAGCAATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGAATACAGGCATTGCACCACCACGCCCAGCTAATTTTGTATTTTTGGTAGAGAAGGGGTTT
CACCAGGGTCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGCGCCCAGCCA
CTGTACCTTGTTTTCTATAGACCTCTCACTCCAAGGTGCTTTTTCATGTGATCTCCTTATAACAAACTCCCAGAAAAGAGTTGCCCA


SNP Information

Context             (SEQ ID NO:16693):
ATTTCCCACCAAGCTTTGGACTAAAGCAAGACAGAGAGCTCTAGGTTTTAATATCTTTGATGATTCTAGCTCATTGTCTTGGTTTCAGGGAGAGAGGCAA
R
AGTTAACAAATACTAAAATGAAGAAAGAACAGCAAAAATAGGAAACAAGGCCAGGGGGAACAACTAGATAATTCAAAGATGCGTTCATCTGTTTCTCTTC
Celera SNP ID:            hCV27979146
SNP Position Genomic:     8902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16694):
GAGAGGGAATAACGCAGGTCCCTTTTCTTGGAAGGCTTGTACTATGGCCATGACAGTGACATTGCCCTCACCATGATCCCTCTCCAAAGTGGTTGTCTTT
Y
TTTACCTTGTGTCTTCTCTTGTAAAAATGAAACTCAAAAATAAAATAAATGTGTCAAATTTTGAAAAAAAAAGAAAACTGAAAAAGCTAACATGAATTGT
Celera SNP ID:            hCV11341169
SNP Position Genomic:     31469
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:16695):
GACCGTCGCAGGAGGCGTCCGCTGGATACCTTCCCCCTTCCCTGACCTAGAGCTCTACAGCTGCTGCCTCGGTACTGACCGAGGGTTCCCAGAGCTGTCT
Y
ACCATTGCAAAAACGTTATAGCAACAGCCTCTGATTACGACATGGCTGAGATCACCAATATCCGACCTAGCTTTGGTAAGTAGACTCGGGAAAACTAAGC
Celera SNP ID:            hCV9102201
SNP Position Genomic:     6209
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,21|T,17)   total(C,53|T,23)
SNP Type:                 UTR 5;SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;JBIC-allele(C,350|T,1125)   total(C,350|T,1125)
SNP Type:                 UTR 5;SILENT MUTATION;hmCS


Context             (SEQ ID NO:16696):
ATTCGGAAGAGGCGGAGTCTTCTTCCGAGGACCATTCGGAAGAAGGCGGAGCCTACCTCTCATCAGGACCAGTCTGACTGCACCTGCATCCTTAGCTCAG
M
GCATCCCCGGAGCATCTTAAGAGCTGAGCGCAGCTGACAACTAGGGGCCGGACCGTCGCAGGAGGCGTCCGCTGGATACCTTCCCCCTTCCCTGACCTAG
Celera SNP ID:            hCV9630763
SNP Position Genomic:     6058
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,6)   caucasian(A,32)   total(A,58|C,6)
SNP Type:                 UTR 5;UTR 3;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,27|C,5)   caucasian(A,38)   total(A,65|C,5)   
SNP Type:                 UTR 5;UTR 3;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 5;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:16697):
CCCTGCAGCCAGCCCGGTCCTGCCTTTCATTGCCTGAAGGAACTGCTACTGCCACCTGGCACACTCAGATCCATGTCACGGGCCAGGGAAGTCCAAGAAT
Y
TTGAAGAATATTAGACACATTTGTGATTGTGATTTAGGGTAGAGGTGGCCCTCAGGACATCTGGCCCCAAGAAGGGTTTATTGAGGTTATGTTCATCCAC
Celera SNP ID:            hCV3138028
SNP Position Genomic:     17401
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16698):
TCAAAATAAAAAATAAAAAATAAAAAATAAAAAAATAAAAGAAAATATGGCCAGGCACAGTGGCTCACCCCTGTAATACTAGCACTTTGGAAGGCCAAGG
Y
GGGAAGCCCAGGAGTTTGAGGTTGCAGTGAGCTATTACCACAAACTGCACTCCAGACTGGGCAACAGATCATGTATGTGTATTGCAGGGAGGAAAAGGGG
Celera SNP ID:            hCV3138029
SNP Position Genomic:     18655
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16699):
TGGCTGTCATCTCCCTAGTCACTCATCCACTAGGTTCCCTAGAAGTGCAGGCTGCAAATGTCTATCCCAAATCCTCCCTACCATAGCAAAGTAGGATCTC
Y
CCTTGGTGAACGTCAGCTAGAGCTGCCCTGGACCATGCCACACTGGCTGTAAAGGGCTTTTTCCTGGTCTGGATTACATAGACCAGGAAAAAGCTACTGC
Celera SNP ID:            hCV9630780
SNP Position Genomic:     18421
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16700):
AATATATGTATACATAAATACATATATATACACACACACATATATACATATATACACACACATATACATATATACACATACACACACACACACACACACA
Y
ATATATATATACATACATACACACACCTATTTTTTTGCCTACAATGGATATATTCATCCTGGAGGAATACCTTTTTTTTTTTTGAGACGAAGTCTTGCTC
Celera SNP ID:            hCV27064950
SNP Position Genomic:     13479
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16701):
TTCATTTGATGTGGCTAATAGTAAAAATGAGTTTATATTCACTGATTACATTCTGATTTCTGGCAAAAGGAAAAAGCCCAGAAGTATACTGGTTGGCAAG
R
GCAACCAGACTGTAATTCAAAACTGGCTGAGGGCCAGGCATGGTGGCTCACGCCTATAATTCCAGCACTTAAGGAGGCTGAGGTGGGCGGATGGCTTCCA
Celera SNP ID:            hCV9630781
SNP Position Genomic:     20473
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16702):
GATTACAGGTGTGTGTCACCACACCTGGCTAATTTTTGTATTTTATTTTAGCAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTTTTGAACTCCTGAC
Y
TCAGGTAATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATAACAGGCGTGAGCCGCCACACCCGGCCTATTTCTGTTTAGTTATTTGTTCATCCAACAC
Celera SNP ID:            hCV27064951
SNP Position Genomic:     12838
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16703):
AAAAAAATCTATTTCTCTTTCTCTTTTTTTTTTCTTTTTTTTTTTTTTTGAGATGGGGTCTCGGTCTTTTGCCCAGGCTGGAGTGCAGTGGCACGATCTC
W
GCTCACTATAACCTCCACCTCCCGGCTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGTGTCACCACACCTGGCTAATTT
Celera SNP ID:            hCV27064952
SNP Position Genomic:     12672
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16704):
CGGTGGTGGCCGGCCTCATCGGGGCCTCTGTGCTGGTGGTGTGTGTCTCGGTGACCGTCTTTGTCTGGTCATGCTGCCACCAGCAGGCAGAGAAGAAGCA
S
AAGAACCCACCATACAAGTTTATTCACATGCTCAAAGGCATCAGCATATACCCAGAGACCCTCAGCAACAAGAAGAAAATCATCAAAGTGCGGAGAGACA
Celera SNP ID:            hCV9630769
SNP Position Genomic:     14561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:16705):
CTGTAGTAGGCACCTGTCCCCCTGCAGCCAGCCCGGTCCTGCCTTTCATTGCCTGAAGGAACTGCTACTGCCACCTGGCACACTCAGATCCATGTCACGG
G
CCAGGGAAGTCCAAGAATTTTGAAGAATATTAGACACATTTGTGATTGTGATTTAGGGTAGAGGTGGCCCTCAGGACATCTGGCCCCAAGAAGGGTTTAT
Celera SNP ID:            hCV11258963
SNP Position Genomic:     17382
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,9)   total(G,1|-,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16706):
ACCAGTGCAGATGAAATTATACCTGCCTCTCATGTAATCTGGACATTATGCTCATAGTATTGTGCTCATGATGCTCATAGGCTTTCTAGAGAAGATAAAC
S
CTTCATCTAGGTTTGGAGGGAAGAAAAAGCCATGGATTGGTTGGAGAGGATAGGAGAGGATACCTCTAATAGAAGGGAAAACAGTAGGCATTATACTAAT
Celera SNP ID:            hCV27957600
SNP Position Genomic:     10957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16707):
ACTTGCATGTCTAATACAAACTGAAGAAATTAGCCTAACTGCCAATATCAAGTTGCAGATTTTAATCCATGGAAATTGTGTTTTGTGCTGAATTGTATTT
K
CTGATTACCTGAAATTGGCTTCTTTTTATTGGGCTTCTCTGGAGAATTTCTCCCACTCCCCACCTCTGCAGAAGAAAATTTTGCTCTTATAAAACCTCAT
Celera SNP ID:            hCV27490623
SNP Position Genomic:     28703
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,85|G,1402)   total(G,1402|T,85) 
SNP Type:                 INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:16708):
AAATTTTGAAAAAAAAAGAAAACTGAAAAAGCTAACATGAATTGTGTGAAATTGCATAATGCTGTAATGCTAATCTACAATATGTAATGCTATCTTGTAT
S
TTGAATTTGTTAATGCACCACACAAGTGCAAAATAAAGACTGATTCACATTACATAGGCACAGTGATGTCAGCCTGATTCTCTGGAAAGCTGGAGGACTC
Celera SNP ID:            hCV27470759
SNP Position Genomic:     31625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:16709):
TTCAATGGCTCTTTCAAAAGAAAGAGCCATTGACATAGCTACTTGGAATGGGAATTGGGTAGAAAGAGAAAGGGAGGGAGCTTGAGGGAATGACATTAAA
Y
TGCCTTCAATGCAGAATGGAGTGGCATTCAGGTGGTGTTGTGGCTACAGACTTGGGCATCACAAAGCGGCGCTGAGTGGGGATGGGCATGCTGCCCGTGT
Celera SNP ID:            hCV3138030
SNP Position Genomic:     19263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16710):
CATCATCTCCAGAGGAGGATGTCATGCTAGGATCCCTCACCTTCTCAGTGGACTATAACTTCCCGAAAAAAGCCCTGGTGGTGACAATCCAGGAGGCCCA
Y
GGGCTGCCAGTGATGGATGACCAGACCCAGGGATCTGACCCCTACATCAAAATGACCATCCTTCCTGACAAACGGCATCGGGTGAAGACCAGAGTGCTGC
Celera SNP ID:            hCV9630770
SNP Position Genomic:     14963
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,40)   total(C,69|T,9)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:16711):
CCGACTCCTTGCCTGTGGCCCAGATAGACCTCCACACTTCAAGATCCTTGCCTCTTTCACTTTTAATCTGCTCCTCTTTCTGTAGACATTCTCTTCCTGA
Y
GAGTATCTACGTCCAATAGATTTCCCTGGCTAGGAAGATTCTTCAGTTGAACAAATGGGGTCTTTACATTTGGCAAGGTATCCTAAATAATATTCATGCC
Celera SNP ID:            hCV3138035
SNP Position Genomic:     27253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   JBIC-allele(C,192|T,721)   total(C,192|T,721) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16712):
TTTAATATACTTCTTGGTATCATGGGATTTCTTCAGACCTAACCTGAGAAAGTTGTTCTGTTCTATTCCTGCTTGGTTTCCTTGGCCCCTCATCCAGGCA
R
GCAGACTCACATATAGTCAGTGTGTGTTTATTGTGCAATCACTAAAGAACACATGGGATGGCCATCAAAGATACGAACAACAGAGCCCCCCCTTTCCCAA
Celera SNP ID:            hCV3138036
SNP Position Genomic:     27506
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16713):
CCTTTCACCCACATTTTATAGGTGAGGAAACTGAAGTACAGAGATGTTGAGTAACTTGTCCAAGGTCACAGATAAGAAATAGCAACTGGGCATGGTGGCT
Y
ATGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCGGGAGGATCACTTGAGACCAGGAATTCAAGACCAGCCTGGGCTACACAGTGAGACTCTGTGTATA
Celera SNP ID:            hCV27064941
SNP Position Genomic:     26415
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16714):
TTGGCTTCTTTTTATTGGGCTTCTCTGGAGAATTTCTCCCACTCCCCACCTCTGCAGAAGAAAATTTTGCTCTTATAAAACCTCATGTTTTCATCATTCC
Y
ATCTTTTCTTTTTATTGCCTCTTATATCTCTGCTCTTTGACCTCAAGGTCTAGAGGTCTGCAGTAAGCCAAGAAACAAAGGTGGGGTGGATGAGGCAAGG
Celera SNP ID:            hCV3138037
SNP Position Genomic:     28818
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,9)      total(G,9|A,7) ;JBIC-allele(A,301|G,1180)   total(G,1180|A,301)   no_pop(A,-|G,-)   (G,-|A,-)   Gaucasian(G,20|A,60)   African-American(A,21|G,59)   total(G,79|A,81) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:16715):
TGCAGTGAGCCGAGGTCTCGCCACTACACTCCAGCCTGGGTGACAGAGCGAGAGACTCTGTCTCAAAAAATAAAATTAAAAAATAAATAAATAAATAAAT
W
AATTAATTAATTAAAAAAGCCTCCCCTGAATCTCCCAGCTCTAGGTGCCCAGAGCACTTAGACAGGCTTCTCATTTCTCTGACAAGTCCCGCACAGGTTT
Celera SNP ID:            hCV27064942
SNP Position Genomic:     25391
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,6)      total(A,6|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16716):
AGGTTGCAGTGAGCCGAGGTCTCGCCACTACACTCCAGCCTGGGTGACAGAGCGAGAGACTCTGTCTCAAAAAATAAAATTAAAAAATAAATAAATAAAT
W
AATTAATTAATTAATTAAAAAAGCCTCCCCTGAATCTCCCAGCTCTAGGTGCCCAGAGCACTTAGACAGGCTTCTCATTTCTCTGACAAGTCCCGCACAG
Celera SNP ID:            hCV27064943
SNP Position Genomic:     25387
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,7)      total(A,7|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16717):
AATTTTTTTGTATTTTTTTAGTAGATACCAGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGAACTCGTGATCCGCCTGCCTCGGCCTCCCAAA
R
TGCTAGGATTACAGGCATGAGCCACTGCTCCCGGCTATAGCGGCCTCTTAACTGAGCTTTCTGATGTTGGTCTTCCTCGACTTTAGCTCATTTTCCACCT
Celera SNP ID:            hCV27064944
SNP Position Genomic:     24305
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16718):
GGAAGCTCTTGGATGTCAAGGATAAGCAGTGGTCAGAGTAAGACAGAGGGCCTGGCAGATGAGGTCTCCTCTAAGAAGCAACTTCCTGGTGAGAGAAGGT
Y
CAATAGCTTTCACCATTTCACTTAGTGGTTGGCATCCTGATGCTGTCCAGCTTACTTGGAACAGGCTGGCCTACCATTTGTAGATCCTTCATTATATCAG
Celera SNP ID:            hCV9630774
SNP Position Genomic:     15492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16719):
ATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCGCAGCCTCCCCAGTTGCTGGGACTACAGGCGCCAGTCACCACGCCCGGC
K
AATTTTTTTGTATTTTTTTAGTAGATACCAGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGAACTCGTGATCCGCCTGCCTCGGCCTCCCAAA
Celera SNP ID:            hCV27064945
SNP Position Genomic:     24204
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16720):
TTGGGCTCCAGAATTGGACTGCACGACTTTACTCTCCAGCTTACCACTTGCCAGCCGTGTGACACGGGTGAGTTACTCGACCCCTCTAAGCCTCTATTTT
S
TCATTTGTAAAATGGAGCTGATAATATTGTCTTCCTTACAGAGAATCAAATGAGATAATATGCCTGGCATATGATTGCCCTTGAAGAGGTTTCACTTTAT
Celera SNP ID:            hCV9630775
SNP Position Genomic:     16461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16721):
ACTCTCCAGCTTACCACTTGCCAGCCGTGTGACACGGGTGAGTTACTCGACCCCTCTAAGCCTCTATTTTCTCATTTGTAAAATGGAGCTGATAATATTG
Y
CTTCCTTACAGAGAATCAAATGAGATAATATGCCTGGCATATGATTGCCCTTGAAGAGGTTTCACTTTATTGAAGGAGAAAGACAAATATTTTTTGTAAT
Celera SNP ID:            hCV29332646
SNP Position Genomic:     16491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16722):
GGCGCCCGCCACCACACCCGGCTAATTTTTCTATTTCTTTTTTTTTTTTTTTTCCTGAGACGGAGTCTTGCTCTGTTGCCCAAGCTGGAGTGCAGTGACT
R
CAATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGACTACAGGCACCCGCCACCATGCTTG
Celera SNP ID:            hCV27064946
SNP Position Genomic:     23515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16723):
AAGAGCCACATTTCTTTCCACTTTATTAACTCCCTTGAGGAGGGATAAGCCAGGGCTAGGATCCTGAGCAACACATGCCCTGGAGAAGGCCCGAGATAGG
W
TACCCAGAGCCTGTGCAGCCCCACCCTAGAGCCTTCCAGCCTCCCAGGCTTCCTAAACCCATTTTCCCAACCAGTGCCCGTAGGCAGGACTATGTTCCAT
Celera SNP ID:            hCV9630776
SNP Position Genomic:     18212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16724):
TGAGACACCAGAATCGCTTGAACCCAGGAGGTGGGGGTTACCGTGAGCTGAGATCGTGCCACTGCACTCCAACCTGGGTGACAGAGCAAGACCCTGTCTC
R
AGGGGAAAAACAAACAAAACAAACAAAAACACATTGGCTGAGGGACCAAGCATGGTGGCTCACACCTGTATTCCCAGCACTTTGGGAGGCTGAGACGGAT
Celera SNP ID:            hCV27064947
SNP Position Genomic:     20760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16725):
TAATTCCAGCACTTAAGGAGGCTGAGGTGGGCGGATGGCTTCCACTCAGGAGATCAAGACCAGCCTGGCCAACGTGGCGGAAACCCCAGACATGGTGATT
S
ACGCCGGTAATCCCAGCTACTCAGGAGGCTGAGACACCAGAATCGCTTGAACCCAGGAGGTGGGGGTTACCGTGAGCTGAGATCGTGCCACTGCACTCCA
Celera SNP ID:            hCV27064948
SNP Position Genomic:     20630
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16726):
TTTTATATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGTCTGGTCTTGAACTCCTGACCTCAAATGATCCACCTGCCTCAGCCTCCCAAAGTGCC
R
GGATTACAGGTGTGAGCCACTGCACCCAGCCTTGTATTTTATATACCTGGGAGCTAAAATTTTGGAACATATTTTAAAAGTACATAAACCCAGAATTCTT
Celera SNP ID:            hCV27064949
SNP Position Genomic:     13814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16727):
GTGAGCCGAGGTCTCGCCACTACACTCCAGCCTGGGTGACAGAGCGAGAGACTCTGTCTCAAAAAATAAAATTAAAAAATAAATAAATAAATAAATTAAT
W
AATTAATTAAAAAAGCCTCCCCTGAATCTCCCAGCTCTAGGTGCCCAGAGCACTTAGACAGGCTTCTCATTTCTCTGACAAGTCCCGCACAGGTTTATTT
Celera SNP ID:            hCV15837167
SNP Position Genomic:     25395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,10)      total(A,1|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16728):
GAAAACTGAAAAAGCTAACATGAATTGTGTGAAATTGCATAATGCTGTAATGCTAATCTACAATATGTAATGCTATCTTGTATGTTGAATTTGTTAATGC
M
CCACACAAGTGCAAAATAAAGACTGATTCACATTACATAGGCACAGTGATGTCAGCCTGATTCTCTGGAAAGCTGGAGGACTCTCAGTGAGGTTAACACT
Celera SNP ID:            hCV9632015
SNP Position Genomic:     31642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:16729):
ACTTCTTGGTATCATGGGATTTCTTCAGACCTAACCTGAGAAAGTTGTTCTGTTCTATTCCTGCTTGGTTTCCTTGGCCCCTCATCCAGGCAAGCAGACT
S
ACATATAGTCAGTGTGTGTTTATTGTGCAATCACTAAAGAACACATGGGATGGCCATCAAAGATACGAACAACAGAGCCCCCCCTTTCCCAACATGAAAT
Celera SNP ID:            hCV9632016
SNP Position Genomic:     27514
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16730):
TTCCCTACGCTTCACAGCCAATTAACTGCCCAAGCCTAAAAACCCCTGACAATTCTTCCTGAGACATATTTTACCTCCATGTCCATCTCCTCTGCCACAG
Y
CCTAGTTCCAGTCCCAATCATTTCTTCTGTAGCACGTTGCTACAGAACAACGAAGTCTGCTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAG
Celera SNP ID:            hCV9632017
SNP Position Genomic:     23224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16731):
TAAGAGCTGAGCGCAGCTGACAACTAGGGGCCGGACCGTCGCAGGAGGCGTCCGCTGGATACCTTCCCCCTTCCCTGACCTAGAGCTCTACAGCTGCTGC
S
TCGGTACTGACCGAGGGTTCCCAGAGCTGTCTCACCATTGCAAAAACGTTATAGCAACAGCCTCTGATTACGACATGGCTGAGATCACCAATATCCGACC
Celera SNP ID:            hCV25645839
SNP Position Genomic:     6176
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,38)   total(C,74|G,2)
SNP Type:                 UTR 5;MISSENSE MUTATION;hmCS


Gene Number:                 41
Celera Gene:                 hCG1723753 - 148000117677850
Gene Symbol:                 AGTR2
Protein Name:                angiotensin II receptor, type 2;AT2
Celera Genomic Axis:         GA_x5YUV32VSB2(375239..391057)
Chromosome:                  ChrX
OMIM number:                 300034
OMIM Information:            ANGIOTENSIN II RECEPTOR, TYPE 2;AGTR2


Genomic Sequence (SEQ ID NO:12201):
TGTAAACTAATTCAAGCCTTGTGGAAGTCAGTGTGGCAATTCCTCAGGGATCTAGAACTAGAAATATCATTTAACCCAGCCATCCCATTACTGGGTATAT
ACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATG
TCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACA
TGGATGTAATTGGAAATCATCATTCTCAGTAAACTATCGCAAGGACAAAAAACCAAACACTGCACGTTCTCACTCATAGGTGGGAATTGAACAATGAGAA
CACATGGACACAGGAAGGGGAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGATGGGGGAGGGATAGCATTAGGAGATATACCTAATGCTAAATGA
CGAGTTAATGGGTTCAGCACACCAGCATGGCACATGTATACATATGTAACTAACCTGCACATTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAA
TAATAATAATAATAAAAAGAAGTGATAAAAATGTTTTGGAATTATATAGTGGTGATAGCTGCACAACTTCATGAATATACTAAATATATTTTTAAAACGG
TGCATTTCATATGTAAATTATATCTCAGTTTAAAAAAACAATTAAAAGAAGAATAATTTCAGTTGTGTGATCAGTATAAAATATAACCAATAAAAAATAG
GAGTGTTACTGCTGAAACAACATGCAATAAATTAATTGTAAAGAAAGCTGTCAACTTCTAGATACCCAAGTATGAGCTAGTTTCTTTGTGGGTGTATTGC
AAATTATTTACCGTAAAAATTCTGCTTTCCCGTTGTACATTTTACAAATCCTTATTGAAAACCACGAATTCAAATATCTGTAGGGTAAATATCTAAAAGC
TCAAGCACTCTCATAATTCCTAGTGATAAACTTCCTGTTTTCATTTCCTTGGAGTAAAAACCTCAAGATCCACCCAGAACACCACCCCAAACTTCCTGTC
ATCTTGTTCTATCTTCTTTTTTTTTCAAATTTTATTATTATTATACTTTAAGTTTCAGGATACATGTGCACAACGTTGTTTTGCAGCTCAAAAGCAAAAA
TATCCAAAATTGTACAACTCTTTTTTGTTTTTGTATCCTTTTAGGAGCTTGAAAAGTGGTTGGGGTAAATGACTCCCTTAAACAAAGCTAAATAACCATT
TGCTCTGAATTGATGGTCAGTTTTGGAGAGATGATTATTTTGCCTCTTTCCCTGTCTCTTTGGTGAGGGATTGTTCTCTCTAATCTCCAGCTTTGAGAAT
TTGTCCAATCAATCAAAGCAGATCTTGAATTACTTCTAGGCCACCTGGACAGGGACTTAATTATAGCTTCATCAATAATAGTAATATTTCAAATAATGTA
TCAACAGAATGGGGTGACTACCAGAAAAACAGGGTTCAGAGAGGCAAAACTGTTGAGAGAATGACTTGGAGGGCTCATCAATCTGGCAACCCGAGTGATA
ATCCCTGACAGAAATTTCCCGAAACTAAAGCAAAATAGGTTCCCAGTTACCAGCTTTCCTGATCTGATTGCAAAGTTACCAAGCCAGATTTACCTTGTTT
CCTAATATTGGGATGGAGATGAAGAGGGTGCTTCAGATAAGGAACGCAATCTTTGTGGTCACTGGAAAGTAGTATATCTCTATTGCAAAGTAATAAATTA
ACAATCAAAGTACTATATCAGTTTTGAGATAATTTGATTGACATGAGCCATCACTGAGAGCCTGGGTATTCTGAGAAAGTTCAATATCTAGACCTAAAGC
TCAAGGACCAAACTCTAGCTTAACAATTTGTTGATCCACTGCCCTATGAGAGTTCTAACCTGACAACATCTCCCCAAAACATCCCCCCAAAACATCCCCA
TCGCCTAAGAGTGGTGTTTAAATATTTCCAAGACAGCTTGTTGGTTTGGCCAATTTAGTCAATTGGCAATTTTGGATAATTTAGTCAAGCTATTTAATTT
AGTCATATCAGTGGGAGAAATGTCAAATCATTTAGCTGATATTTGGAATGTAAACAAAAATATAGATAATTTTCATTTAAAATTTTTTTCCACCAGTTGG
TTTATATAGCATTTGAGGATAGAACTAGGGTGCCTTTTGCAAGATTCTAGTCTGAACATGGTGCTCAGGCCTGAAGCTGTCTTTGGGGCAAAGGGAAATT
AGAACTCTCCCTTCTCCTTATGTTCTTGGGACCAGATTCAGCTGGAAGCAGCTGGTCTCAAGAATGTACTGAGTCTGACATCCATTCATCTCACTACATC
AGTTTCACCTTAACTTACTTAATAGTCCTCTGTGTCACTTTTCATGTGATGCGTAGACAAAGAGGTAGTTTGATGAAAATAATCACTCATGTTGGGCATT
TCACTGAATTTTAAGCTGGTTTCTACAAAATGGCCAATCTGATTGTTATTTCTGAATAAAAGACCTTATTTTTTTTTCCATTTGCTTTAATTGTGACATT
TCACAGACAGGCACAAAAATAATATGCAAAGATTCATCAATAATGGGCAATCTTCTTAACTACCCTCCTTTTAGAGACCCCCAGGTTAGGAAAAGTCCAG
TGACAATTAAAGCAAGGCTACTCTATGGGTAAGTGAATTAAAGAAAAGTTGGTATAAAGTATGTACGTGGGTACATGGGTATGAATGGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTTGAAGTTGAGAGAAGTGGCAATGATATTGGCACTCAGTGTGGTGGCTGGGGTTGGGGAAAGTTAAAATGACTCTGAGAGACCT
AGATTAAAAAGGAAGACCCATATATATTAAAATCATTCCGTAATCTGTACCTCTAATCTTTACCTCTATAACCAGGGCACTATGTCTAGAATTTTTACGC
ATTTTTGCATTTATGTATTTCTTTTCTCCTTTGAAGTTTCATCTGTGTGTGTGGGTGGAGGTGAGGCGGCAAATAAAATTTGTTCTGAACTCTGTAACCT
TCTAGCAGAGGAAGAATTTCTCTCAAGAACATTTACTTTTTTAGCTTAGTCCTTTAAAATTTACTGTTAAGTAATCTCACAATAAACAACAGGTATTCAT
TAGAAAAAAATTAATTTAATGTGATTTACTATTTAATTCTGCTAGCTCAGCTACACTTGTCCTGCAGAGCTGCATAATTTATTCAAATGGCCTGAAACTT
TTTAAGTAAGTCTACCAGCAGAAAAATTATTCCCTACTCCCAGGAGAATGAACTTTTTGTGTTGTACTGCTTCCCAGGACTGACACTTATTTGACTCTCA
AGTGTATTTACATTGTTGGCTTAACTGGGAGTTCTTTGCTGAATCAATAATATACAGTATTTCTTCAAGTGGTGTCAATATTATTGCTATTCTTTTTATA
AACTTTTTGTTAATTCTCTGCAGTTACAAAATTTTTCTTTGACTTGTGAAAAAAWTTACTCCTAAGATTATGAAGACGCAGAGTAAATGGCCCTTTAATC
TTCTGGGAAATATGTACCTCTTTAAACTTTATTTATGTCAGAACTTACTGTAATGAAGGACAAAAGCTCTAGACAAGGTCCCCTGTTCCTTGTGGGTGTT
CAAGGCTAGGTCTTCCGGAGACAAGCCTGTAGTTTGTTCTCATAATTTTATAGCTCACCTCCTGGCTGTTTCTTTGCAAGGGGCCTAAGAGGGTACAAGA
AAAAGAGCAGGGTGAGAATCTGACCCATTGTGACCACTCGGGAGGCCCTGGCCTGGAAACTTCCCCTTTATGTGGCAAAAACAAACATTTGAAATGGAGG
GAGAAACCAGGTTTAAACAATGAGTGAAAACAGTTTCCATCTCAGCTTTCCTGCTGATAAACATATGTGCCCCCTCATTTGTTTCYGAAACATAAGTTTT
CCATCATTTTAACAGAGCCTCAGCCTCAACTGAATCTGTCCAGAGCATAGGAAACAAATATTTTGAGATTTAGTAAAATGGTGCATACATATATTAGGGG
CATTTTGACAATGTTCAAACTGTTTACCAAACAAACTTTATGATGGCCTATGCAAACCTTTGAATCCTACTGTATTTTTCACGTAACGATGACTTCTCAC
TGATCTCATCTGCCTGTGTGCTACAGTATTGACTTTAATATTAATGGAGAAACAGACAGATATCAAAAGCCATGTGATTTGTCTCATGCCATTTGCAATT
TTGTCTTCTGTCATCAACACTGACTTCTCCTTCCTTGTTCTGCTGAACTCCATACTTAGGTGCCCAGCTACTTCCTCAGAGCCTGCCCTCATTCTTTACC
TGTGGCCTGCAGCATGGACAGGTGCATTCTTGCTGCTTATCTGAAAAATATGATCCACAGAAATAACTTGAATCTTTTTGCCCATTTAAAATGTGCTCTA
GGTTCTCTGGTTCTCTGTACTAACTATAGAAAGCCATCTAGTCACAAGTTTCTCCTTCCTGTGGTCTCCATTTGGGCAATACAATTAAGAAAAATACGTT
TCCCCACATAACAATTCTTCCAATTCTTTTCCCCTTCTTTGATGCTTTTATGATAGATTATGAATGGTCATCAGTGATTTTCTGTAAATGCCACGTTTCC
TTTTTGCCAAGACAAAGAGTGAGACTAAGGGACCATCTAGTGCTTCCTCTTGTGGTATAGAGGCTAAACAGCGTGAGTTCTGATATTAGTTTCCTTTGAT
TTAAATGCAAGTGTCTTCATTTAATAGCTGTATGATCTCAGAAAAGTTATTAAACTCTATGAGTCCTAGTTTCCTGATTTGTAAAGTGGGGGCTAATATG
AATAGCTTGTAATAGCACCTACCATATGCTAGGCATGATTTTAGGCACTTTAAACATATTAGCTCATTTAATTTTCCATTAGCTTATTTAAAATTCCTAC
TCTACGATGTAGGTAATTTATATCATTCTCCTTTCTCAGATGAGAAACTGAGACATGAAGAAGTAAAGTAACTTGGCCAAGGTCAGAATTAGTAAGTGGT
AGAGCTGGGTTTGTAAAGCCAGGTAGTTGGATCCCAGAGGCTATTTACTAACCAGTGTGCTATATTGCCTCTCTATTAAATTATTGATGATAAATAACTC
ATCACAGTGTTCGGCACATAACATTTATTGTCAGCTAGTATTATCACTACCATCACCTGTTCTTATCTTTCTTCATTTTGTCACTCTTGCTTCTGCTGGA
TTGGTTGTGTAGTTTATTGCCCCCACTGCCACAAGAGACAGCAGCAACAGTGATCTAGGTTGAAATAGCTAGCTAATCCCTCTTCACTTTATGTGCTTTG
TATTTAAACCACAAATATGACAGAGACCTATGAAAGGAGACTAAACCTCTTTTTGGTCGTGTAAAAATTATATTCCTGCAATCTCCAACCCTCCAGCAAC
AAGCCAACAAAAACTGCGCAAAGCAAGGGAGAAATTTTAGAAGTRGTAGACTTCAAGTAAAATTCCTACCATTCTTTAATAAACAGGGGTAAAAATTTCA
GAAAGTAATGAAGGTTGTGAAAGCTGATGAACAAAGACTTTGCTACTATAATAAATTTCCTAGTCTCTACTCACTAATTTCTATTAGAATGCCAATATCA
GGAAAAAAGGAAGAGAAAATTCTGTAAATAATTACTATATTTTTCTCCTACCAAGTAAGCCACTGACTTCAAAATTCTCTAGCACATTTGTGGAAACTTC
ATTTTTTTTGTTTGAGATTTATTTGAATGAGCTGTTATGATTGGAGACAGYGAGAATTTCAGATTAATGTTTTGCAGACAAAAAAAAACCTCTCTGGAAA
GCTGGCAAGGGTTCATAAGTCAGCCCTAGAATTATGTAGGTTGAAGGCTCCCAGTGGACAGACCAAACATATAAGAAGGAAACCAGAGATCTGGTGCTAT
TACGTCCCAGCGTCTGAGAGAACGAGTAAGCACAGAATTCAAAGCATTCTGCAGCCTGAATTTTGAAGGTAAGTATGAACAATTTATATAWAATTTACTT
GGAAAGTAGAACATACATTAAATGAAAATATTTTTTATGGATGAACTTCTGTTTTTCCTGTGTTTTAACACTGTATTTTGCAAAACTCCTRAATTATTTA
GCTGCTGTTTCTCTTACAGGAGTGTGTTTAGGCACTAAGCAAGCTGATTTATGATAACTGCTTTAAACTTCAACAACCAGTAAGTCTTCAAGTGGAATTT
ATTATTGATTCTTTTATGTTAATTTGTTAGGTCWAAAGAAAAAYCTTTAGAGCAAAATAAAAGTTTTGCTCTTTATTAGGAGGTTCTTTAGATATTACAC
TTTTAATTGGGTAGCTTATTTGCATGTATTTTGAAACTATCTAAAGTAAATAGTGTTTCCTTTKTATGCTTATCTTTAGCTAATGTGTTTTTTTTTTTGG
TTTTAAAATAATGCTTCTAGTGAAAAAAATCACAAAAACCTCAACACTGTAACGTTTGAGAGCAACGGCTATTCAGTTCGGTTAAACCGAAAAGAGAGAA
AAAGAAAAATGATAAGACTATATCATGATTAATCATTGATGTTCATTTCTCATTTCACTGAGCAATCTAAACTACTTCTACTTGAACCTAACATAGGTTT
GGCTGTTTTTTTCTTTATCTGATTTAATTGAAAATGGATTGTTTAGATATTAAATAGACCAAAATTAGATATCTATATCTAAAACTAATATTCTCTATTA
AAAGGAGAAGACTTAGAAATATAAATATATTTCATAACTTCTTCTTAACTATATTATTATTGTGAAAACAATAGAAAAGTAAAACTAAAGGAATTATTTT
TAATTATTAAAGACAAACCATGATTCCCCATCACAATATGTTCCTTTGGCATATTCTCTTTTAGTTTTTTATATACTTATTTTTTCCATTGCTTATGTTA
CTTATATTTTCCACAGCTGTAGTGATTTGTATGTAATTAGTTACTTAAATAGAGCATTTCTCTATGCAATAGCAAGCAGCAGTGTGGTTTCTAGAAAGTA
TACAAACAGAGATATATGCTCAAGTGTTTTTTGAAAGATTAACTTTTCTTACCTCTGGGTTTCTTATTTGTTTCACACATTTCCTGCCCTGACTAATCTT
TTGAAATATTAATTTTCTTTAAATCTTTCAAAAACATCATAGAAAAGATGGSSAAAAGGTAGTTTTATTCAGAACTTTGAATCTCTGAAATGTCTTTTTT
CTACTATCAGGAAAATTATTTCTCCTTTTTCAAGAGGTAAAATGAATTCTTGTTTTACAAGCCATGGCTCTGTTTCTTAATGTTTTCTATAATCACTCAC
TTTTTTTTTGCTTTTGACAAACATTCAAAATGCTAATGATTCAAGGATGTCCTCAGCTCTGTATGTGTTCTAAGAGTTCTATGTTTTTTCTCCACAGAAG
GCATAAGAACTAGGAGCTGCTGACATTTCAATATGAAGGGCAACTCCACCCTTGCCACTACTAGCAAAAACATTACCAGCGGTCTTCACTTCGKGCTTGT
GAACATCTCTGGCAACAATGAGTCTACCTTGAACTGTTCACAGAAACCATCAGATAAGCATTTAGATGCAATTCCTATTCTTTACTACATTATATTTGTA
ATTGGATTTCTGGTCAATATTGTCGTGGTTACACTGTTTTGTTGTCAAAAGGGTCCTAAAAAGGTTTCTAGCATATACATCTTCAACCTCGCTGTGGCTG
ATTTACTCCTTTTGGCTACTCTTCCTCTATGGGCAACCTATTATTCTTATAGATATGACTGGCTCTTTGGACCTGTGATGTGCAAAGTTTTTGGTTCTTT
TCTTACCCTGAACATGTTTGCAAGCATTTTTTTTATCACCTGCATGAGTGTTGATAGGTACCAATCTGTCATCTACCCCTTTCTGTCTCAAAGAAGAAAT
CCCTGGCAAGCATCTTATATAGTTCCCCTYGTTTGGTGTATGGCCTGTTTGTCCTCATTGCCAACATTTTATTTTCGAGACGTCAGAACCATTGAATACT
TAGGAGTGAATGCTTGCATTATGGCTTTCCCACCTGAGAAATATGCCCAATGGTCAGCTGGGATTGCCTTAATGAAAAATATCCTTGGTTTTATTATCCC
TTTAATATTCATAGCAACATGCYATTTTGGAATTAGAAAACACTTACTGAAGACGAATAGCTATGGGAAGAACARGATAACCCGTGACCAAGTCCTGAAG
ATGGCAGCTGCYGTTGTTCTGGCCTTCATCATTTGSTGGCTTCYCTTCCATGTTCTGACCTTCCTGGATGCTCTGGCCTGGATGGGTGTCATTAATAGCT
GCGAAGTTATAGCAGTCATTGACCTGGCACTTCCTTTTGCCATCCTCTTGGGATTCACCAACAGCTGCGTTAATCCGTTTCTGTATTGTTTTGTTGGAAA
CCRGTTCCAACAGAAGCTCCGCAGTGTGTTTAGGGTTCCARTTACTTGGCTCCAAGGGAAAAGAGAGAGTATGTCTTGCCGGAAAAGCAGTTCTCTTAGA
GAAATGGAGACCTTTGTGTCTTAAACGTGAGAGCAAAATGCATGTAATCAACATGGCTACTTGCTTTGAGGCTCACCAGAATTATTTTTAAGTGGTTTTA
ATAAAATAATAAAATTTCCCCTAATCTTTTCTGAATCTTCTGAAACCAAATGTAACTATGTTTTATCGTCCAGTGACTTTCAGGAATTGCCCATTGTTTT
TCTGATATGTTTGTACAAGATTKTCATTRGTGAGACATATTTACAACCTAGAAGTAACTGGTGATATATCTCAAATTGTAATTAATAATAGATTGTGAAT
AATGATTTGGGGATTCAGATTTCTCTTTGAAACATGCTTGTGTTTCTTAGTGGGGTTTTATATCCATTTTTATCAGGATTTCCTCTTGAACCAGAACCAG
TCTTTCAACTCATTGCATCATTTACAAGACAACATTGTAAGAGAGATGAGCACTTCTAAGTTGAGTATATTATAATAGATTAGTACTGGATTATTCAGGC
TTTAGGCATATGCTTCTTTAAAAAMGCTATAAATTATATTCCTCTTGCATTTCACTTGAGTGGAGGTTTATAGTTAATCTATAACTACATATTGAATAGG
GCTAGGAATATAGATTAAATCATACTCCTATGCTTTAGCTTATTTTTACAGTTATAGAAAGCAAGATGTACTATAACATAGAATTGCAATCTATAATATT
TGTGTGTTCACTAAACTCTGAATAAGCACTTTTTAAAAAACTTTCTACTCATTTTAATGATTGTTTAAAGGTTTCTATTTTCTCTGATACTTTTTTGAAA
TCAGTAAACACTGTGTATTGTTGTAAAATGTAAAGGTCACTTTTCACATCCTTGACTTTTTAGATGTGCTGCTTTGATATATAGGACATTGATTTGATTT
TTATTATTAATGCTTTGGTTCTGGGTTGTTTCCTAAAATATCTGGGTGGCTTAAAAAAAACTCTTTAACTTGTAATAAACCCTTAACTGGCATAGGAAAT
GGTATCCAGAATGGAATTTTGCTACATGGGGTCTGGGTGGGGGCAAAGAGACCCAGTCAATTACATGTTTGGTACCAAGAAAGGAACCTGTCAGGGCAGT
ACAATGTGACTTTGAAAATATATACCSTGGGGGTAGTTTTACCCTATATCTATAAACACTGTTTGTTCCAGAATCTGTATGATTCTATGGAGCTATTTTA
AACCAATTGCAGGTCTAGATACCTCCTTCTCAGCACTATTAAAGCTCCTAAGTTAGAGGAGTGCCTAAAACTGAGTTACCTAAAGTTTACTTACATTAAA
GTATGAATATTAATTTTAGAAATTTGAGACTTTATTCTGTACCAGCCCTGTATAATAACAGGTTATCTAGGACCTTCCTCTGAGGTAGGTCTAAATACTG
ATCTCTGAGGCGGAACTAACGTTTTGGGGACTCAGCATCTCTGCCAGGTTCCAGGATTATAGACAGAAGAGTCCTGTCATACCACTTTCTGGAAAAGTCC
TAATTTCATGTAATCCTTTTATTTTCAATAAAAACAAATAGCTAAATGTATAACCAACTATGATGTTATGTTTTCAATAATTTTGTAAAACAGCTCATAT
AAATAAAATTTTTAATTGGAAGAACATTCGTGCTTTTAAAAATTTTTTTTAACTACTTCTAAGTATATATTCTACTTCTAAGTATTCTTACCTTCTCTTG
TATCTGTATCCTCCATTTTATCTCCACTGATACTACTTAGTTTCAGCTCGGATTATTACTCACCTGGCCTCTTGCTATACTGTTCAAGTCTTCCTCTCTT
GAGTATTGAGCCATAATTTCCCATTAGCTATGAAAGCAAAATCCAACTTTCTTCGAGTCTGCAAGACCTTGGGAGATGTGACTCTTCCTAGTCTTTCTGG
ACTTTTTCTCTCTGTCACACCTCTTCAAACCCTGTGTTTAAGCATCAAAAAATGACTTAATGCTTTTTAAAGCCTAATGCCCTTTCGTGCCTCTCTGCTG
TTGTTCACACAGCTCCATCTTACTAAACACCCCTCCAATCATTCTCACCTCCTCAGGGCCTCACATTCAAGTGATGAAAATCTGCTCAACTTTCGACATT
CAGCTCATGCTATTTCCTCTACCATAATAATAATTATTATACTAATTATAATACTACACCCCTAGAATTTCCTTTAATGAACAGAATTGCTTCTCTAGTT
TTTGGGATGTTAAGCCTGATGTCTGCTTTTATAGAAGCCCAATGTTGAACCCTGAGTAGTAGCCTCCAAGTGGTTTTTCTTGGGACTAAGAAGAAATGCC
AGTTGAGAGGATGGTACAAGAATGTGTGAACTCTTGCTTTAGGAATGTATGTACAAAAGTGTACTTGTCCGCTTTTCTCTTTGAAAATGCAAATTTCAGG
TAAGCTTCTCAGATAACAAATGAAAATGTTTTTATTCTCATTCGGCCACTTTTCAAGGTATTATGTAATATCCTTTCTTTTTCATGACCCCACCTTTTCT
CAAGTCACCCAACACAATGCCTGGGAAGTACATAACATAACAACAGGTATTATTAGATGAGCATTATGTGCTAAGCAATATTAAATATGCATTGTTCCAT
TTTATTCTAAAAATTACTCAATGATTATTATTTTACAAATAAGGAAACTGAGGCACAGATGATTCCTGACTAATCTTTAAATTTGGCTCTGACAGATGAA
TCAGGTAGTATCAATTATGTGATTTAGTACTTCAAATATAAATCCTAGGCCACCAAGCAGGTATTTCAGACAGTCTTACACACTCCTTCAACCTTCACCT
TAAAGTTAGTACTTCAGTATCCATAACCTTGGTAATACAAGTGCTTCTGTAGGAAAAGATAGGAGGCAGACTGATGAGGCTTTCTCCCTTTTTCTTCACT
GCCCTTTCTTTGTACTCCATACTGTATGGAACTACATAAAGTCACCACTATCCCCTGCTGCCCCCTCTACCCTGTACACAAAGCAAGACAGATATCTTAA
ATGTTTCCTTTAAGGAACAAACATGTTGATATGAACTTTAGCTCTTTGAAATGAGATTATATAGGGTTACCAGAGAAACTCATCTCTTGCATCTTGCAGA
AGTAATGTGTATTTTTATTATGGAAAAGTAAATATTAATTATTTCCACATTTTATAGCCCTAAATCAGACCTACTAAATAGATTATTTTGCAAAATATCC
TTTCTTCTGATTCTTTGAGGCATGCATCAAAATCAGAAGAAAATCTGAAAGTAAGCAAATTCTGTTTTGACTTTTTTTCTCTTTTGTTCCCCCACAGGAA
TCTGAGGATGGGAAACTGTCTGGTGTCCTCACATATCAACAAGAGAAAACTCCAAACTTGACAAGATGAGTTAACACATGAGATGTCTCAAGCAAGAAAG
GGTTGAGGGTTGACGCAATAAGGATAATAGAACACTTATTTTGTTAATTCTCACATAAACTATAACAGCAGTGATAATTTATACAAAATAACAGAAATTC
ATAAATTATCACTAAAAATAATTATTTCACCTGCAGAAGACCAGTGGCCCAGAGATTAGTTAGCTCACTCCATACACACACCTACAAAGGGTTAGCACCC
TCAAAAATAAATTCTTTCTTTTTGAACATTTTTTGGAATAAGATAATTCTTTCTAAATTTAAAAATAACTGATATATATTTCTTATTATAGAATCAATAC
TTATTCTTGAAAAATTTAACTATAGGGACAAAAATTAGCTACAGAGACGATCACCACTAATAGCATGGGGTAAAATTATTATATATACATACACACACCC
ACACAGAGTACATATAAATGGATAGATACAATTTATTTTTATCTCTATATCTTTATTCCTATTTCTTTCTCTTTTTTGTTTATTATCTATCAGATATGTT
CCTTATCACTGTGTTGTACATTTATTTAAATATTTAAAATATTTTGACCCTAAACTCCCATCTGGTGTACTAGACATTTTTCTTTCTTTACTCATTTGGT
CCTCCTTTCCTATGATAAGCCCCAAATCCCGAGAGCTTTAAGCAGTCCAAGAGATCACACCTGGTTATAATTTTCCAGTGAAAGAAAGTACTGGAAATTC
TGATAAGTCTGCTAGCCCATTCTCTGCAACTGTTGTTGCTACATTATTTATCAGTTGGTCTGCATAAGAACAGATGTCTGAGTAGTCTCATGCAGACTTC
TGTCCACTTAAGTAGTTTTGAAGTGATGTATGCACAAGCCACCTGATAACGATATAAGAGGGGAAAAAAGGAGGGCTCTTCCCTTTCTCCAGTGCTACAC
TCACCTATATCTGATGTGTGTCAAAGTAGACCTGGGCTCAAACACGTATTTCTGTTTTGCCACCTCCATGGAGCCAGGAGCGATCAGCAGAAACCCAGCT
AGCGGAACATGCCATACAAGGAACCAGTCTTTTCTTTCCTCAAGTAAACATCTCCTGTGCAGCTGGAGTCACATTTCAAAATTTTCCTCAATAAAAAGGA
GTATCCCTGATTGGGAGAGGAAGTGGGTAGTTGAGCTGTTGTTGCTTCTCCATGACATCAGTAGAGGCCATGTTAGTGCATAAGATATACTGAAATAACT
TTGAACTTCTTTTTAAAAAGGAGTCTAATTCTTAATTCCTTTCCTCTCCAAAAGGAAACCTAAGTTCAACACACCAGTGTGTACAGAACACAGTTGGCAC
AAACCCATTTGCCTGAAAAATTGGAACCATCAAACTGTTGCCAAGCCCTGATATTTCCAGCTATAGCCTTCCTTCACCTATTTACATTCATATAACAAAA
ATGTACATGGAAGTGATTACAAAAAATTACAAAAAATCTTCTACTCCAACTATTTGTGATGTCCTAACAGCTTGAAACATTTGTGAATAACAGATTTGAA
ATGACACTTTTTCTATCTCCTAGAAAAAAGCAAAAGTATGCCTCATTGTATATGCTGTTATCTATTCTTATGGACTGAATTGCAACCTTCCCTCACACCA
AAAATTCATATATTGAATTCCCAACCCCCAATGTAATGATATTTGGAATCTTTTTGGAGGTAATTAAGGTTAAAGGAAGTCATAAAGGTGAAGTCTTAAT
TTGATAGGACAGTAGTCTTGTAAGAAAAAAAGATACCTCTGTCTCTCTCTTCACACACTCACAATAAGAAAAGGCTATGTGAGTATATAGCAAGAAGGAA
GCCATCTGGAAGACAGAAAGAGAACCCTCCAACATGCTGGCATACTAATTTTAAACTTTCAGCCTCCAAAACTGTGAGAAAATACATTCTGTTGTTTAAG
TGACTCAGTCTATGGTATTTTGTTATAGCACCCTGATATGGTTTGGCTCTGTGTCCCCACCCAAATCTCATCTTGAATTGTACTCCCATAATTCCCTTGT
GTTGTGGAAGGGACCAGGTGGGAGATAATTGAATTAGGGGGGCGGTTTTCCTCATACTGTTCTTGATATCTGATGGTTTGACAAGGATTTCCTCTTTTGC
TTGGCTCTCATTCTCTCTTGCCGCCATCATGTAAGAAGTGCATTTCACTTTCTGCCATGATTGTGAGGCCTCCCCAGTCACATGCAACTGTAAGTCCATT
AAACCTATGTTTCTTCTTAGCTTGGGTATGTCTTTATCAGCAGCATGAAAATGGACTAATACAGTAAATTGGTACCAGTAGAGTAGGGCACTGCTGAAAA
AAATACCCAAAAGTGGAAGTGACTTCAAAACTGGGTAACAGGCAGAGGTTGGAAGAGTTTGCAGGGCTCAGAAAAAGGCAGGAAAATGTGGGAAAGTTGG
AACTTCCTAGAGACTTGTTGAATGGCTTTGACAAAAATGCTGATAGTGATATGAACAATAAGGTCCAGGCTAAGGTGGTCTCAGATGGAAATGAAGAACT
TGTTGGGAACTGGAGCAAAGGTGACTCTTGTTGTGTTTTAGCAAAGAGGCTGGCAGAATTTTGCCTCTGCCCTAGAGATTTGTGAAACTTTGAACTTGAG
AGAGATGATTTAGGTTATCTGGCAGAAAAAATTTCTAAGCAGCAAAGCATTCAAGAGGTGATGTGGGTGCTGTTAAAGACATTTGGTTTTATAAGGGAAG
CAGAACATAAAAGTTCTGAAAATTTGCAGCCTGACAATGTGATAAAAATAAAATCCCATTTTCTGAGGAGAAACTCAAGCCTGCTGCAGAAATCTGCATA
AGTAACAAGGGGCTGAATATTAATCCCCAAGGCAATGGAAAAAATGTCTCCAGGGCATGTCAGAGGTCTTCATGGCAGCACTCCCATCACAGGCCCGGAG
GCCTAGGATGGAAAAATGGTTAAGAGGGCTAGGCCTTGGGTCCCTGTGCTGAGTGCAGTCTAGGGACTTTGTGCCCTGCATCCCAGCCTCTCCAGTCATG
ACTAAAAGGGGCCAAGGTACAGCTCAGACCATGGCTTCAGAAGGTGCAATCCCCAAGCCTTAGCAGCTTCCACATGGTATCAAGCCTGTGAGTGCACATA
AGTCAAGAACCGGGGTTTTGTAACCTCCGCCTAGATTTCAAAAGATGTATTGAAGCACCTGGATGCCCAGGAAGAAGTTTGCTGTAGGGGTGGGTCCTTC
ACGGACAACCTCCACTAGGGCAGTGTGGAAGGGAAATGTGGGGTCAGAGCCCCCACAGAGAGCACCTACTAGGGCACTGCCTACTGGAGCTGTGAGAAGA
GGGCCACCGTCCTCCAGACCCCAGAATGATAAGTCCACTGACAGCTTGAACCATGCTCCTAGAAAAGCCACAGACATTCAATGACAGCCCATGAAGGCAG
CTGGGAGGGAGACTGTACCCTGCAAAGCCACAGTGGGGAGCTTCACAAGACCATGGGAACCCACCCCTTGCATCAGCGTGACCTGGATGTGAGACATGGG
GTCAAAGGAGATCATTTTGGAGCTTTACGATTTGACTGCTCCACTGGATTTTGGACTTGCATAGGGATGGTAGCCCCTTTGTTTTGGCCAATTTCTCCCA
TTTGTAATGACCGTCTTTACCTATTCCTGTACCCCCATTGTATCTAGGAAGTAAATAACTTGCTTTTGATTTTACAGGCTCATAGGTGGAAGGAACTTGC
CTTGTCTCTGATAAGACTTTGGATTGTGGACTTTTGAATTAATGCTGAAATGAGTTAAGACTTCAGGGGAATGTTGGCAAGGCATGATTGGTTTTGAAAT
GTGAGGACATGAGATTTG


SNP Information

Context             (SEQ ID NO:16732):
CAAGACAACATTGTAAGAGAGATGAGCACTTCTAAGTTGAGTATATTATAATAGATTAGTACTGGATTATTCAGGCTTTAGGCATATGCTTCTTTAAAAA
M
GCTATAAATTATATTCCTCTTGCATTTCACTTGAGTGGAGGTTTATAGTTAATCTATAACTACATATTGAATAGGGCTAGGAATATAGATTAAATCATAC
Celera SNP ID:            hCV1841568
SNP Position Genomic:     9125
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:16733):
TGGGGTCTGGGTGGGGGCAAAGAGACCCAGTCAATTACATGTTTGGTACCAAGAAAGGAACCTGTCAGGGCAGTACAATGTGACTTTGAAAATATATACC
S
TGGGGGTAGTTTTACCCTATATCTATAAACACTGTTTGTTCCAGAATCTGTATGATTCTATGGAGCTATTTTAAACCAATTGCAGGTCTAGATACCTCCT
Celera SNP ID:            hCV1841569
SNP Position Genomic:     9727
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:16734):
CTCTGGGTTTCTTATTTGTTTCACACATTTCCTGCCCTGACTAATCTTTTGAAATATTAATTTTCTTTAAATCTTTCAAAAACATCATAGAAAAGATGGG
S
AAAAGGTAGTTTTATTCAGAACTTTGAATCTCTGAAATGTCTTTTTTCTACTATCAGGAAAATTATTTCTCCTTTTTCAAGAGGTAAAATGAATTCTTGT
Celera SNP ID:            hCV7481831
SNP Position Genomic:     7253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16735):
GAAAACACTTACTGAAGACGAATAGCTATGGGAAGAACAGGATAACCCGTGACCAAGTCCTGAAGATGGCAGCTGCTGTTGTTCTGGCCTTCATCATTTG
S
TGGCTTCCCTTCCATGTTCTGACCTTCCTGGATGCTCTGGCCTGGATGGGTGTCATTAATAGCTGCGAAGTTATAGCAGTCATTGACCTGGCACTTCCTT
Celera SNP ID:            hCV7481832
SNP Position Genomic:     8336
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16736):
TTACTGAAGACGAATAGCTATGGGAAGAACAGGATAACCCGTGACCAAGTCCTGAAGATGGCAGCTGCTGTTGTTCTGGCCTTCATCATTTGCTGGCTTC
Y
CTTCCATGTTCTGACCTTCCTGGATGCTCTGGCCTGGATGGGTGTCATTAATAGCTGCGAAGTTATAGCAGTCATTGACCTGGCACTTCCTTTTGCCATC
Celera SNP ID:            hCV27509039
SNP Position Genomic:     8344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16737):
ACCTCTTTTTGGTCGTGTAAAAATTATATTCCTGCAATCTCCAACCCTCCAGCAACAAGCCAACAAAAACTGCGCAAAGCAAGGGAGAAATTTTAGAAGT
R
GTAGACTTCAAGTAAAATTCCTACCATTCTTTAATAAACAGGGGTAAAAATTTCAGAAAGTAATGAAGGTTGTGAAAGCTGATGAACAAAGACTTTGCTA
Celera SNP ID:            hCV27836187
SNP Position Genomic:     5545
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 hmCS


Context             (SEQ ID NO:16738):
TAATTTACTTGGAAAGTAGAACATACATTAAATGAAAATATTTTTTATGGATGAACTTCTGTTTTTCCTGTGTTTTAACACTGTATTTTGCAAAACTCCT
R
AATTATTTAGCTGCTGTTTCTCTTACAGGAGTGTGTTTAGGCACTAAGCAAGCTGATTTATGATAACTGCTTTAAACTTCAACAACCAGTAAGTCTTCAA
Celera SNP ID:            hCV7481825
SNP Position Genomic:     6191
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,15)   caucasian(A,16|G,12)   total(A,29|G,27)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,22)   caucasian(A,16|G,18)   total(A,30|G,40)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16739):
CCTCTGGGTTTCTTATTTGTTTCACACATTTCCTGCCCTGACTAATCTTTTGAAATATTAATTTTCTTTAAATCTTTCAAAAACATCATAGAAAAGATGG
S
CAAAAGGTAGTTTTATTCAGAACTTTGAATCTCTGAAATGTCTTTTTTCTACTATCAGGAAAATTATTTCTCCTTTTTCAAGAGGTAAAATGAATTCTTG
Celera SNP ID:            hCV7481826
SNP Position Genomic:     7252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16740):
TTTTTATCACCTGCATGAGTGTTGATAGGTACCAATCTGTCATCTACCCCTTTCTGTCTCAAAGAAGAAATCCCTGGCAAGCATCTTATATAGTTCCCCT
Y
GTTTGGTGTATGGCCTGTTTGTCCTCATTGCCAACATTTTATTTTCGAGACGTCAGAACCATTGAATACTTAGGAGTGAATGCTTGCATTATGGCTTTCC
Celera SNP ID:            hCV12122063
SNP Position Genomic:     8030
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(C,4|T,76)      total(C,4|T,76) ;(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16741):
GAAGTTATAGCAGTCATTGACCTGGCACTTCCTTTTGCCATCCTCTTGGGATTCACCAACAGCTGCGTTAATCCGTTTCTGTATTGTTTTGTTGGAAACC
R
GTTCCAACAGAAGCTCCGCAGTGTGTTTAGGGTTCCAATTACTTGGCTCCAAGGGAAAAGAGAGAGTATGTCTTGCCGGAAAAGCAGTTCTCTTAGAGAA
Celera SNP ID:            hCV25647418
SNP Position Genomic:     8503
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,38)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16742):
AAAAATATCCTTGGTTTTATTATCCCTTTAATATTCATAGCAACATGCTATTTTGGAATTAGAAAACACTTACTGAAGACGAATAGCTATGGGAAGAACA
R
GATAACCCGTGACCAAGTCCTGAAGATGGCAGCTGCTGTTGTTCTGGCCTTCATCATTTGCTGGCTTCCCTTCCATGTTCTGACCTTCCTGGATGCTCTG
Celera SNP ID:            hCV12122064
SNP Position Genomic:     8275
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(A,4|G,76)      total(G,76|A,4) ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16743):
TAGCAACATGCTATTTTGGAATTAGAAAACACTTACTGAAGACGAATAGCTATGGGAAGAACAGGATAACCCGTGACCAAGTCCTGAAGATGGCAGCTGC
Y
GTTGTTCTGGCCTTCATCATTTGCTGGCTTCCCTTCCATGTTCTGACCTTCCTGGATGCTCTGGCCTGGATGGGTGTCATTAATAGCTGCGAAGTTATAG
Celera SNP ID:            hCV12122065
SNP Position Genomic:     8312
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(C,6|T,61)      total(C,6|T,61) ;(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16744):
AATCTTTTCTGAATCTTCTGAAACCAAATGTAACTATGTTTTATCGTCCAGTGACTTTCAGGAATTGCCCATTGTTTTTCTGATATGTTTGTACAAGATT
K
TCATTAGTGAGACATATTTACAACCTAGAAGTAACTGGTGATATATCTCAAATTGTAATTAATAATAGATTGTGAATAATGATTTGGGGATTCAGATTTC
Celera SNP ID:            hCV11880452
SNP Position Genomic:     8823
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;32 white Americans; 2 CEPH individuals(T,27|G,40)      total(G,40|T,27);HYP2(T,27|G,41)   total(G,41|T,27)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:16745):
GGCTTTCCCACCTGAGAAATATGCCCAATGGTCAGCTGGGATTGCCTTAATGAAAAATATCCTTGGTTTTATTATCCCTTTAATATTCATAGCAACATGC
Y
ATTTTGGAATTAGAAAACACTTACTGAAGACGAATAGCTATGGGAAGAACAGGATAACCCGTGACCAAGTCCTGAAGATGGCAGCTGCTGTTGTTCTGGC
Celera SNP ID:            hCV27472627
SNP Position Genomic:     8223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16746):
ACTAAGCAAGCTGATTTATGATAACTGCTTTAAACTTCAACAACCAGTAAGTCTTCAAGTGGAATTTATTATTGATTCTTTTATGTTAATTTGTTAGGTC
W
AAAGAAAAATCTTTAGAGCAAAATAAAAGTTTTGCTCTTTATTAGGAGGTTCTTTAGATATTACACTTTTAATTGGGTAGCTTATTTGCATGTATTTTGA
Celera SNP ID:            hCV27509729
SNP Position Genomic:     6334
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,21|T,13)   total(A,56|T,14)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16747):
ACAGAAGGCATAAGAACTAGGAGCTGCTGACATTTCAATATGAAGGGCAACTCCACCCTTGCCACTACTAGCAAAAACATTACCAGCGGTCTTCACTTCG
K
GCTTGTGAACATCTCTGGCAACAATGAGTCTACCTTGAACTGTTCACAGAAACCATCAGATAAGCATTTAGATGCAATTCCTATTCTTTACTACATTATA
Celera SNP ID:            hCV27859427
SNP Position Genomic:     7594
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:16748):
CATCCTCTTGGGATTCACCAACAGCTGCGTTAATCCGTTTCTGTATTGTTTTGTTGGAAACCGGTTCCAACAGAAGCTCCGCAGTGTGTTTAGGGTTCCA
R
TTACTTGGCTCCAAGGGAAAAGAGAGAGTATGTCTTGCCGGAAAAGCAGTTCTCTTAGAGAAATGGAGACCTTTGTGTCTTAAACGTGAGAGCAAAATGC
Celera SNP ID:            hCV27859428
SNP Position Genomic:     8541
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16749):
TTTTGCTCTTTATTAGGAGGTTCTTTAGATATTACACTTTTAATTGGGTAGCTTATTTGCATGTATTTTGAAACTATCTAAAGTAAATAGTGTTTCCTTT
K
TATGCTTATCTTTAGCTAATGTGTTTTTTTTTTTGGTTTTAAAATAATGCTTCTAGTGAAAAAAATCACAAAAACCTCAACACTGTAACGTTTGAGAGCA
Celera SNP ID:            hCV27857565
SNP Position Genomic:     6464
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(G,31|T,1)   total(G,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:16750):
CATTTGAAATGGAGGGAGAAACCAGGTTTAAACAATGAGTGAAAACAGTTTCCATCTCAGCTTTCCTGCTGATAAACATATGTGCCCCCTCATTTGTTTC
Y
GAAACATAAGTTTTCCATCATTTTAACAGAGCCTCAGCCTCAACTGAATCTGTCCAGAGCATAGGAAACAAATATTTTGAGATTTAGTAAAATGGTGCAT
Celera SNP ID:            hCV27857566
SNP Position Genomic:     3986
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,38)   total(C,72|T,2)
SNP Type:                 hmCS


Context             (SEQ ID NO:16751):
CTGGTGCTATTACGTCCCAGCGTCTGAGAGAACGAGTAAGCACAGAATTCAAAGCATTCTGCAGCCTGAATTTTGAAGGTAAGTATGAACAATTTATATA
W
AATTTACTTGGAAAGTAGAACATACATTAAATGAAAATATTTTTTATGGATGAACTTCTGTTTTTCCTGTGTTTTAACACTGTATTTTGCAAAACTCCTG
Celera SNP ID:            hCV27851708
SNP Position Genomic:     6091
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,1|T,39)   total(A,1|T,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16752):
CTGATTTATGATAACTGCTTTAAACTTCAACAACCAGTAAGTCTTCAAGTGGAATTTATTATTGATTCTTTTATGTTAATTTGTTAGGTCAAAAGAAAAA
Y
CTTTAGAGCAAAATAAAAGTTTTGCTCTTTATTAGGAGGTTCTTTAGATATTACACTTTTAATTGGGTAGCTTATTTGCATGTATTTTGAAACTATCTAA
Celera SNP ID:            hCV27849746
SNP Position Genomic:     6344
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,34)   total(C,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:16753):
CCAAGTAAGCCACTGACTTCAAAATTCTCTAGCACATTTGTGGAAACTTCATTTTTTTTGTTTGAGATTTATTTGAATGAGCTGTTATGATTGGAGACAG
Y
GAGAATTTCAGATTAATGTTTTGCAGACAAAAAAAAACCTCTCTGGAAAGCTGGCAAGGGTTCATAAGTCAGCCCTAGAATTATGTAGGTTGAAGGCTCC
Celera SNP ID:            hCV1841565
SNP Position Genomic:     5851
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(C,1|T,31)   total(C,1|T,63)
SNP Type:                 hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 hmCS


Context             (SEQ ID NO:16754):
TTCTGAATCTTCTGAAACCAAATGTAACTATGTTTTATCGTCCAGTGACTTTCAGGAATTGCCCATTGTTTTTCTGATATGTTTGTACAAGATTGTCATT
R
GTGAGACATATTTACAACCTAGAAGTAACTGGTGATATATCTCAAATTGTAATTAATAATAGATTGTGAATAATGATTTGGGGATTCAGATTTCTCTTTG
Celera SNP ID:            hCV1841567
SNP Position Genomic:     8829
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,8)   caucasian(A,10|G,14)   total(A,28|G,22)
SNP Type:                 UTR 3;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;32 white Americans; 2 CEPH individuals(A,20|G,47)      total(G,47|A,20);HYP2(A,20|G,48)   total(G,48|A,20)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:16755):
CAGTATTTCTTCAAGTGGTGTCAATATTATTGCTATTCTTTTTATAAACTTTTTGTTAATTCTCTGCAGTTACAAAATTTTTCTTTGACTTGTGAAAAAA
W
TTACTCCTAAGATTATGAAGACGCAGAGTAAATGGCCCTTTAATCTTCTGGGAAATATGTACCTCTTTAAACTTTATTTATGTCAGAACTTACTGTAATG
Celera SNP ID:            hCV27838062
SNP Position Genomic:     3555
SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,31)   caucasian(T,38)   total(A,7|T,69)
SNP Type:                 hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 hmCS


Gene Number:                 42
Celera Gene:                 hCG1729266 - 84000314192123
Gene Symbol:                 AP3B1
Protein Name:                adaptor-related protein complex 3, beta 1 subunit;ADTB3;ADTB3A;HPS;HPS2
Celera Genomic Axis:         GA_x5YUV32W40L(6585620..6889143)
Chromosome:                  Chr5
OMIM number:                 603401
OMIM Information:            ADAPTIN, BETA-3A;AP3B1


Genomic Sequence (SEQ ID NO:12202):
TTCTTTTTTACCACATGGTGTCGCTGCAAATTTTCCAAACTTTTATGTTCTGTCACTTCTTGAACACTTTGCTGCTTAGAAATTTCTTCTGTCAGACACC
CTAATCATCTCTGTCAAGTTCAAAGTTTCACACATCTCTATGGCAGGGGCAAAATGCCACTGGTCTCTTTGCTAAAGCATAGTAAGAGTGATTTTGCTCC
AGTTTCCAATAAATTCCTGATATGGTTTGGCTCTGTGTCTCCACCCAAATCTCATCTTGAATTATAATAATCCCCATGTGTTGTGGGAGGGACCCAGTGG
GAGGTAATTGAATCATGGGGGCAGGTTTTTCCTGTGCTGTTGTGGTGATAGTGAATAAATCTCAAGAGATCTGATGGTTTTATAAAGGGGAGTTTCCCTG
CAGGAGCTTTCTTTTGTCTGCCACCACGTAAGATGTCCTTTTGCTCTTCCTTCGTCTTCTGCCATGAATGACGCCTCCTGAGCTATGAGGAATTGTGAGT
TCATTAAACATCTTTACTTTATAAATTGCCCAGTCTCAGGTATGTCTTTATTAGCAGCATGAGAACAGACTAATATAGTTCCTCATCTCCATCTGAGACC
ACTTCACCCTGGACTTCATTGTCCACATCACTATCGGCATTTTGGTCAAAACCATTCAACAAATCTCTAGGAAGTTCCAAACTTTCCCATATCTTCCTGT
CTTCTTCTGAGCCCTCCAAACTGCTCCAACCTCTGCCTGTTACCTAGTTTCAAAGTCACTTCCACATTTTCAGTTTGTCTTTATAGCAGTACCCCACTCT
ACTGGTACCAATTTACTGTATTATTTTGTTTTCACACTGCTACAAAGATACTACCCTAGATTGGGTAATTTGTAAAGAAAAGAGATTTAATTGACTCACA
GTTCTGCATGGCTGGGGAGGCCTCAGGGAACTTACAATCATGGTGGAGGGGAAAGAAGGCACCTGCTTCACAAGGTGGCAGGAGAGAGAGAGAATGAAGG
GGTAAGAGCCCCTTATAAAACCATCAGATCTCATGAGAACTCACTCACTGTCATGAGAACAGCATGGGGGAAACCACCTCCATGATCCAGTGACCTCCTA
CCAGATCCCTCCCAAGACACTTGGAGATTGTGGGGTTTATGGGTTTTAAAATTTCAGATGAGATTTGGGTGGGGACACAGAGCCAAACCATATTGATACC
TATTTACATATATATAATAATAATAAGAAAATTTACTTTTATTTCTGGATTATTAATTTTTTCTTTAAATCAGAAGAGCTGATAAAATATTATGAAATGA
TTTCCAATATCTATCATTATGTTTCTTAATGTTCAAAGATTCTTTTATCATATAACAAAACGTATTGGATTATTTTGTTTTTCATTTAGCATTTGTTTAG
TATTGAGATAGTTTATTGTTCTTTTTTGTATTTAATAAAATCAGTCCTACAAAATGAATTTGGAAGTGCTTTGTCTTTTTCTTTGCTAAGTTTAATAATA
GTTTAAAATAACAGAAATAGTAAACTCCTTATAGGCCCAATAGAACTATATTAGTGTAGTCCTTTTTTGGTGGTAGACTTTTGGCAACGTTTCCAATTCT
CTTCTATAGTTATTTAGTTTATTCAGGTTTCCTGCAACTTTTTGAATCAATTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTTCTTCG
CCCAGGCTGGAGTGCAATGCACCATCTCAGCTCACTGCATCCTCTGCCTCCCGGGTTTGAGCAATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTAC
AGGCATGTACCACTACACCAGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGACCAGGCTGGTCTCGAACTCCTGACCTCAAGTGAT
CCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTCAGCCACTGTGCCCGGCCTTGAATCAATTTTTATAACATATTCTAGATAATAATGAGAA
AATGTTAACATTCAGTATCTATAAAGTATGCCTACAAATCAATAAAAGATCCACTTAAAACTAAGCAAGTGACAAATGTGCATAATTAATAGAAGAAAAA
TTCAAATAGCCGTTTGATGTGTGCTTTAAATCTGTTATATTTAGGGTAACCATATATGCCTATTTCCCTGGCAGAGTCCTGGTTTACATGTATTTGTCCA
GTAAAATTATGACTAGTATCACTTTTTGTCTCGAAAACTTCCTATTTGGGGCTGGGCGCTGTGGCTTACGTCTGTAATCCCAGCACTTTGGGAGGCCGAG
GCGAGTGGATCGCTTGAGGTCAGAAGTTCGAGACCAGCCTGACTAACATGGTGAAACTCCATCTCTACTAAAAATATAAAATTAGCTGGGCATAGTAGCG
CATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGATCCCAGGAGACAGAGGTTTCAGTGAGCTGAGATCACGCCATTATTCTCC
AGCCTGGGCAACAAGAGCAAAACTCATCTCAAAAAACAAACGAACAAACAAACAAAAAAAGAAAACTTCCTATTTGGACAATACATTTTAATGTCTCTTT
ACTTAGAATAAATGAGATGCAAGTTTAAATGATAGTAGAGATTTTATTATTATTATTACCAATCAGATTAGCAAACATTAAAAAGATTTATGATGTACAT
TGCTGGAAAGGGTGTGTTGAGATGGAAGAATATTGGTGAAAGTGTTGGTATTCTCTTTTTATGTTAGAAATTTGGCAATATCTATTAAAATTTTAATTGC
ACATATCATCTGTTCTAGCTATTGGACTTTTGGAATCTTAACTAATGGGAATAGTGGTGGCGTGGTGCAAAGACATGCATTGACAAAGTTGTTATAATAG
TCCAAAACTGGAAACAATTTACATGTGTATCAATAGGCTATTGATTAAATAAATAAAGATGCACCTATGAAATGAAATACTATGTAGATCTTTAAAACAG
TGAGATGCAGTAAGATGCAGAATGGTATTATGGTTTTAACTGGTATTTGCAGAAACATGCCATATATCATTTATTTTTCTATGCTTAGAGAAAAAAGCTT
GAATATATATACACACTTAACACCTATATCATGAGGGTTAGATGAACAGAAATGGAAACAGAAAATTTGATAAAGGTTTTGTTAAGTGTTAGGGGGAAAA
TAGTTTTTGGAAAAAAAAAAACAGCTTATTTGGCAGTAATACCAGACACTACGTATACTGGCAGGAAACAGAAAAATCTGGTTTGGTTTGGCAACAGGTG
TCAAAGAGTAATCTTTTAGTTTTATTAATGTTTCTTCCAGTTGGAAGTGTGACTTTTTTTCCTCTGTCAGAAAACTTCATGGCTATATAAAAGATTTTTC
AGTTCTGGAGATATGGGAAAGCTGGACCACAGCCCATGGAGTTATTACTTTTTATCTTTCTGTAAGAATATACAGTGTTAGAATTCTAAGGCAGTAAGGG
CCTCAAGTCCCTTCTTGTCAATGCTCTCATTTTTTTATTTTTTTTTTAGTGATAAAAATAAAGTTTTACCTATTTCATCCAGGAATATATGCTTTGTATC
TTATACGTAATATTCCAGAGAAAAAGAAAGTTACCTATACCTCTTTTTTGAAGAATAGATATTCTTAATATCCACACCATTCAAAGACAATGTAAAAACA
AAACAAACAAAACCCCAAAAAACAAACCCCCAAAACCCAAAACCCCAATATTGTAGGTCAGTCTCCTACCTGAGTCTGTATGAAAAAATAAAAATATTAC
AAAATAAAATCAAGCAGTTAATTAAAAATAACAGACTCAATGATAAAGAACTCTTCAAGTCCATCAGAAAAACTACTCAGTGTAAAAGTGGATAAATAGG
TTCATGTGCAATTCCCAGGAAATAAAATGCAAATGGAGTAACAATCACATAAAATATTCTCAAGTTCATTATGGCCATGAGAATGAAAATTAATTACAAT
ACAAATAATATTCATTTGTATCATATTGATGACAATTAAACATTTTTAGAAAGCTAAACGTTTGTGAGAATGTGAAGAAAGAAGATTATCCACTGCTAAA
AGTATGCTGGAAAAAAATTTAGGATATCTGGTAAAAGTGTACATGCTCTAAAACCAAGAAATTCTGTAATCAGGTATGTGTCCGAGATTTTCCAGGCTAT
GTGTATATCAATGTTCTCATTTTACAAATAAAGTAATCAAAGCCTAGCTCTTTTTACTATTAATATATATAAAACTACTTAGAACTTTTAATATATATTA
AAAGTTAACTATTTTAACTTAAAAGTATTTATTTTAACTTAAAATAAATTTTTTTATATTAAAAGTTAACTACTTTAACTATTTATATATATAAAACTAC
TTAGAAGTTTTAATATATATAAAACTACTTATATCCTGGTATATATTAAGGATTATATAATAATATATAGTTATCTATGATCATCCTCATCCTCATCATC
AATAGTCAGTTGTAGGTGAAATTCTATTAATTAATACTGACAAATAACACATTTTAGGTGCTCATCATTGGCTCTCCGGAGGAGTATTCTAACAGCTGAA
TTAAAAACCTGCCAATATTTGACCAGACGATCAAGTTTGGAGGACGTCCCTTCCTCTCCCACCCAGAGCCACGCTCTTGCGTGCTTCCACAGTGACAGTG
TGACCTTTTGAAATTTGGAGATCATACTCTCATCCTTGAAAACGCCCCACCGCCTTCCCTGGGGCGGCCGGCCTCCAGGTTCGCGTTCTACCTGGTAGAA
TCCCTTGACAGTTTCAGTACCTGGCCGCCAGGGCTTTGGGTGTTAATGCCTTCCTTGGACGGGAGGCACTGGGGAGAAGAGAGGGAAGGCGCTGAAACCC
ACCTGAGAAGGCGGGCTGGGGGAAGGCACCCCGGGAAAGAGGTTTTCTCGGGTGCCAGCACCCGGAGAGAGCTACTCTGGGGCCAGGCAAGCATCCCGCC
TAGGCTCCCTAGTGCATATTAGTGAGTAACACGACTGGCGCGCGAGGTGGTCCATTTTATTTTTGGTAGCTAGACGCCAATAGGACGCACCACTTCAGCT
CCAAACGGGAACTGGTGGCCCCAAGATGTTTTCTTTTCTTTTTCATTTTTTTGAGACAGGGTCTCGCTCTGTCGCCCAGGCTGGAATGCAGTGGAGAGAT
CTCAACTCATCGCTACCCCCTCCTTCTGGGTTCGAGTGATCCTCCCACCTCAGCCTCAGTAGCTGGGACCACAGACACGCGCCACCACGCCGGCTAATTT
TTATATTTTTTGCAGAGAAAGGGTCTCGCTATGTTGCCTAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGG
AATTACTGGCGTGAGCCACCGCGCCCGGTCTGCCCCCAAGACTTTCATTGAAAAGATGGAATGGTCGCTTCTGTGCGGATCCTCCAAACCATCGTTGGGA
GAGGCCTCCTTAAAGTCTAGGAGAAAAGTTGTTTGGGACCGATATGAAAGTAAGGCAAAGCCGGATGGAAGAGAGTAGCCGAAACAAGCAAGAAAAGGAA
AAGCGATCGTGATGGGTTTAGGAAAGGTGATCTGGCGTGCTAAATGGCATTTCCGGAGAAATCTGAAAACTATTGCTTTACTGAAGTATAGCAAAGAGCT
GTCCGGGCTCTGGAAACTCCTTAACGGATCAAAACGGATGCAATGGGTATCCTTCTCCAAAGACACACCTCAAACGGGCCGGGAGCCGGGCAGTTAGCCA
CCCGCTGCCTCCCCTTCCGCAGTCCGGCTCGCAGCCGCTCAGCTACCTCTAAAGCCCGGAGCAGGAAAGTCCGCGCAGGCCTGGATGGCCCGGGTGGTAA
TCTAGCAGGCCTGCACACTGCGCATGCGCAGGGGGTGGACTGCCAGGTCGGCTCAGGGAGCCGTGACGAGTCCGGAAGCGCCTGCGCGCGCTCCTCCGTA
CGAGAACTAGTTTTGTTCCGTGCCCTCTGGACTGGAACCTTTTGGAGAGAACCCCCGGCAGGACCAACCCCGCACCCGCCAGCACCGCGGCAATGTCCAG
CAATAGTTTTCCTTACAATGAGCAGTCCGGAGGAGGGGAGGCGACGGAGCTGGGTCAGGAGGCGACCTCAACCATTTCCCCCTCGGGGGCCTTCGGCCTC
TTTAGCAGCGATTTGAAGAAGTGAGGAGAAAGGTTTGGGTTGCGGGGATGGGAGGGAGGAGCTGCGGACTCGGAGGAGTGGGCGCCAGGGTGGGCTTCCT
GGAGAGGAGCGGGGTCGCCCTGAGGTCTGAGCAGGGCAGGGCGGTAACGTGTCCCGCGGGTGGGTAGGTGGGGTTGGTTGGCGGTGGTGGGAGTTGTGGG
AGTTTGGGGCGAATGTGTGTAGGGGTCTCTAGTAGTTTTCAAACTTTAGTGAAAAGGAAACCACTTGGTGAGCTTAGATCCCACCCSTGAAGACACTGAT
TGAATTGGACTTGGGCTGGGCTCAGGAGTCTGAATTTTGAGCATCGTCTTCTAGTTTATTTACCGTTCGCCGGATCAGACTTTAATACATTCCCTGATTA
GGGTGAAAGGAGTGTTTTGGTGAAGGTGAGAGTGCGAGTGTTGCTTGTGGGAAGTTATTTTGTGACCCCGGAGTGTAGGAGCAGAGAGGTGGATTTAGGC
TGTTTGAATGGACAAACTGGTTTACACCAGTATTAATGTTCTTGGATTATGTCCTTTGCACTACAGACAAAAACACCAATCCAAAATAAGCATATGAATA
GAAAATATTTTAAAAGAGTGTTACTGTGAACAAATCCAAAACTTTTACAGATTAATAATGTGAATTTTAAAAACGAATGTTAAACAAGGTACACTTAGTT
TTGTAAAAAGTATCACCGAGAAATGGAAAGAAATCCCAAGTTGTTTGTTTTGGGGGGTGGGTTGGTGGTAGTGGTTACATTTACCAGAATTATCATTTTT
ACATTTCTCTTATTTTAAATCTTTCATTACTAAGCAATAGGGTCACATAATAGTCTGTCACTAAATTCATGCTAAATTAAGGTAGAATAGCTGTGCTAGT
AGCTTTGCAGATCTGTTAGAGGGTATAATTAAAATTTAAATTAAACGTTACTAACAATATTGGGTAGTCTAGAAAGTGCTACTACTTCAAATTGGGATTA
CATTTTGGCTGTATTGAGGATCAAAATCATATATATAGCATGTAAGATACAATCTTTTCCTTTTTCCCAAGGTTAGAAAAGTTTAAAAGTAAGGTAACTG
ATTTCATTTTTCATTATATGCATTTGATGATCCATTGTTCTAGAACAAGTACGGAGCTTGTTGCCTCTACTATTAGCAAAATGTTTAGACTGAATTAACC
TGTATATCGGCATCAATCTGTTTYGCAAATTAATTTACTTTTATGGTTTGTGAACATCTACGATGTTTTCTCTTAGATTTTTGTCAGATTTGGGGCCAGG
CACTGCGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGGTGAGKTGGGCGGATCGCTTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAA
CCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCTCGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCC
GGGAGGCGGAAGCTGCAGTGAGCCGAGATCGCGCCACAGCACTCAAACGTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAGAAAAAAAAGAAAAAGAT
TTTTGTCAAATTTGGACCTGATTTGGAAAAAAAAAACAAAAAAAAACTTACGGCTTTGACTCTGTGACCAGTGCTCTTGAGGTGACCTAACAGGTTGGAT
TTAAAATAAAAGTAGCTAATTGATTAGAGGTGATATGTAATATATGCAAATAACCATGGTTGAATTGTGTTCCCCGAAAGATATTTATTGAGTATTTGTG
CACACCACTTTACATTTATTATCTCATTCAGTTTTCCTAAACAACCCTGCAGGTTATTACCAGGTACTTCTCTGCTCCCACTTTACACGTGAGGAAATTG
GAGCAAGGTTGTTAACTTGGAAAAGGCCACAAAGGTAGAACATTGCACTGCCTGAATTTGAACTCAGGGGCTCTAATATTAGAGCCCATTCTCTCAAAAG
TTTAGATGTGCTACTTACTACTTGATGAAATGTATGGTATTTTTATTAGTGAGTGCATACAACTCACAAAAAGTTTAAAACTTTAAATAGTAGCTCCAAG
TAGTACCACCAGAGAAGCTTCCAGGGATTAGAAACATTTGGCTATTGACCTGCAGTCTAATGGAATTGTACAGAAACAAGGAGACCCCTGTKCTGGAAGT
GGTCATTAAATCTCTCTTGAGTCCACATTTTCTCATTTATAAAACCGTAATATTACTTGCCTTTTAAAAAATCGAATGACAAAGTTTATATAAAAAACTT
AAAGCTTACCCTATTCCTCACCTCTGGTTTTTAATGGTTTACTCTGATGAAATAGTTTCARGTTTACAAAAAAGTTGCAACAATGACACAGAGAGCTACC
CTTTTGCAGATTTACCAATTAAAAAAAAAATGCTACATTGCTTGCTTACTCTCTCTGCCACTCACTCTCCCCATGCATATTCAGGCACATRTACGTATTC
ATGTTATTATGTCTTCTGAACCATTGGAGACTCAGTTGTACACATCATGTTCTTTTACAATGAAAATCTTAATGTGTAATTTTTAAGAACAAAGATATTC
TCTTACGCAACTACAGTGTTGATGTATTCAGGAAATTAATCTAATTTTATCCTTTGTTCCAATAAAGTGTTTTTTTTCCCAAGCATTTTTTTCCTCAAGT
ACAGTTTCCAGTCCAAGATAATATATTTAATTTAGTTGCCATGTCTCTTTAATCTTCTTTAATCTGGGATAGTTCCTTAGCCTTTTTTGTCTTTCATGAA
TTTGACATATCTAAGGATTGCAAAGCCTATTATTTTATTTTATGTTAATCAGTTTTTGGGTTTGCTGGTGTTTCCTCATGTTTAGATTCAGGTTATGTAT
CCTTGGCTGGGATACTACCATAGGTGATGCATGCTTCTTGAACTATTACATTTGGAGGCATAGGTTGTCCATCTTCATGRTGTTAATTTTCCTAGTCACA
GGGTTGTCCAGTTTCTCTGTGGTGTCATTTCTGTTTTTTTTTTTTTTTTTTTTCAAATTATCTGTGGGGAGACACTGAGACCATGCAGATGTCTTGCTCT
TTTTTAAATGGACCACTTCTACATTTAACAACCATTGATCAATCTCCTGAACCTGTCTTTTCCACAATGGCTGCAAAATGGTAATGTTTCAGCTGCAACT
CCCTCTGCTGTTCTGCTCTTTGGCTTCTTGGCCTARAGCTCTGTGTTCACTGATCCTTCACTAACCATCTCAATGATGCCTAGGTACTTCCTAGTCATAG
TATTATCGGCAATTTTTGTTTTCTGAATTTAATCTTATTTATCAATATTATTTATCTTCTCCTCTCTTCAAACAGAAGCAGAATTAGATGGCTTTATGAA
AGTAGATCCTATACCTAATTTATTGGCTAAAAAGKCCTGTGTATTAGATTATTGGCTTCAAGATTTTCAATTTCTTTATTTAAAATGTAAAGAACTTATT
TTTGTACTCTTATTTTTTATTTTTTGAGACATGTCTTACTCTGTTGCCTAGGCTGGAGTGCAGTGGTGTGATCATGGCTCACTGCAGCCTCAACCACCTG
GGCTCAAGTGATCCTTCCCACCTCAGGCTTCCGAGTAGCTGGGACTACAGGTGCATGCTACCATGCCCAGCTAATTTTTGTATTTATTGTAGAGATGGGG
TCTTGCCATGTTGCCCAGGCTAGTCTTGAACTCCTAGGCTCAAGCAATCCGCCTGCCTCATCCTCCCAAGGTGCTGGAATTGGAGGCGTGYACCACTGTG
CTTGGCCCCTTCCTTCTTTTTAAAATATTCTCAACTTTTATTTTCTGTTTTTTTCTAAGTTGTTTTTCTTCATTTAAAAAAAAACTTCTTTTAACCAATT
TGGGTATGTGTGCCTATAATTAAAAATAATTTTAATAATTCTGTTACTGGATTAAACATTTAATTAGGAATTAATTTCTAGAAACAGACAAGACTAATTA
ATTTTTCTTAATTACAATAGTAAAGCTACTAAATTTGTAAATCTCTTTTCCTTTGAGAGCATCTTGGTGTATTAGAAGGAAGACTGAGGCTCGGAATGGT
GGCCCCTTGCCTGTAATCTTAGCATTTTGGGAGGCCCAGGCAGGAGGATTGCTTGAACCCAGGAGTTCCAGACCAGCCTGGGCAACATAGTGAGACCTTG
TCTCTATAAATGAAAATGGGAAGAAAAAACAAAAAACACTGGGCCCAGAGTYAGAAGACCTGGATTTAAGTTGATGTTTTCCATTTGTAGTAGTGCTTCC
TTGTTCAAGTTGCTGATCTCTTCAAACCTCAGTTTCCTCATTTCTAGACGGGATGTGATAATACTTGCCTCTTTTGTGAGGATCTCATGAGATGGTGTAC
TTCAAAGTGATTTCTAAACTAGGATATTAACTAACSCTATTTGGGAAAGTTGGTGAAGACTTCACTGAGGTAGTGACACTTTAGATCTTAAAGCCTGAGG
TTTTTGCCAGGGGGAGGAAAGATGGATTCTTTAGGCAGAGTATGTAGAAACCAGAAGATTTGCAAAAGAAAAAGCATGTTCAAATGAGATGGATATTTAG
ACATCACAATTATGAATAGTAGGTAGTAAAGTATGGGAATGGATGAAATCACCCAGGGAAGACTTTTCTTGTTAGACGAGAAGGCAGTTTGGACAAAACC
CAGGGGACAMCAGGATATAAAGTATGAATGGAAGAACTAGAAAAAGAGACTGAGCTCAGAAGGGTGGGAAAACACAGGAAGGTTTAAAAAAGAAGATGCT
AACAGGAAAATTAAAAGAAGGAAATGTTCAGCTATGTCAGGAGTTGTAGAGTAAGGGCAAATAGAATGAAGGCTGAAAAGAGGCCCTTGGGTTTAACAAC
TGAAAGGTGACTTTAGCAGCCAGTAACTTAGCAATGCAGTACCTCCTGCACACGTTGAAAGGTAGCATTTTTACTCTGTTTAAATCGGGGTGGGCTTTTC
ATTTGTTTAGATTCAAAGAGCTAATTTAGATCCAAGCAAAGTACTGCATGCTTTCCTGTAGTCAGTAATACAACCCAGTGTATTTGGATTGCATCAWTAA
AGCCTGACTTATTTTTTAACTTAAATCTTATTCATTGTCAACTTTACAATATCAAACATGAAAATTCTATTACATTCATTCTTAACCTTTAATATCAGTG
ATTCTCAGGAGAGTCCAGTAGGAAGATTACATGTGTCTGTGGTTTGTACGCAATTATAGCAACTCTGACTTTATCTCCACTACTTTTTGTATCTTTCTGA
AAGGCATATAGAAATGCAGCTGAGTGAGATTCATTTACTTAGAGGGATGTTATTGAATATACTTTCTTAAAAATACAATTTTATTAATAGTAACGCATTA
TATTTGACMTACCTCAAAGAGTCATTGTGTCTCACTATGGGTTCTAAACTTGTTTGTGTTTAAGTCCATTTTTTATTAATACTTAATTTTATCTAGTGTC
TGTACCATATTTTTGGGTGTTTTTTTTTTTCATTTAACATTTTTTCATGGTCTAGTTGTTTAGAGCTTGCTCTACTTTCTTTTTGCTTATCCTAGTATTT
CTCATTTAAACTTTATCTCATTGTGTATTTTCAGTTTATGTAGTTGCTCAGTGAATATTTCTTAAATATTTATATAGATAAATCGTTCACACATTCTGCT
CATATTAAAGACTRTGATTTGTGTGAAGGTGCCTAGCAAAGTGTTTGGCTCATAATTTTGCTTAATAAAATATTTTCAGATCCTTTTACTCAATTCAGTG
ATTTAGATTCCATTAACATTTGCTCTCTCATTAGCCAATGTTGTTAAAAAATGAAGCATGACTGATTCYGTGGACCCTATACAGAAGGAAACCCTCATCT
GGTATCTCCATTGTATTGTAGTACAGCATCACCCTGAAGCTAATTTTGTGTAGTTCACTTGGGTCTTTGCTGTGGTTAGGATTAACTGACTCGGAATTGT
CATGTAGGTATGGAATGAACTTTACAATCAGGATTTTTAGTCTTTATCCCAGTCTTCAAAGGCATCTTTACCTCCCAGTCTTGGATTATTCCATATGTAT
GGTTCATTCCTCTGTGTTTTCACCATAAAAATGCATAACAATTATARGGTCTTTATCTTGTTTTTAAGAAACTCAGACTTTATTTGGAGAGATTAGGCTA
ATGTGAACTAACCGTCAGTAATTCAAGTATACAATTAGTGTTAAATTGTGTAATTCAACTTTTCAGTGTGACATACCTATTGAAAATTATTTGTTATAAG
CCTTTGTTTGTGTAAACAGTGATTTACTGAAGAAAATGGAAATGCTGGAATTTTGAAATGTTAAGGACATTTTAGTTTGAGACGTTGAAGTGTTGGTGCC
CTGAGTCATAAGCATGACATGAAGAGGCACGGGCTCCTTCCTCATTGTGAATTCCTTTCTCTTGTGCTCAGGAGTTCAGGGTTGCTGCTATGAAAATATG
CTTCAGACATGATTTTGTYAGCATACTGTTATACATCTGATCATCTTTAGTTATGAAGATTTAAATCTCTTGTGTTCTAATAATTCCAGGTTTGATAACT
GATCTGTCTTGTTTATTATGTTTAGCTAATTGAAATTTATGGTCATTAGATCTGGTACTAGAGCTGTTAACATATTTGCTTGCTACATATGTAAACTGGA
TCCTACTTTTTTTTTTTTTTTTTACAAGGGGTACATTAAGTTATTAGGAAATTTTAGTATTTTATTGATTTTTCACTAAATTTCAGCATTTGTTCCAAGG
TGACTAAAAATAAAAGAAGAAACTGTATACTAGCATCTGCAGTGCATTCCTAGCAGCTGAACTAGTTGTTTTTGTCTTCATAAAAATAAGATCGTAAGTT
TTACAAAGGGCCAACTATTCAAATTAAGGATTGTCATTTCAGTGGTGCAGTAGGGTTCCATTTATGATTTAATTCTTGAAATATATTTCAAATTAAATAA
GATTTTACTACATTGAATAGAAATTTGATGAAATACTGCCTGTAAACAGAGTSTTACTTTCCAACAGATTATAAAACCTTTTATCTTATTTTGCTTTGCT
TGCATATCTCCTTGAAGGAGAGTTGGTTCTGACTTCTACATTTTGTCTTAATAAATATTCAAGAAAATATTCTTTCTTGACAGTAGGATATGTTATTTTT
AAAATCACTGATCTGGTAAAATTTGAGGAGAAAAATCTGAAAATTAAATTTCAAGCCTTACCATTAAATCATAAGATGTGAGATTTTATGTTATTTAAAA
AAAATTTAGTATTTGGAGCAACATTACCAGAGCTGAATGATTAAAGCACATGAAAAAGGCAGACAGATGGTTGGTTGAAATGTTCTTTTTTGCTGCATGA
AAAGTTATAAATGCTCATAGAATGACAAATGTATTACAGTGAAATAATTTGACAGTATTGCACTTGTGTATATAAATGAACTACTGACAAAAACAAATTG
CCTGCAGTCCAAATTCAAAATTTAAAATGAAGAGCTTAAAGTAGAATAATCAAGAAGGAAATGATTTTCCTCTATTTCATATTATTATGAATAACGTTGG
TTCGTGTATTTAGAGAAGGCTTATTTAGCCTATCAGCTGGAAAGACTTAATAGATCTACAAAAGTGAACAGTTTATAGCCAATATCTGTTTATTGATGGA
CTGATTATTTATATTGCTGATAGGAAMCAGCCTAATTAGAAGTCCACTGTCTTTAATTCAGCTGAGTGAGTTGGCATGGTAGCTGGACAAATGAGAGAAG
AATGAATAAGGCCCTGTCTCAGTTTGTTTTATGCTGCTATAACAAAAAACCTGAGACTGGGTAATTTCTAAAKAATATAATTTTATTTCTCACATTTTTG
GAGGCCAGGAAGTCCAAGATTGAGTCACAGGCAGGTTTAGTTTCCTGGTGAGGGCTGCTCTTTGCTTCTAAGATGGTCCGTTGTTGCCRCATCCTCTGGA
GGGGAGTAATGCTGTGTCCTTACTGGGCAGAAGGTGGAAGGGCAAGAGAATGGAAGACTGTGAAGCCTCTTTTGCAAGGGCCTTAATCTCATTCATGAAR
GGAGGAGCCCTCATGACTAAATCTTAAAGGCCCCACCTCTTAATGCTATCATATTGGCCATTAAGTTTGAACATCTGAATTTTGGAGAGGACACATTGAA
ACCATAGTAGGGTGGTTCCAAAATCATAGGTTGGCAGAGCTAGGCATCACCCAACTTTATTCTTGGAATGGGTTTTCTGCAAGTTTTTAAAGCCTAGGTT
GAGAATGTGGTCAAGAAGGATGTGGGGGAAATTAATTAGTAAAATATGAGGGCAGAGAGATAAGGGGCAGAGTGGAAGGCGGAGACCTGATTGTGTAGGG
CCTTGTAAAGTCATTGTTAAGGTCTTTGATTTTACTCTGAGTGAGAAGGGATGCCATTTGGAGAGTTTTGAGCAGAGGGGTGAAATGATTGTTTACCCTT
TAAAGGGACATTTTGCCTCTTGAACTAGGAGTGGACTGCAGATTTGAGGCAAGGACCAGCAAGGAGACTATTACAGTAATTCAGGCAAGAGAAGGTGATC
CGATTGGTGGTAGTGGAGAGAAGTGGGTGAGTTATGGATATATTTGAAAGGTAGAGCCAATGAGATTTGCTGATAGTTTGGATGTGATATGTGTGTGGGA
GAAAAGATATCAAGGGTGGATACAAAGTTTTTTGCCTACACAGCTCGAAGTTTGGAATAGCTGTCAACTAAAATGAAGAATATTGTGCAAAGAGGAATTT
TTTTTTTAAAGGGGGAAAGGGACCAAGAGCTTGTGCATGTTAAGTTTGAGATGCGATTAGGCATCCATGTGGAGATACTAAATAGGCAGTTGGATATCAG
AGTGTGGAGCTTAGAGGAGGAGTCAGGCTAGAAGTATAAATTTGGGAGTCATCAGGTATCATGGGATTGGATGAGACACTGAGGAAGTGAGTGTAGAAAA
AGGTCAGAGTCAGTCAGTCCTGGGACATTCCTGGAGTAATTGTGTCAAATAATACAAATAGGTCAAGTAAGATGATTACTGAGAAGGGAGTTTTGGATTT
GTCACTGGGTGGACTTTGGTGACCGTGACAAGCAGTTTAGGTGCACTGGTGGGGCTGAAAGCCTCATGAGTGGGCTCAAGAGAGAAGGAAGAAGAAGAAT
TGTGGTTAGTATTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGACTCACTGCAAGCTCCGCCTCC
CGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCTCCACCACGCCCAGCTAATTTTTTTTGTATTTTTAGTAGAGAC
GGGGTTTCACCGTGTTAGCCGGGATGGTCTCCATCTCCTGACCTCATGATCTGCCCACCTCGGCCTCCCAAAATGCTGGGATTTACAGGCGTGGGCCACC
GCGCCTGGCCATTAGTATATTTTTAAGTATAGAAGAGCAGAGAAATGGAGCAGCACTTGGAGAGGAATGTTATGTCAAGGAATTTTTCCTTAAGGTAGGA
GAAACTGTATTATCTTGTTTGCTGATGGAACCAACTGATGTAGAGGAGAGAAAATAGATGATGCATTAGAGAGAAGGAAAATTGCTGGAGAATTGCTGAT
ATCCCCTTTTTCTTCTAGAAAACTTACAGATACAGGTTAGCTGAAAAATAACAACCCTAATTTCAATATCCAGAAGAAATCGGTTAATGTAGTATATATC
TTTTAGCCTTTTTTCTTTTGCATATATATTTATATGTATGTATGTGTATATCATGTGTTTTTAGAGCAAAGCTATATGCTTTTATAATATGACATTATAA
TTTGCTTGTTTCATTTACCAATGCATGGAGCCTGCTCATTTCTTAAAATGATAGTCCTTTTAGGACAAATTGTAGTTAAATTACTATCTATTAGCTATTA
GGAAAGTAAACAACTAAGGTATACAAATGAGGTTATGTAGCTAGCTCCACTAGAGGATTTAAATAGTATCTTATGTAGAATGGACCTTATTAATTACTAC
CTACATAAATAGAATAACCTTGCAAAAGAATGAATACTAATGATGTTAGATAGTAGCACTGATGAGGACTTTCCACACATACCTGTGTATACCAGGCAGA
CAGAATAGCRTATACCTRGGTTTAGAGCTGTAATGTTCAATATAGTAGCAACTAGCCAAATGTAGCTATTTAAATTTAATTTAATTAAATTTAATTTCTC
CACCACTCTAGTCACATTTCATGTATGTGATGTAGCTAGCAGTTACTATAATGGATAATGCAGATAAGTGATTATTTCTATTATCACAGAACATTCTATT
GGATACTGCTGGTTTAGAGGCAAGGATTTATGGCTTACATAGGGAACAGGAAACAATTCAGTGTGGCGAGAGCACATAGTTAGGAGGAAATGAGGGACTG
ACTGGTGAAAGATGGTTAGGAGGTAATCAGTCTGTATTATGAAGAGTTTTGCATACCATGCTCAGAAATTAGGATTTTATCATGAAGGTTTGCACAGTAA
GGAGTGCTAAAGTATAGGAGCAACATAAAATGATTTATTTTTTAAAAGATCACCTTGGCTACACCAGTGTTTTTGGATTGGACAAGTATGTGAATGATGC
TAGAATTCTGTGATACTGGAAACACAGATGGATAGAGTAAGTTTGGAGTGAGGAGGGTAAGTGTTGAGGTCCGTTTTGGATCTGCTGAATTTGAATTGAT
AGTTAGGCATTCGTTGAGCAGTTAGATAGATAGATAAGGTATTCAGGACAGCTACCTGGGCTGGTGATGTAGATTTGGGAGTCATTAATTGATGACATTG
TAGTTGGAGCCATTGAGTGGAAAGTGTGTGTGCGGCATGTGAAGAGAAGGCCAGTGAGGAATCTTAGTAAAGTCTACATTGAAGAGAGTAGGAGAATTGG
AACTTACTTASAAAACTAAGAAGGGAGAATTCAGTTTGGGGAAACCATGAAAGTTGATTGTACAAGTTTTTGAATTGTGTTTAAGGTATAAGGAAAGGGC
GAAACTTAATTCCTACTTCCGTAGGAGGAAGACAGCCGATAAATGGTTTATTGTGTGGTTTGTTGAGACAGTGTGGTATGACGGTTAGACACACCCACTC
TGGAACTATTCCTGGGTGTCAAAATGTGGCACAGAGTTAATAAATGGTACTTGGACAGATTATTTTACAACTCTCTGCCCTTGGTTTTCTTATGTGTAAA
ATGGGGATGAGGATGATAATGTACCTACACTCATTGACTAGTTGTGAGGATTAAAAGATTTAACATATGTAAATAGTGCCTGGTACATAATAAACATAGT
AATTATGATTACCATTATAACACCATTAAAGTCATTTAAAGTTTTGTTTTCATTTTTCTTTTTTGGTTTTAAGAGACACAATCTCTTTCTGTGCCCCAGG
CTGGGGTGCAGTGGCCCTATCATGGCTTACTCCTGGGCTCTAGTGATCCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTGCAGACATGTATCACCATGC
CTAGCTATTTTTTTTTTTTTTTTTTTGGTAGAGACAAGTCTTACTATGTTGTCCACGCTGGTCTTGAACTCCTGGGCTCAAGCCGTCCTCCTGCCTTGGC
CTCCCAAAGTGCTAGGAGTACAGGCATGAGCCACCATGCCTGGCCTGTTTTATTTTTAATATGATGTACTTTTTAAGCTATTATAATTTTAGAATTATTG
TTAATTTTAAYATTAACCATTGCTTTATGTTTTTAATTTTCAAATTTTCATCAAACTTCAGTTTTTCTGAATTATATTTCACAAGTGTTTGAAACAACTA
AATATRTTTACTTTTAATGGCAAAAACTGCAGTTACTTTTGCACCAGCTTAATACAAAGTACCTTTAATGTGCACCACATAAAAATAAATGAAATTAATA
AGCCCTGATTCTTCTGTGTGATTATCAAGGATTTGGGAACAATGATTATAGTACAAAGGAGTAAAAAGTGTATTTGTTTTAAACTTTTTTTTTTTTCAAT
TTTCAGTCTTCTTTTGTATCCTATGGCTTTGAAGCTGTTCTTGAAGAAGCAGCCTATTTCTCATTTTTCCTAAAAGAAGGCAGGCTTATGTATGTTTTGC
TTTAACAGAAATAAAAAGAGGAGGGGCTAAATGGTCAGCAGTGCCAGCTGCTGGTGTGGAATCAAGCAAAATGGTAAGGCAGTTTGGTGATAAGGCAGTT
GTTGGTGACCTTGGTGGTGGTGACAGCAGTGTCAAGGGATGTTGAGTGTGGAAATCGATGGCAGTCCATTGGTGGATGGGTGAGAAGTGAGTAAAAGAAG
ATCACTTCTCCGAAGAACTTTGGCTTTCAGGTAGAGGACGAAGGATGGTTATTGCAGGGAGACATGGAGTCTAACGAGCTTTTTTTTCTTTTAGAGTAGT
TTCTCTTTTATTTTTAATTATGGTAAAATACACCTGAATAACTTTATCATCCTAACCATTTTTTCCCCTATTTGACAAGGTATCAAGCAACTTAACCATT
GTTAAGTGTGCAGTTCAGTGGCATTAAATATAGTCATATTGTTAGGCAATCGTTACCACCATCCCTCTCCAGAACTCTTTTTATATGCACCACTGAAACT
CTGCACCCATTAAATAAATCCCTATTTTCTCCTCTCTCCTATTCCTACATACACACAGAGTCCCATCTATTTTGATACTTTGTATATTACTTAAATAATT
TTGGATGATAGTGACTGCAAATGATTTTTTTCTTAGCATTCTTAGTATTGTAAAACGGTTTTTCATTCATGTAGCAAAACTATAAAAAAAGTTTCAATAT
AGTTTGGTCAATAGGATATGTTTATGTTTCAAAAATGTAAAACTACACATGGAAATAAGTTAGTCAGTCTTTTAAAAATAAATTATAATGGGATAATTAA
CTATAGATGAGAACTGTTTTTTTTTTTTTTTTTTTTTTGAGGCAGAGTTTTGGTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTYGGCTCACTGC
AATCTCTGCTTCCTAGGTTCAAGCGATTCTCCTGCCTCAGCTTCTTGAGTGGCTGGGATTACAGGYATGCACCACCATGCCCGGCTAATTTTGTGCTTTT
AGTAGAGATASGGTTTTGCCGTATTGGTCAGGATGGTCTCGAGCTGCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCRAAGTGCTGGAATTACAGGC
GCGAGCCACTGCGCCCGGCCGAGAATTGTTTTTAAGTGATAGCATACTTTAAAATAATCACATAAAACTTAAGTGATTTGCACTTTTAGATTCTATTCCT
GTCAAGTACAAATTTGTAGGACTTTTTTTCTGTTTCTGGTTCTACATAGCCTTCATCAGGAAACTTGGTGGGACCATGTGACTTTAAAAAATTGTGGTAA
AAAACACATAACRTTAAATTTACTATCTTAACCATTTTTGAGTGTACAATTCAGTAGTGTTAACTATATTCACATTGTTGTGCTACAGATGTCTAGAACT
GTTTCATCTRCAATACTGCCCTGTGACTTTTTAAAAACTAATTTTTTTATTGAGATTTCCAAGTGCATCAGGGACAAAGGCAGACATTGCATATTGGTTT
CCTGAATTCCCTTTACAGAATGCTGATCCAAACTCATCAGATGGAAAACTTGCCTTCTGTGGCCTTGGAAAGTTGTTGTTGTTGTTTTTTTAAAGAATTT
AAAAATTAATCTAGCTTTGAGTTGGCATATCTTATTAACACAGTTGTAGAAAACTTATATTTCSTCTACTATAGTTTATGAATTTCTTGGAGAAAAATCT
AATACTAATACTCAAACTTGATGCACAAACGGATTCTTTGGCATGTTTGTGTGTATGCCCATCTGTTACTGTGGCACCATGCCTATTATTACTGTGGCAT
GCCAATAGCAGTGAGCCATGTGAGCCAACAAAGATGAATTGTTTGGACGGAATACACTATTCTGTAATACTAATTAATTTTGAGCTGATGAATCTACATG
AGATAATGTTAACCAAATACAGTCAAAGTAATGTCAGTGAAAATAAAATTTATTTTGACTTATACAGAAGTGTATCACAGATGTTTTAGACTACCATTGA
GAATAATTAGAATCAGTGTTTACTATGATTCTAGTGATCAGTTTTCTTTTCATGAAAATTTTGAGTTTAAAAGAAAAGTTCTTCTTGTGATTATAGATTA
AGTAGGGAGGGGGATGACACTCCAGGTTATGGATTTTATACCTTTTATAAGGTATTACTTTATAGTTCTTGAAATATATTCTTTTTTTTTTTTTTTTTGA
GACAGAGTCTCACCCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAGCCTCAACCTCCTGGTCTGATCCTCCCACTTCAGCCTCCT
GAGTAGCTGGGCCCACAGGTGTACACCACCATGCCTGGCTAATATATATATATATATATATATATTTATATATATATATTTAAGTCATATATATATATTT
AAGTCATATATATATATATTTAAGTCCTATATATATTTAAGTCCTATATATATATAYACACCTATATATACATATATAGGACTTAATATATAATATATAT
AAATTTTATATAATATGTTAAAAAATATATATTTTTCTTTTGTAGAGATTAGGTCTCCCTATGTTGCCCAGGCTGTTCTTGAACTCCTGGGCTGAAGCGA
TCYTCCTGCCTCCGCATCCCAAAGTCTTGGGATTGCAGGCATGAGTCACAGTGCCCGGCCATTGAAATATATTCTTAATATAGTCAGCTTTATAGCAGAA
ATTGACAGCGTAGTATGGTGAATAGGAAGAAYGTTGAATTTCAAAACAAGATTGAAATTTAATTCCTTGCTTTGCCATCCCTGGTTTTATGATGATATAC
ATAAAAGGCATGTGATTTTAGAATTTCTCACATGCTATGTAATCTTATGTTACCTTTATATATTCTGAGACTTGGTTTACTCATCTATTAAATGGGAACA
ATAATAGCTACACACGCTTCATAGAGACTTTGTGATACTAAAATAAGACAGTGTTATAARCTTCAGAAAATAAWACCACTACCACGTGGCTAAATAAGTT
AATAATATGTTATAAACACGACATGTTAGCGGTGAGTTAGTCAATGATGTGGAAAGGATATAACTTCCAATCCCATATCTCATAMCTCCCATTCATSTGT
AACTACAAAGAACAAGTTCTTATGTATCCTTTCAGAAATTTTTTAAAAAAATTAAACGATCATATATATACTATTCTCTATGTATCTTGCTTTCCACCTG
GTATATTTTAAAAGATCTTTCCATATGTTGATATGTCTTTCCATATCAACATATGATACCATTTTAATCTTTTAAACCAGCAATCGCCAAACCAGCAGTA
CCCAGGGACCTGTTTCATGGAAGACAGTTTTTCCATGGAAGGGGGTGGGGGTTGGCTTGGGGATGAGACTATTCCACCTCAGATCAGGCATTAGATTCTC
ATAAGGAGCGTGCAGCCTAGATCCCTCGCATGCACAGTTTACAAGAGGGTTTGCACTCCTCTGATAATCTAATGCCGCTACTGATCTGACAGGAGGCGGA
GCTCAGGCAGTAATACTCCTCATCTGCCACTTGCCTGCTGTGTGGCATCCTGGTTTCTAACAAGCCACAGATGGGTAATGTTCTGTGGCCTGGGGGTTGA
GGACCCCTGTTTTAAACCACTGTGTAATAGTTCCTCATAATTAATTAGTCCCCCCCCCCCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTC
GCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAG
CTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTCCTGA
CCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGAATTAGTCCCCTTTTGGAGGGGCATTTGATTGATTTCACTTTTCATCACATAAAAACAATATTTCAAC
ATAAGTTTTTGCATACCTGTGTGAATTTATCTATTTGTAGGAAAAAAGTTTTACAGGAAATCTCATAGAGCCACTGACATAGTTTAGTTTATATATGGTG
ATGCATAAAATTTGTAACAGGCAAAAAGTTCCTTTTCACTGTTTAAAAACACTGTAAACCAAAAATGCCACTTTGTATAGAAGATTAAGATTGGGGGAGT
CTCAGAAGCAATAAAAGGAAACATTAACAAATATACTACTGAATAGTCACATTCTAGAAGACATTCCTAATCTCCTGAGCAAAGGTAAAACATACTTCCT
GCTGCCTACCAAGAGGCCAAGTAGCTGAGGGCATTGATAAAGATCATGAAGATGTCCTGTGATGTCTGTATGACATCATGGCTTTTAATACGCATATGAA
TGATATGAAGACATGGAAGATATATGCTTGGTTTTTAACTTTTATTGGGATCATGGATCCTTTTGAGACTTTACAGTGAAAGGGTTCTTCTGTGTCTTTC
TAAGAAACAAGTTTAGTATATAGCCTGCTTTCATTTGTTTTTTCAACTAATGTTTATTGTGTATCTGTTATGGACCGGTAAGGAATGTAACCTGCTTCAG
CCTACCTTTAGAGGCCCTTCATAGATCTTCTTTTGGATTCTTTATAGCCAAGCTTGTTCTTGCTCTGTTATCTTGTATGATTTCTTTGGTTGTCTCCTTG
TACTTCGAGACCTCAGATCACTTATCCGTGGAGGTCTTTTGTGATCACCCAGTYTTACTTTATTGCATTCCTTATTTTAATTGTTTSTGTACTACTTATC
TGATCTTTCTTTATGTTTTTGTTCCTCCCTGCTTTCTTCCTTCTCTGCCTTGCTCTCTCCCTCTTTACTTCCCTCCCTTCTCCTTTTTTTCCTGTCATTC
CCCTTAAACTCCCTCCCACCAATTCCTTGTTTGTTAAAATTTAGGTCCTAGAATATTCAGGGACTTCAATACTTAGAGCAGCTTCTGGCATATAATGGAT
GTTGAATAAATAAATGTGCTAGGCCCAGTGATAAGTGCTTTATGATTTTATTAAGTCTTCATGACAACCTATTTGAAATAGACATSAGCTTTTAGTTCTG
TTGATTTTTCTCTATTGTAGTTTTGTTTCATAGAGGCTTTGTGATACTAAAATAAGATACAAGCTTCAGAAAATAATACCAGGTAGCTAAATAAGTTAAT
AATATACTATAAATGCAAAACATGTTAGTCTGTTTTATTAAATTCTTCTTGTATCTTTATTATTTTATTACTTGTACTTTGAGTTCAATTTGCTGTTTTT
TTTTTCCTAGCATTCTGAGATGGAAACTTAGATCATTGATTTTTAATCTTTCTGATTTTGTATTGTAATTAGAAATATAAATTTGCTTCTTTTTTTTTTT
TTAGGGACAGGGTCTTGCTCTGTCACTCATGTTGAAGTGAAATGGTGCGATCTTGGCTCACTGCCGCCTCAGCTTCCCAGACTCAAGTGGTCCTCCTACC
WCAGCCTCCTGAGTAGCTGGGACTAAAGGTGCATGCCACCATGCCTGACTAATTTTTTGGTTTTTTTGTGGTGAAAGGGTCTTGCCGTGTTGCCCAGGCT
GGTCTTGAACTCCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCTTGAGTAACTAGKACTGTAGGTGTATGCCACCAAGTCCAACTAATTTTTGGATTTT
TTGTGGAGATAGTGTCTTTGTTATGTTGCCTAGGCTGGTCTTGAACTGCTGAGCTCAAGTGATCCTCCTGCCTTGGTCTACCAAAATGCTGGGATTACAG
GCATGAGTCACCTCCCCCAGCCTAAATTTGCTTCTAAATATTGCTTTAGCTGCATCCCACAAGTTATGAAATGTTGCACTTTGTCAAATCACAAAGTATG
TTGCAGGCTGGCATGGTGGCTCACACTTGCAATCCTAGCATTTTTGGAGACTGAGGTGGGAGGATTGCTTGAGTTCAAAAGTTCAAGATCAGCCTGGACA
ACATAGGGAGACCCTATCTCTACAAAAAATAAAAAAACATTAGCCAGGCAAGGTAGCACATGCCTGTAGCCCCAGCTACTTGGGAGGCTGAGGTGGGAGG
ATCTCATGAGCTTAGGAGTTTGAGGCTGCAGTGAGCTGTGATCATACTACTGCACTCCAGCCTGGGCAATAGAGCAAGACCCTATCTCAAAAAAAAAAAA
TTACCATTATGTGAGCACTTTTTAGTTTTTATTTTATTTTTTAAGTATTGGTTTCTATTTAGATTCCACATACCCTGATTCTTATACCTTTCAAATTTGT
TGAAACCTTATATAGTCTATTTTGGTAAATGTCCTATGTACAATTGAAAAGAATGTTTATTCTGCAGTTGTTGGATATATTGTTCTATGCTTGTAAGTTT
AAGTTGTTTAATTATGTTGTTCGAATTTTTTACACCTTTATTGAATTTTTCGTTTCCTGGTTCTGCCAGTTACTGAGAGGTGTGTTAAAATTGCCAATCA
TGGCCGGGGGCAGTGGCTCATGCCTGTTATCCAGTACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGATCGAGACCATCTTAGCCAACATGG
TGAAAACTGTCCCTACTAAAATACAAAAAATTAGCTGGGTGTGGTGGCGCGTGCCTATAATCCCAGCTACTTGGGAGGCTGAGGCAGGGAAATTGCTTGA
ACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAACCTGGTGACAGAGCAAGACTGTCCCCCAAAAAAAAAAATTGCCTATCAT
GATTATGGATGTGTGTTTTTCTTCCATGAGTCTGTCAGCATTTGCTTTACACATGGAAACTGTAAATTTAGAATCTGTATAAATTGCATATAAATGTAAA
ATTATTTTCCTTTTGAAATGATACCCTATGTCCAGGCAGCAGATCTTCAGCTTTTATTTGTTTGAAAACCACTTTATTTCACCTTTAGTGAAATAAAGAA
TATTTTTAATATCCTGGGTATGGAATTCTATGTTGGCATTCTTTTCTCTTTCAGCCCTTTAAATATGTCATTCCGATATCTTTTGGCCTTTATAATGTCT
GTTGAAATGTTATTCCTTTTAAGGTAGGGACCAGCAAACCACCCATCTGTTTATGTACATAAAGTTTTATTAGAACACAACCATGCCCATTTGTTTTTGT
ATTATCTATAGATGCTTTCATTGTGCAATAGCAGAGTTGACTAGTTACATCAGAGATGGTATGGCTGGTAAAACTTAAAATATTTACTTTCTGGCCCTTT
ACGTTTGTTGACTCCTGTCTCAAGGTAATTTTCTGGATGCCTTTTTTTTTAAAAAAAGATAGGGTCTCACCCAGGCTGAGTGCAGTGGTGTAATCATAGC
TCACTGCAGCCTTGAACTCCTGGGCTCAAACAATCCTCTTGCGTCAGCCTTCTGAGTAGCTAGGATTATAGGTGCACACTATCATGCCCAGCTAATTTTT
TAAAAATATTTTTTGTAGAGACTGGGCCTCACTATGTTGTGCCCAGGCTGGTCTTGAACTCCTGGCCGTAAGCAATCCTCTTGCATTGGCCTCCCAAAGT
GCTTGATTATAGGCATGATTCACCATGCTCAGCCTCTGGATGCTTTTAAGATTTTTCTCATTGTTTCTTGTTTTCAGCAGTTTGACTATGCTSTACCTGG
TGTAGTTTTATGTTTGTCCTTTTTTTCTAAGATTTTTAAATATGTGGGTTTATGTTTTTCATAGGTTCAGAACAATTCTTAACCATTATCTCTTCAAATA
CTGCTTTTGTTTCATACTCTCTTTTCTCTTTGGAACTCTAATTAGAGGTATGTTAGAAATTTTACCTTTATCTCATATGCCTCTGATGCTCTGTTCTATT
TTTTCCATTCTTTTATTTCTCTGTGCTTCAATTTGTATATTTTCTCTTGACCTGCCTTCAAGTTCGATAATCCTTTTTTTCTCCCATTTCCAGTCTGCCA
TTAAACCTATCTAATGAGTTCTTAATTTCATATACTATACTTTTCAGTTCTGAATGTCCATTTGGTTGTTTTGTATGGATTCTACTAATTGTTGATTTCT
GTGTTGTTTCATCTGTTTTGTCCATCTCTTCTACATTTTCCTGACCATGTTAATTGTAATTATTTTAAAATCCCTGTGTGATAACTCTGGTATCTGAGTC
ACTCATGGATCTGCTCCTGGTTTTTTTTTTTTTTTTTTCCTTTTTTTCTTTTTTGGGCGGGGGTAATTTCATCCTGTTTTTAGTATGTCTCGTAAGTTTT
GATCAGATGCTAGGTATTTAGGATAAAAATGATTGATGAAGCTTTGGGWGATAGCTTCTTCCATACAGGGCTGGGTTTTTGTTTTTGTTTTTTTTTCCAG
CCAAGCAAATAGAATGTAAGCAGATCATTCTGATCTTGTCAAAGCTCAGTTTTAGACTTTTTAAGGTCTTGTTTATGGAACTTTTTCTTATACTCCTCGG
GCATCTTCCTTAGCACTCTGTGTGGCTCTTCAGTAATCTTAATGGAAAGTCCAGGGCATTCACCAAAGCCTCTCTTCTGAGGACAGACTTGACAGCTGCT
GTTTTTTGTTGTGTTTCCTGGAGTCTTGCCTTAGGAATTGCAGCCAACATTTTGCACACAGATTTTTGTGTACCTTGTCTCTGGTTCCCTCCTCTGTAAT
TTTGTCCTTCAAGTCTCAGTCAYTGTGGCAGCCCTGGAATTCAACATTTGTCTCCTCAAGTTATTAAGACTGTGACTTCTCCTTGGGTTCTGTTCTCCCA
CATGGCAATTTGGGAAATGTACTGAGGGAAAAAGCTGGTGTGAATGAGGAGCTCTTTTTTTCCCTTGAGAGAGATAGGTTCTTACTCTGTCACCCAGGCC
ACAGTGCAGTGGCATCATCATGGTTCATTGCAGTCTTACCCTCTTGTGCTCAAGATTCTCCCACCGTGTCTCTGAGCAGCTGGGATTACAGGCGCATGTC
ACCACACCTGGCTACTTTTTGTATTTTTAGTAAAGATGGAGTCTCACCATGTTGCCCAGGCTGGTCTCAAACTCCTGAGGTCAAGCTATCCACTAGCCTC
GGCCTCCCAAACTGCTGGGATTATATTAATAGGTGTGAGCCACTGTCCTGGCCTAGGGGCTCACTTTTTGTGCTTCTCTTCTTTCAAGGATCATGGCCCC
TTAAGAGTACTTGTGTGTGTGTATATGTATATGCATACATATATGTGTGTATATGTAWGTATTTCAGCTTTTATAGTTATTTTCTATGGCAGGTTTAGTT
TTTTGTAAGCTACAGTGTCATGGACAGATATGGAAGTCCCTACAGTATATTCTGAATGTAGCAGCCAGAATGATCCTGTTAAATAGATCATGACTCTCCT
GTGTTCAAAACCTGCAGTTCTTTATTTATTCAGAGTTAACACCAAAAACTTTTAGAGTTATTTGACCTGCTTATCCTCCCTGTCCCCCTTTGCTCCCCAT
GATATCTGCATAACTAACTCTCTTATTTGAAAATCTTTGTTCAGATGTCACTTTTAAAATTTACTCAAACTGTGCTATTAAAATTGCCTCCTTCTTTCCT
TTCTGTATCCTTTTCCTCTGTTTTTTTCCCCCATATCACCTTACGACTTAAAAATGTCTTATTTATTATGTTTGTTGTTTCTTTTACTTAATAGAATGAA
ATCCCTATGAGGGCAAGGGTTTTTCCTATCACTTTTGTTCATTGCTGTGTCACAGATGCGAATGGAGAACCAGATGAGAATAGAGCTTCAGAATCTAAAG
GAGGAGGGAATTTCAAGATGGAAGAGTAATGGTCATATGTATCAGATGTCAACAGAAAGAGCCAAACTTTGTAAAATAATTGAAGAGGTTTATTCTGAGC
CACATATGAGTGACCATGACCTCAAGAGATCCTGAGAACCTGTGCCCAAGGTGGTTGGGTTACAACTTGATTTTATATTTTTAAGGAGCGTAAGACATCA
GTTAGTACATGTGAGGTATACATTGGCTCAGTTGGGAAAGGCATGACAGCTTGAAGCAGGGGGCTTACAGGTTACAGGTGGATTTAAAGATTTTCTGATT
GGCAATTACTTGAAAGAGTTAAGTTGTTATTGAAAAACCTGGGATCAAGAGAAAGGTGTGGCTGGGTTAGGATAAAGGGCTGTAGAAACCAAGATTCTTA
TGAAGTCTCTTAGGTGGCTGCCTTTAGAGACAATAGATGGCAAATGTTTCCTATTCAAATCTTTAAAAGTGCTGGACTCTCAGTTAATCTCTTTAGAATT
GTTAGAGCCTGGAAGGGGAAACTCTGTAGAGATCCTTTACAGATGCAGATTTTCTTCCACAAAAGGCTGCTTTGCAGGGCCGGTTCAAAAATATGGCAAA
GAAGCATATTTTGGGGTAAAATATTTTGATTGCCTTCTTTATATGTCATGTGACGTTATGCTATAGTCAGGTTGGAAAGTAAGCCACGTTACGTAGGGTT
AAATTAAAATCCATCTGATGAGAATTTATGGTTTGTAGGGCAGGACTCCTCAGGCCCCTTAGGAATTTGGGCAAGAGAGARAAAAGTCAGAGTTTAGTCC
TCACAAGTACAGAGGAATAATCTGAAACTATTCATGAGATTTTACCTTGGATTTTTAAATTAAGACGTTGTTTGTTACCCTGTGTGAGAGACATTTTAAA
TTAAAGGTAAATGAGATTACCAAGAGTTGAGGAAGGGTCTGTAGGCTTTTTTCTTTTTAATCTTGTGAACAGTATAGGAGGAATATTCATATTTATTTGG
ATAATTTATGATTCTGACTTTTAGAAAGTTTGTTTGTTTTTTGTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCCATCT
CGGCTCACTGCAACCTCCACCTCCCAGATTCAAGCAATTATCCTGCCTCAGCCTCCTGAATAGCTGGGATTACAGGCATGTGCCACCATGCCAGGCTAAT
TTTGTATTTTTAGTAGAGATGGGGTTTCTTCGTGTTGGTCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCCTCTCGCCTCAGCCTCCCAAAGTGCTG
GGATTACAGGCTTGAGCCACTGTGCCCTGCCTAGAAAGTTAATAGATGGGTGAGCAGGTAAAGACACTAGCAATGGAGTTTTTTGTTTCTATTCACTGTT
GCATTTATTAAGTGGAGGCTTTGTGCCAAAAGTTTTYCCCCTATATTACCTCATGACTTAAAAATTTCTTACTTATTATGTTTGTTGTTTCTTTTACTTA
ATAGAATGAAATCCCTATGAGGGCAAGGGTTTTTCTGTCATTTTTGTTCATTGCTRTGTCACAAATGCGAATGGAGAACCAGATGAGAATAGAGCTACAG
AATCAAAAGGAGGAGGGAATTTCAAGATGAAAGAGTAGTGGTCATGGGTATCAGATGTCAACAGAAAGAGCCAAAGTTCTGAGCACTCTGCAAGGGAAGC
TTAGATCCTAAGTGAACTGAAAATGTTCCTAAGCCTTAATGTTTTGCACAAAAACATTATTATTATGAGGGCCACTCCCTTTGGCTACATAGCACTGGGA
AATGGTAAGTTCTGACTCTGTTTCCAGCGTTTTTTCTGCATATCCATTCATATTTGCAGCGCACCACTTGGATAGTAGCATCTTTTATTGGAGTGGTTCT
CTATGCCTAAAGAGGTGCCTGTGTTTTGGAATTTTTTGGTAGGGCTCCATAAAGGTCCARCCTTCMCTTCGTTGAATATTTTTATACATCCTTTTTTGGG
CATGTATCTCTGATTGGAAATTGCTATTCCTTATCACTTTTCCAGTCCATGATTTCCTGGATGTAAGTTTTAGGTGTTGCTTTCTATGGTATATAAATTT
TGGTGTACCATAATTTTGAGGAAAAAGAAGGTAACTTTGTAGTGTGGGGCTCTCAAATGGTAAAAGTCCTTTCTTTTTTCTTTTTAAAATTTCCAGTCCA
ATATTGATGGATACTTCTACAAAATACAATAAAAAATAAATTACTAGAAAAATAAAATGGGCCAGGCGTGGTGGCTCATTTCTGTAATCATAGCACTTTG
GGAGGCCGAGGTTGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGATGAAACCCCATCTCTACTTAAAATACAAAATTAGCTGGG
TGTGGTGATGCACTCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAATCCAGGAGGCGGAGGTTGCGTGAGCSGAGATCACACTA
CTGCATTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAGAAAGAACAAACAAACAAAAACATAATAAAATTAAAGAAAAATAAAATGAAAAAGGC
ACACAAAATAAAATACAAGCCCCACTTTTTAAATTAGACTCAATAAACATAAAATTACATTGTCAAATTGTTCCGTCACGGTTCTCAATGTGCTTATTCT
GAATTTTGGTACCTATCTCCTCATGGGTTGGTAACAAAAATTTGTGAATTAGTCATGATTCTTGGACCAGACTTTCTCAGATCATACTTTAAGTAGCACT
GATATAGTGTACAGTACTACATAGTCTTAATTTTCCCCTTAATTTATGTTGTCTTTAGAAGGAGTAGAAGGTTTTAATGAGTTATGGATTATAGATTGAT
TAAAAAGAGAGGTAATTTACACTACATAATAGCCCTAACACATCCCTAGTTCTTATATATAACTGGTAAACTTTATTTTTCAGTTATAGTTACTAGTTCA
TTCTGGGGCTAAAATAAGAATGACTTTCCTGGTAATAGTAAGATTTGCCTTAAATGTTCAGTTATATATTCTTCTCTGTCCTTTGAAACTTAAAACTGGC
CTATTTTGAACATGAAAGGAAAAGTTATACCATTTAACACCACAAGATGTCACTTATGTAAAAATAAAGTTGGTATCCTAATACTCAAAGCTAGAAAGCT
ACAGGTAACTAGGTAAATGAAGACACAGGTAAATTAAAAATGAATATATTTGAAACAACTATTGTTTTCAGCAAAGAGTTGAGGAAAATATTGCTAATTC
AGCATTATTTTGACTCAAATATTGATATTTARCAAAATAGTATCTAAGATTTATGCAGTAATACATGTTAACTGATCATATTTGAATCTACGTAATGAAG
AAGGTAGACCTAAAAGAACTTAATAAAAGTTAATGTATTTTGAGGGTAAAGTAGGTGTTATGGTATTAACTTTCCTAAATCTTTACTGTTTTGGTGACAG
GCAAAGARGAATTTGGGAAGAAACATGTAATTTATATCAGAATTTTAAATAGATCCTTATGACATACGTGAGAAGCTGCATATTACATCAGGTTGAAACA
GTGCCTAGGATTTTTCTTGTCTCTTCCCTGAACCTCAGAATTATTAGTTTCTCTTCCTATATTAATGCAGTATTTGTTGTTGAAGACTAGCTTTTCTGTT
AACCATGAAGAGCAAAACCTTTAYCTTTAATATTGAGATTCTGTTTTCTTGTTTTTAGTTTCAGAGAGCAGGTGCTTGTTCTGGGCACTCTGGGAATTTG
GGCTTTAGATGAGCAAACCAAGTTTCCATTAGTTTACGAGTAAGACTATGCCTGGAATTAGAGGTTGGGCTGTTCTAAAAATTGACACTTCATTCCTCTT
CATTGCTCACTTCTCTCTCCAGATAAAACTGGTAGAGGAGAATAATGGGACACTTTGGGGAACAGAAAAGGGGAACAAGCAGGAGAAAATTGTTTTCTTT
TTTGGCATGTGTGTATGTGTGACCACATTTCCTTTCTATTTAGTTCCTATCGAATTCTTTTTTTTTCTTACCTAACTTCAGTAAGATTTTTTTAAGGTTT
CTTTTAGGGTTTAGGTTTTTCATTATAAAAGTATACATAGTCATTAAGTAAATAGGAAAATACAGCAAAAAGTAGAAGAACAAAATACAGTTACATATAT
AGTTCCATTAATTTCTCTCCCTTTTCTGTTACCTGTGAAATCTGAAAGAGCCTGAAAAGTTTTATGCAGGGATCCTAAATTCCTTAAGGTGAACATTTAT
AGTATGTGTAGTAGTTGTATGTTCTCAGAGACAGTTTTTATTTATTACTACCTCTACTGTTTAAATATTTTCAAGCTGTATTTTTAATTAGGAAGAAGTA
GGTGTTTTAATTATTTAATTGTATTTTGTCTTCTCTACTGGTCACCATTGCATTTAATTTTATGAGCTGTTTGGAAAGTAAGGCTCATTTTTTTCATAAT
AAATTTCATTGCATTTATTCCTTTTGAAAAAAATGTGCTTAGCTTTTACTTATTTTTTTCTTGCAATGACAGTTTGTAACATTTAACCCTTGTATTAGTT
TGCTAGAGCTGCCATAACAAAATGCCACAGACTGGGTGGCTTAATCAGCAGAAATTAATTTTTTCACAATTAATGCCTGGGAGTACAAGATCAAGGTGTT
GGCGGGTTTGGTTTCTGCTGAGGCCTTTCTCTCTGGCCTGCAGATGGCCACCTTCTTGCTGCAGTTATTTAACATTGCCCATGATATTACTTCTAATTCT
TATGAAAATGATATATTTTAAGCTATCTAATATAAAAATCAAAGTATGGATTTTTTTTCTTCTCTTTTGTAATAGGAATGAAGATCTAAAGCAAATGTTA
GAGAGCAACAAAGATTCTGCTAAACTGGATGCTATGAAGCGGATTGTTGGGGTAGGTAAAATACTCATTTACTTCAATTTTGGAAAAATGGACAAGCAGT
GATCATATTATTATATATATATATAAAAATAYGTTAAATACCAAGTCTAATATTCTGTTTGCCCTTAATATTAACTTAGAATTTCCTGTCCAAAAATGTT
AAAGAAAAAAGTACATTAYTGAAGTGTCAAAAATCAAGAAACTTAGGTTTTAATTTTATCTTTTCTCTGTTTTAATTTCCCTGTATCTAATTTCAAGGTA
TTTCTACTATGAGAATGAGGTAGTTAGTCATTTTGAAGACAAAATAAGATGATATACAAGCTATTTTGACTTCCTACACAGAGGGATACTAAAGAATGAT
TTTTTTTGTCCTTTCACAGCCTAAATGTTCTGAGCATACTTTCATCTGTTTTTTAAATTCTCTTACTACCAATAGAAACACTTTATTCASTTTAGAAGCC
TAGAACTTCTAATAAATATTATTAAATATAAGAGCATTCACCAGTGTTCAGCTGTAAAGCAAAACATAAACAATTGATTAATAAGTTATGAGGATTCTAT
TGCCAGAGAATTAAAGATATAATATAGTTCCTTAATTATTTTTAATGTTTTAATTTTAATTTTTTATTTTTCCAGGGTTCTAGTTGTATATACCATCTTT
AGTAAAATAGTTTTGCAATTTATGTTGCACTCTCTGTACGTACTCATTTGATTTTCCACATTCACAGAGAAAAAACTTGCTTAATTCCACTGACTATCTG
ATGCTCAGGAGTTTTGCTTTTGTTTCACTGGAATCAAATTCATAAAACTGATTTTTCTTATTAACACTATCCTTTTTATCACCACCATTGCTGATTCTAT
TTTCCACTTAATTTTATATAATAAGGTCAAAATTGAATACATTTGCATAATTGCTTAAATAAACTACTGTAATAAGGCGATGACACAACTAAAACAATAC
TGTTTTCCAGCAGGCAGTGCCATCGTATGAGAGCTTCAGATCTCTTTTCCTTTCTTGATATATTAAAGTCCAAATAACAGGTATCAGCATGCTCTGTTAA
AAAGTGAGGTGGTATGAAAATCAAATATATTAAAGTCAAGTWCTAATTGTATCTGTAGGACATCTGTAAGTGACTTGATCCTTGCTTTCATGTTTATGTC
ATTTGGCAGTATRGGGGCAATTTTGAGGATTCCATTGTAAATTTTTGATTTGTTAATGTTATGCTCTATACATAGGAGTATTTATGGGCAGGCAGTTCTT
GCTTTGCATGGCTTTTATACATATGAATTTCAGTTACTACAGTTTAGTTAAGTGACACCAATCCCCTAACAATATGGTTCAAATTTCATTTACCATGGTG
TATTAATTGTGTACTTGGATAATGTACAAACTTGACTGCTAGCTCTTCATTCTACAAATAACTTGTAAATTACAAACATGTATCATGATCCATGATCAAT
CATGTCACTTCTTTCAAAATCTGTCAGTGATTGGTCACTGTGCATCTGTTACTCAGTTTATGCACAGACAACAAAGCATGTAGTTGTGTTGCCTCTTTGT
CTCCCAGTAAGAAACACATGTGACATTTTACAGAAATGAATAATTGAAAGAGGCATTTGCCCAACAAAGTGAAAATACAGCAAAGAAATGAAAAGTGATA
ACATGTAATGAAAATCAGGTAGAATATAAATGAAGTTATACAGAAGTAGCTGGCTGTGGAACTACTGACATTACACGTTTTTAAGAGACTGAATTTATAG
CTGGAGGAACTTGGTAAGGTGAGATTTTCAACCAACATAAATGATGAAAGTGATTTTGTTGAAGAGCATGAAGCTGTCTCAGAGGAAGTGATGCTGTCAG
AAGACCTCACATTCATTAAAGGAACTCTAGGAGATAGTTGAGAACATTGAAAATGCAAAGGGTAAAATGTTGGAAGCTGATCCAGACTTAGAAAGGAGCA
TGATAATTTACTGAGGAATACGAAAGATTCTTCCTCAGTATCATGAGTTAAACACTGATAAGAGAACAAGTTCTGTTCAAACCACTCTTGATAAGTTCAT
TTTCTTTGCCTTTTTTTTTGTTTTTTTAGAGACAGGGTCTTGCTCTGTTGTCCAGGCTGGAGTACAGTTGTGCAGTTGTAACACATTGCAGCTTTGAACT
CCTGAGCCCAAGCGATCCTCCCACCTCAGCCTTCTGAGTAGCAGGGACTACAGATGTGTACCACTATGCCCAGCTAATTTTTTTATTTTTATTTTTTGTA
GAGACAGGGTCTTGCTATATTGCCCAGGCTGGTGTAGAACTCTTGGTTTTACTTGATCTTCCCACCTCAGCCTTTCAAAGTGCTGGGATTATAGGTGTGA
GCCAATGTGCCTGGCCAAGTTAATTTTCAATTTTTCCAACGTTTTAAGTTATAGTATACTAAATATTGATTTTTATTATTTTTTCACTTTCCTATAAATT
TATAACTGACAGTAAAAGAGTTATTAATGCTTTGACAGAAATTTTAAATAGTATCCAGGGATTTAGTGAAATAAATTACCTTAATGGGATGTAAGAGCCA
TAGTTTAAAGAAATAAATAAGGGCAGTCCCTACTTTGCATGGTAGTGCAGGTCTATGCCCTGCAGGAATGCAAGCAGAAACCATGGAAAGAAATTTTAAT
AAGCCAACTGGAAAAATTACAATTGATCTATGATGCTTAAAATTTTTGTCAAAACAGGARAATTAGCTGAGTCAGGTGGTATACTGTTTTGAGTTAATGA
CTGTAATAAATAGTTTTGTATAAATCTTTCCAGACGGACTGTTTATCCCTTGTTCTTTCCCTTTCTTCCTTCAATAACAATGCTTTGGTTCTATGTATGC
TTTAAAGGATTCAACTTGGGGCTGTTGCTTGCATCTTTTAAAAAATTATTGGGTTGGAAATTGTTTAAAAGACCAAGATTTTTCTGCAGTATTAGTGTGC
ATCAGGATGAATTCCTGGTTATCAGGCCTGAGGTTTTACTGGTGATGTGACACCTATAGAACTTTAGTGGGTTTTCTATCAGCTTTGCTCCAATGTAGTC
TCTGGAATACAAAATAAGGGTCAGTTAACTTTCTGTATCTCCATTTATTCTTGACTGTTGATTCTTAAGAGTTACTGTTGGGTCTGAAACCCTTTGAAAC
CTTTTCTCTCTGTTTTTGTTACCTGTGAATTAACTAGCAGTTTTCTGTAAATTCAAAATTCTGAACTTTTATCTCATCTTTATTGCTTTGAAGAATGACC
AGTGGAAATTAAAAATTAAACATAATTTCATCCTTTTTCAAAAAACTGGGTTTAAAAATTATGTGAATTTTTGGATCTAGATTATTATTCAATACAGTCA
TGCATCACTTAGAGTCATGCATCGCTGAATGACAGGGATGCTTTCTGAGAAATGCATCCTTAGGCAGTTTGTTGGTGTGAACCTCATAGAGTACTTACAC
AACCTAGTATACTTACACAAGCTTACTACACACTTAGGCTATATGGCATAGTCTATTCTTCCTAGGCTATAAATCTGTACAGCATGTTACTGTACTGAAT
ACTGTAGGCAGTTGTAACACAATGGTAAGTATTTGTGTATCTAAACGTATCTAAACATAGAAAGTTACAGTAAAGATACAGTATTATAATCTTACAATAA
GATTATATATGTGGTCCCTCCTTGACCAAAACRTGGCACGACTGTAATTTAAAAATAACACAAAATTCAGTCATTGTAATATACCACATTAACAGAAGGA
AAGGGAAAAATCCCTCACAATCATCTCAATTTATTCGGAGAAAGATTTGACAAAATTTAATACACTTTGATGATAAAAGTACTCAACAAACTAGGAATAG
GAGGAAACTACCTCAACCTATCTGTTAAAGAGCAGGTGTGGAAAACCCAAAACTAGCATCACACTCAGTAGTGAAAGACTGAAATCTTTTACTCCAAGGT
CAGAAACAAGGATGCTTGCTTTTACCACTTCTGTGCAACACAGTATTGGAAATTTTAGCCAGAACAATCATGCAAGAAAAAGAAATAAAAGACATCCAAA
TGGAAAAGGAAGAAGTAAAATTATTTTTATTCACATCATCTTATATGTAGAAAACCCTAAAGATTCCACAAAAAACTGTTAGAACCAATACGCAAGTTTA
CCAAAGTTGCAGGATAGAAAAGCAACACACCAAAATGACTTGCATTTCTACACATTAACAATGAACAATTTGAAAATAAAATTAAACAAATATTCATTTA
TAATAGCATCAAAAAGAATAAAATATTCAGGAATAAGCTTAACCAAGGAGATGAAAGACTTGTACACTGAAACATTACTGAGAAAAATTAAAGAAGACAC
AAATAAATGGAAAGACATCTATGTTTCTGGGTTGGAAGACTAATATTGTTAAGATGTCAAAATGATCTGTATATTCAATGCAATTCCTATCAAAATGCCA
ATGATGTGCATGGCAAAAATAGAAAAAAATTCATCCTAAAATTTATATAGAATCCCATGAGTCCCTGAATAGCCAAAACAACCTTGAAAAAGAGCAAAAT
TGGCTGGGCACAGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAAGCTGAGGCAGGAGGATCATTTGAGCCCAGGAGTTTTAGACCAGCCTAGACTACA
TGGCAAGACCTTGTCTCCACAAAACTAATAATAAGAAAAAAATTACTACCTGTGCCTGTGGTCCCAGCTGCTTGGGAGGCTGAGGTTGTGGTATCGCTTG
GAGTGAGCTGTGTTCATGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACCCCATCTCAAAACCCTGTCTCAAAAAAAAAAAAAAGAACAAAATTGAA
TGTCTCATACTTCCTGATTTCAAAACCTATGACAAAGCATAGTAGTGAAGACATTGTGGTACTGGAATAAAGACGGACAACGTATAGACCAATGGAACAC
AATAGGGAGCTCAGAAATCAACCCTGACGTAAATGGTCAAATGATTTTTGGTAATGGTGCCAGATCAATCAATTGGGAAAGGACAGTCTTTTCAACAAAT
AATGTTGGGGAAACTGGATTATATATATATGCAAGAAAATGGTGTTGGATTTCTTTCTGTATCACACCATAAATAAAAATAAACCAAAATGGATCAAAGA
CCTAAATGTAAGAGCTAAAACTATAAAACTCTTAGAAGAAAGCATAGAGAAAAAGCTTCATGACATTGGATTTGGCATAGGATTCTTAGATACAACACTA
AAACAAGAACAGTAAAAAAAAAGTAGATTATTTGGATTTTATCAAAATTAAAACTTGTGTGCATCATAGGACTCTGTCAACAAAGTGAAAAGGCAACCCA
TAGAATACAAGAAAATATTTGCAAATCATATATCTGATAAAGGATTGATATCCAGAATATATAAAGAACTCCCACAACTCAACCATTAAAAACCTACCAA
ATGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTCGAGGTGGGCGGATTACTTGAGGTCAGGAGTTTGAGACAAGCCTGGCCAAC
ACGGTGGTCTCTACTAAAAAGACAAATCTCGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGTGGGTGCCTGTAATCCCAGCTGCTCGGGAGG
CTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGCGAGCCAAGATCAYGCCACTGCACTCCAGCTTGGGTGGCAGAGTGAGACCGCGTCT
CAAAAAACAACAACAACCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGTGAGGTCAGGAGTTCGAGACCAGCCTG
GTCAACACAGTGAAACCTCGTCTCTTCTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGGGCGCCTGTAATCCCAGCTACTTGAGAGACTGAGGAAGGA
GAATTGCTTGAACCCGAAAGGCAGAGATTGCAGTGAGCCGAGGTCGTGCCATTGCACTGCAGCCTGGGTGACAAGAGTGAAACTCTGTCTCAAAAACAAA
ACAAAACAACAACAACAAAAACCGACCAAATGAAAAAATGGGTAGAAGACTGGAATAGACATTTCTCCAGAGAAGATATATAGATGGCAAATAATTACAG
AGAAAGATGTGCAGCATCACTAATTATTAGGAAAATGGAAATCAAAACCATAGTAAGATCACTTTACACCATTAGGATGGTTATTATCAAGAAAACAAAA
TTGTAAGTGTTGGTGAGGGTAGAGAAATAAGAACTCTTATGCATTGCTGGTGGGAATGTAAAATGGTACAGTTACTGTGGAAAACAGTATGGTGGTTCCT
TAAAAAACTAAAAATGGAATTATCACATAATCCACCATTCTCCTTTTGGGTATATACAGACAACAGTTGAAAGGAGATACTTGAACAGATATTTCTACAT
CAGTGTTCGTAGCAGCATTATTTATAGAAGCCAATAGGTGGAAACAACCCATGTGCTCATCAGTGGATGAATAAACGAATGTGGTACATCTGTGCAATGG
AATGTTATTCAGCTTTAAGAAGGAATGGAATTCTGATGCATGCTACAACATGGATGAACCTTACTTAAGTCATTATGCTGAGTCAAATAAGCCAGACACA
CACACACAAAAAATTGTATGATTCCACTTTTATCAGGTACCTAGAATAATCAAACTCATAGAGACAAAAAGTGGAATGGTGGTTGCCAGCAGCTAGGGGG
AAAGCGAGAAATTGGGAGCTTGTCTTTCAAAAATCATTTTGGACATTTATTTTAAATATTATGAACCCTATTAAAAATAGTTGTGTAGGCATGAGCGCTG
TCCCACTCATTATGCTTTCACTTTTTTTTTTAAACTTACATTCCTCCTCATTCTTTTTTTATTTTCTATTTTTTATTTTTGAGATGGAGTCTYGCTCCGT
GGCCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCCGCCTTCTGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGAT
TACAGGCATGTGTCACCATGCCCCGCTAATTTTTGTACTTTTAGTCGAGACGGGGGTTTCATCATGCTAGTCTTGAACTCCTGACCTCTGGTGATCTGAC
CTCTGGTGATCTGCCCTCCTCGGCCTCCCAAAGTGATGGAAATACAGGCATGAGCCACCACGCCCGGCCCCTCCTCATTCTTTAGAGTTTTGGTTTATTT
TCAGGTGATGGGGGCATTTCATTTAGGAAGAGAATGTAGATGGCATTCTTTCAAAGTCCTTGCCTGTCGGAACAGGTTTCTATTTTTTTTTCCATGGGAA
AATAGATTACTTAAGAATAGTATTGTTGGGTTGCAATGTTTTCTTTTCCTTAGATTTTTGTAGATTTCATTCTTGATTTTGTCTGGCTTTAGCTGTACAG
AGCAGAAATGTGATGTGATGACAATGAGATTGCTTTTTTAAAAAACATTTAATTTTTATTTCTTTTAATTTTATTATTAATTTTTTTTTGTTTTTTGTTT
TTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTCAGTTCACTGCAACCTCTGCCTCCCGGGTCCAAGTGATCCTCCTGC
CTCAGCCTCCTGAATAGCTGGGATTACAGGCGCCCACCACCACACCCAGCCAATTTATTTGTATTTTTAGTAGAGTTGGGGTTTCACCATTTTGGCCAGG
CTGGTCTCCAACTCCTACCGTCAAGTAATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCATATATATGTAT
TTTTAATTTTAGTGGGCACATAGTAGGTGTATGTATTTTGGGGGTACATGAGATGTTTTAATACAGGTGTGCATGTGAAATAAGCACATCATGGGGAATG
GGATATCCATCTCCTTATACCTTTTTCCTTCTGAGTTACAAACAATTCAATTACACTCTTTAAGTTATTTTAAAATGTACAATTACATTATTGTTGATTG
TGGTCACCCTATTTTCCTGTCAAATAGAAGGTCTTATTCATTCATTCTGTTATGTTTGTACCCATTAACCACTCCACCTCCCCTGTATCCCCCACTTCCC
TTCTCAGCCTCTGGTAACCATCCTTCTACTCTCTATGTCCATAAGTTCAGTTGTTTTGATTTTTAGACCCCACAAGTAAGTGAGAACATGAAATGTTTGT
CTTTCTTTCTTTCTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCAGTCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAGCTCCACCTCC
TGGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACCTGCCATCATGCCTGGCTAATTTTTTTGTATTTTTTTGTATTTTT
AATAGAGATGGGGTTTCACCGTGTTAGYCAGGATGGTCTCGATCTCCTGATCTCATGATCCGTCCGCCTTGGCCTCTCAAAGTGCTGGGATTACAGGCAT
GAGCCACCGTGCCCGGCCAGATGTTTGTCTTTCTGTGCCTGGTTTATTTCACTTAACAAGATCTTCATTTCCACCCATGTTGTTGCAAATGACTGGATCC
CATTGTTTTTTATGACTGAATAGTACTCCATTGTGTATTTGCCCCACATTTTCTTTATCCATTTGTCTGTTGGTGGACACTTAGGTTGCTTCCAAATCTT
AGCTTTTGGCAACAGTGCTGCAGCGAGCATTGGAGTGCGGATGTCTCTTTGCACTCCTGATTTTCTTTCTTTTGGGTTGTACCCAGCAGTGGGATTGCTG
GGTCATGTGGTAGCTCAATTACTAGTTTCTTTTTGAGGAACCTCTAAACTGTTTTCCATAGTGGTTGTACTAATTTATATTCCCACCAACAGTGTGCAGG
GGTTCCCTTTTCTCCACATCCTCACCAGCATTTGTTGTTGCCTGTCTTTCTTTTGRGTATAAGCCATTTTAACTGGGGTGAGATGATAACTCATTATAGT
TTAGATTTGCATTTCTTTGATGATCAGTGATGTTCAGCATCTTTTAATATGCCTGTTTGCCAATTGCATGTCTTCTTTTGAGTAACGTCTTTTCAAATCT
TTTGCCCCCTTTTTATCATTTGATCAAATCTTGCCCATTTTTAGATTATTAGACTTTTTCCTATAGAATTGTTTGAGTTCCTGATATATTCTGGTTTTAA
ATCTCTTGTGAGATGGATAGTTTGCAAATATTTTCTCCCATTCTATGAGTTGTCTCTTCACTTTGTTGATCGTGTCCTTTGCTGTGTAGAAGCTTTTTAA
CTTGATGTGATCCGATTTGTCTGTTTGTGCTTTGGTTGCCTGTGCTTGTGGGGTATTACTCAAGAAATCTTTGCCCAGACCAATGTCCTGGAGATTTTCC
CCAATGTTTTGTTGTAGTAGTTTCATGGTTGGAGGTCTTAGATTTAAGTCTTTAATCCATTTTGATTTTATATTTGTATATGCTGAGAGATAGGKATCTA
ATTTTGTTTTCCTGCATATGGATATCCAGTTTTCCTAGCACCATTTATTAGAGACTGTCTTTTCCTCAGTGTATGCTCTTCGCATCTTTCTCAGTTCTCT
GTAGGTGTGTGGATTTGTTTCTGGGTTCTCTATTCTGTTCCATTCCTCTGTGTGTCTGTTTTTATGCCAGTACATGCTGTTTGGTTACTATAGCTTTGTA
GTATAATTTGAAGTCAGGTAATGTGATTCCTCCAGTTTTGTTCTTTTTGCTTAATATAACTTTGGCTATTCTGGATCTTTTGTGGTTCCATATAAATTTT
AGGATTTCTTTTTCTATTTCTATGAAGAATGTCTTTGGTATTTTGATAGGCATTGCATTGAATCTGTAGATTGTTTTGGGTAGTAGGGACATTTTAACAA
TATTGAGCCTTCCAGGCCATGAACACAGAATATTTTTCCATTTTTTGGTGTCCTTTTCAATTTCCTTCTTCAGTGTTTTATAGTTTTCACTATAGAGATA
GTTCACTTCTTTGGTTAAGTTWATTCCTGGGTATTTAATTTTGTGTGTGGCTAGTGTAAATGGGATTACTTTTAAAATTTCTTTTTCACCTTGTTCACTG
TTGGCATATAGAAATGCTCCTGATTTTGGTATGTTGATTTTGTATCCTGCAACTTTACTTAATTTGTTTATCAGTTCTAATAGTTTTGTGGTGGAGTCTT
TAGGTTTTCCCCAATATAAGATTGTATCATCTGCAAACAAGGATACTTTAATTTCTTCCTTTCCAGTTGGAGACCCTTTATGTCTTTCTCTTGTCTGATT
GCTCTAGCTAGGACTTCCAGTGGTATGTTGAATAACAGAGATGACAGTGGGCAACCTTGTCGTGTTCCAGAGCTTATAGGAAAGACTTTCAGTTTTTTCC
CATTCAGWATGATACTAGCTGTGAGGTTTGTCATATATAGTTTTTATTATGTTGATGTATGTTCCTTCTATTCCCAGTTTTTTGAGGGTTTTTATCATGA
AAGGATGTTGGATTTTATCAAACGGTTCTTCAGCATCAATTGAAATGATCATATGGTTTTTATTGCCCATTTTGTTGACATGATGTATCACATTGATTGA
TTTGTGTATGTTGAAGCATCCTTGCATCCCAGGGATAAATCCCACTTGGTCATGATGAGTGATCTTTCTGATGTATTGTTGAACTCAGCTTTCTAGCATT
TTGTTGAGGATTTTTGCATCAATATTCATTAGAGATATTGGGGTGTCATTTTCTTTTTCCTTGATGTGTCTTTGTCTGGTTTTGGTATCAGGGTAATACT
GGCCTTGTAGAATGAGTTTGGAAGTATTCCCTGCTCTGTTTTTCAGAACAGTTTGAGTAGGATTGATATTAATTCTTCTTTAAATGTTTGGTAGAATTTA
GCAGTTAAGCTATCGGGTCCTGGGCTTTTCTTCAGTGGGAGACTTTTTATTACAGCTTTCATCTTGTGATTTGATATTGGGGTCTGTTCAAGTTTTGGAT
TTCTTCCTGATTCAATCTTGATAGGTTGTATGTATCTAGGAATTTGTCCATTTCTTCTAGATTTTCCAATTTATTGGCATATATGGGTGCTCATAGTAGC
CACTAATGATCCTTTGAATTTCTGTAGCATCAGTTGTAATATCTTCTTTTTCATTTCTGATTTTATTTATTTGGATTTTTCTCTTTTTTTTCTTAGTCTG
GCTGATGGTTTGTCAATTTTGTTTAACTTTTCAAAAAAAGCTTTTTGTTTCATTGATCTTTTGTATTTTTTCATTTCAATTTCATTTATTTCTTCTCTGG
TCTCTATTATTTCTTTTCTTCTACTAATTTTGTGTTTTGTTCACTCCTGCTTTTCTAGTTCCTTAAGATGCATCGTTAGATTGTGCTTTTGAAGTTTTTC
TTCTTTTTTGATGTAGACACTTATAGCTATGAAATTCCCTCTTAGATTTTTCAGTTTCTTTCTTAATTACTTCATTGACCCACTGGTCATTCAGGAGCAT
ATTGTTTAATTTCCATGTGTTTGTATAGTTTCCAAAATTCCTTTTGTTATTAATTTCTAGTTTTATTCTATTGTGATYAGAGAAGATGCAATTATTTCAA
TTTTTTGAACGCTTTTAAGACTTGTTTTGTGACCTAACATATGGTCCATCCTTGAGAAAGATTTATGTGTTGAGGAAAAGAATGTATATTTTGCAGCTCT
TGGATAAAAGGTTCTGTAAATATGTATTAGATTCATTTTTGTCTATAGTGCAGATTAAGTGTGGTGTTTCTTGATTTTCTGTTGGAAGATCTGTCTGATG
CTGAAAGTGGAATGTTGAAGTCTCCTAGCTGTTATTGCATTTGGGCCTGTCTCTCTCTTTAGCTCTAATAATATTTGCTTTATATATCTGGGTGCTCCAG
TGTAGGGTACATATATATTTAAAATTGTTATATCCTCTTGCTGAATTGACTCCTTTATCATATAGTGACCTTCTTTGTCTCTTCTTATAGTTTTTGTCTT
GAAGTCTTATTTTGTTTGGTATTGTATAGCAACTCCTGCTCTTTTTTCATTTCCATTGGGATGGAATGTCATTTTCCATACCTTTGTTTTCAGCTGATAT
ATGTTTTTATGGGTACAGTGTGTTTTTTTGTGGGCAACAGATCAATGGGTTTTGTTTTTTCATCCATTCGGCCACTCTGTTTTTCTGATTGGCGAGTTTA
GTCCATTTATGTTAAATGTTATTATTGATAAGTAAGGACTTACTCCTGCTATTTTGTTATTTGTTTTCTAGTTATTTTATGGTTTTCTCTTCCTTCTTTC
TTTCCTTCCTGTCTTCTAGTGAAGGGATTTTCTCTGGTAATATGATTTAGTTTTTTGTTTTTTACTTTTTCTATATATCTTGTATGTTTTTGGTTTGAGG
TTACCATGAGGCTTGCAAATACTATCTTATAATCCATTATTTTAACCTGATAGTAATTTAACACTATTTGCATAAACAAACAAGCAAAAAGAAAACTAAT
AAAAACTCCGTGCTTTAACTTCGTCTCCTCACTTTTTAACCTTTTGTTGTTTCTGTTTATATCTTATTGTACCATGTCCTGAAAACTTGTAGTTACCATT
TTTGATTGGTTCATCATTTAGTTTTTCTACTCAGGATAAGAATAGTTTATACATCACAGCTACAGTTTTATAATATTCTATGTTTTTCTGTGTACTTACT
ATTACCAGTTAGTTTTGTACCTTCAGGTGATTATTTATTGCTCATTAATGTCATTTTCTTTCTGATTGAAGTACTYCCTTTAGCATTTCTTGTAGGACAG
GTCTGGCATTGATGAAATCCCTCAGCTTTTGTTTGGGAAAGTTTATTTCTTCATGTTTGAAGGATATTTTCACTGGATATACTATTCTGAGGTGAAAGTT
ACTTTTCTTCAGCACTTTTAAATATGTTAGGAAACCTTACCTGTTTCCACTGAAAAGTCTACTGCCACCATATTGGAGCTCCGTTGTATGTTATTTGTTC
TTTTTCTCTTGCTGCTTTTAGGATCCTTTCTCTATCCTTGACCTTTGGGAGTCTGATTATTAAATGTCTCGAGGTAGGCTTCTTTAGCTTAAATCTGCTT
GATGTTCTATAACCTTCTTGTACTTGAATGTTGATATCTTTCTCTAGGTTTGGGAAGTTCTCTGATATTATCCCTTTGAATAAACTTTCTACCGCCATCG
ATTTCTCTACCTTCCCTTTAAGGACAATAACTCTTAAATTTGCCCTTTTGAGGCTGTTTTCTAGATCTTTTAGGCATGCTTCATTCTTCTTTATTCTTTT
TTCTTTGGTCTCCTCTGACCGTGTATTTCCAAAGAGCCTGTCTTCAAGCTCATGAATTCTTTCTTCTGCTTGATCAATTCTGCTGATAAGAGACTCTGAT
GCATTCTTCAGTATATCAACTGCATTTTTTAACTCTAGAATTTCTGATTGATTCTTTTTAACTGTTTCAATCTCTTTGTTAAATTTATCTGATAGAATTC
TTTTTTTTTTTTTTTGAGGTGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTCCT
GCCTCACCCTCCCAAGTAGTTGGGACTACAGGTGCCCACCACCATGCCCGGCTAATTTTTTATATTTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCTA
GGATGGTCTCGATCTCCTGACTTCATGATCCGTCTACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCTATCTGATAGAA
TTCTTAATTCCTTCTCTGATCTTGAATTTCTTTGAGTTTTCTCAAGACAGCTATTTTGAATTCTGTATCTGAAAGGTCACATATTTCTCTTTTTCCAGAA
TTGGTGCTTGGTGCCTTATTTAGTTTGATTGGTGAGGTCGTATTTTCCTGGATGGTCTTGATGTTTGTAGATGTTCATCAGTTTTTGGGCATTGGAGMGT
TAGGTATTTATTGTAGTCATCACTGCCTGGGCTTGTTTATGCTTATCTTTCTTGGGAAGGCTTTCTAGTATTCATAGGAACTTGGGCCCCAAGCCCAATA
ATGCTGTGGTTTTTGCAGCCTCATAGAGGTTGGTGCAAGTAGATGTTCTTTGGTGTCTGGGCATTGAAGAGTTAGGTATTTATTGTAGTCTTCACTGCCT
TGGCATATTTTTGGCCATCCTTCTTGGGAAGTCTTTCCAGATATTTGAAAGAACGTGGGTGTTGTGATCTAAGCTATATTGGCTTTAGGGGGCACCCCAA
GCTCAGTAACACTGTGGTTCTTGCAGACTCATAGAGGTACTGCCTAGATGGTCTTAGAACAGATCTAGGAGAATTATCTGGATTACCGGGCAGAGACTCT
TGTTCTCTTTCCTTACTTTCTTCCAAACATACAGAGTCTCTCTCTTCTCTGTTTTGAGCCAGATAAAGCTGAGAATGGTGACACAAGCACCCGTGTGGCC
ACTGGTACTATGTGCTGGGTCAGACCTGAAGCCAGCACAGGACTGGGTCTTGCACAAGGCCTGCTGTAACCGCTTCTTGGCTATTGCCATGTTTGCTCAA
GGCCCTGGGGCTCTACAGTCAGCAGGTAGCAAAGCCAACCAGGCCTGTGTCCTTCCCTTAAGGGTGGCGAGCTCCCCCAGGCCCCGGATGGGTCAAGAAG
TTCTGTCTAGGAGCCCTGGGAGTCAGGGACTAGAGTCAGAAACCTTAGAAGTCTACCTAGTGTTCTGTTGTATTGCAGCCGAGCTGGCACTCAAACCACA
AGGTGCAATGCTTCCCACTYTTCCTCCCCTTTCTGAAGGCAGAGGAGCCTCAACCTGTAGCCACCACCACCCCAGGCCACAAAGAGTACTGCCAGAGTAC
CCCCATAGTCCCTTAACGCCCAAGGTCTCTTAAGTCAGCATTCATGAAAAGCTATCGGGGGAACTCTGGCAGTACTTTTCATGAATGCTGCTTGGCCTGG
GACTCACCCTTCAGGACAGTGGGCTCCCTTCTGGCCCAGGACATGTCCAGAAATGCTGTCCAAGAGCCAAGTCCTAGAATTGAAGACGCTAAGAGCCCAC
TTGGTGCTCTACCCTGCTGTGGCTGTACTGGTACCTAGGGGGCAAGGCAGAGCCCCTTTTACTTTCCCCCCTGCTGTTCTCAAGCAGGAGTTTTGCCCCA
TAGCCACCACAGCTGGGAATGTGCTGAGTCTCACCTGAAGCCAACAAGTCTCAGTGGTTCACCAAGGCCCTCAATGTAGTACCTGGATATTGCTGCTGGT
TATTCAGGGCCCAAGGGCTCTTCAGTTAGCAGATTATGAATGCTGCCAAGCCTCAGACCTTTCCTTCAAGGCAGCAAGTTCCCTTCTGGACGAGGGTGTG
TCTAGGAATGTCGTCTGGGAGTAGTTAGGTCCTGGAATGGGGGCCTCATGACTCTGACCGGTGCCCTATCCTGCTGTGGCTGAGCTGGTATCCAAGATGC
AAGACAAAGTCCTCCCCACTCTTCCCTCTCCTCTCCTCAAGTGGAAGGGAGGGGTCTCTTTTGGAGCCACCAGCTGTGCAACCTGGGGTTAGGAGAGATA
ATGTCAGCACTCCCTTGGCTGCCCCAGGTGGTATCTCAGTATGTTGCGTGCTCCCTCCATTGTCTCTAGGCCTAGTTCAGCCGTAGGACTTGCCAAAGAG
TTGCAGTTCTTATGGCCTAGACTGTCTTTCAAGTTTACTTGGAGACACACAGTGCTGTAGCCCTCGGTGGCGAGGTTTTCCAGGGACTCAAGTTTGGACC
TCTGGGATTCCTTTCTGGCTAGGGCTGGTTTAAATGCTCCCCCTGTGGGTGGGCATCAGCTGAGTTCGGTCCGGTTTTCCTTTCTGCTCTAACAGGACAG
CACAGAGTTCAGTGCCTCACAATTGCAGTGTTCTCCCTTCCCCAGTGCCCAGAGATACCCTCCATACCATGCACTGCTGCTGGAAGAGGAGTCACCACTC
TGAGGAAAAGGGTGGCATTGGTGATTCAGGACTGTTACTTTTAATCTCTTCTGTGCTTCTTTCAGTGATATGAAGTTCAAACCAAGTCCTGTGAGTGCTC
CCCTGATTTTTGGTTCTTATGAAGGTGTTTTTTTCTGTGTAGATAGTTGTTAACTTTTTTGTCCTCGGGGGGACGATTGGTGGAGCTTTCTATTGCACCA
TCTTGCTCTGCCTCTGAGATTGCTTTTTCTCTTTCTCTTTTAGAGAATCTGTTTCAACTGTCTGGATATGTAGATGTTTTTAATATTTTGAGGAAAAAGA
AAATATTCAAGATACGGTCTGTGTTTTTTCTTTACTGATTTGTTATGTTACTAATGAACCCTTTGATTCTAAAATTTTAAATCTGTTTTACTTAGAGAAT
GTTTGTCTGCTATTTATTTTCTCCCTTTTCTGTCAGTCTGCCAGTTCTCTCTTAGCCTTCCTATTATGTGTGTATTATATTTTTTGGATCCATCCTCTGT
YTGCCTCTGTCWTCTCCCCTGTCAAATTGACCTCTCTAACCTTTCCTGTCATTTTTAGGATTTTTTTTGAGCTGGCATTGAAGTCAGTTTAGAATTTTTG
ACATTATCCTTTCTTCTCTCATTATATTTTAAAATTTGGTAATTATATCTTTATCTGAAAATTTTCTTTGCTATTCCAAAGTCATTCTTTTTTAAAAAAA
TGCCACATCCCCTCAAATCTCACTAAGAATATGAGTTAGATATATTTCCCATGGTTTTTCTCTTTTATATCCAACTTTTTCCCCATATAATTTATTCATA
CTTCTCCAGTGGGTCCATTTCTTTTGAACTGTGGAATGTTTTTATATGCCCTGTTATTTTTTTCCTCCTTAAGTCATCCTCAGAAAGCATTAGAGTTATT
TATCTTTATTTTTCCAGAATTTCTGTTTGAAATTGGTTCTGTTGTAGGCTCTAAATTCATAAGATCAATAATTTCAGGCTCCATTGTGGGTTGAAGAGAG
TAGTATTCGTATTAATAAATTAAGTATTAGAAGACCAAATGTCTATTTAGAATAGAGTGGGACAAACAGATAGCTGAGGGTAAGGAGCCTGAGAGCACTC
TTCCCTCTGTCTTTAATTGGTACGTCTTCATTAAGTTCTTCACTGTTTTTCTGTTTTTTCCTTTATTTTTCTTTTTTGGGTTTAAGTATTCTTTGGGAAT
AGGTACTAAGATTCTTTGGGAATAGGTACTATATATTCTGCTGTTTGGTATGTTGTCCTCAGGGTACTTCCCTGAAGATTATTAGAAAGACCAATATATT
GGAGCCAAGGGCCTGTCTGATAGTTAAGTAGTAGGTAAAATTAGGTCCACTTTTGATTAAGTAGTAAGTTCATCCACTTATTTCTTAGGTTGTAACTAGA
TTGGTAGATGCTTGTTTCCTAAAATGTTATCTTATGTGAACCATACCCCTGCAGAAATTTGTTGAAATTTCTGTTATGTGGATAGTACTTTATCTAAAAT
AGAAAATATCCTGGATTGATGCAATAGCAGAATGGTGATAACAGAAGAAAGAGCCAGAAGTTGAAGACAGATCATTAGAAATTATTCAGTTTGTGGCCGG
ACACGGTGGCTCATGCCTGTAATCCCAGCACTTCAGGAGGCTGAGGATTGCTTGAGCCAAGGAGTTCCGAGACCAGCCTGGGCAACAAAGTGAGACCCTG
TCTCTACAGAAATACCAAAAAATCAGCCAGGTATGGTGGAGGGTGCCTGTGGTCCCAGCTACACAGAAGGCTGAGGCAGAAAGCCCACTCGAGCCCAAGA
GGTTGAGGCTGCAGTGAGCCAACATGGCACCATTGCCGTCTAGCCTGTGCCACACAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGAAAAAGA
AAAAAATCATTCTGAAGAAYAGAGATTGAAAAGAACAGAGCCTTGGAGTTTTGTTGGTTCATTCTAAAGGTCTAACGTATGCATCATTAGAACAGCAGAA
GGAGAGGAGAAAGAGATTGGAGTAGGAAAAAATATTTGAAGAAATAATGGTAGAAAACTTCCCAAATTTGATGAAAGATACAATTTTTATTTTTATTTTT
ATTTTTTGAGACGGAGTCTCACTCTTGTCGCCCAGGCTGGAGTGCATTGTGCAATCTCGGCTTACTGCAACCTCTGCCCCTGGGGTTCAAGCTTCTCCTG
CTTCAGTCTCCTGAGTAGCTGGGATTACAGGTGCCCCCSCTCCCCAGCCCCACCATGCCCAGCTAGTTTTTGTATTTTTAATAGAGATGGGGTTTCACCA
TGTTGGTCAGGCTGGTCTCGAACTCCTGATCTCAGGTGATCCGCCCTCCTCAGCCTCCCAAAGTGCTGGGATTACAGACATGAGCCACCGTGCCCAGCCA
AGATACAAATTTATAGATGAAAGAAGCTCAGCAAATGCCAGTTAGGATAAACTAAAAGAAAACCACGCATAAACACAGTAATCAAATGGTTGAAAACCAA
AAATAAAGTCTTGAAAGTAGCGGGAAAAAATGGTACATAGAGGGGAACAATAATTTGAATAAATGCAGATTTCTCATCAGAAATCATGGCAGCCAGAAGA
GAGTGGAACAATATGTTTCAAGTACTGAAAGAAGAGAACTGTTAACCCAGAACTCTATATCCATTGAAAATATCCTTCAAGAACGAAGATGAAATAAAGA
CTAAGAGTATCCATTTCTAACATGTTTACTTTAATGAAATGTTAATAGACGTTGTGTAGGCTGAAGGGAAATGATACCAGATGKATATTTAGGCGGACCA
ATCAAAATGGTAAATACGTATAAAGGACTAATTTTATTCTTAAGTTATCCCACTATCTGAGAGGTTTTTAATATGGGTGGCTAAACATAAAAGCTAGTGG
GGAGGTGGAAATAAAAGAGTCTATATGGTTGCAATGTTTCTGCATTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTG
CCCAGGCTGGAGTGTAGTGGTGTGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTA
CTACAGGTGCACGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTG
ATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCTGCCTGTTTCTGCATTTTTCTTGATCTGGTACAGTGTTAACTG
TAAGTAGACTGTGTAAGGTTTGCTGTTTCTGTATTTATATATTTATATGTCTGTTTATCTACCTATGTATCTGATAATCCGATAAGTTAAAGATATGCTG
TTTGAGCACAAAGGAGATTCATTTAAACCGCTATTGCTATAGATTATGCCTATGATGCATTTTTAYGAGGAACCAGTAAATTATATAAAAAGATATAGGC
AGAAAGTTAATATAAAAATATGAAATACTAAAAATTTTCTAAGGAAAAGAGAAAAGAGGAAGTAGGAGAACAGAAAATACAGGGAATAAACAGGAAACGG
ATACTAAAATGGTAGACCTGAATCTAACCATGTTAATAATTCTATTACATGTAAGTGGTCTGACATTACCAATAAAAAGAGATCTTCATATTGGATGAAA
ATGTGAAGATACAACTGTGCTCTTTGTAAGAAACCTACTTTTAATATAAAGACATAAGTTATAAGGAAGGAAAAATGCATACCATACAAACACTAACCAA
AAAAAGTTCAGATGAATCTATTTATATCAGAGAGAGTAAACTTTTGAACAAATAGTATGGTTAGGATAAAGAACATAACAATAAGAGTCATTTTCCCAAA
AAGACATAATAATCTTACATGTGTCTAACAACAGAGCTTCAAAAACGGAGTAAAAAAAAAAACCTGTTAGAACTGACAGGAAAGATTGACAAATTCACAA
TTATAGAGACGTCAGTGCTTTTTTCTTAAAAATCAATAGAATAGGGAGATAGAAAACCAATAAGGAAATTTAAGACTAGAATAATATCAACTTATATGAC
CTAACTGACATTTATAGAGCAGTCTACTCAACAGTAGCGAAATATACATTCTTTTTATTATTATTATCTATATTATTATCTATATTATCTATATATTATA
ATTATTATCTATATTAGCAAGATAGACTACATTCTGGGCCATAAAACACAATCTTAACAAACTTAAAAGAATTAAAATTATGCAAGTGTGTTATCTGACC
ATATAGAATTAAACTAAACACAGTCATTGGAAGAGATCAAAATTTTTTTTAAATATTTGAAAATTATACATCAAACTTATACATTTAGAAATGATGACAT
GATCCATGAGTCAAAGTCAAAGTAAAAGTCACAAGGGAAATTAGGATGAAATTGAAAAACCACATATCAAAGTTTGGAGGATTTAGGTAAAACAGTACTT
ACAAGGGAAATTTATAGTAATAAAAGCTTATGTTTGAAAAGAAGTATTTCCAATCAGTGCTCTGAGCAGCTACCTTAACATAGCAGAAATAGAAGAGCAA
ATTAAACTCAAATTAAAACTAAAGAAAGAAATAATAANNNNNNNNNNNNNNNNNNNNAAATAATAAGGTAGAGTAGAAATCAATGAAATTGAGTAGAGAA
AACCAGTAGAGTAAAATCAGTGAAATGAAAAACTAGTCCTTGGAAAAGATAGATAAAATTGATAAATCTGTAGACAGAGTGACCAAGAAAAAACAGGACA
AATTATCAATATCAGAAATGCAAGACCCTGTTGACATTTAAGGGATAATTAGGGAATATTTTAGGCATCATTAGCCCCATAAATTTGACTACTTTGTTGA
AATGAGCAAAATCCTTCAAAGATAAGCTATGATGTTTACTCAAGAAGAACTAGATTATCTGAATAGTCCTATATCTAATAAAGTAATTGAATTTTTCATT
AAAAAAATTTCTACAGGGAACGTTCAGTTCTACATAAGCTCTTCCAGAATATAGAATATGAGAAAATACCTCTGAATTCAATTTCTGAGTTCAGTGCTAT
CCTGGTCTGAAAACTAGACAAAGACATTATGAAAAAATTAAATTATGTCCATCTCCCTCATGAACATAGAGGATTGGATGGAGAGTAAATCAGTCAAATT
TCCCAAAATACAGTGCTGTTAGGCTATACCCATTGTAAGTAAAAACATTGATGTTGGGGCTGAGGCCACCAAAGGTTGAAGGATGAAAAAAAATAAAAGT
CAAATGTGTGAAGTTAGAGAACAGGTATCAGAAACTGATGATCACTCTTTTAATCAGATGCCTGCAACCAGTGAATGTTCTTTGGGGCACTCTGGAATTC
CATCTCTACCTTGGGTAGAAGCTATCTAAGAGCTTAGCAGAGGGCATGATTAGAACCTAGGAGAGTTTAGAGCTACAAATGACCTTATGTTATCTCCTCA
ACTTTTGCCCAGCTGCTCCCTAAACATGACTCTCACTTTTTACCTGAAAACTTGTCTTCCTTTCTCACCTTTTATCTAGAGAGTCACCTTCAAAGGGCAG
AATCGCTGGTACTGCAGCTTTTTCAAATATCAGGAACTTCAAYCAAATAAAATGAAAAAGGACATATTCTCCTATGCTTTCCACCTATGAACCTTACTTT
TCCCTCAGGGCCCAAATGTGGCTCCCCTCAATTCCTATGCTCCTTGTTCTGGGTAAAAGAGTACAAGGGGACCAGGAACAGGGTTTTTACCTAAAGCAGA
AGGGAGAGAGGGTGGGAGAAGTATGTTATTTGAGTGGATAAGGARGAATACTGAGAAGGACTGCCCGCTTTCAAACTGAGGTTCAAGGAGTCTWAGAGCT
TCTTTGCTGGTTTCTTCCTTTCTTCATGTTGGGAAAAGGGCTTGTGGGGTGTCTGTATAAACTGGCCATAAAAATATGGGACAATAAGTTGTGGAAGCCA
CAAGAGGCCTCTGAGGAGGAAAGTCTCCTAATTGCCATCATGTTCCCATGCTCAGAGGGAGACCCGCTTTCTTATCTGTAAACACTGTGTTCAAGGAGAA
AGACACTCCTTTGAAACACTGGAATGTGAACAGGCGTGCAGGCTCCTAGTTAAGCCCGCTCCTACTAGCTGCTCTCTGATAAGTTAAAGATAGGCTGTTT
GAGCACAAAGGAGATTCATTTAAACCACTATCGCTGTAGATTACGCCTATTACGCATTGCCTCCCTTTCACTGTTTCGCCCTGAACGTCTGCTTCTCAGA
TCTAAGTGATTGTACTCAATAAATAGTGTGGAGACCAGAGCTCTGAGCCTTTTGCAGCCTCCAAAAGTACAACTGGCCCCCTGGCTCCCCACCTTTACTC
TTAACTTGTCTCTTCTCAATCCTTTGTTGCCACCGGACTTTGGGTACCCTATGGGTGGTTTTGAGGCTGGTCCCCAACACTCCACAATTTCTACTTTGTT
TTTTTTTTGAGACAGAGTCTTGCTCTGTCACCACGCTGGAGTGCAGGGGTGCGATCTTGGCTCACTATAACCTTCGCCTCCTGGGTTCAAGCGATTCTCG
TGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACGTACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGATTTCAGCATGTTGGCCAG
GATGGTCTCGATCTCCAGACCTTGTGATCCACGCTCCTCGGCCTCCCAAAGTGCTGGGATGACAGGCGTGAGCCACCGCACCTGGCCACAATTTCTACTT
TTAGGATTGTACTATGTCTTGTCRCTCAGTCTACTTCTCTGTCTGTATGCCCTCCTGTAGTGATCTCATCCCTTTCCAAATGCATATTGCTAACCAGTGC
TGTCTCCTGTATTCTGTAGCCTTTATTCCCATATATTCAGCTGGCTTCTCAGCATATCTGAAACCAAACTCTGGATTGCTCATCTCCCCAAATACCTGCT
TCTTCCCTAGTCTTTCTCATCATAGTAAATGGCAATTCCATTTCTCCAGTTAGTCATTTGTAGTCCTTCTTCTTTTTTTTTTCTTTTGAGTTGGAGTCTC
AAACTCTGTCACACAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAATCCCCGGCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGT
AACTGGGATTACAGGCATCTGCCACCATGCCTGGCTAATTTTGTGTTTGTGTGTGTATGTGTGTGTTTTTAGTAGAGACAGGGTTTCAGCATGTTGGCCG
GGCTGGTCACAAACTCCTGGCCTCAAGTAATCTGCCAGCCTTGGCCTCCCAAAGTGCCGGGATTACAGGCAGTAGTTCTTCTTAATTCATGTCCCTYCTT
TCTTATATCATATATAATCTATTTTCAGAATAAATCCCAAATCTAGCCCATTCTCACTGTGCTCACTATCTTTCCTCTGCATAATTGCTGTAGCCTTCTG
TTTTCCATGGTATCATATCTTCTGGTCTATTTTTCACATTGCAGCCAGAAAGATCCTTTTAAAATATGAGTCATTGCTAAATATTTAATGATGTCTTTCC
TCTGCTCACAACTCTCCATTGGTCTCCTGCTTCACTCATAGTAAAAGCCAACTCATTTTACAGTGGTTTATACATTTCTGACCTTATCTCTCACCATTCT
TCCCCTCACTTACTCCAGTCTGGCTCTCCTGGCCTCCTATTCCTGGCACATGCCATGCCTAAACCATTGTTTCCCTAGCTAGTCACATGGGTCCCTTCCT
CTCTTCCTTTGCATCCCTGCCAAAAGGAAGGCCTTTTCTGACCACCTTATCTAAAAGAGCAACTCCCACCTCCACCTCAGCACTTCTCATCCCCCGATAC
TACTTTATTTTTCTCCACAGTAGTCTATTGCCACCTCACTATTATTGTTTATTGACCCTTGCCCCATTAGAAGGTAAGCAGCACATGGGCAAGGACTTTG
TATTGGTTATGGTTGGATCCCTAAGGCCTAGGATGGTCCCTGCTAGAAAGTATCTTCTCAGCAAATATTTGTTGAGTGAATTTGATTGTGGTGTTTTTTT
CCTTCCCCATATTTGAATAACGTTCTGCGGAATAAAGTTAGATAGTCATGGAGTAGGATACCATAGGACAGGATGTCTGACTTTAGGTAATCATTGAATG
AATGAATGAATGAATGAATGAATGAATGGCAGGGGTCCTACAGAACATTTAATCCCTCTCTTTTCTTATTTCAAAGATGAGAAAATGGAGAGAGGTGTAC
AAATCATAGAAAGATGTCTTAGCTTCAGTATTTTGTAAACCCTCCATAGTGCTCAGCAGGTTTCACAAAATACTCAAAAGAATGTCACAGGTAAGGAAAT
AGAATATAAAAAGACTAGCTTGTATTCAAGAATATTTTAAGGCTATCATATAGAAAGTTCTTATAAGAAATTGGTAACGGGGATTCTAATGCTTCAAGTA
TCACATATTTATATAACATTTGTTGTAAATTAATAAAGCTAATATCTTTTTAAAGGCAGTTTATTAGATATGGTATGTAATTCATAAGGAATCCCTTTTC
CCCAAATTACCCTATAGTTTGAACTTTATTTTGTGGTTACCAAAGTCTGGACTTTTAAAAGATATAAAGTTATAATCTGAGAATGAGAAAGACAAAATGG
GAATACAGATAGATATAAAACTAAAATAAATAGAAATGTAAAATAGTGCACAGGAAATTCTAAATGATAAGTGTAGATTAAAATATTCTAGAGGAGGCTG
CACATGGTGGCACGTGCCTGTAATCCCAGCAGTTTGGGAGGCCGAGGGGGGTGGATCACTTGAGGTCAGGAGTTCAAGGCCAGCCTGGTCAACATGGCGA
AACCTCGTCTCTACTAAAAATACAAAAATTAGCCAGTGGTGGCATCAGGTGCCTGTAATCCCAGCTACTCGGGAGACTGAAGCAGGAGAATCGCTCGAAC
CYGGGAGGCGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCGTTCCAGGCTGGGCGACAGAGTGAGATACTGTCTTAAAAAAAAAAATTCTGAAAGAAA
TTAGGATTGGGTGACACAGTGGCCCAGGTGTTAGGAGATGGCTGTAGCAAGGGAGAAGGAGTAAAATTTGATGATGCTTTAGATAGAAGGGGAGAACTTA
GAAAGCTGGGGCCATGATCTGAGCAGAGGCATAGTGGGGCAGCCAGAGAATATTCTAGTAGTGAGTAAGGTCATTTTAATAGAACCTTAGGTCAGAGAGT
TTAAGAACAGATGTTAGTGCACATTGTGAGAATATTTGAATGTTACATAAAATCATTTGGACTCCAGACAGTCAGAAGCTTTTGAAATCTTTTACGGGGG
CTGACATGTGCAAAGTAGTGTTTTAAGCATATTAAACTGTCAGTGATATACATTATGGATAGGAAGAGGAGACTGAAAAGTTCTCTGTGAGGTGATACTG
ACCCATGCTAGGATAATAGCANNNNNNNNNNNNNNNNNNNNTTAGTTACTCTTCTGTGAGAAGAGACCAGGGTAATTTTGTGGTTTTTGGTATCTAGGAG
AACTGTGGAAATAGGAAATTCTATCATGAATGTCATTTTATCATGAATGCCATTTTGTCATGAAAGATGAGTTTGGCTTTAGACATAGCAAGTTTGGGAT
GAGAGCAATCTAATGATGTCTAGTTAGAGATGTGGAACTCAGGCTGGATTTGGGCTACAGTTAGTCCTAACGGTGAATGAAATCTTAGGAGTTTCAGAGA
TTGTAGAACAGTGTAGGCTGAAAAGATGGTGGTGCGCAGAACTTTAGTGGGCAGAGGAAGAATGTTTAGTGAAGGCAACTTTGAAAAGCAATGGTTGCAG
AAGTAGGGTAACCTATGAAAAGAAAGCAAAGGKTCACATAATTAGTTGGTTCAAAGTAACATTCATCCCTCTCTCAATTCCCCCATTGCAAATGCAGTAC
ATCTTTAATGTCAGATCCTGGAAAATAGAAAATAGCAAAAATATTTTTAAATATTTTTAAAAAGTTTTTACCCAGCCTGGGCAACATAGTGGTACCCTGT
CTCTACAAAAAAATTCGAAAATTAGCCAGGCATGATGACATACGCCTGTAGCCTCAGCTGAAGCTGAGGTGGGGGATCACTTAAACCTGGGAGGTCGAAG
CTGCCGTGAGCTATGATTGAGCCACTGGACTCTAGCCTGGGAGACAGAGTAGGATCTGTCTAAAAAAAAAAAAAATTACTTATAACCCAGTTAGCCAGAG
AAAACTAGTAAAATATTTAAATATATATCTTAAGTTACTAAATATTTCTTGTTTATTGTGTCTATGTATTTGTGTATTTATATTGCTGTACAAGATAGTG
TTTATTATTTGCTGTAAATAGTTGAGGTAAGATGATTCAAAAAGAGTTCAGCGGTTAATTACGTAGCTTATTTGTTGACCTAATCTTCTAAATATTTAAT
ATATATAGAATTTCCCATATTGTCTGTTTTGTTTATTCTTCAGATGATTGCAAAAGGGAAAAATGCATCTGAACTGTTTCCTGCTGTTGTGAAGAATGTG
GCCAGTAAAAATATTGAGGTACTGTTTTGATCTATAATTTTTATGATTCCTTTTGTTTTCATGGGACCGTACACTTTTTATGTAGTATAATGCAACATAA
GATACTTAAGTATCACTAGATTTTTGTTATGATTAAAATGTCCTTAATTTTAAATGTAGGTAAGATCAAATAAAAAGTAGGCACAATCCTAGCTTTGGAT
TTTTGGTAGAAAATATGAAAAGCAAAACMGATTGATTCCCCTGAGTGAATGATGGTAAGTTGTCGAGTTTTCACCTGTTCCTAGAGGCCCGTTTAGTTTA
AATTTTGTTCCAGGGACTTAATTTTAAGATAGCATATGTCCAGTGAAAAAGACCTATTTGGGTATATCCAGACCTTGATGATTTGGGGCTTTTTGGGATT
TCTAGGACTGAGCCCAAGAATATTTCCCAAGTTTCTCAGACTACTCATGACATGTACTAAGCACTCAGTACATATATGTGGATTTATTGAATGAACACGT
CCCAGTAAAATACTGTTTTCTGTAAGCTACACTAATATAGTCTAGTATTAAGGTTACATTCTCCTCTCCACCCTGGTTAATTGATAAATTAATTGAAAAA
GCCTGGTTAATTGATAAATTTTTCTCAGTTTAAAGCTTTAAAGCCTTTCCCTCACCATAAAATTAAAGATGTGTTACTGCTACTATTTGTTTGCCATTTT
ATTGGCAGATGATGAAGCTCATTAACAAATAACAGAAACATTCTAATCCAGGGAACATGGTTATGGTGACAGAGAAAGTGCACAAGCATTCTTRCACGGG
CAAGTGTGAGAGCGTAAGGAGGATGGGTGTGTGATTTCAGAGGGTTCGCTAATTTTGTAGTTATGATTTTATTTTCCATGCATAGTATGGTCATTTTTTG
GTAGTGAAGTTTTTTCTATTTTGCGTGATGATTTTAAATGTTCAAAGTATTCTTGCCAGCAAAACCAACCAGAGAAAAAGAAAACATTTTTGAGCTAATG
TTCTTTAAATATTACTTAACTAAATGTGATTGATAGTGTTGGTGAGAGAGGAATTTTTAATCTCCCAATCATGATTTTGATTTTTTTTTTTTTTTTTTTT
TTGAGACAGAGTCTCACTTCGTCACTCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTACAGCCTCGACCTCCTGGGCTCAAGCGATCCTCCCGCCT
CAGCCCCACAAGTAGCTGGGACTACAGGTGCTTACAACCATGCTTGGCTAGTTTTTTATATTTTTTTTTTTGTAGAGACAGGGTTTCGCCATGTGGCCCA
GGCTGGTCTTGAACTCCTGAGCTCAAGCAATCTACCTGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGCGTGACCAACCGTGCCTGGCTTTTTTTTTTT
TTTTTTTTTCTGAGACAGGGTTCCTCTCTATCTCCCAGGCTGGAGTGCAGTGGCATGATCGTGGCTTACTGTAGCCTTGACCTCTTGGGTTTAGGTGATC
CTCCTTCCTCAGCCTCCTGAGTGGCTGGGACTACAGGTGCATGCCRCCATGTCCAGCTAATTTTCATATTTTGAACAGAGACAGGGCTTCACCATGTTGC
CCAGGCTGGTTTCGAACTCCCAGGCTCAAGCAATCTGCCAACCTTGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCATCGTGCCTGGGCTGATTCT
GGAATGTTTTATTTTTCCCCTTAATTTAGTATTTTTTGCTTATTTTTAAAAGTACTCCTATTAGGCATAACTCTTTGGGTTTTCCTGATGAATTGACCTT
TTTATTATAAAAAAATCCTTTATTTTTGTTAATATGTTTTGTCTTAAAGCATATTTGATTTGTTATTAGTATTGCCACTCCAACCTTCTCATTTCTTTTT
ATTATCATTTTTATTCATTTGCTTTCAGCTTGTCTGTTTATATCTAGTGTGCACCTGTTGTTGACAGCGTATAGTTGCAGCCTTCCCTACATCCCGTGTG
TCAATCTCTGCCTTTTAATTGGAGTGTCTATTTTGCTAACACTTAATATAATTATTGATCTGCTTAGATTTGAGTCTACTATTATTCTTTTTCTTTTCTC
TTTGTCTCTTTTATTTTTGTCTTCTATTCTTCCTATTCCTTTTTTGGGTTAACTAGAAACATTTTAAAATTTCATTTTAGTTTTTTTCCAACTTGCATTT
CTTGGCATATATGACAGTGGTCCCATATGATTATAATACTGTATTTTTACTGTACTTTTTCTATGTTTAGATACACAAATACTTACCATTGTGTGATAGT
TATCTACAGTATTGAGTACAGTAACATGCTGTACAGATTTGTAGCCTAGGAGCAATAGGCTATATCAGTAGTCCCCAACGTTTTTGGCACCAGGGACCAG
TACTGTGGAAGACAATTTTTCTCTGGACCCRGGGTGGGTAGGATGGCTTCAGGATGATTCAAAAGCATTACATTTATGGTGCACTTTATTTCTATTATTA
TTACATTGTAATATATGATGAAATAATTATATAACTCACCATAATGTAGAATCAGTGGGAGCCCTGAGCTTGTTTTCTTACAACTAGATGGTCCCATCTG
GGGTGTGATGGGAGACAGTGACAGATCATCAGGCGTTAGATTCTCATAAGGAGCACGCAGCCTAGATCCCTCTTGTGTGCAGTTTACAATAGGGTTTGTG
CTCCTATGAGAATCTAATGCTGCTGTTGATCTTACAGTAGGCAGAGCTCAGGAGGTAATGCGAGCAATGAAGAGCAGCTGTAAATACAGATGAAGCTTCA
CTTGCTTGCCCACTGCTCACTGCCTGCTGTGTGGCCTGGTTCCAACCCCTGGGCTATGTCATATATCCTAGGTGTGTAGACCCCTGGTCTGTATCATATA
TCCTAGGTGTGTAGTAGTCTATACCATGTAGGTTTGTGTAAGTTGCACTCTGTGGTGTTTGCACAACAATGAAATTGTCCAACGACGCATTTCTCAGAAC
ATTGTTAAGCAATGCATCACTGGATTATAGCATTTTAAGGATAGGTACTTTAAACCTACTTTTTTTTTGGAGACRGGGTCTCGCTGTGTTGCCCAGGTTG
GAGTGCAGTGGCACGATCTTGGCTCACTACAACCTCTGCCTGCCGGGTTCAGGTGATTCTCCTGCCTCAGCCTCCCGAGCAGCTGGGATTACAGGCTTGT
GTCACCATGCCCATCTAATTTATTTTTCGTATTTTTAGTAGAGCCGGGGTTTTGTCATGTTGCCCAGGCTGGTGTGGAACTCCTGAGCTCAAGTAATCTG
CCCACCTTGGCCTCCCAAAGTGCTGGGATTATGGGTGTGAGCCACCATGTTCAGCCTAAACCTACTTTTAAAAAAAGATTTAATATTTTAAAGTATGCTT
CTTGCTTTTTTTGGGGGGGAACTGTAGTGGCATGAACACAACACACTGTAGCCTTCACTTCCTGGGCTCAAGTGATCCTCCTGACTCAGCCTTCTGAGTA
GCTGGGACCACAGGTGCGTGCCACTACTCCTGGCTATTTAAAAAATATTTTGTAGAGACGAGGTCTCCATGTTGCCCAGGCTGGTGTTGAACTCTTGGGC
TCAGGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTATAGATGTGAGCCACTGTGCCCAGCTCTTAATTTTTTTCATTAGATAGGAAGTGCATT
CTGTATTTCAGATAGATGAATTTTTCTATCAAAATGAAATAGTTCTTATAAACTCAATTAGACTAAGTTGGATAAGCCAAAATCAAAACAGTTGTATTCT
TGTGGCCAGTTTATGAATTAGATTAAATTAGTACTGKATTTAAATGACTTGATAAACCATACTTTCTTTGTAGATTTCTTGAGTAAAATCAATTTTACTT
ATGATTAATTTAGTAGATATTTATTAAACACTATGTGCTTGTTATATATAATTCTGAATTGATAATTTTYAACTACTCTCCCTTTGACACCTTATGGCCA
TGATATCTGAGCTTCTAATTTGATATGTTTATTAGTTTTATGGCCTGTGGTATAAGAAAGTCCAAATATCTGGAAAAAATAAACATTTAACTTAGAAAAA
TTATGAGGCATAGGTGAAGCTTGTCTTAGTATTATCAGGAATAGAGTCTCTTAGTAGCAATAGGAATAATTGCTAACATTAAAAAAACCTGTCTGACCAA
GGTTATTAGTGCCTTGCATAGATCTACTCCGTTTTATCCTCACAAATAACCCTGTGGGGCTGTTTCTGTCATTACTTGTATTTTATATATGAGGACAAGA
TGGCAGAAAGGTTAAATTAGCTGATCAAGGTCACACAGCCAGTGTGTAGCAGTCAGAATCCAAAGCTAGGTTGCTTGACTTCAGAACCCATCTTAGCCCA
TTCAGCGCCATCTTTCCTGTTTGATGATTCCTCCCTCTGTTTTGTCTCTTAATATTTTTGACTCCTTATCAACATCTGGCATTAGCCATCCTTTGGGAGG
TACCTAGTATTGGCATATTTTTTTTTTTTATGTTTTAGTTATGGGTAGAAATGACGAAGTCCTTAGAAATTGGTGGTAAAGTAGCTAGTTCCCTGAGGAC
TTCTAGTTCTTGTTGTAAACAGAAAATTCCATACCAATTATTGTTCCTTCAGAACTGTTTTACTATTCAAATAGTTATCAGTAGGAGAACTTTTCCATTT
GCTCATATTTTCCCTTTACAATTAGATTCTGGTAGCTGCCTAATGTTCTGTTACAAAAATGTCAATATAAACATAATTATTGGTCTATTTGTTTTGGATT
TCTTTCGTTCTTTAAATACCTTGTTTATTTTATTTTTTTGAAACATGGTTAAGCCTTTAATGTTTTGGGAAAACTGACATAAGTTTCTTAAAACTTATGT
TCAGAAATTGAATGTTTCACTCCTCTCAAGTGCAAAATTTCATTTTTACAAGTACATGCTGCTTTAGACACACAGGTGAGCTGTACGTCATCTACCATTA
AATGTCAAATGATACCAAAAGTGACCTAGTAAGCAATCAGTGGTTATAGTACAAAAATAATCAAAGGTTTAGTCAATAACTCATGAAGTTTGATGTACTA
GTATTGATAAGCTAATTAAACAGATCTGTCTGTGTTCTTCCAGCCTACTGGGGCTCTGCTATGATTAGCTTTACAGCAAGGAGTGTTATAACATTGAATG
AAAGTAACCGATCAGAGAATGATGTAGTCACGGAGCTTTAACTACTCCCATTTCTGGTCACAGAATGGTTTCAGGGAAGGTAGGCTTTCTTTGCACACCT
GCAGCCTGTCAGTGCATAGGCCTCTTGTGGTCAATATTGATTGATTCTTATAACAGAAGTAGAACAAATTTAGTGTTTCGCAACCTTCTGTGATTTAATA
TTGTTATGCTTTTTGCCATAACAGTCACAGAAATCCTTCTCCAATAGTGAGTAATTATTGCAATGCCTGCTAGCTCAGCTGTGGTTCTGAATGTTTCAGT
GTTGCCAATATAAACTCTGTGATATATTCTAGAGTTCATAATCCAGTTTTAAAAGCTGGCTGTACTTGGTGAATAAAGGTATTGCTGAGAAATAAATTGT
AAGGGGATAAGGGAGAACTGGACCCATTCTTTCTCAAAACTTTCCAGAGAACTGTAGAGTGAGATCTGAATATAATTAGTAAAGAGAAAGAATATTTTAA
AAGAATATTTTAAAAAACCAAACCAGCTGTGTTGGTGTGCACCTAGAGTCCTAATTACCAGGGAGGCTGAGGCAGGAGTCTCTCTTGAGCCCAGGAGTTT
GAGGCCAGCCTGGGCAACAGAGCGAGACCCTATCTCTCTTTAAACATACACCCACACCTCCACCCCCACTCACTGACACACACACACCCCTCCCCACACA
CCCACATACACCAAAAAAACAACCAGACTAACAAGTTAAAGACTTTGGAGGCAGTCTTTCCAAAACCTGTTGTTTTCTTCATAGTATGTTGGTGTCTTTC
TAGACTTTGCTGTTCAATGAATTATACCCACTGGTGTGAGAAGTTAGATCCTAGATGTAGCACTCTAATGGGAAATGTCTTAATTTTTTTCAGTCTACAG
TTGGTCTGGAATGTGATCCAGCTGATAAATATTGAGCTTTTACTAYATGCCAAGCAATGTAATAAGTCCTTGCAATATACAGATGAATAAGAAATGGTTG
TTGTACTAAATAGCCTCAAGTTCACTTCCAGGCAGATGGGATAAATTACTTAGTTAAATACATATTATGTGTTGATTTGATATATTGAAACTGTTGTTAA
TCAACTGCTGATATATTGATATATATTTGATATATTGACTGCTGTTAATCAGTCAACCACGTGTTAATTGCTTTCTACCATTGCTGTATTCTTAGGAAST
TTAAATCTAGTTGAGGAAAAAGTCATCTATCCTCAAATAGTTAGAGAAGCGCTTCTAAAACTGATCTAAGAATTTGAAAAACTTATATTTACACTTAAAT
ATAATCTGAAACATTAAGTATAGTTTGAATCATTTGGTTTCCATCTTATACMTATATTTGTATTCTTGTGTAACATCACTTGGTTCCAAGTGATCATTTA
AAGGAACAGTGTTTCACAAATATGTGTATTTTGGGTTTGAAAAATTCTGAAGGTTGAGAAGCACTAATTTAAACCAAGAAAGTGTAAAGAGTCTAATCGT
GAATATAGATGGAAAGTACATTGATAATAGAGATGGGGTTCTATGGAATGAAGTCATTACTACCTTTTACTACAGTTGTAAATTTCTTGTTGGATTTTTA
ATAATAATACTGCAATGATGTCATTTTCAAATGAGAAGATGTGCAATTGGGGTTAAAAAACAGTGATTTAAAGCATTCTTCTTTTATAAATGTATATATT
ATAAATAAAATATAATTTTTTTCCTAGGTTTTCAGATGCTCTTAGGGGAAGAGTTGTCTCCTCTTTTGTTAGGGGTACCTTAATAGAAATATCTGCGGAC
TGCCATCATAGGCCACAACATGTAGTAGTTAGGAACATGCCCGTTTGCATCCTGATTCTGCACTTGCTAGCTCTGTGACTTTGGGCAAGTTATATAAACC
TCTGAGCCTTACTTTCCTTATCTTTGAGAGGGAGATAATTGTACCTAGGATAGATATGAGAATTAAACGAGTAATATAATGTAGATGTAGGGCCTTACAC
ATTTAAATTCTAGCTGGAAAGTTATAGCAGATTGAGGTGAAGAACAAAAGCTGTCGCAGGCAGTTTTCCTTTCATATTCTGTATTTCCTAATTAATTTTA
ATACTAGCCAGAATGACAAGGGTACTTTTAGAAAAGAAAGGCTGGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGGGGTGGG
CGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGAACAATATGATGAAACCCCGTTCTCTACTAAAAATAGAAAAATTAGCTGGGCGTGGTGGCATGC
GCCTGTAATCCCAGCTACTCTGGAGGTTGAGACAGGACAATCGCTTGAACCCAGGAGGCGGAGGTTGCGGTGAGCTGAGATCATGCCATTGCACTCCAGC
CTGGGCAACAAGAGCAAAACGCCGTCTCAAAAAAAAAAAAAGAAAAAAGAAAAACAAAGGCTGAGGAACTTCTCCAGATGAAAGAAGACCAAGGAGACAT
GAAAACTTAAATATGATGCATGATCCCAGATCAGAAAAAATACTATAAATATAGGATGTTATTGAGAATTTCTAAATATGGATTATTTATTAGATAATAA
ATNNNNNNNNNNNNNNNNNNNNTGTAGTGTTAGCAATTGAGAAACATAGATGAAGGCGGCCGGGTGTGGTGGCTCACGCCAGTAATCCTAGCACTTTGGG
AGGCCGAGGTGGGTGGATCACTTGACGTCAGGAGTTCATGACTAGTCTGGCCAGCATGGCAAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGC
GTGGTGGTGTGCACCTGTGGTCCCAACTTTTCGGGAGGCTGAGGCAGGAAAATCATTTGAACCCAGGAGGCAGAGGCTGCAGTGAGCCGAGATTGTGCCA
CTGCACTCCAGCCTGGGAGACAGAACAAGACTCTGTCTAAAAAAGAAAGAAAGAAAGAATAAAACATAAATGAAGCCTATATGAGGCTTCAGTGAACTAG
TCTTGGAACTTTTCAGTAGGTTGTATTGAAGGATGATATCTGAAATAAGACAATTTATTGCTTACTATAGCAAGGGACAACTGTGCTTTTTAGGCACAGC
TTCTCTGGGCATAGAGATTGCTGATATTATTGTGGATTATTGGGAAGGGCAGTCTTCAGGGATTGATGGACTTTCAGGGTCCTAAGTGGGTTGATGTCAT
CTGTAGATGCGTGGTCATGTGGGTGAGACTGCTCTTGATTGATTGGCACTCAGAGGTGGGTGTATGGGAGTGCAGTTGTTCCTGACTGGCTAACTTTCAC
AAGCAAGAGGCTGAGCAAGAAAACTTGTTCATTCAGGTGCCTTTTTATTGTTCTGTAGAACAGGTTTAAAACAGTTCTGGTGGCTACATGTTGCCAAGGC
TTTAGAAAAACCTGTCTCTCCGAGGAATGTGGGAACTTAAAAACATTACCAATTTGAAATCTTTTTATAATTAAAGAATTTAAAGTATTAGAAGAATCAC
AGCACTATTATTTTGTTTTGAGGGCCATCTGGAAAGATGAGATTCACCCCTATCGTGAAATATCTTTATTGTTTTATCTGACCCCAAAGTAATTAATATT
CCTTTAAAGATAATATAGAAGGATGTAAAGAGTGAAAGTCACTGGTTAATACCATCACACAGAGATAGTTACTATTAACATTTTATTGTATAGATTTCTC
AATTTTGTGCTTACTTGACTTGAATCTTAGTTCTTCTATTTAATAGATACGGTACTTTAGTCAAGTTACTTACCCTGTCTGTGTTTCATTTTCTTATCTG
TAAAATAAGAATAAATACTTGTTTATTGAGTTGTGAGGATAAAATGAGTTAATTTATGTAAGACATTTAGAACAGTGTCTGACATGTAGTTAATGCWACC
TATAAGGATTTGCTATTATTACCATATTATGTCCATTCTAAGACATATGTTTGCTATTTTAAAGTTTCTGCAGTTGGGATTTAACTTAACAACTGGTGGT
GATTACGATGGGTAGTGTTTTCTGTTTGTTTGTTGTTGTTCTTTCCTTTGTGGTCCATAATATAATGGTATGTTTTACAATTGGTGGTCTATTTAGATTG
CATAAAATACAGTATGTGGGCATCTATTTTTTTTTTATACAGAAGTGAGATCATACAATGCATACTCTTTTACACCTTTAAAAAATTTTAGGCCAGGCTA
TGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACCTGAGGTCAGGTGTTCAAGACCAGCCTGGCCAACTTGGTGAAACC
CCATCTCTACTAAGAATACAAAAGTTAGCTGGGCGTGGTGGTGCGTGCCTGTAATCCCAGCTACTTGGGAAGCTGAGGCAGGAGAATCGCTTGAACCTGG
GTGGCGGAGGTTGCAGTAAGTCGCGAGATCGCCCCACTGCACTCCAGCCTTGGTGNNNNNNNNNNNNNNNNNNNNTCTTAAAACAAAAACAAACAAACAA
AAAACCTTTTTCAAGGACATATTTTCTTTTCTTTCTTTTCTTTTTTTCAGATGGTGTCTTGCTTTGTCACCCAGGCTGGGGTGCAGTGGTGCGATCTTGG
CTTGCTGCAACCTCTGCCTCCCGGGTTCCAGCAATTCTCTTGCCTCAGCCTTCCCAGTAGCTGGGATTACAGGCATGGGCCAATACACCTGGCTAATTTT
TTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCATACTGGTCTCCAACTCCGGACCTCAGGTGATCCGCTCGTCTCAGCCKCCCAAAGTGCTG
GGATTACAGGTGTGAGCCACCGTGCCTGGCCACAAGGATATATTTTCAATGTCATACAGATTTATTTAATTTTGTATAGTGGCTGAATAGTATAGTGTTA
TATGGAGGAACTGTCATTTGTTTACTGTTTATCTACTAGGACTCTTTATTGTTTAATTTTTGCTCTTGTGGAAGATTTTAATAAGTGGAACTTGGGGAAG
TGGAACTTGGTGAAGCGGGATAACTTGGGATAACCTGAGTGGAGATTGAGATAAAGAGTGCAAGTTATATTTGGGGACTATTTCTGTTTGACTAGGAAAG
GAGGTTTCGAACAGATTATAAACTGTATTGAGTACTAGGTTAAGAGCTTTAGATTTTGTTTTTAAGGTTTTGTGGAGCCATTCAACATTGAAGAGTAATT
GGAAAAAGGTTTTTTCATTTCATTTATAACTCTACCCGTATAGTATAGADGGATTGATATCAACTTAAAATGGTTGTGTTTAACATATTTATCAAYGATG
AAGATGTACAAAGTTTGTTTGCTCATTAAGTTTTCATTTGTACTTATGAATTGAGAAATAGTTTGGATTATAAAATTATCATCTCAAATTATCTTAACAG
GGTGCCAAGATGTGTTGAATCTAAATTGTTGACAATTTCTGTAGATAAATGGAAGATTTTGCCTTTCATTTAAAATAATTTTAAAAAAATTCCRTGAGGA
CAGTTGRATTTTGATTTGGTCAGCAGTACATTTGGAAAAGGTGTATGGTTTTAATCAAGAATTAGTCATATCTGTGGAAGTACCTCATCTGGAGCAAGTT
CTTATCTAGTTTGTTCTGTTTAGACTTTATTTGTAGTTTGTAGTGTCACGCTGAAAAAAATTGGAGTGAGTTTAGGAAGGAGCAAACAGGATGGTRGAGG
AACTAAAGCTGTTATGTTTCACGAGAAATTAGGGTACAAGGAAGGAAGGTCATGACAGTTGTCTCTAAAGTAGTCCAGATTGGTTAGTATGACTGGAAAT
ATGATCCAGTATAGTACTGTTTTTATATTTCCAGCACCAATTCCAGCTATCTCCAACTTTTTCCCCTCATTTCTTGTGTTCTTTGAGTATATAACTTTTT
TTTTAATTTTAAATTTTTWAAATTTTTGAGACAGAGTCTCTTTCCAGTTGCCCAGGCTGGAGTGCAGTGGCACAATCCTGCCTCACTGCAGCTTCGACCT
CCCAGGCTCAGGTGACTCTCCCATCTCAGCCTCCCAGGTAGCTGGGACTACAGGTGCATGCCACTGTGCCTGGCTAATTTTTTTTTTTTTTGTTTTACTA
GAAATGGGATTTCACCATGTTGCCCAGGCTGGTCCTGAACTCCTGAACTCAGGCAATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGA
GCCACTGTGCCTGGCTGAGTACATAACTTTTAGGTATATACTGTGTTGGTATCTTAGAAGGGTAATCAGGAATGTGAAGATATTTGAGAAGGTAGATACA
GGCTATAAATAGTGCTAGAAGGAAGCAATGGATAAATTTCAACTCAAATTCTAGTTTTTGTTTATTTCTTTTTCTGTTCATAATTTTGTTGTAAACTTAG
TGATTAAATTACCTTTAAAACTTGTTTTCAAGGCTGGGCATAATGGCTCATGCCTGTAACCCCTGTGCTTTGGGAGGCTGAGGTGGGAGGACCAGTTAAG
CCCAGGAGTTTGAGACCAGCCTGGGTAGGCAACATAGGAAGACCCCGTCTCTATAAAATCCTAAAAAAAAGCCGGGTGTGGTGGTGCATACCTGTAGTTC
CAGCCACTGGAGAGGCTGAGGTGGGAGGATGGCATGAGGCCAGGAGGTTGAGGCTGCAGTGAGCCGTGATTGTGCTATTGCACTGCACCCTGTGCGACAA
AGCAAGACTGTGTCTCAGAAAAAAAATCGAAAACCAAAAAAAACTGTTTCCAGAACACACATCCAATCTTCTTGAATTTTTATTACGTTAAATTGGTATT
CATAGTCACACATTATTCTTACTGGACTGAAAATATCATGTAATGCGTGTTGAAATGTGAGTATTACCATAAAAATCAGAGTTAGGGCTCTGGACTCTTT
TAACAGATGAGGAAACAAGTTCCCATAACATATAGTTAGTGGCCTGGGCCCAAATTCTTTCTCTTATTATTTTTTAAAGAGGTAGGGTCTCTCTGTGTTG
CCCAGGATAGCCTCTAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGTGTAGCTGGGACTACAAGCATGTACGCCATGCCTGGCTTCTTTCT
TTTATTTTTATCCCTCATTTTGAAAATATTTTTACAATTTAGTTAATATTCTTATATGAGATCTGCTCAGGGATTTTTTATTCCCTTCAAGAGGAAGGGA
CACTTTGATAGGCTATTGCTATTGKGAACTGGACTATTAAAATGCTTACTTTAAAAGCTTTTCCTGTTGTACTTATTATCCCACAAAATATTATTTKTAT
TTTACAATCTAACATGTGACCAGATTCAGTTATTTACTTGAGAAGAATTGAGCATGGATTTTGGTATAGCAAATACTGAGTTTTAAATTTTCACTCTGGY
TATGAATAAATGATTTTTTTTTTAACAGATCAAGAAGTTGGTATATGTTTACCTGGTTCGATATGCTGAAGAACAGCAGGATCTTGYMCTCCTGTCCATA
AGCACTTTTCAGCGAGCTCTGAAGGTAAATAATGGAGTGAGTAGGCAAATAGCTACAAGGTTTCTGCAGAGTTGAAAGTGTGTCAGTTAAAGAAGTGGAG
CGATAATCCACTAAATAGCACAGTAGTGTCTTGAAAGAGTTAAAAGCCTCCTATAGTGCCTACTCAGTACACTTAGAAAATAATTTATACAACCAACTGA
AACCTTGCTGTATATGTTACAGCTTCTGTATGTTTGTTTATATTCAATATAATTATTTTCATGCTTCAAAGAGCTGTTTATCATTATACTAGTTGTTGAA
AGTACGCAAAAGGGGTTATAAGACATTTTTAAACATGAAATTGATGACCTGCAGCATTTTATTATTATGAAAGTATAAAAACCCAGCATATTTAGTAATA
AATGACCAACTAGAATTATAACTATTACTTTTCTTTAAAACATTATTAAAGAAGTAAACATTTATGTCTGTCTTTTTTTCCCATTCCTATATACTAATTG
TTCATTTTAAATTAAGTAGCTTTCTTTTGCTATTGTCATATTACACCCTTTAAGCACCTATTAACTGTGTCTGAAAGATATGTTTAAAATATTGTAAAGT
TGAAATTTTGGTGAATATTTTTGCACTATTTTTAGGACCCAAACCAACTAATTCGTGCAAGCGCTTTGAGAGTTCTGTCAAGTATTAGAGTGCCAATTAT
TGTACCTATCATGATGCTTGCTATTAAGGAAGCTTCTGCTGACTTATCACCATATGTTAGGAAGAATGCAGCCCATGCAATACAAAAATTATACAGGTAG
GTGCATTGTTAACAATATACCAAAGATCTCTGATGTTACATGGAATGTTATAGACCACAGAGGCTTGTTTTATTCGCTCTTTTAGGTAGGCTGCTCTTAY
ACTAAGTAAATCCAGTGACTGTATGATGGTATTTCCCCCTGCTGCAAATGTTCCTTACACATCTTTAATTTCGTTTTGGCTATAGAGACCCTATGCAGGT
TTTTATTTGTGAGGCTGTTAGAGCCTGTGATAATTTATAGATTTTATAACTTAAGAATAATCAGAATTTGAATTCTCATTTATATAGTCTATCTCATGTA
CACATATGCTTGTATTATTAGAAAATTGAGATTTTTTTTTCCTGTTTAGGGTAGAATCTTAAGTGTCTGATCCTCTCAACTCASTTATATGTGTTTTCCT
TTCTTCCATCTTTGTTCCTGCTSCTCCCTTCGTTGTCTAATTCTTTTCCAGAGCTATTTTATTAAGTAATTTTAAAAAGTGTAGTGATTTGAAATATAGT
GTGCTATACCATATCTGTGTGATATTTTAGAAATGTTATGCAATATTATACAATGCCCTGATCTCTGTGGAAAATTTACTGTCCAAATAGAATTGTCTAY
AACAATTTGGTATTATTTTCAGCTATCATTTATTCCTCAAGCTTTTTGAGACTCTCTTCTGTTTCTGGTGTTGTATTCACAGTATTGTGCTATGTGTATT
TAGATGTATGAAAACAGTAGAGGATGTGGCACTTAATTATGAATAGCATATCATGTATTTGAGGAAGAAGATCAAAGACATACCAAATAATTAAAGGCAA
TCTATAATGAATAAGATATTAGCACTTGATATATATGTATATACAAAGGTACACTAGCAATGTCTTTGATAGGACAGGGACCAGAGATGATCATATTTTG
TTACCGGAAAGTAAAGATGTAATGAGATGGGATTGGTAGTGAAATACTGCTTTGAGAAGGAAGACTTAAGCTGAAATTTGAAAGAATTAAAAAGTTTGTC
CAGATAATTATAATGTTTAGTAATAAATGTGTATGTTTGTAGAAAGTGAAACCTCATATTCCTATGTTAACTGCCAGACAAGGTTTTATCATGCTTCTCA
CTCACCTTTTCTCCTTAGAAACTTATGGGATAAGATCCATGCTCACTCTAACGGYTTAAAAGTCCTTCTATCATTGGGCACCAGTATATTCCAGCCTCAA
TGCTTGCCTCTCCTTGCCTTGAGCTTATAGTCTGTTAGTATTCTATCTCAAATGTTTTAAGCTTATTACTACCTCTTATTTTTCYTAGTTTTAGTTGGCA
GATTTTATAATGCATGTCTCTATCAGTGAACTAGTATGATATAAAATTCTTATTTGGAAATTCTCCATATTTGTTTTTGGSAAGTATGTATGCATAGTAA
AATAATGACTGCTATCTAGTTATTTTTTTCCTCCCAGTTGAAAAGAGTTTGTGGTTTATCTACTTACAGTCGCTTTCTTGAAGTTTTCCAACTCTTTTAG
AAGTGAACTTGTTCTTTCAGTACTATCTTAACTAAACCATTGATATCTGGTTTAGTTAATATGAACAATATTAGAGGGAAAGATGAGGACACATTCATGA
GAAAAACCATCCCATTTTATTTGTTTTTCTTTATTTCTAACTTATAATTCTTGCTCTCCTTTCCCTCTTTAAAAATTTCTCAACATCCTTGAATTGGTGA
GCATCATGTAAAGCTAGAATTAAAGGGAAAAATTAATATGTTATTTTTGTATTTTTTAGCCTTGATCCAGAGCAGAAGGAAATGTTAATTGAAGTAATTG
AAAAACTTCTGAAAGATAAAAGCACAGTAAGTAATGTCTTTTTACGTCTTTGACATAAAAATGTACTTTATTTACATAGTATCATTTACCATTATATATT
TTATATAGTTGTATTTATTGATTTCAAAATGSTATAAATATTAATGGCACACAGGACTATTTTTAAAGAACAAAAATTTTCATGTAATGAGAAAGACTGC
ATTTGGAGTTTTAGATCGTTATGTGTTTCTTCATCAGAATCTGAAAAAAGGCAAGTTGAGAAAAAAATCTTTAACCTGTGGCTAAGTGGTTAACATGGTA
AGATCAAGGAATAGAGGTGACCTATGGGGGATGTGAGTTRCTAGTGTACTAGTATCTTAGATGGGGCTTTTGTACCCACTTTATATTTCTCAAAACTACT
GAGGAAAAGGATTCCAGCTCATCTTAGGATGCTATCATCAGGGAGTATGTACTATCTATGCATGGCAGCTATCTAATACAGTAGGCAGTAGCCCTGTGTA
GCTGTAACTATTGGTTTATGGCTTAGCATTTGATCTATCCTGGATAATGTTCAATAAACATTTGATTAGAATGTGTATTCTGCTGTTGTTGAGTGGAGTG
TTCTATAGATATCTGTTTTTTAGTGTTGTTCAAATCTTCTACTTTGCTGATCTTATGCCTACTTGTTCTATTCATTATTGAAAACAGGGTATTGAAGTCT
CTTTAATTCTGTTAGTGTTTGCTTCATCTATTTAGGAGATTGGATGTTTGGTGCATGTATGTTTATAATTTTTTTAATCTTCCTTTTGTCATTGTAAAAT
GTTCCTCTTTATCTCTAGTAACATTTTTTTGTTTTAATGTCTGTTTTGCCTGTTATAAATACTACTATTCTAGCTTTTTTATGGTTGCTGTTTCCATTAT
ATATCTTTTTCCATCCTTTTACTTTCAGCCTGTTTATATTTTTGCATCTATTGTATGTCTCCATAGACAGCATATAGTTGGCTCTTGTCTTTTTATCCAG
TTTGCCAATGTGTGCCTTTAATTGGAATGTTTAATCCATTCACACTTATTGTTGTTATTAATATAGTTGGATTTTAAGCTGTCATTTTACTTGCTTTTAT
ATGTTTCATGCCTTTTTTGTTCCTTATTTCTCCTTTATTGCTTTTTCTTAGATTARGTGAATATGTTCTAGTGAACATTTTAATTCTTTTCATGGTTTTT
TTACTATATATTTTTGAAAATATTGTCTTATACATGGAGATTATACTTGTAGTTTCATTCCTAGACCATTTAGTAAATTTCTGTTAGTCTGTAGTGTACC
AGAAATCATTATTGCATTTCTTCTATGCATAGTTGGTATAACGTAGGAGGTAACTAAATATAGATTGATTATAAATGAAGATAGAGAAAAGAAATTTGAT
TCCTTTTTGTCTTCTGTATGACAGGCATGCTATCTGCCAGATATGAAGTCAATATTATTAATATTATGGTTAACTTGATTTTAATAATTTAAAAAAATAC
TTAGTGCTTTTCTATTATAAGTGCAAGAGATTGGCTAAGTACCATGGAGAGTAGTAAGATCTACAAGAAGCAGATCTGTCATTTTAATGAGTTTTACCAT
CATTTCTGCTACATTATAGACTAAGAGAAATTCTTTGGATGGCCTGGGAATGAACTCTCTCTGTATAATATGTGCATGTCTTCCCAGACAGGATACAGCA
TATCATAGGTAAAAACAATAGCGTTTGAATCAGATAGAACTGGCTTAATGTCTGAGCRTCTGCCACATAGTATATGTACCAATTCTTTATGAGTTTTAGG
CTCCAGATTTGTAGGGTTTATAATATCTAATTTATACATTTGCTGTTTGTGTCGAGAGAAAGAACTATTGTATATAAAACCCTYAGCACAGTGCCTAACA
CCACATGGGATGTGATTAAAAATYCCAAATAAGAAATAAGTACTCAAAAAGATGTAAAGATACAATATCTGTGTAAAATTGGAATGTCTGTTTCCAAAAT
ACACCAGAAAGTAAAAAATATTGAATACTTGTTCATCACAGGTATTTAATATTTGTTGAATGACTGTTGAATTAATTTGTTACATTCTTGGTGATAGTAA
TTAAGTGTGTAGTATCGTTTTTAATGTCTCCCTCACCCCCCTGCAGTGGTTTCATGCTCAGTGTTCATAGGTAGATTCTTTGGGGGCTTTGGTGGCCTAC
CCTTTGTGAGGCACTCATTTTTCCTAAAGTGTTATATACTATATGTTTATTTTTTTTAATTAAGAATACATATTTCTTTTTCTGTCTATAGTAAAAAACA
AAGTTTTTACTGACACCTGTAATTCTGGTGGTATAGCACAGAGTTCCTTCCAGCCTCCTTCCTTTTTATATTTGAAACTGCCTATTCAACATTAAGAAAT
GTGGCTCTGGCCACGCACCATTGTTCATGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGTGGATGGATTGCTTGAGCCCAGGAGTTCGAGACCATCCTG
GGCAACATGGTGAAACCTTGTCTCTACAAAAAAAAAAAAAGAAACAAACAAACAAACAAAAAAACAAGAAACAGGGCTCCTATTTCCACAATCTGTTTAC
ATTTTTGCTGAGTCTCAGAATGCAGAGAAACTATTGCTTCAGAATTGCTAGCACTGTACCTCTGTGGGGTATACAGTAGCATGGGGCCTAATAATTAGAG
TTAAATATTTAATTAGAGTTAAATATTAGTTTAGAGTTGTTTTTGTCTTTAATCTTTTTTTTAATGTATGGTAAATCAAAATTGCTTCAACTATTTATAT
CTTTGAACTCGTTGTGTTGGTATGTAAGAAAGCTATTGATTTTTTTTGAGTGATAAATTTTATATTCTGCTTTTTTACTGAATTCTTCTATTGTTTGAGT
TAATTTTCTCATTCATCCTCCTTGGGTTTTTTTTTGCATGACAAAGAGTCTTTACTTTTAAATGATTATCAGTACACCAAGTAGTAACATGTAACAAGTT
CTTGAATTCTGTCCTCTTTGATTAAGTAACTAAAACTGGCCCAAACAATTATACTAGTGTTCATTGTTCTAACCACTAGCAGGAATGGACTACCAGATAT
TGCAGAAAAAGGCCAAGACTTCACCCCTCTTCTGCCTAAACTGCTTCCAGATGGTTCTCTTCTCCTGGGTCTCCTCTACTTTAATGCTGCAGCTGCCTTG
GGATCGCAGGGCAGCAGCCTCCTTGGCCTTGAACTCTTTCTCCCTCTGCAGGCAATATTGTTCAATTTCACCTTGAACTGCTGCTTTGGCCTGCTTCTCC
CTCCGGTTCTTTCACTGCAGGTCTCAGACACCCTTTTCAGCAACCTGCAGCAGCTACTGGATCCSCTGAGACTGACTGGCCATGACAGCACCAACTCTGA
GGCAGAAGCAAGCAGCCTAAATCTCTCTCTCTTTTTTTTTTTAGAGAATGAATCATATCTGCAAATAGAGATGTTTTACTTCCTCTTTTTCAGTTCCTAG
AACTCTAATTTCTCTTGCCTAATTATATTGTTTAGTGCCATCACTACAGTTGTGTTCAATAGTAGTGGAGATGGTGGGCATTCTTGCCTTGTTTCAGTCT
AAAGGAAATGCTTACATTGTGTTTGCATTAARAAAGATGCTGGCCCTGAAGATTTTATCTTTGAAATATAGTACTTTTGCAAGGTACTTCAGGATTACTT
GATATGGGTCAATTGTTTTGCCTTGGTACTCAGTGAGTCCTTTCAAAATGTASATTCAGAATTTTTATTATCTCTGGCAAAGTGTTTTTTTTTAAGATTA
TAATTTTAAATATTAATTCTGTTATTTTTTTTCTTTTTCAGGGATTCCTATTTTATGCACATTGGATCTTCTTTGCCTGTTTTACATTCCAATCATTGTG
TCTCTAAACCTCTTCTTTCTTTATCTCATTTTTATTCTTTTGGTTCTTTTTCTACCTTTCTTTAATACCCCTTTTAAAATTTTCATTCAGTAATTTTATT
CGAAGGGCACCTTGCAATTTAGTCTTCACRTCTGATTATTTTTGCTCTCTTGATTTCTTTCCTGTTGTCAATCAATCCTGATTTCTTTTGTTAATTTATA
ACTTTAAAAAATTTATAATTTATATTTATATTTCCTATCTTCAAATGCTTCTCTTGAGGGTATTTAATTCATTTTGAAGTGTCGTGTTGTTTCCTTTTGC
TTCATCATTTATATTTCTTTGTCGGTAATTTTTGCCAGTTGAATTGTTTTGATTTTCATTTTCTGTTTTTAGTACTTACAGATTACTTGCATCTTCTTAT
TTCTTTGGACAGGATTGGTGATTTGATTTTGAGGTAGCTTGCAAGATTCCTAGTACAAGAGTACCCTCTCTGTTAGAATTACAAAGTATGTTTTCTTAGT
AGATGGCCTTTTGGTGGGAGGGCGTGCATGCATAGGACCAGTATATGTCCCCAAACTATTTCGAGATATGTTTTGTAGCAGCCTAAATTTTTCTCTCTTC
TTTTCTTTTCTGCCTAAAAAAGAAGGGTCTTACTCTGTCACCCAGGGCTGGAGTGCAGTGGTGTGATCATGGCTCACTGCAGCCTCGACCTCCCCAGCAC
AAGCAATCCTCCTGTCCCAGCCTCCTGAGTAAATGGGACTATAGACATGCACCACCATGCCCAGCTAATTAAAAAAAATTTTTTGTAAAGATGGGGTCCC
ACTGTGTTGCCCAGGCTGGTCATGAACTCCTGGGCTCAAGTGATCTCGCTTTGGTCTTGCAAAGTATTGGGATTACAGGCGTGAGCCACTGCACCCAGCC
CCTCTTATTTCTTTTTTTCTGTTATTTCACAGTTTCCAAAGGACTGCTCTCCCCTTACTTTTTTTTTTTTTTAAGCTAATTTTCTCCGTGAAACTTTCCC
TTTCTACACTACCTCATTGAATCATCCTCTCTTTCAAGTCTTTCCCTTATAGGCTGCTCTGATCTACCAAGAATCTTTTCCAGTATTTTCACACTTAGGG
TGTTCTTTCTCTTTCTGTTGTTGATTTTCGTTTACTTTTAGGCCTGCCATTAACTTCTGCTTGCTTTGTTCCAGGCAGTTTTTTTTCTATACTGTTGGAG
GTCTTTGTGAAGTTTTGTGATACAAGCATGAAAATAGTTATCTGGAATTTAGGGTTTATATTTCTACTTATATATAATTTGAGGTTTAGAGATTCTCTGT
TTTGAAGTTAGGCTTAAAGCATGGGTTTTGGTCCCTTGTTGTTTTTTTTTTTGGATTTGGGTTGGGAGATTCAGACTTACTTAGGCATCATCAACTTCTC
TACCCAGTATTTAAATTGGCTGTATTTTGTGAATGTTTTCTGGTAATTTTTTCTTTTGTGTGATTATAATCCATTGTAGAAAGGTTAAAAATATTCTACA
CAGATATTTGTGGATCATATCTTAATTATTACCTTTTTTTGGTCACATGTAATTCTTCATTGAAGGAAGACAGGTACATTTCTCCCCTGCCCCCCACCAC
CAAATTTTTAATGTCAGCATTGGCATTTAAAATCAATAGAGGATCAAAAATCACTTTCATTTAAAAAATCTCCCAGTTAAATGTACCAGGTCTAATTTAT
TTCCACATTTTGAAAAGGAATTTATTTGTTGCCAGCAGCAGTTTTTTGGGATCAYTATTACGATGATGACATTGGTGTTGCTGCTGATACATATACATTT
GAAAGATGTTGATCTATTAAACTTTCTTCATTTAACCTCTGTTGATTTTGAGGCATACCATCTGTTGCTTCTTTTAGGCTAGAGGATATTTTCTTTCAAT
TGAGATCTCAAAGAAAATTAGTTCCATAATTCTCATTTTAAGGAAAGGTGGAATTATAAATATATTAAAATATAATAGAATGGCTTTTCTCTTTTACTAA
AGACCAGTATGTGTCATATGAATAGTTTTTTCCTAAAAATAGAACATTTTAGTGTTATTTAGGTAAAAGATATTACAGAAACCTTACAACTGTAGTCAGT
GAACTTAAAAGGGGGCATCTAATCTATATTCTGTCATCTCCAATCAACTGTTACCATTTTTCTTTATATGAATTTTTATTGTTTATTCTTAAATTTTATA
CCATTTTCATCTACCTTCTCAACATGTCCTAAACACTTTCCTACTTTACTACAAGCCTTTTCTAATGTTCACGTATGAATTTATTTTTAAAATTAATAAG
TTTCTCTTGTTTTTCTTTAAAATGTAGCAATCCATATTTGTTGACATTCTTTTCTTTAGAACACTTTAGAAGCAGAGTGGTATTTATTTCCTTTTCCTTT
CAAGTTAATCCTAAATAAATCTTTTTGATAACATCGAACTTTCTGATAGAAAACAGAGTTTCTTAGGAAAACAAATTAGGTCAGTGCCTGCTGAAAAACT
GATTTATGTATATATTTTTGATGACATAAAATTTCCTCTTTTTGATTTTTGCTATAAAATTATGTTTAATGAATAGATTGGTAGTGTATAGCTAAACCGT
AGGGATAAGACACAAATTTTAAGTTATTGATTTAATGTTGATAAAAGCCCCACCGTTATGTGCAAAAAACACACCCCTGAGTTTGTACAGATGTTTTATT
GTGATAGATCTATTATCCAGCTATTAGAAGATAAATGACTGATCTTTCCCATTTTCCATGCCTCAAGAAAATTGAAATAAGAAGGGGAATATCATTTGGG
CTGTATGATTAGGGAAGGTTGGATGGCCATTAATTTAAGGGAAGAAAATCTTGGCAGCATTGGCCAACTTATACCATATTATCAATCAAACCTTGATGCA
CTTCTTGTGATGACCCAGCACTCTCAGGTTTTTGCAATGTTAATTAGAATTCATGACAAAATAGATGCAAGGAAACGTTTTGTACCCTTCATAATTTTAT
AGAAAATTTATTGTTATTAGAGGAACCATTTGCTTAGTGTGATTTTTTTCATTACCAGCTTGTCAACTAGCATAGATAATCTAGAGAAAATATGAACTCC
ATAGATGGGGTGTCACTTTTGTTGATGGTTCATGTAGTTTACCTTGGAGCACAGCTAATGGCTGAAGTTCATAGCAACAGCACAGAAAAACGTGGCAACC
AAGGGAAGATAAATGAACCATGTTTATTGCTTTAATATAAAAAATACATAAATGGAAAACTGCATTTGAATTTGATGAGCTCATTGCTGGTTTTGTTGGA
GTGATTTATTTTTTCCCTKATATGAAAAGCTACTATTGACACAGTGAGATGGAAGTTAACTGTCTGTTTTTTGGAAACCAGTATTTTTGGTTTTAAAATC
TGAGTAGATCATTTAATTTTAATTCTGAATATTTTATAGAATATTGAACATTTAATAAACCAAAATTATTAATTTTCCTTGTAGTGTTTAGCCCAGGGTC
AGATTGTTAAAACTATATGATTAAGTATCTAAAATGATCAGTTTTATTTTGTAAAAGTACTCTCTTTATATGCTTTTTAATTATTTTGATGTTTTCTTAA
ACTTTATTTGGTTCTATTTAATTAATGATATTTGTTAGTACCTTAGAAGGTGTTAGTACTTTAGAATTATTGTGTACATGTAGCTCTTGGTTTAATGAAT
TTAATATTATATGGTAGCTGATTTTCCATTTAATTGTTTAGTATCAAAACACATTTGGAAGAAAATAATTGCTAAGACAGAATAACTTGATTTTACATAG
TATTTTAAAAATTGAAACTGTGAATTACCTGTTCAATTTCATGGATCATTTTATCCTAGATACTATCCTTTATTTTTGCACTTTAACACCCTTTACCAAT
TGATGTTGATATTAATATAAGGTTGATAATACATATATATAGATGTTTATATCTCACAATGAGTTATTCTAGAGTTTAATGTCATAAACTTAGTTGTAAG
ATATTTTAAAATGATACTAATTGTCACTTTATAGAAATGTAATTATCACAAAATGTAATTTCTAAAGAAATTATGTCTTTTGCAGAAGACATCAAAATGT
GATTGAAAGCATGAGCTTAACTTCCTTGCCATATCTATAACAAATAGGAAAATTATATATATANNNNNNNNNNNNNNNNNNNNNNTCAATAAAATGCAGC
TTCACGTTTAATACTGAATTGGTAATTCATAAAATCCCCCACAGGACTTGAAAACTTGTTTAGCATAATAGCGAGTCTATATTCTGAGCTGTTTTCTTTC
AATTGTATTGTTGGTTGCATATTAATAAACTAAATGTCAGCCAACTAGAGGGACAAACACTCAAAATATGAATATCATTGTATCTAATATTTTTCAAAAA
GTACCATTTCAGTAAGTTATATTTCTATTTAATTGCTTATTTTAAGTCATTGGGGAAATTTTAGACACTAAAGTGAAGATCCCTAGTGTTCAGATAGAAT
ATGGTATTAATTTGTTTTTCAAAACTGTATTATATTGTGGGCTAACTGCACATATATCATTTGTACGTATAGAGAAGTATTTGTATAATATATATTCTGC
TTAGTTTGTGTCTTTAGAGTAAAGGAATCTCAATGTTACCACTTTGTAAAAGCATCACAGTTCAGAAACTAACATTATGATTCATTAACTGGTGTTGGAA
GAGCCCCCTTTTGTTAGTAATATATTATTCCAACTTATACACATTGTTATGAAAGTGATAAGAGCCCAGGTGATGTTCTAAAATTTCAGCCAGTGTGTTT
TCTTTGTAAATAAATTATATTGGGTAAAAACCGGTGGATTAAGATGTATATGATTTGAAAGTGTTCTTCTATTAAAATTTATGAATTTCTCATATACTTT
TTAACATAAGTTCATTTTAGAATGATTGTCSTTCTCATTTTAAACTGACACAATGTGAGCTTTGTTATTGTCTTGATTCTTTTTCTGAATATTATGAACA
AAGTACTGAATTTTTAGATTAGAATTTAGGTTAGCTTTAAACATGAAAAATGTGCGTGATTAATGTTTAATCCACATATGAACAATGTGTTGAAATTTAA
CCTGGTGAAATAAACACATCAGAATTTACTTCTCTTCAGAATAGTATTTTCTAGACATATTAGAACTATTAAAATTATTCTTTGACRAATAGTCACCATA
AAGTTTGTTATTCAAACATGAACATTCATTTTAATTGAATGACTGAATACTTTAATAYTGATTGGCATGAAACTGATTACTRTAATGCCTGAGTAAGACC
TTTGATGTAGGGGAGAAACATTTTTTAATAAGTTACTATTTCTTTCTTTTCTAGTTGGTAGCTGGCAGTGTTGTGATGGCTTTTGAAGAAGTATGCCCGG
ACAGAATAGATCTGATTCATAAAAATTACCGCAAGCTRTGTAACTTACTAGTGGATGTTGAAGAGTGGGGGCAGGTTGTCATAATCCACATGCTAACTCG
ATATGCTCGGACACAGTTTGTCAGCCCTTGGAAAGAGGTAAGTGTTGAACAGTCTTCCACTTTCAAGTATACTAAGAGAATGGATGAGCTTTTTAAAACT
TGGGCAAAAAATTAGGAGTAGTAAACTAGAGAAATCTGCRTATTTAAGGAAGACTCATTTGTCTCTTGTTCTTTTACTAAAGCAGGCAACCAATATAAAT
GCAAGCATAATTATCCATTATTTTGGCACTGATTGATRCATATTTATTGGTGTAAGTATATACACTTTTAGTTTGATACTGGCAAGAGGCCCTTGTTAGG
AGGAGCAGCATGACACAGTGTTTACAGTGACATTGCCAAACCATGGATTTTTTTGGTTACTAGTTACTTTCACGTCTTTGAGCCCCAGCTATTCCAGGTA
CTCATTTGTAAAAAAAGTAGGTGATGTGCTCCTATAGCATGTGAATTTATACCTAAAGTAATTAATTTCTTGCCTCTATAGATAAATATTGTTGAACTTT
TAAACTACTTTTTCCTAGTTTTGTATTTATAAAATGTTTGTGTTCTTCTCTTCACTTTAGCTGGTAGCATTTAGTAAAATTAATAATTTAAGTGAAGCTA
TTTGTTTTCTTTGTGCAGATTAACATTAGAAGTACGCCTTATTCTTTTTTTTAAGTATGCCTTATTCTTTTCATCATATTGACAATTTARAAAATTTTAT
CATATAACTTGTAATTAAGATCCTTAGGATGTATACATTTAAGATTTAAGGTAATTTTAAACCAGTTTAAATAAATCCTTAAATGTTGTAAGAATAGCAC
ATTCATTCTAGTCTTTTGATGKCTTATCTTTTTAAAATACAGTATTATAGATTTTAAAAACCAATTTGTGTAAAAAAAAAAAAGATTTTTAAAAAGCTCC
TGTTATATCAAAGTGGTCTGTATACATACTTATGACAGGCCTTGAGTGCTCAGTACATCTTGCTTTTGTTAATTAGAAAAATGTAAATAACATGGAAAAA
TGTATGATACATGCTTTAAATGACACATCAAGCTTGCAAATTATTATAAAATGTTGATCACTATTTTCTATATTGATTTAGTATTAGCATTAAAAACTGT
TTAGAAATTTTAATACTTCTTTATCCACAAGACAGTAATACTGATTTTCATCTCACTTTTAATATTAACAAAATGATGATTATGTTATCCATCTTAAAAA
TTGAARTATGTTTTGAATTATTAATATGTAAGTCTTATGTTACATAATGCTCTTAAATTGATGAAATTTTACTATCCTTGTCAACTTTAATTTTATAAAG
TTAATTTTATTTATCATTGAGCAAAGTACAGTTTTGATGGCACTTTTGCTAGATTAAGGAACATCTCTATGATGAAAATGTCCTGGCCCTTTTATGATAA
CTTTGATGAGAGATTTTTGTTGCCAAACAGCTTATTTGTTTGATTTCAGCCAATTCCTTTCAAAACTTCTGCTCAGATTTTTTTTCTATTGTATAAAGTT
ATAGGCAATTTTGCCTTAGCTAATCACTGTCACCATTTAAATTTTTAAATTTTACTTTCCTATCATTTTCAGTAACTATATGCAAATGATCCTTTGCTTG
TAATTATATAGAAACTGGAGTTAAAATATATAGTGTACTTACCATACCTGCTAAAAATATGTAACCCGTAGTAAAATCTCTGCTTTTGTATATTTGTCTG
TTTATTTGTTTTTCTGTTCCTTGAATTTTATCTTATTTTAGATAAAATTTATTTTTAAAGCCATTGCAAAGGAAAGTTAAGTTTTACACCATCATATACA
TTTGTTTTTTGACAGATAATTTGAAAAATTGGGACTGTATTCATTCTTGGTGTTTTCACATGTTAACTCCATGAACATGAATTAGGACAAACATGAGGTG
AAGTCTGGTCATTGTCCCTGGCATACTGGAATGGGCTAAGTCATTTCTTTTCTTTGCCACTTACTTGCAATCCAACCTTGGAATTATTCGAAATGCTGTG
CTCATTAGACTAATTTAGTGGTTTTCCAGTGTGCACATCAGCCCTCAGGATGTGCTAGCACTGCCACAGGAACGAGCCAAGCAGGGCAGGGGTGCTCTAG
ACTGTGCAGCTTTTTGGGCTTTTGCCACTGTTTCAAACACAGAAGCCTTTTTTGCCTTCCTTTCTTATGCAGCGTTGAATTTGATTTCCTTTGAGAAAGA
TCCATTGGCTTAAAAGACAGATAGAAAGAAAACCACTTTAAATAGAAGATTTATAAGTTTAGCTAATTTGATTCCTATTATTGTTGTTGTTGTTTTTTAA
TTATAGAAGCAATTCAAGTACATGTTCCCTTCTCGTAACCTCTTGGTTGACGCCTTAGAGGCAATTATTGGTAACTGTTTAATTTCAGTTACTCTGGTGG
TTATAAATTTTACTTTGRATAAAACATTTTGCTTTATTTATTAATTTAAGTTGATATCAGTTGACCTCAATTCAAGGAAAAATTATTCATCGATTGTGTA
AGTGCTATTTGAGGGTCTCGTTTAGCCCAGAATAATCAGTATAACAGGCTTTTGTCTACATACGTACATATGTTCAGTTCAGAAGCAGTGTGAAAGATTT
GAAAGGCTCAGCCCTTATTGCAGTATTAGAATCAAGGATTGTACAATATGTTAGACTCTTGTTATAAATATATTTTATAAAATTAAGATTCAAATGAGTG
GTCAACACTAGGACCATGTCTGTGCTCTCACTCTTCCAGTTAACCCATCTCAGGCTTCCTCTGTGCTAATTATGATTTTGTTTTACTGAGAAACTTTGGA
GTGAGCAGTGTAGCCATTTATAGTCTTCAGTGCTTTCTGATCTAGGCTTGATGTTGCTTCCAACTTTTTAGYGACTACACATGGTAGTTTTAGCTTTAGA
AGTTGGCAGACGAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCTTATCACGAGGTCAGGAGATCAAGACCATC
CTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAATTAGCCGGGCACGGTGGCGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAG
GCAGGAGAATGGCRTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGTCTCAAAAAAATAAATAAATAAAT
AAATAAAAATAAAAGAAGTTGGCAGACTAAATCTCAAAGCAGAGTTTGACCATAGCTAGAAGAAACTGAGAAGTATTTGGCATTTATATTTGCTTGCTCT
TTCTTATGTGATGTTGTAAAAGGAACACCATGTAGTAAAGAAAGGTTAAGATGATTATAGAATAAAAAGACAAGGTGAAACAGTACTCTAGCAGAGGCAT
TCCTGAGAGTTTACCTCTCTTTTTTATCCTTTTACCATCAACACTTGAATGTGTTGTTTCATGGAATCATCCAAGTAGAAATGTCTTCAYTCTAGCCCTC
CATTCCCTTTTACCTACAGGCAGAAGTCACTTACATAAATGCTATATAAGCACCATTTTATGATGAATTAAGGGCCATTTTACCTTGAAGTAAAGAATTT
GCCAGTAGGAAAAAGTGTCACTAAAACAATGTATCGACATAAAAGTTAAATTTATAATTAAAAAAACCTGCCTGTAATACCGAATTCATTTAAATCCAGC
AGTTTTCTCTCAGATACTAAGAGAAAATGTGAAAAATAATACTGTGATGCTTTATAYTTAATGGCTTATCATTTTTGCTGTACTTTCTTTTCTTCTTTGT
TTTCCTTTTTTGGGATAGAGTCTGTCTCTGTCACCCAGGCTGGGGTGCAGTGGTGCGTTCTTGGCTCACTGCAACCTCTTGCCTCCTGGGTTGAAGCGAT
TCGTCTGCCTCAACCTCCCAAGTAGGTGGAATTACAGACATGTGCCACCACACCCAGCTAACTTTTGTATTTTTAGTAGAGATGGGGTTTCGGCATGTTG
GCCAGGCTGGTGTTGAACTCCTGACCTCAAGTGATCTGCCCTCGGCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCTGGCCTGTACT
TTCTTACATAGTATTCCATTTGCCATAGGGCAATCAGAATTATTATACCCATTTTATATATGAAGAAATTGATATATACAGATTTTAGCAAGTCACTTAA
GACAATATTAATTATAAAAGGTGGAGCAGAAATATAAACAGAATTATCTGATGCCCAGGCCAGCATTATTGCCTTTATATTTTGTTACCCTGTGACTTGT
AAATTAAAATAATTTCTTAGTTACCTTAATAAGTTTTCTGTGTTTGTTTATTGTGTTCCGGTCAAAACCAGCTTTGAGGCTCCCAATCCATAGTGCTCAG
ACATGCAATTAGCTAACAACCATAATTAAATTTGCTCTCAAAGAGAAAAATCATGTTTCCTATTGAATTTTTGCAAACATTTGTTTACGTTAATATGCTT
GAAGTGTGGCAAAATTGTTTTTTGTTGAGGAATCGAAAATTCGTAGATACACTTTTTGAGATGAGCTGATGTACATGCTTTTGTCAATAAGTTCTCAAAT
GAACACATCATATACAAACAAGCTTCTTCAGGGGCAGAAGAGATTTTTAATTTAGTTTATTTGCATCATTATAGATCAGTATTTAGGCTGTTTATATGTA
AATGTATGATTTGAGGAACAATTAAGTGTTGACAAAGTAGATTGCAGTCATATCAATTGCAGTGCATTTTCCATAATTTTTCTAACTGACATCTTTGATG
ATAAATAGTGGATGTCAAGTCAAAGCTGATTATACAGTGCACTAGGAATTCATGGGGCTGTCAGGGAGAAGACCGATTGACTTTAAATTTACATATTAAT
GAGAAGATTTGTTAAGAGGGTGCTTGACTATAGAAAATAACGGCGTATTTATAGGGCACRACATTTTATAAATAAAGCTGATGCAGGAAAATGGAAATTA
AACCTTTTAGGTTAATAAATTCAAGAGACTGCTAAAATGCACATTTGCATTTTTATTTTCTTAAATTTACCTTACTCTTTGCAGTCCATGTGGGTTGTTT
TTTATTCTAGGTCAAGTTTGTATAATTTTCAAGGATATAAAATTGTTTAAGTATTTTATTTGTCATTCAAGCCTATTATGGGAGATTTCTTGAAGCATAA
ACCTAGATCTCTAAGACTAAAGTTGCTTTTGTAAAATTAATCGATTTAAAAAAATAAATATTATAAAACACAGAGTAAATTTTAAGAGTGATTTAAAATA
AAAACCAACATCTGTTAGTGGCATCAATTGTAAACTGAAAGGAAACTCTGACACTGGGGCCTGCTAGGAATGTTTTTAATTGCATGAATCTAGCTTTTTA
CAACTGAACTTKCTCTGGGAGATGAGAGGTTTTCAAGAATTATCAAAATATTTTACTTCAGTGATTTGGAAGTTAAAACTCTAAATATTTACCATTATTT
TTTAGAATATGAATCCGGGTTATGTAATTCTGGTGGCAGTATTTATGCCAGTTTAAAATTTGGAGTAATTAATTTTGTCTCTCTCTGTATATCTGTACAT
CAATTATAAAACCTTACATAAGTTTAACAAAGTCCAAATTTAGAATTTTGTTTAAAGTATTTTTAAGGTAAGTTCTTAAGTTTTTCAGTGGTAGCCATAA
AATAACTTATCAAAATSCAAAATTTATAAATGTAGTTTTTTGATGAGCAATTTTCTGTAGGTACAGAGGTACTTCAGGGAAGTACTTCATGAACTCCACA
TCCAGATCCTGTCTTAACGGACCAAAATGTTAGAGATTATTGAGTTTTAATTTTCTTTACTGATTAATTTTCTTTGTTAAAACAAATTTTGTCATGTGTC
TTACCAATGGACTATAGATCCACGATTCTGTGGAATTTATTAAAAAAACAAAATACTGAGAAGTTGTGGTAGAATACATTCTTTACAATGCAATAAGAGC
AGTTTTTTGTGCACTGTTTTAAGTAACTGTTGACAAAGGRTTCAACATATAATTTAAGGTGAAACTAAGGACCATGATCTAATATTGAAATAATGTCTCC
TCTCTTCCCATTGGTTATGAAGCATTTATCGTAAAGATTCCGTATTCTTTTTGTTGTTTATAATTTATTCCTATTGATTGGAATTTTTTTTAACTCATGA
AGTTTTCTTTTTTAAAAAAGAAAACTTTAAATTTTACCAAGGAACATATGCATGGTTTAAAAGAAAGAAAATGAATAGTACTACAAGGCTTATGAGAAAC
ATTTTTCTGAGTGACCCTTCTCAATGTCTGAATTAGCTTCCTCAGTTCTTTTCCCTTCTGTGTGTGAGCTCAAAAGTATCTGAGCCAGGTCTCAATCAAT
TTAGAAAGTTTATTTTGCCAGAGTTAGGGATGCACCTGTGACATGTGCAGCCTCAGGTGGTCCTGATGACATGTGCCCATGGTTGCTATAGCTTGCTTTT
ATACATTTTAGGGAGGCATAATACATTAGTCAATACCTGTAAGATGCACATTGGTTCAATCTGGAAAGGCAGGACAACTTGAAGACGGGGCTTCTAGGTC
ATAGATGGATTTAAAGATTTCTGATTGGCAATTAATTGAAAGTTAAGTTGTTATCTGAAGACCTGGAATCAATAGAACGGAAATGTCTGGATTATGATAA
GGGGTTGTGGTGACTAAAGTTTTATCTTGCAGATAAAGCCTCCAGGTAGTAGGCTTCAGACAGAATAGATTATAAATGTTTATCAGACTTAAGGTCTATG
TTGATGTTAATGCTGGTTGGCTTTTCCTGAATTCCAAAAGGGAGGAGGGTGTAATGAGGCATGTCTGACCCACCCTTCCTATCATGGTCTGAACTAGTTT
TTCAGGTTAACTTTGGAATGCCCTTGGTCGTGAGAAGGGGTCCCTTCAGGTGGTTGTGGGGTAAGAATTTTATTTTTGGTGTGTGTGTGTGTGTGTATTT
ACCTTTCTCCATTTCTAGGTAATAGACATATATTGCTATTTCTTGATTTATCAATTTTAGGCATTATGTATTGACTTCCTATTATAGAAATGGAGAATTT
GTCATTCTTCTATTACCTTATGCTTCTGCTTACCTCTTTCATCTTTGGAATATAATTATATTAGAATTTTTTCAATCCATAGGTGTTCATTTTCCTATGA
TTTATGAATATTATTCAGCTGTATAATAGCATTTCATCTCTTGTGGAACTTTTGGTTCTTTTTGGAATCAAAAATTGCTTCATTTTAAATTTGCTTACTT
TATCATGTCACTATATGAAGCATTCCAAGTTCTCCRTTGGAATATTAAATATTCTCCAAATATTATTTTATGTGCAGTTGTTGTGATACTTCTTGTCTAC
CCAATGTCAGTTCTACCCCTCCCACTTATTTAAATAACAGGATCCTGATTTTGTTCAGAGTAGTTATATGCCYAATGAAAAATAATCAACRTACTAAATT
CCTTTAGAGTCAGAAATGGGTCCACATCTGGAAATTGGGATTCTGGGGAAGCTATTGTTTTTCTGACAGACTTATTTGACATATGTATATTTTACCCTTT
GCCCTTTCTCATGATTCCTTCCCAGAATGCATGTGTGATGATTAGAGGTGCAGTAGTCATGTTACAAGCATAAGGATAAAACTATATTCTGGGGGTGGGC
AGAGCTGAAAAACAAAGTGTTTGGGGCAACTTTTCATTTTATGGAGCTACCTAACTAGATATTTCTGTTATATATAGCTGAACACAGTTCTGACTAGTAC
AGTTGTCAAGTATATCAAGTATTTCAACAGCTTCATTTTCTTCCCAGGAGATATGTTCCTGGAGTCTTCACCCTCTGTTCTAATCTGATTGCTTACTAGG
CCTGCACAGTTCCAATCTGTTTTTCTAGAACTTAATTTCATGTCTCTTCTGTGTTRAATCCTATTTCTTAGGCTTTCTTCTTCTCTCTCTCTTTCTCTCT
CTGTCTCTCTGTCTCTGTCTCTGTCTGTCTCTCTCCTTTCTTTTGGTTTTCCTGGCTTTGGAGCATATCCTCCAATGTTTTCTTAAGAGTGGGTAGATGG
GAGATAAAATTTTGAGACTTTCAGTGTCACTCTCACACTTGATTGATATTTTACCTGGGCTCTTGGATTAGTATTCTCTTAGGCCTTGTGCATTTGAAAA
TGGTTTATTGTTTCTTGTATATTTGACATCTTGCTGGTTATGGTACTGTTGGGACACACCCTTTTCTTCTTTTGAGAACTCTGTAGACATTACTTAATTT
TCTTCTGCAATGAATTTTGCTGTGAAGAAATCTGAAGATAGCCAAAGATTTTTCTCCTTTGCAGGTGACTTGATTTTTTTTTTCTGCATGCTAAAAAAAC
CTGTTTAAAAAGTCTTTGARAATTAATCAGGTTACATCTCAACGTGARTTATTCCATATGATCTCCAGGTTCACTTCTTCCTTTTATTTTAGGGAATTTT
CTTTTCTTTTTGTAATTTTAAAAATTCGATGTTTACATTTTTTTTCTGCTTCATTTGTAAGTTATATACTTGAGGAATACCCGTTATTCTGTTTTATAAT
CTTTGTCTACCATGTCCATCATATTTTTAGAAAATTTCTTTAATGTTTGTCCTTTTTTCTTTTTTTTGAGACAGGATCTCACTCTGTCACCCAGGCTTGA
GTACACTGGTGTGATTACAGTTCATTGCAGCTTCGCCCTTCCAGGCTCAAGTGATTTTCCTGCCTGAGCCTCCTGAGTAGCTGGGACCACAGGTGTGTGC
CATCATACTTGATAATTTTTTTTTTTTTTTTTTTTTGACACTGAGTCTCGTTCTGTCACCCAAGGTGGAGTACAGTGGCACGATCTTGGCTCACTGCAAT
CTCCGCCTCCCGGATGCAAATGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCTGCCACCACACCTGCCTAATTTTTGTGTTTCTGG
TAGAGACGGGGTTTCACCATGTTGGCCAGGTTGGTTTCGAACTCCTGACTTCATGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACACATGT
GAGCCACCGTGCCTGGCCTAATTTTTGTATTTTTTATAAACACAGGATTTCGCCATGTTGGCTAGGCTGATCTTGAACTCTGGGGCTCATGTGATCCTCC
TGCCTTGACCTCCCAAAGTGCTGGGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNTCGTGTTCTTAGTAACGTGTTGAGTGATATGCTTTTGACACTTACATATAGTCCGTTTATATGTGAGGAGTGTGGTCAG
GGGAGAAAGATCCTTCTTCCTCCTTGCCCTACTGGCTGTTGGAGGTAATCAACAGTCTCTACCACATTCTCCATAATAACCTAAAAAATTTTTGAAGACA
CTATGATTTGGAAAGAATAATTGTTTCATCTGTTAAGATATATACTATTCATGTATATATATGTGGTATAAATATTAGATTAAAATGAAGTGTTCTGACA
AAATTTTTTTATCTCAGGAGTACACCTCCTGTTCCCTCTAGATTTTGAAATGGTCTATTTTAGTTTGATCACAATGTAGTATATTTTAATTCATTAAAAT
AGATGTCTGGTAGGTGAGGAAGGCCTGATACATTGTAGGTTGGAAGCTCTTAATTAATTTATAAGTGAAATAATGGACCTTTTCTCATTCTCATTTATTA
GGAAATACTTCAGGCTGTGTCATCTAAGTTGCTGATTCATTCCAATTTTTAAAATTTGTTGTGGAAATGTTCACATTAAAAAAAATCAGCTCATACTGAC
CTTTGTGAAAYGCTTTAAAGAACTCTGTTAAAAAATGTTAGTTAAAAATAAGTTTTCTTGGGTTGATGTCCTTCAGAAACACCAATTTTTCTTAGATAAG
TAACTTCATACATTTTCATATAAAGTACATAGAAAAACCATTCCTAGTRTAGTAGAGCTATATTCTGAAAAAAAAAATTTTTTTAGACAAAATAAATCCC
CTTTCCTCTTCACCCTCCATCCCCATGATTCTGTGTATGTCCTGCTGAAAATTCATGTACTTGTCTAGCATGGGGCTTATAGTATGCTGTATGTAAGCAC
TAGGTRATGGTGCTGGTTAGTTATCCATTTGACATGCTGACCATTTTCTAATTTGAACAGTTCTAGCCATGTTGTTGGAATTAAAAATTTAGGGCCAGAC
ATTGACCTTTGCTTTTTTAACATTTCCTTTAGTGGTTAGCTACTGCCTTCCTCAACCCAGTGGAGACCTTGACAGATTCCCTATTACAAGTAATTGCTTC
CAGAGCTAGTTGTTATTCCTGTTAATTTATTTAGGGGCCAGTAAAGTTTAGTGCCTATATATATAAAAATATATATTTGTGTGCGTGTGTGTGTGTATAT
ATATATGTATATATATATGATTCCATCTTTAAAATAATGTATTTATTGATTTAATGATTTAGTTTTTATTTTTATACATTCAGCTTACTTAGTAAAAGGC
AAAAGATTTATACAGTCTGAAGAGAAACCAGAGCATGAGCTTACTTAGAATATAAAATCTCTTTAGTGAGTTTATATTAGCACTTTCTCTCACTTTCTGT
TTCCTAAACATCCTTTTTGTGTGACTAGCCTTATTTTTGCATTTCTTATAATTTTAAAAATTGTATCTTTATGTCGTATATTGTTAGTGAACTTTTATTA
CTGTTTTATGTCATTTTGGGTTTCCTAAATTTTCAAGTTTTTCACTGTAAGTCACAGTTCCAAGAGAAACAGATAAGTTGTTTCTAATCCATATTTTCCC
CAACATTTTATTTTAAGAATTTTGCAAATGGAAAGTGATATCAGTAAAAATGGCAGAGTAGAGAACTCCCAAGAGCTTGTTGCTCCACAGAGATACAAGA
AAATCTGTAAAAACAGTCCAATCAGCTTTTTGAATTCAGAAAATAGTCAAAGGTTTACAGCAACCATTCAAACATTTAAGAAAATGGGGCCTGAAACYCA
GGAGAAAAGATTTGTGGCATTTAAACTTACCCTCACTCTATCCTCCCTTCTCTGCCTCAGTGACAGGGGCTGGATGGAACAGAGTAGATTCTGTTCGCAA
AGAGGTGTGATTATTTGTTTTGACCTGCCTGGAGGATCCCTAATGCAAGGGACATGCCTTTATTTTGCTGAAATCATAACTCCCTCAGAACAAATTATCT
ACTAATGCCCCTTGGGGCAATAGATATCAATGGGAGTAAACAATGGACATGCCAAGAAGCCTGGAACAAAAGGCTGGAGGATGGAATGCTTTGGGGAATA
AGGGAGTTGAGAAGCTCCTGTGGATAATATGGGATCTAGAAAGTCCATTTCATGCGTAGGGTTAGACACCTACTCAGAAAAGATCTGATAAGAACCTAAG
CTTTTATGTCAGACTGACCTTCAAGCTCTGCAGAAGAGGAAGTGATGGCTAAGGCAAATTTTTAAATGGCCCAGCTAAGTTTTAGGCAAACTGCAAGCTA
ACAAAACAGTAAACACTTCCATGACCACATGCAACAAAGAATGTACTCTTTTCAGAAATAGCTTAGAAACGACTGTAAACAAACAAACAAAAACCTGATA
GGCAGCAACAATAATCCCTGGGGAGGAGTTAGAATCTGAGTTAGTTACCACATTATAATATTCAAAATGTCTAGTTTTTAGCAGAAAACGATGAGGAATG
TAAAGAAACCCATAAATTTGTTCCATCCACAAGAAAAAAAGAAAGTAATGGAAACTGTACTCAAGGAAGTCCAGACATTGGATTTGCTAGCCCAAGGGTT
TTAAATCACCATGTTAAATATGCTGAAACAGCTAAATGAAACCAGGAAAACAATGACTCTCCAAGTAGAGAGTATCAGTATGTATAGAGAAATGATGCAA
AGAAACCAACTAGAAATACTAGAGGGAAAACGTATAATAACTTAAATGAAGTATTCACAAGTAGCAATCAACAGCAGATTTGAACAGGCAGAAAATGAAT
GGGTGAACTTAAGTCAATTGAGATTATCTAGTCTAGGGAGTAGAAAGTCAAAAAGCATGAAGATGAACAGAGCTCAAGAGACTTAAGAGGCCTGTGYGAT
GACATCAAGTGCACCAACACACATAATACATATTCCAGGAGGAAAGGAGAGAGAGAAAGGGGCAAATAGAATGGCTGAAGAAAAAAATGGCTGAAAACTT
CCCAATTTGATGACACACTAATCAACACATTCAGGAAGCTCATCAGAATCTAAGTAGGAGAAATTCTGAATGCACACCAAGACACATGATATGGTTTGGG
TCTGTGTCCCCCCCATATCTCACCTTGAACTGTAATAATCCCCACATGTCAAGAGTGGGACCAGGTGGAGATAATTGAATCATGGGGGGCAGTTTTCCCC
CTACTGTTCTCATGATAGTGAGTGAGTTTCACAAGATCTGATGGTTTTATAAGGGGCTTTCCCCTTCACTCTATTCTCATTCTCTCTCCTGCTACCCTGT
TAAGAGGTGCCTTCCTCCATGATTGTAAGTTTCCTGAGGCCTCCCCAGCTATGCTGAACCGTGAGTCAATTAAACCTCTTTTCTTTATAAATTATCCAGT
CTTGGGTATTTCTTAATAGTAGTGTGAGAATGGACTAATACAGCACATAAAGATCACATTTTCAAAAGCTAAGGACAAAAAGAGAATCTTGAGAGCAGCA
AGAGAAGTGACTCATTATTTACAAGGTTTCCTCAATAAGATCAACAGCTAGTTTCTCATTAGAAACCATGGGGCCAGAAGGTAGTTGAAGAACCATGTTT
GAAGTGTTGAAAGAAATAAAAAAGTCAACAAGTAAGTTCTTCTTTGGCAAAACTTTCCTTCAAAAATGGAGAAATCGGTACATGCCTGTATTGGTATAAA
CAGTCCAATGTTTTAGATGCATTTCAAAGTAAGATGCAGACATCAGTACACATTACACCTAAACACTTCAGTATGTATATCATTAATTAGAATTCAATAT
TTGTTTATGATTATTTTCCTTTTGTTGACATAAAATTTTCACAGTGAAATGCACAAATTTTAGAGTTTTGATAATTGCATGTATGTTAGTAACACACACA
AACCCTTTTCATTATATGAAGTATTACTGTTGTGCTTCCAAGTTAGTTGTTTGCCCTCAGATGCAAGTATTGTTTTAATTTTTTTCATTATAGTGTTGTA
TTCAAAAAGTAAAGGATTTGAGGTATTACCATACTCCTGCATTTATACACACACACACACACACACACACACACACACTGAATATATGGCATATGTTTAG
TGTATGTACACACACAAAAGCAGAAACACTGATGTGTGGATCAGAGAAGAGACTTTTTATTTACTCATGGTTATCTTAGTGTCACTTTCCTGCACTTCAG
TTCCCCATGAGGGTGATGTTATGAGGGTTAGTGCCATCTGTATATCTTGGGGGATGGGGAGTTGTAATACAGGAGAGGAGCTCCTCCTAAATAAATGAAT
CTCAGAATTTATATAGGATTGTGTATGTAGTCCATTTTCATGCTGCCAATAAAGACATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTTCAGTGTTATTTTGCTGAATAATAGTCTAT
TGTATGAATATTCCATAGTTTATCCATTCTCATATTAATAAATACTGGGCTATTTCCAGTGTTTTGCCTATTGTAATAAATCTGTTAGGAACATTCTTGC
ACAAATCTTTTTATGTTTTTGTATATGTTGGGTCAATACCTAGATATAGAATTATTGGATCATAAGGTGGATATATTTTGGTTCYGCAAGAACCTGTCAG
TCTTTTTCCCAAAGTAGTTGTATTATTGTTTTAGTTTGCTACAGTTGCCATGACAAAATACCACAGATTGGGTGGCTTAAACAACAGAAATTTATTTTCT
CACAGTTCTGATRTCTAGAAGTGCAAGATCTCAAGGTGTTGGCAGGTTTGGTTTCTCTTGAGGCCTCTGTCCTTTGCTTACAGGTGGCCATCTTCTCACT
GTGTCCGCATATTCCTAGGGTTTTCCTGAGTATCCAGATTTCCTTCTTTTATTAGGACACTAGTCACATTGTATTAGGGCCCACCCTAATGGCCTCATTT
TAATGTAAACACCTCTTTAAAGGCCCTGTCTCCAAATATAGTCATATTTGGAGGTTAAGGCTTCAACRTAAGAATTTAGGGTTGGGGGGCACAGTTTGGC
CCATAACAACCAAGCTGTAAACCTTACAGTGACATATGGAGATTTTGTTTGCTCCACATCCTCACCAACATTTGGTAACGTTAATGTTATTCATTTTGGC
CATTCTGTTGGGTTTTCTGATATTTTAAAATGAGTTCTCTTAGTGGTATTCTAATAAAGAATTATTCAATACTTTTTTGTTGTTGTTTTTAATGAGGCAG
GGTCTCTGTTGCCCAGGTTGGGGTGCAGTAATGCCATCTCACTGCTGCCTCAACCTCCCAGGACCAAGTGATCCTCCTATCTCAGTCTCCCAAGTAGCTA
GGACTACAGGCACACACTGCCATGCCTGGCTAATTTTTTGTCTTTTTAGTAGAGATGGGGTTTCACCATGTTGCTCAGGCTGGTCTTGAACTCCAGAGCT
CAAGTGATTCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGAATAACTATTTAATTCTGAGATGGTTTGAGGTTAGAAAACTTAGTCCTTTTATCC
TCAAAAACCATAACTAGATAATTGAAGGGTTAGAAAAAAATCAAAAATCAAGGTTGGAGCCTCCTTGAACCCTTCTGTTACACACCCATTCCCCTTGTCC
CCCCTCCCCCTGCTTGGCAGTCACAGATTGCACCCATTTATGTTTGAATGATGACTCCTGTACACCCATGGAGCTGTCATCTTTGCCTCCAGTGCCACAG
GTGTTTGTGTAAGCATATGTTTTCATTTCTGTAGGGTTCTATAGTAAGCATGTGCCCTTCCCCGTCTTACCTCCAGTGGTTACTCTCCAAAGGCAAACAG
ATCTCTTTTGGCTTTGTCTTCTACTGGTTATCTTCATATTTTAAAAAATAACTTGTTTATATGATTTTTTTCCCCAGTGACTCAGTGTATCCTATAATTT
AGATACAAGAATATTTTGGAAATAATGAAGAATAAATAGTCCCTTTTTGAAACTTTATATAAAAACCTTTTATATTCCAATTATTTCTGTTTTTTCTTTT
TTAAAATGTTAAGTTGGTGTTTTGTGGAGATCTAGTTTTCTACCCTCCCTTTACCTAGAATATAAGTTTTTTTCCTGTTTTATGTATTAAGAGTTCTTCA
TAGTATTAAACAAAAGGAACTTTTAATTAATCGCCCTCCTTCTTAGGTTGTCCACAAATATTGTAAAACCTCTGCTTTAACCCATTTGTTTTTATGCCCT
AGAGGAGAATTAAACATCAGTTTCAATTCAACACACATTTACTTTCCTGTCTCTAATATAAACTTTTTATTTTAGAGATTAAGGTATGGAGAGAATGAAT
ACATGAGGAATCATGATTAGTTCTACTTAGGATCATTGTAATTTTGTTTCATAATTTATGATCAAATGAAAACTACTCTAAAATGAATTTTGCTTAACAA
AAAATGTTTCTATTTTCTTCCCCATCACTGGATCTACATTATTTAGTTTTTAAATAAGTAGGACCCTTATTTCTCATGTCTTGAAACCCTTAGACCTAAG
TTCAACATGTTTCATGAGCATATTTTATTTCAGAAAATTTGAAAAATGCTTTATTATAGATCCTCTAGATTTCTCAGTACAAAGTTTGGAAACTGCTGCA
TTCAGAAAGCTTGTTTCTTACATACTAGAGCTGAATCTAGTCATAAGAAATGAGATGTGTTGTGGGCAATTGAACACTGAAGTTTCATAGTGGCTCAACA
CAAAGTTACTGTGCACAGGTGTTTCTATAATTGTGATGTATTGGGGGAGATTCAGTGTTCAATGGTCCTCAAACCCACACTTCCACCTGTGTAGTATAGT
GGTCACTGGGCTGTGATATAAAACATGTAAAGTGTATAGCATAGCAGTTTCTTCACAGAAGGAAAAAAAATCTCAAACCAGTATGCATATCCTTTGTTGT
TTTACATAGACACAAATTTTGGGGAAGGAGACTTTTTCTTCTTTGTGAAAAATACTAAATTAAAAGTTTTATTAAACGTGAATTTTTTTCCAGTGAATTA
TCTCTAATAATGTATTCTCTTCCTGCTTAGTAACTAATTTGACTGAGTGATTATTATATTAGTTACCACCTACCCACCCTGGTCTTGTCAGGTACATCTA
ACCTAATGTCAGAGAGATGTAACACAATATACTGCTGTGGTATGTGCTATGGACTGAATGTTTGCATCCCCTCTGAGTGCATATTTGAAGACTTAGCCCC
AGGGTGATGATATTTAGAGATGGATAAAAGTTGGTATTCTTAAAGGCAATGCCTCAGGTTACTTTAGCTTTTGGGAGGTAATGAAGTTTAGAGGAAGTCA
TGAGAGTGGGGACCTCATAATGGGATTAGTGCCCTTCTAAGAAGCTTGCTTCCTCTCTTCCACCATATGAGGTAGCTGTCCACACACCAGGAGGAGGGCC
TTCACCATGAATTGAATCACCTGCCCCTTGATCTTGGACTTTTCAGCCCCKAGAACTGTGAGAAATAAATGTCTCTTGTTTCAGGCACCTACCCTGTGGT
ATTTTGTTATAACAGCCTGAGTTGACTAGTGCAGTGTCTTAGATTATGTGGGAATGTCATGATGTGTTAAAGTCACTTTTAAACATTTTGCAAGAGTCTC
AGGCCACAGCAGGTTGCAGAGATTGTTTCATCCTGGTGTAAATCTTGAGATGGCACTAGCACCCTTCAGGCTGCCTTGGAATTCAGAAGGCAAGTGGGTA
TATTCAGTGTCTTTTATGTGACTACTCTAAATGCCAAGGTAATAAAGGTGAGAGGTGACAGGATAAAGAATAATAATTCCCGAGTTCAAATCCTGGCTCT
ACCATTTTTAATCTCTGTGACTATTGATAATTTATGTAAATTGTGTGCACCTCAGTTCTTTCATCTGTGAAAAAGATAGTAAATACCTGCTTTGTTTACC
ACATGGGGTGGTTCTCAGGTTTCAAAGAGGTATTTGTGCAAGTGTTTTATTAATACTAGAAGTTTCTTAAGCTGAAGTTGTTTTTTATTTCTACTAAGTC
CATTGTTACTGCTCACATGATACAAAAGTAGATATTTTTCAGGAATGTTTGATTCCTTTATCAATTTTTATACATAAAAATATTTTGCTGTAGGCAGTTT
TAACTGTCATTAATTTCATTTTTTATTTTTCTATTATTCCTTATGAACTGACAAAAGATCATAGTTTGTGTTTATTTCTTAGGAAATCCATTCAGATAAA
ATAAGTCTCCCTGTATCTTAAGATCTCTTTGAAAAGTAAATATTACCCTCAGCACCCAAAATTGTGGGTTCAGTTACTGACTTATTACTATTTTTGTGAA
CATTTATGTTTAGAGCTTCAGATACAAAATATGTAGAAAGTACTACTACTTAAGTATAATTTCACACTTTTCTTTATTCCATGAGCCTGTGGAATAGTAC
CTTAAGAGTATATAAACCATGCCTTTTCCAAAATATACTTCATGGAGTTATTTTTTGCCTTCATAAAGCTTATATGTAATGTAACAACGTTTGTCTCTTC
TGAAAGTGAATGTTTTAGAGCAAAGTGAAAAGCTATATTTTATTCTGATTTTTTTTTTCACTAGCATTAGGGTGGTTGGTAAACATAGCAGAGAGAGACC
TATTTTTATATAAGATAGGTTCAGATATATTAAACTCACTGCTTTCTTAAAAATAAAAATAAGCTTTATTTTTTGGAGCAGTTATAAGTTTACGGTAAAA
CTTAGTTGAAGGTGCAGGGATTTCTTATATATCCTCTACCTCCACACATGCAAAACATCCCCCACCATCAACATTTTACATTACGATCAATGAATTTACA
TTAATATTGTTGTCACCCAAAGTCCACAGTTTACATTAGGGTTCATCCTTGGTGTTGTACATTCTTCGGATTTTGTCTGATATATGATAACATGAATACA
CCATTGTGTTTTATCATACACAATAGTTTTGCTGCCCTAAAAATTCTCTATGCTCTACTTGTTCATCCCTCCCTCCCCACCAGCTCCTGGCAGTCACTAG
TCTTTTTAATGTCTACATAGTTTGCCTTTTCCAAAATATCATATAGCTGGAATCATACAATATGTAACCTATTCAGATTGGATTCTCTCACTTATATTGT
AATATGCATTTAAGTTGTCTCCATGTCTTTTCATAGCTTGTTAGCTCATTTATTTTTAGCACTGAATACTAGTCCTTTGTCTGGATATACCACAGTTTAT
TTATCCACTCACCTACTGAAAGACATTTTGAGCACTTTCTAGTTTTGGCAATGAGGAATAAAGCTGCTGTATCCATGTGCAGGCTTTTGTGTGGACATCT
TTTCAGCTTTTTTGGGTAGATATCAAGGAGTGTGATTGCTGGATTGTTTGGTAAGAGTATGTTTACTTTGGTAAGAAACTGCAAAGTTGCCTTTCAGAGT
GGCTGTACCATTTTGCATTCCCATCGGCAATGAATGAGAGTTCCTGTCACTTTATATCCTTGTCTGTATACGGAGTTATCAAGTTTCTGGATTTTGTCCA
TTCTAATAAATGTGTTATAGTATATCATTGGTTTTAGTTAGCAATTCCCTAATGACATGGTTTTGAACATGTTTTTATATGTTTATTTGCCATTTGTGTA
TGTTTTTTGGTGAGGTATCTCTTCAGGTCTTCAGCCCATTTTTAAAAAATTGGGCTGTTATTGTTGAATTTTAGGAACTCTTTGTATATTTTGGATAACA
GTCCTTTATCAGATATGTCTTTGGCAAATATTTTCTCCCAGTCTGGGCTTGTCTTCAAATTCTTTTGACCTTGTTCTTTTGCATAGCAAAAGTTTTAAAT
TTTAATGAAGTCCAGCCTATCAATTATTTCTTCCACAGATCCATGNNNNNNNNNNNNNNNNNNNNTCTTCCCCCAGATCCCATGTCTTTTGTATTGTATC
TAAAAGTTGCCATACCCCAAGGTCAATCTAAGATTCCTATGTTAACCTCTAAAAGTTTTATAGTTTTGTGTTTTACATTTAGGTCTGTGACCCATTTTGA
GTTAATTTTTGTGAAGATTGTAAGGTCTGTGTCTAGATTTATTTTTATTTTTATTTTTATTTTTTGAGATGGAGTCTTGCTTTGTCGCCCAGGCTGGAGT
GCAGTGGCATGATCTCAGCTCAGTGCAGCCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATAACAGGTGTGCATCA
CCACACCCAGCTAATTTTTTTGTATTTTTATTAGAGACAGGGTTTTACCATGTTGGTCAGGCTGGTCTCTAATTCCTGACCTCGTGATCTGCCCTCCTCA
GCTTCCCAAAGTTCTGGGATTACAGGCGTGAGCCGCTGCGCCTGGCCTGTGACTCTTCGTTTGTTCCAGCATCATTTGTTGAACGACTATCTTTTCTCCA
TCGTATTGTCTTGGCTCTTTTGTGAAAGCAGTTGGCTGTATTTATGAGAGTCTGTTTCTAGGCTTTCTCTTCTGTTCCACTGATGTTTTTCTCTGTTATT
TCACAAATACCACACTGTCTTGATATGTGTAGCTTTACAGTAAGTCTTGATTATGGGAAACTTTAAACATACATAAAAGTATGGCTGACAGTTCAACGAA
TCCCTATGTATACATCACGTAGCTGCACTGTTCATCAGCTCATGGCTGCTCTCGTTTTGCTACCTTACCCCATTCCAAGATTTCATGTAAAATTTTAGAT
ATCATATAATTTCATTTCTATTGAGAGTGTATTTATAAAACATTATCTTTGCTTTAAAGAAACTGCAAAGCCTTCTCCAGTATAAATTGGTCCCCATTTT
TTTAAATTTTTTTTTTTTTTGGTTTGGTCCAGCTTAAATGTATATTTTTAAAGAAACTAAAAAAAGTATTCTATGGTAGTATTTCATTTCATACATGTAC
ATATTTTAAACATGGAAAAATAAAACATTCATTTATAAATAGAACATTTTATACTCATTTTATGAAATAGTTTTATCACATATATTTTAGAGACATTTTG
AGGACTCCTTTTTGAGTCATTTTCATTTAATAGTTTTCCATTGGAAAGCATCTTTACTTCTGTCTGGATTTTTGGAGATACACATTACCTTGGAATATGG
ATACAATGCTGTMATAGAAATATGTTTCAGACTTTGAGTACTCATTCACATGATTTAGCATAGTCACTTAGAATTATTTTGTAAGGAAGATCTGTCATTT
CTCCCTCATTTATTTATTTATTAGTTGTTTTAACTGCCTTAGCTCTAGAACCAGTCATGTTTCCATGTAAAAGAGCAGGTTTTATGGCCTTAGAAGTAAT
GTTTTCTGTCTTAGATTTCAGTCAGATGGTTCTGTCTTTTTGTAATAGTAATAGTATTATATTGGAGCAAAGTTGGCATTACTTAATGGTTGTATAGAAA
AACTGAAACCACAATATAAAACATTTTAATTAGTACGAATTAGAAATCCCATGTATGATAATGCCTCATTTCTGTAGGCTCAATAGAAACAACATGTATA
ATAATTGATTTTTTTAAACCTTTTCATGCATTTGTAAAACACATTTTTCTTGTCCCTTGGCAATGGAAAATATAATTTTTACTGTTTTCTTTTAAAATTG
TGTCTTTTATTATCTGTATAACAAGAAATCAGAATATCAAGATGGTTGAAATGATATGCATAATATACTAAAAATAAGGGCTTCATACATAAAATAATAT
TTAAAGGCTTCATAACAGCCATGCTAGCTACATAAGGGGTTTTTCTACTTTGTTTCAAATTCATAGATGTATTAATTGAGACTGCCTAATATCAATGTCT
AGTTAAGAAATATATTTGGGCCAGGAGTGGTGGCTCACGCCTGTAATCCAGGCACTTTGGGAGGCTGAGGTGGGCGGATTATGAGGTCAGGAGATTGAGA
CCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGAAAAAATTAGCCGGGTGTGGTGGCAGGTGCCTGTAGTCCCAGC
TACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGCTTGCAGTGAGCGAGATCACGCCACTGCACTCCAGCCAGGGTGACAGAGCGAGACTCT
GTCTAAAAAAAAAAATATATATATATATATATATATATATAAAAATATATACAAATATTTAAAAATATGTAAATATATAAATATTTAAAAATATATATGT
AAATATATAAATATATATAAATATGTATATATTTGAGGATATAGAATAAGCTCAGAAGATTAAGCAGTTCTACTAAAAACAGAATATTTCTAAAAACTTT
CAAATACAAATGGAGGGAATATTAAAATTAGATATTAGAATTCTCTTTTGTGTATATGAAGTATGGTTAGTATACCAAGTGGAATAAGTGGAAACTTACT
ATAAAGTAGATTTCAAAGTCTTTCAAATTCATTTATTTTTACTCTTAAGCAGACTAAACATTTTCCTTAATATATCTTGTTTGTCTTATTTAACTATTCT
GTTTCTGGACAAGGAGAAAGTAAAATTCATTTCATCATATAGTTAACATGTTAAATAAGAATGATTACTTTTAAAACCATTCAGAGTCCTCTCAGATATA
AACTTTGATTCCTCTACTTAACTTACTTAAGTATCTAGGCTATTATCTCTAACAGACCACAAATCTTTATCTGATATGTCAAAAGTATCACAAAGGTAAA
ATCAGTTAAATTGAAATTTTTAAAATATTACTGAATTTAAAGAACTCTGTAAGTGGTCACTGAAAGTCTAGCACTTTATTTAAACACAATATAAAAATAT
ATCTGAGTTTTCTGAAAAATTGTGTTATGTTGCATTATCTGCCGTAAAGCTCGATCCTACCACTTAATTCCTTGAACATATTAATCATAGTTGTTTTATA
GTCTGTCTTAGTTTGGGCTACTGTAACAAAAATGTCCTAGATTGGATGAGTTAAACAACAAACATTTATTTCTCACAGTTCTGGAGACTGGGAGTACGGG
ATCAAGGCTCTGACAGATTTGGTATCTGGTGAGGGTCTACTTCTTGGTTCATAGATAGATGACTGTCTTCTTCACATGATGGAAAAAAGGCCAGAAAGCT
CTCTGAGGTTCATTTTGTAATGCCACTAATTCCATTTATGAGAGTTCCGTCTTCATGACCTAATCACCTTTCAAAGGCCCCATCTCCTATCCTAATACCA
TCACACTGGGGATTAGGATTTCTTTCTTTCTTTCTTTTTTTGGAGATAGTGTCTTGCTCTGCCGCCCCAAGGCTGGAGTGCAGTGGCGCAATTTTGGCTC
ACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTTCTACCTCAGCCTCTGGAGTAGCTGGGATTACAGGTGTGTGCCACCATGTGTGGCTAATTTTTGN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCAACGTGGAGAAACCCTGTCTCTACTAAAAATACAAAAT
TAGCCGGGTGTGGTGGTGCATGCCTGTAACCCTAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAG
ATCGCGCCATTGCACTCCAGCCTGGGCAATAAGAGCGAAACATATACTGCAAATGACTATATATTTTCACAAACTGAATACACCTATGTATCAAATACCT
AGATTGAGAAACAGTAATTATCAGTATACTTCATAAGCCCCCTTCTTGATACCCTTCACTTAATAATCTGCTTTTCCTTACAGAAGGAAACAGTATCCTT
ACCCTTAGTGATACCAGCATTTCCTTTCTGATAAGTTGTTGGACTAGTTTGAAGCTTTGGATGATGGATTTTGTTCTACTTGTGGTTCTAGGGAATGGAT
TCAACAATCTTGAGTTCACTTATCACCTCAATTATGGATTGAGATGATTTAAGCTGGGCTTTTATCTGACCATCGTTACTCCCCAAGACATAGATTTTAT
ATTTTAAACCAAAGACTAGGAGAGTTAGCAGGATTGTAATTTTTGGCGGATCCTGGCCTCACCTTTTGTTACTGCATTTTTGTTAACCTGCTGAAAGCTC
TACTGAGCTTTTAGGCCTCTCAGCTTCCTCTTGTCTAATTAACACATCCTTTTTTTTTTTTTTTTTTTTTTTGGGGAAAAGCAATTCCAAAAGCCAATCA
GAATTCTAGGTTTCTAGATTTACTACTTCTTCTGGGTCTTGTCTGCATAATTCATCACTGTTTTTTTAGCCCTCCAGTGCCTTCTAACAGGTTTCTTAAC
TTTTCCCCAGCTTTTCTAGTTCTCACTGACAGGCGGTTGTTCTAAGTTGTCTGTTTAGCCATTCTTAGAAATAGAACTATATAATCTTATATTATGTGTT
TTTAAAAAGTGTTCTCTAAAGGCTTAGTTAAAAATGACATCTTTTATCACTGTGATTTGTGACTCCTTTTAAGCATCCATAACTAGCATTGATTGAAGTT
GTTTCAGTGTAATGAGTTCCCCAAACAMTACATTATGGTTCAAAATGAAGCAGTTGTGTAMGAGCCTCATAATACATTTATAAATCCTCAAGTATGAGGC
AACTTCTTTCTGAGGGATAATTTTAGGGGGGAAACTTTTTTTCATATTTGGCATCTAGGGATATTGAATTTGAGGCATAGTAATAGTTTCAATTACATGG
CTTCTAGAAAGAAAGTTTCTTAATAATAGAAGCAGTGGCAATAGCTACTGTTTGTGTACTTTAATTTGTATCAGGCACTAAGTGCTTGTATAATGTTCAA
TAAACTGATTCAATCTTTATAAACACTATAATGATATAGTTACTGCTTTTATAGATGAGTAAACCAAGACAAGGAAAAAAATCAAGACAAGGAAAGGTTG
AGTGATTTGTCATGGTCATAGAGCCAGCACTTATATTGAACTGGTGTGTCCAGATACACCCATATGCTGTGTACGTATCCATTCTGTTTGGACTAATGCC
TGTTCTGATTCATTAAAAACCTGAGAAACATAGTCCACAGTAGTACAGATTCAAATATGTTGTTGGAGATTCATTCTTGTCCTCCAAGAAAGCCTCATCT
CCTTCATTTCATTAACCTCATAAAAACGTCCACCCTTCACTTGTCAATTTTTTCTCTGCTTGGTTCCAACTTAGAGAATTATGCAGTTGGTACATGCCTA
TAGCTAGTAACTGGGAGAGCCGGATCTAAGAAGCTGTGTCATGATGTTCTCATGGCAGTAGAACCAAACTGAAATTTCATAAAAAGTATAAGAGAATTTC
TTCTGAGGGGAATGTTTTTAAATGATAATTAACATGAACTATTTTAGCTATAAGCAACATGTTCTTCATGTTTGTTAGCTCATAATCCCATTATAAAAAC
TTTGTTATTTCAAATAATCCCTTTTATTTTAGGAAATTACAATTTCTGTAATATTATATGTTAATTTGTAGAAGTTTTATTAGTAGCAATATAAGATCAT
TGAATCATGTGGAAAAGATACTAATGAAAGAAAATTACTCTTTTGAAATCTTTTTATTATTAATATTTTATTAGTTTGCATAATTTTTATTTTTATTTTA
TTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTGAGATGGAGTCTTGCTCTGTCATCCAGTCTGGAGTGCAGTGGCGTGA
TCTTGGCTCACTGCAACCTCTGTGTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTTGGACTATAGGCATGTGCCACTATGCCTGGCT
AATTTTTGTATTTTCAGTAGAGATGGGGTTTCACCATGTTGGGCAGGTTGGTCTTGAACTCGTGACCTCAGGTGATCCGCCTGCCTTGGCCTCCCAGAGT
GCTGGGATTATAGGTGTGAGCCACCATGCCTGGCCGCATAATTTTTTAAAACTGTAAAAAAATTCATCAATAGGAAGCAGTTGCATCAATTGTGAACCAT
GTATGTTATGAAATATTACTAAATTTTAATAAGATAGTGATTCATCGACCTTTAATTATAGTCATTAAAAATGCCATCCTTTCAATTAAATACATATTGA
AGAAATACAGTAGTGCAAGTAATCCTCTGTAAAGTGTTCATATTTTTGTAAATGCATATTAAAATCAAACCATATAAAAATGTTTCTTATGGAAGTGAAC
TCAAAAACCTATATGATGGTATGTTCATAGAGGACACTATAGAAACATTTACATAAGTTTAAAAATTTTTTTTTAAATAATTTTATTATTATTTTTTAAG
TTCCAGGGTACATGTGCAGGATGTGCAGGTTTGTTACATAGGTAAACGTGTGCCATGGTGGTTTGCTGCACCTATCAATCCATCACCCAGGTATTAAGCC
CAGCATCCATTAGCTCTTTTCCCTAATGCTCTCCCCACTAACCCTGCCCTGACAGGCCCCAGTAAGTGTTGTTCCCTCGCTGTGTCCATGTGTTCACATT
GTTCAGTTCTCACTTATAAGTGAGAACGTGGTGTTTGGTTTTTTGTTCCTGCATTAGTTTGCTGAGAATGATGGCTTCCAGCTTCATCCATGTCCCTGCA
AAGGACATTATCTCGTTCCTTTTTATGGCTGCATAGTATTCCATGGTGTATATGCACCACATTTTCTTTATGTAGTCTGTCATTGATGGGCATTTGGGTA
GATTCTGTGTCTTTGCTATTGTGAATAGTGCTGCAGTGAACATTTGCGTGCATATATCTTTATAATGGAATGATTTATACTCTTTTGGGTATATACCCAG
TAATGGGATTGCTGGGTCACATGGTATTTCTGGTTCTAAATCTTTGAGGAATCAGCACATTGTCTTCAACAATGATTGTACTAATTTATGTACCCACCAA
CAGTGTAAAAGCATTCCTATTTCTCCGCAGCCTGGCCAGCGTCTGTTTTTTGAGTGTTTAATAATTGCCATTCTGAGTGGTATGAAATGATATCTAATTG
TGGTTTTGATTTGCATTTCTCTAATGATCAGAGATGTTGAGCTATTTTTCATATGTTTCTTGGCTGCATGTATATCTTTTTTTGAGAAGTGTCTGTTCAT
ACCATTTGCCCACTTTTTAATGGGGTTGTTAGTTTCTTGWAAATTTGCTTAAGTTTCTTGTAGGTTCTGGAWATTAGCCCTTTGTCAGATGGACAGATTA
CAAAAATGTTCTCCCATTCTGTAGGTTGTCTGTTTGCTCTGATGATAGTTTTGTTTGCGGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAAT
TTTTGCTTTTGTTGCAGTTGCTTTTGGCAATTTCATCATAAAGTCTTTGTCCATGCTGATGTCCTGAACGGTATTGCCTAGATTTTCTTCTAGGGTTTTT
ATAGTTTTGGGTTTTACATTTAAGTCTTTAATGCATCTTGAGTTAATTTTTGTATAAGATGTAAGGAAGGGATCCAGTTTCAGTTTTTCACATATGGCTA
GCCAGTTCTCCCAGCACCACTTGTTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTGTCAGATTTGTTGAAGATCAGATGGTTGTAGATGTGTGGTTT
TATTTCTGAGTTCTTTATTCTGTTCCATTGGTCTATGTGACTGTTTTTGTACCAGTACCATGCTGTTTTGGTTACTGTGGCCTTGTAGTATAGTCTGAAG
TCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTTGCTTAGCATTGTCTTGGCTACATGAGCTGCTTTTGGTTTCATATGAATTTTAAAATAGTTTTTTC
TAGTTCTGTGAAGAATGTCAATGGTAGTTTAATGGGAATAGCATTGAATCTATAAATTGCTTTGGGCAGGATGGCCATTTTCATGATATTGATACTTCCT
ATCCATGAGCATGGAATATTTTTCCATCTGCTTTTGTCCTCTTTGATTTCCTTGAGCAGTGGTTTGTAGTTTTACTGTTATAATATACTGCCATAATCTT
AAACATTTGTACAGCAAAATAAGCAATACATATGTGTCTTTCATTAAAATAATGTAATTGAACTCAGTATGTTAATTAACAATGAGGAAGAAATGGAATG
AGTAGATGGTTATAAAAAGCAGTTTTTTATGTACATTTTGATGATTTTGTTAGTAATAGTGCTATGTCTGTTAATACAGCACTTTCATTATGTATCACTT
TCAGGTAGAGTTTGAACATTTGTTTAATTAACCATGACTTAAGATTGTAAGTGAGTGCTTATGCTTAGAGCATTTAATTATTTGTGTTTTATTGGTTTAT
TAATGTACTTAACAGAACTACTTTAGCCTGGAGCTCCATAAAGGAATAGTCACTCAAGTCCAGCTTTGATATAAAAGTATATCTCACTTATAGTCTTTTT
ATTAAGCACTAAAAGACAAGTAGTGTGTTTGTTTTGAATTCTGTATTCAAAGGAAGGTGATAATGTTATGATTTCTAGTTTAATTTTGAAGATGAGTATT
AGTAGAAATACTTTTGTTTTCAAAGAGTATAAATTTTGTGAGTTTTCTCTGAATAATTTTATAAGATTTTTTTGCCTGTGGATTTAAAAAGCACTGAGCT
AATATTATTCCTATTCTGAGAGACCTAAAAGTTGTACTTTTGATGAAAGGTGTTTTCCAGTGATATTTATGTCAAGATTTAAGGAAAGATTGTGTAAAAT
CTGTAGGCACCTAGCAAGGGAAAAATACTTAAGTGATATTAACCTAAAACATTTTAGATAATTTTCTTTATTGTTATGTATAACAATGCATAAATACAAC
AAATTGCTTTTAAGTGACTTACTGATTTTTATCTCCTTAGTTTTATTCAATTAAATGGTTTTTAAAAGATAATTTAGATTCACATGAAATTTTAAGAAAT
AATTGAGAGAGATCTGGCATAACCTTTACTCAATTTTCCCCAATGGTAATGTCTTGCAAAACTCTAATACAGTATTACAACCAGGATATTGACATTGATA
CAGTCAAAACTGAGAACATTTCCATCACAGGGAATCTTCATGTTGCYGTTTCATAGCCAAACCGACTTTATTCCACATGTTTAACCTTACTCCCAACCCT
TAACCCCTGGCAACTGCTAATCTTTCTGTTTCCATARTTTTGTTATTTCAAGAATGTTATATAAATGGAATTATATGGTATATAACCTTCATTGTAGATT
ATCCATTTTGTCATTCTATAATGTCCTTCTCTGTTGTAATTTTCTTTGCTCTGAAGTGTACTTTATCTCATATTAATATAGTTATTGTGCTTTCCCTTGA
TTAATATTAGCATGCTATGTATTTTTCCATCTTTTTACTTTTAACCTGCCTTTATCTTTATGTTTATGGKGAATTTCTTATAGGCAGCACATAGTTGAGT
CATGGGTTTTAATCTACTTTGCCAGCCTTTGTCTTTTAATCAGCATACTGATTTACATTTAATCTAATTATTTATTTTTAAGGCTTAAGCGTCCCATTTA
GTTTTTTGTTTTTTGTTTGTTCTCTCTAGTCTTCATTTCTCTTAACTGTGGGTTATTTCAACATTTTTTAGAATTCCATCTTTGCTTATCTGCAGTTAAT
TTGAATATATCTCTTTTTTTATTAATTAAAACCTATTTTTTTGAAATTTTTTAGAGATAGGGTCTCACTCTGTCACCCAGGCTGGAGCACAGTGGCTTGA
TCATAGCTCATTGAAGCCTCAAAGTATTGGGCTCCAGTGATCCTCCCACCTCAGCCTCCTGAGCAGCTAAGACTATGGGTACATACCCCCATGAATGGCT
GAGTTTTGTTTTATTWTTTTACTTGTAGTAGAGGCAAGGTTTTGCTCTGTTGCCCAGGCTGGTCTAGAACTCCTGGCCTTAAGTAATCTTTCTACCTTGG
CCTTAAGTAATCTTTCTACCAAAGCACGAATATATCTCTTTGTGCAGCTTCTTTAGTGGATGCTGTAGGTATTACATTTTACATGCATAACTTATCATCT
TACCATCACAGTCTACTGATGTCCTCATGTTACACTTCAAGGGGCAAACTTTTTAACCACTTAGCTCCCTTTGATCTCTTTTTTCTCTCCACTTTATAAA
TAGTTTTCTTAGGTATGTCCTTTACATGCATTTAGAACCGTATCAATGTTATAACTTTTCTTCAACCATCTAATATAATTTAAAAGACTCAGAGGAGAAG
GAAAAACTATTATATGTACTCATATTTTTCCTTGCCATATTCTTTCTTCCTTCCAGATGTTTGAAGATTCCATCTTTTATCATTTCCTTTCTGTCTAAAG
AGCTTCCTTTAGCCATTCTTTCAGGATAGGTCTGCTTATAACAAATACTCTAGTTCCCCTTTATCTGAAAATGTCTTGATTTTCTCCCCCTTCATTCCTG
AAATATATTTTTGCTAGATATAAGATTCTCTTTTGATAGTTCCTCTCCATCAGTTGGTCTACTGTGTTCTGTCCTCCATGGTTTTTGATGAGAAATCTGC
TGTCATTAGACTTGTTTTTCTGTTATTGGTAAAGTGTCATTTCTCCTTTCCTGCTTTCAAGATTTGTTTTTCTTTGTCTTTAGTTTTCAGAGGTTTTACT
ATAATGTGTGCTGTTTTGGATTTCTTTGGGTTTAATCCTGTTTAGGGTTTACTCAGCTTCCTCAATTTGTAGTTTTATTTGCCAAATTTAAAAAGTTTGC
AGTCATTATTTCTTTGAGTTCTCTTTCAACTCTTGCCTCTGTCTCTTCTCCTTCCAGGATTGATTAATAGATGAAAGGAATGTTAGGTCTTTTGTTGCAT
TTTCACTGGTCCCTGAGACTCTGTTTTTTTTTTTTTGAGACAGTGTCTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGCCAATCTCGGCTTACTGCAATC
TCTGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCACCACCATGCCTGGCTACTTTTTTGTATTTTTTT
AGTAGAGGCGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCACCCGCCTCGCCTCCCAAAGTGCTGGGATTACAGGCATG
AGCCACCGCACCCGGCCTGTTTTTTAGTTTTGATTTTTTTTGTCCCTAGTCTATTTTATCTTTGTTCAGATTGGGTAAATCTTGTTGTTCTGTGTTCCAG
TTTACTGATTATTTCTTTTGTCCCCCTCCTCTGCTTTTGATCCCATTCATTAGGTTTTTAGTTTTGGTTCTTGTATTTGCCAGTCGTTAACAGTTTTTAT
TTGGTCTTTATATCTTCTATTTCTTTCTTTAAACTTTATAATTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCA
ATCTCCACTCACTGCAACCTCCGCCTCCCAGGGTTCAAGTGAGTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGATTACAGGCGTCCACCACCATGCCTGG
CTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTCTAACTCCTGATCTCGTGATCCACCCACCTCGGCTTCCCAAART
GCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCTTTTTTTTTTTTTTTTTTTTAAGATGGAATKTTGCTCTTGTTGCCCAGGCTGGAGGGCAATGGCG
CGATCTTGGCTCACTGCAACCTCCGCCTCATGAGCTCAAGCAATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGATTACAGGTGTGCCCCACCAGCCAGG
CTAATTTTGTATTTTTAGTGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAGAGT
GCTGGGATGACAGGCATGGGTCACTGCACCCAGTCTAGACTTTATAATTCTTTGCTAAAACCTTCTATTTCTGTATTTTTTACCAGGATGTTCTCAATTG
CTCATCGAAGCATTTTTTAATGATTTTTAAAAAATAATCAGATCATTCCAATATCTCTATTATCTTGGTATTGGCATCTGCTAGTTATCTATTTTTATTC
AGTTTGAGATCTTCCTTTCTCTTGGAATGATGAGTGATTTTTTAATTGAAACTTGGACATTTTGGATACTTTGAGACTGGATATTTTTAAACCTTCAGGT
TAACTGGCTTTGTTTGATACCACTCTAGCAGGGAAGGGTGGTGGAAAGAGAGAGGGGTGCTGTCTCATCACTGCCAGGTCATAGCAGGAGTCCGGATTCC
CTGCTTATCCTCCACTGACACTTCAGAGGGATTTTACTCATTGTTACCATAGGTGAATGTGGGATTTCTGGCTCCCCAACCGTCTTTCTCTGATAGCTGT
CTGCTAGGAGGGATACAAGGTACTGTTCTATGTGTGTCCTTCCCTGACAACCACCAGGGTGTGGGCGGGGCTGACTTTGGTTACTACTAGGTGTGGTGCT
GCAAGTCCTGACTATGCACTAGGCCTCCTCTGACATCATCACAGTGAGGAGGAATAAGGTCACCTTGACACTAATGGATGGGCTTAGAAGTCCAAGCTCC
TCACTTGGTCTTCACTGACAATATCAGAATGCCTTGTTACCTCTTGGTAGAGATGAAACTCTCAATCCCATCTTGGCCTTTTCTGAAACCACCTAGTGAG
GTGGTTGGGGCATCTCATTACAGCCTAATAAGGGTAGAAGTCTAGGATCACCATCTCAGCCTCTACTGGTGGGGATGGGGGTAGGGCCATAATTTTTTAT
CTGGTGTTGGGCTGCACTTGAGTAGTTACTTCTAAAAGTTTTATATCTTGCTAGACTGCCCCTTTCCTGGTCCTTTGGCTAGAGAGAGCGGTTCTGGTGG
TTTCTTTCATCTGCATTTGTTGCCAGCTTCTGCACCGAGTTGTGGATATATGAAATAAAAAGAAAACCCAGGGAACTCACTGGTCTGTCTTTCTTTGGAT
CTTGAGGTTCCTATCCAGTGCTCCTCCTTTTTGCCTTTCAAAGTCTTCTTATGTTTGTTTTATATATGTTTTACATGTAGTGTTCTGCTTTTCTAGATCT
CTACTTAGTGAGAGAGATGGGGAAAAGTACATCTACTCCATCTTCCTGGAAGCAGAAAGTATGTTTCAGATACTTGGTAACGGAAGTTACCTCTAAACAG
AAGTTGAATTGGATGTATGTGGCTATTACTGTGTTTGTTTGGTTTTTTGTTTGTTTGTTTTGAGCACTAAATGCCTGTAGGCATATTTTATTGGCAGAGA
TAAAGAATTCAAAACAAAAACCTAGAATCAGCTCCTCTGGATATTTATAAATCTCAAACTGAGACGTTTTCTTGACAACTCAGGGACCTACTTAACAACA
CTAGTTTTTTCGTGTCACACTTTACTGTGATTTCTTTTATGTTACTATTCAAACAATGCTCCTCTTTTTTTGACTCTTTGATCTAGTTACAGAGTGGCTG
ACAATTTATGGAAATAGTTTTCAGGTTTTAGGTAGTATTATAGGCCTTGTTAAAATCTAACGGTCATGTGTTCCTTTTGAAGGACTATAGGTATTTCTAT
GGGGATTTAATAGTCAAAAATTTACTTTGTAATACAATAGAAGCACATCATCTATAGCACAGTAACTTGTTATAAAATATGAGAAAAATCAATAGACCTT
TATTCGATATAGGTTGTGTAATATTTTTAAATTGCCCAAACAGAAGTATTCTACGGTAAAATGTTGTTATAGATGTTTAAAGGAAAGTTTTCTTTGACTA
TATAATATGCAGATTGCTCAAGGTCTAAAGTAATCTTGGGTTGGATTTCTTTCATTGTAGGGTGATGAATTAGAAGACAATGGAAAGAATTTCTACGAAT
CTGATGATGATCAGAAGGAAAAGACTGACAAAAAGAAGAAGCCGTATACTATGGATCCAGATCATAGACTCTTAATTAGAAATACAAAGCCTTTGCTTCA
GAGCAGGAATGCTGCGGTATGTTAAAATCCTTATAAGAAATAATTCACTGGTTTTTAAAAAACAGCAATTAAAAATATCTCAATTTAGTAAGTGAGTCTG
TGTGTGCTAATGGAGCATTTGTTTGTTTACACACCAARTGACATGTAATGGATAGTTGGAAGTACAGTGTGGAATGTAAGCTATAGATTTAGAGACCTAA
TGTCTGAGAAGTAATACCTAAATATATTTCAGCCTTCCATGTTTCCAGGTATACAGAGTTAGGTTTTGATGACAATACCTGGTTTGGCCTATTGGACTTC
ATTTACGTTTTAATGGTTTTGTTAATTGGCTTTTCTTAAGATATTTCTAAGTTGTTTCTCAATTGGTTGGATTATATTAGCTCTTATATAAGAACTATGT
ATATTTATCAGTTATTCCATTGTGATTGGGGGTACTTGATCTGGTATTAGTCCATACTGTTTGTATCTGTCTGATAGAATTTTTAAGAGACTAACAAAGG
TAATGCCTCACATATTATAAATGTAAATTGGCAGTAATAGTAATTAAAAATCATCTTTATTTGGGTCATAAGGTTTTTTTTGTTTGTTCGACACCTTTTT
GTTTATATAACCATTTATATTTTAGAAGAATACATGTGCACAATACAAAATTAGAAATTACAGGCTAGCAAAACTAAAAAGAAAATTAAAACATCACATT
CTCAACACTCAGAAATCACTTATGTCTTAGTGTATTTTCTTCCAGATCTTTCTAATCTGCATAAGTGTACATATATTCATGGTTACACATACATATATAT
ATATTTTTTAACCAAGATAAAAATCATACTGTACATAGCATTTTCTAACCTTTTTTTCTCTAGTCAGTCCTCTCTACTTTTTATTTTAATAAAATTTCAT
TTCATTTAATACCAATTGATCTTAAATTATTCTTTTTGGATGATTTATCCAAACCATTATCTAATGCATTGCATCTTTTAAAGCCTGTCAAGTCTTGCAG
AATGTCCTTCTGGGTTTGTCTGATTGCTGCTGCTTCTTTTTATTTTGTTATTTTGTTTGCTATACCTACTGGAATGGGATGGTTGCATCTTTTATAGTGT
CATTTAATTCTTTTATATTCTGTGTTTCCTGTTAACTGGCAGTTATATCCAAAGGCTTGACGGATTTAGGTTAAACATGTTCTTAAAGATTTTAATTGAG
AAAGTATTCTTAATGAATTGTTCTGTTCAGAACAATTCTTAATGAATTGATTCTTGAGAATTTAGAGCTTACAGCTTTGTATATCCAAGTTATCAACAAC
AATTTTTGTCTAATACCTAATGGTTTAGTTTCCAAATCATTATTCAGTAATCATGCCTAGTCATAATGAAAATATTATTTCATGGCTGTTGTAAAATATG
CTTATATTTTAATGTACTCAGCTTAGCCAGATGCTAGTTAGGTAGCTGTAATTTGCCATCTTAAGCTGTACTTTATGAGTGACTCACTGTTCATTTAACT
AGGTCTTAGAAATTGATTTTATAGTTCAAATACTTATGGATCAAAAACGTTTTCAAATAGTGAAACAAATAGTGGCAGTTTGTACTTCTGGTCCCATTTT
GTTTGGGTTCCCTGCTTACTTGATGCTGTAATAGAGGTGGTTTACTTTTTGTGTCAGTGTATTTTGGTACCTTGTTTTGGGATGCTGCTAAATATGAGTA
AAGGCTAACTTTTGAAGAATTGTGGATAGATTTTTTTTTAACCTCGTACTTAAGTTTATGGAGAGACTTTGAGAATTTCTTTCAGGAAACATAATACATC
ATTGCTATGTAGTTTGTACTGGAGATAGATACTGAAAGCGGAATGTTAGGAGGCTATTCTAACAGTCTAAATAAGGTGACAGCGGCATGAATGGTTAAGA
GTAGAAAAGTGTTTATAGGATGCGCTTTATTATGAACAGGCATGATGTAACTGTAGAAGGTCTATAAGGTTGTATATTTTTAGTCTTTTTGGATTTTGAA
GTTTTGGGAACTTTTTTCATGGCGTTTACAAATTAGCCTATACATTTCAAATCTGGGTATCAAAGCGACTTTCAACTGTTGGATTTCTAAATACCGAGGA
AAAAGAGGCTCATTTAGTCCTTTTGGATTTTGGAGTACCCTAATATATTAGAACAGATGGCATGCCAAATGGCAGCTAGAATTTTAAAGACATTGACATG
TATAGGAAGTACAGTTTGCTTTCTTGCCAGTAGGATTGGACTTTTATTTGTAAGGGAAAAGGATTTACTATCTGTAAGATAGATTAAAATTAAGATTCAG
CTTTCTTTTCTATCATTTACTAATACTTATTAGCCAGGTATATGCGTTAATATTTTTTTAAATGACTGATCTTGGATTAGGTCAATCATTAATTGAGATT
CTTTTATTTTATAAGATTTAAAATTCAGGAGAGTTTATTTTGTAACCAACTTATATTTGCAGTTCACAAGTGAAGAAATGAGATATTCTTGCATTTTTTA
AATTCTCAACTAATATCTTAAAGCTATAAATCAAACTTGTAAGAAAGTACAAGAAATGGCAAACAGTAAATTTAGGACCCTGTATACTGTATTTTTAAAA
ACGGTTCTTTAGTTTCAGAAGAAACTTTTTTTTTTAACCTCAAACATTCTTCTGTGCTGTATACTATTTAGGCATATATATTAATAGAATTTTTGCTATA
TATTTGTTCAAACTTCATAGACCAGGCAGAATTAAATTAATATTAGTGTGTCCTTTGAGCCAAAGGCAGCATTGGTAACATCTGTAGCTATGTCTCTGCA
GTTGTCACTCTGAATCTGAGTGTAGAGGCACTTAGGGGAAACAGTACTCTTCTGTTTTGAGACAAAGAAATTCCAGTCACCCTTTGTTTGTTTTGTTTTG
TTGAGACAGAGTCTCACTCCATTGCACAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTACCTCCTGGGTTCAATGATTCTCGTGTCCC
AACCTCCCAAGTAGCTGAGATTACAGGTGTGCACCACCACGCTTAACCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGGATGC
TCTCACACCTGACTGCAAGTGACCCACCTGCCTCGGCCTCCCAAAGGGGTGGGAGTACAGGCGTGAGCCACTGTGCCCAGTCTTTGAATCACCCTTATAA
TGGCTTTGAACCAGAAGCCATTTTTAAGGTTCTGTGTTTTTAAAAACAAGATTATTTTAAATGCTACTGCTGTAGATGTATTTGTTTTAATGGAGTTTCT
TTAATTGTAACTTAAATGTGCTGAGTTTTCTTTATTTCAGCCTACTAGTTACTGTTATCCTGGCTTCATTTAGAAAGGCATGCTTATAATTCTTAAAAAG
CCCCAGTCTCAGAGCAGCAGCTGAGGAGCATGGAATTTCGAGTGTCTTGAGCTTTGCCACGTACTAGCTGTTACACCTTGAGCAGTTCATTCAGTGTCTC
TTTTTTTTTCTGAGGATGTATTCTTTTCATAGCACTGCCATACATATTGCCACAAACTGAGTGGATTAAAACAACAGAAATTTATTCTGTCACATTTCAG
GAAGCCAGAAGTCTGAAATCAAGGTATAATCAGTATTGGTTACTTCTGTACGCTCTGAGGGAGAAACCTTCTCTTTCCTGGCTTCTGGTGATTGCCAGCA
ATCCGTGGCATTGCTTGGCTTATGGGTGTATCACACTAATTATCTCCATCTTCACATGGCCTTCACGGTGTCTCTTTTTGTCCTTTTTTTTTCTCTTATA
AGGACACGTTCATTCGATTTAGGGCTCTTAACCAGCATGATGTCATTTCAATTCTTATATTAATAATTTCTGCAGAGATCCCACTTCCAAATAAGATCAG
ATTCTGAGGATAGTATTGGGCACTGGGAGTGGGGGACACTTCTTCAACTCACTACGAAGAGTAACATTCCATTTTACGTCACAGGAATTTGTAGGACTTA
GAGGAAATAATGTGTAGGAATGGATTTTGAGGTTGTAGAGTGCTCTAGTGTTCATAGTTCTGTTATTTTTATGCTTTATCTTGTAGGTGGTTATGGCAGT
TGCTCAGCTGTATTGGCACATATCACCAAAATCTGAAGCTGGCATAATTTCTAAATCACTAGTGCGTTTACTTCGTAGCAAYAGGTAGGTCATGATTTTA
TATATATTTTTTCTTTTGTATTCCTTCAAAAGTAATGTTTGAACAAATGTAATCTTTCAGGCATTTMATATATAACTCTGACTATATTTTAATCAATCGA
TCAGTAAGATTTCATACTTAAGGGGATTATTATAAAAGTCTTTATGCATTTATCTCAAACTTAATGATAAATACTGAAACTTTTTAACCTCAAGCCCAAA
GATATTGAAAATATTTTGTGGCATAACACTAGAGTGTCACTAGTAGCCTAGTATTAGTGTTTGAAATTTTTAGGTATGGCAATAATGATGTTTGGGAGTT
TTGGTAAATCTGGAATCACTGAAAAACTATACTGAAGTACTATCAGATTGACTTACTCAATGTATTAATACATGGTTTTATATAGAGCAATGTGTATGCT
AAGTAATGTAGTTTATGCCAGAATTGTGCTTCCTATAAAGCTGGAATATTTAATTACTATGCTTTGCTCCACTCTAAAAAGAGAGCTGTGTTTTTAATAG
CTACTCATTTTAAAGATTGCATACTCTTAGTTTCAGATAGACAGACAGAAAGAGCATGCCACCTTCTTTGATTTTACCTCTTTATAATTTAGTGGTTTAG
GTTAACGATTCAAAACAATTTATTGAGTTTCCATGACATATAACATGAGAATCATGATTTCAGGTTTAATTCAGACATTTGTTTCTGTGTTTAAGAATAC
CTTCATTTCAGCTATTTGACATACCTTAGCTATTTTTCAGTAATTAGTTGTTTTAATTTGAAACAATGTTTTTCATTGAGTGCTTGTTTCCACTAATTGC
GTTGGAAGGAAAAAACTATGTATTTATTTTTGCCCTTAACTGGAACTTAGTCCACAATTGTAGCTCTTGACTGGCTTAGTAACAAATGAGATGCCATTTC
CTTTGTGTTCCTATTCTCCCTATCTGTATATCCAGCTATTATTTTTCTCTTTTGCTAGTTCAATACTTTTTTTTTTTTTCCTATGGCTAGTTCAAAAGAT
ATCAGAAAGACCTGGAATTGGTCTTTCACATGAAGCCTTATACCAGATTCAGTTCATTTATTAGATATTTGGGTCTAAAAATAACATGACTACTTTTAAA
ATCTGGCCTTTGCCCTGGGAAGAATGAGTTATTTAATGAGTTTATAATAACAGTGTGGTCCTATCTACCCCTATTAACCCTAAGAATACCTTCCTTGGAT
GTGTTCAAAGCAGGTACAATGTTAACTTCATATTTTAGGAGCACTTTATTATAAAATTTGTTTTAACTATTCTTCATGATGAATCACGTCTAATTTATTG
GTATTTTATAGGAAAAGTGCRTTAAAAAGACACACATCTAAGATTTACTAAAAACTTTTCATTATTACATTTAAGAGTCTCATTCACTTGAAATTATTGC
TAATTCTTTGTCATTATTGTAGTGCTTACTCAAAGATGTTTCATTGGAACATATACCCAGTAAAAATTATCTTTTGATTTCTAGGGAGGTGCAGTATATT
GTCCTACAAAATATAGCAACTATGTCAATTCAAAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNCTGGTTCATCTCACTGGGACTGGTTGGACAGTGGGTGCAGCCCCAGAGGGTGAGCTAAAGCAGAGTGGGGCGTTGCCTCACCCAGGAAGCACA
AGAGGTCGGGTGATTTCCCTTTCCTAGCCACGGGAAGCCGGGACAGACTGTACCTGGAAAAACGGGACACTCTCACCCAAAAACTGCGCTTTCCCAAGGT
CTTAGCAACCGGCAGACAAGGGGATTCTCTCCCATGCCTGGCTCAGCAGGTCCAACGCCCACAGAGCCTTGCTCACTGCTAGCGCAGCAGCCTTAGATTG
AATTGCGAGGCAGCAGCCTGGCTTGGGGAGGGGCATCCACCATTGCTGAGGCTTGAGTAGGTAAACAAAGCGGCTGGGAAGCTTGAATTGGGCGGAGCCC
ACCACAGCTCAGCAAGGCCTACTGCCTCTATAGACTCCACTCTGGGCAAGGCATAGCTGAACACAAGGCAGCAGACAACTGCAGACATCAGTGTACCTGT
CTGACAGCTCTGAAGAGAGCAGTGGTTCTCCCAGCTYGGTGTTTGAGCTCTGAGAACAGACAGATGGCCTCCTCAAGTGAGTCCCTGACCCCCGTGTAGC
CTAACTGGGAGACACCTCCCACTAGGGGCCGACAGACACCTCATATAGGTGGTTGCCCCTCTGGGACGAAGCTTCCAGAGGAAGGACCAGGCAGCAATAT
TTGCTGTTCTACAGTATTTGCTGTGCTGCAGCATTTGCTGTGCTGCAGCCTCCGCTGGTGATAACCAGGCAAACAGGGTCTGGAGTGGACCTCCAGCAAA
CTCCAACAGACCTGCAGCTGACGAACCTGACTGTTACAAGGAAAACTAACAAACAGAAAGGAATAGCATCAACATCAACTAAAAGGATATCCACACCAAA
ACCCCATCTCTAGGTCACCAACATCAAAGACSAAAGGTAGTATAAAACCACAAAGATAGGGAGAAACCAGAGCAGAAAAGCTGAAAATTCTAAAGACCAG
AGGACCTCTTCTCCTACAAAGGATTGCAGCTCCTCACCAGCAACAGAACAACGCTGGATGGAGAATGACTTTGATGAGTTGACGGAAGTAGGCTTCAGAA
GGTCGGTAGTAACAAACTTCTCCGAGCGAAAGGAGCATGTTCAAACCCATCTCAAGGAAGGTAAAAACCTTGAAAAAAGGTTAGACAAATGGCTAACTAG
AATAAACAGTGTAGAGAACACCTTAAATGACCTGTTGGAACTGAAAACTGTGGCACGAGAGCTTTGTGACACATGCACAAGCTTCAATAGCCGATTCGAT
CAAGTGGAAGAAAGTGTATCCATGATTGAAGATCAAATTAATGAAAAAAGTGAGAAGACGAGGTTATAGAAAAAAGACTTAAAAGAAATGAACAAAGCCT
CCAAGAAATAACAGACTGTGGGAAAAGACCAAATCTGCATTTGATTGGTGTACCTGAAAGTGACGGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAG
GATATCATCCAGGAGAACTTCCCCAACCTACCAAGGCAGGCCAACATTCAAATTCAAGAAATACAGAGAACACCCCAAAGATACTCCTCGAGAAGAGCAA
CCCCAAGACACATCTCACCTGCAGGGACACACATAGGCTCAAAATAAAGGGATGGAGGAAGATGTACCAAACAAATGCAAAGCAAAAAAAAAGCAGGAGT
TGCAATCCTAGTCTCTGATAAAATAGACTTCAAACCAACAAAGATCAGAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAACTAT
CCTAAATATATATGCACCCAATCCAGGAGCACCCAGATTCATAAAGCAAGCCCTTAGAGACCTACAAAGAGACTTAGACTCCCACACAAAAATAATGGGA
GACTTTAACACCCCACTGTCAATATTAGACAAATCAACGAGACAGAAGGTTAACAAGGATATCCAGGCCTTGAACTCAGCTCTGCACCAAGCAGACCTAA
TAGACATCTACAGAACCCTCCATCCCAAATCAACAGAATATACATTCTTCTCAGGACCACATCACACTTATTCTAAAATTGACCACATAGTTGGAAGTAA
AGCACTCCTCAGCAAATGTAAAAGAACAGAAATCACAACAAACTCTCACAGCACAGTGCAATCAAATTTAGAACTCAGGCTAAGAAACTCACTCAAAACT
GCACAACTGCGTGGAAACTGAACAACCTGTTCCTGAATGACTACTGGGTAAATAACGAAATGAAGGCAGAAATAAAGCTGTTCTTTGAAACCAATGAGAA
CAAAGACACAACATACCAGAATCTCTGGGACACATTTAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCTCACAAGAGAAAGCAGTAAAGATCT
AAAATCGACACCCTAACATCACAGTTAAAAGAACTAGAGAAATGAGAGCAAACACATTCAACAGCTAGCAGAAGGCAAGAAATAATTAAGATAACGAAAT
ACCCTTCAATAATAACGAAATACCCTTCAAAAACGAAATACCCAATAACGAAAAACCCTTCGAAAAATCAATGAATCCAGGAGCTGGTTTTTTGAAAAGA
TCAACAGAATTGATAGACTGCTAGCAAGACTAATGGAGAAAAGAGAGAAGAATCAAATAGATGCATTAAAAAATGATAAAGGAGATATCACCACCAATCC
CACAGAAATATAAACTACCATCAGAGAATACTATAAATACCTCTATGCAAATCAACTAGAAAATCTAGAAGAAATGGATAAATTCCTGGACACGTACACA
CTCCCAAGACTAAACGAGGAAGAAGTTGAATCTCTGAAGAGACCAATAACAGGCTCTGAAATTGAGATAATAATAGCCTACCAACCAATAAAGTCCAGGA
CCAGACGGATTCACTGCCGAATTCTACCAGAGGTACAAAGAGGAGCTGGTGCCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGAGAATCCTCC
CTAACTCATTTTATGAGGCCAGCATCATCCTGATACTAAAGCCTGGCAGAGACACACACAAAAAAAGAGGATTTTAGACCAGTATCCTTGATGAACATAG
ATGCGAAAATCCTCAATAAAATAATGGCAAACCGAATTCAGCAGCACATCAAACAGCTTATCCACCACAGTCAAGATGGATTCTTCCCTGGGATGCAAGG
CTGGTTCAACATATGCAAATCAATAAATGTAATCTATCACATAAACAGAACCAACGACAAAAACCAYATGATTATCTCAATAGATGCAGAAAAGGCCTTT
GGCAAAATTCAACAGCCCTTCATGCTAAAAACACGCAATAAACTAGGTATTGATGGAATGTATCTCAAAATAATAAGAGCTATTTATGACAAACCCACTG
CCAATATCATACTGAATGGGCAAAAACTGGAAACATTCCCTTTGAAAACTGGCACAAGACAATTATGCCCTCTCTCACCACTCCTACTCAACRTGGTGTT
GGCAGTTCTGGCCAGGGCAATCAGGCAAGAGAAAGAAATAACRGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGATGACATGATT
GTACATTTAGAAAACCCCATCGTCTCAGCCCAAAATCTCCTTAAGTTGATAAACAACTTCAGCAAAGTGTCTCAGGATAAAAACTCAATGTGCRAAAATC
AGAAGCATTCCTATAGACCAAGAACAGACAAACAGAAAGCCAAATTAATGAGTGAACTCCCATTCACAATTGCTATGAAGAGAATAAAATACCTAGGAAT
CCAACTTACAAGGGATGTAAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAGTGAAATAAAAAAAGGACACAAACAAGTGGAAGAACATTTCACG
CTCATGGATAGGAAGAATTAGTATAGTGGTAATGGCCATACTGCCCAAGGTAATTTATATATTCAATGCCCTCCCCATCAAGCTACCAATGACTTCCTTC
ACAGAATTGGAAAAAACTACTTTAAAGTTCATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGC
CATATATAAAAAGCTGAAACTGGATCCCTTCCTTACACTTTATACAAAAAATTAATTCAAGATGGATTAAAGACTTAAATGTTAGAGCTAAAACCATAAA
AACCCTAGAAGAAAATCTAGAGAATACCATTGAGGACATAGGCATGGGCAAGGACTTCATGACTAAAACACCAAAAGCAATGGTAACAAAAGCCAAAATA
GACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCATGGCAAAAGAAACTTCCTTCAGAGTGAACAGGCCACCTACAGAATGGGAGAAAAATTTTGCAA
TCTACCCATCTGACAAAGGGCTAATATCCAGAAAAAACAAGAAAAGAGCAACCCCATCAGAAAMTGGGCAAAGTATATGAACAGACACTTCTCAAAAGAA
GACATCTGTGCAGTCAACAGACACATGAAAAAATGCTCATCCTCATTGGTCATCAGAGAAATGCAAATCAAAACCACAATGAAATACCATCTCACACCAG
TTAGTATGGCGATCATTAAAAAGTCAGGAAACAACAGRTGCTGGAGAGGATGTGGAGAAATAGAAACACTTTTACACTGTTGGTGGGACTGTAAACTAGT
TCAACCATTGTGGAAGACAGTGTGGTGATTCCTCAAGAATCTAGAACTAAAAATATCATTTGACCCAGTGATCCCATTACTGAGTATATACCCAAAGGAT
TATAAATCATGCTACTATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAAGCAACCCAGATGTCCATCAATGA
TAGACTGAATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATTAGAAAGGATGAGTTCATGTCTTTTGCAGGGACATGGATGAAGCT
GGCAACCGTCATTCTCAGCAAACTGTCACAAGGACAGAAAACCAAATATTGCATGTTTTCACTCATAGGTGGGAAGTGAACAATGAGAACACTTGGACAC
AGGGCCGGGAACATCACACACCGGGGCCTGTCAGGGGTTTGTGGGCTGTGGGAGGGATAACATGAGGAGAAATATCTAAAGTAAATGACGAGTTGTTGGG
TGCAGCAAACCAACATGGCACATGTATACCTATGTATCAAACCTGCACGTTGTGCACATATACCCTAAAACTTAATGTATAATAATATAAATAAATAAAT
AAATAAATAAATAAATAAACTTCAGGGCTTGGCACAGTGGCTCATGCCTGTATTGCTAGCACTTTGGGAGGCTAAGGTGGGAGGATTGCTTGAGGCCAGG
AGTTCGACACCAGCTTCGGCAACATAGTGAGACTCTGTCTCTTTAAAAAAATCAAAATTAGCCAGGCGTGGTGGCCGATGTCTGTAATCTTAGCTACTTG
GGAGGCTGAGGTGGGCAGATTGCTTGATCCCAGAAAGTTGAGGCTGCAGTGAGCCATTGATCATGCCACTGCACTCCAGCCTGAGACCCTGTCTCTAACT
AACTTATTTTAGTACTGTGTGTTTTAAGTAATACAGATATTTGAATTGAGTGTTGTGAAGAACAGAAAGGTGGAGCTAATTCTATGAGAGGTTTAGAAAA
GATGATGTTTGGGTGGATCTTAAAAGAATAATATTGTGAATTTTTTTCTTGGTTGGCAGGTTGATTGGGAGGTCGAAGGGTTAGAGTAGGTGAAAAACAT
AATTCATGCTAACACAAGGGATTATGAAAGAGCATTGTTTTCAGGAAGTAATAAGTATGGCATAGAGTGCAGTTAGGAATATAAATCTATAGTGATTAAA
ATAGTGTGATATTTAGACAGAAAAGTAAGTGGAAAGAGTAGAAAGCCTAGAAATGTGCCCATACACGCAAAAATGTACCATATAGTAGAGGAGATATTAC
AAACCAATGAGGAAAGGATGGACTATGGACTATTCAAGACTGTTCAATATTAGAATGATGTATTATTCATATGAAAACTGAGTTTAATAATAAAATCTAA
ATTATACCCAAATTCAAGGATATTTTATCAAAAAAACCTGGTTTATAATTAGCGAAAATGTCAAGGTCATATAAGTTAAAAGAAAGACTAAGAAACTGTT
TCAGACCAAAGGAGACAACTTAATACAGTATGTGATATTGAACTGGATCCTTTTATTATACATCATTGAGACAGTTATTGAAACTTACGTGCATAGTGAC
AATTGTGTGAAAGTAATGCATCAGTTTAATGAYCTGATTTTCTTCGTTGTACTGTAGTCTGTGGAACATGTCCTTGTTTATAGGAAATATACATAGAAGT
TTTTGGGGATAATGTAGCATCAGATTGGCATCTATCGTCTCAAATCGTTCAGAAAAACAACAGCAACAGTTCTTTGTACTATACGTGTAGCTTTTTCCTA
TGTTTGAGATTGTTTTTTAGAAGTTGTCCAGCTGGATGCAGTGGTTCATGCCTATAATCCTAGGACTTTGGGAGGCTGAGGCAGGAGGATCGCTTGAGCC
TAGGAGTTTGAGACCAGCCTGAGCAACACAACGAGACTCCGTCCCTACAAAAAAATTTAAAATAAGCTGAGCTTGGTGGTATGCACCTGTAGTCCCAGCT
ACTTGGGAGGCTGAGGTGGGAGGATTGTTTGAGCCCCAGAGGTTGAGGCTGCAGTGAGCCATGATCATACCACTGCACTCCACCCTCGGTGACAGAGTAA
GACCTTGTCTCAAAAAAAAAAAAAAAGAAAAAAGAAAAAAGTTGTCTAAAAGTTAAAATATAGTTATCAAAATAAAATTAAAAATTAAAAGATTATCTGG
GAAAAATATTTCTAATACATGTGTCTGAATAAATGATTTGTACTCAGAATATGTAAAGAACTCCTCCTACAGTCTTTGCCTTCTAATTGGAGCGTTTAGA
TCATTTGCTGTTTTATTTTTTTTGTTTTTKTTTTTTTTTCAGTAGGTTTTTGGTGAACAGGTGGTGTTTGGTTACATGCATAAGTTCTTTAGTGGTGATT
TCTGAGATTTCGGTGCACCCGTCACCCAAGCAGTGTACACTGTACCCAATGTGTAGTCTTTTATTCCTCACCACCCCCCACCCTTTCCCCTGAGCCCCCA
AAGTCCAGTGTATTATTCTTATGTCTGTGCATCCTCATAGCTTAGCTCCCACTTATGAGTGAGAACATACGATGTTTGGTTTTCCATTCCTGAGTTACTT
CACTTAGAATAATAGTCTCCAATTCTATCTAGTTTCTGTGAATGCCATTATTTTGTTCCTTTTTTATAGCTGAGCAGTATTCCATGGTGTGTAKGTGTGT
GTGTGTGTGTGTGTGTGTGTRTATATATAACATGTTCTTTATCCACATGTTGATTGATGGGCATTTGGGCTGGTTCCATATTTTTGCCATTGCAAATTGT
GCTGCTATAAACGTGTGTGCAAGTATCTTTTTTGTATAATGTCTTCTTTTCCTCTGGGTAGATACCTACTGGTGGGATTGCTGGATCAAACAGTAGTTCT
ACTTTTACTTTTTTAAGGAATCTCCACACTGTTTTCTTTAGTGGTTGTACTAGTTTACGTTCCCACCAACAGTGTAAAAGTGTTCCCTTTCACCACATCC
ATGCTAACATCTATTATTTTTTGATTTTTTGATTATGACCATTCTTGGTGGAGTGAGGTGGTTTCACACTGTGGTTTTGATTTGCATTTCCCTAATAAGT
AGTGATGTTGAGCATTTTTCCATGTGCTTCTTGGCCGTTTGTGTATCTTTGAGAATTGTCTATTCATATCCTTTGCCCACTTTTTGGTGGGATTGTTTTT
TTCTTGCTGATTTGTTTGTGTTCTTTGTAGATTCTGGATATTAGTCCTTTGTCAGATGTATAGACTGTGAAGATTTTCTCCCACTCTGTGGGTTGTCTGT
TAACTCTGCTGATTATTTCTTATGCTGTGCAGAAGCTTTCTAGTTTAATTAAGTCCCATCTATTTATCTTTGTTTTTGTTGCATTTGTTATTGGGTTTGG
GTCATGAAGTCTTTGCCTAAGCCAGCGTCTAGAAGGGTTTTTCCGATGTTATCTTCTAGAATCTTTATGGTTTCAGGTCTTAGATTTAAGTCTTTGATCC
ATCTTGAGTTGAATTTTGTGTAAGATGAGAGATGAGGATCCAGTTTCATTCTACTACATGTGGCTTGCCAATTATCCTGGCACCATTTGTTGAATAGGGT
ATCCTTTCCCTATTTTGTGTTTCTGTTTGCCTTGTCAAAGATCAGTTGGCTCTAAGTATTTGGCTTTATTTAATGTAGTTTATTGATATGAATGTATTTA
TGTTCACATCTTGATTTGCTTCTGTTTGTCTCTTCTATTTTTTTGTGATTTTCTTAAGACTAAATATTTTTTATTAGTAAAAATTTTTTTTCACAAGCCC
ATTGGAGATTACACATTGTTTATATCTATAAATCCAGAAGAGAGAATTAAAATGTCTGAGTATTTGGGATGGTAGACTATAGGAGAACAAATCAAAAGAA
TTAATTGGTATCTGGAAAGCAGATGTATTAACATGGAGGGCAAATTGTTTTCTAACTTTACTAAAAGACAAAAAGCCAAACTAGCAGAATTGTTTAGGTT
AATTAGATATAAATTATAAGTTTGTATTGGGCAGACAATTAGTGAAGATGTAGAATTCTCCTTTTCCGAATTGTTTTCAAAGAACTAGTAATTGTCTAAT
ATCTGTTTGTGGACATAAGAAGGTAGACTAAGTTGACCTGAAGGGTATAATGCCTTACCACATTGGCGACAATATGATTTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGACAGAGTTTCAGTCTTGTTTCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCTGCC
TCCTGGGTTCCAGCAATTCTCCTGYTCACTGCAACCTCTGCCTCCTGGGTTCCAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGCAT
GCACCACCATGCACCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGCACTCCCAGCCTCAGGT
GATCCGCCYGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCGGCTGACAATGTGATTTTTAAAAGTAGAAATAAACTTTCAAT
TAAATGTCTGTACTCTATTAAATTCATCTTGCTACCTTTGTTTTAAAATGTTTACTTTCTCTTTTCTCTACTATAGCTTGAAATTTTGACAAACTTGGCA
AATGAAGCCAACATATCAACTCTTCTTCGAGAATTTCAGGTTTGTGTACAGTGCTAATTATAAAAAACTTCTAAAACATATGTTCAGTCTTAAATATGCA
TCTTTTTCTATCTAGAAATATGTAATTATGTACATAAAATAGTGATTGGGACAAGACTGACAACTAAGAAATTCATAAATTTGCAAGAATAAACTAATTA
CAATTTATAATTTAAGGAAAACATAGTATTCTCTTTCATATTTTCATAGACTTTGAAGGACTTTGGTGTTATAACTCTGTCTTTGTTTGAAATTGTATTT
CTGGTAAGAATTTCATCTTTTTGTGCTGCCAGCATCAATAGTCCTTTCTATATTCTGTGGTCATGAAAACGGTTTCATTTCTTACCTGGTTGTTCCCATT
TTATTGACCTATGACTATTTTTGACACTGCCCCCTTAGCCTCATATATAGCTCAAAAAAATTTGTTTCATAATTGCCCCACTACGATTTTTTAAATTGCT
GTTTTTTATTTTGATTTGTTTAGTTGTATTTTTATGCCTTATGAGACTCTTCCTAGCTGCATTTCCCCCCAAAATATTATTCAAAAATTACTTCATGGAC
ATGATACCCTTTATGATGGAAAGGTCATCTCTGAAGCCTTAGTTGTAGAGCACAGCAATAGAAAACTTTACATCAGTATTATGACTTTTATATTCCACTA
TCTGTTTTCTTAACAAAAATATACCACATACTATGCACTAATCACAGAGTTTTTCTTTTATCAGCTTCCAACTTTTAGAGATGTATTTTTTGCCATAGTT
CTCCTATATGCCAATATTAAATTTCTTCTTGGTTATAAGACACTGTATACACGATTTCTTTTTAGCTATGTGATTTTTAAACTTTTTACAGGAATAGTAG
AATAATATGGCATGTCCATAATTTATATTTTCATACCTGGATTACTCCACTTTTATGTTGTGTATCTTTCTAGACAAATTTCTTAAAAAATTAAGATGTT
CTAGAAAATATACTATTTTATGTTATTATTCAGTAATCTTATAGCTGCAGATCATTGCTTGAATCTGATTTTCACTTCATTCCTATAATTTTATTTATTT
AAAGTATTGGTCTTTGTGTTTTTTCTTGTTCCTTTCCTGTTGTCCTATCTAGTCTCTTTGGGTGTCCTCTCACTGTCCAGTTTTTGCTTATATCAAGTCT
CCTGGGATTGTAGGAAAGGAGACTTAGGTAATGTTATGGAATGGGTTGTATAGAGGGCACATACTAGACCTGTTTCAAAATATTGGTCATCTAGTCTTTT
CATTTAATATCAGGATGTTTAATAAGGTCCATTTTTCAGTCAAACTTTTAAGTATTTTTTTCATGTATTCATTTTTATCACTGTCTAAATTTGTACCTTC
TGTCTATGTTTGTGTTATGCTCATAGTTACGCTTTTAGTAACTTTTTGGGTAAAATAGGGAATGTTTCTAAAGACTCATAAGTTCATATTTTTCTTTAAG
GAAATTAAATAATTTATTTGGGAACACTTTTAAATATAATTGGTCTTGCCTTCATGGAACTAGGAGAGTTTAATTAATTTAATTTATTTGTTCAATGTTT
AATCACCTGGTTGGTACCATTTTTAGCAAATTTGTATTTTTTTAGACATCTTTAGGTTTTCTCCTCCATTTGTCATTTAGACACCACTTAAATGTATTGC
ATTTTTCATAGTGGTAAGTCTACATTGGATACTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTCTCTGAAAAAGTGACCCTTTTTTTCTAGATTCACAGATGCTGCTG
GTAAATGAACTGAAACCTCCAAAGAGAGAGCTCTCATCATCTCTTTCAACCTTGCACTTAAACTAATTGCTGTCTTTGGGTGACTGCTCCTACTATCTGT
TTTGGAGTCTCAAGCCACTATGGCCACAGGTGAATGAGCCTGGCTTGAAAATGTGCTTCGTCCATAGGCACATTCTTTAAGTAAAAAAATCAAAACAAAA
TGAAATTAATCTACATCATCACTTGGTCCTCATATTGTGCTTATGAGAAGTTTATGTATTCTGGAATTCTTATATATTGACAAAGTTTAATAYAATCGGA
GTTTTGGTTAACTCAATAATACCAGTGTGTAAACTAATTGAAATAATATCTTTTAGACCTATGTGAAAAGCCAGGATAAACAATTTGCAGCAGCCACTAT
TCAGACTATAGGCAGATGTGCAACCAACATCTTGGAAGTCACTGACACGTGCCTCAATGGCTTGGTCTGTCTGCTGTCCAACAGGGATGGTAAGTTTACA
GTTTCATTTTATTTTCAGGTGATTTAAATTTGAATATTCTTGGTATTATTTCCAAGTTGTAACCTTTTCTAACTTTGCATTTTAGCTTTTCCAGTTATAT
CAGTAGTATGGTCACAATAAGTAGCATTTTATCCTTGAATGCACATAAATATGCATATTCTGGGTTCTTTTTTTTTTAGTAAAATAGGCCATTAACTAGC
AGGTAGTATTTGTTTTACCGCAACAGATCTAAGAAAATTTGTTTTACTTCTTTACAATTTAATCACCTTGATTGTATCTTTTCCACCTTTTTACTGCATT
TTAATGGCATGTAAGTCATGCATAATATTGGTTCACCTGCAGAGGGTGCTAAAAGCAGGCAAATGACTATAACATGGAGAAGTGGCTAGATCAAAAAATA
TGTTAACTGTATACCTTCAACATTCTTTTTCCTCAGAAATTCACCTAATTATATTCAAAATTAACTAGATTTAAAAGCCATMAACTTGGAGCAGCTTTGT
GTTTTTAAGCCAAACAATATCTAAGTGTTCGGTAAAACTGGATAGGTAATATCCAGTAAAATATGTAAGCTAGATCCCATATTGTTCTGTGGCAAAGCGT
CAGTTATTTCTATGGGTAAGGCTTTGAAATAAATGGAGCCATTTAGAGAAAGAAAGAAAAGCCAACTTTACCTTTAAAATAATTTTGTTTAAAGAACTTT
TATTATAATTATGTATTAAAATGAGACTTTTTTAAGAAAAGCATAATTTTCTTTGTAAAATCATTGAAATTATTTTGTGGAATTTAAAATATACTAATGT
CTATGTCATGTCTAGATATGGGCATATATGATATAGCAGCCCATGAGGTAAAACAACAAAATTGATTACATTTTATTTGAAAAATAACTTTTTAGTACAA
GAATCCTATAATCTCTAATTATTTTTTCCCACATGTAGATATCTTTAGAAAACTGTAACATTGTTGAGAGTATTTCTGATGAAAAAAATTGGAACAAAAT
TTATTCCCAGATAACATTGATTTTTGTTGTGAGCATAAAATTTTAAACTTGTACCTGTAAACTCAAGATACTATGACTGAAGATTTTTCTACATGTAGTA
TTAAAACTCCAAATAAATGCCAACCAAAATTATCAAGACGATAGGTTTAAAATTTTTTTTTATCTCTACAAAGTAGCTAGTGGAGATAGGATGATAAACG
TCATCCATTCTATCTCTTTCTACTTTTAATAATAACTAATCCTTTTATCTCTGTTTCTATGTCACATTTTAAAATGTGACATTAAAAATGTGTTTTAAAG
AAATTTTCCTGTGCCTTTAATAATGACTTTCTATTCAACCAAATAAAATACACACCTTGGGAAAATAACTTTGTACCATTAAAGATTATGAACCAAGGCT
TACCAGGGCAATTGTTCTTTTACATTTTAGTTACATACAGAAAGCACCGGAAATTAGTTAGAACACTGATTAGTTCATTCAAATACAAAATATATTCAAA
TTTTCTCAATTTTATTTTTTGACTTTTTTTTTCTAATGGAAAATTTCAAGCTTTGGATTTTAAAGCAGTTATTTCTGCTTCAGATTTAATTTCTCAAAAA
ATATTTTTATTGACTTTAAAAGATAAATATTCTACCCCTACATCACTTTTAAGGGAAGACTAGATTGTTTTACAATTAGAAAATGAAAGACTAATACATA
CTTCCTCTCTAAAAGTAGAAGGATTTAGTTTAACTACTTTAAATTTTGATATTTTAATGGTTAGGCTTTTGTTTTTTGATACAACTCTTAATCATGGTTT
TTTTTTTCCTGCAGTGTGAATATTAACAAACTTAAATTGTATTGTCAGATTATATTTGCATAATCATCATTAGCCCATAATACCTGATTAATTATGTCTG
TATCACATATGCTACACTATTTTTTGTAGTTTGGAAGTCTGGCTCAGTAAAAGTGAGAGGTAAAACAAATAAGGAGAATATTTATATCAAAATTAGTAAC
ATAAAAGAAAGTCATAGTATTTTTAACTTTAACATAGCCACCCTGACAATAGAGCCCCTTCCTCTTTGTATTAAAAGATCTACTTTTAGGAATAAATACT
GTGAATGAAGACTCAGTTTCTTTAAAATCTGTTAAGATCTTTTAAGGCTCTAGGAATCTGTAATTATTTGATTTTATATTGAAATGAATACCTCATCATC
TGTTCAAATAATGAATCTTTAAACCTCAGGGACATTTAGGCTCAATTGTTTTTAAATATGTTTAATATATTTCTCTTGGACCTCTAGTTTTGTGTGTGTG
TTGTTAAGAGCCTTTCTAAGCAGACTTGAAGCTTGCCCTAAAACAGCCTATTATTACTCTCTAAGATTAATTTGATAAGCCAATTTCTTATAGACCTTTA
GTAAGAGAAATCTACATTTCAGTTGACTTAGGTAATTTATTTTAGGTAACATATTAGCGAAATTTACTTTTTTGAATAACCTTATTGCCATCTACTCTAA
ACTAAAAGGATTGGGGCAGAAGACTTTGTTTTGTTTAGTTTTAAACAATTCAGTAAGCATTTATTGAAGACTTAAATCAGTTGAGATGTTTAATAAATGT
TGAATATATTAATAGGATATTTATTTAACTTATAAAAGGTTCCTATCTTTATAGAGCTAATAGTCCATTGGAGGGAGATAGTAATATAAGACAAATATAT
TATAGTCTTCCCATATAGTGACCACTTACTCTCTTGCCAGCTATTTGCTTACATGTAGGACTATACCACCTATGTAGAATGTTACAGCTATCCTGAGTAA
ATTACCCAGTCTACCTGTGCACCAGATTCTTCATTTGTAAAATGAGTATGATAGTAGACTGTACTTTTTAAAGTTAGGTCCATTAAGATTTGTTGAGGAC
AAGGAGGAAGTTAGGAAATATCTAGAACATAGGATCATTTTGTGCTTCTGATAGAGTAGCACCAAAGTGCTGAGGTCTTTGGAAACCAAGAGGTACCATA
AAGGAGAAGTAGAGTGGAATTACCTGAGGGGAATGAGAAGGCACTTGTGGTAGGCAGAATTATTGCGTTCCAAAGATGCCCAGAACCTGTGAATATGTTA
CCTTACGTGGAAAAAGAGACTTCGCAGATTGATTAAGTCAAGTTTCTATAGATGGGGAGATTATGTGGTTAGACCTAATGTTATCATGTGGGTCTTTATA
AGGGAAAGAGAGACGCAGGTCAGTCAGAAGATGTCAGAAGGTCAGGGTGATGTGATTGTTGGAAGAGGTCTTTGAACCAAGGAATGTGGGCATGCTTGAG
AAGTTGGGAGGGGGAAGGAAAAGATTTCCCCTAGAACTTCCAGAGGGAACGCAGCCCTGTTGAGAGCTTGATGTTAGTCCCATAAGACCTATGTTAGACT
TCTGACTTTAGAACTGTACAATGATAAATTTGCATTGTTTTAAGCCACTATGTTTTTAGTAATCTGTGACAGCAACAATAGGAAACTAATGTAGTTCCTA
AAGATAAATGATGCCAAACGCATATTTCAACTGTAGCCAATCCTGCGTCTGCTTGTAGATAATTAAATTATGCAACATTTTTTTCTCTTACTTAGGCTAG
TTTTGCAATAATGTATTTTAAAAATATAAATTTGTTATACTATGCATTCTTTAAAACCACACTTACCAAATTTTGCTTTGCATAGTAATCACATAACCAT
TTATTTTTCTGCTAGAGTGTAAGTTTGATGAGGGCAGAATCTCATTCTGATTTACCTTTGCTTTCCTCATAGCACCAAGAGGTAGTCTTTATAGAAGTAA
TACTTGCCTATGGGTGGGCGCGGTGGCTCACGCCTGTAGTCCCAGCATTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCC
TGCCCAACATGGCGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCGGGCACCTGTAATCCCAGCTGCTTGGGAGGCTGAGGCA
GGAGAATCGCTTGAACCCCGGAAGTGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTCAGCGACAAGAGCAAAACATCTCAAAAAAAAA
AAAAGAAGTAATACCTGCCTATCGTAACATAGAACGTATATAGATAGAATGTACATCCTAGTTCTGAGTTTGAATTCTGGGTAAAGTTATACAATTCCAG
TGCATCTCCCTTTCTTCATCTTTAAAATAATAATAATAAGGTACCTACTTTACATTATTGTGAGAAGGAAATGAAATGTGATGTTGTTTTGTAAACTGAA
GCATTAATATTAGTTAGCTTTTAGTTAAATCATACTAGGTTTTTTTTTGTTTTTTCTTTTCTCACTCTGTCACCCAGGCTGGAGTATAGTGTTGTGATCA
CGGCTCACTGAAGCCTCAACCTTCCTTGGCCCAGGTGATTCTCCTGCTTCAGCCTCCTGAATAGCTGGTACTATAGGCACGTGCCACAACTCCTGGCTAA
TTTTTGGATTTTTTGTAGACCTGGGGTTTTCCATGTTGCCCAGGCTGGTCTCAAACTCCTGGGATCAAGCCATCCTCCTGCCTCGGCCTCCGAAAGTGCT
GAGCCACTGTGCCCAGTCAATATTAGTTAATTTCTTATTCTTATGGATAAGCAGGTAAACAGTTTGAAATACATATATTTACTAATGATTAGAATGATGA
ATTTTGTTTATATTCTTAAACGGAGCTTTATAAAAAATACATTTCAGTGAAAAAGAGTAGGCCGGGCATGGTGGCTCACGCCGGTAATCCCAGCACTTTG
GGAGGCCAAGGCGGGTGGATCATGAGGTTAGGAGTTTGAGACCAGCCTGACCAATATGGTCAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGC
GTGGTGGCGCGCGCCTGTAAATCCCAGCTACTCAGGAGGCTGTGGCAGGAGAACTGCTTGAATCTGGGAGGTGGAAGTTGCAGTGAGCTGAGATTGCGCC
ATGGTACTCCAGCCTGGGCCACAGAACAAGACTCTGTCTCAAAAAAAAAGAGTAATAGGACACAAATTATGGTATTTCTAATATAATATTAAAATAAACC
TTTGTAGTGTATGCCAGGGGAATTCCTAATAGCCATGAAGCCCTATTAATAAAAATATCAAAATAATAAGTAAAGGCAATGTTGATTTATTTCTTTGGCA
TCATTAGCATTAATAACACATTATATAAGATTCATTTCATAAGGTCAGGTTCTCAGGTGAGTTATGTTACGTTTCTTTACCAGTACCACCAAAAAGAGAC
TGGACCAGTGATTGGCCAGTTTAGTATGATAACTAAATCCCGTAATCCCAGTTTGAGGATCTACTTCCTATCCACCTCCAGTAGTAGTTACTGTATTAGT
TAAGGCTCTGGCAAGAAACAGATGGCACACTTAAAAGGGATGATTGAAGTGAATTAAGTGAATGAACTGTTTGTAAACTGTGGTCAGGATTAAGGGAAAC
CAACAAGATATGATGTAACACCCTGGAGCTAACAGGCTATCAACAGTGGGAGGCCTTTACCATGCCTCAGATTGAAGGGAAGGGGTGTGAGGAGCAGGAG
CAGTTACCAGACCCTGCAGGAGTGAGCCACTTGCAGTACCTTCAGTAGGGGATTGCATGTAATACCAGGGAGAGGAGGCTGGCAGAGTAGGGATCCAGGA
TAACAAATATCCCCGCCCTCCCCCCACCATCTCCTGCTGAAGCTTTCTATTGACTAAACACAGCTATAAGCCAGGACCAAGGGAGTCTGGTTGAGGCAGA
CTACAGGTGGGCCTCTTAGGGCACAGTGCTGGGGAGAGAAAGGTAGAGTGGACTTTATAGAACAAATAGAGAAAATCCATCTCACTCTCACAATCCCATT
CTTTCCGGCTTTGCACTCCATGCTATTTCTACAGTGACTTCTTTACTACTACCACTCATCTTTACTACTCACTTTTCTGGGCATTTCACTTAAGGAAAAA
TTTTTTTTTTAGTTTGCTGTTTTCTGCAGAATAGGGAAAATGTTGTTTAGATTGTAGATAATTGATTTCCACTATATAATTTATAGGAATCAAAGAGCAA
TATTTGAGGACTCTGGTTAAAAGCCAAAGACATAGAACACTATGGTGAGCAGCATAATCCAACGTCTTTTGCTTTCTTAATCTAAAGATGCAGAGATAAG
AAAGGAACTACAGAAGCTAGGAGACAGCAACAGAGGTTAGAAATTAAAGTTAACTCTCCTAGTTAAGACAGTTGTTCACACCTCAAATTTGGAAGCGCAC
TCATGGTTATGCTTTCACATAGTCTTTTAAGGCTTGTATTAAATAGAATGTTTTTCTAATTTAAGTTTACATTTTAYGAAGCAYATTGCATTTGAATTGA
ATTATACATATTTAGTATGAATRATTTCTATCTTTTTCAGAAATAGTTGTTGCTGAAAGTGTGGTTGTTATAAAGAAATTACTGCAAATGCAACCTGCAC
AACATGGTGAAATTATTAAACATATGGCCAAACTCCTGGACAGTATCACTGTGAGTATCAATTAAGAGATGTTTGCTGAATTTTATTCAGTAAGTTGTAA
TTTTGTTAAAATAAATGGTCAGCCTAAAGGGTAATGGTTAGGAGAGCTGAAGTGTCTGGATTCCAATTCTGAGATTCTAAGATTTCTTGCTGTTATAGGA
GGGAATTACAAATCTGAATAGGGGAAAGGATAGAATGAGCCTCGTGGTATTAGATTGGAATTGGAGATAGCAGTGTGAGTTTTATATATCAACAGCTAGA
TGTTGGGTGAGTATATATGCATGTTCATGTGTCATACATGAAATGAATATACAAACATCTGTTTCCCAGAGCTGTCCTTTGAGAGGAGTTAGAAACAATA
CCATTGAGCACACTTTGTGCACAGATTTTGTTTTTTTAATTGAGATATTATTTTATACTATAAAATTTACTCTTTTGAAGTGTATCATTGGTTTTTGATC
ACTTATAAGTTGTGCAATCACCAGTATGTAATTGCAGGACATTTTCATCACCCCTTAAAAAAAAATCCATAACTGAGACTGCCCAGTCTCCCTTCACTCT
ATACCCTGGCCACTACTAATCTACTTTTTTTTATCTTTATGGATTTGCCTTTTCTGGACAATATGTAGCCTTTTGTTTCTGGCATCTTTCACTTAGCATG
TTTTCAAGGTTTGTGTATGTTTTCGAATATAGTACTTCATTCCTTTATATGGTAGATCTTAGTTTTTAAACACAAATCTTGAAGAGTGGAGCAAGATGGC
CAAATAGAGGGCTGCAATGATTGTCACCCCTGCAAGAACACGAAATTTTAGCAACTAATTACACACAAAAAAGCACCATCATAACCAAAAATCAGGTGGG
CACTCACAGTATCTGGTTTTAACTTCATATTGCTGAAAGAGGCACTGAAGAGGGTAGGAAAGACAGTCTTGAATTGCCGGTGTCACCGCTTTCTCATCCC
CTGGCAGCAGCAGTGTGGCATGGAGAATCTCTGCACTAGGGGGAGGGAGAGCACAGGGATTGGGAAGAGAACAAGAGAACAAGAGTCTCTGCCTGGTAAT
CTAGAGAGTTCTCCCAGATTTATCCAAGGCAGTACCTCTACCAGTCTGCAAGAACCACATCATTATTGGGCTTGAGGCCCAAGTCCCTTTGAATAACCTG
GAAAGCCTTCCCAAATACAATAAGCACAAACAAGCCCAGACTGTGAAGACTACAATAAATACCTAACTTCAATGCCCAGAGACTGATGAACATCTGTAAG
CATSAAGACCATCCAGGAAAATATGGCCTCACCAAACAAACTACATAAGGCGTCAGGGGCCAATACTAGAGAAACAGAGAGATACGTGACCCTTCAGACA
GAGAATTCAAAATAGCTGTCTTGAGAAAACTCAAAGAAATTCAAGATAACACAGAGAAGGAATTTAGAATTCTATCTGATAAATTTAACAGATATTGAAA
TAGTAAAAAAGAATCAAGCAGAAATTCTAGAGTTGAAAAATGCAATTGATATACTGAAGATTGCATCAGAGTCTCTTAGTGGCAGAATTGATCAAGAAGA
AGAATTAGTGAGCTTGAAGACAGGCTCTTTGAAAATACACAGTCAGAGGAGACAAAAGAAAAAAGAATATAAAAGAATGAAGCACAGCTATAAGATCTAG
AAAATAGTCTCAAAAGGGCAAATCTAAGAGATATTGGTGTTACAGAGGAAGTAGAGAAAGGGGCAGGGATGGAAAGTTTATTCAGAGAAATAATATCAGA
GAACTCCCAAACCTAGAGAAAGATGTCAGCATTGAAGTACAAGAAGGTTATAGAACTTCAAGCAGATTTAACCCAAAGAAGCCTACCTCGAGACATTTAA
TAATCAGACTCCCAAAGGTCAAGGATGGGAAAGGATCCTAAAAGCGGCAAGAGAAAAGAAACAACATGCAATTGAAGTCTGATACCTGTGGCAGCAGACT
TTTCAGTGGAAACTTTACAGGCCAGGGGAGAGTGGCATGACATAAAGTGCCAAAAGAAAACAACTTTTACCCTAGAATAGTATATCCAGTGAAAATATCC
TTCAAATATGAAGGAGAAATAAAGACTTTCCCAGACAAACAAAAGCTGAGGGAGGGATTTTGTCAGCAACAGACCTGTCTTTTCTTGTAAGAAATGCTAA
AAGGAGCTCTTCAATCTGAAAGAAAAGGATGGTAGTAAGCAGGAAGAAATCATTCAAAGGCACAAAATTCACTGGTAATAGTATGTACACAGAAAAGCAG
AATATTGTAACACTAGAATTGTGGTGTATGAAGTACTCATGTCTTGAATAGAAAGACTAAAACGTGAACTGATTAAACATAACTATGACAACTTTTCAAG
ACATGGACAGTACAATATGATATAAGTAGAAACAACAAAAAGTGAAAAAGCAGGGTAGAACTTTTATTAGTTTCCTTTTTGCTTGATTGTGTATGCAATC
AGTGTTGTCATCAGTTTAAAATAATGGATTATATTAATAAGATAGTATTTGCAAGCTTCATTGTAACCTCTAATCTAAAAACGTAAAGTGGATACACAAA
ATATAAAAAACAAGAAATTAAATCCTACCACTAGAGAAAACCACCTGCATTAAAAGGAAAACAGGAAGAAAGGATGGAAGGAAGAGAAGAATGTGAAACA
ACCAGAAAACAAATAACAAAATGGCAGGAGTGAGTCCTTACTTATCAATAATAACATTGAATGTAAATGGACTAAACTCTCCAATCAAAAGACAGAGTTA
CTGCATGTATAAAAAATCAAGACCTAATGATCTGGTGCCTACAAGAAGCACACTTCACCTATAATGATAGACATAGACTGAAAAAAAAAAGGGATGGAAA
AAGACATTCCATGCTGGTAGAAACCAAAAAAGAGCAGGTGTTGCTATACTTACATCAGACAAAATGTCTGTCTCTTCCTACACTTATAAAAGACAAAAAG
TGTAGGAAGAGACAAGGTCATTATTTAATGATAAAGAGTCAATTCAGCAAGAGGATATAATGACTTTAAATATATATGCACTCAACACTGGAGCACCCAG
ATATATAAAGCAAATGTTACTAGAGCTAAAGACAAAGGTAGACCTCAATACAATAATAGCTGGAGATTTCAACACTCCACTTTCAGCATTGGACAGATCT
TCCAGACAGAATACCAACAAAGAAACATTGGACTTAATTTGTGCTATGCACCAAATGGATCTAATAGATATATACAGAAAATGTCATCCAAGAGCTGCAG
AATACACATTCTTTTTATCAGCACATGGATCATTCTTAAGGATAGAGCATATGTTAGGTCACAAAACAAGTCTTAAAACATTGAAAAAAATAATACCAAG
TATCTTCTCTGACCAGAGTGGAATAAAACTAGAAAATCTAAANNNNNNNNNNNNNNNNNNNNCTCCTGAATGACCAATGGGTCAATGAAGAAATTAAGAA
GGACATTGAAAAATTTCTTGAAACATGTGATGATGGAAACACAACATACTAAAACCTAAGGGATATAACAAAAGCAGTACTCAAGGGGAGGTTTATAGCT
TTAAGAGCCTACATCAAAAAAGAAGAAAAACTTCAAATAAATAATAAATAACTTAATGATGTATCTTAACTAGAAAAGCAAGAACAAACCAAACCCATAA
TTAGTAGAAGAAATAAAAATCAGAGCAGAAATGAAATCAGAGATGAAAAAGGAGATATTATAACTGATACTGCAGAAATTCAAAGGATCATTAGTGGCTA
CTATAAGCAACTATATGCCAGTAAGTTGGATAATCTAGAGGAAATGGAAAACTTCCTAGACACACACAACCTCCCAAGATTGAACTGTGAAGAAATCCAG
TATCTGAACAGACCAAAAACAAGTAACAAGATTGAAACCATAATAAAAGTTCTCCCAGTGAAGAAAAGCCCAGGATCCGATGGCTTCACTGCTGAATTCT
ACCAAACATTTAAAGAAGAACTAATACCAAGTGCTACTGAAACTATTCCAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
ACATTTAAAAAATCATTCGTCATGACCATGAGATTTATCCCAGGGTTACCAGGATGGTTCAACATTCATAAATCAATCAGTGTGATTCATCATATCAACA
GAATGAGGGACAAAAAACATATGATGATTTCAATTGATGCTGAAATAGCATTTGATAAAATTCAGCGTCCTTTCCTGATAAAAACCCTCAAAACTGGGGA
TAGAAGGAACATACCTCAATATAATAAAAGCCATATGTGACAGACCCACAGTTAGTATCATACTGAATGGGGAAAATCTTAGCCTTTCATCCAAGCTCTG
AAACATAACAAGGATGTCCACTGTTATTCAACACAGTACTGGAAGTCCTACCTCAAGCGTTCAGACAAGAGAAAGTTATAAAGGCATCCACATTGGAAAG
GAAGAAGTCAAATTATCCTTGTTTGCAGATGATATTATCTTATATTTGGAGGTATTTTGGGGTATAAGAGCATTCCTACAACTTACCTTTATTGGTTAAG
AAAACAAAATGTGACCAGGTGTGGTGGCTCACGCCTGTAATCCTAACTAACACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGA
CCAGCCTGGCCAACATGGTAAAACCTCGTTTCTTCTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGTGTGCCTGTAATCCCAGCTACCTGGGAGGCTG
AAGCAGGAGAATCGGTGGAACATGGGAGGTGGAGGCTACAGTGAACTGAGATTGTGCCACTGCACTCCAGTCTGGGTGACAGAGCGAGACTCTGTCTCAA
AAAAATAAATAAATAAAAATAAAAAATAAAATTATATGTTTACCTGGAGAGATAGCTAACACAAATGCAGTAAAATGTTAACATTTGGGGAATCTAAGTG
CAGGGTATCCAGAATTTTTTTTACTCTTCTTGTAAGTCTGAAATTATGTAAAAAAAAAATAAATAAATAAAGCAATAAATATTAGTTCCAACTCCATCAC
TTACCAGCTCCGTCCTTATGTTAAAGTCTTTATGCCTCACTTTTCCCATGTGTCAAATGATGATCGTAAAAGGACCTACAATATAGTATTATTATAGGTA
TTAGCTTAGTTAATATGGTAATGCCCTTGGAACGCTGGCTGGCACATAGTAGTGCTGCATTATGTGTTTGTCATTCTATCTTCATGCTCTTCTTCCCTTT
AAAACCAAAGTTTTTGAAAGAACTATCTGCAACAAGTTTTATTCCTTTACGTCAAACTCCCTCCCCGTCACAGTTGGATTTTGGTTCTCCAGCACTTCAT
TAACTATGCCTTTTCCAAGGTTACTATCTCCTTTCTAAATCCAGTGGATACTTTTCTGTCCCTATCTTCCTTGATCTTTTCTTAGCATTGGACTACGCTA
ACTACTTCGTCCTTTTTGAAATAGTCTCCTCATGGCTTCTGTGATTTTTCTCTTCTGGTTTTTCTTCAAACTCTTCAGCTATTTCTTCTCCATTGTGTTT
GCTTTTTACTATGCCTTTTTCTTGAGTGCTGGTTAATGTTTTGCCAAGTGATGTTCTATAATAAATGCAGATGTAGTTTAGGGAGGAGTATATTATTTCC
TTTTTTGAAGATGGGTTAATCTGTATTCTCATTCTCTTCAGAGGGATCATTTTTGTGTAGTCAAGGGTAATGGATCACAAGATTTAGAACCTGCCAGTCA
AGACCAATTTTAAATATCTCTGGTGGCAAAATTGTCTTTCCCTTAGGGTGTTAGTAAAGCTTGCAAGGCAGTTACACATTTATCTTAAAGCTAAAAAAAA
AAAAAAGTATGGCTTACAGGAGTCATTTAGCATCTGAACTTCCACCCCATCTCTCAGCGGAGAGTTACTTTGTATTCATATCTGTTCTTACTGTTGATTC
TAATGATCAAAGCCAAGACTTCTCATAGAGATTGTGTATGAGAGATGTAGGGGTTAAGAGAGTAATTTGAAAACCGGATGACTTGGATTCACAGTTGGTC
TGTACCTTTTACTAGCTTCATGAACTTAAGCAAGTTACTTGACTTCACTATGCTCCAGTTTTCTCATCTGTACAATGGGGATCATAGTACTGACAACCTT
AGAGCTCTGTTGGGTGGAATGAATGAGTCAATGCATGTGAAGCACTTAGAACAGTGCTCGGTGTAAGCTGTTATTAAGGGAATATTGAGTGTTTTTTGAA
GAAGACAGACTATGGTAAGGTTTTAATTTTGTAAGCTTTCTTATTGCCTCTTTTATATTTTACTTATTTAAAATAACTCCTATAGAGCATATCATTTGCC
AGGCACTATTCTAAGTACCTTAAAAATATAAATTATTAATTTTTAATAGCAACACTTCAAGGAAAGTTCTCTTAATATTCCTATTTTATATTTGAGAAAA
CTGAGGCACAAAGAGGTTATGTAACTTGCCCAAGGTCACATAGCAGCAGGTCTGCTTTCTTAACCAGTGCATTATGTTGTATCTCACTTCCATTTATAAT
CTATCTGTTTAAAAATTTCACTTTATTTAACAAATATTTAAATTGTCACCGGTCCTTTTTCTGTATTCAGTTCACATACCTACTCAGTGACCTAGCCAAG
GTTTTTTTTATTATTTCCTTTTGCTTCCCTCAAGTCATTGACAAATTGGGAATTAGAGTGACATGATCAATGTCTACCGCAGTGTAGAACAGATGTTTGA
CATTACTTTGATGGGAAATGAGAGGTTAAGCTTTTTTTCTCAAAGCCGCCGAAATGGACATCTAGCATTCCTATCCACCAAGCATCAAAATTCAGTCGTG
TCTCTAGTCATTGTAACACTGCTCATATTTAGTTACTTCCTACGAAGTGATACAGCCCCCAGGAAGAACCACTTGTCTAACCAATAGCTAATGAACTAGC
ACAGAGAACTCTAGATGGAAGAAGACAAAGAAGAGAGATATATAGGTGACTGTATATTTACACATGATTATGAGGTTGGTGCARAAATAATTGTGGTTTT
TACCACAATGGCAAAAACCTCAATTCCTTTGCACCAACCTAATAAATGTATAGCAATAGACTAGGAATGTCTAACCAAAGTGCTAAATTTGAACTCTTGA
TAAAGAAGGGGGCATANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNAACTTGGGCTAGTAAACTCGTTCTGGTCCTGTTTAGAAAGGAAGAGGCAATTATAAGTACTAGGGCTTCAG
GAGAGTGCAGCTGCTATACATAAAACCTGTAACAGTGTATGAGGCCTGTATCTGGCAAACCCTAGGCTTTCTTGGAAGAAAACTTTCTTCTATTTGAGTA
TATTCATGTCCAGGGATACAGAAGATACTTTCGATGTGTAAACTTTCTTTTTCTCGCTCATTCTCTCTCTTTCCCTTTTTTTTTTTAATGGAGTCTTGCT
CTGTCACCCTGGCTGGAGTGCAGTGGCGCAATCTCATCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCTGAGTAGTTGG
GATTACAGGCATGCGCCACCGTGCCTGGATAATTTTTGTGTTTTTAGTAGAGATGGGGTTTCCCCATGTTGACCACGCTGGTCTCAAACTCCTGACCTCA
GGTGATCTCACCCCAGCCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCATGGCACCTGGCTGATGCATCAACTTTCTCAACAGTTGCTGGACTATAAGC
CAAATAAGTACAGTCTTACAGCTCTATATAGCAAAGCTTATTTTTTTCAGCTTTTGTTTTTCTCAGAAGATAACCATTAATAGATACAAAAATATGGTGA
GAATTCAGTATTCACAAAGGAAAATAAAGGAACAAATAGCAGTTTTACAAAGCCAGAAAAAAAWTAAGAAAGAAAGAAAACAAATGTAAAATAAATAATA
AGTATTTAAAAGTAATAAAGATGGAAGAAATAAAATCAAATATTTCTCATCTTGAATATGAATGGACTGAATTTTCTCATCAAAAGACAGACTTACAAAT
TGGAATAAAAACAAAAACTAGCTACAGGCCATTTATAGTTAAAGCACCTTAATCAAGTGATAAAAGTTGAAAATAAGAAGGTAAGGAAAGAGATATTAAG
CAAATATGAACAAGAAAGTGAGATTTACAGTTAATTAAAAGCATTTAACAAGATAAAAAGGAACATTATAAAATGAAAAAAGGGTAATTTGTAAAGAAAG
TAATAAGCACAAACCTATTTGCACAAAAAATATGGCAACCAAATAAATATGTAAAGGAAAAATCTATTCAAAATGTGAGGAGAAATTGATAAAATAGTTA
CAATGTGTGACTGTAATGTATTTCTCTCATATTAGATATTYCTAGTAGACAGATATAAGTAAGAAAATTAAGTAATCAAAAACTTATTTAGTAAATATAG
CTAAAACCTTATATCTCTTGAACAGATAATACCCACTTTTAGGAGTATATCCAGTGAATATTTTCAAAAAATCAAGAATGTATTTAGGCATAAAGGAAGC
TTAAAGATTTTGCATTCTTTGACCTTAAGCAATGAAATGAGACTTAAATAATTTAAAAGGGTACCAGACCAGTTGTAAAGTAAGAAATGTACTTTCAGAT
TAAAGAATGCATTTAAAGAAGAAATGCAAACTTTTTTCTAAAACCCAGGAAATAAAATGCTTTATTTCAAAACATGTAGGACATGGCTAAAGTTATAAAG
ATCACCATTTTTAAAGTATAGGGATATAAAATAAAAGAAAAACGAATCAAAACAGAAGAGGGATCAATGCTGATTTTGTAAAATAGAATACAAAAAATAT
ATATGAGTTGAAAAGTACATGTTAAATCTGGTCTTTTGGAAAGAAAATAAAACAAAATTCCCTTCTAATTATTATGAAGCAGAGAGAGGTAACAAAAGTA
GACAAATCTGGAATATGATAATAAAAGAAATTAAAATACAAGAAAGCTGTATGGAATTCTACAGCACACATTTGAACTTAAGGAGAATGAAAAGCTGATA
ATTAGTTGTTACTGCTCATCTAACGTATCTGAGGAAACTGAAGTGCTTGAAGGTGGGACAAGCAAGGAAGAATCAAAACAATTTGTTGTGCAGAACCCTC
AAAATGGTCAACCACAAGTTACCCCAGGAGAAGGTGATGAGGGATGTAGCAGACATAACTTCAAAGTCAGGAAAGAAGAATGATTGAATCCCCAGAATCT
CTCTGTTCCAGTCAGGAGAGCTGTTTATACAAGAACAATGGCCATGTGGAAATAAAAGCAGTGTTTTATTAATCCGACCAAGTACCTGATAACTCCTAAA
CGTAGGCAAGTGATTTTAAAATGTGAGCCTTAAAATAAGAGCCTTAAATGAGACTTCTGTCCTCCTGAATCTCTACCTATTTCACCATCAAACCCAGGAG
TGTCATTCTAAAACACTGCAATTTTAGGAAAAGCCAGTCTGTCCAATATCTAAGGACAATGGGTCAATATTGAGCATGTTTTCYTTCAGTGCYTGAGCCA
CTTTATTAGGGCAGAATCCTGGGTCCATCTTTCTTCTGGAAGGAGAGAGAACAGAAGTGATAGCAAGACCTCTTCCCACCTGGCCACCTTACCTATCCTT
AAAAGAAGAGGTGAAAGAAGTGGGAAAATGTCCCACTATACACGGGTGTGGGAACAGGCAAGAGGATGGCCTGGGTCTGCCCTGAAAATCTGGCTCTTGG
GGAAATGGCAGGAGGCACTAAGGGAGCCATTGCACAATGTGGCAGACAAACAGAGGATGAAGGAATAATCCTTCATCTGATTAATAAGTAAATATGACCC
CAGTGAGGTGAAGTTAATTGCCTCCTTGATGTAACACCATCAGTGTGGGATCAGAACCGGTCTCAACAGCTTGCTGACCAGTATTCTTCCTAGTTTACCA
CACTCATTTTGTCGCTACCCAGTGATCCAGTATGAATTTTGGATTCAGATTTGGAGTTCTGATCCTAGTTCCACCACTAACCAGCTGTGAGATGTGGGCA
AGTTTCTTAACTCATTTGTTACCTAGTTTCCTCATATGTCTAGTGCAGATCATAGTAGAGCATACTTCATAGGGCTTTGGCGATGAATGACTGAGAAAAT
ACGTAAAGCTCTCAAAAACAGTGCATGGCACATGGTAAGAGCTCAATAGATATTAGCTATGTAATTTGTTTTAAAAAGAGAACATAGATTTTATCATATT
GAGGGCTTTGTTTTAATTGGTTATTTAGTAATAATTGAAAATATAAAAACTAAAGTTTAAATGTATTTTACATTTTGAATTCGGTCAAATCAAATAGATT
TATGTCTGTAATACAGTCAACTTACATGTTCTGATTGTGAGTATTCTGTCCTTTGGCGTATCCTTCATTTATGATAAATACTGGTTTTGGAGTTCTTCTA
GAATAAAATGCATACTATCAGCTGGCATGGTGGCTCATGCCTGTAATCCCAGAACTTTGGGAGGCTGAGGCGGGAGGATTGCTTGAGCCCAGGAGTTTGA
GGTTGTAGTGAGCAATGATTGCACCACCGCACTCCAGCCTGGATGACAGAGTAAGACCCTGTCTTTAAAAAACAACAACAACAAMAAAACAACCCRTACT
ACCTGTGGATTGCTCTGACAGGATTTCACATAATGTTTAATGGGACAGATGGGATTTCATATCTTAACAACTGAAAGATGTTATTCTGTAAAAACTGAGT
AATATTGAAATAGCACTTTGTATCCTTGTTGCCCAGATGCCTCACAGGATGCCTGCCATTTCACAAGTTACCCACCCTTTCTCTGGCACCCCATTGTAAT
TCAGGCTTAGGCTTTAATGCATATTGAGTCCAGATACAGAGTATTAGATCTGATTTGCTGTTGGTATGCAGTTTGCTTAGATGTCTACTGATTTTGCCTT
TGACARATTTAAATAAATGAAATTGATGTTTTTGTAGGGTTTACTTTGGACTGTTGCACTGTGCAGTGGGCTGGTGTTGAAACACAATAGCTTTTAAATT
GAACTGCTTACAGAGTGATCTGCAAAATCTTTCTAGATGTCTTTCTATAGCTGCTGTGGTGAGCTAGGAATCATTATTTGTTTTTGCTGGCAAATTAATG
GGTTGTGGTGGCCGTGGAAACTGCCTTCTAGTACAAGGTTTGAAAAGTGCATTTAATCACTTTCTCAGGGCATTTAGAATAAAGAATCAGGCAAAGTCAT
TTACAATCCAATTTGTCTTTGAGAATATTGAAAAGCAGAGCTTCATAATGAAAGTATTATATCATATGTATGACTCTGTGTGTGTGTCTGTACCTGTGTC
TGTGTCTGTGTGTGTATTATTAGTTTGGTTTTATTTCAGTGTTCCTATTTATTTTGTGGTTAAAAAGACCATGGGGAACAAAAAGTGACTAATTTACTTT
TCTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTTAGCTCACTGCAACCTCTGCCTCCTGAGTTCAAGTGAT
TCTTTTACCTTAGCCTCCCAAGTAGCTGGAATTACAGGAGTGTGCCAGGCTAATTTTGTATATTTAGTAGAGACAGGGTATCACCATGTTGGCCAGGCTG
GTCTCAAACTCCTGTCCTCAAGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTTTAGGCATGAGCCACTGTGCCTGGCCTCTAAAAAGTGACTA
ATTTTCTTACTTGCCTTTTTTTCAGGTGCTTCAAATCTTTGAAAGTAGTGGCTGTGAATTCATAGTGTCAATGGTGTATAAATGAGAGTCCTGTTGCTTA
ATGGGAAGAGAAAGGGAAAGCTGGAATCCAAAAATCTTAGTATTCTGATCCCATCCACCTGCTCAAAAATGTTGTCTTTGTCAGTTTCCTAAGCTTTGTA
ATACAATGCCATCACCAAAAGTTTGGTATATTTATATTGATATTATTTCTTGTGGTGAAGTTTTCTAAGTTTTAAAAATTCTTGGGGATTTTATTAGCTC
AGTTCTAGAAAACTACAAATCTTATTCTCACCACCATCTTGAGATTTTTATTGTGAGCATTGTGATTTATTGATTTTTAATTTTTTCAAAGAGTTGTATT
TTAAATATATGTATCGTGAGTGTTTACAGTATTCCAATATTTTAATTTTAATTTTAGTATATTCATGAATATAAACAATCTCTTTAAACATTACTTGTTT
TTGGGATCGTCTTTTTAATTGCAAAAGATTGTTACCAGAAGAAAATTACTTAAAATGGGATAATAGATTATGGTATGTCATAGAATTCTGATTTTTATAC
TAGCAATATATAATAAAATATTTAAGAAAAATAAATCTAGCATAACTGAAATTTGAAGTTGCACATATATTCTTATTTAGAACTACCTTTCATTATGGCA
GGCAACTTGAATTCCTCTATACTGGAAAATTTAATGTACCACTCAATTACTATTCTTTAGCCCAATTTAAAATAATAGATTGGGAGTAAGGTCTTAATGC
AGTGTAACCTTTGGAACGTTAGAAATAACCTCTTTTCTTTCCAGAAATCAGTATRCAGTAAGGGCATCAGTTTTATCACACTGCATGAATAGATTTTTAA
TAGCACTTAGACCTTTTTCTAATTGCACAAGTATATGGATTTCTTSTGTCTCACCAAACATGCTAAATAATAATTTAAAGACATGCTGTTACACTGTTTT
AAAATATATACCTTTTTATTTAAAAGCTTTTTTGATCATCTCATTCTGATTCTAGTGAAGGACTCAATATTGTAACTTAATATTTTTATATAATTTCATA
ATGTGGGTGTTTTGAAAGATTTTGCAATGGTAGATATTGTGATAAAATTTTAGCTATGGAAAGGTCCTTATTCTCACTTTTTTCTTTAACAATCCTACTA
TGTATAGCCATGAAACTACAGAAAATATTAGGACTTTGAGAAATTGTAAAAGGACTTCATAAAAAGAACATTATCTTTCCTCGTGATGCCACCTTTTAAT
GATAGCTGTCAGCCTTTTCACTTATTATAAAAAACAAATTTTCTGTGCGAGGTGAAAATGTTCACTGAAATGAATTTACACACCCTCTCAAATTCCTTTT
GGAATAGGGGAGGATGCAAATAAGCAAATAGTAATAAAACTAATTTGCATACTCTAAATTGTTGGTCTTAATGGTACTGATGGAAGGTTTCCAATTTGTC
ACAAAGCAGTGACTTTTAAGAACATAAATTATATTGAAATGCAGTTTATTTAAAAATATAGTGCCAAAATGCAATATTGGACAAATTTATCCCTGTTTCT
TTTGTTGACCAAATAATAGACTGGGATTCATGATTTTATAAGCAGACCTTGATGATCTTATCAGTTTGATATRTTTCCAGTGTTGTAGATGCTAATACAT
AAAGAGCAAAAACAGTTTTGATTTGGAATCATAGTACCTAATTGATCTGTTTCTTTTTCTGTATTATCTGTGGGTTCTCAAATGGGCTTTGTGGACCACC
TGTCTCAGGAGTCATCTGTGATGCTTTTTAAATTAAAACATAGATTTCTGGGCCCCACCACAGAAATACTATTTTGGAGCTGATCCCAGGACCTGTCTTT
TTAGTAAGAACCCTGGATGATTTTTGTGGGCATTGAGGTTTGGGAACTGCTGTTCTAGAGCAGGGGTCAGCAAACCATTTCTATAAATTGCTAGACAGTC
AATATTTTTGGCTTTGAGGACCATATGGTCTTCACTGTAACTATTTCTGCCATTATAGCACAAAAGCAGCAACAGATAATGGAGAAACAAATAGGTATGG
GCAGSTAGACTGGCTTCTAGAATTTGTTCGTCTCTGATAGAATCTAGATTCTAGACCATCGGTTTTTGCTGTATGAATATTTTCTAAGATATTCTCTTYG
AAATCAATTTTAATGAGATTTCCTATGTGTTTATTTTTTGATAACTGAYRAAAATTCATAAATACAGGAWTAATTCCTAGATATACATTAAATTAATTAA
TAGCTGTAAAACTTTTGTAATAGTTAAAACCTTTTCTATGTTAATATTAGAGTATGATTAACTTACTTCTAACTATGTAATCTGCTTCTCATATTAGGTT
CCTGTTGCTAGAGCAAGTATTCTTTGGCTAATTGGAGAAAACTGTGAAYGAGTTCCTAAAATTGCCCCTGATGTTTTGAGGAAGATGGCTAAAAGCTTCA
CTAGTGARGATGATCTGGTAAAACTGCAGATATTAAATCTGGGAGCAAAATTGTATTTAACCAACTCCAAACAGGTGAGAGGCAAATGTTAGTCAACCTA
TCTAATACGTACTTTCCTCTTCACTCTGATCAAACAGCGGGGGTCTGTGCCTTCATTAGTCTGACCATTCAACAATTTCTAGGTGCCTGTTTGTTTCAGG
TTCTATGTTAGATGATACTAGTGCAAACAGATGACATTCTAGTCTAGTAAGAGAGAAAACAGATTAAAAAATGAAATAGTGTGTGTTAATGCTGTAGCAG
AAGTATTGACATACAGTGGAATTCTAGACGAATTATAAAGTCTGAAGTCGATGTGAGGTCAGAGAAAATTTTATAAAGGATGAAACTCTTGACTAAGGGC
TTGTAAGAGTGGTTTACTGTACAGAAAGAGGAAAGCACAGGGTCAGAGTCAAGAAACAGCTTGGTGTTTCTGGGAAACTTTTTGAAGGTGAGTCCAGAAT
GGCAGGTACAATGGTCTGAAAGTTTATATCCCCCAAAGTTCATGTGGTGAAACCTGATCACCCATGTGATGGTATTAGGAGGTAGGACCTTTGGGAGGTG
ATTAGRTCATAAGGGTGGAGCCTTTATAAATGAACTTTATGCTCTTAGAAAAGAGATCCCTGAGAGCTAGCTTGCTGCTTCTGCCATGTGAGGACACAGT
GAGAAGGTGCTATCTGTAAATTAGAAAATGGGTGCTCACTAGACACCAGAACTGTGGGTACCTTGATCTTGGATTTCCCAGCCTCCAGAACTGTGAGAAA
TAAATTTTTATTATTAATTATATTATTAATAGGCTTCCCAGTTTATGGTATTTTCTAACAGTAGCCCAAATGGACTAAGACATTTTGCAGTTTGAACGCA
TGGAGTGGCTTGTATGCTCTGCTAAGTAGTATGGACCTTGTCCTGCAGAGGAAAGGGAAACCACTTTTAATAGTAGTATAATTTACCAGATTTKCAGTTT
AGAATATTCATTTTTTAAGTCCATTGACTTTTTGAGCAGCTGTTAATAAGAGGAATCATTTTTGCTTCCATGTACGAAATAGGGACTTTTCCTATATCTG
AATTGCTATTCTCTGTGAGTGGACTTACCTGTTTAGTAAATTGGAAAAAGATTCTTGCTCATTTGCAGCTAGGCTTCTTGGGAAGCTTTATGCTCTGTGT
CCTATCTATTTTTCTCTAATTTTCACTTTTCCTCTGACTCTTACTTTTGCCTTKGTGATTTTTTTTCTCCACCTCCCCTCTCTTTGTTTTTGTCCCCTTC
CCCAAAACTCTTTCTGCCTAGATATCTCTCTGACATCCTTCATCCCTTCGTGCCCCGCCCCCGTACTACAGTCCAGTGTGTTTGTCATTGTCTCCTTTCT
CTTCCATCCCTGTTTGTTTCTCTCTTTTTGTATTTGCTGTGTATCTCTCTATATGTGTCTCCCTCTCTGTCTGCCTTTCCTGCTTCCCCATAGACCACAC
TTATTTTCTAGTAAACTAATGTTTGCCTTTCAGAATCCTTAGGTCGATTCCTCAAATTCATTTCTATATGCTTTGGGATTATCTTCATCCCTAATCGTGA
TATGAGTTATCTTATTATAGCTTTTGCTGATTCATCTACAAGATTTGTAACCAGATAATTGCAAATAATGGAGCATATTTCCATTATTTAGATTTTGTCT
TTACATTTTAAGTCATCTTTAAAAGGAATCAGTTAATCCTTTCCAAGTGTCTGTAGATTTCTTCATACATTGAGATGCTTTCTAAAAACTGAGTAAAGAA
AGACCTATGTTTGCTGTTGAGTTTCATGTTTCTTGATAAAATAGAGGGAGTTTTAGCCTGAAACTCCATGGTGTTCACTAAATCCCTGTGGTATGGCAAA
AGTCAATATGATACCTAGACTCTTAGGATTTTTTTCTGTCTGGTTTGGCCACTCTAAATATATCTAGCTTATGGATTGTTGTTAAAGTAATACCAAAATC
AAATGTCAATCAAGACTTAATCAAACTAAGTAAAGCTTCTTTCTTTGGCTCTTTTCTTTGTAGCTGTGAATAACCAATAATGAAATGTAGTACTGTTTAT
TGTAGAGCATGTTTCATGTCTTTTTACCCAGTGAATTTGAAGACAACTAGTTTGCACTCAGGTTTTTTTTTTTTTTTCTTGATCTCTATTATTAATGGCA
GTTTTGGAGCTCAGTTTCTGAAGTGTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCCCTCTGTCACACAGTCTAGAGTTCAGTGGCATGATCTTGG
CTCACTGCAACCTCTACCTCCCAGGTTCAAGCAATTCTCATGCCTCAGCCCCCTGAGTAGCTGGGATTACAGGCATGTGCCACCATGCCTGGCTAATTCT
GTATTTTTAGTAGAGACAGGTTTCACCGTGTTGGCCAGGCTGATCTCGAACTTCTGACCTCAAGTGATCTGCTCACCTCGGCCTCCCAAAGTGCTGGGAT
TACAGACGTGATATTTTATATTTTAGAATGATACTTCTAGGAAACTACAATAGGCCTCACCACCTAATGGTGAAAACACAGTGATTTTTTTTAATCACAA
ATTTTTATGTAGCTCATTGTTTTTAAGTGATTAAATATGAAAATAGATTAATAGTGTCTTGAAGAGTTGTTCTCTGTTTTTGAATATTTCTCAAGAAGAG
GAGATTGAGAGAATTAGCAACTGAAAATTAGTTGTTTTTTGTTTTGTTTTGGAGCAGAGTCTCCCTCTATCGCCCAGGCTGGAGTACAGTGGCGTGATCT
CGACTCACTGCAACCTCTGCCTCCCGTGTTCAAGCAATTCTCCTGCCTCAGCCCCCTGAGTAGCTTATTATGGGTGTCTGCCACCACACCTGGCTAATTT
TTTTTTGTATTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCATGACCTCAAGTGATCCGCTTGCCTCAGCCTCCCAAAGTGC
TGGGATTACAGGCGTGAGCCACTGCACCCAGCCTGAAAATTAGTTTTAAAGAATGGTTTTAAGCACTATCAACTTGATAGAATTTTTAAAATTTGTGTAA
TCCATTAGATATAAGACAGACTAAAATAATTGTTTTGACTGAAATACTAAGAATTGTTTTCTCTACTTATTTATTTTAGCCATCTTTAAAACTAAGCTAG
GGAGAGTCGATTACAGTGATGAGTAGCTGGTTTGCCGTGAAGTCTTGATATTTATTTGTAGATCTGAATTCCCGGTGGCCTAAATACCTCAGTGAGCATT
TCTATAATTTTTATTGAATTATTTAGGGTTATAGAGAATGTCTAAATTGATTTTTATAAGATTTAGCATATTGTATTTATTTGTATGTTTGAAGAATAAT
CAAATAGTAAATTTCTTTATCTGCCTCAAACTATTTTTGACCTAATATAAAAAATAATTTAAAAATTAGTTAGCAGTCTGTTTTGAGTATATCCTAGACT
GACCCTACCATAGAAAACAGCTGTAAACTCCAGAAAAATACAAGAAACAAACGACTTTCTGAAGACACAGAATAGTAAAGAAAAGCAAGAGAATCTGGAG
GGAAATTCATACTTAGAAGAAGGAAATGGCACAGAGTTATTTTCCCTGTTTTTATGGCTTTTATCCTGAGGACAGTTTGCAGTTGGCACTGTGCACAGTG
GCTAGACCTCCAAAAGGAAATTCAAAGTCCTTCTGGCTTGAGGAAGTAGAGAAGAGAGTTCAGGAAAGCTACAGACATTGGAAAGTTAAGGAAAAATAGT
AGAAAGGAGAGAGTCAGTGTGGGAGAATCTCAAAATCTGGGAGTAATTGTACCTAAGTTTTTGGCTGGCATCTGAACCATACTTATGCAGGGTGGATTCA
GAGAAACACAGCTAGGAATTAAAGAACCAAGCTGAAATTTGAGGTGTACCCAAGAGACTGAGTTTGTACCTTGAACCCCAACAAAGTTAATTACCTGCTA
AAACAAATGAAAATCCTGTACTCATTCAAAGAGTTTAACTATGTCCAGAGTCTCTAAAATACATGGCATTCTTAATGTCCAAATGTATCTTGTATATCCA
AAATTACTCAACATAAGAAGAACCAGGATGGGGAGTTATTGTTTAATGAGTACAGAGTTTCTATTTGGGAAGATGAAAAATTCTAGAGATGGATGGTGGT
AGTGGTTGCATAATATGGTAAATAGACTGCCTGGCTTCAAATCATGTTGTGCCACTTACATGATTTTGGACAAATCATATAACCTATCCAAGATTTCATT
TTCTCATCTGTAAAATGGGAATTATTATAATATAGTCAATTTTGCTATATTGCAACATGTATGCTTCTAAAATCATTGTGCTATACAAAATCACACAATA
AAAACCATAGGGATTATTAGAAAAATGCAGTTAGAGTGGCAACACTCAAAAACTATATTGGTGACATATTTTTTAAAAAGGAACCTAAAAAAAAAAAMCA
GAAGTACAATTTTACACGTGTTAAATGGTTAACAAATAAATACTACAATGATACTGCTCTTTATATTGAAAAAGACTTGAGGTTTGCTTATGGAAGAAAG
GCTATACTTGTTCAGCGGTAGAAAGAGGGTTAATCTGAAATTGGATGGAAAGTTGTGCCTCCTAATGAGCATGAATATGGCGCATAACACATGTAGATGT
TAACCTCTGAAGTACATGTTTGAGGTATGTATGTTTTGTGTATTCCTACACATCTCTGTTTAGCTGGGTGCATTTTTATGCCTTCACCTAGTATTTCTTG
CAGAAGAAATCACCACAAAATTCATGTTATGCCCAAATTGTTCCCTAATATGCCAACTGAGTTGGAACAAATGCACATTTTCAAAACAAGCATTAGAGCA
GAACTGACTGTACCTACCTCACAAAGTTATTATGAGGATAACATGAAACAGTTCATGTAAAATGCTTAGATTTCCTTGCACATAATAGTGCCTAGTTCAT
TTTAGTTATCCTTCTTTTGTAACCCTAGCGAGCAACTGCTGTATTCTTCTTAGGGAATATGATGATTTACAGTAAAGAAACTAGTCTAGTTACTGACAAA
AAGTGTATTCTTATTAGGAAAAAAAACTACTGATTTGGGTTTATCCTACTGAGATTTTCTAAGTAGGATGCTGAAATCTCCCCGCCCCTCTTTTTTTTCA
GTCTGTGAAGAAAAAAATGGTTAGAAATAAGTATCAAGAGTAGAAAACACTCTTAGAATACTCTCACACAGGAGTAATTTCACTTTTATGTGGGGAAAAA
GTTGAAAGACTGAAACCAGTTGAAGTTGCTGAAATCTAGAACTGTTAAGGCAGTATAAAGATTTAGCATGAGTTCGTTGAAATAGTCTACTGAAGTTTGA
GGAAGAAAGGATTTAATTAAACAAATTAATAACAATTTAAAAGTTAATGAATAAAAGATGCTTTTGATTTTAAACTCTAATAGTATGTCATCTTTTAAAT
GTAGTGATAAGTGCTATAARTTAATGTTTTTCTTAGCTCATTTTGATTTTTAGTTATGAAATATTGCAAACCTATGGAAAAGTACATAATAGCATAAATA
CATATGTGTATATCTACCACTAGGATTAAGTTGATATTCACATTTGCCTTTATTTATTTATTTATTTATTTATTTAATGTAAGATGTATAGAACTAGAAC
CTCAAGCTTCTGTTCACACGTTCGTTTCTTCCCCATTGGTAACCACTGCCACCTTGTTGGTGTGTTTCATTCAATCATCCCTGTTTTATATTTTTATTAT
ATGAATATGCATCCATAAGCAATGTATGGTTGTTTTTGTGAGTTTTCAAATTTTACATAAGTAGATATTCTACTTTATGTATATGTTTGCAACTTTTTTT
GCTTAATATCATGTTTTTGAAATATGGATATGTGTAGATATAATTTAATTACTATCTCTGTCAGACATTTAAGTTTCTACTTTTCTGCTATTAAAAAAGA
AAGTGCTTCCTTGAGTTCTTTTTTACTCTTAGTGAGAGATTTTGTAAATCACACTGATGTTTTAGGGATTCCTCCTAAAGTTAAAAGCAGATTCTCTCTT
GCCCGTGATTCAGGTCTTTGGAGAAATCTCCTTCCCCCAAAGCCTCTTTAATGTGATTTAACAAAAGGAGACTTGGACACTCTGAAGTGACATCTCTATC
CTTTCTTTGATATGTTTTCCTGGCATTGAAAAACTCAAGTAAATATAATACAGAAAGGAAGACCTTACAGAAAACTTTTCAAGTTGACAAAAAGGTAGAT
ACTATTAAATTCAGAAATTACATCTAAGTCACATAAAGAATCCTGTTTAGTCATGAAATTAAGAAACTAATTAGGGCTGGGCACAGTGGCTCACGCCTGT
AATCCCAGCACTTTGGGAGGCCGAGACGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACGTGGTTAAACCCCGTCTCTACTAAAAAT
ACAAAAAAATTAGCCGGGTGTGGTGGCACATGCCTGTAATCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGTTGGCAGAGGTTGCA
GTGAGCTGAGATCGCGCCATTGCACTCCAGCCTGGGCAACCAGAGCGAAACTCCATCTCAAAAGAAAGAAAGAAAGAAAGAAACTAATTAGATGGAACAA
CGGTACTGCTTAGGTTTGCCTCTGGTGTAAGTTAAGAATTCTATGTAGAGTTTACTTCATTTACCAAACATATTTGTTTGTATCATCCTGTTAAAAAATA
ACAGCAATGTAGAACCAATATAAATCTTTACTATGCCGAATGCAGACTTCTGTGTCCTTTTTATGTAATAGTAAAGATATTATTAGAACTATAGTATTAA
TAGTAAAATATATATTAGGACTATATTTTAAGAGACCTTTTTAGTTATTTGTACTGACTTATAATCTATTAGAAGAAAGCTATTGTTTGAATAAATATTT
CCCAGTTTATTGTCAGAGTATTTTGAGAAGTCTTTTAAATAATGTATTTCTTTTTTTTTTTTTTTTTGAGGCGAGTCTTGCTGTGTCGCCCGGGCTGCAG
TGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTGAGCCTCCTGAGTAGCTGGGACTACGGGTGCCCGCC
ACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTAATAATGAATTTCTTAATTTTTATGTAACAGTTCTTCAAATTCATTT
TTCCTGTGTCACAGTGACTTAGAGTCAATCTGAAGAAAATGTAATTGATATAATTAGTGTCTGGATAGCATTAGCCATTAGTTGGTACCAATAATGGTTC
CTTAAATCTAAGCAGGAAAATTAGTCTGAAAACAAAATTTAATAAATAGCTGTATATATGATATTGAATATTTTTGTTAATGATAATACATTATACTGTC
ATTGCTTATCTTGTGTAATTTGTGAATAAAACAAATTTAAAAGTACTATTTAATTAATATCCCATCTGGTTTTGGATTGAGCCTCTGGTGATATTAAAAT
GTCATGATTGTACTTAAATGTTGTCTGTTTTCTTCCTAACAGCTTCCCTGGACAGATCTAATTTATGCCTGTTGTCTCCATGCCATCTAGTTTAGGATTT
GTCCCAAATTTTTAATGAAGTAATATCACTAATATTTGCCTTAAAATAGCACAGTTAATTTGTAGACCTCCGCTTTGAGGTCTTCTATCTTCTGCCATAA
TTTTGTCTAGTGGCATGTTAAGACACAAGTGCAGTGAACAGAGATTTCATTTTAATATGTGAGCCATTTAAATCTGAAAGACTGTATCTTTTTCCCACCC
TTTCTAGATGTAACATAACTAACTTCTTCCTTTTAGAACAGCAGGCAGGATTTGTGCTGATAAATGAAGTATACTCTGACAAAGCAGGTGGGAAAAGCTG
TCTTTTGCTTTGCTGGAGGTGGAGAGATGAGTATTTAACAATGCTTCATTTGCCAGCAACTTGATATACCAGCAAGTGTTGCCATGGCCTATGAGATGCA
TGAAGCTCCAGGCTGCCAGTGGGTGGAATTAAAGGAAAACATGGGAAGTTAGAGGTTGGTTATAGGTGAAATATGTGCAGGAGTAAAGACTGAATAGTCC
TGTCCTAGGTCATTAAAGAGAGTGGTGAAAGCACTCTTGCTACAGTAGTTTTGTCATTTATTGTATAGTGTAAGTCTAAAGTTTGTTTTATTATTTGGCA
GTTCTTTTTTTATCTTGTTATAAAATCATCAGCAATATATTTTTTAAAGTGGAAGTGTACATTTAACAAACAATAAAGTGCTAAATTTCCACTTAGTACT
TAACATGCATAAAATATTTGTCGACATTTACCAACCATCATGAGAGTGCTGGTGATCTCATTGACCACACAACAACCAGAAGACACAACAATCTGCTACA
AAAAGATCAACATCCATTTAAAAAGCTAGTAGTTATTTTAAGATTATGCATTAAGGTAATTTAATACGTACAGGTGCAGAAGATGTTTATATAATTCTGT
GTGAAACATGACCTCATTTAGATCAAATAACTTTTTGAAAATTAGTTTTTTACTTTTATTCTATGTTTTCTTATGCACATATGAAAAATGAAACAATAGC
TGTTAATGTGGTGGCTCCATTAGTAGAAAAAAGGCCCAACACTGCTGGTTTTCAAACAGAAAATCAGTTAATTCCAAAAATAGACTTTTTTCATTCAATG
TATTTGTATATTTGTTTGGTCAGGGCTGCAAATGGGAACAAAGTAAAGCTTTTGGAAGTTTATTCTGTCAAAAATATTGCAAATGCTGTTGTAAATTAAA
AAGCTCAACTTTGAAGATAAAACTGTTTTTGATGAAAGGACGTTGTCATGGTAAAAATCAATGTTCTTATTTAATTAAGAAAACTATGGAAGAGAAATGT
TTTAGGAATTGGTTGTTGTGCATGCGAACAAACTGCTTATTCAGCCAGTTGAAATAAAACCGTAGTTGTCACATTTACTGATATTAGTATACACAGTTTG
ACCGAACTATAAAATTCTTGTGATGAAACTGATGTTGAAAAACCATTCTATAGCATAACAGTACACACTGTCTTTAATGCATATTAGCAACAGAATTTTA
GATACATGATTTTGTGAAGAACTGCTTTGTAAATTAAGTTTCTTATATTGGCTTAAACATTTTTTATTGATAATTGAGTCTTCTGTATATTGGTTAAGTT
TTGGTTCACAAATTGTTTGGATTATTTAAAGTGTCACTAGTAAATGCCAAAAAATTTTACCTTTTGAAAAATTTTAGCAAATAGCAATCATTAGAAACAA
GTCTTGCAAACAGAAAGACTTTGAAAGTTTTCCCTGTACAGGCAAGGGAAGAACTGAACAGGTTAAATGGTGAGAGCTCAAGATTTAATCAAGAGGTTGT
CATTTGCACTATCTCACCTATCGTGAAGACTCTTTTGATGGAGCACCTGTTTTTAATTAGAAAAATTTATATTGTGTAGAATGAAATGAAATTGAGAAGG
CAGTTGGTTTTGTAGTATCTAAATTGATGACATATTTTTAAAAGGATAAATAAAATAATTATTTGAAAATGTTGTCAATATTGTAAAAACTTTTTATTGA
CTACATGGGGGAAAAGCTAAATATTTGGGTTTGAAATATTGACAGTTTTTAACATAAAAGCAAGGATTGGTACTATTCTTCATTCAGTAGGATTTTCTCT
GAGATTACATGATTGTCCAGAAATACTGTAAAGAGGGTATTTTCTCCATTATACCCAAATATGGTCTACAGAGAAGAAAGTTGAAAATGTCAACAATTTT
ATAATTACTCACTGCAGAATTTAATTTGGAAAAAGATTGCAATTTTATTTTTTTAAAAAAACTTAGGCCATATAAAAATGTATTCTCCAGAGAAATACTA
ATGCCTTGTTACTAGATACATACACTGAAGAAACTGATTAATGTATGTAAATGTGTGGTGAATAACTATTCTGCTTATGGTTTTAGTGCATCATTGTACA
CAAATTTGTTTTTATCTTTTAGAAAGAATGTTATTTTTGAAAATACATTTTAATAAAACTTATTTATAAGCTTATAATATAATACATTTTACAGTCAATA
AAAATTTTTAAATTATATAATTTTAATTACTTTAAATGCCCTACCTAACTTTCAAAATTGTTAACATATTGAAAATGTTTAATTTCCTAAAAATTAATTT
TGGGCTAAGAAATATAAGCCAAATGTATCATTCTGCTAGCTCAAAAAAATCATTGCAATTAAGAGACTCTTTCTTTATTTTAGTTGCAGATTTAAAATCT
CAGCACTCAAATGGACTTTAGAGTTAACCAAGTTGTAAATTCTAACTCCACATTTGAGAAAACTAATGATTAAGTGGATTTCCCAGGTTTTTCCAGCAAA
TTAATTACATGGTTTAGTGTACCACATTTTCTTTTAAGTTGGTTTTGAATTGTATTCCTCATTTGGTGAATACTTTGCAAATTGTCTTAAAAAATGAATC
ATAGAAATTTTCTTACCTGTACTTGAACCAGCATGGTCTAGCAATTAGTGAATAGCAATTGTTGGTAACCAAATTCAGAATAGCTCTATTAACATTTTCA
CTTGTATTTTTTATAATTCTACTTTAATAAAACTGGGTTAATCCTTTTTAACTACTCTGCTACTGAAATAAGGTTGCTTTCTATCAAATCAATTATCTTA
AGCAATTATTGTAAAAGAGTTTACCACACCATTTCTGTACTTTGACTTATTGTTCTAGAATTGTCTTTAGCTCTGCCTAACTTGATTGATTTTATTTTTT
ATCTGCTTCTAATGTGCATAAAATCTTCTAATCTAAAGTAAATGATTTAGTGTTTCTYGGTTTATTTTTCCCATATATTATGAATTCTATTTGGCTTATA
GTTAAAATTGTACACATGTAGCCTTCTTGTTAAAACTATGCTTTTTCAATAAAATAACTGTAGTTTAAAATACAAACCTGTTTTGTTAACATTTCAATTT
TGGTTTAATTATTAAAATTATTTCAATATATGTTAATGTAGTACATTCAAAAATTGACTTAGGAAGTCTTATTATGGTGTAAAAGCTACTATAATAAGTT
GTTCCCTTACATAAATAAATAAATGACCAATATTACTAGAGGCTATAAGCAGCWTGGGGGAAAAATGGAAGAAGTCTTTTATCCTAGTTTTCAGAGGGCA
TCAGCAGCTTGCTTTTATGAAAAAGTAACAGCTAAATGCACTGCAAATAATTTGCAGTAATCCAGTTCAGTGATTCATGTGTCTGCTTTAATGGGTCATA
ATTCAGGGTAAAGTAACTGAGTGCAGTCAGAGTGCAGACACTGCTTATGCCAGGGACAGTATCTCTTCATAAAACACACCTCAGGAGAAGCAGTTTGCCA
GCCCCCTAATACTTTCTGATGTTTTGATGTCCTGCATATTTTTCCRATTAAGTTTTGAGTGCCATGTTTTTAGTTGTATTTCCACATTCATTATTCTCAC
GTAGACCCCTTCAGCGGGTTTGCCATATATGATTATTTTTTTAATGATGCCTTTCTTTCCACTTCAGCAGTTTAATAATCTAGCACATGGCTGCTTCTCA
ATACTCAGCATTCACCTACCCAGTACAGAAGAGGACATGTGCTTTGGCTTCAAAATTCCATTTGCAGCATTAGAAATGTGTATTCCCTATGGAACAACAT
TTGTTTGACATAACCATTCATTTTTATTACCTCTTTAAATATGTTTATCCAGAGTTATCGATAATCATAAATAACTGTATTCTCATCTTGATCTGTTTTT
TTCCAACAGACAAAATTGCTTACCCAGTACATATTAAATCTYGGCAAGTATGATCAAAACTACGACATCAGAGACCGTACAAGATTTATTAGGCAGCKTA
TTGTTCCGAATGWAAAGAGTGGAGCTTTAAGTAAATATGCCAAAAAAATATTCCTAGCACAAAAGCCTGCACCACTGCTTGAGTCTCCTTTTAAAGGTAT
TATCAGAATATAACTCCAAAATATATGTTATCTAAAAAATTATGACAAGATGTTGCCATTTCTAATGTGCTTAAAATTTATCTCTTAGGAAATATAAATG
ATTCRCATATATAAATATATAAGAACAGCATGCTTTCTACTCATTCATCTGCTCTCAAAAGCAAGTTTTATATTAAAGTTTATATTTTTGTAGACCTTAT
TTACTAAATAATTTTAAGCGTTCTGACTTTATTCTAACATTTAAACTGGGCAATAGATGAAAACTGTCTTATTCTTATAAATAATGACTTCATTTCTCTT
TTAAATAGTTTTATAAGAAATATAATTCCTTTTAATAGTGAGTTATTAAGTAAATATTCTGTGTACACTAATATCAGTTTTTCTAGGAGGAATTATTTTA
TAAAAAGTATCCCTCTATATTTAAACTGGTTTTTCAAAGAGGGAAGTTGACTTACGTGTCCCAGCTTTTTAAAAGGAGTAATTAAGTATTTTACCACCTT
ACAAGTAGCCATTCCAGTTGGAATCAAATAGTTACATACCTTGGTTTTCATATTGTTTCTTATTTAATGTTCTTATTTTAAAGCGATAAAAAGCAATTCA
GTTTTGTAGAAAAACTATTAAAATTCTGGATGTGTTTGTGCCAAGACATGTATATGGATTGTTTAACTGTGCTGTCATTCTTAATATTCACAGTAAAGTA
ATTTTTAGAGAAGCTACATTTCAGAGCAACACCTCTAAACACACTGACTGATTAGCTTTTTTATTGACCATTATGGGGGAGATTATTGTAATCTATGGAC
TGAAATCAGTTTTTTGACCTATGAAGAGCTTCCTAGTCTATATTTATTCCTTGACATTTGAGGTAATATGCCAATTACCTTGAGCTCTGATTATGATTGT
TCTCTGTTATATACAGCTCATATTGTTTATTTTATATKTTTCCCTATTTTTAATAGATAGAGATCATTTCCAGCTTGGCACCTTATCTCATACTCTCAAC
ATTAAAGCTACTGGGTACCTGGAATTATCTAATTGGCCAGAGGTGGCGCCCGACCCATCAGTTCGAAATGTAGAAGTAATAGAGTTGGTAAGTTGACCTT
TCTGAAATTAATTTTGCCAAAGCAGTGGAAGACTCTAGGATAGCTATTGTTTTATATAAAAGCTTTTTTGGAGAGTTGAAAATTGAAAATTGTTCTAGTA
TTTCTAAATGTAATGTGTTAGATATACCTTGCCTTTATAGCAACTAAATATTATAGTATTCCTATGCCATTGTACATGTACTGTTCCTTTTCTTCAAGGA
AATAGAGAACTGAATTCTCTGCATCAGTGCCACCCACATTTGTGCTATTGCATTTGTAGCCGCGTAGATTCAATTTCTAAGGTATTTAGTTTCATTGGAT
GAAGTTTTTTCTACTTTGTTTAGAGATTTGTAAGCTTCCTGACAATATCCTTCTGAATAATTTCTGCTGTTCTCTTTCAGAAAAACCACACAAAGTGTTC
TAGATTTTTTGATGAACCATTTTTAAGTGAAGCCTGAACATAAATAGGGAGCATTGTGTACCAAAAATGTCCTTTGACAAGGTCACAAAGTGAATAATAT
GGTGCTTTCTCATCAAAAACAAATTTGCTATATAAATACTCTTTTTCTCAATCTTTAAAAAAAATGCTGGCCATTGAGATAAAAGAATTAACATTCTTTT
CTAATATTATCTGTTTCTTTCTCATATATACAAGAAAAAGTGAGAGAGGCCTTCTAATTGTATTTAGCAATTATGCAAAATATATTTAATACTTTAAAAT
GTGGAGTTAACAAAAAAAGCAGTTAAGAATTGTATTCTGGATACTTTTCTGGTGGAAAAGATACATTGAATTAGGATTCAGATAACTGGGGTTCTTTACT
AATTCCTGTGGGAAAGTGAGTTAACCTCCTTGCTCTCAATTTTTCTGTATACAGTGGAAGAAAACCTTTATTACTTTAATAAATAGAATTTCTATAATGA
TCATGGCCATGTAATTTGATTCCTCTGAGAAATTATTAAATGTTTCTCTTAACCACTCCAACTTATCCTGGCTTTGAAGCATGGCCGGAATTAATAATAG
CACTATTTAGGAACCCCTGACAGTGTACGATGATAATGTTTTATAAAAACTATCTTGTTTAAACCTAATAATGATTGTAAGGGATGGTTATTGTTATTCC
CACATTGCAGATGAGGAAGCCAAGTCTTAGATAACTTAAAGTAAATCGCCTAAGTTCACATGGCAAGTAAGTGATAGAACCATATTCCAACCCAGGTCTG
AGTTCACTGTCCATGCTGTTACTGTATTTTATTATGTAATATGAGAAGAGGAACCTTGAGCTTGTTCACAAATCTGTATTATCCTTAGTACTTAGCACCA
TTATCTTTATGTTTTGACAAATGATCTGTACTTAGAGACAGCCAAAAATTTGTAACAGTAGTAATATGTAAAAATATGAGAAGCAATTACATGTCTATCC
CTCCTTGCAGCTGAGTTTGTTGATTTTTACTCAAATCTGCATACTCTTAAGTACTCTYCAAAAGAGTTGCCTTATTTGTGCAATTTTTTTTTTTTTTTTT
TTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGCAGTGCAGGGGCATGATCTTGGCTCATTGCAAGCTCTGCCTCCCAGGTTCAAGCGATTCTCC
TGCGTTAGCTTCCCAAGTAGCTGGGATTACAGCCACATGCCACCATGCTTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAG
GCTGGTCTCAAACTCGTGACCTCAAGTGATCTGCCCGCCTCAGCCTACCAAAGTGCTGGGATTACAGGTGTGAGTCACCGTGCCCAGCCTATTTGTGCAA
CTTTTGATCAGATACTAGAATATAAAGAGAGTGTTCTTTGTTATGGTTCCTCCTACGGACATACTTTCTCTCCTAATTTCTTATTATGCTTGTTTGTTGT
TTTTATGGTTCGTTTTTTTTTTTCATTATGGGGTACATGATGTTTTAGCCCAAGTAGAACCATCCTTTTAACCTTCCCCTGCTTCCGCCTTATCTCTCCC
TCCTTGCTGCCCCCACCCACCAAAAAGCATTATCTTCTCAGAGTTGATAGCAATGCTATGCAATTTAATTTGGTCTCAGCAGTATTCTTTATTGGCTGAT
AGATTGGTTTGTTGGCTGGCTTCTTCCATTTTCATGTGCTCTTCTAAGCATTAACTACCTTATAGGGACAGTACTTAAATATAACATATTATGTTCGTTT
CACCTGTCCAATTCAACAGAGACAAATTAATTTCTTTTTCATTTTGCTGATTATATTTATGAAATTAATAATTGGTAACTTASAGAGAATCATTATAACT
GATTGAACATGGTTTGATAAAACTGTCACTGTCTGTTGATGCCATGCAGAAAACAGCTTCAGTCTATTGGACTCTGAGACAATTGGCTTAAAATTATACT
ATGAGGGACACAATTAAATATAAAAATAACGTAGATAGTTTTCTTTTTAAATGCAGCTACAATACAAAAAATAATGTCCGTATTATCTTTCTTGTCTCTC
ACTCTACTTCATCTCCCTTCCAAGTCATGTCACTGTATTTCATGCATATAATATACTATGTTATTCTAGTTTTCCTGTAAAGTGATCTTACATGGTCAAG
TCCTGTAACTGTGAAATATAACTTAGTAAGAAAAATGACCTAGGTTTAGATAATCTGATATTTTAATCAAAATGACTGGGAACCTAGTCAGATTGACAGT
AGAAGTCACTTTGAATTACACACCACCATTTCTAGGATATAGGATATAATATATATTTATATTATGATCCCAGTAAGTTTTGAAGATCCTTAGTTAATAA
TTTATTTGCTTAGTTCTAGAAAGTCCTTTCTTCTCTACTGACAGAAAGACCGCCTTCTGCATATGAAGGGTATTTTGCTTCATAAACACATCTGTCAATA
TTTTATCCTTTACAGAAACTTTCAAATTAGCGTCTATGTTCTCTTCTTTTCTTTTCTTTTCTTTTCCCTATTATTCCTTTTCCTTACAATGATAATGTGG
TCTTTTAGTCATAAAGGACCACAATACAAATTAAGATACTTTTATTGTTCGTCTTTGGCCTTTTAAAACCTGAWACTCCATAGAATTCATGGCCATGTCA
AGAAAAAATGCACGTTTGAGCATAGAAGTCTGGTTTTCCGAAATTGTTGATTTAGTGTTATTAAATTAATCCAACAAACKTTTTATCAGACCTCAGAGAA
ATATGTTTGGATTTAAGAAAAATRTGGACTTCAGAGTTTACCAAATATAAGAGAGCTTTGTTTATAGAATACTATCTTTGTAGACAGAAGCATTTTAAAT
AAATATAAAAGAAAGCCATACTGCTGATCKTATATAAGCATCTTATTCAAATATATTCAAGCTTCTCTTTTTAAGCAACATACCTTAAACCCTCTAGATC
AGTGGTTTTATTTTTATTTGCTTTTATTTATTTTTTTGAGACATGATTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCATAGCTCACTGCAG
CCTCAAACTCCTGGGCTCAAGCCATCCTCCTGCCTCAGCTCCCAAAGTGCTGAGAGTACAGGTATGAGCTACATCACCCAGCCTTAGACTAGTGGTTTTT
AAATGTAGCTGCGCATTATAATCATATGGAGATTTTGTGTGTGTGTGTGTGTTTAATTTTTATTTTATTATTATACTTTTAGGGTACATGTGCACAATGT
GCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCAAATGCTATCCCTCCCCA
CTCGCCCCACCCCACAACAGTCCCTGGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCATTTCCCACCTATGAGTGAGAACATGTGGT
GTTTGGTTTTTTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGTTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGC
ATAGTATTCTATGGTGTATATGTACCACATTTTCTTAATCCAGTCTGTCGTTGTTGGACATTTGTGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCC
GCAATAAACATACATGTGCCTGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATSGGATGGCTGGGTCAAATGGTATTTCTA
GTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCC
TCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGTC
AKTGATGACGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCACATCCTTCRCCCACTTTTTGATGGGGTTGT
TTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCAAAAATTTTCTCCCATTCTGTAGA
TTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTACGTCCCATTTGTCAATTTTGGCTTTTGTTACCATTGCTTTT
GGTGTTTTAGACATGAAGTCCTTGCCCATGCCTCTGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGATCTAACATTTAAGT
CTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATCTGGCTAGCCAGTTTTCCCAGCACCATTTATT
AAATAGGGAATCCTTTCCCCGTTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGATGGTTGTAGATATGCGGCATTATTTCTGAGGGCTCTGTTCTGTTC
CATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGACTTGTAGTATAGTTTGAAGTCAGATGGCATGATGCCTCCAGCTT
TGTTCTTTTGGCTTAGRATTGACTTGGCGATGCGGACTCTTTCTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGG
TAGCTTGATGGGGATGGCATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCACGGTATTGATTCTTCCTACCCATGAGCATGGAATGTTCCTC
CATTTGTTTGTATCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCCCATCCCTTGTAAGTTGGATTCCTAGGTATTTTA
TTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCCGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGAT
TTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACGATGGGTTTTCTAGATAAACAATCATGTCATGTGCAAACA
GGGACAATTTGACTTCATCTTTTCCTAATTGAATGCCCTTTATTTCCTTCTCCTGCCTAACTGCCCTGGCCAGAACTTCCAACCCTATGTTGAATAGGAG
TGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATGCTGTATGATATTGGCTGTGGGTTTGTCATAGATA
GCTCTTATTATTTTGAGATACATCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCGTTTCTGCATCTA
TTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACATTTATTGATTTGTGTATGTTGAACCAGCCTTGCATCCCAGGGATGAA
GCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGTATTTTTGCATCAATGTTCATCAAGGATATT
GGTCTAAAATTCTCTTTTTTGGTTTGTGTCTCTGCCAGGCTTTGGTATCAGGATGATGCTGGCCTCCTAAAATGAGTTAGGGAGGCTTCCCTCTTTTTCT
ATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTTTTTTTGGTTG
GTAAGCTACTGATTATTGTCACAATTTCAGAGCCTGTTATCGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTATCAAG
GAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCGTAGAGATGTTTGTAGTGTTCTCTGATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGATA
TCCCTTTTATCATTTTTTATTGCATCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCRGTCTATCAATTTTGTTGATCTTTTCAAAAA
AGCAGCTCCTGGATTCATTGATTTTTTTGAAGGGTTTTTTCTGTCTCTATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTT
TTGAATGTGTTTGCTCTTGCTTTTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCATTCAGTGCTAT
AAATTTCCCTCTACACACTGCTTTGAATGTGTCCCAGAGATTCTGGTATGTKGTGTCTTTGTTCTCGTTGGTTTCAAAGAACATCTTTATTTCTGCCCTC
ATTTTGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGCAGTTGAGCGGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAGTTTGA
TTGCACTGTGGTCTGAGAGACAGTTCGTTATAATTTCTGTTCTATTACATTTGCTGAGGAGTGCTTTACTTCCAACTATGTGGTCAATTTTGGAATAGGT
GTGGTGTGGTGCTGAGAAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGAGTTCAATTAC
TGGGTATCCTTGTTAAATTTCTGTCTCGTTGATCTGTTTAATGTTGACAGTAGGGTGTTAAAGTCTCCCATTATTAATGTGTGGGAGTCTAAGTCTCTTT
GTAGGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTAC
CATTATGTAATGRCCTTCTTTGTCTCTTTTGRTCTTTGTTGGTTTAAAGTCTGTTTTATCTGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCA
TTTGCTTGGTAGATCTTCCTCCATCCCTTTATTTTGAGTTTATGTRTGACTCTCCACGTGAGATGGGTTTCCTGAATACAACACACTGATGGGTCTTGAC
TCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAAGTTAATATTGTTATGTGTGAATTTGRTCCTGTCATTAT
GATGTTAGCTGGTTATTTTGCTYGTTAGTTGATGCAGTTTCTTCCTAGCCTTGATGGTCTTTACATTTTGGCATGTTTTTTGCAGTGGCTGGTACTGGTT
GTTCTTTTCCATATTTAGTGCTTCCTTTAGGAGCTCTTTTAGGGCAGGCCGGGTGGTGACAAAACTCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTAT
TTCTCCTTCACTTAKGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGMATGTGGAATATTGGCCCCCACTCTCCTCTG
GCTTGTAGAGTTTCTGCCAAGAGATCAGCTGTTAGTCTGATGGGCTTCCCTTTGTAGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACRTTTTTTCCT
TCATTTCAAGTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCAAGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAATCCGAATGTT
GGCCTTTCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCCACTTGGTTCCATTCTACCCRTCACTTTCAGGTACACCAATG
AGACGTAGATTTGGTCTTTTCACATAGTCCCACATTTCTTGGAGGCTTTGTTCGTTTCTTTTTGTTCTTTTTTCTCTAAACTTCCCTTCTCACTTCATTT
CATTCATTTCGTCTTCCATCACTGATACCCTTTCTTCCAGTTGATCGCGTCGGCTCCTGAGGCTTCTGCGTTCTTCACATAGTTCTCGAGCCTTGGCTTT
CAGCTCCATCAGCTCCTTTAAGGACTTCTCTGCATTGGTTATTCTAGGTATCCATTCGTCTAATTTTTTTTTAAAGTTTTTAACTTATTTGCCATTGGTT
TGTATTTCCTCCTGTAGCTTGGAGTAGTTTGATCATCTGAAGCCTTCTTCTCTCARCTCGTCAACGTCATTCTCCGTCCAGCTTTGTTCTGTTGCTGGTG
AGGAGCTGCGTTCCTTTGGAGGAGGAGAGGCACTCTGCTTTTTAGAGTTTCCAGTTTYTCTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTT
TGATCTTTGATGATGGTGATGTACAGATGGGTTTTTGGTGTGGATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGACAGGACCCTCAGCTGAAGGTC
TGTTGGAGTTTGCTAGAGGTCAACTCCAGACCCTGTTGCCTGGGTATCAGCAGCGGTGGGTGCAGAACAGCAGTGGCTATAGAACAGCGGATATTGGTGA
ACTGCAAATGCTGCTGCCTGATCGTTCCTCTGGAAGTTTTGTCTCAGGGGAGTACCCGGCCGTGTGAGGTGTCAGTCTACCCCTACTGGGGGGTGCCTCC
CAGTTAGGCTGCTTGGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGCCCGTTCTCAGATCTCCAGCTGCGTGCTGGGAAAACCACTCCTCTCTTCAAAG
CTGTCAGACAGGGACATTTAAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGGCCCCAGAGGTGGAGCCTACAGAGGCAGGCAGGCCT
CCTTGAGCTGTGGTGGGCTCCATCCAGTTCGAGCTTCCTGGCTGCTTTGTTTACCTAATCAAGCCTGGGCAATGGCAGGCGCCCCTCCCCCAGCCTCACT
GCCGCCTTGCAGTTTGGTCTCAGACTGCTGTGCTAGCAATCAGCAAGACTCCGTGGGTGTAGGACCCTCTGAGCCAGGTGTGGGATATAATCTCCTGGTG
TGCCGTTTTTGAAGCCCGTTGGAAAAGCGCAGTATTAGGGTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACCCCTTTCTTTGACTAGGAAAGGGA
ACTCCCTGACCCCTTGCGCTTCCTGAGTGAGGCAATGCCWCATCCTGCTCCGGCTTGCGCACAGTGCGCTGCACCCACTGTCTGGCACTCTCTAGTGAGA
TGAACCTGGTGGTACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGCGTCGCTCACGCTGGGAGCTGTAGACCGGAGCTGTTCCTATTCGGCCATCT
TGGCTCCACCCTCCTGGAGATTTTTTAAATAAAACAAAACTAGGTCAAATGTGCACCAGACTAATTAAATCAGAATTTTAGGAGGTGAATCTAGGTATTT
GTTTTTTTAGTATTAATATTTGTATTGTTTATATTAGCGTTTAAAAACTATTCTCAGGTGATTCTATTGTACATTCAGTGCTGAGAAACATTCTTGAATA
AGAAATTCTGTCATGCTGTAGACTCCTTTACAATAAAATAGGTACTCTAGCAAAGACTTGCACATAGGAAAAACTCAAAGGTACAATCAATAAATGAGTC
TCAACTATTTTATCTTTTCAGAAGTATACATTTCCCTGCTTTTTAAAAAATCATATATGAAGCATGATTTAATTTCTTCTTGACAAATCAAGGCCATGAC
TATAAAAGCAAACTAATACTCTGTATTAAAGTGGTTAAAGGGGCTCATATTAGTAAATGCTGTTACTAATACAATATTTAGTAAACACTAAAGTCAGTAT
TTTTCTTAAGCATGTTTCTGAATTTAATATTGAAGTCTTTAAGAGGCTAATAAATATAATTAGTATTTATTGTGTCAGCCACACTTAAAATTGAACAAAA
TAGGCTGGACGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGTCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTAGAGACCAGCCTGGGCAAC
ATAGTGAAATCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGGGTGCCTGTGATCCCAGCTACTTGGGAGGATGAGGCAGGACAATCG
CTTGAACCTAGGAGGCAGAGTTTGCAGTGAGCCGAGATCCTGTCACCATACTCCAGCCTGGGCGACGGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAT
TGCACAAAATATTTTAAATTCCCTGCTCTCCAGAAACTTACATTCTACCAGGGATAGACCAACAGTTAAAAAAACAAGTAGATTGTATAGTATGTTAACA
AGTAATACATGCTGTGATTAAAAAAAAAAAAAAAAAAAAGGTGGTGGGGAATGGTGTTGGAAGTGCCAAGAGCTAGGGTGAAGGCCCTAAACTGGGAGCA
TGCCTGGGACGTTTGGAGGAACAGTAAGGCATGGCCAGAGCAGATCAGGCAAGAGGGTGAGCAGCAAGAGGTGAGAGAGGCAGGCGACGGGGACAGTTGT
GGAGGGGCAGTCATGAAAGGATGGTTGTATTGGGCTGTGCAGACTGTTGTAGGGACTTCGGCTTTTTCTCTGAGTAAAATGGGGAGCCACTGCAGGGTTT
CAGGCCAAAAAGGAGCTTGCTCTCATTTAGGTTTTAATATAATCATTCTAGATGCTGTGTTTTGCAAAGTTTGTTTGCTGGGGGCAGGGTGGAGGGGCAG
TAGAAGCAAGGTAACGAGTAGTCCAGGAGAGAAGGGTGGGTCAGACCAGGGTAGCTACAGGATTTCTTGATGGCTTAGATGTTTAGGATATGAGAAAAAA
AGAGAAGTCAAGGATTACTCCAGGATTTAGGCTGTTGAGATGGTTAGGGCAATTTATTGCCTACACTAAATATTTTCTTTTCTTTCTTTTTTTTTTTCTC
TCTTTTCCCTCAGTGTCAAGCTATCAACTTGTGTTTGTTATTGCTGTTATTGTATCTGCTTCTAGTTTCGCTCACCTATTTTAGGATATATTACTTTTGT
TTAAATCTTCTGTGGGCCAAAAAACACAAAAGTTTTAAAAATTGTATATTTAAAATAAGATTGTTGGTTTAACATAGGGCCTCTGAGTGAGAGTTTGTGT
TGTTGTATTTAGGAGTAAAGTGAATCAGCCTTAATGCCAGGACTTCTAACAGTTGCATTCCCTGTGGAGGCCTTAAGCTTGCTTTTGAATTCAGTTATGT
TGTTAATGATTAAGTTTGCCAGAACTCTAAATCTCTGAATGAGAATTCATTTATATTTACTTTATTTRTTTAAACAGGCAAAAGAATGGACCCCAGCAGG
AAAAGCAAAGCAAGAGAATTCTGCYAAGAAGTTTTATTCTGAATCTGAGGAAGAGGAGGACTCTTCTGATAGTAGCAGTGACAGTGGTGGGTTTTATAAT
TTATTGGCATATRTTATTTACATRGTAGATTACATTCTATATCTCAGAAACAAGGCCTAATCCATAATATTCAGCAGGTAGTTTTAAGTGAAGTTTGTAT
TATCAAAATAATCCCTTTCATTTATATATCACTCTTTAGTTTTCAAAGTAATTTTTAATTACTAAATTCTCTTTTTACTTTACAATATCTCTTGGATAGT
AGCTGATACATTGGTATAGCTGAAACAGGAACTCATACTTTTCTGAATTCTAAACCACAATGCCTAATATATCTATTGAAAAACATAATTTTACACTTGA
TGAACTTTTAGTGGGGTCTTTAAAAGTAACTTTCTTTTACAAAAAYGTAAAGTTTATTTTATACCTTGAAGAGTCTTTTTCTCTTTCATTTTATACTTAT
CTYTTTCTGTGAACCTCTATAGAGATAAAGCTAAAATTATTAAGTCTCTATATACTATAAAAAAATCAAACTAAAGGTTGAGGGTAACTATATGCAGTGA
AAAGAATGCTTAATAGGAAGGATTTAGAGGCCCTGGCTTTTACCTATGCAAATTGAATAAGGCACCTACTTTTCTCTATATCAGATAAATGAAGGGGTAC
AGTTAAATATTTCTTAAAGTCCCTTCATTGCTAAAATTCTGTGAGTGATTTGCATAATGAAAAATAGATTGTAGTCACTTTCTGATGCTCTTATTAACAC
TTAAGCTAATAGGCAAATCTGACCCAAGACCAAACGACACCCAACTTTCTCTAAAATCTTTATTCCTTGGAGAACCAGGGCCTGTCACTCTTACATGGTT
ATCTGCTACCCTACTGTAAGGTAATTCACTCTTCTTTTCTCTGTCTTCCTTATCAAAAATCTTTGTTTTTAGTATCTGATAAATTAATCTGTGATACATT
ACCTGTAATTTCTTTCATTGTTTATAGCATAAGCCAGTTATCTGACTTAATATGTATGTGCGTGTAACTTGGATATTACCACAAATCTAAAATGTCCTTA
TTTAGTAGCTTTATTTTAGTAAAATAAACTTTCCTGTTTGTAAATGATGATAATGATGAGTGCCTTACCCTGTGGCAGACCCTGTTGTGTTCTAATCTCC
TTTGTATGTTTCAAATCATTTAATCTTCACAACAGCTCTGAAAAGTAACTAGTGTTATCCCCATTTGCTGAAAAGGAAACCAAAACCCAGAGAAGTTGAA
TAACTTGTTCAGTTTTACAACTGGCAAGTAGAAGAGCCAGGATCTGAATCCGAACACTAACTTGAGAACCCATGCTTGTACCCCTTGTAAGCCGTCTTAA
AACAATACAGGCAGTCCTAGGTTTTCACTGTGATGGACCTTCCTGATGTTGGTATTATTTAACCATTAGAATGTTTAATTAAAGGTTATGTTCCTGCCTA
AGAGGGCTTCGTTACATAGATCACAGGCAGGGCAACAGTTTGTCCTTTTGTCTGGGACACAACTCTGTAGTTATAGTCATTTTAAATAGTAAAAATTATG
CTTCACTTAAAAAATACACATATATTCTTCATGTATTCTCTTCTGCGAACAGTCCTAGCATACCATAATTTACACATAAAACATTTAAAAGTATAATTCC
TCAGTGTAACTTGATCATCTCTTTGACCTATGGAAAACTCGTTTACTAGCTCGAATAAGTAATAACTCTTTAATTAGTCATTTTGCCTATTGTCTTTGAA
TTTGGAGGTCTTTCCAAGTGATTTGAATGGCTCATTTTCCTCTCAAAATTTGTTCCTAAGAAGATTCAACTRTTGCCTTCTTTTACTCTAAATAGAATTT
CCCATTACAAGCAGAAGAATTCAAAATTATTTCTTTAGCCTTACATCAATCCTTACGTAATTCTTTAAAAGAAAGTTTTTGACATAGCTATATACTTTGG
GGTTTGAAGTGAGATTCCCTCAAATTTGGTTTACTTGGTTCACCTTTGCTTAGCTTTTCTCTCCTCGTTGTCAGAGCATCCTCTGTCTGCCTCCCTCCAA
GCTCACAGTGCTAAAGGAATCCATAGAGCTGAAAGAATGGGGTGTGGGAATAAAATGTTAAACAAGTGGTGTCCACTGAACTAAAATTCAACATCTGGTT
TCATTTGTGATGAATATTGACAGTTACAGGTGTCCGTGTGTCTAATTAAATGACTATAAATCTAAGAACATCTGGTTCTGTTTTTCAGAGAGTGAATCTG
GAAGTGAAAGTGGAGAACAAGGYGAAAGTGGGGAGGAAGGAGACAGCAATGAGGACAGCAGTGAGGACTCCTCCAGTGAGCAGGACAGTGAGAGTGGACG
GGAGTCAGGCCTAGAAAACAAAAGAACAGCCAAGAGGAACTCAAAAGCCAAAGGAAAAAGGTAACTTATTTTGTCAGAATTTCCTTCAAAAAATATTCTG
TGAAAGTTTGCCCCAGGCAGAGATGTTTCTTATTAATCAAAAAATGGTGAGAGAAAAAAAGTGTGTATTTTTTTCCAGATATTAAATCTTTTTAAAATTA
AAGTGCTAGTTGTTCACATTATTTTCCTACTTGTAATGCTTAGCTTTCATTTTGAACTTGAACATATCTTGGGGTTACATTTTGAAAATTGGTATAACCT
TGGAAGGCTGAGTTAAGTGATCAAGCAATAGGTATGAAACACTTAATTACCTTTTGTAGCGATTTTGCTGAGGGCTAAAATTAAATCCTTCAACACTTTG
CCATTATGTAACCAAGACAATTGATTTTTCTAAATAATGTTATATTAAAAAGATTATGATCCAAATATTAGAGTCAAGGGCTGTGAAGGAAGACGGTCAT
AAGATCTTTAAGTGTTAGCACTTTTTAAGATCTCCCATTATCAATAACATTATCATGTATTAAAGTGTCATTAAAATTTTGAGTAATTGGGTCTAATATC
TTGGATTGTGCAACTCTGTTTTCCCCGCTGCTGTCAGCGAGTGGCCTCTGCCGACATGATGGTCCTTTCCCCGGGAGCCTGCTGCCCGCTCACTTGATGA
GCTTGCAGCCCGGCTCAGTCGTGGCTGACAGCACTGATTGGGGCGCAGTACGCTCTCTGCTCCTTTTATTACAGACAGTAATTAAAGCAGCTCKCCCTGC
CACTTCCATAACAAACACAGCATAATGCCCTAATTATGACTTTATTAATTTAAGTCAGGATTTAATGATTTTAAAAGTGATTTATATTGTTTTTCCTGTT
CAGAACAAATGAAATCTGTAGGTTAAATTAATACAGGCTTTTCATCATTGCAAAGTTAAAAACCTAGTTACCAGTAAATTCTTTTCATTAGATTAACATC
TGAAACTCTAAGCAGTAAGGTAAACAATAATTACCATCAAAATTGAGTGATGCATAATAAAATAACACTTTTACTTTTAAAATCTTATCTTAAAAGCTAG
AAGTTGAATATATTTAGAATCATTCACTTGTTGCAGCAAAGGAGCTACTTGGTTTATAATAGCCTTGTCTTTGAGAGAAATCCTGTACTTCTGCTTTAAT
ATCAGCATGTCTATGATGATACGAGTTATAAAACATGTCCTGTTTCTAGAAAGGGAAAGTTTTGTTCAGTGCATGAAATGTCCTTTCAGATGGCAAAAGT
CAGTATACTCAAAATTTGTAGTCATGTATTAGGTTTATTATTCTTTTCTTCAGAAATGGATTTTTCTCTTTACCCATGTTTGAATTTAAAAGAATTGTTT
ATTACAAAGAGAACCACAAATACATTCTAAACCTTATATTTTTAAGTACACATTTTAACCAGTGAATTGGGGATAATAAATTGCCATTTTTTTGCCAGGG
AAAAACAACAACATATTTTTCAGTCTTCAAATATAATTACATGTGCTCTGAGATGTTACCATGGCTCCATTTTTAATAAATAGCAATCATATTTCCTCCA
CAAAAATCAATTCTAGGAAATATTGATTCTTTCCTTGTCTCACTCCTCTCCCTCCCCCTGTATTTTTCTGTCTCAGAATTTTTTTTAACTTTGCCAGTAT
GATAATTTTTTAAAGCTCCTAATAAGCTTTAAACATCTTCAAAAACCACCCTTTAGTAATCATAAATATTTATGACCAAATTTAAATTTTACACTCCAAG
GTATTTTCATTTGAAGGGAGATAGTATGACATAGTGGAAAAAATACGGACTTTGGAATGAGACAGGCTTGAGTTCAGATTCTAGTTCTGCCCCTCTTGTT
ATGTGCCCTTGAGCAGGTTATTTAACCTTTCTAAATATTAATTTCATTATTGTAAATGGGATAATAATGTACCCAGGAAGAGTGCATTTAAATTAGATAA
TTAGTATGATTGGTATGAAGTGCCTAGCCCTTTCTGGCCCACAGTAGATTCTTAAAAAAATACACACACATGTGGTAGAGAGAACTAGACCTTTAGTTTC
CAGGAAAATATAAAGCACCACAAGGCATTTGTCATCCCCTGAGAGAAGGGTGTTTGGTCATCTCACATGTTATTCCTTCTCCTTGGAGAACTGTTTCCCT
GCCCATCTGCCAGCCTTACTCCTATATCTTGGCTTATATGTCTCTTTCTCCAGGAAGCATTCCTAATTGGATCAAGTTTTTTTAGGTGTCTCTCCACATG
TTCTCCTGACACGCTATAATTTATTACTTATTACTTATTATACTGTATTATCACTGCAACCTTATCTGTATCCTCCAGTGGACCGTAGACCCTGTAGGGT
AGACACACAGAGATCCTCTGTGTCTTACTAACCATCGTTATCCTTAGCACCTAGCATAATGCCAACATGTAGTCAATAATTAATAAATATTTGTTGAGCA
GGTGAACAAATGAATGGTGTTAAGCACTTAGGTATGATCATTTGATATTTTAAAAGTTTATATTTGATTAGCTTAAATTTTTAGCAAGATAGTACTTTAG
AAGAATTTCCTTTGAACTGGTTAACATTTTCTCATAGAATGTGTTTAAGGTCACATTTGGGAACTTGTGTAAGTAATTTTCTTGGGTAGAAAATGTATAA
AATACAAGTCTATTTTAGCAGAAGTAGATATATAAATATTTAAATATATTACTAAACCAGGTGTGGTGGCTCAAGCCTATAATCCCAATATTTTGGGAGG
TCAAGTTGGGAGGACTACTCGAGCCCAGAAGTTCCAGACCAGCCTAGGCAACCTAGTGAGACCCTGTCTCTACAAAAAATATAAAATTAGCTGGATGTGG
TGGTGCATGCCTGTAGTCCCAACTACTTGGGAGGCTGAAATGGGAGCATCGCTTGAGCCCGGGAGGTCAAGGCTGCAGTGAGCCGTGATTGCACCACTGT
ACAATGAGACCCTGTCTCATATACGTATATATATACGTATATATACATGAATATATATGTATATACGTATATATATACATGTATGTATACATACATACAC
ACACACACACACACACACACACACACAGGCACAGTATTTTGAGATAGCGTTTTAAAAAATCAGCCTAAATATCTTTAACGTTGTTACTGGTAGTACTTAA
TTCTTGGTAAATCAAACATTTAATGTTTTCTACATTGCTTTTGATTATATTGTTTAGTGTCATTTTATGACTTTTTGCATTTGAAATTTGTATGACAGGA
TAGAATTGAATTTGAATGGGTTCTAATTTATTTGGTTATGGGTAATACCTTTTTTATTACCTCATTAATGTATTCTGGAATTTAAAAACAATTTTTKTAT
AAACTGCTTATATAAAGGAGTTAAAGTTCATATTTCAAAATTTACTATTATGTGTAGYGATTCTGAAGATGGGGAGAAGGAAAATGAAAAATCTAAAACT
TCAGATTCTTCAAATGACGAATCTAGTTCAAWAGAAGACAGTTCTTCCGATTCTGAATCAGAGTCAGAACCTGAAAGTGAATCTGAATCCAGAAGAGTCA
CTAAGGTAAGAGATTATACATTTGTTGTAATTGAAGGTAAATATTCTTATAGCAACTAAAATAGACAACACCATCCTCATCTACTCCTGTGATTTTATTT
TTTCTAGATAAGCCTTTCCCTTATAACCCAACTCTGCAGAAATGCTAGAAACTTTAAAAAATCTCATCCCTTGCCACTGAAATCAAGGAACTCTTACGCA
TATGACCTTTTTTGTTCTTGGCTAGGTTGTGACAAGGGGGGGGTTTTGCTGAAGGGGAAGTGAAAGGAAGTCACAAAAATAGTATTGAGCAAAGAATTAT
AAGTGTACATACATCATAAGAAATTGAGACTATTCAYTTTTTAAAAATATTGGGCATTTTGCATAATAGAGTGTGTTTTAAGGCTTCAATTAAAGAGTAT
ACATTCTTTAGTTAGTAAGAATTTGCGTAGCCATTTATTTAAAAACAAATGGAACCACTTATATAATAAAATAATAATGCTTTTTGGTAATAACATTTTT
AACACTGAATTTTGCCTGCTTAGCAGGAAAAAAATAAAGTATAAATTGCAAAAATATAGTTATTAATATAAAATGTATTCTATCTGATTTCAAGTCTAGT
TAAAAGAATAAAAATATAGAATTCAGACCTAACGATAATTATCTTTTTGGTCTTTAATAATCACCCCCTTCCTATAACTGGACCATGTTCATGCTAGACT
TCAAGTATAGTATTTTTATATACAACTGTGTTATTCTGTTTGTTGAAAATATGGCCAAACTCTGCCTTTGATTCAGTTCAATTTCTTCTTAATCCAATAT
TGTTTTCGTTTATTTGTTCTGTTAACTGGAATCTCTTCAATATGTTATCTGAGTAGGCAAGGATGAAAATTAATTTATTGAARTAGACAATTGCCCTCCC
CCATCCAGAGATTTATTGTTAAAGAATGTTTTAAAAATTGGCTAGTATTTGTCTTGCCTTATTTCACATTTTCTTGCATATATTAAAACCTATCTTAAAC
TTGAATTTATATTTAAAACTTGTGTCTGTATATAAAATAACCTGAGATTTTTATTTTTAAAAAATTCACATAAAATCTTAAGAGATTTTATGGTTTATTA
ATCTGGCCTCATATAAAAACTTATCACTTAGTGAGTCTGATGTACTCTCATTTCATACTTACATCAAATTACCAGAAAGTTTAAAATGTTATTGAAAATA
AAGAGAGTTACAAATCGACAGTAAATACAACCCAGAGTAAGAAGTATTTTTTAAAAATGACAGAACAAGAAATCAGTGAGTGTCAAGTGGTAGAAGTTAT
TCTTAGGAAATTTTGTAACAGTTGAAAAATTATAGACTTCAGTGCCTCTGTAGTATTAGAAGCAGAGCTTTAGGATCCCATTAAAAAGCCACAGTGGTTG
AACATCATGTTGTGTTGTACCCCTTCCTCCCCCTGAAAAAAACAAAAGAAGATAAAAACCACAGGGGCACTCCAGGTCAGTGATTCTGTTTGTTTCTTCT
TTGTCAAAGACTTTCAGTGATCAGATTAAATCTCTTGATAGTTAAAAATATTTTCCTATAGAACGTCAGTATAAAAAACCTCAAACTATTGCAGTGAACC
AAGGCCTTTGAGAAATTCGGGTTTCGCTCACATTGTTGATAGTTTTGTGTTCATGTGTTTCCCTTAGGTGGCTTATTTTCTTTATATTAGAATGCCTTTT
CCCATCTATAATAGGCATACAGGACTGTGGAGTTTTTTGCTTTAGTTTAGCAACTGGAATAAGTACTCTCCACCTTGGAGCTACCATAACTACTTATTTA
TTTCTGTTTCTTTCTGAATGATTTGGTGTATACCATGCAATTACAGAATATACCTATTTTCTAATAATAGGTGACTATAATTGTGGAAAAGTCCTCCTTG
CACCAAGTGTTGTGGCTTCTGCCCTAAATTATGAGTAATGAAGGCAGATGGTGGGTACTTTACTTTAATTTAGCATGACAATATGTTAGTGCTGAAAATT
CATATGCCTTATATCTGCAGCCTAACTAAATCTATATTTTTACTCTTTCTTTTCTTTTTTTTCATCCAGACAATGTGTTTTGAGGGCACTGAGCATGAAA
ATGCGACCTAGGAGTTACCTTGAATATATGGCTTTCAAAACAGTTAATTTTTATGGTAGTCCTATGAGATAAGCATAGTGTTCTACTTGTTGGGAGAGAA
TATCTTTGTTTCAGTTTCCTCATCTGTAAAGCAGACATGCTAGTACCTACCTTACTTCTTTCAAGTGTTATGTTAAAAATAAAATATGAAAGATCAATGT
AACACACTATGTAAYTATAAAACAACAGTTTTAACATTTTTAAAAATTCCATAAAAGATCAACAGTATTGGAGAACATCAAATGCTAAAAGTAACCTAAA
TTTTTTGGTAACTCTTAAGTATCCTGCTCTTTTTTTTTCACTCTTTTTACACTATTCAAGTTGTAAGGCAACATTTAATTCTGTTCCCTTACCTACAGCC
TCTGAGCTTAGCCACTTTCCTTAGAAGACAGCTGCCATCCACGGTCAGTGTTTCTGCTCTCTAACTCACAATCTCCATTTACCCTACTTTTCCTTTGAAC
GCAGCTCTGTGTAAGACTCGCATCCACTTCCCCAAGGGTAACTCCTACTTCCTTTTGGTCTTGTTTTGTTAATAATCATCTGTCTCCTTTGCACCTTTAA
TCTCTTTCTCCATTCATTCCTTTTCTGCCAACTGTGGCATTCAGGTTTTTTCAGCATTTAAAGAGAGAGAGAGGGAGCATGGAGTGAAAAAAACAGAGTG
TGTGTACATGAGTGAGAGTGAGTTTAGAAAAATATTCTACATATCCTCCATCTTGTACTTCTTAACCCAGTTATTTCCAACTCTATCCTACACATACTGC
TCTCTGAAAAGGCAGCTATGATCCTTCCCCAAACCCAGTAGCCTTCTCTTAATCTTGATCTTTTTTTATGACTATTCCCCTACTACTTAAAAGTCTCTGC
ATCCCTTTTGTTCTTACTTTTTTGACCTTTCATTCTTTTGGTTGCTTCACTTTTTACACGCCTCTGACACCCAAGTGTGAATGTTGACCCCAAATTAGTA
CTTAGTACACATTAGTCTTTTGAGATATTAATTGATGTGAATGAATTTTTCTTTAATCTTCTTTTTTCCCTCTAAATTTTTCCTGTTGTGAGACCTCATT
CACTCCTATAGCTTCAGCTAAAACATTTATATTAATTACTTCCATGGTAACATCTTTCAGTCTTTACATTAAGTTTCAGCTTTTCTTCCCAAATTCATAC
CAAATTTTTAGACCTCTCTGAGGCTACTGGTTTTCCAAACCTAATACAATCAAAAGACATGCTCTACCATTTGTCACCAGCATTCTTTTCATTCTCCCAG
ATCTGAAGCCCCAGAATTATCTCTGACTACTCTGTCATTCTGTATGTTTAGATAGTTACCAACTCCTATATGTTCTGTRCGTTATTTCTCATGTCTGTTT
CTTCTTTCCCTACTGCCACTATTCTAGATTAGCTCTTCATTACCTGCATAGACCATTGCCATTGGTCATCCTCTGACCAATGCTTTCCCAACCCCAAGTC
CTTCTATACAACTGCCAGATGGATATTAAATTCACCTGTCCTGATGGCCCACTGCCATTTGAGTTCAGTAAACTCAGGCTAGCTTGCCCAAACCTACCTT
GTCTTAACCCTACCCACCTTGTGTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAAGCTGGAATGCAGTGGCATG
ATCCCAGCTCTCTGCAGCTTCGACCTCCAAGTCTCAGGTGATCCTCCCACCTCAGCCTCCTGGGTAGCTGGGACTATAGGCATGCACTACCATGCTTGGC
TAATTTTTTGTATTTTTAATAGAGAGGGGTTTCTCCATGTTGCCCAGGCTGGTCTCGACCTCCTGGGCTCAAGCSATCCACCCACCTCAGCCTCCCAAAG
TGCTGGGATTACAGGCATGGGCAACCGTGCCCAGCCACACACACTAAATTCTAATCCCAGTGGAATATTTGTGGTTCTATTAACACTCTGTATTCTTTCC
TATTTCTATGCCTTTGTTCTTTCTTTTTGCATCATTTACTACACAAAATAAAAGCTAGGGAGAAAGTGGCCTCATATCACTGTGACCCTCCACTTCTCCT
AGTTGGGAATGGCTGCAGGGAATGAAAAATGTTACTGATGATGGGGTATCACTCATGTGAATGGGATAGTCAAAAGGGTGAGAACCACAGGTGGATTATT
TATGTTCTTAAAATGCCCCAGCATATTCACGAGGCACAAAACTATAGTCACACATTCAGGTGCCATGTTTGTTTGTTTGTGTTATTGATTGGAATATGTC
CTCATTTGAGGTCAGATGTTGTTAGTAATGACCATAGAAAATTTCCTTGTTTTAGTTATAATTATGTTGATTGATAAGCGTATTTTATGTGTAGGTGTTA
TTTTCTGAGATATATTTAATTGAGAAATATTTTTAGTATAGTCCTTTCAATGAAGTAATTCTTTTGTTCCAAATAACACCTATAACAAAATTACTTTTAG
TAATTCCTTATTTTAAGTGATTTCACATACTTTACACAATGTAAAGGGGAAAWTTTTTTTTATATGAAACAGTGGAGAGAAAATTCAGTGATGTAGACCA
CATTGTGTCAGGAAGAGATTCACATTTATATCACTTTATCCTGTTTTTGACCAATATAATTAAGTTATATTCTGCTTGTAGTTAAAATTATGTGAACAGA
TGGTGAAAAAATTTATTTAAAATAATGCTTTTAAAGTTTCCAGGATTTTTATCCTTCATGAAACCTAGGCTTCAGTGTTCTTAYAACTACCCAGTATATT
AGAGTGCTCCTCCACACCATAGTTATTTCAGCTACGTTGTTAGTCCACTATTCGCACCTTATTCATGATGCAATATTCTAGTTATATCTGTAGTGTCTGT
GTACTAATGGCTGAAGATTTAGATACTCTATGATTAAAATGATAAAAACTTTAAATTATGATTGTAATTTATTGTGAGTAAATTTTATGTATTTTCCTTA
TATGAACATTTTAATTACATAAACTATATAAAGCATAATAATCTACCAATGTGAAATAAATATTAAGTATTTAATGTACTTGCACTTAATAATACTTAAT
ATTAAAAGCATTTCAGTATTTGAATTAAAACTAAGATTAAGGTACATACTAGCTATGAAGAAAATAGTACCAACTGTATATACGTAGCAGTGTTTGAGTT
GCTCTTGTCAGTTGTTTTTATCTCAGGTTATATTTGTGTCTCAAAACTTTGCTAATTCCTTTTGGGAGGTGCAAAGAAACTGAGTGAATCTCTTAGGTGC
TCTAACGATCAGTCACTAGGATTTGACTGGTGTCTGAATGTCAGTAAATGTTAAGATTTGCCTTAATAAAAKATTTTGGCAATAAAGATCTTTTATTTGA
AAGATTCTTGGGGATAAAGTAAATTTGGCATGTGGTGTGAAATAAATCATGGATAAGAGTGAAAGGAACAATTTTTTGATTGGTTTTATGTTCTATTTGA
AAAGTAAGCAAGTTTTAGTTATGTTTTTACAACTATTTTTGTATGTTGCAATTATATAACTTTTATAAATATTGAAGAATATTGGGTTTTACTGTTATAA
TGCAAAGCCTTGCCTCTCAGTTTATGTCTTTCCTGATTTCATTTATATTTTAAGTTCTCTAAAATAAAAATATTATTCAATTGCAGTTGAGACCTTTGAA
AGGAAGTGAATGCCATTAAGCAGGCTTTCTTATTGAAGTAGGCGTACTCTAATAGGAAAAGATCTGTTTTAGTGGGTTAGACTTCTTTTTAACTTATAAA
GAAGTCTCAATTTACTAGCAGTGTACTTTTGTTTTAAAGCACAAGTTTAAGTGTTAGCCTCAGATTTTTAAAATCATATTTGTCAGTTAACTTGAAGGAA
AAAAGTCATTAAATTATCTTTGGTTGATAATTCTAATTGAAAATATTTCATGCAAATATCTTGTCCTGTGAGGCTAGAAATTAGCTTTGACTTCTTGTTG
ATTTCAAAGCACAGTATGGCTTTGACAGACTTTACATACTGCTTATCCTATTTTATAGTTTCAAATTTCAAACCTCTTTACAATGGTTTCCTCTTAGAAT
GCATATTTGATGCTTGTCATGTCAGATCTTTTTTGCTATTTGCCTTTTTTTTAATCAGCATGAAAATGAACATGCATAATACATTAACAAATCTTTTCAG
GTGTATTGTAACATATTTTTGTTTGTATTATTTGGAGGTTAATAAGTATTTCCAGGATCTTTTATTTATTATTTGAAGTGAAATACATTAAATAGAAATC
AGTTTTTTTGACCCTGTGACTTTGTATTGCATTTTGAAAATGTTGATGTGTTGAGGTGTATAATTGAATACCATAGAAACAAAATGGAGATTTGAGGATG
ATGAATTGATAACTAGGTATTTTTTGTGGTGAGATTCTAAGATCAGTTACTGTTGTCCTTATAAAAGTCTAATACAGTCACTCAGCTGTTAAAAGCCTAA
TCCTCTATTTAAAAAAATATACAAAAACAAATTGTCTATCTTTCTGCCTGATCTCTTCTCAAGTACTAACACAATGGAAACAGTGGGTGATCTGTCAATG
TGTTTGGTTTGTCGATGATGGTTTTGTATAAATATTGGGAGGGTAAGAAATAAAATCGCACAGTAAAATATGATTTCATCTGCCTTTTCTCTGCAGCTCC
ATGGCTCATGCTGCGGTGTGAAATTCTCATTTTACACACTTTGCAGGCGGAGCACATGAATTATGCATTGAGCAAGAAAAATCTCCTGCCTCAAGTCCTA
TATGCATTTACCCAGGTTCTGTCTCTATTACCAAGATGAATTGCAAATGGAGAAATGTTTGATGGAATAGAGCTCTTAACTTCTTYGTTTAGAATTCAGA
ATTTTATTTTTATAGTAGATCCTTTAAGTATGAAAATGTTTTGAACTTACTATGGATTTTTTAAAATGAAAAATGAAATATAAGAGGAATACCAAACACA
TCATGAAGCATTTTATAGCGTTGATTCAGAATGCAAGGGTTTTCCAATTCAGTAGAAATGACCATTATCTATTGCTAATGTTATATTTCAGTCACTGGTT
ATTTGCTGTTCTCAGAAAGTCARTGAAATTCTGTCCTTTTGAAAGCCTTTTTTCTCTCTGTTCTAGGCTTCTAATAAGAGATTATGCCAATTTCACATGC
AGCTCTGTTCTGTGTTATATGTGACCTGATATGTATTTAATAGATATTGTTACACACTCTTGGCTGTGAAGTAGAAATTAAGGTATAGACTTGCCTTCAG
CTTTAAYTTTATCTTGATTTGATAGGTTTCTAATTTTTCAGGTGGGGAGGTTACAGTTCCATAAAGACAGTCATGCACCATTGTAGCTTATAGGAAGCTA
CACCCATTGTGCTCAGCATAGCATTTTGATAAGTCACATGATGGTATGCTCTTTTTGTTATATGTTCTTTCTTCACAGGAATGATATTCTAGTTGAGACA
GCATTTTCATTCTGCACTTGTTTTCATTTACTTGCAACTTTTAAATTTTAGCTTCAAAACTAATGTTTCTTCTATTTTTTTCACCATCTTAGACATTGTT
TACTCATTTGAGAAATGGAGAGAGGGACAAATACTGTTTCGTTCATTTTTAAATAAGGAATGAAAATTAAAACAACTAGATGATRTGGAGTGTTCAGTGA
TAAAAATAATTACTTTGAAGAATAAAATTAGTGCCTTTTTAAGTGTATTAATAATGTATATTATTATGTGGTCCTTGAAGTTTCTGAGTATCAGGACAAG
GGAAAAAACAAGTGAAATTTAAATTATTTTAAAATGTTACCTATGTATAATTTTACGTAATGCTTTTGTTCATGTATGTGCACTGTTGTAGGAGCTCTAA
CACTGTGTAAACTTTAAATAGTGATAAAATATATTTTGCTTTAGTGGTACCGTCTCGTGGCTAGAGGAATACTTCAAAAATATTTATTAGCACATTAGCA
ATAAGCTATAGACTTTTGGTAAATTATAAGTTATTTGAAGGCAGGACTATATCTATCTTGGCTGTTATTTCCATTGCTTGGCACAGAATCTAATATATAT
TTAAAATTCTATACATACCTATTGAATGAATGAATGATTAAATAAACAAAAACATTTTAGTAGAAACTTTAGTTTTGGTCTGTGATTGAGAAAATTTAAT
GTAAAAAATAGTATAGATTAGAAAGATAAACTTTGACTCAATTATATTTAACGYCCTACTCTTTGTTGGCCTTTAGTTGTTTGTAATGCACTTAATACTG
TTTTCTTTTTAAAAGATTTACAAWTTTTTTCTGAATATCTAACCAAACTGTGAACAGTTCAGGCTTAGGGGCACTGTATTCTAGTTCATGGATATATACA
TTTTGTAAGTACAGTAGACCGAATAAGCAAATCTCTGCTGGGGGAAGCCCTAGTTATATGCAGATATGTTTTTGAAATATTTATTTTCTCAACAAAACAG
TAGATCAAGTGAGTGAGTCCTTTCAACTCTAAAAAGAAAGAGCCTGGGAATGTCATTTATAGATTTTAATGAATATCTTTGGCAAAGAAGTTTGATACAA
CCCAGTATAGAAACATAAAATATCTAGTACAATGCCTGTCACAAACTATATCAGAAAAGGCTGACCTATCACAAGCCCATCAAAAATATCTGAGCTATGC
ATATGTTATTTCTTTTTCTTAAGTAAACCTGTTTAAAAGTTATTTTCAAGAATATTTGTGGACTTTCTACCAAAGAGCCACTTTACGTTTTTATGTTAGC
AAGAAGTTGTCCGATTGTAGAATAATTACATACCTTTAAATTTTGTTCTGACATTTATAATTTTTAAAYACAAAATAGTTTAAGAGTTTGCATAGTGGGT
AAGAAATACTATATGCTAATTGAGACAAATGTTGATTCAGGAAAACATTTTATATAACCATACAGAAGTTTAATTTGTTGGTACCACTAAGCAGAGGAAA
AAAAAGTTTGTTTTGGAATATTAAGGACTACTCCACAGATTTTTAAAACAGAACGTGTGATAAATGAAATATTTGTTATTTTATAGGAGAAAGAAAAGAA
AACAAAGCAAGATAGAACTCCTCTTACCAAAGATGTTTCACTTCTAGATCTGGATGATTGTAAGTATTGTAATTTAAAATATTTCTTCTGTGTTTAGTAA
GAGTATTTTTTATTTTTATAGTACCTTTCATTTACATGTCCCAAAATATATCAATATTTATTGTGAAAGACTTATAGATGAATAAGGCAAGAAAGTTTTG
GAAATCAGTGGTATTTGTTTCTTTCATCTATTCAGCATATCACTTCATTATCACATGAACAAATATAGATGGCCAAATACAAGTACACAAAATTCATTTT
AAAATCTTTTGCTTTAGTAATTTATACTTGTTTGCTAAATAGTCATCCATACCTTATAACTTCTACATTGTGAAATGTGGATYATGGGGATTGACACATG
TAACTTAAGGAGGTAGAGGATTAAGGAATGTAAATMAAAATGGAAAGGACATCACCATCTTCCACTTGGCACAATTTCAGTAGGAATGGAAATGGGTTAC
AAAGCCTTTGGAGGCCAGTTTGGCTATACCTCTCAGTCTTTTAACTGCAAAAAATCTTTGTCCCAGCAAATCTAAGAATTCAGAATCCTACAAATATATT
CACCCAAGTGTACAAAGATATATGTATTTACCACCTCCCCTTAAATCCTCCTGCATAGTGAGAGAGAGATAGTGGTACTTTGTTGCACTAGGAGAAGAGT
AACAAGAAGTGAGATTTCATGAATATTAAACTACTATCATTTTTGATAGAGTTTTTCTATGCTGAGAGTGAGTTATGTTTTAGGTTATCTCATTCTGTCA
TAGATCTGTTCTGTTTATACTGTTACCTGCCCTGTCCCCAGTAGCCATGGCATATACTTAATATAGAGAAATTAAAATATATAATAGAGAGAAATAACAG
AGAAACTAAAAATAAAATTGGAGTTAAATTTGAATCATGTTTTACACATTGGCTAAGATTTTGAGGTTTGGTATCATCCAGTGTTGCTAAGATTTGGAGA
AACAGAAGTACATGTTTTTGATAGGAATATAAATAGGTACAGCTCTTTGGAGTCATTTTAGCAATATCTATCAAAACTTAAATTGCACATACCCTTTCAC
CTAGCAGTTCTTCCCCGCCCCCCGAGACGGAATCTCACTTTGTTGCCCAGGCTGGAGTGTAGTGGCACTACCTCGGCTCACTGCAACCTCCACCTTCTGG
GTTCGAGCAGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACCATCAYGCCCAGCTAATTTTTTGTATTTTTTTTTAGTAGAGGCGGGTTTCACTG
TGTTAGCCAGGATGATCTTGATTTCCTGACCTCGTGATCCACCCACCTCGGCTTCCCAACGTGCTGGGATTACAGGTGTGAGCCACCACGCCCCACTGAC
CTAGCAGTTCTTTTCCAGAAATTTATCCTACTGATAAACTACTGATAAAATCAGATCTTATTTCTTTCTTGTTTTAAACCCTTGAATTTAATGGCTTAAT
TTTGCATTTAGATGAAAGCCCATACTCCTTTCCCAGGTTTCTCAGACTGTAGATGATCTGACCCCTGTCTTCTTGTTATCCACATTTCATCCTACTCTGT
TTTTATGCATTTGTCACACATACCAGGCTCATTTCTGCCAAGGGCCTTTCTACTGCTGTTCCCCTGCTGAGAACAATTGACTGATCCTTACTTCCCCAAC
TCAGAAGTCACCTACTCTTACACACTGTCCTAGTCCCTTTGAGCTGGCATAACAGAATACGTTAGACTGGGTAATTTATAAACAGCAGAAATTAGTTGTT
CGTAGTTCTGGAGGCTGGGAAGTCCAAGATCAAGGTGCCAGCGTATTTGATGATWGGTGAGGGCTAGCTCTGCTTCAGAGATAGTGACTTCTGTTTCCTC
ATGTGACAGAAGGAGGAAACACCATCCCTCATACCACTTTTATAAGGGCAATAATCCCATTCATGAGGGTAGAACCCCTATAACCTAATTACCTACTAAA
GGCCCCACCATAKTCTGGATTAGGTTTCAACACGAATTTTGGAGGGACATAAATGTTCAGACCATAGCACAAACCTTCTTGTTATTCTTGTTATTCTTGT
CATTCTTGTCTTCATGGCATTTTTCACTATCTGAAATTACCTTAAAATTTTGGTACTTGATTATTGTCTCTTTCTCCCAACTAAGATGTAAGTTCCATGA
GGACAGGGTCTCTGTGTTGCTCACTGCTATTCCTAGTGTACAGAGTGGCTCCTGGCAGTTAGTGGGCACCCAGTAAATATTGCTTGAATTAATAAAACAT
ATAAGGGCATATACAAAARTTTCATTGCAGCATTGTTCAGTGGTTAGCTCTGGCCTCCTTGTGATGTAGGACTAACCTGGGAACAGACAAGAATAAGACT
TTCATTTTATATTTTGTATCTTTCTGTGACATTTGAATATCTTACATATGTATGTTTGTAACCTTCATAATTTACAAAGTTTAAAATTGTAAAAGAATAA
CAGTAAAGTACATTTAAAAGGGAACTAAGAGTAAATGTTACAAGGTACTAGAGTGTACTAATTACAACTTTTTCTTCTTATATTCAACTCTGGATTTCCT
GGCAACTACGGTAAAAAAAGAAAAACCTATAAAATGACATAATTGTTATAGTTCCATTCTATAAAAAAGTATATTTTTATATGTTGAGATACAAGCTTTT
TTTTTTTATTTTTTATTTATTTATTTTTATTTTTATTGATCATTCTTGGGTGTTTCTCACAGAGGGGGATTTGGCAGGGTCATAGGACAATAGTGGAGGG
AAGGTCAGCAGATAAACAAGTGAACAAAGGTCTCTGGTTTTCCTAGGCAGAGGACCCTGCGGCCTTCCGCAGTGTTTGTGTCCCCGGGTACTTGAGATTA
GGGAGTGGTGATGACTCTTAACGAGCATGCTGCCTTCAAGCATCTGTTTAACAAAGCACATCTTGCACTGCCCTTAATCCATTTAACCCTGAGTGGACAC
AGCACATGTTTCAGAGAGCACAGGGTTGGGGGGTAAGGTCACAGGATCAACAGGATCCCAAGGCAGAAGAATTTTTCTTAGTACAGAACAAAATGAAAAG
TCTCCCATGTCTACCTCTTTCTACACAGACACCGCAACCATCCGATTTCTCAATCTTTTCCCCACCTTTCCCCGCTTTCTATTCCACAAAACCACCATTG
TCATCATGGCCCGTTCTCAATGAGCTGTTGGGCACACCTCCCAGACGGGGTGGTGGCCGGGCAGAGGGGCTCCTCACTTCCCAGTAGGGGCGGCCTGGCA
GAGGCGCCCCTCACCTCCTGGACGAGGCGGCTGGCCGGGCGGGGGACTGACCCCCCCCACCTCCCTCCCGGACGGGGCGGCTGGCCGGGCAGGGGGCTGA
CCCCCCCACCTCCCTCCCAGACGGGGCTGCTGGCCAGGCGGGGGGCTGACCCCCTCCACCTCCCTCCGGGACGGGATGGCTGGCCGGGCAGGGGGCTGAC
CCCCCACCTCCCTCCCGGACGGGGCGGCTGGCCGGGCAGAGGGGCTCCTCACTTCCCAGTAGGGGCGGCCGGGCAGAGGCACCCCTCACCTCCCGGACGA
GGCGGCTGGCCGGGCGGGGGGCTGACCCCCCACCTCCCTCCCGGACAGGGCGGCTGGCCGGGCAGGGGGCTGACCCCCCCACCTCCCTCCCGGACGGGGC
TGCTGGCCGGGCGGGGGGCTGACCCCCCCACCTCCCTCCCGGACGGGGCTGCTGGCCGGGCGGGGGGCTGACCCCCCCACCTCCCTCCCGGACGGGGTGG
CTGGCCGGGCAGAGGGGCTCCTCACTTCCCAGTAGGGGCAGCTGGGCAGAGGCGCCCCTCACCTCCCGGACGGGGCGGCTGGCCGGGTGGGGGGCTGACC
CCCTCCCTCCCTCCCGGACGGGGCGGCTGGCCGGGCGGGGGGCTGACCCCCCAACCTCCCTCCCGGACGGGGCGGCTGGCCGGGCGGGGGGCTGACCCCC
CCACCTCCCTCCCGGACAGGGCGGCTGGCCGGGCAGAGGGACTCCTCACTTCCCAGTAGGGGCGGCTGGGCAGAGGCGCCCCTCACCTCCCGGACAGGGC
GGCTGGCCGGGCGGGGGGCTGACCCCCTACCTCCCTCCCGGACGGGGCGGCTGGCCTGGCGGGGGCTGAGCCCCCCCTCCCTCCCGGACGGGGCGGCTGC
CGGGCGGAGACGCTCCTCACTTCCCAGACGGGGCGGCTGCCGGGCGGAGGGGCTCCTCACTTCTCAGACGGGGCAGTTGCCGGGTGGAGGGTCTCCTCCC
TTCTCAGATGGGGCGGCTGGGCAGAGACGCTCCTCACCTCCCAGACGGAGTCGCGGCCGGGCAGAGGCGCTCCTCACATCCCAGATGGGGCGGCGGGGCA
AAGGCGCTCCCCACATCTCAGACGATGGGCGGCCGGGCAGAGACGCTCCTCACTTCCTAGATGGGATGGTGGCCGGGCAGAGACGCTCCTCACTTTCCAG
ACTGGGCAGCCAGGCAGAGGGGCTCCTCACATCCCAGACGATGGGCGGCCAGGCAGAGACGCTCCTCACTTCCTAGACGGGGTGGCGGCCGGGCAGAGGC
TGCACTCTGGACGCTTTGGGAGGCCAAGGCAGGYGGCTGGGAGGTGGAGGTTGTAGCGAGCCRAGATCATGCCACTGCACTCCAGCCTGGGCACCATTGA
GCACTAAGTGAACCAGACACYGTCTGCAATCCCGGCACCTCTGGAGGCCAAGGCTGGCGGATCACTCGCGGTTAGGAGCTGGAGATCAGCCYGGCCAACA
CAGCGAAACCCCGTCTCCACCAAAAAAATACGAAAACCAGCCAGGCATGGCGGCGCGCGCCTGCCATCGCAGGCACTCGGCAGGCTGAGGCAGGAGAATC
AGGCAGGGAGGTTGCAGTGAGCCGAGATGGCAGCAGTACAGTCCAGCTTCAGCTCGGCATCAGAGGGAGACCGTGGGGAGAGGGAGAGGGAAAGGGAGAG
GGACAGGGACACAAGCTTTTTAAAAAAATCAAGTTTTTAAGAATTGAAATGAAAGTTTTTTTGAATTTTAAGGGAACTTTGATCCCAACCTACATTTTTT
AACTCAATATAGGATATAGTGTTTCTCTTTGTTTTTAATACCCAAGTGCTATTTCTTTAAAAATCTTTCATAGTCCTGCTTTTGTCAGAAMCGACACTTG
AAACTCTCTTGTTAACAAGTCAGTTCAGCCTGTGTTTTCTGGATTGTCTGCTAAGTGCAAGGTACTTTAGTAGGTGCTGTAATAGATAAATAGAATTTAG
TCATTCCCTTCCAAAAACTAAAATCTAGTCAGAGACACAGATAACAGGACAAATAACTATTGCATACGAGAGAAAATAGAGATGCAAAGTATAGTGAAGA
AACAGAGAGGGAGATGAAAACCCCTCTTCAGGGTTTTCATTAACCCCAAATTAAAAAACTACAAAAACCTTGTGAAGGAACCATGATCTGAGCTTAGAGA
TAAAGACAAGCAGAGTGCCAACTTCACTGTATGCCTCCTATTAGCCTGCAATGGTTCTCCATTGCCCATGGCATGCAGTTTGTTGCTCAGATACTAAAAT
GTTACTCTCCAGTGGCTTTAGTTCTCAACTGTGAGAATTAGATTAATCTTGAAAGAAGGCCAGACACATTCCCTGTGGTTTATCTAAGAGGCACATCATA
ATCCACACAGGTTGTTTGCTAGGTACACAGTGCATACCAGGAAGACTGCAAGTACTGAATTTCTTCATTTCTTCATTCAGGAAATGTTAATTTAATACTT
GCTGTGATCTTTGTAATCTGCTACATACTGGAGATTCTAAATGAATAAAATATTGTCCCTACCCAAGGAACTCTCAAAGTGTAATGGGAAAAACAGATAA
ACTGGCAATTAGATTGCCGCATTATAGATGAAATGAGGAGAAATGCACAAAATACTGTTCAGTATCAAGGTTCCTAATCCACCTAGCRGTATCAAAATTT
AACTTTTGAGTTGAGTTTAAGAAAGCATCAGTTGGCCAGGCCTGGTGGCTCACACTTGTAATACCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACCTG
AGGCCAAGAGATTGATACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATAGAAAAATTAGCCAGGCGTGGTGGTGCACACCTGTAATCCC
AGTTACTCGGGAGGCTGCAGCAGGAGAATTGCTTAAACCTGGGAGGCGGAGGTTCCAGTGAGCCAAGATCACACCACTGCACTCCAGCCTGGGTGACAGA
GTGATATTCCACTACAAAAAAAGAAAAAAGAAAGAAAAARAGARTCAGTCAAGCTGTTAGAGGCATGAGGGGAGGGTATACTAGGCAGAATAAAGTTATG
GAGGAGGGAAAGAGCTTGCTACTACCAGAAATAATGATTGTCTGTCTCTAAGGCAGCAACCCTAGCAATAGACTGACTCTACTACAAAACAATTTGGTTA
TTTCTCTTACTATTTCTCTATTATATCTGTTGAGGGAATGTTATCATGAGCACAGGTATTAGTCCTATGCTTTTAATCGGTTTAGTGGTTTCTTTGTGTC
TCATTTTATTCATTTGTAATTTTTTTAAAGACTATAAAACTTCCACAGTTTCTTTAGATCATTAAGTTATATGACTCTTTTTCATGGGGGTCAGTTAACA
ATACATAAGAAAACATTTGTTCTAGGATAATATATGACCTAACAGTCTTTTGTTAGACTTAGAGATATCAATATGCTTTCTATGTTTCAGGCATATTTTA
TATTCCTGGAAATTAAACAATATATTTTAGGACCCCATACCATGTGCTCTCAGTAGGACGATCAYAAATCAGTGATCATATTCTAGTGTTCTTTTATAGG
AAATGTAAACCTATGTCATTACATTGTTAGTACAACTGACAGTGAAATATTTAAAAAATCTCTGTCAGCCAACAATAATCATACTTCAAATAAGCCTTAT
GATATGTGATATCACATTGTTGAGTGAATTTTGGTCAAGGCAGTAGAGTGGAGTCACTAAGAGGACAGTGGAGCAAGCTGTCTGAGTTTCAATCCCAGCT
CTGTTACTCACTAGTTGTGACATCTTGGGCAATTTACTTAATCTCTCCATGCTTTAGCTGCTTTGTCTATAAAATTGGGATGGTACAAATACTTTTGGGA
GTCATTTAATTCTCAAAGGATGAAATGACTTGATATACGTAAAAGCATTTAGAACTGTGCCTRACACATGATAGGCATTACTGGGTTTAGTGATGATGCT
GGTGCTGATGATGCCAATGATGCAGATGATGCAGCAAATTACAAATTAAATAACAACATATTAAGCCATTATGTATTCAGTTTTTCTTATTCTTAAATCT
TAAGGCAAAGCTTTGATCAGAAGAATAATTGAATAATTACTGTATTAGATCTACTTTTAGAAAAGAAAAAAGTTTTATAGAAAGTTTTTAAAATAAAAAG
AAGAAAATAAAATTAACCTGTAATCCAAACACCCCAGGTTAACATTCTGACATATCAGTTTAGATTCTCTTCATATGCAAATCCCCCCTTCCAAATTGGA
TTCTACTGAGAAACTGTTTTATCAYTTGCTTTCTCCTCTGTTTAAAGTACATGTTCTTAGTTGGTGTGGTGGCTCATGTCTATAATCTAGCACTTTGGAG
GCCAAGGCGGGAGGATTGCTTAAGCCCCAGGAGGTCAAGGCTGTAGTGAGCTGCAATTGTGCCATTGCACTCCAGCCTGAGTGACAGAGCAAGACCCTAT
TTCCAAAAACAAAACAAAACCTACGTTCTTTATAACTGTATGGTTGTCCTTTATCCTGTTAGAACAAATTCTGTTTAACAGATTTACTGTTGTTGGGAAT
TTAGCTGTTTTCCATTTTTTGCTATCATAATTAGTGAAGTAACATTCATCATTGTAAATATATTTTTCAATATCTCTGTAACTGTTTCCTTAAGATAAAT
TTCCAGAAGTAGTATTGCTGGAACAAAGACTTTGAAGAATTTGTTTGTCCAAAATTGCCTTTTAGGCTTGGCATGGTGGCTCATGCCTGTAATCCCAGCT
ACTTGGGAGGCTGAGACAGGAGGACTGCTTGAAGTTGGGAGTTCGAGACCAGCCTGGACAACAAAGTGAGACTCCTGTCTCTACAAAAAGATAGAAAAAT
TAGCGGGGCATGGTGGCATACACCTGTAATACTAGCTACTCAGGAGGCTGAGGCGGGAGGATTGCTTGAGTCCAGAAATTCAAGGCTGCACTGAGCTGTG
ATTATGCCACTCCACTCCAGCCTGAGTGACAGAGAAACTCCTCAAAAATAAGTAAATAAAATTGCCTTTCAGAAAGCTTGTACCAGCTTACACAGTATTA
ATATGAGGGTGCTATATTCCTTGTACCTTCACCAATGCTAGATTTTGTATTTTAAAATTACCTTTTCTAATTTGCCAGGTGGGCATGATATTTCATTTTA
ACTTGTATACTATGACATTTTTTTTAAAAACCCCATAGAGTCACTTTGTTTTTACACATTACTAATTAAATACTTCAGCACAGTCACCTAGCCTCAGAAT
TCACTTTAGGGTAAGCTTTCAATGCCAACTTTCATCTTGCCATACCTGCAAACAGATGCATAATCATCTCTTTAATACCAGAGCACACATCTTCTGAAAT
TATATTAAAACCCATCCTTTTTTAAAAAACAGCAGAACTTGCTTGTGGTGTGAAGTTTCTTCTCTTGTCTCTTGATGGTATTTAGCCAAGCCACAGTTGA
AATCAGAGGCTGTTTCTTATTCAGTTTTTTATTCGTTACATGGGCATTCTAATATTTTGAAAGGACAGATGGTGGACGGGTGGGTAGATAGATGTACAAA
GGAATGAATAAACATGCATTTAGAACTTACCTGAAAAGTTACGTGTTGCATGGGAAGGCAACATATTATGATCCAAGTTAGMAGAAGCAGTTTCTAATTC
TATAGTGGTTCTACCATTCACTTTTTATGACCTTGTCAATATTAATCTCCCTGTGGCTCAGTTTCCAGTGTCTTCAATATTAAATGCTCTTTTTAAGCCT
TCTCATTGCCATTGGCTTACTTTAGTCTTTTTCACTTCATTCCTAAACTATTGTAAATTCTTCCCTACTCCCAACCCTGCCTTCAGTCTGTGCATTGTAC
TGCCATCTGATTAACCATCCTGCAGGACCATATTCATTGTCATTCCTCTGTTTGATCGATTTTTGACTGTTCCCCTTGGTCTATAGGATAAATCCAGTCC
CCTTAGTTTTTCAATTTCCTACCTCTCAGCCTTTGTTTATAGCATTCTGTTATCCAACAATTAACTGGCTTCTTTCTTTCCTCTTATTCAAATCTCACYC
TTACTTAAAAATTGGACTTCATTCCCTCCTGTTCATGAAGCCTCCTCTTCCACTCCTTCTCCAGTGATCCTTGTTTTGCCCCTGACTCTGTGACACTTGC
TAAACTGTACCGGGGTTTTCAGTGTGGGTCTAAGGAAGCCTGGGGGTTTGAAGCTGTGCTTCAGCCGTACTAAGTGAGCGTAGGGAAGACCAAGAGCTCC
ACTCCCTCCCCATCCAACCTCCAGGCTGCTTTCTCTATTATATATGTTGAGATTTTGTTTAGTGTTTCCTTTGAAATTTTTCTTCTTTGGCCGTATCATT
TATGGACTGTATTGTTACTTTTTTTTTTTTTTTTTTGTCAAATACATGTATCTCTTTTTCTTAATTAGGTTTTGTTACTTGAGGATCTTGAACTTTTTTG
TCTCTCACTTGCTACCTTTCAGAATAAATATTTGTTGTTAACTTTAYGGATTAATATTTGTTCTGCCTTGTTCACTGGATATTGTGAGACTGAAATGAGA
AAAAGATGCTTTGAAAAGTAATGTCACAGCTGGGTGTYGTGGCACACGCCTGTAATCCCAGCAGTTTGGGAGGCCAAGGTAGGAAGATTGCCTGAGCCTA
GGAGTTAGCGACCAGCCTGGACAACATGGGGAGATCCCATCTCTAAAAAAAAATAAAATAAAAAATAAAAAAAAAAGGCTGGGTATGGTGGCATGCACTT
ACTCAGGAGGCTGAGATTGCTTGGGCCCAGGAAGGGATTGCACCGCTTTACTCCAGCCTGGGCAACAGAGCAAGACCCTATCTCCAAAAATAAAAATAAA
AAAAGAAATGTCAAATTAACTAAATGTTATTCCCTTTAGGGTATTATCTTGGAATGAGAATTTGTTGGAAGCTAAAACTTGACCACATTGTAATGTATTT
TATTCAAATGGTTTAGAAACACCAAAAATTAATGTTATTGTCTGTTCACACAGACTAGCAGAAATGCAAACATGTAAAGACACAAATTTGTATTACATGA
GAAGTACAGTTATAGAAGTTTGTTCAAGTATATCTGTGGAACAAAGAAGGCACATATAAGCTGTTTGCAGGTGAGCCAGAGAGTGTTTTCCTTTTAAAGG
GTAGCTTGCCAGATCGAAGTTGCAAGATGAGCAAGGCAGAGAAGTAGGCAAACAGAGTAGAATATAAAAGGCTCCAAGACGTAGAACAAGATCTTGGGAA
CTATTATCCCATAGAGCTAGTGCATAACAATGCTGAAATTGGAGATAAGCTGGACCTGAATAGTCCAGTATGGCGGCCACAAGCCACATGTAATTACTTA
AATTATGCAAAGTTTAAAATGCATTTATTTAGTCATACTAGCCACATATCAAGAGTATGTTAGGCATATGTGGCTAGTGTCCACTTTATCAAATGTAGAA
CATTTCCATTAGCATAGGAAGGGCTGTTTGGGCTGGGGCAGACCATAGAGGACTTTGTGAACTTAATTGAGGAGTTGGGCTTTTATCTTGTAGGCAGTTA
TGAGCCTTTGAAGAGTCTTAAGCAGGGGAGTAACATGACCAGACTTGCATTTTTAGAAGATTTCCAAACTTACAGGTATCAGTTCTCAAGTATATAGCAG
TTTTAGAATCAGTCAAACATTTCTATCTAGCACATAGCTTTTGCTGAAAAAGTATAATTACAAGGGAATTAGGTAGCCTGATTAGAGTGGAGAATAAAAT
AGATATAGGATTTGAACATCTTTCAAGACTTCTAATTCCACTGCAGCATTCTCTTGRAAGCGGTTGTTATTCTTATGATAGTCTGGAAAAAAAATGTTTC
TTTACTTTTTTAGGGAGATTACTGGGTGATAAATGTTAGTGATAATGTTATGTGATAAAAATTTTCACAAACTATTACTCAAGATATTTATATCCTTATT
TTGTTATAGGATTTGCCATTATGTTTTGAAAGCTAAGACTAATAACTGCCATGACTTGATAATAAGTTGACTAAATCAAGATGTTAAATAGAATTGTCAT
ACATTTATTAATCAAAGTAATTTAATTAGATTTACTAACAAAATAAAAATGTTGCTTTTAATAATTTGAATTAAACGTTCATGCACATTTACTAATTTGG
GCCTTTTCTTACAGTTAACCCAGTATCCACTCCAGTTGCACTTCCCACACCAGCTCTTTCTCCAAGTTTGATGGCTGATCTTGAAGGTTTACACTTGTCA
ACTTCCTCTTCAGTCATCAGTGTAAGTTATTTTTAAAATCCACCAGCTCGGTTTTCTTATGTTGCCATTGTATCTTTTTTATTAAAATGTAAATACTTGA
AGTGGATTCTTAGTTTTGAACAGATTCTTCTCTAAGAACAAGCCCAATTTAGCTAAGACCTTTTAATTTTTTAAATAATTTACTCAAACCATTATCTTCT
CAATTTTTTTCCCTTGTTGTCCACACTTAATTATCATCTGTATGTTTTTCTCTGGTATTGTTATATATCTGTAACATACAAAGGTTCTTCACCACATTGA
CGCAGTACATATACCTGAACTGTGCCACAAAAAGTTGTCTACATTAACAGACTTTCATTTCCGTAATCGTTTTATTCCTACCACACTATTTTTTCATAGA
CTATTAAAAATTCATGACTGTTTTTATTTAAAAGTTCAAGATTTTTTTTTCTGTCTTATTTTTGTACATTTATTTACATGTGTTGGTGTCTTTAAAATTA
TTCTTTAATGTTATTTATAGAATGTGATGTGAAGTGAGGCTAGAACCTACCTGTCACAAAATAATGCAAAAACCGTCAACATATCATGGTATTTGAAGCT
GCAACAACTGTTTATTGTGTTAGCATATTATATCCACTAACTTTTCACTGTAAATCAAGCACGCTGCGCCTAAGATGTATAATCTGTTGATATGCTTGAC
CTCCTGTTAATTTGTTGTCAGAAATCTGACAGACTAAGAGACAGAATAGTAAGCTTTGATGGGCATAGGTAGCTTCAATAGATCTGGTTCTCAGGGCTGG
CAGGGTACTACATGGCATATAACTGATCATCTGAGCTGCCTGGGAGCATAGAGCTGCTTCTGCCAAAAGTGGGAGAAAAGAAGTGTTTAATTCTTGTGTG
TTATTATGGAAAAAATTCCTCCTTTAAAGCAAATATGCTATCAGGGCTATGCAATGAAATACTAAAAAAAGCTATCTGCATTTCTGTTCAACATTGGTCA
CCTCGCTCAGAAAGTACAGGTGAAAAGTTTTAAGCTACAATGTTCTCCTTAAGCATAGAATGAGATTATCTCTTAACCACCCAGAAATGAGTAAGAATGG
TATTTGTGATTTTAATTTGCCCTTGTTTCTAAAAGGAAAAGACACATTAAAAGATATGAGGGAGAAGCATTGAAAATAAGCAGTTAAGTCTTTTATTTAT
TCAGGTAATAAATATTTATTGAGCATTTGTGGTAGTCTCTAAAGAAAAAGTGTTAATCAAAAAATCAATAGTGAAGCAGTTAGTTCCTTGAATGGAACAG
GAGGTCCCTAAAACCTTGGTTGGCAGTAAGGTAGTGAATAAATAATAACTTGGGCCCTGATATCAGATGTCCAGGGTGCAAACCCCTGCTTTGCCACTTA
ATAGCTATGTGACTGTGGGCAAATTGGTACTTTTACACCTCATTTTCCTAAGAGAATACTATCTACCGCATAGGATTGTTATGAGATTAATGAAATAATA
TATGCAAAGCTCTTAGAACAGTGACTGACACATTGTCATTACTCAGTAAATATTAACGAATATTCTCCAAAGTGATACGATATGTGATAATGGACTCTGA
GTGTAGACTCTTCTACTTTATTAATAATAAGAAGAAAGCAGTTGAGATTAGAAAAGCTTGTAGTAAATTTTCATTCATCACAAAGTAATTGACAGACTCA
CCCTTTTATACTAAGGAAAGTATTTATTGAGATGGTCTCTTCAAAGGAAAGAAAAGCACTCCATCTAAAGTTGGGCAAAAAATGACCGCCAGTTGACACG
GCTGAGTGAAGCAGGACCACAACACTCACTCCCCAAAAGCTAACAAAATGATCAAACAAGTAGCGCTAAAAAGAATGACAACCAGAAGTTCACCAGCAAC
AATAAAATATGGACAGGAATAGAACTTTAAACAAAGAAAATGCTAGAACTCTGAAAAATGGAACGTGTAGAAATAAACTGAATATTCTACTGCAGAATGT
CATGGCTCCTAATAGCACATCCAGCCCTCAGAACAGTACTGAGAAAAGAAGATGAATCAACCAGAGTTTAAGCTTCCTCATTATGTGTCTGAATTTGGAA
AGAAGTGGACAGAAGACATCAGAGGAAAATAAAGAAAACCCCTCAAGAATTACAACTCCCATATAATGCTGTGAGATCTCAACAAGTCTAGGAGCTTTTT
TGGATCCTGAAATGAAGTTCATAGATGATAGAGTACATCTATAATTTTAAAGTCAACATGTTGTCCTAGTTGAATAGAAAAAATAAAAGTAATATATAAT
AAACTAATATTTTCAATGATATGTAACTGTTTGACCATGACTACACTAGAAGTAGTTAAATGATGCTGGCACTCGTATATAGAACTCATGAATGTGAGAA
CTATATGTGCAGATTGATATAGGTGTGTTATTCGGCAACGCAAATGCTACGGGTTGTGGTATTTCCATCAGTGACATAATTTTCCAAACACTGAACAGTT
TTTCTGCACCAAAGTACTTGCATCCCTGGAAAATTGAGCCTGTTAAAATCTTGCCAAAGAAAAAAAAAACTTCGTATTTTATATGAAATGTTCTAGGATT
GAGTAATTTTAAGCACGTTGTCCAACGTGTTTAACGTGTCTAATGAGACAGTTGAATGTTARTAGTTTCATTTTCTCATAGTAGGAAACAGAGCTTTTGT
GAGGGACATGGTACAGTCTGTATCGTCAGGATCTGCCCTATTCATTACTACGAACATCTAGCATTCCTGGCCTTCACTCCTTAAAGCTAGTGGCATCTTT
TACTGTCCCTCCCTCCGGTTGTGTTCTAGTTGTAAACGTCAAAGCATTATGTAGCAGTGAAAACCACAGGCTCTTGATTCAGACCACCTGTGTTCAAGTC
AGAGTTCTGCGCTTTACAAATTAGAGACTTCGGGCAAGCCAGTTTACCTCCCAGTGCCTCCATTATTTTCATCTGTAAAATGATCATGCTACCTACCTCA
TAGGATTGTTGTTGGTATTAAATGATTAACAAACATGAAATGTTTATGACAGTACCTGATATGTACTAATAACTAAATATTTCCTGTTATCATTTTCATT
ACACGTACATCATTAGTGCAGCTTTATAAAGGAAATGAAGTGTGACCCAAGAAAACTGTGTTTTCTTCTTACTATTAAGGCTGTACATAGATATGCTGAA
ACATGAAAATTACTATGGATTCTACTTTAAAGAAAAAAGAGTGGGGATACTGCTGATTGTTGAAACCAAGGAAAGGGTGATTCAAAGTAATAGAATCAGT
AGCTATAAAAATTGTGATCATGTGATTGAGTATAAATGATAAAAATAAGAAACCAAAACTAGAAGGTGGGGAAAGATGACAGGATGCATGGTAATTATTT
TTTCGATGTAGGTAGGAAAACACTCCGTAATATGCAAAATTGAAACCGCTTTTGTTTTTGTTTTTAATGAAATGCAAACCTCTTAATGATTTGTATATAC
TCAAAGAACATCTATCTGATGTTTTGGAGGGTTTTTTATTTTTTGGTTTTAATTCCATTTCTTTTTCTTCAAAGTAAGATTATAGTCCCATTCTAAGGGA
TAATTTGTCTGTTTCTCTGTGTATCTGTCAGTGGTTACAGAAATGTCACGTTCACCATGGTTAACAGTTACTTTAGATGGAATGGTTTCAGAATGACTTG
TTGATTGTTTTGGTWCTTTTCTGTAATGTTTAAATGTTTTATAATAATATAATGATAACTTTTTAAAACAAATTATTACTATAAAAATGAGCAAAASGAC
WAGAACTGGAAAAATTAATTTATGGTATAACAAATCAGAATAGTGCTTACTCGTAGGAGAATTAGTGCTTATAAGGAAATACAAGAGTAGCTTCTGGGGT
GCTGATAATGTTCTGTCTTTTGATCTGGGGGCTGTTACATGGGTGTATTCAGTTTATGAAAAATATCATTGAGCTTTGCACTTAAGATATGTGTACTTTA
TGTATATTCTACTTCAATAAAATATTTTTAAAAGTGGACAAATGATATAAACACATTATTCATAGAGGAGGAAATATAGATGATAATATGCGAAAAAGGT
TCAGTGGTAGTAATGAAAAAATGTAGAATTAAAGAACCATCTTGCCTGTAACATTAGCAAAAATTACAAAAACCAACATCTGTTGTTGCTGAGGTATGCA
ATGAAGCAGGCATTATACACTGCTCCACTGGTAAAAGTATAAATTATGACATCATTCTGGATGGCAGTTGGGCCATCTGTATAAAAAGCCATCAAAATAT
GTATACCTTTTGACCAGGTAATCTCATGTCTAGATTCTTCTTCTAAGGAAATAATTAGAATTACACAGATTTATGTGCATGGTTGTTCAAACCTAAATGT
CTAGTGATAGTAGTGATGGTTACAAAAAGTATGCAAAAACAATTTAAGGAATTTTGTACAATTATTAAGATGTTTTTATTACATATTTTAATAAGATAAA
ATATGGTATAATGTMAGATGGAAAAAAGGATACAAAATGTTATATATATAATCTAAATTTTGTAAAATTGTACAATTGTACTGTTTTCAAATACAAGGAA
ATTGAAAGAGTAGAAGAAACTGCATCATAATTTTAACAGCTTTTCTGAATGATGAGATTATGGATGTTTTATATTTAATTTTCTTCTGCATATTTTTAAA
TATTTTCCAGATTTTCTCTAATCAAGATGTAATACATCTATTACCCAAAAAGCAATACTTGTAAAATAGAAATGGAAAGCACATATATGAATGACGAGGA
TTCCTTTTTATTTGTTTGGGTCTTTTTCCTTTCCTTTTCCTTTTCCTCTTCCTTTTCTCTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTGACAGGGT
CTGGCTCTGTCGCCCAGGTTGGAGTACATTGGTGTGATCTTGGCTCACTGCAACCTCTGCTTCCTGGGTTCAAGCCATCCTTCTACCTCAGCCTCCTGAG
TAGCTGGGACTACAGCCACCTGCCACCACACCCTAATTTTTATATTTTTGTTGGTAGATATGGCTAATTTRTTGGCTAATTTTTTAATTTTTGTTGGTAG
AGCTAGGGTTTCACCATGTTGCCCAGGCTGGTCTCAAACTCCTRGGCTCAAGTGAGCCACCACACTCAACCAGATTCCTTTTTATTGACCCATCTGATAT
CTGTCTTTCTAGATCACCACTACTAATTAATTGGGTGATATTGAGCAAATCACTTGGTTTTTTTTCAACTATGAAATGATAGCAAGGCAGATTTCCATGT
TTCCTTTTAACTCTGATATTCTATGTGTGTATGAACCTAAGATGGAATTTCAAATTAATGAAAATAATTTCACTGGGATAATTTGAATAAGTTTGTTAAA
ATAAAGAGATGAAACTTTTTTAGTTTAWATGATGACTTTCTAGTCCATCTATAATTTTTATTTATTCTAGTAAATGTTATTTGTTTTCCTTATGTATATT
AGATTTTTTCAATTAACAAAATATTTACAGTGAAACCCAAAGAACAATTGCTTTTTCACAGCAAATATTTTTCTAATTAAAAAAGTCACTATTTGTTCCT
ATCCTTTTAATTATATATTCAGAACACAGAGATTTTAAAAAATAATGCCTGACAAACATTATTATCATTATAAGGAAAGGCTTTAGTTTTTTTAATAACT
CTRTAATAAATATTATTTATAAACACAGCATGTTTTAGTCTTGCCAGAGACTGGCCATTGGCCAACAGATAGCTCTATTGAGGGAACATTTTATTTCCTG
CTGTAGTATCTGAGTGAACAAACCGGTTAACTTAGTAAATTTTTTTTAATGGATTATTATTTGGTCCTGAGTTTAAATCAAGACCTGCAAACACATAAAC
ATCAATCCTTAAAATGTATGCTTCTTGCAGGGATGAAAAAAGAATAGGGGGAAAAAAGACAATTTTGTGTGTAAGAATAAATGTGAAATAAGAATAACTT
GTTCACCTCTGGTATTAGAAATGTTGAGTGAAACTTTGATCTGTTGTGCTTTAAATTACTTTGTATATTTGGGTCACAAAAATTTTAAGTGAATAAAACA
GTTAAAGTTAACTATTTTAGTGTATGTTCTGCTTTAACTGGTAAACATCAACATGAAACCTTGACTCATCCTTTGCGTTTTTTGTTTCTTATCAAACTAG
TTGTGTAAGAAAATATATTTATTTACTCACTATTTAAGATTATGTTTTTATGGAAAAATCAGAGTCTGACCTTCCTAGGTTAATAGGTTCTCAACGTGGC
CGGGCGCGGTGGCTCACACCTGTAATCCCAACACTTTGGGAGGCCGAGGCAGGTGGGTCARCTGAGGTCAGGAGTTYGAGACCAGCCTGGCTAACATGGT
GAAACCCCGTTTCTACTAAAAATATAAAAAATTAGCCTGGGGTGGTGGCGTGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGACAGGAGAATTGCTTA
AACCCGGAAGGCGGAGGTTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCTTGAGCAACAAGAGCGAAACTCCGTCTAAAAAAAAAAAAGSGTTCCC
AAGGCAATCCCCAAATGTCATAATACCATAATGGAGATATACTATCTGTGATTCTTTAACACCTAATAACAAGTCAGAGGTTTTCTGTGGAAATACACTT
TTAGAGTTCCACCTTAAAATGCTAAGAACTCATTTAGAAAGACAGAGTGACATTTGTGAAATGCATTGAATCTGGAGCCCAAAGACCTGGTTTTCACCCT
TGCCTGAGCTGTGTTTATTATCATTGTGACTTTGAGCAGTTCTTTGACTTGCGTAAACTTCCGTTTTTTAATTTACAAAATGGAGATAATACTTTTCCCA
AACACTTTTTTTGTTATGAAAATCAAATGAAATAATGATCCCGAAAATGTTTGAATTCTATTCTGTAGCTGTAAACCCTGAAATCTAGTCCAATGGCAAA
ATGAAATAATGATCCTGAAAATGTTTGAATTCTATTCTGTAGCTGTAAACCCTGAAATCTAGTCCAATGGCCGTGGAACAAGTGGAATAGTGATTTGGCA
ACAGATAATAGATTCAGATTTGAGGATCTTGGCCTGGATGTAGACTATAGGAGGAAGGATTCAGTCAAAATTGGGATTGACAGGGTAGAGAGGCTCCAAG
GCCTTTATGTTCAGTAATAACATAGGGTTGATGTCACCTATTCCATTTYTTTCCCTTCCTCCCGCCCTCAAATTGGATACTAGAACTATGCAGGAAAAGC
GACTCAGTGAAACAAAAAACATAAGGTCCTCAGGAAGCACCAGGATCTGCAGAATCAGGGACTGAAAAACCCTTATTGTACASAAAGGATTATTGCTTAG
TCTGCCCAGCAAAGTTGGCCATTTTTGTACTGGGCATATCTAAATCAGGCAGAAGTCACTGCACGCCAAACCTGAAAGCTTGTGATGGGATTATAACTGT
TTTTTTTTTTTATTGCAAAGAATTCATACTAAAAGTAAATATCAGTTTGCTCTAAAATGTTTGGGATTGATTTCATAATTTTTCTGTTCCTCAGAACTTA
AAAGGGAAAAGAAAGTTAAATTTCTTGAGTACCTTCAGTGTCTTACCGAGTTAAGGAAAAAACTACAGATAGTTATATTCCTAAAGTAATGTAAAAGGAG
CAGTGAGTGGTACATGCTATTCCTTAATAACAAACTTTTTTTGTTTCCTATATACCTCTTTAATACAACCAAGGATAGTGTTACAGTAATTCACACGTTC
TATAAAATAATGAAGTATGCCGGGTGCGGTGGCTCACGCCTGTAATCCTGGCACTTTGGAAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGAC
CATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTAGCCGGGCGCAGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGA
ATGGCGTGAACCCGGGAGGCGGAGCTAGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAA
AAAAAAAAAAAAATGAAGTAATGCTGTGAAAAATAGGCTCGGCAGGAATTTGCACGTCTTGCATCCAAGTATGTCTCTTCCTTGTGTCGTATTCTGTGCT
GAAGAAAACATTAGCATGCCATGAACTGAAGCCAAATATCAGTGGGTTAAGCCATCTCTCATCTTGTTCTTTGCCTTCTCTTCTTTAAGACTAGGGAATT
GGTTATTGGATAATGCTCCCAAGTCTGGCCAATAATAACTCAAGAGTACCCTGAATCAACATCTATGGCTTTTCCCTAAACCCTGATCTTAGGGCCATCC
ATTTGTATTTTGAAATGATCAAGCTATCCTTTACTCCAGCTGAAAACTTACTTACCTGATACTTCATCAGGTCTGCTCACAGGTGTATCAAAGAGAGACG
GTACCTTTGGTGAAACCATTGTTTAGCTGGTTTTCACTTCATCCAGTTACCAGCCAATCAAAAGTTTTTCCACCGATCATATTTTCRTACCATTGATTGT
ATTAACCTAGTTTAAATCAAATCTAAAATATGTGTGCTTATTACAATTATTGAATGGTTGCATGTGAGGGTTGTTGGGTTTTGTAAAACAGGAAGCTTAT
TTTTAAAATTTTTAAAGTGGTGAAAAGTAGGCTTCTCTAAAAATTAGTTTTAACAGTGTGTTTGCAAAAAAAAAAAAAAAAAAAAAAAAATTGGAGGCAT
ACCCAGTGGGTATTTCAGAGAGTAATTTGGAAATATTCACTCTAGTTGAATAATGTATTCTCCATGACTCACTAATCGATGTGGCTACACATGAAAACAT
GCAAGAATGTTCACCGACACATTGTAAGAGCAAAAAAAAAAGAAAAAGAAAAAAAAAAAAGAAAATTGGAAACTACATCTATCACTAGAATAGATACATA
AATTGTRGCATGCATATACAATGGAATACTGTGCCAGTTGTTAAAATGAATGAACTGGAAATACCTGTTAGACAAATCTCAAAAACAATAGTAAGAAACA
TCACAGGCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATTGCTTGAGCCCAGGAGTTCCAGACCAGCCTGGTC
AACATGACAAAACCCCATCTCTATAAAAAATACAAAAATTAGCAGGGCATGGTGGCACACACCTGTGGTTCCAGCTACTCGGGAGGCTGAGGTGGGAGGA
TCACTTGAGCCTAGGAGGCTGAGATTGTCAAGAGCCAGGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCTGTCAAATAAATAAATAAAT
AGGAAAATTACAAAAGAATACATAGGAAGCCATTTGTAGAAAGTATAAAAGTATTTAGAATTATTTAATTGATGGATGCATACATATGTGGAAAATGTTT
AAAACCATACTTGCAACTGGCGAACACCAAATCCAAATTCTGGTTACCTCTGATGCCAGAAGCAAAAAGGAAAGCAATCTGGGATGGGTATACTTGTGAT
TGTCATTCAGATKTTTAAAGTTTTACTCATGATGCTCGATGGGGGAGGGATGTTGGATTTTGTTTTTGTTTTAATCTATTCTTTATACTTCTTTGCCTGA
ATTATTTTATATACAGGTTTTTATAAATGTGAGCTACATTAAATATATACTAAAATCCAAAGTATAACTAAAATAAAACTATCAATAGTACACTTAATAC
TTGAGTCCGGGTTTTGTGCTTCCAAATTCTATTCCTTTTCTTCCATATCTTTCTGCTTTCCTTTAGAATTATATACTAAATCAATCTTTGTATATACCGT
ATGTKGTAAACTCCTTAGAATTATTTAATTAATGAACTGCATTTATATGTCCTGTAAAATSTTATTTGCTCCATGGTAGGTCTTTTGCTTCTTAGATGGT
GCAAACTTAGTCCATCCTTCATTCCATGCTTAATTTTCTTAAATTCTCAATTAGAGTTCAGATTAATGAGGGTTTTATTTCTGTAAAATTCTTTTGTAAA
AAAGAAAATGTCTTAAGATTCCTGTTCCAAGGAATTATATAAGAAAATTGTAATGAAATAGAAATATTTCAACCCTTTAGATTTTATTTCAAAAAAAAAT
GTTAACTTATGTTAGCCATGTAGTTGATTGTGGATGGTACCTTTTTAAAAAACATTCAGTAAGAAGAATTGACAGTATTCTAACATGAGTTTAAAGCAGG
ATTTGCCTTTGRCAAAGCCAGACACAGATGGTCTGACTTTCAGATGGTGGAATACTAGCTGTATTACTTAAGGCTTGCATTTTGCAATGTATTCATGAAT
ATAGTCAATAAAAATTTGCAATACCTAAGAGCTTTCATATCTGAAATCTGTAAGGCAGGTAACAACACATGTTCCCCTAATGTTTATGTTGTTCATAGAT
ACCAGTGAGATTCTCTAGATATTTGCATTCTAACATACATGCAGACTGAAAGGCTTTATTATAGCTTAATTTCATTTACTTAAAAGCTTTATTGAACACA
GTATGACTAAATCACTATGCTAGGAATTACAGATAACAGGTTAATAAAACATAGTCCCTTCCTAAGGGAGCTCACAGTTTAGTGAATGAAAAAGACTAGA
AAACTTCATTATAGGAGTACAGACAAGGGAGCAAGTAATTCTGCAAAGAGTGCCTATCAATATGGACTTGGATAGCGATATTTGTGTTGGGTCTTGGAGA
ATGATTGAGTTTACCAACAGGGAAGAAGAGGAGATGCGTATTTCAGCCCAGGGAATGGCCAGATGAAAGAGAGAAGATAAAATGTATATTATGTTTTTGC
CAAATTCTGTAGCTAGATATAGCTAGTGTACAAAATGTATGTTTTGGGGGAGAGAGAAGTAGCTACTGGYTGAAAGCCATATTGTGAAACAGTTGAAAGG
AGTTCTGAAGATTTTAGAGCAGGTTATTGATAGTGATCAGATCTTTGTTTTATAAAGTTGTGTGAAAGATTAATTGGATAGGAAGAGAACAAAGGAAGAA
TTTGGTAACTTTTAGGTAGATAACTGAGATTTGCACCGGAATGATTATCTGGATAGTGGTACCCAGTTAACCAAGATAGAAAATAAGGARGAGGAAAGGA
CAATGACATTGAAATTTTCTTTGGAACATGTTACTCTGAGGTGCTTTTGGAACATCAAGTTAGAGATGTCCAGTAAGAAGGTAAAATCCATTCTGGATTT
TAGTGAAAAATTAGGGCCAACTAATTAGAATACAAGCATGTGCACATGTGTGTGCATACACACACATCCTAAAGCCATCAGGTTATGGGTAATGGTTTAA
GGTAGGGGAACAGAAGGGAAACCTTGTGGGTGAGAAGAGACAACTGAAGATGGAATCCTAGGGAACATCATGCTTTAGAAGACAACAAAGAAAAAAGCCA
AATAAAAGCAGTGAAAGAAGGAGGTGAGTCATAGAGCAGCGTGTTATGAGGAAACTCACAGGTTACTGAGGGAAATAGTCAAATCATTAATGTAGTAAGT
GCTGAACTAGAGACAAATCCACCAAGTTCTCCTGGGTGACAAAGATCTCTTAGAGAAGATATACATATGTAACCTTGGAACTGAGTCTGGAAGATGAGTT
TGCCTAGGTGGCTGGAGTAGAAGAATGACGCTCCTAGMAGAGGAACTAGTATACCTGAAGGCTTGGGGTGTGGAAGAACTGGAGTATTGCTGAAACAGTA
TTTCAATGTAGGGTTTAAGTATAACATGTGTAACCAGATCTGATACTTGAGAAGTATGTTGGTGACGCACTGTCATGGGAAAATTGTAGTAATGATTCCT
TAACTTGTTTTCCAATCTTTTTGTGTGCCGGTACATGTAGAAAAGTGGCAATACCTGTAATGCATTCTAGGGTAAACAATGCTGAAGGAGGTTGGAGGCA
CCCAGTCTAGGAGCTCCAGCTACCACAGACCCCAGTTGGCCTTGGGGATTCATGGGGGGCAGTATCGCAGCACACCTCTGACCCATTTGTGGCAAATTAG
TGAGGGAGCTCTGACTTAGCTACCATAAAGATAACAGATTTGATCCTTGTGGATCACAAACCCTAAGTGGAATTTAATTTTGGACAGTACAGGAAGGCTC
ATTAAGAAAAGTGATCATTTCAAAATGCAAAAGTGGTACACTGAGGAATAGTAAGGAATTTCAAGAACAATCCATGAAACAAACAAAAAGGCCTAATTTG
TTGTTGTATGCCTCTTGGAGGTAGCCAAACTCAAGGTTAAAGGCACAGTCCTCCAGACTAAGTTGGCCCAAGATTTCTGACACCARCTGTAACTTTACGG
ATTTCCCAAAACCACTCTCTAGTTCAGTAATTTTCTAGAACAACTCAGAGAACTCAGAAAAGCACTGTGCTTAGGATTACAATTTTAGCAAAATGATTCA
AATTAGAACCAGCCAAACGAAGACACACCTAGGGCAGATTCTAGGAGGGTTCCAAATGTGAAACTTTTGGGTTACCCTACTGGCATGAAAATCTGGCAAT
ATGCATGGACTATTGCCAGCCAGGGAAGCTCACTGAACCTTGACATCCAGAGTCTTTATTGAGGCTTCATCATATAGCCTTGATTGTTTGAAATATTGCC
ACATGGTTGAACTCTAGCCACATAGTTGAACTCAGTCTCCAGCCCTCCCCTGTCTCTAGAGGTCAGGCTGATATTAAGTAGCTCAACGCCCCAACCCTCT
AATCACATGGTTGGTCTTTCTATCTTGGCCAGCCTTATCCTGAGTTATCTCCTTAGCATAAGCTATCTGAGGGACCTGTCATGAGTCACCTCAGTGGCAT
AAATTATCAGGTGTGGTCCCAAAGGGCCCACCATGAATAACAAAGACACTTTTATCACTGGGGAAATTCCAAGGGTTTAGAGGTCGCCYCTCAAGAGCTA
AGAGAAAGTCCTAAGCCTCTTTAGGTTAGGTCAAATTCCTTACTACACATATGCCAATTAAGTGTTTTATTCATCCAACATGTATTTATTCAGACCAGAA
TATGAAGCCATGGATATAGTGGTAAACAAGATGGGAAAGCTTCTTGCCCTGAGAAAGTTTATAGTTGACTGGGAAAATAAAGAAAAATTGCCTCAAAGTA
TGTAATTACAGTATACCAAGTGCTCTCCTTTTTGTAACAGTTTTGCCCATTTGGAAGTATCCGTAGATACAAGTTGTCTTTATTTGTCATTATTTCTCTG
GTTATGAACATAAACACTATTATTTGATATTTGCTAAATTCCACATTTCCACCTTTTTTCCTCTGTACCATTATAACTTAAAACCTAAAAGAGTTACTTT
CAATATTTGACACAGCTTAAGATTTAGATAYCTGAACTACTCTTCTCCTTTAGCAAGAAGTAGAAGGATGATTTTCATAGTCCGTACTCTTCGCCGTTTG
CTTTCCTTGAATTACCATTGAGGACCATCACTTTGTCACTTGATGACCATGCCAGGGTGAAGCTAGCATGGAATATCAGTAGCTAGCATGGAATTTCCTA
TGACCAGCAAAAAGATGACGTTAAGTTTGGCAGCATGACCAAGAAGCCCTGTACTCATGCCCCTCAGCTCCCCATGGATTTATAGGCCGAAGGATAGGAA
GAAGCAACCCCATTTGTAATCCACTTGAATTTGGGCACCCAGAGTGGTACAAAGAAAAGCCACAAAGCAAATGTAGCTTCYGCAGTTTTTATCATTTGTC
CTATCAGGTTCCTTATCAAAGGAATATGGGAAATTGGCTAGCAAGTAGTCTTACGGATTTTTGCTATTGTCGAAAATTGGCAGCCAGTGGAGTTACAACT
CTTCCGTGAGTTAGGGATAAGTCCCTGACCCAGTTTGTGTTGTAGGAACTCAACTGGGAAACAGAAGACTCTTATCAGGCCTTTCCTTTGTTTTGGTATG
GAAGTCACTCTGTTGGTTTTAAAACAATAATAAGAAAAAAACAAACCATAATTCATGAAGAAGTATCTGATTCACTCCATCTGAAATCTACTAAAACAGT
ATTTGGAATTATTAGGATAATTGTGCATTATAATAGTAACTATTGTGATTGAAGTTAGTTGCATTGTATTTAGGATTTCAGTTTCTCTTGAGTAGTCTTA
TCTTAGATATATCCTCCCCAACCACCCCCCTACCAGTTCTCCTCACTCTCTTTTAATTGCTACTAGGGTATTTTAGTTTTGTTTTCCAATSTCTTATATT
GGCAGAGTGCTAGACTTTTTTCAAGTTGGTCTGCAAGGAGAGATTGCTTTGAGGGACGTCTTTGTTGAATATGTACGTTTACTAAGTTATATGCCAGACA
TTTCATGAATATGTGATCTCATTCAAAAAATTATATGATAAAGTTTTTCTAATATAGTAGAAGAATCATCTTTTTTTTTTGAGACAGGGTTTTGCTTTTG
TTGCCCAGGCTGCAGTGCAGTGGCGCAATCTCAGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCTGAGGCATGTGCC
ACCACGCCCGGCTAGTTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTAACCTCAGGTGATCCACCTGTCTCA
GCCTCCCAAAGTGGTGGGATTACAGGCATGAGCCACCGTGCCCGGTGAAGAACTATCTTTAAAAAAATTTTTTTTTTCCATTTTATAAAGTTAAGGTATA
TTCAGGCCCCAGGCTAAGAGACAAGTCCAGCTAAGATCAAATTCCTTTGAGTTTGGAAGAGGGAGAAATTGTAAGTCAAAATTAAAAATAATTTTGTCAT
TTTAAATTTAGGAAAAATCCTTTATTTGTTCTGATGAAAATGTCAGTAGTCATGGAACTGTGGTAAAAATAATGAAAAATCACTGGCCTGGGTCTGCTTC
AATTGAAAACATTTTTAAATTAAAGTGTGACAGTATTTTGTGCTTCCATTGCCTAGCCATGCCCCATCTTATTCTTTTATTCAATTCTCTGGGTATGAGG
TTGCTTTAATTCTTAAATTAAACCTTAAGGTATGTCATCCTGCTGCTTGATCTTTCTATTTCTATGCTACTTCTGAGGTACTCATAACAGACCATTTTCA
TCTCTCCTTTTCCTAGATTACTAAAAGGAGCTACTTTTTAAAAAGAGATTGTTATTAATTTTTAGTTGGAATTTTTTTATTGCAAAATATTTTTAATTGG
CTTAAGCAAATATGTGCCAGTTTGTCCTAACTGGCGGATAGTACTCATAATGTTAGTTGTTAGTATTTTAGTAAAATTCCCCACAGTGACAAATCYGCTG
AATCAGATGCTAATTATAGTTATTAATGAACTAGCAATTATTTGTGGCAAAAAACCCAGGTCACCCAAAAAAACAAAGGAAACATGCACACAGATCTGCA
AGAAATTGAAGGATTAAAGAGGTTGTGATAAAGAAAGCCTTAGGCCTTTCGACTTCCCTTCCTCCTCCTTTGTGGTAAGTAGTTCTGCTGGCTGTGAGTT
CACTTGTTTCAGAGCTGAGAGTTCACTGAACATCTATCCACTTTTCCCTAAGATTATGATTTTTAGCTTTTAATTATTATTATTAAATATACCACAGTAG
GAAATAAGATGATTTTTAAAATATAATTTATTTAAAAATGTAATATGTTTTTAAAAGATTCATCTTTTATGGCAGTTTTGTCATCTTCGGTGAAAATATG
TAAATAAATGARTTTCTGAAATTCTATCTTTTAAAAAACAGTTCATAGTCTGAAATTATGCATTTAAAAAAGGCAGTTCATAGTCACACAAATTTGATGG
AATTTTGTGTGACTATGAATTGCTATATTTCAAATTTTGTTGCTACTGTTGAATTGTGGTATTGAAATGAAAAATATAGTTTTTAAGCATTATGGTATCT
TAGATTATGCATTGGTCAATCATATAGCAAATATTATTTAATTACATGTCAGCCAAGTTAACTTCTGTTACCACTGTTCCCCTTAAAAACAGTGCCAAAT
TTTTTTCTGAACACAGGGCAGGGCATGGTATGGAAATTAATAATTCTTATTCTAATAGTATTAAATCTCTTAACATGAGAAACCTGACCTAAACATGGAA
GATGTTATGATATTTACAAAACCTTTATTTCTCTTCGAAGGAAGAGAAACGAATTTAGCTGTAGRATACATGTCCAATGAACACTAAGAATTGATTACCA
CTGACAAGAGAGTATGGAGTAAAAACAAGTACAGTATATAACCCTAATATCAAAGAAAAGTAAAAACCACTTAACTTAGAATATATCAGACGTGGGCTGG
GCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACGAGGTCAGGAGTTCAAGACCAGCCTGAACAACATGGTGAAAC
CCTGTCTCTACTAAAAATACAAAAATTTGCCGGGCATGGTGGCTTGTGCCTTTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCCTGAACCTG
GGAGGTGGAGGTTGCAATGAGCGGAGATTGCACCATTGCACTCCAGCCTGGGTGACACAGTGGGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAA
AGAATATATCAGACACATTGTTACTCAAATCATTCAGGGAATATAATTATATACAGCTTTTATAAGCCTATCAGTAAGTGTTTTTCCTTAAATTTGCAGC
TGTTTTTCATTACTGAATTTATGACTTTTCCCCTCCAAATGTTAATATGGAAAATCTGCTTTACACCTCTGTACAAATAATACTCCCCCCAAAAAACAAA
ACAGAAAATTTCAGCAAATTCCAATTCAGAAGGCATATACCTTTAGATTAAGAGAGATTTAAAAGCGATACCAGCCAAATGTGTTCATCTTGCTTGAATT
GTGATTATCTCTAAAATGATATGCGTGAAATGGCCAAGGAAATGTGAATACTGTATTTTAGGTGAAATTAGAGGAATTTTTGTTTTATATCATTTTTAGA
TGTGATAATATTGTATGTTTTCTTTCAAAATCTTTATCTGTTACATATACAAACCAAAGTATTTACTGATGAAATAATACATGGAATTTGCTTTTCAATA
ATTCAGAAGTTGAGTAAAAGATTASATTAAACAAGATTGGCTAATGTTGGTAATTTTGAAATTTAGTGCTCAGTATCTAGTTGTTCATCATATCAGTGTC
CCTGCTCCTGTATACATTTGAAAATTTTTCATAATGCGTTTTTAAGTGCGTAATTTCAGAAACTCATTCATTTACATATTTTCACTGAAGATTTGACATT
CATGCTTCATAGAATATGTGACCTGACAAAATATCTTGTAAATATAAACTAGTACATCAAAGTTTACATTCAKTTCAGGCTGTTAGCTATGAAATTAGGG
AACAGGATTCTAGAGTCCCTTCCAGCTCTAAAATTTCTAGAAATCTAAAGAAAGTAAGTGGAGAGACTTCAAATGGCTTCAGTAAACATCATCAGCATAG
GGGAAGGGTTGCCTTGTCTTTTACATTAGAAATATAGATGTAATAATATTGGAGTCTGGGTTTCTGGAAGATAGAACAGGACCTTTTTTTATTCCCAGTG
CTTAATACATAATAGGTGCTCATCAAATGTGTTTGGAATGAATTAACCCTTCCTATTTTCCAGAGTCATCAGTATAGAACCCATTAACACTGCTGTCAGT
TTAAAGAACTCCATTGGTGTTTGAGTGTTTATTTATTTTTATTTTATTTATTTTAAGTTCCAGGATACATGTGCAAGATGTGCAGGTTTGTTACATAGGT
AAACATGTGCTGTGGTGGTTTGCTGCAGTATCAACCCATCACCTAGGTATTAAGCCCAGCATGCATTAGCTATTTATCCTGATACTCCCCCTCCTCCCGT
GCCCCCTGACAGRCCCCAGTGGGTGTTGTTCCATTCCCTGTGTCCATGTGTTCTCATTGTTCAGCTCCCACTTATAAGTGAGAACATGCGGTGTTTGGTT
TTCTGTTCCTGTGTTAGTTTGCTGAGGATAATAACTTCCAGCTCCAGCCATGTCCCTGTGAAGGACATGATCTTGTTCCTTTTTATGGCTGCATAGTATT
TCATGGAATATATGTACCATATTTTCTTTATCCAGTCTATCATAGATGGGCATTTGGGTTGATTCCATGTCTTTGTTGTTGTGAATAGTGCTGCAATGAA
CATATGTGTGCATGGATCTTTATAATAGAATTATTTGTATTCCTTTGGGTATATACCCAGTAATGGGATTGGTGGGTCAAATGGTATTTCTGCCTCTAGA
TCTTTGAGGAATAACCTCATTGTCTTCCACAATAGTTGAACTAGTTTACATTTCCACCAACAGTGTAAAAGCATTCCTATTTCTTCATAGCTTCGCCAGC
ATCTGTCGTTTCTTGACTTTTTAATYGCCATTCTGACTGGCATGAGRTGGTATCTCATTGTGGTTTTGCTTTGCATTTCTCTAACGATCAGTGATATGGA
GCTTTCTTTCATGTTTGTTGGCCACATAAATATCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTTGCCCACTTTTTAATGTTTTTTTTTTTGTTTTTTTC
TTGTTAATTTGTTTAATTTCCTTTTAGATTCTGGATATCAGACCTTTGTCAAATGGATAGATTGCAAAAATCTTCTCCCACTCTGTAGGTTGCTTGTTCA
CCCTGATGATAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAAATCCCATTTGTCAATTTTTGCTTTTGTTGTAGTTGCTTTTGACGTTTTCAT
CATAAAATCTTTGCCTGTGCCTATGTCCTAAATGATATTGCCTAGATTTTCTTCTAGGGTGTTTACAGTTTTGGGTTTTACATTTTAGTTTTTTTTTTTT
TTTCTTGAGATGGAGTCTTACTCTGTTGCCCAGGCTGGAGTGCAGTAGCGTGATCTCTGCTCACTGCATCCTCTGCCTCCTGGGTTCAAGCAATTCTCCT
GCCTCAGCCTCCCAAGTATCTGGGATTACAGGTGTGCACCACGATACCTGGCTAATTTTTGTATTTTTAGTAGATACGGGGTTTCACCATGTTGGCCAGG
CTGTTCTTGAACTCCTGACCTCAGGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTGCAGGTGTGAGCCACGGTGCCCAATCACATTTAAGTTT
TTATTCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGGGTCYAGTATCAATTTTCTGGATATGGCTAGCCAGTTTTCCCAGCACCTTTTATTAA
ATAGGGAATCTTTCCCTATTGCTTGTTTTTGTCCGTTTTGTCAAAGATCAGATGGTTGTAGATTTATGGTCTTATTTCTGAGTTCTCCATTTTGTTCCAT
TGGTCTATGTGTCTGTTTTTGTACCAGTACCAGKCTATTTGGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGAGTGATACCGCCAGCTTTGT
TCTTTTTGCTTAGGATTGTCTTGGCTATACGGGCTCTTTTTGGTTCCATATGAATTTTAAAGTAGTTTTTACTAATTTTGTGAAGAATGTCAATGGTAGT
TTAATGGGAATAGCATTGAATCCATGAATTACTTTAGGCAGTATGGCCATTTTCATGATATTGATTCTTCCTATCCATGAGCATGGAATGTTTTTCCATT
TGTTTGTGTCCTCTCTGATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGATCCTTCACTTCCCTTGTTAGCTATATTCATAGGTATTTTACTCT
CTTTGTAGCAATTGTGAATGGGAGTTCATTCATTATTTGGCCCTCTGCTTTTCTGTTGTTGGTGTATAGGAATGCTTGTGATTCTTGCACATTGATTTTG
TATACTGAGACTTTGCTAAAGTTGGTTATCAGCTTAAGAAGCTTTTGGGCTGAGATGATGGGTTTTCTAGATATAAGATCATGTCATCTGCAAACAGAGG
CAGTTTGACTTCCTCTCTTCCTATTTGAATACTCTATTTCTTTCTCTTGCCTGATTGACCAGAACTTCCAATACTATGTTGAATAGGAGTGGTGAGAGAG
AGCATCCTTGTCTTGTGCTGGTTTTCAATGGGAATGCTTCCAGCTTTTGCCCATTCAGTATGATAATTGGCAGTGGGTTTGCCATAAATGGCTCTTAATT
ATTTTGAGGTATGTTCCATCAATACCTAGTTTATTGAGAGTTTTTAACAGGAAGGAATATTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAA
TCCTGTGGTTTTTGTCTTTAGTTCTATTTATGTGATGAATTATGTTTATTGATTTGCATAGGTTGAACAAGCCTTGCATGCTGGGGATGAAGCTGACTTA
ATCATGGTGGGTAAGCTTTCTGACGTGCTGCTGGATTTGATTTGCCAGTATTTAATTGAGGATTTTTGCATTGATGTTCATCAGGGATATTGGCCTGAAG
TTTGCTTTTTTTTTTGTTGTTATCTCTGACAGGTTTTGGTATCAGGATGATGCTGTCTTCATAAAATGAATTAGTGAGGAATCCCTCCTTTTCAATTGTT
TGGAATAGTTTCAGAAGAAAGGTTATCATCTCCTCTTTATATTTCTGGTAGAATTCAGCTGTAAATCCATCTGGTCCTGGGCTTTTTGGGGTTGGTAGGC
TATTTATTACTGCCTCAATTTCAGAACTTGTTGATCTGTTCAGGGATTCAACTTCTTCCTGGTTCAGTCTTGGTATTTACCCATTTCTTCTAGATTTTCT
AGTTTATTTGCATAGAGGTGCTTATAGTAGTCTCTGATGGTTGTATTTCTGTGGGGTCAGTGGTAATATCCCCTTCATTATTTTTTATTATATCTATTTG
ATTCTTCCTCCTGCTCCTCCTCCTCTTCCTTCTTCTCCTTCTCCTTCTCCTTCTCCTTCTTTCTTCTTCTTTCTGCTTTCTTCTTCTTCTTCTTTTAGAT
GGAATTTTGCCCTTGTTGCCCAGGCTGGAGTGCAATGGCATGATCTTGACCCACTGCAACCTCCACCTCCGGGGTTCAAGCGATTCTCTTGCCTTAGCGT
CCCGATAGCTGGGATTGCAGGCATGTGCCACCATGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCCAAC
TCCTGACGTCAGGTAATCTGCCCACTTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACACCAGGCCTCTTTTCTTCTTTATTAGTCTAGC
TAGTGGTCTCTTTTATTAATTTTTTTCAAACAACCAGCTCCTGGATTCATTGATTTTTTTTTTTTCGAAGGGTTTTTCATGTGTCTGTCTCCTTCAATTC
TGCTCTGATCTTGGTTATTTCTTGTCTTCTGCTAGGTTTGGGGTTTGTTTGCTCTTGGTTCTCTAGTTCTTTTAGTTATGATGTTAGGATGTCAATTTGA
GAGCTTTCTAGCTTTTTGATGTGGGCATTTAGTGCTATAAATTTCCCTCTTAACACTGCTTTGGCTGCATCCCAGAGATTCTGTTACATTTTCTCTTTGT
TCTCATTGGTTTCAAAGAACTTCTTGATTTCTGCCTTAATTTTTTACCCAGGAGTCAATCAGTAGCAGGTTGTTCAATTTCCATGTAGTTGTGTGGTTTC
GAGTGAATTTCTTAACCTTGAATTCCAATTTGATTGCGCTATAGTCTGAGAGACTGTTAAGATTTCACTTATTTTGCATTTGCTGAGGAGTGTTTTACTT
CCGATGATGTGATCGATTTTAGAGTAAGTGCCATGTGGCACTGAGAAGAATGTATATTCTGTTGTTTTGSGGTGGAGAGTTCTGTAGATATCCATCAGAT
CCACTTGATCCGGAGCTGAGTTCAAGTTCTGAATTATCTTCTTAAATTTTGTGTCTCGATGATCTGTCTAATATTGACAGTGGGATATTAAAGTCACCCA
CTATTATCATATGGGAGTCTTAAGTCTCTTTGTAGGTTCTGAGAGCTTGTTTTATGAATCTGGGTGCTCCTATATTAGGTACGTGTATATTTAGGTTAAT
TAGCTCTTCTTGTTGAATTGAGCCTTTTACCATTATGTAATGCCCTTCTTTGTCTTTTTTGATCTTTGTTGGTTTAAAATCTGTTTTGTCAGAAAGTAGG
ATTTCAACCCCTGCTTTTTTCTGCTTTTCATTTGTTTGGTAGATTTTTGAAGCTTAGTTTGGCCAGATATGAAATTCTGGGTTGGAAATTCTTTTCTTTA
AGAATGTTGAATATTGGCCTCCATTCTCTTCTGGCTTGTAGGGTTTCTGTGAGAGGTCTGCTGTCAGTCTGATGGGCTTCCCTTTGTAGGTGATCTGGCC
TTTCTCTCTGGCTGCGCTTACACTTTTTCTTTCATTTCGACATTGGTAAATCTGACGATTAGTGTCTTGGGGTCGATCTTCTCACGGAGTATCTTACTGG
GGTTCTCTGGATTTTCTGAATTTGCATGTTGGCCTGTCTTGCTAGGCTGGGGAAGTTTTCCTGGATGATATCCTGAAGTATGTTTTCCAACTTCTTCCAT
TCTCCCCATCTCTTTTAGGTACCCCAATCATTCATAGGTTAGGTCTTTTTACATAATCCCATAATTCTTGGAGGTTTTGTTTGTTCCTTTTCATTCATTT
TTCTCTAATTTTGTCTGCCTGTCTTATTTCAGCAAGATAGTCTTCAAGCTCAGAAATTCTTTCCTCCGGTTGGTCTGTTTGGCTATTGATACTTGTGGGT
TGCATTGTGAAGTTCTCATGTTGTGTTTTTCAGTTCCTTCAGGTCATTTATATTCCTGCCTAAACTGGTTATTCTGGTTAACAGCTCCTGTAGTGTTTTA
TCACGGTTCTTAGCTTCTTTGCATTGGGTTAGAACATGCTCCTTTAGCTCAGCAAAGTTCGTTATTACCCACCGTCTAAAGCCTACTTCTGTCAGTTCAT
CCATCTCAGCCTCAGCCCAGTTCTGTACCCTTGCTGGAGAGGTGTTGTGGTAATTGGGAGGAGAAGAGGCACTCTGGCTTTTTGAGTTTCCAGCAGTTTT
TCATTGATTCTTTCTCATCTTTGTGACTTTACCTCCAATCTTTGAGGCTGCTGACCTTTGGATGGAGTTTTTGTGGGGACTTTTTTGTTGATGCTGTTGT
TGCTTGATGTTTGTTTTTCTTTTAACAGTCGGGCCCCTCTTCTGTAGAGCTGCTGCAGTTTGCTGGGGCCCACTCCAGACCCTATTGTCCTTGCTCCCTC
CTATACCTGGAGGTGTCACCAGTGGAGGCTACAGAACAGCAAAGATGGCTGCCTTCTCTTTCCTCTGGGAGCTTCATCCCAAAGGGGCACCAATCTGATG
CCAGCAGGAATGCTCCTGTGTAAGGTGTCTAGCGACCCCTGTTGGAAGATCTCACCCAGTCAGGGAGCACAGGATCAGGGACCTGCTTAAGGAAGCACTC
TGGCTAACCCTTGGTGGAGGGGTTGCTCTGTGCGGGGGCGGGAATCCCACTCATCCAGACTGCCCGGATTCCTCAGAGCTAGCGAGGGGAAGGACTAAGT
GCACTGATCCACCAAGACCATGGCTGCCCYTCCCCAGAGTGGCTTTGTTCCAGGGAGATCAGAGTTCTGTCCCTAAACCCCTGGCTGGAGTTGCTGAAAT
TCCTGCAGGGAGGCCCAGCTCAGTGAGGAGGAATGGGTCCATGTTCACTCTAAAGAAGCAGTCTGGCCATGATCTGCCACAGCCACTGTGCTGCGCTGTG
GAAAATTCCTCCGGGGTCCAAACCGCCCAGTCTCCCCGGCACTGGCAGGGGAAAACGGCAGCCTGGAGCTGCAGTGATGGCTGCTGCCCCTTGCCCGGGA
GCTCGGTGGTCTTAGGCAGCAGGCAGCCACAGTGATGGCAGCTGCCCCCCTTCCCCTGCCAAAGCTCAGTCATCTTAGGCAGCAGGCAGCTGTATGATGA
TGGCTGCCCCTCTTGAACTCACGAGTCTCAGGGAGTCTCCAGCCGAGGGGCCACTGAGAGTCTGCACAGCTGTGCTTGGGACCCAAGGCCCTGGTGGCAT
GGGCTCACGAGGGGATCTTCTGATCTGCGTCTTGCACAGATCCATGGAAAAGGCGTGGTTTCCTGGGCGGGATAGTACAATCACTCACCACCTCCCTTGG
CTGGGGGTGGAAGCTCCTCTTGCCCCATGTGGCTCCTGTGTGGGCTGTTGCTCCACCCTGCTACTCCTCACTCTCCGTGGGTCGTGCCAACCACCTAGTC
AGTCCCAGTGAGAGATACCTCAGTTGCCGGTGCAGGATTCACTCACCATTTTCATTCTTCTTGGTGAAAGCCTCTGACCACAGCTGTTTCTAGTCAGTCA
TCTTGGCCCCTCCCCACTGGTTAATATGTTAGTTTATTACATTACTGAGAGAATTATTCCCATCAAGCCCATATCTAGAAAGTGGTTGTGCTACTTACAC
ATTCCTTTTATTACTTAGCATGTAATATTTAAGACAGTAAAATGGGGATTAAGTTATTGCTTTAAATTATTTGACTAAACGTAGCTTAATATTCCATTCT
TTATATTTCTTAAATGCTCTCTCTAAAAATACAGCATGGTAAGCTGAAAAATGAAAAATAACATTTTGATTTTATTTTTCTGTCAATAGAGCAGATCTAA
AAATTTAAAGCACATCTTTCTAAGGTAACATTTACCTCCTCACATCTTTAGCAGCTATCAGACATGACATGGGACATATTCATTGACCCTAAAAATTTTC
ATCAGAATCATGCACTGAAAGGGGGCAGCCCCAGCCAGACAAGAGGCTCATTTCAATTTTAACGGCTGTAATTAAAGGTTAATTCACTGAGTCAGGATTA
ACAAGGAAAGTACAAATGATAGGCAAGCAGCTGCCTTTATAATACAAGATTAGAACAATGCAATTACAATAAGAATTAGAAAAAATCAACTTCCAGAAAG
GGTCTTTTAATGAATGAATTAAATTGTGATCTCTAAACATGCGTATATAAGGTAATGCTTCTTAAGGAATCATATAAATTGATACTGTATATCTAAGCAT
ATTATGTTAAATGTGGAAACAACAGTTAACACTAAAAACTTTCATTATTAGTAAGTTGCCCAAAAATGTACTTGTATATATCTGTACATGATCTTTTTAA
ATGGCAAAATTTTTTCCCTACTTCATGCTCCTTTTTTTTTTAATGTCCACTGTGTTTACCTGAATTGTAATTGATCTTTCCCTCTTCCTGCCCGACCCCC
CCTGCAAGTACTTCTTATGTTTATACCTTAAATCCATTTTTCTTATAGAACGTATTCCTAAAACTCCTTTTCCACCTAGTGTTAATTAGAAAGTTGACAA
GTGTCATTTTCAACTTTATTATGTTWACATATTTTATCATTTTTWAAAAAAATTAAGCTCAGTACTATATTTTATGCAGATCCTGTTTATTTTTTATTTG
ATGTACACTTTAACCTCATTGATCCAAGCTTTTATAGGTGTCGTAGATTGCTAGAAAACTACTAGACTACGTATTATATTAAACATTCCTATGTGAAAGT
CTTTTCATAGTGAATGGCACATAGTAGGGCTTCAGCAAATGTTATCACTTCAATCTGTTTTTGTGTTACTGTGATTGAGGCCATATACTATTTAAGAATT
TGTTGGATCCTGCATTCAATCAAATATTTACCATGTGTCATAGGATTCAAAAAAGAAGATGTAGGCACTTAGGCTTATAGATGTAAAGAAAATAATTGTC
CATCATGAATGCAGGCTGTGGAAATTGTTCCTCAAAAACTGAGGTTCCATAAAAGGAGTTTACATTTTGTCAATTGCTGTTGAGCTGATTTAGTATAATA
AATCTGTATGCTGGGGTAAATCTGAGTATTGATGCCTAGAAGCTAATAATCCAGTAGCATCGTTCCTGAAAAAATATATAGTGCTATTTGAAGATTATGT
AGCCTGTGATATGCAAAACTATAAGCACCGAACTGCTATTACTGTGGAAATGAGYTGTAGGTATAATATAGATTTACTTGATGAAATGATCTTTATTTTG
TTGTTAAGCTGACAAGTGCTGGAGAATTTGCTTTATGTATACATTGTGGGAAACCTGAGGAAAATTGATAGTGTTTCACTGGTATTTACATTAACCCAAG
CATTGTATTTGGAGTGGGACAGCATGCTGTTTTGAACAATATTTTGACATTAAGAACTCTACAAAATAGTATTTAAGCCCCCTTTGGTGTGGGCAGTTGA
TAACTTTTCATTCATAATTAGCTCATAGAGAACCGAGAGACATTTCAGGGAAATTGAACTGTCAGTGGGTAGAAACAAGCATTTGACCTCATCACATTGA
GTGGGGCCCATCATAATTTGTTCATTTGGTGCCCATCAGCCCAGCCTCATCTCTCATACGGCACCTCGCTGACCTTCCCTCTCCAATTCCGCTCAGTTCA
GCTTTAATTATGACTCTGCAGACCTGAAGAAATATTGCAGCTTGCTCTCAAAAACCCTGAACTGCCACTCACCAAAAGATTGGTTTTTAACAGGTAATAA
ATGCCCAGAGGAAATGGTGCTATGTCCACAAAGAGAACTGTGGCTTCTTTTGAGATTTTGCTGGCTCTCAAGTGTGTCCCTGTTGCCTAGTGAAATTTTT
ATTTCTAACACAGTAAGCTTATGACTAAATTCACTGCTATACGGAAATGTCATGAGTTTTTTAAGTAAACTTTTATCTATTCACAGAAGAAATTCTTAGT
TGCTTGGTTACCTAGTGAATTCACCTATTGAAAGTTGAGAGACAACTTTAGGTCTTTTAGATAAAGTGTTAGTAATTTTAGAATACTTCATTTTTACTTT
TTAATTTTAATTACTTTTTGAGCTACTGGCCACCCCAAAGAGATAAAATGAGAAATTATAAGTACCTCTTCTAGCAATATAATTAATTTGGATTCATCAA
ATCACTTGGCAGAAGGAATCCTGCTGAGTTAACAATGTTGTCTCCACTAACAAAAACAAAAACATGAAGTTTAAAATAAACATTCAGGTTACCTACCATA
CCACATCTAACTACCCTGTCCACACCATGACGGTATTTTTGCAGAGAAAGTTGATAGCAATCAGAGACTGTGTAGGAGGAAAATACAAAGCTTCAAAAAT
TATAAAGCTAAACTTTTGTTCTCAAATTATATCCCTAAAGATTTCACTGCAAATAAAAATATTGAAAACTGTAGTCTCATACTGTGTATCCTTGTAGTGA
GTGTTAAACTGTCAGCAGGATTTTCAGGTCATTTGACAAAAAGGATACAGGTGCAGTAGCTAGCAGTGAAGGTGACTGCTGGTTTCATCAATCACTTTGC
CTTTCTTTAAGTTGATACATAATGGACCCCTTCAATCAGCTTCCTTGTTCTTTGTCACTTGTTTGGAAAGAAGAAAAAGAAGGGTGGAAAGGCTGGATGG
ACTCTAAAATCAAGGTTAGGAAATGAATTGTAAGTTATTTACTCAGGGTACAGAGGATGTMAGTGTGAAAGAGGGGCTCTTCATAAAATGTCGAGTTTGT
CAATGGGTGATAATATGCAGTTGGAAGCTTCATGCCAGCCTTGCGCGCTGACAGTGCTGCTGAAAGCAGTGATCCTAAATATGAGTTTGAAATTAAGAAA
TTGTGTTGTGGCAGAGACATGTTTTATACCAGAAAATGTTCACAGGTTCATTTTACTTCTAGGCATTACATCAAGTGCTTGATCATACCAGCATCATATA
GATGGTGAAAACATGTCAGCCACTGACAACTTAGTCTTGTACCTTCTGCCATACTTAATGTGTGTCGTGTGTCAGAATTTTCTCAAATTCCTTGATAAGA
ATTTGAAATTTTTACATAGCTTTATTTACTAGAACCTGTAGACATACCACTCACCAAGTTTGAATGCCTTGCTAGTTTTAAATGCTCAGGGAATAGGTAA
AACAGTTGAAAGGAAACTATCAGAAATTAATGTCTGTCTTTTTTTTATCTGGTTTTCTCTTAGAAAACAATACCTTTTCACTGATTTTTAAAAAGGATAC
ATACCTAGAGAAGGTTATCAATTCATCAGTCTTTTGATCAATGAGGGATGTGGGAAATCATAAGAGAAGTGTTTTTTTTTTTTTCTATGTTTGACCAGAT
TATTTGTATTCTGAGACCCAGCGGTGTGCTTTCTGGAAGTATGTTTATGGATATGTGGTTCAGTACTTCTTTTTTCAAAGGTATCAACCAAAGGGTGCCA
CTATATGTCAAGAGGTAGTGTGATGATCTGAGCAGGTGTCAGATTAAACATAAAAATTACATAACATGATTGTTTGAAATTTCTCTCTTCTTAGTCCTCC
AAGAAAAATTTGGGTAGAATCGTGGATATAGGTTAATGCCCTTTATTTTCTTTGCAGACTTTTATCCATGGATAGAGCAAATTCTCTTTTGCTTTCTAGT
AAAACTTTAGGGATTATGGTACTTGTGATGAAAGATTTTTTTTTTTCAAAAACCTGAATATTTCTGTTAATAAGCATGGATGGAATGTCTACTACATTCT
GATCTTTGGTATGAGCTGTGGCAAATAAAAAAATAAGTCATGATGTCAGTTTTGAGTCCTATCTTATAGTCTTATGGAAACAGAAATCATGTAAACACAA
GAGTTCAGTAGCGTATGAGTCGGGCTGCAGTGGACGTTTACATAAGGTGTCTTGGGATCATGACAGAAGGAATTACTAATGCTGCCAAATACACAGAGAA
AACATTCTTTTATATTTGTAATATATTCTTGAATTATAATGTGCATGCCTTCTATAATATGATTTACCCATATGGAATATCCACAAAGAAACATTTTGTC
CTTCTACATGTGTGTTTCTATCAGACCGATACAGACTGAATTAAATTTTTTCTGAGCAGCATTTGCTTATATGTTTTGTGGTTCCACTTTTCTCACATAG
ACCTGATTGCATAAGCGTTCACTGGTGCACCTGTATTTATTCCAGCGGTTATAATGGGTTATAGACACCTTAACTTGACACAAATGGTTGCAGAATGCTT
AAGAGTCCTCATTCAGAGACTCGGTATAACTTTTATAAACATCTGACTTTTTGTATTGTGCTTATTTTAGAGAGAGGTAACTCTAGACAAAAATAGCACA
TTTTAGAGTTTTCAGGATTTCCATTCTTTTTTGATACCTACTTACTATTGATATTTTTCTAACCTAGGTATTTTATTATCCTGAACTTGTTCTGCCCCAC
CCAGACCCCCTCATGTTTTTGTTTTCCTTCCTTTTCCCCATTGAAACATGTCTGTTTGTATTTCTTCAACCAAGTGTCTATATCTATCACTACTACTTCT
AATAATAATCCCCTTTGCTTATATGCAAAATGCTTCTTTATGTGTATTTTACCAGAAAGATTCATACTAAATAAAGGGGGTAAAGAGGGAGTCTTAGATA
ATAAGCAGTGCATTAAATTGAAGCCTCAATTTAATGATGGCAGTTCATTTTTATTTTTTTCATTTGTTGCCAGCACCTGTCTGGCAACTACAGATAGATC
AAAACCAACCCATGGCGCTTATTGAAAGCATAGAAGGAGTGTTAGGGGAGGGGAGTTTTTTTAAACCAGCTGTCTAAACTGATTCTGACAATTTGAGAGC
CACTCAAATTTATTAGTGTCTATAATAGTTGGAGTTTAAGTTCAATGAGAAAATACTGCGGAGTTTTGTTGCTTCTCAGATCACAGATCAGCCATTGAAA
AAGTTGCATGCATACAAACTATACTATAAACTCTGAAGATAGGTTTCACAACATAAGAATTCAGAACAGKGGTTTTCAACTAGGCACCGCAGTTACCTTT
ATTAGTTTCCAGTCACTGATGTAACACATTACCACAAACTTAGTGGCTTAAAACAGTGCAAATTTATTATTATTTTTCAAGGCGTCAGCATGACCATGTT
CCTTCTGGAGCTCTAGGGGAAAATCCAATTTGGTTTTTGTTTTTTGACTTTTCCAGTTTGTAAAGGCAGCCCACATTCCTTGGTTCATGGCTCTTTTCCA
CCTTCAAAGCCAGCAATGGCCAATTGAGTTGTTTTCATGCTGTATCACTCTGACACTGAATCTCCTGCCTCTCTCATTCACTTACAGGATCTGTGTGATT
ACTTGGGCCCTCCCAGAAAATCCAGAATGACCTCCAATCTCAAAGTCAACTTATTGGCAACATTAATTCCCTTTTGCCACATAATGTTACATATTCATTG
GTTCTGTGGATTAGGACCTAGACATCTTTGAAGGGGCTGTTTTTCTGTATACCACCTCACTTATAGAACCTGTGGGAAGAAGGAGGTGACTCAGATACTC
ATGTCTCACCCCAACCCTATCAAATTGCAGAGGAACAGGAGGGCAGGGTGATGGCACTCATAGAGGCCATTTCCATGAAGAGCAGAACCCGGCACCACAC
CCAGGCTTGTATTCTCTGGTCATGATGTTGATTGTACCATGGGGATAACTCACTAGTCATAGAGTTCAGATGCAGCCCTGCTGTAGAGATTATGGCCATC
TGCCTAATGAAGCAATTCGTATTTGAGGCAGTTCTGCTTAACTACAGTTAAGGAAATTAAGAGAAATTTGAAATTTTCAGATCAGTCATATTAAATAAAG
TGTCATATCTTCCTAGTACTGTCTCTTTGATGCTTCAGGTCAGGAAATTTAACACTTATATTTAAAAATTTTTACTTACTTTACTTTAGAATCAGAATTA
TAATAACATTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGTCCAGGCTGCAGTGCAATGGCGCGGTCTCGGCTCACTGCAACCTCYGCCTCCYGGGTTC
AAGCGATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGGTTACAGGTGCCTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCAC
CATGTTGGCCAGGCTGGTCTCAAACTGCTGACCTCGCGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGTCCGGCCT
ATAATAGCACTTCTCAGTGAAACATTTATCTCAAGATAATGGAGATATAAATCTCAAATGAAATGAATTTTTATCGAGATGTTTTAAAATATTTTAAAAT
ATTTATTTACCATCAAATATAATTACAGGCACAGATAACTAACCGGTGCTATTAAGGTAGTAGAGAACTAAAAAGTAATTTACATTTTTCAAAAATCATG
CAAAAACATGATTCGCATACTGTGATTATTTACCTGGCTAATTCTTTTTTGTTTGGTATGAAATTATTATGTAATAAAGAAATTATTCTTATCTAGGCTT
AGCACTTTGTTAGTTACATGGGATACAAGATTACACATAAAGTTAGTGTGAAAATTAAATTATAACATGTCAAATGGAATATGGTTAAGATCATAATGGG
CTGGAGTAGGGCCAGGAAGAGTTGAATAGATAAATTGGGACTTGAACTGAGCATTGCATTGTGGGTAGTAATATTTAACTAAATATGATTTATGATAGTA
GATCACAAGTAAATAATGATTTACTGTGATTTAAGTAAATCATAGAATAAACAAGTGAGTTCTGTGTGCAAGATTGGCAAAAAGTAAGGGGAGCACTAAA
ATTTAGGATTAAAATACAGTGTGTTTAGAGGGCTGTACATTTAGATGTTTTRAAGGCTTATTTTTTCATCAAAGTGTTATGGATCTATGAAATCCTGTTC
TTAAAATGAAGGGACACTTTTCTGAAAATACCCAGCTCAAGAAGAGACGGGAAATTGTTTCATATCATATGATTATCTCCCTGGCTAGTTCTTTTTTTCA
AAGATTACTGTCTATCAGACTTTGTGTCTTAAACCAAACGGGCGACTTCATTTTTCCCCTCCCTGGGAACTAAGTRTGGAAAGGAACCCTAAGKGTCCAC
TGCTGTCTCCTAGTGGAYTAAACTAAAATGAGAGGAACAGTGGGAAGAAATAGATTAATAAAGACTACAGAAGAGGAGCTAAAAGTTAGAATTTGCCATA
AATTGGATGGAGAGTTCACTGAAGCAAACCTCAGTYGATTGTGGAACTAGATTCATGCCGTGGGAAATCTCGGAATGACTTAGCCGTGACTTCTTTCCTG
TTGGCATGGTGTCTTTTTCAGTAAACTCCTAAGGAAAACAAACAAAAAGTACTACAAGTTGATGATAAGGTGGGTGGGCAATATCCTGTATARAAATGAA
ACTATGTTCTAGAAGAGTTGGATTTATTTCTGGACACCGACCTTTTTAAAAGCAATGCATCATTCTCCATCCAACAAATGCTGCCATAGCCAATAATATG
TTGGCTTGTCCATTTTCGGCTTGTAGTACAAAATAAATGAAAGCCAAGGACATTACAATTGGGAGGGAAAGAGGACTATTATTTAAAAGGCTTTTAAATG
ATGTCACTATATATTCTTTTAACAACATCCTCTAAAAGCCTTTGAAAAAATAGTCCCTTCCTCCCTCAGTTGTTAACAAAGACCATACTGGGGACTGCTC
TTTAAAAGGCTGTTAAATGGTGATACTATATTTTTTAACATCAACATCATTTAGAAACCTTTTAGAGAACAGTTCTCTTCACCCACAACTAACAGAGGAG
GGAAAAACAGATGCGGGGGAAGGGATTACTTTTGTAAAGGCCTTTGGATGGTACTATCAATAAATACAGCAATGTTGTTATAAAAGCATTTTTCCAATGG
TGATTCAGCTTTTTGAYATGTACTTTTAATCTCAGGACCCTGCGTTATCTGACAGATTGGTGTTTTAACGTGGGCTGAAAACTCAATTTACTAATAATCC
AAATAATGCCTTTTATTGAACTTTCTGCAGTTTAAAAATCAGTTTCACATATATGGTCTCATTTGATCCTCAAGACAACTCAGTGAAACAGACAGGATAT
GTATGATTARCCCCATTTTACAGAAGAGGAAAACAGAAGCTCTGAGGTTGTGGTTTAGCTAAGGTCTCACCATTTAATATGTGGCTGAGTTCAAACTATA
ACCCAGATCATTTGACATCTGGTCTCATACCCCATGCAGTTTCCTGAGGGTACCTTCATTGCTTTTTTTAAAAAAGTGGTATTCATCATTAGTCTTTTCA
GCATGTCCAAATACTGAGTTAATTCCTTACAATTAGTATAAAAGTGGGATTCTGTCATTTTGGTACTGAAGGTAGGTATCTAGTAGAAATTTTATTAACA
AATAATCCTGAGGARGTAAAGAAGTGTAAAATATTGTCTCAAGGTGTGGTTGTCCCCTGTGATGTAGCATTCAGACTTSCCCTTAGATTCCTTTGCCTTA
TGATRTATGCTTATGAAATTATCACTTGAAATCCACTTTCAGACATGCAGTTTATTAAATAACTGATATTTTAAAGACAATTCTAATCTCAGTTTATGGA
TTTGTTTTTAAAAGTTATTTGTTAAGGATACTGATTATAATTAAGATCACATTCAAAAAAGTTTCCATGCTAGTTCTTTCCACYTCTCTCCTTGAAGGAG
AGAAAAAAATCTCCCCATGAGCTTGCRTGACTGACCTTTACTTTCCTTTATCATAAGGACCATTTTGTGTTTATTGAAAAAGGAATTATAGCTTATTGCT
TGACAGAAATGACACTGAAGAATATTACATTTCAATCTTAGCTCTGCCACTATTTTTTCTCTTATGCTAATAAACATTGTCTTTAATAATAATTAAAGAA
GGAGACTTTCACCAGCAACACACTGTCACATGCAGTGTCACACTGACTCCTCAAAAGAATCCTATCAATTAGATACAAATACAAGCACAGAGAAGTTAAA
TGATTTTCTTCTCATCAAATAGCTTGAAGGTCTTCTAACTTAAAATCCAGTGTTTTCCTTCGTACCACTGCCAGCTGTAATTCTGCCTCATGAGAAGGAA
ACTAACCATTCTTACTTCTGAGGAAAAATGTTTAATATGTTAAAAATACGTATAGCCTGAGAAGACCTGGCCAGTGCCACAGTGCAGGAGTGAGGCTCAA
TCCCAGGACTTGACCCGGAACAGCCATGCAGCCAGGTGCCTTTGCCATGAAGAAAACCAGGCCTTATGTAGTAAATCACGTTCTCTCCATCCCCACCTCC
TTACTGAAAATTTTAAAATATTTACACACAGATCAAGGGGAATAATGTTTATATAAGTAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCT
GTAGGTCTGTCTGTCTGTCTTATGGTCTCAGGGAACCCATTTCCCCATCCTTTCCCTGCATCAGGAAATTTTCAGCAACTTGTGGTACCTGGAACTGGCA
TCTAGGATGTATGAGGATCCTTTTCCCTTCTGTCAGATTCAAAGAAAGCATCTGTAGTTTAAAATCACTATACCCATAATAAAATTCCCTTTCCAATTTG
TACATCTCCTAAGACATACTTCTTTCCTTATCGCCAGGACCTCTTCTAGGTGACATCCGCATCCTTCATCAAGGGGAATCCATGTCCCTAAGTCACARTT
CACTTAAATGCAAGGCAACACAGCCAGCTTTTAGAGGCCACAGTCCCATCTCTGAAATATGTAGAACAGCTTACGGTTTCCCTCATACAMTTTTGTAAGG
TTCATGGCCTAGCTTTTCTCTGGGAATCTCCATTTGGATCTTGAAGTCCTGTTGTAAATCTGTTCAGCATGGCCCCATTCATAATGGCTGATAATTCTGT
CTTGACGAAATCATYGTTACTACCAAGATTGTTTGTGTGAAGCTCACCTGTTCCTTTTAGGCCATTCTGTTTTCATCCTCATTTTCCTTCCTCTTATGGG
GCCCATTCCATCTTCCTATTCCTTCTTCCCCTCCTTGTCATTCTTATCTTTGGATCTCTTAATCACTTATCCATATTCAGTGAAGATCTTAGTATTTCAT
ACATAATCTCTCTGGCCCACCATCATCTTGGGGAACTGCAGTGTTCATATTCATAACCTGTGCAACATGTAACCTCACAGTCTCTTGATCTGTTCAATTC
TAATAACTTCACCTCCACTGAACTTCAGTTTTTCGTCCTTTCAATTCTGAAATCTTAACTCACTCCCTTACTTGTGCCTATCMTGCTCCTCAGGCCCTTC
ATGCCTCCAGCTGTTTATGTTTAGCCTAGATTAAAACAACCCTGAAAGATAGGTGCTAGTGTCCCCATTTCACAGACTTGAAAATTGAGATCCCTTCAGC
TTCAGTAACTTTTCTGGTGTTACAAGGCTAGTAARACATGTGCTATGTATAAAACCAATTTCAGCTCAAATCTGTATAGTTTCAAAGCCCTGTGTTTCCC
ACSACACCTCACTGCTGAGTGTAKGAAGGAGTTACAACTCCAAGAGAATTATTTTGTGTAGCAGCTTGTGGTACAGCTCAGAGTAAAACGAACCTAATGA
CGGGGGCAAATTAGAGAGACCTCGTATAGTATAAGCAAGAGAAGTCATAAGGGAGCAAAAGATCGGAAGGGACACCAAATTGTTATGGTTACCTGAGGGG
GACTTTTCTTTTCTTTCTTTTTTTTTTTTTTTTTTTGAGAYGGAGTCTTGCTCTATCACCAGGCTGGAGTACAATGGTGCAATCTCGGCTCACTGTAACC
TCCGCCTCCCAGGTTCAAGTGATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGT
AGAGATGGGGTTTCACCATATTGGTCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCACCGGCCTCGGTCTCCCAAAGTGCTGAGATTACAGGCGTGAG
CCGCTGCACCCGACTGGGACTTGACTTTTCTTATATTTTCATACTATTTAAATTATTTTCAATAAATATATAATGCTGTTGTAATTTGAAAAAAAAGATT
TAAAAGTATTTTCAGTGTTAATGAAGACTTGAATTAAGCTGGTGGTAGAGGGACAGAAAAGAGGAAATGAATGCAGGAGACAGTGAATTTGTTTCTAATT
AATGTGAGGGTGTCAAAGATAATGCCAAGGTTCTGAGCTTGGTTATAATGGGAGAAGACACTAGCATTTTCTTTTTTATATTATGTTTTTAATCTTGTGA
ATGAAAAAGCAGTAGAACTGCTAAGATCACGTAATTATCACATCTTTCAAATCACAGCTTAACAATGCATAATTGTTTTGGGCTTCTGTAAAATGCTCTG
GGTTCTAAAGAAATTTGTTATAACCAGTTACTGAGAACTTCATGCTGAACACTTTACAAGTCAAATTCAGTCTGTTTTTATTAGTACTCTTAAGCCAAAA
GTCAGAAAAGAAATATAAAAAGAATAGGAGAACATATGTATGAATAGTATAACATATCAGTATTCATGGTTCTGGTGCTATTTACCACGTACGTGATATA
TAAAACAATATAGACATTATTCTGGCTTTCAGATATATAGAAAAGCAGTAAGTGTATTGATAGTGAAGTTTATTGATCTGTCTTTGGGGAGGAGAAAGAA
TGGGATATTAATTTCCTTATATCAAAACCATTGTAAATTGAATATATCCTATACCAGGGATCGGCAAACATTTTTTGTAAAGGGCCAGGTAGTAAAGATG
TTCAGCTTTGCAGGCCACAACCACTCAACCCTGCCATTTTAATGCAACAGCAGCCACAGATAATACATAAATAAATGAGTGCATCTGTGTTCCAGTAAAG
CTGTATTTATAGACACTAAAATGAATTTCATATCATTTTAATGTTACAATCATATTACTTTTGATTTTTCAACCATTTAGAAATGTGAAAGTCATTATTA
GTGAACAGGCATTGCAAAAAYAGACAGTGGACCAGATTTGGCCTCTAAGCATGGTTTGCTGKTGCCTGCTTAATACCGAGCATGAAATAAGATGCTCATT
AAATATTTGTTCATTATGTGTTCAMGTATTTCCACAAATATATTTTTAATATATATTATTACCAAAATAAGAGGTGAGAAAGTCTTGTGTGCTTTATAAT
GTATAGTGATTACTAAAATAAAATATGAGAAATTATCATAAATTTGTATATCAAAATTTATATACATAAGGAAGAAGTTATCTTTAGTATTAAAAACCAT
TTATTTGAAGTAATATTTSCTGGAAGATTCAAATATATTTCTTCGAGTCTGTKCTTATATGTAAGAGTTAACCAAATTTGCCSTTTACTTTTTTAAATCY
TATTCTAGGTCAATACTAGGTTAATGCTAGCCTCAATGAAATGGATTGAAGGTAAAATCAAGACCCACTTTCTACAGTTTATAGGATAAATGAGACAATA
CTGTGACTTTCTGCATTACAAATCTTATCAATTGAGACATACATTGGTTTTAAAAGTACTAATTTTAAAGATGAAGCTGTGCCTCTGTTTATAGCTATTT
TCTTACCTCGTCATTTTTATAAATTATATATCAAAATAGATACTGATGTAAAGTAAGCCAAACAAAACTAGATACAAAGAGCATTTTATATACTGCAGAT
TTTCATATCTTTGAAATTCAAAAACAGAATGGATTGATAATACTTAATGACTGGGTAACTAAATGTGGATTAAAGCATAAAAGGCTGGGAAACATTGTTT
TCATAAAGCTTTACGTGGAAATGTCATCTTTGAATAGTAATGTGGATGCTGAACAAGGCTTATTCCAAGGCACTTACTTGCTATTCCATGTTTTATTTTT
CGAATCTCATTTTAAATTTTATAATTCAATCATTTTGAACAGCTATGTTCAAAAGAAGTTTTACAACTTTAATCTTAATAATCTCAAAAAAAAGCAGACA
TGCTATGTCATAAAATAACTATTAGTGACTAGTTTGTATCCTATAAATCTAACTTGAGTTGATAATATGGTCCATTACCAGCTAACTGCACAGAGTATTT
TTCATTTTACACTCTTCAGTTACTTTTTAGTGAAGTGTTAAAAAATATGAAGCTTTTCTCCTCTCTAAAATTGCACGCTGTCTGTCTGTTATTAGGGAGA
TAACAGCTCTTATAAATGTTTCAGTAAGCGCTAAGTAGACAGTTATGTGCACTCTCATTCCACGCTTATTTGCTTACTGTAATAAACTGATAAAATATRT
GTGGTTTGTCTCTGTGTATCTACAGGCATCATGAGTCACATAGATTTCCTTTAGAAATAATGTTGTGTCTGCAGAATTGATTGCTTATTTTCATAAACCA
TCTAAAGGTACACAAACGACTTTTATTATTTAAACATATGCTGTGTAAAGATTTGTAGAGGATTATCTCATTGTTACTGGATGCTTTTTGTTCTGTTAAC
TCTTGGGGGAGGCTTGTTATTTTACAGTTACTGCAGTTACTGAACTAATTACTTCCTCACGAGCCATAGTRAAGATGACCTATATCATTTGCTTATAATG
CATCTAAGTTTTTAATTCTTTGAATGTTAGTCGTTAAACAATTAAATCAAAACTAATGTTTTCAAACTTTGTCTTTCATACTCTTGTTTATATAAGTTTT
AATAAAATAATACACTTATAAGTAGACATTTCAAGAATTAGTGTTTGAATTATAGAAGTCCCTCAATAAGCTGTTCTTTGTGCATTTAAGAAATGTACTT
CTTTATTTGTTCACAATTTTATGTAATAGAAAATTCAAGTTATATCATAAAACCAACAAATATTAATATAGAAGATCTCCACATATCACCACAGTGTGTT
CCTATAAGGCTGTAGTATTTTTAAGGACACTGTTATAATTGAGCACTCAGCATTAAATAATGTATAGTTATGACCAACACTAGAGGTATATTATTTGCAA
ATTTCCATAATCATTTAAAATAGTAAAATTATGCTTTGAGTTCTGAGAAAGGGTAAAATTAAGTTTAATACATTGAGCATAAAAGTGGGAAGTAGATGGG
AAGACAGGTAATAAACATAACAAAAAAGTAAATTATATATTGTGTTAGAGAAGGTATTAAGTGTCTATAAAAAAGGAAAAAGGAAATCAGAAGGGAGGGA
TGCCAATGGGTTAAGCCTTACTAAGATRGTAATATTTGAGCAGACATACTAGAGCTGAGCCATGTGGGTCTCTGGAGAAAGTGCCTTCCAGGTAGAGGGT
CCCAGGGAATAACCTATAGTGGGACTGTTACTAATATGCAAAAGGAATAGCAAGGAAGTCATGGCGATGAGTAGAATAAACAACGAGTTCAAGAGTAATA
GGAAACAAGATCAAGGAAATGGAACAAGGATCCTGGCCATTGGCGGGTTTTGAGCAGAGGGGTAACATGATACAACTTTTCTTTTTCTTTTAACTTTTAT
TTTAGGTTCAGGGGTACATGTGCAGGTTTGTTATACAGGTAAACTCATATCACGGAGTTTGGTGTACAAATTATTTCATCACCCCAGTGCATGATGTAAC
TTTAACTGATACATTCTAGCTGCTGTGTTCAGGATAGACTAACATAGCAATTCAGTCTATGTTCAATAAGATGCAGGGGTAGGAACAAGGAAACCAATTA
GGAGGCTGTTGGAATAATCCAGATGATAGGTGGTGGTGGCTCAGACCGGGCTGGCCACAGTGGCAGTAGTGAGAAATAGCCAGATTATTTCATTAAAATA
ACTGGGTTTTCATCCATGATGACTCCCTCAGGTGTCAGCTATGACTTTTGTGTTCTTCTAGCCTACTGAGCCTGCTTCTGTCATGACATTTATCACACTA
GTTGATTTACTCTGTTTTCCCAGGCTAAACAATAAACTTCTTGAGGACTAGGATACTTTGGCTTTGTCTCTGTATCATACTCCTTAGCACAGGGCTGGTA
CAACTCATTGAATAAATGTTATTTACATGAAAGAATGAATTAATAAATTAATGGTGAGTAATGATTAATGATTTGTAGTTACTTTGTGTTTGAAATAACG
GTGTTCTTATTGGACAGAGAGCTGTGAAATACCTAATTCTTGCACGTTACCACCTTTCTCCCCAAGATGCCCAAGGGAGACATAGGGTCAGAGGACAAAG
AAAGGCAAAGCCGTACTTTGTTGTTATTGTGGGCCTTGCTCTCTAACCGCAATACAGAACTCCAGTGAGTTAGGTTGGCCCACATCAAGGACTCAAAGTT
CTTTTCTATTAAAGGTAGAATTAAGTAGCCTTGATGCAAAACAAATTATTAGTTGAGTCACATGAAATTGATAGTTTGACTGTTTTTGACCTACAGATAT
GGCAGATACATATGGTTCAGTCTAATCAAAAGCCTTACCTGAGTCTGTGATCTCCTGGCTCCATATCTACCAGGACTTTAGAGAAAGTGGGGGAASGGGG
CATTCTCCCATTACAAGCTTATTTCCCCTTCTAATTAGTGTCCTGAAATCTGACTAATCCCAACCAGTAGTAGAGTGGGGGAGATAGATGATAGAATCCC
AATTTGAACTAGGTTAAGTAGTAAATAAATAAATAGGAAATTACAGCTACAGTTCAGAGAAAACAACTTCAGCAAGGACAGTAATGTGTCTGGGCATCAA
GAACCATCCAGCTCAAAGTTACCAGCTAGTTTCTCTGTCTCTCATCTATGCTTTTCTTTGAAATTTGCTTTATTATTTTTTTTTCTCACTGAACAATGTG
GCAGGAAATGTGGCCACAGACAAAATTAGAGTTTTAAATCTCAGAATTTTAGCTGCTTGAGAGAGTCTGGCTCAAATTACTAGGTACCAAATCCAAAAAT
CCTAGGAAAGGAACTCATTGGGCCAAATGTCCATCCCTGAACCAGTTAACTGCAGCCAGTCATGGGGAGGCATAAGAACTTGCCAGCTCCATCATGGGCT
GAATGTGTTTCTAGAAAATAGTAGGGCATGTTGGGCTGACAGTCTCATACATAACCACTATAGGGTAAAGAAGCATTGGGGGCAAAGCTTCCTCAAAAGG
CCAGCACTTAGTCTTGAACCAAATAAAAGCAATTCTGAAACAATGAATTCTTATTCTGCATTGTCATTGGACTTACTCAACACTTTGTTGTCGGCTATCA
GAACATTTCTGATACTTCAGAAACCCACAGGAATAATTAAAGTCATAACATGGATTTTCATAAAGGAAATCCAAAAGAAAAAAGTAACCTCTACTTTGTR
AAGTTGTATTCTGATTAGTAAAGCCACTAGCCTGTATGGCACCATTGCGCAGATTCCAAAAAGTTTCCCTTGAATGTAAGCTGGATTTTAGCTCCTATTC
ACCCTTTCAGTCAGTTGCCACTGCACAGATGTATATGGTGGTCTAAGTGTTAGCTGTTTGAAATAAGCGGCTCTGGGAATTGTTAAATTATTTTTTTTAA
ATCAAGCATCAAGAACTGTGAAGAGTCTGAGATGTTACCCTACTTACAAGCTAACTAGTTAATTTGCAACAATTTCATGAATGCTGGTAGAAGACACAAG
ACTCCTGGTCAGAGACAAAGGACAGTTTGTTAAAGCAATAGAAGTAGCCAGAGTAGCATCATTTGCATCACTTCTCTGAGCCCCACATGCTGAAGGCTAG
GTGAAGCCTGCACATGCATTGTGTTGCTTTACAGGAGAGGAACCTGATCAGAGTAAACAGACAACCTACAGAATGGGAGAAAAATTTTGCAATCAATCCA
TCTGACAAAGGTCTAATACCCAGAATCTACAAGGAACTTAAGCAAATTTGCAAGAAAAAAAATCAAACAACCCCATCAAAAAGTGGGCAAAGGATATGAA
CAGATACTTCTCAAAAGAAGACATTTATGTGGCCAATAAACATGAAAAAAAGCTCATCATCACTGGTCATTAGAGAAATGCAAATCAAAACCACAATGAG
ATACCATCTCACACCAGTTAGAATGGGGATCATTAAAAAGTCAGGAAACAACAGATGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGG
TGGGAGTGTAAATTAGTTCAACCATTGTGGAAGACAGTGCGGCAATTCCTCAAGGATCCAGAACCAGAAATACCATTTGACCCAGCAATCCCATTACTGG
GTATATACCCAAAGGATTATAAATCATTCTRCTATAAAGACATATGTGCACGTATGTTTATTGCAGCACTATTTACAATAACAAAGACTTGGAAGTAACC
CAAATGTCCATCAATGATAGACTGGATAAAGAAAATGTGGCACACATACACCATGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATGTACTTTGCA
TGGACATGGATAAAGCTGGAAACCATCATTCTCAGTAAACTAACAGGAATAGAAAACCAAACACCGCATGTTCTCACTCATAAATGGGAGCTGAAGAATG
AGAACACATGGACACAGGGAGGGGAACATCACACACCAGGGCCTGTTGGGGGTTGGGGGAGTAGGGGAGGGCTAGCATTAGGAGAAATACCTAATATAGA
TGACAGGGTGATKGGTGTAGCAAAACCACCTTGGCACGTGTATACCTATGTAACAAACCTGCACATTCTGCACATGTATCCCAGAACTTAAAGTATTTTA
AAAAAAAAAAGATTCTAGGCTTTTATAAGGGGACTGTTAGCAAATCTATTCAGCCTTTGCCCCAGAGGGAGATTTTGTCTTTCTAATCCTGGACAATGAA
CAAACAAATCTATCACCTGCCCCAGAGGGAGGCATTACCTCTGTCTTCCAAAGGCTGTTTGCTGTGGAAACATCTTTGAAAAGAGCTTCAGAAGCAAAGT
TGCTAATGTTTCTGCTCAGAAGACGTGAGACCTGTAGAGCCCTTTTTGGCACCAGGGACCCGTTTTGTGGAAGACAGTTTTTCCATGGACCGTTGGGAAT
AGGGGGATGGTTCTGGGATGAAACTGTTCCACCTCAGATTATCAGGCAGGCGTTAGATGCTCATAAGGGGCGTGCTGCCTAGATCCCTCGCATGCGCAGT
TCACAATAGGGTTTGCACTCCTATGAGGATCTAATGCCACTGCTGATCTGACGGGAGGCAGAGCTCAGGCGGTAATGCTTGCTCTCATCAGCCACTCACC
TCCTGCTGTGCGGCCGGATTCCTGACAACCCATGGCCTGGTACAGGTCCATAGCCCAGGGACTGGGGACCCTCTGCTGTAGAGAATTGTTTCCAACAACA
AGGGAAGGGAAGTGGAATGGCAAGGATCTAACATTTGTGCCCTTAGATCGGGGGTCAGCAAACTTTTTTTGTAAAGGTACCAGATAGTAAATGTTTTAGG
TATTACAACTACTCACCTCTGCCATTGTAGAGTAAAAAAGCAGTCAAGGACAGTATGTAAATGAAAGAATATGGTTGTGTTCCAGTGATACTTTTTAAAA
ATAGGCAGCAGGCCATATTTGGCTTGTGGGTTATAGTTTGCAACCTCTGCCCTACATGTATTGTGTTTAGACTTATTAAATCTTCCCTTTTTCTTAAACC
CTCATTTTCACAGCCCAAATCTAGATCACTTTATAATTATGTTTTATCTTTTTTTGCATCTAATAAAATCATTGTTGTCTATAAAATATGAAGTCAAGAA
CGCCATTTGCAATGTTGAGCATCTTAGAATATAAGCAGCCACAGATCTCATATGTATTTCTGGAATATAGGTATCTGGTCTGATGTACAAAATATTGAAC
TAAAGTCTAAATATATGTTAATATTAATATAACACTGGATTAAATGTATTATATGTGGAAGTAGTCGAAGTATTTATGGAACCCACTCGGTTTATTGAAC
AAAATATCACCTATGTATTTTATCTAGATGCTGGAGAAGTTTGGCGTAATATGACTTGTATAAACTTAGGAAACAAGGTTAAAAAAGTAATCAAACATTT
TCTTTTTCTTTGTGKTTTTTTTTTTTTTTTTTTTGAGACAGAGCCTTGCTTCATCACCCAGACTTGAGGACAGTGGCACTATCTCAGGTCACTGCAACCT
CCACTTCCTGGGTTCAAGTAGTCCTCCCACCTCAGCCTCCCAAGTATCTGGAATTACAGGTGCATGCCACCACGCCCAGCTAATTTTTCCATTTTTAGTA
GAGATGGGGTTTCACCATGTTGGCCAGGCTGGCCTCAGACTCCTGACCTCAAGTGATCCACCCATCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGA
GCCACCACACCTGGCTATGTTTTCATTTACTACCTTTCTGTAGTTAAACAAGTATATATTATTACCACGAAGTGTCATTTATGATCCTGTTTATTGTGAA
AGAGTGCATAGACCTCTGGGAATTATCACAGATAACCTTTGGAGGTTGTAAGGGAGGGCCTTTTTAGACGGTGAATTCATTAGAGAATGCTTTTTACCTT
GAACTTGGTTGAATGTGGAAAGAATGAGTGGAGAGAATTATACTGTTTTTCTTTCTTTATTCATCCCTTAACATATTTTTTGATAATTATAATAAAGCTG
TAGAATTTTGAGACAAAGTTGAAAACACAAAATAAATGTTTGGACCATGCATCCTAGGATTAGACTGAGAGAAGGAATCAGTGAGTCTGCCAAGGCTTGA
TGGCTCTTAAATGACTAAAGGCATACTTCTAACCACCTTGTATGATATCTACAGTACTGATTCCTGGCCGCTGTGAACCAGACCTTTGTTCTGTTCTGCT
CTAGTCCCACTCCTCTACCCTTGCCTTTCTCCAACTTTCAAATAGTCTTCCCTTTTACATTACAGTTTCAGCTTTCTTTCCCCGATATTATATGTAGGCC
AACTTTTTATGAATTTCCACAGAGATAAAGCTGGCTACATCAACATTTATTTAATGATTTGATAACAAATATGTTTGTGGAACAATGTAGAATAAAAGTA
AGACCTGTCACTGTCTCTAATATGCTTATCATTAAGGAAATAAACATGTAACACTGAAAAATATAATTAGCCAGATAAGAGCTTATATTTAAGGTTGATT
ATCATAGCCTTAGTAGCATGGGAATTTATGGCAAAAAAGAAAACTTTTGCTGAGTATAAATCTATAAATATAAAATATATAGCTCTGGAGTCATCCCAGT
ACAGCCTTGGTGCCATGTGCATGTCGGAGAGTCCCAGCCCACCTTGCTCTCTAGTACTTGTAGCCTTTTTCTTTCGAGATGCCTGAGAAAGTGCACGTGG
AGCGGAGGAGCTGGAAACTTGCCTTTCAGGCAGATATTGCCCAACTCATGTCTCTCGTCATCAATACCTTCTATTCTAACAAGGAGATTTTCCTTCAGGG
GTTGATCTAATGTTTCTGATGCATTGGACAAGATTTCCTGTAAGAGCCTGACAAACCCTTCCAAGTTGGACAATGGTAAAGAGCTGGAAGTTAACATCAT
CCCCAACCCATGGTAATGGTTCCCAAATTAGGAGATCAGCCTTGGTCATGTCAATGCCTGTGTCTACCAAAGTCAGGGTGTATTCCCTGGTACTAAAGGA
TTTATGGAGGCTCTTCAGGCTAGTGTAGATATCTCCATGATTGGGCAGTTTGGTGCTGCCTTTTTTTCTGCCTACCTTGTGGCAGAGAAAGTAGTTGTGA
TCACAAAGCACAACAATGATGAAGAGTATGCCTGGGAGTCTCTGCTGGGGGTTCCTTCACTGTATGTGCTGACCATGGAGAGCCCATTGGCAGGGGTACC
AAAGTGACCCTCCACCTTAAAGAAGACCAGACAGAGTACTTAGAAGAGAGGAAGGTCAAAGAAGTAGTGAAGAGCACTTACAGTTCATAGCCTATCCCAT
TACCCTTTCTTTGGAGAAGGAAAGAGAGGAGAAAATCAGTGATGATAGGCAGAGGAAGAGAAAGGTGAGAAAGAAGAGGAAGATAGGCCAGGCACAATGG
CTCATGCCTGTAATCCCAGGACTTTGGGAGGCTGAGGTGGCAGATCGATTGAACTCAGGAGTTTGAGACCAGCCTAGCCAACATGGTGAAACCCCAACTC
TTTAAAAGATACAAAAAATTAGGCGGTCATGGTGGTGYGCACCTTAGGTCCCAGCTACTTGTGGGGCTGAAGTGGGAGGATCCACCAGGAGGTGGAGGTT
GCAGTGAGCTCATATCACACCACCGCACTCCAGCCTGGACGACAGAGTGTTACACCATCTCAAAACAAACAAAAAAAGGCAGATAGAGATGATGAGAAAA
AGTCCAAGATTGAAGAAGATGTGGGTGGGTTCAGATGAAGAGGAGGACAATGGTAAGGATAAGAAAAAGAAAACCAACAAGATCAAGGAGAAATCATTGA
TTGGGAAGAACTAAACAAGATCAAGAACATTTGGATCAGAAACTCTGATGACATTCACCCAGGAGGAGTATAGAGAATTCTACAAGAGCTTCACCAGTGA
CTAGGAAGACCATTTGGCAGTCAAGCACTTCTCTGTAGAAGGTTGGTTGGAATTCAGAGCATTGCTGTTCATCCCTTGTTTGGCTCCCTTTGACTTCTTT
GAGAATGAGAAGAAAAAAAGAACAACAAACTCTGTGTCCATCATGTGTTCATCATGGACAGCCATGATGATATAAGAGTATCTCAACTTTAATCCTTGGT
GTGGTTGACTTGGGATCTGCCCCTGAACATCTCTCGAGAAATGCTCCAACAGAGCAGAATCTTAACAGTCATTCACAGAAACATTGTTAAGAAGTGCCTT
GAGCTGTTCTCTGAGGTGGCAGAAGACAAGGAGAATTGCAAGAAATTCAATGAGGCCTTATCTAAAAATCTAAAGCTTGGGCCAGTTGTGGTATCTCACC
TCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGAGGATTGCTGGAAGCCAGGAGTTTGATACCAGCCTGGGCTGCAAAGCAAGACACCATCACAACAA
AAAATAAAAAAAATTAACCCAGCATGGTGGTACACACCTGTAGTCCAAGCTACCTGAGGCAAGAGGATCACTTGAGCCCACGAGTTCCAGGCTGCAGTGA
GCTATGATTGCACCACTGCACTCCAGCCTGGATGACAGAGTGAAACCCCTATCTATAAAAAAAAAATAAATAAAATTTTAGAATTTCAAAAATTAAAATC
TAAAGCTTGGAATCCACAAAGACTCCACTAGCCAGTGACGCATGTCCTAGCTGCTGCAGTATCACACTTCCCAGTCTGGAGATGAGATGACATCTGTGTC
AAAATATGTCTCCTGCATGAAAGAGGCACAGAAATCCATCTATAGCATCACTGGTGAGAGCAAAGAGCAGGTGGCCAGCTCTGTGTTTGTGGAGCAAGTG
CAGAAGTGGGGCTTTGAATTAGTATATACAGCCAAGCCCACTGATGAGTACTGCGTGCAGCAGCTCAAGGAGTTTGATGGGAAAAGCCTGGTCTCAGTTA
CCAAGGAGAGTCTGCAGCTGCCTGAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAGAAAAGAAA
GAAAGGAAACAGAAGAGTTTTGAAAATAGTTTTTATTCAAGGAAAAGAACCTAACCTTAGAAGTGAAAGTGCTTTGAAAACTTAAAATACTAGATTGTTA
TCATCATCAGAAGGCTTAAATAGAATGAATAGGCCAGTAGCCCTATTATTTTATATAACCAAAATTTTAAATTTAGCTAATTGTTTATTATATTTTACAA
ATAAACTATCCCATAAATTTTTATGATTATTATTTTATTATTATTATTTTTTTTTTGAGACAGGGTCTTGCTCTGTCACCCAGGCGGGAGTGCAGTGACC
TAATCATGGCTCACTGCAGCCTCAACTTCCTGAGCTCAGGCAATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCAATGCACCACACCCA
GCTAATTTTTTACATTTTCTCTAGAGACAGGATCTCACCATGTTGCCCAGGCTGGTTCTCAAACTCCTGGGCTCAAGTGATCCTCCTACCTCGGCCTCTC
GAAGTGCTGAGATTAGAGGTGATGATTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCAGCCCACA
GCAACCTCCGCCTCCCAGGTTCAAGCCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGAATTACAGGCATGCGCCACCATACCCGGTTAATTTTGTATTT
TTAGTAGAGACAGGGTTTCTCCATGTTGATCAGGCTGGTCTCAGACTCCGGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGTTGGAATTACAG
GCGTGAGCCACCGCGCCTGGCCAGAGGTGATGATTATTTTAAATTGCCCACATTTTTTGTTGCACTTTTAGAGAAAGAATACTATGTTTTGATGATGCTT
AGAAGGCATGATGTAGCATTTTGTATATATGATATTTAACTCTTGGATTTTTGTGGAACTTTAAATCATTACTATAATTGCTACGTTTGTAATGTCATCA
GGTGTACACGGCATAGTGAAAATGTTTAATAGGTTGATATATACTCTCAGAACTATAATAGAKAATCTAGTTGGGAGACAACACTTGTCAGGAAAAAATC
TTAATCAAGCCTGTTTAATTACAAATTGATTTTTTTTTTAATGCTTGCCCATGTCAGGTCAAGCCTAGTATGCAATACTGATATTTTGAATGGAAAGAAA
GCTATCACATGGTTTTAGAATGGACAGTGTTTCATTATTTAATATGCTGCCTATGATTTCAATGAAAATGAGATTGAGGGAAGAATTTAATTAAGAGTCT
AATGTTCAATAGAAGGGTAAAAGGTGATTTACCAAGAAAATATTCGGAGGGGGAAATAAGGAAATATTTGTTTTACCAAATAATTGAATTATATTGTAGG
TCTACAAAAAATAAAACAATATGGGACTGGTTTAACAGGACAATCAAGGCCCAGAAATATCTCCTAGTACATAAATAATTAGAATTTTTGCATTTAAAAT
CATTGAGAAAAGACTATTCATTAGCTCATGTAGGGACAATTAGTTCAGTATCTGGAGAAAATTAAATATGGAGTCAATATATCAAAATCAATTCCATATG
AATTAAAATTTGAAACCATCAAAGGTCTGGAAGAAAATATAAGTGAATAGTTAACTTGATCTCAAAGTAGAGATCATTAAGGCAAAGGAAGAAGCCACCT
TATCCTGGGGGCCATGGTCTTCAGTTTACAGTAAAAGAAAATAAAAACAAAAAAACAGTTCAAAGAGTCAGGATTGGAAATGAAGGTCCAGACGTTCATT
TTGGTAGTTGGCTAAAACACCCAAGAAAATCAATTGACAAACTGTTAAAACCAATAAGAAAGTTAGCAAGATGGCCAAATATAGAGGATCTAGGGAAAAA
AACTAACAAAAAAGTTTATAAATCCCTGCCCCCCAGCAAAAAAAAAAAAAATGAGTATGTTTGTAATATTAATATATGCTTGGAGGTTACAGAAAAATTT
CTTTTTTTTTTCTTTTCTTTTYTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAA
GCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCTGGCTAATTTTTTCTATTTTG
TTTAGTAGAGACGGAGTTTCACCGTGTTAGCGAGGATGGTCTGGATCTCCTGACCTCGTGATCTCCCCGTCTCGGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGCCACCGCGCCCAGCCGCTTACAGAAAAATTTTCATACAGTTTTGAGGGCATTTACTTCTTTGTATCATTTCTGACTAATATCTATGTGTGTGAT
ATCCTACTAATGTTTGTTATTGTAGTTCATATAATACTGTAGGGGAACCAAGAATTAAATGTCATAAATGTTTGCATATTTTCTAAAAGAATAATTATAT
TCACTAACTCATCTTTTTTTCTTTTTGCCGTGTGTAATAGGTCAGTACTCCTGCATTTGTACCAACGAAAACTCACGTGCTGCTTCATCGAATGAGTGGA
AAAGGACTAGCTGCCCATTATTTCTTTCCAAGACAGCCTTGCATTTTTGGTGATAAGATGGTCTCTATACAAATAACACTGAATAACACTACTGATCGAA
AGATAGAAAATATCCACATAGGGGAAAAAAAACTTCCTATAGGCATGAAAATGCATGTTTTTAATCCAATAGGTAAATATTAATTCTCATTTAAAACCTT
AACTATATTTGATCACTAAATATGTTCATTTWAAAAGTAAAGTAGAATACTTTTTAGTAAAATAGTAAAGTAGAATATGATTGTATTGACARTTAGCATA
TTCAGTTTATATTTGCTTTTTCTTGTTAAACTGAATTTATCATATAAGATAAATACATTTCTTTGCTCTTAGTGAATCAGGTCCCAGTAATAGTAATACC
AGTAGTGATGGAAGGCTAGGTCTGCAGAGTCAAGATTGCCATCATGTTTTACTTACCTGTGTCACCTTTCCCCATCTCTCCTCCTGGTCAGCTTCATTCC
CTGCATAATTTTAAGTGGTTTATTGTGTATTAAAAGCAAGAAAATCGCTCTGCATTTCTGAATACAATACTTCTCGTATCTCGAGATCCTTTCCTGTTTC
CCTTCACTTTTCAATTTATGGGAAAGTGAAGGGAGTGAAGACTGAGAGGATATAGACCAAGCTTGACCAACCTGGCTCAGGCCAGCTTTGAATGCAGCCT
AACACAAATTCATAAAGTTTCTTAAAACATTATGAGATTTTTTTGCGATTATTTTTTCTTTAGCTCATCAGCTATCATTAGGGTTAGTGTATTTTATGTG
TGGCCCAAGACAATTCTTCTTCCAATGTGGCCCAGGGAAGCCAAAAGATTGCACACCCCCGATGTAGACTAGTCTGCTTATCTTCCTCTCCATGTATAGA
ATATACAGTAGCCTAGAGGATATCACTGGTATTTATCCACATCCAATTTTTACATGTTTTCAATCTGTTGCCACCATTTAAAAATGAAGATGCTTTTACA
TTTTAAAAAATGAGAAATCTCACTTTTCTTGGAGCAGAGCGTAAAATATGGCAGTACTGGCCCTTTATCCCCACATGCAGCAACCAATGAGTGGGTTGCT
GAGCAGCGGCTGCCCCCAGCTTTGGCTCGCACTTTCCAGGTTGCTTCTGTGCCCACCGCATCCTGTTGTCTCTCCAACAAAGTGTCAGTGGCCATTTTTC
ATCCCCTTTGCATTTTTTAAGTATTTTGCTAAAAATATACCCTTTAAACATTAAATGTAACAATTGTGTGTCTTACTTTGAAATTTGAAATAGTGTAATA
TTTAGAATGTCTATCTCTTTCTTTTTGGTTTTTGTAAGTGGAGATAACCCTAAGGTTTAGTTGAGAGAAGCTTCAGGCAAAACCTCAATTAAAAGTAATA
AAAGGTTTATGTCATTGTATCTTCCAAATGTTATAACCAGAATGCTCCAGAGAGCTCCTTTTTATAATACTTAAGATAAACAATGCCTTTTGACCAGGAT
CAAGTAAAATTAGGTAATTGTACCTTCTTTACTCATTGTTTCACATAACTCTTCCATTTTTCTTTATCTGAGCTCTTTGGCATTGCTGAATTTTCTCCTC
TGGTTTTCATGAATCTTTCGGTAAAGAAAGTCATTTTGTGTGTGTGTTATATTTTTACACAAAGGAATAAAATAATTTTTGATAAAGCCTGGTAAAGTTT
TATAAGCAACTAGAGCAAAGAAAGTGGAGTTAAAGTAAGCTGATTTCAAAATCCACTTAATTTTTAAAAATATTTTGATAATTAAGACACTATTTAAAGA
ACACAAAGTATCCTAATTTTTATTATATAATGTGTGACATTAATATATTGCCAAGGAATTATTGTGTTATTTTTGTTGCTTGTAATTCAACCTTTTTTAC
CTAGTTAAAAAAAATTAGTTTAGGAAGTGTCAAGCAGCTGATACATGAATTGTCTGAAGGTTGAGAATGTTATCCAAAGGTTAAAGCAGTAGAACAGTAT
TAATTTTTCTTTGAGCTGGCATAATGAGTTGATGAGTTGACCTTTAGTTGGCCTATGTAGAATAGAAGAAATAAATATAATAAATTTCATAGTATGACTT
TAACAGAGAAATAAAATATGAATGTTTACCATTGCCTCAGTATTGGTTGTAGGCTTTTCTTTGTCATTCTTAGACAAATTTTTGTGACTGTATGTTTCAT
TCATTTGGTTGGCATTTATTGAATGCCTTCAAGATACAGAGTTCTTTTGTCTGCAGTATGTACTTGTATGTAACACCACCTGGATGACACTATTATCAAT
AGATTGTAGGGTTAAGGAATATAATATGTCTAAATTAGTCCTCCAAAAACATTTTAAGAATGCAACAGAAAACAAATACTGTATTTTAGTGTTTTAGTAA
AATAAGGGAGGTAAGCTATTTGTTTTATTTATTTTTAAGAACGTATACACATTAAGGAGTCCGCAGTTTTCTTATTTGCCACCAATCTGGTTTTGTCTGT
AATGTGCAATGACTTTTTTTTCTGGATTTCACTCTGTGTTTGGCATGAAACTGTATTCCTTACAAGAATATTAGGAATAATATTCCATTTTCCCCAAAGA
GACCCAGTATATAAGAGGGTTTTTTTTAAGACACAAAGAATAGGTTAAGCTCTCTTTACTATATTCAGTGGCTTTATGTTAGTGGTTGACAAATTTGAGT
TCAGCTAAGATTTTACCAGTTACTGTACAACTGTTACATCAAAGTAAATGGCATCCTATATGATTTCAYGTGTTGATATTAATGTTGTGGCGTAACAGAG
CCAGTGTTTTTCAGCCACTTCTACATAGCCATCTCAAATATATAGGAGCAAATCTAGAAATGGTGTCCAAACAGAGACACCTAATTGGGTAAGCTTTCCC
AGTTTAGTCGGCTCCAAGTATTATAAAAATCCATTATTTGAATGAGTTTATGCTGATCATTTTGCTCCTGAAGCATCCATATAATAAAACATGCCATTGA
TCATGGACTGTCCCCCAGAATTAGTATGGCACTAAGCTCACAGTTAATTATCTTAAGACTGAAGACAGTATCAAACAGTGTCAAAGAGTGCTATCAACAA
GGCATCTTGAGAGCTGTCACTTTGTCAAATGACATGCAAAGATACATGATGAAGGGAGATCTAAATCATGAAAGCCATCAAGTTTTGGAGATGACGGAAT
TTGCTACTAATGTGTCAGATAAAAACAAGACCAAACCCCAAAATAGTTATGGCACAGAAGGCATTAAGAATTCACTCAAGAATAGCCTGGAGCAGCGTGT
GACTGACAAAGCTCTAAACTGTTGACAGCACATAGCTTTATGAGAAATGAAAAAAACATATGTATCATTATAGTTATTTACCCTACAGTAAAGCCTGTTT
GCTAGAGATTTAGGGAGCAAGTCTTCTAGTATTTGARTGGCATCCTGGAAAATGTTAGGTTTGTAAACAAATGAAATTCAAACTAGAATCAGCAAACTAA
CATACATACCACTGAGCAAATAGCATTTTAATTATTACTTTTTTTATTTTTAACATACTTCCTTTGCCTAACAAATAGCATTTTAAAATCAGCATTGAAC
AAATACTCTCTTGTAATGCTTACTCCTCATTGAGCCTATGAGATATAAACATAATACTTAATAAATGAAGCTTATTGAATTATTATTTTATCCCGACTGT
ACCATCATCTCTGTCGTGGTTAGCATTCAATGGCAAATCATACTTACCAAGAAGCCCTAGAATAGTCACAGTCTATTGAATTAGAAGTGTGCTTGCTAAA
ATATAACTACGTGTGATAGGATGTATAGAGAATAGATAAAGCTAAATATAAAGTGATTGTATGGTATAGCTGCAATTATACAGAATACTTTGAGCAAAGT
AGAAATCAAAAATGGACAGTTTCTATATATAAACAAATATATACATATTTATTTAAGATCCCCTCAATTATTCTAAGATATAGCTAAACTTTCAAATCAT
AAGCAGAATAAAATTTTGTTCTTGTTTGCCTTAAGTTTTGTCATTGTTAACTGAAAAAAAATACTGTATTGTATATTGGTATAGTTATTTCCTATACTTG
GTTAGTTGATAGATGAAGCTTCTGAAATTCCAAATCTATCAAATGTCATTTTATTTTTTGTTTTATAAAGATAATCTAATCTGCCACAAATTTTTTTGAG
TATTTAATGCAATTAGACTTAACATTTTGGTTTCAATGTGAGATCTCTTAATTAATTTCTGAGTGCATCTTAATTTCTTCTTCCAACTTGATTTACATTT
TTTAATTTAGGATTTTTTTCATTGAAAATTTTGGACATTGTTTAAAATTTACTTTTTATATCTAGAATAAACATGCCATAGTTTTAAGTACATAACCTCT
TATGAACTCCCAAAGTCCATTACAGGTATGCGAAACAAGAACACATTTATTTCCTTCTCATTTTCAGTACCTATAGAGATAATATTAGAAAACATGACAT
TTCTCAGGAAGATATGTATTTCTGAAACAAATGGGTATAATGYGTTCATTGGTGTATGCGCAGAATTAATTTGTGAAAAAGAAAACCTTGAAACAGAATA
GTTAGGTTACTTTGTAATTTGCTTTAATATTCTTAGTTTGAAATTTTTAAGCCATCATTACATTTCACAGTTTCAACCAAGCTACAAACATTACCTAAAT
TTTCAGTGTTTAGTTTRCCTCTTTTTCACATCCTCTGTGTTTTCATGTCTAAATTATCTTATTTCYTAGACTCTCTTGAGCCTGAGGGATCCATTACAGT
TTCAATGGGTATTGACTTTTGTGATTCTACTCAGACTGCYAGTTTCCAGTTGTGGTAAGTTCAATTGTTCTTCTATTTTTTATATAACCTGTAAAGGATA
GCAGATCAAAAACTAAGCTTTCAACAGCTTTTGTGTGTGTGTGAAAGACAAAACATTTAAACAAATATGTTTTGCTTTGATAATGTTTAGACTGCCTTGG
AATAGTTGTACAAATTGTGTGTAGTATATGTATTTTTAGCATTCGTTACACACCTAGCCATTACAACCTGCCATATGTGATTGAAATCCATGGTTTGTTG
GTTAAAGAAAGAAGCTACTACTAAGTAATTTTTAACTTATCACTCCAGTTTTAGAAAATTTATGAGAAAATTCATGAGGAAAATCCAGGAGAAATTAAAA
GCATTAATAATATTATTAAATAGCTCAGAGAAGATATCTTTTGAGATATACATACATGTTATCTTGAGATTCTTAAGTGGAATATTATTGATGCCATCAG
TACCTAAAACTCACACATTTTTTTTTTCCTTTTTACATCCATTTACAAACTGCTTTGATAAAAGTCAAAAGAGAACATTTATGCAGTTGGCAAAGGTTTC
ATAGCTGAATGCTGTTCAGAAGAGCTTTTTTAGGATTGGATTTTGTTGTTAATGTTTTTCTATAATGCTTTATACATTTCTTGTGAAATTCAGAGGCTAT
TAGCAAATTAGAACAAAGCCGTATTCATGCATCATTGAGAATTATCTTTGAACTCTTTTCTTTTTCTGATATAAGGCCCAATTGGCTATTTTGAGTTGAA
GTTTCTTTGTTTTTATTCTAAAAAGAATTGAGACATTTTACCTACATTTTAGCTAGCTTAGAACAGAATTTGTTATGATTTAAAAGTCTTGAAGTTTTAG
AAATAGACATTTTAAAATAAATGTATAGATTAAACATAGTGAACTTTTCATTTTCATATACCTTTTCAGTTTACCAGTAATTCTGGCCTAATGTTATACC
TTTTATTGCCGAGAACCTGCAATGATAAATATAAGCAATGTAGCATAACACATTGATTTTATGCAGATCATCACCTTTATGTTTTGGGAGGTCTGCTGTA
TTAGTGATATATAAAAACTGATTACTTTTCCCAACATTGCCTAGTAATTGTTTATTATTTTTCTATTAGACAAACAACACAGATCAATATTACTGAACAA
CAGGCTATGAGTAACATCACTCTAAATAGATTTGCCTCTGACACCAGAGGTATATTCATTTTAATGATTTGGACAATGTGAACCCAATGACAAAGCTCAC
GTACCAAGTTAGACCAAAATTAAGAACTAAAAAAGATTCCTTTTTCTTATCAATTTGTATAAAGAACCTTTTGATTCCTATGTAATTGGATTTTTTTCCC
CAATTTTATTTACAAAGACTTCCTTTATAGTCTCTTGAACAGGATTTGCATTTTGTCTTTCATAATTAACTAAGTCTCTTTAAGGATGGATATATATGCA
GGTAGTATTTGATTTTTATCTTATGCCAAGGAGTGTATGTGAATAATATTTTTTCTAAATTTCTTTCAAACTAACATTAGGAAAATAATTCATGTATTTC
ACATAGAAAATGTTCTTGACTATTAAAAGCATTTACATTAGTATGTTTTGTTATTATAAAGATACAAATTATTTATTTTAGATTTTGTTAAGCACAACAG
CATGCTAGATCAAAAATTTTGTGTGTGTGTTCCAAAAAGAGCACTTTGTCTTGCATCAAATGTAATTGATCCTGAAGCAGTGTAATCACAATTACTCACT
TTCTTGATTGGCCTGCCCAAAATCAGAAAATGGAAACCGATCGACAGTGTTTAAATCAATAGCTTCATAGTAATGCTTGTGGGGGTAGGGAGATAGTGGT
AATGGGTAGATCAATTGGTCTTAGATGCCAATCACTGACTGTGCCTTTTGCATAGTAAATAGCACTTTTTGCTTAGTGATGTGCTGTATTAGTCTTGGTA
GTTCAATAAAAAGAAAAAAAGAAACAAGAATGGCTGATATTGAATTTTTTCCTTGAAATACATTATACAAATCGATACATAAAATTATGGGTAATAACAG
CAYATTTGATAAGAAGCCTTCAGAAATGCTGGGAACATGGACCAAAAGCCTGTCAGATACTCTTTTATTAGTTAGAATAAAAAGAATAGAGTAAAATGAT
CCTACTTTAGCTTCTGGATTAATTCTATATCATTATAATTGTATCTATGGATAAATAGATATAGACAGAACTGTTAAATTAAGCCATGTAGTTATATGTA
TATCTGATAAGCATTTTTGCCTCTTTTTTGCTTGGATTTTAAATGGTCATCAAATTAAGTTCTTGATTAAATTTATTGAGATCAAATATGTGCGCAATAT
ACATAAATATATCTGTCTAAAAGTTAGTGCAGTACATAAACAGATCCTCATCCCCCACAGGCATGCATGCATTAACCAGTGTGGGAAGTCACACAGCTTA
GTGCTAGTTAGAGAACTGAGCACATGTTTTTGTCCAAAGATCCATTAAAAAGAAAATACATTCTTTAATAGTGAATGAACACTGAAAATATAAGAACAGA
TGCCATTAGCTGACCAGAAATTATGAGGCATTATTGACAGAAAACAAATAGGAGCAGATAAACAATAACAGAGAAAATAAAAATCACAGGGTAAAACACT
CGTGGGGGAAAACTACCATAATGGTAAGAACCAATCTGGCAGAACATCAAGCACAGCATGAGTAGGGGTCTTAAGACAGTCATCAGGGAATTAACTGCTT
CCAGCCCCTTAGTTCCCCAATCTTACCCCTGACAGCAGGCAACATACACATTTAATTTGAGACTTAAGAATAAAACTGTAAAGAGAATGAGCCACTTGCC
TGGGAAAGACGTTTTGGTGTGGATGTGGGGACCTACAAGAACAGAGCAGGGTTTGAGTTTGTGTGAAGGAAGCAAGGATGGTCAGAGATGAGATGAAATA
TAGTTTTATCCAAGAGAGTATCCAAAATATTCTCAGATCCTCACCACCAGGGTAAAGCCAGTGTCACGTTTGCTGGTGGGGAGGAAAGGCCATTTCCTAC
CTGCCTGCCTCCAACTTCATGTCCACATAACCAGTTAGTATCTCGTCCACTTATAAAAAATAAAACTTTAGTCAGCCCACCCAGGGGAGAGGAGACCCAT
AGTAATGATAGTTGCTAACTCAGTAGGTGAATAATGGAATGGACACAGCTGAATACTGATCGAGTGTTCTGGAAGAAAGGGTCAAGGAAATCAACTAGAA
TACAAAGCAAAAAGGCAGAGACAGAAAATAAGGAAAGTTAGAAGGATCAGTTCATCTCATAGGAGCTCTGGCAGGAAAGAAAAGACAATGAAGGGAAGAA
ATAATTTAGAAAATAAATTATAGAGGAACATTTTCTGCTGGATGTGGTGGCTTACATCCATAACCCTAGCACGTTGGGAGGCCAAAGCGGGAGAATTGTT
TGAGCCCAGGAGTTTCAAGACCAGCCTGGGTAACATAGCAAGACCTTGTCTCTACCAAAAATCAAAAAGGGTTAGCCAGGTATGGTGGCACACACTTGTC
ATCCTAGCCACTTGGGAGACTGAAGTGGGAGGATCACTGGAACCCAGGAGTTCAAGGCTCCAGTGAGCTATGATTGCACCACTACACTCCAGCCTAGGCG
ACAGAGTGTATCCCTGCCCGTAATGAGTGAATGAATGAACATGTGCCCCAACAAAAGAAACACGCAAGCCTTCAGATTAAGAGGGCCAAACAGGGTGAAT
ATGAAAAACTATGAAAAAGATCACGTCCTGGTGAATTTTTGATAAGGAGAAGAATATCCTATTATCTTCCAAAGCAGAGAAAAAAGCAGTTTACCTAAAA
ATGGACAAGAATGAGAATGGAATCAAATTTCACATCAGTACTCTTATCAGTTCTGGAAGCCAGAAGGTAAAGGAAATGACCTTTAAAATTTTGAAGATAC
CAAATAGTCATTTTTCAGCGAAGGATTCAATCAGTTTACCACCTGCACATCTTTTCTGAAAGGATTACTCAAAGATATGCTGTAATAGAATATTTTCTTA
AATCTGAGACAGAACCAGGCATGGTGATGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCGGGAGGATAGCTTGAGCCCAGGAATTAGAGGCTGC
AGTGCGCGATGATTGCACCTGTGAATAGCCGCTGCTTTCCAGCCTGGGTAACATAGTGAGACCTTACCTCAAAAAAAAATCAGAGACAGAGAAAAACATA
GAATTAATAAAACAGTAGTGAGCAAAGCATTCTACGAAATTTATCAACGTATAAAAATAATTGTTGAYATAATGTGAAAAATAAATATTAACAATAAATT
GGAACCAAAATCCCCACAGAGACAAGTGCAAGGAGGAGTGATGGTATACTAGGGTTCTTGTTATGTCTGAGAAGAGAATTGATCGATGGCAAAAATTAGT
TTAAATATTGTTTAAATTATTAAAGATAACCACTAAAATAATAGAAATGTGATGTATTATAACTTCTAAACAGCTAAAGGTAGGAAGAAAGGGAGTAATT
AAAACCTGATCAGAGCTGCGTGTGGTGGCTTATACCTGTTATCCCAGCTCTTTGGAAGGCCAAGGTGGGAGGATCCCTCGAGGCCAGGAGTTCAAGACCA
GCCTGGCCAGCATAGCGAGAACTTGTCTCTATTCAAAAAAATAATAATAATTTAAAATAAATGTTTAAAACTTGGTCAGTTTAACCAAGAGGAAGAGGAA
AAAGCATGGCAAATATAAAACAAAAAAAGGTGGCTGGAGAGGCCATGCACACCACACATACTAGTTTTCACAATTCACGTCAGAGATTAAATCCTRCTTT
TACTAAACAGGTAAAAAACAAAATTTAACATATGCTATTTATGAGAAACCTCCCTAAGAGAGAATGGCACAGAAAAGTTGAGATTAGATAGATGAAGTGT
GTGTGTGTGAGCGTGTGTGTGTGTGTGTATGCATTTATCAGATAGATGTGCTAAAACTAGAAAAATTAAGAAGTATTTTAGGTAAAAAGTAATAATAAAA
TATTTTGTGTTCATTGTAATCCTCCAAGAAAATACAATTGTTACAAACCATTAAACCATGCACTTTTGTAATTTATAAAGCAGAAAACAATACAAATACT
AGGAGAAATTGTCAAAGCCATAATCATAGTATATTTTAACATGCACATCAGAAATGGACAAATCAGAGAGTAAGGTTAAATAGGTATAGATACATACAGG
TTTAATGATTTAATTAACAAGCTTGATCTAAGATATATATGTTTACATAGAATTCCTTGTTTCCTGTGTACAGAAAATACTCATTTTTTAAAAGAACATA
TAGGATGTACAAAAAAAAGGAAAACTATGGGATAATATGATTAAAGAAAAAAGACAACGAAGAAAGATTAGAGAGGAGAAAGATGACAAAGCACAGAGAT
CTTTTAAGTTACAAAATAATACCATACAGTTCTACACCAGTAAATTGGAGTAGTTAGATGAAATTATTTCCTAGAAAAATATAAATTAGGAATAAAAACG
ATTAAATTGTATCAGAACCTTAAAAAAGAGAATTTTTCTAGAACAAAAGAAACGGAAATCATGCCATGTCATTCTGTAAGTCTAACATCACCCTGATTTT
AAAGCCCAAAAGGATAACCTATGAAGATGGACATCAGTTGTAGTTATAAATTCAAATGACTTCTGGCCCGTACAGGTTACCCATAGCCACATGAAATATC
AGAAACAATCTCTTTTAAGTCAGAAAAGCAAAACAAGGATGTCTGCTCACCACACTATATTCCACATTATAATGGAAGTTCCAGCCAATACAGAAAGGCA
AGTAAACGCCATTTGCAGTATAAATCCTGGAAAAGAAGAGACAAAATTATAATTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCGCTC
TCAGCTCACTGCAACCTCCGCCTCCTTGGWTCAAGCGATTCTCTTGCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACGCACCACCATGCCCGA
CTAATTGTAGTATTTTCAGTAGAGACAGGGTTTCACCATATTGGCCAGGCTAGTCTCAAACTCCTGACCTTGCGATCCGCCCACCTCAGCCTCCCAAAGT
GCTATAATCCCATTACAGGCGTGAGCCACAGCACCCAGCCAAAATTATAATTTTTATTCAATTTAATTATTTTCTTTTTTTTTGTTGTTTTGAGACAGAG
TCTTACTCTGTCGCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGACTGTCCTTCCTTAGCTTCCCAAG
TAGCTTGGATTACAGGCACGCGCCACCAGGCCCAGCTAATTTTTGTATATTTAGTGGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCT
GACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGCCACTGTTCCTGGCCTATTCAACATAATTATTAACCCATAAAG
TTGGAATCAACAGAAAATCTATTATTTAAACTAATGAGTTTAGAAAGGTGGTACAAATACTTATGTAGAGAGAAAAAAACCTGGAACTTTCCTAAAGGGC
ATAAAGGAAGATATAATTAAATATAAAGAAATATAAGCAAAATAAAAAATAAATATACTGTGTTTTTAAATGGGAGACAGTATTGCACCTCAAATTAATC
TTCAAATTCAATGTGATTCTAGGCTAAATGCCAGTCGACTTTTTCAAGAAACTTGACAAACTTCTAACATTCAGCTGGAAAAAAAAATGCACAAGAAAAG
TCAACATTTTTAGTGAAAAAAGTCTTTCTCTATAATAATTTAAAAATATTCCTTAAAGCCACAAGAATATTTTTATTCTGTRTAATTGATATTGACACAA
GAACCAATGAAACCAGAGAATTTAGAAATGTAGAAATTTTGTATGTCATAAAGGTGACATTTCAAATCCGTGGGGAAAGAAYAGACCATGCAGTAAATGG
TGTGAGGACCATTATTTGGAAAAAATCAAGGTAGCTTCCTCCCACAAATTATACCAAAACAAGTTCCATGTGGATTTATTATTTAATTATAAAAAACTAT
AAAAGTATTTAAATATAGTATAGATAAATATTTTCATACTCTGAGGACAAAAGTCTTAAGCAAGACACAGTACTCAGAAAGATATAAAGGAAAATAACTA
ACAGGTTCTTCTATTAAAAATTTAAAACTTCTCTACAAGTAAAGAAAAAGTAGACACCATAAACAAGATAATGAGAAAGCAGTGCAGCTTATTTGGCAGA
AAAAAGTTTAAAAACCAGAACGTGTAGCTCTCACAATCAATGAAAAGGGAATCCAGTAGAAAGGTAAGGAAAAGGCTAAGAATAGGCAATTTACAAGAAA
ATAAATGCAAGTGGCCAACTTGCATTTGAAAAAGATGTTCAACATCACTAATATTTAGGGAAATAAAAATTAAAACATTTTACCCATCAGATAGGCAAAG
TTTTAGAATAACTTTTGTGTCTGGTATTGACCAGGAAGGTAGAGAAAAACATGTACTCTTGTATGCTGTTTGTGGGATCTTAAATTGGCAATATCTGTAA
AATATTCATACTTTTCAATTCAGCAATTTCACTTWTAGTGTATCAAGCCTAGAGAAGTATTTGTGCTTGTACGGAAATAGATCTAGCCAAGTATAAGCRT
TGTTTATAATGGAGAAAAATTGGAAATGATAATCTGTGGGGGAATAATGAAATAATGATATATCCCTATTACATATGTAGGTTTTGAGTACTTCCTGTGC
ATTATTTCATTTTATTTCCTTTAATAGTTAAAACTAGCCTGCAAGGTAAATGTCACTCATTCATAGATGAGAAACTTGAGTCTCAGAATAGGCTGCTTGC
CCGTTTCTCTTACCTACAAACTTTACCAGTTTGGATCCTATAAAGGAATCCGTGAACTGAGGTTACATGTACTACAAGAATATATGCTACAGTTAAATGT
GTACCAAGTAGAATCTTGCCTTACATTAAACTTTTATGCCATCTGGTCCTATGTAGCTCGGCTATTTAAAGCTACCCTAATAATAGTGCTTCATTGATCT
GGTAACTGTTAATTCTGATAAATTTACATCTATCATCAGTCATTTTCACATTCCCTATCCAAGTTGAGGCAGTTATGTGTAGAAATGGAGATAATCTGTC
TCTCCCCTGTTTAATCAAAGGGGTTGTGAAGAAAAAAGGAAAAGAAAAGCTACATGGAGAGAGAAATAAATCAAAAAGAAGGCAAAATGGTAGAAAAGGA
GATGCTTATAAACTGGAGGACATCCTAGAACACTCATGTAAATGAAAGTAAATTTTCCCCCAAATAAAGAGGAAATGTTCCATCTTAGTTCTATTATAAG
CCACGCCTTGCTTACAAGATGAAACTGGCTTACAAAGTGAGTTATGTACTGGTTATATTGGATTTTGTATTTGGTTGTGTGTAACAGAAACCCAACTGCA
GTGGCATGACCAAATAAGGATTTATTATCCTCCTAGAACAAGAACTGCAGGGGTTGGCAGTTCAGAGCTGGTGCAGTAGCTTCCCACTGTCTTCAGGACA
GTAAGGTCTTCCACCTTTTTGTTTCATGTGCTAATTTTGTTAGCAAATGCTGGTCAACTTCGTGATCACAAGATGGCTGCTCCACCTCCAGGCTTCCATC
TGCATTCCAGACAGAAAAAAGGAAAGAAATGACATGGAGAAAGGGGCCAGGTTTATGTCAGAAAAGCAAAACTTTCTCAGAAATATCTACTGAAGTTCTG
TTTATAATTCATTGGTCATAACTGGGTCACTTGATCACTCTTAGCTACAAGAGAGGCCGAAAAATATGTTTCAGTTGGGCTCTCTAACGCCTTGCTTGTT
GCGAGGAGGGACATTTCAGGATCGCTTTCCCTACCCCCTGCAAGCAGCTAGACATTCATAGATGCCTTAGAAGGCAGATCTCCTGCCTCTTCTCTCTCTG
AACACCCCACCCTTCTCCCTTGGCATCATTGCTGTCAAGCCACTTTTAATCGAGGAGTATGTGGTGTCCTTCAGGAGTGTTGGGAAGAAGAGTTTCTATT
AAAAAGAATAAACAAGTAATTCAAAAGTGTTGTAAATAATGATGTAACTCAGTGGTYCCCTAACTTTTGAAATTGTTTACCTCTATTAGTAAAAATATTT
TGAGTATGTACTCTGTAGAAGTTTATTTGTAATTATATATGTGTGTGTATATATATGTATGTGTCTGTATTTCTTACTGTGCTAACATGTATTTTTACTA
AAACATACAAAAATAGAGGCCAGGCACAGTGGCTCATGCCTATAATCCCACAACTTTGGGAGGCCAAGGCAGGAGGATCACTTGAGGCCAGGAGTTCAAG
ATCAGCCTGGGCAACATAGTAAGACTCTGTCTTTACAAAAAAAAAAAAAAAAGGCCAGGCGCAGTGACTCACACCTGTAATCCCAGCACTTTAGGAGGCC
AAGGCGGGTAGATAACTTGAGGTCAGGAGTTCGAGACTAGCCTGGCCAACATGGTGAAACCTCGTCTCTACTAAAATACAAAAATTAGCCCGGCATGTGG
CATGCACCTGTAATCCCGGCTACTAGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAAGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACT
CCAGCCTGGGCRACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAATTAAATTAGCTAGGCATGGTGGCATGTGCCTGTAGTCCCAGCTAT
TTGGGAGGCTGAGATAGGAGCATCACTTGAGCCCAGGAGGTCGAGGCTGCAATGAGCTGTCATCACACCACTGCACTCCAGCCTGGGTGACAGAGCTGAG
ACCCTGTCTCCCAGAAAAACAGAACCTTAAAAGGAATGAGAAAAAATAAATATAATTAATAGGGTTTTTGCCTATACCTCAGTTGATTGTCTTGTGCCTC
TGACTTTGGAGAACTTTGTATACAGTGACTTGAAGCTGAAATTTTAAATTTCATACTGAGTTCATTTGTAATTTATATATATATATTCCATGTATGTATA
CATACATCTTCTTCTAGTCCTTCACCAGTGTTTACATGTTTCTCTTAATGTGACTGTGTCTTCCCCTCCATCAGGTTTGGTCTCATTCTTCGAGTAGCCT
ACCCTCAATCCTTTCTCTCTTAAGCACTCCTTTTCGGCTGTTTCCAAAGAAGTATCCTACTCCTTTCTAGAGCTAACCCGCTCACCTCATTCTTGTGCTC
TTCATCCCAACCTCTTTTACCTCTCCTAAGACCTTGCTCTACCAGTTATTTCTTTGTTTCTTCTTCTTTACTGGCTCTTTCCCCTCAGCCTCTAAGCATG
CTCAGGTTTCTTTAGGTGTTATTCCTTTGCTTCTTCATTCTCAGGAAGCTTCTGCTTTCTGTTCCTTCTTCCATTGCCAATCYTCCCTTCACCCTTCAAC
TCACTGCATTGTGTAGTCTTCCTGCAATCTGAACAGCCTTGCTAAGATTAACAGTTATACTTCTTTTTATCCCTTATCTTATTCTGCCTCCCTGCAGTAT
TTGGCACACRCCTTTTTTCCTGACCACTCTTCCTCCAGTCTCTTCTGCAAGTTGCTTTTCTTCTGTTTTTACTTAAATACAGGTCTTCACCAGATTTGCG
CTTTATCCTTTTTGTGGTATCCTCTTTTCCTATATGATTTTTATCTACTCATAAGGCTTCAGCTCTTCCCTACACCATTTACACCATTCTTACTGCTTCC
AGACTCCTACATACTGCCCTGTCCTCTCTCCTGATTCCCTTTCTTTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTGATGGGGTCTCACTCTATCACCT
AGGCTGGAGTGCAGTAGCGTGATCATAGTTCACTATAGTCTCAAACTCCTGGGCTTAAGCAATCCTCCCAGCTCACGCTCCCAAGTAGCTAGGACTATAA
GCACCTGTCACTATGCCCAGCTAGTCTCTCTCCAGATTCTTGATTTGTATTTCCAATTATCTGCTGAATATCTCTTCCTGGGTAACTCAGTACTCAAAAT
ATAATGTGGCTAAAGCCAAATCTTTTTCTTTAAGTCCCTAAACTCCTTCAGCACACTGTCATTCACCCAGTTGTTCACATTAGAAGGTGTGAAGTTTCTT
CCCTCCATTCATCACCAGGTGTGTCCCTTCTGTTCTAGAATATCCATAAAATATTCCATCTTCCCCTTGCCCAGTGCTACCCACCCTGGGGAAGCTGTAT
ATTATAGTGGAATAAATGTGGACTTTGAAGTTAGATACACCTGGGTTCAAATCCCAGTGCTGTCAGTTACTAGCTGTGTGACCTTGGGCATATTGTTCAA
CTTCTTTTCAGTTTTCTCATCAGTAAATTTGAAATAACAGAAGCTGTCTCTTAAGATCCTTTTTAGGCTTTATTTAAGTAAAAAACACACAGTAAATSCT
TAAAAAAAATCAAAATCCTGCCTAGACTATTAATTTAGACTCCTAACTGATGTATCTGCCTTTGATTTCTCCCTTACTCCACCTTACATACTGCCACTGG
AGTTTCTAAAACATAAATGGGACCATTTACCTTCCTATGCCAAAAATCTCTAGTAGTTTCCCATTGCTTCAAGAAACACTGAAACACCTTTGTCTTAGTT
ATATAAGTAAAGTAACCATATGCTTTATCACACATATCAGGACACTTTAGAGAGTGAAAGGAGGCACCAGCTGGACAGGATTCCACAACAACAGCCATAA
ACTGGGACTATTCCTGGGAGGACTGGGATGAATGGTCATACTATATATGATACTCTGCAATGTTCCCCCAACCTCTTCTGTTGACATATTAGGCTGCTCA
TCATTCCCAAAGTACAGGCCTAGAATGCCCTCTTTCTCCTCTTGGAAGTAAACTTAGCCTTCATTCCTGCAGAATGCTTTCCACATACCTAAGGTAGTGC
CTGCCATTCCATTATAAGTGTAATTTCTTTCCCTCCCGCTAGACTTGTGAGCTTCAAGGGCCAATCTCACTTGGCTTTAAATCCCCAGATATTCACACAC
TACATAGGATCAAGGTTGTATTCAGTGTTTATTGAATTGATAAATAAATTGKATTTATTGGTTTGCCTTCAACAATCCACATATGGAAAAAATATAAGGC
CACTTACAAGAATACAATACATAATAGCATAAAATAAAAGTCGATTTTATGTTCTTTTTTTATATTATGTCATTTGTCTGTACCCACACATGAATAAATT
CAAGTGTTTCTTAACCTAATGTTTAGTATTTCTTATCCACAATCCCTGTTTCTCTAGCTACCATCTCACAGGCTGTGGGATCCAGTTCTAACATGAAGGT
AGAAGTCCCTCTATGGGACTTCCTGAAAGCTTTTGCTTTTGTAATAAAAAGGAACAGATTTGGTTGACATAGTTACTCAACACTCTCTCATCACCACCCT
TCCTTCAATGGAATGTAAACTAGGTACCTGGAGATACAGCAGCCATGTGGCAACCATGAGGATGAAAGCCAACATAGTAAGGATGGCAGAGGGAAAGCTA
GAGGAATCTGGGCCTCTAAAGGGTTTTTTAAGCCACTGAATGAGCCTGTGACTGGTAACTCTAAGACTTCTTGTATTATAAACGATCAATGCCTTTTTCT
CAAAAAACTGTTAGTCGGATTTTCTGCTTATTTGCCATCAAACACACTACTATCATTTAGGATACACTCATCAACCTACCCCTAAACATCTAACTTTAAA
AAATTTTTTAGACAATTTTAGTATTTTTTATTGATCATAATATCATGAGACTTAGGTAAATGCACTTATTGTTTTTCTATCTGATATTAGAACAAACAAG
GTTGGCTTTCTTAAATTCTTCATATCCTGTCATTTGAAATAATAACTTTTACCATGTTGGTCAATAATGTCAATGAATAGCACTGCTAGCAAATAAGGGC
TTTTTTTTTATTTTAGGAAAGCAAGTTTGCAGATGAGATATTACTTTATTAGCACCTATCTAAACACAATATGGTCACTCTATTTTCTTCTTCATTTAAA
ACTAATATTTTTAAAAAGATATCTTAACTGTTTCAGACTAAAGCATTTCATCTTCTATACTTTAAGATGTATGCAAACTAGAGATAAAATATTACTTCTC
TATAAGCTGCATGAAGTGTTTCTCTTGGTGGTAGTGGTTATATACAATTACTGCAATTTTTTAAAGTTCTTTTTCAAATGGGATAATTTACTATACCTGT
GTAGTTTTGTTTTTTAAAAAATCTTGATTGAGATAACAGATGTATTTTTCTGCAAGTAATGTTGTTTGTTTGGGAAAATGTTTAAACCTTTTTAGCTGTG
ATGTTTAAACCAAAAAGGTCTTATACTGTATATGCTAGCATAGGCTTTCATTGCATTGATTTAACTACTTAGTATTAAGAATGTTTATTTATGAAGCATT
TAGTCAGCTTTGATTGTTTTTCTTCAGTACCAAGGATGATTGCTTCAATGTTAATATTCAGCCACCTGTTGGAGAACTGCTTTTACCTGTGGCCATGTCA
GAGAAAGATTTTAAGAAAGAGCAAGGTGAGAGATGTCTACAACTTACTAGAAATTTACATACCAAATAATATGTGCTTATTCCTGTACAGTCTCTAAAAT
AAATTTTCATAGGTACATAGCCATTAACAGATATTAGTGCACAATCTTCCAATTTTTGTTAATGCTTTGCACTTACAACCTTAAAAACAGATGTTTGTCT
ATATTCCTGGCATACTTGAAAATTGATTAATATGTCTTTAAATGATACATTAATTCTTAATCACCTTTTCAATGCTGAGAGTTGTTGCTTGTCAACCTGA
TGATATACTAATGGGTTTTGTATTATTCAAAGTGCCAGGAATTGGGGACTTTACCGATGTCCTACCACTATAATTGTTATGTTTCTGTATTTTTTCACTA
TAGAACTGTTTTTTTATGTCTTACTAATGTATTTGTCCCTGCACACATTAAACTACCTTATCCTTCAAAATAAACTCCTAATTATGGCATTAAAATACTT
CTAGTTTCTTTTGACCTAATTCTATATTAAAGAAATGCTGTGTTGTCAGAACCTATTAGAACTGAAACATTTTTAAAATAAGTACTTAAAAAGAAAATAT
TTTCAGCAAAATGCAAGTATTAATATCTGTAGTTGGCCCAGAGTCAAACATACCTTCTAATAAAAACGAGGTGGTTTTTTTTCGTATGTGAATAAGGGGA
GATAACTGTCTGATTTTATGTGTTTAATTAACGATAACATTTATAAAATTAAGGCATATTTAAATGCTATAGTCAGCAGTTTTTACAACTTTATGTGAAT
CTAAGCCATTTTTTCCTGTGGAGGGTGTTATCAAAGATCCCTTCATTTTGAGGTAGTAAATCATACCCATCAAACTTCCAGAACGTACTAGGCACACACA
AATACCTACACCTAAGAAGAGGGGCACGCTTCCTGGCACTCTGCTATTGTGCTGAAGATACTGTTTTTACTCTAAGCCTTTGCAATTCACAATGTCAAAA
AGAAAATCTCATACAAGTCCATAAATTAATAGTAATATTTTTGCTGGGCATTATTTAAGCAATAAAAAAGAACGATGAAATCTTTCTTTGGATTTGCATT
TCTTGGAAAGTTGATTATTGCTATAGAGGAAAATTATCTTTGTGATTTTATTTTTCTATTGACAAATTGAATTGATTCTTATATTTGCTATTCTTACCCT
TTGCTGGCTAAAGCCTGCCTCTCTGCTTTACATCTGCTCAGCAAACCAAGGTGAGTGGCACACGGTGACTGAATAAGGCTTTGGCACATTTATTGTTAAG
GGGATATTCTTTTTTTGAAAAGTGCAGCTAAAGTATATCTGAAGCAGCAGATTATTATATACCCTTTCACTCCCTCAGCTTTTGGTTAGAATACTTAATA
TTTCGATCAAATTTTTTGTGCTCTGCTGTGACTGAGGGATTTTTCGCTGACTAGCCATACAGAACCTTAAGTGCATGAGAGAGGTGCACTTGGAGAATAG
CTGTGGTCCTCTGTGGAGTTGTTGCCAAAATTCCTTTTTCTTCTGCCATTTTACTTCTATGGTTGTTGATTATTTGTCTGAATAAATCTGGCAGCTGTTT
GCTATGTTTAATAGAGCAGAAAGGCTACTCTGAATAAAGCTATTTGAAAATTTGTTTATATGAAGTATTTGTAAATCCTTGCAAGTCTCTTGGCATTTCT
GTATCATTCTTTCTGTCTTCCTGAATTCATTCTTTGATGTGGAACTTGATGCTGGCAAATTTAGCACAGGTTTAAAGAGTCTTTTCAATAGCATCTTTTT
AGTTATAGATTTCAGCAGGTTTGGTAATAGAGGTCTCAATCCTCAACTTTACACATGTATTTGTTATACTACTCTAGTAAGAGCTTAGCTTATTTCCACA
AAAGATACCTAGAAATCTCTCACTAACGGAAAAGCCTAAATCAGAATAAAAATCYGTTTCCTCAGATTTTATCAATGCAAAATTCTGGAAGGTAAAATGC
AAGTAAATTTAAGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGKGTTACACCAGCTTTAACCGATTTTTCTACCTTGAATAAAGTGGATTTACATAATTAA
TATCTTATTTCATATGACACATTTTAAAACTCAAGAAGTATGTTAAATGTGTTAATTAAATTTAACTGAAAAAATTATAAATAAGGAACATGGGGAATAT
GGTTCTATTTTCATTCTAAAGATATACGTAACTGAAAAGTGTACAGTATTAAATAAAAGTGGTTCTAACAGAGTATTACATTTTAGATTAATATTTTTTA
AAACAAAAGTTTTATTTCTAATATGCAACATGATCTATCACTTTTTCTCAGTTGTGTTTAGGGTTTCATGGCTAAACTTTTTTATATATATATAATAAGA
TTGGTAGTCAAAGTGGTAAAYGAAAGATTAGATTATTCTACGTATTGACGGTTATGTATATAAGCCTCCATCAGAAGCATGATTTATTCATTGCTATGAG
TTTCAAGCATTGCAGAATTAGTTAATGATCTAGCTGTGAGATGCTTTCAATAAGAAAATAACATGGGATCTATTTTTTACTTAAAAATATTTAATTTGGT
TTCTTCACGCAGTTTTAATTTCAAGAGTACGTGTTCCGAGATAACTCCTCTTATTCATTTTCTTCTTGTGAATTAAATTGCAAATGTAAAACTTAGAATT
TTTTTTGAATTTTTATTCATTTTCTTCTTGTGAATTAAATTACAAATCTAAAACTTAGAAATTTTTCTGAATTTTTTTATGTTATTTGGTTTGCCTTTTA
GYAGTTAATTACAGCTGATTAGCCTAAAGTAAGTGCTATCTACTGCYTTCACCAAAATTTAGATAGATTCTAATAAAGCCACAAATTATTTAGCCTACAG
TTTTTAAATATTTTCCCAGTGATTTTACCTTTATTATATATGAACAGGCTCTACAGTGTTTTAAAGTATTATTTTTTAGGAGGAACTTTTAATGAAACCT
TTGCCTATTTTTCTTTCCTGTTAATTTGAGAATACCTGATATAGTTTCATTTAGAAAAATCTCTGGTTTAAGAAACCTAAAATGTTTACTTAATTTTATT
ATGATTTATGCATCTATCTTATGAGTTCCTAGCTAGCAAGATGCTAATTCTTTAAATGGTCAGACATTTACTATTTTCTGGCCCTTAACTACCATAAGCA
ATCATATTTGATGCCCCTTAATTAGAGCACCTTTTTTTCTTTCCAGGTTCTTTTTCCACCTCAGCAATCGAGACAATACATTTGCTTACCRTGCTGCTCT
CCTAAGTGTTCTTTTGCATGTAAATTAATCTTGATTCAGTTTACACTGTCATGCTGAGTGGTACAAATTGCCTATAACAATAAAACAGCATGAGTTAAAA
ATAAAGGGGGGTGGGAAGGCAGATTGAATGTGTGCCTTGATAGGATGTTACTTTGCTTTATGCCAATACATTAGCTGACGATAATGAATCTTCTGTTCTG
AAAAGCATGGTTTAGTTGATTTTTTTAATTTTACTTCAATGGAGCAGTACCTTGTCTTTTATAGAACAAGTTAGACAAACCATTAATGACAAGAGTGTTA
AGGTTAAATATGAAGCAATGCATTCACTTCTCTGAGTGCTATCCATCTTTCCATTTACAGGAGCTTGACAAAAGTACTGGCTTTGTACAACATTTCCTTT
AATTACATGCTGCGGGAAACAGGCTTTTAACATAAACATAGTTGCATTCATTTATTCAGCAGTTGCTCTTCAATAGAGCTTAATGGAGAAGGTTTAAATC
CTAAATGAGTACACACATCTCTCAGCAGTGTTATGTCAGCCACTGTGCTTTACTTAAAAGCAGTGTTTGACTGTTTGTATAGTTTTTAAAGCTTTTGCCT
AATATTGAAGTTAAACGGTCTAAGACAGAACATAGTGTTCCCAGAGTTTGAAAGTGGTTAGTGAAAAATGCTTGTTGTTAGAAGCTAGATAGTTCTATTT
TCTAACTGACGGCAAAAGTCTTTTCACAATGTTAGGCTTTAGTGTTTTCATACTGTTAATCGTAGGGATTCTTTTAAATTTTAGTTTTCATTTGCAATAA
ATAACTAAATTAAATATATATGCCAGACGGTGCAGAGTCTTTTGAAAACATGAAATCAGATTTTTACTATTTTCATCAATTTTGTAAACTACTGTGCACA
TATCAAATATCTCAAAGAGTTATTGGTTCTAATAGATAACCATTAGATGTCTATGACTTATATCACCGATCCAAATAGATGGCATTTGTTGTAATTAATT
TGTTTTTTAACCCGGGCACTAAATTTCAGTATTTGTTCCAAGTGTTTGGTATGTTGTTGAATTTGTTCACTGAACATTTTTACAGGAGGTCTGGATATTA
ATGGCATGTCTTGCATTAACTCTGTATGGTTTTTTTCATGCTTTTGCTTAACTTAATTTCTCTCCTAAATATTATTTGAAATGTCCCTGGGATTTAAGAG
TTTTCATTCTCATTTTTTCTTTCATTTTCAAAGTTTTTGCTTCAGGAGTTTCAATTAGTGTTTTTGTCAGCAAAACACTTTCCATTCACTAGACAAGTAC
TTTTAGCTCTAAGTATAGCCTAAATACTTGTGCATTTTCAGTGACTTCCAGTCACTGTTGAGATAACTTCGATCTGTCATACTGAGGCCATTTACCAGGT
ATTGCTGCTAGTTATCCTGGAATTACTTTGATGTGTTCTCAAGCAGCATTTGGCAATGAGAGATCTTTGAATGAATAGAAAAAAATAGCAATAGTAACAA
ATACATTTATATATTATTAAGAAGTAAAAGCTTACTAGTTTACATAAACCCCAGATTGAGTATACTTTAAAGAGACTGAAATTGATATTTCATATGTGTG
ATTCTAAGTTTTTATCCTATCATACTTAAAATTAGATTTAAGTGATTTTTTACTGAATTTTTACACATTTTCCTATACAATGAGGATTTTAAAAAACTTC
GAAACAATTGCATTTTGTTTTAGTTTTATAATTATCTTGTAAATTACATCCTAAAGTAGTGTTTCTTTTGTTGAAAAAAAGTTAAAATTTTGGCCATGAG
CTTAAAATTCTGTAAATGTAATTTTCAAAAAGAAATTAATAAAAGGGAGCCTTCTTTTGCTTTTACAGGAGTGCTAACAGGAATGAATGAAACTTCTGCT
GTAATCATTGCTGCACCACAGAATTTCACTCCCTCTGTGATCTTTCAGAAGGTTGTAAATGTAGCCAATGTAGGTGCAGTCCCTTCTGGCCAGGATAATA
TACACAGGTAGGTTCACTAACACACGATGTGGAGGTGAAGATGACTTGAATATGTATAAATATATAATTTTAAATTCATTGTTTTCTTTGGAAATAATAA
CCCCTAAACATATATATATATACACACACTCCCTTTTTTTTCTGATGGTATAGTTGTTGATTGCTTTGCATTAAGGCTGTCTTTCCCATCTCAGAGCATC
CTTATCATACTGGCATGGTCTTTCCTGAAAGATATACAGAGCATATTCACATTTTATAATAGCTTGGTAATTTATAAAGTTACCCTTTTTGAGGTGGTTG
AGAGTTTATCTTATTTCACCAGATTCAGTAGATGTCCAGGAAGAACTATTCTATAAAGCAGTATAGTTGGACTTTTTTAATTGAAAGGGAGGACGTTTGG
GTACTACATACAGATTTCCTTTTGATAGCCATCCCCTGAGACTGCTTCCAGTAAATAAAGAGCTGCTAGATGACCAACATGGGGGTAAATACAGCTTCTG
TTTCTTAGACCAGTAATATTTTCTATCACCAAGCATCTGAAATATGAGATCCAAGTTATTTGTCCTGAAAGGCAGCAGAAAATGTGATTAATGTTTGCCC
TCTTGTATTTTTATGAATTCCAGTGGCTTTAAATGAATGTAAAGATAAAAATAATTATCTCTTATCCATTTGGTGATTGCACAGTCCTCTGTGAGCTTAA
GGGAATTCGTTGCAAACCATCTCATGGCAGGCATACTTCTGCCATTAAAAATATCTACACACTRTATATTTAGTGTGCCCTTTCTTATATAATTATCAAT
CATAGAAAACAAATTTAGCATCAAAGGGAAGGCCTGCAGACCTTAAAAAACATTTTTTTAAGTTAACACAGGAGCAAGAGAGGCCCCATATGAAAAATGC
TACAGGTGATTTGGGTTTTAGATCTAACTCTGCCACTAATGGGCTTGGTAATCTTGGGGAAGTTATAACTTCTTATGTGCTTTACATTCCTTATGTGTTT
GGAAATGGGTGGCAGGAAGAAAAAGTGAGGTAGGATTGAAATGAAATTCTGTGATAGCTATGAAAGAACATTAGATTTGACTTCAGAAGAGCTGACCTGC
CATTACTGTATCCGTAGTTGCCTAACTTCACTGTACTAATCACGGCGGAATAAAAACTGCATGTACTAGTTGAAAAATAGATTTACCTTGTACTGTTTTT
TTTTTTTTTAAGTTGCTCAAGAGGTCTCATGCTTTCATTTCTTTTTTGTTGTTGTTGAGACAGTCTTACTCTGTCRCCCAGGCTGGAGCGCAGTGGCGCG
ATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTGGCTGGGACTACAGGCACCCGGCACCACGCCCGGC
TAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGTCTCGGCCTCCCAAAGT
GCTGGGATTACAGGCATGAGCCACCGCGCCYGGTGTCTTTCATTTCTTAGTTTTTGACAAGCTCTATCTATCTCACATAGGATGGTGATAAAATAAGAAA
ATGGATGTAAGGTCATGATACAGACCACCACAAAAATACAACTTATTTATCAGTTAATGTTGTTCAATAGGGAAAAGAGTAACAAAAGCCTTTTCAGTGA
AAATAAATATTTTGAGTTTTCCTGTTTTAATTTTATTCTGCTTTAAATACTTCTTTTCACTTTCCTAGGTAATTTTCTCTAACAGAAACTGTTTTGTTTT
ATTTATGGGTCCTTGGAATTATTGAATTTACTAAAACACCAAAATGCTGTATTATCAAGTATAACTTCTTCAGTATGAAATTTTACCTGAAACACCTAGT
ATCCAGCAATACTGCAGTCTTGTTTTAATATAGAGTAGCCACTGTTTATGCTGGAACATCTAGTTTAGTTTTGTTTTGTGTATAGGTTGTTTTGGGTTTC
TTTTTTTTGTTAACTTTTCTGAAAGCAATGGCAGCTGTCTAGATTTTTGTTTCTTAGAAGAAAAAATGTCAAGGCTGGGCAAGGTGGCTTACATCTGTCA
TCCCAGTACTTTGGGAGGCTAAAGTGGGTAGATCTCTTGAGCCCAGGAGTTCAAGACCAGACTGGGCAACATAGGGAGACCCTGTCTCTACAAAAAATAT
AAAATTAAATCCGGCATGGTGGCACATGCCTGTAGTCCCAGTTACTTGGGAAGCTGAGGTAGGAGGATCGCCTGAGCCCATGGAGGTCAAGGCTGTAGTG
AGCTGTGATCACACCATTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAAAGAGAAAAGAAAGAAGAAAAGTGAAGTTACAAAGCCACA
TAAAATGAAAGCTATCTTCCTATTGGGAGATAGACTTAGAGGGACCCTTAGCACAGTTGTATAATTCTTATTAAAGATAGTTTGCCAGTAACTTGTCTTG
CTGGTTTGGAATGTAATACCTGTAATACCTGCTCAAATGATTTAAATTAAAATTACAATCAATTCTCAATTGTCCATGCTAATACAGAGGAGACACACAA
CTAAGAACCATTTATATTTGACTTTGGAGTGCAGAGATTGAACCCAAAACTTAATGTTCGTGGTCCTCATACTCATCCACAGTGTCTTGAGGCTTTTCTG
TTCTAGCCGTATCATCAGTGGCCTGGTGTTTGGCTCTGTAACCTGGGGGAGGGCCCAAGTTACTACAGGGTCAAAAGTCAATAAAATACCTGTAGATACT
TAAGAATAGCCTGTGCTGTCTTAACTTGCTTCTCAAGTCCCATCATACTGAATTGAAAAATATTTCATATTTGCTTTTATAGCTAAAGTATGACTGTAAT
AATGTTCTAAATTTTAGAAAGCTTCCAGGTAACAAACACCTAAAGTTATTTTTATTTTTTATACAGATATTGACATAAATTATTATCCTGTGTATGTAAC
ACTTTTTCTCATTCTTTTTGCTAATAGCAATTAAAACAAAAATAAACAATTGTTAATAAAACGTACTTTTGTACTTTTTTTTTGCTTTTCTTAATTTCAT
TTAAAATGAAATAGGAATTAGTGTTTACATTATAATAATATAAATTAACTGTTTACCACTTTATTGAAATAAATGTTTTTAACTATAGTGTTCCATATTA
TATTACCCTACTCCATGGAATTAATACATTTCTATATCTAAGTTTATATATTATTTAATTGCTAATGATAAAATTGAAATCCCTATGAGATTTTGAATGA
TTCCCTTATTCTTTTGTGATAGTTACGTTTTTGAGTTTATAAAGAGTAGGACCAAAGCCACTCTAATATTTATTAATGGTAATCAGTTTGGGATTATTTT
TAAAAACACCAAGTATGAAAAGCATTTTTACTACTAGTATTTTAAGAGATTAAAATTTTCAATATGATAAGTTACTCTTGGCTGGCTTATGTTCTATTTA
ATTTTTCAGGATCTTTTCTTTCTGAGAGGACTTTTAATAAGAATTAGTGTATTCGTTCTAACCCTTTAATGAATAGAGTTTCCATTGCCTAATTTTGGAA
TACTTTATTTCTACTACTCTTCAAATTTTATACATTTTTACATTAAATGCCAGGTAAAGAAATACTTAGTGTAAGAATTATCTAAGGAAAAGTGAACCTT
TATTAATGTGGAGTAGTATGTAATGGTATAAAGTACAGATTTTAATTGAACACTTAATAGAAAATGATTCCTAACACAGCAACAGAAAATGGCCCTCATT
AAGAAAAGCCAATTAAAGGCGCACAGGTTTTATGAAATACACTTCAAAAACCAGAGACATTTTTTATTTCGTTAACACTTTTAAAGATCAATTGAGAAAG
CAGCTCTACTGTTAGATTATATGATTTTTAGTTGTAATTTTCTAAATGAGTGATAGGATCAGAGCCAAACAGTATACTATTGAGAGACTCAACTTTATCT
TCATTTCTGTCGTACTTACTTGAAAAACCTGCTCTTGGAGAACAAAATCATCTTATTGAGATATACAGAGTGGCCGGGCATGGTGGCTCATGCCCGTAAT
CCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAATATACA
AAAAAAAGTAGCCAGGCTTGGTGGCAGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGACAGGAGAATTGCTTGAACCCAGGAGGGAGAGGTTGCAGT
GAGCCAAGATGGTCCACTGCACTCCATCCTGGGCAACAGAGGGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAGAGAGATACAGAATTATGGTCATTG
CGTCAATCTGCTGTTTTCCAAATTACAGTTAACGCATGATAAGGAGTATTACAAAAATGAGAAGTTCCATCATCATCAAAAAGCATTTATTAAATATGTA
GCTGAATATCTTCACTTCCTGTGTAAGATATTCAAATTTATTTTAATGAGATATACATTGTGAAGGTCTTAATGCATATTACTTAAGACAATACTAGTAA
ACTAATACATAAATAAAGTGTATCCCAAGGGCAAAATGGACAGCATTAAACCAGTATATGAATGGACTGCAAAGGTGAAAGGGCAAGACCTCATGTGTTC
GAAGGTAGGAGATTAGAGGCGTTAGCTGTGGGGATCCCAGTTTCATTCAGGGCCAGGAAAACTTTCATGTGATTCTCTGTGAAATATCCAGGAAGGGTTT
AGGAAGGAGGTTTGTGTTCAATGTCGTGGAAACTGAGGTGCCTTGCTTTTRTTACATTGCATGTCCTCTGATAACAGCACTTATGAGTAAGTGCAGTGGC
CAAAAAGCAGAAAACAAAAAACATGTAGCTCCGAAATCGCTAAGGTTTTTCTGTACAAAAAAATCATGTGTGAGTTTGTGTAAAACTCAGATTTCTGGAA
CCCACCCCAAAAACTCAGCTTCAGTAAATCTGAGAAAGAGCCCAGGAATCTCTATTTTAGGCAGCACTCCAAGTGGTTGGAAGGCAAATGTTCCGAAGTC
CACAGTTTGAGGCTGCCTGGAATTATCAAGCTGTAATGCCACATGACACATTTCAAAATATTTTTTCCTATGTTTATATGTTTTATTTTTTACTGRTTAG
TCAGTAAGGGATGCCAGTAGATGAGATGTTTGGTTTAATTTTTCTTACACATATCCCAGAGTGCTCCAGCAAGACAGTGTATTGTCCATTACGGGAGTAC
ATTAGAGCAGTGTCTATAAAACAGTCTTAGACCATAACTGTGTATGTCTTTCAGCAGTCTCAGCCATCTCACATTTTCACCCATAGTCAGAAATCCTGAC
ATTTGTATACAATAATATTGTTGAAAAAGTTGTCACACTTACCTACTCATTTTGCCTTTTCATGAACCGCAAATTAACCCTCTGAGGAGAAAAGGTGATA
TTTGATTGAAGACAGAACATCCTGTCTCTGCCATGATTCTATTTTAGTTCTTAGCTTATTCAGTAAGATTCTGGAGCAACTTTCATTATTAACTTGTATT
CACTACTGATATTCCTTCCCCTCTCCCCCTCCCCCACCCCCCCGTATATCTTAATTAGTAATTTGGATTTTGTTTATCCTGTCACTTTTTAAATTTGCAA
GCTTTTACCATATGCAACTTGTGGATAATTACAATCCTAGTCGAATAAATGTTGGTTTACTGTTGTCACTAGGTCCTTAACTATTAGGAAAGTCTGGTGC
TGTGAGTGAAACAGTGTATCCATTGGCAACCAAGTAGTCAACTTTTTAATTTATCAACACACATAAAGACAGTTTATTTCAGGTTTAAAATAAAAGTCTT
ATTATTTAATTCAAGTACAGGTAAAGAACAACTTGTTTCATTTCTTTTTTTTTTTCTTTTAAGACAGGGTCTCACTCTGTTGCCCAGGCTAGAGTGCAGT
GGCACAGTTGTAGCTCACTGCAACCTTGAACTGGGCCCAGGCAATCGTCTTGTCTCAGCCTCCTGAGTAGCTAGGACTACAAGTGCATGCCACCATGCCC
AGCTAATTTTTTTTTTTTTTTTTTTGTAGAGACAGGGTGTCCCTATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGCAGTCCTCCCACTTTGGTT
TCCCAAAGTGTTGGGATTACAAGCATGCGCCACTGTGCCTGGCCAACTTGTTCCATATCTAGGCCTTAAACTCACCCAGTTAATCACTGTTATTGCATAC
CTGTTTGAAGGTTGTTAATAGGGGAAATACTGGTACACATTATTTTTGGTATCCTAAAAAGATCTATAATGTGTAGCTCCTTCACTTAGTATTTTTTTGG
AGACCTTTGTGACAGATTTTGCTGGTGCTAGGGTTGCAAACACAAATGGCAAAGACACTTCTTGATGGGGTCTCTAATATTTCCCTTTCTCTATTCTTAG
TTTGATTAACTTTTGAGTTACTGTTTTTGTTTGTTAGTTGTTTTCTTCTCTGTTGGTAACTATATGGGATTTGAATTCTGGGTAATTTTGGAGAATTTGT
AATTCTCCAAAGAATTTTTGCTTTTCAAATAACATTGGACATCTTGTTGCCCTAATTGTATAAGCCCTGATACTACTGTCAACCTTCTTCATTGTATAAA
CAGAAACAAAATTTTGTATAAATAGTTTTAAGTATAAAACTATCAGGCTCAGGTCTTTTCTACAATATGACAAATTTTGAGTCTCAAACAGGACTGAAGA
TTTGTAGAACCTCTTTAGTAATCAAAACAGTTCTTTCTCAGGTTGGTGGCTGTCCACTAGAGGACAGCACTGCATTTTTATCTGACTGCTTTGAACTCTG
CAGGCCCTGAGCATCAGTTCATTGACAAACAAATGCGGACCTCAGTTAATTTTCACACAGAAAGCATATTTGGATATTTCAGAAGTAACCAAACTGCACA
GCTGATTTTTACTTTAAAACATTCTCTATTTAAGTTTTATTTAAGTTCACCATTTAATGTCCTCTAATGCAACAATTTTRCTAATGGGAATCTGTAACTG
TTTCACGTAAAAATGAAAGAAAGGTATTCTTGATGCTTTTCCTTCTGGTTTGACAATTTTGTAAGGAATCAAAGAGAATGGGGTAAGAATGTATTTGTTT
TACTATTAGTTTTCCCTTGTTAACCCCATCTCACCCCACCCCCACCAGACAAACCAGAAATGCTCTGAAATAACTGGGATGTTTTATGTCTTCTTTAAGC
AAGGGCACTTAGATTTTTTAGCTTTCCTATATAAAGAAAGAGAATGCATCATTGGCCTGATAGTGTGGGGAATAATTTTTTTATACCATCTCTGAAGATT
AGAGTAGGAACTAGAGAGTCCTAAATTATGGTGGTTGTTTATTTTTTATTTTAACTTTTCTCATTTGAACGTTAGAGGAAAATACTACAATATTGTTAGG
TGATTTTTTAAATAACTGGGAAAAATACATTGCTTTGTGTAAATTCTCTAAAACTAAATCACGTGTAAATGCTTTTTTTGTCCTTCACTATTAATTCAAT
AGTGTAATGGTTTAACTTTAAAATGCAATTTTATAGTCAACAAAATAGAATTTTTTACAACTTACAAATTCTCTGCCTGTTTAAAATGTTCTACTATAAT
AACTCAAGGTAATAAAGATTTATAATTTTAAATCCTTTGGCAGATAGCGCTCCAAATCACTATACTTTGGTATTGATGTTTAGGAGGCTTATTCCAACCA
GTATTTCTTACATATAATGATCGTGCGACTTCATTACACATTTGTCAACTTTGGACTAATTATTTTTATACAGCTAGGGCAGGGCACTGCATCTTGTGAT
CGTCTTTCTTACTAATAGGATTCTGTCTGCTTCAGCAGGCAGTAATTGAAGGCTTCATGTACAGAGTACAAAAAAAAAAAAGTTTTAGCCTGAGTGGGTC
ATTGTCACAGCTTCTGGTAACCAGTAGAACAGAAAGCACAAGAAAATTGAACTCAGAATAGAAAAATCAGAAACCAGGAAGACTATCCAAGAGAAGAAAA
AGCATGTCTTAGAGCTGTTGCATTAAGTATAGCAAATCTGATTCTGTGTAAAAAATGTTATGTTTGTGACTACCCTGGAGACTGACGCAGCCTCTCAGAT
AAATACTTTTAAATTCATGCTGTACCGTTAATGTTAATTGTTAGAACAATTGAATTATAGGATTTCTTTTCCTTCTAACAAAGAACATGTATGATTTATA
GCCAGTTTGTTACAAATCTTAAAAAGTATAGTTTAAGTGCATGGAGAATAAATCTGTGTATTATAGATATTAGATTTTTTTCAAATTTGTTGTTGCTATT
TGGTCTGTTTTTATAATTATGACTATAGTTAAGACAAAATAACTTTTTAAGAAGAATGAAACTTTTTTTTATTTAGCTTTGACAACCAGCTTATTCTGTC
TTTTTCGTAAATCTTAAGAATTCCTATAGGCTTCAAAGATTAAATGTCAATTGCTGGAGATAATAGACAAAGACATTTAATAAGATGAAATACAGATATA
GCCAAACAGTTTTACCTTCTCAGTTGGTGATTACAAACAGCAAGTGGTTGGTGATAGAATGAAATGAAAAATATCTAGATGGTGTCCTTTTAATAACATG
GAGCCCGTCATACACAGGCAATACATCTTTAACTGTCATCGCACTTATTTGTTCTCATTTGTGGTGTTACTGCTTTTCGAGGTTGATTGGTCTCCCCGTA
GTCCCTCCCTGTGTTACAGCTCCATTCAAAAAGGCTTTGTATTTTTCATTGCTGGTGTCTCTTTAGGGAGAGGAGAGTAGGGGATATTTAAAATGTTTTA
AATCTTTAAAGGCAGAAATGTAAAATATATGAGGAATCAAGTCCGCACGCTTTGAATTACGCATTACTACAAAATCAAGTAAACAATTTTTGAAGAGAGG
ACTCTTCCTTCTTAATGTTTTTGGAACAATAATAGATTATGTGTATATTAGGTAAATGGGAAAAACTTTATCTGTTGACTGATAAAAACAAATTATTATG
GGTGCATTTTTGTATATATGAAGATAATTTGTGTGACCTGGAATCAGAATGCTTGGGTTCAGATTTCTGCTCAACCAGAAATTTGGTGTGTGGCCCTGAG
GAAGTTCTTCAACTTCTCTGGGCCTCGCTTGCCTCATCTATAAAGTGACCTGCCTCATAGGATTAAATGAAATAATTCCAGTGAAGCACTTAGAACCCAC
TGCCAGAACACAGTAAGTGCTTAACAAATGATAGCTGCTATCATCATTATAGTGATCAAAAATTTCTCATGCCTTTTGAAAAAATTTTGTCACAGTGTGA
TCTTAGTTCAAGGCCAAGCACAGAGGTTCTGATGTCAGCCATTAAGTTTAGTATGTAAATATCTGACCCACGCTGACTTTATAATCAATGTTTCTGACAT
CCCAAAGCTAGCTATTTATTACTTATGAATTAGTACTCTTTCCATAACTATTTTTTGCATGTATGTTGAAGCATAGCCTGTGCAGGAGTTAAATGATGAA
TAAATCTGGGGTAGTGGTTTTTGCCTTCCGAGGGCCAAAACAAACCAATTTTGATCATGCTGTGTTCCAATTAAATATATCCTTTCTGAACTGTGAAATG
AGAATGTCAGAACATCTGATCTTCTAGTCTTCCGCTTTAAAACATTGCTTCCACCATTTGTGTCCACTAGAACATAGAGACCTAGTTAATAAAGGCAGTA
GCTTTTACACCAGCTAGCAGATTATGTTGCTAGGATGATTTGCTTAGTGTGTTTCCATTGCAGCGTAAGCAGATGCCTCTTTTCTTTCATACCCCTATTC
TTTATAGTACTGAGACTTTTGTGGCAATAGGATTTCAAAAATATGTCCAAGATACTAATTCTAATTTCTGTCAACATACTGACACCAAAATTGACATTTG
TCTCTGCCAACTTTATATTAATTGTAACATTAACTCTAAGTTTTTTAATAGAAAAGAGACAAAATGTGCCTTGGGGCTGTGCCACCCTGAAATTCAAACA
ACAGTRCTTTTGTGTTCCTATTCAGGCATAATCTCCTTCTCTATGGTCCCAAGGCACAAGTGTTAAGTAAATAAAGGGACTAATAAGACTATTGTTTACA
TAATTATAACCCTGTCAGAAATAGGGACCTCTGTTGAAATATTTGTTGAGTGAATTACACACGTGATGACCGAATCTGTGGGAAAAGTTGCATAAATGAA
TGGGAAAATAGAGCCACCTCATATCCTTTGGTGACGTGGTTTTACAGGAATATAGAAACAGCATTCTCCTATGAAGCAGAAGAGCCTGAAAAATTTAGAC
AAAAGAAATGCATAAACCTGTGAGGAGCCTTAGAAAAGAGAGATCATTTTAGGGCTGGTGATCTTTATGTTTCTCAAAGATGAAATTGAGGTACCTAGTT
CATAATCTCTCATGTGTACGTCTGAAAAGCAGATGGATGTGTGTGTTAAGAGGTTTATAAAAACCTCTTTAAAAACATTGGTATGATTTATATTCCTAAA
CTGGTTACTTACAATTGCTTCTCTCAGTAGGAATACTGCTCTGTCAGATTCCTTGCAAGTTTTCAGCATGCTTGTAGAGTGCACAAGCAAATGCCTAGGA
AGATTTTCTAACATATTTTGTTGATAGCCCATTAGCTAACATTTTAAAACACAACTTCAAAGTGTTTATAATATTTGAAATTTAGTAAAATTAGCATATC
TGTTTTGGTTTGGATACATTATTCTAATTATTGTTGGACAACCTAGTTCATGATTTTATTTGTCCAAAAATGGCTTGTTTGGTTTTAAAAAAATTAATGT
GTTATGAGATCTTGATGTTATTTTTTAAAAAACCCAAAAAAGAAATTACTTTTCATTTAAAGAGAATCTGCTTCCTGCTTAAGTGGCTAATATTTTAATT
AAGTCGGGAGTGAAGTTTTTCTGAGTGTCTCCTGATAAACTCCCTCTTTTATGTTGATGGTAATTAAACAGATCCCTGTGGACACCGTGGGCTCTGTGCG
AGGCCCATGCTAATTGTCAGACATGAGACACTGACCAGTTGGTTTGCTCTTGAATAGTCCGCAGCGTGCTGTTAGCGCGGCAGTTTTATTTTTATGTATT
GTGAGCTGTTGTCAGGGCTAACTGGGTGCCATTGTGGCTGAAGATGTTGCGCAAATTGAGGCAGATGGCTCAGATTCAGACACGTGTCATATAGAAAGGG
GCAAGGGGATTGGCCCTGCAAAGTGGGGTCACAGCAGGTCACAGACCTGCTCTACACTTGTTAGTGTTTTCAAAAGCTCATGTGCAGCAACTTTGTTTTT
CTCCAGTCATCCCTGCAATCAAACCCCCTCCCCCAAAAAGTGTGTGGAACATGCTTCATGTGGAAAAGGGAGGCTTGGGAGGTTCCTGTCCTCTTCCTTC
ATGACCCTGAGGCTCAACTGTGCATGCAGAATGAATTAGCAGGATTGACAGAAGTTCGTTATGCCTGCAACGGCTTTTCAGTCAATTGCAGTGCTTAAAA
GGCTAGTTTTGCTTTTAGTTCCGTGTAATCAGTAGGTTCTTCATGTCTTGGAATTTAGAGTTAGAGCTTTAGACCTCCAGTTTCCTCTGGAAATGTTTTT
GTTTACACTCTACAGAAAGAAAGATCTAATGTCCTAAACATTTCAAAACAAAGAAAAAGGGAAGCGTGAGGTTGCACTTAGCTGTCACGTGATTTTGCTT
CATGTCATCATTAACATTAGAGATTTAATTTGAATATTGTTACATGAGTGAATTCATTGAAACTTAGTAAGAATTTTATAATGTACGTAAAATTATCTAA
CTTATTACATAATCATTTTCAGATATGAGGAGTTAAATTTTGAAGCTCTTTGAGAAAGGTACCTTTTCTTAACATGTTTTAAAAATAAAAATACAATGGC
TTATTTAAAATGTCCCTATGCATGGTGAAATGTTAAATACCAAGTGGATGAATGGTTCTCAAMTATATTGTAATGGAGAATTATTCACATGCATCTATTG
TTTAAACTAATAAGTAAAATAGACTTCCTTTTTCTGTTCTGTTTTAAATGTGCACTAAAATTACCTGCTTGTGGTTAGCATGGGCTGGACAGTTTATTGA
TTTTTCAGAAGAATGCTTGGCTTTGGGTTTTTGGCAATAGGGAGCCTGCAGCAAATTATTTCATTTGACAAAAAAGAGTTATTTTAATCCTATTTGAATG
TATGCTATCTCCTTTACCCTCCCCATCTTATGATAAAAGGTCTCTCTTTTTTCTCTTCCAGGTTTGCAGCTAAAACTGTGCACAGTGGGTCATTGATGCT
AGTCACAGTGGAACTGAAGGAAGGCTCTACAGCCCARCTTATCATAAACACTGAGAAAACTGTGATTGGCTCTGTTCTGCTGCGGGAACTGAAGCCTGTC
CTGTCTCAGGGGTAACCTGCTTACATCTGGACTTTAGAATCTGGCACACAACAAARGTGCCTGGCATCCACTACTGCTGCCTTTCATTTATAATAATAGC
CCTTCCATCTGGCAGTGGGGGTAGAATACACTCTTGACATTCTTGTCTCCTGCTTTAGAATGCTAGTGTGTATCTATCATGTATGCAATACTTTCCCCCT
TTTTGYTTTGCTAACCAAAGAGCATATATTTTACTGTCAGTTGTCTCAACTCTTGAATCCATGTGGCGTTTTCTCTGTCCTGCTGCTTCTTTTGGCCTCC
TCGTTTTCCTTCTCTTTTTCGACAATGGTAGACATGAATGAGATATTTAAAGTTCATTGGAAATCTTCTTCCCTACAGCAGTAAGCAAAAATTAGCAAAG
AGATAGTCTAAATGGCCTCTCAGCTTKGTATGTGAAAATGAGATCACATACTTTTTAAATCCAAATACAAAAGCATAGTCTCTGCAAGATTTTGTTCTTT
GAATTTCTTGATATTGTAATTGATTATTGATAACTGTCATCATGAAATTATCTCTCAATAATAAGATAAATAAACTAGCATATGAATCATATTTGTCTTT
GCATTTTTAATGAGAAACTATTAATAATCCTGAAGTTCATATGCTAAAGTTTTCTTATTTTAAAGCAAGTATTTTGAGTGTTACATTATGCAGAGAAGCA
ATGTGGTTTAGTTAGCGAAAGAAAAACCACTTCCAAACCAAGTAAATTTTCTACTTATAGTTTACTCCAAGGAAAAAAAATTGGTGTATTTAATAACAAA
AACAAAAATCTTCATATTGCAAAATAAACATCTTCTAGGTAGTTTTGATCTATTAGTAGATATCTGATTATGTGGCCTGCTGAATAAATTCTTTGAATCT
CATTTTTCCTTATGCCCAACTTTGGAAACTAACTAGCATAAACTTATAGAAATGTTTAAAACTAGTTATATGATCAACCTATTAGCATCTTTTCCTAGAG
TATTTGTTTTATTTGCTACCTTAAGTTACTGTTTTCAAGGTTGTTCTATAATCAGAGAACTTTTCTAATACTTTCGTACCTTTTTAAAACCAGCTGAAAT
TTTACTTCCTTTTTGAAGCAAGGTAATGGACTTTCAGGTAGTATAAGCTACTCAGTTCTTTTTGTATAGAGCCACATACATAATGATTTTTAAAAAGTAA
AAAGGAAGTGACTGTACATTGCTTGAAGCATTATAGGAAGGCTGAAAAGAAAAGAATGGAATTTTCTTGGAACATACATATTGAAAAGAACAAAACAGAG
TCGAAAAATTATTTAAATTTTCAAGCTGGTGGGATGACAAGAGTAAACAAAATTGTTAAATTTTCCTGCTCCAGAAAGAAATATAGCCCTGAATCTCCGG
GAAGAGAATGTACAGAAGTGCAATGTACAGAAGCCACGTGTACATTTTGTGCCAATTCCGTACCATGTGTACATTCTGTACCATTCTGTACCAATGTATG
GAAGCCACGAGTTCCACTTCCCTCTGGAGCCTGGGCGCTGTGGTAACACACCCAAAAGCCCCTTTGTAATCGCAGGTCGTTGGCATTTCCATATTAGCCT
TATTGCTCAGAGCTTCATAACTTTGAATTTTAAGTCAATAACTTTTTGAAATGTCAGACAGAATTTGACAGGTTTAATACCTGTTTTCTGAGGAAGAAAA
AAAAATTATATCCATGCTGTCTTCAGGCAGAGGGAAAGTGCATGTTGTGATTGAGAAAGGTCTTATTTTTCCTTAAATTAGGACACTCATCTTTAAAAGA
TAGTTCACACATTTGTATTTTTTTAAACTAAGGAAATTTAATTAGGGCTTTACTTTTGACTAAGTTATTTTTGGCTGCTAACTTTTAAAATTATGGTAAA
TCAATAATATAATGTAGTATGAATCAGTGAACAGTATGTATCGATTGTAATGTGCGCTACCAGTTGAAACCATTTTAACACTAGTAGCTTAATATCATTA
AAATGTTTTTCACGTAAAACAGAAAAACGACCAAAGCCCCAAGTTAAAGGTTTGGTTTTTTTTCTTTTGTGGTGTGGTGATTCAGAGTTCCTTGCCTCAT
ATTTCCTTTAACTTTGTCATAATCCATGATTATCTTTAAATTGTTCCATTGAGTCGAGTTAGTCAATGTTGAATTCTTAATTCTAGCTATATTTTTTCAT
TTTAATGTTCACTTAATGGGACATTTTATGTACACCAATCTTGAAGAATGGCTCTCATAGTATATTTCAGACTAAGCCTCATTTTTGATATCACAATACA
TTTGCTTTATTTATTATGAGAGTTTTTTTATTCTAAAGAGACTGTAACAATGCATTTCTCAAATTAAAATACTGTATACTTGTCCTTCTCGATAACTATT
TGCAAACGTATGAATAACTTTATAGCTTACAAAACGTTTGCCCTTATAACCTGTGTTCCCGTTGTTAAGAATTTAGATGTTAGACAAGATAAGAATCCAG
ACTGATGGAAGATTTCAAAAAAAGAAAAGTTGGACCAGCTAAAAGAGAACCTAAGATCTTTCCCCTGACTTGTTCCCTCTCTGTTGTCTCTCTGACCTTC
TAGGGAACTTTGTTTAAAGGGAGAAAGGAATCCTGTTTTCACAAAATGAGAGAGAAAAAAAGAGCACTATGTTTGCCAGCTGTGGTGGCTCATTCCTGTA
ATCCCAGCGCTTTGGGAGGCCGAAGTGGGAAGATTACTTGAGGACAGGAGTTCAAGACCAGCCTGGGCAACAGAGCAAGACCCTGTCTCTAAAGTAATTT
AAAATCTAGCCAGGTGTGGTGGTGCATGCTTTTAATCCCAGCTGCTGGGGAGTCTGAGGCAGGAGGATAGCTTGAGCCCAGGAGTTGGAGGCTACAGTGA
GCCGTGATCATGCCCCTGCACTCCAGCCTGGGTGACAAAGTGAGACCCTGTCTCAAAAAAAAAAAAAACCAAAAAAAAACAGAGCCTTTCTATTCCCTTT
TTGCTGAAAGACTATATCTACTGTGAATGTGGAGAACTACAGTAAACCTCATCAGGGGTGTAGTAAAATATAAGTTATGCTCTGTACTTACTCAAAAAAC
GTACAATCTAATTGGCAATAAACAAAGGAATGACCATGTGGACCTCCCTAAGTTAGTGAGCCCTGGTTTGCAAATAAGTGTTGCTTACATCCTAACACAG
GTTTGCCTCCGCCCCACCCACACTTCCTTCAGGTGCCAAGTCCTGCAGCTTGGCAGCCCCAGAGGCCTGCTGGCCCCAGCTTTTCACCTCCATGGCCTCC
TTACACAGGTGACCGCACTGGACTGGCCGGCCATGGGGGACACACTTTTGTTCTTCCATCAGTTGGGGTTGATTAATTGAAAGACAATGACTTCTCGACT
GTGCTTGTTTATCTTCTTAAGTCCTCTTCCCCGCCGGCTCCCGTCCCCCTGCTTTCTAACCTCAGGAAACATTTTCATGATCAATTCATTCTCTTGTATC
CTACTTTGGTAACATGACTTTTTTTTTTCTACCGCTTTTCAGCTGAGTTGTGGAGTAGGCAGAACTTTATTATCTGACCTGGGAAGCTAACCACTATGTG
ATACTGTTTTCTGAGGAAAATATGTTAGATTCCACATGGTAACTTGACAAACAAACTTGAAACATGGCTGTTTGAAAGCTGAGATGGTTTGTGAGAAACA
TTGTGAGGCAGTGTGGCGTGATTAATTGTCAGATAACACCAGTAAGTACCTTTGAGTTTAGGGGAAGAAGTGATTAGTGGCTAGAGAGGTCTGAGAAGGT
TCCACTGAGGCAATGAAACTAGCTAGTTCTTAAAAGTAGGGTGGCATATAGAAGAGAAAACAGAGTTTCTAGGCATGGGAGAAGGGCAAATATGTGATTC
TCAGCTGAGGCTGTATCTTTTAAAATGTTTTGAAAATACCTTTGTACAGAAAGCAACACTGGCCACACCTAAGAAAGCGATGCTTCCMCTCCCCCTCCTT
GCCCTCACTTCTCTTTCCCCTCTCACACAGTCCCTTTCTCTCAAAGCCATTCCCCATGTCTCCACCTCAATGGCCTGTGGTAGTTTAGAGCAGGGGTCCC
CAACCCCTGGGCCATGGACCACTACCGTGGCCTGTTAGGAACCTGGCCCACAGCCAGAGGTAAGTGACAGGCGAGCTCTGCCTCCTTTGATGTAAGCAGT
GGCATTAGATTCTCATAGGAGCACAAACCCTACTGTGAACTGCACATGTGAGGGATCTAGGTTGCATGCTCCTTATGAGAATCTAAATATAAATGTGATG
CACTTGATTCATCCAGAAACCATCCCCTCCATCCCCATCCATGGAAAAATTGTCTTTCATGAAACCAGTCCCTGGTGCCAGAAAGGTTAGGGACCACTGG
CTTACAGGAGAAATGAATGGTTGAGATATCATGGATGGGAGTAGCCTGCACTTGTAAATAGTGTAGAGGCAGAAAAAAAGGTTGGGAAAACCTTGAACTA
GATAGAGATCAGGAGAAGCCAGCATTGTTTATGTTACTCTTCTGCTTAAAGGCCAATTTTAGATATTTCCTTGGGGATTTTAGTTATTTCCTGTGCCTTT
GCAGGTTCTAAAATGATTCTTTTCAGACTTAGAGTCAAAGTAGCTAAAGAATATTAAATTCTGGCTGGTTGCAGTGGCTCACGCCTGTAATCCCAGCACT
ACGGGAGGCCGAGGTGGGCAGATCACGAGGTCAAGAGATCGAGACCATCTGGCAAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCTG
GATGTGCTGGTACGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGGATTGCTTGAATCCGAGAGGCAGAGGTTGTAGTGAGCTGAGATTCCA
TGCCACTGCACTCCAGCCTGGCGACAGAGTGAGATTCTGTCTCAAAAAAAAAAAGAAAAAGAAAAACATATATATATATTAAATTCTAGCCAGGAGTGGT
GGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGTGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTC
TCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGAC
AGAGGTTGCAATAAGTCGAGACTGTGCCACTGTACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAGAAAAAAAAAAAAAAAAGAATATTAAATTCC
ATTACTATCTATTTACTGGTTCAGTGATTGTGAGCTGAGGTGATATTAAAATTTCTAATCTTCCCTTGTGTTTGTCTTTCTCTGGGGCCAGTTTTATGTA
CATAGTCACTTGTGCATATAATTCCTAGCTGATTCAGTAAATATGTACAACTGAAGACTGAACCCTCAGAAACTGACATGAACCTGCCTTTAATAACAGT
CTAAGACACTGATAACAGTCTAAGACATCTGCAATCTTGAGGGCCAGAGACACCAAAGATCCAGGTGTAACTCAAGAAACATCTTTATCCTGAGATCTAG
AGATGTTTAGAAAACCTAACTGGTAGATAATTCTGCCAGTAGACTCAACCATGTCAGGCCTTGGATCCTGCAGATGATGCGTGGGCACTTGAAGAGAGCA
GGGAAACCTCACCTCCACCTTCCTCATTCACTGCCCTGGATAGGAAGGGAGGGAGAGTGGTTGCCAAGGAGAAAGTATCAGAACATAGTGGGGGAAGAGA
TAAAGGAGATTAGCTTTCTCAAACAGTGCCCCACCAAGATTCCCGTTTCCCCCCGCCACTCCAGAAGAGCATTTTCTCACCCCATGTAAGAACCACATAT
TTTTTTTCTTTAGTGATGTGATGAATGAGAAGTTTTATGTCATGATAGGGTCAACCAACTCCATGGATGGTAAGGAATTGTTAAGACCATGACCTATGAA
AAGAAAACTTAAATTCTGCTTTTGCAAAGTAGTTAAGAAAGGTCGTATGAAGGTAGGCCCTTCAAGCTACATTTAAACGTCGTTTCTAATGAGTTCATCT
TTCGAATGCTTATTTCATTTTGTCAATAAACCATATATAAAATTAGGAATGGCAACCAAGGGTAAGATACGAACTCAAGCATGCTGATAAGGGGGGCCTA
ATGTAGAAATTTGGCGGACACAAAAAGCCCTTCCAACTTAAGGTTTGATTTTTGAGTCTTAAAAAATGAAGCCAGTGTGAAAGGGCCTCTTACTGGCATC
ACACAGAAATCCTCATCATCCAAGAGCCCTCTTCCTTGACCCCAAAGTCTTTGTTTTATTCAGGACTCATCAAAACCATAGGGCCTAAATAAAAATATTT
TGTAAACAAAGTTATGGACAGCCCAGTTTTCTAATTGAAAGTCATTATGATTTCTGTGCTGTGGTGTAATTACCTAAAAAAATGTTATTTGATGATTAAG
ATTCTGGAGTGAATTGTGTTCTTTGGGCTCCTGCACCGTTCCTCCATCAGGGACTTGGTTTCAGCGGTGTGCAGCTGCTGGAGTTGATTTACAGTGCTGC
GGCTGTGGCTGGTCATAAATAAATCCTCTTATATAGTTGTTATGAACACCTGTTAGATCATCTGTCAGCAAAGCGCTGTTCACATTTATCATGGTGCGGG
AGTTATTTTACCTCAATCCATTTCCAACCGACTCGGCCTCCATCGCTGGATTACTATTACCACACCATAATCGCTTGCTCCCACTCCATGTTACAACTTG
CAGATAAAAGATTTCACTACTTG


SNP Information

Context             (SEQ ID NO:16756):
AAAAGGCCTAATTTGTTGTTGTATGCCTCTTGGAGGTAGCCAAACTCAAGGTTAAAGGCACAGTCCTCCAGACTAAGTTGGCCCAAGATTTCTGACACCA
R
CTGTAACTTTACGGATTTCCCAAAACCACTCTCTAGTTCAGTAATTTTCTAGAACAACTCAGAGAACTCAGAAAAGCACTGTGCTTAGGATTACAATTTT
Celera SNP ID:            hCV978330
SNP Position Genomic:     222586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16757):
TGAGTCATTTTCATTTAATAGTTTTCCATTGGAAAGCATCTTTACTTCTGTCTGGATTTTTGGAGATACACATTACCTTGGAATATGGATACAATGCTGT
M
ATAGAAATATGTTTCAGACTTTGAGTACTCATTCACATGATTTAGCATAGTCACTTAGAATTATTTTGTAAGGAAGATCTGTCATTTCTCCCTCATTTAT
Celera SNP ID:            hCV26001540
SNP Position Genomic:     105513
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16758):
CCTCAGTGGCATAAATTATCAGGTGTGGTCCCAAAGGGCCCACCATGAATAACAAAGACACTTTTATCACTGGGGAAATTCCAAGGGTTTAGAGGTCGCC
Y
CTCAAGAGCTAAGAGAAAGTCCTAAGCCTCTTTAGGTTAGGTCAAATTCCTTACTACACATATGCCAATTAAGTGTTTTATTCATCCAACATGTATTTAT
Celera SNP ID:            hCV978331
SNP Position Genomic:     223189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16759):
GGGAGCTTGCAGTGAGCGAGATCACGCCACTGCACTCCAGCCAGGGTGACAGAGCGAGACTCTGTCTAAAAAAAAAAATATATATATATATATATATATA
T
ATAAAAATATATACAAATATTTAAAAATATGTAAATATATAAATATTTAAAAATATATATGTAAATATATAAATATATATAAATATGTATATATTTGAGG
Celera SNP ID:            hCV26001541
SNP Position Genomic:     106538
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16760):
AGTAGTCTTATCTTAGATATATCCTCCCCAACCACCCCCCTACCAGTTCTCCTCACTCTCTTTTAATTGCTACTAGGGTATTTTAGTTTTGTTTTCCAAT
S
TCTTATATTGGCAGAGTGCTAGACTTTTTTCAAGTTGGTCTGCAAGGAGAGATTGCTTTGAGGGACGTCTTTGTTGAATATGTACGTTTACTAAGTTATA
Celera SNP ID:            hCV978332
SNP Position Genomic:     224491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16761):
GAGCTTGCAGTGAGCGAGATCACGCCACTGCACTCCAGCCAGGGTGACAGAGCGAGACTCTGTCTAAAAAAAAAAATATATATATATATATATATATATA
T
AAAAATATATACAAATATTTAAAAATATGTAAATATATAAATATTTAAAAATATATATGTAAATATATAAATATATATAAATATGTATATATTTGAGGAT
Celera SNP ID:            hCV26001542
SNP Position Genomic:     106540
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16762):
ATCAACTGCATTTTTTAACTCTAGAATTTCTGATTGATTCTTTTTAACTGTTTCAATCTCTTTGTTAAATTTATCTGATAGAATTCTTTTTTTTTTTTTT
T
GAGGTGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCACCCTCCCAA
Celera SNP ID:            hCV26555405
SNP Position Genomic:     46715
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16763):
TAATTTCATTTCTATTGAGAGTGTATTTATAAAACATTATCTTTGCTTTAAAGAAACTGCAAAGCCTTCTCCAGTATAAATTGGTCCCCATTTTTTTAAA
T
TTTTTTTTTTTTTGGTTTGGTCCAGCTTAAATGTATATTTTTAAAGAAACTAAAAAAAGTATTCTATGGTAGTATTTCATTTCATACATGTACATATTTT
Celera SNP ID:            hCV26001543
SNP Position Genomic:     105207
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16764):
AAATCATTACTATAATTGCTACGTTTGTAATGTCATCAGGTGTACACGGCATAGTGAAAATGTTTAATAGGTTGATATATACTCTCAGAACTATAATAGA
K
AATCTAGTTGGGAGACAACACTTGTCAGGAAAAAATCTTAATCAAGCCTGTTTAATTACAAATTGATTTTTTTTTTAATGCTTGCCCATGTCAGGTCAAG
Celera SNP ID:            hCV978334
SNP Position Genomic:     258863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16765):
GATATGGCAGATACATATGGTTCAGTCTAATCAAAAGCCTTACCTGAGTCTGTGATCTCCTGGCTCCATATCTACCAGGACTTTAGAGAAAGTGGGGGAA
S
GGGGCATTCTCCCATTACAAGCTTATTTCCCCTTCTAATTAGTGTCCTGAAATCTGACTAATCCCAACCAGTAGTAGAGTGGGGGAGATAGATGATAGAA
Celera SNP ID:            hCV978335
SNP Position Genomic:     250696
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;no_pop(G,-|C,-)   SC_12_A(C,4|G,19)   SC_12_C(C,6|G,18)   SC_12_AA(C,7|G,14)   SC_95_C(C,41|G,132)   total(G,183|C,58)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16766):
TTGTTACTGGATGCTTTTTGTTCTGTTAACTCTTGGGGGAGGCTTGTTATTTTACAGTTACTGCAGTTACTGAACTAATTACTTCCTCACGAGCCATAGT
R
AAGATGACCTATATCATTTGCTTATAATGCATCTAAGTTTTTAATTCTTTGAATGTTAGTCGTTAAACAATTAAATCAAAACTAATGTTTTCAAACTTTG
Celera SNP ID:            hCV978336
SNP Position Genomic:     248771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16767):
GATAACAGCTCTTATAAATGTTTCAGTAAGCGCTAAGTAGACAGTTATGTGCACTCTCATTCCACGCTTATTTGCTTACTGTAATAAACTGATAAAATAT
R
TGTGGTTTGTCTCTGTGTATCTACAGGCATCATGAGTCACATAGATTTCCTTTAGAAATAATGTTGTGTCTGCAGAATTGATTGCTTATTTTCATAAACC
Celera SNP ID:            hCV978337
SNP Position Genomic:     248499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:16768):
GAGGAAACACCATCCCTCATACCACTTTTATAAGGGCAATAATCCCATTCATGAGGGTAGAACCCCTATAACCTAATTACCTACTAAAGGCCCCACCATA
K
TCTGGATTAGGTTTCAACACGAATTTTGGAGGGACATAAATGTTCAGACCATAGCACAAACCTTCTTGTTATTCTTGTTATTCTTGTCATTCTTGTCTTC
Celera SNP ID:            hCV3164266
SNP Position Genomic:     200613
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16769):
TGTTACAAGGAAAACTAACAAACAGAAAGGAATAGCATCAACATCAACTAAAAGGATATCCACACCAAAACCCCATCTCTAGGTCACCAACATCAAAGAC
S
AAAGGTAGTATAAAACCACAAAGATAGGGAGAAACCAGAGCAGAAAAGCTGAAAATTCTAAAGACCAGAGGACCTCTTCTCCTACAAAGGATTGCAGCTC
Celera SNP ID:            hCV28008281
SNP Position Genomic:     125832
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16770):
TCTCTGTATAATATGTGCATGTCTTCCCAGACAGGATACAGCATATCATAGGTAAAAACAATAGCGTTTGAATCAGATAGAACTGGCTTAATGTCTGAGC
R
TCTGCCACATAGTATATGTACCAATTCTTTATGAGTTTTAGGCTCCAGATTTGTAGGGTTTATAATATCTAATTTATACATTTGCTGTTTGTGTCGAGAG
Celera SNP ID:            hCV27904615
SNP Position Genomic:     76858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16771):
CCTTTTAATTATATATTCAGAACACAGAGATTTTAAAAAATAATGCCTGACAAACATTATTATCATTATAAGGAAAGGCTTTAGTTTTTTTAATAACTCT
R
TAATAAATATTATTTATAAACACAGCATGTTTTAGTCTTGCCAGAGACTGGCCATTGGCCAACAGATAGCTCTATTGAGGGAACATTTTATTTCCTGCTG
Celera SNP ID:            hCV3164268
SNP Position Genomic:     215903
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16772):
GTGGCTAGATCAAAAAATATGTTAACTGTATACCTTCAACATTCTTTTTCCTCAGAAATTCACCTAATTATATTCAAAATTAACTAGATTTAAAAGCCAT
M
AACTTGGAGCAGCTTTGTGTTTTTAAGCCAAACAATATCTAAGTGTTCGGTAAAACTGGATAGGTAATATCCAGTAAAATATGTAAGCTAGATCCCATAT
Celera SNP ID:            hCV28008287
SNP Position Genomic:     137582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16773):
ATGAATTTCATATCATTTTAATGTTACAATCATATTACTTTTGATTTTTCAACCATTTAGAAATGTGAAAGTCATTATTAGTGAACAGGCATTGCAAAAA
Y
AGACAGTGGACCAGATTTGGCCTCTAAGCATGGTTTGCTGGTGCCTGCTTAATACCGAGCATGAAATAAGATGCTCATTAAATATTTGTTCATTATGTGT
Celera SNP ID:            hCV29091300
SNP Position Genomic:     247221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16774):
AGCCTTCCCAAATACAATAAGCACAAACAAGCCCAGACTGTGAAGACTACAATAAATACCTAACTTCAATGCCCAGAGACTGATGAACATCTGTAAGCAT
S
AAGACCATCCAGGAAAATATGGCCTCACCAAACAAACTACATAAGGCGTCAGGGGCCAATACTAGAGAAACAGAGAGATACGTGACCCTTCAGACAGAGA
Celera SNP ID:            hCV127430
SNP Position Genomic:     144904
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16775):
GGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTCTAACTCCTGATCTCGTGATCCACCCACCTCGGCTTCCCAAA
R
TGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCTTTTTTTTTTTTTTTTTTTTAAGATGGAATGTTGCTCTTGTTGCCCAGGCTGGAGGGCAATGGC
Celera SNP ID:            hCV11648833
SNP Position Genomic:     116299
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16776):
TTGTGTATCTAAACGTATCTAAACATAGAAAGTTACAGTAAAGATACAGTATTATAATCTTACAATAAGATTATATATGTGGTCCCTCCTTGACCAAAAC
R
TGGCACGACTGTAATTTAAAAATAACACAAAATTCAGTCATTGTAATATACCACATTAACAGAAGGAAAGGGAAAAATCCCTCACAATCATCTCAATTTA
Celera SNP ID:            hCV91137
SNP Position Genomic:     36833
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16777):
GATCTCGTGATCCACCCACCTCGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCTTTTTTTTTTTTTTTTTTTTAAGATGGAAT
K
TTGCTCTTGTTGCCCAGGCTGGAGGGCAATGGCGCGATCTTGGCTCACTGCAACCTCCGCCTCATGAGCTCAAGCAATTCTCCTGCCTCAGCCTCTCGAG
Celera SNP ID:            hCV11648834
SNP Position Genomic:     116366
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16778):
ATTTTTAAAATATAATTTATTTAAAAATGTAATATGTTTTTAAAAGATTCATCTTTTATGGCAGTTTTGTCATCTTCGGTGAAAATATGTAAATAAATGA
R
TTTCTGAAATTCTATCTTTTAAAAAACAGTTCATAGTCTGAAATTATGCATTTAAAAAAGGCAGTTCATAGTCACACAAATTTGATGGAATTTTGTGTGA
Celera SNP ID:            hCV29091302
SNP Position Genomic:     226012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16779):
ATTGGCTTAAGCAAATATGTGCCAGTTTGTCCTAACTGGCGGATAGTACTCATAATGTTAGTTGTTAGTATTTTAGTAAAATTCCCCACAGTGACAAATC
Y
GCTGAATCAGATGCTAATTATAGTTATTAATGAACTAGCAATTATTTGTGGCAAAAAACCCAGGTCACCCAAAAAAACAAAGGAAACATGCACACAGATC
Celera SNP ID:            hCV29091303
SNP Position Genomic:     225596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16780):
TTGCTAAATTCCACATTTCCACCTTTTTTCCTCTGTACCATTATAACTTAAAACCTAAAAGAGTTACTTTCAATATTTGACACAGCTTAAGATTTAGATA
Y
CTGAACTACTCTTCTCCTTTAGCAAGAAGTAGAAGGATGATTTTCATAGTCCGTACTCTTCGCCGTTTGCTTTCCTTGAATTACCATTGAGGACCATCAC
Celera SNP ID:            hCV29091304
SNP Position Genomic:     223631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16781):
AGAGAAGATAAAATGTATATTATGTTTTTGCCAAATTCTGTAGCTAGATATAGCTAGTGTACAAAATGTATGTTTTGGGGGAGAGAGAAGTAGCTACTGG
Y
TGAAAGCCATATTGTGAAACAGTTGAAAGGAGTTCTGAAGATTTTAGAGCAGGTTATTGATAGTGATCAGATCTTTGTTTTATAAAGTTGTGTGAAAGAT
Celera SNP ID:            hCV29091305
SNP Position Genomic:     221170
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16782):
ATGATTAAAATGTCCTTAATTTTAAATGTAGGTAAGATCAAATAAAAAGTAGGCACAATCCTAGCTTTGGATTTTTGGTAGAAAATATGAAAAGCAAAAC
M
GATTGATTCCCCTGAGTGAATGATGGTAAGTTGTCGAGTTTTCACCTGTTCCTAGAGGCCCGTTTAGTTTAAATTTTGTTCCAGGGACTTAATTTTAAGA
Celera SNP ID:            hCV459144
SNP Position Genomic:     60029
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16783):
CTTTAGAATTATATACTAAATCAATCTTTGTATATACCGTATGTGGTAAACTCCTTAGAATTATTTAATTAATGAACTGCATTTATATGTCCTGTAAAAT
S
TTATTTGCTCCATGGTAGGTCTTTTGCTTCTTAGATGGTGCAAACTTAGTCCATCCTTCATTCCATGCTTAATTTTCTTAAATTCTCAATTAGAGTTCAG
Celera SNP ID:            hCV29091306
SNP Position Genomic:     220161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16784):
AGGTTAATAGGTTCTCAACGTGGCCGGGCGCGGTGGCTCACACCTGTAATCCCAACACTTTGGGAGGCCGAGGCAGGTGGGTCAGCTGAGGTCAGGAGTT
Y
GAGACCAGCCTGGCTAACATGGTGAAACCCCGTTTCTACTAAAAATATAAAAAATTAGCCTGGGGTGGTGGCGTGTGCCTGTAATCCCAGCTACTTGGGA
Celera SNP ID:            hCV29091307
SNP Position Genomic:     216577
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16785):
AAATAAATATGTAAAGGAAAAATCTATTCAAAATGTGAGGAGAAATTGATAAAATAGTTACAATGTGTGACTGTAATGTATTTCTCTCATATTAGATATT
Y
CTAGTAGACAGATATAAGTAAGAAAATTAAGTAATCAAAAACTTATTTAGTAAATATAGCTAAAACCTTATATCTCTTGAACAGATAATACCCACTTTTA
Celera SNP ID:            hCV28016883
SNP Position Genomic:     152541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16786):
TGCGCAGAACTTTAGTGGGCAGAGGAAGAATGTTTAGTGAAGGCAACTTTGAAAAGCAATGGTTGCAGAAGTAGGGTAACCTATGAAAAGAAAGCAAAGG
K
TCACATAATTAGTTGGTTCAAAGTAACATTCATCCCTCTCTCAATTCCCCCATTGCAAATGCAGTACATCTTTAATGTCAGATCCTGGAAAATAGAAAAT
Celera SNP ID:            hCV459146
SNP Position Genomic:     59133
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16787):
ACCAAAGAGCCACTTTACGTTTTTATGTTAGCAAGAAGTTGTCCGATTGTAGAATAATTACATACCTTTAAATTTTGTTCTGACATTTATAATTTTTAAA
Y
ACAAAATAGTTTAAGAGTTTGCATAGTGGGTAAGAAATACTATATGCTAATTGAGACAAATGTTGATTCAGGAAAACATTTTATATAACCATACAGAAGT
Celera SNP ID:            hCV29091308
SNP Position Genomic:     198369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16788):
AAGTAATTCTTTTGTTCCAAATAACACCTATAACAAAATTACTTTTAGTAATTCCTTATTTTAAGTGATTTCACATACTTTACACAATGTAAAGGGGAAA
W
TTTTTTTTATATGAAACAGTGGAGAGAAAATTCAGTGATGTAGACCACATTGTGTCAGGAAGAGATTCACATTTATATCACTTTATCCTGTTTTTGACCA
Celera SNP ID:            hCV29091309
SNP Position Genomic:     194053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16789):
GATACTGATTATAATTAAGATCACATTCAAAAAAGTTTCCATGCTAGTTCTTTCCACCTCTCTCCTTGAAGGAGAGAAAAAAATCTCCCCATGAGCTTGC
R
TGACTGACCTTTACTTTCCTTTATCATAAGGACCATTTTGTGTTTATTGAAAAAGGAATTATAGCTTATTGCTTGACAGAAATGACACTGAAGAATATTA
Celera SNP ID:            hCV978342
SNP Position Genomic:     243927
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16790):
TAATCTCAGTTTATGGATTTGTTTTTAAAAGTTATTTGTTAAGGATACTGATTATAATTAAGATCACATTCAAAAAAGTTTCCATGCTAGTTCTTTCCAC
Y
TCTCTCCTTGAAGGAGAGAAAAAAATCTCCCCATGAGCTTGCATGACTGACCTTTACTTTCCTTTATCATAAGGACCATTTTGTGTTTATTGAAAAAGGA
Celera SNP ID:            hCV978343
SNP Position Genomic:     243884
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16791):
ATCCTGAGGAAGTAAAGAAGTGTAAAATATTGTCTCAAGGTGTGGTTGTCCCCTGTGATGTAGCATTCAGACTTCCCCTTAGATTCCTTTGCCTTATGAT
R
TATGCTTATGAAATTATCACTTGAAATCCACTTTCAGACATGCAGTTTATTAAATAACTGATATTTTAAAGACAATTCTAATCTCAGTTTATGGATTTGT
Celera SNP ID:            hCV978344
SNP Position Genomic:     243705
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16792):
TCTAGTAGAAATTTTATTAACAAATAATCCTGAGGAAGTAAAGAAGTGTAAAATATTGTCTCAAGGTGTGGTTGTCCCCTGTGATGTAGCATTCAGACTT
S
CCCTTAGATTCCTTTGCCTTATGATGTATGCTTATGAAATTATCACTTGAAATCCACTTTCAGACATGCAGTTTATTAAATAACTGATATTTTAAAGACA
Celera SNP ID:            hCV978345
SNP Position Genomic:     243679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16793):
ATCTCTTAACATGAGAAACCTGACCTAAACATGGAAGATGTTATGATATTTACAAAACCTTTATTTCTCTTCGAAGGAAGAGAAACGAATTTAGCTGTAG
R
ATACATGTCCAATGAACACTAAGAATTGATTACCACTGACAAGAGAGTATGGAGTAAAAACAAGTACAGTATATAACCCTAATATCAAAGAAAAGTAAAA
Celera SNP ID:            hCV3164270
SNP Position Genomic:     226465
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16794):
TACATATATATTTAAAATTGTTATATCCTCTTGCTGAATTGACTCCTTTATCATATAGTGACCTTCTTTGTCTCTTCTTATAGTTTTTGTCTTGAAGTCT
T
ATTTTGTTTGGTATTGTATAGCAACTCCTGCTCTTTTTTCATTTCCATTGGGATGGAATGTCATTTTCCATACCTTTGTTTTCAGCTGATATATGTTTTT
Celera SNP ID:            hCV26555417
SNP Position Genomic:     45208
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16795):
TGAGTTAATTCCTTACAATTAGTATAAAAGTGGGATTCTGTCATTTTGGTACTGAAGGTAGGTATCTAGTAGAAATTTTATTAACAAATAATCCTGAGGA
R
GTAAAGAAGTGTAAAATATTGTCTCAAGGTGTGGTTGTCCCCTGTGATGTAGCATTCAGACTTCCCCTTAGATTCCTTTGCCTTATGATGTATGCTTATG
Celera SNP ID:            hCV978346
SNP Position Genomic:     243615
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16796):
TCAAAATCTTTATCTGTTACATATACAAACCAAAGTATTTACTGATGAAATAATACATGGAATTTGCTTTTCAATAATTCAGAAGTTGAGTAAAAGATTA
S
ATTAAACAAGATTGGCTAATGTTGGTAATTTTGAAATTTAGTGCTCAGTATCTAGTTGTTCATCATATCAGTGTCCCTGCTCCTGTATACATTTGAAAAT
Celera SNP ID:            hCV3164271
SNP Position Genomic:     227425
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16797):
TTGGTTTTTTTGTGGTGAAAGGGTCTTGCCGTGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCTTGAGTAACTAG
K
ACTGTAGGTGTATGCCACCAAGTCCAACTAATTTTTGGATTTTTTGTGGAGATAGTGTCTTTGTTATGTTGCCTAGGCTGGTCTTGAACTGCTGAGCTCA
Celera SNP ID:            hCV26502
SNP Position Genomic:     24057
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16798):
CTTTTATTGAACTTTCTGCAGTTTAAAAATCAGTTTCACATATATGGTCTCATTTGATCCTCAAGACAACTCAGTGAAACAGACAGGATATGTATGATTA
R
CCCCATTTTACAGAAGAGGAAAACAGAAGCTCTGAGGTTGTGGTTTAGCTAAGGTCTCACCATTTAATATGTGGCTGAGTTCAAACTATAACCCAGATCA
Celera SNP ID:            hCV978347
SNP Position Genomic:     243310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16799):
TACATATTTTCACTGAAGATTTGACATTCATGCTTCATAGAATATGTGACCTGACAAAATATCTTGTAAATATAAACTAGTACATCAAAGTTTACATTCA
K
TTCAGGCTGTTAGCTATGAAATTAGGGAACAGGATTCTAGAGTCCCTTCCAGCTCTAAAATTTCTAGAAATCTAAAGAAAGTAAGTGGAGAGACTTCAAA
Celera SNP ID:            hCV3164272
SNP Position Genomic:     227673
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,11)      total(G,11|T,4) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16800):
TTAGGGACAGGGTCTTGCTCTGTCACTCATGTTGAAGTGAAATGGTGCGATCTTGGCTCACTGCCGCCTCAGCTTCCCAGACTCAAGTGGTCCTCCTACC
W
CAGCCTCCTGAGTAGCTGGGACTAAAGGTGCATGCCACCATGCCTGACTAATTTTTTGGTTTTTTTGTGGTGAAAGGGTCTTGCCGTGTTGCCCAGGCTG
Celera SNP ID:            hCV26503
SNP Position Genomic:     23901
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16801):
GGGAAGGGATTACTTTTGTAAAGGCCTTTGGATGGTACTATCAATAAATACAGCAATGTTGTTATAAAAGCATTTTTCCAATGGTGATTCAGCTTTTTGA
Y
ATGTACTTTTAATCTCAGGACCCTGCGTTATCTGACAGATTGGTGTTTTAACGTGGGCTGAAAACTCAATTTACTAATAATCCAAATAATGCCTTTTATT
Celera SNP ID:            hCV978348
SNP Position Genomic:     243117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16802):
TTAAAAATGACATCTTTTATCACTGTGATTTGTGACTCCTTTTAAGCATCCATAACTAGCATTGATTGAAGTTGTTTCAGTGTAATGAGTTCCCCAAACA
M
TACATTATGGTTCAAAATGAAGCAGTTGTGTAAGAGCCTCATAATACATTTATAAATCCTCAAGTATGAGGCAACTTCTTTCTGAGGGATAATTTTAGGG
Celera SNP ID:            hCV26013424
SNP Position Genomic:     109228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,10)      total(A,10|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16803):
CTTTTCTTAACATGTTTTAAAAATAAAAATACAATGGCTTATTTAAAATGTCCCTATGCATGGTGAAATGTTAAATACCAAGTGGATGAATGGTTCTCAA
M
TATATTGTAATGGAGAATTATTCACATGCATCTATTGTTTAAACTAATAAGTAAAATAGACTTCCTTTTTCTGTTCTGTTTTAAATGTGCACTAAAATTA
Celera SNP ID:            hCV1936376
SNP Position Genomic:     296263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16804):
AATCCCGGCTACTAGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAAGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGC
R
ACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAATTAAATTAGCTAGGCATGGTGGCATGTGCCTGTAGTCCCAGCTATTTGGGAGGCTGA
Celera SNP ID:            hCV11761479
SNP Position Genomic:     275012
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16805):
TGGTGGTTTGCTGCAGTATCAACCCATCACCTAGGTATTAAGCCCAGCATGCATTAGCTATTTATCCTGATACTCCCCCTCCTCCCGTGCCCCCTGACAG
R
CCCCAGTGGGTGTTGTTCCATTCCCTGTGTCCATGTGTTCTCATTGTTCAGCTCCCACTTATAAGTGAGAACATGCGGTGTTTGGTTTTCTGTTCCTGTG
Celera SNP ID:            hCV3164274
SNP Position Genomic:     228213
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16806):
GCCTCAAAGTATTGGGCTCCAGTGATCCTCCCACCTCAGCCTCCTGAGCAGCTAAGACTATGGGTACATACCCCCATGAATGGCTGAGTTTTGTTTTATT
W
TTTTACTTGTAGTAGAGGCAAGGTTTTGCTCTGTTGCCCAGGCTGGTCTAGAACTCCTGGCCTTAAGTAATCTTTCTACCTTGGCCTTAAGTAATCTTTC
Celera SNP ID:            hCV26013425
SNP Position Genomic:     114516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16807):
GCCAACTTTATATTAATTGTAACATTAACTCTAAGTTTTTTAATAGAAAAGAGACAAAATGTGCCTTGGGGCTGTGCCACCCTGAAATTCAAACAACAGT
R
CTTTTGTGTTCCTATTCAGGCATAATCTCCTTCTCTATGGTCCCAAGGCACAAGTGTTAAGTAAATAAAGGGACTAATAAGACTATTGTTTACATAATTA
Celera SNP ID:            hCV1936377
SNP Position Genomic:     294306
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16808):
AGAACATTTCTGATACTTCAGAAACCCACAGGAATAATTAAAGTCATAACATGGATTTTCATAAAGGAAATCCAAAAGAAAAAAGTAACCTCTACTTTGT
R
AAGTTGTATTCTGATTAGTAAAGCCACTAGCCTGTATGGCACCATTGCGCAGATTCCAAAAAGTTTCCCTTGAATGTAAGCTGGATTTTAGCTCCTATTC
Celera SNP ID:            hCV3164275
SNP Position Genomic:     251500
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16809):
ATCCTGGCCTCACCTTTTGTTACTGCATTTTTGTTAACCTGCTGAAAGCTCTACTGAGCTTTTAGGCCTCTCAGCTTCCTCTTGTCTAATTAACACATCC
T
TTTTTTTTTTTTTTTTTTTTTTGGGGAAAAGCAATTCCAAAAGCCAATCAGAATTCTAGGTTTCTAGATTTACTACTTCTTCTGGGTCTTGTCTGCATAA
Celera SNP ID:            hCV26013426
SNP Position Genomic:     108850
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16810):
CAGAAGTAACCAAACTGCACAGCTGATTTTTACTTTAAAACATTCTCTATTTAAGTTTTATTTAAGTTCACCATTTAATGTCCTCTAATGCAACAATTTT
R
CTAATGGGAATCTGTAACTGTTTCACGTAAAAATGAAAGAAAGGTATTCTTGATGCTTTTCCTTCTGGTTTGACAATTTTGTAAGGAATCAAAGAGAATG
Celera SNP ID:            hCV1936378
SNP Position Genomic:     291280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16811):
GTAAATTATATATTGTGTTAGAGAAGGTATTAAGTGTCTATAAAAAAGGAAAAAGGAAATCAGAAGGGAGGGATGCCAATGGGTTAAGCCTTACTAAGAT
R
GTAATATTTGAGCAGACATACTAGAGCTGAGCCATGTGGGTCTCTGGAGAAAGTGCCTTCCAGGTAGAGGGTCCCAGGGAATAACCTATAGTGGGACTGT
Celera SNP ID:            hCV3164276
SNP Position Genomic:     249428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16812):
TGTGTAGTCTTCCTGCAATCTGAACAGCCTTGCTAAGATTAACAGTTATACTTCTTTTTATCCCTTATCTTATTCTGCCTCCCTGCAGTATTTGGCACAC
R
CCTTTTTTCCTGACCACTCTTCCTCCAGTCTCTTCTGCAAGTTGCTTTTCTTCTGTTTTTACTTAAATACAGGTCTTCACCAGATTTGCGCTTTATCCTT
Celera SNP ID:            hCV27496664
SNP Position Genomic:     275910
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,204|G,1287)   total(G,1287|A,204) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16813):
GTGCAGTGGCCAATCTCGGCTTACTGCAATCTCTGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCACC
A
CCATGCCTGGCTACTTTTTTGTATTTTTTTAGTAGAGGCGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCACCCGCCTC
Celera SNP ID:            hCV26013427
SNP Position Genomic:     115670
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16814):
GGCCAGGAAAACTTTCATGTGATTCTCTGTGAAATATCCAGGAAGGGTTTAGGAAGGAGGTTTGTGTTCAATGTCGTGGAAACTGAGGTGCCTTGCTTTT
R
TTACATTGCATGTCCTCTGATAACAGCACTTATGAGTAAGTGCAGTGGCCAAAAAGCAGAAAACAAAAAACATGTAGCTCCGAAATCGCTAAGGTTTTTC
Celera SNP ID:            hCV1936379
SNP Position Genomic:     289051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;JBIC-allele(A,501|G,1000)   total(G,1000|A,501)
SNP Type:                 INTRON


Context             (SEQ ID NO:16815):
TTTATTTGAAGTAATATTTGCTGGAAGATTCAAATATATTTCTTCGAGTCTGTGCTTATATGTAAGAGTTAACCAAATTTGCCGTTTACTTTTTTAAATC
Y
TATTCTAGGTCAATACTAGGTTAATGCTAGCCTCAATGAAATGGATTGAAGGTAAAATCAAGACCCACTTTCTACAGTTTATAGGATAAATGAGACAATA
Celera SNP ID:            hCV3164277
SNP Position Genomic:     247600
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16816):
AATTAGTCATTTTGCCTATTGTCTTTGAATTTGGAGGTCTTTCCAAGTGATTTGAATGGCTCATTTTCCTCTCAAAATTTGTTCCTAAGAAGATTCAACT
R
TTGCCTTCTTTTACTCTAAATAGAATTTCCCATTACAAGCAGAAGAATTCAAAATTATTTCTTTAGCCTTACATCAATCCTTACGTAATTCTTTAAAAGA
Celera SNP ID:            hCV27496665
SNP Position Genomic:     185272
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,270|G,1230)   total(G,1230|A,270) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16817):
TTTAGTATTAAAAACCATTTATTTGAAGTAATATTTGCTGGAAGATTCAAATATATTTCTTCGAGTCTGTGCTTATATGTAAGAGTTAACCAAATTTGCC
S
TTTACTTTTTTAAATCCTATTCTAGGTCAATACTAGGTTAATGCTAGCCTCAATGAAATGGATTGAAGGTAAAATCAAGACCCACTTTCTACAGTTTATA
Celera SNP ID:            hCV3164278
SNP Position Genomic:     247583
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,9)      total(G,9|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16818):
AAAATTTATATACATAAGGAAGAAGTTATCTTTAGTATTAAAAACCATTTATTTGAAGTAATATTTGCTGGAAGATTCAAATATATTTCTTCGAGTCTGT
K
CTTATATGTAAGAGTTAACCAAATTTGCCGTTTACTTTTTTAAATCCTATTCTAGGTCAATACTAGGTTAATGCTAGCCTCAATGAAATGGATTGAAGGT
Celera SNP ID:            hCV3164279
SNP Position Genomic:     247553
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,13)   total(G,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16819):
AATTCTAAACCACAATGCCTAATATATCTATTGAAAAACATAATTTTACACTTGATGAACTTTTAGTGGGGTCTTTAAAAGTAACTTTCTTTTACAAAAA
Y
GTAAAGTTTATTTTATACCTTGAAGAGTCTTTTTCTCTTTCATTTTATACTTATCTCTTTCTGTGAACCTCTATAGAGATAAAGCTAAAATTATTAAGTC
Celera SNP ID:            hCV29091310
SNP Position Genomic:     183846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16820):
TGTATCTCTTTTTCTTAATTAGGTTTTGTTACTTGAGGATCTTGAACTTTTTTGTCTCTCACTTGCTACCTTTCAGAATAAATATTTGTTGTTAACTTTA
Y
GGATTAATATTTGTTCTGCCTTGTTCACTGGATATTGTGAGACTGAAATGAGAAAAAGATGCTTTGAAAAGTAATGTCACAGCTGGGTGTCGTGGCACAC
Celera SNP ID:            hCV11687319
SNP Position Genomic:     208447
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16821):
ATAAAAACCATAGGGATTATTAGAAAAATGCAGTTAGAGTGGCAACACTCAAAAACTATATTGGTGACATATTTTTTAAAAAGGAACCTAAAAAAAAAAA
M
CAGAAGTACAATTTTACACGTGTTAAATGGTTAACAAATAAATACTACAATGATACTGCTCTTTATATTGAAAAAGACTTGAGGTTTGCTTATGGAAGAA
Celera SNP ID:            hCV29091312
SNP Position Genomic:     162898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16822):
AATCAGTATGCAGTAAGGGCATCAGTTTTATCACACTGCATGAATAGATTTTTAATAGCACTTAGACCTTTTTCTAATTGCACAAGTATATGGATTTCTT
S
TGTCTCACCAAACATGCTAAATAATAATTTAAAGACATGCTGTTACACTGTTTTAAAATATATACCTTTTTATTTAAAAGCTTTTTTGATCATCTCATTC
Celera SNP ID:            hCV29091313
SNP Position Genomic:     156846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16823):
CTTTAGCCCAATTTAAAATAATAGATTGGGAGTAAGGTCTTAATGCAGTGTAACCTTTGGAACGTTAGAAATAACCTCTTTTCTTTCCAGAAATCAGTAT
R
CAGTAAGGGCATCAGTTTTATCACACTGCATGAATAGATTTTTAATAGCACTTAGACCTTTTTCTAATTGCACAAGTATATGGATTTCTTGTGTCTCACC
Celera SNP ID:            hCV29091314
SNP Position Genomic:     156755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16824):
ACCATAAGCAATCATATTTGATGCCCCTTAATTAGAGCACCTTTTTTTCTTTCCAGGTTCTTTTTCCACCTCAGCAATCGAGACAATACATTTGCTTACC
R
TGCTGCTCTCCTAAGTGTTCTTTTGCATGTAAATTAATCTTGATTCAGTTTACACTGTCATGCTGAGTGGTACAAATTGCCTATAACAATAAAACAGCAT
Celera SNP ID:            hCV27495433
SNP Position Genomic:     282191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16825):
TTAAAAAAACAAAATACTGAGAAGTTGTGGTAGAATACATTCTTTACAATGCAATAAGAGCAGTTTTTTGTGCACTGTTTTAAGTAACTGTTGACAAAGG
R
TTCAACATATAATTTAAGGTGAAACTAAGGACCATGATCTAATATTGAAATAATGTCTCCTCTCTTCCCATTGGTTATGAAGCATTTATCGTAAAGATTC
Celera SNP ID:            hCV158839
SNP Position Genomic:     90540
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16826):
ACCCACTGGTCATTCAGGAGCATATTGTTTAATTTCCATGTGTTTGTATAGTTTCCAAAATTCCTTTTGTTATTAATTTCTAGTTTTATTCTATTGTGAT
Y
AGAGAAGATGCAATTATTTCAATTTTTTGAACGCTTTTAAGACTTGTTTTGTGACCTAACATATGGTCCATCCTTGAGAAAGATTTATGTGTTGAGGAAA
Celera SNP ID:            hCV26555420
SNP Position Genomic:     44778
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16827):
TATGCCAGGGACAGTATCTCTTCATAAAACACACCTCAGGAGAAGCAGTTTGCCAGCCCCCTAATACTTTCTGATGTTTTGATGTCCTGCATATTTTTCC
R
ATTAAGTTTTGAGTGCCATGTTTTTAGTTGTATTTCCACATTCATTATTCTCACGTAGACCCCTTCAGCGGGTTTGCCATATATGATTATTTTTTTAATG
Celera SNP ID:            hCV262721
SNP Position Genomic:     169946
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16828):
TGCTTCTCAGATCACAGATCAGCCATTGAAAAAGTTGCATGCATACAAACTATACTATAAACTCTGAAGATAGGTTTCACAACATAAGAATTCAGAACAG
K
GGTTTTCAACTAGGCACCGCAGTTACCTTTATTAGTTTCCAGTCACTGATGTAACACATTACCACAAACTTAGTGGCTTAAAACAGTGCAAATTTATTAT
Celera SNP ID:            hCV978351
SNP Position Genomic:     240170
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16829):
GTTTGGAAAGAAGAAAAAGAAGGGTGGAAAGGCTGGATGGACTCTAAAATCAAGGTTAGGAAATGAATTGTAAGTTATTTACTCAGGGTACAGAGGATGT
M
AGTGTGAAAGAGGGGCTCTTCATAAAATGTCGAGTTTGTCAATGGGTGATAATATGCAGTTGGAAGCTTCATGCCAGCCTTGCGCGCTGACAGTGCTGCT
Celera SNP ID:            hCV978352
SNP Position Genomic:     237861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16830):
CTTCAAGGGCCAATCTCACTTGGCTTTAAATCCCCAGATATTCACACACTACATAGGATCAAGGTTGTATTCAGTGTTTATTGAATTGATAAATAAATTG
K
ATTTATTGGTTTGCCTTCAACAATCCACATATGGAAAAAATATAAGGCCACTTACAAGAATACAATACATAATAGCATAAAATAAAAGTCGATTTTATGT
Celera SNP ID:            hCV1936380
SNP Position Genomic:     277452
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16831):
TAGCATCGTTCCTGAAAAAATATATAGTGCTATTTGAAGATTATGTAGCCTGTGATATGCAAAACTATAAGCACCGAACTGCTATTACTGTGGAAATGAG
Y
TGTAGGTATAATATAGATTTACTTGATGAAATGATCTTTATTTTGTTGTTAAGCTGACAAGTGCTGGAGAATTTGCTTTATGTATACATTGTGGGAAACC
Celera SNP ID:            hCV978353
SNP Position Genomic:     236355
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)   SC_12_A(T,9|C,11)   SC_12_C(C,0|T,23)   SC_95_C(C,17|T,172)   total(C,28|T,204) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16832):
CCTTAAATCCATTTTTCTTATAGAACGTATTCCTAAAACTCCTTTTCCACCTAGTGTTAATTAGAAAGTTGACAAGTGTCATTTTCAACTTTATTATGTT
W
ACATATTTTATCATTTTTAAAAAAAATTAAGCTCAGTACTATATTTTATGCAGATCCTGTTTATTTTTTATTTGATGTACACTTTAACCTCATTGATCCA
Celera SNP ID:            hCV978354
SNP Position Genomic:     235726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:16833):
CAGTGGACCAGATTTGGCCTCTAAGCATGGTTTGCTGGTGCCTGCTTAATACCGAGCATGAAATAAGATGCTCATTAAATATTTGTTCATTATGTGTTCA
M
GTATTTCCACAAATATATTTTTAATATATATTATTACCAAAATAAGAGGTGAGAAAGTCTTGTGTGCTTTATAATGTATAGTGATTACTAAAATAAAATA
Celera SNP ID:            hCV3164280
SNP Position Genomic:     247325
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,13)      total(A,13|C,1) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16834):
GTATGTGGTGTCCTTCAGGAGTGTTGGGAAGAAGAGTTTCTATTAAAAAGAATAAACAAGTAATTCAAAAGTGTTGTAAATAATGATGTAACTCAGTGGT
Y
CCCTAACTTTTGAAATTGTTTACCTCTATTAGTAAAAATATTTTGAGTATGTACTCTGTAGAAGTTTATTTGTAATTATATATGTGTGTGTATATATATG
Celera SNP ID:            hCV1936383
SNP Position Genomic:     274457
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16835):
AAAATATTCATACTTTTCAATTCAGCAATTTCACTTTTAGTGTATCAAGCCTAGAGAAGTATTTGTGCTTGTACGGAAATAGATCTAGCCAAGTATAAGC
R
TTGTTTATAATGGAGAAAAATTGGAAATGATAATCTGTGGGGGAATAATGAAATAATGATATATCCCTATTACATATGTAGGTTTTGAGTACTTCCTGTG
Celera SNP ID:            hCV1936384
SNP Position Genomic:     272999
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;(G,-|A,-)   Caucasian(A,84)   African-American(A,84)   Asians(A,84)   total(A,252)
SNP Type:                 INTRON


Context             (SEQ ID NO:16836):
GAAGGTAGAGAAAAACATGTACTCTTGTATGCTGTTTGTGGGATCTTAAATTGGCAATATCTGTAAAATATTCATACTTTTCAATTCAGCAATTTCACTT
W
TAGTGTATCAAGCCTAGAGAAGTATTTGTGCTTGTACGGAAATAGATCTAGCCAAGTATAAGCGTTGTTTATAATGGAGAAAAATTGGAAATGATAATCT
Celera SNP ID:            hCV1936385
SNP Position Genomic:     272935
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;SC_12_A(T,1|A,16)   SC_12_C(T,5|A,18)   SC_12_AA(T,8|A,8)   SC_95_C(T,41|A,132)   total(A,174|T,55)no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16837):
GAAAAGAAGAGACAAAATTATAATTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCGCTCTCAGCTCACTGCAACCTCCGCCTCCTTGG
W
TCAAGCGATTCTCTTGCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACGCACCACCATGCCCGACTAATTGTAGTATTTTCAGTAGAGACAGGG
Celera SNP ID:            hCV1936386
SNP Position Genomic:     271230
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16838):
TGGCATATAATGGATGTTGAATAAATAAATGTGCTAGGCCCAGTGATAAGTGCTTTATGATTTTATTAAGTCTTCATGACAACCTATTTGAAATAGACAT
S
AGCTTTTAGTTCTGTTGATTTTTCTCTATTGTAGTTTTGTTTCATAGAGGCTTTGTGATACTAAAATAAGATACAAGCTTCAGAAAATAATACCAGGTAG
Celera SNP ID:            hCV70530
SNP Position Genomic:     23486
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16839):
AGGAAAAAGCATGGCAAATATAAAACAAAAAAAGGTGGCTGGAGAGGCCATGCACACCACACATACTAGTTTTCACAATTCACGTCAGAGATTAAATCCT
R
CTTTTACTAAACAGGTAAAAAACAAAATTTAACATATGCTATTTATGAGAAACCTCCCTAAGAGAGAATGGCACAGAAAAGTTGAGATTAGATAGATGAA
Celera SNP ID:            hCV1936387
SNP Position Genomic:     270096
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16840):
CTTTCCTGTTGGCATGGTGTCTTTTTCAGTAAACTCCTAAGGAAAACAAACAAAAAGTACTACAAGTTGATGATAAGGTGGGTGGGCAATATCCTGTATA
R
AAATGAAACTATGTTCTAGAAGAGTTGGATTTATTTCTGGACACCGACCTTTTTAAAAGCAATGCATCATTCTCCATCCAACAAATGCTGCCATAGCCAA
Celera SNP ID:            hCV3164285
SNP Position Genomic:     242593
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:16841):
TGGTTGTCTCCTTGTACTTCGAGACCTCAGATCACTTATCCGTGGAGGTCTTTTGTGATCACCCAGTCTTACTTTATTGCATTCCTTATTTTAATTGTTT
S
TGTACTACTTATCTGATCTTTCTTTATGTTTTTGTTCCTCCCTGCTTTCTTCCTTCTCTGCCTTGCTCTCTCCCTCTTTACTTCCCTCCCTTCTCCTTTT
Celera SNP ID:            hCV70531
SNP Position Genomic:     23187
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16842):
AAGTGTTGAACAGTCTTCCACTTTCAAGTATACTAAGAGAATGGATGAGCTTTTTAAAACTTGGGCAAAAAATTAGGAGTAGTAAACTAGAGAAATCTGC
R
TATTTAAGGAAGACTCATTTGTCTCTTGTTCTTTTACTAAAGCAGGCAACCAATATAAATGCAAGCATAATTATCCATTATTTTGGCACTGATTGATACA
Celera SNP ID:            hCV28949302
SNP Position Genomic:     84640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16843):
CCTGGCTAATTTTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCATACTGGTCTCCAACTCCGGACCTCAGGTGATCCGCTCGTCTCAGCC
K
CCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCACAAGGATATATTTTCAATGTCATACAGATTTATTTAATTTTGTATAGTGGCTGAAT
Celera SNP ID:            hCV167088
SNP Position Genomic:     69788
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16844):
CAAGAGGAAGAGGAAAAAGCATGGCAAATATAAAACAAAAAAAGGTGGCTGGAGAGGCCATGCACACCACACATACTAGTTTTCACAATTCACGTCAGAG
A
TTAAATCCTACTTTTACTAAACAGGTAAAAAACAAAATTTAACATATGCTATTTATGAGAAACCTCCCTAAGAGAGAATGGCACAGAAAAGTTGAGATTA
Celera SNP ID:            hCV1936388
SNP Position Genomic:     270086
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16845):
AACAGTGGGAAGAAATAGATTAATAAAGACTACAGAAGAGGAGCTAAAAGTTAGAATTTGCCATAAATTGGATGGAGAGTTCACTGAAGCAAACCTCAGT
Y
GATTGTGGAACTAGATTCATGCCGTGGGAAATCTCGGAATGACTTAGCCGTGACTTCTTTCCTGTTGGCATGGTGTCTTTTTCAGTAAACTCCTAAGGAA
Celera SNP ID:            hCV3164286
SNP Position Genomic:     242436
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16846):
TTTATGAGAAATGAAAAAAACATATGTATCATTATAGTTATTTACCCTACAGTAAAGCCTGTTTGCTAGAGATTTAGGGAGCAAGTCTTCTAGTATTTGA
R
TGGCATCCTGGAAAATGTTAGGTTTGTAAACAAATGAAATTCAAACTAGAATCAGCAAACTAACATACATACCACTGAGCAAATAGCATTTTAATTATTA
Celera SNP ID:            hCV1936389
SNP Position Genomic:     263837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   JBIG-allele(A,157|G,1320)   total(G,1320|A,157) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16847):
GACTTTGTGTCTTAAACCAAACGGGCGACTTCATTTTTCCCCTCCCTGGGAACTAAGTGTGGAAAGGAACCCTAAGGGTCCACTGCTGTCTCCTAGTGGA
Y
TAAACTAAAATGAGAGGAACAGTGGGAAGAAATAGATTAATAAAGACTACAGAAGAGGAGCTAAAAGTTAGAATTTGCCATAAATTGGATGGAGAGTTCA
Celera SNP ID:            hCV3164287
SNP Position Genomic:     242318
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16848):
TTTTTCAAAGATTACTGTCTATCAGACTTTGTGTCTTAAACCAAACGGGCGACTTCATTTTTCCCCTCCCTGGGAACTAAGTGTGGAAAGGAACCCTAAG
K
GTCCACTGCTGTCTCCTAGTGGACTAAACTAAAATGAGAGGAACAGTGGGAAGAAATAGATTAATAAAGACTACAGAAGAGGAGCTAAAAGTTAGAATTT
Celera SNP ID:            hCV3164288
SNP Position Genomic:     242294
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,4)      total(G,4|T,4) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16849):
TCTCCCTGGCTAGTTCTTTTTTTCAAAGATTACTGTCTATCAGACTTTGTGTCTTAAACCAAACGGGCGACTTCATTTTTCCCCTCCCTGGGAACTAAGT
R
TGGAAAGGAACCCTAAGGGTCCACTGCTGTCTCCTAGTGGACTAAACTAAAATGAGAGGAACAGTGGGAAGAAATAGATTAATAAAGACTACAGAAGAGG
Celera SNP ID:            hCV3164289
SNP Position Genomic:     242276
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16850):
CATAAGTTTAACAAAGTCCAAATTTAGAATTTTGTTTAAAGTATTTTTAAGGTAAGTTCTTAAGTTTTTCAGTGGTAGCCATAAAATAACTTATCAAAAT
S
CAAAATTTATAAATGTAGTTTTTTGATGAGCAATTTTCTGTAGGTACAGAGGTACTTCAGGGAAGTACTTCATGAACTCCACATCCAGATCCTGTCTTAA
Celera SNP ID:            hCV158840
SNP Position Genomic:     90217
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16851):
CTGTTAGTGGCATCAATTGTAAACTGAAAGGAAACTCTGACACTGGGGCCTGCTAGGAATGTTTTTAATTGCATGAATCTAGCTTTTTACAACTGAACTT
K
CTCTGGGAGATGAGAGGTTTTCAAGAATTATCAAAATATTTTACTTCAGTGATTTGGAAGTTAAAACTCTAAATATTTACCATTATTTTTTAGAATATGA
Celera SNP ID:            hCV158841
SNP Position Genomic:     89912
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16852):
GTCAGGGAGAAGACCGATTGACTTTAAATTTACATATTAATGAGAAGATTTGTTAAGAGGGTGCTTGACTATAGAAAATAACGGCGTATTTATAGGGCAC
R
ACATTTTATAAATAAAGCTGATGCAGGAAAATGGAAATTAAACCTTTTAGGTTAATAAATTCAAGAGACTGCTAAAATGCACATTTGCATTTTTATTTTC
Celera SNP ID:            hCV158842
SNP Position Genomic:     89460
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:16853):
TACATTTTTTAACTCAATATAGGATATAGTGTTTCTCTTTGTTTTTAATACCCAAGTGCTATTTCTTTAAAAATCTTTCATAGTCCTGCTTTTGTCAGAA
M
CGACACTTGAAACTCTCTTGTTAACAAGTCAGTTCAGCCTGTGTTTTCTGGATTGTCTGCTAAGTGCAAGGTACTTTAGTAGGTGCTGTAATAGATAAAT
Celera SNP ID:            hCV9966819
SNP Position Genomic:     203791
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16854):
TGTATCTGATAATCCGATAAGTTAAAGATATGCTGTTTGAGCACAAAGGAGATTCATTTAAACCGCTATTGCTATAGATTATGCCTATGATGCATTTTTA
Y
GAGGAACCAGTAAATTATATAAAAAGATATAGGCAGAAAGTTAATATAAAAATATGAAATACTAAAAATTTTCTAAGGAAAAGAGAAAAGAGGAAGTAGG
Celera SNP ID:            hCV11645515
SNP Position Genomic:     52666
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16855):
CAACATGGCACCATTGCCGTCTAGCCTGTGCCACACAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGAAAAAGAAAAAAATCATTCTGAAGAA
Y
AGAGATTGAAAAGAACAGAGCCTTGGAGTTTTGTTGGTTCATTCTAAAGGTCTAACGTATGCATCATTAGAACAGCAGAAGGAGAGGAGAAAGAGATTGG
Celera SNP ID:            hCV11645519
SNP Position Genomic:     51120
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16856):
CCATTTTATTGGCAGATGATGAAGCTCATTAACAAATAACAGAAACATTCTAATCCAGGGAACATGGTTATGGTGACAGAGAAAGTGCACAAGCATTCTT
R
CACGGGCAAGTGTGAGAGCGTAAGGAGGATGGGTGTGTGATTTCAGAGGGTTCGCTAATTTTGTAGTTATGATTTTATTTTCCATGCATAGTATGGTCAT
Celera SNP ID:            hCV26045560
SNP Position Genomic:     60594
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16857):
TGGCTTTATGTTAGTGGTTGACAAATTTGAGTTCAGCTAAGATTTTACCAGTTACTGTACAACTGTTACATCAAAGTAAATGGCATCCTATATGATTTCA
Y
GTGTTGATATTAATGTTGTGGCGTAACAGAGCCAGTGTTTTTCAGCCACTTCTACATAGCCATCTCAAATATATAGGAGCAAATCTAGAAATGGTGTCCA
Celera SNP ID:            hCV1936390
SNP Position Genomic:     263169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16858):
CTCTAAATCTCTGAATGAGAATTCATTTATATTTACTTTATTTGTTTAAACAGGCAAAAGAATGGACCCCAGCAGGAAAAGCAAAGCAAGAGAATTCTGC
Y
AAGAAGTTTTATTCTGAATCTGAGGAAGAGGAGGACTCTTCTGATAGTAGCAGTGACAGTGGTGGGTTTTATAATTTATTGGCATATATTATTTACATAG
Celera SNP ID:            hCV978291
SNP Position Genomic:     183425
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,27)   caucasian(C,8|T,32)   total(C,13|T,59)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   JBIC-allele(C,113|T,1160)   total(C,113|T,1160)   SC_12_A(C,0|T,15)   SC_12_C(C,9|T,15)   SC_12_AA(C,6|T,7)   SC_95_C(C,53|T,130)   total(C,68|T,167) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:16859):
GTACAGATTTGTAGCCTAGGAGCAATAGGCTATATCAGTAGTCCCCAACGTTTTTGGCACCAGGGACCAGTACTGTGGAAGACAATTTTTCTCTGGACCC
R
GGGTGGGTAGGATGGCTTCAGGATGATTCAAAAGCATTACATTTATGGTGCACTTTATTTCTATTATTATTACATTGTAATATATGATGAAATAATTATA
Celera SNP ID:            hCV26045561
SNP Position Genomic:     62231
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16860):
TGCAGTGGCATGATCGTGGCTTACTGTAGCCTTGACCTCTTGGGTTTAGGTGATCCTCCTTCCTCAGCCTCCTGAGTGGCTGGGACTACAGGTGCATGCC
R
CCATGTCCAGCTAATTTTCATATTTTGAACAGAGACAGGGCTTCACCATGTTGCCCAGGCTGGTTTCGAACTCCCAGGCTCAAGCAATCTGCCAACCTTG
Celera SNP ID:            hCV424575
SNP Position Genomic:     61346
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16861):
AGCTGAGGTGGGGGATCACTTAAACCTGGGAGGTCGAAGCTGCCGTGAGCTATGATTGAGCCACTGGACTCTAGCCTGGGAGACAGAGTAGGATCTGTCT
A
AAAAAAAAAAAAATTACTTATAACCCAGTTAGCCAGAGAAAACTAGTAAAATATTTAAATATATATCTTAAGTTACTAAATATTTCTTGTTTATTGTGTC
Celera SNP ID:            hCV26045562
SNP Position Genomic:     59462
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16862):
CAAGTGAGTTCTGTGTGCAAGATTGGCAAAAAGTAAGGGGAGCACTAAAATTTAGGATTAAAATACAGTGTGTTTAGAGGGCTGTACATTTAGATGTTTT
R
AAGGCTTATTTTTTCATCAAAGTGTTATGGATCTATGAAATCCTGTTCTTAAAATGAAGGGACACTTTTCTGAAAATACCCAGCTCAAGAAGAGACGGGA
Celera SNP ID:            hCV3164290
SNP Position Genomic:     242052
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16863):
TTGTCCAACGACGCATTTCTCAGAACATTGTTAAGCAATGCATCACTGGATTATAGCATTTTAAGGATAGGTACTTTAAACCTACTTTTTTTTTGGAGAC
R
GGGTCTCGCTGTGTTGCCCAGGTTGGAGTGCAGTGGCACGATCTTGGCTCACTACAACCTCTGCCTGCCGGGTTCAGGTGATTCTCCTGCCTCAGCCTCC
Celera SNP ID:            hCV424576
SNP Position Genomic:     62875
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16864):
TTCTTCTTAATCCAATATTGTTTTCGTTTATTTGTTCTGTTAACTGGAATCTCTTCAATATGTTATCTGAGTAGGCAAGGATGAAAATTAATTTATTGAA
R
TAGACAATTGCCCTCCCCCATCCAGAGATTTATTGTTAAAGAATGTTTTAAAAATTGGCTAGTATTTGTCTTGCCTTATTTCACATTTTCTTGCATATAT
Celera SNP ID:            hCV978293
SNP Position Genomic:     190283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16865):
AAATAGTTCTTATAAACTCAATTAGACTAAGTTGGATAAGCCAAAATCAAAACAGTTGTATTCTTGTGGCCAGTTTATGAATTAGATTAAATTAGTACTG
K
ATTTAAATGACTTGATAAACCATACTTTCTTTGTAGATTTCTTGAGTAAAATCAATTTTACTTATGATTAATTTAGTAGATATTTATTAAACACTATGTG
Celera SNP ID:            hCV424577
SNP Position Genomic:     63637
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16866):
AATTTTTAAAATTTGTTGTGGAAATGTTCACATTAAAAAAAATCAGCTCATACTGACCTTTGTGAAACGCTTTAAAGAACTCTGTTAAAAAATGTTAGTT
A
AAAATAAGTTTTCTTGGGTTGATGTCCTTCAGAAACACCAATTTTTCTTAGATAAGTAACTTCATACATTTTCATATAAAGTACATAGAAAAACCATTCC
Celera SNP ID:            hCV26045563
SNP Position Genomic:     94444
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16867):
TTTCCTCATCTGTAAAGCAGACATGCTAGTACCTACCTTACTTCTTTCAAGTGTTATGTTAAAAATAAAATATGAAAGATCAATGTAACACACTATGTAA
Y
TATAAAACAACAGTTTTAACATTTTTAAAAATTCCATAAAAGATCAACAGTATTGGAGAACATCAAATGCTAAAAGTAACCTAAATTTTTTGGTAACTCT
Celera SNP ID:            hCV978294
SNP Position Genomic:     191715
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16868):
GTAGATTTCTTGAGTAAAATCAATTTTACTTATGATTAATTTAGTAGATATTTATTAAACACTATGTGCTTGTTATATATAATTCTGAATTGATAATTTT
Y
AACTACTCTCCCTTTGACACCTTATGGCCATGATATCTGAGCTTCTAATTTGATATGTTTATTAGTTTTATGGCCTGTGGTATAAGAAAGTCCAAATATC
Celera SNP ID:            hCV424578
SNP Position Genomic:     63770
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16869):
GTCCTTCAGAAACACCAATTTTTCTTAGATAAGTAACTTCATACATTTTCATATAAAGTACATAGAAAAACCATTCCTAGTATAGTAGAGCTATATTCTG
A
AAAAAAAAATTTTTTTAGACAAAATAAATCCCCTTTCCTCTTCACCCTCCATCCCCATGATTCTGTGTATGTCCTGCTGAAAATTCATGTACTTGTCTAG
Celera SNP ID:            hCV26045564
SNP Position Genomic:     94568
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16870):
AGCATTCTTTTCATTCTCCCAGATCTGAAGCCCCAGAATTATCTCTGACTACTCTGTCATTCTGTATGTTTAGATAGTTACCAACTCCTATATGTTCTGT
R
CGTTATTTCTCATGTCTGTTTCTTCTTTCCCTACTGCCACTATTCTAGATTAGCTCTTCATTACCTGCATAGACCATTGCCATTGGTCATCCTCTGACCA
Celera SNP ID:            hCV978295
SNP Position Genomic:     192879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16871):
TGATATTGAACTGGATCCTTTTATTATACATCATTGAGACAGTTATTGAAACTTACGTGCATAGTGACAATTGTGTGAAAGTAATGCATCAGTTTAATGA
Y
CTGATTTTCTTCGTTGTACTGTAGTCTGTGGAACATGTCCTTGTTTATAGGAAATATACATAGAAGTTTTTGGGGATAATGTAGCATCAGATTGGCATCT
Celera SNP ID:            hCV26045565
SNP Position Genomic:     131333
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16872):
AAAATTATGTGAACAGATGGTGAAAAAATTTATTTAAAATAATGCTTTTAAAGTTTCCAGGATTTTTATCCTTCATGAAACCTAGGCTTCAGTGTTCTTA
Y
AACTACCCAGTATATTAGAGTGCTCCTCCACACCATAGTTATTTCAGCTACGTTGTTAGTCCACTATTCGCACCTTATTCATGATGCAATATTCTAGTTA
Celera SNP ID:            hCV978296
SNP Position Genomic:     194284
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16873):
GAGCGCTGTCCCACTCATTATGCTTTCACTTTTTTTTTTAAACTTACATTCCTCCTCATTCTTTTTTTATTTTCTATTTTTTATTTTTGAGATGGAGTCT
Y
GCTCCGTGGCCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCCGCCTTCTGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCCAAGTAG
Celera SNP ID:            hCV26555368
SNP Position Genomic:     40093
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16874):
AGATCCTAGATGTAGCACTCTAATGGGAAATGTCTTAATTTTTTTCAGTCTACAGTTGGTCTGGAATGTGATCCAGCTGATAAATATTGAGCTTTTACTA
Y
ATGCCAAGCAATGTAATAAGTCCTTGCAATATACAGATGAATAAGAAATGGTTGTTGTACTAAATAGCCTCAAGTTCACTTCCAGGCAGATGGGATAAAT
Celera SNP ID:            hCV424579
SNP Position Genomic:     65946
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16875):
TAAATGATTTGTACTCAGAATATGTAAAGAACTCCTCCTACAGTCTTTGCCTTCTAATTGGAGCGTTTAGATCATTTGCTGTTTTATTTTTTTTGTTTTT
K
TTTTTTTTTCAGTAGGTTTTTGGTGAACAGGTGGTGTTTGGTTACATGCATAAGTTCTTTAGTGGTGATTTCTGAGATTTCGGTGCACCCGTCACCCAAG
Celera SNP ID:            hCV26045566
SNP Position Genomic:     132030
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16876):
TTCAGCTTTAAGAAGGAATGGAATTCTGATGCATGCTACAACATGGATGAACCTTACTTAAGTCATTATGCTGAGTCAAATAAGCCAGACACACACACAC
A
AAAAATTGTATGATTCCACTTTTATCAGGTACCTAGAATAATCAAACTCATAGAGACAAAAAGTGGAATGGTGGTTGCCAGCAGCTAGGGGGAAAGCGAG
Celera SNP ID:            hCV26555369
SNP Position Genomic:     39808
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16877):
AGCCTATCAGCTGGAAAGACTTAATAGATCTACAAAAGTGAACAGTTTATAGCCAATATCTGTTTATTGATGGACTGATTATTTATATTGCTGATAGGAA
M
CAGCCTAATTAGAAGTCCACTGTCTTTAATTCAGCTGAGTGAGTTGGCATGGTAGCTGGACAAATGAGAGAAGAATGAATAAGGCCCTGTCTCAGTTTGT
Celera SNP ID:            hCV27996790
SNP Position Genomic:     13927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16878):
GTTACTTCACTTAGAATAATAGTCTCCAATTCTATCTAGTTTCTGTGAATGCCATTATTTTGTTCCTTTTTTATAGCTGAGCAGTATTCCATGGTGTGTA
K
GTGTGTGTGTGTGTGTGTGTGTGTGTATATATATAACATGTTCTTTATCCACATGTTGATTGATGGGCATTTGGGCTGGTTCCATATTTTTGCCATTGCA
Celera SNP ID:            hCV26045567
SNP Position Genomic:     132394
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,4)   total(G,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16879):
CTGCCTCAAGTCCTATATGCATTTACCCAGGTTCTGTCTCTATTACCAAGATGAATTGCAAATGGAGAAATGTTTGATGGAATAGAGCTCTTAACTTCTT
Y
GTTTAGAATTCAGAATTTTATTTTTATAGTAGATCCTTTAAGTATGAAAATGTTTTGAACTTACTATGGATTTTTTAAAATGAAAAATGAAATATAAGAG
Celera SNP ID:            hCV978298
SNP Position Genomic:     196386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16880):
AATTCTATCTAGTTTCTGTGAATGCCATTATTTTGTTCCTTTTTTATAGCTGAGCAGTATTCCATGGTGTGTATGTGTGTGTGTGTGTGTGTGTGTGTGT
R
TATATATAACATGTTCTTTATCCACATGTTGATTGATGGGCATTTGGGCTGGTTCCATATTTTTGCCATTGCAAATTGTGCTGCTATAAACGTGTGTGCA
Celera SNP ID:            hCV26045568
SNP Position Genomic:     132421
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16881):
GTTCTGTGTTATATGTGACCTGATATGTATTTAATAGATATTGTTACACACTCTTGGCTGTGAAGTAGAAATTAAGGTATAGACTTGCCTTCAGCTTTAA
Y
TTTATCTTGATTTGATAGGTTTCTAATTTTTCAGGTGGGGAGGTTACAGTTCCATAAAGACAGTCATGCACCATTGTAGCTTATAGGAAGCTACACCCAT
Celera SNP ID:            hCV978299
SNP Position Genomic:     196807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:16882):
AACAGGCCACCTACAGAATGGGAGAAAAATTTTGCAATCTACCCATCTGACAAAGGGCTAATATCCAGAAAAAACAAGAAAAGAGCAACCCCATCAGAAA
M
TGGGCAAAGTATATGAACAGACACTTCTCAAAAGAAGACATCTGTGCAGTCAACAGACACATGAAAAAATGCTCATCCTCATTGGTCATCAGAGAAATGC
Celera SNP ID:            hCV26045569
SNP Position Genomic:     129464
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,12)      total(A,12|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16883):
TGTATGAATATTTTCTAAGATATTCTCTTCGAAATCAATTTTAATGAGATTTCCTATGTGTTTATTTTTTGATAACTGACGAAAATTCATAAATACAGGA
W
TAATTCCTAGATATACATTAAATTAATTAATAGCTGTAAAACTTTTGTAATAGTTAAAACCTTTTCTATGTTAATATTAGAGTATGATTAACTTACTTCT
Celera SNP ID:            hCV11631479
SNP Position Genomic:     158170
SNP Source:               Applera
Population(Allele,Count): african american(A,12|T,20)   caucasian(A,9|T,29)   total(A,21|T,49)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|T,9)      total(A,6|T,9) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16884):
GAGTCAGGGACTAGAGTCAGAAACCTTAGAAGTCTACCTAGTGTTCTGTTGTATTGCAGCCGAGCTGGCACTCAAACCACAAGGTGCAATGCTTCCCACT
Y
TTCCTCCCCTTTCTGAAGGCAGAGGAGCCTCAACCTGTAGCCACCACCACCCCAGGCCACAAAGAGTACTGCCAGAGTACCCCCATAGTCCCTTAACGCC
Celera SNP ID:            hCV11645525
SNP Position Genomic:     48020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16885):
GAATTGGTGCTTGGTGCCTTATTTAGTTTGATTGGTGAGGTCGTATTTTCCTGGATGGTCTTGATGTTTGTAGATGTTCATCAGTTTTTGGGCATTGGAG
M
GTTAGGTATTTATTGTAGTCATCACTGCCTGGGCTTGTTTATGCTTATCTTTCTTGGGAAGGCTTTCTAGTATTCATAGGAACTTGGGCCCCAAGCCCAA
Celera SNP ID:            hCV11645526
SNP Position Genomic:     47198
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16886):
AATCAACTGCTGATATATTGATATATATTTGATATATTGACTGCTGTTAATCAGTCAACCACGTGTTAATTGCTTTCTACCATTGCTGTATTCTTAGGAA
S
TTTAAATCTAGTTGAGGAAAAAGTCATCTATCCTCAAATAGTTAGAGAAGCGCTTCTAAAACTGATCTAAGAATTTGAAAAACTTATATTTACACTTAAA
Celera SNP ID:            hCV424580
SNP Position Genomic:     66199
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16887):
CTTCTAAAACTGATCTAAGAATTTGAAAAACTTATATTTACACTTAAATATAATCTGAAACATTAAGTATAGTTTGAATCATTTGGTTTCCATCTTATAC
M
TATATTTGTATTCTTGTGTAACATCACTTGGTTCCAAGTGATCATTTAAAGGAACAGTGTTTCACAAATATGTGTATTTTGGGTTTGAAAAATTCTGAAG
Celera SNP ID:            hCV424581
SNP Position Genomic:     66352
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16888):
ATTCAGCTTTAAGAAGGAATGGAATTCTGATGCATGCTACAACATGGATGAACCTTACTTAAGTCATTATGCTGAGTCAAATAAGCCAGACACACACACA
C
AAAAAATTGTATGATTCCACTTTTATCAGGTACCTAGAATAATCAAACTCATAGAGACAAAAAGTGGAATGGTGGTTGCCAGCAGCTAGGGGGAAAGCGA
Celera SNP ID:            hCV26555370
SNP Position Genomic:     39807
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16889):
GCTTGAACCCAGGAGGCAGAGGTTGCAGCGAGCCAAGATCATGCCACTGCACTCCAGCTTGGGTGGCAGAGTGAGACCGCGTCTCAAAAAACAACAACAA
C
CGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGTGAGGTCAGGAGTTCGAGACCAGCCTGGTCAACACAGTGAAACC
Celera SNP ID:            hCV26555371
SNP Position Genomic:     38917
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,3)   total(C,3|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16890):
GTGTGTGACAGAGTTTCAGTCTTGTTTCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCCAGCAATTCTCCTG
Y
TCACTGCAACCTCTGCCTCCTGGGTTCCAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGCATGCACCACCATGCACCACCATGCCCG
Celera SNP ID:            hCV26045570
SNP Position Genomic:     134025
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16891):
TGCTTGAACCCAGGAGGCAGAGGTTGCAGCGAGCCAAGATCATGCCACTGCACTCCAGCTTGGGTGGCAGAGTGAGACCGCGTCTCAAAAAACAACAACA
A
CCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGTGAGGTCAGGAGTTCGAGACCAGCCTGGTCAACACAGTGAAAC
Celera SNP ID:            hCV26555372
SNP Position Genomic:     38916
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16892):
AGTTAATAGATGGGTGAGCAGGTAAAGACACTAGCAATGGAGTTTTTTGTTTCTATTCACTGTTGCATTTATTAAGTGGAGGCTTTGTGCCAAAAGTTTT
Y
CCCCTATATTACCTCATGACTTAAAAATTTCTTACTTATTATGTTTGTTGTTTCTTTTACTTAATAGAATGAAATCCCTATGAGGGCAAGGGTTTTTCTG
Celera SNP ID:            hCV320363
SNP Position Genomic:     29637
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16893):
TTCTATGTTTTTCTGTGTACTTACTATTACCAGTTAGTTTTGTACCTTCAGGTGATTATTTATTGCTCATTAATGTCATTTTCTTTCTGATTGAAGTACT
Y
CCTTTAGCATTTCTTGTAGGACAGGTCTGGCATTGATGAAATCCCTCAGCTTTTGTTTGGGAAAGTTTATTTCTTCATGTTTGAAGGATATTTTCACTGG
Celera SNP ID:            hCV9355576
SNP Position Genomic:     45976
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16894):
ATGCACCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGCACTCCCAGCCTCAGGTGATCCGCC
Y
GCCTCGGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCGGCTGACAATGTGATTTTTAAAAGTAGAAATAAACTTTCAATTAAATGTCT
Celera SNP ID:            hCV26045571
SNP Position Genomic:     134209
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16895):
CAAAGAAACTGAGTGAATCTCTTAGGTGCTCTAACGATCAGTCACTAGGATTTGACTGGTGTCTGAATGTCAGTAAATGTTAAGATTTGCCTTAATAAAA
K
ATTTTGGCAATAAAGATCTTTTATTTGAAAGATTCTTGGGGATAAAGTAAATTTGGCATGTGGTGTGAAATAAATCATGGATAAGAGTGAAAGGAACAAT
Celera SNP ID:            hCV15946236
SNP Position Genomic:     194872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16896):
TTGCTTGAACCCAGGAGGCAGAGGTTGCAGCGAGCCAAGATCATGCCACTGCACTCCAGCTTGGGTGGCAGAGTGAGACCGCGTCTCAAAAAACAACAAC
A
ACCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGTGAGGTCAGGAGTTCGAGACCAGCCTGGTCAACACAGTGAAA
Celera SNP ID:            hCV26555373
SNP Position Genomic:     38915
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16897):
ATAAAGTTGGTATCCTAATACTCAAAGCTAGAAAGCTACAGGTAACTAGGTAAATGAAGACACAGGTAAATTAAAAATGAATATATTTGAAACAACTATT
G
TTTTCAGCAAAGAGTTGAGGAAAATATTGCTAATTCAGCATTATTTTGACTCAAATATTGATATTTAACAAAATAGTATCTAAGATTTATGCAGTAATAC
Celera SNP ID:            hCV26555374
SNP Position Genomic:     31464
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,7)   total(G,1|-,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16898):
CATCCTCATTGGTCATCAGAGAAATGCAAATCAAAACCACAATGAAATACCATCTCACACCAGTTAGTATGGCGATCATTAAAAAGTCAGGAAACAACAG
R
TGCTGGAGAGGATGTGGAGAAATAGAAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGACAGTGTGGTGATTCCTCAAGA
Celera SNP ID:            hCV26045572
SNP Position Genomic:     129638
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16899):
GGCTCACTTTTTGTGCTTCTCTTCTTTCAAGGATCATGGCCCCTTAAGAGTACTTGTGTGTGTGTATATGTATATGCATACATATATGTGTGTATATGTA
W
GTATTTCAGCTTTTATAGTTATTTTCTATGGCAGGTTTAGTTTTTTGTAAGCTACAGTGTCATGGACAGATATGGAAGTCCCTACAGTATATTCTGAATG
Celera SNP ID:            hCV26555375
SNP Position Genomic:     27658
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,5)   total(A,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16900):
TTCCTGACCATGTTAATTGTAATTATTTTAAAATCCCTGTGTGATAACTCTGGTATCTGAGTCACTCATGGATCTGCTCCTGGTTTTTTTTTTTTTTTTT
T
CCTTTTTTTCTTTTTTGGGCGGGGGTAATTTCATCCTGTTTTTAGTATGTCTCGTAAGTTTTGATCAGATGCTAGGTATTTAGGATAAAAATGATTGATG
Celera SNP ID:            hCV26555376
SNP Position Genomic:     26638
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16901):
AAGGCTAGTAAAACATGTGCTATGTATAAAACCAATTTCAGCTCAAATCTGTATAGTTTCAAAGCCCTGTGTTTCCCACCACACCTCACTGCTGAGTGTA
K
GAAGGAGTTACAACTCCAAGAGAATTATTTTGTGTAGCAGCTTGTGGTACAGCTCAGAGTAAAACGAACCTAATGACGGGGGCAAATTAGAGAGACCTCG
Celera SNP ID:            hCV7602300
SNP Position Genomic:     245724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16902):
ATTAAGAGACTCTTTCTTTATTTTAGTTGCAGATTTAAAATCTCAGCACTCAAATGGACTTTAGAGTTAACCAAGTTGTAAATTCTAACTCCACATTTGA
G
AAAACTAATGATTAAGTGGATTTCCCAGGTTTTTCCAGCAAATTAATTACATGGTTTAGTGTACCACATTTTCTTTTAAGTTGGTTTTGAATTGTATTCC
Celera SNP ID:            hCV11649096
SNP Position Genomic:     168858
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,6)   total(G,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16903):
TACTATAAATGCAAAACATGTTAGTCTGTTTTATTAAATTCTTCTTGTATCTTTATTATTTTATTACTTGTACTTTGAGTTCAATTTGCTGTTTTTTTTT
T
CCTAGCATTCTGAGATGGAAACTTAGATCATTGATTTTTAATCTTTCTGATTTTGTATTGTAATTAGAAATATAAATTTGCTTCTTTTTTTTTTTTTAGG
Celera SNP ID:            hCV26555377
SNP Position Genomic:     23705
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16904):
TTGTTCTTGCTCTGTTATCTTGTATGATTTCTTTGGTTGTCTCCTTGTACTTCGAGACCTCAGATCACTTATCCGTGGAGGTCTTTTGTGATCACCCAGT
Y
TTACTTTATTGCATTCCTTATTTTAATTGTTTGTGTACTACTTATCTGATCTTTCTTTATGTTTTTGTTCCTCCCTGCTTTCTTCCTTCTCTGCCTTGCT
Celera SNP ID:            hCV26555378
SNP Position Genomic:     23154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16905):
AAGTCCACAGTTTGAGGCTGCCTGGAATTATCAAGCTGTAATGCCACATGACACATTTCAAAATATTTTTTCCTATGTTTATATGTTTTATTTTTTACTG
R
TTAGTCAGTAAGGGATGCCAGTAGATGAGATGTTTGGTTTAATTTTTCTTACACATATCCCAGAGTGCTCCAGCAAGACAGTGTATTGTCCATTACGGGA
Celera SNP ID:            hCV7602302
SNP Position Genomic:     289396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16906):
ATTGCAGGCATGAGTCACAGTGCCCGGCCATTGAAATATATTCTTAATATAGTCAGCTTTATAGCAGAAATTGACAGCGTAGTATGGTGAATAGGAAGAA
Y
GTTGAATTTCAAAACAAGATTGAAATTTAATTCCTTGCTTTGCCATCCCTGGTTTTATGATGATATACATAAAAGGCATGTGATTTTAGAATTTCTCACA
Celera SNP ID:            hCV26555379
SNP Position Genomic:     21132
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16907):
GGTAGACATGAATGAGATATTTAAAGTTCATTGGAAATCTTCTTCCCTACAGCAGTAAGCAAAAATTAGCAAAGAGATAGTCTAAATGGCCTCTCAGCTT
K
GTATGTGAAAATGAGATCACATACTTTTTAAATCCAAATACAAAAGCATAGTCTCTGCAAGATTTTGTTCTTTGAATTTCTTGATATTGTAATTGATTAT
Celera SNP ID:            hCV7602303
SNP Position Genomic:     297127
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:16908):
GTCTTGCCTTAGGAATTGCAGCCAACATTTTGCACACAGATTTTTGTGTACCTTGTCTCTGGTTCCCTCCTCTGTAATTTTGTCCTTCAAGTCTCAGTCA
Y
TGTGGCAGCCCTGGAATTCAACATTTGTCTCCTCAAGTTATTAAGACTGTGACTTCTCCTTGGGTTCTGTTCTCCCACATGGCAATTTGGGAAATGTACT
Celera SNP ID:            hCV9408804
SNP Position Genomic:     27123
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16909):
CCGGCTAATTTTGTGCTTTTAGTAGAGATACGGTTTTGCCGTATTGGTCAGGATGGTCTCGAGCTGCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCC
R
AAGTGCTGGAATTACAGGCGCGAGCCACTGCGCCCGGCCGAGAATTGTTTTTAAGTGATAGCATACTTTAAAATAATCACATAAAACTTAAGTGATTTGC
Celera SNP ID:            hCV11646333
SNP Position Genomic:     19481
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16910):
GATTCAGAATGCAAGGGTTTTCCAATTCAGTAGAAATGACCATTATCTATTGCTAATGTTATATTTCAGTCACTGGTTATTTGCTGTTCTCAGAAAGTCA
R
TGAAATTCTGTCCTTTTGAAAGCCTTTTTTCTCTCTGTTCTAGGCTTCTAATAAGAGATTATGCCAATTTCACATGCAGCTCTGTTCTGTGTTATATGTG
Celera SNP ID:            hCV27482938
SNP Position Genomic:     196623
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,13|A,1476)   total(G,13|A,1476) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16911):
TCCTAGGTTCAAGCGATTCTCCTGCCTCAGCTTCTTGAGTGGCTGGGATTACAGGCATGCACCACCATGCCCGGCTAATTTTGTGCTTTTAGTAGAGATA
S
GGTTTTGCCGTATTGGTCAGGATGGTCTCGAGCTGCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGAATTACAGGCGCGAGCCACTG
Celera SNP ID:            hCV11646337
SNP Position Genomic:     19411
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16912):
TGAAACCCCATCTCTACTAAAAATACAAAAAAAATTAGCCGGGCACGGTGGCGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGC
R
TGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGTCTCAAAAAAATAAATAAATAAATAAATAAAAATAAAA
Celera SNP ID:            hCV26006747
SNP Position Genomic:     87614
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16913):
GGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAATCTCTGCTTCCTAGGTTCAAGCGATTCTCCTGCCTCAGCTTCTTGAGTGGCTGGGATTACAGG
Y
ATGCACCACCATGCCCGGCTAATTTTGTGCTTTTAGTAGAGATACGGTTTTGCCGTATTGGTCAGGATGGTCTCGAGCTGCTGACCTCAGGTGATCCACC
Celera SNP ID:            hCV11646338
SNP Position Genomic:     19366
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16914):
CCTTAGGATGTATACATTTAAGATTTAAGGTAATTTTAAACCAGTTTAAATAAATCCTTAAATGTTGTAAGAATAGCACATTCATTCTAGTCTTTTGATG
K
CTTATCTTTTTAAAATACAGTATTATAGATTTTAAAAACCAATTTGTGTAAAAAAAAAAAAGATTTTTAAAAAGCTCCTGTTATATCAAAGTGGTCTGTA
Celera SNP ID:            hCV26006748
SNP Position Genomic:     85322
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16915):
GGGATAATTAACTATAGATGAGAACTGTTTTTTTTTTTTTTTTTTTTTTGAGGCAGAGTTTTGGTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCT
Y
GGCTCACTGCAATCTCTGCTTCCTAGGTTCAAGCGATTCTCCTGCCTCAGCTTCTTGAGTGGCTGGGATTACAGGCATGCACCACCATGCCCGGCTAATT
Celera SNP ID:            hCV11646339
SNP Position Genomic:     19290
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16916):
AAGTGAAGCTATTTGTTTTCTTTGTGCAGATTAACATTAGAAGTACGCCTTATTCTTTTTTTTAAGTATGCCTTATTCTTTTCATCATATTGACAATTTA
R
AAAATTTTATCATATAACTTGTAATTAAGATCCTTAGGATGTATACATTTAAGATTTAAGGTAATTTTAAACCAGTTTAAATAAATCCTTAAATGTTGTA
Celera SNP ID:            hCV26006749
SNP Position Genomic:     85190
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16917):
TCTGTAAAATAAGAATAAATACTTGTTTATTGAGTTGTGAGGATAAAATGAGTTAATTTATGTAAGACATTTAGAACAGTGTCTGACATGTAGTTAATGC
W
ACCTATAAGGATTTGCTATTATTACCATATTATGTCCATTCTAAGACATATGTTTGCTATTTTAAAGTTTCTGCAGTTGGGATTTAACTTAACAACTGGT
Celera SNP ID:            hCV28974768
SNP Position Genomic:     68897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16918):
ATTTTATATAATATGTTAAAAAATATATATTTTTCTTTTGTAGAGATTAGGTCTCCCTATGTTGCCCAGGCTGTTCTTGAACTCCTGGGCTGAAGCGATC
Y
TCCTGCCTCCGCATCCCAAAGTCTTGGGATTGCAGGCATGAGTCACAGTGCCCGGCCATTGAAATATATTCTTAATATAGTCAGCTTTATAGCAGAAATT
Celera SNP ID:            hCV26555380
SNP Position Genomic:     21003
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16919):
TATATATATTTATATATATATATTTAAGTCATATATATATATTTAAGTCATATATATATATATTTAAGTCCTATATATATTTAAGTCCTATATATATATA
Y
ACACCTATATATACATATATAGGACTTAATATATAATATATATAAATTTTATATAATATGTTAAAAAATATATATTTTTCTTTTGTAGAGATTAGGTCTC
Celera SNP ID:            hCV26555381
SNP Position Genomic:     20857
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16920):
TTCCTTTTCCTTACAATGATAATGTGGTCTTTTAGTCATAAAGGACCACAATACAAATTAAGATACTTTTATTGTTCGTCTTTGGCCTTTTAAAACCTGA
W
ACTCCATAGAATTCATGGCCATGTCAAGAAAAAATGCACGTTTGAGCATAGAAGTCTGGTTTTCCGAAATTGTTGATTTAGTGTTATTAAATTAATCCAA
Celera SNP ID:            hCV11433726
SNP Position Genomic:     174674
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,12)      total(A,12|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16921):
TCAACCTCCTGGTCTGATCCTCCCACTTCAGCCTCCTGAGTAGCTGGGCCCACAGGTGTACACCACCATGCCTGGCTAATATATATATATATATATATAT
A
TTTATATATATATATTTAAGTCATATATATATATTTAAGTCATATATATATATATTTAAGTCCTATATATATTTAAGTCCTATATATATATACACACCTA
Celera SNP ID:            hCV26555382
SNP Position Genomic:     20764
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16922):
CTTGGAAAGTTGTTGTTGTTGTTTTTTTAAAGAATTTAAAAATTAATCTAGCTTTGAGTTGGCATATCTTATTAACACAGTTGTAGAAAACTTATATTTC
S
TCTACTATAGTTTATGAATTTCTTGGAGAAAAATCTAATACTAATACTCAAACTTGATGCACAAACGGATTCTTTGGCATGTTTGTGTGTATGCCCATCT
Celera SNP ID:            hCV318815
SNP Position Genomic:     20064
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16923):
TAGAATAACCTTGCAAAAGAATGAATACTAATGATGTTAGATAGTAGCACTGATGAGGACTTTCCACACATACCTGTGTATACCAGGCAGACAGAATAGC
R
TATACCTAGGTTTAGAGCTGTAATGTTCAATATAGTAGCAACTAGCCAAATGTAGCTATTTAAATTTAATTTAATTAAATTTAATTTCTCCACCACTCTA
Celera SNP ID:            hCV285982
SNP Position Genomic:     16410
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16924):
TTAACTTTACGGATTAATATTTGTTCTGCCTTGTTCACTGGATATTGTGAGACTGAAATGAGAAAAAGATGCTTTGAAAAGTAATGTCACAGCTGGGTGT
Y
GTGGCACACGCCTGTAATCCCAGCAGTTTGGGAGGCCAAGGTAGGAAGATTGCCTGAGCCTAGGAGTTAGCGACCAGCCTGGACAACATGGGGAGATCCC
Celera SNP ID:            hCV15946246
SNP Position Genomic:     208538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16925):
ATAGAATTCATGGCCATGTCAAGAAAAAATGCACGTTTGAGCATAGAAGTCTGGTTTTCCGAAATTGTTGATTTAGTGTTATTAAATTAATCCAACAAAC
K
TTTTATCAGACCTCAGAGAAATATGTTTGGATTTAAGAAAAATATGGACTTCAGAGTTTACCAAATATAAGAGAGCTTTGTTTATAGAATACTATCTTTG
Celera SNP ID:            hCV11433727
SNP Position Genomic:     174780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16926):
AACATTAAATTTACTATCTTAACCATTTTTGAGTGTACAATTCAGTAGTGTTAACTATATTCACATTGTTGTGCTACAGATGTCTAGAACTGTTTCATCT
R
CAATACTGCCCTGTGACTTTTTAAAAACTAATTTTTTTATTGAGATTTCCAAGTGCATCAGGGACAAAGGCAGACATTGCATATTGGTTTCCTGAATTCC
Celera SNP ID:            hCV26555383
SNP Position Genomic:     19810
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16927):
ACAGTCAAGATGGATTCTTCCCTGGGATGCAAGGCTGGTTCAACATATGCAAATCAATAAATGTAATCTATCACATAAACAGAACCAACGACAAAAACCA
Y
ATGATTATCTCAATAGATGCAGAAAAGGCCTTTGGCAAAATTCAACAGCCCTTCATGCTAAAAACACGCAATAAACTAGGTATTGATGGAATGTATCTCA
Celera SNP ID:            hCV26017677
SNP Position Genomic:     128167
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16928):
AGAAGTCTGGTTTTCCGAAATTGTTGATTTAGTGTTATTAAATTAATCCAACAAACGTTTTATCAGACCTCAGAGAAATATGTTTGGATTTAAGAAAAAT
R
TGGACTTCAGAGTTTACCAAATATAAGAGAGCTTTGTTTATAGAATACTATCTTTGTAGACAGAAGCATTTTAAATAAATATAAAAGAAAGCCATACTGC
Celera SNP ID:            hCV11433728
SNP Position Genomic:     174824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16929):
TTTGTAGGACTTTTTTTCTGTTTCTGGTTCTACATAGCCTTCATCAGGAAACTTGGTGGGACCATGTGACTTTAAAAAATTGTGGTAAAAAACACATAAC
R
TTAAATTTACTATCTTAACCATTTTTGAGTGTACAATTCAGTAGTGTTAACTATATTCACATTGTTGTGCTACAGATGTCTAGAACTGTTTCATCTGCAA
Celera SNP ID:            hCV26555384
SNP Position Genomic:     19713
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16930):
ACCCACTGCCAATATCATACTGAATGGGCAAAAACTGGAAACATTCCCTTTGAAAACTGGCACAAGACAATTATGCCCTCTCTCACCACTCCTACTCAAC
R
TGGTGTTGGCAGTTCTGGCCAGGGCAATCAGGCAAGAGAAAGAAATAACGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGATGA
Celera SNP ID:            hCV26017678
SNP Position Genomic:     128393
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16931):
TTCAGAGTTTACCAAATATAAGAGAGCTTTGTTTATAGAATACTATCTTTGTAGACAGAAGCATTTTAAATAAATATAAAAGAAAGCCATACTGCTGATC
K
TATATAAGCATCTTATTCAAATATATTCAAGCTTCTCTTTTTAAGCAACATACCTTAAACCCTCTAGATCAGTGGTTTTATTTTTATTTGCTTTTATTTA
Celera SNP ID:            hCV11433729
SNP Position Genomic:     174930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16932):
TTCTATTCCTGTCAAGTACAAATTTGTAGGACTTTTTTTCTGTTTCTGGTTCTACATAGCCTTCATCAGGAAACTTGGTGGGACCATGTGACTTTAAAAA
A
TTGTGGTAAAAAACACATAACATTAAATTTACTATCTTAACCATTTTTGAGTGTACAATTCAGTAGTGTTAACTATATTCACATTGTTGTGCTACAGATG
Celera SNP ID:            hCV26555385
SNP Position Genomic:     19691
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16933):
TGAAAACTGGCACAAGACAATTATGCCCTCTCTCACCACTCCTACTCAACGTGGTGTTGGCAGTTCTGGCCAGGGCAATCAGGCAAGAGAAAGAAATAAC
R
GGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGATGACATGATTGTACATTTAGAAAACCCCATCGTCTCAGCCCAAAATCTCCTTA
Celera SNP ID:            hCV26017679
SNP Position Genomic:     128443
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16934):
CTTACTCCTGGGCTCTAGTGATCCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTGCAGACATGTATCACCATGCCTAGCTATTTTTTTTTTTTTTTTTT
T
GGTAGAGACAAGTCTTACTATGTTGTCCACGCTGGTCTTGAACTCCTGGGCTCAAGCCGTCCTCCTGCCTTGGCCTCCCAAAGTGCTAGGAGTACAGGCA
Celera SNP ID:            hCV26555386
SNP Position Genomic:     17826
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16935):
TTTCATTTGTTTAGATTCAAAGAGCTAATTTAGATCCAAGCAAAGTACTGCATGCTTTCCTGTAGTCAGTAATACAACCCAGTGTATTTGGATTGCATCA
W
TAAAGCCTGACTTATTTTTTAACTTAAATCTTATTCATTGTCAACTTTACAATATCAAACATGAAAATTCTATTACATTCATTCTTAACCTTTAATATCA
Celera SNP ID:            hCV26555387
SNP Position Genomic:     11297
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,8)      total(A,8|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16936):
GAGAGCTACCCTTTTGCAGATTTACCAATTAAAAAAAAAATGCTACATTGCTTGCTTACTCTCTCTGCCACTCACTCTCCCCATGCATATTCAGGCACAT
R
TACGTATTCATGTTATTATGTCTTCTGAACCATTGGAGACTCAGTTGTACACATCATGTTCTTTTACAATGAAAATCTTAATGTGTAATTTTTAAGAACA
Celera SNP ID:            hCV26555388
SNP Position Genomic:     8691
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16937):
CTTTTAAAAAATCGAATGACAAAGTTTATATAAAAAACTTAAAGCTTACCCTATTCCTCACCTCTGGTTTTTAATGGTTTACTCTGATGAAATAGTTTCA
R
GTTTACAAAAAAGTTGCAACAATGACACAGAGAGCTACCCTTTTGCAGATTTACCAATTAAAAAAAAAATGCTACATTGCTTGCTTACTCTCTCTGCCAC
Celera SNP ID:            hCV26555389
SNP Position Genomic:     8561
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16938):
TAATTGGAAAAAGGTTTTTTCATTTCATTTATAACTCTACCCGTATAGTATAGATGGATTGATATCAACTTAAAATGGTTGTGTTTAACATATTTATCAA
Y
GATGAAGATGTACAAAGTTTGTTTGCTCATTAAGTTTTCATTTGTACTTATGAATTGAGAAATAGTTTGGATTATAAAATTATCATCTCAAATTATCTTA
Celera SNP ID:            hCV11651454
SNP Position Genomic:     70296
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16939):
AGAATATAACTCCAAAATATATGTTATCTAAAAAATTATGACAAGATGTTGCCATTTCTAATGTGCTTAAAATTTATCTCTTAGGAAATATAAATGATTC
R
CATATATAAATATATAAGAACAGCATGCTTTCTACTCATTCATCTGCTCTCAAAAGCAAGTTTTATATTAAAGTTTATATTTTTGTAGACCTTATTTACT
Celera SNP ID:            hCV7439798
SNP Position Genomic:     170605
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,6|G,22)   total(A,7|G,55)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16940):
TTAACAGGGTGCCAAGATGTGTTGAATCTAAATTGTTGACAATTTCTGTAGATAAATGGAAGATTTTGCCTTTCATTTAAAATAATTTTAAAAAAATTCC
R
TGAGGACAGTTGGATTTTGATTTGGTCAGCAGTACATTTGGAAAAGGTGTATGGTTTTAATCAAGAATTAGTCATATCTGTGGAAGTACCTCATCTGGAG
Celera SNP ID:            hCV11651457
SNP Position Genomic:     70494
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16941):
AAGATGTGTTGAATCTAAATTGTTGACAATTTCTGTAGATAAATGGAAGATTTTGCCTTTCATTTAAAATAATTTTAAAAAAATTCCGTGAGGACAGTTG
R
ATTTTGATTTGGTCAGCAGTACATTTGGAAAAGGTGTATGGTTTTAATCAAGAATTAGTCATATCTGTGGAAGTACCTCATCTGGAGCAAGTTCTTATCT
Celera SNP ID:            hCV11651458
SNP Position Genomic:     70507
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16942):
AAGTTCTTATCTAGTTTGTTCTGTTTAGACTTTATTTGTAGTTTGTAGTGTCACGCTGAAAAAAATTGGAGTGAGTTTAGGAAGGAGCAAACAGGATGGT
R
GAGGAACTAAAGCTGTTATGTTTCACGAGAAATTAGGGTACAAGGAAGGAAGGTCATGACAGTTGTCTCTAAAGTAGTCCAGATTGGTTAGTATGACTGG
Celera SNP ID:            hCV11651459
SNP Position Genomic:     70696
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16943):
ATTACAAGGGAATTAGGTAGCCTGATTAGAGTGGAGAATAAAATAGATATAGGATTTGAACATCTTTCAAGACTTCTAATTCCACTGCAGCATTCTCTTG
R
AAGCGGTTGTTATTCTTATGATAGTCTGGAAAAAAAATGTTTCTTTACTTTTTTAGGGAGATTACTGGGTGATAAATGTTAGTGATAATGTTATGTGATA
Celera SNP ID:            hCV15871240
SNP Position Genomic:     209757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16944):
TTTAACATTAACCATTGCTTTATGTTTTTAATTTTCAAATTTTCATCAAACTTCAGTTTTTCTGAATTATATTTCACAAGTGTTTGAAACAACTAAATAT
R
TTTACTTTTAATGGCAAAAACTGCAGTTACTTTTGCACCAGCTTAATACAAAGTACCTTTAATGTGCACCACATAAAAATAAATGAAATTAATAAGCCCT
Celera SNP ID:            hCV11646343
SNP Position Genomic:     18106
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16945):
TTGACGAATAGTCACCATAAAGTTTGTTATTCAAACATGAACATTCATTTTAATTGAATGACTGAATACTTTAATACTGATTGGCATGAAACTGATTACT
R
TAATGCCTGAGTAAGACCTTTGATGTAGGGGAGAAACATTTTTTAATAAGTTACTATTTCTTTCTTTTCTAGTTGGTAGCTGGCAGTGTTGTGATGGCTT
Celera SNP ID:            hCV25644800
SNP Position Genomic:     84282
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:16946):
GCTAGGAGTACAGGCATGAGCCACCATGCCTGGCCTGTTTTATTTTTAATATGATGTACTTTTTAAGCTATTATAATTTTAGAATTATTGTTAATTTTAA
Y
ATTAACCATTGCTTTATGTTTTTAATTTTCAAATTTTCATCAAACTTCAGTTTTTCTGAATTATATTTCACAAGTGTTTGAAACAACTAAATATGTTTAC
Celera SNP ID:            hCV11646344
SNP Position Genomic:     18011
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:16947):
CATTGAGTGGAAAGTGTGTGTGCGGCATGTGAAGAGAAGGCCAGTGAGGAATCTTAGTAAAGTCTACATTGAAGAGAGTAGGAGAATTGGAACTTACTTA
S
AAAACTAAGAAGGGAGAATTCAGTTTGGGGAAACCATGAAAGTTGATTGTACAAGTTTTTGAATTGTGTTTAAGGTATAAGGAAAGGGCGAAACTTAATT
Celera SNP ID:            hCV11646345
SNP Position Genomic:     17211
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16948):
TCCACAATAGTTGAACTAGTTTACATTTCCACCAACAGTGTAAAAGCATTCCTATTTCTTCATAGCTTCGCCAGCATCTGTCGTTTCTTGACTTTTTAAT
Y
GCCATTCTGACTGGCATGAGATGGTATCTCATTGTGGTTTTGCTTTGCATTTCTCTAACGATCAGTGATATGGAGCTTTCTTTCATGTTTGTTGGCCACA
Celera SNP ID:            hCV11600683
SNP Position Genomic:     228726
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16949):
CCTTGCAAAAGAATGAATACTAATGATGTTAGATAGTAGCACTGATGAGGACTTTCCACACATACCTGTGTATACCAGGCAGACAGAATAGCATATACCT
R
GGTTTAGAGCTGTAATGTTCAATATAGTAGCAACTAGCCAAATGTAGCTATTTAAATTTAATTTAATTAAATTTAATTTCTCCACCACTCTAGTCACATT
Celera SNP ID:            hCV11646347
SNP Position Genomic:     16418
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16950):
ATTTTTCTCCTTTGCAGGTGACTTGATTTTTTTTTTCTGCATGCTAAAAAAACCTGTTTAAAAAGTCTTTGAGAATTAATCAGGTTACATCTCAACGTGA
R
TTATTCCATATGATCTCCAGGTTCACTTCTTCCTTTTATTTTAGGGAATTTTCTTTTCTTTTTGTAATTTTAAAAATTCGATGTTTACATTTTTTTTCTG
Celera SNP ID:            hCV11645473
SNP Position Genomic:     92948
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16951):
CTGTGAAGAAATCTGAAGATAGCCAAAGATTTTTCTCCTTTGCAGGTGACTTGATTTTTTTTTTCTGCATGCTAAAAAAACCTGTTTAAAAAGTCTTTGA
R
AATTAATCAGGTTACATCTCAACGTGAGTTATTCCATATGATCTCCAGGTTCACTTCTTCCTTTTATTTTAGGGAATTTTCTTTTCTTTTTGTAATTTTA
Celera SNP ID:            hCV11645476
SNP Position Genomic:     92920
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16952):
CATGATTGTACATTTAGAAAACCCCATCGTCTCAGCCCAAAATCTCCTTAAGTTGATAAACAACTTCAGCAAAGTGTCTCAGGATAAAAACTCAATGTGC
R
AAAATCAGAAGCATTCCTATAGACCAAGAACAGACAAACAGAAAGCCAAATTAATGAGTGAACTCCCATTCACAATTGCTATGAAGAGAATAAAATACCT
Celera SNP ID:            hCV26017680
SNP Position Genomic:     128594
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16953):
TACATTTCCACCAACAGTGTAAAAGCATTCCTATTTCTTCATAGCTTCGCCAGCATCTGTCGTTTCTTGACTTTTTAATCGCCATTCTGACTGGCATGAG
R
TGGTATCTCATTGTGGTTTTGCTTTGCATTTCTCTAACGATCAGTGATATGGAGCTTTCTTTCATGTTTGTTGGCCACATAAATATCTTCTTTTGAGAAG
Celera SNP ID:            hCV11600688
SNP Position Genomic:     228747
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16954):
AAATATGTGATTCTCAGCTGAGGCTGTATCTTTTAAAATGTTTTGAAAATACCTTTGTACAGAAAGCAACACTGGCCACACCTAAGAAAGCGATGCTTCC
M
CTCCCCCTCCTTGCCCTCACTTCTCTTTCCCCTCTCACACAGTCCCTTTCTCTCAAAGCCATTCCCCATGTCTCCACCTCAATGGCCTGTGGTAGTTTAG
Celera SNP ID:            hCV29091286
SNP Position Genomic:     300688
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:16955):
CATCTGGCAGTGGGGGTAGAATACACTCTTGACATTCTTGTCTCCTGCTTTAGAATGCTAGTGTGTATCTATCATGTATGCAATACTTTCCCCCTTTTTG
Y
TTTGCTAACCAAAGAGCATATATTTTACTGTCAGTTGTCTCAACTCTTGAATCCATGTGGCGTTTTCTCTGTCCTGCTGCTTCTTTTGGCCTCCTCGTTT
Celera SNP ID:            hCV29091287
SNP Position Genomic:     296906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:16956):
ATCCATTTGGTGATTGCACAGTCCTCTGTGAGCTTAAGGGAATTCGTTGCAAACCATCTCATGGCAGGCATACTTCTGCCATTAAAAATATCTACACACT
R
TATATTTAGTGTGCCCTTTCTTATATAATTATCAATCATAGAAAACAAATTTAGCATCAAAGGGAAGGCCTGCAGACCTTAAAAAACATTTTTTTAAGTT
Celera SNP ID:            hCV29091288
SNP Position Genomic:     284964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16957):
TCTAAAACTTAGAAATTTTTCTGAATTTTTTTATGTTATTTGGTTTGCCTTTTAGTAGTTAATTACAGCTGATTAGCCTAAAGTAAGTGCTATCTACTGC
Y
TTCACCAAAATTTAGATAGATTCTAATAAAGCCACAAATTATTTAGCCTACAGTTTTTAAATATTTTCCCAGTGATTTTACCTTTATTATATATGAACAG
Celera SNP ID:            hCV29091289
SNP Position Genomic:     281747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16958):
AGCTCCAAGTAGTACCACCAGAGAAGCTTCCAGGGATTAGAAACATTTGGCTATTGACCTGCAGTCTAATGGAATTGTACAGAAACAAGGAGACCCCTGT
K
CTGGAAGTGGTCATTAAATCTCTCTTGAGTCCACATTTTCTCATTTATAAAACCGTAATATTACTTGCCTTTTAAAAAATCGAATGACAAAGTTTATATA
Celera SNP ID:            hCV26555390
SNP Position Genomic:     8392
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16959):
GGTTTGTGAACATCTACGATGTTTTCTCTTAGATTTTTGTCAGATTTGGGGCCAGGCACTGCGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGGTGAG
K
TGGGCGGATCGCTTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCT
Celera SNP ID:            hCV26555391
SNP Position Genomic:     7545
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16960):
TTGATGATCCATTGTTCTAGAACAAGTACGGAGCTTGTTGCCTCTACTATTAGCAAAATGTTTAGACTGAATTAACCTGTATATCGGCATCAATCTGTTT
Y
GCAAATTAATTTACTTTTATGGTTTGTGAACATCTACGATGTTTTCTCTTAGATTTTTGTCAGATTTGGGGCCAGGCACTGCGGCTCACGCCTGTAATCC
Celera SNP ID:            hCV26555392
SNP Position Genomic:     7424
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16961):
AGAGTATGATTAACTTACTTCTAACTATGTAATCTGCTTCTCATATTAGGTTCCTGTTGCTAGAGCAAGTATTCTTTGGCTAATTGGAGAAAACTGTGAA
Y
GAGTTCCTAAAATTGCCCCTGATGTTTTGAGGAAGATGGCTAAAAGCTTCACTAGTGAAGATGATCTGGTAAAACTGCAGATATTAAATCTGGGAGCAAA
Celera SNP ID:            hCV27531176
SNP Position Genomic:     158349
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:16962):
GCTTCGACCTCCCAGGCTCAGGTGACTCTCCCATCTCAGCCTCCCAGGTAGCTGGGACTACAGGTGCATGCCACTGTGCCTGGCTAATTTTTTTTTTTTT
T
GTTTTACTAGAAATGGGATTTCACCATGTTGCCCAGGCTGGTCCTGAACTCCTGAACTCAGGCAATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTA
Celera SNP ID:            hCV11651464
SNP Position Genomic:     71091
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16963):
TAATGTCTTTTTACGTCTTTGACATAAAAATGTACTTTATTTACATAGTATCATTTACCATTATATATTTTATATAGTTGTATTTATTGATTTCAAAATG
S
TATAAATATTAATGGCACACAGGACTATTTTTAAAGAACAAAAATTTTCATGTAATGAGAAAGACTGCATTTGGAGTTTTAGATCGTTATGTGTTTCTTC
Celera SNP ID:            hCV11651469
SNP Position Genomic:     75232
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,36)   total(C,1|G,71)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16964):
TTTCATTTAAAAAATCTCCCAGTTAAATGTACCAGGTCTAATTTATTTCCACATTTTGAAAAGGAATTTATTTGTTGCCAGCAGCAGTTTTTTGGGATCA
Y
TATTACGATGATGACATTGGTGTTGCTGCTGATACATATACATTTGAAAGATGTTGATCTATTAAACTTTCTTCATTTAACCTCTGTTGATTTTGAGGCA
Celera SNP ID:            hCV254244
SNP Position Genomic:     80755
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:16965):
TTTTATTCTTTTGGTTCTTTTTCTACCTTTCTTTAATACCCCTTTTAAAATTTTCATTCAGTAATTTTATTCGAAGGGCACCTTGCAATTTAGTCTTCAC
R
TCTGATTATTTTTGCTCTCTTGATTTCTTTCCTGTTGTCAATCAATCCTGATTTCTTTTGTTAATTTATAACTTTAAAAAATTTATAATTTATATTTATA
Celera SNP ID:            hCV254246
SNP Position Genomic:     79130
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16966):
TTTTATCTTTGAAATATAGTACTTTTGCAAGGTACTTCAGGATTACTTGATATGGGTCAATTGTTTTGCCTTGGTACTCAGTGAGTCCTTTCAAAATGTA
S
ATTCAGAATTTTTATTATCTCTGGCAAAGTGTTTTTTTTTAAGATTATAATTTTAAATATTAATTCTGTTATTTTTTTTCTTTTTCAGGGATTCCTATTT
Celera SNP ID:            hCV254247
SNP Position Genomic:     78853
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16967):
ATTTCACCTTGAACTGCTGCTTTGGCCTGCTTCTCCCTCCGGTTCTTTCACTGCAGGTCTCAGACACCCTTTTCAGCAACCTGCAGCAGCTACTGGATCC
S
CTGAGACTGACTGGCCATGACAGCACCAACTCTGAGGCAGAAGCAAGCAGCCTAAATCTCTCTCTCTTTTTTTTTTTAGAGAATGAATCATATCTGCAAA
Celera SNP ID:            hCV254248
SNP Position Genomic:     78465
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16968):
TTTTTGAATTTTTATTCATTTTCTTCTTGTGAATTAAATTACAAATCTAAAACTTAGAAATTTTTCTGAATTTTTTTATGTTATTTGGTTTGCCTTTTAG
Y
AGTTAATTACAGCTGATTAGCCTAAAGTAAGTGCTATCTACTGCCTTCACCAAAATTTAGATAGATTCTAATAAAGCCACAAATTATTTAGCCTACAGTT
Celera SNP ID:            hCV29091290
SNP Position Genomic:     281702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16969):
ATATGCAACATGATCTATCACTTTTTCTCAGTTGTGTTTAGGGTTTCATGGCTAAACTTTTTTATATATATATAATAAGATTGGTAGTCAAAGTGGTAAA
Y
GAAAGATTAGATTATTCTACGTATTGACGGTTATGTATATAAGCCTCCATCAGAAGCATGATTTATTCATTGCTATGAGTTTCAAGCATTGCAGAATTAG
Celera SNP ID:            hCV29091291
SNP Position Genomic:     281321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16970):
CCTCAGCCTCTAAGCATGCTCAGGTTTCTTTAGGTGTTATTCCTTTGCTTCTTCATTCTCAGGAAGCTTCTGCTTTCTGTTCCTTCTTCCATTGCCAATC
Y
TCCCTTCACCCTTCAACTCACTGCATTGTGTAGTCTTCCTGCAATCTGAACAGCCTTGCTAAGATTAACAGTTATACTTCTTTTTATCCCTTATCTTATT
Celera SNP ID:            hCV29091292
SNP Position Genomic:     275783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16971):
ATAATTGATATTGACACAAGAACCAATGAAACCAGAGAATTTAGAAATGTAGAAATTTTGTATGTCATAAAGGTGACATTTCAAATCCGTGGGGAAAGAA
Y
AGACCATGCAGTAAATGGTGTGAGGACCATTATTTGGAAAAAATCAAGGTAGCTTCCTCCCACAAATTATACCAAAACAAGTTCCATGTGGATTTATTAT
Celera SNP ID:            hCV29091293
SNP Position Genomic:     272282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16972):
AAAAAATGCACAAGAAAAGTCAACATTTTTAGTGAAAAAAGTCTTTCTCTATAATAATTTAAAAATATTCCTTAAAGCCACAAGAATATTTTTATTCTGT
R
TAATTGATATTGACACAAGAACCAATGAAACCAGAGAATTTAGAAATGTAGAAATTTTGTATGTCATAAAGGTGACATTTCAAATCCGTGGGGAAAGAAC
Celera SNP ID:            hCV29091294
SNP Position Genomic:     272182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16973):
CTCAAAAAAAAATCAGAGACAGAGAAAAACATAGAATTAATAAAACAGTAGTGAGCAAAGCATTCTACGAAATTTATCAACGTATAAAAATAATTGTTGA
Y
ATAATGTGAAAAATAAATATTAACAATAAATTGGAACCAAAATCCCCACAGAGACAAGTGCAAGGAGGAGTGATGGTATACTAGGGTTCTTGTTATGTCT
Celera SNP ID:            hCV29091295
SNP Position Genomic:     269568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16974):
ATCTCTTGTGGAACTTTTGGTTCTTTTTGGAATCAAAAATTGCTTCATTTTAAATTTGCTTACTTTATCATGTCACTATATGAAGCATTCCAAGTTCTCC
R
TTGGAATATTAAATATTCTCCAAATATTATTTTATGTGCAGTTGTTGTGATACTTCTTGTCTACCCAATGTCAGTTCTACCCCTCCCACTTATTTAAATA
Celera SNP ID:            hCV168072
SNP Position Genomic:     91836
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16975):
TGCAGTTGTTGTGATACTTCTTGTCTACCCAATGTCAGTTCTACCCCTCCCACTTATTTAAATAACAGGATCCTGATTTTGTTCAGAGTAGTTATATGCC
Y
AATGAAAAATAATCAACGTACTAAATTCCTTTAGAGTCAGAAATGGGTCCACATCTGGAAATTGGGATTCTGGGGAAGCTATTGTTTTTCTGACAGACTT
Celera SNP ID:            hCV168073
SNP Position Genomic:     91973
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16976):
TCTTGTCTACCCAATGTCAGTTCTACCCCTCCCACTTATTTAAATAACAGGATCCTGATTTTGTTCAGAGTAGTTATATGCCTAATGAAAAATAATCAAC
R
TACTAAATTCCTTTAGAGTCAGAAATGGGTCCACATCTGGAAATTGGGATTCTGGGGAAGCTATTGTTTTTCTGACAGACTTATTTGACATATGTATATT
Celera SNP ID:            hCV168074
SNP Position Genomic:     91991
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16977):
TAAAATATGAGAAATTATCATAAATTTGTATATCAAAATTTATATACATAAGGAAGAAGTTATCTTTAGTATTAAAAACCATTTATTTGAAGTAATATTT
S
CTGGAAGATTCAAATATATTTCTTCGAGTCTGTGCTTATATGTAAGAGTTAACCAAATTTGCCGTTTACTTTTTTAAATCCTATTCTAGGTCAATACTAG
Celera SNP ID:            hCV29091298
SNP Position Genomic:     247519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16978):
GAATGGGTGAACTTAAGTCAATTGAGATTATCTAGTCTAGGGAGTAGAAAGTCAAAAAGCATGAAGATGAACAGAGCTCAAGAGACTTAAGAGGCCTGTG
Y
GATGACATCAAGTGCACCAACACACATAATACATATTCCAGGAGGAAAGGAGAGAGAGAAAGGGGCAAATAGAATGGCTGAAGAAAAAAATGGCTGAAAA
Celera SNP ID:            hCV321265
SNP Position Genomic:     96697
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16979):
TTCCTGGAGTCTTCACCCTCTGTTCTAATCTGATTGCTTACTAGGCCTGCACAGTTCCAATCTGTTTTTCTAGAACTTAATTTCATGTCTCTTCTGTGTT
R
AATCCTATTTCTTAGGCTTTCTTCTTCTCTCTCTCTTTCTCTCTCTGTCTCTCTGTCTCTGTCTCTGTCTGTCTCTCTCCTTTCTTTTGGTTTTCCTGGC
Celera SNP ID:            hCV168075
SNP Position Genomic:     92456
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16980):
TGATTTTTCAACCATTTAGAAATGTGAAAGTCATTATTAGTGAACAGGCATTGCAAAAATAGACAGTGGACCAGATTTGGCCTCTAAGCATGGTTTGCTG
K
TGCCTGCTTAATACCGAGCATGAAATAAGATGCTCATTAAATATTTGTTCATTATGTGTTCAAGTATTTCCACAAATATATTTTTAATATATATTATTAC
Celera SNP ID:            hCV29091299
SNP Position Genomic:     247262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16981):
TAAGTTTTCTTGGGTTGATGTCCTTCAGAAACACCAATTTTTCTTAGATAAGTAACTTCATACATTTTCATATAAAGTACATAGAAAAACCATTCCTAGT
R
TAGTAGAGCTATATTCTGAAAAAAAAAATTTTTTTAGACAAAATAAATCCCCTTTCCTCTTCACCCTCCATCCCCATGATTCTGTGTATGTCCTGCTGAA
Celera SNP ID:            hCV321195
SNP Position Genomic:     94549
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16982):
CTCTTCACCCTCCATCCCCATGATTCTGTGTATGTCCTGCTGAAAATTCATGTACTTGTCTAGCATGGGGCTTATAGTATGCTGTATGTAAGCACTAGGT
R
ATGGTGCTGGTTAGTTATCCATTTGACATGCTGACCATTTTCTAATTTGAACAGTTCTAGCCATGTTGTTGGAATTAAAAATTTAGGGCCAGACATTGAC
Celera SNP ID:            hCV321197
SNP Position Genomic:     94706
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16983):
ATAGCTAATGAACTAGCACAGAGAACTCTAGATGGAAGAAGACAAAGAAGAGAGATATATAGGTGACTGTATATTTACACATGATTATGAGGTTGGTGCA
R
AAATAATTGTGGTTTTTACCACAATGGCAAAAACCTCAATTCCTTTGCACCAACCTAATAAATGTATAGCAATAGACTAGGAATGTCTAACCAAAGTGCT
Celera SNP ID:            hCV26003860
SNP Position Genomic:     150784
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16984):
CATGTTTATTGCTTTAATATAAAAAATACATAAATGGAAAACTGCATTTGAATTTGATGAGCTCATTGCTGGTTTTGTTGGAGTGATTTATTTTTTCCCT
K
ATATGAAAAGCTACTATTGACACAGTGAGATGGAAGTTAACTGTCTGTTTTTTGGAAACCAGTATTTTTGGTTTTAAAATCTGAGTAGATCATTTAATTT
Celera SNP ID:            hCV11651473
SNP Position Genomic:     82319
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,8)   total(G,5|T,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:16985):
CCACTCTGGGCAAGGCATAGCTGAACACAAGGCAGCAGACAACTGCAGACATCAGTGTACCTGTCTGACAGCTCTGAAGAGAGCAGTGGTTCTCCCAGCT
Y
GGTGTTTGAGCTCTGAGAACAGACAGATGGCCTCCTCAAGTGAGTCCCTGACCCCCGTGTAGCCTAACTGGGAGACACCTCCCACTAGGGGCCGACAGAC
Celera SNP ID:            hCV27904757
SNP Position Genomic:     125437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16986):
CCTCCCAAGTAGCTGGGACTACAGGCACCTGCCATCATGCCTGGCTAATTTTTTTGTATTTTTTTGTATTTTTAATAGAGATGGGGTTTCACCGTGTTAG
Y
CAGGATGGTCTCGATCTCCTGATCTCATGATCCGTCCGCCTTGGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCAGATGTTTGT
Celera SNP ID:            hCV29619
SNP Position Genomic:     41628
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16987):
CAAAGGAAGAATTTGGTAACTTTTAGGTAGATAACTGAGATTTGCACCGGAATGATTATCTGGATAGTGGTACCCAGTTAACCAAGATAGAAAATAAGGA
R
GAGGAAAGGACAATGACATTGAAATTTTCTTTGGAACATGTTACTCTGAGGTGCTTTTGGAACATCAAGTTAGAGATGTCCAGTAAGAAGGTAAAATCCA
Celera SNP ID:            hCV11687377
SNP Position Genomic:     221390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16988):
AACTTTTAGTGGGGTCTTTAAAAGTAACTTTCTTTTACAAAAACGTAAAGTTTATTTTATACCTTGAAGAGTCTTTTTCTCTTTCATTTTATACTTATCT
Y
TTTCTGTGAACCTCTATAGAGATAAAGCTAAAATTATTAAGTCTCTATATACTATAAAAAAATCAAACTAAAGGTTGAGGGTAACTATATGCAGTGAAAA
Celera SNP ID:            hCV15942704
SNP Position Genomic:     183903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16989):
AAATAATTCACTGGTTTTTAAAAAACAGCAATTAAAAATATCTCAATTTAGTAAGTGAGTCTGTGTGTGCTAATGGAGCATTTGTTTGTTTACACACCAA
R
TGACATGTAATGGATAGTTGGAAGTACAGTGTGGAATGTAAGCTATAGATTTAGAGACCTAATGTCTGAGAAGTAATACCTAAATATATTTCAGCCTTCC
Celera SNP ID:            hCV25644751
SNP Position Genomic:     118838
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:16990):
TTTACTTCGTAGCAATAGGTAGGTCATGATTTTATATATATTTTTTCTTTTGTATTCCTTCAAAAGTAATGTTTGAACAAATGTAATCTTTCAGGCATTT
M
ATATATAACTCTGACTATATTTTAATCAATCGATCAGTAAGATTTCATACTTAAGGGGATTATTATAAAAGTCTTTATGCATTTATCTCAAACTTAATGA
Celera SNP ID:            hCV25644752
SNP Position Genomic:     122967
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,36)   total(A,73|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:16991):
ATTGTATTAGGGCCCACCCTAATGGCCTCATTTTAATGTAAACACCTCTTTAAAGGCCCTGTCTCCAAATATAGTCATATTTGGAGGTTAAGGCTTCAAC
R
TAAGAATTTAGGGTTGGGGGGCACAGTTTGGCCCATAACAACCAAGCTGTAAACCTTACAGTGACATATGGAGATTTTGTTTGCTCCACATCCTCACCAA
Celera SNP ID:            hCV28007910
SNP Position Genomic:     99368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16992):
TGTAGGTGGTTATGGCAGTTGCTCAGCTGTATTGGCACATATCACCAAAATCTGAAGCTGGCATAATTTCTAAATCACTAGTGCGTTTACTTCGTAGCAA
Y
AGGTAGGTCATGATTTTATATATATTTTTTCTTTTGTATTCCTTCAAAAGTAATGTTTGAACAAATGTAATCTTTCAGGCATTTAATATATAACTCTGAC
Celera SNP ID:            hCV25644756
SNP Position Genomic:     122882
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,9|T,29)   total(C,16|T,60)
SNP Type:                 UTR 5;SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:16993):
GTTAACTTCATATTTTAGGAGCACTTTATTATAAAATTTGTTTTAACTATTCTTCATGATGAATCACGTCTAATTTATTGGTATTTTATAGGAAAAGTGC
R
TTAAAAAGACACACATCTAAGATTTACTAAAAACTTTTCATTATTACATTTAAGAGTCTCATTCACTTGAAATTATTGCTAATTCTTTGTCATTATTGTA
Celera SNP ID:            hCV25644757
SNP Position Genomic:     124221
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:16994):
AATAGATTTACCTTGTACTGTTTTTTTTTTTTTTAAGTTGCTCAAGAGGTCTCATGCTTTCATTTCTTTTTTGTTGTTGTTGAGACAGTCTTACTCTGTC
R
CCCAGGCTGGAGCGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTGGCTGGGACTA
Celera SNP ID:            hCV26380977
SNP Position Genomic:     285476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16995):
AATAAAAATCCGTTTCCTCAGATTTTATCAATGCAAAATTCTGGAAGGTAAAATGCAAGTAAATTTAAGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
TACACCAGCTTTAACCGATTTTTCTACCTTGAATAAAGTGGATTTACATAATTAATATCTTATTTCATATGACACATTTTAAAACTCAAGAAGTATGTTA
Celera SNP ID:            hCV26380978
SNP Position Genomic:     280945
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16996):
GAATAAAAATCCGTTTCCTCAGATTTTATCAATGCAAAATTCTGGAAGGTAAAATGCAAGTAAATTTAAGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TTACACCAGCTTTAACCGATTTTTCTACCTTGAATAAAGTGGATTTACATAATTAATATCTTATTTCATATGACACATTTTAAAACTCAAGAAGTATGTT
Celera SNP ID:            hCV26380979
SNP Position Genomic:     280944
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:16997):
AAAATTAGCTGGGTGTGGTGATGCACTCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAATCCAGGAGGCGGAGGTTGCGTGAGC
S
GAGATCACACTACTGCATTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAGAAAGAACAAACAAACAAAAACATAATAAAATTAAAGAAAAATAA
Celera SNP ID:            hCV9409069
SNP Position Genomic:     30688
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:16998):
AGAAAATCTGTAAAAACAGTCCAATCAGCTTTTTGAATTCAGAAAATAGTCAAAGGTTTACAGCAACCATTCAAACATTTAAGAAAATGGGGCCTGAAAC
Y
CAGGAGAAAAGATTTGTGGCATTTAAACTTACCCTCACTCTATCCTCCCTTCTCTGCCTCAGTGACAGGGGCTGGATGGAACAGAGTAGATTCTGTTCGC
Celera SNP ID:            hCV28964818
SNP Position Genomic:     95598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:16999):
TGTTCTGGGTAAAAGAGTACAAGGGGACCAGGAACAGGGTTTTTACCTAAAGCAGAAGGGAGAGAGGGTGGGAGAAGTATGTTATTTGAGTGGATAAGGA
R
GAATACTGAGAAGGACTGCCCGCTTTCAAACTGAGGTTCAAGGAGTCTAAGAGCTTCTTTGCTGGTTTCTTCCTTTCTTCATGTTGGGAAAAGGGCTTGT
Celera SNP ID:            hCV512618
SNP Position Genomic:     55045
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17000):
ATAGAACGTATTCCTAAAACTCCTTTTCCACCTAGTGTTAATTAGAAAGTTGACAAGTGTCATTTTCAACTTTATTATGTTTACATATTTTATCATTTTT
W
AAAAAAATTAAGCTCAGTACTATATTTTATGCAGATCCTGTTTATTTTTTATTTGATGTACACTTTAACCTCATTGATCCAAGCTTTTATAGGTGTCGTA
Celera SNP ID:            hCV11687382
SNP Position Genomic:     235745
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,10)      total(A,10|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17001):
TCAATAAAAAGAAAAAAAGAAACAAGAATGGCTGATATTGAATTTTTTCCTTGAAATACATTATACAAATCGATACATAAAATTATGGGTAATAACAGCA
Y
ATTTGATAAGAAGCCTTCAGAAATGCTGGGAACATGGACCAAAAGCCTGTCAGATACTCTTTTATTAGTTAGAATAAAAAGAATAGAGTAAAATGATCCT
Celera SNP ID:            hCV27514934
SNP Position Genomic:     267303
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,167|T,1304)   total(C,167|T,1304) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17002):
CAGGCTGTGTCATCTAAGTTGCTGATTCATTCCAATTTTTAAAATTTGTTGTGGAAATGTTCACATTAAAAAAAATCAGCTCATACTGACCTTTGTGAAA
Y
GCTTTAAAGAACTCTGTTAAAAAATGTTAGTTAAAAATAAGTTTTCTTGGGTTGATGTCCTTCAGAAACACCAATTTTTCTTAGATAAGTAACTTCATAC
Celera SNP ID:            hCV11645646
SNP Position Genomic:     94411
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17003):
AAACAAAATGAAATTAATCTACATCATCACTTGGTCCTCATATTGTGCTTATGAGAAGTTTATGTATTCTGGAATTCTTATATATTGACAAAGTTTAATA
Y
AATCGGAGTTTTGGTTAACTCAATAATACCAGTGTGTAAACTAATTGAAATAATATCTTTTAGACCTATGTGAAAAGCCAGGATAAACAATTTGCAGCAG
Celera SNP ID:            hCV25644762
SNP Position Genomic:     136893
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,38)   total(C,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:17004):
TCTTTTAAGGCTTGTATTAAATAGAATGTTTTTCTAATTTAAGTTTACATTTTACGAAGCATATTGCATTTGAATTGAATTATACATATTTAGTATGAAT
R
ATTTCTATCTTTTTCAGAAATAGTTGTTGCTGAAAGTGTGGTTGTTATAAAGAAATTACTGCAAATGCAACCTGCACAACATGGTGAAATTATTAAACAT
Celera SNP ID:            hCV25644763
SNP Position Genomic:     143523
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,34)   total(A,68|G,2)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17005):
AGAATAAAAATCCGTTTCCTCAGATTTTATCAATGCAAAATTCTGGAAGGTAAAATGCAAGTAAATTTAAGGGGTGTGTGTGTGTGTGTGTGTGTGTGTG
K
GTTACACCAGCTTTAACCGATTTTTCTACCTTGAATAAAGTGGATTTACATAATTAATATCTTATTTCATATGACACATTTTAAAACTCAAGAAGTATGT
Celera SNP ID:            hCV26380980
SNP Position Genomic:     280943
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3|-,6)   total(G,3|-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17006):
CAAATTTGGAAGCGCACTCATGGTTATGCTTTCACATAGTCTTTTAAGGCTTGTATTAAATAGAATGTTTTTCTAATTTAAGTTTACATTTTACGAAGCA
Y
ATTGCATTTGAATTGAATTATACATATTTAGTATGAATAATTTCTATCTTTTTCAGAAATAGTTGTTGCTGAAAGTGTGGTTGTTATAAAGAAATTACTG
Celera SNP ID:            hCV25644764
SNP Position Genomic:     143484
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,36)   total(C,2|T,70)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17007):
CAACTTCTTTTCAGTTTTCTCATCAGTAAATTTGAAATAACAGAAGCTGTCTCTTAAGATCCTTTTTAGGCTTTATTTAAGTAAAAAACACACAGTAAAT
S
CTTAAAAAAAATCAAAATCCTGCCTAGACTATTAATTTAGACTCCTAACTGATGTATCTGCCTTTGATTTCTCCCTTACTCCACCTTACATACTGCCACT
Celera SNP ID:            hCV26380981
SNP Position Genomic:     276798
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17008):
TTCTAGACCATCGGTTTTTGCTGTATGAATATTTTCTAAGATATTCTCTTCGAAATCAATTTTAATGAGATTTCCTATGTGTTTATTTTTTGATAACTGA
Y
GAAAATTCATAAATACAGGATTAATTCCTAGATATACATTAAATTAATTAATAGCTGTAAAACTTTTGTAATAGTTAAAACCTTTTCTATGTTAATATTA
Celera SNP ID:            hCV25644765
SNP Position Genomic:     158149
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,40)   total(C,69|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:17009):
AACTTTGGGAGGCCAAGGCAGGAGGATCACTTGAGGCCAGGAGTTCAAGATCAGCCTGGGCAACATAGTAAGACTCTGTCTTTACAAAAAAAAAAAAAAA
A
GGCCAGGCGCAGTGACTCACACCTGTAATCCCAGCACTTTAGGAGGCCAAGGCGGGTAGATAACTTGAGGTCAGGAGTTCGAGACTAGCCTGGCCAACAT
Celera SNP ID:            hCV26380982
SNP Position Genomic:     274752
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17010):
ATTTGCTTTAATATTCTTAGTTTGAAATTTTTAAGCCATCATTACATTTCACAGTTTCAACCAAGCTACAAACATTACCTAAATTTTCAGTGTTTAGTTT
R
CCTCTTTTTCACATCCTCTGTGTTTTCATGTCTAAATTATCTTATTTCCTAGACTCTCTTGAGCCTGAGGGATCCATTACAGTTTCAATGGGTATTGACT
Celera SNP ID:            hCV26380983
SNP Position Genomic:     265117
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,26|G,1475)   total(G,1475|A,26) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17011):
ACATTTATTTCCTTCTCATTTTCAGTACCTATAGAGATAATATTAGAAAACATGACATTTCTCAGGAAGATATGTATTTCTGAAACAAATGGGTATAATG
Y
GTTCATTGGTGTATGCGCAGAATTAATTTGTGAAAAAGAAAACCTTGAAACAGAATAGTTAGGTTACTTTGTAATTTGCTTTAATATTCTTAGTTTGAAA
Celera SNP ID:            hCV26380984
SNP Position Genomic:     264943
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,256|T,1239)   total(C,256|T,1239) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17012):
ATCCCTGCCCCCCAGCAAAAAAAAAAAAAATGAGTATGTTTGTAATATTAATATATGCTTGGAGGTTACAGAAAAATTTCTTTTTTTTTTCTTTTCTTTT
Y
TTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGC
Celera SNP ID:            hCV26380985
SNP Position Genomic:     259822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17013):
TGGCAGATCGATTGAACTCAGGAGTTTGAGACCAGCCTAGCCAACATGGTGAAACCCCAACTCTTTAAAAGATACAAAAAATTAGGCGGTCATGGTGGTG
Y
GCACCTTAGGTCCCAGCTACTTGTGGGGCTGAAGTGGGAGGATCCACCAGGAGGTGGAGGTTGCAGTGAGCTCATATCACACCACCGCACTCCAGCCTGG
Celera SNP ID:            hCV26380986
SNP Position Genomic:     256338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17014):
GATTCAGTTATTTACTTGAGAAGAATTGAGCATGGATTTTGGTATAGCAAATACTGAGTTTTAAATTTTCACTCTGGCTATGAATAAATGATTTTTTTTT
T
AACAGATCAAGAAGTTGGTATATGTTTACCTGGTTCGATATGCTGAAGAACAGCAGGATCTTGCACTCCTGTCCATAAGCACTTTTCAGCGAGCTCTGAA
Celera SNP ID:            hCV26015172
SNP Position Genomic:     72423
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17015):
AAATTGCTTACCCAGTACATATTAAATCTCGGCAAGTATGATCAAAACTACGACATCAGAGACCGTACAAGATTTATTAGGCAGCTTATTGTTCCGAATG
W
AAAGAGTGGAGCTTTAAGTAAATATGCCAAAAAAATATTCCTAGCACAAAAGCCTGCACCACTGCTTGAGTCTCCTTTTAAAGGTATTATCAGAATATAA
Celera SNP ID:            hCV25644769
SNP Position Genomic:     170413
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,37|T,1)   total(A,72|T,2)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17016):
GTATTTTATCTAGATGCTGGAGAAGTTTGGCGTAATATGACTTGTATAAACTTAGGAAACAAGGTTAAAAAAGTAATCAAACATTTTCTTTTTCTTTGTG
K
TTTTTTTTTTTTTTTTTTTGAGACAGAGCCTTGCTTCATCACCCAGACTTGAGGACAGTGGCACTATCTCAGGTCACTGCAACCTCCACTTCCTGGGTTC
Celera SNP ID:            hCV26380987
SNP Position Genomic:     254215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17017):
GTTTTTATATTTCCAGCACCAATTCCAGCTATCTCCAACTTTTTCCCCTCATTTCTTGTGTTCTTTGAGTATATAACTTTTTTTTTAATTTTAAATTTTT
W
AAATTTTTGAGACAGAGTCTCTTTCCAGTTGCCCAGGCTGGAGTGCAGTGGCACAATCCTGCCTCACTGCAGCTTCGACCTCCCAGGCTCAGGTGACTCT
Celera SNP ID:            hCV26015173
SNP Position Genomic:     70919
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17018):
CACAGGGAGGGGAACATCACACACCAGGGCCTGTTGGGGGTTGGGGGAGTAGGGGAGGGCTAGCATTAGGAGAAATACCTAATATAGATGACAGGGTGAT
K
GGTGTAGCAAAACCACCTTGGCACGTGTATACCTATGTAACAAACCTGCACATTCTGCACATGTATCCCAGAACTTAAAGTATTTTAAAAAAAAAAAGAT
Celera SNP ID:            hCV26380988
SNP Position Genomic:     252813
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17019):
TAGATTTTGTTTTTAAGGTTTTGTGGAGCCATTCAACATTGAAGAGTAATTGGAAAAAGGTTTTTTCATTTCATTTATAACTCTACCCGTATAGTATAGA
D
GGATTGATATCAACTTAAAATGGTTGTGTTTAACATATTTATCAATGATGAAGATGTACAAAGTTTGTTTGCTCATTAAGTTTTCATTTGTACTTATGAA
Celera SNP ID:            hCV26015174
SNP Position Genomic:     70250
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|A,1|-,3)   total(G,1|A,1|-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17020):
AAGACAGTGCGGCAATTCCTCAAGGATCCAGAACCAGAAATACCATTTGACCCAGCAATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATTCT
R
CTATAAAGACATATGTGCACGTATGTTTATTGCAGCACTATTTACAATAACAAAGACTTGGAAGTAACCCAAATGTCCATCAATGATAGACTGGATAAAG
Celera SNP ID:            hCV26380989
SNP Position Genomic:     252431
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17021):
TTAGTGCCATCACTACAGTTGTGTTCAATAGTAGTGGAGATGGTGGGCATTCTTGCCTTGTTTCAGTCTAAAGGAAATGCTTACATTGTGTTTGCATTAA
R
AAAGATGCTGGCCCTGAAGATTTTATCTTTGAAATATAGTACTTTTGCAAGGTACTTCAGGATTACTTGATATGGGTCAATTGTTTTGCCTTGGTACTCA
Celera SNP ID:            hCV26015175
SNP Position Genomic:     78732
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17022):
ATCTGTGTAAAATTGGAATGTCTGTTTCCAAAATACACCAGAAAGTAAAAAATATTGAATACTTGTTCATCACAGGTATTTAATATTTGTTGAATGACTG
T
TGAATTAATTTGTTACATTCTTGGTGATAGTAATTAAGTGTGTAGTATCGTTTTTAATGTCTCCCTCACCCCCCTGCAGTGGTTTCATGCTCAGTGTTCA
Celera SNP ID:            hCV26015176
SNP Position Genomic:     77167
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17023):
TATCTGTGTAAAATTGGAATGTCTGTTTCCAAAATACACCAGAAAGTAAAAAATATTGAATACTTGTTCATCACAGGTATTTAATATTTGTTGAATGACT
G
TTGAATTAATTTGTTACATTCTTGGTGATAGTAATTAAGTGTGTAGTATCGTTTTTAATGTCTCCCTCACCCCCCTGCAGTGGTTTCATGCTCAGTGTTC
Celera SNP ID:            hCV26015177
SNP Position Genomic:     77166
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,2)   total(G,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17024):
GAATCGCTCGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCGTTCCAGGCTGGGCGACAGAGTGAGATACTGTCTTAAAAAAAAAA
A
TTCTGAAAGAAATTAGGATTGGGTGACACAGTGGCCCAGGTGTTAGGAGATGGCTGTAGCAAGGGAGAAGGAGTAAAATTTGATGATGCTTTAGATAGAA
Celera SNP ID:            hCV11645218
SNP Position Genomic:     58288
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17025):
ATATTAATATAGTTATTGTGCTTTCCCTTGATTAATATTAGCATGCTATGTATTTTTCCATCTTTTTACTTTTAACCTGCCTTTATCTTTATGTTTATGG
K
GAATTTCTTATAGGCAGCACATAGTTGAGTCATGGGTTTTAATCTACTTTGCCAGCCTTTGTCTTTTAATCAGCATACTGATTTACATTTAATCTAATTA
Celera SNP ID:            hCV311594
SNP Position Genomic:     114070
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17026):
TATTAATATAGTTGGATTTTAAGCTGTCATTTTACTTGCTTTTATATGTTTCATGCCTTTTTTGTTCCTTATTTCTCCTTTATTGCTTTTTCTTAGATTA
R
GTGAATATGTTCTAGTGAACATTTTAATTCTTTTCATGGTTTTTTTACTATATATTTTTGAAAATATTGTCTTATACATGGAGATTATACTTGTAGTTTC
Celera SNP ID:            hCV26015178
SNP Position Genomic:     76256
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17027):
TTCATGTTGCCGTTTCATAGCCAAACCGACTTTATTCCACATGTTTAACCTTACTCCCAACCCTTAACCCCTGGCAACTGCTAATCTTTCTGTTTCCATA
R
TTTTGTTATTTCAAGAATGTTATATAAATGGAATTATATGGTATATAACCTTCATTGTAGATTATCCATTTTGTCATTCTATAATGTCCTTCTCTGTTGT
Celera SNP ID:            hCV311595
SNP Position Genomic:     113837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17028):
AAGTCACTTTTAAACATTTTGCAAGAGTCTCAGGCCACAGCAGGTTGCAGAGATTGTTTCATCCTGGTGTAAATCTTGAGATGGCACTAGCACCCTTCAG
G
CTGCCTTGGAATTCAGAAGGCAAGTGGGTATATTCAGTGTCTTTTATGTGACTACTCTAAATGCCAAGGTAATAAAGGTGAGAGGTGACAGGATAAAGAA
Celera SNP ID:            hCV231478
SNP Position Genomic:     102070
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17029):
TAATGTCTTGCAAAACTCTAATACAGTATTACAACCAGGATATTGACATTGATACAGTCAAAACTGAGAACATTTCCATCACAGGGAATCTTCATGTTGC
Y
GTTTCATAGCCAAACCGACTTTATTCCACATGTTTAACCTTACTCCCAACCCTTAACCCCTGGCAACTGCTAATCTTTCTGTTTCCATAATTTTGTTATT
Celera SNP ID:            hCV311596
SNP Position Genomic:     113747
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17030):
TCCTCTCTTCCACCATATGAGGTAGCTGTCCACACACCAGGAGGAGGGCCTTCACCATGAATTGAATCACCTGCCCCTTGATCTTGGACTTTTCAGCCCC
K
AGAACTGTGAGAAATAAATGTCTCTTGTTTCAGGCACCTACCCTGTGGTATTTTGTTATAACAGCCTGAGTTGACTAGTGCAGTGTCTTAGATTATGTGG
Celera SNP ID:            hCV231479
SNP Position Genomic:     101851
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17031):
TCTGAAAAAAGGCAAGTTGAGAAAAAAATCTTTAACCTGTGGCTAAGTGGTTAACATGGTAAGATCAAGGAATAGAGGTGACCTATGGGGGATGTGAGTT
R
CTAGTGTACTAGTATCTTAGATGGGGCTTTTGTACCCACTTTATATTTCTCAAAACTACTGAGGAAAAGGATTCCAGCTCATCTTAGGATGCTATCATCA
Celera SNP ID:            hCV26015179
SNP Position Genomic:     75440
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17032):
TTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCC
Y
GGTGTCTTTCATTTCTTAGTTTTTGACAAGCTCTATCTATCTCACATAGGATGGTGATAAAATAAGAAAATGGATGTAAGGTCATGATACAGACCACCAC
Celera SNP ID:            hCV11687394
SNP Position Genomic:     285731
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17033):
TTGATGAGCTTGCAGCCCGGCTCAGTCGTGGCTGACAGCACTGATTGGGGCGCAGTACGCTCTCTGCTCCTTTTATTACAGACAGTAATTAAAGCAGCTC
K
CCCTGCCACTTCCATAACAAACACAGCATAATGCCCTAATTATGACTTTATTAATTTAAGTCAGGATTTAATGATTTTAAAAGTGATTTATATTGTTTTT
Celera SNP ID:            hCV7602286
SNP Position Genomic:     186594
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:17034):
TATAGGCATGCACTACCATGCTTGGCTAATTTTTTGTATTTTTAATAGAGAGGGGTTTCTCCATGTTGCCCAGGCTGGTCTCGACCTCCTGGGCTCAAGC
S
ATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGGGCAACCGTGCCCAGCCACACACACTAAATTCTAATCCCAGTGGAATATTTGTGGT
Celera SNP ID:            hCV7602287
SNP Position Genomic:     193375
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17035):
TGGGAGGCGGAGGTTCCAGTGAGCCAAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGTGATATTCCACTACAAAAAAAGAAAAAAGAAAGAAAAA
R
AGAATCAGTCAAGCTGTTAGAGGCATGAGGGGAGGGTATACTAGGCAGAATAAAGTTATGGAGGAGGGAAAGAGCTTGCTACTACCAGAAATAATGATTG
Celera SNP ID:            hCV7602289
SNP Position Genomic:     204940
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17036):
GACTCCTTTTAAGCATCCATAACTAGCATTGATTGAAGTTGTTTCAGTGTAATGAGTTCCCCAAACAATACATTATGGTTCAAAATGAAGCAGTTGTGTA
M
GAGCCTCATAATACATTTATAAATCCTCAAGTATGAGGCAACTTCTTTCTGAGGGATAATTTTAGGGGGGAAACTTTTTTTCATATTTGGCATCTAGGGA
Celera SNP ID:            hCV28951582
SNP Position Genomic:     109261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17037):
AGCTATTTTTCATATGTTTCTTGGCTGCATGTATATCTTTTTTTGAGAAGTGTCTGTTCATACCATTTGCCCACTTTTTAATGGGGTTGTTAGTTTCTTG
W
AAATTTGCTTAAGTTTCTTGTAGGTTCTGGATATTAGCCCTTTGTCAGATGGACAGATTACAAAAATGTTCTCCCATTCTGTAGGTTGTCTGTTTGCTCT
Celera SNP ID:            hCV28951583
SNP Position Genomic:     111840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17038):
GGGACACTTTGATAGGCTATTGCTATTGTGAACTGGACTATTAAAATGCTTACTTTAAAAGCTTTTCCTGTTGTACTTATTATCCCACAAAATATTATTT
K
TATTTTACAATCTAACATGTGACCAGATTCAGTTATTTACTTGAGAAGAATTGAGCATGGATTTTGGTATAGCAAATACTGAGTTTTAAATTTTCACTCT
Celera SNP ID:            hCV381531
SNP Position Genomic:     72297
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17039):
TGTTTATCCAGAGTTATCGATAATCATAAATAACTGTATTCTCATCTTGATCTGTTTTTTTCCAACAGACAAAATTGCTTACCCAGTACATATTAAATCT
Y
GGCAAGTATGATCAAAACTACGACATCAGAGACCGTACAAGATTTATTAGGCAGCTTATTGTTCCGAATGAAAAGAGTGGAGCTTTAAGTAAATATGCCA
Celera SNP ID:            hCV25644770
SNP Position Genomic:     170342
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|T,3)   total(C,71|T,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17040):
ATATCTTTTTTTGAGAAGTGTCTGTTCATACCATTTGCCCACTTTTTAATGGGGTTGTTAGTTTCTTGTAAATTTGCTTAAGTTTCTTGTAGGTTCTGGA
W
ATTAGCCCTTTGTCAGATGGACAGATTACAAAAATGTTCTCCCATTCTGTAGGTTGTCTGTTTGCTCTGATGATAGTTTTGTTTGCGGTGCAGAAGCTCT
Celera SNP ID:            hCV28951584
SNP Position Genomic:     111872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17041):
TTTTACAATCTAACATGTGACCAGATTCAGTTATTTACTTGAGAAGAATTGAGCATGGATTTTGGTATAGCAAATACTGAGTTTTAAATTTTCACTCTGG
Y
TATGAATAAATGATTTTTTTTTTAACAGATCAAGAAGTTGGTATATGTTTACCTGGTTCGATATGCTGAAGAACAGCAGGATCTTGCACTCCTGTCCATA
Celera SNP ID:            hCV381532
SNP Position Genomic:     72400
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,23)   caucasian(C,11|T,27)   total(C,18|T,50)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17042):
CTATATTTATTCCTTGACATTTGAGGTAATATGCCAATTACCTTGAGCTCTGATTATGATTGTTCTCTGTTATATACAGCTCATATTGTTTATTTTATAT
K
TTTCCCTATTTTTAATAGATAGAGATCATTTCCAGCTTGGCACCTTATCTCATACTCTCAACATTAAAGCTACTGGGTACCTGGAATTATCTAATTGGCC
Celera SNP ID:            hCV25644771
SNP Position Genomic:     171438
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,32)   caucasian(T,28)   total(G,2|T,60)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17043):
TATAGGCCGAAGGATAGGAAGAAGCAACCCCATTTGTAATCCACTTGAATTTGGGCACCCAGAGTGGTACAAAGAAAAGCCACAAAGCAAATGTAGCTTC
Y
GCAGTTTTTATCATTTGTCCTATCAGGTTCCTTATCAAAGGAATATGGGAAATTGGCTAGCAAGTAGTCTTACGGATTTTTGCTATTGTCGAAAATTGGC
Celera SNP ID:            hCV946522
SNP Position Genomic:     223981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)   SC_12_C(C,0|T,23)   SC_95_C(C,1|T,178)   total(C,1|T,201) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17044):
GAAGTCATAAGGGAGCAAAAGATCGGAAGGGACACCAAATTGTTATGGTTACCTGAGGGGGACTTTTCTTTTCTTTCTTTTTTTTTTTTTTTTTTTGAGA
Y
GGAGTCTTGCTCTATCACCAGGCTGGAGTACAATGGTGCAATCTCGGCTCACTGTAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGTCTCAGCCTCC
Celera SNP ID:            hCV26380990
SNP Position Genomic:     245941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17045):
GGTGCATTGTTAACAATATACCAAAGATCTCTGATGTTACATGGAATGTTATAGACCACAGAGGCTTGTTTTATTCGCTCTTTTAGGTAGGCTGCTCTTA
Y
ACTAAGTAAATCCAGTGACTGTATGATGGTATTTCCCCCTGCTGCAAATGTTCCTTACACATCTTTAATTTCGTTTTGGCTATAGAGACCCTATGCAGGT
Celera SNP ID:            hCV381534
SNP Position Genomic:     73400
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,11)   caucasian(C,28|T,12)   total(C,55|T,23)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17046):
CATGGCCTAGCTTTTCTCTGGGAATCTCCATTTGGATCTTGAAGTCCTGTTGTAAATCTGTTCAGCATGGCCCCATTCATAATGGCTGATAATTCTGTCT
T
GACGAAATCATTGTTACTACCAAGATTGTTTGTGTGAAGCTCACCTGTTCCTTTTAGGCCATTCTGTTTTCATCCTCATTTTCCTTCCTCTTATGGGGCC
Celera SNP ID:            hCV26380991
SNP Position Genomic:     245103
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17047):
ATAGTCTATCTCATGTACACATATGCTTGTATTATTAGAAAATTGAGATTTTTTTTTCCTGTTTAGGGTAGAATCTTAAGTGTCTGATCCTCTCAACTCA
S
TTATATGTGTTTTCCTTTCTTCCATCTTTGTTCCTGCTCCTCCCTTCGTTGTCTAATTCTTTTCCAGAGCTATTTTATTAAGTAATTTTAAAAAGTGTAG
Celera SNP ID:            hCV381535
SNP Position Genomic:     73684
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17048):
AGAATTATAATAACATTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGTCCAGGCTGCAGTGCAATGGCGCGGTCTCGGCTCACTGCAACCTCCGCCTCC
Y
GGGTTCAAGCGATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGGTTACAGGTGCCTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGG
Celera SNP ID:            hCV26380992
SNP Position Genomic:     241194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17049):
AAATTGAGATTTTTTTTTCCTGTTTAGGGTAGAATCTTAAGTGTCTGATCCTCTCAACTCAGTTATATGTGTTTTCCTTTCTTCCATCTTTGTTCCTGCT
S
CTCCCTTCGTTGTCTAATTCTTTTCCAGAGCTATTTTATTAAGTAATTTTAAAAAGTGTAGTGATTTGAAATATAGTGTGCTATACCATATCTGTGTGAT
Celera SNP ID:            hCV381536
SNP Position Genomic:     73723
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17050):
TAGAATCAGAATTATAATAACATTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGTCCAGGCTGCAGTGCAATGGCGCGGTCTCGGCTCACTGCAACCTC
Y
GCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGGTTACAGGTGCCTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGA
Celera SNP ID:            hCV26380993
SNP Position Genomic:     241187
SNP Source:               dbSNP
Population(Allele,Count): SC_12_CA(T,7|C,9)   total(C,9|T,7)no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17051):
TGTGCTATACCATATCTGTGTGATATTTTAGAAATGTTATGCAATATTATACAATGCCCTGATCTCTGTGGAAAATTTACTGTCCAAATAGAATTGTCTA
Y
AACAATTTGGTATTATTTTCAGCTATCATTTATTCCTCAAGCTTTTTGAGACTCTCTTCTGTTTCTGGTGTTGTATTCACAGTATTGTGCTATGTGTATT
Celera SNP ID:            hCV381537
SNP Position Genomic:     73900
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17052):
ACCTCGTCTCTACTAAAAATACAAAAATTAGCCAGTGGTGGCATCAGGTGCCTGTAATCCCAGCTACTCGGGAGACTGAAGCAGGAGAATCGCTCGAACC
Y
GGGAGGCGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCGTTCCAGGCTGGGCGACAGAGTGAGATACTGTCTTAAAAAAAAAAATTCTGAAAGAAATT
Celera SNP ID:            hCV11645220
SNP Position Genomic:     58202
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17053):
AGGCCTTAAGCTTGCTTTTGAATTCAGTTATGTTGTTAATGATTAAGTTTGCCAGAACTCTAAATCTCTGAATGAGAATTCATTTATATTTACTTTATTT
R
TTTAAACAGGCAAAAGAATGGACCCCAGCAGGAAAAGCAAAGCAAGAGAATTCTGCTAAGAAGTTTTATTCTGAATCTGAGGAAGAGGAGGACTCTTCTG
Celera SNP ID:            hCV25644776
SNP Position Genomic:     183368
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,3|G,37)   total(A,3|G,73)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:17054):
GTGCGGGGGCGGGAATCCCACTCATCCAGACTGCCCGGATTCCTCAGAGCTAGCGAGGGGAAGGACTAAGTGCACTGATCCACCAAGACCATGGCTGCCC
Y
TCCCCAGAGTGGCTTTGTTCCAGGGAGATCAGAGTTCTGTCCCTAAACCCCTGGCTGGAGTTGCTGAAATTCCTGCAGGGAGGCCCAGCTCAGTGAGGAG
Celera SNP ID:            hCV26380994
SNP Position Genomic:     233930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17055):
CATATTCCTATGTTAACTGCCAGACAAGGTTTTATCATGCTTCTCACTCACCTTTTCTCCTTAGAAACTTATGGGATAAGATCCATGCTCACTCTAACGG
Y
TTAAAAGTCCTTCTATCATTGGGCACCAGTATATTCCAGCCTCAATGCTTGCCTCTCCTTGCCTTGAGCTTATAGTCTGTTAGTATTCTATCTCAAATGT
Celera SNP ID:            hCV26015180
SNP Position Genomic:     74455
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17056):
TCTTTATGAGTTTTAGGCTCCAGATTTGTAGGGTTTATAATATCTAATTTATACATTTGCTGTTTGTGTCGAGAGAAAGAACTATTGTATATAAAACCCT
Y
AGCACAGTGCCTAACACCACATGGGATGTGATTAAAAATTCCAAATAAGAAATAAGTACTCAAAAAGATGTAAAGATACAATATCTGTGTAAAATTGGAA
Celera SNP ID:            hCV381538
SNP Position Genomic:     76984
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17057):
AGTAGTTGTATTATTGTTTTAGTTTGCTACAGTTGCCATGACAAAATACCACAGATTGGGTGGCTTAAACAACAGAAATTTATTTTCTCACAGTTCTGAT
R
TCTAGAAGTGCAAGATCTCAAGGTGTTGGCAGGTTTGGTTTCTCTTGAGGCCTCTGTCCTTTGCTTACAGGTGGCCATCTTCTCACTGTGTCCGCATATT
Celera SNP ID:            hCV231480
SNP Position Genomic:     99113
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17058):
GCCGGGCTGGTCACAAACTCCTGGCCTCAAGTAATCTGCCAGCCTTGGCCTCCCAAAGTGCCGGGATTACAGGCAGTAGTTCTTCTTAATTCATGTCCCT
Y
CTTTCTTATATCATATATAATCTATTTTCAGAATAAATCCCAAATCTAGCCCATTCTCACTGTGCTCACTATCTTTCCTCTGCATAATTGCTGTAGCCTT
Celera SNP ID:            hCV11645221
SNP Position Genomic:     56597
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17059):
CTAAGAAGTTTTATTCTGAATCTGAGGAAGAGGAGGACTCTTCTGATAGTAGCAGTGACAGTGGTGGGTTTTATAATTTATTGGCATATATTATTTACAT
R
GTAGATTACATTCTATATCTCAGAAACAAGGCCTAATCCATAATATTCAGCAGGTAGTTTTAAGTGAAGTTTGTATTATCAAAATAATCCCTTTCATTTA
Celera SNP ID:            hCV25644777
SNP Position Genomic:     183524
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17060):
TATTTTGCATTTGCTGAGGAGTGTTTTACTTCCGATGATGTGATCGATTTTAGAGTAAGTGCCATGTGGCACTGAGAAGAATGTATATTCTGTTGTTTTG
S
GGTGGAGAGTTCTGTAGATATCCATCAGATCCACTTGATCCGGAGCTGAGTTCAAGTTCTGAATTATCTTCTTAAATTTTGTGTCTCGATGATCTGTCTA
Celera SNP ID:            hCV26380995
SNP Position Genomic:     232170
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17061):
TTAGGAACATTCTTGCACAAATCTTTTTATGTTTTTGTATATGTTGGGTCAATACCTAGATATAGAATTATTGGATCATAAGGTGGATATATTTTGGTTC
Y
GCAAGAACCTGTCAGTCTTTTTCCCAAAGTAGTTGTATTATTGTTTTAGTTTGCTACAGTTGCCATGACAAAATACCACAGATTGGGTGGCTTAAACAAC
Celera SNP ID:            hCV231481
SNP Position Genomic:     98985
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17062):
CTAGGACTTCCAGTGGTATGTTGAATAACAGAGATGACAGTGGGCAACCTTGTCGTGTTCCAGAGCTTATAGGAAAGACTTTCAGTTTTTTCCCATTCAG
W
ATGATACTAGCTGTGAGGTTTGTCATATATAGTTTTTATTATGTTGATGTATGTTCCTTCTATTCCCAGTTTTTTGAGGGTTTTTATCATGAAAGGATGT
Celera SNP ID:            hCV11645222
SNP Position Genomic:     43608
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17063):
AGAGAATTCTGCTAAGAAGTTTTATTCTGAATCTGAGGAAGAGGAGGACTCTTCTGATAGTAGCAGTGACAGTGGTGGGTTTTATAATTTATTGGCATAT
R
TTATTTACATAGTAGATTACATTCTATATCTCAGAAACAAGGCCTAATCCATAATATTCAGCAGGTAGTTTTAAGTGAAGTTTGTATTATCAAAATAATC
Celera SNP ID:            hCV25644778
SNP Position Genomic:     183513
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17064):
CGTTTTGTCAAAGATCAGATGGTTGTAGATTTATGGTCTTATTTCTGAGTTCTCCATTTTGTTCCATTGGTCTATGTGTCTGTTTTTGTACCAGTACCAG
K
CTATTTGGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGAGTGATACCGCCAGCTTTGTTCTTTTTGCTTAGGATTGTCTTGGCTATACGGGC
Celera SNP ID:            hCV26380996
SNP Position Genomic:     229734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17065):
AACACAGAATATTTTTCCATTTTTTGGTGTCCTTTTCAATTTCCTTCTTCAGTGTTTTATAGTTTTCACTATAGAGATAGTTCACTTCTTTGGTTAAGTT
W
ATTCCTGGGTATTTAATTTTGTGTGTGGCTAGTGTAAATGGGATTACTTTTAAAATTTCTTTTTCACCTTGTTCACTGTTGGCATATAGAAATGCTCCTG
Celera SNP ID:            hCV11645223
SNP Position Genomic:     43222
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17066):
CAAAGTGCTGGGATTGCAGGTGTGAGCCACGGTGCCCAATCACATTTAAGTTTTTATTCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGGGTC
Y
AGTATCAATTTTCTGGATATGGCTAGCCAGTTTTCCCAGCACCTTTTATTAAATAGGGAATCTTTCCCTATTGCTTGTTTTTGTCCGTTTTGTCAAAGAT
Celera SNP ID:            hCV26380997
SNP Position Genomic:     229548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17067):
AGAGTCTGACCTTCCTAGGTTAATAGGTTCTCAACGTGGCCGGGCGCGGTGGCTCACACCTGTAATCCCAACACTTTGGGAGGCCGAGGCAGGTGGGTCA
R
CTGAGGTCAGGAGTTCGAGACCAGCCTGGCTAACATGGTGAAACCCCGTTTCTACTAAAAATATAAAAAATTAGCCTGGGGTGGTGGCGTGTGCCTGTAA
Celera SNP ID:            hCV26380998
SNP Position Genomic:     216561
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17068):
CCATAGTGGTTGTACTAATTTATATTCCCACCAACAGTGTGCAGGGGTTCCCTTTTCTCCACATCCTCACCAGCATTTGTTGTTGCCTGTCTTTCTTTTG
R
GTATAAGCCATTTTAACTGGGGTGAGATGATAACTCATTATAGTTTAGATTTGCATTTCTTTGATGATCAGTGATGTTCAGCATCTTTTAATATGCCTGT
Celera SNP ID:            hCV11645225
SNP Position Genomic:     42156
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17069):
CAGGTGTGGTGGTGGGTGCCTGTAATCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGCGAGCCAAGATCA
Y
GCCACTGCACTCCAGCTTGGGTGGCAGAGTGAGACCGCGTCTCAAAAAACAACAACAACCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGA
Celera SNP ID:            hCV11645227
SNP Position Genomic:     38858
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17070):
CAAGCCATCCTTCTACCTCAGCCTCCTGAGTAGCTGGGACTACAGCCACCTGCCACCACACCCTAATTTTTATATTTTTGTTGGTAGATATGGCTAATTT
R
TTGGCTAATTTTTTAATTTTTGTTGGTAGAGCTAGGGTTTCACCATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGTGAGCCACCACACTCAACC
Celera SNP ID:            hCV7602290
SNP Position Genomic:     215271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17071):
TTGTACATCTCCTAAGACATACTTCTTTCCTTATCGCCAGGACCTCTTCTAGGTGACATCCGCATCCTTCATCAAGGGGAATCCATGTCCCTAAGTCACA
R
TTCACTTAAATGCAAGGCAACACAGCCAGCTTTTAGAGGCCACAGTCCCATCTCTGAAATATGTAGAACAGCTTACGGTTTCCCTCATACAATTTTGTAA
Celera SNP ID:            hCV7602294
SNP Position Genomic:     244898
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17072):
AGGCGGAGGTTCCAGTGAGCCAAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGTGATATTCCACTACAAAAAAAGAAAAAAGAAAGAAAAAAAGA
R
TCAGTCAAGCTGTTAGAGGCATGAGGGGAGGGTATACTAGGCAGAATAAAGTTATGGAGGAGGGAAAGAGCTTGCTACTACCAGAAATAATGATTGTCTG
Celera SNP ID:            hCV26381000
SNP Position Genomic:     204944
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17073):
AAGTCACAATTCACTTAAATGCAAGGCAACACAGCCAGCTTTTAGAGGCCACAGTCCCATCTCTGAAATATGTAGAACAGCTTACGGTTTCCCTCATACA
M
TTTTGTAAGGTTCATGGCCTAGCTTTTCTCTGGGAATCTCCATTTGGATCTTGAAGTCCTGTTGTAAATCTGTTCAGCATGGCCCCATTCATAATGGCTG
Celera SNP ID:            hCV7602295
SNP Position Genomic:     244990
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,8)      total(A,8|C,3) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17074):
TTTCTCTGGGAATCTCCATTTGGATCTTGAAGTCCTGTTGTAAATCTGTTCAGCATGGCCCCATTCATAATGGCTGATAATTCTGTCTTGACGAAATCAT
Y
GTTACTACCAAGATTGTTTGTGTGAAGCTCACCTGTTCCTTTTAGGCCATTCTGTTTTCATCCTCATTTTCCTTCCTCTTATGGGGCCCATTCCATCTTC
Celera SNP ID:            hCV7602296
SNP Position Genomic:     245115
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17075):
GAACGCATGGAGTGGCTTGTATGCTCTGCTAAGTAGTATGGACCTTGTCCTGCAGAGGAAAGGGAAACCACTTTTAATAGTAGTATAATTTACCAGATTT
K
CAGTTTAGAATATTCATTTTTTAAGTCCATTGACTTTTTGAGCAGCTGTTAATAAGAGGAATCATTTTTGCTTCCATGTACGAAATAGGGACTTTTCCTA
Celera SNP ID:            hCV11424452
SNP Position Genomic:     159394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17076):
CACCATTGAGCACTAAGTGAACCAGACACTGTCTGCAATCCCGGCACCTCTGGAGGCCAAGGCTGGCGGATCACTCGCGGTTAGGAGCTGGAGATCAGCC
Y
GGCCAACACAGCGAAACCCCGTCTCCACCAAAAAAATACGAAAACCAGCCAGGCATGGCGGCGCGCGCCTGCCATCGCAGGCACTCGGCAGGCTGAGGCA
Celera SNP ID:            hCV26381002
SNP Position Genomic:     203392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17077):
TCTTGATCTGTTCAATTCTAATAACTTCACCTCCACTGAACTTCAGTTTTTCGTCCTTTCAATTCTGAAATCTTAACTCACTCCCTTACTTGTGCCTATC
M
TGCTCCTCAGGCCCTTCATGCCTCCAGCTGTTTATGTTTAGCCTAGATTAAAACAACCCTGAAAGATAGGTGCTAGTGTCCCCATTTCACAGACTTGAAA
Celera SNP ID:            hCV7602297
SNP Position Genomic:     245483
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,9)      total(A,3|C,9) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)   SC_12_A(A,4|C,19)   SC_12_C(A,6|C,18)   SC_12_AA(A,9|C,12)   SC_95_C(A,40|C,143)   total(A,59|C,192) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17078):
TTTTTCCAACAGACAAAATTGCTTACCCAGTACATATTAAATCTCGGCAAGTATGATCAAAACTACGACATCAGAGACCGTACAAGATTTATTAGGCAGC
K
TATTGTTCCGAATGAAAAGAGTGGAGCTTTAAGTAAATATGCCAAAAAAATATTCCTAGCACAAAAGCCTGCACCACTGCTTGAGTCTCCTTTTAAAGGT
Celera SNP ID:            hCV27537241
SNP Position Genomic:     170398
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17079):
AGGCCAAGGCAGGTGGCTGGGAGGTGGAGGTTGTAGCGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCACCATTGAGCACTAAGTGAACCAGACAC
Y
GTCTGCAATCCCGGCACCTCTGGAGGCCAAGGCTGGCGGATCACTCGCGGTTAGGAGCTGGAGATCAGCCCGGCCAACACAGCGAAACCCCGTCTCCACC
Celera SNP ID:            hCV26381003
SNP Position Genomic:     203321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17080):
AACAACCCTGAAAGATAGGTGCTAGTGTCCCCATTTCACAGACTTGAAAATTGAGATCCCTTCAGCTTCAGTAACTTTTCTGGTGTTACAAGGCTAGTAA
R
ACATGTGCTATGTATAAAACCAATTTCAGCTCAAATCTGTATAGTTTCAAAGCCCTGTGTTTCCCACCACACCTCACTGCTGAGTGTATGAAGGAGTTAC
Celera SNP ID:            hCV7602298
SNP Position Genomic:     245635
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17081):
TCCTCACTTCCTAGACGGGGTGGCGGCCGGGCAGAGGCTGCACTCTGGACGCTTTGGGAGGCCAAGGCAGGTGGCTGGGAGGTGGAGGTTGTAGCGAGCC
R
AGATCATGCCACTGCACTCCAGCCTGGGCACCATTGAGCACTAAGTGAACCAGACACTGTCTGCAATCCCGGCACCTCTGGAGGCCAAGGCTGGCGGATC
Celera SNP ID:            hCV26381004
SNP Position Genomic:     203263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17082):
CAGTAACTTTTCTGGTGTTACAAGGCTAGTAAAACATGTGCTATGTATAAAACCAATTTCAGCTCAAATCTGTATAGTTTCAAAGCCCTGTGTTTCCCAC
S
ACACCTCACTGCTGAGTGTATGAAGGAGTTACAACTCCAAGAGAATTATTTTGTGTAGCAGCTTGTGGTACAGCTCAGAGTAAAACGAACCTAATGACGG
Celera SNP ID:            hCV7602299
SNP Position Genomic:     245703
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17083):
CCAGACGATGGGCGGCCAGGCAGAGACGCTCCTCACTTCCTAGACGGGGTGGCGGCCGGGCAGAGGCTGCACTCTGGACGCTTTGGGAGGCCAAGGCAGG
Y
GGCTGGGAGGTGGAGGTTGTAGCGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCACCATTGAGCACTAAGTGAACCAGACACTGTCTGCAATCCCG
Celera SNP ID:            hCV26381005
SNP Position Genomic:     203234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17084):
TCTAGACCATCGGTTTTTGCTGTATGAATATTTTCTAAGATATTCTCTTCGAAATCAATTTTAATGAGATTTCCTATGTGTTTATTTTTTGATAACTGAC
R
AAAATTCATAAATACAGGATTAATTCCTAGATATACATTAAATTAATTAATAGCTGTAAAACTTTTGTAATAGTTAAAACCTTTTCTATGTTAATATTAG
Celera SNP ID:            hCV11424456
SNP Position Genomic:     158150
SNP Source:               Applera
Population(Allele,Count): african american(G,16)   caucasian(A,6|G,28)   total(A,6|G,44)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17085):
GGGCAGCTAGACTGGCTTCTAGAATTTGTTCGTCTCTGATAGAATCTAGATTCTAGACCATCGGTTTTTGCTGTATGAATATTTTCTAAGATATTCTCTT
Y
GAAATCAATTTTAATGAGATTTCCTATGTGTTTATTTTTTGATAACTGACGAAAATTCATAAATACAGGATTAATTCCTAGATATACATTAAATTAATTA
Celera SNP ID:            hCV11424457
SNP Position Genomic:     158099
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,10)   caucasian(C,23|T,7)   total(C,45|T,17)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   JBIC-allele(T,121|C,1346)   total(C,1346|T,121) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17086):
CTGGAGTGTAGTGGCACTACCTCGGCTCACTGCAACCTCCACCTTCTGGGTTCGAGCAGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACCATCA
Y
GCCCAGCTAATTTTTTGTATTTTTTTTTAGTAGAGGCGGGTTTCACTGTGTTAGCCAGGATGATCTTGATTTCCTGACCTCGTGATCCACCCACCTCGGC
Celera SNP ID:            hCV26381007
SNP Position Genomic:     199852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17087):
AATATTTTTACAATTTAGTTAATATTCTTATATGAGATCTGCTCAGGGATTTTTTATTCCCTTCAAGAGGAAGGGACACTTTGATAGGCTATTGCTATTG
K
GAACTGGACTATTAAAATGCTTACTTTAAAAGCTTTTCCTGTTGTACTTATTATCCCACAAAATATTATTTTTATTTTACAATCTAACATGTGACCAGAT
Celera SNP ID:            hCV28952100
SNP Position Genomic:     72225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17088):
ATTTCAAAATTTACTATTATGTGTAGTGATTCTGAAGATGGGGAGAAGGAAAATGAAAAATCTAAAACTTCAGATTCTTCAAATGACGAATCTAGTTCAA
W
AGAAGACAGTTCTTCCGATTCTGAATCAGAGTCAGAACCTGAAAGTGAATCTGAATCCAGAAGAGTCACTAAGGTAAGAGATTATACATTTGTTGTAATT
Celera SNP ID:            hCV25644782
SNP Position Genomic:     189332
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,31)   caucasian(T,34)   total(A,1|T,65)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17089):
CTTGAACCCAGGAGTTCCAGACCAGCCTGGGCAACATAGTGAGACCTTGTCTCTATAAATGAAAATGGGAAGAAAAAACAAAAAACACTGGGCCCAGAGT
Y
AGAAGACCTGGATTTAAGTTGATGTTTTCCATTTGTAGTAGTGCTTCCTTGTTCAAGTTGCTGATCTCTTCAAACCTCAGTTTCCTCATTTCTAGACGGG
Celera SNP ID:            hCV446351
SNP Position Genomic:     10452
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17090):
TATCTAATTTATACATTTGCTGTTTGTGTCGAGAGAAAGAACTATTGTATATAAAACCCTTAGCACAGTGCCTAACACCACATGGGATGTGATTAAAAAT
Y
CCAAATAAGAAATAAGTACTCAAAAAGATGTAAAGATACAATATCTGTGTAAAATTGGAATGTCTGTTTCCAAAATACACCAGAAAGTAAAAAATATTGA
Celera SNP ID:            hCV28952101
SNP Position Genomic:     77024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17091):
TACCTCATTAATGTATTCTGGAATTTAAAAACAATTTTTTTATAAACTGCTTATATAAAGGAGTTAAAGTTCATATTTCAAAATTTACTATTATGTGTAG
Y
GATTCTGAAGATGGGGAGAAGGAAAATGAAAAATCTAAAACTTCAGATTCTTCAAATGACGAATCTAGTTCAATAGAAGACAGTTCTTCCGATTCTGAAT
Celera SNP ID:            hCV25644783
SNP Position Genomic:     189258
SNP Source:               Applera
Population(Allele,Count): african american(T,26)   caucasian(C,2|T,26)   total(C,2|T,52)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:17092):
CCTCATTTCTAGACGGGATGTGATAATACTTGCCTCTTTTGTGAGGATCTCATGAGATGGTGTACTTCAAAGTGATTTCTAAACTAGGATATTAACTAAC
S
CTATTTGGGAAAGTTGGTGAAGACTTCACTGAGGTAGTGACACTTTAGATCTTAAAGCCTGAGGTTTTTGCCAGGGGGAGGAAAGATGGATTCTTTAGGC
Celera SNP ID:            hCV446352
SNP Position Genomic:     10636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17093):
TTTCCTAGTTTTAGTTGGCAGATTTTATAATGCATGTCTCTATCAGTGAACTAGTATGATATAAAATTCTTATTTGGAAATTCTCCATATTTGTTTTTGG
S
AAGTATGTATGCATAGTAAAATAATGACTGCTATCTAGTTATTTTTTTCCTCCCAGTTGAAAAGAGTTTGTGGTTTATCTACTTACAGTCGCTTTCTTGA
Celera SNP ID:            hCV28952102
SNP Position Genomic:     74681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17094):
TTATGAATAGTAGGTAGTAAAGTATGGGAATGGATGAAATCACCCAGGGAAGACTTTTCTTGTTAGACGAGAAGGCAGTTTGGACAAAACCCAGGGGACA
M
CAGGATATAAAGTATGAATGGAAGAACTAGAAAAAGAGACTGAGCTCAGAAGGGTGGGAAAACACAGGAAGGTTTAAAAAAGAAGATGCTAACAGGAAAA
Celera SNP ID:            hCV446353
SNP Position Genomic:     10910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,5)      total(A,5|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17095):
CATCTTAGACATTGTTTACTCATTTGAGAAATGGAGAGAGGGACAAATACTGTTTCGTTCATTTTTAAATAAGGAATGAAAATTAAAACAACTAGATGAT
R
TGGAGTGTTCAGTGATAAAAATAATTACTTTGAAGAATAAAATTAGTGCCTTTTTAAGTGTATTAATAATGTATATTATTATGTGGTCCTTGAAGTTTCT
Celera SNP ID:            hCV27480020
SNP Position Genomic:     197185
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,263|G,1192)   total(G,1192|A,263) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17096):
AGGATAGAATTGAATTTGAATGGGTTCTAATTTATTTGGTTATGGGTAATACCTTTTTTATTACCTCATTAATGTATTCTGGAATTTAAAAACAATTTTT
K
TATAAACTGCTTATATAAAGGAGTTAAAGTTCATATTTCAAAATTTACTATTATGTGTAGTGATTCTGAAGATGGGGAGAAGGAAAATGAAAAATCTAAA
Celera SNP ID:            hCV25644784
SNP Position Genomic:     189197
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,31)   caucasian(T,34)   total(G,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:17097):
TATATTCCAGCCTCAATGCTTGCCTCTCCTTGCCTTGAGCTTATAGTCTGTTAGTATTCTATCTCAAATGTTTTAAGCTTATTACTACCTCTTATTTTTC
Y
TAGTTTTAGTTGGCAGATTTTATAATGCATGTCTCTATCAGTGAACTAGTATGATATAAAATTCTTATTTGGAAATTCTCCATATTTGTTTTTGGGAAGT
Celera SNP ID:            hCV28952103
SNP Position Genomic:     74585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17098):
TAGAAATGCAGCTGAGTGAGATTCATTTACTTAGAGGGATGTTATTGAATATACTTTCTTAAAAATACAATTTTATTAATAGTAACGCATTATATTTGAC
M
TACCTCAAAGAGTCATTGTGTCTCACTATGGGTTCTAAACTTGTTTGTGTTTAAGTCCATTTTTTATTAATACTTAATTTTATCTAGTGTCTGTACCATA
Celera SNP ID:            hCV446354
SNP Position Genomic:     11609
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,5)   total(A,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17099):
TATCTCATTGTGTATTTTCAGTTTATGTAGTTGCTCAGTGAATATTTCTTAAATATTTATATAGATAAATCGTTCACACATTCTGCTCATATTAAAGACT
R
TGATTTGTGTGAAGGTGCCTAGCAAAGTGTTTGGCTCATAATTTTGCTTAATAAAATATTTTCAGATCCTTTTACTCAATTCAGTGATTTAGATTCCATT
Celera SNP ID:            hCV446355
SNP Position Genomic:     11914
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17100):
AATATTTTCAGATCCTTTTACTCAATTCAGTGATTTAGATTCCATTAACATTTGCTCTCTCATTAGCCAATGTTGTTAAAAAATGAAGCATGACTGATTC
Y
GTGGACCCTATACAGAAGGAAACCCTCATCTGGTATCTCCATTGTATTGTAGTACAGCATCACCCTGAAGCTAATTTTGTGTAGTTCACTTGGGTCTTTG
Celera SNP ID:            hCV446356
SNP Position Genomic:     12069
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17101):
AACTCAAGAAGTATGTTAAATGTGTTAATTAAATTTAACTGAAAAAATTATAAATAAGGAACATGGGGAATATGGTTCTATTTTCATTCTAAAGATATAC
G
TAACTGAAAAGTGTACAGTATTAAATAAAAGTGGTTCTAACAGAGTATTACATTTTAGATTAATATTTTTTAAAACAAAAGTTTTATTTCTAATATGCAA
Celera SNP ID:            hCV1936685
SNP Position Genomic:     281128
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17102):
GGGTTCCATTTATGATTTAATTCTTGAAATATATTTCAAATTAAATAAGATTTTACTACATTGAATAGAAATTTGATGAAATACTGCCTGTAAACAGAGT
S
TTACTTTCCAACAGATTATAAAACCTTTTATCTTATTTTGCTTTGCTTGCATATCTCCTTGAAGGAGAGTTGGTTCTGACTTCTACATTTTGTCTTAATA
Celera SNP ID:            hCV446357
SNP Position Genomic:     13253
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17103):
TAAAACCTTAACTATATTTGATCACTAAATATGTTCATTTTAAAAGTAAAGTAGAATACTTTTTAGTAAAATAGTAAAGTAGAATATGATTGTATTGACA
R
TTAGCATATTCAGTTTATATTTGCTTTTTCTTGTTAAACTGAATTTATCATATAAGATAAATACATTTCTTTGCTCTTAGTGAATCAGGTCCCAGTAATA
Celera SNP ID:            hCV25644788
SNP Position Genomic:     260692
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,38)   total(A,69|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17104):
GGCATGGTAGCTGGACAAATGAGAGAAGAATGAATAAGGCCCTGTCTCAGTTTGTTTTATGCTGCTATAACAAAAAACCTGAGACTGGGTAATTTCTAAA
K
AATATAATTTTATTTCTCACATTTTTGGAGGCCAGGAAGTCCAAGATTGAGTCACAGGCAGGTTTAGTTTCCTGGTGAGGGCTGCTCTTTGCTTCTAAGA
Celera SNP ID:            hCV446358
SNP Position Genomic:     14073
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,10)   total(G,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17105):
ACTTCCTATAGGCATGAAAATGCATGTTTTTAATCCAATAGGTAAATATTAATTCTCATTTAAAACCTTAACTATATTTGATCACTAAATATGTTCATTT
W
AAAAGTAAAGTAGAATACTTTTTAGTAAAATAGTAAAGTAGAATATGATTGTATTGACAATTAGCATATTCAGTTTATATTTGCTTTTTCTTGTTAAACT
Celera SNP ID:            hCV25644789
SNP Position Genomic:     260632
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,33)   caucasian(T,38)   total(A,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:17106):
ATGTATTTGTTATACTACTCTAGTAAGAGCTTAGCTTATTTCCACAAAAGATACCTAGAAATCTCTCACTAACGGAAAAGCCTAAATCAGAATAAAAATC
Y
GTTTCCTCAGATTTTATCAATGCAAAATTCTGGAAGGTAAAATGCAAGTAAATTTAAGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTACACCAGCT
Celera SNP ID:            hCV1936688
SNP Position Genomic:     280855
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17107):
CTCACATTTTTGGAGGCCAGGAAGTCCAAGATTGAGTCACAGGCAGGTTTAGTTTCCTGGTGAGGGCTGCTCTTTGCTTCTAAGATGGTCCGTTGTTGCC
R
CATCCTCTGGAGGGGAGTAATGCTGTGTCCTTACTGGGCAGAAGGTGGAAGGGCAAGAGAATGGAAGACTGTGAAGCCTCTTTTGCAAGGGCCTTAATCT
Celera SNP ID:            hCV446359
SNP Position Genomic:     14189
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17108):
CTGCAGGAATGCAAGCAGAAACCATGGAAAGAAATTTTAATAAGCCAACTGGAAAAATTACAATTGATCTATGATGCTTAAAATTTTTGTCAAAACAGGA
R
AATTAGCTGAGTCAGGTGGTATACTGTTTTGAGTTAATGACTGTAATAAATAGTTTTGTATAAATCTTTCCAGACGGACTGTTTATCCCTTGTTCTTTCC
Celera SNP ID:            hCV9409094
SNP Position Genomic:     35860
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17109):
ATTAAAAAAACCTGCCTGTAATACCGAATTCATTTAAATCCAGCAGTTTTCTCTCAGATACTAAGAGAAAATGTGAAAAATAATACTGTGATGCTTTATA
Y
TTAATGGCTTATCATTTTTGCTGTACTTTCTTTTCTTCTTTGTTTTCCTTTTTTGGGATAGAGTCTGTCTCTGTCACCCAGGCTGGGGTGCAGTGGTGCG
Celera SNP ID:            hCV191082
SNP Position Genomic:     88257
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17110):
AGCAGAGGCATTCCTGAGAGTTTACCTCTCTTTTTTATCCTTTTACCATCAACACTTGAATGTGTTGTTTCATGGAATCATCCAAGTAGAAATGTCTTCA
Y
TCTAGCCCTCCATTCCCTTTTACCTACAGGCAGAAGTCACTTACATAAATGCTATATAAGCACCATTTTATGATGAATTAAGGGCCATTTTACCTTGAAG
Celera SNP ID:            hCV191083
SNP Position Genomic:     87990
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17111):
ATGATTTTGTTTTACTGAGAAACTTTGGAGTGAGCAGTGTAGCCATTTATAGTCTTCAGTGCTTTCTGATCTAGGCTTGATGTTGCTTCCAACTTTTTAG
Y
GACTACACATGGTAGTTTTAGCTTTAGAAGTTGGCAGACGAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCTT
Celera SNP ID:            hCV191085
SNP Position Genomic:     87372
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17112):
GTACATGTTCCCTTCTCGTAACCTCTTGGTTGACGCCTTAGAGGCAATTATTGGTAACTGTTTAATTTCAGTTACTCTGGTGGTTATAAATTTTACTTTG
R
ATAAAACATTTTGCTTTATTTATTAATTTAAGTTGATATCAGTTGACCTCAATTCAAGGAAAAATTATTCATCGATTGTGTAAGTGCTATTTGAGGGTCT
Celera SNP ID:            hCV191086
SNP Position Genomic:     86918
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:17113):
AATATTGGACAAATTTATCCCTGTTTCTTTTGTTGACCAAATAATAGACTGGGATTCATGATTTTATAAGCAGACCTTGATGATCTTATCAGTTTGATAT
R
TTTCCAGTGTTGTAGATGCTAATACATAAAGAGCAAAAACAGTTTTGATTTGGAATCATAGTACCTAATTGATCTGTTTCTTTTTCTGTATTATCTGTGG
Celera SNP ID:            hCV1988190
SNP Position Genomic:     157573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17114):
AATTTTAATACTTCTTTATCCACAAGACAGTAATACTGATTTTCATCTCACTTTTAATATTAACAAAATGATGATTATGTTATCCATCTTAAAAATTGAA
R
TATGTTTTGAATTATTAATATGTAAGTCTTATGTTACATAATGCTCTTAAATTGATGAAATTTTACTATCCTTGTCAACTTTAATTTTATAAAGTTAATT
Celera SNP ID:            hCV191087
SNP Position Genomic:     85706
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17115):
TTTTTGGCTTTGAGGACCATATGGTCTTCACTGTAACTATTTCTGCCATTATAGCACAAAAGCAGCAACAGATAATGGAGAAACAAATAGGTATGGGCAG
S
TAGACTGGCTTCTAGAATTTGTTCGTCTCTGATAGAATCTAGATTCTAGACCATCGGTTTTTGCTGTATGAATATTTTCTAAGATATTCTCTTCGAAATC
Celera SNP ID:            hCV1988191
SNP Position Genomic:     158005
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,10)      total(G,6|C,10) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17116):
TATTAGAACTATTAAAATTATTCTTTGACGAATAGTCACCATAAAGTTTGTTATTCAAACATGAACATTCATTTTAATTGAATGACTGAATACTTTAATA
Y
TGATTGGCATGAAACTGATTACTATAATGCCTGAGTAAGACCTTTGATGTAGGGGAGAAACATTTTTTAATAAGTTACTATTTCTTTCTTTTCTAGTTGG
Celera SNP ID:            hCV191088
SNP Position Genomic:     84258
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,27|T,11)   total(C,56|T,20)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17117):
GTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACCCCTTTCTTTGACTAGGAAAGGGAACTCCCTGACCCCTTGCGCTTCCTGAGTGAGGCAATGCC
W
CATCCTGCTCCGGCTTGCGCACAGTGCGCTGCACCCACTGTCTGGCACTCTCTAGTGAGATGAACCTGGTGGTACCTCAGATGGAAATGCAGAAATCACC
Celera SNP ID:            hCV26381010
SNP Position Genomic:     181240
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17118):
GTACAATGGTCTGAAAGTTTATATCCCCCAAAGTTCATGTGGTGAAACCTGATCACCCATGTGATGGTATTAGGAGGTAGGACCTTTGGGAGGTGATTAG
R
TCATAAGGGTGGAGCCTTTATAAATGAACTTTATGCTCTTAGAAAAGAGATCCCTGAGAGCTAGCTTGCTGCTTCTGCCATGTGAGGACACAGTGAGAAG
Celera SNP ID:            hCV1988192
SNP Position Genomic:     159006
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17119):
GTGTTGAAATTTAACCTGGTGAAATAAACACATCAGAATTTACTTCTCTTCAGAATAGTATTTTCTAGACATATTAGAACTATTAAAATTATTCTTTGAC
R
AATAGTCACCATAAAGTTTGTTATTCAAACATGAACATTCATTTTAATTGAATGACTGAATACTTTAATACTGATTGGCATGAAACTGATTACTATAATG
Celera SNP ID:            hCV191089
SNP Position Genomic:     84187
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,11|G,27)   total(A,19|G,57)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17120):
TCGTCAACGTCATTCTCCGTCCAGCTTTGTTCTGTTGCTGGTGAGGAGCTGCGTTCCTTTGGAGGAGGAGAGGCACTCTGCTTTTTAGAGTTTCCAGTTT
Y
TCTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTTTGATCTTTGATGATGGTGATGTACAGATGGGTTTTTGGTGTGGATGTCCTTTCTGTTT
Celera SNP ID:            hCV26381011
SNP Position Genomic:     180358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17121):
TCGTCTAATTTTTTTTTAAAGTTTTTAACTTATTTGCCATTGGTTTGTATTTCCTCCTGTAGCTTGGAGTAGTTTGATCATCTGAAGCCTTCTTCTCTCA
R
CTCGTCAACGTCATTCTCCGTCCAGCTTTGTTCTGTTGCTGGTGAGGAGCTGCGTTCCTTTGGAGGAGGAGAGGCACTCTGCTTTTTAGAGTTTCCAGTT
Celera SNP ID:            hCV26381012
SNP Position Genomic:     180256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17122):
AACATATTATGTTCGTTTCACCTGTCCAATTCAACAGAGACAAATTAATTTCTTTTTCATTTTGCTGATTATATTTATGAAATTAATAATTGGTAACTTA
S
AGAGAATCATTATAACTGATTGAACATGGTTTGATAAAACTGTCACTGTCTGTTGATGCCATGCAGAAAACAGCTTCAGTCTATTGGACTCTGAGACAAT
Celera SNP ID:            hCV1988194
SNP Position Genomic:     173883
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(G,-|C,-)   JBIC-allele(C,386|G,1067)   total(G,1067|C,386) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17123):
GTATTTCCTGAATCCGAATGTTGGCCTTTCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCCACTTGGTTCCATTCTACCC
R
TCACTTTCAGGTACACCAATGAGACGTAGATTTGGTCTTTTCACATAGTCCCACATTTCTTGGAGGCTTTGTTCGTTTCTTTTTGTTCTTTTTTCTCTAA
Celera SNP ID:            hCV26381013
SNP Position Genomic:     179879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17124):
CTCTCCTCTGGCTTGTAGAGTTTCTGCCAAGAGATCAGCTGTTAGTCTGATGGGCTTCCCTTTGTAGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAAC
R
TTTTTTCCTTCATTTCAAGTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCAAGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAAT
Celera SNP ID:            hCV26381014
SNP Position Genomic:     179691
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17125):
TCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTAGGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAG
M
ATGTGGAATATTGGCCCCCACTCTCCTCTGGCTTGTAGAGTTTCTGCCAAGAGATCAGCTGTTAGTCTGATGGGCTTCCCTTTGTAGGTAACCCGACCTT
Celera SNP ID:            hCV26381015
SNP Position Genomic:     179570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17126):
TTAGTGCTTCCTTTAGGAGCTCTTTTAGGGCAGGCCGGGTGGTGACAAAACTCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTA
K
GAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGCATGTGGAATATTGGCCCCCACTCTCCTCTGGCTTGTAGAGTTTCT
Celera SNP ID:            hCV26381016
SNP Position Genomic:     179515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17127):
GTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAAGTTAATATTGTTATGTGTGAATTTGGTCCTGTCATTATGATGTTAGCTGGTTATTTTGCT
Y
GTTAGTTGATGCAGTTTCTTCCTAGCCTTGATGGTCTTTACATTTTGGCATGTTTTTTGCAGTGGCTGGTACTGGTTGTTCTTTTCCATATTTAGTGCTT
Celera SNP ID:            hCV26381017
SNP Position Genomic:     179323
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17128):
GATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAAGTTAATATTGTTATGTGTGAATTTG
R
TCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGATGCAGTTTCTTCCTAGCCTTGATGGTCTTTACATTTTGGCATGTTTTTTGCAGTGG
Celera SNP ID:            hCV26381018
SNP Position Genomic:     179288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17129):
AAAGTCTGTTTTATCTGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCCTTTATTTTGAGTTTATGT
R
TGACTCTCCACGTGAGATGGGTTTCCTGAATACAACACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAG
Celera SNP ID:            hCV26381019
SNP Position Genomic:     179146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17130):
CACAGTTTCAACCAAGCTACAAACATTACCTAAATTTTCAGTGTTTAGTTTGCCTCTTTTTCACATCCTCTGTGTTTTCATGTCTAAATTATCTTATTTC
Y
TAGACTCTCTTGAGCCTGAGGGATCCATTACAGTTTCAATGGGTATTGACTTTTGTGATTCTACTCAGACTGCCAGTTTCCAGTTGTGGTAAGTTCAATT
Celera SNP ID:            hCV25644790
SNP Position Genomic:     265166
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,32)   total(C,63|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17131):
TTTTCATGTCTAAATTATCTTATTTCCTAGACTCTCTTGAGCCTGAGGGATCCATTACAGTTTCAATGGGTATTGACTTTTGTGATTCTACTCAGACTGC
Y
AGTTTCCAGTTGTGGTAAGTTCAATTGTTCTTCTATTTTTTATATAACCTGTAAAGGATAGCAGATCAAAAACTAAGCTTTCAACAGCTTTTGTGTGTGT
Celera SNP ID:            hCV25644794
SNP Position Genomic:     265240
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,33|T,1)   total(C,65|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17132):
GTTTAGATTCAGGTTATGTATCCTTGGCTGGGATACTACCATAGGTGATGCATGCTTCTTGAACTATTACATTTGGAGGCATAGGTTGTCCATCTTCATG
R
TGTTAATTTTCCTAGTCACAGGGTTGTCCAGTTTCTCTGTGGTGTCATTTCTGTTTTTTTTTTTTTTTTTTTTCAAATTATCTGTGGGGAGACACTGAGA
Celera SNP ID:            hCV146849
SNP Position Genomic:     9180
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17133):
AAGGTCTCTCTTTTTTCTCTTCCAGGTTTGCAGCTAAAACTGTGCACAGTGGGTCATTGATGCTAGTCACAGTGGAACTGAAGGAAGGCTCTACAGCCCA
R
CTTATCATAAACACTGAGAAAACTGTGATTGGCTCTGTTCTGCTGCGGGAACTGAAGCCTGTCCTGTCTCAGGGGTAACCTGCTTACATCTGGACTTTAG
Celera SNP ID:            hCV25644795
SNP Position Genomic:     296637
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17134):
GGGGGGGTTTTGCTGAAGGGGAAGTGAAAGGAAGTCACAAAAATAGTATTGAGCAAAGAATTATAAGTGTACATACATCATAAGAAATTGAGACTATTCA
Y
TTTTTAAAAATATTGGGCATTTTGCATAATAGAGTGTGTTTTAAGGCTTCAATTAAAGAGTATACATTCTTTAGTTAGTAAGAATTTGCGTAGCCATTTA
Celera SNP ID:            hCV27480031
SNP Position Genomic:     189737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17135):
AAAACTGTGATTGGCTCTGTTCTGCTGCGGGAACTGAAGCCTGTCCTGTCTCAGGGGTAACCTGCTTACATCTGGACTTTAGAATCTGGCACACAACAAA
R
GTGCCTGGCATCCACTACTGCTGCCTTTCATTTATAATAATAGCCCTTCCATCTGGCAGTGGGGGTAGAATACACTCTTGACATTCTTGTCTCCTGCTTT
Celera SNP ID:            hCV25644796
SNP Position Genomic:     296756
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:17136):
GTTACAGGTGTCCGTGTGTCTAATTAAATGACTATAAATCTAAGAACATCTGGTTCTGTTTTTCAGAGAGTGAATCTGGAAGTGAAAGTGGAGAACAAGG
Y
GAAAGTGGGGAGGAAGGAGACAGCAATGAGGACAGCAGTGAGGACTCCTCCAGTGAGCAGGACAGTGAGAGTGGACGGGAGTCAGGCCTAGAAAACAAAA
Celera SNP ID:            hCV25644797
SNP Position Genomic:     185723
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:17137):
CACACCTCAAATTTGGAAGCGCACTCATGGTTATGCTTTCACATAGTCTTTTAAGGCTTGTATTAAATAGAATGTTTTTCTAATTTAAGTTTACATTTTA
Y
GAAGCATATTGCATTTGAATTGAATTATACATATTTAGTATGAATAATTTCTATCTTTTTCAGAAATAGTTGTTGCTGAAAGTGTGGTTGTTATAAAGAA
Celera SNP ID:            hCV26017886
SNP Position Genomic:     143477
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17138):
ATTTTCACTCTGGCTATGAATAAATGATTTTTTTTTTAACAGATCAAGAAGTTGGTATATGTTTACCTGGTTCGATATGCTGAAGAACAGCAGGATCTTG
Y
ACTCCTGTCCATAAGCACTTTTCAGCGAGCTCTGAAGGTAAATAATGGAGTGAGTAGGCAAATAGCTACAAGGTTTCTGCAGAGTTGAAAGTGTGTCAGT
Celera SNP ID:            hCV25644798
SNP Position Genomic:     72487
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,18|T,4)   total(C,50|T,4)
SNP Type:                 UTR 5;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17139):
TTTTCACTCTGGCTATGAATAAATGATTTTTTTTTTAACAGATCAAGAAGTTGGTATATGTTTACCTGGTTCGATATGCTGAAGAACAGCAGGATCTTGC
M
CTCCTGTCCATAAGCACTTTTCAGCGAGCTCTGAAGGTAAATAATGGAGTGAGTAGGCAAATAGCTACAAGGTTTCTGCAGAGTTGAAAGTGTGTCAGTT
Celera SNP ID:            hCV25644799
SNP Position Genomic:     72488
SNP Source:               Applera
Population(Allele,Count): african american(A,30|C,2)   caucasian(A,28)   total(A,58|C,2)
SNP Type:                 UTR 5;SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 5;SILENT MUTATION;hmCS


Context             (SEQ ID NO:17140):
ATTTTAGTAGAAACTTTAGTTTTGGTCTGTGATTGAGAAAATTTAATGTAAAAAATAGTATAGATTAGAAAGATAAACTTTGACTCAATTATATTTAACG
Y
CCTACTCTTTGTTGGCCTTTAGTTGTTTGTAATGCACTTAATACTGTTTTCTTTTTAAAAGATTTACAAATTTTTTCTGAATATCTAACCAAACTGTGAA
Celera SNP ID:            hCV978300
SNP Position Genomic:     197754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17141):
AGATAAACTTTGACTCAATTATATTTAACGCCCTACTCTTTGTTGGCCTTTAGTTGTTTGTAATGCACTTAATACTGTTTTCTTTTTAAAAGATTTACAA
W
TTTTTTCTGAATATCTAACCAAACTGTGAACAGTTCAGGCTTAGGGGCACTGTATTCTAGTTCATGGATATATACATTTTGTAAGTACAGTAGACCGAAT
Celera SNP ID:            hCV978301
SNP Position Genomic:     197824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17142):
GTACACAAAATTCATTTTAAAATCTTTTGCTTTAGTAATTTATACTTGTTTGCTAAATAGTCATCCATACCTTATAACTTCTACATTGTGAAATGTGGAT
Y
ATGGGGATTGACACATGTAACTTAAGGAGGTAGAGGATTAAGGAATGTAAATAAAAATGGAAAGGACATCACCATCTTCCACTTGGCACAATTTCAGTAG
Celera SNP ID:            hCV978302
SNP Position Genomic:     198983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   SC_12_C(C,1|T,19)   total(C,1|T,19) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17143):
TAAATAGTCATCCATACCTTATAACTTCTACATTGTGAAATGTGGATTATGGGGATTGACACATGTAACTTAAGGAGGTAGAGGATTAAGGAATGTAAAT
M
AAAATGGAAAGGACATCACCATCTTCCACTTGGCACAATTTCAGTAGGAATGGAAATGGGTTACAAAGCCTTTGGAGGCCAGTTTGGCTATACCTCTCAG
Celera SNP ID:            hCV978303
SNP Position Genomic:     199036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17144):
GAATACGTTAGACTGGGTAATTTATAAACAGCAGAAATTAGTTGTTCGTAGTTCTGGAGGCTGGGAAGTCCAAGATCAAGGTGCCAGCGTATTTGATGAT
W
GGTGAGGGCTAGCTCTGCTTCAGAGATAGTGACTTCTGTTTCCTCATGTGACAGAAGGAGGAAACACCATCCCTCATACCACTTTTATAAGGGCAATAAT
Celera SNP ID:            hCV978304
SNP Position Genomic:     200455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17145):
GCTCACTGCTATTCCTAGTGTACAGAGTGGCTCCTGGCAGTTAGTGGGCACCCAGTAAATATTGCTTGAATTAATAAAACATATAAGGGCATATACAAAA
R
TTTCATTGCAGCATTGTTCAGTGGTTAGCTCTGGCCTCCTTGTGATGTAGGACTAACCTGGGAACAGACAAGAATAAGACTTTCATTTTATATTTTGTAT
Celera SNP ID:            hCV978305
SNP Position Genomic:     200919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17146):
GAAAAACAGATAAACTGGCAATTAGATTGCCGCATTATAGATGAAATGAGGAGAAATGCACAAAATACTGTTCAGTATCAAGGTTCCTAATCCACCTAGC
R
GTATCAAAATTTAACTTTTGAGTTGAGTTTAAGAAAGCATCAGTTGGCCAGGCCTGGTGGCTCACACTTGTAATACCAGCACTTTGGGAGGCCGAGGCGG
Celera SNP ID:            hCV978306
SNP Position Genomic:     204588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17147):
CCGGTGGATTAAGATGTATATGATTTGAAAGTGTTCTTCTATTAAAATTTATGAATTTCTCATATACTTTTTAACATAAGTTCATTTTAGAATGATTGTC
S
TTCTCATTTTAAACTGACACAATGTGAGCTTTGTTATTGTCTTGATTCTTTTTCTGAATATTATGAACAAAGTACTGAATTTTTAGATTAGAATTTAGGT
Celera SNP ID:            hCV191090
SNP Position Genomic:     83931
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17148):
ATATCAATATGCTTTCTATGTTTCAGGCATATTTTATATTCCTGGAAATTAAACAATATATTTTAGGACCCCATACCATGTGCTCTCAGTAGGACGATCA
Y
AAATCAGTGATCATATTCTAGTGTTCTTTTATAGGAAATGTAAACCTATGTCATTACATTGTTAGTACAACTGACAGTGAAATATTTAAAAAATCTCTGT
Celera SNP ID:            hCV978307
SNP Position Genomic:     205465
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(T,3|C,17)   SC_12_C(T,9|C,15)   SC_12_AA(T,6|C,10)   total(C,42|T,18)no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17149):
TTGTCTATAAAATTGGGATGGTACAAATACTTTTGGGAGTCATTTAATTCTCAAAGGATGAAATGACTTGATATACGTAAAAGCATTTAGAACTGTGCCT
R
ACACATGATAGGCATTACTGGGTTTAGTGATGATGCTGGTGCTGATGATGCCAATGATGCAGATGATGCAGCAAATTACAAATTAAATAACAACATATTA
Celera SNP ID:            hCV978308
SNP Position Genomic:     205863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17150):
CCAAACACCCCAGGTTAACATTCTGACATATCAGTTTAGATTCTCTTCATATGCAAATCCCCCCTTCCAAATTGGATTCTACTGAGAAACTGTTTTATCA
Y
TTGCTTTCTCCTCTGTTTAAAGTACATGTTCTTAGTTGGTGTGGTGGCTCATGTCTATAATCTAGCACTTTGGAGGCCAAGGCGGGAGGATTGCTTAAGC
Celera SNP ID:            hCV978309
SNP Position Genomic:     206225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17151):
GGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTG
R
TCTTTGTTGGTTTAAAGTCTGTTTTATCTGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCCTTTAT
Celera SNP ID:            hCV26381020
SNP Position Genomic:     179032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17152):
GGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATG
R
CCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCTGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGA
Celera SNP ID:            hCV26381021
SNP Position Genomic:     179013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17153):
TGTCAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCATTCAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGTGTCCCAGAGATTCTGGTATGT
K
GTGTCTTTGTTCTCGTTGGTTTCAAAGAACATCTTTATTTCTGCCCTCATTTTGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATG
Celera SNP ID:            hCV26381022
SNP Position Genomic:     178452
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,6)      total(G,6|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17154):
AGTTTGTATTTCTGTGGGATCAGTGGTGATATCCCTTTTATCATTTTTTATTGCATCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGC
R
GTCTATCAATTTTGTTGATCTTTTCAAAAAAGCAGCTCCTGGATTCATTGATTTTTTTGAAGGGTTTTTTCTGTCTCTATTTCCTTCAGTTCTGCTCTGA
Celera SNP ID:            hCV26381023
SNP Position Genomic:     178170
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17155):
TGATCAATCTCCTGAACCTGTCTTTTCCACAATGGCTGCAAAATGGTAATGTTTCAGCTGCAACTCCCTCTGCTGTTCTGCTCTTTGGCTTCTTGGCCTA
R
AGCTCTGTGTTCACTGATCCTTCACTAACCATCTCAATGATGCCTAGGTACTTCCTAGTCATAGTATTATCGGCAATTTTTGTTTTCTGAATTTAATCTT
Celera SNP ID:            hCV146850
SNP Position Genomic:     9436
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17156):
TGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGACTTGTAGTATAGTTTGAAGTCAGATGGCATGATGCCTCCAGCTTTGTTCTTTTGGCTTAG
R
ATTGACTTGGCGATGCGGACTCTTTCTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGG
Celera SNP ID:            hCV26381024
SNP Position Genomic:     176717
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17157):
GATTTGCATTTCTCTGATGGTCAGTGATGACGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCACATCCTTC
R
CCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCAAA
Celera SNP ID:            hCV26381025
SNP Position Genomic:     176079
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17158):
TTATTTATCAATATTATTTATCTTCTCCTCTCTTCAAACAGAAGCAGAATTAGATGGCTTTATGAAAGTAGATCCTATACCTAATTTATTGGCTAAAAAG
K
CCTGTGTATTAGATTATTGGCTTCAAGATTTTCAATTTCTTTATTTAAAATGTAAAGAACTTATTTTTGTACTCTTATTTTTTATTTTTTGAGACATGTC
Celera SNP ID:            hCV146852
SNP Position Genomic:     9635
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17159):
CTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGTCA
K
TGATGACGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCACATCCTTCGCCCACTTTTTGATGGGGTTGTTT
Celera SNP ID:            hCV26381026
SNP Position Genomic:     176002
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,9)   total(G,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17160):
CCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATACATGTGCCTGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAAT
S
GGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTG
Celera SNP ID:            hCV26381027
SNP Position Genomic:     175773
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,9)   total(G,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17161):
AGAGATGGGGTCTTGCCATGTTGCCCAGGCTAGTCTTGAACTCCTAGGCTCAAGCAATCCGCCTGCCTCATCCTCCCAAGGTGCTGGAATTGGAGGCGTG
Y
ACCACTGTGCTTGGCCCCTTCCTTCTTTTTAAAATATTCTCAACTTTTATTTTCTGTTTTTTTCTAAGTTGTTTTTCTTCATTTAAAAAAAAACTTCTTT
Celera SNP ID:            hCV146854
SNP Position Genomic:     9991
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17162):
GTAGTAATATGTAAAAATATGAGAAGCAATTACATGTCTATCCCTCCTTGCAGCTGAGTTTGTTGATTTTTACTCAAATCTGCATACTCTTAAGTACTCT
Y
CAAAAGAGTTGCCTTATTTGTGCAATTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGCAGTGCAGGGGCATGATCTT
Celera SNP ID:            hCV26381028
SNP Position Genomic:     173058
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17163):
AGTTAATAATATGTTATAAACACGACATGTTAGCGGTGAGTTAGTCAATGATGTGGAAAGGATATAACTTCCAATCCCATATCTCATACCTCCCATTCAT
S
TGTAACTACAAAGAACAAGTTCTTATGTATCCTTTCAGAAATTTTTTAAAAAAATTAAACGATCATATATATACTATTCTCTATGTATCTTGCTTTCCAC
Celera SNP ID:            hCV29164468
SNP Position Genomic:     21497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17164):
CGTGGCTAAATAAGTTAATAATATGTTATAAACACGACATGTTAGCGGTGAGTTAGTCAATGATGTGGAAAGGATATAACTTCCAATCCCATATCTCATA
M
CTCCCATTCATCTGTAACTACAAAGAACAAGTTCTTATGTATCCTTTCAGAAATTTTTTAAAAAAATTAAACGATCATATATATACTATTCTCTATGTAT
Celera SNP ID:            hCV29164469
SNP Position Genomic:     21485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17165):
GGGTAGATAGATGTACAAAGGAATGAATAAACATGCATTTAGAACTTACCTGAAAAGTTACGTGTTGCATGGGAAGGCAACATATTATGATCCAAGTTAG
M
AGAAGCAGTTTCTAATTCTATAGTGGTTCTACCATTCACTTTTTATGACCTTGTCAATATTAATCTCCCTGTGGCTCAGTTTCCAGTGTCTTCAATATTA
Celera SNP ID:            hCV978310
SNP Position Genomic:     207582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17166):
AATTAAAAATGAATATATTTGAAACAACTATTGTTTTCAGCAAAGAGTTGAGGAAAATATTGCTAATTCAGCATTATTTTGACTCAAATATTGATATTTA
R
CAAAATAGTATCTAAGATTTATGCAGTAATACATGTTAACTGATCATATTTGAATCTACGTAATGAAGAAGGTAGACCTAAAAGAACTTAATAAAAGTTA
Celera SNP ID:            hCV485420
SNP Position Genomic:     31532
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17167):
AGGGGAGTAATGCTGTGTCCTTACTGGGCAGAAGGTGGAAGGGCAAGAGAATGGAAGACTGTGAAGCCTCTTTTGCAAGGGCCTTAATCTCATTCATGAA
R
GGAGGAGCCCTCATGACTAAATCTTAAAGGCCCCACCTCTTAATGCTATCATATTGGCCATTAAGTTTGAACATCTGAATTTTGGAGAGGACACATTGAA
Celera SNP ID:            hCV11645181
SNP Position Genomic:     14300
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17168):
CCCCTTAGTTTTTCAATTTCCTACCTCTCAGCCTTTGTTTATAGCATTCTGTTATCCAACAATTAACTGGCTTCTTTCTTTCCTCTTATTCAAATCTCAC
Y
CTTACTTAAAAATTGGACTTCATTCCCTCCTGTTCATGAAGCCTCCTCTTCCACTCCTTCTCCAGTGATCCTTGTTTTGCCCCTGACTCTGTGACACTTG
Celera SNP ID:            hCV978311
SNP Position Genomic:     207999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17169):
ACCTAAAAGAACTTAATAAAAGTTAATGTATTTTGAGGGTAAAGTAGGTGTTATGGTATTAACTTTCCTAAATCTTTACTGTTTTGGTGACAGGCAAAGA
R
GAATTTGGGAAGAAACATGTAATTTATATCAGAATTTTAAATAGATCCTTATGACATACGTGAGAAGCTGCATATTACATCAGGTTGAAACAGTGCCTAG
Celera SNP ID:            hCV485421
SNP Position Genomic:     31708
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17170):
CTTGCTCATTTGCAGCTAGGCTTCTTGGGAAGCTTTATGCTCTGTGTCCTATCTATTTTTCTCTAATTTTCACTTTTCCTCTGACTCTTACTTTTGCCTT
K
GTGATTTTTTTTCTCCACCTCCCCTCTCTTTGTTTTTGTCCCCTTCCCCAAAACTCTTTCTGCCTAGATATCTCTCTGACATCCTTCATCCCTTCGTGCC
Celera SNP ID:            hCV16081334
SNP Position Genomic:     159654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17171):
TTCCCTGAACCTCAGAATTATTAGTTTCTCTTCCTATATTAATGCAGTATTTGTTGTTGAAGACTAGCTTTTCTGTTAACCATGAAGAGCAAAACCTTTA
Y
CTTTAATATTGAGATTCTGTTTTCTTGTTTTTAGTTTCAGAGAGCAGGTGCTTGTTCTGGGCACTCTGGGAATTTGGGCTTTAGATGAGCAAACCAAGTT
Celera SNP ID:            hCV485422
SNP Position Genomic:     31924
SNP Source:               Celera
Population(Allele,Count): no_pop(T,8|C,8)   total(C,8|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17172):
AACAAATTAATAACAATTTAAAAGTTAATGAATAAAAGATGCTTTTGATTTTAAACTCTAATAGTATGTCATCTTTTAAATGTAGTGATAAGTGCTATAA
R
TTAATGTTTTTCTTAGCTCATTTTGATTTTTAGTTATGAAATATTGCAAACCTATGGAAAAGTACATAATAGCATAAATACATATGTGTATATCTACCAC
Celera SNP ID:            hCV16081335
SNP Position Genomic:     163920
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17173):
CTATGAAGCGGATTGTTGGGGTAGGTAAAATACTCATTTACTTCAATTTTGGAAAAATGGACAAGCAGTGATCATATTATTATATATATATATAAAAATA
Y
GTTAAATACCAAGTCTAATATTCTGTTTGCCCTTAATATTAACTTAGAATTTCCTGTCCAAAAATGTTAAAGAAAAAAGTACATTATTGAAGTGTCAAAA
Celera SNP ID:            hCV485423
SNP Position Genomic:     33232
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17174):
AAAAAAAACTTCGTATTTTATATGAAATGTTCTAGGATTGAGTAATTTTAAGCACGTTGTCCAACGTGTTTAACGTGTCTAATGAGACAGTTGAATGTTA
R
TAGTTTCATTTTCTCATAGTAGGAAACAGAGCTTTTGTGAGGGACATGGTACAGTCTGTATCGTCAGGATCTGCCCTATTCATTACTACGAACATCTAGC
Celera SNP ID:            hCV978313
SNP Position Genomic:     212862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17175):
ATATATAAAAATACGTTAAATACCAAGTCTAATATTCTGTTTGCCCTTAATATTAACTTAGAATTTCCTGTCCAAAAATGTTAAAGAAAAAAGTACATTA
Y
TGAAGTGTCAAAAATCAAGAAACTTAGGTTTTAATTTTATCTTTTCTCTGTTTTAATTTCCCTGTATCTAATTTCAAGGTATTTCTACTATGAGAATGAG
Celera SNP ID:            hCV485424
SNP Position Genomic:     33319
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17176):
CTCTGTGTATCTGTCAGTGGTTACAGAAATGTCACGTTCACCATGGTTAACAGTTACTTTAGATGGAATGGTTTCAGAATGACTTGTTGATTGTTTTGGT
W
CTTTTCTGTAATGTTTAAATGTTTTATAATAATATAATGATAACTTTTTAAAACAAATTATTACTATAAAAATGAGCAAAAGGACAAGAACTGGAAAAAT
Celera SNP ID:            hCV978314
SNP Position Genomic:     213915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17177):
TAAAGAATGATTTTTTTTGTCCTTTCACAGCCTAAATGTTCTGAGCATACTTTCATCTGTTTTTTAAATTCTCTTACTACCAATAGAAACACTTTATTCA
S
TTTAGAAGCCTAGAACTTCTAATAAATATTATTAAATATAAGAGCATTCACCAGTGTTCAGCTGTAAAGCAAAACATAAACAATTGATTAATAAGTTATG
Celera SNP ID:            hCV485425
SNP Position Genomic:     33590
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17178):
CCCAAAGTGCTTGATTATAGGCATGATTCACCATGCTCAGCCTCTGGATGCTTTTAAGATTTTTCTCATTGTTTCTTGTTTTCAGCAGTTTGACTATGCT
S
TACCTGGTGTAGTTTTATGTTTGTCCTTTTTTTCTAAGATTTTTAAATATGTGGGTTTATGTTTTTCATAGGTTCAGAACAATTCTTAACCATTATCTCT
Celera SNP ID:            hCV499831
SNP Position Genomic:     26093
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17179):
CTTGTTGATTGTTTTGGTTCTTTTCTGTAATGTTTAAATGTTTTATAATAATATAATGATAACTTTTTAAAACAAATTATTACTATAAAAATGAGCAAAA
S
GACAAGAACTGGAAAAATTAATTTATGGTATAACAAATCAGAATAGTGCTTACTCGTAGGAGAATTAGTGCTTATAAGGAAATACAAGAGTAGCTTCTGG
Celera SNP ID:            hCV978315
SNP Position Genomic:     213997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17180):
CTCTTTTCCTTTCTTGATATATTAAAGTCCAAATAACAGGTATCAGCATGCTCTGTTAAAAAGTGAGGTGGTATGAAAATCAAATATATTAAAGTCAAGT
W
CTAATTGTATCTGTAGGACATCTGTAAGTGACTTGATCCTTGCTTTCATGTTTATGTCATTTGGCAGTATAGGGGCAATTTTGAGGATTCCATTGTAAAT
Celera SNP ID:            hCV485426
SNP Position Genomic:     34242
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17181):
TTGATTGTTTTGGTTCTTTTCTGTAATGTTTAAATGTTTTATAATAATATAATGATAACTTTTTAAAACAAATTATTACTATAAAAATGAGCAAAAGGAC
W
AGAACTGGAAAAATTAATTTATGGTATAACAAATCAGAATAGTGCTTACTCGTAGGAGAATTAGTGCTTATAAGGAAATACAAGAGTAGCTTCTGGGGTG
Celera SNP ID:            hCV978316
SNP Position Genomic:     214001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17182):
TATGAAAATCAAATATATTAAAGTCAAGTACTAATTGTATCTGTAGGACATCTGTAAGTGACTTGATCCTTGCTTTCATGTTTATGTCATTTGGCAGTAT
R
GGGGCAATTTTGAGGATTCCATTGTAAATTTTTGATTTGTTAATGTTATGCTCTATACATAGGAGTATTTATGGGCAGGCAGTTCTTGCTTTGCATGGCT
Celera SNP ID:            hCV485427
SNP Position Genomic:     34313
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17183):
GATGGTTACAAAAAGTATGCAAAAACAATTTAAGGAATTTTGTACAATTATTAAGATGTTTTTATTACATATTTTAATAAGATAAAATATGGTATAATGT
M
AGATGGAAAAAAGGATACAAAATGTTATATATATAATCTAAATTTTGTAAAATTGTACAATTGTACTGTTTTCAAATACAAGGAAATTGAAAGAGTAGAA
Celera SNP ID:            hCV978317
SNP Position Genomic:     214715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17184):
ATTTTTGTTGGTAGATATGGCTAATTTATTGGCTAATTTTTTAATTTTTGTTGGTAGAGCTAGGGTTTCACCATGTTGCCCAGGCTGGTCTCAAACTCCT
R
GGCTCAAGTGAGCCACCACACTCAACCAGATTCCTTTTTATTGACCCATCTGATATCTGTCTTTCTAGATCACCACTACTAATTAATTGGGTGATATTGA
Celera SNP ID:            hCV978319
SNP Position Genomic:     215344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17185):
TTGACTTAGGAAGTCTTATTATGGTGTAAAAGCTACTATAATAAGTTGTTCCCTTACATAAATAAATAAATGACCAATATTACTAGAGGCTATAAGCAGC
W
TGGGGGAAAAATGGAAGAAGTCTTTTATCCTAGTTTTCAGAGGGCATCAGCAGCTTGCTTTTATGAAAAAGTAACAGCTAAATGCACTGCAAATAATTTG
Celera SNP ID:            hCV26381030
SNP Position Genomic:     169654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,5)      total(A,3|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17186):
GGTTTACTCATCTATTAAATGGGAACAATAATAGCTACACACGCTTCATAGAGACTTTGTGATACTAAAATAAGACAGTGTTATAAACTTCAGAAAATAA
W
ACCACTACCACGTGGCTAAATAAGTTAATAATATGTTATAAACACGACATGTTAGCGGTGAGTTAGTCAATGATGTGGAAAGGATATAACTTCCAATCCC
Celera SNP ID:            hCV29164470
SNP Position Genomic:     21374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17187):
GAATTGTCTTTAGCTCTGCCTAACTTGATTGATTTTATTTTTTATCTGCTTCTAATGTGCATAAAATCTTCTAATCTAAAGTAAATGATTTAGTGTTTCT
Y
GGTTTATTTTTCCCATATATTATGAATTCTATTTGGCTTATAGTTAAAATTGTACACATGTAGCCTTCTTGTTAAAACTATGCTTTTTCAATAAAATAAC
Celera SNP ID:            hCV26381031
SNP Position Genomic:     169358
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17188):
ATATTCTGAGACTTGGTTTACTCATCTATTAAATGGGAACAATAATAGCTACACACGCTTCATAGAGACTTTGTGATACTAAAATAAGACAGTGTTATAA
R
CTTCAGAAAATAATACCACTACCACGTGGCTAAATAAGTTAATAATATGTTATAAACACGACATGTTAGCGGTGAGTTAGTCAATGATGTGGAAAGGATA
Celera SNP ID:            hCV29164471
SNP Position Genomic:     21360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17189):
CTTAGGCTTTAATGCATATTGAGTCCAGATACAGAGTATTAGATCTGATTTGCTGTTGGTATGCAGTTTGCTTAGATGTCTACTGATTTTGCCTTTGACA
R
ATTTAAATAAATGAAATTGATGTTTTTGTAGGGTTTACTTTGGACTGTTGCACTGTGCAGTGGGCTGGTGTTGAAACACAATAGCTTTTAAATTGAACTG
Celera SNP ID:            hCV26381032
SNP Position Genomic:     155106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:17190):
ATGAAGAGGCACGGGCTCCTTCCTCATTGTGAATTCCTTTCTCTTGTGCTCAGGAGTTCAGGGTTGCTGCTATGAAAATATGCTTCAGACATGATTTTGT
Y
AGCATACTGTTATACATCTGATCATCTTTAGTTATGAAGATTTAAATCTCTTGTGTTCTAATAATTCCAGGTTTGATAACTGATCTGTCTTGTTTATTAT
Celera SNP ID:            hCV29164472
SNP Position Genomic:     12719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17191):
AAGCAGAAGGGAGAGAGGGTGGGAGAAGTATGTTATTTGAGTGGATAAGGAGGAATACTGAGAAGGACTGCCCGCTTTCAAACTGAGGTTCAAGGAGTCT
W
AGAGCTTCTTTGCTGGTTTCTTCCTTTCTTCATGTTGGGAAAAGGGCTTGTGGGGTGTCTGTATAAACTGGCCATAAAAATATGGGACAATAAGTTGTGG
Celera SNP ID:            hCV26014058
SNP Position Genomic:     55094
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17192):
TTTGAGGTTGTAGTGAGCAATGATTGCACCACCGCACTCCAGCCTGGATGACAGAGTAAGACCCTGTCTTTAAAAAACAACAACAACAACAAAACAACCC
R
TACTACCTGTGGATTGCTCTGACAGGATTTCACATAATGTTTAATGGGACAGATGGGATTTCATATCTTAACAACTGAAAGATGTTATTCTGTAAAAACT
Celera SNP ID:            hCV26381033
SNP Position Genomic:     154796
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,15)   total(G,3|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17193):
TCCCAGTCTTCAAAGGCATCTTTACCTCCCAGTCTTGGATTATTCCATATGTATGGTTCATTCCTCTGTGTTTTCACCATAAAAATGCATAACAATTATA
R
GGTCTTTATCTTGTTTTTAAGAAACTCAGACTTTATTTGGAGAGATTAGGCTAATGTGAACTAACCGTCAGTAATTCAAGTATACAATTAGTGTTAAATT
Celera SNP ID:            hCV29164473
SNP Position Genomic:     12347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17194):
CCTGAAAACTTGTCTTCCTTTCTCACCTTTTATCTAGAGAGTCACCTTCAAAGGGCAGAATCGCTGGTACTGCAGCTTTTTCAAATATCAGGAACTTCAA
Y
CAAATAAAATGAAAAAGGACATATTCTCCTATGCTTTCCACCTATGAACCTTACTTTTCCCTCAGGGCCCAAATGTGGCTCCCCTCAATTCCTATGCTCC
Celera SNP ID:            hCV26014059
SNP Position Genomic:     54843
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17195):
GAGCCCAGGAGTTTGAGGTTGTAGTGAGCAATGATTGCACCACCGCACTCCAGCCTGGATGACAGAGTAAGACCCTGTCTTTAAAAAACAACAACAACAA
M
AAAACAACCCATACTACCTGTGGATTGCTCTGACAGGATTTCACATAATGTTTAATGGGACAGATGGGATTTCATATCTTAACAACTGAAAGATGTTATT
Celera SNP ID:            hCV26381034
SNP Position Genomic:     154785
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,3|-,15)   total(A,3|C,3|-,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17196):
GTGGGAGTTGTGGGAGTTTGGGGCGAATGTGTGTAGGGGTCTCTAGTAGTTTTCAAACTTTAGTGAAAAGGAAACCACTTGGTGAGCTTAGATCCCACCC
S
TGAAGACACTGATTGAATTGGACTTGGGCTGGGCTCAGGAGTCTGAATTTTGAGCATCGTCTTCTAGTTTATTTACCGTTCGCCGGATCAGACTTTAATA
Celera SNP ID:            hCV29164474
SNP Position Genomic:     6487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17197):
CCCAGGAGTGTCATTCTAAAACACTGCAATTTTAGGAAAAGCCAGTCTGTCCAATATCTAAGGACAATGGGTCAATATTGAGCATGTTTTCCTTCAGTGC
Y
TGAGCCACTTTATTAGGGCAGAATCCTGGGTCCATCTTTCTTCTGGAAGGAGAGAGAACAGAAGTGATAGCAAGACCTCTTCCCACCTGGCCACCTTACC
Celera SNP ID:            hCV26381035
SNP Position Genomic:     153693
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17198):
ACCATCAAACCCAGGAGTGTCATTCTAAAACACTGCAATTTTAGGAAAAGCCAGTCTGTCCAATATCTAAGGACAATGGGTCAATATTGAGCATGTTTTC
Y
TTCAGTGCCTGAGCCACTTTATTAGGGCAGAATCCTGGGTCCATCTTTCTTCTGGAAGGAGAGAGAACAGAAGTGATAGCAAGACCTCTTCCCACCTGGC
Celera SNP ID:            hCV26381036
SNP Position Genomic:     153684
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17199):
CAGAAGATAACCATTAATAGATACAAAAATATGGTGAGAATTCAGTATTCACAAAGGAAAATAAAGGAACAAATAGCAGTTTTACAAAGCCAGAAAAAAA
W
TAAGAAAGAAAGAAAACAAATGTAAAATAAATAATAAGTATTTAAAAGTAATAAAGATGGAAGAAATAAAATCAAATATTTCTCATCTTGAATATGAATG
Celera SNP ID:            hCV26381037
SNP Position Genomic:     152064
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17200):
TTTTCCCCAATGTTTTGTTGTAGTAGTTTCATGGTTGGAGGTCTTAGATTTAAGTCTTTAATCCATTTTGATTTTATATTTGTATATGCTGAGAGATAGG
K
ATCTAATTTTGTTTTCCTGCATATGGATATCCAGTTTTCCTAGCACCATTTATTAGAGACTGTCTTTTCCTCAGTGTATGCTCTTCGCATCTTTCTCAGT
Celera SNP ID:            hCV9359803
SNP Position Genomic:     42695
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17201):
ACTTAAAAATTTCTTACTTATTATGTTTGTTGTTTCTTTTACTTAATAGAATGAAATCCCTATGAGGGCAAGGGTTTTTCTGTCATTTTTGTTCATTGCT
R
TGTCACAAATGCGAATGGAGAACCAGATGAGAATAGAGCTACAGAATCAAAAGGAGGAGGGAATTTCAAGATGAAAGAGTAGTGGTCATGGGTATCAGAT
Celera SNP ID:            hCV150814
SNP Position Genomic:     29756
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17202):
CGCACCACTTGGATAGTAGCATCTTTTATTGGAGTGGTTCTCTATGCCTAAAGAGGTGCCTGTGTTTTGGAATTTTTTGGTAGGGCTCCATAAAGGTCCA
R
CCTTCCCTTCGTTGAATATTTTTATACATCCTTTTTTGGGCATGTATCTCTGATTGGAAATTGCTATTCCTTATCACTTTTCCAGTCCATGATTTCCTGG
Celera SNP ID:            hCV150815
SNP Position Genomic:     30160
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17203):
ACTTGGATAGTAGCATCTTTTATTGGAGTGGTTCTCTATGCCTAAAGAGGTGCCTGTGTTTTGGAATTTTTTGGTAGGGCTCCATAAAGGTCCAGCCTTC
M
CTTCGTTGAATATTTTTATACATCCTTTTTTGGGCATGTATCTCTGATTGGAAATTGCTATTCCTTATCACTTTTCCAGTCCATGATTTCCTGGATGTAA
Celera SNP ID:            hCV150816
SNP Position Genomic:     30166
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17204):
TGTATGAACCTAAGATGGAATTTCAAATTAATGAAAATAATTTCACTGGGATAATTTGAATAAGTTTGTTAAAATAAAGAGATGAAACTTTTTTAGTTTA
W
ATGATGACTTTCTAGTCCATCTATAATTTTTATTTATTCTAGTAAATGTTATTTGTTTTCCTTATGTATATTAGATTTTTTCAATTAACAAAATATTTAC
Celera SNP ID:            hCV978320
SNP Position Genomic:     215628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17205):
TTGCTTAAACCCGGAAGGCGGAGGTTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCTTGAGCAACAAGAGCGAAACTCCGTCTAAAAAAAAAAAAG
S
GTTCCCAAGGCAATCCCCAAATGTCATAATACCATAATGGAGATATACTATCTGTGATTCTTTAACACCTAATAACAAGTCAGAGGTTTTCTGTGGAAAT
Celera SNP ID:            hCV978321
SNP Position Genomic:     216794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17206):
ATTTATTTTCTCCCTTTTCTGTCAGTCTGCCAGTTCTCTCTTAGCCTTCCTATTATGTGTGTATTATATTTTTTGGATCCATCCTCTGTTTGCCTCTGTC
W
TCTCCCCTGTCAAATTGACCTCTCTAACCTTTCCTGTCATTTTTAGGATTTTTTTTGAGCTGGCATTGAAGTCAGTTTAGAATTTTTGACATTATCCTTT
Celera SNP ID:            hCV493523
SNP Position Genomic:     49712
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17207):
GTTTGTCTGCTATTTATTTTCTCCCTTTTCTGTCAGTCTGCCAGTTCTCTCTTAGCCTTCCTATTATGTGTGTATTATATTTTTTGGATCCATCCTCTGT
Y
TGCCTCTGTCTTCTCCCCTGTCAAATTGACCTCTCTAACCTTTCCTGTCATTTTTAGGATTTTTTTTGAGCTGGCATTGAAGTCAGTTTAGAATTTTTGA
Celera SNP ID:            hCV493524
SNP Position Genomic:     49701
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17208):
AGGAGGAAGGATTCAGTCAAAATTGGGATTGACAGGGTAGAGAGGCTCCAAGGCCTTTATGTTCAGTAATAACATAGGGTTGATGTCACCTATTCCATTT
Y
TTTCCCTTCCTCCCGCCCTCAAATTGGATACTAGAACTATGCAGGAAAAGCGACTCAGTGAAACAAAAAACATAAGGTCCTCAGGAAGCACCAGGATCTG
Celera SNP ID:            hCV978322
SNP Position Genomic:     217449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17209):
GAACTATGCAGGAAAAGCGACTCAGTGAAACAAAAAACATAAGGTCCTCAGGAAGCACCAGGATCTGCAGAATCAGGGACTGAAAAACCCTTATTGTACA
S
AAAGGATTATTGCTTAGTCTGCCCAGCAAAGTTGGCCATTTTTGTACTGGGCATATCTAAATCAGGCAGAAGTCACTGCACGCCAAACCTGAAAGCTTGT
Celera SNP ID:            hCV978323
SNP Position Genomic:     217583
SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   Caucasian(G,82)   African-American(G,82)   Asians(C,1|G,81)   total(G,245|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17210):
GGAGTGCATTGTGCAATCTCGGCTTACTGCAACCTCTGCCCCTGGGGTTCAAGCTTCTCCTGCTTCAGTCTCCTGAGTAGCTGGGATTACAGGTGCCCCC
S
CTCCCCAGCCCCACCATGCCCAGCTAGTTTTTGTATTTTTAATAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGATCTCAGGTGA
Celera SNP ID:            hCV493526
SNP Position Genomic:     51439
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17211):
ATCAAAGAGAGACGGTACCTTTGGTGAAACCATTGTTTAGCTGGTTTTCACTTCATCCAGTTACCAGCCAATCAAAAGTTTTTCCACCGATCATATTTTC
R
TACCATTGATTGTATTAACCTAGTTTAAATCAAATCTAAAATATGTGTGCTTATTACAATTATTGAATGGTTGCATGTGAGGGTTGTTGGGTTTTGTAAA
Celera SNP ID:            hCV978324
SNP Position Genomic:     218787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17212):
CGAAGATGAAATAAAGACTAAGAGTATCCATTTCTAACATGTTTACTTTAATGAAATGTTAATAGACGTTGTGTAGGCTGAAGGGAAATGATACCAGATG
K
ATATTTAGGCGGACCAATCAAAATGGTAAATACGTATAAAGGACTAATTTTATTCTTAAGTTATCCCACTATCTGAGAGGTTTTTAATATGGGTGGCTAA
Celera SNP ID:            hCV493527
SNP Position Genomic:     51984
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17213):
ATGTTCACCGACACATTGTAAGAGCAAAAAAAAAAGAAAAAGAAAAAAAAAAAAGAAAATTGGAAACTACATCTATCACTAGAATAGATACATAAATTGT
R
GCATGCATATACAATGGAATACTGTGCCAGTTGTTAAAATGAATGAACTGGAAATACCTGTTAGACAAATCTCAAAAACAATAGTAAGAAACATCACAGG
Celera SNP ID:            hCV978325
SNP Position Genomic:     219207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17214):
GCAACTGGCGAACACCAAATCCAAATTCTGGTTACCTCTGATGCCAGAAGCAAAAAGGAAAGCAATCTGGGATGGGTATACTTGTGATTGTCATTCAGAT
K
TTTAAAGTTTTACTCATGATGCTCGATGGGGGAGGGATGTTGGATTTTGTTTTTGTTTTAATCTATTCTTTATACTTCTTTGCCTGAATTATTTTATATA
Celera SNP ID:            hCV978326
SNP Position Genomic:     219813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17215):
GTCCGGGTTTTGTGCTTCCAAATTCTATTCCTTTTCTTCCATATCTTTCTGCTTTCCTTTAGAATTATATACTAAATCAATCTTTGTATATACCGTATGT
K
GTAAACTCCTTAGAATTATTTAATTAATGAACTGCATTTATATGTCCTGTAAAATCTTATTTGCTCCATGGTAGGTCTTTTGCTTCTTAGATGGTGCAAA
Celera SNP ID:            hCV978327
SNP Position Genomic:     220105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17216):
TTCTGGAAGATAGAACAGGACCTTTTTTTATTCCCAGTGCTTAATACATAATAGGTGCTCATCAAATGTGTTTGGAATGAATTAACCCTTCCTATTTTCC
A
GAGTCATCAGTATAGAACCCATTAACACTGCTGTCAGTTTAAAGAACTCCATTGGTGTTTGAGTGTTTATTTATTTTTATTTTATTTATTTTAAGTTCCA
Celera SNP ID:            hCV11761457
SNP Position Genomic:     227962
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,10)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17217):
TTAGCCATGTAGTTGATTGTGGATGGTACCTTTTTAAAAAACATTCAGTAAGAAGAATTGACAGTATTCTAACATGAGTTTAAAGCAGGATTTGCCTTTG
R
CAAAGCCAGACACAGATGGTCTGACTTTCAGATGGTGGAATACTAGCTGTATTACTTAAGGCTTGCATTTTGCAATGTATTCATGAATATAGTCAATAAA
Celera SNP ID:            hCV978328
SNP Position Genomic:     220512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17218):
GACAAAGATCTCTTAGAGAAGATATACATATGTAACCTTGGAACTGAGTCTGGAAGATGAGTTTGCCTAGGTGGCTGGAGTAGAAGAATGACGCTCCTAG
M
AGAGGAACTAGTATACCTGAAGGCTTGGGGTGTGGAAGAACTGGAGTATTGCTGAAACAGTATTTCAATGTAGGGTTTAAGTATAACATGTGTAACCAGA
Celera SNP ID:            hCV978329
SNP Position Genomic:     221938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17219):
CTAGAGCAAGTATTCTTTGGCTAATTGGAGAAAACTGTGAACGAGTTCCTAAAATTGCCCCTGATGTTTTGAGGAAGATGGCTAAAAGCTTCACTAGTGA
R
GATGATCTGGTAAAACTGCAGATATTAAATCTGGGAGCAAAATTGTATTTAACCAACTCCAAACAGGTGAGAGGCAAATGTTAGTCAACCTATCTAATAC
Celera SNP ID:            hCV15758402
SNP Position Genomic:     158408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17220):
ATTTCTTTCTTTTCTAGTTGGTAGCTGGCAGTGTTGTGATGGCTTTTGAAGAAGTATGCCCGGACAGAATAGATCTGATTCATAAAAATTACCGCAAGCT
R
TGTAACTTACTAGTGGATGTTGAAGAGTGGGGGCAGGTTGTCATAATCCACATGCTAACTCGATATGCTCGGACACAGTTTGTCAGCCCTTGGAAAGAGG
Celera SNP ID:            hCV25645903
SNP Position Genomic:     84438
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,3)   caucasian(A,40)   total(A,69|G,3)
SNP Type:                 UTR 5;SILENT MUTATION;hmCS


Context             (SEQ ID NO:17221):
GCATATTTAAGGAAGACTCATTTGTCTCTTGTTCTTTTACTAAAGCAGGCAACCAATATAAATGCAAGCATAATTATCCATTATTTTGGCACTGATTGAT
R
CATATTTATTGGTGTAAGTATATACACTTTTAGTTTGATACTGGCAAGAGGCCCTTGTTAGGAGGAGCAGCATGACACAGTGTTTACAGTGACATTGCCA
Celera SNP ID:            hCV25645904
SNP Position Genomic:     84738
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,1)   caucasian(A,38)   total(A,59|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:17222):
GTGATCCACGCTCCTCGGCCTCCCAAAGTGCTGGGATGACAGGCGTGAGCCACCGCACCTGGCCACAATTTCTACTTTTAGGATTGTACTATGTCTTGTC
R
CTCAGTCTACTTCTCTGTCTGTATGCCCTCCTGTAGTGATCTCATCCCTTTCCAAATGCATATTGCTAACCAGTGCTGTCTCCTGTATTCTGTAGCCTTT
Celera SNP ID:            hCV153223
SNP Position Genomic:     56024
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17223):
TTTTTTGGGCGGGGGTAATTTCATCCTGTTTTTAGTATGTCTCGTAAGTTTTGATCAGATGCTAGGTATTTAGGATAAAAATGATTGATGAAGCTTTGGG
W
GATAGCTTCTTCCATACAGGGCTGGGTTTTTGTTTTTGTTTTTTTTTCCAGCCAAGCAAATAGAATGTAAGCAGATCATTCTGATCTTGTCAAAGCTCAG
Celera SNP ID:            hCV11648820
SNP Position Genomic:     26749
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17224):
AAGCCACGTTACGTAGGGTTAAATTAAAATCCATCTGATGAGAATTTATGGTTTGTAGGGCAGGACTCCTCAGGCCCCTTAGGAATTTGGGCAAGAGAGA
R
AAAAGTCAGAGTTTAGTCCTCACAAGTACAGAGGAATAATCTGAAACTATTCATGAGATTTTACCTTGGATTTTTAAATTAAGACGTTGTTTGTTACCCT
Celera SNP ID:            hCV11648822
SNP Position Genomic:     28981
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Gene Number:                 43
Celera Gene:                 hCG17353 - 64000127011174
Gene Symbol:                 SERPINE1
Protein Name:                serine (or cysteine) proteinase inhibitor, clade E (nexin, plasminogen activator inhibitor type 1), member 1;PAI;PAI-1;PAI1;PLANH1
Celera Genomic Axis:         GA_x54KRFTLAET(173941..198254)
Chromosome:                  Chr7
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12203):
AGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATCAGCTGGGCGTGATGGCAGATGCCTGTAATCCCAGCTACTT
GGGAGGCTGAAGCACTATAATTGCTTGAGCCTGGGAGGTAGAGGTTGCAGTGAACTGAGACCACACCATTGCACTCCAGCCTGGGCAAGAAGAGCGAAAC
TTTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAATTGGCGGGGCATGGTGGTGCACACCTGTAGTCCCAACTAGCAACTCCTCAGGAGGCTGAGATGGG
AGGATCTCTTGAGCCTGGGAGGTCGAAATGCAGTGAGTCATGACTGTGCCAAGGCTGGGAGCCATGATTGTGCCACTGCACTCCCACCTGGGCAACAGAA
CGTGGCCCCCACTCAAAAAAAAAATGCAATTGTGGACAAGCAAGGGCTACATTGGGTAAGGCAGCACCAGTTAGAGTGTTAGGGAGTTTAAAGAGAAATG
ACCGGCCAGGGGCTGGCAGGGGAGAGGGGATACAGCAGGAGAGGAGGGGGAAGTCAGTCACAGAGCCAGGGTAAGGAAGGGCCCCTGGACAGGCTGTCCC
AGAGCCACGATCTTAAATAAAAGGCAGTGGAGGGCCAGGCGCAGTGGCTCACGCCTATAATCCCAGCACTTTGGAAGGCCGAGGTGGGTGGATCATGAGG
TCAGGAGATCGAGACCAGCCTGGACAACATGGGGAAACTAGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCGCATGACTATAATCCCAGCT
ACTCGGGAGGCTGGGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGATGCAGTGAGCCAAGATCACACCTCCGCACTCCAGCCTGGGCAACAGAGCAA
GACTCCATCTCAAAAAAAAAAAAAAAAAAGGCGGTGGAGACACCCAGCACTGGTTCCCTCCTAGAGAAGGGGAGAGAGCCGAGCCCAAACACAGGCTATT
TTTGGAGTTGTGTTGTTTGGAGAGCAACCAAGCCAGAAATAGTGCTGTTAGCAAGACCCTGCCTTCTCCAACCCCCGGCTCTCCCAGTGAAATCACCAGG
AATCAGGGAGGCTGGGCCCCACATTCCAGGGAGCCTGTGTAACAGGCAGTGCTCTCTTCCCCACCGGAAGGGCTTGGGAGCTGAGCATTTGACTGTAAAA
GGGATTCTGGGATTCCAGAGGGACAGAGGGACTGAGTCAGAGAGAGAGAGAGAGAGAGTGGAAATGGGGGGCAACCTCCTGCAGCGGAGGAGAGGGGACA
GGAGGGAAGGCTTGGGGAAGAAAGGGTAGGCAGGAGGTCAGAGAGAAGGGAGCAGGAAGCGGGAGGCTCAGAGAGAGAAAGGGAAAGTGAAAAAGAAAGC
GGGGAAGACAGAAGCAAAGAGGAAGAGCAGAGATCGGGCCAGAAGGCGGGAGGTCAGGGGGCGATGGGTGGTGGGAAGGCCAGTGTCCACCCAGGGCCCA
CCAGTGGGTGGGGGACAGAGGGACAGTCATGGAAAATCTGAGTGTGATCTACAGTCACGAACCACCTGCTCAGGGACAGATGGAGACATCTTTCCCAGTA
GCTGGAATCAGAACTTTCCCCTGAAATCCACAGCCCGGTAACTCACTCTCTTATCTCTGACCCTCCGGAAGCCAGAGATCTAGCTATTTCATCAGCATGG
ACTTTTCTTTCTGTGCCCGTGTGACCCCTTACAAAAGAGCTCAAGCTGGAAAGAGAGGATTGGATCAAGAAAGAGAGAACTTAGGATTCAGGGGAAAAGG
GGAAAGTGATAACCCCTTGAGTCAGATTCTGAGAAGAGGGTTTCTCTGAGAGGTCGGTGGGGAGCAGCCCGCAGGCAGCTGGACCCTGGTATGGAAGGGC
TCGGCTCCTAAGGCAGGTAAGAGAAGGCAGGGCCACGTGCATGAAGTAGAGGCAGGGGTCATGGCCAAGTCTGGGTTCTTTTTATTTATTTATTTTTTTG
AGACAATCTTGCTCTTTCGCTCAAGCTGGAGTGCAGTGGTGCAATCTCAGCTCTCTGCAACCTCCACCTCTTGGGTTCAAGAGATTCTCCCACCTCAGGC
TCCTGAGTAGCTGGGACTACAGGTACGTGCCGCCATGCCTGGCTAATTTCTGTACTTTTTTTTTTTTAGTAGAGACGGGGTTTCACTCCAAGTCTGGGTT
CTAGAGTAGCTAGGCAGCCCCAGCTCATCAGAGTCAATGGAGAAATCGGAAACTTCACATGGACCCGATAACACAGGTTTTGCCTCAGTTTCTAATACAC
ATCTTCCCTATGCCTACAAGTTTCCACCGATTTGGGAAAAGACCTCTTAGTAAGTCAGCCACTTCTGAGTCCAAAGTAAAACGCTCCCCACCCTCCACCC
CAATCAGGACTAGAGCTGCTCCCCAGCTCTCCCGTGCCCAAGGATGGAATGTCCTTTTTGCTCTTTGCTTTGTCCTTTGAGACAGGGTCTCTCTTTGTCA
CCCAGGCTGGAGTGCAGTGTTGCAATCATAGCTCACTCCAGCCTTGAGCTCCTAGGCTCAAGCGATCCTCCTACCTCAGCTTCCCATGTAGCTGGGACCA
TAGGCACACGCCACCACACTGGGCTAATTTTTTTTTTTTTTTTGGTAGAGATGGGATCTCACTGTGTTGCCCAGGCTGGCTCAAATTCCTGGGCTCAAGT
GATCTTCCTGCCTCAGCCTCCCCAAAGACTGGGATTACAGGTGTGAGCCACCACACCCAGCAGGGGTGTCTATTTTGGATTGGCATCAGGATCATCCACC
CAATCTATGAGTGGGGACTAAATTGGTGACTGCTCCTGCAGAGCTCTGGCTGTCCACAGAAAACAGCAGAGACCTGGCAAGGTATGGGACAATGGCTCCT
GGTATGACAGGCAGAGGAAGGGATGGAGGCTAAGCTGCAGCCTGGAGAGGCTGGCGTCAGACACCTGAGGAGGCCACATCTAGCTATGTCTAGACCCATT
GAACTTTCAAGTCTTCGAGGCTTGGTACTGCCTGATCCCTGTTCCCCTCTGATCCTTAAGGTCAGAGAGCAAAGCCTTGCGGGGTACTTTTTTTTTTTTT
TTTTTTGAGACAGATTCTTGCTCTGTCACCCAGGCTGGAGTGCAATAGCATGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCT
GCCTCAGCCTCCCAAGCAGCTAGGATTACAGGCACGCACCACCATGCCTAGCTGATTTTTATATTTTTAGTAGAGATGGGGTTTCATCATATTGGCCGGG
CTGGTCTTGAACTCCTGGCCTCAAGTGATCCACCTGCCTTGGCCTCCCGAAGTGCTAGGATTACAGGTGTGAGCCACCATGCCCTGTCTTGGGGTACTTT
TGAGGACAAGAGTTAAGTTCGGGACTGGGCATGTTGGCTTATACACTTTGGGAGGCAAAGGTGAGAGGATTGTTCCAGCCCAGGAATTTGAGACCAGCCT
GGTCAACATAGCAAGACTCTGTCTCTATAAGAAAAAATAATAATTAGCTGGGCGTGGTGGTGCTTGCCTGTAGTCCCCGATACTTGCTTGAGCCCAGGAG
TTCAAGTCTGCAGTGAGCTATGATCACATGACTGCACTCCAGCCTTGGTGACAGAGTGAGACCCTGTCTCCAAAAAAAAAAAAAAAAAGAGATGGGTTTG
GGGCTGGACTTGTCTTCTTCCAAGAGGTCAGGGCAGTTGCTTCTTCCTCACCGCTAACCACACTCTCAGGGACTCCAAACCACAACTAAGAAAAGGAAAA
AGACATAAACAAGAGGCAGTTTCACAGGAAGAGTTCTCCTAATGTGTCTGTGAGCCTAACTTTCCGACTGTGGTTCTCCTCTCTTTCCCTGCCAGCTGTG
AGAAAACAAAGCCTAAGGCAGATTAAAAAGCAGGAGGGCTGCTCAGTGTGGTTGCCCTTGGTATCTGTTTACTGAAAAAATYCAAAACAAACATCCGACG
CTTCCACCCACTGAAACTTCCTGTGACTCTGCTATCAGCTGTTGCCATGGATTCTCCCAACTGAACCCCACCACATACACTAAACCCAACAGTCCGTGGA
CCCCAAGTATGCCATCTCTCCAATACAGGACCCCCTGGGCAGCACCCTGGCCACCCTTCCATCCACAACATCCAGACCACACGGCCAAGGGCACCTGACC
CTGTCAAAACCCCAAATCCAGCTGGGCGCGGTGGCTCATGCCTGTAATCCCAGCATTTGGGAGGCCGAGGCAGCCGGATCACGAAGTCAGGAGTTCGAGA
CCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAATACAAAAATTAGCCGGGCGTGGTGGTGCACACCTGTAATCCCAGCTACTCGGGAGGCTGA
GGCAGGAGAACCACTTGAACCTGGGAGGCGGAGATTGCAGTGAGCCAAGATAGTGCTACTGCACTCAGCCTGGGCAACAAAATAAGACTCCGTCTCAAAA
CAGAAAAACAAAAAAAACAAAAAACAACAACAACAACAAAATCCACTAGTCTAGCCCTACATGCTCACCCACTGCTAGCCAGTTTCCACCCTCTACAGCA
GAGGTACCCAACCTCTGGGCCAGGGGCCCGTACTGGTCCATAGCCTGTTAGGAACCAGGCTGCATAACAGGAGGTGAGTGGCAGGTGAGTGAAATTTCAT
CTGTAGTTACAGCCACTCCTCATCACTCGCATTACCACCAGAGCTCCACTCCCTGTCAGATCAGCGGCGGCATTAGATTCTCATAGGAGCTCGAACCCTA
TTCTAAACTGTTCATGTGAGGGATCTAGGTTGCAAGCTCCCTATGAGAATCTAATGCCTGATGATCTGTCACGGTCTCCCATCACCCCTAGATGGGACCA
TCTAGTTGCAGGAAAACAAGCTCAGGGCTCCCACTGATTCTACACGATGGTGAATTGTGGAATTATTTCATTATATATATTACAATGTAATAATAATAGA
AATAAAGCACACAATAAATGTAATGTGCTTGAATCATCCCGAAACCATCCCACCCTGGTCTGTGAAAAAATTGTCTTCCATGAAACCAGTCCCTGGTGCC
AAAAACGTTGAGGACCACTGCTCCACAGAATCTATCGGTCACTCTTCCTCCCCTCACCCCCTTGCCCTAAAAGCACACCCTGCAAACCTGCCATGAATTG
ACACTCTGTTTCTATCCCTTTTCCCCTTGTGTCTGTGTCTGGAGGAAGAGGATAAAGGACAAGCTGCCCCAAGTCCTAGCGGGCAGCTCGARGAAGTGAA
ACTTACACGTTGGTCTCCTGTTTCCTTACCAAGCTTTTACCATGGTAACCCCTGGTCCCGTTCAGCCACCACCACCCCACCCAGCACACCTCCAACCTCA
GCCAGACAAGGTTGTTGACACAAGAGAGCCCTCAGGGGCACAGAGAGAGTCTGGACACGTGGGGGAGTCAGCCGTGTATCATCGGAGGCGGCCGGGCACA
TGGCAGGGATGAGGGAAAGACCAAGAGTCCTCTGTTGGGCCCAAGTCCTAGACAGACAAAACCTAGACAATCACGTGGCTGGCTGCATGCCCTGTGGCTG
TTGGGCTGGGCCCAGGAGGAGGGAGGGGCRCTCTTTCCTGGAGGTGGTCCAGAGCACCGGGTGGACAGCCCTGGGGGAAAACTTCCACGTTTTGATGGAG
GTTATCTTTGATAACTCCACAGTGACCTGGTTCGCCAAAGGAAAAGCAGGCAACGTGAGCTGTTTTTTTTTTCTCCAAGCTGAACACTAGGGGTCCTAGG
CTTTTTGGGTCACCCGGCATGGCAGACAGTCAACCTGGCAGGACATCCGGGAGAGACAGACACAGGCAGAGGGCAGAAAGGTCAAGGGAGGTTCTCAGGC
CAAGGCTATTGGGGTTTGCTCAATTGTTCCTGAATGCTCTTACACACGTACACACACAGAGCAGCACACACACACACACACACATGCCTCAGCAAGTCCC
AGAGAGGGAGGTGTCGAGGGGGACCCGCTGGCTGTTCAGACRGACTCCCAGAGCCAGTGAGTGGGTGGGGCTGGAACATGAGTTCATCTATTTCCTGCCC
ACATCTGGTATAAAAGGAGGCAGTGGCYCACAGAGGAGCACAGCTGTGTTTGGCTGCAGGGCCAAGAGCGCTGTCAAGAAGACCCACACGCCCCCCTCCA
GCAGCTGAATTCYTGCAGCTCAGCAGCCGCCGCCAGAGCAGGACGAACCGCCAATCGCAAGGCACCTCTGAGAACTTCAGGTAGGAGAAAAKCAAACTCC
CTCCAACCTCTTACTTCGGGCTTAAGGCAGAGAACTCGCCTCCCCAGAATCTCCTCCCTCCATGATCCCCCRCTATTCCTCTATTTTCTTTTCCTCGGAC
CTGCAGCCTTGGGTCGACCCTGCCCTAGGGGTGACTGCAGGAGAGCAGGGAGGATGGTCAGGCGTCACCAACAACCCCATCACCCAGTAACAAGAACYTT
GACTCTCTCAGTCCCTCTGCATCAAGACACTTACCCATTTCCCACCTCATGCCTGCTAACTTGAATGAAACAATCGCTGGGAAAGCATTAAGAGAATTAA
GGCTGGGCACTGTGGCTCATGCCTGTAATCCCAGCACTTTGTGAGGCTGAGGCAGGCAGAYAWCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACAT
GGCAAAACCCTGCTCTCCCAAAAAAATACAAAAATTAGCTGGGCGTGCTGGTGTGCCTGTATTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTT
CAGCTGGGGAGGCRGAGGCTGCAGGGAGCCAAGACTGAGCCATTGCACCCAGCCTGGGTGACAGAGCAAGACCCTGTCTCTAAAAATRAATGAAAGGAAG
GAAGAAAGAGAGAGAAAGAGAGAGAGGAAAGAAGGAAGGAAGTAAAGAAGAAAGAAAGAAAGAAAGAGGAAAGAGGAAGAAAGAAAGAAAAGAAAGAAAA
GAAAAKAAAGCAAATTTAAAGCTTATGCAAATCAAAGATGTTGTGATAATTGATAATTGAGTCTGGGCTAAATTCCCCCTGGGCTGCAAAGGCAGAGAGT
GGTAATGACTTCTCACCTGCTTTTCTTCTAAGGCTTTTTTACGGGACACAGAGGGAAGGGAGATGGACTGGATTCCAAGATTCCCACAGGGCAAGATGGG
CGAAGACTCCCTGCCACTGCCCGGGGATAAGTCAGTCTGAGTGAGACGGAGTRGGATGGGCTTAGAACCTGAACATGTCATGGTCTCTTCCTGCACCTTG
CCCTAGTGTTCACTTACCACCTGCTTGCAGGAAACAAGAAGAGCAGGGCCCACAGCTGGCCAGCTCCCCTCCCCTCCCRCCTGTCTTCCAGAACGATTCC
TTCACCAGCCCTCTTTCCATTGCTCTAGGATGCAGATGTCTCCAGCCCTCACCTGCCTAGTCCTGGGCCTGRCCCTTRTCTTTGGTGAAGGGTCTGCTGT
GCMCCATCCCCCATCCTACGTGGCCCACCTGGCCTCAGACTTCGGGGTGAGGGTGTTTCAGCAGGTGGCGCAGGCCTCCAAGGACCGCAACGTGGTTTTC
TCACCCTATGGGGTGGCCTCGGTGTTGGCCATGCTCCAGCTGACAACAGGAGGAGAAACCCAGCAGCAGATTCAAGCAGCTATGGGATTCAAGATTGATG
GTGAGCCACGGGACACCAGGGGAGGTGGGTGGCATGCAGAACAGACCTACCAGAAGCCAAGGAAAGGCTGGCTCTGGCTTAGCCGAGCCAAGCCCCATAC
AGCTGTGCTGCAGGGGCCACCCCATCTTCTTCCCACTACACTCCAAGTCACTGGAYCCTTGAATCTCCAAGGGTGTCTGACCAGTAGATTTACYGCTTAT
TCACCACCGTGTGATCTTAACCTCGTTWAGTTTGCCCATCTACAAAATGAGGATTATTTGCTGTCCTAAAGAATTCATGAGCCGGGCGCGGTGGCTCAAA
CGCCTGTAATCCCAGCACTTTGGGAGGCCVAGGMGGGCGGATCATGAGGTCAGGAGATYRAGACCATCCTGGCYAACACAGTGAAACTCCATCTCTACTA
AAAATACAAAAAAAATTAGCCAGGCGTGGTGGCRGGCRCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGMGGCAGAG
CTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGAGAGACTCCGTCTCAAAAAAAAAAAATAAAAGAATTCATGGAATTACACT
TGTGAAATACTTAGCATAGCCATCACTATAGGAAAAAAATCTAAGGCCAGGCACAGTGCCTCATGCCTGTAATCTCAGCACTTTTGGAGTTTGAGGCAGG
AGGATCACCCAAGGCTAGGAGTTCAAGGCCAGCCTGGGCAATACGGTGAAACCCCGTCTCTAATAAAAATATAAAAATTAGTCTGATGAGGTGGTGCACC
TGTAATCCCAGCTACTCAGGAAGCTGAGACACAAGAATCACTTTAACCCGGGAGGTGGAGGTGGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTG
GGTGACAGAGTGAGACCTGTCAAAAAAAAAAAAAGAAAGAGAGAGAGAGAGAGAAGAGAGAGAAAGAAAGAAGAAGAAAGAAAGAAAGAGAGAGAGAGAA
AGAAAGAAAGAAASAAAGAAACAAAGAAACAAAGAAAGAAAGGAAAAGAAAAAAAAAACTAAGGCCAGGCAAGGTGGCTTATGACTGTAATTTCAGCACT
TTGGAAGATTGAGGCAGGAGGATCACTTGAGGCCAGAAGTTCGAGACAAGACTGAGCAACAGGGAGACCCCTGCCTCTACAAAAAAATTTACAAATTAGC
CAGATGTGGTGACACATACCTGTAGTCCCAACTACTCAGGAGGCTGAGGTGGGAGGATGGCTTGAGCCCAGGAGCTGGAGGCTGCAGTGAGCTATGATTG
TACCACTGCACTTCAGCCTGGGCAACAAAGGGAAGCCCTGTCTGAAAAAAAAAAAAAAAGAAAAAGAAGAAGAAAGAAAATATTTAGGGTTCATCCAGGA
GGCAGAGGTTGCAGTAAGCTGACATCGCGCCATTGCACTCCAGCCTGGGAGACAAGAGCAAAACTCCAACTCAAAAAAAAAAAAAAAAAAAAAACAGGAA
GAAAATATTTAGGGTTCATAAYTTAAGAACAGAGAAAAATATTCTAGCCCAAAGAAAGGGTTGGGATCTGAGACTTTTGAAGAAAGGAAGGAGATACAGA
AAAGAGATTTCATCCTGGAATGAAATCTCCCTCCAGAGAGCCCTGGGAAAGCACGGTAGCCCCCATCCATCAGAGTGGAGCCCCTTGTGGGGGAAGTGGG
CTCGGCTGGGAACCCTCAATTCAGCATAAGCCTCACATGTCCTCTCCTCTCTGTCCCGGTGCAGACAAGGGCATGGCCCCCGCCCTCCGGCATCTGTACA
AGGAGCTCAYGGGGCCATGGAACAAGGAYGAGATCAGCACCACAGACGCRATCTTCGTCCAGCGGGATCTGAAGCTGGTCCAGGGCTTCATGCCCCACTT
CTTCAGGCTGTTCCGGAGCACGGTCAAGCAAGTGGACTTTTCAGAGGTGGAGAGAGCCAGATTCATCATCAATGACTGGGTGAAGACACACACAAAAGGT
GAGCAGGCAGGGAAAGGAAACCCATTTCCTGGGCCTCAAGAGAAAGGGAATTTGGAAATAAATCCACATAWCCCAGTTGGGTGCAGTAGTTCACACCTGT
AATCCCAGCCCAACACTTTGGGAGGTCTAGGCGAGAGGAAGGCTTGAGGCCTGGAGTTTGAGACCAGCCTGGCCAACATAACAAGACCTCATCTCYTCAA
AAAATTTAAAAACCAGCCGGGCATGGTGGTGCACACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAGTCCAGCAGTTCAAGGCT
GCAGTGAGCTATGTTTGCACCACCACACTCCAGCCTGRGTCACAGAACAAGACCTCATCTCTAAAAAACAAACAAAAACCAAATCCACATATCCTAAAAA
ATGCTCCTTTTCAGCATTCTCTTCTCTATGGACAAAGGGCTGGATGCTTTAAGAACCAAATCTTAGGCTGGGCACGGTGGCTCACGCCTCTAATCCTAGC
ACTTTGAGAGGCCAAGGCGGGCAGATTGCCTGAGCACAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTYTCTGTCAAAAATACAAAAAAT
TAGCCAGGTGTGTTGGCGCRTGCCTATAATCCCAGCTGCTCRGGAGGATGAGGTTCAARGAATCACTTGAACCCGGGAGGCAGAGGCTGCAGTGAGCTGA
GATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTTTGTCTCCAAAAAAAGGAACTAGACRGGTTCATTTAAACCCCTGACTGCAGCCCTTTG
ACATACATCCARTTGAGGACTGGGGACTCCGGGAAACATCTAAAAGGCTTAAAAACTTTGTCTAACTTCAGCCGGGCATGGTGGCTCACACCTGTAATCC
CAGCACTTTGGGAGGCTRAGGCAGGTGGATCACAAGGTCAGGAGTTTGAGACGAGCCTGACCAACATGGTGAAACCCCGTCTCYACTAAAAATACAAAAA
TTAGCCAGGCATGGTGGCAGGCGCCTGTAATCCCAGCTATTYGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCCGGAGAYAGAGGTTGCAGCGAGCCGA
GATCGCGCCACTGCACTCCAGCCTGGCAATAGAGTGAGACTCCATCTCAAAACAACAACAACAACAACAACAACAAAATCGTCTAACTTCCTGATCTTCC
TGATCATTGATTTTCCCATAGGTATGATCAGCAACTTGCTTGGGAAAGGAGCCGTGGACCAGCTGACACGGCTGGTGCTGGTGAATGCCCTCTACTTCAA
CGGCCAGTGGAAGACTCCCTTCCCCGACTCCAGCACCCACCRCCGCCTCTTCCACAAATCAGAYGGCAGCACTGTCTCTGTGCCCATGATGGCTCAGACC
AACAAGTTCAACTATAGTAAGTCCAAGAGCCCCTTCCCCACAGCCCACAGCAACTGCATCTCATTCCTGGGGTCTCCCAAGGAATACCCAAAATGTCACC
CTCTGAGGGAGGAAGACCACAGGGAATGCTCCCCTTTAAGGGAGGAGAGACCCTAGAATATACTCCAGCTTTGACAAAGATTTCCCAAGCAGGAGACATC
AGGATAATGGGAACAGAAGACAGGAGGTTTATCCCATGAAGGATGAAGAAGCTGAAATCCAGAGATTCCCTCAGGGCCACATTTGTCCACCTGACTCCAG
GGTCTCATCTTCGTGTGTTGCTAGTGTGATTACCTGGGGATGAGAAATCCTKCTGGGGGAGTTGAGGTTAAGAGGATGAGGACTCCAGGTGCTGTGGCTC
ACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCAGGAGTTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTC
TCTACTAAAAATGCAAAAATTAGCCAGGTGTGGTGGCAGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAGCCCGGGAGGT
GGAGGTTGCAGTGAGCCGAACGAAATTGAGCCACTTCACCCCAGCCTGGGCRAAAGAGTGAAATTCCATTCAAAAAAAAAAAAAAAAAAAAAGGATGAGG
ACTGGGATGAACTGGTGGCTGGGTGTGGGGAAAATGGAAGTGAAGGAAGGCCAAAAGAGACAGAGAAGGCCTGGCGCGGCGACTCACGCCTATAATCCCA
GCACTTTGGGAGGCTGAGAAGGGGGATTGCTTGAGGCCAGAAGTTGAATACCAGTCTGGGCAGCATAGCAAGRCCCTGCCTCTACAAAAAAAAAWTTTTT
TTTAATTAGCCAGGCTTGKTGACATGCATCTGTAGTCTACTCAAGAAGCTGAGGTGAGSCCAGGCAYGGTGGCTCACGCCTGTATTCCCAGCACTTTGGG
AGGTCAAGGCGGGTGGATGACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTGTATAAAAATACAAAAATTAGCTGGGCA
TGATAGCAGGTGCCTGTAATTCCAGCTACTCAGGAGGCTGAGGTGGGAGAATCTATTGAACCCGGGAGGGGGAGGTTGCAGTGAGCCGAGATCATGCCAT
TGCACTCCAGCCTGGGCGACAGAGTGAGACTCCTTCTCAAAACAAACAAACRAACAAAMAAAATACAGAAGCTGAGGCGGGAGGAACATTTGAACYRGAT
TCGGAGGCTGCAGTGAGCTATGATTGCACCACTGYGCTCCAGTCTGTGTGACAGTGAGACCCTGTCTCTTACACACACACACACACACACACACAYACAY
GCACACACACAGAGAGAGAGAAATTAGAAGATACTGAATTGGCAGAAGAGAAGGGAAATAGAAATTAAAATACTGAATAGGGGAGCAGTGAACAGGGGAT
ACCCAAAAGCCAAGAGCGAGAGAGAGCCTGGCTTCCAGAAATAGTGGAGAAGCCAGGAGAACTAGGTGAAAACCCAGTGCTGGGTTGCCATCAGCRAGAG
CTGGAGCCATTTCCAACRAACCATCTTGTCGTCTTCACAGCTGAGTTCACCACGCCCGATGGCCATTACTACGACATCCTGGAACTGCCCTACCACGGGG
ACAMCCTCAGCATGTTCATTGCTGCCCCTTATGAAAAAGAGGTGCCTCTCTCTGCCCTCACCAACATTCTGAGTGCCCAGCTCATCAGCCACTGGAAAGG
CAACATGACCAGGCTGCCCCGCCTCCTGGTTCTGCCCAAGTAAGCCACCCCGCTATCTCCCYGACCTACCAACCCCTCTCTCCTGGCTCCCTAAAGTCAC
CGCCCCCAGGTTGAATTTCCCAGATCTGTGAYGCTTGCAGGACATGCATGTGTGGGAGGCTGATGGGAAACTGTGGCCTGGGTTTGATTATGAGTCTTGC
AATCATCCCTCCCCCTGTTTCTGCTGGAGGGCAGGGRACAGCTCTTCCTGACCACACCCCCACATTGACTATCCCCAGAATACCCAGCAAAAGCCCCCAA
AAGGAGAGTCAGAGAAATGAGGGAGGTGGGGGCCCAATCAGTCCACATCTACTTAGGGTCGCCCCATCAGCACTTCCATCCCCAACCCTTTCAAGTCAAC
ATCCAAACAAAAGAAATCACTTCCAAGGACGGAGCAGCTCAAAGCGCAGCTTCTAGCTGGGGTTCCAAGAAAGCAGATTTTTCGAAATCCTTCTGCAGAA
GGAAGCAAAGAGATTTTTTGAAATCTTTCTGCAGAAGGAGAAGGCTGGAGCTGGGGAACTCCAGAATTATAGGGAAGCCTCCCACCACGCTCATCCCAAA
TTTCCGGATGCTATAATGCCAGGCTTGGGGAAAGAGGAGAATTTAGTTGGTTAGCTGGTGCGTGCTCTCACTTGCATCCTCTCTCTTCCTCTTTTTTTTT
TTTCTCCTCTCTCTCTGGCTCATAAAAATGGAGGTAATTAGTTGTGCCCTGGTGAGAAGCAGAGAGTGCACAAAGGCCCCCTGCTTGAGTCCTCTTCAGG
GTTAGCTCTCAGAAACACAATCTGCAGAACAGATTTTTGTTCCAACATCCTTGCAGGAGAATTTGCCCTTAGCTTCCCCCACCCCAGCCAGGCTGAATAA
AATTATGCTGAAACTACTGTCTTATTTGAGGAAAGTAATTAGTCATAGGTGGGAGGGGGTGGGGAGATTGCAGAAGAATGTTCATGAATATTAGGATTTT
CAGCTCTAAGGGGGGACTTTGTAAACAGCTTTAGAAGAAGAACCAGGCCGGCTGGGTGTGGTGGCTCATGCCTGTAATCTCAGCATTTGGGGAGGCCAAG
GCGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTATTAAAAATACAAAAATTAGCCRGCYGTGGTAGC
GAGCGCCTATGATCCCAGCTACTCCGGAGGCTGAGGCCAGAGAATCACATGAACCTGSGAGGTSGAGGCTGCAGTGAGCCGAGATCACGCCACTGCACTC
CAGCCTGGGGGACAGAGCAAGAATCTGTTTCAAAAAAAAAAAAAGAAAAATAGGAAGGAAGGAAGGAAAGGAAAGGAAAGAAGAGAGAGAGAAAGAAAGA
GAGAGRAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGGAAAGAARGAACGAACGAACCAGGCCTCCC
TCTCCAACCTTCACCTCCGTCCCTATTCTGGCCACTTGATTCGGGGGACACCTGGTAGGGGATGGGGAAAGGTGGGAGCTGCCAGCCAGAGGGGACCCCG
GCTTGAGCAGCCTCTTGCTGCTATCTGCAGGTTCTCCCTGGAGACTGAAGTCGACCTCAGGAAGCCCCTAGAGAACCTGGGAATGACCGACATGTTCAGA
CAGTTTCAGGCTGACTTCACGAGTCTTTCAGGTAAGAAGACTTTCCTTTGCATTTTCTCACCCCAGTGGACTGCGGGGGCCCCTAAGAGGAAAAAGGAAC
CTCTCCTTGAGAGCGGCAGCTGATCTAATCCTGTATCCACATCTGTTTCAGACCAAGAGCCTCTCCACGTCGCGCAGGCGCTGCAGAAAGTGAAGATCGA
GGTGAACGAGAGTGGCACGGTGGCCTCCTCATCCACAGGTGAGTCTGGCTCAGGTGAGGCTCCACGGGTGTCGCCTCCATCGCCCTTCAGGATAACTGGT
CCCCAGACCCGGAAAGGACCCCGCAGCCCTCTCGGCACAGAGCAGYTCTGTCTGTGCTCAGCCATCACCCACTCCCCACCTGTTTCTCAGCCTGGAAAAY
GGGCTTGGGACCATGGAACCCTGTTTCCTCGCCTGATGGCTCCTAAGTTCCCTGACTGTGAAAAGGCCTCCTAAAGAAARACCCAAGTTGTTCCCACAGT
GGGAAGTAAACTTAAGAAACATGCTTATCAGGCTGGGCATGGTGGCTCCCACCTGTAATCCCAGCGCTTTGGGGGACCAAGGCAGGTGGATCACTTGAGG
TCAGGAATTCGAGACCAGCCTGGGCAACATGGCAAAACCCTATCTCTACTAAAAATACAAAAATTAGGCAGGCGTGGTGGCATGTGCCTGTAGTCCCAGC
TACTTGGGAGGCTGAGGCAGGAGAATCACTTGAATCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCTGCTGCACTCCAGCCTGGGCAATAGAGCA
TGACTCTGAAGAAAAGAAAGAAAGAAAGAGAGAGAGAGAGAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAA
GAAAGAGAAAGAAAGAGAAGAAAAGAAAAGAAAGAGCTTATCAATAAGCCCTTAAAGGATTTAGATAAATGTGTGTAAGGGAAGAGCTGATCCATTGCTA
CCAAGCTCCTGGAGGAAACCAGGTCTCAGAGGATGTCCCTAAACTTTTAAGGTTCATATTCAGGAAAACAAACAACTTCCAGCTGGGCTTAGTGGCTCAC
WCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGAGGATCGCTTGAGCCCAGGAATTTGAGACCAGCCTGGGCAATATAATGAGACTGTGTCTCTACA
AAAATTAGAAAAAAATTAGCCAGGCATGGTGGCATGCACCTGTAGCCCCAGTTACTTGGGAGACTGAGGTGGGAGGATCACTTGAGCCCATGAGTTCAAG
GCTGCAGTGAGCCATGAAGGTGCCACTGCACTCCCRCCTGGGCGACAGAGGGAGACCCTGTCTCTAAGAAAAACGGCGGGGGTGGGGGTGGTGCCAGTGC
CAGCATCCCTCTGTTCTAAGACATTGTCCCTTCTCTTGCAGCTGTCATAGTCTCAGCCCGCATGGCCCCCGAGGAGATCATCATGGACAGACCCTTCCTC
TTTGTGGTCCGGCACAACCCCACAGGTGAGCCTGGAACCCATCAYGTTCCACATCCTCCCACCCATTCTTTCTCTCAGGAACTAGTCCCGACAGATGCAG
ACATCCCTCTATCCCTGAGAGGGCTCTGGGCAGGGAACCCATAACCCTACCCTGCTTCCTGTCCCAAGAGGAGGCTACCTTCTATCACCCACAGACAGTG
CCGGGTCCCCGCTCTGTGACTCAGGCAGCTGCGACTCCAGACAGCTCACTCATCTGCCTAGATCTCAGTCCTTCCACCCACATCCAGCCTGATGAGCTGT
CCCACTCCTTCTGCTTCTCAACCCCCATGGTTCTTCCACCCTCAGGAACAGTCCTTTTCATGGGCCAAGTGATGGAACCCTGACCCTGGGGAAAGACGCC
TTCATCTGGGACAAAACTGGAGATGCATCGGGAAAGAAGAAACTCCGAAGAAAAGAATTTTAGTGTTAATGACTCTTTCTGAAGGAAGAGAAGACATTTG
CCTTTYGTTAAAAGATGGTAAACCAGATCTGTCTCCAAGACCTTGGCCTYTCCTTGGAGGACCTTTAGGTCAAACTCCCTAGTCTCCACCTGAGACCCTG
GGAGAGAAGTTTGAAGCACAACTCCCTTAAGGTCTCCAAACCAGACGGTGACGCCTGCGGGACCATCTGGGGCACCTGCTTCCACCCRTCTCTCTGCCCA
CTCGGGTCTGCAGACCTGGTTCCCACTGAGGCCCTTTGCAGGAYGGAACTACGGGGCTTACAGGAGCTTTTGTGTGCCTGGTAGAAACTATTTCTGTTCC
AGTCACATTGCCATCACTCTTGTACTGCCTGCCACCGCGGAGGAGGCTGGTGACAGGCCAAAGGCCAGTGGAAGAAACACCCTTTCATCTCAGAGTCCAC
TGTGGCACTGGCCACCCCTCCCCAGTACAGGGGTGCTGCAGGTGGCAGAGTGAATGTCCCCCATCATGTGGCCCAACTCTCCTGGCCTGGCCATCTCCCT
CCCCAGAAACAGTGTGCATGGGTTATTTTGGAGTGTAGGTGACTTGTTTACTCATTGAAGCAGATTTYTGCTYCCTTTTWTTTTTATAGGAATAGAGGAA
GAAAKGTCAGATGCGTGCCCAGCTCTTMACCCCCCAATCTCTTGGTGGGGAGGGGTGTACCTAAATATTTATCATATCCTTGCCCTTGAGTGCTTGTTAG
AGAGAAAGAGAACYACYAAGGAAAATAATATTATTTAAACTCGCTCCTAGTGTTTCTTTGTGGTCTGTGTCACCRTATCTCAGGAAGTCCAGCCACTTGA
CTGGCACACACCCCTCCGGACATCCAGCGTGACGGAGCCCACACTGCCACCTTGTGGCCGCCTGAGACCCTCGCGCCCCCCGCGCCCCCCGCGCCCCTCT
TTTTCCCCTTGATGGAAATTGACCATACAATTTCATCCTCCTTCAGGGGATCAAAAGGACGGAGTGGGGGGACAGAGACTCAGATGAGGACAGAGTGGTT
TCCAATGTGTTCAATAGATTTAGGAGCAGAAATGCAAGGGGCTGCATGACCTACCAGGACAGAACTTTCCCCAATTAYAGGGTGACTCACAGCCGCATTG
GTGACTCACTTCAATGTGTCAWTTCCGGCTGCTGTGTGTGAGCAGTGGACACGTGAGGGGGGGGTGGGTGAGAGAGACAGGCAGCTCGGATTCAACTACC
TTAGATAATATTTCTGAAAACCTACCAGCCAGAGGGTAGGGCACAAAGAYGGATGTAATGCACTTTGGGAGGCCAAGGCGGGAGGATTGCTTGAGCCCAG
GAGTTCAAGACCAGCCTGGGCAACATACCAAGACCCCCGTYTCTTTAAAAATATATATATTTTAAATATACTTAAATATATATTTCTAATATCTTTAAAT
ATATATATATATTTTAAAGACCAATTTATGGGAGAATTGCACACAGATGTGAAATGAATGTAATCTAATAGAAGCCTAATCAGCCCACCATGTTCTCCAC
TGAAAAATCCTCTTTCTTTGGGGTTTTTCTTTCTTTCTTTTTTGATTTTGCACTGGACGGTGACGTCAGCCATGTACAGGATCCACAGGGGTGGTGTCAA
ATGCTATTGAAATTGTGTTGAATTGTATRCTTTTTCACTTTTGATAAATAAACATGTAAAAATGTTTCAAAAAAATAATAAAATAAATAAATACGAAGAA
TATGTCAGGACAGTCACTGCCTTCACCTTCTCCATTTCACACCGGTGGTACAAGAAATCAGAAGCCTAGGCCAGGTGTGGTGGTTCATGCCTGTAATCCC
AGCACTTTGGGAAGCCGAGGTGGGTGGATCACCTAAGGTCAGGAGTTTGAGACCAGCCTGGACAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAA
ATTAGCCGGGCGTGGTGGCTGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAAGCCAGGAGGCAGAGGTTGCAGTGAGCTG
AGATTGCACCACTGAACTCCAGGCTGGGTGGCAGAGCGAGACTCCCTCTCAAAAAACAACAACTACAAAGACAACAACAAACCCAGAATCAAAATCCTGT
TGGTCCATAGACCTCATGGGTGGAAGAGACCTTCCTACATCCAGGTTGGCCCAACATGGGGGAGTCCATGAAATGGTCACCTCAGCTCTGCCACAAGCCC
CAAGGATAAGTTGATTCTGCCCCTGGGAATCATCCTCAAAAAGGAAAAAAATGTTCCCCTGCCATAAACTTTCCACTTATGCAGATGGGCCTGCTCGTAA
GTCACTGTCACTGTGGGTTCCCAACTCTGTTCATGACACTTCCTTCCAGCACCAAATGCTTCCCACCCCTCTACTCCCACTCCCCATTCTTCAAACCCAG
CTCAAGTTCCAGTTCCTCCACCTAGGACTTCCCATGGATCCAGCCAATATCACTCTCAGGTCCGGCGCAGTGGCCCACGCCTGTAATCTCAGCACTTTGG
GAGGCCGGGGCAGGAAGATTGCTTGAGGCCAGGAGTTTCAGACCAGCCTGGACAACATAGTGAGACTCTTCCTCTAAGAAAAGAAAGAGAGAAAGAGAGA
GAGAAAGACAGAGGAAAGAGAGAGAAAAATAAAGAAAGAGAAAGAGAGAAAGAAAGAAAGAAAAAGAAAAAGAAAGAAAGAACGAAAGAAAGAACGAAAG
AAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAGAAAGGAAGGAAGGAAGGAAGGAAAGGAGGGAGGGAGGGAGGGA
AGGAAGGAAGGAAGGAAGGAAGGGGATCAAAACATCATCACTCTCAACTCGACACTGACTGAGTTTTCTTCTCCCTGGTCTGTAACAGTGCTTGGATTCT
CGAGTGTTCTTTAGCTTTGTGTGTGTGTGTCTTACCCTCCCCAAGCCCATCAAGGTATCAGGTTTCTTGAAAACAAGGCTCTCTTGTTATATATACTCTA
GCATCTTCTTGAAAATGGCTTCCTGAAAAGTCTTTTATTATCTTTCTCCAGCATCTCGAAGGCTTTTGGCAGAGGGCACACTTCCCTCCATTAGTTTCTG
TTCAAATATTCAAAAATAATTTTTTAAACTGAAAAAAGACCAATAACCATCTGTTGAACTTGTATACTGTCTAACTCCAGAACCCTGAAGATAGGATTCA
GAGATGCAGCCCCCTGAACACCCAGCTCATTTCTATTGCTTTTTAAACAATTTTTTGTAGAGACGGGGTTGCACCATGTTTTGAACTTTTGGGCTCAAAC
AATCCTCCTGCCTCGGCCTCCCAAATTGCTGGGATTACAGTTGTGAGCCACCATGCCCAGCTTGGCTCAGGTGTACCTTTCAACCTCCTTATACCCTGAA
AGTATGACTAATTCCAGGCCCCAGGCTAGTGGCTGAAAAGTTACCTGTCTCTAACAGATTTGCTTGGAAAGCTAAACAGCCTCTTTTTGCACAAAATGCT
TCAAAAAGCAGAACAAATTAGCCCTAACTCTGCAGTATACAGTTCAAAAACTGCTCATCCATGCTGAGATGGCTCTAGAGGAAAAAGAGTTCTTCAAAAA
GCCCCCTYACCACAGAGGAGGCTTGTTCCAGGAAATGCCCCATTTAACAGACTCTCAGCTATTGTGAGGACAAAAATGATGTAGACTCACAGCACGAGAC
CTGCCCAGCCCTGTTTGACTTTGCCTGGCCCTGTCCCTTGCCTGTTCTAAGTTTGTCTTCCCTTCTCTATTTTTTTTTTTCTTTTAAGACAGGGTCTCGC
TTTGTTGCTGAGGCAAAAGTGCAGTGGCACAATCTTAGCTTATTACAGCCTCCATCTCCTGGGCCCAAAGCCATCCTCGCACCTCAGCCTCCCGAGTAGC
TGGGACCACAGGTGTGCGCCGCCAAGCCCTGCTAATATTTGCATTTTTTGGAGAGATGGTGTCTCACTATATTGCCCAGGCTGGTCTCGAATTCCTAGGC
TCAAGCAATCCACCTGTCTCGGCCTCCCAAAGTACTGTGATCACAAAGTGCTGGGCCACCATGCCTGGCCCGCTGTTCTTTAGGGATGAAAAATTAACAA
GATCTGCCTCCAGCTACCGTTATTGTACATTTCTTGTAAACCTCAAACAGTGGAATTATTTATCTGCTCATCTGTGGGCAAAGAGTATGAATGTTGTAAA
TCCCTTAATGGTAAAAATATTCAGTCAAAAGCAAATTTGTCAAGGAGACACCATCTTTTTTTGAAATCATTTTTTTAGGTGGTTTCTCAAGTAAGCTTTG
TTGAAATAATAGTAGCAAGCGGCTGGGCGTGGTGGCTCAGGCCTGTAATCCCAGCACTTTAGGAGGCCAAGGTGGGCGGATCACCTGAGGTCAGGAGTTT
GAGACCAGCCTGGCCAACAAGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGGCCGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGA
GGCCAAGGCGGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAGGTTGGTGAAACCCCGTCTCCACTAAAAACACACAAAAAATTAACGAGGC
GCAGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAAACCAGGAGGCAGAGCTTGCAACGAGCCGAGATCACGCCA
CTGGACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGTAGCAAGCACTCAGGAAAACTGAGACACAGAGAGGTTG
AGTAACTTGATCTCATTATTATCATTATTTTAGAGAGGGGGTCTCTGTTGTTTAGGCTGGAGTGCAGTGGTGCAATCACAGCTCACTGCAGCCTTGAACT
GCTGGGCTCAAACAATCCTGTCTCAGCCTCCCAAGCAGCTGGGACTACAGGTGCGCACCACTCACTACCCAGCTAATTCGTTTTCTTTCTTTTTTTTTTT
TTTTTAAAAAAAAGTCTCGCTCTGTCACCCATGCTGGAATGCAATGGCTTGATCTCTCTGCTCACTACAACCTCCGCCTCCCGGGTTCAAGAGATTCTCC
TTTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCACCATGCCCGGTTAATTTTTGTATTTTTAGTAGAGATAGGGTTTTGCCATGTTGGCCAG
GCTGGTCTCGAGCTTCTGACCTCAGGTAATCCACCTGCCTCAGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACTGCACCTGGCCCCAGCTAATTT
TTTAATTGTATTTTTTGTAGACACAGGGTCTCACTATGTTGTCCAAGCTGGTCTCGAACTCCTGGGCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTG
AGCCACTGCACCCGGCCCCAGCTAATTTTTTAATTTTATTTTTTGTAGAGACAGGGTCTCACTATGTTGTTCAAGCTGGTCTTGAACTCTGGGGCTCAGC
CTCCCAAAGTGCTGGGATTACAAGCATGAGCTACTGTGCCCAGCTGCTGCTATCATCATTATTACTTAACAGCCACAGGCAGTTGGGCACCCTGTGTTCC
CTGCCTCTACACCATATTGCCTCTCTCTGTGGCACGTGTGAACAGGAACAGGTCTCCCGAAACACCAAGAAGGGCTCAGACGTAGGCAAGACGCGGTGGC
GAATCACTTGAGGTCAGTAGTTTGAGACCAGCCTGGCCAACATGGTACAATCCCATCTCCATTAAAAATACAAAAAAAAAAAAAAAAAAATAGCTGGGCA
TTGTGGCGCACAACTGTGGTCCCAGCTGCTCAAGAGGCTGAGGCAGGAGAATCATTTGAATCCAGGAGACGGAGGCTGCAGTGAACTGAGATCGCACCAC
TGCACTCCAGCCTGGGCGATAGAGCAAGACATCAAGAGAGAGAGAAAAAAGGAAAGAATGAAAGAAAGAGAGAAAGAAAGAAAGAAAGAAAGAAAGAAAG
AAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGGGAAAGGAAGGGAAAGGAAAGGGAAAGGAAAGAAAAGAAAGAAAATGAAGAGAAGGAAGG
GAAGGAAGGGAAAGAAGAAAGAAGGGAAAGAAATAAAGAAGAGAAAGAAAGAGAGAAAAGAAGGGCTCAGACGTGGTCGAGTATAAAGGTGCTGGCCAGG
CAGTGGCTCATGCCTGTAATTCGAGCACTTTGGAAGGCCGAGGCAAGTGAATCACCTGAGTCCAGGAGTTCGAGACCAGCCTGGGCAACATGGCAAAACC
TCGTCTCCACAAAAAAAAATACAAAAATGAGCTGGGCGTGGTGGCGGGCGCCAGTAGTCCCAGCTACTTTGGAGGCTGAGGTGGGAGGATTGCCTGAGCC
AAGGAGGTCGAGGTTGCAGTGAGCCAAGATCACGCCACTACACTCCAGCCTGGGGTGACAGAGCAAGACCCCGGCTCAAAAAAAAAAAAAAAAAAGTGCT
GCCCTCACGTGCCAGTCATCAGCAGCTTCTGTGTTGCCACCAGCCGCGGGGCCAGCCTGAACACTTGCTTCCTGAACCAGGTCTTTGATCTCCTCGCCAC
CAGAGGTCGCTTTCGCTCCAGTGGAAAGCTCTTCCCTGAAGCAAAGCAGCTGTGGCTTCCACCAAAATCTTGCCAAGTTGGAACTCCATTCAATTTAACG
AGTATTTATTTAAAAGCTGACCTTTAGACTGGGTACTGTGAAGCATTAAAAAGAAAGTGTCAGCTATTCTTAATAGCAGATATCTAATGACAAGGGACAT
CAAAAAGCTGGGGAAAAAAAGCTATGCTGACCAGGTGCAGTGGCTCATGCCTGTAATCCCAACATTTTGAGAGGCCAAGGTGGGAGGATCACTTGAGGCA
GCCAGGAGTTTGGGACCAGCCTGGACAACATGGCGAAACACTCAACTAAAAATAAAAAAACTTAGCCAGGCGTGGTGGTGCATGCCAGTTACTCTGGAGG
CTGAGGCCGGAGGATCACTTGAGCCCTGGGAAGTCGAGGCTGCAGTAAGCTGTGATTGCACCACTACATTCAAGCCGGGGCAACAAAGTGAGACCCTGTC
TTGAAAAAGAAAAAAGAAAAGAAAAGGAAGAAAAGCTATGCAAGTCACTGCAAAAATAATGGAAAGGAACACTGTATAAATGATCGCTATAGTCTGAAAT
AGAGTGTAGACTCATCAGAGGAGGGGCTGTTTGAAACCATAAAGGATAGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
CGGGCAGATCACGAGGTCAGGAGATCGAAACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTACAAATACAAAAAATTAGCCGGGCGTGGTGGCGG
GCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGGATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGTGCCACTGCTCTCCA
ACCTGGGCGACACAGCGAGACTCCTTCTCAAAAAAAAAAAAAAAAAAAAAAAGAAACCATAAAGGATAAATCAGATGGGTTTGGGGTCTATAGGGAGGGA
ATGGCAGGGCATTCCAGAAAACAGCATGAACAAAATCACGAAGGAAAACGTATAGCAGGGCAGATGCAAGGGACACGTGAGAATGAACTCTCAGATCTCC
AGCTGGTTTCAGC


SNP Information

Context             (SEQ ID NO:17225):
GACTGGGGACTCCGGGAAACATCTAAAAGGCTTAAAAACTTTGTCTAACTTCAGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCT
R
AGGCAGGTGGATCACAAGGTCAGGAGTTTGAGACGAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGC
Celera SNP ID:            hCV22275315
SNP Position Genomic:     10618
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,6|G,32)   total(A,14|G,62)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|G,37)   PGA-EUR(EAN-PANEL(A,9|G,31)   total(G,68|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17226):
GCCACCACCACCCCACCCAGCACACCTCCAACCTCAGCCAGACAAGGTTGTTGACACAAGAGAGCCCTCAGGGGCACAGAGAGAGTCTGGACACGTGGGG
G
AGTCAGCCGTGTATCATCGGAGGCGGCCGGGCACATGGCAGGGATGAGGGAAAGACCAAGAGTCCTCTGTTGGGCCCAAGTCCTAGACAGACAAAACCTA
Celera SNP ID:            hCV8515748
SNP Position Genomic:     5465
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:17227):
TTGAATGAAACAATCGCTGGGAAAGCATTAAGAGAATTAAGGCTGGGCACTGTGGCTCATGCCTGTAATCCCAGCACTTTGTGAGGCTGAGGCAGGCAGA
Y
AACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGCAAAACCCTGCTCTCCCAAAAAAATACAAAAATTAGCTGGGCGTGCTGGTGTGCCTGTA
Celera SNP ID:            hCV15956210
SNP Position Genomic:     6661
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   total(C,1|T,47) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:17228):
GACCTGCAGCCTTGGGTCGACCCTGCCCTAGGGGTGACTGCAGGAGAGCAGGGAGGATGGTCAGGCGTCACCAACAACCCCATCACCCAGTAACAAGAAC
Y
TTGACTCTCTCAGTCCCTCTGCATCAAGACACTTACCCATTTCCCACCTCATGCCTGCTAACTTGAATGAAACAATCGCTGGGAAAGCATTAAGAGAATT
Celera SNP ID:            hCV15956211
SNP Position Genomic:     6498
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,39)   total(C,39|T,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:17229):
GGCTCACGCCTCTAATCCTAGCACTTTGAGAGGCCAAGGCGGGCAGATTGCCTGAGCACAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGT
Y
TCTGTCAAAAATACAAAAAATTAGCCAGGTGTGTTGGCGCGTGCCTATAATCCCAGCTGCTCGGGAGGATGAGGTTCAAAGAATCACTTGAACCCGGGAG
Celera SNP ID:            hCV2620930
SNP Position Genomic:     10279
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;PGA-AFRICAN-PANEL(T,10|C,36)   PGA-EUR(EAN-PANEL(T,15|C,31)   total(C,67|T,25)
SNP Type:                 INTRON


Context             (SEQ ID NO:17230):
GGCAGATTGCCTGAGCACAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTGTCAAAAATACAAAAAATTAGCCAGGTGTGTTGGCGC
R
TGCCTATAATCCCAGCTGCTCGGGAGGATGAGGTTCAAAGAATCACTTGAACCCGGGAGGCAGAGGCTGCAGTGAGCTGAGATCATGCCACTGCACTCCA
Celera SNP ID:            hCV2620931
SNP Position Genomic:     10320
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;PGA-AFRICAN-PANEL(A,5|G,41)   PGA-EUR(EAN-PANEL(A,11|G,35)   total(G,76|A,16)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17231):
CCTGTCTCTATTAAAAATACAAAAATTAGCCAGCCGTGGTAGCGAGCGCCTATGATCCCAGCTACTCCGGAGGCTGAGGCCAGAGAATCACATGAACCTG
S
GAGGTGGAGGCTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGGGACAGAGCAAGAATCTGTTTCAAAAAAAAAAAAAGAAAAATAGGAAGG
Celera SNP ID:            hCV26177480
SNP Position Genomic:     14158
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|G,47)   total(G,47|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17232):
TATCCTTGCCCTTGAGTGCTTGTTAGAGAGAAAGAGAACTACTAAGGAAAATAATATTATTTAAACTCGCTCCTAGTGTTTCTTTGTGGTCTGTGTCACC
R
TATCTCAGGAAGTCCAGCCACTTGACTGGCACACACCCCTCCGGACATCCAGCGTGACGGAGCCCACACTGCCACCTTGTGGCCGCCTGAGACCCTCGCG
Celera SNP ID:            hCV11987148
SNP Position Genomic:     17375
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(A,-|G,-)   PGA-AFRICAN-PANEL(A,2|G,44)   PGA-EUR(EAN-PANEL(A,10|G,36)   total(G,80|A,12)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17233):
GAGGCCAAGGCGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTATTAAAAATACAAAAATTAGCCAGC
Y
GTGGTAGCGAGCGCCTATGATCCCAGCTACTCCGGAGGCTGAGGCCAGAGAATCACATGAACCTGGGAGGTGGAGGCTGCAGTGAGCCGAGATCACGCCA
Celera SNP ID:            hCV26177481
SNP Position Genomic:     14092
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;PGA-AFRICAN-PANEL(T,23|C,25)   PGA-EUR(EAN-PANEL(T,14|C,30)   total(C,55|T,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:17234):
TGCACTCCAGCCTGGGTGACAGAGCAAGACTTTGTCTCCAAAAAAAGGAACTAGACGGGTTCATTTAAACCCCTGACTGCAGCCCTTTGACATACATCCA
R
TTGAGGACTGGGGACTCCGGGAAACATCTAAAAGGCTTAAAAACTTTGTCTAACTTCAGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGG
Celera SNP ID:            hCV2620932
SNP Position Genomic:     10512
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;PGA-AFRICAN-PANEL(G,11|A,29)   PGA-EUR(EAN-PANEL(G,10|A,36)   total(G,21|A,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:17235):
TCCTGGCCTGGCCATCTCCCTCCCCAGAAACAGTGTGCATGGGTTATTTTGGAGTGTAGGTGACTTGTTTACTCATTGAAGCAGATTTCTGCTTCCTTTT
W
TTTTTATAGGAATAGAGGAAGAAATGTCAGATGCGTGCCCAGCTCTTCACCCCCCAATCTCTTGGTGGGGAGGGGTGTACCTAAATATTTATCATATCCT
Celera SNP ID:            hCV11987149
SNP Position Genomic:     17180
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17236):
GGGGAGGCCAAGGCGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTATTAAAAATACAAAAATTAGCC
R
GCCGTGGTAGCGAGCGCCTATGATCCCAGCTACTCCGGAGGCTGAGGCCAGAGAATCACATGAACCTGGGAGGTGGAGGCTGCAGTGAGCCGAGATCACG
Celera SNP ID:            hCV26177482
SNP Position Genomic:     14089
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;PGA-AFRICAN-PANEL(G,23|A,25)   PGA-EUR(EAN-PANEL(G,14|A,30)   total(G,37|A,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:17237):
GCCCAGCTCTTCACCCCCCAATCTCTTGGTGGGGAGGGGTGTACCTAAATATTTATCATATCCTTGCCCTTGAGTGCTTGTTAGAGAGAAAGAGAACTAC
Y
AAGGAAAATAATATTATTTAAACTCGCTCCTAGTGTTTCTTTGTGGTCTGTGTCACCGTATCTCAGGAAGTCCAGCCACTTGACTGGCACACACCCCTCC
Celera SNP ID:            hCV15825683
SNP Position Genomic:     17317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17238):
TCTCAAAACAAACAAACAAACAAACAAAATACAGAAGCTGAGGCGGGAGGAACATTTGAACCGGATTCGGAGGCTGCAGTGAGCTATGATTGCACCACTG
Y
GCTCCAGTCTGTGTGACAGTGAGACCCTGTCTCTTACACACACACACACACACACACACACACATGCACACACACAGAGAGAGAGAAATTAGAAGATACT
Celera SNP ID:            hCV26177483
SNP Position Genomic:     12435
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17239):
TCTATTGAACCCGGGAGGGGGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCTTCTCAAAACAAACAAAC
R
AACAAACAAAATACAGAAGCTGAGGCGGGAGGAACATTTGAACCGGATTCGGAGGCTGCAGTGAGCTATGATTGCACCACTGCGCTCCAGTCTGTGTGAC
Celera SNP ID:            hCV26177484
SNP Position Genomic:     12352
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17240):
CGTGCCCAGCTCTTCACCCCCCAATCTCTTGGTGGGGAGGGGTGTACCTAAATATTTATCATATCCTTGCCCTTGAGTGCTTGTTAGAGAGAAAGAGAAC
Y
ACTAAGGAAAATAATATTATTTAAACTCGCTCCTAGTGTTTCTTTGTGGTCTGTGTCACCGTATCTCAGGAAGTCCAGCCACTTGACTGGCACACACCCC
Celera SNP ID:            hCV15825684
SNP Position Genomic:     17314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17241):
AGCAAGACCCTGCCTCTACAAAAAAAAAATTTTTTTTAATTAGCCAGGCTTGGTGACATGCATCTGTAGTCTACTCAAGAAGCTGAGGTGAGGCCAGGCA
Y
GGTGGCTCACGCCTGTATTCCCAGCACTTTGGGAGGTCAAGGCGGGTGGATGACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCC
Celera SNP ID:            hCV26177485
SNP Position Genomic:     12067
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;PGA-AFRICAN-PANEL(T,23|C,25)   PGA-EUR(EAN-PANEL(T,15|C,31)   total(C,56|T,38)
SNP Type:                 INTRON


Context             (SEQ ID NO:17242):
CCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAGCCCGGGAGGTGGAGGTTGCAGTGAGCCGAACGAAATTGAGCCACTTCACCCCAGCCTGGGC
R
AAAGAGTGAAATTCCATTCAAAAAAAAAAAAAAAAAAAAAGGATGAGGACTGGGATGAACTGGTGGCTGGGTGTGGGGAAAATGGAAGTGAAGGAAGGCC
Celera SNP ID:            hCV26177486
SNP Position Genomic:     11752
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;PGA-AFRICAN-PANEL(G,22|A,24)   PGA-EUR(EAN-PANEL(G,15|A,29)   total(G,37|A,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:17243):
GGGATACCCAAAAGCCAAGAGCGAGAGAGAGCCTGGCTTCCAGAAATAGTGGAGAAGCCAGGAGAACTAGGTGAAAACCCAGTGCTGGGTTGCCATCAGC
R
AGAGCTGGAGCCATTTCCAACGAACCATCTTGTCGTCTTCACAGCTGAGTTCACCACGCCCGATGGCCATTACTACGACATCCTGGAACTGCCCTACCAC
Celera SNP ID:            hCV2620938
SNP Position Genomic:     12696
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,6)   caucasian(A,13|G,13)   total(A,23|G,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;(A,-|G,-)   PGA-AFRICAN-PANEL(A,22|G,24)   PGA-EUR(EAN-PANEL(A,14|G,30)   total(G,54|A,36)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17244):
CTGCCCAAGTAAGCCACCCCGCTATCTCCCCGACCTACCAACCCCTCTCTCCTGGCTCCCTAAAGTCACCGCCCCCAGGTTGAATTTCCCAGATCTGTGA
Y
GCTTGCAGGACATGCATGTGTGGGAGGCTGATGGGAAACTGTGGCCTGGGTTTGATTATGAGTCTTGCAATCATCCCTCCCCCTGTTTCTGCTGGAGGGC
Celera SNP ID:            hCV2620939
SNP Position Genomic:     13032
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,18)   caucasian(C,17|T,21)   total(C,37|T,39)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;PGA-AFRICAN-PANEL(C,23|T,25)   PGA-EUR(EAN-PANEL(C,15|T,31)   total(C,38|T,56)   (C,-|T,-)   JBIC-allele(T,620|C,881)   total(C,881|T,620)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17245):
TGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAGTCCAGCAGTTCAAGGCTGCAGTGAGCTATGTTTGCACCACCACACTCCAGCCTG
R
GTCACAGAACAAGACCTCATCTCTAAAAAACAAACAAAAACCAAATCCACATATCCTAAAAAATGCTCCTTTTCAGCATTCTCTTCTCTATGGACAAAGG
Celera SNP ID:            hCV26177488
SNP Position Genomic:     10038
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   PGA-AFRICAN-PANEL(G,5|A,33)   PGA-EUR(EAN-PANEL(G,11|A,31)   total(G,16|A,64)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17246):
CTCTACTAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGG
M
GGCAGAGCTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGAGAGACTCCGTCTCAAAAAAAAAAAATAAAAGAATTCATGGAA
Celera SNP ID:            hCV26177489
SNP Position Genomic:     8193
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|A,47)   total(A,47|C,1) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:17247):
TTGGAGTGTAGGTGACTTGTTTACTCATTGAAGCAGATTTCTGCTTCCTTTTATTTTTATAGGAATAGAGGAAGAAATGTCAGATGCGTGCCCAGCTCTT
M
ACCCCCCAATCTCTTGGTGGGGAGGGGTGTACCTAAATATTTATCATATCCTTGCCCTTGAGTGCTTGTTAGAGAGAAAGAGAACTACTAAGGAAAATAA
Celera SNP ID:            hCV15956329
SNP Position Genomic:     17228
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|C,44)   total(A,2|C,44) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17248):
CCTGTAATCCCAGCCCAACACTTTGGGAGGTCTAGGCGAGAGGAAGGCTTGAGGCCTGGAGTTTGAGACCAGCCTGGCCAACATAACAAGACCTCATCTC
Y
TCAAAAAATTTAAAAACCAGCCGGGCATGGTGGTGCACACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAGTCCAGCAGTTCAA
Celera SNP ID:            hCV15956257
SNP Position Genomic:     9896
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,38)   total(C,2|T,38) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17249):
GGGAAGGGAGATGGACTGGATTCCAAGATTCCCACAGGGCAAGATGGGCGAAGACTCCCTGCCACTGCCCGGGGATAAGTCAGTCTGAGTGAGACGGAGT
R
GGATGGGCTTAGAACCTGAACATGTCATGGTCTCTTCCTGCACCTTGCCCTAGTGTTCACTTACCACCTGCTTGCAGGAAACAAGAAGAGCAGGGCCCAC
Celera SNP ID:            hCV15956185
SNP Position Genomic:     7253
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:17250):
ACTCAGATGAGGACAGAGTGGTTTCCAATGTGTTCAATAGATTTAGGAGCAGAAATGCAAGGGGCTGCATGACCTACCAGGACAGAACTTTCCCCAATTA
Y
AGGGTGACTCACAGCCGCATTGGTGACTCACTTCAATGTGTCATTTCCGGCTGCTGTGTGTGAGCAGTGGACACGTGAGGGGGGGGTGGGTGAGAGAGAC
Celera SNP ID:            hCV15956364
SNP Position Genomic:     17678
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:17251):
CTGTTTCTCAGCCTGGAAAACGGGCTTGGGACCATGGAACCCTGTTTCCTCGCCTGATGGCTCCTAAGTTCCCTGACTGTGAAAAGGCCTCCTAAAGAAA
R
ACCCAAGTTGTTCCCACAGTGGGAAGTAAACTTAAGAAACATGCTTATCAGGCTGGGCATGGTGGCTCCCACCTGTAATCCCAGCGCTTTGGGGGACCAA
Celera SNP ID:            hCV15956259
SNP Position Genomic:     15080
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,7|A,39)   total(G,7|A,39) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17252):
AAGAGAGAGAAAGAGAGAGAGGAAAGAAGGAAGGAAGTAAAGAAGAAAGAAAGAAAGAAAGAGGAAAGAGGAAGAAAGAAAGAAAAGAAAGAAAAGAAAA
K
AAAGCAAATTTAAAGCTTATGCAAATCAAAGATGTTGTGATAATTGATAATTGAGTCTGGGCTAAATTCCCCCTGGGCTGCAAAGGCAGAGAGTGGTAAT
Celera SNP ID:            hCV15956186
SNP Position Genomic:     7006
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|G,43)   total(G,43|T,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:17253):
GCAGGACATGCATGTGTGGGAGGCTGATGGGAAACTGTGGCCTGGGTTTGATTATGAGTCTTGCAATCATCCCTCCCCCTGTTTCTGCTGGAGGGCAGGG
R
ACAGCTCTTCCTGACCACACCCCCACATTGACTATCCCCAGAATACCCAGCAAAAGCCCCCAAAAGGAGAGTCAGAGAAATGAGGGAGGTGGGGGCCCAA
Celera SNP ID:            hCV15956365
SNP Position Genomic:     13137
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17254):
GAGAGAGAGCCTGGCTTCCAGAAATAGTGGAGAAGCCAGGAGAACTAGGTGAAAACCCAGTGCTGGGTTGCCATCAGCGAGAGCTGGAGCCATTTCCAAC
R
AACCATCTTGTCGTCTTCACAGCTGAGTTCACCACGCCCGATGGCCATTACTACGACATCCTGGAACTGCCCTACCACGGGGACACCCTCAGCATGTTCA
Celera SNP ID:            hCV15956366
SNP Position Genomic:     12718
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17255):
GGCAGCATAGCAAGACCCTGCCTCTACAAAAAAAAAATTTTTTTTAATTAGCCAGGCTTGGTGACATGCATCTGTAGTCTACTCAAGAAGCTGAGGTGAG
S
CCAGGCACGGTGGCTCACGCCTGTATTCCCAGCACTTTGGGAGGTCAAGGCGGGTGGATGACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGG
Celera SNP ID:            hCV15956295
SNP Position Genomic:     12059
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|G,46)   PGA-EUR(EAN-PANEL(C,1|G,45)   total(G,91|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17256):
AGCCTCACATGTCCTCTCCTCTCTGTCCCGGTGCAGACAAGGGCATGGCCCCCGCCCTCCGGCATCTGTACAAGGAGCTCATGGGGCCATGGAACAAGGA
Y
GAGATCAGCACCACAGACGCGATCTTCGTCCAGCGGGATCTGAAGCTGGTCCAGGGCTTCATGCCCCACTTCTTCAGGCTGTTCCGGAGCACGGTCAAGC
Celera SNP ID:            hCV27468466
SNP Position Genomic:     9529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:17257):
TTGAACCTGGGAGGCGGAGGATGCAGTGAGCCAAGATCACACCTCCGCACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAA
A
GGCGGTGGAGACACCCAGCACTGGTTCCCTCCTAGAGAAGGGGAGAGAGCCGAGCCCAAACACAGGCTATTTTTGGAGTTGTGTTGTTTGGAGAGCAACC
Celera SNP ID:            hCV8515796
SNP Position Genomic:     929
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17258):
CCAAGCTCCTGGAGGAAACCAGGTCTCAGAGGATGTCCCTAAACTTTTAAGGTTCATATTCAGGAAAACAAACAACTTCCAGCTGGGCTTAGTGGCTCAC
W
CCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGAGGATCGCTTGAGCCCAGGAATTTGAGACCAGCCTGGGCAATATAATGAGACTGTGTCTCTACAA
Celera SNP ID:            hCV22274921
SNP Position Genomic:     15701
SNP Source:               Applera
Population(Allele,Count): african american(A,19|T,17)   caucasian(A,22|T,18)   total(A,41|T,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:17259):
CGGATCATGAGGTCAGGAGATCAAGACCATCCTGGCTAACACAGTGAAACTCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGCAGGC
R
CCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGCAGAGCTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCC
Celera SNP ID:            hCV26177490
SNP Position Genomic:     8138
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:17260):
CAACATTCTGAGTGCCCAGCTCATCAGCCACTGGAAAGGCAACATGACCAGGCTGCCCCGCCTCCTGGTTCTGCCCAAGTAAGCCACCCCGCTATCTCCC
Y
GACCTACCAACCCCTCTCTCCTGGCTCCCTAAAGTCACCGCCCCCAGGTTGAATTTCCCAGATCTGTGATGCTTGCAGGACATGCATGTGTGGGAGGCTG
Celera SNP ID:            hCV25649410
SNP Position Genomic:     12962
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17261):
CGGGCGGATCATGAGGTCAGGAGATCAAGACCATCCTGGCTAACACAGTGAAACTCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGC
R
GGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGCAGAGCTTGCAGTGAGCTGAGATCGTGCCACTGCACTCC
Celera SNP ID:            hCV26177491
SNP Position Genomic:     8134
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,2|A,44)   total(G,2|A,44) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:17262):
GCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACAAGGTCAGGAGTTTGAGACGAGCCTGACCAACATGGTGAAACCCCGTCTC
Y
ACTAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGCGCCTGTAATCCCAGCTATTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCCGGAGACAGA
Celera SNP ID:            hCV25649411
SNP Position Genomic:     10684
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:17263):
TGACACGGCTGGTGCTGGTGAATGCCCTCTACTTCAACGGCCAGTGGAAGACTCCCTTCCCCGACTCCAGCACCCACCGCCGCCTCTTCCACAAATCAGA
Y
GGCAGCACTGTCTCTGTGCCCATGATGGCTCAGACCAACAAGTTCAACTATAGTAAGTCCAAGAGCCCCTTCCCCACAGCCCACAGCAACTGCATCTCAT
Celera SNP ID:            hCV15956223
SNP Position Genomic:     11064
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34|T,2)   total(C,71|T,3)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:17264):
TTCATGAGCCGGGCGCGGTGGCTCAAACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCATGAGGTCAGGAGATCAAGACCATCCTGGC
Y
AACACAGTGAAACTCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGA
Celera SNP ID:            hCV26177492
SNP Position Genomic:     8074
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,41)   PGA-EUR(EAN-PANEL(C,1|T,45)   total(C,2|T,86) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:17265):
GAGTTTGAGACGAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGCGCCTGTAATCCCAGCTATT
Y
GGGAGGCTGAGGCAGGAGAATTGCTTGAACCCCGGAGACAGAGGTTGCAGCGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGCAATAGAGTGAGACTC
Celera SNP ID:            hCV25649412
SNP Position Genomic:     10742
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,38)   total(C,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:17266):
GCTGTCCTAAAGAATTCATGAGCCGGGCGCGGTGGCTCAAACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCATGAGGTCAGGAGATC
R
AGACCATCCTGGCTAACACAGTGAAACTCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGG
Celera SNP ID:            hCV26177493
SNP Position Genomic:     8060
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,3|A,39)   total(G,3|A,39) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:17267):
ACCTGAGACCCTGGGAGAGAAGTTTGAAGCACAACTCCCTTAAGGTCTCCAAACCAGACGGTGACGCCTGCGGGACCATCTGGGGCACCTGCTTCCACCC
R
TCTCTCTGCCCACTCGGGTCTGCAGACCTGGTTCCCACTGAGGCCCTTTGCAGGACGGAACTACGGGGCTTACAGGAGCTTTTGTGTGCCTGGTAGAAAC
Celera SNP ID:            hCV15956330
SNP Position Genomic:     16788
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17268):
TGCTGTCCTAAAGAATTCATGAGCCGGGCGCGGTGGCTCAAACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCATGAGGTCAGGAGAT
Y
AAGACCATCCTGGCTAACACAGTGAAACTCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGG
Celera SNP ID:            hCV26177494
SNP Position Genomic:     8059
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|C,39)   total(C,39|T,3) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:17269):
TCCCCAGACCCGGAAAGGACCCCGCAGCCCTCTCGGCACAGAGCAGCTCTGTCTGTGCTCAGCCATCACCCACTCCCCACCTGTTTCTCAGCCTGGAAAA
Y
GGGCTTGGGACCATGGAACCCTGTTTCCTCGCCTGATGGCTCCTAAGTTCCCTGACTGTGAAAAGGCCTCCTAAAGAAAAACCCAAGTTGTTCCCACAGT
Celera SNP ID:            hCV2620946
SNP Position Genomic:     15000
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,23|T,1)   total(C,59|T,1)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;(C,-|T,-)   PGA-AFRICAN-PANEL(T,9|C,35)   PGA-EUR(EAN-PANEL(T,5|C,35)   total(C,70|T,14)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17270):
GAAAAGAATTTTAGTGTTAATGACTCTTTCTGAAGGAAGAGAAGACATTTGCCTTTTGTTAAAAGATGGTAAACCAGATCTGTCTCCAAGACCTTGGCCT
Y
TCCTTGGAGGACCTTTAGGTCAAACTCCCTAGTCTCCACCTGAGACCCTGGGAGAGAAGTTTGAAGCACAACTCCCTTAAGGTCTCCAAACCAGACGGTG
Celera SNP ID:            hCV15956331
SNP Position Genomic:     16650
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17271):
GCCCATCTACAAAATGAGGATTATTTGCTGTCCTAAAGAATTCATGAGCCGGGCGCGGTGGCTCAAACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGG
M
GGGCGGATCATGAGGTCAGGAGATCAAGACCATCCTGGCTAACACAGTGAAACTCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGCA
Celera SNP ID:            hCV26177495
SNP Position Genomic:     8034
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|C,45)   total(A,1|C,45) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:17272):
GACGGTGACGCCTGCGGGACCATCTGGGGCACCTGCTTCCACCCGTCTCTCTGCCCACTCGGGTCTGCAGACCTGGTTCCCACTGAGGCCCTTTGCAGGA
Y
GGAACTACGGGGCTTACAGGAGCTTTTGTGTGCCTGGTAGAAACTATTTCTGTTCCAGTCACATTGCCATCACTCTTGTACTGCCTGCCACCGCGGAGGA
Celera SNP ID:            hCV2620947
SNP Position Genomic:     16844
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   ;(C,-|T,-)   POOLE|_CEPH(T,91|C,97)   total(C,97|T,91)   PGA-AFRICAN-PANEL(C,19|T,23)   PGA-EUR(EAN-PANEL(C,14|T,28)   total(C,33|T,51)   JBIC-allele(T,617|C,876)   total(C,876|T,617)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17273):
GTTTGCCCATCTACAAAATGAGGATTATTTGCTGTCCTAAAGAATTCATGAGCCGGGCGCGGTGGCTCAAACGCCTGTAATCCCAGCACTTTGGGAGGCC
V
AGGCGGGCGGATCATGAGGTCAGGAGATCAAGACCATCCTGGCTAACACAGTGAAACTCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGCGTGGT
Celera SNP ID:            hCV26177496
SNP Position Genomic:     8030
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|C,2|A,39)   total(G,1|A,39|C,2) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:17274):
TCTTTCCCTGCCAGCTGTGAGAAAACAAAGCCTAAGGCAGATTAAAAAGCAGGAGGGCTGCTCAGTGTGGTTGCCCTTGGTATCTGTTTACTGAAAAAAT
Y
CAAAACAAACATCCGACGCTTCCACCCACTGAAACTTCCTGTGACTCTGCTATCAGCTGTTGCCATGGATTCTCCCAACTGAACCCCACCACATACACTA
Celera SNP ID:            hCV15825696
SNP Position Genomic:     3982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:17275):
GCACCTGTAGCCCCAGTTACTTGGGAGACTGAGGTGGGAGGATCACTTGAGCCCATGAGTTCAAGGCTGCAGTGAGCCATGAAGGTGCCACTGCACTCCC
R
CCTGGGCGACAGAGGGAGACCCTGTCTCTAAGAAAAACGGCGGGGGTGGGGGTGGTGCCAGTGCCAGCATCCCTCTGTTCTAAGACATTGTCCCTTCTCT
Celera SNP ID:            hCV22274928
SNP Position Genomic:     15936
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,28)   caucasian(A,6|G,34)   total(A,14|G,62)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|G,42)   PGA-EUR(EAN-PANEL(A,11|G,35)   total(G,77|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17276):
AGAAACAGTGTGCATGGGTTATTTTGGAGTGTAGGTGACTTGTTTACTCATTGAAGCAGATTTCTGCTTCCTTTTATTTTTATAGGAATAGAGGAAGAAA
K
GTCAGATGCGTGCCCAGCTCTTCACCCCCCAATCTCTTGGTGGGGAGGGGTGTACCTAAATATTTATCATATCCTTGCCCTTGAGTGCTTGTTAGAGAGA
Celera SNP ID:            hCV2620948
SNP Position Genomic:     17205
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   POOLE|_CEPH(T,77|G,111)   total(G,111|T,77)PGA-AFRICAN-PANEL(G,21|T,25)   PGA-EUR(EAN-PANEL(G,15|T,31)   total(G,36|T,56)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:17277):
GAAGAAAAGAAAGAAAGAAAGAGAGAGAGAGAGAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAG
A
AAGAAAGAGAAGAAAAGAAAAGAAAGAGCTTATCAATAAGCCCTTAAAGGATTTAGATAAATGTGTGTAAGGGAAGAGCTGATCCATTGCTACCAAGCTC
Celera SNP ID:            hCV27394409
SNP Position Genomic:     15508
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17278):
GAACCCTCAATTCAGCATAAGCCTCACATGTCCTCTCCTCTCTGTCCCGGTGCAGACAAGGGCATGGCCCCCGCCCTCCGGCATCTGTACAAGGAGCTCA
Y
GGGGCCATGGAACAAGGATGAGATCAGCACCACAGACGCGATCTTCGTCCAGCGGGATCTGAAGCTGGTCCAGGGCTTCATGCCCCACTTCTTCAGGCTG
Celera SNP ID:            hCV25649419
SNP Position Genomic:     9510
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17279):
GAACTTCAGGTAGGAGAAAAGCAAACTCCCTCCAACCTCTTACTTCGGGCTTAAGGCAGAGAACTCGCCTCCCCAGAATCTCCTCCCTCCATGATCCCCC
R
CTATTCCTCTATTTTCTTTTCCTCGGACCTGCAGCCTTGGGTCGACCCTGCCCTAGGGGTGACTGCAGGAGAGCAGGGAGGATGGTCAGGCGTCACCAAC
Celera SNP ID:            hCV15956088
SNP Position Genomic:     6372
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|G,35)   total(G,35|A,3) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:17280):
TGGCTCAGGTGAGGCTCCACGGGTGTCGCCTCCATCGCCCTTCAGGATAACTGGTCCCCAGACCCGGAAAGGACCCCGCAGCCCTCTCGGCACAGAGCAG
Y
TCTGTCTGTGCTCAGCCATCACCCACTCCCCACCTGTTTCTCAGCCTGGAAAACGGGCTTGGGACCATGGAACCCTGTTTCCTCGCCTGATGGCTCCTAA
Celera SNP ID:            hCV15956269
SNP Position Genomic:     14946
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,7|C,37)   total(C,37|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17281):
GGGAGGATTGCTTCAGCTGGGGAGGCGGAGGCTGCAGGGAGCCAAGACTGAGCCATTGCACCCAGCCTGGGTGACAGAGCAAGACCCTGTCTCTAAAAAT
R
AATGAAAGGAAGGAAGAAAGAGAGAGAAAGAGAGAGAGGAAAGAAGGAAGGAAGTAAAGAAGAAAGAAAGAAAGAAAGAGGAAAGAGGAAGAAAGAAAGA
Celera SNP ID:            hCV15956197
SNP Position Genomic:     6888
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:17282):
TCTCCCAAAAAAATACAAAAATTAGCTGGGCGTGCTGGTGTGCCTGTATTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTTCAGCTGGGGAGGC
R
GAGGCTGCAGGGAGCCAAGACTGAGCCATTGCACCCAGCCTGGGTGACAGAGCAAGACCCTGTCTCTAAAAATGAATGAAAGGAAGGAAGAAAGAGAGAG
Celera SNP ID:            hCV15956198
SNP Position Genomic:     6814
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:17283):
AATGACTGGGTGAAGACACACACAAAAGGTGAGCAGGCAGGGAAAGGAAACCCATTTCCTGGGCCTCAAGAGAAAGGGAATTTGGAAATAAATCCACATA
W
CCCAGTTGGGTGCAGTAGTTCACACCTGTAATCCCAGCCCAACACTTTGGGAGGTCTAGGCGAGAGGAAGGCTTGAGGCCTGGAGTTTGAGACCAGCCTG
Celera SNP ID:            hCV15956376
SNP Position Genomic:     9771
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,2|T,40)   total(A,2|T,40) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17284):
CTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGCGCCTGTAATCCCAGCTATTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCCGGAGA
Y
AGAGGTTGCAGCGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGCAATAGAGTGAGACTCCATCTCAAAACAACAACAACAACAACAACAACAAAATCG
Celera SNP ID:            hCV22275510
SNP Position Genomic:     10781
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,33|T,1)   total(C,64|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:17285):
CTTTCTTTCTTTTTTGATTTTGCACTGGACGGTGACGTCAGCCATGTACAGGATCCACAGGGGTGGTGTCAAATGCTATTGAAATTGTGTTGAATTGTAT
R
CTTTTTCACTTTTGATAAATAAACATGTAAAAATGTTTCAAAAAAATAATAAAATAAATAAATACGAAGAATATGTCAGGACAGTCACTGCCTTCACCTT
Celera SNP ID:            hCV7610269
SNP Position Genomic:     18229
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   ;PGA-AFRICAN-PANEL(A,12|G,36)   PGA-EUR(EAN-PANEL(A,10|G,36)   total(G,72|A,22)
SNP Type:                 UTR 3


Context             (SEQ ID NO:17286):
AAGAAGAGAGAGAGAAAGAAAGAGAGAGAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGGAAAGAA
R
GAACGAACGAACCAGGCCTCCCTCTCCAACCTTCACCTCCGTCCCTATTCTGGCCACTTGATTCGGGGGACACCTGGTAGGGGATGGGGAAAGGTGGGAG
Celera SNP ID:            hCV11572464
SNP Position Genomic:     14378
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;PGA-AFRICAN-PANEL(G,2|A,42)   PGA-EUR(EAN-PANEL(G,5|A,41)   total(G,7|A,83)
SNP Type:                 INTRON


Context             (SEQ ID NO:17287):
TGAAGAAAAGAAAGAAAGAAAGAGAGAGAGAGAGAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGA
G
AAAGAAAGAGAAGAAAAGAAAAGAAAGAGCTTATCAATAAGCCCTTAAAGGATTTAGATAAATGTGTGTAAGGGAAGAGCTGATCCATTGCTACCAAGCT
Celera SNP ID:            hCV27394410
SNP Position Genomic:     15507
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17288):
TCATAGTCTCAGCCCGCATGGCCCCCGAGGAGATCATCATGGACAGACCCTTCCTCTTTGTGGTCCGGCACAACCCCACAGGTGAGCCTGGAACCCATCA
Y
GTTCCACATCCTCCCACCCATTCTTTCTCTCAGGAACTAGTCCCGACAGATGCAGACATCCCTCTATCCCTGAGAGGGCTCTGGGCAGGGAACCCATAAC
Celera SNP ID:            hCV11987166
SNP Position Genomic:     16145
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17289):
GCAGAACAAATTAGCCCTAACTCTGCAGTATACAGTTCAAAAACTGCTCATCCATGCTGAGATGGCTCTAGAGGAAAAAGAGTTCTTCAAAAAGCCCCCT
Y
ACCACAGAGGAGGCTTGTTCCAGGAAATGCCCCATTTAACAGACTCTCAGCTATTGTGAGGACAAAAATGATGTAGACTCACAGCACGAGACCTGCCCAG
Celera SNP ID:            hCV2620951
SNP Position Genomic:     20208
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:17290):
ACTCTGAAGAAAAGAAAGAAAGAAAGAGAGAGAGAGAGAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGA
A
AGAGAAAGAAAGAGAAGAAAAGAAAAGAAAGAGCTTATCAATAAGCCCTTAAAGGATTTAGATAAATGTGTGTAAGGGAAGAGCTGATCCATTGCTACCA
Celera SNP ID:            hCV27394411
SNP Position Genomic:     15503
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17291):
GACTCTGAAGAAAAGAAAGAAAGAAAGAGAGAGAGAGAGAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAG
A
AAGAGAAAGAAAGAGAAGAAAAGAAAAGAAAGAGCTTATCAATAAGCCCTTAAAGGATTTAGATAAATGTGTGTAAGGGAAGAGCTGATCCATTGCTACC
Celera SNP ID:            hCV27394412
SNP Position Genomic:     15502
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17292):
AAGGGGGATTGCTTGAGGCCAGAAGTTGAATACCAGTCTGGGCAGCATAGCAAGACCCTGCCTCTACAAAAAAAAAATTTTTTTTAATTAGCCAGGCTTG
K
TGACATGCATCTGTAGTCTACTCAAGAAGCTGAGGTGAGGCCAGGCACGGTGGCTCACGCCTGTATTCCCAGCACTTTGGGAGGTCAAGGCGGGTGGATG
Celera SNP ID:            hCV15956305
SNP Position Genomic:     12019
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,6|G,42)   total(G,42|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17293):
GGGGACAGAGCAAGAATCTGTTTCAAAAAAAAAAAAAGAAAAATAGGAAGGAAGGAAGGAAAGGAAAGGAAAGAAGAGAGAGAGAAAGAAAGAGAGAGAA
G
AAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGGAAAGAAAGAACGAACGAACCAGGCCTCCCTCTCCAAC
Celera SNP ID:            hCV27394413
SNP Position Genomic:     14308
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,4)   total(G,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17294):
GGGAAAGGAGCCGTGGACCAGCTGACACGGCTGGTGCTGGTGAATGCCCTCTACTTCAACGGCCAGTGGAAGACTCCCTTCCCCGACTCCAGCACCCACC
R
CCGCCTCTTCCACAAATCAGACGGCAGCACTGTCTCTGTGCCCATGATGGCTCAGACCAACAAGTTCAACTATAGTAAGTCCAAGAGCCCCTTCCCCACA
Celera SNP ID:            hCV15956233
SNP Position Genomic:     11042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17295):
ATCCCAGCACTTTGGGAGGCTGAGAAGGGGGATTGCTTGAGGCCAGAAGTTGAATACCAGTCTGGGCAGCATAGCAAGACCCTGCCTCTACAAAAAAAAA
W
TTTTTTTTAATTAGCCAGGCTTGGTGACATGCATCTGTAGTCTACTCAAGAAGCTGAGGTGAGGCCAGGCACGGTGGCTCACGCCTGTATTCCCAGCACT
Celera SNP ID:            hCV15956306
SNP Position Genomic:     11995
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|A,46)   PGA-EUR(EAN-PANEL(T,9|A,33)   total(A,79|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17296):
GGGGGACAGAGCAAGAATCTGTTTCAAAAAAAAAAAAAGAAAAATAGGAAGGAAGGAAGGAAAGGAAAGGAAAGAAGAGAGAGAGAAAGAAAGAGAGAGA
A
GAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGGAAAGAAAGAACGAACGAACCAGGCCTCCCTCTCCAA
Celera SNP ID:            hCV27394414
SNP Position Genomic:     14307
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17297):
TGAACCCGGGAGGCAGAGGCTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTTTGTCTCCAAAAAAAGGAACTAGAC
R
GGTTCATTTAAACCCCTGACTGCAGCCCTTTGACATACATCCAATTGAGGACTGGGGACTCCGGGAAACATCTAAAAGGCTTAAAAACTTTGTCTAACTT
Celera SNP ID:            hCV15956234
SNP Position Genomic:     10468
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,43)   PGA-EUR(EAN-PANEL(A,2|G,44)   total(G,87|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17298):
TGGGGGACAGAGCAAGAATCTGTTTCAAAAAAAAAAAAAGAAAAATAGGAAGGAAGGAAGGAAAGGAAAGGAAAGAAGAGAGAGAGAAAGAAAGAGAGAG
R
AGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAGGAAAGAAAGAACGAACGAACCAGGCCTCCCTCTCCA
Celera SNP ID:            hCV27394415
SNP Position Genomic:     14306
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|-,4)   total(G,1|A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17299):
CCAACATGGTGAAACCCTGTCTCTGTCAAAAATACAAAAAATTAGCCAGGTGTGTTGGCGCGTGCCTATAATCCCAGCTGCTCGGGAGGATGAGGTTCAA
R
GAATCACTTGAACCCGGGAGGCAGAGGCTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTTTGTCTCCAAAAAAAGG
Celera SNP ID:            hCV15956235
SNP Position Genomic:     10359
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,45)   total(G,1|A,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17300):
TTCGGAGGCTGCAGTGAGCTATGATTGCACCACTGCGCTCCAGTCTGTGTGACAGTGAGACCCTGTCTCTTACACACACACACACACACACACACACACA
Y
GCACACACACAGAGAGAGAGAAATTAGAAGATACTGAATTGGCAGAAGAGAAGGGAAATAGAAATTAAAATACTGAATAGGGGAGCAGTGAACAGGGGAT
Celera SNP ID:            hCV27394416
SNP Position Genomic:     12500
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17301):
CTGGGACAAAACTGGAGATGCATCGGGAAAGAAGAAACTCCGAAGAAAAGAATTTTAGTGTTAATGACTCTTTCTGAAGGAAGAGAAGACATTTGCCTTT
Y
GTTAAAAGATGGTAAACCAGATCTGTCTCCAAGACCTTGGCCTCTCCTTGGAGGACCTTTAGGTCAAACTCCCTAGTCTCCACCTGAGACCCTGGGAGAG
Celera SNP ID:            hCV15956341
SNP Position Genomic:     16606
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,36)   total(C,2|T,70)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   total(C,1|T,47) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17302):
TCTTCCCACTACACTCCAAGTCACTGGACCCTTGAATCTCCAAGGGTGTCTGACCAGTAGATTTACCGCTTATTCACCACCGTGTGATCTTAACCTCGTT
W
AGTTTGCCCATCTACAAAATGAGGATTATTTGCTGTCCTAAAGAATTCATGAGCCGGGCGCGGTGGCTCAAACGCCTGTAATCCCAGCACTTTGGGAGGC
Celera SNP ID:            hCV15956164
SNP Position Genomic:     7928
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|A,40)   total(A,40|T,2) 
SNP Type:                 NONSENSE MUTATION;INTRON


Context             (SEQ ID NO:17303):
ATTCGGAGGCTGCAGTGAGCTATGATTGCACCACTGCGCTCCAGTCTGTGTGACAGTGAGACCCTGTCTCTTACACACACACACACACACACACACACAC
A
TGCACACACACAGAGAGAGAGAAATTAGAAGATACTGAATTGGCAGAAGAGAAGGGAAATAGAAATTAAAATACTGAATAGGGGAGCAGTGAACAGGGGA
Celera SNP ID:            hCV27394417
SNP Position Genomic:     12499
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17304):
CCCCCTCCAGCAGCTGAATTCCTGCAGCTCAGCAGCCGCCGCCAGAGCAGGACGAACCGCCAATCGCAAGGCACCTCTGAGAACTTCAGGTAGGAGAAAA
K
CAAACTCCCTCCAACCTCTTACTTCGGGCTTAAGGCAGAGAACTCGCCTCCCCAGAATCTCCTCCCTCCATGATCCCCCGCTATTCCTCTATTTTCTTTT
Celera SNP ID:            hCV27483711
SNP Position Genomic:     6292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:17305):
AAAGGAGGCAGTGGCCCACAGAGGAGCACAGCTGTGTTTGGCTGCAGGGCCAAGAGCGCTGTCAAGAAGACCCACACGCCCCCCTCCAGCAGCTGAATTC
Y
TGCAGCTCAGCAGCCGCCGCCAGAGCAGGACGAACCGCCAATCGCAAGGCACCTCTGAGAACTTCAGGTAGGAGAAAAGCAAACTCCCTCCAACCTCTTA
Celera SNP ID:            hCV15956092
SNP Position Genomic:     6213
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:17306):
CCCATACAGCTGTGCTGCAGGGGCCACCCCATCTTCTTCCCACTACACTCCAAGTCACTGGACCCTTGAATCTCCAAGGGTGTCTGACCAGTAGATTTAC
Y
GCTTATTCACCACCGTGTGATCTTAACCTCGTTAAGTTTGCCCATCTACAAAATGAGGATTATTTGCTGTCCTAAAGAATTCATGAGCCGGGCGCGGTGG
Celera SNP ID:            hCV15956343
SNP Position Genomic:     7894
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:17307):
GATTCGGAGGCTGCAGTGAGCTATGATTGCACCACTGCGCTCCAGTCTGTGTGACAGTGAGACCCTGTCTCTTACACACACACACACACACACACACACA
C
ATGCACACACACAGAGAGAGAGAAATTAGAAGATACTGAATTGGCAGAAGAGAAGGGAAATAGAAATTAAAATACTGAATAGGGGAGCAGTGAACAGGGG
Celera SNP ID:            hCV27394418
SNP Position Genomic:     12498
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17308):
CTGGCTGTTCAGACGGACTCCCAGAGCCAGTGAGTGGGTGGGGCTGGAACATGAGTTCATCTATTTCCTGCCCACATCTGGTATAAAAGGAGGCAGTGGC
Y
CACAGAGGAGCACAGCTGTGTTTGGCTGCAGGGCCAAGAGCGCTGTCAAGAAGACCCACACGCCCCCCTCCAGCAGCTGAATTCCTGCAGCTCAGCAGCC
Celera SNP ID:            hCV15956093
SNP Position Genomic:     6128
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,39)   total(C,39|T,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:17309):
GGATTCGGAGGCTGCAGTGAGCTATGATTGCACCACTGCGCTCCAGTCTGTGTGACAGTGAGACCCTGTCTCTTACACACACACACACACACACACACAC
A
CATGCACACACACAGAGAGAGAGAAATTAGAAGATACTGAATTGGCAGAAGAGAAGGGAAATAGAAATTAAAATACTGAATAGGGGAGCAGTGAACAGGG
Celera SNP ID:            hCV27394419
SNP Position Genomic:     12497
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17310):
CTCTGTTGGGCCCAAGTCCTAGACAGACAAAACCTAGACAATCACGTGGCTGGCTGCATGCCCTGTGGCTGTTGGGCTGGGCCCAGGAGGAGGGAGGGGC
R
CTCTTTCCTGGAGGTGGTCCAGAGCACCGGGTGGACAGCCCTGGGGGAAAACTTCCACGTTTTGATGGAGGTTATCTTTGATAACTCCACAGTGACCTGG
Celera SNP ID:            hCV15956094
SNP Position Genomic:     5630
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17311):
AGGAGCAGAAATGCAAGGGGCTGCATGACCTACCAGGACAGAACTTTCCCCAATTACAGGGTGACTCACAGCCGCATTGGTGACTCACTTCAATGTGTCA
W
TTCCGGCTGCTGTGTGTGAGCAGTGGACACGTGAGGGGGGGGTGGGTGAGAGAGACAGGCAGCTCGGATTCAACTACCTTAGATAATATTTCTGAAAACC
Celera SNP ID:            hCV7610270
SNP Position Genomic:     17722
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:17312):
GGCGCGGCGACTCACGCCTATAATCCCAGCACTTTGGGAGGCTGAGAAGGGGGATTGCTTGAGGCCAGAAGTTGAATACCAGTCTGGGCAGCATAGCAAG
R
CCCTGCCTCTACAAAAAAAAAATTTTTTTTAATTAGCCAGGCTTGGTGACATGCATCTGTAGTCTACTCAAGAAGCTGAGGTGAGGCCAGGCACGGTGGC
Celera SNP ID:            hCV11572471
SNP Position Genomic:     11973
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;PGA-AFRICAN-PANEL(G,12|A,22)   PGA-EUR(EAN-PANEL(G,9|A,29)   total(G,21|A,51)
SNP Type:                 INTRON


Context             (SEQ ID NO:17313):
CCAACTCTCCTGGCCTGGCCATCTCCCTCCCCAGAAACAGTGTGCATGGGTTATTTTGGAGTGTAGGTGACTTGTTTACTCATTGAAGCAGATTTCTGCT
Y
CCTTTTATTTTTATAGGAATAGAGGAAGAAATGTCAGATGCGTGCCCAGCTCTTCACCCCCCAATCTCTTGGTGGGGAGGGGTGTACCTAAATATTTATC
Celera SNP ID:            hCV7610278
SNP Position Genomic:     17173
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   POOLE|_CEPH(T,79|C,109)   total(C,109|T,79) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17314):
GTGGCCCAACTCTCCTGGCCTGGCCATCTCCCTCCCCAGAAACAGTGTGCATGGGTTATTTTGGAGTGTAGGTGACTTGTTTACTCATTGAAGCAGATTT
Y
TGCTTCCTTTTATTTTTATAGGAATAGAGGAAGAAATGTCAGATGCGTGCCCAGCTCTTCACCCCCCAATCTCTTGGTGGGGAGGGGTGTACCTAAATAT
Celera SNP ID:            hCV7610279
SNP Position Genomic:     17168
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17315):
CTGAAATCCAGAGATTCCCTCAGGGCCACATTTGTCCACCTGACTCCAGGGTCTCATCTTCGTGTGTTGCTAGTGTGATTACCTGGGGATGAGAAATCCT
K
CTGGGGGAGTTGAGGTTAAGAGGATGAGGACTCCAGGTGCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCAGGAGTTT
Celera SNP ID:            hCV11572475
SNP Position Genomic:     11452
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;PGA-AFRICAN-PANEL(T,1|G,33)   PGA-EUR(EAN-PANEL(T,5|G,41)   total(G,74|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:17316):
CGGATTCGGAGGCTGCAGTGAGCTATGATTGCACCACTGCGCTCCAGTCTGTGTGACAGTGAGACCCTGTCTCTTACACACACACACACACACACACACA
Y
ACATGCACACACACAGAGAGAGAGAAATTAGAAGATACTGAATTGGCAGAAGAGAAGGGAAATAGAAATTAAAATACTGAATAGGGGAGCAGTGAACAGG
Celera SNP ID:            hCV15825742
SNP Position Genomic:     12496
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,2|C,6)      total(C,6|-,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17317):
TCTGTCCCGGTGCAGACAAGGGCATGGCCCCCGCCCTCCGGCATCTGTACAAGGAGCTCATGGGGCCATGGAACAAGGATGAGATCAGCACCACAGACGC
R
ATCTTCGTCCAGCGGGATCTGAAGCTGGTCCAGGGCTTCATGCCCCACTTCTTCAGGCTGTTCCGGAGCACGGTCAAGCAAGTGGACTTTTCAGAGGTGG
Celera SNP ID:            hCV11987171
SNP Position Genomic:     9550
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,-|G,-)    ;(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:17318):
CATGAATTGACACTCTGTTTCTATCCCTTTTCCCCTTGTGTCTGTGTCTGGAGGAAGAGGATAAAGGACAAGCTGCCCCAAGTCCTAGCGGGCAGCTCGA
R
GAAGTGAAACTTACACGTTGGTCTCCTGTTTCCTTACCAAGCTTTTACCATGGTAACCCCTGGTCCCGTTCAGCCACCACCACCCCACCCAGCACACCTC
Celera SNP ID:            hCV2620923
SNP Position Genomic:     5292
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,27)   caucasian(A,21|G,17)   total(A,30|G,44)
SNP Type:                 TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;(A,-|G,-)   PGA-AFRICAN-PANEL(A,13|G,35)   PGA-EUR(EAN-PANEL(A,22|G,24)   total(G,59|A,35)   no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:17319):
CGCCTGTCTTCCAGAACGATTCCTTCACCAGCCCTCTTTCCATTGCTCTAGGATGCAGATGTCTCCAGCCCTCACCTGCCTAGTCCTGGGCCTGGCCCTT
R
TCTTTGGTGAAGGGTCTGCTGTGCACCATCCCCCATCCTACGTGGCCCACCTGGCCTCAGACTTCGGGGTGAGGGTGTTTCAGCAGGTGGCGCAGGCCTC
Celera SNP ID:            hCV11987172
SNP Position Genomic:     7478
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,-|G,-)    ;(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17320):
ACACACGTACACACACAGAGCAGCACACACACACACACACACATGCCTCAGCAAGTCCCAGAGAGGGAGGTGTCGAGGGGGACCCGCTGGCTGTTCAGAC
R
GACTCCCAGAGCCAGTGAGTGGGTGGGGCTGGAACATGAGTTCATCTATTTCCTGCCCACATCTGGTATAAAAGGAGGCAGTGGCCCACAGAGGAGCACA
Celera SNP ID:            hCV2620925
SNP Position Genomic:     6042
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:17321):
CCCTCCCGCCTGTCTTCCAGAACGATTCCTTCACCAGCCCTCTTTCCATTGCTCTAGGATGCAGATGTCTCCAGCCCTCACCTGCCTAGTCCTGGGCCTG
R
CCCTTGTCTTTGGTGAAGGGTCTGCTGTGCACCATCCCCCATCCTACGTGGCCCACCTGGCCTCAGACTTCGGGGTGAGGGTGTTTCAGCAGGTGGCGCA
Celera SNP ID:            hCV2620926
SNP Position Genomic:     7472
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,5|G,90)      total(G,90|A,5);(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17322):
GCCAAGGAAAGGCTGGCTCTGGCTTAGCCGAGCCAAGCCCCATACAGCTGTGCTGCAGGGGCCACCCCATCTTCTTCCCACTACACTCCAAGTCACTGGA
Y
CCTTGAATCTCCAAGGGTGTCTGACCAGTAGATTTACCGCTTATTCACCACCGTGTGATCTTAACCTCGTTAAGTTTGCCCATCTACAAAATGAGGATTA
Celera SNP ID:            hCV2620927
SNP Position Genomic:     7856
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:17323):
AACCCGGGAGGGGGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCTTCTCAAAACAAACAAACAAACAAA
M
AAAATACAGAAGCTGAGGCGGGAGGAACATTTGAACCGGATTCGGAGGCTGCAGTGAGCTATGATTGCACCACTGCGCTCCAGTCTGTGTGACAGTGAGA
Celera SNP ID:            hCV27394420
SNP Position Genomic:     12359
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|-,3)   total(A,1|C,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17324):
ACATCGCGCCATTGCACTCCAGCCTGGGAGACAAGAGCAAAACTCCAACTCAAAAAAAAAAAAAAAAAAAAAACAGGAAGAAAATATTTAGGGTTCATAA
Y
TTAAGAACAGAGAAAAATATTCTAGCCCAAAGAAAGGGTTGGGATCTGAGACTTTTGAAGAAAGGAAGGAGATACAGAAAAGAGATTTCATCCTGGAATG
Celera SNP ID:            hCV2620929
SNP Position Genomic:     9222
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;PGA-AFRICAN-PANEL(T,5|C,41)   PGA-EUR(EAN-PANEL(T,18|C,28)   total(C,69|T,23)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17325):
GAATGAAACAATCGCTGGGAAAGCATTAAGAGAATTAAGGCTGGGCACTGTGGCTCATGCCTGTAATCCCAGCACTTTGTGAGGCTGAGGCAGGCAGATA
W
CTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGCAAAACCCTGCTCTCCCAAAAAAATACAAAAATTAGCTGGGCGTGCTGGTGTGCCTGTATT
Celera SNP ID:            hCV15956209
SNP Position Genomic:     6663
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,5|A,43)   PGA-EUR(EAN-PANEL(T,1|A,45)   total(A,88|T,6) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:17326):
ATCACTTGAGCCCGGGAGGTGGAGGTTGCAGTGAGCCGAACGAAATTGAGCCACTTCACCCCAGCCTGGGCAAAAGAGTGAAATTCCATTCAAAAAAAAA
A
AAAAAAAAAAAGGATGAGGACTGGGATGAACTGGTGGCTGGGTGTGGGGAAAATGGAAGTGAAGGAAGGCCAAAAGAGACAGAGAAGGCCTGGCGCGGCG
Celera SNP ID:            hCV27394421
SNP Position Genomic:     11781
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17327):
TCTATTAAAAATACAAAAATTAGCCAGCCGTGGTAGCGAGCGCCTATGATCCCAGCTACTCCGGAGGCTGAGGCCAGAGAATCACATGAACCTGGGAGGT
S
GAGGCTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGGGACAGAGCAAGAATCTGTTTCAAAAAAAAAAAAAGAAAAATAGGAAGGAAGGAA
Celera SNP ID:            hCV26177479
SNP Position Genomic:     14164
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|G,47)   total(G,47|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17328):
GACCTGTCAAAAAAAAAAAAAGAAAGAGAGAGAGAGAGAGAAGAGAGAGAAAGAAAGAAGAAGAAAGAAAGAAAGAGAGAGAGAGAAAGAAAGAAAGAAA
S
AAAGAAACAAAGAAACAAAGAAAGAAAGGAAAAGAAAAAAAAAACTAAGGCCAGGCAAGGTGGCTTATGACTGTAATTTCAGCACTTTGGAAGATTGAGG
Celera SNP ID:            hCV27394422
SNP Position Genomic:     8714
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17329):
GAGGTAGAGGTTGCAGTGAACTGAGACCACACCATTGCACTCCAGCCTGGGCAAGAAGAGCGAAACTTTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAA
A
TTGGCGGGGCATGGTGGTGCACACCTGTAGTCCCAACTAGCAACTCCTCAGGAGGCTGAGATGGGAGGATCTCTTGAGCCTGGGAGGTCGAAATGCAGTG
Celera SNP ID:            hCV27394424
SNP Position Genomic:     235
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17330):
GTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTGTCAAAAATACAAAAAATTAGCCAGGTGTGTTGGCGCGTGCCTATAATCCCAGCTGCTC
R
GGAGGATGAGGTTCAAAGAATCACTTGAACCCGGGAGGCAGAGGCTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACT
Celera SNP ID:            hCV15956245
SNP Position Genomic:     10342
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17331):
GGAGGTAGAGGTTGCAGTGAACTGAGACCACACCATTGCACTCCAGCCTGGGCAAGAAGAGCGAAACTTTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAA
A
ATTGGCGGGGCATGGTGGTGCACACCTGTAGTCCCAACTAGCAACTCCTCAGGAGGCTGAGATGGGAGGATCTCTTGAGCCTGGGAGGTCGAAATGCAGT
Celera SNP ID:            hCV27394425
SNP Position Genomic:     234
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17332):
CACGTGAGGGGGGGGTGGGTGAGAGAGACAGGCAGCTCGGATTCAACTACCTTAGATAATATTTCTGAAAACCTACCAGCCAGAGGGTAGGGCACAAAGA
Y
GGATGTAATGCACTTTGGGAGGCCAAGGCGGGAGGATTGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATACCAAGACCCCCGTCTCTTTAAAA
Celera SNP ID:            hCV15956319
SNP Position Genomic:     17850
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,46)   total(C,2|T,46) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17333):
CACCAGCCCTCTTTCCATTGCTCTAGGATGCAGATGTCTCCAGCCCTCACCTGCCTAGTCCTGGGCCTGGCCCTTGTCTTTGGTGAAGGGTCTGCTGTGC
M
CCATCCCCCATCCTACGTGGCCCACCTGGCCTCAGACTTCGGGGTGAGGGTGTTTCAGCAGGTGGCGCAGGCCTCCAAGGACCGCAACGTGGTTTTCTCA
Celera SNP ID:            hCV15956173
SNP Position Genomic:     7503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17334):
CATGGTCTCTTCCTGCACCTTGCCCTAGTGTTCACTTACCACCTGCTTGCAGGAAACAAGAAGAGCAGGGCCCACAGCTGGCCAGCTCCCCTCCCCTCCC
R
CCTGTCTTCCAGAACGATTCCTTCACCAGCCCTCTTTCCATTGCTCTAGGATGCAGATGTCTCCAGCCCTCACCTGCCTAGTCCTGGGCCTGGCCCTTGT
Celera SNP ID:            hCV15956174
SNP Position Genomic:     7379
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:17335):
GCACAAAGATGGATGTAATGCACTTTGGGAGGCCAAGGCGGGAGGATTGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATACCAAGACCCCCGT
Y
TCTTTAAAAATATATATATTTTAAATATACTTAAATATATATTTCTAATATCTTTAAATATATATATATATTTTAAAGACCAATTTATGGGAGAATTGCA
Celera SNP ID:            hCV15956353
SNP Position Genomic:     17941
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,3|C,43)   total(C,43|T,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17336):
GAGCCATTTCCAACGAACCATCTTGTCGTCTTCACAGCTGAGTTCACCACGCCCGATGGCCATTACTACGACATCCTGGAACTGCCCTACCACGGGGACA
M
CCTCAGCATGTTCATTGCTGCCCCTTATGAAAAAGAGGTGCCTCTCTCTGCCCTCACCAACATTCTGAGTGCCCAGCTCATCAGCCACTGGAAAGGCAAC
Celera SNP ID:            hCV15956281
SNP Position Genomic:     12804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17337):
CCATTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCTTCTCAAAACAAACAAACAAACAAACAAAATACAGAAGCTGAGGCGGGAGGAACATTTGAACC
R
GATTCGGAGGCTGCAGTGAGCTATGATTGCACCACTGCGCTCCAGTCTGTGTGACAGTGAGACCCTGTCTCTTACACACACACACACACACACACACACA
Celera SNP ID:            hCV15956282
SNP Position Genomic:     12397
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|G,45)   PGA-EUR(EAN-PANEL(A,9|G,35)   total(G,80|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17338):
GCCATTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCTTCTCAAAACAAACAAACAAACAAACAAAATACAGAAGCTGAGGCGGGAGGAACATTTGAAC
Y
GGATTCGGAGGCTGCAGTGAGCTATGATTGCACCACTGCGCTCCAGTCTGTGTGACAGTGAGACCCTGTCTCTTACACACACACACACACACACACACAC
Celera SNP ID:            hCV15956283
SNP Position Genomic:     12396
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,7|C,41)   total(C,41|T,7) 
SNP Type:                 INTRON


Gene Number:                 44
Celera Gene:                 hCG1736748 - 114000133377793
Gene Symbol:                 DEGS
Protein Name:                degenerative spermatocyte homolog, lipid desaturase (Drosophila);DES1;Des-1;MGC5079;MLD
Celera Genomic Axis:         GA_x5YUV32VWMC(137031..159249)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12204):
CATATGTAACTAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAGTATAATTTAAAAAAATTAAATAAAAATATATATACATTAAAATAAAAAATA
TTTTTGTACATTAAGGTTTTTTGTTTATTTGTTTTTAAGATGGAGTCTCACTCTGTTGCCCAGGCTGGCGTGCATTGGCATAATCTTTGCTCATTGCAAC
CTCAACCTCTCGTGTTCAGGAGATTCTCTGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGTGCTCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGT
AGGGACAGGGTTTCACCATGTTGGCCAAGCTGGTCTCGAACTCCTAGCCTCAAGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCATG
AGCCACCGCACCCAGCCCCTGCTTTCAACATGATGTGTATGCAATAGATTAGCACTCTTTAAGGGAAGTGTCTAACCTGATGGGCCTGAGGACAAACACA
CAGAATCCTGTACATCCCTTCATGGACGAGGCAATCAGCTGAGAGAGATCATCCCTCCACAGGAGTGAGACCCAGAAGCCCAGAGAAGGCTATGGACTGG
GAGAAACCTGCAGGGTCCGAGGGAAGACAGGTCTGGTGTATAGATCCCGAGACTGGAGGTCACTGTGGTACTAAAGATAACAGGAGTAAATGGCAGCACA
TCATGCCCCCAAACTGGCCAGGACTAGCTACACTGAGTGAGGCCAGCATGGCAGAAGACAAAACAGGCAAGGGATTATTTCCCCTGCCACACTAAGTCAG
CTTTAGTTATGAACAAATTCGCGAATTTTTTTTTTTTTTTAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTG
CAACCTCTGCCTCCCAGCTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCAAGCCCAGCTAATTTTGTAGTTT
TAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCTTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGG
CATCAGCCACCGCATCCAGCCTTATGTCATCTATTTCTTGACACCAATAACAGACAACTACTCTAGTCAGTAATTAGTTGTCAATATATATTTTTCTTAC
TTAAAATGTATTATTTAAATATAAAATTAGCACATGTAAATTTATAGTTAAAACATTCATGAATTTGGGCCAGGCGCTGTAGCTCATGCCTGTAATCCCA
GCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTTCGAGACCAGCCTGACCAATATGGTGAAACTAAAGTACAAAAATTAGCCAGGCG
TGGTGACATGAATCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACCAGAACTCAGGAGGCGGAGATTGCAGTGAGCCAAGATTGGGCCAT
TGTACTCCAGCCTGGGCGACAGAGCGAAACTCCATCTCAAAAATAAAATAAAAAGAAAAGAAAAGAAATAGATAACATAAAATTCTTACGATTATTTGCT
TGAAGTGAATAAAGAATGTTTTCTGTATTACTCTTCTATGAATTACAGTAGTCAATACCATTCAATCTCAACTGTTATCACTATTGAAATGGCCTCAAAA
ATAAACTGCCCTTTCAAAAATCAAGCAGATGGAAAAGGAAAAATCCATATTGATTTCAAAAGTACAGCTGCCCTCATCTGAAAACTACTTCATCTTAAAT
TTCCTAATATGATCATGGCTGGCTGCGATTCACCACAGCTTCCAACAGCCGACTGGAGAGCGTTTTTCCAGAATAACTAGTATGTTTGCTTCAAGACAAA
TTATTTGACAAGGTTAAGGAAAAGATGTGAAAGCTAGATAATCCATTAAGAATCTTTTTTTAAAACTTCAAGGCATTTTATTTATACTTCTTTTTTTTTT
TTTTGAGACAGTCTCGCTCTGTCGCCCAGGCTAGTGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCTGTTTTCTGCCTC
AGCTTCCCAAGTAGCTGGGATTACAAGCACCCACCGCCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTGGCCAGGCTGGT
CGTGAACTCCTGACCTTGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGAATTACAGGCGTGAGCCACCATGCCTGGCTATACTTCTTAGCTTACTTT
TTTGTTACGCGTATATATTAAGAACTTTTAAAAGTCCAAATTAAAGAAGCATGCCTAGACATCATTAAAATAGCTATCAATGCCCATGACAATCCTGTAG
CTCAAATAGTTTACTTTAGAATGTCAAAATTGATTTTGTAATAGTCAGGACAGGATAAACAGTCGCTATATTAAGACCATGTACGTGTCCCTAGACCTAG
TTCTTTCCCTACGTCTGTTTTTATAAATGCTGGTGATAAACCAGGTCTGATTAATATATAATCATTTTGTGTGATTATGTAACGGCTATAATTCTAGGTT
ATCTTTGGTCAACCTTAAGAAAAATGGCAGTATATGTAATGACTTTTGCAAATGATCAGTGCTAATTTGCAGACTTTTGTTTAAAGAGGGTTTAAACAAA
ATAAGAAAATTTCATGATTACCAGTTGCTATTAAATGAATTGTAACTTTTTTTAAAAAAAAAGAATGTCCAAGCCAGGTGTGGTGCTCATGCCTGTAATC
CCAGCACTTTGGGAAGCCAAGAAGGGCAGATCACTTAAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTAGTAAAAATACAA
AAAGTTGCTGGACGTGGTGGCACACACCTGTAATCCCAGCTACTCGGGAGGGTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGC
CAAGATCTTGACACTGCACTCCAGCCTGGGCAACAGAGCGCAACTCCATCTCAGAAAAAAAAAATGGTATATCCAGATTCACATTTTTTTTCAAACTCTG
CATTTTTCTTTCTTTCTTTTATTTTTTAATGTTTTTGAGACAAAGCCTCACTCTGTCACACAGGCTAGAGTGCAGTGCCACAATCTCAGCTCATTTCTCA
GCTCATTGAAGCCTCGACCTCCTGGGCTCAAGCAATCTTCCCACCTCAGCCTCAGCAATAGGTGGGACCACAAACATGGGCCACCACGCCCAGTTAAATT
TTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGTCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGTTTCATG
CCATTCTCCTTCCTCAGCCCCCCAAGTAGCTGGGGCTACAGGCGCCCCCCCCACCATGCCTGGCTAATTTTTTTTGTATTTTTAGTAGAGATGGGGTTTC
ACCGTGTTAGCCAGGATGGTCTGGATCTCCTGACCTTGGAGACCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATACCCGGCATAA
TTTTTGTATTTTTTATAGAGGTGGGTTTTTGCCATGTTGCCCAGGCTTGTCCCGAACCCCTGCCCTCAAGCGATCCCCCTACCTCGGCCTCCCAAAGTGC
TCAGACTACAGACGTAAGCCTCCGCACACCTTTTGGACTGGTGTGCCAGTTCACACATGCCTGTGATAGCAACTGCGTTCTGAACTGCAGGGATACATTT
ACTTGTCAGCACCTGAAAACTTCCTCCTGAGTTGAGTCCAATTATCAGCTTCATGTGCCATCTGCCAATCCAGATGAAACTTGGCAAATACAAAGCTGTC
CTTTTCCAGGTGACACTCCCCACCTTCTTTTTCCTCCACCATTTCATTAACAACTAAAAAGCTCCTGCATGATCAGACCTGTGTATCTATCCATCATCAA
ATCCCACTCCTTTTTCGAGACTGGGACCCTCTGGAGGCTGACCCAGCCACGCATTTGCTAGCATGCCCTGCAGACATGACCCTCGCTGGGCTCTGATCAG
CCTTCAGGCCTCCACTCCAGGTGTCACTGTTCTGTCTCCCCTCTGCTCTCACAGCCTTCTCTGCTAGATGTCTCAGCCGTGCTGGCCCTCTCTATTTCAG
AAGTGAATGTACTGAGAGGGTCTTAGGGACTTATTAATAATGCTCCTGGGGTCGGATGTAGTAGCTCATGCCTGTGATCCCAATACTTTGAGATCACTTG
AGCCCAAGCGTTTGAGACCAGCCTGGGCAACAAGGTGAGGCCCCATCTCTATCAAAAATTCAAAAAAGTAGCCAAGCATGGTGGTGCACGCCTGTGATCC
CAGCTCCTCGGGAGACTGGGGTGGGAGGATGGCTTAAGCTCAGGTCAAGACTGAAGTGAGACATGAGGCCACCACTGCACTCCAGCCTGGGCAACAGAGC
AGGACTCTGTCTCAAAAAAAACAAAACCCACTATAACCATAATACTATTATCACACTTAAGAAATTCATAATTCCTTAATATCATCACATATCCAATTGA
TATCTGAGTTCAATTATTTCATGTCAATGTTTTTAAACTATTTCAATCAGAATCTAAATGAGGTCAACACGTTGCAATTGGTTGGTATGTCTTTTAAACT
CCTTTTAATCTACAGGTTTCTCTTTTTTTGCCTTGAGTTTCATTTATTAGAGAACCCAGACATTGTCCCATATAGTCTCCCAGAGTTGGATCTTGCTAGT
TTCATCCCCACGGCCTAGTTTAACACATTCCTCTGTCCTTTCTATTTTCTTTTTTTTTTCTTGAGAGGGAGTCTCCGTCTGTCCCCCAGGCTGGAGTGCA
GTGGCTCCGTCTCAGCTCACTGCAACCTCTGCCTCCCAGTTCGAGCGATTCCCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCTGCCACTAC
GCCCAGCTAATTTTTTTATATTTTTAGTAGAGACGGGGGTTTCACCATCCTGATCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATGGACCCGCCTCTG
CCTCACAGAGTGCAAGGATTACAGACGTGAGCCACCGCACCCGGCCAAATGTCCTTTCTATTTTCTATAAATTAACAGTCAGATCTAGGGGCTCGATCAG
ATTTGTGTGTGTGTGTGTGCCGTGTGCGCGTGCACAGCATGTTCTTTGACTAGGAGGCACACCTGCTTTGGTTATCTTCTTTTTGTAATCTTTAAGTTGC
TCTTTGATGTAGACGTGGTAACTAATGTTGAAACAAAATTAGTTTCGTTTCAAAACCTTTCTTTCAGGAAGAGGTTGTGGTTGATTACTTCTGCGACAGG
TAGATGCAAGGTTGAGCAATCATCTCTTAACAGAAGTGGTCACACTAGAATAATTCAAGCACAACAACAAATCCCACATCATCACCCCCTCTTAATAATG
GTGTTTTCTTTTTACTTGATTAGCTTTTAATTGTCACGCACTCTGCATTTTTTCCCTGAGGTATTATTTCCAGAAGGCAGCGAAATATGACTCAATGGCT
AATTTGCTTTTTAAAAATTAAACAAAACTTAGGCCAGCTGCCATTTAAGAAGGGCTCCGGGGCCTCCAGACTCGGTGTGACCGTAGCCGTGCCCGGTGCT
CCCCTCGCGGAGGCGTTAGGGCGGCAGGTTTATCTCACTTGAGACCATTCCTTCCTTTTTCATCTTCTCCGGGCTCCGGCGCAGCAGGCCGCAGGGGCGG
GCACTCGCAAGAACGCGGCATCCTGGATGGTGGCCGAGTCACCGAAGCTCAGAACCCCGCGTCCCAGAATCGCTGAGAGCCGGCCCCGCACGGGGGCCTG
GGAGCGCCACGCGCCCTCCACCCAGAGAGGCAGGCGGGCGGGCCGGGGGGGGCGGGGCCTCGGGACTCCGCCCACGCCTCCGTCTCCTCCGCGCTCCGCC
ACAGCCGGCCGACACCACACCAGCCGGGGAGCCGCCGCCGCCGCCGCCACCTCTGAGCAGCCGGCTGGGAGCGAGAGCCGACAGCTAGTCTGCAAGCCAC
CGCTGTCGCCATGGGGAGCCGCGTCTCGCGGGAAGACTTCGAGTGGGTCTACACCGACCAGCCGCACGCCGACCGGCGCCGGGAGATCCTGGGTGAGGGC
CAGCGGGCGCCCCGTTATGTGCGTGCGTGGCCTCCCGGCGCCGGGGCGCGCTCTCCCCTCGCGGGCCCTGCGCGGTCGTGGGCGCCGGAGGCCCGTTAGC
AGCCTGCTCCCCGTCGCGTCCCGTCGCCGCTCGGGCCGCCAGCCCGCGGGTCAGCGCGGGAGAGGCTGGGCGAGGAGCGGGGGGAGGGACGGGTCCTCGG
AGCCGCGCAGCTCCGACCCTTCCGCGAAGAGGCGCAGGCGCGTCCCCGAGCGCGGGAGTCCCCGCCAGGCCCACGCCGGCCGGTTGGGGCGAAGGGTGTC
CCCGGCTGTGCCAGCCTTGAGTAGATCTTTTCGCTAGAAGATTCCTGTGCCCTCAGGTGGGCGCCCTTTCCTCTCACCACTCCCTCTCCTCCGGAGCGGG
CCGAGGTGAGCGGGTGCCGGCCYTGGGGCTGCCTGAGTGCTAGGCAGGGTGTGGTCCTGGGCATCCTTGGGCCTACCAGCGAGCCCTGCTCAGGGTGTCG
GGCGCCGGCGGGCAGTACTGGCGGGGGCGGCCGCAGTCCCGGCCTTGGGCCCGTTAAGGGGGCCGGCGTCCCTCCATATGCCCCCCGGGGCTTCTCGGAC
TTGATGGGCCCTGGTCGGTTCACGCCGCTTGTCCCATTGATCCTCACGACAAGCCTGGGACGTAAGAACGGCGGATTCGTAGGCATTTTTCATCCATCTC
GGTTTTGTGGATGAAAAGACTGAAAATGGAAGACTTGCCAAATAAGGAAAATATGTGGCGTGGCCTGCTGGTCCCCTGACAGCTAATTGAGAGGCCTTAA
CTCTCCAGAGGATTCGGGCCTTCTGTGTTACATAGAGAATGCTCATCTCTCCCAGGCTACTCCTAATATGCTAGGGATTGTGTGGAATGCTTTACAAACA
TTACCCAATTTCATCCTCTTGGTAATTCTACTTGGTTGGTATTATCGCTGTTTTAAAAAATGAAATAAGAACGCGTGACTAAATGCTAGGGGGATTCTAA
TGCGCATTCGGTTGCCTCTTCCAGAGCACGTGTTTGTTTTTTGTTTGTTTGTTTTTTGAGACTGCACGTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTTT
GAGACTGAGTCTCACTCTGTTGCTCATGCTGGAGTGCAGTGGCGCGATCTCCACTCGCTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTTCTGTCTCA
GCCTCCCGAGTAGCTGGGATTACAGGTTCCCACCACTACGCCTGGCTAATGTTTGTATCTTTTTTAGTTAGAGACGGGGTTTCACCATGTTGGCCAGGCT
TATCTCGAACTCCTGACCTCAGGTGATCCGCCCGCCTTGGCCTCCCGAAGTTTTGGGATTACAGGCGTGAACCACCGTGCCCGGCCAGAGCACGAGCTTT
TTAACCTCTGTTGAGGAAACGGGGACCGGTCACGGTAGCTCAGGCCTGTAATCCTAGCACTTCGGGAGGCTGAGGCGGGAGGATCGCTTCAGCCCAGAAG
TTTGAGACCATCCTGAGTAACATAGTGAGAGCCCCCCGTTTMCACACACACACACACACACACACACACACACACACTTTTTTTAAATTGAGGAAACGGT
GAGTTGAACATGAGCAATTATTCCTTATATATAGTATTTCCTTAGTTTTTCTTCTCAACATTCATTTGCCCAGTGAAAAGAAAAAGCAAGTAGCTGGGAC
CACAAGCGCACACCACCATGCCTGGTTGATTTTTCTATTTTTTGTAGAGATGGGTTTCTCCGTGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGCA
ATCTGTCCGCTTTGGCCTCCCAAAGTGCTGGGATTTTAAAGGCGTAAGCCACTGCACCCGGTAACTTTGGGTTCTTGAATTCCCTTCCTCCTCTTCTTCC
TCCTCCCCTACACTCCATTAGAGAAAGGGTCTTGCTTTGTTGCCCAAGCTGGAGTGCGGTGGTTGTTCACAGGCATGATGATCACTGCAGCCTGGGCTCC
AGTGGTCCGCATACCTCAGCCTGCCAGTAGCAATTTGTTTGGCACATCACTTACACATACTTGATATGAGATAGCATGATACTTTTTTGAGACGGAGCCG
CACTCTGTCACCCAGGCTGGAGTGCAGTGGCCCAGTCTCGGCTCACTGCAACCTCTCCCTCCTGGGTTCAAGCAGTTCTGCCTGCCCCAGTCTCCCGAGT
ACCTGGGATTACAGACGCCCGCCACCATACCTGGCTAAGTTTTTCTATTTTTATTTTTAGTAGAGACAGGGTTTTGCCACATTGGCCAGGCTGGTCTCAG
ATGATGCGCCTGCCATGGCCTCCCAAAGTCCTGGGATTACAGGCGTGAGCCACCCTGCCAGGCCACATATGATATATTTTATCAATGCCTTATCTACATG
TTACATAGGAATAATCTAGCGTCCTACCTGTGTAAAAACCAACTCTGGAATACTGAAACTGAGCTACTTAATATTCKGAAAATCAGGACGGGTGTGGTGG
CTTTTTTTTGCCTGTAATCCGAGCACTTTGAGAAGCTGAGGCAAGAAGATCGCTTGAGGCCAGTTCAGAACAGCCCCATCTGCACGAGAAATTAAAAAAT
TAGCTAGGCGTGCATGCCTGTCCCGCTACTCAGAAGGCTGAGGCGAGAGGAACACTTGAACTCAGGAGTTCGAGGCCAACCTGGGCAACATGGCAAAACC
CCATCTCTACCAAAAAAAAAAAAATTTAATTAGCGGGACATGGTGGCATGTGCCTGTGGTCCCAGCTACACAGAAGGCTGAGGTGGGAGGATTGCTTGAG
CTGGGGAGGTAGAGGCTGCAGTGAGCCGTGATTGCCCCACCGCGTTCCAGCCTGGGCAACAGAGTGAGACTGTCTCAAGAAAAAGAGATGAAGGAAGTGA
GAAGGTGCTGATTGATACTTACCTCACACTGAGCCTTTTTTCCCCCCACAGACTTATCACTGAACCATTTCACTGGGAAAGTAAAAGGACCACATATTTC
TTGGCCGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTAGGAGGCTAAGGTGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAC
GGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGCGGCAGCCACCTGTAGTCCCAACTACTCAGGAGGCCGAGGCAGGAGAATGGC
GTGAACCCGGGAGGCAGAGCTTGCAGTGAGCTGAGATGGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGCCTCCGTCTCAAAAAAAAAAAAAAAAA
AAAAAGAAGGACTACATATTTCTCAATGAAAATACAGTGTACAATGTTTTCCATGCAGGTGTAAATACTAACTCATGTTCTGTTTCAGGGTGGGAGATGG
AATAACCTGTAGAAAGAATCTTTAGATTTGTTTAAATTATACACAAATGATAAGAGATCTTTCTGAAAGTATTGACTTTTTGGCGGGGGAGGGAAGGGGC
CTGATAGAACAACCAACAATTGTACACTTTAAGTTTACATTTAGAGTTCACATTAAAAGTTCATTTACAAGGCATCTGTTTGAAATTCGTGAGGATGAGC
TGGGCTGGGTGGCTCATGGCTGTAATCCCAGCCCTTGGGTGGCTGAGGTGGACAGGTCACCTGAGGTCAGGAGTTCAAGACCAGTCTGGCCAACATGGTG
AAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGGGCGCCTGTAATCCCAGCTACTGGGAAGGCTGAGGCAGGAGAATTGCTTGAA
CCCAGGAGGCAGAGGGTGCAGTGAGCTGAGATCTCACCATTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAGAATRAATCA
CAAGAAATGGTTCCTTCACTGTTATACTTTAACATGATACAGCTTTTTAATGTTTTATTTTTTGAGAGAGAGTCTCACTGTGTTGCCCAGGCTGGAGTGC
AGTGGTGTGATCATAAATTCTTGGGCTCAAGTGATGCTCCCGCTTCAGCATCCTAAGTAGCTGGGACTACAGGCTTGTGCCACCTCACCTGGCTAATTTT
TTTTATTTTTGGTAGAAATAGAATCTGTTTGCCCAGGCTGGTCTTGAACACTGGGCCTCAGGCAGTCTTTGTGCCTCAGCCTCCCAAAGTGCTGGATTAA
TGGTGTGAGCCACAGCACCTGGCCAATAGCTTTATTGAGATTATAATTCAACTRTCATGATTTATTCATTTAAAGTGTACAGTTCAGTATTTTTTAGTAT
ATTCACAGAGTTGTGCAGCTGTCACCACCATATAACCTTAGAACATTTCATCATCACCAAAAGAAACCCTATACTCATTAGCAGTCCCTCATATCCCCTG
CTTCTACCTAGGTAACCACTAATCTACTTTGTGGCCTATAGATTTGCTTATTCTGGACATTTCATATACATGAAATCATAAAATACCTGATCTTTTATGA
TTGGCTTTTACTTAGCATAATATAAATTTTTTTTTTTTTTTAATTTGTAGAGACAGGGTCCTGTTATGTTGCCCAGGCTGATCTTGAATTCCTGGGCTCA
AGTGATCCTCCTGCCTTGGCCTCTCAGAGTGCTGGCATTATAGGTGTGAGCCACTGCACCCAGCCATTAGCATAATATTTTAGCTGGGCACAGTGGCATG
CTCCTGTAGTCCCAGCTACTAGGGTGACTGAGGCAGGAGGATCACTTGAGTCCAGGAGTTTGAGGCTGTAGTGAGCTATGATGGCATCACTGTACTTCAG
CCTGAGTGACAGAGGTAGACCCTGTCTCTAAATATTTTAAGGTTCATTAAAATAATATATTTTCAATAAAATAATATTTCAATAAAATAATATTTTAAGG
TTCATTCATGTTATAGCATATGTCAGTGTATGATTCCTTTTTCTGGCTGAATAATATTCCTTTGTATGGATATACCAGGTGTTTAACATTTTGAGGAACT
GCTGTACAGTTTTCCAAAGCAGCTGCACCATTTTATATTCCCACTAGCAAAGTATGAGGGTTCTAATTTCTCCACATCCTTGTTTTTACCTACCTTTTTT
TATTATAGTCATCCTAGTGAGTGTGAGGTGGTATCTATGGTTTCAGTTTGCACTTTCCTAATGACTAACGGTGTTGAGCCTCTTTCATGTGTTTCTTGAC
TGTTTCCGTATCTTTTGGAGAAAAGTGGGTTCAGATCCTTTGCCCATTTTTTAATTGGATTATTAGTTGTAAGAGTTCTTCATATATTCTGGATATAGGT
CCCTTATGAGATACATGATTTGCAAACATAACCCCGCTTCTGTGGATTGTCTTTTTACTTTCTTGACAGTATCATGTGCAACAGAAAGTTTTTGATGCTG
TCCGATTTCTCTGTTTTCTTTTGTCACTTGTACTTGTTATAGTATCTAAGAAACCACAAAGGCCATGAAGATTTATTTCTATGTTTTCTTATCAGAGTTT
TATAATTTTCTTATAAATTTGGGTCTGTGATCTGTTTTGAGTTCATTTTTGTGTATGGTGTAAGGTAGGGGTCTGAATCCATTCTTTTGCCTGTTGATAA
CARGTCGGTCTAGCACCATTTGTTGAAAGGACTGTTCTTTCCCTGATTATATTGGTAGCCTGTAGTATTGGTTTTTATATACTATTACAATTTTGGGAAA
ATTCAGTACAGAATTACTTGGAGCATGTTGATTTGTCTGAGAAAACTGTGAATACCAGTTTCATGATTTTAGGGTAACTACAAAATGTATATTATATTCT
ATCCTTTGTCAGATGTGTTAATTTAATCGTTTTATATAAGGTAAGAATGCTGTACCTCTGTCTAAACACAGAAATAACATGTATTTTAATATAAAGAATG
TGGAACTTCTAAACTTTGAGGCTAATTTTTCCTGCATAAATTCTCAAATTATTGTGACATGATATTTCATAACTTTACTAGTAGAATCCTTCCCTGTGTT
ATTAAATATCCACTAAAGTCTCTAGTAAAGGGAATATGATTTACAGAACAAATTTAATGTGTTAGTTTAATTGGTGTTAATTTAATTATAATTGGTGAAC
TATTACATACTTTTCTTAGTTCCTGTTTTTTTGTTTTTTCTTTACAGCAAAGTATCCAGAGATAAAGTCCTTGATGAAACCTGATCCCAATTTGATATGG
ATTATAATTATGATGGTTCTCACCCAGTTGGGTGCATTTTACATAGTAAAAGACTTGGACTGGAAATGGGTCATATTTGGGGCCTATGCGTTTGGCAGTT
GCATTAACCACTCAATGACTCTGGCTATTCATGAGATTGCCCACAATGCTGCCTTTGGCAACTGCAAAGCAATGTGGAATCGCTGGTTTGGAATGTTTGC
TAATCTTCCTATTGGGATTCCATATTCAATTTCCTTTAAGAGGTATCACATGGATCATCATCGGTACCTTGGAGCTGATGGCGTCGATGTAGATATTCCT
ACCGATTTTGAGGGCTGGTTCTTCTGTACCGCTTTCAGAAAGTTTATATGGGTTATTCTTCAGCCTCTCTTTTATGCCTTTCGACCTCTGTTYATCAACC
CCAAACCAATTACGTATCTGGAAGTTATCAATACCGTGGCACAGGTCACTTTTGACATTTTAATTTATTACTTTTTGGGAATTAAATCCTTAGTCTACAT
GTTGGCAGCATCTTTACTTGGCCTGGGTTTGCACCCAATTTCTGGACATTTTATAGCTGAGCATTACATGTTCTTAAAGGGTCATGAAAMTTACTCATAT
TATGGGCCTCTGAATTTACTTACCTTCAATGTGGGTTATCATAATGAACATCATGATTTCCCCARCATTCCTGGAAAAAGTCTTCCACTGGTAAGTAAAG
GATTTGATACATATTCTAATTTTGTTTTTTCATTTGTTTGTTTTTTGAGACGGTGTCTCACTCAGTCGCCCAGGCTGGCGGGCAGTGGCACGATCTCGGC
TCACTGTAACCTCCACCTCCCGGGTTCARACGATTCTCATGCCTCRGTCTCCCRAGTAGTTGGGATTACAGGCGCATGCTACCACGCCCAGCTAATTTTT
KTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTAGTATTTTGTCAGTCCAAGCAGTTCATTAAAAAAAAAAAAAACAAAAAGAGCAAGAAT
ATAAATACTGCATCTTCCAGCCTACTTTTACAAAGGGTTCACTCTTGGGTCCTTAAGCTTAGTGGTTACACTTAGGATTTATTTTTAATTTTATTTTTTA
ACTTTATGTTTTTTTAGAGACAGGGTCTTGCCCTGTCACCTAGTCTAGAGTGCAGTGGTACGATAGCTCACTGCAGCCTCAACTCCTGGGTCAAGCGATC
CTCCCACCTCAGCCTCCTGAGTAGGCAGGATTATAGGCACGTGCCACCATGCCTGGCTAATTTTTTATTTTTTGTAGAGGCAGGGTCTTGCTGTGTTGCT
CAGGCTGGTCTCAAACTCCTGGATTCAAGTGATCCTCCTGCCTCAGCCTCCCAAGTAGCTAGGACTACAGCCACATGCTATGACAGGCTGATTTTTTAAA
TAATTTCTTTTAATCCTCCAAATGGTTTGTTAAAATTTTTAACATTTTTAACATTTTTATAGAGCTGGAGTTTCCTGGATGGGTGCAGTGGCTCACACCT
GTAATCCCAGCACTTTGGGAGGCCTAGGTGAGTGGATCATCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAAGCCTGTCTCTACTAAAA
ATACAAAAAACTTAGCTGGGCATGGTGGCGGGTACCTATAGTCCCAGCTACTCGGGAGGCTGAGGCGGGAGAATCGTTTGAACTCGGGCAGTGGAGGTTG
CAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAGAGAGAGATGGGTTTCCCTGTGTTGCC
CAGGCTGGTCTCAAATTCCTGGGCTCAAGTGATTCTCTTGCCTTCCAGAATGATGCTGGGATTATACATACGAACCACTGTGCCCATCCAGATAGTTTTT
TAACTTGAGATGAAAAGACATTTTTAACTTGAGATGGCAGAATTGCACATTTGATAAGTGCTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCTC
TCTCACCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCGCCTCCCGAGTTCAAGCAATTCTCCTATCTCAGCCTCCTGAGTTGCTGG
GACTACAGGCGCACGCCACCATGTCTGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATATTGGTTAGGCTGGTCTCGAACTCCTGACCT
CAGGTGATCCACCCGCCTCGGCTTCCCAAAGTCCTGGGATTACAGGTATGAGCCACCGCACCCAGCCAAGTGCTTAATTTCTATCTAATTAGCATGCCAC
AATTTATTAGTATTTGTAAGTTCCTGGATGGCAGGGATCAGATGTTGCCTTTATATTCTATGGCGTCATCCATGCAGTACATTCTTTAATAATATCAAGT
TAATCTAATTGTATGTATTTGTTGTTAATTTTACAAATAAGCCAGATATTTAGTCCCTTGGAATGTGATGGGAGAGAGACCTAGAGGGTCGAGTGTATTC
AACTGCTGCTGAAATGTAGACTGCTTTTTGTTTAGAATTCCCACAGCTGCTGCTGCTGCTGCTTTTTTTTTTTTTTAAGAGAGAGGAGGGAGGCAGGTCT
CATGGTTTCCCTTCTCAGTGTTTRTGTCAACCATTCATCAGTCATCTTTGAAAGAACCTAGTAACACTCATTTTTCATCTTGCTGTATTTTTTCCCTTCT
AGGTGAGGAAAATAGCAGCTGAATACTATGACAACCTCCCTCACTACAATTCCTGGATAAAAGTACTGTATGATTTTGTGATGGATGATACAATAAGTCC
CTACTCAAGAATGAAGAGGCACCAAAAAGGAGAGATGGTGCTGGAGTAAATATCATTAGTGCCAAAGGGATTCTTCTCCAAAACTTTAGATGATAAAATG
GARTTTTTGCATTATTAAACTTGAGACCAGTGATGCTCAGAAGCTCCCCTGGCACAATTTCAGAGTAAGAGCTCGGTGATACCAAGAAGTGAATCTGGCT
TTTAAACAGTCAGCCTGACTCTGTACTGCTCAGTTTCACTCACAGGAAACTTGTGACTTGTGTATTATCGTCATTGAGGATGTTTCACTCATGTCTGTCA
TTTTATAAGCATATCATTTAAAAAGCTTCTAAAAAGCTATTTCGCCRGGCACGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGTG
GATCACCTGAGGTCAGGRGTTCGAGACCAGCCTGGCCAACACGGTGAAACCCCATCTCTACTAAAAATGCAAAAATTAGCCGGGCGTGGCGGCACATGCC
TGTAATCCCAGCTACATGGGAGGCTGAGGTGGGAGAATTGCTTGAACCCAGGAGGCGGAGGCAGAGGCTGCAGTGACCCAAGATTGTGCCACTGCACTCC
ACCCTGGGCAACAGAGCAAGACCCCATCTCAAAAATAAATAAATATATATAAAAAATAAAAAGCTATTTCTAGTTTATTTCACTATAAAGTTTTGCTTTA
TTAAAAAGCTAATAAACAGCTATTAATCACAGTGTATTAGTATTTGTTACATTTTTGTATTTCACTATCTTTATACTATATAATATGGTWACTTGGGTAC
CGGGGGAACTTTAAAATTTCATCTCAAAAATAATTTTTAAAAAGCCTGAGGTATGATATAGCATAAAAGATTGAGATGAAAATATATTTCCCTGTAAGCT
GAATTACTCATTTAAAAATTTTAACTTCTATATGGGACCCGAATTAGACACTGCTGAATCCTGTACAGCCTTACTYATAAATAAARTACTTACTGAATTT
CCACCATTCAAATTCATTTTTCAGGTGTGTTGACTCTCACATTAGAAACTGCTCAACTGATAAAGACTTTCATGTTATTTCACTGCAGTGGGAACTGGCT
GTGGTCTGATGGTAGATCGTTGGTCTCAAGTAGCTGGTAGCATGGGCTGTTGTTATGTCAGCAGTCTTGCTTACCTCAAATATGTCACTTGGATACGTTT
AGTGTAATATGGTGAATTATTTTAAAAATACATCAGCAGCTGGGTGTGGTGGTTCACACCTGTAATTCCATGCTTCGGAAAGCTGAGGCAGGAGGATCGC
TTGAGACCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACCCCATCTTTTTTTATTTTTTATTTTTTGAAATGGAGTCTTGCTCTGTTGTCCAGGC
TGGAGTGCAGTGGCGCAATCTTGCCTCACCACAACCTCTGCCTCCTGGGTTCAAGCGACTTTCCTGCCTCAGCTTCCTGAGTAACTGGGATCACAGGCGT
GCACAGCCATGCCCAGCTAATTTTTTTTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGTTTTCACTATGTTGGCCAGGCTGGTCTCAAACTCC
TGATCTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGTTCTGGGATTACAGGCATGAGCCGCTGTGTCTGGCCCCCATCTTTTCAAAAAATAAGAGTGGT
GTGGTGGTGTGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGATTGAGACTACAATGAGCCATGATCGCACTACTACGCTCCAGCTTGGGTGACAAACA
CCCTCTAAAAAAAAAAAAAAGTTGGCTACATTGCAGTTTCGTAAAGAATAAAACAACACCCAGAATGCTGAGGGCGGGGTGAGGAGTAGAATCCTCTGTG
GGACTGCCAGGCCTGTCTCACAGACCTCATTTCATCCCCAAAATACTTTGCTTTCCCTTCCTGACCCCCTTGCCTAGGAAAATTCCTAGTATCTTCTAAT
CTGTTACTCAAAGAACAATCAAAGAGTGACAATAGAACCAAGTTTACAATTCAGATTTTACTCAGTCACTAAAGTATCTGCAAAACATACCCCTGGATTT
GATGCTAGATCATAGAGATCATGTACTCCCATCAAGTCTATAGAACTCTGGCCAATGGCACCGGGCGTGGTGGCTGTAATACCAGTACTTTGGGAGGCTG
AGGCAGGTGGATCACGAGGTTAGGAGTTCAAGACTAGCCTGACCAATATGGTGAAACCCTGTCTCTACTAAAAAAAATACAAAATTATCTGGGCATGGTG
GCATGTGCCTGTAGTCCTGGCTACTCGGGAAGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAAAGGTTGCGTGAGCCGAGATCACGCCCTGCACTC
CAGTCTGGGCGACAGAGCAAGACAACGTCTCCAAAAAAAAAAAAAAGGCCAGGCGCGGTGCCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTG
GGCGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCCAATACGGTGAAACCCCATCTCTAGTAAAAAATACAAAAAATTAGCCAGGCGTAGTGGCCGG
CGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGGGAACCCAGGAGGCGGAGCTTGCAGTCAGCCGAGATCGAGCCACTGCACTCCAG
CCGGGGCGACAAAGTGAGACTACGTCTCAAAAAAAAAAAACAACAACCAAAAGAACTTTAGCCAATGGCTGCAGCTGCCATGTAAATGCTGAAAACCTCC
AAATCTATCACTTCAGACCTCTCACTACCTGCTGGATGCACAGAGTGGGTTGTCATCCCTCTCCAAAACTCCAGTCTCCACTTACATAACCACTTCTTTC
CTGAATGGAAGTTTCAGTCTTCGTAGCAGGCATCCCGATTATTCTGGCTCCCATCTGCCAACTCGATCCATTCTTTAAGAGAGCTACCAATCTGGGCAGT
AAGAAGGCTGGGCCCCATAACCTCTAAAGAATAACTCCAAACAAAATTATCCGGGCCTGGTGTTGTGTGCATCTGTGGTCCTAAGCTACTCAGGAGGCTG
AGGTAGGAGTTTCGCTTCTTTTTTTCTTTTTTTTTTGAGATGGAGTCCTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCTCGATCTGGCTCACTGCAAGC
TCCGCCTCCCGCGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGACCACCACCACGCCCGGCTAATTTGTATTTTTAGTAG
AGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGCC
ACCGCCCACGGCTGGAGTTTCGCTTCTTGAACCCAGGAGGCGGAGGTTGCAGTGAACTGAAATTGCACGCCATTACACTCCAGCCTCGGTGACAGAGCGA
GATCCCGTCTCAGACAGTCCTAAGAAATCACTCAGTAGCTTTGCATGAGTTCTCCCTTCTGTTGTAAACTCCTTTCTCCGTTTCTCTTCTGGTTCAAAGT
TTCACACCTTCAAGGCTCACAGCAGCCTTCTGTTACCCACCCCCAGTCCCCAGCAGGTCAGGTGTCAATTTTTTTGACTTTGAGAACCAATGATTATCTC
TTCATGGCCCTAATCATACCATTGTGTAAATAGGCACTGTTTCTCCATAAGTTGTAACTCCTTAAGAGCAGGACACATCTTTTATTTCTGTTTCCCAAAC
CTAGCAGGGTGTTTGACTTAAAGTAAGTGCTTGATAAATGGAGAGAGACCAGCAGGGAGAGTCCTTGAACTTGAGAAGCTTTTTCTAAAACAAAAACACA
GCCAAAGACAGGGCACTTGTATAATCTTTAGGTAAAAGTATTTTATGCTACAAATAATGGACATTCAATGAGAATCCTTACTTTTCACTGAGTCCTGTAC
CAAGTGTTTTACATGAACTATTGTACTTTTTTGTTGTTGTTCCTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTGGCCCAGGCTGGAGTG
CAGTGTTGCAATCTCAGCTCACTGCAACCTCCGCCTCCCAGGGTCAAGCAATCCTCCCACATCAGCCTCCCAAGAAGCTGGGACTGACTACAGGTGTACA
CCACCACACCTAGCTAATTTTTGTATTTTTTGTAGAGATGGGGTTTCGCTATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGTGATCCAACCACC
TCGGCCTCCCAAAGTGCCGGGATTACAGGTATGAACCACAATTTATTGTATTTAAGTCTCAACATTTATATGCTATAAGCAGTACTATTAATATCTTCAT
TTTGTAGATGACAGAAAAGGCTTAGAGAGATTAAGTAACTGGCCGAAGGTCACACTTAGTAAACTGCAGAAACTGAACCTGAAATGCAGACTCTGTGGAC
TCCAGACCCAAAAGCCTTAACCATATTCCATTTGGCTTACATTATGAGCCTCGTCCTGAAACAGTAATGAGAATGAAAATCACATGTTCCTATTACTACA
TACATACTCTACTGCCTCATTAACCATTTCCTGTATGCCAGCATTTTGGCTAGGTCTCTGTTTTTTTCCAACTCTTGAATCTAAAATTCAAATATGAAAC
ATTAATGTTTAAATCCATGCAAAAAATGCATTTATGTATTCATTTATTCATTCTACAGATGCTTTTGGCAGGCTTGCACTAGGCAGTGAGGATACAAAGA
CAAAATGTTGCCCCAAATTAAGGAGCTAATGCTCTAGTGCTGGGAGGTACATGTTAAGAAAGAAAGGACTTAAAACAGGAGAATTAGGATGTGGCTGGGA
CTGAGTAGAGGGCACACATTGCTATCGCTGATCAGGGTGAGTGCTCTGCCAGGCTGTACGTGCAAATATTGTGCTAATCCACGGCAGCCTGGGAAGGTAG
GTATTGTCTCCCACACTTTTCACAGGAAGAAACAGGGTTAGGCAAGTAACTAGCCTGAGGTCACACAACATGGGCCAGGGCCTGAAGCTATGTGTGTTAA
AGCCAATGCTTTATGCTATTCCTCTTGGAAGCTCTTTGGACAAGTTCATGTATTTCTTGTTAGGAAAATCTTCTAGAAGCCTTAGCCATTTGGAAGGAAG
CAAGAACAGTTTGATGACCTAGGGCTAGGAAGGCTCTGAAAAACTGTGCCCTTGAAATCCAAGAACATTATTATTATTATTATTATTATTTTGAAACAGG
GTCTGGCTCTGTCACCCAGGCTGAAGTGCAGTGGTGGGATCATGTCTCACTGCAGCCTTAACCACCTAGGTTCAAGCAATCCTCCCATTTCAGCCTCGAG
TAGCTGGGACCGCAGGCGTGCACCACCATGCCTGGCTTTTTTTTTTTTTTTGAGATGGAGTCTGCTTCTATCACCTACGCTGGAGTGCAGTGGTGTGATC
TCAGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTTCCCAGTAGCTGGGATTACAGACACCTGCCACTATGCCCGGCTAA
TTTTTTTTTTAAATATTTTTAGTAGAGGTAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTTATGATCCGCCTGCCTCAGCCTCCCAA
AGTGCTGGGATTACAGATGTGAGCCACTGCACCCGGCCCCTATTTTTATTTTGTATAGGGACAGAGTCTCACTGTGTTCCCCAGGCTGGTCCTAAACTCC
AGTGGTCCTCCTGTCTCGGCCTCCCAAAGTGTTGGGATCACAGGCGTTAGCCACTGCCTCCAGCCCCAGGAGCATCACTAATAAATCCCTAAGACCTGCT
CAGTACATTGACTTCTGAGACAGAGGGCCAGCATGGCCGAGGCGCCTGGCAGAGGAGGCTCTGAGAGCAGAGGGGAGACAGAGCAGTGACACCTGGAGTG
GAGGCCTGAAGGCTGATCAGAGCCCAGCGAGGGTCATGCCTGCAGGGCGTGCTAGCAAACGCAGGGCTGGGACAGCCTCAGGAGGGTCCCAGTGTTGAAA
AAGGAGTAGGATTTGATGATGGATAGATACACAGGTCTGATCATGCAGGAGCTTTTCAGTTAATGAAACGGTGGAGGAAAAATAAGGTGGGGAGCGTCAC
CTGGAAATGAACAGCTTTGTATTTGCCAAGTTTCATCTGGATTGGCAGATGGCACATGAAGCTGATAATTGGACTCAACTCAGGAGGAAGGTTTCAGGTG
CTGACAAGTAAATGCATCCCTGCAGTTCAGAATGCAGTTGCTATCACAGGCATGTATGAACTGGTACACCAGTCCAAAAGCAGGCCAGGTGTGGAGGCTC
ATGTCTGTAGTCTCAGCTATTCAGGAAACTGAGGTAGGAGGATTGCTTGAGCCCAGAGGTTCGGGACAAGCCTGGGCAAACGGCAAAAACCCACCTCTAT
AAAAAATACAAAGGCCAGGCATGGTGGCCCACACTTTGGGAGGCCAAGGCGGGCGGATCATGAGGTCAGGAAATGGAGACCATCCTGGCTAACACGGCGA
AAACCCGTCTCTACTAAAAATACAAAATATTAGCTGGGCGTGGTGGTGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGACGCAGGAGAATGGCGTGAA
CCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGTTTCAAAAAAAAAAAAAAAAATACAA
AAATACAAAAATTGGCCAGGCATGGTGGCTTAAGCCTGTAATCTCAGAACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCA
GCCTAGCCGACATGGCGAAACCCCGTCTCTACTCAGAATACAAAAATCAGGTAGGTGTGATGGCAGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGG
CAGGAGAATCACTTGAAC


SNP Information

Context             (SEQ ID NO:17339):
ATATTCCTACCGATTTTGAGGGCTGGTTCTTCTGTACCGCTTTCAGAAAGTTTATATGGGTTATTCTTCAGCCTCTCTTTTATGCCTTTCGACCTCTGTT
Y
ATCAACCCCAAACCAATTACGTATCTGGAAGTTATCAATACCGTGGCACAGGTCACTTTTGACATTTTAATTTATTACTTTTTGGGAATTAAATCCTTAG
Celera SNP ID:            hCV25649940
SNP Position Genomic:     12793
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,32|T,6)   total(C,64|T,10)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17340):
GTTTTGCTTTATTAAAAAGCTAATAAACAGCTATTAATCACAGTGTATTAGTATTTGTTACATTTTTGTATTTCACTATCTTTATACTATATAATATGGT
W
ACTTGGGTACCGGGGGAACTTTAAAATTTCATCTCAAAAATAATTTTTAAAAAGCCTGAGGTATGATATAGCATAAAAGATTGAGATGAAAATATATTTC
Celera SNP ID:            hCV11576875
SNP Position Genomic:     15990
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,7)      total(A,7|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17341):
TAATTTTCTTATAAATTTGGGTCTGTGATCTGTTTTGAGTTCATTTTTGTGTATGGTGTAAGGTAGGGGTCTGAATCCATTCTTTTGCCTGTTGATAACA
R
GTCGGTCTAGCACCATTTGTTGAAAGGACTGTTCTTTCCCTGATTATATTGGTAGCCTGTAGTATTGGTTTTTATATACTATTACAATTTTGGGAAAATT
Celera SNP ID:            hCV192402
SNP Position Genomic:     11803
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17342):
ATTTCCCTGTAAGCTGAATTACTCATTTAAAAATTTTAACTTCTATATGGGACCCGAATTAGACACTGCTGAATCCTGTACAGCCTTACTCATAAATAAA
R
TACTTACTGAATTTCCACCATTCAAATTCATTTTTCAGGTGTGTTGACTCTCACATTAGAAACTGCTCAACTGATAAAGACTTTCATGTTATTTCACTGC
Celera SNP ID:            hCV1721622
SNP Position Genomic:     16186
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17343):
CGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCTGAGATGGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGCCTCCGTCTC
A
AAAAAAAAAAAAAAAAAAAAAGAAGGACTACATATTTCTCAATGAAAATACAGTGTACAATGTTTTCCATGCAGGTGTAAATACTAACTCATGTTCTGTT
Celera SNP ID:            hCV26884600
SNP Position Genomic:     9484
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17344):
TTCATTTGTTTGTTTTTTGAGACGGTGTCTCACTCAGTCGCCCAGGCTGGCGGGCAGTGGCACGATCTCGGCTCACTGTAACCTCCACCTCCCGGGTTCA
R
ACGATTCTCATGCCTCAGTCTCCCAAGTAGTTGGGATTACAGGCGCATGCTACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCA
Celera SNP ID:            hCV27466829
SNP Position Genomic:     13229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17345):
CTTGAACCCAGGAGGCAGAGGGTGCAGTGAGCTGAGATCTCACCATTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAGAAT
R
AATCACAAGAAATGGTTCCTTCACTGTTATACTTTAACATGATACAGCTTTTTAATGTTTTATTTTTTGAGAGAGAGTCTCACTGTGTTGCCCAGGCTGG
Celera SNP ID:            hCV26884601
SNP Position Genomic:     10095
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17346):
CTTTTTGTTTAGAATTCCCACAGCTGCTGCTGCTGCTGCTTTTTTTTTTTTTTAAGAGAGAGGAGGGAGGCAGGTCTCATGGTTTCCCTTCTCAGTGTTT
R
TGTCAACCATTCATCAGTCATCTTTGAAAGAACCTAGTAACACTCATTTTTCATCTTGCTGTATTTTTTCCCTTCTAGGTGAGGAAAATAGCAGCTGAAT
Celera SNP ID:            hCV25649927
SNP Position Genomic:     15024
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,20)   total(A,1|G,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:17347):
TACATGTTCTTAAAGGGTCATGAAACTTACTCATATTATGGGCCTCTGAATTTACTTACCTTCAATGTGGGTTATCATAATGAACATCATGATTTCCCCA
R
CATTCCTGGAAAAAGTCTTCCACTGGTAAGTAAAGGATTTGATACATATTCTAATTTTGTTTTTTCATTTGTTTGTTTTTTGAGACGGTGTCTCACTCAG
Celera SNP ID:            hCV25649928
SNP Position Genomic:     13065
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,35|G,1)   total(A,71|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17348):
TTTTATCAATGCCTTATCTACATGTTACATAGGAATAATCTAGCGTCCTACCTGTGTAAAAACCAACTCTGGAATACTGAAACTGAGCTACTTAATATTC
K
GAAAATCAGGACGGGTGTGGTGGCTTTTTTTTGCCTGTAATCCGAGCACTTTGAGAAGCTGAGGCAAGAAGATCGCTTGAGGCCAGTTCAGAACAGCCCC
Celera SNP ID:            hCV11576878
SNP Position Genomic:     8677
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17349):
TGAGACGGTGTCTCACTCAGTCGCCCAGGCTGGCGGGCAGTGGCACGATCTCGGCTCACTGTAACCTCCACCTCCCGGGTTCAAACGATTCTCATGCCTC
R
GTCTCCCAAGTAGTTGGGATTACAGGCGCATGCTACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTAGTA
Celera SNP ID:            hCV27466960
SNP Position Genomic:     13246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17350):
TCACTGTAACCTCCACCTCCCGGGTTCAAACGATTCTCATGCCTCAGTCTCCCAAGTAGTTGGGATTACAGGCGCATGCTACCACGCCCAGCTAATTTTT
K
TATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTAGTATTTTGTCAGTCCAAGCAGTTCATTAAAAAAAAAAAAAACAAAAAGAGCAAGAATA
Celera SNP ID:            hCV25649929
SNP Position Genomic:     13301
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,3)   caucasian(G,31|T,3)   total(G,60|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:17351):
AGATCTTTTCGCTAGAAGATTCCTGTGCCCTCAGGTGGGCGCCCTTTCCTCTCACCACTCCCTCTCCTCCGGAGCGGGCCGAGGTGAGCGGGTGCCGGCC
Y
TGGGGCTGCCTGAGTGCTAGGCAGGGTGTGGTCCTGGGCATCCTTGGGCCTACCAGCGAGCCCTGCTCAGGGTGTCGGGCGCCGGCGGGCAGTACTGGCG
Celera SNP ID:            hCV12023160
SNP Position Genomic:     6623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17352):
GGCCTCAGGCAGTCTTTGTGCCTCAGCCTCCCAAAGTGCTGGATTAATGGTGTGAGCCACAGCACCTGGCCAATAGCTTTATTGAGATTATAATTCAACT
R
TCATGATTTATTCATTTAAAGTGTACAGTTCAGTATTTTTTAGTATATTCACAGAGTTGTGCAGCTGTCACCACCATATAACCTTAGAACATTTCATCAT
Celera SNP ID:            hCV1721653
SNP Position Genomic:     10454
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17353):
TTAAAAAGCTTCTAAAAAGCTATTTCGCCAGGCACGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGG
R
GTTCGAGACCAGCCTGGCCAACACGGTGAAACCCCATCTCTACTAAAAATGCAAAAATTAGCCGGGCGTGGCGGCACATGCCTGTAATCCCAGCTACATG
Celera SNP ID:            hCV12023153
SNP Position Genomic:     15618
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:17354):
AAACTTGTGACTTGTGTATTATCGTCATTGAGGATGTTTCACTCATGTCTGTCATTTTATAAGCATATCATTTAAAAAGCTTCTAAAAAGCTATTTCGCC
R
GGCACGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACACGGTGA
Celera SNP ID:            hCV12023154
SNP Position Genomic:     15547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:17355):
ACTCAAGAATGAAGAGGCACCAAAAAGGAGAGATGGTGCTGGAGTAAATATCATTAGTGCCAAAGGGATTCTTCTCCAAAACTTTAGATGATAAAATGGA
R
TTTTTGCATTATTAAACTTGAGACCAGTGATGCTCAGAAGCTCCCCTGGCACAATTTCAGAGTAAGAGCTCGGTGATACCAAGAAGTGAATCTGGCTTTT
Celera SNP ID:            hCV12023155
SNP Position Genomic:     15303
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,3)   caucasian(A,32|G,2)   total(A,63|G,5)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17356):
TTAGTCTACATGTTGGCAGCATCTTTACTTGGCCTGGGTTTGCACCCAATTTCTGGACATTTTATAGCTGAGCATTACATGTTCTTAAAGGGTCATGAAA
M
TTACTCATATTATGGGCCTCTGAATTTACTTACCTTCAATGTGGGTTATCATAATGAACATCATGATTTCCCCAACATTCCTGGAAAAAGTCTTCCACTG
Celera SNP ID:            hCV27466991
SNP Position Genomic:     12990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17357):
ATGAAAATATATTTCCCTGTAAGCTGAATTACTCATTTAAAAATTTTAACTTCTATATGGGACCCGAATTAGACACTGCTGAATCCTGTACAGCCTTACT
Y
ATAAATAAAGTACTTACTGAATTTCCACCATTCAAATTCATTTTTCAGGTGTGTTGACTCTCACATTAGAAACTGCTCAACTGATAAAGACTTTCATGTT
Celera SNP ID:            hCV12023148
SNP Position Genomic:     16176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17358):
GACTAAATGCTAGGGGGATTCTAATGCGCATTCGGTTGCCTCTTCCAGAGCACGTGTTTGTTTTTTGTTTGTTTGTTTTTTGAGACTGCACGTGTTTGTT
T
GTTTGTTTGTTTGTTTGTTTTTTGAGACTGAGTCTCACTCTGTTGCTCATGCTGGAGTGCAGTGGCGCGATCTCCACTCGCTGCAACCTCTGCCTCCTGG
Celera SNP ID:            hCV26884597
SNP Position Genomic:     7277
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17359):
ACTAAATGCTAGGGGGATTCTAATGCGCATTCGGTTGCCTCTTCCAGAGCACGTGTTTGTTTTTTGTTTGTTTGTTTTTTGAGACTGCACGTGTTTGTTT
G
TTTGTTTGTTTGTTTGTTTTTTGAGACTGAGTCTCACTCTGTTGCTCATGCTGGAGTGCAGTGGCGCGATCTCCACTCGCTGCAACCTCTGCCTCCTGGG
Celera SNP ID:            hCV26884598
SNP Position Genomic:     7278
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,8)   total(G,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17360):
AGGCCTGTAATCCTAGCACTTCGGGAGGCTGAGGCGGGAGGATCGCTTCAGCCCAGAAGTTTGAGACCATCCTGAGTAACATAGTGAGAGCCCCCCGTTT
M
CACACACACACACACACACACACACACACACACACTTTTTTTAAATTGAGGAAACGGTGAGTTGAACATGAGCAATTATTCCTTATATATAGTATTTCCT
Celera SNP ID:            hCV26884599
SNP Position Genomic:     7742
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|-,4)   total(A,1|C,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17361):
TGTCTCACTCAGTCGCCCAGGCTGGCGGGCAGTGGCACGATCTCGGCTCACTGTAACCTCCACCTCCCGGGTTCAAACGATTCTCATGCCTCAGTCTCCC
R
AGTAGTTGGGATTACAGGCGCATGCTACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTAGTATTTTGTCA
Celera SNP ID:            hCV27466830
SNP Position Genomic:     13254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 45
Celera Gene:                 hCG1744287 - 207000006159771
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(8533084..8611836)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12205):
TCCACCTTATCTCTACATATTCAATGGTACCATGTAGCATATTGGGCTAAATACTAACATTTGAGCTTCTTTTATTAAAAGTCTGTGCACATACTCTAAA
ATAAAAATAATTAAATGTACAGAAATTCTATCTGAAGAAACTAAACACTGATATTTTATTCCAGGTTGATTCATTTCTAATCTAAAAGTGGTGTTTGCTT
GAGGGAAGGTAAAGTACCTTGAAATAATATAGATACAGGAAAAGATTTATAAAACATTTGCTGGAGGTTGATGGTTTAAGTTGTAAATAAATTGCTTGAT
TATGTCTTTATTCTTGCTTTATGTAGCCTAATATATTTCCTTGTTAACATGTACTTTTTCTGATTTGCAAAATATTTATGGAGAAATTGCAATGCTTTCA
CAGATTGTTGAAGTAGGTTCATCACATATAGTGTTAAGCTTTGACATTTTTCAAAGGGTAAATATGTTTTGACATTTCTTGATGAACAGCTCAAATGATG
AAAAGCAACCATCTTTCCTTTGTTGTCACCCTATTTCCAGGTTTGATTTGAATATATATGTATACAAATTCTTTTATTGGATGGCAAATTCACTAGACTC
TCAAAAGCTTAACCTGAGTGAAACAAAAGAAACAATCAAGTGCTGTTTTCAGTCTTCCCACCTGTTTCAGAGAGGAAAAATCCTTGAAAGGCTTTCTTTT
CAATTTTCCAGCTGAACACCCTCAATAAATAGTTTATGATACATCCAGCAGATCTTAATGTGGTAGGAGTGAAAAAGTAATTTTAAAATTACAGGAAACA
CTGAAACCAGCTTCAAAAACCTTTCTCTCTGGTAAGCCAGGATTCTTCATGTGGCCCGCCCTGATGGTGCTTTTGCACCGTAAGGGATACCTATTGTGAT
CTTGGAATTAAATAGGTCCCATTTTACAGAAATCCAAATCCCCCTCCCTTTTTTTTCCATCTGGATACATATTCTTTAAATTTGACTCATGATCTCCAAG
TGTCCCTGAGATGAAGATAATAATCCTTTTGAGATCTTGCCATTGATTTTTTTCTTTTTTAACTTTTTTAAGTGAATAAGGAAAGCATCCAATACAATGT
TAGTGCCCTTGGTAACCTAAACTTTCAAAATAGTATACAGATTTTTAGCTGTACCACTCCCATTAAAACGATGGAAAATCATTTCAGCTAATTCTGCATA
TGCTTGGAACATTCACCCACACTGATCTTCTACTAAGAATTAGAAATGCTCAGCTAAGCTAAGTAATCACCAGGTAGTTAATTTCAATTCATATTCTGGT
ATGGTTTTCAGAATGTTAAGCTACAATGCCATATTTATTCCAAGAAAATATATTACACACAATTTAAAATATAGTGAATTTAAGGTGGCTTCTGATGTGA
ACTACAACAATTTGTAGCTCACAGCTGTTAGTTAATGGTGCAGATTTGCTTTTAGAGATAAATGTAATCAGTTAAACATTTGACTACCACATTCATCTAA
CTGAATGATATCTATATGCAAATGTAGGGAAGTAAAATTTAGAGCACAACAGCCAATAGATCATGTTCTAGTTTGCAGTAAACTGTTCTCTTAAATTTCG
ACAACAGATTTTTCAAGTTTTTGTGTTCAGTTGGATTATTTGACAGGAGAGATCCTTGAGGCATGTTTGTTTTACAAAGTTCAAAAGAATTCTTTTGGGT
GATCTGATTCCTTTTTTCAGAAACCTCAGTTCTAATTTCTCTTTGTGGGTTATAAGACCTTTTACCTTTTGGACCATATAGGCTTATTTTTTGTTTCTTT
AAACCAAATCCTGCTTTAGTCAATCCACTTGGCTTCTCATATTGGTTGTGACATAGGTTTGTGTATGAAAACTGTAAATATAATAACATTGGCATAAACA
AAAGGGTCTCCTCCCCATCTCAGCATATCCATGAGTCTCAGCTGGCATGCTATCTTAACTCTGTGAAGTCATCAAAAGCCCAGACTCCCTTTGTGTTGCT
GATCTGCCAAACTTAGGGTGTTGCATTTATCCATAAAAGCCAAGATGGTATATCGCCGTTTGGATATTTCACCAGAGGGAAGAGGTAAAGTGAGAGCACA
TATCTTCTCTCTAAGCACATGACCTGGAAGTCTCATGTGTCACTTCTGCTCTCATCTTATTGGCCAAAACTGAGACATACATCTACACAGAATTACAAGG
GATGCTGGGAAATGTCATCTTTATTCATAATAACCATGTTCCCAGTGAAGAAAAGAAAACAGATATTGGGGAATATTATCTTTGCTACTCTTCCCATGTC
TTGCTCACAACCAGCTTTCTTCCCAGTCGGATATTCAAATTTATCCTTCTTCTCTGCTTATCCACTTTCTTCTCTTGTTTACCATTGGGATAAAATCTAA
CTGCTTCTGTGGAACTTTAAGTTGTATTAGCCTCTTTGGCTTACCCTAAAGATTCTAAGAACTTTTACTTCTAAGTTCTGGTCTCAGGTATTTTATTGTC
TGTTTGGCAGTATTTGTGTGGTTCATTTGACACTAGTTGTTTTGTGTTGCCATTAGATGTTAAAAATTACTTTTTATGTTCTCACGGTTTCTATGGTGGG
AATTCAATAAATGTTGACTTAACAAAATCAGAGATTTAGCAACATATGACATGCTTCTCAAGCCTAACTTCTAAGGCTGGTTTTTGGTAGTAGGAGCTGC
CTTATCATCATTTTTTAAAGTATTTACACACACTTTTCCAGAGCTGAATATTTGTTGTTCACCATTCTTTAAAGTGTATGTATTAAACCCTTTTCATTAG
TCACTTATATACCATCCTTCTCATCCTCCTTCCTAAATATATATGTACAATTCTTGATAGACTTTCTACTATTTTATTGCATTAGAACAATTGGGTCAAA
AGTCTGATGTATTCTACTTTTGACACATTGCTAATCTTTTTTTTTTTTCTGAGACAGCATCCCACTCTGTGGCCCAGGCTGAAGTGCAGTGGCACAGTCC
CAGTTCACTGCAGACTCGACCTGCCTGGGCTCAGGTGACCTCCCACCTCAGACTCCTGAGTAGCTGGCACACATCATCATACCCAGCTAATTTTTGCATT
TTTTGTAGAGACAAGGTTTCACCATGTTGCCCAGGTCGATCTCCAACTCCTGGGCTCAAGTGTTCTACCCACCATGGCCTCCCAAAGTGTTGGGATTATA
GGTGTGAGCCGCTGCACTCAGCCACATTGCTAATCTTTATACTAAACTAACAATATTCTTTCAATGCCCCAAAAGCACTTCTAATGCACTATACAAGCAC
TTTTGGCATTTGCTGCAGTATAGTCTTGATTAGAAAATGAATCAGTCAGTGGCTCAGCAGGAGGTAGACAGATGGCTCAAACAGTGTAATTAGAAAGTGT
TTAAAAAGCTATTTGCAAAGAAGTAGGCAGGGCTAAGGAAAACCAACTAGGGATGCTAAGCATGCTAGGGTCAGCATATCAGGAGCCACAGCACCCAGGC
CTAATGGGGGAACAGAGGAATTGGACACCAGAACCAGCTGCTAGTACCTGTAGCTGGGAGAGGGCTTCCCAGTAGAAGCTGTGGACTTTGGTAGAGGGAC
CCAGCTGGCCCATTATGACCCTGCAGGGTGAGTCAAGGAGAAGAAAGACCCTAATTTCATCTCTTGCTAGTGCCTGTCACTAGTGGACTCCAGCTGCAGT
CCTGAGGTTAGTGGGTGTAGTCCCGAAAGGAGTGACCCCCAGAGTCTAGGTCAGGCCAGAAAAGGTGAATGGTAGATCTAGAGGGACAAATGGAAAATAT
CTAGCATAGAAAACATATCCAATTTTATATACATTTTCCAAAGTTGCCAGTTACAATTTTTTTATTTTTGTTTTCCTAGTATTTCAAGGATGCCATTGAA
TAAATTGTAATGAATTTCCTTTCCTCTTTTGTTTGAATTATACTGTCTGCTTTTACTTCAGCACCAGTCTTAAGGCTTAAAAGATTCAGAGTAGAGTTTA
TATTGAAGACATTTAGACAGAAATGAGTCCATTCCAATAATATCCTTTTAGACCCCTAAAATAGGAACATTATTCAACGTAACATTAAATTGAGCAAAGC
CATTGCATGAAGAGCATAAATTAGTTATTGTCAGCAAGTTTGCAGTATGAATGAAAATACAGGAATGTAATGGAGGACATCTCCTTTGTCTAGAATACTC
TATAATTGTGGCATTTAGTTATGTAGAGGACTTCAACACCATATGTTTTAACAAATACTTTGGGTCATAAGGGTATGTATAATGGAAGGACATAATTAAA
GYTTAATCTGTTCAGTAAAAAGGCACCATTAATTACTCTAGGCAATTTATTGGGTTATTAATTGGTTCTGGAAACATGTCAAGATACTAATTTAAATGGA
ATTTTTTCCCCTAATTGTCTAGACAGCCCCTCGACCATATACTGCTCCAGGAAATATGCAGCCTCCAATTCGATTACAGCCTCTTCCCAGTAATCCTGCA
GTAGAAACTGTTCCAAAGGTAACTTCAAGGTCCAGATCAAAAACCTCATTGCTGGAAAATGAAGCTCTGTTTCCCATTGGGGTAAATGTTATTTTTATCA
ATAAATATATTTTAATTTTTGAGTAGATTATTATAGGTTATTACAGTGGTCAAGGTATTATATTCGATTAAAATCTACACAGTGAAAATTATATTGTATA
TGTATGAAACACTTACTACATACTTGTGATTAATTATGTCTTACTCAAATGGGAAGGCCTGTAATTTGTGTCACTGAGCAAAAAAGTAAAGAATAGATTG
GTAATAATGCATGGTGATTTCTCCTTAGTTTACAAGGCTGATTGAAAAACAAAGGGGAAAACTTTTCTGAACCAGATACAACTTCTATCAGAAAAGACCT
AGTGTTGACTTCTTCCAAATTTTAAACGCATGAAACCTAGAAAATGAAACTTTCCAAGAATAGGTTTGCATTTGCATGCCGACTTACTTTCCCATCAATG
TATGAAATTGCTTCAAGTTTGACTTTTAAAAGGTTGAATATAGAAAGAATAGAATGTCCATCTTTAAAAAATGCTGAGTTTATCACACATAGGAGCTTGA
TTCTGCTACCCTCTCAAGGTTATATCTCAGATAATTTTCCCTTATTTTAATAGAGCACAGGAAGGAGGTATGGTAACCATGAAACATGAGTTACTTAAAT
AGGGAGGAGGAATTAGTACATTCACTAATTAGGGAAAGTATTGTTAGTTTTTCTAAAATGAAGAAAATTTTGCCAGCTTAAGAAAAAACCTGCGACATGA
GTACAATTGTCATTATGTTCAAAGGAATGATTATGTTTCATTTAAGAAACGCAAGATATATGAAATTAAGATATTTTTATTTTTAATTGACAGATAACCT
TGACACTAAGAAATTAATTCAGACAAGTGATTGTGTTTCACAGTAAAAGTATAAATACAACTCTAAAAATAATAATATATTAATCTGCTTAATATGCTTT
TCAGTTTCTGAAGCACTTTTCATAAATCTTATTTCAGTTAATTTAATAATAGTTTTCTAGAAACCAAGAGAAATTAATCCAAAAGTGGTGGTGCTTCATC
CAGGGAAGACTGCTTACAGTTAGGCAGGAACTTCTTGAGTCTTATGTCAATTAGTTTGACACTTTCTAGGCTCTGGTCTCCACTTTGAAGACCCAGAGAT
TTCCTGTTTTAGCCAGGGTCCAGGAATAGTCACATCTTGTGAGACTGTCCAGGCTAACTAAACGAACTCAAAACAAGCTCATTTTTCTCTAGATAATAAA
CGAAAATGGGCAACTCAATGATATTCAGGGGCTATTTATTCACCAAGAGATGTCATAGTCAAGGCTTATAGAAGAAGTGCATTATCCCCTAGTAGGCAGA
CATATATGAGAAGCCAAATCACAATGAGAAAGTTGCCTAGTGAGCATGGAATCAGAATGAGGGGAGATAGTGTAATAGAATGTTAATCGTATAAGGCCTA
TATGGCCTGATACACCCATCTCATCTTGGGAATGGGCTAGCCAAAGGTACCAGAAAACTCAAAGGTCTTTGGCTAAAATCCYCTGTATCCTCCAGCAGTA
ACTTTGCCATTAGGACTAGAAATACKCAAAGTCCAATGAGTAGGATTTCCTCTCCCCTAGATAGTACTTRGATGGGTGCTTTCCATGCTTGCCAAGGTGA
TTATATTATTTTTTAAGKTCCATAATTATTAATGCTACTTTGATCAATACTTTGTTTCATTAGACATGTGAACACCATCAATCAGGTATTATTTAAGCTC
TGCTGGCTGGGGAGCAATTTTTTTTTCCTTTAATGTGACTCTTCAAATCTGTTCTGAGCCACTGGATAGATTTACTAATTGAATCTTTACAGGGCCTTTT
CCTGTTTCAAGTTTTTGGGGTATGTATTATTGAAAGACAGGCAGCTAATGGTAGCTGTCATGTGCTGACAAGATTGAGATAAATTCCACAATAATGTCAA
CTAGCTAAACTCACTTTTCATTTAGTAAATATTTATTGAGCATTTATGATGGCCTTGGTACTGCTTTAGGCATCAAGACAGACAAAAGTAACTTATTGGA
GCTTATAGTGTAATGTTCACAGACAAAGTATACTGTGATTATGTCTTATCTGTAATTTTTTTCAATGGCATTGATGATGAAAATGATTTAATATAAAATC
AGACAAGAAGCTCTTAAAGAAGAATAATATTCTGTACATTGCTGAGTATGTAGTGAGCACTCAAAAAACTCTTATTGCTTTTTTAAAGAGTAAAGTATAT
ACATGTTGAAAGTACTTGAAGGTACAACAGATAGAAGTAGGTTGAACTTTGCTAAGTAGCAGGAGTGAGAGTCTTTAATTTAGGCAAAAGTGATTTGGCC
AAAAACAGACGGGATGAGATGCAAATGAGGAAAAATAATGACTTGATTGAAAATGAATGATGTTAGAATGAGAGTTTCTCATATATTATTGGTAGAAGTA
GAAATTAGTACAAGTATTTGTGAAGGCAATATGGAAATATCTATCACCATTTTAAATGAACATGCTCAAGCATTTTAACATGTAGGAATTTATCCTAGGA
ATACACAATATGTGTAAAGAAACAGATTCAAGAATATTTTGTACTGTTGTATTTGCAATAGTGAACAATTGGAAGATACCTAAGTAATAGGGTATTGTTT
TAACTTGTTATGTTATATTAAAGTACATTTAAAAAGTATTATTACTTGCACTGGCATGAAAAGATGTCCAAAATGCTGTCGAACTAAAAGAAGCAAGGTA
AAGAACAACATGTTAATTTTTTTGAAAAACTGGTAAACCATTTCCAAAGAAGGCATGTAATTGATTGATGCCTACTCAGAAATAATTTTGTTTTAAATCC
TTAAACACAAAAAGTTCTAGATTCATTGATTTTCTTGTCATTATTTTTTACTTATTTTTATTTTTTATTACAATATAAACGTACTCCTTTACAGAAAAAA
TGGAAAATATAAGAAAAGAAAAATTAGAGCTTGACAAAATGCAATATCAACCATTCTAACAATTATAAACTCCTTGGTGAATATCCACTTAAATCTCTTT
CGGTTCATATGCCTTTTTAAATCAAAATATGGGCTATCCATGCCCTTCATTTATAAGTTCCTTTTGCTCATTTAGCAATGAGAGATATTTGGAGAGTACT
TTCCTTTCTACAAAACAATTTTTCACCAATAAGCATATTAAAATACAAACTAAGTTGATCAAAAATTAATTAGAAATTTAAAAATAAACATAAGTACAAT
ATAAATTTATATTGTAGAAATAGAAATAAATTGGTGCAAAATAGATAAACCTACTTAAATATTCCTTAAAATTTGGGAAACTACCTCAGATACCCAAAAA
TTACCAATTTGTGAAAATTCAGTGACTCACTTATACCTGACAAATGTAATTATTGACTATACCTTTGGTGTTTTTTAATGATTAAAATAGTACATGCTGA
TTAAACTCTAAAACAATATGAAGGTATATCCCTAAAGGTAGCCACACATTCAAGTTTTTTCAGTCATTCTTATTTTTAATCAGAATTCACACGTAAATTA
TTTAAAAGAAATTTATGGTCATACCATATGAACCTTTTTATTTCAGGATAAATATATTCATGTTATTTTTGTTTAAGCCCGGTGAGATCTCTCATAGGAA
CAAAGCAAGTTTTAGTTAAACATCTTCCTATTGATGGACTTATATGATGTTACATTTTGTGCAATTAACTTCTTCATATATATGTGTGTGTGTGTGCATG
TGTGTATATGTATCCTTATACACATTTATATTAGTGAACTTGTATAGTTATCTGTGTAGGATTTATTCCTACCACTAGAATTTCTAGGTCAAAGGATATA
TACCTTAAAATTTTGATAAATATTTTAATTTTTCCTCTGTAAATGTAATAATTTACTCTAAATAGTACATGAGTTATTTATGCTAAACAGTACATGCCAG
TTTGTTTACAGCTTTGCAAACCCTGCATATTCTAATACCTAGATGCCTGAAATAAGAATATGAAAAAAGTCCTAATTTCCTATTGCTAACTGGACTAAAG
CTCTGCTTTAAAGCACACTTCAAACTTCTTGATTTTAAATTGTTTAGTTGTATTGGGTTTAATGGATTGTTGAAGAAAAACCCCAAAAGTACTATAAAAG
TGTCATCACTTTATGTTAGTTAAAAAATATACCACACAAGGTTAGAATTTTTAATTTGCYGCAGATACTACAAAGTGTCATTTTTCAGCAGACTGGAGTG
TTTTGAGTTTRTCTATTGATATCAGTTGTGTTTGCATGCAATGTCAATCATTTAGGCTTGTCTTTAAATTTGGGTTACATTGAGTCACTGATTCTGTTTC
ACTGGTTCTTATGCGATGAAATATGATTACAGGGCAAGAAGGCAGTGATGAAGTTCAGGAACTCCATAGGCAATTCACAGAGAATGAATTCATATCAACT
TCCAAACATTAACAGTTACATGATGCCTATTCCTCCTCCACTTCCCCCAACTGGGAAAATCACAAGAGAAAATAGATCTGAAACATGGAGAAGGAGAAGA
TTTCGTCCAACCACTGCTSCAAATGGCTTAGAACCTCTTTTGACAAAGGTGATTATGGAACAAATTTTTCTTTTATTAATTTATCTCAGATTACATTGCA
CTATTAGATTTCTAGGTTTGCAGTAAAAGAATTTGGAGGAAATTGCATGCAAAACGTTGTGTGTAAAGAAATACAATTTTATAAGTAAGCTTGAATGTAT
CTGAAACCACAGGCTTGAGTAATTCAGTTGCATAATGAGTTTAGCATAATTAATAATAAAAGATTTAACAATTCTTGTGGTCAAATTTAATTTGACCAAT
ACCTATTTCCAAATCATTTATTTCCTTAAATGCACCTGTTCAGTCACATGTTGTTAGAAACATCTTTACATCTAAGTTGTAAAAATTCAGAAACCTTGAT
ATACCTAAAAAACACAATATAGTTTATTTTGAACAATTTATGGCAAATTACTGTATCATACATAGATAAATTATTTCAGTAATTTTTTAAGAGATTACAG
TTTGTTGTACTGATTTCCTCAAAATACTAATAGAAGAAACAATTTTAAGGCCTGTTGGACTTTATACACATACAAGCTAGTAAGAAGGCAAAATATCTCT
TCATTTTTATTATGTTAAATATACAACCAATAGCAATTAAATGAAAGTTTTGTGATTGGCAAATAAGCTGGGTCAACATTTCACTGACTGACCATCAGGA
AGTGAAGTGCCAGCATGCACATAGATTCTTAAAAACCAACTTCACTTTCAGGAACCTTATTCACCCCATGTCCACATCTCACTCCCAGCAGCTGTCCTTA
CCTCTAACCTTCTCAGAAGATGGGGACCATCTTCTTCCTGCTTGCTTGAATTTCCTTTTTTCAACTCTACTTTTACCAATTCTCTCCCTTGGTTGCTGTC
TTTGACAGGATGTTTTCTCTCTCATCCCCAAGGCCCACCCTTGCCCTGCGTCTTTGATCAGATACTCTTTCACTGTCGGTGGTAGCTCATACTATCTGTC
ATTCTCTCTAATTTGGATTTGCTGGCTTCCTCTAATACTCATCTCTGTCTCTCAACATATCCAGGCCTTAGATAAAGGAGCAAATTATTTCCTCACATGC
TGCAACCTTAGACTTCTGTTTTATCTTTTCTTCATTAGTAAGTTCTCTATAGAGCAGTTTACTGGAGCTTAGTCTAACAACCCCAGGCAACTCAACTTAC
AACAATATTCTTGCTCACAATTTTATGGTCAGCTGTAATTCTAGGACCCAGAGTGGAGGAACAGCTCAGAATGAAGGAGTCTGGAATATGTTGGCCTCAT
TCATGGGCAACAGAACCACAGAATGCTTTTAAGGTTCCACTCAGGAGTGGCACATGTCACTTACACTTGAATGCCATTTGGCAAGCCCTTGACCAAGACT
GACCTCAATGGARTAGGAAGTATCAGTCTCTCACAGAAAAGGGCAGCGAATATTTGGAACAATAATAGAATCTACCATATCCACTAACTTAATTTTTCAC
TCTGCATGCTGGCATTGGTTTCTACCTGGCCAATGAACATGCTCTCAAAAGATGTGGCTCATACTTMGCAAAAACAATGACTTACTCATCATTCTGAAAC
ACTTGGGGGGCAGGATTTGATTTTCGGATGTTAAAATGTATTACTGGGATACATTCTACCTGTTCATGCTCTTTTAAAACACAAGTTTAAATGTCTCACA
AGCCATAAGAATATATAAAGTCTTATCTATATGTACAAGTTCAACAACAATAACCAAGCAAGCACCATGCACTCACTACACCTTCACGATGAACTCTATC
ATATTATGCAAGAGCCCCCTTTTTCCTGCCCCATCATTCTTTAATTTTTCCAGAGCAAGCAYCATGCTGACTTCCCTGTGAACTATGTCCCTGCTTTTCT
TTAGAGTTCTATCGCTTATATGCATAAAACTTCAGAAATAAGCTCAAACCTAGCATTGTAATGAAAGGACGCTATTTCCGGAAGAAAATAAGCTGAATAG
AATCTTTGGGTCACAGCCTGGGTTTGGTTTTTAAACAGTTTTAAAAGCCCCTTCTGGGGAAGTCAGAGTGGTCAGGTCATGAGTGTGTCAAGGTATCTGG
CGAGGTCCTAGTGTGAGCCAGACACTGGATGTCCAGCAGGAAAATGACCAGGAGAATGGGCTTCTGTAGCTGGGCATGGAGGAGGGAGCAGCAGCCTCTT
CATCCCAGGGTCGTGACAAGTGAAGCACAAATAAGCATCTGAGCCAGGTTCCCCTGGGATTCTGCATTCAGGTTAGAAGCACAGCATGGTGTCATCAGGC
ATGCTGGCTTTGACAGACCTTATCATGTCTGTCTCCTGAGTCACAGGGCTTCAGTCTGACTTACTCTTCTTTTTTTCCAAGAAAAAAAAAACCTTTTTCT
CTCTTTTTGGAATCTCTATTTTGGGAATGTTAGAACTACTAGACTGATGCTCTAAGATTCTTAGCTTTTCTCTCCTACTTTCTACCTCTTTGTCTTTTTG
TTCTACTTGCTGAGAGGTTTTTTTTTTCAATTTTATCTTCCACACATTCTACTGAGTTTTTTCTCCTGCCATGTTTCAATTCTAAGAACTCCTTTTGTGC
TCACTGAATGCTACTTTTAAAAATGCATCTTATTCTTGATCTGTATGATTTTAACTCCGTCGTATTTGTGGAGACTTGCTTTGTGAGCTAATATATGTTC
AGTTTTGGGAAAGAATAATATCCTTTAAATGTTGAAATTAAGGTTCTATAAATGTCCAATAGATAAATGTTAATTATGTTACTCATATTTTTACATTTGT
AGACTTTTTATGTGTTTAGTCTCTTAATTCTTGAGTTATAATGAAAATCCATTCTCTATAATTATGGATTTGTCAATTTGTCTTTGTAATTATGCCAAGT
TCTGTTTTTAAATGTTTAGAAAGTCTTATATGCTCTCAGACTTAAGATTATTTTAATCTTACTGGTGAGGAGATCCTTTTTGTCATATTACTTTTTGTCT
TAAAATCTATTTTGTCTAATAATACTTCTTATTTTCTTTAGTGTGTCKGTGTGTGTGTGTGTGTGTACTGTATATGGAGAGTTGACACTTGAATAACATG
GGGGGAAGGGGTGTCATTTCTCTGCACAGTCGAAAATTTGTATATAAACTTTGACTCCCCCCAAACTTAACTACTTGTAACCTACTGTTGACTGGAAGCC
TTACCAATAACATAAATATTCGATTAACACATATTTTGTATGCTATTTGTATTATATACTGTATTCTTACAAAGTTAGAGAAAAGAAAATGTTATTAGGA
AAACTGTAAATAAGAGAAAATACATTTATACTACTGTACTGTATTTATCAATACCATAAGTTATGTCTTCTCTTTACGAAATGAATCGTCCACCCGTGAG
CAACCTCAGCTAGAGAATTCAATTCAACCTTTTCTTGTAATGTCATGACTTTGCTTCCTGGAGTGTTTCTCCAAGTGAAACTTTGTTGAGTCCCATGATG
TTATTCAGTGTTTACAGTATTACGCTAAACACGATGGAAAATATGTAAGAACTTTGAGAGATTACTTTTTACTCTGATAGATGATTTACTAAAGAGATGA
ATTGCTCGTGTGGACATGACTAGTGTCACATGGCATTTTAAGTGGATACTCACAACACTTGAGCTCACTACAATAGCAACAGAAGGTGGCTATGAAATTA
TTACAGCAGTACAGTATGTACTACAGTTAATTTTATGCAGTTATGATTTAATATTGCATCTTTATATTTGTTTACATTTCTCTTGATTGTAAATGGCACC
ATGCATGGTCTGTTAAGAGTATGTGTAAGTTTTCATAAATCTTAACTTTTTATAAYAGATTTGTGTGTATTTTATGGTAGTAAATGATAAAACAGACTAG
CATCTACATATATTTTATGCATTCATAACATACATTTTTCTTATTTTTCAAAATATTTCTAGGCTATACAGTTTGTCTTCAAGTTTTTCAAATTGTTGTA
AATCTCCAAAGAATTTTCCAACATACTTATTGAAAAAAATCTGCATATGTGTGGACCCATGTTGTTCAAGGGTCAACCGTATATATACACATATGTATGT
GTGTATATGCATATGTGTATATATATTCCTTTCACTTTTAGTCTTTTGGTGTCTTTAGTTTTAAACTTTAGGCTTTAAATATGTTTATGTAACATAGGGG
TGGATTGTGTTTGATTCAATCTGAGAATCTCTGTTCTATTAATAAATGAGTTTAGTCCAAGTATATTTACTTTGTTTAGTGATATATTTAGACTTATTTC
TACCATCTTAGTTTTTTTTTAACTTACCATGACATTTCTTTGTAGAATTTTATGCTATTAATTGCCTCTTCCTTAAACCTCTCCTCTCTTGCCTTCCATG
GCATTCTGTTTTCATGCTTCCTCGGGGTCTCCTTTCACCTCTTGTCCTACTCCTTTGTGATTCTTTTTCATCTTCACCCATAAATCTACCCATCCCTATA
GGCTTCAGCCTTTACACTTGTTTTTCTATTCAAGATGTAGTCATCTTCACACATGATTTCATGCTAGATGTCTGTTGGAGTTGACTCTAGCCCTGATCCT
TAGGCATCGAGTAAAATTGTCTCAGTGGGGAGAGTCACACATTTTACATTAATACTTGAGTTTCGTTTATTTAGATATAGAAAAGATTCATTTAAGGGGA
GATGGCTCTTGTGACTAATTTACACATAAATTCATCTTTCATTTTATGACTACCATCCAGCAAAGCATCTTTTAAAGGCTCTTAAAAAAAAGGAAAGAAA
GAGTAAAAAGCAATGAAATGTGGCTTGCTGGTATCCACCACCTGCTCCTCTATGAATGTGTAGAACAACATGGTCTCTGGCTTCTGTGATTCATGTCTCT
GGGGATGATCAGTAGAGCCAAATGGCAAGGTGTGGTACGACTCACAGTCCAGCAAGTTGTCTCTGGACTCTGTTGCTTTGTCCTGTTTTGTTCTAGCACC
TTCAGAGCTTTATACTGCATTTACAGAATCCATGAGGCTAGTTACATTTTGCACTAAGGTTTAACTCACTCACCTCCAGACTTTTGTGTTCCCACTCAGG
ATCGAGGTAGTCTAACCTTACCAGTCACCTACTCTATACAGCAGCCTGCTGAAAATGTGGAAAGTTTCATATATAGCTTTTATAAAAGGGAAAGTACAGG
CTTCCAAATAAGAACCTACTTAATGGTTATGTTTATCTATTTTAGAAACCAATAACAAAGTTTGCTTTTATTTTTTATACATTTTTTGAAAGAGAGGGCA
AAAAGTTTATGACACTAGTTTGAGACTTTTCCATGAAAGCCCCCTATCTACCTCCTAGGTACCAAATAAGCCCTGTGCAATTACAGATGCCCAATTGATA
GGTCCTACTGCTCCTCAAATTCAACATGGTTACAACTTAAGCCAGTTTCTCCATTCAGTTGCCTTATTTATTTTAAAGCACAAACTTTTGTCCTGTAATT
TGGCCTCAAAATCTATAATTTCTTCTTCCTTGTGCATTGCACATCCAGCTAGTTGCTAAGTTCTCTAGATCAGAGATGTCCAATAGAAATAGAAGGCAAG
CCACATATGCAATTCTAAAATTTTCTAATAGTCAATTTAAAAAGATAAAGAGAAACATGAAATAAATTTTAAGACTTTAATATATTTTATTTAATCAAGT
ATATCTAAAATATCATTTCCACCTGTAATCAATATGAAAAATTTTAATTAAGTATGATGTATTTTCTTATACTATGTCTTTGATATTCAATGAATATTTT
ATACTTACAGCAAATGAGCTACCTTTCAAATGCCCAGCATCCAAATGGGAGAAGTGGCTGCTGTCCTGGATGGCACAGCTCTAGATGCCACCTGAACAGT
GGCTCATGTACCTGATAATCCTTTTTCATCCTTACTGCTACATCTCTAGTTCAGGGGCTTGATAACTAATCTTTTAATGGAACTATTGCAATCATCTATA
TACTTGTCCTGCCTCTAAATGAGAATATAGCTCAGTCCAGTTTTTGTTGATAATGGCAAATGATATGCTAGGTCCTGAGGTTACCAAGATGGGTAAGACT
AAACTGTTTCTCTCAGAAAGACTGCAGTCTAGCAAGAGAGACAGATATATATATATACAATTAACCATGATATATTGTGATGAGTACTATAATTGTGATA
TAAATAAAGCACAATAGAAACATAGAGGAAAGAAATATTAGTTTTGACCGAGGAGATTAGAGAATGCCTCCTAGAGAAGGTGSCATTTGAAATGGGCTTT
GAATGATCAGTAGGAAGTTAGCAGATAGAACCAGGGAACTGAGATTGAAAAGCAGAAAGGGGAAAAAGGAATAAGCAAAATTCATCTCGGTTTTATTAGA
TTCTACATAATGGTGCTAAATTAAACTTTATGGAAAAACTCTCAACATGCTCCTCTACTGCTTGAAACCTTCACTAGTTGGCCCTTTCTTAATGAAAGTA
GGTATATTGTTCTGCATGGCTATTTTAAAATGTGGGTTTTTAAAAATTATTCAGGTATGGTGAAACTTACAGATTAAGAGACAATTGCCATCAAAAAGAT
AGATTGTTACTCACAGTTCCCAAGAGGAGGGGACACACCACATGCATTGGTCAGGGATCCATCCAGAATAATGTTTACCAATCTGGGCATTGGAGTCCGG
CTAAATTAATAGGTAAAATTAACCATCACAAGATCAGGTGCAGTGGCTCACATCTGTAATCCTAGTGACTTGAAAGGCTGAGGCAAGAGGATCACTTGAG
GTCAGGAGTTTGATACCAGACTGGCCAACATACAAGACCCAATCTCTAACACCTGTAATCCCAGCTATCAAGGAGGCTGAGGCAGGAGGTTGGCTTGGGC
CCAGGAGTTTAAGGCTGTAGTGATTGCACCACTATGATTGCACCACTGCACTCCAGCCTAGGCAACACAGCAAGACCCCATCTTCAATAATGTTAATAAC
TCTTACACCACACCATGCAGAGCTACACAAGGAAGCACCAGAGTAGGTTAGGAAGCAGAGGGAGTRGGGGAGGAAATGTGAGCAGGAACCCTTATTATCA
TTTCTGTGGGAAGGAACAGGTGAGAGAGATCCTGAAAATCTAGAGCTCTGATGCCTCTGTAAGGATTGAGGTGTTTCTGGGCACATTAGGAATAAGCATG
AGGTAAAGTTTACACAGTAGTAAGAAAAATGGCCCAAAAGAAAATGAAAAGAGTAACTATACTAAAAGCAAACTGGGAGGCAAAACCAGAGAGAAAGAGA
AGAGAAAGGGAAGAACATGTGTAATGTAGTGCTGTGAGGTTTTCATACAACCAGCTGCTTCCTAAGTCTTTGGGATATGAACACTCTTCCTCTGGCTTGT
GTCAGACTTTCTCTCTCTAGGGCCACCAGCATCAACATGGGGATTGCCACTTTTTATGGTCAGGCTGGTTTTGTATCAATCTTTATCAAGGAATAGTAAC
CAAAATTGGTGTTTGGTTTAACAAGACACTGTGAATCAGTTTTCCTGTTCTGGTAACTATTGAGTTTCTATAAATGTAGCAAGCTTCCTATATAGGGTAG
AACCAACCTACTGTAGCTTTATCAGAATATGGAAAGGACAGAATATGGAATGCCTAATTGTTCCATGTCTGTGTCCAGTTGGATCAATGTTAATTAGGTC
CTTACTAAGCATCAGCACTGGCAAGTTACTGGGGGCATGAAGATCACTAGGACGTCATCCTTATCTACTGAGAGAGAGATAATACAAGGGAATAGTTCCA
ATATCATGTGACTCATACAGTTGTAGAGGCCTGGAGATTAAAAGTAGTTGATAGTGTTTGGGCCACTACAATCAGTTCCGTTGCCAGACATTTAAATGTA
GCATGAGAAATTGCAATCACTGGGAGATAGTAGGTATTAGAAAATATAACACATTTTATGTTGCCTGGGGAATGTTGGAACTTATCCCATGGATAATGGG
AATCACTGGAGGGCTTTAAGCAGGAGAGTCACATGATCTGTTTAATAACAATAGATCACTCTGATTTCCAACAGGAGGGAGATTTTGAGGGATATCAGAC
TAGAAGTGGGGAGACTAATTCGTAGGGCGACCATACTTCTCAGTTTTCCTGGAATAGTTCAAAATTCTGCCCCTTTCCCCCCCATTTCCTAATTTTTAGT
AACACKTCTTTCACTATGTGTCCAAGTTTGGATGATAAATTTCAYGGTCACCCTACTTGATGTCCAGAATTCACCAGGGCTTCGTGAAGAAGATGGAGAG
GAGTTATTRCCCAACACTATCAACAAGAACAGGCCCTTTGACACTATACTGTTTGTGTGGGCATGGATAAAAGAGATTTCAGTGAAAACTTAGTATATCA
ATTCAATGCTAAATGTTGCAAATATATAATGACTGATGGGTTAACCACTCAATGGGCTTGCTGTTTCTTTATCAGCTCAGTTGTACTTGCCTGAGAAATC
TGAAAAGAAATGAGAAGGAAAGTCATAAGCAACYGGTGAAGGAAATCAGAAAGAAGAGCTTTAGTTATGCAGGGGCATGAGGCCTTGTTCCTGTTCTTCA
AATGGAACTGAATTTTCATGGAAGGTTTTGATACTTACTTGAGGATAGCAGAAAGGGCCGAGAAACCTTATTAAAGTTTCATTTGTCTCTGGTCATTATA
TCTTTGCAAGATGGTAAGTATAGAGGCAGTTCAGTCAATTGAAAGAAACTACTGTTTGTTTCCTAGTGTGTATATTTAATCACGAGCTGTCACTTGGGCC
TTCTGTTTGTTAGAAAAAATTTACTTGGTTGCAATAATTAGGGAATATTTTTTAAAAAGAGAATGAAATAATGAGACCCAAGAGAAAAGAGATTTTACCA
TCAGAAATAAGCTTTAGCAGAAAGAAATATGAATAAGAGGAAATGAAAAGGATAAAGGGCTGCCTTTTCCTGTATTTTTCTCTTTAAAAGTTTCTCCTTC
CAGTTTCTCATTTCATACACAGGACACAGGTCTTTCCCTGACTCTAATCCCACTATTACCTAGTATTTATATAGTGCTTATCGCCTACAAACTCACAGGG
CTGCCTCTAAATCCATGCTGCTTCAGAAAGTATTGCTTAACAAAAGGGGGATGCTTTTATTTAATCAGTCACTTCATTAAAGGTGCTAGGTGCAGCTTGG
AGCTGGATTTGCCTGAGGTCTGCTGATTGTGCAGTGGGCTGCACACAGGCATGTCACAGCTCCACAGTTGCCCAGGCAAGAGGAAACATGGGATTATGAT
TTTCCAAGTAGGAGTCAGACCTGGCATCATCCCCTTTGCTTCAACTGTGATTCAGGGAGATGTTTCTAATCTGCAAGAAATTATCCAGTTTGCTGATTTA
CTTTCATGGCTCTTGATGCCCTGTAATATGTCTCTTGATTATCTCTTTATTTGAGAGCTCTTCCTTCCAACAGGCAAGAAAATTTGCTTGAATTTTTAAA
TCTTGGACTTTCTCCCTCATTTATACTTTCAGATGGTTGCTAGCAGAATTTCATTCCATCAGATTTCTTTCCTCTGGTTTTTGCTTCAGAGAATAGAATG
AAATGGAAAAGAAATCATCTGAAGTGGAAGAGGATGAGTTTAGAGATGGAAATATTTTAGTAGTTCCTTCAAAAATGTTTGTTGCAGCGTTGTTATTCTT
TAGAAAATGCATGCTTCTCATGCATCTATAATTTGATGGAATCAGCTCAAATTACTGCCTTGGATCCACTTAAAGTTGGTCTCTGCACATTTTTTGTCTA
GCTTAAAATTGATTTTTAGGAAAGTGAAGTAGATGAGAAGGAAAGGCTGGCCTGTGTACAATTCTAGAGGCCTACAATTTTCTTACTAGCCCCCCYTAAA
GTCTTTCAACCCTCTCAGCCTTTCTTATTTCTCTTCCTCTTCCTCCTTTCCTTTGTTCTGCTTCTACTTCCTCCTCTTCCTCGTAGAGGTCAGGCAAACA
CTGTGCTCATTCACTATTATGAAAATATTTCAAACAATTAATTAGGAGTCAATGCCTAGGACATTGATTTTCTGGCATACACATTTACTGCATATTTTAT
AAATAATTTAAATTGGGCAATGCCATAGGATATCAAATAGGTTTTTGTAGTAATTTTAGAGACTTTGATCGGTAGATTGTTTTGATACTATAAACAATAT
TGATATTGGATTTTCAATCAACTGAATGCCCCTGTGAAACTGGATAGTCCCAAGCCCAAATTATTGATGACACCGATCTTCAGAATGACCGTAGAAGAAA
TCATACATGTGCATCTCCCTCTCAGATGGAATAAGCCCAGGGAAGGATGTGTTGTCAGTGCTCAGCTGTAAAGATAAAGCAGCCAATTACAAAAACTATT
GCTAAATCTCTAAGTCAGTTCAAACTGAAACAAAATGATGTTACTAATATTTATTTAGTTCATTTGTTTGGATTTTTATTGGAGAACCAGCTAACAGAGG
CAAAAGTTTCTTCTTGGTGTCATTGAAATTTTTGCTATATATAACAAACACACTCCCACACACCTCCCCACACACTTGCACTTAAAGTAAAAAATGACAA
ACTCTATCCAAATCCCCATTATTTACATTAAAAGTAGAAAGCCAAAACATATATGTTATAGTTATTTAGGAGGATTTATTTTGCAATGAGTTTGACTTTT
TGTGCATTTGTAAATTGACACTTTATTTAGATTTTGTTGGTAGGTACTTAAAAATAACCTTCTTTATTCTTCATATTACAATGTCAGGTAAGAACTCTCA
TTAGAAAGTAATTCGTTAATAAGCCTCATTTTTCTGTTTATTTCAGGATTCAAGAAGGATTCATAAAACATCCTTACATAGTAATGCAGCTATTACAATG
ATCTATTTGGGGAAAAATGTGCACCTATCTTCTGATAATCCTGACTTCCGGGATGAAATTAAAGTTTATCAGCAGCACTGTGGTGGGGAAAACCTTTGTG
TCTACAAAGGCAAACTACTTGAAAAAGGTACACATAAAATGTGAATGTTTTTTAATTGCTTGGAGTTGATGTTATAGATAAGCTGCTGTTGATATAATAT
CAAAATGACTTCAATCACTTTATGAAATTATGCATATCCAGGGACTTATAAACCAGCTGCCTAAAAGTAAATCTAGATTTACTGCTCTATGATTGAAACY
GAAGCAGCAATTACTCTCGCAGATTGTGGAAGAAAGGATTTGGAGTGATTTAACCTGGTAACAGATTAATTTTGGGATGGAGATATATGATCATTAAAAT
GTTGCACGAATAAGCTGTCCCCGAAATTCCAAGTTAACTATTTGGCTTGCCATAGTGAATTATGCCATACATTATTCTAAGAGAAAAATACCAGATTGGA
AATTTGTTCTTTAGAGGTATGTTGAGATAAAATCACAAATCCAATAAACTGCAGGGTGAATCACACCTAAATAACTTGGTGGAGAATTTGGCTAAATAGC
TTTTTAGTACATTTTTGCTTTCATTTGATCATAAATCCACGTTTGTCAGCATAGGATAATGTTTATATGCAATGTAGGTTTTTGCAAATTATACTGTAAT
GTTTTTCTTCAATATTTAGTTCAAGGGAGCAGCAGTGAAAAGAAATAGTGTTTACAGGGTTATATTGTTACTTCCTTGCTTAAGAAACTGGGTCCAAAAA
GTAATAGCATTTTTACTAATTAAAAGAAATATACGTATTTGGATAATCTTGGTAGGAGTTACGGGGAGAATTGGGGACAAACATGGAATTTTTACTTTTA
GTCTTTCTGATTTCCCTCATTAATTGAAGACAGTGACTATTACTTAAAATAAAATTCATGTCCTTAAAGAGAGACTATAAATTCATATTGAGGAATTACA
TATGTAAAACTTTCCATCACAAAAATGGTAAACACTTAAATGATAGTTTCAACTTAAAGTGAAACACAATATGATGCTCAATGATGTCAGAAACTGTTTT
TTTCCATTTCCATTTTATGTATTTGGTAGGAATGCAATTTACCTTGTTTATTTTGCTGTAGCATTCCAGAGTTCATTCCTTTTGTTTTGTAGTTGAGGAA
AATGAGATGATTCCAGAGGTGGAGTGGCTCCCCAAGGTAACACTCTGACCAGAGTCGAGAGCAAATCCCGAGCCCCTGGCTAGGTGCAAGGCCCTTGATC
AGTTCCAGGCAGCCCCAGTGAGCTATTCTGAGTAGCATGGAGTTTCCTACATTTTCATGATATAAGTGGGATGAAACCCCTAATGATAGTGGCATAGATA
CATACACTTATTTTTTTAAAGTATAACTTTCAGCTATTGATTTAGGAGAATGCTGAAATTAGCTGTAAAGTCGGAATTAATGTGATGAAAACTGTCCTGG
ACTTTAGATCACACTTTATTCAACAAAATGCATATAAAACATCTATTTGCTGGAAAATGTGATAGATACAAATGAAAAAAGAATGAGGCTTAGCTAAATG
ATTCTCTGGTAGAYGATGTACACTCTGTGATGAGAGTGAAAAACCAAAGGTTATGGGAAAAAGGGTGTCACTTGAGTCAGTGTTATTTTGCATACATATT
GATGCTGGGATGTTTTGTTACGGCATTGGACAGTCTTGAATAATAGCATGGAATGGGGACTTAAATAATTGAATCCTGTCGATGCAATAATTTTGTCTCA
GCTTGCCCTTGATTGCCAGGAAAGTAATTGTTCAAAATTGAAAAGTTGGGTGGCTCAGAGTTGACTTGTGGTTCAGCAATCTTAGCAATTTAGCTGGACT
GAAAAGAATCTGCCCTTTCTACAAATCAAAGCTGTGCATGATTCAGTAAAATGTGAATAGGGTTTTAAAAGATTTCTGTTAACAAAAGTTGGAGGGGGAG
CATTTAACATTGTGCTTGGAGCAGTAAACTCATTAAGATTTGGCTTTCGTTAATTCGTCTTGCCTTTTTATTAGAAGTAACAATAAAATTAATTATTTAG
AAAGGTGGCAAGTGCATCCTTTATTCCCAGGTAATTCATGATGTCTTGCAATTTGATTTTAGACTTCAAGCCACAAGCTGATTGTTTATTATATACACCT
ATGAAGTTACTGAGTATTTCCTGCTACTTGTAGAGTACAATTTCTTCACAGGCATTTTTATTTGCCATGTTTATCTTTTCAGACAACACAAACCATGGCT
TCCTGGGTTCATTTTAAGTGCAAAATAAAGTAACAATTTTTTTCTGGCTTTCTTAGAATCCCTTCCTTTTCTGCCCCATTTTCCTGTATTTCCATAACCG
GATCCTGTTGCATCTATCTGTGCATTCCTCATTATGCTGTGGCAAATACAGCTGCTTCACTTGTCCCATACGCACTATTATTTTTCCTTTGCTTGTGCTA
TTTCCTTTGTCTATAATACTTTCTCTTTTCTCCTTTTCAAATTCAAATCTTACCCATCTTTTAGGACTCAGATTAAGGCTGTGCAGCTTTCTCACTGACT
TCTACTCTGTTTTATCCCAATAGCTTTCAGTCAGCACTCAAAACTGAAGCAGTTCATTGTGCTTTGACTTATATTAACKGTTTTTAATTTTTTTCTTTTT
TAAGAGACAGTCTCTCTCTCACCCAGACTAGAGTGCAGTGCCACAATCATAGTCACTATAGCCTTGAACTCCTAGGGTAAAGTGATCTTCCTATCTCAGC
CATGCCCAGCTAATTTTTAAATATTTTTTATAGAGATAGGGTCTTGCTATGTTGCCCAGTCTGGTCTCAAACTCCTGGACTCCAGCAATCTCCCTGCCTT
GGCCTCACAAAGCATTGGGATTACAGGCTTTAGCCACCACACTCAGCCCTGTTTCTTATTTTTCTTTTATCATTGACTTTTTTTTCAGTTTTAAAAAATA
GCTTTATTGAGGTGTGAATTAAATGCCATAAAATTTATTCATTGTAAGCATATAATTCAATTTCTTTTTAGAATTGTACAGAGTTGTGCAGTCATTATCA
CAGACTAGGTGTAGGACATCTCCAGCACTTCAGGAAGTTCCCTTGTTCTCTTTGACAGTTGGTCCTTGTCTCATAGACAGCCCCAGGAAGACACTGATCT
GCTTTCTGACTGTACAGATTTTCTTTTCTGGACATTTCCTATAAACACAATCATACCATGGGTAGTCTTTTGTCTTTTTACACTCACTTAGCGTAATGTT
TTTGAGAGTCATGCATATTTGTAGTATTAGTAGTGGCTCTCTCTTTATATTGCTGAGTATATTCCATTACATGGATATACCATATTTTTAAAAATTTATT
CCCCAGTTAGAGGACATTTGTATTGATACTAGTTTGGGACTATGAACATAAAAACACGTTTTTGGGTAGATACATGTTGCTCTTGATTAGATTCCTAGGT
GTGGTTTTAATTGCTTTTATTTCTAGGTATATGTCATATTTTCCCTTTTTCTAACATGTCTTTTGATTGTTTGTTGAAAACTACATATTTAGGTGCTATT
TTAAAGTTCCTGTGAATTCTGGATTCTGACTTTTCCCTATCAAAGGTTATTGTTGTTTCTGGTTTTTCCTTCCTTTTTTTTTTTTTGTTTGTTTTTTGTT
GTTTTTTTTAGTAACTTACCAAAATTAAATCTGTGAAATTTAGCCTTCATCATCCTGGTGCAGAGCCAGCCATGTTTTGCTCAGATTAAAAAATATTATA
TTGCTATTTTTTAGTCTGGACTCTTGGGGTAGTCTCTGTGTTTTTATAGCTCATTGCTAACGTCCCCAAAAGTATATCTGAAAACATCAAGAATTTATTC
TCTTGTGGGTTTCCAGGCCAAAAGTCAAAAATGAAGGTATTGGCAGGGACACACTCCCTGAAAAGCCCCAAGAAGCATTCTTCTTAACTCTGTCAACTGG
CCTTCCTTGGCCTGTGGTTCCGTCACTTCAATWTCTGCCTCTGTGTTCACATGCTATTCTTGTGTGTCTGTGTGTGTCCTCACCTCTTTTTATAAGGACA
TCAGCCATTGGATTGAGGGCCAAACTTAAATCCAGGATGATCTCATCTTGATCCTTCACTAATTATATCTTTGAAGACCCTATGTCCAAACAAGGTCACA
TTCTGAGGTTCTGGGTGGTCATGAATTATTGGAGGACACAATTCAGCCGACTACAGTGGGTTCAGGGGTACATTCAAACTGTGGGCAATTTTCAAGTATG
CTCCAACTTTTATTTTCCACCAGGTTCTCTTGTGTTTCTTCTGTGCCTAAGGGAAAGCTACTGGTAGGCTGGAGATGTATGAAAAGGTTGAGCCCTCTCT
GATCCATGCCACTTCCAGTTAGCCAGGGATATATAGGGAGCTTATCAAATGCTTCTATGACTGGTTTATTGCTTCTATGTTCCTTTTAAATTTTTAGTTG
TCCGCTGGCCTGTTGCTTGCCCTTATTAGAACTACAGTCATGGCTGGTTGTGGTGGCTCATGCCTGTAACCCCAGCACTTTGGGAGGCCAAGACGGGCAG
ACTGCCTAAGGTCAGGAGTTCAAGACCAGCCTGGCCAGCAAGGCGAAACCCCGTCTCTACTAAAAATACAATATATATATGTGTATATATATATAGCTGG
CCATGGTGGTGTGTGCCTGTAATCCCAGCTACTCGGGARGCTGAGGCACGAGAATAGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCAT
CACTGTACTCCAGCCTGGGCGACAGAACAAGAATCCTTCTCAAAAAAACAAAACCAAAACCAAAACAAACAAATAAAAAAACCCAAACTACAGTCACAGG
CCCATAGAACCTCTGACCTTCCCTGTTAGCTTGCCTTTGAGATTCCTACTTATTACTGGTCATACCACAGGCGAAAGGTTTTTCTCCTTGCACTCTAAAT
CAAGTCAACCCCCACAGACAGCAAAGCGGCTGGTTATTTGTGGCCTGGCCTACCCTATTAGAACTGCTGTGATAAGGCGGTAGCAGATGTTGGGGATAAG
AGTAGCCCCGGAAAAAATGCATGGATTCCCATTACCTAAAGTTCAGTAATTTTTCATGAATATATGCTTCTCAGTTTGTTTTAAGCCTTTAATTCTTCTC
CAGAGATAAAATTTTAAGAAAGAGAGGATTTGGTGACCGCAATCCAGAAGACTGATATATTAATTTTGCCCCTCCTGTTTAATGATATCTTTTTGAGTCA
GGAGAACACATTTGATATTTTTCAGTATTTTTGTTTATCTTTAGTGCCTAAAACAGTGCTACCAACTGTCAGTGAACAATAAATAATTAACTGTACAAAT
ACTATAATTATAATCATATATAATGCTTTCTAATATTTTACATTCTAAAATATTTAAGACTGTRTTGTGGATAGACTAGCACATTCTACACACCCCCATC
TCTGTTTTATGGGTGAAAATTCTGAAAGGCAACAAAGTTAAATGACTCACCAAGATACACTCACCTGTGCCATGGACCAAAACCTTCTAATTTCTGGACT
ACGTTCTTTCCACTGCTCCATGAAGAAATCATCAAGTCAGGATGGGGAGGTGTCACTGTATTTAAAATACAAAAATAAGTAACAAAGGAGTAAAGGCAAA
GGGTGGCAGTTCTTGTTCTAGAACTCTGAAAAACAATGAAAAAACAAAATGGAGTAATATCTGGGCATACTCTCCAGCTACATGAGCATCCGATGGAAGG
GCAGTCACTTCTAGGGGTTGATTTCCTGAGCCCTTTCTCAACATTTCCTTAAGTGCACTCTCTTCCTGAACTGGGAACTTAGGAAGTTATGGAGCATGAT
ACTGCAGCAGAATGGTTTATATTACAGGAATGTAGACTCAAGCTTCTATAACAAAAACAATCAAACTTGCTTTCACCACCTGAGGAGTCCATTTATCATT
AAGACAAAAGGATTTTTAAAAATATTGTATCCTAGTTTTCCCAGACTCTAACCTTTTTCAGCTCTCTCTTTCCTAGTTTAATTTTACATCAGAAATACTA
AGGTATAAATGACTGAATTACCTTTTTAATAAGTCTGTTCTTTAGAATGAGTTGCATCTAGTGTAGAGTTTTTTTTTTTTTTTTTAGACGGAGTCTCACT
CTCACTCCCAGGCTGGAGTTCAGTGGCGTGATCTCGGCTCGCTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTG
GGAATACAGGTGCCCGCTACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCTATCTCCTGACC
CCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTCTGGAATTACAGGCGTGAGCCACCGTGCCCGGCCGAGTTTTTTTTTTTTTTTTTTTTTAGGGAAAA
AATGTGGTACACACAGTGTTTCTAAATAACTGAAAAAATAGATTAAAATAATAATTCACTCATTATTTTGGGGGAGCCTTCTATGCCATTGTCCAGGGAT
TTGGAGAAAAAAGATGCATCAACTTCAGCTCTTATGGATTTCACAAACATGTAAAGCAGCTAATGTCTAGATTAGAGTTCTTAGAAGGCAGTCCCTAGAC
CAATAGCATCAGCATCACCTGAAACTTGTTAGAAATGCAAATTCTTGGTTCTTACCACAGACGTACTGAATCAGAAACAGAGGTAAAACCCAGCAATCTG
TATTTTAACAAGCCCTCTAGGTGATGCTGATACACCATTAAAATTTGAAAACCACTGGTATAGCTACATCTTAGTCTATTGTAGTAAATGCAACAATAGG
AAATGCGTACATAGTAGAGAGGTGAAAATTGTTAACTTTATTATTGGCAGATGTGGAAGGGTCCAGAGAGGCTCTATTTCTTTTCTTTTCTTTTTTCTTT
TTAGGAAGTGACGTAAGAAATATTCATGAGACACAGGATTTTGAGTCACTCTGCAGAGAATAAGGTTTCCCAGACTTAGGGTTTAGGACGTCTGTGGGGA
TAGGGTGGCAGGCTTTGCAAATAACATTATAAAGACTTGGAATGATTAAAAACTATTAATTGTAAGCAGTGGTTCTAAATTTATTGGTGGGACTTTTGGG
TGGATGGGGAAAACAAAGTGTTCTCAAATCCAAACAGAATTGAGTATAGCTTGGAGATGAAATAACTGCTTCATTCATGTATGTTTTAGAATATTTAAAG
TCACAACTAAAAATAAAAGCATTTTAAAATGTATTAATGAGCTCACAGTAGCCTTTTATTATTAACTGCTTTATCAATAGATAGCATAGCAAGATAGAGG
CATGGAATCTACAGAGATGTTTGGATTCAAACTCTAACTCCCCAACTCACTGTATGATCTTGAGTAAATTACTGAACTCTTCTAAGTCTTAATTTCTTGA
CCTAGAATCTAGTAATAGAAAAATTCCCACTTCACATGATTGAAAAATAACAAGATAATAAGGCATAAKGCCTGCCACAGTAAGTGCTCATGTAACCTTA
GGTATTATTATTTTATTACAAATCAAAGAATTTTTATAAAAACTTGGAGTATTTATTACAAATAAAAGTAATCAAATGCAATTTTATCACTAAAAATTGT
CCTCAAATTAAAAGATGATCTAGATCTAGCTTGTCCAATCTGTGAGCCACAGGCTGCATGCAACTTTGAATGTGGCCCTACACAAATTTGAAAACTTTCT
TCAAACATTATGAGATTTATACAAGAACTTTTTTTTTTGTTTTTAGCTCATCAGTTATTGTTTGTGTTAGTGTATTTTATATGTGACCCAAGACAATTCT
TCTTCTTCCAGTGTGGACCAGGGAAGCCAAAAGATTGGACACCCCTGATCTAGATCATAATATTGTGTTTATCTAATAGAAAAACATGATTTAACAGATG
TTAGTCCGAAGTCAGTTGCTTTCACTAATGTATTTCTATTTTAATTCCAGAGACCTTTCAGTTTATTTCCAAAAGGCATCATGGTTTCCCCTTCAGTCTC
ACCTTTTTCCTGAATGGGATGCAGGTGAACAGGTTAAGCTCCTGTTGTGAATACAAGCATCGGAAAGGTTCCAGGCTTGGAGGCAAACGAGGCTACTTTG
GGTTTGTGTGTGTTGAGAGATCATCTCCTTGCTACAAGTATGGAAACAAATGTCCTTTGGTAGAGGGCAAGTTTTGCTACATTTTTCTTTGAATGCCTTT
ACTAATGCATTTCTCTTCACAATTATTAAGGAAATTCAGTATAGATGGGCCTACAATATCTAGGTTCAGGGTTGTTTATTGTAACATGGCGTGCTGAATT
TGAAATTATAAGATATAAATCAGACTTACAGAGGTGTTATATAACGAAGATAAAAGCTAGTGCATTTTAAATTATTTCACTTTCTATCTCTCCTGTCTTC
TCACTTTAAGAACTGTTTCTGAAGGGAAGGAGAGAGATATTTTTGTTTGCTTGTTGTTTTTGTTTGTGTGTCTGTTTTTCCTCATTCATCTTAGTAACTG
GTTTTAGACTGAGCCTTAAAGTGTGTGCCAAGCATCTGATTTACATGACTGGACATTTTCGGTTATGCCTTTTAGAGGTTAGGTTTGCCTGCATTACTGT
CTGACCCAATTTTCATTATCTCCCTTAGTTTCAATCTTGGGCATAACAAAATGCATGATAAAAGGTCAGTTTTGACTGTTATCAGCTTTCATACTGAACA
TTCTGTTTGAAATCAGGAGTCTTGCTTGTGGGCTTTCATATTTTCTAAAAGTATTGGCTAGATGCCAAGCTAGAACACAAGAGTGAATCAACTAAAGTAT
TTGTCTCTGTGGAACTTATTCTAATGGAGGAAAAGCTAATAACGTACCTACAAAGCAATTAATATATGTGAGATGGTCAGTATGATGAACACAAAACAGG
GTAAGGGAGATACATGGAGTGAAGGGAGACAAGAGTCATGGGGAGTGTGTTATTTTATGCAGGATAGTTAGGAAGGGCCTCTCTGATAAGATGTSTTTTG
AACAGAAACCAGAAAAAAAATTTCTTTCTTGAAATAGCTTTTGAGATAGAGGAAAAGCATATACAGAAGGCATGAAGCAGGCACGTGTTTGTTGTGTCTA
AGGTAGCTTGGCCAGCACAAAAGGAATAGAACCATGAAATTGGAGATGGGGTCGCAGAGACCATGAGGCTAAGCCATGTAGAGTCCTATGGTCATTGCAA
GGACTTTAACTTTTATCTGAGAAGGATGGGAAGCTTCTAAAGCGGGTTTTGAGCAATGACTTGTCATGATTTAATAGTAACTCTTATGGGAAAAATAAAC
AAGGGTGTGTGGGGAAAATATCAGAAACTGCTTTAATCCAGAGAAGAGATAATGGTGGAATGAGTTAGAAGTAATTTTAAAGGTAGAGCTTACAGAATTT
ACTGATGAATTGGATGCAGGGAATGAGATAAAGAGCAGAGCCAAAGACGATTCAAAATTTTTGTCTTGAATAACTGGAAAGATGTCCAGTTAACTTATTG
AGACTGTGGAAGAAGCAGGTTTTTGGGGTGGAATGAAGTGGTTTTGGTCGAGGACACATTGAGTCTGAGACATGTATGAGATAAGCAAGTAGAAATGCTG
AGTAGGCAGTTGGATATATGAATCTGGGGTGAGGTGAGAGGTCCAGGCTGGAGATGCAAATCTGAGAATGGTTTGCATATAGATGACATGTATAAGTTTG
CTTAAGAATTGAACATAGAGAAGATGTCTGAGTGATGAGTGTCACTCCATTTAAAAGGTGAGGGAGGTAAACAGGAACTAGCCTAAGAAGGAAAGGCAGT
GAATAGAAAGAGAACCTAGAGAGAGTAGTATCTTGGAAATAAAGAAAATGGTTAAGGAATAAGGGCATGATTAAGGGAGTTGAATGTGTGGATATGTGAA
GTAAAATGAAGACTGAGGATTGGACATTGATTTGGTACTGTGTTGGTTACTGGTGATCATGGCACGAGTTATAGTGCAGCAGTTGGGGTGTAAGCTTTCT
TGGAGTGGGTTTAAAAAATAGTTGGAGAAAAACAAAGGCTGGAGACTATAGAGAAGTTTTTAAAAGAGTTTTGCTATAAAGAATGGTAATTAGGTGGTAG
CCAGGAGGAAGAATGTAGTGGTTCAAGGAAGCCTCTTTATTTTTTAAGATGGGAGATACTATAATATGTTTATATGCTAATACAAACGATTGAATACTTT
AGAGAATAAGAAACATGAAGTATGACATAAAGGGTGGAAATTTCTGGAGCTAAATGATTGGGTAGACTGGAGAAGATGAGATGTAGGACTCAATTGGGGG
TATAAGCCTTAAGAAGAGGAGGAACATTCTTGTATGGTAACGGGAGGAAAGAAAGAAGGCATACAAGATAGAGATGTGAGTTGCTATTAATAGATGTGCT
GGGAACAACTGGAAGCTCTCTGCTGATTGTTTCTATTTTCTTAAACAATACATAAATTTATCAACTGAGGATAAGGCTGAGAGAAGAGGCATTGGGTGTT
TTCAGAGAGATAAGAGTGTAAAAGAATCATCCAGAGAATGGAAGACTGAATGGCCTAGGGCAAGATAGTATCAATGCCCAGCTGTACTTAGGGGCCACCT
GAACTGCCTTCCTATTCCAACTCAAATATGCTGTCTCCTGATTTGAGAGCAGGTCATTTAACACAATTCTATTTAATTCCCAGAAAAGCTAATAAACATC
TACAATCAGCCATGTGCAAATATATTGCATTCTTTGGGAGTTGTGGTATAAATCCAAGCTGTAAATTATTAGCCCTGAGCACTTTCTGTGGAAGTTTAAT
AATCAGTACCAAAATCTGACTGATGGCATTTACTCTCCTATTCAACACCCACTAGCCTCTGTACAATTATTTCTATGATTTCAACACTTGGTACCCTCTA
GATTCTTTCTTCAACCTTTTCAAATAATAATATCAAAATGGTTACAATATTAAAGAATAAGGCCTATGACTCTCAACTAAAATGCACAGTTCTTATAGAA
GAATGGTTTTCAATTTTTTTTTGTTAACTTCATAACCATTTTTCCAATGAAATCTGTGAATGCCCAGAATAGAACAGTGCATTGTCATTGGATGTCTCCC
TGTTGCAGGTCAGGTAAAAGTTGAGTCAGACTGGTTTAAATGGTACAGGGTTAGGTGAGTAAGTGCTAGAGCCTTGTTTGTTTGTCCTCTTCCTCACTTG
AGACTTTTCTGGTTATTCTAGAGACCATAACACTGCAGAACTCCATGGAGAGTTGAGAACTACCCCAAAGGTTATTACCTTCTGTAACCTTGGCTTTGTT
GTCACTCCCATAATGATACTTTTAGTTATGTTAAACAATGTACACTAATTCCTCCAATACATTCAAAATGAAATTAATTTTAATTTATTTAAAAAATACC
AGTCCCAGAAACATTTGTGATGAGAAAAAGGAGGGCATGGTACAATAAAACAACAKAGAATTATATTTCTAAATGATTAGGAATTACCTGTTTAAGGTCC
TCAGAAAACAAGAAAAGCTGAGCAGTGGTCACTTCCAAAGTGTAAGGTTCCACAACTGTACTCATCTCTCAATTATAGGAACTGTTTGAAGAGGCGTAGT
AATTTTCAATTGCTAGCATGAAACTTGGGAAGAATTGCCTAACCATGTAGAATGCAGACTGCTTTGAGCTTTAGTAATCATAATCAACACCTCAAATTAT
ATTCAGAAGTCAAATAGGTAGTCARTGACGAGGAGAGCACAGATGTTACTCACTTTGTTTGTCCAATTCCCTTCAGCAGATGGGCAATAAAAAGTCTGTG
CATGCAGTAGGGAGGCATCAAAGCCTTTACGCAGCCACAACATAAACTAAAAGTAACAACATATCAGAGGCTCCAAATCAATGGATTTGGTGTTGCAATT
GATAAGGGAAGAACAGCTTGAACAGAAGGCAATGCTAGTAATCACATTTTGTGAAGATTCATGACACCTTTACTCCAAGGAAAGCAATGTGCTAAGCACA
TCATCATTATAGTCAAGAAATATTTATCATGCTTAATATGGGTGAGATAAGTATAATCTCATTATCTCATTTTTTACAGCCTGATAGTTACTTTGAGTGC
AAATCCTTCTAGCTTTATTTTGTGGGGAGATATTGAAAAGTTAAGTGATATAACTCAGTTCTCATATTTGCTTGTTGGGAAAATTTATTAAGATCAATTC
CTTTGCTATTTCTACGCTGCAGATGGCTGAAATTTAGTGAAATCTTCAGTTTAAGTAATTGCCATTGGATTTGTTCAGGTTGAGGCATTTTTGAGATTTT
ACATATTATTTCTATTCTTCTGGGACTAGCAAGTCTTGACTGCTTTCTGATCCCTTTCACCTGCCCACTATAAATTCAGTTCTCTGGTAGTTGTRTCACA
TGCAGAGAGGGGAACGTGAGTAGTTCTAGAGAAAGAAGACTGAAGAGACTGATAACTACCAGAAACATTTTTCAGATCATGGATTTTATCCAGGTCTTGC
CAGAAACTTCTCCAGATTGTATTAGTGTCTGCTGAGAGAGTGTGAGTCCTTTCTTTGGTGATAAGCTCAAAGTGTAACATTTATGTAACTAGTCATCTCT
ACTAGTTAAATCATAACTAGGAACTGGAGGCCTACACCTGTAATAGACTAATATGGTTGTGCTTCAGTATGATGTGATGGAGCCTAGCAGTCTTGAGCTA
GAATCCAGCTCCATCACCCACGTACTGGGTGACTTTGAGCTGCTAGAACCTTTTAAGCCTCGATTTTCTCATTTGTAAAGTGGTGATGATAGTTCTTAAT
TTATTGGTCTATGAGGTAATGAATTCCTTAAGATAATGGATACAGAGTACCCAGAAAAGAGCTTGGCACAGAGAGAGTGCTCAATAATCTTATCATTATC
ATAATCATCATTTTTATTAATGTATATATTATTATCATTGGAATTCTTATTTTAATATCAACTTAAGAAATAGAAAGCTRTAGAAGACAATTTATTCATA
TTACTTTTGTTATAATTGATTTAAAAAGTTTTAATGTCATAATGCATTCAGATTATCTGCATGGTTCACCAGATTTGACTTGGAATGACTTCATAACCTC
TATAAATTACTGCCATTTTTGAGGAATAAGAACTTATTACCAGCAAAAATCACCAGAAGACTGTAGTGCAGACTTCAAAAGGCCATTCTAAAAGCAATAA
TGACAGTTCTATGAAAATAAGTGAACAAACTCCTGAGTTATTCACTTAAAAGATGCAGCAACATTTGACTGTATATATTTCTTTAAAAAATCAATCATAT
TTATTTAGAGCCAATCTTGTAAGTCTTTTGTTACTGTTGTTGTGTTGTTAAAATATAACTTATCAGACTGAATGGCATCTTGCTTCTTCTGACCATTTTT
ATATCAGCTTCTCTATGTTTGTAAATCTGCATGTTCTATTATCACAAAATTCTCATTTAAGGACTTGAGATATGTCTTTATGTATGAAAAATTATATACC
CACCTATATTTCTGTATCTATGATATGTGTTACTGTTCAGGACCAAAAATATACTTGAAGACACAGATTTTAGTTTGAAACTATAGTTCTTGGTTGACGA
GTTATTTTATTTTGTTTATTATTGTGGATAACGTTATTAAGAATTTGTTGTTTGTTTACAAGATTTTAGTATCAAAAAAGAATAGTTTATTTTTAATTAG
CTTTTTTAATTGTTTATTTTTATTAGTGTGTACTGTAATCAAAACATTTTTGTGTCTTTTTTTACTGGAATAAGAGATAAGTGCTTTCAAAAGCTTTGAG
GTTCCATTGTGCTGTCTACAAGGGTTAACAAACACTTCCTGCTAATATTTTTCATAGGTGCATTATTGCAATGGGCCTTGACAAAAAACCGTCTTTGCCG
AAATCTAGGAAAGAAAAGAGCACTGAGAAAGGAGAGGAACTGAAGAAGGCTGAGGGGAAAGTGAGGAAAGAGAGAGAGTATGTGATACCAAAAAGAAATG
AGATCAAGGAGAACAAAACCTCTGTTTCAGCCAAATTTTCAGCTCAAGAAATAAAAACAGGGCTCAAAGAAGTGGTAACTGCTGTGGAGGAAATGACAAG
TAAAGGAAAACCAGGACAAGAAGTCTTGGAAGACGACCAGGAAAATACTTTAAAATATGGTAATCAACAACACAAGTTTCTTTTGTTGTAGCTGTGGCTG
TTTCGTTTGTCTTTGAAATGTGATGATCAAAATTTTCAAAAATACCCATTAAATGTTACCCAGCTGTGTTACATGTGGKGTGCCCCTGACCTCCTTCCTT
TGCTGTTTTGTATGGAGTCCTGTGTCACCTACCTTAGAGGAAGGCAGACCTAGCCCCAGAAAGGTTAAAGGTTCTGGCTGCAGAGATGAGGAGAGAGAAT
GAGTAYATGTCAATGTGAGTTAGAGACTCTATTGACTTCTGCAGAGACCATTTTCACCAAATAGAATTTTACCTATTTTAAAAGTTTTTGAATGTACTGT
TTTTYATGAAATTGATGAATTGCTTTGACATCAGGTAGGTACAACCTATATGATTATATGGTGATAGAGTATGCCATAACTAAAGGCAGTTGACTATAGG
CTTAGGGTTGTGGAACCTATCTGTCTGCTTTTTTTCTTTTGCTTTCTTCTTTTTTCTCTGTTCTCTCCTTCCTCTCTCCTGCCTTCCACTGCTTCTCTGT
CTCCCTCTCTCCATACACATACACCCACCCACCCACCCACACACACACACAGACACACGCGCATTCATATATATACATACACACATATATATGCAGGCAC
ATCTCATTTTATTGTGCTCACTTTATTGTGCAAGCTTTGCAAATATAGCACTTTTTATAAATTAAAAGTTTGTGGCAACCCTGCACCAAAGTCTATCAGC
ATCATTTTTCCAACAGCATGTGCTCACTTCATCTCTGTTTCAAATTTTCTCAATATTTCTAACTTTTTCATTATTATGATATCTGTCATGGTGATCTGTG
ATCAGTGATCTGTGTTGTTACTATTGCAATTGTTTTGGGGTGCCATGAGCTGTACCATGTAAGAAAGTGAAGTTAATCAATTTTCTGACTGCTCCACTGA
CCAGCTGTTCTCCAGTCTCTCTCCCTCTGCTTGGTCTTCTCTGTTCCCTAACCCACAACAGTATTGAAATTAGGTTAATTAATAACCCTACATAATACAC
TCTAAATGTTCAAGTGAAAGGAAGAGTCTCATGTTTTTCACTTTAAATAAAAAAAAAACGATTAGGCTTAGTGAGGAAGGCATATCAAAAGCCAAGACAG
GCTAAAAGCTAGGCCACTTGTGCCAAGCAGTTAGCCAAGTTGTGAATGCAAAAGAAAAGTTCCTGAAGGAAGTTAAGAGTGCTACTTCAAGTGAACATGT
GCATGATAAAAAAGAAATCGTTATTGCTGATATATAGAGTATTTTAGCGGTCTCRATAGAAGATCTAACTAGCCACAACATTCTCATAAGCCAAAGCTTA
AGTCAGAGCAAGGCCCTAATTCTCTTCAATTCTATGAAGGCTGAGAGAGGTGAAGAAGGTGCAGGAGAAAAGTATGAAGCTAGCAGAGGTTGGTTCGTGA
GGGTTAAAGAAAGAAGTCATTTCCATAGCATGAAATTGCAAGGTGAAGTAGCAAGTGCTTATGTAGGAGCTGCTGCAATTTTATCCAGAAGACCTAGCGA
AGATCATTTATAAATGTAGCTACATTAAACAGCAGGTCTTCAGTGTAGATGAAAAAGCCTTACATTGGAAAAAGATGCCATCTAGGACATTCATAGCTAG
AAAGGAGAAGTCAACACCTGACTTCAAAGCTTCAAAGGATAGGCTGACTCTTCTTTTATGGGTTAATGCAGCTGGTGAGTTCATGATGAAGCCAATGCTC
ATTTAGCATTCAAAAAATCCTAGGGCCCTTAAGCCTTATGCTAAATTTTATCTGCTTCTGCTCTATAAATGAAACAAACAAAGCCTGGATGACAGCACAT
CTATTTACAGCATGGTTTGCAGAGTATTTTCAGCCCACTGTTGAGACCTACTGCTCAGGGAAAAAGATTTCTTTCAACATCTTACCACTCATTGACAATG
TACCTGGTCACTCAAGAACTTTGATGAAGATGTGCAGTGCGATAATGTTGTTTTCACGCCTGCTAACACAACATCCATTCTGTTGTTATCCTTATGGATC
AAGGAGTAATTTTAGATCTTATTCTTTAAGGAATATATTTTGTAAGGCTATAGCTGCCATATATAGTGATTCCTCTGATGGATCAGGGCAAATTCAATTG
GGAACTTTCTGGAAAGGATTCACAATTCTAGATGCCATTAAGAACATTCATGATTCATGGAAGGAGGTAAAAATATCAACATGAACAGGAGTTTGAAAGA
AGGTGATTTTATTCCTCACAGGTGGCTTTGAGGAGTTCAAGCCTTTGGTGGAGGAAGTAATTGCAGATGTGGTAGAAATAGCAAGAGAATTAGAAGTGGG
GCCTAAGATGAGATTGAATTTTTGCAATCTCATTATAAAACTTGAATAGATAAGGAGTTGCTTCTTAGGGATGAACAGAGAAAGAAGTTTCCTGAGATGA
AATCTACTCTTGCTGAAGATGCCATGAACATTGTTGAAATGACAACAAAGAATTTAGAATATGTATAAAATGTATTAGTTGATAAAGGAGTGGCAGGATT
TGAGAGGATTGAGCCCAATTTTAAAAGAGGTTTTACTGTGTGTAAATGCTGTTAAACAGCATTGCATGCTACAGATAAATCTTCGTGAAAGGAAGAGTCA
ATAGATGTGGCAAACTTTATTGTTGTCTTATTTTAAGAAATTTCCATAGCCACCCCAGCCATCAGCAACCACCACCCCGATCAGTCAGGAGCCACTAACA
TCAAGGGAATATCCTCCACCAGCAAAAAGACGATGACCAGTTAAGGCTCAGATGATTGTTAGCATCTTTTATCAATAAAGTGATTTTAGTTAAGGTGTAT
ACATTGGGTTTTTAGATATAATGCTATTGTATATTCAACAGACAGCAGCATAGTAGAAACATAATTTTGGATGCACTGGGAAACCAAAAAATTTATATCA
CTATCTTTATTGCAATGGCCTGGAACTGAACCTGCAATATCCCTGAGGTATACCTGTATATCGAATATATATATAGGTATACATTCACAGATCTAGGTRT
GCTTGTATATACTTACATGTGTATATAGGTATGCCTGTATATGCTTATACCTAAAGCAGCAATAACAACAATAATGAAAGTGCCAAGCACTGAGCACCAA
ACTAGGCACTGTGCACACACTGTCTCATTTTATCCTCACCATTCAACATGRTAGGTATTATTACTACTTCAATTTTACAGGCTGGGAAATTGAGGCTYAG
ATACACAAAAAGAAAGTAGCAGAATAAGAATTTGCACCCAGGTTTGTCTAATTCCAAAGCTCAATCTTTCAAACACTATACAACCTTCTATTCTGTACAA
GTTAGCCTACCCACTAAATGGTTGTGGATAGTGTGTCCAAAGTATCAGAAAGGGAGAGCTGCTTTGTGTCCCTCATACTCAAGAGACAAAGCTTGGATAG
GGGGCACAATAACCATGGGTTGGGGTACCTGTGGAAGGGCTGGCTTCGGGAAAGGGACAACTTCTAGGTATCTTCTTCCCCACCTCATATTTTTGCTGCC
CAAGTGTTTCAGAAATCCAAGAGAATAATTACAGGGCTGTTATAGCACTAGACTTCATGTTTGATTATTACTGACTAAAGTGAATCTTTTACAAAAGATT
TCACTTAGAGCACTTTTACCAGCTCACCATTCTTCACAATCTCTTCTAGTCTTTGTCTTATCTTGGGATGAGAATTTTAATATATCTGCAGCAATAGTAA
TCACAGAGGTATGAACAAATAGGATGTGTTTTCATGTGTTTTAACTTTGAAGCATGGTGGTTTATGAAAGTCATGTTCAATGAAAGCTTTTCATTTTCTT
TTTTTTTCTTAAACCAACATAACTAGTGCTATGAGTGATGTACTTTATACTCATGATACCTATGATAAAGCTTTTCCTGAATTCTTTCTTCTGTGTTGGC
TAGTTAATGGACTTTAAATGTCCATTTCCTTTTTTAAAAATGCAGCCACAGCCGCAAGGGTTTAGCTCTCTGCATAATAGTCGCTGATGTAAGGACAGCA
AGAAGTTTGAATCAAGGTCAGCAAGAGAAGGTTGTGGCTAGATTGATGTTGACCCCGTGTTGACTCACGTCCTCATTAGTGGGGATGGTAAACAACAAGC
TAATTAAATTCTCTAGAAGAAGGCAAATGGGATGGGAGAACAGAAGAAATTATGTAAAAGATTTTAGAAAGCATGTCGCTGGYTTATTCGTATCAAAAAC
ATGAGTAGATGACACAAAGGTGGTGTGCTTTGAGCTATAATGACAGTTTGGAAGGTTTGTGGTTAACAGAAAGCTAATACTTAAATGTGATGATAGCAGG
GATAGAATAAAGCCAGGGCAGCCTTGACTTTCATATTTGAGAGAAAACACAAAATACGATGCTGGGACTGTTCTTGTGGTTCACTTCGTGTTCCTTCACT
TTTGTGCTGTGCCTCAATTATATAACTGTAATTGTGTCCTAATTGTGGACACTTGTACTGCTCTGATTTTAATCAGGTGCCTCCACTAAAGTGTGTTGCT
GTCAAAGGAGTACATATCGTGTGTGATTTCTCCTGTTCTATAATCTACTCCCTTCACTACCCAATCACAAGGACGATTACTACTAATCCATAATATTTAT
TATGCCCCTGATATTCATGGCACTGTGCTAAGCATGTTCCAGGGATTATTGTTCTCAATACTCACCATAGCGTTGTATTACCCATGTTACAGATGGAGAA
ACTGAAGCTTAAAGACAAATTGCCCACGGTCACATAGTCAGTAAGTGTTTTAACTGGGTCTTGGGCACATGAATGCCTGATTCCCAAACCTTGACATTTC
ACTACTATGTAACACTATGGATGGAATTGCAGCAATCCACTCATATTCTCTCTGGCCCTCTGCTTATCTTATGGTCAGTAGCAAACTCCTGTAGTGTGAT
ATATGTATGTGTATTCTGTAGCTAACCTTACCTTCCTCTTTTGGGAAGTCTTCCATGAGTCCCTAAAATGACTTTCCATCCTCCTTTCATTACATTCTGC
TTACTTGACACTACTTCACATAATTAATTATATGTCCTATCTAAAAATCTATAGCAACCCAGCCCCATTGTGTTGAAAAACATTACTGAGGATCACATAT
TAAAAACTACTACAAAGTGAGTACAGTATTTCTTGTGTACCTACATCTTCTTTCCTCAATAAAAATTGGAGAGTCTTTCATGGCCGGGATTGTCTTATTG
TAATGTCTTCTGTCTTGCAATTTTATCCTCTTAATCATAGAAGATTCTCAAAAAATAGGCTTATTGATTGATAGTTAACAGGGTCAGGTGAGGAATTATC
CTATAACTTGGCCGGCAATACTTGGATCAAAATATTTACTCGTTTTTATTAGTAGTTTCTGTTTGTGTCTAGCAACATAAAGCAAATTCTTCATCTTCTT
GCTTATTTTACAATTTTGGTTTACTGATATTCATATTTTATATTTAAATGTATTAAATTTCTTTTGTGGAAACATTTTTGTGATTATCTAATTTTCTTTG
TTATAGGTTTTGATTTCACTTTTCCCCTTACATCTCCCTCATCCTCTGTATTTACAGAGCTTTCTGCATATGCACAGGGTATACATTTCTAGATTAAGTT
TCTTTCACTGGGTGGACAGCTCTCAAGTAAATTACCCGAGAGGCCCCCCTCCCCCACAGAGAAGCCAGAATAGCTAATAACTAAAACACACAAAATTGAG
AAACATTTATTCTCTCGGTAATTTTTACTTTAAGGATAATTGTTTATTTGCTTAATTGGTTCTGCATGAGATCCTTTTGCTCTCTATCCTTGGCATGTTG
TCACTTCAAGATTTTTAGTTTTTGGTGGAAGAAAAAGGGGAACAGTTAAATATGAAAGGTGAAAAATTATAACCACGAGGGACAGCTGGAGTTTATCTGA
TGTGACAATTTCCTTTTCCTGCTACAGATTTATAGCACCTCTGCAGGGAATAAAGCAAATATGTGGCTGTGACAGGAATATTCTATTTTGTGTAAATTTT
TATCATTGAAATGTAATTATTTCATTTATTGTAGGAATGAATAATGCATATGATTTCATTTCTGGCCTACATATAGAATCCTTCATAATGCCTTTTCTTG
ATGTCCATTTGTTTCTTAAATAATGTGCTATTCACAGTGTTACTTCTCAGGGCTCTTGGACTTGATTAATTGAATTTTTCCACTTCACTATTCATTAAGT
TGATATCCAAATATTTTGAACATTTTTCATATGAAATATGACCTCACTGGATCTCCAAATTAACTTTCATTATTATAATCCTGTTCTCTTCATTTTTAAT
TTATTTCTAATTTATTGTTTTATATCAAGTTCTTCTCTTTCCATTTTGGTTATTTTAGATGATGATGTTCATTTGTAAATGAACTTTTATTAGGTTTCAG
CCTTGTCATTTGGAGCTTCATTTCTTTTGTGCTCTTGTGTATGTAACTGATTGGAATCTTTGATCATTTGCTGTTAGTTTTCCATGTTCACTAATTGAAC
GAAAAAGAAGAAGCAAAGAAAGGCTCAGAGAAGAGAGGATAATGGAGTCAAAGTTCTCATTAGAGAGAAATAGGTTAAGTATAAGGGGTTCTATTTTCAT
TCTTATAGTGGAGATTTTCCTATTTCAGAGTATGAAGAAGACTTTGAAGTAGATGAGGAGAAACAAGGTGAAAAATCTAATGAAGAAGGACAGGCTGATG
TTCAAATGAATGGAATACCGCAGTCACCTTTGGATGATAAAAAAGATAATTTAGACCCTGAAAAAGAGAGTGAAACCTCATCACAGAAGGCACCAGATGC
CCRTGACAATGTGAAAGATGAGAATGATGGATGCTCTGAGAGTGAACTGGAAGAGGATAAACAAGGCGAGTTGTTCAGCTTATCATGTAACATAGGCTGT
TTACTGAGTGTGTTTACTACTTTTCTTTGTTTTCTATTTAATGAGATAATCCTCTTTTTTTTCTCTTGAATGTATGTTTTCTAACTTTTAAATAAGGGGT
ACATGTGAAGGTTTGTTACACAGATAAACTTATGTCATGGGGGTTCGTCGTACACGTTATTTCATCACCCAGGTATTAAACCTAGCACATTATTTATTTT
TCCTGATCCTCTTTCTCCTCCCATGCTCCACCCTTCAATAGGCCCCAGTGTTTGTTKTTCCCCACTATGTGTCCATGTGTTCTCATCATTTAGCTCCCAC
TCATGACAGTATGAGGTAATTTGTTACCTTCACACTTTATTAATGCAGCTTCAAAAACCTAATGAAAGAGGAACATAAAACAAATGTCTCTGTAACTATT
TTAGAATGTAAAGGAATCTTAAAAAGGACATTTACGACTATAGCCATATCCTATCAGTGTTCCAATTACATTGAAAATGTAACAAATTGTTTGGAAGGAA
AAAGTTAAAAATTCTCCATTTCCACAGTTCAGTGTATCTTTCCATTACATAAACTTACATACAAATATTTATGTAATTTTTTACAAATATGTAAGCATAT
AATTCATGTTACTCTTGAAATTATTTTTTTCAGTTTAACTGTGCACATATTAAGTATCCTAAAAAGTCAATACGTGTATGAATAACTTATTATTGYTAAT
AGCAATATGAAAGTTTATGGTATGCCAATTTATTGTTTTGTGTACTGATATTTCTGTATCTTTAGGCTAGATTTCCTTAAGTATTTGCTTATGTTTGATT
TTAGTAAATCCTGGCAGATTGCTTTCTGAAAGGGTCATATAATTCACATTCCTAACAAGGATATAAGAGAAAGCCTGTTTTGTGATACACCCACTCACCT
GGATTTTATTAATCTTATTTATGTTAATCTTATGGACAAAAAAATACTAGCTTCTTGTTTTAGTTTTTATTACCCTAACTCCTGGTGGGTTGAGCATCTT
TCCTTATATTCATTGTCCATTTATATTTCCTTTTCTGTGAATATTTTGCTTGCTTTACTCATTTSTCTATTGGATATTATGGCTATTGAGGGGCTCTTTA
TTAGGCATAGTTTATCACATGCTGTCATGCTTTCATTCAATTTTTTTTTACTTCATTAATATTTGGTCATTCAGAACTTTTTAATTTTTATTACTCTAAT
CTATTTATCTTGTTTGTTATTGCTTAACAGTTTCTTTTCTAATTAAAAAGCCTTCTCCTAATCCAAAGGTTAGGGACATATCCCCAAATTTTCATCTATT
TTCATTATTTAATTTTAATTCAGATACTTAATCCCTATGAAATTTATGAGTTTTTTTAAACAACTTGGGGTAAAGATTCTTTTCAATGCGAGACCATAAA
ATCCATGTAATAAATAGTACTAAATTTCACTTTTAGCATAAGTTGAATCAATGATTTTTCACACATACCTTAGCATTTCAGAAATATAAGAAAGTATAAT
TTTAATAATAGGTAAGATGGGAGAAAGAGAGAAAGCTACATATAAGAAAATGTATGGAAAACAGCAGTAGGTAGACTTTCATGGTAAAAGAAAGRGAAAT
AAAAAAGTCCTAAGTTAGAAAAGAAAATGCAAGAGGAGTAGAGAATATTGGAGAGGATCGAAACACCAGTGGCAGACTACAGCATAAGTAAGTAATGTTC
TCACTAGATGTTAGGAGTTTGGAAACTCAACAGATGTTCAGAGGATAGATACAGGAGATGAGACAAAATGTCTGATCCACATGGTTTTGGTGGATCAGAC
ATTTTGGTTCCACGTGAATTTTAAAATAGGTTTTTCTAGTTCTGTGAACAATCTCAATGTTAGATTTAGGTTTACTTTTAAGTCTTTAATACATCTTGAG
TTGATTTTTTTATATGGTGTAAGGAATCCTCTGCATATTGACATAGCTGATTTCTCAAAAGATATTTTTTAAATATTAAGCAACTACTTGAATGCTAACA
CCAATAATACGAAGATGTTTCGGTTAGTGCCATGATATCTAGCTACATTTATACTTTACAGTTATTGGAATTTTCAATGGGAAAAATCTATAATTAGCAA
CGTTGTATAGATACATAATATATAATATTTTAAATAGATATGCAATGAAAACTATAAGAACATATAGCTGGTTCACAAATATTGGGAAATTTAAGAGCCA
AAATTAAATTGGCTAGCTATTTTCTTTTGTTGTTTCATTAATGATGTTATTAAGCTATGCTTTTAAAGGGCTCTTTTGCATGCTTGGTGTTTTGAAACAG
TGTCATTCTGAAATCAAATCTCATTGCTGATTATGGTTTTTTTTTACTCCATCGTCAGACTTTCTTATTTTCCATTCCTTTATTTTGATAACTTGCCTTT
GTGTTATTCAAGGCATAAACATGTCTTTTAGTATGTGGAGTGTCAGCATTAGAGATTTTATCCAGCGAACAAGTAGCATGTATTAAAAATGATAATGACA
TGATGGATTCCTTGGAATACTCTGTTGAAAAGCCAGACAGCATTTCATTTCCAAAAGTGTGAGAGGCATATGTGACCACTGAATCCCAGACACCAGTACA
TCCTTTTTATTGACATGATTAAGAATCTTGCTGTTAGTATTTGGATGTGTTTCATTTGAACCTGCCTACACCTGTTCCCAGAGGGCAAACAATTGCCCAG
GCTGTCACTCTTGTGACAAGTCAGCCTCATTTGAACTGCCAGCTAACAATTGTGTCGGCCTGCCTTGATGAATACACTGTGCTGAGCAGCCCATGAGTGA
TAGAGTGCTACTGGCTGCAAGCTGACTAAGAGAGGACCCTGGTTTAGGAATGATGTGTGAGACTTCCTATCATTTAAAAAGAACGACAGCTTCCTTTTCT
CTGCATTTGTGTTGGCAACCCCAGGCACTAATTCACCAGTTGAAAATATATTGTCATAGATGAATGTTATAAGGTTGAGGGGAAAAGTATCATGTCACTG
AGAATATACTTTTATGGACAGTTTGGATGATAGTGTCCATGAGTAAGAGGTCAACGGGTACAAAGTTACAGTTAGACAGGAAGAATAAGTTCTAGTATTT
TACTACACAGTAGGGTGACTATAGCGAATAACAGTGTAATATATATTTCAAAATAGCTAGAAGAGAAGATTTTGAATATTGTCGCCACAAAGAAATGATG
AATGCTTAAAGTGATGCATATGTAATTACCCCAATTTGATCATTATACTATGTGTACATGCACTGAAACATCACATTGTGTCTCATAAATATATACAATA
ATTATTTGTCAATTACAAATTTAAAAATTAGTAATGAAAAAAAAGACTAACTAGCTCCTTTTGAGAAAGATTAGACAGATTGAGATTGAAGTAGAGATAA
AGAGACAGAGAAGAGACTTCTCCCAGAATATGAAAAAAAGAAAGTAAGACTTGAAGTCATTTTTTTCTAGTAAGAAAGATGATTTCATTCATGCTATTTT
TCAATCTGTTGAAGAAGTAAATCTTATAAACTTTTAAAGTCCCAGAATCACAGTAATATTCTACTTAATTGATTTATGATTTTAAGAATCTCACCCTTAA
TCTTTTGGCTTCAATATGGGTTTGAAAAGAAGTATAGGGGTGTAGGCTTCTCCTGTGTTGAAATTCTTTGTGCTGTGAGACGCACCGTTGGACTTCAGTG
TAATGTATCTGCTTCTTGGATCAGAGAAGATTATGGGAATGTTATAGATGGCTTCTGACCAAAGACTATATAATATGTGTGATTTTTTGCGTGGTCAATC
AAACTTAAATGTTTCTTAATGGTAATAATTCCCCAATCCATAGTCACTTTTCAATTGTCGAAGTAGGAAGGCATAACTTCAGGTGAATACTTAAATGTAG
AACTATCCTTTAATTCACACAAAAATACTTTTCTATGAAGTGTTTCTCTACAGTTTGAATCTGCCTTGTAGAAAACAAAGGCATTACATAGACACTCAGT
GAACTCTTGTGAATGAAGGGCTGATTGAATAGATCAACAGATGAATGAAAATAATGTATACAGCACAATGTGACACATGATTTGATTGTATTATAAATAT
TTTAACAGTTTATTTTAATGTTTAGAAAGTGAAATTAAAGGTAAATATGGAGAACATTTTATTTTATTCTCCTCCTGCTATATCTGCATTTACCTGTGAA
TATGTATTCTTACATATACTTGTCTCCCTGATGATTTGAGACATTTCATCTGATAATAATAACTATCAGTATGTGGGCATATGTTCCCTCTTAAGACTAA
AAACCAGTTACTGTTCATAGTTGGAATTTGATAATTTATATTTTTATTTTCATTAAGCACAGATTCATCCTACAACATTTATTGAGTATAAAGCACTTGT
CTAATTAGCTATTACTGTACATGAAGATATTGATTGAACTGACATATAATATAAACAGTTTTTCTTGAACTTGTAAGTTTCATTAAGACAGAACTATTTA
TACAACTAATAGTAGGATATATAAATTCATGTGTCATGGCTAATTTGAAGAAATTAAGAGCAGCATATATGCAGATTTTGCTGTGAACTCTTGGACTAAG
GAATAGGAAGGAGAGAATTGGATGGTATTAGAATTGAAAAGCATATTGGATCCACTGGGTTGGGATCCACGGTTATGTCACTGAGATCATTTAAATTTTT
AACTTAATTTACTCATTTTAGTTTGTGAACTTAAACTGCAATTTCTGTAGGTGCTTCCAGCTAATAAACCAAAAACAAAGTAGTTAAAATCAGGACACTA
ATTAAGGAAATGGTGAATTTAAACTGTGGTAAAATTATGCTCCTTGCTAGCAGGTGAGAAAATGATTGAAAACTAAGGTCAGGTCTGGTCATTGGTTTAA
AACAGACAATTTGGCTACTGATTGCAATAAGAGTATGGCAATAGTTTCTGAGAGAGTTATCAGCAGTCACTGTTAGAGTGAACCAATACCTTTAWGAACA
TGTACAGTGGATCTATTTCCCTCATGCGAAMGGAGGTGGATAATTAGTCAATCTCTGTTTTGAGTGTGTATTATAGGTAGAAGCAAGGACCAAGGTTTCT
GTTTTCTTGTAGAACATTGCCTGGCACATAGGAAGTTCTCGATATGTATTTAGTGGACAAATGAATCTATGTAAGTTGGAAGGAAAGTGAGGACAACTCA
GAACCTCAGTTATGAGGAGGGAGAGCAGACTTTATCCTGGATTTGCTGGACTGGTGTTGACTTTGGATGTGTGTGTGGCTGGTGCCCTTGGTCAGGCGTA
TCAAGCTAGCAATCAGGCAGTATAAACAGTGAAGACTGCTGGCATACAAAGCATACACACACACACACACACACACACACACACACGCCCCATTTTTGTG
AGTGTCCCCACAGTGTTCTGTAGTTATTTGGTAAATAACTGAATAACATGTATATTTTCATAAAATAGCATCATGATAAATGTTATAAATAAACTAGGGA
AGACTTTGATCGCTACCTTTTGCTTTTGCTTTGTATTCATATTCTGTGCCTCAGAATATTTTAAGTGGACTCTGAGCTTTGGAGTGGTGGACAAAGTTAA
GAATGACCAGTAGAGATAAAAAAACAAGGACAGACTACACATTTCATGAGTTCTGATTTTTGAAAGAGAACAATTTCCTGTCTGTCAGTCTCAAGTGGTA
ACAGTGAAAAGTCAGCTAAGAGGAGCAATGGTGGGTCCATGGCTGTGGGTACTTCCTGTCTGAAGGCCTTTTAGCAAATAGAAGGGTCTTGGTTTTATTG
CAGTCTATCATTACAAAAGAAGCATTTACAAAAACTTGCTACTTACTAGGTAATGGACATTGGGTACTGTTGAACCTCTTTGGACCTCTCTTTCTGGATC
TCAAAATAGAAGATAATTATTATTTCATAGGATTAAATGAGATGTTTGTAAAGTGCTATGTCATGGTTTGGTTTATAGTAGGTGCATAATCATGATTGGT
TTTATCTTTATCATGGTAGCTGTGATATCACTCAATATCACAAGAAAGAAATTACAAGAGAGAAATTTATTAGAATATGCTACATGTATGATGTCATAGA
GGAAAAAAGACTATAAAGAAATAGTTATTTCATTTGATTAGGTTAAATATTTTTCTCATGTAATTTCTACAATTATGTAAGGAGAACAAGTAGAATTATC
CCCATTTTACAGTTAAGAAAACAGAGCCTTAAAGAAATTAAATAGCATAACCAAAGTCGAAACTATTAAGTAGCTGAGCTGTGATTGGGACACCAGGGTT
TGTCGTACAGGAGAATATGTTATTTTTTCTCAATCTCATGCTGTGTCAAACAAGATTTTAATTATAGTGATGCCAAAAAAGAAAGAAAGAAGCAGTTGTC
AATGACATGAAAAGGGAAGAAGGGCCTGGAGAGCTCCTGACTGTGGAAAGAGAAAAGTCAAAGACCTTGCTTAGGACATGGAACAATGGCACCAAACTTG
CTGGCTTCGGCCAAGACCTCACGCAATGAGTGCAGATCTTTTCTTTGCCAAAACAAGCAAAAGCAGGTTCTTATAGCATCACTACCAGAAGGGAATACAT
GAACAAATGGAATTSGGTAGGAGGCATAGCTGTTTATCAACATGCTTCCAAGATAATTTTTCCCTCCTAATGACAAAGCAAATTTACATACGTGCTCTCA
AAGTTTTTTTTAATATAARCATTTGCTTTATTTCTAAGAGAATAAATAAAATTAGTTTTGAAAATCCTATTTCATAACCCTGAAGCTTTTTTAGCTTTTT
TATAGGCAAAGTCTTACCCCCGTGTCTGTGTATGTAAATGAGAGAAAGAAATGAGAGTGAAACTAAATTATAGCATGAGGTTAGGGAGAAATTTGAAAAC
TGAAATGAGTTTGTATGGGAGGTCAGGTGCCCTGGCCACTTCGAGGCCATTCATTCTCCTGATCTTTCTCCTCTGAAGGACTGACTCAAACTTGAACCAG
AGTATATTTCAGCCCTTTGAAATAAAATAATACAATTAATGGAAGCTGCTAAAGAAAGGCAGAGGAGCACTCATTTTTAAAAATTATATGACCAACTCTC
AGAGCTAAAAGTAGGAGTCATTTCCATATTCAGATGGTAGATATATTTTTGGAGTTCAGAAGGAGTATAACATTGAGTCCTAGCTAACTATGTAATTAAT
GAAAGCCATTGATTAAACTGCTAATAAATCAGAGCTGATGTTCTTTTTTTAAAGAAGAAACATAAGACTCTGAAGGGAAAGGGGAGTTCATAGACCCTAA
AGTTTCTGAACGGATACAAATAAGATGGAGAAGAACTCTCCTTGATTTGCTACATTTTCTACCAGAGAGATGGCATATCCAGATTTTATAAAATGGAGAA
TAAAGAATGAGTAGCTAGAGTATGTGATTTATTTGAAAAATAGTGGTCATCTGGTGTTTGTCAAGGTATCAGGAGATAAAAGCAAATGGAATTAGACTTC
AGGGGCTCTGTTGCTGAAAGGCTTTTTGAGTTTGTTTTTTACTGCTGTGTAGCATCTCTCAAATCTTTGTGGAAACTCTGATATGTCTCTGAGACTATAT
TTAAAATGCTAAGACCTGTCATGGAGAGCCGGCAGGGCTGGAGGCATGGAGAGAAGAGGATAAGCGCAAAGACAGGTATTTTTTATCTTAAACTCTGCAT
TAGCTGCTACAGCCATCGGTACAGCTGCCAAATGGAACTGAAAGAAATAAAGAAACARAAAAAAGAGTAAGGAGTACAGAGAAAACAAAAAAATAGGCAG
CATTTAAATGTAGGATGTTTTATTTGGAAGTATAAAAAAAACAATTACAGACCTAGACCTATTGGTTAGAAAAGCTAGATTGTATTTCTCTGGCCTGTAG
CAATGTATGCAGTGATTTTTTATGCTGTCCAGCTTCCTTATTGAGATTCAGTGTGTATGGTACTTTACTGGAAATTGTTAAAACCTTTCTAGGTATTACA
TAAACCAGCTGTGGCTACCGTAAGTTTCTAGACTGCGAATCTGTAGCACCCTGTCGTCACACTGCCTAGATCTCCCAGAATCTCTTGCCAACTTTGTTCA
CCCATTTCCCATCTTCTGCTCCCTTCACCTTTTTCAGAGGACTGCCCTGGACTACTGGTGGTGCTTCACCCTCAGACTCAAAGAGCCTGGAAATGCCAGA
GAGTTTACATTCCCCCTAGGGTGGCCCATAGCTAATGTCTGACTTTTCCGAAGTATGAAAGCCCAGCTCCTGCCTAATATAAATTACATCCTAATATAGC
TTACATGTCAGAAGTGCCCATGGGATCAGGTTGAGATTGAGATGGGGCTTGAAATATYTCCCTTGATTGATTTCTGCCCTTCCTTCCCTTGCTTMTGCTA
CTCCCTTAAGAGTTCTCCTGGAGCACATCTTAAATACTTTTCTCACACATGAATCTTCATCTCAGCTTCTGCTTCTGCAGAGCTCAAAATAAGATAAAAT
CTCCATCTATGTACACACACACATGCAAGTGTCACCTAAAAATATTTGTCTATGTACTGGCCAAATACACAGATCTTACTGTGTCCATATACCAAGATAT
ACTAGGATGGTGGATAGTACAGTAGACAAAAATTTAAGTTTCATGCACACAGAATACTGTGGTGATAGAATGAAATAAATTTTTTTAAAAAAAGCTTTTG
TTGAAGAGACAAAGGATTATTCATTTTTTTCTATAACAAAGTGAATATTTATAAAGCGTTTTCAAKAAAAAATGGCTTTCAAAAAACAACAAAAAAACAG
GGATGGTTGATAGTTAAATGTGATCTMTTGAAAATTTCTATATACTCATATATTCCATTGATTTGATAGGTTTTCCTTATCCTAACAATGATTTAGACCA
GGGATCTAATCCCCGGGCCACGGACTGGTACAGGGTCCATGGCCTATTAGGAACCAGGCTGCACAGCAGGAGGTGAGTGGTGGGGAAGCCAGCGAAGTTT
TATCTGTATTTACAGCCACTTCCCATCCCCTATCGCTGGCATTACTGCCTGAGGTCCATCTCCTGTTAGATCAGTGGAAACATTAGATCCTCATAGGAGC
AGAAACCCTATTGTGAGCTGCACATGCCAGGGTTCTAGGTTGTGAGCTCCTTATGAGAATCTAATGCCTGATGGTCTGCCACTGTCTCGCATTATCTCCA
AATCTGACCGTCCAGATGCAGGAAAACAAGCTCAGGGCTCCCACTGATTCTATATTATTGTCAGTTGTATAATTACTTCATTATATATTACAATGTAATA
ATAATGGAAATAACGTGCACAATAAATGTAATGCACTTGAATCATCCCAAAACCATCCCCACTCAACCCCAGTCCATGGAAAAGTTGTCTTCCATGAAAC
CACTCCCTGGTATAAAAAAGATTGGGGACCACTGAGTAGACTATATGGGAAAAGGATATCAGGTCTATATTAAACTATGTTTTAAAATTTTTAGTATTAT
TAATTGCTAACATAATTTTTACAATTAAACCAATTGCTTTACAGAACAACAACAATGTCATCACTTTTATTTTTTGTAGATATGAAAACTGCTTYATCAA
CCTCATCCAGAAGTCACCCTTATTCTAGTGACAGTGAGGATGAATCTGCAGTGGGGGACAGGGAAGCCCACACTGACAGCAGCACAGATGAAAGTGCCAG
AAGGTCATCTTCTCAGGAACTGAGTGAAAATGATAAGCCAAGAAAGTCTCACCTTCCARTTGAGGAATCCTTAGAAATTGAAATTGAAGACSAAGAAATA
ACAAAAGCAGATGTGGAGACCAAGCCGATGCCAATAGAYGAAAGCTTTGAGAATGTTCTTAAAGAAGGAACRGAGAAAGGAACCCAAGAGATTGCAGAGG
GTTTATCTGAGAAGTCCGGGAAACRTGTTTCTGCAGAAGAAAAGGAAAAGGATAAGAGTAAGCTTTGGGAAGAAAGCACTGCTCAGGTGAAGGACAAAAA
GGCAGGTCTCCCTGGGTTGGAGGAAGGTGGTAAGTATGGCCKTTGAGTTGAGCTGCCATCATCCTCATGCATGGAAGCTGATTTTGGTCATTGCACTATG
CCAAAGCTTGGGAAATACTACTGTGACAATGCTTTAGGGATTCAAGATTTTTTGCTGTGTCTCTCTTTGTCACATAATCATACATGTATTTTCAGTTTGC
TGTTTGCCTTCTCTTGCACTTAAAAAATTACTCGATAATTTCTATCCAGCCTGTTTCCTATTTTCGGTAAATTCCCTCCTATGGGAATTCCATCTCAGGA
ATGAAATAAAGCACAGTATGTGTCTGAAGGCAAGGATGTGTGTGGCTTTTAGAGATTATTTAATACTAGAAATACTATTTGTTTTTAGCTATATATGGAG
TTTCAGATATATAGCTAATGTTAATAGGTGCTTACTACGTTCCAGGCATGGTTCTAAACACTTAGATATATTAACTCATCACGTCCTCACAAAAATCCAG
TCTCCCTCTAAGTTACATTCTATTATCATCATCTCTTTTTTACAGATGAAAAATGAAATGTAGCTTCCAAAGGTTAAATAAGTTACCAAAGATTACACAG
CTAAAAGAGGCATTCCTAGGATATGAATTCAGGCAGAGTTGTTCCAGAACTTATAAATATTGCCTATTGCGTCTGTGTAATATGAATTTAGATTTAGATA
ATAGTGTAAAATTTTCTTACAAGATTCCAAACTTCCCTTTGAGTTCTCTGAAACTGAGTTACTTTCTGATCCCTGGGGCTCCTGGGTGTGTAAGATTGTT
CATTTGACATGGAAACAGTAAGGAGTGTCAGGATAATCAGGCCCCAGACCTTAGACACATGGAAGGTCTGATGCTTTTCTCAAGTTGAGGAGCACAGTGG
AAGGGCTGAGGGGTGTCCTGTGGAGAGCTGGATTGCACCTGCCCGATGCTTGCCTCTCACCTAGCCTCCTGTGCCCTGGAACTGGTTCACAGTCCTTTGG
TTGCTCTCTCTCATCTGTCTCCCCTGTCAATGCAGGAGCCATTCTTGATTTTAAGATAAAATTTATTTTCACATTTTAATATTACTAAAATTCAGCTGCG
TTTTAAAAGCATATGAATGCTTTTAGCGTCTATGTTACTTTTAGACCCTTAAAAACTACTGTTAAACCACTGGGGTCTACTAGGAATTGAAGATGTCGAA
TAGTTATCTATTACTTCAACCAATATTATTAATCTTCTACTATGCACAAGGCACCATAGTCAATAAAAAATGTGTAAGACAGAGTTTCTCTCATAACTTG
CTGAGTGGAAGCCTTGGCACACCACCAGACAAAGGTTAGTAGTCCCATGTAAAATAGAGAAGGTAAAAAATGCTATGTGGCTTCAAAGGAGAGAAGTCCT
GTTTGTTAAAAGACACCTTGAAAGTTTTCACGAAGAACGTATTTGAGAAACTTTAAAGGTTAAATACAATTTTGAAGGTGGGATACAGGAGGATAAAGGT
GTTTTAGATAGTGGAGTATAGCAATGCATATGACCTTTGAATAAGTTACCAAAAATAACTCTAGAACAGAGTTTGACAAACTTTGGCCCAGGGGCCAAAC
CACTACTATTTTGTCTTGTTTTCTAAATAGCCTGCAAGCCAAGAATGATTTTTGTATTTTTAAATAGCCCACAAAATCCTAAGAATTTACAAACTGGGAC
TTTAGAGATAAAGTTCATAAACCTCTGCCCTAGAATAAAAATGCAAAGACCCTGAACATCTTCAAAAGGATTTTTGTCATATATAAATCAAGATTCTAGC
TCAAATATATTTGAAACCCTTTTATAAAATAATTCAAATCTTTGATCTTGAATTTCATTATGAAATTTTCATACATATAAGGTATCATCTAGAAAATGTA
TACAAGCTGACAAGCTGCTAATCAAAAAGGTAGAGGTGTTAAAGGTCAATAGAAACACTAACATTATTTTCATTTTTTAAATTTTCACTTCAGAGAACCA
GATTGTTTACCTGAATTTGTGTAAGTAGACATCTTTTTGTAAAGTAGGATATACATAATGAGGGTCATAATTAGGCTGTAGAATATCAGAGATGTAGCAC
TATGATCATGTCACCTGGAAGACAGTAGTTTTTTTTTCTCTGGGTTTGTAAAATGAAAAGTGTATTGGCTTATTAATTTTCTCAAATATATTGGGAAACC
TATGGTCTTGACTTGATAACATCTATAATTTTAAAACATTTTGTTATCTTTTTATTAAGGTGGATTCAACACAAGATGGCAAGGTTTGGGACTGTTTATC
TTTGATTTTAATTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCATTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACC
TCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTTAACCTCCCGAGTAGCTGAGACTACAGGTGCTCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAG
TAAAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCTTGACCACGTGATCCACCYGCCTCGGTCTCCCAAAGTGTTGGGATTACAGGCATGA
GCCACCATGCCCAGCCTGTTTATCTTTGTTAAGCCGTAATATRTGTGCGATTATTAATTTTTTATTAACAAATAATACACATGGAATAATATTTAGACAA
TAGAGAAAAGTAATTTTGAAAAATTACTCATAGGTTTATCACACACAAAAAGATCACTTTTAACATTTGGTCGGGCTCTTTATTTGTCAACTTAGGATTT
ACAAAGTTTTGTTTTCATATTTTGTAAAATATATGCTGCTTTATATCTTAACATTATAACGTGATCATTTTTCACATCTTTAATCTTTATGAACATATTT
AATCTCTGTGTGTTATGCCATTCTGTGGTTTTCTCATAATTTAGCCATTTCCTTATTGTTGGACATTTATATTTTTTCTTACTTTCACTATTGTTATTAG
TACTTTAGTGTCTTATTACTAAGATTATTTCAAATTTATAAACATTTTCTTAAGATAAATTTCAATAAGTATAATTTTTGTTCAAAAGTTATAGATATTT
TAAGGTTTTTGATAAACTTTTTTCTCACAAAAATTTGGTTTAAATGTTTAAACATTACAGAACAGAGAAGAATAAAGTGAAAGTGAAAGTCTTTCTCGCC
CAACCTTTACTCTTTTTCTCCAGGGATAACGGTGGATAGCAATTTTTTGGTGTGTGCATGATTACAGAAATTATAGGTAGGTAGATAGGTATAGATATAT
TAATATATATTGCTATATTACAMAGATACATATACATATGTTATTTTTATGTATAGATGGAAACATACTATACATTTTGTTCTGAGACTTGCTTTTTTCA
CTTAACACTGTATCTTGAATGTCTTGTCACATAAGCACACTTCTCTTTTCTTCTTATTCACCTTATCTGTTATTCTTATATTGCCACAGTATTGTATAAC
TGCACGTTTTCTTTAAAATATGTTGCCTTCTGTGTAAGAACTCATAGTTTTGTTCTATTGTTCATCTTCCACAAAAGAACAAAATTTGAGGGTTGTGAAA
GCCAGGAAATATAGAATCAGGGAATATAAAGCATAAGACATTAACAGGTAAAACAGAACAAAGACCATGTATAATATTCAGAATGATGTGGAAGGATTAA
TGCTATCAAAAACCTGAGGCTGAGTAAATTATAACAGTTGGGGGGCTAATGTTTTCTAAATACAAATACTCAGGGAAATGATTCAATAAATTTGTTAATA
TTTTAAATAATAGATTTAAAAGTCAAAAATATTCTTGAAATTTTTTGTATGAATAACAATTTCTAAGAAAATTCCACATAAAATCACAAAATATGCACAC
ATATATATTGTACTTAGATCCMTGACTGGAACTGTAGGTAGAAATGAAAGAGGGCTGAGAGAATGTGTAAATGACCATGTCCCACATTTGTATGGTATTT
AATYATTTTTCAGTTAGAATAAAAGCTGTTATTATGTTAAAGAATAATCTATGTTACAAATAAATCTGTGGGCTAAAAATCATATACAATTAATGATGTT
TTATAGACTCTAAGCTAACATGATTTAATTTGAATTGTTTTTACTTGAGATCATAGCAGTGGATAAATGAGTAAAGTACAGCCATTGCCTTCATACCTTT
TAGGTTGATTGCATAAAATGATATTTTCCTTCTCACTATTTTATAGTATGTCATATTTAATTGGACTTTGTCCAGTCCATCAACAAATCAGATGAATTGA
ATAAAAGATGTACTGTACACAGTGAAGCAGATAAAGTAAAAGATTATAATTGCTAGCTGCAATCAGACAGTGTTCTTGGGTGTTAATCCAGTATTACAGG
GCATAGTGTTATTTTAATGTTTATTTTTCTGTTATTTTCAGCTTAAGCTGTCATGCATTGTGACACAATCTTGGCAATATGTTCTAATAGTGGAATAACT
CAAGTGCATTAATTTGTAAACTTAATTTAATTTATACATCATAAATATAAATGAAATAAAGAGTAGTGTATTTAATGTAAATTATAATGTCAAATGCATA
TGGGAATAAGCATTTTCTATTTTTGTATGTGAATCAGGAAAAGTCATAGTGCTTGACCAGGCAATTTGAACTTAAATAATAGTATAACTAAAATGAAATG
CAATTTTGTCATCAGGCAGGCAGGATAAAATGGTCCTGATGAAAGAACAAGAAAGTCAAGTGTTATGAGTTGAGGTCTAAATACAATTTCTGAATGACCT
GTGGAAGCATGTGGTTGTTCTAATAGACCTCTTCAGTCCCTAAATATTTGCTGAGGATCTGCTTTATGCCACACACTGTTCTCAATGTGAACATAAGAGT
CCCTTTCCACATGAATTTTATATTCTAGGAGAGAGATATGCCTGCCAAGTGAAAAATAAGCATGTGATGGGGTATCTGGGCTAAGTAATAGAAGGAAAAT
AAAGCAGGGKAAAGGGATAATARAGTGATGGTTTGAGGAAGGGGTAGTATTTTTGGGATGGCCTCTCTAATAATCGGACATCTGAACAGAGATGAATGAA
GTGCAGGGGGAGGCCACTCTGTCATCTGCAGAAAGACCACAGGGAGCAGGGGTCCAGCAAGTGCAATGGCCCCAAATTGGGAGCATAGCTGCTGAATGAA
GGAATTGGAAATGAGGCCAGTGTGACAGAGTCTAGTAAACAAGTAGAGTAGTACAAGATGAGGTCAGAGGAGGAAGCTCATAGGTCATGGGGAGGAATTT
ATTCTGAGTTAGGAAATCTTTCCTCTAGGAAGATGTGAGACCACAATGGCATGATCTGAATGTTTCGAAAAGATTATTCTGGCTACTATATGGAGGCTAA
ACTTTAGCATTCTCTGCAACTGTCTTTGAACAGCTGTGGTCTTCGGTTTGTAATTAATCCTGGTATTTTGTGGGCCATGCATCAATGTCAAAGATGACAG
AAGAACATCTTCACTGTGTAGGTAGATGATGTTAATCATGAATTTTGTCATGGTGAGTTGTTGGGAAGGTAATCGACTGGCTACACAAAGAATGATGAAA
GCACAGGGATACTTTTCAAGGTCACCAGGAACTTGGAATAAGTTGGGCATATCTTTATGGTGTTTTTATGGCATTCTTTCATTCTTAAAATACAGATGAA
AATTCTTGACAAAACCCTCTTCTGATATTCAGTTGCTCAGGATTCTTAACATGTTTTAAGATGGGATCAATTTGGTTTGTTTAAAACAGTATAGGAGAGA
GAATGAATTAGATGTCATTGAGAATACACGATAGGAAATGTAAAAGATGTAACGTATACCAAATTAGAGCATTTGTATTTTGACATTTGAGAACCTGGAA
GAAAGAACCGATAATGAAGATTCAAGTAAGCATGAAATAGAATAACCAGTATTTTTGTTTCAGGGCGTAAACCATTTATTAAAGTTTTATGTATTAGTGG
TTCTACTTCTCCTTACCTTTCTACTGCCCAAACCCCTCAGACACTATTGGCTAGAAAATACGTAGCACAGTTGACCTGCTTATCTGAAGTTTCAGTTACT
CATGGTTAACCTCAGTCTGAAAATAGGTGAGTACAGTATAATAAGACAGACAGAGAGAGAGAGAAGGAGAGAGAGAGAGAAAGAGACCACATCAACATAC
CTTTTATTGTAGTATATTGTTATAATTTTCTATTTTATTATTAGTTATTGTTGTTAATCTCTTATGTACTTAATTTATAAATTAAACTTTATTATAAGGA
GGCATGTATAGGAAAAAGCATAGTATATATAGAGTTTGATACTATCTACTGTTTTAAGCATCTGCTAGGGTTGTGGAATGTATATACCCTGCAGATAAGG
GGAGACTCCTATACTGTAAAAACAAACAAACAAACAAAACCCCTGAAGCCCCCAAGATATACAGTACATTGAAGCTCTTGGATGATTTCTTGAACTTTCC
TTCTTATGCCTCTGCATATTTTCCTCTTCATCTGCTCTGGCCGACAATGACATCTAAAGCTTTACCATGGAGAACTGGCAACTACAGGACAGAAATACTG
TGGCTTTGTTCTGCCCCCGTTTACATTGTTTTAAAGGAGAAAAATGGCCTAGAGGATGTGTAAAATTGTGGGAGGGTCAGGGGAGAAAAGAGAAAGAAAG
AAACAAAATAAGCACAGAATTACAAAAAAATCAGAAAAGAGAAAATGCTACCCTGCAACTATGTTTGGCCTGAAAAATTACAACTTTCATCGTCATCATT
CTAAATATTTTTTTGTTAAATCAAAGTTTATGGTAAAAAATACCTGAAAAATTCCAAAATATTCATTTAAACCACATAAATAATGCTTCAAAATGATCAT
AAGAATGTTTTTTGTTTAGTAAATATTTAATATTTCAATTTGCATCTTGACTAGTAGATATTAAAGTATCAACTTTTACATCCCACTTGTGATGGCCTGA
ATTTTCATATGTTATTTGATTTGTTTCCACAAAAGCAGTTGAATTATTGCAGTGAGTTTCTAAGTTTCTACATTAACATAGCAGCAAGTGATATGAAGGC
TATAAATCGACTTTTAGGGAGAATGTTAATTAGAAACACTGTGAAATTTATGTCATTTGGTAATATGAATTCAGGTACCTGATTTTTTTTCCCTGTTGTA
TTTTAAATGAGGAAGAAAGTATAAAAATAGCAGTTTAAATGTTTTACAAAGTTTAAAAAGTGTGTTTTTATATCTAAAGAAGGTACCATCCAGATGTCAC
AAAATCCAAGGAATTTGCTACATGAGGGCAAATTAGAGAAAGACATCAGGAGCTATCTTGTGTTTGTTTCCCATGAGAAAGAGGAGCATCCTCATAGAAG
TTAAAAAAGAAATCATCCTAGACTTAAAGGATTAGAAGAGGCTGGAAGCAGGGGTGAGCCGTGAGGAAGTAAAAAGCCGGTGTGCTGGCCTCTAATTGTT
CAGTGTTCTCCACTGTTGCCACCATCCCAGGAAAGCTTGTGAGGCAACACCAACAAAAAGTCAGCTACACTGGTGGGTAGAGAGTCTTCTCCCCTGAATT
CATAGAGGCACTTCCATAACAAAGAAGATGGCAATGTCAAGACTAGAGTAGCTGTCTAACCAAGCCTGGAAGCTCTTGCAACCACAGAAAAGTAACGCAG
TGAATTACATTTCTGCTAAGAGGGTTCAAAGCCCCACTTTCCTTTCCTTTCTCCTCTAGCTCTTTGGTCACTGAATTGGAATTGGAAACTATTTCAGCTT
AACGTTTTTGAGGAAAATCTGCATCCCAATGGGATTTAAGAGCATTCAAGAAGCTATCCACTCTCTTAGTGGAAAATACAAAATGAATAACGCTCATTTG
TATATAAATATAAACATCAGTCCTTTTCATAATACATAAGGACATAGAAAAAATGATTAATATAATTTAGAAGGTTGGTTTATCATGTAACTATTATTCT
CCATGTGCCTTTTTTATAGCAGCACAGAGCAGAATTTGTTGAATCCACAGTAAATGATAACAGTGCAATAAAGCTATAAATTATTTACAAAATATAATTA
ACTCTCACCAGAAAAATTGAAAATTTAAAAGCAGTACTCTAAATAATTCTTGGATCTAAGAGAAAAAAATTCACTGGATAATTAATTAATTGCAATTATT
AGTGCCAACAGGTGGTATTTGTAAGGTGACCAATTTCTCACTATAGCCTCAAAGAACCACCCCACTCACACTATAACAACAACAACAAAAGTAATAAACC
GCAATGGAGAAATACTCATAATCAGACTTTAAGAAATGTATAAGAAGGAAAAACCTAACACATGGGCTTAATAAGAAAAATATGCTATTCCACACAAAGC
AGATGAAAAAGAAATATGATAAATGGGAAATCACTCCAACTATTTGAATAGAAGACTAAAGATGATGATAATTTTTGCCAGATTAAATCCAAAATTTGTT
GTAGAACATCTGCAMATCCTAACAATAATAGTTTGGGATTTGAAAAAAATTCATTAATTTGGAAGAAATAGTACTGAGTAATGTGAAATTCTTTGCAATA
ACAGAAATAACATACGACTATACAGGAAAACAAACTCTGGAAGAAATATTTGCCAGATGGATATGACAAAACATTTATGTTTGTATGGACATAAAGATGG
CAACAATARCCATTGGAGACTACCAGGCGGGGAAAGTGAAAGGGGGCCGTGGATTGAAAAACTACTTATTGGGTATTATGTTCACTGCATGGGTGATGGG
ATCATTTGCACACCAAATCTCAGTGACATGTAATTTACTCATGTAGGAAACCTGCATATGTACCCCCTGAATCTAAAATAAAGGCTGGAAAAAATGATTG
ATGTCTGTAATACATAAAGAGTTCTTACAAATCAATGAAAARGCAAACATCATAACAGAAGAATGTACATTGTATAGCAGGAAATTCACAAAAGGAAAGC
TTGCTACTAATATTGACAGCTCTATCCTTGCCACCACTTTTCAATTACTAAATTATCAAATAAAGAAAGAATTGGTGGAAATTGTGAAAATAGTGCAGGC
ACATAGGACTTTCAGTCATTATTGATGACATTGTTCATCATACCTCCTTTTTAAAAGAACATTTAGAAATATGTATAAAAAGCTTCTAAAAATTCATAGC
AATTCATATTCCAGGAATGTGTCCTAAGGGAATAGTCWGAAATATGTGCAAAAATGATTATAAGTAGTGTTTAAAATAGCTTTATAATCACAATTGAAAT
AGCTCAATATTTAACAATAGACATTGATGAACCGAAATTTAGTAAGACTTTATTATAATGTTTTATGTGTTATTGAAGAGTCTTTTAAATTTAATGATAT
GGGAAAATAGTCACAATATATTGCTAAATTAATAAAGTGGGATATTAAGGGCTACCTTTAGTAAGAATCGAGTAAAAAATACTTGGAAATCTATTAAGAT
GTTAACTAGTAGTCTTCTCTGAGTAGTGAAACTATGATAATTATTTTCTTCTTTGTATCCTTTAGTTTTTTCAAGCTTTGGATAATCTATCTAAATACTG
TCTCCATATTTAGGGAAAATACAATACATATTATTTAAAATATATTTGTTTTTATACTAAAAAGCTGACATTGTAAAATAAGAATATTTTGATATTTAAA
AAAATACCTTAAAGTATCATTATATCATTTGAGTGAAAAAAAAAAAGCTGACTTTCTAAGAAATTTTCTGTGTGTGACAATTCCATTTGGCAACTAATGC
TGTGAGAACTGACAATCACCTTTGCCTCCAGTGGTCACCTTTATTGATAGGTAAAAGACAGGAGCCTTAGGGGATGAAGGGCTAAATACAGAGAGGCAAC
AAAGTGATATGTCACATTGCTGAAATGGGAGTCTCAGCATGCACAGTCCTCTTTTACTATGGGTGGAAAACAGTTGAGGTTAGACACCAGCCAAGTTCTT
GCTTTTAAGTTTCAGTTTCAGAAGAACATCTGAGAAAAAACGACCAAGTGAAGCCTTTTCTGGTTTCACACCTAGTAAGTCCTTGATACTTAGGCCAGCA
TCCCATTCTTGCTGAATCTGAAATAGGCAACACCTAACTATACAGGCTCTCATCTACTTCCGAAGGCTAATCCTCCAGGGGCAAGCCAGCAGACGTGGGC
AAGTGGTGATAACATCCCTGAGACAGAGGGACTACAAGCTTCACTATCATTTCTGAGTGAGTTTTAATTTTCAGATGATGTTAGTATTGTTTGGCTTCTT
ATAGTAGTCTTTTGGTTCAGTACCTGCTAATTGCTTATTGTTTATTATTAATATTATAGACTATATTTTTATACCCTGTGGACTACTTGGAAAAAGCTTT
GATGTCTTAGCACTGATGGAATGAAGCTTCATGTAATTGCCAAATAAATTTATATGCAAAACCTAAAACATTGCTTATTTGAACTGTCTAGATATACAGT
ATTCACATTATTATAGTAAAATGATATTTAACTCATGTATTATGTTTGTCAAGTTTCTAAAATGAAAACTTGATAGTAAATCCAACTATTACATCATTGT
CTTGAGTCGATATAATCTCTAAACTCTTATTGTAAAAAACTTTTGTTATATTGGATGAATGAAGAAAACTGAGTTCAAATATTTTTAAAAGAGAATATAT
TTGAACTATATTATTCCCCTTTTTCATTTCTGTTTGTCGTCCTAATATTGTTAAGTCACAATTTTCCCTCCAAAACCGATTTAAGGCAGGTATTTCACTA
TTCGTTTCCAAATACAGAGGGGTCAGTAAGTAATTACCCCTTAGCAGTTCACTTTAAACTAAGCAAGAAACTGCATTCCAGTTCTGTTTTCTCAAAGTAA
ATCCGTTATATCCGTTGTAACAGAATATCGGGGGAGGAGGAAGGAAGGAAGGAAGGAAGGAAGTAAAGAAAGAAGGAAGGAAAAGGAAGGGAAGGGAAGG
GAAAAAGAAGGGAAAGGAAAGGAAGGAAGGAAGGAAAAAAGGACAGAAAGGGGGGAAAAAGGAAAGAAAGGAAGAAAGGGAAGGAAAGAAGTTAGTTTCA
GAAATACTATGTTCTTACCCCAGAAGACAGATCTAAGTCTAGTTTTATTTGAAATAACTTTTGTTAACAAGGAGGTGATATAATGGTAATGTCAGGTATT
TATGGAATTCACGATATGGGTAATCAGATGATAAGCAAGGGATGTAGAAAGGGAATTGTCAGAAACTAAAGACAAATTTAATTGGCTTTACACTTTGGCC
TAGAATCATACCACACTGGGTGATGACACTTAGAAATGCCCATCACCHTCATCATCATCATCATCATCATCATCATCATTGCTGTTATTATTAAGTGCCT
AGATACTTGCTAATAAGTGGAAGATGAAGATGCTCTCTCTATATTATTTCATTTAATCCTCTCAAGAACCATTGGATAGATAACTCTTTTTGACAGACAG
ATAAACCAAGGCGTTGGCTTAGGCCAAAGCATTTACTCAATGTGATATGGTTAGTATGTAATATGAGACTTGAATTTAGGTCTCTGTGATCCTGAAGTCT
ATGCTAGTAACCAACTACAGATAACAGGAATTCAGGAATTTCTACAATAGCTTTTACTGTCAAATTTATAGGAATCGTGTAATAGCTTTTTTGCTTCTGT
CCCCATGGAGTGAATATTGGGGTCAAATCACTAAAATCTACTAATGGATGAAATGCTCATAGTTTAGTCAGCTCTAGTAGTTTTAGCAATTTAGAAAAGC
AGTGATGATTGGTGTCATAAAAGCCATAGCACACGTTCCTAGAAGGGAAAATGCAACTAAACTGTTTTTTTCAATTATTTCATTGCATGTGCATTTGGCA
AATCTGTCACTGCTCCTGGCTGCTCTCTCTCTCTTTTTTTAATGCAAGTATTTCTCTGCATGGATTTCTTTACTTCATGATCTTCTGTTGTGTATTGTGT
TTTCTTTTTGAAATCATAGCTTGGGAGTTGTTTATGCTTCAGAGATTTTTAAACCAAGGCTACCTTTTAATGTAAATGCACTTAAATTGACCCCACTTAT
TTAAATGATGTGAAATAGCTCAGCAATGTTCCCATGACCTGTTTTTATACCTTTTGATATTTTATGTGACCTCCAATAAGCTGGACAGATAATAACAGAA
CCCTTGGCATTGGGCTACCACTGCCACTGTGATGCTGAGTCTGGTGTCAGCAGTGAAGATGAGGGTGGGAAGCCACCGAGGAAGCTGGAGGTTGACACAA
GTGGCAGTAAGGGCACATCATTACCTAGGAAGAACCTTCAGAAATCCTCTGCAAAAGACGGCCTGTTTCCACCCTTCCTATTCTTGTTTCTTCCTTCTGC
CACTTTTTTTTTTTYTTTCAACTAAGGAATAGAATGGCCAGAAGTAGTTGACAGGCCCTAAGGAGAGCTTCACAGCTAACATCAGGTATAAATTTATTAT
TATTTTTTGAATATATTGATGTCTAGGATTAAATAAAAGAACATTAGATTATACAATACTGGTAGGAATTTTCAGATCAGTCTTCTTTCAATAGCCTGCC
TCCCAGATAGTTGAACAGCTAGGTGAATTTGCCTTAACTGACCCAACTGGAGAGATGGAGAACCATGGTACATTTCACAGTGATTCATTTGACCTTTTTT
TTCTTTTTTTTTTTTTTAACTAGGAAAGGATTCATTGCCATTAGCCTATGTCCTGGCTCTTGGTGGTAAGTATTCCATCTGCAAGAGGTCCAATTAGAGT
GATCCAACAGACCATGACTCATAAATCTGGTCAAACTTCCCATGTTCTTGAAATCACTAGGCTTTCTAGTATTTATTGAATGACTTTTAAGAAGTGTGCT
TATTTGAATATATTTATGTGTATGGTGGCAGGAAAAGGTATTCATTTATTCATCATATGGTCACATTATCCCACCTTCAATTTTAGTAATTGTCATCAAG
CACTGTGAGGCATTTGAGATTTTACCCTTCTTTCAAGCAACAACTTAGCCAGCCACAGTTTTATGGATCATGGCAGAAGACATAAGACACCTGAGTCAGA
GAAAAAGGACTTTATTGTTCATAGCAAATAGCAGTAGCCAGAGTACCTGTATTTATGCTGGTTCCCTGAGCTCCATTTCTCACTTGGCAACATGAAGAGG
GCCAGGTAACACTTGATTGTGCAGCGGGCTGACTTACAGGAGAGGCACCATGATCTTAGAGAACCCATATCTTTTATAATGGGCATTCAACTAGAGGAAC
TCAGGTGCACCTTCCCAAATATTTATTCTGCAATGCAGAGATACTGGTTGTTATTGATCAAATTGTATTCAAGCAAGAAAATCTAATTATTTGTAAGCAA
TGAAAGGTGTGCACAAGGAAGATTATTAGGGCTTTCTTTATGCCAGGCACTATGCTAAGCATTTTACATAAATTATCTCATTTACTGTCAAAGGATTCTG
TGAGTACAGCATTGCTATTCCCATTTCATGAATAAGAAAATGAAAGATTAGAGAGGTGTTATTTCCCAGTTTATACAATTAGTAAATGGCAGAGCTGGCG
TTTTTTACCCAGGTTAGTCTGACTTCCAAGTACACACTCATTCCACTTCATCAAATTGCCATTGTTTGTGAATATTGTTTGCTCTCTTATATTAAATATT
TTTTCAAAAGCCCATGGGGTTACCATAAAAAAAAGTCATGTTTTTATACTAATATTTCTTAGAAAAGCTTCAATTACTCTTTCTCCCTTGCTTGAGGAAC
GTCATGTCTGACACCCTTATAGTGTTGTGTTCATATAACATCTCAGCTGGATGCCATTAGCACTTTCTCTCCTAGAATTTAGGCATAATATATTACTACA
TGGTGGCTAGGCAATTTTATTTCCCTGTTTCCCTGAATGTTCTTTAATTAATCCATAAATTTAGAAACCAGATTAGAAAAACAGAAGACTTTCTTTAAAT
GTTTTTATAACTGACTTTTTAGTATACTTTCATGCAGGAATTTGAATAGCAACAGATACACTATTAAAGAGACTTGACAYACRTTATTGTTTCCTATTGT
TTCAATTTAATTTTGTTTCAAATACGGTAATAATCTGTAATGAAATAAAATGGACCATATTCTCTCAGGTGAATTGGCTATATGTTCTGTGAACAAATAT
TTGATTCTACATTTTGCTTTGGAAGCTTTTAGGTAAAAGTTAGGAAATAACTGCTGTGATAAGCAGAGGATGACCTGTAAAGTCAACCTCAGCCCTATTG
ATAGACCTGAAATTTTTATTTTACTCCTTTGAAAGGAGACATCACAAATTACCTTCCAAACACATTTTAAGGGAAATGTAATATCAGCTATTATTGCTTT
ACCTCAAAATGCTTTATCATAATAGCTGGCAAGAGACTGAGGAAATGCWACAAACGATAACCGTGTTTTGTGTTAGAAGCGGTAATGAAATGGTAAGACA
GTCTTGGATGGGGTATAAAGTAGAGAAGAAGTGAGTAAGATCAGGACTTCAGGCTTCTGGTAGGTTGTTGGTGATGATGTTGGGGGTAAGATGGCTASCC
AAGAAGGCAAGCAAGTAAAAAACAAATGAGGAGCATCATACTTGCCTACTTTATAAGTTTTTTTTTTTTTAAGTTAGAGTTTGACATCTTGGTATGATAA
CTTATTTTATAAAATCTAGTCCAGTGATTTTTTAATTAATAAAAAAGATTAAATTGATATAAATTATTAAGATGAACCTTTTCAAAGCTTCTAGCTCCCT
AACCTCTATTCTGCAGTTGGGAAATTGAAATGCTTTAGGTGTTTGGCATGACATGCCTTTCTTTACTTATTTTACTTGCAACATATATATAACTTTATTT
AATAGTAAAAAAATCCACTTTGTTCCATTAAAAACATATCAAACCTATATTTATTGAACTATGAACTATGATAGCTTGTGCACCCAGGTTTACCAGGAAA
TTATGGGTGAACACTTGTACTCTAAGAAGATTATTTATGCTGAAAACTGTCCCGGTCTGCAAAGTCCTATCTTGCTTTGTGATCCTGTCTTGCCAAAGGC
AAGTTAGCTTCTGAACACAGGTGAGAGGTAATGCAAATTGGTGTCTTTGTAGCTTTGTAGCTCAAGGTAAGACTTACCTATGTAGCTCAAGGTAAGACTT
TTTACTAAAGACTCAATTTGTGATGACTAAATCTAGATATAGTAGCTTATCATCTGGGAGTGAGAATCATCAGTTCACACTGTAWAATGATTGTGTTGCT
AAAGGCCCATGTGAGTACCAGAAACACATGCAGAAGACAGACATATTATGCTGCTACAGAAAATAATGAGTTCAGGGCCAGKTGCAGTGGCCCACACCTG
TAATCCCAACACTTTGGGAGTTTGAGATCCAAGAGTTGAAACCAGCCAGGGCAACATGGAAAGACCCTGTCTCTACTAACAAAACAAAACAAAACAAAAA
AATTAGCCTGGCATAGTGGCATGCATCTATGGTCCCAGCTACCCAAGAGGCTGAGGCAGGAAGATTGCTTGAGACCAGGAAATCAAGGCTGAAGTGGGCC
ACGTTCACACTGCTGCCCTCCAGCCTGGGTGACACAGCGAGACCCTGCCTGAAAAAAAAAAAAARAGAGAGAAAAAGAGACAAATAAAATAATAATTTAT
ATGAAGATTAAATGCTATTTTTCTTATTGCATAATTTTTTCCACTTATTATTATTTCTAAGAAAGGAAGCTTGTATGTATGTGAAAGAGAGAGAGAGAGA
AAGAGGAAGCCAAGAGAAAGAGTGAGGTGGAGATTTTGCTGATTCCAAGACATGGGGACATGAGATTTTTTTTGCTTATTGCTGCTTATTTTAAACATCT
CTGATGATCAGCTTTTCTTTAATATCAATGTGTTCCTTAAATTTGAAGACATTTCTTTTCATAATGAAAAACCATTATTAAGTCATGGTGCATGTTATAG
TCAGCATCCTAGAAACAATGGAGAAAGTGTTTTATATATAATACAATGGCCTCTTGATATCACATATAAATATCTCACACTGTAAATAAGTGTGATATAA
GATTATAGTGTCCCCTCCCTTGTTCGCTTGGATTAAAGTAATCTYGATTTCTAACCTTATTTTTATAGCACCAACAATGAATTTCATGGTGGATGAAACA
GCAGCAATCAACTCAAACAAGGAATCCCAGCAATTGGTGCAAAAAACGTATAYACTGGAGAAGAAAGAAGCAATGGAGGAAGATGAAGCGCCCCAGCACA
GAGATGCTGACATAGTACAGGGAAAAGGGGAGGCAGCACTGTGGGGAGAAGCAGGAGCTGTTCATGAGGCTCCCTTGAGGGCGTGGAAGCCAACAGCAGA
GCAGCCAGAATTGGCAGAAGAGTTTACAGAAAAAAGGGAGATCCCTCCAGGCATAGAAAGGGGGGCAGAGGGAGCAGCAGAAGCAGAAGGGGTCAGAAGG
CTGGGTGAAGGGGGGTCAGACCCCATAGGACAAGCAGCAGCAAAAGATGCTGTGGGTCTGAGTAAAGATGAGGCTCCTGAAAAGCAAGCCTTGATGCTCA
CAGTGCTTGAGACAGACAAAGCAGCTTCTGAAGGGGAACAGGGTTTAGAGAAGGCAGTGCTTGCAAATGAAGCAGCAGCCCTGAACTTGGAGCATCTTCA
TGAAGTAGCAGCCCTGAGAGAGGCAGCGACATCGGAGGAGGGAGAGGCTGAGGGTGGGGTGGCTGTGAGTGATGTCGGAGAAAGTGAAGAGGAAGCATCC
ATAGACCTAGAGGACACAGGACCCATGGAGGACACAGCATCAAAGAGAGAGGACGGTTCTGAAGAGGCAATTCTTGGGGGAGAGGAACCAGCCAAAGAGA
GAAAAGAGGTTATGAGAACAGAAACACGCTTGAGCCCCTTCACAGGAGAGGCAGAGGCAAGCCGGATGCAGGTTTCGGAGGGCAGCCCTGAGGAAGGAAG
CCTTGCAAAGGAAGCCTTCCTTTGCAAGGAAGATGTGGAAGGGGAAGAGATGGTGACTGAGGCAGAAGCTAATAGGGAAGATGATAGGAAAGAAATTTTA
CCCAAGGAATTAGATTTAGCAAGAGAGCGAAGGAAAGCTGAGAGGCCAAAAACATCTCTGAGGAAAACTGACTCTGAGAGAGAAGAGGTGACAAGGGCAA
ATGCACTCAAGGATGAAGATGCTTTTAAAGAAGAGCAAAAACTTAAAGCGGAAGAAGGGGAAACAGAGACAGAAGTAAGAGCTGAGGAAGAGACAAAAGC
TCCCCCAAATGAAATGGGATCTGATGCTGAGAACGAAGCACCTGTGGAGGCTTCTGAGTTGTCTGACAATCCAGGGCTTCTAGGAGAAGATTCACTAAAA
GAGACAGTGGTTCCCATATTTGAAGCAACGCCTGGATTTGAAAAGTCGCTGGAAAACATAACAGCTCTGAGGAAAGAAGGAGGAGGGGAAAGACTGAGYG
AAGCCAGAGACACAGAGCACAAAGACAGAGAAGAGCTGTCCAGCAGGGAGAATAGGGCCCTGAAGGAAGGGCACCGCCAAGATGGAGAGGGGGCCTTAGC
AGCTCCTGAAGCTGAGCCAGCAGGAAAGGTGCAGGCCCCTGAGGGGCTGATCCCAGCCACAGGCCAGGCAGAGGAGCTAGCAGCCAAAGATCACGACTCC
TGCGCAGGACTGGAGGGGAGAGCTGAAGGGCAAGGAGGAGTGGATGTCGTGCTAAGGACCCAGGAAGCTGTTGCTGAGGAAGATCCCATAATGGCAGAAA
AGTTCAGGGAGGAAGCGGTGGATGAGGACCCAGAGGAGGAAGAGGACAAAGAGTGCACTCTGGAGACAGAAGCGATGCAGGACAGGAACTCGGAAGGGGA
CGGGGACATGGAAGGAGAAGGAAACACACAAAAGAATGAGGGCATGGGAGGAGGAAGGGTTGTGGCTGTGGAAGTTCTACACGGAGGTGGTGAAACGGCA
GAAACAGCCGCAGAGGAGAGGGAGGTGTTGGCAGGTTCGGAGACAGCCGAGGAGAAAACAATAGCAAATAAAGCCTCCTCCTTTTCAGATGTTGCTGAGG
AAGAAACCTGGCACCAACAGGATGAGTTAGTAGGAAAAACAGCAGCTGCAGGGAAGGTGGTGGTAGAGGAATTAGCACGGAGTGGGGAGGAAGTGCCAGC
AGCAGAGGAGATGACAGTGACATATACAACAGAGGCTGGGGTGGGCACTCCAGGAGCCCTGGAGCGGAAGACCTCAGGGCTAGGACAGGAGCAAGAGGAA
GGGTCAGAGGGCCAGGAGGCAGCCACTGGGAGTGGCGATGGGAGGCAGGAGACAGGAGCAGCTGAAAAATTCCGATTAGGATTATCACGGGAGGGAGAGA
GGGAATTGAGTCCGGAGAGTCTACAGGCGATGGCAACACTTCCAGTGAAGCCTGATTTCACTGAAACCCGAGAGAAGCAACAGCATATGGTGCAAGGAGA
AAGCGAGACTGCAGATGTTTCCCCCAACAACGTGCAGGTCTAGGAGACTTGCTGGCAGACGGTGAGTTTAAGCGTAATGTCTTTGTAGGACTAAATAGCA
GCCCTGCGGTGGGTCTCCTCCCCTTGGGGCTGGCTTGTCCCTTTATTGGTGTCTGTGCACATATAAACACACAGGCTTCAATTCTGTGTCACTTAGCCCT
AAGCCTGTCAGGAAAGGGGCTGGGAAAGACGGAGGAGGGGCCAAAGCATGCACAGGGACACACTGCTCTTCCCGGTGTGGCAAGTCATATTCAGTCTTTG
CAAGGCAGCTCCCTGAAGTAGTGAGATCTGTGTCTCCCAGATAGGACCCCCAAAGAGAAAATACAGAGGAGAATGTGCCACAGAGGACAGGCCACAGAAG
TAAAGAATTAAACTATATTTCACAATTCATTTCCACCTTAGTGTTTTAAAGGATGAGATGAAGGTTGTTTGTTATCATTTGCCTTTAAGTGGGCCCTATG
CTTTCATTTCTGCAGTTTCGCAAAGTTTTTACATATATAAAATGTTTTACATTCTATACGTAAAATATTTAANTATATAAATCTTGAAGAGTCGAACTAA
AAACTAAAATTATTTTTTGCATATTCTGCTATTTCCTTTAGGCCCTCACATTCTTAGTCCTGTTTCTACTGTTGTGAGTGATTTTATCCTGGTACTACTA
TCCTTTTTATTGTTTTTCAGGATAATTTAAAGATGTCTTCTGAAGATGTAAAGAGTGGAGAAAGATTCACGCAAGCATCTCACCAGGATTCTTGATTTTC
TCTCTCTCCTCTTTAGTTGCTGGTTGCGCTTGTCTGAGATGATTCCCAATCTGTCAGCCCTGGTCAGTAGCTCAGTAAGCACCTTGAGAATAGCTCAAGT
AGATCTGTAGGACCCTTCTTAGAAGCAGTGGTTCCTCATGGAGAAACTTGTGAGGCTGTTACACATTCTACACACCTAACATTATTTTCAAACAAAAATG
ATAATTTTCAGATGCTTGACTTTTACCAAAGATCACTGGAAGGCCCAGTCCTAATGTTAGGGGTTTGTTTAAAGTCCTTTTTATTTTACAATACAGAGCC
CCAGTCAATTCCACAATCTCAATTTCATACATGGGAATTTTATTTAAAAATCTGTGGTTTGGGGCTTTAATGAATTGGCCTGTGAAAATGAGCTCTAAAT
TTCCTCCCACGTACACTCAAAACTCAAGATTGCTCCAAATCTCTAAGTTCTTCCAGCAAAAGATTTCTTGGCATGTATATTCACTTATACTTAGAAATAT
TCATTCTTTTAATTTATGCCAGAATAACAAAGTGGAAATCTTATTTCAAAATGCTSTTTGTTTTTTTGTGTGTGTTTCTGTAGTTCTGCTTTCTGGGGTA
GACTAGTAAAATGGTAGCTTCCAGCATTTTGTCCCTGGGGCCTTCTTTATAGGGCCACTCAAATTTAAATAAAAGTAGTAAATAATTTAGCTAAGTGGAA
TAAGTATAATAATTATAGTGGTAAGCATAGCACATCAGCATTATGCCAACATTCTAGACTCTTTAGTTGATGTCATTAAATGGAAAAGAAACTTGGATTA
AATRAGTGTGCTGCTCACCTTCCCAAGTTCTGTTATTTCAAACCTGTGAACTAACCTTGCAGTTCATTATAAATCAACAGTAACAACTGCATTCTAAATT
ACTCCCTGATATTATTTTCTAGTTGTGTATCAGCCTGTCTCCTAGGGGTTTTCATTTCCCTGAAGACATACAAGTGCCCCAGAGCGCATGTATATGTCTA
CCATTTCTCTATATGAGAAGGTAAAAAAAATTTCCTTAAGCAGTGATTTTCCAGCCAGAATATACATTAGATTTTCATGGGACGCTTTTATAAATGACTC
AACCCTTTTCCCCACCCCAGAGATTCAGACTTAATTCGTTTTAGATGGATCTACACATCAGTATATATATATTTTTAACTTTTCACTTGATTCTTCTCTG
TAGCCAAGGTTGAGAACCGCTGTTCTAAATCATCATATAATCCATGCTGGCCACATTACACTCAAGGTCCCTAGGGACCAGGCATATTATCATAGTAGGT
ATTTTCCATTTTAATGTGTAATGGAGCCATTCAATGATCAAAAATACACTGGACCAGATAGTAGACTGGTCCCTTGATCAGAAGCATCAGCACATCAGCA
TCACCTGGAAATTGTTCCCAGCCTTTGTCTCCTACCTACTAAATTAGAAACTCTTGGTGGGTTCCAGTAATCCATAGCTTAACAAGCCCTGCAGTTAATA
CTGATGTACACTGATGTCCAAAAACTGCTGTCATGGACTATTGATTGTATTGAGGATTAGTCTCAGTTGGAAAGCCAACTACAGAGGCATTTTGAACTTT
CTTTCTTTGCCTCTCTATGTCTCTCTGTCTTTTCCTGTCTTCTGATTTATCTGTCTTTCTTTCTCTAGTAAATGGCACTCAATATAAAAGTGGTGGAGTC
AATCTTAAACTTATTTTTATTATGATTGTATTGATACATGCACGAAGTCCCTCTGCCCTACTCCCTATTCAAGGATATTACTCACTGCACATCATAAATC
TCCATCATCTGTCTTAAAGTTTTATGAGTAGATTTCATCTACATTATATTCAAGTTCATTTATTACTGAGCTGTATTACTGTGGAGCTCTAACAGTATTT
GTTTCCTGATTTCAAACTCAATGCTACAGAGCACTTTGAATACATCACACCTTATAGGAAAGATAGTAAATGTATTAATCCCATTGAAAAATTAGTTTTG
TACAATGTGCTAAATAGTATTGCATTGGATTACTTTTATATTTAACACACTCCATCAAAACATCCCATAACATAATTTTACAATCTGCATGTGAATTTAA
CTGTGAAATTCAGTATTGTGATATTTTGAATAAGTGAATTCTTTCTCTGCAAATACTATGTTGATAAAATTACTTGTATGTTCCCCTGAAATGGTTTGTT
TCCTGTTTCTTCATTATTAAAACATAAATCAATCATATGTTTACAGATACATGTGAATGGTTCTTTGTAAATAAGACTCAACTTTTAAAATCTCTGTGTT
CTTCCCTTACAATATTTGAACTCCACAGAGCAGAGAAGTTTCACTGGGCTGTATTTTTGAGTACAGTATATGATGTATTTATACTGACCGTCTACACTCA
TATGTGTCTTTCACACACATAAGATAATTTCAGGGAGAAAAATTATTATCACCTATCACCATTTTATAGGTAACTGAACAAAAGCTCAATAAAGTTAAGT
GGCTTGTCTAAAAATCAGTCAATCTCAGGTCATGTGACACAAAATTTAGAATTTTTCTTATCATATYCACTACTTCTAAGAAGAGGTATCTTAAATAGAT
ACTAAGATATTATATGTGAACATCTACTTGTTTTTGTTTACTTGTAGAAGGGAAAAAAATTAAACTTCCTCAGTATGTCCTCTATCAGTGAGAAGGGAGT
TATATTTCCAGCTAATGTCAATCAAAGAACAAAGGAGATTATTAAAATAGTTCAAAAGAAAAATAGGCAATCAAAGGAAATGTAGGTAGAATTAGGTTTT
CTGCTTGTACTTCTTGAGTTAAGCCTTTTCTAAGAGTGTTGTAAATTTAAAGTACAGTTGAGTTCCTTAATCCTTCTAAGATTAATAATTTTGCCAAAAT
TCTTGCCTTTGGAAAAATTATTGTTTGAGAAAAGAAAAGAAAGCCTTAAGGAAGATTCATCTATTAAGTGAAATATTCCAACAGTCTCAAGGACAGCCCA
GAAGAGGCCGCTCCTGACCTTGGGTAATATTTCCTCTCTGTTTTCTGTACCATTTGATTATGTCATTTAAAAAATAATTCCCTGACACCATGGGCAGCAG
CAAGAGGTACAAGAGAACAGGGAATAAATACAGCTGGAATTCTTTAAAAGTTGCTCTTAAACTCACCCCTTTTTTTTTTTTCCTTTGCTTTTTTGTTCTT
TATTCTAATAGCATGCCCTGTGACAGGGAAACTAAGCTCTTCAAAATAACTGAAACTAAATCTGTAAGATAAAATGCTGGAATTTGAGAAGGCACATGCC
TTTTGTAGTTTTCTCCAGAAGGCTCAAGGTGTTCAATAATCTGTGGGACTCAACAATATTTTGGAAGGTTGAAATACCCTCATTTTTAATTAGGGAAAAT
GCAGTACACAGAAGATTCTTGGGACAGAGAAGCCGGTGTCTAAATCTTGCCGCTTTCTCATATGTTTCCTGGTCTTTATTAAATATCTACTTATAATTAA
ATATTATATTAGGGACCCATAAATTATGTGAGAAATCTCACAGTTGTTCAGGAGATTGGTACTAATGAGACACAGAGACTTTCAAACTGGTGTAAATGTA
CCTCCCAAGGAAGATGAAGCTTTTCATGGGATTCACTGGGAAGGCTAGTTTGCAGATGCTTAACCTCCGTATGCACTTTATCTTAAAATGGACTTGAGAA
CTAGCCTGCAGTCAATGTTTTTTGTCAGTCCCCCACTTTTCACAATAGAGGCCAACTCTTCATTCACTTACCAAGTTTACTGTGATACAATGACCCCTAG
AAATACACAAATCAAAGGAACAAGGTGAAATATGGCATAGGGGAGGACTTTCCTTCCTGGAAATGACTGGGTAACAAATCTCTCTGCAAATCAGGTGGTT
TTCAATTCTTTGTTTACAACAAAATTAAATGAAGACGTGATTGAATTGCCAACTGATAAGTCATTGAAATATTTTTGGTATATTATCAGCCTGTAAATTT
TGGCAAATCGGAAGGAGTTCAAATAGGAGCATTGTTGTACAATATAACAAAATGACTTCCATTCCCATCCACTTATTTATGTGACATGCATAATTACTAT
ATTTTTATATCTATGAAAATAAAACAGAAAGTGGAATAGAACTGATGTTGAACACTGTTATTCCAGCGGTAAATAATATTCGTTCGCAGACATACAAACA
AATTAAAAATAGAAATCACTATCTTAGATGCATTTTTGCTTTTACTTTTTATGTGTAATATTTGCCAAAATTTATAGTATAAATGTTGTTTTGATTAAAT
GTGTATTACTAATAATTGCAATGATAGCCCAGTCCAGGAGAGATTTAACACATAGAGTCCTATGGTCACAAGAAATTTTTTAAATTAAAATTTAATTTAC
ATAATAATTTAATGGCAGATAATTATGACAGATCGAGAAGTAAAAGACTTTTAAGTATAAAAATATACCGAAGTAGCATAAAAATCTGTGGGCAAAGTGG
AACGGAAATGTAAGTTTAAGAAAATAAAAAACGTGAGATTTTTCTAACACCAAAGTAGAGCTTAGCAACATACTTTTGAAAATGGATGTCTTAGGTCAGG
TTCACCCAGAAACACTCTGGATTAGAGGTTTGTGTGCAGAAGGTTTATTGGGGCATGCCCTGGGAACAACACTGTAGAGAACTGAAAAAGCAGAAATGGG
CCAAGAAACAAGATTGATAGAGTTGTAGTTGCCACAGAGGTGCACCTCATCAAAGGGGAGCTCTCGAGGTGGGATTGCCAAATGCAGTTGAAGGACCAGG
CCTCTAAGTGCCCACAACAGGACAGTCGCTTGATGTTGGCTTCCTACTCAGGAGCAAGCATAATCTTGGACTGGGTGGTCCCTTCAGTCAAAAGCAATTC
CTGTGGAGAAACTTAGGTAGCATACCCCACCCCAGGCTGCTGGAGGCCGATCATATCCACTGTGAAGAGACTATCAGGGTGGCACCCCACTGCGTCCACG
ACATGGATAAAGGTGATATGGAATTGCTATAGCATTTTCATTTCTTTGGATACATGTAGAAAAAAGATACAACAACTTCATATTAAAGCGTCTTGTTTTA
TAAAATAATAGAAGTTACATCTGTAACTACTTAAATATATAAAAATGTTTACATGTCAATATAAAAATATATGAGGGCATATCGTTTTTCAAAACCCTTT
CAGAGGTATGTGAACAGAAATATTGGGAGTCCACTAGTGTAAAGGACAAGATGAATAGCTGAGGGCCATGTTTCTTGTGGCCTGGCAGTCATTCTGAATC
AGTAGCCAAAATTTTGATTAATGTACAAAATTTGTTTTGTCTACATACTGCTAAAGTGATGTCTGCCAGTAAAATAAATGAGTGGGTCATCCAGCTTGGT
GTTGCTATAAGGAAGAAGAGTCCTAGCATAATGTCTAGCTGTTTCTAGGAAAGGAAGTATGCCCCTCTAGTGTGTCTGAGTACACCATCAGGGCATGATA
TGGTTTGGTTCTATGTCCCCACCCAAATCTCCTCTCTAATTGTAATCCCCACATGTTGAAGGTGGGGCCCGGTGGGAGGTTATTGGATCATGGGAGTGGT
TTCTAATAGTTTAGCACCATTCCCCTAATGCTGTCTCGTAATGAGTTCTCATGAAATCTGATAGTTTAAAAGTGTGTGGCAGCTTCTCCCTTGCTCTCTC
TCTCTCTCCTGCCACCATGTAATATGTGCCTTGCTTCCTCTTCACCTTCTGCCATGATTGTACGTTTCCTGAGGCTTCCCCAGTCAAGCGGAACTGTGAG
TCAATTAAACCTCTTTTCCTTATAAATTACCCAGTCTCAGGTAGTTCTTTATAGCAGTGTGTAAACTTACTAATACAGGGCAGTTAACGGTTGTATTCAA
ACAAAATCTCACTGCTAATGAGTAGGGATTAGCTAATTTTTCCTGTAAAGAACCAGGTTGTAAATATTAAATGTTTTAGGCTTTGTGGGATATAAAGTTG
CAAATATTCAACCCTGCCATTTTAGGATGAAAGTTGCCATAGACAATACTTACAAGAATTGGAATTGGTATGGGTGTGTTCCAATAAAACTTTATTTACA
AAGAAAGGCAAAGTGTCAGATTTGGCCTGAGGACTGTGCTCTGCAGACCTCTTCTAAAGTGCTTTCAACTTAATAAATAGTTCTGTAACTATGAAGAATA
ATCCTCACTCTGCCACAGAAATTTTAATTTTCAAAAATGTGCCTTAAACACAAAGATTTGGAAATAACTGGAGTAAGGAACAAATGACCTTTAATCTTTC
AGTGGAATGGATGATTTATTAGAATTTGCTTCTCCTTTTAAGACTATTATTTTAAAAGCTTCATTTTAGTCAGGTTTTCAATCCTTCCTTTCCATTCCCA
TCTTCTCTGTCACATCTGTTAGAATGCAAATGTGAGATGTCGTGATGAAGGGAAAAATAACTTTAGAATTCTGACAATTACATTTCATGTTAACACAGGC
TGATTTGTTCTTCAATAGAACAGTATTAGCCCCACGAGAGAAGAGATGTGATCTGTTCTGGTCCACATGCAGTCCCCTGTGCCAAGAGCAGTGTCTGGCA
CACAGTACATGCTCAATAAATATATGGAAATGAATGAATACCTGAATTGACATACAGACTGGGGGAGCATTGTTATATGCTGTTCTAAACATTTTTAAGC
CCAGATTTGAATGATGCTGATAGCATGCATGGAGTATCCGACTTTGTTGACTGAAGAGAAAAACTAATAATTTTCATAATACGTTAGAGTTGGTAGGGAC
ATTAGATATCACACATTCTACCTGTTCCCCTTTATGTATCAGACTGAGAAAGCAGAGAACAAGGGGGTCTGAGGAGTGGGTTACACATTGATTAGGGACA
AAAACAGAACTGGAACTTCTATCTTTAGTCTAGAGCTTGTTTCGCTTCAAAATGCTGTTTCTCATTAGTCAGATTTTCTTTTCAGAGACACAGAATCCTA
ATTTCTAATCAAACATACTCTCTAAAACTCAGTGTTTTTTTTTCTGTTTGTTTTTTTTTAGAACAGCTAATTTAGTTCTTGCTTTGCAAACATGGAAATA
CAAGTTTTCAAATGCAGTATAAGGTGAAACATTTTGGTTGTCTGGATCTTAGAGGTCACTGAAATTGGTCATTGACCTTTTATAATCCCCACTGAGACTT
TCAAGGTCAGTTAGAGAGAGACAGTGGTTATTTTGCACACATACATACACACACCCGTGCATGCACACATACACACCTGTGTCATTAACTTAAAGAAAAG
AAAATCTCTGAGAATGAATGGAAACTCTTCCCACTGAACTAATCATAATGTTAATGGCTCCCTACTTAGCACTGAACTCTCCAGTAAAATTCAACAAATT
ACAAACCTATCTAAGCATACACAAATTGGCTTAACAAACTCAAATCTAAATTCCTGCATATTAACGGTATTGGTTGTACATTAGAATTTTCCTGAAGAGA
TTTTTTTTAAATCTCTGGGGGTAGAAGTTGGGCATAAGAACAATAAAAAAAAAATCTTCCCAGGTGATTGATACGTGCAGCTAAACTTTCCCACCACTGA
CCTCAAGTTTGAATAGCTACTGTGATTAAAAAGTAGACCTAAATGTTATTTCACAAGCCAATGTAAATCAGTATAACACATCTTGACCCATTATGCTTTT
ACTCTTTTACTCTTTACTTTTCCTCTTTTTCTCCTTTCCTCTTTAAACCTCAGAATGCCATGAGGAAGGCACTATTAGCCCATTTTATAGATGATAAAAT
TGAAGCACAGAAAAGTGAAGTGACATATTCAAGACACAGGGCAAGGAAGTATCACAGCTGATATTCAGATCAGGCAAAGTGGCTCCATCTGGAACAGGAG
TTCTCAAAGTTTGGTCTGTGTAAGACTGAAGGGCTTAGTAGGATAGAATTTTCTGGGCCTTATCCCTAGAATTTCTGATTCAATAGGGCTGCAAGCCACC
TGTAATTCTGTATTTCTAACAAGTTTCCACGTGATGTTGATGTCGCTACAACAGGGACCAGATTTTGAGAACCTAGAATTCAAATTGTGTTGGTAATATG
GATGTAAGCTAGAGTTTGAGAATGACTAGTCAGTGGTTCTCAGCCTAGGCTACACATGGAGTCCTGTGGGAAGCTTTAAAAATCCTGATCCTCATTCACC
CCAGACAATTTGAATCTCTGGGGTAAGACCAGGACATCAATACTTTTTAAAG


SNP Information

Context             (SEQ ID NO:17362):
TTCTAGGAGAGAGATATGCCTGCCAAGTGAAAAATAAGCATGTGATGGGGTATCTGGGCTAAGTAATAGAAGGAAAATAAAGCAGGGTAAAGGGATAATA
R
AGTGATGGTTTGAGGAAGGGGTAGTATTTTTGGGATGGCCTCTCTAATAATCGGACATCTGAACAGAGATGAATGAAGTGCAGGGGGAGGCCACTCTGTC
Celera SNP ID:            hCV27926248
SNP Position Genomic:     56223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17363):
AAGTGCCAGAAGGTCATCTTCTCAGGAACTGAGTGAAAATGATAAGCCAAGAAAGTCTCACCTTCCAATTGAGGAATCCTTAGAAATTGAAATTGAAGAC
S
AAGAAATAACAAAAGCAGATGTGGAGACCAAGCCGATGCCAATAGACGAAAGCTTTGAGAATGTTCTTAAAGAAGGAACGGAGAAAGGAACCCAAGAGAT
Celera SNP ID:            hCV25649586
SNP Position Genomic:     50992
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|G,2)   total(C,74|G,2)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17364):
CAGGGAAGCCCACACTGACAGCAGCACAGATGAAAGTGCCAGAAGGTCATCTTCTCAGGAACTGAGTGAAAATGATAAGCCAAGAAAGTCTCACCTTCCA
R
TTGAGGAATCCTTAGAAATTGAAATTGAAGACCAAGAAATAACAAAAGCAGATGTGGAGACCAAGCCGATGCCAATAGACGAAAGCTTTGAGAATGTTCT
Celera SNP ID:            hCV25649587
SNP Position Genomic:     50959
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,5)   caucasian(A,38)   total(A,69|G,5)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,3)   caucasian(A,40)   total(A,69|G,3)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17365):
TATCATTTGCCTTTAAGTGGGCCCTATGCTTTCATTTCTGCAGTTTCGCAAAGTTTTTACATATATAAAATGTTTTACATTCTATACGTAAAATATTTAA
N
TATATAAATCTTGAAGAGTCGAACTAAAAACTAAAATTATTTTTTGCATATTCTGCTATTTCCTTTAGGCCCTCACATTCTTAGTCCTGTTTCTACTGTT
Celera SNP ID:            hCV2332924
SNP Position Genomic:     70273
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   ;no_pop(T,-|G,-|C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17366):
GTATAATAATTATAGTGGTAAGCATAGCACATCAGCATTATGCCAACATTCTAGACTCTTTAGTTGATGTCATTAAATGGAAAAGAAACTTGGATTAAAT
R
AGTGTGCTGCTCACCTTCCCAAGTTCTGTTATTTCAAACCTGTGAACTAACCTTGCAGTTCATTATAAATCAACAGTAACAACTGCATTCTAAATTACTC
Celera SNP ID:            hCV2730347
SNP Position Genomic:     71304
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17367):
AAGAGACAGTGGTTCCCATATTTGAAGCAACGCCTGGATTTGAAAAGTCGCTGGAAAACATAACAGCTCTGAGGAAAGAAGGAGGAGGGGAAAGACTGAG
Y
GAAGCCAGAGACACAGAGCACAAAGACAGAGAAGAGCTGTCCAGCAGGGAGAATAGGGCCCTGAAGGAAGGGCACCGCCAAGATGGAGAGGGGGCCTTAG
Celera SNP ID:            hCV2730348
SNP Position Genomic:     68699
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:17368):
GTGGGGAGACTAATTCGTAGGGCGACCATACTTCTCAGTTTTCCTGGAATAGTTCAAAATTCTGCCCCTTTCCCCCCCATTTCCTAATTTTTAGTAACAC
K
TCTTTCACTATGTGTCCAAGTTTGGATGATAAATTTCATGGTCACCCTACTTGATGTCCAGAATTCACCAGGGCTTCGTGAAGAAGATGGAGAGGAGTTA
Celera SNP ID:            hCV8909250
SNP Position Genomic:     17306
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17369):
TTTCCTGGAATAGTTCAAAATTCTGCCCCTTTCCCCCCCATTTCCTAATTTTTAGTAACACTTCTTTCACTATGTGTCCAAGTTTGGATGATAAATTTCA
Y
GGTCACCCTACTTGATGTCCAGAATTCACCAGGGCTTCGTGAAGAAGATGGAGAGGAGTTATTACCCAACACTATCAACAAGAACAGGCCCTTTGACACT
Celera SNP ID:            hCV8909252
SNP Position Genomic:     17345
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,14)      total(C,2|T,14) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17370):
GCTCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAAAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCTTGACCACGTGATCCACC
Y
GCCTCGGTCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCATGCCCAGCCTGTTTATCTTTGTTAAGCCGTAATATATGTGCGATTATTAATTTTTT
Celera SNP ID:            hCV27032890
SNP Position Genomic:     53763
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17371):
TGATGGGTTAACCACTCAATGGGCTTGCTGTTTCTTTATCAGCTCAGTTGTACTTGCCTGAGAAATCTGAAAAGAAATGAGAAGGAAAGTCATAAGCAAC
Y
GGTGAAGGAAATCAGAAAGAAGAGCTTTAGTTATGCAGGGGCATGAGGCCTTGTTCCTGTTCTTCAAATGGAACTGAATTTTCATGGAAGGTTTTGATAC
Celera SNP ID:            hCV8909253
SNP Position Genomic:     17634
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,12)      total(C,2|T,12) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17372):
TTAGCAGTTCACTTTAAACTAAGCAAGAAACTGCATTCCAGTTCTGTTTTCTCAAAGTAAATCCGTTATATCCGTTGTAACAGAATATCGGGGGAGGAGG
A
AGGAAGGAAGGAAGGAAGGAAGTAAAGAAAGAAGGAAGGAAAAGGAAGGGAAGGGAAGGGAAAAAGAAGGGAAAGGAAAGGAAGGAAGGAAGGAAAAAAG
Celera SNP ID:            hCV27032891
SNP Position Genomic:     62141
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17373):
GTCTAGCTTAAAATTGATTTTTAGGAAAGTGAAGTAGATGAGAAGGAAAGGCTGGCCTGTGTACAATTCTAGAGGCCTACAATTTTCTTACTAGCCCCCC
Y
TAAAGTCTTTCAACCCTCTCAGCCTTTCTTATTTCTCTTCCTCTTCCTCCTTTCCTTTGTTCTGCTTCTACTTCCTCCTCTTCCTCGTAGAGGTCAGGCA
Celera SNP ID:            hCV8909254
SNP Position Genomic:     18996
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17374):
CAGTTCACTTTAAACTAAGCAAGAAACTGCATTCCAGTTCTGTTTTCTCAAAGTAAATCCGTTATATCCGTTGTAACAGAATATCGGGGGAGGAGGAAGG
A
AGGAAGGAAGGAAGGAAGTAAAGAAAGAAGGAAGGAAAAGGAAGGGAAGGGAAGGGAAAAAGAAGGGAAAGGAAAGGAAGGAAGGAAGGAAAAAAGGACA
Celera SNP ID:            hCV27032892
SNP Position Genomic:     62145
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17375):
AAAGGGAATTGTCAGAAACTAAAGACAAATTTAATTGGCTTTACACTTTGGCCTAGAATCATACCACACTGGGTGATGACACTTAGAAATGCCCATCACC
H
TCATCATCATCATCATCATCATCATCATCATTGCTGTTATTATTAAGTGCCTAGATACTTGCTAATAAGTGGAAGATGAAGATGCTCTCTCTATATTATT
Celera SNP ID:            hCV27032893
SNP Position Genomic:     62548
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1|A,1|-,15)   total(A,1|C,1|-,15|T,1) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:17376):
TCAAAATGACTTCAATCACTTTATGAAATTATGCATATCCAGGGACTTATAAACCAGCTGCCTAAAAGTAAATCTAGATTTACTGCTCTATGATTGAAAC
Y
GAAGCAGCAATTACTCTCGCAGATTGTGGAAGAAAGGATTTGGAGTGATTTAACCTGGTAACAGATTAATTTTGGGATGGAGATATATGATCATTAAAAT
Celera SNP ID:            hCV8909256
SNP Position Genomic:     20300
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17377):
TTACCTTCCAAACACATTTTAAGGGAAATGTAATATCAGCTATTATTGCTTTACCTCAAAATGCTTTATCATAATAGCTGGCAAGAGACTGAGGAAATGC
W
ACAAACGATAACCGTGTTTTGTGTTAGAAGCGGTAATGAAATGGTAAGACAGTCTTGGATGGGGTATAAAGTAGAGAAGAAGTGAGTAAGATCAGGACTT
Celera SNP ID:            hCV27032894
SNP Position Genomic:     65649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,9)      total(A,9|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17378):
TTACTGAACTCTTCTAAGTCTTAATTTCTTGACCTAGAATCTAGTAATAGAAAAATTCCCACTTCACATGATTGAAAAATAACAAGATAATAAGGCATAA
K
GCCTGCCACAGTAAGTGCTCATGTAACCTTAGGTATTATTATTTTATTACAAATCAAAGAATTTTTATAAAAACTTGGAGTATTTATTACAAATAAAAGT
Celera SNP ID:            hCV8909258
SNP Position Genomic:     27569
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17379):
AACATACGACTATACAGGAAAACAAACTCTGGAAGAAATATTTGCCAGATGGATATGACAAAACATTTATGTTTGTATGGACATAAAGATGGCAACAATA
R
CCATTGGAGACTACCAGGCGGGGAAAGTGAAAGGGGGCCGTGGATTGAAAAACTACTTATTGGGTATTATGTTCACTGCATGGGTGATGGGATCATTTGC
Celera SNP ID:            hCV11287130
SNP Position Genomic:     59909
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17380):
AAAGTAGAGAAGAAGTGAGTAAGATCAGGACTTCAGGCTTCTGGTAGGTTGTTGGTGATGATGTTGGGGGTAAGATGGCTAGCCAAGAAGGCAAGCAAGT
A
AAAAACAAATGAGGAGCATCATACTTGCCTACTTTATAAGTTTTTTTTTTTTTAAGTTAGAGTTTGACATCTTGGTATGATAACTTATTTTATAAAATCT
Celera SNP ID:            hCV27032895
SNP Position Genomic:     65817
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17381):
AACAGGGTAAGGGAGATACATGGAGTGAAGGGAGACAAGAGTCATGGGGAGTGTGTTATTTTATGCAGGATAGTTAGGAAGGGCCTCTCTGATAAGATGT
S
TTTTGAACAGAAACCAGAAAAAAAATTTCTTTCTTGAAATAGCTTTTGAGATAGAGGAAAAGCATATACAGAAGGCATGAAGCAGGCACGTGTTTGTTGT
Celera SNP ID:            hCV8909259
SNP Position Genomic:     29095
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,10)      total(G,1|C,10) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17382):
TTGCTTGAGACCAGGAAATCAAGGCTGAAGTGGGCCACGTTCACACTGCTGCCCTCCAGCCTGGGTGACACAGCGAGACCCTGCCTGAAAAAAAAAAAAA
R
AGAGAGAAAAAGAGACAAATAAAATAATAATTTATATGAAGATTAAATGCTATTTTTCTTATTGCATAATTTTTTCCACTTATTATTATTTCTAAGAAAG
Celera SNP ID:            hCV27032896
SNP Position Genomic:     66865
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17383):
CCGATGCCAATAGACGAAAGCTTTGAGAATGTTCTTAAAGAAGGAACGGAGAAAGGAACCCAAGAGATTGCAGAGGGTTTATCTGAGAAGTCCGGGAAAC
R
TGTTTCTGCAGAAGAAAAGGAAAAGGATAAGAGTAAGCTTTGGGAAGAAAGCACTGCTCAGGTGAAGGACAAAAAGGCAGGTCTCCCTGGGTTGGAGGAA
Celera SNP ID:            hCV8909292
SNP Position Genomic:     51125
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,36|G,2)   total(A,73|G,3)   
SNP Type:                 MISSENSE MUTATION;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,36|G,4)   total(A,73|G,5)
SNP Type:                 MISSENSE MUTATION;TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   ;JBIC-allele(G,403|A,1098)   total(G,403|A,1098)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:17384):
GCACAATAACCATGGGTTGGGGTACCTGTGGAAGGGCTGGCTTCGGGAAAGGGACAACTTCTAGGTATCTTCTTCCCCACCTCATATTTTTGCTGCCCAA
G
TGTTTCAGAAATCCAAGAGAATAATTACAGGGCTGTTATAGCACTAGACTTCATGTTTGATTATTACTGACTAAAGTGAATCTTTTACAAAAGATTTCAC
Celera SNP ID:            hCV11287133
SNP Position Genomic:     37804
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,13)   total(G,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17385):
AAGGAAAAGGATAAGAGTAAGCTTTGGGAAGAAAGCACTGCTCAGGTGAAGGACAAAAAGGCAGGTCTCCCTGGGTTGGAGGAAGGTGGTAAGTATGGCC
K
TTGAGTTGAGCTGCCATCATCCTCATGCATGGAAGCTGATTTTGGTCATTGCACTATGCCAAAGCTTGGGAAATACTACTGTGACAATGCTTTAGGGATT
Celera SNP ID:            hCV8909293
SNP Position Genomic:     51242
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:17386):
TAATGGATTGTTGAAGAAAAACCCCAAAAGTACTATAAAAGTGTCATCACTTTATGTTAGTTAAAAAATATACCACACAAGGTTAGAATTTTTAATTTGC
Y
GCAGATACTACAAAGTGTCATTTTTCAGCAGACTGGAGTGTTTTGAGTTTGTCTATTGATATCAGTTGTGTTTGCATGCAATGTCAATCATTTAGGCTTG
Celera SNP ID:            hCV2862220
SNP Position Genomic:     8760
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,9)   total(C,9|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17387):
AGAATCTACCATATCCACTAACTTAATTTTTCACTCTGCATGCTGGCATTGGTTTCTACCTGGCCAATGAACATGCTCTCAAAAGATGTGGCTCATACTT
M
GCAAAAACAATGACTTACTCATCATTCTGAAACACTTGGGGGGCAGGATTTGATTTTCGGATGTTAAAATGTATTACTGGGATACATTCTACCTGTTCAT
Celera SNP ID:            hCV2862221
SNP Position Genomic:     10667
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|A,7)      total(A,7|C,4) ;no_pop(C,-|A,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17388):
ACACATACACCCACCCACCCACCCACACACACACACAGACACACGCGCATTCATATATATACATACACACATATATATGCAGGCACATCTCATTTTATTG
T
GCTCACTTTATTGTGCAAGCTTTGCAAATATAGCACTTTTTATAAATTAAAAGTTTGTGGCAACCCTGCACCAAAGTCTATCAGCATCATTTTTCCAACA
Celera SNP ID:            hCV11287135
SNP Position Genomic:     34915
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17389):
GCACCATGCACTCACTACACCTTCACGATGAACTCTATCATATTATGCAAGAGCCCCCTTTTTCCTGCCCCATCATTCTTTAATTTTTCCAGAGCAAGCA
Y
CATGCTGACTTCCCTGTGAACTATGTCCCTGCTTTTCTTTAGAGTTCTATCGCTTATATGCATAAAACTTCAGAAATAAGCTCAAACCTAGCATTGTAAT
Celera SNP ID:            hCV2862222
SNP Position Genomic:     10962
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17390):
GGGATAACGGTGGATAGCAATTTTTTGGTGTGTGCATGATTACAGAAATTATAGGTAGGTAGATAGGTATAGATATATTAATATATATTGCTATATTACA
M
AGATACATATACATATGTTATTTTTATGTATAGATGGAAACATACTATACATTTTGTTCTGAGACTTGCTTTTTTCACTTAACACTGTATCTTGAATGTC
Celera SNP ID:            hCV8909296
SNP Position Genomic:     54523
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17391):
TATATTGTACTTAGATCCCTGACTGGAACTGTAGGTAGAAATGAAAGAGGGCTGAGAGAATGTGTAAATGACCATGTCCCACATTTGTATGGTATTTAAT
Y
ATTTTTCAGTTAGAATAAAAGCTGTTATTATGTTAAAGAATAATCTATGTTACAAATAAATCTGTGGGCTAAAAATCATATACAATTAATGATGTTTTAT
Celera SNP ID:            hCV8909297
SNP Position Genomic:     55204
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17392):
TATGATAAATGGGAAATCACTCCAACTATTTGAATAGAAGACTAAAGATGATGATAATTTTTGCCAGATTAAATCCAAAATTTGTTGTAGAACATCTGCA
M
ATCCTAACAATAATAGTTTGGGATTTGAAAAAAATTCATTAATTTGGAAGAAATAGTACTGAGTAATGTGAAATTCTTTGCAATAACAGAAATAACATAC
Celera SNP ID:            hCV8909298
SNP Position Genomic:     59715
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17393):
GCATCTTTATATTTGTTTACATTTCTCTTGATTGTAAATGGCACCATGCATGGTCTGTTAAGAGTATGTGTAAGTTTTCATAAATCTTAACTTTTTATAA
Y
AGATTTGTGTGTATTTTATGGTAGTAAATGATAAAACAGACTAGCATCTACATATATTTTATGCATTCATAACATACATTTTTCTTATTTTTCAAAATAT
Celera SNP ID:            hCV2862224
SNP Position Genomic:     12956
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17394):
TTTCACTATGTGTCCAAGTTTGGATGATAAATTTCATGGTCACCCTACTTGATGTCCAGAATTCACCAGGGCTTCGTGAAGAAGATGGAGAGGAGTTATT
R
CCCAACACTATCAACAAGAACAGGCCCTTTGACACTATACTGTTTGTGTGGGCATGGATAAAAGAGATTTCAGTGAAAACTTAGTATATCAATTCAATGC
Celera SNP ID:            hCV2862225
SNP Position Genomic:     17409
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,9)      total(G,5|A,9) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17395):
GAAACATGAAATAAATTTTAAGACTTTAATATATTTTATTTAATCAAGTATATCTAAAATATCATTTCCACCTGTAATCAATATGAAAAATTTTAATTAA
G
TATGATGTATTTTCTTATACTATGTCTTTGATATTCAATGAATATTTTATACTTACAGCAAATGAGCTACCTTTCAAATGCCCAGCATCCAAATGGGAGA
Celera SNP ID:            hCV15771801
SNP Position Genomic:     14852
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17396):
GTATAATGATTGTGTTGCTAAAGGCCCATGTGAGTACCAGAAACACATGCAGAAGACAGACATATTATGCTGCTACAGAAAATAATGAGTTCAGGGCCAG
K
TGCAGTGGCCCACACCTGTAATCCCAACACTTTGGGAGTTTGAGATCCAAGAGTTGAAACCAGCCAGGGCAACATGGAAAGACCCTGTCTCTACTAACAA
Celera SNP ID:            hCV2730350
SNP Position Genomic:     66582
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,5)   total(G,5|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17397):
GCTCAAGGTAAGACTTTTTACTAAAGACTCAATTTGTGATGACTAAATCTAGATATAGTAGCTTATCATCTGGGAGTGAGAATCATCAGTTCACACTGTA
W
AATGATTGTGTTGCTAAAGGCCCATGTGAGTACCAGAAACACATGCAGAAGACAGACATATTATGCTGCTACAGAAAATAATGAGTTCAGGGCCAGGTGC
Celera SNP ID:            hCV2730351
SNP Position Genomic:     66485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,5)      total(A,5|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17398):
ACAGTCTTGGATGGGGTATAAAGTAGAGAAGAAGTGAGTAAGATCAGGACTTCAGGCTTCTGGTAGGTTGTTGGTGATGATGTTGGGGGTAAGATGGCTA
S
CCAAGAAGGCAAGCAAGTAAAAAACAAATGAGGAGCATCATACTTGCCTACTTTATAAGTTTTTTTTTTTTTAAGTTAGAGTTTGACATCTTGGTATGAT
Celera SNP ID:            hCV2730352
SNP Position Genomic:     65798
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)      total(G,6|C,4) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17399):
GTCAAAAATATTCTTGAAATTTTTTGTATGAATAACAATTTCTAAGAAAATTCCACATAAAATCACAAAATATGCACACATATATATTGTACTTAGATCC
M
TGACTGGAACTGTAGGTAGAAATGAAAGAGGGCTGAGAGAATGTGTAAATGACCATGTCCCACATTTGTATGGTATTTAATCATTTTTCAGTTAGAATAA
Celera SNP ID:            hCV2730353
SNP Position Genomic:     55122
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17400):
TCTTGACCACGTGATCCACCCGCCTCGGTCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCATGCCCAGCCTGTTTATCTTTGTTAAGCCGTAATAT
R
TGTGCGATTATTAATTTTTTATTAACAAATAATACACATGGAATAATATTTAGACAATAGAGAAAAGTAATTTTGAAAAATTACTCATAGGTTTATCACA
Celera SNP ID:            hCV2730354
SNP Position Genomic:     53843
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17401):
GACCTCACGCAATGAGTGCAGATCTTTTCTTTGCCAAAACAAGCAAAAGCAGGTTCTTATAGCATCACTACCAGAAGGGAATACATGAACAAATGGAATT
S
GGTAGGAGGCATAGCTGTTTATCAACATGCTTCCAAGATAATTTTTCCCTCCTAATGACAAAGCAAATTTACATACGTGCTCTCAAAGTTTTTTTTAATA
Celera SNP ID:            hCV2730356
SNP Position Genomic:     47815
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,13)   total(G,13|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17402):
TATTATTAATTGCTAACATAATTTTTACAATTAAACCAATTGCTTTACAGAACAACAACAATGTCATCACTTTTATTTTTTGTAGATATGAAAACTGCTT
Y
ATCAACCTCATCCAGAAGTCACCCTTATTCTAGTGACAGTGAGGATGAATCTGCAGTGGGGGACAGGGAAGCCCACACTGACAGCAGCACAGATGAAAGT
Celera SNP ID:            hCV27854771
SNP Position Genomic:     50795
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,40)   total(C,69|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17403):
CAAACTAGGCACTGTGCACACACTGTCTCATTTTATCCTCACCATTCAACATGATAGGTATTATTACTACTTCAATTTTACAGGCTGGGAAATTGAGGCT
Y
AGATACACAAAAAGAAAGTAGCAGAATAAGAATTTGCACCCAGGTTTGTCTAATTCCAAAGCTCAATCTTTCAAACACTATACAACCTTCTATTCTGTAC
Celera SNP ID:            hCV2730357
SNP Position Genomic:     37498
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,18)   total(C,2|T,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17404):
CTAAAGCAGCAATAACAACAATAATGAAAGTGCCAAGCACTGAGCACCAAACTAGGCACTGTGCACACACTGTCTCATTTTATCCTCACCATTCAACATG
R
TAGGTATTATTACTACTTCAATTTTACAGGCTGGGAAATTGAGGCTTAGATACACAAAAAGAAAGTAGCAGAATAAGAATTTGCACCCAGGTTTGTCTAA
Celera SNP ID:            hCV2730358
SNP Position Genomic:     37451
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,9|A,11)      total(G,9|A,11) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17405):
GTTAATCGTATAAGGCCTATATGGCCTGATACACCCATCTCATCTTGGGAATGGGCTAGCCAAAGGTACCAGAAAACTCAAAGGTCTTTGGCTAAAATCC
Y
CTGTATCCTCCAGCAGTAACTTTGCCATTAGGACTAGAAATACTCAAAGTCCAATGAGTAGGATTTCCTCTCCCCTAGATAGTACTTGGATGGGTGCTTT
Celera SNP ID:            hCV27848820
SNP Position Genomic:     6082
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:17406):
AATACATTCAAAATGAAATTAATTTTAATTTATTTAAAAAATACCAGTCCCAGAAACATTTGTGATGAGAAAAAGGAGGGCATGGTACAATAAAACAACA
K
AGAATTATATTTCTAAATGATTAGGAATTACCTGTTTAAGGTCCTCAGAAAACAAGAAAAGCTGAGCAGTGGTCACTTCCAAAGTGTAAGGTTCCACAAC
Celera SNP ID:            hCV8909260
SNP Position Genomic:     31556
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17407):
TCTTTTGTTGTAGCTGTGGCTGTTTCGTTTGTCTTTGAAATGTGATGATCAAAATTTTCAAAAATACCCATTAAATGTTACCCAGCTGTGTTACATGTGG
K
GTGCCCCTGACCTCCTTCCTTTGCTGTTTTGTATGGAGTCCTGTGTCACCTACCTTAGAGGAAGGCAGACCTAGCCCCAGAAAGGTTAAAGGTTCTGGCT
Celera SNP ID:            hCV8909261
SNP Position Genomic:     34379
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17408):
TTTTGTATGGAGTCCTGTGTCACCTACCTTAGAGGAAGGCAGACCTAGCCCCAGAAAGGTTAAAGGTTCTGGCTGCAGAGATGAGGAGAGAGAATGAGTA
Y
ATGTCAATGTGAGTTAGAGACTCTATTGACTTCTGCAGAGACCATTTTCACCAAATAGAATTTTACCTATTTTAAAAGTTTTTGAATGTACTGTTTTTTA
Celera SNP ID:            hCV8909262
SNP Position Genomic:     34506
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17409):
ATATGTCAATGTGAGTTAGAGACTCTATTGACTTCTGCAGAGACCATTTTCACCAAATAGAATTTTACCTATTTTAAAAGTTTTTGAATGTACTGTTTTT
Y
ATGAAATTGATGAATTGCTTTGACATCAGGTAGGTACAACCTATATGATTATATGGTGATAGAGTATGCCATAACTAAAGGCAGTTGACTATAGGCTTAG
Celera SNP ID:            hCV8909263
SNP Position Genomic:     34605
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17410):
AAAAGTTCCTGAAGGAAGTTAAGAGTGCTACTTCAAGTGAACATGTGCATGATAAAAAAGAAATCGTTATTGCTGATATATAGAGTATTTTAGCGGTCTC
R
ATAGAAGATCTAACTAGCCACAACATTCTCATAAGCCAAAGCTTAAGTCAGAGCAAGGCCCTAATTCTCTTCAATTCTATGAAGGCTGAGAGAGGTGAAG
Celera SNP ID:            hCV8909264
SNP Position Genomic:     35555
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17411):
AAAGCCCAGCTCCTGCCTAATATAAATTACATCCTAATATAGCTTACATGTCAGAAGTGCCCATGGGATCAGGTTGAGATTGAGATGGGGCTTGAAATAT
Y
TCCCTTGATTGATTTCTGCCCTTCCTTCCCTTGCTTCTGCTACTCCCTTAAGAGTTCTCCTGGAGCACATCTTAAATACTTTTCTCACACATGAATCTTC
Celera SNP ID:            hCV523944
SNP Position Genomic:     49558
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,17)      total(C,17|T,1) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17412):
AACAGAAGACTTTCTTTAAATGTTTTTATAACTGACTTTTTAGTATACTTTCATGCAGGAATTTGAATAGCAACAGATACACTATTAAAGAGACTTGACA
Y
ACATTATTGTTTCCTATTGTTTCAATTTAATTTTGTTTCAAATACGGTAATAATCTGTAATGAAATAAAATGGACCATATTCTCTCAGGTGAATTGGCTA
Celera SNP ID:            hCV27521437
SNP Position Genomic:     65280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17413):
GGATGGTAAACAACAAGCTAATTAAATTCTCTAGAAGAAGGCAAATGGGATGGGAGAACAGAAGAAATTATGTAAAAGATTTTAGAAAGCATGTCGCTGG
Y
TTATTCGTATCAAAAACATGAGTAGATGACACAAAGGTGGTGTGCTTTGAGCTATAATGACAGTTTGGAAGGTTTGTGGTTAACAGAAAGCTAATACTTA
Celera SNP ID:            hCV8909268
SNP Position Genomic:     38483
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17414):
CAAATGAATGGAATACCGCAGTCACCTTTGGATGATAAAAAAGATAATTTAGACCCTGAAAAAGAGAGTGAAACCTCATCACAGAAGGCACCAGATGCCC
R
TGACAATGTGAAAGATGAGAATGATGGATGCTCTGAGAGTGAACTGGAAGAGGATAAACAAGGCGAGTTGTTCAGCTTATCATGTAACATAGGCTGTTTA
Celera SNP ID:            hCV8909269
SNP Position Genomic:     41103
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17415):
CAAGGCGAAACCCCGTCTCTACTAAAAATACAATATATATATGTGTATATATATATAGCTGGCCATGGTGGTGTGTGCCTGTAATCCCAGCTACTCGGGA
R
GCTGAGGCACGAGAATAGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCATCACTGTACTCCAGCCTGGGCGACAGAACAAGAATCCTTC
Celera SNP ID:            hCV11287141
SNP Position Genomic:     24739
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17416):
GAAGGTATTGGCAGGGACACACTCCCTGAAAAGCCCCAAGAAGCATTCTTCTTAACTCTGTCAACTGGCCTTCCTTGGCCTGTGGTTCCGTCACTTCAAT
W
TCTGCCTCTGTGTTCACATGCTATTCTTGTGTGTCTGTGTGTGTCCTCACCTCTTTTTATAAGGACATCAGCCATTGGATTGAGGGCCAAACTTAAATCC
Celera SNP ID:            hCV11287142
SNP Position Genomic:     24033
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,9)      total(A,9|T,3) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17417):
AACCTTATTTTTATAGCACCAACAATGAATTTCATGGTGGATGAAACAGCAGCAATCAACTCAAACAAGGAATCCCAGCAATTGGTGCAAAAAACGTATA
Y
ACTGGAGAAGAAAGAAGCAATGGAGGAAGATGAAGCGCCCCAGCACAGAGATGCTGACATAGTACAGGGAAAAGGGGAGGCAGCACTGTGGGGAGAAGCA
Celera SNP ID:            hCV25649564
SNP Position Genomic:     67453
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,36)   total(C,66|T,4)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17418):
AGAAGACTTTCTTTAAATGTTTTTATAACTGACTTTTTAGTATACTTTCATGCAGGAATTTGAATAGCAACAGATACACTATTAAAGAGACTTGACATAC
R
TTATTGTTTCCTATTGTTTCAATTTAATTTTGTTTCAAATACGGTAATAATCTGTAATGAAATAAAATGGACCATATTCTCTCAGGTGAATTGGCTATAT
Celera SNP ID:            hCV27523904
SNP Position Genomic:     65283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17419):
TGTAGGAAACCTGCATATGTACCCCCTGAATCTAAAATAAAGGCTGGAAAAAATGATTGATGTCTGTAATACATAAAGAGTTCTTACAAATCAATGAAAA
R
GCAAACATCATAACAGAAGAATGTACATTGTATAGCAGGAAATTCACAAAAGGAAAGCTTGCTACTAATATTGACAGCTCTATCCTTGCCACCACTTTTC
Celera SNP ID:            hCV8909300
SNP Position Genomic:     60142
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17420):
TCATACCTCCTTTTTAAAAGAACATTTAGAAATATGTATAAAAAGCTTCTAAAAATTCATAGCAATTCATATTCCAGGAATGTGTCCTAAGGGAATAGTC
W
GAAATATGTGCAAAAATGATTATAAGTAGTGTTTAAAATAGCTTTATAATCACAATTGAAATAGCTCAATATTTAACAATAGACATTGATGAACCGAAAT
Celera SNP ID:            hCV8909301
SNP Position Genomic:     60438
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17421):
ACATCATTACCTAGGAAGAACCTTCAGAAATCCTCTGCAAAAGACGGCCTGTTTCCACCCTTCCTATTCTTGTTTCTTCCTTCTGCCACTTTTTTTTTTT
Y
TTTCAACTAAGGAATAGAATGGCCAGAAGTAGTTGACAGGCCCTAAGGAGAGCTTCACAGCTAACATCAGGTATAAATTTATTATTATTTTTTGAATATA
Celera SNP ID:            hCV8909302
SNP Position Genomic:     63615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17422):
CATGATGCCTATTCCTCCTCCACTTCCCCCAACTGGGAAAATCACAAGAGAAAATAGATCTGAAACATGGAGAAGGAGAAGATTTCGTCCAACCACTGCT
S
CAAATGGCTTAGAACCTCTTTTGACAAAGGTGATTATGGAACAAATTTTTCTTTTATTAATTTATCTCAGATTACATTGCACTATTAGATTTCTAGGTTT
Celera SNP ID:            hCV25985442
SNP Position Genomic:     9119
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,8)   caucasian(C,19|G,11)   total(C,39|G,19)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17423):
GGATAAGCGCAAAGACAGGTATTTTTTATCTTAAACTCTGCATTAGCTGCTACAGCCATCGGTACAGCTGCCAAATGGAACTGAAAGAAATAAAGAAACA
R
AAAAAAGAGTAAGGAGTACAGAGAAAACAAAAAAATAGGCAGCATTTAAATGTAGGATGTTTTATTTGGAAGTATAAAAAAAACAATTACAGACCTAGAC
Celera SNP ID:            hCV2956330
SNP Position Genomic:     48958
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17424):
GCAAAAGATTTCTTGGCATGTATATTCACTTATACTTAGAAATATTCATTCTTTTAATTTATGCCAGAATAACAAAGTGGAAATCTTATTTCAAAATGCT
S
TTTGTTTTTTTGTGTGTGTTTCTGTAGTTCTGCTTTCTGGGGTAGACTAGTAAAATGGTAGCTTCCAGCATTTTGTCCCTGGGGCCTTCTTTATAGGGCC
Celera SNP ID:            hCV29321440
SNP Position Genomic:     71056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17425):
TTATTTTAATCTTACTGGTGAGGAGATCCTTTTTGTCATATTACTTTTTGTCTTAAAATCTATTTTGTCTAATAATACTTCTTATTTTCTTTAGTGTGTC
K
GTGTGTGTGTGTGTGTGTACTGTATATGGAGAGTTGACACTTGAATAACATGGGGGGAAGGGGTGTCATTTCTCTGCACAGTCGAAAATTTGTATATAAA
Celera SNP ID:            hCV27032878
SNP Position Genomic:     12148
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,9|T,9)   total(G,1|T,9|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17426):
AACTGTCAGTGAACAATAAATAATTAACTGTACAAATACTATAATTATAATCATATATAATGCTTTCTAATATTTTACATTCTAAAATATTTAAGACTGT
R
TTGTGGATAGACTAGCACATTCTACACACCCCCATCTCTGTTTTATGGGTGAAAATTCTGAAAGGCAACAAAGTTAAATGACTCACCAAGATACACTCAC
Celera SNP ID:            hCV15977684
SNP Position Genomic:     25464
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,50|G,1431)   total(G,1431|A,50) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17427):
AGAAATACTCAAAGTCCAATGAGTAGGATTTCCTCTCCCCTAGATAGTACTTGGATGGGTGCTTTCCATGCTTGCCAAGGTGATTATATTATTTTTTAAG
K
TCCATAATTATTAATGCTACTTTGATCAATACTTTGTTTCATTAGACATGTGAACACCATCAATCAGGTATTATTTAAGCTCTGCTGGCTGGGGAGCAAT
Celera SNP ID:            hCV2399089
SNP Position Genomic:     6218
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,34)   caucasian(T,40)   total(G,4|T,74)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17428):
TATTTTAATCTTACTGGTGAGGAGATCCTTTTTGTCATATTACTTTTTGTCTTAAAATCTATTTTGTCTAATAATACTTCTTATTTTCTTTAGTGTGTCT
G
TGTGTGTGTGTGTGTGTACTGTATATGGAGAGTTGACACTTGAATAACATGGGGGGAAGGGGTGTCATTTCTCTGCACAGTCGAAAATTTGTATATAAAC
Celera SNP ID:            hCV27032879
SNP Position Genomic:     12149
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17429):
CTGTGCAGCTTTCTCACTGACTTCTACTCTGTTTTATCCCAATAGCTTTCAGTCAGCACTCAAAACTGAAGCAGTTCATTGTGCTTTGACTTATATTAAC
K
GTTTTTAATTTTTTTCTTTTTTAAGAGACAGTCTCTCTCTCACCCAGACTAGAGTGCAGTGCCACAATCATAGTCACTATAGCCTTGAACTCCTAGGGTA
Celera SNP ID:            hCV15946294
SNP Position Genomic:     22679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17430):
TATAGCTTACATGTCAGAAGTGCCCATGGGATCAGGTTGAGATTGAGATGGGGCTTGAAATATCTCCCTTGATTGATTTCTGCCCTTCCTTCCCTTGCTT
M
TGCTACTCCCTTAAGAGTTCTCCTGGAGCACATCTTAAATACTTTTCTCACACATGAATCTTCATCTCAGCTTCTGCTTCTGCAGAGCTCAAAATAAGAT
Celera SNP ID:            hCV27971958
SNP Position Genomic:     49595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17431):
TTATGTTAGTTAAAAAATATACCACACAAGGTTAGAATTTTTAATTTGCCGCAGATACTACAAAGTGTCATTTTTCAGCAGACTGGAGTGTTTTGAGTTT
R
TCTATTGATATCAGTTGTGTTTGCATGCAATGTCAATCATTTAGGCTTGTCTTTAAATTTGGGTTACATTGAGTCACTGATTCTGTTTCACTGGTTCTTA
Celera SNP ID:            hCV11287150
SNP Position Genomic:     8811
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17432):
TTGGGAAGAATTGCCTAACCATGTAGAATGCAGACTGCTTTGAGCTTTAGTAATCATAATCAACACCTCAAATTATATTCAGAAGTCAAATAGGTAGTCA
R
TGACGAGGAGAGCACAGATGTTACTCACTTTGTTTGTCCAATTCCCTTCAGCAGATGGGCAATAAAAAGTCTGTGCATGCAGTAGGGAGGCATCAAAGCC
Celera SNP ID:            hCV9770861
SNP Position Genomic:     31825
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:17433):
CTTTATTCAACAAAATGCATATAAAACATCTATTTGCTGGAAAATGTGATAGATACAAATGAAAAAAGAATGAGGCTTAGCTAAATGATTCTCTGGTAGA
Y
GATGTACACTCTGTGATGAGAGTGAAAAACCAAAGGTTATGGGAAAAAGGGTGTCACTTGAGTCAGTGTTATTTTGCATACATATTGATGCTGGGATGTT
Celera SNP ID:            hCV1120358
SNP Position Genomic:     21614
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17434):
GATTTTACATATTATTTCTATTCTTCTGGGACTAGCAAGTCTTGACTGCTTTCTGATCCCTTTCACCTGCCCACTATAAATTCAGTTCTCTGGTAGTTGT
R
TCACATGCAGAGAGGGGAACGTGAGTAGTTCTAGAGAAAGAAGACTGAAGAGACTGATAACTACCAGAAACATTTTTCAGATCATGGATTTTATCCAGGT
Celera SNP ID:            hCV9770862
SNP Position Genomic:     32495
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17435):
AATGGCCTCTTGATATCACATATAAATATCTCACACTGTAAATAAGTGTGATATAAGATTATAGTGTCCCCTCCCTTGTTCGCTTGGATTAAAGTAATCT
Y
GATTTCTAACCTTATTTTTATAGCACCAACAATGAATTTCATGGTGGATGAAACAGCAGCAATCAACTCAAACAAGGAATCCCAGCAATTGGTGCAAAAA
Celera SNP ID:            hCV25649574
SNP Position Genomic:     67345
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:17436):
TAGAAATTGAAATTGAAGACCAAGAAATAACAAAAGCAGATGTGGAGACCAAGCCGATGCCAATAGACGAAAGCTTTGAGAATGTTCTTAAAGAAGGAAC
R
GAGAAAGGAACCCAAGAGATTGCAGAGGGTTTATCTGAGAAGTCCGGGAAACATGTTTCTGCAGAAGAAAAGGAAAAGGATAAGAGTAAGCTTTGGGAAG
Celera SNP ID:            hCV25649575
SNP Position Genomic:     51072
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:17437):
CAAGAAAGTCTCACCTTCCAATTGAGGAATCCTTAGAAATTGAAATTGAAGACCAAGAAATAACAAAAGCAGATGTGGAGACCAAGCCGATGCCAATAGA
Y
GAAAGCTTTGAGAATGTTCTTAAAGAAGGAACGGAGAAAGGAACCCAAGAGATTGCAGAGGGTTTATCTGAGAAGTCCGGGAAACATGTTTCTGCAGAAG
Celera SNP ID:            hCV25649576
SNP Position Genomic:     51039
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,40)   total(C,73|T,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:17438):
CATGAATTTTATATTCTAGGAGAGAGATATGCCTGCCAAGTGAAAAATAAGCATGTGATGGGGTATCTGGGCTAAGTAATAGAAGGAAAATAAAGCAGGG
K
AAAGGGATAATAGAGTGATGGTTTGAGGAAGGGGTAGTATTTTTGGGATGGCCTCTCTAATAATCGGACATCTGAACAGAGATGAATGAAGTGCAGGGGG
Celera SNP ID:            hCV28015414
SNP Position Genomic:     56210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17439):
TGGCTAAAATCCTCTGTATCCTCCAGCAGTAACTTTGCCATTAGGACTAGAAATACTCAAAGTCCAATGAGTAGGATTTCCTCTCCCCTAGATAGTACTT
R
GATGGGTGCTTTCCATGCTTGCCAAGGTGATTATATTATTTTTTAAGTTCCATAATTATTAATGCTACTTTGATCAATACTTTGTTTCATTAGACATGTG
Celera SNP ID:            hCV27837197
SNP Position Genomic:     6170
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:17440):
ATAATTGTGGCATTTAGTTATGTAGAGGACTTCAACACCATATGTTTTAACAAATACTTTGGGTCATAAGGGTATGTATAATGGAAGGACATAATTAAAG
Y
TTAATCTGTTCAGTAAAAAGGCACCATTAATTACTCTAGGCAATTTATTGGGTTATTAATTGGTTCTGGAAACATGTCAAGATACTAATTTAAATGGAAT
Celera SNP ID:            hCV27844881
SNP Position Genomic:     4302
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,38)   total(C,2|T,72)
SNP Type:                 hmCS


Context             (SEQ ID NO:17441):
AGAGAAACATGAAATAAATTTTAAGACTTTAATATATTTTATTTAATCAAGTATATCTAAAATATCATTTCCACCTGTAATCAATATGAAAAATTTTAAT
T
AAGTATGATGTATTTTCTTATACTATGTCTTTGATATTCAATGAATATTTTATACTTACAGCAAATGAGCTACCTTTCAAATGCCCAGCATCCAAATGGG
Celera SNP ID:            hCV27032880
SNP Position Genomic:     14849
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17442):
GAACCACAGAATGCTTTTAAGGTTCCACTCAGGAGTGGCACATGTCACTTACACTTGAATGCCATTTGGCAAGCCCTTGACCAAGACTGACCTCAATGGA
R
TAGGAAGTATCAGTCTCTCACAGAAAAGGGCAGCGAATATTTGGAACAATAATAGAATCTACCATATCCACTAACTTAATTTTTCACTCTGCATGCTGGC
Celera SNP ID:            hCV2399090
SNP Position Genomic:     10513
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17443):
GAGAAACATGAAATAAATTTTAAGACTTTAATATATTTTATTTAATCAAGTATATCTAAAATATCATTTCCACCTGTAATCAATATGAAAAATTTTAATT
A
AGTATGATGTATTTTCTTATACTATGTCTTTGATATTCAATGAATATTTTATACTTACAGCAAATGAGCTACCTTTCAAATGCCCAGCATCCAAATGGGA
Celera SNP ID:            hCV27032881
SNP Position Genomic:     14850
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17444):
AGTACTATAATTGTGATATAAATAAAGCACAATAGAAACATAGAGGAAAGAAATATTAGTTTTGACCGAGGAGATTAGAGAATGCCTCCTAGAGAAGGTG
S
CATTTGAAATGGGCTTTGAATGATCAGTAGGAAGTTAGCAGATAGAACCAGGGAACTGAGATTGAAAAGCAGAAAGGGGAAAAAGGAATAAGCAAAATTC
Celera SNP ID:            hCV2399091
SNP Position Genomic:     15383
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17445):
AGAAACATGAAATAAATTTTAAGACTTTAATATATTTTATTTAATCAAGTATATCTAAAATATCATTTCCACCTGTAATCAATATGAAAAATTTTAATTA
A
GTATGATGTATTTTCTTATACTATGTCTTTGATATTCAATGAATATTTTATACTTACAGCAAATGAGCTACCTTTCAAATGCCCAGCATCCAAATGGGAG
Celera SNP ID:            hCV27032882
SNP Position Genomic:     14851
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17446):
CACAGCAAGACCCCATCTTCAATAATGTTAATAACTCTTACACCACACCATGCAGAGCTACACAAGGAAGCACCAGAGTAGGTTAGGAAGCAGAGGGAGT
R
GGGGAGGAAATGTGAGCAGGAACCCTTATTATCATTTCTGTGGGAAGGAACAGGTGAGAGAGATCCTGAAAATCTAGAGCTCTGATGCCTCTGTAAGGAT
Celera SNP ID:            hCV2399092
SNP Position Genomic:     16166
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17447):
TTGAAAACTACATATTTAGGTGCTATTTTAAAGTTCCTGTGAATTCTGGATTCTGACTTTTCCCTATCAAAGGTTATTGTTGTTTCTGGTTTTTCCTTCC
T
TTTTTTTTTTTTGTTTGTTTTTTGTTGTTTTTTTTAGTAACTTACCAAAATTAAATCTGTGAAATTTAGCCTTCATCATCCTGGTGCAGAGCCAGCCATG
Celera SNP ID:            hCV27032883
SNP Position Genomic:     23674
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,10)   total(-,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17448):
CATATAATTCATGTTACTCTTGAAATTATTTTTTTCAGTTTAACTGTGCACATATTAAGTATCCTAAAAAGTCAATACGTGTATGAATAACTTATTATTG
Y
TAATAGCAATATGAAAGTTTATGGTATGCCAATTTATTGTTTTGTGTACTGATATTTCTGTATCTTTAGGCTAGATTTCCTTAAGTATTTGCTTATGTTT
Celera SNP ID:            hCV8909280
SNP Position Genomic:     41896
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17449):
CTCAATAATCTTATCATTATCATAATCATCATTTTTATTAATGTATATATTATTATCATTGGAATTCTTATTTTAATATCAACTTAAGAAATAGAAAGCT
R
TAGAAGACAATTTATTCATATTACTTTTGTTATAATTGATTTAAAAAGTTTTAATGTCATAATGCATTCAGATTATCTGCATGGTTCACCAGATTTGACT
Celera SNP ID:            hCV27032885
SNP Position Genomic:     33080
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,13)      total(G,1|A,13) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17450):
GTTTAAAACAGACAATTTGGCTACTGATTGCAATAAGAGTATGGCAATAGTTTCTGAGAGAGTTATCAGCAGTCACTGTTAGAGTGAACCAATACCTTTA
W
GAACATGTACAGTGGATCTATTTCCCTCATGCGAACGGAGGTGGATAATTAGTCAATCTCTGTTTTGAGTGTGTATTATAGGTAGAAGCAAGGACCAAGG
Celera SNP ID:            hCV8909281
SNP Position Genomic:     46195
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17451):
TTATTTCATCACCCAGGTATTAAACCTAGCACATTATTTATTTTTCCTGATCCTCTTTCTCCTCCCATGCTCCACCCTTCAATAGGCCCCAGTGTTTGTT
K
TTCCCCACTATGTGTCCATGTGTTCTCATCATTTAGCTCCCACTCATGACAGTATGAGGTAATTTGTTACCTTCACACTTTATTAATGCAGCTTCAAAAA
Celera SNP ID:            hCV27032886
SNP Position Genomic:     41457
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,7)      total(G,7|T,5) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17452):
GAGTATGGCAATAGTTTCTGAGAGAGTTATCAGCAGTCACTGTTAGAGTGAACCAATACCTTTATGAACATGTACAGTGGATCTATTTCCCTCATGCGAA
M
GGAGGTGGATAATTAGTCAATCTCTGTTTTGAGTGTGTATTATAGGTAGAAGCAAGGACCAAGGTTTCTGTTTTCTTGTAGAACATTGCCTGGCACATAG
Celera SNP ID:            hCV8909282
SNP Position Genomic:     46231
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,6|C,7)      total(A,6|C,7) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17453):
TTTTATTACCCTAACTCCTGGTGGGTTGAGCATCTTTCCTTATATTCATTGTCCATTTATATTTCCTTTTCTGTGAATATTTTGCTTGCTTTACTCATTT
S
TCTATTGGATATTATGGCTATTGAGGGGCTCTTTATTAGGCATAGTTTATCACATGCTGTCATGCTTTCATTCAATTTTTTTTTACTTCATTAATATTTG
Celera SNP ID:            hCV27032887
SNP Position Genomic:     42265
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17454):
TATAATTTTAATAATAGGTAAGATGGGAGAAAGAGAGAAAGCTACATATAAGAAAATGTATGGAAAACAGCAGTAGGTAGACTTTCATGGTAAAAGAAAG
R
GAAATAAAAAAGTCCTAAGTTAGAAAAGAAAATGCAAGAGGAGTAGAGAATATTGGAGAGGATCGAAACACCAGTGGCAGACTACAGCATAAGTAAGTAA
Celera SNP ID:            hCV27032888
SNP Position Genomic:     42795
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17455):
TAGAATGAAATAAATTTTTTTAAAAAAAGCTTTTGTTGAAGAGACAAAGGATTATTCATTTTTTTCTATAACAAAGTGAATATTTATAAAGCGTTTTCAA
K
AAAAAATGGCTTTCAAAAAACAACAAAAAAACAGGGATGGTTGATAGTTAAATGTGATCTATTGAAAATTTCTATATACTCATATATTCCATTGATTTGA
Celera SNP ID:            hCV27032889
SNP Position Genomic:     49966
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17456):
TAGGTAACTGAACAAAAGCTCAATAAAGTTAAGTGGCTTGTCTAAAAATCAGTCAATCTCAGGTCATGTGACACAAAATTTAGAATTTTTCTTATCATAT
Y
CACTACTTCTAAGAAGAGGTATCTTAAATAGATACTAAGATATTATATGTGAACATCTACTTGTTTTTGTTTACTTGTAGAAGGGAAAAAAATTAAACTT
Celera SNP ID:            hCV11287124
SNP Position Genomic:     73067
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17457):
AGGAGGCATAGCTGTTTATCAACATGCTTCCAAGATAATTTTTCCCTCCTAATGACAAAGCAAATTTACATACGTGCTCTCAAAGTTTTTTTTAATATAA
R
CATTTGCTTTATTTCTAAGAGAATAAATAAAATTAGTTTTGAAAATCCTATTTCATAACCCTGAAGCTTTTTTAGCTTTTTTATAGGCAAAGTCTTACCC
Celera SNP ID:            hCV8909287
SNP Position Genomic:     47919
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17458):
TTTTCTATAACAAAGTGAATATTTATAAAGCGTTTTCAATAAAAAATGGCTTTCAAAAAACAACAAAAAAACAGGGATGGTTGATAGTTAAATGTGATCT
M
TTGAAAATTTCTATATACTCATATATTCCATTGATTTGATAGGTTTTCCTTATCCTAACAATGATTTAGACCAGGGATCTAATCCCCGGGCCACGGACTG
Celera SNP ID:            hCV8909288
SNP Position Genomic:     50027
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17459):
TTGGGAATGGGCTAGCCAAAGGTACCAGAAAACTCAAAGGTCTTTGGCTAAAATCCTCTGTATCCTCCAGCAGTAACTTTGCCATTAGGACTAGAAATAC
K
CAAAGTCCAATGAGTAGGATTTCCTCTCCCCTAGATAGTACTTGGATGGGTGCTTTCCATGCTTGCCAAGGTGATTATATTATTTTTTAAGTTCCATAAT
Celera SNP ID:            hCV27850836
SNP Position Genomic:     6126
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,36)   caucasian(T,40)   total(G,2|T,76)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:17460):
CACTATCTTTATTGCAATGGCCTGGAACTGAACCTGCAATATCCCTGAGGTATACCTGTATATCGAATATATATATAGGTATACATTCACAGATCTAGGT
R
TGCTTGTATATACTTACATGTGTATATAGGTATGCCTGTATATGCTTATACCTAAAGCAGCAATAACAACAATAATGAAAGTGCCAAGCACTGAGCACCA
Celera SNP ID:            hCV27926247
SNP Position Genomic:     37299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 46
Celera Gene:                 hCG1759545 - 145000147253816
Gene Symbol:                 DHFR
Protein Name:                dihydrofolate reductase
Celera Genomic Axis:         GA_x5YUV32W40L(9218895..9260718)
Chromosome:                  Chr5
OMIM number:                 126060
OMIM Information:            DIHYDROFOLATE REDUCTASE;DHFR


Genomic Sequence (SEQ ID NO:12206):
TCTCTACTAAAAATACAAAAATTAACCAGGCGTGGTGGCGAGTGCCTGTAATCCCAGCTACTCCAGAGGCTGAGGCAGGAGAATTGCTTAAACTTGGCGG
GGCAGAGGTTGCAGTCAGCTGAGATTGTGCCACTGCACTCCAGCCTGTGCTAGACAGCACAGGCTGTCTCGGGTGTGGGGGAAAGAGACAAGGTCCACCA
AAATCAAATATGGGTTCCTGCAGATTATATGGGGCAGAAAGAAAATCAAACATGAAAATCAGTGATTAAGAGAAAATCTTAAAAGCAACCAGAGAAAAAG
ACAACCCTCTATAATTAAAAATAAAAAACCTTTGATGTCTTATATGCTAAAGGCTAAGAATCTCCGAAGAAATACAGTGACTCTTTTCTTCTAAATATGA
CTTTTCCAGTATACAGTTACCTTGTTTACCATGACTTCCTTTATGCTAAAAATATATTTTTGAATCTTTTCCAATGTGATATAGTTTGACTGTGCCCCGA
CCCAAATATCAACTTGAATTTTATCTCCCAGAATTCCCACGTGTTGTGGTAGGGACCCAGTGAGAGGTAACCCAGTGGGAGGACCCAGTGGGAGGAATCA
TGGGAGCCAGTCTTTCCCATGCTATTCCCATGATAGTGAATAAGTCTCATGAAATCTGATGGGTTTATCAGGGGTTCCCACCTTTCCTTCTTCCTCATTT
TCTCTTGCCACCGCCATGTAAGAAGTGCCTTTCAACAAACCTGCATGTTCTACACATGTATCCCAGAACTTAAATTAAGAAAAAAAAAAAAAAGAAGTGC
CTTTCAACTCCCACAATGTTTCTGAGGCCTCCCCAGCCATGTGGAACTGTAAGTCCAATTAAACCTCTTTTTCTTCCCAGTCTCTGGTATGTCTTTATCA
GCAGTGTGAAAATGGACTATGCATCTCTTACTTTATTATTATTCCCTTGGTTTTCAAAAATACGTACTTAACTGGCTTTTCAAATGTATCTAAGTTTGCT
TGTGAGTATAAAAGTTTCCTTCCCCCGTGGATCCCAGGTATAAAAAATAACTTGTTAATTGAAGAGTTAAGAACTGAGGTGGATATATACAATGGAATAC
TGCCTGGAAATAAAAAGGAATGAATGCATTATAGAGTAGCCAAAATGATAGAGACAGAAAGCTGAATGGTAGGCGCCAGGGGCTGGGGGAAGGGGGTTAC
AGTGAGTCAGTGTTTAATGGGTACAGAGTTATAGGAATGCAAGATAAAATGAGTTCTGGAGATGGATGGTGGTGGTGGGTGCATAACAATATAAATGTAC
TAAATACCCCTGGGCTGTATACTTAAAAATGTCTAGGATGATAAATTTTATGTTATGTATATTTTACCACAATAAAGAAAATGAATATTTTTAGAAAAGG
GAATGAAGTACTGATACATGCTACAACACGGATGAGCCTTGAAAACATTACAGTAACTGCAAGAAACCAGACACCAAAGGCCACATATTGTATGATTCCA
TTTATATGAAATGTTCAGAATAGGCAAATCTATACACAGAAAGTAGATTAGTGGTTACCTAGGGCTGGGGAGTGCTGGGGCAGAACAGGAGGTGGCTGTT
AATGGGCACAGGGTTTCTTTTGGGGTGATGAAAATGTTCTAAAATTGACTTTGATGATGGTTGCACAACTCTGGGAATATCCTAAAAGCCACCGAATTGT
GCATGCTAAATGGGTGAATCATATTGCATAACTGTATCTTTTTTTTTTTTTTTGAGACAGAATCTCACTCTGTCACCCAGCTTGGAGTGCAGTGGCACGA
TCTCGGCTCACTACAACCTCCACCTTCCAGACTCAAGGGATTCTCCCGCCTCAGCCTCCTGAGTAGCTGGGACCACTGGCGCCCGCCACCACATCCGGCT
AATTTTTGTATTTTTAGCAGAGACAGGGTTTCACCATGTGGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATACACCTGCCTTGGCCTCCCAAAGT
GCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCCCAAGAACTATATCTTAATAATTCTGTTATTAGAAAAAAACAAAAACAAAAAACTTGCCAGGTAT
GATGGCTCAGGAGCACAGTCCCAGCTACTGAAGGGCTGAGGCAGGAGGATGGCTTGGGACCAGGAATTCAAGACCAATCTGGTCAACACAGCAAAACCCT
GTCTCTAAAAAAATATATATATTTTTAATTAGCCAGGCATGGTGGCATGCACCTGTGGTCCTTGCTACTAGGAAGCTAAGGCAGGAGGATGGCTTGAGCC
CAGGAGTTTGAGGCTACATGAGCAATGACCCTGCCACTACACTCCAGCCTGGATGACAGAGTAAGACCTGTCTCTAAAAAATAAAATAAACTGAAGTGGA
ACAGTCACCCAGCTTCTGACTAGTGAATGATCCTCCCCCTTCTTCCTTAGTGCCATTTTTAACAAGTGGCAAAGGTCCTATTTTAAAATATGCCAAGTGT
GTTGTCTTATTTCAACAACATTCCATCTCAACTGTCCCCATGTGGTCTTAGTTAAGTTACTTAACTGTGATAATCATCAATTCTCTTCATCTATCACCCA
CTTCTTCCTCTATAAAAAGAGAACAACAGGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACTTGAGGCC
AGGAGTTCAAGACCAGCCTAGCCAACATGCAAAACTCTGACTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCACGCACCTGTAATCCCAGCTAT
TCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTTACAGTGAGCAGAGATTGAACCCAGGAGGTTACAGTGAGCTGAGATTGCACAAGTGCAC
TCCAGCCTGGGTGACAGAGCGAGAGACCCTATCTCAAAAAAAAAAAAAAAAAAGGGGCAAAAAGCATTCTTAGGAAAAATAAATGAGCTACAAAAAGCCT
CTAGAATAAAAATCATAGGTGCTCATTCAGTGTTTGTAGACCTAAAAAATGGGTCTATGCAGAATAATCAAGCAATGAAAGGTAGGCTGCCCCAGAATTG
TAACATTAACCGTGGCAAATTCTCTCAAGTCACGCCTCCTTGCATGACCCCTCCAGAAAGGTGAAGTTTTAGATTTACTTTTCTCCTTAGCCACACATCT
CCATTCCTGTAGTTATTTCATACTAACACTTTCATGTTGACCCTAAAATTCAAATTTTACCTTTTATGGAAGGATTAATATTTTACATATATCTCCATTG
GACAGATACCTCTATCTGAATTGGAACTTTTTTTTTTTCTCATTCTCTTTACCTAATTTCCTGAGGATAATGAATAAAGATGGATTTCCTGTCTTCCCTT
ATCACAAATTCTCTGGTACCATAAAACTAGAGAAAAATCTGCTCAACTGTCTATATGCAACACCACCTCTAGAAATCCAGGAACTCAGGCACTCAGGCAG
GCTGGGTTTTTATTTATTTTTGTGCTGTTTTTTGTTTGTTTTTTGTTTTGAGACAGAGTCTCGCTTTGTTGCCCAGGGTGGAGTGCAGTGGCACAATCTT
GGCTCACTGCAACCTCCGCCTCCTGGGCTCAAGTGATTCTCCTGCCTCAACCTCCCAAGTAGCTGGGATTACAGGCAACTACCAGCACGCCCAACTAATT
TTTGTATTTTTAGTGGAGATGGGATTTCACCATGTTGGCCAGGCTGGTCTTAAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTG
AGATTACAGGTGTGAGCCCCTGCGCCCAGCCTAGGCATGCTGTTTTTATTCAATGCCTTTTACATACACAAAGAGCAGCTCTAAGCAAAAAAAAGCGGGG
AGAGTAGATCTGCAGGTCCTGATACTGAAAATTGTTCAAAATTTTCTAAATTCTATTAATAGTAGAAAAAGATAGTAGCAAATTAGTATAGAATATAATA
TAATCTGTAAAATATATTTAAACTAATTTTTGAGCTTATGACTATGCACATATACACATGTACAAATTTTTAAAATCTGGAAGTATATACAGAACACCAA
TAGCAGTGGGCCTCACTCAAAGGGAGGGATTATGGGGTCTATCACTGCCTACCTTCCACATTTCTGTACTGTTTGAAATTTCTGTAGCAAGAATGTTTTA
ATTTTATAACCAGGACAAAAATAGCTAGAAGGAATAAAGGAGAAAGTTGGGAGAACTACAGCTAAATTGCAGAATTGTAGCTCTACCATCCCCTTAACCT
CCTATACACATCACCATCACCTATAGGGGGCCACTCTGCTCAGGAACAAAAGGGACCTTTCTCCACAAAGAAAAAAGACACAATTCTAATACGCTCTTCT
GCCCTCTGGAGAATTCCAGAATACCAGAGCCATGACTGAGGAGAAAAAAGAATCCCCCACAACTCACCAGAGTTGCCAGACATTCCCAGATCACTTCCTC
CTTCCTTTTGTTGGACTTTCTTTACTTTCTTTTTAACAGGCCCATCATTTTCCAATGGTCTCTTCTTTCTTCTGTCAATTTCTGTAGCCTATATCGGGAA
GGTTAGAAAATGATGTGTTATCTCTACTCTGAGAAGGCCTGACGTATGTGAAGCAATTTAAACCTTACAACTGAATGACAAGGTTCCTTGCCATCCACTC
TTCAAAGAATCCTCTACTTTTAGCTCTGGAAAACCCTATGGGTGAACTGTTTTTAACACCATAAAAGACAAGGTAGAGTCTGATAGTCAGGAGCCTCAGC
AACTCAAGCCGTGTTTAGAATTAATTGAAACCAAGGCTGCTACCGGTCTTGATTCAATGAGCCTTCAGCTTTCTCTAATTATAAAACTTGAATCACCCTA
CTTACATATGCTAAATAAAATACCTCTAAGAAATAAACAGTTATGTAGCAAAGGCACAGAGGGGAAAAGATAGGTAATAAAAGAACAGTATCATTTTTGA
CATGTTCATTGCAATTTAAGTGTTTCCTGTTTAAAAGGTTTATGTTCATCACTAAAGATGTGACAAGATTATGAATTTTTTCTTGGCAGAAAACTTGCCA
AAAGCATACATAAGTCCTTCACCAGCTACCCTTTAAATGGTGGGTGCAAAATTTTGGTGAATTCATGAAAACGTAGCTCGTCCTCAAAAAAAACAGAAGA
GGAGTAATCATTTTAAGGGAGAAATATATACGAAAGGAACAAGATTTTGAAGCACCCAAGCTGCCACCTACATTAAAACACGGTAGGTGGCTAAACACCA
GTCTTCAATGCCCTTCCACAGCCTCAATCTGAAAAATACTGTGCAGGTGACCCAAGTGAGGGGTCACCCTTGGGCTTTTCCTGTGGCAGTATCTCTGGTT
TAAAAACAAACAAACGTACTTATTGCGTTGAAGGATGGCAACAGGAAGGACTCCATGATTAGTCACATCTATACCATCCTAAGAAACTTTATCCACCCAA
ACTGTATTTCAGACTTTATAATCTAAACTACAAAAAGAGTTCACTGGGGAACTGCACAATATGACTGCTTTTAACCGTAGTGATTTCAAATATTGAGCCA
TGCTGTTGCAGTCTTAAAAACTGGAGACCTAAGGGCAGCTTTCTTCTAGTCACCCAATCCAGCACTTTTTTAAAAAATCAGTAAAACTCTTCGACCACCA
AGGAAAAAAAAAAAGGATGGAGGTTAAAAGACGCACCCCTTGCCCACAAGCCCCCTCATCAGAATGGGAGTCAGGAGACCTGAGTTCCTGTCTCAGGCCT
GCCATTAAAAACCTGCATAACCTTTGCCTATCTCCTCAAACGGAAGTACTAAAACCTCAGCGCTTCACCCAATTTGTAGCCCCGGCTGGGCTCTTCCCAC
CTTCCCCTTCTTCAGCCCGCCCCTTCCTCCTCCAGCCCTATCATCGGGCGGAGGGTCCACGCCTCCGCCCGCCTTACCCACAAGCCCCGCCCCCCCAGCC
CCGATGGCCCTGCCCAGTCCCAGACAGAACCTACTAYGTGCGGCGGCAGCTGGGGCGGGAAGGCGGSCGCTGSGGSCGCTGCRGCCGCTGCAGCGCCAGG
GTCCACCTGGTCGGCTGCACCTGTGGAGGAGGAGGTGGATTTCAGGCTTCCCGTAGACTGGAAGAATCGGCTCAAAACCGCTTGCCTCGCAGGGGCTGAG
CTGGAGGCAGCGAGGCCGCCCGACGCAGGCTTCCGGCGAGACATGGCAGGGCAAGGATGGCAGCCCGGCGGCAGGGCCYGGCGAGGAGCGCGARCCCGCG
GCCGCAGTTCCCAGGCGTCTGCGGGCGCGAGCACGCCGCGACCCTGCGTGCGCCGGGGCGGGGGGGCGGGGCCTCGCCTGCACAAATRGGGACGAGGGGG
CGGGGCGGCCACAATTTCGCGCCAAACTTGACCGCGCGTTCTGCTGTAACGAGCGGGCTCGGAGGTCCTCCCGCTGCTGTCATGGTTGGTTCGCTAAACT
GCATCGTCGCTGTGTCCCAGAACATGGGCATCGGCAAGAACGGGGACCTGCCCTGGCCACCGCTCAGGTATCTGCCGGGCCGGGGCGATGGGACCCAAAC
GGGCGCAGGCTGCCCACGGTCGGGGTACCTGGGCGGGACGCGCCAGGCCGACTCCCGGCGAGAGGATGGGGCCAGACTTGCGGTCTGCGCTGGCAGGAAG
GGTGGGCCCGACTGGATTCCCCTTTTCTGCTGCGCGGGAGGCCCAGTTGCTGATTTCTGCCCGGATTCTGCTGCCCGGTGAGGTCTTTGCCCTGCGGCGC
CCTCGCCCAGGGCAAAGTCCCAGCCCTGGAGAAAACACCTCACCCCTACCCACAGCGCTCCGTTTGTCAGGTGCCTTAGAGCTCGAGCCCAAGGGATAAT
GTTTCGAGTAACGCTGTTTCTCTAACTTGTAGGAATGAATTCAGATATTTCCAGAGAATGACCACAACCTCTTCAGTAGAAGGTAATGTGGGATTAAGTA
GGGTCTTGCTTGATGAAGTTTACCAGTGCAAATGTTAGTTAAATGGAAAGTTTTCCGTGTTAATCTGGGACCTTTTCTCTTATTATGGATCTGTATGATC
TGTATGCAGTTCCCAAGGTTCATTTACCATTATTAAAAAATTTTTGTCTTAGAAATTTTATGTATGTCAACGCACGAGCAAATTATCAGGCATGGGGCAG
AATTGGCARCTGGGTGGAGGCTTCGGTGGAGGTKAGCACTCCGAAAGGAAAACAGAGTAGGCCTTTGGAACAGCTGCTGGAAGAGATAAGGCCTGAACAA
GGGCAGTGGAGAAGAGAGGGTAAAAATTTTTTAAGGTTACATGACCCTGGATTTTGGAGATCTSGAATTTAAAGGTSATGCACCAGGGATGAACGCTCAG
ATTTTCAGTTTGAAAGCTGGCGTGACATGTAAAGGAGTGGAGAATAATGTACCATTGTAATGATGAGGCGCCTCTAGGACATCTAGGATAATTTCAGGCG
TGGGGATCTAGGTGAATTGAACTGTTGGAGGGAAGGGAATAACCAAGGAAAAGAATGTGGGGGTTGAGAGATGCCCCGTTTAAAACCTAAGAGACCTGGA
TATTTATGGTTGTAAGAGGAGGCATGGCAGAGGAAATGGAAACAGTAAGAAAGGAGCAGATGCTGCATCTCTTTAATGGGACAGATACAAGGCATTTGGG
TTTGACACTTAGGTCACTGGTAGAGATGATGACAAGAGCCCGTAGCTAAAGAATTGATAAAAGCCAGTCTCAAAAATCCCAATATAGTCTGGTAATGTTA
ATGTTTCTTTGGTTCAGATAGCTGACTCTCAAAGTTATTTTCCTAAGAAACTGAACCAAAAGTGGACGCTATATGTAAAAAGTTTTTATAGAAGTGTTAT
AAGAGTAGGATAGAGACATAATTAAACATGTTTTAAGGTAATTGAGTGGAACATTAAGCACCTATTTTTAAAAGTATGATTTAATATCAATCTACAAAGT
ACACAAATATAATACAATTGTATCAGACAGTTGTGACAGCACTGATTAGAGGCTGAACATTATTCTAAGTCTTTAATTCCCACAACAACCCTAGAAGCAG
GAACTATTGTTATCTCTATTTTATAGATAAAGTAAACCACAAGGGGTTAACACGWTTTGTCTTGTGGRTGACAAAATGCATTCAACTTGAGCACTTTGAC
TCAGAATCTTTTTTTTTTTTTTTTTTTAAGAGGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCCGCTCACTGCAAGCTCCGCCTC
CCGGGTTCACACCATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGACGCCTGCCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGAYG
GGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCATCTTGGCCTCCCCAGAATCTTTACTATGTCATACACAATTGCAA
ATGATTAAAACTAAATATTGGATATAAATTGGATAATGCCAAAGGGAAAAATAGTTAGATTTAGGTAATGAGTGATAAGTATGAATTTTGGTAAGACTTT
TAAGTTCAGTTTTTTAAAGGAGATCTCTGCCAAACCCCAAAAACAAAGAGCCCTAACATCAGCCTAACCAGATTTCAAATTTCATCTTTTGGCGGTATGC
ATTTTTAACAGTCACCCCTCAACTAACACATCATCCTCCCTCAACTCMCATTCTACTAACCCCATCAATGCAACTCCCTGCCCACCTTACTCAACATATA
CACCRCTGCTAGCCCCATACCCCGAACCAACCAAACCCCAAAGACACCCCATATGGTTTATGTAGCTTACTTCCTCAANNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNCCCTAACCGTGCAAAGGTAGCATAATCACTTGTTCCTTAAATAGGGACTGTATGAATGGCTCCACGAGGGTTCCCCT
GTCTCTTACTTTCAACCAGTGAAATTGACCTGCCCGTGAAGAGACTTTTAAGTTCAGTTTTTTAAAGGAGATCCACTAAATGTCAGGATGTCCATCATAT
CTATGCACATAGATAAGTCCTCAATGTCATCTGTGAGTTCTTGGAAACTGTGACTTTAAGTGAAACAATGTAKAGCAAAACCAATTTTACCATAGGCTAC
TGGATGTACACAAGAGTTAAGTTCCTAGGGCATATTGCTGGTCACAAAAACATCACCAAACTTCTAAATGAAGGCCAAAAACACTTCTAATAGAAAACAC
TGAAGTAAATATGAGCTATACATACATTTAAGAAGAATAATGTGCATGTCTTTGGGATGTGGAAGGAAACTGGAATACCTGGAGAAACCCCATGCAGACA
TGGGAAAAGCATGCAGACTCCACACAGACGGTGGCCCTGGCCAGGAATTGATTATTTTTCTCATCAACGTTAGAAGAAAACGATGTTATTCAAGGACATG
TTGTATATAAATACATGAAAATATATGTATATTCCCAAAATATACTTAGGCTTTCTTTGTGATTTTATAGGTAAACAGAATCTGGTGATTATGGGTAAGA
AGACCTGGTTCTCCATTCCTGAGAAGAATCGACCTTTAAAGGGTAGAATTAATTTAGTTCTCAGCAGAGAACTCAAGTAAGTACCTTAACATAAATTCAC
CACAAGAAAATCATGTCTCATAGTGGAGATCAGTATATGATAARATGAAATTGTATAAAAGGAGCTATTGATGAAGCTGCTTAATATCACAAAGGTGATT
ATAGAAAATTAATAAGCAGTTATTTATACTACATGACAATAACTTATTCTACTACCTGAGTAATTGATTTCATCACCTTGAAAAGTTACATTAAACATTA
AATAGCTCACTGTGGTATCAGATTTGCAAGTTATCTTGAACCATCATTCAGTAGGCCCAAATATAAATTATACAGTGTAATCAATAACCTGTAGTTTCAC
ATAAAGTCAAAACAACTATTTTTTGGGACTTGCTAAAATTAAGTGATGATCCCCTTTCTGGACCCAACCCTAAATGCAATMAAATGTGAATTTTAGGATG
GGCTGAAATGGGTCATAATCTTCTACTCTGTTATTCCTAGTTAACCACAAYACCCAATAATATTTTGTACTTAACATTCATTACCCAGTGTCTGAAGGTA
AAACATTTCAAAGTATTGAAATGGTTCTAGAGATCCTGGAGAGAAGCGGGTATCTCCAGTTAGCCTCTGCTAAGAATTTTCCTGTCCTCCAACCCAGGGT
TGGAGTCAGTAGTTCATGAAGCCTGGATATGCCCTGGTGACTGGAGAGTGGGAGGGGTAATCATATTAAGACTGCCCAGGAAGTCAACTCCAATGGCTTG
GGAGGTTGAGGGGTGGCCAGAATTGGACCTGTGTTAATCCATTCTCATGTTSYTATAAAGAACTGCCCAAGACTGGGCAATTTGTACAGGAAAGAGGTTT
AATTGACTCACAGTTCCTCATGGCTGGGGAGGCCACAGGAAATTTAAAATCATGGTGGAAGGGGAAGCAAACGCATCCTTCTTCACATGGTGGCAGGAAG
GAGAAGTGCCGAGCAAAGGGGGAAAGGCCCCTTATAAAACCATCAGATCTCATGAGAACTTAACTATCACGAGAACATCATGGGGGGAACCACCCCCCAT
AATTCATTTATCTCCACCTGGTATCACCCTTGACATGTGGGGATTATTACAATTCAAGGTGAGATTTTGGCGGAGACACRGCCAAACCATATCAGGATCT
AAGGGGAAGGTCTGGGATCTGGCATGTTAATCATTCTTAGTCTAATAATATAATCACCAAAAAGAATGCAGTATCCTAGGGCACTACTTTCTTGGGAACA
GTAGTCATAGTATTCTTTTCCCATGTGTATTGGTGAAGATTCAACCAAAGAAGCAGAACCAGTAGTAGATAGATACAGGTATATTAAAGAGTTTTATTGC
GAGGAATTGGCTTACACAATTATGGGGGCTGGGTACGTGAGTCCAAAAATCTGTAAAACGGGCCATCAGAAAGGACAAGCTGGAATTCTCCAGCAGGGGC
TGAAGTGSTACAGGTGAAATTTCTTCAGGAAAGCCTCAACTCTACTCTTAAAGCCTTTAAACTGATTGAWTCAGCCCACTCAGATTAAAGTCTGACCGGG
CACAGTGGCTAACCCCTGCAATCCCAGCACTTTGGAAGGCCAAGGCAGGTGGATCACTTGAGCTCAGGAGTTTGAGACCAACCGTGCAACATAATGAAAC
CCCGTCTCTACAAACAAATTAGCCAGGCGTGGTGGCATGTACCTGTAGTTTCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATAGTACCACTGCGCTCCAG
CCTAGGCAACAGAGTGAGATCCTGTCTCAAAAAAATTTAAAAAAAAAACTGAATTGTAATCACATCTACAAAATGCCTTCAAAGCAACACCTAGATACAG
TATCTGAATAACCAAGGACTATATCCTAGTCAAGTTTAACACTATGGGAAGGAAAGAACTACACAGCTATATAGGCTAAGGGGATTCAGGCTTACATAGA
TTTTCTCCCAAGTTCTTCCTAGAATGGCATAGGTAAAAACCGAGAAGAAAGTGTATAGAATATTTGCATTGATTGCCTCTGGGCGACGGGGCAGATTTGT
TGATGTGCATCTTGCTGCCTGCTTCCATCTTCATGCTGTTCTTTCTTCTGGTTGCTAGGATGCTCTGATTATCTCTTTCCTTGGTAGATTTCAAATTCAC
AGACTATATCGCCATTCCAAGAAACTCTTTAATGATATTTTTGARTACTACTCAAGTTTGTTTATGGCTAGCTTAAGCTCAMACAGAAAGAAATCTCAGT
GGGGGAGATGTTCACTTGAGCCAGCATTTCTCCTCGAATATGATGAGTGTAATTTTTTTTTACGACCTTCCTGTGATGCATGTAATTGGGTTTGGTTGCT
TCTTCTGTATTTATATATAACATATGTTGGTGTCTTGTGCTTTTTTTTTTTAAGGCTGAGAAAATTTAAAGTCTTTGTTATCAAGCATGCCAGGGAAATA
GTGATACCAGTTAGTAAAAAATGTTAGAGCTCTTTTTTGTTGTTGTTCTTCCTTCCACTTCCTTACTTGTTGGTCAGTCCCACACATATAGTGAACAGCT
GCTGAGTGCCAGGCACTGCAGGGTCCTGAATAAGAGGGCAGAGATTTATACATGGAAATCACTTGCTTATGCCAACTCTAAAGATACTTCATTTTTCACC
CCTCTCCCCCAATGTAAGAAGAAACTGAATCCTCAAAGTGATCACAAAATTTTCTACCAAACACTATAGTAATTTAGGGTAAATATTTCTTAAGTAAGGT
ATTGAGGGAAAATGCTTTTCCAAAGTTGTCTAGACAGTCAAGTTGTGGCTTTAAAAGAACTTGAGGTGAGAAGGGTGGGAATGGCCACTGATGAGTACAG
AATGTTTTCTTTTTTGGTGTGATGGAAMTGTTCTAAAAGTAGATAGGAGTGATGCTTGCTCGACTCTGTGAATCTACTAAACGTCACTGAACTATACACT
TTAAAAGGGTRAATGTTATGGTGTGTGATTTATATCAATAAAGTGGCTTTTAAAAGTCTTTGGAACCAGCCGGGCACAGWGGCTCACRYCTGTAATCCCA
GCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGTGTTCGAGACCAGCCTGGCCAACATAGCAAAACCCCGTCTCTACTGAAAATACAAAAATT
AGCCAGGCGTGGTGGCAAGCACCTGTAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAAGCTCTTGAACCAGGAGGCAGAAGTTGCAGTGAGCCAAGAC
TATACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAACCTCGTTGGAACCAAAAATTAAATAAACAAGTTTTACT
GTAATGCTATAGTAGCCTGGACACCATCTTTAGAAAATCCAAAATKGCCTCCATTATGTAAGATTTAAATAGTCTCCCATCCACGAAAGTTAACTTAATT
TCATGTTATAATTTTTTACGATCTCACTATCAGAATCTCCACAGTGATTAAAACTTCTTGAAGGTGCAGTTCTCTCTCCCCCTACCACTCACACACTTGG
AGTAGCAAACACTGACCTGGTTTCTGATGTCTACTATGGCACCTAATAACTTTGTGACTTTAGGCAGGTTACAAGTAAGCCTTGTTGAACCTCTTTCCTT
ACCTATTAAATGAGATGAATAATGACAACTTTTTTGGGTGATTTTGAAGACTCACTGAAATTTTGTATGTAAAGTTTCTGGCACACAGAAGGGTATAGAT
ATCAGTTCCTACCCCCACCCCCATAAACTTGCTACTTTATATCTTATAGAACATACACATTAATATTAATATTAATGAAATCACAGTGAACAGACTCATG
ATCTCATTTTCACCTTAACATATTACTTTGTTCTTGTTTCCCTCCATCTTGAGACAAAAATCCACTGCCACCTAAATCAACTCTCTCATCTCCCCTGACT
TGATTCTGGATTCCTTTTTTTCTATCTTCACCTTGCTCTGCTGTCCCAACCTTTTAGTATTATCAAAGGCAAAATAAAAATTTTGCGATGAATTCTCTAA
ATTTAACATTGTGTTTGGGAAGAAAAAATTGCAGTTTAGGGCATACATGCAGACAAGTGACCTTCCATATGTCTGAAGAACAAAGGGAAGGTTAGAGGTT
TTATTTAAAAGGAGAAATGTTACTGCTCTTTGAGAAAGTTCATTGGCACTACTAAGGTTTGGGGGAGCTAGCAAGCTCCGACTGGCGAGCAGTGAGTGGT
GGGCAAAATCAGTTCTAGAGTTGCAGCAAGTTATCTCAGAAGCTATAGATAAAACTGGTTTCAGGTTACAACAAGCAGTTCCAGCAGTCAGGCTTACAGA
GAATTACATTCTTGGAGCAATGTTTTATACCCTGAGTGCTTTTTTCCCCTGGCCCCTCAACTCTGATTTAGTTGGGTATGACAAGAATGACCCACTGTCA
CCCAGGCCAGAGGGCAGTGGTGTGATCGCGGCTCACTGCAGCCTCCACCTCCCTGGCTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATAA
CAGGCATGTGCCACCATGCCCAGCTAATTTTTGTGTTTTTTAGTAGAAATGGGGTTTCTCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTG
ATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGTTYGGCCTACCCTGTTTTAAACCTCACCATAGTTTACTTTTCTTCT
ACCCTCAACTTTCTCAGAGCTTTCTTGTATTAAATAACTTTAGTATGATTAAAATAAAATTCTATACTACACTTTGGTTGTAGTCTGTCATGCCTGTGCC
TTTGCACATGTTTTTATCTCCTTTGACACTCAGTTAAGGAGTCATGCCCTGAGGAGTATTCTCCCTCATCACCCCRGCCCTGCGTTCCTGTATAGCGTCC
TCTGCATGTCTTCGTTGTATGTCCTTTCATACATTATAGTCACTGCTGAGATATTTCTGACTGCTATCACAATCTCTTTGAGTTCAGGGACTGCATATTT
TATCTCTATCCCCAGAATCTAGCATAACCCCTAGCAAAGTAGGRATTCAAAAATCACAGAATGAATAGTACATAGGTGATTTATAAAAATAGAACCATCC
CACATAGTACCACTTTGTAACCCACCTCTTTTTCCCTCAATATATTAGAAAATAAAGTCCTGTAAATATTTTTAGTGGCTGCATAGTATTCCATTATGAG
GCTGGATCATACCCAATTTTTAATATGAGCATACCTCAGAGACACTGCAGGTTCAGTTCCAGACCACTGCAATAAATAAAGCATATCACAATATAGGTAG
TCACATAAATTTTTTCTCAGTGCATATAAAAGTYATATTTACACTATACTGATAGTCTAATAGATGTGCAATAGTATATCTTTAAAAAATGTATGTACCT
TAGTTAAAATATGACTGGAAAATGCTAACAATCATCCGAGCCTTCAGTGGGTCATAATCTTCTCACTATGGAGTGTCTTGCCTTGATATTGATGGTTGCT
GACTGATAAAGGTGATGATTGCTGAAGGCTGGGGTGGCTGTGGCAATTTCTTAAAACAAGAATGAAGTTTGCCACATTGATAGACTCTTCCTTTGAAGAA
AGATTTTTCTGGAGCATGTGATGCTATTTTATAGGATTTTACCCACAACAGAATTTCTTTCAAAATGGGAATCAGTCCTCTCAAACCTTGCTGTTGCTTT
ATTAACTTAGTTTGCRTAGTATTCTAAATCTTTCGTGRTCAACAATGTTCACAGCATCTTCACTGGGAGTAGATTTCATCTCAAGAAGCCAGTTTCTTTG
CTCATCCATAAGAAGTAATTCCTTATCCATTGACATTTTATCATGAGATTCCAGCAATTCCATCCCATCTTCAGGCCCCACTTTTTTTTTTTTTTTTTTT
GAGACGGAGTCTTGCCTGTGGCCCAGGCTSGAGTGCAGTGGCCCGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCGTTCTCCTGCCTCAG
CCTCCCTAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCTGCTAGTTTTCTGTATTTTTTAGTAGAGACAGGGTCTCACTGTGTTAGCCAGGATGGTC
TCCATCTCCTGACCTCGTGATCCGTCCACCTTGKCCTCCCAAAGTGCTGGGATTACAGGCATTAGCCACCACACCCAGCCCAGGTTCCACTTCTAATTCT
AGTTCTCTTGCCATTTCCACCACATCTGCAGTTATTTCCACCCCCRAAGTCTTAAACCCCTCAAAGCCATCATGAGGGTTGGAATCAACTAACTCCAAAC
TCCTGTTAATGTTGATATTTTGATCTCCTATGAATCATGAATGTTGTTAATGCCATCTAGAATAGTGAATCCTTTTTAGAAGGTTTTCCATTGACTTTGC
CCAGATCCATCAGAGGCTATTGCAGCTACGGCCTTACAAAATGTATTTCTTAAATAGTAAGACTTGAAAGTCAAAATTACTCCTTGATCCATGGGCTGCA
GAATGAGCAGGAATATTTTGAAAGGAATCTTCCTTCCTGAGAAGTAGGTCTCAACAGGAGGCTTTAAATATYTAGTGAACCATGCTATAAACAGACGTGC
TGTCATCCAAACTTCGTTRTTCCATTTCTAATACACAGGCAGAGTATATTTAGCGTAAYTCTTAAAGGCCCTGGGATTTTCAGAATGGTAAATGAGCATT
GGCTTCCACTGAAAGTCATCAGCTTGCATTAGCTCCTAACAAGAGAATCAGCCTGTTCTTTGAAACTTTGAAACTAGGCATTGACTTCTCCTTTATAGCT
ATGAAGTCCTAGATGGCATCTTCCTTGAATAGCAGGCTATTTTGTCTCCAYTGAAAATCTGTTCTTAGTGTAGCCACCTTCATCAATGATCTTAGCCAGA
TCTTCTGGATAAACTTGCTGCAGCTTCTACATTAGCACTTGCTGCTTCACCTTGCACTTTTTTCTTATGGAGACAGCTTTTTCCTTAAACGTCATGAACC
AAACCCTTGCTAGTTTCAAACTTTTCTTCTATAGCTTTCTCACCTCTCTCAGCCTTTACAGAATTAAAGAGGGTTAAAGCCTTGTTCTAGATTGGGCTTT
GGCATRAGGTACTGTGGCTGGTTTGATCTATCCAGACCACTCAGCTTCCTCTACATCAGCAATAAGGCTGTTTGCTTTTYTGTTTTTGTTTTTGTTTGAG
ACGGAGTCTCGCTCTTTCGCCCAGGCTGGAGAGTGCAGTGGCGTGATCTCAGCTCACTGCAAGCTCCACCTCCTGGGTTCACGCCATTTTCCTGCCTCAG
CCCCCCAAGTAGCTGGGACTACAGGCACCTGCCACCATGCCTAGCCAGGCATACACTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCA
GGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACRGGCGTGACCCACYGCGCCTGGCCAAGCTGTTTGCT
TTCTTACCATTCACATTTTCACTGGAATAGCACTTCCAATTTCCTTCAAGAGCTTTTCTTTTGTATTTACAACTTGGCTGTTAGATGCAAGAGGCATGGC
TTTTGGCCTGTCTTGGCTTTGATGTGCCTCCTTCACTAAGCATAATCATTTCTAGCTTTTGATTTTACATGAGAAATATGCGACTCTTCCTTTCACTTGT
ACGCTTAGAGGCCATTGTAGGGTTATTAATTGGCCTCATTTCAATATTGTTGTGTCTCAGGGAATTGGGAGGCCAGAAGAGGGGGAGAGAAACAGGAATA
GCCAGTTAGTGGAGCTGTCAGAACACATAACATGTATCGATTCACCATCTTAAAAGGGCATGATTTATGGCACCCCATAACAGTTACTTGCAACAGTAAC
AGCAAGATCCCCAAAACGTATTTTAATAATGAAAAAGCCTGAAATATTGTGGAAATTACCAAAAGGTAACAGAGATAGAAAGTGAACACATGCTGTTGGA
AAAACTTCACCARTAGACCTGCTCAGTGCAGGGTTGGCACAAACCTTCAATTTGTAAAAAAGAAAAACACCTTTATATCTGTGAAGCACAGTAAAATGAG
GTATGGCTTAGTAGGGAACCCCATTTTTAAAGGCTCAGTATGAAGGGTCTTAAATTGARGATGTATTTTTGCRTTCTGGTTAAGACACTATTCCATTTCA
GGGTTTTTTGTTTTTAAGTGGTTTCCCAACACTCCTCAGGGAAATTGAGCAAGAATTCCATCGGCAGTCCTCACATCAGGAACAGTGAAAAAGGATAATG
TTTATATGGCACCCGAGATAATCAGATAAGGCCAGAAGACAAGAGTCAGAGGGTTCTGCCTAATCTAAGCCCCACCATCCTGATGTTWAAGGGCCCCTGA
ATCGGAGGACCCTGCCACAGGCACCAACTGAAGTCTTTTGTCCATGTAACAAATTGCAGCTCAAGTTTCAAAGTCAAATCTGTTGGAGTTCAACTCGGAG
GTCCATCATTTCCCGGCTGTGTGACCAGTAGTTTCTTAACCATTCAGCCTCAGTTTCCTCATCTATAAAAAGGAATGATAGTACCACGTACAATTGCCAG
TTAAATGCAGTGTGTACATTATCTCATTTAGTCTTCATGCAAACCTTCAAGACTCAATCACAAAGAAATGTCCACACATTTCTTAACAAAGAATACATAT
GCTACTACATACCAACTCTCCTTTGTCAGGGAATCCAATCTAGATTGGTTTAAAATAATTATAGGAAAGRAATTCAGCAGTGAAATATGTGACTATATTG
GATGCTTGCTATTTGTCATTTACTGTATTTCTAGCGCTTGTGCCAYGTAAGGGCTGATGAACTCAAACMGTAGCTCAGCTTTTTGCATGYTCTTTTTTAC
CCACCTAGAGRTCCAGTGTTTCCTGTGATACTTACCTCTAAACTGCTAAATAGCCACATTTTACGGAAGCATATTCTTCATACCTTTGCTCTAACTTAAA
TCTCTAACTTTGCACTATATTTAATWTGGGTTTTTTGGGGGGAAGGGGGGAGTGGAGTTGGTTTTTTTTGAGACAGAGTCTCGCTGTCTCGCCCAGGCTG
GAGTGCAGTGGCACAATCTCAGCTCACTGCAAACTCTGTCTCCTGGATTCAAGCGATTCTCCTGTCTGAGCCTCCCAAGTACCTGAGATTACAGGCACGT
GCCACCACACCCAGCTAATTTTTCTATTTTTAATAGAGACGGGGTTTCACTTTGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCCCGTGATCCGCCCAT
CTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACRCCTGGCTAATCTGTTCTTCACTTTCTTTTCTATACTCACTACAAAAAAGGGCAAGG
AAGTCTTCACAGCTGCACTTACTAACACCGTCACGGCTCTGTTTTGGCCATCATCTGTTTATTAACTAAACTCTCTTCTCTCCCAACTCCAAATCTTTGT
TTCTTCTAGATTGAGTTCTCTCCCTGAAGAGCCTAATCCAACCTGGTCCCTGTAACTGCCCTGATACCTTAGGAGATACCTGGGCTTATTTAACTTCTCT
CTGGCCACCATGTCTTTTTCCAGCCTGAGTCAAAGTATATTCTTTGCTCTAACCTAATTCTTTTAAGAATGACMGAGTAAAATAAGTAAAATTTATATGA
GGAGGGAGAGGGAGGAGGCAATCAAGAGAATGAATAGTCCCTATTCTTGATTAATCCTTATTATAACTATGAGTTCAAGGGCAATTATATAATCTTGTTA
AAGCACCAGGCTAAAAACTTGACATGGAATTGTAATTTCTGTTGTGTATCTAATTACTATGAAAGCCTAGTTCTACCTGTTTCATCATTTATAAAGGGAA
TTGCAACCCCCACCACGACCAACAAAGTAGTTTCAGAGATTGGGAGRGACTAAGCTAGTCAATGTAAACCAAGCTTGTCCAGCCCATGGCCCGCAGGCCT
CAGTGTGGCCCAGGATGGCTTTGAATGCTGCCCAACACAAATTAGTAAATTTCCTTAAAACAYGCACAGATCTTTTTTTTTTTAAAGCTCATCARCTATT
GTTAATGTTTGTGTATTGTATGTGTGGCCCAAGACAATTCTTCTTCCAATGTGGCCAAGAGAAGCCAAARTATTGGACCACCCCTGAGTAAACACTGAAA
TTAATTAACTTCTTCCCTTTTGGATTTTAATTACATAAGTAATAATAAGCTCATTTTTTAATACTTCACCCATTCCTGTATTGTTTGAAACATAAATCCT
TTCCCCATTCCCAAAGGTAACAACATATTAACAGTCTGAATGTCATTCCARGCTTTTCTGCAGTCATTCAAACATATCACTCTTTTTCTAATATTAGGAA
AATCTTCACACATACAGAAAGAACTTTACAGTAAACTCACCACCTAGATCTACCATTAACATTTTACTCTACTAGTTTCATCACATTTCATCCATCAATT
GGTCTTGTTCATTTTTGCATTTCATAATAAACTGCAGACATTAGTATATTTCCACCTAAATACTTCATCATTCATACCATTAATGATTCAGTCTTGGCCG
GGTGCGGTGGCTCACGCCTGTAATCCCAGAACTCTGGGAGGCCAAGGCGGGCAGATCAGCAGGTTAGGAGATTGAGACCATCATGGCTAACACGGTGAAA
CCACGTCTCTTCTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCAGGCACCTGTAGTCCCAGCTACTCRGGAAGCTAAGGCAGGAGAATGGCATGAACC
TGGGAGGCGGAGCTTGCAGTGAGCTGAGATCGCGCCACTGTACTCCAGCCTGGGCTACAGAGCAAGACTCCGTCTCATTCATAAATAAATAAATAAATAA
AATGATTCAGTCTTTCTTTACAGTTTTTTTCTGAAGTAAATATTACATGAGACACAMGTCTTAAATGTACATTTGCTAAGTTTTGATAAATGTATACACC
TGTGTAACCCCAGCCCTATCAAAGATACAGAATATTACCTATCACCCCCAGAAAGTTCTCTCCTGCCCTGTCCAAGTTAATCTTTATCCCACCCCTCCAG
AAATAACTACTATTCTGATGTTTTTCCACCAGAGATATCACAAGATATCACATGGTTTTRTGATTCATTGTGAACCACAGATGTACAAATATAGGTTAAA
TTATTGGTCAGAGGCCATACTGATGTTAAGTGCTTTTTGTTGAAAGGATTCATRTTTATGATGATTTTAGTTCTATAGTCACTGCATCTTAGTCAGATTA
TTTGACTAGTATGGATGGATTTTACAAACATTTTGTGGAATTCTTTTTTTAACCTTAGGGAACCTCCACAAGGAGCTCATTTTCTTTCCAGAAGTCTAGA
TGATGCCTTAAAACTTACTGAACAACCAGAATTAGCAAATAAAGTAGACATGGTCTGGATAGTTGGTGGCAGTTCTGTTTATAAGGTAAGTGTAGTTGTT
GGTAAATAAAAACAAATGTTCTGTTCTACTTTCAGCTTCCTTGCCATTTAAAGGAAGTGGAAGAAACAGGTATAACTCATTGTCTGAACCTTTAAAAAAT
TAAGCCATGCRTATAGGAAGCAGCACATTATCTGTACTGTAAATTATTTGTTGTTAGTTGAAATTATTTGTTGTTTGATACTATACAAACTAAATAGAAA
TGCAAAAATAAATATTTTAGTCTGTATCAGCCTTTTTTATTTATTCATTTATTTTTGAGACAGGGTCTTGCTTTGTCACCCAGGCTAGTGTGCAGTGGCA
CTGTCTCACTGTAGCCTCGAGCTCCAAGGCCCAAGCAATCCTCCCACCTTTCCTCCCAAGTAGCTGGGATTATAGGCACACACCATCGTGCCCGGCTAAT
TTTTGTATATTTTGTAGAGTCAGGATTTTGCCATGTTGCCCAGGCCGGTCTYGAACTCCTGGGTTCAGGCAATTCACCTCCCAATGTGCTGGGATTACAG
GTGTGAACCACCACACCCAGCCTATTTATCTTTTTAATTGGCAAATAATTGCATATATATATATATTAWGTACAACAYGTTGTTTTGAAATGTGTATACA
TTGTAGAATGGCTAAATGGAGCTAATTAACATGTATTACCCACTTATTTTGTGTGGTAAGAACACTTAAAGTCTACTCTCTTAGCAATTTTCAAGAATAC
ATTTGTTATTAACTAAAATAATAGATGTTGTACAATAGATCTCTTGAACTTACTCCTCCTATGTAACTGAAATTTTGTATCCTGTGACCAACATCTCCCC
AATACCAATCTACTTTCAAATCAAAGAATAATTGATGTTTCCAATTTAAAATCCATTCTAAATCTTTTCCTGAGAATTGTACTTGCATTGCACTGGTTTC
TACTCCCTGAATGTACCCTAGATACACTGAGTTATGCCTTTGTCTTTCAGGATGAATATATCTCTTACTGAGAAAGGGTTGGGGCTCTCAGTTGATATAC
ACTAACTAGATGTATATGAATTTATTACAAGTAGAAAACTTCTTCAACCAATTTTTTTTTGTTTTGTTTTTGTTTTTTTGAGATGGAGTCTCACTCTGTC
AAGACTCAGTCGCCCAGGCTGGAGTGCAGTGACACGATCTTCGGCTCACTGCAAGCTCCACCTGCCAGATTGACGCCATTCTCCTGCCTCAGCCTCCTGA
GTAGCTGGGACTACAGGCGCATGCCACCACACCTGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCT
CCTGACCTGCTGATCCACGCACCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGACCCACTGCGCCCGGCCAATATACCTCTTTTTTAATACCAAATG
ACTTCCAGCTTTAAAATTTTTGAGGATAACAAATAGAATTCTTTGCCTTTTAAAACACCAATGAAAAATTAACATTTATGAGGAGGAAGAAAAATCTAGT
TTCTGCCATGTGGGTGGTCTTGTGGTAAGATATATACAGTGAAATTATTTTAGAAAGAAGAGGTAGGCCGARGCCTGTAATCCCAGCACTTTGGGAGGCC
RAGGCGGGTGGATTGCTTGAGGTCAGGATCTAAAAACCAGCTGGGCCAAGATGGTGAAACTCCATCTCTCCTAAAAATACAAAAATTAGTTGTGTGTGGG
CGCGGGCCCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAAAATCACTTGAACATGGGGGGCAGAGGTTGCAGTAAGCTGAGATCGTGCCACTGCA
CTCCAGCCTGGGTAACAGAGYGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAMCTCTCAGTTTCTTGGGCTCCTGTTTCTAGAACCTCTTATKTT
CCCCATTTGTAATAGAAGAAAAGGGACATTTTTTCTTGATATTTTTATCCAAGTATGAATTTCTTCTAAGAAAACAAGTTATTTATTTTGTTCAGTGCCT
ACCACACTTTGAATGATTCATTACCATAGTCACTTGAAAATGTATTCTTTAAGCAATATAAGTACGTAAATGCCTTTATATAATATGATAAATCTACATA
TAGATAAATAGGAAGTAGAACCTTCGAATGGTATTTTTACACCTGCCTCACATCACAACAGCTTGTAGATATCATTCAGGCTTATCTTCCTATGGGCCAA
ATCGGACCTCCCAGCCTGTTTTTGTAAAGAAAGTTTCAGTGGAACACAGMCCCACCCATTCATTCAGTTCTGTCTGTGGCCTGCAAAGGTAGGAAACCCT
ATGGCCCTCAGAGCCTAAAATATTTACCATCACTCCYTTTACAGAAGGTTTGCCTTGTATAATCAACTTTTTTTTTCTTTTTTTTTGAGACGGAGTTTCG
CTCTTTTTGCCCAGGCTGGAGYGCAATGGTGCAGTCTTGGCTCACCGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAG
CTGGGATTACAGGCATGCGCCACCACGCCCAGCTAATTTTGTATTTTAAGTAGAGAYGGAGTTTCTCCATGTTGGTCGGGCTGGTCTCAAACTCCTGACT
TCAGGTGRTCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGACGTAAGCCACTGCACCCGACTTATAATCAACTTTAATGCAGRACTTCACCACC
ACAGTCAATCTAATAATCCAGACAGCTCCTAAGTGACTAAGGGGCAGGTAACATAGACAGCATGTGCAGGACAAAGGGATAATTCACGCCCTAGGCAGGA
CAGAGCAGAAYGGCTCAAGATTTCTTCACACTACTTAGAACAGCATGTCATTTAAATCTTATGAATTATTTCTGGAATTTTCCAGTTAATATTTTCAGAC
CACAGTTGACCATAGATAACAAACTGGRAAGTGAAACTGCAGATAAGGGGGGAGTCTGCATTCCACTTTTTAAATTTTTGGTACAGTAAGAATTAGTAGA
GCATCTATTTGGTTGTAGCAAAGATAATAAATGATTTAATATAAAATGATATATTGAAAATAAAAAGTGAAATTTGTTCTGTACCCTTMKTTGGAATTTT
AAAAATAAACACTTGGATTTGTTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTCTTTTCTATAAACTATTTGAGATCAAGAATTACTGCTTTGTTAGA
ATTGCAATTAAGACATACTTTTTATGAATGAGAATTTTAATACACTCATTCTAGGGCAACTTTTTCTGTAGAAATTATCAACCATATTTTAGGCAGTAGT
TAGAAAAGTCATGTACAATATAAAGCCAAATGTTAATACAATTGTTAGCACCAAGAAGCAGAAAAATTAYCTATCTACTAGCATTGTAATTATCTTSTGA
GAATTGGAAGCATTACRAAATTTTATGTATATGTATTAAGTATGCTCTTGGGGTTTTCCATAGTCAAGGTCTCATTAAATTGTACTATCTTATTCATACA
AGTTTATGTAAATTTTTCTATGGAGAGCAACTAGATAATTTGGGGCTCTTAACTCTAAACAGCCAAAGGGAAAACAATAAAAGAGAATGCTTAAATTAAA
AAGTTCTTGTAAGCAAACTGGAGGCCAGACTATATTTAAACTCAGTCTCTCATAATTATTGATAATGGTTAGTGTCATTCTCAATATAACTAAGGCATAC
TTTGCAGCACCCCAGATGAAAGAATAGTATATTTTAATAATATGCTTTGGCAGCACCAAGCATATTTTTAATACCTAGTATAAACTTAACTAAACATAAA
TCTTAGAGTTTCTTTGTCTTTTGACACACATTAAGAAAACTGATGTTGTTTTATTTCAAAGGAAGCCATGAATCACCCAGGCCATCTTAAACTATTTGTG
ACAAGGATCATGCAAGACTTTGAAAGTGACACGTTTTTTCCAGAAATTGATTTGGAGAAATATAAACTTCTGCCAGAGTAAGTATAAGGTTATTAATTAG
TCTGAAGCACTTTGGATTTCCTGCTTAAGACTATAGAAAATAACATGTCTTTTCAGACTACAAATTGGGTTCACTGTGTACTGCTAGGATGATGGGTGCA
CCAAAATCTCACAGATCACTACTAAAGAACTTACTCATGTAACCAAATACAACCTGTTCCCCAAAAACCTATGGAAATAATAAATTAAAAAAAAAAAAAA
AAAGCTTGGCACAGTGACTCATGCCTGTAATCCCAGCACTTTGGGAGGTCGAGGCAGGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCA
ACATGGTGAAACCCCGTCTCTACTAAAAATACAACAAATTAGCTGGGCATGGTGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTCAGGCAGGAGAA
CTGCTTGTTCCTGGGAGGCAGAGGTCGTAGTAAGCCAAGATCACGCCATTGCACTCCAGCCTGGGCGACAGAGCAAGACCGTCTCAAAAACAAACAAAMA
AAAATATTAAGTATTTTAACACCTGAGCATGTGATGTCTTTCCCCTTGTTTAGGTCCTATTTCGTTCAGCGATGTTTTATACCTTTCAGTGTTAATTTCA
TACTTATGTATTCTATTCCTTTTGATGCTATTGTAAATGGTATTTTCTTTAGTTTCAGACTGTTTATTGCTAGTTACAGAAATGCAAATGATTTTTGTTT
ATTGATCTTGTATCTTGCAACCTTGCTGAACTCATTTGTAATTCTGTCAATAGATTCCTTAGGWTTTTCTCTATACAGTATAATGTCATCTGCAAATATA
GGTTTACTTCTTCCTTTTTAATCTGGATTTTTTCTTTGCCTAATTGCCGTGGCTAGACCTGCCAGTACAGTGTTGACTAAAAGATAGCAAGAGCAGACTT
ACTTAYCTTGCTCCTAATCTTAGAGGGGAAGCTTTTCTCTCTCATCAAGTGCGATTTAAGCTGTGAGTGCCTTTATCACATTGAGGAAGATCCCTTCTGT
TTCCAGTTTAYTTAGTATTTTTTATCATGAGAGTATTATACATTTTGTGACATGCTTTTTCTGAGTCTATTGAGATGATCATGTGGTTTTTGTCTTTTAT
ACTAATATTTTAATGTACTATTAATATGGTATATCACATTGATTTTCATGTTAARCTAATGTTTCTGGGATAAATTCTACTTGGTAATGGTATATAATCC
TTTTTATATGTTACTGGGCTTAGGTTGCTAGTATTTTGTTGAAGATTTTTGCATTTATATTCAGAAGGGATGATTTATAGTTTTTTTTGTTTTAATGCCT
TCCCCTGGTTTTGTTATCAGGATAAAAGTGACCTCATAGAGTGAGTTARGAGATGTTCTCTTCCCTTCTGTTTTTTTGAAAGAGTTTGTGACAGATTGTT
AGTACTTCTTAAATGTCTTAGAAAATTTTAATAGTGAATCGATTGAGAKAGGAATAYGGAAATTGCTCCAAAGTGGAGATTCTAAACAAGGCTATGGGAG
AAAGCAAAAAACTCTTCCATTGCAACATTTGATGGTCATTTGTACTTTCAGGCATGTACTAACATAACATCATAACAGCCTCTTTAATGGAATGGAGGGA
ATTCTCTAACGGGAGACCTAGAGTAAGTCAGTCCTTCATTCTATGGAGAAAAAGGAAACCTGTGAAGATAAAGTGAATATACTTTGTCCCTGGAAAACAC
ATTGCTCAGTTCTGGAGCGGCTTTCTCTCCAGATCTCTGTGCGCTGGGGAACTTAGATTTGCTTTCTACTGTCYAAATATAAACTTTGGTCATTCTCCAC
CTCCCCTATCCCTTTCCCCACAGCTACTCACTTAGTTTAAGTCCCGTTGTCTCTATCAGTTAACCTCTTGTGGTTATATAGGTTTCTGTTCAAACATAAA
GTCTTTTATTAACACCATTCTTCCCGATTTAAAAAATAAACAGACTAATATAGTGAAATACAGATGAAAGAGAGAACTTGTGAGACAAGAAGAGAATAAA
ATTAGAATGTGGAAGGAGCCAYAAGTGATGGGAGCCAGAGCAGACGGTCATATTAATAAAGTAAGGTGGTTTTACTTTGTGTCTGCCGTCAGCTCTGTAC
GTCATTGTGCAGTCGATTTTTCAACAGCACTGTGCCAGCCTATCCTCTAGGGCTCTGCTCTCATTCATCTTGCCTGGAAGAAATCTTTCTCAGACTATTT
CACACTAGACCCCAACCAAACCAGCAGGCCCAGATATTTTATATTGGCAGTTTTCTACTTAATGAGCCCCAAACAGGCTTTTACTTCTAGTTAACAATCT
TCTGTGTGACCACATAGTCAAAGAGAAGACAGATTAAAAGAGGCCTGTGGAGGCAGTAGTTGGCTCCAGAGCTGGGACAGATGCCCCTTATCAGTGGACA
CCTTGAAGTAGGTTTTGGATGGGCTGATGTTTCTTCTTCTGACCCTAAAACTTCCTGTCAGGATGCTGGCATACTCGTCCACATGACTCGGATATCCCTT
TGCTCCTGAGCCTGTGCTTCCTGTAGAGTCTTGATTTTAATTGTATTTTGGTTTTTTGGTTTATTTTTTGTTTTTGAGATGGAGTCTTGCTCCGTTGCCC
AGGCTGGAGTGCAGTGGCACGATCTTGGCTCATTGCAACCTCCACCTCCCAGGTTCAGCGATKCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGG
CACGTGCCGCCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCATCATGTTGGCCAGGCTTGTCTCGAACTCCTGACCTCAGATGATCCG
CCCGCCTCGGCCTCAGCCTCCCAGAGTGCTGGGATTGGAGGCATGAGCCACCGCACATGGCCCAAAAACTTCTTGATATGTTGCTTTTGTCTTATGAACT
GACAATCTTGACACTTGAGAATTTTGCACAAAAAATGTATGTAGATGTTACTTTTCATGACTCATTCCAGAGAGACTAAAATTATAATAGAAAATGGTTA
ATAGAAACATTGCTTCTTCCCCTGAAATATAAATTATTCCAGAAAGTATCTTTTTCTTTTCCCTATAATTTTGTTACATTGTATCTCTGTTTTTGTTTTT
TTTTTACCAAAAATGCATAATCTCTAATTAGTCAGCAAAGGTTAATGTCTATTATTACTCAGCAATGTATTGAATATCATGAGACTTAAAAGTTTACTGT
GTTGTCCCTGCCTACAATGAGTTTAAAAAATAGAGAAACGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGAACATCCTGGCTAACACRGTGAAACCMC
GTCTCTWCTAAAAATACAAAAAATTAGCTGGATGTGGTGGCGGGTACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGG
AGGCGGAGCTTGCAGTGAGCCAAGATTGCACCACTGAACTCTAGCCTGGGCTACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAGAGAAATGA
AACAAACCAATAATACTAGTAGGCACCATTTATAGAACACTTGATRTGTTAGGCACRATGCTACATTCTTTTTTGGTTTTGGGGGATGGGGGCGGAGTCC
TGCTCTGTCACTGAAGCTGGAGTGCAGTGGCGCCATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTATCCTGCCTCAGCCTCCTGAGTA
GCTGGGATTACAGGCACCCGCCACCATGCCCGGGTAATTTTTGTATTTTTATTAGAGACAAGGTTTCCCCATGTTGGCCAGGCTGGTTTCGAACTCCTGA
CCTCAAGTGATCCACTCACCTTGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCAACAATGCTACATTTTTTACAAGGATGAAG
ACTTTATTGACAGCCAGGCTCGGAGGCATGTCACACAGCAGAACCAGAGTGAAGCACAGTCTGATTCAAGCAGGCGTTCCTGACCACCTGGAGCATACTG
GGGTGCAGCCTGCATAGTACTGAAGAAGTAACCAAAGATTGGGGTTCATTGGAGGCTGGAAKGGTCAGAAGATTCCTCAGTGGAGAAGCTGGGTTTGGAA
GGGGAGCTGGAGAGAACACAGGCTTAAGTGAGAGTTAGGGAACAGGAATAGCAGATCCTAATAAAGGAATTACAATCTGCCACACATTGTGGAATTAGGG
CAGTATAGTCTCCATCAATCARACAGAAGCAGAGAACCTGTCACTGTCCAGGGCACATAATTTCAGTTATGTTCTAAACAGCTTCAGATTGTATTTTTGT
CTTTTGCTTACACAAGAAATGTGATACCAAATGTAAGTCTTGCAAAAAATTCTTAAGAAATTTCCTRTTAGCTGGGTGATAGAGTGGAAAGATACAAGGG
AAACTGCTGACTGGTTTTTGAGAGAATGAGGAATCCAAAGGAAACAAAAAAGGAGAAATTACACTTTTTGTTTTCTAACTTTCTATATAGTTTACAGTTT
TTTTCTTACCATTTGCATATGTAGTATACTAGCATGATATTTATCCAACTTGACAGTGGCTTACCATTGTGAAGAAAAAAGGGAAACYTTTTATTTGCTT
TATGCACTATTGATGCATTTAAACTGAGAATCAGGGAAGCTGTGTTTTTAATGGACACATAATTTAATTATATATTTTTTCTTACAGATACCCAGGTGTT
CTCTCTGATGTCCAGGAGGAGAAAGGCATTAAGTACAAATTTGAAGTATATGAGAAGAATGATTAATATGAAGGTGTTTTCTAGTTTAAGTTGTTCCCCC
TCCCTCTGAAAAAAGTATGTATTTTTACATTAGAAAAGGTTTTTTGTTGACTTTAGATCTATAATTATTTCTAAGCAACTWGTTTTTATTCCCCACTACT
CTTGTCTCTATCAGATACCATTTATGAGACATTCTTGCTATAACTAAGTGCTTCTCCAAGACCCCAACTGAGTCCCCAGCACCTGCTAYAGTGAGCTGCC
ATTCCACACCCATCACATGTGGCACTCTTGCCAGTCCTTGACATTGTCGGGCTTTTCACATGTTGGTAATATTTATTAAAGATGAAGATCCACATACCCT
TCAACTGAGCAGTTTCACTAGTGGAAATACCAAAAGMTTCCTACGTGTATATCCAGAGGTTTGTAGATAAATGTTGCCACCTTGTTTGTAACAGTGRAAA
ATTGAAAACAACCTGGAAGTCCAGTGATGGGAAAATGAGTATGTTTCTGTCTTAGATTGGGGAACCCAAAGCAGATTGCAAGACTGAAATTTCAGTGAAA
GCAGTGTATTTGCTAGGTCATACCAGAAATCATCAATTGAGGTAYGGAGAAACTGAACTGAGAAGGTAAGAAAAGCAATTTAAAGTCAGCGAGCAGGTTC
TCATTGATAACAAGCTCCATACTGCTGAGATACAGGGAAATGGAGRGGGGAAAGCTGGAGTATTGATCCCRCCCCCCTCCTTGGTTGTCAGCTCCCTGTC
CTGTGTGTGGGCGGAACATAGTCCAGCTGCTCTATAGCAAGTCTCAGGTGTTTGCAGTAAGAAGCTGCTGGCATGCACGGGAACAGTGAATGCCAAASAC
TTAAAGCAATTCGATGTTTAAGTATGTAAGTTCTTTTTTTTTTAGACAGCGTTTCGCTCTTGTTGCCCAGGCTAGCATGCAATGGTGTGACCTCGGCTTA
CTGCAACCTCCGCCTTCCCAGATTCAAGCGATTCTCCTGCCTCAGGCTCCCAAGTAGCTAGGACCAGGTGCGCGCCACCACGCCCGGCTAATTTTTGTAT
TTTGTRTTTTTAGTAGAGATGGGGTTTCRCCATGTTGGTCAGGCTRGTCTCGAACTCGTGACCGCAAGCGATTCACCCACCTCRGCCTCCCAAAGTGCTG
GGATTRCCGGCTTGAGCCACCACACCCGGCACATCTTCATTCTTTTTATGTAGTAAAAAGTATAAGGCCACACATGGTTTATTTGAAGTATTTTATAATT
TAAAAAAATACAGAAGCAGGAAAACCAATTATAAGTTCAAGTGAGGGATGATGGTTGCTTGAACCAAAGGGTTGCATGTAGTAAGAAATTGTGATTTAAG
ATATATTTTAAAGTTATAAGTAGCAGGATATTCTGATGGAGTTTGACTTTGGTTTTGGGCCCASGGAGTTTCAGATGCCTTTGAGAAATGAATGAAGTAG
AGAGAAAATAAAAGAAAAACYAGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCGCTTTGGGAGGCTAAGGCAGGCAGATCACTTGAGACCAGCTTGG
GCAACATGGCAAAGCCCCATCTCTACAAAAAACACAAAAATTAGCTGGGCATTGTGGCGCACACCTGTATTCCCATCTASTCAGGAAGCTGAGATKGAAG
AATTAATTGAGCCCACGAGTTCAAGGCTGCAGTGAGTCGTGATTGTGCCACTGCACTCCAGCCGGGGTGACAGAAGAGACCTTGTCTCGAAAAGGAATCT
GAAAACAATGGAACCATGCCTTCATAATTCTRGAAAGTTATTTTCAACTGATAAATCTATATTCACCCAAATAATCAAGGGTGAAGGTAAAATAATACAT
TTTTAGACAAGCAAAGACTCAGGGGTTACCTCCATGTGCCCTTTTTAGGGAAGCTGTTGGAGAAAATACTCCAGCAAAATGAAGGAGTACACAAACCAGA
GAATGACATGAATCCAGCAAATAGGATCCAACACAGGCAATATTCCAGCTATGGAGCTAGCTTTAAAAAGGAACAGTAAAAATATTAATCGGTTAGCTGG
GTGGAATGGCCCATGCCTGTAGTCCCAGCTACTCAGGAGGCTCAGCAGCAGGRCGACTTGAGCCCAAGAGTTCCAGACCAGCCTGGCCAYCTTAGTGAGA
TCCCTTCTCTTAAAAATAATAACTTATTGCCAGATTTGGGGCATTTGGAAAKAAGTTCATTGAAGATAAAGCAAAAGTAAAAAAAAAAAAAAAAAAACAA
GGGGAAAGGGTTGGTTAGGCAATCATTCTAGGGCAGAAAGAAGTACAGGATAGGAAGAGCATAATACACTGTTTTTCTCAACAAGGAGCAGTATGTACAC
AGTCATAATGATGTGACTGCTTAGCCCCTAAATATGGTAACTACTCTGGGACAATATGGGAGGAAAAGTGAAGATTGTGATGGTGTAAGAGCTAAATCCT
CATCTGTCATATCCAGAAATCACTATATAATAYATAATAATGAAATGACTAAGTTATGTGAGGAAAAAAACAGAAGACATTGCTAAAAGAGTTAAAAGTC
ATTGCTCTGGAGAATTAGGAGKGATGGGGCAGGGGACTGTTAGGATGCATTATAAACTGAAAAGCCTTTTTAAAATTTTATGTATTAATATATGCATTCA
CTTGAAAAACTAAAAAAAAACAATAATTTGGAAAAACCCATGAAGGTAACTAACGGAAGGAAAAACTAAGAGAATGAAAAGTATTTGCCTCTGGAAAGAA
CAACTGGCAGGACTGTTGTTTTCATTGTAAGACTTTTGGAGCCATTTAATTGTACTTAACCATTTTCATCTATTTCTTTARTAAGAACAATTCCATCTTA
ATAAAGAGTTACACTTGTTAATAAGTGCTGGCCTCCTGTTGTTCTTTGTACACCCCACACAAAATTTCAAAGAAACTTTGATGGCAATATATCTCCATGG
TCAGCTTAAAAATAGAGAAAGGAAAACATAGAATTAGCCAAGAGTCACACAAAACAAAGATCAGTTGTTTGTTAGGAAACAATCAAAATCAAGTCTCACT
TTTTCCAGATTGGCTTATGGAACAGCACTGTAAGGTGATAACTTGGGGCAAACATGTAAATAATAAAACATATGTTTTAAATATTCAGGTTAGCACATTT
TATGTTTCTGTGAGATTAAAATTGTGTGTGACATACCCGCTTCCTTAAAGGCAATGTTTCTGAAAATGTTGTACCTGCTATTCCTGAATCAGGGATGGGT
CCCAGAATCTGCCTTTTAAACATCTCAGATAATCTGAAGCCTGCTTAAGTTTGTAAGGCACTGCTTTTGCACTCTAAGGAAGAAAAAAACAAGTTTTAAT
TCCCGTCTCTAGAACATCTCAGTGAAGCAAAACAGGAAAGCAAATTATAAGTTAGTATATGTAAGATTTCAGAAGGCAAAGTTGTAAAGATTAGATTTCC
TTAGCCTGGGAACATGGCAAAACCACGTCTCTACAAAAAATACCAAAAAAATTAGCTGCGTATGGTGGTGTGTGCCTGTAGGCCCAGCTACTTGGGAGGC
TGAGGTAGGAGGATCACTTGAGCCCAGGAGGTGGAGGCTGCAGTAAACCAAAATCGTGTCATCACTCCAGCAGCCTGGGTGACAGACCAAAACCCTGTCA
CAAAAAGATTTCCTTGTTGCTGATCTGTTTTAAGAACAAGACGTTCTTAAATGTGTAATGCAAATACATATAAAACTATTTAATATCAGTAACTCCAAGA
GAACGAGTAAACAAACTAGATTTCCCTTAGCAAGATGCTTTTCTTACACAGGTAGTAAACTAAAAACTGTAAAGTTAATGGCCTAATTAGGCAACATGAC
TGTGAGGAAAAGATTGGCTGGCCAGCCGTTGAAAGGATTCAGACAAACAGTTATCTATGAAAGATTGAACCTTGTAATTAAAAATGTTCCAGCGGGGAGA
AAGAAAAGAAGTGCATGATTAAATGACTAATGGGAATAGAATTAGAGACTCTATAAGGAGAATACTTTTTGTTTTTGAGAGTCTCACTCTGTCGCCCAGC
CTGGAATGTAGTGATGGCAGTCTCGACTCACTGCAACCTCTGCCTCCTAGGTTCAAGCAATTCTGCCTCAGCCTCCCTGTAGTTGGGATTACAGGTGTGT
GCCATCAAGCCTAGCTAATTTTTTTTGTTTTTTGTTTTTTTTTTGAGACAGTCTCCCTCTGTCGCCCAGGCTGGCGTGCAGTGGCGCAATCTTGGCTCAC
GGCAACCTCCGACTCCAGGGTTCAAGCGATTCTCCTGCCTCAGCCCCCAATTAGCTGGGATTACAGGCCCCCACCACCACGCCGGGCTAATTTTTGTATT
TTTAGTAGAGACAAGGTTTCACCATGTTGCCCAGGCTGGTCCTCAAGTGTCACCCAGGCTGCAGTGCAGTGGCACAATCTTGGCCCACTGCAACCTCTGC
CTCCCGGGTTCAAGCAGTTCACCCTCAGCCTCCCCAATAGTTGGGATTACAGGTGTGTACCACCACCCCCAGCTAATTTTTGTATTTTTAGTAGAGACAG
GTTTTTGCCATGTTGGCCAAGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGGTTACAGGCCTGAGCCACCA
CGCTTGGCCAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAATGATCAACTGCTGGTCTCAAATGATCAACTCCT
GGCCTCAAGTGATCTGCCTGCCTCTGCCTCCCAAAGTGTTGGAATTACAGGCATGAGCTACTGCACCTGGCCCAAGATATTATTACAGGCCCCCGCCATC
ACAGGGATAAAGGGGAATAAAGCCCCTGGCCAAACAGAAGAAAGAAGGCCTATAAACCACATGAAGTGCTGTTCCTGTTACCCGGGGGAATTACTTTAAT
GACCGTTTCTAATCATCTGCTCCTGTCCTTTCTGTTCCCCAGCTGACCTCATGTGTACCAGGAAGTTACTCTGTAAATACAGTGACATTTCTGTTGAAAC
TTTTTCTTAAAAAAAAAAAAAAAGATGATCTAATACACATTGGTTGTGCTAGATATTTTCTAATATACGTCCTATGTTATGTATGATTTTTCTAAATTGT
TGAAAGTCTAAATCAGTCAAGAATAAAATTTAGAATTGTCGTCTACTTTAGCCTAGAGAGGCCCTAACTAAATGACTAACAGCACTAATGACAAACGCCT
AATACGGGCATAGAGTTTTGTCTGCAAGGAGGAAAAGACTTCATGGTGCTGGAGGTCAGGAAAACCTGGGGGGAATGAGAGATTTTTTTCAGCACCTACC
AGCTAAAGTAATTAGGGAAAGGGATCCTGAATTAGACTGCCTCTTTTTCAGTGCCTAGTCATGTTCCCCTCCAAAAGGCCAGAGACAAGGAGTTAGGAGG
CTTCTAGTTGACCTGATTCACTGTCCACAGGTTGACTTCTCACTGCCAGTTGTCTTTACTTTTGATATGTGAATTGGCAAAACTTAGACTAGGGATTCCT
CCCCCTCCCCCACCATGCCATACCCCTCAACATTTTATAATGACTAATTCAAGCACACGGAAAGGTTGACAGAATTGTACAGTAAGCACCCATTTACCTA
TCACCTAGATCCTATCATTAACACTGCTATCTCTGCTTTATCACATATGGAGCCATCCATCTATCCATCCTATATTTTGACGCATTTTAAAGTTACAGAT
ATCACTATTCTTCATGCCTACATTCTTCAGCTTGCCTATTAACTATAGTTCACTTTTTTGGTAAAATTTACATAATGAAATGCAGATCTTAAGGATAACA
TCCTACAGGTTTTGATAATGGCATATACCTTTCTATAACCCAATCTCTTATCACCCTAGAAAACTCCCTCTTACCCCTTTCCAGTCAGTCCTCAACCCCA
ACCCCCAGAGGTAACCACTATTTTTTTTTTCTCATTATAGATTAGTTTTTCCTGTTTCTGAACTTCATATGAATAGAATCATATAGGATGCACTCTTTTG
ATCTGGCTTATTGCAGCATGATTTGAGTTTCACCCAAGTTGTTCCATGTATCAGTGGTTTGTTCCTTTTTATTACTACGTAGTGTTAAAAGATAAGTCAA
GTCCTATTAAATGTTTTAAAGGGTTTGAGCAAACAGCAATTCACAAATTGGGCAGCTCCAAACCAAGAGTGGTTCAGGGCTCTACCAAGAGAATGCAAGG
AAAAGGCTTTTGTAACTTGGAAGCAAGGCAAAGAAAATAATGGCTTGGTTATGACTGTGTAGTTGCCTTATTTGGTCTCCCCCCCGCCAAGTCCCTTGTT
ATATAAGTCAGTTGGTGGCTACTGATTGAACTTAAACTTCATTTTGCTTTAATGCAGGTATTTACAAAAAAAAAAAAATAGTCCAAGTTAAGTTTAGCTT
ATCAAGGTCAAGTTTGTGTCCAAGGCTTAACTGGCTTTGTCTGCTGAAGAGATTTACAGTCCTGGTCCCCATTTTCTCTTATTCTAACGGTAATATTCCA
TTGTACAGATGTGCCAGTTTATCCATTCTTCTCTTGATTTTAAGGTGGGACTCAAGACTGGCCTTGAAGAGGCTAGAAAAGCAATGACTAAGGGTCAGGA
CAAGAACAAATACATATTCCAGGCAGAGGGAAAGCCATGAAGAAACTTCATCTCCAGATTCTAAAACCCAGGACAAGCCCTTAGCAAGGGTGGGTGAGTT
GTTATTAGGCCTATATTAGTCCGTTTTCACACTGCTATGAACAACTGCCTGAGACTTGGTAACTTATAAAGAAAATAGTGTTTTTTTTGTTTTTGTTTGT
TTTTTTGTTTGTTTGTTTTGAGTTGGAGTGTTGCTCTGTCACCCAGCCTGGAGCGCAGTGGCGCGATCTCAGCTCACTGCAAGCTCTGCCTCCCAGGTTC
ACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCCGCCACCATGCCAGGCTAATTTTTTTTGTATTTTTAGTAGAGACGGGGTTT
CACCATGTTAGCCAGGATGGTCTCGATTTCCTGACCTCATGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGG
CCAGAAAAGAGGTTTAACTGACTTACAGTTCTGCATGGTTTGGAAGGCTTCAGGAAACTTATAATCATGGCAGAAGAGGAAGCAGGCATGTCTTACATGG
CACAGGCAAGAGAGAAGAGAGCAAAAGGGGAAGAGCCCCTTATAAAACCACCAGATCTTGTGAGAACTTGCTCCCTATCATGAGAACAGCATGGAGGAAA
CCACCTCCACAATCCAATCACCTCCCACCAGGTCCCTCCCTCGACAGGTGGGGATTACAATTCAAATTACAATTTGAGATGAGATTTGGGTGGAGACATA
GCCAAACCTTATCCAGGCCCCACCTCCACCAAGTACTCCACCTTTGCTGTGCCTTTCAATCTGTTCTCTTTCATAACCGCATCTAGTTCATGTCTTTTTG
TCTCTTACTTAGACGGCTGGAGAAAACTAAACTGATAGTTTCTCAATCTCTGATCTCCGTCTCCAACAGTCTCTCATAAACATGGCCACAAAGACAATCT
TTATTTATTTATTTTTTTTTTTTGAAATGGAGTCTCACTCTGTCGCCTAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCACCTCCTGG
GTTCAAGCAATTCTCCTGCCTCAGCCTTCCGAGTAGCTGGGATTACAGGTGCCTGCCACCATGCCTGGGTAATTTTTTGCATTTTTAGTAGAGATGGGGT
TTCATGATGTTGGCCAGACTGGTCTCGAACACTTGACCTCAAGTGATCCACCTGCGTCGGGCTCCCAAAGTGCTGGGATTATAGGCGTAAGCCACCGTGC
CTGGCCCAAGACAATCTTTCTGAACAGCATCTCTGATTATATCACTTTCTTTCTTGCCTCCTTAATGCTCCCCCGGCTAAGGCGAAACCCCACTTTGGTC
TTTAAGGCCCTCTACAGTGGCATTAACCAAACTCTCCAGATTTACCATCTACCATTTTCACTCCCTACATGTTGTACACAAGCTACCTCGGCTCTTCACA
AATCCCCAGACAGACCCCAGCTTTGCCACTCCCATGCTCTTCTTTATGCCACTCTCTCTGCCTATAATTCCTCCCTCCTCACATCCTCCAATGCAAATCC
TACCTGTTCCTCAAAGCCCAACCCAAATCCCAAATTGAACCTGTCATGAAGCCTGCCTTCTCACCCTCTTCTGAACCATGCAGCACTACCTATTTCAGCC
CTTAAATACTGTTTTTCCTTACAGCTGTTTGTTATTCTCATCTCCTCTCCTTTATCAATGAGGAATGTTTTCAGCTGCGAGTGCTAGAAAATCTAACTTA
CAGTAACTAAAACAAATTGGGATTTTGCTGACTCTGATTGATTGATTGATTGATTGATTGAKTTTGCCCTCAAAAAATCAAACCAAACTTGGCATTGCAA
GATGGCTGCTACTGCTCCAGAGAGCAGGCCCATGTTCACAGTAGGAAGAAGAAATATAGTGTCAGGCACATATTTCCTTTTTGTCTAGAAAGCAAAACTT
GCCTCAAATCCTCCTTCCCCAAGCAAACTCTCCCCTTATATTTCAGCGGCTAGAACTGGGGCACGTGGCCACTCCTCGCTGCAAGGCAGGCTAAGAATGT
GGAACAAGGATTGTAGTCACTGACTCATTCACATCAGTGGTTCTTAACCCTGGCTGCACACAGAACCAGAGGGATTCTTCAACGTCTGGCTTCACCCCCA
GAGAGTCTAATTCTAATTTATGC


SNP Information

Context             (SEQ ID NO:17461):
ACTTCTTCCTTTTTAATCTGGATTTTTTCTTTGCCTAATTGCCGTGGCTAGACCTGCCAGTACAGTGTTGACTAAAAGATAGCAAGAGCAGACTTACTTA
Y
CTTGCTCCTAATCTTAGAGGGGAAGCTTTTCTCTCTCATCAAGTGCGATTTAAGCTGTGAGTGCCTTTATCACATTGAGGAAGATCCCTTCTGTTTCCAG
Celera SNP ID:            hCV3103214
SNP Position Genomic:     29106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17462):
TTATTGCTAGTTACAGAAATGCAAATGATTTTTGTTTATTGATCTTGTATCTTGCAACCTTGCTGAACTCATTTGTAATTCTGTCAATAGATTCCTTAGG
W
TTTTCTCTATACAGTATAATGTCATCTGCAAATATAGGTTTACTTCTTCCTTTTTAATCTGGATTTTTTCTTTGCCTAATTGCCGTGGCTAGACCTGCCA
Celera SNP ID:            hCV3103215
SNP Position Genomic:     28964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17463):
TAATAATCCAGACAGCTCCTAAGTGACTAAGGGGCAGGTAACATAGACAGCATGTGCAGGACAAAGGGATAATTCACGCCCTAGGCAGGACAGAGCAGAA
Y
GGCTCAAGATTTCTTCACACTACTTAGAACAGCATGTCATTTAAATCTTATGAATTATTTCTGGAATTTTCCAGTTAATATTTTCAGACCACAGTTGACC
Celera SNP ID:            hCV7442460
SNP Position Genomic:     27011
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17464):
AGAAATTATCAACCATATTTTAGGCAGTAGTTAGAAAAGTCATGTACAATATAAAGCCAAATGTTAATACAATTGTTAGCACCAAGAAGCAGAAAAATTA
Y
CTATCTACTAGCATTGTAATTATCTTCTGAGAATTGGAAGCATTACAAAATTTTATGTATATGTATTAAGTATGCTCTTGGGGTTTTCCATAGTCAAGGT
Celera SNP ID:            hCV7442461
SNP Position Genomic:     27570
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17465):
TCTCTTCCCTTCTGTTTTTTTGAAAGAGTTTGTGACAGATTGTTAGTACTTCTTAAATGTCTTAGAAAATTTTAATAGTGAATCGATTGAGAGAGGAATA
Y
GGAAATTGCTCCAAAGTGGAGATTCTAAACAAGGCTATGGGAGAAAGCAAAAAACTCTTCCATTGCAACATTTGATGGTCATTTGTACTTTCAGGCATGT
Celera SNP ID:            hCV7442468
SNP Position Genomic:     29657
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17466):
TGAATATACTTTGTCCCTGGAAAACACATTGCTCAGTTCTGGAGCGGCTTTCTCTCCAGATCTCTGTGCGCTGGGGAACTTAGATTTGCTTTCTACTGTC
Y
AAATATAAACTTTGGTCATTCTCCACCTCCCCTATCCCTTTCCCCACAGCTACTCACTTAGTTTAAGTCCCGTTGTCTCTATCAGTTAACCTCTTGTGGT
Celera SNP ID:            hCV7442469
SNP Position Genomic:     29974
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17467):
GGCTGAGCTGGAGGCAGCGAGGCCGCCCGACGCAGGCTTCCGGCGAGACATGGCAGGGCAAGGATGGCAGCCCGGCGGCAGGGCCCGGCGAGGAGCGCGA
R
CCCGCGGCCGCAGTTCCCAGGCGTCTGCGGGCGCGAGCACGCCGCGACCCTGCGTGCGCCGGGGCGGGGGGGCGGGGCCTCGCCTGCACAAATAGGGACG
Celera SNP ID:            hCV15800898
SNP Position Genomic:     6294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:17468):
ATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTAC
R
GGCGTGACCCACCGCGCCTGGCCAAGCTGTTTGCTTTCTTACCATTCACATTTTCACTGGAATAGCACTTCCAATTTCCTTCAAGAGCTTTTCTTTTGTA
Celera SNP ID:            hCV1884017
SNP Position Genomic:     20165
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17469):
GCCTGTTCTTTGAAACTTTGAAACTAGGCATTGACTTCTCCTTTATAGCTATGAAGTCCTAGATGGCATCTTCCTTGAATAGCAGGCTATTTTGTCTCCA
Y
TGAAAATCTGTTCTTAGTGTAGCCACCTTCATCAATGATCTTAGCCAGATCTTCTGGATAAACTTGCTGCAGCTTCTACATTAGCACTTGCTGCTTCACC
Celera SNP ID:            hCV1884018
SNP Position Genomic:     19551
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17470):
ACAGAGCAAGACTCCGTCTCATTCATAAATAAATAAATAAATAAAATGATTCAGTCTTTCTTTACAGTTTTTTTCTGAAGTAAATATTACATGAGACACA
M
GTCTTAAATGTACATTTGCTAAGTTTTGATAAATGTATACACCTGTGTAACCCCAGCCCTATCAAAGATACAGAATATTACCTATCACCCCCAGAAAGTT
Celera SNP ID:            hCV3103228
SNP Position Genomic:     23657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,3)      total(A,3|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17471):
ATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTAGTCTCGAACTCGTGACCGCAAGCGATTCACCCACCTCAGCCTCCCAAAGTGCTGGGATT
R
CCGGCTTGAGCCACCACACCCGGCACATCTTCATTCTTTTTATGTAGTAAAAAGTATAAGGCCACACATGGTTTATTTGAAGTATTTTATAATTTAAAAA
Celera SNP ID:            hCV27465055
SNP Position Genomic:     34106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:17472):
TCCCGATTTAAAAAATAAACAGACTAATATAGTGAAATACAGATGAAAGAGAGAACTTGTGAGACAAGAAGAGAATAAAATTAGAATGTGGAAGGAGCCA
Y
AAGTGATGGGAGCCAGAGCAGACGGTCATATTAATAAAGTAAGGTGGTTTTACTTTGTGTCTGCCGTCAGCTCTGTACGTCATTGTGCAGTCGATTTTTC
Celera SNP ID:            hCV7442470
SNP Position Genomic:     30222
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17473):
GCGCGAACCCGCGGCCGCAGTTCCCAGGCGTCTGCGGGCGCGAGCACGCCGCGACCCTGCGTGCGCCGGGGCGGGGGGGCGGGGCCTCGCCTGCACAAAT
R
GGGACGAGGGGGCGGGGCGGCCACAATTTCGCGCCAAACTTGACCGCGCGTTCTGCTGTAACGAGCGGGCTCGGAGGTCCTCCCGCTGCTGTCATGGTTG
Celera SNP ID:            hCV26764036
SNP Position Genomic:     6388
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17474):
CTTACCCACAAGCCCCGCCCCCCCAGCCCCGATGGCCCTGCCCAGTCCCAGACAGAACCTACTACGTGCGGCGGCAGCTGGGGCGGGAAGGCGGGCGCTG
S
GGGCGCTGCGGCCGCTGCAGCGCCAGGGTCCACCTGGTCGGCTGCACCTGTGGAGGAGGAGGTGGATTTCAGGCTTCCCGTAGACTGGAAGAATCGGCTC
Celera SNP ID:            hCV26764037
SNP Position Genomic:     6073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION


Context             (SEQ ID NO:17475):
GTCTAGACAGTCAAGTTGTGGCTTTAAAAGAACTTGAGGTGAGAAGGGTGGGAATGGCCACTGATGAGTACAGAATGTTTTCTTTTTTGGTGTGATGGAA
M
TGTTCTAAAAGTAGATAGGAGTGATGCTTGCTCGACTCTGTGAATCTACTAAACGTCACTGAACTATACACTTTAAAAGGGTAAATGTTATGGTGTGTGA
Celera SNP ID:            hCV7439325
SNP Position Genomic:     15528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17476):
GTTTCACTTTGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCCCGTGATCCGCCCATCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCAC
R
CCTGGCTAATCTGTTCTTCACTTTCTTTTCTATACTCACTACAAAAAAGGGCAAGGAAGTCTTCACAGCTGCACTTACTAACACCGTCACGGCTCTGTTT
Celera SNP ID:            hCV3103230
SNP Position Genomic:     22044
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17477):
GAAATTCAGCAGTGAAATATGTGACTATATTGGATGCTTGCTATTTGTCATTTACTGTATTTCTAGCGCTTGTGCCATGTAAGGGCTGATGAACTCAAAC
M
GTAGCTCAGCTTTTTGCATGCTCTTTTTTACCCACCTAGAGGTCCAGTGTTTCCTGTGATACTTACCTCTAAACTGCTAAATAGCCACATTTTACGGAAG
Celera SNP ID:            hCV3103231
SNP Position Genomic:     21569
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17478):
TGGTTTAAAATAATTATAGGAAAGAAATTCAGCAGTGAAATATGTGACTATATTGGATGCTTGCTATTTGTCATTTACTGTATTTCTAGCGCTTGTGCCA
Y
GTAAGGGCTGATGAACTCAAACCGTAGCTCAGCTTTTTGCATGCTCTTTTTTACCCACCTAGAGGTCCAGTGTTTCCTGTGATACTTACCTCTAAACTGC
Celera SNP ID:            hCV3103232
SNP Position Genomic:     21546
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17479):
GTCCACACATTTCTTAACAAAGAATACATATGCTACTACATACCAACTCTCCTTTGTCAGGGAATCCAATCTAGATTGGTTTAAAATAATTATAGGAAAG
R
AATTCAGCAGTGAAATATGTGACTATATTGGATGCTTGCTATTTGTCATTTACTGTATTTCTAGCGCTTGTGCCATGTAAGGGCTGATGAACTCAAACCG
Celera SNP ID:            hCV3103233
SNP Position Genomic:     21470
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17480):
AAAAAGGATAATGTTTATATGGCACCCGAGATAATCAGATAAGGCCAGAAGACAAGAGTCAGAGGGTTCTGCCTAATCTAAGCCCCACCATCCTGATGTT
W
AAGGGCCCCTGAATCGGAGGACCCTGCCACAGGCACCAACTGAAGTCTTTTGTCCATGTAACAAATTGCAGCTCAAGTTTCAAAGTCAAATCTGTTGGAG
Celera SNP ID:            hCV3103234
SNP Position Genomic:     21088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17481):
TTATATCTGTGAAGCACAGTAAAATGAGGTATGGCTTAGTAGGGAACCCCATTTTTAAAGGCTCAGTATGAAGGGTCTTAAATTGAAGATGTATTTTTGC
R
TTCTGGTTAAGACACTATTCCATTTCAGGGTTTTTTGTTTTTAAGTGGTTTCCCAACACTCCTCAGGGAAATTGAGCAAGAATTCCATCGGCAGTCCTCA
Celera SNP ID:            hCV3103235
SNP Position Genomic:     20873
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17482):
AAAGAAAAACACCTTTATATCTGTGAAGCACAGTAAAATGAGGTATGGCTTAGTAGGGAACCCCATTTTTAAAGGCTCAGTATGAAGGGTCTTAAATTGA
R
GATGTATTTTTGCGTTCTGGTTAAGACACTATTCCATTTCAGGGTTTTTTGTTTTTAAGTGGTTTCCCAACACTCCTCAGGGAAATTGAGCAAGAATTCC
Celera SNP ID:            hCV3103236
SNP Position Genomic:     20859
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17483):
AAAACGTATTTTAATAATGAAAAAGCCTGAAATATTGTGGAAATTACCAAAAGGTAACAGAGATAGAAAGTGAACACATGCTGTTGGAAAAACTTCACCA
R
TAGACCTGCTCAGTGCAGGGTTGGCACAAACCTTCAATTTGTAAAAAAGAAAAACACCTTTATATCTGTGAAGCACAGTAAAATGAGGTATGGCTTAGTA
Celera SNP ID:            hCV3103237
SNP Position Genomic:     20713
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17484):
GTTCCCAAGGTTCATTTACCATTATTAAAAAATTTTTGTCTTAGAAATTTTATGTATGTCAACGCACGAGCAAATTATCAGGCATGGGGCAGAATTGGCA
R
CTGGGTGGAGGCTTCGGTGGAGGTGAGCACTCCGAAAGGAAAACAGAGTAGGCCTTTGGAACAGCTGCTGGAAGAGATAAGGCCTGAACAAGGGCAGTGG
Celera SNP ID:            hCV7439903
SNP Position Genomic:     7209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17485):
ACAGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGACCCAC
Y
GCGCCTGGCCAAGCTGTTTGCTTTCTTACCATTCACATTTTCACTGGAATAGCACTTCCAATTTCCTTCAAGAGCTTTTCTTTTGTATTTACAACTTGGC
Celera SNP ID:            hCV3103238
SNP Position Genomic:     20178
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17486):
TAAAAAATTTTTGTCTTAGAAATTTTATGTATGTCAACGCACGAGCAAATTATCAGGCATGGGGCAGAATTGGCAGCTGGGTGGAGGCTTCGGTGGAGGT
K
AGCACTCCGAAAGGAAAACAGAGTAGGCCTTTGGAACAGCTGCTGGAAGAGATAAGGCCTGAACAAGGGCAGTGGAGAAGAGAGGGTAAAAATTTTTTAA
Celera SNP ID:            hCV7439907
SNP Position Genomic:     7234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17487):
TTTGGAACAGCTGCTGGAAGAGATAAGGCCTGAACAAGGGCAGTGGAGAAGAGAGGGTAAAAATTTTTTAAGGTTACATGACCCTGGATTTTGGAGATCT
S
GAATTTAAAGGTGATGCACCAGGGATGAACGCTCAGATTTTCAGTTTGAAAGCTGGCGTGACATGTAAAGGAGTGGAGAATAATGTACCATTGTAATGAT
Celera SNP ID:            hCV7439908
SNP Position Genomic:     7364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17488):
GAACATTATTCTAAGTCTTTAATTCCCACAACAACCCTAGAAGCAGGAACTATTGTTATCTCTATTTTATAGATAAAGTAAACCACAAGGGGTTAACACG
W
TTTGTCTTGTGGGTGACAAAATGCATTCAACTTGAGCACTTTGACTCAGAATCTTTTTTTTTTTTTTTTTTTAAGAGGGAGTCTTGCTCTGTCGCCCAGG
Celera SNP ID:            hCV7439909
SNP Position Genomic:     8155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17489):
AGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAGAGAAATGAAACAAACCAATAATACTAGTAGGCACCATTTATAGAACACTTGATGTGTTAGGCAC
R
ATGCTACATTCTTTTTTGGTTTTGGGGGATGGGGGCGGAGTCCTGCTCTGTCACTGAAGCTGGAGTGCAGTGGCGCCATCTTGGCTCACTGCAACCTCTG
Celera SNP ID:            hCV7442483
SNP Position Genomic:     31757
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17490):
AAACTCCTGACTTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGACGTAAGCCACTGCACCCGACTTATAATCAACTTTAATGCAG
R
ACTTCACCACCACAGTCAATCTAATAATCCAGACAGCTCCTAAGTGACTAAGGGGCAGGTAACATAGACAGCATGTGCAGGACAAAGGGATAATTCACGC
Celera SNP ID:            hCV15949050
SNP Position Genomic:     26889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17491):
TAGTTTACAGTTTTTTTCTTACCATTTGCATATGTAGTATACTAGCATGATATTTATCCAACTTGACAGTGGCTTACCATTGTGAAGAAAAAAGGGAAAC
Y
TTTTATTTGCTTTATGCACTATTGATGCATTTAAACTGAGAATCAGGGAAGCTGTGTTTTTAATGGACACATAATTTAATTATATATTTTTTCTTACAGA
Celera SNP ID:            hCV27517925
SNP Position Genomic:     32788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17492):
CTGGAAGAGATAAGGCCTGAACAAGGGCAGTGGAGAAGAGAGGGTAAAAATTTTTTAAGGTTACATGACCCTGGATTTTGGAGATCTCGAATTTAAAGGT
S
ATGCACCAGGGATGAACGCTCAGATTTTCAGTTTGAAAGCTGGCGTGACATGTAAAGGAGTGGAGAATAATGTACCATTGTAATGATGAGGCGCCTCTAG
Celera SNP ID:            hCV27506209
SNP Position Genomic:     7377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17493):
TGATTCAAGCAGGCGTTCCTGACCACCTGGAGCATACTGGGGTGCAGCCTGCATAGTACTGAAGAAGTAACCAAAGATTGGGGTTCATTGGAGGCTGGAA
K
GGTCAGAAGATTCCTCAGTGGAGAAGCTGGGTTTGGAAGGGGAGCTGGAGAGAACACAGGCTTAAGTGAGAGTTAGGGAACAGGAATAGCAGATCCTAAT
Celera SNP ID:            hCV16035252
SNP Position Genomic:     32262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17494):
TCAATAACCTGTAGTTTCACATAAAGTCAAAACAACTATTTTTTGGGACTTGCTAAAATTAAGTGATGATCCCCTTTCTGGACCCAACCCTAAATGCAAT
M
AAATGTGAATTTTAGGATGGGCTGAAATGGGTCATAATCTTCTACTCTGTTATTCCTAGTTAACCACAATACCCAATAATATTTTGTACTTAACATTCAT
Celera SNP ID:            hCV7439334
SNP Position Genomic:     13081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17495):
GGAATGTTTTCAGCTGCGAGTGCTAGAAAATCTAACTTACAGTAACTAAAACAAATTGGGATTTTGCTGACTCTGATTGATTGATTGATTGATTGATTGA
K
TTTGCCCTCAAAAAATCAAACCAAACTTGGCATTGCAAGATGGCTGCTACTGCTCCAGAGAGCAGGCCCATGTTCACAGTAGGAAGAAGAAATATAGTGT
Celera SNP ID:            hCV27273219
SNP Position Genomic:     41462
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,3|T,4)   total(G,3|T,4|-,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17496):
CCACTAAATGTCAGGATGTCCATCATATCTATGCACATAGATAAGTCCTCAATGTCATCTGTGAGTTCTTGGAAACTGTGACTTTAAGTGAAACAATGTA
K
AGCAAAACCAATTTTACCATAGGCTACTGGATGTACACAAGAGTTAAGTTCCTAGGGCATATTGCTGGTCACAAAAACATCACCAAACTTCTAAATGAAG
Celera SNP ID:            hCV7439335
SNP Position Genomic:     12173
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,2)      total(G,2|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17497):
TCCCGGGTTCACACCATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGACGCCTGCCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGA
Y
GGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCATCTTGGCCTCCCCAGAATCTTTACTATGTCATACACAATTGCA
Celera SNP ID:            hCV7439336
SNP Position Genomic:     8399
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17498):
TAGAATTAATTTAGTTCTCAGCAGAGAACTCAAGTAAGTACCTTAACATAAATTCACCACAAGAAAATCATGTCTCATAGTGGAGATCAGTATATGATAA
R
ATGAAATTGTATAAAAGGAGCTATTGATGAAGCTGCTTAATATCACAAAGGTGATTATAGAAAATTAATAAGCAGTTATTTATACTACATGACAATAACT
Celera SNP ID:            hCV3103314
SNP Position Genomic:     12744
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17499):
TGACTATATTGGATGCTTGCTATTTGTCATTTACTGTATTTCTAGCGCTTGTGCCATGTAAGGGCTGATGAACTCAAACCGTAGCTCAGCTTTTTGCATG
Y
TCTTTTTTACCCACCTAGAGGTCCAGTGTTTCCTGTGATACTTACCTCTAAACTGCTAAATAGCCACATTTTACGGAAGCATATTCTTCATACCTTTGCT
Celera SNP ID:            hCV7442413
SNP Position Genomic:     21590
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17500):
CCCCTTTCTGGACCCAACCCTAAATGCAATAAAATGTGAATTTTAGGATGGGCTGAAATGGGTCATAATCTTCTACTCTGTTATTCCTAGTTAACCACAA
Y
ACCCAATAATATTTTGTACTTAACATTCATTACCCAGTGTCTGAAGGTAAAACATTTCAAAGTATTGAAATGGTTCTAGAGATCCTGGAGAGAAGCGGGT
Celera SNP ID:            hCV3103315
SNP Position Genomic:     13151
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17501):
ATTTGTCATTTACTGTATTTCTAGCGCTTGTGCCATGTAAGGGCTGATGAACTCAAACCGTAGCTCAGCTTTTTGCATGCTCTTTTTTACCCACCTAGAG
R
TCCAGTGTTTCCTGTGATACTTACCTCTAAACTGCTAAATAGCCACATTTTACGGAAGCATATTCTTCATACCTTTGCTCTAACTTAAATCTCTAACTTT
Celera SNP ID:            hCV7442414
SNP Position Genomic:     21611
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17502):
CCTCCCAAGTAGCTGGGATTATAGGCACACACCATCGTGCCCGGCTAATTTTTGTATATTTTGTAGAGTCAGGATTTTGCCATGTTGCCCAGGCCGGTCT
Y
GAACTCCTGGGTTCAGGCAATTCACCTCCCAATGTGCTGGGATTACAGGTGTGAACCACCACACCCAGCCTATTTATCTTTTTAATTGGCAAATAATTGC
Celera SNP ID:            hCV11434500
SNP Position Genomic:     24652
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17503):
TTTTTGGTGTGATGGAACTGTTCTAAAAGTAGATAGGAGTGATGCTTGCTCGACTCTGTGAATCTACTAAACGTCACTGAACTATACACTTTAAAAGGGT
R
AATGTTATGGTGTGTGATTTATATCAATAAAGTGGCTTTTAAAAGTCTTTGGAACCAGCCGGGCACAGTGGCTCACATCTGTAATCCCAGCACTTTGGGA
Celera SNP ID:            hCV3103243
SNP Position Genomic:     15611
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17504):
CTCCCAATGTGCTGGGATTACAGGTGTGAACCACCACACCCAGCCTATTTATCTTTTTAATTGGCAAATAATTGCATATATATATATATTATGTACAACA
Y
GTTGTTTTGAAATGTGTATACATTGTAGAATGGCTAAATGGAGCTAATTAACATGTATTACCCACTTATTTTGTGTGGTAAGAACACTTAAAGTCTACTC
Celera SNP ID:            hCV11434501
SNP Position Genomic:     24778
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17505):
TGGTAGATTTCAAATTCACAGACTATATCGCCATTCCAAGAAACTCTTTAATGATATTTTTGAATACTACTCAAGTTTGTTTATGGCTAGCTTAAGCTCA
M
ACAGAAAGAAATCTCAGTGGGGGAGATGTTCACTTGAGCCAGCATTTCTCCTCGAATATGATGAGTGTAATTTTTTTTTACGACCTTCCTGTGATGCATG
Celera SNP ID:            hCV3103244
SNP Position Genomic:     14882
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17506):
AGTCTTTAATTCCCACAACAACCCTAGAAGCAGGAACTATTGTTATCTCTATTTTATAGATAAAGTAAACCACAAGGGGTTAACACGTTTTGTCTTGTGG
R
TGACAAAATGCATTCAACTTGAGCACTTTGACTCAGAATCTTTTTTTTTTTTTTTTTTTAAGAGGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTG
Celera SNP ID:            hCV7439913
SNP Position Genomic:     8168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17507):
GTGAGTCGTGATTGTGCCACTGCACTCCAGCCGGGGTGACAGAAGAGACCTTGTCTCGAAAAGGAATCTGAAAACAATGGAACCATGCCTTCATAATTCT
R
GAAAGTTATTTTCAACTGATAAATCTATATTCACCCAAATAATCAAGGGTGAAGGTAAAATAATACATTTTTAGACAAGCAAAGACTCAGGGGTTACCTC
Celera SNP ID:            hCV7491665
SNP Position Genomic:     34732
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17508):
GCCCGCCTTACCCACAAGCCCCGCCCCCCCAGCCCCGATGGCCCTGCCCAGTCCCAGACAGAACCTACTACGTGCGGCGGCAGCTGGGGCGGGAAGGCGG
S
CGCTGGGGGCGCTGCGGCCGCTGCAGCGCCAGGGTCCACCTGGTCGGCTGCACCTGTGGAGGAGGAGGTGGATTTCAGGCTTCCCGTAGACTGGAAGAAT
Celera SNP ID:            hCV16231132
SNP Position Genomic:     6067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION


Context             (SEQ ID NO:17509):
ACCCACAAGCCCCGCCCCCCCAGCCCCGATGGCCCTGCCCAGTCCCAGACAGAACCTACTACGTGCGGCGGCAGCTGGGGCGGGAAGGCGGGCGCTGGGG
S
CGCTGCGGCCGCTGCAGCGCCAGGGTCCACCTGGTCGGCTGCACCTGTGGAGGAGGAGGTGGATTTCAGGCTTCCCGTAGACTGGAAGAATCGGCTCAAA
Celera SNP ID:            hCV16231133
SNP Position Genomic:     6076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION


Context             (SEQ ID NO:17510):
AGCCCCGCCCCCCCAGCCCCGATGGCCCTGCCCAGTCCCAGACAGAACCTACTACGTGCGGCGGCAGCTGGGGCGGGAAGGCGGGCGCTGGGGGCGCTGC
R
GCCGCTGCAGCGCCAGGGTCCACCTGGTCGGCTGCACCTGTGGAGGAGGAGGTGGATTTCAGGCTTCCCGTAGACTGGAAGAATCGGCTCAAAACCGCTT
Celera SNP ID:            hCV16231134
SNP Position Genomic:     6083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;SILENT MUTATION


Context             (SEQ ID NO:17511):
GAGCCCTAACATCAGCCTAACCAGATTTCAAATTTCATCTTTTGGCGGTATGCATTTTTAACAGTCACCCCTCAACTAACACATCATCCTCCCTCAACTC
M
CATTCTACTAACCCCATCAATGCAACTCCCTGCCCACCTTACTCAACATATACACCGCTGCTAGCCCCATACCCCGAACCAACCAAACCCCAAAGACACC
Celera SNP ID:            hCV7439918
SNP Position Genomic:     8748
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,1)      total(A,1|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17512):
TTAACAGTCACCCCTCAACTAACACATCATCCTCCCTCAACTCCCATTCTACTAACCCCATCAATGCAACTCCCTGCCCACCTTACTCAACATATACACC
R
CTGCTAGCCCCATACCCCGAACCAACCAAACCCCAAAGACACCCCATATGGTTTATGTAGCTTACTTCCTCAANNNNNNNNNNNNNNNNNNNNNNNNNNN
Celera SNP ID:            hCV7439919
SNP Position Genomic:     8805
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17513):
AAAAGCAATTTAAAGTCAGCGAGCAGGTTCTCATTGATAACAAGCTCCATACTGCTGAGATACAGGGAAATGGAGGGGGGAAAGCTGGAGTATTGATCCC
R
CCCCCCTCCTTGGTTGTCAGCTCCCTGTCCTGTGTGTGGGCGGAACATAGTCCAGCTGCTCTATAGCAAGTCTCAGGTGTTTGCAGTAAGAAGCTGCTGG
Celera SNP ID:            hCV7442492
SNP Position Genomic:     33671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:17514):
GTCCTGTGTGTGGGCGGAACATAGTCCAGCTGCTCTATAGCAAGTCTCAGGTGTTTGCAGTAAGAAGCTGCTGGCATGCACGGGAACAGTGAATGCCAAA
S
ACTTAAAGCAATTCGATGTTTAAGTATGTAAGTTCTTTTTTTTTTAGACAGCGTTTCGCTCTTGTTGCCCAGGCTAGCATGCAATGGTGTGACCTCGGCT
Celera SNP ID:            hCV7442493
SNP Position Genomic:     33798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17515):
GACGACTTGAGCCCAAGAGTTCCAGACCAGCCTGGCCACCTTAGTGAGATCCCTTCTCTTAAAAATAATAACTTATTGCCAGATTTGGGGCATTTGGAAA
K
AAGTTCATTGAAGATAAAGCAAAAGTAAAAAAAAAAAAAAAAAAACAAGGGGAAAGGGTTGGTTAGGCAATCATTCTAGGGCAGAAAGAAGTACAGGATA
Celera SNP ID:            hCV27273222
SNP Position Genomic:     35152
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17516):
CGGTTAGCTGGGTGGAATGGCCCATGCCTGTAGTCCCAGCTACTCAGGAGGCTCAGCAGCAGGACGACTTGAGCCCAAGAGTTCCAGACCAGCCTGGCCA
Y
CTTAGTGAGATCCCTTCTCTTAAAAATAATAACTTATTGCCAGATTTGGGGCATTTGGAAAGAAGTTCATTGAAGATAAAGCAAAAGTAAAAAAAAAAAA
Celera SNP ID:            hCV27273223
SNP Position Genomic:     35090
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17517):
GTATTTGCCTCTGGAAAGAACAACTGGCAGGACTGTTGTTTTCATTGTAAGACTTTTGGAGCCATTTAATTGTACTTAACCATTTTCATCTATTTCTTTA
R
TAAGAACAATTCCATCTTAATAAAGAGTTACACTTGTTAATAAGTGCTGGCCTCCTGTTGTTCTTTGTACACCCCACACAAAATTTCAAAGAAACTTTGA
Celera SNP ID:            hCV7442499
SNP Position Genomic:     35781
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17518):
CTTGGGCAACATGGCAAAGCCCCATCTCTACAAAAAACACAAAAATTAGCTGGGCATTGTGGCGCACACCTGTATTCCCATCTACTCAGGAAGCTGAGAT
K
GAAGAATTAATTGAGCCCACGAGTTCAAGGCTGCAGTGAGTCGTGATTGTGCCACTGCACTCCAGCCGGGGTGACAGAAGAGACCTTGTCTCGAAAAGGA
Celera SNP ID:            hCV27273224
SNP Position Genomic:     34596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17519):
GGAGAAACTGAACTGAGAAGGTAAGAAAAGCAATTTAAAGTCAGCGAGCAGGTTCTCATTGATAACAAGCTCCATACTGCTGAGATACAGGGAAATGGAG
R
GGGGAAAGCTGGAGTATTGATCCCGCCCCCCTCCTTGGTTGTCAGCTCCCTGTCCTGTGTGTGGGCGGAACATAGTCCAGCTGCTCTATAGCAAGTCTCA
Celera SNP ID:            hCV27273225
SNP Position Genomic:     33646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17520):
ACCTCCGCCTTCCCAGATTCAAGCGATTCTCCTGCCTCAGGCTCCCAAGTAGCTAGGACCAGGTGCGCGCCACCACGCCCGGCTAATTTTTGTATTTTGT
R
TTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTAGTCTCGAACTCGTGACCGCAAGCGATTCACCCACCTCAGCCTCCCAAAGTGCTGGGATTA
Celera SNP ID:            hCV27466457
SNP Position Genomic:     34006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17521):
TTCTGTCTTAGATTGGGGAACCCAAAGCAGATTGCAAGACTGAAATTTCAGTGAAAGCAGTGTATTTGCTAGGTCATACCAGAAATCATCAATTGAGGTA
Y
GGAGAAACTGAACTGAGAAGGTAAGAAAAGCAATTTAAAGTCAGCGAGCAGGTTCTCATTGATAACAAGCTCCATACTGCTGAGATACAGGGAAATGGAG
Celera SNP ID:            hCV27273226
SNP Position Genomic:     33545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17522):
CCGGCTAATTTTTGTATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTAGTCTCGAACTCGTGACCGCAAGCGATTCACCCACCTC
R
GCCTCCCAAAGTGCTGGGATTACCGGCTTGAGCCACCACACCCGGCACATCTTCATTCTTTTTATGTAGTAAAAAGTATAAGGCCACACATGGTTTATTT
Celera SNP ID:            hCV27466458
SNP Position Genomic:     34084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:17523):
CCTGCCTACAATGAGTTTAAAAAATAGAGAAACGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGAACATCCTGGCTAACACAGTGAAACCCCGTCTCT
W
CTAAAAATACAAAAAATTAGCTGGATGTGGTGGCGGGTACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGCGGA
Celera SNP ID:            hCV27273227
SNP Position Genomic:     31507
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17524):
GTGTTGTCCCTGCCTACAATGAGTTTAAAAAATAGAGAAACGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGAACATCCTGGCTAACACAGTGAAACC
M
CGTCTCTACTAAAAATACAAAAAATTAGCTGGATGTGGTGGCGGGTACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAG
Celera SNP ID:            hCV27273228
SNP Position Genomic:     31499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17525):
AAGTTTACTGTGTTGTCCCTGCCTACAATGAGTTTAAAAAATAGAGAAACGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGAACATCCTGGCTAACAC
R
GTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGATGTGGTGGCGGGTACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCA
Celera SNP ID:            hCV27273229
SNP Position Genomic:     31490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17526):
TGATACTTACCTCTAAACTGCTAAATAGCCACATTTTACGGAAGCATATTCTTCATACCTTTGCTCTAACTTAAATCTCTAACTTTGCACTATATTTAAT
W
TGGGTTTTTTGGGGGGAAGGGGGGAGTGGAGTTGGTTTTTTTTGAGACAGAGTCTCGCTGTCTCGCCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCA
Celera SNP ID:            hCV7442421
SNP Position Genomic:     21726
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17527):
AGATACCTGGGCTTATTTAACTTCTCTCTGGCCACCATGTCTTTTTCCAGCCTGAGTCAAAGTATATTCTTTGCTCTAACCTAATTCTTTTAAGAATGAC
M
GAGTAAAATAAGTAAAATTTATATGAGGAGGGAGAGGGAGGAGGCAATCAAGAGAATGAATAGTCCCTATTCTTGATTAATCCTTATTATAACTATGAGT
Celera SNP ID:            hCV7442422
SNP Position Genomic:     22374
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17528):
CCCTTCAACTGAGCAGTTTCACTAGTGGAAATACCAAAAGCTTCCTACGTGTATATCCAGAGGTTTGTAGATAAATGTTGCCACCTTGTTTGTAACAGTG
R
AAAATTGAAAACAACCTGGAAGTCCAGTGATGGGAAAATGAGTATGTTTCTGTCTTAGATTGGGGAACCCAAAGCAGATTGCAAGACTGAAATTTCAGTG
Celera SNP ID:            hCV3020731
SNP Position Genomic:     33397
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17529):
ACACTACTTAGAACAGCATGTCATTTAAATCTTATGAATTATTTCTGGAATTTTCCAGTTAATATTTTCAGACCACAGTTGACCATAGATAACAAACTGG
R
AAGTGAAACTGCAGATAAGGGGGGAGTCTGCATTCCACTTTTTAAATTTTTGGTACAGTAAGAATTAGTAGAGCATCTATTTGGTTGTAGCAAAGATAAT
Celera SNP ID:            hCV11434512
SNP Position Genomic:     27128
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17530):
CTTGACATTGTCGGGCTTTTCACATGTTGGTAATATTTATTAAAGATGAAGATCCACATACCCTTCAACTGAGCAGTTTCACTAGTGGAAATACCAAAAG
M
TTCCTACGTGTATATCCAGAGGTTTGTAGATAAATGTTGCCACCTTGTTTGTAACAGTGAAAAATTGAAAACAACCTGGAAGTCCAGTGATGGGAAAATG
Celera SNP ID:            hCV3020732
SNP Position Genomic:     33337
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17531):
AGAATTAGTAGAGCATCTATTTGGTTGTAGCAAAGATAATAAATGATTTAATATAAAATGATATATTGAAAATAAAAAGTGAAATTTGTTCTGTACCCTT
M
TTTGGAATTTTAAAAATAAACACTTGGATTTGTTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTCTTTTCTATAAACTATTTGAGATCAAGAATTACT
Celera SNP ID:            hCV11434513
SNP Position Genomic:     27289
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,3)      total(A,2|C,3) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17532):
TTCCCCACTACTCTTGTCTCTATCAGATACCATTTATGAGACATTCTTGCTATAACTAAGTGCTTCTCCAAGACCCCAACTGAGTCCCCAGCACCTGCTA
Y
AGTGAGCTGCCATTCCACACCCATCACATGTGGCACTCTTGCCAGTCCTTGACATTGTCGGGCTTTTCACATGTTGGTAATATTTATTAAAGATGAAGAT
Celera SNP ID:            hCV3020733
SNP Position Genomic:     33189
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17533):
ATCTTTTTTTTTTTAAAGCTCATCAGCTATTGTTAATGTTTGTGTATTGTATGTGTGGCCCAAGACAATTCTTCTTCCAATGTGGCCAAGAGAAGCCAAA
R
TATTGGACCACCCCTGAGTAAACACTGAAATTAATTAACTTCTTCCCTTTTGGATTTTAATTACATAAGTAATAATAAGCTCATTTTTTAATACTTCACC
Celera SNP ID:            hCV7442428
SNP Position Genomic:     22870
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17534):
CTAGTTTAAGTTGTTCCCCCTCCCTCTGAAAAAAGTATGTATTTTTACATTAGAAAAGGTTTTTTGTTGACTTTAGATCTATAATTATTTCTAAGCAACT
W
GTTTTTATTCCCCACTACTCTTGTCTCTATCAGATACCATTTATGAGACATTCTTGCTATAACTAAGTGCTTCTCCAAGACCCCAACTGAGTCCCCAGCA
Celera SNP ID:            hCV3020734
SNP Position Genomic:     33081
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17535):
TCATTTTTTAATACTTCACCCATTCCTGTATTGTTTGAAACATAAATCCTTTCCCCATTCCCAAAGGTAACAACATATTAACAGTCTGAATGTCATTCCA
R
GCTTTTCTGCAGTCATTCAAACATATCACTCTTTTTCTAATATTAGGAAAATCTTCACACATACAGAAAGAACTTTACAGTAAACTCACCACCTAGATCT
Celera SNP ID:            hCV7442429
SNP Position Genomic:     23051
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17536):
ATTTTTTGTTTTTGAGATGGAGTCTTGCTCCGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCATTGCAACCTCCACCTCCCAGGTTCAGCGAT
K
CTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACGTGCCGCCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCATCATGTTGG
Celera SNP ID:            hCV3020735
SNP Position Genomic:     30863
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17537):
CTTTTTCTGAGTCTATTGAGATGATCATGTGGTTTTTGTCTTTTATACTAATATTTTAATGTACTATTAATATGGTATATCACATTGATTTTCATGTTAA
R
CTAATGTTTCTGGGATAAATTCTACTTGGTAATGGTATATAATCCTTTTTATATGTTACTGGGCTTAGGTTGCTAGTATTTTGTTGAAGATTTTTGCATT
Celera SNP ID:            hCV3020736
SNP Position Genomic:     29355
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17538):
AACTGCTTGTTCCTGGGAGGCAGAGGTCGTAGTAAGCCAAGATCACGCCATTGCACTCCAGCCTGGGCGACAGAGCAAGACCGTCTCAAAAACAAACAAA
M
AAAAATATTAAGTATTTTAACACCTGAGCATGTGATGTCTTTCCCCTTGTTTAGGTCCTATTTCGTTCAGCGATGTTTTATACCTTTCAGTGTTAATTTC
Celera SNP ID:            hCV27273230
SNP Position Genomic:     28699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,5)      total(A,2|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17539):
AAAATCTCACAGATCACTACTAAAGAACTTACTCATGTAACCAAATACAACCTGTTCCCCAAAAACCTATGGAAATAATAAATTAAAAAAAAAAAAAAAA
A
GCTTGGCACAGTGACTCATGCCTGTAATCCCAGCACTTTGGGAGGTCGAGGCAGGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACA
Celera SNP ID:            hCV27273231
SNP Position Genomic:     28403
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17540):
GCTCCCAAGTAGCTAGGACCAGGTGCGCGCCACCACGCCCGGCTAATTTTTGTATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCT
R
GTCTCGAACTCGTGACCGCAAGCGATTCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACCGGCTTGAGCCACCACACCCGGCACATCTTCATTCTTTT
Celera SNP ID:            hCV27468422
SNP Position Genomic:     34046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17541):
TACAGGCATGCGCCACCACGCCCAGCTAATTTTGTATTTTAAGTAGAGACGGAGTTTCTCCATGTTGGTCGGGCTGGTCTCAAACTCCTGACTTCAGGTG
R
TCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGACGTAAGCCACTGCACCCGACTTATAATCAACTTTAATGCAGAACTTCACCACCACAGTCAA
Celera SNP ID:            hCV27273234
SNP Position Genomic:     26808
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17542):
CCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCACGCCCAGCTAATTTTGTATTTTAAGTAGAGA
Y
GGAGTTTCTCCATGTTGGTCGGGCTGGTCTCAAACTCCTGACTTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGACGTAAGCCAC
Celera SNP ID:            hCV27273235
SNP Position Genomic:     26757
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17543):
ATTTACCATCACTCCTTTTACAGAAGGTTTGCCTTGTATAATCAACTTTTTTTTTCTTTTTTTTTGAGACGGAGTTTCGCTCTTTTTGCCCAGGCTGGAG
Y
GCAATGGTGCAGTCTTGGCTCACCGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCA
Celera SNP ID:            hCV27273236
SNP Position Genomic:     26622
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17544):
AAGGTAGGAAACCCTATGGCCCTCAGAGCCTAAAATATTTACCATCACTCCTTTTACAGAAGGTTTGCCTTGTATAATCAACTTTTTTTTTCTTTTTTTT
T
GAGACGGAGTTTCGCTCTTTTTGCCCAGGCTGGAGCGCAATGGTGCAGTCTTGGCTCACCGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTC
Celera SNP ID:            hCV27273237
SNP Position Genomic:     26586
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17545):
GCTACTTGGGAGGCTGAGGTGGGAAAATCACTTGAACATGGGGGGCAGAGGTTGCAGTAAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGTAACAGAG
Y
GAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAACTCTCAGTTTCTTGGGCTCCTGTTTCTAGAACCTCTTATGTTCCCCATTTGTAATAGAAGAAA
Celera SNP ID:            hCV27273238
SNP Position Genomic:     26021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17546):
TTCTGCCATGTGGGTGGTCTTGTGGTAAGATATATACAGTGAAATTATTTTAGAAAGAAGAGGTAGGCCGACGCCTGTAATCCCAGCACTTTGGGAGGCC
R
AGGCGGGTGGATTGCTTGAGGTCAGGATCTAAAAACCAGCTGGGCCAAGATGGTGAAACTCCATCTCTCCTAAAAATACAAAAATTAGTTGTGTGTGGGC
Celera SNP ID:            hCV27273239
SNP Position Genomic:     25801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17547):
CCTATCATCGGGCGGAGGGTCCACGCCTCCGCCCGCCTTACCCACAAGCCCCGCCCCCCCAGCCCCGATGGCCCTGCCCAGTCCCAGACAGAACCTACTA
Y
GTGCGGCGGCAGCTGGGGCGGGAAGGCGGGCGCTGGGGGCGCTGCGGCCGCTGCAGCGCCAGGGTCCACCTGGTCGGCTGCACCTGTGGAGGAGGAGGTG
Celera SNP ID:            hCV27863089
SNP Position Genomic:     6037
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:17548):
CTCCTGCCCTGTCCAAGTTAATCTTTATCCCACCCCTCCAGAAATAACTACTATTCTGATGTTTTTCCACCAGAGATATCACAAGATATCACATGGTTTT
R
TGATTCATTGTGAACCACAGATGTACAAATATAGGTTAAATTATTGGTCAGAGGCCATACTGATGTTAAGTGCTTTTTGTTGAAAGGATTCATATTTATG
Celera SNP ID:            hCV7442430
SNP Position Genomic:     23860
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17549):
GAATTAGTAGAGCATCTATTTGGTTGTAGCAAAGATAATAAATGATTTAATATAAAATGATATATTGAAAATAAAAAGTGAAATTTGTTCTGTACCCTTA
K
TTGGAATTTTAAAAATAAACACTTGGATTTGTTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTCTTTTCTATAAACTATTTGAGATCAAGAATTACTG
Celera SNP ID:            hCV11434521
SNP Position Genomic:     27290
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17550):
TTATGTTCTAAACAGCTTCAGATTGTATTTTTGTCTTTTGCTTACACAAGAAATGTGATACCAAATGTAAGTCTTGCAAAAAATTCTTAAGAAATTTCCT
R
TTAGCTGGGTGATAGAGTGGAAAGATACAAGGGAAACTGCTGACTGGTTTTTGAGAGAATGAGGAATCCAAAGGAAACAAAAAAGGAGAAATTACACTTT
Celera SNP ID:            hCV16257790
SNP Position Genomic:     32567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17551):
TAGTTAGAAAAGTCATGTACAATATAAAGCCAAATGTTAATACAATTGTTAGCACCAAGAAGCAGAAAAATTACCTATCTACTAGCATTGTAATTATCTT
S
TGAGAATTGGAAGCATTACAAAATTTTATGTATATGTATTAAGTATGCTCTTGGGGTTTTCCATAGTCAAGGTCTCATTAAATTGTACTATCTTATTCAT
Celera SNP ID:            hCV11434522
SNP Position Genomic:     27597
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17552):
GGTTTTATGATTCATTGTGAACCACAGATGTACAAATATAGGTTAAATTATTGGTCAGAGGCCATACTGATGTTAAGTGCTTTTTGTTGAAAGGATTCAT
R
TTTATGATGATTTTAGTTCTATAGTCACTGCATCTTAGTCAGATTATTTGACTAGTATGGATGGATTTTACAAACATTTTGTGGAATTCTTTTTTTAACC
Celera SNP ID:            hCV7442437
SNP Position Genomic:     23954
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17553):
AATATAAAGCCAAATGTTAATACAATTGTTAGCACCAAGAAGCAGAAAAATTACCTATCTACTAGCATTGTAATTATCTTCTGAGAATTGGAAGCATTAC
R
AAATTTTATGTATATGTATTAAGTATGCTCTTGGGGTTTTCCATAGTCAAGGTCTCATTAAATTGTACTATCTTATTCATACAAGTTTATGTAAATTTTT
Celera SNP ID:            hCV11434524
SNP Position Genomic:     27617
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17554):
ACATCACAACAGCTTGTAGATATCATTCAGGCTTATCTTCCTATGGGCCAAATCGGACCTCCCAGCCTGTTTTTGTAAAGAAAGTTTCAGTGGAACACAG
M
CCCACCCATTCATTCAGTTCTGTCTGTGGCCTGCAAAGGTAGGAAACCCTATGGCCCTCAGAGCCTAAAATATTTACCATCACTCCTTTTACAGAAGGTT
Celera SNP ID:            hCV11649897
SNP Position Genomic:     26450
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,1)      total(A,1|C,1) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17555):
AACAAATGTTCTGTTCTACTTTCAGCTTCCTTGCCATTTAAAGGAAGTGGAAGAAACAGGTATAACTCATTGTCTGAACCTTTAAAAAATTAAGCCATGC
R
TATAGGAAGCAGCACATTATCTGTACTGTAAATTATTTGTTGTTAGTTGAAATTATTTGTTGTTTGATACTATACAAACTAAATAGAAATGCAAAAATAA
Celera SNP ID:            hCV7442438
SNP Position Genomic:     24311
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17556):
CAGTGGAACACAGACCCACCCATTCATTCAGTTCTGTCTGTGGCCTGCAAAGGTAGGAAACCCTATGGCCCTCAGAGCCTAAAATATTTACCATCACTCC
Y
TTTACAGAAGGTTTGCCTTGTATAATCAACTTTTTTTTTCTTTTTTTTTGAGACGGAGTTTCGCTCTTTTTGCCCAGGCTGGAGCGCAATGGTGCAGTCT
Celera SNP ID:            hCV11649898
SNP Position Genomic:     26537
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,1)      total(C,1|T,1) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17557):
TTGACATTTTATCATGAGATTCCAGCAATTCCATCCCATCTTCAGGCCCCACTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCCTGTGGCCCAGGCT
S
GAGTGCAGTGGCCCGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCGTTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGACTACAGGTGCCC
Celera SNP ID:            hCV3020744
SNP Position Genomic:     18630
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17558):
GGTTGTAGTCTGTCATGCCTGTGCCTTTGCACATGTTTTTATCTCCTTTGACACTCAGTTAAGGAGTCATGCCCTGAGGAGTATTCTCCCTCATCACCCC
R
GCCCTGCGTTCCTGTATAGCGTCCTCTGCATGTCTTCGTTGTATGTCCTTTCATACATTATAGTCACTGCTGAGATATTTCTGACTGCTATCACAATCTC
Celera SNP ID:            hCV3020745
SNP Position Genomic:     17576
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17559):
CTGGGCTACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAGAGAAATGAAACAAACCAATAATACTAGTAGGCACCATTTATAGAACACTTGAT
R
TGTTAGGCACAATGCTACATTCTTTTTTGGTTTTGGGGGATGGGGGCGGAGTCCTGCTCTGTCACTGAAGCTGGAGTGCAGTGGCGCCATCTTGGCTCAC
Celera SNP ID:            hCV11434527
SNP Position Genomic:     31746
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17560):
AAAGGACAAGCTGGAATTCTCCAGCAGGGGCTGAAGTGGTACAGGTGAAATTTCTTCAGGAAAGCCTCAACTCTACTCTTAAAGCCTTTAAACTGATTGA
W
TCAGCCCACTCAGATTAAAGTCTGACCGGGCACAGTGGCTAACCCCTGCAATCCCAGCACTTTGGAAGGCCAAGGCAGGTGGATCACTTGAGCTCAGGAG
Celera SNP ID:            hCV3020746
SNP Position Genomic:     14170
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,4)      total(A,4|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17561):
TGGCTTACACAATTATGGGGGCTGGGTACGTGAGTCCAAAAATCTGTAAAACGGGCCATCAGAAAGGACAAGCTGGAATTCTCCAGCAGGGGCTGAAGTG
S
TACAGGTGAAATTTCTTCAGGAAAGCCTCAACTCTACTCTTAAAGCCTTTAAACTGATTGATTCAGCCCACTCAGATTAAAGTCTGACCGGGCACAGTGG
Celera SNP ID:            hCV3020747
SNP Position Genomic:     14108
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,4)      total(G,4|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17562):
ACATTTATGAGGAGGAAGAAAAATCTAGTTTCTGCCATGTGGGTGGTCTTGTGGTAAGATATATACAGTGAAATTATTTTAGAAAGAAGAGGTAGGCCGA
R
GCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATTGCTTGAGGTCAGGATCTAAAAACCAGCTGGGCCAAGATGGTGAAACTCCATCTCTCCT
Celera SNP ID:            hCV27273240
SNP Position Genomic:     25772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17563):
GCAATTCACCTCCCAATGTGCTGGGATTACAGGTGTGAACCACCACACCCAGCCTATTTATCTTTTTAATTGGCAAATAATTGCATATATATATATATTA
W
GTACAACATGTTGTTTTGAAATGTGTATACATTGTAGAATGGCTAAATGGAGCTAATTAACATGTATTACCCACTTATTTTGTGTGGTAAGAACACTTAA
Celera SNP ID:            hCV27273241
SNP Position Genomic:     24769
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2|-,5)   total(A,2|-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17564):
GATTGAGACCATCATGGCTAACACGGTGAAACCACGTCTCTTCTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCAGGCACCTGTAGTCCCAGCTACTC
R
GGAAGCTAAGGCAGGAGAATGGCATGAACCTGGGAGGCGGAGCTTGCAGTGAGCTGAGATCGCGCCACTGTACTCCAGCCTGGGCTACAGAGCAAGACTC
Celera SNP ID:            hCV27273242
SNP Position Genomic:     23470
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17565):
AGGCCTCAGTGTGGCCCAGGATGGCTTTGAATGCTGCCCAACACAAATTAGTAAATTTCCTTAAAACATGCACAGATCTTTTTTTTTTTAAAGCTCATCA
R
CTATTGTTAATGTTTGTGTATTGTATGTGTGGCCCAAGACAATTCTTCTTCCAATGTGGCCAAGAGAAGCCAAAGTATTGGACCACCCCTGAGTAAACAC
Celera SNP ID:            hCV27273243
SNP Position Genomic:     22795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17566):
CCTTGTTCTAGATTGGGCTTTGGCATAAGGTACTGTGGCTGGTTTGATCTATCCAGACCACTCAGCTTCCTCTACATCAGCAATAAGGCTGTTTGCTTTT
Y
TGTTTTTGTTTTTGTTTGAGACGGAGTCTCGCTCTTTCGCCCAGGCTGGAGAGTGCAGTGGCGTGATCTCAGCTCACTGCAAGCTCCACCTCCTGGGTTC
Celera SNP ID:            hCV27273244
SNP Position Genomic:     19880
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17567):
CTTGCTAGTTTCAAACTTTTCTTCTATAGCTTTCTCACCTCTCTCAGCCTTTACAGAATTAAAGAGGGTTAAAGCCTTGTTCTAGATTGGGCTTTGGCAT
R
AGGTACTGTGGCTGGTTTGATCTATCCAGACCACTCAGCTTCCTCTACATCAGCAATAAGGCTGTTTGCTTTTTTGTTTTTGTTTTTGTTTGAGACGGAG
Celera SNP ID:            hCV27273245
SNP Position Genomic:     19806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17568):
AGGCTTTAAATATTTAGTGAACCATGCTATAAACAGACGTGCTGTCATCCAAACTTCGTTGTTCCATTTCTAATACACAGGCAGAGTATATTTAGCGTAA
Y
TCTTAAAGGCCCTGGGATTTTCAGAATGGTAAATGAGCATTGGCTTCCACTGAAAGTCATCAGCTTGCATTAGCTCCTAACAAGAGAATCAGCCTGTTCT
Celera SNP ID:            hCV27273246
SNP Position Genomic:     19359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17569):
TGAAAGGAATCTTCCTTCCTGAGAAGTAGGTCTCAACAGGAGGCTTTAAATATTTAGTGAACCATGCTATAAACAGACGTGCTGTCATCCAAACTTCGTT
R
TTCCATTTCTAATACACAGGCAGAGTATATTTAGCGTAATTCTTAAAGGCCCTGGGATTTTCAGAATGGTAAATGAGCATTGGCTTCCACTGAAAGTCAT
Celera SNP ID:            hCV27273247
SNP Position Genomic:     19319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17570):
CAAAATTACTCCTTGATCCATGGGCTGCAGAATGAGCAGGAATATTTTGAAAGGAATCTTCCTTCCTGAGAAGTAGGTCTCAACAGGAGGCTTTAAATAT
Y
TAGTGAACCATGCTATAAACAGACGTGCTGTCATCCAAACTTCGTTGTTCCATTTCTAATACACAGGCAGAGTATATTTAGCGTAATTCTTAAAGGCCCT
Celera SNP ID:            hCV27273248
SNP Position Genomic:     19272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17571):
TAGCAGGATATTCTGATGGAGTTTGACTTTGGTTTTGGGCCCAGGGAGTTTCAGATGCCTTTGAGAAATGAATGAAGTAGAGAGAAAATAAAAGAAAAAC
Y
AGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCGCTTTGGGAGGCTAAGGCAGGCAGATCACTTGAGACCAGCTTGGGCAACATGGCAAAGCCCCATC
Celera SNP ID:            hCV2948458
SNP Position Genomic:     34421
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:17572):
GCTGGGATTACAGGCATTAGCCACCACACCCAGCCCAGGTTCCACTTCTAATTCTAGTTCTCTTGCCATTTCCACCACATCTGCAGTTATTTCCACCCCC
R
AAGTCTTAAACCCCTCAAAGCCATCATGAGGGTTGGAATCAACTAACTCCAAACTCCTGTTAATGTTGATATTTTGATCTCCTATGAATCATGAATGTTG
Celera SNP ID:            hCV27273249
SNP Position Genomic:     18946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17573):
ATGGGGGGCAGAGGTTGCAGTAAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGTAACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAA
M
CTCTCAGTTTCTTGGGCTCCTGTTTCTAGAACCTCTTATGTTCCCCATTTGTAATAGAAGAAAAGGGACATTTTTTCTTGATATTTTTATCCAAGTATGA
Celera SNP ID:            hCV7442444
SNP Position Genomic:     26058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17574):
GCTTAAGTGAGAGTTAGGGAACAGGAATAGCAGATCCTAATAAAGGAATTACAATCTGCCACACATTGTGGAATTAGGGCAGTATAGTCTCCATCAATCA
R
ACAGAAGCAGAGAACCTGTCACTGTCCAGGGCACATAATTTCAGTTATGTTCTAAACAGCTTCAGATTGTATTTTTGTCTTTTGCTTACACAAGAAATGT
Celera SNP ID:            hCV29405770
SNP Position Genomic:     32422
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17575):
TGTAAACCAAGCTTGTCCAGCCCATGGCCCGCAGGCCTCAGTGTGGCCCAGGATGGCTTTGAATGCTGCCCAACACAAATTAGTAAATTTCCTTAAAACA
Y
GCACAGATCTTTTTTTTTTTAAAGCTCATCAGCTATTGTTAATGTTTGTGTATTGTATGTGTGGCCCAAGACAATTCTTCTTCCAATGTGGCCAAGAGAA
Celera SNP ID:            hCV29405771
SNP Position Genomic:     22763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17576):
TATCTAATTACTATGAAAGCCTAGTTCTACCTGTTTCATCATTTATAAAGGGAATTGCAACCCCCACCACGACCAACAAAGTAGTTTCAGAGATTGGGAG
R
GACTAAGCTAGTCAATGTAAACCAAGCTTGTCCAGCCCATGGCCCGCAGGCCTCAGTGTGGCCCAGGATGGCTTTGAATGCTGCCCAACACAAATTAGTA
Celera SNP ID:            hCV29405772
SNP Position Genomic:     22647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17577):
TCTCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGTT
Y
GGCCTACCCTGTTTTAAACCTCACCATAGTTTACTTTTCTTCTACCCTCAACTTTCTCAGAGCTTTCTTGTATTAAATAACTTTAGTATGATTAAAATAA
Celera SNP ID:            hCV29405773
SNP Position Genomic:     17357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17578):
CTTCTGGTTGCTAGGATGCTCTGATTATCTCTTTCCTTGGTAGATTTCAAATTCACAGACTATATCGCCATTCCAAGAAACTCTTTAATGATATTTTTGA
R
TACTACTCAAGTTTGTTTATGGCTAGCTTAAGCTCAAACAGAAAGAAATCTCAGTGGGGGAGATGTTCACTTGAGCCAGCATTTCTCCTCGAATATGATG
Celera SNP ID:            hCV29405774
SNP Position Genomic:     14845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17579):
CGATTCTCCTGCCTCAGGCTCCCAAGTAGCTAGGACCAGGTGCGCGCCACCACGCCCGGCTAATTTTTGTATTTTGTATTTTTAGTAGAGATGGGGTTTC
R
CCATGTTGGTCAGGCTAGTCTCGAACTCGTGACCGCAAGCGATTCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACCGGCTTGAGCCACCACACCCGG
Celera SNP ID:            hCV27465533
SNP Position Genomic:     34029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17580):
TGCTGAGATATTTCTGACTGCTATCACAATCTCTTTGAGTTCAGGGACTGCATATTTTATCTCTATCCCCAGAATCTAGCATAACCCCTAGCAAAGTAGG
R
ATTCAAAAATCACAGAATGAATAGTACATAGGTGATTTATAAAAATAGAACCATCCCACATAGTACCACTTTGTAACCCACCTCTTTTTCCCTCAATATA
Celera SNP ID:            hCV11434466
SNP Position Genomic:     17744
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17581):
CGCTTGCCTCGCAGGGGCTGAGCTGGAGGCAGCGAGGCCGCCCGACGCAGGCTTCCGGCGAGACATGGCAGGGCAAGGATGGCAGCCCGGCGGCAGGGCC
Y
GGCGAGGAGCGCGAACCCGCGGCCGCAGTTCCCAGGCGTCTGCGGGCGCGAGCACGCCGCGACCCTGCGTGCGCCGGGGCGGGGGGGCGGGGCCTCGCCT
Celera SNP ID:            hCV7602251
SNP Position Genomic:     6279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17582):
ACCACGCCTGCTAGTTTTCTGTATTTTTTAGTAGAGACAGGGTCTCACTGTGTTAGCCAGGATGGTCTCCATCTCCTGACCTCGTGATCCGTCCACCTTG
K
CCTCCCAAAGTGCTGGGATTACAGGCATTAGCCACCACACCCAGCCCAGGTTCCACTTCTAATTCTAGTTCTCTTGCCATTTCCACCACATCTGCAGTTA
Celera SNP ID:            hCV27273250
SNP Position Genomic:     18834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17583):
TTTACCCACAACAGAATTTCTTTCAAAATGGGAATCAGTCCTCTCAAACCTTGCTGTTGCTTTATTAACTTAGTTTGCATAGTATTCTAAATCTTTCGTG
R
TCAACAATGTTCACAGCATCTTCACTGGGAGTAGATTTCATCTCAAGAAGCCAGTTTCTTTGCTCATCCATAAGAAGTAATTCCTTATCCATTGACATTT
Celera SNP ID:            hCV27273251
SNP Position Genomic:     18438
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17584):
TATGGTAACTACTCTGGGACAATATGGGAGGAAAAGTGAAGATTGTGATGGTGTAAGAGCTAAATCCTCATCTGTCATATCCAGAAATCACTATATAATA
Y
ATAATAATGAAATGACTAAGTTATGTGAGGAAAAAAACAGAAGACATTGCTAAAAGAGTTAAAAGTCATTGCTCTGGAGAATTAGGAGGGATGGGGCAGG
Celera SNP ID:            hCV3103204
SNP Position Genomic:     35433
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17585):
ATGTGATGCTATTTTATAGGATTTTACCCACAACAGAATTTCTTTCAAAATGGGAATCAGTCCTCTCAAACCTTGCTGTTGCTTTATTAACTTAGTTTGC
R
TAGTATTCTAAATCTTTCGTGATCAACAATGTTCACAGCATCTTCACTGGGAGTAGATTTCATCTCAAGAAGCCAGTTTCTTTGCTCATCCATAAGAAGT
Celera SNP ID:            hCV27273252
SNP Position Genomic:     18416
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17586):
ACTATATAATATATAATAATGAAATGACTAAGTTATGTGAGGAAAAAAACAGAAGACATTGCTAAAAGAGTTAAAAGTCATTGCTCTGGAGAATTAGGAG
K
GATGGGGCAGGGGACTGTTAGGATGCATTATAAACTGAAAAGCCTTTTTAAAATTTTATGTATTAATATATGCATTCACTTGAAAAACTAAAAAAAAACA
Celera SNP ID:            hCV11649909
SNP Position Genomic:     35522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,6)      total(G,6|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17587):
CCTCAGAGACACTGCAGGTTCAGTTCCAGACCACTGCAATAAATAAAGCATATCACAATATAGGTAGTCACATAAATTTTTTCTCAGTGCATATAAAAGT
Y
ATATTTACACTATACTGATAGTCTAATAGATGTGCAATAGTATATCTTTAAAAAATGTATGTACCTTAGTTAAAATATGACTGGAAAATGCTAACAATCA
Celera SNP ID:            hCV27273253
SNP Position Genomic:     18034
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17588):
GAACTATACACTTTAAAAGGGTAAATGTTATGGTGTGTGATTTATATCAATAAAGTGGCTTTTAAAAGTCTTTGGAACCAGCCGGGCACAGTGGCTCACA
Y
CTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGTGTTCGAGACCAGCCTGGCCAACATAGCAAAACCCCGTCTCTACTGAAA
Celera SNP ID:            hCV27273254
SNP Position Genomic:     15689
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17589):
GATCACTTGAGACCAGCTTGGGCAACATGGCAAAGCCCCATCTCTACAAAAAACACAAAAATTAGCTGGGCATTGTGGCGCACACCTGTATTCCCATCTA
S
TCAGGAAGCTGAGATGGAAGAATTAATTGAGCCCACGAGTTCAAGGCTGCAGTGAGTCGTGATTGTGCCACTGCACTCCAGCCGGGGTGACAGAAGAGAC
Celera SNP ID:            hCV3103206
SNP Position Genomic:     34580
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17590):
TGAACTATACACTTTAAAAGGGTAAATGTTATGGTGTGTGATTTATATCAATAAAGTGGCTTTTAAAAGTCTTTGGAACCAGCCGGGCACAGTGGCTCAC
R
TCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGTGTTCGAGACCAGCCTGGCCAACATAGCAAAACCCCGTCTCTACTGAA
Celera SNP ID:            hCV27273255
SNP Position Genomic:     15688
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17591):
CCAAAGGGTTGCATGTAGTAAGAAATTGTGATTTAAGATATATTTTAAAGTTATAAGTAGCAGGATATTCTGATGGAGTTTGACTTTGGTTTTGGGCCCA
S
GGAGTTTCAGATGCCTTTGAGAAATGAATGAAGTAGAGAGAAAATAAAAGAAAAACTAGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCGCTTTGGG
Celera SNP ID:            hCV3103207
SNP Position Genomic:     34364
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:17592):
AACGTCACTGAACTATACACTTTAAAAGGGTAAATGTTATGGTGTGTGATTTATATCAATAAAGTGGCTTTTAAAAGTCTTTGGAACCAGCCGGGCACAG
W
GGCTCACATCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGTGTTCGAGACCAGCCTGGCCAACATAGCAAAACCCCGTCT
Celera SNP ID:            hCV27273256
SNP Position Genomic:     15680
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,3)      total(A,3|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17593):
AATTTTTTTTTACGACCTTCCTGTGATGCATGTAATTGGGTTTGGTTGCTTCTTCTGTATTTATATATAACATATGTTGGTGTCTTGTGCTTTTTTTTTT
T
AAGGCTGAGAAAATTTAAAGTCTTTGTTATCAAGCATGCCAGGGAAATAGTGATACCAGTTAGTAAAAAATGTTAGAGCTCTTTTTTGTTGTTGTTCTTC
Celera SNP ID:            hCV27273257
SNP Position Genomic:     15051
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17594):
ATGGGGGGAACCACCCCCCATAATTCATTTATCTCCACCTGGTATCACCCTTGACATGTGGGGATTATTACAATTCAAGGTGAGATTTTGGCGGAGACAC
R
GCCAAACCATATCAGGATCTAAGGGGAAGGTCTGGGATCTGGCATGTTAATCATTCTTAGTCTAATAATATAATCACCAAAAAGAATGCAGTATCCTAGG
Celera SNP ID:            hCV27273258
SNP Position Genomic:     13780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17595):
GGGGTAATCATATTAAGACTGCCCAGGAAGTCAACTCCAATGGCTTGGGAGGTTGAGGGGTGGCCAGAATTGGACCTGTGTTAATCCATTCTCATGTTCT
T
ATAAAGAACTGCCCAAGACTGGGCAATTTGTACAGGAAAGAGGTTTAATTGACTCACAGTTCCTCATGGCTGGGGAGGCCACAGGAAATTTAAAATCATG
Celera SNP ID:            hCV27273259
SNP Position Genomic:     13454
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17596):
GCACTCCAGCCTGGGTAACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAACTCTCAGTTTCTTGGGCTCCTGTTTCTAGAACCTCTTAT
K
TTCCCCATTTGTAATAGAAGAAAAGGGACATTTTTTCTTGATATTTTTATCCAAGTATGAATTTCTTCTAAGAAAACAAGTTATTTATTTTGTTCAGTGC
Celera SNP ID:            hCV7442451
SNP Position Genomic:     26098
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17597):
GGAGCTAGCTTTAAAAAGGAACAGTAAAAATATTAATCGGTTAGCTGGGTGGAATGGCCCATGCCTGTAGTCCCAGCTACTCAGGAGGCTCAGCAGCAGG
R
CGACTTGAGCCCAAGAGTTCCAGACCAGCCTGGCCACCTTAGTGAGATCCCTTCTCTTAAAAATAATAACTTATTGCCAGATTTGGGGCATTTGGAAAGA
Celera SNP ID:            hCV11434548
SNP Position Genomic:     35053
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17598):
CAAAAAAAAAAAAAAAACCTCGTTGGAACCAAAAATTAAATAAACAAGTTTTACTGTAATGCTATAGTAGCCTGGACACCATCTTTAGAAAATCCAAAAT
K
GCCTCCATTATGTAAGATTTAAATAGTCTCCCATCCACGAAAGTTAACTTAATTTCATGTTATAATTTTTTACGATCTCACTATCAGAATCTCCACAGTG
Celera SNP ID:            hCV8795960
SNP Position Genomic:     16046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17599):
GGAGATGTTCTCTTCCCTTCTGTTTTTTTGAAAGAGTTTGTGACAGATTGTTAGTACTTCTTAAATGTCTTAGAAAATTTTAATAGTGAATCGATTGAGA
K
AGGAATACGGAAATTGCTCCAAAGTGGAGATTCTAAACAAGGCTATGGGAGAAAGCAAAAAACTCTTCCATTGCAACATTTGATGGTCATTTGTACTTTC
Celera SNP ID:            hCV3103211
SNP Position Genomic:     29649
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17600):
AGGGGTAATCATATTAAGACTGCCCAGGAAGTCAACTCCAATGGCTTGGGAGGTTGAGGGGTGGCCAGAATTGGACCTGTGTTAATCCATTCTCATGTTC
Y
TATAAAGAACTGCCCAAGACTGGGCAATTTGTACAGGAAAGAGGTTTAATTGACTCACAGTTCCTCATGGCTGGGGAGGCCACAGGAAATTTAAAATCAT
Celera SNP ID:            hCV27273260
SNP Position Genomic:     13453
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17601):
TTGCATTTATATTCAGAAGGGATGATTTATAGTTTTTTTTGTTTTAATGCCTTCCCCTGGTTTTGTTATCAGGATAAAAGTGACCTCATAGAGTGAGTTA
R
GAGATGTTCTCTTCCCTTCTGTTTTTTTGAAAGAGTTTGTGACAGATTGTTAGTACTTCTTAAATGTCTTAGAAAATTTTAATAGTGAATCGATTGAGAG
Celera SNP ID:            hCV3103212
SNP Position Genomic:     29549
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17602):
GAGGGGTAATCATATTAAGACTGCCCAGGAAGTCAACTCCAATGGCTTGGGAGGTTGAGGGGTGGCCAGAATTGGACCTGTGTTAATCCATTCTCATGTT
S
TTATAAAGAACTGCCCAAGACTGGGCAATTTGTACAGGAAAGAGGTTTAATTGACTCACAGTTCCTCATGGCTGGGGAGGCCACAGGAAATTTAAAATCA
Celera SNP ID:            hCV27273261
SNP Position Genomic:     13452
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17603):
CTCCTAATCTTAGAGGGGAAGCTTTTCTCTCTCATCAAGTGCGATTTAAGCTGTGAGTGCCTTTATCACATTGAGGAAGATCCCTTCTGTTTCCAGTTTA
Y
TTAGTATTTTTTATCATGAGAGTATTATACATTTTGTGACATGCTTTTTCTGAGTCTATTGAGATGATCATGTGGTTTTTGTCTTTTATACTAATATTTT
Celera SNP ID:            hCV3103213
SNP Position Genomic:     29211
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Gene Number:                 47
Celera Gene:                 hCG1772922 - 107000109464830
Gene Symbol:                 ZNF350
Protein Name:                zinc-finger protein ZBRK1;ZBRK1;ZFQR
Celera Genomic Axis:         GA_x5YUV32VY4T(1818232..1852920)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12207):
GAGTAATTTCATGAATGCAGACTACATGGTTGTTTATTTAGTGATCAGTTACTTCATGTTTTGTGTCAGAGAAAACATGTACAAAACATTTGAGAAAATA
TTTTAGGACATTATGTCTAAAAATTGTATACTGAGAAAAATCCTATGAATGTGGCAGACTATAAAAGCCTTTGGTGGGAAGATAAACCCCCTCAGAAGTG
ATCATAGATCATGAATAAACTACTAATTCGTGGAAATGTAATAATTATAGGAACGTCTTTGCCCAAAAATAAAACTTCAACAGATTGAGAGAGTTCACAC
TGGAGAAATACTTTCCTCTGGCAAACCCCTGTGGCAGGGTTTTCAGTAAAATGTTTTGCCTCATCGTGTGCTAGGAAATAATGCAGAAAAAACTTATGAA
AACATTCAATGTAGAAGACTTTTAGGAAAATATCAGAGAATTTAATGAAGGAAAGAAGCCTTGGCAAAATGATGGATGAGAGCTTTCTGTCACAATTCTA
ACCTTAACAGATAATATGCCTCATGTGCATTTGGGAACAGGATAGCTTGAGCCATATTCCTAGTTGCCTTGTCACTGATTTTATACATTTTAAATTGTGA
CTTCCTCTAATCACGAACTAAAATTTAATATTGTATATAATACCGGAGTATTTTATGCCTGCCTCATTTTATTATATGATTAGCTCCTGCATTTCTTTGG
TTCTAAGTTTGTGTTATTTCAGAATAACTAAAGTACTTCAGAATGAAACTGGATACAGTATATTCAGTTCATAAGTGTAATTGACCATACTTGAATATGT
TTAAGTTTATAAGTAACATCAGGTGTTATGAAATTAATATAAATAAGATGTTTTTGTAAGTTTTTATTTTGAAATAAGTTTAGATTCACAAAATCTTACC
AAAATATTCCAGAGTTCTTGCCCTTAACCCAGCTTCTTCCAAAGATAACAACTTACATAAGCATAGTTCATTACCAAATACAGGAAAGTGAAATTGTTAC
AATACTGTTAACTACAGAATTTATTTGGAAATCACCAGTTTTAACATGCATGCATTTTTGTTTGTTTTTTATATGTAGCTTTAAGAAATCTTAACACATA
TATTGATTCATGTCACCACCACCGTAATCGAGATTCAGAATGTTGCATCAATGCAAACTCCCTCATGCTCCTTGTTTATAGTCACAACCTCTCCTCAGCC
CTAACCCTTGGCAATCAGAAATCTTTTCATCTTTAGTTTTGTCATTAGTAGCATGTTATAAAAATGGAATCATACAGCATGTACCCTTTTGGTATTGGCT
ATTTCAACTAAAGCAGATTAACCTGAAATCCATCCAAGTTGTTCTGCATATCATTGTTCTGTTTTTATTGGCCACTAATAATCTATGATACGAATATACC
ACTATTTGTTTATTCACCCACTGAAGGACATTAGTTTTGTTCCCGGTTTTTCTTACTGTTACAAATAAAAATCCTATGAACATTTGTACACACAGGCTTT
GTGTGAGCACAATTTTTTACTTCTCTAGGATAATTACTGCAGAGTATGATTCATGGGTCATAAGGTAAGTGTATGTTTACCTTTGTAAGATACTAACCAG
AGTGGTGTTTCATTGCTCACCAACAATATATAGAAAGGTTCAGTTGCTCCACATTCTTCCACTTGATGCTGTCAGTATTTTTTTTGTTTTGTATTGTTTT
GTTTTGAGATGTAGTCTTGCTCTGTTGACCAGGCTAGAGTGCAGTGGCACGATCTTGGCTTGCTGCACCCTCTGCCTCCGGGGTTCAAGTGATTCTCCTG
CTTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACTGCGCCTGGCTAATTTTTGTATTTTTAGTAGTGACGGGGTTTCATCATCTTGGCCAGGC
TGGTCTCGAACTCCTGACCTTGTGATCCACCCGCCTCAGCCTCCTGAAGTGCTGGGATTACAGGCGTGAGCCACCACGCAGGACTGGAATGTTTTATTTT
ACCTATTCTATTGTGTGTGTATTGGTATGAATACAAACATACCAATTGTATGTGGCCTTCCATTTGCACCTCCCTAAAGGCTTTTTTTTTTTTTTTTTAA
GAGACAAGGTCTCACTATGTTGCTCAGGCTGGAGTGCAGTGGCTATTCACAGGCACCATTATAGCACACTACAGTCTCAAACTCCTGGTCTTGAGAAGTT
TTCTGTCCCAGCCTCCAGAGTAGCTGGGACTGCAGGCATTTGCCACTGTGCGCTGCTTAGAGCATTGTTTATTAATGCTGGATAAAGATTTTATCCAGCT
GGATAAAGGTTTTATATCACTTGCAAATATTTTTCCATAGATGTGGTTCTTTCTTTTTTTTTCTCAGAGAAAAAGATTTTAATTATGATGAAGTCCAACT
TTTTTTTTTGAGATGGAATCTTGCTGTCTTGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCT
TCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCTGCCATCATGTCCCACTAATTTTTGTACTTTTGTAGAGATTGGGGTTTCACCGTGTTGGCC
AAACTGGGCTCAAACTCCTGACCTCAGGTGATCTGTCCACCATGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATTGCACCCAGCCTTTTTTTTT
TTAATGGATTGTGGGGTTTTGGCATTACATCTAAGTATTCCTTCCTTACTGTAATTGATAATTCTTTTTCCACTTCCTTTGACAAAATAATGTAGTTTTG
CTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTCTCACCCAGGCTGGAGTTCAATGGCATGATCTTGGCTCACTGCAACCTC
CGCCTCCTGGGTTTAGGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAGGCACGCACCGGCATGCTCAGCTAATTTTTGTATTTTTAGTAG
AGACGGGGTTTCACCATGTTGGCCAAGATGGTCTTGATCTCCTGACCTCGTGATCTGGCCACCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCGTGAGAC
ACCACGCCCAGCCAGTTTTGCTTTTTAATATTTAGCAATATCCATTTAAATTCATCTTTGTATATAGGGTAAGGGTTAATTTAAAGTTCAGCCTATGGTT
GCCCAGTTGATTCAACAGTATTGAAAACACTGTCCTCTTTCCATTAAATTGATTTTGAACATTTGTAAAAATCAGTTGCCTGTTCTTGTGTCCATTTCTT
GACTCTATTCTGTTGATGTGCGTGTCTATCACTCCACTAATAATCTACGGTCACTCCCATCAGAAATGACATAATATGCTCTATGAGGTAAAACAGCTAT
GTTACCTCATATAAAATGTTCAAAGCCAGAACCTGGACTTTGGGAAATGTCCCATATCCCTCTCCGGAAGCCCGCCTCCCAGTCTCTCGGTGTTCTTAGA
GATGGCGAAGGATGGGGTTGCAGCACCAGAATTCCAGAATCGGAAGTAGGTTCTGATACGTGTTCAGCCTTTGGCAGCTGCTACTGTAGCCTTGAAAGCC
TGATGCTGCGTGTGAATCCGGATGGGGAGCTTGTGGGGACGACCATGAAGTGGAAACGCATGTGAATGTCCGTGTTCAGGGGTTTTATTTCAGTTTAGTC
ACCGAGGAATATGGGTGTGAGAAAGAGACCCTTGGGATGTCAAAGGTTAAGGCTTAGTTTTAAGAGTTTAATGACTGAGGGTCCCACGGACAGAGCTTGA
GGTCTATATGTTCACTTTTCATGAGTCTCAGTAATAGAAAACTGGGGAAAGTGTGTCTCAGTGAATGCTGTTTTTTGCTCAGATTTGCAATTTAATATGG
GGCTCAGATACAGAGAAGCCCGAGCTAGGAAGAGGAGTGGCGTGAATGAAAGGTCTAGGGGGAGGAGTGTCAAAGGAGTGCCTCTGTGGTAAGTTTTAAA
TTGAATTTGAAGGCAATTTTATTTAGAGGAAGACGGGGCTTGTCTGTGTTTGAGAATGTAATGAGGCTGGAGGCTTTCAGGTGTGCAGTTGAAGGTTAGT
GGTTGCTTTGAGACTAACTGGATGCTGGAAACACTTCCTGTCAGTCTTTCAAGTCCAAATCTGTCCTGAAGGTTTCTATTTAAAAACTTTTTCTTCCTAG
GTCCACTATTCTCATTGTACCCATAAAAATCAGAGTAATTCAGGGTGACGAAGTGGTGTCTTTACCGAGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTGC
AGTGGCGCGATCTCGGCTTACTGCAACCTCCGCCTCCCGGATTCAAGCGATTCTCCTGCCTCAGGCTCCCGAGTAGCTGGGATTACAGGCGCGCGCCACC
GCGTCCGGGTAATTTTTGTATTTTTAGTAGAGACTGGTTTCGCTTTGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAGATGATCCGCCTGCCTCGGCC
TCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCCCACTTCACTTTCTTAAATGTTGTGTTTAGAAGCACAAACTTAAAAAAAAATCAAGTCCAC
TTTATTAATTTTATTTTGTTTTGTGGGTCATCCTTTACTCTCCTCTCAGAATTAACTCACGTCCATGAGGATTATCTCCCTTTTCCTTCTCTAAGTTTTA
TACTTTCTCTTAAACTTAGATCTATGATCTATTTTGAGTTAACTTTTGTGTATGGTTTGAGGGTCCTAACTCATTTTTCTGGATGTGGATATCCAATTAT
CCCAGTGCCGCTTGTTGAAAAGACTATTCTTATTGAATTGTCTTGGCACTTTTGTCAAAAACTCTTAACAATATTTTTATACTCTCAATTCTGGCTCTGC
TCTTCCCATTGGCACCTTTACTAAAAGTGGCCTTTCTAGGAGGCCCAATTCCTTTAGTCTGTCGTGGCCAGGCTCACATCGTAATTCATTCTCAAAATCT
CTTTTCTCTCCTCTCCTCTCCTCTTTTCTCTTCTTTTCTCCTCTTTTCTCTTCCTTCTCCTCCTCCTCTTCCTCCTTCTTCTTCTTCTTTTTTGTAAATA
ATAATCATTTTTTCGAGGCCAGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGACAGGCAGATCACGAGGTCAGGAGGTCGAGATC
ATCTTGGCCAACATGGTGAAAGCCAGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCGCGTGCCTGTAGTCCCAGCTACTTGGGAGGCTAAG
GCAGGAGAATCGCTTGAACCAGGGAGGCAGAGGTTGCAGTGAGCCCAGATCTCGCCACTGCACTCCAGCCTGGCGACAGAGCAAGACTCCGTCTCAAAAA
AAATTATAATTTTTTTCTTTCTTCACCACCCGCCCCCCCGAATACCTGCTATTTTTCTGTTCTTAAAAACCGCTTCCTGCAAGCTAATTTTCGCCAGACG
CTTTCCCGTGGGTGTCTGCCTACCTGATGTGTTGCCTTTTCCCTTTCTACCTGATCTGTTACCTTTTCCATTTCCAATTCATTCTCTGGGATACCTACAC
CTGGCTGCACTGTTACTTGTCTTTTTCAAAACCTTTTTTTTTAAATTTAACAAAGTGGATGGAAAAGCGCTAAAGGCAATTTAGCTTGCCCCATATTTGC
CTGATAAAGCCTGAGTCTCTGAAAATCTGCCCCCTTTCGCAAGACTTTAAGTGCCAGGAAACGAGGCGATTTCAGTGACTTCTCTTCTTCCCTGGCTCCT
GGCTCAAAAACCTGCCACTGCCTTCTGTGCGTCCAATTTTCAAACATGGCTGCCGTCAGGAGCCACGGCTATGGGCGCGGCCATTTTACAGAGTAGGAAA
TGCCGTAAATGCGCTTGTCCTTGCTCTTTTAAACATTTTAGGTTCTCCTCGGCCGCCGTAGGTGGACCATAAACCCGTGCGAGGACTCCAGAAGTAGGAG
CAGTTTACGGAAGTGTAACGTTGAGGCCCTTCTTGTGTATCTGGAGAAAATAGAGGTCAGTGTGTGGTTTTGTCCCTGAAAGTTTTTTGTCCTAGTTCAG
GTTTTGTCTCAGTGGAAGGTTTGGGAGATCTGAGGACGTGGTGTACCCTGGACCACATAGTTTTTGGCAGGAAGACTGGGGAGCGCCGGGGTATAGGCAT
TTGGGAGGTACCTGGTGGGAGTCTGTGATCCCCCTGTCTGTGGTCCGCGTGCCTTTGGTGTGAGTACAGTGACTAAGGGTCTGTAGTGATCAACGGCCGT
GTCCTAACTGTCAAGGTATGGATCACTCTGCTTGTAAAGGATGGAGGTGGCGATTAGGATCGATGCGGCGTCTGCTTCGGGTTCAGGATTTAATTTGGAA
CTCAGTGATGTTGGAGTCTGGGAGGATGTCCATCGCTGTAGAGTGTCTGGTCCGTGGTTCGGATGAGTAAGAGGCATGGGGCCAGTGTCTGTGGTACAAA
GGCTTGTGAGGGCTGAAGCTTTCGAGACTTTGGAGCCCTGGGTCCTGGGTTGAGGTTCGAACCTCGGTTACTGGGGCAAAAGGCGACACAGCCCCCAGCA
TTAGTTCGAAACCATATATCTACTCTTCTGATCCTTGGGGTGGCTATTTACAGATCGGGGGGTCAAGTTCAGTCATACCCTCCGATTATATATTGTCTAT
GGCTGCAAAGGCAGCGGTTGAGTTGTTGTGACAGAGACCTCGTGGCCGGCAAAATCGAAAATGTTGCCAACCTCTGCATTCACTTCTTTTATTTTTTATT
TATTTTTTTTATTTTTTGAGACGGAGTTTCACTTTTGTCTCCCAGACTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAATCTCCGCCTCCCGGGTTCA
AGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCCCACGCCACCACGCCCGGCTAGTTTTTGTATTTTTAGTAGAGACAGGGTTTTACC
ACGTTGGGCAGGTTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCACCTTGGCTTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCC
TTCACTTCTTAATATATAGTGAGTGTTGCTTGCCCGCCTTATATTCACACTTTCTTAACAGAATCTCCATTTCGTGAAGTATTCATCCCTGTGGCAAGGC
GACCCAAATCCCAGTTTCTTAGTAAGGCCTTGTTGGTCTTAGCCAATCTTGCTGGTTCCAATTGCCATTGCTAGTGATAGGTTTGACATGGAAATGAGCT
TAGGCGTATGGTGCAATTCTAGCCAACTATGTATGTGAAAATCTGCCTGGGAGTTTCTGAGGGAGCRTTTTCTTTTTTAAATATGTAATTTCTTGAATCT
CTTTTTCCATGTTCGTGATGATATCGCCTGAAAATAACATTAATTTTCTGTCTTACTTTGTAATGCTTATAATTCATTCTTATCTTAATGCATTGGCTCA
ACTTTCCAGTATAAAGTAGGAAAATAGGGTGTTAGTGGACGTTCTTGTTTTATTACCCACCTGTAAAATTCACCCGTTGTGTTGTCTGGAGTTAACACCT
TTCCTGGAGGTAAACTGTTTGGTATGGTTGATCTCTTCCTTTACTTTGTTAATTTTTCTACATTTATATATTTTAAATGTACAATTTAATTATCATGGAG
GCAATATATGTATAAGCAGTCATTGCCCAGGTCAAGAAATAGAATATGGTCAGCACACCAGTGGTGTTCTGTGAGTCTTTTTCCATTCTCACACCGAAAA
GTATTTTAGGCTTTTCTTTATATAATTAATCATTATTTATCATTGTAGTTAATACAGTTTTGCCTATTTTAAACTCTGTATATCAGTGGAATTGTACATC
ACTCTTTTTTTGTGTCAGCCTTCTTTTGCTCATTATTGGTGAGGGTCTTTCCTGTTGCATCTGAGTATATTTTCTTTGCTCAATGACAAGGATCAGGCGA
ATTTACAGTAAATATTTTAGGGCTTGCAGGCTACATATGGTCTCTTGCATATGCTAATTTGCTTTTTGTTTTACAGTCTTTCAAAAATGTAAAAAGCATT
CTTGCAGGCTGGACCAAAGGTATAATAGGTTTTCTATCACATTCCATTATGTAAAATATAGCAGTTTTTTCTATTATTAATTACATTTGTATTACCTAAA
GCTTGTATTATTAAGAATAATGCATGTGTGAAAATTTGTGTAAATGTCTTTTGGTTCATATGTGCTCTCATATGGGGGAGGCAGAGATGTATATCTAGAY
GTGCACCTCGGAGGAAAATTGCTGCTTCATAGAGTGTGTATAAACTCCGTCTAAATAGATGTCAAACTGTTTTCTAAAGTGGTTGTACCACTTACAGTTC
CCCTAGCAGGATATAGTTTGCTTTATAGGGTGCTTTATGTGGCCTCTTTAAAATATCTGGCCATACCCTAATAACATTGAGAGATTCTCCTATATTAATG
TTCTTTAAAGCTTTATTGATATGTTTCTACCATTGAAATTGACAGTTGATTCTAAAATGGTTTTTGTGTATGTTGTGAGGGGGGTTTTAACTTTCTGTCC
CCATCCCCAGTACCATTTATTGATTTTTTTTTTTTTTTTTAATTTTTTTAGATAGAGTCTTGCTCTCGTCGCCCAGGCTGGAGTGTAGTGGCGTGCTTGG
CTCAACTGCAACCTCTGCCTTCTGGGCTCAAGTGATTCTTGTGCCACGGCCTCCCGAGTAGCTGGAATTACCAGCAGGTGCCACCTTGCCTGGCTAATTT
TTGTATTTTTAGTAGAGATGGGGTTTCACCATGATGGCCAGGCTGGTCTCCAACTCTGGCTCAAGTGGTCCACCTGCCTGAAGGGGGCCTGCCCCTCCAC
ACCTGTGGGTATTTTTTGCAAGGTGGAAATGAGAGACTGAGAAAAGAAATCAGACACAGAGAGAAAGTACAGAGGAAGAAAAGTGGGCCCAGGGGACTGG
TGTTCAGCATATGGGGGACCCACACCGGCACTGGTCTCTGAGTTTTGTTAGTATTTATTGATTACTATTTTTACCATCTTGGTGAGGGGGGTGTGGCAGG
ACTATAGGGTAATGGTGGGGAGAGGGTCAGTAGGAAAACATGTGAGTAAAGGACTCTGTGTTATAAATAAGTTTAAGGAAAGGTCCTGTGCCTTGATGTG
TACGTAGGCCAGATTTATGTTTGACTTTACACAAACATCTTAGTGTAGTAAAGAGTAGTATTGCCGCCAGTATGTCTCACCTTTAGTTATAAGGTGGTTT
TCTCCTATCTTAGTAAATAGAATGTATGATTGGGTTTTATACCGGGACATTCCATTCCCAGGGAGGAGCAGGAGACAGATGGCTTTCTCTTATTTTAACT
GTAAAGAGGTCTTCCTCTTTCACTAATCCTCCTCAGCACAGACCCTTTACGAGTGTTGGGCTGGGAGATGGTCAGGTTTTTCCCTTCCCACGAGACCATA
TCTCAGGCTGTATCAGTGGGAGGAAACCTTGGACAATACCCAGGCTTTCTTGGGCAGAGGTCCCTGCGGCCTTCCGCAGTGCATTGTGTCCCTGGGTACT
TGAGACTGGAGAATGGTGATGACTTTTACCAAGCATACTGCCTGCAAACACATTTTAACAAAGCACGTCCTGCACAGCCCTAAATCCATTAAACCTTGAG
CCAACACAGCACACGTTTYTGAGCACAGGGTTGGGGCTAGGGTTACAGATTAACAGTATCTCAAGACAGAGGAACTTTTCTTTGTACAGATTAAAATGGA
GTTTCTTATGTCTTCCTCTTTCTATATAGACACAGTAACAGTCTGATCTCTCTTTCCCCCACACCTTCCTCAGCTTCCCAAAGTGCTAGGATTACAGGCG
TGAGCCACGGCGCCCTTAGTTCCATTTATTGAAAAGACAGCTTTTATCTACTTCCCTGTAGTGCTATCATTGCCATTGAGTCTCTATATGTGCTTAATTC
TGCTTATAAGGATTTTATTCTGTTCCTTTGTCCTATTTGCCTGTTATTGTACTAATATTGTGCTGTCCTAATTAAAGTAGCTTTATAAGTCCTCATAACT
GATATGGCAAGTCTTCTAACTTTTTTTTCAAACTTTAAAAAAAAGTTTATAGCTATTTAAACTTTTCAGTATCAGTTTGGGATTRTGACTGTGATTTCAT
TGAATCTGTAGATTTGGGAGACTTGACATTTTTAAAATGCTTTGTTTTCCAGCCCATCTTTATAGTACATCTTTGCATTTATTTAAAACTGTTAAAATTT
ATCTCAGTAAATCTAATTTTAAAAATATATTCGAGTTCTTCTAAATGATATCGTTTATGTCAGCCTAAAAGAGGAAACTGCACAAAATACAATTTTAAAG
AGTTTACTTGAGCCAAAATGAGGACAGCTGCCTGGGAAAATACTTTCAGGTTGCCTTGGTTAAGTGCTCTGTTAGGATTTTGTTAGAAACAGGTTTTAAA
GTCAAAAGGGAACAAACCGTGAGCTGACATAAAGTTGTTTGGCAAGAATTCTCATTGGTTTACAGAAATAATATCAATTAACAATTGGCTGTACATTGTT
AACTATGGGGTTTTATGAGTTAGGATGTCCAGTGAATGGCATTTTATGGCTACTCAGTGTGAGTTAGTCTAGAGCCTACATAGCAAGTGGCTTTAAGAGA
TAATTATTTAGCTTGAGGGGGAAATGAGATGTGACTATTGTCACATTAAATTTTTTTTTTAGTTTTTAATTTTTTCTTTTTTCTTTTTTTCAGGGGAACC
CCTATCAGAAAGACTGCTGTCACATTTTAATGCCTCTCTAGACCTGATAATTTAAAGGGAGTCACATTCCTCAGATAAAAGATTCATTTCTTTCTCATTT
ATAAATTTTATTTTGTTTGTTGATGGTCTGTTCTGTCAGTTACTAGGAAAGGTCTGTTAAAGTCTTTAGTCTGAATTTTCTATTTCTTGTTTTTGGTTCT
ATTTTTTGCTGTATACATTTCAAGACTGTTGTTAGGGGTATACATATGGTGTATTTCTATGAATGAAGAGCCAAATTTCACCTCTTTTCAGTGAGCATTG
TTTCTCTTTCTCTCTGTTAATTCTTTAGGATTTCTGGTCAGTTTTGTCTGAGATATAGTTATAACAGATTATCTTTGGTTACTCTCTCTGTGGCATATTG
TCTCCAACCTTTTATTCTCAAGCTTCCCATATCATTTTGGTTCAGACATATCAACTATAATAACCGCATGTGGGGAGGCTGAGGCGGGTGTGTGATGAGA
TCCGGAGTTGAAGGCCAGCCTGACCAAGATGCTGARATCCGATCTCTACTAAAAATACAAAAATCAGCCAGGCGCGGTGGCGGGCCGTAACCCACATGGA
CCCATGGGACTGCACAAATGGGGGTGAACGTGGGAATAAAGACAGGAGACAAAAGAGTATATTTGGGAGAAGGGGTCAGGGAGCACCTTACCTCTAGTGG
ACAAGGGCCCTGAGCTTTACACAGCCCTCCGTATTTATTAGGCAAAAGAGATAGGAGGGTGGGGGGGTGGAAGAAGGGGTCGGCTGCTCAGTTCAGAGTA
GGCTTGCAAGACTGCATTCTCTAGATGTCGCAGTAGATAACCTCGGTGCCAGGGAGTGATTGCCTCCAGCAAACCTTATGTTGGCAGGAGCAGTCCTGAG
TTTGCTCACRTCCTGTATTCATGATAAACAGTTTGCTGTTTGATCATATAGCCTCCAGCAGAATGCTGAGTTGGTCACGTCCCACAGGCCTTTGGCTCCC
TGCATATCCCCCTTTCTGTTTATGTATTAATTGAAAGAATGTAAGGCTGGGCTGGGMRGCTCTCATTCTCCAATTGGTGGTCCATCCGATTTTACAGACT
ATAAACCGAAGACAGAGACAAAACAACATTATTCCAAGAACTACATATAAGATGTTAATGTGGTGCCTTAGATAGGTCCAAGGGTTGAGGCTCTCCAGGC
CTTCCTGGAATTCGGTCCARTCTTCTAAAGAAGGCTGAAATTCTTGAGTTTGCCTATTTAAATCAATAATTTTGTTTTGTAATTCACCAATATCAAAGGT
GATGTTGGATGTGAAAGCTCCTTGCAAATGGGCTTTCACAAGGTCCCACGGATACTCACTTTGGTTATATTCTGAGTTAGTTACGCAAATATGAATGTGA
TTAAAATGATGACGCAATTGCTGCTGCAACTGCAAGCTTTGTACCTGTTCTCCTAACCACAGAACCATGGATTTCAACATTGCCACTTCAGTTTGTAACT
CAGTGTTAATTTTATTCTGAAGTAGCCTCGCTTGGTCAGCTGTGCGTGTCCAGTTCTCCACCTACTGAGATGTTTGAATAGAATTATGCAGAGTTACAGA
AGATATCACAACAGAAGTTATTAGTTTGACCAAGGAAACAATAGCAAAAATTATGCCTAAGGCTCTATGGACACAGTGAGTAAGSTGAGTTAGAAGAAGT
GTTACAAAAATGCAAAGCAGGTGTGGCAGCCCAAGGCTCAGACAGATTAACAAGAATCCATAGCCCAGGGATGCAACCCAACATTATCAAAGTAGAGATA
TTATGTGTTCGTAATGTGCTATGATTAATGCAGTGTGATATAACTGGCAAGATTTACAGGTCAATTGGGTATTGTTTACCTGAAGCTGGTTCTTCTTAGC
TGCCAAAAAGGCATAAGGATTAAAAACACAAACTGTAAACTGAGTGGTGATATTCTTTACAAATGCAACATTAAGACTGTGTTGCTTACTATTGCTATTA
TTAGACAGTGTTCCAATCCAGATGTTGCCATTCATAAATGGGAGTGCTGCCTTCCATATAGTTTCTTGAATTGGTCCTTTCCTCCCCAGATAATGCAACT
GAGGAAGAGGTGGGCTAAAGCCTGCTCCATGCCAAGCAATCTGAGCAGCAGACTGGGATTGGATTCTGCTGTTGTATAAAGAAGAAGCATTAAAAGCTTG
CCGCCAATGCCAGTGAAGTTTGTGCCATGATTTCTGACTTTCACCTTTTCCATCTAATTGACCTTTAGGTTCCCAATCCACAGTGTCTTCAGTTGACATA
TATTGTTTACTAGCCAGTGGATCAAGACACTGGGTCCACAGAGTGGGGTAGGAACTATTGAATGGAATCCATTCTGTATAATCAGCACAATTAGGGTGAC
TGGACTGGGAATGATTGGTTAGCACACCAGTTACATTAATAGAACCAAGACCTAATAAGTACATAATTTTTCCATAGTGACTCAACCATGTTTGAGCTTG
AATTGCAAGACAGCTATGGCTGAGCGACGTCTTTGTGGTGATAAACAAAGGGAGTCCTTCCAGTGGAGTGGTATAATTAATGACATTGTTCTGAGAGTCT
AACTTTTCTATGTCACGGGGAGTTAGGGGTCCTGGAGCCCACTCTCCCTGATCGTGATAAATCTCAGGAGGAGTGAGCTCCAAAGTATAGGCCATACTGC
TGGGGGATTGGGAACATATGCCCAATATGTTTTTGCCTGTGCACAGGGAAAACGTAGTGCACAGGACATTATGGCTAACATGGCCAAGAGCATGGAATCA
GGGGTTTTGCCTGTCCCTGACACTCCAGTAGTTTCTCAGCTTCCTGTGTGGTTTTCTTGAGTTGTCCCCAGGTTATGGGGGTTGATGTCATCATGACTCT
GGTTGGCCTTCTCTCCATCTTTGCACTCAGGCTCAGCTGACTCATAGCTCGTACAGGAGGGACTGGGCCCATGGTTGGCCACCCTGGGTTCCTCCAGTCT
CCCATTCCATGGTCGCATGCACCTTGAGGGCACCCACATGGCTTGTCCCATCTCCTGTAAACACACAAGCATACCCTCTTCCCCAGGTCAGTAAATCTAC
CGGGCCTTTCCATTGTTGTCCTTCTGGGGATTTCCATAACACTTTCAGATAAACTTTGCTTTTTTCCTCTAACACTTGCCAATGTCTTTCTGCTGGAGTC
TTACCATCCATACCGGGAGTCAGAAAATTTAAAGTAAATAAGGCTAAATGTAGTTTTGATTGAGGTGGTAGTTGGCCTCCTATACCCCCTTTTTGTTTTT
TCAACATGCGTTGTAATGTTTGATGTGCCCATCCTATAGATATGACTGACACATCAGCTCCCATGTCCATAAGCCCATAAAATTTCTTTCCTTTAATGTG
TACTACACAGGTAGGTCTATTAGAGGCTATGGGTTGGGAAAGATAGATTTCCCATGTAGTTGTGCTCCCAAACCCTTTATTTCCTCATTTCTCTTTTCAT
GGGGAAGGGTGTAATTCACAGGGAATAAGCAATAATTGAGCAATATATTCTCCCAGTTCAAAAACCCAAAGATTTTGTGACATTAAAACTACTTGAATTT
CTCCTTCATAATCGGAGTCAGTCATTCCTAGGACTACAGTGATGCCTTGCAAGTTAAGGCAGCTTTTACCTAAAATTAGTCCTGTGTATCCTGTCGGTAA
AGGTCCCCAAATACCCAAATAGGTTTGTCTCCCCTAACTAATGTGATTCTTTCTCTGGTGGGTAGATCTAATCCTGCACTTCCTGGTGTTCCTGGGTTGA
GGGAATCAATGTGCCTCCAGGAACCCATCCCTGAAGTGGGGTTGTGGTCTGCATTGGGAATGCCCTCATTGTTTGAGGGGCCCGGGTGCAGGCCCCCATC
TCATTTACCAATGGGGTGCCATTCTGATGAAATTTTGAGCAGCACTGGGTAGCCCAGTGATTTCCTTTGTTATGGCGAGTACAGAGTCCTGCTGTTTTTT
CTGCTAGGGAGTGAACTGCATTGTAATATCCTTTCTGTCCTGAGATCTGGCGGCATTCCTTTTTTAGATGTCCAGTTTTTCCACAATTACAACATTTTCC
CACTTTAGGGTTTGACCCTTGGCTCCTTTTAGATTTGTCAACTGCTAAATTAGCCATTGCTTATGCTAACTTTGCAGATCGATGAATCTCAGTTCCTACA
TCCTGACAAGCTCTGAGAAAATTTCCCAAGTTTTTTGTACACCTCACTGGTGCCAGTGCACGTTTACAGTACACGTTTGCATTCTCAAAAGCTAAAGTTA
AGGTTAGCATTTCTGCAGCCACAGTATGAGGAATCTGACGCTTCAGTGCCTCATGTAATCTTGCAAGAAATTGTGCATAGGGTTCCTGCAACCCTTGCAT
GATATGTAAAAAGGATTGTACAGGGACTCCCTCTTCAGGATTGTGGCCCAGGCGCATTTAGCGGCCTGTGTACACTGCTGATAAGCAGCATCTGGGAGTG
CCATTTGACGTTCTACATCTGAATAAGGGCCATGACCTAACAGCATATCCTCTGTAATGTCTCCGTGTCCAGCAGCATGGTTCTGTTTAGCCTGGTCTGC
ACACATTTCTTGCCAATTTAAATTCCATGTCAGATATGCACTAGCAGACAAGCAAGTTCGYGCCAAGTGTCTCACATCAAAGGGTAAAAAACGCATAGCA
CCAAACACAGATTCTAGCAATCCTAAGGTGAATGGGCTCTGTATGCCATCATTTACCACTCTTGCTTTTAATTCCTTCAACAACTTAAACTCTAGTGGGG
TGTGTTCATGAATAACCTGCTGTGGATTTTTTGGATCAGGCCTGATGGAAATAGGAAAAGCACAATGTCCTAAGGGCTCTCCAGCTATGGCAGCAGAGCA
TTAAATTCTTTGTATTAGGRTTTCTATTTCTGCCACCGAAGGAGGCAGTACAGATGTTTCTGCAACTGAAGGAGGCAGTATAGGCCAATTTTTATCCTCC
CTCTCCTGTTTTTTATTTTTAATTGGAGCTGTGGGTGGGTCAACAAATTCTTTCAGATTTTTAGATTCAGCTTGCTGTCCTGCAGAATAATAATGAGATA
ATGGCAGAAGTACAGTACGAACTAAACTCCAAGTGGAGAAAACAGAAGAATCGACTTTAAGACCTTTTTGATGAGCCTGTTTTAATCCTTCTCCTGCTGT
ATCCCAATTTTCCACATCAAGAGTGCCTGCCTGTGGAAACSATGGGTTATGTGTAATAACCTTTTGTGGCTTCTGCAGGAGGTTAGTGTCTGYGAATTAA
CCTGAGCTGCAGACTGTCTCAACAGAACTTTAAGCAACTGCACATAATGTTTTTCTTCAATAGACAAATTCTTTCCCTTGTTACCCTGAGTCAGAAAACT
TCCCAGTACTTCTTTAAAGCACTGCTCCCAGTACCTCTTTAGGGCACTGACCTTATATCTGCTGCCGGCAGACTCTTCCCAGGGTCCCCTTTCRCCTTGT
CAATTTCAGTTCCTCTGCTCCAGCAGACCTTCTTCATTCACGTCCTTGAAGTCCCATGTTTGGATGCTGCTAGTTGGGCGTGCTTGGAGTCCCTGTTCTG
GTTGCCATTTGTAACCTGCACGGACCTAGGTGGACTAAACAAAGKGGGGTGAACACGGGAATAAAGATGAGACAAAAGAGTGTATTTGGAAGAAGGGATC
GGGGGCGCTTTGCCTCTAGGGGACAAGGGCCCTGAGCTTTACACAGCCCTTCATATTTATTAGGCAAAAGAGACAGTGAGAAGGGGAGGTGGAAGAAGGG
GTCAGCTGCTCGGTCCAGAGTAGTCTTGCAAGACTGCATTCTCTAGATGTCGCAGTAGATAACGGCGCCAGGGGTCCAGAGTAGTCTTGCAAGACTGCAT
TCTCTAGATGTCGCAGTAGATAACGGCGCCAGGGGTCCAGAGTAGTCTTGCAAGACTGCATTCTCTAGATGTCGCAGTAGATAACGGCGCCAGGGAGTGA
TTGCCTCCAGCAAACCTTCATCAGCCGGAGCAGTCATGAGTTTGCTGACATCCTGCATTCATGATAAACAGTTTGCTGTTTGATCTGTAGCCTCCAGTGG
AATGCTGAGTTGGTCACGTCCCACGGGCCACGAGCCTTCGGCTCCCTGCAGCAGGTGCCTGTAAACTCAGCTACTCGGGAGGCTAAGGCAGAGAATTGCT
TGAACCCGGGAGGCCGAGATCACACCATTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAATTAAAATAAAATAAAATAAACCCCAGATG
TTATTGGATTTTAATTTTTAATCCATTCTGACAGTTTTGAGGCATTTATATTTAATGTAATTAACTGGGATCCATGCTCTGTTTTTACTTAGCATAAAAT
ACTTAATGTAATGTAATTTTCTTAGTACATTTTATTTTAAAACAGCTATCTAAATGCATTGTATTTGCTCTTTTTGCTCTGTTTTTGATTCTCTTCTTTT
GGATGAATTTCTTGTTATTACATTTCCCCCTTTTGTTGGCATGGAACTTACGTACTTTAAAACAATTACTAGTTTTTTTTTTTTTTTTTTTTTTTAAGAC
GAGGTTTCGCTCTTTTTGACCAGACTGGAGTACAATGGCACAGGCTTGTCTCACTGCAACCTCCATCTCCCGGATTCAAGCAATTCTTCTGCCTCAGCTT
CTGGAATAACTGTATTTTTATAGAGATGGGGTTTCACCATGTTGGCTAGGCCGGTCTCGGACTCCTGATGTCAGGTGATCCRCCCGCCTCGGCATCCCAA
AGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGACTTACTAGTGTTAATTGTAACTAGAGATTACATGTAGTGTGCAACCTTTGTCATATTCTTCTG
CTAATTGGCACTTTTCCATTCTACAGAAACCTTAGAGCACGTCAACTTTATTCACCACCTAATTATCCAGTAAATTATTGTGTATTTTAGCTTTTTATGT
ATTTAAAACCTCCTAAAATATTGTCAGTACTGTTTTTATGACAATGCTTATGATTTGCCCAGTACATTGGCTTTCAAACTGAAGTACATGTCTTCACAGG
GTGTATGTACAAAGACTTTTGAAGAGGTGTGGGAGCACACATGATTTAAAGGAAAACAAAGACCAGGTCCTCTCCTTGCTGATTGTCTCTTTTCTAAAAC
TAATCTGCCTAAGAGTTCACCATCTCCTGAGGCTGGTGCTATGGTGGGTCTCATTTCCTACCTGCCTTCACAGTCYTTCCACGGAAACGTCACAGAGSAA
AGGCATACCTCCACCACATTAAGAATCCTAGACATTATTGGCCACAGGTATAAAATCCGCTGGGGCTCCAAACAAAGGTATATAGTTAACTATATTGGGG
GCATTGCTTTAAGATGAGTGCCTAGCAGCAGTGACAGTATCTGGGCCTGGAAAAAATGTACCACTTACATTGAATTTGCTCTTCAACCCACAGGTTCTGA
CTCCTCAGGAGCAAAAAACATAACCTGAAGAGGGAGGAAGTGGATTTGGGGTTCACCATTTCTTGGGGCACACTTGATTGAAAACTGAGACTTCTGAAGA
GAAGGCCAGAAGATACAAAGACAGACCATCCCAGTTGAATGCTGTCTTCCAAGAACAGAAGAAAATGATCCAGGCCCAGGTAACTGACTTTTGGTTTGTT
TTATTCTTTCCTTTGTTCCATAATAGATTTGTAGAAGCCTATAAACATCAATTTCACTAATATAAAAAGTAKAAATTTCAAAAAGCAGGATCTGGAGAGA
AGTAAGCTTAGTTTTTAAACTCAATATCATGCAAAATAGTAGGATAAGGAATATAATGTTCATWGCATTAACACTAAATTATGAATTTTGTGACACCATG
CATGGCTGGAGGATCCTGTGGATTATATTAGCTGTCAGCTTGCATCTAATATCTCTGACAGCCAATGTCACAAGAAAATCATAATTTACATGGTATGTCC
TGTTTTTGAAGATAAAACAGATTACTTCCTGGGGGTTGCCATTATTTCATGGCACTTTGGTCTCAGGAAATTTCTTCAGTGGTTCTTCCTAGAGTTGATG
TGGTGGATGGTGTCCAGAATAGCAGCCTTCTCATAAATTCAGATGCAGGTTTCCTGTGGCTGTTTCTTGAAGGACTCCTTATATACTGTTACGGAATAGA
CTAAGCAAACAGTAAACACAGGGACCAACACAAGTTAATTTCAGCCTTGTGGCAGTCTGGATTTAACTTGGAATAAAACCTAGACATCCTGGGAATATGG
CAGGATTCCAGGACTTTCAAATGGTTCTCAATGAACAGATAGCTGAACTGGTGTTTGAATATAGATTTGGAGACAGGGAGTTGAAAGTGATATTGTCTGA
ACAGGACTTGGATTGGAGTTTACAGATTTCCTTTAGACTTTCACCTTGTAGAAAATGCCAAGTCCTTATTGTATAGTAAATAATTGAACAAAGGGAGTTT
TGGCCTTTGTGTTCAAGCTAATGGAGGGTGAGCTCTGGGCTTCTGGAATATCTTGCTAATGGTAGTGTCTTTGTTTGCTTGGGTCCTTTGGCCACTGGAC
AGCCTAAAAATACGAACTATGATAGATCTGTGATCTATGATAGGCCAGAAACTTCCAGAACTAGAGGCTAAAGTTAAAACCTGACTTCTGGGAGGGTGTG
GACCTAAGATCAGCCACATAGGTCATCTGTGATTGTGTCCCAGTAAAGTAAGAAAGTACACATATCAAAAAATAAATTTCGGCTGGGCGCGGTGGCTCAT
GGCTGTAATCCAGCACTTTGGGAGACCGAGGTGGGTGGATCACGAGGTCTGGAGATCGAGACCATCCTGGCTCACACCGTGAAACCCTGTCTCTACTAAA
AATACAAAAAATTGGTCGGGTGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGACGGAAATTG
CAGTGAGCCGAAATGGTGCCACTGCACTCCAGCCTGGGTGACAGAGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAGTTTCTGGCTGAGTGCAGTGGCT
TATGCCTACTTTGGGAGGCTTAGGCAGGAGGATTCCTTGAGCCCAGGAGTTTGAGACTAGCCTGGGCAATCTAGTGAGACCTTGTCTATATTTARTAAAA
TTGAAGAAAAGAGAAAAAGTTTTCTTTTCACATATTTTCTTCCTAATCCACTTCTGTAAATGGTTGGTAATATTTACTTCCTGTCACTGTATCTGTTTGT
GGATCYATGTCTATATATGTATTAATAAAAGTGTGAGTATATATGAATCTATCTGTAGATATATATATYCATTATGATATACACATATATATATTTTACA
TGATAGAATCATATTTCAAAGAACATAGCAGCCAACTTGAAGGGACTCTTCATTGGCCGAAGATGCTACACTTTGAACATCCAAAGACCAATGATTGCAA
ATGATTGAAGAACATTAATTATATAAAATTCCATCAGTTTATAGCTATACTTGAAAAAAATGCATTTGTCACCATTGGGGGTTAGGAGAGAATCAAGTAT
TTAATCTGAAAAATGATAAAAGATCATAAAGGTTTTGTGTGTGTGTGTGTGGCGGGGGTGGGTTGACTATGAGTTTATTTTTTACTTTTACTTTTCTGCT
TTTTTTCTTTYTTCCTTTTTTTTTTTTTTTTAATTGAGATGGGGTCTTGTCATGTTGCCCAGGCTGCTCTTGAACTCCTGGGCTCAAGCAATCCTCCTGC
CTCCCAAAGTGCTGGGATTACAGGCATAAGCCATTGTGCCTGGCCCTCTTGGTAATTTTGTATTACTGACCCATACTCTGCTCCTTGGCTATAAATTCCC
ACTTGCTTATGCTGATATTTGGAGTTAAGTCCATTCACCCTCTACCACTGCAAAATCCCATTACATTTGTCTATATACCTGTCATAATGGCCCTGAATAA
AGTCTTCCTTACTGTGCTTTAACAATTCTCATTGAATAATTTTTTTAAACATGTATAGCTTAATTAAGGAGGTGAGATTCCAACGCCTTTGCCATATTCT
GAATAGAGGTAAGTCACTAGGCCAGTCCCTGCTCAAGGAGAGGGTGTAGAGCACCCAATTCTGTCCCTGTTTGGGCGCCACTTGTAACCCGCACAGACCT
AGGGGGACTGAACACAGTGGGGTGAACACAGGAATAAAAGACAAGAGACAAAAGTATATTCGGAGGAAGGGGTCAGGGGGTACCTTGCCTCTAGTGGACA
AGGGCCCTGAGCTTTACACAGCCCTCTGCATTTATTAGGCAAAAGAGATAGTTGGGGGGGTGCAGTGGAAGTAGGGGTCAGCTGCTCAGTCCAGAGGAGG
CTTGCAAGACTACATTCTCTAAATGTTGCAGTAGATAACCTCAGCACCAGGGAGTGATTGCCTCCAGAAAACCTTCTGTCGGCAGGAGCAATGGTGAGTT
TGCTCACATCCTGCATTCATGATAAACAGTTTGCTGTTTGATCATATAGCCTCCAGTGGAATGCTGAGTTGGTCACGTCCCACGGACCTTTGGCTCCCTG
TAAGTGGGAACTACATAAAGGTGTGAACACTGGGAGGGTGGAGTTCATTGAGCCATCAAATCTGCCTGCCATAGATCTGTCATATAGTAAACTATTTTTG
AGTGTGGATTGAGGTAAGACTTTCACTTTACTTTTTTCCAAATAGATAGCTATCTCACATAAATAATTTAGAATGGGTAAACCAACCAGGATTAAGTACT
TGTATCATCTACCAAGTGTGTTCACTGGCCTCTGTAATAAAATGAGTATAGAGTGTACCTTCTGCTGTTCCCTGGGTCTTCAATGACTCAATTTCCCACC
AGCAGTATCCTTTAAAGCCATCCTGCATCCTGAGACAAGAGATTGACAATTCATTGATAAGTAGTCTTAATTGTCACTATTACAGGGCTGTAGGTCCTTT
GCCAGCCATGCCTTTCAGTCCTAAATGGTCTTCAAGGTTGGGCTGTGTTGTCCAAGAGCTGAGGACCTTACATTTATTGTTCCAATATTTATTGGCTATA
ATGATTTCTGTGGAGCAGTCAGCTGTCAGAAAATTTTGTCTCCTTTGTAGGTAACCTGTCATTGGTCTTTGGATTTTTTTATAGTCTCCCTTTGTATCTG
GTGTAATTTAGTTTCAATCTGTTGTGCCTACGTGTAGACTTCTTGCTTGAAAAGTTGTTGGATTTCTTGAGTTTGAATTTTGGAGTGTTTAATCAGTTCT
GAAAAATTTTCAGTGTTAGATCTTTGGATATTGTTTCTCCATTACTTGATTTTCTCCTTCTTCTTGAGAAATTATCAAACTCAAGGAGGTCATAGGAACC
CTCAGTTTATAATTAGTCCATCAGAAAAATAGGAGGCCTGGATTTGTGATATATGGTTGGCCCTCCATATCCATGGCTTCCACATCCATGGATTCAACCA
ACTGAGGATTGAAAATATATATTTTTTAAGCATCTGAACTGAGCACATACAGACTTTTTTATTGTCATGATTCCCTAAACAATATAGTATAACAACTGTT
AACATACCATTTACATTGTATTAGATATTATAAGTAATCTAAAGATAATTTAAAGTATATGGGGCTGGGCACGGTGGCTCACTCCTGTAACTCCAGCACT
TTGGGAGGCTGAGGTGGGTGGATCGTCTAAGGTCAGGAGTTTGAGAACAGCCTGGCCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAG
CTGGTTGTGGTGGCGGGCACCTGTAATCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATT
GTACCATTGCACTCCAGCCTGGGAAAGAGGAGCAAAACTCCGTCTCAAAAAAAAAAAAAAAAAAATTAGCCAGGCGTAGTGTCACATGCCTGTAGTCCTA
GCTACTTGGGAGGCTGGGGCAGAAGAATTGCCTGCTCCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATTATGCCACTGCACCCCAGCCTGGGAAAGAGAG
TGAGTCTCCATTTCAAAAAAACAGAAATGTATATGGGAGGATGTGCATGGGTTACATGCAAATCTGCAAGTACTATTCCATTTTATTTTATTTTATTAGA
GACAGTCTTGCTCTGTTGCTTAGGCTGCAGTGCAGTAGCATGGTCATAACTCAGTGTAGTCTCTAACTCCTAGGCTCAAATGAGCCTCCTGCCTCAGCCT
CCCAAGTAGCTGGGACCACAGGCACTCACCACTGTGCCTAGCTAATTTTTTAATTTTTTGTACAGATGGGGTCTCATGTTGCCCAGGCTGGTCTTGAACT
CCTGGGCTCRAGTGACCCTCCTGCCTTGGCCTCCGAAAGTGCTGGGATTACAGGTGTGATCTACTGTGCCTGACCAATACTGTGCCATTTTATATCAGAC
ACCTCAGTATCCTCAGGAGGTCCTGGAACCAATACCCTACAGATACTAAAGGATGGCTGTATATATGTCTTTCATTTGCATGTATCTAAAATAAATATAT
GTACATATATTCATATATATTTACATATATAAAATGTATAAATATATTGTTTTTAGGTTAGCAAGATTTAACTTCTACACTTTATAGAAACTTCCAATTG
GGTGAATGGAGGATGACTGAATATACAGTTACAGAATATTATATTAGGACTTTACTTCTTCCACATTGTATTAAAAAAAAAACTATTTGGTATATGCACA
CAGCCTGTAGAGTGGAAATGAGCAGAAAAACTTTAGCATTTCTTCCACATCATCAAAAAGACATCACTTTATTAAACAGGACTGTTATTACAGGAATCCA
TAACACTGGAGGATGTGGCTGTGGACTTCACTTGGGAGGAGTGGCAACTCCTGGGCGCTGCTCAGAAGGACCTGTACCGGGAYGTGATGTTGGAGAACTA
CAGCAACCTGGTGGCAGTGGGTGAGGACAGCTGCCCTGTGTCACTCAGAGGGTGCCTAGTCAGTGGCCTTCCTTTCTCAGATGCCTACCTCTTTGGAATG
CCTGCAGTACTCTGAAGTGGTAGATTCTCAGATCCTTCTCTTGCTCCCACACAAGACGGTGTAATCTACCCTCTTGTAAGAGAAAAACCTTGATGTTACA
GATATGAAAYGAAACTTTCATAGTTTCAGATAAGAAACTAAATTTTGGGTATTTTAAGAAACTCAAGTTTCTTGAAATGTAACATTCTTCCTTCTTGACA
TTGCCAGCCCAATTTGATATGTCTAAGTCCTCTATCATTTTCCATGAACAGGGTATCAAGCCAGCAAACCGGATGCACTCTTCAAGTTGGAACAAGGAGA
ACAACYGTGGACAATTGAAGATGGAATCCACAGTGGAGCCTGTTCAGGTGAGAGAACCCACAAGRCAGAAGGCTATGGAAGTCACATTCTAGWCAGTCAG
AGAAGGCARCACAGCTGTGAAGGGGGTTTGAGGATATGTAAACAGTTCCTCTACTCATCTGTCTCCCAGTGTGAGACCAGTTTTTCTTTGTAGGAATTTA
GAGTTAAAAAAAAACAAAACAAAACAAAAACTCTTTATCTCCTCAGAGATCTGATTATTTTATCTACATATTGTTTGTTTGCCTGCATAATTTTCTTCTT
CCTCGGGTTTCAARTATTTCCCTTCTTCATGTTGTTCCACCTCTCTTGTTACGAAATTCCACCTTCCAGGCCTCTTTCCAAAGAGGAAACTTTGAAGTCC
TCACTGTTTTCGGACTCCCACCCCTTTGTGCCCCTTGGCTAATGCTGACCTCCCCTCCTAACACCTCCCCTGTGWTGGATGTGGCTTCCTCAGGGTAAAC
TGGACTTTCGCTGTGCCTTGGCTTCCTTCGCTTCTCTTTTTCCTTATTCTTAGGTTCTCCAAAGGTCCCGTTCTCCATTTTCTCATCTGTGCCCTTCACT
CTTCAAAATTGCCTTCATTCTAGTAAGTTTAAACTCCTTCCGCTCCCTGGAGGAGAGTCCCAAACTGACATCTCCCTGTTGTTATCTAACACAGATTTTA
GTTCTGTGTAATTTACTTCATGGCAACTCTCCCCTGAGTTCCTAGTAACTGCAAGGAACTAGAATCATCTTTCCTCCAAGAAAACCATTAAGTTTGGATT
TTCGTTTGTTCCTGTACATCCTGAATCTTGGCCATCTGGGTATTACCTGCCTGAAGAGCTCTCTTCTTTAAAGGTCTCTGCTAGTCATGATGCATCTCTA
AGTAAAAAAGTCATTTTTTTAACATCCTACATTCTCAACTCCCGCCTACTTCCATTTGGTTCCTTTCTGTATTTAATAATTTGCTTTCGTTTTTTTCCCC
ATCGTATTCTGATGACACCAAGTCCCAGTAAACCATGTTACCTGTCAAATTTCTCATTTCAGTGATCTCTGTGATATAATACCATCTTGCTCACAAAGAG
ATTTCCATCCTCTTTCCTAAACCCTGCCTGGTGTGTTCCACACATATGATTACTTCCCTGACTCATTCCCTTAAAAATTATTCATTATTATTATTTATTT
TTATTAATTTATTTTTTTTTTAAGACAGAGTCTTGCTCTGTGCCCAGGCTGGAGCGCAATGGTGTGAACTTGGCTCACCGCAACCTCCACCTCCTGGATT
CAAGCGATTCTTGTGCCTATCCCCAACACCAGCACCATACCTGGCACACGGTGATCATTCAGTAAGAGTATGTGGAATGAATGAATCTGTTCTTTGGACG
AAATGGGCCTCCAGCCTCTGGTCTGCTGGTCACAGTGAATTGCTTGTATTTTAAGGTCTGTTTTGCAAGGCACATTTAGAAAGCAGCCAAATCTGTCTTT
ATTATTAGTGATCTAACCTTGTTTTATGCTAACTGCTTTCACCTTTTAGTTTGTTTATACTATTACTTTTTGCCAATGTGCAAGGAACATTAAACATGGA
GTTTTATTTACACTCAGGTCATAGGGTTATTACTAAGAGACACCTCACATCAAGGCATTAAAAAAAAGAATACTTTGGGGCCGGGTGCAGCGGCTCACAC
CTGTAATCCCAGAACTTTGGGAGACTGAAGCGGGCAGATCACCTGAGGTCGGGAGTTCGAGATCAGCCTGGCTAACATGGTGAAACGCCGTCTCTACTAA
ATATACAGAATTAGCTGGGTGCGGTGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACTCAGGAGGTGGAGGTTGC
AGTGAGCCGGGATCATGTCACTGCACTCCAGCCTGGGCTACAGAGTGAGACTCCGTCCCCAAAAAACAAAAAAAAAACAACAAAAAATACTTTGGCTGTG
AGCCGGGATTGTACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCTCCCAAAAACAAAACAAAACAAAAAATACTTTGGCTGAGCACAATGG
CTCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAGACCCCGTCTGTAGTAAAACTACAAAAATTAGCCGGGCATGGTAGCAGGCACCT
GTAATCCCAGCAACTTGGGAGGCTGAGGCAGGAGAATCCCTTGAACCCGGGAAGCAGAGGTTGCAGTGAGCTGAGATCGCAGCATTGCACTCCAGCCTGG
ACAACGGAGTAAAACTCCATCTTAAAAAAAAAAACAAAAAAAACAAAAAAACCACAACAAACTTTTACCCCAAATCTAAATGATAGAAATCTTTGTTCTT
TTCTTTCTAGACATATGGAAAGTTGATCATGTGCTGGAGCGCTTGCAGAGTGAAAGCCTGGTGAACAGAAGGAAACCATGTCATGAACATGATGCATTTG
AAAATATTGTTCATTGCAGCAAAAGTCAGTTTCTGTTAGGGCAAAATCATGATATATTTGACTTAYGTGGAAAAAGTTTGAAATCCAATTTAACTTTAGT
TAACCAGAGCAAAGGCTATGAAATAAAGAACTCTGTTGAGTTTACTGGAAATGGGGACTCCTTTCTTCATGCTAACCATGAACGACTTCATACTGCAATT
AAATTCCCTGCAAGTCAAAAACTCATCAGCACTAAGTCCCAATTCATCAGTCCCAAGCATCAGAAAACACGAAAATTAGAGAAGCATCATGTGTGCAGTG
AATGTGGGAAAGCCTTCATCAAGAAGTCTTGGCTAACTGATCACCAGGTAATGCATACAGGAGAGAAACCCCACAGATGYAGTCTATGTGAGAAAGCCTT
CTCCAGAAAGTTCATGCTTACTGAACATCAGCGAACTCATACAGGAGAAAAACCTTATGAATGCCCTGAATGTGGCAAAGCCTTTCTCAAGAAATCACGG
CTCAACATACATCAGAAAACACATACCGGAGAGAAACCCTATATATGCAGTGAATGTGGAAAAGGCTTCATCCAGAAAGGAAATCTCATTGTACACCAGC
GAATTCATACAGGTGAGAAACCTTATATATGCAATGAATGTGGAAAAGGCTTCATTCAGAAGACGTGTCTCATAGCACATCAGAGATTTCACACAGGAAA
GACGCCCTTTGTGTGCAGTGAATGTGGAAAATCCTGTTCTCAGAAATCAGGTCTCATTAAACATCAAAGAATTCACACAGGAGAGAAACCMTTTGAATGT
AGTGAATGTGGGAAAGCCTTTAGCACAAAGCAAAAGCTCATTGTCCATCAAAGGACTCATACAGGAGAGAGACCCTATGGCTGTAACRAGTGTGGGAAAG
CGTTTGCGTATATGTCGTGTCTGGTTAAGCATAAGAGAATACACACAAGGGAGAAACAAGAGGCAGCCAAGGTGGAAAATCCTCCTGCAGAGAGGCACAG
CTCATTACACACCAGTGATGTCATGCAGGAGAAAAACTCTGCTAACGGGGCGACTACACAAGTGCCTTCTGTGGCCCCTCAGACATCATTAAACATCAGY
GGCCTCCTCGCAAACAGGAACGTAGTCCTTGTGGGACAGCCAGTGGTCAGATGTGCAGCCTCAGGAGATAACAGWGGATTTGCACAGGACAGAAACCTTG
TGAATGCAGTGAATGTGGTTGTGCCTTCCGTGATCAATTATGTCTTATTTTATGTTACAGAAAACCCATAGGAAGAAAACTCAGATCTATGTGGAAAAGG
GTTGAGCAAAAATTTGTAGTTCATTATGTGGCCGAAAAGCATAYACTGAGAGAACATGTATAAGGCTGAGATAGCCTGATAAACTCATCCTATTAAAATG
TATGCTGTGATACACAGGCAAATTTGATGTTAACCTAAGCACATACACAGCAATTGCTCGACTGTGTCAATTAAATGAGTAAAGGAAGCCCAAGTACTTT
TAAGTGGAGGAAATGAAGTACTGTGAATTTTTAAAACAGATGAGATAATTGGTGTYGGGAGTGTTGCAGTGACTGAAAAGCTTCATAAGGGGCAGTTGGT
GGGAAAGGGCTAATACTGTAATGGTGGAATGTGGGACACATATGTGTCAATTCAGTTTCCTTAGACCAGTGCCAGTGTGGAGGATTAATTGAAAACCAGG
ACCATAAACTTTCAGAACTTTGTATTATGCAGAGGGATCTGTGAAACTAGTCAATTTGTTTCATTAAACAAATATTTTAAAATTATTTCCTTTGTACCTT
GTCCTGTTCCAGGAGCTGAGGTCAAAGAAGAAAAAGTTTGTGGTCTCCTGGAGAGTTTGTGGGGTTAATTTTAAGTGGTATCATTACACTCAGGCAATCT
AGTCAGGCGGTGCAAATATCTACATTAGGTGAAATGGACATGGAGTAACTGTGTCCAGGGGACGCGATAATTTATTGTTCAAGGAGTAGCAGAAGGACTG
CTGTTAATGGTACTTAAGCACCTTAGTACAAAAAGGAGGGCTTTTTGTTTGTTTGTTTTTGCCCGTGTCTTATCTCTCCAAGAGATTACAAATTCCCTGC
TAAGTTTTGTAGCTACTTAAATTTTAGAATTAAAGAAACTGAACACAAAATTTAAAAATTCAGTTCCCTCACTGCTCAAGAGCTGTATATGTGAGTAGAG
GCTACTAAACTGGACAGCAGAGTGAACAGAACTTTCAGACAATGAGGACTCTTTGTCATTATTTCCAACATCCCAGAAAGTTATGCTGGAGAGGCTGCTT
TGCATGATCTAATATTTCCCAACACATAGAAAAACAAAAACTAATTATGTATTGATTTGGAGAGAGAATGATTTGGAAAGAGAAGCGTATTTTGTCATTG
AAGGGAATGACAGTTGTAAAGAATAGAATTGTCACTCACAACTTTTGTGTGATTAGAAAGACTTAGCCAAATATAAAAGGGGCAGAGCAGAAAAGGAAAA
GGACTCTTAGAATAAGTAGAACACAAAGGAGGAGGAAAATCTTAGTCTCTGAGAATGGATGAGACTGTAACAGATGGGAGGAGGTGGGTTTCTTTTGGGA
CGTCTTAGAGATGACGCTTTTATTTGTCCATAAGACCTATCACCCGCTAGGGTTACCATTTCAGAGATCCCAGCTTCTCTGTGACCTGCTGAACTGAGAT
GTGATTTTTCTTTTCTTTTTTTTTTTTTTGAGACATGATTTATCTTCATCATTCTCACTTTTCTGGGAGTAGGTCTCTTGGCCTTCTTTATCTGGTTTTT
TAACCTTCATCCCATATGGATACACTGTCCAAGTTACAGTAAGTGCTGCTCATAGGAAAATAAATGGAAATTTGCCTTGTGGCTAGGTCAGAATTCAACA
GAAATCCTGGGTTACTAGGTAACCTTTTTTTTGAGATGGAGCCTTGCTCTGTCGCCCAGGATGGAATGCAGTGGCACGAACTCAGCTCACTGCAAACTTT
GCCTCCCGGGATCAAGCGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCACGCCCAGCTAATTTTTTGTATTTGTAGTAG
AGATGGACTTTCACCATGTTTGCCAGGCTGGTCTCAAACTCCTGACCTCGTGATTCACCCACTTCGGCCTCCCAAATGCTGGGATTACAGGCATGAGCCA
CTGCGCCTGGCCACTAAGTAACTTTTATATATCATCACTGTGCAAGGCACTGTTTTAGATACAGTAGGATGGATCGGTGAACAATACAGGCAAAGGAATA
ACCTTTATAAACTTTACCATTGAGTGAGGCAGAGAAACAGATTGTACGATGTTAGGAAGGAGAAAAAGACTAGTAGTGGATACTAATGCATACGTAGTGA
TGGGGGCTTTTAAAAATATGTTATTTTTTTTCTCCAAGGGAAGGCTTTTCTGGATGTAATTTGAGCCAAGACCTAAGTGTACTGAGGAGAGCCTGTTACA
GCATTTGTAAGCACAGAATACTCCAGGAGTATTTGTAATTGTCTGTGAGCTTCTTGCCGCAAGTCTCTCAGAAATTTAAAAAGATGCAAATCCCTGAGTC
ACCCCTAGACTTCCTAAACCAGATCCTCTGGGGCTGGAACCTGGCACTCTGCATTTGTAATGAGGGCTTTCTGGTGCACACCTAATTTTGTGCATCTTTG
CCCTAAATCCTGGATTAGTGCCCCATCATTACCCCCACATTATAATGGGATAGATTCAGAGCAGATACTCTCCAGCAAAGAATCAGAAATGGGCGCTCCA
CCAACCAGGCCCTATCCACATCTGGCCTTTGTGAATCTGCACATCCTTCCATGGTAAGGTCAGGTTGCTTATGCTCTATCAGGGTCTAAGGATGAGTTGG
CCAGGCCTACCCTGAGCAATTGCTTAACGTACCTTTCAGAGCTTGACCTCCCAGATGAAGGAGGCTCAGTGCATACCTAAGCTTGGTACACATCATGTCT
GCTCCCAAACCCAAGATCCTTATAGTTTCACTGAAGATCACCCTTCATCTGCTCCCATGACCTCAGTCCCTCCTGGGCCAAGAGGCAGTCCTGCATAGTG
ATTTGGAATGTATCCTGAAGTCACACTGCTTAGTTTGAATCCTGCCCTGCCATGCCCAAGCCATGTGCCATAGAGCAACTAATTTACCAAGGTCTTGACT
TTAGCTTTAAAATATCTGCCTCAGGTTTGTTGTGAGAAGTAAATGTAAAGTCCTTAAAACAGTGTCTAGCAAGAAACACAATTAATACAAGTAATGTTAT
TAGTCCCAGTGAGGGGAAGAGGAGGAATCAAGAGTATAGGTGTGCCTGAACTTAATCAAAACTGTGACTTGATGACAAAAAGGTTGCCACGCACTGAGCC
AAGGATTCCTCATATAGCATACTTTTTAAGCTTAATAGAGCTGTGATTATGAAACTCTCTAGCTTTAAACTTTGAAACTTGCAATGACTGTTCTGCTTGG
GGTCTGGACAATGGCAAACATCCTTAAAATGGCCATCAAGTCTGCATGTTCCGGTTCTTTCTTCCCTCTCCCATACTCCACCTTGCTCTCCCTGTTCTGA
CACACTGGCCCTCTTTTGGCCCCTCATATGCTGCTGACATCCTTTCATCACCTTCAGGCCTCTGTGCATGCTCTTTCTTCTGCCTGAACTTTTCTTTCCC
CCCATTTTCTGCATTTTTCCTCCTTCAGGATCTTCAAACATCACTAATTCAGAGCAACTTTCCCTCACCAGTCTGGCCTTCCATAGGATCGTGTTCCTCT
TCTTCCTAGCACTTAGGGGAACTGCAGTTTAACATTTTGTAGATTTCCATGTGCATTCCCCATCTGGATTCTAAACTTCCTGAAGGCAGAGAGTGTGGGG
AAAAGAAAGAGAGATCAGACTGTTACTGTGTCTATGAAGAAAGTAGACATAAGGAACTCCATTTTGTTCTGTACTAAGAAATTCTTCTGCCTTGAGATGC
TGTTAATCTGTAACCCTAGCCCCAACCTTGTGCTCACAGAAACATGTGCTGTGTTGACTCAAGGTTTAATGGATTTAGGGCTGTGCAGGATGTGCTTTGT
TAAAATGTGTTTGCAGGCAGTATGCTTGGTAAAAGTCATCACCATTCCCCAGTCTCGAGTACCCAGGGACACAATGCACTGCGGAAGGCCACAGGGACCT
CTGCCCTAGAAAGCCTGGGTATTGTCCAAGGTTTCTCCCCACTGAGACAGCCTGAGATATGGCCTCTTGGGAAGGGAAAGACTTGACCCTCCCCCAGCCC
GACACCCATAAAGGGTTTGGGCCCTGGAGGATTAGTAAAACAGGAAGGCCTCTTTGCAGTTGAGATAAGAGGAAGCCATCTGTCTCCTGCTCGTCCTTGG
GAATGGAATGTCTCAGTGTAAAACCCAATCGTAAATTTTGTTTACTGAGATAGGAGAAAACCGCCTTATGGCCGGAGGTGAGACATGCTGGGGGCAATAC
TGATCTTTACTGCACTGAGATGTTTGTGTAAAGTCAAACATAAATCTGGCCTATGTGCACAACAAGGCACACACAGCACCTTTCCTTAAACTTATTTATG
ACACAGAGTCCTTTGCTCACATGTTTTCCTGCTGACCCTCTCCCCACCATCACCCTATAGTCCTGCCATATCCCCCTCACCGAGATGGTAGAGATAGTGA
TCAATAAATACTGAGGGAACTCAGAGACCAGTGCTGGTGTGGGTCCTCTGTATGCTGAGCGCCGGTCCCCTGGGCCCACTGTTCTTTCTCTATACTTTGT
CTCTGTGTCTTCTTTCTTTTCTCAGTCTCTCATCCCACCTGATGAGAAATATCCACAGGGGTGGAAGGGCTGGCCCCCTTCAAGAGAGCAGGTCTGTTTT
TTCCTCATCATTTCACCTCCAACATTGGGCACTAGATCAGGCACCTCGCAGATGCTGAGACAGTATTTGGTTGAATTAAGGAGTGTTGCTCCAACAGCTT
TCAAGCTACTTAGCTGCCAAGTGGCAGGCTGTAGATTCAAATGTTTTCTGGCATCTAAAACTTTTTTTTTTTTTTTTTGCTTGGAGGGTTTGTTTTATTT
TATGATCTCATCCTTAGATTACCCTGTGATCAGCCTCCACTCCTAGGGCGATAGAGACTCTACTGGCTGTTTATTTTTACTCTGAAATAGTTTGACTAGG
TCACATAGTCATGCGATTCAAAACTTAAAGCTGTACAAAAAAGCACATTTGTGAATATCTTATCCTGTTCTCAATCCTAGTTTTCCCCTGACCTTCTAGC
TTTTACAGGTAAACATGTTTACTGTGAATCCGTCCAGTGTTTCTTTTTATAATACAAGTATATATTATTTATTTGTCCTTTTTTCAAAAGGTGGCATACA
GCATACACTCTTTTGCATCTTTTCTATGTTTTGTTTGTGACGGAGTCTTGCTCTGTTGCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACC
TCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGACTCCTGAGTAGCTGGGACTACAGGCACGTGCCACCACAGCCAACTATTTTGTATTTTTCATAG
AGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCTATCTCCTGACCTCGTGATACACCGCCTCGGCCTCCCAAAGTGCTGGGACTACAGGTGTGAGGCA
CCGCGCCCAGCTGCATCTTTTCTATGTTTAATTATCACTGAGCAGCAGCACAGCACCTTGAGGGTAAGTGAAGAAGGAAAGACTGTAGCCTGTCAGCCAA
ATATGGTTATTTGTTCAATAGTCTTATTATTGAAGTGCTGTGTTCCAGTTTTTGTTCTGAGCACTGGGGCTAAAAATAAATTATAGACTTCTGCCTTTGT
GGAACTCACAGTCCATTCTGAACAGCAGTTAAGTGAGCAGATGATGATGATCAGGAAAAATGATCTTCAATTATTCCCGGAAGAGAGATGCTTCCTCTAT
TTCCCTATTGAATGCCTTCTATAGTTCCCTTCCTTAGCCCCACTTAAGAGTTGCAATTTTATATTTAATGATTGCATTATTATAAATAAGACAAAACTGA
GAGGCATCCCAGAATGCTGTCTGAAGAAGTGACATTTCAAATGATTCATGAAAGGACAAGTATAGTAACTAATATTCCCTCATGTTTTCCTGTGTGCCAA
ACACTTCACAAGAAGGGAAAGTACTTGCAAATTCCTGGTAGCGTATAAGACCACAAGATACCTCAGAAGGGGCGGAATAAGAATCAAATGTACAGCATAG
AGTAATGGAACCTGAGAATGGAGAATCTGGTGTTTGCTTGTGTACAGCTGAAGGGGGCCAGCCCCTCCACACCTGTGGGTGTTTCTCGTCAGGTAGGATG
AGAGACTGAGAAAAGAAATAAGACACAGAGACAAAGTATAGAGAAAGAACAGTGGGCCCAGAGGACCAGCACTCAGCGTATGGAGGACCCACGCCAGCAC
TGGTCTCTGAGTTTCTTCAGTATTTATTGATCACTATCTTTACAATCTCGGTGAGGGGGATGTGGCAGGACTATAGGGTAATGGTGGGGAGAGGGTCAGC
AGGAAAACACGTGAGCAAAGGACTCTGTGTCATAAATAAGTTTAAGGAAAGGTGCTGTGTGTGCCTTGATGTGCACGTAGGCCAGATTTATGTTTGACTT
TACACAAGCATCTCAGTGCAGTAAAGAGCAGTATTGCCCCCAGCATATCTCACCTCCAGCCATAAGGCAGTTTTCTCCTATCTCAGTAAATAGAATGTAT
GATCAAGTTTTACACTGAGATATTCCATTCCCAGGGATGAGCAGGAGACAGATGCCTTCCTCTTATCTCAACTGCAAAGAGATCTTCCTCTTTCACGAAT
CCTCCTCAGCCCAGACCCTTTATGGGTGTCAGGCTGGGGGATGGCCAGGTCTTTCCCTTCCCATGAGGCCATATCTCAGGCTGTCTCA


SNP Information

Context             (SEQ ID NO:17604):
AGCCCAATTTGATATGTCTAAGTCCTCTATCATTTTCCATGAACAGGGTATCAAGCCAGCAAACCGGATGCACTCTTCAAGTTGGAACAAGGAGAACAAC
Y
GTGGACAATTGAAGATGGAATCCACAGTGGAGCCTGTTCAGGTGAGAGAACCCACAAGACAGAAGGCTATGGAAGTCACATTCTAGACAGTCAGAGAAGG
Celera SNP ID:            hCV22273338
SNP Position Genomic:     24206
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,19)   caucasian(C,10|T,30)   total(C,29|T,49)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17605):
AAATGATAAAAGATCATAAAGGTTTTGTGTGTGTGTGTGTGGCGGGGGTGGGTTGACTATGAGTTTATTTTTTACTTTTACTTTTCTGCTTTTTTTCTTT
Y
TTCCTTTTTTTTTTTTTTTTAATTGAGATGGGGTCTTGTCATGTTGCCCAGGCTGCTCTTGAACTCCTGGGCTCAAGCAATCCTCCTGCCTCCCAAAGTG
Celera SNP ID:            hCV26639822
SNP Position Genomic:     20511
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17606):
AATATTTACTTCCTGTCACTGTATCTGTTTGTGGATCTATGTCTATATATGTATTAATAAAAGTGTGAGTATATATGAATCTATCTGTAGATATATATAT
Y
CATTATGATATACACATATATATATTTTACATGATAGAATCATATTTCAAAGAACATAGCAGCCAACTTGAAGGGACTCTTCATTGGCCGAAGATGCTAC
Celera SNP ID:            hCV8706630
SNP Position Genomic:     20169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17607):
GAAAAGAGAAAAAGTTTTCTTTTCACATATTTTCTTCCTAATCCACTTCTGTAAATGGTTGGTAATATTTACTTCCTGTCACTGTATCTGTTTGTGGATC
Y
ATGTCTATATATGTATTAATAAAAGTGTGAGTATATATGAATCTATCTGTAGATATATATATTCATTATGATATACACATATATATATTTTACATGATAG
Celera SNP ID:            hCV26639823
SNP Position Genomic:     20106
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1|-,6)   total(C,1|-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17608):
GAAAACTTCCCAGTACTTCTTTAAAGCACTGCTCCCAGTACCTCTTTAGGGCACTGACCTTATATCTGCTGCCGGCAGACTCTTCCCAGGGTCCCCTTTC
R
CCTTGTCAATTTCAGTTCCTCTGCTCCAGCAGACCTTCTTCATTCACGTCCTTGAAGTCCCATGTTTGGATGCTGCTAGTTGGGCGTGCTTGGAGTCCCT
Celera SNP ID:            hCV29188605
SNP Position Genomic:     16294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17609):
CTGTGGATTTTTTGGATCAGGCCTGATGGAAATAGGAAAAGCACAATGTCCTAAGGGCTCTCCAGCTATGGCAGCAGAGCATTAAATTCTTTGTATTAGG
R
TTTCTATTTCTGCCACCGAAGGAGGCAGTACAGATGTTTCTGCAACTGAAGGAGGCAGTATAGGCCAATTTTTATCCTCCCTCTCCTGTTTTTTATTTTT
Celera SNP ID:            hCV29188606
SNP Position Genomic:     15720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17610):
CTCCGTGTCCAGCAGCATGGTTCTGTTTAGCCTGGTCTGCACACATTTCTTGCCAATTTAAATTCCATGTCAGATATGCACTAGCAGACAAGCAAGTTCG
Y
GCCAAGTGTCTCACATCAAAGGGTAAAAAACGCATAGCACCAAACACAGATTCTAGCAATCCTAAGGTGAATGGGCTCTGTATGCCATCATTTACCACTC
Celera SNP ID:            hCV29188607
SNP Position Genomic:     15461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17611):
AAAACAACATTATTCCAAGAACTACATATAAGATGTTAATGTGGTGCCTTAGATAGGTCCAAGGGTTGAGGCTCTCCAGGCCTTCCTGGAATTCGGTCCA
R
TCTTCTAAAGAAGGCTGAAATTCTTGAGTTTGCCTATTTAAATCAATAATTTTGTTTTGTAATTCACCAATATCAAAGGTGATGTTGGATGTGAAAGCTC
Celera SNP ID:            hCV29188608
SNP Position Genomic:     12020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:17612):
GCAGAATGCTGAGTTGGTCACGTCCCACAGGCCTTTGGCTCCCTGCATATCCCCCTTTCTGTTTATGTATTAATTGAAAGAATGTAAGGCTGGGCTGGGA
R
GCTCTCATTCTCCAATTGGTGGTCCATCCGATTTTACAGACTATAAACCGAAGACAGAGACAAAACAACATTATTCCAAGAACTACATATAAGATGTTAA
Celera SNP ID:            hCV29188609
SNP Position Genomic:     11858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:17613):
GAGAAGGGGTCAGGGAGCACCTTACCTCTAGTGGACAAGGGCCCTGAGCTTTACACAGCCCTCCGTATTTATTAGGCAAAAGAGATAGGAGGGTGGGGGG
G
TGGAAGAAGGGGTCGGCTGCTCAGTTCAGAGTAGGCTTGCAAGACTGCATTCTCTAGATGTCGCAGTAGATAACCTCGGTGCCAGGGAGTGATTGCCTCC
Celera SNP ID:            hCV26638798
SNP Position Genomic:     11567
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,2)   total(G,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17614):
ATGACTTTTACCAAGCATACTGCCTGCAAACACATTTTAACAAAGCACGTCCTGCACAGCCCTAAATCCATTAAACCTTGAGCCAACACAGCACACGTTT
Y
TGAGCACAGGGTTGGGGCTAGGGTTACAGATTAACAGTATCTCAAGACAGAGGAACTTTTCTTTGTACAGATTAAAATGGAGTTTCTTATGTCTTCCTCT
Celera SNP ID:            hCV26638799
SNP Position Genomic:     9719
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17615):
GGACAATTGAAGATGGAATCCACAGTGGAGCCTGTTCAGGTGAGAGAACCCACAAGACAGAAGGCTATGGAAGTCACATTCTAGACAGTCAGAGAAGGCA
R
CACAGCTGTGAAGGGGGTTTGAGGATATGTAAACAGTTCCTCTACTCATCTGTCTCCCAGTGTGAGACCAGTTTTTCTTTGTAGGAATTTAGAGTTAAAA
Celera SNP ID:            hCV7806946
SNP Position Genomic:     24309
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,12)   caucasian(A,14|G,26)   total(A,38|G,38)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17616):
CAAACCGGATGCACTCTTCAAGTTGGAACAAGGAGAACAACTGTGGACAATTGAAGATGGAATCCACAGTGGAGCCTGTTCAGGTGAGAGAACCCACAAG
R
CAGAAGGCTATGGAAGTCACATTCTAGACAGTCAGAGAAGGCAGCACAGCTGTGAAGGGGGTTTGAGGATATGTAAACAGTTCCTCTACTCATCTGTCTC
Celera SNP ID:            hCV7806947
SNP Position Genomic:     24265
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(A,26|G,14)   total(A,39|G,39)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17617):
CTGGGACCACAGGCACTCACCACTGTGCCTAGCTAATTTTTTAATTTTTTGTACAGATGGGGTCTCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTC
R
AGTGACCCTCCTGCCTTGGCCTCCGAAAGTGCTGGGATTACAGGTGTGATCTACTGTGCCTGACCAATACTGTGCCATTTTATATCAGACACCTCAGTAT
Celera SNP ID:            hCV7806948
SNP Position Genomic:     23210
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17618):
TTTGGTTCAGACATATCAACTATAATAACCGCATGTGGGGAGGCTGAGGCGGGTGTGTGATGAGATCCGGAGTTGAAGGCCAGCCTGACCAAGATGCTGA
R
ATCCGATCTCTACTAAAAATACAAAAATCAGCCAGGCGCGGTGGCGGGCCGTAACCCACATGGACCCATGGGACTGCACAAATGGGGGTGAACGTGGGAA
Celera SNP ID:            hCV7806964
SNP Position Genomic:     11336
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17619):
ACCCTTTGAATGTAGTGAATGTGGGAAAGCCTTTAGCACAAAGCAAAAGCTCATTGTCCATCAAAGGACTCATACAGGAGAGAGACCCTATGGCTGTAAC
R
AGTGTGGGAAAGCGTTTGCGTATATGTCGTGTCTGGTTAAGCATAAGAGAATACACACAAGGGAGAAACAAGAGGCAGCCAAGGTGGAAAATCCTCCTGC
Celera SNP ID:            hCV27513246
SNP Position Genomic:     27588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17620):
GCTCATTACACACCAGTGATGTCATGCAGGAGAAAAACTCTGCTAACGGGGCGACTACACAAGTGCCTTCTGTGGCCCCTCAGACATCATTAAACATCAG
Y
GGCCTCCTCGCAAACAGGAACGTAGTCCTTGTGGGACAGCCAGTGGTCAGATGTGCAGCCTCAGGAGATAACAGAGGATTTGCACAGGACAGAAACCTTG
Celera SNP ID:            hCV25649263
SNP Position Genomic:     27800
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,39|T,1)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,37|T,1)   total(C,74|T,2)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:17621):
CTTATTTTATGTTACAGAAAACCCATAGGAAGAAAACTCAGATCTATGTGGAAAAGGGTTGAGCAAAAATTTGTAGTTCATTATGTGGCCGAAAAGCATA
Y
ACTGAGAGAACATGTATAAGGCTGAGATAGCCTGATAAACTCATCCTATTAAAATGTATGCTGTGATACACAGGCAAATTTGATGTTAACCTAAGCACAT
Celera SNP ID:            hCV25649264
SNP Position Genomic:     28044
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,33|T,3)   total(C,69|T,5)
SNP Type:                 UTR 3


Context             (SEQ ID NO:17622):
CAGAAGGAAACCATGTCATGAACATGATGCATTTGAAAATATTGTTCATTGCAGCAAAAGTCAGTTTCTGTTAGGGCAAAATCATGATATATTTGACTTA
Y
GTGGAAAAAGTTTGAAATCCAATTTAACTTTAGTTAACCAGAGCAAAGGCTATGAAATAAAGAACTCTGTTGAGTTTACTGGAAATGGGGACTCCTTTCT
Celera SNP ID:            hCV25649265
SNP Position Genomic:     26766
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17623):
ACACAGGAAAGACGCCCTTTGTGTGCAGTGAATGTGGAAAATCCTGTTCTCAGAAATCAGGTCTCATTAAACATCAAAGAATTCACACAGGAGAGAAACC
M
TTTGAATGTAGTGAATGTGGGAAAGCCTTTAGCACAAAGCAAAAGCTCATTGTCCATCAAAGGACTCATACAGGAGAGAGACCCTATGGCTGTAACGAGT
Celera SNP ID:            hCV1597651
SNP Position Genomic:     27491
SNP Source:               Applera
Population(Allele,Count): african american(A,8|C,30)   caucasian(A,8|C,32)   total(A,16|C,62)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(C,-|A,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:17624):
TTGCTGATTGTCTCTTTTCTAAAACTAATCTGCCTAAGAGTTCACCATCTCCTGAGGCTGGTGCTATGGTGGGTCTCATTTCCTACCTGCCTTCACAGTC
Y
TTCCACGGAAACGTCACAGAGGAAAGGCATACCTCCACCACATTAAGAATCCTAGACATTATTGGCCACAGGTATAAAATCCGCTGGGGCTCCAAACAAA
Celera SNP ID:            hCV29188956
SNP Position Genomic:     18076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17625):
AATTCTTCTGCCTCAGCTTCTGGAATAACTGTATTTTTATAGAGATGGGGTTTCACCATGTTGGCTAGGCCGGTCTCGGACTCCTGATGTCAGGTGATCC
R
CCCGCCTCGGCATCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGACTTACTAGTGTTAATTGTAACTAGAGATTACATGTAGTGTGCAAC
Celera SNP ID:            hCV29188957
SNP Position Genomic:     17582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17626):
AACAGAAGAATCGACTTTAAGACCTTTTTGATGAGCCTGTTTTAATCCTTCTCCTGCTGTATCCCAATTTTCCACATCAAGAGTGCCTGCCTGTGGAAAC
S
ATGGGTTATGTGTAATAACCTTTTGTGGCTTCTGCAGGAGGTTAGTGTCTGCGAATTAACCTGAGCTGCAGACTGTCTCAACAGAACTTTAAGCAACTGC
Celera SNP ID:            hCV11526830
SNP Position Genomic:     16041
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17627):
CCTGCTGTATCCCAATTTTCCACATCAAGAGTGCCTGCCTGTGGAAACGATGGGTTATGTGTAATAACCTTTTGTGGCTTCTGCAGGAGGTTAGTGTCTG
Y
GAATTAACCTGAGCTGCAGACTGTCTCAACAGAACTTTAAGCAACTGCACATAATGTTTTTCTTCAATAGACAAATTCTTTCCCTTGTTACCCTGAGTCA
Celera SNP ID:            hCV11526831
SNP Position Genomic:     16093
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17628):
CTTGAAGTCCCATGTTTGGATGCTGCTAGTTGGGCGTGCTTGGAGTCCCTGTTCTGGTTGCCATTTGTAACCTGCACGGACCTAGGTGGACTAAACAAAG
K
GGGGTGAACACGGGAATAAAGATGAGACAAAAGAGTGTATTTGGAAGAAGGGATCGGGGGCGCTTTGCCTCTAGGGGACAAGGGCCCTGAGCTTTACACA
Celera SNP ID:            hCV11526832
SNP Position Genomic:     16445
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,3)      total(G,1|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17629):
CCCCTCAGACATCATTAAACATCAGCGGCCTCCTCGCAAACAGGAACGTAGTCCTTGTGGGACAGCCAGTGGTCAGATGTGCAGCCTCAGGAGATAACAG
W
GGATTTGCACAGGACAGAAACCTTGTGAATGCAGTGAATGTGGTTGTGCCTTCCGTGATCAATTATGTCTTATTTTATGTTACAGAAAACCCATAGGAAG
Celera SNP ID:            hCV22274416
SNP Position Genomic:     27875
SNP Source:               Applera
Population(Allele,Count): african american(A,31|T,7)   caucasian(A,28|T,8)   total(A,59|T,15)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,29|T,7)   caucasian(A,31|T,7)   total(A,60|T,14)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17630):
AGCAGAATGCTGAGTTGGTCACGTCCCACAGGCCTTTGGCTCCCTGCATATCCCCCTTTCTGTTTATGTATTAATTGAAAGAATGTAAGGCTGGGCTGGG
M
GGCTCTCATTCTCCAATTGGTGGTCCATCCGATTTTACAGACTATAAACCGAAGACAGAGACAAAACAACATTATTCCAAGAACTACATATAAGATGTTA
Celera SNP ID:            hCV29188610
SNP Position Genomic:     11857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:17631):
GACTGCATTCTCTAGATGTCGCAGTAGATAACCTCGGTGCCAGGGAGTGATTGCCTCCAGCAAACCTTATGTTGGCAGGAGCAGTCCTGAGTTTGCTCAC
R
TCCTGTATTCATGATAAACAGTTTGCTGTTTGATCATATAGCCTCCAGCAGAATGCTGAGTTGGTCACGTCCCACAGGCCTTTGGCTCCCTGCATATCCC
Celera SNP ID:            hCV29188611
SNP Position Genomic:     11710
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17632):
ATAAGTCCTCATAACTGATATGGCAAGTCTTCTAACTTTTTTTTCAAACTTTAAAAAAAAGTTTATAGCTATTTAAACTTTTCAGTATCAGTTTGGGATT
R
TGACTGTGATTTCATTGAATCTGTAGATTTGGGAGACTTGACATTTTTAAAATGCTTTGTTTTCCAGCCCATCTTTATAGTACATCTTTGCATTTATTTA
Celera SNP ID:            hCV1129583
SNP Position Genomic:     10185
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17633):
AGAAGCATCATGTGTGCAGTGAATGTGGGAAAGCCTTCATCAAGAAGTCTTGGCTAACTGATCACCAGGTAATGCATACAGGAGAGAAACCCCACAGATG
Y
AGTCTATGTGAGAAAGCCTTCTCCAGAAAGTTCATGCTTACTGAACATCAGCGAACTCATACAGGAGAAAAACCTTATGAATGCCCTGAATGTGGCAAAG
Celera SNP ID:            hCV7806937
SNP Position Genomic:     27080
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,22)   caucasian(C,9|T,31)   total(C,25|T,53)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,22)   caucasian(C,9|T,31)   total(C,25|T,53)   
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:17634):
TGTTATTACAGGAATCCATAACACTGGAGGATGTGGCTGTGGACTTCACTTGGGAGGAGTGGCAACTCCTGGGCGCTGCTCAGAAGGACCTGTACCGGGA
Y
GTGATGTTGGAGAACTACAGCAACCTGGTGGCAGTGGGTGAGGACAGCTGCCCTGTGTCACTCAGAGGGTGCCTAGTCAGTGGCCTTCCTTTCTCAGATG
Celera SNP ID:            hCV22273749
SNP Position Genomic:     23783
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,13)   caucasian(C,14|T,26)   total(C,39|T,39)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:17635):
TTTCCAAAGAGGAAACTTTGAAGTCCTCACTGTTTTCGGACTCCCACCCCTTTGTGCCCCTTGGCTAATGCTGACCTCCCCTCCTAACACCTCCCCTGTG
W
TGGATGTGGCTTCCTCAGGGTAAACTGGACTTTCGCTGTGCCTTGGCTTCCTTCGCTTCTCTTTTTCCTTATTCTTAGGTTCTCCAAAGGTCCCGTTCTC
Celera SNP ID:            hCV7806938
SNP Position Genomic:     24675
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,4)      total(A,2|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17636):
ACAAAACAAAACAAAAACTCTTTATCTCCTCAGAGATCTGATTATTTTATCTACATATTGTTTGTTTGCCTGCATAATTTTCTTCTTCCTCGGGTTTCAA
R
TATTTCCCTTCTTCATGTTGTTCCACCTCTCTTGTTACGAAATTCCACCTTCCAGGCCTCTTTCCAAAGAGGAAACTTTGAAGTCCTCACTGTTTTCGGA
Celera SNP ID:            hCV7806939
SNP Position Genomic:     24514
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;JBIC-allele(A,355|G,1144)   total(G,1144|A,355)
SNP Type:                 INTRON


Context             (SEQ ID NO:17637):
AGCTTGTATTATTAAGAATAATGCATGTGTGAAAATTTGTGTAAATGTCTTTTGGTTCATATGTGCTCTCATATGGGGGAGGCAGAGATGTATATCTAGA
Y
GTGCACCTCGGAGGAAAATTGCTGCTTCATAGAGTGTGTATAAACTCCGTCTAAATAGATGTCAAACTGTTTTCTAAAGTGGTTGTACCACTTACAGTTC
Celera SNP ID:            hCV7806972
SNP Position Genomic:     8300
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17638):
GTGGCTTATGCCTACTTTGGGAGGCTTAGGCAGGAGGATTCCTTGAGCCCAGGAGTTTGAGACTAGCCTGGGCAATCTAGTGAGACCTTGTCTATATTTA
R
TAAAATTGAAGAAAAGAGAAAAAGTTTTCTTTTCACATATTTTCTTCCTAATCCACTTCTGTAAATGGTTGGTAATATTTACTTCCTGTCACTGTATCTG
Celera SNP ID:            hCV7806956
SNP Position Genomic:     19995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17639):
AACTAATCTGCCTAAGAGTTCACCATCTCCTGAGGCTGGTGCTATGGTGGGTCTCATTTCCTACCTGCCTTCACAGTCCTTCCACGGAAACGTCACAGAG
S
AAAGGCATACCTCCACCACATTAAGAATCCTAGACATTATTGGCCACAGGTATAAAATCCGCTGGGGCTCCAAACAAAGGTATATAGTTAACTATATTGG
Celera SNP ID:            hCV7806957
SNP Position Genomic:     18098
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17640):
AAAAAGTATAAATTTCAAAAAGCAGGATCTGGAGAGAAGTAAGCTTAGTTTTTAAACTCAATATCATGCAAAATAGTAGGATAAGGAATATAATGTTCAT
W
GCATTAACACTAAATTATGAATTTTGTGACACCATGCATGGCTGGAGGATCCTGTGGATTATATTAGCTGTCAGCTTGCATCTAATATCTCTGACAGCCA
Celera SNP ID:            hCV25649272
SNP Position Genomic:     18664
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|T,1)   total(A,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:17641):
ATTGCTAGTGATAGGTTTGACATGGAAATGAGCTTAGGCGTATGGTGCAATTCTAGCCAACTATGTATGTGAAAATCTGCCTGGGAGTTTCTGAGGGAGC
R
TTTTCTTTTTTAAATATGTAATTTCTTGAATCTCTTTTTCCATGTTCGTGATGATATCGCCTGAAAATAACATTAATTTTCTGTCTTACTTTGTAATGCT
Celera SNP ID:            hCV26638800
SNP Position Genomic:     7367
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17642):
AGGCCCAGGTAACTGACTTTTGGTTTGTTTTATTCTTTCCTTTGTTCCATAATAGATTTGTAGAAGCCTATAAACATCAATTTCACTAATATAAAAAGTA
K
AAATTTCAAAAAGCAGGATCTGGAGAGAAGTAAGCTTAGTTTTTAAACTCAATATCATGCAAAATAGTAGGATAAGGAATATAATGTTCATAGCATTAAC
Celera SNP ID:            hCV25649273
SNP Position Genomic:     18572
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,34)   caucasian(T,40)   total(G,2|T,74)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17643):
GCTCGACTGTGTCAATTAAATGAGTAAAGGAAGCCCAAGTACTTTTAAGTGGAGGAAATGAAGTACTGTGAATTTTTAAAACAGATGAGATAATTGGTGT
Y
GGGAGTGTTGCAGTGACTGAAAAGCTTCATAAGGGGCAGTTGGTGGGAAAGGGCTAATACTGTAATGGTGGAATGTGGGACACATATGTGTCAATTCAGT
Celera SNP ID:            hCV15965460
SNP Position Genomic:     28256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17644):
TATGCAGAGTTACAGAAGATATCACAACAGAAGTTATTAGTTTGACCAAGGAAACAATAGCAAAAATTATGCCTAAGGCTCTATGGACACAGTGAGTAAG
S
TGAGTTAGAAGAAGTGTTACAAAAATGCAAAGCAGGTGTGGCAGCCCAAGGCTCAGACAGATTAACAAGAATCCATAGCCCAGGGATGCAACCCAACATT
Celera SNP ID:            hCV1597647
SNP Position Genomic:     12485
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:17645):
CAAGGAGAACAACTGTGGACAATTGAAGATGGAATCCACAGTGGAGCCTGTTCAGGTGAGAGAACCCACAAGACAGAAGGCTATGGAAGTCACATTCTAG
W
CAGTCAGAGAAGGCAGCACAGCTGTGAAGGGGGTTTGAGGATATGTAAACAGTTCCTCTACTCATCTGTCTCCCAGTGTGAGACCAGTTTTTCTTTGTAG
Celera SNP ID:            hCV22273336
SNP Position Genomic:     24293
SNP Source:               Applera
Population(Allele,Count): african american(A,19|T,19)   caucasian(A,30|T,10)   total(A,49|T,29)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17646):
CTCTGAAGTGGTAGATTCTCAGATCCTTCTCTTGCTCCCACACAAGACGGTGTAATCTACCCTCTTGTAAGAGAAAAACCTTGATGTTACAGATATGAAA
Y
GAAACTTTCATAGTTTCAGATAAGAAACTAAATTTTGGGTATTTTAAGAAACTCAAGTTTCTTGAAATGTAACATTCTTCCTTCTTGACATTGCCAGCCC
Celera SNP ID:            hCV15965447
SNP Position Genomic:     24010
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,100|C,1395)   total(C,1395|T,100) 
SNP Type:                 INTRON


Gene Number:                 48
Celera Gene:                 hCG1773950 - 62000133458251
Gene Symbol:                 DKFZp434L0850
Protein Name:                hypothetical protein DKFZp434L0850;DKFZP434L0850;FLJ12871
Celera Genomic Axis:         GA_x5YUV32VU2L(3123032..3190099)
Chromosome:                  Chr16
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12208):
ATGAGAGCAAAGAGAGACCAAGAGACAGGCTCTGCTTTGTTTCTGTTTAACTTTCTAGTTCTTAGTATGAGTCTCTCAGGAAGCCCAGCCATTTTCAGGT
TCCACAATTTACTTGAATTTTTCAGCAAATTTTTCTATTTGCTGGTTTGAGTGGGTTTCTGTAATTTATAACAACTTGACTAAGACAAAATAGAACAGCT
GGACGAGTAGGGAAGTTGGTAAACCTTCAGTCTTCTTAAGACTGTAATTAATGCCACACAAACATTAACAGAAAATTCTGATAGTGGCTACTCACAAAAA
GAGGATGAGCAAATTTTTTTTTTTGTTTTACACAAAACAGAAGTTGTTTCTAGACATAATATTGCCAGAAATCATATCACATGAGAAGCTGCTGAAGATG
CTTAGGAAGTTTACCCAAAAAAACAAAGGGCTGTGATGGATAGTTTTTGAACTTGAAAGACCATCCTATATAAGAATAATTAGATGTTTTATTGGGAGTC
ACATTCTGAGTTAATTTAGGAAGAAGTTTCTAAAAATTTTAGTGGTTCAACAATGGAGCAGCCTGGTGCTTGATCTTAGATTTGAGAAAGTGTAAGAAGT
AAGCATCCTAAAAAAAGACCAGGAGGCCCTTGAGTTCAGGGGCTGTGTCTTGTTCATCTTGGTATTCTCAGTACCTAACACAGGGTCTAGTGCTTAGCAG
GTTCTCTTTCAATGCTTGCTTAATAAATAAAAGAATTAAGAGCAGAAGTTTTAACAGAAGTTGAGTGACTATTTGGGGTGATGTCAAAGAGATAGAAGAC
TGGACTGAAGAATAATGATTATTAATAATAATGACAGCTTTCATTTATTAAGACTTTGGTTTGTGTTATCTTATTGATTGATTGAGGCAGGGTCTGGCTG
TGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGAAACTTCTACCGCCTGGGCTCAAGCAATCCTTCCACCTAAGCCTCCCAAGTAGCTGG
GACTATAGGTATGCACCACCACACCCGGCTAATCTTTGTATTTTTTTGTAGAGATGGAGTTTTGCCATGTTTCCCAGGCTGGTCTTGAACCCCTGAGCTC
AAGCCATCTGCCCGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCATGCCCAGCCGTTATCATCTTATTTAATCTTCAAGAACCGTATA
TGGTAGTTGCCCCTGTTTTGCAGAAGTGGGAACTGCAACACAGGGAGGTTAAGTAGCAAACTCTACACAGGCAGTAAGTGGCAGAATTTGAGTTATCTCC
TAATAGTCAGAAAAATTACTGCACATGTATTGAACAATTACTATGTTCTAAGAGTTTTATACACGTTGATCTCTAAGGTGTTTTACAATGATGAGTCTAT
GATTTCTTGATATCTGCCACCCATGTTCTTGCCCAGGACCGTCCTCTGCCTGGGTAAGTCAGAGGCTTGGGGCCCTCAGCATAACCAGCTTCCTTTACCA
TTCTGAAGTCTGAAGTAGTTCAGTTTTCACTGCTCATTGACTCAATTATCTGCTCACACCTTAGAAAAGACAAAGCACTGGCCTCATCTCTCCAACTCAA
TCCAAGTATGTTGTTCCTTAGGAGTCAGACATCTCTCATTAAGAATGGAGAAGTCTTCATCCTTTCAGTTAGCCTCTTTAATTTAGGGGAAATGTAAGTT
AACAACAAAAAAAGATTTTCAAATCTGATTTACTTTCTAATAGTATAATTAACCTTCAGTGGGCTATCCATTTCTAGCTGAGTGGCTTTTTTGTTTTTGT
GTTGCTTTTCCTGGGAAGGCTGCATGCCTGTCTGCCTGTCTATTGGCACTAAGAACATACCAGCCTTCTATCATTGGGGAGTTGCTGTGAACAGCCTCAG
AGGAGCAGCCCCATAGCTGCTGGCCACTGGTTTTTGCAGCCTCAGCACCCCTAACCCCTTGGGGATGGGAGATTAAACACTGGTCTTAGGTCTGAGGTGC
AGGTGCTATGTGACTTTAGATAATCCATATTCCTCCCTGAAATAATATGCACTTTAATATTTAACTTTATACATATTCTACTGTTCTGTATACTTCAAGA
TGAATACATGTTTCTGTCTTTATTTATAGCCTATTTTGTATTTTTAGGAAGCCCTTGAGCCAAACAAGCATGACTTGTGGGTGGCAGTCATAAAGCAACT
TAATAATTGTCTTCTAGTCTCTCTTTAAATTTCCTCTGTGTGGCCAATTATTTCCCTGCCTGTGGGTAAACTCAGTTAGATGCTGAGACTTTTATGGACC
TTTGTAGGTGTTAAAACACAGCCTCAATACAATTGCTCAAATGTTCTGTCTAAGGTGATAATCAAAACTGTTAAAAAGTTGCAGCTTCTCTCCTATTTTA
TTTTAGGCCTGCTGCAGACAAGAGACCTACAGTTGGAGAATGGAAGCATAGCCACCTTCTTCTCTCCTTTTTGTTGCCTTTTTGTGGGTTCATTGACATC
TCTACACCTGTACCCTCAGCTGGAGAACTCTTTCCTGGCCTCTCTGGCATTGGGGCACGGGTGGAGGAGAGGAAAGGACAATAAGAAAGTTTTTACTTGT
CTGATACTGCTGTGATTAAGCTGATACATCCTCTGGTGGGGCATTTTCAAGAGTCTTTCAAGATAACTTACCCTCGTTGCTGGAAATCCATATCCTGCAG
TTCTCTTACTGGGACATCTTTCTTTTGGCTGGTTCTTTCCTTTTTCTTGACCCCTGGGTAACTAGCGATACCCTCAGTATGTTAGTCAGTTTGTGCTGGT
GTAACAAAATACCCAAGACTGGGTGATTTATAAAGAACAGAAATTTATTTTTCATGGTTCTGGAGGCTGGGAAGTCCAAGATCAAGGCAACAACAGGTTT
GTTGTTTGGTGAGTGGGCAGTCTCTGCTTCCAAGATGGCACCTTGAATGCTGCATCCTCTAGAGGGGAGGAACACTGTGTCTTCACATGGCAGAAGGCAG
AAGAGTAAGAGGCATGAACTCCCTCCATCAAGCCCTTTTATAAGGTCATTAATCCCATACATGCGGGAGGAGCCCTCATGACCTAATCACCTCTTTAAGG
CTTCACCTGTTAATAGTATCACATTGGCCATTGAATTTCAACACATGAATTTGGAGGGGACACTTTCAAACCATAGCACTCAGTTTTCCTTTTCTGAAAC
CTCTATCTAAGAGATGGAAAGGGTCTAAAATGACCCTGTACAATCTCTCTTGAATGAACTTCATCTCCTTCATAGAAAGCACTCACACATCTTTTATCTG
TAAATCCTAGGGGAAGAAGGAGGGTTGTTCCTAACCAAGCAGTTCTTCTTTGCACTGCTGACTGCTGACTAGTGAGCATATCTCTTGCCCTTTTTAGCAT
TTCCAGGTAGGATTCAGACACAAGCCCACTGTGCCCTCTGAACTGTAGATGCCACATATTAAACACCCAGTGGCTTCCTCAAAGCCCTTTTCTTTTGACT
GGAGATTTGGAGGTGGGACTCACAGCTCAGCTCTTTTTGAAGAAATCCTTCATGAAGATCTTCTTTAGAAATCCTCTTAAATCCCCCACTCCTGGCCCCT
CCCCCCCTTTTTTTTGAGACGGTGTTTCGCTCTTGTCACCCAGGATGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCTGGATTCAAG
CTATTCTCCTGCCTCATCCTCCCAAGTAGCTGAAGTAGCTGGGATTACAGGCACCACCCCCCACCCCGCCGCCACCATGCCCAGCTAATTTTTTATATTT
TTAGTAGAAATGGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGTTCGGATTACAG
GCGTGAGCCACTGCACCCGGCCTTCTCCTGACTCTTTTATACACTCAGTGTGCGGAAGATTTAAGAGTTGCCTAACTTGTTTTACTTCTAAATTCTTCAT
CTATGTTCTTTATTTGAAATTTGCTATTTATCATGCCTCTACCAAAATGTCTATTTTAACATCTGTAATGAGATTTCACTTGTTTATTCAAATAGCATTA
AGCTCCCACTAGACCAGCACAGTCCACTAGCAATATAATACAAGGTGCATATGTAATTTAACACTTTCTAGCAGCCAGATTTAAAAAAAGAAAAAAACAG
GTGAAATGAGTTTTAATAATATATCTTATTTAACATAATATATCTGAAGCATTATCATTTCAATATGAAATCAATTTAAAAATACTAATGAGATATTCTA
CATTCTTGTTTTACACTAGGTCTTTGAAATTTGGAGTCTACACTTACTCCACATTCCATTTAGGACCAGCTACACATTCAGTGGTCGATAGCCATAAATG
ATGAGAGGCAACTGTAGTGGAGCAGTAGTACAGCAGTAGACTGTAAGTTCTGTAGGCAAAGTTGGTGTCTGTCTTGTTCATTGTTATAAACAACAGTGTT
TGGCATAGAGTAGGCATTCAATATTGTGAAATTGAACTAAATATAATTGAAAGAATGAAGACATTACCAAGGGAATCCTTCAATGTTTCCCCACAGCACT
TACAGTCTAAATCATTCAATTCTGCACGCAATTAGTTGGCCCACATAGTTTGTAATTAAATTATTCCACAAGCATTTAAGGTTCACAAAGGAGGAAGCAT
CTTCATCTTGTTATCTGTTGTATCTCCCAGTCAACCACAGTTCCTAGTATTGTGATGTGTAGATTCATGCAATCAACAAATATTTATTTAGTGTCCACGC
CAGGCCAGTTACTATTTTAGGTGCTGGGGATACTATAAGGGGGACACAGTCTCTGTTCTCATGGAGCTCACAGACAATAAAAAGTTACAAGAGCTTTGAA
GGAAATAAATAAGGTGACATGAGAGAGTGTGATGGAGGACAGAGCAAGGAAGTACGGAGGAGAAGGAGACAGTATTGTGAAGAGCCAGGGAAGGGCAATC
TGAGTGTGTCTTTTTGAGGCAGCCACATTGACTTTTCATTTTCTCGAATTCTCCAAACTCATTTCTGCCTGTAACTTTCTATTCCTTTTTCTTGTGCTGC
CCACCCTCTCCCTTGCTCTTCTATAGCTGGTATCTTCCCATGTCTCAGCTCAAACGCAACTGTCTCCTCAAAGACACCCTCCCTAACCACCTGTCTACTG
GGCTCATCACCCTTGACACTTCCTATCACATCCTGACATTTTGTTTAGTACCACAACCTGAAATGATCTTGTTTATGCTTCTATGAAATTGCCTTGACAA
TTGCTATCTTTCAATGCTGAGAAAAGTGTCCCTATGACAAATATATGACCCACAATTAGTGATCAATAGATATTTATTAAATGAATGAATGACTGAAGGT
CAAGAGTTAAAGCATTTGGGAGATGTCTCAAGTCATGGTTTGAATAAATGTAAATGAAGTCTAGGAAGAACCACACTCTATTTGTCTGGTTTCTCTGAGA
AGGAAGATGGGGTTAATGGATGTGGGATTTATACTCTTGCGCCGTCTCGGGCATGGGGCAACCTGAGTTTTGGTTCCAGCTCCTTTGAGAATCTACAGCT
ATGGACCATCTGACCGGGTAAATGGCCACAAACTTTTGCTTATAACTTAAGGGGGTTCGTGGACCTCCTGAAGAGGTCAAAGGACCACAGGTTAAAAATT
CCTGTAGAGATAAGAGATTTCCACAGCAACACTGGGAGGCAGGAGGCAGGTGTTCAATGAGATAATGCACGAAGCATCTTTAAAGAACTAGGCCTGGCGA
AGTGTGGCTTTGGGGAGAGGTGGTGTCCGAAGAATCCTTGGAAACCAAATTCTTTTGCACCTAGCAGCTGGGGCGGTGGTTGCTATTGACGCTTGCCTCC
TCCAATCATCGCGCGGCTTGCTAGGCTGTGCGGCTCCGTGGTTACCGTGGCAACGGACGGCAACAGCTCGGGCGGCGCATGGAGAGTGCGGGCGGCTTCA
AGCTGGGYATGGAGCCCCTCAGCGGCGGCGGGGTCTGTGAGTTGGWCGCGGGGTCTTGGCGGGGAATGGAGGTAGAATAAACGTGGGACCCGGAGTGCAC
CAAGGTCAGAGGTCCTCGCAGAGATTGTGGGGTCAAAGTGTGAGGGACATGGGGGCTAACCGGGGCGTCSCCTCTTTTCGTCCTCGTCCTCGCCCTGCGT
CCCAGGCGTTCTCCAGACTTTCCAGACCCCTCCCCTCCTCAGCCTTCCCTAGCCACTTCTCACTCCCATGAAAGTTACGGGACCTCGGATTTTTGTTCTT
GGGATTCCCCTGCCAGACAGGTAGCCTGAAGGGCAGAAGGCCTGAGGTGCTGCCTCGCTTCCAACTTGGAATTAGCCCCAGGCCTTGGACGAATCATTTC
CCGTCTTACCGGGGAAAATGGTAAAATTCACCTCTTTTAGGTGTACAGTTCCAAGAGTTTTGAAAATATAAAGTTCTGTACTGTATTAATCTGTTATCAT
TCTGCTAATAAAGACATATCTGAGGCTAATTACAAAGAAAAGAGGTTTAATTGACTCACAGTTCCACTTGGCTGGGGAGGCCTCACAATCATGGTGGAAG
GCAAAGGAGGAGCAAAGTCGTGTCTTATATGGCGGCAGGCAAGAGAGCATGTGCAGGGGAACCTCCCCTTTATAAAACCATCAAATCTCGTCAGACTCAG
TCACTATCATGAGAACAACCCAGGAAAACCCACCCCCATGATTAAGTTACCCACCATGGGGTCCCTCCCATGACACGTGGGGATTATGGGAGTTATAATT
CAAGATGATATTTGGGTGGGGACACAGCCAAACCATATCATGTACTTACTGCAATAAGTATGTARAATGATTCCATTAGCTCAGAAAGTATCTCTTGTAC
CTCATTGTAGTCAATGCCCCTTCCCCACTTCCAGCCCATAGCAACTAATGAAATGATCTGTTTTCTGATTCTGCATTATCCAGAATGTCACATAAATGAA
ATTATAACATACATAGCACTTTTTGTCTGGCTTGTTATACTTAGCATATTGCTTTTGAGATTTAACCATGTTGTTGTATGTAACAGTAGCTCATTTCTTT
TCATTGCTGCGTACTATTCTATTGAATGGATGTACCATCAGCTGATGGACATTAGGATTGCTTCCAGTATTTGGTAATTATTAATAAGTAAAACTGTTAT
AAATATTCCCATACAGGTATTTGTATGGACATATGTTATTATTTTGATAAATACCTGGGAGTAGGATTGATAGGTTATATGGTAAGTATTAATTTTACAA
GAAACTGCCAAATTGCAACCTTGTTAGCAGGTGATCTTTTTTTTATATGTATATATTTTTATTCTCCTTTAAGTTCTAGGGTATATGTGCACAACGTGCA
GGTTTGTTACATATGTATACATGTGCCATATTGGTGTGCTGCACCCATTAACTAGTCATTTACATTAGGTATATCTCCAAATGCTATCCCTCCCCCCTCC
CCCCACCCCACAACAGGCCCCGGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTGTTCGTTGCCCACCTATGAGTGAGAACATGCGGTGTTT
GGTTTTTTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAG
TATTCCATGGTATATATGTGCCACATTTTCTTAACTCAGTCTATCGTTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAA
TAAACATATGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGCATATACCCAGTAATGGGATGGCTGGATCAAATGGTATTTCTAATTC
TAGATCCTTGGGGAATTGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACGTCCTCTC
CAGCACCTGTTGTTTTCCTGACTTTTTAATCGCCATTCTAACTGGTGTGAGATGGTATCTTATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGAT
GATGAGCATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCACTTTTTGATGGGTTTGTTTTTTT
CTTGTAAATTTGATTGAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTGAGATGAGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTC
ACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTCTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAG
ACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGYTTTAGGTCTAACATGTAAGTCTTTAATCCA
TCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTYAGCTTTCTACATATGGCTAGCCAGTTTTCCTAGCACCATTTATTAAATAGGGAA
TCCTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATGAGATGGTTGTAGATGTGTGGTATTATTTCTGAGGGCTCCGTTCTGTTCCATTGGTCTA
TATCTCTGTTTTGGTACCAGTGCCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCGTGATGCCTCTGGCTTTGTTCTTTTG
GCTTAGGATTGTCTTGGCAATGCAGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAATAAAGTCATTGGTAGCTTGATG
GGGATGGCACTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTATTCCTATCCATGAGCATGGAATGTTCTTCCATTTGTGTC
CTCTTTTATTTCGTTGAGCAGTGGTTTGTACTTCTCCTTGAAGAGTTCCTTCACATCCCTTGTAAGGTGGATTCCTAGGTATTTTATTCTCTTTGAAGCA
ATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGA
TTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGCCTGAGAAGATGGGGTTTCCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGAC
TTCCTCTTTTTCTAGTTGAATACACTTTATTCTTATAGCTGTGTAGTGGTATCTCATTCTGCTTTTAATTTGCATTTCCTGGTGATTAATGATGTTGAAT
AACATGCTTACTTGTTATTATATCTTTGGTGAAGAAGTTTGGTGAACTTGGTGAAGTTTCTGTTTGTATCTTTTGCCCATATCATTCATATATATATATA
TACACACACACACACACATACACATATATATATACATATATATATGACAAAAGTCAGATATTTAATTTGCGAATAATTTCTCCCAGTATGTGACACATCT
TTCCTTTTTAAAACATTTTGTTACTGAAATGCCAGGGGTTTGATCTAGATCTCATTGTTTACAGCACAGAAAGCCAATCACTGGAACAAAGAGTACTGCC
AGGGAAGAAGGCTTTATTTGGGTGCTGCAGCTGTGGAGATGGGAGATAGTCTCAAATTGTCTCACTAACTGACTAAAATTGGAGATTTAAATACCAGGGA
AAGAATGTAGAAAACAGGAATTAGGGAGGAGTAAGGAAGAGGAATCTGGTCTCTCACTGTCTGGATGCGGTGATCTGGTGAGTTTCAGTTCCTTTATACT
CTCTGGGAGGCCCGAGCRTCAGTTTTCTAAGAAAGGAACTCAGATAAGATAAATATAAGTTTCAGGCTTAAGACCAAGAGGGCCAATTTCTGTTTATTTA
AAAAGACCATAAACATCAGTTCTGTGAGGAAATTGGGCTGGTTTCAATTTTCTTCATAATGTCTTTGAAGTCAAAAGTTTTGATGAAGTCTAATCTTACT
AATTTTTTCTTTTATGTTTTGTGTGATATCTAAAAACCTTTGGCCTAACACAAGGTAACAAGATTTTCCTCAATGTTTCTTTCTCAGACTTTCATAGCTT
TGGGTTTCACATGTAGGTCTTTGATGAGTTTTGAGTTAATTTTTATGTATGACGTCAGGCAAGAGTTGAGGTGTTTTTTTTTCATAAGGCTGAATGTTCC
AACCCCATTTGTTAAAGAGACTCTCCTCCCTCCACTTACCTTGGCACCTTTGTCAAAAATCAGTTGACCATGTATGTGTGAATACATGTTTCTGATTTAT
CAATGTAACAGAATATTCCAGAAAAATATGAATAATTTTTGTTTCTCAAATGAACTACCAGTCATTTTAACAGCATAAAATCGATTTCTTGATAACTTTA
CAGTGAATTTTGAAATCTGGTAGTTTGAGTCCTTCTACTTTGTTCTTATTTTTCAAAATTGAATTGGCAACATTGGTTCCTTTACCTTTCCATACAAACT
TTAGAATTAAAGGTTAACATCTCCAAAAATATCTGCTGGCATTTTGATTAGATTTCATTGGAGTATAGATTAATTTGGGGAGAATTGGCATCTTAGCAAT
ACTGAATCTTCCAATTTATGAACATGGTATACCTCCTTTGATTTAGTCCTCTTTAATTTCTCTCAATGATGTTTTATAATTTTTAACATGCAACTTTTGC
ACATGTTTTGTTAGCTCTGTTTTTATTTTCTGTTTTTTGATGCTATTGTATATGATACTGTTTTAAAATTTTCAGTTTCCAGTTGTTCATTCCTTGTTTC
ATACCCAATCAAATGTTAAACCTCATTCAAATGTCTTGGTGGGGAGAACTGTGTTGTGTTTGTTGCAAGCCCCTCCTCCTTCTTTCTGAACCTCAAGTTC
TAAGCACCAAGAGACTTTAGCAGATTTCACTCTGTGTTTCATCCCACAATACCTATGGCCAGAATCACCCCCAAAATGATGGCAGGAGATTCCCCACAAG
GGAGTGCCCCAAACTGTCCAGAGATAGGGCCGGTTGGGATTCCAAAAAAAGAAGGAAAGACTAAATGCCAGAGTGGTCAATCCAAAGCATTTATTGGGGA
AACTTACAGAGTGCTGCAGCAGTCCTCAAAATGAACAGTAAGAGAAAACAGGTGTTCTACCTAGGTATGACTGCAGTGAGGGGGTCAGGGTATGAGAGTT
TAAGGAATTTGGCTCAGGGCCAGGGCTAGTTTCTTTTTCAGTGTTGTGGGCAGCAACCTAGATACCTTTATCAGTGCCTAGGAATGTTCCAGGCCCAGGT
TTGGGTTCAAGTCTGCTACGAAAAACCTGCAACTGGATAGATCACAGAGCAGTCAGGACACAGAAAGAAAGTAGTGGGGAACGGAGAACCCTACACTCTT
TCTCATTCAACTTCAGAGCTCTCATGCTGTTCCACTTCTCAGAAAATCACCCATAGGGGAATCTGGCCCTCGCTTTTTAGGTTCCTGTTCGTCTTGCCAG
ATTTTACAACCATCACCTATTCTGTTGGTGCYTCCTCTTACCTTAAGAATCCTCTGCCTGAGCCAAGCTGGATTGTCTCCCTGTGCCTAGAATTAGCAAA
TGTCCCCAGAGAAAAACATGACCAGTAACTTCAACTCATTGATGAGAGGCCATTTCCCTTCTGAAATTTTAGTTCTTCTAGTCCATTGTTAAAAGAAAAA
CCTTAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCTAA
AACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAAT
GGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAA
AAAAAAGAAAAACCTTAGCCAAATTAAATTTAACAGAGTTTAATTTAATTAAAGAATGATTCATCAATCATTTCAGAGCAAAGAACAATTTGCAAATTGA
GCAGCCTCTTTTTAAATAATTTTATATTTCAATCATTTTTGAGGTACAAGTGGTTTTTCGTTACATGGATGAGTTCTTTAGTGGTGARTTCTGAGATTTC
AGTGTACCTGTCACCTGAGCAGTGTACACTATGCCCAATATGTAGTCTTTTATCCCTTACCCTACTTCTGACTTCCCCAAATGAGTTCCCAAATTTCATC
ACTCTGTATGTCTTTGCATCTCATAGCTTAGCTCCCACTTATAAGGGAGAACGTATGGTATTTGGTTTTTCACTCCTGGGTTACTTCACTTAGAATAATG
GCCTCCAGCTGCATCCAAGTTGCTGCAAAAGACATTATTTTGTCACTCCTTATGGTTGAGTAGTATTCCATGGTATACACATTTTACATTTTCTTTATCC
ACTTGTTGATCAATGGGCACTTAGGTTGGTTCCATATCTTTGCAATTGCAAATTGTGTTGCTGTAAACATGCATGTGAATGTGTCTTTTTCATATAATGA
CTTCTTTTCCTTTGGGTAGATACCCAGTAGTGGGATTGCTGGATGAAATGGTAGATCTACTTTTAGTGGTTGTACTAATTTGCATTCCCACCAATAGTGT
AGAAGTATTCCCTTTTCACCACATCCCAACCAACATCTATTGTTTTTTGACTTTTTAATTATRGCCATTCTTGCAAGAGTAAGGTGGTATCTCATTGTGG
TTTTAATTTGCATTTCCCTGACAACTACTGATGAGCATTTTTTCATATTTGTTGGCTGTTTGTATATTTTCTTTTGAGAAATGTCTCTTCATGTTTTAGC
TCACTTTTTGAAGGGATTATTTGTTTTTTTTTTTTCTTGCTGATTTGTTTGAGCTCCTTGTAGATTCCGGATGCTAGTCCTTTGTTGGATGCATAGCTTG
CAAATACTTTCTCCCACCCTGTGGGTTGTCTGTTTACTCTTCTTATTATTTCTTTTGCTTTGCAGAAGCTTTTTAGTTTAATTAGGACCCATTTATTTGT
TTTTGTTTTTGTCACATTTGCGTTTAGGGTCTTAGTCCTGAATTTCTGCCTAAGCCAATGCCAGAAGAAGAGTTTTTCCAATGTTATCTTCTAGGATTTT
TATGGTTTCATGTCTTAGATTTAAGTCTTTGATCCATTGGGAGTTAATGTTTTTTATAAGGTAAGAAATGGGGACCCAGTTTCATTCTTCTACATGTGGC
TTGCCAGTTTTCCCAGCACCATTATTGCATAGGGTGTCCTTTCTCCAATTTATGTCTTTATATGCTTTGTCAAATATCAGTTGGCTGYAATTATTTGGCT
TTATTTTTGGGTWCTCTGTTCTGTTCTATTGGTCTATGTGCCCATTTTTATACCAGTACCATGCTGTTTTGGTAACTATAACCTTGTAGTATAATTTGAA
GTATTGTAATGTGATGCCTCTAGATTTGTTCTTTTTGCTTAGTATTGCTTTAGCTTTGTGAGCTCTTTTTTGGTTCCATGTGAATTTTAGAATTGTTTGT
TGTAGTTCTGTGAAGAATGATGTTGGTATTTTGATGGGAATCGCTTTGGGTAGTATGGTCATTTTCACAATGTTGATTCTTCCCATTCGTGAGCATAGGA
TGTGTATCCATTTGTTTGTGTCATCTATTATTTATTTCAGCAGTGCTTTTTAGTTKTCCGCGTAGAGGTCTTTCCCCTACTTGGTTAAGTATATTCATAT
GTATTTTATTTTATTTTATTTTTTTGCAGCTGTTGTAAAAGAGATTGAGCTCTTGATTTGATTCTCAGCATGGTTGTTGTTGGTGTAGAGCAGTGCTACT
GATTTGTGTACATTAATTTTGTAACCTCAGACTTTACTGAATTCGTTCATCAGATCTAGGAGCCTTTTGGATGAGTCTTTAGGGTTTCCTAGGTATATAA
TCATATAACTGGCAAACAGTGACAGTTTGACTTCTTTTCCAATTTGGATGCCCTTTATTTTTTTCTCTTGCTGGTTGCTCTGGCTAGGACTTCCAGTATT
ATGTCAAATAAAAGTGGTGAAAGTGGGCATCCTTGTCTTGTTCTAGTTCTCACAGGGAAGGCTTTCAACTTTTCTGCATTCAGTATGATGTTGGCTGTGG
GTTTGTCGTATATGGCTTTTATTATTTTGAGGTAAGTCCCTTCTATGCTTATTTTGTTGAGGGTTTTTACCATAAAGGGGTGCTGGATTTTTTCAAATGC
TTTTTCTTCATCTACTGAGATAATCTATGGTTTTTGTTTTTAATTTTGTTTATGTGATATATCACATTTATTGACTTGTGTATATTAAACCATCCCTGCA
TTCCTGGGATGAAACCCACTTGATCATGATGTGTTATCCTTTTGGTGTGCTGTGGGCAGCCTCTTGAGCCAGAGTAGGCTCAGAAAGACTCCAGTGGAGC
CATGTGGTAGAAGATGATTTGTGGATTGAAAAAAGAAAGTGATGTACAGAAAATRGAAATGAGGTACAAAAATAGCCAGATTAGTTACAGCTCATTGCTT
GCCTTATTTGAACACGGTTTGAAAAGTTGGCCACCTTTGGCCAAAACTCAGTGATTGGCACAAGAGTAGGCTATGGTCTGTTTACAGCTTCATTTAGGTT
ATAGTTCACAATGTACAGAGAAACCTTTAGGCCAAACTTAAAATATGTAAGGAGGCAGCTTTAGGCTAAACTTGATTTAACACTATATTTCTTCTATACC
TCTCTAATGTCTTAAAGTATATGCTTTTTGTAATTTATCTATTTTATTTTCTAATTGTTGAAGTAGATGCTATCAAATACATTCTTCTTAGAATTAGATA
TTCTATTCATTGAGTTTTAATTTTTATTATTTTAATTTTCATTTCTTGAATTTCTTTTCCTACAGGATGTTTTTGCTGGTTCTTGTTCAGGGTGCTTTTC
CCACTCTCTTAGTATGCTTGTTTATTTTGACCAAGAGCTGCTTATTGTCCTTGGAAAATTATTTATGGGAAGTGTTTGATGACTAAAATGAAGGAGGACC
TCAGAGAGGTCCTCAGAGAAGGAGGTTCATCAGAGAGGGTTTGCATTTGCCTCTGTTAGGTACCTCAGGGAACTACCTGTCCAGGCTTATTTTAAAGTAA
AAATCATACTTTGAGGCTTTTGGAGCTCACAGGTGATATGAATTTGGGCTGTACATCTCTAAGAGAGTTGGCTGTGATTCTAACCTTTCAGGGTTTTTTT
TTTTTTCTTTATACCTTTCTCTCTGTTAGGTGCCAAGGAATCGTCCCCTGCATTCAGCTGGGAATGGTGGGATAGGAAGGCTTTATTTTTGACCCAAACG
TTGAAAGTGTACACCTTTGGAGTGGAGTCAACTATCAGTCTCCCCACCTTTGATGGGTCCTGGGTGTTGACCTTTCCTGGAAGCCCTACCAGGCAGCCAC
AAGCAGAGCTCAGGGTGTCCTTGTCTRGAGGATTATCTCCTACCAAATTTGTTTCAGTGCTCCACTTACCTTTCTTGGTCCCTGTTTTCAGTTAGATGTT
GGCTAGATAATTCCTTATGGTCTTGTTAGCTTTTTGATGCTTTTGAGAAGCTGAAAAAATATTTTAGCCAGCATTTTTAGTTGTTTTCAGCAGGAGAGTT
GGTTCAAACAAACCAGCATAACCTATATTAGAAAACAATGTATTACTTTGTAGTCTTAATTTTTAGCACAGTCATTTACATACTCCTTGTAAAAAATTAA
ATACCTTAGAAATGTAAACATGAAAGGCTTCTCATTACTCCACTCTCTCTCCTAGTCTGGTTCCCCAGAGGTAACTATTCTTAATAATTTTTGTATTGAA
TCATTTATTGAGAGCATCAGAGTAAATCTTTCGTGAAACCTGGATGTATTCGCTGTATACATGTGTGACAAAGATGGAAAAATTCAGGTTTAGCAAATGC
CAGCTGAAGAATATATACATGCAGACTAGTGACTTAAATATTTTCTTTTTATGTGAAGTGTGTATTTTATTCTATATTATATCTAAAGATGTGACAATGA
ATGCATGTCAGAAGCTCTTAGAAAATGATACTTGTAAGTTGGTATTTCATTTTATGTCTTGTATACAAGGCCAAATTAGAGTTATTTGGGGGAAGGAATA
CTTCTGGCTTGTGTGTGAGAATGATTTATGCAATCACAAAGTAGAAGGAAGTTATTACCCCTTAGTAGTTATATAGTTTCACAGGCTTTAAGAATAGTTT
TGAGAATGTTTCTTCACTTTAGCAGCAGAAACATTTAGAACATGAAAACGCTCATCAGGTTTGAAAGAAACTCATAGCCTGTTAGTATTGAAACCATGTT
TTAATTGGTACACATTCGGGATCTGTGTAAYAGATTTTTGACCCTGGATGTGTCAGCCCTCAGATTTTATGTTTATGTTAATCTTCTGGGGGATAGTGTT
CATAGCCATCATCAGATTTCCAGTAGGACCTGGACCACAAAGGTTAAAGAKCACTGGTTTGGGATGAGTACATTTCAGAACGCAATGGACCGAAATACGC
TGAACCACAGTTACCATCATTAAAAGTGAAACGACAACTCATTCCTGAGGGCAAACTTTTTCTTTCAAATAATTTCTTCCAAGATCTGTTTCCTCATTAA
CACTGCAGAAGCACTTAGCATTTGGCTGCTCTTCATACAAAATGTCGTTTGAGAGGGATGGGGGCTTGGAATAAGGCAAAAATAATTGTAGGATTATTGC
TGGAAGGGTTTCAGGTGAGGAAAATTGACATATCATAAAATGCCTCTAATGCAATTTAATTTGAAAAACTGTGCAATCTTTTAATTTATTTGGATTCAAA
GTGTTTTAGTTATCTGATTTTTTTAAAGGGTCATATTTATCCCTTGAGGTGGTATGGAGGAAAAGTGGACTTTTAAAAATTGTTCTGTGCTTGATAGAAA
GGCTTGTTAGAAAGTATTGGTTCAAATAAACCAGCATATCCTATGTTAGATCCTATATTCTTAAAGGGGTGATATTCATCTTAATATGAATACCAAATCC
TATACTAAATCCTATATTCTTAAAGTGGTGGTCTTCCTCTTAATACCAAAAAGTCAACTTGGTTGACTTTAAAGAAAAATTAGTGTGAAATGACTAGAAA
AAGCAATCTCTTGTAATTTCACTGGCAATGCATAAATCTGCCCCTTATTTTTTTTTTAAAATGGCATCTTCTTGCTTTAATAAGCTATCTAAAATGTCCT
GAATGTAAAGTTGCTCTAATAACATTATGATCTGACTGTATCTGTGTCTGTTTTTATTTCTTTAAACTGCTATTATGAGCCTAAGTTAAACAACTTTGCC
TAATTCTATGTTCTGTACAACTATGTTGTTGATGCTCATTTTTATTATAAACAATCCACCCAAATTTGCAGCAGTGGCTTTGAAAAAATCCCTAATTAAA
ATAAATTTCAAGGTTAAGCTATTTTTATTGATGTCTGAAAACAATTACCAGTACTCATGGCTTTTAAAATAATGACAGTGTGGGAAGCATATTTCAAAAC
CAGGAAAGCAGAAATTTGTGTTTATGAAGCCAAAAGTAGTCTTGCAATGCTTTGGAATATGCCTGGTAATTAATTATAGATGATATCATATGAAACCTCA
AAGATTTTGGTGGGAGATGGAAACAAAGGGGCCTTATGCATTTCATTTCTGATATAATCCTTTTGCTGCTAGAGGGAATTACGATTTAATAAAAAGCAAT
AACAGGAGGATGTACTCTAAGAATACTAATTAATACCTTTAGCTCTACCAGAATGAGATTCTGTAAAAAATGGTGGGTTGTCAGTTGCCAAATCATRAAA
TATTGCAGGGAGGGAAAAGGCAACATACTCTTTCACAATATGGCTTGTTATGTTAAAACTGTTAGTGGTAGGGAATTTTGTACTTGTTAATCATTTGCGT
TTTTACATCGCTGTTTGTAATTACAATTAAACAGATGGTTCTGAAAAAGATAGTGTGTTCTTAGCAATTAAAACCATGGCAAATAGCTTTTCCTCCTCCC
CAGTATACAATTAAACTGAATAGAATCACGTAACCCAGTGGGTTCTTCAGAAGAAAGGTTCTGTGTGGATTCCAGTAGATTAGTATTCTGCTCCCCAGCC
CTGTCATCTTGACCTCTTGCCCAGCTGAAAGCTTTGCAGCTGGCTGAGGACTTCCAAACATGGGTTTTATGGAGTAGTTATCCCTTCTCTGTTTTCTCCC
CATATCTTATYCTTACCACATTGGGATTAATAGAATATGTTTTAGAGTGGATCTTTGGAACAGTCGCTAACAACCACTGGGTGTGTTGAATCTAATACAG
CTTGCTAAATTCTAGGAGCTTGGCTAGTGCATGAAATTCCTCAAGGGCACAGGAAAATTGGTCTTTTTTTTTCTTATTCAGAAAACTAATGATGAGATGT
TTGTTTATGAAAAAATCATTTCAGAGTTTGTAATCAAAAGAATACAGAATTTACTTTGCGTTCTAGGGAAACCAAAGTCTCACCTTATTGACTGATCCCC
TCATCCCTATTACAACAAATTCAGGAGATTTTTCAACAACGATTCAGCACCCCAAGAAATATTTCACCAGTTRATATGTGGCTTTGTGGCCAGTGGTCCC
TCTCTTGGACCAGACCTCAGCAGCGTGAATGGCTCTCCCGCAAAGCAGGGATTTGGAGCTGGCTGTGATCTGTTCGCAGATGAAACCTTGGAAATGTGTT
TTGTTTGCCATGAGCATAAATAGTCCCAAGTATACTTTCAATGATTTTAGGTACAGGCTTTTGTGCCCACAAGTAAGCAGTTATTTGCTGGTGCAATTAA
CCATCTGCACCTTATTATGAGGGTGCAGCTGGCTAATTATGCTCGGCTCCATAGGTCAGGTTCAACTTCTCATCTGCATAGGAACTGTATTTGCAGCAAA
AGGACATTGACCTTTAAAAATGAGTCCTTAAATTTAACCAGTTCATTTTGAGGTCACCACTCGTGGATTTTTATTTTGTTTTGTTCAGAAGTGAAATTCT
TATATGGGTAGTGTATTTCTACTTGGGCAAAGTAATTAATGCAGGACTGTAGCACAGACATTATCATGAGTCAGGGACAAATGAGATCTCTACTTAATTC
AGATGATTTTGGCTCCTCATTCTGGAGAAAGGTCCATCAATGTAGAGGTACCTGTATTCATGAACTTGTCTGAACGACAACTTGGGGCATCATCGAGACT
TAAAATGGGGGTAAATGTGTGCATAAGTCAGTTCAAAATCATTTTTGCCAATAGTTGTACATTATTCTTATGATCTATTGGATGGACTATTTGAGAGAAG
AACAGCAGAATACTGGAAAGGAGAACCTTAAATTTTATGTAGGTTAAATTAACAGTCAATGCAAGTTTGCTGGATAGAAAGCATCATTTAACTGGAGACT
TACAGGAACCTGTCCAAAAGGTACCTACTGCTATCAGTTCCTGTGCCAAACCTGTGAGCCTGCTGGCTGTAAAACTCTTTTGTAGGACAAGAGTTGAGCC
CAAAGGCAAGGGATGTCTAGTCCTCACTGATACAGTGGAGAGAGCCTTGTGGTGGGGTTGGGAAGCACARGGCAAATGCCTTAACCACCCATGGAGTCTG
GACTTGGCTAAGCACTTCCCAAACTTAGGCGACCTATTTGAAAATACCGATGTCCAGGACCGACTATAGATTGACTGAATCAGAATCTCTAGGGTAGGAC
TAGGTGATCCTCAGTTGATGCTACCCTGGGAAAAACTGGGTTGCAGAATTTCAAAGATGCTTTCCAAATTTTAAGAAATATTTAATTTTCAAAATGAACT
CTCCTTAGAATTTTAGTTGTGGAATAGAACATACACGTAAATGTATGAAACACATTGTTACCATTTAACAAATAAAGGGAACAGATGTGTAACCACCACC
TGGGCAAGGATTAGGATGTGGGTATCCTGGAATCCTTCTCCATCATAGCCCTCCTCTTCCCCACCTCAGAGGTAACTGCTATCCTGACCTTTACAGTCAT
TCTTGGGTTCTAATATAGTTTTGCCATTTTGTATACATTCCTAGAAACGTAGTTCAGTTTTTCCTTTGTCTGTACTTTATATAAATTGAATCACACTGTA
TRTATTCATGTTTCATGTTGCTTTTCTGCCCTCAACTTGATGTAAAATTCATCCATATTGTTGGTCTCTGTTTAGATCATCTTTATTGATTTGTGATATT
ATATTATAGGAATATGGCAWTTTTTTCTATATGCTATCAATAAAAACTTGGGTTGTTTCCAATATTCCACTATTATGAATAACACTGCTATGAACAGTCT
TACTCATATCTCTGTAGCATGTGCATACATTTCTCTGGACTGTCTACCAGGGTAAAACTGCTGGGTCATAGAACATACGTATCTTTAAGTTTACTAGATG
ATGGAATATGTTTTCTGAAGTTGTTTTACGTAGTTACAGCCCGACCAGCAAGTGCTTGGCATTTCCCATTACAACACAGAGGAGCCAATATTCAGAATTA
TCAGACTCAGATTTTGCCTATCTAGTACATGTGTAGGGGCATCTTGTGGTTTTAATTACATTTCCCTGTTTTTTTATTAGTTTGGGCATGTTTCATATAT
TTATTAGCCATTTAGATATTCTCTAGTGTAAACAGCCTGTTCTTTTGCTTTTTTCCCCTATTGGATTGTCTGTTTTTTTTTTTAATATTGTTTTGTAGGA
GTTCTTTAAATATTCTGGTACAGTAGTTTTGTTGGTTATGTGTCACAAGTACCTTTTCCCATTTTGAGACTTGTCCTTTTATTTTTTATATGGTGTTTCA
AACTCCTGGGCTCAAGTGATCCTCTTGCCTTGGCCTCCCAAAGTGCTGGGATCACAGGCATGAGCCACCACACCTGGCTAGTATTTTTTTTTTTTAATGG
CATTAAGATTGATTACAGGATTTACGTGTTATCAGCCAGATTGATTGATTATAATGTTCCCCATCAAGATTTCACCCCAAAGTTTTAGCATAAGAGCTTA
CATCCTTTCAGTAGGAGTGGCARTGTGATGATTTTCAAATAGTGCTATCATATTTCTTGTACATTCATTCATCAGCTAGAATTTTTCTTTAAAGAACTTT
TTCTCATTTACTATTTTGCTACCATGAAATACATTTTATACAAGAAAGGCATGAATTCTCCTCCCTTCCTCTTTCCCTCCCTCCTTCCTTCCCCCTCCTT
CCTCCCTTTCTTCCTCCTTTCTCCATTTCTCCCTTTCTCCCTTCCTCCCTTCTTTCCTTGCTTCTTCAGAATAGTGAATTGGTACTCTAGTGACCTCTAA
AGGTGACTAATTAGTTTTATCCTGTCTTTGGCCAATGGGAGAACCCTGYAAGTTGGCCTCTATGTTATTTGATTGATGAATTGATTGTACAGTCTGTGAT
AGTTTCCTTGCTTTCAGGCATGACCAGGTGTTTCAGGCTCATCTTGTCTATTTCCTGCCCCAGACTTGGCTTTATAATAAGTGTTGATGTCTGATAGAGC
AGATCTCTCSATTATCTTATCCTGGATCTCTGCCAAGGAGACAGAGCCTGAGTCTAGGACTTGAGTGTTGGTAGTTTATTTTTGCTAAGTGATTGCGGGG
GAGGAGTGAGGGACTGAAAGAATGAGGCAGGGAAGGAAATAAAAGCAGTTTAAGGCTGTGTTCTTAAGTTGGCTATCAACATGGACAACTGAGGTTTTGT
CCCACTGGGACCCTCTGAAGAGCCTTATAGGATGTACCTCAAAATTGTCTGCCCAAAGAATAGAAGAATGTAGCTTTTACGCACTAATTTCTGTCTGTCT
CCCACTGGTCAAGGAATATGTCCTTCACACTTCCAGGCTGCATATGTGTGAGCACTAGGAGGTTCCTGTCAGATAAACCAAGGACAGAAAAAGTGAAATA
ATGCAGTGCAGCTGAGAGGGTGCTTCCAACTTACACTGTGGGAAGCTATTGGTGGGCCTAAAGGATGTGAGGTTGGGTACAAAAATCCTCCAATAATTTA
ATTTGTTCTTCTTCAATATAATCTTTGTTATTCTTGGCCCTTTTCATTCTCATAAAAATCTTAGACTCAGCATGTCAAGTCTCATCTAAAATTCTGTTTT
TTTGAGGACTAAATTTTTTCAAGTTTTGATTTATTTGAAGTTCCATTTCCASTTTGATCTGGAAAAATATCTTTTACAATACTGAATTTTCTAACCAATG
AGTGTGGTATATCTCTTTATTACTTAGGTCATCTTGAATCTTAATAATGTATTATCATTTCATCTGTGGTATAGCCCTAGGAATTTGAACTTTTTATGGT
ATTGTAATTAACTGTTAGGTTGATTTTTTAAAAACTTTTTTGAGTATATAGAAATGCAATTTTAGGATATATTTATTTTATATTTAGCAATATTGCTAAA
CCTATTGATTCTAATAATTTATGTCAGCTTTTTGGATTTTCTAAAAATGTTATATATTCATATTATCTGCTAACAATTTGAGTTTTGTTTTGTCCTTTCC
TTGAGTCTTTTTTGTCTTCCAGCATTAGATAGGACCTTAAATTTCTGTTGATTGGAATGGTGATAATGGGTATTAATAGATAAGGATCTTGTTCTTGATA
TCAAGTAAAATTTTTCAATGTTTATTGATTAAGCATTATGCCTGCTGTAGATTTTTATACATTGTAGATATGCATTATTAGTTTGGGGAAGTTACTTCTA
TTTTTAATTTGCTAATAACTTTTAAAAATCATAAATGGCTTTGAATTTTATCATATTCTTTTTCTGCATCTGTTGAGGCTATATATAATTTTTGTTGAAT
GTTGAACTACATTGTTTTGCTAATGTTAATATAACTTTACATTCTTGGTTAAAATTCAACATATTTCAATATGTTWTTGCTGGATTAGTATTCTTTTTAC
TATTCRGTTTTTCCCTCTTCTAGTTTGGGCATTGTCACTCTCATTCTATTAATTTAGTACTTCCTTAAGAATCCAACATGTATGTATACTTAACTAAGTT
AATAAAAACTGTCCTATTTCTCCTGGACATTAGAGAGATCTCAGAACTCTTTAACTCCGTGTACCCACCTCCTGACTTAAATGTTGATATTGTTTACGTT
AAAATCTATTTAAAGCCTATTTTTACTGTTAATATTATAAACGCTATTATTATTTTTTAAATTCATGACAGCACTCATGTTCATTTTAAATCACTTCACT
GTTGACCATGTTTCCCCCGCCATTTCTTCTTGCCTCTTAGATTTTTCCATTTGGGATCACTTTCGTTTTGCCTGAATTGCATCCTTTAGATTTTTCTTTA
TTGAGAGTCTGCCAAGGTGAATTCCCCAGGTTTGTTTGTCTTAAATTGTCTTTTATTTGCCCTTATTCTTGGGACATATTTTTCCTGGTTTTAGAATTAA
AAGATGACAGTTTTTCCTTTCACTACATTTGAATGCATCATCCTACTGTCTTCTGGCTTCCAATCTATTGAGAAGTTAGCTCCCAATCTAACCATGTCTC
ATTTGGAGATTATTTTTTTACTGGCTCCTTTAGTAATTTTCTCCTTATTTTTGGTTTTCTTCACCCTCACTAGGATGAGTCTAGATACGACTTTTTCCCC
CATTTATCTAGTTTGAGACTTTTTGAGCTTCTTGAATCTTCATTTTGGTTGTTCTCAACACTTCGGTAAATTATCAGTTGTTATTTGTTAGATGTTGCCT
CTGACTCATTATCTCTCTTCTCTTACTTCACTCAAGCCTTCAGTGATATCAGATCTTTGTTCTCCATGTTTCTTAACTTGTTTACTTTTTTTGTCTTTTT
GTCCCTCCATGTACTGTCCTGCATAATCCTTCTGATCTATTTTCTACTTTAGTAATTTTTCTCTTCAGCCATTTAAAATATACTATTTACTTACATGGAA
TATCTAAATTCCATTATTTTATCTTTTATTGCTGGATGTTATATTTGAATCCTTTTCAAATCTTCTATACAACTTACCCCTATAACATTTTGTTTAAACG
ATTTCATACCTAAAGAAAACTTGAAATAATAGTACAATGAAAACCCATATACCCTTTAATTAGAGTCAWTCCTTGTTAACATTCTGCCACATTTGCTCGT
GGTTCTCTTTCTCTTTCTTGAATCATTTGAAAGTAAGTTTATGACTTAGGTAAGGGAGATATCATGACACTTATCCCTTATATACATTAGCTGGTATCTC
CTAAGACCAAGAACATTCTCTTGCATAACCACAATACTGTTATCACAGCCTACAAATTTAAAATGGAAACAGTATTATCTAATTTACAATCCATATTCAT
ATTTTTCTGATTTTTCAATAATGTCCACTATAGTGTTTTTAACAATTTTTCAAGGATCCAGTCAAAGATCATATGCTGCATTAAGTTGTTGAATTTTTAC
AGTCTTTTTTGGTGTAGAACAGTTGCCCTTCGACTTTTTTTGATTGTTGTTGATTTTTGTTTTTCAGCACATTGACGTTTTTGAAGACTCCAGTTGTTTT
ACAGAATTGCTGTATCATTTTTTCTTAGATTCCCGTGCCTTGMAGATATCATCAAGCTTGTATGTTAGTACTTCAAACATATTAATCATGGTTTTTTTGT
AATCTGTATCTAATAATTCCCCTATGTGAAGCCTTTCATGGTATTTCTGCTATCTTTAGTTTCTGCAAATTTTTGCTCATGGTGTCTTACTTTCTTGTGT
TTTTGTTTATTTCTTACTATGTGTTCCTCACTGTCCTTGAAATATTATCTGTAGGTATTCTTATTCTTTGTGGTCTTGAATGATGGTGCCTTCCTCCAGG
GGAGATTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAAACTCCGCCTCCCG
GGTTCAAGCCATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGTGCCCCTCACCACGCCCGGCTAATTTTTTTTGTATTTTTAGTAGAGACGG
GGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACTGTA
CCCGGTCCCTCCAGGGGAGATTTATATTTACCAGGTACCTCAGCATCTTTTAGTCTGGGAATACCCCAAGCCTAGCTCATGGCTTGAAGTTCTCTGGACA
GTTTAAGTGATGTGGACCTGGGCTGCAAATTTGAGTCAGAATTTACCTCAACTTTTTGGGTATTTTTCCTCTTTCTTTTTATTCTCTTTTTCTGCTCAGC
ACCAGGACAGGTTTTATGACTTGCTAGAGATGGTAATGGAGTGGCCAGCTTTAATTTTGGGTCCCAGTCTAAGGTAGAGAAGGTTCCTCATACTTCCCAT
CTTTTGCAGGCTCTGATCATTGACTTCTATCTCTCTGTGTGTGTGTGTAATATTTCTTATGTCATGTTATRTGATTTTTATTAAATTGTTTTATTTTATA
TTTATCTCTTTTACAGATTATACCTTGGTGCTAACTGACAACATATTATTTGCTTTATCATATAATATACATAAATTTGTAAAAAATTATAATAATATGA
CTACTAACAATAAACTAAGAAATTTTTTTTGAAATCAATACAGTTGCATTTATTATTCTGTAGGGCCAAGTAACAAAGGTTTTACTAATAAAGATTTTTC
ATTTCATCTAAATGAGTGAAATTTTAGTCTAATTATAGATAGAAATTAATGACATGCTGACATACCTGGCATTCATAGACAATTTGTTTTTTTAAATATC
TTAACTTTTATTTTAGGTTCAGGGGTACATGTGTGGCTTGTTATATAAGAAACTCGTGATTTGGGGGTTGAATGTACAGATTATTTCATCACCCTGGTTC
TAAGCATAGTACCTGAAAGCTTTTTTTTTTCTGAACCTCTCACTCCTCCCACCCTCCTCCCTCAAGTAGGCACAATGTCTGTTGTTCCCCTCTTTCTGTC
CATGTGTTCTTGTTATTTAGCTCTTATAAGTGAGAACAGACGGTATCTGGTTTTCTGTTCCTGTGTTAGTTTGCTGAGCATAATGGTCTAACGYTCCATC
CATGTTCCTGCAAAGGACATGATCTCATTCTTTTTTATGGCTGCATGGTATTCCATGGTCTATATATACCACATTTTCTTTATTGAGTCTACCATTGATG
AGCATTTAGGTTGATCCATGTCTTTGCTATTGTGATTAGTGCTGCAGTGAACATACGTGTGCATGTGTCTTTATGGTAGAATGATTTGTATTCCTTTGGG
ACCATACTCAGTAGTGGGATTGCTAGGTTGAATGGTAGTTCTCTTTTCAGTTCTTTGAGGAATTGCCACACTGATTTCTAGAATGGTTGAGCTAATTTAC
TCTCCCACCAGAAGTATATAAGCATTAGTTTTTTCTAGTTCCATGAAGAATGTATTAATTACCGCTAGTATGATAGGAATAGCACTGAATCTATAAATTG
CTTTGGGCAGTATGGCCCCTTTAATGATATTTCTTCTTTCTACCCATGAGCATGTAATATCCTTCCATTTGTTTGTGTTGTCTCTGATTTCTTTGAACAG
TGTTTTGTCATTTTCATTGTAGAGATTTTCACCTCCCTGGTTAGCTGTGCTCCTAGGTATTTTTTTGTTTTTGTGGTAATTGTTAATGGGATTGCATTCC
TGATTTGGATCTTGGCTTGGATGCCGTTAGTGTATATGAATGCTACTGATTTTTGTAAATTGATTTAGTATCCCAAAACTTTGCTGAAGTTGCTTATCAG
CTCAAGGAGCTTTGGGGCAGAGACCGTGGGGTTTTCTAGATACAGAATTATGTCATCTGCAAACAGGGATAGTTTGACTTCCTCTCTTCCTATTTTGATG
CCTTTTATTTCTTTCTCTTGCCTGATTGCTCTGGCCAGGACTTCCAGTACTGGAAGTGGTGAGAGTGGACATCCTTTGWSTTGTTCCAGGTTTCAAGGGA
ATGCTTCCAGCTTTTGCCCATTCAGTATGATGTTGGCTCTGAGTTTGTCATGCACAGCTCTCATTATTTTGAGGTATGTTCCTTCAATGCCTAGTTTAGT
GATGGTTTTCAACATGAAGGGATGTTGAATTTTACTGAAAGCCTTTTCTTCATCTATTGAGATAATCATGTGGTTTTTGTCTTCAGTTCTGTTTATGTGA
TGAATCACATTTATTGATTTGCATATGTTGAACCAACCTTGCATCATGGGGATAAAGCCTACTAGATGGTGGTGGATTAGTTTTTTGATGTGCTACTGGA
TTCAGTTTGCTAGTATTTTGCTGAGGATTTTTCATCTATGCTTATCAAGAATATTGGCCTGACATTTTCTTTTTTTGTTGTATCTCTGCCATGTTTTGGT
ATCAGGATGATGCTGGCCTCATAGAATGAGTTGGAGATGACTCCCTCCCCTTCARTTGTTTGGAATAGTTTCAGTAGGAATGGTACCCATTCTTCTTTGT
ACATCTGGCAGAATTTGGCTGTGAATCTGTCTGGTCCTGGGCTTTCTTTGGTTCGTAGGCTATTTTTTACTGATTCAATTTCAGAGCTTGTTAYTAGTCT
GTTTAGGGATTCAATTTCTCCCTGATTCAGTCTTGGGAGGATGTATGTATCCAGAAATTTATCCATTTCTTCTAGATTTTCTAATTTGTATGCATAAAGG
AGTCTCTGATGGTTATTTGTATTTCTGTGGGGTCAGTGGTAATATCCCCTTTGTCATTTCTCATTGTGTTTATTTGGATCTTCTCTCTTTTCTTCTTCAT
TCTTCTAGCTGGTGGTCTATCTATCTTATTAATTGTTTCAAAAAATAAACCTCTGGATTTGTTGATATTTTGTATTTTTTTAATATCTCTATCTCCTTCA
GTTCAGCTCTGATTTTGGTTACTTCTTGTCTCCTGCTAGCTTTGGGGTTGGTTTGCTCTTGCTTCTTTAGTTCTAATTGTGATGTTAGGTTGTTAATTTG
AGATCTTTCTAACTTTTTGATGTGGGCATTTAGTGCTATAAATTTCCCTCTTAACACTGCCTTAGCTGTTTCCCAGAGATTCTGGCATGTTGTGTCTTTG
TTCTCATTAGTTTCAAATAACTTCTTGATTTCATTATTTACCCAAGACTCATTTGGCAGCAGGTTGTTTAACTTTCATACAGTTGTATGGTTTTGAGTGA
CTTTCTTGGCTTTGATTTCTATTTATATTGTGCTGTTGTCTGAGAATGTGGTCWGTATGATTTCGTTTTTTTGTGTGTTTGCTGAGGATTGTTTTATGTC
AGATTGMATGGTCAATTTTAGAATATGTACCATGTGGTGATGAAAAGAATGTATATTCTGTTGTCTTTGGGCAGAGAGTTCTGTAGCTGTGTACTAGGTC
CATTTGATCTAGTGTTGAGTTTAGGTCCTGACTTTCTTTGTTAATTTTCTGCCTTATCTGTCTAATGCTGTCAGTAGGGTATTGAAATCTCCAACTATTA
TTGTTTGTGAAACTAAGCCTATTCATAGATCTCTAAAAACTTGCTTTATGAATCTGGGTGCACCTGTKTTGGCTGCATATAGATTTAGGGTAGTTAGGTC
TTCTTGTTAAATTAAACCTTTCATCATTATGTAATGCCCTACTTTTTCCTTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTGTCTGAAATTAGTATTGCA
GCCTCTGCTTTTTTTTTGTTTCTATTTGCTTAGTAGATTTTTCTCCATCCCTTTACTTCAAGCCTATGGGTGTCATTGCATGTGAGATGGGTCTCTTGAA
GACAGCATACCATTGGGTCTTGCTTCTTCATTCAGCTTGCCACTCTGTGCCTTTTAACTGGGGCATCAAGCCCAGTTACATTCAAGGTTAGTATTGATAT
GTGTGGATTTGATTCTGTTATCATATAGTTAGCTGGTTATTATGAAGACTTGTTTGTGTGGTTGCTTTATAGTCTCACTGGTTTGTGTAGCTAAGAGTGT
TATTGTAATGGCTGGTAATGGTCTTTCTATATTGACTGCTTCTTTCAGGAGCTCTTGTAAGGCAGTTGTGATAGTAACAAATTCTGTCAGCATTTGCTTG
TCTGAAAAGGGTCTTATTTCTCCTTTGCTTATGAAGTTTAGTTTGAGCAGATATGAAATTTTTGGTTTGAATTTCTTTTCTTTAAGAATGTTGAATATAG
ACCCCCAATCTCTTCTGGCTTATAGGGTTTCTGCTGAGAAATATGCTGTTAGTCTGATGGGTTTCCCCTTTGTAGGTGACCTGTCCTTTATCTCTAGCTG
CCTTTAACATTTTTTCCTTCATTTCAACCTTGGAGGGCTCATGATTATGTGTCTTGGGGATGATCTTCTTGTGAAGTGTCTTTTGGAGGTTCTCTGCATT
TTCTGAATTTGAATGTTGGCCTCTCTAGCTAGGTTGGGGAAGTTTTCATGGATGGTATCCTGAAACACATTTTCCAGGTTGCTTCCTTTCTCCCAGTCTC
TTTCATGGACACCAGTGAGTCATAGATTTGGTCTCTTTTCATAATCCCATATTTCTTGGARGTTTTGTTCATTCATTTTTATTCTGTTTTCTTTATTCTT
ATCTGACTGTTATATTTCAGAAAGTCGGTCTTCAAGCTCTGAGAGTCTTTCCTCAGCCTAGTCTGTGTTGCTGTTAATACTTGTGATTGCTTTATGAAAT
TGTTGTAATGTGTTTTTCAGCTCTATCGGTCAGTTACATTCTTTTCTATACTGGCTATTTTGTGTGTCAGCTCTGTATTGTTTTATTATGATTCTTAGCT
TCCTTGGATTGGGTTTCAACATTCTCCTGAATCTTGATGATCTTAGTTTCTATCCATATTCTGAATTCTATTTCTGTCATTTCAGCCATCTCAGYCTGGT
TAAGAACCCTTGCTGGAGAACTAGTGTGGTTGGGAGGAAAGAAGACACTCTGACTTTTTGAGTTGCTGGAGTTCTTGCGTTGGTTCTCTCTCAGCTGTGY
GGGCCAATGTTCCTTCAGTCTTTGTCCTTTTGGATGGATTGTTTTGATTTTTATTTTCTTTGATGCCTTTGAATGTTTGATTATGGTATAAGGCAAGTTT
GATTGACTGGCTTCGATTCTAGTCTTCTGGGTCTTAGAGGAGCCTCCTCCTATTACTGTCTCTGTGTCTGCTTTCTTTTGTTGGATATTCTGGTCTACAG
RGCTCCCTCAGGCTGGGGCTGCAGTTGGCCAACAAGACATGTCCTTGCCAGGTCAGCCCTAATCTGCTGTTCATGTGCTTCCTGGGGAAACACAGGGTTG
TGTCCACCCACAGAGTTCAGGTGGAAATGGGACTGCTGAGTTGGAAACTCTAGTGGGTGTGGCCCATCTGGCTATGGGCCTTTGGGGTGGGTAGGATTGC
YAGCCCTACTGTCTGGGTGTTTCCAAAGCAATAGGAGGCTGCACCTCTCAGCAAATTCAGGGAGACATAGGGCTGYAGGGCTAGAAGCTCTAGCAGGTGT
TGTCTGCCTGGTTATCAGTGGTTGAGGTCAGTAGGGTCACATGCTCTGCTCTCCAGGACAACAGGAGGCTGTGCTCTTTAGCTGAGTTCACACAGAAGCA
AGGCTGCTGGGCTAGAAGCTCTACTTAGTTGTCCACTTGGCTACCAGTGGCAGGGGTGGGTAGGGTCTTCCTGTGACAACAGGAGGCTGTGCCCTCCAGC
TGAGTTCACGCAAAAATGAAACCACTGAGCTGGAGGCTCCAGCAAGTGTTGCATAGCTGGCTATCAATGGCAGGGTAGGAGAGGTGGCCAGCCAATTTCA
GGCTGGAGGTGGGCCAGAAGCTGACACTGAGCCCTGGCTGGCAAGCAGTGGCAGAACAATGTTGGTGCTCCTCGGAACTACAACTGTGGCCTCTGTTGGA
GCTGTGGCACTGGTGCTGGTCTGCTCTGGGGCCCAAGGCTTGTGGGGGTCCCCTTGGACTCGGAATTACCCCTGCAAAATGCTGGGGTGGCTCTCTGCCT
CATTCTATAAGTGTTGGGGATGGGTTTCAGGGGGACAGGATGATTCTCTCATTCCCAGTCTTGCACAGGCGTCTGTAGAGAGCATGAATCCCCCAGGGGT
TCTCACTCACTTCCCCTTTCCCGTGTTGGAGAGCCTCTCCTGGCTCCACGCTGAGCCCAGACAGGCTGGTGCGCAGCTTTGCTCCTCTCTATTCTCTGTT
TTCCCCTGTTGCCCTGATGCATCCCAATGTGGTTTCTCAGATGATCACTATGTAGGGTCTGTATTCATTGGCCTTTTTGTTCCCTCTCTGAGAGTGGCAC
ACATGAGCTCCTTCTAGTCTGCCATTGTAGCGTCCGACTTCTATCTCATTGGCTGGTAAGGCCACCAAAACCAAGGCCCAGATTTTTCTGGATCAGCAAA
TGCCCTAAGGGCAAAAGTGACTATGGTGTTCTAGGGCTTTGCTTACTTCTGTGGTGCTTGATTTCTTTTATTGTTTGGTCTGGTAATCATTTACTATCTT
GACAGCTCTTTAAGGAGATTAATTTTTTTTTCACCTATAGCTTTTCATTGTGTTTACATGGATGGTTGGTTCAACTGTTAGTTGCCATTACTAGAAGTGG
AAGTCCTCTTCACTTTTAGAAGAATATCTTATTGTTTTCCTTGTTAGAGATATAGAGTGGAAACAGATATTTTTCATGCTGTTAATGGGAATTGATCTGG
CCAAACCCTGTGAAAGCAGCACACTAAGAATTTCCTCTCAATATTTACCAACGTGATAACTAAAAGAAGAAAAATGGCCCTGTTATATGCCAGACAGCTC
AAGTACAGTGTTACATTATGTAACCAATCTCTGTCATTGGTTTTCATTACTGAATTCTGTTATGACACCCATCCAATATGAATTAAAAGAATTACATTTG
ACATTTTAATAAAAGGTAGACATGCAGCATTTAACAAGTATCTGCTAGTAAGGATGTATAAGAGCCAGTGATCAATGTTGAAAGCACTCAATCGAGAASG
GTCAAACTAGCTTGCTGTTCACTTGCTTCTGGAAATTGCCACATCCCTAATGGCTGGTGGAGATTGATGAAAGCACTGGTCCCTTTCTCTATTGATTTCA
GTTGGAGCCATGGAAGTGTCAATGAGTAAAYCCAAGTTTGCTCTTCTGTGTATAGCTGGCTTTATTAAAAGAATTCTAAGCATTTTTCTGTGAAGGGAAA
TCTGATTCCCAGGTGTTACTTTTTTGTCAGAATTTGGTTAACAAACAAGATCAATTTTTAATAATGTTTGCAAACTATTAATATGTTTAATAATGTTTGC
AAAAATAACTCACATTGTTAGCACTTGGAGAAAATGCATGTAAAATGTGTCAGTTTTCCAATCTTTAGAACCTGATAATGAAATATTTTCTTTACTTTTT
TGAGACAGAGTCTGACTCTGTCACCCAGGCTGGAGTGCATTGGCAAGATCCCAGCTCACTGCAACCTCTGCTTCTCAGGCTCAAGCCATCCTCCCACTTC
AGTCTCCCAAGTAGCCGGGACTAAAGGTGTGCACCACCATGCACAGCTAATCTTGGTATTTTTTGTAGAGATGGGGTTTCACCATATTTCACAGGCTGGT
CTTAAACTCCTGAGCTCAAGTGATCTGCCCACCTCGGCCTCCCAATGTGCTGGGGAACTATTTTCTRTTATCTGTTCTGGACTCACACATTCTGGATGAC
TGGAATTCTTTGGACCCATATGAGCCTCTGCAAAGACATTGGTATGTGCTGGTCATATTCAAATGTGAGATTCATAAGAAYRGAATAATTTGTGTATGGA
ATTACCTGTCCTGGGTTACCTAATCCAGAGATCCAGCAATTTTTCTTAATTCCTGAATTTCCAGGCATTGTAAAGCATACTTMACTGTGCTTGGCACAGA
TTAATTAGTCTATATATTATATATAGGTACAAAAAGTATAAGCTTATTCTCTCCTATTCTAATAGAAATGAGGCATTTTTAACTTGCTTGGAAATAGCAA
TTCATACCATTGCATAGTGGTTATTTGCAAATCTTCCTAATAAACTCCAGGAATAAATTTTAGGTAAATGTATGATGCCTACAAATATAGTAATTGTCAT
AGAGAATGCTAGATTTCAAGTGACAGAAACTTTTACTTCAATACAGCTTAATCAAAATAATAAATTTATTAGTCCGTTTAGTTAGGACACTAGGATGGTT
CACAGGATCAAAAGATGAACCACAGACATCAGGGTCTCAAAGTTTGGAACTGCTCTCAATGTCTGCTATGATTCACTTGTATTCATCTTTCTTACCTCCT
TCCATCCATCTATGCATCTATCCACCCTGCTCACATCTCTGCTTTTATATACTTGGCTTTGCTCTACAGAAGGACTTCTCCATGTGATGAGGCTACCAAT
ACCTTTAAATTCATTTTTGGCCCAGCAAGCCCAAAGAAATAACTTCTCTTTCCCAAAATCTGGCCATCATTCAAGGGAAGGATTATGACAGGCATTGTTA
GGGTCACATGTACACCCCCAAGACCAATCAGAGCAGAAGAGTATAGGATACTATGATKGGCTATGTCTGCCTACCTCTCTGGAGAGGGCAGTGGGTTCTT
ACCAGAAGGAGAATAGGGGAGGGACAAGGGAGAGGGAATTACACTGGATAGCCAAAAGAAATATTTTAATAGATTGTTTAAAAGGGTTAGGAGCAGTTAA
AGAGTATTTTTAATTGAAAACACAAACTTGAATCCAAGCAAGATGAATAGGTTTGAGAAAATGATCTACTAAATTCATTATATATGCATATGAGAAGACA
TTTTCTCATGTTAGAAAATTCTATAGATTAGAAAAACTGGTACAACAACTGGATGAAAGGATGGATTGTTGCAGGTGTTAGGAAAAGAAATTAATATGCT
CAGGATTTCTGTTGCTTAGATTTCTTTCATAAAGAAGTCACTAAGAAATGGTAGACTGCAGCTTATTTATTTATTGTTAAACAAGCAAAAGARGGCCATT
ACATCTCTTGTTTACATTAAAATATGAATAAGCCTTCATTGATTTGATGGTTGCATCCAAAGTAAGGAATTTTAGTTATCAATAAATGGTAATTTCAATA
CCTGTTCTTCATTGTAGCAAATGTGTAAACAAATGTGTATTTGTTTAAGAATTTGCTGCAATGAAAATAATATGAATTGCATAGCATTCATAAGAATCTT
ATAAAATAGATTAGCTTAAGTGGTGTGTATACACATGCACATACCATGCATGTGTCTGTAATAGTTGAAGCAAATTCTCCAAATGAACATWCGTCATGTG
TGATGGCTGTAGTAACAAAAGGTGTTCTCACTTTGTGCTCCTGAAATCCTACCAGTCTTTCAGACTCTGGTGTTGACAGAATCAAAGGCATATAAGATAG
AAGTTATTATATTTTAGTAAGGCAAACATGGCTTTAAAATAGCTTGTCTGCCATGTTTAAATTAGCATATTTGACAAATTGAGAAAGACCATCAAAAACT
GCTTTTGCAAGTTACAGTCTAGATGGTTATTCAAGTTATTCATGCAATGATACATTACAAATAATAGATGGACTGCAATTATTTATAAGGAATTCACTTT
GTCAAGATACTATGGTCACAGCATACAGCTCAGATGAYACTTGTGTCAAAAAACATTGACTGGCTCAGATGACTCAGAAGTTYGTGGCTGGATCTAAGAA
TTCAAATGATGGCCTAAGAAGTCAGTCTGTTGGCACTGCTGTCATTTGTGTGGCTTTGTTCTCAGACAGCCTCTCCCCTCCTAGGGGCAAAATGGCTGCC
AGCAGCTTCAGGCTCAAATCCCGATTTCAGCACCTCAATACAAAGAAAGCATTGCCTCTCTTGCAGCAGTTYACCCCAAAATCAGAATTAAGCCTCATTG
GCTTTGGTGGGCTTGGCTTGGGTCATGTGCTGTGTTCTGAACCATATAGCTAGGGAGGTGCAATACTGGGATAGGCCACTCCTGGATTGGAGTGAGGGGT
TTCCTTAGGGAAACCCATGACATTGTTTCCAGCAAGAGGTTGGGGGGATGGATGCAGGATAGTAAAAACCAATAAATATCTGCGAAATTATTCTTTTTTT
AAATGAAGATATCTTTGAGAAGGAAAATGTAATGAACAGATCAGTGATTCAGCTGTCAATCCAGTCATTCAACAAATATTTATTGACTCTATGCCAATCA
CTATGCAAGGCATGTATAACAGCAATGAACAAGCTGGTTGAGATCTCTGACCTCCTGAAGCTTGCTCTCTGGTAGGGAAGGAAGACATAAAAATTTAGTT
ACATATTTATATCTTATGTGAAAAGTGCATTGCTGTGAGGACATATAAGAAGGGGATGTCAGWGAGGTCAAGGGTCTAGRAAGCCTTCAGAGAAAGGATT
TCTAGATTAAGTGCTGTTTCAGCTGAGATCTGTGGGATGAGTCTAAGCATGGACAAGGGAACAGGRTGGAAGAAGAAAGTTCCAGGCATTTTACCCTTAA
ACAGTTTGATCAAAGGAAACAGGGAGAGCCCAGACAGAGGAGGGAGAGAGTGTACCAATTGGGTTAATGGACTTAGAATGAGAGGCTGGATGTTTCAGAG
ATAAGTACTTTGCCTTTCCCCAGGGTGTCTGAGGGTGTTCATGATAGTGAGTTTCCCAGTCTAGATCCATGCATGGATCAAGACTCTTTCTGAAAGAAGA
TCAGTAGCCCAGGCTTGAATTTGATAAAGTTCAGAGAACCTCAATTTTAATGTATTTTCAAAAACATGTATTGTTCTTTTGTGTTCTTCAAGTGAGAAGG
GTCTGGAAAATGTGCCCTTTCTTGCTTGGTAGATAAATAAAAAATTCACTTTTGGCCACTGTAATTCAGCCATTCAGTGTTGATATACTAAWTGTCCATC
TCAGGTAACAGGAATTGTATCTCAGCCTGATACCTAAAATGAAGCAATCAAGATGRCAAGACTTCAGCTGTACAAGTCTTGGATTAGGTGGCATGAATGG
ATGATCCAGGTTAATTTCAGAAACCTAAGCCATGCTCTCAGTAGACTTTTACTAGTCCTGGGCACTTCCTGTGTTACTGGAAAGGGGTCCCGATCCAGAC
CCCAAGAGAGGGTTCTGGGATCTTGTGCAAGAAGGAATTCAGGGCAAGTCCATAGAGTAAACTGAAAGCAAGTTTATTAGGAAAGTAAAGGAATAAAAGA
ATGGCTACTCCATAGACAGAGCAGCCCCGAGGGCTGCTGGTTGCCCATTTTTATGGGTTATTTCTTTGATGATTTGCTAAACAAGGGGCAGATTATTCAT
GCCTCCCCTTTTTAGACCATATACGGTAACTTCCTGATGTTGTCATGGCATTTTTAAACTGTCATGGCGCTGTTGGGAGTGTAGCAGTGAAGACGACCAG
AGGTCATTCTCGTGGCCATCTTGGTTTTGGTGGGCTTTAGCCGGCTTCTTTACTGCAAACTGTTTTATTAGCAAGGTCTTTATGACCTGTATCTTGTGCT
GACCTCCTGTCTCATCCTGTGACTTAGACTGCCTTAACTGTCTGAGAATGCAGCCCAGTAGGTCTCAGCCTCATTTTACCCAGCTCCTACTCAAGATGGA
GTTGCTCTGGTTCACACGCCTCTGACACTTGTATTGTGCTTCATACAATTTGCCATTTTGTCTTCAAATTTTTTWAAAAAAATTCCTTTTCTGAATTGGA
AAGTTCTTTAGGCATAGATTAATATCTGTCCCTGTATACCATCTTCACGTTATGAATGAGAGATTTCTGCTTCTGATAATGGTAGGCTAGGTAATTCAGG
CCCACCCCTCTCCTGAAGGTGACTAGAAAGGCTGGACAGATTATAAACCAAAGCTTGCTTCAAGGCTTTAGAAGGCTTACAAGATGGTGAAGGATTACCA
GGCCAAGTCTAGGGGAGGGTAGAGGCCCAGGGAGGTGAACCCCAAAATTGGAGCCCCTTCTTTCCCTGAGAGCACATGAAAATTTCAAGGAAGAGCTGTG
AGACTTAAGTGGATGGGCAGCCTTTTGGGGATAATGCAACAGGGATTGATGACCAGAGCCTGCCAAGGATAGAGGGAGCCTAGTGAACCCCCATCTCTTT
GGGTTTCTATTTCAAAGGGCTGCTTCAAAGGAGTAGGGATAAACTGGAAGTAGGCCCATGAAGCCATTTGAAATGCAAAAACAAGCTGTAGAGTGGGAAA
AGATATTTGTAAAAACATTTAACTGACAAAGGGCTTCTATTTAAAATATTTAAAGGACTTCTGCACATCAGTAAGAAAAAGATAACCTAATAGAAAAAAG
CCAAGAGACTTGAACACTTCACAAGGCTTTTCACAAAAGAGGAGATCCAAATGACCAACAAATGTATGAAAAGATACGCCGTCTCATTAGTAATCAGGGA
AATGCAAATTAAAACCACAATGAGCTATCATGACACATCCACCAGATAGCTAAAATTAAGATTGTCAATAACAAGTGCTTGCAAGTTTGGATGGCAACCA
GATCTCTCATATACTGCTGATGGGAGTATAAATAGGTACAACCACTTTGGAAAACTATTCAGTCTCAACTACTATAGCTTAAGATATGCATACTATGAAG
GAGATTCACTGTGCACCGATTACCAACTTGTCTGAGTTTGTTAAGACAGAACACTCACATACAACAGATCACATGAAGTGAGTTTATTACAAGGGACAGC
AGAAACCCAGGAACCCAGAAACCCAGGATTCATTGCAATCCAGTCCCCCAAGTTTCAGGAAATATCATCTCCATCCCAAGGCAGATGGAGTCTCACTTTG
CACCACAGCTGAGGGACCCTGGAAAGTAGCCCTCCCTGGTTTTTATACCCTGGAATAATATGACTCACTGGGCTAAAGCATTGAAAGACATCCTGTTCTG
GCGGGGGGCTAGTAGAACAGAGCCCAGACAGTTCCAGCCATTCCCTTTCCATCTCAGGATGTTGCATTCCTAGCATATTCTACAGTTATTCTTCACAACT
ACAAGCAAGAGATGGGGGAGGACAGAGTCAGTCCAAGACCACACAGAGAGCCTATCCTGCACATACTCTATGATCTAGCAGTTTCTTTCCTAGATATAGA
CTCTGATTACCTTTGTGCATGGAAAGACATTTGCAAAAATGTTCATAGCATCATAGAATAATAGGAAACAACCTCAAGTTGGAAACAACCCAAATGTTAA
TTGGTGGTAGAATGGATAAATAAATTGCAGTAAATTCAAATGGTGGATTATTATAYACAAAATGGACTACAGCTGTATATAATAAAATAGATACATTAGA
GTTAAATAATCTAGACACAAAACGTACATAATATGTGATTCCATTCATCTAGATATTAAAAGCCAGGCAAAASTATAATGTTWAGGGATGCATGCTTAAG
TCATAAAAGAGAATTAAGGGGCCGGGCTCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGACTGAGGCGGGCAGATCACTTGAGGTCAGGAGTTTG
AGACCAGCTGGCCAACATGGTGAAACCCCATCTCCACTAAAAATACAAAAATTAGCTAGGTATGGTGGCAGATGCCTGTAATCCCAGCTAGTCGGGAGGC
TGAGGCATGAGAATTGCGTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATGGCACCACTGCACTCCAGCCGGGGTGGGTAAGACTCTGTCTCAAAC
AAACAAACAAACAAACAAAGAGAATCAAATCAAGGAAAGTGATTTCTACAAAAAGTGAGGATAGTGGTTACCTTTAATGGGGAGAGAGCGTCTACGGGTG
AGAGGGGTCTTCTGGGGTGTTGGCAGTGCTCTGTTTCTTAACCTCGGTGATTATTATACAGGTGTTCACTTTGTAATAATTCTTTATGTGAGGCACTTTT
CTGTATGCACATTATATTTCACAATAAAATCTTTTAAAAGGTGATATCACTTTATCTCTTATCTACCTCATTGAAACTGAAATTAAAATTTATCACCTGC
TCAATCAAACTGTAACAATGCTTTTCACTTAGAGATGTGAACCAAGCCTGAATGTTGGCAGATATGCAGAGTCAAGGTCAAAATTCTGTTGGATTTCTAG
GTGCTTATTACCATATGCTAGTAACCGTATCACTGAGTTTCATCTTTACTCCTCAAAAACAATATGTTTTTATTTAGAATTAATTAACATAGTTCTTTGC
ATATAGTAGATACTGTACTATTTTAAGTCAGGGTTTTCTAGGGAAACAGAACAAATAGCATATCCATATCTGTGTTTATATCTATATCTAGGAAGACATT
TACGATAAGGTATTGATTTGTGGGATTATGGAGGCTGAGAAGTCCCACAATATGTTTTTGGAAAGGGGTCCCAATCCAGACCCCAAGAGAGGGTTCTTGG
ATTTCACACAAGAAAGAATTCASGTCAAGTCCACAGAATAAAGTGAAAGCAAGCTTATTAGGAAAGTAAAGGGATAAAGAATGGCTACCCCATAGGCAGA
GCACCCCTGAGGGCTGCTGGTTACCCATTTTTATGTTTATTTATTGATTATATGCTAAACAAGGGGTGGATTATTCATGCCTCCCCTTTTTAGACCATAT
AGGGTAACTTCCTGACATTGACATGGCATTTGTAAACTTTCATGGCACTGGTGGAARTGTAGCAGTGAGGACAACCAGAGGTCACTCTCATCACCATCTT
GGTTTTGGTGGGTTTTAGCTGGCTTTATTTACTGCAGCCTGTTTTATCAGCAAGGTCTTTATGACCTGTATCTTGTGCTGACCTTCTATCTCGTCCTGTG
ACTTAGAATGCCTAACTGGCTGGGAATGAAGCCTAGGAGGTCTCAGCCTCATTTTACCTAGCCCCTATTCAGCATGGAGTTACCCTGGTTCAAACTCCCC
TAACAAATATACTATCTGCAAGGTGAAGATCCAGGAAAGCTGATGGTGTGGTTTGAAGGCCTGAGAGCTGGAGAGCCAATGGTGTAGATTCCAGTTTGCA
TCTGTAGGCCTGAGAACCATGAGCACTGAGGGCAAGAGATTGATATCTCAGCTCAAGCAGTCAGGCAGGGAGGGTAAATCCTCCCTTCCTCCAACTTTTT
GTTCTATTGAGGCACTCAGTTAATTGGATGCTGCTCACTCATATTGGGGATGGCAATGAACTTTACACAGCCCATTGATTCAAATGCTAATCTCTTCCAG
AAACATCTAGATAGACATGCCCAGAAATAATGTTTAGCTGGATATCTGGGCATCTCGTGTCCCAGTCAAGTTGACACATAAAATTGCCTWTCACATCTAC
TACTTATTAAATTGAAAAATAAGATAATTGAATTTCCTTGTGACAAAAGTAGTCTGTTTTGAAACTATAATACTTGTAGATTCTTGGTATGAGTCATGAA
AATGATGTAAATTGGGGCTCACAAATAATAAGCACTTTTTGCAACCATACCTTTCTCTGTTTCTGTTTTTTCCTTCTTCCTACATGGTCCTTAGTTGGCT
ATTTGATTTTTTTCTTTGCCTGTGTCTGACCTGGAAACTTCTACAGTTTGAACAAGTTTCCAGTACCTGATACTTTCCCATGGAGAAGCAGTTCATTTTG
TAATTTGAGGCTTTGGAAAAACTCCTTTTCATTATACATCTGCATTTTCCTTTTCTTTAACATGGGTCAAATAAGTGAATTCTTAATGGAATCTGTCTTT
CTTTTATCTACCTAAGATATAAGAAGGCACATATCCTGCAGAGACAGATTGTTTTTAAGAAGCTTTTCAAGGGGAAGAGAGCAGAGGCCAATGTGAAACC
TATAAAACCTGAAATAATCCAGTTTTAAAAAGATCAAATAAATAGAAAACCATAGCACACAACAGCTTTAGAGACAGTAGAAAGCTAGAAGATGAAGCAG
GATTAAAAAGTGAAAATTAATCCTTATACTCAGTGAATGCCTAGAAAACCCCCCACTGACAACCAAAGTCATACGGTATTTGAGTATTTTCCTTGTTTTT
AATTTGATATTTTCTTGTGAAAATGGTGTTTGGGGGTAAAAATAATATTTATCAACATTCCAGAGTATAGTAGCCCTTGCCCTCACTGTAGCAGAAGCCA
AAGTTGAAGACATGTGAACAGTTTTATGCATTCACATTTACTTCCAGAAAGCAAAGTTAATTGCATAGAATTCYTTTCGCTTTAGTTTTTTCTTTTCTTT
TTTTTTTTTTTAAACCAAACTTTCTGCTAACAATAACACCAGTAACAATTACGTGCCAGGCACTGTGCAAAGTGAAGTCYTTTACAAACATTATCTCATT
TAATCTTCTTAATAAATGCATGAGATGGATGTGATAGATGGATTCCAAGATGGCTCCAAGTTATTATCACTTTCTGGTATTTACATTCATGTAAATGTGT
GGCCTATTTCACATTGAATAGGGCTGATCTGTGTGACTAATAGATGTTGTGCAAGTGACAGTGTGTGACTTCTGGGTCAAAAAGAACACTGTAGCTTCTC
CCATCGTCTCTTGGCTTGCTTACCCTGGAGGTAGCCAGTCATCATGCTTTGAGGACACTCAAGCAGCCATGTTAAAGGACTTGTGAGAGGAGGAACTGAG
TCCTTCCACCAACAGTCAGAACCAATTTGCTGGTCATAAGCCATCTTGGAAGTGGATTCTCCAACCTTAGTCAACCCTTCAGATGACTGTAGACCTGGCT
GTATCTTTGACTACAATCTCATGAGAGACTCCAAGCCAGAATCACGTAGCCAAACTTCTTTTGAATTCKTGAATCATGGAAACTATGATAAATAAGTAGT
GTTTATTATTGTTGTTTTTAACATTAAGTTTTGGGGCAATTTGTTAGATGCCAATAGGTAATTGTTAGAGTAGGCTCACTCTTTTTATTGTTATCTCCAT
TATTTAGTGAGGAAACTGAGGCTAAAAAAGATTTAAACCTAGGTCTGATGACCCCAAGCCTTTGGTCTTAATGGAAATAAGTTTCTCAGAGTTTTGGTTT
ATTACTGCTAACAGCTCTTTCTGAGAGGAAAACAAAAATTATTTTATTTTATTTTTGGGACGGAGTCTCACTCTGTTGCTGGGCTGGAGTGCAGTGGTGC
GATCTTGGCTCACTGCAACCTCCGCCTCCCTGGTTCAAGCGATTCTCCTGCCTCAGCCCCCTGAGTAGCTGGGATTACAGGCCCGTGCCACCACGCCCAG
CTAATTTTTGTATTTTTAGTAGAGATGGGGTTTAACCACATTTGCCACAATGGTCTCGATCTCCTGACCTTGTGATCTACCTGCCTCAGCCTCCCAAAGT
GCTGGGATTACAGGCGCGAGCCACYGCACCCGGCCCAAAAATTATTTTTTTAAAACTGGGGGAAAACATTTTTATCAAGCAATGTTTATATTTATTTAAG
TGTGTTAAAGGATCTGGGCTACTGTAACGCATGTGTAAATAGAAGAGGCAGTGTTTGACATTAAAGTTCTTTGAGATTTGTTTACATTTTACATGTTGTG
TATTGGGTAGAAAGGATTTTAACTTGTTCAAAGATTTAACTGGGAGCAAAAAAATTTTTGCTGGCTTTTCTGCAAAGAAGGGAGGGGCTTGGGARTAGAA
GATGGCAGAAAAAAAGTATAGGAAATGAGTTTTTTGAGACATTTAAGATAAAGAAAAAGCAAAGAGAGATGATAGAGATGGGGGTGAGGGTATGATTATG
GTGATCATGATAGTTATTAATGTGACACGTACACGTCCCTGCAGCATCTGGAAGCATTCACTAATTTAATAATATACATTATGAGATTCTGCTTTACAAG
GCTGCAGTCTACTCTAAATTTGAACTCTTTTAGACTCAGCTCCTTATGAGTTCCTAGAGGTGAACAGAACTCAATTCCCTACAGAAAAGGAATTTTGTGC
CTAAGGATGTCTACTCTAAAACGTTTCTTTTTTTTTCTGTCTTTTAGAATTCAATGGTGCAAATCTATAAAGACAGAGCTTTAATGGCAAACCCTATTCT
GTCTGGTTCTCCTTCCTAAGAGTTAGCTGAGAATATATTTKTCTAACTTTTCTTTTTAATATTCTCTGAAAGAAGACATTACATCACACATACTGAACTC
TTACTTAACCTGGACTCYGTTAAGTAGAAACATTGGAAGGAGCCAAAGACTGACATTTTAAATTAAGAAAAACAAACCAAATGAGCGAAATAGTTCCTCT
GAGAAGTGTTTTGGCCTAGTGAAAATTCTCTTTTAATAAATGCAATTTAATATTCCTTCAACAATTATTTACTGAGCTCCTTGTATGTGCCAATTACACA
TGATCCCTATAGGCAAGAAGCTTACATTCTGGAGTTAGAAACAGGCTTGTAAGCAAATAATTACAATGCACTGTATTTGATGCATTTAATTAGAGGGGCA
TATGCAAAGGACAGAGTTATGGCACTCCTCGAGTGCACTAGAGAAAGCCTTCCTTCTGCAGATTCTTGAGATGGGTTTTGTAGGATGAACAGAAGTTTGC
TAGGCAGATGGGGATCAGGATGTGAGAGGAAAGGATGAGCCTGTTAGAGGTATGAAATAGGCTGGCATATTTGGAGATTTGGGAAAAGTCATTATGATGG
ATGGATTAATTAATTAATTAACCACATTTATTAGATTAGTATATGTATGAGGCCCTGTACAGGGTGCTGGGAATACAGTGATTAAAAAGACAAAGTTCCT
GTCCTCAAAAAACTTAAGAGTCCGGTGAGGGAGAGAGATAGATCAATAACCATGATAGGAGTGAGCACGAGGACCTGTGAGATCATAAGGAAGGGGCAGC
CTTGGGAGTCATTCACAGCTTTCTGAAAGAGGTGACAGCTGAATCTGGAAAGACAAATGGGAATTAGCTGCCATGGGGTGGGAGAGCAAGAAAGGCATTC
CTGGTGTTACATGTGAGTCTGTGGTGTGTGAGCACAGGACACATTCTGAACTGCTGGTAGAGCATCAAGTGTAAGATAGGCAAATTCCAGGGATGAACAG
CATGCTAAGGAGTGTGGAGAGTGTTCCGGACGAAACGATTTTAGGCAGAGAAATGGCATGACCAAATTTTCCCTTTGGAAAGGTCACTGTGGCTGCAGCG
TGGAGAATGGCTGGGGTATGGGAAAGGCATGATTCTGGAGTTGGATAGGTCAGTTAAGTGTTGCAGTTACCCAGGCAAGATGTGGTAGTGACATTAACGA
AGGAGGGGCAGCAGGGATGGAAAAGAGTGGTGAATTTGTGAGATACTAAGGAGGTAGAGTCACAAGCAAGGTGAGGGCAGAATCATGTCATGATCAAAAG
TGTGGACTCTGGGACCATAATGACTGGTTCTATTCCGGGCTCTATGCTTTGCTACTGTGTGAACTGGGGCAGGTTACTTACCTCCTCTGTGCCTCAGTTT
CCTTATCTGTGATATGGGAAGGGTAATAATACCTTCATCTAGGGTTGCTGTGGGGATTAAAGTAACTAAAACATATAATGCTTGGAACATTGTCAGGCAC
ATAGTAAGTAGTCCACAAGTATGTGTTATATGGTTAATTTGAGGAAAGAGAAGTCATAGGTGATGCCTACACTTGGGATATGGGCAATTGTGTGAATGAT
AATTCATTCACAGAGGGAATATAGGAGAAAGCAGAGCTGGGGGAACATGCTGAGCTTGAGGTGCCTGTGGACACCCTAAGTGGAAGCATCTTGTAGGCAG
CTGGGTCGGTGGAGCTGGAAATCAGAAGAGATCTGAGTGGGATAAACCCTCTAGAATGGCAGGAAGAGAAATAGCTGCCGGGAAGAGAGCTAATAAAGGA
AACRGATGAGGTGGTCTAAGGGGCCCAGCAGAGGCTGCAGACACTGAATTTGCAAGGTTGTGAGTCTAGGCTGCTGTGTGGTTTTCTCTGGCAGTCCTAA
CAGCCTGGGTGTAGTAGAGGACTGGAACAGCTGGATTGACCAGTGTTAGGGTTTTGCTGGTTATAACAGCCTTTTCTTAAATTTTTCAATTTTTTTTTTA
AGTTCTGGGGTACATGTCCAGGATACACAGGTTTGTTACCTAGGTAAACGCAAACRCGCRCATTTTTTCCTGTAGTATTTTAAAGTATATCTCAGACAAT
ATTTATTTTTACCTGTAAATAATTCACTAAATATCAGATAATAACTTTTACAAAAAATCAGACCCATAATGCTGTTATCCTTCTCAACAAAACAAACGAT
GATTTTAAAAACTATTTTATGTTTATTGACATACTTAGCAAATAACAACAACAATAGCAACACTAATTTTTTGGAATGGGTATAGTTTGATAGGAGTATT
AGTTAATGAATTTAAAATAAAAATGTTTAATCTGATGAGCAGTAATTATTTTATATCATCCATTATTCAGTTTTTAAAATCATAATCCAAACAAGGTCTA
CTCTTGTATTTGGTTGGTGTAAGACTCTTTTAATTCGTAACTTCTCTCTCTCCTTCCCTTCTTTTCTCCTTCTCACCCTTCTCTCCTGCTCCTCTCTCTT
TCATGCTATGTTTATTGTGAATAAACTGAGTCATTTTCCTATAACATTTTTCACATCCTGGATTTAGATTAATTGTATTCTTACAGAACATACATGTTCC
TCTTTCCCTCTATCTCCTGCAATTGGGCTGGTAGGTCGGAGGCTTAGATTTCTGTCAATAACACTACATAAGTGGTGCTGTGTACTGYGTCACATCAGGA
GGCACATAATGCCTGTGTTTTACTCTTTTAGTGTTAAGATTAATTTAGAGGACTCCGGTGTTGTCAGCCTGATTGAGCCATTGTCAGGTTCTTCAGCAAC
ATCTTACCTAATTATTTTAGCACTGAAGATCCTTCATTTCATTAGGGGCTGCAAAATGGTAATTATTTTTCTGTGATTTTTCTGCATTTATTAGTTGGAA
TTCTTTTATAAAGAGTAATTTTCTTTCATCAACTATTTGGTTAACCAACAATGCAATTTATACTAAAATAGTGCAAAATAAATGGTTCTTTCCTTTTATT
ATTTCCAAAATAATTAGTTTGGTGCTTTAGCAACTTCCAAAGGTGACCAATTATTTTTTTAAAGTATCATTTAAATTTAGATTTAAAAGAACGRATCTAT
TGCCGACTTTTTTTTTTTTATGCTCAAATTGTCTCATCTTTGGTTAATGGGAATGCTTTCAAGTTGCTCTGGATCCCTGACAACCCTGGTAGCTCTTGAT
AACRTTCTTGTTTTATGGTATGAGACAATGTGCCAAGTTCACTGTATACATTTTGTACCCTTGTCCTCAAATTACCCATTTCTCCAAGGAGTTGTGATTT
CTGTTAGTGGTAAATGGTGTTTGAATACTACAATCCAGGTCTCTGCGCTGTCATTGCCACCGGACTTTCATTGCTTATGGGCTTTTTCAGTGGGCAGATT
ATTTAAAAAGAGAAAATCATCGCAAGCTTGTATTTATTTTCAATTTAAATGTTAAGATTATAGGGTTTCTTAATATAAAAACTTTTCTTCGTTTATACTT
TTAAAAATACTGAAATGCTTGGTTCCTAACTATATTGATGTAGCTACTTATTTGTTTTAAAAATATTATTACTAATATCATGACCAACAGCAAGACTACT
GGATAAATGATAAGATTTCTCGGCTCTTCTCTGTGTTTTGACAGCATATCTCATTGAGAATACAGTCAAAATATTGTTGTTTGTTTTTTTTTTTTTTTTG
AGGCAGAGTCTTGCTGTGTTGCCCAGGCTAGAGTGTAGTGGCGCCATCACGGCTCACTGCAACCTCCACTCCTCAGGTTCAAGTGATTCTCCTGCCTCAG
CCTCCTGAGTAATTGGGACTACAGGCACGTGCCACTATGCCTAGCTAATTTTTTGTATTTTTAGTAGAGGCAGGGTTTCACTGTGTTAGCCAGGATGGTC
TCAATCTCCTGACCGCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGAGATTACGGGTGTGAGCCACTACGCCCAGCCAAAAATATTATGTTTTAAGG
TTGGTTGGAATAATTGTTTTCTCTCTGTGGTTATGAYACCAGCTGGATGTACAGCAAGGTTCATTTGTTTCAGTTTCTTTTTTATTTTTAAGAATTGATT
TTCCCGTTTCTTTTTTCATTTTTGATATGTAAAACACTTACATGGTTCAAAATCAACACTRTATAGTGAGGTACATTCAGAGAAATCTCTCTTTCATTCC
TATCTCCTCTACCCTGTTSCTTTACTCCTTCTGTAGGTAACCACTGTTACTGGTTTATGTATCGTTTCATATTTTAGCTAGTGTATCATTTGGATAGATT
CCTAGAATAGGGATTGCTGAGTCAGATGTACATGCATATGTAACTTTGCTAGATATTTTATAACACCATATTTTTAGCTCTTTGTAACTGTAATCATATA
ATCAAAAAGGATAATGTAGTTTCTTCCTTTCATGAATTTTTACTTTGTTGTCCTTTAATAGAAGACTTTAAAATTTCCAGGAGAATGGACCTTCCTGTTT
CTTTGTTTTGTTTTTAAGTTTCTAGCTTTGTTGTATTATGATCAGACTGTTGYTTCTAATATTTCTAGATTATAGAACCACTGGTATTTTCTTTGGTATT
ATACTTTTAATATATAACCAAATTTTTGTCACCRTTCTATTTGCTATTGAGGAGGCATATTTTCTATTACTAGGATGTAGTGTTTGATACATATTCCTAA
ACCTATTTAATGTGTTATGTCATTCAAATCTTTTATGGTCTTACTTATTTTTTGTCCACCTAACAGGTCTTACTAAGAGTAGTTTATTAAAATCTCCTGT
TATTTGTGTATTTGTTTTTCCTTGCATCTCCCATAATTTCTRCTTTATATGGATGGTTTTTGTGCTATTTTGGTGCATAGATAATAATAACTRTTACATC
ATCAKTTTGAATTATGGTGTTTCACACTCTAAAATATTCTTCTTTGTGTTGTTAATGATTTTTTAAAAATCTGTCTTAAAATCAAGACCACAATCTTTGC
TTTTTTATTGCTTCTGTTGTTGTCACTACCCAGCTGTGATAGAATGGGCTCCCCAACCAAAATTTGGTTTGGATGTCAAGATTGGTGATGCCACTCATGC
GCCTAGAAGATATGAAAAGGTTATGGTTCACATAATGAGGCTTTCTGTGAGAGCAGGGCAGGCTCCCAAACAGGTTCAAAAATAGCTTGAATCCAGTAGT
GCCAGCTGCTTGGGAGGCCTAGGTTGGAGGATTGCTTGAGCCTAGGTGTTCAAGACCAGCCTGGTCAACATAGCAAAAACCTAGGGCGGGGGGAAAAAGA
TAGAAATCCTCTTCTTGGGAAGAAGTATTTAAAAAAAATAAATAACTTGAGAATAGGGAAAAGATACTGGTTTGGCTTTTATTGTGGTTAAGGGTGGGGC
TATAATAATAGTTCTTACGCAGTCTGGGCCTTGTGTTGTTTGAACTTTCCACTGGAACCAAAGGAAGGAACACCTGAGCTTTCTTATCAGCTTGTCCAAA
GGTAGGGCAATATTAGTTTCATTCCATTACTTTATTCTCTTCTTAAGGAGCTCCAATTATAGCATGGTGGATCTTCCTTGACTGTCTTCTGTTTCATTGA
TTGCCATCTTAGAGGCTTTCTGCCATAATGACCCCTTTTTCCTTTTTTAAAATTTCATATTCATTTCCTTGGGTGTTTTACTGCTTTATTTCAGTGTGCC
TTATTACATTTTCCTTCAAATCTACTTTCCTTTATATAGCTCTTCTTCCTATGTCTTGGTCTGGTACTTCCTTACTGTCTTGTGAGGTTTTTGTTTGTTT
RTTTGTTTGTTTGTTTTTAATGGTTTTAGGGTTTTTAATTTGATATTTTATCAATAATTTTTAGTTCTCTTTTTTAGCACAATGATTGGATAACCTAGCC
TGCTATCAATAAAAATAGAAATCCCTACCTAGTCATAGATGGTTTTCTGAAGTTGCAAGTGTTCTACCAGAAGTCTGAGCAAGAATATGCAAAAGGGAGA
TGCCATATTTCTTTGATTCAGAGATATTGGGTGGCTATTCACTGGCTTATTTATGACTATAAGCTTTAAAACTTTTCCCAGAACTTTCCTTTGCCTGTCT
TATCTCATGCTATTTCGAATCTCTGTCCAGCTGTGAAGCCCTGTAACCTTGTATTTATTCTGTTTGAAGGGTCGATTCTCCTAAGAGAGCGCTTTCAAAT
ATGTAGATAAATTATCAAACTATTTAGTATGTTTATTGGGCAGTGTTTGTTTTTCTCATTGGGAAGATAAAAGGGGCAAAATGTAGAAGTAACTTGTACT
TCCATGTCTTCCTGAGCTTAGTCTAGAATCCCTTATTTTGTCTAAAATAGATTCTAGATCTTGGGAGAAGGATAAATCTAGTTATATGGAATAGAATCCT
TTGTTGAGATATTTGTTCCAAGCATTTGGATTTCGGAAGATCAGTATTTTCTAAACCTTCCTGTATTTGAAAAAGCTTAAAAAAAATTGTGACCTGTATT
CAGGAATTAACTGTATTTGTTCTAAGACATTTTTGTTTCACTCTTAGGTGAGAAAAAAAAATTACTAAAAATGACAAGTAGAAGACTTGAGGAGTCCATG
GGGGCTGTTCAGATGGGATTGGTCAATATGTTCAAAGGATTTCAAAGCAAGGTTTTGCCACCCCTGAGTCCAAAGGTGGTTACAGAAGAAGAAGTAAACC
GAATGGTAATGTATCCGGGAATTAATATGTAAAATACTTAATGCAATCTCCTTAGGAGAATGACAGTTGCTACTTGGCATTCTCAGAATGCCAAACAGAA
TTACTGACTGATTAATATCAATTTAGTTATAATGGTAGCTTTCTGCAGAGTGTAGATACCTTTTAAAGCCTGAGAAGTTTTGAAATTGCATACATACTTC
AAAGTAGAGGCTTGATTTGCTTAAACTAATCAGTTGAAGTGAGACTTTACAAATGAACTATTAAGATTTTCTAAATATTAGGTAGCACCATGACAAACTG
TCATTTGTTTAGTTCAAAAACAGTCAAATATCAGAATTTCATAGGATTCAACCTAATTATTTACTACCTACCGATTGGCAAGAGTAATTTTTGTTTGTAT
ATTTATAGAACACAGAGCATTAAAATAATGACTAAGTGGTATTTAAGAAAAATAGGTATTTTTCCTGTTCTTTAAAATAAAACATATTTATAGCTTTAAT
TATTTATAATGATTGGTGATAATTTATGAACCACATGCTGTAGAAAATATTAGTAAAAATGTATAGTGCCAGGGATAGTATTCACTACATTTTAAAAACT
AATCTTAAGTTACATTCCAATTAGAGAAATAAAATCAATCATTATTCTCTTTTGTGATGGTTGTTGGTACATATTTAAAGAAACTCCTGGCATTTTGCTT
TTAAGACCTAATTATTTTAATTTAAATCACAATATAGCTGACACCTCTTAACATTTTATTGTCCTTATCTGGGTTCCAATCAAAAAGATCTTAACCAAGT
TGAAAGCTGTATTAGAAATATACCTTCATTTAAATGGATTAAATCACAGAAATAAAATTTGTAGAAAAATAAGCATTTTTAAAGTACATTGTGTTTAACC
CAAGGCAACATAAAGCAGCTAAGTTATATACCCTCAAATGTTTTGTAAAAATCTTGGCATATACTTGAGCATTRTGTAGCTGCCAATGATCATAATCTCC
CTGCACATATAGTAGGAACATTCTAGAACCACAATAACATTGGTTCTGGGTAACTAATCCCTTGTTGGGTTAGTTTTATTTAAATGCTAGGTTACTTTTT
TTTTCTCATAACATTGGAAAGGGTAAAAGCATTTTGTGTTCTTACTGGGGTGTGTGAATGTGACTGGCTGTGGGATCTGCTGATTAGCTCAGAGCTCTTT
CAAAGCGAGGTCTAAATGCACCCTTGTGATGTCTCTAAAGTTCAAACTCATTCCTAAGTGATGTAGTCACACTTCCTAGATCTTTGCAATTTTATAAGAT
TTCTCTCTAACATCATATCATAGTTAAACACCCAAAAGCTTTGTTTGCATATTGTAATGTTAGTTGAGAAATAGAGGTATTTCAAACTCCTGGTTTTTGA
AGCCCTTGAGTGACTTTACAAACTGAGAGTTTTATGCACAGATGCCTCTTCTGAGCATAAATGTTAAGCTCTTTGGACATGTTCCTGTGCAATTTCTTGA
CTTTTTTCTCTCAGGTTCTTTTGTGTGATTCCTTCAAAATCATAAGGAAACAGCAAACACATGTCATTTTCAATTACCGTGCAAAGACCTCAAAAGTGCG
TGGGTACTTCTCTTATATAATTTACTTATTTTAAATATTTTATAAGGRAACTTAGTGGCATTCCAGAATTATCCTGAAAGCTGCAAACACAAATTATTCA
TTACTGGTACTTATGAAAACACTTTTTCAGTACATCCACTTAWGAATCTTTGGTTCTTATTGTTTTACATTCTAGCTTACACCCTCAGAGTTCCTGAAGG
AAATGTCCCTGACCACCGAGCAGAGACTGGCAAAAACACGTTTGATGTGCCGACCACAGATCATCGAACTCTTAGATATGGGGGAAACAACACATCAGAA
GGTAGCTGCTCTCTGTCGTACTTACATATAAAGTGGGCCCTGGCACAACACCAAAATTCCAGAACAATAAGTAAAATTTGTTTCTTGGCTACCTAATCCT
TTATTGGGTTTGTTTTCAATCCTCCTTTTCTGCCTCTGAATGTCTTCATATCTGTGATTTGGTATGGTGAAGACTGCAAGTGCAAACCTCTTTTAAAATA
ACTTTTGACTAGTTATACTTCTTTCTTAGCTACTTCTGAATACTATTTGACGCTATAGTTTACACAGGTTAGGAGTAATTCTAAGAATTATATTAGTCAA
GCCCAATTAAGTTATTGTCTTAGTGTAACAAGTAATCTCTCCTTATCTGAGCTGCCCACTAGAAAAGAAGGAGTTGGAATTGTTAATTAAAGTAGGCATT
CGTTGTCTATTCTGGCTCATTTCCAGTAACAGACATATCCTTTTGTCTCTAAAGAATAGTGATTTTATCATGTTTCTATATTCGAATGTAAACCATACCT
TCCAGGCTTTAGGAGCATGTGATTATAGAAGGTCTGGTTTCCTATTTTTTAATTAATTTCTTAAATTATATCCTTTACTTTTAATGCACAAATTATGGTA
TGAACCTCCAATAGTTGGGCTGCTGGGGAGATTAACCTCTTCTCAAAGAGTTCCTCAGAATTTTCCTCTGAAAATTCCTGAGAGTTTTTCAATGTTATGT
TCCTCATGAAGAATGAGTCTTTGAGGCTTGTCTGCTGTTACTGCTACACCATTGCTTCCTTTGTCTAGGATATGCATAAGCTTCACTGTTCTGAGCATTG
CTAGCTTTTTATTGTTTTGTCTGTTTCCCACAACCACCCTCCAAATTTGAGTGGAGGGAACATGGTCTTTTCCAAGACATTTCTTCTAATTAAGGACCAT
TTCCTCTTTTCTGAAAGCATAACACATAACAGGCTATGAGGAGTTTTTCATGTGTACTACTAGTGTATTTTAATGTGTTTTGACTCTGCTATAAAGGATG
AGGAAATCAGATACTTTACACTTTCTCTCCTCTCCTCTTTAATTCAGTTGGTTATTTTTAATTTATATGCTGAGATTTAATCATTTATCTCTTAGATGGG
TGGCAGTCATCTACTAATTTCTTCAATAAGAGCTTATGAAGACTGTATTTCTTTGTTTTATGTGTTTGATAATATTTGTGTCTTGCCTTTATACTGAACT
GCAGATTTGTTACTTATGAAATTCTTGGGCCACAAATTTTCATAACAGCTTTGCAGGCATTTTCCCTATGACCTTCTGACTTTAAATGATGGTATGTAGA
AGTCGGAAGCCAGCCTGATTTCTCCCTCATAAGTTAATCTTTTAGCCCATGTGCCCAAAGATTGTTTGTTATTATTTAAAGTTCAGTATTAGGATACACT
ACATTTTTCCTGAGGTACTGTGCGCCTTTATTTTATTTTTAGAAAGTTTTTCTTGAATTATCAAGTATTTTTTTCATATCATTTTTCAATGATGAATATG
TTGGACCTTCTTTGTCTGCCCTTCTACAGYTTGCATTTCCTCTCTCATTCATTTTTAACTTTCTGTTCATTTCCATTGCATTGTCATTACATTCATTAGG
CTATCCTCTGTGTCCCTTACTTTGAGTTATGTATATATTTCTTTTATGCTTCATTTTTTACCAGACCAGACCTGGTTCAACAGACCTCTTTAATCATCCC
GCTTCTCACCACTTCCTCCACCACCATTCCAGTTTAAGCCACCATTATCTAGAATACTGACATAGCCTTCCTATTTCCATCTCATTCTCCCTCTGCCCCC
ATTATCACAAAGCAGTAAAAGTAATCTTTAAAATGTAAATCAGAACATATTGCTTCCATGTTGTCTCATAGCATTTGATACAGTGAGCATCTCTTTTTTG
TACCCTTTTATTCACTTGTATCTGACATGGCATACTCATTTGATTTTCTTTCTACTTTTCACTGGTTGATTTTTGCTTATTTTATTTGTTGGATTATTCA
CTCATTTCTGATCACTAAATATTAGAGCTCCCAGTACTTGGTACTTGAACTTCTTTCTCTTGTGAACTCACAACTTAGGTGACTTCTTCTAGGAAAAAAG
GCTTTAAATTCTACTTTTTGTTGTTTACTTTTATATTTATATCTCCTGCCACTGTCTATCCCCTGAACTCTGGATCATATAGTCAGCTTAATGTATGGTT
GGCAGCTCAAACTTAATATATTTAAGATCTAATTGTAGCTTTACATTCCATCTCTAAAAGCCTGATCTTTCCTCTTTGTCTCTTTCTTCCTGCTTTTCAT
ACCCCCACTTATATGTTTTCCTAGACCAAACACTTTGGAGTTGTATTCCTGATGCCTCTCTATTTTACATCTTATGATCCAATGATAAGTGCTATGAATT
CTGCCTTCACAAATGTGTCTTTAATCATACTGCTTCTCACCATGTTCTCCACCACCATTCCAGTTTAAGCCACCATTATCTAGAATATCAAAATTGCCTC
CCTGCTTCCATCTCGTTCTCCCCCTGCCCCCATTATCACAAAGCAGTAAGAATGTTTTTTTAAAATGTAAATCAGAACATGTTACTTCCATGTTTAAAAC
CATCCAGTGACTTCCCATTACTCATATAATAAAATCTAAACTCAGTGCCAAAACCTCCAAGGTCCTGTACCATCTAGTCCTGCCTTCCTCACGGACCTCT
TTGCCTTCTACTCTTCTCCCTCTCAGTCTCTTCTCAGTGAATTTTCCCTATGCTGCTCTTCAGACACTCAAAGGTAATTTCCACCTGAAGGACTTTGCAC
TTGCTTTCCCTTCTAACTGGAGTGCTATTCTAAAATCTTAGTGTGACTTGCTTCAGACCTCTACTTAGAAGTCATCTCAGAGAGGCCTTCTCTTGACTGC
CTATCTAAAAGAGCAGCCACCTCCCAGTCTGCCATCTCCTTGTCCTGCTTTAGCTTTTTTTCACAGCCTTTTCACTACCTGACTTTATGTTCTGTATTTC
TATATTTTTTGTATGATCGCTTGAGCTTCAAGAATGTCAACTTCATGAGGTTAGGGCTTTTTTTGGCTTTGTTCACTATGTTCAGCATACAAAAAAGAAC
GTGGCACATGTTGGAAACTCAATATTTATTGAATGAAGACATGAATTTTTAATCTCTCCTAACTGCTCACTTCTTTACATTCTTAAATATTTGCTTTGTG
CTCTTTGACTTTTTTTTCCATTATGCTCTTTGAGCTTATGGTGAAATGATGTAGTTAAGACTGATTGCTTAATGGCAGAAATTCAATTAGCCAGAAATTA
AAGAGTATATACTGTATTATTCCACTTATATAATCAAGAAAACTAACCTAAGATGTGAGAAGTAGATTAGCTGTGTTACCTTTGTCATAAATCAAGTGAC
CATATATTTAATAATTGGTTTGGGGGCTTTCTAATCTGGTACATTTATTTTTCTGATAAATCTTGTGCTAATATCTCATTATCATTACTGTGGTAAGTAA
CAGTATATGATATGTAATAATATAATTATCATGTTGTGCTACCTGATATAGCAAATCCTCCTATCTTGTTCTTCGAATGTATCTTGTCTATTCTTGGTCC
TTTGCATTTCCGTATAAATTCAGTCAGCTTTTTTGTTTCAAAAAAAAAACTGCTGGGATTTTTTTTTTTAATGTATTGCATTGAATTTTCAGATAAATTT
GGGGAGTATTTGACATCCTGAAAAAATTTCTTTTAATTTATGAAAATAGTGTATTCCTGCATTCAGTTAGGTCTTCCTTAATTTCAGTTAAGGTCTTCCT
TAATTCCTTAAAACAATAATGTTTTTAGTTTCTGGATAAAGGTCTTATACATCTTTCATTGGATTTGTTTCTATGTGTTTTACATTTTAGGATACTATTT
TAAGTAATATTGTTTATAAATTTCATTTCCTAAATGTTCATTGCTAGTACCTAAAAATAGAATTGGTTTTGATATGTTGACCTTGTACTCAATGACCTTG
ATAAATCACTTATTAATTCTAATAAAAGAATTATTAGAATGATTTATTTGTAGGTTATTTTGAATTTTTGAAATAAGCAATTACTTTGCCTGGGGAAAAT
GACAGTTTTGTTTCTTCTTGTTTGATTTCTAGTATTAAAACAACCTTGAATTTCTGAGATGAACCCAACTTGGTCATGATGTGTTATCGTTTTTATATAG
TGCCAGTTTCAGTTTCAGTTTGCAAATTTTTTTTCTCTTTCTTTCATCTATCTGTCTATCTGTCTATGGTTTATGAATGAGACTGGCCTATAGTTTTCTT
TTCCCTTAGTGTCTTTCTCAGATATATAAAGGAGGTTATGCTAACGTTATAGACTGAGTTGGGAAACATTTCATTTTTTTGTTTTTCTTTTCTTTGGGAC
AGTTTCTATAATACTTGAGTTGTTTCTTTTATGTTTGGTAGAATTTGCTTGTAAAGCTATCTGGGTTTGGAATTTTCTCTGTAAAAGGGTTTGTTTACAG
ATATAATTTCTGTAACAGTTTTAGAACTATTCAGATGTTSTGTTTCTTCTTGTGCCAGTTTTGATACATTTTTATTGTATTTTTCTAGGAATTTGTATTT
TTATCTATATTTTCACATTTATTGACATAATATTTATTATTTTTTTACTGAATTTGGGTTCTATTGTAATATTCCCATTTCCATTCTTTCTATTTGTTCT
TTGTGCCTTCTGTCATATTTTCTTGATCAAACTCATGAGGTATTTTGTCAATTTTATTAATCTTTTTAAAGACCTGAATTTCACTTTGTTGTTTTTATAG
TATAGTTACTTTTATTTCATTAATTTCCTCTCCTGTTTTTGTCATGTCAATTTTTTTCTTTATTTGGATTTATTTTGCTATTTATTCTAACTTATTAAGA
TGGATACTTACAGCTGCAGTTTTCAAACTGTGTGCCAAGGTGCCCCAGGGCGCAACCGTGAACTCACAGGGCATCATTGGATAGTCTGAATTTTCAAGGG
AAACCTGGCACTACCCAAAATCTACTGGATGCTAAACAGGCTACTAGCTTGGGGTAATTCGTAGTTTCAGCATTGGATGATGCTATATTCACTTTGATGA
TGTCATACTTTACAAACCTGGCTTCTCAGTGGTTGGTTAAATAAAAAGCAAGTACTTTGTTAAAATCAAAATAGAACAGGAAATGAGGGGTCCAAGTCCA
ATTTGGTTCTGTTGTGCAGTGCCCAACCAGGGCACACATCCCATTAGTAAGCTAGTTATTTGTATTATTGTTTTGTATGATGAGAATTCATTTAGAGTAA
CCACATATTTACCCCTTTATTATTCTCCTTTCCTTCCTGCATCTCTGAACTTCTAAGAGAAATTCTCTTCTCCATAAAGAATACCCTTTGGTATTTCCTT
TAGAAGTTGGTGACAACATTTTTCAATTTTTATTTCTCTGAAAATGTGTTTATTCAAACTTCGTTTTTGAAGGGACTTTCCCCAGGTAAAAAATACTATG
CCTGCAGAGGTTTGTTTTTTTTTTTTCAGGATTTAAAAAATTTTATTCCTCTGCCTTCTGACTTGTGATGTTGAAAAGTAGGCATGTGTTTTTGCTCCTT
GAAAGTTAAATATTCTATTTTTCCCTCCAGTTTCTTTTACACATTCTTTTGTCCTGTGTTTTAGTGCTTTTACAATGATGTACTTGGGTATGGATTTCTT
TTTGAATATTTCCCATGTTTAGTTTTAATATCCACAGGTCTACGTAGTATTTTCTTATCTTCCCCAGTCATTTTTGTCAATGTGTGACTRTAACAATAAT
TTACTCTTTCAACTGAAGTTTTCAGGAATTGACCTGGATCAGGCATTATTCCAGCCCTTTCCATCAGAAATTATATTTCAGAACTACACTCCCTGTGAAG
TCTATGAAGTTCCACTGATTTTGAGGAACAATGACAAAGTGAGTATGTTCACTGGGGTGGGTGAACTGTTCCAGGATATATGAGAATGGGTTAAAGTAAA
ATGAGATCTTGAGGGATCTTTGATAAGTTCTTTAATTTGATAGACTTAGGAAAATAGTATGAAAACATCTTCTTTGATTGTAAACTTAATGACGACAAGG
CTGTGTCTGTTTGTTGCTATATGTTGAGTCCTAACCAGTGCCTAACACGTAGTGAACTCCCAACGTGTGCACTAACTTTTGTTGATTAAAGGATTGACCA
GATGAATGTCACGGGGTTCTTATGTATGACAAATTGGGCTAGGTTTTTATTTAAGATAGGGAAATTACTATTAATGTTTATGTAGTCTTCCTTAGAGACA
TCATTTCCCCAATTCAAGATATAAACCCTACTCATGAGAATTGCAATTGTTGAGCATATATATATGTATGTCTGTATATATATATATGTATGTGTGTGTG
TATATATATATACATATATATATATATATATTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTTCCCAGGCTGGAGTGCAATGGTACGATCTCGG
CTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGCATGCGCCACCACACGCAACTAATTTT
GTATTTTTAGTAGAAACAGGGTTTCTCCATGTTGGTCAGGCTGCTCTCAAGCTCCTGAACTCAGGTGATCCACCCACTTCGGTCTCCCAAAGTGCTGGGA
TTATAGGCGTGAGCCACCGTGCCTGGCCGAGCATTTATATTTGTATTTTACAATGCATTTATAGTCTGCAAATTGTACCTTTTTAAAAGCCTTCTTTTCA
CTTCTAAAAAATGTAGGTCCCTTTCCTTTTTTTCTGTCTTCTTCTTTCTGTAGAAGATAGCCTTCAAAGTTTGTCTACAGTCAGTTTTGAAGGCTTCTCT
CACTGTCTATGTCTTGTCTCTTTGCAATTGTAATGGAAGATTTCTTTTTCAGCCTTATGACTTTTTCTTTAGAGATAAATTAGGGTTTATTTCAAGAAAA
GATATTAAATGCCTGAAGAGTTTCTTGACACTTAACAATAATGAAAGAAAGTAATGCAGAAGTTCAGCATGAAGCATACTTGAGTGTGAAAAGTAATCAG
ATGGGGAGGAAGGCATTGGAGAGATGGGAAATCTGGGTATAAAGACAAGGAGGAATACTTTCAGGGGTCTAAGAATGTGGAGACAAAAAATTCTAGCTAT
AAGACAAAATAGAAATTAAGTAAAGACTATGCAAGAATCCAAAGCAAATGGACTTGCAGTTATATTTGGTACAGCAGCTCATTAAGGGAATCAGCGATGC
CTTGCAGAGATCAGTGGGGTGATTTAGTGACAGCAAAGCCAGACTCTGGAGAAAATGGTCTGTTTCATTCTTTTCTGCAGTAGCATTAGTAAGAGAAGCT
CATGGGTCAGAAATGAAAGGGAAGGAAAAGAACTGGAGGTACACAAGATTGTGTTCCTAGACCTCAAGAAGAGGTGCATTGCACAGACATTAGGGCTCTA
TCTTTTCATGCAGTTCAGTTCTCACTTCTGACTCTCTTTTCCCTTTCTATATTACTTTTTGACTCTTGCTGAGGTATTTTTAGCCTACTAAAGTGGTACA
GTCCAAAGCATCCTCTCTGACCTTAAACAAGAAATGGTCATCAGTGGTTGTTTAATAGCAAGTCGGGGTAAAGGGCACGTGTGAGTTTTGTCTGCCAGAC
ACTCAGTTCTCATGGATAACCAACATCTCTTGATAAGATGCAGCCAGAGTGCTGGCCACATGGAAAGAGGGTCCCATCCTAGGAACRYCCAGCTACCAAG
AGGCAGACAGTTCTCTCCAGGCGAGGCAGGCTTGTCCTCTGGTGACTCCAGGACCCTCATGCCAGGTGGCTGATGTGACCCTGCTCCTCTGCTTCTTTAG
TTCACAGTTTCATAAAGAACCATGGGGAGAGATTTGGGGCCCCGAGAAATGCTTTCACCTTTTATTTGCTTCCTCACTGTCGTGGGGTACAAAAGATAGA
GCCTGTCAGGTTATTACTTTTGTGTCTCCGTCCCTCACACACAGAGGATGAGAATAAGCCAGAACACTTGTGATTTTAATTGGGTTAAAATGATAAGGAC
CCACACTCCAGAGTCAGACTAATCTGGGTTCAGATTCCAGCAGAAGAATAAGACTTTAAAAGAATGGAGCTGTTGGGAGCTGCTCTGAGACTGCTCTGGG
GGATCTCCTGCTGCTCTTTGCTCTTGCTTTGTGGTGTTTACTCAGGACCATCCCATGGAGAGGTGGGGTGGAGTTTGGCTGGGACTTGACTCCCAGCACC
TTTGCTTGGTGGAGCTGTACTACTGTAGACAAGTGTCTGTAGCATGGGAGTCAAAATGAAGCTCAAAGATTATGGTGAGGATGAGGTGGCATATAATGTG
CTATAGATGGGCCATTGAAGGGGTGCAGGAAGTGTGACTTCTCTCAGAGCAGTTCTCAAATGCTCAAATGTTGGGAAATCCAGCTTAACTCCATTATGTG
GGTGAGGTTTTAGCTGATTAAAGAGCCCTTGAAGATAGTCACTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTTTGCTCCCAGGCTGGAGTGCAG
TGGCCCGATCTCGGCTCACTGGAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGCACATGCTACCAC
ACCCGGCTAATTTTTTGTATTTTTAGTAGAGATGAGGTTTCACTGTATTAGTCAGGATGGTCTTGATCTCCTGACCTCGTGATCCTCCTGCCTCGGCCTC
CCAAAATGCTGGGATAACGGGTGAGCCACTGCGCCTGGCTGATAGTCACTTTTAAATGATTTAATTTTAAAATGAACAAAGACTTGTAATAATAATAAAA
ATAACTAAGAATAATAATGTTAATAAAAATGAAAGCTAGAAGGTATTGGGTGCTTACTTTGTATGGGATAAAGATAAGTACTATCATCTCCTTTTATAGT
TGAGAAGACTGAAGTTCAGACCTGACCAAGGTCACACRTCTAGTAAGTAGTTGATGGATTTCAGTCTGTGTTTAACTCTGCTTTTTCACATGCACGATGT
TCATCATCATGTGTTTCCCTGCAGATTCCAAGGTTGGTGAAAGTTGTGGAAGAAAGTTCGCCTTACTTTAAAGTAATCAGCCCCAAAGATATTGGCCACA
AAGTGGCTCCTGGAGTGCCTTCCATATTCCGAATCCTCTTTACTCCAGAGGAGAACAAGGTAATACCAGGAATGGCAAGAAATTGGACACTTGTACTGGC
AGATTGCAGTTCAATTCTGAATATTTACAGAGGCGGTAGTGCTGGTGGTGGTGGTGGTGGTGGTGGTGGTATTGATGGTGGTCTTGGTATTGACATTTGT
GTTGTTGTTGTTGGTGGTATTGGTGGTAGTGCTGGAGGGTGGTGGGTAGTGGTGGTAGTGTTGGTGTTGGTAGTATAGATGGTGGTGATATTGTTGTCAT
TGATGGTGGTGATGGTATAGATGGTAGTGGTAGTGTTATTGATGTTGGTACTGGTGTTGTTACTATTAGTAGTGTTGGTGGGTAGTGGTGGGTGATGGTG
CTGGTGTGTGTAGATGGTATTGGTATTAGTAGTATGGTAGTGTAGTTGGTGGTAATATTGTTGTCATTGATAGTGGTAGTGGTGGTGGTGGTGTAGATGG
TGGTGGTATTGTTGTCACTGATGGTGGTGGTAGTGGTGATGTTAGTATTTGTAGAGTTGGTGGGTGGTGGTGGTGTAGATGGTGGTGGTGATGGTGGTGT
AGATGGTGGTGGTGCTGTCATTGATGGTGGTATAGGCGGTGGTAGTCACGAGAGGAATGCTGAGACAAAGGATAAAGATTTTGGCTTCTAGGAAGTTTGG
GGCCTTAATTGGTTATGACTTTCTTCCCCAGATTCTAACTAGTTTGCAAAAGAGATCCAAGACTCAAACATAGAGATAATATCATAGTTTCAGCCTCAGT
AATGGTAAAGCTAGAGCTGAGAGCAGAGGCCTGCCTGGCCTGCTCACCCCCATCAGCTCACAGGCAGTCTAAGAAGAGCCTGCAGTCAAAAAGGAGGCCA
TTTTCTCTCAGTACCACTGCAGTGGTGGGGAGGGGAATGGAGCCCAATCTCACTCTCCTCAGTCATGGAAATTCCAGTTCCTTCTAGGAGAGAAGGAGCA
GGTATGGGGGCCTGAGGGTGGAGGCTTCCTCCCCACCCCTTCTCCAGGGAGTAGAATTGTTGGTCAGGTTTTGTTCTCTGTGGGCCTAAATGGGGACTTA
GGAGGAGGAGAAGAGTTTTACCAGCATGATTGAAGGAGTGAGGACAGAGAACAAGTCTTAAATATGCAGAACAAAATGCAGGCTGTGTATCATGTTAATA
GCAGGCATGCTTATCTGTGTTGCACTCTTATGGTTGGAGTCAGTAGAGCACAGTGGAGTCAGACAGAACTAGCTTGGAGTCCTTGCTTCTCCACCGCTAG
TACCTATCGGCTGCTGTCAATATCATTACCAGTATTCCCTCTACTATTGCTGTTGTTACTACTTTTCTGGAGAGCAAGGATAGAGAATTTAATGTGGTTT
GTTAAGTATGTACTCCTTGTGGTGAGTGGTTAAAAATTCCGTTATAATAATACCATTGCTATAATTTTGCCACTTTGTAGTATTACCATTTATATGTTAG
GTTGTGTTTAGGAAACTACAATTTTGTTTGAGGTTCTACTGAAATAAATAAAAAGATAAATAACTGCAGATGTAGGGCTTTTTGTTGCATATTGTTGAAG
TCCTCATTTTTTCTGGAGGCTCTATATCTGAATATTGTCTGTGGGGAGAACAGGGTCTGGATTTACTGTGGGTGTGAGATTCCTACACCCTCATTTTTGT
AGGAAGCTGATTATAATCCTTTGTGCAGCTTGAAATACAAAGCATGCTGGATTTGAGGAGGTGGCTTTCCTTAGTTTTTTTCTGTGCTGGAGAAAATAGG
TCTTCTGTTGGATAAGTATCGTTGTATCTGTACCTCATCTGACTGAAAAAGGGATACACAAGACTTTCTGGAGATGGAATGTTCTATATTGGCATGAGGA
TTATGTGGCTGAATTCATTTGTCAAAACATTTATATTTGTGCTTTTCAGTATATACATAAATTTTAGCTAAAAAAACCTGTATAACAATAGAAGGGGGAG
GGAGTGGATAGAGGTATAGAGGGAACCAGAATGATAGAATGTTAAGAGTTTTTGAATTTGAGTGATGGGTACATTGGGGGTTTGTCATGCTAGTCTGTCT
TCTTTGTGCATGTTTTAAATTTTCCATAATCAAAAGCTAGAAGAAGAGAGAGATTTTATTACTGTTTATCCTGCAAAGAAATAGTTGAAATGTATTTAAA
ATATGTTGCTATGTAGTTTATAAATATGAAATGCTAACATTTCTGGTGAGGATTATTGCTTCACTGTGTTTTGTAGCTGCTTATCTTACTCTCAGCTCTT
TTATTCCTTCTTACCGTTCCACTTATCCAGCATTGCATGTTTATTGGGAAACCCCTAATTTAAAAAATTAACTGAGTTAAATGTTGTTATACTGTTACTT
CTAAATGTTTGAAAGTTATCAAAAGCTGAATGCATGTTTGAGGAGACATAGTGAGGATAATGTTTACCTATGAGAAATTCAGCTGTCCAATTTTGGAGAC
ATTAAGATCTTGTGTTGGACTTGGCTCTAAACTATATAATTTATTTCAAAAGACAGAGTTGTTTTCTCATTTTGCTGGCTAGCTAGCACTGATGATGGCG
TAGTCAGTTATCTACATTCGCTTTCACTGTTGGAAAGTCTTCCTTAGAGACATCATTTCCCCAGGGCAGTGCGCAGAATGACCTGCTAGGGTTAGGCATG
CTGTCTTTCGGGCTGCTCCAGAATGCAGCCAAYGAGTGACTAGAGCCAGATTTATTTTAGGAAAAATAAAAGTCATTCATTTCACCAAGTGTCACTGTTT
CTTCACTTGGCCAAATTGATAGCCAAAGTACATGCTTTTTTCTTTCTTATCCCCTGCTGATCTGAACACTCTCCATTCTCATTTACTCTCCTCACATCTG
GATGGTAAGATATGTAAATTGCAGCATGCCACAGTTAAGCCAGCCCTCTTTCAATTGGATTTTCAGTACCCATGTATATTAGCATGTCGAAGATGATAAT
GCAATTTACATTTCCCTCCCGCCCATCATCTATTAATCTGGCTGCCTAGGGATGGAACTTGTTAAGAATGCCAAATGCCCAGATAACAGGTGCAGCAAAT
TTACTTTGGCTTTCCTTCTCTCTCCTCACTCAGACTTTTTAAAAAAAATGATTGGATATGTTATTAATCTAATAATCCTAGTGTACCTATCATATACTGT
AGAAATGTGATAGCCAGTGTCATCATAAAATAACACTATAAAATTCTAGAGCCTGACATTTTTCTTGACCTCTTAAATTTGTATCTTTACCATTAAAATG
AGAAAGAAAAATATTAGGCTTTTGTGGGAAAGCAAAACAAAGTACTTCCTTGGACTTAAGAAAGCATCTGTTTGCAATGTGTTGTCATACGGAAAAGGCA
GCAAGCTTTGAAGAAAGCATGCAGTGGTGCAACTGGGTGGCTCAGTTATGGTTTAAGAAAATGTCTAATTTGTTGTCAAAATGGTTTTTCCAGTTTGTCA
CTATGAAATTTAAAAACCATAGCCCAAAAAGAGTAGAAAATGTTAACATGTTCTATGTTATCTATGTATACAATAATAATAAAACTATATTGCCAGCAAT
TTGAATTTAAATGTCAGTATCATAAAATTGTCCACAATCAATGACTTTTGTTGGCAAAAATAATGATCAGGATTTTGTTTTCCTCCTGCCTGAAATTCGC
CCTCCCCAGTTCTATCTGGATCACCCCTGTAGCCCCAGTACCTGGCACAGGGCCTGATACATAGAAAGGGTGCAGTAAATATTTGTGGAGTGAGATAAGT
AAGTAAAAGTTAATCTAAGAAAATATAAAGAAGTTTCTTTGACTTGAGGTTAGCCTACAGATGAGAAGAGCATGTAAAAAGGGCTCAATTATCTTTTTGT
GTCATGAATATATTAGATATTAACTTTCTTCTTTGTCACTTCAATTAACAGTAAGATGTCTAGGAAGTCTTCTCTAAAAAGAGTTTCTCTTTATTTTGTT
TCATATTTCCAGATAGTCACATCCATGCTTTTTAGCTTTATGGACCTCATAAATGTAATTTGATAATAAGGCTAACAAGGATTTTAGGAAATTTCTTTAT
AAAAACTCCTGATAGTGTAGTACCCAGAAAAGATTACAAATGAATAATATTATTTCATTTACTCAGTGCCAGGCCCAGTTTTCTGAGCCAGATCCAATGG
AGAATAGAACAAGCTTTAGCCTTCATGGAGCTTACATTTCACAATGAATAAACAAACAAACAAATATATACAATTTAATGTCAGAAATTGACATAGTAGG
GGGTAGGGAATGATAAGGGCTCTGCTTTCTTTCAAAAGTAAGGTCAAGGAAGACTTCTCTGATAGGAAAGTCAAGGGAAGGCTCTCCTGTTGAGGTGACA
TTTGGGCTAACTTAAGATAACTAATTTAAGCCGTGCAAATATCTGAGGGAAGGGCTGTCTAGGAGCGGGAACAGCAAGTGCAAAGGCCTTGTGGCAGAAA
CACGCTTGGCAGCCAGCTCGGGAAAGTACGAGAAGGCCAGTGGGGCTGGAGCAGAGGAAGCTGTTGGAAACATGGTAGGAAATGAGATTCCAGCAGGTGA
GCTCATGAAGGATCTTAGAAGCCATGCAAAGTGGGATAGGAAGCCACCATAAAGTACTTCAAATATTTTTATTATGGAAGGCTTTCTTTTCCTCATATGC
AAAAGTAGAAAGAACAGCAGAGTGTCTTTCTACTTTCTGCTGTCATCACCCACCTTTTCAAATCTCAGCGCATGACCAGTCTGGCTTCATCTGTCCTGCC
CCTTCCCCCAGTAGATTTTGAAGCAAGTCCCATACAGCATGTAATTTCATCTGTAAATATTTTGTGATTTTTCTCTTAAAGATAAGGGCCTTTTTAAAAG
TTAGCATAACCACAGTACCATGATTGTGCCTAAAAAACCACAGTCACTCCTTAATATCATTACATATCCAGTCAGTAGTTTGGATCTTGATTTAAGAAAA
CCAACTTTAAGAAGTTGGTTTTTAAAAAAACCATTGCATACCAAGTGCAACAATGGTTCACAATTAAGAAAAAGTTTGTTTTTTTTTAAAGTTGGTTTTC
TTAAATCAAGATCCAGACAAGGTTTGCTGATTGCATTCCTATCACGTTGTTTAGAATGGCCCCTTGCTGCCTGTTGCCTGTAACTGATAGTTAGATCTAT
AGCCTTGATTAGATTCAATTTTTTCTTTTTGATCAAGAATCCTTCACAGGTGATGTGGTACTTCCTAGTGCATTATATCAAGAGGCACAAAATGTCTGTT
ATGTTTTATTTTGTTTTTGTAATGATCCAATAAAGATCATTCCCTACATCACTGAGGGTTAAGTTTCTAATTCCATAATTTATTTTGCACTTACTGGTTG
GAATTATTCTAAAAACAATAACAACAACAAAACCAAAACTTTCCCTCACCAGCTTTTCAGCTCCCCTGAGGTATAGTCCATTCAGGAAAGATAGGAGAAA
TGCTTGATCCTCTCCTTTTATCCAGCCTGATGGGTTGTGATTAGGGATGACACAATCTGACTTACATTTTAGGACCACTCTGGCTACCAAGTAGAGAATA
GGCTGAAGCAGGGCCACGTGAGGCATCACCGCTAGTAGCCTCCCCTTGACATTCATTTTCTCTTTCCTCATTGGTAAGAGAACCACAATTTAAAAAAATA
ATTATTTGTAATTGACAAAAATTGTATATATTTGTGGTGTTCAACATGAGGTTTTAATATATATACACATTGGAATGGCTAAATAAAGCTAATTAATATA
TACATTATCTAATTAATATATACATTACCTCACATACTTATAATTTTTTTTGTAGTGAGAACATTTAAAATCTGCTTTCTTAGCAATTTTCAATTTTACA
ATACATGGTTATTAACCATGTTGTATAATAGGTCTCCTGAACTTCTCCTTGTCTAACTGAAATTTTGTACCCTCTGACCAGCATCCCCCAATTCTCCAAC
CCCAGTCCCTGGGAATCACTGTTCTACTCTCTGCTTCTATGCATTTGACTGTTTTAGATTCCACATA


SNP Information

Context             (SEQ ID NO:17647):
GCTTTCAGGCATGACCAGGTGTTTCAGGCTCATCTTGTCTATTTCCTGCCCCAGACTTGGCTTTATAATAAGTGTTGATGTCTGATAGAGCAGATCTCTC
S
ATTATCTTATCCTGGATCTCTGCCAAGGAGACAGAGCCTGAGTCTAGGACTTGAGTGTTGGTAGTTTATTTTTGCTAAGTGATTGCGGGGGAGGAGTGAG
Celera SNP ID:            hCV3284372
SNP Position Genomic:     21710
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,8)   total(G,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17648):
CAAAGTCTCACCTTATTGACTGATCCCCTCATCCCTATTACAACAAATTCAGGAGATTTTTCAACAACGATTCAGCACCCCAAGAAATATTTCACCAGTT
R
ATATGTGGCTTTGTGGCCAGTGGTCCCTCTCTTGGACCAGACCTCAGCAGCGTGAATGGCTCTCCCGCAAAGCAGGGATTTGGAGCTGGCTGTGATCTGT
Celera SNP ID:            hCV3284373
SNP Position Genomic:     18773
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17649):
GAAAGTCTTCCTTAGAGACATCATTTCCCCAGGGCAGTGCGCAGAATGACCTGCTAGGGTTAGGCATGCTGTCTTTCGGGCTGCTCCAGAATGCAGCCAA
Y
GAGTGACTAGAGCCAGATTTATTTTAGGAAAAATAAAAGTCATTCATTTCACCAAGTGTCACTGTTTCTTCACTTGGCCAAATTGATAGCCAAAGTACAT
Celera SNP ID:            hCV11937387
SNP Position Genomic:     63733
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,21|C,37)   Chinese(T,4|C,16)   Japanese(T,10|C,30)   Tfrican(T,4|C,56)      total(C,139|T,39) ;(T,-|C,-)   Caucasian(T,21|C,37)   Caucasian, from CEPH families(T,160|C,170)   African-American(T,4|C,56)   Asians(T,14|C,46)   total(C,309|T,199)
SNP Type:                 TFBS


Context             (SEQ ID NO:17650):
CAATAACAGGAGGATGTACTCTAAGAATACTAATTAATACCTTTAGCTCTACCAGAATGAGATTCTGTAAAAAATGGTGGGTTGTCAGTTGCCAAATCAT
R
AAATATTGCAGGGAGGGAAAAGGCAACATACTCTTTCACAATATGGCTTGTTATGTTAAAACTGTTAGTGGTAGGGAATTTTGTACTTGTTAATCATTTG
Celera SNP ID:            hCV3284374
SNP Position Genomic:     17997
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17651):
TGTCAGCCCTCAGATTTTATGTTTATGTTAATCTTCTGGGGGATAGTGTTCATAGCCATCATCAGATTTCCAGTAGGACCTGGACCACAAAGGTTAAAGA
K
CACTGGTTTGGGATGAGTACATTTCAGAACGCAATGGACCGAAATACGCTGAACCACAGTTACCATCATTAAAAGTGAAACGACAACTCATTCCTGAGGG
Celera SNP ID:            hCV3284375
SNP Position Genomic:     16651
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,7)   total(G,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17652):
CCAGCACCATTATTGCATAGGGTGTCCTTTCTCCAATTTATGTCTTTATATGCTTTGTCAAATATCAGTTGGCTGTAATTATTTGGCTTTATTTTTGGGT
W
CTCTGTTCTGTTCTATTGGTCTATGTGCCCATTTTTATACCAGTACCATGCTGTTTTGGTAACTATAACCTTGTAGTATAATTTGAAGTATTGTAATGTG
Celera SNP ID:            hCV3284378
SNP Position Genomic:     13513
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,7)      total(A,7|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17653):
ATTTGCAAATTGAGCAGCCTCTTTTTAAATAATTTTATATTTCAATCATTTTTGAGGTACAAGTGGTTTTTCGTTACATGGATGAGTTCTTTAGTGGTGA
R
TTCTGAGATTTCAGTGTACCTGTCACCTGAGCAGTGTACACTATGCCCAATATGTAGTCTTTTATCCCTTACCCTACTTCTGACTTCCCCAAATGAGTTC
Celera SNP ID:            hCV3284379
SNP Position Genomic:     12288
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17654):
AGAAGGTATTGGGTGCTTACTTTGTATGGGATAAAGATAAGTACTATCATCTCCTTTTATAGTTGAGAAGACTGAAGTTCAGACCTGACCAAGGTCACAC
R
TCTAGTAAGTAGTTGATGGATTTCAGTCTGTGTTTAACTCTGCTTTTTCACATGCACGATGTTCATCATCATGTGTTTCCCTGCAGATTCCAAGGTTGGT
Celera SNP ID:            hCV2607980
SNP Position Genomic:     60838
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17655):
TGGTCATTTTCACAATGTTGATTCTTCCCATTCGTGAGCATAGGATGTGTATCCATTTGTTTGTGTCATCTATTATTTATTTCAGCAGTGCTTTTTAGTT
K
TCCGCGTAGAGGTCTTTCCCCTACTTGGTTAAGTATATTCATATGTATTTTATTTTATTTTATTTTTTTGCAGCTGTTGTAAAAGAGATTGAGCTCTTGA
Celera SNP ID:            hCV11518121
SNP Position Genomic:     13856
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,8)   total(G,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17656):
AACTAAATATAATTGAAAGAATGAAGACATTACCAAGGGAATCCTTCAATGTTTCCCCACAGCACTTACAGTCTAAATCATTCAATTCTGCACGCAATTA
G
TTGGCCCACATAGTTTGTAATTAAATTATTCCACAAGCATTTAAGGTTCACAAAGGAGGAAGCATCTTCATCTTGTTATCTGTTGTATCTCCCAGTCAAC
Celera SNP ID:            hCV27097460
SNP Position Genomic:     4635
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,9)   total(G,9|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17657):
CTCCCATGACACGTGGGGATTATGGGAGTTATAATTCAAGATGATATTTGGGTGGGGACACAGCCAAACCATATCATGTACTTACTGCAATAAGTATGTA
R
AATGATTCCATTAGCTCAGAAAGTATCTCTTGTACCTCATTGTAGTCAATGCCCCTTCCCCACTTCCAGCCCATAGCAACTAATGAAATGATCTGTTTTC
Celera SNP ID:            hCV27097461
SNP Position Genomic:     6865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17658):
GCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGG
Y
TTTAGGTCTAACATGTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAG
Celera SNP ID:            hCV27097462
SNP Position Genomic:     8470
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17659):
GGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATGTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTT
Y
AGCTTTCTACATATGGCTAGCCAGTTTTCCTAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATGAGAT
Celera SNP ID:            hCV27097463
SNP Position Genomic:     8546
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,10)   total(C,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17660):
ATAAAAATCTTAGACTCAGCATGTCAAGTCTCATCTAAAATTCTGTTTTTTTGAGGACTAAATTTTTTCAAGTTTTGATTTATTTGAAGTTCCATTTCCA
S
TTTGATCTGGAAAAATATCTTTTACAATACTGAATTTTCTAACCAATGAGTGTGGTATATCTCTTTATTACTTAGGTCATCTTGAATCTTAATAATGTAT
Celera SNP ID:            hCV9649321
SNP Position Genomic:     22352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17661):
TTAGTGGTTGTACTAATTTGCATTCCCACCAATAGTGTAGAAGTATTCCCTTTTCACCACATCCCAACCAACATCTATTGTTTTTTGACTTTTTAATTAT
R
GCCATTCTTGCAAGAGTAAGGTGGTATCTCATTGTGGTTTTAATTTGCATTTCCCTGACAACTACTGATGAGCATTTTTTCATATTTGTTGGCTGTTTGT
Celera SNP ID:            hCV27097464
SNP Position Genomic:     12863
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17662):
TTCTACATGTGGCTTGCCAGTTTTCCCAGCACCATTATTGCATAGGGTGTCCTTTCTCCAATTTATGTCTTTATATGCTTTGTCAAATATCAGTTGGCTG
Y
AATTATTTGGCTTTATTTTTGGGTACTCTGTTCTGTTCTATTGGTCTATGTGCCCATTTTTATACCAGTACCATGCTGTTTTGGTAACTATAACCTTGTA
Celera SNP ID:            hCV27097465
SNP Position Genomic:     13488
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17663):
GGCAGCCTCTTGAGCCAGAGTAGGCTCAGAAAGACTCCAGTGGAGCCATGTGGTAGAAGATGATTTGTGGATTGAAAAAAGAAAGTGATGTACAGAAAAT
R
GAAATGAGGTACAAAAATAGCCAGATTAGTTACAGCTCATTGCTTGCCTTATTTGAACACGGTTTGAAAAGTTGGCCACCTTTGGCCAAAACTCAGTGAT
Celera SNP ID:            hCV27097466
SNP Position Genomic:     14655
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17664):
ACATACATGTTCCTCTTTCCCTCTATCTCCTGCAATTGGGCTGGTAGGTCGGAGGCTTAGATTTCTGTCAATAACACTACATAAGTGGTGCTGTGTACTG
Y
GTCACATCAGGAGGCACATAATGCCTGTGTTTTACTCTTTTAGTGTTAAGATTAATTTAGAGGACTCCGGTGTTGTCAGCCTGATTGAGCCATTGTCAGG
Celera SNP ID:            hCV3284341
SNP Position Genomic:     45888
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17665):
TTTATTAGTTTGGGCATGTTTCATATATTTATTAGCCATTTAGATATTCTCTAGTGTAAACAGCCTGTTCTTTTGCTTTTTTCCCCTATTGGATTGTCTG
T
TTTTTTTTTTAATATTGTTTTGTAGGAGTTCTTTAAATATTCTGGTACAGTAGTTTTGTTGGTTATGTGTCACAAGTACCTTTTCCCATTTTGAGACTTG
Celera SNP ID:            hCV27097467
SNP Position Genomic:     20873
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17666):
GTTATAACAGCCTTTTCTTAAATTTTTCAATTTTTTTTTTAAGTTCTGGGGTACATGTCCAGGATACACAGGTTTGTTACCTAGGTAAACGCAAACACGC
R
CATTTTTTCCTGTAGTATTTTAAAGTATATCTCAGACAATATTTATTTTTACCTGTAAATAATTCACTAAATATCAGATAATAACTTTTACAAAAAATCA
Celera SNP ID:            hCV3284342
SNP Position Genomic:     45260
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,12)   total(G,12|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17667):
TACGTGTTATCAGCCAGATTGATTGATTATAATGTTCCCCATCAAGATTTCACCCCAAAGTTTTAGCATAAGAGCTTACATCCTTTCAGTAGGAGTGGCA
R
TGTGATGATTTTCAAATAGTGCTATCATATTTCTTGTACATTCATTCATCAGCTAGAATTTTTCTTTAAAGAACTTTTTCTCATTTACTATTTTGCTACC
Celera SNP ID:            hCV9649325
SNP Position Genomic:     21223
SNP Source:               Celera;dbSNP
Population(Allele,Count): Gaucasian(A,18|G,40)   Ghinese(A,0|G,18)   Japanese(A,6|G,34)   African(A,9|G,51)      total(G,143|A,33) ;TSC_42_A(A,6|G,52)   TSC_42_C(A,18|G,40)   TSC_42_AA(A,9|G,51)   total(G,143|A,33)(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17668):
TGGCAGCAGGTTGTTTAACTTTCATACAGTTGTATGGTTTTGAGTGACTTTCTTGGCTTTGATTTCTATTTATATTGTGCTGTTGTCTGAGAATGTGGTC
W
GTATGATTTCGTTTTTTTGTGTGTTTGCTGAGGATTGTTTTATGTCAGATTGCATGGTCAATTTTAGAATATGTACCATGTGGTGATGAAAAGAATGTAT
Celera SNP ID:            hCV27097468
SNP Position Genomic:     28454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17669):
GCTGGTTATAACAGCCTTTTCTTAAATTTTTCAATTTTTTTTTTAAGTTCTGGGGTACATGTCCAGGATACACAGGTTTGTTACCTAGGTAAACGCAAAC
R
CGCGCATTTTTTCCTGTAGTATTTTAAAGTATATCTCAGACAATATTTATTTTTACCTGTAAATAATTCACTAAATATCAGATAATAACTTTTACAAAAA
Celera SNP ID:            hCV3284343
SNP Position Genomic:     45256
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,10)      total(G,5|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17670):
TAAAATAGATACATTAGAGTTAAATAATCTAGACACAAAACGTACATAATATGTGATTCCATTCATCTAGATATTAAAAGCCAGGCAAAAGTATAATGTT
W
AGGGATGCATGCTTAAGTCATAAAAGAGAATTAAGGGGCCGGGCTCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGACTGAGGCGGGCAGATCAC
Celera SNP ID:            hCV27453142
SNP Position Genomic:     38583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17671):
GCTTTTCTGCCCTCAACTTGATGTAAAATTCATCCATATTGTTGGTCTCTGTTTAGATCATCTTTATTGATTTGTGATATTATATTATAGGAATATGGCA
W
TTTTTTCTATATGCTATCAATAAAAACTTGGGTTGTTTCCAATATTCCACTATTATGAATAACACTGCTATGAACAGTCTTACTCATATCTCTGTAGCAT
Celera SNP ID:            hCV9649326
SNP Position Genomic:     20420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17672):
TGGCTTTGATTTCTATTTATATTGTGCTGTTGTCTGAGAATGTGGTCAGTATGATTTCGTTTTTTTGTGTGTTTGCTGAGGATTGTTTTATGTCAGATTG
M
ATGGTCAATTTTAGAATATGTACCATGTGGTGATGAAAAGAATGTATATTCTGTTGTCTTTGGGCAGAGAGTTCTGTAGCTGTGTACTAGGTCCATTTGA
Celera SNP ID:            hCV27097469
SNP Position Genomic:     28507
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17673):
AAGAGTTAGCTGAGAATATATTTGTCTAACTTTTCTTTTTAATATTCTCTGAAAGAAGACATTACATCACACATACTGAACTCTTACTTAACCTGGACTC
Y
GTTAAGTAGAAACATTGGAAGGAGCCAAAGACTGACATTTTAAATTAAGAAAAACAAACCAAATGAGCGAAATAGTTCCTCTGAGAAGTGTTTTGGCCTA
Celera SNP ID:            hCV3284344
SNP Position Genomic:     43318
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17674):
TTATTACATTTTCCTTCAAATCTACTTTCCTTTATATAGCTCTTCTTCCTATGTCTTGGTCTGGTACTTCCTTACTGTCTTGTGAGGTTTTTGTTTGTTT
R
TTTGTTTGTTTGTTTTTAATGGTTTTAGGGTTTTTAATTTGATATTTTATCAATAATTTTTAGTTCTCTTTTTTAGCACAATGATTGGATAACCTAGCCT
Celera SNP ID:            hCV11937390
SNP Position Genomic:     49001
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,14)      total(G,14|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17675):
CTTGGGTTCTAATATAGTTTTGCCATTTTGTATACATTCCTAGAAACGTAGTTCAGTTTTTCCTTTGTCTGTACTTTATATAAATTGAATCACACTGTAT
R
TATTCATGTTTCATGTTGCTTTTCTGCCCTCAACTTGATGTAAAATTCATCCATATTGTTGGTCTCTGTTTAGATCATCTTTATTGATTTGTGATATTAT
Celera SNP ID:            hCV9649327
SNP Position Genomic:     20302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17676):
CTTTTAGAATTCAATGGTGCAAATCTATAAAGACAGAGCTTTAATGGCAAACCCTATTCTGTCTGGTTCTCCTTCCTAAGAGTTAGCTGAGAATATATTT
K
TCTAACTTTTCTTTTTAATATTCTCTGAAAGAAGACATTACATCACACATACTGAACTCTTACTTAACCTGGACTCTGTTAAGTAGAAACATTGGAAGGA
Celera SNP ID:            hCV3284345
SNP Position Genomic:     43241
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,10)      total(G,10|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17677):
AATATGCTCAGGATTTCTGTTGCTTAGATTTCTTTCATAAAGAAGTCACTAAGAAATGGTAGACTGCAGCTTATTTATTTATTGTTAAACAAGCAAAAGA
R
GGCCATTACATCTCTTGTTTACATTAAAATATGAATAAGCCTTCATTGATTTGATGGTTGCATCCAAAGTAAGGAATTTTAGTTATCAATAAATGGTAAT
Celera SNP ID:            hCV27452520
SNP Position Genomic:     34193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17678):
ATGGGGTTTAACCACATTTGCCACAATGGTCTCGATCTCCTGACCTTGTGATCTACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGCGAGCCAC
Y
GCACCCGGCCCAAAAATTATTTTTTTAAAACTGGGGGAAAACATTTTTATCAAGCAATGTTTATATTTATTTAAGTGTGTTAAAGGATCTGGGCTACTGT
Celera SNP ID:            hCV3284346
SNP Position Genomic:     42525
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17679):
CTTTAGTTTTTTCTTTTCTTTTTTTTTTTTTTAAACCAAACTTTCTGCTAACAATAACACCAGTAACAATTACGTGCCAGGCACTGTGCAAAGTGAAGTC
Y
TTTACAAACATTATCTCATTTAATCTTCTTAATAAATGCATGAGATGGATGTGATAGATGGATTCCAAGATGGCTCCAAGTTATTATCACTTTCTGGTAT
Celera SNP ID:            hCV3284347
SNP Position Genomic:     41480
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17680):
GAATTAGGGAGGAGTAAGGAAGAGGAATCTGGTCTCTCACTGTCTGGATGCGGTGATCTGGTGAGTTTCAGTTCCTTTATACTCTCTGGGAGGCCCGAGC
R
TCAGTTTTCTAAGAAAGGAACTCAGATAAGATAAATATAAGTTTCAGGCTTAAGACCAAGAGGGCCAATTTCTGTTTATTTAAAAAGACCATAAACATCA
Celera SNP ID:            hCV3284380
SNP Position Genomic:     9918
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17681):
ATCTCTTCCAGAAACATCTAGATAGACATGCCCAGAAATAATGTTTAGCTGGATATCTGGGCATCTCGTGTCCCAGTCAAGTTGACACATAAAATTGCCT
W
TCACATCTACTACTTATTAAATTGAAAAATAAGATAATTGAATTTCCTTGTGACAAAAGTAGTCTGTTTTGAAACTATAATACTTGTAGATTCTTGGTAT
Celera SNP ID:            hCV3284348
SNP Position Genomic:     40490
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|T,8)      total(A,6|T,8) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17682):
AGGTAGAATAAACGTGGGACCCGGAGTGCACCAAGGTCAGAGGTCCTCGCAGAGATTGTGGGGTCAAAGTGTGAGGGACATGGGGGCTAACCGGGGCGTC
S
CCTCTTTTCGTCCTCGTCCTCGCCCTGCGTCCCAGGCGTTCTCCAGACTTTCCAGACCCCTCCCCTCCTCAGCCTTCCCTAGCCACTTCTCACTCCCATG
Celera SNP ID:            hCV3284381
SNP Position Genomic:     6170
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,10)      total(G,4|C,10) ;JBIC-allele(C,321|G,404)   total(G,404|C,321)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17683):
AAACAAGGGGTGGATTATTCATGCCTCCCCTTTTTAGACCATATAGGGTAACTTCCTGACATTGACATGGCATTTGTAAACTTTCATGGCACTGGTGGAA
R
TGTAGCAGTGAGGACAACCAGAGGTCACTCTCATCACCATCTTGGTTTTGGTGGGTTTTAGCTGGCTTTATTTACTGCAGCCTGTTTTATCAGCAAGGTC
Celera SNP ID:            hCV3284349
SNP Position Genomic:     39857
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17684):
TGTGTATTTGTTTTTCCTTGCATCTCCCATAATTTCTACTTTATATGGATGGTTTTTGTGCTATTTTGGTGCATAGATAATAATAACTATTACATCATCA
K
TTTGAATTATGGTGTTTCACACTCTAAAATATTCTTCTTTGTGTTGTTAATGATTTTTTAAAAATCTGTCTTAAAATCAAGACCACAATCTTTGCTTTTT
Celera SNP ID:            hCV9649290
SNP Position Genomic:     48105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17685):
CGTGGCAACGGACGGCAACAGCTCGGGCGGCGCATGGAGAGTGCGGGCGGCTTCAAGCTGGGTATGGAGCCCCTCAGCGGCGGCGGGGTCTGTGAGTTGG
W
CGCGGGGTCTTGGCGGGGAATGGAGGTAGAATAAACGTGGGACCCGGAGTGCACCAAGGTCAGAGGTCCTCGCAGAGATTGTGGGGTCAAAGTGTGAGGG
Celera SNP ID:            hCV3284382
SNP Position Genomic:     6046
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,10)   total(A,10|T,3) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:17686):
GGAAGACATAAAAATTTAGTTACATATTTATATCTTATGTGAAAAGTGCATTGCTGTGAGGACATATAAGAAGGGGATGTCAGAGAGGTCAAGGGTCTAG
R
AAGCCTTCAGAGAAAGGATTTCTAGATTAAGTGCTGTTTCAGCTGAGATCTGTGGGATGAGTCTAAGCATGGACAAGGGAACAGGGTGGAAGAAGAAAGT
Celera SNP ID:            hCV11937396
SNP Position Genomic:     35580
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,10)      total(G,10|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17687):
TCTCCTGTTATTTGTGTATTTGTTTTTCCTTGCATCTCCCATAATTTCTACTTTATATGGATGGTTTTTGTGCTATTTTGGTGCATAGATAATAATAACT
R
TTACATCATCAGTTTGAATTATGGTGTTTCACACTCTAAAATATTCTTCTTTGTGTTGTTAATGATTTTTTAAAAATCTGTCTTAAAATCAAGACCACAA
Celera SNP ID:            hCV9649291
SNP Position Genomic:     48093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17688):
ATCGCGCGGCTTGCTAGGCTGTGCGGCTCCGTGGTTACCGTGGCAACGGACGGCAACAGCTCGGGCGGCGCATGGAGAGTGCGGGCGGCTTCAAGCTGGG
Y
ATGGAGCCCCTCAGCGGCGGCGGGGTCTGTGAGTTGGACGCGGGGTCTTGGCGGGGAATGGAGGTAGAATAAACGTGGGACCCGGAGTGCACCAAGGTCA
Celera SNP ID:            hCV3284383
SNP Position Genomic:     6008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,13)      total(C,1|T,13) ;JBIC-allele(C,431|T,860)   total(C,431|T,860)
SNP Type:                 UTR 5


Context             (SEQ ID NO:17689):
TGCTCTCTGGTAGGGAAGGAAGACATAAAAATTTAGTTACATATTTATATCTTATGTGAAAAGTGCATTGCTGTGAGGACATATAAGAAGGGGATGTCAG
W
GAGGTCAAGGGTCTAGGAAGCCTTCAGAGAAAGGATTTCTAGATTAAGTGCTGTTTCAGCTGAGATCTGTGGGATGAGTCTAAGCATGGACAAGGGAACA
Celera SNP ID:            hCV11937399
SNP Position Genomic:     35563
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,11)      total(A,11|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17690):
TACTTATTTTTTGTCCACCTAACAGGTCTTACTAAGAGTAGTTTATTAAAATCTCCTGTTATTTGTGTATTTGTTTTTCCTTGCATCTCCCATAATTTCT
R
CTTTATATGGATGGTTTTTGTGCTATTTTGGTGCATAGATAATAATAACTATTACATCATCAGTTTGAATTATGGTGTTTCACACTCTAAAATATTCTTC
Celera SNP ID:            hCV9649298
SNP Position Genomic:     48042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17691):
TATTATGATCAGACTGTTGCTTCTAATATTTCTAGATTATAGAACCACTGGTATTTTCTTTGGTATTATACTTTTAATATATAACCAAATTTTTGTCACC
R
TTCTATTTGCTATTGAGGAGGCATATTTTCTATTACTAGGATGTAGTGTTTGATACATATTCCTAAACCTATTTAATGTGTTATGTCATTCAAATCTTTT
Celera SNP ID:            hCV9649299
SNP Position Genomic:     47834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17692):
TCCCAAAGTGCTGAGATTACGGGTGTGAGCCACTACGCCCAGCCAAAAATATTATGTTTTAAGGTTGGTTGGAATAATTGTTTTCTCTCTGTGGTTATGA
Y
ACCAGCTGGATGTACAGCAAGGTTCATTTGTTTCAGTTTCTTTTTTATTTTTAAGAATTGATTTTCCCGTTTCTTTTTTCATTTTTGATATGTAAAACAC
Celera SNP ID:            hCV329091
SNP Position Genomic:     47237
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:17693):
TTCATTGTGTTTACATGGATGGTTGGTTCAACTGTTAGTTGCCATTACTAGAAGTGGAAGTCCTCTTCACTTTTAGAAGAATATCTTATTGTTTTCCTTG
T
TAGAGATATAGAGTGGAAACAGATATTTTTCATGCTGTTAATGGGAATTGATCTGGCCAAACCCTGTGAAAGCAGCACACTAAGAATTTCCTCTCAATAT
Celera SNP ID:            hCV27097470
SNP Position Genomic:     31844
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17694):
TCTCCCCTCCTAGGGGCAAAATGGCTGCCAGCAGCTTCAGGCTCAAATCCCGATTTCAGCACCTCAATACAAAGAAAGCATTGCCTCTCTTGCAGCAGTT
Y
ACCCCAAAATCAGAATTAAGCCTCATTGGCTTTGGTGGGCTTGGCTTGGGTCATGTGCTGTGTTCTGAACCATATAGCTAGGGAGGTGCAATACTGGGAT
Celera SNP ID:            hCV27097471
SNP Position Genomic:     35072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17695):
CCCTTGCCCTCACTGTAGCAGAAGCCAAAGTTGAAGACATGTGAACAGTTTTATGCATTCACATTTACTTCCAGAAAGCAAAGTTAATTGCATAGAATTC
Y
TTTCGCTTTAGTTTTTTCTTTTCTTTTTTTTTTTTTTAAACCAAACTTTCTGCTAACAATAACACCAGTAACAATTACGTGCCAGGCACTGTGCAAAGTG
Celera SNP ID:            hCV27097472
SNP Position Genomic:     41374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17696):
AGTCAACCCTTCAGATGACTGTAGACCTGGCTGTATCTTTGACTACAATCTCATGAGAGACTCCAAGCCAGAATCACGTAGCCAAACTTCTTTTGAATTC
K
TGAATCATGGAAACTATGATAAATAAGTAGTGTTTATTATTGTTGTTTTTAACATTAAGTTTTGGGGCAATTTGTTAGATGCCAATAGGTAATTGTTAGA
Celera SNP ID:            hCV27097473
SNP Position Genomic:     41969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17697):
TTTTATTATTTCCAAAATAATTAGTTTGGTGCTTTAGCAACTTCCAAAGGTGACCAATTATTTTTTTAAAGTATCATTTAAATTTAGATTTAAAAGAACG
R
ATCTATTGCCGACTTTTTTTTTTTTATGCTCAAATTGTCTCATCTTTGGTTAATGGGAATGCTTTCAAGTTGCTCTGGATCCCTGACAACCCTGGTAGCT
Celera SNP ID:            hCV27097474
SNP Position Genomic:     46294
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17698):
GGATTATGGAGGCTGAGAAGTCCCACAATATGTTTTTGGAAAGGGGTCCCAATCCAGACCCCAAGAGAGGGTTCTTGGATTTCACACAAGAAAGAATTCA
S
GTCAAGTCCACAGAATAAAGTGAAAGCAAGCTTATTAGGAAAGTAAAGGGATAAAGAATGGCTACCCCATAGGCAGAGCACCCCTGAGGGCTGCTGGTTA
Celera SNP ID:            hCV3284350
SNP Position Genomic:     39623
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,13)      total(G,13|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17699):
AAATAATTAGTTTGGTGCTTTAGCAACTTCCAAAGGTGACCAATTATTTTTTTAAAGTATCATTTAAATTTAGATTTAAAAGAACGGATCTATTGCCGAC
T
TTTTTTTTTTTATGCTCAAATTGTCTCATCTTTGGTTAATGGGAATGCTTTCAAGTTGCTCTGGATCCCTGACAACCCTGGTAGCTCTTGATAACGTTCT
Celera SNP ID:            hCV27097475
SNP Position Genomic:     46308
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17700):
CTGTATATAATAAAATAGATACATTAGAGTTAAATAATCTAGACACAAAACGTACATAATATGTGATTCCATTCATCTAGATATTAAAAGCCAGGCAAAA
S
TATAATGTTTAGGGATGCATGCTTAAGTCATAAAAGAGAATTAAGGGGCCGGGCTCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGACTGAGGCG
Celera SNP ID:            hCV3284351
SNP Position Genomic:     38573
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17701):
GAATAATAGGAAACAACCTCAAGTTGGAAACAACCCAAATGTTAATTGGTGGTAGAATGGATAAATAAATTGCAGTAAATTCAAATGGTGGATTATTATA
Y
ACAAAATGGACTACAGCTGTATATAATAAAATAGATACATTAGAGTTAAATAATCTAGACACAAAACGTACATAATATGTGATTCCATTCATCTAGATAT
Celera SNP ID:            hCV3284352
SNP Position Genomic:     38456
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,11)   total(C,11|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17702):
TTTTTGATATGTAAAACACTTACATGGTTCAAAATCAACACTGTATAGTGAGGTACATTCAGAGAAATCTCTCTTTCATTCCTATCTCCTCTACCCTGTT
S
CTTTACTCCTTCTGTAGGTAACCACTGTTACTGGTTTATGTATCGTTTCATATTTTAGCTAGTGTATCATTTGGATAGATTCCTAGAATAGGGATTGCTG
Celera SNP ID:            hCV27097477
SNP Position Genomic:     47419
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17703):
TTTACCCAGCTCCTACTCAAGATGGAGTTGCTCTGGTTCACACGCCTCTGACACTTGTATTGTGCTTCATACAATTTGCCATTTTGTCTTCAAATTTTTT
W
AAAAAAATTCCTTTTCTGAATTGGAAAGTTCTTTAGGCATAGATTAATATCTGTCCCTGTATACCATCTTCACGTTATGAATGAGAGATTTCTGCTTCTG
Celera SNP ID:            hCV3284353
SNP Position Genomic:     36875
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,10)      total(A,4|T,10) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17704):
AAACAGCAAACACATGTCATTTTCAATTACCGTGCAAAGACCTCAAAAGTGCGTGGGTACTTCTCTTATATAATTTACTTATTTTAAATATTTTATAAGG
R
AACTTAGTGGCATTCCAGAATTATCCTGAAAGCTGCAAACACAAATTATTCATTACTGGTACTTATGAAAACACTTTTTCAGTACATCCACTTAAGAATC
Celera SNP ID:            hCV27485169
SNP Position Genomic:     51548
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(G,666|A,785)   total(G,666|A,785)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17705):
CCACTGTAATTCAGCCATTCAGTGTTGATATACTAAATGTCCATCTCAGGTAACAGGAATTGTATCTCAGCCTGATACCTAAAATGAAGCAATCAAGATG
R
CAAGACTTCAGCTGTACAAGTCTTGGATTAGGTGGCATGAATGGATGATCCAGGTTAATTTCAGAAACCTAAGCCATGCTCTCAGTAGACTTTTACTAGT
Celera SNP ID:            hCV3284354
SNP Position Genomic:     36156
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,13)   total(G,13|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17706):
TTCTAGTATTAAAACAACCTTGAATTTCTGAGATGAACCCAACTTGGTCATGATGTGTTATCGTTTTTATATAGTGCCAGTTTCAGTTTCAGTTTGCAAA
T
TTTTTTTCTCTTTCTTTCATCTATCTGTCTATCTGTCTATGGTTTATGAATGAGACTGGCCTATAGTTTTCTTTTCCCTTAGTGTCTTTCTCAGATATAT
Celera SNP ID:            hCV27097479
SNP Position Genomic:     56027
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17707):
GTGAGAAGGGTCTGGAAAATGTGCCCTTTCTTGCTTGGTAGATAAATAAAAAATTCACTTTTGGCCACTGTAATTCAGCCATTCAGTGTTGATATACTAA
W
TGTCCATCTCAGGTAACAGGAATTGTATCTCAGCCTGATACCTAAAATGAAGCAATCAAGATGGCAAGACTTCAGCTGTACAAGTCTTGGATTAGGTGGC
Celera SNP ID:            hCV3284355
SNP Position Genomic:     36092
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,14)   total(A,14|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17708):
TTATAAGGAATTCACTTTGTCAAGATACTATGGTCACAGCATACAGCTCAGATGACACTTGTGTCAAAAAACATTGACTGGCTCAGATGACTCAGAAGTT
Y
GTGGCTGGATCTAAGAATTCAAATGATGGCCTAAGAAGTCAGTCTGTTGGCACTGCTGTCATTTGTGTGGCTTTGTTCTCAGACAGCCTCTCCCCTCCTA
Celera SNP ID:            hCV3284356
SNP Position Genomic:     34883
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,11)      total(C,11|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17709):
TAAGAATCTTATAAAATAGATTAGCTTAAGTGGTGTGTATACACATGCACATACCATGCATGTGTCTGTAATAGTTGAAGCAAATTCTCCAAATGAACAT
W
CGTCATGTGTGATGGCTGTAGTAACAAAAGGTGTTCTCACTTTGTGCTCCTGAAATCCTACCAGTCTTTCAGACTCTGGTGTTGACAGAATCAAAGGCAT
Celera SNP ID:            hCV3284357
SNP Position Genomic:     34491
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,16)   total(A,1|T,16) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17710):
GAATAATTTGTGTATGGAATTACCTGTCCTGGGTTACCTAATCCAGAGATCCAGCAATTTTTCTTAATTCCTGAATTTCCAGGCATTGTAAAGCATACTT
M
ACTGTGCTTGGCACAGATTAATTAGTCTATATATTATATATAGGTACAAAAAGTATAAGCTTATTCTCTCCTATTCTAATAGAAATGAGGCATTTTTAAC
Celera SNP ID:            hCV3284358
SNP Position Genomic:     33083
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|C,9)      total(A,6|C,9) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17711):
CTCACACATTCTGGATGACTGGAATTCTTTGGACCCATATGAGCCTCTGCAAAGACATTGGTATGTGCTGGTCATATTCAAATGTGAGATTCATAAGAAT
R
GAATAATTTGTGTATGGAATTACCTGTCCTGGGTTACCTAATCCAGAGATCCAGCAATTTTTCTTAATTCCTGAATTTCCAGGCATTGTAAAGCATACTT
Celera SNP ID:            hCV3284359
SNP Position Genomic:     32982
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,8)      total(G,7|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17712):
GACCTCTTGCCCAGCTGAAAGCTTTGCAGCTGGCTGAGGACTTCCAAACATGGGTTTTATGGAGTAGTTATCCCTTCTCTGTTTTCTCCCCATATCTTAT
Y
CTTACCACATTGGGATTAATAGAATATGTTTTAGAGTGGATCTTTGGAACAGTCGCTAACAACCACTGGGTGTGTTGAATCTAATACAGCTTGCTAAATT
Celera SNP ID:            hCV29344054
SNP Position Genomic:     18411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17713):
TAAAACTCTTTTGTAGGACAAGAGTTGAGCCCAAAGGCAAGGGATGTCTAGTCCTCACTGATACAGTGGAGAGAGCCTTGTGGTGGGGTTGGGAAGCACA
R
GGCAAATGCCTTAACCACCCATGGAGTCTGGACTTGGCTAAGCACTTCCCAAACTTAGGCGACCTATTTGAAAATACCGATGTCCAGGACCGACTATAGA
Celera SNP ID:            hCV29344055
SNP Position Genomic:     19770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17714):
CTGTCAGTAGGGTATTGAAATCTCCAACTATTATTGTTTGTGAAACTAAGCCTATTCATAGATCTCTAAAAACTTGCTTTATGAATCTGGGTGCACCTGT
K
TTGGCTGCATATAGATTTAGGGTAGTTAGGTCTTCTTGTTAAATTAAACCTTTCATCATTATGTAATGCCCTACTTTTTCCTTTTTGATCTTTGTTGGTT
Celera SNP ID:            hCV29344057
SNP Position Genomic:     28768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17715):
TGTCCACCCACAGAGTTCAGGTGGAAATGGGACTGCTGAGTTGGAAACTCTAGTGGGTGTGGCCCATCTGGCTATGGGCCTTTGGGGTGGGTAGGATTGC
Y
AGCCCTACTGTCTGGGTGTTTCCAAAGCAATAGGAGGCTGCACCTCTCAGCAAATTCAGGGAGACATAGGGCTGCAGGGCTAGAAGCTCTAGCAGGTGTT
Celera SNP ID:            hCV29344058
SNP Position Genomic:     30601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17716):
GGTCAAGGGTCTAGGAAGCCTTCAGAGAAAGGATTTCTAGATTAAGTGCTGTTTCAGCTGAGATCTGTGGGATGAGTCTAAGCATGGACAAGGGAACAGG
R
TGGAAGAAGAAAGTTCCAGGCATTTTACCCTTAAACAGTTTGATCAAAGGAAACAGGGAGAGCCCAGACAGAGGAGGGAGAGAGTGTACCAATTGGGTTA
Celera SNP ID:            hCV2395802
SNP Position Genomic:     35666
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17717):
GGAAATTGCCACATCCCTAATGGCTGGTGGAGATTGATGAAAGCACTGGTCCCTTTCTCTATTGATTTCAGTTGGAGCCATGGAAGTGTCAATGAGTAAA
Y
CCAAGTTTGCTCTTCTGTGTATAGCTGGCTTTATTAAAAGAATTCTAAGCATTTTTCTGTGAAGGGAAATCTGATTCCCAGGTGTTACTTTTTTGTCAGA
Celera SNP ID:            hCV29344059
SNP Position Genomic:     32331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17718):
ATTCATGCAATGATACATTACAAATAATAGATGGACTGCAATTATTTATAAGGAATTCACTTTGTCAAGATACTATGGTCACAGCATACAGCTCAGATGA
Y
ACTTGTGTCAAAAAACATTGACTGGCTCAGATGACTCAGAAGTTCGTGGCTGGATCTAAGAATTCAAATGATGGCCTAAGAAGTCAGTCTGTTGGCACTG
Celera SNP ID:            hCV2395803
SNP Position Genomic:     34838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,17)      total(C,17|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17719):
GATTGACTGGCTTCGATTCTAGTCTTCTGGGTCTTAGAGGAGCCTCCTCCTATTACTGTCTCTGTGTCTGCTTTCTTTTGTTGGATATTCTGGTCTACAG
R
GCTCCCTCAGGCTGGGGCTGCAGTTGGCCAACAAGACATGTCCTTGCCAGGTCAGCCCTAATCTGCTGTTCATGTGCTTCCTGGGGAAACACAGGGTTGT
Celera SNP ID:            hCV2395804
SNP Position Genomic:     30401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17720):
ATCTGGCCATCATTCAAGGGAAGGATTATGACAGGCATTGTTAGGGTCACATGTACACCCCCAAGACCAATCAGAGCAGAAGAGTATAGGATACTATGAT
K
GGCTATGTCTGCCTACCTCTCTGGAGAGGGCAGTGGGTTCTTACCAGAAGGAGAATAGGGGAGGGACAAGGGAGAGGGAATTACACTGGATAGCCAAAAG
Celera SNP ID:            hCV11937400
SNP Position Genomic:     33758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17721):
ACAACTTACCCCTATAACATTTTGTTTAAACGATTTCATACCTAAAGAAAACTTGAAATAATAGTACAATGAAAACCCATATACCCTTTAATTAGAGTCA
W
TCCTTGTTAACATTCTGCCACATTTGCTCGTGGTTCTCTTTCTCTTTCTTGAATCATTTGAAAGTAAGTTTATGACTTAGGTAAGGGAGATATCATGACA
Celera SNP ID:            hCV2395805
SNP Position Genomic:     24269
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,12)      total(A,3|T,12) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17722):
GGTCGGTGGAGCTGGAAATCAGAAGAGATCTGAGTGGGATAAACCCTCTAGAATGGCAGGAAGAGAAATAGCTGCCGGGAAGAGAGCTAATAAAGGAAAC
R
GATGAGGTGGTCTAAGGGGCCCAGCAGAGGCTGCAGACACTGAATTTGCAAGGTTGTGAGTCTAGGCTGCTGTGTGGTTTTCTCTGGCAGTCCTAACAGC
Celera SNP ID:            hCV2607969
SNP Position Genomic:     45004
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17723):
ACTACATTGTTTTGCTAATGTTAATATAACTTTACATTCTTGGTTAAAATTCAACATATTTCAATATGTTATTGCTGGATTAGTATTCTTTTTACTATTC
R
GTTTTTCCCTCTTCTAGTTTGGGCATTGTCACTCTCATTCTATTAATTTAGTACTTCCTTAAGAATCCAACATGTATGTATACTTAACTAAGTTAATAAA
Celera SNP ID:            hCV2395806
SNP Position Genomic:     23106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17724):
CTTCTTTCCTTGCTTCTTCAGAATAGTGAATTGGTACTCTAGTGACCTCTAAAGGTGACTAATTAGTTTTATCCTGTCTTTGGCCAATGGGAGAACCCTG
Y
AAGTTGGCCTCTATGTTATTTGATTGATGAATTGATTGTACAGTCTGTGATAGTTTCCTTGCTTTCAGGCATGACCAGGTGTTTCAGGCTCATCTTGTCT
Celera SNP ID:            hCV2395807
SNP Position Genomic:     21549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17725):
CTTTAATAGAAGACTTTAAAATTTCCAGGAGAATGGACCTTCCTGTTTCTTTGTTTTGTTTTTAAGTTTCTAGCTTTGTTGTATTATGATCAGACTGTTG
Y
TTCTAATATTTCTAGATTATAGAACCACTGGTATTTTCTTTGGTATTATACTTTTAATATATAACCAAATTTTTGTCACCGTTCTATTTGCTATTGAGGA
Celera SNP ID:            hCV9649300
SNP Position Genomic:     47753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17726):
AGAATTTGCTTGTAAAGCTATCTGGGTTTGGAATTTTCTCTGTAAAAGGGTTTGTTTACAGATATAATTTCTGTAACAGTTTTAGAACTATTCAGATGTT
S
TGTTTCTTCTTGTGCCAGTTTTGATACATTTTTATTGTATTTTTCTAGGAATTTGTATTTTTATCTATATTTTCACATTTATTGACATAATATTTATTAT
Celera SNP ID:            hCV27097480
SNP Position Genomic:     56340
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17727):
GTTGTGTATTGGGTAGAAAGGATTTTAACTTGTTCAAAGATTTAACTGGGAGCAAAAAAATTTTTGCTGGCTTTTCTGCAAAGAAGGGAGGGGCTTGGGA
R
TAGAAGATGGCAGAAAAAAAGTATAGGAAATGAGTTTTTTGAGACATTTAAGATAAAGAAAAAGCAAAGAGAGATGATAGAGATGGGGGTGAGGGTATGA
Celera SNP ID:            hCV9649307
SNP Position Genomic:     42795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17728):
AGAGATGGGGTTTCACCATATTTCACAGGCTGGTCTTAAACTCCTGAGCTCAAGTGATCTGCCCACCTCGGCCTCCCAATGTGCTGGGGAACTATTTTCT
R
TTATCTGTTCTGGACTCACACATTCTGGATGACTGGAATTCTTTGGACCCATATGAGCCTCTGCAAAGACATTGGTATGTGCTGGTCATATTCAAATGTG
Celera SNP ID:            hCV3284360
SNP Position Genomic:     32867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,9|A,10)      total(G,9|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17729):
TGACATTTTAATAAAAGGTAGACATGCAGCATTTAACAAGTATCTGCTAGTAAGGATGTATAAGAGCCAGTGATCAATGTTGAAAGCACTCAATCGAGAA
S
GGTCAAACTAGCTTGCTGTTCACTTGCTTCTGGAAATTGCCACATCCCTAATGGCTGGTGGAGATTGATGAAAGCACTGGTCCCTTTCTCTATTGATTTC
Celera SNP ID:            hCV3284361
SNP Position Genomic:     32199
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,9)   total(G,4|C,9) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17730):
GGGCCTTTGGGGTGGGTAGGATTGCCAGCCCTACTGTCTGGGTGTTTCCAAAGCAATAGGAGGCTGCACCTCTCAGCAAATTCAGGGAGACATAGGGCTG
Y
AGGGCTAGAAGCTCTAGCAGGTGTTGTCTGCCTGGTTATCAGTGGTTGAGGTCAGTAGGGTCACATGCTCTGCTCTCCAGGACAACAGGAGGCTGTGCTC
Celera SNP ID:            hCV3284363
SNP Position Genomic:     30676
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17731):
TTAAGAACCCTTGCTGGAGAACTAGTGTGGTTGGGAGGAAAGAAGACACTCTGACTTTTTGAGTTGCTGGAGTTCTTGCGTTGGTTCTCTCTCAGCTGTG
Y
GGGCCAATGTTCCTTCAGTCTTTGTCCTTTTGGATGGATTGTTTTGATTTTTATTTTCTTTGATGCCTTTGAATGTTTGATTATGGTATAAGGCAAGTTT
Celera SNP ID:            hCV3284364
SNP Position Genomic:     30200
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,12)      total(C,3|T,12) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17732):
TTAGCTTCCTTGGATTGGGTTTCAACATTCTCCTGAATCTTGATGATCTTAGTTTCTATCCATATTCTGAATTCTATTTCTGTCATTTCAGCCATCTCAG
Y
CTGGTTAAGAACCCTTGCTGGAGAACTAGTGTGGTTGGGAGGAAAGAAGACACTCTGACTTTTTGAGTTGCTGGAGTTCTTGCGTTGGTTCTCTCTCAGC
Celera SNP ID:            hCV3284365
SNP Position Genomic:     30095
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,13)   total(C,4|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17733):
ACTCACACATTCTGGATGACTGGAATTCTTTGGACCCATATGAGCCTCTGCAAAGACATTGGTATGTGCTGGTCATATTCAAATGTGAGATTCATAAGAA
Y
GGAATAATTTGTGTATGGAATTACCTGTCCTGGGTTACCTAATCCAGAGATCCAGCAATTTTTCTTAATTCCTGAATTTCCAGGCATTGTAAAGCATACT
Celera SNP ID:            hCV29344060
SNP Position Genomic:     32981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17734):
TCTTTGTACATCTGGCAGAATTTGGCTGTGAATCTGTCTGGTCCTGGGCTTTCTTTGGTTCGTAGGCTATTTTTTACTGATTCAATTTCAGAGCTTGTTA
Y
TAGTCTGTTTAGGGATTCAATTTCTCCCTGATTCAGTCTTGGGAGGATGTATGTATCCAGAAATTTATCCATTTCTTCTAGATTTTCTAATTTGTATGCA
Celera SNP ID:            hCV3284366
SNP Position Genomic:     27794
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17735):
TGGCCTGACATTTTCTTTTTTTGTTGTATCTCTGCCATGTTTTGGTATCAGGATGATGCTGGCCTCATAGAATGAGTTGGAGATGACTCCCTCCCCTTCA
R
TTGTTTGGAATAGTTTCAGTAGGAATGGTACCCATTCTTCTTTGTACATCTGGCAGAATTTGGCTGTGAATCTGTCTGGTCCTGGGCTTTCTTTGGTTCG
Celera SNP ID:            hCV3284367
SNP Position Genomic:     27655
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17736):
TTCTGTCCATGTGTTCTTGTTATTTAGCTCTTATAAGTGAGAACAGACGGTATCTGGTTTTCTGTTCCTGTGTTAGTTTGCTGAGCATAATGGTCTAACG
Y
TCCATCCATGTTCCTGCAAAGGACATGATCTCATTCTTTTTTATGGCTGCATGGTATTCCATGGTCTATATATACCACATTTTCTTTATTGAGTCTACCA
Celera SNP ID:            hCV3284368
SNP Position Genomic:     26294
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17737):
AAGGTAGAGAAGGTTCCTCATACTTCCCATCTTTTGCAGGCTCTGATCATTGACTTCTATCTCTCTGTGTGTGTGTGTAATATTTCTTATGTCATGTTAT
R
TGATTTTTATTAAATTGTTTTATTTTATATTTATCTCTTTTACAGATTATACCTTGGTGCTAACTGACAACATATTATTTGCTTTATCATATAATATACA
Celera SNP ID:            hCV3284369
SNP Position Genomic:     25671
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17738):
TCATTTGTTTCAGTTTCTTTTTTATTTTTAAGAATTGATTTTCCCGTTTCTTTTTTCATTTTTGATATGTAAAACACTTACATGGTTCAAAATCAACACT
R
TATAGTGAGGTACATTCAGAGAAATCTCTCTTTCATTCCTATCTCCTCTACCCTGTTCCTTTACTCCTTCTGTAGGTAACCACTGTTACTGGTTTATGTA
Celera SNP ID:            hCV2607972
SNP Position Genomic:     47361
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17739):
TAAGGGAACTTAGTGGCATTCCAGAATTATCCTGAAAGCTGCAAACACAAATTATTCATTACTGGTACTTATGAAAACACTTTTTCAGTACATCCACTTA
W
GAATCTTTGGTTCTTATTGTTTTACATTCTAGCTTACACCCTCAGAGTTCCTGAAGGAAATGTCCCTGACCACCGAGCAGAGACTGGCAAAAACACGTTT
Celera SNP ID:            hCV335095
SNP Position Genomic:     51643
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,9)      total(A,9|T,3) ;no_pop(T,-|A,-)   JBIC-allele(A,348|T,1141)   total(A,348|T,1141)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17740):
CATTTTTAAAGTACATTGTGTTTAACCCAAGGCAACATAAAGCAGCTAAGTTATATACCCTCAAATGTTTTGTAAAAATCTTGGCATATACTTGAGCATT
R
TGTAGCTGCCAATGATCATAATCTCCCTGCACATATAGTAGGAACATTCTAGAACCACAATAACATTGGTTCTGGGTAACTAATCCCTTGTTGGGTTAGT
Celera SNP ID:            hCV2607973
SNP Position Genomic:     50874
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17741):
ATTTTATTTTTAGAAAGTTTTTCTTGAATTATCAAGTATTTTTTTCATATCATTTTTCAATGATGAATATGTTGGACCTTCTTTGTCTGCCCTTCTACAG
Y
TTGCATTTCCTCTCTCATTCATTTTTAACTTTCTGTTCATTTCCATTGCATTGTCATTACATTCATTAGGCTATCCTCTGTGTCCCTTACTTTGAGTTAT
Celera SNP ID:            hCV335096
SNP Position Genomic:     53330
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17742):
GTCAACTATCAGTCTCCCCACCTTTGATGGGTCCTGGGTGTTGACCTTTCCTGGAAGCCCTACCAGGCAGCCACAAGCAGAGCTCAGGGTGTCCTTGTCT
R
GAGGATTATCTCCTACCAAATTTGTTTCAGTGCTCCACTTACCTTTCTTGGTCCCTGTTTTCAGTTAGATGTTGGCTAGATAATTCCTTATGGTCTTGTT
Celera SNP ID:            hCV2395810
SNP Position Genomic:     15627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17743):
TCCTCTCTTCCTATTTTGATGCCTTTTATTTCTTTCTCTTGCCTGATTGCTCTGGCCAGGACTTCCAGTACTGGAAGTGGTGAGAGTGGACATCCTTTGA
S
TTGTTCCAGGTTTCAAGGGAATGCTTCCAGCTTTTGCCCATTCAGTATGATGTTGGCTCTGAGTTTGTCATGCACAGCTCTCATTATTTTGAGGTATGTT
Celera SNP ID:            hCV11518113
SNP Position Genomic:     27180
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,9)   total(G,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17744):
CCACTTCTCAGAAAATCACCCATAGGGGAATCTGGCCCTCGCTTTTTAGGTTCCTGTTCGTCTTGCCAGATTTTACAACCATCACCTATTCTGTTGGTGC
Y
TCCTCTTACCTTAAGAATCCTCTGCCTGAGCCAAGCTGGATTGTCTCCCTGTGCCTAGAATTAGCAAATGTCCCCAGAGAAAAACATGACCAGTAACTTC
Celera SNP ID:            hCV2395811
SNP Position Genomic:     11632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17745):
TTCCTCTCTTCCTATTTTGATGCCTTTTATTTCTTTCTCTTGCCTGATTGCTCTGGCCAGGACTTCCAGTACTGGAAGTGGTGAGAGTGGACATCCTTTG
W
GTTGTTCCAGGTTTCAAGGGAATGCTTCCAGCTTTTGCCCATTCAGTATGATGTTGGCTCTGAGTTTGTCATGCACAGCTCTCATTATTTTGAGGTATGT
Celera SNP ID:            hCV11518115
SNP Position Genomic:     27179
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,9)   total(A,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17746):
ATGGATTTCTTTTTGAATATTTCCCATGTTTAGTTTTAATATCCACAGGTCTACGTAGTATTTTCTTATCTTCCCCAGTCATTTTTGTCAATGTGTGACT
R
TAACAATAATTTACTCTTTCAACTGAAGTTTTCAGGAATTGACCTGGATCAGGCATTATTCCAGCCCTTTCCATCAGAAATTATATTTCAGAACTACACT
Celera SNP ID:            hCV2607977
SNP Position Genomic:     57590
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17747):
ATTGTTGTTGATTTTTGTTTTTCAGCACATTGACGTTTTTGAAGACTCCAGTTGTTTTACAGAATTGCTGTATCATTTTTTCTTAGATTCCCGTGCCTTG
M
AGATATCATCAAGCTTGTATGTTAGTACTTCAAACATATTAATCATGGTTTTTTTGTAATCTGTATCTAATAATTCCCCTATGTGAAGCCTTTCATGGTA
Celera SNP ID:            hCV11518116
SNP Position Genomic:     24743
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|A,10)      total(A,10|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17748):
TTTGTCTGCCAGACACTCAGTTCTCATGGATAACCAACATCTCTTGATAAGATGCAGCCAGAGTGCTGGCCACATGGAAAGAGGGTCCCATCCTAGGAAC
R
CCCAGCTACCAAGAGGCAGACAGTTCTCTCCAGGCGAGGCAGGCTTGTCCTCTGGTGACTCCAGGACCCTCATGCCAGGTGGCTGATGTGACCCTGCTCC
Celera SNP ID:            hCV2607978
SNP Position Genomic:     59587
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17749):
TTGTCTGCCAGACACTCAGTTCTCATGGATAACCAACATCTCTTGATAAGATGCAGCCAGAGTGCTGGCCACATGGAAAGAGGGTCCCATCCTAGGAACG
Y
CCAGCTACCAAGAGGCAGACAGTTCTCTCCAGGCGAGGCAGGCTTGTCCTCTGGTGACTCCAGGACCCTCATGCCAGGTGGCTGATGTGACCCTGCTCCT
Celera SNP ID:            hCV2607979
SNP Position Genomic:     59588
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17750):
TGAAACACATTTTCCAGGTTGCTTCCTTTCTCCCAGTCTCTTTCATGGACACCAGTGAGTCATAGATTTGGTCTCTTTTCATAATCCCATATTTCTTGGA
R
GTTTTGTTCATTCATTTTTATTCTGTTTTCTTTATTCTTATCTGACTGTTATATTTCAGAAAGTCGGTCTTCAAGCTCTGAGAGTCTTTCCTCAGCCTAG
Celera SNP ID:            hCV9649314
SNP Position Genomic:     29761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17751):
TTGAACTAAATATAATTGAAAGAATGAAGACATTACCAAGGGAATCCTTCAATGTTTCCCCACAGCACTTACAGTCTAAATCATTCAATTCTGCACGCAA
T
TAGTTGGCCCACATAGTTTGTAATTAAATTATTCCACAAGCATTTAAGGTTCACAAAGGAGGAAGCATCTTCATCTTGTTATCTGTTGTATCTCCCAGTC
Celera SNP ID:            hCV27097457
SNP Position Genomic:     4632
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17752):
TGAACTAAATATAATTGAAAGAATGAAGACATTACCAAGGGAATCCTTCAATGTTTCCCCACAGCACTTACAGTCTAAATCATTCAATTCTGCACGCAAT
T
AGTTGGCCCACATAGTTTGTAATTAAATTATTCCACAAGCATTTAAGGTTCACAAAGGAGGAAGCATCTTCATCTTGTTATCTGTTGTATCTCCCAGTCA
Celera SNP ID:            hCV27097458
SNP Position Genomic:     4633
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17753):
GAACTAAATATAATTGAAAGAATGAAGACATTACCAAGGGAATCCTTCAATGTTTCCCCACAGCACTTACAGTCTAAATCATTCAATTCTGCACGCAATT
A
GTTGGCCCACATAGTTTGTAATTAAATTATTCCACAAGCATTTAAGGTTCACAAAGGAGGAAGCATCTTCATCTTGTTATCTGTTGTATCTCCCAGTCAA
Celera SNP ID:            hCV27097459
SNP Position Genomic:     4634
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,9)   total(A,9|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17754):
ACATTTAGAACATGAAAACGCTCATCAGGTTTGAAAGAAACTCATAGCCTGTTAGTATTGAAACCATGTTTTAATTGGTACACATTCGGGATCTGTGTAA
Y
AGATTTTTGACCCTGGATGTGTCAGCCCTCAGATTTTATGTTTATGTTAATCTTCTGGGGGATAGTGTTCATAGCCATCATCAGATTTCCAGTAGGACCT
Celera SNP ID:            hCV27452510
SNP Position Genomic:     16531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17755):
AGGCTATATATAATTTTTGTTGAATGTTGAACTACATTGTTTTGCTAATGTTAATATAACTTTACATTCTTGGTTAAAATTCAACATATTTCAATATGTT
W
TTGCTGGATTAGTATTCTTTTTACTATTCAGTTTTTCCCTCTTCTAGTTTGGGCATTGTCACTCTCATTCTATTAATTTAGTACTTCCTTAAGAATCCAA
Celera SNP ID:            hCV3284371
SNP Position Genomic:     23076
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,10)      total(A,10|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17756):
CGACTTTTTTTTTTTTATGCTCAAATTGTCTCATCTTTGGTTAATGGGAATGCTTTCAAGTTGCTCTGGATCCCTGACAACCCTGGTAGCTCTTGATAAC
R
TTCTTGTTTTATGGTATGAGACAATGTGCCAAGTTCACTGTATACATTTTGTACCCTTGTCCTCAAATTACCCATTTCTCCAAGGAGTTGTGATTTCTGT
Celera SNP ID:            hCV3284339
SNP Position Genomic:     46404
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Gene Number:                 49
Celera Gene:                 hCG1775766 - 66000115835154
Gene Symbol:                 DHX34
Protein Name:                DEAH (Asp-Glu-Ala-His) box polypeptide 34;DDX34;HRH1;KIAA0134
Celera Genomic Axis:         GA_x5YUV32VTL1(10057230..10106537)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12209):
GACCTTTAAGAAAATACATTTGTATTGTTTTAAGTCACTATGTTTGGGGTGATTTGTTATAGCAGCCGTGGGAAGCTAATACACACCCTTCGGGCTATAT
TCACGCTTCTGCATCTTTCCTGAAGCTGTGCCACTGGCTGGAATGTCCTTCTGATCTATGTTGTGCAGTTCAACAATCAAGAGCCATCTGTGGCTATTCA
AATTCGAATCAATTGGCCAGGCCTGGTGGCTCCTGCCTATAATCTCAGCACTTTGGGAGGCCGAGGTGGGAGGATTGCATGAGCCCAGGAGTTTGAGACC
AGCCTGGGCGACATAGCAAGACCCCATCTCTACAAAAAATACAAAAATTAGCCAGACGTGGTGGGGCGTGCCTGTAGTTCCAGCTACTGAGGAGGGAGTT
GCTTGAATCCTTCTGCTTCAATCCTCCTTAAAGCAGGTAGATTGCTTGAGCCCGGGAAGTGGAGTTTGCAGTGAGCTTAGATCACACCGCTGCACTCCAG
CCTGGATGTCAGAATGAGACTCCATCTCAAAAAAAAAAAGAAAGAAAGAATAAATTTTCATTTCAAATTTAGTTCCTCGGGCACACTGGCCATAGTTCAA
GTGCTCAGTAGCCACATATGGCTGGTGACTGCCATATTCGACAGCACAGCTATAGAACATTGCCATCATAACAGAGATTTCTGTTACAAAATGCTGTTCT
AGAATTTACTTTTGAACTCTACCTGCTCAGATCTTTTAAATTACATGGTAGGCCAGGCATGGTGGCTCACGCCTGTGATCCCAGCACTTTCGGAGGCCCA
GTCGGGAGGATCCCTTGAGCCCAGAAGCTGGAGACCTGCCTGGGCAACAGAGCAAGACCCCATCTCTACAAAAATAAAAAAAAGAAAATTAGCCTGGTTT
GGTGGCACATGCCTGTAGTGCCAGCTACTAGGGAGACTGAAGTGGGAGGATTGCTTCAGCCTGGGAGGTTGAGGCTGCAGTGAGCCGTGATCTCATCACT
GCACTCTAGCCTAGGTGACGGAGCGRGACCCTGCCGCTAAATAAATAAATAAATAAATAACATAGTAGTGATACCTGTGTCTGCGGTCATTACTCCAGAA
CAGCACTTCACATATAGTTTCTCCTTTAAGGTCATTCTCACAACAGCCCAGGGAGATAGGGTGGCATGCTTCATTTTATAAGCTGAGGTCCTGGGAGGGG
AGGTCATTTACCCAAGATCACACAGCAAGAACACCAGACAGCTGGAATTTGATCCCAGTTTTGACTCCAATGCTCTTGCTCTTCATCATCAATAATTTCC
TTCAAGGCGTCCCTCAAATGTCACTTCCTCCAGGAAGCCCTCCCTGATTTATGCTCCTTCCAGAAAGAATGGGCTCTTCCTTTCTCTGAGTCTCTGGAAC
ACAAGGTCCCAGCTAAACTGTAAATTCCCCAAGGGTAACAACTGGACTAATTTTTTTTAATTTAATTTAATTTTATTTTTTTGAGATGAAGTCTTGCTCT
GTCACCCAGGCTGGATTGTAGTGGCACGATCTCGGCTGACCGCAACCTCCACCTCCCGGGTTCAAGCGATTCTTATGCCTCAGCCTCCCGAGTAGCTGGG
ATTACAGGCGCTGCCACCACACTTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGG
TGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGAATACAGGCATGAGCCACCGTTCCCGGCCTTATCCTTGACTTAGAATACCTAACCTCCTGGGAATG
CAGCCCATAGGTCTCAGCCTTATTTCACCCAGCTCCTGTTCAAGATGGAGTCACTCTGGTTCACATGCCTCTGACATTTCCCCRCTCCCTTTTATAAGAG
AACCTTTAATCCTAAGGGTTGTAGAGGGAGGAAGATACAACTTCTGTGACTTCTTCAGGCTGGACAGGGGTGACGATATACCTGCCTAACTCTTAGGATC
TATTGGATTCAGGGTAGACAGGAGCTCAGTCAGAAAGCACTGGTATCACTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAG
GCTGGAGTGCAATGGCACGATCTCAGCTCACCACAGCCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGC
GTGTGCCACCAAACCCAGCTAATGTTTTTTTTTTTTTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGCCAGGCTGGTCTCGAACTCCCGACCTCAGG
TGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGACATGAGCCACCACGCCCGGCCTGATATTTTATTACTTAGTATTTTACTCTGAATTATC
ATGCGTGAATTAAGACCAAGGCTGTCTTGTAAAATAAAATTTGTTGTGGAACAATTTATACAGCTCCTTTGAGGTAGGAGGCAGGACTCAACTCTGGAGA
TGGGGCTCGGCTCGAATATTGGACCAAATTGAGGACCAGCTAAAACAGGGAGGAGGCTGAAGCAACTTATTATTTTTATTTATTTTTATTTTTTGGAGAA
GGAGTCTTGCTCTGTTACCCAGGCTGGAGTGCAGTGACACGATCTCGGCTCACTGCAACCTCCACCTTCCGGATTCAAGTGATTCTCCTGCCGCAGCCTC
CCGAGTAGCTGGGACTACAGGCGCATGCCACCATGCCCAGCTAATATTTTTGTATTTTTTAGTAGAGATGGGGTTTCGCCATATTAGCCAGGCTGGTCTT
GAACTCCTGACTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGGGCCACCACGCCTGGCCCGAAGCAACTTTCTATGACAC
GCCTACCAGTGTGCCATGTCAGTTTGCCATTGCCATGGCAACACACCCAGGAGTTACTGCCCCTTCCCATGGCAATGACCCCATGACCCAGAAGTTACTG
CCCCTTCCCTAGATATTTCTGCATAAACTGCCCCTTAATCTACATGTAATTAAAAATAGGTATAGGCTATTTTTATACCTATATAAATAGGTATAGGCTA
AAAATAGGTATAGGCTGGGCGTGGTGGCTCATGTCTGTAATCCCAGTACTTTGGGAGGCCAATGCAGGTGGATCACCTGAGGTCAGGAGATCAAGACCAT
CCTGGCTAACATAGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGTTGGCGGGAGCCTGTAGACTCAGCTACTCGGGAGGTTGAGG
CAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTAAAAAA
AAAAAATAGTAAGAAAGAAGGAAAGACACAAAGACAGAAAGAAGGAAGGAAAGAAAGCAAGCTGTTTTCCCCTGCCTTGCCCCTGCTCACCTTTGAATTC
TTTTCTGGGCAAAGCCAAGAACCCTCGTGGGCTAAAACCCCGCTTTGGGGCTTAAAGTTTGCAAAATCCTCCCATTAATCTATTGGGACCAGTTGCCACT
TAGGAGCATTCTTTGATAACTTTTACAAAACATCTTTTGTGGTTTTTGAAATGTTTTCATTTTGTAGATCATTAGCCCTTCTTTTTTGAACTGGAATACA
TTTCACGGGAATTTTCAAATTTAAGTCTGTGCAATGTTACATAAAATACCTTTGATTATTAAAAGCCATCTGTTTTGCTATAACTTCCCTTTTTTGTTCT
AAAGTTTGTCTATTTCTGCTATTTGTTTTTTTACCATAGAAATATTGATTTCCTTAAGTTTTCAAAGAACCAAGTTATTAATAATTTCTCTAAGAACTAG
TCTCAAGCTTGCTATACAATCCTATGGTTGATAGACTGTGGCTTTCTTGTTGATTTCCATTTGTTGTTCATTTCCTCCAATTTTCCTTTTTTAAAAATTA
TAATTATTGTTTGGATTATTTATTTATTTATTTATTTATTTGTTTGTTTGTTTATTTGAGACAGAGTTTCTCCTTGTCGCCCAGGCTAGAGTGCAATGAT
GCGATGTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCTTGCCTCAGCCTCCCGAGAAGCTGGGATTACAGGTGTCCGTCATCATGCCT
GGCTAATTTTTTATATTTTTAGTAGAGACGGGATTTCATCATGTTGGCTTAGCTGGTCTCGAACTCCTGACCTCAGGTAATCCACCTGCCTCGGCCTCCC
AAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCCTTGTTTGGAAATTTTAAGCAGAATGCTTAGTCCATTTATTCTTCTTCTTTTGATAATAAT
GTATGAATTGGCTTCTCTATCTCTAAGTTGTTTTCCAGAGGCTTGATAATTATATCCAACGTTCCACTTGACATCCCCAGTTGATGTCCAATGCATAACT
CAAACAATATGCTGAAAACAGATCTTCGGATTTTCTCTCTAGCCTCTYTCCCACGTCTTCCTGATGGTAGTAGATGGTGACTCCATATTTCCAAATGCTC
AGGCCAAAAACTTTAGAGTCCTTCTTTTTTTTAGACATAGAACTTTTTTCTGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCG
AGGTGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGG
CGGGCGCCTGTAGTCCCAGCTATGCGGGAGGCTCAGGCAGGAGAATGGCGGGAACCTGGGAGGCGGAGCCTGCAGTGGGCCGAGATCGCGCCACCGCACT
CCAACCTGGGCGACAGCGAGACTCCGTCTCAGAAAAAAAAAACAACAACACTTTTTTCTTTTTTTGAGACAGTCTGGCTCTGTCACCCAGGCTGGAGTGC
GGTGGTACCATCATGGCTCACTGCAGCCTCAGTCTCTCAGCCTCCTAGGTTCAATCGATCCTCCCACCTCAGCCTCTTGAGTAGCTGGGACTACAGGCAC
ACACTACCATATCCGACTAACTTTTGTATTTTTTTGTAGAAACAGGGGTTGGCCATATTGCCCAGGCTGGTGTGGAACGCCTGACCTCAGGTGATCCACC
TACCCCGGCCTCTCAAACTGTTGGGATTACAGGCGTGAGCCGCCGTGCCCAGCTGTTTCTTCTTTCAGTTAATAAAAGAGAGGGTGCATTGCTGGCTAAT
GAGATTGTTTCTATACTTGGGGGCCTTCCTGAATGTGTGTGATTGAGTTTATTGCAGAGAAAGGTAACAGAAAATGGGGTTGTAGAAAGAAAAGAGGTAG
AGGCTGAGTGAGATGCCCCACATCTGTAATCTCAGTGCTTTGGGAGGCCAAGGCGGGCGGATCACTTGAGATCAGGAGCTGGAGACCAGCCTGGCCCAAA
TCGTGAAACCTCGTCTCTACTAAAAATACAAAAATCAGCCAGGTGTAGTGGTGTGCGCCTGTAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATGGT
TTGAACTTGGGAGGCGGAGATTGCAATGAGGTGAGATAACGCCACTGCACTCTAGCCTGGGAGACAGTGAGACTATGTCTCAAAAGAAAAAAAAAAGTTC
CTGGGCCCCAGACCAGCTCTCTCTTTGGGTTAAAACCCCGGCGTCCCGGAGCTGAGGCGCACGTGGCTATGCTTGGGGAGGAGAGGGCGGGGCCGGGGAG
GAGGCGCTTGCAAGTCTGTACCGCAATGCCTCTACTGGCCTCTAGAGGGCGCAATCACTCGAGGCTCCGCCCCAAGCGAGGCGGGGCGGAAGCGTGCTGT
GCACAGGCGCAAGATGGGTCTTGGGCAGCCCAGAGCTTCCGATTGGCTCTTCTGTGGTGGCGGGGCGGGGTCAGAACGAGATGGCTGTGTGCGCAGGCGC
AAGACTAGCGCTCTTGGGACCGGAAGTTAAGGCGTTCGCGGCGTGTGGTAAGTGAGGGGGGCGGGACGGGTGTACCGGGTTGTGGCGGCGATGGCTGTCG
GAGTTGGGCCGCTTGGGGGTAGTTTGGGGTGCGAGTCCAGGGGCGAGGGMASTCTCGAGATGAGGAGAAATGTAGGAGGCAGCCGAAGGGCCGGCAAACG
CGGACAGAGATGGCACCTGAGCGTCCCTGGGAGAACCTGGGCGACAGGCCAGAGACCGAAAGAAATGGAGGCACGAAAAGAAGCTTCGAGAAACTGAGGG
ACTGAAAGACGAGGGTGTTGGGAGAGGAGGGAAGCTGAAAACTAGAGAGCGTGGGCGAGAGTGCCGATGGGTTCCAGCGAGAGTCTTAGAGCCCACGAGG
CCGAGAGGCGTGGTCGCCCATGAACTTGGGGAGTGGAGGGAAAAGTCGGAAACTGATCGTGGACACTAGAAACAGAAAAAATGGAATTTAGATGGAGAAA
CGAGACACTGAATCACGGGGGAGACCGAGAGATACGGAAGGATGGAGACAGTTGAAATAGGRAGAACCCCACAAAAGCTGGAGATAATGGAGAAYGATGC
TGAGAAATGGAAAAGCGAGGGAGTGGAGCCCGAACCCCTGGATTTGAGTGGCTCATSTAACACTCGGCTACTCACTTAGCCTCTCTATTGCTCAGTAAAA
TAGGGGGTGATCATAGTGCCTGACAGTCGTGAGAAAAGTGTGTGTGTGTATGTACATAGGTGTGGGATAGGAATAGATCATGCAGATAGGATAGGTCTGT
GTGTTAATGTGAGTAAGTAAGCATGAGCTATTACTAAAGCTTCTGATATTGGGAGATAAAGTATTAGATGGGGAAATGGAGAGAGGTGGTGATGGAGAGT
GAATACTGGAAGGACAAAAGGGAGGAAAAAAAGATTCAAACAGAAAATGAGAAAGGGCGTGGTGACTCACTCCTGTCATCCACAGCACTTTGGGAGGCTG
CGGTGGGAGGATCACTTGAGCTTGGGAGGTCGAGGCTGCTGTACGCCGTGATTGTGCCACTGCACTTCAGGCTGGGTGACAGAGTGAGACCCTGTTTCAA
AAAAACAAAAATGAATTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCT
CTGCCTCCTGGGTTCAAGCGAGTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGCAGGTGCCACCACCCTGGCTAATTTTGTATTTTTAGTAGA
GACGGGATTTTTCCATGTTCGTCAGGCTGGTCTCGCACTCCCGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGC
CACCATGCCCGGCCTGAAAAAGCATTTTTTTTTTAATGAGAAAGATGGAGAAAGTCAAATGGAGAACTGAAGAGAGATGGAGAAAGGAAGAGTTGGATTA
CAGAGAAAAATCAGACTACAGAATGACTCATAAGTGAAGAGAGATGCGAGCTGACTAGGACAGGGAAGAGAGATGAGGGTGATGATGAACAAGACGGACT
GAAAAAGAGACAGAGGCCTGAAGATGGAGTGGAGAGAGATGGAGGGGACAGAGGGGGAAACAAACCCACTGAAGGCCATGAGCCCAGGGCAAATAGGCCA
AGAGACCAAAAGATGGTCAGAGACACAGTTATACAGAAACTAGAAGATGCAGACAATCTAGAAGCCAAAAAAGATAGATACCTTGAGAGGAGCGGGATGC
TGTCAGTGGGGCCCAGCATGCATAAGCAGTTTCTAGCCTCAGAAGAATGCTCTCATTTTCTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAG
TCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCTCAGTCTTGGCTTCCTGCAAGCTCTGCCTCCAGGGTTCGAGTGATTCTCCTGCCTCAGCCTCCCGA
GTCGCTGGGACTACCCGAGTAGCCAGGTGCCCGCCACCACACCTGGCTAATTTTTTTTCTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAACAAA
AAAGACTCCAACTGTAAGCAAAAAGGCATTTTCTGGTGTAGCTGAGAAGTGGGGGGTTGAAGGGAACTAAGCTTCAAGACCTAAATGATGTTGCCAAGCT
TCTCTTCCTCTCCCTCTTTCACCTCTCCCTGTGGTGCAGTGACCATTCTTGTGCCTGTATCTAGTTATTTCTCTAGGATAGATTTTAGGAAAGACTCTGT
CATGTTCCAGAGCTACCACAAASAGCTCCAGGCTTATATCAAACTTGCCTGATTATGATGGATAAAATGAGAGCTTTTCTGTCCTAGCAACCGAGTGTAA
ATTCCACAAAAGGGCCCTGATTGGCCCTTCTTGGATCATGTGTCCGCTTCTCAGGCCAATCCTTGGTTAGAGGGGGAGTAGACTACTAAGACTGGCCAGG
TCTTTGTTACTTGCCTACCCAATAGGGGTTCTTTGTCTTAAAGGCCCTCAGAACCATGTAGAATCGAGGAAGGGCTGTTGTCCAAAGGAAGGTGGATACT
GTCCTCAGAAAAGAAGTAAAGGGTTGTGCCAGGCAGGCAAAAATTACATATAACACTTGCAAAATTTTGCCTTTTATCTCAATGTTCTGAATCTCACTGG
ACCCCGGGTGAAGAACCCTTGCCTTATTCTTTTCATTATATCACACCTCTCTCCTATTACTGCCTGTGGAGACAAGGTTCTGCTGTTGGTTGGCCATGTG
ACCTACATCTCTCCTTTAGGTCTCAGGTGAAACATCCCCTCCTCCCAGGATCCTTCCCTGATTCCCAAGCATGGGAAGGAGGAGGAACCTCCTTTGGTGT
CCCACAGCTCCCTAGGATTCTGTTATCACAGTCCCCATCACTGGATTGTCACAGTCTGATGACGTGTGTGTCACATGAGAGATCATGTGATCATGGCCGT
CTGTGAGGACTCTGGTAGTCATATTCATTACCTCCTTTTTCTAGTTCAGTGCTTAAGAAACAGGCTGTTAGAAATGTTTCTAAAAATGGGCTGGGCATGG
TGGCTCACACTGGTAATCCCAACACTTTGGGAGGCTAAGGTGGGGGAATTGCTTGAGCCCAGAAGTTTGATATCAACCTGGGCAACATAGTGAGATCTCA
TCTCTACAAACAGTAAAAAATTAGCTGGGTGTGGTGGCATGTGCCTGTAGTCCCAGCTGCTCGGGAGGCTGAGGCGGGAGGATCGCTTGAGTCCAGGAGG
TCGAGGCTGTGGTGASCCATGATTACGGCACTGCACTCCAGCCTGGGAAACAGAGTGAGACCCTGCCTCAAAAAGAAAAAAACAAAACAAAACCAAAAAA
AGCAATGTTCCCAAAAGAGAATTAATGTCTTCTGTTCTCTCTCTTAAGAATCCAGGGCCTGAAAACCCAGAATGAACTTGTGTCCATCCCAGAGATCACT
GCAGATGTCATGAGGTACCCTTTGTGTCACCAGCTCAAGCAGGCCTCTGGCCACTTTATCATCTGTGGTGGTCCTGTSCCGTGACCAGGAGGAAAAATTA
GCTCTTTGAAGAGAAAGTAGTTCTCTATTGCAGGCACTGGCCTCTTAAATTGTTGCAGGTGGGGAATGGATGAGAATATTTGTTTTGGGTGATCAGAACT
GAGACTCCTATTGTGGATTAGTAACATGCCTCCTCCTAGAACAAGGGAGGGCAGGGATCGCCGAGACCACCACYGGGCTCCCAGCGAGGAAGAGGCCTTG
GAGAAATGGGACTGGAATTGTCCAGAGACGCGTCGCCTCTTGGAAGATGCCTTCTTCCGTGAAGAGGATTACATCCGTCAGGGTTCTGAGGAATGTCAGA
AGTTTTGGACCTTCTTTGAACGCCTGCAGAGATTCCAGAATCTCAAGACCTCCAGGAAGGAGGAGAAAGACCCTGGACAGCCCAAGCACAGCATCCCAGC
GCTGGCCGACCTACCTCGCACTTACGACCCACGTTACCGCATCAACCTCTCTGTTCTTGGCCCTGCCACGCGGGRCTCTCAGGGACTGGGCAGGCACTTG
CCCGCGGAGAGAGTGGCTGAGTTCCGCCGAGCCCTGTTGCACTACCTGGACTTTGGCCAGAAGCAGGCATTTGGGCGTCTGGCCAAGCTGCAGCGTGAGC
GGGCAGCCCTCCCCATCGCCCAGTATGGGAACCGCATCCTGCAGACGCTGAAGGAGCACCAGGTGGTGGTAGTGGCCGGTGACACCGGCTGTGGCAAGTC
CACTCAGGTGCCCCAGTACCTGCTGGCTGCTGGCTTCAGTCATGTGGCGTGCACCCAGCCCCGGCGGATCGCCTGCATCTCACTGGCCAAGCGTGTGGGC
TTTGAGAGCCTCAGTCAGTATGGCTCACAGGTGAGTGGGACGCACCAGGTTTCCGATTTTTCCAGCGTGACCTTGGGGGAATAGGTTGCTTGTCCATATG
GCAGTATCAATAAAAATGAAGCACTTACCCTTGGACCCAGCGATGATTCTTCTAGAACTTTATCCACAGAGTGGCTTGTCTGTGGTCTACATGACAAAGG
AGCTAGCATTAACCAGTGTAGCACTTTAACAGCAAAACAAYGGGAAATGTCCTAAAGGCTCATCACTTTTTTTTTGAGACGGAGTCTCACTCTGTGGCCC
AGGCTGGAGTGCATTGGTGCGATCTTGGCTGACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAG
GCACCCGCCACCATGCCCAGCTAATTTTTGTAATTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGGCTCAAACTCCTGACCTCAGGTGATCC
ACCCACTTCGGCCTCCCAAAGTTTTGGRATTACAGGTGTGAGCCACCACGTTGGGCTGCGAGGGTAATTCTTGACGATCACTGCAATGCAAACTGCCATC
TTGGAAGGCCAATAATAGTCCTTCTGTCTCATGGTGGTCATGAGGATGAAATGGGTTGATATACATAAAGCACTTAGAGTGGCATATAATGTCCTGGCAC
ATAGCAGGGACTCAAGAAAAGGTTATTGCTATATAGTTAATATTATATATACATGAGGCACAGTGCTAGATACTTTCTGTGCATTGTCACATGGAATTCT
CACAGCATCTAGGAGGAGAACTATAAGGGATGGCATTGCCTGCCCAAGGTCAGTTGGCACTAAGTGGCAGAGGTGAGATTCAAACCCAAGSTGTTGGACT
CCAGAGTCTGATGGGTAGGCATGGTATTTGCTTAGATTTTCTTTTTGCTTTTTCTTTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGC
AATGGTGCGATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTTAGGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACC
ACGCCCGGCTAATTTTGTTTGTATTTTTAGTAGAGATGGGGTTTCTCTATGTTAGTCAGGCGGATCTCGAACTCCCTACCTCAGGTGATCCGCCCGCCTC
TGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTGCTTAGATTTTCAATTTGGGCAGGGCCAGGGGCTGGTACYCAGGCTCAGGG
TCCTCTCCTGATCCTTTCTTTCTCCCACCCCAGGTCGGCTACCAGATCCGCTTTGAGAGCACACGTTCGGCGGCCACCAAGATTGTATTCCTGACAGTGG
GGCTGCTCCTGCGACAAATCCAGCGGGAACCCAGCCTGCCCCAGTATGAGGTCCTGATTGTRGATGAAGTCCATGAGCGGCATCTCCACAACGATTTCCT
CCTGGGCGTCCTCCAGCGCCTGTTGCSCACGCGGCCTGACCTCAAGGTCATCCTCATGTCGGCCACCATCAACATCTCGCTCTTCTCCAGCTATTTCAGC
AATGCCCCTGTGGTACAGGTGCCTGGGAGGCTGTTCCCCATCACGGTGAGTACTTCCCCCTCCTCCCACATCCCCAGACCTCCAACCTGGTCTCTGTCCA
AACCTGGACATGCCTCTTCTCTCTGCTGCTGTATCTCCCATCTCTTTCATTTAAAGATGTTCTCTTTTTTTAAAGCTACCATTTTCTGAGCATTCATAAT
CAGCTGGTTAGAGTGCTAAGTGCTTGTTAGAGTAAAAGCTGTTACAAGAAGACCCAAAAATGGCTGGGCGCCGTGGCTCATGCCTGTAATCCCAGCACTT
TGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAACACAAAAACAAAATTA
CCCAGGCATGGTGGTGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAGTGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGAT
CGCGCCACTGCACTCCAGCCTAGGTGACAGAGTGAGACTTTGTCTCAAAAAAAAAAAAGACCCAAAAATGTAAAGTCTCAAATAAGAGAAGTTTATTTCT
CTCATATAACAGTGTGGCTGGTCCAGGCTGTTGGGCAACTCTGTTCCATGTGGTCATTCAGGGATCCGGGCTCCTCCTTTGTCATTACTCTGCCATCTCA
CTGGGCAGGATTTCTCAAAGTCAGCAAGATTGACATTTCAGTCTGGATAATTCCTTGTCGTGGGGGCTGTCCTGTGCATTGTAGGATATCTAGCAGCATC
CCTGGCCCTACCCACTAGATGCTAGTAGTCTTCTCCTCTGGTTGTGACTATTAAAAATGTCTCCAGACATTGCCATATGTTCCCTCTGGGGCAAAACCAC
CCCTAATTGAGAAACACTGTCCTAGTGAGTTATCCTTGTCTGTATAGTCAAGACTTACAGGAAGAACTTCATTGTCTCTTGTGATTTCTGGTTCCGGATG
CCCATCAATTTGCCTTCTAAGCAGCCATAAAAAAAGAAAGAATGGGTCGGGCACGGTGGCTGGTGCCTGTAATCCCAGCACTTTGGGAGGCTAAGGCAGA
AAGATCACGAGGTCAGGAGCCCAAGACCATCCTGGCCAACATGGTGAAATCCCATCTCCACTAAAAATACAAAAATTAGCTGGGCATGGTGACGCACGCC
TGTAATCCCAGCTACTTGGAAGGCTGAGGCAGGAGAATTGCTTGAACCCGGAGGTCGAGGTTGCAGTGAGCCAAGATSGCTCCACTGCACTCCACCCTGG
GAACAGAGCAAGATCCCATCTCAAAAAAAAAAAAAAGAAAGAAAAGAAAGAGAGAGAGAGAGTGCGAGCCGAGTGTGGTGGCTCATGCCTATAATCCCAG
CACTTTAGGAGGCCGAGGCGGGTGGATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACAAGGTAAAACCCCGTCTCTACTAAAAATGCAAAAAT
TAGCTCGAGTGGTGGTGCGCCCCTGTTATCCCAGTTACTCAGGAGGCTGAGGTGGGAGAATTGCTTGAACCTGGGAGGTGGAGGCTGCAGTGAGCCGAGA
TCATGCCACTGGGTGACAGAGCGAGACCCTGTCTCAAAAAGAATGAGGCTGCTTCCTGAGAAATGTTTTCTAGGGTTTTTGTTTTTTGTTTTTTGTTTTT
TTTAGTAGAGACGACGTGTTGCTATGTTGTCTGCCTGGTCACGCATACCTGAGCTCAAGCAATCCTCCCGCCTTGGCCTCCSAAAGAGCTAGGATTACAG
GTGTGAGCCAACTATGCTGGGAAATCAGCCAACCAACCTGGCTCAGGCTCAGGGTCCTCTCCTGGTCAGCCAACCAACCTGATTTCTARGTTTTTAATCC
TGGTTTCATCACCTAGAATATTTTTYTTGTTGAAGCTACTCTAAACATAAGATAATGCATGCATTGTAAGTATATAGCTTAATTAGTTTTCACCAGTTAC
ATACATCTGTGTAGCTAGCACCCAGGTTTAGAAAAGTCAAACATTGCCAGCACCCCACAAGCCTTGCAGTTGCTTTGTTACTTTGTCTTTTTATTACATC
CTTCAGAAATTATCTAGCTGGAGTGTGCTGTCTGTCACCTGACTGTTTCTCAATTAGGGGTGGTTTTGCCCCAGAGGGAACATATGGCAATGTCTGGAGA
CATTTTTAATAGTCACAAGCAGTGGAGAAGACTACTAGCATCTAGTGGGTAGGGCCAGGGATGCTGCTAGATATCCTACGATGCACAGGACAGCCCCCAC
GACAAGGAATTATCCAGACTGAAATGTCAATCTTGCTGACTTTGAGAAATCCTGCCCAATGAGATGGTGGCATAATGAGAAAGGAGAAGCCTGGATCCCT
GAATGACCACATGGAACAGAGTTGCCCACCAGCCTGGACCCGTTGCACTGTGTCTTCTCCGTTAGCCTGTGGTCTCCCCCGTCAGCCTGCAGCCTCCCCA
GCCCATTGCTCTGAGCTGGAGGGACAGGGTGTGCTTCTACCTGGGGCTGTCTCCTCTCAGGTTGTGTACCAGCCGCAGGAGGCGGAGCCGACCACGTCCA
AGTCAGAGAAGCTGGACCCGCGGCCTTTCCTGAGGGTGCTGGAGTCCATTGACCACAAGTACCCGCCTGAGGAGCGGGGTGACCTCCTCGTCTTCCTCAG
CGGCATGGCGGAGATCAGCGCCGTGCTGGAGGCTGCCCAGACCTATGCCAGCCACACCCAGCGCTGGGTGGTACTGCCACTGCACAGCGCCCTGTCTGTG
GCCGACCAGGACAAGGTATCACAGGAAGCCCGAGTGGGGCAGGCGGGGGGTCTGCATGAGTCAGGGGTGGCTGCGCACAGGACTTGTGTAACTCCACAAA
CACAGGGCTCGGGGGCTGTACTTGTGCAAAGTCGTAGCCACCTAGTGGCAGAGCCAGGCTGCGAACCCAGGTAGTYTGGCCCCGGAGCCCATGCTCTAAA
CCAGAGGTCGGCAAACTTTCTATAAAGGGTCGGAGTAGATGATGTCAGTCCTATCGACCATGGGCTCTCTGTCTGTCACAGCTACTCAGCCCCACTGTTG
CAGCATGAAAGCAGCCATAAACTGAGTGGGTGAGGCTGTGTTCCAAAACAGTTTTTTTTTTTTTTTGAAACAGGGTCTTGCTCTGTTGTCCAGGCTGGAG
TGCAGTGGCACGATCAGGGCTCACTGCAGCCTTGACTTCTTGGGCTCAAGTGATCCTCTCTCCTTAGTCTCCCAAGTAGCAACTATAGGTGTGTGTCACT
AAACTCCATTAATTTTTTTTTCTTTTTGGGACAGAGTCTCACTCTGTCGTCCAGGCTGGAGTGCAGTGGCATGATCGTGGCTTACTGCAATCTCCACCTC
CCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCCGCCACCACGTCCGGCTAATCTTTTGTATATTGAGTAGAGACG
GGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGGTTACAGGTGTGAGCCACT
GTGTCCGGCCTCCGTTAATTTTTTTTTGAATTTTAGTAGCAAAGAGGTCTCACTGTGTTGCGCAGGCTGGTTTCAAACTCCTGAGCTCAAGCGATCCTCC
CCTAGTGGGGGCAGTGCCAGTTTATGCTTCAGCAGATCCCTCTGGCTGCCATGTGAGTCTACAGGCCAGAGATCTGAGGGGAAGCTGGAGTAGGATCAGA
GTGGGCGAGGAGAGGCCTGGACCAGGGCAGGGGCTGGGCTGTCGGAGGAGGGAAGGATTTCAAGAAAAGTTCCAGATGGCCTGGTACATTGGCTCATGCC
TATAATCCCAGCACAGGAAGCTGAGACAGGAGGATCACTCGAGCTCAGGAGTTAGAGACCATCCTAGGCAACACAGTGAGACCTTGTCTCTACAAAACGG
AAGAAAACTAGCTGGGCATGGTGGCATGTGCCTATAATCCCAGCTACTTGGGAGGCTGATGCAGGAGGATCGCATGAGCTCAGGAGGTCAGGGCTGCAGT
GAGCTGTGATCACGCCACTGCACTCCATTGTAGGCCACAGAGTGGGATCCTGTCTCAAAAAAAAAAAAAAAAGTTCAAGATGTTCAGGTCGGGGGAGCAG
KTGTGGTGGCTCATGCCTGTAATCCCAGCACATTGGGAGGCCAAGGCAGGCGGATCACCTGAGGTCAAGAGTTCAAGACCAGCCTGGCCGACATGGTGAG
ACCCCGTCTCTACTTAAAATACAAAAATTAGCCGGGCATGGTGGCGGGCACCTGTAATCCCAGCTGCTCGGGAGGCTGAGGCAAGATAATTGCTTGAACC
CGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTGAGGGTGGGGGAGGGCCCAGGATGG
CCCAGGTGATGGGGTGGACGGTGAGCCATCTCCAAAAGGGAGGTCTCTGAAGGAGGAAAGGGTTCCAGGGAAGCTGCTGACACGGGGGTGGGCAAGAAAT
TGGACACATAGGTTAGTCGGGGCTGAGTTAGTTCCTGACACCACCCCCTCCCTTCCTCCCAGGTATTTGATGTGGCACCCCCTGGAGTCCGGAAATGCAT
CCTCTCCACCAACATTGCTGAGACCTCAGTCACCATTGACGGGATCCGCTTCGTAGTAGATTCCGGTAAGGACCACCATGAGCCCCTACCCACCACCCCC
AAGGACTTAGGAGCATGGGGTCCGGAGGTGTGCGTGTGTGGCAGGGGCGCACCAGCTTGGATTGGGAAGTACAGTTGACTTTCCCATATCCAAAATGCTT
GCTTGCAACCAGAAGTGTTTGGAATTTCGGGTTTTTTTGAATTTGGAATATTTGTATCAATTTTATTATTTGAGTATGTCAAATCCAGAAATCTGAAATC
CTCCAGTGAGCATTTCATTGGAGGGTCACGTTAGTGCTGAAAACATTTCAGATTTTCGAGCATTTCAGACTTTGGATTTCCAGAATTGGGATGCTGGAAG
ACGATGTGTGGGGCCATGGACCAATGGCAACATCTTAGTTTTTCTCACACCTTCCAAGCCTGCTTCTGCCCTGGGGCCTTTGTACTGTTCTCTCTGCCGA
GAGCTGTCTTTCTCCAGGTATCCACACAGGTGACGCCCTCACCTCATTTCAGGGCCCGCATAAATGTCCACCCGTCAGAGAGGCCCATACTGTCCACTCT
GTCTAAGAGATATCCCCTCCTCCATCCGCTGTTGCTTGTCATATGAGGGGGATTGACATTCTGTTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTT
TGAGACGGAGTCTTGCTCTGTTGCCAGACTGGAGTGCAATGGTGCAAGCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCTTCAGCCTCCCAAGTAGCTG
GGATTACAGACATGCATCACCACGCCCGGCTAATTTTTGTATGTTTAGGAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTC
AAGTGCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACGGGCATGAGCCACCACGCCCAGCCCGACATTCTATTTTATGTGCTGCTCTGTTTGCTCAC
TTTCTGTCTTCCTGACTGGAATGTTCTCTGGGAAGTCAGCATAGCATAGTGTTTGGAGACACTGGAGCCTGCCTGGCCAGGTTTAGTGCTGGCTGTGTGG
CTGGGGTCATGTGACTGACACTTCATGTATCGGTTGGCTCATCTGAAAAATGACAATGGCAGGCCGTCCCGGCTGGGCGCGGTGGCTCACACATGTAATA
CCAGCACTTTGGGAGGCCAAGGCAGGCAGGTCACTTGAAGTTAGGAGTTTGAGACCAGCCTGGACAACATGGTGAAACTCCGCCCCTACTAAAAATACAA
AAATTAGCCAGGCATGGTAGTGCGTGCTTGTAGTCCCAGCTGCTCAGGAGGCTGAAGTGGGAGAATCACCTGAGCCCAGGAAATCGAGGCTGCAGTGACC
TGTGATTGTGCCACTGCACTCAAGCCTGGGCAACAGAGCGAGACCCTGTTTAAAAAAAAAAGAGAGAGAGAGAAATTAAAAAAATAATGTCTGCCAGGTG
CTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAAGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACC
CCATCTCTACTAAAAATACAAAAATGACCCGGGCATGGTGGCGGGTTCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACTCAG
GAGGCAGAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCAATAAGAGTGAAACTCCATCTCAAAAAAAGAAAAGAAAGAAAATGTAAAAAAAGG
TTGTTCTGACACTGGAGGAAATATGGTGCTCTGTTCAGTCCTGTGAGACTAGGACCTTTGTTTAGCTCACTGCTGTTCCCCTAGTGCCTAGTGCAGTGCC
TGGTATATAGTAGGTGCTTAATAAGTATTTATTGGATAAGTGAACCTCTGAAGAAACAAAGACTTGGGAAAATAAATGAAAAGATGTGTGAGTGAAAGGC
TGGGTGCAGTGGCCCACGCTTGTAACCCCATCACTTTGGGAGCCTGAGGCAGGCAGATTGCTTGAGCCCAGGAGTTTGAGATCAGCCTGTGAAACCCCGT
CACTGCAAAAAATTAGCCGGGTGTGTTGGTGTGCACCTTTAGTCCCAGCTACTCGGGAGGCTGAGCTAGTAGGATCATCGCTTGAGCCTGGGAGGTTGAG
ACTGCAGTGAGCTCTGACTGAGCCACTGCACTCCAGCCTGGGAGACAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGATGTGTGAGGAAAT
GAAAGAATAAATGAACAAAATGTCAGAGTTGGGCCCAGAATAAGCCCTCAGTTAGCATTAACAGAATAAAGGAGTAAGTGAGGGTGTTGGCGAGTGACAA
GAGCCAGGCGCGTGGCCAGCTGCACGTGGCTGCCACACACAGACTCCCTTTCCTCATTGCTYCCATCCAGGAAAGGTGAAGGAGATGAGCTACGATCCGC
AGGCCAAGCTGCAACGGCTGCAGGAGTTCTGGATTAGTCAGGCCAGCGCAGAGCAGCGGAAGGGCCGGGCGGGCCGCACGGGCCCCGGAGTCTGCTTCCG
CCTCTATGCCGAATCGGACTATGATGCCTTCGCCCCCTACCCCGTCCCRGAAATTCGGAGGGTGGCCCTGGACTCGTTGGTGCTGCAGGTGAGGCAYGGG
CAGAAAGGGGACTATATCCTAACTGCTGGCACAGGGAGGAACCTGGGAGGCCTTTTTTATTTTATTTTATTTTATTTTATTTTGAGATAGCGTCTTGCTC
TGTCACTCAGGCTAGAGTGCAGTGCTGTGATCATGGCTCACTGCAGCCTCCATATTACAGGCTCAAATGATCCTCCTACCTCCACCTSCCAAGTAGCTGG
GACCACAGGCACACACCACCACRCTTGGCTAACTTTTAAATTTTTATTTATTTATTTATTTTTGAGACGGAGTCTCCCTCTGTCGCCCATGCTGGAGTGC
AGTGGTGCGATCTCGGCTCACTGAAACCTCCGCCTCCCAGGTTTAAGTGATTCTCCTGCCTCAGCCTTCCTAGTAGCTGGGACTACAGGTGTGCACCACC
AAGCCCAGTTAATTTTTTGTATTTTTTTTTAGTAGAGATGGGGTTACACCATGTTAGCCAGGATGGTCTTGATTTCCTGACCTTGTAATCCACCCTCCTC
GGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCTAACTTTTTTTATTTTTAGTAGAGATCAGGTCTTGCTATGTTGCCCAGGCTG
GTCTCAAACTCCTGAGCTCAAGTGATCTTCCCACCTTGGCCTTCCAAAGTACTGGGATTACAGCCATGAGCCATTGTGCCCAGCCAGCCAGGAAGCATTT
ACATAGGACCCAACCCCAGAGTGTCAGGGTCAGGAAGGATAGGGCTAGCCAAGCCACTGAGGGGAACCCATCCCTTCCAAATGTCAAAACCCTTGTTGAG
GGGAGAATTGTTCCTTAAATCCATAGGGTCAGCTGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACTTGATA
CCAGGAGTTTGAGACCAGCATGACCAACATGGTGAAACCAGTCTCTATTAAAAATACAAAAAATTAGCCGGGTGTGGTGGTGTGCACCTGTAAGCCCGGC
TATTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCGGTGAGCCGAGATCACACCACTGCACTCCAGCCTGGGCGATAGAACA
AGACTCCATCTCAAAAAAAAAAAAAAAAAAAATGTCCATAGGGTCAAAGGAAGAACCAGTGACTCAATCAGAATGCTTTCAGCTGTAACAGGAAACCTAG
CAGGAAAGGGCTTTTAAAACCAGGGTTTCTCAATACATTTTATGTCATGATTTGTATCTCATTTGTTAATTTAGCATAGGTTAGACTGCCATGACAAATA
CACATGGTCACGAATGGCCAACAGCGGAATGGTGGTTTACAGGTTGGCAGGCAATTTTCTTTATTCAGGGACCCAGGGTCCTTCACTCTTGTGGCTCTAT
AATCTCCCCAGGGGCTTTTCCTGCATATGTGTCCAGCCAGCCAAAGGGTCAAGGGCATGGGAAGTGAGTACAGGAGGGTTTGCGGGTCGAGCCTGCAAAT
GGTGCACTTGCCTTGCACTCACCACTCCTGGTCAGTCCTCAGTCTCGTGGCCACGCCCAACCGTGAAGGAGGCTGGGAAGTGTAGTCCTTGTGCTCAGGA
ACAAAAGGAAAAGGAAAGTTGGGAGCAGCTGATGGTGTCTGCCACAGGCTCACGTGCGGGTGTAGCACAAACCAGTGGCCTTCCTGCAGGAGGTGCACAC
TATTTTCTATTCTGTTTGATTTCATCTTTTAAAAAAAAAAATACTAGTGCTGCCGGGCACAATGAGTGACTCATGCCTGTTATCCCAGCACTTTGGGAGG
STGAGGCAGGAGGATTGCTTGAGGCCAGGAAGTCGAGACCAGCCTAGGCAACWCGGTGAGGCCCTGACTCTAGAAAAAATTTAAAAATTAGCCCAGTGTG
ATGGCACACACCTGTGGTCCCACGCAGGAGGCTGAGGCAGGAGGATCGCTAGAGCCCAGGAGTTCGAGGCTGCAGTGAGCCTTGATTGCATCACTGCACT
CCAGCCTGAGTGATAGAGCAAGACCCTGTCTCATAAAAAAACAAAGTCCATGGGGTAGGTAGTCTTACCCTAATTTTTGGACCAGAAGAAGGATGCAGAG
AGAGAGAAAATATTGCCCCAGGTCACACAGCTGGCAAGTAGTAGAGTCAGGGCTCCATCCGAGGCCACCAGGCGTCAGAGCCTGCTTCGTGAGTGGCCGC
TGGCTCCAGGCACAGTGGGCGTCACCTCCTCCTCCTTTACCATCCGGAGGCAGAAGCAAGGAACTGCCCTTCTCTGTGGGTCTAATTTTTAAGGCCACAG
GAACATTTTCTAGACTCCTCTGGCCAGTCTCTCATCCTCTCTTGTCAGCAGAACCGGGTCATATGTGTTCACCCTATGCCCCGCAATTGTCTAGGGTTGT
GGCATTGCCTGAGTTGATCAGAGCAGTGTCTCAGCCCCAGCTGCATACTAGAAACACCTGGAGAATTTAAAAAAACCCCAGGCCCTGCCCCCTGCCTCTT
TAAATTGAGCTTCTAATGTAAAGGTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTGGGACAGAGTCTCACTCTGTCGCCCAGGCTGGAGTG
CAGTGGTGTTATCTCGGCTCACTGCAACCTCCACCTCCCAGGCTCAAGTGGTTCTCCTGCCTTGGCCTCCCGAGTAGCTGGGACCACAGATGGGTGCCAC
CAGGCCCAGCTAATTTTTGTAATTTTAGTAGAGAGGGAGTTTCACCATGTTGATCAGGCTGGTCTTGAACTTCTGACCTCAGGTGATCTGCCTGCCTTAG
CCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCGCGCCCGGCCTATAAAGGTTTTTAAATGAGTATTGGGTGAACTCATAGACGGCATCAAGGCTTG
GTCAGCAGGGAGGAAGGAGCAGCAGCTGCTTGCAGGTGGACGCCAGAACTTCTAGTGCCCTCGGATCAAAGCCAGGCAAACAGACTTCTCTGAGCTTCCT
TCTCGCTCTCTGGCTGTCACATGAGCTGCCTTGCCAGCCTCTCCTTCTTCCAGTCACCAGAGAGGTGCTGTTTGCTTACGTATGCCACGCCAGACCCCGG
GGTGGACATATGCTGTCACTTAATTCTCCCACCATCTACTGCCTGCCTGGACTGCTGCATTAATTGGGATTCTTTTGGTTGTAAGTGAGAGAAATACAAC
TGAAACTATTGTAGGCAGAAAGGGGGATCTTACCATTTTGTGCATTCATGAGGCGGCATGTCTAACTTAGGAACAATCCAAGAATTTCTCCATCTGCTGT
AGGTGGGCCCATTTCCAAAAAATGGACAAAGTCAAAGGTCACAGCAGTTCTGGGTTAATAAGATAGCCTTCCATCCTGGCCACAACCAGAGAGGATGCTG
GGAATGCTCTTCCTGGCTCCAGTCTCATGGAAGGATTCTGATTGGTCCAGCTCAGGTCACGTGCCTCTSCTCCATGGTCTGGGGCAAGATGTGCTAGGCA
GACAGATACAGAGACAGCAGCCCTCCTTGCCTGCCTCTGCACAGTGGATCTTGACATTGGGAATTTTATTTTATTTTATTTTATTTTATTTTTGAGATAG
AATCTCACTCTGTGGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCCGCCTTCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCC
AAGTAGTTGAGATTACAGGCACTCGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGTCTGGTCTCAAACT
CCTGACCTCAAGTGATCCACCTGCTGTGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACTGTGCCTGGCTGACACTGGGAATTTGAGATGGAGTC
TCGGTGTATTGCCAGGCTGGAGTGCAGTGCAGAGGCGCGATCTCGGCTTACTGCGATCTCCACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCC
GAGTAGCTGGGATTACAGTCATGCACCACCACTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTTGAACTCCTGACC
TCAAGTGATCCGCTTGCCTTGGCCTTTCAAAGTGCTGGGATTACAGGCATGAGCCACAACGCCCGGCCAACACTAGGAATTTTAAAACGTCATGAATTTG
TGATCTCTGAGCCCCGCTGTGCTGCACAGTGGCTCTTGTGTTCCCCAATCTTGGGGGTTTTGCTTCTCATTCTAGATGAAGAGCATGAGTGTGGGGGACC
CCCGAACCTTCCCCTTCATCGAGCCCCCACCACCAGCCAGCCTGGAAACCGCCATCCTCTACCTCCGGGACCAGGGGGCCCTGGACAGCTCAGAGGCCCT
CACACCCATTGGGTCCCTGCTAGCCCAGCTGCCTGTGGACGTTGTGATTGGTGAGTACCCACCCCCCTCSTGATCACTCAGGGCCCCAGGAGCGGGTATG
GGCACAGCTCACTCTCTGAGTGGCCTGGGGGCAAGTCTGTTTCTTCCCTGGGTCCAGTTCATTTATTCACTCTTCACTGGGCCAGGCACTGTTCTAGGTG
CTGGGCATATAGCAGTGGACAGAACAGACACAAATCTCTGGCCTCAGGGAGCTGACATTTTGGTGAAGAAGACCAGCAATACATTAGGACAATAAGGAAA
AGGCATAGTAGATCAGATGGTGCCTAGTGTTCTGGAGAGAAGAAACAACGGGGTTGGGGAATGGGGAGTTGCAGTTTGTAATACAGGCCTCATGTATAAG
GCAGACCTCATGGGGAAGGTAACATCTGTGCAGAGAAATGGAGATGAGGGCTAGGAGCCATGCAAATACTAGAACATGCTTGCCAGCAGAAGTCGAGAAA
CATGGCCGGCACAGTGGCCCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTAGATCACGAGGTCAGCAGTTCGAGACCAGCCTGGCCAACAT
GGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACACGCCTGTAATCCCAGCCACTTGGGAGGGTGAGGTAGGAGAATCGCT
TGAACCTGGGAGGTAGAGGTTGCAGTGATGCAGTGAGCCGAGACCATGCCATTGTACTCTAGCCTGGGCGACAGAGCGAGACTCCATCTCAAMAMAAAAA
AAAAAAAAAAGCAAAAACAAACAGGYGASATTCATTTTGATAAAATAGCTGATTCAACCTAATATACCTAAAACATCACAATTTTAACATAATCAATAGA
AACATTTTTGCAAGATTTTATGTTATTTTTTACCATACGACGTCTTGGAAATCTTGGTTTGGACCAGCCATGTTCAACTGCTCAGTAGCCATGTGTGGCC
AGAGGCGGCCGTATTGGACAGTGCAGATGGTGCATGAGGGTGTTCGGGCAGTGGGAACAGCCAGTACAGAGGCCCTGTGGGGGCACATGCCTGCTGCTAC
AGGAACAGTGAGGAGCCCCGTGTGGCTGCAGTGGAGTGAGAGGGAGAAGGTGGGAGATGTAACCAACAGTCTCATCATTCATTCATTAAATCCTTTTTTT
TTTTTTTTTTTTTTTTGAGACTGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCCATCTCGGCTCACCACAACCTCCACCTCTTGAGTTCAA
GCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGCTGGGGTTTCTCTAT
GTTGGTCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCTGCCCGCCTTGACCTCCCAAAGTGCTGTGATTACAGGCTTGAGCCACTGCTCCCGGTCCA
TTGAATGTGTGTGTGTGTGTGTGTATATATATACACACACACACACACACACACATACACACACATATATATACATACACACATATATATACACACACAT
ATATATATGTTTTTTTTTCTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGAAGTGCAGTGGTGCAATCCCAGCTCATTGGAACTTCTGCCTCCTG
GATTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGACTGTAGGTGCCCGCCATCATACCTGGCTAATTTTTGTTTTGTTTTGTTTTGAGACAG
TGTTTTTGCTCTGTTGCCTAGGCTGGAGTGCAGTGGTGTGATCTCAGCTAACTGCCACCTCCTGTGTTCAAGCAATTCTCCTGCCTCAGCTTCATGAGTA
GCTAAAATTACAGGCTCACGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATGTTGGCCAGGCTGGTCTCGAAGTCCTGA
CCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTGCAGACTTGAGCCACCGTGCCCGGCCAGTATTTGTTTTTTCAGTAGAGAAGGAGTT
TCACCATGTTGGTCAGGCTGATCTCAAACTACTGACCTCAAGTGTTCTGCCTGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCGGCCA
ATATTTGTTTTTTTAGTAGTGTCAAGGTTTCACCATGTCGGCCGTGCTGGTCTTGAACTCCTGACTTTAAGTGATCTGCCCACTTCGGCCTTTCAAACTG
CTGGGATTACAGGTGTGAGCCACAGCTCCTGGCCCATTCATTAAATAATTTTTGAGCACCTGCTCTGTGCCAGGTCCTAGTCTAGATGCCAGAGATACAA
CAGTGAATAAAACAAAACTCCTGCCCTCACGGAGCTCACATGTAACAGGGGAGATGGACAGGGGCAGATAAATGAGTGAAAACACGGAATGTCAGCCGCT
GATTGCTGCTCAGGTGGATGCAGGGCACGGTGGGCACAGTGGGGGCTGGGAGCAGTGTTAATTGGCTGTCCTGGGAGGCCAATTAACAGTGACATCTGGG
CAGAGGCCTGAAGGAGGGGAGGGGACAGCTGTCCCTCTGGCCCTGGGTCAGGTGAGGAGCTTTGAATTAAATGGGAAGTGTTTAAGTGGAACTGGGTCCT
AAGTGGCTGAAGGTGGCCAGAAAATTGATCAGTTGACCTGGCGGTTCTGTGAGGATCTGGAAAGGGCGGGTCCACAGAGGTCGACGGAGACCATTTTCAG
TTCCCAGCCCTCCTGATCTCAGGTCTTCAGTAGCCAGTCACAAGCAGATGTGGTGCTCCTCGTCCCCACGCTGTGTCATCAGGAATAGGGCGTTAATCTT
GAGGGATTTGGGGCCAGCAGACCCTCTGACCCTGTCKTTCTTGTGTGCACCGTCAGTGTCTCAGGCACTCACCTGACGCTGCAGATGCCACCACCAGAGG
CTGGGTGTGGCCTGTGGTGTCTGGCTTGCAAGGCTGTTTCAGAGAATGTGACGCAAAGTGCCCTGGTTGTGCGTGAGTGACAGGAAAGACAGGCTCTCTC
GCTTGGATTCCCCAGCACTTGGGGTCATGACAGGGCCTCCCTTGGGAGGCACAGGCAGGTGGAGTACCCAAGATCCCCCAAACGCAGAAAGAAGTCTTGG
CTTTTCCACAGCTCAGACCCCTCCCACCTCTCTCCTCTGCACAGCGTGTCCCCAGCTCTGCCCCGCACCCCTCTCTTGCGGGCTCAAGGATGTCAAAACT
CTTCCTCTCCCTCATTCCTGAGTCATGCTCACCCCTCCCGGGGAGCTCACTGACTGAGGCTTGTTCATCTTGCCTGATTCTCCTGACTCAAGACTTTCTA
TTTCCAGCAGCCTGAGGCCCACCATGGCAGGACCACCCATGTATGTGTGTTAACACCATTAAAGCCCCCATCCTTGCAGCAYAGCAGGGCTTCAGTGTGG
GCAGGAGGCTGGATCCGCTGGACTTGGAGGGCTGCCCAGGCTAAGAAGATGGTTCATTTTTGTTTTATTTATTTATTTAGAGATGGAGTTTCACTCTGTC
CTCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGATT
ATAGGCATGTGCCACCACACTCAGTTTTTGTATTTTTTAGTAGAAACAGGGTTTCACCACATTGGCCAGGCTAGTCTTGAACTCCTGACCTCAAGTGATC
CGCCAGCCTCGGCATCCCTAAGTGCTGGGATTACAGGCGTGAGCCCCTGCGCCCGGCTTCATTTTTGTTTTGGAAGGAAACAGGGCTAGAGCAGGGAGAA
TCTGAACTGAGAAGCAGAAGAATGTTCTGTGAGCTCTTGCTGTGTGCCGGCGAAAGGCTCTGTGGACTTTCCGTTATTTCATCCTTACCTGCTGAGGGCA
GGGCCTCTGATCGCCCCCAGTGTGTAGATGGGGAAACTGAGGCTGGGCCCAGGAGGCTCCTGAGGGCATGGGGAAGCCTGGCTTTGATCGGAGGTGATGG
TAAATGCCTCACTCACATTATCTCCCTGAGGGCTGGGKGCAGGTGCCCCCACTTGCCCTGTGGGGAAAACGAGGCTCAGAGAACTGCTGCTCAGGGTCAC
AGTGGGAACTGAGAGGCACGGATGACCCTGTGCTGGGCGTCCTCTGTGCCAGGTGGAGTTCTGAACGCTTCACAGGGTGAAACACAAAGCATCCTCTTGG
CAGCCTGAGGAGAGGCCAATGCTGTTGTTCCCCCGTTTACAGATGGGGAAGCAGCGTCACGGCGAGGTGGGGCCACTTTTCCCTGGTGACAGAGCTGGGG
TGTCCTGGAATAGGACAGGGGCCTGCACAGTACAGCCCCAAGCCCTGCTTTACTGCCACCTTTGTTTTATGAGGCCAGCTTTTTTTGTTTGTTTGGTTTT
TGAGACGAAGTCTTGCTCTGTTCACTCAGGCTAGAGTGTAATGGCAAGATCTCAGCTCACTGCAGCCTCCGCCTCCAGGGTTCAAGTGATTCTTCTGCCT
CAGCCTCCCAAGTAGCTGGGATTACAGGCGCCTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCAGGTTTGCCAGGCTGG
TCTCGAACTCCTGACCTCAGGTGATCTGCTTGAGTCCAGTTTTGTGACAGGCACTATGGAAAGTCAGTGAAGGTCAACGGTGGGGGCGGGTCAGACACAT
GACACAGACCACTAGTTACTGGACAGGTGGGCAAGGGAGCCCCCAGAAGTCCAGCGTCAGCTCGGGCGCCCAGAACCAGGGGATGTCTAGATGCCCGCTG
TGGAGCGCTCACAGATGGAGACAGGGTTCACCTGTCTCCAGGTGAGACTCGGCCACCCTGGGAGACGGTTCCTGCCACTTTTCCTCTCTGTGGCCTCCCC
TCTGTCCTTCCTCCCCTTTCCCTACCTCTCCCAGCCCCTGCCCCATCTTTCTCCATGTCTTCRCCTTCTGTCCCCTCTTCSTCTTCCACTTCCACCTTGA
CCTAAACAAAGGCTGCAGGAGAAGATTCATCCTGTGATAAGCACAGGAGTCAGTGCCTGCCTGTGCCAGGGCAGAGCTAGAGGGACTCACTTACAGGTGA
CACTCTAGCGCGGAGGAGAGACGTCCACCGTGATGGGTCAAAATGAGCTCCTAGAGCAAAGACCAAGCCAGGGAAGCATCAGAGCGCTGGGGGAGTGGGT
TGTAAATAGCAAAGTGGGGAACTTGGTGACAGGAGTAGTCAGCGCTTAGACAGTRTCTCCTGTGTGTCCAAGGAGGCAGGGACTGGCCATCTCCAATCTA
CAAATGGGGAAACTGAGGCCCTTGCCCATGGCCACGTGACCAGAAAGCACAGCGCGTGGGTTTGAATCTCCATCTGGGTCACRAGACCCTTAGTGGGCAA
GATGGAGGGGGTGGGAGCAGGAGGGCAGGCGGGAGGGCAGGCTGGGGCCCCGAGGGGTGAGGGCTGCGCCTGTCCTGGCACCCAGGAGCCTCAACCCCGT
GTCCGCCGCTGCAGGGAAGATGCTGATCCTGGGCTCCATGTTCAGCCTGGTGGAGCCTGTGCTCACCATCGCAGCCGCACTTAGCGTCCAGTCGCCCTTC
ACCCGCAGCGCCCAGAGCAGCCCAGAGTGCGCGGCAGCAYGGCGGCCGCTGGAGAGCGACCAGGGTGACCCCTTCACGCTCTTCAACGTCTTCAACGCCT
GGGTGCAGGTGAGGCTGGTGGTGGGGGCCCTCTGTCTGTCACCCTGCTCAGGGCCAAGGCCTTCTGTGGCTGTGGCTCCTCCTCGTGTCCCACCCTCAGC
CCCACCCTGGGAGGACCACTGAGCCCCCCACAGACTGGGCCTGCCTGGGGAGGGCCATGTCTCCATCATCCATGCTTTCGGCTCAGGACAGCATGTGCCC
AGGCCCGGGGCTGAGAGGAGCCTGGGGTTTCTGAAGCACTGATGAAAACCTGTGCCACCTGGAGAAAGTCCAGGCTCCTTGGGAGGCATCTGGAGATCCA
GTATATGTCCCTTGAGTCCTCACCCTAACCCTGGCCCTGTAGTGTAGTGCTGGGGGCCCATCAGTGCCAAAACTACCCTGGCCCTGCCCTCCCGGGGYTC
ACAGCCCAGTGCAGGGAGACAGACCACTGATGTGACAGTGACAACCCAGAGAGGGCTGGAATGGGGAGTCCAGGGGGCTGGGACAACCCAGCGGGGCATC
TAACCCAGTTTGTGGGTAGTCTGGGAGGGCTTCCCATAGGAGGGGGCACTGGGGCTGAGACCTGGAAGCAGGAGAGCAGGTGTCCCTGAGGGATGCCCAT
TTTGGGGCTCTGGGTGCTCGGTCAGCCCCTCCCTSCCCGCACTGGCCAGGCCCTGACACCCTGGCGTCTGCTCCTCCACCCAGGTGAAATCTGAACGGAG
CAGAAACTCTCGCAAGTGGTGCCGCCGCCGGGGCATAGAGGAGCATCGACTGTACGAAATGGCCAACCTTCGGCGCCAGTTCAAGGTGAGGCTCGGGAGG
AGGGGTAAGGCCGGCCCCACTCAGGCAGACGTGTGTAAGCACACTCCAGAACACTGCTTCCCCTTCCCRGACAGTGGTCAGACCAGAATCCCACCCTGCA
CCCACCTCCCCCACCACCCGGTGACCAGGTGTTGGGGCAGCTGGGCAGAGCAAAGGGAGCAGAAATCCAGGAGGGCTTCCTGGAGGGGTGGACCGAGTCA
GTGGACATGCAGCATCCTYGGGAAGAGCTCGCCCTCCRGACTGGGGATGCTGAGCTGGCTGCATGGGCATGGTGTTGGAGGCAGCCTACGGTTGTGGTTG
GCCGGCACATCTGGAGCCAGACACCTCAGCCACARATCCCAGCTCTGCCATTTCTGACAGCGTGGCCCCGGGTGTGTTACTGCTTGTCTCTGGGCCTCAG
CTTCCCCTCGATAAAAAGAGAGGATAAAAATAGCACTTGCCAGCCGGGCRTGGTGGCTCACGCCTATAATCCTAGCACTTTGGGAGGGCGAGGTGGGTGG
ATCACGAGGTCAGGAGATCGTGACCATCCTGGACAACATGGTAAAACTCCGTCTCTTCTAAAAATACAAAAATTAGCCAGGCATGGTGGCACGTGCCTGT
AATCCCAGCTACTTGGGAGGCTGAAGCAGGAGAGTCGTTTGAACCCAGGAGGTGGAGGTTGTGGTGAGCCGAGATTGAGCCATTGCACTCCAGCCTGGGC
AACAAGAGCGAAACTCCACTCAAAAAAAAAAAAAAAAAAAGATTTGGGTTTCTCCTGCGCCCACACAGTTCTGCAGCTTGTTTCATAGATACTGTTCTCC
ATCTGAGTGCAGACAGACCTGCTGTTAGGTCCTTTTCCATGGTTGTATCCATGGATTGAGAATAGAATAAAAGGGTTCCTGGTGTAATCCATTCTGTTTG
GTTGGAGATGGGCAAGCTGAGGCCCAGAGGGGGCAGTCACCCAGCCGACACCTCCKGTACCATTTCTGGGGTCCCGGTGTTGGGGACCACAGATGCCCCG
AWTGCTCTGAGCATGGGTCCCGAGTTCTCTCTGGCTGCTAGAGCAGTGTTCAGGCTTCATTGGTCCCCAGATGCTTTGAGAATCTAATGGAAAGTGTGAG
CCCTTTGCACCCACATGCACACATACAGACACACATGCACGCACAATCTCCTGTGTCCTCCATCGGTCAGGGCTCAGCAGGAAACAGAAGGTCCAACCAA
ATTGGGTCACTTGAGGAATGTTGACAAGATGTGGGCACGGGGAGGGCAGGGGTCTCAGATTTTATGGGTCACAGGCAGCTGGAGGGTCTGTTGGGTCCAG
ATGGCCAACCCCGCCGAGCCCCCTCCTCTCTCCACTTGGTCGTTCTGGGATGAGGCCCAGGACTTGGCATTCCCAGCATGTGCCTAGATGCCCCAGGGCT
ACACTCAGAAGCACTAGTGCAGGACGCCCACCAGGGCTGTGTGGGAAAGCAGGGCCCCCCAGACCCAAGGGGCAGGTGGGGCAGTCAGCAGAGCCTGGAG
CCAGCTGTGGGAAAAGGCACTGGACGCCCGCACCTGCCTCCTCTTGCCCCTGGCCCCGGTGTTCCCTCCACTGACCAGCGAGGACAGCTCTCTCTCTGGA
GCAGCGATCCATGCCCAGCACCATGCGAGGGGCTGTTTTCAGCCCCCTTTGGGCACTAGCAGCCCTGCCACTGGGAGGGTCCCCATTTCCATGAGTCCAG
AGCCCACTGAGTCTGCCCTGAGGCCCTCACCCCTACCCACCTGCCCCTAGGAGCTGTTGGAGGACCACGGGCTGCTGGCTGGGGCCCAGGCCGCGCAGGT
AGGGGACAGCTACAGTCGGTTGCAGCAGCGCCGGGAGCGCCGGGCCCTGCACCAGCTGAAACGCCAGCACGAGGAGGGCGCGGGGCGCAGGCGCAAGGTG
CTGCRGCTGCAGGAGGAGCAGGACGGCGGCTCCAGTGACGAGGACAGGGCTGGCCCAGCCCCCCCAGGGGCCAGTGATGGCGTGGACATCCAGGTGGGCG
CCATGGGCTGTGGGGTGTGGGGGTTTACCAAGGTGGGCCTTGGCCTCTCCTGGGGGGGTCCCAGGGGACATGGCCCTGTCCTCATTTCAGGAGCCGGGTT
TCCATGGACGGTGCTTGGTCYCAGGTATCTGCAGAGCCTGGGGGTCTGCGGATCATGGTAGGAGCCCCTCAGGTCCCCTAAGACTCTGCCTCCCCGTGCT
CCCCCCAGGATGTGAAGTTCAAGCTTCGGCATGACCTGGCGCAGCTGCAGGCCGCTGCCAGCTCAGCCCAGGACCTGAGCCGCGAGCAGCTGGCTCTGCT
GAAGCTRGTGCTGGGCCGGGGCCTGTACCCACAGCTGGCCGTCCCCGACGCCTTCAACAGCAGCCGAAAGGACTCAGACCAGGTGGGGCCTGTTCTGCCC
CATCCTATGTTTTGTCCTCCAACACACGAACCCTGAGTGCCTGTCCTGTGCCGGGAATGCAGTGGTGACTGAAACAACCCTGGTTCTGTCCCCATGGGGC
TCACAACCCAGTGGGAGGACAGACCCATCCCCAGACAACCCAGAGTGGGCAGGGCTTGGGGAGTCMAGAGCACTAYAGGAGCCCACAGGGGGCATCTGCC
CCAGATTTGGAGGAGTCAGGGAGGGCTTCCTGGAGGAGGGRACCTGGGCCAGAGGGTGGAGGAGAGGCATCCTGGGCAGAGGAGAGAGCAGATAGGAGGG
CTTGTGCTTTCTCTCTGTCCTCCGCAGATTTTCCACACGCAGGCCAAGCAGGGCGCCGTGCTGCACCCCACCTGCGTCTTCGCTGGCAGCCCCGAGGTGC
TGCACGCACAGGAGCTGGAGGCCAGCAACTGCGACGGAAGCCGAGGTACAGTGAGCCCAGGCGGAAGGAACCCCCAYCCGGGATGTGAGGGGCAGGGATA
CCGTGAACTCCCAGGCCCCTCTGGCTGGGGCTCCCACACCGGCCCAGGCTGGTATTGACGGGGGCCCACAGGAGGGGAAGTTCCAGGGCCAGGCCTCCCT
GGGTAGCCTTGGGTGACTCACCCCTGCTGGGCCTCACCTTCCGCATGGTGGTGATAGTCAACCTAAGCCAGTGTGGCTGTGCCCAGAGMGTGAGCACCGG
TCAGGGGGCCTGTCCTATGGACTCTGTGAGCTCCCAGGTGGGTCCTGCAGAGGGAGGCCCCCCTGGCACCCGTGTGCATGGAAGGGTGTCTCGCTGCAGG
CATGGCTGCGTGCTGGGAGTCACATTCAGATTTGGCTGACCTTCTTGTCTGAGCCAGGCCACCAAAGCCATGCCGTAAGCATACTCTTTCTATCGATGTG
TACTTTGACCGGGTGGGACAGGCGGGCTTCTGATGGGCCTGGGTGGGCCAGGGTGGGCCTGAGCGGTCCTCCTCAACCTTTCAGACGACAAGGACAAGAT
GAGCAGCAAACACCAGCTCCTCAGCTTCGTGTCCCTGCTGGAGACCAACAAGCCGTACCTGGTGAACTGCGTCCGCATCCCTGCCCTCCAGGTGGGCCTC
TGCCCCACCCCGCCCCCATGCCCAGATATGAGAGCTGCGTTGCCCAGGGTGGTGGGTGGGGGCACCGCGTGGGCTTGGAGGGGCCACCTGGCACCTGGGC
TGGCCGCAGGCGTCAGCCTTGGGCCGTTGCTGTGGCTGCTTTTTCTCTCATTCATGGACTTGCTCAACAGTTAACCTGCCAAGTGCCTGCTGGGTGCCAG
GCGCTGTGCCAGGTGCCAAGGGCGCAGCAGGGAACCAGGCATGAAGCCCAGCCCCTGCCCTCTCGGGCTCTAGTGGCAGGGGACAGTGACAGCAGTAGCA
CAGTGATGCCCTGAGCGACGTGTGGGAGGGTGGACACAGGGTGTGGTACAAGATAAGGCCACCTGGTGTCCCCAGGCAGAGACCCAAAGAGGAGAGCGTG
TGGATCTCGGGGCAGAGTGTTCCAGGCAGTGGGGTGGCCTGCACAGAGGCTCCGAGGCAGACATGTGCCTGGCGTGCAGTCAGCAAGGGAGAGCGTGTGG
AGATGAGGCCAGAGAGGCGAGGGAGACAGGACCCTGGGGACTTCTCAGAGCTGGGACAGGGTCCCAGCCAGGAGGGCTGGCAGCTGCCAGGAGGGAGAGG
AGGGTGCTGCCCCGGTGGAGGCTGAGGCCGAACTCAGATCATGGATGCCCTTGCATGGGCACCGGCAGCAGAGCCATGGGCCCCATGGCAGCCACTGCCC
TGCCCCTAGTGCTCCTCGAGCGTCTTTGTGATCCTAGGCCTGGCCTCGGAGTCCTCACGCAGCCCTGTGGGTCTCCCTTTATAGAGGGGACTGAAGCTCA
GGCAGGGGCGGGGATACGTCACCTAAGTCACACACCGAGCAGGTGGCCAAGCCAGAGCTCCTGGGTCACACTGCCCCCTCCTGCCTCCTGGCTCACTACC
AGCACTCCCCGGCTTGGGTCCCAGGGAACGTGGAGGGGAGAGAGGAACCTGCAGGCTCCTAGAGCCTCAGGGTTTTGTTGACACTGCGATTGCCACCAAC
ACCACAAAAGCCAGCTCAGCTCAGTCACTTCTGTGYGTGTCCACACCTCCCTCGAGCCCGTCTGGTGGGCCAGGCACTGTTAGTGTTCAGTGTTCTGGGG
CCGGGGGTGCAGCTGTGGTCAATGTCAACCAAACTCCCCACCCTCATGGGGCTCAGATAGGATGGTAGAGGCAGACGGCAAACCAAAAGGGTGATGCCAG
GTGCTCATGTGAGCATGGGAAAGCAGGCAGCACGCAGGCCGAGGGACAGAGGATTGGCGACCAGCCGGGCCGCAGGAAGCGGAACAGACCTGCTACCTGA
GGCGCTCTCTCCCTGCACTGGACTGCTTGTTGAGAGAAYCTGGCCAGCTCACACCTGGAATCCCAGCACCTTGGGAGGCTGAGGTGGGAGGATTGTTTGA
GCCCAGGAGTTCAAAGGCAGCCTGGGCAACATAGGGAGACWCTATCTRTCTCTACAAAAAATTTTAAAAAGTTAGCTGGGCGTGGTGTTGTGTGCCTGTA
ATCCCAGCTACTCGGGAGGCTGAGGCAGGAGGATYGCTTGAGCCTGGGAGATTGAGGCTGCAGTGAGCTGTGATTGTTGACACTGCACTCCAGCCTGGGT
GACAGAGTGAGACACTGTCTCAAAAAATAATAAGCCGGGCATGGTGGCTCACGCCTATAATCCCGGCACTTTGGGAGGCCGAGGTGTGTGGATCAGTTGA
GGCCAGGAGTTTGGGACCAGCCTAGCCAATGTGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGTGGGTGGCGCGTGCCTGTAATCCCAG
CTACTAGGGAGGCTGAGGCAGGAAAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATTGCGCCATTGCATTCCAGCCTGGGCAACAGAGT
GAGACTCATCTCAAATAAATAAATAAATTAATAATAAKAAKAAKAAGAAGAAGAAGATGGAGAAACTTCACATTCACATAAGCAGGCAGAACAGTATATG
GAGCCCTCCTGTACCATCCCCGGTCCCCAAACCATCCACGCATGGCCAGTCCTGCCCTTTCCTCTGCCCTGGCCCCAGCCCTGAGGATTTTCCCCAACAT
CTTATGAGCCACAGCACTGSTAATTACAGCGCTGACTTCCGTCCTCACAGAGGAGCGTGTGCTCAGGGTCTGGGCTCTCCCTGCACGTCGTGTGTGTCTG
AGTGCCTGCTGTCCCTCTGCCACCCTGCCTGAGAATGCAGCTGTCTCTCTCCCAGCACGCTCCCATCTGCCGCCCCGCCACCCCAGCCCCCTTCCCTGAC
TCAGCGGCTGCCTTGTTCATGCCGTATCCCCAGCACCCGAAGGGGTGCCTGGTACAGCGGGTAGATGGCGGGTAGGTGGATGCCTCACATAGACAGGGCT
GGTGGGTGGGCAGGAGCCCAGCCGGGCAGRGCCTGTCTCCAATAGCGCCCTGCCCCTCCCACCTACTCCCTGTCTTCTGCCCCCYCTCTTTCAGTCCCTC
CTGCTTTTTAGCCGGTCTTTGGACACCAATGGTGACTGCTCCCGCCTGGTGGCCGATGGCTGGCTGGAGCTGCAGCTAGCAGACAGTGAAAGTGCCATCC
GACTCCTGGCGGCKTCCCTGCGGCTCCGTGCCCGCTGGGAAAGTGCCCTGGACCGGCAGCTGGCGCACCAGGCCCAGCAGCAGCTGGAGGAGGAGGAGGA
GGATACGCCAGTCAGCCCCAAGGAGGTGGCCACCCTGAGCAAGGAACTCCTGCAATTCACGGCATCCAAGGTACCCTCCACCAGGGTGCCCGTGCCTCCC
TATGGCCAGAAGGGGCATCCGTCACTGGGCTTGAGCCTCGGGAAGGCCTGGCTTCCCATTCACTCCACATGGGCACATTTGGGGGTTTTCAGGCCACAGA
GGTTCAGTCACTTACACAAGGTCACTCCACTGGTCTGGGTGGAGCTAGGATTTGATCCCAGGAGCCTGGTTCCAGAGGCCACACTACCCACTGCTGCCTT
GTTTACTAAGCACCTTCTGCAAGCGTGGCTGATCCCCTCTTGCTAACAGTAAAGGACAGGCAGGGTGTGAGAGGGAAGCCGTAGACGTCTGCTTGTGGAT
GGGAAGAACTGAACTGAGCAGACTTGAAACCAGCCCCTGACTCTTAGGTGGGGAGTGGAAATTGCTCGTGGTTCTACTTCATGTGGGTGGGGTGGGGAGA
AGGGTACAATCCAGGCTGACTTCCTGGAGTAGAAGGGCTTGAGGACAAAGGAGCAGGAACCCAGTGAGCCATGGAGAGGGGACCAAGGCTGACATGCTAG
GAGGAGGAGGGGGGAGGTGGCCAGACTTGAAGGTTAGACTCAAGGTCTGAATGGGGTCCCACCAGTGACAGGGGCAGAAGAGGGGCCTGGGGAGGGCAAT
TTAGATGGGGGTGGGTTATCAGGTATATTCTAGACAGACCCCTGGTCATGTGTGTCTGCAGCCAAATTGTGATTGGTGTAAGCACTTGGCTCCCGTAACT
GCAAAGCCCGAGGGAGGGCTTCAGGCACAGCTGGATCCAGGTGCTTTGGCGGCATCTCCCTGAGTCTGTCTCTCTCCATTKCCTGTCTCTCCTTCCTTAG
ATTCCTTACAGCCTCCGGCGGCTCACAGGGCTAGAAGTCCAGAACATGTATGTGGGACCCCAGACCATCCCAGCCACCCCCCATCTTCCTGGCCTCTTTG
GCAGCTCCACCCTGTCCCCCCACCCCACAAAGGGGGGCTACGCAGTCACTGACTTCCTCACCTACAACTGCCTCACGGTAAGCATGAACCCTCCTTCCCT
GAAGGTGGGATTTCAGGAAGACCCCACCACCCCGTTTCACCTTAGTCCAGGGACATAGTTCCCAAGTGGGGCCCRTGGCCCTGAGGGCTTCTGGGAAGGG
TCCCGGGGGGGCACTTGGGTGGTGGGTGGCACTTGGCGGGGGCCCAGCCCTGACAGCTGGCCTGCCACAGAATGACACAGACCTGTACAGCGACTGTCTC
CGAACCTTCTGGACCTGCCCCCACTGTGGCCTGCATGCGCCCCTCACGCCCCTGGAGCGCATCGCCCATGAGAACACCTGCCCCCAGGCCCCACAGGATG
GGCCCCCAGGTAAGCACAGGACTGTGGGGACCCGGCCACCTCTGCCCAGCCGTCTGYCCATCCCATGATGGTCTCCTGTGCGTGTGAGCACTTGCTAGAG
CTTCGAGGACTGACGACCTCCACCCGCTGGCCCTGGCTGGTGCCACACACAGGCCTTGTCCTGAAGATCAGGAGCCCAAGGCAGGGAGAGCCTGGAGCGC
CACCTCTTTCTGTCTGCCTGTCCCCTGTGGTGTCTCTGTGTTGCTGTCTTTGTCTCTGTTTCTGTCTCTCTGTGGCTATGTCTCTTGTTATTTTTCTCTG
TCCTGCAGCTATCTCTGCCTTGGTCACCTCCACCCTGTTGTCACCCAGGGATGCCACACACTGGGGTTCAGTGGGGGAGATAGCACTGGGGCCACATGCC
TCCATCCCCGGCTGGCTGTGTCTGCCTSTCAGTCTCCATGTCTCTCCTTGTGTCTTTCTCTCTGTCTCTCTCACTGGCAGGGATGCRGAGTAAAGACAGA
CCTGTGTATTTTTATTAATCTGGGAGGGCTTCCTGGAGGAGGCAAAACTGGGTTCTCCAAAGGCCAGGAGAGAACCTGAGCCCCACAGGTGCCTGGCATT
TGGGTGCRGGTAGACCTGTGCACTGGAACACGCCCCTCACAGCCTCCTCCTTTTCCTCCCTTAGGGGCTGAGGAAGCTGCCCTCGAAACCCTCCAGAAGA
CATCTGTCCTGCAGAGGCCCTACCACTGCGAGGCCTGCGGGAAGGACTTCCTCTTTACACCCACAGAGGTGCTGCGCCACCGGAAGCAGCACGTGTGAGC
TGGGCCAGGAGCCCTGCCCACCTCCGTGCAGCTGACCTGCYCTCCAGCCCAGGACTAGGGGCAGGACTCTTGCCTGAACCCCCAGCCTGGGCTTAGCCCT
GTGGTCCYGTCCCAGTGCAGAGGGCCTGGAGCACGGATTGTGAATAAAGCCKCACATGCTGATACACACTGTTAGGCCTGCACCTGCCCATCCAGAAAGC
AGCAGCTGCCTTGTTAGTCCTCCCCAGGGTCTAGCTTTCCTTCTTCCTGCTGCAGGGTGCTGCCTGAGGGGTCCTGGGTAGGAGGGGCKTTAGAGCCAGC
AGGGACCTCCCATGTCTCCAGATTCCAGGTGCAGGTTCTTAGCACCTCCGCAGCCGCTCTCTCTTGAGTCCATCCTCAGTCTCTCCTWCCCCTTGAAGTA
GGGGGACCCTGAATTTGCCCATCCACCTGGGTCACTTTGAGAGTTGTGCAGGGGGGCTGGGAGCACTGGTGTTCACGTGGGACCACAGGCTGCACCATAA
GACCCACTCACAATAAAAAAATAAAAGGCCGAGCCGGGCATGGTTGCTCACTCCCGTAATAAAAAAATAAAAGAACAGGCTGAGCCGGGCATRGTTGCTC
ACTCCCGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCGCCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACCCTGTCTCTA
CTAGAAATACAAAAACTTAGCTGGGTGTGGTGGTGGGCATCTTTAATCCCAGCTACTGGGGAGGCTGAGGCAGGGGAATCACTTGAACCTGGGAGGCAGA
GGTTGCAATGAGCTGAGATCATGCCATTGCACTCCAGCCTGGGCGACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAATCAGGCTGAGGCAGG
TGGTTTGCCTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAACACGGTGAAACCCCATCTCTATTAAAATACAAAAAATTAGCTGGGCGTGGCAGCGTGTG
CCTGTAATCCCAGCTATTCAGGAGGCTGAGACAGGAGAATTGCTAGAACCCAGGAGGCGGAGGTTGCTTGTGAGCCGAGATCGTGCCACTGCACTCCAGC
CTGGGTGACAGAGCGAGACTCCATCTCTAAAAGAAAAAAAGAAAATGAAAAGAACAATAAAATCACTCAGGAGAAAAAGAAGGCACGGCATAGGAATGGA
AGGAGGACAACCTGTAGGTCCTACAGATGCGAAAAGGAGAAGAGAATACGATAAACAACGTGCCACACAGAAATTCACTCATTTGAAATGGAAAAAATTA
TTGAAAGACACTARCTACCCAAAGCTCATTCAGGAAGAAATAGATAACCGGAACAACTCTATTAAGGAAATGTAATTCATAGTTAACAAAGAGAACAGGC
TCAGATGGGCTCCCTGGTGACGTCTACCAAACATGGAAATGATACTCGCCCACACCCACTTGGCCACAGCATAGGGGAGGACGCCTCCTGACTGATGTTA
TGAGGTCAGCATTATCCTGCTGCTAAAAGCAGGCTATGACAATGCAAGAAAAGAAAACTCTAAGCCTTATGAACATAGACAAAAACCCTAAATAGGAGTT
CAGCACATCATATTTAGCAATATATAAATACAGTACATCATGGCCAACTGGGGCTTATTCTAGGAATGGAAGGTTGATTTAACATTTGAAAATCAATCTG
ATTCACCATATTAGAAACAGAAAAAAAAAAAAAGGTTGGGCATGGTGGTTCATGCCTGTAATTCCAGCACTTTGGGAGGCCSATAAGGGTGGATCAGTTG
AGTCCAGGAGTTCCAGACTGGGATGGGGAACATAGCAAGACCCTGTCTCTATTAAAAAACACAAAAATTAGCCAGGTGTGGTGGTGCACGCCTATAGTCC
CAGCTGCTCGGGAGGCTGAGGTGGGAAGATCACTTGGTGTCAGAAGGCAGACATTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAG
AGCAAGACCCCATCTCAAAGAAAAAAAGTATATAAACCCCTAGTCTTAGTCAGGGAGATGGATTTGAGAGTCATTTCCCATCTCCTTGGCTGCACATCTC
ATTAAAGCCCTCTTCCTTGGCAATACTCGCTTTAGTGATTGGCTTTCTGTGCGACCAGCAGCAGGACCTGGACTGAACCCCTGATTTTTGGTAACAGATT
CCATTCAACAGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGGCAGGGTCTCGTTCTGTTGCCCGGGCTGGAGTGCAGTGGTGCAATCTCAGCTT
ACTGCAGCCTCCACCTCCTGGGCTCAAGTGATCCTCCCAAATCAGTCTCCCAAGTACCTGGGATTACAGGCRTGTGCCACCATGCCCAGCTAATTTTTGG
GTGTGAATAGGTTTTTTTGTTTGTTTTTTGTAGAGAGTTTCACCATGATGCCCAGGTTGGTCTGGAACCATGGGCTTCCTTTCTTTCCAAGGAAGAAGGC
TTTAATCAGATGCGTGGCTGAGGAGATGGGAAATCAGTCTCAAATCCGTCTCCCTAACTAAAACTAGGGGTTTATATACTTTTTTTCTTTGAGATGGGGT
CTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAATGTCTGCCTTCTGACACCAAGTGATCTTCCCACCTCAGCCTCCCGAG
TAGCTGGGACTATAAGCGTGCACCACCACACCTGGCTAAATTTTGTGTTTGGTGATCTGCCCACCTCAGCTTCCCAAAATGCTGAGATTACAGGTGTGAG
CCACTGCACCCGGCTCATTCAACAGTATTTATTTAATTTATTTATTTTTGAGGCGGAGTTTCGCTCTTGTTGCTGAGGCTGGAGTGCAATGGCTCAATCT
CGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGGTTCTCCTGCCTCAGCCTCCCAAGTACCTGGGATTACAGGCGAGTGTCACCACACCCAGCTAAT
TTTGTATTTTTAGTAGAGACGGGGGTTTCTCTATGTTGGTCAGGCTGGTCTYGAACTCCCGACCTCAGGTGATCTGCCCGCCTCAGCCTCCTAAAAATGT
TGAGATTACAGGCATGAGCCACCACGCTCAGCCTCAACAGTCTTTTAAAATGTTCCTCTTGAAGGCTAACATGCACAAATTATAAGTAAACAGCTTGGTG
AATTTTCCCAGATGAAACATACCTGTGCCAGCAGCACCCAGATAAAAAAATAAAACACCAGCAGCCCTCCACCCGCTGCAGCCCAGCTCCTCCGTCTCCC
AGGAGTGWCCAATATTYTTTTTTTTTGAGATGGAGTTTTGCTCTTGTCGCCCAGGCTGGAGTGCAACGGTGCAATCTCGGCTCCCTGCAACCTCTGCTTC
TGGGATTCAAGCAATTCTCCTGCCTCAGCCTTCCGAGTATGTGGGATTACAGGCACCCGCCACCATGCCCAGCTAATTTTGCATTTTTAGTAGAGACGGG
TTTTCACCATGTTGGCCAARTTGGTCTTGAACTACTGACCTCAGGTGATCCTCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGC
ACCCGGCCGTGACCAACATTCTTAATCTGTCCTCTAGTGCTGGCCACTCTAAAACTTCACAAGAATGTGCTGTCTGTGTCTAGCTTCTTTTACCCAACAT
GAGSTTGCATGGGCTTGGTTCATTCATTCTGTTCCATGAATTCATCACAATATATCCATTCTTTTGTCCAGGGACATTTGGCTTCCAGAAACCTACCCCT
AACACCAGCCCTTCCCTCCCTCTGCAGAACAAAGGCCCCATCAGAGGGGACGTGCTGGGTGTCAGCGTCAGCTTCTGGGAGGAGGAAGGTCAGAGCTAAG
GCCTGAAGGATGATGAGGTATCARGTGGGTGGAGGGGAGACGCTCAGGAGGTGGGAAAGGCGGAGGTGCACAGGCTTGGTTCCAGGTACAAATAACGTTA
CTAGGAGCACACAGTACCTGGATTTTGATGAATACATTGTACATTTCTGTCCTGTATGTATCCAGGGTTATAGGACGTGATTATAGGACACGCATATATG
TTTGGTTTTAGTGGACTCTTAAAAATTGTTTTCCAGGGGCCGGGCACAGTGGCTTACGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGCAGATCA
CCTGAGGTCAGGAGTTCAAGATCAGCCTGACCAACATGGAGAAACCCCGTCTCTATTGGGAGGCCGAGGCGGGAGGATCACAAAGTCAGGAGATCGAGAC
CATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCTGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCT
GAGGCAGGAGAATGGAGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGTTGACAGAGCAAGACTCCGTCTCA
AAAAAGAAAAAAAAAAAAAAAAAGAAAACCCGTCTCTACTAAAAATACAAAATTTAGCCAGGCATGGTGGCGCATGCCTGTAATCCCAGCTACTCCAGAG
GCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGTGGTGAGCTGAGGTTGCGGTGAGCTGAGATTGCGCCATTGCACTCCAGCCTGGGCAAC
AAGAGCAAAACTCCGCCTCAAAAAAAAAAAGAAATTGTTTTCCAGGCCAGGTGCAGTAGCTCACACCTGTAATCCCAGCACTTTAGGAGGCTGAGGCGGG
CGGATCACGAGGTCAGGAGTTTGAGATCAGCCTGGCCAACACGGTGAAACCTTGTCTCTATGAAAAATTCAAAAATTAGCCAGGTGTGGTGGCGGGCACC
TGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATTGCACTACTGCACTCCAGCATT
GATGACAGATCTAGACTCCATCTCAAAAAAAAAAAAGAAAAAAAAAAAGAGTTGTTTACATATTCCTGAAACAAGTCGTTTGTTAGATATGCATATTGTA
AATATTTTCTCCAAGTCTATACTTGCCTTTTCATTTCATTATTTCTATTTTTTGTAGAGACAGGCAGGGTCTTGCTGTGTTACCCAGGCTGGTCTCAAAC
TCCTGGCCTCAAGTGATCCTTCCGCCTCAGCCTCCCAAAATGCTGGGATTACAGGTGTGAAACAGTGCGCCTGACCCATCTTTATCATTTTCTTAACAGT
ATCTTTTGCAGAGCAGAATTTGTTTTTTTGAGACAGGGTCTCACTGTGTTGCCCAGGCTGGAATGCAGTGGTGTGATCATGGCTCACTGCAGCCTCGACC
TGCCCGGGCTCAGGTGATCCTCTCACCTCAGCCTCCTGAGTAGCTGGGACTAGACGCACATGCTACCACACCTGGCTAATTTTTGTTTTTTTTTGTAGAG
ATGAGGTTTTGCCATATTGCCCAGCCTGGTCTTGACTTCCTGGGGCTCAAGTGATCCTCTCACCTTGGCATCCCAAAGTGCTGGGATTACAGGCATGAAC
TACTGCACCTGACCCACGTTTATCATTTTCTTAACAGTGTCTTTTGCGGAGCAGAAGTTGTTGTTGTTGTTGTTGTTTTGAGATAGGGTCTCACTGTGTT
GCCCAGGCTGGAGTGCAGTGGCATAATCACAGCTCACTGCAGCCTCAGCCTCCTTGGGCTCAGGTGATTCTCCCAGTTCAGCCTCCTGAGTAGCTGGGAC
TACAGGCAGGTGCCACCACACCCAACTAATTTTTGTATTTTTTGTAGAGATGGCATCTGGCCATGTTGCCCAGGCTGGTCTCGAACTGGGCTTAAGCAAT
CCTCCCACGTTGGCCTTCCAAAGTGCTGGGATTACAGGTGTGAGTTGCTGCTCCTGGACAAGAGAAGTTTTGTATTTTGATGGAATTTCAAATTATCATT
TTCTTTTGTCATTTCTACTTTTTCTGTTCTACCTAACAAATCTTTGCCTACCCTCAAGATCATGAAGTTTTTTCTTATGTTTTCTTCTAGTTTAATAGTT
TTAGATTTTTAATATAAACCGTTAGGTCTRTGGTCCATTTCCAGTTAGGCATTGTGTATGATGTGAGTTAACGCTCATGGCTCATTTTTCTGCATATGGA
TGTCTAATGGTTCCAGAACCATTTTTTGAAAAAAGTATTCATTTCCCCATTGAATTAATTTAATACCTTTACTGAAAATCAGTAGACTAGGCTGGGCGCA
GTGGCTCACGCCAGTAATCCCAGCACTTTGGGAGGCTGAAGCGGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCT
GTCTGTATGAAAAATCCAAAAATTAGCTGGGTGTGGTGGCATGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCGGGAGGATCGCTTGAACCTGGGA
GCAGAGGTTACAGTGAGCTGAGATCGCACCATTGCACTCCAGCCTGGGCGACAGAGCGAAACTCCGTCTCAGAGTAAATAAATAAGCAAAAATTAGCCTG
GCATGGTGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACTTGGGAGGCAGAGGTTGCAGTGAGCTGAGCCGAGAT
CACGCCACTGCCCTCCAGCCTGGGCAACACAGTGAGACTCTGTCTCAAAAAAAAAAAGAGACAGATTCTCGCTTTCGCTTTGTCATCTGGGGTGGAGTGC
AATAGAGCAATGGCTCAATCTCAGCTCACTGCAACCTCCACTTCCTGGATTCAAGTGATTCTCATGCTGCAGCCTCCAAAGTAGCTGGAATTACAGGCAA
GCACCACCACGCCCAGCTAATTTTTTATTTTTATTATTTTTTATTTTTTTATTTTTTGTAGGGACAGGTTTTCACTCTGTTGGCCAGGCTGGTCTCAAAC
TCCTGGCTTCAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCTACCGCGCCTGGTCGGTTCTTCTTTAATTTAGCAATAT
TTCATAATTTTCAGAATACAGATCTTGCACAAACATAGTGCAGGCGCCCAGGCCACAGTTTCCCCTCACCAGGGGCCAACCATTGCTGAATCACAGAGAG
CCCTGTGGGCCGGGAGTAGGCAAGGAGAATGTTGTCATCCTCATTTTGTATGGCTGCTTTATCATTTGTAAAAGGAAGTTAAGGATCGTTCCCACCTCAC
AAGTTGTTGTTGAGAGTTGATGCATTAGTCCACGTGCTTAGAGCAGGGATTGGCACATAAACGGTTCTCAGCAAACATCAGCTACAGTGATCACTAAGGC
AACAGGAAAAGTAACCAACATTTGACTGTCACTCTTCTTCTGTGACATCAGAGACAAATAGGGCTACTTCCCAAGTCAGCAATATGGGTATAGGTTTTCT
CTCTTACCTGCTGCACCCAATGAGTCCGTAGGCCCTGTCCTTCCTCCCTCCATCTTCTGCTGTGTGTGTGTGCGCACGTGTGTTTGAGACAGAGTCTTTT
ACTGTCACCCAGGATGGAGTGCAGTAGTGCAATCTCGGCTCACTGCAACCTCCGCCTCCCAGATTCAAACAATTCTTGTGCCTCAGCCTCCCAAGTAGCT
GAGACTACAGGCATGCACCACCACGCCTGGCTAAACTTTTTGTATTTTTAGTAGAGGTGGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAATTCCTGGG
CTCAAGCGATCCTCCCACCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCATGTTTTGCTGTTTACCCCCTGCCAGTTGCT
GTAGCAGCCACACACTGACCATCCCTGGAAGGTGACACATGCTCATTTTGGTGACACCCTCATCTCCAAAATGCCTGGCTCTGTTTCCCAATATCCTTTC
TCTTTCTCTTTTTTTTTTTTAGATGGAGTCTTGCTCTGTCATGCAGGCTGGAGTGCAGTGGCACCATCTCAGCTCACTGCAGGCTCTGCCTCCTGGGTTC
AAATGATTGTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAAATGCCCGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGATTCAC
CATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCTCCCACCTCGGCCTCCCAAAGTACTGGGATTACAGGCATGAGCCACCATGCTGGGC
CCCAATATCCTTTATGCACCTTCCTGCAGTCCCTGGATGAGCCCCTCCCTCCCTGTGCTCCTCCCCTCCTCGCCACCCTCTCGCCTCCACTCTGCCTCCC
TGTGTACCAAAACCCCACAGACTGGATGACTTGAAACAACAGATCTCTCACATTCTTGGGGGCCAGAAATTGGAAGTCAAGGTGTTGGCTGGGCTGAGCT
CCCTCGGGAACCTGCCAGGAGTCTTCCCTGCCTCTCTCTAGCTTCTGTCACACTGCTGGCAGTCCCCTTTTATAGAAGGGCATGTGTCATATTGGACCAG
AGCCCACCCTATGACCTCATCTGAAAAGACCCTTTTTCCAAATAAGGTCACATGCACAGGCGCTGGGAAGAGGAATTAGCATACCCTCTGGCGGGACACA
ATTCAACCCATCCTACCCCGTCTAATCCACTGGAGGGATAAAGCGCTAGCCCGACTCTGTCCCTTCTCTGCTCAGAGTTCTTCCAGGACAATGAAATATC
ATTCAGCAATGAAAAGGAATGACAGGCTGGGCGTGGTGACTCACGCCTTTAATCCTAGCTCTTTGGGAGGCTGAGGCTTAAGCCCAGGAGATCGAGACCA
GCCTGGACAACATAGTGAGACCCCATCTCTACAAAAGATACAAAAAATAGCTGGGCGTGGTGGTATATGCCTGTAGTCCTAGCTATTTGAGAGGCTGAGG
TGGGAAGATCGCTTGAGCCTGGGTGATCCAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCAGCCTGGGCAACGGAGCGAGACCCTGTCTCTAAAAA
AGAAACAAAACAAAAAATACACACAAAAAAATGGAATGACTGACAGACACTACAGCAGTGCTGCAGCTGGAAGACATGCTACTGAAAGAAGCCAGTCACA
AAGGGCAGTGTAGCGTGATTCCACTTACGTGAAATGTCCAGAATAGGCAAACCCATGGAGACAGAAAGGGGATTAGTGGTTGCCGAGGACTGGGGGCCGG
CGATCACTGTTAGGAGGTTCAGAGTTTCTTTTGGGGATGTTGAAAATATTCTAGAATTGATTGTGGTGACAGGTGCACAACCCTATAAATACACTAAAAG
CCATTGAACTGTACGCTTTAAATGGGTGAATTTTATGTATGAATCAGGTCTCAATGAAGCTGTTAACAAAAAGAACTCTATGGCTCTCCAGCGCCCCCTG
GAGGGATGCAGGATCATTGCCTTCCCTCAAGGTTCCACCAGGCCGGCCTCCCTTCCGCGGCTCCCTCTATCCTGTCAGGGCCTGTGCACCTCCGCCTTCC
CCATCTCCTGAGCTTCTCCCCTCCACCCACATCACGCCTCATCATCCTTCAGGTCTTAGCTCCCACCTTCCTCCTCCCGGAAGCCGACCCTGACGCCCAG
CATGTCCCCTCTGATGGGGCCTTTGTTCTGCAGAGGGAGGGGAGGGGCTGGTGTTAGGGGTGGATTCCTGGAATTCTTTTTAAAAATGTATTATCTTTAG
AGATAGAGTCTCATTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCACAGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGTGATCCTCCTGCCTCAG
CCTCCCGAGTAGCTGGGACCACAGGCCTGCACCACCAYATCTGGCTAATTGTTTAAACTTTTTGTAGAGACAGGTCTCACTATGTTGCCCAGGCTAGTCT
CGAACTCCTGGCCTTAAGAGATTCTCCCACCTGGGCCTCCCAATGTGTTGGGATTACTGGCATGAACCACCGCCCGGCCAAGTCATAGCACTCTGGTGGC
TGCTCTGACTCTGCTGTCCAAGCGGTAACCACCCACCTTGCCTTTGGTCATTAAGTTCTGTCACTTGGTCCCTGCCACCCTGAGATCCAATTATCCCCAT
TGGAGTCAGGCTTTCCGATTCTTGCTCTGTCCACCCAGGCTGGAGTGCAGTGGCGTAATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATT
CTCCTGCCTCAGCCTCCTGAGTAGCCAGGGATTACAGGCACCCGCCACCACACCCAGCTAATTGTTTTGTATTTTTAGTAGAGATGGGGTTTCATCTTGT
TGGCCAGGCTGGTCTCGAACCCCTGACCTCAGTGATCCGCCTGCCTTGGCCTCCCAAAGTGCAGAGATTACAGGCGAGAGCCACCGTGCCCACCATAATT
TTTGTAT


SNP Information

Context             (SEQ ID NO:17757):
TTGTAATTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGGCTCAAACTCCTGACCTCAGGTGATCCACCCACTTCGGCCTCCCAAAGTTTTGG
R
ATTACAGGTGTGAGCCACCACGTTGGGCTGCGAGGGTAATTCTTGACGATCACTGCAATGCAAACTGCCATCTTGGAAGGCCAATAATAGTCCTTCTGTC
Celera SNP ID:            hCV3171081
SNP Position Genomic:     10928
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17758):
GAAGGACTTCCTCTTTACACCCACAGAGGTGCTGCGCCACCGGAAGCAGCACGTGTGAGCTGGGCCAGGAGCCCTGCCCACCTCCGTGCAGCTGACCTGC
Y
CTCCAGCCCAGGACTAGGGGCAGGACTCTTGCCTGAACCCCCAGCCTGGGCTTAGCCCTGTGGTCCTGTCCCAGTGCAGAGGGCCTGGAGCACGGATTGT
Celera SNP ID:            hCV15871510
SNP Position Genomic:     38841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17759):
AGCTGGGCATGGTGACGCACGCCTGTAATCCCAGCTACTTGGAAGGCTGAGGCAGGAGAATTGCTTGAACCCGGAGGTCGAGGTTGCAGTGAGCCAAGAT
S
GCTCCACTGCACTCCACCCTGGGAACAGAGCAAGATCCCATCTCAAAAAAAAAAAAAAGAAAGAAAAGAAAGAGAGAGAGAGAGTGCGAGCCGAGTGTGG
Celera SNP ID:            hCV1997518
SNP Position Genomic:     13278
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17760):
CTAGGATTACAGGTGTGAGCCAACTATGCTGGGAAATCAGCCAACCAACCTGGCTCAGGCTCAGGGTCCTCTCCTGGTCAGCCAACCAACCTGATTTCTA
R
GTTTTTAATCCTGGTTTCATCACCTAGAATATTTTTCTTGTTGAAGCTACTCTAAACATAAGATAATGCATGCATTGTAAGTATATAGCTTAATTAGTTT
Celera SNP ID:            hCV1997519
SNP Position Genomic:     13889
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17761):
AACCCTGGTTCTGTCCCCATGGGGCTCACAACCCAGTGGGAGGACAGACCCATCCCCAGACAACCCAGAGTGGGCAGGGCTTGGGGAGTCAAGAGCACTA
Y
AGGAGCCCACAGGGGGCATCTGCCCCAGATTTGGAGGAGTCAGGGAGGGCTTCCTGGAGGAGGGAACCTGGGCCAGAGGGTGGAGGAGAGGCATCCTGGG
Celera SNP ID:            hCV25763348
SNP Position Genomic:     32976
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,22)   caucasian(C,1|T,37)   total(C,9|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:17762):
CACGTTCGGCGGCCACCAAGATTGTATTCCTGACAGTGGGGCTGCTCCTGCGACAAATCCAGCGGGAACCCAGCCTGCCCCAGTATGAGGTCCTGATTGT
R
GATGAAGTCCATGAGCGGCATCTCCACAACGATTTCCTCCTGGGCGTCCTCCAGCGCCTGTTGCCCACGCGGCCTGACCTCAAGGTCATCCTCATGTCGG
Celera SNP ID:            hCV15962560
SNP Position Genomic:     11862
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,3|G,35)   total(A,13|G,63)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(A,116|G,1375)   total(G,1375|A,116)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:17763):
CAGAGTGGGCAGGGCTTGGGGAGTCAAGAGCACTATAGGAGCCCACAGGGGGCATCTGCCCCAGATTTGGAGGAGTCAGGGAGGGCTTCCTGGAGGAGGG
R
ACCTGGGCCAGAGGGTGGAGGAGAGGCATCCTGGGCAGAGGAGAGAGCAGATAGGAGGGCTTGTGCTTTCTCTCTGTCCTCCGCAGATTTTCCACACGCA
Celera SNP ID:            hCV1997487
SNP Position Genomic:     33041
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,24)   caucasian(A,23|G,15)   total(A,29|G,39)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17764):
GGTCTTTGGACACCAATGGTGACTGCTCCCGCCTGGTGGCCGATGGCTGGCTGGAGCTGCAGCTAGCAGACAGTGAAAGTGCCATCCGACTCCTGGCGGC
K
TCCCTGCGGCTCCGTGCCCGCTGGGAAAGTGCCCTGGACCGGCAGCTGGCGCACCAGGCCCAGCAGCAGCTGGAGGAGGAGGAGGAGGATACGCCAGTCA
Celera SNP ID:            hCV25952618
SNP Position Genomic:     36514
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,28)   caucasian(G,1|T,17)   total(G,5|T,45)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:17765):
GAACCCAGCCTGCCCCAGTATGAGGTCCTGATTGTGGATGAAGTCCATGAGCGGCATCTCCACAACGATTTCCTCCTGGGCGTCCTCCAGCGCCTGTTGC
S
CACGCGGCCTGACCTCAAGGTCATCCTCATGTCGGCCACCATCAACATCTCGCTCTTCTCCAGCTATTTCAGCAATGCCCCTGTGGTACAGGTGCCTGGG
Celera SNP ID:            hCV25763815
SNP Position Genomic:     11927
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|G,1)   total(C,75|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17766):
AGGATGTGAAGTTCAAGCTTCGGCATGACCTGGCGCAGCTGCAGGCCGCTGCCAGCTCAGCCCAGGACCTGAGCCGCGAGCAGCTGGCTCTGCTGAAGCT
R
GTGCTGGGCCGGGGCCTGTACCCACAGCTGGCCGTCCCCGACGCCTTCAACAGCAGCCGAAAGGACTCAGACCAGGTGGGGCCTGTTCTGCCCCATCCTA
Celera SNP ID:            hCV1997488
SNP Position Genomic:     32707
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:17767):
TGATGCAGTGAGCCGAGACCATGCCATTGTACTCTAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAGCAAAAACAAACAGG
Y
GAGATTCATTTTGATAAAATAGCTGATTCAACCTAATATACCTAAAACATCACAATTTTAACATAATCAATAGAAACATTTTTGCAAGATTTTATGTTAT
Celera SNP ID:            hCV26302085
SNP Position Genomic:     24626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17768):
TTGGAGATGGGCAAGCTGAGGCCCAGAGGGGGCAGTCACCCAGCCGACACCTCCTGTACCATTTCTGGGGTCCCGGTGTTGGGGACCACAGATGCCCCGA
W
TGCTCTGAGCATGGGTCCCGAGTTCTCTCTGGCTGCTAGAGCAGTGTTCAGGCTTCATTGGTCCCCAGATGCTTTGAGAATCTAATGGAAAGTGTGAGCC
Celera SNP ID:            hCV1997489
SNP Position Genomic:     31402
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|T,8)      total(A,6|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17769):
TGCAGTGAGCCGAGACCATGCCATTGTACTCTAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAGCAAAAACAAACAGGTGA
S
ATTCATTTTGATAAAATAGCTGATTCAACCTAATATACCTAAAACATCACAATTTTAACATAATCAATAGAAACATTTTTGCAAGATTTTATGTTATTTT
Celera SNP ID:            hCV26302086
SNP Position Genomic:     24629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17770):
TTGTGTCCATCCCAGAGATCACTGCAGATGTCATGAGGTACCCTTTGTGTCACCAGCTCAAGCAGGCCTCTGGCCACTTTATCATCTGTGGTGGTCCTGT
S
CCGTGACCAGGAGGAAAAATTAGCTCTTTGAAGAGAAAGTAGTTCTCTATTGCAGGCACTGGCCTCTTAAATTGTTGCAGGTGGGGAATGGATGAGAATA
Celera SNP ID:            hCV7513876
SNP Position Genomic:     9578
SNP Source:               Applera
Population(Allele,Count): african american(C,13|G,25)   caucasian(C,3|G,37)   total(C,16|G,62)
SNP Type:                 UTR 5

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|G,10)      total(G,10|C,3) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:17771):
CCTGACTCAAGACTTTCTATTTCCAGCAGCCTGAGGCCCACCATGGCAGGACCACCCATGTATGTGTGTTAACACCATTAAAGCCCCCATCCTTGCAGCA
Y
AGCAGGGCTTCAGTGTGGGCAGGAGGCTGGATCCGCTGGACTTGGAGGGCTGCCCAGGCTAAGAAGATGGTTCATTTTTGTTTTATTTATTTATTTAGAG
Celera SNP ID:            hCV26302087
SNP Position Genomic:     27282
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17772):
GGACTAGGGGCAGGACTCTTGCCTGAACCCCCAGCCTGGGCTTAGCCCTGTGGTCCTGTCCCAGTGCAGAGGGCCTGGAGCACGGATTGTGAATAAAGCC
K
CACATGCTGATACACACTGTTAGGCCTGCACCTGCCCATCCAGAAAGCAGCAGCTGCCTTGTTAGTCCTCCCCAGGGTCTAGCTTTCCTTCTTCCTGCTG
Celera SNP ID:            hCV16057845
SNP Position Genomic:     38952
SNP Source:               Applera
Population(Allele,Count): african american(G,8|T,26)   caucasian(G,3|T,35)   total(G,11|T,61)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:17773):
CAGCCAACCAACCTGGCTCAGGCTCAGGGTCCTCTCCTGGTCAGCCAACCAACCTGATTTCTAGGTTTTTAATCCTGGTTTCATCACCTAGAATATTTTT
Y
TTGTTGAAGCTACTCTAAACATAAGATAATGCATGCATTGTAAGTATATAGCTTAATTAGTTTTCACCAGTTACATACATCTGTGTAGCTAGCACCCAGG
Celera SNP ID:            hCV16057881
SNP Position Genomic:     13926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17774):
AGACGGTTCCTGCCACTTTTCCTCTCTGTGGCCTCCCCTCTGTCCTTCCTCCCCTTTCCCTACCTCTCCCAGCCCCTGCCCCATCTTTCTCCATGTCTTC
R
CCTTCTGTCCCCTCTTCCTCTTCCACTTCCACCTTGACCTAAACAAAGGCTGCAGGAGAAGATTCATCCTGTGATAAGCACAGGAGTCAGTGCCTGCCTG
Celera SNP ID:            hCV16057882
SNP Position Genomic:     28863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17775):
CACAGGACTTGTGTAACTCCACAAACACAGGGCTCGGGGGCTGTACTTGTGCAAAGTCGTAGCCACCTAGTGGCAGAGCCAGGCTGCGAACCCAGGTAGT
Y
TGGCCCCGGAGCCCATGCTCTAAACCAGAGGTCGGCAAACTTTCTATAAAGGGTCGGAGTAGATGATGTCAGTCCTATCGACCATGGGCTCTCTGTCTGT
Celera SNP ID:            hCV1997520
SNP Position Genomic:     14976
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17776):
TATCGACCATGGGCTCTCTGTCTGTCACAGCTACTCAGCCCCACTGTTGCAGCATGAAAGCAGCCATAAACTGAGTGGGTGAGGCTGTGTTCCAAAACAG
T
TTTTTTTTTTTTTTGAAACAGGGTCTTGCTCTGTTGTCCAGGCTGGAGTGCAGTGGCACGATCAGGGCTCACTGCAGCCTTGACTTCTTGGGCTCAAGTG
Celera SNP ID:            hCV1997521
SNP Position Genomic:     15152
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17777):
GAATATTTGTTTTGGGTGATCAGAACTGAGACTCCTATTGTGGATTAGTAACATGCCTCCTCCTAGAACAAGGGAGGGCAGGGATCGCCGAGACCACCAC
Y
GGGCTCCCAGCGAGGAAGAGGCCTTGGAGAAATGGGACTGGAATTGTCCAGAGACGCGTCGCCTCTTGGAAGATGCCTTCTTCCGTGAAGAGGATTACAT
Celera SNP ID:            hCV11507064
SNP Position Genomic:     9774
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,2)   caucasian(C,10|T,2)   total(C,34|T,4)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,8|T,8)   total(C,8|T,8) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17778):
GAGCTGTGATCACGCCACTGCACTCCATTGTAGGCCACAGAGTGGGATCCTGTCTCAAAAAAAAAAAAAAAAGTTCAAGATGTTCAGGTCGGGGGAGCAG
K
TGTGGTGGCTCATGCCTGTAATCCCAGCACATTGGGAGGCCAAGGCAGGCGGATCACCTGAGGTCAAGAGTTCAAGACCAGCCTGGCCGACATGGTGAGA
Celera SNP ID:            hCV1997522
SNP Position Genomic:     16201
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17779):
AAGTGAGGGGGGCGGGACGGGTGTACCGGGTTGTGGCGGCGATGGCTGTCGGAGTTGGGCCGCTTGGGGGTAGTTTGGGGTGCGAGTCCAGGGGCGAGGG
M
AGTCTCGAGATGAGGAGAAATGTAGGAGGCAGCCGAAGGGCCGGCAAACGCGGACAGAGATGGCACCTGAGCGTCCCTGGGAGAACCTGGGCGACAGGCC
Celera SNP ID:            hCV16138228
SNP Position Genomic:     6150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17780):
CAGAGCAGCGGAAGGGCCGGGCGGGCCGCACGGGCCCCGGAGTCTGCTTCCGCCTCTATGCCGAATCGGACTATGATGCCTTCGCCCCCTACCCCGTCCC
R
GAAATTCGGAGGGTGGCCCTGGACTCGTTGGTGCTGCAGGTGAGGCATGGGCAGAAAGGGGACTATATCCTAACTGCTGGCACAGGGAGGAACCTGGGAG
Celera SNP ID:            hCV1997523
SNP Position Genomic:     19349
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:17781):
TCCGCCTCTATGCCGAATCGGACTATGATGCCTTCGCCCCCTACCCCGTCCCAGAAATTCGGAGGGTGGCCCTGGACTCGTTGGTGCTGCAGGTGAGGCA
Y
GGGCAGAAAGGGGACTATATCCTAACTGCTGGCACAGGGAGGAACCTGGGAGGCCTTTTTTATTTTATTTTATTTTATTTTATTTTGAGATAGCGTCTTG
Celera SNP ID:            hCV1997524
SNP Position Genomic:     19397
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,10)      total(C,5|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17782):
TAGCGTCTTGCTCTGTCACTCAGGCTAGAGTGCAGTGCTGTGATCATGGCTCACTGCAGCCTCCATATTACAGGCTCAAATGATCCTCCTACCTCCACCT
S
CCAAGTAGCTGGGACCACAGGCACACACCACCACGCTTGGCTAACTTTTAAATTTTTATTTATTTATTTATTTTTGAGACGGAGTCTCCCTCTGTCGCCC
Celera SNP ID:            hCV1997525
SNP Position Genomic:     19588
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,9)   total(G,9|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17783):
TGCTGTGATCATGGCTCACTGCAGCCTCCATATTACAGGCTCAAATGATCCTCCTACCTCCACCTGCCAAGTAGCTGGGACCACAGGCACACACCACCAC
R
CTTGGCTAACTTTTAAATTTTTATTTATTTATTTATTTTTGAGACGGAGTCTCCCTCTGTCGCCCATGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTG
Celera SNP ID:            hCV1997526
SNP Position Genomic:     19623
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17784):
TTGAGAATAGAATAAAAGGGTTCCTGGTGTAATCCATTCTGTTTGGTTGGAGATGGGCAAGCTGAGGCCCAGAGGGGGCAGTCACCCAGCCGACACCTCC
K
GTACCATTTCTGGGGTCCCGGTGTTGGGGACCACAGATGCCCCGATTGCTCTGAGCATGGGTCCCGAGTTCTCTCTGGCTGCTAGAGCAGTGTTCAGGCT
Celera SNP ID:            hCV1997490
SNP Position Genomic:     31356
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,8)      total(G,4|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17785):
CAGAATAAAGGAGTAAGTGAGGGTGTTGGCGAGTGACAAGAGCCAGGCGCGTGGCCAGCTGCACGTGGCTGCCACACACAGACTCCCTTTCCTCATTGCT
Y
CCATCCAGGAAAGGTGAAGGAGATGAGCTACGATCCGCAGGCCAAGCTGCAACGGCTGCAGGAGTTCTGGATTAGTCAGGCCAGCGCAGAGCAGCGGAAG
Celera SNP ID:            hCV25765600
SNP Position Genomic:     19162
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17786):
TTCGGCGCCAGTTCAAGGTGAGGCTCGGGAGGAGGGGTAAGGCCGGCCCCACTCAGGCAGACGTGTGTAAGCACACTCCAGAACACTGCTTCCCCTTCCC
R
GACAGTGGTCAGACCAGAATCCCACCCTGCACCCACCTCCCCCACCACCCGGTGACCAGGTGTTGGGGCAGCTGGGCAGAGCAAAGGGAGCAGAAATCCA
Celera SNP ID:            hCV1997492
SNP Position Genomic:     30469
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,8)   caucasian(A,34|G,2)   total(A,56|G,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17787):
CATAGGAGGGGGCACTGGGGCTGAGACCTGGAAGCAGGAGAGCAGGTGTCCCTGAGGGATGCCCATTTTGGGGCTCTGGGTGCTCGGTCAGCCCCTCCCT
S
CCCGCACTGGCCAGGCCCTGACACCCTGGCGTCTGCTCCTCCACCCAGGTGAAATCTGAACGGAGCAGAAACTCTCGCAAGTGGTGCCGCCGCCGGGGCA
Celera SNP ID:            hCV1997493
SNP Position Genomic:     30235
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17788):
CCAGTATATGTCCCTTGAGTCCTCACCCTAACCCTGGCCCTGTAGTGTAGTGCTGGGGGCCCATCAGTGCCAAAACTACCCTGGCCCTGCCCTCCCGGGG
Y
TCACAGCCCAGTGCAGGGAGACAGACCACTGATGTGACAGTGACAACCCAGAGAGGGCTGGAATGGGGAGTCCAGGGGGCTGGGACAACCCAGCGGGGCA
Celera SNP ID:            hCV1997494
SNP Position Genomic:     29998
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17789):
TGGCCAGCTCACACCTGGAATCCCAGCACCTTGGGAGGCTGAGGTGGGAGGATTGTTTGAGCCCAGGAGTTCAAAGGCAGCCTGGGCAACATAGGGAGAC
W
CTATCTATCTCTACAAAAAATTTTAAAAAGTTAGCTGGGCGTGGTGTTGTGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGGATTGCTTGA
Celera SNP ID:            hCV26302092
SNP Position Genomic:     35341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17790):
CTCACACCTGGAATCCCAGCACCTTGGGAGGCTGAGGTGGGAGGATTGTTTGAGCCCAGGAGTTCAAAGGCAGCCTGGGCAACATAGGGAGACTCTATCT
R
TCTCTACAAAAAATTTTAAAAAGTTAGCTGGGCGTGGTGTTGTGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGGATTGCTTGAGCCTGGG
Celera SNP ID:            hCV26302093
SNP Position Genomic:     35348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17791):
GGAGACTCTATCTATCTCTACAAAAAATTTTAAAAAGTTAGCTGGGCGTGGTGTTGTGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGGAT
Y
GCTTGAGCCTGGGAGATTGAGGCTGCAGTGAGCTGTGATTGTTGACACTGCACTCCAGCCTGGGTGACAGAGTGAGACACTGTCTCAAAAAATAATAAGC
Celera SNP ID:            hCV26302094
SNP Position Genomic:     35435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17792):
ACATTTGAAAATCAATCTGATTCACCATATTAGAAACAGAAAAAAAAAAAAAGGTTGGGCATGGTGGTTCATGCCTGTAATTCCAGCACTTTGGGAGGCC
S
ATAAGGGTGGATCAGTTGAGTCCAGGAGTTCCAGACTGGGATGGGGAACATAGCAAGACCCTGTCTCTATTAAAAAACACAAAAATTAGCCAGGTGTGGT
Celera SNP ID:            hCV26302096
SNP Position Genomic:     40582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17793):
GCTGGAGTGCAGTGGTGCAATCTCAGCTTACTGCAGCCTCCACCTCCTGGGCTCAAGTGATCCTCCCAAATCAGTCTCCCAAGTACCTGGGATTACAGGC
R
TGTGCCACCATGCCCAGCTAATTTTTGGGTGTGAATAGGTTTTTTTGTTTGTTTTTTGTAGAGAGTTTCACCATGATGCCCAGGTTGGTCTGGAACCATG
Celera SNP ID:            hCV26302097
SNP Position Genomic:     41172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17794):
GCAGAACAAAGGCCCCATCAGAGGGGACGTGCTGGGTGTCAGCGTCAGCTTCTGGGAGGAGGAAGGTCAGAGCTAAGGCCTGAAGGATGATGAGGTATCA
R
GTGGGTGGAGGGGAGACGCTCAGGAGGTGGGAAAGGCGGAGGTGCACAGGCTTGGTTCCAGGTACAAATAACGTTACTAGGAGCACACAGTACCTGGATT
Celera SNP ID:            hCV26302098
SNP Position Genomic:     42724
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17795):
TGAGGCTGGGCCCAGGAGGCTCCTGAGGGCATGGGGAAGCCTGGCTTTGATCGGAGGTGATGGTAAATGCCTCACTCACATTATCTCCCTGAGGGCTGGG
K
GCAGGTGCCCCCACTTGCCCTGTGGGGAAAACGAGGCTCAGAGAACTGCTGCTCAGGGTCACAGTGGGAACTGAGAGGCACGGATGACCCTGTGCTGGGC
Celera SNP ID:            hCV27964043
SNP Position Genomic:     27938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17796):
TGAAGCAGGAGAGTCGTTTGAACCCAGGAGGTGGAGGTTGTGGTGAGCCGAGATTGAGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCACTC
A
AAAAAAAAAAAAAAAAAAGATTTGGGTTTCTCCTGCGCCCACACAGTTCTGCAGCTTGTTTCATAGATACTGTTCTCCATCTGAGTGCAGACAGACCTGC
Celera SNP ID:            hCV11507070
SNP Position Genomic:     31122
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17797):
GCGCATCGCCCATGAGAACACCTGCCCCCAGGCCCCACAGGATGGGCCCCCAGGTAAGCACAGGACTGTGGGGACCCGGCCACCTCTGCCCAGCCGTCTG
Y
CCATCCCATGATGGTCTCCTGTGCGTGTGAGCACTTGCTAGAGCTTCGAGGACTGACGACCTCCACCCGCTGGCCCTGGCTGGTGCCACACACAGGCCTT
Celera SNP ID:            hCV25952162
SNP Position Genomic:     38057
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,18)   total(C,46|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:17798):
CCAGCACCCGAAGGGGTGCCTGGTACAGCGGGTAGATGGCGGGTAGGTGGATGCCTCACATAGACAGGGCTGGTGGGTGGGCAGGAGCCCAGCCGGGCAG
R
GCCTGTCTCCAATAGCGCCCTGCCCCTCCCACCTACTCCCTGTCTTCTGCCCCCTCTCTTTCAGTCCCTCCTGCTTTTTAGCCGGTCTTTGGACACCAAT
Celera SNP ID:            hCV11507075
SNP Position Genomic:     36330
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(A,2|G,16)   total(A,3|G,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:17799):
CCTCCCAAGTACCTGGGATTACAGGCGAGTGTCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGGTTTCTCTATGTTGGTCAGGCTGGTCT
Y
GAACTCCCGACCTCAGGTGATCTGCCCGCCTCAGCCTCCTAAAAATGTTGAGATTACAGGCATGAGCCACCACGCTCAGCCTCAACAGTCTTTTAAAATG
Celera SNP ID:            hCV11507076
SNP Position Genomic:     41852
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17800):
GGACAGCCCAAGCACAGCATCCCAGCGCTGGCCGACCTACCTCGCACTTACGACCCACGTTACCGCATCAACCTCTCTGTTCTTGGCCCTGCCACGCGGG
R
CTCTCAGGGACTGGGCAGGCACTTGCCCGCGGAGAGAGTGGCTGAGTTCCGCCGAGCCCTGTTGCACTACCTGGACTTTGGCCAGAAGCAGGCATTTGGG
Celera SNP ID:            hCV25766301
SNP Position Genomic:     10075
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,38)   total(A,2|G,70)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17801):
ACATACCTGTGCCAGCAGCACCCAGATAAAAAAATAAAACACCAGCAGCCCTCCACCCGCTGCAGCCCAGCTCCTCCGTCTCCCAGGAGTGTCCAATATT
Y
TTTTTTTTTGAGATGGAGTTTTGCTCTTGTCGCCCAGGCTGGAGTGCAACGGTGCAATCTCGGCTCCCTGCAACCTCTGCTTCTGGGATTCAAGCAATTC
Celera SNP ID:            hCV11507077
SNP Position Genomic:     42117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17802):
ACGGTAAGCATGAACCCTCCTTCCCTGAAGGTGGGATTTCAGGAAGACCCCACCACCCCGTTTCACCTTAGTCCAGGGACATAGTTCCCAAGTGGGGCCC
R
TGGCCCTGAGGGCTTCTGGGAAGGGTCCCGGGGGGGCACTTGGGTGGTGGGTGGCACTTGGCGGGGGCCCAGCCCTGACAGCTGGCCTGCCACAGAATGA
Celera SNP ID:            hCV25953501
SNP Position Genomic:     37775
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,32)   total(A,1|G,57)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:17803):
GAATCGCTTGAACCTGGGAGGTAGAGGTTGCAGTGATGCAGTGAGCCGAGACCATGCCATTGTACTCTAGCCTGGGCGACAGAGCGAGACTCCATCTCAA
M
AAAAAAAAAAAAAAAAAGCAAAAACAAACAGGTGAGATTCATTTTGATAAAATAGCTGATTCAACCTAATATACCTAAAACATCACAATTTTAACATAAT
Celera SNP ID:            hCV16009880
SNP Position Genomic:     24593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17804):
ATCGCTTGAACCTGGGAGGTAGAGGTTGCAGTGATGCAGTGAGCCGAGACCATGCCATTGTACTCTAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAA
M
AAAAAAAAAAAAAAAGCAAAAACAAACAGGTGAGATTCATTTTGATAAAATAGCTGATTCAACCTAATATACCTAAAACATCACAATTTTAACATAATCA
Celera SNP ID:            hCV16009881
SNP Position Genomic:     24595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17805):
TACCTAACAAATCTTTGCCTACCCTCAAGATCATGAAGTTTTTTCTTATGTTTTCTTCTAGTTTAATAGTTTTAGATTTTTAATATAAACCGTTAGGTCT
R
TGGTCCATTTCCAGTTAGGCATTGTGTATGATGTGAGTTAACGCTCATGGCTCATTTTTCTGCATATGGATGTCTAATGGTTCCAGAACCATTTTTTGAA
Celera SNP ID:            hCV1997467
SNP Position Genomic:     44930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:17806):
TACTAGGGAGACTGAAGTGGGAGGATTGCTTCAGCCTGGGAGGTTGAGGCTGCAGTGAGCCGTGATCTCATCACTGCACTCTAGCCTAGGTGACGGAGCG
R
GACCCTGCCGCTAAATAAATAAATAAATAAATAACATAGTAGTGATACCTGTGTCTGCGGTCATTACTCCAGAACAGCACTTCACATATAGTTTCTCCTT
Celera SNP ID:            hCV26302064
SNP Position Genomic:     1026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:17807):
CGGTGACCAGGTGTTGGGGCAGCTGGGCAGAGCAAAGGGAGCAGAAATCCAGGAGGGCTTCCTGGAGGGGTGGACCGAGTCAGTGGACATGCAGCATCCT
Y
GGGAAGAGCTCGCCCTCCGGACTGGGGATGCTGAGCTGGCTGCATGGGCATGGTGTTGGAGGCAGCCTACGGTTGTGGTTGGCCGGCACATCTGGAGCCA
Celera SNP ID:            hCV25650433
SNP Position Genomic:     30619
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,9)   caucasian(C,34|T,2)   total(C,53|T,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:17808):
CTAACCTCCTGGGAATGCAGCCCATAGGTCTCAGCCTTATTTCACCCAGCTCCTGTTCAAGATGGAGTCACTCTGGTTCACATGCCTCTGACATTTCCCC
R
CTCCCTTTTATAAGAGAACCTTTAATCCTAAGGGTTGTAGAGGGAGGAAGATACAACTTCTGTGACTTCTTCAGGCTGGACAGGGGTGACGATATACCTG
Celera SNP ID:            hCV26302066
SNP Position Genomic:     1884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:17809):
CAGCTGGGCAGAGCAAAGGGAGCAGAAATCCAGGAGGGCTTCCTGGAGGGGTGGACCGAGTCAGTGGACATGCAGCATCCTCGGGAAGAGCTCGCCCTCC
R
GACTGGGGATGCTGAGCTGGCTGCATGGGCATGGTGTTGGAGGCAGCCTACGGTTGTGGTTGGCCGGCACATCTGGAGCCAGACACCTCAGCCACAGATC
Celera SNP ID:            hCV25650434
SNP Position Genomic:     30638
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(A,4|G,26)   total(A,6|G,46)
SNP Type:                 INTRON


Context             (SEQ ID NO:17810):
GTCACAAGCAGATGTGGTGCTCCTCGTCCCCACGCTGTGTCATCAGGAATAGGGCGTTAATCTTGAGGGATTTGGGGCCAGCAGACCCTCTGACCCTGTC
K
TTCTTGTGTGCACCGTCAGTGTCTCAGGCACTCACCTGACGCTGCAGATGCCACCACCAGAGGCTGGGTGTGGCCTGTGGTGTCTGGCTTGCAAGGCTGT
Celera SNP ID:            hCV15895206
SNP Position Genomic:     26737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17811):
TCCGGACTGGGGATGCTGAGCTGGCTGCATGGGCATGGTGTTGGAGGCAGCCTACGGTTGTGGTTGGCCGGCACATCTGGAGCCAGACACCTCAGCCACA
R
ATCCCAGCTCTGCCATTTCTGACAGCGTGGCCCCGGGTGTGTTACTGCTTGTCTCTGGGCCTCAGCTTCCCCTCGATAAAAAGAGAGGATAAAAATAGCA
Celera SNP ID:            hCV25763478
SNP Position Genomic:     30735
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,24)   caucasian(A,4|G,34)   total(A,18|G,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:17812):
GGAGCCCTGCCCACCTCCGTGCAGCTGACCTGCCCTCCAGCCCAGGACTAGGGGCAGGACTCTTGCCTGAACCCCCAGCCTGGGCTTAGCCCTGTGGTCC
Y
GTCCCAGTGCAGAGGGCCTGGAGCACGGATTGTGAATAAAGCCTCACATGCTGATACACACTGTTAGGCCTGCACCTGCCCATCCAGAAAGCAGCAGCTG
Celera SNP ID:            hCV25951940
SNP Position Genomic:     38908
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,37)   total(C,1|T,71)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,218|T,1271)   total(C,218|T,1271) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17813):
CTGGCCATCTCCAATCTACAAATGGGGAAACTGAGGCCCTTGCCCATGGCCACGTGACCAGAAAGCACAGCGCGTGGGTTTGAATCTCCATCTGGGTCAC
R
AGACCCTTAGTGGGCAAGATGGAGGGGGTGGGAGCAGGAGGGCAGGCGGGAGGGCAGGCTGGGGCCCCGAGGGGTGAGGGCTGCGCCTGTCCTGGCACCC
Celera SNP ID:            hCV15895208
SNP Position Genomic:     29283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17814):
ATTTCTGACAGCGTGGCCCCGGGTGTGTTACTGCTTGTCTCTGGGCCTCAGCTTCCCCTCGATAAAAAGAGAGGATAAAAATAGCACTTGCCAGCCGGGC
R
TGGTGGCTCACGCCTATAATCCTAGCACTTTGGGAGGGCGAGGTGGGTGGATCACGAGGTCAGGAGATCGTGACCATCCTGGACAACATGGTAAAACTCC
Celera SNP ID:            hCV25765723
SNP Position Genomic:     30850
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17815):
CCAGGCCTCCCTGGGTAGCCTTGGGTGACTCACCCCTGCTGGGCCTCACCTTCCGCATGGTGGTGATAGTCAACCTAAGCCAGTGTGGCTGTGCCCAGAG
M
GTGAGCACCGGTCAGGGGGCCTGTCCTATGGACTCTGTGAGCTCCCAGGTGGGTCCTGCAGAGGGAGGCCCCCCTGGCACCCGTGTGCATGGAAGGGTGT
Celera SNP ID:            hCV15970857
SNP Position Genomic:     33489
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,117|A,1383)   total(A,1383|C,117) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17816):
TGGGGCCACATGCCTCCATCCCCGGCTGGCTGTGTCTGCCTCTCAGTCTCCATGTCTCTCCTTGTGTCTTTCTCTCTGTCTCTCTCACTGGCAGGGATGC
R
GAGTAAAGACAGACCTGTGTATTTTTATTAATCTGGGAGGGCTTCCTGGAGGAGGCAAAACTGGGTTCTCCAAAGGCCAGGAGAGAACCTGAGCCCCACA
Celera SNP ID:            hCV8716082
SNP Position Genomic:     38487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17817):
ATTTTTATTAATCTGGGAGGGCTTCCTGGAGGAGGCAAAACTGGGTTCTCCAAAGGCCAGGAGAGAACCTGAGCCCCACAGGTGCCTGGCATTTGGGTGC
R
GGTAGACCTGTGCACTGGAACACGCCCCTCACAGCCTCCTCCTTTTCCTCCCTTAGGGGCTGAGGAAGCTGCCCTCGAAACCCTCCAGAAGACATCTGTC
Celera SNP ID:            hCV8716083
SNP Position Genomic:     38608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17818):
CATCCAGAAAGCAGCAGCTGCCTTGTTAGTCCTCCCCAGGGTCTAGCTTTCCTTCTTCCTGCTGCAGGGTGCTGCCTGAGGGGTCCTGGGTAGGAGGGGC
K
TTAGAGCCAGCAGGGACCTCCCATGTCTCCAGATTCCAGGTGCAGGTTCTTAGCACCTCCGCAGCCGCTCTCTCTTGAGTCCATCCTCAGTCTCTCCTAC
Celera SNP ID:            hCV8716084
SNP Position Genomic:     39089
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17819):
CCGAGGGACAGAGGATTGGCGACCAGCCGGGCCGCAGGAAGCGGAACAGACCTGCTACCTGAGGCGCTCTCTCCCTGCACTGGACTGCTTGTTGAGAGAA
Y
CTGGCCAGCTCACACCTGGAATCCCAGCACCTTGGGAGGCTGAGGTGGGAGGATTGTTTGAGCCCAGGAGTTCAAAGGCAGCCTGGGCAACATAGGGAGA
Celera SNP ID:            hCV11977222
SNP Position Genomic:     35239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17820):
TGGGAGGTGGAGGTTGCAGTGAGCCAAGATTGCGCCATTGCATTCCAGCCTGGGCAACAGAGTGAGACTCATCTCAAATAAATAAATAAATTAATAATAA
K
AATAATAAGAAGAAGAAGATGGAGAAACTTCACATTCACATAAGCAGGCAGAACAGTATATGGAGCCCTCCTGTACCATCCCCGGTCCCCAAACCATCCA
Celera SNP ID:            hCV11977223
SNP Position Genomic:     35838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17821):
GACACTAGAAACAGAAAAAATGGAATTTAGATGGAGAAACGAGACACTGAATCACGGGGGAGACCGAGAGATACGGAAGGATGGAGACAGTTGAAATAGG
R
AGAACCCCACAAAAGCTGGAGATAATGGAGAACGATGCTGAGAAATGGAAAAGCGAGGGAGTGGAGCCCGAACCCCTGGATTTGAGTGGCTCATGTAACA
Celera SNP ID:            hCV3171075
SNP Position Genomic:     6562
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17822):
GAGGTGGAGGTTGCAGTGAGCCAAGATTGCGCCATTGCATTCCAGCCTGGGCAACAGAGTGAGACTCATCTCAAATAAATAAATAAATTAATAATAATAA
K
AATAAGAAGAAGAAGATGGAGAAACTTCACATTCACATAAGCAGGCAGAACAGTATATGGAGCCCTCCTGTACCATCCCCGGTCCCCAAACCATCCACGC
Celera SNP ID:            hCV11977224
SNP Position Genomic:     35841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17823):
CGATGATTCTTCTAGAACTTTATCCACAGAGTGGCTTGTCTGTGGTCTACATGACAAAGGAGCTAGCATTAACCAGTGTAGCACTTTAACAGCAAAACAA
Y
GGGAAATGTCCTAAAGGCTCATCACTTTTTTTTTGAGACGGAGTCTCACTCTGTGGCCCAGGCTGGAGTGCATTGGTGCGATCTTGGCTGACTGCAACCT
Celera SNP ID:            hCV29059758
SNP Position Genomic:     10641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17824):
GTTCAGCCTGGTGGAGCCTGTGCTCACCATCGCAGCCGCACTTAGCGTCCAGTCGCCCTTCACCCGCAGCGCCCAGAGCAGCCCAGAGTGCGCGGCAGCA
Y
GGCGGCCGCTGGAGAGCGACCAGGGTGACCCCTTCACGCTCTTCAACGTCTTCAACGCCTGGGTGCAGGTGAGGCTGGTGGTGGGGGCCCTCTGTCTGTC
Celera SNP ID:            hCV1997501
SNP Position Genomic:     29540
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17825):
GAGAAACGAGACACTGAATCACGGGGGAGACCGAGAGATACGGAAGGATGGAGACAGTTGAAATAGGAAGAACCCCACAAAAGCTGGAGATAATGGAGAA
Y
GATGCTGAGAAATGGAAAAGCGAGGGAGTGGAGCCCGAACCCCTGGATTTGAGTGGCTCATGTAACACTCGGCTACTCACTTAGCCTCTCTATTGCTCAG
Celera SNP ID:            hCV3171076
SNP Position Genomic:     6595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,11)      total(C,11|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17826):
GTGGAGGTTGCAGTGAGCCAAGATTGCGCCATTGCATTCCAGCCTGGGCAACAGAGTGAGACTCATCTCAAATAAATAAATAAATTAATAATAATAATAA
K
AAGAAGAAGAAGATGGAGAAACTTCACATTCACATAAGCAGGCAGAACAGTATATGGAGCCCTCCTGTACCATCCCCGGTCCCCAAACCATCCACGCATG
Celera SNP ID:            hCV11977225
SNP Position Genomic:     35844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17827):
AATTATATCCAACGTTCCACTTGACATCCCCAGTTGATGTCCAATGCATAACTCAAACAATATGCTGAAAACAGATCTTCGGATTTTCTCTCTAGCCTCT
Y
TCCCACGTCTTCCTGATGGTAGTAGATGGTGACTCCATATTTCCAAATGCTCAGGCCAAAAACTTTAGAGTCCTTCTTTTTTTTAGACATAGAACTTTTT
Celera SNP ID:            hCV15957902
SNP Position Genomic:     4548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:17828):
CCGGGCACAATGAGTGACTCATGCCTGTTATCCCAGCACTTTGGGAGGGTGAGGCAGGAGGATTGCTTGAGGCCAGGAAGTCGAGACCAGCCTAGGCAAC
W
CGGTGAGGCCCTGACTCTAGAAAAAATTTAAAAATTAGCCCAGTGTGATGGCACACACCTGTGGTCCCACGCAGGAGGCTGAGGCAGGAGGATCGCTAGA
Celera SNP ID:            hCV29059759
SNP Position Genomic:     21253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17829):
AGCAAAGACCAAGCCAGGGAAGCATCAGAGCGCTGGGGGAGTGGGTTGTAAATAGCAAAGTGGGGAACTTGGTGACAGGAGTAGTCAGCGCTTAGACAGT
R
TCTCCTGTGTGTCCAAGGAGGCAGGGACTGGCCATCTCCAATCTACAAATGGGGAAACTGAGGCCCTTGCCCATGGCCACGTGACCAGAAAGCACAGCGC
Celera SNP ID:            hCV1997502
SNP Position Genomic:     29155
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;(A,-|G,-)   JBIC-allele(G,713|A,788)   total(G,713|A,788)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17830):
ATAGGAAGAACCCCACAAAAGCTGGAGATAATGGAGAACGATGCTGAGAAATGGAAAAGCGAGGGAGTGGAGCCCGAACCCCTGGATTTGAGTGGCTCAT
S
TAACACTCGGCTACTCACTTAGCCTCTCTATTGCTCAGTAAAATAGGGGGTGATCATAGTGCCTGACAGTCGTGAGAAAAGTGTGTGTGTGTATGTACAT
Celera SNP ID:            hCV3171077
SNP Position Genomic:     6657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,12)      total(G,12|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17831):
TTTTTTGTTTTTTGTTTTTTTTAGTAGAGACGACGTGTTGCTATGTTGTCTGCCTGGTCACGCATACCTGAGCTCAAGCAATCCTCCCGCCTTGGCCTCC
S
AAAGAGCTAGGATTACAGGTGTGAGCCAACTATGCTGGGAAATCAGCCAACCAACCTGGCTCAGGCTCAGGGTCCTCTCCTGGTCAGCCAACCAACCTGA
Celera SNP ID:            hCV15957903
SNP Position Genomic:     13782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17832):
CCGGTCCCCAAACCATCCACGCATGGCCAGTCCTGCCCTTTCCTCTGCCCTGGCCCCAGCCCTGAGGATTTTCCCCAACATCTTATGAGCCACAGCACTG
S
TAATTACAGCGCTGACTTCCGTCCTCACAGAGGAGCGTGTGCTCAGGGTCTGGGCTCTCCCTGCACGTCGTGTGTGTCTGAGTGCCTGCTGTCCCTCTGC
Celera SNP ID:            hCV11977226
SNP Position Genomic:     36020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17833):
TTCCTCTCTGTGGCCTCCCCTCTGTCCTTCCTCCCCTTTCCCTACCTCTCCCAGCCCCTGCCCCATCTTTCTCCATGTCTTCGCCTTCTGTCCCCTCTTC
S
TCTTCCACTTCCACCTTGACCTAAACAAAGGCTGCAGGAGAAGATTCATCCTGTGATAAGCACAGGAGTCAGTGCCTGCCTGTGCCAGGGCAGAGCTAGA
Celera SNP ID:            hCV1997503
SNP Position Genomic:     28881
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17834):
CTCTCCCTGTGGTGCAGTGACCATTCTTGTGCCTGTATCTAGTTATTTCTCTAGGATAGATTTTAGGAAAGACTCTGTCATGTTCCAGAGCTACCACAAA
S
AGCTCCAGGCTTATATCAAACTTGCCTGATTATGATGGATAAAATGAGAGCTTTTCTGTCCTAGCAACCGAGTGTAAATTCCACAAAAGGGCCCTGATTG
Celera SNP ID:            hCV3171078
SNP Position Genomic:     8323
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17835):
CTCCACCCTGTTGTCACCCAGGGATGCCACACACTGGGGTTCAGTGGGGGAGATAGCACTGGGGCCACATGCCTCCATCCCCGGCTGGCTGTGTCTGCCT
S
TCAGTCTCCATGTCTCTCCTTGTGTCTTTCTCTCTGTCTCTCTCACTGGCAGGGATGCGGAGTAAAGACAGACCTGTGTATTTTTATTAATCTGGGAGGG
Celera SNP ID:            hCV11977227
SNP Position Genomic:     38428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17836):
AAAAATTAGCTGGGTGTGGTGGCATGTGCCTGTAGTCCCAGCTGCTCGGGAGGCTGAGGCGGGAGGATCGCTTGAGTCCAGGAGGTCGAGGCTGTGGTGA
S
CCATGATTACGGCACTGCACTCCAGCCTGGGAAACAGAGTGAGACCCTGCCTCAAAAAGAAAAAAACAAAACAAAACCAAAAAAAGCAATGTTCCCAAAA
Celera SNP ID:            hCV3171079
SNP Position Genomic:     9316
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,33)   caucasian(G,30)   total(C,3|G,63)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17837):
GTGAGGGGGGCGGGACGGGTGTACCGGGTTGTGGCGGCGATGGCTGTCGGAGTTGGGCCGCTTGGGGGTAGTTTGGGGTGCGAGTCCAGGGGCGAGGGAA
S
TCTCGAGATGAGGAGAAATGTAGGAGGCAGCCGAAGGGCCGGCAAACGCGGACAGAGATGGCACCTGAGCGTCCCTGGGAGAACCTGGGCGACAGGCCAG
Celera SNP ID:            hCV16138245
SNP Position Genomic:     6152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17838):
GTGGCACAATCACAGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACCACAGGCCTGCACCACCA
Y
ATCTGGCTAATTGTTTAAACTTTTTGTAGAGACAGGTCTCACTATGTTGCCCAGGCTAGTCTCGAACTCCTGGCCTTAAGAGATTCTCCCACCTGGGCCT
Celera SNP ID:            hCV26302104
SNP Position Genomic:     48738
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:17839):
TCTTCGCTGGCAGCCCCGAGGTGCTGCACGCACAGGAGCTGGAGGCCAGCAACTGCGACGGAAGCCGAGGTACAGTGAGCCCAGGCGGAAGGAACCCCCA
Y
CCGGGATGTGAGGGGCAGGGATACCGTGAACTCCCAGGCCCCTCTGGCTGGGGCTCCCACACCGGCCCAGGCTGGTATTGACGGGGGCCCACAGGAGGGG
Celera SNP ID:            hCV25765949
SNP Position Genomic:     33277
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,38)   total(C,1|T,67)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17840):
CGGCCGTGACCAACATTCTTAATCTGTCCTCTAGTGCTGGCCACTCTAAAACTTCACAAGAATGTGCTGTCTGTGTCTAGCTTCTTTTACCCAACATGAG
S
TTGCATGGGCTTGGTTCATTCATTCTGTTCCATGAATTCATCACAATATATCCATTCTTTTGTCCAGGGACATTTGGCTTCCAGAAACCTACCCCTAACA
Celera SNP ID:            hCV1997470
SNP Position Genomic:     42504
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17841):
CTGCCTCAGCCTTCCGAGTATGTGGGATTACAGGCACCCGCCACCATGCCCAGCTAATTTTGCATTTTTAGTAGAGACGGGTTTTCACCATGTTGGCCAA
R
TTGGTCTTGAACTACTGACCTCAGGTGATCCTCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCGTGACCAACATT
Celera SNP ID:            hCV1997471
SNP Position Genomic:     42320
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17842):
CCAGATGAAACATACCTGTGCCAGCAGCACCCAGATAAAAAAATAAAACACCAGCAGCCCTCCACCCGCTGCAGCCCAGCTCCTCCGTCTCCCAGGAGTG
W
CCAATATTCTTTTTTTTTGAGATGGAGTTTTGCTCTTGTCGCCCAGGCTGGAGTGCAACGGTGCAATCTCGGCTCCCTGCAACCTCTGCTTCTGGGATTC
Celera SNP ID:            hCV1997473
SNP Position Genomic:     42108
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,5)      total(A,5|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17843):
AGCACTTGGCTCCCGTAACTGCAAAGCCCGAGGGAGGGCTTCAGGCACAGCTGGATCCAGGTGCTTTGGCGGCATCTCCCTGAGTCTGTCTCTCTCCATT
K
CCTGTCTCTCCTTCCTTAGATTCCTTACAGCCTCCGGCGGCTCACAGGGCTAGAAGTCCAGAACATGTATGTGGGACCCCAGACCATCCCAGCCACCCCC
Celera SNP ID:            hCV25953157
SNP Position Genomic:     37481
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,5)   caucasian(G,1|T,3)   total(G,4|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:17844):
CACCATAAGACCCACTCACAATAAAAAAATAAAAGGCCGAGCCGGGCATGGTTGCTCACTCCCGTAATAAAAAAATAAAAGAACAGGCTGAGCCGGGCAT
R
GTTGCTCACTCCCGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCGCCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACCCT
Celera SNP ID:            hCV1997476
SNP Position Genomic:     39393
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17845):
CGTTAGAGCCAGCAGGGACCTCCCATGTCTCCAGATTCCAGGTGCAGGTTCTTAGCACCTCCGCAGCCGCTCTCTCTTGAGTCCATCCTCAGTCTCTCCT
W
CCCCTTGAAGTAGGGGGACCCTGAATTTGCCCATCCACCTGGGTCACTTTGAGAGTTGTGCAGGGGGGCTGGGAGCACTGGTGTTCACGTGGGACCACAG
Celera SNP ID:            hCV1997477
SNP Position Genomic:     39188
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:17846):
TCCGCCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTGCTTAGATTTTCAATTTGGGCAGGGCCAGGGGCTGGTAC
Y
CAGGCTCAGGGTCCTCTCCTGATCCTTTCTTTCTCCCACCCCAGGTCGGCTACCAGATCCGCTTTGAGAGCACACGTTCGGCGGCCACCAAGATTGTATT
Celera SNP ID:            hCV25765264
SNP Position Genomic:     11689
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,8)   caucasian(C,29|T,3)   total(C,47|T,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17847):
ATGGAATTCTCACAGCATCTAGGAGGAGAACTATAAGGGATGGCATTGCCTGCCCAAGGTCAGTTGGCACTAAGTGGCAGAGGTGAGATTCAAACCCAAG
S
TGTTGGACTCCAGAGTCTGATGGGTAGGCATGGTATTTGCTTAGATTTTCTTTTTGCTTTTTCTTTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGG
Celera SNP ID:            hCV26302075
SNP Position Genomic:     11291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17848):
TATTTTCTATTCTGTTTGATTTCATCTTTTAAAAAAAAAAATACTAGTGCTGCCGGGCACAATGAGTGACTCATGCCTGTTATCCCAGCACTTTGGGAGG
S
TGAGGCAGGAGGATTGCTTGAGGCCAGGAAGTCGAGACCAGCCTAGGCAACACGGTGAGGCCCTGACTCTAGAAAAAATTTAAAAATTAGCCCAGTGTGA
Celera SNP ID:            hCV26302077
SNP Position Genomic:     21201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17849):
GGGAGAGAGGAACCTGCAGGCTCCTAGAGCCTCAGGGTTTTGTTGACACTGCGATTGCCACCAACACCACAAAAGCCAGCTCAGCTCAGTCACTTCTGTG
Y
GTGTCCACACCTCCCTCGAGCCCGTCTGGTGGGCCAGGCACTGTTAGTGTTCAGTGTTCTGGGGCCGGGGGTGCAGCTGTGGTCAATGTCAACCAAACTC
Celera SNP ID:            hCV16057834
SNP Position Genomic:     34936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17850):
TGACTGAAACAACCCTGGTTCTGTCCCCATGGGGCTCACAACCCAGTGGGAGGACAGACCCATCCCCAGACAACCCAGAGTGGGCAGGGCTTGGGGAGTC
M
AGAGCACTATAGGAGCCCACAGGGGGCATCTGCCCCAGATTTGGAGGAGTCAGGGAGGGCTTCCTGGAGGAGGGAACCTGGGCCAGAGGGTGGAGGAGAG
Celera SNP ID:            hCV15895215
SNP Position Genomic:     32966
SNP Source:               Applera
Population(Allele,Count): african american(A,19|C,7)   caucasian(A,22|C,4)   total(A,41|C,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17851):
ACCAGGGGGCCCTGGACAGCTCAGAGGCCCTCACACCCATTGGGTCCCTGCTAGCCCAGCTGCCTGTGGACGTTGTGATTGGTGAGTACCCACCCCCCTC
S
TGATCACTCAGGGCCCCAGGAGCGGGTATGGGCACAGCTCACTCTCTGAGTGGCCTGGGGGCAAGTCTGTTTCTTCCCTGGGTCCAGTTCATTTATTCAC
Celera SNP ID:            hCV25650445
SNP Position Genomic:     23870
SNP Source:               Applera
Population(Allele,Count): african american(C,23|G,9)   caucasian(C,33|G,1)   total(C,56|G,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17852):
TTCCATCCTGGCCACAACCAGAGAGGATGCTGGGAATGCTCTTCCTGGCTCCAGTCTCATGGAAGGATTCTGATTGGTCCAGCTCAGGTCACGTGCCTCT
S
CTCCATGGTCTGGGGCAAGATGTGCTAGGCAGACAGATACAGAGACAGCAGCCCTCCTTGCCTGCCTCTGCACAGTGGATCTTGACATTGGGAATTTTAT
Celera SNP ID:            hCV26302079
SNP Position Genomic:     22869
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17853):
TCACATAGACAGGGCTGGTGGGTGGGCAGGAGCCCAGCCGGGCAGGGCCTGTCTCCAATAGCGCCCTGCCCCTCCCACCTACTCCCTGTCTTCTGCCCCC
Y
CTCTTTCAGTCCCTCCTGCTTTTTAGCCGGTCTTTGGACACCAATGGTGACTGCTCCCGCCTGGTGGCCGATGGCTGGCTGGAGCTGCAGCTAGCAGACA
Celera SNP ID:            hCV16057835
SNP Position Genomic:     36385
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,25)   caucasian(C,1|T,19)   total(C,6|T,44)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17854):
GTAGGTCCTACAGATGCGAAAAGGAGAAGAGAATACGATAAACAACGTGCCACACAGAAATTCACTCATTTGAAATGGAAAAAATTATTGAAAGACACTA
R
CTACCCAAAGCTCATTCAGGAAGAAATAGATAACCGGAACAACTCTATTAAGGAAATGTAATTCATAGTTAACAAAGAGAACAGGCTCAGATGGGCTCCC
Celera SNP ID:            hCV15895216
SNP Position Genomic:     40114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17855):
GACAGCTACAGTCGGTTGCAGCAGCGCCGGGAGCGCCGGGCCCTGCACCAGCTGAAACGCCAGCACGAGGAGGGCGCGGGGCGCAGGCGCAAGGTGCTGC
R
GCTGCAGGAGGAGCAGGACGGCGGCTCCAGTGACGAGGACAGGGCTGGCCCAGCCCCCCCAGGGGCCAGTGATGGCGTGGACATCCAGGTGGGCGCCATG
Celera SNP ID:            hCV29059760
SNP Position Genomic:     32305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:17856):
GGGTTTACCAAGGTGGGCCTTGGCCTCTCCTGGGGGGGTCCCAGGGGACATGGCCCTGTCCTCATTTCAGGAGCCGGGTTTCCATGGACGGTGCTTGGTC
Y
CAGGTATCTGCAGAGCCTGGGGGTCTGCGGATCATGGTAGGAGCCCCTCAGGTCCCCTAAGACTCTGCCTCCCCGTGCTCCCCCCAGGATGTGAAGTTCA
Celera SNP ID:            hCV29059761
SNP Position Genomic:     32521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 5;TFBS


Gene Number:                 50
Celera Gene:                 hCG1776881 - 145000146894000
Gene Symbol:                 NEUROD1
Protein Name:                neurogenic differentiation 1;BETA2;BHF-1;NIDDM;NeuroD
Celera Genomic Axis:         GA_x5YUV32W8UP(12768752..12785261)
Chromosome:                  Chr2
OMIM number:                 601724
OMIM Information:            NEUROGENIC DIFFERENTIATION 1;NEUROD1


Genomic Sequence (SEQ ID NO:12210):
AGCGGAAAGACCCACCAAGGCCAAACTCCGAGATCTACATTTGGAATTTTCCCCCTTTGATTAGTTAAAGACATAAAAGGTCAAATTATCAATATTTAAT
TTGAGTGAAATGCATTTGTTATAAAGGAAAGAAGACATTTTATTTAAAGAAGGTGAGACTCCAGGGATGAATTCTTTAATCAAAAATGATTATATTTCTC
ATTACAGTGAAGTGTGAATAATACTTGATAAGGATTCTGTTTACTAATAATAATGATGTTTTGAAAATTACATCAATAAGTGTGTGGTGGGGGAGGGGGA
TATGGTGTATATATTTCTCAGATGTTCAAAGTACCAAAGGAGCTTTCTCTTCTCAGTTATGTCTTTACTAGACTTTTCCAGTATATGCTGGATAAGTTAT
GACTACTCATTATGYAATATTTTAGATCTGGCATGATTTAGCTAATTGTGTGGCTCACTGAATCTGAGTGAATAATGCCATTTAACTTCTGTTGGCTTAT
TTTTTCATGAATTTACCAGAAATTGTTTACAGTATGAAATAACTGAAATGTTGATAAAGTGGTGGTGAAAAAGATTTTATATTTTCAATAAAACTTATAC
TCCATAAAACACAAGCAAAATCAAAAACATTTTTAGAGATATTTTATTATTTCTATGGACAGTAAACAAGAAATTCATTTTGGTTTTGAAGCTGTGTGGC
AAATAAGTGCAAATATTGGAATAATGACTATCTTTTTGAAAGCTATTCAATTTATGATTTCTGTCTTTGTTTCAGACTAGCCAGCTCAAATTATAGTTTA
AGCTCTTTCCTTGCCCCTAAATCTGGCTACCTAGTTTTATAGGAAACTTACTGTGAATATGTGCCTAATTAGATGCAGACTTACAGGTCTCTTTGACTAA
AAGCTCAGTCATGGCGCCCCATGTTTTTTGTTTGTTTGTTTTTGTTTTTGAAACAAAGCAAACAGGGAAGAGTGGAAAGGAGGAAGGGAAAGAAAGGAGG
AAGAAGGGGAGGGAGGAAAGGAAGGAAAGGAGGAGGAAGGGGAGGGAGGGAAGGCAGGAAGGAAAGGAGGAAGGGAGGAAGGAAAGGAGGAAGCAAGGGA
GGAAGAGAGATTTTTGCTGAATCTAGTAGGCCGAAGGTCAGGGCCGTTGGAGTGGGAATTGTCCACGGTGCTGATAGGTTGAGGAAGTCATTCCTTCCAC
AATTCGCCTGGGGCCCTAAACCTGGTTTGCCCGCGTTCCTCCCGTGCCTTTAGGAACTTGTCCGGGTCCTCTCTCCCAACCCACTGCAGCAACCATTGTT
CTTGCGACGCTCCGGCGCCGTCGGTGTGTCTCGGCTCTCCACTCCTGAAGCTACACACAGCTACCGAGGATTTTTGTTTGCTTGCTTCTTTCTATTAAGG
CAAAGGTTGGCAAATAGCGTGTGCTTGTCAGTTCCCTGGCCCTGCGATCCCCTTTGGACAGCAAGCTGTTCCTCGATCCCCGGGAAACAGGTGTGCGCCC
TCTGCTCACGCTCCTCACCCGAAAGCAGGTGCGACCGTGGACATACACTTAACACTCTCACACCCATCCACTTATGCCCACTTTCACATACACATTCACA
TTCATTGACACACACCTGCACACACTCATATGTTCACATACACACTAACAATCACACACTCATTATATGCACACACGATTTGCACACACATTCACATAAT
CTTGCACACACACGGATTCACACACGTACATTCAAGTGCAATCACACACTTTTGCACACACAGGGCATCGGACGCACGAGGCCTTGAGCAATTGTGCCCG
TGACCTACGACTGCCAAGATACTCCTACTGAGTTGATTTTACGTTGTTGATTCTGAGTGTTGGATGGTTTAAGGAAAGCCCCTGGATCCTGACAGGGAAT
CAGAGACAAGTCCTTCCAAGGCCTGTGGGAGCCGACAAAGGAGCCACCAAAGCCCCGTCGGGACCGGGAGGGCATAAATAATAAATAAAAAGGCCCAGGC
AGGCCGAGCTGGGGAAGCCCGGCACTAAATCACTCCCTAAATCACAGTCGCGTCGTGCTCCATCCAATAGCTCTAAGCGATTTGTGGGGTTGGGGGTTGA
AATCAATTTTTTCCGTTCTCGCAGGTGCAATATGAATCAATTATCTTAATTAAGATTATGCCGCAAGCCCAGGAGATTTGGGGAGGATGGGTTTTGCGCT
CGGGGCGACGGCGAGGCATTTTAATAGCGTCTCTCGTTGCTCTTGGCTCTCCCGGGTCGCCTGCCTGTCGAGCCTGGGCAGCTCCAGCCTCAGGCCAGGA
CCCGGGAGCCCAACTGCCTCCCCCGGGGCGGAGGCGCCGCGTCGGCGGTCTGGTCAGAACCSGCATCAACCCCCCTTCATCCCCCGAAGCTCTCAAGAGC
CTCCGAGCTACCCAGCCTGTGCAGGACCTGCAGCTCTCAGCCCTCCGTTCCTGCGGCCCCTGAGCCCCACGGTCTCGCGGGCCCCTCAGCCACCCGGCCC
CCTCACTCCGCTCTCCCGCGCCCAGGCCCCGACACCCCACTCCTAGGCAGGGCGGGGAGAGGACGCGGGAACCTCTCGAGGTCGGCCGGGCTGCCCTGGC
CACACTTGATCCTTTCATTGAACGCAAACCTCCCTTTGCAAGAGCGAGCATCTGTTTCCCTGAGAAACAGGTCACCGCCAGGGACGCCGGCCCGGCCCCT
GCTCTTTATCTTGGCCCTGTGAATGCTTCGCCCCCGACCTCCCGCTCCCCGCTTTCGCCTCCAGCCACACGCTTCCCACCCCCTACGTCCGGGCCACACG
CCTCCATCCCTTCCCCACCCCCATCCTCCCACATGCCTCCCCCTTCCCCTCCGCCCGGCCCAGGCCACACTCCCCTCTCCCCACCCCTGGCCACACGCCT
CCTCCCGCCCCCCTTCCCGCGGGCGCTCCGGCTGCCGCTGTAACGGCCGGGACGCCCGGCCCGCGCCGCGCGCTCAGAGCGGGGACCCGGGAGGCGGCAG
ATTTGGGGCATTGCTCGAGGGCAGTGAGTCATGAAAGAGGCTTTTGTTGTCCGCGCGTGCGGTTCGCGTGCCGCTGGGTAGCCTGCAGCGCCCAGTAGGG
ACGGGAGCTGGGGGAGTACAGCTAACGGGCAGCGAGGGGAGAGACAAAAAACTTAGGGAATCAGGAGGGGGAAAAGTGTGCAACCGTCCAAACAAGTCCA
AAGAGAAGAAAATAAGGAGGAGGAGCGGGGCCGCGGAGAAGGTCCTCAGTGCTAAGCCCCGCCGCGCCTTCAGCTCTGTCCTCTCCGGGATCCGGCTGAC
TCTCTTCTCTCGCCCCAATTTCTCGCGCCTTCAACCCCAAACAAAACGCACCTCAATCCAGGCCGTGTCCAGGCTCCTCTTTTTAGGGCCTTACTACCCC
GCATCTCCTGGGAGCCTCGCGGGCACTGGCTGAGCGTCGCGATGCCGGCGCCCCGGGTCGAAATTTTCCGCGCAGAGGAGGGTCACATCGGAGCGCTGCG
GGATGGGAAGCCCAAGGACAGCTACCGTGAGACCCAACCTCAGCCCTGTCTCTGAAACATCCTGGAGTGGCCTTTCCTTTGTACAAATCTCCAGGCCTGA
GCGAACAACGCGCAGTGGGATTAGAGATGAATTTATCAAGGGTAGAGGGAGGAAACAGACTAGTAATTCCCGCACTTTACGCATTTGAGTCTCCGTCTGG
CAAAACACTCGGGCGTCCCTCTTGCTCAAGAACATCTGACTCCACCATAATTCTCCTGTATTGCACAGGATGTCGCGAACTGGAGGTTTCTGCTTTCTGG
GGGTGAGGACAAGGATTTAGCAGAGGGACCTCTAGGCTACCCCTGACCTCGAAGCTAGCTGGAGTCCTTTCTCCCACTCCGTCCCCAGTTCTCCTCCGGA
ACTCCCCAAAGTTGGAAAAATGAGAGCCTAGGCACGAGTTGCATATGCCTGCGGCATAGTGTGCTGCCAGTCGGGGCAGCTGCCGGGTGAGGGGCAGTAC
TTAACCTGGCCCTGCCGCAAACGTCGGGCTGTGTACTATCTTCTAAGGGCTAGTACTCCGACGCCCTCGAGTTTTAGCCCAACACTGAAGATACAGACAG
TACAGGGGTAAATCCTGGGCCCAGGCTCCTGGGTGAATTATTTTATCCTCCCCTATGCGCTTTGTCAGCCAAGTGAATGTAGAAAAGCAAGCAAAACTCC
AGAACCCCACAACGATTCACGCCACGCTTCGGTGGCACAACTCTTTTCTTCCCCTTTTAGATTAGTACTGTGCAGGGAAGGCTGCACCTGCTACCTTCAG
ACACCGGGGATCTGGCTAGGACCCTCTTCCTCTACCCCTACTCTCTCCTCCCGTCCCCACCCTCTCCCAGATGCACCCCAATCCAGCCTCTCAACCCTGT
CGCTGTTTGCAAACTCGAGGGATGTTTAGTGCAATTGCCTTTAAATAAGCAATTCACGTAAGAGGTATTTATTGCAGAGGGTTTCAGGTCTGGGAGGGGG
TAAGGAGTTAGTTAATGAAGGATTAGAGGCAAAGCTGGGAAAGAACGAGTAGACAGGCCAGTTTCTTTCTTTCTTTTTAAAATCTATTATTCTGGAAAAC
CCTTGTTCGAAAAGAGTAAAGAATTGCTATTTGGGCAACAATATGGCTCCTTCAGAACTGGTCGAGAATTTCTGTGGTCTTTGCTTGACCTTCAAGTTGG
GAGTTTCAAATCAGAGGCTTTGAAGTCTGGAGGAGTTCGCAGCCATTAATCCTTCCGGGGTTGTGCTAAAGGCGTTTCTAGAAAGAGATCGGAAAGACCC
GTTCAGCACAGGCCCATTGCATCTTCTCTTTGAAAACGCTTGTCTGAATCAAGTATCTTATACAGACCCGAGACTGAGGGGAGCAAGAGCGCAGGTCCGG
CTGTGGCGAGGTGTCCACCACCGTACTTGTGGTCAATGCCTGGACTAGAGAGCCGAGGCCGTCCAGGGCGGGCTGGCCAGGGAACCAGAAGCGTCCCTGG
ACTGGCTGAGTGAGGGTGCCCTTTCCAGCAACCCAGTGGCCATGGTTAAAAGGCAGAATACAACCGTCAAAGAAGTCCCCAGCTCCCACATAAGAGAGCG
CAAAGGCCAATGGAACCAAGGCCTCCTCGCGAGAACTAGCTCGCTTTGAGGACAAGATCCTGGGGATGGAGGTGGGGACTGACGTAGTGAGAGGGTCTGG
AGGAACAGTCGTAGCTGAAGGTCAGGACATGAAGAATTGCACGTATGGTAGGGATAGAATGGCAGGTACAACTTTTCTGTACTGAAGGAACTGGGAGAGG
ACGATCCGGTTAGGGAGGTTGGGGAACTAATCTCAACGCTGCGTTTACAGATGAAGCCGCTTTTATATGGCGTATATGTTTGCTTAGAGGGGCCGACGGA
GATTAGGAGAAGCCATCCTTTGGCGCCAATGATCAAAGCGTCTGCCAAGGAGAAGAAGCCAAGGGATGGGCCTTTCAGAGAGGGCAAGGAGTCATGCTGC
TCTGGATGCCAGTGTCAGGACAAGAAATCGAAAGGAGCGAGGACTCTTCACTGCGTGCCTCAGTCTCCCCGCTTCTGCCTCTTTCACCTCTGTCCTACTT
CCGGCGCGAAAGCAGGCCACTCGCTCTGATCTAGACCTAGTTAACATTAGCTTTTCCCTTCCTTCCCTCAAATCCCCTCCCCCCTCTATCCCCGTCCCTT
CTGCCGCCTGAAAGGGTTAATCTCTCCTGCGGGTAAAAACAGGTCCGCGGAGTCTCTAACTGGCGACAGATGGGCCACTTTCTTCTGGCCACAAAGGGGC
CGGAATGGAGCGCTCCGCGGCATACAAATGGGCAGGTCACGTGGTTCCAGGCTCTTGGCTGGACCGGGAAGACCATATGGCGCATGCCGGGGAGGAAGGA
GGAGGGGCGGGGGTAGGGGTGGAGGGTGAGGGGAGCGGTTGTCGGAGGAGGGCGGGAGACGAGCAAGGCGTGGGGAGAAGTGGGGAGGAGGGGAGAACGG
GGAGCGCACAGCCTGGACGCGTGCGCAGGCGTCAGGCGCATAGACCTGCTAGCCCCTCAGCTAGCGGCCCCGCCCGCGCTTAGCATCACTAACTGGGCTA
TATAACCTGAGCGCCCGCGCGGCCACGACACGAGGAATTCGCCCACGCAGGAGGCRCGGCGTCCGGAGGCCCCAGGGTTATGAGACTATCACTGCTCAGG
ACCTACTAACAACAAAGGTAATTACAGTTCTTTCATTTTTTTGCCCCAGAATAGAAGCAATAACTGAAGACTGATGAACCTACATATTCTGTATGTGTGC
GTTTGCGAGAGTGTGTATGTGTATTGAGACCAGCATCCCCCTCCATAATTGCCCATAAGTACTCACACATAATGAGTCGTGTCACTCAAGTACCCCCYGC
AGGCTTTCTAATTTAAATTTTAAAAATTTGGGTTTCTTTTGTGGATAGCATAGGAGCTTCTTGGATTTTTTAAAAGAATGCACGRTAACTATGATTATCT
GCTAGTGCTGATTTTAAAGTCCCAAARGSAATAATGACTTCACTTTCTCACTTCTTACAGTAAGAAAAAAAAATCTATGTTATCAATATATATTTTGTGT
GCATGTATTTTACGCACATTGGGAGTGTCAAGCTGTGTTTTCAGTGAATGAAAGGGACATGGATACCTTGAGTATTCACACCATGGAAAATAAATCAGGT
TCAGAGATAGTTTAGTTGAGAGGGGGGAAAGTGGAGAAAGGGAGAGGGACTCACTCCTGCTACCTGTTACCGCTCCAGAGGCGGCCAAGTCCCCAGCAGC
CACTACTGGAGCCAGAAATTCAGTTGTTTTACTAAAGGCTTTTTATTTTCCTTACTAGAARCGGCAACTTCGCGGTTGCCAATCGCTGACCATTATAATT
ACTCAATCTTTTAAAGGGAGGTTTGAGGCGAACTTTGAAAAGCCCCAATAAAGAGCGGGCGGCCCTTTCAATGGGCTGTTTATTAGAGAGGAGCCTTCCG
CACCTGATCCCYGGCGCGTGGGAGAGCGCTCTGCGCCGCGCCCCCAGCCCTCGCCCTGCASSTAGCGCTTTTGTACAAGGTGGAAATTTAGCGGTGGGCC
AGAGATGGAAGGCAAGAAAAGAAAGGCGAGGGAGGGGTGGAAGACCCTGTCCACTTTTGTTGCCAAATGTTACATTGATGGTGAAACAATTTGGTGGAAA
CTATTTTTCCTCCTTTCTGCATTTGCTTTTCAGTATCCCGTCGATGTAATCTTCTTAAAAATCGCTGCCAGTATTAGTAAATTACGCAATGGCTGTTCAA
CTTAAATCGCTAAGTATCTGGAAGCCAGGACAGAAATGGAAGTAGAATGTGTGATTTTACAGCTTTTTTTTTTTTTTATGGAGTTGTGAGTAACTTTGAA
CACATTTGGATAAACATGAAGTCGCTGAAATGTACAGYCATTTCCACACACATTATCCTGTCGGGCAACCACCATAAACACATTTAAGTTAATCACTAGG
ATACAAACACATATGCGTGAGTGGTGTACACATATACATATTCACTACCCTCCCCCAGTCCTGTCCTCACTCCTACGTACTAGCGGGGCACACGCACGCG
CCATTATAAAACACTGCATTTAACTTTTTCTCAGAGGCATTCATTTTGTAATGGGCAGGTACTTTTCGCAAGCATTTGTACAGGTTTAGGGAGTGGAAGC
TGAAGGCGTATCTGGCTTTTGAATATAGCGTTTTTCTGCTTTTCTTTCTGTTTGCCTCTCCCTTGTTGAATGTAGGAAATCGAAACATGACCAAATCGTA
CAGCGAGAGTGGGCTGATGGGCGAGCCTCAGCCCCAAGGTCCTCCAAGCTGGACAGACGAGTGTCTCAGTTCTCAGGACGAGGAGCACGAGGCAGACAAG
AAGGAGGACGACCTCGAARCCATGAACGCAGAGGAGGACTCACTGAGGAACGGGGGAGAGGAGGAGGACGAAGATGAGGACCTGGAAGAGGAGGAAGAAG
AGGAAGAGGAGGATGACGATCAAAAGCCCAAGAGACGCGGCCCCAAAAAGAAGAAGATGACTAAGGCTCGCCTGGAGCGTTTTAAATTGAGACGCATGAA
GGCTAACGCCCGGRAGCKGAACCGCATGCACGGACTGAACGCGGCGCTAGACAACCTGCGCAAGGTGGTGCCTTGCTATTCTAAGACGCAGAAGCTGTCC
AAAATCGAGACTCTGCGCTTGGCCAAGAACTACATCTGGGCTCTGTCGGAGATCCTGCGCTCAGGCAAAAGCCCAGACCTGGTCTCCTTCGTTCAGACGC
TTTGCAAGGGCTTATCCCAACCCACCACCAACCTGGTTGCGGGCTGCCTGCAACTCAATCCTCGGACTTTTCTGCMTGAGCAGAACCAGGACATGCCCCC
CCACCTGCCGACGGCCAGCGCTTCCTTCCCTGTACACCCCTACTCCTACCAGTCGCCTGGGCTGCCCAGTCCGCCTTACGGTACCATGGACAGCTCCCAT
GTCTTCCACGTTAAGCCTCCGCCGCACGCCTACAGCGCAGCGCTGGAGCCCTTCTTTGAAAGCCCTCTGACTGATTGCACCAGCCCTTCCTTTGATGGAC
CCCTCAGCCCGCCGCTCAGCATCAATGGCAACTTCTCTTTCAAACACGAACCGTCCGCCGAGTTTGAGAAAAATTATGCCTTTACCATGCACTATCCTGC
AGCGACACTGGCAGGGGCCCAAAGCCACGGATCAATCTTCTCAGGCACCGCTGCCCCTCGCTGCGAGATCCCCATAGACAATATTATGTCCTTCGATAGC
CATTCACATCATGAGCGAGTCATGAGTGCCCAGCTCAATGCCATATTTCATGATTAGAGGCACGCCAGTTTCACCATTTCCGGGAAACGAACCCACTGTG
CTTACAGTGACTGTCGTGTTTACAAAAGGCAGCCCTTTGGGTACTACTGCTGCAAAGTGCAAATACTCCAAGCTTCAAGTGATATATGTATTTATTGTCA
TTACTGCCTTTGGAAGAAACAGGGGATCAAAGTTCCTGTTCACCTTATGTATTATTTTCTATAGCTCTTCTATTTAAAAAATAAAAAAATACAGTAAAGT
TTAAAAAATACACCACGAATTTGGTGTGGCTGTATTCAGATCGTATTAATTATCTGATCGGGATAACAAAATCMCAAGCAATAATTAGGATYTATGCAAT
TTTTAAACTAGTAATGGGCCAATTAAAATATATATAAATATATATTTTTCAACCAGCATTTTACTACTTGTTACCTTTCCCATGCTGAATTATTTTGTTG
TGATTTTGTACAGAATTTTTAATGACTTTTTATAATGTGGATTTCCTATTTTAAAACCATGCAGCTTCATCAATTTTTATACATATCAGAAAAGTAGAAT
TATATYTAATTTATACAAAATAATTTAACTAATTTAAACCAGCAGAAAAGTGCTTAGAAAGTTATTGTGTTGCCTTAGCACTTCTTTCCTCTCCAATTGT
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTGCACAATTTGAGCAATTCATTTCACTTTAAAGTCTTTCCGTCTCCCTAAAATAAAAACCAGAATC
ATAATTTTCAAGAGAAGAAAAAATTAAGAGATACATTCCCTATCAAAACATATCAATTCAACACATTACTTGCACAAGCTTGTATATACATATTATAAAT
AAATGCCAACATACCCTTCTTTAAATCAAAAGCTGCTTGACTATCACATACAATTTGCACTGTTACTTTTTAGTCTTTTACTCCTTTGCATTCCATGATT
TTACAGAGAATCTGAAGCTATTGATGTTTCCAGAAAATATAAATGCATGATTTTATACATAGTCACAAAAATGGTGGTTTGTCATATATTCATGTAATAA
ATCTGAGCCTAAATCTAATCAGGTTGTTAATGTTGGGATTTATATCTATAGTAGTCAATTAGTACAGTAGCTTAAATAAATTCAAACCATTTAATTCATA
ATTAGAACAATAGCTATTGCATGTAAAATGCAGTCCAGAATAAGTGCTGTTTGAGATGTGATGCTGGTACCACTGGAATCGATCTGTACTGTAATTTTGT
TTGTAATCCTGTATATTATGGTGTAATGCACAATTTAGAAAACATTCATCCAGTTGCAATAAAATAGTATTGAAAGTGAGAGCAATTGTTGCATTTCTTC
TTAAAGGGATTCTGTTTTTATTTTTGGGGAAAGTAGTTGCTTTTTTGCTGAGTTAAAAAATACTAAACACTATATGTAGAATAAAAGAAAAGAAAAAAGT
TTACCTTGGCATATGCTCTTGTCTGTTTATCTTGCACAGGGAGTCACCAGTTCTATGTAGATAATGAAAAGACCTAACTGATATTTCATTATTTGGAATA
TGGGACTGGACGGCAGTACAAACAGTGTGTTTTTTTCTTTGTTTTAAGTGGCTTAGCCTTTAGGTTTTTTATTTCCATTTTTAAAAATGATTGTTACATG
TTTTCTTCTATTTCTTTTTTTAAAAGGTGGATTTTAATAATTATTAACAAGCAAGACATAAACAAGTATCCTAGCTTAGTTTGTCTATACATTTAAGATG
TATAAAACATTACTATTTTCTTGGTCTTCTGTTATCTGTACATTTTTCTGAACTAAACAGTTTTATCTTGCAAACTAGTACTGTCCCAGAAAAATTTATA
CACCTTTAGGAAGTACCAAAGGGAAATGAGTTAATTAATTTAAAGAATCCAAGAGAAGTAACATTTTATAATTGTTCTATTAACATCTTGTGATGATTTC
CATCATTTTTCCAAGAAAAAGCATAATGGATTATTTGTACTGAAGAACACACTATTTGTACTGTATTTAGGAAGGTGTAATTATTTCCTCCCCCCACCCT
TTGGGGCACTATTCTGTTGTTTCATGAACACAACTCACTGGAAAAACTTATGGATGATTCTGTCTATTGTTAAGTCCACTTCAAAAAAAAAAAAACAGTT
TGGCATTTCTTTTCCTCTGGATGTATTGACTGACAGTCATGATTCCTAGGGAATATCATTTTGGCACTTGTGCCCTGGCTCTACTGTGGTGCTCTGATTA
CTGTCATTAGTAACTCCATTGTTTCTACTCTGATTCGGGTGCCACATTGGATGACTACCCCCCTTCCCAAGCTTGTTCCTTTAATCTCCTTCTCATTGGT
GATTTAGGGGTTCCAGAAAGCTGACCTCATTTAGCAAGCTGCTCCAGAAAAATGTGAGTAATGTAATGGACAGGAACAATTAGCCATACTAATAACATTG
CCAATGAGGCTGCGTCAAGCTGTGACAGAAGCAGTAAGGAATACTTCGACGTTAAAAAAATGTTTGAGAGCAATTTAAAATATATTATTTTAACATGTTT
TCTATCAGCCTTCATCACATGACAGAAATACTTTTAAGTTAGTCCCAACTTTATCTAAAATGCAGCAATCTCATTCCAAGTGAATCAGAGTTGTTATTTT
GGAATCAAGCTGTTGCTTTCTATATCCTGGATTGTTCTCACTGTTCTTACTTTAAGAGACATAATACTGATATGATACTTGAATACTACCAGCCTTCCAG
TGTAGGAGGTAATGAAGTGAGCATTCAGATCTGATCTAACCTATTAAGTAGCTCAATTTCACCTGCAATTAAAATTAGACATCTTCATGCAAACTAAAAT
CTGTTGCTGTAGTGAAGAGAAGAAATAAAAGAATGCCATTTTGAGAATTCCAGCTTCCAAAATAGCAAACAGGGAAATCTAGACTGTGTTCTTTTGTAAG
GTAGAAATGAAGACTAAAAGTTAGGTTTTTTTTTTTTTTCTTCCCATTTTGCCAATACAACTTCATTCTAAAACATAGGGATTCTTTCAGTCAGTCAAGG
AGTAACTCACATGCCACCATCTTTTATTCAAAGGCAGGCACAGATGTTCCTTCTGCAGGGGAGGATTTAATTTATGAAAATGATATTGTTTATGCATGAA
TGAACTGCATGCACTCTGCATAACACATAGCACTTCCATCTGAYCAGAGAAATACCACAGAACCAGTGCCAATGTCAGAAACATATTCTACAAATTTACT
CACTTAAATGTTTAATGAATATTTGGAAGGCATTTTCAAACCATAARAAACATTTTAAATTATCTTCTTTTATGRATTCCTACCCATATTTAAAAGAGAC
TCTTACAGTTTTTGTAATTGGCTAATGCTTATACCCAGTTTGTAAGAAAAGAACATATTTTACTAAATGAAAACCAACCAAAAAAAAATGCTGGCAAGTT
TGGCTTCACTGGAAAAAATATTTCGTTTAGTTTTGCTGTTTAATGCTTGTCATGAATAATATTTGGGATTCTATCTGTTTCTTCATCTTGAGCCACGACT
ATTCCTATCAAATAAGATGCTTAGGTATACTTGTTTAATGTGAAAATCCTATGAATAGTTATTTCTAGAAAAAGCTGGTATGTAAAATCAGGGGGAAATT
TCATAAAGATGAAATTGGGCTAAATATTGTAACATGCATAATTACTATTGAATAGGAACACTTCACATAACATATTTTACTTTATATAACCAATTGCAGC
TATATAGTATGATCTATCTACTTTTAATCATTAAAACAATTATATATAAATTAAAATGAAAGATTATAATATCAAGAGTGTTCTACTAATTTTAGGTTTA
TAATATGTTACAGTAAAATACCATTTGAAATAAATTTTGTGTTCTAATTTATCTTAAAATCTCTCTGTTTTTACATTTGAAAGTCCTTACATTCTTACAA
AATTAATGCATTTTCTGAAAGAAGCTAGCAATTACTAAAATGATATATGGATCATTAGCTAACAGTTTGAATCAAGCTGTTTTAGTTCTATAATTATACA
AGAAATTTAAAGTGAAAATACCTATTAAGCAATTAATAAAACTAGGTTTCAAAATATTGGCTAATTTTCTCCTAATGGGAAATGTAAAATAGCAAAACTG
CTTCTTAAACTACACAAAAACCTCCTCACTTCTCCTTTTCTCTCTCTCTAACACCACTTATTTCCTGAAAATCATCTAAATAAAATATTTAATTCCAGGG
TCTGATGAAGAATAAAAGAGCCAATGCAACATCTTGTGGAACACCAGGACTGAGAACTCTTGTTGTTACCATTGCAAAGAGGCGTTCTGGCGTCAGATGC
ACAGTGATTTGTATGGTGGCATAATCATTGGCTCCTGGCCAGGCATTATGTTTCAGAGGACACTATTGTCAAGAACCATTCAACTAGAAATCTGCACTGT
ATGCACTCAAAAGTTGAGATCATCTGCCTTCCTATGACAGGAAGAATTCTGTGCTGGCAATTGACTCATGGACTCTCTTCACATACACTAAGGCTTGGTC
CAGTGGCTCTGATGGAATTAACTGTGCAGCCAAACTAGTGGCATTGACAAGACAGGGCCACAGTCTCTGGGGACTTCAGGAGAAATTGCTAATTTTAAAA
TGCAGAGTATTATGTTAATGCTGGATTAAATCTTCAGATACATTAAATGTGGATTTGGCCATCTAAGCATTATTATGTTATTTGCCCAGTTAATTTAGAG
GTAGATGGATGGTGACAATAACCATCTCTACAGATCCACAATTCTAAGAGATGGATCCAATTGTGAAATGATATGGAGAGATAGAGTAAGTTCAATCTAG
CATATATGAAGTAATTTGGTAACTGACTTTTCTTTTAACAAGATCAAAAGCTAACCTGCTTTACACTTTCATGTCTAAGGACAGCCAACCAGAGAGATGG
CTTCACACACTAGCCCACTGCTAAGTGCTTTTCATTCACTTTCATATTTCATCATCAAAGCACCCTCCTGCCTTATTTATAGATGGGGAAACTTCAGGAA
GTTGAGATACCTAGATATTTGCATTCCTGTCTTCCTTTCTTCATTCAGGTTTTTCTTTCATTGCCACTTCCTCAAAGAAGCTTTTACTGATTCCCATTTA
AAATAGCAACTGACTTCAACTCCACCAAAATCACTGTATTGCCCCTCCCTCTTTCCAGAGCATTTGCCTATCAAATGTTATCTTATGTATTTACTTGTAT
AGCTTAATTTTAAACTATCTATCTCTAGGTCTTCTGAGCACCTGAGAAACAGAGACAAAGTTGTCTCTTCTGTGTGTTGCTGTTCCTCTGGTGCTTAGAA
GACCTAGAGGATCCTCAATAAATATTAACTTTCCAAGGGAACTGAAGAGCACTAATGTGATGCTAAAGCCTGTTGCCTTAACCACTATGCTATAAGTCAA
ATCAGTTGAGAATGGAGAGGACCACAAATTATTTTCAGTCCAGCAAGTGTTATAAACATTAATTCTATAAAAAGAAAACAATTGAAACTAATTTCTTATT
ATATTGCATGGCACCAAACTCYCCCCACTTCCTTTTTGAGGATCATGAGTTGTCTGTCATTGTTTCTTTTTATTGATATCAATTGGTTAAATATAATCTG
GAATTGGAATAAAAGAAAAACTATTATAGGCTTTTTCCAGACCATGTATTTCAATGCATATTATTTTTTCCTTTCTGTTCATTATTCTTTCAGTAATTGC
ACTTGTTCTATTTTTAGTGTTATGTAAAATTACTGTAGCTCATAATTTCTATTTTGAAGGGTTCAGTGTATAAACTTAGCACATCAATACTATCTTTTTA
GTGTTCGCGCTCAATGGTGTCAGTTAAGAGATCACCATCACTTTTGGTGACGTCAATGAAGGGGTATTGCAATGCTTAAGAGAACTGTTAATCCCTTTCC
ACTGGTGTCACTAACAATTGTAGTGCTTGTTTATTCATAGCAGGTACGTGACTAAGTAATGTTAACATCAAAGCAGAAAGAGGATAATAGAGTGTTCTAA
AAAGAAAATTCGGTGGTTGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTTGAGAGGCCAATGGGGGTGGATAGTTTGAGCCTAGGAGTTCAAGAC
CAGTCTGGGCAATATGGTGAAACCTCGTGTCTACAAAAAATACAAAAACTAGTGGTGCATGATGGCATGCATCTATAGTCCCAGCTACTCGGGAGGCTCA
GGTGGGAGGATCACCTGAGCCTGGGGAGGTCAAGGCTGCAGTGAGACGTGATTGTACCACTGTACTCCAGCCTGGGTGACAAAGTGAGACCCTGTCTCAA
AAAAAAAATGATTTGAGATAACATCACTTGTCATTGTTTGTTAACTGAATAATCTTTATTCTAGCCAGTGCCTAAATACATAATAAATGATAGTACAAAT
GGATATAAATTATAACTAAACCTAAGTAGTGATATTTATCACAATATTTCTTTACTAGAAGAATTTCTTTGTTAATAGAGGCAAGGCTACTTGTTTAGAT
ACCTTAAAATAACATAAGATTTTTGGATAAATAAATTAATGATTCTTTGATTCTGACTGGCATATTAAAAATATTAAGCGAAGAGATCTTTGCTTCCCAG
GTTTTATTTTTTGTCTAATTAACTACTGGTGCATTTATATTAAAACATATTGTCAAGGGAAAACATATATATATATATGTGTATATATGGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGCACACATATGCTATACTTGGTTGAGTAGTATCCCCTTCCCTTGCCCACCTCTCTCCCAAATTTATGTCCATCCAGAACCT
CAAAATGTGGCCTCATTTGAAATATTGTCTTTCCAGATTTAATTAAGATATAAGATGTAAATTGATACAAGTTCATGCTGGATTACGGTGGGCCCTAAAT
CCAATCACTGATGTCCTGATAAGAAGCAGACAGAACACACAGACACACAGCATACAGGAAGAATGGCATGTGAAGGCAAAGACAGAGACTGGAGTGATGT
GTCTACAAATCAAGGGGCCCCAAGGATTTGGGGCCCACATCAGAAGCTGGGAAAGAGACAGGAATTCTCAGCTTCTCCTTCTGAATCCCTAAGAAGGAAT
CAACCCTGCTGACACCTTGATTTTAAACTTCTTGTCTCCAGAACTGTAATATAATACATTTCTGTTGTCTTAAGCTACCCAGTTGCTGGTGATTTGTTAT
GGCAGCCCTAGGAAACTGATAGGTATACTAAAATCTCTAATGAATTGATGTTAAATATATATAAGTATAGGAGAGTTCATTTAAATTCTTCTGAAAATGT
CTTCTTAAACTTTTAATGATACAGTATATAACAACCAGTATACGTAGTTGGTATCGGGTTTGACATTTAAACAAGCTGACAAAAAACAGCTGTTTAATAA
ACATCTGAATTATATAAAAGTTTTATTGTTTATTATTCATGTGAATGACTTAAACTGACATCTACATTTAGTGAAGTGTGAATGGGCCTAGCCAATAAAC
TATGGGTAATTTTTTTAAAGTCTCATCTTTGAACTCACAAAAAATTATCAAATATCAGCTATTATGTATTCTTCATGTGAAGAAAATGTCATATTTATTT
GATTTGTGG


SNP Information

Context             (SEQ ID NO:17857):
GGGCGAGCCTCAGCCCCAAGGTCCTCCAAGCTGGACAGACGAGTGTCTCAGTTCTCAGGACGAGGAGCACGAGGCAGACAAGAAGGAGGACGACCTCGAA
R
CCATGAACGCAGAGGAGGACTCACTGAGGAACGGGGGAGAGGAGGAGGACGAAGATGAGGACCTGGAAGAGGAGGAAGAAGAGGAAGAGGAGGATGACGA
Celera SNP ID:            hCV11951412
SNP Position Genomic:     7919
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(A,11|G,27)   total(A,17|G,57)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): French caucasian type II diabetics(A,166|G,229)   Controls: spouses of diabetics(A,88|G,139)      total(G,368|A,254) ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:17858):
TTAAAAAATAAAAAAATACAGTAAAGTTTAAAAAATACACCACGAATTTGGTGTGGCTGTATTCAGATCGTATTAATTATCTGATCGGGATAACAAAATC
M
CAAGCAATAATTAGGATCTATGCAATTTTTAAACTAGTAATGGGCCAATTAAAATATATATAAATATATATTTTTCAACCAGCATTTTACTACTTGTTAC
Celera SNP ID:            hCV11951413
SNP Position Genomic:     9174
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,12)      total(A,12|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:17859):
GGCCCTTTCAATGGGCTGTTTATTAGAGAGGAGCCTTCCGCACCTGATCCCCGGCGCGTGGGAGAGCGCTCTGCGCCGCGCCCCCAGCCCTCGCCCTGCA
S
CTAGCGCTTTTGTACAAGGTGGAAATTTAGCGGTGGGCCAGAGATGGAAGGCAAGAAAAGAAAGGCGAGGGAGGGGTGGAAGACCCTGTCCACTTTTGTT
Celera SNP ID:            hCV16061377
SNP Position Genomic:     7061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17860):
GCCCTTTCAATGGGCTGTTTATTAGAGAGGAGCCTTCCGCACCTGATCCCCGGCGCGTGGGAGAGCGCTCTGCGCCGCGCCCCCAGCCCTCGCCCTGCAG
S
TAGCGCTTTTGTACAAGGTGGAAATTTAGCGGTGGGCCAGAGATGGAAGGCAAGAAAAGAAAGGCGAGGGAGGGGTGGAAGACCCTGTCCACTTTTGTTG
Celera SNP ID:            hCV16026709
SNP Position Genomic:     7062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17861):
CAGTAAAGTTTAAAAAATACACCACGAATTTGGTGTGGCTGTATTCAGATCGTATTAATTATCTGATCGGGATAACAAAATCACAAGCAATAATTAGGAT
Y
TATGCAATTTTTAAACTAGTAATGGGCCAATTAAAATATATATAAATATATATTTTTCAACCAGCATTTTACTACTTGTTACCTTTCCCATGCTGAATTA
Celera SNP ID:            hCV11951414
SNP Position Genomic:     9192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:17862):
TTCTCAGATGTTCAAAGTACCAAAGGAGCTTTCTCTTCTCAGTTATGTCTTTACTAGACTTTTCCAGTATATGCTGGATAAGTTATGACTACTCATTATG
Y
AATATTTTAGATCTGGCATGATTTAGCTAATTGTGTGGCTCACTGAATCTGAGTGAATAATGCCATTTAACTTCTGTTGGCTTATTTTTTCATGAATTTA
Celera SNP ID:            hCV11951406
SNP Position Genomic:     415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:17863):
TGCCTGTCGAGCCTGGGCAGCTCCAGCCTCAGGCCAGGACCCGGGAGCCCAACTGCCTCCCCCGGGGCGGAGGCGCCGCGTCGGCGGTCTGGTCAGAACC
S
GCATCAACCCCCCTTCATCCCCCGAAGCTCTCAAGAGCCTCCGAGCTACCCAGCCTGTGCAGGACCTGCAGCTCTCAGCCCTCCGTTCCTGCGGCCCCTG
Celera SNP ID:            hCV11951407
SNP Position Genomic:     2362
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,2)      total(G,1|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:17864):
TTGTACAGAATTTTTAATGACTTTTTATAATGTGGATTTCCTATTTTAAAACCATGCAGCTTCATCAATTTTTATACATATCAGAAAAGTAGAATTATAT
Y
TAATTTATACAAAATAATTTAACTAATTTAAACCAGCAGAAAAGTGCTTAGAAAGTTATTGTGTTGCCTTAGCACTTCTTTCCTCTCCAATTGTAAAAAA
Celera SNP ID:            hCV11951418
SNP Position Genomic:     9406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:17865):
GACCTGGTCTCCTTCGTTCAGACGCTTTGCAAGGGCTTATCCCAACCCACCACCAACCTGGTTGCGGGCTGCCTGCAACTCAATCCTCGGACTTTTCTGC
M
TGAGCAGAACCAGGACATGCCCCCCCACCTGCCGACGGCCAGCGCTTCCTTCCCTGTACACCCCTACTCCTACCAGTCGCCTGGGCTGCCCAGTCCGCCT
Celera SNP ID:            hCV25651593
SNP Position Genomic:     8376
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(A,2|C,38)   total(A,2|C,74)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(A,2|C,36)   total(A,2|C,72)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17866):
ATGTTCCTTCTGCAGGGGAGGATTTAATTTATGAAAATGATATTGTTTATGCATGAATGAACTGCATGCACTCTGCATAACACATAGCACTTCCATCTGA
Y
CAGAGAAATACCACAGAACCAGTGCCAATGTCAGAAACATATTCTACAAATTTACTCACTTAAATGTTTAATGAATATTTGGAAGGCATTTTCAAACCAT
Celera SNP ID:            hCV11951419
SNP Position Genomic:     12044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:17867):
TGACGATCAAAAGCCCAAGAGACGCGGCCCCAAAAAGAAGAAGATGACTAAGGCTCGCCTGGAGCGTTTTAAATTGAGACGCATGAAGGCTAACGCCCGG
R
AGCGGAACCGCATGCACGGACTGAACGCGGCGCTAGACAACCTGCGCAAGGTGGTGCCTTGCTATTCTAAGACGCAGAAGCTGTCCAAAATCGAGACTCT
Celera SNP ID:            hCV27536263
SNP Position Genomic:     8114
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17868):
CTCAGCTAGCGGCCCCGCCCGCGCTTAGCATCACTAACTGGGCTATATAACCTGAGCGCCCGCGCGGCCACGACACGAGGAATTCGCCCACGCAGGAGGC
R
CGGCGTCCGGAGGCCCCAGGGTTATGAGACTATCACTGCTCAGGACCTACTAACAACAAAGGTAATTACAGTTCTTTCATTTTTTTGCCCCAGAATAGAA
Celera SNP ID:            hCV2857990
SNP Position Genomic:     6156
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:17869):
TTTGGGTTTCTTTTGTGGATAGCATAGGAGCTTCTTGGATTTTTTAAAAGAATGCACGGTAACTATGATTATCTGCTAGTGCTGATTTTAAAGTCCCAAA
R
GCAATAATGACTTCACTTTCTCACTTCTTACAGTAAGAAAAAAAAATCTATGTTATCAATATATATTTTGTGTGCATGTATTTTACGCACATTGGGAGTG
Celera SNP ID:            hCV27855825
SNP Position Genomic:     6527
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:17870):
TGCGTTTGCGAGAGTGTGTATGTGTATTGAGACCAGCATCCCCCTCCATAATTGCCCATAAGTACTCACACATAATGAGTCGTGTCACTCAAGTACCCCC
Y
GCAGGCTTTCTAATTTAAATTTTAAAAATTTGGGTTTCTTTTGTGGATAGCATAGGAGCTTCTTGGATTTTTTAAAAGAATGCACGGTAACTATGATTAT
Celera SNP ID:            hCV29107991
SNP Position Genomic:     6398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17871):
GAGAAATACCACAGAACCAGTGCCAATGTCAGAAACATATTCTACAAATTTACTCACTTAAATGTTTAATGAATATTTGGAAGGCATTTTCAAACCATAA
R
AAACATTTTAAATTATCTTCTTTTATGAATTCCTACCCATATTTAAAAGAGACTCTTACAGTTTTTGTAATTGGCTAATGCTTATACCCAGTTTGTAAGA
Celera SNP ID:            hCV29107992
SNP Position Genomic:     12147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:17872):
TAAAGGGAGGTTTGAGGCGAACTTTGAAAAGCCCCAATAAAGAGCGGGCGGCCCTTTCAATGGGCTGTTTATTAGAGAGGAGCCTTCCGCACCTGATCCC
Y
GGCGCGTGGGAGAGCGCTCTGCGCCGCGCCCCCAGCCCTCGCCCTGCAGCTAGCGCTTTTGTACAAGGTGGAAATTTAGCGGTGGGCCAGAGATGGAAGG
Celera SNP ID:            hCV27855826
SNP Position Genomic:     7012
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,34)   total(C,63|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:17873):
CCACAAATTATTTTCAGTCCAGCAAGTGTTATAAACATTAATTCTATAAAAAGAAAACAATTGAAACTAATTTCTTATTATATTGCATGGCACCAAACTC
Y
CCCCACTTCCTTTTTGAGGATCATGAGTTGTCTGTCATTGTTTCTTTTTATTGATATCAATTGGTTAAATATAATCTGGAATTGGAATAAAAGAAAAACT
Celera SNP ID:            hCV27496494
SNP Position Genomic:     14422
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,247|C,1210)   total(C,1210|T,247) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17874):
TCAGAAACATATTCTACAAATTTACTCACTTAAATGTTTAATGAATATTTGGAAGGCATTTTCAAACCATAAGAAACATTTTAAATTATCTTCTTTTATG
R
ATTCCTACCCATATTTAAAAGAGACTCTTACAGTTTTTGTAATTGGCTAATGCTTATACCCAGTTTGTAAGAAAAGAACATATTTTACTAAATGAAAACC
Celera SNP ID:            hCV29107993
SNP Position Genomic:     12175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:17875):
TGGGTTTCTTTTGTGGATAGCATAGGAGCTTCTTGGATTTTTTAAAAGAATGCACGGTAACTATGATTATCTGCTAGTGCTGATTTTAAAGTCCCAAAAG
S
AATAATGACTTCACTTTCTCACTTCTTACAGTAAGAAAAAAAAATCTATGTTATCAATATATATTTTGTGTGCATGTATTTTACGCACATTGGGAGTGTC
Celera SNP ID:            hCV27845990
SNP Position Genomic:     6529
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:17876):
TACCTGTTACCGCTCCAGAGGCGGCCAAGTCCCCAGCAGCCACTACTGGAGCCAGAAATTCAGTTGTTTTACTAAAGGCTTTTTATTTTCCTTACTAGAA
R
CGGCAACTTCGCGGTTGCCAATCGCTGACCATTATAATTACTCAATCTTTTAAAGGGAGGTTTGAGGCGAACTTTGAAAAGCCCCAATAAAGAGCGGGCG
Celera SNP ID:            hCV27845991
SNP Position Genomic:     6861
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:17877):
GGAAGTAGAATGTGTGATTTTACAGCTTTTTTTTTTTTTTATGGAGTTGTGAGTAACTTTGAACACATTTGGATAAACATGAAGTCGCTGAAATGTACAG
Y
CATTTCCACACACATTATCCTGTCGGGCAACCACCATAAACACATTTAAGTTAATCACTAGGATACAAACACATATGCGTGAGTGGTGTACACATATACA
Celera SNP ID:            hCV27845992
SNP Position Genomic:     7438
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,32)   total(C,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:17878):
GATCAAAAGCCCAAGAGACGCGGCCCCAAAAAGAAGAAGATGACTAAGGCTCGCCTGGAGCGTTTTAAATTGAGACGCATGAAGGCTAACGCCCGGGAGC
K
GAACCGCATGCACGGACTGAACGCGGCGCTAGACAACCTGCGCAAGGTGGTGCCTTGCTATTCTAAGACGCAGAAGCTGTCCAAAATCGAGACTCTGCGC
Celera SNP ID:            hCV27532166
SNP Position Genomic:     8118
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:17879):
CTCAAGTACCCCCTGCAGGCTTTCTAATTTAAATTTTAAAAATTTGGGTTTCTTTTGTGGATAGCATAGGAGCTTCTTGGATTTTTTAAAAGAATGCACG
R
TAACTATGATTATCTGCTAGTGCTGATTTTAAAGTCCCAAAAGCAATAATGACTTCACTTTCTCACTTCTTACAGTAAGAAAAAAAAATCTATGTTATCA
Celera SNP ID:            hCV27840123
SNP Position Genomic:     6485
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,2|G,38)   total(A,3|G,71)
SNP Type:                 INTRON


Gene Number:                 51
Celera Gene:                 hCG1777418 - 146000219973286
Gene Symbol:                 LOC93349
Protein Name:                hypothetical protein BC004921
Celera Genomic Axis:         GA_x5YUV32VWPT(35876673..35965130)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12211):
CCCTGGGCACAGCATTTGTACCCATGAAAAGCACGTGCACCAGTTATGAGAAATGCACAGGGCTGTCCCACCAAGCTCCCACCGCTTGGCCCTGGTGAGA
GCTCATTAGACTTTATTTTGGATTTCTCCTAGACCAGATCTGTTATGACTGACAGGCTAAAAAGACCCACCTCATCCTCAAAACAGGGTTTTCTCAGCCC
TTGCTAGGCACAGGTGCCCTGGGAGAACCCCCCCTAGTGGTCCAGTCAGCTGTTTCCCACCCACATTTCCAGGAGGAGCACCTGTGGAAAGGCAGACTCC
ACCCCTTCCCTGCACATCTCCTCCAGACCATGGTTGGCAGATGGGCATTGGCCTTTGCTAGAACTGTACTTCCTGTCTCATAATCTCTAAATCTTCATGA
AGCTACACTTTCCACCCCACTCTTCCTTTGTTCAGCAACACTGAGGTCCTTGCCAGGTACCCTGTTCTTCATAGGAGCACCCACTTTCCAGCCCAAAGAA
ATGAAAGTTGCTGCCCATGAGGTGCTGGTGGACACCATCTGGATGGTCCACGAGGTACTCTCCTTCTCTCACCACACATGCATCACCTGGCAGTCCTAAG
ATCTAGGATAGTCCAGGGACCATTCCATTCCAGCTCACTGTGCTGAAACTAGTAGACACATGGAGGTTTGCAGAAATATTAGGAGTGAGGACTTGTTAAA
AGGCTGCACATTTCGTTGAAGCCTTTGCTGCCTCCAGCCCCAGCCTCCAGGTTCTCTCCACTCCTGGTGGTGCCCAGCCCAGCATTGTTGGGACCCTGAA
GCTCACAAGGAGACCTCAGTCCCACCACAGCTCAGAAGACATTCCTCCACCTTTCTGAGGGCAGGTTTGACCCCACAGCCTTAGTTCCACCCTTGTGGGG
TRCATCCAACATGGAGCTGCCTGGTTCCAAATATCCGATGATAGCTGATATTTGTGCTAATGGGGACCCACTGGTGAACACAGGAAGATGCCATCAGGAA
TCTCCAGAATGTGAAACGTGGTGAACCTGTAGAGAGTCGTTCTTTTTCAGTCCAGCAGTTGGGGCTCAAAGGGAAGCTAAGACTCAGAGGAGCCCTGTGA
CAGAGCAGGAGCACCATCATCTTGGACAAACACCACAATTTTAAGTTCACCTTAATTAAAAAGCCCCCTAAATCCAGCCCAAAAACATCAGCCTAATGGC
TAATGTCAGCATAACCAGAAACATTCCAACCCTAAGATAAGCCACCCCCCTCCAACCAGAAACATGCCAACCCTGAGACAACCTCCCCTCCCACCAGAGA
CATTCCAACCCCACAATAAACCTTCTCTCACATGGAAACATTCCCAGCCTGCTATAAGCTCCCCACTTCCTAAACCCTTAGATACCCTTAGTCAGTAAGA
GAAAATGCTCCTGACCAAAACTGACCAGAATCCCCTCTCAGGTTTATTCTCCAAAATAAACCTGTCTTTAACTGTTGAGCCACTTTTCATGTTTCTTTCC
CCTTTCTTTAACTCTTACACCCTGAGGGTAAAGGAAGGTGAAGCTCTTTCCCCTCATTCAGGGAGACTGGGTTTGGGGTGGGGGACATTGCCACACTTGT
CTGGATGAAACGCACTACATGAAACCTCATGTCTTCTAATTCACTCCATACCACCCGCTTTTGCCATTTGCCCACTATTTTTGAATGTTTTCAACTGCTC
AGCATCGAGTCACATCAGCGTGCCCTGCAAGGACTGCAGGAGTGTCCTGCAGGGCCTCAAGGTGCGGGGCAAGCTTGAGGGCTTCAGCCTTGGGGGAGGT
CCAGAAGGCAGGGCCACCTTGGGGTTCCAGAAGGAAAGAAGTTCTCAGGGAAGAGGACAGGGACCAGGAGGAGTGAAGGGCAGAGTCCCCCGCCCCTCAC
GGGCTGAACAGAGGGCAGGCGGTGCCCTGGTGATGCTCGTGAGCTGCTGGATGGCAAAATGATCTCAGAATCCAGTCCTTACATGGGTTCGACTTTATTT
AGAAGGAACTATGGCACTTCTACCACACATTTCGAAGTGTTTGGTGAGCTATAATCCCCAGTAGAGGACGATTTTCAGCTTTATTTCCACCCAGCCCTTA
GGAGGCTGCAGTGCCCTGCGTCGCCAGGAGAGGGGGTGCAGGCCCAGTTGGGGGCGGAGCCTGGAGGAGCACGGGGTGGCCGCTTGGACGGGAACACGGG
AGGCTGACATGGGGAATGGCGGTCACTGGCCCCTTGCTCGCTGCGCATGCTCACAGTGTGTCTGTGGCAGGCCTTGCTGGCTGGATGGCCTTGGGAAGGA
GGCATGAGGTGGCTTCCATGGGCCACCAGGAGCCTGTGGTGCTCGTCAGCACCATGGGACAGGGATCTGTGCATGTCCAGCTGCAGATACAACAGGGGCT
CAGCTGAAGGACCCTGTGTGATGATGCGGACTCAGGGGTGGCCCTGGGCCAGTCTCTTTCCTCCTGGTGCTGCACAAGGACTGAGGGCATCCTCGGGGTT
TCTCATGAATGGTCCCCACCTTCAGAAGGTGGCCRGAGGGACTTCCTGTGTTGTTCAATGCTCCCCTTGTCTTTCTGACTCCCTACAATCCTTCACCCAT
AGCCTCTTCCTCCGCGCCAGGGTACTTCTTCCCATTCGCCCATTTTCCAACGATTCACCCCCTTCCAACAGCAATAATTACATTTCCACCTCCAACAATC
CCACTGGCATCTTACAGTGTTGCAGGTTTGGGAGCCCAGTCACTGAGGCTGTGCTGAGCAGGGGACCCTGGTGAGTGGGCCAGGGAGGATCAGACCAGCC
TGGTCTCACCCAACTTCCTAAAAGCTGAAATATTGCCACCAAATGCCCGCTGAGCCCAGGGGATAATTGCATCACAATCATGCAGTTGCAAGGAACTATG
ATCCCAGCCTCTACCCATCTGGGGCACAGATAGAAGAGAACCTGAGAAGAGAGATGTGTACCCATGTGCTTGAAATCTTTAAGATATAGGCAAAATGAAG
AAACAGATGGGGATCAAAATACCAGCTTTATTCCTGATAAGAACTGGATTAGGAATGTGGCTTAGACATGTGGCAGTAAAGGGACCCCTAACACTAAACC
CCAGAACTGGCTTATCCCCATGGCATCGAACCCTCCCTCATGCCATGCAGGCCCCTGTCCTTGTGCACTTGAGCTTGGAGGGGCCAACAGAGTCTTGGTC
TCTGCAGGCAGGATGACTCCAGGGACACCCAGCAAGGAGCAGGCTCACTCCCACTCCTAGAGAAGAGTCCCCTAGAAGAGAAGAGTCCCCTAGAAGATGG
GTGGGGACCAAGCCTTGATTGATTGATGTTCCACCTCCTAGAAGGAGACAGTTTGGCAGGACTGGCTGCTCCCACTAAAGATCCCAGGCGCCTACTCTTC
ACTCGTCACTTCTACGTCCCTTGGAGGCTGGCCAGGTTCTCTATTCTCATGCCCCAGTGGCACTGTTGCTGCAGCTGCCTCCTGCCCTGAAACTCTCTGG
TCCATAACGCCAATGACCTCATCTCAGGGATAGACCTCTGGGTTCCCACATGGGGGTCCCAGGTTCAAGAATCACAGCCCCTCCCCACCCCTCGCCACTG
AAGTCTGAACTGAAGCTGCTTTTGGTGAAGCTCACGAAGGCCCATCACCTGGATGGGTGCCCTGCCTGTGGTTCTTCCTCAATCACTGCCTCTCCTGCTT
CTGAGTTTTCCAGGCTCCAGTAACTGGAACTACTTCTGTGACAGCAAAAACATTCCCTGTTGCCTGTACTCCTTGCAGCCATAGAAAATGCTCCAGGAGT
TCCATTATTTCCTTCTAAACAATCCAGCAGGATTTTTAGAACTTCATACTACTTCTTAATTTGGTCCTGTCCCTTTCCCAACCCAGGTGTGTCTGATGTA
TTCCAGATCAAAGAAACTTTGCTTTTCCCACAGAAGCCTAGAGATTCTCCATTAACTGGCATTGCTTTTGCAGAGTGTGGTGTGTGCTCAGCTTTTTCCA
ACCCTGTCTGACAAGAACATCTCCTTCCCTGCTGTCAGGAGCTGCCCTAGCAAGGGCATGTCCACCTGTAAAGGTCAACACTTGCAGATTTCCAGCCAGC
TCATTGGTCTGGAATTCCAGCCCCTAAGCACACCCAGAGAAAAGCTGGTACATATGTCAGTGCCACTCAGTGGCCTGGGCCTGCTTGCTGCCCAAGAGCA
GTGAGAGGGGTGAGTGCAGACGCCAGAGCCGACTGGTGTGGTCCGCGCCAGGCCTTGTCAGTGCTGCTGTGCTCCATGGAGACTGGGATCAGAGGACAAC
TGTGCCCAACAGATGCTCAGCTTACCAGCCACTGTGCCTCCATAAAACTGGGGAGTCATGGGGGAGCGAGCAAGAGAAAGAGAGAGAGAGACCTACAGGT
GTGCAGTACCTGATAGAAACAGTGACCTCGCCCACTGGAAAAGCTGTCCTCACCAGTGTCTTGGCACCTGCTTATTAACTCATTTTGGGGAAAGCAGGGC
ACCAGTAGAATCAGGGTAGAAACCCCCCACCCTCGTATTTTCAAATGTACCTGAACAAGCATTCACAGCTTCCAACTATTGTGCAATAAACAGCAAAAAA
AAAAAAAGTCCTTGAACCAAAATTGTCCTTAGCTGCTCTGCCCTCTAAGAKGGGGCATAGTTTACATGGGAGTTGGGGGARGACTCCATGTTTGCCCCTT
CCCCTTGCTGAGATGGCTGGGGGTGGGGGCTGGAAAAAGTTGGATTCAGCAGAATGTAATTTGGAAAACATGGCTCTGGAGCACCATCCCCTCTGGCCCC
TGAATCCTCACCAGCTTCCACCCTCTGCTCACCTTGGGCCCTGGATTCCAGCGCCCCCAGGCTCCCAGCTGCCTCCCTGTCTCTGCCCCATGGTCCAGCC
TGGAGTTCTGGTCCCTGGTTGTGTCCTGTGGCCCCATTCTCATGCGCCCTTTGCTTCTATTTCTTTACCTATGACTTTATACTGATGTAAAGCGAGTCTT
CTCGGTCGCTTCTTGTTCTCTGAGGAATGTTGAATCAGAATCTAAATGGAAAATCTGGGAAGAGATAGAACCTCCCGCGGGAGCCACCCTGCCCTTCCAT
GTCTAGATCATCTGGGTTCCAACCTCCATCCTCCTCCAATGAGAAGCTTTTGTTCTCTCAAGATTCCAGTGACTTCTCCGAAGCTCTCTTCATCCCTGGC
TGTTCCAAGGTGGCCCCATAGTCAAGATTCCTTAAACCCTTGCCCCTTAAAATGTTTGCCTTTCTTACCATGCTGGCTCCAGCCTCTGGTCCCAGGGGTG
TGGAGAGTTCTCTCTTACTTCTGGCTGATTTCCAGGAAGGCTAAGAACACTCTCCCCAGGTTATAATGCTGAGCATTTTGGTTCTCTCCAGCCCTGGGTC
CCCATGTCAGGACCTACCTTAGTCCAGTCCATGCTCTCCCATGGGCCTGAGAGAAGATTTGAAGTTTCTGGCTTTCCCTCCAACCCTCCAACTCTCACCC
CCAGCCATTTCAGCAAGGGGAAGGGGCAAACATGGAGTTTTCCCCCCAACTCCCATGTAAACTATGCCCCCTCTTAAGAGGGCAGAGCAGCTAAGGACTA
TTTTGGTTCAAGGACATTTTTTTTTTTTTTGCTGTCCATTGCACAAGCAAGTGGACTCCCGGAAGCCAGCCCTGCTCGTCCTCTGGGCCCTCCTTTCCCT
GGTCCTGCAGGTCTTGCTGCTTGTCAGGCCTCTCCTCCAACCGTCTGCCACATTTCAGAAAAGCTGAGAACCCCTTGGAGTGAAAAAGGAGGAGAAACAC
GGTGTCTGTATCCCAGCAGGAAGTTAAATAAATACTTTCACTTTTCTTTTCCCCATTTGGGCAGAAATCTGTGAGGGTGAGTCAGTCTGTCGGCCGACTT
CCTGCTCCGGGTCAGGGCAGCCACACTGCACGCAGGCTGGGCCGACTGGGGAGCTCATAGGCCAGGCTCTGACACCCAGGCAGGGCCTAGGGTGGGACGA
TGGCAGGTGGGGGCAGCGACCTGAGCACCAGGTGAGTCTTTATCTCTCTTCCTTTCACCTTTATCTCTGGCAGTATTGGAGCTTTCATGCCTGTAGTTCA
GTTTCTGTCTAAAGCTTCAGTTTAGTCCTGCTTTGCAAGAACATAGGTAGGTAGTGTAATATAATGGAATAAAAGAGAATGTAATAAGGAAATCAGATTT
TTACAACTGCAGCAGGACAGCTGTTTGTGTGAGTCCAGCTTGCCATAACACAGATGACTTTTCTTGTTTTGAAACTACTGCTCAGCTGGCGGGGACACTC
TGAACAGTCGTTTCAGTCATTTGTGACTGAGAGTTATTATTTCCTCATGAGAATGAGGAACACAAATTATATGTTTGTGTTTCAACAAACATTTCCTCAT
GATCTCCCAACCCTTTCACATCCCTCTGCCCTCTCTACCTTCACATATGTCATGTCAAAGAAGGTAGTTTGGAAATAGACACTCCAGGGTAAACAGCTGG
CTTACTTTTAAACATTGGAAACTGTGGTTTCACCTGTCTTGGCAAGGGGCCTCAGTCAGCTTTGGGGCTATTTCCTTGACTGACTCAGGGTGTGAGTTCT
GATACAATTGACCTTGATCCAAAGAAGGAAAAAGAAGAAAAAGGCCCAGGATGGCAGAAAGCTAAATATTTTTATTTTTACTTCAATTTCCTGTCCCAAG
ATGGGGGATGCCTCTGACCAGAAAAGAGATGGAAATCCTATCTTTTCTCTAGTAACGAGTTTATAAATAACATTACGTAATCTTTTTATTTTATTTCATT
TTTTTGAGACAGRGTCTCACTCTGTCAACCAGGCTGGAGTGCAGTGGCACAATCCCGGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCGATTTTAATC
TTTTAAATTTTTTAATACAAAAGAAATACATTACATTCTTACTCATAAAATTTCAAACAGTGGAGAAGTGTATAAACGAAAAAGTCTTCTTCACCACTCA
CTTCGCCTTGTAGCTTCCTTTCACAGTCTTGTGAAGAGTCTTCGGCATAACTTTTCTCATATTTTTCGATGCATTTACGTGTATGAAGTATGTTTTTGTA
AACATATAATTTGTGTTCTCGTTTTGTAATAAATGGAATTACATTGTGCGTGCTATTCTGCATTTTGCATTTCTACTCATTTTAATGGTGGAAATCTTAG
AGATCTTTTCACCTTAATGCATATAGATCTACCTCACTCTTTTTACATATACTATTCCATAGAATTTACATAGCATAATTTTTTAACCATTCTCCAATTG
AAGGACATTTAGATTGTTTTAAATTGTTCACGTTTATCAATAAGCTATAATAATGATTATATATTTCTCTTTTTTTTGCACATATGCAAGTATTTCTCTT
GTGCCTAAACCTTAAAAAGTGGAATTGTTGAAGCAAAGGGTGCTGTTATTTACTTGTTTATAGATCCTGCCAAATTGTCTTTTTAGGGGGCTGAACGGAG
GTGTTTCACAAGTAGCAAATGAGATGAACCATCTTCCTGCACACAGCCAAAGTCTGCAAAGGTGATGAARAATTACAATTTGTTTTAATTTGTATTTTCC
TGATAATGTGGAAAGCTGAACAGCTTTTCATGTTTCTTGGCCACTGAAATTTCCTCTTCCATAATTTTTTTGTTTATTTTTTGCCAATGTGATTCAGTTG
AGGTGTTTGTCTTTTTTTCATGATATGGGAGAGTTCACTAAATATTCTGCAAAGTATAAATATACTTTTCTTGTCCCTTACATTTGTATATGGTGACTTT
TATCTTATTAACAGCTTAAAATTTCATGTATAAACATCTTACGACATAGATTTTATAAGACAGATGCACCCTCATTATAAATAGTGATGCAGAGAGTTGC
TGAGGCACTCTGTGAGCACGGCCAGTTTTTAAAGTCGTTCTTCTGTTAAGGTGGCAGATTTGATTCTGCCTTTGTTCCAGGAAAAGTTCCTTCTCTAAAA
TCTCTGACATTTTCTTTTTCAATTTTTAGGCAAAATTATTCTTACATTGGAGCAACTTCAGCCTTCACAGCTTTTATCTTCCCCGTGGTCCTTTCATCTT
TTCAGTTTTTTACTTTGAGTTCACAATAGTTGTCTCAAACTTTTCCTCCATGACAATTATCTAGTGATATGGTTTGGCTCTGTGTCTCCACCCAAATCTC
ATCTTGAATTGTAATCAGAATTGTAATTTCCAGGTGTTGAGAGAGGGACCTGGTGGGAGGTGATTGGATCATGGGGGCAGCTTCTCCCATGCTATTCTCA
TGACAGTGAGTGAATTCTCCCAAGATCTGATGGTTTTGTAAATGATAGCTTCCCTTGTGCTCTCTCTCTTGCCATCTTGTGAAGAAGACACTTGCTTCTC
CTTCACCTTCTGCCATGATTTTAAGTTTCCTGAGGCCTCCCCAGCCATGCAGAACTGTGTGCCAATTAAACCTCTTTCGTTTATAAATTACCCAGTCTGG
GGTATTCCTTTATAGCAGTGTCAAAACAGATTAATACATCTAGCTTTCAGTAGATTTCTTGTTTCTTGTAATTTCCAATTTAAAAAAATTGATCGTGTTT
ATTTTTGAGGAGGGATCTTAATTTGTTTCTATAGCTCTGCAAGCTCCCCTGTATTCCACATTTTGTTCATTTCTCGTTCAATCTTCATGGTTTTTCTTTT
TTAGGTTTTTGTGCAATGTTAAGAACTTTGGGATATTATTATCGTCTCTGAGATATTCTTCCAGACTGATTCTATCTGATCTTGTGTTCCATGTGCCTGC
TGTGGCTTTACAACCCATCTGGGCAGGCTCGACCAGGGCAGCTCACCCTAAATATCCCATTTGCTCTGTTGTAATCTGGGAGAGTCATGGTTTTTTTCAA
GGTTCCTATTTTATCTGAGAGAGACCAAATTGTTTTTCATCTGAGCTACAGTTTGAAGACTCTGTTTTTATTCTTATCAATTTTTCTGAGGACACCATTA
ATTATCTTACCCTTTTCCCCACTTATTGTGAACCAGGTGGCCATAGAGGCAGGGTGTGTTTCTGTGTTCTCTCTTCTCTGCCCCTGGCCTGTAAGAGCCT
CTTCTTATGCCAGTACCACACTGCCGTAGCGATGGAGGCTTTCCAGGAACTCTTGACATCTGACGAGGCAAAATCTCTTCCTCTTCCTCCAAAATGTCTT
AAACTTTGGGTTCCCAAATTAGCCTGTCAAAATCTTGGCATTTTGTGTGAAATTGCACTGACTCTATAGATCAATTTGAAGAGAGCCGACATATTTACAA
TATTATGCCTTCCATTCTCATGAATATGGCTCACGTATATGATTAGTTTAGAAATGTTTTCTATTAAAATGTATTTTTCTCTCTGAAGGTCTTGTACTTC
TGCTAGATTTCTTCATAGATATTTGATATCTTTATGCTATTATTAACTATAGTAGTCCTTCTTTATCCACGGTTTCACTTTCTGAGGTTTCATTTAGTCA
TAGTCAACCATGGTCCAAAAACATTAAATGGAAAATTCCAGAAATAAACAATTCATGAGTTTTAAGTTACTTGCTGTTCTGAGTAGTGTGATGAAATCTC
ACGCTGTCCCTCTCCATCCCGCCCAGGATGCGAACTGTCCCTTTATCCAGCGTATCCACAATGTGGACACCACCAGTCCATGAGTCACTGAGTAGCCATC
CTGGTAATCAGATCGGCTGTCATGGTATCTCAGTGCTTGTGTTCAGAGAACCCTGATTTTAGTCAATAAAGGCCCCAAAGCACATGAGGATTGATGCTGG
CCATTCAGATATGCCAAAGAGAAGCCGTCAAGTGCTTCCTTTAAGTGAAAATGTGAAATTTCCTGAAAGAAAAAAAAAATCACATGCTAAGGTTGCTAAT
ATCTACAGTTCAATCTTTTGAGAGAGAGAAAGAGACCACATTTACATAACTTTTATTACAGTATATTGTTATAGTTGTTCTACTTTATTATTAAATATTA
TTTTTAATCTCTTATTATGCCTAATTTATGTATAGATGGGGGAAAACATAGTATATACAGAGTTTGGTACTATCTGCAGTTTCAGGCATCCGCTGGGGAT
CTTGGAAGCATCTGCTGTGGATAAAAGGGAATGAGTGTACTAAATTCTCTCTTACATATAAATTTGTATAGGTGACCCATGTTCTAATCCATGGTTATAT
TTTTTATTCTTGTTTCAATACTGAACTGTTTTAGTTGCTATGATCTTCTAGGTAGTGTTCTGTAACCTGTCTTGCTGGGATTCAACTGAGAGACACTAAA
TGAATAGATAAATCTAACAAGAATTTACATTTTTAAAAATTCTTAATGATCCCAGCTAGAAACATGGTATATCTCTCCACTTATTTATAATTTTTTGAAC
TTGAGTCCTTATTGGGTCACTTTAGTGCTAGGCATTTTAAAATTGTATTTGTAAACAGGAACTCGTTTTCCTTTTACATTTTCTAGTTATTTCTTTCTGG
CATAGGGGAAATCTATTTGTTTTAGTTTGATGACTTTGTGCATAGGAGACTTTCTAAGTAGTCTTCTCCCTTCTATTATTGTCTTGTTTTTTTCTGGAGA
AATAATTACATCTTCAAAATAGCAGCTTTGTCTGCTCTTTTTCAGAATTTATACCGTGTATTTTTCTTTTTCTTACTTTTTTTCCTTCTTTTTCCCTTTG
TGCATTAGGCAGGATTGTCAGTGTAATACTGAATAGCAACAACAAAAATGAGCATTTTTGTTTTGTTCCAGCGCTCAGGGGAACGCTTGTAATGTTTAAC
TTGAGACTTTCTGACAGATGCCTTTTATCAAGATAAGGACATTTTCTGCTCCGGTTTACTAAGTTATTTCTTTTAATCAAGACCATGTATAGGATATTTA
TCAAAATGTTTGCTAAAGAATCTTTGAGGTCATCATATCATTTTACTTTTATTAATTTTGATAATTTTTCCAAAGTAAAACATACATAGAGAGATTAAAA
TATCAAACAGTCAACAAGACCTTAAAATACAAAAGTAGCTCTTTCGGCCATCTTCCCCAGTCGTCGTCCAGTTTCCCAGATGGATTATCTTTAACCTTTT
AGCTCTTCCTTCTGTACTTACTTCTGTAATTTGAAAAGATATGCAGATACAGCTCTTTGTAATTTTTCAAGTTCCAGACATTAATCTGTTCACATAATAG
GGCAGAAGATGAAGACTTCTCCCCTAACACTCCTTTTCATTCCCCATCCATTCTCGTAATACATCACAGTTTGAGGTTCATCAGTAATCAGTGTTATCGT
TATGAGGGTTATTTAAATGATGTTCATAACCAAGTCATATACTATGTGATGATCACATTTCCTTTCCTGTGCAACATCTTTCCCAAAAATAACTATTGCC
CTCTTACACATTTGCTTGGATTTTGTGTGCCCTTGTTATGAATTCTTCCCAGGCACCCTGCAGAATTCTAAAATTCTTCTCAGGACAGTGAGGCACATTG
TGTAACTTATCAATTCCGTTTTATTTTCTTGGGGGAGCCCTTCTGGAGCTACCCATTCTGCTGATCCAATTAGTTCTGGTTAGTTTCAGCTTCCAAGACT
GACCTTCTGAAGCTAGACATCTCTCCTGTGTTGGGTCTTGTTTTATGGATTACATGTATCTTCTTTCTTGCTTTACTATCTCATTTTGGCTTACCGCATT
ATCCAGTAGCCTCCTGACTAAGAGTTCATAGAAGGTATATATCTTAAGATCATTCATATCTGGAAAAAAAATTATTCTTAAACCTCACAACTGTATGAAA
ATTTGGTAAATCTAAATGTATAGTTTGGAAATTAATTTGGTTAACTGCCTTGCAGTTTTCAGCATTGCTAATAAGAAGTCGAATGCCATTCTGATTTTTT
TTTTTTTTTGATGGAGTCTCGCTCTTTCTCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCT
GCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCACCACCACGTCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTTGCCAG
GAAGGTCTCAATCTCTTGACCTCATGATCCACTCGCYTCGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCGCGCCCGACCCCCATTYTGATTC
TTGATCCTGTCTTTCTATGTCACCTGTTTTGCCTCTCTGAAACTTTCTGGCTCATCTCTTTAATCCCTTGATTCTAAATTCTCATGATGGTTTGCCTTGG
CGTGAGTGTTGTGCTTAGTTCTCCGGGGTCCTTTCAAATGGAGACCAATTTATTTCAATTCTCATCATTTTGCTTGTGATATTATTTAATTATTTTCTCC
CTTCTGCCTTATCTCTCTGTTTTATGTTTTGGAATTCCTGTTAGTTGGATATTGGGTTTCCTAGGTTGATCCTCTAGAGATTTTTTGTTTTTTTTTCTTG
ACAATCTTGTATGTCTTCTTCTTTTGAATCTACCTTCTATGACATTTTCTCAGGACCTTCATTTCTTCTAGTGATTTAAAAATTTCTGCCATGATATTTT
TAATTTCCAAAAGCCCTTTTAAAAAGTTRTTTCTYGTTTATAGCATCTTGTTGTTGTTGTTTCAAGAAATCCAATATTTTCTCTCTCCTAATGAGGATGA
TGATTTTTAGAATTGCATCTGTTCCTTCCAGGTTTCTTTCGCAGCTCCTGCTCCAATATTTGCTTGTTCTGAAAGAATTCATCAAGTGTCCATTGGGTGT
CCATTCACATTTCAGAACGAGACACTAGAAATCTGACTAGAAGCTCTGTGTAAGGAATGCCTCTCGTTGACTGTACCCCATTTTGATTTTCATCTTCCAA
TTTATCCTCTGAAGGAACAGTGCCTCTAATTACTAACCACTTCCAGAGTTTGAAAGCATACATGGGCTTACTCCTTGTCAGCATTTCCTCTGCAAGTAAT
CAGGTATTTTATTCTTTCATTCTGTGAAACTAGCTGCCATGTATGCACCTACCTTCTGAAATGTTTGGTTGTCTCTTATTTGATGTCCTTTCCTCTCCTG
TTCCCTGGTTCCTGCTGCTTTTCTGCCTGTAACTCTCTATTACAGGTGGTTTCATGGGATTTCACAGGGAACAAAGATGAATGCAGATGTGTTCAACCCG
CCAGGCTTAATGAAATACATAGATCGATTATCTAATGTGATTTGTCCTGGAATTCCTGAGATAACACCTACGTGGTCATGTCACATGATTTTTTCATCCA
TTCCAGTGTTGGATTTACATGTATTTTATTGTGGGATTTTGCCTTATGTGTTTTTAAGCAACAGTTTTTATTTTGTATTTGCTTGATGTTGATAGCGAAA
CTATAACAGCCTTATGAAATAATTGAGGGTGATTAAAATTATAKGTATATATATATATATAAATGGTTTCTTTAATACAGACATTACCTGTTCCTTGAAG
GATTGCTAAAAATTGTCCATTAAATGATTTGAAACCAATGTCTGTGTGTAGGTGTGGGGTGAAATGTAGTTTAGGGTAAGTCTGCAAGCATATTATGCAT
TTCTTCTATTATTTTTAGTTCTCATGCTGACCTTTGAGGCAGTTTTTATCATTTATATTGTCCTAAAGTATATTTTCCCTAGATTCTCTTATTTATTGGT
AGAAAGTTGTATCGAAATTTCTCTTATAAAGTTTTAATTCTTTCCTTCTCTGAAGACATATCATTTTTTAAACTCCTAACGTTGTTTATTGTTGTCTTTT
CCTTTGTTCTTTTGATCAATCTTTCCATTTTGTTGGTCTTTTCAATGAACCACTTTTTGCTTTTATTGATCCATTACTCTTATTTTTTGTTTGAGATATA
ATTAAATCTTGCTTAACATTTTTATATTTTTCTATTTATTTTCTTTCCTAATTCTTTACTTCAACTTTGTTGAGGGGATTACCTTGTGTTCTGTTTCTGA
TACCTTGCTTTAAAACTTAATCTACTTGTCAGTGTTTCTTATTTTCTAATAAATGCATGTTAGGCCATGAATATTCACCTCTGTGCCACTTTGGAAACGT
TTGGCCTTTATAATGTACAGTGTTTTCACTGGAGTTTCTTAGCCGTTTGTTATTTTGATTTTGATTTCCTGATTAACCTAAGAAGCGTCTGGAAGCAGCT
TTTAAAATTTCTCAGTGGAACGAGTTGGGGAAGTCGTCCTCTGTCCTTGGGTTGTTTACTCTGATCCTATCACATTGTGGTTAGAAAATGTGTTTTTTAG
GATTTTGGTTTGTGAGAGTCTACTGTTGTTTTTTTTGTGGCCTAGTGCATAGTCATTTTTGAGGCTTTGCCACATTTGAAAGGCAATATAATGTAATGAT
TAAGAGTGTGGTAACTAATGTCAGATGGGAGAGAAAGTGGGAGGGGAAGAGAGGATCAACACTAGGATGATTGGAGAGGGACGGTGTGAAGTCCAGCTCT
GCCACTGCATAGATGTGGAGGTGGGGCAAGCCTTGTTTCTTCCCTATAAAATGATGGTATCAACAATGGTGTTACCAGTGGGCTGGTACAGGTTCTTGTC
TTCACCCCAGAAAAGAATTTGAAGGCCAGACCAAACTGAAAGTACAGAAGATTTATTGCAGMGTGAAAGCAAGTACATACTCAAGAGAGGATTGTGAGTG
TGCTCAAAAGAATAAGCTGAACCCAATATGGCCAGGACTCACATACTATACAGATAAGCATAATGAAGGTGTGGAATATTCCATCATAAGAGGAGGGATT
TTCTGGGAAATGGGCAGGCAGTTCCCAGAATTGGATTGCCACTTTTTTCTTTACTAAATATGGTTAATCCAGAATTGACATGGCATCAGATGCATGATGG
GATTGGGAGGTTTCCCCGTGGAAGTCTTATAGTAATAGGGGCATAATGCAGTCAAGGGTCCACAGCCAGTCAAGTTTCTGGCCATCTTGGATTAAACCAG
TTGTGGTTGATTTCTTCTTTGTTACATTCTTATCTGTGCCTAATCTAGAACGTCTAAATTGTCTTTATTTTTGCAGCCTGTTGCAACAGTTCCTTTCCAC
TAAGGGGTGGGTCCTTGAGCTAAMCTATTTGGCCCCATTTGTTTTGCTTTTAGCTACCTGCAAGTAATTATGTCTTGTTCCCTCACTAACTGCCTACCAC
CTGTTTCATGAGAATCTATGAGGAGGAAACAAGTTAAGCTACGCACCAAGCACTTAGAAGAGTGAGTACCTCATACAGAGTGAGTACTCAGAAATGTCAG
ATATTTTTTAATGTACTGAAACAAGTTATAACCTCTTCATTACACATCTACTTAACCCAGAATGCTCATTATTTTRTTCAAATCTTTAACTTGATTTAAT
TTTGACTTACTGGACTTGTCAACTTCTAACAGAGATGCCTTAACATTTTTTTACTACAATTGTGAGTTTTTCAGTTTTCCTATATCACTGTCAGACTTTC
CTTTCAATATTTTAAAGCAATTTTCTTACAGATCATGACTTCTACTACATAGACTGGTAGAATATATCTTTTATCAGTATGCAAAAAACTTCTGTGCTGT
TTGTATTACTCTTCAGTCTAAATTCTGTTTGTTTCTGATGTCAGTTTTGCCACAGAGCTCTCTTTTATTTTGCATTTGCCTGGTGTGTTGTATTAGTCTG
TTCTTGCACTGCTCTAGATAAATACCTGAGACTAGGTAATTTATAAAGAAAAGAGGTTTAATGGCGTTTCTAGTTCTAGATCCTTGAGGAATCGCCACAC
TGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTTTTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTT
TTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTC
TTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCGCCCACTTTTTGATCGGGTTGTTTGTTTCTTTCTTGTAAATTTGTTTAAG
TTCATTGTAGATTCTGGATATTAACCCTTTGTCAGATGAGTAGGTTGCAAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCT
TTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGKCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCA
TGCCTATGTCCTGAATGGTAATGCCTATGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATGTAAGTCTTTAATCCACCTTGAATTAATTTTTGT
ATAAGGTGTAAAGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTG
TTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATACGCAGCGTTATTTCTGAGGGCTCTGTTCTGTTCCGTTGATCTATATCTCCGTTTTGGTACC
AGTACCATGCTGTTTTGGTTACTGTAGCCYTGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTKGGCTTAGGATTGACTTGGC
AATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAGTTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCTG
TAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCCT
TGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGATATTTTATTCTCTTTGAAGCAATTGTGAATGGGAG
TTCACTCATGATTTGGCTCTCTGTTTGTCTGTTGTTGGTGTATAAGAATGCTTGTGATTTTTGTACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTG
CTTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATAGAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTA
ATTGAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGT
GCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAAATACGTCCCA
TCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGAGTTGTTGAATTTTGTCAAAGGCTTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTT
TGGCTCTGTTTATATGCTGGATTACATTTATTGATTTGCGTATATTAAACCAGCCTTGCATCCCAAGGATGAAGCCCACTTGATCATGGTGGATAAGCTT
TTTGATGTGCTGCTGGATTCGTTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTG
TCTCTGCCTGGCTTTGGTATCAGAATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATG
GTACCAGTTCCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTCTTTTTGGTTGGTAAGCTATTGATTATTGCCACAATTTC
AGCTCCTGTTATTGGCCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTCGGGAGAGTGTATGTGTCCAGGAATTTATCCATTTCTTCTAGATTTTCT
AGTTTATTTGCGTAGAGGTGTTTGTTGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGACATCCCCTTTATCATTTTTTATTGCGTCTA
TTTGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTGA
AGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTT
CTTTCAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCATTTAAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATG
CATCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCGTTGGTTTCAAAGAACATCTTTATTTCTGCCTTCATTTTGTTATGTACCCAGTAGTCATTCAG
GAGCAGGTTGTTCAGTTTCCATGTAGTTGAGCGGTTTTGAGTGAGATTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGATAGTTTGTT
ATAATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCCAGTATGTGGTCAATTTTGGAATAGGTGTGGTGCTGAAAAAAATGTATATTCTGTT
GATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCCGCTTGGTGCAGAGCTGAGTTCAATTCCTGGGTATCCTTGTTGACTTTCTGTCTCGTTGATC
TGTCTAATATTGACAGTGGGGTGTTAAAGTCTCCCATTATTAATGTGTGGGAGTCTAAGTCTCTTTGTAGGTCACTCAGGACTTGCTTTATGAATCTTGG
TACTCCTGTATTGAGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATC
TTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGGTTGCAACCCCTGCCTTTTTTTGTTTTCCATTGGCTTGGTAGATCTTCCTCCATCCTTTTATTT
TGAGCCAATGTGTGTCTCTGCACGTGAGATGCGTTTCCTGAATACAGCACACTGAATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAC
TTGGAGCATTTAGTCCATTTACATTTAAAGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGAT
GCAGTTTCTTCCTAGTCTCGATGGTCTTTACATTTTGGCATGATTTTGCAGCGGCTGGTACCGGTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGC
TCTTGTAAGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGAT
ATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTAGGGTTTCTGCTGAGAGATCCGCTGTTAG
TCTGATGGGCTTCCCTTTGAGGGTAACCCGAGCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGT
CTTGGAGTTGCTCTTCTCGAGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAATCTGAACATTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGA
TAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCCATCACTTTCAGGTACACCAATCAGACGTAGATTTGGTCTTTTCACATAGTCCCATAT
TTCTTGGAGGCTTTGCTCATTTCTTTTTATTCTTTTTTCTCTAAACTTCCCTTCTTGCTTCATTTCATTCATTTCATCTTCCATCGCTGATACCCTTTGT
TCCAGTTGATCGCATCGGCTCCTGAGGCTTCTGCATTCTTCACGTAGTTCTCGAGCCTTGGTTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTGTAT
TGGTTATTCTAGTTATACATTCTTCTAAATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATGTCCGCCCGTAGCTCAGAGTAATTTGATCG
TCTGAAGCCTTCTTCTCTCAGCTCGTCAAAGTCATTCTCCATCCAGCTTTGTTCTGTTGCTGGTGAGGAACTGTGTTCCTTTGGAGGAGGAGAGGTGCTC
TGCTTTTTAGAGTTTCCAGTTTTTCTGTTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTTTGGTCTTTGATGATGGTGATGTACAGATGGGTTTT
TGGTGTGGATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGAGAGGACCCTCAGCTGCAGGTCTGTTGGAGTAACCGGCCATGTGAGGTGTCAGTGTG
CCCCTGCTGGGGGGTGCCTCCCAGTTAGGCTGTTCGGGGGTCAGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGCCCGTTCTCAGATCTCCAGCTGCGT
GCTGGGAGAACCACTGCTCTCTTCAAAGCTGTCAGACAGGGACATTTAAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCCCCAGA
GGTGGAGCCTAGAGAGACAGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTCGMGCTTCCCGGCTGCTTTGTTTACCTAAGCAAGCCTGGGCAA
TGGCGGGCGCCCCTCCCCCRGCGTCACTGCCGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATCAGTGAGAGTCCGTGGGCRTAGGACCTTCCGA
GCCAGGTGTGGGATATAATCTCGTGGTGCGCCGTTTTTTAAGCCCGTCGGAAAAGCGCAGTATTCAGGTGGGAGTGACCCGATTTTCCAGGTGCCTTCCG
TCACCCCTTTCTTTGACTCAGAAAGGGAACTCCCTGACCCCTTGCGCTTCCCAAGTGAGGCAATGCCTCGCCCTGCTTCCGCTCGCGCACGGTGCGTGCA
CCCACTGACCTGCGCCCACTGTCTGGCACTCTCTAGTGAGATGAACCCAGTACCTCAGATGGAAATGCAGAAATCACCCATCTTCTGCGTCGCTCACGCT
GGGAGCTGTAGACCGGAGCTGTTCCTATTCGGCCATCTTGGCTCCCGGAGCCTGCGTTTTTCTTTAATGGAAAGGTTTTTTTTTCCTACTTATTCAATCA
GTTTACTTATTATTGGTCTCTTCAGATTATCTGTTTTTTCATGATTCAGTCTTGGTAGGTTGTATGTTTCTAGGAATTTATCTATTTCTTCTAGGTTATC
CAATTTGTTGATGCATAATTGTTCATAGTAGCCTAATGATTCTTTGAATTACTGTGTTATTAGTTGTAATCTTTCCTGTCTCATTTATAAGTTTTAAGTT
CTGTCTCTTATTTCCCTTGGTTAGTCTAGCTAAAGATTTATCCTTTTTTTTAAAATCTTTTCAAAGAACCAAGTCTGAGTTTTGTTGATCTTTTCTACTG
TTTTCCTATTCCGTATTTATTTCTGCTCTAATCTACATTATTTTCTCCCTTCTCCTTACTTTGTGCTTAGTTTGCCTTTCTTCATCAGGTGTAAAGCTAC
GTTGTTGGAGATTTTTCTTTTTTCCAAGTGTTTATAGCTATAAACCTGATAGAATTGCTCCTGCTGCATCCCATAAGTTTTGGTGTGTTTTGTTTTCTTT
TATTTGTCTTTCCTTTTTCTTCCCTTCAACTTTTAAGTTCAGGGGTACATGTGCAGGATGTGCAGGTTTGTTACATAGGTAAACATGTGCCATGGTGTTT
GTTGCACAGATCATCCTAGGTATTAAGCCCAACATCCATTAGCTATTCTTCCTGATGCTGTCCCTCTCCCTACACCCCCGACAGGTGCCCAGAGTGTGTT
GTTCCTCCCATGTGTTCATGTGTTCTCAACATTCCGCTCCCACTTATAAGTTAGAACATGTGGTGTTTGGTTTTCTGTTCCTGAATTAGTTTGCTGAGGA
TAATGACTTCCAATTCCATCCATGTCCCTGCAAAGGACATGATCTTGTTCCTATTTATGGGTGCATAGTATTCCATGGTGTATGTGTACCACATTTTCTT
TATCCAGTCTATCATTGATGGGCATTTAGGTGGATTACATGTTTTTGCTATTGTGAATAGTGCTGCAATGAGCATACATGTGGTTGTATCTTTATAAYAG
AATGATTTATATTCCTTTGGGTATATATCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGCCTCTAGGTCTCTGAGGAATTGCCACACTGTCTTCC
ACAATGGTTGAACTTACACTCCCAAAAACAGTGTAAAAGCATTTCTTTTTCTTTGCAACCTCACCAGCATCTATTGTTTTTTGACTTTTTAATATAGCCA
TTCTGACCAGTGTGAGATAATATCTCATGTGGTTTTGATTTGCAAAGGACATGAACTCATCCTTTTTTATGGCTGCTTTCTTAATCTTGGTCTGATTTGA
TTGTGCTGTGATCTGAGAAACTGTTATGATTACTGTTTTTTTTGCATTTGCTGAGGAGTATTTTACTTCTGATTATGTGATCAACTTTTGACTAAGTGCT
GTGTGGTGATGGGAAGAATGTGTATTCTGTTGTTTTTGAGTGGAGAGTTCTGTAGATATCTATCAGGTCTACTTAATCCAGAGCTGAATCAGGCCCTGAA
TATCTTTGTTTATTTTCTGACTCGATGATGTGTCTAATATTGTCAGTGGGGTGGTAAAGTCTCACACTATTACTGTGTGAGAGTCTAAGTCTCTTTGTAG
GTTTCTAATAACCTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATGTATATTTCAGATAGCTCTTCTTGTTGAATTGAACCCTTTACCATTATGT
AATGTTCTCTTTGTCTTTTTAAAATCTTTGTTAGTTTAAAGTCTGTTCTGTCAGAAACTAGGATCAAAACTCCTGCATTTTACTGTTTTCTATTTGCTTG
GTAAATTTTCCTCCATCCCTTGGTTTTGAGCCTATGTGTATCTTTGCACATGAGATAGGTCTCTTGAAGATGGCATACCGATGGGTCATGGCTCTTTATC
CAGTTTGCCATTCTGTGGTTTCTTTAACTGGGGCATTTAGCCCATTTACATTTGAGGTTAGTATTGTTATGTGTGAATTTGATCCTGCCACCATGATGCT
AGCTGGTTATTTTGCAGACTAGTTTATGTGGTTGCTTCATAGTGTCACTGCGCTGTGTACTTCAGTGTGTTTTTGTAGTGGCTGGTAATGGTTTTTCCTT
TCCATATTTAGTGCTTCCTTTCCATAGTGTTTTGTTTTCATTTTTGTTTGCCTCATAATATTTTTAAATTACCCTTTTGGCTTCTTCTTTGACCTATTGG
ATATTCAAGAATGTATTGTTTAACTTCCCTACATTATTTATGTATACCTTACAGAATTTATGAATTCTCTGAATTTCCTCCTGTTATGGATTTCGAGTTT
CATACCACTGTGGTCAGAAAAGCACTTGGTATGATTTCAGTCTTCTTGAATTTATTAAGACTTCTTTTGTGGCCTAACATGTACACTTGAGTAGAATATG
TGTTTTGCTGCTGTTCAGTGAAATGTTCTGTATATGTCTTTTAGGTCCATTTGATCTAAAGTCTGGTTCAAGATCAAAATCCTTATGATTTTCTGTCTGA
TTCATCTGTCATTGTTAAGGGTGAGGTATTAAAGTCCCTTACTATTATTGTATTGCTGTTTCTTCCTCCTTTCAGATTGGTTAGTATTTGCTTTAGCTAT
TTAGGTATTCCAATGCTATTGTCAAAATATTTACAACTGTTATATCCTCTTGATGAATTGGCCCCTTTATCCTTATATATTGACCCTCTTTGTCTTATGT
GGCCATTTTTTACTTAATGTGTATTTTGTCCAACATAAAGATAGTTACCACTGCTTTCGTTTGGTCACTTTTTGCATTGGATATCTTTTTCCATACCTTC
ACCTTCAGCCTACATGTGTTCTTAAACCTACCATGAGTCTCTTACATGCAGCAACTTGTTGGATCTTGTGGGGTTTTCATAATCCATTCAGGTACTCTAT
TTCTTTTGATTGGAGAATTTAATCCATTTATTGATAGGTGAGAACTTACTATTGCTGTTTTGTTATTTGTATTCTGGCTGTTTTGTAATTTGTATTCTGG
CTGTTTTGTAGTTCTTTTTTTTTTTTCCTTTCTTTTTTTCTTGTGGCATTCCTTTGTGAGTTGATGAATTTTAAAGTGATATGCTTTGACTCCTTTCTCC
TTTGTGGTTACTGTGAGGCTTACATAAAATATCTTATAGCTATATCATCTGATTTTAAGCTAACAACTTCAACCACATATAAAACTCTACACTTTTGTTT
CTCTCCTCCCTCATATTTTAATTGACTAATGTTACAATTTACATATTTTTATATTGGATATCTAAAACCAAATTACTATAGTTATACTTATTTAAATGTT
TGATTTTTAATTTTTATGCTAGAATTGAAAGTGATTTATGCACAATCATTACAATATAAGAGATTTCTGACTTTGACTAAATTTTACCTTTACTGGTGAG
TTTTGTATATTTATATATTGTTATGTTGTTAACTAATACCATCTCATTGCAGCTTGAAGAACTAGAACTCACTTTAGCAGTTCTTGTAAGACAAGTCTAC
TGATGATGAACTCCTTCAACTTTTGTTTTTTTGGAAAAACCTTTATCACGCCTTCATTTAAGATAGATAGATTTACCAAGTGTAACACTCTTGGTTGGCA
GTTTTTTTTCTTTCAATATTTTGAATGTGTCACCCTAATCTCTCCTGGGCTGAGAAGAGGAGGTTTCCACTGAAAACTTTACTGTTAGTCTTATGAGGGC
TCCATTTTTTGTGATAAGTTATGCTTTCCTTGCTGCTTTCAAAATTATCTTTTTGTCTTTTGATAATTTAATTATAATACTTATTGGTGTAGAATTGTAT
TGTTGAACCTGTTTGGGGAACTTTGGGCCTCAAGAACATAAATGTCCATTTCTCTCCCCAAATTTGGGAAGTTTTTAGTCATTACTTCTTTAAATTGACT
TTCTGCTCATTTTTCTTTCTCTCTTCTTCTGTAATTTCCATAATTTGTATGTTGTTTCACTTGATGGTGTCCCATAAACACAATAGGCTTTTTTTCACTC
ATTTTCATTCTTTGTTCTTTTTGCTCCTCTAAGTAGATAATTTCAAATGACTTCTCTTTCAGTTCACTGATTCTTTCTTCTGCTTAAGTAAGCTGTTGGA
ATTTTCTGTTAAATTGTTCAGTTCAGTCATTGTATTTTTTAGATCTAGGATTTCTGGGGGTTTGTTTAATGGTTCCTATTTTTTATTGGCATTATATTTT
GTTTATATATTGTTTTCTGATTTTGTTGAGTTGTCCATCTGTGTTCTCTTGTAGTTCACCGAACTTTTTAAAGAGAATTATTCTGAATGTCAGTTAGCTC
ATAGACCTTCATTTCTTTAGAGTCAGTTGTTAGAGCTTATTAATTTCTTTTAGGGGTTTTATTTTTTGCTGATTTTTTATGATCCTTGTATCCTCACATT
AGTGTCTGTACATTTGAGGAAGAAGTAACCTCTTCCAACCTTTATAGGTTTGCTTTGGCATGGAAAGCCCTTTAGTAGTCAGTGTTTCCTGGAGATCTGG
ACAGGTCAGCTGGTAGCATCCATGAATAGTCACAGTTTGCTTTTGAGATCTCTAGTTGTGCAGGATTATTGCCTGTGCTCTGGTGTTTGCTGGGGCCACT
GGCTCGCCTGTATGGTTTGTTGAGTGTTTTGGTTGGACTCTTTGGTTGGGCAGGGCTACTGGCTGGCTTCTGAGATGGAACAAGACCTCAAGCTACTGTT
CAGTGGGACCACAGGTTAGGCTCTGTGATTAATCAGGGTTGCAGGCTGTGTTTTGCAGTTGGGTTGAGTCACTGTCTGGGTTCTCTTCCAGAGTAGAACC
ACTGGCTGTGCTTCAGTGTCAATCAGTATTGTTATCAGGTACCTGGGTTTGGTGGGGCCACAGGCTATGCCCCAGCTTGCTGCAAGCTGGGCTCCTCTGT
CAGATGGGATCATTCTCTGGAATCCCTGGTTAGGCAGAACTGCAGGCTGTGCCCCTCAGTTGGGAGGTGTCCTTGGCTTTGTTTACTGTCCATGCAGGTC
GCTGGCTGGCCACTGAGGCTGGGCAGGGTTACTATTTGGGCTTCCTGGTTAGCAAGGCTAGAGGCCATACTCTGTAGTTAGGCAGAGTGGCTGGCTCGAT
TACCTGCGTGGTCAAGGACGTATGTTAGGCTTTGAGGCTGGGCAGAATCTCTTTGGGGGTTCCCTGGTCCAACAAGACAGAAAGCTAAACCCTGTAGCTG
GCCTGGATTGCTGACTAGGCACCCAAGCCAGTTAGAATTGCTGACTATGCTCCCTGGCCAAATAGGGTCACCAGCTTGCCTCTGCAGTTGGGCAGAGCTG
CTGGCTGAGCTCTCTGCTAGGGTGCTGATGGCAGGAACACAGTACCAGCATGGTGATCCATGCACTGGCCACTGTGAACCCTGCCCTCACTTCTTCATTT
CTGGTCAAACACAGGTGGTCTAGCCCCACTGATTTCCTCTTTGTTTCCCATGAGACAAGACAGAAGTGGGCCTCCTAAGATGTAGCACAGAATGCTACAG
AAGCTGGATGTCCTCCTCAGGCTCTCTTTTCCCCACTGGAGAAACTTTGGGCTCAGGAAAACCCTCTTGATATGGCACTTTGCCAGCCTTGGGGAGGAGC
AACACAGTCAAAGTGAAACTGTATGACTCAAGAATTTAACTGCTAAACATCTACCTAGAAATGAAAACGTATATCCACACAAAGACTTGCATGCGAATAT
AGTAACATTATAGTAACAGTAACGTGATAGTTAACTTTCACAAAATCTATCGTACACTGTTTCCAGAAGACCATTTCATAGCAATGTGTAAGGGTTCCAG
TTTTTCCACATCTTTGCTAAAACTTGTTATTGTATGTGTTTATAGCCATTCCAATGAATGCATATTAGTATTTTGTTGTGGTTTGAATTTGCTTTTCTCT
AATGACTAATGATACTGAGCATCTCTTCTTGTCTTTATTATCTTCCATGTGTCTTTCGGAGAAATATCTGTTCAAATCATTTGCCCATTTTTAAATTGGG
TTATCTTCTTATAGAGCTGTCAGAATTCTTTACATACCTGAATATAAGTAGTTTATTGAAAATATAATTGGCTAATATTTTCTCCCAGACTGTGCCTAGT
CTTTTCTTTTTCTTAACAGTATACTTGAAACACAAAAGATTTCAGTTTTGTTAAATTTCAGCTTATCACTTTATTATTTTAAGGATCATGCTTTTGATGT
TGTAGCTAACTCTTCATTTAACCTAAAGTCACAAAGATTTTTGTCTTTATTTTCTTACAAAAGTCCTGCCATTTTTGCTCTTTTAGAAGATTACTACATA
ATTTGGGGAACCCAGTGAAAAATAAAAATGRGGGATCCTTGCTCACAAGTTATTAAGGATTYCAGAACAGTGAAAGCAGAACACTAAACTAAGCACAGAG
TCATTTGTGACTGCACAGGATGCATGCTCATGAAGCCAGCCCTGCTCTTACATTTAGATCCATGATCCATTTTTAGTTGATTCATGTATATGATGTGAGG
TAAGAGTCTACATTTGTATTTTTGTGTGTATCTATGCAATTCTACTTGTAGTATTTGTTGAAAAGACTATCTTTTCCTCATTTAATTGCCTTGGCACTTT
TGTTGAAAATCAATTGCTGAAACCACAAGGATTTTTTCTGCACTCTCATCTCTGTTTCACTGAATTATACCAGTACAATAACTGTCTTGATATGGGTAGC
TTTATAATAAGTGTTGAAATAAGAAAGTATAAATCTTCCAACTTTTTTCTTCTTTTTATAGATTGTTTTGGCTATTCTGGGTTCTTGCAATTCCATATAA
ATTTTAGGATTAGCTTCTCAATTTCTTCAGAAAAGCCATTTGGAATTTTGATAGGAATCACATTGAGTTTATAGGTCAATTTGGAGAGAATTGCCAGGTT
AAATATATTGAGTCTTCCAATCCATGAACATGGGTATCTCTATTTATTTAGATTGTTAATTTCTCTAGTAATGTTTTGTCATTTTCAGCATACAAGTCTT
GCATTCTGTTTGTTCATTCCTAAATGTTTTATTATTTTGCCTACCTTTAATTTTGAATTTGAAAACTCAATTTTTACATTTCTAAGTTTACTAGTTGGTT
GTTTTATAGAAACAATATCATTGAATAAGTTATGGGGGTACTAAATATACTTACTCTAGGCTGGGCACAGTGGCTCATGTCTGTAAACCCAGCACTTTGG
GAGGCAGAGGTGGGCAGATCACTCGAGGTCAGGAGTTTGAGATCAACCTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAGTACAAAAATTAGCCAGG
AGTGGTAGCACATGCCTGTAATTCCAGCTACTAGGATGGCTGAGGCAGGAGAATTGCTTGAATCCAGGGGGCAGAGGTTGCAGTGAGCCGAGATCAAGCC
ACTGCACTCCAGCCTGGGGGACAGAGAGAGACTCCATCTCAAAAATAAAATAAAATAAATATACTTACTCTAAAGTCTTATTCTATTTGTTTATTATTTC
TCTTTCCTCTGATGTTACCCAAAAAAATGGTAAAAAGAAAGATCTGAAGGGATCTGGTTAGAACCCTGAAACTGTCCACTAAGCCAGTGTTAACACCTGG
GGTGTAGTCGTTTCATGCCTTCCCTATTATTTATTCTGAATTTTATATACAAATGAAAGACTTTTTTGTTTAATTTATATAAAAATGGGATCATAATGTA
TTAATCTGAACATGATGTTTTCATGGAACAGCAAAACTATTACCTTCAACCCAAATTGCTACAATTAAATAGCTATGTAATATTTCAACAGTGTACATTT
ATGATAATGCACTCAACCATTCTGCCAAATGGGCAATCAGGTTATTTTCAGGTTTAGAGGTATGTGTTATTGTGGAGTTGTTGTTGTTGTTGTTGTCGTT
TTGCTACTAAAAACAATGCTTCAATAAATACTTCTGTATTTATGAGAATGTAGTCAACAAATACTTATTGAACACCTTGTGTATATCAGGTACTCAAGAA
AAATCAATGGACAAAACAGATGCCACTGCCCTTATGGCATACATATTTTTGGGAGAAGAGAGACAATGAAGAAGATGATAAACAATAAACAAACAAATGT
GTAATTTATTTAAGACGTTAGGGATTGACAAGAGCATGGAAAAAAGAGAGGCAGATGAGGGGATTGGGAGTATGGGGGCAGGATGGGGGATTGTGGTTGT
GATTTTAGATAGGTTGGTCAAAGAAAATCTCATTGAGAAGGTAATAGTGAATCAAGGATCAAAAAGAGACAAGGAAATTAGTTCACTGCATAGATACATA
TATCTATGCTAGGCAGAAGAAACAGTCAATATCAATTCCCTAAGGCTAGAGTATGTCTGGTTAGTCAAGAAACAACAAATAGGTGAGTGTGACCAGGCAG
AAGTGATCAAGGGGAGAGGAGAGAAGGTTGGATCATTACATTACCTTTGAACAGTGTAAGGATCTGGGTTTCACTCTTGAAGAAATGGAGAGCATTGAAA
GTTCTGCAGTTCTTGTTTCTATAGGATACATGTTGATCTTTTTATTTATATAGGGTAGATTCCAAAAGCTGGATCTGCTGGGTCAGTCAGTCTGTAGTAT
ATTTTAAAATTTAGCGGATGTTGCCAAATCTTTTCTGAAAAGGCTGCAGTAATTCATGCTCACACCAGCCATGAGTGTCTGTTTCTCTGAATCTTCTCCC
ACATGGCATAGTGTCACTAATGAAATTGTGTTTGCCAATCTAATGAGTGAGAAATGGTTTCTCATTGATGTTTTAGTTTTAACGTATTCATATGTGTATT
GGACATTTTAATTTTCTTTTATTTAAGCTGCCTGTTCAGGTCCATGTTGGAGGGATTGTTTGTTATTTTTTATTAGCAGACTTTAGTCTTTGCCTATTAA
TATCAGGTATATTAACCCTTTGTCATACATATTGAGAATGTTTTTCTACACTGTCTTTTATATCTGTATTGCTTTTTAAGAACATTTAAATCGATTAAGA
GAAATCTTCCTTTAACTATTCTCATCTCAAATTGTTCTTTATTGACTCAKATATTCTGTCATTTCAATATTTACATTATTTTATCCAGGTTTTTTTTCGA
GACGGAGTCTCACTGTCACCCAGCCCAGAGTGCAGTGGTGTGACCTCGGCTTACTATAACCCTGACCTCACCAGCTGAAGTGATCCTCCTGCCTCAGCCA
CTCAAGTAGTTAGATCTATAGGTGCACATCACCACATCTGGCTAATTTTTGTATTTTTTGTAGAGAGAGCCTTTTGTCATGTTACCCAGACTTGTCTTGA
ACTCCTGAACTCAAGTGATCCACCCGCGCCAGCGTCCCAGAGTGCTGGGACTACAGGCATTATCCACCACACTTGGGCTTTATTCAGTTTTAATGGGGTT
TCTGGTTGCAAGCACACCATACTTACATAATAATTTCAGAAAAATTGATGTTTTAAAATTACTACTTTTTTTCTAATTGGGAGCATTTTATATATCTCCA
TTTATTTAGATCTTATTTAATTTCCTTCAATAAAATTTTTATAGTTCTTATACCTTTAAGATGTTTATAAATATATACATGTGTATTTGCTATTTAGTCT
GAGTATTTTTTTTAACTTATGTCTTTCCAAATAAGAACTAGTAAGTTTTATATGTCTATTTTTTATTCATACTCCTTGGTGTATTAGTTCATTCTCATAC
TGCTACAAAGAACTACATGAGACAGGGTAATTTAAAAAGAAAAGAAGTTTAATTGACTCACAGTTCCACAACCTTAACAGGAATCATGACTAGGAGGTCT
CAGGAAACTTAACAATTATGGTAGAGGGTGAAGGGAAGCAGGCACCTCTTCACAAATCAGAGCAAGAGAGAGGGAGTGAGAGACAGCAAAGAAAGAAATG
TTACACTTTTAAATAATCAGATCTCRTGAGAACTCACTATCATGAGAACAGTATGGGGGAATCCACCCGCATGATCCAATCACCTCCCACCAGGTCCCTT
TCCAACACATGGGGATTACAATTTGCCATGAGATTTGGGTAGGGACACAGAGCCAAACCATATCATTTGGCAAATTAGTTTTCTACTTCTCATGAATTTT
ATTAGGTCTCTCTCTAGTTTTTCTATGTATATAATTATACAACATGTATTACTGTACCTTATTTTAGTATTTATACTAATTGCTTCATTTTCATAGCCTA
TCGCATTAGCTAAAGCTTCCAAAATATGCATATGTGTATGTGTGTATATATATATATATATTTGTATACACACATGCACACACACACATATATGTGTGTA
TATATGTATAATGGTGGTAATAGTAGACATTCCTATATTGTTTTCTATTTAAATGACTTCACCATTCATGTTTATCATAACATTTGCTGATTTTAGAGAG
TTCATGTTATGTTAGTTTTATTTCATATAGAGTTTTTATTTTAAAAATAGCTGTTAGGACTTATCAAATTCCCTTTTAAAATCATTTGTGAATATATTTA
AATACTTCTCCTTTTATTTATCAATGTAAAATTACAGAGAGATTTTATAATGTTGAACTATTTTTTCTCTTATTCAATCTCATTGCCATTACCTTTCTCT
TTCTTTCTATTTCTAAATAGCCTGTAACTACAAGTTTTATTTTATCTTTAACCCAACACAGTGTGTTTTGTTTTGCTTTCTAAAATCTTAAGAAATTTAT
TTTCCTTATGCAATATGTTTCATTTCTATTGATTGTAACTTTTTGAGACTTCTTTCGTGGCCAAGATTATGCTAAATATTGATAATGTGTTCTCTGTTTT
TAAGTCACAAGATTAAATAATAAATCATTCTTATTAATTTATCTAGAACCTGTATATTTTGTCCATTTTTGGTATATGGAAAGAGTAAAAAAACTAAGGG
TGAATTGTTTTGCAATGCCCATAAAACATTTGTCCTATTATTTGTTTCTTGAATTTTGAATTGACATTAATGGGAAATGTTCTGCTTTTTGTTTTATTTA
AAGTTGCATACCATAAATTGCCTATTTTTGATTTCAATATATTTTGTGTCACTGCATCTTTAGTTGGATTCTATCTTTGATTCCAATTAGTATCAATATC
ATCAATATTGACGATACCTTCGATATCACTAATATTACCTTTCAGGATCATTTCTTCATGTATATTCAGTGTTATAATTTTTCAACCTTTTTTCTGTTTT
ACCTTTTATAATTCATTGTTTTTCTTGTTTTATTTCTCTAAAAATGCAAACTATGTTTGCTCTTTATTTTTATTTTCAGAGTTTCATAGGTTTTATAAGA
TCTGATTTCACTCAATCAGTAGTTACCTTCAACTTTTCAAATTCATTGTTTAATCTGTATTTCTGTAATTGTTACAGTTGAATCTGAAACCATATTGTTC
CACCATATCATTTTCATACTTGAAACAAATTCCTTAACTCAGTTTTTCTTCACCAACCCTGCTCAAAATTTTAAGTTTGTTGATATAATTTGAAGCTTTA
ATTCAAATAGTTACCATTTGGAATTTCCCCCCATTTCCCATAATATTTCTGTTTCTCCTGGGGTAACTTTTTCCTCTTTTTCCTTACACTAGTCTTTCTT
TCTAATATTGAAGTATTTCCTCAAATGTCTATTGATCTGTGGTTATTTGTTTCTACATAAGAGAAGACTTTGGAAATCAATCAATGTGATTCACCAATTA
AAAAATAAAGAAGGAAAATCATATGAATATCTCATTAATGCATTTGATAAAATTTAACATCTGTTCATGATAAAATTCCCAGCATATTAGGAATAGATAG
GAACTCAGCAAATTAGAAATAGATAGGTAGGAAAGTCATATGACTACCTTGGTAGATGCRTTTGATAAAATTAGTAGTTCATGATAAAATTCTCAGCAAG
TTAGAAATAGGTAGGAATGCAAAGCACAGTGGCTAACAGCTGTGATCCCAATTCTTTGGGAGGCCAAGGTGGGAGGATCACTTGAAGCCAGGAGTTCAAG
ACCAGCATAGGCCACAAAGCAAGACTCTATCTCTACAAAATATAAAAATAAAATAAAAAATTAGCTGGGCATGGTGACATCTGTAGTCCTAGCTATTCAG
GAAGCTGAGTTGGGGGGTATTACTTGAGCCCAGGAGCTTGAGGCTGCCATGAACTATGATTGTGCTACTGCACTCCAGCCTGGAAAACAGAGTAAAACCT
TCAAAGAAAGAAGGGGTGGGGGCGGGGGAAGAGAGAGAGAGAGAAAGAAAAAGAAAGAAAGAGACAAGAAAGAAAGAAAGGAAAGAAAGAAAGAAAGAAA
GAAAGAAAGAAAGAAAGAAAGAAAGAAAGGAAAGAGAAAGAAGAAAGAAAAAGAAAGAAAAAAGAAAAAGAAAAAGAAAGAAAGAGAAAGAAAGGGAAAG
AGGTAAGAATATGTATAAAGGTCTAACAGACATCACACTTAGTGATATTGCTAGTTGCTTTTTCCCTAAAATTGGAAATAAGACAAGGAAGTTGTCTCTC
ACTTCTTCTCTTCAACATCGTATTTAAACTCCTGACCAGCGAAATAAGATCCAAAAAAAGGAAATAATTGTTATTTTGGGGAAAGAAACAGTGAATCCGT
CTTTATTTGCTGATGACATATTTATTTTCTTTAAAATATAAAGGAAATCTATAAATACTTTACTAGAACTAATACATGAATTTAGCAATGCCATAAATAC
ATGGTTAATAGTTTTCAAACCAATCATATCTCCTACAATGGCAATAAGGAATTTGAAAAGCAGTATCCTTTAAAGTAGCACCAGAGAGAATAAAATAACT
AGAAATAAATTTAATGAAAGATGTGCTTGATTTTTAMAATTAATCTAAATAAGTGGAGAAGCAAACGATGCTAACAGATTGCAAGCTCAATATTGTTGTC
AGCTCCCCCAAATTTATCTATAGTTTCAAATCAAACCCAAGAAAAATMCAAAAGGCTTTTCTCATAGAAATTGACAAATTGATTTGAAAAGATATGTGGA
AAATCAAAGAATCTAGAAAGTCCAAGACAATCTTTTCTAATTGACTTCAAGACTTTCTTTAAGCCATGGTATTCAACACAAAATCATRTCAGCATAAGGA
TAGACAAACAGATCAATGGTATGGCATAGAAAGTACAGATATAAACCCATGTTCATATTGTAAATTGCTTTTTGAATATTTTCGTGACCTTGGAGTGGCA
AATTCTTCTTAGTACACTAAAGTCATTAATTATAAAAGAAAAAATAATAAATTGGACTTCATCAAAATTAAAGATTTTTTCCTATCAAAAGACATAATTA
AGAAAATAAAAGGGAAGCTACAGACTGGGTGAAAATATTTACAATACATAAATCAGACAAAACACTTCTATCCATAATCTGTAAAAGGACTCCTACCTGT
CAATAAATAAAATAAAATTCTATAATATAAATGGGTCAAACATTTGAACAGACACTTCACCAAAAAATAAATAAATTGCCAGTAAACACATGAAAACATG
CTTGACATAATTTCCTGATTAAAGAAATACAAATTAAAACTAAAATTAGCTATCACATCGTACACACTGGAATGGCTAAAACTAGAAAGGCCATCACTGG
TAGTCTTTGCAAAAACAGTTTGGCAGGTTTTAAAATGGTTAAATGTACTCTTACACAATGACCCAGTAATTCCATTCCCACATATTTACCCAAGAGAAAT
GAAAGCATTTTGCCACAAAAAGACTTGCACAAGAACAGCAGTTTTATTCATACTAGTCTCAAACTGAATCCACTCCAATGTCCATCAAGAGAAAAATGAG
TACGCAGASTGTGGTAGATTCACACAATGGAATACCACTCAACAACAAAAATGAACAAACTAACTGTTCAACACAGCAACATAGATGATAAGCAAAAGAA
GCCAGACACAAAAGCATGTATATGTTTTGCTCATTTATRTGAAATCCAAGAGCAGGCAGTATTAACATMTGACAGAATAAATGACAGCAATGGTTGCCCC
CTGAGAGGCTGCCTGGCTGCATGTGTTCAGTATGCAGGTTCACAGGCAGTATATGCATTGCTCTGTTCATTTTTCAAATAACAAATCAGTTTTTAGCTGT
GTGTCTCCCTTCAAATCTCCACTGTTTCTTCCGAATTCTGTAGGGCACCACGATTGCTTTCCTAACCTCTAGGAGCATCCCCTACCTACTATTGCAACTA
GCACTTTTCTGACCACTTTTTGTCTTCAAGGTTTTATTTGAAATCTCTTATGTGCTCATTGTCCTCCACCATTCTCTTTGTCACTGTAAATCTAATTCCT
TTATTATCATTTTAATGAACTTTAACCAGAAACTTTTTTTTTACAGGAATTCAAAACAATAATGCGACATTGTTTCCTGCTTTATGTTGTGTACTGGGAA
GTGCCAATAATTCTCTTCTGGTTGGATAAAAAGAGCTCCCAAGTTTTCATAACATTTAGGAATACTGAGATGTTGATTAAAACATTATCAGAGCAATAAC
ATGATCAACTAAGAACTAGAATTAGAGACTCAGCTTTAAAATTGCTTTAAAAGGAAACGGCAGCGATTTCTGAAATTCAGATGCCTAAAATGATTAACTG
TATATAGCAATAGTATGGACAGATTTATATTAACACAAAGCAGAAYCAGATGTTCCAGGAGATATCACTGATATTCTCATGAAATTCTCAATAATGTGGT
ATTATTATCATTATTAAACCACATTGTATTATTTATGAATTAATTTTATGATATATGATGGTATTTCCTTCCTAGCAGCTACAGATTAGAGAAGGACATC
TTATTTTTATTTTGTCAAATTCTCTCAGTTGTTGATTAAGCTGCATTTTCAAGGTTAGATTTTTATTTATATTCCATTGACTTTCATTTCTCTGTGGATG
ACCTGCTTACTCCATCTAGATTCTGTAGGAATTCAATATTTTTATTTTGAAAAATATTCCAGATATGGTTAGGTGAAGATATCTTTACAATGACTTTGTT
CAGTTTAGACTGGGCTTTTTCAGTGCCCTCTATATTAGTCTTGCATAGGCTCCATGAKATCTTCTATTACATTTTTGTTTGTTGCTTCAATTCCATTTAT
TCTGGGCTCTACTGAGGACCACCTATTTTATATATGTTGGTTCTTCATAGCTTATCCGTTATACATAAAATCTTACCATCTCCACAAACATCTCAGAATC
TTGATGACCATTTTCAYTTGGTGTCCTTTTTCCTTAGGCTGTTCACGGAAGACCAGGATGTAGATGAGGGACTTGTCTATGACACTGTATTCAAGCACTT
CAAAAGACATAAGCTGGAGATATCAAATGCAATAAAAAAGACATTTCCATTCCTTGAGGGCCTCCGCGATCGKGAACTYATCACAAATAAAAYGTTTGAA
GTAAGTAAAGTTTATTTCACAACCTGGCAGATATGCTTTCATATTTTACAAGTATTTCTGTAAGTGCTCCTGTAAAGTAGAAAAGGAGAGGAGAAGCAGA
GGTCACCAGAGATGGTCCTACTTCCAGCTGAGGAAATGGTGTTCCATGGCACCCTCTGGAGTTGGGGTGAATGGTACTGGAGAAACTGGAACGGAAACAG
CTGTTCTCCATAAATGTACAATGTTTTGTAGAATTCATACACTATAACATAAACTAAAATTTAAAAATAATTTTAATGAATTGATTTACTGAAATCATAA
TTGACAGAGCATTTTATTTCAATTAACATCAATTTAAAATACCTAGATCTGAGAACATTAAAACCCACAGGGAATTGGTGTCTAGAGAGGACAAATTTGG
AAGTAGATGCTTGTTATTCTTTCTCCAACACATTTGTTTTCTTGTCTTTCCTTTTTTTGTGCATTTCTGGAGTCTTGGAATATGAGTAAATTCCACCCAT
AGGCCCTGTTGGAGATACAGAACAGCGAGTCATCTCTGGCTATGAATATGCTTCCTCTGTGGCCAAGTTCACAGCAAGGGGAGAATGGTCACCTAGTTTC
TTTGAGCCCTTCAGGCCAAATCAGTCTTGGGGGAAGAGCAGGGGTTGCCCAGCCAACAAAACAGCCACTCATTGATTGCCTGCTACATCTATCCCAAAAA
YGTATCAATCAGGCTCTTAAAGAACTTTGAGCCCACTTTTATCCTTCAAAGTTGCTCCTTTTTACATCTAATGTAAATGAGGGTGAAGCAATCAGGCTCA
TCAGTGGGTATTTTTAAGGAGATGGGATTTACTTCTTTCATTACTGGCTATACAAATATGTAAAAATTATAAAACTTTACATGAGAAGATACCTCTGAAG
AGAAATTGAAATTCAGTAACCATAAAATTTGTTTTTATGGCTCTTCTGTAACTTGAAAGTCTGTATTTGTATTTTCTCCATTCAATATTTTTAAAGGATT
CTGAAGATTCTTGTAGAAACCTGGTCCCTGTACAAAGAGTGGTGTACAATGTTCTCAGTGAACTGGAGAAGACATTTAACCTGTCAGTTTTGGAAGCACT
GTTCAGCGAGGTCAACATGCAGGAATACCCCGATTTAATTCACATTTATAAAAGCTTCAAAAATGGTAATTAGGTTTATTATCTACCTTTTGATTTCCGG
GGCCAATTTTTTTCAATAAGCATATGTTTGAGCTCCTACCATGTGCGATACATTGTGTTGGGCAGTGGGCATAGAGTAGTTAACAAAATAGAYGTGTCAT
GAGTCTTCTTGRAGCCCATGGTATATGGCTATGGCAAAACAAACATCTGGAGGTCTGCTTCACTGGCCACTTAGACTCACAGGACAACCAGAGCCACACT
GGCATCAGATTTACTTAGAAGATAAGAAACACAGAACACCAACGGGGCAGCATCAGTTGTTTCTTCTCTTTAGTGGGAGTTTTTGCAGTGACCTACACAG
CAGTCCACTAAATTGACTACTACCTGCCTTGAGTGACAGTTTAGCTGTGGGTGCAGGATCCACTTTGGCATAACACCACATATCTGTGGGAGTCAATATC
TCTTGTAACAACCCCATAGTCATAGCTTTCAGGGTGCCACAGGGACAATCTGAGTTATAAGAGTTATCAGTTGAAGGAAGACCACAATTATTCTTTCCCT
ACAGGTATTTATAGTTCATGTATAGTTTCAGGCAAACAGTCATGGGTCATTTCTAAGCCCAGAGTTTGCCCAGTAAAACCAGGAAAATGCTACCTTTATT
AGGTTTCTAGAATAATGAACAAGAAAATTAACCCTGGGTCAAGTTTGCCTTTAGTGAAGGATAAATAGTTTTGTTAACCCTTTACCCACAAGGGATAAAA
GAAACATTAATCAAATAATCACAAAACTGATTGCTCGGACAGGGACTATACCAAAYTAAAGTTTGGTATTGGTGCTATACCAAACTAAAGTTTGGTATTG
GTGCTATACCAAACTAAAGTTTTGATTCTTGACTTTTTTCCTGAGAAGGCATAATTTATACTATTATAATGGTACACAGTAAAGAAGGTGCCCTCTATTT
TGTTTTACTTGCCTGGAAAACTTTTATTCTCCTCACAGTTTGATCTCAACCCAGTTCTCCAAATAAGAGATAGAGACATCACAAGAAAAACAGGGACATG
CCCTGAAGAGGGTGGATGCTATGGGGACTGGAAAGAGTRAAAGCATGTCTGCAAAACAGGACAAACTGGATTTGGCTAAATCACAGAGTGAGAAGCAGTA
TAGGAGCTGACTTAAGAGAGATCAATTGGAGGAAGATGGTGAACGGTCTGGAATTGAAAGCTAAGGAATTTGAAGTTTATTTACTAGGCAATAAAGAAAT
ACTACAGGTTTATAAACAAGGAAAAAAGTTTAGGCAGCTATATATGTTTTGGCTTATTGATTTGTGTTAATACTAACAATATCTAGATTAAAAATAAAAT
AATTTTTGTAACAAGTCATTCAAGTCAGAAAGTGAATAAAAGGAAATCACATATCTGGGCACAAATTTCGAGTCAATGTTATGTTTGTAAGCAGGATGGT
CCAGGCTGCGGGGATGAAGGGAATAGTGTTACATTTACTGCCCACATTCTCAGGGGCTCTGTTCCTCTGCATGGACTGCAGGGATTCCCTTCCTAGCCCC
AGTGCCCACAACTCACATGTTAGTTTCTGGCACTCCTTATGCTTGGGTGACCTGCACTGAGGCTCACTGTCACCTGCCTGGGGCAGCACTGCCCACCGCC
CCACCCAGCACAGCAGCCTACCCACCYTCAGGGAGATGCTGAAGTCCACACAGGCTGCCCCTGTGTCCTCTGTTATGTTTATCTGGGAACTGTTCATCCT
CCCTGACCCAATTAAGCCAACGTTCTCCTGTTTTCTAGCCTCATCTTTAAAGCTGTTTGGGTTTTCTCTTTTAGTTTTTATTTAGGCATGTTTTTGGAGA
TAGGGTCTCACTCTGTTGCCCAGGTTAGATGGCAGGCTAGTGAGCTATCTCTGCTCACTACAACCTTGACTTCCTGGACTCAAGCAGTTCTCCCGCTTCA
GCCTTCTGAGTAGCTGGGACCACAGGTGCACACAACCACATCAGGCTGATTTTGCTAAATTTTTTTCAGACACAAGGTCTTGCTATGTGGTCTAGGCTGG
TCTCGAAATCCTAGGTTCAGGMGATGCTCCTGCGTCACCATCCCACAGTTCTACGATTACAAGCATGAGCCACTGCACCTGGCCAGTTTTCTCTTTTATA
ATGGAATCTCTCTAGGACTTGAGACCATCCTTCCAGGGAATCCCTCTGTTTCTTCCTTAACACTTGATGTATGCCTACCCTGCCATCTGACAATTTTGCG
GGTAACACAGCTCACTATGTTTCCATTACTCCTTTATCCTTAAATCTTGAGTATCCCCTTTCTGTGTAGGACACATAAAAGCTCATTGTTGAGGTCATCT
CTTCTCTGTCCCAGAAGATGATAGGAGAAGTTTAAGTCTGACTTCTGAGTCAGCCTAATGCTGGAAATTCCTAAAAGCCAATTTCCAGGTGTTGTCCCTG
GTTCTCACAGATCTTTAATTGCTTTCTTCTCTCTCCCACTCTTCAGCAATCCAAGACAAATTGTCTTTCCAAGAAAGTGATCGAAAAGAAAGGGAAGAGA
GGCCTGACATCAAACTAAGTCTTAAACAAGGTAAAAATGACAGAATAAAAACGGTTTCTCATCCGCTAAGAGGAAAAGGAGACAAGGGAGGTGAGGGCCC
AAGGTYCTGAGGGGAAATTGTGAAACAGGGAAGACACAGGGAAGGACCATGGAGAAGTCAAGGAGGGGGTTGTATGAGCTCCTAATCAGATGCAGGGTCC
YGGAGAAGTGGCCATAACAAGACATTGTTGGCTCAATAACCATGAAGGAACCAGAGCCAAGTGTGTCAGTAGGCCAGATTTACAGATGCTAACTACCTAG
ATGTAATTGTGATTTAGAAAGGTCCCTGTGGGAGGTCAGTATGAAGCTGTGAAGTGTTAAGAACCACAGCCCATGGCCCATGGTCAACATCAAAGAGGAG
ACCCTTAGGGGAAGAAAAGCTCCTGTTTTATCTGTACTCTCACATTCTCAACACTTTTGACACCAAACATGTGGAGAACCTCCCCACACCAACCAGTTCT
TCAGTTCCCTGCAGAATTGTGTACCCCATCCTTAAGGGCTTTCCAAAAGTCACCTTATTAACATAAACTCAGGTTTGGTTGAAATGGGGTTGTTATGCAT
AACAGGAAGTGCTCTTTTGACTTTCATCACTTAGGATGTTTCAAGGGTTTTAGGAGCTCTGGCCAGGAGCAGGGGATGAAGACTGAAATATATATTTCTT
ATTATATCACAGGAGATAATTGGTGATGGCAGAAGAGGGGACCCATTTAAATGTGGGGATGTTGTTCAAGAGCAGGAATATTCAAAGAGAAATGCACTCA
TGTAGAGAGACTCAGAGAGGAAGTGGTGCAGATGTGGAGAGGATGTAGGTATTGAGAGAGAGAGAGAGAAGGAAGGAGGGGAAGTTAAAGAAAGAGTGAA
AAAGGCATAAAGGACAACAAAAATAACCATGTTATTAACAGCTCACTTTGATTAAACGTCTATTCTATGGCAATTGTGAGTTTAATGCTCCTGACTGCCA
TGGAGATTTGTATTCCTTATTGTCCATTTTGCAGATAAGAAACTGAAATCTGGACAAACCACTTACGAAGTTTGCCTAGGGTCAGATGAGCAAGGAAGAA
CCCCCCTAGGCATTCTAAGCCAGAGCCTTGTTCTTAACTCTGTGATATCCAGGGAACCTAATAATAAAAGCAGAAACATAAAAYGCAAATGAGGAAATTT
ATGCAGAAAGAAAGATACAGAAAAAAAAAAAAGAATAACATGACTGGAGGAAATGGTGGCAACTCAGACACAGAATCCTCATAGAAAGACCAACCAGAAA
ATGTGAACAGATGTGGAGTGGGAGGGTGTGGTGTAAACGCACATAAGGACAAGACATCCAGGGCTTATGATTTTTCAGCTTTACAATGGCTTTATTGAGG
TATTAAGTGCATTTTTGACTTATGAGATTTTCAATTTATGTTGGGTTTATGGAGGTGTAGCCCCATCATAACTGTAGGAGCATCTGTGCTGATTTATCCT
TTGGATATATATTCAGCAGTGGGACTGATGGATCATATGGCAGTTCTATTTTTACTTTTTTTGAGGAAACTCCGTACTGTTTTCCATAATGGCTGTACTA
ATTTACATTTCCATTAACAGTGTACAAGAGTTTCCTTTTCACCATATCCTCACCATTTATCATCTTTAGTCTTTTTGATAATAGCCATTCTAACCTGTAT
GTGGTGATAGTCATTGTGGTTTCAATTTGTATTTTCTTGATGATTTGTGATGCTGGGCATTTTTTCACATACCTGATGGTCATTTGTATGTGTTCCTTTG
AGAAATATCTGTTTGAATCCTTTGCCCACTTTATAATCTGTTTATTTGTTTTTGTTTTTTTTTTTAGTATGGAGTTGGTTGAGTTCCTTACATATTTTAG
ATATTAGCCCTTATCAGACATATGGTTTGCAAATATTTTCTCCCTTCTGTAGGTTGTCTCTTCACTCTGCTGATTGTTTCCTTGCCCATGCAGAAACTTT
TTAGTTTGATGTAGTCTCACTTCTTTATTTTTGCTTTTGTGATTGTGTTTTTGGTGTCATACCAAAAACATAATTGCTCAGACCAATGTCATGGAGCTTT
TCCCCTGTTTTCTTCCAGTAATTTTGCAGCTTCAGGTATTAAATTTAAATATTTAATCCATGTTGGGTTGATTTTTTAATATGGCATGAAATAGGGTCTA
ATTTCATTCTTCTGCACGTGAAGATCCAGTTGTCCCAACATCATTTATTAAAGAGACTGTCCTTTCCCCATTGCGTGTTCTTGGCACCTTTGTTGAAAAT
CAGTTGACCAAAAATGCATGGATTCAAGCTCTCTATTTTGTTCCATTTGTCTATGTGTCTATTTTATGCAAGTACCATGTTCTTTTGATTATTATAGCTT
TGTAGTATATATTGAAGTCAGGTAGTGTGATGCTTTCAGCTTTGTTCTTTTTGCTTAAAATTGCTTTGGCTAGTTGGGGTCTCTTGTGCTTTTATACAAA
TTTTTAATTGTTTTTCTATTTCAGAAAAAAATGTCTTTGGAACTTTTATATGATTTGCGCTGAATCTTTAGAGCACTGTGGATAGTATGAACATGTTAAG
AATATTAATTAATCCAATCCATGAACATGGGGTATCTTTCCATTTTTTGTTCTTCTTCTATTTCTTTAATCAACATTTTAGAGTTTTCAGTGTACAAATA
TTTCACCTCCTTGGTTAAATTTATTCTTAAGTATTTTCATTGTAAATTGGATTGTTTTATTGATGCCTTTTTCAGATAGTTCATTGTTAGYGTATAGAAA
TGCAACAGATTTTTTATGTTGATTTTGTATCCTGCAACTTTACCAAATTTATTAGTTCTAGCAGTTTTTTGGTAGAGTCTTCAGGGTTTTCTCTATATAA
GATCATGTCATCTACAATTAARAACAATTTAACTTCTTCCTTTCCACTTTGGATGTCTTTTATTTCTTTTTCTTGCCTAATTGTTCTGTCTAGGACTTGC
AGTACTGTGTTGACTAGAAGTGACGAGAATGGACACCCTACTCTTGTTTCTGATCTTAGAGGGAAAACTTTCAACATTTTACTAATGACTATGATGTTAG
CTGTAGGCTTGTCATATGTAGATGGTAGTGTTCTGAGGTACATTTCTTCTATAACTATTTTGTTGAAAATTTTTATCATGAAAAAAGTTGAATTTTGTCC
AATGCTTTTTCTGCATCTATTGGGATAATCATATAATTTTTGTCCTTCATTCTRTTAATGCAACGTATGACCTTTTAAGATTTGTGTGTTGAACCATCCA
TGCATCCCAGTGATAAAGCTTACTTGATCATGGTGAGTGTGCTGTTGAATTTGATTTGATAGTATTTTTTGAGGATTTTTCACATATGTTTATCAGGGAT
ATCAGGGATATCATATATGTTTATCAGGGATACTGGCCTGTAGTTTTCTTTTCTTATAGTGTCCTTGCCTTACTTTGGTATCAGGGTAATGTTGGCTTCA
TAGACTAAGCCTACAAATAGACCCCTTATTCAATTTTTTAGACGAGTTTGAAAAGTATCAGTATTTATTATTTAAATGTTTGGCAGAATTCAGCAGTGAA
ACCATCTGGTCCTGGGCTTTTGTTTGATGGGTGGTATTCAATTCTGGATTACATCTCCTTATTCATTATTGGTCTGCTCAGGTTTTTATATTTGTGTTGG
TAGGTTGTATCTGTCTAGGAATTTACCCATTTCTTCTAGGTTATCCAATTCTTTGGTGTATAATTGTTCATAGCAATCTCTTATGGTCCTTTGTATGTCT
GTAGTATGAGTTACAGCGTCTTCTCTTTTATTTCTGATATTATTCATTTGAGTCTTTTCTTTTTTTTTAGTCTAGCTAAATGTTTGTCAATTTTGTTTAC
CTTTTCAAAAACCAACTCTGTTTAGTTTATCTTTTCATTGTTTTTCTAGTCTTTATCTCATTTATTTCTGATCTAATATTTATTATTTCCTTCTTTCTAC
TAATCTTGGCTTTAGTTTTCCTTTTTTGTCTGAAGTTTCCTAAGGTGTAACATTAGGCTGTTTGAGATCTTTCTTCTTTCTTGATGTAGGTGTTTATTGC
TACAAACTCCTCTTCTTTGAACTGCTTTTGCTGTATCCCATCAGTTTTGTTATGTTGTGTTTCCATTTTCATTTGTCTCAATATTTTTTTAAATTTCCTT
TTAATTTATTCATTGGCCTATTGGCTGCTCAAGAGTGTGTTTAATTTCCATGTATTTACAAAATTAAAAAACTCTTCTTGTTATTGATTTCTACTTTTAT
ATCATTGTGGTCAGAAAAGATAYCTGATATAATTTCAACCTTCGTGACTTTAAGTTTGTAGCCTAATGTATGATTTATCTTGGAGAATGTTCCATGTACA
AGTGAGAAGAATGTATATTTCACTCCTGTAGAATAGAATGTTCTTTATGATGCTGTTAGGTCTATTTGGTATAAAATATAGTTTACATTTTATTTGTCTT
TGTGGATTTTCTGTCTTAATGATCTATCCAGTGCTGAAAGTAGGGTATGAAAGTCTTTTACTATTATTGTATTACAGTCTGTCTCACCTACAAATCTATT
AATATTTATTTAATATATATTTGGTTGCTCAGATGTTGGGTGCATATATATTAGTGTGCAATTATTATGTCATCTTAACAAATTGACTGCTTCATCATTA
TATAATGATCTTCTTTGTCTTGTTTTAGTATTCAATTTGAATTTATCTCATCTGATATAAGTATAGCTACTCCTTCCTTCTTTGGTTTGCATTTGCGTGG
AATATTCACTTCTATCTTGTCATTTTCAGTCTATATGTATCCTTAAAAGTGAAGTGAGTGTCTTGTAGGCCATAGATACTTGAGTTTTTTTTTATTATTA
TTCATTCAGCCACTCTGTCTTTTGATTGGAGAATTTAATCCATACTTAACATAACTATTTATACTTAATATAATTATTGCTAGGCAAGTACCTACTACAA
CTATTTTGTTCATTGTTTTCTGGTTGTTTTGTGGATTATTATCTATTATTATTATTATTATTATTATTATTATTATTATTTTTGGAGACAGAGTCTCACT
CTGTCACCCAGGCTAGATTGCAGTGGCATGATCTTGGCTCACTGCAACCTTCGTCTCCGGATTCAAGTAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGG
GACTACAGGCGCATGCCACCAAGCCTGGCTAATTTTTTGTATTTTAGGTGAGATGGGGTTTCACCATGTTACCCAGGCTGGTCTCGAACTCCTGAGGCAA
TCTGTCCACCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCATGCCCAGCCTGCTTTGTAGATTCTTTATTCCTTTCTTTCTCTCTTCCTT
CGTTTGTGATTAAGTGATTTCCTCTAGTGGTATGCTTTGACTCCTCTTTAGCTTTTGTGTAAATACTATAGGTTTTTGCTTTGTGGTTAACATGAAGCTT
ACAAAAAATATCTTATAGTTATAATAGGCTGTTTTAAGCTGATAGCCTACAAAAACTCTGTACTGTACTTTTACTCTAACTTCTCATTTTCTTTTCTTTT
CTTTTTTTTCCTTTCTTTCTTTTTTTTCTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGGGGCATTATTATGTCTCA
CTGTAGCCTTGATCTCCTAGGCTCAGGCTACCCTCCTGCCTCAGCCGTCCAAGTAGCTGAGACCACAGGTGCGTGCCACCACACATGGCTAATTTTAAAA
ATTATTTGTAGAGACAGTGTATCACTGTGTTGACCAGAGTGGTCTTGAACTCCTGGGCTTCAATGATCCTCCCACCTCAGCTTCCCAAAGTGCTGAAATT
ACAGATGTGAGCCACTGCACCCAGTCTCATATTAAATTTTTTATATCACAATTTACATCTTTTTATATTGTGTGTTCCTTAACAAATTATTGTAGCTAGG
CTGGGTGCGGTGGCTCATGACTGTAATCCCAGCACTTTGGGAGGTTAAGGTGGGCAGATCACGAGGCCATCCTGGCCAACATGGTAAAACACCATCTCTA
TGAAAAATACAAAAATTAGCTGGGCATGGTGGCACGTGCCTGTAACCCCAGCTACTGGGAAGGCTGAGGCAGGAGAATCGCTTGAACCAGGGAGCTGGAG
GTTGCTGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGCAACAGAGAGAGAGACTCCATCTCAAAAATAAATATATTGTAGGTATTATTTTTAAGTT
TTGTCTTTTAACTTTTATACTAGAGATGTAAGTGGTTTACACACCACCATTACAGTATTAGCATATACTGTATTTTGACTGTGGACTTATTTTAACCGTG
AATTTTGTATTTTCTTGTGTTTTTATTTTATTAGTTAGCATCTTCTTCTTTCAGCTTAAATAATTCCCTTTAGTATTTCTTGTAAAGCAGGTCTAGTGGT
AATGAACTTTCTTAGCTTTTGTTTGCCTAGGAAAGTCTTTACCTCTCCTTCATTTCTGAAGGACACCTTTGCCAAATACAGTATTTTGGTGGGCAGTTTT
TTTCTTCAGCACCTTTAATATGTCATTTCACGGTTTCCTGGTGTGTAAGGTTTTTGCCAAAAAAGTTCATTGCTATCTTTATTGAAACTCCCGTATATGT
TATTTGCTTCTGTTCTCTTGCTGCTTTCAGGATCCTCTCTAAGTTCTTGAATCTTGACAGCTCATGTTGGTGTAGTCTTGTTTAGATTGAATCTTTTGAC
CTTCTGGTACCTGAAGATTTATGTTTTTCATCAGATTTGCAAAGTTTTATGCTATTATCTCTTTAAATAATCTTTCTATCCCTTTGTCTTTCTCTTCTCC
TCTATGAATTTCTGCAACTCAAACATTTGCTCTTTTCACAGTCTCATAAATCCTGTAAGTGTTCCTTATTACTTTTCATTCTTTTTTCTTTTTCCTTCTC
TAGCTGTATTTTCAGACAACCTGTCTGAGTTCAAATTCTTTCCTCTACATGATTAATTCTGATATTGATGCTCTTTGTTGCATTTTTTCATTTTATTCAT
TGTATTTTTCAGCTCCAGAATTTCTGTTTCTTTTTAAAAATAATTTCAATCTCTGTTAAATTTCTCATTTTGGTCATTTATTGTCTTCCTGATTTCAGTG
AATTGTTTCTTGGTATATTCTTGAAGTTTGCTGAGATTCCTTAAAACAATCATTGTAAATTCTTTGTGAAGCAGTTTGTTATCTTCATTGCTTTGGGGTG
AGCTATGAGGAGATTATTGTGTCTTTTTGATGGTGTTATGTCTCTTTGGCTTTTCACATTTCTTATTACCTTGCATTTATATCTGTGCATTTAAGGAAGT
AAGGACTTATTTCAGCCTCTGTAGATTGGCTTTGTCTGGGAAAGCCTTTCACCCTACTTAGAAATTCTAGGAATTACATCTTGCATAGACCAAAGAAAGG
CTTGCTGCTGAAGGTGCCTAGGATAATCAGTGGGCAGGTCTATGCTGGGGCAGGCCTTGAGCCAGAGTCTGCAGGGATCTACACCACTGGTGCAGCCATC
TTCAGGCACTTCAGTGAGCCTGAAGACCAGTGCATGARAGGCAGCTTGGTACTGGGATGAGACTGAAGGCCAGAGCCACTGGTAGTAGTCTGGGTTCACT
GAGGCTGAAGTAGTGCTGGGGCAGGCTGAAGACTGCATCTGTAAGGGCTGGCCTGGAGCCTGGGGATTCAGGATTCAGCCTGGGTTCAGTGTGAGCTTGG
AGGTTCAGACCATGTGTACCAGCTGGAGTATCTACAAATAAGGAAACTGCTGATTTTATATAGAGTTTTAGGAAACATAGTTCAGGCACTACAGACTTTC
AGAAACAGGAGTGTATGAATAGTTTAGCATTTAGCCATCAACACGGGCTTTCTGGAGGGGGCTGCGGCTGATTGGCTGGCCTTCAGATGTGTAGGACTGC
CACTGATGGGCTAGCTCTCAGAAATGATTAGTGATATAAGTAATCAATGGCCAATTAGGACAAGTTGAAACAGTTACTTCTTACTACTTTCTTTTTGTTT
GTTTGTTTTCTTGTTTTTGAGACTGAGTCTCTCTCTCTGTCACCCAGACTGGAGTGCAGTGGCACAATCTTGGCTCACTCACTGCAGCCTCTGCCTCCTG
GGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCACGCCACCACRCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGAGT
TTCACCCTGTTGGCCAGGCTGGTCTTGAATTCCTGACTTAGTGATTTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCRCCC
TGCCACTTCTTACTGTTTTCAAAGAACATTAGTATTTTCTGGAATGATAAGAGCTTTTTAATTTTTTCTATTTTACTCTCAGGACTACAAGTAGAAAAAT
AAAAGTAAAGAAAAGGAGAAGGAGGTGCAAAACATGGGGAGAGCATGGCTGTTATGTGTCAGGCGTGATTATTGGAGCGGGTATATTTTTTTCCAGAGAG
CACTTCACCTTGGCTCAGAATATTAGTGTCCAGCATCACAGCACTGGGAACTCTTCTCTGGTCACTGTCTAGAGGTCACCCGAGGAATGTGTGTGACCTC
TAGAAGCTGAAAAGACAAGGAAATAGGTTGTCCTCTCCAGACCCCAGAAAGGAATAAAGGCCTACTAACATAATGACTTTAGGCAGWGAGACCTGTGTCA
CACTTCTCACTGACATAACTGGAAGATAATAAAATACAAAAATAAAAATAAAATAACTTTTTTGTTTCTCATTAGTATCTGGTGAACTAGAAAATTACCA
AATGACCAAAGAAGGAGAATCAGAAGAGCTTGCTTCTAGCTTGCTATGATGTGATGTACCAAGTAATTATGACTTAAAAATATTAAAAACAGAAACAGAG
TTCTGATAATGAAAAAAAGACAAAAGAGGACAAAAAGGGAGACTTAAAGGAAGAGTCAAATATAGGGAGGAGAAGTGAAAGAAGATTTCGGAGGAAAAAG
TAGAGAAGAGGGCAGCAACCAGGGTGCAGAAAAGAGGGTTATTGGGGCAAATTAAAAGTTCATAAATCACAATTTTGCCCCGGGAGCAGAGCGACCAGCA
TGTGAAAATGAGAAGTGTTCCTATGTCATGTGTTTCTCAGGAGAAGTGCCAGAAAGCCCGGAAGCAAGGAAGGAAAGTGACCAAGCATGTGGCAAAATGG
GTAAGGCTGCCTGAGGGCTGTGGGATGGGGTGGCTCAGTGGGCCCCACAGACCCTGGGAAGAGTGGAGGCAGGTGCTCCAGTCCGCCCAGAATCCTGTTC
TGTGCATTTGCCTCACCCAAGCCTTTGGGGAACTGCAGAGAGGCAAGAGATCATTATAAAGTTTTACTTATCAAGATGGGCTCTGTTGATTACATATGGA
TGACGTCATAGAATGGTGCTGCTCTTTAAAGTGGCAGTTATCCTGTTTATTGCATTAATATGTTAAGTCACACTCAATATTCCATGGAACCCAAGATAAC
CCAGTGAACTTCTGCTAGTAGATAATAGTGTCATTTTGCTACACCTTAGAAAGGCCTCACCCAAAAGACAACTAATCCTGGTATTAATTGTCAGGGGGGA
AGACTGCAGGTCTACTCTTAGCCCAACACGTATTTTTGATAGAAGACCCAGGGCCCATCCTAGACTCCTAGTTCTCAGTTCAGTGGGTTTTTGGTTCCTC
TAGAAGAAAGAGAGAAATGAGTAACCAAACATCTTTATAAACTCAAGCCTTCTATAGTATGAATTGTCCTAAAATCTATAACTTTTATTTATTAATTTCT
GTTTCCTCACTACCACTTGTTATTTTCTAGATACTGTGGATATTGCAAACAACTCTACTTTGGGAAAACCCAAGAGGAAAAGAAGTAAGAATAAATAAGA
ATTTACTTGCTTTTGATGTTACAAATACATTTTTAATGCCAGAGTTTTCTTTTTGTCATTGTTACTGTTTCTGTTATTATTTGCAATACTGTGGTAGAGA
GAATGATGGCCACCCCAAAAAAYGTCCACCTCCTAATCCCTGGACCTGTAATCTGCTATCTTACATGGCAAACGGGACTTTACAGATACAATTAATTTAG
AGACCTTGAAATGGGGAGATGATCCTGGGTTATGTGGTGGGCCCAATCTAATCTTGTAGGCTTTAAAGAGTGGAGAACTTTTCCTGGCTGTGGAGAAAGG
AAAATGTGACTATGGAAGAGTCATCAGAAACATGTAATGTTGCAGGCTTTGAAGATGGAAGAGGGAACCAAGGAATGTGGATGACCTCTAGAAGCTGAAA
AAACAAGGAAATAGTTTGTCCTTTCCAGCCCCCAGAAAGGAATGAAGGCCTACACCTTGACTTTAGGCAGTAAGACCCGTGTCACACTTCTCACTGACAT
AACTGGAAGATAATATATTTGTGTTGTTTTAAACCACTAAATTTGTGGTAATTTGTTATGGCAGCAATTAAGAGTAATACRGATTTTAGTACTTGGCAGT
GGGGTGTGGCTATCACATATTCCTGAAAGTGTTGGGGTGTCTTTGAGATTGCGCAGTGGAAAGAGGTTGGAAGAATTTTAAATAGAGTGATAGGAAAATC
CTAGATGAAAAAATGGAAATTAAGTCAATTAATAACCCTACAATGGCCTGTAAGTGCTCAAGTTAAARAAAGAGTCGSCCGGGCGCGGTGGCTCACGCCT
GTAATCCTAGCACTTTGGGAGGCCGAGACGGGCGGATCACGAGGTCAGGAGATCGAGACCATCTTGGCTAACACGGTGAAACCCCGTTTCTACTAAAAAT
ACAAAAAATTAGCCGGGCGTGTTGGCGGGCRCCTGTAGTCCCAGCTGCTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGCRGAGCTTGCAG
TGAGCCAGGATCGCGCCACTGCACTCCAACCTGGGAGACACAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAGAAAGAAAGAGTCACATGTACTCAC
TTTAAATAAAAATCTAGAAATGATGAAGTTTAGTGAGGAAGCTATGTCAAAAGTTGACATAGGCTGAAAATTAGGCCTTTTGCAGAAAAYAATTGGCCAA
GTTATGAATGCAAAGGAAAAGTTCTTGAAGGAAATTAAAAGTGCTACTCCAGTGAACACTTTAATGATAAAGCAGAACAGTCTTATTGCTGATGTGGAGA
AAGTTTGAGTGGTCTGGATGAAAGATCAAATCAGCCACAACATTCCCTTAAGCCAAAGCCTAATCCAGAGTAAGGTCTTAACTCTCTTCACTTCTCTGAA
GGCTGTGAGATGTAGAAAGCTTCATAAGAAAAGTCTGAAGGTAACACCAGTTGGTTCATGAGGTTGAAGGAAAGAAGCTGTTTCATAACATTAAAGGGCA
AGGTGAAGCAGCAAATGCTGATGTAGAAGCTACAGCAGGTTGTCCAGAAGCTCTAGCTTAGGTCACTGATAGAGTTGGCAACACTAAACAACAGATTTAC
AGTGTAGACTAAACAGCCTTCCATTGAAAGAAGATTCTGTCTAGAACTGTCATAGGTAGAGAGGAGAAGTCAATGCCTGGATTCAAAGCTCCATAGGACA
GGAGGAGTCTCTTGTTAGAGGCTAATGGAGCAGGTGACTTTCTCTTGAAGCCAATGCTCATTTACCATTCTGAAAGTCCTAGGGCCCTTAAGAATTATTY
TAAATCTACTCTGCCTGTGCTCTATAATTGGAATAAAGCCCAGATGAGAGCACATCTGTTTACAGCATGGTTTACTGAATATTTTAAACCCACCATTGAG
ACATATTCCTCAGAAAAAAAGACTCTTTTCAAAATATCACTGTTCATTGACAGTGCACGTAGTCATACAGGAGCTCTGATGGAGGTATACAAGGTGATTA
ATGCTATTTCCATGCCTGCTAACACAACATCCATTCAGCAAGCCCATGAGTCAAAGAGTAATTTCAACTAGCAAGTCTTAATATTTAARAAATACATGTT
GTAATGCTATAGCTGTCTTTATATATAGTGATTCCTCTGATGAATCTGGGCAAAGTCAATTGGAAACCTTCTGGAAAGGATTCACCATTTCACATTGCGA
TTAAGAACATTCATGATTCATGAGAGGAGGTCAAAATATCAACATTAGCAGGAATTTGGAAGAAGTTGATTACAACCCTTATTGATGACTTTGATGGGTT
TAAGACTTCAGTGGAGGAAGTCACTGTAGATGTGATGGAAATATCAAGAAAACTAGAATTAGAAGTGGAGGTTGCAGTGGTTCCCACCTGTAATCCCAGC
ACTTTGGGAGGCCAAGGCGGGCAGATCACCTGACATCAGAAGTTCAAGACCAGCCTGGCCAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATT
AGCTGGGCGTGGTGGCTTGTGCTTGTAGTCCCAGTTAGTTAGGAGGCTGAGGCAGGAGAATCRCTTGAACCCGGGAGGCAGAGGTTGCACTGAGCAGAGG
TTGCACCACTGCACTCCAGCCTGGGCAATAGAGTAAGACTCCATCTCAAAAAAAAAAAAAAAGATGTGGAGCCTGATGATGTGACTGAATCGCTGTGATC
TCATGATAAAACTGAGTGATAAGGAGTTGTTTATTATGGATGATTAAAGAAAGTGGTTTCTTGAGATGGAATCTGCTCCTGGGAAAGATGCTGTGAACAT
TGTTGAAATGACAACAAAGGATTTMGAATATATTAGTTGATAAAGCAGCAGCAGGTTTTGAGAGAATCTACTGTGGTAAAATGCTATCAATAGCTTTACA
TGTTACAGAGAAATCTTTCATGAAGTCCATCAACACAGCAAACTTCTTTACTGTCTTATTTTAAGAAATTGTCACAGCCACCTCAACATTTATCAACCAC
CACCATGATCAGTCAGCAGCCATCCACACCCAGGCAAGACCCTTTACCAGCAAAGAAATTATGATTTTCTGAAGGCTCAAATGATTGTGAGCATTTTTTG
AGCTATAAAGTATTTTTAATTAAGGTATGCCCATTGATTTTTTAAGACATAATGCTATTGAATACTTAATAGACTACAGTATAGTATAAACATAATTTTC
ATATGCACTGGGAAACCAAAAAAATTGTGTCTTGCTTTATTGCAATATTCACTTCATTGCAGTGTTCTGAAACCAAACGTGCAATATTTCTAAGATATAC
CTATATGTTTTATCCCAAAGATGTTTGAAATTTTTATCTGATCAAATCTGTCAGTCTTTTCATTTATGGTTTCCAGGTTTTGTGTACAATTTACAAATAT
ATTATCCTCCTCATAATTTGAAAACATTTTTACTTGCTTGTAGAAYATTTGAAATACTTTTTAATGTTTAAATCTATAACACACATAGAATTCATTTATT
GGTGTATGATGTGAGATGATAATTAAGAGATATAACCCCAATACTTTTTTCTTCTTGATTTGAAACATGATTTTATATATATTTTCCAATATACACAGAT
CTGTGTCTTATCACATTTCTTTATCCATTCATCTGTTGATGGAGACTTAGGTTGTTTCTATGTCTTAACTACTGTGAATTATGCTGCAATGAACATGGGG
GTGCAGATATCTCTTTGGTTTCATTTCCTTTGGATACATACCCCCAAATTAGATTTCTGAATGGCATGTTTTTCTATTTTTAATTTTTGGAGAAACCTCC
ATACTCTTTTCTGTAATGGCTGTACCAATTTACATTCCCACTTACAGCATACAGGGGTTCCTTTTCTCCACACCCTCACCTATACTTGTTATCTCTTGCC
TTTTTGATAATAGCTATCCTAATAGGTGTGAGGTGATATTTCATTATAGTTTTGAGTTACATTTCTCTCATGGATGGTTAGTGATATTGAGTGCTTTTTT
ATAACCCATTGGCTATTTATATGTCTTCTTTGGGAAAAAGTTTATTCAGATCCTTTGCCCATTTTTAAATTAGGTTATGACATGATTTTGTTTTGTTTTT
TGCTATTGAGTTATGTGAGTTCCTTATATATTCTGGGCAATAACCCTTATCAAATACATGGTTTGCAAATATTTTCTCCTATTCCATAGGTTGCCTTTTC
ATTTTTAAAATTATTTCCTTTGCTGTACAAATCTTTTAGTTTGATGCAGTTCCACTTGCTTATTTCTGCGTTTGTTGCCTGTGTTTCTGGTGTCTTATCT
AAAAGATAATTGCCCAGACCAAAATCGAGGAGTTTTTCCCTGTTTTCTTCTTTGAATTTTATGGTTTCATGTTTGACATTTAAGCCTTTAATCTATTTGG
AGTTAATTGTTGTATATGATGCAAGCCAAATATCTAATTTCATTATTTTGCTTGTGGATATTCAGTTTTCTTAGCACCACTTATTGAAGAGGCTATCCTT
TCTCCATTATTTATTCTTGGCACCCTTGTCAAGATTAAGTGCCCCTTCTTGACATTTGTATTTATCACACTGCTGGAAGTCCTAGTCAGAGCAATTAGGC
AAGAAAAAAAAGTCATCCAAATTGGAAAGAAGTTAAAATGTCTCTGTTTCCAGGTGACATTATCTTCTACGTAGAAAACCCTATAGACTCCACCAAAAAA
CTGTTGGAACTAATAAATGAATTCAGTAAAGTTGCAAGATTTAAAGATCAGTTGTGTTTCTACACACTAACAATGAACTATCCAAAAAGAAATTAAGAAA
ATAATCMCATTTACAATAGCAACAAAAAGAATAAAATGGGAACAAATTTAACCAGAGGTGAAATATTTGCACACTGACAACTATGACACTGAYGAAAGAA
ATTGAAAAAGATGCAAATAAATGGAAAGACATATCCTGTTCATAAACTGGAAGAATATTGTTAAAATGTTCATACCATCCAAAGTGATCTGGATAGTCAA
TGAAATCTCTATCAAAATTTCAATGACATTTTTCACAGAAATAGGAAAAAGGAATCCTAAAATTTGTATAGAACCATAAAGACCCAAATACTAAAAGTAR
TCTTGAAAAMAAGGAACAAACCTGGAGGCATCACACCGTATGATTTTAAACTATATTACAAAGCAAGAGTAATCAAAACAGTGCTGGCATAAAAACACAC
ATAAACCAATGGAATAGAATAGGGAACCCRGAAATAAACTCATGAATGTATGTTCAAGTAATCTTTGATAAGGGCACCAACAATAGGATTTTCTTTATGT
AAATGTTCCACATTTTCATTTTTCTTATCTGCTTTATAGAGCTATATATAAAACAAATTCATCACCTTAAGGTATAACTGAATTTGTTTTAACAAATGTG
TGCAGTTATATAAATACCTYCACTATCATGATATGTATCATTTCCATCACCCCAAAGTCCACTTGTGTTCTTCTCAGCTGTCTCTGATTCTTGACAACAG
CTGATCTGTTTTCTGTTCGTTTGTCTTTTAAGAAATGAGGCCTCACTACGTTGTCCAGGATGGCCTCAAACTCGTGAGCTCAAGTGATCCTCATGCCTCA
GATTCCAGAGTAAATGGGAATACAGGCATGTACAACTCACCAACCCAGGTTGTTTTTTTTAAATGCTGATCTGTTTACATCACTCTAGTTTTGCCGTTTC
TGGAATTTCATATAAATGAATTCATACAGTATTGAATTTACTTATGTTTAGCCCCTGTCAATTAACATAATGCTTTTGAGATACATCCATGTTATTGTGT
GTGTTCATAGTTACTCTATTTTTCATCGCTGAGAAGTATTTCTTTATATGAATACATTACAGATAGTTTATTCACCTGTTGGTAGGCATTGAGGTGTTTC
CAGTTTCAGCTATTACAAATAAAGCTGACAGGAACATCTGAACACAAATCTTTGGGTTGGGCATGTTTTATTTTGGGGAGTGAATGCCCAGGAGTGGTGC
TATTGGGTCATATGAACATACATGTATGTTCAGTATTTTGAGACTCTGCCAAAATGTTTTTCAAAATGATTATGCCCTCTTGCATTCCCACCAGTAATGT
GTGAAGCTTCTCATTGCTCCACATACTCACCAATACTTGATAGTGTTAGTAAAAYTTTAATTTTTTTATAAAGTCTACATTTACCATTTTTCCTTTATAA
TCTGTGATTTTGAGGTCCTATTTAAGGAATCTTTTCCTAACTCAAGAACCTATGTTTTCTTCAAGTTTTTGGTGTTAGCGCTTATTKAGATCTRTAACCC
ATTTTGAGTTAGTTTTTGCRTATAGTTTGAGCTAAAGATTGATTTCTTTTCTTTTTTTGCATRTGGATACTCAATCATTCCATCATAATTTGTTGAAAAA
AGTATCCTTTCTGCATTGAATTAGTTACTTTGACRTCCTTGTTGAAAGTCAGTTGGCCATATATRTTTAGGTCTATTACTTGACTTTTTTTCTGTTCCAT
TTATCTGTATGTCTATTCTTATGCCAATACACCATCTTGATTACTACAGTTTTACAAATCCTGAAATCAGGTAGTGTAAGACCTCCAGTTTTGTTTTTCA
GAATTGTTTTGGCTATTTCAGACCCGYGCATTTTGAAGATTCTTCTATCTTGCAGCTCAGCTACTGTCAAGATTACATCATTGTCCAAGGTGCCTGCTAA
GCTCCAGCCACAATGTCCATGTTCTAGGCAGTCAGAAGGAGAAAGGGTGAAGAGCAAAATTATCTTCCCCAGAGGCCTATTACTTTTGCGAGAAGTTTTC
TCCRGAACTCCCCTCCTCCCACAATATTCTGCTCTCATCTTAGTGGTCAGATCTTAAACTGGTGGCCATGTCAGGTGTRAGAGAGGTTATGAACTGTGGT
TTTTCTCTGGAAATATCGATGTCTGCAGTCTTGGAGGTATTCTGTTAGTTGATCAGGAGTGGAAAGTAGATATGTGGAAAACAATATGAATTGACTTCGC
CAATTATTTAAAATGTGTTAAATGTTCCTTTGCATCCTAATGTGTGGTCATTATTTGTAAATGTTCTATGCCACTTGAGAATAATGTACATTTGAGCTAT
TTGTTAGGCTCTGGCTTCACTCCATGCATATCTTTATAAAGCAAAACTTTGTTGTTTAAATATGGGTTCATAGTAATTTATTTCCTCCATCAAATTTGTA
TAGAAACTTGTTAAATTCTCACACAAGGTTGTATATTTGCCAATTCCTYCTTATTTTGTTCATTTTCTTTAAATATGTTGAGACCATTAATGACTTTATA
ACTTCTTAGTGGATTTCTTTTCTTTTATCATTATACAGCATTCTGCTTTATMCATATTGGTGCTTTTGCCTTAAAATCTCTTTTACCAAGTGCTAATGTT
GTTATACAAACTTTTTTTTCATATTTTTCACTCAATTTATGTTAAGCCATCTTGTGCAGCTTTGTTTTATGTCTCTTGTAACAGCACTTAGCTTTTGCAA
TTTTATCTGATAATCTTAGCTTTTTAATGAATTTTTATTTGTTTTCATTTATTATGATTCCAGATGTATATKGACCTGTATCTTCTGTGGTAGTGTTGAC
CATTCTTAATTTGTGTTTTTTTGTRTGTCTCTTTCCTGATTTCTGATGGATTGATATAAAATTCTATATTCTCCCTTTTCCCCCTGCTGGTTTGGAAATT
AAAGACAAAATTTCTGTAATCTTATTAATCWTGCCCCAAACCCCAGAGATGACAAGGATCTTGTAATGGTTTCACTACAAAYTGAATACCCCATCTCTAC
CATTTGGCTATTATTGTTTAATATTTAATTTTTAACTATAAATTTTGAAACTATTATTTTTACAGTTGATATTTACTTAAATCAATTTTTTAAATCATTT
TATGTACTCWCCATTGTTCTTTTTCTTTGGTTTCACTTTTTGTCTAGCTGAAGTGAATTCTTTAGTTTTTCTAGTGAGTGATCTCTAAGTGGTAAATTCT
CTAAGTGYTGTATGTACAAATTTGTCTTTCTTTTGATAGAAATTTTTAGCTARGTTAAAAATTTTAGGTTGATATTTATTTATTCTCAGTATAGTAAAGT
GATTACTACATTGTCTTCTGGAATCTATGGTATGGCTAATAAAAATCATTCTTTTATTGTAACTATAACTTTTTGGTAAATATTCTGTCCTTTCTCTCTA
AAAGCTTTTTTCCCCAATTTTTAATCATGAAAATTTCAAGCATGCAGAAGTCTTGGGAGAATTGTATACTAAACATCAATATACTTTCACACAGWTTCAC
AAWTAACATTGTATCATTCCTGCTTTATCGCTTTTCTATCTGTATTAGCCCATTTTTACACTGCTGATAAAAACATACCCAAGACTGGGTAATTTGTAAG
GAAAAAGAATACAGGTTTAATTAACTCACAGTACCATGTGACTGGGGAGGCTTCACAATCATGGCAGAAGGTGAAAGGCACGTCTTACATGGCAGCAGGC
AAAGACAGAGTGAAAAACAAGTGAAAGGGGTTTCCTTTATAAAACCATCAGATCTYGTGAGACTTGTTCACTACCATGAGAACAGTACAGGGGAAACTGC
CCCCCGATTCAATTTTATCTCCCACTGGGTCCCTCCCACATGARAATAAGGGAGCTACAATTCAGGATGAGATTTGAGTAGGGACACAGACAAACCATGT
CACTATCCATATATACATTTTTTTATCCRCTCAATAACTCATGGTCAAGTTTGAAACATTTCAGGGTTGCAGACATCAGTACCCTTCCCCCTCAAATACT
TCTGCATGCATTCTTTTTTTAAGAYAAAATTTACAATGAAATGCACAAGTATTAAGAGTACCATTGGATGAGTTCTTACAACCACACTTTTCTGCACCAT
CRAAATCTTTATCAAGATACAGAACATGATCATCACCCTGGAAAGGTTCCTTATRTCCTTTCTGGTATATCTCCACCCACTACYTATCAGGGCAATCACT
ACTCTTTGTTTTTCCATGATAACTTAATTTGGGTTTTTAAAAAACTTTATATAAATAAGGTTTTACAGCGTGTTCTCTTTATTGTGAGATTTATYTCACT
CAGCATGTTTTTGAGATTCATTCATATCATTGGATGTATCAGTAATTTGTTCGTTTTCATTGCTAGTGTCCATTGTCTGAATATACTGAATTTTGTTTAT
AATTCTCCTGATGAACGTCACCTCAAGTATTTTCAGTTTTTTGCTATTAGGAAAACTCTCCTCAGCACATTCTTGTAGAAGTCTTCCTGTTTTTTCATAT
CTCTTATCTAAATACCTAGGAGCAAAATTGCTGGGATATAGAGTAGACGCATCAGTTCTTTCCCCTCAAGACCCAAGAAAAGGATGGTGCAGAGGAAGCC
CAGGTGGATGGTGCACTCACAAGTGTGTGCTGCAGTGGAGGAATGCTTCACTGAGGAAACCCATGGGGTTTGCTAGCTAGGCGACTGCTAGCAAACCTGC
CCAAACCTTACCTCCGAGGGAGATATTATCTTTTTAGCTGGAACGTAAGCAACTCACCTCTGGGGATATTAAGCAAATCTCTCCTGGGGACATCTCCTCT
GGAAAATTTCTAAGGAGGGAGATGTTCTCCACTTTATACTGGTCAGGGAATAAATTTGCCCTATAATCTGGAGGCTACATGATCTCTAGCTTCCAAGGCT
GCTTGCTATTCTGACATCCTTGAAGCAATACCCTGATACCGTGAGTACAGAAATGCCATGGAGAATAGCTTCTCAACAAATTCTTCCCACATTTTTGCTT
CTGGCAAATTTCCTCATGAAGACACTACCCCATCAGCCACTCTGATTAATTTGACCCATGGGTCCAGATATATTTGATTTGTTAAATGTTGTAGGAACAA
ATTGCAAATGTAGGTGCAGTGGCTCACTCATGTTATCTCAGCACTTTGGGAGACCAAGGCAGAAGGATCACTTGAGGCCAGGAGTCCAAAAACAAGCAAA
ACAACCAAAACAAGCCTGGGCAAGATAGTGGGACCCTGTCTCTCTACACACACACACACACATACACACACACACACACACACACATTTCATAAACCGTG
AATGCTTTAGGTCTTTAGGTCCCTTATGACCAGCTGACCACCTCTAAGGTACAAGTCACTTTATGTGAGGSAAGCAAGTTAATGCCTGGCTTTCATACAA
TAAGCACAATCCCCAGAGCACACAAGGTGTTCGAAGAAGGGAAGTGTTTACAATTGTTGAGCTTCCCTGAGTGGGATGTACATTTGTCAGGGGGAAGGTG
AACAGTGCCTCCTCCTACATGGCTCCTGGCTGTCTGTAAGCCTTGGGGTTCCCAGTTCTGTTCGTTGTGTCCAGTCCTTGATTTGTTTGTGTGTGTGGCT
GGGGAGAGGTGGGCATGTGAGGGGACTGCTTGAGGACAGTCTGTCCAATCTATCCTCTTTGTCCATGACACCAACCAGGTAACAGTCACCCCCCYACCCA
CCCCAACAAATGACTGAGAACAGGGGTAGGGACWATGTCTAGAGGGTTCTATGTGGGACCTCAGAAGCTGGGCCCAGCCCCTGCCGTCTCATGCCTGGTG
CGGAGAGGCTGACTCAGCATTCTCAGAGGTGGGAGCACTGGAGCAGGGTGTTTTCCTTYTGGACWAAGGATCCAGGGTAGTTCTGAGAGACAGATATCAC
CAATGCTCCTGCTTCCTCCATACCTCCTAGGGTTGGAGGTGTTCCTGCCTTAGATCTCTGGATTTTTGCTCTTGCTTCACTGCTGCAAAATCTGTCTGTA
CCATTCTGGTGGCTGTACCTTCATCTTTTTCTCCTAATTGTCTCTTTTCTCACTTAGATCTTCCATCCACAAAATTAGATACAAGTAGAGCAAAAGCATT
TTCATTAGCTGTGTCTGGAGTGAAATCTGAATCCCCTGGGCACTCAGAAGGCTGTGCCTACCAGGCTGATGGGGAAAGAATGAGGCATCWTCCCTAGGAA
TGACCAGGGTCACAACAGAATCCTGAATTTTCAAGATAGGTCTACAGAACACTTGCAATCCCCACCACTTTTGTCCTGGTCACTATCCGGGAAGGAGATG
ATCCCTTTCTGGGGACTGCTCCCTTCAGTGAGCCTACTGCCCTCCCATAGTGTGCAGACAGGAGGAGATGAGGGACGTCAGAAAATCAGTGCATTGTGGA
GTCACTTTTCTGATAAAGGGCACATCAGACTGCAAATGGTCCAGACAGCCAGATTCAGGACACTGATGAGTTTCTGGGGTCACCATAGCATCCCTGGAGT
CAGCTGCTCTGCAGCCTGAAGGAGGGCTGACAGTGTGGAGTCACTGCTATTACTTAATGAAATTATATAGAAATTCTATAATGATTATGTAATTGCATAA
TGAAAACTCTCCATATCAGAGTTCAGAATATCTCCCAATTTCCAGTACAGAATATTATCCATAACACCATCAACCTCAAGGAGGATGTCCTCTCATTGCA
CATGTGAATTTACACAACAAACACTTGAAAAAGCAACATGAAATAGCAGTTATCATTCACTTTAAGGTGCCAGCAAGAGTTAATTTTCCATTAAAAATGT
TGTTTCAAAGGAAGGTCATCTCTTATAGTCTCTCCCAAGCCCATGGCCCAAGGCTCATGCAGAATTAAAATAGGACTCTGTACTCAACTTCCACACTGCT
ACACTGATCATAAAGAATTTTGCCCCATTCCTGTGGACCAAAGTATGAAAAAATCTTGTATACTACTAGCATATAAAGCTCAAATAATTATATKTATTCC
TCTGTATAATTAACTTTATTCTCTTTGGTTTGAAGGAAAAAAGAAGGGGCATGGCTGGAGCAGAATGGGAAYGAGAACGCAGAAAAACAACCAACAAAAT
GGTAAGCAGGCAAAGTGAAGTAGTTACAGCTTTTGAGTTTATTAAGGCGCTGTCCATTGTATTCTGGAAGGCCTGCAGTTCACGAGGGCCAGGAGAGTTC
TGTACTTCCTGTATCCGTTAGGATGTAGACCAACAGGCTGTGACAAAGAGGCCTGAGAATGCAATGGCTTCAACAAAATGGTTTCTAATGCATGTAATAG
TCCAGAGGCCCACAGTTAATAGGGAGGTCTTATCATCCTCAGTATGACTTTCTTCAGTAGCTCAAGAAATTTTTATTAATTTGGAAAAATGTTCTTAAGA
GGGTTAAGTGAAGAAAGCAAGGTGTATGTGTATGTGTGTGCAACTGTAAAATATATATATACATATATATAACCATATTTTATGTGAAATATTTATACTT
GTGAAAGTATGTTTTTATGTATCTATCAATCCTTACATAGATATATGCAATTATTTATCTGTGTGTATGAAGAGATATAAAGCTATAGAAAAATCAGTGG
CAGTTCATTTATAAAGATATATGCAGTGGTTACATTTAGTCAGTATAATAGAGGTGATGTTTATATTTTTATTTGTGGTATTTAAGTATATGTGTTGTAT
TAAAATTTTAAAAATCTTCAACTTTTATAATGAAAAAATGGTCTTTAAAAGGCAACATATGCAAAAAGAAAAGCCTAGGAGAATATTTGTTAACAAATCA
CCATCTGGAGACAGCCATCCTCATCTGTGGCTATCTCTAGATGATGATGTTTTAGACCATTTTATTTTCTGAATTTTCCATAATTATATATGTTATTTAT
TTTAGTCATGGTCTAAGGATTTCCTTTCTCCTAGTCAATGAAGGCTGTCTTATTTTCCAAATGATGCTCAGTTTTGAATCAGTGGATCTGTATAGTAAGA
TTTTAGAGTCCTATTGAAAATTGTTTCTTTTCACCAATCATCTATCTTCTGCTCTTCTGTTCTTGCCAGTTTAAGTGTCTGCCCGGCTTGTGGATGTACA
TTTKTGTTTGGAAAGAAAAACAAGTGGTTGCATTTATTTTAAGAATGGGTGTTTTTGGCCGGGCATGGTGGCTCATGCCTGTAACCCCAACACTTTGGGA
GGCTGAGGCGGATGGATCACTTGAGGTTGGAGTTCGAGAACAGCCTGGTCAACATAGTGAAACCCTGTCTCTACTTAAAATACAAAATTTYGCTGGATGT
GGTGGCGGGCGCCTATAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAAAAGGCAGAGGTTGCAGCAAGTCAAAATTGTGCCACT
GCACTCCAGTCTGGGAGGCAGAGAAACACTCTGTCTTTAAAAAACAAAACAAACAAACAAAAAACAAGAATGGGTGTTTTCAAATTAAAAAATTATTTGG
ACTGAGTCATTATAACATTTTCATTTAAGTCTGTGTGTATTATCCTAACACATTCTAAGAGACTTCAATGTACGGTTAAATTCTGTGTGTAATTTAGAAG
TCAACACTCCCCAAAGCAGAAAATGCTCTGGACACCTGCTCGAGGGGATCCAGAGTGAAACCCAGGACTCCCTCACTTGCGTTTGGTCCAGCCTGTGAGC
TGTTGTTCTGCCCAGTTCTATTAATACATTTTCCCTTGCCTATCCCCAGATAACAGCAAAGCCGATGGCCAGCTGGTCTCGAGTGAAAAGAAGGCGAACA
TGAATCTGAAAGACCTTTCCAAGATTAGGGGTAAGATAAAGTTGGTACCACTTTTCATTTGCCCTGCAGGTCAATGCACATGTTGAGGTTTTGAGGAGCC
TAGAAGCTTTATTGTTTACTAGTCAAACTTAGTMAATTTCAGAGCAGTGAAATCTAAAAAACAGCAAACCCATTAGAAGCCAGAGTTGTAAGTTGATTGT
ATTCATATCATAGAWCTTATCTGTCCAAGTTCTAAAGTTGTTTTCCTCTGTGTTTTATCTGATTTTCCTGGGAATTCCTTTGCCTTAAATCATTGGCTAA
TTAAAATGGCTGGACCTGGTAAATTGTAAGCAGAATRCAGGTTTATTTTCCCACTGCCCTTTGAAGTCCTCCTCCTAGATAAGTTATTTCTTGTCCTGAG
CAAGCCCTATCGCTTTCCTGTTCCCYTTTCACAACAATAAGAGTCTCATTTCAGTAATTGAGAGTCTTTCTGACCAAGTATTAAAACTCCAATGTCCTCC
CCAGTTTAAAGCACCTTCCCTCCTTCAGCCTGGGCAAGCCTTAGTCTGGAACACATATAGTTGGGGGGTGACATGGCCAGTGTCTTCTCTTATTCTGTCT
TGGCCCTACCCCCACTCCATAGCTGTTGGCTTGGTCCCATCCAGGATTGGGGAGGTGAGAGAAAGGGGTGAGATCAGAGTGTGGAAGTGTCTTGCCTGAC
AGGTGCAGCCGTGAAATGACATTGCAAGTGGTTGATGCACAATCACTAGCTCTTTCTTCCATGAGATGCTTTCATCAAGTCCACTGCAAGGGAAGGGGAG
GGGTCAGGCATCACAGCTTGACTTATTTTGAAAGAAATAGAGCTTTTCTTCTACAACCTGGGTGTGAGTGARGGGCTGAACCTGKCATAATCAGTTCCAC
CAACTCTTTCTATGGTCCCATAGGTGGACTGGTGCATTGTCCTAGGATGCGGGYGCTTGGAACTTGGGTAATCAACTCAACCTACTTGCTTGGGACTTTC
TCAATTTTGCCAGTGAAACTCTCATGTCCTGGGCACCCCCTTAGTCCTGGACAGACCAGGACAATTGGTCATTCTACTTGGTACTTATTGGATTGTTCCC
AACCATTGGGACTTGAAGTGAAATTTTGAGAAAACAGGAGGAAATTGAAAACTCTGTCACACTTCTTTCTAGAGGTTAATACCAACCATAACAATTATTT
TAAAACAACTTTAAATTATATTCTGACCACCATAGTATTTATTAAGGTTTRTGWTAGGGTTTCAGTATTGTTAAATGGGTATTACAGCCTGAGACACAAT
AATATTTGAATCCTGCCTTGCTCAGCCACTTGATTCTGAGAGTAAAACACAGTAGTGCTGTATTATGAATTTGCTGGATTTAAGCTCCAGWTTGTTCTGT
ACCAAAACCTCCATAGACTAGAGTAGACTTCATGTTGTTTCTTTTTTCTCCCTAAAAATATGAGGCCTAAACAGATTTAATGAAAGCTAAATCCGACATA
CCCACTAGTCCCAGAAAAGATGTAACYAGACAGAAACAGCTAGAGAGAAAGGAAGAAATAACTCTGTATTAGMTGGACTGTTCAAGGTTGTGGCCAGAGC
TCTAGTGCCAAGCCTGGCTGGAATATAGGAGGGAAAAGAGCAGCAAGGATATGACATCTGGATCTATTCTCACTGTACGGTGAGTGCGGACCCTCAGGAG
AGGAGGGAGGGGTGAAGCATTGAAGAGGAGAGACCTGGAGATGTCCTGGACTTCCAGAGTCCACTTGGCATCTTGCGTGGGAGAGGAGGGGAGGAGAGCT
TCTCAGAGAGCCACACCTGTGTGGCTGATGTTCTATTGCCTGGAAACCTCATCTTCCAGAGGCAGGCAGCAAGATGGAGCAAAAAGATTAACATGCSTCT
TGGAGAACCACAGTTCCAYCTCTTTAGTAGTTTTTYTTAGCCCTTGGCTGTTACTATACAAGCCTCCTACCTCCCTATACAAGTTTATTAAACTCTTCTA
AAGCTCTTCTTTGAGTGCCTGTTATCTTGGTTAAATATTAACAGGATGACAACTTGCAGATTTGAAACTTGTTTGATCTTGGGATAAGATGTCTGTAATT
ATCAATATTGGTTCCTTGGGCCRTTTGGGTCTTAAATGGGTAAAAACCTGGTCAGTAACTGTGTAGTCTAAAGACCAGAAAGTGGAATTATATTACCAAG
CCATAGGTCTACTTTGGGTCCGATTGGTCCTTTCTACTTTGCTGGCCTAATATGCTCATAATATGCTTAGAGTTTAGAGCACTTAGGAATAAGTAGGTTG
GAAAATATTTTTCCATGGGGCCTACATGACCCTGACCAGCATCCCTAGATGGTGGTCATTGGATGGTGGACATCCAGCACAAGRAGGAAGGAACATTTTG
CTTTCCTGCTTTGGAAAATAAAACACATTTGAACATTAGTAAACATTGAGATGCCCACTCACAGCCAATTAACATGCACTTGGGAGAACRTCGTCGGCTG
CAGTGTCTGCCATGTCAATCCTTAATTACTATTTGGAATGAAGGCTGTGGAAGTCTCAATTCTACCCATTCCTCATGGTTAACCTTCTTCTGATYAGTTT
CTTAGATCCTAATATTTATTTTTTCCAAAGCCATGTGAACGAAGCCCTGGTCACATTTACTATTACTTTCAGCACAAGGGTACAAATATCTTCCCCCAAT
GTGATATGTRCAGCATACATCTCACCTATGGAGCACCTAATAGGGTTTCCCTTAACTCACAGAACTGCCATTTATTTGTGTCTCTGCTAAGAGAAACCCA
AACACCTTCACTTAATTTTGTAGTTTTGTCTCAATTTTCTCTGAATATTTTAGTSTCTGTAATGACAGTAATCATCATTTTGATCTTGCAAAGATTAAAT
TAGTGGATGTGTGTTTAACATATATTATATGCCATATATATATTTCAAATATATATTTGAAATGAAATATGAAATGAAACTTCAAAATATGAAATGAACC
TTCAAAATATGGAATGAAGTATTTATACTGTTGTTTGAGTTATATGTGAAATACTGATTTCAATTAGTTTTTTTCTAATGTAAGAATAGGAAAATGAAAT
ATAAAGTGAACCTAACATTAGCTATCTAATTCTTCATACCTTAAAGGCTAGGGTTTAAATCTTTTTATTTATATATTAAACAGGCTTTTGGAAAGTTACA
TTTAAATGGAATTTTTGAAAAGCAGCRATATATGTAACACAGCTGCTCATTTGTAACTGTGATTTTATTATTCTACTTTCTCAGGGAGAAAGAGAGGCAA
ACCTGGAACCCACTTTACTCAGAGTGACAGAGCTCCACAGAAAAGAGTMCGATCAAGAGGTAAAAAAGAAAAGAGGAATGCACTTTCAATAACTAAACAT
CTAATTTCCTGTGCTTTATGCTGTATTTTCAGTAATAAACCTATKTCTTTAATTGTTTTATGAAGCTATACTAACTATTGAAAAACATATCTTATTAAGT
CATTTTCCAAAATGTATCAAGGAAAGAAGGAAGTAAGTTGGTGATGGATCTACAACCAGACCCTGGGGCCCCAGGGGGTCACTAAAGTGCTACTTCCACT
GAAATGATAAATTTCAAGGCTGAAGATAGGCCATTGCTGTATAAAGGGTATAACCYGTAAGTRATTTAGCTGATCTTCCTCTGGCTACACAGAAAGCCAC
ATGTTGCACACTAAGGTTGAACCAGMGTTGTGGTTAGAGATCTGTGTCCTAAGGCTTTTTGGCTTTTTAAAAAATCTTTGACTGTGTGATCTTGTGCTGA
CCACTTGGCCTTCTTTGCCTTGGTTTCCTCATCTGAGAAGCTAGAGGATGAATTAGGCCAACCACCCTTCTTATTAGTCCATCCCAGTCTAAATAGTGTG
CCCTTTTCAAAACCAGTCTCAGGACCAAAGACCGCTTCCCCTGCCCATCATGGCCTCTACACCTCTGTTTGGAAGGGCAGGATTAGCTGCTCATCCTCCT
GGAGTTTTTCTTTGAAAAACTTTCACACCTACTTCTGTAGTATCCGGTTCTCAGTTCCCCACCCCCTGCTWGGTACAATTTTCAGATTATTCTAGAGCTC
CCTGAGCTCCTTTCTCAGCTGTGGAGAAAGCTGATAGGAGGGGAAAATGGAGCAAAGCAGAGAATAAAAGTAGAAGGCAGGTGCTGTCTCCATTAGGTTA
TCTCATCATTAGCCTCTCCCTCCTTGACCAGTCAGTGCCCAAATGGGAGACTGATTATGGTCTCTGGCTTCATCTCTGGCTACCTAACTGCAGCAAAACA
GAATAGCTGGAGAGCGCCCATCAAACCAATGACAACAACTGTATGTTTCATTGTCATATAAGAATCAGTGGAGCTTACYACACTGGAAGTTAAAACAGTT
TTACTGAAGTCTAATTTCTCTGATAAAGCATTCAATTTTCTGTGAAATKTGAAAGGTGAAATTGGGGCACACATTCTGTAGTTACCGATCAAAAATGCCA
CTTGGAAGAAAGACTTTGAAACTCTAGAGATTTATGGAATAGAATTTCCTAAGTACTCTTTGTGCCTTTATAGGATTTACCTCAGTGGGAAGGGGGGATG
TGCCTTTGCAAAGTGAGACAGAATGAAGAAATCCTCTCTTTCAGCTTCAAGAAAGCACAAAGATGAAACTGTGGATTTTCAGGCTCCTTTACTTCCAGTG
ACCTGTGGTGGGGTGAAGGGAATTTTACATAAGGAGAAATTGGAACAAGGTGGGTTTCATAGTCTTCTTTAATTTGCAGCTCCTATCTGAAGGCATCACA
AGAAGTGGTGAAATTATTTGTGTGAATTACACATCATTCAAGGAGTTTTGGGCCCAGTTTAGCTTGAGGGAAGGAGGAAGGGATYCCTAAGATGACATTT
TAAGACTTTAAGAAATCACACCCATTAGAYGCTGACTCGCACATGGAGTGTCCAGGGGGTACCCAAAGAACAAAAGAGAAGGCAGGAAYGTCAATTCACA
GATGGAAAATGTCAGGTATTTTACTTTGAATCAGACAGAAAAGGGAAGAGGCCCTCAACCTCAAGCTTCATATTCTCTCTCCCTTCTGGAGTGCTGTCAC
CAAGGCAGGGTGCTTGGCTTGGGTGATGATCACAGGTTTTAACATTAGGAAGCCTGAGTTCCAGCCTTGGCTGTGCCAGGAATGACTGTTCCATTCTGAG
TAGAGAAGGGGACCTTTCTGAATGTGAAATCTCTCATCCAAGAGAGGGAACAATAATTAAAAACCTACCTCATGATGTAGCTGTGAGAATTAATTTACAT
ATTAATGTAAAATATTTTACGATTGAAAATTATAAAACTGTCAAAAATGTCTATCAGAATGGCCTTCATCTCAGACCTCTCTTAACTTGGCTCTTTGAGC
ACCAATTAATATAAACATTTTCATTGTGACTTTTTTTAACAGCTTAACTGAAATACAGTTCATGTATCATGTAACTCACCACTTAGAGTATACCAATCAA
TGATTTTTTTTGTATTTTCACAGGATTGTACAGCCATTATTATCACCTAATTTTARAACAATTTGTCCTTCACTAAAGAAAACCCCATGTCAATTAGTAG
TCAATGCCCATTCCCACCTCACCCCAATGCCCAGCCCTAAGCAGCTGCTAATCTATTTTCTGCTCTATAAATTTGCTTATTCTAGGCATTTTCTGCAAAT
GGAATCCTATSATACATCCCCTTTCATGACTGGCTGCTTTTAATCAGCATGWTGTTTTCAAAGTTCATTCATATTGTATTARTACTTCATTTCTTTTCTT
GATAAATCATATATTTCATTGTATAGATATACCACATTTTGTTTATCCATTCATCAACTTGGGTTATTTTCACTCTTTGGCTGTTATAAATAATGCTGTT
TTGAACATTTATGTAACAAATTTGGTGTGAACATATTTCAGCTCTTTGGAGTGTATATTCAAGAAAGGAATTGCTGAGTCAAATGGTAATTCTATTCTTA
ACTTATTGAGGAAACACCAAAGTGTTTTCCACAGTAGCTGCACTATTCTATATTCCCACCAGAAATGTATGAAGGCTCCCATTTCTCTACACACTCACCA
ACACTTGTTATTGTTTGTCTTTTTTATTATGATCATCCTAGTGAGTGTGATGTGGYATCTCATTGTGGTTTTGCTTTGCATTTCCCTAATGGCTGATGGG
GTTGACTATCTTTTATATATAACTTAATTTTTCTATTAGGTAACATTTCACAATTAYTTTTTAATATCAGCTGCCCATGATTGCACAGATGARAAAATCT
CTGTTCAATAATGCCCTAAAACTGAATGAAAAATGTTGTAATAGAAGGTGCATATGTTGCCAGTGTGGCCTCCTGAGCCACAGGGCACCTATCTCAGACT
GTACCCCTAAGTAAGGATTCTGCCTCCACATTGCCTCCAGAGCCATCTGCAGACTCAGGCCTGGTCTCTACTCCCAGAATTCAACAGCAAGTTGGAGTCC
TCTCATCTTTCAGAATCACTTGCTTTTCCTTCTGTAAGTGCTTTTGAAATGCTTAAAAGGTTGCTCTTGCTGATAACCATCACTCTCCTCATGGGTGAAG
GTCAAAGACATGTGCACCCCCACCAGGAAATATACTTAGAGGGGACTTTCAGGCTGGATTTGGGGCCTCTGAAGTCTGAGAGGGAAGGCCAGACCCTCCT
GCTATTGATCTTCATCACAAATTGGGTGGCTCTAGATCCAATGTGGTGAGTGGCCACAGTCTGAGYRCTGGGAACAAAGAGGGCTCAGGATCAAGTTACC
CTGGTCTTACAGGAACCTTGGCRAAGTGTATACAGACTGAGGATGGAAAATGGTTCACCCCCATGGAATTTGAAATCAAAGGAGGCTACGCAAGATCAAA
GAACTGGAGGCTGAGTGTGYGCTGTGGCGGGTGGCCCCTACGACGGCTGATGGAGGTATTCCAATGACAAGAGGCCAGACCTGTGCCCATTCTTCTTGTT
CCCTAATAATGAGGAGACTGTTTATTCACCAAATATTTGTTAGGTTATAGCTAAAGCCTTGATGCCAGTGAGTTTATCCTCTCACTCAGGAGAGAGGGAC
CCCATATCCATAACCACACTACAGTGCAACACACTGATGTTGTACCAGGGGCTCCATCAGGATAGACTCAGCAGCTTGGAGGAGGAAAGGGTAATTCTGA
CTAGGGTGCATGTGGACAATTTTGTGCACTGAGAAAAAGAAGAGAGTCGATAGTCAAGCAGGGCAAGAAGACACTTCAGAGAAAGAATGACCTGAAAACC
AGAATGGCATGAAAACAAGAACCATAGTAAAAATATTAACAGCTCTGTGGATTTAGGTAGATGGGTTGTGTACAATAAGGCACAATTCAGCAACTGGGGT
TGTCTGTGGAGCACTTTAATGCCRGGCTAAGTAATTCAAATCTGTAATTGATAGCAACAATCAGTGAAATCTTCTGAGATTGGAAATGACATTTAAAACA
GTATTTTAGACAGCAATGGGGCTTTGAAATGCCTTCACTGTCTCCCCTGCTAGCAAACCTATACTCAGTCTAGAATGCTTAGCTCAAATGTTACCCTCTT
CCTTAAATATTCACTGACCTATAGCCATGGGTCCTCCCTTCCCAGGGTTCCTGAGCCCCTACTAATGCCCTTTTTTCACTATTTATATTTATCCTTCTGT
GAGTGCTTTTTGTCTGYAGACCCCTTTAGGTTTTCCCATCTTCATGTACCCAAGATTGATCAGAGTGACTGACACCCAGTAGCATGCAATAAGTGTRTGC
TGCTTGGATAGCTCTGGTGTAGGRACTCCAGCTGGAGTGGCACTGGTGCAACTGGAAAAGAAGTGATAGATGGTATGAGATTATGAATGAAAACCTCTTA
GGACTTAGGAAAGAAGCACAAGAGAAGGGAAAATGGTCCTGAAAATGATTTTCTGGCTTCTATTGATTGGAGTCTAGAAGCACAGGTGAAGACAGGGAGA
TGGTTTCTCATTCAGACACACTGGGTTTGAGCTGGCATTGGAACACTCAGGTAGAAGTATTTGGGAAGAGGTTGGAAATGCCAGACTCACAAAACAGAAA
CGCAGGCTGACTATGTACCTTGGTCTTTTTATCTTTCAGGAAGGATCTCTACCTAATCCTYCAAGAATATATTACAGGAACAAAAAGGTGATTATTACAT
AATTTTCTACAGATTCTTGTCACACAACWGATTTAACATGTACAACATCTTATTTTATGGAGTCTCCAATTGGGTAACTATAATTAAGCTTTCACCTTCT
CCACTTCCCACATATAAATWTTTTTAATATACRCTTTCAGAGTTACTACTTTGAATACTTTGTGTATATAAAGCTAGGTCCTCTTTGGATTAAACCGTAT
CAGATGGAGATGCTGAGGAGCCCTCAAAACAAACCTCCTGAATGTGTTTCAGCAATAGATRCAGATGTTGTAAGAGTGTCAAAGTTGGAAAATCCAACAC
GGTCATGGAATACATAAAAATATTTCATAATAAGGTGAGAGTATCATCTCCAACTCAAAATCATATTTTTTTCATTGATGTTATTATTTTCTAACTTTTG
TGAAATTGATAGAGCAAACGTCTCCTCACAGTCACTTGAGACATGTATGAAACCATATATCATTTCATGAAATAGGTAATAAAAATAATATTTCTTTTCT
GATCTTTCACATCCTCTTTCACCTTCCAAAAAAATGTACACACAGATACACAGAATTCTTTCTCAATGGGAAATTATTTACCTTTGTCAAGATGGTGCCA
TTGGGGAGGAAGATCTCCAGARGCAAACGTATTTTACAGGAGGAGCTGACCAGGAAAATCTTTTATGTTGATGCCACCTCTTTGGTTCTACCAGAGGGAC
TGTGCAGACCTGCTTTTTATCTGTGAAAGTGATTTTTCCTTCACTTAAGAACGCAACAAACAAATAGGTTAAGTGCAGTGTAGATTCAGGACAAGGTGAT
GGTTTTTCSAAGACTGGGTGTGAATGAGAACCTGAGGAGGGGAAAGAGAAAAATGTCATCCTTATGCACTTCAGGTAGAAATATGCATTCAAGACATTCA
CAGACTTCTAAAACAGCTCACACATAGCTAGCCACTAAGCTTCATATTCCACTGGGAACCTGAGATCCAGGCCTTTACATTATCTGATATACTGGCTRAT
TTGAATTCTCAGCCACTGAGACATTTCATCCACTGGGTTTCCCGAAGGGAAACTATGATGTCACCTATTCAGTGAGTACACTAAAGACCAGCAACTCTAC
CTTTCCCCAGGTGCCAAGAGTAACTCAGCCTGGGTGACCCAAATGAGCTGGCAATTTCCAACCAACCGACTCTCCCTCTATTCAGGGGTGCAACACTTAG
CAGCAACAAGCTACAGTTGCCTCTATATGTTATGTCTCCTCATGGGGAGAACAGAGGTCCCCTGAGTGGCAGATCCAGGATCCATTATGAACTCCATGGG
TCCTCTGTGCCTCTCAGAGCTTCTCTTCCTTGCAGAGCCACTTGGCTTCTGGAAACTTCAGTGTCACTATCAGTGCCACATGATAATGTCTCTGCTCAGG
CTCATGACAAGGGCCACATAAACCTTTTGGTGGTAGCTGCGGTGTTGTAAAACAATCTGATACACTCACCCAGAATAATCGTTGTGTGCTAATGCTTGCT
TAAGAGACTCCAGTAATTTTTTTTTTTGAGACGGAGTTTCACTCTTGTCATTCAGACTGGAGTGCGGTGGAGCAATCTCAGCCTCGCAGGTTCAAGCAAT
TCTCCTGCCTCAGCCTCCCAAGTGGCTGGGATTACAGGTGCCTGTCACCACACCTGGCTAATTATTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGTT
GGACAGGCTGGTCTTGAACTCTTGAAACAATATTCATTTATTCACCCATTGAACATATACTTATCAAGCATATACTAAATTCCAATGGCATTACAGAAGA
TTGACCTCAAAAATCATTTCAAGCCAGGCATGGTGACTAGAGCCTATAATGCCAGCATTTTGAGAGGCTGAGATGGGAGGATGACTTGAGCTCAGGAATT
TGAGACCAACCTGGACACATCGTGAGATATCATCTCTACCAAAAAAAAATAGAAAAATACCCAGGCATTGTGGTGCATACCTGTAGTCCCACCTACTCAG
GAGGCTGAGGTGGGAGGATCACTCAAGCCTGGGAGGTCGAGGCTATAGTGAGCTGTGATTTTATCATGGCATTCTAGCCTGGGTGACAGAGTGAAACCCT
GTCTCAAAAAAAAGAAAAAAAAATTGTTTCAATTTTATTGTAAACATGGATGAATTACAAATGGGTGGAGTAGGAGATTTAGGCTAGTCAGAGACGCACT
CAGTGACAAGGTCACCTCTCAGGTGCTTGTGCTTTAGATCACACTTGTTTATAGCCCTGTGCCCTGGGCTACAGACAAAAGCTGAGGCTGCCTGTATCCC
AGAAGGGAAAGGTGCCAACTCCTGCAATGGATATCCAAAAGCAATCTAAATAAATCTAGTGGGTTACCTCTTAAAAGACAGTCAACCTGACATCTTGTGA
TTTGGATAGAAGGGAGAGCAGGAGACTCTCAGGAAGAAGAGCTGCAGCACAGAGGACCTTGGAGKCATTTTATCACCAGGGCTRTGTCCCTAGGGGAGCT
GCAGAAAGCAGTGCTCTTCTCTGGGACACTTTCATGGCCTCCAGGACACTGGGCCCTGTGGTCCCTGTAGGCTGTGGGGGATAAATTCTCAGCCTGATTA
TTATTGCAACTCCTCTGGGTGGGATGACACAAAGGCCAAGTTTAGGAAATATGCCTGAGGGCCCCTTGGAGTAAGAGGACAAGTAGAGCTTCTCTGACTT
GGCCTGGGCAAACTAGGTCCAGACTCCCTGCAGGGAATGGGACTTGCATTGGGCTGAACAGTAGTACTTGGGCACTTTTTCTTCCCTCAGTAGATATATA
GGTCCAAAAAATCAGATATGAGGTAAAGGGAAGACTGTTTAAAAAAATAAAACTTTAGACAAAATAAATTTAATAGCATTTATTGGAGCAAAGAGCAATT
CATGAATTGGGCAGCACTCAGAACAAGAAGAGGTTCAGAGAGCTATGCTGTAGCAGCCCAGAYGGTGAGGCCAACACAGGAGTAAGACAGAGAAATTATA
TTTAATGGATTATCATGGAAAGATGCTAATTAGAGGTAGATGACGGATTCCAGTTGGTAAATTCTCTAGTTTCATTTTACTGTTTACATCAGGTTTCAGT
TTGCTTACATAGGAAATTAAAGCACTGGAGCCACCCCAGCCTACTGGCCTTCATCTCCTCCCAATTATTTTTTTACAACTGGTTCCTGAATCCCTTCAAA
GATGACTATTTAAATTTAAGTAAGTGATAGATGGAAACAATGCATTCAATATCATAAATCAATCTTTCTGTTTTTTCAACAGAGAATACTGAAGTCTCAA
AACAATAGCTCAGTTGACCCTTGTGTAAGTATAAATTCTGAACTACAACCCCCAGAATATTCCACTTCTTTCTCCAGGCATATGTTCTGTGTCATGACTG
CTGTTGCCTGAAGCATGTTCAGTCTCAGTTRGAGTATGTGGCTGTGTGAATTCAGTTGCATCACCCAAGCCAGGTAGATGTGCTTGGGCCTTGGATGTCT
TGCAGTGTGAAAGCACTCTTTCCATCTGTTTCAGTGGAAACCCTCCAATATCCTTACTTCCTTATTCCCTTGGGTAGTGAGTATGGGAGGCTGAGCTCTA
GACCACTGAGGTCTCTTGAAACAGAGCTTGAAGTGGTAATGGATAGGGCTGGCCTGGTGATTAAGGGGAAGGAGTAAATGTGAGAGGATAACAGCATTCT
CAAGTAAGGGGTATGGATGAAAGGGAAAATCCCAAAAATGCACTCCAAGGTGCAGGTGGAGCRAAGATGGTCTTAAGCATCAGCCAGAAGGAACAGACCA
RGCCAAGCTATTATGTTTAAGGTGTGGAGCCTGTCATTAKTCCTGTAAAGGAGTACATACAGGACAAGAGGTCCTTTACAGAGCCCCTATCACCAGTCTC
AGGGAAGCCATTAGGGTGCTGAGCTGGTTAGGACTGAAACCATCACGACCTAGCAAATCCTGAGGCATTTTAACTCAACTGCTTATCTGGTGCTCAGTAC
TATGCAAACTTTCTGATCCCCTGGGCCCCATCCATTCTCTGCTTGCTATATGACTGCCTGCTTTGGGTTCTGCTGAAATCATGGATGAGTTCTTTCTTTA
AATGAAATTCTGGTTTGCTCCTTTTCATTGCAGTGAGATGCCAATTTTAGGCAAGGTCACCTTCTTGCACAACTCCAGGGGGCAGGACTCACATAGAATA
TCATGCAATAGCACTGACACATAATAGTTARCAGAGGAGGGATGCTCAAATAGTTTTATACACACCTTACCTCCAAAGCAGTCCTCCAATCAGATTTAGG
TCTTTTCCACACTGATTTTGATGCCCGGCCAACTCAGGGACTCACGAATGGTTAAAACAGCCCTGGAGGTCAGTGTTTGCGTGGCTGMTTTTGTATGAGC
TTGACATGGAGGTTTATGTCTCACAGCCCACAGCCAGATGTCTGTGGGAAAAAGAGGAAAACAGATCCAGCAAAGGTATGGTCACCCCTATTAATAATTT
TTCCAAGGCCAATAAGAACATTGATTTATAATATCCCCATGCTTCCATAACCAGACTTTGCTCAGGCTGAGTCTCAAATTATCTTGCATCTTGGAGTCAC
CTGAAGAGCTTTAAAAAATATTGTTGCCTGGATCCCACTTTAGGGAAATTCTAAATTAATCAATCTGGACTATGTATGACTTGAACATTAGGATTTTTTC
AAGGTCCCCAGATGATGCTGATACATAGAATTGCCTATTCTGTCACCTAAAGAAGAATACCAGTGCCTGTGCCTCAACCCTGACCCAGTGATTCAGAATC
TCTGGTGTTGGGTTCAGGACATTAGCATTTTATATACTCTCCTGAGATGAGTCTAATGTACAGCCAGGCCAACAACTAAAGAACCAGAGAAATCAAATCT
CTTCTTGAAAAGATATAAGTTTGGAGAAAAAAAAGGGCAGATAAGAGGCAGGACTAACTTCCACCTCCAACTCAGACAGAACAGCGTGTTGAGACTCAAT
TGTGAACATTTGCTACAAGAACCACCACAGGAACATTCCAGCAAAACAAGGAATTCACAGACCCTTTGAAAGAAGTGGCTTGCCACTGCAAACTCTGTGA
GACAGCCAAAAAACTGTGAGTTCTCAAAGTGTGAGAGGGAAAAAGTCCACCTCTGAACGTGTATCCTCACTGGGGAACCTGAAAATCCAGATCACGGGAG
AAGGATTTCACCTAAGCTAGAGCTGAAATGAATTTAGAGAGCTGGGCAAAATATAAAAGTAGAAGTAGCAGCAGAAAGAGCCCTGTAGGCACTCCACATA
GGGCCACATGGGGGCTGCGCTCAGGAACAGAGGAAACAGCCAGTGGCTGTGGAGGGTGGGCTGTCCCCGGCTTCCAGAGGGAGAGTGTGATTGGCTTGTT
TGAATAATTCCATGGCTGGCAGGGAAATGAAATCAGCTATTCAAAAATAAGCAGAAGGTGCAAGCGGTCCTCTTGATCAGAAGTGTTGGTAGGAAACCTT
ATCTGCAGGAGCAGAGCCGGCGGAGGACTTGTAGATAGACCATTCTAGGCCTTCCCAGTGTTACCAGATGTCCAGGCTGCACGTAATATTGAACTCTAAT
TTTAGTCCTTACAGCACTTTTCCCTTGAACGGCAAAGGGCTCTGTCACAGACCGGTTCTTTGTCATGAATACACATGCATTTGTCTACAATACAGCATAT
AATGTATTGGTCTCTATATTTGCTCTATAAATTCTGTTGGTTTTTAATGACTGGGATTTGTTCCACAACACATGGATGCAAATACTATCATATTTTAATT
TCCCCAAATGAAATTAAATCTTGCTAAAGGTCTCACATATTGAGACTTGTRAGAAATGGAGAATTCATTGATTTACCATTCCTTTTATAGAACAAAGCAC
CAGCTCTTTTATGGGCCCAGGAAATGAGGAGAGGGTCTCCATCTTCAACACTGTATGGTACTGTTACCATGGTCCTTGGTCATTAGAGATGACACCTTTG
CACCTTACAATCCAAATTAGCTAAGTCATGGGAGATCTTCTGCCAGGATCCCAGAGCCGAAGAGCTCTGTGCTCCCTGTGGCCCACCTGGTCATGTGTAC
TCATGGTCCTTCCCCCTCAAAGGTAGGTGCACAGCCCTCTAGGCACAAAACCTACAGCCTAGGAACCCCTAACTAGGCCCTGTCTTCAACTCATGGGGAA
CTTATGGCCAAGAATATGGGATGTGATGATATCTTAGAAGGTTATTCCATCATATGTAATTCTCTGGGTCTCCCTTTCATGAGTTGATTTGTAGTATAGA
CAAATGGATTTAACACTTTACTTCAAAACCTGGTTTTATCTGCAGCATAATACAATTATTCAGATTCCTATAAGATCATCCTCTTGCTTTGTTGCTAGGC
TTTCTGTGTCATAATCTCTGGTTTTATAAGGAAAACGTTTTTATTCTGACATATACCCCTTCCTCCTGAACTTCACTGCAGACCAGGATTTGTTCTGAAA
TYTCCATGCCATATTTTTCCTTCATATCCCAGGGAGAAGCATAYGCCTGTYTATACAGGCTCACACATAAGCAGTGTGTTCTAGATGCCCAGAGGGGTGG
CYTTCCTGAATCTTGTGATTCCCAGTGACGTGGACACTGTTTTACCTTCTAGATGAGAAACTTGGATGAGTGTGAGGTGTGCCGGGACGGAGGGGAGCTG
TTCTGTTGYGACACTTGTTCAAGAGTCTTCCATGAGGACTGCCACATCCCACCTGTGGAAAGTGAGAAGTAAGTGACATGCAGGCACCTCTCTTTCATCC
TTTAAGGGACCTTCCACCTGCCATGCGCACTCTCCAGCAGAATGTCTGCTTGTGTCTAGATGGGGAAGGAGCAGGTTCATCGGGTACTGGGACCCAGCAG
TGTGATCCAGAGAGCAGTGGGAGACGCTGGCAGCAGGAGGTAAATGCTCTCTGTGCTCTCAGGGACACCTCCTCTGATATGCTGAGGCCAGTGTTGGGGA
CCTTTGCCTACATACTGGTATTGTCCTTTCCTTGAAGTTTTGCAGTAGGGTCTCCTGTCCCAGGGGGTTGAGGAAAAAAAACACCAGTTGTTTATATTTT
GTGCTTATTCATACAAGACAGGAAGCACGGTCTYAGGCGGATGGAGGCCTGAYGTCCCTGGAGTTGAAAGCCCAGTTTCTGACACACAGGCCTGGCAGGC
AGGACTCCTTGTGCTYCCAGCAGCTCAGACAGGGAAAGGAKAGTCCCCACTCAYGGTGACACCACCTTCCTGAGGCTTCCCTCCTGCTGCTACCACTGAT
GCGAGGGAAAGGCCAGTGGCTGGAGACCCCATGTGCAGTTCTTGGATACTCTGGGAGGTGTTCCCCTCCCTCCCATGACTGAGCCCATCAGCCATTCCTG
AAGGAAGACAGTGGTAGCCACAGGAACGGTGGCCATTTCCAAGCTCCCTGCCCTCTGCTCACCCATGTCCAATCTCTCAGGACCCCGTGGAATTGCATCT
TCTGCAGGATGAAGGAGTCTCCGGGAAGCCAACAGTGTTGTCAGGAATCTGAGGTCCTGGAGAGGCAGATGTGTCCTGAGGAACAGTTGGTAAATCAGAT
GCAAACCCCAAGCCTTCTCCTTTCCCCTCACACGTGAGAACCATGAACAAGCGCAAGGGCAGGGGAATGTACTGAAAGGAGCCTGCTCTTCCGCGCCACA
CTTCAATGGCACTGATAGAACACCACACCTTGTTTGCACAAAAAATAACTCAGCCATGACATGTCTGTTTCCAAGAGCCACACATGTTAGAGAAACTTGA
GGAAGAAGGGTGTGAGTCGTGTGCTGTGTCTCATGCATGTGGGCTCATTCTCTCCAAGCTGCTTTTCATTTACGGCCTCTTTCTTTTGCAGAAATGTGAG
TTCCTCCTCTTGAAAGTCTATTGCTGTTCTGAGAGCTCCTTTTTTGCCAAGATTCCATACTATTATTATGTAAGTAACAACAGCAACCCATGATTACAGG
CTGCCATGACATTACCTGACCCTGAAATGGGCCCTCGTGAGATTTGTGATCTTAATCCCACGGGGCAAGAGCACACGCTGTCGTTAGTTGCCTTCACCTT
GTTGTATTTCTGCTGGATTTTATGGGAATCCACAGAAGGTAGACACTGAACTATGCTGGTAGCTTTTCCATTGGTATATTTGTCACCAGATTAGAGAGGC
GTGTCAAGGCCTGAAGGAGCCCATGTGGTTGGATAAAATCAAGAAAAGGCTGAATGAGCACGGTTACCCCCAAGTGGAGGGGTTTGTACAAGACATGCGC
CTCATCTTCCAGAACCACAGGGCCTCTTACAAGGTAGGTGGCTCTTCCTGCTTCCATTTCATTTCTTTCCATCCTTCCCCTCATTTTCTGGTGCCAAGAA
AAATTTAGTTTCCCTCATCCTGTAATAAGCTTGCACGAGCAAGGGTTCTGGAAGTGATTGATTGGTTTCAGTTCAGAACTTAAGCTCTTCTTAGCAAAGA
AACATTGAATCAAAAGGTGTCCCTGCAACCAGAACCCCAGGTCTCTGAGAGCTCCTCCCCCACCTGCCCCAGAGGAGACAGGAGCTCAGAGAGAGCAATT
GAGTCCTGCCTGCTGCAGCATATAAAGAGAAGAGAATTTCATCTTAAAGTGGTATTGTGCTTCTTATCTGCTCCCAATCCCAGAAATCCCAAACTCCAGA
TTCTTTGCATGTGAATAGACCATATCCCAACAAGGATTGCCAGCAAGGAGTAGAAGTGACAGAGAAAGGAACAGATCAGTGATCTTACCTTATACCCTTC
CACTATCTGAATTGTTGAAAGAACCTAGATTGCTTTTCTAACCCACTGAAATAAGCAACCAAAGGCAAAAAAGTAATAATCCCARCTGTGGAAATGATTT
CACTTTTCTGCCCTGTTAATAAGAAAGGATCATGCTGGTGAGAAACGGAAGTTACTCTTAGCTGCATRAGTTTTCAAGTTTAATCTGGTTAATGTTACTT
AGRGTGTTTAAGATAAGAGTCCTACTTAATAATAGTGTATTTCACACTTCAACATTGTTAAGAGAGTAAATATCAAATGTTCTCACCACAAAAAATGATG
GCTCTTTGAGATGATGAATATGTTAATTAGTTTGATTTAATTATTCCACATAGCAGTCATAAATCACAACACTGCTTTGTACTCCAAAATACATACCATT
ATAAATTGTCAACTTACAGTTTTTATTTTTTAAAGACAAGAGTCCTGATCATTCTCAGTTGAAAGGTATCTAATGACACTAATGAWAAGGAACATCGTTT
TTGTCTTTATTACTTTTTTCCAGTATAAGGATTTTGGCCAAATGGGACTTAGACTGGAGGCTGAATTTGAGAAGGATTTCAAGGAAGTGTTTGCTATTCA
GGAAACAAATGGGAACAGTTGACTGGTTTAGTGGATGCTGAAGGCCTTCAGGAAATATGCTACTGGTTGCCACTGACTTCAAACTGAGAGCACTTGGGAA
ATAGCACATGCAGGGAGAGGCTTTTCTCTGAGCCTCCCTCATCTGCCCAAAAACAAATCCTCAAAAGAAATTTGATCATCATGAATCCCATCCCCAAGAA
TCTCATCAACCAGGGAAGAGGAACTGAGATCACAGGGAAGGAGATTGGAGGTGATACCAGCACAGACAGACTCTCACCTCTTCTCCTGAGGTCTGCTCCA
GACAACATTTATTACTCACAAGACCTTTTTCCTCCRTTTTTTTTTTGAGATGGAGTCTCACACAGTCRCCCGGGATTGGAATGCAATGGCGCGATCTCAG
CTCACTGCAACCTCTGCCTCCCGGATTCAAGTGATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGATTACAGTGCCTGCCACCATGCCCAGCTAAYTTTT
TGCATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGAGCCRCCYGCCTTGGCCTCCCAAAGTGCTGGGAC
GTGACAGGAGTGAGCCACCACACCTGGCCACTCGCAAGACCTTTTATCTGAAAACCAGCCAAGCTTTATTCACGACACACTTCTTCCCTTCACTCTCCCA
CTTCTGTGGTCAACTCCCTGCAGAACTCCCAAACTGCCGTTCTTTTCGATAGCTCACGATGGTGTATGAGTGTCAATCATCTGACCCTTCTTGGAGTCTC
ATATTTCGTGGAACTCCTGTGCAAACATATATTATTAAATTTTTTTTCCTCCTGTCAATCTACTTATGTCAATTTAATTCATTCGTAGCTCAGCCAAAGA
ACCTAGCAGGGTAGAGGGAAGCCATTTTTCCCTCCCCTGCAAAGCGGTTGGCATCCTGGCACCATCTCCTCTTCTGACCAGGTCTTTTCAYCCCCAGCTG
CTGAGTGGTGGCTGCTGATGCCAGCAGTCCCCAGAGTATTACCCTTCGTTAAATGGAATCAGCTTCACCTGGAAGTGACGCCCYGTGGCCTGAGGCCGGC
CCCTTTGCCTCAAAGCAGGACCAAGGGTGTGGTGTGTGGCTACTCTGTGCTCCCAGGTATCAGGCTGGAGCTAGTCTCCAGCTGTGGCCACATCGTAGCT
TAGCTTTTGCCCACATGATGAGCTTCCCCCACTCCCTTCTGAGCGAACCCTCACCATCAATCTCTTGCTTAATGGACTTCATCCCAGAATGTGCTTCTGG
GGAATGCAACCTAAAGTAATGGCCCCAGGAAGCGAGCTCTGAGGACAGGATTCTGGAGTTGGATCACTGTCTAGCCCAGTGATGCTGGGTGGAATATGGA
TAGTCCCAGAAGTGCTATCACTGAGCAGTTGCCCAAATTTTCACCTGTAGTAAATTGGATGAGCTGCAGGTCAAGCTATTTTAGTACAGCTATGTACTAA
AATAGCTGGTACAATTGTCTGGCATTTAAGAAGTGAGGAAAAGTAACTATAAGAAATATGGGTTTTGGTGGGTATTACTAAGTGCCATTAATGTCTTGAA
AAGAGTAAATGACAGGCTTAGATCTATTCATTACCAACCTAAAGAGAAGAGACCCTCATACCTGGAGCTGGAAGRCAGACAGCAAGGAAGGTCTGGTACA
GACCTGATTTTATGAATCGCAGAACTTCAGAGAACACTGAATTCTAAGCTCAGGATGGTCTCTTATGCCAAAGTCAAGGCCTTCAAACTCAGCATGGGGC
TATCTAGGTAGATGTACATGAGAACTTTGAACTCCAGATGCCCCCTGAACCTACTGGGTTTGCAGAAAAGTCTTTCTGCCCCTTGTTGGAAGAGAGAGCT
ACCACCCCCACCCAACTCCCGATTTTTCTAGAATGAAGACTGTATAGAGACCGCTCAGGACAATGAAAGTGAACAATCATGGGGAGGGCAGCAAATGAAG
AGAGCATTTATCCTCCGAAGGAGCTGTAGGACTGGCCAGCGTGCATCAGCAGGAGCAAGGAGATTGTGTCTGGGAGTGGATCCTGGTCCAGGAAGGGTGA
AATGTGAAACCAGATAAGTGACGATTATTGGCAAAGGGGCAAGCTTCTCTACCACAGAGTTTAACTAGCCTGGCTTGGGCCAAAGGTGATGATTCTGATA
TACTCCTGGGTGGCTCCTAGAGACTAAGTATAAGCCATGGTACACATTAAATCAAGTGGAAGCAGAGATACCAGAACTACTGTGGCAGAGTCTGGAAAAG
TGGGTCCCAAGGATAGAGAAGTTGGTGTGCTAGAATGACTCTGCACTCTACAACTGGAGAATCCATCCATCAGGTGACTGAGTTCCTCCAAAGGGGACAC
TACTAATGTGTCTCAGACACTAACTAAGGTGAGAAGGAATGCACTGTTGAGGGGGCAGCACATCCTTAAGAAGCTCAATGGTGGCTGTCCCCTGCAGGCT
GGAATAATGCTAGGGATGTTTTATAGAACTGGATCCCCCAGTAGTGAGTAAAATGATAGAGTTCCAGAATAACAGAGGCCAAGTGGCAGCATTTAACTGT
GAGGACAAGATAAAGTAATTTCCATAAGGGGCATCAACGTTAGAGTGACAACTGGGAGGCCTGACCTGTAGGTGTCCATGAAGATGGCTCTTAGGACATG
CTGTTCCTCTAGGCAAGACACATATTGCTTTAGACATATAATCAAAAGAGATTGAAAATAGATGAGCAGAAGGCTGAGGTCAGCTATCTAAAGGTAAAGT
CTTAGACCCCTTGCCCAGCTTCCAAACCTCAGCCAGTTCTCAGTGGAATCCAGAACTCACTGATGGAAATGAGGGCAGTTTCTCATAAGGAAGAACCTTG
TAAGTGTGCGCATCACTGATTCCCTCAAGTTTTCACGGGAGGGCTCTATGGCCAAATTTTTTGAGTTACTCACATGCCGGGGAAAGGAAAATACACAGAT
CTTTCAAGGGATGTTGAGTACAATATCACAGTTGATGCTAATCCCTGAGGACTCAAAGCCCTTTCGTAGCCCCTGTTAGAGTAGAGTACGTGGAGGTGAG
GTAATGTCCATCTCACAATGGGCCCTCTGGATCCACAGGCCACCCAGCAATCATTTCCCCATTTCCTGAATGTATAATCAGGATATACATTCATACATAC
ATCATAAAATATAGCAATTGGCTGACCTGGTTCCTTAACCTCTGGTTTCCTAACCTATGAAATAACAATGACTGTTTTAGGGAAGGCCAAGCAGAAGCCT
CTGAAACTGAAGTTTCATGGTGAAAACAAGTAAGTTAAAAGCAATATCACATTCTTGGGGAATGATAGAGATTAGTGCCACCTACAAAGACATGGAGGAG
GCAGGGGTTGTTACCCCAGTTACACCTCCATTTTAATTCAGCAGTCTGCCCTCTGGTATCTCCTGGTGGTTCATGCTGCTAAATGGCTCCTAAAACTTAA
CCAAGGAGTAGCCCCTATTACAGTTGCTGTGTCAAACGTGGTATCTTTATTATAACGGGTTAGCACAGCCTTAGCAAGTGATATGCAACTATTAATACGG
AAATGCCACTTTTAAAGGATCCGGCAGGATGTAGGTTGAGAGGAAATTCACATTCTCAAGGATTGGACAAGAGTATATCTTTACAGTCTTGCTCCAGGGC
AAGGTGAATCCTGCTCTGTGTTACAATATAGGCTTTCTGGACACTCTGCAATACATTACATTGGTCAACTGTATTGATGACAGTATGTTCATGAGCCTGA
TAAGCGAGAAATGTTGACTATTCTGAATGACTTAGTAAGTCATAAACACTGCAGATGGTGGGAGAAAAACGTTACAAAGATACAGAGATATGCCATATAG
GTAAGCTTTCAGGGGTTCAATGGTCTGGAACGTGTCAGAGCATCCCCTCCAAAGCTCCAAGCTGTTGCACTTCATACCTCCTGCCACTAAGAAACCCAGA
GCTTGGTGGTCCTCTCCAAGTGAGGAGAATCACCGTGGTTGACATTCTGATGAAAGTGATTCTAGGCTTTGTAATGTGGTTGTGTGTTTGGGAGGCAGGG
AGTGGGGAGGCAGTGGGTATACCATCTTCATAAATAAAAATGTGCTAATCAATGTTTTTCACTTAACAATATAAGATGGACATTGTCACATCAGTAAATA
CAGCTCTACATCATCTGTGCCTTACCTTTCATTTATCCTCAAAACTGGATGACAGTTGGCTCTTTGATTATTTTTGGTCTGGTAAGCATAGTAATTTGTA
CTGAGGGGCAGCACAGACTAGCATTCAGTAGCACAGCCTCTGTAAGTGGAAGCCCAGTTCCTGCACTTCTCCACTTGCTGACGGTGTGTCCTTGGGCAAC
CTACTCATCCTTCCCCTGTACTGTTTCATCTGTAAAAAGGAGATACTAGTAGTAAATAGCTCACTGGATTATTGTGAGGATTAAAGAGTTAATATTTATT
ATGCACTTAGAAAGTGCTGGCCCTCCATGCAATACATATGTAATAAACAAGCAAACTTAAAAGATTAACATAAACACCTTTGTATCAATTCAGGCTCTTT
GCTGTCAAGAAAAACCCAATATATACCCAAAAGAATAGAAATCATTCTATGATAAAGATACATGCATGTGTGTATTCATTGCAGCACTATTCACAATAGC
AAAAACATTCAATCAACCCAAATGCACATCAGTGATAGACTGGATAAAGAAAATGTGGTACATATACACCATGGAATACTATACAGCCATAAAAAGAAAC
TAGATCATGTCCTTTGCAGGGGCATGGATGGAGCTCGAAGCCATTATCCTTAGCAAACTAATGCAGGAACAGAAAATCAAGTACCATATGTTCTCACTTG
TAAGTGGGAGCTGAACAACGAGAACACATGGACATAGGGAGGGGAACAACACACTGGGGACTGTTGTTGGGGGCAGGGGAAGAGAGAGGATCAGGATAAA
TAGCTAATGCATGCAGGGCTTCATACCTTGGTGATGGGTTGATAGGTGGTGCAAACCACCATGGCACACATTTACCTGTGTAACAAACCTGCACGTCCTG
CACATGTATCCCAGAGCTTAAAATTAAATTAAATTTAGAAAAAAAAAGAAAAGAATCCAATCACAAAAGACCACATAATTTATTATTCCATTTATATGAA
ATGTTTAGAATAGGTAAATCCATAGAGACAGAAAGTAGATTGATTGGTGGTTGCCTAATGCTGGGAGGTTGAGGGGAAATGGGTATGTGGTTTCTTTTTA
TGGTGACAAAAATGTTCTGAAATTGATTGTGGTGATGTTAAAAAGCCCTATGAACATACTACATAAATTTGAATTGTACAATTTAAATGGGTAAATCGTA
TGGTATGTTAATTGTATCTCAATAAAGCTGTTAAAAAAATAAAAAAGAGAGAGACCCAATTTATCTAGGGTAGACAAAAGTTACTTCGATGATGATATCA
CAGTGCCTCACAGAAAGGGCCGGAAGGCAGGGTTACAGAGTTGGCAAATGGCCCTGGAAAAGGGCAGGAATCAGAGCATTTCCAGGCAATCATGCAACAG
GAATGACACAGCCATTCCCTAAGGATGTTAAGATTTTACTAAATGTTGTTGTTGATTTTTTTAACCTCTCACAATACTTCACTCAAAAGCTCAACTCCCC
GCAAACAGCATCTGGCTGGCCTGGCCTGCTCAATGGCCAGCATTGTGATTAACAGCCCCTCACTCCTACACCCAGAAGGGAGAGCTCCTTCACCCAAAGG
AACCAGGGACTGTTAGGCAAGGGGGATGGAGGAGGCTGGACAGCCAAGGAAATCACAGCTGACTGAGGAAACCCACCTGGGACACTCACAGCCTAGACCA
CTGCTGTCTAATGGAGGAATAGGGGCAATTCCAGGCCAGTCAGAGAGGTGGAATTGCTGGGGGATGCCAAGTTCCTTGGGTACACAGGAGCAGGTAACTG
TTTCGCCATTGTCCTGTGCTGCGGAGGCAAAGACTGAGTTGGTCACTGTTCATCTGACATGAAACTACCCCTTACTACATTATATCAACACCGAGATATT
TCTCTCCTGAAATATTTGTTCACATTTTCCCCTGAACCCCGTGGTGTGTGGGACTGAAAGAGTCTACACTGGTTCATACAAGGACGGCACACTCCATGGT
CGTGTAGTGTGGCCCCAGGAATGTTAAGCTGGAAACTAGGGTATGGTGTGTTCAGGGAAGGGGGTGACTCCTCTGCTGAGACACTTGATTACATCTTTAA
CTGTGTCCTGCTGGAGCTGCTGGGAAGGTGGGTAGGACCACTTTCCATCCCCTGATCACCTCATCCTCCAGAGGGTTCATCCACAGTTGCCTGAGTCTGG
ATGGGGAGGAGGATGTAGGATCTCAGCCTTGAGATCTCAGGACCTTGAGTCTTGGCCATATAATGATGTAGCCACCACTTCTGGCTCTCTCTGGTGTCTG
TTTTCACTCCTCTGAGTCTCACAGAATGGGATTGTGCCCATGACTGGTGCACTCTGCATGCCAGTGGATAGGTCTGCTCTTAGATGTTTTTGTAACGTCT
GTGTCAGTACATGTGGCCCAGAGTGCTGTACAGGAGCTGGCTGGTGCTTTTTGTTTTGTGCTTATTCAGGAAATACAAGAAATAACTCCTGGGTTCCTGC
ATTGTGCCATTGTCTGAATGATAAATGGTAAATCCCGGCCCCACTTCCTCATGCACCCCCCAGTGGGGAAGCACCTAATTTCCAATTCTGGATTCTTACA
AGCACAGCTCAAGACTATCATTATTGTCATCACAGCTCAGCCTGGAATCCAGGCTCT


SNP Information

Context             (SEQ ID NO:17880):
AAAATACATACCATTATAAATTGTCAACTTACAGTTTTTATTTTTTAAAGACAAGAGTCCTGATCATTCTCAGTTGAAAGGTATCTAATGACACTAATGA
W
AAGGAACATCGTTTTTGTCTTTATTACTTTTTTCCAGTATAAGGATTTTGGCCAAATGGGACTTAGACTGGAGGCTGAATTTGAGAAGGATTTCAAGGAA
Celera SNP ID:            hCV25929392
SNP Position Genomic:     81486
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,36)   caucasian(T,38)   total(A,2|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:17881):
AGAGTACCATTGGATGAGTTCTTACAACCACACTTTTCTGCACCATCGAAATCTTTATCAAGATACAGAACATGATCATCACCCTGGAAAGGTTCCTTAT
R
TCCTTTCTGGTATATCTCCACCCACTACCTATCAGGGCAATCACTACTCTTTGTTTTTCCATGATAACTTAATTTGGGTTTTTAAAAAACTTTATATAAA
Celera SNP ID:            hCV8698509
SNP Position Genomic:     59355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17882):
TTATCTTTCAGGAAGGATCTCTACCTAATCCTCCAAGAATATATTACAGGAACAAAAAGGTGATTATTACATAATTTTCTACAGATTCTTGTCACACAAC
W
GATTTAACATGTACAACATCTTATTTTATGGAGTCTCCAATTGGGTAACTATAATTAAGCTTTCACCTTCTCCACTTCCCACATATAAATTTTTTTAATA
Celera SNP ID:            hCV25930872
SNP Position Genomic:     72229
SNP Source:               Applera
Population(Allele,Count): african american(A,26|T,8)   caucasian(A,30|T,10)   total(A,56|T,18)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17883):
AATAAGTGGAGAAGCAAACGATGCTAACAGATTGCAAGCTCAATATTGTTGTCAGCTCCCCCAAATTTATCTATAGTTTCAAATCAAACCCAAGAAAAAT
M
CAAAAGGCTTTTCTCATAGAAATTGACAAATTGATTTGAAAAGATATGTGGAAAATCAAAGAATCTAGAAAGTCCAAGACAATCTTTTCTAATTGACTTC
Celera SNP ID:            hCV27884526
SNP Position Genomic:     34248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17884):
TCAACAACAAAAATGAACAAACTAACTGTTCAACACAGCAACATAGATGATAAGCAAAAGAAGCCAGACACAAAAGCATGTATATGTTTTGCTCATTTAT
R
TGAAATCCAAGAGCAGGCAGTATTAACATCTGACAGAATAAATGACAGCAATGGTTGCCCCCTGAGAGGCTGCCTGGCTGCATGTGTTCAGTATGCAGGT
Celera SNP ID:            hCV27884527
SNP Position Genomic:     35239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17885):
TCTGACCAGAAAAGAGATGGAAATCCTATCTTTTCTCTAGTAACGAGTTTATAAATAACATTACGTAATCTTTTTATTTTATTTCATTTTTTTGAGACAG
R
GTCTCACTCTGTCAACCAGGCTGGAGTGCAGTGGCACAATCCCGGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCGATTTTAATCTTTTAAATTTTTT
Celera SNP ID:            hCV2914974
SNP Position Genomic:     6813
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17886):
TTTAAAAGGAAACGGCAGCGATTTCTGAAATTCAGATGCCTAAAATGATTAACTGTATATAGCAATAGTATGGACAGATTTATATTAACACAAAGCAGAA
Y
CAGATGTTCCAGGAGATATCACTGATATTCTCATGAAATTCTCAATAATGTGGTATTATTATCATTATTAAACCACATTGTATTATTTATGAATTAATTT
Celera SNP ID:            hCV27884528
SNP Position Genomic:     35946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17887):
CACCACCACGTCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTTGCCAGGAAGGTCTCAATCTCTTGACCTCATGATCCACTCGC
Y
TCGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCGCGCCCGACCCCCATTCTGATTCTTGATCCTGTCTTTCTATGTCACCTGTTTTGCCTCTC
Celera SNP ID:            hCV2914975
SNP Position Genomic:     12137
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17888):
GACCACCTATTTTATATATGTTGGTTCTTCATAGCTTATCCGTTATACATAAAATCTTACCATCTCCACAAACATCTCAGAATCTTGATGACCATTTTCA
Y
TTGGTGTCCTTTTTCCTTAGGCTGTTCACGGAAGACCAGGATGTAGATGAGGGACTTGTCTATGACACTGTATTCAAGCACTTCAAAAGACATAAGCTGG
Celera SNP ID:            hCV25926706
SNP Position Genomic:     36517
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,3|T,37)   total(C,6|T,72)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17889):
TTCTATGACATTTTCTCAGGACCTTCATTTCTTCTAGTGATTTAAAAATTTCTGCCATGATATTTTTAATTTCCAAAAGCCCTTTTAAAAAGTTGTTTCT
Y
GTTTATAGCATCTTGTTGTTGTTGTTTCAAGAAATCCAATATTTTCTCTCTCCTAATGAGGATGATGATTTTTAGAATTGCATCTGTTCCTTCCAGGTTT
Celera SNP ID:            hCV2914977
SNP Position Genomic:     12635
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17890):
TTTACTAGTCAAACTTAGTCAATTTCAGAGCAGTGAAATCTAAAAAACAGCAAACCCATTAGAAGCCAGAGTTGTAAGTTGATTGTATTCATATCATAGA
W
CTTATCTGTCCAAGTTCTAAAGTTGTTTTCCTCTGTGTTTTATCTGATTTTCCTGGGAATTCCTTTGCCTTAAATCATTGGCTAATTAAAATGGCTGGAC
Celera SNP ID:            hCV25924748
SNP Position Genomic:     64215
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,32)   caucasian(T,40)   total(A,4|T,72)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17891):
TTGTCTATGACACTGTATTCAAGCACTTCAAAAGACATAAGCTGGAGATATCAAATGCAATAAAAAAGACATTTCCATTCCTTGAGGGCCTCCGCGATCG
K
GAACTCATCACAAATAAAATGTTTGAAGTAAGTAAAGTTTATTTCACAACCTGGCAGATATGCTTTCATATTTTACAAGTATTTCTGTAAGTGCTCCTGT
Celera SNP ID:            hCV25927437
SNP Position Genomic:     36673
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,37|T,3)   total(G,72|T,6)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:17892):
ACATTCTTATCTGTGCCTAATCTAGAACGTCTAAATTGTCTTTATTTTTGCAGCCTGTTGCAACAGTTCCTTTCCACTAAGGGGTGGGTCCTTGAGCTAA
M
CTATTTGGCCCCATTTGTTTTGCTTTTAGCTACCTGCAAGTAATTATGTCTTGTTCCCTCACTAACTGCCTACCACCTGTTTCATGAGAATCTATGAGGA
Celera SNP ID:            hCV2914979
SNP Position Genomic:     15124
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,9)   total(A,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17893):
CCAAATTGTCTTTTTAGGGGGCTGAACGGAGGTGTTTCACAAGTAGCAAATGAGATGAACCATCTTCCTGCACACAGCCAAAGTCTGCAAAGGTGATGAA
R
AATTACAATTTGTTTTAATTTGTATTTTCCTGATAATGTGGAAAGCTGAACAGCTTTTCATGTTTCTTGGCCACTGAAATTTCCTCTTCCATAATTTTTT
Celera SNP ID:            hCV27154538
SNP Position Genomic:     7570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17894):
TTGCCAGGAAGGTCTCAATCTCTTGACCTCATGATCCACTCGCTTCGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCGCGCCCGACCCCCATT
Y
TGATTCTTGATCCTGTCTTTCTATGTCACCTGTTTTGCCTCTCTGAAACTTTCTGGCTCATCTCTTTAATCCCTTGATTCTAAATTCTCATGATGGTTTG
Celera SNP ID:            hCV27154539
SNP Position Genomic:     12194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17895):
TCTGTTCATGATAAAATTCCCAGCATATTAGGAATAGATAGGAACTCAGCAAATTAGAAATAGATAGGTAGGAAAGTCATATGACTACCTTGGTAGATGC
R
TTTGATAAAATTAGTAGTTCATGATAAAATTCTCAGCAAGTTAGAAATAGGTAGGAATGCAAAGCACAGTGGCTAACAGCTGTGATCCCAATTCTTTGGG
Celera SNP ID:            hCV2914902
SNP Position Genomic:     33160
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17896):
CCAGACCCTGGGGCCCCAGGGGGTCACTAAAGTGCTACTTCCACTGAAATGATAAATTTCAAGGCTGAAGATAGGCCATTGCTGTATAAAGGGTATAACC
Y
GTAAGTGATTTAGCTGATCTTCCTCTGGCTACACAGAAAGCCACATGTTGCACACTAAGGTTGAACCAGCGTTGTGGTTAGAGATCTGTGTCCTAAGGCT
Celera SNP ID:            hCV25927005
SNP Position Genomic:     67656
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17897):
AATGGCAATAAGGAATTTGAAAAGCAGTATCCTTTAAAGTAGCACCAGAGAGAATAAAATAACTAGAAATAAATTTAATGAAAGATGTGCTTGATTTTTA
M
AATTAATCTAAATAAGTGGAGAAGCAAACGATGCTAACAGATTGCAAGCTCAATATTGTTGTCAGCTCCCCCAAATTTATCTATAGTTTCAAATCAAACC
Celera SNP ID:            hCV2914904
SNP Position Genomic:     34137
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,14)   total(A,14|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17898):
AAAGATATGTGGAAAATCAAAGAATCTAGAAAGTCCAAGACAATCTTTTCTAATTGACTTCAAGACTTTCTTTAAGCCATGGTATTCAACACAAAATCAT
R
TCAGCATAAGGATAGACAAACAGATCAATGGTATGGCATAGAAAGTACAGATATAAACCCATGTTCATATTGTAAATTGCTTTTTGAATATTTTCGTGAC
Celera SNP ID:            hCV2914905
SNP Position Genomic:     34388
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,11)   total(G,3|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17899):
TTAACATGTACAACATCTTATTTTATGGAGTCTCCAATTGGGTAACTATAATTAAGCTTTCACCTTCTCCACTTCCCACATATAAATTTTTTTAATATAC
R
CTTTCAGAGTTACTACTTTGAATACTTTGTGTATATAAAGCTAGGTCCTCTTTGGATTAAACCGTATCAGATGGAGATGCTGAGGAGCCCTCAAAACAAA
Celera SNP ID:            hCV25931463
SNP Position Genomic:     72333
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,7)   caucasian(A,30|G,10)   total(A,57|G,17)
SNP Type:                 INTRON


Context             (SEQ ID NO:17900):
AAGCACTTCAAAAGACATAAGCTGGAGATATCAAATGCAATAAAAAAGACATTTCCATTCCTTGAGGGCCTCCGCGATCGGGAACTCATCACAAATAAAA
Y
GTTTGAAGTAAGTAAAGTTTATTTCACAACCTGGCAGATATGCTTTCATATTTTACAAGTATTTCTGTAAGTGCTCCTGTAAAGTAGAAAAGGAGAGGAG
Celera SNP ID:            hCV25927874
SNP Position Genomic:     36693
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,3|T,35)   total(C,4|T,72)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17901):
ACAGGTGCACACAACCACATCAGGCTGATTTTGCTAAATTTTTTTCAGACACAAGGTCTTGCTATGTGGTCTAGGCTGGTCTCGAAATCCTAGGTTCAGG
M
GATGCTCCTGCGTCACCATCCCACAGTTCTACGATTACAAGCATGAGCCACTGCACCTGGCCAGTTTTCTCTTTTATAATGGAATCTCTCTAGGACTTGA
Celera SNP ID:            hCV2914909
SNP Position Genomic:     39922
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,9)   total(A,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17902):
CAGAGTGAGTACTCAGAAATGTCAGATATTTTTTAATGTACTGAAACAAGTTATAACCTCTTCATTACACATCTACTTAACCCAGAATGCTCATTATTTT
R
TTCAAATCTTTAACTTGATTTAATTTTGACTTACTGGACTTGTCAACTTCTAACAGAGATGCCTTAACATTTTTTTACTACAATTGTGAGTTTTTCAGTT
Celera SNP ID:            hCV2914980
SNP Position Genomic:     15376
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17903):
TCCAGATATGGTTAGGTGAAGATATCTTTACAATGACTTTGTTCAGTTTAGACTGGGCTTTTTCAGTGCCCTCTATATTAGTCTTGCATAGGCTCCATGA
K
ATCTTCTATTACATTTTTGTTTGTTGCTTCAATTCCATTTATTCTGGGCTCTACTGAGGACCACCTATTTTATATATGTTGGTTCTTCATAGCTTATCCG
Celera SNP ID:            hCV25930233
SNP Position Genomic:     36358
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,34)   caucasian(G,9|T,31)   total(G,13|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:17904):
TTTGATCTCAACCCAGTTCTCCAAATAAGAGATAGAGACATCACAAGAAAAACAGGGACATGCCCTGAAGAGGGTGGATGCTATGGGGACTGGAAAGAGT
R
AAAGCATGTCTGCAAAACAGGACAAACTGGATTTGGCTAAATCACAGAGTGAGAAGCAGTATAGGAGCTGACTTAAGAGAGATCAATTGGAGGAAGATGG
Celera SNP ID:            hCV11740640
SNP Position Genomic:     38939
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17905):
TCTACCTTCTATGACATTTTCTCAGGACCTTCATTTCTTCTAGTGATTTAAAAATTTCTGCCATGATATTTTTAATTTCCAAAAGCCCTTTTAAAAAGTT
R
TTTCTCGTTTATAGCATCTTGTTGTTGTTGTTTCAAGAAATCCAATATTTTCTCTCTCCTAATGAGGATGATGATTTTTAGAATTGCATCTGTTCCTTCC
Celera SNP ID:            hCV27154540
SNP Position Genomic:     12629
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17906):
ATTTCCGGGGCCAATTTTTTTCAATAAGCATATGTTTGAGCTCCTACCATGTGCGATACATTGTGTTGGGCAGTGGGCATAGAGTAGTTAACAAAATAGA
Y
GTGTCATGAGTCTTCTTGAAGCCCATGGTATATGGCTATGGCAAAACAAACATCTGGAGGTCTGCTTCACTGGCCACTTAGACTCACAGGACAACCAGAG
Celera SNP ID:            hCV11740641
SNP Position Genomic:     37993
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,11)   total(C,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17907):
TTATGTGTTTTTAAGCAACAGTTTTTATTTTGTATTTGCTTGATGTTGATAGCGAAACTATAACAGCCTTATGAAATAATTGAGGGTGATTAAAATTATA
K
GTATATATATATATATAAATGGTTTCTTTAATACAGACATTACCTGTTCCTTGAAGGATTGCTAAAAATTGTCCATTAAATGATTTGAAACCAATGTCTG
Celera SNP ID:            hCV27154541
SNP Position Genomic:     13444
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,7)   total(G,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17908):
AATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTG
K
CTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTAATGCCTATGTTTTCTTCTAGGGTTTTTATGGT
Celera SNP ID:            hCV27154542
SNP Position Genomic:     16252
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17909):
GTTGTAGATACGCAGCGTTATTTCTGAGGGCTCTGTTCTGTTCCGTTGATCTATATCTCCGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCC
Y
TGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCAATGCGGGCTCTTTTTTGGTTCCATATGAA
Celera SNP ID:            hCV27154543
SNP Position Genomic:     16630
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17910):
TATATCTCCGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCCTGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTT
K
GGCTTAGGATTGACTTGGCAATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAGTTCTGTGAAGAAAGTCATTGGTAGCTTGAT
Celera SNP ID:            hCV27154544
SNP Position Genomic:     16681
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17911):
GTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCCCCAGAGGTGGAGCCTAGAGAGACAGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTCG
M
GCTTCCCGGCTGCTTTGTTTACCTAAGCAAGCCTGGGCAATGGCGGGCGCCCCTCCCCCAGCGTCACTGCCGCCTTGCAGTTTGATCTCAGACTGCTGTG
Celera SNP ID:            hCV27154545
SNP Position Genomic:     20760
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17912):
GGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTCGCGCTTCCCGGCTGCTTTGTTTACCTAAGCAAGCCTGGGCAATGGCGGGCGCCCCTCCCCC
R
GCGTCACTGCCGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATCAGTGAGAGTCCGTGGGCGTAGGACCTTCCGAGCCAGGTGTGGGATATAATC
Celera SNP ID:            hCV27154546
SNP Position Genomic:     20820
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17913):
GCAAGCCTGGGCAATGGCGGGCGCCCCTCCCCCAGCGTCACTGCCGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATCAGTGAGAGTCCGTGGGC
R
TAGGACCTTCCGAGCCAGGTGTGGGATATAATCTCGTGGTGCGCCGTTTTTTAAGCCCGTCGGAAAAGCGCAGTATTCAGGTGGGAGTGACCCGATTTTC
Celera SNP ID:            hCV27154547
SNP Position Genomic:     20887
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17914):
TTTTCTTTCTCTCTTCTTCTGTAATTTCCATAATTTGTATGTTGTTTCACTTGATGGTGTCCCATAAACACAATAGGCTTTTTTTCACTCATTTTCATTC
T
TTGTTCTTTTTGCTCCTCTAAGTAGATAATTTCAAATGACTTCTCTTTCAGTTCACTGATTCTTTCTTCTGCTTAAGTAAGCTGTTGGAATTTTCTGTTA
Celera SNP ID:            hCV27154548
SNP Position Genomic:     25311
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17915):
TTTCTTTCTCTCTTCTTCTGTAATTTCCATAATTTGTATGTTGTTTCACTTGATGGTGTCCCATAAACACAATAGGCTTTTTTTCACTCATTTTCATTCT
T
TGTTCTTTTTGCTCCTCTAAGTAGATAATTTCAAATGACTTCTCTTTCAGTTCACTGATTCTTTCTTCTGCTTAAGTAAGCTGTTGGAATTTTCTGTTAA
Celera SNP ID:            hCV27154549
SNP Position Genomic:     25312
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17916):
AACAATGGTGTTACCAGTGGGCTGGTACAGGTTCTTGTCTTCACCCCAGAAAAGAATTTGAAGGCCAGACCAAACTGAAAGTACAGAAGATTTATTGCAG
M
GTGAAAGCAAGTACATACTCAAGAGAGGATTGTGAGTGTGCTCAAAAGAATAAGCTGAACCCAATATGGCCAGGACTCACATACTATACAGATAAGCATA
Celera SNP ID:            hCV11740649
SNP Position Genomic:     14662
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,14)   total(A,1|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17917):
CTTTATCCAGTCTATCATTGATGGGCATTTAGGTGGATTACATGTTTTTGCTATTGTGAATAGTGCTGCAATGAGCATACATGTGGTTGTATCTTTATAA
Y
AGAATGATTTATATTCCTTTGGGTATATATCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGCCTCTAGGTCTCTGAGGAATTGCCACACTGTCTT
Celera SNP ID:            hCV9169949
SNP Position Genomic:     22298
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17918):
CTTTTCTGCCCTGTTAATAAGAAAGGATCATGCTGGTGAGAAACGGAAGTTACTCTTAGCTGCATAAGTTTTCAAGTTTAATCTGGTTAATGTTACTTAG
R
GTGTTTAAGATAAGAGTCCTACTTAATAATAGTGTATTTCACACTTCAACATTGTTAAGAGAGTAAATATCAAATGTTCTCACCACAAAAAATGATGGCT
Celera SNP ID:            hCV25931540
SNP Position Genomic:     81203
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,36)   total(A,1|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:17919):
GACATCAAACTAAGTCTTAAACAAGGTAAAAATGACAGAATAAAAACGGTTTCTCATCCGCTAAGAGGAAAAGGAGACAAGGGAGGTGAGGGCCCAAGGT
Y
CTGAGGGGAAATTGTGAAACAGGGAAGACACAGGGAAGGACCATGGAGAAGTCAAGGAGGGGGTTGTATGAGCTCCTAATCAGATGCAGGGTCCTGGAGA
Celera SNP ID:            hCV2914910
SNP Position Genomic:     40506
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17920):
TGTACAAATATTTCACCTCCTTGGTTAAATTTATTCTTAAGTATTTTCATTGTAAATTGGATTGTTTTATTGATGCCTTTTTCAGATAGTTCATTGTTAG
Y
GTATAGAAATGCAACAGATTTTTTATGTTGATTTTGTATCCTGCAACTTTACCAAATTTATTAGTTCTAGCAGTTTTTTGGTAGAGTCTTCAGGGTTTTC
Celera SNP ID:            hCV2914911
SNP Position Genomic:     43191
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17921):
TTGGGAAGAGGTTGGAAATGCCAGACTCACAAAACAGAAACGCAGGCTGACTATGTACCTTGGTCTTTTTATCTTTCAGGAAGGATCTCTACCTAATCCT
Y
CAAGAATATATTACAGGAACAAAAAGGTGATTATTACATAATTTTCTACAGATTCTTGTCACACAACAGATTTAACATGTACAACATCTTATTTTATGGA
Celera SNP ID:            hCV25930383
SNP Position Genomic:     72161
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,18)   caucasian(C,25|T,15)   total(C,41|T,33)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:17922):
ACTATTTTGTTGAAAATTTTTATCATGAAAAAAGTTGAATTTTGTCCAATGCTTTTTCTGCATCTATTGGGATAATCATATAATTTTTGTCCTTCATTCT
R
TTAATGCAACGTATGACCTTTTAAGATTTGTGTGTTGAACCATCCATGCATCCCAGTGATAAAGCTTACTTGATCATGGTGAGTGTGCTGTTGAATTTGA
Celera SNP ID:            hCV2914912
SNP Position Genomic:     43654
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17923):
GTCTATGCTGGGGCAGGCCTTGAGCCAGAGTCTGCAGGGATCTACACCACTGGTGCAGCCATCTTCAGGCACTTCAGTGAGCCTGAAGACCAGTGCATGA
R
AGGCAGCTTGGTACTGGGATGAGACTGAAGGCCAGAGCCACTGGTAGTAGTCTGGGTTCACTGAGGCTGAAGTAGTGCTGGGGCAGGCTGAAGACTGCAT
Celera SNP ID:            hCV2914913
SNP Position Genomic:     48038
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17924):
ACAATCTTGGCTCACTCACTGCAGCCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCACGCCACCAC
R
CCCAGCTAATTTTTGTATTTTTAGTAGAGACAGAGTTTCACCCTGTTGGCCAGGCTGGTCTTGAATTCCTGACTTAGTGATTTGCCCACCTCAGCCTCCC
Celera SNP ID:            hCV2914914
SNP Position Genomic:     48664
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17925):
CTGGGGCCCCAGGGGGTCACTAAAGTGCTACTTCCACTGAAATGATAAATTTCAAGGCTGAAGATAGGCCATTGCTGTATAAAGGGTATAACCCGTAAGT
R
ATTTAGCTGATCTTCCTCTGGCTACACAGAAAGCCACATGTTGCACACTAAGGTTGAACCAGCGTTGTGGTTAGAGATCTGTGTCCTAAGGCTTTTTGGC
Celera SNP ID:            hCV25927016
SNP Position Genomic:     67663
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17926):
GAGTTTCACCCTGTTGGCCAGGCTGGTCTTGAATTCCTGACTTAGTGATTTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGC
R
CCCTGCCACTTCTTACTGTTTTCAAAGAACATTAGTATTTTCTGGAATGATAAGAGCTTTTTAATTTTTTCTATTTTACTCTCAGGACTACAAGTAGAAA
Celera SNP ID:            hCV2914915
SNP Position Genomic:     48797
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17927):
ATGTGTGTGACCTCTAGAAGCTGAAAAGACAAGGAAATAGGTTGTCCTCTCCAGACCCCAGAAAGGAATAAAGGCCTACTAACATAATGACTTTAGGCAG
W
GAGACCTGTGTCACACTTCTCACTGACATAACTGGAAGATAATAAAATACAAAAATAAAAATAAAATAACTTTTTTGTTTCTCATTAGTATCTGGTGAAC
Celera SNP ID:            hCV2914916
SNP Position Genomic:     49187
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,7)   total(A,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17928):
GTCACACTTCTCACTGACATAACTGGAAGATAATATATTTGTGTTGTTTTAAACCACTAAATTTGTGGTAATTTGTTATGGCAGCAATTAAGAGTAATAC
R
GATTTTAGTACTTGGCAGTGGGGTGTGGCTATCACATATTCCTGAAAGTGTTGGGGTGTCTTTGAGATTGCGCAGTGGAAAGAGGTTGGAAGAATTTTAA
Celera SNP ID:            hCV2914918
SNP Position Genomic:     50981
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17929):
TTAAATAGAGTGATAGGAAAATCCTAGATGAAAAAATGGAAATTAAGTCAATTAATAACCCTACAATGGCCTGTAAGTGCTCAAGTTAAAGAAAGAGTCG
S
CCGGGCGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGACGGGCGGATCACGAGGTCAGGAGATCGAGACCATCTTGGCTAACACGGTG
Celera SNP ID:            hCV2914919
SNP Position Genomic:     51178
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17930):
CTTTTCATCCCCAGCTGCTGAGTGGTGGCTGCTGATGCCAGCAGTCCCCAGAGTATTACCCTTCGTTAAATGGAATCAGCTTCACCTGGAAGTGACGCCC
Y
GTGGCCTGAGGCCGGCCCCTTTGCCTCAAAGCAGGACCAAGGGTGTGGTGTGTGGCTACTCTGTGCTCCCAGGTATCAGGCTGGAGCTAGTCTCCAGCTG
Celera SNP ID:            hCV2914849
SNP Position Genomic:     82684
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17931):
AGATAAAGTTGGTACCACTTTTCATTTGCCCTGCAGGTCAATGCACATGTTGAGGTTTTGAGGAGCCTAGAAGCTTTATTGTTTACTAGTCAAACTTAGT
M
AATTTCAGAGCAGTGAAATCTAAAAAACAGCAAACCCATTAGAAGCCAGAGTTGTAAGTTGATTGTATTCATATCATAGATCTTATCTGTCCAAGTTCTA
Celera SNP ID:            hCV25925274
SNP Position Genomic:     64134
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,34)   caucasian(C,40)   total(A,2|C,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:17932):
ATCTGAAGGCATCACAAGAAGTGGTGAAATTATTTGTGTGAATTACACATCATTCAAGGAGTTTTGGGCCCAGTTTAGCTTGAGGGAAGGAGGAAGGGAT
Y
CCTAAGATGACATTTTAAGACTTTAAGAAATCACACCCATTAGACGCTGACTCGCACATGGAGTGTCCAGGGGGTACCCAAAGAACAAAAGAGAAGGCAG
Celera SNP ID:            hCV25924473
SNP Position Genomic:     68885
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,40)   total(C,70|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:17933):
TTCTTTCTCTCTTCTTCTGTAATTTCCATAATTTGTATGTTGTTTCACTTGATGGTGTCCCATAAACACAATAGGCTTTTTTTCACTCATTTTCATTCTT
T
GTTCTTTTTGCTCCTCTAAGTAGATAATTTCAAATGACTTCTCTTTCAGTTCACTGATTCTTTCTTCTGCTTAAGTAAGCTGTTGGAATTTTCTGTTAAA
Celera SNP ID:            hCV27154550
SNP Position Genomic:     25313
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17934):
TCTTTCTCTCTTCTTCTGTAATTTCCATAATTTGTATGTTGTTTCACTTGATGGTGTCCCATAAACACAATAGGCTTTTTTTCACTCATTTTCATTCTTT
G
TTCTTTTTGCTCCTCTAAGTAGATAATTTCAAATGACTTCTCTTTCAGTTCACTGATTCTTTCTTCTGCTTAAGTAAGCTGTTGGAATTTTCTGTTAAAT
Celera SNP ID:            hCV27154551
SNP Position Genomic:     25314
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17935):
GGGTGAAGGGAAGCAGGCACCTCTTCACAAATCAGAGCAAGAGAGAGGGAGTGAGAGACAGCAAAGAAAGAAATGTTACACTTTTAAATAATCAGATCTC
R
TGAGAACTCACTATCATGAGAACAGTATGGGGGAATCCACCCGCATGATCCAATCACCTCCCACCAGGTCCCTTTCCAACACATGGGGATTACAATTTGC
Celera SNP ID:            hCV27154552
SNP Position Genomic:     31226
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17936):
TTATTTGAAATCTCTTATGTGCTCATTGTCCTCCACCATTCTCTTTGTCACTGTAAATCTAATTCCTTTATTATCATTTTAATGAACTTTAACCAGAAAC
T
TTTTTTTTACAGGAATTCAAAACAATAATGCGACATTGTTTCCTGCTTTATGTTGTGTACTGGGAAGTGCCAATAATTCTCTTCTGGTTGGATAAAAAGA
Celera SNP ID:            hCV27154553
SNP Position Genomic:     35634
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17937):
GAAGGATAAATAGTTTTGTTAACCCTTTACCCACAAGGGATAAAAGAAACATTAATCAAATAATCACAAAACTGATTGCTCGGACAGGGACTATACCAAA
Y
TAAAGTTTGGTATTGGTGCTATACCAAACTAAAGTTTGGTATTGGTGCTATACCAAACTAAAGTTTTGATTCTTGACTTTTTTCCTGAGAAGGCATAATT
Celera SNP ID:            hCV27154554
SNP Position Genomic:     38656
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17938):
GGGCATTTTTTCACATACCTGATGGTCATTTGTATGTGTTCCTTTGAGAAATATCTGTTTGAATCCTTTGCCCACTTTATAATCTGTTTATTTGTTTTTG
T
TTTTTTTTTTAGTATGGAGTTGGTTGAGTTCCTTACATATTTTAGATATTAGCCCTTATCAGACATATGGTTTGCAAATATTTTCTCCCTTCTGTAGGTT
Celera SNP ID:            hCV27154555
SNP Position Genomic:     42255
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17939):
TCACTCTGCTGATTGTTTCCTTGCCCATGCAGAAACTTTTTAGTTTGATGTAGTCTCACTTCTTTATTTTTGCTTTTGTGATTGTGTTTTTGGTGTCATA
C
CAAAAACATAATTGCTCAGACCAATGTCATGGAGCTTTTCCCCTGTTTTCTTCCAGTAATTTTGCAGCTTCAGGTATTAAATTTAAATATTTAATCCATG
Celera SNP ID:            hCV27154556
SNP Position Genomic:     42462
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,10)   total(C,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17940):
CTCACAAGGAGACCTCAGTCCCACCACAGCTCAGAAGACATTCCTCCACCTTTCTGAGGGCAGGTTTGACCCCACAGCCTTAGTTCCACCCTTGTGGGGT
R
CATCCAACATGGAGCTGCCTGGTTCCAAATATCCGATGATAGCTGATATTTGTGCTAATGGGGACCCACTGGTGAACACAGGAAGATGCCATCAGGAATC
Celera SNP ID:            hCV11740657
SNP Position Genomic:     902
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,10)   total(G,5|A,10) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17941):
ATTTTGTATCCTGCAACTTTACCAAATTTATTAGTTCTAGCAGTTTTTTGGTAGAGTCTTCAGGGTTTTCTCTATATAAGATCATGTCATCTACAATTAA
R
AACAATTTAACTTCTTCCTTTCCACTTTGGATGTCTTTTATTTCTTTTTCTTGCCTAATTGTTCTGTCTAGGACTTGCAGTACTGTGTTGACTAGAAGTG
Celera SNP ID:            hCV27154557
SNP Position Genomic:     43322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17942):
GGCTGCTCAAGAGTGTGTTTAATTTCCATGTATTTACAAAATTAAAAAACTCTTCTTGTTATTGATTTCTACTTTTATATCATTGTGGTCAGAAAAGATA
Y
CTGATATAATTTCAACCTTCGTGACTTTAAGTTTGTAGCCTAATGTATGATTTATCTTGGAGAATGTTCCATGTACAAGTGAGAAGAATGTATATTTCAC
Celera SNP ID:            hCV27154558
SNP Position Genomic:     44723
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17943):
AAATACATTTTTAATGCCAGAGTTTTCTTTTTGTCATTGTTACTGTTTCTGTTATTATTTGCAATACTGTGGTAGAGAGAATGATGGCCACCCCAAAAAA
Y
GTCCACCTCCTAATCCCTGGACCTGTAATCTGCTATCTTACATGGCAAACGGGACTTTACAGATACAATTAATTTAGAGACCTTGAAATGGGGAGATGAT
Celera SNP ID:            hCV27154559
SNP Position Genomic:     50523
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,15)   total(C,15|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17944):
CTACTAAAAATACAAAAAATTAGCCGGGCGTGTTGGCGGGCACCTGTAGTCCCAGCTGCTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGC
R
GAGCTTGCAGTGAGCCAGGATCGCGCCACTGCACTCCAACCTGGGAGACACAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAGAAAGAAAGAGTCAC
Celera SNP ID:            hCV2914920
SNP Position Genomic:     51390
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17945):
ACAAAGATTTTTGTCTTTATTTTCTTACAAAAGTCCTGCCATTTTTGCTCTTTTAGAAGATTACTACATAATTTGGGGAACCCAGTGAAAAATAAAAATG
R
GGGATCCTTGCTCACAAGTTATTAAGGATTTCAGAACAGTGAAAGCAGAACACTAAACTAAGCACAGAGTCATTTGTGACTGCACAGGATGCATGCTCAT
Celera SNP ID:            hCV29367721
SNP Position Genomic:     27631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17946):
TTCTGTGTCATAATCTCTGGTTTTATAAGGAAAACGTTTTTATTCTGACATATACCCCTTCCTCCTGAACTTCACTGCAGACCAGGATTTGTTCTGAAAT
Y
TCCATGCCATATTTTTCCTTCATATCCCAGGGAGAAGCATATGCCTGTCTATACAGGCTCACACATAAGCAGTGTGTTCTAGATGCCCAGAGGGGTGGCC
Celera SNP ID:            hCV25926875
SNP Position Genomic:     78702
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,40)   total(C,75|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:17947):
AGTCCTGCCATTTTTGCTCTTTTAGAAGATTACTACATAATTTGGGGAACCCAGTGAAAAATAAAAATGGGGGATCCTTGCTCACAAGTTATTAAGGATT
Y
CAGAACAGTGAAAGCAGAACACTAAACTAAGCACAGAGTCATTTGTGACTGCACAGGATGCATGCTCATGAAGCCAGCCCTGCTCTTACATTTAGATCCA
Celera SNP ID:            hCV29367722
SNP Position Genomic:     27662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17948):
TATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCTTGTGCTTGTAGTCCCAGTTAGTTAGGAGGCTGAGGCAGGAGAATC
R
CTTGAACCCGGGAGGCAGAGGTTGCACTGAGCAGAGGTTGCACCACTGCACTCCAGCCTGGGCAATAGAGTAAGACTCCATCTCAAAAAAAAAAAAAAAG
Celera SNP ID:            hCV2914922
SNP Position Genomic:     52963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17949):
ACTGTCTTTTATATCTGTATTGCTTTTTAAGAACATTTAAATCGATTAAGAGAAATCTTCCTTTAACTATTCTCATCTCAAATTGTTCTTTATTGACTCA
K
ATATTCTGTCATTTCAATATTTACATTATTTTATCCAGGTTTTTTTTCGAGACGGAGTCTCACTGTCACCCAGCCCAGAGTGCAGTGGTGTGACCTCGGC
Celera SNP ID:            hCV29367723
SNP Position Genomic:     30350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17950):
AGTTGTTTATTATGGATGATTAAAGAAAGTGGTTTCTTGAGATGGAATCTGCTCCTGGGAAAGATGCTGTGAACATTGTTGAAATGACAACAAAGGATTT
M
GAATATATTAGTTGATAAAGCAGCAGCAGGTTTTGAGAGAATCTACTGTGGTAAAATGCTATCAATAGCTTTACATGTTACAGAGAAATCTTTCATGAAG
Celera SNP ID:            hCV2914923
SNP Position Genomic:     53225
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17951):
TTTGAGCCCTTCAGGCCAAATCAGTCTTGGGGGAAGAGCAGGGGTTGCCCAGCCAACAAAACAGCCACTCATTGATTGCCTGCTACATCTATCCCAAAAA
Y
GTATCAATCAGGCTCTTAAAGAACTTTGAGCCCACTTTTATCCTTCAAAGTTGCTCCTTTTTACATCTAATGTAAATGAGGGTGAAGCAATCAGGCTCAT
Celera SNP ID:            hCV29367724
SNP Position Genomic:     37401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17952):
CAGCCAAAGAACCTAGCAGGGTAGAGGGAAGCCATTTTTCCCTCCCCTGCAAAGCGGTTGGCATCCTGGCACCATCTCCTCTTCTGACCAGGTCTTTTCA
Y
CCCCAGCTGCTGAGTGGTGGCTGCTGATGCCAGCAGTCCCCAGAGTATTACCCTTCGTTAAATGGAATCAGCTTCACCTGGAAGTGACGCCCTGTGGCCT
Celera SNP ID:            hCV2914850
SNP Position Genomic:     82591
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 TFBS


Context             (SEQ ID NO:17953):
GCCTGCCACCATGCCCAGCTAATTTTTTGCATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGAGCCGCC
Y
GCCTTGGCCTCCCAAAGTGCTGGGACGTGACAGGAGTGAGCCACCACACCTGGCCACTCGCAAGACCTTTTATCTGAAAACCAGCCAAGCTTTATTCACG
Celera SNP ID:            hCV2914851
SNP Position Genomic:     82174
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17954):
TTCAATAAGCATATGTTTGAGCTCCTACCATGTGCGATACATTGTGTTGGGCAGTGGGCATAGAGTAGTTAACAAAATAGACGTGTCATGAGTCTTCTTG
R
AGCCCATGGTATATGGCTATGGCAAAACAAACATCTGGAGGTCTGCTTCACTGGCCACTTAGACTCACAGGACAACCAGAGCCACACTGGCATCAGATTT
Celera SNP ID:            hCV29367725
SNP Position Genomic:     38012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17955):
TTGTTGTTTAAATATGGGTTCATAGTAATTTATTTCCTCCATCAAATTTGTATAGAAACTTGTTAAATTCTCACACAAGGTTGTATATTTGCCAATTCCT
Y
CTTATTTTGTTCATTTTCTTTAAATATGTTGAGACCATTAATGACTTTATAACTTCTTAGTGGATTTCTTTTCTTTTATCATTATACAGCATTCTGCTTT
Celera SNP ID:            hCV2914925
SNP Position Genomic:     57649
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17956):
AGTGCCTGCCACCATGCCCAGCTAATTTTTTGCATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGAGCC
R
CCCGCCTTGGCCTCCCAAAGTGCTGGGACGTGACAGGAGTGAGCCACCACACCTGGCCACTCGCAAGACCTTTTATCTGAAAACCAGCCAAGCTTTATTC
Celera SNP ID:            hCV2914852
SNP Position Genomic:     82171
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17957):
CTGGCACTCCTTATGCTTGGGTGACCTGCACTGAGGCTCACTGTCACCTGCCTGGGGCAGCACTGCCCACCGCCCCACCCAGCACAGCAGCCTACCCACC
Y
TCAGGGAGATGCTGAAGTCCACACAGGCTGCCCCTGTGTCCTCTGTTATGTTTATCTGGGAACTGTTCATCCTCCCTGACCCAATTAAGCCAACGTTCTC
Celera SNP ID:            hCV29367726
SNP Position Genomic:     39527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17958):
TATTTTGTTCATTTTCTTTAAATATGTTGAGACCATTAATGACTTTATAACTTCTTAGTGGATTTCTTTTCTTTTATCATTATACAGCATTCTGCTTTAT
M
CATATTGGTGCTTTTGCCTTAAAATCTCTTTTACCAAGTGCTAATGTTGTTATACAAACTTTTTTTTCATATTTTTCACTCAATTTATGTTAAGCCATCT
Celera SNP ID:            hCV2914926
SNP Position Genomic:     57752
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17959):
CTCAGCTCACTGCAACCTCTGCCTCCCGGATTCAAGTGATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGATTACAGTGCCTGCCACCATGCCCAGCTAA
Y
TTTTTGCATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGAGCCGCCCGCCTTGGCCTCCCAAAGTGCTG
Celera SNP ID:            hCV2914853
SNP Position Genomic:     82096
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:17960):
AAGGTCCTGAGGGGAAATTGTGAAACAGGGAAGACACAGGGAAGGACCATGGAGAAGTCAAGGAGGGGGTTGTATGAGCTCCTAATCAGATGCAGGGTCC
Y
GGAGAAGTGGCCATAACAAGACATTGTTGGCTCAATAACCATGAAGGAACCAGAGCCAAGTGTGTCAGTAGGCCAGATTTACAGATGCTAACTACCTAGA
Celera SNP ID:            hCV29367727
SNP Position Genomic:     40601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17961):
TCTCTTGTAACAGCACTTAGCTTTTGCAATTTTATCTGATAATCTTAGCTTTTTAATGAATTTTTATTTGTTTTCATTTATTATGATTCCAGATGTATAT
K
GACCTGTATCTTCTGTGGTAGTGTTGACCATTCTTAATTTGTGTTTTTTTGTGTGTCTCTTTCCTGATTTCTGATGGATTGATATAAAATTCTATATTCT
Celera SNP ID:            hCV2914927
SNP Position Genomic:     57972
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17962):
AGATGAGCAAGGAAGAACCCCCCTAGGCATTCTAAGCCAGAGCCTTGTTCTTAACTCTGTGATATCCAGGGAACCTAATAATAAAAGCAGAAACATAAAA
Y
GCAAATGAGGAAATTTATGCAGAAAGAAAGATACAGAAAAAAAAAAAAGAATAACATGACTGGAGGAAATGGTGGCAACTCAGACACAGAATCCTCATAG
Celera SNP ID:            hCV29367728
SNP Position Genomic:     41584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17963):
TAATGAATTTTTATTTGTTTTCATTTATTATGATTCCAGATGTATATGGACCTGTATCTTCTGTGGTAGTGTTGACCATTCTTAATTTGTGTTTTTTTGT
R
TGTCTCTTTCCTGATTTCTGATGGATTGATATAAAATTCTATATTCTCCCTTTTCCCCCTGCTGGTTTGGAAATTAAAGACAAAATTTCTGTAATCTTAT
Celera SNP ID:            hCV2914928
SNP Position Genomic:     58025
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17964):
AAAAAGTAATAATCCCAACTGTGGAAATGATTTCACTTTTCTGCCCTGTTAATAAGAAAGGATCATGCTGGTGAGAAACGGAAGTTACTCTTAGCTGCAT
R
AGTTTTCAAGTTTAATCTGGTTAATGTTACTTAGGGTGTTTAAGATAAGAGTCCTACTTAATAATAGTGTATTTCACACTTCAACATTGTTAAGAGAGTA
Celera SNP ID:            hCV25931485
SNP Position Genomic:     81168
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,17)   caucasian(A,3|G,17)   total(A,12|G,34)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17965):
TGTTTTTCAAAATGATTATGCCCTCTTGCATTCCCACCAGTAATGTGTGAAGCTTCTCATTGCTCCACATACTCACCAATACTTGATAGTGTTAGTAAAA
Y
TTTAATTTTTTTATAAAGTCTACATTTACCATTTTTCCTTTATAATCTGTGATTTTGAGGTCCTATTTAAGGAATCTTTTCCTAACTCAAGAACCTATGT
Celera SNP ID:            hCV29367729
SNP Position Genomic:     56555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17966):
CTTTCCTGATTTCTGATGGATTGATATAAAATTCTATATTCTCCCTTTTCCCCCTGCTGGTTTGGAAATTAAAGACAAAATTTCTGTAATCTTATTAATC
W
TGCCCCAAACCCCAGAGATGACAAGGATCTTGTAATGGTTTCACTACAAACTGAATACCCCATCTCTACCATTTGGCTATTATTGTTTAATATTTAATTT
Celera SNP ID:            hCV2914929
SNP Position Genomic:     58131
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,6)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17967):
CTGATGGGGTTGACTATCTTTTATATATAACTTAATTTTTCTATTAGGTAACATTTCACAATTATTTTTTAATATCAGCTGCCCATGATTGCACAGATGA
R
AAAATCTCTGTTCAATAATGCCCTAAAACTGAATGAAAAATGTTGTAATAGAAGGTGCATATGTTGCCAGTGTGGCCTCCTGAGCCACAGGGCACCTATC
Celera SNP ID:            hCV15924300
SNP Position Genomic:     70293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17968):
CAACACAGCAACATAGATGATAAGCAAAAGAAGCCAGACACAAAAGCATGTATATGTTTTGCTCATTTATATGAAATCCAAGAGCAGGCAGTATTAACAT
M
TGACAGAATAAATGACAGCAATGGTTGCCCCCTGAGAGGCTGCCTGGCTGCATGTGTTCAGTATGCAGGTTCACAGGCAGTATATGCATTGCTCTGTTCA
Celera SNP ID:            hCV27958326
SNP Position Genomic:     35269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17969):
ATGACACTGTATTCAAGCACTTCAAAAGACATAAGCTGGAGATATCAAATGCAATAAAAAAGACATTTCCATTCCTTGAGGGCCTCCGCGATCGGGAACT
Y
ATCACAAATAAAATGTTTGAAGTAAGTAAAGTTTATTTCACAACCTGGCAGATATGCTTTCATATTTTACAAGTATTTCTGTAAGTGCTCCTGTAAAGTA
Celera SNP ID:            hCV25927460
SNP Position Genomic:     36679
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:17970):
TGGAAGAATTTTAAATAGAGTGATAGGAAAATCCTAGATGAAAAAATGGAAATTAAGTCAATTAATAACCCTACAATGGCCTGTAAGTGCTCAAGTTAAA
R
AAAGAGTCGGCCGGGCGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGACGGGCGGATCACGAGGTCAGGAGATCGAGACCATCTTGGC
Celera SNP ID:            hCV27154560
SNP Position Genomic:     51168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17971):
GGCGGATCACGAGGTCAGGAGATCGAGACCATCTTGGCTAACACGGTGAAACCCCGTTTCTACTAAAAATACAAAAAATTAGCCGGGCGTGTTGGCGGGC
R
CCTGTAGTCCCAGCTGCTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGCGGAGCTTGCAGTGAGCCAGGATCGCGCCACTGCACTCCAACC
Celera SNP ID:            hCV27154561
SNP Position Genomic:     51331
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:17972):
CATGTACTCACTTTAAATAAAAATCTAGAAATGATGAAGTTTAGTGAGGAAGCTATGTCAAAAGTTGACATAGGCTGAAAATTAGGCCTTTTGCAGAAAA
Y
AATTGGCCAAGTTATGAATGCAAAGGAAAAGTTCTTGAAGGAAATTAAAAGTGCTACTCCAGTGAACACTTTAATGATAAAGCAGAACAGTCTTATTGCT
Celera SNP ID:            hCV27154562
SNP Position Genomic:     51590
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,10)   total(C,4|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17973):
AGGAGGAGTCTCTTGTTAGAGGCTAATGGAGCAGGTGACTTTCTCTTGAAGCCAATGCTCATTTACCATTCTGAAAGTCCTAGGGCCCTTAAGAATTATT
Y
TAAATCTACTCTGCCTGTGCTCTATAATTGGAATAAAGCCCAGATGAGAGCACATCTGTTTACAGCATGGTTTACTGAATATTTTAAACCCACCATTGAG
Celera SNP ID:            hCV27154563
SNP Position Genomic:     52200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17974):
ACAAGGTGATTAATGCTATTTCCATGCCTGCTAACACAACATCCATTCAGCAAGCCCATGAGTCAAAGAGTAATTTCAACTAGCAAGTCTTAATATTTAA
R
AAATACATGTTGTAATGCTATAGCTGTCTTTATATATAGTGATTCCTCTGATGAATCTGGGCAAAGTCAATTGGAAACCTTCTGGAAAGGATTCACCATT
Celera SNP ID:            hCV27154564
SNP Position Genomic:     52489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17975):
TGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCACTGAGCAGAGGTTGCACCACTGCACTCCAGCCTGGGCAATAGAGTAAGACTCCATCTC
A
AAAAAAAAAAAAAAGATGTGGAGCCTGATGATGTGACTGAATCGCTGTGATCTCATGATAAAACTGAGTGATAAGGAGTTGTTTATTATGGATGATTAAA
Celera SNP ID:            hCV27154565
SNP Position Genomic:     53048
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17976):
ATTTGTAACTGTGATTTTATTATTCTACTTTCTCAGGGAGAAAGAGAGGCAAACCTGGAACCCACTTTACTCAGAGTGACAGAGCTCCACAGAAAAGAGT
M
CGATCAAGAGGTAAAAAAGAAAAGAGGAATGCACTTTCAATAACTAAACATCTAATTTCCTGTGCTTTATGCTGTATTTTCAGTAATAAACCTATGTCTT
Celera SNP ID:            hCV25925213
SNP Position Genomic:     67349
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,40)   total(A,1|C,77)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:17977):
ATCTGTCAGTCTTTTCATTTATGGTTTCCAGGTTTTGTGTACAATTTACAAATATATTATCCTCCTCATAATTTGAAAACATTTTTACTTGCTTGTAGAA
Y
ATTTGAAATACTTTTTAATGTTTAAATCTATAACACACATAGAATTCATTTATTGGTGTATGATGTGAGATGATAATTAAGAGATATAACCCCAATACTT
Celera SNP ID:            hCV27154566
SNP Position Genomic:     53846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17978):
ATGGAGGCCTGACGTCCCTGGAGTTGAAAGCCCAGTTTCTGACACACAGGCCTGGCAGGCAGGACTCCTTGTGCTCCCAGCAGCTCAGACAGGGAAAGGA
K
AGTCCCCACTCACGGTGACACCACCTTCCTGAGGCTTCCCTCCTGCTGCTACCACTGATGCGAGGGAAAGGCCAGTGGCTGGAGACCCCATGTGCAGTTC
Celera SNP ID:            hCV27488162
SNP Position Genomic:     79441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:17979):
GAACTAATAAATGAATTCAGTAAAGTTGCAAGATTTAAAGATCAGTTGTGTTTCTACACACTAACAATGAACTATCCAAAAAGAAATTAAGAAAATAATC
M
CATTTACAATAGCAACAAAAAGAATAAAATGGGAACAAATTTAACCAGAGGTGAAATATTTGCACACTGACAACTATGACACTGACGAAAGAAATTGAAA
Celera SNP ID:            hCV27154567
SNP Position Genomic:     55207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17980):
TTAAGAAAATAATCACATTTACAATAGCAACAAAAAGAATAAAATGGGAACAAATTTAACCAGAGGTGAAATATTTGCACACTGACAACTATGACACTGA
Y
GAAAGAAATTGAAAAAGATGCAAATAAATGGAAAGACATATCCTGTTCATAAACTGGAAGAATATTGTTAAAATGTTCATACCATCCAAAGTGATCTGGA
Celera SNP ID:            hCV27154568
SNP Position Genomic:     55293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17981):
ATGAAATCTCTATCAAAATTTCAATGACATTTTTCACAGAAATAGGAAAAAGGAATCCTAAAATTTGTATAGAACCATAAAGACCCAAATACTAAAAGTA
R
TCTTGAAAAAAAGGAACAAACCTGGAGGCATCACACCGTATGATTTTAAACTATATTACAAAGCAAGAGTAATCAAAACAGTGCTGGCATAAAAACACAC
Celera SNP ID:            hCV27154569
SNP Position Genomic:     55500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17982):
TTTTTCCTTTATAATCTGTGATTTTGAGGTCCTATTTAAGGAATCTTTTCCTAACTCAAGAACCTATGTTTTCTTCAAGTTTTTGGTGTTAGCGCTTATT
K
AGATCTATAACCCATTTTGAGTTAGTTTTTGCATATAGTTTGAGCTAAAGATTGATTTCTTTTCTTTTTTTGCATGTGGATACTCAATCATTCCATCATA
Celera SNP ID:            hCV29367730
SNP Position Genomic:     56687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17983):
CCCTGCTGGTTTGGAAATTAAAGACAAAATTTCTGTAATCTTATTAATCTTGCCCCAAACCCCAGAGATGACAAGGATCTTGTAATGGTTTCACTACAAA
Y
TGAATACCCCATCTCTACCATTTGGCTATTATTGTTTAATATTTAATTTTTAACTATAAATTTTGAAACTATTATTTTTACAGTTGATATTTACTTAAAT
Celera SNP ID:            hCV2914930
SNP Position Genomic:     58182
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17984):
TTTATAATCTGTGATTTTGAGGTCCTATTTAAGGAATCTTTTCCTAACTCAAGAACCTATGTTTTCTTCAAGTTTTTGGTGTTAGCGCTTATTGAGATCT
R
TAACCCATTTTGAGTTAGTTTTTGCATATAGTTTGAGCTAAAGATTGATTTCTTTTCTTTTTTTGCATGTGGATACTCAATCATTCCATCATAATTTGTT
Celera SNP ID:            hCV29367731
SNP Position Genomic:     56694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17985):
TCTCTAAAAGCTTTTTTCCCCAATTTTTAATCATGAAAATTTCAAGCATGCAGAAGTCTTGGGAGAATTGTATACTAAACATCAATATACTTTCACACAG
W
TTCACAATTAACATTGTATCATTCCTGCTTTATCGCTTTTCTATCTGTATTAGCCCATTTTTACACTGCTGATAAAAACATACCCAAGACTGGGTAATTT
Celera SNP ID:            hCV2914931
SNP Position Genomic:     58695
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17986):
ATTTAAGGAATCTTTTCCTAACTCAAGAACCTATGTTTTCTTCAAGTTTTTGGTGTTAGCGCTTATTGAGATCTATAACCCATTTTGAGTTAGTTTTTGC
R
TATAGTTTGAGCTAAAGATTGATTTCTTTTCTTTTTTTGCATGTGGATACTCAATCATTCCATCATAATTTGTTGAAAAAAGTATCCTTTCTGCATTGAA
Celera SNP ID:            hCV29367732
SNP Position Genomic:     56720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17987):
AGCTTTTTTCCCCAATTTTTAATCATGAAAATTTCAAGCATGCAGAAGTCTTGGGAGAATTGTATACTAAACATCAATATACTTTCACACAGTTTCACAA
W
TAACATTGTATCATTCCTGCTTTATCGCTTTTCTATCTGTATTAGCCCATTTTTACACTGCTGATAAAAACATACCCAAGACTGGGTAATTTGTAAGGAA
Celera SNP ID:            hCV2914932
SNP Position Genomic:     58703
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17988):
AAGATGACATTTTAAGACTTTAAGAAATCACACCCATTAGACGCTGACTCGCACATGGAGTGTCCAGGGGGTACCCAAAGAACAAAAGAGAAGGCAGGAA
Y
GTCAATTCACAGATGGAAAATGTCAGGTATTTTACTTTGAATCAGACAGAAAAGGGAAGAGGCCCTCAACCTCAAGCTTCATATTCTCTCTCCCTTCTGG
Celera SNP ID:            hCV25925074
SNP Position Genomic:     68989
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:17989):
AAGTTTTTGGTGTTAGCGCTTATTGAGATCTATAACCCATTTTGAGTTAGTTTTTGCATATAGTTTGAGCTAAAGATTGATTTCTTTTCTTTTTTTGCAT
R
TGGATACTCAATCATTCCATCATAATTTGTTGAAAAAAGTATCCTTTCTGCATTGAATTAGTTACTTTGACGTCCTTGTTGAAAGTCAGTTGGCCATATA
Celera SNP ID:            hCV29367733
SNP Position Genomic:     56763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17990):
AAGATTGATTTCTTTTCTTTTTTTGCATGTGGATACTCAATCATTCCATCATAATTTGTTGAAAAAAGTATCCTTTCTGCATTGAATTAGTTACTTTGAC
R
TCCTTGTTGAAAGTCAGTTGGCCATATATGTTTAGGTCTATTACTTGACTTTTTTTCTGTTCCATTTATCTGTATGTCTATTCTTATGCCAATACACCAT
Celera SNP ID:            hCV29367734
SNP Position Genomic:     56835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17991):
CAATCATGGCAGAAGGTGAAAGGCACGTCTTACATGGCAGCAGGCAAAGACAGAGTGAAAAACAAGTGAAAGGGGTTTCCTTTATAAAACCATCAGATCT
Y
GTGAGACTTGTTCACTACCATGAGAACAGTACAGGGGAAACTGCCCCCCGATTCAATTTTATCTCCCACTGGGTCCCTCCCACATGAGAATAAGGGAGCT
Celera SNP ID:            hCV2914934
SNP Position Genomic:     58956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17992):
GGATACTCAATCATTCCATCATAATTTGTTGAAAAAAGTATCCTTTCTGCATTGAATTAGTTACTTTGACGTCCTTGTTGAAAGTCAGTTGGCCATATAT
R
TTTAGGTCTATTACTTGACTTTTTTTCTGTTCCATTTATCTGTATGTCTATTCTTATGCCAATACACCATCTTGATTACTACAGTTTTACAAATCCTGAA
Celera SNP ID:            hCV29367735
SNP Position Genomic:     56865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17993):
ACCATCAGATCTCGTGAGACTTGTTCACTACCATGAGAACAGTACAGGGGAAACTGCCCCCCGATTCAATTTTATCTCCCACTGGGTCCCTCCCACATGA
R
AATAAGGGAGCTACAATTCAGGATGAGATTTGAGTAGGGACACAGACAAACCATGTCACTATCCATATATACATTTTTTTATCCACTCAATAACTCATGG
Celera SNP ID:            hCV2914935
SNP Position Genomic:     59044
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:17994):
ATACACCATCTTGATTACTACAGTTTTACAAATCCTGAAATCAGGTAGTGTAAGACCTCCAGTTTTGTTTTTCAGAATTGTTTTGGCTATTTCAGACCCG
Y
GCATTTTGAAGATTCTTCTATCTTGCAGCTCAGCTACTGTCAAGATTACATCATTGTCCAAGGTGCCTGCTAAGCTCCAGCCACAATGTCCATGTTCTAG
Celera SNP ID:            hCV29367736
SNP Position Genomic:     57027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17995):
ATCCACTCAATAACTCATGGTCAAGTTTGAAACATTTCAGGGTTGCAGACATCAGTACCCTTCCCCCTCAAATACTTCTGCATGCATTCTTTTTTTAAGA
Y
AAAATTTACAATGAAATGCACAAGTATTAAGAGTACCATTGGATGAGTTCTTACAACCACACTTTTCTGCACCATCGAAATCTTTATCAAGATACAGAAC
Celera SNP ID:            hCV2914936
SNP Position Genomic:     59225
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17996):
CCAGCCACAATGTCCATGTTCTAGGCAGTCAGAAGGAGAAAGGGTGAAGAGCAAAATTATCTTCCCCAGAGGCCTATTACTTTTGCGAGAAGTTTTCTCC
R
GAACTCCCCTCCTCCCACAATATTCTGCTCTCATCTTAGTGGTCAGATCTTAAACTGGTGGCCATGTCAGGTGTGAGAGAGGTTATGAACTGTGGTTTTT
Celera SNP ID:            hCV29367737
SNP Position Genomic:     57204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17997):
CTGCATGCATTCTTTTTTTAAGATAAAATTTACAATGAAATGCACAAGTATTAAGAGTACCATTGGATGAGTTCTTACAACCACACTTTTCTGCACCATC
R
AAATCTTTATCAAGATACAGAACATGATCATCACCCTGGAAAGGTTCCTTATGTCCTTTCTGGTATATCTCCACCCACTACCTATCAGGGCAATCACTAC
Celera SNP ID:            hCV2914937
SNP Position Genomic:     59302
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:17998):
ATTACTTTTGCGAGAAGTTTTCTCCGGAACTCCCCTCCTCCCACAATATTCTGCTCTCATCTTAGTGGTCAGATCTTAAACTGGTGGCCATGTCAGGTGT
R
AGAGAGGTTATGAACTGTGGTTTTTCTCTGGAAATATCGATGTCTGCAGTCTTGGAGGTATTCTGTTAGTTGATCAGGAGTGGAAAGTAGATATGTGGAA
Celera SNP ID:            hCV29367738
SNP Position Genomic:     57279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:17999):
ACACTTTTCTGCACCATCGAAATCTTTATCAAGATACAGAACATGATCATCACCCTGGAAAGGTTCCTTATGTCCTTTCTGGTATATCTCCACCCACTAC
Y
TATCAGGGCAATCACTACTCTTTGTTTTTCCATGATAACTTAATTTGGGTTTTTAAAAAACTTTATATAAATAAGGTTTTACAGCGTGTTCTCTTTATTG
Celera SNP ID:            hCV2914938
SNP Position Genomic:     59384
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18000):
GTGGCTGGGGAGAGGTGGGCATGTGAGGGGACTGCTTGAGGACAGTCTGTCCAATCTATCCTCTTTGTCCATGACACCAACCAGGTAACAGTCACCCCCC
Y
ACCCACCCCAACAAATGACTGAGAACAGGGGTAGGGACAATGTCTAGAGGGTTCTATGTGGGACCTCAGAAGCTGGGCCCAGCCCCTGCCGTCTCATGCC
Celera SNP ID:            hCV29367739
SNP Position Genomic:     60895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18001):
ATCACTACTCTTTGTTTTTCCATGATAACTTAATTTGGGTTTTTAAAAAACTTTATATAAATAAGGTTTTACAGCGTGTTCTCTTTATTGTGAGATTTAT
Y
TCACTCAGCATGTTTTTGAGATTCATTCATATCATTGGATGTATCAGTAATTTGTTCGTTTTCATTGCTAGTGTCCATTGTCTGAATATACTGAATTTTG
Celera SNP ID:            hCV2914939
SNP Position Genomic:     59495
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18002):
TAGAGTCCTATTGAAAATTGTTTCTTTTCACCAATCATCTATCTTCTGCTCTTCTGTTCTTGCCAGTTTAAGTGTCTGCCCGGCTTGTGGATGTACATTT
K
TGTTTGGAAAGAAAAACAAGTGGTTGCATTTATTTTAAGAATGGGTGTTTTTGGCCGGGCATGGTGGCTCATGCCTGTAACCCCAACACTTTGGGAGGCT
Celera SNP ID:            hCV11472332
SNP Position Genomic:     63304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18003):
CACACACACACACACATTTCATAAACCGTGAATGCTTTAGGTCTTTAGGTCCCTTATGACCAGCTGACCACCTCTAAGGTACAAGTCACTTTATGTGAGG
S
AAGCAAGTTAATGCCTGGCTTTCATACAATAAGCACAATCCCCAGAGCACACAAGGTGTTCGAAGAAGGGAAGTGTTTACAATTGTTGAGCTTCCCTGAG
Celera SNP ID:            hCV11472333
SNP Position Genomic:     60571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18004):
GTCCCTCCCACATGAGAATAAGGGAGCTACAATTCAGGATGAGATTTGAGTAGGGACACAGACAAACCATGTCACTATCCATATATACATTTTTTTATCC
R
CTCAATAACTCATGGTCAAGTTTGAAACATTTCAGGGTTGCAGACATCAGTACCCTTCCCCCTCAAATACTTCTGCATGCATTCTTTTTTTAAGATAAAA
Celera SNP ID:            hCV11472335
SNP Position Genomic:     59129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18005):
GTGAATTCTTTAGTTTTTCTAGTGAGTGATCTCTAAGTGGTAAATTCTCTAAGTGCTGTATGTACAAATTTGTCTTTCTTTTGATAGAAATTTTTAGCTA
R
GTTAAAAATTTTAGGTTGATATTTATTTATTCTCAGTATAGTAAAGTGATTACTACATTGTCTTCTGGAATCTATGGTATGGCTAATAAAAATCATTCTT
Celera SNP ID:            hCV11472336
SNP Position Genomic:     58453
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18006):
TCTCCATTGTTCTTTTTCTTTGGTTTCACTTTTTGTCTAGCTGAAGTGAATTCTTTAGTTTTTCTAGTGAGTGATCTCTAAGTGGTAAATTCTCTAAGTG
Y
TGTATGTACAAATTTGTCTTTCTTTTGATAGAAATTTTTAGCTAGGTTAAAAATTTTAGGTTGATATTTATTTATTCTCAGTATAGTAAAGTGATTACTA
Celera SNP ID:            hCV11472337
SNP Position Genomic:     58408
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18007):
CTCTGAAGTCTGAGAGGGAAGGCCAGACCCTCCTGCTATTGATCTTCATCACAAATTGGGTGGCTCTAGATCCAATGTGGTGAGTGGCCACAGTCTGAGC
R
CTGGGAACAAAGAGGGCTCAGGATCAAGTTACCCTGGTCTTACAGGAACCTTGGCAAAGTGTATACAGACTGAGGATGGAAAATGGTTCACCCCCATGGA
Celera SNP ID:            hCV25931062
SNP Position Genomic:     70767
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,18)   caucasian(G,6)   total(A,2|G,24)
SNP Type:                 INTRON


Context             (SEQ ID NO:18008):
TATCAAAATTTCAATGACATTTTTCACAGAAATAGGAAAAAGGAATCCTAAAATTTGTATAGAACCATAAAGACCCAAATACTAAAAGTAATCTTGAAAA
M
AAGGAACAAACCTGGAGGCATCACACCGTATGATTTTAAACTATATTACAAAGCAAGAGTAATCAAAACAGTGCTGGCATAAAAACACACATAAACCAAT
Celera SNP ID:            hCV27154570
SNP Position Genomic:     55510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18009):
ATCACACCGTATGATTTTAAACTATATTACAAAGCAAGAGTAATCAAAACAGTGCTGGCATAAAAACACACATAAACCAATGGAATAGAATAGGGAACCC
R
GAAATAAACTCATGAATGTATGTTCAAGTAATCTTTGATAAGGGCACCAACAATAGGATTTTCTTTATGTAAATGTTCCACATTTTCATTTTTCTTATCT
Celera SNP ID:            hCV27154571
SNP Position Genomic:     55630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18010):
CAGTTCATGTATCATGTAACTCACCACTTAGAGTATACCAATCAATGATTTTTTTTGTATTTTCACAGGATTGTACAGCCATTATTATCACCTAATTTTA
R
AACAATTTGTCCTTCACTAAAGAAAACCCCATGTCAATTAGTAGTCAATGCCCATTCCCACCTCACCCCAATGCCCAGCCCTAAGCAGCTGCTAATCTAT
Celera SNP ID:            hCV16039051
SNP Position Genomic:     69556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18011):
TTTTCTTATCTGCTTTATAGAGCTATATATAAAACAAATTCATCACCTTAAGGTATAACTGAATTTGTTTTAACAAATGTGTGCAGTTATATAAATACCT
Y
CACTATCATGATATGTATCATTTCCATCACCCCAAAGTCCACTTGTGTTCTTCTCAGCTGTCTCTGATTCTTGACAACAGCTGATCTGTTTTCTGTTCGT
Celera SNP ID:            hCV27154572
SNP Position Genomic:     55820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18012):
TTGCCTGGAAACCTCATCTTCCAGAGGCAGGCAGCAAGATGGAGCAAAAAGATTAACATGCCTCTTGGAGAACCACAGTTCCACCTCTTTAGTAGTTTTT
Y
TTAGCCCTTGGCTGTTACTATACAAGCCTCCTACCTCCCTATACAAGTTTATTAAACTCTTCTAAAGCTCTTCTTTGAGTGCCTGTTATCTTGGTTAAAT
Celera SNP ID:            hCV16039052
SNP Position Genomic:     65936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18013):
ATTATTGTTTAATATTTAATTTTTAACTATAAATTTTGAAACTATTATTTTTACAGTTGATATTTACTTAAATCAATTTTTTAAATCATTTTATGTACTC
W
CCATTGTTCTTTTTCTTTGGTTTCACTTTTTGTCTAGCTGAAGTGAATTCTTTAGTTTTTCTAGTGAGTGATCTCTAAGTGGTAAATTCTCTAAGTGCTG
Celera SNP ID:            hCV27154573
SNP Position Genomic:     58310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18014):
GAATACAGGTTTAATTAACTCACAGTACCATGTGACTGGGGAGGCTTCACAATCATGGCAGAAGGTGAAAGGCACGTCTTACATGGCAGCAGGCAAAGAC
A
GAGTGAAAAACAAGTGAAAGGGGTTTCCTTTATAAAACCATCAGATCTCGTGAGACTTGTTCACTACCATGAGAACAGTACAGGGGAAACTGCCCCCCGA
Celera SNP ID:            hCV27154574
SNP Position Genomic:     58907
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18015):
AATACAGGTTTAATTAACTCACAGTACCATGTGACTGGGGAGGCTTCACAATCATGGCAGAAGGTGAAAGGCACGTCTTACATGGCAGCAGGCAAAGACA
G
AGTGAAAAACAAGTGAAAGGGGTTTCCTTTATAAAACCATCAGATCTCGTGAGACTTGTTCACTACCATGAGAACAGTACAGGGGAAACTGCCCCCCGAT
Celera SNP ID:            hCV27154575
SNP Position Genomic:     58908
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18016):
TTCTGACATATACCCCTTCCTCCTGAACTTCACTGCAGACCAGGATTTGTTCTGAAATCTCCATGCCATATTTTTCCTTCATATCCCAGGGAGAAGCATA
Y
GCCTGTCTATACAGGCTCACACATAAGCAGTGTGTTCTAGATGCCCAGAGGGGTGGCCTTCCTGAATCTTGTGATTCCCAGTGACGTGGACACTGTTTTA
Celera SNP ID:            hCV25926962
SNP Position Genomic:     78744
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,11|T,29)   total(C,18|T,60)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   JBIC-allele(C,89|T,1400)   total(C,89|T,1400)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18017):
GGACAGTCTGTCCAATCTATCCTCTTTGTCCATGACACCAACCAGGTAACAGTCACCCCCCCACCCACCCCAACAAATGACTGAGAACAGGGGTAGGGAC
W
ATGTCTAGAGGGTTCTATGTGGGACCTCAGAAGCTGGGCCCAGCCCCTGCCGTCTCATGCCTGGTGCGGAGAGGCTGACTCAGCATTCTCAGAGGTGGGA
Celera SNP ID:            hCV29367740
SNP Position Genomic:     60934
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18018):
CCTCAGAAGCTGGGCCCAGCCCCTGCCGTCTCATGCCTGGTGCGGAGAGGCTGACTCAGCATTCTCAGAGGTGGGAGCACTGGAGCAGGGTGTTTTCCTT
Y
TGGACAAAGGATCCAGGGTAGTTCTGAGAGACAGATATCACCAATGCTCCTGCTTCCTCCATACCTCCTAGGGTTGGAGGTGTTCCTGCCTTAGATCTCT
Celera SNP ID:            hCV29367741
SNP Position Genomic:     61059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18019):
TATAAAGCTCAAATAATTATATTTATTCCTCTGTATAATTAACTTTATTCTCTTTGGTTTGAAGGAAAAAAGAAGGGGCATGGCTGGAGCAGAATGGGAA
Y
GAGAACGCAGAAAAACAACCAACAAAATGGTAAGCAGGCAAAGTGAAGTAGTTACAGCTTTTGAGTTTATTAAGGCGCTGTCCATTGTATTCTGGAAGGC
Celera SNP ID:            hCV2914940
SNP Position Genomic:     62272
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,38|T,2)   total(C,73|T,5)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:18020):
AAGCTGGGCCCAGCCCCTGCCGTCTCATGCCTGGTGCGGAGAGGCTGACTCAGCATTCTCAGAGGTGGGAGCACTGGAGCAGGGTGTTTTCCTTCTGGAC
W
AAGGATCCAGGGTAGTTCTGAGAGACAGATATCACCAATGCTCCTGCTTCCTCCATACCTCCTAGGGTTGGAGGTGTTCCTGCCTTAGATCTCTGGATTT
Celera SNP ID:            hCV29367742
SNP Position Genomic:     61065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18021):
CACTTTGGGAGGCTGAGGCGGATGGATCACTTGAGGTTGGAGTTCGAGAACAGCCTGGTCAACATAGTGAAACCCTGTCTCTACTTAAAATACAAAATTT
Y
GCTGGATGTGGTGGCGGGCGCCTATAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAAAAGGCAGAGGTTGCAGCAAGTCAAAAT
Celera SNP ID:            hCV2914941
SNP Position Genomic:     63491
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18022):
TGCAAGGGAAGGGGAGGGGTCAGGCATCACAGCTTGACTTATTTTGAAAGAAATAGAGCTTTTCTTCTACAACCTGGGTGTGAGTGAGGGGCTGAACCTG
K
CATAATCAGTTCCACCAACTCTTTCTATGGTCCCATAGGTGGACTGGTGCATTGTCCTAGGATGCGGGCGCTTGGAACTTGGGTAATCAACTCAACCTAC
Celera SNP ID:            hCV29367743
SNP Position Genomic:     64885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18023):
TCATCAAGTCCACTGCAAGGGAAGGGGAGGGGTCAGGCATCACAGCTTGACTTATTTTGAAAGAAATAGAGCTTTTCTTCTACAACCTGGGTGTGAGTGA
R
GGGCTGAACCTGGCATAATCAGTTCCACCAACTCTTTCTATGGTCCCATAGGTGGACTGGTGCATTGTCCTAGGATGCGGGCGCTTGGAACTTGGGTAAT
Celera SNP ID:            hCV2914942
SNP Position Genomic:     64872
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18024):
ACTCTGTCACACTTCTTTCTAGAGGTTAATACCAACCATAACAATTATTTTAAAACAACTTTAAATTATATTCTGACCACCATAGTATTTATTAAGGTTT
R
TGATAGGGTTTCAGTATTGTTAAATGGGTATTACAGCCTGAGACACAATAATATTTGAATCCTGCCTTGCTCAGCCACTTGATTCTGAGAGTAAAACACA
Celera SNP ID:            hCV29367744
SNP Position Genomic:     65251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18025):
CAACCTGGGTGTGAGTGAGGGGCTGAACCTGGCATAATCAGTTCCACCAACTCTTTCTATGGTCCCATAGGTGGACTGGTGCATTGTCCTAGGATGCGGG
Y
GCTTGGAACTTGGGTAATCAACTCAACCTACTTGCTTGGGACTTTCTCAATTTTGCCAGTGAAACTCTCATGTCCTGGGCACCCCCTTAGTCCTGGACAG
Celera SNP ID:            hCV2914943
SNP Position Genomic:     64954
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18026):
CTGTCACACTTCTTTCTAGAGGTTAATACCAACCATAACAATTATTTTAAAACAACTTTAAATTATATTCTGACCACCATAGTATTTATTAAGGTTTGTG
W
TAGGGTTTCAGTATTGTTAAATGGGTATTACAGCCTGAGACACAATAATATTTGAATCCTGCCTTGCTCAGCCACTTGATTCTGAGAGTAAAACACAGTA
Celera SNP ID:            hCV29367745
SNP Position Genomic:     65254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18027):
ACTCACAGAACTGCCATTTATTTGTGTCTCTGCTAAGAGAAACCCAAACACCTTCACTTAATTTTGTAGTTTTGTCTCAATTTTCTCTGAATATTTTAGT
S
TCTGTAATGACAGTAATCATCATTTTGATCTTGCAAAGATTAAATTAGTGGATGTGTGTTTAACATATATTATATGCCATATATATATTTCAAATATATA
Celera SNP ID:            hCV2914945
SNP Position Genomic:     66855
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18028):
GAGACACAATAATATTTGAATCCTGCCTTGCTCAGCCACTTGATTCTGAGAGTAAAACACAGTAGTGCTGTATTATGAATTTGCTGGATTTAAGCTCCAG
W
TTGTTCTGTACCAAAACCTCCATAGACTAGAGTAGACTTCATGTTGTTTCTTTTTTCTCCCTAAAAATATGAGGCCTAAACAGATTTAATGAAAGCTAAA
Celera SNP ID:            hCV29367746
SNP Position Genomic:     65391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18029):
ACTTCATGTTGTTTCTTTTTTCTCCCTAAAAATATGAGGCCTAAACAGATTTAATGAAAGCTAAATCCGACATACCCACTAGTCCCAGAAAAGATGTAAC
Y
AGACAGAAACAGCTAGAGAGAAAGGAAGAAATAACTCTGTATTAGCTGGACTGTTCAAGGTTGTGGCCAGAGCTCTAGTGCCAAGCCTGGCTGGAATATA
Celera SNP ID:            hCV29367747
SNP Position Genomic:     65527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18030):
GAGTCCGATCAAGAGGTAAAAAAGAAAAGAGGAATGCACTTTCAATAACTAAACATCTAATTTCCTGTGCTTTATGCTGTATTTTCAGTAATAAACCTAT
K
TCTTTAATTGTTTTATGAAGCTATACTAACTATTGAAAAACATATCTTATTAAGTCATTTTCCAAAATGTATCAAGGAAAGAAGGAAGTAAGTTGGTGAT
Celera SNP ID:            hCV2914947
SNP Position Genomic:     67445
SNP Source:               Applera
Population(Allele,Count): african american(G,11|T,27)   caucasian(G,12|T,26)   total(G,23|T,53)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18031):
AGATTTAATGAAAGCTAAATCCGACATACCCACTAGTCCCAGAAAAGATGTAACCAGACAGAAACAGCTAGAGAGAAAGGAAGAAATAACTCTGTATTAG
M
TGGACTGTTCAAGGTTGTGGCCAGAGCTCTAGTGCCAAGCCTGGCTGGAATATAGGAGGGAAAAGAGCAGCAAGGATATGACATCTGGATCTATTCTCAC
Celera SNP ID:            hCV29367748
SNP Position Genomic:     65573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18032):
AGCTTCTCAGAGAGCCACACCTGTGTGGCTGATGTTCTATTGCCTGGAAACCTCATCTTCCAGAGGCAGGCAGCAAGATGGAGCAAAAAGATTAACATGC
S
TCTTGGAGAACCACAGTTCCACCTCTTTAGTAGTTTTTCTTAGCCCTTGGCTGTTACTATACAAGCCTCCTACCTCCCTATACAAGTTTATTAAACTCTT
Celera SNP ID:            hCV29367749
SNP Position Genomic:     65897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18033):
GGCAAAGTGTATACAGACTGAGGATGGAAAATGGTTCACCCCCATGGAATTTGAAATCAAAGGAGGCTACGCAAGATCAAAGAACTGGAGGCTGAGTGTG
Y
GCTGTGGCGGGTGGCCCCTACGACGGCTGATGGAGGTATTCCAATGACAAGAGGCCAGACCTGTGCCCATTCTTCTTGTTCCCTAATAATGAGGAGACTG
Celera SNP ID:            hCV25923487
SNP Position Genomic:     70920
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:18034):
TTACTAAGTGCCATTAATGTCTTGAAAAGAGTAAATGACAGGCTTAGATCTATTCATTACCAACCTAAAGAGAAGAGACCCTCATACCTGGAGCTGGAAG
R
CAGACAGCAAGGAAGGTCTGGTACAGACCTGATTTTATGAATCGCAGAACTTCAGAGAACACTGAATTCTAAGCTCAGGATGGTCTCTTATGCCAAAGTC
Celera SNP ID:            hCV11740608
SNP Position Genomic:     83275
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:18035):
AATCAGATTTAGGTCTTTTCCACACTGATTTTGATGCCCGGCCAACTCAGGGACTCACGAATGGTTAAAACAGCCCTGGAGGTCAGTGTTTGCGTGGCTG
M
TTTTGTATGAGCTTGACATGGAGGTTTATGTCTCACAGCCCACAGCCAGATGTCTGTGGGAAAAAGAGGAAAACAGATCCAGCAAAGGTATGGTCACCCC
Celera SNP ID:            hCV245054
SNP Position Genomic:     76588
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|C,6)   total(A,6|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18036):
ATAGGCCATTGCTGTATAAAGGGTATAACCCGTAAGTGATTTAGCTGATCTTCCTCTGGCTACACAGAAAGCCACATGTTGCACACTAAGGTTGAACCAG
M
GTTGTGGTTAGAGATCTGTGTCCTAAGGCTTTTTGGCTTTTTAAAAAATCTTTGACTGTGTGATCTTGTGCTGACCACTTGGCCTTCTTTGCCTTGGTTT
Celera SNP ID:            hCV27154581
SNP Position Genomic:     67726
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18037):
TGGGTGGCTCTAGATCCAATGTGGTGAGTGGCCACAGTCTGAGCGCTGGGAACAAAGAGGGCTCAGGATCAAGTTACCCTGGTCTTACAGGAACCTTGGC
R
AAGTGTATACAGACTGAGGATGGAAAATGGTTCACCCCCATGGAATTTGAAATCAAAGGAGGCTACGCAAGATCAAAGAACTGGAGGCTGAGTGTGCGCT
Celera SNP ID:            hCV25931149
SNP Position Genomic:     70823
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,9)   caucasian(A,27|G,9)   total(A,56|G,18)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:18038):
GCTACCTAACTGCAGCAAAACAGAATAGCTGGAGAGCGCCCATCAAACCAATGACAACAACTGTATGTTTCATTGTCATATAAGAATCAGTGGAGCTTAC
Y
ACACTGGAAGTTAAAACAGTTTTACTGAAGTCTAATTTCTCTGATAAAGCATTCAATTTTCTGTGAAATTTGAAAGGTGAAATTGGGGCACACATTCTGT
Celera SNP ID:            hCV27154582
SNP Position Genomic:     68379
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(C,5|T,77)   TSC_42_C(C,30|T,52)   TSC_42_AA(C,17|T,57)   total(C,52|T,186) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18039):
CATTGTCATATAAGAATCAGTGGAGCTTACTACACTGGAAGTTAAAACAGTTTTACTGAAGTCTAATTTCTCTGATAAAGCATTCAATTTTCTGTGAAAT
K
TGAAAGGTGAAATTGGGGCACACATTCTGTAGTTACCGATCAAAAATGCCACTTGGAAGAAAGACTTTGAAACTCTAGAGATTTATGGAATAGAATTTCC
Celera SNP ID:            hCV27154583
SNP Position Genomic:     68449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18040):
CTTTAGGTTTTCCCATCTTCATGTACCCAAGATTGATCAGAGTGACTGACACCCAGTAGCATGCAATAAGTGTGTGCTGCTTGGATAGCTCTGGTGTAGG
R
ACTCCAGCTGGAGTGGCACTGGTGCAACTGGAAAAGAAGTGATAGATGGTATGAGATTATGAATGAAAACCTCTTAGGACTTAGGAAAGAAGCACAAGAG
Celera SNP ID:            hCV27154584
SNP Position Genomic:     71824
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18041):
CCTTCCAAAAAAATGTACACACAGATACACAGAATTCTTTCTCAATGGGAAATTATTTACCTTTGTCAAGATGGTGCCATTGGGGAGGAAGATCTCCAGA
R
GCAAACGTATTTTACAGGAGGAGCTGACCAGGAAAATCTTTTATGTTGATGCCACCTCTTTGGTTCTACCAGAGGGACTGTGCAGACCTGCTTTTTATCT
Celera SNP ID:            hCV27154585
SNP Position Genomic:     72822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18042):
CCTGCTTTTTATCTGTGAAAGTGATTTTTCCTTCACTTAAGAACGCAACAAACAAATAGGTTAAGTGCAGTGTAGATTCAGGACAAGGTGATGGTTTTTC
S
AAGACTGGGTGTGAATGAGAACCTGAGGAGGGGAAAGAGAAAAATGTCATCCTTATGCACTTCAGGTAGAAATATGCATTCAAGACATTCACAGACTTCT
Celera SNP ID:            hCV27154586
SNP Position Genomic:     73009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18043):
TCACAGACTTCTAAAACAGCTCACACATAGCTAGCCACTAAGCTTCATATTCCACTGGGAACCTGAGATCCAGGCCTTTACATTATCTGATATACTGGCT
R
ATTTGAATTCTCAGCCACTGAGACATTTCATCCACTGGGTTTCCCGAAGGGAAACTATGATGTCACCTATTCAGTGAGTACACTAAAGACCAGCAACTCT
Celera SNP ID:            hCV27154587
SNP Position Genomic:     73198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18044):
CAGTGAGATGCCAATTTTAGGCAAGGTCACCTTCTTGCACAACTCCAGGGGGCAGGACTCACATAGAATATCATGCAATAGCACTGACACATAATAGTTA
R
CAGAGGAGGGATGCTCAAATAGTTTTATACACACCTTACCTCCAAAGCAGTCCTCCAATCAGATTTAGGTCTTTTCCACACTGATTTTGATGCCCGGCCA
Celera SNP ID:            hCV27154588
SNP Position Genomic:     76431
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18045):
CTGGGATTTGTTCCACAACACATGGATGCAAATACTATCATATTTTAATTTCCCCAAATGAAATTAAATCTTGCTAAAGGTCTCACATATTGAGACTTGT
R
AGAAATGGAGAATTCATTGATTTACCATTCCTTTTATAGAACAAAGCACCAGCTCTTTTATGGGCCCAGGAAATGAGGAGAGGGTCTCCATCTTCAACAC
Celera SNP ID:            hCV27154589
SNP Position Genomic:     78051
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18046):
GTGTGGCTGATGTTCTATTGCCTGGAAACCTCATCTTCCAGAGGCAGGCAGCAAGATGGAGCAAAAAGATTAACATGCCTCTTGGAGAACCACAGTTCCA
Y
CTCTTTAGTAGTTTTTCTTAGCCCTTGGCTGTTACTATACAAGCCTCCTACCTCCCTATACAAGTTTATTAAACTCTTCTAAAGCTCTTCTTTGAGTGCC
Celera SNP ID:            hCV29367750
SNP Position Genomic:     65919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18047):
TTCCCACCTCACCCCAATGCCCAGCCCTAAGCAGCTGCTAATCTATTTTCTGCTCTATAAATTTGCTTATTCTAGGCATTTTCTGCAAATGGAATCCTAT
S
ATACATCCCCTTTCATGACTGGCTGCTTTTAATCAGCATGATGTTTTCAAAGTTCATTCATATTGTATTAGTACTTCATTTCTTTTCTTGATAAATCATA
Celera SNP ID:            hCV2914950
SNP Position Genomic:     69711
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,7)   total(G,4|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18048):
TATCTTGGTTAAATATTAACAGGATGACAACTTGCAGATTTGAAACTTGTTTGATCTTGGGATAAGATGTCTGTAATTATCAATATTGGTTCCTTGGGCC
R
TTTGGGTCTTAAATGGGTAAAAACCTGGTCAGTAACTGTGTAGTCTAAAGACCAGAAAGTGGAATTATATTACCAAGCCATAGGTCTACTTTGGGTCCGA
Celera SNP ID:            hCV29367751
SNP Position Genomic:     66123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18049):
TCTATTTTCTGCTCTATAAATTTGCTTATTCTAGGCATTTTCTGCAAATGGAATCCTATCATACATCCCCTTTCATGACTGGCTGCTTTTAATCAGCATG
W
TGTTTTCAAAGTTCATTCATATTGTATTAGTACTTCATTTCTTTTCTTGATAAATCATATATTTCATTGTATAGATATACCACATTTTGTTTATCCATTC
Celera SNP ID:            hCV2914951
SNP Position Genomic:     69752
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,10)      total(A,10|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18050):
GGAACATTTTGCTTTCCTGCTTTGGAAAATAAAACACATTTGAACATTAGTAAACATTGAGATGCCCACTCACAGCCAATTAACATGCACTTGGGAGAAC
R
TCGTCGGCTGCAGTGTCTGCCATGTCAATCCTTAATTACTATTTGGAATGAAGGCTGTGGAAGTCTCAATTCTACCCATTCCTCATGGTTAACCTTCTTC
Celera SNP ID:            hCV29367752
SNP Position Genomic:     66490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18051):
CTAGGCATTTTCTGCAAATGGAATCCTATCATACATCCCCTTTCATGACTGGCTGCTTTTAATCAGCATGATGTTTTCAAAGTTCATTCATATTGTATTA
R
TACTTCATTTCTTTTCTTGATAAATCATATATTTCATTGTATAGATATACCACATTTTGTTTATCCATTCATCAACTTGGGTTATTTTCACTCTTTGGCT
Celera SNP ID:            hCV2914952
SNP Position Genomic:     69782
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18052):
GGAAGGGCAGGATTAGCTGCTCATCCTCCTGGAGTTTTTCTTTGAAAAACTTTCACACCTACTTCTGTAGTATCCGGTTCTCAGTTCCCCACCCCCTGCT
W
GGTACAATTTTCAGATTATTCTAGAGCTCCCTGAGCTCCTTTCTCAGCTGTGGAGAAAGCTGATAGGAGGGGAAAATGGAGCAAAGCAGAGAATAAAAGT
Celera SNP ID:            hCV29367753
SNP Position Genomic:     68071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18053):
CCACCAGAAATGTATGAAGGCTCCCATTTCTCTACACACTCACCAACACTTGTTATTGTTTGTCTTTTTTATTATGATCATCCTAGTGAGTGTGATGTGG
Y
ATCTCATTGTGGTTTTGCTTTGCATTTCCCTAATGGCTGATGGGGTTGACTATCTTTTATATATAACTTAATTTTTCTATTAGGTAACATTTCACAATTA
Celera SNP ID:            hCV2914953
SNP Position Genomic:     70156
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18054):
ATCTCATTGTGGTTTTGCTTTGCATTTCCCTAATGGCTGATGGGGTTGACTATCTTTTATATATAACTTAATTTTTCTATTAGGTAACATTTCACAATTA
Y
TTTTTAATATCAGCTGCCCATGATTGCACAGATGAGAAAATCTCTGTTCAATAATGCCCTAAAACTGAATGAAAAATGTTGTAATAGAAGGTGCATATGT
Celera SNP ID:            hCV29367754
SNP Position Genomic:     70257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18055):
CTGTGAGTGCTTTTTGTCTGCAGACCCCTTTAGGTTTTCCCATCTTCATGTACCCAAGATTGATCAGAGTGACTGACACCCAGTAGCATGCAATAAGTGT
R
TGCTGCTTGGATAGCTCTGGTGTAGGGACTCCAGCTGGAGTGGCACTGGTGCAACTGGAAAAGAAGTGATAGATGGTATGAGATTATGAATGAAAACCTC
Celera SNP ID:            hCV2914954
SNP Position Genomic:     71797
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18056):
ATAGTAAAAATATTAACAGCTCTGTGGATTTAGGTAGATGGGTTGTGTACAATAAGGCACAATTCAGCAACTGGGGTTGTCTGTGGAGCACTTTAATGCC
R
GGCTAAGTAATTCAAATCTGTAATTGATAGCAACAATCAGTGAAATCTTCTGAGATTGGAAATGACATTTAAAACAGTATTTTAGACAGCAATGGGGCTT
Celera SNP ID:            hCV29367755
SNP Position Genomic:     71424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18057):
AGACTCTCACCTCTTCTCCTGAGGTCTGCTCCAGACAACATTTATTACTCACAAGACCTTTTTCCTCCGTTTTTTTTTTGAGATGGAGTCTCACACAGTC
R
CCCGGGATTGGAATGCAATGGCGCGATCTCAGCTCACTGCAACCTCTGCCTCCCGGATTCAAGTGATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGATT
Celera SNP ID:            hCV11740610
SNP Position Genomic:     81968
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:18058):
ACCTATAGCCATGGGTCCTCCCTTCCCAGGGTTCCTGAGCCCCTACTAATGCCCTTTTTTCACTATTTATATTTATCCTTCTGTGAGTGCTTTTTGTCTG
Y
AGACCCCTTTAGGTTTTCCCATCTTCATGTACCCAAGATTGATCAGAGTGACTGACACCCAGTAGCATGCAATAAGTGTGTGCTGCTTGGATAGCTCTGG
Celera SNP ID:            hCV29367756
SNP Position Genomic:     71717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18059):
AATAAATTTAATAGCATTTATTGGAGCAAAGAGCAATTCATGAATTGGGCAGCACTCAGAACAAGAAGAGGTTCAGAGAGCTATGCTGTAGCAGCCCAGA
Y
GGTGAGGCCAACACAGGAGTAAGACAGAGAAATTATATTTAATGGATTATCATGGAAAGATGCTAATTAGAGGTAGATGACGGATTCCAGTTGGTAAATT
Celera SNP ID:            hCV2914956
SNP Position Genomic:     75163
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,7)   total(C,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18060):
GGAAGGAGATTGGAGGTGATACCAGCACAGACAGACTCTCACCTCTTCTCCTGAGGTCTGCTCCAGACAACATTTATTACTCACAAGACCTTTTTCCTCC
R
TTTTTTTTTTGAGATGGAGTCTCACACAGTCACCCGGGATTGGAATGCAATGGCGCGATCTCAGCTCACTGCAACCTCTGCCTCCCGGATTCAAGTGATT
Celera SNP ID:            hCV11740611
SNP Position Genomic:     81936
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:18061):
TGTGTATATAAAGCTAGGTCCTCTTTGGATTAAACCGTATCAGATGGAGATGCTGAGGAGCCCTCAAAACAAACCTCCTGAATGTGTTTCAGCAATAGAT
R
CAGATGTTGTAAGAGTGTCAAAGTTGGAAAATCCAACACGGTCATGGAATACATAAAAATATTTCATAATAAGGTGAGAGTATCATCTCCAACTCAAAAT
Celera SNP ID:            hCV29367757
SNP Position Genomic:     72461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18062):
GCACTCCAAGGTGCAGGTGGAGCGAAGATGGTCTTAAGCATCAGCCAGAAGGAACAGACCAGGCCAAGCTATTATGTTTAAGGTGTGGAGCCTGTCATTA
K
TCCTGTAAAGGAGTACATACAGGACAAGAGGTCCTTTACAGAGCCCCTATCACCAGTCTCAGGGAAGCCATTAGGGTGCTGAGCTGGTTAGGACTGAAAC
Celera SNP ID:            hCV2914957
SNP Position Genomic:     76040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,6)      total(G,4|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18063):
TACCTCTTAAAAGACAGTCAACCTGACATCTTGTGATTTGGATAGAAGGGAGAGCAGGAGACTCTCAGGAAGAAGAGCTGCAGCACAGAGGACCTTGGAG
K
CATTTTATCACCAGGGCTATGTCCCTAGGGGAGCTGCAGAAAGCAGTGCTCTTCTCTGGGACACTTTCATGGCCTCCAGGACACTGGGCCCTGTGGTCCC
Celera SNP ID:            hCV29367758
SNP Position Genomic:     74665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18064):
AACCTGACATCTTGTGATTTGGATAGAAGGGAGAGCAGGAGACTCTCAGGAAGAAGAGCTGCAGCACAGAGGACCTTGGAGGCATTTTATCACCAGGGCT
R
TGTCCCTAGGGGAGCTGCAGAAAGCAGTGCTCTTCTCTGGGACACTTTCATGGCCTCCAGGACACTGGGCCCTGTGGTCCCTGTAGGCTGTGGGGGATAA
Celera SNP ID:            hCV29367759
SNP Position Genomic:     74684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18065):
CCTCTGAAGTCTGAGAGGGAAGGCCAGACCCTCCTGCTATTGATCTTCATCACAAATTGGGTGGCTCTAGATCCAATGTGGTGAGTGGCCACAGTCTGAG
Y
GCTGGGAACAAAGAGGGCTCAGGATCAAGTTACCCTGGTCTTACAGGAACCTTGGCAAAGTGTATACAGACTGAGGATGGAAAATGGTTCACCCCCATGG
Celera SNP ID:            hCV9169842
SNP Position Genomic:     70766
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,5)   caucasian(C,5|T,1)   total(C,20|T,6)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18066):
CACATCATTCAAGGAGTTTTGGGCCCAGTTTAGCTTGAGGGAAGGAGGAAGGGATCCCTAAGATGACATTTTAAGACTTTAAGAAATCACACCCATTAGA
Y
GCTGACTCGCACATGGAGTGTCCAGGGGGTACCCAAAGAACAAAAGAGAAGGCAGGAACGTCAATTCACAGATGGAAAATGTCAGGTATTTTACTTTGAA
Celera SNP ID:            hCV25924586
SNP Position Genomic:     68930
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,8)   caucasian(C,29|T,11)   total(C,57|T,19)
SNP Type:                 INTRON


Context             (SEQ ID NO:18067):
CACTGCTACACTGATCATAAAGAATTTTGCCCCATTCCTGTGGACCAAAGTATGAAAAAATCTTGTATACTACTAGCATATAAAGCTCAAATAATTATAT
K
TATTCCTCTGTATAATTAACTTTATTCTCTTTGGTTTGAAGGAAAAAAGAAGGGGCATGGCTGGAGCAGAATGGGAACGAGAACGCAGAAAAACAACCAA
Celera SNP ID:            hCV25929090
SNP Position Genomic:     62194
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(G,1|T,39)   total(G,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:18068):
AGGCCTGACGTCCCTGGAGTTGAAAGCCCAGTTTCTGACACACAGGCCTGGCAGGCAGGACTCCTTGTGCTCCCAGCAGCTCAGACAGGGAAAGGATAGT
C
CCCACTCACGGTGACACCACCTTCCTGAGGCTTCCCTCCTGCTGCTACCACTGATGCGAGGGAAAGGCCAGTGGCTGGAGACCCCATGTGCAGTTCTTGG
Celera SNP ID:            hCV27154590
SNP Position Genomic:     79445
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,6)   total(C,1|-,6) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:18069):
TTACCTTATACCCTTCCACTATCTGAATTGTTGAAAGAACCTAGATTGCTTTTCTAACCCACTGAAATAAGCAACCAAAGGCAAAAAAGTAATAATCCCA
R
CTGTGGAAATGATTTCACTTTTCTGCCCTGTTAATAAGAAAGGATCATGCTGGTGAGAAACGGAAGTTACTCTTAGCTGCATAAGTTTTCAAGTTTAATC
Celera SNP ID:            hCV27154591
SNP Position Genomic:     81085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18070):
CTCCATGCCATATTTTTCCTTCATATCCCAGGGAGAAGCATATGCCTGTCTATACAGGCTCACACATAAGCAGTGTGTTCTAGATGCCCAGAGGGGTGGC
Y
TTCCTGAATCTTGTGATTCCCAGTGACGTGGACACTGTTTTACCTTCTAGATGAGAAACTTGGATGAGTGTGAGGTGTGCCGGGACGGAGGGGAGCTGTT
Celera SNP ID:            hCV25927496
SNP Position Genomic:     78802
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:18071):
GTAAGCAGAATACAGGTTTATTTTCCCACTGCCCTTTGAAGTCCTCCTCCTAGATAAGTTATTTCTTGTCCTGAGCAAGCCCTATCGCTTTCCTGTTCCC
Y
TTTCACAACAATAAGAGTCTCATTTCAGTAATTGAGAGTCTTTCTGACCAAGTATTAAAACTCCAATGTCCTCCCCAGTTTAAAGCACCTTCCCTCCTTC
Celera SNP ID:            hCV27474790
SNP Position Genomic:     64426
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,195|T,906)   total(C,195|T,906) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18072):
TCACACAACAGATTTAACATGTACAACATCTTATTTTATGGAGTCTCCAATTGGGTAACTATAATTAAGCTTTCACCTTCTCCACTTCCCACATATAAAT
W
TTTTTAATATACACTTTCAGAGTTACTACTTTGAATACTTTGTGTATATAAAGCTAGGTCCTCTTTGGATTAAACCGTATCAGATGGAGATGCTGAGGAG
Celera SNP ID:            hCV25931446
SNP Position Genomic:     72320
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,30)   caucasian(A,10|T,28)   total(A,12|T,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:18073):
ATATACCCCTTCCTCCTGAACTTCACTGCAGACCAGGATTTGTTCTGAAATCTCCATGCCATATTTTTCCTTCATATCCCAGGGAGAAGCATATGCCTGT
Y
TATACAGGCTCACACATAAGCAGTGTGTTCTAGATGCCCAGAGGGGTGGCCTTCCTGAATCTTGTGATTCCCAGTGACGTGGACACTGTTTTACCTTCTA
Celera SNP ID:            hCV25926986
SNP Position Genomic:     78751
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,40)   total(C,73|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:18074):
ATAAATTCTGAACTACAACCCCCAGAATATTCCACTTCTTTCTCCAGGCATATGTTCTGTGTCATGACTGCTGTTGCCTGAAGCATGTTCAGTCTCAGTT
R
GAGTATGTGGCTGTGTGAATTCAGTTGCATCACCCAAGCCAGGTAGATGTGCTTGGGCCTTGGATGTCTTGCAGTGTGAAAGCACTCTTTCCATCTGTTT
Celera SNP ID:            hCV29367760
SNP Position Genomic:     75631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18075):
AAGGGGAAGGAGTAAATGTGAGAGGATAACAGCATTCTCAAGTAAGGGGTATGGATGAAAGGGAAAATCCCAAAAATGCACTCCAAGGTGCAGGTGGAGC
R
AAGATGGTCTTAAGCATCAGCCAGAAGGAACAGACCAGGCCAAGCTATTATGTTTAAGGTGTGGAGCCTGTCATTATTCCTGTAAAGGAGTACATACAGG
Celera SNP ID:            hCV29367761
SNP Position Genomic:     75963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18076):
CAAGTAAGGGGTATGGATGAAAGGGAAAATCCCAAAAATGCACTCCAAGGTGCAGGTGGAGCGAAGATGGTCTTAAGCATCAGCCAGAAGGAACAGACCA
R
GCCAAGCTATTATGTTTAAGGTGTGGAGCCTGTCATTATTCCTGTAAAGGAGTACATACAGGACAAGAGGTCCTTTACAGAGCCCCTATCACCAGTCTCA
Celera SNP ID:            hCV29367762
SNP Position Genomic:     76001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18077):
GAAGTTTTGCAGTAGGGTCTCCTGTCCCAGGGGGTTGAGGAAAAAAAACACCAGTTGTTTATATTTTGTGCTTATTCATACAAGACAGGAAGCACGGTCT
Y
AGGCGGATGGAGGCCTGACGTCCCTGGAGTTGAAAGCCCAGTTTCTGACACACAGGCCTGGCAGGCAGGACTCCTTGTGCTCCCAGCAGCTCAGACAGGG
Celera SNP ID:            hCV29367763
SNP Position Genomic:     79334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:18078):
TCCTGTCCCAGGGGGTTGAGGAAAAAAAACACCAGTTGTTTATATTTTGTGCTTATTCATACAAGACAGGAAGCACGGTCTTAGGCGGATGGAGGCCTGA
Y
GTCCCTGGAGTTGAAAGCCCAGTTTCTGACACACAGGCCTGGCAGGCAGGACTCCTTGTGCTCCCAGCAGCTCAGACAGGGAAAGGATAGTCCCCACTCA
Celera SNP ID:            hCV29367764
SNP Position Genomic:     79353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:18079):
AGACAGGAAGCACGGTCTTAGGCGGATGGAGGCCTGACGTCCCTGGAGTTGAAAGCCCAGTTTCTGACACACAGGCCTGGCAGGCAGGACTCCTTGTGCT
Y
CCAGCAGCTCAGACAGGGAAAGGATAGTCCCCACTCACGGTGACACCACCTTCCTGAGGCTTCCCTCCTGCTGCTACCACTGATGCGAGGGAAAGGCCAG
Celera SNP ID:            hCV29367765
SNP Position Genomic:     79416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:18080):
TAATTCTTCATACCTTAAAGGCTAGGGTTTAAATCTTTTTATTTATATATTAAACAGGCTTTTGGAAAGTTACATTTAAATGGAATTTTTGAAAAGCAGC
R
ATATATGTAACACAGCTGCTCATTTGTAACTGTGATTTTATTATTCTACTTTCTCAGGGAGAAAGAGAGGCAAACCTGGAACCCACTTTACTCAGAGTGA
Celera SNP ID:            hCV11740620
SNP Position Genomic:     67227
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18081):
GTCCCTGGAGTTGAAAGCCCAGTTTCTGACACACAGGCCTGGCAGGCAGGACTCCTTGTGCTCCCAGCAGCTCAGACAGGGAAAGGATAGTCCCCACTCA
Y
GGTGACACCACCTTCCTGAGGCTTCCCTCCTGCTGCTACCACTGATGCGAGGGAAAGGCCAGTGGCTGGAGACCCCATGTGCAGTTCTTGGATACTCTGG
Celera SNP ID:            hCV27470587
SNP Position Genomic:     79454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:18082):
TAATATTTATTTTTTCCAAAGCCATGTGAACGAAGCCCTGGTCACATTTACTATTACTTTCAGCACAAGGGTACAAATATCTTCCCCCAATGTGATATGT
R
CAGCATACATCTCACCTATGGAGCACCTAATAGGGTTTCCCTTAACTCACAGAACTGCCATTTATTTGTGTCTCTGCTAAGAGAAACCCAAACACCTTCA
Celera SNP ID:            hCV11740621
SNP Position Genomic:     66710
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18083):
CGGCTGCAGTGTCTGCCATGTCAATCCTTAATTACTATTTGGAATGAAGGCTGTGGAAGTCTCAATTCTACCCATTCCTCATGGTTAACCTTCTTCTGAT
Y
AGTTTCTTAGATCCTAATATTTATTTTTTCCAAAGCCATGTGAACGAAGCCCTGGTCACATTTACTATTACTTTCAGCACAAGGGTACAAATATCTTCCC
Celera SNP ID:            hCV11740622
SNP Position Genomic:     66595
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18084):
AATCTTGTGATTCCCAGTGACGTGGACACTGTTTTACCTTCTAGATGAGAAACTTGGATGAGTGTGAGGTGTGCCGGGACGGAGGGGAGCTGTTCTGTTG
Y
GACACTTGTTCAAGAGTCTTCCATGAGGACTGCCACATCCCACCTGTGGAAAGTGAGAAGTAAGTGACATGCAGGCACCTCTCTTTCATCCTTTAAGGGA
Celera SNP ID:            hCV25928081
SNP Position Genomic:     78909
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,40)   total(C,75|T,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:18085):
TAGGAATAAGTAGGTTGGAAAATATTTTTCCATGGGGCCTACATGACCCTGACCAGCATCCCTAGATGGTGGTCATTGGATGGTGGACATCCAGCACAAG
R
AGGAAGGAACATTTTGCTTTCCTGCTTTGGAAAATAAAACACATTTGAACATTAGTAAACATTGAGATGCCCACTCACAGCCAATTAACATGCACTTGGG
Celera SNP ID:            hCV11740623
SNP Position Genomic:     66384
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18086):
GGGGTGGCCCTGGGCCAGTCTCTTTCCTCCTGGTGCTGCACAAGGACTGAGGGCATCCTCGGGGTTTCTCATGAATGGTCCCCACCTTCAGAAGGTGGCC
R
GAGGGACTTCCTGTGTTGTTCAATGCTCCCCTTGTCTTTCTGACTCCCTACAATCCTTCACCCATAGCCTCTTCCTCCGCGCCAGGGTACTTCTTCCCAT
Celera SNP ID:            hCV27154523
SNP Position Genomic:     2535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   (A,-|G,-)   Caucasian(A,17|G,67)   African-American(A,25|G,49)   Asians(G,33|A,39)   total(G,149|A,81)no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:18087):
TTTGCCACAAAAAGACTTGCACAAGAACAGCAGTTTTATTCATACTAGTCTCAAACTGAATCCACTCCAATGTCCATCAAGAGAAAAATGAGTACGCAGA
S
TGTGGTAGATTCACACAATGGAATACCACTCAACAACAAAAATGAACAAACTAACTGTTCAACACAGCAACATAGATGATAAGCAAAAGAAGCCAGACAC
Celera SNP ID:            hCV27979848
SNP Position Genomic:     35109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18088):
GCAAAAGCATTTTCATTAGCTGTGTCTGGAGTGAAATCTGAATCCCCTGGGCACTCAGAAGGCTGTGCCTACCAGGCTGATGGGGAAAGAATGAGGCATC
W
TCCCTAGGAATGACCAGGGTCACAACAGAATCCTGAATTTTCAAGATAGGTCTACAGAACACTTGCAATCCCCACCACTTTTGTCCTGGTCACTATCCGG
Celera SNP ID:            hCV11740627
SNP Position Genomic:     61390
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,16)      total(A,16|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18089):
CTGAACAAGCATTCACAGCTTCCAACTATTGTGCAATAAACAGCAAAAAAAAAAAAAGTCCTTGAACCAAAATTGTCCTTAGCTGCTCTGCCCTCTAAGA
K
GGGGCATAGTTTACATGGGAGTTGGGGGAGGACTCCATGTTTGCCCCTTCCCCTTGCTGAGATGGCTGGGGGTGGGGGCTGGAAAAAGTTGGATTCAGCA
Celera SNP ID:            hCV27154527
SNP Position Genomic:     4651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:18090):
GTGCAATAAACAGCAAAAAAAAAAAAAGTCCTTGAACCAAAATTGTCCTTAGCTGCTCTGCCCTCTAAGATGGGGCATAGTTTACATGGGAGTTGGGGGA
R
GACTCCATGTTTGCCCCTTCCCCTTGCTGAGATGGCTGGGGGTGGGGGCTGGAAAAAGTTGGATTCAGCAGAATGTAATTTGGAAAACATGGCTCTGGAG
Celera SNP ID:            hCV27154528
SNP Position Genomic:     4681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:18091):
GTTGTTTTCCTCTGTGTTTTATCTGATTTTCCTGGGAATTCCTTTGCCTTAAATCATTGGCTAATTAAAATGGCTGGACCTGGTAAATTGTAAGCAGAAT
R
CAGGTTTATTTTCCCACTGCCCTTTGAAGTCCTCCTCCTAGATAAGTTATTTCTTGTCCTGAGCAAGCCCTATCGCTTTCCTGTTCCCTTTTCACAACAA
Celera SNP ID:            hCV28001591
SNP Position Genomic:     64337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 52
Celera Gene:                 hCG1777562 - 79000075446110
Gene Symbol:                 SEC14L3
Protein Name:                SEC14-like 3 (S. cerevisiae);TAP2
Celera Genomic Axis:         GA_x5YUV32VU5C(8915915..8939854)
Chromosome:                  Chr22
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12212):
CCTCTTTTCTTGCCCCATTCCTGCTGCCTTTTTTTTTTTTCTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTAATCTC
AGCTCACCTACTGCGTTCAATCAATTCTCGTGCCTCGGCCTCCTGAGTAGCTGGGACTACAGGCACCCACCACCATGCCCGGCTAATTTTTGCACTTTTT
GTAGAGATGGTGTGGCGGGAGGGGTCTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAATGATCCACCTGCCTTGGCCTCTCAAAGTGCTG
AGATTACAGGCATGAGCCACCACACCCGGCCCCTGGTGCCTTTTCACGGGGCTGGAATAGCTGAGGTAGCCCATTCTACCCTCTTTCTGCCTTCTGCCTG
GGACCCAGCTGGCGTTCTTTGGTTTGCTTTCTCTAAGCTCTAGGCCTGTGCTATCCAACACAGTAACCACGTGTGGCTGTTTAAATTTAAGTCAACTAAA
ATCACATAAAGTTAATTCATTCCTCATGTGCTGGAACTGAACTGGAGTCTGCTCACCTGGCACAGTAAGACCAGATATCCATTCTGAGATTTTTGCAGCA
ATAGAAAGGAAAGTGTTTATTTGCAGGGCACCCAGCAAAGAGGACCAGGCAGCTAAGGCTTAAACTCTGACCTCCCCGATGGTTTGCAGGTAAGGGTTTT
TAAAGGCAGTGGTAAATTTCAGGAGAGCAGAAGTTATAGGCAAAATCGTTGCATGGAGGTTACACACTGGTCTTGGCCTGAAACAGTGGGATATCACGCA
GCTTGGGGCTTACAGGTCATAGGTAGAGTCAACGTTTTCTGATTTGCAATTGGTTAAAGTAAAGAAGGTTTGTTTAAAAATTTGGGATCAGCAGAAAAGA
AGGTTAGCTTGGACTGGTGGGTGTGACTCCCACTAAGCCCTTCAGGAAGAAATTTACAACAAAGAGTTCAGTCTTCTCCCGATACTTTTGGGGAGGGGTC
CAGGTTTCTAAAAAACAACTCAGAAACATATGCTAAGATGTTGTATTTAGTTTCTGTAGAGGAACCAAACCTCTGACTCTGACTTCCTTGGCTATTGTTT
TAGGCTACTATTACCTTCTTGGTTATCAAGTTGCTTATTTACTTCCCGGGGCTAGGTAGGGGCTTGGAATTTCCTTGGAAGGAACTCAAGGTTTTCCTTT
ATTTCCATGCTTGTGGGGAGCCCAGCAGGCCCCTAAGAGAGATCCCTGCTCCATCTAACTCAGTTGCATTAACCACACTTCAAGGGCTCACTCGGTCACC
GTACGTGGCTCGTGGCCACCGTGCTGACCACACAGAGAGCGCATTTCCATCCTTCGCACAGCACCGTTCTAGAGAATGCAACTGGCTTCACAAGTCACAG
CCTCAGCTGTGCAGGGATGACCCTTTCCCTGGGCAAGGGGAGGGGAGATGGGGAAGGGCTGATGAGGTTCCAGCTGGGGCCTGTTATCTGGGACCCTGCT
TCTCCAGAGAGGAGAGGCCTGGTTGGGCTGGTGGTCCCGGTTACTTGGGCTGGTGGGTGTGACTCCCTCTAAGCCCTTCAGGAAGAAATTTACAACAAAG
AGTTCAGTCTTCAGCGGATCCTTCTGGGGAGGGGCCCAGGTTTCTGAAAAACGACTTGGAAATATATGCTAAGATGTTGTCTTTAGTTTCCATAGAGGAA
CCAAACATCTGACTAACTTCCTTGGCTATTGTTTTAGGCTACTATTACCTGAGCCTGGCTCAGCCTGGGTGGACGGTGCCTCCTCCTGACCCCACTGGCT
GGGGTAACAGGAATGACCCTCCCTTGCTGCACCCACTGGCTATTAGCTGCCATCACCACCCCAACCCAGGGTCCCCACTGGAGGGGTTCTCTTCTACCCC
GGGTGACCTTTTCCGCAGGCGGTGTTGGAGTGAGCACCTCTCTGTAGCTGTCTCTCACACTCTTGTCTGTTACTGATTTTTTTTTTAATAAAAAGGTAAG
AAAACTTGATACCTTCTATTTTTAAAAACAATGAATTTGTGATGTATGAATTATATCACACTTAAGTTTTTTTTATTTATTAAAGGAGATGAAACTGCCC
AAAGAAAGATAGAAAGTGGACTGTCCCAGGTGCCACTGAGAGCGCCACTGGGGTCTGGAGACGTGTGCCCCAATCCCTTTCCATCTCCCTGCAACCCTTT
TATTTTTTTAAAGGATAAGCTTTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCCCTATCAAAGCTCATTGCAGCCTCAAACTCCTGGGCCCAAGCGATC
CTGCCTCTGCCTCCCAAGTAACTGGGACTACAGGTGTACGCCATCATGCCCAGCTAATTTTTAAATTTTTTGAAGAGACAGGGTCTCACCATGTTGCCAG
GCTGATCTCAAACTCCTGGCCTCCAGCAATCTTCTCACATCAGCCTCCCAAAGCACTGGGATTATAGGTGTGAGCCTCGGCACCTGGCTTCCATCTCCCC
TTTTCAGGCCACCCACTTCACATCTGTGTGGTCTAAATGCCCCCTACTCACCTCCTCCCAGTGATGCCTGCCCTATGTCGAGGCTCCTGTACCCCCGGGA
AGGGCCCCTTTAGACCTACCCAACTGCTTCTGGCAAGATCCATCCTGGGAGGGAGGGTGATCAGGAATGTGCCAGGGATGGACTGAAAGGGGTGGCTGTT
TCAGATTTCCTAGTAACCGGCTGACAGGAGAGGTTGGGGCGCAAGCAGCTCTATCTACCCACCTGCGGTTGTTTGTTTAAGTTGTGGTTGTTGCCATGGT
CCCCTGAGAGCTTGGTAAATGAGGAGCCAAACACACATGGGACCTTACCTGTAGACAGTGTGCTCTGGGGTTTAGGGGGCAGGCTGGGGGTCTCTCCTTC
CCCAAGGCCTTTGTTTCAAGGCAGGCAAAATTAACCCTTCTGGCCCCAAGACACCCTGCAGCCTGAATCCAGCTTGAATCCAGGCAGATCCAGGCTTCTA
CACAATGACGATTTAAAGCATTTATTGAGCACTTACTATATTCTGGACACAATATTAAGCCCTACAGGGGAAAGCAGGGTGGGCTGTGCAATCCAGAGTC
AGATAGGTTTGGGTTCAAGTTCTGGCTCCTCATTTACTGGCTGTGTGACCTCAGAAAAGTTTCTTGATCTCTCTGAACTTCTATTTGTTTAGCTGTAAAA
TGGGAATACCCATACCTGCTTCTGAATGATTTGATAATGATATAAAGCTCCCAGCACAGAGGGTATGCTCACCAATGGGAGACTGTGAGCTCTATGCAAG
CTGGGTCCTAATCTGTCTTGTTTGCTGTAATCTACCCCCTCCACATGCTTCTCACTTTCCCACCTCCATGCCTTTGCCCATGCCATCCCCTCCACTTGGG
ATGCCCTTTATTCTGCTCTCCATAAATCAAAATCCTTCCTTTCTTCAAGGCCTGGCTCAGATGCCAACTGCATCACATATAGGTGACTTTCATGCTTAGG
CTCTCTCCCTAACTAAGGTGGAAGCTCCTAGAGCCAAGACTATGGGATAGCATAACAGCACAATGGCAGAGTGGTTAATTGCATGGGTTTACCCCTGGAT
AAGTTACTTCTCCATACCTCAGTTTGCTTATCTGCATAATGGGCGTAATAGTACCTACCCAACACCACAGGTATGTTCTGAGGTTTAAATGAGGTAATGC
ACTGCTTTTTTCTTTTTTGAGATGGAGTCTCACTCTGTCCCCCAAGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCG
GGCCATTCTCCTGCCTCAGCCTCCTGAGTAACTGGGATTACAGGCATCCGCCATCACGCCCGGCTAATTTTTGTATTTTTAGCAGACACGGTTTTGCCAT
GTTGGCTAGGCTGGTCTGGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGTTTACACGTGTGAGCCACCTCACCAGGCCAA
AATGAGGTAATGCATGTAATGAGACCCCATCTCTACAAAAAATATAAGAAATTAGCAGGGCGTGGTGGAATGTGCCTGCAGTCCAGGCTACTCCGGGGGG
TTGAGGTGGGGAGGATTGATTGAGCCTGGGGAGGTCGAGGCTGTAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACCCTGT
CTCAAAAATAAAATAAAATAAAGTAGAATAAAATAAAAATGGGCCACCTGCACCATCCAATATGGTAACCACTAGCCAGATTGAACAATTTAAAGTAAAA
TGTATCAAAATCCAATTCAATTAAAACTTCAGTTCCTCAGTCACGCTAACCATCTTTCACATGTAACTAGTGGCTACCAGATATGTCTAACAGGACACCC
CAGACAGAAGATGTCTACCATCACAGGAAGTTCTGTGGAGTGGCACTGTAGCTGATGAGGATTTGTGAACATAGCAAGGTACTTGACAAATCTGTGGTCT
GGGTCAGGAAAAGAGCTCAGTGTGAAGGCTCACAACTCCTGAGGAGACCCCCAACCCTCCCTCCTGGCTCTCCTTCACAGTCTCCGATGCCCCTAGAAGT
AACTAGCACACCTCACATTATAGGGATTAGGGTGAGAAAGGAGACTGGTGAGAAATGGGCAGGATTAGTGGCTCGGGAAAGGGCAGTGGAGGAACCCAAT
CTCTGTACATTACTGGCCTGGCAGGAAGTGGGTGTAGACAGCAGCTGGGGCTTTGCAGAAATTGAGGCTGGAATGTGAAATGGGGCAGGGCTGGGGTGTG
GAGAGTTACCTAACTGTTCCTGAGTACATGCCACGGGCTCCCCAGGCAGAGGGAAATGGCCAGCATTAGCCCTGCCTTCTCCTTCTGGATCCAACTCTGT
GAGGAGCCCAGAGCAAGGAAGATGTCCCTGAGAAGATGTCTGATACTGACCAACATCTACTAGCCTAAAGAGACCCTGGGTTAGCCCAGAATAGAGGCCC
ACTGTAGCTCAGGGGTGGGTACCCAGGATGCCCCAGGAGTAGGGGACCTAGAAAAGCCCTAGGCAGAATGGTGTGGGCTAGCCCAGCTGCTGGGGCCGAG
GCTAGCCCGGGGTTGGTTTCAGCCCATGCAGACCCCCTCAAGGCTGAGATGTGGCCATGTGGCCATGTGGCCATGCTGCAGCCTCAAGCTGATGGTTTCT
TCAGAGAGAGTCATGGATAACAGGGTCTCTCCCTTCCTGGAGCTGAAGCTTACAGCTCCAGGGGGGACCAGGAGAGCTGAAGGAGAGTATCCCTCAGATG
CACACAACCCTTGACAGTCCCTATGTCTCATTAGATCTTCCCTCTAACCACATAAGGAGGGGAAGGCAAACATTAACGGCCCCATTTTATAAATGAAGCA
AGTGACGTTCAAAAGATGCCATCTGTCCTCTTCTTGACTGTGGACACAAAAGAAGGACCTGGGCCTCCCACCCCCAACAAAGTGAATGAACTGTTTACTA
CACTGACCAAGCCTCAGAATCCTACCCTTTCAGAGCTGGGTAGAGGGGGGTGATCTTTGCAGAATCCTAAGTGTGGGAAGACTGGGGCTCAGGGAGAAAG
GGTACCCACAAGGAGCGGTCCTCATTCTCCTGAAACTCCCCCTTCTCCAGGGCAGTGGTCACTGGAGGCCTGGGAGGGTCAGCGGGTTCTACAGGCACTC
ACTCTGGGCTCCAAGGTCACGGGAGGCCAGCCTCCCTTCCTCCCAGCTGCCTCCTCCTGGCAGGGGACCTCTGGCACACGCTCCATGCCCGCCTGCCCCT
CCAGATCTGTCCCCAAGCCAAGCAGGGGACCTCACTTAATCCCARTTATGTAATCTGCAATTTAAACAGTTGGCCCATGAGGAGGCGCTTGGAGCCACGC
CCAGGAGTGGGGGCAAAAGGACCCAGCTGGGTCAGGGCTGACAAACTAGGCTTGGCCTCTTGCCTATAGTGGCCACCACTCCTCAAGCCCCAGCCAGCAC
CATGAGCGGCCGAGTTGGAGACCTGAGCCCCAAACAGGCAGAGACCCTGGCCAAGGTGAGAGCCCCTCCCCCTGGAGTTCCGGAAGACCAGGGGAAAGGG
GCTGGGGGGTGGAAAGAAGTGGCTGGAATCCTGCCCCACTCAGTTGATTCAGCATGTCCTTGACATTGTCTCTTTGGTGTTACCTCCCAAAGGGTCAAGC
CCCACGGTGCCCAGTAACATCAACCCTGTCCCGGGCGGGGGTTGAGGGACTAGCACCACTTCCAGGCAATAACGTGGGTGGTGCCCACCCAAGTCAAGCC
TGACTTCTTCTCATCCAGGAGCCAGAACCAGAGAGGTTTACCTGGCAGCCAGGTACCCCCGTTCCTCCCTCCCAGGCACCATAGGTAGGAGCTGAAAGAT
GCTGCTGGTCTGCCCTTTAACCCCTTCCTCTTTGGGATCCTGAAAGATGACCAGTCTGTAAAAGCCCAAGAGACAGAGCAGAAAGTGTTGTCTTTCAAAG
AGCTAAAGGAAGAAGAGGACATATAATTATTAACCATGTTTTAATAGAAGATGGGATGAAAAAAAGCAGATGTTTTGAGGGCTAACACATGGAGGGAACT
AAGAATGCATCCAAACTCCAATCCACTTATTCATCCACCCAATTATTTATCCTTTCTTCTTCTTTTTCTTCTTTTTTTTGAGATGGAGTCTCTGTCATCC
AGGCTGGAGTGCTGTGGAGCGATCTCAGCTCACTGCAGCCTCTGTCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAG
GCATGTRMCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGAGTTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCC
ACCAACCTCAGCCTCCTAAAGTGCTGGGATGACAGGCGTGAGCCACCAYACCTGGCTGTTTATCCTTTCTTTCATCCACCCATCCCTCTTCCTACCCACG
CAGCCACCTATCCATCTTTCTTTCTCTCAATCACCCACCCATCTCTCCTCTGTCCATTCACTGATTTATCCACCCACCCACTCTCCATCCATCCATCTAT
CCATTCATCCATTGATTTCTTCTCCCTTTTTCCATCTACCTACCCACTCACCCATCTATTCTTCTTTCTAACCATTTATTCATCCATCTATCCTCCTTCC
ATTCATCCACCTATCCAGTGATCCATCTGCCCTTCTATTCAACCATTAACCCATCCTTTCATCAATGTGGGCCATTTTGCATGTGGGAGGAAAGGAGAGG
TTGTGAAAACAGTCTTTGAGTCTGGAGGCCAAGGCTSAATGTGAGAGAGCCACTTTAACCAGCATCTCTCTTGCCAGTTCCGAGAAAACGTCCAGGATGT
GCTTCCTGCCCTGCCCAACCCTGATGATTATTTCCTTCTACGCTGGCTCCGAGGTGAGGGCAGAGGTGGGAGAGGYTGGGATCAGGGGGCATCAAGAGGG
GCCTGGTCTCAACTGCTCCAGAGTGTCTCATGGCTCTCAGGGTCCATCCACACAATCTTGCTTCACRTGTTCAGGTCCAGAGGAGGGAAGGGGGTAGGGG
AGCAAGGTCTCACCCAGGCCCCCAGTGTCCTCCATAGCTCCCACTGGCCAGGAGTAAGACAAGGCATCTTTCCTGTCTCACACCTTCCTTCTGTTTTCCC
ACAGCTCGGAATTTTGACTTGCAGAAGTCGGAGGCTTTGCTCCGCAAGGTGAGACCTATCCACTCTGGAAATTTATGGAGGGGATTTGTCAGGGGCAATC
CATGCCTCAAGCCCCTCCTTCCATCCCTGTTCTCAGGGCACTGGGAGCCCAGTGGGATCTTACCACTCATTTCCCTTTCAGTACATGGAGTTCCGGAAGA
CCATGGATATTGACCATATCCTTGATTGGCAGCCCCCAGAGGTGAGCCAACACCGCCAAACACCTCAGTCTTTCACGGACGTACCACTCAAGGTCACTGG
GGACCATGAATGAGGGGCAGCAAGCCTGAGAGGCCTGTGGAACCCGCAGGCCTGCAGTCTCCTTTCCTACAGTCATAATGAATGTTTCCTGGGGGCTTGC
AARGTCCAGGCCTAGGTTAAGATGTTAGCAGCAKGAGCTTCTTTAATCATCACAATGATGGATGCTATTGTCCCCATTTTGTGGATGAGGACACTGAAGC
CCAGCAAAAATTAGGTAACTTGCCCACAGTCCCATAGCCCAAGGTAGGGCTGGGATTTATGCTCAGGCCTGTTTGGGCCCCCAAACCCAGGCTCGTAACC
ACCACGGTTAGCCTGTGCTTCTGCACCCCTGCCCCCTAAGGCATTGCCTAAAGCATCCTGTCTGGGTGGGAAAGAAGTTTAGCCCATCAAGGCACTGATG
AGGACAGTGCCACCACTGGCATCTTAGTAGAGTAATGGTCACGTCTTCACTTGTAGGGCATGTACCCRGAKCTGGGCACTCTGCTTTGCCAACTTTATCT
CAGGGACTTTCCCCAACAGTCCCAAGAGTGAGGGGTTATCCAAACCATTTTACAAAAAAAGTAGGTAGAATGGAGCTCAGAGAGGTGGTGTCACTTGCTC
AAGGACACACAGTACAGAAGCAGCAGTATCTGCTTTTTTTTTTTTTTTTTGGATGGGGTCTCACTCTGTTGCCAAGGCTGGTGTGCAGTGTCATGATCAT
GGCTCACTGCAGCCTTGAACTCCTGGGCTCAAGTGATTCTCCCACCTCAGCCTCCCAAGTCTACAGATGTGTATTACCACAGCTGGCTAATTTCTTTTAT
TTTTGTAGGGACAGGGTCTCTCTCTGTTGCCCAAGCTGGTCTCAAACTCCTGGCCTCAGGAGATCCCATCTGCCTCAACCTCCTGAGTAGCTGGGATTAC
AGGCATGAGCCTCCATGCCCAGCCAGTGTCTGTTTTTGAACCAGCTCTGTTAACCTTCAGAATCTGTGTTCTCCATCACTAAACCCGACTCTTCTCCACA
GAAAGGGACACGGGAGACATCAGGGGCAGACCTAAGAAGTCCAAGGGCCWGCTGAGACCTGGCTTTGCCATTTACCCTCTGTGAGCAAGGCCCTCCCCTG
CAGGACCTCAGCTTTCTCACCTGAGACAAYAGCACTGTCTTCCAGGGAGGGACAVTGCTTTTTATACCATGGTGTGTGTAGGCTTGGGCCACCCAGGTCA
GCCTGGTCTGGGGTCTCAAGGGAGGTGTGTAATGCCAAGTTCTGTGCATCTTTTYATGCCCAGGTGATCCAGAAGTACATGCCTGGGGGCCTGTGTGGCT
ATGACCGTGATGGCTGCCCCGTGTGGTATGACATCAYTGGGCCACTTGATCCCAAGGGGTTGCTCTTCTCAGTCACCAAGCAGGACCTGCTCAAGACCAA
GATGAGGGACTGTGAGCGCATCCTGCATGAGTGTGACCTGCAGACAGAGAGGGTGAGGTCCAGGCCAGGTGGGGTGGATGGCTGGGGGCAGGTGAGGCTG
CCGGGGGGATTGGTCTCAGAAACACACCTGTGTTCTCTACAACCACAGTCAGAGGGCTCTGGGGTCAAACACCAGCTCTGTTGCTTACCAGCTGTGTGGC
CTTGAAAAGTCACAGTCACAGAAAGACAGTTTCTTGAARGATACTTTTGCTGGGAATAGAACCCYCTTTTTTTTTTTKCTTGAGACAGWGTCTCGCTCTG
TCACCTARGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGAAACCTCCGCCTCCCAGGTTCAAGGGATTTTCCTGCCTCGGCCTCCTGAGTAGCTGGGA
TTACAGGCGCCCGCCACCACGCAGGGCTAATTTTTGTGTTTTTAATACAGACGGGGTTTCACCATGTTGGCCGGGATGGTCTCGATCTCCTGACCTTGTG
ATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTACCAGGCCGGGAATAGAATTCTTGGTTGATGGGTTTTTTTGCTTTGT
TTTGTTTTGCTTCAGTGTTTTGAATATGTCATTTCACCTGTCTGAGCCTCAGCTCCTTCACCTATAAAACAGGGATATGAATAAATAATGGTTGCAAAAG
YGAAATGAAATAATGCAAGTATGCAATTTAGCACACAGGGCCTAATATATATTTCTCAACAATGGTAGCTATTGCTATTCCCTCTGAGCCTTTCTTTGCC
CTTGCTATTCCTTCTGTCTGAACAACCCTAGTTCCCACCACACACACCTACCTCCCACAACTTTCCCTGACTTTCTCCTATCTATCCTTTAGGTCTGAAA
CTTAGATGTTACCTTCTCTGAGTCCCCCGCCTGGGTTAAATAACCTCTTCTGTATCCCTGAAGCTCTTGTGCTGACCTATTGCAGCACTTATCATAGGAT
CCAAATGACCTGGTTGCTTGTCATCTCCCCAGCCAGACAGTGAACTTTTTAAGGACAAAAACTGTGGGTTATTAGGCACTATTCATTACACTTTAGTGTC
TGGCACACACAAAAAAGTGCTTGATAAATATCAGTTTATATTTATCAGTTTATATTTATATTATGGAAAAATGGAGGATGAATAAATTAATGACAATATG
WATGAATGGATGGATGGTTCAATTAATTGATGAGTAAGTTGATATATACGGGGGTGGGTGGGTGGATGGTTGGATAGATGGATGGATGGATGGATGGATG
GATGGATGGATGTGGATGGATGGATGGATGAGTGGGGAAATGCATTCACTGGTTAGTCTACTTGTTCCTCTGAGGACAGAGTCGGGGTCTAGAAGAAGCC
CCAAGGGGTCATGTACTTGGATTACCATCTCCCAAGCCTACACCCTGAACTCCAGAACTACTTCTTGCTCTCATCCTTGCAGCTAGGGAAGAAGATTGAG
ACCATCGTGATGATATTTGACTGTGAGGGCCTGGGACTGAAACACTTCTGGAAACCTCTGGTAGAAGTGTACCAGGAGGTAAGGAGAAGTCCTAGGGCCA
CCCCCCGCTTGCTTTGATGACCAGCTTGGCCTGCCATGACCCAGCTGCTTACTGAGAGCCAAGATTTAGTTTAAAAATGTCCTGGGCTCCCTCATTGTGA
CTCAAACTCCAGAAGGCCTTAATACCTTTCCTAGAAGATCCCACAGAATGGGTTTCAGGGACAACACTGTACTGAGACCACACRTTCCAGCTTCCACCAA
ACCCTCTCCATGCTTGTTTCCTGACCTACAAAATGGGGATAGCAATGTAGGGATACTTCAGCAAGTTGTTATGTAAAGTGTATATACACTGCTTGGCAAA
TAGTGAACATTTAATMAACAGTAGTCATTATTATTATACTACCATTATTATAATATTTACTAAAAACAATTATTATGTAATTATTATTAGAGTATGGTTA
TAATAGTATGAGGTGAGAAGGTTCCCTCCAGAGGCCAGGGGAGGTGATGGCATGAAGGGAAACCCTCCAGAGCCATCTGAAACCTCCCAACAGGAGATTG
CACAGGAGATGGAGGTAGGAGAAGATGTGATGTGCTCTCTGAAGGGWTCTCTCTTGGTTCCACAGTTCTTTGGCCTCCTTGAAGAGAATTACCCAGAGAC
CCTGAAGTTCATGCTCATCGTGAAAGGTATGTGACAAATGACTTCACTTACTTGTGCCTCTGTTTCCTCATCTGTACGCTGAGGGTGATAACACTGTCTT
TGTCCCAGGATTGTTGTGAGGCAGGTTGGTTTCTTGGCTGTATGCAAATCACTTAGAATGCCTGGCATAGAGTAAGTTCTCAATAAATGGTAACTTCTAG
KGTTGGCCTTACTGCAAGAGAAGGCAGCTCCAGTCCCAGCTCTCCCAGGGATCCTCCCTTATTTCTCCTGTCCATGATGATCTCTCCCTCCCCAGACTGC
TTCTGGCACTGGCAACTGGTGCAGCCTTCCCTGTTTGCTGCCTTTTAGGGATCTCCAGCTGTTTTATTTGTGCTCATCCTGCTTTACTGGCTGAGTTTTC
TGCTCCTTGAAGCCARGGGCTGTGATTCTCCACTTTTGTTGTAGCCCTCACAGGCCTGGGTCCATGGTGGATGCTCCATAGGTATTTGGGTRATTGTTGT
GGGTAGATGAAAGGATGGATGGATGTTTGGTGATTGGCTAGTTGGTTGATCAGTTGGTTGCTTGATTGGTTGTTCAGCTGACTGGCCAGTTGGTTGCTTG
GCTAGTTGACTAACTGGTGGTTCRTTGGAGAATTGGCTGGCTGCTTGGTTGGCTAGTTCTTAGCTTGGTTGACTGATTGAGTGGYTGGTTGGCATTTTGG
TTGGTARGTTGTTTTGATGGCTAGTTAGTTGGTTGCCTGGTTAGCAGGTTGGTTAGTTGGTTGCCTGGTTTGTTGTTTGGCTGAATCTTAGATGATTATT
TGGATGGTGGCTGGCTGGTTATTTGGATGGTTGGCTGGCTGGTTATTTGACTGACTGGCTGGCTAGTTATTTGGATGGTTGGCTGGCTGGTTATTTGACT
GACTGGCTGGCTGGTTATTTGGATGGTTGGATGACTGGTTATTTGGATGGTTGGCTGGCTGGTTATTTGGATGGTTGGCTGGCTAGAGAACACAGTTAGT
TGAGTGGTTATCTGGCTGTTCCATTGGCTGATTGCTTTGCTGTTTGGCTGATTTGTTAGATGGTTGACTATTTGGTAGGTTGGCTGGTTAGAAGTTAAAT
TGTTTGACTATTTGTTGTCAGTTGGTTGGTTTGTTGCATAGTTGGTTGGCTGTTTGGTAGGTTGGCTGGTTTATTGGTTGACTGAATAGGTGGCTGATTA
GAAGTTTGAATGACTGGCTGGTTTGTTGGCTGAATGGTTGGTTGATGGTTGCATTGCATGATTGATGCATGATTGGTTAGTTGGCTGTTTGTTGGCTGGT
TGACTGGTTGGTTGGATGGTTTGTTGGGTGCAGGACAGACACTGGAATTGACCAGGGTTAGTCATGACTCCTCTGTATCATTGGCTATAACCATTATGGA
GGGGGTTGCCCAATGTAATTCTTTTCTTCCCATTATCCTTACTTCTATCTCTCCAGCTACCAAACTGTTCCCTGTGGGCTACAACCTCATGAAGCCATTC
CTGAGTGAGGACACTCRCAGGAAAATTATTGTRTTGGGAAGTAAGTAGTGCCAGCTCAATTTCCTGACCTCTATACATGACCTTTGGAGTGAGGTTGTCC
CATTACCCCATCTAGAACTCCACACATTAGGTTGGGTGCAGTGGCTCACGAATGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTGCTTGATAT
CAGGAGGTTGAGACCAGCCACAGCAACATAGCAAGACCCCATCTCTACAAAAAATTTAAAAATTAGCTGGTTGTGGTGGTGCACACCTGTAATTCCAGAT
ACTTAGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAGTATGAAGCTGCAGTGAGTCGTGTTCACACCACTGCACTCCAGCCTGGGCAACAGAGTGA
GAACCTATCTCAAAAACAACAGAACTCTACACATCACCTAGTCAGAGGCTCCTTCTTCCCAACAGTGAAGTGGGTTTTACCCTAAAGAGTGTTACCTTTG
CTCTTTTCCCTGCCATACCCCTTTGGTGGACAAGGCCTCCACACCTACCACCTCACTGGTTTCAGTTTGGTTGCAGTCAATTTCTGGTATATAGGCCTCG
GTTTCTTTTCAACACTCATAAGCTTAGTGCTTCCAAAGGCAACCTTGGCAGAAGAGGATGAGGCAGACGAGCAGAAAGAGTAGTCACAATTCAGAGAAAG
GARACCCAACAAGAAAGGACTGGATAAATAAATAATGGTGCATGCATTTGATGAATTCTGGAGCCGCCATGAGAAATAAGGCTATATGTGAATATTTAAT
GCCATGGAAATGTCTTTAAGTTTTTAAAAGTAGATTATAAACTTATCTTCATAAGCATAAACTAAAATAAGATTAAACTAAAAGTATAATCTTATTTTAT
GAAAACATATGTACAATAAATACATATTTCTACAAGGAAAAACAACAAAATATTTTTTGTTGATAGTGAGAGATCGTGTGGTTTTTAATTTTATTACCTG
TATTGTCTATGATTTCTAAACTGTATAATAATATGTATTAATTTTACAAATAGGAGAATAGTTGTGTTTACAAGTGACAGGCTGAGAGAAAGAGAGAGAA
GGGAAATAGTTCTTAAACCCAAACCAATGACCCTGGCTTGGAGGAAAACTTCTCCCAAGCAGGATAGTCAGATCACAGAATTAGGAGAACTGAGGATCCA
GGGGTGAGGGGGAGCTTATAAATCCTTACTTTCTCTTTCTTCCTGGTACCTGAGCCTCTGCCTCTACCCAATTCCACTGGGATGGGGAACTTGATAGATT
ATGAGGGCCTRGTTTGAAGGGTCCAGGCTCATGCCTTCTACGCCTTCCAAAGCCTAGAGCAGTGTGGGTTACCAGCACAGTCCAGGCCTTAAGTCCACAG
CCTCTGCCCCATGTGACTCTGCTCATTTGGCTCTGGTATGTGGCACATTGTGGTCTTCCCCTTAATACCACTGTAGAGAAGGAACCTCCCATGGCCAAAG
TGAGGGGGTTGGGGGACCGGGTAGCCTGGATTAGCCATAAGGCTGGGGCATGGTAACAGCCAGGACCCAGAACTCTTAGAGCTTTACATAGGGCATGAAG
AACATTATGGTCATGGTGATTAGGCAGAGGGAAGTGGGGAGGGTCCCTCCAAAAGCCCAGGGCTGTCCATCCCCCACTAGGAGGTCTGACTTGGGCATGC
CACTTACTTACAGAGTGATCCCAACAAGGCCGTTGACGTCATTGAGCTCTAAACTCTCCTTGAGGCAATTAGATAACTCTTAGTTTCACTGCTCATGACT
GGAAGATCTTCAAGAATGTGCTGTTGGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACAAGGTCAGGAG
TTCAAGACCATCCTGGCCAAGGTGGTGAAACCCCGTCTCTACTAAAAATATAAAAATTAGCCAGTCATGGTGGTGGGCACCTGTAATCCCAGATACTCAA
GAAGCTGAGGTAGAGAACTGCTTGAAACCATGAGGTGGAAGTTGCAGTGAGCTGAGACCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCG
TCTCAAAAAAAAAAAAAAAGAATGTGCCATAGGCTGGGCATGGTGATGGTGGCTTACACCTGTAATCCCAACACTTTGGGAGGCCCAGGTAAGACAATCA
TTTGAGCCCAGGAGTTTGAGACTAGCCTGGGCAACATAGTGAAACCCTATCTCTACAAAAAAAAACCAAACAAAACMAAATAAAAATTAGCCAGGCATGG
TGGTACATGCTTGTAGTCCCAGCTACGCAGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAAGTCGAGGCTGCAGTGAGCCATGATCATTCCACTGC
ACTCCAGACTGGACAACAGAGTGAGACACTGTCTCAAAGAAAAAAAAAGTGCTGATTCATCTATCAAGGCGGGAAACACATTTCCACAGCAACACAATGC
TGAGAAAGACACTTACTGTAGCCCCAGGCCTAGGACACTGGGGAATTGGTCCTGGCAGCCTACCTCCTATAGGGCTTCTCCCCCAGTTCAGGTCATCCTG
GTGGGTGTGGGAGGCTAATTGGTGCCCCCCATGCTTGCTAACCACCCTTGAATCCCACTGCTCCCAGATAACTGGAAGGAAGGTTTGCTGAAACTCATCA
GTCCTGAGGAACTGCCTGCCCAGTTTGGGGGCACCCTGACTGACCCAGATGGGAACCCCAAATGTTTAACCAAGGTACAAAGAGCCCTTCCCTGGGACAA
GAGAGGTTCAAGAATTAAGCTGGATTCCCTTTCCACTCAGTCATTCATCCACAATTACCTATAGAGAGATGCCAAGAACTGGGTGTTAAGCTAGTCAATA
CAACCCTCGCCCTTACAGAGCTCTCAGCAGCTGTAAAGGCAAACAAGAAATAGGCGAATTTTAACCCAGAGGGATGAGCTGGGAGGGGAAGCTCCCAGCA
GACGCAYTGGCCCAGTTTGGAGGGTCAYAGAAGGCTTGAGGAGGTGGGAGAGTGGGGCTAGGATGAAGAGGATACTTCCAGGAGGTGGTGAAAGTGTCTC
AGGCAGAAGAAACATGAACAATGGCCAGGAGACGGAAGCAAGCCCATCTCATCCCATGTCCGCAGATTAACTATGGCGGGGAGATCCCCAAGTCCATGTA
CGTGCGGGACCAGGTGAAGACTCAGTACGAGCACTCGGTGCAGATCAACCGCGGCTCATCACACCAAGTGGAATACGAGATCCTATTTCCAGGCTGCGTT
CTCAGGTAGGGGCAGGCCCTAACCCCTCAGAGACCCATCAGGCTGAGCAGCAACCTGTCTCCTCCCCCTCCCCCTGACAGGTGGCAGTTCTCATCTGAYG
GTGCGGACATCGGCTTYGGAGTTTTCCTGAAGACCAAGATGGGGGAGCGACAGCGGGCAGGGGAGATGACAGAKGTTCTACCCAGCCAGCGCTATAACGC
CCACATGGTGCCCGAGGATGGGAACCTCACCTGCTCAGAGGCCGGCGTCTGTAAGTCTGCCCCAGCTGGGACCTGGCTCTGAAAGGCTAGAGCCACCTGT
CCCATGCTTTAGAGAAGGAAACAGAGGGGCAGTGACACACCTCCCCCATTCAGGGACACACAGCCTAGGTTAGCACCATTCATTCATACAGTCACTCACT
CAGTCCATATTCATGAGCACCTACTGTGCACCAGGAGCCAGAGACATACAGGCCCTGAAGGAATTGGGGRCACCTGGACCACAGAACACAGACAACAAGT
GATAGGGCAGGTGTAGTTTTCCACATGAGGAAACCGAGGCTCTGAAAAATAAATCAACTTGTGCAGAGCCACAAAGCTGAGTGTGGTTCCAGGGTCCCAC
CCGAGCCTCAGGGTAGCTACATAGTCCTGGGCAAAAGTCTGACCAATCTGGGAAGGACCCTTGGTTTGCTCACCTGTGAGCCAGGAGTTACAATGCCTGT
TTTTTCTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTGTCCAGGCTGGAGTGCAATGGTGCAATCTCTGCTCACCGCAACCTCC
CCCTCCCGGGTTCAAGCGATTCTGCTGCCTCAGCCTTCTGAGTCGCTTGGATTACAGGCATGTGCCACCACACTTAATTTTGTAATTTTAGTAGAGATGG
GGTTTCTCCATGTTGGTCAGGCTGCTCTCGAACTCCTGACCTCAAGTGATCCACCCACCTTGGCCTCCCAAARTGCTGGGATTATAGGTGTGAGCCACTG
TGCCCGGCCAACACCTGCTTTTTGGGGTGGTTGTGAGGAGGCAAACAGTGTCCAGCAGGCCTGCCCCAGAACCCCACTTCATCCAAGGGGGCTGGGAGGT
CTCTGATGAACCCAACCATGTGCCTTCACAGCCCMGTCATGTGCGTCTCCAGGTGTGAGACAATGGGATGTAATGACCATTGTTCTCGATGCCAGTAAAG
CCATGCCTGGGCACATGCCAAGAGGAGGTTGGTGTCTGTTTACAGGACCTGCTTGGGTTGGCAGTTCCCATGGGGAAGGGAAGAGGCGTGGTGGGAGCTT
GGCCCAGCTTGGCAAACAAAGCCAGTGGGAACACAAGCCTGTCCTCCTCCATGGCCAGGGGTGGAAAAAAGAGTGTGTAAAGCCAAGCCCAATGCCCCTC
TTTCCATCTGTCCCCCAGATGTCCTAYGCTTCGACAACACCTATAGCTTTGTCCACGCCAAGAAGGTCAGCTTCACAGTGGAGGTCCTGCTCCCTGACGA
GGGCATGCAGAAATATGATAAGGAGCTCACCCCTGTCTAGGTGGCTCCCTCATTTCTCAGAGACCTCCTAACCCTTTGATTTCTCTGTTTATATCCTACA
CTCCCTCCCTCCCTGAAATTGATTGTTAGTCCTCCTGACTCTGTGACGTTAGTGAGTACAGAAAGAGATGCCCTGGGGAAAACTCATCTACTGTGGTCAG
ATCAAGAAAGGTATGAGAGGCACAACCTTGGAGGGTACCAAGGTTGCAGAAGAGGAAAAAGCAAGGGTAAAGGCAAGAAGTGGGTGTCATGAAACTCAAT
AAATAGCAAAATGAATCCCCTAGCCTTTGTCCTCACCTACCCTAAGGCAGGTGTGTATGCTTGAATTCCTTCCGTATGGCTGTGAGCAACTTGGGTTGGA
GACATATCTAAATCCTTTTTACTTCCACTCCCTATATATAGTAGATGCTCAGTGTATATTTGTGGCATTGAATGGAGGACCAGAAGGTAGGGTGCAGGTG
ACTCAACAGCTGTACATGATTAGGAGGAGCCTATGTGGGGTGGATTTCAGCACCTTGGACAGGAGCAGATGTGTGGTGGGGTTGGACTCTCTTCTGGAGA
CCCAGACAATTCAGTCTCCAGATTTCTGGCAGTGGCTGTCTTTTGAGGGCCCCAGCCACAAAGGCCACATGCCTCTGATAGGAGCTGCCTACATCAGGCT
TTGTCTGACTTGCACGCTCAGCTTCCCACCCTAACCCACTTCCCTTGTTGCACATAGCTTATGTTTTAGGGACTTTCCTGGAAGCAAAGGCAGTCACATC
TGGCATAATCATAATAAAGAAAACAACTATCATTTGGCGAGTGCTCTCTGTGTACCAGAAACTGTGCCAAGAGCTTTGTGAGTTTAGCATGTTTTATTCT
CATGCCATCCCCAAGGCCCTTTATGGATAAGGAAATGGAGGCTCAGAGGGGTGAAGCTACTCACTCAACATCTTACAGCTTGGGTGGCAGATCCAGGACC
TGGGGCAGGGGGTGTTCGTTTGTTTGTTTATTTGTTTGTTTGTTTGTTTTTTGAGACAGGGTCTCGCTCTGTCGCCCACCCAGGCTGGAGTGCAGTGGTA
CAATCATGGCTCACTGCAGTCTTGACCTCTTGGGCTCAAGCCATTCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGGGCATCACCACACTTG
GCTAATTTTTTTGTATTTTTTTGTAGAGATGGGGTTTCCCCATGTTGTCTCAAGCTCCTGGCCTCAAGTGATTTACCCCCCATCAGCCTCCCAAAGTGCT
GGGATAACAGGCCTCAGCCACCATGCCTGGCCTGTTTTTGCTTTGTTTACTCCAATGACATTGCTCTCAGTTGCCTTGTAATACCGCCTCCTGCCTATAA
TCCCAGCCCTTGGGGAGGCTGAGATGGGCGGATCGCTTGAGCCCAGGAGTTTTAGACCAGCCTGGGCAACATAGTAAGACCACATCTCTATCAAAAAAAT
TTAATATAGTAAGAATATGACCTCCTAAGATTCCACTTTTACAAAGGCAGTGAGAAGGCATGATTTATTTGTTCTAGACCTTCCAGTAGAAGTGTCCTGC
ATGTCACCCTCTCCAGTCCCTGTTTGTGGGTAGAGGAGGTGATAGGCCATAGAGACCCACAATACTGAAGCAGCTTGTCCAAGGAAATTCACAGCAGAGT
GGGGCAGGGCTTGTGTTCCTCAGCTCAGCATCCTGTCCGCTGCTCACATGGCATCTGTGAAGCACAACCCCCTGACGCTCACCATGACCCTGGGTGACTA
GGGCAAAGGCCAGGACTCCAGAGTTTCCTTCCCAACTTTCTGCTGTGATTCGGGGACGTGAAGAGGCTGGCTTGAGCCCCAGTCCCTGACACAACTCTTG
CCAGGGGAGCCGGATCACACCCGGGAATGGGGATGAATGGGAACCAAAGGCTGGTGCCATGAGAGGCTCCTTGGAAACAAACAAACGGAGGGCTGAGCTC
ATCCGTGGGCAGGCTATGAGGTCTGACTCAGGCTAGTCAAGCAAATATTCAGCAGCAGCAAGCACTTTCCCACATGCACTTATGGGTGCAAAATCTGATA
TCTGCTTTATAGATGGGAAACTGAGCTCCCAAAGGCACTGGCCTTGTATCTTCAGCCTACAGGTGACAGAAATAGTCCTGGAGCTAAGGCTGCCCCTTAC
CCCGTCACCTCTTCACCCCCACCACTCTTCTATAACAATTTGTCAGAATGGGACAAGACTGCCTTCTTCCTGAGCTGGCAGGGAAGGAGGAGGGAGGAGG
AAGGAGAAAGGAAAAAGGAAGGAAGAGAAGAGAAAATGAGGGTTGTCAGATTTAGAAAGGAAAAAAAAAAAAAAGCATGGCCAGGTGCAGTGGCTCATGC
CTATAATCCCAACACTTTAGGAGGCCAAGGCAGGCGGATCACTTGACGTCAGGAGTTCGAGACCAGCTTGGCCAATGTGGTGAAACCCCGTCTCTACTAA
AAATACAAAATTTAGCCTGGGGAGGTAGCACATACCTGTAATCTCAGCTCCTCAGAAGGCTGAGGCATGAGAATCTCTTGAATCCAGGAGGTGGAGATTG
CAGTGGGCTGAGATCACACCACTGCACTCCAGCCTGAGCAACAGAGCAAGACTCCATCTAAAAAAAAAAAAAAAAAAAAAAAAGACATACTTAAAATGTA
TCCATTGTTTATCTAAAATTAAAATTGACCTATGCATCTTATATTTTATCTGACAATCCTACCAATGAGGGAAGATGGAGGGAAGAGAGAGGAAAGGGAG
GAGGATGGAAAGAGGGGGATGGGTTCACCTTCTTGGAAGACGGTGGCAGCACCCACAATTTGGGCCAATGATGTCATGGAATCCTTGGGAGAGGATGGCT
TAGTGTGGGTGATGCAGGGTCGGGGGACAGGGTGGTCTCACCCTTGACCACCAAAGGAAAGGCCTCGATGTTGAAGCAGGGTCTGAGGTAGAGAGTGTGG
ACCCTTTGTGCCTTTGGGACTAAGATGAGCAGTGCTGTTGCCAGAGCTCCTCTGTGGCAGCTGAGTGGAGGGGACTTGCACCAGGAGGTGGAGCAGTGCA
AAGAACCTAAGGCCAGGGCCAGAGCTGAGATCTGCAAAGTGCCCATCAGCATCCGCTGATGCCCACCCCTGGCAAGCCAGCTCCCACTGTGTGCACACAG
CCAGTAAGAGGCAGGCTTCCCAAGCTCCAGCTTCTAGCCTCCAGTCTTACTCAGGGTCTAGATGCTCAGCTCCAGTCCTGAATCTCCAGGAGGCAGCATT
GGGGAAGGAAAGAGACCCACTTTGTAGCTTTGGCCAATGGTCACTAATAGAGTTTGGATATTTGTCCCCTCCAAATCTCAGGAGGAAATGTGGCCCCCGA
TGTTGGAGGTGGGGCCTAGTGGGAGGTGTTTGGGTCATGGCGGTAGATCCTTCATGAATGGCTTGGTGCCTGCCCGCCATAATGAGTGAGTTCTTATTCT
ACAATTGCTTAAAAGAGGCTGGCACCCCTCCCCTCTTCTTGCTCCCTTCCTCTCACCATGTGACACGCTGGCTCCCCTTCCTCTTCTGCTATGAGTAAAC
GCTTCCTGAAGCCCTCACCAGAAGCTGAGCAGATGCCGGCACCATGCTTTCTGTACATCCTGCAGAACAATGAGCCAAGTAAACCTCTTTTCTTTGTAAA
TTACCCAGCTTCCAATATTCCTTTTTTCGTGTTTGGTGTTTGTTTTTTTTTTTTTTTTTTTGGAGACAGGGTCTCACTCTGTCGCCCAGGCAGGAATGCA
GTGGTGCAATCTAGGCTCACTGCAACCTCCACCTCCTGGGTTAAAGCAATTCTCCCACCTCAACCTCCCAAGTAGCAGGGAACACATGTGCCTGCCACCA
TGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGTCTTGAACTCGTGGCTTCAGGTGATCCACACACCTTGGCCTCCCGAAGT
GCTGGGATTACAAGCGTGAGCCACCTTACCTGGCCCAATATTCCTTTATAGTAACACAAAATGGACTAACACAGCCCCCTCATTCCAGAAGTGATAAGCT
AGCAGCATAGGGCAGGAAAACCAAGGCCTGCAGGCCCCCCATTGTGTGAGAAGGAAAGTTAACTTAGAAGTTCCTGTTCCAACAGCCCAGAAATGCCAAG
GCAGAGCCAGGGAAGGAAAAGTCTCACTGTTCTTGGGAAGCTAGAGTTGGTGGCCACAGGCCATTTCCCATAGAGGAGTCAAATTTCTGCTGAGGCCAAA
AGGCGAGGCTCCCAACCGTGTAGACCTCAGGCCAGGGACACCGGTGGGCAACACTATGCTGGTGCTAATGAGGCCCCAGCCCTGCCTCTTACTCCTTCCC
CAAGAACCCACCACCACACTGGCCCCTTCAGAGACCACAAATGCATGTCACAAAGTTAAGACATCAGGTTTTTCCCCTAACAACTAGTACCAAAAAGCAC
AAGGTTAAGGCAACACAGGCCAGGTGCAGTGGCTCGTGCCTGTAATTCCAGCACTTTGGGAGGCTGAGGCAGCTGGACCACTTGAGGTCAGTTCAAGACC
AGCCTGGCAACATGGTGAAACCCTATCTCTACAAAAATATAAAAATTAGCTGGGCGTGGTGGTGCATGCCTGTAATCCCAGCTACCTAGGAGACTGAGGC
AGGACAATCACTTGAACCTGGGAAGTGGAGGTTGCAGTGAGCCGAGGTCACATCACTGCACTCCAGCCTGGGCGACAGAGACTCCGTCTCAAATATATAT
AATATATTATATATAATATATTAAATATTATATATTATATTATTTAATATTTATATTAATTTATATTATATATTAAATATTAAATATAATATATTAAATA
TTAAATATAATATATTAAATATTAAATATAATATATATTAAATATTAAATATAATATATATTAAATATTAAATATTAAATATATTATATATTAAATATTT
AATATATTATATATTATATATAATATATTGTATATCTATTATATAATATAATATATTATATATAATATATTATACATCTATTATATAATATATAATATAT
AATAATATATTATATATCTATTATATGATATATAATAATATATTATATATCTATTATATAATATATAATAATATATTATATATCTATTATATAATATATA
ATAATATATTATGTATTATATAATAATATAATATATTATATATTATTATATATTATATTATAATATATAAAATATATAATATACAATAATATATAATATA
TAATAATATATTATATATTATATATTATATATAATAATATTATTATATATTATATATTATAGATTATATATAATAATATATATTATGGATTATAGATTAT
ATAATAATATTATAGATTATATATAGTAATATTATAGATTATATCTAATAATATTATAGATTATATCTAATAATATTATAGATTATATATAATAATATTA
TTATAGATTATATATAATATTATTATAGATTATATATAATATTATTATAGATTATATATAATAATATTATTATAGATTATATATAATAATATTATTATAG
ATTATATAGAGAGAGAAACAAGGGTTATTTTTTCGTTGTCTTCTGAAGGGGCCACTGCCTCCAGGTCTTCCTCCAAAATAGACTGAGATTCCATATCAAT
TTCCTCCTCAGAAGAGAGTCTCTCTGTTGCGCAAGTCACCAGCCCCATCTTGTGGGCCTCCCAGCTGGCAGGGCACCAAAACAGAGCCTCTTAAGCTGCA
GAGAGGGCAGGATGGCTGGAAGACCTCGAGTGCCTTCCTCAGGGTCACAGGAGCAGCAACAGAGTGACACCAGTGAAGGCCAGTGCAACCAGCAAAAAGT
CCTTCAGCATCTTGCAGGAGGCTGGGAAGGAGAGGTCCAAGAGCACCCCAGGACTGCCCAGAGGTGCGGGGCAGGTTGTACAGGACAGCTAGGGTGAGTC
CAGAGGTAGGAAAACAAAGGCCAGGAGTGCCTGGGGAAG


SNP Information

Context             (SEQ ID NO:18092):
TTCTTTTCAACACTCATAAGCTTAGTGCTTCCAAAGGCAACCTTGGCAGAAGAGGATGAGGCAGACGAGCAGAAAGAGTAGTCACAATTCAGAGAAAGGA
R
ACCCAACAAGAAAGGACTGGATAAATAAATAATGGTGCATGCATTTGATGAATTCTGGAGCCGCCATGAGAAATAAGGCTATATGTGAATATTTAATGCC
Celera SNP ID:            hCV7545572
SNP Position Genomic:     13803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18093):
TGCTTGAAACCATGAGGTGGAAGTTGCAGTGAGCTGAGACCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAA
A
GAATGTGCCATAGGCTGGGCATGGTGATGGTGGCTTACACCTGTAATCCCAACACTTTGGGAGGCCCAGGTAAGACAATCATTTGAGCCCAGGAGTTTGA
Celera SNP ID:            hCV27099690
SNP Position Genomic:     15219
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18094):
TGTTTGGTGATTGGCTAGTTGGTTGATCAGTTGGTTGCTTGATTGGTTGTTCAGCTGACTGGCCAGTTGGTTGCTTGGCTAGTTGACTAACTGGTGGTTC
R
TTGGAGAATTGGCTGGCTGCTTGGTTGGCTAGTTCTTAGCTTGGTTGACTGATTGAGTGGCTGGTTGGCATTTTGGTTGGTAGGTTGTTTTGATGGCTAG
Celera SNP ID:            hCV15795808
SNP Position Genomic:     12224
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18095):
GCCAGTTGGTTGCTTGGCTAGTTGACTAACTGGTGGTTCGTTGGAGAATTGGCTGGCTGCTTGGTTGGCTAGTTCTTAGCTTGGTTGACTGATTGAGTGG
Y
TGGTTGGCATTTTGGTTGGTAGGTTGTTTTGATGGCTAGTTAGTTGGTTGCCTGGTTAGCAGGTTGGTTAGTTGGTTGCCTGGTTTGTTGTTTGGCTGAA
Celera SNP ID:            hCV15795809
SNP Position Genomic:     12285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18096):
CTGCTTGAAACCATGAGGTGGAAGTTGCAGTGAGCTGAGACCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAA
A
AGAATGTGCCATAGGCTGGGCATGGTGATGGTGGCTTACACCTGTAATCCCAACACTTTGGGAGGCCCAGGTAAGACAATCATTTGAGCCCAGGAGTTTG
Celera SNP ID:            hCV27099691
SNP Position Genomic:     15218
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18097):
CAAACACCAGCTCTGTTGCTTACCAGCTGTGTGGCCTTGAAAAGTCACAGTCACAGAAAGACAGTTTCTTGAAGGATACTTTTGCTGGGAATAGAACCCT
C
TTTTTTTTTTTGCTTGAGACAGAGTCTCGCTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGAAACCTCCGCCTCCCAGGTTCAAGG
Celera SNP ID:            hCV27099692
SNP Position Genomic:     9666
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,6)   total(C,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18098):
GTTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCAACCTCAGCCTCCTAAAGTGCTGGGATGACAGGCGTGAGCCACCA
Y
ACCTGGCTGTTTATCCTTTCTTTCATCCACCCATCCCTCTTCCTACCCACGCAGCCACCTATCCATCTTTCTTTCTCTCAATCACCCACCCATCTCTCCT
Celera SNP ID:            hCV27099693
SNP Position Genomic:     6949
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18099):
TTAGCACCATTCATTCATACAGTCACTCACTCAGTCCATATTCATGAGCACCTACTGTGCACCAGGAGCCAGAGACATACAGGCCCTGAAGGAATTGGGG
R
CACCTGGACCACAGAACACAGACAACAAGTGATAGGGCAGGTGTAGTTTTCCACATGAGGAAACCGAGGCTCTGAAAAATAAATCAACTTGTGCAGAGCC
Celera SNP ID:            hCV2628200
SNP Position Genomic:     16870
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18100):
CTGACAGGTGGCAGTTCTCATCTGATGGTGCGGACATCGGCTTCGGAGTTTTCCTGAAGACCAAGATGGGGGAGCGACAGCGGGCAGGGGAGATGACAGA
K
GTTCTACCCAGCCAGCGCTATAACGCCCACATGGTGCCCGAGGATGGGAACCTCACCTGCTCAGAGGCCGGCGTCTGTAAGTCTGCCCCAGCTGGGACCT
Celera SNP ID:            hCV2628201
SNP Position Genomic:     16574
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,7)   caucasian(G,24|T,16)   total(G,55|T,23)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(T,-|G,-)   JBIC-allele(T,135|G,1360)   total(G,1360|T,135) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:18101):
TTCTCAGGTAGGGGCAGGCCCTAACCCCTCAGAGACCCATCAGGCTGAGCAGCAACCTGTCTCCTCCCCCTCCCCCTGACAGGTGGCAGTTCTCATCTGA
Y
GGTGCGGACATCGGCTTCGGAGTTTTCCTGAAGACCAAGATGGGGGAGCGACAGCGGGCAGGGGAGATGACAGATGTTCTACCCAGCCAGCGCTATAACG
Celera SNP ID:            hCV2628202
SNP Position Genomic:     16499
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,24|T,16)   total(C,55|T,23)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:18102):
AAGTTCTGTGCATCTTTTCATGCCCAGGTGATCCAGAAGTACATGCCTGGGGGCCTGTGTGGCTATGACCGTGATGGCTGCCCCGTGTGGTATGACATCA
Y
TGGGCCACTTGATCCCAAGGGGTTGCTCTTCTCAGTCACCAAGCAGGACCTGCTCAAGACCAAGATGAGGGACTGTGAGCGCATCCTGCATGAGTGTGAC
Celera SNP ID:            hCV2628220
SNP Position Genomic:     9337
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:18103):
GGAGCTTATAAATCCTTACTTTCTCTTTCTTCCTGGTACCTGAGCCTCTGCCTCTACCCAATTCCACTGGGATGGGGAACTTGATAGATTATGAGGGCCT
R
GTTTGAAGGGTCCAGGCTCATGCCTTCTACGCCTTCCAAAGCCTAGAGCAGTGTGGGTTACCAGCACAGTCCAGGCCTTAAGTCCACAGCCTCTGCCCCA
Celera SNP ID:            hCV2628205
SNP Position Genomic:     14411
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18104):
GTGCTTTTTATACCATGGTGTGTGTAGGCTTGGGCCACCCAGGTCAGCCTGGTCTGGGGTCTCAAGGGAGGTGTGTAATGCCAAGTTCTGTGCATCTTTT
Y
ATGCCCAGGTGATCCAGAAGTACATGCCTGGGGGCCTGTGTGGCTATGACCGTGATGGCTGCCCCGTGTGGTATGACATCATTGGGCCACTTGATCCCAA
Celera SNP ID:            hCV2628221
SNP Position Genomic:     9255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18105):
TGACTAACTGGTGGTTCGTTGGAGAATTGGCTGGCTGCTTGGTTGGCTAGTTCTTAGCTTGGTTGACTGATTGAGTGGCTGGTTGGCATTTTGGTTGGTA
R
GTTGTTTTGATGGCTAGTTAGTTGGTTGCCTGGTTAGCAGGTTGGTTAGTTGGTTGCCTGGTTTGTTGTTTGGCTGAATCTTAGATGATTATTTGGATGG
Celera SNP ID:            hCV2628206
SNP Position Genomic:     12307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18106):
AGACCTGGCTTTGCCATTTACCCTCTGTGAGCAAGGCCCTCCCCTGCAGGACCTCAGCTTTCTCACCTGAGACAATAGCACTGTCTTCCAGGGAGGGACA
V
TGCTTTTTATACCATGGTGTGTGTAGGCTTGGGCCACCCAGGTCAGCCTGGTCTGGGGTCTCAAGGGAGGTGTGTAATGCCAAGTTCTGTGCATCTTTTC
Celera SNP ID:            hCV2628222
SNP Position Genomic:     9155
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18107):
TGAGTTTTCTGCTCCTTGAAGCCAGGGGCTGTGATTCTCCACTTTTGTTGTAGCCCTCACAGGCCTGGGTCCATGGTGGATGCTCCATAGGTATTTGGGT
R
ATTGTTGTGGGTAGATGAAAGGATGGATGGATGTTTGGTGATTGGCTAGTTGGTTGATCAGTTGGTTGCTTGATTGGTTGTTCAGCTGACTGGCCAGTTG
Celera SNP ID:            hCV2628207
SNP Position Genomic:     12092
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18108):
ACCTAAGAAGTCCAAGGGCCTGCTGAGACCTGGCTTTGCCATTTACCCTCTGTGAGCAAGGCCCTCCCCTGCAGGACCTCAGCTTTCTCACCTGAGACAA
Y
AGCACTGTCTTCCAGGGAGGGACAGTGCTTTTTATACCATGGTGTGTGTAGGCTTGGGCCACCCAGGTCAGCCTGGTCTGGGGTCTCAAGGGAGGTGTGT
Celera SNP ID:            hCV2628223
SNP Position Genomic:     9130
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,40|C,50)   African(T,10|C,82)   (C,1|T,6)      total(C,1|T,6) ;JBIC-allele(T,142|C,1349)   total(C,1349|T,142)
SNP Type:                 INTRON


Context             (SEQ ID NO:18109):
TTATCCTTACTTCTATCTCTCCAGCTACCAAACTGTTCCCTGTGGGCTACAACCTCATGAAGCCATTCCTGAGTGAGGACACTCGCAGGAAAATTATTGT
R
TTGGGAAGTAAGTAGTGCCAGCTCAATTTCCTGACCTCTATACATGACCTTTGGAGTGAGGTTGTCCCATTACCCCATCTAGAACTCCACACATTAGGTT
Celera SNP ID:            hCV25927347
SNP Position Genomic:     13133
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:18110):
CTGGTGCAGCCTTCCCTGTTTGCTGCCTTTTAGGGATCTCCAGCTGTTTTATTTGTGCTCATCCTGCTTTACTGGCTGAGTTTTCTGCTCCTTGAAGCCA
R
GGGCTGTGATTCTCCACTTTTGTTGTAGCCCTCACAGGCCTGGGTCCATGGTGGATGCTCCATAGGTATTTGGGTAATTGTTGTGGGTAGATGAAAGGAT
Celera SNP ID:            hCV2628208
SNP Position Genomic:     12016
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18111):
TTAACCTTCAGAATCTGTGTTCTCCATCACTAAACCCGACTCTTCTCCACAGAAAGGGACACGGGAGACATCAGGGGCAGACCTAAGAAGTCCAAGGGCC
W
GCTGAGACCTGGCTTTGCCATTTACCCTCTGTGAGCAAGGCCCTCCCCTGCAGGACCTCAGCTTTCTCACCTGAGACAATAGCACTGTCTTCCAGGGAGG
Celera SNP ID:            hCV2628224
SNP Position Genomic:     9050
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18112):
TGTCCCAGGATTGTTGTGAGGCAGGTTGGTTTCTTGGCTGTATGCAAATCACTTAGAATGCCTGGCATAGAGTAAGTTCTCAATAAATGGTAACTTCTAG
K
GTTGGCCTTACTGCAAGAGAAGGCAGCTCCAGTCCCAGCTCTCCCAGGGATCCTCCCTTATTTCTCCTGTCCATGATGATCTCTCCCTCCCCAGACTGCT
Celera SNP ID:            hCV2628209
SNP Position Genomic:     11801
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,25)   caucasian(G,13|T,21)   total(G,16|T,46)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18113):
AAAGAAGTTTAGCCCATCAAGGCACTGATGAGGACAGTGCCACCACTGGCATCTTAGTAGAGTAATGGTCACGTCTTCACTTGTAGGGCATGTACCCGGA
K
CTGGGCACTCTGCTTTGCCAACTTTATCTCAGGGACTTTCCCCAACAGTCCCAAGAGTGAGGGGTTATCCAAACCATTTTACAAAAAAAGTAGGTAGAAT
Celera SNP ID:            hCV2628225
SNP Position Genomic:     8471
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18114):
TGGGAGAGGTTGGGATCAGGGGGCATCAAGAGGGGCCTGGTCTCAACTGCTCCAGAGTGTCTCATGGCTCTCAGGGTCCATCCACACAATCTTGCTTCAC
R
TGTTCAGGTCCAGAGGAGGGAAGGGGGTAGGGGAGCAAGGTCTCACCCAGGCCCCCAGTGTCCTCCATAGCTCCCACTGGCCAGGAGTAAGACAAGGCAT
Celera SNP ID:            hCV15877879
SNP Position Genomic:     7567
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,4)   caucasian(A,25|G,9)   total(A,49|G,13)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,6)   caucasian(A,31|G,9)   total(A,61|G,15)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,472|A,1029)   total(G,472|A,1029) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18115):
CCCTAACCCCTCAGAGACCCATCAGGCTGAGCAGCAACCTGTCTCCTCCCCCTCCCCCTGACAGGTGGCAGTTCTCATCTGATGGTGCGGACATCGGCTT
Y
GGAGTTTTCCTGAAGACCAAGATGGGGGAGCGACAGCGGGCAGGGGAGATGACAGATGTTCTACCCAGCCAGCGCTATAACGCCCACATGGTGCCCGAGG
Celera SNP ID:            hCV25930138
SNP Position Genomic:     16517
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:18116):
GGGAAAGAAGTTTAGCCCATCAAGGCACTGATGAGGACAGTGCCACCACTGGCATCTTAGTAGAGTAATGGTCACGTCTTCACTTGTAGGGCATGTACCC
R
GATCTGGGCACTCTGCTTTGCCAACTTTATCTCAGGGACTTTCCCCAACAGTCCCAAGAGTGAGGGGTTATCCAAACCATTTTACAAAAAAAGTAGGTAG
Celera SNP ID:            hCV2628226
SNP Position Genomic:     8468
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18117):
CCTGTGGAACCCGCAGGCCTGCAGTCTCCTTTCCTACAGTCATAATGAATGTTTCCTGGGGGCTTGCAAGGTCCAGGCCTAGGTTAAGATGTTAGCAGCA
K
GAGCTTCTTTAATCATCACAATGATGGATGCTATTGTCCCCATTTTGTGGATGAGGACACTGAAGCCCAGCAAAAATTAGGTAACTTGCCCACAGTCCCA
Celera SNP ID:            hCV2628227
SNP Position Genomic:     8134
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18118):
ACCATGAATGAGGGGCAGCAAGCCTGAGAGGCCTGTGGAACCCGCAGGCCTGCAGTCTCCTTTCCTACAGTCATAATGAATGTTTCCTGGGGGCTTGCAA
R
GTCCAGGCCTAGGTTAAGATGTTAGCAGCATGAGCTTCTTTAATCATCACAATGATGGATGCTATTGTCCCCATTTTGTGGATGAGGACACTGAAGCCCA
Celera SNP ID:            hCV2628228
SNP Position Genomic:     8103
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18119):
AGTTCCGAGAAAACGTCCAGGATGTGCTTCCTGCCCTGCCCAACCCTGATGATTATTTCCTTCTACGCTGGCTCCGAGGTGAGGGCAGAGGTGGGAGAGG
Y
TGGGATCAGGGGGCATCAAGAGGGGCCTGGTCTCAACTGCTCCAGAGTGTCTCATGGCTCTCAGGGTCCATCCACACAATCTTGCTTCACATGTTCAGGT
Celera SNP ID:            hCV2628229
SNP Position Genomic:     7476
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,27)   caucasian(C,7|T,31)   total(C,8|T,58)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18120):
TCAAACACCAGCTCTGTTGCTTACCAGCTGTGTGGCCTTGAAAAGTCACAGTCACAGAAAGACAGTTTCTTGAAGGATACTTTTGCTGGGAATAGAACCC
Y
CTTTTTTTTTTTGCTTGAGACAGAGTCTCGCTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGAAACCTCCGCCTCCCAGGTTCAAG
Celera SNP ID:            hCV11157029
SNP Position Genomic:     9665
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18121):
CTTAATTTTGTAATTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGCTCTCGAACTCCTGACCTCAAGTGATCCACCCACCTTGGCCTCCCAAA
R
TGCTGGGATTATAGGTGTGAGCCACTGTGCCCGGCCAACACCTGCTTTTTGGGGTGGTTGTGAGGAGGCAAACAGTGTCCAGCAGGCCTGCCCCAGAACC
Celera SNP ID:            hCV11157049
SNP Position Genomic:     17373
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18122):
AGCTGCCTCCTCCTGGCAGGGGACCTCTGGCACACGCTCCATGCCCGCCTGCCCCTCCAGATCTGTCCCCAAGCCAAGCAGGGGACCTCACTTAATCCCA
R
TTATGTAATCTGCAATTTAAACAGTTGGCCCATGAGGAGGCGCTTGGAGCCACGCCCAGGAGTGGGGGCAAAAGGACCCAGCTGGGTCAGGGCTGACAAA
Celera SNP ID:            hCV15870386
SNP Position Genomic:     5845
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,4)   caucasian(A,32|G,8)   total(A,62|G,12)   
SNP Type:                 TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,30|G,8)   total(A,63|G,11)
SNP Type:                 TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:18123):
TGGGAGGCCCAGGTAAGACAATCATTTGAGCCCAGGAGTTTGAGACTAGCCTGGGCAACATAGTGAAACCCTATCTCTACAAAAAAAAACCAAACAAAAC
M
AAATAAAAATTAGCCAGGCATGGTGGTACATGCTTGTAGTCCCAGCTACGCAGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAAGTCGAGGCTGCA
Celera SNP ID:            hCV27099689
SNP Position Genomic:     15377
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18124):
TCGCCCTTACAGAGCTCTCAGCAGCTGTAAAGGCAAACAAGAAATAGGCGAATTTTAACCCAGAGGGATGAGCTGGGAGGGGAAGCTCCCAGCAGACGCA
Y
TGGCCCAGTTTGGAGGGTCATAGAAGGCTTGAGGAGGTGGGAGAGTGGGGCTAGGATGAAGAGGATACTTCCAGGAGGTGGTGAAAGTGTCTCAGGCAGA
Celera SNP ID:            hCV25929113
SNP Position Genomic:     16107
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,38|T,2)   total(C,73|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:18125):
ATGGCATGAAGGGAAACCCTCCAGAGCCATCTGAAACCTCCCAACAGGAGATTGCACAGGAGATGGAGGTAGGAGAAGATGTGATGTGCTCTCTGAAGGG
W
TCTCTCTTGGTTCCACAGTTCTTTGGCCTCCTTGAAGAGAATTACCCAGAGACCCTGAAGTTCATGCTCATCGTGAAAGGTATGTGACAAATGACTTCAC
Celera SNP ID:            hCV2628210
SNP Position Genomic:     11547
SNP Source:               Applera
Population(Allele,Count): african american(A,9|T,27)   caucasian(A,19|T,21)   total(A,28|T,48)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,5)      total(A,5|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18126):
AATTCTTTTCTTCCCATTATCCTTACTTCTATCTCTCCAGCTACCAAACTGTTCCCTGTGGGCTACAACCTCATGAAGCCATTCCTGAGTGAGGACACTC
R
CAGGAAAATTATTGTGTTGGGAAGTAAGTAGTGCCAGCTCAATTTCCTGACCTCTATACATGACCTTTGGAGTGAGGTTGTCCCATTACCCCATCTAGAA
Celera SNP ID:            hCV15877880
SNP Position Genomic:     13117
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,24)   caucasian(A,7|G,33)   total(A,9|G,57)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(A,6|G,32)   total(A,11|G,63)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:18127):
GTTTCCTGACCTACAAAATGGGGATAGCAATGTAGGGATACTTCAGCAAGTTGTTATGTAAAGTGTATATACACTGCTTGGCAAATAGTGAACATTTAAT
M
AACAGTAGTCATTATTATTATACTACCATTATTATAATATTTACTAAAAACAATTATTATGTAATTATTATTAGAGTATGGTTATAATAGTATGAGGTGA
Celera SNP ID:            hCV2628211
SNP Position Genomic:     11316
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,10)      total(A,2|C,10) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18128):
GGGCTCCCTCATTGTGACTCAAACTCCAGAAGGCCTTAATACCTTTCCTAGAAGATCCCACAGAATGGGTTTCAGGGACAACACTGTACTGAGACCACAC
R
TTCCAGCTTCCACCAAACCCTCTCCATGCTTGTTTCCTGACCTACAAAATGGGGATAGCAATGTAGGGATACTTCAGCAAGTTGTTATGTAAAGTGTATA
Celera SNP ID:            hCV2628212
SNP Position Genomic:     11184
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,12)      total(G,12|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18129):
TGGCACACACAAAAAAGTGCTTGATAAATATCAGTTTATATTTATCAGTTTATATTTATATTATGGAAAAATGGAGGATGAATAAATTAATGACAATATG
W
ATGAATGGATGGATGGTTCAATTAATTGATGAGTAAGTTGATATATACGGGGGTGGGTGGGTGGATGGTTGGATAGATGGATGGATGGATGGATGGATGG
Celera SNP ID:            hCV2628213
SNP Position Genomic:     10601
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18130):
GGGAACACAAGCCTGTCCTCCTCCATGGCCAGGGGTGGAAAAAAGAGTGTGTAAAGCCAAGCCCAATGCCCCTCTTTCCATCTGTCCCCCAGATGTCCTA
Y
GCTTCGACAACACCTATAGCTTTGTCCACGCCAAGAAGGTCAGCTTCACAGTGGAGGTCCTGCTCCCTGACGAGGGCATGCAGAAATATGATAAGGAGCT
Celera SNP ID:            hCV25925571
SNP Position Genomic:     17827
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:18131):
TTTGTTTTGCTTCAGTGTTTTGAATATGTCATTTCACCTGTCTGAGCCTCAGCTCCTTCACCTATAAAACAGGGATATGAATAAATAATGGTTGCAAAAG
Y
GAAATGAAATAATGCAAGTATGCAATTTAGCACACAGGGCCTAATATATATTTCTCAACAATGGTAGCTATTGCTATTCCCTCTGAGCCTTTCTTTGCCC
Celera SNP ID:            hCV2628214
SNP Position Genomic:     10101
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18132):
ATTCAACCATTAACCCATCCTTTCATCAATGTGGGCCATTTTGCATGTGGGAGGAAAGGAGAGGTTGTGAAAACAGTCTTTGAGTCTGGAGGCCAAGGCT
S
AATGTGAGAGAGCCACTTTAACCAGCATCTCTCTTGCCAGTTCCGAGAAAACGTCCAGGATGTGCTTCCTGCCCTGCCCAACCCTGATGATTATTTCCTT
Celera SNP ID:            hCV25931212
SNP Position Genomic:     7337
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|G,1)   total(C,75|G,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18133):
AGTCACAGTCACAGAAAGACAGTTTCTTGAAGGATACTTTTGCTGGGAATAGAACCCTCTTTTTTTTTTTGCTTGAGACAGAGTCTCGCTCTGTCACCTA
R
GCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGAAACCTCCGCCTCCCAGGTTCAAGGGATTTTCCTGCCTCGGCCTCCTGAGTAGCTGGGATTACAGGC
Celera SNP ID:            hCV2628215
SNP Position Genomic:     9708
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18134):
AGTGCTGTGGAGCGATCTCAGCTCACTGCAGCCTCTGTCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTG
M
CACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGAGTTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCAACCT
Celera SNP ID:            hCV2628231
SNP Position Genomic:     6808
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18135):
CAGCTGTGTGGCCTTGAAAAGTCACAGTCACAGAAAGACAGTTTCTTGAAGGATACTTTTGCTGGGAATAGAACCCTCTTTTTTTTTTTGCTTGAGACAG
W
GTCTCGCTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGAAACCTCCGCCTCCCAGGTTCAAGGGATTTTCCTGCCTCGGCCTCCTG
Celera SNP ID:            hCV2628216
SNP Position Genomic:     9689
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18136):
GAGTGCTGTGGAGCGATCTCAGCTCACTGCAGCCTCTGTCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGT
R
CCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGAGTTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCAACC
Celera SNP ID:            hCV2628232
SNP Position Genomic:     6807
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18137):
GAGGAGGCAAACAGTGTCCAGCAGGCCTGCCCCAGAACCCCACTTCATCCAAGGGGGCTGGGAGGTCTCTGATGAACCCAACCATGTGCCTTCACAGCCC
M
GTCATGTGCGTCTCCAGGTGTGAGACAATGGGATGTAATGACCATTGTTCTCGATGCCAGTAAAGCCATGCCTGGGCACATGCCAAGAGGAGGTTGGTGT
Celera SNP ID:            hCV16164737
SNP Position Genomic:     17535
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,596|A,877)   total(A,877|C,596) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18138):
CTGTTGCTTACCAGCTGTGTGGCCTTGAAAAGTCACAGTCACAGAAAGACAGTTTCTTGAAGGATACTTTTGCTGGGAATAGAACCCTCTTTTTTTTTTT
K
CTTGAGACAGAGTCTCGCTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGAAACCTCCGCCTCCCAGGTTCAAGGGATTTTCCTGCC
Celera SNP ID:            hCV2628217
SNP Position Genomic:     9678
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18139):
ACAACCACAGTCAGAGGGCTCTGGGGTCAAACACCAGCTCTGTTGCTTACCAGCTGTGTGGCCTTGAAAAGTCACAGTCACAGAAAGACAGTTTCTTGAA
R
GATACTTTTGCTGGGAATAGAACCCTCTTTTTTTTTTTGCTTGAGACAGAGTCTCGCTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCAC
Celera SNP ID:            hCV2628219
SNP Position Genomic:     9639
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18140):
CAGCTGTAAAGGCAAACAAGAAATAGGCGAATTTTAACCCAGAGGGATGAGCTGGGAGGGGAAGCTCCCAGCAGACGCACTGGCCCAGTTTGGAGGGTCA
Y
AGAAGGCTTGAGGAGGTGGGAGAGTGGGGCTAGGATGAAGAGGATACTTCCAGGAGGTGGTGAAAGTGTCTCAGGCAGAAGAAACATGAACAATGGCCAG
Celera SNP ID:            hCV25929158
SNP Position Genomic:     16128
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Gene Number:                 53
Celera Gene:                 hCG1778342 - 104000117326636
Gene Symbol:                 CHRD
Protein Name:                chordin
Celera Genomic Axis:         GA_x5YUV32VYQG(11205171..11227374)
Chromosome:                  Chr3
OMIM number:                 600044
OMIM Information:            THROMBOPOIETIN;THPO


Genomic Sequence (SEQ ID NO:12213):
GGCAGGAATTCCTTCACAGTCTCCCGACAGCTGGTCATCAGCCTCTGCTTCAAAAACTCCCGTGTCCTCTAGTCCAGCCTGGTCTTACACTTGGTTTCAG
TGAGAAGAGCTCCTTTTTTCTTACGTTGCTGAAATCTGCCCTGTTACAGCTTTTACCTCTTGGTTCTAGTGCTGCAAATTTACTCTTTCTGCTGCAAAAC
CTTAGGATCATTTGATTTTTAAACTGAATGAAGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGA
GGTCAGGAGTTCAAGATCAGCCTGGCCAACATGGTGAAACCCCATCTCTACCAAAAATACAAAAATTAGCTGGGCATGGTGGTGGGCACCTGTAATCCCA
GCTACTTGGGAGACTGAGGCAGGAGAATCGCTTGAATCCGGGAGGCTGAGGTTGCAGTGAGTTGAGATCATGCCACTGCACTCCAGCCTGGGGGATAGAG
TGAGACTCCGTCTCAAATAATAATAATAAATAAACTAAATGTAGGTATGAGACTCTACCATAATGATCATAAGGATGAAAAGAAAGGACTAGAAGGGACC
CATAGGAACTGCCCTTCTTCCCTGACTCAGTCCTGAAGGAAGAAGGGACGCTAGGGTTCTTGAGGATAGATTTTAGTTTTTTAAACTATTGCCCATAAAA
CATGCTTCTAGTCTCTTTCTGTTCAGGCTGCTGCTTTCTAGACACATGTTAGTTTAATATGGTCCCTCTTAATAAATTAGCATATGTCTTCAGGGGGATG
TCCGGTGTTCAGGCCAGTATATTTAAGTGTAGTCCACTCGGAATAGAGTTCTGTACGAGCATTTCCACAATGGGGATGCTAAACATCAAACAGACAAGAA
TTACTAGCTTTAAGAATAGCAGCTTCAGTAATGTTACATGGTAAGTTTGGGGGCAATTTAATTCTCTCAGATCCTTTTCGTAGGAAGTGCTAGGGCCAGA
GGCTTAAATGATGGAAGCAGGGCATTGTGGCCTGAAAGCTGGAATAGGACTTTACTCATTAATTTACACATGTAGAATTTTTTTTTCTTTTTGAGACGGA
GTTTTGCTCTTGTCACCCAGGCTGGAGTGCATTGGCATGATCTCAGCTCACTACAACCTCCACCTCCTGGGTTCAAGGGATTCTCCTGCTTCAGCCTTCC
AAGTAGCTGGGATTACAGGCATGCACTACCATGCCCGGCTAATTTTGTATTCTTAGTAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGCTCTCAAACTC
CTGCCCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCCCCGGCCCACATGTAGAAGTTTATATCTCTGTTGTTTCA
CCTTGTTTTTGACCTAGTCTTTCAGTGATTTGAATCTTGATTCAGTCTTTTGTTATTTTAGTGGTACTTCCCAGCTTTGTGTCATCTGTGGATGACATAT
GAGTCTTGCTTCTTCATGCCAATTTAAGAAGACTGAACGGGAATAGGTCAAAGGCATGGCCATGAGCGATTTCTCTCCAGCTTTTCATGGTGTTCAGCTT
CAAATCTATTCACATATTGGACCTGCAAGCCATCATCTTATCCACAGGCTATCATCATAGGTGAATGTAGATTGGGTTAGGGTGGCCAAGCTGAAGGTGA
GATATTTTTAAAAAGCTCAAGAATGTTGGAGAATCCATGGGAAGCAGTGGGAAACTGAAGACAGGACTTAGGGAAGCCAAGGTTAGGGATGGCTTTCTTA
CCATCTGGGTTTTCCATTCTCCCAAGCTAAAGTCCACAGCAGGCAGCAGGACAGGTGTAGGCAAAGGGTGAACCTCTGGGCACTGGCTCTGTTGAAAAAG
ATTGGTGGGGGGAGAAGGGAGCTGAAATAGAGAGAGCTATGGTAGCCTAATAAGCAGGCTAGTCCTCCATGAGTACTATCTCTAGACGAGAGCTTTTAAA
TGCGGGCTGTATTGTGAAGAATAATCCTTGTCAGAGAGTGTGATCAGTAGGTGGGGACAATATGGGAAGAATAGTCATTGGGTCAAGGAGTTAGAGGAAG
TGATGGTGTCTTCCTGGGAGTATGGGTGTCTTACCAGTTACGCGGATAAAGGGGATAATGTTGGGAGTTCTCACCAGTCTGCTGTGAAGGACATGGGAGT
CACGAAGCAGTTTACTGAGGACTCGGAGGTCACAAGCAGGAGGAGCCGGGCTGGACAGCGTTAGCCTTGCAGTTAGGAGAAGCATGACCACGAGGAGCAA
TTCTTAGATGAGGAGAGGTGAGGTTGAAAGATGAGGAGGAAATCATTGTCAGCTGGTATTCCAGGAATTCCCATTCAGGACCCAGACCTGAAACCCAGGG
AATCCACCCCTCAGACCCCTTATTTTTGGGAGAATGGGTTCCCCCAGCTTCCTGCCCCCTGCAGCGTGTCTCCTTTCTCTCTCCCCTTCTGTCATGTTTC
CATATGGCCCTAGCCCCTCAGGTGTGTTCTCACCAGTCAGCTCCATTCTGGCCGGGGTGTCTGGCTGGCGTGGCTCCCTGTTTGGGGCCTCTCCCCTGAA
TCCTTCCTGGGGCCATGGAGGCGGCTTAGGCTCTTGCACTTCTGGGCAGAGTAGGGTGGGGCAAAGGCGGGCCAAGGGTGARGAATCTATCCTGAAAGTA
GCAAGAAGAGTGAACATTTAACCAAGTTTCTAGGAAGAGACTGCCTGGCAGGGTGAACAGATGCTGGGGAGGGCTTGAGATGCTGACCAGCCTGGAACTG
CCAAAGCCCTGAATTCTCTCACATTTTCTTGTGATGAAAGCATATGGTGTGCCGGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGTCCAAG
GCGGGTGGATCACCTGAGGTCAGGAGTTCGCCACCAGCCTCACTAACATGGTGAAACCCCGGCTCTACGAAATACAAAAAAACTAGCAGGGTGTGGTGGT
TCATGCCTGTAATCCAAGCTACTTGGGAGGCTGAGACAGGAGAATCGCTTGTACCTGGGAGGCGGAGGTTGTGGTGAGCCGAGATCGCACCATTGCACTC
CAGCCTGGGCAATAAGAGTGAAACTCCGTCTCAAAAAAAAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGCAAGAAAGCATATGGTGTCTCCTTTTTGTCA
GGACTCCTCAGTGAATCGGACATGGATTTGGTGCCACCTACCCCTGCTGAGAGCAGCAGGACATGATATGTATACACACATATCTTAATTAGCCTTAAAT
TCTGAGCAACCTTGGTTGTTAGGTCAGAGAAAATCTGGGATGGGGATAGAGAAGGAAAGTATTGTGGCTTCAGCCTGGAGAAGAGAGTGGAAAATGGGAT
GCAGGGCCTGGGTGAGGAACTGGCAAACGGGCGCAATATGTTGAGGGGTAACTTCTGCGGTGGGGAGTGGGGCTGGGGAGGGGAACTGCACAAAGCTGTA
ACTGGGACCACTAGAGGTCAGGATTAAAAGGCGGTATGGGAGAAATTAACCTCTATTCTTTCCCTATCTACCCCCACACATAAAGCCACTGGAGCTTTTC
TYTGGACTCCAAGTCCTGAAATACTCCATTATCTGAGGCCAAGAGATGGGCTAACAGTTCTGGGACTTCCTTCCTGAGACCAGCTGCCCAGGAACGGGCA
CCTGCTGGGTGATGCCCACCTTAGGGGCTTACCTTGTCTTAGGCGCCCACTAACATATCTGTCTCATAGCTCACACCTGCCTCCCTGCCCCCTTGGCAGA
ACCCCTTCCGGTTCCTTCACAGGACCCCCCACATGGCTTCCTCCTCCTTTCACAAGTTGTGCAAAGAGGCTTGCACCTGATTCAATATTGGGATTTCCTG
TAGGTCTGTCAACATGAGTGGGCCCTCCTCCCATTACCCTCTCCTTGCGCCCTGGCTTGCCTGGCCCAGCTTCCCCAGCACCAGATTCAGAACCTTAAGC
TAACGAGGAATGACCAGCTAAGAATGGGGATTGGGGCTGTGTCCATCTTACTACTGTGTTTGCTAAGCCCTAAGTGCAGCTCCCTCTCTTATTTTCTCCC
TGGGCTCATGTCCCCTTTCCTTAGGGCCAGCCAGGGCTGTGCTGTATTCCACCAAGTAAGTGATCAGTCCCTCAGAAACCAGCACCCCACCCCCTACCCC
TGCTCTGCCCTGCTCCTCCCATTCTGGGAAGGCTACACTCTTCTCGACAAAGGTCAGTGCCTGTAGGTTCCAGTTTGCCTGCCCCTCCCCCAGCTGGGAG
CCCATTTCTCTTTGCTGTCCTTTCTACCCTCACATAACCCCACACCCTGCTGGCCACTCACCGGGTGGAGAAGGGCTCCAGGACCCAAGTGCACAGCAGG
CAGCCCTCTGGGGAGCAGATGGGTAGGAAGACATGTGGCGGTGGGGCACAGCCCCTCCACAGCAGCAGGTCATACGCCTGCCTGGGCCACTTCTGCCCAA
TCAGAGAAGGGAGCCACCAGACACTGGTGAAGGCCCCCGGAAGTGACGCCTTCTCTTCCCTGGAGCCCCTGCCTGGACCAGGGTCCACTCCTCCACCCAC
ACACACCACGGAGAAGATTTGGATAGGGGGATCCATCTTTTCCTGGACATGGGCAACCTGGGACCTGGAGGGGGACAGGAGCAGAAGTTTTTTTCCAGGA
GGAATCTGGCAGGACATTTGTGTTGCTGGGGAAGAAGCACAGAGGTCTTGTTTAAGATTGGTGGGGTTTTCACTCCCTGGCTATCCAAATTTCTTTTCCC
TGGACATCATACCTGCTGCTGAAATCCAACAGGATGCTTGCTTTCCTGCTTTTCTTTCTGTAATCCCCTAGGGAGTCCTATCTTGTCATTCCCCCTTTCG
AAGTGGGAACACGGATATTGCCCACATGAGAGAAATCTCCTGTTATGGGTTGGTGTTATGGGGAAAGGGTTTGGACGGGTTGAGTGGACTGTCAGGTGCG
GGGCACATGTATGTGCGCACACGTGCACTGGGTTAAGCCTGAGCTTAGGTGCTCGTCTGCTGGGGTCCAGTGGCTTGGATGGCTACACACACAGACCTCT
GTGCCCAGGGCCCTCCTTTGCTTGTTCTGTCTCCGTCTTCCATCTCCTACCGTTCCACATGTGACAAGAGGAATAACCAGGCCCATGTGTCCCTGTCTTA
GGAAAGACAGCTGCTGGACCTCCCCCGCAAATACCTCCCTGCTGGCCCCCCTTTTCCTTTGGCCCTGGCTCTAGCTCCTTTGCTTTCTTCCCAGTCCCAG
TCTCCCCACAGTCTCTGTCCTCAGGGGCTTCCTGGCCTGACCTTGATCCCATCATCCCCCTGTCCCCCAGAACTTCCTCAGGCTCTCTCCTGTTCCTCCT
CCCCAAGGATGGGCATGTCTGCTGAGAAGTGTGGCCTAGATCCTGGAATTTTCCCGTCCAGCCAGACGAGATGTCTCCCAAGATTAGGAAGGAGGGTGCT
GGGATAGCTGGGAGGATAGTGGGTGTGTGTGGGAGGGAGAGACAGGAGACAGGGAGGCAGGCATGACCAGGGAACCAAGAGAAAGGAGGCTGGGAGTGGG
CTGGAGAGGCAGAGGGTCCCTTGGGTGAAGGAAGGGGGTGAGAAAGCAAGAGGGGACTGTCGAATGCGCCTGAGGATAAGTTACAATGAGAGGGAGATAC
TGTCACTCCACAGAAGGGGGAATGCTGCCGGTTTCTGGCTAGGTCCCTGTCCTGGGTAACACAAGAATGAGGAGCGACCTCAGAGAGAAGGTAGGGAGGC
AGGCTAGGCAGTGAGAGAGGGTGGTGAGGGTTTGGGGGGCGCTGTGGGCCCAGGCAGGGGGAGATCGGCTGATGGACCTTTCCTGTACGTTGTCATCTTT
AAAGACAAGTCTTCATCCTTCGGGCGGAACCGGGTCCTCGCTCACAGAGCGGTCCAGGCCTCAGGCCTAGCCTCTGCCCCTCCCTAGCCTGAGGCTCCCT
TCCTGGGCTGGACACCGACCTCCTGGTCCAGCCGCCCTGTGGCCGCCAGCAGCGGGGGGCTCCGGGCCCGCCTCTCCTCCCCCTCTTCGCGCCCCCTGGT
CCCTCCCCTCCCCCTCCCCCGCTCCCCCTTCCCCTCCCGCCCCTCCCTCCTCCCCTGCCCGGTCCCAGCCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGGAAACTGACGCGCATTTGAGGCCCGCCCGCGCTCCTCCCGGCCGCTCCTCCCGCCC
CGCCCGGGCCGGCGCCGACTCTGCGGCCGCCCGACGAGCCCCTCGCGGCACTGCCCCGGCCCCGGCCCCGGCCCCGGCCCCCTCCCGCCGCACCGCCCCC
GGCCCGGCCCTCCGCCCTCCGCACTCCCGCCTCCCTCCCTCCGCCCGCTCCCGCGCCCTCCTCCCTCCCTCCTCCCCAGCTGTCCCGTTCGCGTCATGCC
GAGCCTCCCGGCCCCGCCGGCCCCGCTGCTGCTCCTCGGGCTGCTGCTGCTCGGCTCCCGGCCGGCCCGCGGCGCCGGCCCMGAGCCCCCCGTGCTGCCC
ATCCGTTCTGAGAAGGAGCCGCTGCCCGTTCGGGGAGCGGCAGGTAGGTGGGCGCCCGGGGGAGGCGCGGGCGGGGAGTCGGGCTCGGGGCGAGTCAGCG
CCAGCCCGGAGGGGGCGCGGGGCGCAGGTGGCTCGGCGCGGCGGGCGGCCCGGAGGGTGGGCGGGGGCAGAAGGGCGCGGTGCCTGGGACCCGGGACCCG
CGGGCAGCCCCCGGGGCGGCACACGGCGCGAGCTGGGCAGCGGCCTCCAGCCAAGCCCGTCCCCGCAGGCTGCACCTTCGGCGGGAAGGTCTATGCCTTG
GACGAGACGTGGCACCCGGACCTAGGGGAGCCATTCGGGGTGATGCGCTGCGTGCTGTGCGCCTGCGAGGCGGTGAGTGCACCCCGCGGCCGGCCCGGGC
CCTGGCGGGTGGGGAGCGCCGGGTCGCGCGGGCGTYGGAGTGGACTCGGAGCTGCTGAGAAGGAGCCCAGTCGGCAGATGTTGGGGATATTTTTCTGGTR
GAGGAAGGGGAATCAGCCCCTCCAATTCTTAGGTGCTGTTACTGATCGCCCACTCTGTGTGAGGCTCTGTGCCAACTCCGTTTCGTTCCCTGCTCATCTA
ACTCTCATGGCAGCCTTKCTAGATAGAGAGTATTATTATCCCCATTTTCCAGACAGGGACCTTGAGGCCCAGAGAGATGAAGTAGCTTGTCTAGGGTCAC
GCAGCTTGTAAGTGGCAGAGCTGGCTGACTCTGCGGGACATCYTTGCCTGGGGGGGTCTCATCAGTTGGCATCTTGCACTCACTTGGGTTTCCCGCCTTT
TCCGGGAGCAGCCTCAGTGGGGTCGCCGTACCAGGGGCYCTGGCAGGGTCAGCTGCAAGAACATCAAACCAGAGTGCCCAACCCCGGCCTGTGGGCAGCC
GCGCCAGCTGCCGGGACACTGCTGCCAGACCTGCCCCCAGGGTAAGTCTTGCTSCGCCCTGCGGGGAGGGAGGCAGGGCCAYGATACTAGGTCCYRGGCC
ACTTGGATGGGGCGTCGGACTGGCCTTTCCCATGGCCAGCTGAAGCCCGTGTTCTTACCCCCCCGCCCGCAGAGCGCAGCAGTTCGRAGCGGCAGCCGAG
CGGCCTGTCCTTCGAGTATCCGCGGGACCCSGAGCATCGCAGTTATAGCGACCGCGGGGAGCCAGGMGCTGAGGAGCGGGCCCGTGGTGACGGCCACACG
GGTAGGGGGCTGGCGAACAGCGGGGTTGTGGTTGAGGCTGGGCCACCAAAGCGGCGTTTGACAGTGCTCAGGCCATCTTCCTCCCGTCCCAGACTTCGTG
GCGCTGCTGACAGGGCCGAGGTCGCAGGCGGTGGCACGAGCCCGAGTCTCGCTGCTGCGCTCTAGCCTCCGCTTCTCTATCTCCTACAGGCGGTGAGAAA
GGGGAAGGAGCAAGGAGGGGTCAGCTGCCGGGGCCCGGGAGGGAAACTGGGAGAGCTGGGAGGGGCTGCTTTTGGCTCAGTCCGGCCTCACCCGACCTCT
CATTCCCAGGCTGGACCGCCCTACCAGGATCCGCTTCTCAGACTCCAATGGCAGTGTCCTGTTTGAGCACCCTGCAGCCCCCACCCAAGATGGCCTGGTG
AGATGATGCCATTTATGAGCACTTGCCCAGTCTGGGCACTGTGCCGAGAGCATGCTCTGCATTGCCTCCCGTGGTCCTCACCACAGCCCAGTGGGAGGAA
GGCACTGACATTATGATGCCCATTTTACAGAAGGGGGAACTGAGRCTCAGTAGGATAATGTGATTTGTTCAAGGTCACACAGCTAGTAAGTGGTGCAGCC
AGGATTGGAACCCAAGCATCTGGCTCCAGCGTTCTTTCTTAAGCTTCCTAGGGCACCCTGGAGGTTCCTTTCCATGTTCCTTTTTCATAAGCCCTGCCTG
GGCATCCTAATTGGCCTAGCCTGCACAGTGTCTGAGCGTAGGGCCTTCTTGTCTCTCTGCTCCAGGTCTGTGGGGTGTGGCGGGCAGTGCCTCGGTTGTC
TCTGCGGCTCCTTAGGGCAGAACAGCTGCATGTGGCACTTGTGACACTCACTCACCCTTCAGGGGAGGTCTGGGGGCCTCTCATCCGGCACCGGGCCCTG
GCTGCAGGTAGGGAGCAAAGAGCCCCRGGCGTGAAGTTCTGAGTCTTCTCTATCACCCAGGAAAGGGGGGGAGGGTTTCTGACGGGCTCTCATCATCGTC
CCTTCCCCAGAGACCTTCAGTGCCATCCTGACTCTAGAAGGCCCCCCACAGCAGGGCGTAGGGGGCATCACCCTGCTCACTCTCAGTGACACAGAGGACT
CCTTGCATTTTTTGCTGCTCTTCCGAGGGCTGCTGGAACCCAGGAGTGGGGGTAAGTGGGATGGGGGCAAAACAYRTGAGAAGGTTAGGGAGAGCACCTG
TCTCAGAAAGGCCCACATGTGCGGCCTTGCAGGACTAACCCAGGTTCCCTTGAGGCTCCAGATTCTACACCAGGGGCAGCTACTGCGAGAACTTCAGGCC
AATGTCTCAGCCCAGGTGAGTGGGGATCTGGCTCTCGCTGCCACCTGTCTTGGCCTCTTGCTATTGCCCATCACACCCTGCTCTGTCCCCAGGAACCAGG
CTTTGCTGAGGTGCTGCCCAACCTGACAGTCCAGGAGATGGACTGGCTGGTGCTGGGGGAGCTGCAGATGGCCCTGGAGTGGGCARGCAGGCCAGGGCTG
CGCATCAGTGGACACATTGCTGCCAGGAAGAGCTGCGACGGTGAGGCGGGGKGGGGGCCTGGTGCGCCGGGCATGCACAACTGAGAGACACAGACAAGTG
CCAGGGTGGGTGTGGGAGAGATCCTGTGGACTGGGGGTGTAAGCGGCCATGGGGTAAACCTAGCCTCACCTGTCTTGCCCCTCCGTAGTCCTGCAAAGTG
TCCTTTGTGGGGCTGATGCCCTGATCCCAGTCCAGACGGGTGCTGCCGGCTCAGCCAGCCTCACGCTGCTAGGAAATGGCTCCCTGATCTATCAGGTAAG
AGCCAGGRGCTGCAGAAGGTGGGGGAGGGGTGGCGTGGGCAGCAGGCCCCAGGCCTTTACTGCCTCTCCACTTTGCCCTCCTCCATCCCTGCCCATCAGG
TGCAAGTGGTAGGGACAAGCAGTGAGGTGGTGGCCATGACACTGGAGACCAAGCCTCAGCGGAGGGATCAGCGCACTGTCCTGTGCCACATGGCTGGACT
CCAGCCAGGAGGACACACGGTGAGGGCTCCAGGTGGAGCTGGACCCCAGGGCCCAATGCATGGGCTGTGGGAAGCCAGGTTGGATGAGCAGGGATGTTCA
TTATCATCCACTCACTCATGGGTTCTCCCACTCATTCATTTATTCATTTGACTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTGGCTCTGTCACCAGGC
TGGAGTGCAGTGGTGTGATCTTGGCTTACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACCACAGGTGT
GCACCACCACACCCAGCTAATTTCTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTGGCCAGGATGGTCTTGATCTCTTGACCTCATGGTCCGCCCAC
TTCGGCCTCCCAAAGTGCTGGGATTACAGGCGAGAGCCACCGTGCCCGGCATGATTTGACATTTTTAGTGAGCCCCAGACTAGGGACTAGAGTACAAAGC
AAATCATATGTGGCCCCTGTGCTTAGCAAGCTCACAGTCAAATGGGAGCATTGGACCTGGAGAACAGTGCCACAGGCCACATATTAGTAAATGTAATGGC
AATGGTTGCTACTTATAGGGCCTTTCCATGTGCTAGGTGCTGCATTGGTGGCCTTACATAGTTTTTGGCTTTCACAGTATCCATTTGAGAGATGAGGAAG
TGAAGACTTGGAGAAGTTAAGTTACTCTTGAAGGTTGTTACATAGCTAGGAAGCAGCAGGGGAGGGCCTTGAAACTGGGCCTGCCAGGTCCTTATCCTGT
GTTTCTGGTGTGTGGAAGTGTGTGTGGGTGGAGTGGGGGCACAAAATGGTCCAAGACTTCAGAACCTTGGACTCGTGTGAGAGCTGAGAAGGCCTATCCT
CCCCTGCCCCCAGGCCGTGGGTATCTGCCCTGGGCTGGGTGCCCGAGGGGCTCATATGCTGCTGCAGAATGAGCTCTTCCTGAAYGTGGGCACCAAGGAC
TTCCCAGACGGAGAGCTTCGGGGGCACGTGGCTGCCCTGCCCTACTGTGGGCATAGCGCCCGCCATGACAGTGAGTGTCCTTAGGGGTCTGTCTGCCCTT
TGGTTTCCTAGAACATTTGAGGGATGGTGGCAGACAGCCGGAGCCTGGTGTGTCTTTCTTTGTGCCTAAGCTCCGGTTGCCATCTGAAGGTGGGGACATA
TAGGGTGGCCCTGCTGGCGGACTCTTCCTGTTGCTGAGGTTCAAGGGTCTAAAACTTGCTGCTCTCCAGGCCCTGGACCTATGGACAGTGTCTTCCAGCT
CGTGGAATGTGTGCTGGGGAGCTGGGAATGCTGGGTTTGAGGGCTTGCCCTAGGCCACCTTCTCACCTGTCATCTCTCCTCTGTCTGGACCCAGCGCTGC
CCGTGCCCCTAGCAGGAGCCCTGGTGCTACCCCCTGTGAAGAGCCAAGCAGCAGGGCACGCCTGGCTTTCCTTGGATACCCACTGTCACCTGCACTATGA
AGTGCTGCTGGCTGGGCTTGGTGGCTCAGAACAAGGCACTGTCACTGCCCACCTCCTTGGGCCTCCTGGAACGCCAGGGCCTCGGCGGCTGCTGAAGGGA
TTCTATGGCTCAGAGGTAAGGATGTGATGGTAGGCGGCAGCTTGGAACATTTCTGTTTTTTAGCTTGAAGGGCTGTGTGGGCCTGTGTTGGGGAAAGCAG
AGAGCAGGCAGCCTGGTATAGAAGAGCTGGCATAAATAAAATAAATTAAACAGTGATTTGTAGGCTGGGTGCAGTGGCTCAAGCCTGTAATCCCAGCACT
TTGGGAGGCCAGGTGGGTGGATCACCTGAGGTAGGAAGCTCAAGACTAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCTG
GGCGTGGTGGCACATGCCTATAATCCCAGCTACTCCAGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATGGCG
CCATTGCACTCCAGCCTGGACAGAAAGAGCAAAAATCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGCTGGCATGGGCTTGGGAGTCAGATAGA
CCTGGGCATGACTCTGACTGGCTTTTTATTATTCATTCTCCTTTCTAAGTCTTTTTTTGGTGGGGTGTCTTGGATAGTATGTAATATCCTGGACCTCAGG
GGGGTAGGTGGGATGGACTAAGCCCTTCAAGTGGGGTGAGTTCTCATGGACTTGGTCAGAGAGACCTGGCTTCCAAGCTCCACACTATTGCCAATGGGCT
TTGCTACCRTGAAGACTTTATTTAACCTCCCTGGCTCTCAGTTTCTTCATCTGTGAACTGGGGACAGTAGGCTCAGCCCTAAAGTGCCTTATTCCTATCC
ATTGTCCTGTCTATGTGCAGGCCCARGGTGTGGTGAAGGACCTGGAGCCGGAACTGCTGCGGCACCTGGCAAAAGGCATGGCCTCCCTGMTGATCACCAC
CAAGGGTAGCCCCAGAGGGGAGCTCCGAGGGCAGGTAGGTGGCGAGTGTGGGCAGTGGGGGCAGTGGGGAGGGTGCAGAGTTGGAGGGGCACTGTGTGCC
ATTGCACTAGTCACTTGCTGTCTCTGAGTCCTGGGGGTGGTCGTATCACAGCGCCCCCCCGGCTGGTGGGGAGGATGAGCTACATGAGGAGGCTGGCAGC
CCGGCACCCTATCCCTGGCAGCTGAGATGATTGTGGAGCGAATGGCATCCTCCTGGGCCACTGCAGCGCTCAGGGGGCCGAGGTGTCTCCTGCTGGCTGG
CCAGCTGCCGCTGGTAAAGACGCGAGGGGGAGCCCCAGCGCTGCCTCAGTTGGCCTCTCCTCCCAGGTGCACATAGCCAACCAATGTGAGGTTGGCGGAC
TGCGCCTGGAGGCGGCCGGGGCCGAGGGGGTGCGGGCGCTGGGGGCTCCGGATACAGCCTCTGCTGCGCCGCCTGTGGTGCCTGGTCTCCCGGCCCTAGC
GCCCGCCAAACCTGGTGGTCCTGGGCGGCCCCGAGACCCCAACACATGCTTCTTCGAGGGGCAGCAGCGCCCCCACGGGGCTCGCTGGGCGCCCAACTAC
GACCCGCTCTGCTCACTCTGCACCTGCCAGGTAGGAGGTCCTGGAAGGGCACACTGGGTCCTGGGATCTGGAGCAAGGGGCCTGGACACTCCCGTCAATG
CCTCTGCTCCTCTCTGCAGAGACGAACGGTGATCTGTGACCCGGTGGTGTGCCCACCGCCCAGCTGCCCACACCCGGTGCAGGCTCCCGACCAGTGCTGC
CCTGTTTGCCCTGGTGAGTTCCCCGYAGGGGAGTGGAGGGAGGAGTTGGCCCAGTGYGGACAGGTCCTTTGGGGAGGGAATGAGGGTGGTCACTCTCTGC
TTTCACCATTTCTTTGGCTCCACAGAGAAACAAGATGTCAGAGACTTGCCAGGGCTGCCAAGGAGCCGGGACCCAGGAGAGGGTGAGCTGGAAGGGTGCG
TGCAGGGTGGGAGGCCCCAGAGGAGCCATTAGGTTGAACCAGGAGGGGGACAAGAAGGGGAGAGTATATAGGGGGTGGCCTGAGGGGCACAGATTCCAAG
TGATGCCTGACAGGACTCATTAGTGTTACTGGCCCCCAGGTGGGCCCTTGGCTTAGGCTCGTGTGGGGGTGGCCTGAGGCTCAAGCCTTGGTTGTGGGCC
CAGCTGATGAGCTCATACTAATGGCTGCTGGGCCCTGTTCCCCACCAGGCTGCTATTTTGATGGTGACCGGAGCTGGCGGGCAGCGGGTACGCGGTGGCA
CCCCGTTGTGCCCCCCTTTGGCTTAATTAAGTGTGCTGTCTGCACCTGCAAGGTATGGCCACCCAATCTTCTCTGGTGCCATAACCCAGCGGGGTCTGCA
GAGATGGGGAGGGGCTGCCAGGTGAGGAAGGCCCGTCCTTGGTGAGGAGGGCTCAAGAATCAAAACGATATGAGAAAAGGCCCTTGCGCTCTGAGAGTCG
GCTTCCTGTGGGAAAATGAACAGGGCTGACCTGGGTGTGGATTCTGGCTCTGCCAGCTAACTAGTGCCAGTGACCCTAGGCACCTTCTGTCCCTGAGCCT
CACTTTCCTCTCCTGTAAGCAGATATGATGGCACCTACCTTGCAGGGTTCTGATGAGGAGCTGAGTTTAGGTCTATAAAGCCAGTCCGGGCCTCTGAGTA
AAAGGCCACAGAGAGACTGCATTTGAGGTGTGGAATAGGAGAGGGAGTGGGCAGGAGGCTTATGTGCCCCCTGCCTGACACTCCTTGCTCAATGGATCCC
TACAGGGGGGCACTGGAGAGGTGCACTGTGAGAAGGTGCAGTGTCCCCGGCTGGCCTGTGCCCAGCCTGTGCGTGTCAACCCCACCGACTGCTGCAAACA
GTGTCCAGGTGAGAGAGGTGGCTGAGMACTGAGGCCTCACCTTTGGGTTGAGGCAGGCTTTGTCCTGGGTGAGGGGAAGGGTGCTCAGTTAATTGAGCAT
TATACTGAGCACTGCTCTGTGCCTAGCCTGGAGCCAGGACTCTAAATGCAGTGGAAAGAATGTGATATACTAGTGGGGTATGATGGGTTCTGGTTCCTGC
TCCATCCATCCGTCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCGTCCATTCATCTATCTATCCACCCATACAACCATCCACCCA
TTGATGCATCCATCCATGCATCCATCCATCCCTCCATCCATCCACCCATCCACCCATTGATGCATCCATCCATCCATCCATCCATCCATCCATCCATCCA
TCCRTCCGTCCCTTCATCCATCCATTCATCTGCCCACCCACCCATCCAAATTTATCACCTACTAAGTGCCAGAAACTGCAACGTGCTGGGTATTCAAAGA
GAATACTCATAAAACCTTGTTGGTCCTCCTGGGCTGATCCTTTCTCTTTCCCTCTCAACAGTGGGGTCGGGGGCCCACCCCCAGCTGGGGGACCCCATGC
AGGCTGATGGGCCCCGGGGCTGCCGTTTTGCTGGGCAGTGGTTCCCAGAGAGTCAGAGCTGGCACCCCTCAGTGCCCCCKTTTGGAGAGATGAGCTGTAT
CACCTGCAGATGTGGGGTAAGTGGGGAGCAGAGGCTTGTGTGAGGTGGGTACTGGGAGCCTGGTCTGGAGTAGGGAGACCTTCCCAGGGAGGTCCCTGAA
GAAGCTGAAGGTCACTGTGTCCCAGTGCCTCTGGGGGACACTCAGTGTCTGCTCTGTCTTGTACCAGGCAGGGGTGCCTCACTGTGAGCGGGATGACTGT
TCACTGCCACTGTCCTGTGGCTCGGGGAAGGAGAGTCGATGCTGTTCCCGCTGCACGGCCCACCGGCGGCGTAAGTGAGGGAGTCCAGGGTCAGCAGCTG
TGAGTGGAGGGCTCACCTGCCTGTGGGACTCCTGATCAGGGAAGGGAGCACTCACTGTGTGCAGGAACAGTGCAGCCTGCCTCACAAGTGCCATTCCAAT
CCACCCTCACAGCAACCTGGTGGAATTGTTATTTATGACCTTTTCTTTACAAATGAGATTTCTGAAGCTCAGAGAAATTAAGCAACGAGATGAAGGTCAC
CCAGCTGTGTGCACTGACCTGTTTAGAAAATACTGGCCTTTCTGGGACCAAGGCAGGGATGCTTTGCCCTGCCCTCTATGCCTCTCTGTGCCTCTCCACT
CCCTCTCCCCTCCTCCAACATTCCCTCCCTTCTGTCTCCAGCAGCCCCAGAGACCAGAACTGATCCAGAGCTGGAGAAAGAAGCCGAAGGCTCTTAGGGA
GCAGCCAGAGGGCCAAGTGACCAAGAGGATGGGGCCTGAGCTGGGGAAGGGGTGGCATCGAGGACCTTCTTGCATTCTCCTGTGGGAAGCCCAGTGCCTT
TGCTCCTCTGTCCTGCCTCTACTCCCACCCCCACTACCTCTGGGAACCACAGCTCCACAAGGGGGAGAGGCAGCTGGGCCAGACCGAGGTCACAGCCACT
CCAAGTCCTGCCCTGCCACCCTCGGCCTCTGTCCTGGAAGCCCCACCCCTTTCCTCCTGTACATAATGTCACTGGCTTGTTGGGATTTTTAATTTATCTT
CACTCAGCACCAAGGGCCCCCGACACTCCACTCCTGCTGCCCCTGAGCTGAGCAGAGTCATTATTGGAGAGTTTTGTATTTATTAAAACATTTCTTTTTC
AGTCTTTGGGCATGAGGTTGGCTCTTTGTGGCCAGGAACCTGAGTGGGGCCTGGTGGAGAAGGGGCAGAGAGTAGGAGGTGAGAGAGAGGAGCTCTGACA
CTTGGGGAGCTGAAAGAGACCTGGAGAGGCAGAGGATAGCGTGGCAGTTGGCTGGCATGCCTGGGTTCCGCAGAGGGGCTGGGGATGGTTCTTGAGATGG
TCTAGAGACTCAAGAATTTAGGGAAGTAGAAGCAGGATTTTGACTCAAGTTTAGTTTCCCACATCGCTGGCCTGTTTGCTGACTTCATGTTTGAAGTTGC
TCCAGAGAGAGAATCAAAGGTGTCACCAGCCCCTCTCTCCCTCCTTCCCTTCCCTTCCCTTTCTTTCCCTCCCTCCCCTCCCCTGAAAGGGAGAAGGGGA
AACATGCCCCCGGGCTACACAGGCGAAACGAGAGAATATAACGTGAAAAGAGCGCAACGTCCTGCAAAAGACTACACATAGTATGGAACGCGCTCAGGGG
AGAGAGGCGAGATTATGGCCTGTGAGGGCGGACCCGCACGCGGCGTGAGGGGACCCGCGCGGGTGAGTTGGAAGTATCTGTTGGCCACCGCGTCCCGCGC
CNNNNNNNNNNNNNNNNNNNNCATGTCCACCGTGGGACGTTCACCAACTCCAACAATAGAAAACAAAATAAATGTGTTAGGATAATAGAACTAAACACAA
AAAGAAGGAAGAGGAGAACAAAACGCAAACGGGCCAAACACAACAACAGTTAAAAAGTAATTATAAGAAACACCACGAAAGAAAAGATTTATAACACAAA
TATGACAAAAAATAAAAAAAAGAAAAAAAAAAAAAAAAACAAAAACAACACAAACCCATAAGAATAAGAAAGCAAACACAATCTAACCCTCTCCCCCATA
CCCAACAGAGGCCACCCAACAAACATGTCACCCACCCAACATAAACCTGTCCTCCCCTCCCCTCCCCTTCCCTTCACTCTCCCTTCCCTCTCCCTTCCCT
TCCCTTCTCCTTCGTTCACAGCAATGGGGTCTTGCTATGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCTCCTGCCTTGGCCTTCCAAAG
TGTTGGGATTACAGGCATGAGCCACCACACCCAGCCCAGCCTCTACCTTCTTTGTCTAAAGTGAGGCAAACACTTTTCTGTTTTTTTCCTGGAAACTCGT
GTTCTGGACCAGTTCTGGGGCAAACTGGGGTCAGAGTGGATTGGAATCAGCTCTGATCCAGCTTTTGGCTGTGCTTACCTTGAGACCAAATCATGTAGAG
AATAAGACAAGACCCTCCTGCCCTGTTACCCTCTTCTCTCTCCCCTCCCTCATTCCTACCATCAAGACCCAGGCATTTTGACAAGCTCTAGGAAATGAGG
GTATCAGAACAGAAATCTAACAAATGTATGTAGCTGCAGATCCATCTTTCATATAAACAATGTGGAGTCAAATGAATCTGGGATTTTATGATCTGGTAGG
GCAGGGGAAAGGGAAATCATAGCTTGCTTATGGAGTGTTAGGCATGCTGTATGTGGTTAAGAAGTTATTGTCTTAGCCCATTGAAGCATCGAGTTCCAGT
TCTGCTGTTAACTAGCTGAGTTATTTAACTTTCACAAACCCCCATTTCCCTTTTATAAAACACATGATATCCCCCTCACAGGATTCAATCAGAACACGTG
CATTACACAAGCTCAGGGCCTGGCACGTATTCGCTGCAAAAGGCACTCTCCCCGAGGTGGGATTTGTGGGGCTGGTTTGGAATGAAGGCAGGGAGAATCG
CAGGGAGGAGAGTGGCCATGGGCTTCACTTGCGTTTGGCAACTGATATGCTGCTGAATGCTTAGGGGAGAGGAGGGGCTGGACTGAGGATTCAGGGATGA
TGAGGATGGGGATAACCACTTGGGCCAGAGCCCTGGCTGTTAATAGGAGGATCGTGAGGGCCAGATAGGGATGAAAAAGCAGCAGTATTCAGCACGGGGT
TAAGTGTGGGAGTGAGGCACCAGTTGTGGTATGATGGAGATTTGGCCCAGAAATGGTGTGCTGACAGTGTTGTCCTCCTTGGTGTGGAACTTTGGTGGGA
AGAAGGGTTGGAAAGGGAAATTTTGATCCTTGGATTTAACCCGAGTTTGTTACTGATGCTCACAAGACTAGGGGAAGGATAAAGGCAGGTGAGTCACTCT
AGGATGGCTCAGTGAGCTCCACAGAGCTGGAACCACAGGCACCAGGAGGGATTCAGAGCAGGCCTCAGTGCACGTCAGCTGAGTGAACCAATGAGCAGGT
GATGGGTCCAGGCAGAGCCCTGTCCTCTTTAGGCAAAAACCCTTGAAACACCGTTCCCATCCTAGCCTGTGTTCCAACCAAAGCTGGCCAGTCTCCAGGC
CCTGCCTGAGCCCCAGGGAAGTGGTATGGTGAAACAGAAGGGCCAGCCCTGTCCAGTGTGTGAGGAACTTCATTTCAGACTTGTTGGAAGCCCTGATGTT
CAGAGACCTCAATAATATCATTCATTTTTCCCATCCATTCAATGCCCATTCAATGCCCATCCATTCAATGCCCCATCCATTCCCCTTCAGGCAACTGCAC
ATTGGTCAGAGAGCCCTTTCCCTTTCCAAAAAACCAAACCAAACCAAAAACCCTGCAAAAATGCAGCAAAATCCAAGCAGAGGACCATTTTCCTGGGTTT
AGTATTTCTGTGTCTCAAAACAGTTACCTGTAGTATTTAAAATTTGATCTCTCACCCTGGGGTCAGTCAGGCCTTTTACATGGCAGAGGGTTTGACTCAA
CCACTGAGCTTCTCCAGCAAAACAGACAGAAGGGAATACATACCTGCTTGGCTGAAGAAATGGGGTGGTTTTGATACAACATTTTTTGAAGAGAAAACTC
CTTCATGTGCAGTAATCCACTTTGCCAAGTTCTCCTTGTGCGACTACCTCTTAGGCATTCCCTAGTGATACTCTGCCCACTTTTAATATACCAAATCCAG
ATTGTGCTAAGGTAGGTGATGAACAGCAAACAGTTTGGAGCTATGGCATGGTGGTATGCTGGCAGCTGTCAGTTCACTTTTGTCCATGTCACCAGAGCAG
GATCTGTGCAGTGACTTAAGAACAATAGTTTTCAAATCTTGGCCATGGATATGTGAAATTGCCACAGGGCAGAGGGACAGATGGGGGTTCCAGGGACCTC
CTGGGAGTGGGAGGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGCCAACATGATGAAACCCCGTCTCTACTAAAAATACAAAA
AATCAGCCAGGTGTGGTGGCGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTGGAACCTGGGAGGCAGAGGTTGCAGTGAGCC
GAGATCGCTCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTATCTCAAAAAAAATAAAAATAAAAAAATAAAGTCAACTCCATCTTAAAACTAG
CAGGTAGGCCGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCGGAGACAGATGGATCACCTGAGGTGAGGAGTTCTAGACCAGCCTGGA
GCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGCAGGCGCCTATAATCCCAGCTACTTGGGAGGCTGAG
GCAGGAGAATCGCTTGAACCCAGGAGGCGGATGTTGCAGTGAGCTGAGATCGCGCCATTGCACTCAAGCCTGGGCAACAAGAGCAAGACTCTGTCTCAAA
ACAAACAAGCAAACAAAGAAACAAACAAAACAACAAAACTAGCAGGTACGTTCCTTGCCAGTCATGACCCATGGTCATAAGATGTCTACAGCTCAGGAAG
CAGCTTCACAATGCCTGCAAAGACAAACTCCTATGACAGCAGAATGTCCTGATGTCCCCATATCACATAACAATGTATGCTTTTATGATGGTTATAGTCA
AGCTTTGATGTACTTACGCACTAAAATGCCAAGGATAGTTTTCTTTAAATCAGCAACATAATAAATGTCATGCTGTCAGTCCCCCACATGTAGACATAAC
TTAGCTTTTACATGGATAAGAAACCTATATAAGAAAACCTTAGGCCAGGTGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTG
GATCACTTGAGGTCAGTAGTTTGAGACCAGCCTGGCCGACATGGCGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCCGGCATGGTGGCACATGCC
TGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACTCGAGAGGCGGAGGTTGCAGTGAGCCGAGACTGCGGCCATTGCCCTCCAGCCT
GGGCGATGAGAGCGAAACTTCATCAAAAAAACAAAAACAAAACAAAACAAAAAACACCTTAGAAGAGGCGTTCCTCCTCTTGCTTTCTGAAGACACTCTA
CGCTGAAACAGTAGCTTTCAATAAACCATCTCTTCTCACCGCACTCTGCGACTTGCCTTGAATTCCTTTGTGTGCAAGATCCAATAAGCCTCTCTTGCGG
TCTGGATGAGAACCCCTTTTTTTGGCAATACTTCTGACACAACAAAAATGGCAGAAAGGAGAGGTCTCATCATGTAATAAAATTAAGGCAGAGAAAGATT
TCTCTGGGCATGCTGAAAGAGACACAGTTTCACTTGTCAAATATTAGGTAGTCACATATGATGTGTGATGAAAAAAGCCTGTGTGTATGGAATGCCTACA
TAGAGGGTATTATGGAATGCTGGAAATACATTGTTAGGGATGACAAAAGGGGAGGACTTATTAGAGATTGTGGAATGACTGTGCTGCTCTGAGAATGGAG
CTTACAACATTGTTTGGCTTTGATACGTTTTCATGTACAAAGGGAGCTGCCAGAATTATTTTTGCTCTTCATAAAACTAAATCATTGTTAACAATTATGG
TAATATACAAATATGTGAGAAGGAAAGAAAAATCCACCTGTTATTCCAACTCCTGGATAGCCAACCACTCTTAAAACAAAATTACTGATGGCTGGGTGCG
GTGGCTCACGCCTGTAATACTAGCACTTTGCAGGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGACACCAGCCTGGCCATCATGGTGAAACCCC
ATCTCTACTAAAAATACAAAAATTACCCGGGTGTGGTGGTTTGCGCCTGTAATCCCAGCTACTTAGGAGGCTGGGATAGGAGAATCAGTTGAACACTGGA
GGCAGAAGTTGCAGTGAGCCGAGATCGCGCCATTGCAGCCTTGGGGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAATTCACTCAGTATTTTTC
TAAGTGTTAGTCAGTGAAAACTTCATTACCCAGCTTTGGCCCCGCTCCCACTCCCACGCCAGGTTCTACCCCTACAGTGCCTTCTGCAGCGCCTTGATCC
TCACCTGTGAAGTGGCTGTGATGTCCCAGCATAGGGTATTTGTGCGACAGCTTCAGGAGCAGGAGTGCACTTCTTTCTGCAGAAATAAGGAAAGCTCTGG
AGTGCGTTTAAGGGAAATCTGACCTTTGCATTGAAAATGGCCAGGGAGGTACACAAACAAAAAGTTTGAAAAAAATCTTCCCTAGCTTAGAGAATCGGGC
AAATTTTCTGCAAACTGGCTAGAGCTCCCCCAGGGGAATCCATGCTTCTCAGCTGATGGGTGTTGAGCAGGCCTGGAGGTTGTCCTCTCCTCACGTGAGC
AGCAGAGATTGGCCAGGGCCCCAGCCATTTCTTGGGAGGAGTCATTCACAGTTTTTTCTTGTCCACCTGCCTTGGCTGGGCTGGCTCAGCCTCTTTTGGA
GCCTCCATTTTTGGAGTTCGTCATGCTCCACTGAGGTGCCAGGCCTACTGTGGGGACAGAGACTCCTCACTCTCTCATTTGGGCAGTGGGACAAGCAGGG
GGC


SNP Information

Context             (SEQ ID NO:18141):
TGGGATGGACTAAGCCCTTCAAGTGGGGTGAGTTCTCATGGACTTGGTCAGAGAGACCTGGCTTCCAAGCTCCACACTATTGCCAATGGGCTTTGCTACC
R
TGAAGACTTTATTTAACCTCCCTGGCTCTCAGTTTCTTCATCTGTGAACTGGGGACAGTAGGCTCAGCCCTAAAGTGCCTTATTCCTATCCATTGTCCTG
Celera SNP ID:            hCV25927681
SNP Position Genomic:     12309
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,6)   caucasian(A,33|G,7)   total(A,63|G,13)
SNP Type:                 INTRON


Context             (SEQ ID NO:18142):
GCTCACTCTCAGTGACACAGAGGACTCCTTGCATTTTTTGCTGCTCTTCCGAGGGCTGCTGGAACCCAGGAGTGGGGGTAAGTGGGATGGGGGCAAAACA
Y
GTGAGAAGGTTAGGGAGAGCACCTGTCTCAGAAAGGCCCACATGTGCGGCCTTGCAGGACTAACCCAGGTTCCCTTGAGGCTCCAGATTCTACACCAGGG
Celera SNP ID:            hCV25928755
SNP Position Genomic:     9175
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,22)   total(C,54|T,2)   
SNP Type:                 INTRON;UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,10)   total(C,38|T,2)
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:18143):
CTCACTCTCAGTGACACAGAGGACTCCTTGCATTTTTTGCTGCTCTTCCGAGGGCTGCTGGAACCCAGGAGTGGGGGTAAGTGGGATGGGGGCAAAACAC
R
TGAGAAGGTTAGGGAGAGCACCTGTCTCAGAAAGGCCCACATGTGCGGCCTTGCAGGACTAACCCAGGTTCCCTTGAGGCTCCAGATTCTACACCAGGGG
Celera SNP ID:            hCV25928756
SNP Position Genomic:     9176
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(G,22)   total(A,5|G,51)
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:18144):
CGAGAGCATGCTCTGCATTGCCTCCCGTGGTCCTCACCACAGCCCAGTGGGAGGAAGGCACTGACATTATGATGCCCATTTTACAGAAGGGGGAACTGAG
R
CTCAGTAGGATAATGTGATTTGTTCAAGGTCACACAGCTAGTAAGTGGTGCAGCCAGGATTGGAACCCAAGCATCTGGCTCCAGCGTTCTTTCTTAAGCT
Celera SNP ID:            hCV25930816
SNP Position Genomic:     8545
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,5|G,31)   total(A,6|G,66)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18145):
GAGGTGGAGGTTGCAGTGAGCCGAGATGGCGCCATTGCACTCCAGCCTGGACAGAAAGAGCAAAAATCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAA
A
GAGCTGGCATGGGCTTGGGAGTCAGATAGACCTGGGCATGACTCTGACTGGCTTTTTATTATTCATTCTCCTTTCTAAGTCTTTTTTTGGTGGGGTGTCT
Celera SNP ID:            hCV26041210
SNP Position Genomic:     12070
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18146):
GGAGGTGGAGGTTGCAGTGAGCCGAGATGGCGCCATTGCACTCCAGCCTGGACAGAAAGAGCAAAAATCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAA
A
AGAGCTGGCATGGGCTTGGGAGTCAGATAGACCTGGGCATGACTCTGACTGGCTTTTTATTATTCATTCTCCTTTCTAAGTCTTTTTTTGGTGGGGTGTC
Celera SNP ID:            hCV26041211
SNP Position Genomic:     12069
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18147):
GGGAGGTGGAGGTTGCAGTGAGCCGAGATGGCGCCATTGCACTCCAGCCTGGACAGAAAGAGCAAAAATCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAA
A
AAGAGCTGGCATGGGCTTGGGAGTCAGATAGACCTGGGCATGACTCTGACTGGCTTTTTATTATTCATTCTCCTTTCTAAGTCTTTTTTTGGTGGGGTGT
Celera SNP ID:            hCV26041212
SNP Position Genomic:     12068
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18148):
CCCTGGCGGGTGGGGAGCGCCGGGTCGCGCGGGCGTTGGAGTGGACTCGGAGCTGCTGAGAAGGAGCCCAGTCGGCAGATGTTGGGGATATTTTTCTGGT
R
GAGGAAGGGGAATCAGCCCCTCCAATTCTTAGGTGCTGTTACTGATCGCCCACTCTGTGTGAGGCTCTGTGCCAACTCCGTTTCGTTCCCTGCTCATCTA
Celera SNP ID:            hCV27827942
SNP Position Genomic:     7300
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,36)   total(A,3|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:18149):
TGGGGCTGATGCCCTGATCCCAGTCCAGACGGGTGCTGCCGGCTCAGCCAGCCTCACGCTGCTAGGAAATGGCTCCCTGATCTATCAGGTAAGAGCCAGG
R
GCTGCAGAAGGTGGGGGAGGGGTGGCGTGGGCAGCAGGCCCCAGGCCTTTACTGCCTCTCCACTTTGCCCTCCTCCATCCCTGCCCATCAGGTGCAAGTG
Celera SNP ID:            hCV25927090
SNP Position Genomic:     9808
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18150):
CCGCAGAGCGCAGCAGTTCGGAGCGGCAGCCGAGCGGCCTGTCCTTCGAGTATCCGCGGGACCCGGAGCATCGCAGTTATAGCGACCGCGGGGAGCCAGG
M
GCTGAGGAGCGGGCCCGTGGTGACGGCCACACGGGTAGGGGGCTGGCGAACAGCGGGGTTGTGGTTGAGGCTGGGCCACCAAAGCGGCGTTTGACAGTGC
Celera SNP ID:            hCV25928057
SNP Position Genomic:     7967
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,29)   caucasian(A,8|C,32)   total(A,13|C,61)   
SNP Type:                 SILENT MUTATION;UTR 5;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,30)   caucasian(A,8|C,30)   total(A,14|C,60)
SNP Type:                 SILENT MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:18151):
TTGGGGCCTCTCCCCTGAATCCTTCCTGGGGCCATGGAGGCGGCTTAGGCTCTTGCACTTCTGGGCAGAGTAGGGTGGGGCAAAGGCGGGCCAAGGGTGA
R
GAATCTATCCTGAAAGTAGCAAGAAGAGTGAACATTTAACCAAGTTTCTAGGAAGAGACTGCCTGGCAGGGTGAACAGATGCTGGGGAGGGCTTGAGATG
Celera SNP ID:            hCV3083815
SNP Position Genomic:     2682
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,22)   caucasian(A,15|G,15)   total(A,29|G,37)
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:18152):
TATTCCTATCCATTGTCCTGTCTATGTGCAGGCCCAGGGTGTGGTGAAGGACCTGGAGCCGGAACTGCTGCGGCACCTGGCAAAAGGCATGGCCTCCCTG
M
TGATCACCACCAAGGGTAGCCCCAGAGGGGAGCTCCGAGGGCAGGTAGGTGGCGAGTGTGGGCAGTGGGGGCAGTGGGGAGGGTGCAGAGTTGGAGGGGC
Celera SNP ID:            hCV25928417
SNP Position Genomic:     12490
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,6)   caucasian(A,32|C,8)   total(A,58|C,14)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:18153):
TGTGAGAAGGTGCAGTGTCCCCGGCTGGCCTGTGCCCAGCCTGTGCGTGTCAACCCCACCGACTGCTGCAAACAGTGTCCAGGTGAGAGAGGTGGCTGAG
M
ACTGAGGCCTCACCTTTGGGTTGAGGCAGGCTTTGTCCTGGGTGAGGGGAAGGGTGCTCAGTTAATTGAGCATTATACTGAGCACTGCTCTGTGCCTAGC
Celera SNP ID:            hCV25924961
SNP Position Genomic:     14427
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,32)   total(A,1|C,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:18154):
CGCCCAGCTGCCCACACCCGGTGCAGGCTCCCGACCAGTGCTGCCCTGTTTGCCCTGGTGAGTTCCCCGCAGGGGAGTGGAGGGAGGAGTTGGCCCAGTG
Y
GGACAGGTCCTTTGGGGAGGGAATGAGGGTGGTCACTCTCTGCTTTCACCATTTCTTTGGCTCCACAGAGAAACAAGATGTCAGAGACTTGCCAGGGCTG
Celera SNP ID:            hCV25929506
SNP Position Genomic:     13357
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:18155):
ACGGTGATCTGTGACCCGGTGGTGTGCCCACCGCCCAGCTGCCCACACCCGGTGCAGGCTCCCGACCAGTGCTGCCCTGTTTGCCCTGGTGAGTTCCCCG
Y
AGGGGAGTGGAGGGAGGAGTTGGCCCAGTGCGGACAGGTCCTTTGGGGAGGGAATGAGGGTGGTCACTCTCTGCTTTCACCATTTCTTTGGCTCCACAGA
Celera SNP ID:            hCV25929450
SNP Position Genomic:     13326
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,40)   total(C,73|T,3)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18156):
CTAGGTCCCGGGCCACTTGGATGGGGCGTCGGACTGGCCTTTCCCATGGCCAGCTGAAGCCCGTGTTCTTACCCCCCCGCCCGCAGAGCGCAGCAGTTCG
R
AGCGGCAGCCGAGCGGCCTGTCCTTCGAGTATCCGCGGGACCCGGAGCATCGCAGTTATAGCGACCGCGGGGAGCCAGGCGCTGAGGAGCGGGCCCGTGG
Celera SNP ID:            hCV25930280
SNP Position Genomic:     7887
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:18157):
CCTCCCTGGCTCTCAGTTTCTTCATCTGTGAACTGGGGACAGTAGGCTCAGCCCTAAAGTGCCTTATTCCTATCCATTGTCCTGTCTATGTGCAGGCCCA
R
GGTGTGGTGAAGGACCTGGAGCCGGAACTGCTGCGGCACCTGGCAAAAGGCATGGCCTCCCTGATGATCACCACCAAGGGTAGCCCCAGAGGGGAGCTCC
Celera SNP ID:            hCV25928292
SNP Position Genomic:     12426
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:18158):
CATCCTTGCCTGGGGGGGTCTCATCAGTTGGCATCTTGCACTCACTTGGGTTTCCCGCCTTTTCCGGGAGCAGCCTCAGTGGGGTCGCCGTACCAGGGGC
Y
CTGGCAGGGTCAGCTGCAAGAACATCAAACCAGAGTGCCCAACCCCGGCCTGTGGGCAGCCGCGCCAGCTGCCGGGACACTGCTGCCAGACCTGCCCCCA
Celera SNP ID:            hCV25923420
SNP Position Genomic:     7639
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,5)   caucasian(C,37|T,1)   total(C,64|T,6)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:18159):
GCTGGGGGAGCTGCAGATGGCCCTGGAGTGGGCAGGCAGGCCAGGGCTGCGCATCAGTGGACACATTGCTGCCAGGAAGAGCTGCGACGGTGAGGCGGGG
K
GGGGGCCTGGTGCGCCGGGCATGCACAACTGAGAGACACAGACAAGTGCCAGGGTGGGTGTGGGAGAGATCCTGTGGACTGGGGGTGTAAGCGGCCATGG
Celera SNP ID:            hCV25928724
SNP Position Genomic:     9552
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,38)   total(G,73|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18160):
CCCAGCTGGGGGACCCCATGCAGGCTGATGGGCCCCGGGGCTGCCGTTTTGCTGGGCAGTGGTTCCCAGAGAGTCAGAGCTGGCACCCCTCAGTGCCCCC
K
TTTGGAGAGATGAGCTGTATCACCTGCAGATGTGGGGTAAGTGGGGAGCAGAGGCTTGTGTGAGGTGGGTACTGGGAGCCTGGTCTGGAGTAGGGAGACC
Celera SNP ID:            hCV16184729
SNP Position Genomic:     15080
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,29)   caucasian(G,1|T,29)   total(G,8|T,58)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,248|T,1239)   total(G,248|T,1239) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:18161):
TGCAAGAACATCAAACCAGAGTGCCCAACCCCGGCCTGTGGGCAGCCGCGCCAGCTGCCGGGACACTGCTGCCAGACCTGCCCCCAGGGTAAGTCTTGCT
S
CGCCCTGCGGGGAGGGAGGCAGGGCCACGATACTAGGTCCCGGGCCACTTGGATGGGGCGTCGGACTGGCCTTTCCCATGGCCAGCTGAAGCCCGTGTTC
Celera SNP ID:            hCV25931264
SNP Position Genomic:     7754
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,38)   total(C,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:18162):
CTGGGACCACTAGAGGTCAGGATTAAAAGGCGGTATGGGAGAAATTAACCTCTATTCTTTCCCTATCTACCCCCACACATAAAGCCACTGGAGCTTTTCT
Y
TGGACTCCAAGTCCTGAAATACTCCATTATCTGAGGCCAAGAGATGGGCTAACAGTTCTGGGACTTCCTTCCTGAGACCAGCTGCCCAGGAACGGGCACC
Celera SNP ID:            hCV27483773
SNP Position Genomic:     3602
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,292|C,1169)   total(C,1169|T,292) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18163):
CATTTTCCAGACAGGGACCTTGAGGCCCAGAGAGATGAAGTAGCTTGTCTAGGGTCACGCAGCTTGTAAGTGGCAGAGCTGGCTGACTCTGCGGGACATC
Y
TTGCCTGGGGGGGTCTCATCAGTTGGCATCTTGCACTCACTTGGGTTTCCCGCCTTTTCCGGGAGCAGCCTCAGTGGGGTCGCCGTACCAGGGGCCCTGG
Celera SNP ID:            hCV12070390
SNP Position Genomic:     7543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18164):
CCCTCCAATTCTTAGGTGCTGTTACTGATCGCCCACTCTGTGTGAGGCTCTGTGCCAACTCCGTTTCGTTCCCTGCTCATCTAACTCTCATGGCAGCCTT
K
CTAGATAGAGAGTATTATTATCCCCATTTTCCAGACAGGGACCTTGAGGCCCAGAGAGATGAAGTAGCTTGTCTAGGGTCACGCAGCTTGTAAGTGGCAG
Celera SNP ID:            hCV12070391
SNP Position Genomic:     7418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18165):
CAGCCGCGCCAGCTGCCGGGACACTGCTGCCAGACCTGCCCCCAGGGTAAGTCTTGCTCCGCCCTGCGGGGAGGGAGGCAGGGCCACGATACTAGGTCCC
R
GGCCACTTGGATGGGGCGTCGGACTGGCCTTTCCCATGGCCAGCTGAAGCCCGTGTTCTTACCCCCCCGCCCGCAGAGCGCAGCAGTTCGGAGCGGCAGC
Celera SNP ID:            hCV25930804
SNP Position Genomic:     7796
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,39)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:18166):
CCCCGGCCTGTGGGCAGCCGCGCCAGCTGCCGGGACACTGCTGCCAGACCTGCCCCCAGGGTAAGTCTTGCTCCGCCCTGCGGGGAGGGAGGCAGGGCCA
Y
GATACTAGGTCCCGGGCCACTTGGATGGGGCGTCGGACTGGCCTTTCCCATGGCCAGCTGAAGCCCGTGTTCTTACCCCCCCGCCCGCAGAGCGCAGCAG
Celera SNP ID:            hCV25930821
SNP Position Genomic:     7782
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,38)   total(C,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:18167):
CGGGGTGATGCGCTGCGTGCTGTGCGCCTGCGAGGCGGTGAGTGCACCCCGCGGCCGGCCCGGGCCCTGGCGGGTGGGGAGCGCCGGGTCGCGCGGGCGT
Y
GGAGTGGACTCGGAGCTGCTGAGAAGGAGCCCAGTCGGCAGATGTTGGGGATATTTTTCTGGTGGAGGAAGGGGAATCAGCCCCTCCAATTCTTAGGTGC
Celera SNP ID:            hCV12070392
SNP Position Genomic:     7236
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,28|T,8)   total(C,57|T,15)
SNP Type:                 INTRON;UTR 5;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:18168):
GCAGCCGCGCCAGCTGCCGGGACACTGCTGCCAGACCTGCCCCCAGGGTAAGTCTTGCTCCGCCCTGCGGGGAGGGAGGCAGGGCCACGATACTAGGTCC
Y
GGGCCACTTGGATGGGGCGTCGGACTGGCCTTTCCCATGGCCAGCTGAAGCCCGTGTTCTTACCCCCCCGCCCGCAGAGCGCAGCAGTTCGGAGCGGCAG
Celera SNP ID:            hCV25930805
SNP Position Genomic:     7795
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,4)   caucasian(C,34|T,6)   total(C,62|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,255|C,1238)   total(C,1238|T,255) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18169):
GTCCCGTTCGCGTCATGCCGAGCCTCCCGGCCCCGCCGGCCCCGCTGCTGCTCCTCGGGCTGCTGCTGCTCGGCTCCCGGCCGGCCCGCGGCGCCGGCCC
M
GAGCCCCCCGTGCTGCCCATCCGTTCTGAGAAGGAGCCGCTGCCCGTTCGGGGAGCGGCAGGTAGGTGGGCGCCCGGGGGAGGCGCGGGCGGGGAGTCGG
Celera SNP ID:            hCV12070399
SNP Position Genomic:     6782
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,2)      total(A,2|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 SILENT MUTATION;INTRON;UTR 5;hmCS


Context             (SEQ ID NO:18170):
TGAGAAGGCCTATCCTCCCCTGCCCCCAGGCCGTGGGTATCTGCCCTGGGCTGGGTGCCCGAGGGGCTCATATGCTGCTGCAGAATGAGCTCTTCCTGAA
Y
GTGGGCACCAAGGACTTCCCAGACGGAGAGCTTCGGGGGCACGTGGCTGCCCTGCCCTACTGTGGGCATAGCGCCCGCCATGACAGTGAGTGTCCTTAGG
Celera SNP ID:            hCV25927153
SNP Position Genomic:     10985
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,35|T,5)   total(C,70|T,8)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:18171):
ATGCATCCATCCATGCATCCATCCATCCCTCCATCCATCCACCCATCCACCCATTGATGCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCC
R
TCCGTCCCTTCATCCATCCATTCATCTGCCCACCCACCCATCCAAATTTATCACCTACTAAGTGCCAGAAACTGCAACGTGCTGGGTATTCAAAGAGAAT
Celera SNP ID:            hCV26041209
SNP Position Genomic:     14804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18172):
TGCATGTGGCACTTGTGACACTCACTCACCCTTCAGGGGAGGTCTGGGGGCCTCTCATCCGGCACCGGGCCCTGGCTGCAGGTAGGGAGCAAAGAGCCCC
R
GGCGTGAAGTTCTGAGTCTTCTCTATCACCCAGGAAAGGGGGGGAGGGTTTCTGACGGGCTCTCATCATCGTCCCTTCCCCAGAGACCTTCAGTGCCATC
Celera SNP ID:            hCV25927531
SNP Position Genomic:     8927
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,6|G,34)   total(A,12|G,66)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18173):
CATGGCCAGCTGAAGCCCGTGTTCTTACCCCCCCGCCCGCAGAGCGCAGCAGTTCGGAGCGGCAGCCGAGCGGCCTGTCCTTCGAGTATCCGCGGGACCC
S
GAGCATCGCAGTTATAGCGACCGCGGGGAGCCAGGCGCTGAGGAGCGGGCCCGTGGTGACGGCCACACGGGTAGGGGGCTGGCGAACAGCGGGGTTGTGG
Celera SNP ID:            hCV265628
SNP Position Genomic:     7931
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,28)   caucasian(G,36)   total(C,4|G,64)
SNP Type:                 SILENT MUTATION;UTR 5;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,32)   caucasian(C,1|G,39)   total(C,5|G,71)   
SNP Type:                 SILENT MUTATION;UTR 5;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;JBIC-allele(C,245|G,1222)   total(G,1222|C,245)   (C,-|G,-)    
SNP Type:                 SILENT MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:18174):
TCCCCAGGAACCAGGCTTTGCTGAGGTGCTGCCCAACCTGACAGTCCAGGAGATGGACTGGCTGGTGCTGGGGGAGCTGCAGATGGCCCTGGAGTGGGCA
R
GCAGGCCAGGGCTGCGCATCAGTGGACACATTGCTGCCAGGAAGAGCTGCGACGGTGAGGCGGGGGGGGGGCCTGGTGCGCCGGGCATGCACAACTGAGA
Celera SNP ID:            hCV25929225
SNP Position Genomic:     9486
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,21)   caucasian(G,24)   total(A,1|G,45)
SNP Type:                 MISSENSE MUTATION;hmCS


Gene Number:                 54
Celera Gene:                 hCG1780249 - 30000041568740
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(14879531..14892233)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12214):
GTCTTGAACTCCTGATCTCAAATGATCTACCCGCCTTGGCCTCCCAAAGTTCTGGGATTACAGGTATGAGCCACCACTCCTGGGCCTTCAAGTATTTCTT
TATAGCCATGTGAGAACAGACTAATACACAGCCCTAGCAAACTAATACGGTATTCATATGTAAAAATTCATCAATGTGTGCTCCTATGATTTGTGTACTT
TACTGTATGTAAGTTATATAGCAACCAATTAATTGTTTTCTTCTAGCAAACAGCTCAAATTACTCCTAACACATCCATTCTACTCTTCACCACAAACCTG
TCTCATAGTTTATTCATCATTTTCTGCATGGCCCATTACTATTTCTGATTGTATTTTAACTCTACCTTAGCTTTTTCAGCTGTTGCATTTTGCTGTATTT
TTCTAAAGATAAGAAGAGAAATGGTGGGAGAGTGTAGAATTAGTATAATCTTGTTATTTTGAGCACTTCAGTGAGCTATAAATTAGGGTCTGCTTTCTAG
ATCTACTGATAATTGTTTGAACAACTTTGGATGCTTCTACTTCTGGATTCCCTCACGGAAAATGGTGATAATTATAAATAGCCAGATCTCCAAGGTTGTA
AATATTACTAAGATAGCATCTTAAAATTGGTGCTATACAAATATAGAAGGCATCATTCTTCCCAGTTCAGTAATAAACATGGCTTAATCTTAATGAGAAC
ATCATCTCTCCACCCTCGTTGTGTTCCTATCTCACATCACTGTAGATCTCCAAAGCAATATGCTGGAGACACAAAGGTGTGTGCTAACTCTTCAGCTAGA
CGTATGGTCTTTAGGAGTTACTGCTCCCTGATTTTGCCCCTTGCTTGTTTAGATTTTTCCTTTTTGTCTATCTGGAGAACACCTACTCATATTTCAAAAC
TTATCTAGAACTCTAAAGATTTATCTGAACTCTTTCCTCTCCTGTAATATAAAATAAGCCACTCTTTCCTTGTTCCTACTTTCAATACCAATGTTGCCTC
ATGTGGAAATATGAGGATGACTTCTAGTACTGCTAACCATAGCTGCCCCTTAATGTTACCACGTCCCAGGCACTGATCTAAGTTCTTCATATGTATATAT
ATTATATATAACATATATATTATATATATAGACTTGAAATCCTAACAGCAATCATATAATGTTCATACTATGAAAAAAAGAGGCATAAATTGTTTAAATG
CATTTCCTAAAGTCACACGTGAAGTAAACAGCAAAGCCAGGCTTTGGACAAAGTCTGTGTGGCTCTAGCATCTGTTCTCTTAACCTCTATGCAATTCTAC
CTGTCCCATTATTGTGCTTCTTGCTTTTTAACCCCTTTTCTAGACTTTTATGTCCTTCAGGGTGGAAACATTCTCTGATGTATCTAGTGTCTTGCACATA
TTAGGTGCTCAATAAACATTTGCTGAATGGGTAAATGGTATATTATTCAATAGAGACACTTTCACTCTCATACTGAAAACATGCCTTCAAATTTGTATTA
AATAGTCTGAGGAATCTAGAATTTCAAGGAATTCTGAAACAAGTTTCTTAGAAGAGTACATACATACTCTTTTGTAGTGAATATTCACTTCCAGGTTTCT
CTGAGAAAACGTTTGAATTTTTATTTGGGTTTATTTAAGCAAAGTTCATTTGCAAAGATAATCAAGGAGAAAAGTATTGCCTACCTCACAGCAAGTATTG
GGAAGATTAAATGAAGTAAAACACGTAATATATTCAGAGCAGTGCCTGGTACATAGAAAAACTAAAGGAATATTACCGTTACTGTTATTAGAATCAAAGA
CAGAAGAGAGTAACTGTTAAGTGCATGGACTTTGATACCACACTGATTGGATTCAAAGCCTAGCTCCAGTGTTTATTAGTTATGTGATCTTGAGTAAGTT
ACTAATCCTCTCTGAGCCAACGTTTCTCCAGTATGTAAAATAGAATAATAATAGTATGGATCTCAAATGGTTGTGGTGAAGATAAAATGTTCTAAGTGAT
ATATATGAGTTTATTTAGAACATTTAATCCTCACAAGTATTTGAGATGCATACTATTCCTATTTTGCTTCTAAGTGTTATATATTAATATATTTCTTCTG
TCTACTTGTCTGTTTATCTCACTTCAAAAGTGCCCATCACTTAGCATGTATGTGTTTGGTCTTATTATTATGCCATATTATTTATGACACCTGACAAATA
ATATGTTCATTACCTGTTGACTACATTAACTTAAAAGTCTAGGATGATTTCTGGGTTTTCATCTTGGGCCTCTGGATGGCCAGCAGTTTAAAACAGGTAA
TACAAGAGGAGGAATACCATGGGATCACAGCTTGGTGGTACCACTTTAGGAATGAACTGATCTGTCCCAACGATTATGTTACAAGGGGAAAGATCTGAGC
TTGGCTGTGAGTTACACACCACAAAGTACGAGGTCCCACATTGATGAATCGGGGAAAAAAAGATAATCTAAAGTAACTAGATCTTAGAGTACTCTGTGAG
ATTTTGCTAGATACGAGCTTAAAAAGATAGGCTTTATTTATAGGCAATCAGACGATACTGCCAGCCTCTATTCAGAACAGAGAAAAACAGATCAGTGTTT
TGTAATGACCACACTCTGAAAACAGTTTGCAAACTATATTATCTATCATAAGAAACCAGAGATTGGAGGCCTGATAGTGAAGGTCTTCAATAGTCTAAAC
TGGAGATATTATAGGGGTCTAGACTTGCAGATCAGTGAGGATGGAGAAGAGATGCCAGCTCACTATGAATAAGGGAGGTACGGTCTGGTCAAGATAACTG
CATGTGTAGGTAATGAATCTAGGATGACCTTGAGATATGTAAGTCGGGTGGCTAGTTGGAGAGTCAGGAAAACTCTGAGATAGGGAAGGTGTCTGGTTGA
TTTGGAGGTGCATGTGGTTTATCTAGGCAGAGAAGTCTAGGAAGCAGTTGGTTATATGAGTTTAAAGTTCAGACAAGGGGTCAGGGCTATAGATAAAGAT
TTGCCCACAGACCCTATGAAAAGAAGAGGTAAAGGAGAGAATACTCCAAAATACAGTATTAACTCTCAGGGAGTTGGTAGAGAAAATGGAGCCAGCAAAA
GAGAGAGAAGGAGATGTTAAGAGAAGTAGAAGGGGAACTGAGAGAAAAAAGTTACTGAAGCTGAGGAGGTGAGGAGAGACTTTTCTGGAGGGAGGAAGGT
TACATTTCAGAGACCTCTAGTAGGATAAGCACCAAGGTCACTCCATGAGATTCATCAGAGCAGTCAGTAGAATGCTGGCTGTGGAATCTAGATTTTCTGC
AGATGGCCAGAGAGGGAATGGGAAGTGAGATTATAAAGCCAGCAAATAGGAACTATTGTTCCTAGAAGTCTTTGTTTTATTTTGTTTTGTTTTGTTTCGT
TTTGAGACAGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGATTCTCCTGC
CTCAGCCTCCCTAGTAGCTGGGATTACAGGCACCCGCCACCATACCCAGCTAATTTTTTGTATTTTTAGTAAAGACAGGGTTTCACCATGTTGGCCAGGC
TGGTCTTGAACTCCCGACCTCAGGTGAACCACCCGCCTCGGCTTCCGAAAGTGCTGGATTACAGGCGTGAGCCACCATGCCTGGCCCCTAGAAGTCTTAC
GGTAGAGGAAAGAAGCCCAAGAAGGCAAAGGGTTAAGGAGCCGTAGAGTTAAGGGAAAGATCTTTTTTTAGGATGAGGAACACTCCAGAGTAAGATTGAG
GAAAGGTTTGAAAAAAGATCTCTAAAGATATCATAGAAGGTGACGGGAGGTAATTAATAATAACAACTAACCATTACTACATTCGTGCCATGTGCTAAGC
ACGCTCTGTAGTGAGTAGTTTTCACTCACTGACTCATTTAATCCTTGCTATCATCCTGGAGGCAGGGACAATTGCTATTGTCTTCATTTGTCACAGGAGG
AAATCAAGGTACAGACAGGCTTAGTAACTTGCTCAAGGTTACATAGCCGGTACTGTAAATTGCAGAGCCAGAAGTTCAAACTCAGGCAGTCTGGTTGCAG
AGAATATGATCTTCACCATTAAGCTGTACTGACCAACTCTCTAAAATGGGTCTGAGAACTTTGTCCAAGAAGTGGTTCATTGCTTCCTTGGAGACAAGGC
AGAGAAGATACTTATCAGTTTGGAGGCTGAGAATGTTTATACTTAATGGCCCCCACCTCTCCTTGTCCCATAAAATAGAACGTCTATTGAGAGAAAAAGA
TGAAGAAGCATGAAAGCTTAGAAGCCAAGACCTGGAAGAGCCACTGGGATTCTACTAGAATTAAATAAAAAGACTTCTGAGTAAAACACAGTCCTTTGAC
CTTAAAAAATATATAATACACTGAAGTAGATATGACAAGTGCCCAAATAACTATAATCTGGGGCAATATGTGTGAAGGGACATAATAGACATAGAATGTT
AGTTGTACAAGGGTTCACCAAGGGAGACACTGTGTCAGGTTATGGGGTAGAAGGATCAAAAGAATCTCAAAGTATGTGAAATATTTGAAAGACAGAGTTT
CAACAAGCAATCCAGGAGTCTTAATATTTTTCCAACAGACAGCTTACTAAGAGCAAGGTTCAATGAAAACATTGTTGATAGCGATTAGAGGAAACTGGAG
TTGACGGGAATGTGGCGCAGAGGAGAAAGAGTCTCTGACCAAGGCAGGATGAGAGGGCAGGGGTTGAGGGCATTGAACCTCACTTTTCTAACTAAATAAC
AGTATCCACCTCCAAGATTATCCTTTTCCTCCTCCACCTCCTCTAGTTTCTCCTTGTTATTGAGTGCTTATCAAATGCCTGGCATTTTGCTAAGCTTTTT
ATTTTTTCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCATCTATCTATATCATCTATCTATTATCGAGACAAAGTCTCGCTCTGTC
GCCCAGTCTGGAATGCATTGTCATGATCCCCGCTCACTGCAACCTCCACCTTCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACT
ACAGGTGTGCACCACCACACCTGGCAAATTTTTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGATCTCAAATTCCTGACCTCAGGTGAT
CCACCCGCCTTGGCCTCCCAAAGTGCTRGGATTACAGGTGTGAGCCACCACGCCCGGCCAACTCTTTATATATTGAATATATTTGATCCTCATCACAGAT
TTTGTGAAGATAACATCATCTCCATTTCACAGGTGACTTAGCTGAGGCTCTGAGAGGTTAAGTTACTTTCCTGAAGTCTCAGAGCTAGATGATGGTTAAG
GCAGAATTCCACCAACATCTGTTTGATCCTAAATCCTTGCTTCTCATACTGCCTCTCATAATTGAGTAACAGCACCTGGCATATAGGAGATGTCCAATAA
ATTTATAATGGACATTAATAATAACTAATGGATATATGTCAAACAACATGTGGTGCTTGGGGTGGGTTATTAAAATGTTTAAAGTGGACAGAACGCTGTT
CTGCACATGCACCCCAGAACTTAAAGTAAAATACAAATAATAATAAAATAATTTCAAAAGTGGACAGAAACCAAGGTACCCTTGCGGGATTGGCAGAAGA
GGAAAAAACTCACTTTTTTCTCTCCTTTTTTAGTGACTACTTACTTATATTAAACTTACTATGTGTCAGGCACTGTTTTAAACACTTTATACAAATAAAC
CCTCTTAATATTCATTACAATCTCATTTACAGATGAGAAAACTGAGGTACAAAACATTTAACCTAACTGGCCCATGCACACAGCTAGTAAGTGGCAAAGC
CAGGTGATCTGGCTCTGGAGCCCATGCTCTGAACCATGCTGTCTCTGTGAGGGTCAAATGGAGCCAAGCATGGAGGACCTTGTGCATCAAGCTAAGGAGA
GCAGCTCTTCATAAGCCGGCGCTCGGCGAGTTCTCCCAGGAGAAGGCCATGTTCAGTTCGRGCGCCAAGATCGTGAAACCCAACGGCGAGAAGCCGGAGG
AGTTCGAGTCCGGCATCTCCCAGGCTCTTCTGGAGCTGGAGATGAACTCAGAMCTCAAGGCTCAGCTCAGAGAGCTGAATATTACGGCAGCCAAGGAAAT
TGAAGTTGGTGGTGGTCGGAAAGCTATCATAATACTTGTTCCCGTTACTCAACTGAAATCTTTCCAGAAAATCCAAATCCGGCTAGTAAGTGAATTGGAG
AAAAAGTTCAKTGGGAAGCATGTCGTCTTTATCGCTCAGAGGAGAATTCTGCCTAAGCCAACTCGAAAAAGCTGTACAAAAAATAAGCAAAAGCGTCCCA
GGAGCAGCACTGTGACAGCTGTGCACGATGCCATCCTTGAGGACTTGGTCTTCCCAAGTGAAATTGTGGGCAAGAAAATCCGCGTCAAACTAGATGRCAG
CCGGCTCATAAAGGTTCATTTGGACAAARCACAACAGAACAATGTGGAACACAAGGTTGAAACTTTTTCTGGTGTCTATAAGAAGCTCATGGGCAAGGAT
GTTAATTGTGAATTCCCAGAGTTTCAATAGTAAACAAAAATGACTAAATAAAAATATATATATTCATAGTAAAAACACACACACACACACACACACACAC
ACACACTAAAACGCTAAGGAGAGCAATCCTTGTCCTTTTGCTTTCTCCAGTCTGAGGTCTCTTCTACACCTCTTACAGCAGTCATTCTTTTTTTTTTTTT
TTTTTTTTTTATGAGACGGAGTTTTGCTCTTGTTTCTCGGGCTGGAGTGCAATGGCGCCATCTTGGCTCACCGCAACCTCTGCCTCCCGGGTTCAAGTCG
TTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAATTACAGGCATGCGCCACCATGCCCGGCTAATTTTGTATTTTTCGTAAAGATGGGGTTTCTCCATGTTG
GTCAGGCTGGTCTCAAACTCCCAATCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCAACATGCCCGGCACAGCAG
TCATTCTTTAAGACTTGCCCTCTCAGCTAATAGAGTCATTGTATCACCAATACCCTTTCATCTACATGAGATTATAAACTTTGTGAGAGTAAAAGATATC
TGTCATTTTTGCATTTGTGTCCCAGCACTTGCCAGATACCTGGCATATGGTCAACACATAATAAATATTTATGGAATAAATGAAAGAAAGCTTCATCAAA
TCATTCATGCTTCAGGTATCAGATAGGACATATGTTCAAGGCCATTCATTTGGCTGTAAAGGAGTAAATGAGACTGGGTAATTTATTTTTGTTTATTTAT
ATTTAGTGTTACTCTTTTTAATTTAACTTTTATTTTAAGTTCAGGGGGTACCTGTGCAGGTTTGTTACACAGGTAAACTCATGTCATGGGGCTTTGTTGT
ACAGATTATTTCATCACCCAGGTATTAAGCCCAGTACCCGTTAGTTACTTTTCCTGATCCTCTCCCTCCACCCACCCTCCACCTCTGATAGGCCCCAGTA
TGTGTTGTTCCTCTCTATGTGTCCATGTGTTCTCATCATTTAGCTCCCACTTGTAAGTAAGAACATGCAGTATTTATTTGGCTTTCTGTTCCTGCATTAG
TTTGCAAATGATAATGGCCACCAACTCCATCCATGTTCCTGCAAAGGATATGATCTTGTTCTTTGTTATGGCTGCATAGTATTCCATGGTATATATGCAC
CACAGTTTATCTAGTCCACCACTGATGGGCATTTGGGTTGTTTCCATGTCTTTGCTATTGTGAATAGTGCTGCAATGAACATACATGTGCATGTGTCTTT
ATGATAGAATGATTATATTCTTTTGGGCATATACCCAGTAATGGGATTACTGAGTCAAATGGAAATTCTGTCTTTAGATCTTTGAGGAATCACCACACTG
TCTTCCACGATGGTTGAACTAATTTACATTCCCACCAACAGTGTATAAACACTCCTTTTACTCTGCAACCTCGCCAGCATCTGTGTTTTTTTTGTTGTTG
TTGTTGGCTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTATAGTGCAGTGGCATGATCTTGGCTCACCACAACCCCACCTCCCGGGTTCAAGCAATTC
TCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACCACACCTGGCTAATTTTTGTATTTTTTAGTAGAGACGGGGTTTCCCCATCTTGG
CCAGGCTGGTCTCGAACTCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCCGGGCTTTTTGGTT
TTTAATAATAGCCATTCTGACTGGTGTGAGATGGTATCTCATTGTAGTTTTCATTTCTCTAATGATCAGTGATGTTGAGCTTCCTTTCATATGTTTGTTG
GCCGCATATATGTCTCCTTTTGAAAATTGTCTGTTCATGTCCTTTGCCCACTTTTTTTAACGAGGTTTTTTTTCTTGTAAATTTGTTTAAGTTCCTTATA
GATGCTGAATAGTCGACCTTTGTGAGATACATAGTTTGCAAAAATTTCCTCCCATTCTGTAGGTAGACTGGGTAATTTATAAAGAAAAAACGTTTATTTG
GCTCATAATTCTACTGGCTGGAAGATTGGGCATCTAGTGGCAGCCCCAGACTGTTTCCACTTACGGGGGAAGGCAAAGGAGAGCTGGCATCTACAGAGAT
CATGTGGTGAGCGAGGAAGTAACACCCAGCTCTCCTGGGAACTAACAGAGTGAGAACTCACTCACCACCCACTCCCAGGAAGGGCATTAATCTACTCATG
AGGAATCCACCTCTATGATCCTAACACCTCCCATTAGGCCTCACCTCCAACCTTGGGGATCAGATTTCCATGTGAGATTTGGAGGGGTCAGATGAGCCAA
ACTACAGCAACATATAACAGAAATAGGAAAATGTTTGCCCTCATACATTGTTGTCTTAAGATGAATAGTATTCACAAAACAACTCAAACTCGGGCGAAGA
GGGTCTTCACTGGGGATTCATATCATAACAACAAATTAAACAAACAGAAATATTATAAGACTCAATTTGCAGATTACCTAAGACAAAATCAATTTTATGT
ATTACATGTCTTTTGCTAATGTATATTAAGAATGTCCTCAAAACACTCTAGCATTATGGTTAACAATTACTCTCATGAGTCATTTGACTTGAAAATTGAT
CTTCAAATTGGAAAAGCCCTTAGCAGCAAATACCAGCAAAGACAGATTATAAAAATTTAAGGCTTAATGGGAGGGAGTTTGCTCTGAGTGGGAGTTAGGT
ACTGAGGAAGAGAACAGAGTTGAACACATGAACAGAGGAGCAGGCAGAAAACATTAAAACAATGCCTGTCACTGGGCGCGGTGGCTCACGCCTGTAATCC
TAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCGTCCTGGCTAACACGGTGAAACCCCGTTTCTACTAAAAATACAAAAA
ATTAGCCAGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGTGGAGCTTGCAGTGAGCCA
ACATCGCACGACTGCCCTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAATCTCAGCTTCCCAATTTGCTAGCAATGTGGC
CAAGGGAATATTCCTTAACTTCTCTGAAACAGCTTTCCTCTTTTTAAAATGATTACAATAGTACCTATCTTACAGGATTGTTGTATGGATTAATGGAGAT
AACATAGGGAAAGCATTTAGAAGAGTGCTTGGTACATAGAAAGTAGTCAACATAAGTTCTCATTCTTGTTATTGCTATAATTATTGGCATTATTCATAGG
AGCTATTAACTGCCACTGTATTTGATGTTTGAGGAATGATGTCCTCCCTCACTCCCAGCCATTCCAGTTTCTTTTCACTAATGCAAAGTAGGAGAGGTCC
TTGATTTTCATATATATTATCCTCATGCAACCTTTGCTTTTCCATGTTACATATAGGCATCCTAAGCTGTTTTTATGGTACATTGTCCTTCATGCTGAGC
TACTTAGTGATGATTTTGAGCTAATCTGCAATGGGGATAAAGATTGGGCTTTGGCTTGAGTCAGCGTCTATTCTTAACACATCTAGGTTAATGCTGAGGT
TAAGCCTCAGCTTCTCTTCCTGACATTGGCCGTCTATGGGAGGTTTCCCCAAACCCCTGCATAGCCAGGGACTGGAACTTATTCATTCATCATTTTTTTT
TTTTTAGACGGAGTCTTGCTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTAACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGC
CTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCAAGCACGGCTAATTTTTTGTATATTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAAGA
TGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGCGCCCGGYTCATTCATCATTATTC
ATTACAAAAATTTGTGTGCCAAGTCTGCCACGGTACTGGGTGTTGTCTGCATATCACAGGAATCACTGTCCGGGGCAGGTGTTTCTGGGCCTTCCCGGGT
TTTCCGCCTATTGCCACTCTGCGCGGAGAGAAGCAGATATCGAGGAACTTGTCAGCATGAGAAAGTTCATGGGGAGACGGGGAAGAAGAGCCATCATGAC
ATGAAGGAGCAGTCAGCTCAGCCCCTATTTGGCTTATACTATGAAAACTGGCAAAAAGAAAAAGCCCTTTTCCCCACCTCTGGTGGAGGAACCCAGCACA
GGTGATCTCAAAGGCTTAAACACTGGAGGCTTCCCAGCTCTCTGCTGCAGCTTCTTTCAAGCCTGAGAAACAGGGGGCTGGCTGGCTACTTCAAACTGTT
GATTGCCTCCCACTAGAGGCCTCTGGAAACCTGTAAAGTTTCTTACCTGCCCTTCCAGGTTGCCTGGGTTCAAAGAGGCAATTTTATAAGAGAGACTATA
ATTAGGGGTTTTATGGTTTGTTTTGTTTTGTTTTGTTTTGCTCTCTGGGAACAGAATCCTCCTCCCCTATAACATGCCATATTTGTTGAGTATTCACTTT
GTGTCAGGCACTGTGCTAGGCATTTTTTATTGTTTAATGATCACAACCCATAAGACTGGTATTATTTATTCTTTGCAAGAAATGAGAAAAGTAATTTCCC
CACATTTATTTACACAGCTAGCAAGACATAAAGCTGTGACTGAATAAGCCTAATGACTGAAATGTCTGTGGAATGTAAAAGAAAAGGTGAAATGAAGATC
TACAGAGGAGGTGGAGATGCAAAACGGGAGTGGGACATGGGGTATTTATTAAGCAATTGAAGATCAGGTTGAAGTATTGGTTTTCTGAATAGTTCCTACC
CACAGTTATTGTGTAAAAGGAGGCATTAAGAAAGGTCTTGTATCTCCATACAAAATAAGACAATGGGGTCCGCAGAAAAAGAAGGGAGGGGTGRTTTTGT
TTGGGGGAAAAAGAGCATTTTAAAAGAAGTTGTGTGTGTGTGTGTCTATATGTGTGTGTGTATGTGTGTGTGTGTGTGTGGTGAAAAGTGACACTGAATA
ATAGAGTGTGAACCCACAGTGCTCGCTCACATTCACAGGTACCAATTACCAGAAAATACCAACAACCATGGAGCCATAGGGATGCCATTTATGGATAAAA
GCTATTTATGAGAATGAGAAGACTCAGAGTGGGATTATTCCTCTTGTTAGTTTCCTCTGGGAAGTAAATTAGATGTTTCAGGAGATGTATTCAATCTTTT
TAGAACTCTACATTACATTTACTGCAATGCCAATAATAATGTGCTGCTCTTGGCTTCCAAAGGAGGCTTTCTCAACTTCAGAATCTAAGCCCTCCTCTGT
GCAAGGTGCTGTGCTGGGACTGTGAGGCACACAAAGGCTCAGATCACACTCTCCTTGTGTTGAAGGAATTTGCAAGCCAGTTAGGGTAACAACACATCAC
ATATATAGATACATGTGCAAAATGCAGTCTAGTGTATAGGTGCCAGGTAGGAATATAGTCAGTCAATTATATATAGGAACTGGGGGTGAGGGAGGAGTTA
TATCTACCTTCAGTTAGATATCCATTTATCCATTCATTCATTCATGAATTCATGCATTCATTCATCTATTCAATACATACGCATGGAACATCACTATGAC
CTTCCATATCCCAAACACTTTTTTTTTTTTTGAGATGGAATTTTGCCATTGTTGCCCAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTGCAACCTCC
GCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGATTACAGGCATGCCTCACCACGCCCGGCTAATTTGTATTTTTAGTAGAGACAGGGTTTCT
CCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTAATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCGG
CA


SNP Information

Context             (SEQ ID NO:18175):
GAGCCAAGCATGGAGGACCTTGTGCATCAAGCTAAGGAGAGCAGCTCTTCATAAGCCGGCGCTCGGCGAGTTCTCCCAGGAGAAGGCCATGTTCAGTTCG
R
GCGCCAAGATCGTGAAACCCAACGGCGAGAAGCCGGAGGAGTTCGAGTCCGGCATCTCCCAGGCTCTTCTGGAGCTGGAGATGAACTCAGAACTCAAGGC
Celera SNP ID:            hCV25653665
SNP Position Genomic:     6061
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:18176):
TCCTACCCACAGTTATTGTGTAAAAGGAGGCATTAAGAAAGGTCTTGTATCTCCATACAAAATAAGACAATGGGGTCCGCAGAAAAAGAAGGGAGGGGTG
R
TTTTGTTTGGGGGAAAAAGAGCATTTTAAAAGAAGTTGTGTGTGTGTGTGTCTATATGTGTGTGTGTATGTGTGTGTGTGTGTGTGGTGAAAAGTGACAC
Celera SNP ID:            hCV9024560
SNP Position Genomic:     11694
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:18177):
TGCCATCCTTGAGGACTTGGTCTTCCCAAGTGAAATTGTGGGCAAGAAAATCCGCGTCAAACTAGATGGCAGCCGGCTCATAAAGGTTCATTTGGACAAA
R
CACAACAGAACAATGTGGAACACAAGGTTGAAACTTTTTCTGGTGTCTATAAGAAGCTCATGGGCAAGGATGTTAATTGTGAATTCCCAGAGTTTCAATA
Celera SNP ID:            hCV25653669
SNP Position Genomic:     6529
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,1|G,31)   total(A,1|G,59)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:18178):
CACCGTGTTAGCCAAGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGCGCCCGG
Y
TCATTCATCATTATTCATTACAAAAATTTGTGTGCCAAGTCTGCCACGGTACTGGGTGTTGTCTGCATATCACAGGAATCACTGTCCGGGGCAGGTGTTT
Celera SNP ID:            hCV27320273
SNP Position Genomic:     10684
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:18179):
CCCAGGAGCAGCACTGTGACAGCTGTGCACGATGCCATCCTTGAGGACTTGGTCTTCCCAAGTGAAATTGTGGGCAAGAAAATCCGCGTCAAACTAGATG
R
CAGCCGGCTCATAAAGGTTCATTTGGACAAAGCACAACAGAACAATGTGGAACACAAGGTTGAAACTTTTTCTGGTGTCTATAAGAAGCTCATGGGCAAG
Celera SNP ID:            hCV11288261
SNP Position Genomic:     6497
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(A,5|G,27)   total(A,5|G,53)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:18180):
ATTTTTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGATCTCAAATTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCT
R
GGATTACAGGTGTGAGCCACCACGCCCGGCCAACTCTTTATATATTGAATATATTTGATCCTCATCACAGATTTTGTGAAGATAACATCATCTCCATTTC
Celera SNP ID:            hCV1437325
SNP Position Genomic:     5228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:18181):
GGTGGTCGGAAAGCTATCATAATACTTGTTCCCGTTACTCAACTGAAATCTTTCCAGAAAATCCAAATCCGGCTAGTAAGTGAATTGGAGAAAAAGTTCA
K
TGGGAAGCATGTCGTCTTTATCGCTCAGAGGAGAATTCTGCCTAAGCCAACTCGAAAAAGCTGTACAAAAAATAAGCAAAAGCGTCCCAGGAGCAGCACT
Celera SNP ID:            hCV25653670
SNP Position Genomic:     6311
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,38)   total(G,73|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:18182):
TCAGTTCGAGCGCCAAGATCGTGAAACCCAACGGCGAGAAGCCGGAGGAGTTCGAGTCCGGCATCTCCCAGGCTCTTCTGGAGCTGGAGATGAACTCAGA
M
CTCAAGGCTCAGCTCAGAGAGCTGAATATTACGGCAGCCAAGGAAATTGAAGTTGGTGGTGGTCGGAAAGCTATCATAATACTTGTTCCCGTTACTCAAC
Celera SNP ID:            hCV22273659
SNP Position Genomic:     6153
SNP Source:               Applera
Population(Allele,Count): african american(A,32|C,4)   caucasian(A,31|C,7)   total(A,63|C,11)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION;INTRON


Gene Number:                 55
Celera Gene:                 hCG1780502 - 84000314999332
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(36452362..36466061)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12215):
TAGCATCTGAGTATCTCCCTAACCTACCCTCCAAAGAAGCTGCTCTTGGAGATGAAACAACAGAACACATTGTTTATGTCAAAATGGGGTTGGTCTTCAG
GTTTGAAGTCCAGGCTGGGGTGCTGTCCCTATTAAGAATTCTTCAGACTGTGTAGCTAACCATGGGATATTTGGTTTTGTACACTTTGGTGAAGATATCA
TCCAGGGATTCCAGCTCTTTGGCCATGAGACCCAGAGTTTCATGGGTGAGGTCTGGAGGACCCAGGGACATCTTGGCTATCCCTCTGGTGGACTTTCCTG
GTCAATGCATTATAGGGGGCCCCTTCTTCCATAAAATTCCTTTCTGGAGGTGACATAAAACACCACTCCCTTCACTGTCATGTAGATGGGATGTTTTTCT
TCTCTCTGTAGTGGGCCGGCTCCTCCTCAATAAAGAGCCTCACCAGGGGTTTCTGCTTAGTCGGGCATGGCACCTGCCTGGCCAGAGCTGCAAGCAGCCC
TGGGGGCTGTACCAGGACCAGGGTCAACCCTGCTAGTGGCTACAGCTGCAACTGGGCCTGCCATAGTGAAGGGGTAGAGAGGGCAAGGGACAGCCTGGGC
AGTGAAGCTGTTGCTGGGATCTGAGGATATAGAAATAAATAAGTCAGACTCCCTACCTCAAGGAGCTCACTATCCAGTGGGAGAGACAGGCATAAAAGTA
AACAAATGAAAGTACAACAGGTAYTATGATGAAAATTTGCTCAAACATCCCCAAATGGTTAAGGTGGTTTCATGCCTCTGTACCTTTGTTTATGYTGCTG
CTCCCCTTACCTGGAACATCCCCTCCTCTCCATTCTTTTTCAAAGGAAGTTTGCTAACAGATAAAACTAGAGAGAGACTGGCAGGGACTAGGGTATGAGG
AACTTGTGTGAAACATTAAGGAGTTTGGATGTTATTTAGAGGTCAGTGGGGGGATAACAGTATGTGTAAATGTTGATGGGAATGATCCAGTGGGGAAGGA
CGGTAAAACCAGTTATTTATTTGTTCATGAGTGGGTAAGAATAAATGGATGCTGATAAAGTATTCAAAGTACAAGTAGACAACTCTTCAGAGATGCTTGT
GTGTAAAACAGATCAAATACAGATCAACGAGAGAAGCCTGGAGGGGAATGTACATCAAAGAAAGGCTTTTAAGATGACAAATACTTGAGACTATCTCAAT
GCTGCTGGAAGGAGAGCAAAAATACTCATTCATTTACTGCATAACTGTTTCAAATGGCAAGAAAGATCACTACAGTAGCAGTGAGAGGAACTGGGGTAAA
GTAGTCCAGGAATGGAAGTAGGGAACTCTAGTTAGAGGATAATGGCAACAGCCCAGGTGACGATGATGGAGTAGATTAAGGCAGTGGAAGTAGAGATGAG
ACAGAACTCAAATTTACAGTACTAAGTCTTTGGTTTCCTTTCATAAGACAACTACCTTCTTACCCTGCTAAATTCTCTCCCAAGCCCCTTTAATTTTCAC
CTCTGATCTCCTTTAGCTCTTCCCACTTGAACTCTTCAGATGCTCCTATAGCCCCTCATATGCACCTTAAGCCCCTCTAAGCTCCAGATCCTTCCCTCTG
GAAGCTAAGAGGTGGTGTTAGGGACCCTGGACTCAGAGTCAGACAAATCCCAAACAGCTGTGTGACCTTTGGCAAGTCTCTTACTCTCGCTGATCCTCAG
TCTCCTTAAGAGGGTTCAATGGGTGATCCGACTGTGACACTATTAGTCTTTGATGCCCTCCTCCCATCCCCAGTCGCCTTTCCTTGCAGTCAAGGCCCTA
AGCTACCACCAGCCTGGGAACTCCAGCTCTGAGCCAGGCCTCAGCTATCTTAATATGTGACCTTGAGCAAGTCAAGTCCCTTCTCTAGAAGGCGTTTTCC
CATTTCTATAATGAGGACAGGTGTCTCTGAGCTGCCTGCCTCAGGGCTGTCATAAGAGTCCACCTTAGCGTTTGGAGAACCAAAGCAGACAAACGTGGAA
CGAGCCAGGGCTTTGCAGAGACTCCCAGCTCTGACACCAATTAGCTGTGTGATCTTGGGCAAGTGACCTAGCCTCGCGGAGCCTGGCTACATCATCTGAA
GAGCTGGGACAGTACTAGTGCCCACCTCACAGGGCTGTCCTAAGGCCCAGCAGCCCGGGCCGCCCCTCCTCCCGCCTCCTGCCCGCCTCCAGCCAACCCA
GGCCCGCACCTGCGCAGCAGCTGGATCTTGTCGCGGTAGCGGTCGTAGAAAGGGTTGGCCTGGAGCTCGGCCTCGGCCCCGACCCCGCTGCCGTCGGCGC
CCCCCTCGGGCCGGCCCGAGCCGGGGCGCACTGGGAAGACGCGCAGCTGCGCGGGTGACACGAGCCCCAGGCCCAGGGCGCGGCTGCGCACCGCGCACAG
GCCCCGGTAGAGACCGGCCACCTGCAGGACCGCCGGTCCCGCGCCACCCGCAGCCGCCACCACCACAGCAGCCATGGCCGCCCCCGCCTCCTCCTCCTCC
TCAGGCGCGTCGGCCTCGGCCCGCGGCCCGCGCGCCCGCTCCATCCCGCTCCGAGTGCGCCGCGCCCGCGCTCCGGCACCGAGGTTCCGCGCGCCCAAGG
TTCCGGGCGCGGGATAGCGGCGAGGCGGGGCGGGGAGGAGGGGGCGCGCCGCTCTGGCCCCGGCACTGCGCGCTCTCGCCGCCCTGTGTATGCCACGGCC
CGCCTCCTCCAGGGAGGCTGCCCAAATTCAACGCCCTTCCTCCCTCTGGGACCAGCAGCCTCTGCGCGCCAAGTCCGTTCTCTAAAGCCAGCGGATCTCC
ATGTCCTCGCGGTGCTTGCCCCTGGCACTCGCTGTAGTGCCAGGCACTCGATGTAGTAGTCCGTCCTTCAGCATCGAAGGTCTTTTCATCAACTATAATC
ACAGCAGCAAGCTTCTCTTTACTGAGGTTGCTATGTGCAGGACACTGAGCGGCTTCATACTCTGTGTGGCAGTATTATCCTCATCTAACAAATAAGGAAA
CTGAGGCCGAGAGTAATTATGTGACTTGTTCAAGTTCTACCCGACAGCTGAGCTCTTTTCAAGATGGCAGCTGCCTCCCAAGCCTCCTTTTCCTCTGCTT
CCTGACATCCTCCTTGAACTCCAGCCACAGTGACCTATTCTCTCCCAAAGAAACACCAGGATTACTCCTTGAAGAGTCCTTATTCAGGCCCTTTTTGACC
CCTGGAATCCTCTCTCCTTCCATTCTCTCAACCCAAATGCCACAATCTTCCTTACCGTCTGAACCAGGTGTGAGCTCCTAGGGTCAGGGACAGTGACATT
AACATCTCTGTGTCCCACCTGCTCACAGAACAGGGCCAGTCCTGGAGTGGGCTCTCTGGGACAGTACTCATCATCAGGTCCTTCTTGTCTGGGTTTTGTC
TGATTGAAGCCCCTCCTGGGACAGGGGCAGAGCCTTCAACTCTGCTCAATCCAACCTATGCTCATGGAGATCAGCCCTGAGCCCTGCCCTGTGCGAGGAA
CAGTGTAATGGAAGATGAATAAGTCCTTCAAGTATGCCAGCCCATACCTGGCTCACACTCCTAACACTTGCTGTTTTCTCTGTGGATCTGCATGTGGCTG
CCTCCTCATCATCTAAGGGCTCAGTTCACATGTAAGCACCTCCAAGGGACCTAAATGACAACCCCTCCATCTCTTTATAGTCTTTATCCCATCACTCTAT
TGCATTCTCTTTATAGCAGTTATCATTATCTGAAGTTCTTAGATCCTTGTTTATATTAATTCATTGAGCTTACATTCTAGTGGAGTGAAACAGACAGTAA
ATATATAATGTTAGGTGATGCTACATGGTATGCAGAAAAACAGCAGGCCAAGAGAGATAGAGATAAGGGGACACTTGAGCAGAGACCTGAAGGTAATGTG
GGAATGCTGGGGGAAGAGCCTTCCAGGTAGGGGAAACAGCAAGTGCAAAGGCCCTGATGAGGAGGTTATTGAGTCTGAATGAGTGAGGGCACAGCAGCAG
AAATGAGACCAAGAAGGTATAGGGAGGGCTAGTTAGATTGCTTAGGCCTTGGTTAAGGACTTTGATTTTAAATCGAATGAGATCGGAAGTTACTATATGT
TTTAAGCAGTGGAGTAACATGATCTACTTTTTAAAAGGATCATGCTGGCTGCTGGTGGGATTTAGGATATGTGGAGGCAAGGATGGAAACTCTCCCAAGG
GTGACTAATTTATTCCAGTTTGCCTAGGACTTTCTTGGCTCTAGCATTGAAAGCCCCATGTCCTGAGAACCCACCCCAAGTCCTGGGCAAACCAGGATGT
TGGTCACCCTACAGGGAACAGTAATCCAAGTGAGAGATGGTGGTACTTGGACTAAAGTGATAGTGATAAAAAAAAGTGGCCAGATTTTGGTTATATTTTG
AAATAAAAGCCTAAAGATCTTGCTGATGGAGTCAGTGTGGGTGTGATAGAATGAAAGGAGTCAAGGATGACTTGCAGGTTTTTGGCCTGAACAACCCGAA
GGACAGAGATACTACTTATGAAGAGGAGGAAGGCTGTAGGTAGGGTAGACTTTGGAGGATGGATAATCAGAGTTTGGTTTTGGACATGTTGGTTTGGGAT
AATTTAACAGACTGGCAAGGAGGGATGTCAACCAGGTATTTGGGTATGAGTCTAAAGTTCTGAGGAGCATTCCAGGCTGGAGAGATACAGTTGCGTACTG
TCAGTGTATAGTGATATTTAAAGCCAGGGGTCTGGGTGAGATAACTGATGGAATGAATGTAGATAGAGCACTAAGAACTGAGCCCTAGACATGCCTACAT
TTAGAGATCAGGGGAAAAGGGAGAAACCAGCAAAGGAGACTGGAAAGTAGGGGCCAGTGATATACGAGGAGAACAAGGGTAAGTGGACCCTGGAGAGAAT
TCTGTGCTAAATAGTTCCCTAAGTCACACATTGGAGGACTATAAAGAGGGGAGTCATTAAAATGGTGCTAAGAAGCTGAGCTACAAGCAGTGGTGCAACA
TACTGGGAAGGCTGACTTAAGCTTAATTAGGGAAGGGCTTTCTAACTGAGCTGCCCATAAATGCATCAAGCTGCCTCAGGAGGTGGTGAGCAAGTTCCTG
ACTCAAGTGAGTCTTGAGTCCAGGGAGATTAGTTGCTGTGTGGGGAAAAATCTACCCCCAGGAGTCAAGCATGGCCCTGATGGTGGGATCAGATGGTGGA
GATGAACTAGACAACTCTCAAAGTTTCTTCAAATTGGCGATGATATGATTCTGGGCAGTCTGTCACAGAGTAGGGGGGCTGAGCTGAGTCTTGAAGGATG
AGCAGGTGTTCAGTGGTGGAAAAGTGGGCAGGGGCACTCCTGGGTGAAGGAGCAGCATGGGCACACCTCCAGAGATGTGAATGAGCAGGGTCTGTTCAGG
AGTACGGACTAGGCAAAAGGGAAAAGTGTGTGGAGGACGAGGAGGGAAGTAAGGCTGGAAGTAGATGCAGGCCAGATGGTGGGAAGCCCCACAGGGCCTG
GGGCCTGGGAAACACTTGTCAGCACTTGAAGGAAGGTAATTAAATAAAAGACAGATTGTTGGAGCCAAAGAAGGAGGTATTGACCACTTGGTTCCCTTGA
GCAGGTTTCTTCCTGCCAACTTGGTTAGATACTTTTTGAGAACAGGGCTGCCCAATGCTGTGTGTTCCTTGTTACATTCCTCACTGGGGACAGGTATCCC
ATCAACCGTTCCCTAAAGACCAGCAACATCCGTAAGTACCTGAGGGACAATGGCCCTTTTCTGGGGTCTGCTCTGTGGGTTCACCATAAGGGGTAGGTAC
AGACAATTCAATAGGTGAACCAGTCTCTGATGGAAGTAGTAGTGACATTCCACCCAAAAAATGCCACTGGATGAAGTCCCCTCCTTCCATTAACCCAGGA
CCACTKCACAAGCACTGCCCCTAGAATGCCCAATTCTCAGAACCCAGTGACCTCTCCTTTAGAGAACAAAGGGCCTGGGCATTCTGGAGACTCTGATTGG
CTGGGCAGATGGGCTGACTGGCTGGGCAGATGGGTGGGTGAGTTCCCTCTCCCCAGAGCCATCGGCCAGGTACCAAAGCTCAGCTGTATGGATTCCCAAC
AGGAGGACCTGCGCTTCCCTGGGAGTAAGTGCTCCTCCAGTCCCTGTCACTGGACTTGTGCCTTAGGGCTTGGGGACAAACACTCAGGGAAGGCCCTTTG
CATGGATGGGACAGTGCCTGGCTGCCTGGAGGAGAGCTAAGCAGTTAGGAGATAGTCTACTCTAGAAAACTAAGAATTATTTTAAGGCAAAGACCATGCT
CKGATCAACCAGAGAAGATACTATCAATAGCCCAGGACTATCACAGCTGAATGGAATGGGATGGGACATTGGTGTCTCTGTCAACTGATGAACTTTCACT
TTTTTTTTTTTTTTTGAGATGAAGTTTTGCTCTGTTGCCCCGGCTGGAGTGCAGTGGCTCAATCTAGGCTCACTGTAACCTCCACCTCCTGGATTCAAGT
GATTCTCCTGCCTCAGCCTCTGAAGTAGCTGGGACTGCAGGCATGCACCACCACACCTGGCTAATTTTAAAATTTTTAGTAGAGACGGGGTTTCACCATG
TTGGCCAGGCTGGACTTGAWGTCCTGACCTCAAGTGATCTGCCCACCTGGGCCTCACAAAGTGCTGGTGAACTTTTGCTTCTTGATGGACTTGCCCATAG
TGAAACTTCTCAGTCTGATGGATTGGATGGGTCCTGGGTTAGGAATCAGAGGCTTGACTGAGCCTGGGCAGCACATGCCCCCGCTAGACCTAGCTTTTGT
GATCTGTAAAGAGTTAAAGGTGGTGCTTAAGCTCCCTGGAAATCTAGCTTTGACTGAATAAGGGAATGATGAGGCAAGTCAATAAGGGAGGGAAGGAACG
GTGAGAGTAGTTAAGTGGATGGAGYGATTGATGCATGGGTTAAGTGAAAGAGGAATGAGAAACAGCTCAGGCCCCAAGCTACAGCTATCAGCCAGCATGC
CTCTTTTTCTTTCTTGCTGCCTTARTGTGGGTCTCATTGTACTTTGGAATCCTGGGGCTGTGTTCTGTGATAACTGGAGGGTGCATTATCTTTCTGCACT
GGAGGAAGAACTTGAGGCGGGAAGAGCATGCCCAGCAGTGGGTGGAGGTGATGAGAGCTGCCACATTCACCTACAGCCCATTGTTGTACTGGATTAACAA
GCGACGGCGCTACGGCATGAATGCAGCCATCAACACGGGCCCTGCCCCTGCTGTCACCAAGACTGAGACTGAGGTCCAGAATCCAGATGTTCTGTGGGAK
TTGGACATCCCCGAAGGCAGGAGCCATGCTGACCAAGACAGCAACCCCAAGGCGGAAGCCCCTGCTCCCCTGCAACCTGCACTGCAGCTGGCTCCACAGC
AGCCCCAGGCCAGATCCCCATTCCCACTTCCCATCTTTCAGGAGGTGCCCTTTGCCCCACCCTTGTGCAACCTACCCCCCCTGCTGAACCACTCTGTCTC
CTATCCTTTGGCCACCTGTCCTGAAAGGAATGTTCTCTTCCATTCCCTCCTGAATCTGGCCCAGGAAGACCATAGCTTCAATGYCAAGCCTTTTCCTTCA
GAACTGTAGCCTCCTCTCACYGAAGGTGGGAGCTGCAGGAATCAGGTGCAGAGTAGGAAATGGAACTAACCTCAGGAAGGTGGTATTGACAGAGGTCAGG
ACCCACCTGGATGTCATGCTATGAAACATTAAAAGAAAAAAAAAAAAGTCCAAGGCTCCCTCGTTTCTCATTTGCTGTTAGGAAGGCAATGTCCTTCCTG
TCTGATGGGGTCACTTTGCAAACCAAGTTGGTTGCTGAGTCTCACCAATATGAACTGGCACTGGTGGTTGGCTGTGGGGAGACACACTGAACCAGTACTT
GTGGATGGACTCAATATCCCTCTGTTCAGTATTTAAAACAAAAATGTGTGCCAGGCCCTGGCCTAGGTACCCCAAGGCACTGGTGTTCTGTGGGATGTGA
AGCACAGCTGCCACCAGAGTGATAGCTGCTGAGGGTACGTGAGCTATGTTGATTTACAGTCGCTATGTCACAGGCAAAATGAGTCATCACGAGCCCTGTG
AGCCACACTGCACTATGGGCTGAAATGCATTCTTTGTTATTATCTATGATGTATGCAGCTCTTACGTGGTTGCCTCTTTACATTATTTCTAATAATTCAC
AAGAACACTGCCAAATGGATATCATGATCCTCCTCTTATGGATGAAGAGACAGGTTCCAAGGGCATATGCCATACCTTTCTTAGTTGCAGAGCCAGTTCT
CAAATCTACATCTGCCTTGCATCAAAGTTACTGGTATGAAAGTTATTGATCATCAGTTGCTTGGCATCAAAGGTACTGATCTTCCCACCATACGCCATAG
TGCCCCTTCCCTAATGATATGTCGTGTTAGAAAACACTTGGTGAATGCTTCGGATTGTATGTAGGGTGTCATTAAGTTGGTCCATGAACTGGCTTGGAGG
AAGGGCTGGTCAGTGAACTGCCTAAAATTATACGTAGACATATATCCATAGTTTTTACCTTTCCTACAGGAATCCATGTCCCCCTCCCAAAAGTTAAGAT
CCACCACATGGGAATATTAATAATTTTTGTACTTCTGGAAATGGTTCTAAAAGGTGAGACAAAGATAATACTGCCCATTTGGCTGCAGTTTTGAGGTAAG
AAAGCCCAGCTCTATCACAGGATATGTGTTTCTCCCTTTCCTTTTGGAAATGAACAAATCCTCTCATTATATTTGTAAATAACAAAAGCTTTATGTATAG
TCATTTACATAATGACTGAGGGGGAAGGTCACCAGATTCTGTGTTGCGGGGAGGGGGGGAGGTATCCAGAATCTAGCAAACATGTAGAGTTATTTTTTTC
TGTGTGTGAAAAAGTTTTAGCTTGTGTATGACCCCTCTTTAGCAACGGATTTTAAGCTTTTTTTTTTTTTTAAGGTGGTGGGACATTTATGGCAAACACG
CTTTTATATTGACTCTCAAAAAATAAAACAGGCCTAAGTGGAGCATCTCGGGTAGACACAGGGGCAGGGCTCACTCCTGCCTCACCTCACCCCTCCCATC
CTCTGGATGCAAAAAGCCTGAACCCTGCAGCCTTTGCTTCTTCAGGCCAAATATTGCAGTCCTTAAGGCAGACTCTTAATTACTTTGGGCCCACCATGTG
TTACTCCTTGCTTTCAAAAGGTGTAAGGCGTCCATAAATATAGAAATCAAAGCAGATTTTTTTTTTCCCTTAAAAATCGCAGGGGAGTGAGAGAGGCTTT
AGTCAGACACATTGAGAGAAAAAAGAAATTTTTTTATTTAGCTAAATTAAAATGGCTGTGTTACTTATTTGAAATATGCAAAGCTCAAATCAAGTCATGG
AARCCCTGAATTCTCCCTAAACAGAACCAAAATTGCTTATACATTACCAAAATAGCTTCACTAAAAMAAAGTAGATTTAAATTTCTTAATATGAGAAAAC
AACAAGGTAGGTTAGGTTCGTATAACAAACAATACACGCTCTATAAAGTCTCAGGAWTACCCAAATGTGTTCTGGTTTGGATATGAAAGAGGGACCACTT
CTAGCTGGTGTTGGTAAGCAAGCCAATGAGGTGTGCAGCAAACAAAACCTGTCACTAAAAACAACTCAACAGGCCATTATGAGTATGAGCCCATCACAGC
CAAAATCCTCAACTGTGACCGGCAGGACCAGCAAGGGGGGGTGTTGAAGGGGTTATGAACAGCAACCATAAAGAAAGGAATCTCCAACAGAAGGGACAAT
GGCCAGCAGTAGGTGAAGGGAACCCATTCTTCAGCTCTGTTGCATCATACACATTCCTGAGGGTCAGGCACCTCTGCCTTTTAGATGACACCACAGTCAT
CTAGAAGTCAGGTTTTCTCTTCTTTTGGTTCTTCTTTTTATATGCTACCTTTTTGCCTCTCTGATTTATGGGGAGGCTCTTTTAGTAAACATTATACAAG
ATAGTACAAGGCAAAAGAAAACAAGGACCAAGAAGCAGTGCTTTGAGTAACTTAGGAAAGCAGCAGTAGGAGCTGCCAGACTGAAAAGGTAAAAGGGTTT
AAAACCAAAACCAAAACCAAACTCACTATCCAGTCTTCCTCTCAGAGATGAGATATGGCTGGTGAGGCTTGACTACAGCTAAATACAAGTCACAGGCTTA
GTAAGTTAAGACAACATACAAATAAAAGTCCCAAATTCACACTAAATAATAGGCTTATGGGATGCTTAAGCCAGTGAGTCTGCTCAACTCAGAAGAAAGG
AGTTCAAGATACCCTACTTTTGCCTGGAAGATGTACTTTCTCAGGCAGGATGACAAAAATATTCATAGATCTGAGAATGCAGTATAAACACCTCTGCCAA
ACTTGGTAGGGGGAGAGGATGGTACTGTATACTGGCTCAGGGGTGATACTAGTCAGACAAGCACAAGGTAGGAAGAACAGAAGATAAACCAAAAAACAAA
ATGGATTTCTCCATGTATAGTTATCTGATGCAAGGGAAAATACACACAACAAAGAGTTAAGGTGTCTTCAAAGTATCTGCCTATGAATAAGAATTTGAAA
CTAAAAAGGACAAGCTACATTACCCTCAAGTATATTTCATATAAATCAGTTCTCAAAAAAATACCTTCCAGGTACAGACATACTATTTATGGTACAGTAT
ATACAAATATAGCAGTATAATTCAATTTATTGCTAGAATTTTATTTGGTTGTTAGAAAATCTGTAAGGGTGTATATATATTAAAAAAAGGTGTGGGGTGA
GAGTGGATGGAAGGCAGTCAGAAGGGTGAGAGTTATTTTCAAGTTACCTAAAGTGCCAGGCTAATTTGTTTTAACCTTTCCAAGAAAGTGAAACTGAGCA
TAAGCTATAATGAGATAAGGGGACACATTCATGGGAAAAGACTTCATCTTGCTTTAACTAAATTTTAATACTTCTGGAAAAAAAATTTAAGTTTGGTTAA
TACCAAGCTGAACATCATGTAAAGAAAAAAAAAACAGCCCTTAAATGTTTAAGGGTACCGGACTGTATCCATGGTGAAGGGCAACCTGAACAAAGTTAAA
AAGGAAATGATCTCCACTAAAGAAGTCTGTGGCATGACAGCTTTCTCTACTTTCTCCCTGACTTGGCCTATACCAAAGTTAAGTTTTTGTAGTTTTTTTT
TCCCCTTTCAAGTTGTTGCCCAAAGACTGCTTCTAAGAACAACACAGCAATTCTAGACTCAACATACAGGAGACATGGAGGTATTATTCCTTTCAATCTA
GGGATCTTTCATGCCAGGTCCACAGAAGCATTTAAAGGAAGTATTGTACTTGATTGTATTAGATTTGAAAAACTTGCTACCACCATGTGAAGGCCCTAGC
TCCAGGCCTGCCCTGCTATACTTTGGCATCCTTTGGGTAGAAAGCCTCTAGCTACTTCTGAGCTGGTAATGGTAAGGAAACTGAATATTATTTCACATGT
TTCATCTCACAGCCTTTTTGGCTTTAGTCATCCCCCAGAGAAACATATTAGGCTCTTGGTTAGCCTCTAGGTAAAATCTCAAGGGGTATGGTTTTCTGGG
TCAAAATTAGAAGCACAGCTCTCTTCTAAAGCTCTGGGTGGTCAGTGTGAGATAATGGCTGGGGGAATTTAGCCCTGCCATTCAAATGGAGATGGTACTG
GTGGTGGGAGCCAGCTACGGCTTTAAGACAGACTTAAGTGGGTGGGTKGGGAAGGCAATCTAGCTCACTCAGCAGGGAAAATGGAGCTCCCCAATGGATA
ACTTTTTATGCTCATAAACCCTGAAATAGTACTAAAAATGAGAAAAATCCCCAAGACTTCTCTGATTCCCAGGTTGGGATTAGCTGAGGGAATAGGAACA
AAGAACCAGAATCCTACTTCCATGAGCCATGCCTGGAGTCAGTATTGTCTCCAGTGTCTACTCCCTGAAATCGGTTCCTCCAGCTACCAGGACAAACCCC
CTGGCAGCGCCTGGGCCTTTGAGGGATACCTTATGGAGACATGGATGTAGTTTCAGCTGCCACCTACACCAGATCAGCAATTTTTAATAAGTCATTTGTT
CATATCCTGTTCAAAACCATTCTTCCTACTTTCCACACAATATGCACAATGCTTTCTTTCATTTAAATATTTACAAACAGAAAAGGCCTATCTTTTAAAG
AAAAGACATTTTCTGAGTCTCTATAAAGTGCAGCTAATTTAAGGCAAATTTAAGTGAAATATAAAAGTGGCTTATTCTCTCTCTATATACATTTCCCAGC
TTTAAAAGATAAGGTCTCCTCCCCTCAAAAAAAGGAAAGAGAAAAAAAGAGGGCTTTAATTTTTTTTCTGGCAATTTTAAAATGTAAGATCTTACTGGTT
GTAGGAAATCATAGATTTCTGAACATCATAAGTAAAATGGTCTTCTTCTTTAAAAAAATAACTTTTATATAGCTTCTTCAAACAAGTTAAAAGGTGGCAA
AGTATCTGCTACAGTAGTTTGGAGGACTAGAGGACTGATGGGTAAGTAAGGGTTGTTTTGTTGTTAGGTAAATAGATATTAGGCAGTCCATTTCTAAAAT
ATGCCTGATGAAGCTAGATACCTAAAGCTACCCTTAGCTCCAGGAATGAGTATCTTCCATCTCCATCGGAATCAAATGCTCTCAAGCTCTCTGGTTCTGG
CATAGCAGAACCTAGGGAGGTCCAGATTTCCTGGTAGGTCAGCTTCCCATCCACGTCCTGGCCAGTCTTGCGGAATAAATCCTGAAGATCTGTCAAAAAT
GAATTACAAAAAATGTATACGTCTAAACATACAGCTAAATTTAGTTAAAAGTAGTCTCAACTGAATTTAAAACACTAAAAGAAAAGCTACTCCGCAAATT
TTGTTTCCAAATGGTAAAGTTTAGGATTTCACTAAATCAGGAAGACTAATTTTTGATCCCTTAAAAATATATTAAAAAAAAAAAAAGGCTGGGTGCAGTG
GCTTATGCCTATAATCCCAACACTCTGGGAGGCTGAGGCAGGAGGATTGCTTGAGGCCAGGAATTTGAGACCAGCCTGGGCAACACAGTGAGACACTGCC
AAAGTAGAAGCAGTGACAGATAATCGCAGGAGAATGAATGGTCTCATCTTCTCTCTGTCCAGCGTCTTCCCTTTAGATTTTCCTGAATTTATTCTTATGT
TGAAGGGGTGAAAAGGAATGCAGAGGCCTAATGAGTTATGTGATAGGAGCTAGCTCATAAAACAGACTGTGGCATATTGTGAGATTTCTTGTTGGATGGC
TGAGTGGAGACTGGAGGAATGACTTGGAAGCCCATAAAACAATCCCAAACACTCATAGCTTTCTCAGTTTTGACAGGAAATCCAAAGCTCAAAGAGGAAA
GTAACTTGCCTACGGTCATGTAACTCTTAAGTGGAATACAATACAAATTTCTTTTCTTTTTTTTGAAGCTAAGTCTCACTCTGTCGCCCACGCTGGAGTG
CAGTGGCGCGATCTTGGTTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTTGTGCTTCAGCCTCCTGCGTAGCTGGGATTACAGGCGCCCGCCAC
CACGCCCAGCTAATTTTTTTTAATGTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATTCGCCCACCT


SNP Information

Context             (SEQ ID NO:18183):
AAAGTAAACAAATGAAAGTACAACAGGTATTATGATGAAAATTTGCTCAAACATCCCCAAATGGTTAAGGTGGTTTCATGCCTCTGTACCTTTGTTTATG
Y
TGCTGCTCCCCTTACCTGGAACATCCCCTCCTCTCCATTCTTTTTCAAAGGAAGTTTGCTAACAGATAAAACTAGAGAGAGACTGGCAGGGACTAGGGTA
Celera SNP ID:            hCV809549
SNP Position Genomic:     795
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_T(T,21|C,61)   TSC_42_C(C,32|T,50)   TSC_42_TT(T,28|C,52)   total(C,145|T,99)   (T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18184):
CTGAAGTAGCTGGGACTGCAGGCATGCACCACCACACCTGGCTAATTTTAAAATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGACTTGA
W
GTCCTGACCTCAAGTGATCTGCCCACCTGGGCCTCACAAAGTGCTGGTGAACTTTTGCTTCTTGATGGACTTGCCCATAGTGAAACTTCTCAGTCTGATG
Celera SNP ID:            hCV27513601
SNP Position Genomic:     6620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18185):
TGATTGATGCATGGGTTAAGTGAAAGAGGAATGAGAAACAGCTCAGGCCCCAAGCTACAGCTATCAGCCAGCATGCCTCTTTTTCTTTCTTGCTGCCTTA
R
TGTGGGTCTCATTGTACTTTGGAATCCTGGGGCTGTGTTCTGTGATAACTGGAGGGTGCATTATCTTTCTGCACTGGAGGAAGAACTTGAGGCGGGAAGA
Celera SNP ID:            hCV25745751
SNP Position Genomic:     7025
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,32)   total(A,1|G,63)
SNP Type:                 ACCEPTOR SPLICE SITE;hmCS


Context             (SEQ ID NO:18186):
AGGATATAGAAATAAATAAGTCAGACTCCCTACCTCAAGGAGCTCACTATCCAGTGGGAGAGACAGGCATAAAAGTAAACAAATGAAAGTACAACAGGTA
Y
TATGATGAAAATTTGCTCAAACATCCCCAAATGGTTAAGGTGGTTTCATGCCTCTGTACCTTTGTTTATGTTGCTGCTCCCCTTACCTGGAACATCCCCT
Celera SNP ID:            hCV809550
SNP Position Genomic:     724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18187):
AGCGACGGCGCTACGGCATGAATGCAGCCATCAACACGGGCCCTGCCCCTGCTGTCACCAAGACTGAGACTGAGGTCCAGAATCCAGATGTTCTGTGGGA
K
TTGGACATCCCCGAAGGCAGGAGCCATGCTGACCAAGACAGCAACCCCAAGGCGGAAGCCCCTGCTCCCCTGCAACCTGCACTGCAGCTGGCTCCACAGC
Celera SNP ID:            hCV809542
SNP Position Genomic:     7300
SNP Source:               Applera
Population(Allele,Count): african american(G,16|T,10)   caucasian(G,9|T,19)   total(G,25|T,29)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,22|T,14)   caucasian(G,14|T,22)   total(G,36|T,36)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): (G,-|T,-)   (G,-|T,-)   Caucasian(G,31|T,51)   total(G,31|T,51)   no_pop(G,-|T,-)   JBIC-allele(T,270|G,1159)   total(G,1159|T,270)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:18188):
GCTTAAGCTCCCTGGAAATCTAGCTTTGACTGAATAAGGGAATGATGAGGCAAGTCAATAAGGGAGGGAAGGAACGGTGAGAGTAGTTAAGTGGATGGAG
Y
GATTGATGCATGGGTTAAGTGAAAGAGGAATGAGAAACAGCTCAGGCCCCAAGCTACAGCTATCAGCCAGCATGCCTCTTTTTCTTTCTTGCTGCCTTAG
Celera SNP ID:            hCV809543
SNP Position Genomic:     6925
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   (C,-|T,-)   Caucasian(T,84)   African-American(T,84)   Asians(T,84)   total(T,252)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18189):
ATTCAATAGGTGAACCAGTCTCTGATGGAAGTAGTAGTGACATTCCACCCAAAAAATGCCACTGGATGAAGTCCCCTCCTTCCATTAACCCAGGACCACT
K
CACAAGCACTGCCCCTAGAATGCCCAATTCTCAGAACCCAGTGACCTCTCCTTTAGAGAACAAAGGGCCTGGGCATTCTGGAGACTCTGATTGGCTGGGC
Celera SNP ID:            hCV809544
SNP Position Genomic:     5906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:18190):
TGAGATAATGGCTGGGGGAATTTAGCCCTGCCATTCAAATGGAGATGGTACTGGTGGTGGGAGCCAGCTACGGCTTTAAGACAGACTTAAGTGGGTGGGT
K
GGGAAGGCAATCTAGCTCACTCAGCAGGGAAAATGGAGCTCCCCAATGGATAACTTTTTATGCTCATAAACCCTGAAATAGTACTAAAAATGAGAAAAAT
Celera SNP ID:            hCV809537
SNP Position Genomic:     11748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:18191):
ATTTGAAATATGCAAAGCTCAAATCAAGTCATGGAAACCCTGAATTCTCCCTAAACAGAACCAAAATTGCTTATACATTACCAAAATAGCTTCACTAAAA
M
AAAGTAGATTTAAATTTCTTAATATGAGAAAACAACAAGGTAGGTTAGGTTCGTATAACAAACAATACACGCTCTATAAAGTCTCAGGAATACCCAAATG
Celera SNP ID:            hCV7568236
SNP Position Genomic:     9467
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:18192):
ATGGATGGGACAGTGCCTGGCTGCCTGGAGGAGAGCTAAGCAGTTAGGAGATAGTCTACTCTAGAAAACTAAGAATTATTTTAAGGCAAAGACCATGCTC
K
GATCAACCAGAGAAGATACTATCAATAGCCCAGGACTATCACAGCTGAATGGAATGGGATGGGACATTGGTGTCTCTGTCAACTGATGAACTTTCACTTT
Celera SNP ID:            hCV27517618
SNP Position Genomic:     6302
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,8|T,1451)   total(G,8|T,1451) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18193):
CTGAACCACTCTGTCTCCTATCCTTTGGCCACCTGTCCTGAAAGGAATGTTCTCTTCCATTCCCTCCTGAATCTGGCCCAGGAAGACCATAGCTTCAATG
Y
CAAGCCTTTTCCTTCAGAACTGTAGCCTCCTCTCACTGAAGGTGGGAGCTGCAGGAATCAGGTGCAGAGTAGGAAATGGAACTAACCTCAGGAAGGTGGT
Celera SNP ID:            hCV3073205
SNP Position Genomic:     7584
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,9)   caucasian(C,21|T,9)   total(C,46|T,18)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:18194):
TCAGACACATTGAGAGAAAAAAGAAATTTTTTTATTTAGCTAAATTAAAATGGCTGTGTTACTTATTTGAAATATGCAAAGCTCAAATCAAGTCATGGAA
R
CCCTGAATTCTCCCTAAACAGAACCAAAATTGCTTATACATTACCAAAATAGCTTCACTAAAACAAAGTAGATTTAAATTTCTTAATATGAGAAAACAAC
Celera SNP ID:            hCV7568229
SNP Position Genomic:     9403
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:18195):
TTCACTAAAACAAAGTAGATTTAAATTTCTTAATATGAGAAAACAACAAGGTAGGTTAGGTTCGTATAACAAACAATACACGCTCTATAAAGTCTCAGGA
W
TACCCAAATGTGTTCTGGTTTGGATATGAAAGAGGGACCACTTCTAGCTGGTGTTGGTAAGCAAGCCAATGAGGTGTGCAGCAAACAAAACCTGTCACTA
Celera SNP ID:            hCV7568237
SNP Position Genomic:     9557
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:18196):
CTGAAAGGAATGTTCTCTTCCATTCCCTCCTGAATCTGGCCCAGGAAGACCATAGCTTCAATGCCAAGCCTTTTCCTTCAGAACTGTAGCCTCCTCTCAC
Y
GAAGGTGGGAGCTGCAGGAATCAGGTGCAGAGTAGGAAATGGAACTAACCTCAGGAAGGTGGTATTGACAGAGGTCAGGACCCACCTGGATGTCATGCTA
Celera SNP ID:            hCV25745122
SNP Position Genomic:     7621
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,30)   total(C,1|T,65)
SNP Type:                 UTR 3;hmCS


Gene Number:                 56
Celera Gene:                 hCG1781264 - 30000035307878
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRFTF0F9(637470..654709)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12216):
GAAGCCCCACCAGCATCACCCAGAGCTAATGGCAACCTCCTCAAGGCACCCATACCCAGCCAGCAACCAACAGGGCTGCTGACCTCCGGCCTCAGCCGAC
CCTACCAGCCAGGCCTTGCTGAGCCACGCCCACTTCACCTGTGTTCAGTTGCTTCCGGCAGGAGGGGACGCTGGGGTCCGCTTTTGCAGGTCATGCCACC
GAATTCAAATGTGGTATCCGTTTTGTGTTTTCAGTCGTCCCTGCATTTTCTTCGTCTGAAATCAGGACGCTAAGTAGCTACAGCTGTTTGTGCCGCCTTT
GAGAAAATCTCATCCTGAACTCGAGAACACAGACTCAACAGGCAGACGGCCGGGAAGCTACAAGGCAGCGCCTCACAACACTCTCTTCTTTTTCATTCTA
CTAAAAGTTGCTCTCAAATCCTACTGGACAGAAAGTCCTAAAGCATTCCAAATGTTGCTCCATTTCCAAAAGTGCCGGCGCTGCCTCCTTGGGATCAGAG
GCCTTCTGCGCTTGAGCCTGGCACCTGCCCTGGGCCCCAGTGGACGGGTCCTTCCTCTTGGACCACTGGCCCCATGCATTGTCCATCCTCAACACCTTCC
CTGTGGTGCCCAGAGGCAGCGTCCAGGAGCACACCCAGGTGCCCAGCGGGACCCCGGAGCTCCCTTTGAACAGGCACCTTCTGGGGCTGGGGCCCCCATG
TCTGGGGGGGAATAGGGGGCTGGGGCCCGTGTCTAGGGAGTTATGGGACCTTGCATCTGAGGGGGTGTGGTGGGGGGCTGGGGCCTGCATCTGAGGGGGT
GTGGTGGGGGGCTGGGGCCTGCATCTGAGGGGGTGTGGTGGGGGGCTGGGGCCTGCATCTGAGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNTGTGGTGGGGGGCTGGGCCCCTGTATCTGAGAGGGTTGTGGTGGGGGGCTAGACCCCTGCATCTGAGAGGGTTATGGTTGGG
GGCTGGGGTCTGCATCTGAGGGCCATGGGACCTGGGTTTGTGGCTGCTGGTTCGCCTCTGGGCTCTGCTGCTTCTCACAGTAGTCGCTGAGCCATCGCGG
GTCCTGATGTCTCACGCGAGAAGCAGGCCTGGGCAGGTGGCACCTTTGGGAGAAAGCGAAGGGCAGCCTGGGCTGGAGGCTGCACCCAGGCACTGTGGTC
AGTGGCTGGGGAATGAGACACGGCCCTCCTGGGCCCCGTGTCCCTTGTGGTGGGGTCTGAGTGCCTACTTCTCTCACCATGGCCCTCGGGGTCCCGTGCC
TCTGCGGCCTGAGCCTGCGGTGGGTCCTGGCGCAGCACCTGGACACGGGCCTCCCTGCCTGAGGCCTCCTTCCTTCCTTTTCACCCCCCTGAGCCTCCTT
GCCCTTGGCTGGCTGAGCCGGCACATCCCCGTGGCGCCTCTGCACCTCCCCTGAGATCATTCTGCCAGCACGGTCCTCACTGCACCCTCCGGTCCTCCCT
GCACCCTACGGCCCTCCCCTGAGATTATTTCGCCAGCCCGATCCTGCACCCTCCCGGCTGCCACTGCCCCTCCCCAGGGAGGCCGCCACAGATGCAATGG
CCGGCTCAGGTTGGCTCCTCAGTGGTTGAAAGTGGTTTTGTTTTTGGTGGAACTTGGGGGCAGTGAGAGGCTTGAGATTATTCGTTGAGATAGTTTTCCA
GAAAGAAAAAAATGTCACAGATAATTGGTTCTTTGCACTTGTAATATAAACGCAGTAATCTTTATTCTAACTTTTGCTAGAGAAATTGAAGTCGATGATA
GCCCCTTTCAATTTTAAGCAGGAACCAAAGTCAACAGAAATTCTGAGTCATAGAATCAGGCCAACTGACATAAAGAAAAAAAAAAAACCTGGGTCACTCA
CAACCACTAGGATGGCAGAAAGACAGGAAGAAAGAGAATGAAAAAAAAAATAAGACGTTATGGCAAAAGGATCCAGAGAAATTTGGGACCCTTGAGCATT
GCTCGTGAGAACCATTGTGGAAACGATAGAGGGGCTGCCCAAGAGTTCATTACAGCAAATGGACTTAGCATGCGATCCAGCAGCTCCACTCCTACAACTG
AAGACACAGACTCCAGCAAATACTTGTTCATACATGTTCATAATATCATTCGTTACAGTGGCCAGAAGGTGGGAACAGCCCAAATGTCCATCAACAGATG
GACGAGCAAAATGCGGTCCATCCATGAGATGGAATATTACTCGGCCCTAAACAACAGTGAAGAAGTACTTGTAAGACCTTGACAACATGCATGAACCTTG
AAGACGTTAAGCTTGTGGAAGAAGCCAGATACACAGGACCACGTGTTGTGTGGTTCCATTCATACAAAATGCCCAGGACAGGCAAATCTATGGAGGCAAA
GTAGGTTGCTACTTGCCAGCCTGGAGGATCAGGGGGTGAGGAGAAACTGTGCAGGGAGTTCAGAGCCTCCTCTGGAGTCGGGGAAGCGTTCTGGACTAGA
TGGAGGTGGGACACACCGAACCGTTCACTTCCACATGCTCCACGTTACAGTTGTGAATTTCACTGCAATAAATTAGGGTTATTTTAAATACTTGGGCCAA
ACCTCAGATTTGCTGATCATTAATCCGTGGCTTTGGGAGCCACTGAGACTTGGCTGTGCTGACTCCCCTCCTCTGCAAGTTGGAAGAAAAACTCTTCCCG
GAGGATGGTTCAGACAAGTAAGTCAAAGCGTGAACACACCAGCAGAGCACCTGCCCTATACCTGCATGGTACCTGAGCATGAAAGACGTTCAAGAACATT
CTCTTCCGTCCTCTGAGTCACTAGCAGATGGCCTGTTTCCTGCTGAAAGAAGCACCTGGTACTTGGTGTTTACGAACTCCACTCAGTAAGCGGATCAGTA
GCAACAAGGGCACTTTGGCCGTCAGACGCAGAAGTAGCGTTTTCCTCCAGAACACCACCTGTGGTTGGGACAGTGCCGTGCAGCCCCAGCATGTCTGTGA
CGCACACCTCCTGCCTGCGGGGTGGTCCCCCTCCCGCCACCCGGTTCTTCCGGGTTTTCGAGCCCTGCCCTCAGCTTCCCCTCCTTCCTCCTCTCCCCGA
TTTTCCAGCCCTGCCCTCGGCTTCCCCTCCTCCCTCCTCTCCCCCTGGCACCGTTAAAACATTCATGCTGGGCCAGATCATGCTTTTTGACAATGTCTAA
CGAGCTAGCAATGAATGATAAATCTGCCGGGCCGCCTCTGTGTCTCAAAGCCACTAGGATCTGCAGCTGTTTCAAGAGCACAGAACAAGAAAGCCTCCAG
GAAAGGGGGAAAGAGCGGCATCTGAGCTTGGAGGAAGTCATTTCTGTGAAAATCTTTTAATGCAACAGGGAGCTAAGCAAGTGGGCTGTGTGTGCTGTGG
AAGGTGGCGATGTTGGGGTCTTGCCTCCTGCAGTGGATGCCGGCGACAGGGCCTCGGGTGGCTCTCTTAGGACCCACAGGCCCTGCATCTGGATTGGTCA
AGTCCCAGGGGCCAGGCCTGCCTCAGAGGTCCTGGGCATTTCACGGCTGGAGGGCACTGCGGAGGTCCATCTGCTGCCCCATGGAGGAGAGCGGGTGCTC
AGACACCAATCTTGGTGCCCAATCATTTCCCCTCCTCTGACCTTGAGGGAAAAAGCCAAGATGCAGCCTCTGGACACCAACCTTGAGACATTCTCAGCTC
TCAGCTCATCAGCAGAGCCTGGACTCATTACTCCAGGGAAGAAGCTCTGCTTCCGTGGGCCAGGGGTAAGGTCAGACGCAAGGGCCTGAGGCCACATGGG
AGCCCAAGCAGCAGGAGGCCCCAGGCCAGTCAGAGCCCTCAGGGCCTCCCAGGGGCTGGCAGGAGCACCTGCTCAGTGGCGAGATGAATGTCCTAAAATG
CTATTAACGGAGTTCAGTCTAGGGTTTAAATCAATTTGGCAAACATTTATTGAGTGCCCACTCCCAATAAGGTTCTGAAAAGGCTCTTGAAAAAATGTCT
GTGCTTTTGAATTTCAAATGATTGGTTTTAGTATTAGGAGCAACAGAAATCCTGTTATCACTCATCCAAATAATCAGAATTAATTTAGGAGTTGATGGCA
AGCAGAGTCCGTTGGTAATTAGGAAACATGGAGAAATAATTAACCATGGCAAGAAATGCGGTTACATTTAACTCCTGCGAAGTTAAAAAAGAACCATGGT
ACTTTTCTCTGTGAGGCTTAGCAATCCCAGTGCTGGTGAGAGTGGCGCCTGCCTGAGCCCGTGAGGAGCCCTGCGCTGTTCCCCACCCTGGGTGCCATGC
TGGCCGCTGGGCCCTTCCTTCAGGGAAGCCAAGCTGGATCCCTGAGTCACTAGGGCGACTGGGTGGGGCCTTGGCCGGATGACCTCCCTTCAGAGAAGGA
CCAGGGCCTAACTCCATGTCTTTTGTAAATTTATTTTTTTAAGCCTGAATAGAAAATGTCTCCATTATTCACTTTAGTTTTAAATATAGGCGCCTTCTCC
CGGCTGGAATCCCCACTGCTAAGCTGGGAGGAGCCTCCAAGCTGGAGCGCTGGGCTTGTCCAGCCAGGCAGCAGACACTGTGGGGAGGCAGTGTGACATC
CATCAGGGCTCTCTGTGGCAATGACACTGCATTCCTTTTAGAAAACTCCCTCTCCTCCAGTCTTCCTCCTGAAGGCCACCCCTCTCTACCAGCACTCGGC
TCAGGAGGCCTGCGTGGCTCTGACTGATGCCTTTCTCGGCAGCTCTGTCCAGGGGCTAAGGGAGGTGCAGATGAGTCCCTGAGCGCCCTCATGGGGATTG
GTCATTTCAGTCCCCATCCTGGGTTCCCCTGGAGGATGTGGGCTCCATGGTGCTGGGCCGTGACTCTCTCTGCCTCAGTGCTCCCAATACCCCCAGCCGT
GGACCCTGGTGAGCCCCATGCAAGTGAAGCAGCCCCTCCCAAACCCTCCATCCTTGGAACGCTGTACTGCGGCTGCCAACTCCTCTGGCCTCCACTGCAG
ACACACAGGGCTCCTCTCTGGAGCTGAAGCTGTACCTCCAGGAGACACTGAGTTCTAGGCTTAGCGCCATAGCGAGCCAGCCCCTTCTCCAGGATGACTG
CCAGGGGGAAGTGTCTGTGCATGTGTGTGTTTACGTGTGTGTTTGTATGTGTGTGTGTGTGTGTGTGTGTGCATGTGCCTCTCACATGTGTCTGTGATTA
CCACCCAGCAACTCCTAGACCTGCCCTGTCCCATGGAACTTTCCGGGGTGTGGAGACGATTCTTAGCACTGAGGGTCGCCACAGCCACGTGAGTGCTGGG
ACACAACCACTGCAACTGAGGAGCGGAGTTTTAATTCTGTTCACTTTAAATTAATTTAAGTAGCCACATGTGGCTAAGGGCCCATACTGGACAGTCGGTT
CTTAAAGGAGGTGAATTTGAGATTTTCCCTCAGAAGCCTCCTCTGAGTTCTGCCTGTGCTCTCGGGGGTCTCAGCATCTCGGGCGCCTTCCCCGCCAGGC
ACCCCCGGGGCGAACGAGGACCGTGGGCCTGTCCTGCCACCATCGCTCTGGAGGTGAGGATGCGGCTCCCGGACACCCGAGGGCGCCCTCCTGAGCCTGA
GCCGGACAGAGCGGGGGTCGCGGGAGCTTCCCGGCGCCGGCGCAGCCCCAGGAGGAGGGACGGGTCCTCGCGGTGGGTGACGGTGTCACCGCCAGCATCG
CCTCTCCCGGGTTTCGGGGTGGCCGGGGCGCCTCCTCACCGGGGCGGCCGCAGAGCAGGGACCCCAGTGCCTCCCATGGCCGCCCCGACAGGGGACGTTC
CCGCCCGGGGCCATTCTCACCGCATCGCGCCCGGGCGGGAGCAGCGCTGGGGCGGCCGGGGCTGGTCTCGGCGGCTCCTGGCCCAGGTTCGTGGCTCTCG
CGTTCCCCGGGGTCTGGGCCTGCGCCGGCGGCGGGGCGTCTTCCACCCAGTGATGTGGCGATGCCTCCCGGGCTCATGGGGGAATGTCGGGTCGGCTTCG
CGCTGGGCCCACGGCCTCCTCCCGGTGAGACGCCCTCAGGGCTCCCCCATCTCAGCGCCCGGGACGCCGCAGCCATCTCGGTGGGCTGAAGGGAAGTAAG
ATTCTTGCAGAGGGCGCCTGCCCCAGAAAACAAATTTCATGTACAGGTTTCAAAGAGGCCAAGACGTCCGTGGCTTCCTTCAGGAGAAAGCGGCAAAACC
CACGCCCAGATCCGTTGTGCTTTCAGCTTTTCACCAGGAAACTCACTTTTCTATGTAAGAGCAAGCGAGTTCCACAGCGCGGGGAGGCCAGTGGAGAGGA
GCGCGGCCTTGCCTGGCTCATGTCCTGTTTCCAGCTTGCCCTGAAAACGAATTACTAAATCCATGGAGGAAGAGCTTGGGGCCTGCCTGGTCCTCGGCCA
CGGTGGGGCTGGGGCCTGTGACTGCGTGTGCAGAGGGTCCGCGCCCAGGGCCCGGGAAAGGGGCTGCGCTGCCCCGAGCGAGTCCCCGGGCGCCCCCAGC
CTGCTGCAGCCACCTCGGGCTCCACATTTCGGCCCCTTCTCCTCTCCGCTGCTCTGGGCTCAGCCACCAAGCTCCACGCTGTGGGCAGAATCCACTNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCTGCTGCGACTCAGCTGTGGTAGGGG
CCAAGTTTGGGTGTGTGAGGCCAGGGAGGTGCGTTGTGTTCTCGCGGAAGAGAGAGACGCAGCGAGGGAGCCCGGGCACACGGACCCAGYTCACCAACMG
CAGCCAAACCACCAATTCTGTCCCGTGGCCCTTGGTGACCGGTGACAGGGAGGGAAGGAAACGTGGCCAGCTTCCGCCAGACCACAGGCGAACACAGGTG
GGGCGGCCCACTGGCTTGGGCCTAGGAGCTGCAGGAGCAGGGGCCACGGTCCAGCCTGACGCCCCTCTCTTGGGGCAGGAAGTTCCCTCTGTCTGCCRTG
AGCAGGGGCACTTGGGAGGGCCCAGCATAGGACCTCAGGAGCTCCCGGAGCAGCCTCAGCAGCCGCAACCCCTCGACCTTGTCCAGCATCACGCCCCGGT
GCCAGGGAGACAGACCGAAGAATCCCACCACTGTGCAGGAGAGGAAGCCTACTTTAATTCTGTTCTTGAAGTAATGGCAGGTGAAGATTCGTATGTCATA
ATTAATTCCTCACTTCTTAGGAATCGCAGCGATTAGCTCTGTCATTCCTTTGTTATCAGAGAGAACTGTGAGTCCTGTTATTCTCACTGCTTCGCCATCT
GTGAGCATGCGCAGCCCTCGGCTAAGTTTTCTAAAAGGAACATCACAGCGACTTCCCTGACCTCAGCCAGGACAAAAGGTGAAGTCTAGCACGACGACCC
GTGCAGCCTGCATGGCTGGAGGCCCTCCCTTCCCGGTCTCTGGGCACAGGTGCGGGGCCGTGCGCGCGCGTGCGCCTCCACGGTTCCTCCGGGCACAGGT
GCGGGAGCTGCGCGCGTGCGTGCTCCTCCAGGGTTCCTCCGGGCACGGGTGCGGGGCCGTGCGCGTGCGTGCGCCTCCACGGGTCCTCCGGGCACAGGTG
CGGGGCCGTGCGCGTGCTTGCGCCTCCATGGTTCCTCCGGGCACAGGTGTGGGGCCGTGCGCGTGCGTGCGCCTCCACGGTTCCTCCGAGCACAGGTGCG
GGGCTGTGCTCGGAGCGCCTCCAGGTTCCTCTGGGCACAGGTGCAGGGCCGTGCACCAAGTGCCTCCACGGTTCCTGTGAAGGAGTGCGATGGCCCTGTA
ATTTTTGTCCTCAGCTCCGGTTTACCACAGCTTAGGCCTTTGGGGTCATTTTAAAGTAGTAAAGAAGCTTGAAAGGTAATCCCAAACCAGGTGGTCCTTA
AATCATTACTGGGTTCGAAGAATAATTATCATCAGAATAATTTATTATGCATATAATTGTAACTGTGCCCTGTGGACACTGCACATGGTTAAATCAACAC
CAGGAGGGTATTTTGGTTTCTAAGAACTTTAAAAATATAAGGCAGATGGCATTAATACAGACAAGTAATGAATGAATAAGAATTCATAACAATGAAGCTC
TAATGCAACGTATGATTGAATAGGGCAGCTTAGAAGCCTGGAAATTAGGAGGCTCGGTAAGATGAATTGGGTGGTGGTTTCCAAACCTCCTACCAGCATT
TGGAAGAGACCCCAGGGATCAGGGCATCTCCAGAATCCAAGCCAGCTCTGCATGTCCGGCCAGTGCCTGCAGCATTTTGGTGCTGAGATAGCATCGTGGG
TGGCCCATGGAAGGACGTGTTTGATGGAAGGGAGATAAGAAATGGCCCTAATAAGGAAAGGAAAAACTCTAAGCTGGCCAGAGCTTCCAAGTTGTCCACC
TGAGGACTTGGAAGAGTCGATGATCTGAGCTTGCATCTGCAGGGCTGAGGGTGAGCAGGGGTGAGGGTAGCAGAGATAAGAGCTTGAGCCAAGGAGTAAG
GGGTGTGACCCACCCCTTGCTTGAGCATGGTCTGTGCTGATGGTGCACTTCTCACCAACAGCAGGGCACAGGGTGTGGGGCATCCAGTCTGAGATTAGGT
TAAAAAGACTGTGGCTTTTGCTTTGGGGACACTCCCGGCTCATGCTGTTCCGTGCCCTCTGCCCGTCATAAGGACACTTGGCAGCCCTGGGAAGGGGTCA
CATGGGGAGGACCAGGGCCTGTGGGCAGCCTGGTGAGGGGCTCAGACACCCCACAGGAGCCTGCAGGGGCAGGAAGAGATTTGGGGGAGAGGAAAAGATT
TGCTATTTAGGTTGTGGTACTGGTTTCTTGGCTGTATACATATGTTAGGCTGATAATACTTCAATTGCACGCTGTTTATCACACTTTAATTATACACTAA
TGAGACTGTAAAAACTGAGGAGGTGGCATTATTCGTGGAGAAGAAAAAGCTCAGATTAAACAGGCAGTGGGAAGACATGGTGTTCAGGGGAGGTGAGCCC
AGGCGTGCAGATGCTGAGCATGGGCGGTATTTGTCAGGTGATGGAGAAGCTGGCATGCATTATACCTGGCAGGAGTTTGAAGATCTTCCATCTGTGTTTG
GATGACCACATTGGCTGCAGGGCGTGTAGACAGTGTTGTTGAGAATTGGCTTGAGTGCAAAGGTTAAAATGTACAGTCACTCTGGGGAGTAGAAAGTTTT
GCCCTTTTTGAGGTGTAGGGCATGACCTTTAACACTCCCACCATCAGCAGGGAGAAGAGGAATGAAAAGCACAGGAAAACAGGCCAGGGAGTTCATGGAT
GGAAATGGCATCACAGGCAACAGCCACTCACGAAGATGGACGAGGACCCAAGAGAGAACCAGCGCTGCTCTACACCTGCCTGTCAGTTTGTAGTGGAGAG
GGGCACTGTCCGCCGAGCCTCCATCCGTGGAAACGCTCCTCTTCGAGCCCGGCCATTGCTCTGGCTGGGCCTGGTGAGGAATGGCCGTCATCACGGACAG
TGGCCTTTCCTAGCCCTGACCCTGCAGAGTGCCTCTGGAGCGCATAGTGCTGGCGGACAGGAAGTCAGCAGATCGAAGACAGGGTCCCGGCTTCACGGTG
GGTGAGCCGTGTGATGTTTGGGCAAGTCCCTCAGTCTCTCCACTGAGCTGGGTGTGAACGTGGTGCTCTGTGGCAGTGGCACGTGATGACTCCTGCATGG
AGTTCTCGTCTCAGCAGGGGCAGTGCCTTGCACCCCGATTTTCAAGCAGCAACCTGAGAGTCCTGGGAGGCCCGTCTTTTCCCCTCGGTCTTTCTGTTGG
CCCCACCACTCACATATTTCAGGCCTCACCAAGTCCTGTTAATCCCATTTCCAAAAAATGCCTGGAAGCTTCTACTCCTGGCTCTGCAGCCTCCACCTTT
CTCTGAGCTCTGCGGACGCTTCCTCACATCAGCCCTGGATGACTCCAGGAGCCTCCAAAGGGAGCCCCTGCTTCCTGTTCCCCTCCCCTGCGACCTGCTG
CCCATGTGCTCCCAAGGGGCTCGTTCCTCCGTGTGGATGGGATCGTGTTCCTGCTCCCCTGCCCCACAACCCACTGCCCGTGTGCACCCGAGGGGCATGT
TTTTCTGTGTGAGTGGGATCATGAGCCTCTTTCCTTGGTAGATGTTCTCTTTGCGCTGGAATGAAACCTCAGCTCCCCTGTGACAGGAAGCTCCCCATGG
GCCAGTGCTGGGTTTTGGTCTGTCGGCATGTGCTCTCCACCCAGAGAAGACTCACAGCTGGCTGCTCCTCTCACCCCTGAGGCTTCACAGTAAACATCGA
CTCACAGGAGGGGACCACGTGATTCCCACCGCGTGTCCTGTTCCCTCCACGGAGCATGAGCTTGACCATGGTACAAAGCACCGCACAGCTGCTTTAACCC
TGGGAGAGAAGTGTCTTTATGAGATTCTCTGTGTCCCCAGGAAATGCTGCCTTCTCCTGTGAAGCAGTCAGTGGGCCAGGCCCAGTCCTTAAAGATGCAG
AGAACCCAACAGGCCCCTCTTCTGCTCACAGCTTCACCTTATGTTATGCAAAATCCCCACACCACTAGAGCATGCTGGCACTGGGTCATGGGCGCCTGCA
YTTCCCGCAAGCTTGTGACTCGGGGTGCGATACCTCAGCCCGTTTCCAAGCAGCCCCATGAGATCAGGGCTTATTGTGTTTGCTCCATGTATCATGAGGG
TGCATCCTGAGAAGGAGAGACTCGCAGGTGGGTGCAAATGATTTGCAGTCACAGAGGAGCCAAGAGCTCCTGACGGGACTAATGAAAGCATGCCTCACTT
TAGCCCTGGGCCAGGTTCACGCCTCACCTTAGCCCTGGGCGGGTTCACGCCTCACCTTAGCCCTGGGCCAGGCTGCTGTGTGCCATGTGCTGTTTCTTCA
TCGGGGGGTTTGGGTACAGAAATACTAAAAATGAATCTTGAAAGAGGTACTGATGGCTTCTTGCAGTTTTTTGGATACAAACAGATTGGTTTTTTCTCAA
AGAAGATGAGTGACTATGTTGTCAGTGTCATGGTGCAAAGATGAATACGCACCTGCGGCTAACAAAGCTCCCAGCGATGGGGGATGACCTCGCAAATGTG
TCGTGAAATGTGCAGAAGAGGGTTTCATATGCAGGACAGAAGTATCTGGGGGATAGGTGAGCAGTCATTTCTCACTTACTCATCTCTGGGCACTGTGACG
TGACTCACATCTGCAATCCCAGTACTTTCAGAGGCCAAGGTGGGAGGATTGCTTAAGGCCAGGGGTTCAAGACCAGCCTGGGCAACATAGCAAGACCCCA
TCTCTACAAAAAATTAAAAAATTAACCACATGTGGTGGCATGCATCTGTAGTCCCAGCTACTCGGCCGGCTGAGGTGGGAGAATGGCTTGAGCCCAGGAG
ATCGAGGCTGCAGTGAGCTATGATCCTGCCCCTGCACTTCAGCCTGGGCCACAGAGTGAGATCGTGTCTGTAAAAAATCATCATCATCGTAAAATGAATC
ACCTGCCACCTGCCATCCATCCTTCTTTCTGAACCGTGTCTGGTCAGTTTCCTCCCAGGGACCTGGTCTCCTGCTCCTGGCTGTAACTTGGTGTAAGAGT
TAAAGAAAGAAGAAAGAATCATGAAAAGTGGTTTGACAGTCCAAGACAGGTTTATTTTGGAGAATAAACCTGAGAGGGGCTTCTGGCTGATTTCAGTCGG
GAGCATTCTCTCTTACAGACTAAGAATATTTAGGGTTTAGAATATTAAGGAGCTTGTCACAGGCTTGGATTGTTTCTATGTGAGGGAAAGTTTATTGCAG
GGTTGGGATGTCTCTAGTCAGAGGGGAGTTTACCTTAGTGTTGCAGTGTTTCTGTTTATGCTGACATTAGCTGTTAGGCTGATGTTTTGGGGCAGATTTA
GGTGGTTTTTTAATCAAGGGGAACTTAAAATGGCAGTGTGTGTCCAGGATGGTGATGTCCTGCTCCTGCTGTAGCTTGGAGGGCAGTGGCTGTGGTGCCC
GCCTTCCTCCAACAGAAGACGGGCACCAGGAGCTCATTCTGCAGATTCTTTCTGTCACCACCTGTGCGGTCTCGGTGGTCACAGCCCAGGTTCAGTGGCA
GGATGCTGTCCCCGTTCTTTTAATCTCAAGTAAGCGTATGAGGACAGAGTGCCTGGTGGATCCCCATCCCCCGTGGGCACCGTCCCAGGACTCTTACCAT
GAGACCTGCTCTGGGCTTCAGCTCCAGCTCTGGGCTCTGGGTGCCGCCCTTGCCCAGCCCTCCCTTCTATTGCATGACCAGCAAGACCAAGAGCCCTAAT
AAAGGACAGCAAGGTTAACGGTTTGGACGAGGAAAAGCTGGGATTTTAGGAACAACGGCTGCCAGGCCCTGTCCTAAAGGGAGAGTGGAGTCTGTGGAGG
AGCCTGAGGTGGCCCCAGGGACTCAGGAACCTGCGGCTGAGAGCTGGAGAGCGTGGCTCACACAGGTAACCCCGGGACCAGCGCAGTCAGCCAGGAGAAG
GCTGAGCATGCTGGGGCACACTCCGTTTTAGTGGCCCCGAGTTTGTTCTATTTTCTGTTGAGCCAGAAAGAGGAGATTGTATTGGATTCCCTTGATCCAG
GGTTGCAGGCCTGTTTCTGAGTTAYTGATTTCTGTGCCAAATGAGTCTCCTTGCTCGCTGGTCAAAGACCTTGTCCGTTCTCTTTTTCTTTTTTTTTTTT
TTTTTTTTAAGCCTCTGGGGAATTCTCCCCATAAATCATGTTTCCCTGCTACTGAGCAGTTGAAGTGAGAAACCATAGCTGGCACTGCCCCTGCAGAGTA
GCCAAGGGCACCTGGCCAGGGCGTCGGCCGCAGCGTCAGTGGTGGAGCTGGCCCAGCAAATCTGCCCTCCCCGGCAGTTTCTCCATCTGCGTCTTTCTGC
CGAAGCCCCTCCGTCTTTCCCCACTGCTCCCACAGTCTTCTCTGGACCTGGGCTGCACACTCTCTCCTCTCTGCCCCTTTCCTCTCCTCCCTTCCAAGCA
TCCCAAGATCAAGGGCATGGAGCCAGCATATGGTTCTCAGGAGCCGTGGCCGGTCCAGGCGAGAGGCTTCCGGACGCAGAAAGGCCATGGCTGTGGCAGT
GCATGCGCCCCTGGGTGCAGGCTCCCCCAGCACGTCCCCATCCGACAGAGGCCCAGTCCCACACGGCCTCGTCAGGATGAACTGTGTCTCAAGCGACTGG
TTTTCCTGGGGTGGAAGGCACCATCAGTGAGAGGTAGAAGGAGGCTGGGCTGTGGCCTGGCTGTGCTGGTCAGTTGGTTCCTGGGCCCAGGGGGAGTGCT
TGGCAAGTCACTGGGCTCTTGCCCTCCTTGTGGGAAGATTTTTAGGGGAGGGAAGAGTACACCTAAAAACAGAGACGTCATTAGCCCTGGATCTCCCTGG
TGAGCACTTCTGTGGCAGCCTGAATCCTCCAACACAACCTGTCTGTCACAGACATAGATTCTGAAAAGAAGCACGTGGTCTAGACCCTGGATCGCTCAAC
AGAAAAGTGTCATGAGCACTGCACCTTCCAATAAGAAGCATCTCCCGTAGCTCCGGATCCACCAAGAGACCCTGTCATTAGCCCTGGATATCCCAGAAGG
AACGCAAGGTCTTCCAGCAAGAAACATCTGCATAGCCCTAAGTCCCTGAACAAGGAATGCCTGTCATTAGCCCTGAAACCCAAGAAGAAACACCTCAGGC
CACTGGGCCCCCCAGTGAGAAATGCCTGTCACAGCCCTGGCTGCCCTGAGGAAGAAAATGCCTGTTCTTAGCTGCTGGGTCGGTGGGTAGTTTTGGCAAA
TGCTGCTCCACGGGCCCGGGGCCTCCTGTGCCTGCAGAGGCAGGAGGGCCAGTTCCCGCAGCTGCACCCAGTTTATTGCTCCCAGCCGTGCGCAGCCTCA
CCCAGATGGCTGCCAGGATGCATGTGGCGCAGCCCGGGGCCGTCCCTCTGATCTGGAGCCTGGGTGGTCAGTGGGTTTCCCAGGCAGTACGGTGGCCTGC
GGCCAGGACGGAGCAGTGAGGGGCAGGCTCACCGGGCTGTGGAGGGAGTGGCCAGCATGTGGGCAGGCCCAGGTCTGGGGCATAGGCACTCATGCATGGC
TGCTAGGGCACCAGCGGCCCTGATGTTTGTGCCCTGGGGGTGTGAGCACTGGCTTGAGGCAGGGCCTGGGGCAGCGGCACTGGAACCCGTGTGGTAGGGC
CGGAAAGCACTCAGAGCGGCTCCTGAGTAGCAGCAACTTTGTTTCCAGGTCATCCCTGCTTGGCCAGCAGCTGGGGCACAGGAGCATGCAGGCTGCAGCC
CTCAGGCACAGGGCAGTGGCAGTGGGCAGTTTAGGGACCACCAGACGCCCCGGGGGCCGGTGACAGGGGACTTGCCTCACTGCTCACCACAGAGCCCTGG
CAACCCCGGGATCACAGAGACCCGGCCGCCCCAGGAGCACAGAGACCCGGCAACCCAGGAGCATGCCTCCTTGGCCCCAGTTCCGAACAGGGCTTGTGCG
GTGAGGGGCGAGGGCTGTCCTGTGCTCCCTACACCCGCAGAAGCCGTCTGGCCAAGTGCCCGCCTGCCCAGAGGTACATCCATCCTGGGGCCTGGAGCAC
GCAGCCCCGGGAGCCCTTCATGTGTGTCCGCAGGGCGCCGTTGACCCCGGTACACGCCCCGGGTTCCTGTGGGGGCTGCGCCTCCTTGATTTTCGGCCTA
TGTCTGAACAGAATGGGCCATCCCAGGAGGAGTCACCTAGACTGCTTGCTTGCCCCGCAGGACCCAATCTCCAGGCCGGGATCCTGGTCTCTGTCCACTC
TGACAGCCTTGCCCACCCGGCCTTTGTGCCCAGGCTTAGGGCACTCCCAGGTCCCGGCGTTCCCACTGCACCTGGGGCCTCGCCCTCCCTAGACCCCGGC
TCCTTGGCTTTTCCTTGGGCTCCGCCATGTCTCTCCACCGTGTCTGTCTCCACTGTCTCTCTGCTGTGCCTCCATCATGCCCGCAGCGCCCGCAAGYGCC
CTTTGAATAATTGATTTGGTGCAGCTTGAAGCCGCCTGGGACGCTGGAGCCCCTGCCTGCTACTGAGGGATGACAGACCTCACTGGCTTCCTGCAGAGCC
CAGCGCCCAGGTCCTGCTTGTCACTGGCCTTGGTTGAGACCCCTTGTCTAGGTCATGATTTATTTTGAGGTTTAGTGCGACCACATGTCAGTGCTGAGGA
GAATGATGATCAGATAGTGAATGAGACAAGGATGTAACCGTGAAGATGAAGGCAACGTTTGCCAGACTCCGGGCTCCATGCCACATACGCCAAGTCTCAC
CACATCTACCCCCAGAAGAGCCCAGCCTGGAGGGAAATGCCTTGGATTCACTGGCCTTGTAGGTGGGTAACAGCCCTAGTGTTGCCAGGAGCCCCCAAGT
ACCACAGCCTTGGTCTGGGTCACCCAGGACTCTCGCGCAGTGGGTGCGTTCCTCGCTCACTGCCTTCCCTGCCCCAAACAGACTTTCTTCAAGCGATTGC
CGGGCCACGGCCTAGGTCTGGGCAACTGCCCCCTCATCTCAGGGACTCCGCACGGCACCCCTGTGAAGTGAAGTCTCTCTCGTCATGGTTTACAGATAAG
CGCCTAGTCCAGAGGCCCAGGGTCTGACCCAGGCAGTGGGGGGAGGCTAGGACCCTCAGGGAGGACTACGCACACACAGGCAGCTCTCCCCACCCCGTTC
CCGGGCTGCAGAAGGGGTGCTCTGGGCCTTCTTCCCACTGTCTTTGGCACATAGCTTGTTTTATGTGGAAATGAGAGAACCACCTGAAGGTGCTGCCTGC
AGGTCAGTGGCCACCATGGGAAAGGGCTGCCTCCACCCTGGGCTGTGGGCGTCCATCCTCAAAGCTTATTTCAAGAAGAAAAGAAGGATGAATGCGGGGT
GTCCTGCCCTCTGGAAAAAAATCGCTGTTTTTAATTACAAGACAATGAGTGCATGCATTTGGAGAAGAACAGAGTGCCCAGGGCCTTCTGAGGATAATGA
GCTTCTGGTGACCACACACAAGCCTCTGGGCCCATGGAAAACACTCCATTGCTGGACTTGCATCTCAGGCCTTAGAGAGGCATGGTGGGGAAGACAGGTG
AGCCACCCAAGTCTGCACACTCGGGGTCTGCACTTGCCAGTGATCCTGGGACAGTGGGAGCAGGTGCCTTTTACCAATTCAGGATGGGGCAGGAGGACAG
TGCTGTTCTTGACACAACTGTGTGTGCAGCAGGTGAGGCCACTGTTCCCAAACGTCAGAGCAATCTCGGGCAGCAGGCAGCCAGACACAAGCACCAGAGA
CCAGGGCTCTGGCTGTGTCCCACTGCAGGCTGGCTGTGTTCATGTGACTGTGGAGGATGGCTGTGCCCATGTCACTGTGGAGGGTGGGTGCGCCCATGTC
ACTGTGCAGGGTGGGTGCGCCCATGTCACTGTGCAGGGTGGGTGCGCCCATGTCACTGTGGAGGGTGCCTGCGCCCATGTCACTGTGCAGGGTGGGTGCG
CCCATGTCACTGTGGAGGGTGCCTGCGCCCATGTCACTGTGCAGGGTGGGTGCGCCCATGTCACTGTGGAGGGTGGCTGCGCCCATGTCAGTGTGCAGGG
TGGGTGAGCCCATGTCACTGTGGAGGGTGGGTGCGCCCATGTCACTGTGCAGGGTGGGTGCGCCCATGTCACTGTGGAGGGTGGTGCGCCCATGTCACTG
TGCAGGGTGGGTGCTCCCATGTCACTGTGCAGGGTGGCTGCGCCCATGTCACTGTGGAGGGTGGCTGCGCCCATGTCACTGTGCAGGGTGGGTGCGCCCA
TGTCACTGTGGAGGGTGCCTGCGCCCATGTCACTGTGCAGGGTGGTACACCCATGTCACTGTGGAGGGTGGTGCGCCCATGTCACTGTGGAGGGTGGTGC
GCCCATGTCACTGTGGAGGGTGGGTGAGCCCATGTCACT


SNP Information

Context             (SEQ ID NO:18197):
TGTGGTAGGGGCCAAGTTTGGGTGTGTGAGGCCAGGGAGGTGCGTTGTGTTCTCGCGGAAGAGAGAGACGCAGCGAGGGAGCCCGGGCACACGGACCCAG
Y
TCACCAACCGCAGCCAAACCACCAATTCTGTCCCGTGGCCCTTGGTGACCGGTGACAGGGAGGGAAGGAAACGTGGCCAGCTTCCGCCAGACCACAGGCG
Celera SNP ID:            hCV25744806
SNP Position Genomic:     7090
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,35|T,5)   total(C,67|T,9)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:18198):
GGCCAAGTTTGGGTGTGTGAGGCCAGGGAGGTGCGTTGTGTTCTCGCGGAAGAGAGAGACGCAGCGAGGGAGCCCGGGCACACGGACCCAGCTCACCAAC
M
GCAGCCAAACCACCAATTCTGTCCCGTGGCCCTTGGTGACCGGTGACAGGGAGGGAAGGAAACGTGGCCAGCTTCCGCCAGACCACAGGCGAACACAGGT
Celera SNP ID:            hCV25744889
SNP Position Genomic:     7099
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(A,2|C,36)   total(A,3|C,71)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:18199):
TTTTCCTCCAGAACACCACCTGTGGTTGGGACAGTGCCGTGCAGCCCCAGCATGTCTGTGACGCACACCTCCTGCCTGCGGGGTGGTCCCCCTCCCGCCA
C
CCGGTTCTTCCGGGTTTTCGAGCCCTGCCCTCAGCTTCCCCTCCTTCCTCCTCTCCCCGATTTTCCAGCCCTGCCCTCGGCTTCCCCTCCTCCCTCCTCT
Celera SNP ID:            hCV27389596
SNP Position Genomic:     3340
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,9)   total(C,2|-,9) 
SNP Type:                 TFBS


Context             (SEQ ID NO:18200):
GTGGGGCGGCCCACTGGCTTGGGCCTAGGAGCTGCAGGAGCAGGGGCCACGGTCCAGCCTGACGCCCCTCTCTTGGGGCAGGAAGTTCCCTCTGTCTGCC
R
TGAGCAGGGGCACTTGGGAGGGCCCAGCATAGGACCTCAGGAGCTCCCGGAGCAGCCTCAGCAGCCGCAACCCCTCGACCTTGTCCAGCATCACGCCCCG
Celera SNP ID:            hCV25745844
SNP Position Genomic:     7298
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(A,27|G,11)   total(A,31|G,41)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,29|G,11)   total(A,33|G,43)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:18201):
GTTTTAGTGGCCCCGAGTTTGTTCTATTTTCTGTTGAGCCAGAAAGAGGAGATTGTATTGGATTCCCTTGATCCAGGGTTGCAGGCCTGTTTCTGAGTTA
Y
TGATTTCTGTGCCAAATGAGTCTCCTTGCTCGCTGGTCAAAGACCTTGTCCGTTCTCTTTTTCTTTTTTTTTTTTTTTTTTTTAAGCCTCTGGGGAATTC
Celera SNP ID:            hCV424231
SNP Position Genomic:     12925
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:18202):
CGGCTCCTTGGCTTTTCCTTGGGCTCCGCCATGTCTCTCCACCGTGTCTGTCTCCACTGTCTCTCTGCTGTGCCTCCATCATGCCCGCAGCGCCCGCAAG
Y
GCCCTTTGAATAATTGATTTGGTGCAGCTTGAAGCCGCCTGGGACGCTGGAGCCCCTGCCTGCTACTGAGGGATGACAGACCTCACTGGCTTCCTGCAGA
Celera SNP ID:            hCV424224
SNP Position Genomic:     15297
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:18203):
AGAACCCAACAGGCCCCTCTTCTGCTCACAGCTTCACCTTATGTTATGCAAAATCCCCACACCACTAGAGCATGCTGGCACTGGGTCATGGGCGCCTGCA
Y
TTCCCGCAAGCTTGTGACTCGGGGTGCGATACCTCAGCCCGTTTCCAAGCAGCCCCATGAGATCAGGGCTTATTGTGTTTGCTCCATGTATCATGAGGGT
Celera SNP ID:            hCV424234
SNP Position Genomic:     10901
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:18204):
CAGAGACCCGGCCGCCCCAGGAGCACAGAGACCCGGCAACCCAGGAGCATGCCTCCTTGGCCCCAGTTCCGAACAGGGCTTGTGCGGTGAGGGGCGAGGG
C
TGTCCTGTGCTCCCTACACCCGCAGAAGCCGTCTGGCCAAGTGCCCGCCTGCCCAGAGGTACATCCATCCTGGGGCCTGGAGCACGCAGCCCCGGGAGCC
Celera SNP ID:            hCV11224211
SNP Position Genomic:     14815
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 TFBS


Gene Number:                 57
Celera Gene:                 hCG1781369 - 104000116855886
Gene Symbol:                 PGCP
Protein Name:                plasma glutamate carboxypeptidase
Celera Genomic Axis:         GA_x5YUV32W2RH(10802822..11313332)
Chromosome:                  Chr8
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12217):
TGTTTTCTATAAGGATAAAGCCTTAACCTCGAAACAAGATTGATACGGCCCTTTTTTCAAATGCACACTTCAGCTCTACTAAACTTTCTTCTCCTTCCTT
GTCCACACCCCGACTCCTCTCATCTTGCCTATTGTTGCCCCACACACGTCTCCACCTTCCGGAATCATTTTTGATTCATGCTTCAGATCTTAGATCTCTG
AGAAGTTCCCTGGGTTTTGTGCACCACTCTCTGCCCCACTAACTTTGATGCCCTTCCAGTGGTGTGCTGAAGCCGGCTGGTACAGGCTCTCGAAGCCGAC
TGTGCATATCACTTCCCAGCTCCAGTGTTGCATGACATCACTTTGGCATCTGGAAATTGGCCATGATGGAAGTATTGATAGCATGGAAATCAACAAATGG
TACAAATGAGGGTTTTATTAAAAAAAAACAACAACTTGTTGGTAAGCATTTACAAGCACACCACCATGCCCCTCTTATATTTTCATAACACTCTGAGCAC
TGTGTATTTCTTCATTTGTTCAGTGAATATTTACTGACTGTGTATTATGTGCCAGGCACTGCCCTCTATACTGAGGATATAAATGTGGGTAAATAATATC
GTTCTTGCCATAATGGAGCTTAGAGTTAAAAGGCGGAGACTGCCCTTAGTCAAGTAAGTAAGTAAATAAATAAATATTCAGTGATAATTACGTTAAGAAC
TAAAAATGCTTTCAAAATATATAATAGGGTATTTGACCTCATCTAGGAAGGTTTTCCTGAGCTAAAATCTGAAGGACAATTTTGAGTTGAGGAAGGAACA
AGGTGAGGGAACAGCATTCCAGGCCAAGGGAACCGCATGTGCTATGGTTGGAGGGAGCATGCCTCCTAGGAGCAAGGAGATAAGACAAGTTTGGCTAGAA
GGGAGTCAGAGAGTTTCGTGTGAGATGCAGCTGAAGAGTTAACCAGGAAGCAAGCCATGCAGAGTTTTGTAGGCCCTACTAAGGAGTTTTGTCCTATCCT
AAAAGCAGTGAAGTGTTTTTTGTTTTCTTTTCTTCAACTTTTAAGTTCAGGGGTACCCATTACTGGGTATATACCCAAAAGAATATAAACCATTCTATTA
TAAAGATACATGCACRCATATGTTCATTGCAGCAGTATTCACAATAGCAAAGACATGGAATCAACCCAAATGTCCATCAATGATAGACCAGATAAAGAAT
ATGTGGTACATATACACCATGGAGTACTATGCAGCCATAAAAGGGAATGAGATCATGTCCTTTGCAGGGACATGGAGCTCCTTTAGGAGCTCTTGAAAGG
CAGGCCTGGTGGTGATGAATTCCCTTAGCATATGCTTGTCTGAAAAGGATCTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATAAAATTCT
GTATTGAGAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCAATCTCTTCTGGCTTGTAGGGTTTCCACTGATAGGTCCACCGTTAGTCTGATGGGT
TTCACTTTGTAAGTAACTTGGCCCTTCTTTCTGAGTGCCTTTAACATTTTTTCTTTCATTTAGGCCTTGGAGAATCTGATGATTAGGTGTCTTTGGATTG
ATCTTCTTGTGGAGTATCTTACTGCAGTTCTCTGGATTTCCTGAATTTGAATGTTGGCCTGTCTTGCTAGGTTGGAGAAGTTCTCCTGGATGATATCCTG
AACTATGTTTTTCAACTTGGTTTCATCCTCTTTGTCTCTTTCAGGTACCCCAATCAGTTGTAGGTTCAGTCTTTTTACATAATCCCATATTCTTGGATGT
TTTGTTCATTCTTTTTTATTCTTTTTTGCTCTATTCTTGTCTGCTGGTCTTATTTCAGAAAGATAGTCTTCAAGCTCTGAGATTCTTTCCGCCACTTGGT
CTATTCTGCTATTGATACTTGTGATTGCATTGTGAAGCTCTTGTGTTGTGTTTTTCAGCTCCATCAGGTCAGTTATATTCCTTTCTCACCTATTCTKGTT
ATCTGGCTATCAGCTCCAGTATTGTTTTATTATGTTTCTTAGCTTCTTTGCATTGGGTTACAACATGCTTCTTTAGCTCAGGAAAGTTCGTTGTTACCCA
CCTTCTGAAGCATACTTCTGTCAGTTCAGCCATCTCAGCCTCAGTCCAGTTCTGTGCCCTTGCTGGGGAGGGGTTGTGGTCATTTGCAGGAGAAAACGCA
CTCTGGCTTTTTGGGTTTTCAGCATTTTTGCGTTGATTCTTTCTCATCTTTGTGGGCTTATCTACCTTTAATCTTTGAGGTTGTTGACTTTGAATGAGGT
TTTTGTGGGGTCTTTTTTGTTGATGGTGTTGTTGTTGTTTTGTTTGTTTTTCTCTTAACAGTCAGGCCACTTGACTGCTGCAGTTTGCTGGAGATCCGCT
CCAGACCCCAGTTGCCTCACTTTTTCCTGTATCTGGAGGTATCACTAGTGAAGGCCACAAAACAGCAAAGATGGCAGCCAGCTTCTTCCTCTGGAAGCTT
CATCTTGGGTGGTTTCTGATCTGTTGCCAGCCCTCATACACCTGCAGCAGGTGGTTAGAGACCCCCATTGGGAGGTTTCACCCAGTCAGGAGGAACGGGA
TTAGGGACCCACCCAAAGAAGTAGTCTGGCTGCTTTTTGTAGAGCAGGTGTGCTGTACTGGGAGTGGGGGTGGGTGGGGCCCTCATAGTCTGGACCACCT
GTATTCTCCACAGCTGGTAGGCTGGATCAGCTGAGTCCACTGAACCATAAAGATGGTGGTTGTCCCTCTCCAAGGCAACCTGTCCCAGGGAGATATCAGA
GCTCTCTCCATAGCGCCCTGGCTGGAGTGACTGAAGCTCCTGCAGGGAGGACCCACCCATGAGGAGGAATGGATTGGGGTCCCACTTAAAGAAGCAGTCT
GGCTGCAATTTGGCAAGGCAGCTGTGCTACATTGTGGGGGACCCTTCCTTGTATGGTCCATCTGTATTATCCACAGCTGGCAGGCTTGAATGGCTGAGTC
TACTGAACTGCAGAGATGATGGCCTCCCCTCCCTCCAGGAGCTCTGTCCCAGGGAGAGATCAGAGCTCTGTTCATAAAACAGTTGCTGGAGGGGCTTAAG
GAGGTCCTCTCTAGCGAGGAGGAATGACTTGGGGTCCYGCTTACAGAAGCAGTCTGGCTGCTTTTTGGTAGGGCAGGTGTGCTGCATTGTAGCAGAGGGA
ACCCTTCCTAGTTTAGACCGTCTGTATTCTCCACATCCAGGAGGCTGCAGCAGCTGAGTCGGCTGAATCACAGAGACGGCAGCTGCCCCACCTGCTGGGA
ACTCAAACCTGTCTCAGGCAGACTCCTATCCACTGCCATTGGCTGGCTGGGATTCCAAGCTGGTGGGTCTTAACTTGTGGGGTGTCATGTAAGTGGGGCC
TGAAGAATGGTATTGCTTGGCTCCCTGGATTCAGCCCCCTTCCTACAGATGGATTTCCTGCCTTGCTGATGATTGTGGCCAGAGTATGTAAAACTTCTGG
GCCTCTTTGTATGTGCCTGAGTGGCTGCTCTGTCAAGACAACACACAGCTCTGTGTATCAGACTCAAGGCCCTGGTGGTGTGGAGTCATGAGGGGGTCTC
TTGATCCACAGGTTGCAAAGATTCATGGGAGAAGCATGGTTTCCTGGGTTGCACAATCACTCACCACTTCCCTTGGCTGAGGGTGGAGGTTCCTTTGGCT
CTGTGCTGCTCCGAGGTGGGCTCCCCACCCTGCCCAACTTTTCTTCATTCTCCATGGGCCGGTGGTTTGCCTAGTCAGTCCCAATGAGAGAACCTGGATA
TTTCAGTTGAAGGTACTGAATTCACTTGCCCCTTCTCATTCCTCCCTGAGTGCTGCGGGCAGGGGCTTCTAATTGGCCATTATGGATTGATCTCCCTGCA
GTGAAGTGTTCTAAGTAGGAAGAACACATGGTATTGTGGAAAATCAACATAGCATGGTGGCTCAGAAATAGATTCTGGAGCCAGGCAGGTTGCTTGGTTT
GGAATTCTGGTCCTGCAACTTACTGCAACCTCTCTATGCCTTAGTTTCCTCACAGTTTAAAGAGGGATAAAATAATATCTATAGGTCTATTTGCGAGGTT
TTAAAATTCTTGGAATAGTACCTGGCTCATTATACATGCTATAGAAATGCTTATTCAATTAAATAAATAAAAGCATCTTTGGTAAGATAACTCTGAACAT
TGTATGGTTTAGTAGAGGATGCTGACAAGAATAAATAATTAAAACATATCATGAAGTAAGCATAAAAGATAGTGGTAATGCAAAGATGCGAATGAGCTCT
GCTTCCTGTGATTAGTGTGAGCAGACAAATTCACTGTACTCAGAAGCTTAAAGCCTAGCGTGGGAAGCTGACATGAATGAAAACCAACGGGAAAAAATGT
TAGAGTAGAGGTGTAAGCAAGAGTGATTAATTTCAACTTGAAAGCAAATGGGGGAGGTTTCACAGAGAGGGGCCCAGCATGTTGGTTGATTGCTTGGGCT
CCAGAATCAGGCCAGCTCAGTTTAATGCTGACTTTGTACCTCACTGGTTTTGTGACTTGACCTCTCTAATCCTCCATCTCCTTATCTGTACAGTGGGGGG
AAATAATAATGATAATAATAGGTAGCTCATAGGACAAATAAGAATTCACAGTTAATGCATCAAAAATCTTAGCACAAGGCACTCAATAAATGTGAAGCTT
TTATTGTTATTACGAGTTGAAACTTGAGTGGGAAAGAACTTCGTTCACATTAAACATGAGAAAAGGCCCAGAAGTTGAAAAGCATTTGACATAATTAAAG
AACAGCAAGTCAGTGCCACTTAAACGGTAATCCAACCACCGCCAGTCAGTGAACAGCTTTTTACTGCTCCATGAACAGGTAAGTATAGAAATTGTGAGTA
AGCATTTAGAAATAAAAACAACAACAACAACCAATAATTGAAAAACTAATTTTATACTTTTTGGCATACTCATTGTACACTTGTAATAAAAACTGGGCTT
GTAGTTTTTGTCTCTTTTCTTATTTGCTAGCAGGTTTTGATTTGTATTTTACAGAAATAATGGTCCATGTCAGATTGGAAATAATAAAAACTTGTCTTTT
ACCCTTGATAGTTTGAGAAAAAAGTAATTCAGTGGGGTTAGATATGGCATCCGAGAGATGATTCGGGAAAGGTGGGCCAGGGCCATGTTTATGTGGACCC
TCCAATGCCTCAGAGTTCACACTTGTTTCAGTGGGCAACAGGACTAGTAAGGTTTAGAGGGACTGTTAACCGAAGGTGAGTGGACTTTGCACATTTTATG
GTATTTTTTTTTTCCCAGTAGGCATGTGCTTATTCTTTCTTTTCTTTTCTAATTAAAAGTTCTGTTTGGTTTTTTTAGTTAAGAGGAGAGACTGGAACTG
CTCAGTGTTTCACAAAGATAACTGTTTGTATTTGATAAGAGTTTCGTTAAACAAAGGAATTTGCACTTATCAAAACATAAAGCATTGAAAACACTGAGCA
CATACTCTGTGACCAGAATGCGTGTGACTTGTTGAGATAAGCCACACCGGGTAATCAGATGAGTCTCCTTTCTTCTTGGGCACCCTCATATAATTCAGGC
ACAAACGAAAGAGAAAACGCTTTTTCTGATCTCTCAGTTCGGGTCATCTCTGCCTTCCATCATCACCGCCTAACAATCCTACACCTGGCAGGGTGGGAAA
ACGGTTTAATAATCTCTTCCCTTTGGGAGGCGTTTGACAGCTCAGAAAGCATGGCCTTTACTCAGGCTCAGAGACACACAAAAACCTTTCACGTTTTCCT
TTCAGCTTCGCAGCCCCGTCCTTCTCCACCTGCACGGGCACCCACTGAAGCACAGGACCCTTCTGCCAAGCCATGAGCCTTCTCAGGCCCCTGCCGCCCG
CCTCGCCTGAGGCTGCGCTTCTGAAAAGCACGCGGCCCTGGCCTGCGCACCACCCAGTCTGAAGGCGACGCCCCTGCACGAAGGAGTCAGGCCTAGGGGC
TCGGGACCCAGGGCGACACTCAATTTTCTAACAGGAGCCACAGCCCAGAAGCTGAGAAGCCTTCCGGCCGATCTGTGGCCCTGAGGTCGCCCTTGGAGGG
CGAGTGAGAACCCCCCAGGCGTTCCGGAGGTGGCSCCCAGCCCGAACCCGGCGCCCGCCCCGGCTTCCCGAGTCAGGTCTTTGCCCCGCCTCTCGGCCCC
GCGGCCTGGCCGGCAAGCAGGGCTGCAGTCACGGGGCGGCGCGGAGGGCCCCAGCCCAGTCAGGGGTGTGGCCGCCGCCACCGTAAGGCTAGGCCGCGAG
CTTAGTCCTGGGAGCCGCCTCCGTCGCCGCCGTCAGAGCCGCCCTATCAGGTGTGTTTGCAGCCGAACTGGCAGTGCCCGCGGGCGGCTGGGCCGAGGCC
TTGGCTCCTACCCGCGGGGGTCGGGCGGGCTGAGGCTGGAGCAGGCCAGGGGCGGGGGCAGAGGGGGACGGACTTCCAGCATCGCTCATTCGGGGGCGTG
ACGGGAGGACCTGGCTGGGGAGCGGCGGGTTGGGAGCCTGTGGCTGCCCCTTCGGTGACAGTGGAGTCACCGAGCCTAGAAATGGGGAAGCTGTGACGTG
GGGGTGGTGGAGGRTGCTGCGGGACAGCAGCGAGCACGGCCCTCAGCCGTCCTTCCCAACACGGTTTCACTTCCCCTCAGCTCCAGGGCTCAGCCCCAAG
CCGCCCCCTTCATCCCCCATCTGCAAACAATCCTGGTCCCCCTGAGCCTCCAATATGCCTTATGCAGTTCTTTTGGGGTTCCTTTCGCATTTTACCGTGT
ACTTTCGCTTTTGATGCGTCTAGTTTCTGCTACTGGACTCTCCTAGAATCGAAGTTCCATGAGGGCAAAGTCCCATCTGACTTAGGACTCAGAGCTACTC
AATAAGTAATTGAATGAGTACCTATGCCGTAGAACTGAGTGAATTAACAAATGAGTAAGTGAATAAATGAGTGCATACGAGATACAGCTGAATCAATCAG
TGCATGAGTGAAAATAAAGATGTATGAAGTGGAAGCAGTGGAGACGCAGGCTTACAACTCCTGTTTTTTGATAGCTTTCCAAAAAGTTGTGTGAATGTCG
CACTTTTGCAAATGGAGGCATTCTGATTGGGACCACTTAAAAAGAGTTCTATGCTGTTCAAATGGTCTCTGGAAACGCCCCCTGGTATTTCCATTTTTGT
TGGACTTGGCTATATGTGTTTGCTTAAAACAAAATATGCCTAGGTTTTTTCTTGCTTGTGTTTTGTTCACTTCTACTTTGGACGTTTAAAGAATCATTGT
CACTATAATATTATTTCATGTATTTCTTAAAGATAAGGGTGACTCTGAAGGCAGAACCATATGACTCTGACTTGTTTGTAAAACCAGGCTTTTCTTTTGA
ATTCAGAGTTGTTAAGAATCTTGTCTGTTTTCCTGAGACAGGTGCTGGCTGATTTGCAGGTGACTGAAGAAGGCTACATAAGGCCCAGAAAGACGCTTAT
CTGTTTGTAAACAAATAGGCTTAGCACATAGCTTTAATACAGTTGGTCACTGCAGCCGTTCTTACTTGCCAGGTCCAGGTTCCAGAAGAGCTGGATGACC
TTGGACTTGCCACTTGATCTCTTTAGGTTTTAATTTCTTAATCTCCAAAATGAAGATGTTTAGCTAGGAACCCTGCCTGAGTTAAACCTCTGGGATTCTT
TTGTATCAGGGTTAGAAGGTGAAATTACAGATGATTTCATGGAGTTCTGCTTACTTCACCTCCCATAGCATTTTGTCTCTGCTCTCTTCTTTGCTGTTTA
CAGCTCATTTCCTTTCTTCTCCACATCTGCAACAAGAAAGCCTGGGAGCTCAAGATAAGTGTAATAAACCCTAGGCTGGTGGGGAGAAAGGAGGGTAAGA
TTTTCTTCTACATTGTCACAGGCTCCTGGTCCTGGGTCTGACTTTTTTCCAGTGCAACCCAGTCTGACAATGCCATATATTCCCAGTATATCTGGGGAAC
TGCATCACTATTTCTTCRCATGCATTTGAGATTAGTTATCATAGATCACATTTTGGAGCTGGAAGGACCTTGGAGATTTTTTAAAGGCACTTCAAAAGTC
ATTATACATACATATTTAAATATTTTTGCATGCTACATTTAACAAACACAAAGTTCCAAATGTGTTAAGTAAAATGAAATTAATGTTACCTACTTCAGTG
AATTCAAGTTTATAAGGAGAAGTGGAATACACATGTTGCTTGGTGAAAAGGGCCAACTTTCTCACACTGTTTTCCCAATGAGGTCATGTGTCATACAGGC
ATGGAATGTTACAAAGCTGATATTTATGGGGCACTGACCATACACCAGGCACTGTTATATTTAACCTTTTTACTTATRTTGCCCCATTTAATCATCACTA
TATATCTAAGAGCTAGATACTATGGTAAGTCCTATTTGATCTTCTTAACTAGAAACAGTACATGGAAAATGGGAGAGTTAGGACTCAAAACTCAAGCAGA
TGGAAACAGGGTTTCTCCCAGAAACAAGACAATCCTGCCAGGAAAAACTGTGTGACTTTGAAGAATGTGGTCTCTGTGTGTGTTCAAGCATATATACAAA
CCCTGGGTTATTTGGGTAAATGAATTTAGAATGAGAGCACAGGGTGAAATGATGAAGACTGAATTATAGGGGAGTTGGTTGTTTTATCATTTTGAAAATT
ATTGAATTCCATTGAGATTCCAGGAGACTCTGATACTTTGACCTAGGTGCCCATGCATCTTAATTTTAAATGTGTTCAGACTTACCAATTTAGGGAATAT
AAAATGAGTGACATCGACAGCTGCCATCAGTGAATGGCACTTAAGGGCTTTGAACCATGAGTGCTAAGCAGTGTTGTTTCTTGGACTAGCTTTGTGCCCT
TGGTAAGGCACTGCCTCCCAACCTCTTTCTTTATAAGACCAACAACCCCTAGTATAGACAAAGAACAATGCCTACATCTGTGTAATCCAGAGACAAGAAT
GCAGGATGGGTTTCCAGAACCCTTATAATTAATTGAAGAGAGCAAAAGACGAAAAGAGAGGCCCATAAAATAAATGGGAAATTATTTTGTTTCTTTTTCG
TCAGCCAAGTTTAGCCCCATGGAAAGCAGAGACCAGTTGTGGCCGCCTGAAAAACTAAGAGCTGATGCCAGTTTGATTTAGCTCAGGAGGCTGAAACTTT
CTGCCCCGAAGGCTGGTGTGATGGAATAGACCTTCCCATTGCTCACAATATTATGAAAAAAACATTAAAGCAACAATTTTTATTACTTGCCCTGCAGCTA
GAGCTTTAAAATGTACTTTCTTCTCCCCTACCCTCCCTAAACCACTTAGCTTTTAAAAACAAACAACCCATTCATGTGTTTGTTACAGTCACATTATTAG
TTCTTTCTCTTTATTCCTGGGCCCTTTTCTTTAATGCAGCAAAGTATTTGGAGGGATGTACTTGTGGATCTGTGGAATTTTACTTTATTTTATTCAGAAA
ATATTAATTTCAATAACCATTTATTGAGTGTATACTATGTGACAGGTAAAGATGAATGAGAACAAATCTAAATAGGAGAGTGACCCATCTGCAAACAATT
GCACCACAGGGTAATGTGGAAGTAGTGGCCACTCACTCTTCCAGGAAAGAGGTATGATTGGAACTCAGGAAGACTTTGCAGAGAAGGTGAATTTTGAACT
GTGTTTTAAAGCCTAAAGACCAAGCAGAGGGAGAAGGGTATTCCAAGAATGGAGAACAACAAGAGCAAGGAAAAGGAGGCAAGTATGAACATGGCATTCT
TCAGGAGATGGGAGTTCAGTGTGGCTGTGGTAGGGAGGTGTGGTAAGGTTAGGGCCAGACAGTGATGGTCCTTGAATGTCATGTTATTTAAACTTTATCA
CAGTCTAGATAATCCTTTTCAGCATTATTTTTGTTTTGTTTTGTTTTGAGGCAAGGCCTCTCTCTGTCACCCAGGCTGGAGTGCCGTGGCAAGATCTCAC
TGCGACTTCCGCCTCCCGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACACACCACTACAGCCTGGCTAATTTTTTTAT
TTTTAGTAGAGACGGGACTTTGCCATGTGGGCCAGGTTGATCTCGACCTTCTGGCTTCAAGCTATCTGCCTGCCTTGGCCTCCCAAAGTGTTGGGATTAC
AGGCATGARCCACTGTGCCTGGCTCTTTTCAGCATTTTTAAGCTGAATTTTAAACAGAGGAATGATATGATTGGATTTTCCTTAGAAAATAGCTACAGTA
ATAATGTTTCAGAAGAATTGGGGAAGGAAGAGCCAGAAGGCCACAGGAAAATGAAGATGCTATTGCCATAGGTCTAATGAAATAGGATAAGGATCTAAAC
TAAGATAGGTTTGAGAGACTATTTGAAGACAGAGCAGGATTAATGACTAGCTGGAGCTGGATATGGGAAATATGTTTGAAAATAATCTGAGGTTTTGGAA
TTGCTTAACTGGGTGAGTGGAGATGCCACTAATGAGGGTAAGAAATATAAGGTGAGGAAGAAGTTTCGGGAGAAAGACGGTGAGTGAGCAGAGGTAGCTG
TGGAACATCTGGGTGGAGATCCCAGGATATAGCCTTTTCTGTAGCTGTGCTGTGATGTCACACAGTCAAGACCTTGGCCAAACATTACAATAGGGCCTCA
GTCTAAAAAGACACATCAATTTAATAACTCACTTAAAAAATACATCATACTTATCTAATGACCATTACATTATATTTCAGGCAAGTTMTTAGAGAACTCT
GATTCTTATGTAAGTGCCAGTGAAGGAAAAAAGATTGGAGACTCAAACAATGAGGAGTTATTATAAGCTGCCAGGAGAAACTGAAAAAGAGAAATACAGA
CCAGAGTCATTCAAAGGAACAAAGATAAGGAAATGGCAGGAGTGTTGCAGAAAGCAGTGGTTTCTGAAGACACAGGTATAGGCAGATATGAAATACAGAG
AAGAAATTTGAGCTGGCGCTTCCAAATAACTGTACTTCTTTAATGGTAAGATATCCCAAGCTTTGATTTCTCATCTTATTCASTTTGTCAGGAAGAGACA
AACAGGTGTGGGTGCTGGGCAGAGGGCTTGATCTCATTTTGCAGAGAAAGTGTTTGGAGACTTTGAACTAAGCAAAGAGTAACAGGGAAAATAAGATAAA
AATGAAAAGGGTAATGATTCGGAGAAATTTTTCAGAGAATTTAAGGAATTCTATGACAAACAGGTGTTAAAGAAAAAGGCAGATCAACGCAGTGTTCTCT
TGATATAGTGGTATTAGACTTCCTTGGAAAAAAGATTCGCATAGCGCCTTATATTTAAAAAGCAATTTTATATTTGATTGTTACAAGAACCTAGGAAGCA
GGTGCAGCCAGGCATTATTATCTTTCTTTTATAAACTTAAAATCTGGCATGAAGGAGGCTGCAGTTTGTTTCATGGCTCAGACGGCTCAGATCCCATGGC
TGGCAGGGACTCAGAGCCTTCTGACTTTGGGTCCATTGCTTTGTCCATTGTATCAACGCCTTGCCTTACCTTGGAACCTTGGCCTTCTGCAGTGTGCCTC
CTTCCCTTATCATATCATATCACATAAATGTAAAAGTAAAGCAGATGGTATTTGAAGACCAAAAGAGCCAAGATCTCTGGGGAGACAGGCAGTGATGTGA
AAGGATCCTTAGCACTGATTATGCTATATACAATAGGGATGTTCATGAAGAGTTGTGCATAGAGTGTTATCTACGTAAATCAAATGACACTTTCAGTGCA
GTAGGGGAGTCCACAATATCCAAAGTGTTATGAYTAAATTTTTTATGAGGCAAATAATCCCTTTATAAAATGAACAATCAGTCACTCCTTGATATATTAT
CTGAATAAATCCAGATTTTCAAATATGGGGTTGACTTAAAGCAAGATACATCTCTAGTAGCCTACATCTATATTTATCATATAYGAAGATTTTTCTGACT
TGGGTATTGAATATGAAGATGGGGATCTGGAGCTGKATCCTCTAATTGTTAGAGACCATTTAAAATACAATGGACATCATGACTTGCAGCTAAATCCATT
CAGCTACCTTTACTGTTTACCAAGCACCTAACAGGTATGCCATTGGATGGGGCAAAACTCAGCTGGGAAATGGAGAGAGAAGCCCAGCACTGGCACTGCC
TTGAGTCTGACAGTTAGACCACAAGAAAGTCATAAATGTAAATTCACCAATATAGTGAGCCAGGGTAAGAAAACTAGAAACTCTTATGGTCCTTGAATTC
TACATCAGTATTAAAATGAAACCAAGTATATTTCAAAGCAAAGACTGTTATATTAGACCCAGAGTTATTCTGTACTGACAAAAGATAATCTTTGTAAGGA
AGAAGAGGTAGTTGTGACTCTTTATGCATCAAACATTTAAAAATGCATATCTTTAAAACATGTAAAACTAATGATTAGAWCTATGAGAAATAAGCGAAGC
TATTTGTAGGACACTTTAGATCTGTTGTTTTACATGACAAATCAAGTAGACAAAGTCAAATGGTAATACACAAGATTTGAATAATATAACTAATGAGGTT
GAATAATATAATTTATGAGTGAATAGGGATATGGAACATTTMATAGTATATTTTATTATTAATCAAAAAATTATGTTATGTATGAATATATATGTACATG
ATATATATTGGGATATATATGGGGTATATGTATGTATATATGTCTCCTTTTTTGCATTAATAAGTTCTTTTTTATTTTACTGTAAATTGGCAAATTATGG
TTGTATATATTTATGAAATACAAAGTAATGTTGATATATRTCATAATACAACCTTCCATACAATGTGGAATGATTAAATCAAGCTAATAAACATACCCAT
CACCTTAAATACTTATCATTTTTGTGGTGAAAATATTTGAAATTTGCTCTCTTAGCAATTTTGAAATATACAACACAGTATAATTAACTATAGTCATCAT
GCTGACAATATAATCTCAAAAAATTTATTCCTCTTGTTTAATTGAAACTTTGAMCCCTTTGGCATTCCCCATTTTCCCCAACCCCTCAGACTTTGGTAAG
CACCATTCTACTCTACGCTTCTTAGTTCTGTTGTTTAGATTCCACGTAGAAGTGAGATCATGTGGTATTTGTCTTTCTGTGCCTATGTCTGGCTTATTGC
ATTTAGCATAATGTCCTGCAGCTTCATCCATGTTGTCACAAATGACAGAATTTCCTCATTTTTAAAGGCAGAATAGTATTTCATTGTGCATRTGTGCCAC
CTATTCTTTAGCCATTTATCTGTTGATGGACACTTCGGTTGATTCTATAATTTGGCTATTGTGAATAGTGCTGCAGTGAACATGGGATTGCATATGTCTC
TTTAATATAATTATTTCAAATCTTTGGCTATGTACTTAGAAGTGGGATTGGTGGATCATATGATAGTTCTATCTTTAGTTTTTTTGAGGACCCTCCATGA
AGTTTTCTGTAATGGCTATACTAATTTACATTCCCATCAACAATGTATAAGAGTTTCCTTTACTTCACATTGTCACCAGAATTTTTTTTTGTTTGTTTGA
GACGGAGTCTTGCTCTATCGCCCAAGCTGGAGTGCAGTGGCGCCATCTCTGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGC
CTCCTGAGTAGCTGGGACTACCGGCGCCCGCCACCATGCCCGGCTAATTTTTTTTGTATTTTTACTAGAGACGGGGTTTCACTTTGTTAGCCAGGATTGT
CTCGATCTCCTGACCTCGTGATCCGCCCGCCTCAGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACCGCACCCGGCCCCAGAATTTTGTTTTTGAG
GCAGGATCTGGTTCTTTTGCTCAGGCTGGAGTACAGGGGCGTGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGCTCAAGCCATCCTCCCTCCTCAGCC
TCCTAGGTGACTGGGACTACAGGTGTGCCACTGGGCCTGGCTAATTTTTGTATATTTGTAGAGAAGGAGTTTCGCCATGTTGCCCAGACTGGTCTCAAAC
TCCTGAGCTCAAGCAATCTACTCTCCTTGGCCTCCCAAAGTGCTGGATTACAGGAGTGAGCCACAGTGCCTAGTACATTTGTCATTTTCTGTCTTTTTCA
TAATAGCCATTCTAACTGGGGTGAGATAGTCTCATTGCAGTTTTGATTTGCATTTCTTTGATAATTAATGATGTTGAGCATTTTTTAATATATCTGTTGG
CCATTTATATGTCTTTTGAGAATTGTCTGTTCAGGCTCTTTGTCCATTTTTTAATCAGGTTGCTTGTTTTCTTGCTATTGAGTTGTTTGAGTTCCTTATA
CAGTTCATCCTTGAGCAATGCGGGGCTTAGCGGTGCTGACTCCCTCTACAGTTGAAAATTCTAGTATAACTTTTGATTCCCCCAGAACTTAACTACTAAT
AGCCAACTGTTGACTGGAAGCCTTACCAGTAACATAAATAGCCAATTAACACATATTTTGTATGTTACATGTAATATATACTATCTGCTTACAATAGAGT
AAGGTAGAGAAAAGAAAATTTTATTGAGAAAATCCTAAGGGAGAGAAAATATATTTACTATTTATTAAGTGGAAGTGAATCACCATAAAGGTCTTCACTC
TTGTCATCTTTATGTTGAGTAGGCGGAGGAGGAGGAGGAAGAGAAGGGATTGGTCTTGCTGTCTTAGGGGTGGCAGAGGTGGAAGAAGCGAGGAGGTGAA
AGGCGAGGGAGGAGAGGCAGGCCCACTTGGTGTAACTGTCTGGAAATACATAATAATTTCTGTATGGCTACTTTTCTCTTTCTAAAAATGTTGTAAAGTT
TATCTTAAAATGTTTCTATACAGTATCAGTCTTTCTTCTGCTATTTGCATTAGCTTCAGTGCCCATATCATAGAAGCGTTCATGTCATAAAAGAAGTCAA
ATGCAGTCTTAAATAATCAGAACGCTTCTGCCAGATTGTCTGATGTTAATTTGCTTTTTGGTACTTTTATATCCTCCTCATCATCATAAGGCACTGGTTC
AGAAGCACTCCGTCAAGTTGTCTTCTGTCAATTCCTCTGGTGTGTAGTGTCTATTAGCTCTTGAATTTCTCCAAGATTCATATCTTGACACCTTCATTCA
CCACCTTTTTTCCCACTATATTTACAATCGCTTTCATTATTTCCTTGAATTGGCTTTGTCATAAACCCTGTGAAGTCATACACAACAGCTGGGCACAGTT
TTCTCCTGCAGGAACTTATTGTTGGCTTGATGGCTTTCACAGCTTTTTCTATAACAATGATGGTGTCTTCAATGGGGTAATCCTTCTAGGCTTTCATGAT
GTTCTCTCTATCGGGGTTCTCTAACATAGCACTGACATCCTTTCCATAGAGTACTGTGTATAATGAGCCTTCAAGGTCCTTATGATCCCCTAATCTAGAG
GATGATTAGAGATGTTGCGTTTGGGGGCAAGTAGGACACTTGGATGTCTTTGATGTTGAACTCATGGGGTTCTAGGTGGCCAGGGGCATTGTCTAATATG
AAAATAATTTTAAAAGGCATTCCCTTACCAGCAAGATACTTTCTGACTTCAGAGAAAAAGCATCAGTGGAACCAATCCAGAAAAATAGTTCTTGTTTAAG
CCAAAAGACTGGTAGCTGATGTTTATCTTTTTCCATCAAGGCTTGGAGGTTAGCAGCTTTATAGATGACAGTCCTGACCATAAACCTGACTGCATTTGCA
TGAAACAGTAGTTAGCCTATGCCTTCCTACCTTAAATCTTGGTGCTCACTTCTCTTCCTTACTAATAAATGTCCTTTGTGGCTTTTTTTTTTTTTCCAGA
ATACAGCATGTTCAGCTGCATTAAAACCCTGTTTAGGCAGGTATCCTTTCTCCTCAATGATTTTTTAATGGCTTTGCAATATAGTTTGATATCAGGCAGT
GTGATGCCTCCAGTTTTGTTTGTTTTATTTAAGATCATCTTGGTGATTTTTTTTAATTCCCTATGAATTTTAGGGTTATTTTTTCTGTTTCCTTTTAAAA
TATACTTTCTGGCCATTTTTCTCTCTCTTCGTCTTCTGAAATTATGTGAAGATTAGTTCCCTTGACTGTGATTGTGTCACATAATTCTTGTAGGTTTTCT
TCATCTTTTCCATTCTTTTTTCTTTTTGCTCCTCTGATGAATAATTTCAAATATTCTGTATTTAGCTCATTGATTGTGCTGCTTAATTGAGTCTGCTGTT
GAAGATTTCTATTGCATTTTTCAATTAAGTCATTGTATTCTTTATCTCTTGGGTTTCTTTTTTATTGTTTCTACTTCTTCTATATTCTCATTTTGTGTAT
TGTTTCTCAAATTTCATTTAATTTTATATCCATATATTCTTGTAGTTCACTGAACTGCTTTACAAGGATTTTTCTGAATCTTTTTTCTGCCACTTTATAG
ATCTTCATTTTTTAGTCTGTTATTGGAACTTTGTTAGTTTCTTTTGATGATTACAGATGCTCTTTGACTTACAATGGGCTTATGTCCTATTAAACCCATA
GTAATTTCAAAACTTTGTAAGTAAGAAATGTGTTTAATACCCCAGTAAACCAATTGTAATGTCAAAAAATTATGAGTTGAACCATCATAAGTGCAGATGC
TCCTTGACTTACAATGGGGTTATATCCTGATAAGTCCGTTRTAAAGTTGTATAGTTGTAAGTTGAACCATCATAAATTGGGGACCGTCTATATTTGTAAT
CCTTGTGTTCTAGCATTGGTGTCTGCACATTTGAAGAGACAGCTTCCTCCTGAGTGCAGTGGTATAATGACAGCTCACTGCAGCCTTGACCTCCTGGGCT
CATAAGATTCTCCCACCTCAGCCTCTTGAGTAGTTGGGACCACAGGTGTTTGCCACCATGCCTGGCTACTTTTTGTATTTTTTGTAGAGAGGGGTTTCAC
CATGTTGTCCAGGCTGGTCTTGAACTCCTGGGCTCAAGTGATCTACTTACCTTGGCCTCCCAAAATGCTGGAATAACAGGCATAAGCCACTGCATCCAGC
CCCAACAGCTTGCTCTTCTGGTCTTTACAGGTATTCTTTGTCAGGGATTGACCTTTACTTCTTAGTCTAGGCTGTGATTCTAGTTGGGTCAGGTGGTAAT
GACCCCATGCAGGCAGAGCTCGCTATAGTTGGCTGGGTGCTGCCTTTGCTCTGAGGTCTGATGGGGCTGCTGGCTCGGCTCCCATGCTTCGGGGAGACCA
CTGGCTGAGCTCTGCTATAATTTCTGATTGGACAAGGTTGTAGGGTGTACTTCCTGGCTGGGTGGTACTACTTTTTTGGTTCAACAGTTGAGCAGGGCTG
CAGGCTGGACTCTGAGTTTAGGTGGAGTTGCTGCTCAGGATGGATGGGGTCTGGAGTATATGCTGCATAGAACTGCACAGTTGAGGATTGCCTGTCTCTG
GGCAGGGCCTTAGAGTGGGCTCTGAGTCTGGATTGAGTCACTCTTTGGATTTCTGCGTCAGGCAATTCCAACCCCTATGATCCACAGAAATGCCCTGTGA
TGGTCATCTCCACATCTCCCGCCTGGGTAAGGCATTGAGGTCGCCTCTGAGGCTGGCCGTCTAAAGACTCAAAGCAGGCTGACCTTCTCATCATGTTTCT
GTGAACAGTGAACTTGGCTTTGCAAGTGAGCCATACCATTGGCTGGTATCTCTGATTGTGCACCACCACTGGGAGGAACATAGAGCCATCACCAAAATTT
GCACACTGGTCCCTGTGAGCTCTGCCTCCTTTCTTTGTTTATACCTAACCCAGGAGGTCTAGCCATGTCATTACTGCCAGTATTCCCCATGAGGTCAGAT
GGGAGTGGGCTTTCTGGGAAGTGTCTCAGAATGCTAGGGAGCTGGATGTCTAGAAACTCTGGTTACCTTTTTTTTTTTTTTACTGTATGGGCCCAGTTAA
AAAGATCCTCTTGGCTGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGATTGAGACCATCC
TGGCAAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGACGTGGTGGTGTGCGTCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAG
GAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTTCAGCTGGGGCAACAGAGTGGGACTCTGTCTCAAAAAAAA
ATCCTCTCTCTGTGTGTCACCATGCTGATCTGGGGGAGCAGGAGGGGCAGTGTAGTCAACGTGAGATTGTTCCTCTTCTAATGTGGTTTTTATTTGATTC
AGTGGCCTATTCATTCAGCTGTCTCCGTTTCTTTCTCAAGTTTGTAAGTTTTCACAAAAGTGTTCTTGTCTTTGGATTGTTGCTTGTTGGACTTTCTGTA
GAGGGAAGTGAAGCCAAGTGAAGCCTGGGACTTCCTATTCTGCCATCTTGCTGATGTCATGCCTACATGTTTACAGAAAATTCACATCCTCTTATAACAT
TTATGAGACATTGTAAAAAACAAAACAAAACAACAACGACAACAAAACCCAAAAGCCTTAAATGAAGACTTTAGTGAATTCCAGAGTCCTTCTTACTCTT
ACTGGCCTTGTGCCTTAGCCCTCTGGTTTAGCCCCTGTTTCCAGCTAGCTTTTAACAGGTTGAGATGATGAAAAGAAAACATACCTCTCTCCTTTCATAA
TGCTGTGAAGTAGCTCATATAATTCATCTTCCACGTTTATATACGTATGTCTCTTTTGTGCCCAGAGCATCATTTTGAGATTCTTTTTTCATTATCAAAA
TACATTGGATCTATGTTATTCATAACTAATCTGAGGCTGTATTTGTTACATTTGAGTATTTTAAATCATTAATGCCATATGTATTGTATACCAAAATTTA
CCATCTAAAACACCTGGCTATTCTTTTGTAGGGTTTTTCTTTTCATTAGCTTTTTTGAGCTAAAGCTTAAAGAAAATCAGGGACCAAAGGAAGGTTAGAA
AGTGGCTGGAGGTATCATAAACACCAACTAAGTTCTTTGAGAAGCAGAAGGTGCATCATGGAAATCAGCATTATTCTGACTTCATTTCATTGCCTACTCA
GTCCAAATTTTAGGGTTTACAACTTAAACTAATAACTCACTGGCACCTTGCATTTCCTGTGGCTTAATGGTTAAGAACATGGGCTTTGAAGTCATTGTCC
TGAGTTCAAATTTGAGGTCTACCACCATCACCTATGTGACTTTGGGCCAAACACATATACTCTTTATACCTCCATTTCTTCATCCATAAAATTGGGATAA
AAATTATAACTGTCTGCAGTGGGCAGAATACTGTCTTCCCTACCACCCCCTACGGTGTCCATATCTTAATCCCTGAAACTGTGCATGTTAGATTACATTG
CAAAGGGGAATTAAGGTTGCAGATAGAATTAACATTATTAATCATCTGGCCTTAAAATAGGAAATTATGCTGGATTATCCTGGTGGGCCCAATGTAATCA
CAAAGGTCTTTAAAAGTGGAAGAGTGAAGCAGAAGAAGTCAGAGAGTTAGGAAGATGTGATTATGGAAGAATGTTCAAAGAGAGACAGTGCCACTGGCTT
TGAAGATGGAGGAAGRGGGCCATGAGCCAAGGAATGTGGGTGGCCACGAGCCAAGGAATGTGGGTGGCCACTAGAAACTGAGGAAAGCAAGGAAATAGAT
TCTCTCCTAAAGCTTCCAGAAAGGGATGCAGTCCTGCCGATACCTTGCTTTTACGTGATGCATACAGTGTCAGACTTCTGACCTAAAGAACTGCAAAATA
ATAAATTTGTATTCAGATACCAAATTTGTGGTATTTTGTTACAGCAGAAATAGGAAATAAATGCACCGCCATATGGGGTTGTTGTAAGGGTTAGGAAATG
TAAACCTTTAAGATAGACCTGCCACATGGTAAATGCTCAGTTAGTATTAGCCACTATTATTATCCATTGGTACTTTAGTTTCCCTTCTGTCTTTGCTCTT
TTGTGGTAGTTGTCTTGTAATTACCCAAATTTGTGGTTATCTTCCCTACAAAGACTATGGCCCTAGGTGTTTTTCACTCTCATTTTAGTCTATACTCAGC
CTCCAGTAATTTGTCAAAATTACCATTTCAGAGTTCCTACCATTTTGTGGTTCCAGCAGCTTCTGTTCCAGGTGAGTAGATCTTGGCTGTGACTCTCTGG
ATTTGCCTGTCTCTCCAGATTTTAGGGTGGTAGTTTGCCCTGCAACTTCAGTTCTGTGGGGCATCCAAGGAAAGTCGCTGGTTTTCACTTTGTTTTGTTT
CATTATTGTAAGGACATGAGTGCTGACTTCCGAGTTCTTTACATGTTGGTACTGAAATTGGAAGTGTGGGCAGTGCTCTTTACCCTACGGCTTTAATAAT
CTTTCTATACACATGAGATCTTCATCTCTACACTTTACTTCTTTCTGATTTCCATTATCTGGTTTTCACTTCATTCATTTCATTTCCAAACATGCTTTTT
CTGTATTTTCTATTTARGTTAGTGGCATCTCAATCCAAGGGATAGTAGTTAATTTGATGTGTCTGAAATACAGGGTACAAAACAGGCTCATAGTCGGGGA
GATTGCCCTTAACTCTCCACCTTTCCTGAATCCTTTTCTTCAGAATTAGTAAGTCGCCAAGGGCTGTTGTGTCTATGAATTTTGCCCACATCCTTGCTGT
CATTACGCTAGTCCTAACTCTTGACTCGGCCATGCAGAATATTTTAAACCACTTTATCCTCTACACTGCCTCAGAGTTARATCATAAGTTGGATCATGTT
ACTTCCTCTCTCAGAAGACCTACATTTTGAAAAATTGCTTGTGGAATAAATCCCAAACTCCTAATTTGGCATTTAAGGTTCTTAAAGATCTGTAATTAAG
GTATATTTCTAGGTGGATTCATAGTGCATGTACCTACTGTATTTGCTAGTGCTACCACAACAAAATCCTGCAGACTGGGTAGGTTAAACAACAGAAATGA
ATTTTCTCATGGTTGTGGGGGCTGGAAGTCCAAGATCAAAGTGTCTGCATGTTTGGTTTCTTCTGAGGCCTCTCTTTTTGGCTTGCACGTGGCCATCTTT
TCTCGAGGTACTTACATAGTCTTCTCTCTGTGCATGCACACCCCTGATATCGCTCTGTGTATTCCAGTTTCCTCTTCTTATATGGACACCAGTCAGATTC
TTTTAGGGCCCACCCTGATAGTCTCATTTTACCTTAACACCTCTTTCAAAGCCCCATTTTCAAATAGTCACAGTCCAAAGCCCTGGGGGTTAGGGCTTTA
ACGTATGAATTTTGGGGAACACAATTTAGCCCATAACACCGACTGTATCCCTCTATGTATTCTGTACTCATGAATGTATAATGGATCACCTAGGAAGATT
TAGAAAATACTGATTTGGGGGTCTCACCCAACTTCTTGTAGGTTCTGAATCAGTAGGTCTGAAATGGGGCTGAGAATACATTTGGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTGTTTATACTTCTCCCTAGTGCTTTCCCAGCTTTCCTAGACTCTTTAACATTATTGGTGAACATACTATAAATGTTCATACCTTTGC
TCATATTTGTTTTTTAACTGAAAATTCTCTTCCTACCATACCTATGAAATTTAATATCTATGAAAATTAATTYAGCCTTCTAGGCTGATCTGAAATATCA
TCTTTTCTGTTATCTTTTTCTTATTCTCTCCAGAGATAATCCTGCAATACTTTGTTGTGATTTTATTTTACTTTATATAAGTACTGAAGAATTTATTTTG
TTTTATATGATAGTCATTTGCCTTCTTCTTTCACTAGCTTTCTGAGACCAAAGAGGACATATTCTTTATTTCTGTATATATGAAACAGTGGCAGTTGCTC
TGAACATAGTAGATAATTAATCAATCTTTGCAGTGTGAAAAATGAACTAGTTAAGAAATGCTAATATTTTTATTGTGACTTTTTATAAAATGGAGATCAT
TGGGTAAAAAATGAACATATCAAATGTAAAACAAGTGGCAGACTTTTTTTTAAAAAAGACTTTACTTTTTTTTGAAAAGCAGTTTTAGATTGAGAAGGTG
TAGAAATATCCCATACACTACCTGCCCCTCACATGTGCATTCCCTACCAGAGTGGTACATTCGTTGCAATTGATGAACCCATATAGACATATCATCATCG
CCCAAAGCCCATGGTTTGTATTAGCGTTCACTCTTGGTGGTGTGCTTTCTATGGGTTTGGATTGCCCTAAAAATCCCCTGTACTCTACTTGTTCATCCCT
CCCTTCCCCTCACTCCTGGCAACTACTGATCTTTTCTCTGTGTTCGTAGTTTTGCCCTTTCCAAGATGTCATATAGTTGGAATCATACAGTATGTAGTCT
TTTCAGATTCGCTTCTTTCACTGAGTAATATGCATTTACTTCTCCTCCCTGTCTCTTTATGGCTTGATAGCACATTTCTTTTTAGCTCTGAATAATATTC
CATTGTCTGGGTGTGCTACAGTTTATTTATCCGTTCACCTACTGAAGATCATCTTGGTTGCTTCCAAATTTTGGCAATTATGAATAAAGCTGCTCTTTAC
ATCCATGTGCAGGTTTTTGTGTTTACATGTTTTCAATCCTTTTGGGAAAATATTAAAGAATGCCATTGCTGGATTGTATGTTAAGAGTATGTTTAGTTTT
TTAAGAAACTGTCAAACTATTTTCCAAAGTGGGTGCACCATTTTACATTCTCACCAGCAATGAGTGAGCATTCCTGTTGCTCCACATCCTCACCAGCATT
TGGTGTTGTCAGTATTATGGTTTTGGGCCATTCTGCTAGGTCTGTAGTGGTATCTTGTTTTCTTTTCCATTTCCCTGCTTACATATGATGTGAAGTATCT
TTTCACATGTTTATTTTCCACTTTATATCTTCTTTGGTAAGGTGTCTGTTAAGGTCTTTGGGTCATTTTTTAATTGGGTTGTTTGTTTTCTTGTTGCTGA
GTTTTTAAGAGTTCTTTGTATATTTTGGATAATAGTCCTTATATTTAATATGTCTTTTGCAAGAGTGGCAGAATTTTTGTTCATTATTTTTTTCTTGAAT
TAAATATCCTTAACATTACACATAAACAGTATTTTTAATGTGTATTTTCAATTTGGAACTTTTAACATTTAAAAATTTCTCTTGATGAAGATATGTGATA
ATAAAATGGGGGGCAAAGTGAAGACATTGTAACAATTTTTGATAATCGCATCTTCTTCTGCATTGCATTTTTCAGGGCAGAGTATTAATGGTCCAGTTCT
TAAAGATAAATGGATTCCTCAATGTTTATTTGTAGTATATCCTTGTTTATTCTCCTAATGAAGAACTGCATCCTTAAAGCTGGCATAATTAGGTAGACTT
GTCTATTAGCTGAGCTACTAAGCTTTATTTTCCTGGGCCAATGAATAACAGAAACAATTCTCAAAATAATTAAATCTGTTAAGACCCAGTTTTGGGGTAA
GGAGCTGGGGTCTGGCATTTCCTTTTTGTTGGTTTTTCAAAAATTATTAAAACTTCAATGCTTGGCCAGGTGTGGTGGCTCATGCATACAATCCCAGCAC
TTTGAGTGGCAGGCAGATCGCTTGAGCCCGGGAGTTCAACACTAACCTGGGCAACATGGCAAAACCTCAACTGTACAAAAAATATGAGAATTAGTTGGGT
GTGGTGTGGCACTCCTGTRGTCCCAGCTACTTGAGAGGCTGAGGCGGCAGGATTACCTGAGCCCTGTAAGGGTGAGGCTGCAGTGAGCCAAGATCGCACC
AGCACTCCAGCCTGAGCTACAGAGCAAAGCCCTGTCTCAAACAAAACAAAACAAAATCTCAACGTTAAACTTTCTAGAGAATGGGTAATCACCTTTCAAG
TCATTTTTCCAAACCCATTTYTGAACCAGGACAGGCAATAACAGAGATTGGCAGGGGAAGGACTGATGTCTCCTCACAAGGGAAAAAGGACTCTGCATTG
AAAACACAGATGAGCCTTTGGATGTGGAAATTTACAAGGCTCAGAGAGCCCCGAAACATCTTCAGAAGTGGAGCCCAGCAGAATAATGGGAGGCTGTGTG
CTGGCTTGGCACTGGAGACTGTCTGGCACAAACTACACTGTAAACAACTCCTCAAACATTTTCATCTGCATACATGACACATGACATTAGATTCTCCAAA
TGTCCAATTAAACACTTGTCAATGGAAGAAATGTTTGTTTCCTCAGCTGACCTGTTGTCAGCCTTGGCCTTCCTGATGGGGAAGCAGTTTCAGCTGATAC
TGTTGTATGCTCTTCCTTTCTGGGCCTGATCTTGTCCCTGTTGAGAACTGTGGAGACTGTGCCAAGCTGTGGACCATGGGATTAGGTTAGGTAACTAAAG
AAAATATCCAGGCTGTGAGCACTTTTCAAACCTAAGAAAATCTTTAGTTTCTTTTGCACAGTTGTAAACCGTTTGTGCTTAAAAAATTATAAAAGTGATT
GCAGTTGAGATAGAGAAAAGAGCAGTGCTGATATGTGTTTATATACTTCTAAGGGCTGACTTCATTTTTTTCAACATCTTAAACTTCTATTGAACAAATA
TTGTGTGTGTAGGTGTGTGTTTGTGTGTGTGTGTGTCATCATCTCTGTTGACAGAAATGCTCAATGATAAGTCTCTGTGACTGGAAGAGCAGTGAAGGAC
TTGGACACATGCTGTAGAAACATAAAGGAAGTGAGGAAGGCAATATTGGAGAAGAATCAAAGGAGTTTAAATTATTCTTTGGAAAAGTTGGAGTTTATAA
ATTAAAAAAAAACTGTATGACCTTGAGCAAATTTCTATTTTTACTAGTGTCAGTTTCCTAATCCATAAAATAGGGAATATAATGTCAAGAACATCGAAGG
TTATTATTAAAATTAAATAAAATGATCTATGTAAAATGCAGCAACACTTGCCACATTGTAAATTCTCAAGAAATGCTAGCTAATATTGAAATATGAAATA
ATACTTCTTTGGTCCAAAGATGTTTAAGCATTCCTATTTGGTAAAGAGAAGGAGCAAAAGAMCAAGAGAAAAATTAGATAATTGGTACAGTATGAACAGA
GTATTTGGCTTTGGAAAGGAGGGTGGGCAGTTCTTTCACTGGGACAGGAGCTCAGAATGACTCTATAGGTAAAGGGATAGAAGAACTTTAAGGTGAGGAT
GAAGAAAGACAAAGCATGTCATGGTCATTCTATTGTCTCTTCAGTTACGTAGAAGAGGAGAGCTTTTTCTGAGCATGAGGGGGAATAGGAGTGAAATTTG
AGGCTTAAAGAGAATGGAAAAGTTTCATAGCAGCTGCTGTGGAGAATTTGATACGTGTCAACTGAAGATAAATATAAGGGTTGTGCAGCAATGCAGAGGA
TATGGCTGAGGTCAGACAGCCTTAGTTTATAGTGGCATGATTTTGGGAATGTAGATGATGGCATTATGTACCCTGGAGCAAACACAGAGAAAATTCAAAA
TTACCTTTGAGGAATAAGAAAGGAGGTGAGGAGTAAGGGTAAAGGCGTCCTAAGGTGCTAATGAAAATGCTGTTGAAATCATTAACCACCAAGTAAAGTT
GTGAGCCAAGATTAATCTGAAATGGTGATTTGTGTGGATAGAAGTACAAATAGACTGGAGGTGGGGAGGCCCTTCACTGGACAGGCAACATTAATCTAGC
TGCCATTGTACCRCACACATGCTGAATGATGATGATACAGGAATGAAGGAAACATAATTCACTTGGGCAGCTCAAGAGCATTTTTTTAAGCTCTTAGTAT
ATACTGGCTAGATCATCCATATGACAGCAATGCTTCCCTTGAAAAGCTTTAAGTCTAGTGATATGCTCTGGATAATTTAAACTCAGACTGTGGGGTACTT
TGAAGGAGGTAAGCAGAGGGTCCGAGGAAACAATAGAAGAGGACATTCAACATGACCTGTGAAAAGAAAGGGCAGGTCAGTAAAAGTATCCTGGAAAATA
TCTTGCTTGAGCTGAATCGATTGTAGAGAGCCAGGGTAAAGAATGGCAGAAAGGGAGAGGCAAAAGCAAGGGAGAAAAAGCAAGGAAAAAACAGAGCAAG
GGAGTGATTTGGCTAGGGCAGACAAAAGATTTCAGAGAAGGGATAATTAAGATGAGTTACATATGATACTATTACTAAGTGAGAGAAATAAGGAAGACAT
GAATGAAAGTGATAAACAATGTGTTGGTAGGAACAGAAGAAAGAATGTCAAGAGAACAGAATGATGAGATTTAATGACTGATTGAATACGTGGGGAATGA
ATGGGTGATTTTACACTCTTGATCCTGAATTATAGGGACAATTATGGTTTCCTTAACAGAAAGAGGGAAATCCCGAGTTAGGGAAGATTTAGGGGAAGGT
GATGAGTTTGGAGATGTTGAATCAGAACATATGGTTTCAAGTGAAAGTAATTCAACCAAGATGGGATTAAACCAAATGAGAGAATTTGTGATGTTCATAA
TTAGTAAGTTCATAGGTGCTTCTGGATTTAGGCATACCTGGCTCTCCAGGGTTCAAATATGATATGGGCTTATCTCTATTCCTATGATCTCTGTCTCTTA
GATTAGCTTGTCTTGCTTGTTTTCATTCCAAAGACAGGCTCTCAGTATATGGTAGGCAAATGGGTACCTCCAGGTTCACATTCCAGCGATCCCGGTGGAA
ATAACTTTTATTTGCAACATCCATATATTTTAAATGTAGGTTTTATTATTATTCAGATATGGTGAGGCCAGGAGATTAGGAGAAAATTGCCAATGGAAAA
TATAATTTGTTACTCATATCTCCTATGATATGGGGGCACACAATGACATGCAGACCACACAGGGAAGCACCAGGGTCAGTTAGGAAGCAGAAGGAGTGAG
GGAAAGAGCCTTTATTGTGGGGTTTGTGGGAAGGAATGGATGAGTCAAAGCAAGTAGGCTTAGGTTTGGCTAGTTTGAATGATTTTCGTGGGCTCTGGGT
TGTAGAGTTCTTTAGCAAGACGTCTGGTACCTAGCCCTGTGGTTATAAAGGCAGGAGAATATTGGCTAGGTGTATGAGGATTTGATAAGGGAGGTCATGC
TGGTGGGATGGGCTTTGGATTGGCTAGTTTCTGTATGAAAGGCATGCTTACAGGGGTGTTATTTGCTATCACTAGCAATTAGCTAATGCTGTGAGGGACA
GTCCCTCCTGGTCCATTGAGTCCCTGGATGCCAGAACATTAAGAATACAGAAAATAAGAGAATATAGTTAATACATTGTATACCAAYGCCAGGAAAGATT
CTGATTTGCCTTACTTGAGTCATTCCAGCTCTGTAGTTTAGGTGCAGAGTACAGGGTGAGGAATGGTATTGTGATTGACAGTCAACCTARACCAGAGTGT
AGGGATCAGGGAGGACTACCCTAAAGAAAATAAAGCCAGAACATGGGAAAGTATGCTGGTAAATCAAAAACTGTATCGACTGGTCTATCACAAGGTGGCT
AGAGCCGTCTTGGTTGAGATGACCAGGTGGCCATTCAAATATGGCTCTTGGCCTCTAGACTTCGAAGAGGCTAAGGATTTTTATTTTTGTTTTAGCAGCT
CTCGTACACCATGTATTGCTCCCGGGCTTGATGGCCCTCTTCTGTCCTGCTTTTCTAAAGCCTATATAGTTCCTGAGCTCAGTGTTAAAAACCAAACTGG
AGTTTTAGGCATCATTTAGGTTTTCTGATTCTCTTGGTGAGGTACCAGTGTTTTCCTCAATGCCTACCTCARAAACCTTAGCTTTGACTCCCTTCCTTTC
CCTTCTATCAAGTCATTTATCTTCTTCTGAAATAGCTCCCAGATTTACTTCTTCCTTACTCATATTAGCTGTTGCCTTTCTAGTCTCTCTTTTTTAATAC
GGCTTTCTGAATATTGCCAGAGTTATCTCACTGGGGAAACATCATCCCCACTTCTCCCACAAAAAAAATCTACCCCGCCATTTGGACATTACAGAGAGTA
AATGGTGTGTACATATTACATGGGTGAGTGTCTGAAGACCTAGATTCAAGTCACTTCACGTTCCTCCTCTGCATTTTATTAAAGATATTTGGTAGCTTAC
ATAAGAAAATGCATGTTTTAAAACTTTTTATAAATCATAATGTAGTTCAGATGATGGTGATTTTTTGATTTCTCTAATTTTGAAATTCTAATTTTCAGGC
TTATCTTTTTCTTTTTTTTTTTTTTTTTGAGAAAGTCTCACACTGTCACCCGGGCTGAAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCGCCTCC
CGGGTTCAAGCAATTCTGCTGCCTCAGCCTCCCATGTAGCTGGGATTACAGGTGTGTGCCACCACGCCTGGCTAATTTTTTTATATTTCTAGTAGAGACA
GGGTTTCACTATGTTGGCCAGGCTGATCTCAAACTCCTGACCTCGTGATCTGCCCGCCTCGGCTTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCGC
ACCTGGCCTTATCTCCTTTTCTAAATGAACCTCTCCGTCGCCACACTTAGGCCAAGTTTGTTTCTATCTTTATATCTTTCTATATTGTTCCCAACCCGAA
ATCCCCTTCTTTGCTCTACTGTCTGCCAACTAAATATTAGCTATCCTTCAAAGTGTGTCTGAAGTCCTGTCTCTTATATGAAGTCTTGTCTAATTATCTA
GATCACCTGTATTCTCTATTTTTCTTACACTTCAATTTCACTACTGATTATTTACCTTTAATTATTATATATCTTTTATTCTCCACAATATGTTTGATGC
TTCTGAGGGCAGGGATCCTGACTTTTACTTATTTTGTATCATGGACAGTTCTGGGCATAAATTTAAAAAAAAGTTGCTAATGATTAATTATTAATTGGGG
AAAAGTACTAATTTGCAATAATCACACTTTGGATATAGTTTGTGAGCTTCCCTTTTCCTCATGGGGAGAAATAAGTTTGGATTGATTGGACTGACAGATG
TTGAAACAATTTGGTTCAGTTAGACAAATTCTTATTGAGTTCTAGGACATATGGGTAACTGCTGAATAAATATTCATTTGTTCATTTATTCAGTCAACAA
ATATTTATTGGATATCCATTGTCTGCCCCACACTGTGCAAGTTACCATAATATATGTCTGCAATCAGACATTTAGATATTGAAAATCTAAACATGAATCT
TACATGGTTCTCATCTTCAATTTGCTTTATTACATGACCAAGGATGAGATCATTGGGTGATTATAAAGCATTGCAGAAAAGTAAATGATATGCTTGTGGA
CATTTGAAGAAGGGAGTAATTTATTCTGACTCGGGTAGCTCAGAAGAGGATTCAAAGAGACCATATTCAGGAAAAAATGAAACATGTAGAAAGGAAATAT
TAACACTCATGTTTGCTTTGTGAAAATTTTGCATTTTACACAGTGTGTTGTTAAAAATTAACGTGTTGGAGAGTTTCCATTTCCAGGAAGATGGAGTAAA
TGTAGTTTTTCCTATTTGTCTCCTAAGTGCAACTAAAAACCCTTGACATTATATATATAAAACAAATATAAGAAGACTCTGAAAGGTGGAGAGAATAAGG
CAAACCAGCTGGAGACCTCAGGACCTGAGGAATGACACATTACTGAGTTCCCTGGGTTTTTCTTTTTGCCTTGTATATCTCAGACTTAGAGCTGAACAAA
TGGGTAACTTGGAGATGCCAATGGTGCAGACAAAAAAAAAAAATCTCCAGCAAAAGCCTGTTTTCTCTAACAAAGGACCCAAAAAGGGATAATCCAGCAA
AACAAAACTTTTAAAAAGTAACCACTCTATTGCAAACAAACAGAAAAAATTGTGGCCCCACCCTTATGTATTCAGCAAAGACTGAGTGGATATCTTAGAT
GTCTACTCTAATAAGGCTGTGATGAGGTATCTGAATATCCCTGCCAGGGTAGGGTCAGAGAAGACCAAGTAGAGGTACTTTCCTTCCCATCAACCAGTAA
TGAGCCTCCTGCTGCCCCCACCACATCCCCACTTGTGATGTCAGCGGGGATCTTGGACTTGTGGCCTAATTGACAATAATGCACCTCTCCCTTGCCCTGC
TGGCATGATGTCAGAGGAGATCTAGTGGACTTTTACCGTTTCCCAGAAGTATTGAGGCCATCTTACCACAGTGTCAGTGGATACCACATGGAGGATCTAC
AACTCTCACTTTCACTCAGAATGTATGAGGAGACCCTGCCCCTCCTTGAGTGTCAATGGAACCTGGACTTGTACCTCTATCTGGCATTGATGAGGCAGTG
ACACCTCCCACTCTCCATTGCCCCTGCAGTAGTGTCAGAGAAATCCAACTAAAATGGATGTGGAGTCTCATAACATAATATAAATATCTGGGTTTCAATT
GAAAATTACTTGTCACAGAAAGACAGGAGGAAAAAAAACCTAGAGAAACAAAAAACAGAGAAGAAAAATAGAAAATAAGAAATAAAATTGTGGACAAGTT
CTAATATATCAACAATTACATTAAATGTTAATGGCGTAAATGTAACAATTTAAAACAGATTGCCAGAATGGATTGAAAAACATGATCAACTCTATGCTAT
GTACAAGAAACTTACTTCATATGTAAACATATAGGCAATTTGGAAAGGAGAGAAAAACATATGTAATTGATTCTTGTTAATCATGGTAGTTATGTTCTGT
AAAACTGCTGTGAATGCTGAATTTGTAAATACTAAACTGCTGTTCCTAGGGGAAATACAGAGCTAGATTCCTGCAAGCCTCTGGTCACATTTTTCTCAAC
TGGTCAATGAATAATTTTATTTTATGTGTTCTGTTTAAAGACRCCTTACTGAGTATATATTATCGATTCATTAACTTTGAACTCATTGCCAAGAGCTCTA
GAACTCATATCTGAACAAAGCTTATCGCACACACATGTTTTCTCTGTAAGGTACATCAGAGCTTTCATTTGCTTAGGAACAATAGGGCTTTAGTACTATG
CTTGAGGCCATTTTAAACAGTAAAATCACCAACAAAAAGTACAAACATATCAAAACCGTGGCACTAAATAAACTGTGAGAACAGTTGTTTACAGCATGAG
AGCTAAAACAAGAAGGCAAAGTATTTACTTGTTTGACCTAGGCTAGGAACATGTGTATGGAGTGACTCAATTTTTTTTWTTTWTTTWTTTTTTTTTTTGC
TGTACTGCACTTGTGCACAAATGACTGCAAAAGCAATGCAAGTATGATTTTGGGGTTACAAATAAATTTTAGTGAGTAGGCAAATTAGCAAATATGGAAT
CCACAAATAATGAGGATAGATGGTGTCATGCAAAGATCAATCAAAGGAAAGCAGATATATTAATATCAGATAAAGTAGACTTCAGATGAAAGAAAATTAA
CAGAGACAGACATTATCTAATGATAAAAGCCTTATGCTAATGTTTATAACAGCTTTATTTGTAATAGCCAAAATGGAAAGAATCCAGTTGTCCTTAAATT
GATGAATGGTTAAACAAACTGTGATATATCCATACTATGGAATACTACTCAGCAATAAAGAGGAAAAGATTATTTATATAGGCAATGACCTGGAAGAATC
TTTAGGGAATTCTGCTGAGAAAAAAATCAATCATAAAGGTTATATACACGTTTCTATTTATATAACAATCTTTAAATGACAGAATTATAGAAATGAACAA
CAAATTAGTGGTTGCCAGGATTTAAGGAGTTTGGGTGGGGGTGGGAGTAGAGGGATGCGTGGGTGTAGCTGTAAAAGAGCAACAGGACGGACGGATCCTT
GTGGTGATAGACATGCTCTATGTCTGGACTGTCTCAATGGCAGTATCCTGCTTCTGATAAAGTACTGTAGTTTTGTAGGATGCTGCACTGGGGAAACTGG
GGAAAGTTTACATAGGATCTCTCTGTATTCTTTCTTATAACTCAATGTGAATCTACAGTGATCCCAACATAAAAACKGTAATTTAAAAAACTTAGCGTAC
TTTACTGTATGTAGCTCCTTTCCTTGTACTTGATAACCTTAAGTCTTTTTGTCAACCAGTGATACACTGGTCTACAAATATTTATTTTGAATTCCTGCTT
CGTTCTCAGCATTATGGTGGCTGGAACTATTAGGAATACAATTACAGAAGCATAAGATTTAGAGTACATATAAAAAAGCGTGTGTGTGTGTAAAGCATAT
GCAAGTATGTCTGAGAGAGTAAACATAATTCTCATCTTTCAAAATTTTAGTGTTCCACTGTAAATTGTAAAAGCTATAGTGTAAAGTAGCATTTGTAATC
CTATTCAGCTCTTAACTTGCCAAGAATATCCTCTCAGGATGTGTTGCTTCACTACAGTACCAACCATTGTGTTGTCAAATCCATGTGAATTATGCAAAAC
AAAAGAAAAACAAATGGCCTACCTAAGGTTTGGCAGCTGCAACAAGGAAACTATCAATTTGAGGTTTATTGTAATACATTAAATTTGAAAGAATATTCTT
CCAAGTAATTCTAGGGCTTGGAATGAATGAAGGATCATTTGAAAAATCTGCAACTCATTTCTAAAAGATTAGGAAAAAAGAGAAAAGAACATAGTTGCCA
ACTTCTCCTTGGTTTGTATTTATGGAATATATGAAGGTTTAGCATTTTAGATTCTTTCCTAATTCTCAGTTAATTTACCTGTAGAATCTCTTTGAAGAAC
TACTTTTACATTTCTTTCATTTTGATGAGAAAATTGAAAACTTGGGGCAACTAAAAAGAAGTGTTTAGCTTGAGTGATAGTTCATTAATATGATTTTTAG
GGGCCTGGCAGAAACAAATAGATCCTAGCAGGTCTTGTGATTTAGAGGATTATTAGAGATTTGGGTGAAATAGATAAGTATTTCTCCTTTGATAGAATCA
GATAATTGTCTCTCTGTGCAATGTCCAACACCAGCTTTCTATGTAATAAAAATAAACTGAAAACAAACAGGAGGCAAAAATAAAGCTTCATGGRCTTCTT
AAACTGTTTGTGAAAGTTGTTGTTCTAGAGATCATAAGGTAGGGAGTTAATAAATACTTTGTTCCTTGACAGGGCTACCCCATTGTACCACTCCAAAACC
ATGGGAATGGTGTCCTGTGAGGTTGTATAGTACACAGTCAGCCTTGTTCTGTGCAGCATCCCTGGGACCTGCCATGTACTAGACACTGTTCTAGGTACTG
GGGATATAGCAGTGAACAAAACAGATGAGAAATATCCCTGCCTTGATGGAATTTCCATTCTAGACTGGAAATTGAGACAATGAGCCAAATGGATAAATTA
ATTTTATAGCATGCTTGGAGGTGGCATATTCTATGCCAAAAAATAAAGCAAAGGAGTTGGAAAACAATTGCTAGGATTGGGGAGTTGTTTCAGTTTTAAA
TAGGGTGGTCAGATCACTTGAGTGCAGGAGTTCGAGACCAGCCTGGCCAAGATGGCGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCTTGG
TGGTGCGTGCCTGTAATCCTAGATACTCTGGAGGCTGAGGCATGAAAATTCCTTTAACTTGGGAGGCAGAGGCTGCAGTGAGCTGAGCTTGCATCACTTT
ACTCCAGCCTGGGAGACAGAGCAAGACTCTGTCTCAATTTAAAAAAAATGGGGTGGTCAAGGAGTGCTTCTTTGAGAAGTGAATGTTGTTTCTTTAAAAT
TTTTTTTTAAAATGTTAGATTCAGGGGGTACATGTGTGGGTTTGTTACATGCATATAGTGTTTAATGGTGAGGTTTGGGCTTCAAGCATAGCCATCACCC
AAATAGCAAACATTTTCAACCAAGATGAAGGTGTACTGTTMACTCTGGGTAAGAGTGTGCCAGGCAGAAGGAACAGTTACTACCAAGGTACTGAGGTGGG
AATATTGCCCTTCAGCAAAGAGGCTAGAGTGACTGGAGCAGAGAAGGGGAATGGTAGATGTTACCAGTGGAGTCTTGACTAGGAGTCATCCAGGTTCTTG
GCAGTTTGAACAAAGAATTGGACAAAACACACACAAAGCAATGAAAGAATGCAGCAACGGAAGTACAGATTTATTGACGTGAAAGTACACTCCACAGAAT
GAGAGTGGACTTGGGCAAGCAGCTCAGGAGCAGTGGTTACAGAATTTTCTGGGGTTTAAATACCATCTAGAGGTTTCCCATTGGTTACTTGGTTACATCC
TACATAAATGAGGTAGTGGGMCATGACCAGTCTGATTAGTCGCCTTTCATGATCAGTCAGAGACTGAAGTGGTTACAAAGTTACACCCCTATGCAAATGA
AGACTAGGCCTGTGACCAGCCTGATTGGTGGTGGGAGGGGACAAATCAGAGGTACTTTCCATTTTTCATCTGATACCGGAAGGGGTGTGTTGTAAAGGGA
GTAGCCTCTGATACTTTTGTTACATGGGCTTGGAAAGTTGGGGTTTTCCTTATGATTTAGTTCTAGGAAGTCAGTGTGAATTGGCCTTAGGGTCCCTGCC
TCCTGGCGCTATTCTCCTGCCTCAGTAGAGATGAGATCTGAACATAAGATGGGACTTGTGGGACATCCATAAGACTTCAGCTTTTATTCTGAGCAAGATA
GGGTGCAATCTGAGGGCTCTAAGCTGGGAGGTGACATTAGCTGACTAGATAGCTGTGGGTAGTGTGAACACTATATTGTCTGGCTAGTTGGGAAGTGGCT
CAAATATCATATTGAATAAATCGCAATAAAATGCTAAAGTTGGAGCTGTAACTGAGGAAAATGGTGGTTAGAAAAGAGAAATGAAAAACAAATAAACCCG
TGACAAGACTTTTCTATTACTTGTAAGAAAGTGGAAGTGGAGGAGTGGGGGATACTGTCTTGTAATAAAAACTTAGTCTTATTTCTAAAAAGTAATTGTT
CAACTAGAAGCAACAAAACTAATCATAGGGAATCTGTTTTAGTAGGTAATGCAGTATGTCAACCATTTTTAGAGTATCTCAAAATTTTCAACATTGGCAA
AATACCCAAAGCTGGCATTACAGCTTGGATTCTTCCCAGTGGAAAACCAAGTTGGACACAAAGTTCTGAAGAGGAAAGGAGTCTGAGAAATAGAAAGAAC
TGAGATGCGTGTATTTCCTGAACCTTTTTTCCCCCTGTCCTTAATGATGTTGTGGTTAAAACACTTTTGTGGGTTTATTGAGACTGATAAATACGCTCAT
TTACATCTCATTAATGTCAAATTGATGTGGCTGAATAGCATAGTTTGGTAGTCTCTAATGTGTGAGACTTCATGACTTAAGTAAACTTTTCTATTACTCT
GAATTAGTGTCACCAAGGGCATAGGTTTTTTAAAGAAATGCTTGTAGAGACTTTAAAATAATGAAAAATATTCAACACACCTGGCTAAGAGTGATTGTAT
TACATTCCTGTTTCTTTAGATAAAGGTCTGTCAGCACATCCATTACAGGCACATCTTTTCAGGTTGAAACTTGGCATAGCAGTTCTAAAGAGGAAAGAGA
TTCAAACAAAATGTGAACAAAATGTTTCTTTTGCTTGAAGAAGACATTCCCTTCATACCCTGATGCAGCTACATCCCATAAAACTTTGAGAATCTTATTT
TCGTTTTGTTTTTGGTAAAATAAGAAGCGCCTTTGAAAAACAGTTTATCTTTGGACACGAAGGTAAAGAAAAACCTTTTGATGTTTGGCAACAGATTTGC
TTAAGAACAAAAATGATTTAAAGGACTTTTTGAAAAGAGTTAGTGTTGTCTATTTTTATTTTCTCAGACAGACCATAATCACAATGACTATTGAAACACC
GATACCCTTAAGGGCTAAATTTATCCCGCCTGTCCCTGGAACAAAACAAGAATATCCACAAACATGACACCCTCTTTGGCAGAATAGACACTAAGTGCAT
ATTTGTTGAGAATTGAGAAGATGCATAAGTCAGAGAAAAKAAATTATATTTAAAAAGGCTTTACAAATTTTTAGTTTTTGAGGTAATATATACAAGTGGA
ACACAACTCAAAAAGAGTATGTAGTGAAATGTAAGTTTCCTTCTTCCTCCTTGCTCTAAGCCACCACTGGGTTACCCTCCACAGAGACAAGCACTGTTAT
CAGTGTCTTATGTGTCATTTAAGAGAGCATATTCTTTTTTCTTTTTAGTTAATTGGTAGCTTTACATTTTATTCTGCACCTTGCTTTGTTCTCCTGACAT
TTCATTTTGGAGGCTGTTCAATATATGTATGTAGAGAGCTACTTCTACTGCATTCTTTTTAATTAGCTTCATGTTCTAATTGGTACGTTACATGTACCAA
TACACATAGATGTACCATGATTTACTTAGTCTATACATAAACATTTAAACTATTCCTAACTTTTCCTATTACAAACAGTGTAACACAACATCCTCGTGCA
CAGATCATTTTGTGTGAGTGTATCTGCAGGATAATTTCTAGAAGAGGAATATTTATGTTAAAAGTATATGCATGTATGTAGACTCTTCTCCATAGAAATT
GTACACGCCCAGCAGCAATATGGAAGTGTGCCTATTTCTCCATTCCCTTTCCATCACAATGTATATCAAAAACTTAGTAATGTGATGGAGGGGAACAGCA
CTCTGTTTTAGTTTGTGTTTTTATCATGAGTAATGTTGAGCATCTTTTTATAAGTTTAAGAATCATTTGTATTTTCTATGAACTGTTTATATATTTTCTT
GCTTTTAGAAAATATTATTGATCCTTTTCTTATTGATATGTGAAAACTCTTTTTTAAAATAAGTGTTTTCTCAACACACACTAGTGCATTTTTGGTGTAT
GTAAGTTCCAATTGGCTTTTTATCATACCAAAAATGTTTATTTTTTCCTATTTTTATAGATTAATAATAATTGTACATACTTATGGAGTATGTGTGATAT
TTTGATACATGCATACAATGTGTAACAATCAAATTGGGATATTTAGGATATCTATTACCTCAAACATTTATCATTTCTTTGCTTTGGGAACATTTCAATT
CTTTTAGCAATTTTGAAATAATAAATTATTATTACTATGTCACCTTACTATGCTGTCCAACACTAGGACTTATTCCTTCTACGTTTCTGTATATAACCAA
TCTCTCTTCATCCCTCCCACTGCCTCACACCCTTCCCAGTTTCTGGTAACCATCATTCTACTCTCTATCTCCATGAGATAAACTTTTTTAGCTACCACAT
GTAAGTAAGAGCGTGCAATATTTTTTCTTTATGTGAATTTATTCCTGGGTTTTCTATTCTATTCCATTGGTCTATGTGCCTGACTTATTTCACTTAACAT
AACGACCTCCATTTCCATCCATGTTGCTGCAAATGACAGTATATCATTCTTTTTTATGGCTGAGTAGTATTCCATTGTGTATATATATGCCACATTTTCT
TTATCCAGTCTTCTGTTGATAGACACTTGGGATGATTGCATATCTTGGTTATTGTGAATAGTGCTACAATAAACATGAAAATGTAGGTATCCCTTCGATA
TACTGATTTCTTTGTTTTGTATTTGCTTTTTTAAAAGTAATTTTTATTTCAATAGTTTTTGGGGTGCAGTTGGTGTTTGGCTACATGGATAGGCTGTTTA
GTGGTGATTTCTGAGATTTTGGTGTACCCATCACCCAAGTAGTGTTCACTGTACCCAATATGAAGTCTTTTATCCCTCATCCCCTTTCCAACCTTCCCTA
CTGAGTCCCCAAAGTCCAGTATATCATTCTTATGCCTTTGCATCCTCATAGCTTAGCTCCCACTTATAAATGAGGACATACAATACTGGTTTTCCATTCC
TGAGTTATTTTACTTAGAATAATGGCCTCCAGCTCCATCTAACTTGCTGCAAAGACCTGATTTTGTTCATTTTTATGGCTGAGTAGTATTCCATGGTCTG
TATCTACCACATTTTCTTTATTTACTTGTTGTTTGATGGGCACTTTGGTTGGTTCCATATCTTTGCAATTGCAAATTGTGCTGCTGTAAAAATGCATATG
CATGTGTCTTTTTCCTACGTGACTTCTTTTCCTCTTGGTAGATATTCAGTAGCGGGATTGCTGGATCAAATGGTAGTTCTACTTTTTGTTCTTTAAGGAA
TCTCCATACTGTTTTCCACAGTGGTTGTACCAGTTTACATTCCCACCAACAGTTCTAAAAATGTTCCCTTTTCACCACATACACACCAACATTTATTGTT
CTTTGAATTTTTAATTATGGTCATTCTTGCAGGAGTAAGGTGGTATCTCATTGTGGTTTTGATTTGCATTTCCCTGATCATTAGTGATGTTGAGCATCTT
TGCATGTGTTTGGTGGCTGTTTGTATGTCTTCTTTTGAAAATTGTCTATATGTCCTTTGTGCACTTTTTGATGGGATTTGGATTTTTTTTGATGGTTTGT
TTGAGTTCCTTTTAGATTCTGTATATTAGTCCTTTGTCAGATGCATAGTTTGTGAATATTTTCTCCCATTCTGTGGGTTGTCTGTTTGCTCTGCTGATTA
TTTCTTTTGCTGTGCAGAAGCTTTTTAGTTTAATTGGGTCCCATTTATTTATTTTTGTTTTTGTTACATTTGCTTTTGCAGTCTTATTCATGAATTCTTT
GCCTAAGCCAATGTCTAGAATAAGTTTTCCAATGTTATCTTCTAGAATATTTATGGTTTCAGGTCTTAGGTTTAAGTTTTTGATCCATTTGAGGTGATTT
TTATATAATGTGAGAAATGAGGATCCAGTTTCATTCTTCTACATGTGACTTGCCAGTTTTCTCAGCACCATTTGTTGAATAGGGTGCCCTTTCCTCAATT
TATGTTTTTGTATGCTTTGTTGCGGATCAGCACTTACTTAATATATTKGGCTTTCTTTCTGGGTTCTCTATTCTGTTCCGTCGGTCTACATGCCTATTTT
TATACCCCTACCCTGCTGTTTTAGTAACTATAGCCTTGTAGGATAATTTGAAGTTGGGTAATGGGATGCTTCCAGATTTGTTCTTTTTGCTTATCTTGCG
TTAGCTGTGAGGCCCCTTTTTTGGTTCCATGTGAATTTTAGGATTATTTTTTCTAATTCTGTGAAGAATGATGATGGTATTTTGATGGGAATTGCATTGA
ATCCGTATATTGCTTTGGGCAGTATGGTCGTTTTCACAATATTGGTTCCACCTATCCATGAGCATGGGATGTGTTTTTATTTGTTTGTGTCATCTATGAT
TTCTTTCATCAGTGTTTTGCAGTTTTCCTTGTAGAGATCTTTTACCTCTTTGGTTGATATACTGATTTCCTTTCCTTTGGATAAACACCCAATAGTGGGA
TTGCTGGAGTGTATAGTAGTTATATTTTTAGCTTTTTGAGAAACCTCCATGATGTGTTTCATCATGGCTGCACTAATTTAGATTCCCACCAACAGTATAT
AAGCGTTCCCTTTTCTTTGCATCCTTGCCAGCATTTGTTATTTTATGTCCTTTTGAAAATAGCCATTCCAACTAGGGTGAGCTATCTTTTATTTGCATTT
CCTTCATGATTAGTGATGCAAAGCATTTTTTCATATACATGTTTTCCACTTGTGTATCTTATTTTAAGAAATGTCTCTTCAGACCCTTTGCCCACTTTTT
AATGGGATTATTTGGGCTTTTTTTTTTTTTTTTTTTAGCTGTTGAGTTGTTTGATTTCCTGTTATGTTCTGGATATTAGTTCCTTGTTGGATAAATAGTC
CGCAAATATTTTCTCTCATACTGCAGGTTGTCTCTTCACTCTGTTGATTGTTTTCTTTGTTCTGCAGAAGATGTTTAGTTTACTGTGACCCCGTTTGTCT
ATTTTTGTTTTTGTTGCCTGTTTTTGAAGTCTTAGCCATAAAAATCTAATGTCCTGAATTGCTTCTCCTATGTATTCTTCTAGTAGTTTTATACTTTTGG
GTCTTATGTTTTAGTATTTAATCCGTTTTGAGTTTATTTTTGTATATGTAGTAGGGGTCTACTCTCATTCTTCTGCATGGATATTCAGTTTTCCCATTTG
TTGAAGAACTGAATGCTTTTTCTATGTCTACTGAGATGATTCATATGGTCTTTGTCCCTCATTCTGTTGATGTGATGTATCATATTTATTGTTGGTGTTG
AACAATCCTTGCATCCCTGGGATAAATTCCACTTGATTGTGGTGTATTGTCTTTTTAATGTGTTGTTGGATTTGGTTAGCTAGTATTTTGTTGAGAATTT
TTGCATCTGTGTTCATCAGGGATATTGGCTTTTAGTTTTCTTTTTATTTTTTAGTGTGTCCTTGTCTTGTTTTGATTTCAGGGTAATTTTGGCCTCATAG
AATGAATTAGGAATAATTCCCTCTTCTCCAATTTTTTTGAATAGTTTGAGAAGAATTTTTGTTAGTTCTTCTTCATGAGTTTAGTAGAATTCAGCAGTAA
AGCCATCTGCTCCTGGTCTTTTCTTAACTTGAGACATTTTATTAATGATTATTACTAATTTTTATTCTGCTCAGGCTTTCTGTTTCTTCCTGGCTCATTC
TTKGTAGGTTTTATGTGACCAGGAGTTATCCATTTTCTCTAAGTTTTTCCATTTGTTAAAATATAGCTGTTTATAATAGTCTCCAGTGATTCTTTGTATT
TCTGTGGTACCAGTTGCAATGTCTCCTTTTTTTTTTTGTTTCTGATTTTATTTACTTGAATCTTTTCTTTCTTTTTCTTGGTTACTATAGCTAGCAGTTT
GTCAATTTTACTTATATTTTCAAAAACCAACTTTTCATTTCATCGATCCTTTGTACTTTTTCAAGTCTTGATTTCCTTTAGTTTTGTTCTAATGTTATTA
CTTCTTTCCTTCTGTTAATATTAGGTTTGATTTGTTCTTGCTTTTCTAGTTCCCTGAAATACATCATTAAGTTGTTTATTTGAAATCTTTCTACTTTTTT
GAGGTAAGCATTTATTGCTATAAACTTCCCTCTTGGCACTGCTTTTGCTGTATCGAATAGGTTCTGGTATGTTGTATTCACATCTTCATTTGTTTCCAGA
AATATTTTAATTTCCTTCTTTATTTCCTCATTGATGCAATAGTCATTCAGGGGCATGTGGTTTAACCTTCATATATTTGTACAGTTTCCAAAGTTCCTCT
TGTTACTGATATATAGTTTTAGTTCATTGTTGAAATTCCCAACTGATATGGTTTGGCTGTGTCCCCACCCAAATCTCATCTTGAATTCACACGTGTTGTG
GGAGGGACTCAGTGGGAGGTAATTGAATCATGGGGGCTTGTCTTTCTCATGCTATTCTCATGATAGTGAATAAGTCTCATGGGATCTTATGGTTTTAAAA
ACAGGAGTTTCCCTACACAAGCTCTTTGCCTGCTGCCATCCATGTAAGACATGACTTGCTCCTCCTTCCTTTCCACCATTATTATGAGGCCTCCCAGCCC
TGTGTAACTGTAAGTCCATTAAACCTCTTTATTTTGTAAATTTTCCAGTCTTGGGTATATCCTTATCAGCAGCGTGAAAACAGACTAATTACAGTAAATT
GGTACCAGGAGTGGGGTGCTGCTGAAAAGATACCCCAAAATGTGGAAGTGGCTTTGGGACTGGGTAACATGCAGAGGTTGGAACAGTTTAGAGGGCTCAG
AAGAAGATAGGAAAGTGTGGGAAAGTGTGGAACTCCCTAGAGACTTGTTGAATAGCCTTGACCAAAATGCTGATAATGATATGGACAATGAAATCCAGAC
TGAGGTGGTCTTGGATGGAGATGAGGAACTTGTTGGGAACTGAAGCAAAGGTTATGTTTTAGAAAAGAGACTGGTGGCATTTTGCCCCTGCCCGAGAGAT
CTGTGGAACTTTGAACTTGAAAGAGATGATTTAGGGTATCTAGTAGAAGAAATTTCTAAGCAGCAAAACATTCAAGAAGTGACTTCAGTGCTGTTAAAGG
CATTCAGTTTTAAAAGGGAAACAGAGCATAAAAGTTTGGAAATTTTGCAGCCTGACAATGCAATAGAAAAGATAATCTCATTTTCTGAGGAGAAATTCAA
GCTGGCTGTAGAAATTTACATAAATAATGAGGATCCTAATGTTAATCCCCAAAACAATGGAGAAAATGACTCCAGGGCAGGTCAGAAGTCTTCATGGTAG
CCCCTCCCATCACAGGACCAGAGGCCTAGGAGGAAAAGATGTTTTTTTTGGCCAGGCCCAGGTCCCTCTGCTCTGTGCAGCCTAGGGACTTGGTACCCTG
CATTTCAGCAGCTCCAGCCATGGCTAAAAGGGGCCAAGGTACAGCTTGGGCTGTTGCTTCGCAGGGTGAAAGCCCCAAGCCTTGGCATCTTCCACATAGT
GTTGAGTCTGTAGGTACACAGAAGTCAAGAACTGAGGTTTGGGAACCTCTTCCTAGATTTCAGAGGATGTATAGAAATGCCTGGCTRCACAGGCAGAAGT
TTGCTACAGGGGTGAGGCTGTCAYAGAGAACTTCTGCCAYGGCAGTGTGGAAAAAAATGTGGGGTTGGAACCCAAYACAGAAACCCTACTTCAGCATTGT
CTAGTTTAGCTGTGAGAAGAGGACCACCATCCTCCAGACTGATAGATCCACTGATAGCTTGCACCATGCACCTGGAAAAGCTGCAGACACTCAATGCCAG
CCCATGAAAGCAGCCAGGAGGGGGGCTATACCCTGCAAAGCCACAGAGGCAGAGCTGCCCAAGGCCATGGGAGCCCACTTCTTACATCAGCATGACCTGG
ATGTGAGACATGGAGTCAAAGGGCACCATTTTGGAATGCCCTGCTGGATTTCGGACTTGCATGGGGCCTGCAGCTTCTTTGTTTTGGCCAATGTCTCCCA
TTTGGAATGACTGTATTTACCCAATGCTTGTACCCCCATTGTATCTAGGAAGTAACTAACTTGCTTTTGATTTTACAGGCTCATAGGTGAAAAGGACTTG
CCTTCACTAAGATGAAACTTTGGACTATGGAATTTTGGGTAAATGCTGAAATGAGTTAAGATTTTGGGGGACTGTTGGGAAGGCATGATTTATTTTGAAA
TATGAGGACATGAGATTTGGGAGGGGCCAGCGCAGAATGATATGGTYTGGCTGTGTTCCCCACCCAAATCTCATGTTGAATTCTCATGTGTTGTGGRGGG
GACCCAGTGGGAGGTAATTGAATCAYGAGAGTGGATTTTTCTTGTGCTATTCTTGTGATAGTAAGTCTCACTTACTCACTCGTGATAGTGAGTAAGATCT
GATGGTTTTWAAAAGAGAAGTTTCCCTATACAAGCTCTCTCTCTTGGCCTGCTGCCATCCACGTAAAACGTGACTTGCTTCTCCTTGCCTTCTGCCATGA
TGGTGAGGCCTCCCAGCCATGTGGAACTGTAAGGCCATTAAGCATCTTTCTTTTGTAAGTTGCCTAGTCTTGGGTATGTCTTTATCAGCAGCATGAAAAT
GGGCTAATACACCAACTATTGTTGTACTGGAGTCTGTCTCTCCCTTTATATCTGATAATATTTGTTTTATATATCTAGGTGCTCTGCTGTTGGGTGCWTG
TATGTTTGGAATTGTTATATTCTCTTTCTGAATTGATCCCTTCATCATTATATAATGACTTTCTTTGTCTCTTTTTACAGGTTTTAACTTAAAGTCTGTT
TTATCTGATATAACTATCACTATTCCTGCTTGCTTTTGGTTTCATTTGCATGGAATATATTTTTCCATCCCTTTACTTTCATTCTATATGTGTCCTTACA
GATGAGATGAGTTTCTTGGAGACAGCATAAAATTGGGTCATGCTTTTTATCCATTCAGCTTGATTATATCTTTTAAGTGAAGACTTTAATCTGTTTACAT
TCAAGGTTATTATTGATAAATGAGGAAATATTCCTGTCAYTTTGTAATATGATTTTTGGTTGTTTTATATATCATTTGTCTCTTTCTTCCTTTTTTATTT
TTTATCATTGTGGTTTAGTGGTTTTCTTTAGCGGTAATGTTTCACTTCTTTKTCTTTCTCATTTGTGTATCTTACTTTTATACTTTCATGTGTTTTTATK
ATGGTAGAGATTATCCATTTGCTTTCAGATGTAGGATTCCGTTAAGTATTTCCTGCAGGGCTGATCTAGTGGTGATGAATTCCCTGTTTTTGATTGTCTG
GGAAATACTTTATTTCTTTCATTTCTGAAGGACAGATTTGCTAGGTATGGTATTCTTAGATGGCAGGGTTTTTTCTTTTGGCACTTTGAATATATCATTC
CATTCTCTTCTGGACTGTAATTTTTTGCTGAGAAATTTACTGTTAGTCCTAATCAGACTTGTATATGATAATCCCCTTGTATATGACTTGGCACTTTTTC
TGTTTTTAGAATTCTCTCTTTGTCTTTGGCTTTTGGCAGTTTGCTTATAATGTAATTTAGAGAAGACCTTTTTGGATTATGTCTATTTGTGAGTTTTTGT
GCTTCTTGTACCTGGATGCCTAAATCTCTTGCAAGATTTGGGAAGTTTTTAAGTATTATTCTGTTAAACAGGTTTTCTATGTTGTTATCTATCTCTTGCC
CTTCTGGAACTGCCAGAATTAGAATTTTTTTCTTTTTATGGTGTCCCATATATTATCTAGGCTTCCTTCATTCTTTTAAATCCATTTTTTCTATTTTTTT
CTTTTCTCTTTTGTCTGACTGAGTTATTAAAAAAAAAACCTGTCTTCATGTTCAGCAGTTCTTTTCTGTGCTTGGTATACTCTATTGTAGAAGCTCTTGA
TTGTATTTTTTATTTCATTTATTGAATTCATCAGTTCCAGGCCTTTGGTTTTGTTCTCTTTGGATATCTGTCTCTGGTATTTATCATTCAGCTCATGAAT
TATTTTTGATTTCTCTGTATTATTTATCTGTGTTTTCTTGTATCTCACTGTGTTTCTGTAATATTATTCTCTGGAATTCTTTTTTAGGCATTTTATAAAT
TTCCTTTACTTTGGGATCTCTTACTGGATAATTATTGTGTTTCTTTTGAAGTGTCATGTTTCTTTGCTTTTTTGTGTTTTTTGTATCCTTACATTGATTT
CAGTGCATCTGACATAACAATTGCTTCTGATTTTATGCATTGGCTTTCATGGAGAAAGACTTTTTCCTGTAGATAATCTATAGTGTTGGTTGGGTAAAGT
GCTTTGGTTTTGATTCTGGTTGGGCACGGTAGTATAGTCTGCATGATTTCTTTGGCTGTAATTAGCATCAGTGTTTTCTCTGAGTTCCTCAGTGGCTTAG
ACTGCAGTTGTTAATGGATGTTGTGGTGAGGCTTTGCTGGAGATGGGCATGCCATGCAGGCTGGTCCTTGGGTACCAGTGGTGTTGGTGAGGCATGCCTG
TCCTCAAGTCCCTGATGGTGGATGCAGGTGTTAGCTGTGGCAGGTACGGTTAGGACTGATCCTTAGACCCCCACACAGTATGCTCGGGTGCAAGCAATCA
TGGTGGTGGGTGGGATCGGCTTGTCTTTAGGCCCCAGATGATGTACTTGGGTGCCATCAGTGGTGGCAGTGGATAGGGTAGCCCTGTCTTCAGGCCCCTG
GATGGAACATGTGGGTGCCAGTGGCAGCAAGAGGGATGGGTTGATTTCCAGGTTCTTGGATTATGTGCACAGATACCAGCAGCAGGGAAAGTGAGCCTGT
CCTCAGGCCCCCTGATAGTGTGGGGAGGTACGAGCAACAGCAGGTGGAGCAGATTGATTTAAGAGTTAGCTCAGTGTTGGCCAGACTTGGTGGCTCACGC
CTGTCTCCCAGCACTTTGGGAGGCTGAGGTGGGTGTATCACGAGGTCTGGAGTTCGAGACCAGCCTGGTCAACATGGTAAAACTCCATCTCTACTAAAAA
AAAAAATACAAAAATTAGCCAGGCATGGTGGCGCTTGCCTGTAGTCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGAGG
TTGCAGTGAGCTGAGCTCGTGCCACTGCATTCCAGCCTGGGGTGATAGAGTGAAACTCCATCTCAAAAACAAACAAACAACAAAAAAACAAAAAACAACA
AAAAAACAAAAAACAAAAAAACAGAGTTAGCTCAGTGTTTTATGATTTATAAATATTTTCTTAATTTTCTAGGCATTTGTGTTTTGATTTTTTGTTATGA
AATACTTTTTATTTCTATTTTTATTAGTCAAATTTATCAATTTTAATGGGTTCTGAGTTTTTTGACAGAATTAGAAAATCTTTATTGCTCTGAGATCTTT
TTTATAAACCATCTCATTTTTTAATGGTACTTTAAGGGTTCTTATGTTTAAATCTTTAATCTGTCTCAGATTTATTTTGGTGTAAGGTGTGTTATATATA
TCTAGCTTAATTTTTCTTCRATTAGTTATCAAKRTTTTTTTGTTTTTATATCACTTTTTGAAGTTCATTTTTTCCGATGGGATTCAAATATACTTATSAC
ATTAAAATTTTCTAACTATATTTGTGTCTATTTCTGGGTTCTCTGTTCTGTTTCATTGATCTATTTTTCTGTTTACAAACCAGCAACTCACCATTTTAAA
TAATAGCTTTACAAYAGGTTTTTATATCTTGCATTGCTAATCCCGATCATTTGTGTTCTTTTTCAGAATGTTTCTTGTTATTCTTATTTTTCCTGTGAAC
TTCAGAATCAAATCAATTTCTTTTGTTTCAAATAGTGTTAATTGTGTGTGTGTGAATATGTGTGAACATATTAAATTTATAGAATAAGTCAGGTAGAACT
GACATCTTTAACATTTAGAGTTTTCTTATCCATCAATATCCCTCACTTTTCCATTTRTTTAATTCTTGTGGGTCCATCAGTAACATTAAAAGTTTTATTC
ACATATTTCTTGTTATACATTTTTCTAGTTACTCTATAATTTTGGTTGCTACTTTTAATGCAATCTATTCTTACTTTGGATCTCCTATTTGCRTTGTTYG
TATGTATGAAAAGTAGTGGTGTCACAATATTATTTTTGTATTCATTCACTTAACTGAATTCTGTCATTATTTATAGTTTTCCAGTTGATTCTCTTGTGCT
GTCCAGGTAAATAATCATATAGTTTCCAAATAATGATATTTTAGTTTTATCTYTTAWAATTTTACCTGCATTTTACTGTCTAGTTATGTTATTCAGGACC
TCCAAAAAATTAATGGTGGTCATAGTAGACACTCTTGTCTTCAACTTATTGTTAATAAGAATACTAATAATAGAGTTTTCATTAAGCATGACATGCTGGC
TTTTGAGATGCAACAGAGATATTTTGTCATATTAAGAGAGGAAACCCTTTTTTCTTRGTATAGTACATGATAAGGRTTTTTGTCAAAAATAACGTTGAAT
TTTATCAAAAGCCTTTTCATAATTTATTGAGATGGTATTTTAGTTTTCTCTTTTTATTATTAACATGGTAAATTATATTAATAGATTTATTGTTATACAT
TATTCTTTTATTTGGTGCATAAACACCACTTAGTAATGGTATATTATACTTTAATGTGATCCTGGATTCTATTTGCAAATACTCACTTAGGGTCTTTTTT
CATGATATTCACAAGTGAGTTTAGGCTATATTTTTATTTTTTTTCTGTGCTTTTTATTGTGGATTTATATGTTATAAATATACATTTGAAGATTTTCTTT
TTTTTTCCTATGCTCTACAACACTTTGAATGGCATTAAAGTTAGGTGTTTCTTAAAAATTTGTCAGTATTCCGCTAGTGAAACCAACTATGTGTTGAACT
ATTTTGTTGGGAGTAAATTGACAATTTGTCCTCCTTTTAAAACMGATAGTGATATGTTAGATTTTCAAATTTATCTGGGATGTGATTTCTTAGAAAAGCA
TCTTAATTCTCAAATTTACTCACACTGAATTGATCAAACTGGTGTTATAGGAGTCTTTTAATTTTTTTTGTTTCTGGGATCTTCCTCATTGTTTCTTGTT
CTTTGTATTTGTATTTTCTATCCTTATAATTAAAAATGTTYTGGCGAGTTAAAGGTTTTGTTTCGTGTTATTTCTCCTCCTCCACCCATGAAACATCTGT
TGGGTTTACTTATTCTTTCACATTCCATTTTTCTTTTCTTTTCTTTTCTTTTCTTTCTCTTCTCTTCTCTTCTCTTCTTTTCTTTTTTTCTTTTTCTTTT
TCTTTTTTTGAGACAGAGTCTTGCTTTGTCACCCAGGCTGGAGTGCAATGGTGCAATCTTAGCTCATCACAACCTCCGCCTCATAGATTAAAGTGATTCT
CCTGCCTCAGTCTCCTGAGTAGCTGGGATTACAGACGCACACCACCACTCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATATTGACC
AGGCTGGTCTTGAACTTCGCCTCATGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCCACATGCCATTTTT
CTAATTCATTATTTCACTTTTTATGTTTATTAATTTCTTTTTTTCTATTTTCCTGTTTTTCATTTTATTCTAACTTCTTGARTGCTTATATTATCTCTTT
CATTCTTTCTTGKTTATTAATATTTCAGCTATATCACCTAGATAATTGTATATTGTTCTTTCTTCGATTGTTATTTCCCAGATATCCTATAATTTCAGTT
TTGATTTTATATTTGATGCAAAACTTAACAGAATTTTAAAATATCCTGATAGTAGATTATTTTCATTTTCTGGGTTTGTTATTTTTAAGTTTTATTACAT
TATGAGCACAGATGTATACATTGTTTTTCCTTTTTGAAAACTGTCAAAGTTTTTTTTTGTTTGCAAATGGGCAGTTTTGTGAATGTTCCATGGAAACTTG
GAAAGAAGGTGTAGTCTCTATTTTTAGAGTAATGTATATCACTTAATTTTATTTAGGTTTTCCATATTCTGAAAAAAATTTTTTTTTGCTTATTCTGTCA
TGTCCTGAGAGAAAAGAAAGTTTCCTATTGCTGAGATTTTATTTTCTAATTTAAGACTTCTGTTTTCTGTAGGTTTTTCTTTATTGATATTGCTTCTGTA
TTACTGGGTAATTAGATAGTCATAACATTTAATCTACATTTTGTATTGTGCCCTTTAGCATTACAAGGTGTTTATCTTTTTTCATTGAACATATACTATG
CTGCATTAAAACCCATCTGATATTAATACCATGAACGTTATTTTCTTTTTACTTGCTCTTGCCTGTTGTAATCTTTGCCTTTCCTTTTATTTTCAACCCT
TCTTGGTTACTTATTGATTTGTCGTATTCTTGTGTGCAGCAGATATTTGGATTTTGCTTTGAGGCCCACCTCATTTTTCTTTTAATGAGTATGTTTAGGC
CATGTGTAGTTGTAGAAATAAGTGTTTACTTTTAATTCTGTCATTATATCTTATCACACTTTGTTCACAGTATGGACTATTTCTGCTTTGTGGGGCGTGT
GTGTATTTTCTGATTTGGAAGATTTGTAATTTTATGCTACCAGTTACTTTATAATTATATCTTTATGTGACTCTCTATTTCCTACTATTAGCATAGATGA
ACTTGGCAATTTCCATTTTCTTCCTTCTACTCCTACTGCAAAATTGACGGTACTATATTTCTTCATGTATGCCTCTTTATATTTCAATGTACTGTAATTC
TGTTGCTTGACTTACCAGTTTTAAATGATCTCTTTTGATTGCTAGTATATCAATTAGAATATTTTCATTGATAAGTAACTGAAAAGCCATCTAGTGGTTG
CTTAATCAATTAAGACAATTGCTACCTTAATAATAATGTTAATAAGTCCAGAAGTAGGATAGTTCTAGTATCTCAACAATGTTTTTAGAATCCAGTTTTT
CCATATTTTTCTTGACCATTCTCAGCATGTAGGCTCTTAACCTCATTGTTGTTTCTTCTTGGTTACATTTATAGGCATGAATTTATCCTATAGCAGCATA
AGAGACAGAGAAAAATGCTGTTTATCTTCTCAAATTTCTTCATAAGAACTGAGAAACAAATGTCTGCTCATGACTCATTGGACAGAATTGAATCACATGT
TCATGCTAAAACCAGCCAAYGTTAAGAGAAATAGATTTCCCAAGACTAGCTTATGCTAATCACAAATCATTCTGTGGAGCTGGGGAGAACCTCCTAGTTC
TACAATACAGAAGCAGAAAAGGATAAATTTGTGTAGGTCTCCAGTGGTGTCTGCTACCTCTGTCTCTATAAAATGAAGAAATCAGCAGAAATATACTGCC
ACCAATTTTCTTGCYCCCTTGCTGTGTCAAGTTTTGTTAATTACACATTGTTACATGTCAAGGCTTCTAACCTATTCATTCTATCCTGTAACCATAATGT
ATTTGTTTTGGTCTTCGTTMTAGAGAATTCAGTACAACTATTAGTCATTTTGCCAGAGATTTATCATGCATTTCTTGATTGACTGAAGTTAATGCACTAG
CAATTTCTTCCAGAAATGGAAAAAGGGAAGAAGGGAACCAAATTCTGTGGATTATTGCATGTTAAAAAAAGTTTGTCAGCAGTCATTGTACTTCAGCAAC
AGTTCGATTGGATATAAAATTTTTTCTTATTTCCTTGAGGACTTTTCTCTAGATGGGAAAAATTATGTATTGAAACCTGTTCCTTCCATTGTTTTGATTA
CACTTTTTGGGGACACTAGTTGTACATRTGCTTGATTTCCATTTTCTCTCTCTTCCTGGCCTTTTGGCTAACATCAAGTGTAATTGATTTCCATTTTCTG
TATATATCCTTTTTTCTATAATCATTAAAAAATTTTACTTTTGCTATAATCCTTTTTAACTTGGTTATTYACATTTTATTCTGATCACTTTTTAAATTTG
TGTCCTTCATAATTCTTACTTTGTTTTCAGCAGCATTTACTCTGTTTGGATTGTCTCCAATATGACCTTCATTTCTCTGATGGTTTTATTTTTCTCTCCT
GTTTATGAGCTCTGCCAGTCCAATCATCATCTCCTTGTATTGCCTYGCCTTATTTTACTTGGGCTCTTGTATACTTAGTTTGCATTTTTAATTTATAGAG
GTATGTGCTTATTTTTTTGTTTATATCATTATATTTGGTCACAATTTTTATCTGTTCTGTGGCAATATTTTTTGGATGCCACTTTCCTCTGTTCCCTATT
TTCTCCTTTTGTGGCTCTTATGCAAGTTATTCCTTTTAAAAAATAATCATCTCTAACTGAGGCACATTTTTTCTGGATCAGCTACCTGTAAAAGGTTTGT
GTGAGAGGGGCACCCCATTGTGTTCTAGGCTAATAACAATTGTCCTTATGATTTAATGAGTATTTTTTTWAATTTAGCTTTTACTCTCTTCCCCATTGCC
TTGCCTTCAGACAGATTTCTGAAAATATAGCTTATACATGTGATTTGTTATTCAGTCTCAGTTACTTGCTTTCTTTAGTGCCAAGTTGTGTCCAGGAAAT
CTATTGCCAAGTTATGCAACTACTATCATTATTCCTAACAAGGGATTGTTAGTTTTTCTGTTAGGATGTGATGCTTACTTTGGAAGATTGTTTTCTGCTG
TAGCCATATGTAGTTTCTTTTGACATCTTCTTGCAACTCCGTTTGAGCTGTGATACAAAGTTTACATGCCCAGTGCAGGGGAAATGATGTGTGTCTGCCR
CTTTTGAGTGCTATGATTGTTCACTTCTTTAGATTCTCATAGTCTGTCCTGATAATTGCAGGAATTAGAAAAGGCTGGCCTAGAGTCCTTTCCTCACCTA
TGACTTTAGGGCCACATTATGGCTTCCTTTTCCCATTTCATGAAAATATGACTACATCTATGGTCTTTTATGAAAAACAAAGTAAAATGCCCTGCTAGCA
ACTGGCAACCCAAATCCAAGAGGTAACCAGATTTTCTTTAGGAATATAAGTTTTTCCAAGGCAATATCCATGTGTGAGACATCTTTGGAAGAATAAATGT
ACAGAARTTGGTTGTATTAGTTTCCTAGGGCTGCTTTAACAATTTACCATAAAACCAGTGGCTTAAAAGAACAGATATTTATTCTTTCACAGTTCTGAAA
AGCTGAAGTTCTAAATGAAGGTAACAGCAGGGATGCTGTTCCTTCAGAGGTTCTAGGGGAAGAATTCTTCCTTGCCTCTTCCAGGTTCTAGTGGCTCCAG
ATGTTTCTTGGCTTGTTGCTGCATAACTCTAATCTCTGCCTCAGTCTTTATATGGCTTTCTTCCTTATGTTCTGTCTTCTCTTCTGTCTCTTATAAGGAT
ACTTATCATTGAATTTAGGGCCCATCCAGGATGATCTCATCTCAAGATCTTTAACTTAATTATATCTGTAAAGTCCCTTTTTTTGAATAAGGTTATACTC
ATCAAAAGTACTAGGGGTTAGGACATGGATGTATATTTTGGGGGACCATTACTCAACCCACTCCACTAGTGTTTCTGTGTCATCTCTCTTCATACATTTA
ACAGTTATATATATAGCAATGTCTTTGTGAGTAACACTGTTCTGGGGGTTTCAGAGTATTGACTATCTTTTCCTTAAAATGTTTATAATTTACTTGAGGA
CTCAAGATCTACATTTGGACAATAATATAAGTTAAAACAAAAAATAAAGCGGAGTCATTTTGGTAACTGGTGTGAGAATTCCATTGCTGGGAAATATGTT
CTTGATATGATACTTTGATAAGCTTGGGTAGAAGTTAGCCTCCAAAGCCCAGCTAGTCCTCAGGTTTCTTTGATGCTGGTATGAGAAGTGGCTTTTCGGT
AGAGGCAAGCCTAATGGGGATTTCCATGTAAAATGCTGTTCTGTGCACTCTGACCCTTCCTTATTACTCCAAAATATGTCCAAAACCATATAAATAACAG
TGAAAATAGGTTGAGTGTATTTCTTTTGGAAATCACTGAACACCCTGGGCATTATCAAAACATACAATTACATATAATTAAATAAGACAATAATACTATT
AATAAGTCATACAGTTCTGGAAAACAGTAAGGTCTCTCTGGTTGGAGTTGTCTCTGGAAAATGAATCTTGAGTTGAATGTTAAAATTGGGTGGAATATGA
TTGAGAAAGGGTATTCTAGAAAGGAGAATGATATTGGTAAGTGCAGGAGTGTACCTAAGACAAGCTTGAGACACCAAGTGAGTGGTCTGATCCTGCTGAA
TTACAGTAGGCTTTCAGTAGAAGTGCAAGATTGTACCTTGCTTGTAGGTGTGTAATAGAACTATTGTGAATAAAGTTGTGGTTCATAATAATTATTGAAC
CCTAGGGCATTAAGCAAACATAGGCAGTGGTCAGGTAGTTACAGCAGGCCTTGGGTGAGACCCAGTGCTATGCTGGCTTCAGGTCTGACCCAGCACAGTC
CCAGTGTTGGTGACTGCAGGGTTGCTTGTGCCACCCCTCTCCCAGCTCCAGGCAGCTCAGCATAGACAGACTCTGTTTGTTTGAGAGAAAGTAAGGAAAC
AGAGCAAGAGTCTTCCTGGTAATCCAGAGAATTCTTCCGGATCTTATCCAAGACCATGAAGGCGATAACTCTACAAGTCCACAGGAGCCACAGTTTTACT
AAGCTTTAGGTGTCCCCTAATGCAGATACAGCTGCAATGACCAAAAACTTAGACCACAACACCCAAGTCCTTTCAAATATTTGAAAAGCCTTCCTAAGAA
GGACAGGTACAAATAAGTCCAGGCTGCAAAGACAACAATAAATATTCAATTCTTCAACAGCCAGAGACCAATGAACATTCACAAGGATCAAGACCGTCCA
GAAAACATAATCTCACCAAATGAACTCAATAAGGTGCCAGGGACCAATTCTGGAGATACAGAGATAGGTGACCTTTCAGAAAATTCAAAATAGCTGTGTT
GAGGAAACTCAAAGAAATTCATTGATAAGGAATTCAGAATCCTATCAGATAAACTTAACAAAGAGATTGAAATAATTAAAAAGAATCAAGCAGAAATTCT
GGAGTCCAAAAAGGCAATTGACACTCTGAAGAATGCATTAGAGTATCTTAACAGCAAGAATAGATCAAGCAGAAGAAAGAATTAGTGAGCTTGAAGACAG
GCATTTTGAAAATACGCAAAGTAGACAAAAGAAGAAAGAATAAAAAAGATTGAAGCATGCCTACAGGATCTAGAAAATGGCCTCAGAAGTGCAAATCCAA
GAGTTATTAGCCTTAGAAAGGAGGAAGGGTAGGGAGGGGGGAGAGAGGGAGAGAGAGAGAGTAGGGTAGAAAGTTCATTGAAAGAGATAATAACAGAGAA
CTTTCCAAACCTAGAGAAAGATATCAATATTCAAGTACAAGAAGGTTATAGAACACCAAGATTTAACCCAAAGAAGACTACCTCAAGGCATTTAATAGTC
AATCTCCCAAAGGTCAAGTATAAAGAAAGGATCCTAAAAGCAAGAAAAAAGAAACAAATAACATACAATGGATCTCCAATACATCTGGCAGCAGACTTCA
GTGAAAACTTTACAGGCCAGGAGAGAGTGGCATGACATATTAAAAGTGCCAAAAGAAAAAATCTTTTACCATGGAATAGTATATCCAGCAAAAATATTCT
TTGATCATGAAGGAGACATAAAGACTTTTCCAGACCAAAAAAAAGGCTGAGGGATTTCATCAACATCAGACCTGTCCTACAAGAAATGTTAAAGGGAATT
CTTCAATCAGAAAGAAAAGGATGTTAATGAGGAATAAGAAATCATCTGAAGGCAAAGGACTCAGTGGTTATAGTAAGTACACAGAAAAAAATGGAATATT
ATAACACTGTAATTGTGGTTTGTAAATTACCCATATCTTAAGTAGAAAGATGAAAACATGAGGTGATGAAAAATAATAAACTGCAACTCTTCAAGATGTA
GGCAATACAATAAGATATAAATAGAACAATAAAAAGTTAAGAAGCAGGGAGACGAAGTAAAAGTGTAGAGTTCTCTTTTTGCTTGCTTGTTAGTTTGTTA
ATGCAGTGTTAAGTCACCAGTTTAAAATAATGGGTTATAAGATGGTATTTGCAAGCCTCATGGTAACCTCAAATCAAGAAACATAAACAAATACACTAAA
ATTAAAAAGCAAAAAATTAAAACATAGCACCAGATAAAATGACCTTCACAAAAAGGAAGACAGAAAGGAAAGAAGGGAGGAAGGAAGAGAAGACCACAAA
ACAACCAGAAAACAAATAATAAAATGGCAGGCATAAGACCTTACTTATCAGTAATAACGTTTAATGTAAATGGACAGAACTCTCCAATCAAAGGACATGG
AGTAACTGAATGGTTTAAAAAAAAAAAAGACCCAATTATCTGTTACCTGCTGGAAACACAATAAAGAAATATCAGACTTAATCTGCACAGTAGATCAAAT
GGACCTAATAGAAATTTACAGAACATTTTATCCAATGGCTGGATAAGACACATTCTTCTCCTCAGCATATGGCTCATTCATAAGGATAGACTATATGTTA
GGCCACAAGACAAGTCTTAAAACCTTTGAAAGAACAGAAATTATGTCAAATATCTTCTCTGACTACAGTGGAATAAAACTAGAAGTCAATAACAAGAGGA
ACTTTGGAAACAACAAACACACAGAAGTTAAACAATGTGCTCCTGAATGACCAGTGGGTCATTGAAAAAATTAGGAAATTAAAAAAAAATTGAAGCAAAT
AATAATGGAAACACAACATACCAAAACCTATAGGATACAGTGAAAGCAGTACTAAGAGGAAATTTATGTGTATAAGCAGCTACATAAAAAAGAGGAAAAA
CTTCAAATAAACAAACTAATGGTGTATCTTAAAGAACTAGAAAAGCAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGAGGATGGCATT
GAATCTGTAAATTACTACTTTACAGTGCATATGGAACCAAAAAAGAGCCCGCATTGCCAAGTCAATCCTGAGCCAAAAGAACAAAGCTGGAGGCATCACA
CTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAACAGCATGGTACTGGTACCAAAACAGAGATATAGATCAATGGAACAGAACAGAGCCCT
CAGAAATAATGCCACATATCTACAACTATCTGATCTTTGACAAACCTGAGAAAAACAAGCAATGGGGAAAGGATTCCCTATTTAATATATGGTGCTGGGA
AAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATCAATTCAAGATGGATTAAAGACTTAAACGTTAGACCT
AAAACCATAAAAACCCTAGAAGAAAACCTAGGCATTACCATTCAGGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAA
AAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAAAATGAGAGAA
AATTTTCGCAACCTACTCTTCTGACAAAGGGCTAACATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAG
TGGGCAAAGGACATGAACAGACACTTCTCAAAGGAAGACATTTATGCAGCCAAAAAACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGC
AAATTAAAACCACAATGAGATACCATTTCACACCAGTTAGAATGGCGATCATTAAAAAGTCAGGGAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGG
AACACTTTTACACTGTTGATGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAATATCATTTGAC
CCAGCCATCCCATTACTGGGTATATACCCAAAGGACTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGTGGCATTATTCACAATAG
CAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATACATCATGGAATACTATGCAGCCATAAAAAATGA
TGAGTTTATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATTCTCAGTAAACTATCGCAAGAACAAAAAACCAAACACCGCATATTCTCACTC
ATAGGTGGGAATTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAGTGGGGAGGGATAGCATT
GGGAGATATACCTAATGGTAGATGACGAGTTAGTGGGTGCAGTGCACCAGCATGGCACATGTGTACGTATGTAACTAACCTGCACATTGTGCACATGTAC
CCTAAAACTTGAAGTATAATAATAATAAATTAAAAAAAAAGAACTAGAAAAGCAAGAGCAAACTGAACCCAAAATTAGTAGAAGAAAATAAATAATAAAG
ATCAGAGCAGAAATAAATAAAATTAAAATTAAAAAATAGTACAAAAGATCAATGAAGTGAAAAGTTGGTTTTGTGAAAAGATAAACAAAATTTACAAACT
TTAGTCAGGCTAAGAAAAAAAGAGAGACTACCCAAATAAATAAAATAAGAGATGAAAAGGAGACATTACAACCAATACCACAGAAATTCAAAGGATCATT
AGAGGCTGTGATGAGCAAATATGTGCCAATAAACTTGAAAACCTAGGAGAAATGGATCTCATTCTAGATACAAACAACCACAAGATTGAACTATGGAGGA
ATCCAAAACTTAATCAGATCAATAACAAGTAACGAGATGGAAGCCATAATGGAAAGTCTCCCAGCAAACCAAAGCCTGGGACTTGATGGTTCCATGGCTG
AATTCTAACAAATGTTTAAGGAAAAACTAATACCAGTGCTACTCAAACTAGTCCAAAAAATAGAGGAGGAAAGAATACTTCCAAACTGGCCTTCTATGAG
ACCAATATTACCCTGATACAAAAACCAAACAATGACACATTGAAAGACAAAAACAAAAAATTACAGGCCAATCTCCCTAATGAACACTGATGCCAAAATT
CTTAACAAAACATTAGCAAACTAAATTCAATGATACACTAAAAAGATTCATCATGACCAAGGGGAATTTATCCCAGGGATGCAAGTATCCTCAACATATG
CAAACCAATTCATGTGATACATCATATAAACAGATTGAAAAACAAAAAATCATATGGTTATTTCAACTGATGCTGAAAATGTATTTGATAAAATTCAGCA
TCCCTTCATGATAAAAACTCTGAAAAACTGGATATAGAATGAACATAGTTCAATGTAATAAAAGCCATATATGACAGATCTATAGCTAGTATCTTACTGA
TGAGGAAAATCTGAAAGCCTTTTCTCTAAGATCTAGAACATGACAAGGATGCCCACCTTCACTACTGTTATTCAACAGTCCTAGCAAGAGCAATTAGACA
AGAGAAAGAAATAAAGGGCATCCAGATTGGAATGGAAGAAGTCAAATTATCTTTGTTTGGAAATGATGTGATCTTATATTTGGAAAAACCTGAAGACTCC
ACCAAAAAAGTATGAGAACTGTTCAACAAATTCAGTAAGGTGGCAGGATACAAAATCAACATATAAAAATGAGTAGTATTTCTATATGCCAACAACAAAC
AATCTAAAAAGAAATTTAAAAAGTAATCCCACTTACAGTAGCTACAAATAAAATTAAATACCTAGGAATTAACCAAACAAGTGAAAGATCTCTACAATGA
AAATGATAAAATGCTGATGAAGGAAATTGAAGAGGACACAAAAAATGGAAAGATATTCCATGTCCATGGATTGGAAGAATCAATACTGTTAAAATTTCCA
TACTGTCCAAAGCAATCTGCAGAATTAATGCAATCCCTATCATGATACCAATGACTTTCTTCACAGAAATAGAAAAAACAATCCTAAAATTAATATGGAA
CCACTAAAGGCCCAGAATAGCCAAAGCTATCCTGAACAAAAGGAAAAAAATGAGGAATCACATTATCTGACTTCAAATTATACTACTGAGCCATAGTAAC
CAAAACAGTATGGCACTGGCATAAAAACAGTTAGACCAATGGAACAAAATAGAGAACCTAGAAATAAATCTATACATCTATGGTGAATTTATTTTTAGCA
GAGGAACCAAGAACATATATTGGGGAAAGAACAGTCTCTTCAATAAGTGGTGCTGGGAAAACTGGATGTCCATATGCAAAAGAATGAAACTAGACCCCCA
TCTTTCATGATATACAAAAATCAAATCAAAATGGATTAAAGACTTAAATCTAAGACCTAAAACCATGAAACTACTATAAGAAAATATTGGGTGAAACTCT
CTAGGACATTGGACTGGGCAAATATTTCTTCAGTAATACCCCACAAGCACAGGCAACCACCGCAAAAATTGACAGATGGAATCACAGTAAGTCAAAATGC
TTGTGCATAGCAAAGGATACAACAAAGTGAAGAGACAATCCACAGAATGGGAGAAAATATTTGGAAACTATCCATCTGACAAGGGATTAATAGCCATAAT
ATGTAAGCAGCTCAAACAGCTCTATAGGAAAAAATATAATAATATTATGAAAAATGGGCAAAAGATGAATAGATATTTCTCAAAAGAAGGCAAACAAGTG
TTGCAAAGGTGCTCAACATCACTGATCATCACAATATGCAAATAAAAACTACAGTGAGATATCATCTCACCCCAGTTACAATGGCTTTTATCCAAATGAC
AGGCAATAACAAATGCTGGCAAGGATGTGGAGAAAAGGGAACCCTTGTACACTATTGGTGGGAATGTAAATTAGTACAACCACTATGGACAACAGTTTGG
AGTTTTCTCAAAAACCTAAAAATAGAGCTACCATAAGATCCAGCAATCCCACTGCCAGCTATATACCCAAAAGGAAGGAACTCAGTATATTGAAGAGATA
TCTATGCTCCCATGTTTGTTGCAGCAGTTTTTCACAATAAGCAATATTTGGGAGCAAACTAAGTGTCCATCAACAGATGAATGGATAAAGAAAATGTGGT
ACATGTACACAATGGAGTACTATTCAACCACAAAAAGAATGAGATCCTCTCATTTGCAACATGGATGGAAGTGGAGGTCATTTATGTTGAGTGAAACAAG
CCAGGTACAGAAAGACAAACATCACATATTTCCACTTATTTGTGGGAGTTAAAAAGTAAGACAATTGAATTCATGGACATAGAGAGTGGGATGAAGGTTA
CCAGAGGCTGAGAAAGGTAGTAGGGGGCTGGTGGGAAGTGAGAATGGTTAATTGCTACAAAAATATGTTTAGAAAGCATGAATAAGACCTAGCATTTGAT
CGTACAACAGGGTGACTATAGTCAATAATAATTTAATTATACATTTAAAAATAACTAAAAGAGTATAATTGGATTACTTGTTACACAAAGGATAAATGCT
TGAGGTGATAGATACTCCACTTACCCTGAAGTGATTATACACATTGTATGCCTTTATCAAAATATTTTATGTAACGCATATATATATATACCTACTATGT
ACCCACAAAAATTAAAACTAAAATCCCAAAATAATATAAACCACAGTGTCATATTTGTGCTTCACTGCATTCAAACAAATTTTGAAACATATGGTACTGA
GGGCCCAAGCTGAGGACAAAGAGACATCAAGCACACCTATTCTAAAGTGAACTATAAATAACTGGGGTCAGACACCTCCCCCAGAGATCAGTGAGAGGTG
GCCAAACTGTCCTTATCACTCTAAACTGTCACCCAAGGCCTTTCCTATCATTTCCCAATTGATAAAAGAAGATGTGGGGTAGAGAGGAGAAAGAAGATGA
CATTGTTACATTTGTGAGTTTCTTGCCAAATGTTGTGTTTCCCTCCCTTTCCCGTGGGGGCTTCCTGCCTACTTCAAAGCCCTGTGAAAAGTGGACTACT
AGACAAGAGCCTGGGAGTGTCAACAGGAGACTGGCTTCTCACTCCTGGCTAGATGTTGCATGAGGTGAGGCAGCAGAGGCTTAGCTTGGTGAGGTTGTTA
GCATGAAGTGAAGTATGGTGAAGGAAGAAAAGGACCTACCATGGGTCCTTGATGTGTGGGGGCATGTATGTACTTGGAAATTGATGCCTTCTGCTTGCGT
GGCTGCACTACTCTGCCAAGGCTGATAGACAATGGACCGCAGGTAAGATGTCTAAGAAGAAGACAGAGAAAATCCCCCAGCTCACTTAGAAGGTCTGGAG
GAGGATTTTCATGGTTCCTATGGCTTGTCAGAATAAGTCTAGCAGGTAGAATGCAAGGCATGAGTTTGGGAACTGATCAAGTGGCATCTAGTTATGAGAT
ACCCCATTTGGTGAGAGGGTTGAGTGCGTGGACCAGTGACTGAGACACAAAATGGAGATGCAGTTGTCTCTTGTTTTGAGGGCATTCTCAGTCATGTATA
GTGCTGGCTTGAAGCAGAACATCTCTCCAAGTAAACTGCATGCACCTTCTGGGTAGATAGCACCACATTGGTAAAGACCACCAGCATCAGAAAGAACCAG
ACCTAGCTAGAAGGGAACTCGAAACAGCTGCCCACTTCTTCCAGACAGCCAGTCTCATATGTCAACCTCTGCCACATCTGAAATTTCTCTCCCACTGCTC
TAATGCGTGGGTGGACTTACAGCCTGRAAGCTGGAGGAGGGAGGAGGTACAGAGGACACAGAGAACATCTCTTTCCTTCCTGAAGGATGGAGGGAGAARA
ACTTTCCCCCTGTCTGCTCCAGGCCTGACCTGAAGCTTGGCTGGCCCCAGGGAGAGCAAAGAAGAGCTTTATACTAGCTATGAAACTGGAATTTAAAATA
TATTTGAGTCTTAAATACTGGAATTAGACTCTTCTAATAACTGAAAGTGATTGGAATTTTGTGGAATATTCCCAGATGTTACTAAGGGATAGTGAAATAT
GATTCAATGTAGGACAGCTGTCAGCAGGGATTGGGAAAATGAAACCATTTTAAGTTTATTTTACATCAAATACAGACTGTACAATAACCTGGTTATATAC
AATATAGTGGAAAGAAAATAGATTAAGTCAGACTGACTTGGGTTTGAATCCTTGCTCAGCAACTTACTTTCCACATGATTTTTGGCAAATTACTTTCAAT
AGTTTTCTTAACTGTGAAATGGGGATAGGCAGTAACATCATTCTTCCAAGGATTTGGGAGAAGATTAAATGAAATAAATTCTAGGAAGCGTCTAGTGTGA
TGCCTGAGACATATAGACCTCTGAAATGGGGATTGATTATTACAGCTGGAGACAAATCTGGTAAATCAAGGACTAATGGCTGATGTAGCTATCAAATGTA
ATTTGAAGTAGTTAGATGGGTGGGATCTGATGAGTATTTGATGTTTTCTAAATCCCAAACTATCTTTTTCAATGAAGTCAATGCATTTTCAAAGCATTTT
TCTGCTTAATTTGGAAKATTAAATGTATCTAACTGGAAGCGCATACTAGAAAAGCATGAGAAAGGGCTTCTTGTCCTGATCAGAAAGATGAGGAGGCTCC
GAAGAGATCTGAGGTAGGACTTCTGCCAGCCTCAAAATGTGCCACACACATTTAACTGGGAAGATGCTCTGAATAACATACTCTTGGCCAYGTGAATGCG
TTCCTTGGCAGCCCTGGCCCTGCAAAGTTTGGCAGGAGGGGATTTTCGGGTTGCCAGCTAAAGCCCTGACACTCAGAGCAGGCCTCAGTGTCTCTGTTCC
CAACCCTGTCCCCATCCCTAACTGAAGGAACTTTTGTTTGTGCAATAGCTGTTGTATCTCACTCATCCCTTCTACTAATTGGCTCTGACCCTAACTTTCC
ATATTCTCCAGCTTGGAGATGCCTGTGGGAGGTTTGCTTTGAGAAGGCCCCAGCTTTGGCATTGTCAGTTTTTCATCTGGCTCCTMATCTATTTCACTTT
GTCTCAAGCTTCCCTTCTTTGGTGACCCACTAAAAACTGAAGTTGTGCTGGCAAGATGGTGCTTTGTTGTCATGGAAAGAGGCTGTTTGCAGAACTGCGG
GGTTAACAAGAAGGCTTCTTTGGCCTGTGGACGGTTGGTTTGTCTTTGGCAGTAGCCAGTTGGAGTACAGCAGGGAGGCATGTTCATTCCAGAAGCCGTC
TAGTCTTCAGTTGAAGGAAGTGCCATCTTAATTTTGAAGTGAGAGCAACTTACATCTAGAGCAAACTCTTTGAAGGAGGGGGATCTTCCAATATCCCGTG
TGGGCCTCCCGAAGGCCCGAGGCATAGACAACAAGGAAGCAAGGAAGATGAGGAAGAAAAGGGGTGGGTAGAGAAAGGGAGAATAAGAGAGAGAAAGGTG
AACGAAAGCTACAGCTGCTGAATCCTCTTCTGTATCCATCACATGTTTTTACTGAAAGTTTAAGATAATATCCCATTGCCTTATGTTTATTTGTTTATTT
TGATAGCTAACACTTAAATAGTGCTTACTACCTACCAGGTGCTGCATTAACACTATATATATTAAGTCTTTTAAGCTTCACCACAAACTCATGAGGTAGG
CGATGGTACTATGTTTATTTCAAGATGGTAAACTGAGACATGGAGCCATTAAGTAACTTTTCTAAGATCACACAGCTAGTAAGTGGTAGAGCCAGGTTTC
AAATGCAGGATTTATATTTTCTCTTCCCTTTCCTTCCTGTCCCTCCCTCCCCTTTCTCCTTCTGTAAACAAGTGTCTTCTTTGAGGTGTATTTAGTGTCA
CATATTTTGCATTTTTGTGCTTTTTTTGGGGGGGTTGTGATTTTGCTGTTTAAAATGGCCCCCAAGTGTAGTGCTGAAGTGTTGTCTAGTGCTTCTACAT
GCAGGAAGATTGTGATGTGCCTTATAGAAAAAATGTGTGTGTTAGATAACCTTCATTCAGGCTTTAGTTGCAGTTCTGTTGGTTGTGAGTACAATGTTAA
TGAATCAATAGATAGATATTAAATATGATATTTAAAAGAAGCATACATAAAACAAGGTTATGTCTTCATAAGTTGATGAAAGTGTTATGACCAGAGGCTC
ACAAGAACCTAACTCTGTATTTCCCAAGAAGCCATGATTCAATAATCTCTAATTCAGTGTTTGTGACAACTTTATAGAACATAACTCCATGAATAATGAG
ACTTTGCCATATTTTTTTTGGCAAAGATTATAATAAATATGTCTTGCCACCTAAGTTTAGCTTGATGCACAGTCTTCTAAGCTATGTGGCCATTTGCTAA
GAAATACCACTATATATGTTTTGTTTCTTCAGTTCATAAAATCTCATGCACAATATCTTATGTGGTGCCTGAGAAATAGTCAGTGCTCCATAAATGCTTA
TTGAATGAATGATTAAATGAATGAAAAAAGTAACACTCAAAATTTACAAGATAATCTAGTCTAGTACTTTACATTTTAAGAAATACATGAATGGACCTGG
AACTAATGTGTGTGTGTKTTTTTCTTTTTAAGTAAGCCATATAACCTATGAGGCAAGCAAGTTGTTCTAATTGCCTTCTGGTTGATTACATACTATTTGT
TGAGTACTAGCTACTGGGATTTTCAAAATGGAATTTTGCATAGTTTATTTCCCTCAATCCTACCTAATAAGATTAAGGTCCATCTGTTTTGTATAAGAGT
CCACTGTTTACTTATCAAGAGTGCTTTGATAAACGAAGAGGTTATCAGCCACTTGTATGGGTATCCTATACTCTGTTTGGCTATAGTGAGGTTAAAAGGT
CAAGAATCTGTAAGGGGATTCTTATCCATGAGGATATTATGTATGCCTAGGGACCATGGAAGTGAAGTTTTGTTTCATTTATTCATCTATTCAACAAATA
TTTTGAAGACGTGCTGGTGATATAATTTGGAATACAAAAATATGATGTCCCTGAGATTGTTCTTTGGCATCTTGGAAAATAGTCCTATGTAGAAAGCAAC
ATCCTTCATACTTTCAGTTCTTAAGTATTCATCAAGCACCTATTATGTCCCAGGCACTGGGGATATAGCAGTAAGACAAAGCCCCTACCCTTTGAAACTT
ATATTCCTTCAGGAAGACCAAGCACTGAACAACCCATTTGAGGTAATACTCTCCCCTTTGGCCCGGATTCTGATTCAGCTGCTCTTTATTTATTATCTCC
ATATTATGTGAAATTATCTTGCCTTTTTGCTCATTTGCTTATTGTCTGTCTCCCCTCATGACAAATGTAGCTCTAAAAGAGCAGAAACTTCGTCTTTCCT
ATTGCTGAATGTCCATCACTGAGAATAGTGTTTGATCCAACAGTAGATGCTTAATAAATGTTCGTTCTTATTTAATTATAGTTATGGTAATGCTAGGAAG
TGTATTTCTGGAGATTTTGAATTAGTATGGACAATCAGGAATACTCCTTTAAGGAAATATGGATTGAGTTGAACTTTGAAGGAGTAAGCAGCAACTAAAT
GGAGCAAAGAGTATATATTCTAGGCAGAGGGATCAGGTCAAAGAATGGAACATTAGAATGTGTGATATAAAATTGATATATCTGGAGTTCAAGAGTAGGA
GAGTATATTAGGTGAGTCTAGAGAGGTAGGAGAGGGCAGGATAGTCAGGGATTAGGAGGCTATATAGGGATTTGGAGTTTTATCCTAAGAGCATTGGGAA
GTTATTAAAGAACTACAAACAGGAAATCAATCTGTTGTTCTGTGGATGGGAGAGAGACTACTGAGTGGATAGTGCAACCATTCATGGTCTTGAAGATTAG
GTGTTCAGTCTGGGAAATCTTTGATTCAAAGTACCTGTGAAACATCCATTTGGAGGTATTAAGTAGACAATTGGCTATACATATTTTTGGGTTCAGAGAA
GGAGGTCTGAAATGAATACACTCATTTGAGTGACAACACTGTGAATGGTGTTTGAAGTCAAGAGGACTGATGAAATTGTCTAGGGGGAGAGTGTAGAGTA
ACAAAAACAGAGGGCTTCATTCAGGCTAATCTTTGAGGAACTTCCTCTTTTAAAGATGATAAAGAAGGGTGAACAGGAAAGAATCTTAAAAGCAGAAAAG
TTTAAACTAAACTATCTATGCTTATTTATATGGCCTTTCTGAGTGGTTTTATTGTCAATTGCCCAAGCATATCTCTCTAATAAGACTCTATTTAATTTAC
CATATTTTAATCACTTATTTTCTTGTCTTTTTCTTCTATTGTCCTTGAGAGTAGAGATTTTGTTCTTTAAAATCATGCTTGAAACCCTAGTGCCTAGCAT
GCTTCCAGCTTAATAGGCATGAAATATATCTGTTATTGAGTGGGAATACAGAGCTTTCTTAGGAAAGATGAGCAAGAGCGGAAAGCAGATTTTTCCTCAC
AGCCTCTTCTATGTGGGACACCATAAACATTTTATTTTAAGCCTTTTGTCTATAACTGTGAAATGGTGATTTAGGTATCAGGAAGCAGATGGGAAACTTT
TTGAGGGGTAGAGGCATTTAAATTCTGCATCTGTGGTTTCTTTGCATGGATTTGCTCCTACCCCTAGACCTGTGGCTGCTAAAAGTTATTTCCAGAAGCT
GTTGCAGCCAAGAGTCTGGTGTCTACTTCATCACTTTGGAGGTTGGCCTGCCTAGGTCTCCCAATAGTCCCTTTCCTTCTATTCCCTCTCTCTTGACTAT
CTGTTTCCCATTTCCTCTAACTTTATCCCAATTCCTCTTTGTCCAAAGAATCCCAGGGCATGTTTCATAATTATAGGCATTATTTTACTCAGGATTTATT
AACATTTTGTACAGTTATCACCTTTCCCCATTTTTCCATTATGAAATACATTTTTTTATCTCATATAATTTTTACCTTTGATAATGAAGTGTGTATATTC
TCTTTGATAATGGATCTAATGATAATGTGACCAGTGTGTGAAGATCAGTGGGCCTTCCTCTCCTCCCAGTTACTCCACATTCTGGCTAGGTGCCTCTGCT
ACTAATAGCTTAGCCTGCTGTTCCCATGTTTGAGGATTGATTCTTTTTCCTAGGCTGAGGCAAACAGTTGTAATGTTAAAGGCTTGCTGACAGCCTGTCT
TTGTTGCCTGGACCGTGTTTTAATACGTGATCTTTGCTGCCTGAATTTTCTTTTTTCTAGACTACTTGATTTTTCTTGACCTGTGGAATTTTATGATTAC
TTGATTTGTGAATTTATCTCAAGCCCCTGGTTTTGAACCAATGACTCTATTATTTTAAGCCAGGTGTATTGTTTTTTTAGCCTGTGTCTATTATACTGTG
TGTTGCTTCTTATATTCCCTATATCTAAGTAACTTGGCTGACTGGGCATTTTGTTAACTTTGGGGAGGAAAAGCATCAACATGACCTGCATAGGGCTGGA
GAAGAGTGCAGTTAGCCCTTGAGGGTTGGGGGTGAATGTGTTAAGGGTATTAAGGGTGGGGAGATACTGCTAAGTTGGARAAAAACTTTCAGCGAATTTC
ACTGATTTCAAATCAAGCTGAATTTGAAGTTCTTGTCTACATGAGTGAACAATTTTTAAAACATTTGAAGGCATGCATTTAAAGTGACAGCTTAATGTTA
AAATGGGAAGTTATGATTCATAAGCAGTAGTAAAATTTTGAATAACATGACTTTATTCATTGACAGTAACTGCTTTACATTTTCCGGTTTCATTATATCA
GTACTGTGAATAAAATCCAGAAAAGTTATAGAGGAGGAAATGACTTTGAGTTTTTATTCAATAGTCATTACTTACGTCTTTCCACATTTTTTTGCAAATT
TTAAGTTTCAGTAATGATCTTGCTATTCAAATTTTCTATTTCTTACAACCATAATCTTCTAGAATAGCCACAAAGGTAGGAGTAAGCTGAAGTAAAAAGC
CTGTAGGTCAGTGTAAATGCCTTTCATAAAGCCCACAGCTTGATTCAGTAAAACCCAGATTGACGTCTCTTTTCTTATGATAGGCCCAGAATTTATTTGA
TTTAGTTATATCTATGACATTTTATTTATTTTCTCCTGGCAACATATAGTTTCCACTTTTGATCTAGGGGAAAAAAAGGAGGCTTATAGCTGTAAAAATA
GCCCTGTACAAAGTAATAGACCCTAAAGTATAACTGTGCAGAGACAATGAAGAAACAGATCACTGTTGCTTAGTAGGAATTTCTGCAATGACAGAAGTTT
TTCTATGCACTGCCCAATACAGTGGTCACTAGCCACAAGGAGCTGATGAGCACTGGAAATGTGGCTATTGAACCTAAGATACTGAAATTTAATTTTAATT
TCAATTTAACTAACTTAGTCACATGTGGATAGGAGCTACTACACTGGCCTAGTGCAAGTATCTACTTCAAGCTTGTCCAACCTGTGGCCCAGGACAGCTT
TGAATGCCCACACAAATTCGTTAACTTTCTTAAAACATTATGAGATTTTTTTTTTCCTAACTCATCAGCTATCCTTAGTGTTAGCATATTTTATGTGTGG
CCCAAGACAATTCTTCTTCCAGTGTGGCCCAGGGAAGCCGAAAGTTGAGGCACCCCTGATCTAGATCATTGTATTAACTTTCTACTGGTATTACAAAAAA
ATTACCATGGACTTACTGGCTTAAACAACACAATTTCATTTTAATGAATGAATGAATGAATGAATGAATGATTTTTTTTTTTGGCTTAGGACAACACAGA
TTTATTATTTTGTAGTTCTGGGAGTCAGAAGTCCAAAATGGGTTTTACTTGGCAAAAAATAAAGTGCCAGTAGAGCTGCATTCCTTCTGGAGGCTCTAGG
GGAGAATCTGTGTCCTTGCCCCTTCCAGCTTCTGAATGCTGTCTATGTTTTTGGCTTGTGGCTCTTTCCTCCATATTTAAAGGCAGCAATGACCAGTCAA
GTATTGTCATATTGTGTCACTCTKACACTCAAGTTAGAAATCTAGCACTGTTCTCACTGGGCTAAAATCAAGGTGCCCTCAGGGCTGCTTTATTTTCTGG
AGGATTTAGGAGAGAGTCCATTTTCTTTTCCTTTCTAGCATTTAATGGCTGCCCATATTCCTTAGTTCATGGCCCCCTTCCTCCATCTTCCAAGCCATCA
ATGTTGCATCTCTCTGTCCCCTTCTTCTATAGTTCCATCTTCCTTTGCCTCTCTTCTTCTGCCTCTCCCTTACACTTATAAGGATTCTTGTGATTACACT
GAGCACACCTTGATAATCCAAGATAGTCTCCTTATTTTAAAGTCAGCTGACTAGCAATCTTAAATCCCTTTTGCTATAGAACCTAATATATCCGTAGGTT
CCAAGAATTAAGACTGGATATTTTTGTGTGGGCCATTATTCTGCCTACCACAGCTTCTAAATTTGGAGCCATTTAATGAAAAGACAAGGTAAGCCATATG
TGTGTGTGTGTGTGRRTATATATATATATATATATACATTGTTTGTTGGGCCTATACCTATATTTCATCCAACACAGTATAGGGTCTCAAAATAATTTAA
GAACAATAGAAACTTAATTTTAAAAGAGGACTGATATGATATCTGCTCCAATCTTCTATCCCTTGTAGTTTTATTCTCTTCTATAATAGAATCTCTAGTT
TATTAATTTTCTGTCATTAGTTTCCTGTGAAGGATACTCCCTACTTAACAACAAAATCAGCTGCATTGTTGTATAGCTATGGTTGTTCTAGATCATCCTA
TCACCTAGCCTTTACAATCACCACAGAGTAGCACGTTGGTTTCTGACTTTTGGAACAATGTTAACCTGCTTTTTCRCAGAGTTACGTATCTCAATAAATG
GAATTACTACCTACATAGTTGTCTCGGCAAAATCTTGGGAATTCTTCTTTATCACCCACCATTCACCACTGTTGAATATTCTTAATATATAACTCCTAAA
ATATCTTTCAGATCTGTCTACTTCTTTTAAGTATTTTACTTTTCAGTTTTAGAATTTAATTTTTTTATAGTTTCAATTTATTTGCTGAGATTCTCATTTG
TTTATGAATCAAGACCATGTTTTCTTTTTCTGTCATTGTTCTTTATGTATGTTCATTTTTTAGTTTTTAAATTTATCTATATTTAACTCATTTCCATAGC
TTTTGAGGTACAAGTGGTTTTGTTTACATGAATAAATTGTACAGTAGTAAAGCCTACGATTCTAGTGTACCTGTCCCTGGACATTGTACCCAATATGTGG
TTTTTTTAATCCCTCACCCCTCTCCCACCCTCTCCGCTTCTGAGTCTCCAAAATCCATTATACCAAGCTGTATGCCTTTGCATACCTACAGCTTAGCTCC
CACTTATAAGTGAGATCATACAGTATTTGGTTTTCTATTCCTGAGTTACTTTACTTGGAATAATGGCCTCCAGCTCTGTCCATGTTGCTTCAAAGTACAT
TAGTTCATTCCTTTTTATGGCTGAGTTGTATTCCATGGTGTATAAATACCACATTTTCTTTATCCGCTTATCTGTTGATGAACACTTAGGTTGGTTTTAT
ACCTTTACAATTTTGAACCGTGCTGCGATAAACATATGCATGCAAGTGTCTTTTTGATATAATGACTTCTTTTCCTTTGGGTAGATACCTAGTAGTGGGA
TTGCTGGGTATCTACTTTACTGCATACTCATTTATTCTGAGTACACATAAATGTGGTTGTGTATTAACTTGTGAATGCAAAACCATCTCTGCATCCTTGG
GATAAAACCCACTTGATCATGGTGAATTATCTTTTTGATGTGCTGTTGGATTCGATTTGCTAGTACTTTGTTGAGGATTTTTGCATTAATGTTCATCAGG
AATATTGGTCTGTAGTTTTCTTTTTTTGTTCTGTTCTTTCCCGGTTTGGGTATCATGGTGACACTGGCTTCATAGAATGAGTTAGGGAGGATTCCTTCTT
TCTCAATCTTTTGGAATAGTTTCAGTAGAATTGGTACCAATTTTTCTTAGAATGTCTGATGGATTTCCCCTATGAATCTCTCTGGCCCTGGGCTTTTTCT
TTTGTTGTTGGCAATTTTTAAAAATTACTGATTCGATGTTACTGCTTGTTATTTGTTTATTCAGGGTTTCTATTTCTTACTTATTCAAGCTAGGAGGGTT
GTATATTTCTAAGAACTTATCCATTTCCTCTAGATTTTCTAGTTTATGTGCATAGAAGTGTTCATAGTAGTCTCGAAATTTTTTTTGTATTTCCGTGCTA
TTGGTTGTAATGTCTCCATTTTTATTTCTAATTGAGCTTATTTGAATCTTCTCTCTTCTGTTTTGTTTATATTTTTAAAGAACCAACTTTTTGGTTTATT
GGTTTTTTGGTTTCAATTTCATTTAGTTATGTTCTGATCTTTGTTATTTCTTTTCTTCTGCTAGCTTTGGGTTTGGTTTGTTCTTGTTTCTCTAGTTCCT
TCAGATGTGACATTAGGTTATTAATTTGTAATCTTTCAGGCTATTTGATGCAAGCATTTAGACCTATAATTTTCCTCTTAGCACTGCTCTTGCTGTATTC
TGAGGTTTTGAAACCTTGTGTCACTATTATTATTCATTTTGAATCATTTTTATATTTCCATTTTGATTTCATTGCTACCGCAAAAATCATTCAGGAGCTG
ATTGCTTAATTTCCATGTATTTGTGTAGTTTTGAGGGTTCCATTTGAAGTTGATTTCTAGTTTTATTCCATTGTGGTCTGAGAAGATACTTGATTTGATT
TCAGTTTTAAAAAACTTAATGAGATTTGTTTTGTGGCATGTCATATGGTCTATCTTGGAGAATGTTCCATGTGTTAATGAGAAGAATGTATATTCTGCAA
TTCTTGGGTAGAATATTCTGTAAATATTATTAGGTCAATTTTTTTTATAGTGTAGATTAAGTCCGRTGTTTCTTTGTTGACTTTCTGCCTCTATGATCTG
TCTAGTGCTGTCAGTGGAGCATTGAAGTTCCCCACTATTATTGTGTTGCTATCTATCTGTTTTCTTAGGTCTAGTGGTAACTGTTTTATGAATGTGGGAG
CKCCAGAGTTAGGTGCACATATATTTAGGATTATAATGTCTTCTTGTGACCTTTTTTGCCCCCCCTTTTTTTCTTACTATTATTGCTTTAGTCTGTTTTA
TCTGACATCAGAATAGCTACTCCTGCTTGCATTTAGCTTCCATTTGCATGGATTAACTTTTTCCACCCCTTTACCTTGAGTTTATTAGAACCCTTACATT
TAAGGTGATCTCTTGAAGACAGCAGATATTTGGCTGTGATTTTTTTAAAATCCATTCTGCCAATCTGTATCTTTTAAGTGGAGCGTTTAGACAATTTACA
TTCAATGTTAATACTGAGATGTGTGTACTGTTCAGTCATCATGTTGATGTTGCCCAGATGCTTTGCTTTCTCCACTGTGCGGTTGTTTTATAGGTCTGTA
TTAGTCTGTTCTCACACTGCTAATAAAGACATACCTGTGACTGGGTAGTTTATAAAGGAAAGAGGTTTAATTGACTCACAGTTCAGCATGGCTGGGGAGG
CCTCAGGAAGCTTACAGTCATGGGAGAAGGAAAAGAAAACATGTCCTTCCTCACATGGTGGCAACAAGGAGAAGTGCTGAGGATAATAGGGAAAAACACC
TTATAAAACCATCAGATCTGGTAAGAACTGACTCACTATCATAAGAACAGCAGCATGGGGGTAACTGCCCCCATGATTCAATTACTTCCCACTGGGTCCC
TCCCATGACACATAGGGATTATGGGAACTATAACTCGGGATTTGTGTGGAGACACAGCCAAACCATATCATTCTGCCTCTAGCCCCTCCCAAATCTCATG
TCCACATATTTCAAAACACAATCATGCCATCCTAACAGTCCCCCAAAGTCTTAACTCATTCCAACATTAACCCAAAAGTCCAAGTCCAAAGTCTCATCTG
ACAAGGCAAGTCCCTTCTGCCTATTAGCCTGTAAAATTGAAAGCAAGTTAATTACTTACTAGATACAATGGGGATACAGACATTGGGTAAATACAACTAT
TCCAGATGGGAGAAATTGACCAAAACAAAGGGGATACAACCCCTTTCAAGTCTGAAATCTAATAGGGCAGTCATTAAACCTTAAAGTTACAAAATGATCT
CCTTTGACTCCATGTCTCACATCCAGGTCATGCTGATGCAGAAGGTGGACATCCATGGTCTTGGGCATCTCCACCCCTGTGACTTTGCAGGGTACAGCCC
CTCTCCCAGCTGCTTTCACAGCTGGTGATGAGTGTCTGTGGTTTTCTAGGCGCATGGTGTAAGCTGTTGGTGAATCTAGCATTCTGGTATCTGGAGGACA
GTGGCCCTCTTCTCACAGCTCCACTAGGCAGTGCTCCAGTGGGGCCTCTGTGTGGGGGCTATGACACCACATTTCCCTTCCACATCACCCTAGCAGAGGT
TCTCCATGAGGGCTCCATTCAAGCAGCAAACGTCTGCCTGGATATCCAGGTGTTTCCATACATCCTCTGAAATCTAGGCAGAGCTTCCCAAACCCCAGTT
CTTGACTTCTGTGCACCCGCAGGCCCAACACCACATGTAAGCCACCAGGGCTTTGTGCTTGCACTCTCTGAAGCAACAGCCTGAGCTGTACTTAGCCTCC
TTTTAGCCATAGCTGGAGCTGAAGCAGCTGGGATGCAGGGCATCATGTCTTGAGGCTGCATAGAGCATGGGGGCCCTGTACATGGCCCACAGAATCATTT
TTCCCTCCTAGGCCTCTGGGCTTGTAATAGTAGGGGCTGCCATGAAGGTCTCTGACATGCCCTGGAGACATTTTTCCCGTTGTCTTGATGGTTGACATTT
GGCCCCTTGTTACTTTTGCAAGTTTCTGCAGCTGGCTTGAATTTCTCCCACAAATTTTTTTTTCTATTGCATCATTAGGCTGTAAATTTTCCAAACTTTT
ATGCTCTGCTTCCTCTTGATCGCTTTGCCCCTTAGGAGTTTTTTCTGCCAAGTACGCTAGATCATCTCTCTCAAGTTCAAAGTTACACAGATCTCTGGGG
CAGGGGCAAAATGCCACCAGTCTCTTTGTGTACCAAGAGCCACCATTACTCCAGTTCCCAACAAGTTCTTCATCTCCATSTGAGACCACCTCAGCCTGCA
CTTCATTGTTTATATCAGCATTTTGGTCAAAGCCATTCAACAAGTCCTAAAATATTCCAAACTTCTCCACATCTTCCTGTCTTCTAAGCCCTCCAAATCT
CTAGGAAGTTTTAAACTTTTCCACATTTTCCTGTCTTCTTCTGAGCTCTCAAAACTGTTCCAACCTCTGCCTGTTACCTAGTTCCAAAGTCGCTTCCACA
TTTTCAGGTATCTTTACAGCAGCGCCCCATTCCCGTTACCAATTTACTGTATTAGTCCATTCTTGTGCTGCTAATAAAGACATACCCAAGACTGGGTAAT
TTATAAAGGAAAGAGATTTAATTGAGTCACAGTTCAGTGTGGCTGGGGAGGCCTCAGGAAACTGACAGTAAGCAAACACATCCTTCTTCACATGGTGCCA
GCAAGAAGTGCAGAGTGAAGTGGGGAAAACCTCCCTAGAAAACCATCAGATCTTGTGAGAACTCACTCACTATCATGAGAATAGAAGCATGGGGGTAACT
GCCCCCATGATTCAAATACCTCCCACTGGGTTCCTTCCACAGTGCATGGGGATTATGGGAACTACAACTCAAGATGAGATTTGGATGGGGACACAGCCAA
ACCATACCAAGGTCCTTGAGTTTTATGCTTTCAAGAGGTCTATTATGGAGCATATTGACCTATTGTTTCAAGATTTAGAACTCCTTTTATCATTTGTTGT
AGGGCTGGTGTGGTAGTGACAAACTCCTTCAGAATTTGGTTGTTTGAAAAAGACTATTTCTCCTTAATTTATGAAACTTAGTTTTGCTGGATACAAAATT
CTTGGTTGATAGTTATTCTTTTTAAGAGGCTAAAGCGGACACCAACTCCTTCTGGCTTGTAAGGTTTCTGCTGAGAAGTCTCCTATTAGTCTGATAGGTT
TTCCTTTATAAGTTTTCTGATACTGTTGTCTCACTGCTCTTAGAATTCTTTCCTTCATGTCTACTTCTGAAGCCTGTTGGCCATATGCCTTGGTCATGCC
CTTTTTTCAGTGACTCTCTTAGGAGTTCTTTGAGATTCTTGTATTTGGATACCTAAATCTCTAGCAAGGCCAAGGAACTTTTCCGCAATTATTCCATCAA
ATAAGTTTTCCAAACTTTTTGCTTTCTCTTCTCCCTCAGGAACACCAGTGATTCTTAGGTTTGGCCATTTTACATAATCCCATATTTCCTAGAGACTTTG
TTCATTTCTTTTAATTCTTTTTTATTTCTATTTTTGTCTGATTGGGTTAATTCAAAAGCCTTGTCTTCAAGCTCTAAAATTCTTCTACTTGGTCTATTCT
ACTTTTTAAACTTTCCTCTGCATTTTGTAATTCCCCAAATGTGTCTTTAATTTCCAGAAGTTTTGATTGGTTTTCCTTTAAAATATCTATTTCTTTAGAG
AATTTTTCATTCACATCCTGATTTTTTAAATAAAAAAATTATGTTGGTTTTTATCTTTCTCTTATATCTCCTCAAGTAGCTTAATAATCAACCTTTTGAT
TTTTTTTATCTGGTATTTCAAAGATTACTTCTTGGTTTGGATTCATTGCTGGAGAGCTACTGTGACCTTTTGGGGGTTGTTATAKAACCCTGTTTCGTAT
TTCCAGAATCATTTTCTGGTTTCTTCTCTTTTGGATAGATAATTTTTTCTAATTATTCTTGAATKTATTTTTGATTCTACTGTGTTTTCTTTTTTTTCCC
TCTTGATGATGCGACTTTAGTATTTACAGTTTATTCTAGCCTAATGAAGCTCTTGGTGCTTTCAGGGGTGAAGACTCTGTATGAAATTCGTTGATTATAG
ATAGTCTTTGTATTATGGCTTTCTCAGATGTTGATTGTAGTAGCAATGTGTTCAGTGTGTGAGCAGGTTCATAGTCTCTTGTGGGGTTGAAATGGCAGAG
GTCTCTTGAAGCTTATCTTATTCCCCAGTGATGTGCACATTTTAATTTATTTTTTTCCCCAGTATTTTACTTACTGGGTTGAAGAATTCAGGCTTCAGGC
CAGTAGGGGAGGTGTCTGTGGGTAAAAAACCAGTGTGGCCAAAGCAGGTGGGTAAATGCAATACCCAGTGGTGGGCAGAGGTCCTAGCCTTGATAGAGGA
GGCTGGGGGAGCTCTCAGTGAAACACAGTGAGTTCTCTGCAGGGGAAATTTAGGCAGCCACATTAGCTTCCCAGCCAGGCCAGCAGGAAAGCAATCTACC
TCCCAGTCATACTCCTGACCCAGTGTTCTAGCTATTCACATCAGACAGGTGCCTCTTTCCATCTCCAAGAATGTTGATTCTCTAAGTAGATAGGGATTGT
GACTCTACTCCTTGTGCAAGCCTGAACCTGGAGGGCACTCCTCCTGTGAGGAAGGAGTTACTCTGAACCATTTCAGAAAGGCTGTCTATAGGTGTACCCA
CACGAAGCTCCCATGAAAGAATCCCCAGCTGTATCTGCAATGGTGGATGAGGGGGAGAAGAAGTCCCCTTCTCCAAGACCCTTCATGAGTACCAGGGCTG
CCCAAGTATTGGATAGAGCTGCAGACTTTCCCTGTGGAGTGCAGCACTTCACTTTTGCCTCTGCTGAAAGAAACTTCCCACAAGCAGAAAGTTCTGGGAC
TCAAGACCTGCCATCTGGATTCTTTTGTCCCATGGGGTGCTCCCTTGATGTGGTGCAGTCCCCCTTTCTGCAGGAATAGGAGTCCCTGAGGGCCAGATTA
CTGTGAATGATGCTGCTCCTCTTAGTTTAGCCACCCAGTGGGGCTGTCACACTCCAAGCTGGTGCTAGGGAATGTCTGCAAGGGTTCCAGTGATGTGAAC
TGTCCTCAAGTCTCTGAGCAGCAGGTACCAGCACTAGCTCTGATGCAGGTGGCAGGGGAGTGACATAGACTCTGTGAGATCCTTTGGGTATACATAGCCT
TAGTGTGTTGGCTTTCTCAAATGTTGGCTGTAGTAGTAATGAACTGGTCATGTGGACAGACCAGGACCTTCTCATTAGCTAGGGTGATGCAGGCAATGGT
GAAAGCTGAGGTCATGCACAAGTTTTCTCTGGCCTGGGCGCTGTGTCATTTTAACTGCAGATGGTGTAATGGACTGTGTTGGTTGGCTTCTAGTAGGTGG
TGGCACTTGCAAAAGAGTGCCAGCTGTGGTGGTAGCAGTGGATTTTTTGTTGTTGTTGTTTCCATGAGCAAATATACAGATTTATTTTTTATTTATTTTT
AAATTTTAAATTTTTATTTTAATAGATTTTAAGGGAACAGGTGGTGTTTTGTTACATGGATATGTTCTTTAGTGGTGATATCTGAGATTTTGGTGCATCC
ATCACCCAAGCAGTATACACTACTACACTGAATGTGTATTCTTATTTCTCATCCCACTTCCACCCTTTCCTTGGAGTTCCCAAAGTCCACTATATCACTC
TTAGGCCTTTGCATCCTCATAGCTTTGCTCCCACTTATGAGTGAGAACGTACGATGTTTGCTTTTTTATTCCTGAGTTACTTAACTTAGAATAATGATCT
CCAGCTAGGTGCAGTGGCTCATGCTTGTAATCCTAGCACTTTGGGAGGCTGAGATGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAAC
ATGGTGAAACCCCGTCTCTACTAAAAATACAACATTAGCTGGGTGTGTTGGCGTGGGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGGAAAAGAATTGC
TTGAACCTGGGAGGCAGAAGTTGCAGTGAGCTGAGATCACACCATTGTAGTCCAGCCTGGGCAAAAAAGAGCAAAACTCCGTCACACACACACACATACA
CACACACACACGCAAGAATAATAATCTTCAATTCCATCCATGTTGCTGTGAATGTCATTATTCCGTTCCTTTTTATGGCTGAGCAGTATTCCATGATATA
AATATATATATATATATATATATATATATATATATATATATATATATATATATACGTATATATACACACACACACACACCACATTTTCTTTATCCACTCA
TTGATTAATGGGCGTTGGGGCTGTTACATATTTTTGCAATTGTGAGTTGTGCTGCCATAAACATGTGTGTGCATGTATCTTTTTCATATAATGACTTCTT
TTTCTTTGGGTAGATAGCCAGTAATGGGATTGCTAGATCAAATGGTAGATCTACTTTTAGTTCTTTAAGGAATCTCCACACTGTTTTCCATAGTGGTTTT
ACTAGTTTACATTCCCACCAGCAGTGTAAAATTGCTCCTTTTTCACCACATCCATGCCAACATCTATTATTGGCACATAGCCACTGGTCTATGTGCCTAT
TTTTATACCAGTACCGTGCTGTTTTGGTGACTATGGCCTTATAGTATAGTCTGAAGCTGGGTAATTTGATGCCTCAAGAACAATATGATTTATTCTTTTC
GCTTAGCCTTGCTTTGGCTATGTAGGCTCTTTTTTGGTCCCATATAAATTTTAGGATTTTTTTTTCTAGTTTTGTGAAGAATGATGATAGTATTTTTCTT
TGCTTTATGTTACCCAGGGGAGGTACTCAGACAATGGATTGGGACATAGAGCTCCCCAAAAGTTCCATCATTTGTGTTAAGCTACTAGGACACATGGAGG
GGCAAAGCCAAGTCGTGGGCGCTGGGTCAGGCAAGTATGTGTTCTGGCTCTCCACGTGTGGGCACAAGCAGTGGCTCCAGAGGGGATTGTAGGGCAGTTC
TCTAGCTGCTGGGGTAATGTTCCAGGGAGGAGCACAACTGCCTCTGTTGTACAGAAGAGTCTTCATGGGGAGTGGGGAGTAGCAGGTGACAGTAAGCCCT
ACTTAGCTCCTATGCACTTGGCAAGGCTGTTTTCACACTTGCAGTGTTCCACTAGCAGCAGCTAGCTAGTTTCCAGGCAGTCTGCATCAGGACTCAAAAC
TTCCCCAGGCCATAAGCTTTCTCCATGGAGACAGAAACCACTGTGCCCAGGCCATGCCCCTCCCAGCCTGCCCTAGAAGCAGGGGCACACTGCTTCTGTG
CTTGTGGCTTCAGCCCACTTCCCACTCACCCCTCAGTTCTGGCCAAGGGAGTTCATCCGTACTTGAGATTATATTGTGAATCTTAACTGGGGGCTTCTCC
CAACCTGTTGTGTCCGGAATTGGTGGGTTCTTGGTCTCACTGACTTCAAGAATGAAGCCGCGGACCCTCRCAGTGAGTGTTACAGCTCTTAAGGTGGTGT
GTCTGGAGTTTTTTCCTTCTGATGTTCGGAGTTTCTTCCTTCTGGTGGGTTCGTGGTCTCACTGGCTCAGGAGTGAAGCTGCAGACCTTCGCGGTGAGTG
TTACAGCTCTTAAGGCAGCGCGTCTGGAGTTGTTCGTTCCCCCCAGTGGGCTTGTGGTCTCGCTGGCTTCAGGAGTGAAGCTGCAGACCTTCGTGGTGAG
TGTTACAGCTCATAAAAGCAGTGTGGACCCAAAGAGTGAGCAGTGGCAAGATTTATTGCAAAGAGCGAAAGAACAAAGCTTCCACAGCGTGGAAGGGGAC
CCAAGTGGGTTGCCACTGCTGGCTCGGGCAGCCTGCTTTTATTCTCTTATCTGGCCCCACCCACATCCTGCTGATTGGTAGAGCCGAGTGGTCTGTTTTG
ACAGGGCGCTGATTGGTGCGTTTACAATCCCTGAGCTAGACACAAAGGTTCTCCATGTCCCCACTAGATTAACTAGATACAGAGTGTCAATACAAAGGTT
CTCCAAGGCCCCACCAGAGTAGCTAGATACAGAGTGTCAATTGGTGCATTCACAAACCCTGAGCTAGACACGGGTGCTGATTGGTGTGTTTACAAACCTT
GAGCTAGATACAGAGTGCCGATTGCTGTATTTACAATCCCTGAGCTAGACATAAAGGTTCTCCATGTCCCCACCAGACTCAGAAGCCCAGCTGGCTTCAC
CCAGTAGATCCCGCACCGGGGCTGCAGGTGGAGCTGCCTGCCAGTCCTGTGCTGTGCGCTCGCACTCCTCAGCCCTTGGGTGGTCGATAGGACTGGGTGC
CGTGGAGCAAGGGGTGGCACTCATTGGGGAGGCTCAGGCCACACAGGAGCCCATGGAGGGGGTGGGAGGCTCAGGCATGGCRGGCTGCAGGTCCCGAGCC
CTGCCCCGCAGGAAGGCAGCTAAGGCTTGGTGAGAAATCGAGCGCAGCGCTGGTGGGCTGGCACTTTTGGGGGACCAAGTACACCCTCCGCAGCCACTGG
CCTGGGTGCTAAGTTCCTCATTGCCCAGGGCTGGCAGGRCTGGCCGGCTGCTCCAAGTGCGGGCCCGCCAAGCCCACGCCCACCCGGAACTCCAGCTGTT
CCGCAAGCACCGCACGCAGTCCCGGTTGCCACTCGCGCCTCTCCCTCCACACCTCCCTGCAAGCTGAGGGAGTGGGCTCTGGCCTTGGCCAGCCCAGAAA
GGGGCTCCCACAGTGCAGCGGTGGGCTGAAGGGCTCCTCAAGTGCCGCCAAAGTGGGAGCCCAGGCAGAGGAGGCACTGAGAGCGAGTGAGGGCTGTGAA
GACTGCCAACATGCTGTCACCTCTCACTGTGACCACTGCCTGTGTCAGCTGGCAGACTTCTGTGAGGTCCCTCCCCTGTGAGGTAGGATCAGGAATGGCT
TCCCTCTATCTCTCCTGGAGACTGGGAATGCACACAAAGCATGTCTCAATGTTACTCTTTCTCATATACTCCCTACTGCTCCCTATAACAGCTCCAGTGC
TGTATAGGGTTAAGGCCTTCCCCTGTGCTTGGGTTGCCAGGTTCCCCAGTAGGAGTGTATATCCTGGAGGTAGTTTATCCCTCTCTCACATTCAGGGGAC
TTACGGTTTTCTGCCTGGCTCATGGTGTAGGCTGAAGCCTGCCACTTCATTCAAAGGGTCTGTGGTTTCTTTTAGTTTTCCTGTTAAGTTCCTGTATTGC
TTCTTGGAGAAAAGTTCACAGTGTGAATCTCTGTGCACTATTTTGTCTTTCCAAATGGAAGAAGCATGCCACCAATAACTCCAATCTGCCATCTTGGAAA
AAAATGTACATATATCAAGACGATATTTTCATTTCATTCTTTGAACATATTTTCTCTTAATTCCTTGAACATATTTAAAATAGCTGTCTGAAAGTCTTCT
GTAAATCCAACACTTGCGGCATCTTGGGATTGGTTTCTATTGATTACTTTTTTAAAAAAAACTGTGGATCACGTGTTCCTTTTTTCTTTGTGGATCTAGT
CATTTTTTTATTGTATGAGGGACATTGTAGACAATATATTGCAGACACTCAAATCTGTTATTTTTCTCTGAAGAGTTTCATGTGTGTGTGTTTTGTTTGT
TTAGAAGGCAGTAGAATTATTGGCTGATCACATTGAACTTAGATAGGCATGGTTTTATGCTTTGCTGGAATGGTTCTGTGGAAAGCTCTAGGTGCTGCCT
AAGCCCCTATAAATTACTAGGACTTAACTTACAAATTACTTCCTCTGAAGATCTTGTCAAGACTTAGTTYTAGGCTTTTCTTGGACTAGTTTAGTCTGTA
TTCATAGGGCAGTGTTTCTCTATCTTTTTTTTCATTACTATAAAAGAGATTTTTAAGACATTTTTTTCCCAGTTTTGCTCCCCCCTCCTCCATGAAGTTT
TAATACCACAGATATAACTCTATATCTGTTTATGTACTGTGGTTCTTTGAAGAGGTACAAAGCATTGTAATATCTAAGATTCTTTTTGCTCCCCGCCTCC
CTGCCAAGAACTAATTTTCATCCGTTGGGGATGATATTCCCCTTGTTGCGAATGCATTTTCTATGGTGTGGTCCTAAGGTAAAGCCTTTCTGATATCTCT
GCTGGATGCTCCAAAGATTAATAAGGTGTTCATGGGTTTTTTTTTTTTCTTCCCTGGCTGTGCCAGAATGCCAGTATCTTCCAACAATGCTCAAAATCTC
ATACATCTTTTATGTTTTTAATCCTATAGCAGCCACTCTATAAGCTTTGGGTAGTGCTGTCCTGCCCACGTACAGCCCATCTCTCAGCAATGTACTTGCA
GGGGGCTCCTACACGGACTTTGAGGACCCCATGTTGCATGGTTTCTTCCTCTCTGGTGCCCTGCCCTGCATGTTTTAACTTTTAGCACTTTGAATTCTGC
CTTCTTATCTCAGTAAGACTGCTGTCCTCTGCTTGGACTCTAGCTCACTTTACTGTGGTTGGGAGTTGTCCTGGCACAAAGAGATGGGAAATTGGGATTA
CTTTGTGAGTTTTTATTCTCTCAGAGATTGCAGTCTTACACTGCCCCCTTCCCAATGCCTGAAAATAGTTGCCTGTTTTGCCCAGTTTTATGGTTCTGTG
GTCATTTATGGAGGGACAGTACACCTATACCAATAACTACAGTTTCTCTGACTTCTTTTGGAAGCAGAAGTCCTCCTTCTACTACTTTCAATTCTCATCT
GCACCTAGTACAGGTGATAAGCATTCTATCAGAATTAGGACAATAATYTTCTAACAGGTCTTCTGATCTCCTTACTTTCAGCCTCCATACTACCTCCAGA
GTGAACTTTTTGAAACACAAAAACACAAATCTCCTGTCATTCTCCTGTTTGGAACCCTTATTAGGCACTCCTTTATCCTTAGGATAAAGTTCAGTCCTTT
AAAGTAGCTCACAGGTCCCCCTCTATGATCTTTCTTCCAGCTCTCTCTCCAGCCTTGGCTTTCACTCTCGACCTTGAACCTTTGTGCATGTCATACTACT
TTTTTCAGTTTGTCATATGTGCAGTGGTTTTACTTGCCTCCTTGCCTTTGCACATTTATTTTTCTTTTTCCGGAATTCCTACTCTGTCTCCCCACTTTAC
TTGGCTAACTCTTGCTAATCCTTTAGGTTGCAGCACAGATTTAACTTCTTCTGGTAGTCCTATACCAGGATAGAGGCCCTGTTTTATGTTTCATACACTA
CCCTGGTGTCATTATTAACAGTTCTTTTTTTCTTTTCCTTACTTCCACAAGAAATAAGCTCTATAAAGGCAGGGATTTTATTTGTCTTGTCCAGTGCTAT
ATCCATAGTGCTTAGTACAATGCATGGTTCACAAGTAGGTATTCCATTAATATTTATTTATTGAATGAATAAATAGAGATAGTGTTTATTCCCTTTTTCA
TATGATTGCTCTTTAAATATATAGGATAACTCTTGTGGGTTCCTTATGTCTTTACTTTTTGAGGCTACATATTCAGAGATCATAAAGGAAAGGTTTAAAT
ATCTATAGCAGGAGTTGGCAAACTATGGCCCTGGGACCAGATCTGGCCTGCTCTCTGCTTTTGTAAATAAGGTTTTATTGAAATATAACCATACCAGTTT
TTTTTTTCACATATTATCTATCTATGGCTGCTTTTGAACTACCATGGCAGAATTGCGTAGTTAGGATAGAGACATATGACCTAAAATATTTACTTTCTAG
TCCTTTACAGAGAAAGTTTGCTGACCACTGGTCTACATGAAGTTTCCTATGCATCCTCAATTTATTTAAATGAAGAAGCATAGGAAAGTATGCTAGAGTA
TATGTTGTAAGTGATATACTAGGCTAGTCTGAGGTCAGCAACTAACCTTAAAATCTTAGTGGCTTAACACAACACAGATTTATTTCTCTCTCATGCAAAT
TTCTTTGATGCTTGGACAATTTTCCAGTGTACTCCTCTCYGTATAGTGACTTAGAGATCCAGGCAGCTTCCATTTTGTGTTCCATCAAATCATCTATTTT
CTTGATTTCCCTGGCGCAGGAAGAGGAAGCTAGAGGGCCTGCAATTCTTGGGACTGAAAGTGACACATAGAGCTTCTTCTCATAGCTCATTGGCCAGAAG
TAGTCATATGGCCCTGCTTAGTGAAAGTTGGTTGGAAAGTAAGGAAAGACATATAAATATTTAATGAGCGATGAGCATCTCTGCCATAGAAAGATTGCCT
TAAAATGATTAAATGCTTGTTTTTTGGGGAAAGTTTTCAACTTAACATTTTCAGCTTCAGTTATCTTGAACATGCAATCCTTCCAAGTAACACATTATAA
TTATGTTTTTATTTTACAGATACCATACCCCGAATAGTAAAATATTATCAAAAGTAAATAGGACAAGGATTTTTTTCTTAAAAAATTGGGTCTACTGGTT
TTTAAAAATTGGATTTTATTTAAAAAAATTCACTGACAYAATTTTCTAAGAATATATCAATTAAGCAAATTAAATAAAATACAGTAATGGTTGAAATGGC
CTGAAGGATCTCCCTGACACAAGGGGATCCTTTTATAAACACTTACATGGAGACTGAAAATTTATCCTGCTAATGGAGTATTGTTATTTAGAGTGGTGGT
TTTTCACTACTCCCTCCACCCCTTTGGTTTGTTTTATGTGATAGAACCCTCTTAGGAGAGAGCCCAATTTATAAAACATACAAAAAGGAGCTATTGTGTC
TGAAGAAGGCTTGCGTTGGATTCTGTCTACTCAATCTCTCTTTTATTACCCCCATCTCTCCCTCCCTAAATGAGTACCTTTTTAGTATCCTTGAGGACTG
AAAAACACTGCTTTAAGCATCTATAGGACATAATTTCGAGCTGTAGAACCACAGATTTTAGAACTCAAAGGGAATTTAGAGACCATGTACTCTAATTTWA
CTATGATTTAGTAGATGTTGGTTAGCAACTGTGGAGCTGCAGGACAACAACCAACTTGTGTGCCTGATTTTCTAAAAAACTAGGGGCATCTCAAACAAAA
CTAACTCTAAAGTGATTATTTATTCCCAAGAGACCTCTTATATTAGGGGAAGACTACCAATTTACATCAAACTAGATTCCGAAGGGCATTTTCAGGATCT
GTACTTTTCATTTTAATATAATATAATTTTTAATATATAAGTACCCAAGAACCTACCCTAAACAAAATCTGGGATCTTGACAGTAATCTGTCTTTATACC
TCACCAACCTATCTCTCTGCCTACCCCTATTTGAACTAATCATCATTCTGGACCCTATGTTTCTATTTGCTTGCTTTTCTTTTTATATAGTTTTATTGCA
TCTGTATGCATTCTCTCTCTCTCTCTCCCTGCCCCCTTGCTGTTTTTAACTAAAAAATAGGGGATTGTGTTGTTTATAATCTTTTGAAGTACATTTTTAA
AATTCAGTATTATACTGCTCAGAATCATCCATATTGTTGCATATTATAGTCATTCATACCTTYTGACTGCTCTGTAATATTCAATGTGTGAATATAACAG
CTTGCTATGGCTTGAATATTTGTTCTTTCCAAAACTCATATTGAAATTTAATCCCCAATGTGGTGGTATTTAGAGGTGGGGCCTTTAGGAGGTGATTTGC
AGTAGTATTTCTGTGCATAACATTCAAGCTGAGAGCCAAGTCAAGAATGCAGTCCCATTTAGAGTAGACACACACACACACACACACACACACACACACC
CCTAGGAATACATCTAACAAAGGAGGTGAAAGATCTCTATAAGGAGAACCACAAAACACTGCTGAAAGAAATCATAGATAACATAAGCATATGAAAAAGC
ATTCCATGCTCATGAATTGGAAGAATCAATATCTTTAAAATGTCCACACTGGCCCCAAGAAACTTATGGATTCAACATTATTCCTATCAAACTACCAGTG
TCATTTCTCACAGAATTAGATAAAAACAATTCTAAAATTCATATGGAACCAGAAAGGAGCCTGAATAAACAAAGCAATCTTAAGTAAAAAGAATGAAGCT
AGARGCATCACATTATCCAACTTGTTTATACTATAARGTAGTGGTACAAAAACAGACACATACACCAATGAAACAGAATAGAGATCCCAGAAATAAAGCT
GCACAACTACAACCATCTGATCTTTGAGAAAGTCAACAGAAATAAACAACGGGGAAAGAACTTCCTATTCGATAAGTGGTGCTGAGATAACTGGTTAGCC
ATATGCAGAGAATGAAACTGGATCCCTGCCTTTCACCACATACAAAAATTAACCAAAAATGGATTAAAGACTTAAATATAAGGCCTCAAACTGTAAAAGT
CTTAGAAGAAAACCTAGGATGTACCATTCTGGACATTGGCTTTGGCAAATAATTTTTGGCTAAGTCCTCAAAAACAATTGCAACAAAAACAAAAATTGAC
AAGTGGTACCTAGTTAAACTAAAGAGCTTCTGCATAGCCAAAGAAACTATCAACAGATTAAATAGACAACCTACAGAAAGGGAGAAAGTATTCATAAACT
ATGTATCCAACAAAAGTCTAATATCCAGACTCTATAAGGAACTTAAGCAATTCAACAAACCAAAAACTAATAACCTCATTAAAACGTGGGCAAAGGACRT
GAACAGACACTTATCAAAAGAAGACAGACAAGTAGCCAATAAACATATGAAAGAAATGCTCAACATCATTAATCATCAGAGAAATGCAAATCAAAAGCAC
GATGAAATACCATCTCACACTAGTCAGAATTGCCATTATTAAAAGACAAAAAATAACAGATGCTGGTGAGGCTGAGGAGAAAAGGGAATGCTTATATGCT
GGTGGTGGAAATGTAAATTGGTTCAGCCACTGTGGAAAGCAGTTTGGAAATTTCCCAAGAAACTTAAAACAGAACTGCCATTCAACCCARCAATCCCATT
ATTTGGTATATACCCAAAAGAAAATAAATCATTTTACCAAAAAAGACACATGCACTCATATGTTTACCATAGCACTATTCACAATAGCAAAGACATGGAA
TCAACCTAGGTGCCCATCATTGGTGGATTGTATAAAGAAAATGTGGTACATAAACATCATGGAATACTACACAGCCATAAAAAATAAATAATGAAATTGT
GTTATTTGGAGCAACATGGATGCAGCTGGAGGCCATTATCCTAAGTGAATTGACACAGGAACAGAAAACCAAATACCACATGTTCTCACTTATAAGTAGG
AACTAACCATTTGGTACACATGGACATAAAGATGGGAAAAATAGACACTGGGGACTAGTAAAGTGGGTAGAGAGGCAGGGGGTCAAGGGGTGAAAAATTA
CCTGTTGGGTACTCTGCTCACTACCTGGATAATGGGATCATTCGTACCCCAAACCCATGTAACAAACCCACACATATGCCCTCTGAATCTAAAATAAAAG
AAGAAATTATAGAAAAAGAAGTGATTGGGTCATGAGGGTTCTGTGCTCATTATGGATTAATTCATTCATGAATTAATGGATTAATGGTATAACAGATTGA
TTGCTTATCATGCATATTAGTCTATTCTTGCATTGCTATAAAGAAATAACTGAAACTGGGTAATTTATAAAGAAAAGAGGTTTAATTTGCTCATGGTTCT
GAAGGCTCTACAGGAGGCATGATGCTAATATCTGCTTGGCTTCTGAGGAGGCCTCAGGAAACATACAATCATAGTGGAAGGCAAACAGCGAGCAGGCATC
TTACATGGCAGGAACAGGAGCAAGAGGGCGAGGGGTAGGTGCTACACACTCTTAAATGACCCRTGAGAACTCACTCACTATCTTAAGGACAGTGCCAAGA
GGGATAGTGCTAAACCATTCACGAGAAATCCACCTCCATAATCCAATCACCTCCCACCAGGCCCCACCTCCAACAATAGCGATTACAACTGAACATGAGA
TTGGGTGTGGACATAGATCCAAACCACATCATCATGGGAGTGGGACTGGTGGCTTTTTGAGAAGAGAAAGGGAGACCTGAGCAAACACTTTTGACCTCCT
TACCAAGTGATGCCCTTTGCTGCCTTGGGACTATGCAGAGAGTCCACACCAGATGTGACCTCTTGACTTTGGACTTCTCAGCCTCCAGAACTATAAGAAA
TACATTTATTTTCTTTATAAATTACCCAGTTTCAGGTTTTCTGTTATAAGCATCAGCAAATGGACTAGTACATAGTTTATTCATCCTCTTTTCTGTTGAT
GGGAAATTGGGTTATTTCTAGGTTATTGCTGTTGAGTACAGTGATGGCTATGAACATTCTTGTGCATATCTCTTTTTGTACATGTGCAAGAGGTTCTTTT
GGGTATACACTTAGTGACTAAATTACTGGGTCATAGAGTATGTGAGTTTTCCACTTTAGGGAGTAATACCAAATCATTTTCTAGCCCTTTAGCCAATATA
TAATGGAAGCAACAGCATTTTTTTTCTTTTCTTATGAAAGAGCAAGCAGCTATTTAGTCCTGTCCCTACAGTTCCCATTTCGTTTTCACTGGGACCTGCA
TTAAAACACATCTGAGGGTGTCTCACTTTGAAAACAGGTGTGTTCAATCATCTACTTTCACCTTAGGTCATCCTCAGTCTAGTTAGCAGTCCTTGCTCCT
GACATAAGGTATAAAAACACTCTCAGGACCACTTCAGGTTTTATCTCATCTCACTGCTATGTTCTGTGGCAGTACCACCTTGATTTTCCTAGCTGCTTTA
GTCCTTATGGTTCTTTTACATCTCACCTAGCTTTCTGGCTTTAAAATCCCTAGCTTGCACCTACATGTTGAGGAAAGATAACTCTTAGGCCTCCCTGACT
TCCAGATTCCGGATTTTTTTTCTCACCTTTGACAGCTGAGAGCTCCTTAAACGATGGGTGACACATTCAAATGCTTATATAGGCCAGGGTGGGAGCACTA
ATGAGTGACTCAGGATTCCAGGATTAATATAACACTATCAGGAGCAGTGGGACTGTGGTGGCCTGATGATGGGGGTAGCTTCTCCTTATGGGGTTGCTCC
CAGGACTTCTGATTTTTCCAGAGAAAAATAGTTATCTAGATTTTTAACTGAAATCTCTTGACCTTTGAGTGTCAACAATAGATTTAATATTTAGAAACAC
TATGCAGGCCAAATGAAATATTTCTGACCTGGATTCAACCCATAGGTCGCCCGTTGGTGAACTTTGCCTCAAACTTTGGCTTATCTGCCTTTTGCTTTGG
CCATTGCCTCACCTGCCTGTTCCTGCCAAGGTGTGCCCCTCTCTCTGGAGGAGACCTCATTGTGACATCTCTCAGGTTTACCTTGACTTCCAAGTGACCT
GATACTGACAGCAGGCAGGGCAATGTCTGATTACTTACCCTTTCCTTTCTCTCACTGCTTGCCTTAAATGCTTCTATCAAATTCTGGTTCTTGGAGGCCT
GACTTGTTTTGATAATTTTTAGAAGAGAAATGTTATATGGAATGATATTTTTTTAACTTGAAAAAAGTATGACAAGAGGCCAGGATTTTATTATTTAATG
GCTCTCAAACTTATTTGCAGTTTTAGGGCTTCTCTGCTTGATCTTGCTCTGGTGTTGATCAGGTGGCCCTGACTTCACTGGATGCTGGATTTGTCCCTAC
TCTTGTCCTAATGGATTGGTGAACTAAAACAGCAGTTTTTTGATTTAGGAAAATAAGGTCTTTGACTTTCCCCCGTCTTAGAAACGGTCACAATATTTTG
ATTTGAGATTCTAGGCTTTTGAGCATTTGAGAATATCCTTCTCAAAACAGAAAACCTTTGCTTTCTTTGCAATTATTTGGCACATTCTAAGGGTGGATAT
GGTCAGTATCCAGTTGGGAAATAAAGAAAGTGCTTCATAAATCACACAACTTTTTCTGTTGCTGAGTCAGTATCAGACACAGATATTTTCTGAGTCAAGC
CTGCTGTTCTGTCAGGTGGGAGATTATGGGTAAGGTCTGAGATTGAGTGGAGTTCGTTAGAGCAAGATGCTAATGAGCACAGGGTCATGGGTTTGATCCC
CATACAAGTCGATTAGCTTAAACCATAAAGGGACTCCTGGCTCATCCATCCTGGCAAATATGTGGTCACAGGCCTAAGGAAGACTAGGTTAGAGAGTGAG
AAAAATCCTTCATCATCAAGAGGAAAAAAAACAAACAAACCTCAAAGCCCATGTCCTATTGGATGTAGTAAGTGATATCATCTGTGGTTGTAGTCAGTGC
CTATATTACTTATATGTAGGGAGAAGATTTGCATCCCATTAAATCTCCCAAAATATGTAATATAGCATGCATGAGGTTAAATAACCAATGGGAACTATAG
TGACATCCAAAAACTCTCGCAAGAGAAGTCTTATAGCTAACTGAGATGGGGTGGAACCTCCATGGCCATGGTGGAACTCTGTGACTGTGCTGAAGACCTC
TTGTGCAATTAATTCCTTGTTGGGCATGAAGCCATGCACATATACCCTAAGACAATGCTGTCTTCTCCTGGAGGATGGATAAAAGGGCAGAGAGGATTGT
GTGAGGGCCTAGGATTGTAGCCACTTGTCCTATGGCTGTCTTATTCACTCTGTATATTTGCACACCCTGGTTTCACATTATCTGAGTGTTTTCCTATGGA
AAGAGGTTTTCCTATCTTCATTATAAGAAGGACAGTATTTTCTAGCCATACCCATTTTTCAAGGATGATCTATTTAAAAATTATTTTTCCCAATGAAAAA
TTTCAAATGAAGTAATCAGAATAGAATAATGAATGTCCATATACACATCATCTGGATTTAACAATTGTCAACATTTTGCCATATTTGCTTCATTATTTTG
TGTTTTTTTGCTAGTGTTATCTCACCTTTACATATTTTTCTTAAAAATGACAATTTTCTGCATAACTGTAATACTATTATCACTCCCATTAAAATTAACT
ATATAATTTCTTAATRTCCTGTAGTACTGCAAATTCAAATTGCTCAATTGTCCCCAAATTGTCTTTTGCAGCCAGTTTGTTCAGTCAGGATCTAATCAAG
GATAGTGAATTTCTTATGTGTGTGTGTTTGTGTGTGTGTGTATGGGCATGTGACATGGAGCTGTGGAAGAGACAAGCCAGTTGGTCTGTACAATGTCTCA
TCTTTTGGATTTGTCTGAGTTTTCAGGATGAGTTTTGAAGATTTGTATTTAGTGTTGAAAATGGGCTTGGGTCTGGAGATTGGCAGTGGCCAGGACACCC
TGTACAGGGAGGACCTTCGAAAATGAGGGAGGTAAACACAAAGGCAGTAGGAATGTTCCATATTTTTGTGTCTTGCTTCCCAGCAGGGCTGACAGACACA
AACTCATGTGAACACACAGGGACATAGACCTTTATAAAAGAACTGGGTAATGTTTTTCTCTTTGCCAGGCCATAGATAGCACAGAACTTGAGGATATGAT
AATCCTATTGGCTGTATATTTTGAATAGTGTATCCTGAATAAACAAGATAAAACCAAGAGGCAGAAAAATGAATAGAAATTAAAGCTATGAGAAAGTCAT
AGAAAATTCTTAGTGGTCTGACATTTTGAGTTTGTTCTTCTTTGGTTAAGTTCACTCATCTCTCTTGGGAGTAGAGAGAACCCATATTTGGGATAAACAA
CTGCAGAGGACCAAGAGTCTTGGGAGAAGCTGATGACAGGCATTCAGAGGTAAGACTTGGGAAGAAAATAGCCACAGAAGGAAAGTACAGGGAGGCAAAC
AGTGGGAGGGGCCAGCTCATCTCTTTTCTCCTTCCCCCCAAAGACTGCTGGTTGTCAGTGGGCCTATAAAATCTTTTATGATCTTAAAGGTATTTTGGAA
GACTAAGTCAATCTTTAGCATTCTTAACCTGGAGCAGGGGTTCTGAAACTTGAACTGGCACATTGGCATCACCTGGGAACTCTAAAACACACTGATGTCT
GGGTACCACCCTCAGAAATTCTGATAGAATTTGTCTCAGGTGTGGCCAGGGCAACGGGCTTTTTAAAAGACTTTCCAAGTAATTCTAATGAGTATCTAAG
TTTGAGGACCACTGATCTAGATCAATTAACCHTACATACATAYATATATATATATATATATATATRYATTTTTTTTTAAAAAGATACATTTAACACCTCC
CCCCACCCAATAAACCTTATGGAAACCCAATGCATAAAAAAGATTAAAGTGGAGGTGCTTTACATAAGGTGCTCTTGAAACCTGGCTGAGTAGGCACCAT
TTGCTACACCCACTCCCCGTTTCTTTCAAACCCTCTCATCTTCCTACAGCAGTGTCTTCAAAGAATTAGGGTCTGAAGAGTAGGACTATTTGAAAAATAA
CTGGTCCAGAGTTTAAAGGGTTTTAACCATCTACATCTAGAACTCTGGCTCTTTCAATTAACTTATTAACTGTATGACTTTGKACAACTATAAACTCTCT
GAACCTCAGTTCTCTTATATCTTAATTAGAGATGATACCTATCTCACAGGTTGTAATGAAGACTAAAGTTGGATATATGCTAGTGTACTGTCAGTAGAGA
TTAGTTCCTTCAGTAGTTCAGGCTTTCCTCCAGGCTACTGCAAGCTTTCAGGTCTGTCCTGGGATGGGACTGATGGTTTGGTTTAATCTGGGAACTTCAG
TTACCTTCATATTATACTCATATGGTAGGGTGTACACAGATTCCCTTTACTCATGAGGGGTCTAAAATTCCTGATTGACTTGCAGCATCATAGGAATAAA
TGGAGGTGGGATGGGGGTGGAGTTTGTTCACTGCTGAATGCTAAGGGAGAAGCCAGGAGCTTCCATGAAATGACTCAGGAAATGCTCTATAATTCAGATA
AACTGTTAATCAATGGGGAGGGAACCAGGCAAAGTCCATTTTAAAATGAAAAAGGTATTAAGATCCATAATAGGCATAGTGGAAGGGCTGGGGGTGTTGA
GGTGGGAAGGAGTTCTCTATGGACCAGAGGAGCAGGTTCATGACTGAGGGAGGAGTTATTGATTTTTTTTGTAAACAATAGATTTTTAAGCAGGAATGAA
GAAACATGAACATATTCTTCCCTATTTTTTTGTTCCAATATGGTTAAACAAAACTCCCAGATAATATAGAAACCTTGCTTATTCCCCTTATGAATATYTT
ACCAGTATTGCTAAGAAGTGAAATTGATTGATATTAATTTAACTTCCTCCTCTTCCCACCCAGACATTAGTAAATAGTGAAATGGTTGTAAGTGTTCAGG
GAGATGACAAAAGAGAAGTCTGAGGCTTGAGGAATTACGAAGTCAGATGATCTGTAATTGAATAATATTGAGTAGAATACACAAATCAAAAGTGGTGTAA
AATCTATTACAGGAAAAACTCATTTGAGTCTGGCCCTGTCACAGTCATTGAACTAGTGATTCAAGTCTGAACATGGCCAGCAGTGGTATTTCCTGTTTAT
CTTTCACAAAGCTGGCAACAATTTCCACATTATGTTCTCTGCACATCTCCAACCTCTACGGAATGAAAAATGCATTTTAGTTTCCTCAGCATTCACAATG
TAGAACCTTCCAGAGAAGCTTTCTTTTCTTTCTGGCATCTGGATAAATGGAGGAATAGCACGAAGCGGTAGGTGCTTAGGCCAATTAAGATGTTTGGTGG
GCTCAGTGGGGATGACCCTTAGTCTTTAAAACATTTTTTTGTAATTATCTTATTCACATATTATTATCCAAAATACCATGACTGTGGTTTTGGTTGCTAC
TGCACTTTAATATAGTAGATGTATTTTTACTTTCTATTTTTCTTTTTTTTTCTTTAAAGATTTCCATTCTTAATAGATGAGAAAAAAAATTCCTAAGAAG
TAAAATGTTAAAGATGCTTATTTGGGATCATAGGATCTCTTTTAGCAATTTGCAATCTGAAGCGGAGACCACACAATTTCTGGCCACATTGGGATACTGT
CTATACTGCTGCCTCTTTCTCACATTATCTTCCTGCTATCTGACATACCTATGCTCACATCCAGGTACTGAACAGGGGCCCTACATGGCTCTGAGGTAAT
CAGAGTTCACTTGTCCACAACTTGCCATTGAAAGGCTATGCCCTTTAGAATTTCGTATTCTGAAGAAAATTTCTATTTTTTTTAAATGTTTCAATGTTAG
TGAGTTGCCTGAGGAAAGAATGTGATAAAGGTAGTTCTAATCAAGGTATATGTGAGAGACTAATTAATGGTAGGACTCAATGTTTTATCCTGATATGAGT
ATACTCATTTCAAAAGGAGTCTCCTGTAAACTCCAGCTAAACAAACACAAAGGCATTTTCAGGATTTCAGGTATACATTTGATGGCTGGGGCAGAGTGGT
GTATAGAGTTTTTCATGTAGACCCTCCTCAAATCTCAACACATGACTTCTATTTCAAATCTATTTTAAAGACCAGAACTATTTAAATTTTACCCTAACAT
GACTAAATTTACTTTCCTTTATACCTCCACATTGCCAGGACATTTAAAAGCCTCTTCCAATCCTACCAAAGATAAGACACTGATGACATCTCATCTCCTG
CCTAACTTGTGACTATTCTCAGTATTGGTGAAGAGGTGAAATTTGTAGATGAGGKATTTTAATCCTTCACTTTGTATTTGATACATGACTTTATGTATTA
TGGTGCTGATTTTTCAGCACATCTTTATTTTCCCTTTTCCAGTTTTAACAATGAACTTTTCCAATCTATCGTTACTTAGTGAAGACGGTTAATAGTGAAT
ACATGGTTCAGGTATTTCTTTTAACAGCCCTGCAAATAGAAATACAGTGTAAGTCCCATATATGATTATATATTTTCCTATAATCACATTAAGAAAAGAA
ACAGGTAAAGTAAAATTTTAATAATACATTTAATCCAATATGTCAGAAACATTATCATTTTAACATGTAATCGTGTAAATAATGAGGTATCTCATTTTTT
TCCTGAAAAAAAATCTTTGAAATCTGGGATTTCTTTGAAATCTAGGAGGTATTTTACAATTACAGCCTATCTCAATTTGCAGGCCATATTGAAGTGCTCA
ATAGCTGAGTGTGGCTACCATATTCACAGCCTTAGAAAATTTTGAGTAAGATGAATATAAGCTGTGAACCCGTACTTAGTTTCAGTTAGACTATCTTCTT
TATGAAAATGTTTAAATCTAAACTAATTTTTCTCCCCACATATGCTTCTCTGCTAGTGTTCTCCAATTCAGTAGTTGGCCCTGACATGCCTGTCATATGT
GGTTTTAAAGGCAGAACATGGTAGACCTCTAAGAGGCATTAATTACAGTGCGCACAGCTGTATGTAGCAGTATGGGCTCAATAACACTACTTAGTTGTCC
ATGCCAGAAAAAGAGTTATTTGAGACACATCATCTTCCTCATTTCTACACTCCATCTTCCAAAATTGTCTTTCACTAAGTCCTTTCAGTTCCACCTCCAG
AGTACATCTGGGACCGGATCACATTACTCCATCTCTACAATCTTCTCTTTAAGTAGGCTGCTACCTCCTAGATGGCTGCAATAGCCTCTAACAGGCTTCC
CACATCCTCTTTGGATATTCTCCAGTCCATTCTCCATGTTGCAACCTGTTTTGTGAAAGGCAAATCTGAGCATGCCACACTCCCACTTAAAATCCTCTGA
CAGGCTGGGCGCGGTGGGTCACGCCTGTAATCCCAGCACTTTGGGAGGCCCAGGCGGACGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAAAAC
GGTGAAACTCCRTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCAGGCGCATGGAGTCCCAGCTACTCGGGAGGCTGAGGCAGGGGAATGGC
ATGAAGCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCCCCACTGCACTCCAGCCTGGATGACAGAGCGAGACTCCATCTCAAAAATAAAATAAAATA
AAATAAAATAAATAAAATAAAATAAAATAAAATAAAAAAATAAAATATCCTCTGACAACTTCCCAGGCTTTTATACTTGAGTCCAAAATCCTATGGTGAC
CTACAAGGTCTTTGTGATCTGGCTCTATTTATCTACTACTCCTTCCTTCTTTATTTTGCTATGCTACTCKCTCTTCCTGTGTGAGGATTTTCACATACTC
TCTTACTTTTATCTGCAGTGCTTGTTTGCATGCTCTCTCTCTTTCTCTCTCTTTCTGTTTCTCTCTCTCTGCCTGGCTAACCTCTTTTTGCTGTTCTGCT
TAAATGTGACTTTTTCAGGAACACCTTCTCTAACTTCCTTGACTTTTGGGCCCCATCCTGTATGTTTTTATATCAAACAGGACCACTATGTTTTTTTCAG
GACACTTATCACAATTTTATCTATATGATTATTTGTGTAATTTTAGTATATTATCTGTCTCCACTGATGTAAGCTTCATACAAATAGAGAACCAAATCTC
CCTTGTTTATTCCTTTTATGTCTGTAGTACTAGCCTAGGGCCTGGCATATATTAAGCCTTCAATAACTTCCAGCTGAATCTGCGAATGCATGTGCTCAGC
CCATTGTCTGTAGCAGCTTGGTAGTTTTAAGAGGCTTCTCAAGCTTGCAGAAACCCTTGTGGGTATGACTAAGTGTTCCAGCTTCTGTTTCATTGTGAAG
ATTTTAGAAGTGTAGCCTTTAAGAGGCATACTACAATCCTTCCAAAAACAAAGAAAGTCTGAAAATAAATTTGGGAGAGGATGTGGAACAAAGTAATTTC
TACACTAATAGGAAAAATGCAAATTGGTGTAACTTCTTTGGACTGTGTCCCCAAACAAAAGCTGGGTCATGTCAACTGGCTGTTATTCTGTCTTCTTGGT
TATTGGGTGTTTCTTTGTGGGGGTATTCCTTCTAGTGGGTCATAACATATGCCATAAAAATCCACATTGTGGCCACTTCCATAGACCCATCTGCAGACAG
GCCTTTAYTCAGATCTTCTTGTCCCAGATCTTTCAATCTTTCTTCTTTCAGGTGCCTGCCCAATTAGCCAGGGTATTCTTCACTGTTTATTAATCCTTAT
ATCTTCTAACAGCAAGTCACTTCTTGTCCACACAAAGAGGATGATTTAGTATACTGCCTTCGTCCATTGGGAAGATTTTCCCCTCTTCGCTGTCTTTCGA
GGCCATCCCTAAGGGAGGGTTGTTATGCAACAGCAGTCCATTTTTGGGTCACACCGAGATACTGAGCTGATTCATTTATGAGCTAGTTTTCCCTCTTTCA
GCTGGCCATTAGGGACTCAACACAGGGCTACAGGTATCGTTTGAAGAGAAATGGATGATATGGGTTTGACAGTCATGCAATTTGCTTGTGCCCCCTGGCC
CTGCCTTTGTCCAATCCTGGAAGTATCATTTCCATCTTATGATGGAGTACTACCAGACCTGCCTAATCATATGAATTATTGCATTTGTTAGAACTCAGCT
TAATGTGGTTATTTCTTATTGTAGGGTAACTTGAGGTTCTATGGTCAGATGCTCAGTCTCTACTAGGGCTCAGTAGTATTCCAAGAGCTGCTGTTTGAAT
GTTATATAGTTCCTGGCTGAAGATGGCATGCTTTGTTTTAGAATCCTGGGGAACTGCTTATGTTATGATTCTACTATTTCTTTCTATAAAATCCACATGG
TGTCTTTTCAAACCACAGAAACCCCAAGAACCAAAAGTTTTGCCGTATCATATTGCATAAGTCATAGGGTCACTTTTATGACAACCTGAACCTGCTGGAG
AGCCCTTTGGTGTTTTGAGCTCCACTCACAGCTGGTAAATGTGTATTGTTGCCTAACCTATGTAAATGGGTACTGCTTCTGATCTTCTTACTGATAGGGA
TGGAAAAGAATGCATTTGCCAGATAAATGGCTGCATACTACATGTCATATATTGTGTTAATCTGCTGTAATGAAGCTATCATATCTGGCCCAGCAATTGC
AACTGTGGCTACTACTTGGTTATTATAGAATGTTGTAGATTTTATTTCTTTAATAATTAATGGACATTAGAGATTTTCTAAATCTTTAATTTCTAAATTA
GAGATTTTCTGAATCTCTCTGAGCCCATATTGGTAGTTCATACTTTCCTAGGAATATGTCTATTTCACCTAAGGAATTTAGTAAATTTCTCTTATTACCT
TTTTAATATCTGCTACATCTGTAGTTGTGTCCCTTTTTGATTCATAATATTATTTGTGCCSTCTTTCTGTATTTCTCATTCACTTTTGCCAGAGGTATGC
CAATTTTATTAGTTTTTGCAAAGAACCAATATTTGGCTCTGTTGTTTCCTTCTAGTCTATCTTTGCTTTCTGTTTTATTAATTTCTTCCTCTTGTCTTTA
TCTTCTCAATTTTTATATTATTCCTATTTGCTCTTTTCTTAACTTTTCTAAGTTGAAGGTTGTATTAGTCAGGGTTCTCTTAGAGGGACAGAACTAATAA
GATACACACACACACACACACACACAMAAAAAAAAACTAATAGGATATATATATGTATATATACACATACAAAACTAATAGGATATATATATATATATAT
ACACACACWCACACAGAACTAATAGGAGATATATATATATATGAGTTTATTAAGTATTAACTTACATGATTACAAGGTCCCACAATAGGCTGTCTGCAAG
GGGAGGAGAAAGGAGACCCTGTCCAAGTCCCAAAACTGAAGAACTTGTAGTCCATTGTTTGAGGGCAGGAAGCATCCAGCTCGAGAAAAAGATGTAGGCT
GGGAGACTAGGCATGTCTCACCTTTTTCACGTTTTTCTGCCTGCTTTATATTTGCTGGAAGCTCATTAGATAGTGCCCACCAGATTAAGGGTGGATCTGC
CTTCCCCAGCCCACTGACTCAAATGTTAATCACTTTTGGCAACACCCACACAGACACACTCAGGATTAATACTTTGTATCCCTCAGTCCAATCAAGTTGA
CACTCATTATTAACCATCACAGAGGTTTAGCACATTAATTTTTCACCCTTTCTTGTTTCTTATTATAAGTATTTAAGGCTATAAATCTTCTTTTACTTTG
GATTTAAAAATTATGTATATTTAAGTTGTAAATGGCTCTAAATCTGTCTCTATCTGCATCTCACAATTCTTGATTTGTAGTTCTTTTGTTATCTTTCAGT
TGTATGTATTTTCTATTTTTTAGTATTTTCTAATTTTTATTCTTCTATAGCCCATGAGTAATTTAGAAGTATGTTTTTGAATTTTCTAATGTGTAATTTT
GTTTGATAGTTCGTTTTGCTGCTGATTGTTAATTTAACTTTTTTGTCAGATATTGCAATGTATGAGATATAGATTCTCTGAAATTTGTCAATATCTATTT
TATGGCCTGAAATGTGGTTAATTTTTATAAACCGTGTGTGCTTGAAAAGAATGTGTATTCTCAAGTTGTTGGATGCATTGTTTCATAGACACACATTAAA
TTAACCTTGTGCTGTTCAAATTTTTATATCATTATTGATTTGTTGCTGTTTGACATATCAGTTAGTGAGGAGGTATGTTAAAATCTTCCATTTATGTGGA
TTTGTCCATTTCTCTGTAGTCCAGATATTTTTTGCCTTATACTTTGAAATGTGTTATTAAGTGCATATATATGTAAATTGTTTTTTTTTCCAGGTAGTTA
TTCATTTTTATTTTTTATTTTTTTATTTTTTATTTATTTATTTTTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATG
TATACATGTGCCATGCTGGTGCACTGCACCCACAAACTTGTCATCTAGCATTAGGTATATCTCCCAATGCTATCCCTCCCCACTCCCCCCAACCCACAAC
AGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTTATTGTTCAATTCCCACCTATGAGTGAGAATATGCAGTGTTTGGTTTTTTGTTCTT
GTGATAGTTTACTGAGAATGATGATTTCCAATTTCATCCGTGTCCCTACAAAGGACATGAACTCACCATTTTTTATGGCTGCATAGTATTCCATGGTGTA
TATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAATGCCGCAATAAACATAGGTGTG
CATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGA
ATCGCCACACTGACTTCCACAATGGTTGAACTAGTCTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTT
TCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGGTGAGCATTTT
TTCATGTGTTTTTTGGCTGCATAAATGTCTTCCTTTGAGAAGTGTCTGTTCATGTCCTTTGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAA
TTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTYGTGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGAT
GGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAG
TCCTTGCCCATGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACGTTTAAGTCTTTAATCCATCTTGAAT
TGATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATGTATTAAATAGGGAATCCTTTCC
CCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGTGGCATTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTG
TTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTAGTAGTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTCAGGA
TTGACTTGATGATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTCATGGGGATGGC
ATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCATGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTATCCTCT
TTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTTTTTAAAGCAATTG
TGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTGTTGGTGTATAAGAATGCTTGTGATTTTTGTACCTTGATTTTTTATCCTGAGACTTT
GCTGAAGTTGCTTATCAGCTTAAGGAGGTTTTGGGCTGAGAAGATGGGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCC
TCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATC
CCTGTCTTATGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAG
ATACGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTATGCATCTATTGAGATAATCATGTGG
TTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACATTTATAGATTTATGTATATTGAACCAGTCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGT
GGATAAGCTTTTTGAGGTGCTGCTGGATTCGGTTTGCTAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTT
TTTGGTTGTGTCTCTGCCCATCTTTGGTATCAGGATGATGTCAGGATGATGCTGGCCTCATAAAATGAGTTAGGAAGGATTCCCTCTTTTTCTATTGATT
GGAATAGTTTCAGAAGGAATGGTACCAGTTCCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTCTTTTTCGTTGGTAAGCT
ATTGATTATTGCCACAATTTCAGCTCCTGTTATTGGTCTATTCAGAGATTCAGCTTCTTCCTGGTTTAGTCTTGGGAAGGTGTATGTGTCAAGGAATTTA
TACATTTCTTCTAGATTTTCTAGTTTATTTGCATAGAGGTGTTTGTAGTATTCTCTGATGGTAGTTTGCATTTCTGTGGGATGGGTGGTGATATCCCCTT
TAACATTTTTTATTGCGTCTGTTTGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCCTTTCAAAAAACTAGCT
CCCGGATTCGTTAATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGT
GTTTGTTGTTGCTTTTCTAATTCTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCGTTTAGTGCTATAAATTTCC
CTCTACACACTGCTTTGGATGCGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCGTTGGTTTCAAACAACATCTTTATTTCTGCCTTCATTTCGTT
ATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTTCATGTAGTTGAGCGGTTTTGAGTGAGATTCTTAATCCTGAGTTCTAGTTTGATTGCACTG
TGGTCTGAGAGATAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCAACTATGTGGTCAATTTTGGAATAGGTGTGGTGTG
GTGCTGAAAAAAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCCGCTTGGTGCAGAGCTGAGTTCAATTCCTGGGTATC
CTTGTTGACTTTCTGTCTCATTGATCTGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTAATGTGTGGGAGTCTAAGTCTCTTTGTAGGTCA
CTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTAAGT
AATGTCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATTAGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTG
GTAGATCTTTCTCCATCCTTTTATTTTGAGCCTATGTGTGTCTCTGTCCATGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATC
CAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGTGCATTTACATTTAAAGTTAATATTGTTATGTGTGAGTTTGATCCTGTCATTATGATGTTAG
CTGGTTATTTTGCTCCTTAGTTGATGCAGTTTCTTCCTAGTCTCGATGGTCTTTACATTTTGGCATGATTTTGCAGTGGCTGGTACCGGTTGTTCCTTTC
CATATTTAGCACTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTAA
CTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCTCACTCTCTTCTGGCTTGTAGAG
TTTCTGCCGAGAGATCTGCTGTTAGTCTGATGGGCTTCCCTTTGAGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAAC
TTTGGTGAATTTGACAATTATGTGTCTTGGTGTTGCTCTTCTCGAGGAGTATCTTTGTGGTGTTCTCTGTATTTCCTGATTCTGAATGTTGGCCTGCCTT
GCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCGGTCACTTTCAGGCACACCAATCAGACGTAGAT
TTGGTCTTTTCACRTAGTCCCATATTTCTTGGAGGCTTTGCTCGTTTCTTTTTATTCTTTTTTCTCTAAACTTCCCTTCTCGCTTCATTTCATTCATTTC
ATCTTCCATCGTTGATACCCTTTCTTCCAGTTGATCGCATCGGCTCCTGAGGCTTCTGCATTCTTCACGTAGTTCTCGAGCCTTGGTTTTCAGCTCCATC
AGCTCCTTTAAGCACTTCTCTGTATTGGTTATTCTAGTTATACATTCTTCTAAATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATGTCCT
CCCATAGCTTGGAGTAATTTGATCATCTGAAGCCTTCTTCTCTCAGCTCGTCAAAGTCATTCTCCATCCAGCTTTGTTCCGTTGCTGGTGAGGAACTGCA
TTCCTTTGGAGGAGGAGAGGCACTCTGCTTTTTAGAGTTTCCAGTTTTTCTGTTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTTTGGTCTTTGA
TGATGGTGATGTACAGATGGGTTTTTGGTGTGGATGTCCTTTCTGTTTCTTAGTTTTCTTTCTAACGGACAGGACCCTCAGCTGCAGGTCTGTTGGAATA
CCCTGCCATGTGAGGTGTCAGTGTGCCCCTGCTGGGGGGTGCCTCCCAGTTAGGCTGCTCAGGGGTCAGGGGTCAGGGACCCACTTGCGGAGGCAGTCTG
CCCATTCTCAGATCTCCAGCTGCGTGCTGGGAGAACCACTGCTCTCTTCAAAGCTGTCAGACAGGGACATTTAAGTCTGCAGAGGTTACTGCTGTCTTTT
TGTTTGTCTGTGCCCTGCCCCCAGAGGTGGAGCCTACAGAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTCGAGCTTCCTGGCTCCTT
TGTTTACCCAAGCAAGCCTGGGCAATGGCGGGCGCCCCTCCCCCAGCCTCACTGCCACCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATCAGCAAG
ACTCTGTGGGTGTAGGACCCTCTGAGCCAGGTGCGGGATATAATCTCCTGGTTCGCCGTTTTTTAAGCCAGTCGGAAAAGCGCAGTATTAGGGTGGGAGT
GACCCGATTTTCCAGATGCCGTCTGTCACCACTTTCTTTGACTAGGAAAGGGAACTCCCTGACCCCTTGTGCTTCCCGAGTGAGGCAATGCCTCGCCCTG
CTTCTGCTCTCGCACAGTGCGCGCACCCACTGACCTGTGCCCACTGTCTGGCACTCCCTAATGAGATGAACCCGGTACCTGAGATGGAAATGCAGAAATC
ACCTGTCTTCTGCGTCGGTCATGCTGGGAGCTGTAGACCGGAGGTGTTCCTATTCGGCCATCTTGGCTCCTCCTCCTAGTTATTCCATATGTAAATTGTT
ATATCTTCTTGATGAATTGAGATTTTTATGTAGTCATCTTTTTTTATCAATAATCCTTTTGCCTTGAAGTCTATTTTGTCTCATACTAATAAAACTGTAC
CAGTTTTTAAATTAGTGTTTTCTTGATTTTTCTATAAATTTGACATTAAATTTTTGTTTTATTTTAAATTTTTGTATGTTAAGCTTTAGATGGTGTCTCT
TGCAATAACTTAGAGTTGTATTTTCTTTTTAATCCAGTCTGACAATATTTGTCTTTTAACCAGGTAATCTAGGCAGTTTACATTGATCATGATTAATATT
ATATTTGGATTCATTTCTATCATCTTATAATGGTTTGGACTGAAGTGTTGATCTGGATTGTTGCACATCCCTTGGTTGAAAGATGTTACAGCCACTGAAT
CACCCAATCACTGATCCACATCCTATTATTTTGAACTATCCCTATGGCCCCCAATAGCATAGTGACTTAGGGTTAAATGGCAGTGTAAAAGGATACAGGA
GGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCCAACGTGGGTAGATCACAAGGTCAGGAGTTCGAGACTAGCCTGACCAACATGG
TGAAATCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATCACTTG
AACCCAGGAGGTGGAGGTTGCCGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAATGTATACGG
GAACTGGAGATGGTAAGTGGGCTGAAGAGCAGTTTCAGGAAAGAAGTTCATCATCATCCTATATTTAAAGGACTATGATATGTGTATAAAAGAGGGATTA
AAACATGAGCAGCAAATGACAGAACTAGAGCAAATGAGTGGAATAATACCTTATTCCTTGAGCAGCTGTTATGTGCCAGGAAAATTGCTAAATACTTTTC
ACATATAGCTTAATTCATACAACAAACCACTGAGGGAAGGGCTCATCATCCTTATTTCATAGGTGAGAAAAATGAGGCTCAGAGAGATTAAAGAAGATAC
TTGAAGTCAAACAACTAGTAACTGGCAGAATTGGGAATCATACTCAATTTTGTATGACTCTAAAACCCTTGTTCTTTTTACTGAATTACATCACAGAGAG
GTGAACTGGTAAATACCAAATGAAGGAAGAATACTTTTTATAATTAAAATTCATAAAAAAGTAATGAACTATCATTTGAAATGGTAAGCATCCSATCACT
GGGCATTTCTAAACAGAGGTAATGTGGTCATGTGTCAGGACTGTTATAGTGAGAGTTTTACTTTGAGTGGGAAGTTGTACTTTAGAACAGACGCTTGGAT
TAGATGGTCATTAATTATGGTCTATTTCAGTTTCCATGAGGTTATTGAAACTGTGCCAGAGCTTAACAAATGCATGATTTTCAAAACTCTCCCTACCTTC
TGAAACTAGCCGCAATGTGAACTTGTCCTTTCTTCACTTAGCCTCCTTAACTCACTGCAGTGTTATGTGATGTGTACAGGTGGGGACTTTAATAAAACCC
TATTTGATGATGACTTGATGAAAGTCTATTTGGCCTGTTTAGATAGGAGAAAAACAAGTCATGTGTATAAGTGCAGTGTAAGGTTCTTTAATTTGAAATA
CTGGAGCCAAGCAATGCAAAAGCTGAGAGACTCCATTTAATAGCATGTTAATATATTAAAACCCTTAATAATAAATTCATAGCACTTAAAATACAWATAT
TTCTACAATGTAATATTATTTTACAGATGGTATTTAGTAAATAGCCAGTATTTACTGGGAAGTGGGGAATTCATTGTCCTTTGTGCCTTGCTTTGTTGAC
ACATTCTACCATGTGAAGGCCAAGAGCCCGTAAGAATAGAAAAACCTTTCTGTCAGCAGCAGCCTCATCAAGCTGGTCCCTCTGTAGACTCTGCTCTGTC
CACTTATTTTCTTTATCCTTACTGCTAATCCATCAAGTAACCATTTCGCCTTCTTTTAAAGCCCAGCCACAAGCATTATTTCTTCCCGGAGCTTTCATTG
ACCTGTGCCTCTCCCTGCACTGTACCTCTCGAGGTATCCAGTAGTGGCAGTTGAAGTATATGAAGAAGGATTTTATACATTATTTACTTTTGTTCTGAGT
AGTTCTTTTAAACCTTGTGAAAGCAATTTCACAAGTGTTTCCTATAGTATTGCTCTGATGTGGATAGGAAAGACCTCATTATAGCCTTTGGACATGAAGA
AACTGAGACATCAGGAGGCTGAGAATTGCCAAATAGTGGTAGAGTTTTAGCATCTTTCAGCTCCACAGCTCTACTAGCCAAATGTGCGTTCCAAAATATT
TCCCACAGGTTTCTGACTCTTGGATTTTAAGTAGTATGTTATGGCTGGTACCTGGGATTTGGTGTATTTAAAATTTGTTTGGGCCAGTCGCAGTGGCTCA
CGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTGGCCAACATGTTGAAACSCTGTCTCTAC
TAAAAATACAAAAATTAGCCAGGCATGGTGGTGCACACCTGTAATTCCAGCTACTCTGGAGGCCAAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGG
TTGCAGTGAGCAGAGATCCTCTCACTGCACTCCAGCCTGGGTGACAGAGCGAATCTTTGTCTCAAAAAAAAAAAAAAAAAACACTGTTTGACTCATTATT
TGAATGGGCCAAGCAAGGGCTGACCAATGCATAGAGAGAAGTATGGTTATTGAATCCCTACTAGAATGTGAACAAATTTTGAGAAAGGCCTACCATTGAG
GTGAGTGTGCTGTAACCTGAGCACGTGAGACCAAAAAAACACCTGAGAAAAATTTTTGCTTTCAAAATTCATCCATGTGACTCTATAGATTGGATATTCT
GGTTTCATCCATTTAGCCCCAAACTGACAGAGGGTTGTCTTGGGCAGTCAGAGATGTGTAGTGTAAAGATTATTGGGCACTACTTAGGAGCCAAAGGTTC
TAATTATGGAGCGTCTTAAGATTAGATTCATCTTTTTTACTTTCCTGGCCTCAGCTCTCTCTTATGGCAAGTGAGGGGTTTGCAATGAGGTCAGTGGTTC
TCAGACCATAGCCTTTGGAGTACATGGACCAGAATCGCCAGGTTATTTGTTAAAAGTTGAGATGCTGGACTCCATCTAGGCCTACTGAATTGGAATCTCT
GGAGTGGCACTTGTTTATCTGCCTTTTGACAAGCTGACCAAATATGCACACTAAAGTTTGAGTACCTCTGGATGATGTAGATTYTAAGGTTCCTTCCAGC
TCTATGATACTTTGAATGAGAAAGACAAAGACAGACAGCAATTACGGATTTCATTTCAGGTTTCTTTACTATTCTTTAATGTCAGAGCCTTTAGTGATTT
TAAATTTGCCAGAAATCACCTAATTAGCATGTGATGACAATATACTATTTTCATTTTTTATGTCTGCCTCCCCCAGCTTATTATCAGCATTGTTTCTATT
TCTTTTGTGCATTACTACAGTAATCATCAATCTCTTCTTATTCACTTCCATCCTTTGTATCATCATCAGAGATTTTTGGTGTTGTTTTTGTCCATAAAAC
AACAAACACAAAAAATGTCCCTCACATGATTAATAAGTTGCTTTTTTTTCTGGCAATAAAAACCCTTAATTTCTCAGCATGGCTTACTAGACCTTTCCAA
GTATTATTTATCTTTGTAGTTTTATCTCCCAAATTTTTACCCACATCCAGCCAGGAATCCTTTAATTCTCAAACTAGTTTAGGTAGCTGATTACCTAGAG
TCATCTTGTTTCTTTCTTTCTTATTAAATATGAAATAGCTTTATAGTTAACTTCATTGTACGATCTGGTACAATTTTATTCATAGAAAATATTACTATAT
GATAACATTTTAGACCGTAAGCATTTATTAATAATAAAAAAAAACCAAGCACTGGATTTAGTTTGGCTCTCTCTGAGTTTTTTACCTAATATATTTTCTA
TCTTTTTTAACTGTTTGCTACCTCTTTCTGTTAGAAAAGTGAAGAAAAATACCAAAGAAATATTTTTGTAAGAATAACTTAAAATTAAGASTATTCCACA
TATCAATTTAAAAACAAAATTTCAACAGATTGCTACAGATTGCTTTTATATGGTTTAAATAATAAATTACTTTGATTCCATTTATGGAGCACTGGTGTTT
TTTGTGAACGCTGTTAGGTAACAGGACCTGTGTCCCTGTGGTTCTCTTTCTGGAATGCCTTTCTGAAGCTTCTCCTCTTAAAGAATTCCTGCTCATTTTT
CAAGACCCAGTAGATTTGTCACCAATTGCAAAGCCTTTTCTGACCCTCATAGAAATAACTATCAACTCTCTCCTCTATATTTTCCAGATTTCTTGGTATG
TTCATCTCTACTTAAAAAACTAATATCTAACATCATTATAATAATAATGATTATTCTGTTTATCTCCTCTCTTCCTCTCTTGCCTCTATGGGTCCTGGCA
CAAAGTTTATGTTCCATAATTGATGTTAAATGAATGTCTTGTTTTGACTAARATATTTGTTCCTTAAGAACCTTATCCGTCTTACCTTTATTCTGTAGGA
CCAAGAACACAAGATCTTATGTGTACCCATTTAGCGATGACAGACTGACCAAGTGATCTGGCTTTTCTCCACGCTCTGGGAAATAGTTTAACTCTGTCAA
AGAGCAGTCAAGAAAAGTTCATATATTGAGAGTGATGTGATGATGGCTGTTTGAAAAGCTTGGAACTACCTTTTTAGATCAAATAGGCTTGGTTCTGTCT
CAAATCTGGATTAGGGCCAATACTTTGATAACCCAGTCAGCAAAGATCAGAAGTCAAGAATTCACAATCTTTCATCGTGCTCTGAAATCATTTGTCAATA
AACAACAAAGACCTTCTAGGGCTGGATATTAGAGAGGGAAGTAGCCGAGAGCTTGGAAGGGGAGCTTTTCTATCAGCTGAGGACTCTGGATGGGAAAAAG
GCTTAGTTCAGGTCTGGTAAAGAATTTGAGAATAAGCGAAATTCAAGGACACAGTAGTCAAGAAAGTGTTTAGTACTGGGTGTTGGCTCGGATGTGAGGA
AAAAGGCACTTTACACTGTTAGTGAGGACAGAAGTAGAAATTGGTACAGCCTTTCTGGAGTGCAGTTCTGCAAGGTGTATTAAAAATGTTAAAGGTGTTT
ATACTTTTTTTCCCACCAATTCTACTTCTAAGAATTTTTCCTAATGACATACTCTAATAAGTATACCAGGATTTTTGTATAAAGAAATTTATTTAGAACA
ACTATAAAGGTCCCAAAATAGGGAACTGATTAAACAAATTGATTAATCTATACAAGGTAATATCACACAGGCATTCAAATAATGATGTAGAGATATATTT
ATAGAAAAGGAAAGGGGTATATGATGTATTATCAGATTTAAGAATCTATTTATGAAATAATAGGTAGATTATGATTATTTTTTGTAAAACAGATATATAC
ATGTATATATATATTTTATATATACACACACATATGCTACACAATTTATGGAAGTTGTCAATGAGAGATTTTTTTTAGTTTACCTTGATGTTACAAATTT
TCTACAGATAATATATAATACTCAAATTATAAAGAAATAATTTTTTCAAACTATATTTTTCAAAATATTTCAAAAATTTCAAAAATAATTATTTTTCAAA
ATAATTTTGAAAAAGTTATTTCTTATAGAAGGGATAATTCTTTCAGATTGGTATTCTCCAGGTTGACTGAATAGTGCTTGGAACAGAGTACATGTGTGAT
ATGTATTAGCAAATTTAATGACTGAGTGAATAGGCAAATGACTTTACTCCAAACTTGGTAGTGTAGGTTTTATTGGTGAGAATTTTCTAAATTTTATCCA
TTCATCTTCCACTGGAACTGCATCTGTAGGATAGCTGATTTTTGATTCCTGAGATCTTTTCTTTTTTTTTTTTTCCTGGTTTTCACTTTTTTTTTTCTCT
CTTCAACTTTTATTTTAAGTTCTGGGTTACTAGTGCAGGATGTACAGATTTGTTACGTAGGTAAACATGTGCCATGGTGGTTTGCTGCACAGATCAACCC
ATCACCTAGGTATAAAGCTCAGCATCCATTAGCTTTTCTTCCTGATGCTCTTCCTCCCCTGAACCGCTCTCCCAATAGGCCCCAATATGTGTTGTTTCCC
CCAGTGTGTCCATGTGCTCTCATCATTCAGCTCCCACTTATAAGTGAGAACATGTGGTGTTTGGTTTTCTGTTCCTGGATTAGTTTGCTGAGGATAATGG
CTTCCAGCTCCATCCATGTCCCTGCACAGGACATGATCTTATTCCTTTTTATGGTTGCATAGTATTCCATTATGTATATGTACCACATTTTCTTTATCCA
GTCTATCCTGGATGGTCATTTGGGTTGATTCCATGTCTTTGCTGTTGTGAATAGTGCTGCAATGAACATATATGTGCATGTATCTTTATAATGGAATGAT
TTATATTCCTTTGGTTATATACCCAGTAATGGGATTGCCGGATCAAATGGCATTTCTGCTTCTAGATCTTTGAGGAATTTCCACACTGTCTTCCACAATT
GTTGAACTAATTTACACTCCCACCAACAGTGTAACAGCATTCCTTTTTCTTCACAAACTTGCCAGCATCAGTTGTTTCTTGACTTTTCAATGAACCACCA
TTCTGATTGCATAAGATGGTATTTCACTGTGGTTTTGATTTGCATTTCTCTAATGACCAGTGATGAAAAGCTTTTTTTAATATACTTGTTGGTTGCATGA
ATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCCTTGCCCACTTTTTAATGGGGTTGTTTAATTTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGATTC
TAGATATTAGACCTCTCTCAGATTATTAGATTGCAAACATTTTCTCCCATTCTGTAGGTTGTCTGTTCACTCTGATGATAGTTTCTTTTGCTGTGCAGAA
GCTCTTTAGTTTAATTAGATCCCATTTGTCAAGTTTTGCTTTTGTTGCAATTGCTTTTGGTGTTTTCATAATTAAATCTTTGCCCATGCCTCTGTCCTGA
ATGGTATTGCCTAGATTTTGTTCTAGGTTTTTTATAGTTTTGGGTTTTACATTTACATCTTTAATCCATCTTGAGTTAATTTTTGTATAAGGTATAAGTA
AGGGGTCCAGTTTCAATTTTCTGCATATGGCTAGCCAGTTCTCCCAGCACCATTTATTATAAAGAGAATCCTTTCCACATTGTTTGTTTTTGTCAGGTTT
GTTGAAGATGAGATGTTTGTAGGTGTGTGGTCTTATTTTTGAGTTCTCTATTCTGTTCCATTCTATGTGTCTGTTTTTTGTACCACTACCATGCTGTTTT
GGTTACTTTAGACTTGTAGTATAGTTTTAAGGTGGGTAGCATGATGGCTCCAACTTTGTTCTTTTTGCTTAGGATTGTCTTGACTATTCAGCCTCTTTGT
TCCATACAAGCTTTAAAATTTTTTGTTCTAATTCTGTGAAGAATGTCGGTAGTTTAATGGAAATAGCATTGAATCTTTAAATTAGTTTGGGCAGTATGAC
CATTTTGATGATATTGATTCCTCCTATCCATGAGCATGGAATGTTTCTCCATTTGTTTGTGTCCTCTCTGATTTATTTGATCAGTGGTTTGTAATTCTCC
TTGGAGGGGTCCTTCACTTCCCTTGTTAGCTGTATTCCTAGGCATTTTATTCTTTTTGTAGGAATTGTGAATGGGAGTTCATTCATGATTTGGCTCTGCT
TGCCTGTTGTTGGTGTATAGTAATGCTAGTGATTTTTGCATATTGATTTTGTATCCTGAGCCTTTGCTGAAGTTTCTTATCAGCTTAAGATGCTTTTGGG
CTGAGACGATGGGGTTTTCTAGATATAAGATCATGTCATCTGCAAACAAAGATAATTTGACTTCCTCTCCTCCTATTTCAGTAATCTTTATTTCTTTCTC
TTGCCTGATTGCCCTGGCCAGAACTTCCAACACTATGTTGAACAGGAGTGGTGAGAGAGGGCATCCTTGTCTTGTACCAGTTTTCAAGGGGAATGCTTTC
AGCTTTTGCCCACTCAGTGTGATATTGCCTGTRGGTTTGTCATATATGGCTCTGATTATATCATGATATGAGGTTACATCCCTTCCTTGGTATGAGTTTG
TGCCCCTTCCTGTGTCTGAGTGTTGACGATATATTTCTGACTGGTCATTAGTTGTTTTTGTTCATTTCATTAAGGGTTTTGAGAGTCAGGTTCCATTAAC
CAGTGTCATTCCACCATTTTATTCTGTGACTTCTTTTGGTGCTATTACATTTARAAAATTCTTCCTCTCTAAAATGTGGTAAATATTTACCTACTTAGCT
TTTAAAATATATTTTCATTTAATTCTAAAATGTATTTGAAATTAATTTTTATATGATGTGAAGTGAGACCACAAGTTGATATTTTTCTTTTGAAATACAT
AACCAGTTTTACACAAACCGTTTATAGAGTAGTCCATTTTTTCCATATTGGTTTATGATGTATGTTCTGTCACATATTAAGTTATAATGTGTACAAGGCT
CTATTTCAGGCCTGTTTGTTTTGTTGTGTTAATTCGTCTGTTGATTCTTATACCACCATTACACTATTTTGTATGTGTTATAAAAGGCAGTTTAATATTG
AGTTTGGGTACATTTCCACTGATTTTACTTTTTTAAACAGTTGAACTATTTTCACACACAATATTTGCCAAATGCAATGCTTGACATTATATCAAAAATA
TAAATTAATTTTGGAATAATTAACATGTTTTATTATGTAGTCTACCTCTCCGGGAGCATATTTTATCTTTCCATTTGTTTAAGTTTTCTTCTATCTTGCA
TCCCTCAAGGTTTTACTTAAGAAATTTATAGTTTGTAAGTATTATGTATTGACCTTTCCCTCATTACATTTTCTAATTATTGTTAGTATATAGAAAATTG
AATCTTGAATATGTATTTTATAATTAGTGATTTTCTTGAGTATTATTATTGATTTTGGTTCTTTTTGTATCTTTTAGAAAAGCAATCATACCTTCTGCAA
ATAATTATAACTTCTATTCTCTTTTGAAATAGTTGTATCTTGTTTCTTTTCTTGCATGTTAGTATGATCTTGGACATCCTTACCTTCCTCCTGATTTTAA
TGAGAGCAGCTTTAATAATTTGCAGCTAAGAGGTAACTGGCCTAAAAGAAATTAGGAAATACACTTAGCTTCCTAGTGAGGCTTAAAAATCAGAAAAAAA
AACAGTGTTGAATTTTATCAAATGATCTTTTGTTCTTTTTTTAAAATAATTATGTCCTCTTATTTGACCTAGTGATGCAATGTGTTATATTAATATATTT
CTAATATTAAACAATCCTTGCATTTCTGAGGTAATCCCTACTTGATTATGCTGGGTTATTGTTTTAATATACTTTGACTTAATTTTCCAGATTTGTTATT
TAGAATTTTCACAACTGTATTCATAAATAAAACTTGTTTGGAAGAACATTTCTTGAAATGCATTCTAAGAAGGAATGTTATGAGGAAGAAATGGTTCCGT
GGTCAAATACACTTGAGAAAGGCAGATTAAAACATTTTAACAAATTTCTTTGCTTTAGGTTTCTCAGAGACTTTAATATGCTAATACATGCTGTAATCTC
TGAGGGAGTGCTTTTCAAGCACACTCACAATAGATTCCATTCCCCCCTCAGAAAGTGACACTAATTTCCACAGAACCCTCTTTGGAATATTAATCATTGT
CATATTTTGTTATGAGGGTTATGTCAACGTCATAAAGTGAGTTAGGATAGCTTTTCCTACTTTAACCTACCCTGGAATGGATTATATAATGCGGGTCTCA
TAAGTTTCTTGAAAACGTGAAAGGCCTARAACCAGTTTTGCAAATTATCCCTTAATAACATTTGCTAAATTTTCCATGGCTATTCAGCTTTCTTATAATA
TTGAATCAATGTTATTAATTCATATTTCTAGAAAATGGTTCACTTTATTGAAATTTTTAAATTTGTTAAAACGTGATTGTGAGTGGAATTCTCTTTTAAT
TCTTAAAATATGTTTCATTTACCTGTTGGTAAATACAATGAAATGAAATGATCTGTGCCAAATACTTGAAACAGTGCATGGCACATGGTAAATGGTAAAT
GTTTTATTTCCTCCCCCTTTTTCTTATTCTGTWTCTTTCTTTTTCAAAAAATTTAGATTTGTCAGAACTTTGTTGATTTAAAAACTTTGTTTCCCAGATA
ATAACCTCTTCTGCTTATCTTTTAATCTACTTATCTCTTCCATCTATTTATTTGATTGTTTAAAAATTCATCACTGTTCACCCTAGATTTATATTTTATT
CTTCCTGCTTTTTTATAGTTTTTTTCTTTCTTTTCTAGCTAGCTTCTTGAATTGATTGAATAATTCTTTTAAAACAAAATTCTTGATTAGTAATGAAAAT
ATTCAAGTCTATCAATTTGATTTAAAAATAGTTCTGTATTTTGTGGTCCTTTATGCACATTGTACAAAACTCAAAGCATACAAAAGGGCTTACAGATAAT
AGTGAATTTTCTTCATTCTCCTGCCTTAGTCTTCTTGTTCCTCACCAGGAGGTAACCACAATTATGATGTTCTTGTGTTTCCTTCCAGAGGTATTCTAAG
TGGATTTGGCTATTGAGTACAGCTTTGTCAGAACTATATATATTTTTATTTAATTATTACTTTCATTATTTTAAAATAGAATTTGCTATTAATTTAAATT
TCTCACTTGATACAATAATTAGGAGGGTCAAATTAAAATACTTATTCATAGGACATTTTTTGTTATTAATTTCTAGTTTTGCTGCATTGTGATTAAAGAA
TGTAGTCTATAATTTCTGCTACTTTGAAAGTCCTGAGGTTAATCATGTGAACAATTACAAGGTCAAATCTTATAAATATTTTATGAAATATTTTAAAATT
TATAATCTTCAAAGGGCACAAAGTATATAATTAATTCAAAATAATTTTTATTTATTGTGGTTTACTTGATCTATTACAGACAGCAATAAATTTATTTCCT
TCTCAAATCGAAATTTTGTTGTTTTATTTATCCTTATAATAACTTAAAAATTTGTATGCCATAATATTTTGCATAAATTATGATTATGATAAATTATGAT
GCTATGAGAATAAACACAAGCATAAAAGCAAACTCTGGCTTGTAAATTTTATTAAATAAATAAGTCCTGAAAGTAACACCTATGCCAGGATATAAACATT
CAATTAGTGCAGCAGGATATCAAATTAGAAGTAAAATTTTTGTTCAGACTCCCCATTTCTAATCTCACATTTCAGTCATAATTACTTTTGAATGCTTTGT
ATTTCTTCTAATAGTTACCTCCATAACTCTAAATAATGTGTTTAGATCTTTCATTCTTAATTAGTAACTATAGACTTTATCTATTGATTCTTCGATATGA
AAGAGTAAGGCTCAAGTTATTTATACTACCCTAAGCTTTCCTTTTCAAATTCTTCCCAATTGTAATTTTTTTCTTAGATGAATAACTTTTGTAATTTTTA
AAAATACTTAAGCTTCAACTTCTTGATTCATCAACTTTAAACATTTTTTGGACTCTTGGTTATTTTTTGACTCTTGGGGAATGAATTTCCCAATTTAGCA
TTCTCTATGTCTTCCTTTCTCTACTGTCTGACTCCTGTTAGCTATGTTATCACTTTATGTGGGGAATGTTTAGAGCATTCTGTTCTCTAATTCTAATTAA
ATTTTCTATACTTTGTAGGTTAATTCTGAAAGTCAAATACTGGTGGAATTTTAATATAATAGTTATATAAATATTCATTTCATGTTTGAGGAATATTGGG
TATGTAGAGAAAGCAATGCAACTCAACACCTACGCCCCTTTAAGGAGAATTTTCTAAAGGTCAAGATTAAATGGATTTTCTCTTTCTATTTTAATATTTC
ATCCATTATTCAGACTATTGTCATGATTTAACTTGTTTCATATTTGGACCATTCTTGGGAAATGTTTTGGGTTTAATTGCCTTTTTTCTTGARAAAAGAA
ACACATATCTTTTTACCATATTGCCAATATCTTGCAATTGTTTAATGCTTTAGTAAGTATCACTCTATTTCTAGGTCTGTTTCAAAGCTGTCACCCTGAT
ATTTCTCTTTATTCCACTTCTAGATTAGTTTCACTATTTCTTAGATYCTGTGTACTCCCTTTTAAGAACATTTCTTTTTCCTCCCCTTCAGGACATTTAT
TCAAGTGATTTTTTTTCCATAAAGGGTGCATGGGAGGTAAACTTCCTGGGTCCTTGTTTTTCTGAAAATGTATTTATTTTTCCCTAATCCTTGACTGATA
GTTTTGGTAGGTACAGAATTCTAGATTTAAAATGATTTCCAGCTGAGCGTGGTGACTCATGGCGTAATACCAGCACTTTGGGAGGCTGAGGTGGTAGATC
ACTTGAGATCAGGAGTTTGAGACCAGACTGGCCACCATGGTGAAACCCCGTCTGTGCTAGAAATACAAAAATACTTAGCTGGGCGTCGTGGCGCATGCCT
CTAATCCAAGCTACTTGGGAGGCTGAGGCACAAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCACTGTACTCCAGCATGG
GCAACAGAGCAAGACTCCATCTCAATGATAATAATAATAATAATAATAATAATAATAATAATAATAATAATTTCTTATTAGTAATTTGAAGGCATTGCTT
CTTTGTCTTTCAGCATTGACTGTTCCTAATAAAAAGCCTGAGGCCAAGTTTATTCTCTTTACTTTCTAGGTAACCTGAAGTGCTCTATCACAAATTATAT
TTTCTTCAGTTTCATTCTGTTCTTCATTATTGTCAATATGCTTTTAAACTCTTGATTTTGTTTTGGGTTTCCTTATATTTTCATATTTTAGCCAATTATT
TTTTTCAGCTTGTTCTCTATTTATTGTGTTCTGACCTTGTTTCATAGAGATGATGACCTTTTACATATTTATGAAGACAGCAAAACTGGTTTAAATTTTC
ACTGAGAAAACTCTTTTTAGAAGTTTCTCTTTCTTTGAGGTTTTAGAGAGTTATCTATTTTTTCTGTTGTTGAAGTATCTTTTTTTCCATAATCCCATTG
TTGGCTCTTTTTCTACTTTTTCATTCTTGAATTGTGTGAGATTTATCCAGGCTTTGTCTTTATTAACAAAAATAATAGGTGAATTATTTTTTGCTTCACT
TGCCGTTCACACATTTTGCCCAGATTTAAACTAAAATTTTAATTTGATGGTTTTTTCAAATGTCTAACGGGCTTTCATCTGTCATGGATTTAGGTGAATT
AATACAACTCTTGCATTTTTTAAACTGTAAGGTTACATGTAATTTGAAGTTGTTTGAATAGTGTAAAACATTAATTAGTTTTTTCTAAATAACTGTGCTT
CCACTCATGCTGATTATTTTGCTAAGTTAAGAGATCTGAGGTCTTTTAGCAAAAGTAAAATAAGTAGAGCTCATAGAATGGGAAGACTGGTTTGTGTAGG
AGCCCATGACTGCAGTAAAGAAAGTTCCCATAAGACTGATTGCTGCTCACTATATTTCTCACCACTGTAGCCCCTGTCTTCTGAAACATGGTGTAAACTC
TATGGGTAATCAACATCTTTTCTTATATTTTTTTGAGACCAGAATGGAAGGAAGCACCCATTTTATGTGGTTGTAAAAATAAAATATGTGATGTATGGTC
TAAAACTACACCTGCCAACCTATTACTGATGATACATTAAATGGAATTTTTATACTCATAGTAATTCTGATCTTTGGCTTTCTGTACTTTGCCAGTCAAT
GAAGGTGTGTGCATGTGTGCATGTACATATGCGTGCATGATTTTTTCATAATGGGAGATGGGGGAGGCCCTATCATACATAATAGCCTGCTGCCTGCTGC
CATGTTAAGAAGTCCAACCATTAGTCTGTTTTGATAAGCTAGGCATCTCAAGTAGCCCTATTGATTTTTCTTTAGTTCTTCTTCTTTTTTGTTTTCTGTT
CATTTTTGTGTTTTTAATTTATCCTAGGCAGTTGAATTAAATTGTCTTCCACTTAATTCATCTCAGCTTCCCTCCCAGTCTTTTTATGTCCAAAGTCCTT
CACCAGTCTTCCTATTGCCTCCAGATTGTGAGCCAATTTCTTGAAGGTGGAGCCAAGTCTCACTCTTTATATCTCCGTATAATACATGTTTCATACATAC
CTACTGATAAGCTGATCAGCTTAATGATGGGGATAGAAGTGAGCTCCTACTCCTGTTTTTTCCGTCAAAGGTAAACCCTGGAAAAGGACAAAGTTCGAGT
AATATTTTCTACGGAGAGCTTGGAACTCAGACGTCTTCTATGGAGTTCTCATCTTCTTGCTCCCTTGCCTTTTGGTGAGGGAAAGAATATGCCACCTGTC
TTGTCTCCTGGGACCATGCCAATAAGTGTGCTGCCCCAGGGGCTCTGCAGGATGGGTTTGTTCTCCTGCTCACCTTGCTCCATCCCTGCCCTACCTTTCA
TCTGCTTTCAGGAGGCTCAAATTGTTTTCTTGTTTCCTTCTTTCCCTTTCCCCCAAACCTCCAGTAAAGAAGAGATTTTGGTATTAAGAAAATGGGCTGT
TGAATTCCAAAATCAGAAATAGACCACATAAATATGTATGAAGCATTAAAACCCTTCTTCGAAGTGTGATTTCCTGGCTAATGGATGCTTCTGGGATGAT
TATTATATATATTTTTGTACTCAATTAAGCCCTATTCAGACCAACTTATKTTTTGGTGAACTTAAGGACCTTATGATTAGCATCCATTAGCATTTCCATT
ACATCTATATTGTAATAATACCATCTAAAATTTCTATGCTGTATCTCTCACAGAGTGCTTTTATGCCATTATTTTATTTGATACTCCCAACAACACCATG
AAGAATGTTGAGATTCTCTTAACATTTTTGTTTTATAGATGAGGAGACTGAGGTGCAGAACATTTAAGCGACTTGTCCAAAGTCATGCAGTGAGTAAGGG
AGTGGAATGCTGACTAGGAGCCATGTCCTCAGCTAGTATGGCAAGGGCATGCTCCCTATCACTGCTAGTAATAGCAAATGATCACTACCACTGAGTATTT
GCATCATGCCAGCTACTATATTARGCTCTCTGTATATATTTTCTCATTTAATACTCCTCATAACCCTGCAAAGTAGGAATTGTTATTATTCCCCCCGTTA
CATAGAGGGGAACTGCAATTTAGAGAGGTTACGTAACTTGGTCCAAGTCACACAGCTAGTCCTAGTATACCTAGGACTATACTGCAGTTGGAACCCAGGT
TTCCCTGATTTCAGGCCTCAGCCCTAGCCACGTGGGTCCCTCATGGTTTTACTGGACTGAGCTATGAAGATATTCAACATAGCATAGCTCATAAAGGCTG
TTCCAGTTCTCATGATTCCCTGAGCTGTGATTACGAGCTCTCCTTGTGACTCCTATGGCTCTGGGGCATATTGCCAGAGGTAAAATTGGGAGCTGTATGG
ATCAGAAAGGCAGAGAAAGTGAAGGGACTAATATTTACTGAATGCTTACTATATGCCCAGTGGCCATTAAAACCCATATCACAGGAACCTTGTAAGTCTG
GTATTATCATTTCCACTTTATGGAGGAGGAAACACAGGTTCAGAGAGGTAAAGAAACGTATGCAAGATTGTAAGTGGAAGAGTCAGGATTTTTAGTCAGG
TCTGTCAGACYTTATAGCCCATGTTTTCTCCTCTATGCCTAAGTAGGAGTGGGCTCAGTGGTGATGTTTTAAGGGCTAATGTTGATGTTTTAAGGGCTAA
TGAGAAGGAGCAGTATTTCTAAAGGGCTTAAGGAGGATTATAAGGAACAGAGATGAATTTAGACCCTGGTGGTTATAATGCATTATAATCAGTACTCTGG
AGCCCTATAAAGGAACTCATAAGAGAACCCAAAGAGAAGAAAAACTGTGGCAAGTTTTAGGCTACATTGCCTAGCTTATATCACAATGCCAGCAGCCTTC
AACTGCAATACRTAGGAACTGGGACTTAAAAACCAGCAGAAACACATTGGTAAACATCATAATGACACGCATATTTAGGAAAATGATGTTTTTAATTTCA
AAATCTATGCAGCCTTGCCTTATATAGTCAGTGCTAGGAAGTTGTGGTGTACCAGGAAATGATTTACATTTTAGCCTTAGGCAAAAATATGGAACTTGTA
ATTATGTCAGAGAGAGGCAAAACCTTCCAGATTTTACAGCTTTAAAGCTGTAAAAGTCTCAGTTAGGATGTGTGTTGATTAAACTGTGGTGTGGCTGAGC
ATTTTGCCTGAAACTTCATAGGGAATAAGCATCTGTTAATGACTTTCAGGTAAAAACCTTCCTTCTAAACCTTTAATGCAGTATTGTCAAAATGTGGAAG
TGGTGGGTGACAAGCATTTTCTTGTTCCTTCTAAGGCCTTCCTGATCCAAGGTAGTTTTGAGCACAAACGGCTGTGCTGGTTAAGCTTTTGGCTTGTGGG
AAGAAAGCCGCACATCAACTCCTGATACGCACGAGCTAGCCTGAACTCTGTGATGACCATCAGATGCAGATAAACTGCCAGACAGAGAAGCTGTCTTGTA
GATGTGACTTTGCTGCCTTCAAGAGCAGGGCTTTCTGCACCTATGCTCTAAGCGCCCTTAGTGTTCCTCTCCCAGTGGTCCTGGATTGATTTCTCTAATG
GGGAGCCTCCTCTGTAGGGTCTACAAGGTGACTGGTGGATTGATTGCCCTACTCCACGTAATGTGAGTAGGCGATTGTAAAGGGGAGGCTGAAGAGCTTG
CCTGTTTTCTTTGTTATTCTTCTTACTGAGAGAGGTGGACTAGAGTGGTAGTTCAAAGATCTGGCTCTGCAGTCACAGATCTGGGTACCAATCAAGGTTC
TGTCCCTGATTTTCTGTGTGACCTTGAGCACATCATTTATCATCTCTAAGCCTCTTTCTCATCTTTTAATGCTTTATTCACAATACCTGGTTCACAGGAT
TGTTGTGGGAATTAAATGAGATAATGTGATATTAAGTCCTTAGGACTTTTAAAGTTGACATAGTATTATAACTGTTACCTCCGCTAATAGCGTCAAACCT
TGGGTCTAATCAGGGCTCAKTCTCTTTACTATTTGTGTGACCTTCCTAACCATTTTGCCATTCTGTCTCCCTTCTGAACATAGCAAATATAACTAGCTTG
CTTTGGCCTTCAAATTAATAGAATTCATCAGCCACAGATCTCTGTGAGCCACTTGCTCTGTAACAGGGAAGGAGTATGTGTGTCTGGCATGGGAGCTTGC
CAAGAATATTTGCTCAATAGCTATGCTATTATACCATCACGTGCTGCTGTGGCTTTATAGGAAGTATATCCTGGATGGTTATTACATATTTAGCTGGAAT
TTAGTTTCCTAGGGAAATAAAAGTTTCATATTTTAAGAATAGACAATTATTTTGAACAAGTGGTTTATGTCCACAGAAAGTTCATGTTCTTATCTTTTAT
GTTTGAATGAAGGCACTGTGTATGAGGTGTCCCTGAACATTGGAAGTCTAAAGAGCATGGATTTGGATGTCAAAACTGGGTCCAGATTGAAGTTATGAYA
TGGACCACCTGTGAGAGCCTTAATTTCTTCCTGTGTGAATGTAAATAATACCTACCTCATGGGATTAAAAGAGAAAATAATATAAGAAAGCATATATCAT
ATTATGTAACACATAGTAGCCTCTCAATAAAAGTTACTGGTTACTATTTTGGGCAGATCCAAACATTATGTTAATAAATTTCAATGGCTCCCACATTTTA
TTCTTTGGGGTGGCACATTCTGTAGAGATATCTTAGGGGCTACAGAGGGACAGTGATGGAGGGACTAAGGAAATAGTATCCAGGCTCTCTGCCCCACTTC
CCAAGAAGCTCTGCTTATGTCTGTTTTATATCTAGGGCATCTGAGATTGTTTTACGGGGGAGAAAGAAGGCTTTATAAGTGCTTTCAGTTCAATTTATTA
ATTTTTCCCTCAATGAACCGTAGTTTTAGTGTTGTATCTAAGAAATCTTTGTATATCCCAAGGTCACAAAGGTTTTCTTCTAGAAGTTTTTATGATTTAG
AGTTTTAAATTTAGGCGTATGATCAATTTTTTAGTCCATTTTTGTTTATGGTAAGAGGTGTGGTGTATTAGTTTGCTAGGACTGCCATAAAGCATCACAG
ATTAAGTGGCTTAAAAAATAGAAATATATTTTTTCACAATTCTTGAGGCTGGAAGTCTGAGATCTAGGTGTAAGCAGGGTTGGTTTCTTCTGAGGCCTCT
CTTCTTGCCTTATAGATGGCCATCTTCTCCTTATGTCTTCATGTGGTCTCTTCTCTCTGCCTGTCCCTGTCCAACTTTCCTCTTCTTATAAAGACATCAG
CCATATTGGGTTAGGACCTACCCAAATGAACTCATTTTAACTTAATTACTTCTTTAAAGACTATTTCCAAATGCAGTCATATTCTGAGGTACTGGAAGTC
AGGACTTTAACATATGAATTTGGGGGGTACATAACTGAGCTTATAATTCATGGATGAAAGTGTTTTTTTCCCATATGGATATTCAATTGTACTAGTGTGG
TTTGCTGCAAAGAACCTCCTTTTTCACTGAATTGCCTTTGTACCTTTCTCAAGAAACAGCTGTCCATATAAATATGGGTTGATTTCTGCACTCCCTGTTT
CGTTCCACTGAACTATTTGTCTATCTTTGCTCTAATATCATACTGTCTGGATTACTTCCATTTTATAATATGTTTTAGAATTGACAAACTGGACTTCCTC
AAAATGAAACATTTCTGCTCTTCAAAAGACACTGTTAAGGGAATGAAAGGACAAGTCACAGACAGGGAGAATATATATATATACACATACACATCTGCAA
AAAGTAGAGCTGATATGGGACTACTCATATCCAGAATATATAAAAAACTCTAAGATATAAATAATAAGAAGGTAACCTAATAAAAAAGGACAAAAGATTT
GAACAGATACTTCACCAAAAAAGATATGTGACTAGCAAATAAGCACATGAAAATATACTCAACATTATTAGTCATTAGAGAAATGTAAAATAAAACCACA
ATGAGACACCAATACACACATATTAGGAATATAAAAAGACTGACCATATCAAGTGTTGGTGAACATACAGAGGAACTAGAACTCTCATATACTTTTGGTG
GGAATGTAAACTGGTACAACCACTTTGAAAAACAACTTGGCAGTTTAAAAAAGTTAAACATACACTTACATGGTCCAGCCATTCTATTACTAGAAATGAA
AGCATATGCCCATATAAAGAGTACAAATAAATGTTTTACTTGTTATAGCCCTCCTTGTTATAGGAGTTTTACTTGTTATAGCCCCAAACTGGAAGCAACC
CAAATCTCCATCAATAAGTGATTGGATAAATGAACTGTGTTATATCTATATTATTCAGCAATAAAAAAGAATGAACTATTAGTGAATGCTACCACATGAG
TGATTGCAAAATAAATATGCTGGATGATAGAAGCCAGGTATAAGACGCAAACATGCTAAATGATTCCATTTGTATCAAACTCTAAAACATGCAAACTAAT
GTACAATAACAGAAAACAGATCAGTGCCAGTGGTAGAAGGGTAGGAGGAAAGGAACACCAAGGAGCCTGAAGAACCTTCTGGGAGTGTTCCTTATAATAC
GTTCATTATCTTAACATATATTCATTCAGTTAAGGAACACATGTTCATTATTTTAACTGTGATAATGGTCTTATGGATGTAAACATATGTCAAAACTTAT
TAAATTATATATGTTAAATATGTGCAGTCTATTATATGTTAATTATATTTCAGTACAGCTGCTAAAAAAGTGATAAAAAACATTTGGGCCAAATATGAAA
AACCCAAGACTAAAGTGAAAAATTACAAGACTGTTACTGATCAATGTTCAGGCCTATTAAAATTTCCCCTATCCCAATGGCACTTGGGCAACTACTTTTC
TTGTATACTTTAGGAAGTAWCTAATTCAGACAGGGGACTAAGAAGAGACTCTTCACAGTGCTTGCTGATAGCCCCAAAATGCAGCATGAAACCACCCAAA
TGCCAAGACAAATTGAGAAAGGTTGACCTTTAAAATATGTAGAGTTCAGTACCTTTGAATTAAATTGCATGTTCAGCTTTGGTTCTAGTTGCTAGAGGCT
ACTTTTTTCAAGTCCACAATTGGCTCCCCCAACTGCGTTTGAAATTCAGTAAAACCAGCCTTTGCACCTGCCTTTGTTAAAATCTGTACCTAAATTGTTT
GGAACAAGAAAGAATAGTAACTAGAAGCAGATTTACTGCAGTCTGGACTTAGTTGTTTGGGTGACCTCTTTTTGCTGGTTTTCTGGGTTGATTAGACTTT
GCTAATTGACAGAGTGTTTGGCGCAATAGCCCAGGCAGAGCCATTCTGCTCTGGACTTGGATTTGGTACAAGTATTCCTGGTGGTCAAGTCATGTATTTT
CTAGTTTGGAAACAGACGTTGGAACAGGACTGCTGGAGCAGGTTTGCAGGATTCTATGGTGGAGAAACTATAATGACTTTCAAAAACATGGGCCAAGGTA
ATTTGGCTGTCTTTTCATTCCCATCTCTAAAAGAAAGAACCCACCAAAGTTCAGAGCATCTTAAACATTTTGAAGTTGTGACAGTGAATGTGAATAATTG
GTGTCTGTGGGACTCTAAGGGTAGAAAGCAGGGCTTACTAGTGCTTCTTCTTATTTAACAGAGAAGAGCCTGGAAAAAAAAAAACCTATAGTCAGACATA
AACATTTCAGCCTTATTTATTTTCAACCAGGGAATAGCTAATACCACGATGCTGTAAAGTTCTTGCATTTAAATGTCCTATTTCACAGGTCCAAACCCAT
GTTCCACATAGTAGTATTATAATAGCACCATGGAGACTATCCAGTAGGATCCTGAAAGTCTTCTTACCCACTCTTTTCCATTTTGCTAAGCACCTGGTTA
AATTAAAATTCCAAACAGTATTATTCAGAGACAGCATGGAACAGCGGATTCTTAATTCTGGCCCCCCCATTCATCAAGCACACATAGGCCAGGCAATGCA
TTTAGCACTGGAGATACTGAAGTAAGGGATTGCCTCTGCCTTCAATGAACCTTTGGTCTAGAGATGGAGACTGAGAAATAAACAGGAAATTCTAAGCAGA
GTGCTGTGTACGATGGAGAAAGTCCTAAACAGAGTAATATTGGGACCTGTAGGAGGCCCTCCCACTCCAAACCATGAGGGTCAGGCAAGGCTTCCCAAAA
GGTAAGAGTTACCTCCTCAAAGAAGCGGGGGAAATTGTCTCTTACTACTCTATGACAATGAGCAAATCACTCAAATTCTCTGACTCTSTCTTTTGGAARA
AATAACATTTACTGGTTGCTTTTGAGGATTGAATCAGATGAGATATAGAAAAGCCCTTAGCCCAGTGCTTGMTAGGGGAAAGATCAATATTGGTTTTCAT
CTTTCCTTTCTTTTTTCCTCCCCTCCTACCTCCATCAGGTGGGGAGTGTGACTTCCGGAGCACACTACACAGAGGAGACTTTTGGAGGGTTTTTAGTTGT
CATCTCTGTCACTTGGTGTTTATCTTCCTGCTTCTAGTTCATTAGGGCCTTTTTCTTCTGATGCTGGCTTGGGCTGTGTTTATGTCTTTCATGTGCTTCT
GTGACACTTCATCAGGGGAAGTGGCTGGCCCTCTGAGCAACTGCTGGAGGCGTTGGGAAGATGGGAATCAAATGCAGCCTCTGTAGGTGGGTGTGGAACA
GAACAGCAGTGTGGCCCTGTGCATGTGTCAGGGGCAGGCAGCAGCCATCATCTGTCCTCATGTCCTGCCTGTGGGGTCTGATGAGAAAAGAATGAGTTAG
TAATGAAGTAGAGAGGAGAGAGAGCTGAGTGCTAAGTGGAGAATAAAATCATCTTCAAGTATAACTCAGGTTTACTCTGGAGCTGTGTATCCTGCAAATA
GTACAGTATTCCCACTCTTGGCCAGGCACTAACAGCTGTGGAAGCAAATGGTGTAACTGCCTTTAGGGGGCGTTCTGACTGGCCAGCAGGCATTACTGAT
GCAGGGAAGCAATGCAGAAAACTCCACGGCAAGCTGGGCACACTTTGCTCTCTGTTGCTCTGTGTGTCCTTTGGTTTATTTTTCTGTGTACTCTCCCCTC
CTAAGAAGACTGTGCTCTTTCCAAACCCAAATCACCTTCTTATGTTGCAAATCCACCTAACCGTCAGAATTTTTTCCTGCACAGCTGTCACAACAAACTT
CCCCTCATCTGCTACTAAATGTATCAGACACTGTTGTGCAGTCTGTGAGCTGCCGACTCATTATCCGAGGGCTTTCCAATAGAATCTGATGTTATCCAAA
GCTTCTCATCTGTTTCAAAGGGAACAATTTCCTGCGTTCTCTGGAGGGAAATCAAACGCACTACGTTTAGGAAGTAGGACGGTCCTTCACAGATTTAGTA
GATCGCAAGGCAATTATGGGCTGATTATTCCCAACTTAGTGTTTCCTCACCTCATTTCCCATAACAGCGACTAGAGTGACCTGAAGATGGGCTTTTTGTC
TTTCCAGTGAGACATCGGGAAATAAATCACAAAAATCAAGATAAGTTGTGGTACCTTTGATTTCCCTCTGTCCTCTTCCCAAGCCGTTTTTGGCACTCCC
TAGAGGAAACCAGTTCTCCTCTCCTCTTTTACTTCTGCAGTGGGCACTTGGGCTCCAAGTATCTTTTTTTTTTTTTTAAGTTCATCTTCATCATCCTTTA
AATTAAACACCTACTCCCCTGATAAATATGATGCTCTTTTTAACAATTAGTCTTTGGATATAGAAGTTGCTGATGAGGAAAAATCCCTTTCAGCTGGTTA
CCTATGCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGACTCTCACTCCGTTGCCCAGGCTGGAGTGCAATGGTGCGATATCAGCTCACTGCTGCCGA
TGCTTCCCAGATTCAAGCGATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCATGCTCGGCTAATTTATGGTATTTTTAGTA
GAGACAGGGTTTCACATGTTGGCCAGGCTGGTCTCGAACCCCTAACCTCAGATGATCCACCCACCTCGGCCTTCCAAAGTCCTGGGATTTCAGGTGTGAG
CCACCGTGCCCGGCCCCATGCTTCTTTATACTAGTTCTTTCCTCCCTTCTCACCTCCAGCCTGGGATGTRGTCTCCACTATGGTCTTTATTCCATACTCC
AAATTTGTCTCTTTCCAAGTATCTTCCTAATTCCTTTTTTTAAAGTTACCTTTTTAATTTCCTGCCGTGAAACATCTGCTGTATCATCTTGCTTCCGCCA
CTTCCTAGAAAACTTGTTTTATGAATGTTCTTTCTCCTCAGTATAATTTTCCTGGCTGTGCCCTGATGTAGTGCTACAATAGTTTTATTTTACATTGACT
GATTAAGCACTTTGAATAATTGTTTTAGCTCCATTATGGCAAATCTATTTGGCTTAACACTTTTTTTTTTTTTTGCAACCTTTGATTAATGCCTGACCAT
TGGGACAGAAAGGAATTGGCGCATTAATTTCCCCTTGACGCCACGGAGAGCTGCTCTTTTTCCTGTGCAAGAGCCTGAAGCAACAGATGCTCTGTGTTCG
TATTGCAGGGGAGAGCACACACTGTTGCAAATAAGTATGTGTGTGTTCCCGGTCAGTGTTTGCTAATGGTGCTGTGTGGCAGCCATTTCATAGCAGAGAG
CAAATGTTAGGATTTAGGGAAAATTGTACCAGCATATCAGATTTTAAAACGGAATGGTGAATTTTTGTTGAGTTAACAGTGTGTAGCTAGACGATGTTTT
CTTTCTAAGCTCATGAAACTTAACAGCTGTTTAGTGAAGCAGTATTTTCATATATGCCTGTTTGACAGGTTTAATAGCAAATTTTGCAGTAAGTGACTTG
CTGAACAGGACTTCTGGCTTGGGCTGTAACAAGAACTGTATTTGCAGCAAGATTCATTGAGGGTCTTTGTGCTTTAGTGTTTACGGGAAGGGGAAGCCTG
GCTAAAGTGAGGAAAACTGAAAGGCATAATCCAAAGGAAATTACTAATATCTCTACCAGAGTATTCCTCAGAACTTGTTATTAACTAGTTTAGAGGAAGA
TAACATGGGGAAAACATGCTGTTTAGCAATAAAAACACATGAGTACAATCAGCTTACTGTAACCCATTATTGCTGCATAGTAATTAAATCTATATATCTC
CAACTTTATAGTTTTCTGCAGCAGAATCTCTGAAAGACTTCTGCACTTCATCTGATTCAAGGAAGCCTATATTCTCTCCCCTGTCTCTGGAAAGGCTACT
GTGCCTTGTAATAGCTTTTTAATATTGCCAGATCGAAGACAAATGCTTCACTGGTTTTACTGGGAGAAATAAAGCACTTCCTATTACACTTATAGGGGGG
ATCCAAGTCTTGGGAAACTAGCACTTTATGAGGTTAGAATCCCTTTTCCTTTCTTCCCATTTTTGAGTTCTCTCAGATCGTAGGACCTCAGAATCACTCA
TTCCTAGGGCTACCCACTTTGTATTTGGCTCCTAAGTGCATTTTTCAGGATTTATCTGTGCTTTTATTGATTGCATGTGCTTAGTTATACCTGCTGATTG
TGGGTGTGTGCATGTATGACAGAATCACAGATCATAGACCCCTGTTCTCCAGGGCAGCCACCCTCATGGTCAGCCCAGCATCCTCAGCTAACAAAAGGAC
CAAGAGCTGTCTTACATCCTCTTTGGATTTCCGCATAGATTTTGCAAGCCGTAAATACAAAATTTGTCTAGAGTTCATAGTTGGTTCTGTTTACTGGATT
TTTTTTTTTYTTTTTTTTTTTGAGACAGGGTCTGGCTCTGTTGCCCATGGTGGAATGCAGTGGTGCAATATTGACTCTGTGCAGCCTTCGCCTCCTGGGC
TCAAACAATTCTCACACCTCAGCCTCCAGAGTAGTGGGGACTACAGACACGTGCCACCATGCCTGCCTAATTTTTGCATTTTTGTGGGGGGTGGGTAGAG
ATGGGGTTTCACCACTGTTTCTTAAGCAGCATGTAAGGGAGCTTCATATTTGTTTGTCTCAGTCCCATCATGATGTAGGTCAAAAGCAAGTTACATTCAG
CTAGCTGTATGACAAAGATGCCTCCTTTTGAACAGTAAGAATTTAGGCTTTGTTGTTTTATACACTCAGGCAACTTGAAAAGGATAAAAGAAAGGTGGAG
AAAAGAATAGTAAAGTGAGCTCAATTAATTTTCTAAGAAGGCAAWCTAAAAACTTCTCACATGTAAACAGTAAGATGTCAGGGACACAAAATGAGTTAGC
CCGTGTTGCTGGGATGAGGAGGGATAGCAGAGAAATGGCCATATGATGTCTGAGAGTGTGGCCAGTGGGAGGAGAGGGGTCTACTGGTGGACTTCTCTCA
GCAGGTTGTCACCTCCACACTTTCTCATCCAGAGCTCCTGGGATTCCCTCTAGGAAGGAATCATTATACCATTTGCCCTGCTCCCATCATCTCACTAACC
TGCTATCACTGTAGTAACTCCAAGAACCAGTGAGACAAGAAAGAGGGATGTCATGAGCTGCCTCTGCACAACTGTTGAATTCAATTTTCTTTCTTCAAGA
CTCCTTCCCCCATGTTTCTCTAATGCCCACACTTTATTCAGGATGTTGTGTTCAGTAGCAGAGACATTTGAAATGAAGCTTCCTTATCATGGCTTTTAGG
AAAAATAATGGCAAAACTATTGGATACAGGTGAATTCTAGTCCAATATGGTAGGAGAGGTGAGCCTGGAATTGCCCTTTTTACATATCCTGCAGTCTGAT
TCTAATAAAAGTAGACACAGTTCTGGTACACTACTATGTGGTTATTTCCAGAAATATAAATGAGTGTTATTTTATATATATATATTATATATATATAWAA
TATATAATATGTACATATATAGTATTGAACCGACAGTAGGTACTTATGCCTTCTAAAAATGTAGTAGTAAGTGAACATAGGCAGGCAATATAGGAGGTGA
TACCTGAATTAGTTTTGAAAGGCTCTAGCACAGCCACCAGGCATACAATTAGGGAGGAGAAGTGGATGTACATTCTATACCGAAGAATAGTTCCCTCCTT
ATAACCCAAAGAACAGTGCTGAATACATCTTACATGCTTTGTAAATAGGTACTGTCTTGAGCTGTTGTAACAAAGAGAACATATTGGAGAAGAGGAGGCT
GGAGGCAGGGAGATCAGTTAGGAGATTATTGTGGTAGTTCAGGTTGAAGCAATATATATATATTATATATATATAAATATATATATTTATATATTTTAAT
GTTTATAAATATATAAATATATAAAACATTATATTTTAATGTTTAAACTTTTAAAAAATCAGATAGGTAGGACTTCCTTTTTCTTTTTTAAATAATAACT
ATGGAAGTGCAGAAATAATAGAGATTCTATTGTGCTCTTTACCTGGCTTCCCCATTGGAACATCTCTACAACTCTAGTAGAATGTCAAAACCAGGAAATT
GCCATTGGTACAATCTATAGACTTTATTTAGGTTTCAGGAGCTGTTTCTAGGTGGGACTTTCTAAGGATTGCAAACCCCATGGCTTTTTCTTTTTAAGCA
GGTAGAATTGAGGGTGCAGTGGAAGCAAAGGCTCATGTCTGGTCTCTTCCTTTCTTTCTGTATTGCCCTCCTATCCCCCATCATGTGAAAAATAGATACT
AGAAAACTCATATCAAAAAGTACAGTCTGGATGCTTACTTTGCAGGGTAGTATGTTAGGTGCCCAGGAGGACATGAATGACTATAAGAAGAAATGGTTCT
GTAATTTGGAATCGTTTGTTTATACAGAAAGATTCAGCTCAAGACAGTACCTATTTACAAAGCATGTAAGATGTATTCAGCACTGTTCTTTGGGTTATAA
AGAGGGAACTATTATTCGGTGTAGAATGTACATCCACTTCTCCTCCCTAATTTTATGCCTGGTGGCTGTGCTAGAGCCTTTCAAAACTAATTCAGGTATC
ACCTCCTATATTGCCTGCCTATGTTCACTTACTACTACATTTTTAGCAGGCATGAGTACCTACTAACTGTCGGTTCAATACTAGATCCCAGGGGTTCAAA
CATGGATTCTACACATTCTCTACCCACAATGAGTTCACAGTTTAGTGGAAGAGAGAGACATTTAAGGAGGAAAATGCAGTAGAGTGTTATCAGAGGTATA
AGTAGAGGTATGAGTAGGGTATATCTTGAATGCTGTGGGGTTTGAACAAAGGAGGAAAAAATGAATTTCTTTAGAAGAGAGATAACTGTTGTAACAAAGA
GAACATATTGGAGAAGAGGAGGCTGGAGGCAGGGAGATCAGTTAGGAGATTATTGTGGTAGTTCAGGTTGAAGAAAGATAACTGAAACCAAGGTGGAGAG
GAAGACCTAGGGGAAGGGATGGGTTTGGGGGCTACTTAGGAGCTAAATTTAAGAGCACTTACTGATTAACTGACTATAGAGTTGAAAAGAGTGAGGTGTC
CAAAATGGTCCCAGATGATGGGGTGGTGGAAGTGCCATGCACCAAGAGGGAGAGTCTGGGAGAAGATCAGACTCTGGAAGAAAACTCTTGACGGGGTATG
GATGTATTGAGTTTGGGGTGTCTGTGGGATGTCCAAACTGAGAGAGCTCACTCAGTTATAGATGAGCTCAAATGATATATGGTGCCTTGATGTGAATGAC
TTTGCCAGTTAAAGTATGTAGTAGGACAAGAAGATCAAGGAGAAGCCTTAGGAATCACTAAAATTTAAAGGACAGATGGGGGAAGGGACCCTGCAGGAGA
GATTAAGAAGGAGAGCAGAGTGAGAGGAAGAAGAGTGTTTGGAAAACGAGAGGCAGTCAACAATATAAAATGTTTTAGATGTCAGATATGATAGAAATTG
AAATGTTTTCATTGGAGTTAGGGACAAAGGACATTCTTATTGACCTGTGTGAGTTCAATTTCAGCTGGCTGGTTGCAGGAGACAGCAAAACAGTAGATCA
AGTAGTGATTTTTAACTATGAAACAATTAAGAGTTTGGTATAAGGCAATTTAGTTAAGTGCTAACATGGAGTGTAAAGAAAAGTGTAATTGATATTAATT
ATTTAAGAAAATCCATAATAGAATGTTAGAGCAGAAATGCCACCCCATTTTTAAATATAAAGAGAGATTTCAAGTAAATTGTTCAAGGTCATGCATCTAA
AGAGGAACAGCCAGGACCAGGTCCCAGGTCTGTTTACTCCCTTTATAAAAGAAAATTCTGGATAGACTAGTTTAAAGGAGCAAATGAATGTCTGTTGCAG
GAAAAGTGATTGTTAAAATGATGAATCAGAGCTGTATACTTCTATTGTGAAATATAACTACTTGTTTGATGAATTTATTCATGTATTCTATAAATATTAA
TAGATATTGTGCTATTTGTTTAATATGCAAAGACAAATAAACAATTAGTTGTAGAGAACATGCTTGGTGAATTTTATAAAAGTAAAATATTATCGCCATT
AAGTGATATAGTCTAGCAGGGTGACAGACACAAAAATGGTATCATACAATGTGCAATTGAAAAGGCAGGAAATAGTTTTGCCTAGGAGTTGGAGACTAGT
GAGCTGAATCTTGCATCATGATTGTGATTTCTCCAAATGGAGAAAGGATTAAAGGGAACTTTCAACAAAGGGAACAGTATGAACAAAATCAGACCAGTAT
AAAGAAAGTCTATAACTTCACAGACTGTTAAACAGCCTGGTGGGGATACGATATAAAGGTAGGGAAATAACAAAGAATTATTTTGAAGACTAGAAAAGTA
TTAGTTTGTTTGTGCTGCTATAACAAAATACCTGAGACTGAGTAATTTACAAAGAACAGAAATTTGTTTTCTCACAGTTCTGCAGTCTGGGAAGTTTAAG
ATCAAGGCACCAGCATTCGGTGTCTGATGAGGGCTGCTTTCAGCCTCTAGGATGGCACCCTGTGGCTGCATCCTTTGGAGGGGATGAATCCTACATCCTC
ACACATGGAAGGGACAGAAGAGCAAGAGAGTGCTTCCTTCAACTTCTAGCCTTTTTATAAGGCTGTTAATCCCAGGCATGAGGACAAAGCCCTCATGACT
TAATTATCTCCCAAAGGCCACACCTCTTAATACTGTTGCAGGGGATTACATTTCAACATGGGCCAGGTATGATGGCTCAGACCTCTAATCACAGCACTTT
GGGAGGCCGAGGTGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTTGCCAACATGGTAAAATCCCATCTCTACTAAAAATAGAAAAATTAGCCG
GGCACAGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAGACTGAGACAGGGGAATTGCTTGAACCCAGGAGGCAGAGATTGCAGTGACCCAAGACTGTG
CCATTGCACTCCAGCCTGGGTGACAGAGCGAGACTCAGTCTCAAAAAAAAAAAAAAAGTTTCAACATGAATTTTGGAGGGGACACCATCTCAAACCATAG
CAAAATTCATAACCATAATACTGAACAGTAAATAGTGGGGAAACAGATGTTTTAAGCCAAGGTGTCCTTTGATCTGGGCTTAAGATAAATCTGGTGGCAA
TGTGGAAGATGAGTTGGAAAGGGACCTCTGTTTAAGGCAGTGAGATGTGTGCAGAAATGTGTCACATGAGTGATAATGAGGTTGTGAGCTAGGGAAGTGA
TGGTAAGAGTGAAGAGGAGGGAAGTTAGTCAAGAAAGAATTTGAAGGCAGAATTACAGGCAGGGTTTGGCAAGTGTTCACCTGTTCTTCCTGAGGGAAAA
AGAAGAATCCGAAAAAACCCCACAGTCATTTCTAACTTATTGACTAGGGTGGGGAATAAAGGGAGAGCAAGTTTGGAAAGGAAGATTCTGAGTTTGGTGT
TGGATATTTAGAATTTCAAGTACTTTGGGAAATCTAGGTTAACCATACATGAGATCCTAAACACAGCATAGTCATAGGTCTTGCTTATGGTGTTAAGTAG
TGTAAACAATATATTTAATTATGGATCCCCAAGAAGCACTTAAAAGTAGTTTATAAGTTGGAAATGTATTCAGATACACGGCACAGAAAATCTGACTAAG
TGGCTAAAAGAAATAGAGTTTATTTTTCTCATATACAGGAAAGTTGGTGATGCTGGTATTGGTTCAACTGCTCAGTGATGGCAAGACCAGTTCTCTGGGA
CTTGCCATCATGGTTATAAATAGCTGATGCAGCTCTAGAAACATAACCACTTTCTTGTCAGGTGCTTCTGTTTGGGTCTGTTTGGGTAGAACTGGGTCAC
GAGGCCTCCTCTGGCTGGAAGGTTGGCTGGAAGAGCGGGAAGAAAATTGTTGAATTCACTTAAATACATACTTTCCCATCCTATTAGACACAATTCCTCT
YTTTTAAAAACAAATAATTTGTAATGCCTTCTTTATTATCCTGAAATAAACATCATAGACAATCTGCTTGTGTACATTTTTAAATAAATATATTATCCTA
ACTGTAATATAAAGGAACAATTAAAGGAAAATAATTTATAATTATTTCAAAATGTGAATTCTAAGGCATGACTGCACTAGAAGACATAATGAAGAAGTCA
GATTCTTGCACGGTGAATGTGACAGCAACATATGCAAGTGATACAAGGGTATGGTAATGGTGTTTCCAGTACCACAGGCAGCATATTCATTTGTGTTTTA
CTTAAAAGATGACCAATTTTGGGTCAAGTTCTGCACAAAACACAGCATAGTCTTCTCTTGATATACAAGATAGTTGTTTCTTGAAAGAGTCAACTTGCAT
GAAAACTGTGCAACAACAATTTTGTATTCGTATACACAATAGAGTTACATTCAAGGCCAAGGTAATAGGTTTTTCACATTTGGAAAGCTATTTGGAATGT
AGGAGAGTTCTTAGTACACAGATTGTCCCCCACATAGCTGTCTGTCTAGTGTCYCCGGCCTCTGCCAACTAGTTACCAGTAGAATCTCCATACCATGGTG
ACAAGTAAAAGTGCTCCCCYCACATATTCAAAATGGCCCCTAGGGGCAGCATCATCCATATTAAAAACAACTGGCTTAGATTAATGGGACTGGACACTTT
GTACTCCAAACAAAATGGAGGTTGGTTAGCAAGGAAAAGGGGGAATGGATATTGAATAGGGAATTAAGTGTCTACCAATAGTAGGAACTGGGTTTTCCTT
ATGTTTGTATCTTTTCCCAAATTCTTGCAGAATTCCTTGCATATAGTGAGTTCTCAATAAGCTTTCTTGAATGACTGAATAAATAACTGGAATGTAAGCT
ATGGGAAATGGAAACCCAGTATTATATGAGCTTTGAATAAAGGCAAAAATCTTCCTTAAGATACTTAAAGGGCTAACTACCGTAAATCCAGGAATATTGT
CAGAAGTTGGGAAGTGAACTTTGGTGTGCCAGTGTCTGTGCTAGGATTTAGCACTTCTGGACTTTCTGTCTGTTACACATTCTAGACTGAAGACTGAGGG
TTAAATTTATATCAGTGAATCCTGTTCAGGAATGGAGGGTTTAGGGGAAATATTTAAGTTTTCATGTAAGTAGTATAGAAGAAAAAGTAACTGTCACAAT
AAAAGATCAATAAATCTCAGGCTTTAAATCTTAGTCTCTCTATCTTTTAGCACATTCTCTTTCCACTGTGTTCTTTTCCACTTCTGTTTGTCTRTTCGCT
CTGGCATTTTTATCATAGCCTGAGACATTTTCGAATGATAATTTTTAGGAGAAATATTTAGAAACAGAATCAAAGGGCTTTGTTTTGTTTCCTCGAAATA
TAAACCTATTATTAGAATATAATTCMCAGTATGAGAAATGTAGGTTTTGCTTGAGTTTGCTTCCAGATTTAAGTAGAAAAGAAAGAAAATGACATTATAA
AGAATTTTATCTCTTTTTTTGTGAAAAAGATAATCTGTAACTATGGATTGTGAAGACAATATATGAAAAGCAAATCTTTTTCAAACAGTGCTCCAAAGTT
GCCTTTGAATATATAACTTCTGAATTCAAAAGCATGATACAGCATGGGTTTTTAAAAAAATAGTTGTTTAACATTTTGAAGGGTATAACATTTGATAACT
CCATACTTTGAATTCAAGTGAAGGAACAATAACTTCAACCTTTTGTTTATAAGAATAAGGAACACTAAAAAATGTTGTGTAGTTTAAGTTTAGACATTTC
AAATAGTCCTATAATTGCTTGAGAGAGCAGTAGAGTTTTTTTTTCAATTAGTTTATTAGTATTTCAGGGATTTTAAATGGAAGAAAATCTTGAGTGTCTT
TGTAAATGAATTGCATCTTTTATAGGCACAGATGTTTTTCGCAGCATTATTTTCATCCCCATGGCTGCTTTACAATATGTGGCCTATGGAGAAAATGACA
AGTAGGTAGATGATGAGTAGGGGAAAATGGTGGAAGGTACAGCAGCAATAGGAAGGAAGTATTCCCCAAGGTTTGCCTGAAAACATCTACTTTGTGAAGC
TCCAACATTTATGGAGCAAAATGCCCTAGAGTGCTGCAACAGGAGACACAACTTACCACCCCTCATACGGAAGGATGGGAGGGAGAAATGGAAGGGGAAA
GGGAAGGAGGGAGAATTCCTGTGATCTTCACTACCCGCTGTCTCCTTAGCACAGAGAATTCATCCATTGCCACATCAGCACAAGGACAACATATGAAGTT
CCTCAAAATTTCCAAATAAGCCATTACTTATTACCTATACGGTTATTCCCTAAAAGTTTCACACTGAAGTAAACAAGTGTTTTTGGTCATTTCATGCCAA
CAAACTGATGGCCCTTGATCATCATCCTTTGAACTGACTCCAGGTCTAGAATGAATTTTCCTATGTATGGTGACCCTAAGTCTGTGTCTTAGAAAATATA
TATATATATATATATATATATATATATATATATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCTGGACTCACTGCAAACTCTGCCTCCCTGGTTCA
CACCATTCTCCTGCCTCAGCCTTCCGAGTAGCTGGGACTACAGGCGCCCTCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCAC
CGTGTTAGCCAGGATGGTCTCGATATCCTGACTTTGTGATCCGCATGCCTTGGACTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACCGTGCCCGGCCA
GGAAAGAACTTTTTAAGGTTGCCCTTGAATACCGGTCTTGATTAAGTTTTATTCTGTCTATATATTTCATTATTTTAATTTTATAATACATTTCTATTTC
TTGCTTAGAATTTATAAATTATATATCAGATTATGATTTCTGTGTTTTAAAAATACCTATTATATCTTATGCTGGTTTTCTTAAGTGGAATGTGATATAT
TAATATCTTGTTCCATTTTTGTTACTTCTCCAAATATAGACGATTAGTAATATTCTACTATTTATTAATGAAAAACTACCTTAGTTGGCCTAATGTAACT
ATCTAAAAACAATAATAATAAAATTCTGTAGTGCTGTTAGAGAGATATATGATTATGCATTCCAGCCAGGAATTACATCAGTAATTTTTAGATTATATTC
CAGGGAAAACCAGGTTTTGGGTCAACTAACACCTATTTATTGTTCACTTATGTTGAAGGTTCTAGGTGATTTCTCATATAGCTCATTGTTTTGTGCCTTC
AATCTTAGTAAATCTTCTAAAGTGCTACCGATATACTCAGGGAAAACTAACTTTGTTAAAAGAATATCTTTTAAATTAACCTACTTTTAAAAATAAGCAT
TATTATGTTTGTGGAATTTGAAAATACAGTCTAGTTAAGGTATTTAGAATAACACTCAGTTTCTGTTTCAAAGTGATTATATCATTTTAGTATCAAAATT
AATTTAATTGACCATATAAGGAGACATTAAGTATTATTATAAAAATGGCATGTTATGGCAAAGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGA
GGCTGATGGGGGTGGATCACAAGGTCAGGAGATCGAGATCAGCCTGGCCAATATGGTGAAAAGCTGTCTCTACTGAAAATACAAAAATTAGCTGAGCATG
GTGACAGGCACCTGTAATCTCAGCTTCTCGGGAGGCATAGGCAGGAGAATTGCTTGAAACCAGAAGGTGGAGATTGCAGTGAGCTGAGATTGTGCCATTG
CACTCCAGCCTGAACAAGAGTAAAACTCCATCTCCAAAAAAAAAAAAAAAAAGGCATGTTATTTATTAATACGAGTGACATACATGCAAAAGGATGTCTG
ACTTAGGCAATGTTATTTTCTGGACATATTTTTTAAATAGACTGTGACCTAAGTTCTGGTGGTCCCTCTAGAAAGGGTACCATTCCCTCTTCTCTGCCTG
CTGAGCCATTTCCTAAGACTGTCTTCAGATGTTATGTCTTCTCTAGAGCTTTTCAGCATTCCTTTTATTCTTTTTTTTGTTCTCATGGTACTCTATGCAT
GAGAATGTTTGAGTATATATATATTATTACAGTTATTTGCCTCTTAGACTGCATTTGGGTATTCCTCTTTGAGTTTCTATTTCGTGTAAATGCATATRGT
TTCCTATAAAAAACACAATTTATAATCCTCCAGGAAGTCTGTGTAAGTCAGTCAGTCAAATTACCTGGTTGATTATAGTTTCAGGTTTATCTGCTGCCTG
GGAATCAAAACACAGGTCTTGATTAACTTTCTATAAAGCAAGGATATGGACTAGGGATCACTAAGCTCTCTTWTATCTCTACAATGGTGTCATTATATGA
TTCTAATCCATCACTAGAAATGTATTGTGAAATAGTTAATTAATGTTTGCAGAATGCTTAGAGAACTTTTAATGAGAAGTAGATATTTGTGGTTAGTGCT
AATGAATAGATGTCTTATGAACCTTTTTTTTGCACCAACAACACATTGGAAAAATGTACTTTCAAGAATAAATTGCAATCTGGTGAAATTTTTYTATTAG
TTAACAAAATTTAGCTTTTAAAAACAAGTATCAGTATAGTGGCTTTAGTGGCTTTAGAAACCAGGACCCTATGCATATAAATAGTTGTAATAAAAAGGGA
AGCAGCAACAGTGTATAGTTTTCATAATTTTTCAAAATAGTWTAAATATGATAGCAACTTTTTACTCTTACAGCTTAGTTGTGAAGGAGGCAAGGCCAGT
ACTCTTATACTCTGGGAAGCTAAGACCTAGAGAGATTAAATGCTCATTTATTTCTTAAATAAAAATGTATTGAGTGCCTGTATTTGAGTATAACAATTGA
AGGTGCAGTGGTGAATAATTTACCCTACTTGACTTTGATAGTAAGGGAGACAGGTTTATAAACAAACAKATTAGCTGATAGCATAGTTAATTATGGTAGA
AACACAGAAGATGGTGCAAATAACTCTGGGGTGTTGTTTAGTGAGCCTTTACAGAAAAGGTAGTTTTTAAAGCATTTTCATTAAACTGTAAGTGGAGGCA
TTTGCCAGATGAAGGGGAGGAGGTGAGGAGAAGGGTCTTTCAATAAAAGAGAATGAACATATGTAAAGACCCAGAGTTATGAAAGAGCCTGTGCGTTTGA
AGAACAGCGTGAAGTTCAATGCAGCTAGAGCAATATTGTCCAATATAAATATGAACACAAATGTGCAATTTAAATTTTTCTAATAGCCATAGTACAGAGT
AAAAAGAGACAGGTAAAATCAATAATAACACATTTTATTTAACCCAATTTATCTGAAATATTTATTTATTTTTCAACTTAAGTCATTAAAATCAAATCAG
GTGAATATTTTACACTTACAAAACATTTCAATTTGTCTTCCTTCCTTCCTTTCTTTTCTTTTCTTTCTTTCTTTTTCTTTACTTTTTTTTTTTTTTTTAG
GGACTGGATCTTGCTATATTGCCCAGGCTGGTCTTCCTGCCTCAGTCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCCCTCAGCCTAAGACATC
TCAGTTTGGACTCAACACATTTCAAGGGCTCAATATATAGAAGCTTAGCAATGCATGTATATGTATGTGTGTGTCGGAGAGAGAAAGAGAGTGAGAATGA
AAATCTGTGTGCTCTAGAGGGGGAGGAGGTTAGATAAGGTTGAAGTAGTTGTTGGAGTCATATTTTTAAAGGCTCTGCATGCTGGCTTATTTTAGAATTT
TTTCTTATAATTTAGTAGTTTATGATTGTGCTTCTCATATTATCTGTGGTGAAGGAACAATTTTGAAAATTTTGCATTTGTTATAGACTAATGCTTTCGC
AAAATAATAATAAATTAGAAAGGTGAAAGTAAAAAGACATACAAAGAGAAGCACCATTTTTTAATCATTAAAGTTGACAAGATGTTGTCTTAGTCTATTT
TGTGCTGCTATAACGGAATACCATGGACTGGATAGTTTATAACTAACAGAAATTAATTGGTTTACAATTCTASAGCCTAGAAAGTCCAAGATTGAGGGGC
CACATCTGGTGAGGGCCTTTTAGCTGCATCAAAACTTTGCAAAAGGCATCACATAGTGGAAGGGCAAGAGAGGGAGAGAGAAAAAGCAAGAGGGGGTAAA
CTCACTCCCATGATAAATAACCCATTCCCTCAATAAAGGCATTTGTCCATTCACGAGGGCAAATCCATCATGATCTAAACATCTCTTAAAGGTCCTACCT
TCCAAGACCATTACAAAGGCAATTAAATTTCAACATGAATTTGGAGGGACAAAAGTTAAACCCATAGTATTCCTCCTGTCATGTTTTTCTTACATACAAA
ACACATTTATTTCATCCCAATAGCTCCAAAGTCTTAATTCCTTCCAGCACCAACTCAAAAGTCCGAAGTCTTGTCTAAATCAGATATGGGTGAGACATAA
CACAATTCATTCTGAGGCAAATTCCCCTCTAGCTGTGAGCCTGTGAAATTATACAAGTTATCTATTTCCACAATACAATGGTGGGACAGGTATAGGATAG
ACATTCCCATTCCAAAATGGATAAATAGGCAAGGAAGGGGTAACTGGTTCCAAGTAAGTCCAAAACCCAATGGGGACAACAACAGTAAATCTTAAGCCTC
AGAAATAATTTTCTTTGACTCCATGCTGCCCTGCTTCCTGGACACACTGGGGAAGGGGTTGAGCCCCCAAGGACTTGGAGAGCCCTGCACCTATGGCTTT
GCTGGAACGTTGGAGTCTTATGCTTACAGCTCTCCTGGGCTGGCTTTGTGTGCTGGTATCTACAGTTCAGGAGTCTCAGGTGTGGTTCTGCCCCTGCAGC
TTCACTAGACATTGCTTTAGTGGGGACTGTTTGTGGCAGCTCTGCTCCTGCAGCAGATTTCTACCTGGATCCCCAGGCTGTCTGATACATTCTTTAAAAT
CTAGGTGAAGGTAGCCATGCCTCCACAGCTTGTGAACTCTGTGTGCCTGCAGAATTGGCACCGTGTGGATACCACCAGGACTTACTGCTTGTGCACTCAG
GAGCAGAGGCCTTAGCTGCACATGTGCCTGCTCAAGCTATGGCTGGAGCAGCTTAAGGGCACTGCACCAGAATGTGGGGAACAGACATTTGGGTAGGTGA
GGTGCAGGGCAGTTAATTCTGAGGTCCCCTGGGTGCCTCTTTGGAAACTTTGCCCTCAAGATTCTAGCTTGCCTCAGAGATCCCTGAAGTGCCTTTGCGG
TCATTTTCTTATTGTCTTGATGAATAGCACCTGGCTCTTTACTAGCCATACAAACCTTTCTAGCAAATGGTTGTGTGGCCACATCTTTTGTTTGCACTCC
TAAGCACACATTTTTATTCTTTACATGGCCAGGCTGTGAATTTTCATAATTTTTATGTTCTATTTCCCCTTAAATTATRAATACTGTCTTTAAATTATTT
CTTTCCCCTCACATTCTATTATATACATTTAAAAGAAGCCACACAGCTCCTTCAGTATTTTGCTTAGAAATTTCTTCCATCAGATATTCTAGTTTATCAC
TCTTAAATTCTGCCTTCTGTTAAAGCCCTCAGGCATGGACACACTTTAGCCAAGTTTTTTGCCACTTAATAACAMGGATAGCCTTTACTACAGTTTCCAA
TACGTTGTTCTTCATTTCCATCTGAGACCTCATCAGAATTGCCTGTACTGTCCATATTTCTGTCAGCATTCTGGTCATGAATCTCTAAGAAGAATCACTC
AAGTAATCTCTAAGAAGTTCCCGACTTTCTCTCTGGCTCATCTGCTCTTCTGAGCCCTTTCCAGAACTTCCCTTAATACTGCATTCATTGTAATCTAGGC
TTTTCCTAGGCTGCTCTTCCAAATTCTTCCGGCCTCTCCCCGTTACCCAATTTCAAAGCTGCGTTCACATTTTTCGGGTATTTGTTATAACAACCCACCT
CTCTGGTACCAATTTTTGTCTTAGTTGTGTGAGTGTGTGTGTGTGTGTGTGTGTGTGCTGCTTTAACAGAATACCACAGACGGAGTAATTTATAAAGAAT
GAAAATTTATTAGCTCGTGGTTCTGCAGGCTAAACAGTCCAAGAATGAGGGGCCACATCTGGTGAGGGTCTTCTTGCCACATCATAACATGGCAGAAGGC
ATCGCACAGAAGAAGGGCAAAGAGGGGATGAGAGAGATCAAAGGAGACACAAACCCCTTCCTRCAATAAACATTAGTTTATTCATAAAGGTGGAGCCCTC
ATGTCCTGAATACATTTTGAAAGTCCAACCTTATAATACCGTCACAAGCGCAATTACATTTCAACATGAGTTTTGAAGGGGACAAACATTCAAACAATAG
CAGACATATAGTTTATAAAAAAGTGTCTAAACCAGTGCTATCCAATAGAACTTTCTGTCATGATAGGAATGTTCTGTCTGTGCTGCTTAATATAATAGCC
ACTAGCCACACGTATCTATTGAGTACTTGAAATGTGGCTAGTGTGACTGAGAAAATAAATCTTTAGTTTAATTTAATTTTAGTTAATTTAAATTGAAGTG
ACCATATGAGACAATTGATTACTATATTGGACAGCATTGAATACATTTACTCATAATCTCTGTATTTACCTATTGTGCATTAGTAAAAAACAGTTTGTGG
ACTGGTATGGCCCACAAACCCATGCTTTGAGTAGCACTGTTTAAAGCATGGACTCTAGAGCTAGAAAGCCTTTGTGTATCTTTGGCAAACTGCTTAATCK
CTTGGTGCCTCAGTTTCCTCATTTGTAAAATAAAGGTAATAATAAACTACCTTATAGAGTTGTTGTGAGGATTAAATGCATTAATGAGTGTAGCATACTT
AGTACAAGGTCTGACACACAGCATGCACTATATAAATGCTTCCTGTTATTGTTATTATTATTTATTATGTAGGTGGTGGATATCAAACAGTTAATTGGTA
ACAAAGCCCAGTCTTTTTATTAATTCTCTGCTTTTTGCAGTAGCTTAGACTTTTTCCTTTTAAAAACATACCACAGTTTGTGGCATCTAGTGGCTTCCAA
TAAATACCTTTTGAACATAAGCATAAAGTACTTTTCAAGCACAGATGAAGAAGCAATTATTGTTCTGAGGTGGGGGGGGGGTTGGTAAAATTATCAAAAA
CAGATGACAGCTGAGAAGGCCTCAATGGAGGAGTCTGACAGGCAAAGAGGAGAGAACACACCTGGTGGAGGGAGMAAGGACACCCATTTGGATTATACTC
TATTTAGGAGACTATACAGCAGGTAACACTGACTTAGCCCTATCACTGCTACCACCACTTCTTTCTCTCCTTCCCAGCTCTTTTCTTGATTTATCCTTTT
AGCATATTTTAAACAGGATTAATAGGTAACACGTGATTCTACAGTTTTAAGGGAGGTCAATCGTTGCCTCTTTACTTGTTCATTCCTCAGAGTAACAGTG
CCTGAATTTGATGGTGGATGTTGGGCAGTGGTTGGGAAGGGAAGGGGAATGCTGCTTGAAAAGCAATCCCTGGGTTATGGGCAGATAGCTGTGAGATTCT
TTTCCCCTAAAACATAATGTTTCTTATTTATGTAGATTATCTTAACAAGAAAACCAACTGGAAAAAAAAATGAAATTCCTTATCTTCGCATTTTTCGGTG
GTGTTCACCTTTTATCCCTGTGCTCTGGGAAAGCTATATGCAAGAATGGCATCTCTAAGAGGACTTTTGAAGAARTAAAAGAAGAAATAGCCAGCTGTGG
AGATGTTGCTAAAGCAATCATCAACCTAGCTGTTTATGGTAAAGCCCAGAACAGATCCTATGAGCGATTGGCACTTCTGGTTGATACTGTTGGACCCAGA
CTGAGTGGCTCCAAGAACCTAGAAAAAGCCATCCAAATTATGTACCAAAACCTGCAGCAAGATGGGCTGGAGAAAGTTCACCTGGAGCCAGTGAGAATMC
CCCACTGGGAGAGGGGAGAAGAATCAGCTGTGATGCTGGAGCCAAGAATTCATAAGATAGCCATCCTGGGTCTTGGCAGCARCATTGGGACTCCTCCAGA
AGGTATTGTTTGTCTTTTCAGTTTGATTTGTATTTTATAAAACTAATGTCCCTTGGTGTAATTGAGTACAATATGCATGATTCATATTATAATTTGGATA
ATTTCCTATTCCATTGGCTTAATGAGTTCTCTACCCTTTTTYGTCCTCCCATTTTTTACTTCTGTTTCTTTTGTGAAAGGGAACTGATCATGTTGGATCG
CTTTTTAAATGTAGAATCTGTAGCTACTGGTCCATGATACTTACCAGCCCTATCACTTTGTAATTGCTATCTAGTTAAACATTAGCATGGTTCTATAGAT
AATTGAAATATACATAAACAGGATACAAAAACGATGACTTCTTCCAAGTGGCCTCAGTGTGAATAATTTTTTAGAATTAATGAAATAGAGAATAGAACTT
TGCACTCTGAATTGATTTAATTATTTTTATAGAACTGAGGCTTCTCCTGCAAGGAATTATCCAAGGTTGAGTTCTACCTTTACTTATAAGCACCCTGGAT
CAGCTTTATCAGATAATATACAGTAAATGCCCAGATCAGGGATGTATAGCCAGTCATCAGGGAGCTATCAGTTAGCCTTGAATATATCCATGGGCTAATT
TCCGGTGGCAGAAGAACGAGTTTCTATTCTTTTGACTTTTTTGAATGCCAAGAGAAAGGCCTAGTGAAGTACATTGTCAGTTTAAAACATTATTTATTGA
GATATAATTCACATACTATGATGTTCATGCATTTAGAATGTACAAGCGATTTTTAATATATTCACAGAGTTGTGCAGCCACCACAATCTAATTATAGAAC
ATCTTCATCACCACAAAAAGAAACTCTGTGACTATTAGCTGTCATTCTCCAGTCTACCTATATCCCAGCCCTAGGAAACCACTAATCTGCTTTCTGTCTT
TATGGATTTGCTTATTCTGGGCATTTTACATGAATGGAATAATAAATTATGTGATCTTTCATGAATTCTTTTTTTCATGTAGCATACTGTTTTCCAGGTT
CATCTATGTTGTCACATGTTTCAGTATTTCATTCTTTTTATTGCTCAATAATATTCCATTTTATGGATGTACCACATTTTTATTTATCCATGCATCAGTT
GATGGACATTGAGATTGTTTTCACCTTTTAGATATTATGAATAGTGCTGCTATGAACATTCATGCACAAGTTTTTCATGTGAACATTTGTTTTCATTTCT
CTTGGGCATATACCAAGAAGTAGAATTGCTGGGTCATATACCAGCTCTATGTTTAACTTTATGAGGTATTGCCAAACTGTTTTCTGAAGTGGCTGCACAG
TTTTATGTACCCACTGACAATGTATTATAATTTTTCCATATGCTTGCCAACACTTGTTATTATCTGTCTTCTTGGTTATAGCTATTCTAGTGGGTGTGGA
GTGGTATCTCATTGTGGTTTTGATTTGCATTTCCCTAATGACAAGTGATGTTGAGCATCCTTCCATGTTCTTACTCGCCATTTGTTTATCTTCTTTGGAG
AAATGTGTATCCAAATTCATTGCCCAGTTTTTAATCGGACTATGAGATTTTTATTATAGAGTTTTAAAAGCTTTTTTAATGTATTGTATATACAAGTCCC
TTTTCATATATTTGATTTACTAATGTTCTCTCCCATTCTGAGGACTGTCTTTTCTTTTTTTTTGATGGCAATATTTGCTACAGAAATATTTAATTTTTGA
TTAGTCCAACTAATTTATTTTATTTCTTTTGTTGCCTGTGCTTTTGGTATCATATCAAACCATTGCCTACACCATGGTCACAAACATTTACTACTACTAC
TGTAATGTATCTAGGTATGTATATCTTTACTCTCATCTCATATTTTCTTCTAAGAATTTTATGGCTGCCATTCTTACATTTATATCTGTGAATTAATTGT
GTTAATTTTTGTATATGGTATAAGATAAGGCTTCAGCTTTCTTCTTTTGAATGTGGTCATTCAGTTGTCTCAGCTTCATTTGTTGAAAAGACTATTCTTT
CTCCTTTAATTCGGTGCATTACATTAATTGATTTTCAAATGTTAAACAAACCTTGCATTACTGGGATAAACCCCACTTGATTACAATACATAATCTTTTT
TATATGGTGCTGAATTCAGTTTGGTGGTATTTTGCTTAATATTTTGCATTTACATCCATAGGGATATTGGCTTGTAGTTTCATTTTCTTATAATGTCTTT
TTTTTTTTTTTTTTTTTTTTTTTTTTTGTATCAGAGTAAGACTGGCCTCATGAAATCAGTGGCAAAGTGTCACCTCACCTTCCATTCTTTGGAAGAGATT
ACAACTGACTGCTATTAATTCTTTAAATTTCTGGTAGAATTCACCAGTGAAGCAATCTCATTCACGCTTTTCTTTGTGGGAAGATTTTTAATTATTAATT
CAGTTTCTTTACTTGTCTAATCAGATTTTCAGTTTCTTCTTGAGTCAGTTTTAGTAGTTTGTGTCTTTTGAGAAATGTATCTGTTTTATCTAAGTCATGT
AATTTGTTGGTATACAGTTATTTATAGTATCTTATTATAATTTTTTTATGTTTGTAAGGATGGGGTCTAAATCACTGCTGTCACTTGCTTTTGGGCAGAA
CAACTGTTTAGATTTTTCTAGCAACAAATTCTCTGAGCCTTTATTCATCTTTATCTCTTTGCTTAACCTTCAGTTTTGAAAGATAGTTTTACTAGACATG
AGATTCTTAGTTGAGGGGTTTGTTTTTCTTTTCTTTTTTTCTTTTCTTTCTTTCTTTTTTTTTTATTTTCAGCACTTTGAATACATTATCGATCCCATTG
CCTTCTGGACTCCATTGTTTCTTTTTCTTTCTTCCTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTTGCCTAGGCTGGAGTGCAATGGCACAATCTCA
GCTCACTGCAACCTCCATTTCCCCAGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCACACCACCATGCCCAGCTAATTT
TTTGTATTTTTAGTAGAGATGCAGTTTCACCATTTTGGACAGGCTTGTCTCAAACTCCTGGATTCAGGTGATCCACCTGCCTAGGCTTCCCAAAGTGATG
GGATTACAGGCTTGAGCCACCATGCCCGGCCTGGACTCCATTGTTTTGATGAGATGTCAGCTGTTACAGTTTTGGAGGTTTCCTTGTATGTGCTGAGTCA
TGTCTTCTTTATTGCTTTCAAGGTTTTCTTTTTCTTTTGATTTTTATTATTTTGACTCTAATGTATCTAGGTATATATATCTTTATTCTCATCTTACTTG
GAGGTTGTTGATTTTCTTGCATGTGTAGATTGAAGTTTTTCATCAAATTTGAGAAGTTTTCAGCTATCATTTTCACAAATTCTTTTTCTTCCTTTTTTTC
TTTTTCCTCTCCTTCTGGTACTTCCATTTACAGTGTGTTGGTGATTTAATGATGTCCCATATTTCTCTTATGCTCTGCTCATTTTTCTTTATTCTTTATT
TTCTTTGTTCTTCAGATTGTATGACCTCTATCAATCTGTCATCAAGCTTACTGATTCTTTCTTCTATTAGCTTAAAGCTACTATTGAGCCTCTATACTGA
ATTTGTCTTTTTAGTTACTATACATTTAAACTCCAGAACTTCTCTTTGGTCTTTTTAAAAAATAATTTCTGTGTCTTTATTGATATTTTTTATTTGATGA
GATGTTGTCATCATATCTGCCTTTAGTTCTTTAAGTATGGTTTCTTTTAGTTCCTTGAATATTTCAATAATAGCTTCTTTGAAGTGTTTGCTATATCCTA
CATCTGGGCCCCCTAAAAGACAGTTTCTACTGCCTACTTCTTTTTTTTCATGTGTATGGGTTGTACTTTATTGTATCTTTTTATGCCATAGTTTTAAAAA
CAGAAAACCTGAATATTTAAAATAATAATTTAAAATAATATTTTATGGCAACTCTGGATGCTGACTTGTCTTCCTCCCTTTCCCCCATCCATTTACCTGG
TCATTCATTTGTTTAATCGCTTGACTGTACTAACTCTGTGATGTCTATTTCTCCTACACTGTTCAGCTTCTGATGTTCCTGTTTAGATTGTTTTTCTGTT
TTATTTTTTGTTTTTCTTTTGGCTGGGTTCCCTATGAGTCACCCGTAGGTCTGCATAAGCCACTTATTGGTCAAAGGTTATGCTTAGGTTCCTTTAGACA
GTTATATTTTTACTCTTTGCCATTTGATGTTTTTATGGCTTGGAGTCTGTTATTACAACTTAAGAAGTTTGTTTTTTCCCCCAACTTTGGCCAAGGCCAA
ATGCCTTGGAAGTTCCTTTTCTAATCACTTCTGAGAGGGTGCGGCCTTGAGCATGCACACAGCCTTCCAGATTACCAGAATGCAAATAATTTTATTTTTA
AGCGTGGCTTAATAGTATTTTCTCCAGGGTCAGAATAGCTTATTTTTTAGCCAGTGTTTGCTCAGAGGTTGTCCTTAAACACCTTGAGTGAGTGAGATTT
CTGCCCTTTGTTGACGGATCTGTGTGCAGCTTGGGAAATGTTTTCAAGTCTGACCCATGTGTTGTTTTGATTGTTCCTGAGTAGGTATGACCTAGGACAT
GTGTGTAGCTTTTCAACCCCCAGGGTTTACTGGGATCCCAGGAAGGCCCTTCTTGGTTGTTTCTTTCCTTGGTTCTTTCTGTTAAAGCTATGGTTGTTCT
GCCATTTTGCTTGTTGCTAGCAGTATCGTGAAGCTACCAGCACCCCCTTAATTGTTCTTCACCAAGCTCTCCATTATTTTCAGCAACACCCTTAAGTAGG
GAATTCTCCGTTCTCTGCACTAAATGAAGTCACTAACATCAATAAGAACTATGGAGCTCTTCATCCTTATGGCTTCTCTCTTCCCCCAGGAGAACATTCG
TGCTACTGCAAGGGAGCTAGATGCAGTGATAGTGGCACCTCCCAGTGTCACCCAGAATGATATCCCTAGTGGATGATAAGAAGGGAGGAGGTAGTTCTCA
GCCTTGTTGGCTTGCAGCTTCCAGTRTGGGACCACCTCCTATGAGTGAGCTGAGAAAGGGGTGATCAGAGTCTTAGTATTCTTGATGGCTACTTAGGGTA
GAGTTTCCACCCTATGAGTAGGACTTGGGTAGAGGAATGGCACCTCAGTTCTCTTGGCATTGCTTGACTAGAACAGAGGTTCTACCACAAGGTAATGGGG
TTGGGGAATGAGAAACACTGGTAGTCTGTCCTTCCAAAGGTGAAACTGTAGCCCTAAACTGAGAATTGGGTGGAGAGAAAGCTCTTACGTTCTTGTCTGC
ACTTGGTCAGAATACGGTACCTGTAGTAGAGTTTCTGTAACATGGGGCTGGGGGTGGGAGAGGAAAGCAGATCATGACCCAGATGCCACAGACTCTTACT
GTTCTCATCAAGACTTGGTAAATTTTCTTGGATGAATGTTGTCCTTTGCTGTATGCCCTTAGGGGAGTTTTGAGAGACATTAAATTATTTTTTAWATAAT
TTTTCCCACTAAATATTTTGTGGGGTGAAGATCTGCTGAGTTACTCATGCTGCCATGCTGGAAGAATCACTGGGATAGCCAGTTTTGATCTCTCTAAGGC
TGCATGAATAGGTGGTAGAATTCTCCAAGGTATTAGGGAGCTCCTTAGCTTGGGTTCTATAGTGTTAGTCAGTTTTCTTCAGTTGCCTTCTGTTAAATGC
TAATCTATGTTAGACACCAACTTAAATCCTCCTTTTTAAGCTCTCTCAATTGTCCAGTTATCTGAAAAGGATTAGCACTTTTTTTCCCAGATGAGAGAAC
CAGACTCCAAGAGGTTATGTAATTTACCAAGGGTTGCACAACTGGTAAGAGGCCTTGTTTGGGCATGAACAACTGTCAAACTCCAGAGTTTGTGCTTTTA
GTCATTAGACTATATTGCCTCACATACAAATATTTTAATGTTGTTTCATTTATAAGATTACTATTTTTAGCCATCTAGCTGAAGCAGATCTGTTTCAAAA
GCCGTTGATACCTGTACTGTGACAGCAGAATATATTGGTTTTTGTGTGTTTTTTTAAAGAAAGTTTTCTTATTCCCATTTCTTTCTCATTGTCATTTCTG
ATTCTACAACTGGGCCTCCTCTTTCCTGGCTACCTGCCTGGTATTGAAAACTAAGCCAAGTTACTGATTGCTCCTGAGACCTTCAAAACCCAGAGGATAT
GAATTTTACTCACCGGAATCTATTCTGTTTTCCAAGACTCACTTTCACCCCACTCCTCGTTCCATGGGGCTCAAAGTAGATAAACAGTTGTCTGGCAACT
GGACTATTTTAAGCTCTGAAGAGACTGGAGAGTTAGGCTGGACCAGGTGTGGAAAAGTCCCACAGGAGACAGTGTAAAGTTGGCGTAACAGGATCTCTAA
TCCAGGCAGAGTGGTGCAGAGCTTATCTTCTAGCCTCTCTCTCAGGAAACCTGTCTTCTCACTTTGGCTTACCACTAACTAGTTGTGTGACCTTGGTTGC
CATTTAATCATCATGGCCTTGATTTCGTGACCTGTGAAATGAGAGATGGTTGGAATGTTGAATCTGTAAGGTCTCCTCTAGATTGGAAAGGGTAATTTTT
ATGAGACTCCATAAGGGATCACTGAAGCTAGAATTTACAGGAGCTGGATTCTGCCAACTATATGTGATGGAGTAGATTCTTTGTTTAACCAGATTTTTTA
ACTTTTTAATTCTAGACTTGAATATTACAGTATGTATGTTAGTTTATGCACTCTTCTCAACTTCAGTATTACAGTAGGTATGTTAGTTTATTCACATGGC
AGGATTGAGAGCTCTGCAAGTTATCTGTGGAGAGTTTGAAGAAGGCAGRTATACAAGCAGGCCAAGTCCGAAGAGATGAAGGACAAACTTACAAGACAGG
AGAAAGCACAATCTCCAATCAGTCCTGAGATAACATAGCATACATCAGATTTGAATGGACCAAGTAAAAGAATGAGAATCAACAGTCACATCTGGGACAG
GCTGACATATGTTCAAGAAAGAGGAACTTGGGCAGACTATGCGGTTCTTTCCCAGCAGACATAACTCTGGGTCTTCATGGTTTATGGTCTCTGAGCCCAA
CACAGCAGGTCATTGAGTATTTATTAATCCTCATTGGAGACTGACATCTCTACCGAAATACAGGGCTTTCTTAAAATTTTAGGATTGTATGTTTTTATTA
TGTTTGGTGTATGTTTTATTATGTTTGTATGCCATATTATGTTATGTTTTATTGTATGTTTTATATTAGTTAGGGGGCTCCTGGCGGCCTGGACTGAGTC
TTATCCATTTCTATATTCTCAACATCTAGCATCATACTCAGTAAATAGTTACTCATTTAGTTTACTCATTTATTTGAGAAACAGTGGATTTTTAAGGTAG
TTCTTTCCTTGGGGTATTATTCACTTGTACTAAAATAAGGCCTTCTTCTACATTGTATTAGTCTGTTCTCATGCTGCTATGAAGTAATACTAAGACAGGA
TAATTTATAGACGAAAGAGGTTTAATTGAATCACAGTTCCACATGGCTGGGGAGGCCTCAGGAAAGTTACAATCATGGCGGAAGGCACTCCTTCACAGGG
CGGAAGGAGAGAATGAGTGGCAAGCGAAGGGGAAAGATGGTTATACAACCATCAGATCTTGTGAGAATTCACTCACTATCACAAGAACAGCATGGGGGTT
ACTGCCCCCCATGATTCAGTTACATCCCACTGAGTCCCTCAATAAGATTTGGGTGGGACACAGCCAAGCCATATACATAATGAATGATGATACTGTTGAG
CCATCATCATTTACTCAGAATTTCCCTGATTATAAAATTAATACTTGCTTATTATAGAAAGCATGTACATAAATATAAAAATAATAAAAATCACCTGTAT
TGGTCCATTTTCACGCTGCTTATAAAGACATACCCAAGACTGGGCAATTTACAAAAGAAAGAGGTTTATTAGACTTACAGTTCCACGTGGCTTGARAGGC
CTCACAATCGTGGCAGAAAGTGAAAGGCATATCTCACATGGTGGCAGACAAGAGAAGAGAGCTTGTGCAGGGAACTCCCCTTTTTAAAACCATGAGATCT
TGTGAGACTTATTCACTATCATGAGAACAGCATGGGAAGGACCTGCCCCCATGATTCAATTACCTCCCACTGGGTCCTTCCCACAACATGTGGAAATTCA
AGATCAGAGTTGGGTTGGGACATAGTCAAACTATATCATTCTGACTTGGCCCCTCCAAAATCTATGTCCTCACATTTCAAAACCAATCATGCTTTCCCAA
CAGTTTGCCAAAATCTTAACTCATTTCAGCATTAACTCAAAAGTCCACAGTCCAAAGTCTCATCCGAGACAAGGCAAGTCCTGTCCACTTATAAGCCTGC
AAAATCAAAAGCAAGCTAGTTACTTCCTAGATACAATGGGGGTACAGGCATTGGGTAAATACAGCCATTCCTTGTGGGAGAAATTGGCCAAAACAAAGGG
GCTACAGGTCCCATGCAAGTCCAAAATCCAGCAGGGCAGCCAAATCTTAAAGCTTCAAAATGATCTCCTTTAACTCCATGTCTCACATCTAGGTCATGCC
AATGCAAAATGTGGGTTGCCACGGTCTTGGGCAGCTCCATCCTTCCAGGCTGCTTTCATGGGCTGGTCTTGAGTGTCTGCAGTTTTTCCAGGTGCACGGT
GCAAGCTGTTGGTGGATCTATCATTCTGGGGTCTTGAGGACAGTGGCCCTCTTCTCACAGCTCCACTACGTGGTGCCACAGTAGGGACTCTGTGTGGGGG
CTCTGATCCTACTTTTCCCTTCTGCACTGCCCTAGGGGAGGTTCTCCATGAGAGCAATGCCCCTACAGCAAACTTCTRCCTGGACATCCAGATGTTTCCA
TACATCCTCTGAAATCTAGGTGGAGGTTCCCAAACCCCAATTCTTGACTCCTGTGCACTGGCAGGCTCAACATCATGTGGAAGATGCCAAGGCGTGAGGC
TTGTGCCCTCTGAAGCCGTGGTTCAGATTCTACATTGGCCCCTTTCAGCCACAACTAGAGCGACTGGAACGCAGGTCACCAATTCCCTAGATGGCACACA
GTATGAGGATCCTGGGCCCAGCCCATGAAACCACTTTTTCCTCCTAGGCCTTCAGGCCTGTAATGGGAGGAGCTGCCTGAAGACCTCTGACATGCCCTGG
AGACATTTTCCCCATTGTCTTGGGGATTAACATTCAGCTCCTCATTATTTATGCAAATTTCTTCAGCCAGCTTGGATTTCTCCTCAGAAAATGGGATTCT
CTTTACTATCACATTGTCAGGCTGCAAATTTTCCGAACTTTTATGCTCTGCTTCCCTTATAAAACTGAATGCCTTTAACAGCACCCAAGTCACATCTTGA
ATGCTTTGCTGCTTAGAAATTTCTTCTGCCAGATACCCTAAATCATCTCTCTCAAGTTCAAAGTTCCACAAATTGCTAGGGTGGGGGTAAAATGCCACCA
CTCTCTTTGCTAAAACACAGCAAGAATCACCTTTGCTCCATTTCCCAACAAGTTCCTCATCTCCATCTGAGAACACCTCAGCCTGCACTTCATTGTCCAT
ATTATTATGAGCATTTTGGTCAAAGCCATTTCAACAAGTCTCCAGGGAGTTCCACACTTTCCCACATTTTCCTGTCTTCTTCTGAGCCCTTCATACTATT
CCAACCTCTGCCTGTTACCCAGTTCCAAAGTTGCTTCCACATTTTTGGGTATCTTTTCAGCAGCGCCCCAGTCTACTGGTACCAATTTACTGTATTAGTC
CATTTTTGTGCTTCTGATGAAGACATACCCAAAACTGGGCAATTTACAAAAGAAAGAGATTTACTAGACTTACAGTTCCACATGGCTGGGGAAGTCTCAC
AATCATGGTGGAAGGTGAAAGGCATTTCTCACACGGTGGCAGACAAGAGAAGAGAACTTGTGCAGGAAATTCCCCCTTTTAAAACGATGAGATCTTGTGA
GACTTTTTCACTACCACCAGAAGAGCACAGGAAGCCCTGCCCCCATGATTCAATTACCTCTCACCAGATCCCTCCCACAACACATGGAAATTCAAGATGA
AATTTGGGTGGGGACACAGCCAAACCATATAATCACCTATGATATTTTCCTCTAGAGAGTCATTGCTATCATTTCTATTTTTCCTTTTGATATTTCTATA
TGCATATGTATTTTATTTTATAAACTTGTGTTCACACTGCATATAGTTTGTGTCCTTTTATCTTATATATCATGAACATTTACCACATACTAGTAAATAT
CTTTTTAAATAAGTTTTAATGGCTACCAAATTTAAATATGCAATAATTAATATAATGCCTTGTTATTGGAAACTAGATTATTTTCTTATTTTTTTCTCTT
CTTTTAAATAGCATGGGTATAAAATCTTTTAATGTAGAAAGAAGTATAGACTTTTAAAGGAAATTTTATGTTTTTAATAAATGACATATAAAGGAGGAAT
CATTGGTATATTCTAGGAAGTTGTAGGAGAGTAGAAACAATTAGTTTTGAAACTGCTTGTATAGATGTAAAAAATGCCAATAAAGTTCTTAGAAGCTGTT
TTATTTTTTAGTGGTTTTAGTTGTTTAAAAATGTTAACACAATAGATATGTAAACATTATATATAATGTACATTTTAATGATACAACGTAAATATATATT
TTAATTACTTTAAATTATTAATGTACATATTGATACATTTATATTCTTGATATATTTTGTTAAATTGTTTTCCAGATTGTACACACCTATTCTCTTATTA
GCAGTGTATCTTCAAAACCCTGCACCTTCACCTGCATGGGTATTTTTTCCTAATCTTTGCCAATTTGATGAACCAAAAGTGATATTTCCCTATTATTTTA
CTTTGCATACCTTTGCTTATTGTTCAAGTTAATATTTTCATATGTTTACTGGAAGCATATTTTTCTTCTTTAAATTATTTGAGCATATCTCTTGCCTATT
TTTCTACTGGTGCTTTAATGATATTCTAATTGATGAATAATAATTCATTATTAATGAATTATTTTAATAAATCAATTGTAATTGATTGTCCTATTTTATT
CAAATTGAGTGTTTTAAAAGATATTAAGATGGTTTGCATTGATATATCACCTTCTTTTTCATTTTTTCTTAAAAGCATATTTCTTTCTGTATTTTGAGGA
TGACTTAGAATGTAGTTAATAGACTGCAAAATAGCAAAGTTGACTAATTTCCACTCCCTCTCCCCTATCAAAGTGCTCTAAGGAACAGTTCTTTAGGTTA
GCTTACACATACTTTGGAACATCAGTGTCATTATTCGAAGATTGGTGAATGCCATGCTTTTGAATATGTACCAGCAAACTTAAGGTCTCAGTGTAGCTAG
ACTTGGATTTTTGAGCTGTGTATATGGATTGGTACTTCTGCTGGTTTATGTCAAACTGTGTGTACCTTATGACTTTTCCTTTTGGGAATAATATAGGAGT
GAGAGGAAGGACAGGTAAAGAGCACTAGATTGAGCTCAATGTGCAGAGTTGACTGGATAGTTAATGTTGAGCTGTGGAGATTAGCATCTCCTCTAACTGG
TTTAACCAGCTATGAATATCTTACAGGATTTTAAATGGTTTACAGAATCACTGGGTAAGCTAATGATGCAGATTTTAAATTGAGCTTCTCAGGAATGAAT
TTGAGAATAATTCTGTAGAACCAGGCTACCATGATTCCTGTTGCCTTTCCTAGATTAAGCAATGGCCTTTGTCAGAAAACTGCCACAGAAAATCTAGAGA
TTTTCACAATGGTGCTTGTCTCTGAAACAGCAGAAAACAGTCTCTGTCTAATTCCTGCTTTCCAGATCTTGTTCAAGTGCAAAAAATTGGTGACACTTAA
ATTACTTCTAGAACCCTAACTGTAGAAAATCCCAGGAATGTAGTTCTTAGGTGTTCAGTCTTTGTGACTCAGAAAAGCACATTTGAAGGACCTTGAATGG
ATGTTGAATGCCAACTCTCCATATCTAACACAATACTCCTTTCATTATGTCCCTTAATCAACAATATGATATGGACTTTTTTGCATAAATAAACAAGAAC
AGATTGCCATTGGTTATATAGTACAAGTAACACTACCAATARCATTGTGGTCCTCTGTGGTTATAGGATTAGAATGAATTTAATAGGACAAAAAGGAATA
TAGAGCATAATCATGAAAGGAGGTATCTCCAAGGGCATTCTGATGGATTGAAGGGAAATTGCTTTAGGCTGTTTGTCACATTTGCCATATAAGTTAAAGT
AGGTTTGGCTGGGTGCGGTGGCTCACGCTTTTAATCTCAGTGCTTTGGGAGGCCGAGGCAGATGGATCACCTGAGGTTAGGAGTTTGAGACCAGCCCGAG
CAACGTAGTGAAACTCCCTCACTACTAAAAACTACAAAAATTGCCAGGTGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGG
ATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAGTGTGGTGAAACCCAGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTTGTGGCAGGTGCCTG
TAGTCCCAGCTACTCAGGAGGCTAAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGTTTGCAGTGAGCCTAGATTGTGCCACTGCACTCCAGCCTGGG
CGGCAGAGCAAGACTCCATCTCAAAAAAAAAAAAAGTTAAAGTAGGTTCTCCTTCATTTTTTATACCCTTTCCCTTTATCTGTTTTGTATGCTTCTCTTT
CCTAGGCCATATATATATATATTTCTGGTCTTACTCTGTTGCCCAGGCTGGAGTGCAGCAGCACAATCATGGTTCACTGCAGCCTGAGCCTCCCAGGCTC
AAGCAGTCCTCCCATCTCCATCTCTCAAGTACCTGGGCCCACAGGTGCATGCCACCACACCTGGCTAATTTTTCGATTTTTTTTAATAAAGATGAGGTCT
TACTATGTTGCCCAGGCTGGTCTTGAACTCGAACTCCCAGCTCAAGTGATCTTCCTGACTTGGCCTCTCAAAGTGCTGGGATTACAAGCATAAGCCACCA
TGCCCAGCCCCTAGACCTCATCTTAAAGACTGGCATTTCAAAGGTTTCTATCTTTTGTTTATAAACATTCTCCTTAAGTGATATGATGCAGTTCCATGGC
CGTAAGTACCACCTTGTGCTTCAGCCACATGGGGTCTATTTGCCTTTCCCTCAACATGTGAGTACCCCTTGCCTTAAAAGCTGCTTCTTGGACCTCTGTC
TAACCTAACCCTAACCCTGACCTTAACCCAACTCAACCCCTCTCTGCTTGGAGAATTTATACTAGTTTTTAAAGACTCATTTTTTTCTTTGAAGTCTTTC
TGGAACCCCAACCTAAATAAATTTAATTGTTCTTTCATCTCTACTTTTGTAGCACTGTCTGTTTTATACAATGGTCAGATTTTATTGTAGTTGAGTGTTC
ACATGGTTATCTCCTCTGAAAAACTGACCTTCTCCATGGTAAAAGCCACACCTTATTTATCTTTCCATCTCCTGTAGCACTAGGCCCAGGGCCTGGTATG
TCATAGATACATATTAGATATCTGCATGTTAAATCATGAGTGGATTGTGAAAGGTCACAAATTTAAAAAGGATATTTGAAAACTCATTCATACTAAAACA
AGCTTCATTTTAGCACTGTGTGATTCTCATAGGTCTTTTGTGTCCATGTCATATCCAAATAACAAGAAATTTTGGTTGGCATCTCAGTGAAAGCAGATGA
GAAAGAGAAGGATAAATAAACATCAATCAAATGGTGATTAGGTTGTTCACCATGGCCTATTCTTTCTGGAAACTTAAGCAGCACAGATAAAGTCTGGGAA
GCTACAGCCTAAACTTATTTCCAAACTCTTGTCTCATAGGAACCTAAAATAGCCTTCCTGCATACTTCAAGCACATCTAGCAAAAGAAGGCTTTCTATAG
CCAATAAGTTCAGTCCATTTGTTAGTGAGATGCTAATTTACCTGCAAAGTCCCATCATCAGATAAGTAATTATTTGCACATGACCTCATCTCCTCTTTTG
ATCTCATCAAGGAAACAGCATTTTCAGTATTTTTTTTTTAGGGCTTAATCTTTGTCTGATATCTAATTGCAGAATGAGCAGAAGTGCTCTAGACAGCCTG
TATCCACAGATGATACTTTAAAATTGGCGGTATGGGATCAGTTGACGGATCTGACTACAAAGTGTCAGAGGTTGCAAATTCCTTCTCTCTGTATCAAATT
AGGGATGGAAATGAGGAAGTAGGGGGCCAAGGAATTTACATTGATCAAGTGTTTATCATATTCTAGTCTAGTCATTGTGCAGATTCTTTTATGTATTTTG
TCTGTGACTATAGGGGTTGTTCCCACTTTACAAATGATAAGCTCTGGGAGGTTCATCATCTTGTCCAAGGTCACACAGCTAATACATGGCAGGGTCTTGC
CCCAACATCATGCCTTCCCAGTAGCCTTCCCTCTTCACCTTGCCTCATGGTAGATCTTTTTGCCCATATCTTTTAAGTATTTCCACTTCCCTCTTGACTG
TTTCTGTAAGAATAAGCACACCTATCTCCTATGCACACAAACATGACCTAAGAAGCATAAATTAAAAGACAAAAATATTGCTGAATTTGATTGCGTCAGA
ACTTAGAATTTCTGTTCCGTGAAGGATACCATGAACAAAGCCATTAGAAGGCAAAATGAGAGAAGATATTAGCACTGTCTAAAATGTTAAGGAATAAATA
TGTGGGCCTAGAGAATACTGGAAATCAACATGAAGAAGGCAGTAGTCCTAATAGAAAAATGGGTAAAAGTTCTGAATTGGCAACTTAAAGAAGAGGAAGC
CTAAAAGCTAGCAAGTATGTAAAGAAATGTTCAACTCATTAGTAATAAGTACAATGCAAATTTTAAAAACAATGAGATCACTTTGTAGCAGGGATGTATT
AATAAAATGTGTTGGCAGGGCTGTGAAGACGTAGGCACCCTCATGCACTGATTGGTGGGTGTGAAGCATGGTGCTGCCATTCTGGAGAACAATCTCTAGC
CAAATTAAATATATTTTCATATTCTATGACCCAGTAATTCACTTTTCTGGTATATTTCCCAGAGAAATTATTGTACAGACCCCTAAAGGTACATATTCAA
GGATGATTATTATAGCAGTATTTATGGGGGCAAGATCTATGTGGGAGAGTGGACATATAAAATATGATGGATGGCCCCAGGGACTATGACAAAACAGTTG
GAAGCAATAGACTAATGTATGTATTGCAACATGAATGGCTCTTATAAACATAAAGCTGGGCTTTAAAAAAGTAAAAAATAGAATGATATATAATACAATT
GCATATGTATACATACAATTTTACATGCACACAGAATAATATTTTATATTTTGCAAGAAGATATACAATCAAAAAACATCTTAGAAGAGTTTTCTACTTA
GGACATTGTGGGAGGGAGTGAGAAATGGGGATAAAAGAGAACAAATAGTTTTTTAAAAGCAAATAGGACAAAGAGACTTGCGATGAATAGGCTAATGATT
TTGTACCATGAATTGAGGCACATAATTAACTGAACACTCTGAATTTGATTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTCACCCTGGCTGGAGT
GCAGTGGCATGATCTTGGCTCACTGCAACCTCTGACTCATGGGTTAAACCAATTCTCATGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGTACACCA
CAACGCCCAGCTATTTTTTGTATTTTTTGGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCCGACATCAGGTGATCCACCCACCTT
GACCTCCCAAAGTGCTGGGATTAAATGTGTGAGCCACCATGCTGGCCTGAATCTGATCTTAAAAACAAAAATCCACTCACCTGTGAGGCATGAGGTTAAG
ATAGATATATGGATAATTTATTACTTACTTCAAGCATAAAGGAGGCCACTTCTCTTTTACTCTTTCAATGCTTATCCAGTTCCCTTTTCACTCACTATTT
TATGACATTCAATTAGATTTTTGCTTTTGATTTTATATAATGTAAATACAATGTAAATTATTCACTTTTTAAAAATATGTTTTTGGTTTTTATGTCATAC
ATCTTTGCCATTGTTTTCTTCTTCATTTCTAAGCTTTTAAGGGCAGGGATGATATTTCTTTTCACTTGTTATTATATAGTCCCTAGCATGGTGATAATCC
CAGTGTTCAATTTTATGAAAAATCTTCTAGGAGGAGGTTTTCCTTTTTAAATTCTAAAAGTGTGGATAATGTTCCTAGGAGAGTAGATGACTAAATAATG
TAGGCTGATAGCATCAGGTATCCTTTTTAATAAACACCCCATTCCATCTTAACACCTCCTCTCTGCCTCCTCTCTGCCTTCTCTTTAGCAAATCTGTCTG
CCTTTTTTCCTGATAGAAAGTATCATTGGTTAATAACTGTAGATTCTTGATAATTGTTATTGTGAATGAATTGCAAAATCGTGGTCAATAATTAATAGGT
TATAATAAGTATTGAGCTTAATCAAGTAGAAGTAGTAAATTTAGATATTTCTTCTTGATAGTTATGATTCCATCTCTTTGTCTTTGTGTTTATTTTTTCA
GCTTCTCTCTGTGTGTCTTTTTCTATATCTCTCTACTAATCACCTCTTTCTTTCTCTTTATCTCCCTCTCCCTTTCTTTCTCTTTGTCTCTTTCTTTATT
TTTGACTGTGTCTCTTTGTTTTTATCTCTTTTTTTCCCCTCTCCTAGTTTCTGGTTCATGGCCTCACCAACAGTGTAGTCCAAGGCTGATGCATTTGCAG
CTATGTCAGGTTAGTGCTCTAGAATTAATTAGAGCTTCTATCTTTTTTTTGAGTCTGTAAAAGCTTTCTTTGACAGGCTCATTGTAGTCTTGGAATTATA
GTCACTTGAATCAAGCTGGTGAGTACATATTTTGTAGCTTCATAACAGTAAAGAAACATTTTGTGATGCATTTCACATTGAAAGTGGCTCCAAAAGAGTC
AGTGCCATTTTGATGGCACTTGGGAAAATGCATCAGTAATATCATTTAGCTGAAGGCACTTTGATTTCTCCAGGAGAGCTGAATAGACCAAGGCCTTGTG
AGACTCTTTACAGTCCTGATTTTCTTTTCCTTGAAAAATTTCATGGCAATTTCCAGGAAGTTTCAGAACTTTATGTCATCAAACTGAAACTTTTTTTCTT
AGAAAAACATTAAGATTTTTCTTCTTTAGTAGTAGATGGCTTAAAGGTTTTAGGTCTGCTATTGGTAAATGCATTGGATGTTCAAAGCTTGATTGACWAA
GTGGGTAATAAATAAACCACTGGGACCAGATGACATCAACCCAGTATTTTTGAAGAAAGTAGAAGGTAATATTGTCAAAACTTGGTTCAATTATTTTTAA
CCCTTGTTAGTTGGCACTGAACACAAGAACTATCAGATTTTTTTGAGCTTACCCTTCATAAGAATTATCCTACGAAGACTTAAGCAGTACATTTTGTTGG
TGATTATTATCTCTTTATTTCATCCTTGTATTAATCAAGGTTCTCAAAAGAAACAGAAGCATACACACACACACACACACACACACACACACATGGCCTC
TTTGGAGGCCAAGAAGTCTCATGATTTACCATCTACCAGATGGAGACCCAGGAAAGCCAGTGGTGTAGTTTGAAGGACTGAGAGCTGGAGAACCAATAGT
ATACATTCCAGTCTGGGTGTGAGGACCTGAGAACCAAAAAATGCTGAGGGCAGGACAAGATTGATGTCCCAGTTCAAATGATCAGGCAGAGTTATTCCAG
CCTTCTTTTGCCTTTCTGCTCTATTCAGCCTCTTAATGGTTGGATGATGTTAACCCACATTGGGGAGGGCCATTTGCTTTATTCAGTCCACCAATTCAAA
TGCTGGATGGAATAAGAGAAAGACTGAAGACAGAGTCCAGATTTGAGGGATGAATGGTTTGATTTAATGGCTTCAGAAGTGGAGAAGCAAAAATGTTAAA
GATCTATTAATACCTTTTGTATATGAGAGATGAAGGAATTGGAGGAATCAAAGATTATAAAGCTTTCAAGTTTGGATTGGTGAGAAAACCATAATGGTAT
TAGAGAGAAAAAGAAGAGGGTTGTGGAGGTAAGTTAGCTGAAGCCAGTAATGAGTTTGGTTTTCAATACACTGAACCTTTTGAGGTTGATTCCATAAAAG
GTAGTCATGTCCTCATATGCAATGCTCCCAAGTGTCACAGAGTGATAACAATGGACCAGTGTAGTCACTGATCCCACCCATGTAGCATTTCTTATTTTCT
TCAGTTAAATTCTACAAACTCATCAGTATCTCCTACTAATACTGCCACAACAGTGATCTCTGCTTAGTTATCTGTCAGGTCAACATACTGTGAGCCTGAT
TATGGCAAGGGCTGCCTGTAATCTGTCTCCCAAGTCCTGAAGATAGCACCTGCCACTTGGTAGGTGATCAGTAATTGGTTGTTGCATTGGCATCCACAGT
GTGCCCAGGTCAAGGTGATGATGATACACAGATGAGTCAAATGAGGAGATAGCACTGGTGTAATGTGGGAACATGGAGAAGAGGAGGAGTGATAATTCTG
TTTGGGGGTTGAACAAGCCTTCAAAGAGATGTGACATTGAAGGATAAAGGATTTACTGGGGCTAAGGAGGGAAAAAAGATATTTTTAGGACAGGAAACTA
GAAGAGCAAAGGCATGCAGGTGTGAGAGTATAAGATGTGTTTGCTCAATGACTGGAGGAGCAAGTTCACAGAGAGGAGAAATAAGTGGATGGTGCTAGAA
CTGGAAACGTATGCAGGTGGACTATAGAAAACCTTGCTAAGGCTCTTATGTGCTCTCACACTTCTTAGGACAGAAATTATTTTTAGAGTGAGGAAAGAAG
GGGAGGGAGGTTGTTAGATGGTAATTTAATCTGGTATCTTTTAGTAGAAGCACAGAGAACTGGGAATGAAGAGTTTTGAGTTTTAATTTTTGTTGCTAAC
TAATGTGATTAGGACAAAGTTATAAAAATTCTCTGAACTATCTAGGGTTAGTTTCTGTTATTTATAAATACTATTATTAGTAGTATAATTTTTATTTGAT
ACAAGAATTCCTAAAAGTTTTTTTTTTCAGGAAAATATCTAGTTTTTTTAATTTTAAAAAATCTAATAAACCAAACAACAGTTCATACTCTTTTGGTCAC
ATAGGCATCAATGAAATAATTTCTATTCTGACTGTCATGGAGAATCATTAGCCTGTTACCTGCTAATGTTCCCTTTGTCTTTTACACTGTGGTTTTTTGT
AAACTATGTCAGTCTTACTATGATTCAAAGGACATTAAAGCAAATGGGGTGTTTAGTGACAAAAGTATTTACAAAAAGCTTTTTTTTTTTTAAGTTCACA
CTGCCRTATTGTACTCTCCTCAACCTTACTTTTAAGTACATTTTCTATACTTAATTTGGGAGAAATTACCATAAAACATTTAGTGCTTTGTTTTCTGATA
TGGTTTGGTTTTGTCCCTTAGTTCATGGAATTGAACATTTGCCTTCAGACTGTATTTATGTATTACTTTCATCTGAAGAACATTTATTAAGCACCTGTTT
GTGGGCATTGCCAGTGATATAACTGGTCTGAACAAAAATATAGCTAATGATGTGCAAGCAGAAAGTGTAAGTTTCCTGCAGCCTTTTAAAATAATATTTT
ACTGATCATAAAAGCAATGTGCTTAGAATGTAATATATGTAGAACTTTGAAAAATAAAGAAAAGCACAATTAGGAAAATAAAATTCCATGAAATTCTACT
GCCTGAAGATAAGAGCTGTGAATATTTTGGTCTGTTTGCATGCTCTGGTTTTTTTCCCTATGCATTTAAATATTTATGTACATTTACAATATCTTGTGAA
TGCTTCCCCTCTTTTAAATGAGAGTATAGTGTGATTGTTCAGGACTTGGCTTTCCTCATCCAATTAATAATGACAGTGTGACCTTTATCAACTTATTTCG
CCTTTCAAAGGCTCTGTTTTATTTTCTGCAAAAAGGGAATAATACTAGTGTCTACTTCACAGGTTTGGAGTCAGGGCAAAATGAGATAATGCATTTACCG
CACTCAGAGCCTGGCTCATTACAGGAGTTCTTTATTATTGGATATTGCAGTTATTTCATTTTTTTCATGTATGTAATGTTTGCTAAGCTATGCACAGTCA
GTGCCATCAGTTTCCTTACCATTCAGTTGTTAATCACAGAGTTTGATTCCATTACAATAATAATCGCTGAGTCAGACTTTCACCCCACTGTAACTTGTCC
CTAGTGGAAATTTTTCCATTAGTTTCTGAAACTTGGGACCTCTCTGTTGTTTCCCTCATGCAGATTTGGTCACACTAGATGACCTCATTTGGTTGTCGTG
GGGTTTATTTCTGTAGTGATGATAGCCTCTTACATTCCCTCCACCATAGAACTTGGTAGGGATGAGAACTAGCTGGACGGGGCCAGTAACGGGGTTGCAT
ATGACCTTCTGGGTGGTTCTAGAGTCTGGATCTGAGTCACTTCTGGCAATGGATCAGCCATAGGATTTCATAAGAGTGGCCATTAGAGCCCTTTTAAGCA
GAATACTGAAGTCTGGGGATGGAACCAACCTAGGATTAAGAGTTGGGGAATCAGCTATCACCAGCATGAGGTGGGATGGAGAAGGGGATGAGGCTAGCAC
AACATTAGGGAATTTTGCTGCTGTTTTGGTGGGCAATATAGGTTTGGCTGTGTGTTTGTCTTCTTGTGTCTTGGTGACATCTTAGAGCCTCACACTACTC
CCTTCCTCAACTTATTTATTTATTGGAAAATATAATAAAATTGAGATAATTTTTACCTTTAACATAAAAGTTYGGCTCTAAAAAATGTTTGGCAAAGCAG
AAACTCTAAGTACTAATGAGGATATGAGTTGCTCYTACAGCCACTTTAGAGAGCTACTAAATGCAAATAAGCATGACCTGATTCTAGGCTCACACCCTAA
AAAATCTCTCCCACAGTACTAAGACAGACTTGTACAAGCATATTTATAGCAGTGTTGTTTGTAAAAATATGAAATTATTATTAAGGAAGAGTAGTAAACC
AGGTCAGATTTATACAAGGAAATACTAGAAAGCAGTTAAAATGGATGAACTGTAGTTACATATGTCAGCCTGAATTAAACAACGTTGAATTTAATAGGTG
TGTTGAGAATTACAGGTACAGTATCATACAATTTAAATGATATTAAAGAACATGCAAATGATACTGTATTTATGCATTTATGTATAGTGAAAGTATAAAT
GCATTCATTCACATGTTGAATACTGTATTTAGATAACAAGTGCTATGTCTAGAGAAGGAAGAGAATGAGATGGGGGAGATAAAGCATCAGAGATTTGTAT
TCTATGGATATGTATTTAAGTTAAAAAATGACAGCAAAAACAAATATTTGAGGGGGTGGATACCACGTTTTCCATGATGTGATTATTATACATTGCATGC
CTATATCAAATATCTCATGTACCCTATAAATGTATATACCTATTATGTACCCACAAAAATTAAAAGTAAAAAATTTAAAAGGACAAAATATTAAGTTTTA
AGGAGACTGAAGTATGTTTTATATTCTCTATTTGTTATCTGATTAACGTATTTCACCATTTTCTTAAATGGGGAAATAAGGACAGAGGAAATTAACATAT
AACCACAACAAATTCTAGCAGTGCAAGGGAAAGTAAGCCTTTATCACACTGCTGATCCCTGATCCCTTGTTCCTGTGGCCAGAGAAAACTGCTGTTTTTT
TTTTAATTTTTATTTTTTATTTTTTGAGACGGAGTCTCGCTCTGTCTCCCAGGCTGGAGTGCAGTGGTGCAATCTCCTCACTGCAAGCTCTGCCTCCCAG
GTTCACGCCATTCTCCTGCCTCAGCCTCCTGAATAGCTGGGACTACAGGCACCCACCACCATGCCCGGCTGATTTTTTGTATTTTTAGTAGAGACGGGGT
TTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCGCCTGGACCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCGCGCCC
GGCTGAAAACTACTCTTAATAGTTACCCATGAATCCTCATGACAGCCGGTGATATAGAAGCATATTGTATGCACATTCCTTTTACACCTGCATGGTAAAT
GCTCTTTGCTCCTTTCACTACACTATGTATACCTTGGAGGTCATTTATCCTGCAATATCTGACCTTTTCTTCTAAAGAAACTTTTGCTTCATGAAGGTAA
GTACAACTACAGTTTCTCTAAAGCTCAGTTTTGAAATCAGTGATATAAAATACATAGGGTCAGTTTTACATAGTAAGTTGTCAAGACAGATTGCACTCAG
ACTCAAACCAACCTTGAAAACAAAGTACTGTATATCTGTATTTACATTTGAAAGGCTCTTTTCCCACTTCAGTTTGTCAAACAGTTGAATATGTTAAGCT
TGAGACTAGAGACAATGTCAGGGTGAACATATGTGAGGGATTCACACTTCTCAAAGAAAAGCACGCTTTTTGTGGCCTTGGACAAAGCTGGGATTCCGTG
CTGTTGTTATTTTCACAAGTCCCTCTACTGAGATCATGACTGCATCTTAGAGTTGCTGTTGAATACAGATGATGTTAATTTTGTTCTCATTCATATTCTA
TTTAGTTTTTACCAAACTAAATGTTTATTAGTTGGTGATATTTAGGAAGTTTGATAGGATTGTGACTATATAGCTATATTTTATGAAAAATGGAGGAAAA
GTTCCCTTTAAAATACCTAAATTTTTTTTGAGTTAAAGAAAGAAAAATAAAATTCATGAAATAGTGACGTGAAGCTTGGTAGTTTAGCTGCAGCTGCCAG
GTGTCTAGGCTGGCTCTTGGGAGAGATTATTATGGGATCACAGTGAGCCTGGCTACACAGAGCATGGAAAGTCCCCTCGTCCTTGTCATCACAGAGTTTG
GCTTACAGACCTCTCCTCTCAAAGATGGAGGCTTCTGGTCTTTCTGATATTGTTTTCTCTTCCTGTCCCTCCTTATAGAGAGAAATCCAAAATATTTTTG
CTAAAATTCTCTAGAGTTGAATTTGGGAACACCAGGGGATAAAACCCCTCATGTTAAGGCATGTAGGAGGAAAGGTATCCTCTTATCAATCGAATTGTAG
TTCAAATATGCTGTAAACCCACCTGTTTACTCCTTCGTGGTGGCCGTAAGATGTGAAAAGGCAGGGGCTCCAGAAGTTCTAGGTAGGAGTCCTTTGTTCT
TATGTTTTTCAAGGGTCTCATGGTGACCAACATTGTTAACTTCTTTTAGCCTCTGTTTCCTCACCCTCAAATGAGGTCAATAGTATCTACTTTCAGAAGT
GATATTCAAAATATCTGATATGGGAGTGGGACTTGGCTGTTATCAGACAGATGGCATATGCATCCCGTAATGTTGTGCCTGGTGCTGTAAGGTTGTGCCT
GGTGAATGTCAACTAGGACTGTTTTACAGGGTTGCTATAAGGGTAAGATAAGATCATGCACATGAATGTGCTTTGAAAACTGCAAGGGGATACATAAATT
TGTACTATTAATGCAAAATACATGCAATGGGCAGGAAGTTTGAGAAGTGCTTTGAGCTGTTTGACCAGAAGATTCTTTAATGAGAATAAGGAATTATTGC
CCTGTGATGTCAATGTATTTAAATATATGCTTATTATACATATATTGAACTATATATATAATATACATATATTACACATATATTGAACTCAGCAATTGAA
TGCTTAGGTATTTACCTAAGAAAAATGAAAACACAATTCTACTCAAAGGCTTATAGGTGAATATTCACCGTAGTTTTATTCATCATAGCTAAAAACTGGC
AACAATTTCTTATGTTGATCACCTGCTGAATGAGTAAACATGCTGTGATGCCTCCATACAATGGAACACTACCCAGCAATAAAATGGAACACATGCCTGA
TGGACACAGTAATGTAGACAAGTCTCAAGTGCATTATGCTAACTGAAAGAAGACAGACACAAAACATTACGCACCATATGATTCTATTTCTATGAAATTC
TATCAAAGGCAAAACTTTAGCAACAGAAATCAGATAGTGGTTTTCAGGGGCCGGGGTCAGGGGAGAGATTGGCTGTAAGAGGTATGAGGAAACTTTCTGA
AGTAATGGAAATATTCTATCTCTTGATTGTGGTGGTGGTTACATGATTCTATATGTATTTGTCAAAATCTATGGAATTGTATACTGAAAAATTGATCAAT
TTCATTATACATAAATTATACTTCAAAAAAATGGAACTGGGTAAAAATAGTTCCCTCATGAAAAAAATAGAAAATGCAATGTTGAAAGAGAAAGGAGGAA
CATTCTTTACAAAACAAAATGTTTCTTCTTTATAGGCTATATATTTCAGTTTCAGCTTCGAGTAATGAATTTTATGGCTTCGTCTCTTGCATTGAGCATT
ACACTCTAGTGAACACCCAACTTGCTAAGTCGTCCCCCATACACACCTTACTGTTTCTCTCTTTGTTATCATTTCCTTATGCTGAGCACTTGCCTGGRGT
AGCTCCCTCCCCCAGCCTTCCCTGGGGCTCTCATTTCCTCCCTCACTCATTTGGTTAACTCTTATTTACCATTGAAGATTCAGTTTGGAATTCACCTTCT
CCAAGAGCCTTCCCCTGGTTTCTCCCCATCCCTTTCACATTGGGGCTCATTTGGGTATCCCTGGCCATTAGCTTTGTCAGTATACTCACCAGATTTCACT
ATAAGTAGCTCTTTATGGGTTTGTCTTCCCCAAAAGAGGTTAAGGACTATATCTTACACACTTTTATACCCTGGTGCCCAGCATGTTGCTGATGGTCAAT
AGATGTTTGTAGAATTAGTGATTGGGAGTGCCAAAGGGAGTGGTGAGGACATGTGAGATTGTGGAAAGAATGCAAGGGAAGGAAGATTATTTGAATCCCA
GTCTCTCACTTAGTGGTTAGAGTAACTTTGGACAAGTTGGTTAATGTGTCTCAGATAGAAGATGGAGATCTAGACCCATCTACTGGATAGGATTACCATA
AGATCTACATAAAACTATGATGTGAAAGCACTCTGTACCTAGTAAAGCAGTTCACACACATAAGTTATTATTATGTCATTGGAAGAGTGTTGTTTCTCAG
CTCTTGGATATAGCAATGTAAACCAAACCAAACGGATAAAATATATTCACCTTCAACTTTAAGGGTAGTGTCTGCATTGCATTGATATGTTCACCTGACT
CCTTATAGCATCTAGTTAGAACTTCCTCTGCTCATAAGAGACAGCTATAGTCTTGTCAGTCCTTTCACTCTGTTATTTCTCATTGAAGCAATTGCTAACC
AGTGTATATAATTTTTGAAAACATGGATCTTGTTTTATTTAGCTTTGGGTCCTCTRTAGCACTTACTAGAGTTCATTGCATCTAGAAATGTTAAAATGGC
AAGCCAAGTAGAGGTTAACATAGACATCTAGAGAAATGTTATCCAGTTTTCCAGAGAAGGCTAAATATCAAAATAGTGTTGTAATTAAATCTTATTTTTA
GAATCTGATAAAGTAATTTTGGGTTACCACAGAAATCTTTCAAGTTTAAGCTAATAAAATATTAATGTCCTGGATCTTTGGAAATCTACTAATGTCTTCA
TTTGGAACTTCATAAGAATCAAGAATTTCACTGCATCTAAGATCCGTTTTCCACAAGTCTTAAAATCTGAACTACAGCACGTTATCTATGTGATATTCTT
TCTAGCATTTCATAAACGTATTCTTTTAAAAAAATAATTATTTTATCTTGATTATAGAAGAATGGAGTCTATACCTTATTTGTAGGTGATAGAGCAAGCA
CCAGGCCCTTGACCCACTCTTACTGCCTCCGTTCATCATTATTTTTAGTTTCTACTAACCTTTATTGTATTATTTGGAACAAAATGGAAGAAAACCTAAC
TGGGTGTATAAATTTTGATGTACATTAACAATTCATCAAAGTGATATTATAGATAATGTGACTGTTTTCATAAACAAAACAGGACTAAAATAAATGAATA
TGCAGAAGAAAGTGTGAGAGATACTGAAATATTTTGCTGGTATAGTATATTATGCAGATGTTTGCATTTATGAGGTAGAACTAGAAAACAAAAAAACTCT
ATGTTATAATCATTTTTAATAAATGAATTTTTATTTCCAGGTAATTTATACCTATATTCAAGTCTTGGTAAGCAATTTAAAATAATTTGCTGACTTGTTG
ATCTCACCTTTCAAATAATATGCCAAGGGCCAATAACTTCTTGCAACATGTATAGATATTTATCCAAATGTGTTTTTGATAAGGATATGAAAATATTTGG
GGAATAAATCCAATACTTATGCTTATTTATGGTACATAAATCGGAGTTTCCCATGAGTGACCGTAAAAATTGGAGGAAGTGGAAAGAAAGAGGAACTGAA
ATATAAACCAAATGTTTGTTTATGGGCTTTATTTAGAAATCCACATTAGTGATTCTGACATTGGGATATTAATCCAAAATTTCCTTTCTTTGTGGATTAT
TTTCACACAAAATTGTACATTCTCATGAGGCAATTCTCTTTGGAGTACCCATAGAGAATTATTACATTTTTACCAGATAGGTTCTTTTTAATATTCTAAT
CTAGCAAATTTGCATTTAAGAAAACTACTTTATTCCAGGATAGCTTTTTTGCACAAGTTATTGTTCTGCCCACCTCCCCTCAAATAAAACCAGCATCATA
ACTTCTCAGAGCTTTGTCTGCTTTCAAGATTCTTTGGCACCTGCACTGGGTTATATGCCATACCAAAAATGTTTCCCAGCCATTCATGTTTAAATACATT
TAAGTTTACATTAATTTTTAAAAGGATTAAAAGCACCTTCAAAAATGAAGCATGTATTCTCTAAGCAGCAAGTATTAATTTATAGGGGCTGTTCATGGAA
AAAAATGCTGTTATTGTATGTCTCTTGCCCCATGCATAATAAAGAACTTTTCTTTTTGAAAGTAATTGCTGTAAAATATTCCTTGAGGGATCAAAATATT
AGTATGACTGGGAAGTAGGATCTCTGTTCTTAGGCAGATTGTTTTGTTACTTAGTTCCAAATATAAAACTGGACAAAAGTAGGTGAGGTAAGGGAATGAT
AGAGTGGTTAGAAGAGATCTTTAGATAAGAACATCTTTGGCAACAGGGATAGGGCCTTCACGATCTTTCTTAAAATCCTGGAGCGGCAGGCTTCACGTGG
GAGGAAACCAGGGGTTGCCACTAGATCAGCTAAGAGACAAGCAAATAAGAGGCTGGGTGCAGAAAATGCTGAGTCTCTCCGAAGGTTTTTCCCTCAAGCT
GAGCTGGTGTCTGGTTTTCTGACCACATGTTGTTTCTTCTCTTTATAAGAGTGAAACAACATTCCTGTTTAAAAAAAAAAAGCCAAAATGTTTGTCATCA
AGCCTGACAGTGATATGGGTCCTCACTCAAATACAGTGAGACTTCTTCCTACGATATTGGTCCTGTGGAGTTAGGTCAGAAGGATGTGGTTATAAAATAA
AGTGATTTCATTTTGTTTATCTCCTACTCAGAAACTTTCAGTGTTCCCCCTTTCCCGCAGTGACAACAGGAAAAGGCCCAAAAGCTTCAGCATGGCAGGT
GGAGGCCTTCTAGAACCTGGTTCCAATCTTAGCATAACTTTTACCACTTCCTAACTCAAGCCTCAACTCTAGCTCAACCATTCTTCTATGTAATCAAGAG
ATATTCTAGGCACTTCTGGTGGGAAGTAGAGAATAAGCCAAGGCTGGGAGGGGTGAGGCCTGGGGAACTTTAACAGAGATTAGTACCCAGATCACTAAAT
TTGGGGTTGGAGGGTGAGGCAAAGAACTCTGGTACTGTCTACACTGACAGTCTTTCTAAGGTACCTTTCCAAGAAGAGAAGACAGTGCTTGCCTAGTGAC
TGTGATGGTTCAGGGATAATGTGACAATTCTTGACACCCTGCTGTTACTTTACTTATAGATCAGAACATATTCTGTGAGCTGATATATTAGATTTTAGAA
GGAGAAGCCAATCCCAAAAGACAGGTAGGAATTAAATGGGGAACTCAGGATACCCAACTATCAGTTTGGTGGCCAGAGCTGGACTTGCTTTCTTGAGGAA
ATTATGATGAAAACCAGGGCCTGAGTCTTGCAGTCAAACTGGCCTCTGAAAGAGAGGGCTGGAGGTGGGAATGGGTGGGAAAATGGCAGCTCACTCTGCT
GCCTAGGACTCATAACGCCTGGTATATCAGATACCAGAAAACAAGTATTATACTATTCCAGAGATTATCTGTCTTACTAATAGGGCCCTGGGTAGGGCAG
AGCCTATAGGCTTTTAATTTTGACACCTGGGCAGGACAAGTTCTTTCAGTGACGGACACTTATCTTCCAGCACTATAATAGGCCTCATTATGGTACATAT
GATAAATTATCTTGTCCAATTAATTTATGCCACTTTAGACTAAGGACTGTCATATATATACATATATATACACHCATATATATACACACATACATATATA
TGCACATATATATATATAGTTTCTTTARGTCTTACCAAAGTATTAAATACTTTTTGAACAAATAACGTATTTTGGGGGGCATTATTCTGTCCACTTACCT
AAATCAAGGATGATATAAACAATAAATACAATTTCAATAAATTAGATTTTAATTTTTTTTTAATGAACAGAAAGCCAATTGATTGGTTTCCTGAAGCTCT
ATTGTTTCCTCCTGTCAATGGAATACAAAATCACAGGAACTCTTTATCACTTAGATTGGAGATTACGAATGCCGTGAAGGCAAGTAACTGCCTTTCTTCT
TCTAATTATTTTGGAAAGAACATATTTTTCACTAGAAAGACCAGAAGCTGGAAAGCCAAAGGCTTTGGCCACAAAACTGTGAAGGGACTCTGGATGGATG
GAGGCTCCACAAGAGCTTCATTCCAAATTAAGATGTTCAGGCTACATTGAAGAAAGCAATCTATTTGCCTTGGAAAAATTTATTAGYGCTAAGAGCTAAT
ATATGAAATATACAATCTGTATCTGGATGTTTGCATTTCTCTAAATCTTGCCCTCAACATATATATCATTTTCAATAAATGGTTTTGAGCCATAATTTTT
TCATTCATTCTATATGCCAGTTGGTGTGCAGGTGGTGTTGATATAGAAATGAGTAAGGCACAGGTGCTAACATCAGGGGCTCACAGTCCTCACTGGCATC
AGGTGAAGCACTGCATGCAATACAAGGACAAGTCCTCAAGCAACTGATGCATAGATTTTTAAAAAGTGGTATAGCCATACAACAGAATAGTCTTTGGCAA
TAAAAATGAATGAAGTACTGGTGCATGCTAAAAACCTCAGAAACATTAGGATAAATGAAAAATGCCAATCACAAAAGACCACATTTTATATGATTCCATT
TATATAAAATGTATAGAATAGGCAAAGACATGGAAATAGAAAGTACATTGGTAGTTGCCAGGGGTTTGGCAACCCCACTTTGCCAGCGGAGGGTGCAGAT
GGGGAGTGATTATTAATGGTACTGTGTTTGTCGTAGAGGTGATTAAAACCTTTCAAAATTGATTGTGGTGATGGCTGCATAACTCTGTGAAATACTAAGA
ACCTTTAAATGAACGCTTCAAATGAGTGAATTGTATGACATGTGAATTTAACCTGAACAAAGGTATTATAAAAAGAGAGAGAGAGAAATGGTAGGAGGAG
ATAGATCTTTCAAAAAATTGTGAATTAGGGGAAGTAGAGAAAAGGGAAGGTGTTAAAAGAAGATGTTTTAATCTACATTGGTTATCAAATGTACACAACA
GTTTTAAGTACACATTCTCATTTCATCCAAACAACATTGCTGTGATTTTGCTGTTATTTAGATAAGGAAATGGAAGCTTGGAGAGCTTAAGCGATTTGCC
AAAATACATACAACTTAACAAGCAGAATGGGCTATTAAGGTCAGACCTGAGGAAAGCAGATCACAGTTGAGGGGGTTGGAGGAAAAAAAGAAAGAAAGAA
AGAGAAAGAAAGACAAGATGAAGATACAGGGATTTTGAATTCTCTGATCCCAGAAGCTCTCATTGGCTAAATCACAGTTTTAGCACTGTTCACTTTTATT
CTTTTGTAGGCTAATGTACTAAGCTAATTATGTATTTACATTTTAAATTCCTTGAGGACTAGGCAATGTCTCTATCATTTAGATTCTTCTAGGTACAGGC
ATCCCTCGGAGATATTGTGGGTTTTGATTCTGGACCACCACAGTAAAGTAAATATCACAATAAAATTTTTTGGTTTCCCAGTACATATAAAAGTTATGTA
GTCTATTAAGTGTGTAATAGCATTATGGCTAAAAGAATGTACATACTTTAATTTATAAATACTATTAATATATTGCTAAAAATGCTAACTGTCATCTGTG
CCTTCAGCAAGTTGTAATCTTTTTGCTGGTGGTGGTCTTGCCTTGATGTTGACGGCTGCCGACTGATGAGGGTGGTGGTTGCTGAAGGCTAGGGTGGCTG
TGGCAATTTCTTAAAATAAGACAACAATGAAGTTTGCTGCAATGAATGATATTTCTTTCATGAAAGATTCTTCTGGAGTATGTGATGGTGTTTGGTAGCA
TTTTTCCCACAGTAGGACTTCCAAAATTGGAGCCAGTTCTCTCAAATCCTGCCATTGCCTTATCAGCTAAGTTTATGGAACATTCTAAATCCTTTGTTGT
CATTTCAACAATGTTCACACACCTTCACCAGGAGTAGATTCCATCTCAGGAAACTCGTTTATTTGCTCATCCATAAAAAGCAACTCCTCATCTGTTAAAG
CTTTATTGTGAGATTGCAGTAATTTAGTCATATCTTCAGGCTCCACTTCTAATTCTAGTTCTTTTGTTATTTCTCCTACATCTGCAGGTACTTCCTCCTC
TGAAGTCTTGAACCCCTCAAAGTCATCCATGAGGGTTGGAATCAACTTCTTCCAAACTCCTGTTAATGTTGATATTTTTACCTCCTTCCATAAATCATGA
ATATTCTTAATGGAATCTAGAATGGTGAATCTTTTCCAGAAGGTTGTTGATTTACTTTGCTTAGATACATCAGAGGAATCACAATCTATGGCAGCCATAG
CCTTATGAAATGTATTTGTTAAATAATAAGACTTGAAGGTTGAAATTGCTATTTGATCCATGGGCTTCAGATTGGATGTTGTATTAGCAGGCAAGAAAAC
AACATTAATTTTCTTGTATATCTTCATCAGAACTCCTGAGTGAACAGGTGCCATGCCAATTAGCAGTAATATTTTGAAAGGATTTTTTTTCTGAGCAGTA
CATCTCAAGAGTGGGCTTAAAATATTTACTAAACCATACTGTTTAATAAACCATATCTGTTCTATAAACAGATACGCTGTCATCCAGGCTTTGTTGTTTC
ATTTATAGAGCACTGTTAGAGTAGATTTAGCATAACTTTTAAAAGCCCTATGATTTTTGGAAAGGTAAATGAATATTGGCTTCAACAAAGTCATAGCTAC
ATTAGTTTCCAACAAGAAGGTCAGCCTGTCCATTTGAAGCTTTGAATCCAGGCATTGACTTCTCTCTAGCTATGAAAGTTCTAGATCTTCTAATAGAAGG
CTGTTTTGTCTACATTGAAAATCTGTTGTTCAGCGTAGTGACATACCTCAATGGTCTTAACTGGGTTTTCTGGATAACTAGCTATAGCTTCTACATTAGC
ACTTGCTGCTTCACCTTGCATTTTCATGTTATGGGCCCTCTTTCCTTAAATGAACCAACCTCTGCTAGCTTATATGGGTGCAGTTCATGGTGCTCCAAAA
CAATTATGATAGTAAATCAGAACTCACTGCTCACAGGTTATCATAACAGATATAGTAAAAATGAAAAAGCTTGAAATATTGCAATAACTTTTCTTTTGTA
GCTTCCTTACTTCTTTCAGCCATCATAGAATTGAAGAGAGTTAGGGCTTTCCTCTGGATTAGGCTTTGGCTTAAGGGAATGTTGTAGGGGGTTTGATCTT
CTGTCCAGACAGCCAGAACTTTCACCCTATCAGCAATAAGACTATTTTGCTTTCTTATCACTCACGTGTTCGCTGGACTAGCACTTTTTTTTTTTTTATT
ATTGAGACAGAGTCTTGCTCTGTCACACAGGCTGCACTGCTTTGGTGCAATCCTGGCTCACTGCAGCCTTGATCTCCCAGGCTCAAGCAATCCTCCCACC
TCAGCCTTCTGAGTAGCTGGGACTATAGGTACATGCCACCATGCCCAGTTAATTTTAAAATTTTTTTGTGGAGACAGGGTCTCACTATGTTGCCCAAGCT
GGTCTCCAACTACTGGATTCAAGCAATTCTCCTACCTTGGCTTCCCAAATTGCTGGGATTACAGCAATGGGCCACCACACCTAGCCAGCACTCATAATTT
CCTTCAAGAACTTTTCCTTTGCATTCACAACTTAGCTAACTGTTTGGCACAAGAGGCCTAGCTTTTGCCCTATCTTGGCTATTGACATGCCTTCCTCACT
AAGCCTAACCATTTCTTGTTTTTGATTTAAAGTGAGAAATGTGTGACTCCTTTCACATGAACACTAAGAGGCCATCGTAGGTTATTAATTGGCCTAATTT
CAATGGTGTTGTATCTTAGGGAATAGGGAAGCCTGAGGAGAGGGAGAGAGCACCATGTACTGCACCCATATAAGAAGAGAAACCTAATCAATAAACTTTG
TGTTCTGACTGCTCCATCAACCTTCCGGACAAGTCAGAACACAAGCAACATTTATTGATTAGGTTTCTCTTCTTACATGGGTGTAGTTCGTGGTGCTCCA
AAACAATTACAATAGCAATATCAGAGCTCACTGATCATAGATCATCATAACAGATATAGTAAAAATGAAAATTCTTGAAATATTGCAAGAATTACCTAAA
TGTGACACAGAGACATGAAGTGAACAACTGCTCTTGGAAAAATGGTATGGATAGACTTGCTTGATGTGGGGTTGCAACAAACTCGATTTGTAAAAAACGC
ATTCATCTGTGAAGCACAAAAAGGCAAAGCAAATAAAATGAGGTATGCTTGAATATTTGGGGACCTGACTACCCATTTGCCTGTTTTGGGCAACTGTATT
CTGAGAAAAATCTGAGCTCATTGGCAACCAATCAGTAGAAGTAGGGTGGCCACAGATACAGACATATGTCCTTGTTAGTTGTTATTATTTTGTAAGAGAG
TATCACCTGTAGTGTCAATATGTATTACCCTGCCCTGAACTGATAACATGGAACACACATTAGCTCCAAGTTTTTGGCAGAGATGCTGTCCTTTAACTCT
TTGTTATTCAATCCTCATCAAATCCTTCTTTCCTTTTTCTAATTGCACTCCTTTTATACTCCCGTATCAAATCCTTCAATGTAAACTGTTAATTCTATTT
CTAAAATATATTGCAAATTCAGCCACTTCTTTTTCTCTTCTGTGAAATCAGGCCTGGCCATCTCCATCATCTTTGTTTAGGTCTTTCTTTTCAGCTGGTT
ACATTACTTTCAAGTCTGTCTCTCCTCTACTCCGTAACTGAAAAACTATATTTTTTTTCTATGGAAATTCCATCACATAGCTCCCTGAAGGTCCTCCTGC
CTAGAAAAATTATCATCACACAATTACCTTTTAAAACACATCTTAAAAACCCAATCAGCAAATGTTTGAGGGGCTAATATGAGGGAGCTTCAAAAAGTTT
GTGGAAAAAGTGAATTAAAAATAAAAATGAAAAATATAACCTTTATTTCTCAACATAAGCTCCATCAAGTTCAAAACACTTTTGTAAGTGATGATATCAG
CCATTTAGTTTATCCCTAAATAACTGGGCACTCTAGGTATATAACCATATCATTGCAGTCTTTTTTACATTATTAACTAAAGAAAAATGGGTGCCCTTTA
CAGATTTTTAAGATTAGGAAACAAAAAAAAATCAAAAGGAGTTAAATCAGGACTTTCAGGTGGATGCCTAATAACTTTCCCTTGAAACTTTTGTAAAATT
GCCCTTGTTTGATGAGCAGAATGAGCAGGAGCATCATTGTGGTGGAGAAGGATTTTCTGGTGAAGCTCTCCTGGGCATTTTTCTGCTAAAGATTTGGCTA
TGTTTCTCAAAACACTGTTATAATAAGCAGATATTATTGTTCTTTCACCTGCAGAAAGACAATAAGCAAAATGCCTTGATCATCCCAAAAAACTGTTGCC
ATGACCTTTGCTCTTCATTGGTCAGCTTTTGCTTTCACAGGACCACTTCCACCTCTTGGTAGCCATGGCTTTGCTTGTGCTTTGTCTTCAGGATCATACC
GGAAAGCCATGTTTCATCTCCTGTTACAGTTATTTAAAGAAATGCTATAGAATCTTGATTCCACTTGTTTAAAATTTTCATTGAAACCTCTGCTCTTCTC
TGCAGCTGATCTGGGCACAATGGTTTTGGCACCCATCAAGTGGAAAGTTTGCCCAACTTTGATATTTTAGTCAGAATTGCATAAGCTGACAAATCAAGAT
ATCTATGGTGTTGGTTATTGTTTCTGCTGTTAATTGTCACTCTTCTTCAATTAGGACATGAACAAAGTGAATTTTTTTCCTCACAGATTGATGTGGATGG
TCTGCCACTGCAAGCTTCATTTTCAACATTGTCTTGTCCCTTCTTAAAATGAGTTATCGATCTGTAGGCTGCTGATTCCTTTGAGGCATTGTCCCTGTAA
ACTTTTCATAAAGCAGCAGTGATTTCACCATTCTTCTTCCCAAGCTTCACCTTAAATGTGATGTTTGTTCTTGTTTCAATTTTAGCAGAATTCATGTTGC
ACTGATGGGGGCTCTTTTTCAAAAAAATATTTTTTATTGTACTAAAATATACATATATAATTTACCATCTTTATCTTTTTTAAGTGTGTAGTTCAGTGGT
AATAAATGCATTTATATTCTATTTGTTTCTTTGACTCTTCTCCCCTCTCCCCTTCCTGGCCTCTGATAACTACCAATCTCTATCTTYATGAGATCTACTT
TTTTAGCTCCCACATGTGAGTGAGACTATATGATATTTGTCTTTCTGTGCTTGGACTTTTTCACTTAACATAATGGTCTTCAATTCCATCTATGTTGCTG
CAAATGACAGGATTTCATTCATTTTTATGGCTGAATGATATTTCATTGTGTATATATATGGCRTTTTCTTTCTTCATTCATCTGTTGATGGGTACTTAGC
TTGATTCCGTATTTTCACTATTGTTAGCAGTGCTGAAATAAACACGGGAGTGCAGATATCTCTTTGATGTATTGATTTCCTTTCTTTTTGATATATACCA
AGTAGTAGAATTACTGGATCATATGGTGGTTCTACTTTTAGTTTTTTGAGGAACCTTCATACTGTACATTAGGCTGTACTAATTTGCATTCCCACCAACA
GTGTATGAAGGTTCCCCTTTCTCCACATCCTCACCAGCATCTGTTATTGTGTGTGGTGAGATGCTGTCTCATTGTGGTTTTCATTTGCATTTCTCTGATG
ATTAGGGATATTGAGCATTTTTTTCATGTACTTCTTGGCCATTTGTATGTCTTTTGAGAAATGTCTGTTCAAACCTTTTGCCCAATATTTAATCTGAATT
TTTTTTTTTTTTTTTTTTTTTTTGCTATTGAGTTGTTTGAACTCCTTATATGTTCTGGTTATTAATCCCTTGTCAGATGGATAGTTTGCAAATATTTTCT
CTCATTCTGTGTGTTGTCTTTTCACTTTGTCGATTGTTTGCTGTGCAGAAGCTTTTTAGGTTGATATAATCCCAATTATATATTTTTGCTTGGGTTGCCT
GTGCTTTTCAGGTCTTAAACAAAAAATATTTGCCCAGACCAATGTTCTGGGACATTTCTCCAAAGTTTTATTCTAGTGGTTTCATTGTTTTAGGACTTCT
ATTGAAATATTTTATCCATTTTGATTTGATTTTTGTGTATAGTGGGAAATAGAGGTCCAATTTCATTCTTTTGCATATAGCTATCCAGTTTTTGATAGGG
GCTCTTTTAAAACTGATGTCTTATCCTTCTTAGTGCCTCAAACTAGATTCTGTTCAGATATGTTATAATAAATTAGTATGAGTTTATTTTGATGCAAAAA
AGTTGAAATCTATTTTTTTATAATACACATTTTTCATGAACTTCTTGAAGACCCCTCCTATTTGCCAGACACTGTTCTTYCATTGACTAATAAATAAATT
CTCTCTCCTTTCTTTTTTCATTTTTCAGCTCTTGGGTTTTACAGTTTTAAAAATTAATTTTTAATTAGACAAGTAAAAATTATATGATTTGTACTGTACA
AGTGTGATGTTTTGATATGTATGTACACTGTGTAATGGCCAAATCAGGCATATCCATTACCTCACATACTTAACATTTTTTTGTGGTGATAACACTTAGA
ATCTATCCTCTTAGCAATTTTCAAGTATACAATCTATTGTTATTAACTATAGTCAGCATGATGTACAACATATCTCTTGAACTTTTTCTAACTGAAAATT
TGTGTCCTTTGACCAACTTCTTCCCAATCTCTACATTCCCTCATCTCTGGTAATCATTATTTTACTCTCTGTTTCTATGAATTTGAGTTTTCTAGATTCC
ACGTATAAGTAAGCTCAGATGGCATTTTTCTTTGTGTGCCTGGCCTATTTTACTTAACATAATGGCCTTCAAGTTCATCCAAGTTGTTGCAAATGACAAT
ATTTCTTTTTTTGGTAAGGCCGAATAGTAATTCCATTGTGCCTATATACCACATTTCCTTTATCCATTCATTCACTGATGGACACTTAGGTTGATTCCAT
ATCTTGGGTATTGTCAATAATGTTGTAATGAACATAGGAGTGCAGGTATCTCTTTGACATACTGATTTCATATTCTTTGGATATGTGTACCCAGTAGTGG
GATTGCTGGGTCATATGGTAGCCCTATTTTTAATTTTTTAGCTCTATTTTTAATTTTTTGAGGAGCCTCTACACTGTTTTTCATAATGGCATTCTCAATT
TACATTCTCTTCAACAGTGTACAAGGATTCCCTTTTCTACTTATCCCTGCCAACACAAATTCTAACTCTTCACCATGGCCCAGGAGGTCCTGCATGATAT
GGTTCCTGCCTTTTTGTCAGATTTTGTCTCATGTTTCTCTTTGCCCTTTCTCACTGCACTCCAGCCACAAAAATCCTCTTTCAGCTTCTTGTGAAGGTTT
TCCTGCCTAGAGGCTTTTGTAGGTACAGTGACCTCTGCAATGAGTATTCTTGTCTCCATTCTTCTTGTCCATAGTTCGTTAGCATAAAATCCTTCAGTTT
TTCAGCTTAAATATCTCCTCAGAGAAGTCTTCCCTGATCACCTAATACAAAGAAGTTTTCTGTCCCCCTCATTCTTCAGTTAGCTAAAAATAATAGAAAA
CCCAAAACAATAGTTGCTTACACACMATAGAAGTTTCTTTCTCTGTCATATGAAATTATAGATAACTATGCACCAGAGTGTTAGCAACCCAGATTCCACT
GTCCAGATGTTCCTTTCCAAGCCTACCTCGTCATCCAGGATGGCTTCTTCCATCTGCATTTGAGTGACCAGGATAAAGACATGCCACCCCCTTTAAGTAA
CATGGCCACATCTAGCTACAGGGAAGCTAGAAAATGGGGTCTTTTTAAAACTCTAGACAGTCATCTTCCCAGCAAAATTAAAACTGTTATTACTAAGGGA
GAGGGAGAAAATGGAAATGGAGGGATGAAGAGGAGTTACATTCCACATTTTATACTCATGGTAGAAATGGACTTTTGTACATTATTGTATCACATGGCAT
TTTTAATTATATAATTTTCTTGTAGGCAAATAACTTTCTTATGGGAAATTTGTGCTACTCTTAAGCAACTGGCTTGTTTTCCTATTATGGACATTGTGAA
TCTTCTGCCTGATTATGTTTTGCTTTTTGATTTGTTTGCCAGGAAGTTTGTAGCTAAATTTATGGTCCTCTCCAGCAACTACACAAATCCTATGATGGAT
ATTTTTTCTGATAATATTATCTGTAGCGTTATTTTATTTTACTATACTTTCTTCCTTTCTTTCTTTACCTTCTTCCTTTCTTTTTATTTTCTTCAATGTA
ATTTTGCAAGTCTCTTCAAATTCCTTTGGTAATAAGTCAGGAAATAAGTAAAACACAAGTATAAATAAATAAAGTATTTTATATTTAATGAAGGTGATAA
AAGTGCCTACATTATAGGGCTGTCGAGAGAATCCACTGAGTTAATGTAAGTAAAACATTTAGAGCAGTGCCTGGCATATTGTAAGACCTATAGAAATGCT
AGTTCGTTATTATTATTATTTTAATTAAATCTTTCCTGAAGTGACTGTCAGATAAATCTGCTTGATAAGACAGTTTTACTTTAACTTTTGTTCTAGGTTA
AACAAAGAGGGAAAGATTAAAATATACATTTAAGGACCACTCAGCAACAATCATTCTATGTCTTCATATTCTAATCTACATGGCAGCTAGTAAATGCATT
GTGCTGTGTAAGATAATGTGCTAAAACTCTTAGTGGAGATGGCCTCTAAATTTTTTATGTTTAGTATTTAGGCATCTTGTAGATAAAATGTATGGATGAA
TAATCAGATGAGGATTCAATGACCAGAAGTACTGTTGCTCTCTCTCCATCTCTTTCTGTTAGAAATAGATCTCCATCAGATAGGTCTGTGTTTGAATTTT
AGATGTACTACCAACCACACTATGTGACCTAGGTCAAGTCTCAGCTTTCATGTCAATATATTTACCGATGGGTGGCAGTAATACCTATCATATAGGGACA
TAAGGATTACATTAAATAATACATGTTAAGATCTTTGCATGGTTCCTGGCCAGAGTACACATACAATAGCTATTTCTGATATCATTATTTTCACTCAAGT
CTTTTAAATTGAAGAATTATCACCTTTTAGCACTTGAATTTATATTGAATCTATACACACATCATTTTTTTATTTAAATATTTGAAATCCTTACCCTACA
ATCCAATGGAAATTCTGCAAATGTTTAAAGTTTTGGACTCCATGACAAAATTGTATAGATAGAATAGTGGTTTTAAATATGGCTCGGGGATTACAAATGG
TCCACATGGATCCTTGGGAATGAATCAAGCTACGAGCTCCTATAGCAATAATATTTCTATTACCATAGCGTATGTGCCTAAGTTTCTGGTGTGGATTAAT
AAATTATTACTGTTGTTAAATGGATGCCTGGTTTTCTTAATTGGTAGCTCATCAAAAGCTTATTAAAAACTTCCTATTCATTTTGTTGATTTCAGTGGTT
GGGGATAAATGGCCCAGGAGGCTCTTTGCCCTGCTAAAGTGGATCATGAACAATGTGGGATATTTAATTCAATTCAATTCAGCAAACATATTGAATTCAA
AATATGCAAAAAGCATTGTGCTACAAATTGTGACAATATCAAGGGACATCCCCTGTGGTGGCCTTCTGTTATTTGGTACCCAGGATCCATTTTTATTCTA
TTTGGGAACTACAGCCTTGGCCCACTCCAAGCTATGTGGTTTGGGTAGGATTGGCCCCTTACCCAGGTCTGGGGGTGGAATGGCCTTGCTTGGCTTAAGG
TAGTCAGCATAACCCTTTCCTATGGCCATGGTATTAGATTTATGAGTGGGCATATAACTCATGAATCTTTAAAAGACTTGTGCCTGGGGCTTCTGAAAAA
AAATGAAGTCTCCTCTGTCTTTGCAGTGGGAACTTCTGGAAAAGATACTTTCTCTTTCCCTGGGCCTATAGTTAGGATGTAAGGTATAGGAGAGCCTGCA
GATGTTTTGGGGGAGAACACCACACAGATTTTGAATATGAAGCTAACACCATGGGTTTGGAGTCGGTCTGACCTGGATTCAAATCCAAGCACTGTCACTT
TCTAGTTTGGTAAGGTATTTGAGCTTCGTTGTGCCTCCATTTTGTCACCTATAAAATGTGGCTAATGCCCTTACTCTCTCCTCCTTAAAACTATTTGGTA
CTGGCTTTTAATTGTAACAGAATTAACATCAATAATTGGATTTGTGCCCATCAAGCCAATGAACTTTCATAAAATGAAATCCAGAAAATTTTCATGTAAT
TCATAGAGTTCTTATATTTAACCCATGTCTCTAGAATCTTCTTCTAGTGACAAATTATGTTGTATTGAATCATGTGAAACTGAGCCAAGTTTATCATTAT
TTAGGGTAGAAATTCTGTTTTGTTACAGTAGTTTCACTCAAGTTTTACTTCTCTAAGAAGAACATAAGACACACTTAAAATTTTAAGCATATCTACATAA
AAAAGCCCAGTTTGTTATACCATTTTCATAGAGTTATTTTAGCCCTCTAATATAGCACTGTAATAACATTTTGTACTTGCTACAAACATAAGCACACTAG
TTTCTATCATTTTTGCCCTTGGTTTATAAAGATGGAATTTAGAAAGCAAATACATTTAGGGATGAAATAGTGAAATCTGCTGAATGTGTGTAGAATTATT
AAAGAGTATAACATGGCTGCTTGTTTTATTTAGAAATGACATTGGGTGGGTTAGCTAACCAAAGCTGCCAATACTGTATTTTAATGATCTTGAGTTTATC
TCCTATTTACAATTCTTTGTCATTTAGTCTACAGGTGTTAGATCACTTAACACTTGCTGAATTCTTCAGATTTGTTTGTTTCCTGCCGTTTGGTGTTGAT
CATTTTGATGTGTGATAGGAGGAGGAAGTAGTTATCTAATTTTCACTGAACAATCTTCCCTAAGGTATCACATATATTCATTCTATATCTTCTATCAGTC
AGCCATAGATTGTGAAAAACTTTGATAGAAACTTTAAATTCAGAGCCCCTGAATTAGTCAGTTTTCACTCAGTAATGCTATGATAACAAACAACCTCCAA
AATCTCAGTGGTTCACAAAAACCAAGCTTTAATTCTTGTTCTGTATATATATATACATATATCTGCCGATTAGTAGTGCCTTTGCTCCTGCCTCAGGTAT
CTTTTTTTACCCCAGAATGCAGACAGAAGGAGCAGCTTCCATCTGGGACATGCCATTCTCCTGGCTGAGGGCAATGATCTCTCTTTTTCTTTTTTCTTTT
ACTTTTTAAGTTCTGGGGTACATATGCAGGATGTGCAGGTTTGTTAACATAGGTAAACGTGTGCCATGGTGGTTTGTTGCACCCATCAGCCCATTACCTA
GGTATTAAGTCAAGCATGCATTAGCTGTTTTTGCCAATGCTCTCCCTCCCCGTACTCCACTCCTCAACAGGCCTCAGTGTGTGTTGTTCCCCTCCCTGTG
TCCGTGTGTTTTCATTGTTCAGCTCCCACTTATAAGCGAGAACATGCAGTATTTGATTTACTGTTTCTGCATTAGTTTGCTGAGGATAATGGCTTCCAGC
TCCACCCATGACCCTGCAAAGGACATGATCTTGTTCCTTTTTATGGCTGCATAGTATTCCACGGTGTATATGTACCACATTTTCTTAGAGACAATGCCAA
ATCTTGCAATGGTCCTTAAAGCTCCTGCTCAATTATGACTGTATATCATGCGTATTCATATTCCATTGGCCAGAGAAAGTCTCTTGGCCAAGTCCAAGCT
CAGTGTCTTTGACTGAGATATCGCAGTTTACAAGGCAATGGGTGGGCATGAGTTTTAAGAGGAAATAATGGAACATATGTCATAGGTCTGTTTTGGACAG
GGCTACTGGTGTATTTTTCTCTTATGTCCTATTCTTCTGCTGTTTTTTTCTCCAAAAACTCCCTTCCTTGGTTCTCTCATCCACCCCTCCATCACTTCCT
CTGTACTCTTGGCTGCCAAGTAGACCCATGGAGCCTACTCCACTTTTCTGTCCAGCCTGATGTAGAATCTTTAGGATATAGGACCTAAATTATTGCTTTA
GTAAAAACTGGAGCTGTCTGATGTTATAAGGAATAGCTCTACTCTGAGCCAAGTAGGCTTGGTATTTACTGAAGTCATATCCACTTTGTTTTATTCCTGG
TAATTTGGCTTGAAGTGAAATTTTAAATAAACCAGATACTTATTGCTTATGCCCACTAAATATATGTCCACAGCCCTTAAATAACTACCTTTGTCTTATA
GTGCTTTATGGAACATAGAGCAATTTTACCACCATTATCTCATATGATGGTCACAAGAAGCCTGGTGATGCCAATATTATTGTGATTCCCATTTCACAGG
ATAAAAAAAAGTTAAGTAGCTTATTCAGGATCAAAAGGCTGGTGAGCTTTATAGCCAGCATTCAAGCCAGGGTATRTAGTGATAGGCATTTCTTGTTATT
GACAAAGAAATCCTCTGCTTTAAGCATATATCGAATAATGCATAATGTAATAAATACCCTGTTTTTTCAAAAAAAAGTTACAGAGTAAGATGTTGGCTTG
TTTCACTGAAAATATTCAACTTAAAATTTTTAGAAATGTCTTATTAGTTTTGAATGATCTGATGACTAAATTTCAGTTTATATAAAACTTTCCCTCATAA
AACAATCATTACACAGTTTGGGCACTATGCTTGCTGGAGTATAAAACCCCATTGCAGTAAACAGTGTGTCATCATGCTGTTACTGAAAGTGGCCTACTAT
GCTTTATCTCCACTGCCCTGTCCCAATCTAAGCCACTGTCACCTCTTACCCAGAATGTGGCAGTAGTCCTTTCAACAGTCCTCTATACCTTTTCTGACTT
CCTCCAAGCTTTTCCTCAAGCTGAGCCTAGTGATATTTTTAACTGTGAATGTGAATTTGTCTGACTTCCCTATCCTTACCCAAAGTCCTTAATACAAGTC
TCCCATGTGATATCACCCTGCAAACGTGGCCAGCCTTCTATCGTCATTCTCTCCCTCAATTTCTGCTTACTTTCTCATCTTAGTCCTCTCTCCTACCCAC
CCTCCAGCCAGTGTCTCCTAGTCAATTGGCACTCATTTTTCCCATCCCAGCTTCCCAGGGAAGCTAGCCATGACCCCCAGACCATGATAACTAGCCCATT
TTAGTCTACTGTAGCTGGCAACTCACCTCCATATCCCACCCATTGCCACACCTGGATTTTCCTCTGTAAATACTGCTTGAACCTGACTGAGGTGCATTAT
GCTTCCTGCTGCTCACTTTACCAGGTTAGATGACAGCGGTTTTCATGAAAGCCGTCCCTCACTCACGCACATTAGTCACCTTTACAAGGAAACACCCAGT
GATTAGAGAGAAAGCAACCACCATGTCAGCCATGCTTCAAAGCAACCATATTCAAAACAAGTTGTTTTTGGAAAAGAGTATATTTCATGTTTTAGAGTAT
AAATGTTCCCTGTGATAATTACTATAAGAAATCAAGATACTCCAGTCTGAGTGCCTGTTCATGCTGCTGCAAAAACAATGGGAAAAGTTTGGATTTTAAG
GCAATCCAATTTCTAAGGACCAGAAGCAGTCTATGCTTATGGCTGCTTATTGCTAGTTGGGTTCTTATAAACCTGGAGTGTCCTACATTTCATGTTGAAT
TGAACATAATGGGCCTGTGATAGGCACCTCTCCACAAAATAACAAAAGTCTCTGTATAAACTCAATATTTTAGAAGTCAAAGTAGACAGGATACTTTGCT
TGTGGCTTGTCCTCAGGTATCAGTACAGCAAGTGGCTCTCAGCACACCACCAAACAGGGCAGGCAGCTGGCTCTCTAGAGATAATTATAATTTATTGTGC
CCATGGATTTTGATGCAGTGGGGTCTGGGCTCTCTCACAAGGCCAACAGAGCAGGTCTAATTTGAGCCAGATCTCAGGAGACACAGTCCGGAGAGGATGG
GTCATGTGCCTTCAGTTATCACTTGGAGTTGCACTTTGCCCCTTGTTCCTCTTTCTCTCAACTAGTAGCTGAGTTTTAATTTTTTTCCCTGAAAATTTAT
TCAGAGAGACTGTTTTCCTTTTCTTCCTGGAATTCACAGAATGAAGATGGAGGTCCATAAATACCTTGGTTAAAAGTTGGAAGATCATAGAGTGTCCCAC
TGTCTGTTTTGGGGCCTGGCAGGAATACTCCTAATCACTGTAAATGAATAGGTGTTTCATCTATTTTTGTCTTCTCTTCTTTGTTCTCTACCTGAAAATG
TCCTTCCCTCATTTTCAGGCTACTGAAATCTTCTAAAGCCTTCTTAAAGTTTCTTCTTTATAGGAAACTTCCTAGATTTCTTCCTTTAGTCAGAATTAAT
GCTGATTTATGTTCTCTCATGAAATTGTACTTTGTACTTTCATTTASTGCTGTGACTGTTCTTTTTAAAGTTATTGTTTACTTATTTTTTTCTCCTCCAG
ATTATACAATCCTTAAGGATAGTACTGGAATTTCCTCATCTTCCTATTGTCCACATTGCCCAGCGTGAAATTTTGGCCCAGTAGGAAGGCTATACATTTG
TTGAATTAATTTKGATCTGTAAGGCATATTCTTCCACGAAAAGGACATTGCACAATCACAATATTCTCCATAAACAAATGGACACTCAGAAAGAACTGTT
GTGTTCTTTTATCTGCCTTCCATGAATGTGCAGTTTCCTTACCACTTCTCCATGGACCTAGTTATCTTGCATAGTGCACACATTAGAAGATTATGTGATA
AGAGTAGAAAGCTAGGTTTCCTTTGGGTAGGGCTAGACTATTTCCTGTTCAGAGGTGAAGACTTCTGAAATCAGAATCAATTTTCTAAAACATACCACAT
TAAAATAAGACCATAGACAYGTTTTTCTGTCTATAAGTCTTTTTATTTTRATGGTAGAAAATGTTGTAAGATTATTTCATTATCTTCTTATTGTTAACTG
TTTTGGGGAAGAATCAAATCAGGAGAGACTGAGATTGGAGTCTTTTTATCAAATTCTCTATAGACTACATGATCCGTGCCAATACCACAGCAGTCAGCAG
CTGTTGTCTGTGCTAGGAGACCACAGTAGTAATTACACACAGGTTAAGTGGCTTAAAAAAATTGATCGGTTTTGAAAATTAGGTGTGGAAGATAGAAAGG
AACCTGAGGATTTTTATAATATTTTTGTGATATAATAGACTATAGCCAAAAGAGTTACTTTATAGTGAGTATTTTTAGCTTCAGTCCCACATTCTCTTCA
GAAATTAGTATTATAATCCTTTTCATTACTCTAACCGAGTCTGATGACTCCTGTCCTAGGATGAAACACCCCTCCCAACTCCCTTATTAAGAGATTGGGA
CCTAGTGTGATTAACAGCACCCTGATCGATGAGCAAGATTCTTACAGATTAAGGAAAAGAATTGCTGACAACTTAGGCTGACTTTTATATACCTATTTGT
TTTCCTTCCTAATTCCTCTTAAAATGAAAATGCCAAGMTTTTCTTTTGATATTTGTTACATTTGTGAAATAATATAACAATGCAGTTAATGGGAAGAGCA
TGACCCCTGGATTCAGATATCCAATAGTTACAAATCTCAGCTTCAGCACCTAGCAGTTATGTGAACTTTCTTCTCTGCACCTCAGTCTCTTCATAATAAC
TACTTTGCAGAGTTGCTGTGAATATTAGTGTAAATAATGGACATTCAAATATAGCTATTACTGTTATTATCATCATCAATTATTCTACCTATAGAAATAT
GCAAGTTCCTTGGAAGTATACATTTCTGGAGAGTGATCAGGGATGGGRTATTATACTTTTATTTTTTCGGTTTCTCTTCATTCATTCAGTGGGTTATGGG
TATGTGTGTGTGTGTGTGTGTGTTTCACACATTATGTGCTAGGCACTATTTCAGGCACTTGGAACKTACATTATTGTAGGGGTACAACTGGAAACTGATA
AATGCTGTAAAAAAAATTAAACAAGCTAAGAGGTACAGGAGGTTGGGAGAGAGTTGCAATTATTAATAGGGACATTAGGGTAGGCCTTACTGTGAATATG
ACACAGGTTTTGTGTTCTTAGAGGTTTTCATGAACTATCTTTTGGAATGGGAGGATGGGAAGAAGGGAGATGAGAGTAAAGAGTAAGAGCTTGCTGATTT
GTAGGCAGGCATGAATATTCCCTTTGGTATAAGGTGTCAAAACACAAACTAATATGGAAGGGTAAAATTTTCTAGGTGGTCTAGTTTTATTTTATTCCAT
TTGAGCAAAAATCTTCCTAAAGTATTTTGTACACACCCTGCCTTCCCAAACAATGGCTACTGAATACAGTGGCCCACCTTGTCTGTGACTGCTGGAGGAG
GTCATCACCATGGCTCACATCTGTTATTGGACTTTCATGAAACAAGTCCCTCAGGGCCAGAAGAGATGCTGTCATCTGTTTGTCCTATGCAATGGCCTGA
GCCTGCAGTCATTGTGAGTTCTACCCACATGTGGCTATTTAAATGTACGTATAAATTAATTGAAATTAAATGACATTAAAAATTCAGATTCTTAGTCAGT
CTAGTCACATTTCAAGTGGTCAATAGCCACATGTGGCTAATGGCTACTGTGTTAGCACAGATATCAAACATTTCTGTCACTGTAGAAAGTTCTCTTAGTG
TTAGTTATTTTATATGTTTCTGACTCCAACATTGTTTTTTGTGGTACTGTTGTCAGTTTTCAGACCTTATTTCCTCTTTTTGATTTGTTGTTTCTCATAG
CTGATAGGTTTAAATGCCAGATGTAGAATTTTGTGTAAAGTAAGGGTAACCAGGCTCTAAGAGATCAGAAGAGCTTTCTTGTGTTCAAGTTTTTGTACTT
GGAATTTTTATTTCTATTCTGAGTGCCCCAAGGCCTCTTTTGCTTGGTTATTGTTCTGCAGCTGTACTGTAGGTGTAAGGGAATCAGACTGCTGAGTTCC
TATGGGAGAAGGGCTATCAAACTTTAAAGGTAAAACTGAACATTCATGGAAATGCTTTAGATCCAGTCAGCAGTCTCTTATTTGGAGCAGCACAACTCCA
GGGGTGCTTAATGACCAACTGGCTACATGTACGCCAGGCACTGGGTTAGTCCCTTGACACACAAACAAGAATGAACATGGACCCAAATGGAGGAAATTAC
AGTTTAAGGGGTAGAGAGAGTTTCATTAAGTCAATTCCCAGATATGTCCCAGGTACTCTGAAAGTCCAGAGAAGGGCGGTACCTGATCCAGGCTTCCCTG
ATGTTACAGGAGACAAGAGGCCAGGGAATGCTCCCTAAAGAAGTGATTCTTGAGTGGAATCTTGAGGGATGCATAGGTACTGGTCACATGATGAAGGTGG
GAAAAGGTGTCTGTATAGGTAGGTGTCTATACAGGGAAAAGTGTCTGTATAGGTAGGCAGACTTTGGATGTTGAAATGATGGGTTTTCGGCAGAAGTGGA
AATGGGGAAGAGGGGTTGGGGATGCTGCCTGGGGCAGATCTGACTCTTCAGTAGTTTGACTTGTTCACTCTGGCAGCTCTGTGAAGGTAAAAAGGAGCCA
GGCTGGAGGCTGGCACACCGGTGGTATGGGAGGGCCAGGGAGTAGAGACCTGTAATAGTTCAAAAGAGAGGTAATGAGGGCCTGCTGTGAGAGTGTAAGG
GGGTTGAACAGAGTTCATGATTTCAATTGGTATTGATTTCTAAGGAGTAAAATTATCAGTATTGGGGGATTGATTACATATGGGGGATAAAGGAGACAGA
GGAATCAGAGATGACTGTGAGTTTTCAGAAAAACAGATTAATTTAAACTCTTCTTCCAAGTTCACAGTGATAGGTTTTGACCTGTAGCTGCTACTAGTGA
TTTGCATTGGCAACTGTGGTGTCTAGATTAGGTTTTGGCACTTTAGGACTCCACTCTCTTGTTTGTTAAAAACAAAACAAAACAAAACAAAAMAAAACTT
GAATGGAAGCATAGACCATARTGAAGTACCACCCTCGTGTGACTTTAATTTCACAGTGGCCTATGAAAATTTATAGAAATTTGGCTTCATTTCTAGTGGC
TCCAATCCGGATGCCAAAATTGCCCTATTGTTGCGACATCCCTTGAGTGGACTATCGAACCTGTTATTCATTAGGAGCAGCTGCAAACCATCAGCCAAGT
TCCCATACTATGCCAACAATAACGCCAGTCAAATTTCAAGGTAACTCCAGGTTTCAGAAATGTATGAATCTCAAAATCTGTCTAGCCAAACTCTTATTTG
TATTTTTATGTATGCATATTATATGAAAAAAGCTGGTGGTTTCCTTAGTTTCCATAATTATACATTGCTTCTTTTAGACTATAAATTGAGTTCTCAGTGT
TGGTGAAGGCATACCTATAGATCTTAGCCAATCACTTTAAAGTGAAAATAGAAATTCAGTCTGGATCATGGTACCAGGGGTAGCCAGCCCAAAGGGCCCA
TTATGATGAGGCCTATATTGAAAGCAAAAATTCTTGCATACCTGTAGTGCATTTTAAAAGGATTTTCCAAGTAACAGTTAACATTTGTTAAGCTTTCAGA
AAAACTTATTTCTCTAGTTTTTAATATTAAGGAAATATGGAAATATATGTTGATACTTTGTTTTTTACTGACATACTTCATGACTGCATGGCTAAAGCCA
CAAAACACTAGGCACTTACCACTTTCTTTCTTTTAGATATATTTAGCCACTGCATCTGGCCTTTGTTGCCAAATATTTTTTCCCTTTTACTCTAACTACT
CCATCAATTTGGATCTTTAATGGTCAGGCAAATTTTGAATGATTTCTTGGAAGATGTGAAACCCTGTTCCCTAATCAGGAAAATGTGGGCAAGTCTTATG
GTATGAGAAAAGAAGGGACATCTCTTCTAACAAAGACAACAGGATTATAGCGCCATTACACAACATCTTCAAAGTTTTTATTTGAAAAATAATGATGTGT
TTGGTGATGAACAAGTACCGTAAATGGGAAGCATGGGAAGTTTCCACTCTTTAAGAATGTTTCTATGCAAAGGAGGAAGGAAAGCTTACTTTTTGTGGTT
CTTCAGAGAGATTACATTAACCATTTGTTGAAAGTTTCATTTATGAACAACATTGGCTTCTAAGAGTATTCTTCACACACTGGCATCCTTTGTATGATGT
TGTTGTAGGTTGTTTAGCAACATATCAAAATAGTTATATAAAAAGATTAATATGTGTTTCATTAATCCTAAGGAGAGCTTTCTGAAATTCATTTTTAAAA
ATAAATGATTAGCATCATTCTTTGAAATTTGTGACTTCTGAGGGTGGGAAAGAATTAAAAAAGAAGCTATCTTTTCAAGCAGTTTGTGATTTAATACCAG
CTGGTCAAGTGAGTTGAAAAACCTTATGATTTTTATGTTATATTATTTTGAATGCCTTTTCACTCTCTTGGGAAGTTGGCTAACCCCACAGTCCTTTTCC
CATGGTAAATGGCTCTAAAACTTTGATCTTCTTATACCAGTTTGCCAGATGTAGCAGAAAGAGCATGTATGTGACCTTTCCTGTGCCAATTCAACCCAGC
TGATGGGAAACTGTAAGTTWATCTTGCATGACTTTTATTTCTAGGCATTACAGCAGAAGTTCTGGTGGTGACCTCTTTCGATGAACTGCAGAGAAGGGCC
TCAGAAGCAAGAGGGAAGATTGTTGTTTATAACCAACCTTACATCAACTACTCAAGGACGGTGCAATACCGAACGCAGGGGGCGGTGGAAGCTGCCAAGG
TKGGGGCTTTGGCATCTCTCATTCGATCCGTGGCCTCCTTCTCCATCTACAGGTTTGTCACAATGTTCATTTGAATTCCTTTCAAAAACAAGGGTTTTCC
GTGAAGGAAAAGTCCTTATGAAGTAAAAACAAACCATTCAAATGAAAATACTTATTGTTCATGGAGTTTCCCCCCCAAACACACACACCCATTCCACATT
TGGTCATTTGTTTGTAATATCTTCTTTGGCTTTTCTGGATTCCAAGCATCAYTTGTGCATTCCTTTAAAAAGCTTTAAGGCTTTTCACATCCACAGTGAT
CCCATTACATTCCTTATATAACTAATATATTATGTATTTTCATTGGAGGAAGAACTGCGTTCATGTCTGCATTTCATCAAAGATTCCTAATGACTTCAGA
GGGAGCCAGCCTGTTTTMCATGTTGCTAGAGAAGTGGAGTAAAAAGAGAGTGGGTGACATGATGGGGGCCATCTATGGTATAGTGAAGAGTTAGGGAATT
AGAGGAMCTTGGATACAGACTTGGCTCTGCTCCCAAACAACTAGGTGGTCTTAGGAATGTTTCTTAAACTTCTCTAGGCCTCATAATTTTCTTCTGTTAA
CCAGGGGTAAAGAATAATAATAAATGTACAAAATAATTTTGAGATTAAATGAGGTCAACTTGAAAAAGATACTTAATTATCTGTAAATGATTATCTACAA
AGGTCCATATAAATATTTGGTAATATTGTTTGAGAGTAACATAGGACTTGTCTTTTTCTTTGTAGTTTTGATTGAGGTAATGCCAAATAACTTTATTGGC
CCTCAGTCCTAGGATGAAATTCAGTATTACAGTGGATAAAAAGTCTAAAAACTGAGATGTAGATGTTCAGCCTAGTTTAATAGCTATTATGGCAGTGTCA
TACGTTAAGGATAAAATATTTGAGAAACATGGGGAAAAGAAGCATAACTTTAGTGTGATAGCCTGGCCTAAGATTTTTTTAAAATGCAAAAATAATAGCA
GATAGGGTTTATTTGGGTCTCCGGATTGGATTTTTAATATCTATTGGAAAGGGAAGTTTATTTATTCTGCACAATTGCTATTTGGAACTGGAGACACAGC
TGCTTGACCTTAATTAGCACCCTACACCCCTGAAAATAAAAATAACTGGGGAACATATGTCAGCAGCTAGGAAATCCAGTCAGAGGAAAGTTGTACAAAA
GTGCAGGGAAAAGGAAAGAGACATTTTCCTTATACAGGGATAAGATATCTTCCCAGGGGAGGAGGATGGGGCATGTTAAAACTACATGTTAGAAAGTTAT
ACGACTAGTTACATTGATGTCATAGTGCTAAAAATAATGTTCTTTGCGGGGTCTTTAGAGGTTTCAAGACTAGTGAAATAATGATTGSACCATATTCTTT
TGGATGATTAAGCTTCCCAGGAGGGAAGTCCTAAAATGGCTAGCTTACTTCCCATAATACCTCCATCACCCCTTGGAATAACATATTCAGCAAGCTGTGG
CCATTCACCATGATTTCACGGTCATGAGACTTAAATTATGGAGCTGGTCTGTTGCTTTGTGAAACTGGGTGATTGCCAGAAACCTTTATTTAAGAACTAC
TACTCATAAGACTAATAAATTCCCAAATGATTTAATGCACAGTAATTTGTCAGGATTCACTGGCATTTTTTTTTTTTTTTCTGGCATAATGAAGACATCT
GGAAACCCAAGCTACAACTTAGGAGTACCAGTAGAATTGTCCAGCAAGGGACTTCAGAATCTGTTGCTAGCCTCTAAGACTGATTATAATGTTTCACTGA
TTTTATAGCCAATCCATATTTCACTGGACTCTTAACTTGTATAATTCTATTCTTTCAACATTTATAAATACATAATAACATTGGACTTTACATAGCACTT
TAGAATCTTTCCCATGTTACTTTATTTGCTCTGACAACAATTCAGTGGCTCATGCAGAAGGGTCATTATTAGCCCTATTTTATTGATAGGGAAATAAAAG
TTCAGACAATTAGACATATTAACATGTTTAAGTTTTGCATCCTAAGAAATAAAAACGAAAATAAAATGAGATAAACTATGTTTGTCTACTTCTAGCTTAT
TGTTTTTAGAACCAAATTTCTTTGATGAGTATTCTATATTCCTACCTCTAATTCCTCACCTTTCATTTGCTCTTCAGACTATTATAGCCTGGCTTTTGCC
AATACTGAAACAGGACTTGTTAAGGTCGCAAATAACTGCCTACGTGTCAAATTTAATGGACATTTTTCAGGCCATCATCTTACTTCACTTTTATGAAGCA
CTTGCCTCCATCAACTGCATTTTCAGTGTTTCTTCTCTTTGGCTTCCATGACTTCTTTCTCATGTTTTCTCTCTCTTTCTTGCTTGCTGTCACTCTCACT
CTCTTCTCTATTCCTTCCCTATATCTCTGGCTTCTCACTGTGACTGTTTGACCTGTGTATCCTCATCATGCTCCTATGAATGCGGTTCATACTTGTGAAG
ATGTGACTTGAACCACAATCTACATTGTGGCCATTTCCAAACCCCTCTCTCCCATCCATACCACTGCCGCCAGCTCTAGGCCTATATATTCACCTGCCTG
TGGATTCTTCTCTGGGATGTTCCATAGCTATTTCAGTTTCAATTTTTTTCAAAATTGACCTCATCCTTCATCTTCTAAGTCACATGGTCCTTTATTGCTT
TTTTCTCTTTCTGTGTCCATCATTTCTAACAGACACTGAGTCTCTTAGGTTCTGCTCCTTATCAGTCATTTCAACAATTACACACGGAACAGCTCCATTT
CCCAGCATGACTCCACATTCCAGCAGTCAGCAATCACTAACACTTTTCCCACGCACCACGTTTCCTCAAAGTGTTGTGACTTTGCATATGCTTTCTCCTC
TGCAACCCTCCATTTCCCTTCTCACTGCCACACACTTATGAGTTTCTTCCTCTGGGGATCCCTCCCTGATATCCACTTGTAGCCCAGGTGAGTTACCTCT
TTTTTGGTATTTCCACATACATCGTTCTGTGCATGCTCTGTATCATAATGTCTTGGAAGTATTGATAGTTTTGGTKCGTGCTTTGGTAGAGTAGACTAAC
TGTTGTAACAAACAGCTTCAAATCTCAGTCACTTCACACAATAGGAGTCTTTTGCATGTTCACATAATGGTTTCAAGGGGGTGGTCAGAATGTGGCCTTC
TGCTCCTTTCCATCTGTGGCTCTATCATTTTTGAGATCTGAGTTCTCTGCAGAGTCTTCTGCATTCATCTGACGCATAAGGGGATAGAGAGAGAAAGTCG
ATAACCTAGAGGGAGATTTTCCATGGTTATCCATATCTAGGCCTGGATATGGCACACCTCACTTCTGCTGACATTCTATTGGGCAGAATGCTATTACATG
GAGGCTAGGAAATTTGGCCTATCTTTATGTCCAGGGTGAAAGGAAAGTGAATTTGGTGAAATACTGCCCAGTCTGCCCCAATTGCCTGTCTCCACACTAG
ACTCTAAGTTCCAGAAAGACATTGATTACGTGTATTTTTTAACCTCTGGATTCCTATCATCTAGTATAATGTTTGAAACATGGTAATAACTTAGGAAATG
TCTACGGAAGGAATGAATTTGTCTGAGGATGTAGAGTAAATCATGGCAGGGCTCTCGTAACAAACCAGCTGACCCGGTTCCTGGTGCTCTTTGTCCGAAC
TATGTAACCCATGTATAGTAAGTTTGAAACAACTTGAACTTTTAGGGTACTTTGCTCTGCATTTGGAGGAAAATATTCAGATGCCCAATATGCCAGATTA
TACATTTTTTCTGCCACTACACTTATGAACAAAGATGTTTTGAGTTGCTGATTAAGGAAAATAGCTCCCTTCTCTCTGAAAAGCATTTCACCTCTATGGG
AGTGGGTGATACTGGATTTCATCTAAAAATATTATAGAGGTCAGCAACACTAGAGAACATTATATTATATATATATATATATATTATGATTTGTTGCTGT
TGGATTCAAAATTTGAGAATCCCCTGGAGGGTAGTTTGATTTGACCAGTTTGATTGGACACTTTGTGGTGTAATCATCAATATCATCAGCCATTTTGGGT
CTGCAGTGGTCACACAGTTGCATGACAGATGTCCTGAAAAAATGTCCATTGCTTGTTGTCAGCATCGTCTCCAGGTTCATTATTGTTATTCTCTGTGTTG
CCATTATTAGTGTTCTTGGGCTCAACTTTACTTCTAGGAGATATTCCCTTTATTAATGCTTTTCTAATGACACTTCTTTCCATCACCATTATCAACTGAG
ACCCCCCCATTAGAGCTTTTTTAGTTTTTCTGATGGTAAAATACCTTTCTTTGCTTTTGTCCTGGGAAATATGTTTTAAGAATAAATGCAATTAATTAGA
GATTTAAGTCCCACAGAGGAAAGCTTCTCTATGGAACAATTTGTCTTGCATTATTTCTCTAATTTATCATATTGTTTAGTRCATATTTCTTGAGAGCTTC
CTAGTTGCTCAGAAATTTCCGAGTACTAGGATTACTAAGGTGAATTCCATRTGTTTTTTGTCCTCAAGAAATATTTTTATGTAGCCAAAAGAGAMGGGGG
TAAGAACATGTAAGTGATTAGTGTTATTTATTTTATATTTAGTGCTAAGTGAATGATTGGGGGAAAGGGATAAAGAAAGGAAATTACTATTTATTAAGCA
CCAACTTTGTACTATTCTAAAGGGTTAAAGASTTTGTCTCAATTAATTCTTTATGTAACCCAATAGAAGTAGATACTGTATTGGTATCTCTTTTACTGAA
GGAGAGACAGGTTCAGAATGATWAATGGCTTATCATGCTACACATCTAATGAAAGAACTAGGATTCAAACTCAGTCTCTGGCTCTAACTTCCATGCTGTT
AGATTGTACCAAGCAACCTGGAGAGCTAATGCTATAGGAATCTAGAGGAGATAACAGAAATCTGATTGGGGTTGGTTGCACTGACAATGTGGATTTGGGG
TGTGTTCAATAAAAAGGCAGAATTGACCAAGAGAAAGGAGGTGGAAAGACTCTCTGTAAATATCAAAGCAAGGTGGGACTGCATGATATATTTGGGTAAA
ACACAAGCAGATCAGTTTAGCTGGAGCCAGGCCTCCTAGGGGGTCAGAGAAATGCAATTCTGGGGTGAGAGGAAGAGACCAGGCTTGAAGAATTCAGGGT
AGCAGATTAGGCAGTTTTAAGTCTAATGTGGAGGAAATGGAGAACCATGGAATGTGTTAAAGATATGGGGTGAATTTTACAGCAGTGGTTCTTGAAGTGT
GGTCCCTGGAATAGCAACATCAACCTATCTAGGAGCTTATTGATGTGCAAATTATTAGGCCCCACCTAATACCCGTTGTATCAGAAAAGCTAAGGGTGGG
GTCCAGCAATCTGGTTTAACAAGCCCTCCAGGTGATTCTGATACACATTAAAGTTTAAGAACTACTGTTTTAGAAAGATCAATTTGGCCATTGTGCATAG
CATGCATTAGACAGGGAAGGACAGGTTACTCCTCTAATAATGCAGATATGAAGTAATGAGGGCATAGATGATGGCAATTGGAATGGAAAGAAATCAGCAG
GAGGCATAGTATGAGAACATTAGAACTTGGGGATTGATTGTATTCAAAGGGGGAAGGAGTAGGGGTCCAAGTTGATAGGCAAGGATTAAAATCTATGGGA
TGAATCTGTATTTAGTTCAGCCCAAAATTTAAAAATCWTAAGTTTCAAATAACAATAAGGATTTGTGGTTTTAGAGAAAAACCAGATTTGGTGATATATC
TTGTATGTTCCATTGGGCAAACTTCAGCTGAGCAGATTAGCCATCAAATTCTTCTTGTTGATGGGATGTCCCCCCTCTTATCTGCCAAGTTTTCCCCTCT
TTTTTTATATACTTTATTCATTTATGTTGCCTATTCGAGTCCTGTAGATATTTGAGCTGATGATCCCTGCTCTAAGGATCCCAGCTTGGGGACAGGAGAA
TAAGAAATGTAGGGGTCGGGAGAGGGAGCTGGCTTGGAGGGAAACCAGCCAGTTTGGTTTCTAGACATTTTGAGTCCGAGGCAACTGTAAGATAGTCCCA
TTAATCTGGTCTTTATATTTTGCAAGAAAAACAGTTCAGCATTTCCATTTCTCTGTTGTCCGCTTTTTAGATCACCCAAGGCAGTTTAAAATTCTAGGCT
GGCTTTCTTGCAATACCTTGGGACTTCTGCCTCCTGCTTTCTTAGCATGCGAGCTCAAGAATGCAAAGTAATTTTTATATTAGCCCATGTAAAATATAAT
TCAAAAGGTAACTCTACTGAGGCCAAACTGTTTGTTGTATTCCCACTGCCACACATACATTTTTTCCTAGTTATTTTCTCCATTGCCCCAGATAGTTGAA
CAGGGACTGCGACTTTTAATCAGCTAAGGAAGCAAAAGACTTTCTCTTCACTTTACTGTGAAAATTGCATCACCACACTGGGTATGAACTCATTGAGGTG
GGAATGAGTTGTTGATAGGGCTTGGCTTTGGAAATACTACTGGCTGATRTTTTATATCACTTGGCCTTTGTGTACTGTATTGACAGAGTATAGTGAAGAG
GAGGAGGAAGAGGAGCAATTTAGTTTGAAGATGACTAAGAGCTGATTAAACATTCAGCTGGGGAGAGAGATGAGTGAATCCAGGTGATGTTTATGGAGTG
TCAGAGAGGGAGAATGCTATACCATCTGGTGAGAGAGACATGAAAAAGTACATAAATCAATCTCTATAATGATACTTAATTAATACAGAGTTGATAAATG
ACATAATTGAAGCAATGGGTGGGCTACATCATAGAGTTAAATAGCTTCAAAGAGGGTGCTGATTAAAGCCATTACAATTTATAAAACATTCTTCATGTTA
AGAAAGCATCTTGATGAGATTTCACATGAACATTTTGTAATCAGAGGGCCAGCTTAAAACACTCAGAGCAGAGGTGAAATGTCTTAAGAGGTCTATTTTG
GATGATTTTTGAAAACCAGTTATTCTCAGGGAATAAAAAAGCTTGCTTTCCCCACTCCCTTTGTTTTTTAATGGGAAAAAAATTAATGTTGCATTCTTCA
CCTTTAGACAATCTCAGATTTTTGATGTCCTGGTGGTTTGGTTCTTAAGCATGACCTTAAGATAATTAGCTATCAAGCTTCRTTTAAATTGTTTTGAAAT
ATCATTGCAATTTGGGGAGCATATGTGCCTGCTGGTGAAAAATAAGGAAAATACCACTGGGACTCAAAAACTGTACAAGTGACTCACCTCGATTAGTAGG
CTTATTTTGTTTTTGCTTAACTCACTCTGAAGCTCATAACAGATGCACAGTAATCAAGCAGAATGCCAATTCTCATCATTCATGCAGGTGGAGGGCCACT
GTGCTCCCAAGGGGGAACCAGAGAAGACCCACAACAAACACTGCGTTTTTTCTTCTCATCATCCTTTCTTTTCCCCCTTTCTGATTTTTGGAAGGTACAT
TCTTTGTTTGGAAAGCCTTTGTTAGAAATTCCAAAATGTTCTTTAATCACTGGATTCTTATTATTGTATCAGGTAGTGTGACAGGCATGCTTCCTCATAA
TGGATAGAGCCAGGCAATGTATTTTGGAGCCCGCATTCTGGAGACTCCATGCCTGTGTCTTTGTTCAGCCACTTGCCAGATGTGCCTCATTGGTGCCTCA
GTTTCATCTGTAAAATGGGKGAAATATCTTCTTTGTTTTTCTTCCTGGAGTTTTGAGGGTTTTCTTTTTTTGTTTCATTTTGTTTTTGTTTTTCTGAGGC
AGAGTTTTGCTCTTGTTGCCCAGGCTGCAGTGCAAATGGCATGAGTTCGGCTMACTGCTACCTCCGCCTCCCGGGTTCAAGCGATTCTCCGGTCTCAGCC
TCCTGAGTGGCTGGGATTACAGGCACCCGCCACCACGTCCAGCTAATTTTTTGTATTTTTGGTAGAGATGGAGAGTCACCATGTTGGCCAGGCTGGTCTT
GAACTCTCGACCTCAGGTGATCTGCCCGCCTTGGCTCCCAAAGTACTGAGATTACAGGTGTGAGCCACTGAGCCTGGCCTTTTGTGGGGTTTAAAAGCAG
TAATGTTATTAATGCCTGACCTATAGTAAGTTTTAAGTACATGTAAAGTTGCTACTATTATACAGTCTTATTAACTATTGACTGGACATAGTTATTGAAT
GAAAAGGAGGAAGGGAGGGAAGCAGGTAATCAGGGAGGGATTGAGGGAAGGAAGAAAGAGAAGAAAGGAAAGAAAGAAGAAGGAAGGAAGGAAGAAGAAA
GAAGAGCTTGATTTAGTTAATGTCACTGTTGTAATTGGTGGATTATAATTGAAGCTGTCTGGTTGGGAGACAAACCCTATGCCATTTAGATCTCTGTCTG
TTCAGTTTGTCCAAACTCTGCTGGGGTTATGTATTTACTAGTCTGTCTCCCTTTTTGGATTGGCAATTCTGCAGACAGACTGTGTGTCTTACTCATCTGG
GTATCGCCAGGGCTGTGCTCTATACCTGGCACACAGTAGTGCTGGAATAAATAAAGAGCTGGAAGCAGCACATCCCTTTCTCTAACATGTAAATTCAAGG
TGTCACCATTTCACATTCATAGACATTGAATAATAATGTAGATGAGGTGACTAACCTTTTGAATTGCTACTCATCAAAAATGGAATCTCTGGAATCTGAG
AGGAGACTATATAGTTATGTAAATTTCGGCAAAGTATTGCAAACTCCATATTACTATGGTGCTTTGTGGGGCTGCTATAATTAATGGTCTGTTTGCATTT
CTAGTACAGGCTGTCATTTTTCATCTGCTTATAACCTTGATATAAACATTTATTCTTGGCTGCTATTTTGCATTCATAATTGTAAAATATATATAAACGT
TAACCTTCTGTTTTTCAGCTTTTTTATTTATCAAAAGCACAGCTCAAGAATCACATCATTGTGGCATGTTTTTCTGAATCTCTAGTGGCAAAAAGAAATG
AATGCATTTTGAATTCAGGCTTCAGGATTAAGGCAATGTTGTTTGCTTATGCAGTGCCCTTTGAAAAATGTGTAATGTAGCATATGAACCAAAAGAATCC
TGAGAAACTTTTTCCAGCCGGTCTTTTTCTATTACTTATGCCTTTTTTATCCCTCTGTGTTCCTCCCCACCTCTGTCATCAGTTCAAGATGACTCTTAAA
GTCCTCTTGCATCCATCCAAATGACCCATTGGCCTCTTTAGGTGCCTGGAGAAAGTACCAGCAAAGGTATTTGTTGGAGTCTATCAAAGGTAACAATACA
TAGAGTGGGTTTCAAAATCAGACAGGCTGGGTTCTATTGTTGGCTCTCCCATTTAGATGCTGTGTGACCTTATGTACATTAAACAACCAGTGTGAGCCTG
TTTTCTCATCTGTAACATGTGGAGAACAATGTTTACCTCATAGAGTTGTTGAGAGAATTAAATGAAATCAAGCCCTTGAYACAGACTGAAACATGGGAAG
TGATTGATGAAATATAACTGACGTCTTATCTTGGCCATGGTCATTATTATCACTGTCATCATTAGATAGTGATGGGACTAAGCTAGGTAGGTTGACATGA
GCTGACTTATCTTAAAAGGCACCAGCTCTAGATAGAGCCCTCCTCAGTGTTCAAAGACTCAAAAGACTTGGGTTCTGTTTATCTCCCGATTTCGGGAGCC
CACTCTCCTTAGTCTCCCTCAGTCATTGACTAAAAACTATGCACTTGTCTTTTCCATTCTCTCTATCCTCATGTTAAATGCTTGATATTGTTCTTGCAAG
CTGTACCAAAGTTGTGGTGGCCCAAATCAGTATCAGTGGCCAGCTTACCCAAAATGCAGCAAATATTCTATTTCAAACAATACCCAAGATATTTTCCACC
TCAGGGCCTTTGCACTCACTGTCCCCTTTGTCTGGAATGCTGTTTCCCTGCTTTGTGTATGGTTGGCTCTGTTTCAATCTTTACATTTTAACTGAAAGGT
TCTTTTTGTGAAAAGCCTTTCCTGACTATACTAAGTAGAGTAGCACTCTCCCTCAAACTCTCTCACACATAATCTCCTCTGTATGCACAGAATCCTAATT
ATATTTGGTAATTTATGTCTATCTACCTACCTACCTATCTAGTTTTCAGCATGTACTTCTGCATAAAAATATAAATTGCATGAGGACTGGAACTGTGTCT
TTCGTGTACCTCATTGTATTCTCAGTACCTAGGAGATTGCTGGCACAGGGCAGGTACTTAAGAGATATTGATTGAATAAATAACTATTTTAAAAATCATC
TAAGACAATAGAGAACCAATTAAACAGATACATACTGTATTATAGCTATTTTTCTGAAGCCACATTCTAAAGCACCACAGATTTTTTTCTCAATTTTTTG
TTTTGTTTTGTTTTGAGACAGGGTCTTGCTCTGTTGCCCAGGCTGGAGTACAGTGGCATGATCATGGCTCACTGCATCCTTCACCCCCTGGGACCACAGA
CACAAGGCACAATGCCTGTCTATTTTTTAAAAAAAATTTTAGTAGAGATTTTTGTGGAAAAATATAAATCTATAGTAAGGCTGAAAGAATAGTAAATGAC
TCATTTACTCTTCTGAGATCAGACAAGATCTCAGTGTGGTATGGCCATAGATGTGACTCATATACTCTTTATAAGAAATTGCCTAACTTTTTATTTTTAT
TTTTATTTTTTGAGACGGAGTTTCACTCTTGTTGCCTAGGCAGGAGTAAATGGCGCGATCTCGGCTCACTGYAACCTCCGCCTCCTGGATTCAAGCGATT
CTCCTGCTTTAGCCTCCTGAGTAGCTGGGATTACAGTCATGCACCACCACACCTGGCTATTTTGTATTTTTAGTAGAGATAGGGTTTCTCCATGTTGGTC
AGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCACCTCAGCTTCCCAAAATGCTGGGATTGCAGGCATGAGCCACGGCGCCCAGCCTCCTAACTT
TTTTTAAGGAAGTTGTACCATTTTATATTTTCGGCAGTCATGTGTGACACTTCAGGCTGCTCCACATTCTTGCCAAAATTTAATTTTAGCCTTTTTGGCA
GATATGTATTGGTATATCACTGAAGTTTTGATTTACATCTCCCTGATTTCTGAATCCCTCTTTGTGAAAAGTCTACTCCAGGCTTTTGCCCATCTATAAT
TTTTTTAAAAATTACTGAGTGGTAGGAGTTCTTTATATAATTTAGATACAGATCCGTAGTCAGATATATGTTTTGCAAATATTTTCTCCCAGCTGATGTC
TTTCCCATCTTTTGTGTCATAGAGTCTTTTCTTAATAGTGCCTTTTGATGAGTAGAAGTTTTAAATTTTGAAGTCTAATTTATCCACTTTTAGTTGCTTT
CTTTTATATGCATCTACATTCATTACTCAATATTTTGCCACATTTGCTTTCTCTCTCTCTCTCTCTGTTTCTGGATCATTTGAAAGTAAGGTTGTTATAA
CACTGAAAACATTTCACCCATAAATATATAAGCATGTATTCATAAGAGCAAGGACCACCTCTAACATAACTGTAATATCTTTGTCATGCCTAAGAAATTT
AGCATTGCTATAGAAATATTATTTAATTTAAAATTCATCCATATTCAGATTTTCCCAATTGTTTCCCCCAGTAATGTTGTTGATCTTTTCTTTCTGAATT
CCATAATCCAATCAAGGACATACATTACATTTAGTTGTCATAAAGCTTTAGTCTCCTTATATCTAAAATTGCTCCCTAGTCTTTTTAGTATTTTATGACA
CTAACATTTTCAAAGAATATAAGGGAGTTATTTTGCACAATGACTCTCAGTTTGGAGTTGTTCCTCATTATTAGATTCACGTTAAATATATTTGGCAAGG
GTTCTATATGGATAATGTCATGCCCCTCATTGCATCACATAAGGAAACAAATAATGTCACTTTTCCTTATTGGTGAGACCAAATTTGATCACTTGTCTAA
GGCATTATCTCTGGATTTCTTTATYGAAAGGTAGCATTCCACCTTTGTAGAGGAAATACATTGCAATTATTGTGGGATGCTCTTGAGACTTTGTGAATCT
TAAGTTCTTTAACAAAATTTCACCCAGTGAGATTTTAACATCCGTTGATGACCCCTGCCTGAATCAATCATTGTAYTGGAAGTTGCAAATGTTTTTCTAA
TTCAATTATTTCTATTACAATTATTTGCTGTGTGCTTTTGTAATAAAGAGCATCTGCCTCCTTTTCCTTCTTTTTGTTTCTGATGATCACTTCATGGGTT
TTTAAAAAATGTATGTGATAAAATTCATTACTATCATCATTCTTTTTGATAAAGCATCAAAAATTTCAAAATAATTAATGTAAAAGTTAGCATTACATGA
TAAGCTTGAATATTTGAAGCACTGGAAGGAATACTCTTTTTATTCATCCAAAGTTACCCAGACTACCACAGATAAGTCAACTAATTAGGAGTGTGTAATC
AATATCATTTCCTCTGAACTTTTTATTAACAGCATGAGCTTTGGGGTAATAATCCTGAAGTTATTTTTAGTTTACAATTGCCAATGTATAGAATATGCAA
ATAAAGATCCTTCATCCCATACATAATTGCTGTTAATTGTTAAAATAAGTGAGCAAAATCTCAGGTCCAGCAATTGCTTCTGAGTTTCTGCAGACTGATA
TTTGTTTTCCTTTTTTTTTTTTTTTTTTAAACTATGCAGCTCTGATGTTGAGGAGTATGAAAAGAGCTTTTTTTTTTTTTTTTTTTTGCAAGAGAAATAA
GGATCTCAATATAGGTTTGCAGAGGCCARCAGGGATGTATCTTTAGGATGGGTTTACCTCATATCTGTGTAATACAGAGAACTATAAATTATCCACCCAC
TCCAACCTCCCCATGTCATCAGTGGTTGTGAAGGGGTAACTAGCCTCTGCCTGGGTGTCAACAGTAATAGTTTAATAGCTCAGTGAATGTCTGTTGCCTC
ACTGGTTACTGCTCCGTAGAGTAAATATTTGACATCAAGGACAAGAATTTAATTTTTAACTTTCTCAACTTAATTTTATTCAGTAAACATTTATTATGTG
TCTTCTATATTTCAAGCCAGGAGAAGACCCAATTTTTGTAGGGGTAGGAACTTACATAATTTGGGGGCCTCTTTAAGAAAAACAATACAAAGTTACTTCT
ACACATTTAGATATAAAATCAACATTTATTTACAATAGGGAAGAAATTATAACAATTTATGAATTTAAGAGAGCCACCAAATACTACAAACGTGACACAA
TTCAGAAAAATATCTTGTTTTGATTAAATAACTACCTATCAAGCTGCTGTACTTTGTCTGCATTTTTTATTTGCACATTCTTTGATTGCTCTTTGTATGA
CAGTGCTTTTGTGTTGTAGTTTCTAAAACAAGAATAAAAAAGGAATTCAGTCTTTCCTGTAGTATGGTTGATCATAATTTAGCTTTTATTATTGATAGTT
TGGAAAAGTTTATTTCAGCTTTATAGCTTTTTTATTGGTAGTATCATTATACAATTTTAGGATTGTTGTCAAATTTGGGAAAATGTTATCAAGTTTTGTT
CATGTATGGGCTGTAAGATTTCAGGACATTTTATGTTTTTGTATAGTGACAATGAATGAACATCATTCCATTTAGTTTGCTGTCTAGATCCTCGTTTTTA
GTGGCATTTTATGAATTTTTGTTATGTTTGTATTTGTCAGCATTTTGTGTCAAACCAACAAGAAATTTCAATCTTTTCTCAAGGTGATGTACTTTTTCAT
TATTTGGCTTATTGAGTGATCTGTGAGACTACTCATCCCAAATACCCAAAGTATGTCTCTTTCTGTCAATAAACTGTAGTTTTGTATGGCTTTTGTCTGG
GAATGCCATACTTTGTCAGAATAAGATGTGGTGTATATTTTAACATGTAATCCAATATGTTAACACAAATRAAACTGTGACTTCATACATAGATGCATTT
GCTCTTTGAGCTCTACAATCACAGGAATTCTGATAAATTCTATTTTGCATGACTTCCTTAAAAATATAAAATTAGAGGTTGTGTTCGCAATAGCATACTC
TGAATTACTGAACCTATTCTTGATAGGAGAGAACTTCCATTTTAAGTAGGAATTAATGAGGATTGGATACCTCGACTGCAGTTCTGCATATCTGATAACT
GGAAGCATTTTCCAGTGACTGGCTTCTGGATCTCCACCACTGTCTCCATGCTTTCACTGCCAGATGTTGCAGGATGCATTCTTGTTACAATATGACCTCT
GACCCTGTGTCTTTGTATTATGACACTAGTAGTCCCGGGACACATTCCTGTACCAAGATGGAAACAACTGTGAATCACCTAAGCACATCCCTGTAAACCC
AAGCCAATATATCTCCAGGTCAGCTTCTCCTAGCTGGATCCTCAATGCCTATAGTCAATCCAGTGCTGCTCCATATGTTGGGAAGTATGACAGAAAGGAA
GTCAGAGTGGATTAAAAGATTCCACACCTTTGGTGTGCATGGATTGGTGCAGCCCTTCTAGTGAGACATCCCCAGATGTTAGCTGATAACATCCTCACCC
TCATCCTCCCCACCATCACTTCTCTATGTTTTACTGGCCTGATCCAGTTTTTGGTGGCTTGGCACTTGGAATTCTTTACAAGCACTTTCTTTCTATATTG
ACTTACTATCATTTTTAGAACCCAGATTTTTTAAATGTTCAAGCTGGATGAACCCTTATACATTTGCTCTACTCTTTCATTTTATAAATGAGGAGCTTGG
GGCTGAAGGTCATTCAGCTAAGTAGAAGAACAAGGACACATTATTTTTTAGCTCTTTATGCCATCTTTCTTTTCTTTCAAGTCTCCATCAGACTACACCC
AGCCTTCCAGGATTAAAGTAAGTTAATTAGGCATGCATTGATTTGATCTCCGTAGGTCCCCCCTAAATTGATATTTTTAGGAGTTAGAATATTCAATGTG
CTCCCCAAATGCTACGTAATAGTGGTTTTTTGCTCATTTTGATAGGGCTTTTAGCAGAGTGAACTGTTTCGTGGACACTGTCACAGGAAGTGGAAACTCA
CCTTGTGAAAAGGTAAGCTTTCCATGGGCTTTGAGTTTTCCTTTCCTCAGCAGGGGAAGGGCCTATATGTGTTAGTGTTAGCTGCCTGGCCTTCCTCTGG
GGCTTGGTTTTTAATCTCCAGGGAGGCAAGGCTGACAAAATGTCATCTATTTGCCTACTAAGGAAAGAAGCTGTGAAATAGATCTCCATTGCTTATGCAC
CTCAAGTCGCTTAGTTCCAGCTGTATCCATAATATCATGGTGTATTTAAAATACTGCTCATTGCAATCCTTTTGAAAAGAGATTCTGATGCTCGTAAATA
CTCCAAAAAGGCATTAAGGTGTTACACTGATTTTTATTTTTWTTTTATTTTATTTTWTTTATTTATTTATTTATTTATTTATTTATTTATTTATTGAGAT
GCAGTTTTGCTCTTGTTGCCCAGGCTAGAGTGCAGCAGTGAGATCTTGGCTCACCACAACCTCTGTCTCCAGGGTTCAAGCGATTCTCCTGCCTCAACCT
CCCTAGTAGCTGGGATTACAGGCATGTGCCACCACACCTGGCTAATTTTATATTTTTAGTAGAGACAGGGTTGCTCCAAGTTGGTCAGGCTGGTCTGGAA
CTCCTGACCTCAGGTCATCCACTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCTGGCCGCTTTTTATCTTTAATTGGATTTATTCC
CTTTAGAAAACTTAAGTTTGTGGATTCATATCCAAATATTGCCCTTTACTGATCTAGCTTTTTCTGCTGTAAGTTCTAGGAACCTTTTAATTCAGAGAGG
GGWAAAGAAAAGAGCTAGCATACACTCAATAGCTTTTATGTTTTGGATGCTTCATAAATATCACCTCATTTGGACCCTTACAAGAGCTTTGGGAGGCAGG
GAGCTTTAGACACATTTTACACCTGAGTAACTTGATCAGGACATTTTGAAAAAAAGGTTTTTGATTATCTGTTTTTCAACTTGAGAGAGTCGTGAGATAA
CTAAACTACAAATGAAAAATACGTAGGTAAGTCTCTTTGTAAGGTCATATTCGTAAAGGTTGCAAAAGAGACCAAACAATGTATTCCAATTGAGAAGTCC
AGGTAGAGTATTTGGTTCATTTGTGCTGCTRTAACAGAATACCATAGACTGGGTAATTTATAAAGAATAGATCTTTATTTCTCACAGTTCTGGATCCTGG
GAGGTCAAAAAACAAGGCACTGGCAGCTTCTGTTGTCTGGCAAGGGCTGTTCTCTGCTTCCAAGATGGCACCTTATTTCTTCATCCTCCAGAGGGGAGGA
ACGCTGTGTCCTCACATGTGGAAGAACAGAGGGACAAGTGAACCAAATCTTTGTGTGAAACCTCTTTTATAAAAGCCTTAATCCCATTTATGAGGGGAGG
AGCCCTCTTAAAGGCCCCACCACTTAATATCATCACATTGGCCATTATAAGTGTCAACACCTGTATTTTGGAGGGGACACTTTCAAACCATAGAATAAAG
AAAACGAAAGGGGGAAAACTGCAAACAAATGTGCTATGAGATTAGATGGATTTGAAGGGGACTCGACAGTCTTGGGCCYTTTGTTTTGGAAGATGGATTT
TGAAAGTTATCTTTTATTGTATTCCTGTGAGGCCCATTTGTTTCCTACCCTTTTCTCTTGTCCCCCTCTTCCTTCTCTTTATTCAGTATCTTCCTCTGGC
AAATAGCAGTTACTAAATTTGGTTCTCTGTTATCTTCCAACTCGAAAGGCAAAAGGCACAGGCAGTACCCTCCTGGTAATTATTTATGATATTTCTCCTT
CCAGAGATTTGCCCTATGGCAGCTTCAATCCGTTACCATCACTTTTTATTTTTTTGCCCATATTGGCAGCTTCCCAAGACTTTGGGAGGAAAAAGCAGAT
CTGCAGATACGCAAACCTCAAAATCAAGACTTGGTTAATGAAATCACTCCTCCACTTGCCCTTGCCTGTTACTGAATCCTGTTCCAGCTGGGATGGAAAA
AGTGCATTGGTCATGCTGTCAAAAGCATATCACATTTCTCCACTGCTATTTCCTTCCTTCTTAACTAAAAACAAAACAAAACACCATAGACAACAAATAG
ACACACACACAMAAAAAAAGACACTAGGTGAGAGTGAAGGTAGTTTGTACTATTTTCATTTTTCGTGTGTTCAATCGTATTTCTCTCAGCAAATATGATT
GGAAGTGGTGCTTTTCCTTCCTTCCCCACCTTCCAGCATTAGGTTTGTAGGTGAACATAAAAATACACTGACACTCAAAGAAAGAGCTCTTTCTGCTCTG
CACACATCCCATCTCGCCCTCTTCCTTGCTCCTGCTTATTTCTCTCTCTTTCTGCCTCCTTACCTCCTTCAGTTTAGAGCTTAGAGAAGTTTTTCACTCT
TCTTTTGACAGGTGTCAGATAGACAGTATGAGCTCATTTAAGCTGAACTGTCTGGGGGAAACTAAATTTGTTCAGGAGAATAGCAATTTGGATGACAAGT
GCCAGGACATACCAGATGGCACGGCTGGAGAAATTCTTATCGGGCTCCCAGCTCACGTTCCAGGCGGCCTCTCTGTCTCTCTCCTCTATTCTTATTTGTT
CATGGTTGACCCARATGGAAACTTGAAATGCAAATGTATTTCTTCTTGGAAGTTTCCAAGTAAAAAAGGTGATAGTGACTCAGCATAAGATGCTTACATG
CCCCCAAAAGAATAGCCAGTACTTGTTATTTATGCTTATTACTACTGATGCTTCCCAGACCCCTGTGGGCACATATTTGAAGAAGTCTTAATTGTGAGCC
CTAAACTGATTGTGTAATTCCAGTTGTTTACTAAAATAGGACTGTTACCTAAGCTGCAAAATATTTGATGTTCTTGTCAGGATGTGAATGGAAGTGTTCT
TAAACATTCTTCCTCAGTTGCCACACAGTTTGACTGATTTTGTTGGCCCTCACTTTCCAGAAAGGGAACCGTGGACATAAATGTCATGGGAAGGTATTTA
GTAGAAGGTGTGATTTTTGGGGGCGCATATRAAACATTCTAAAATTCAAGGCCAGGGCGCTGTGACAGGCTCTAATCTATGAATCATTATATTCTTAACA
TATTCTGAGAACAGGAAGAGAAAGCTCAACCTTTATAGACACAGATGGAATTTCTCCTGTGAAGACTGGTAATTCATGTGACATTTGCTGTTTGCTTTTG
TTTGCAGTCAAATTCTTTCTCTCAACCTTGCACTGTGCTGTTACTGGTCACTTAACAGACCTTCTGAAAGAGCAATATAAGTTTATATTTTAGGTACACA
AACAAAGCAGATGTTTATAATACTGGGCATGATTTTTTTTTTTTTGGTCAATATTTGGTTCACATGAGAAGATCAACTTTTTCTAGCCTGTATACTTTGG
CTCTGAATTTACGTGTTTTGAAAGGTTTGTTGTTGTTGATAATTTAGTGATGAAACTTACTCGTGGAAAAGGCTTATTGTGAGTGAATAAATAAATAGTA
TAGGCTAAAGTGTGTGTAGCCTACATTATTTGGTAGTGTAGTGTACACTCCACATACTTTTATCATTTTAATTTTCTACTAAATTATGCATGTCCTGGTA
TTAGGATTCCCATAGTCATGGCAAAACCAATGATGGTAACGCCATACTTATCTGGAGGTTAAAGTTTCATTAACAATTTAAGGTGGAAATCAGAGAAGAA
GGCCTCTGAGCCAGCCTAATAGCTATTCTAACCCCACACAGCAAGGTAGTATATTGTATTGCTGCTCTTCTCACCAAGAGCTTCTGGGCCTTTAGCACAT
TATTTTTAACATGTTTAAATTTCTGGGTTTTGTGGACACATCACATTAGCAGATGTGGGAATGATAGAGGTTATTTTGACATACAGAGAGGAGACAAGAA
AACGGAAGTGTAACCACAAAGCTGGGTTGCCACATCCTATGGAGGTGTAAATTCATAAGGATAACATTGAGTCACCCAGAAAAGTTGTATTGTGTCTTCC
TTTTAAGAAACAATGTGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGAC
CATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCAGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTG
AGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAA
AAAAAAAAAAAAAAAAAAAAAAAAAAATGTGGTGGAACTAAAAGCCCAGTAAAAGTGTAACATGAAAGGAAAGGCTATGTTATATTCATCCAATAGGGTG
TGTGTTTGTGTATGTGAATATGAAGAAATTTATCATAAAGAATTGGTTCATATGATTACAGAGGCTGACAAGTCCCAAAATCTTCAGGGTGAGTCAGCAA
GCTGGAGACCCAAGTGAGCTAATGCTTTAGTTACAGTCTGAGTTTGAAGCCTGAGACAGGAGAACTGATTGTGTAATTCCAATCCTAAAGCTAGCAGACT
GGAGACCAAGGAAGAGTTGACGTTTTACTTCAAATGCAAAGGCARGAAACATTCTTCCTCAATTGCCACACAGTCTGACTGATTTTGCTGGCTCTCACTT
TCCAGAAAGGGAACCATGGCCATAAATGTCATGGGAAGGTATTTAGTGGAAAATGCAATTTTTGGGGTCCATATAAAACATTCTGAAATTCAAGGCTTGA
TATCCCAGTTTGAGGGCAGCAGGGCAGGAGGAATTCTCTCTTCCTTGGGGAGGGTCAGCCTTTTTGTTCTATTTGGGCTTTCAGCTGCTTGAATAGGGTC
CACTCACATTGGGAAAGGCAATGTGCTTTGCTCAGTTTACAAGTTTAAATGATAATCTCTTCCAAAAATGCCCTCACAGAAACATCCAGAATAAAGTTTG
ACCAAATATATGAGCACCCTGTGGCCCAGTCAAGTTGATACATAACAATCACAGCCATCCTTCCAGTTAGTCACAGAAAGATACCTTCCTGCATCTAGAC
AACAGGCAGCTGCTGAGGAGGGCTGGGAACAGCAGTTCATGATCTGGTATCAGATCATGAACCCAGGGGTCCAGCACAAAGACGTAGATCCAGCCCTGAT
AGGAGAATGCCTGGTTTTTAGAAATAGGGGGATTAGCTTCCAAACTATARAAAGAATTCATTCATCCATTCATTCATTCATTTTAAAATTCAGGTCTTAA
TTCAAATATCACTTCCCCAGGGAGGCCTTTCTGATACATTGTCTACAGAAGTCCTTTCAGCCGCTCTCATTTATTCATTCACGAAAATGTATCAGGCCTA
CCCTGTGAAAGGCACTGGGAATCCAATAGTGACTGTGAATAACAAGCAAGGTCCCTTCCCTCACGCATCTTACTTACTAGTGGGGACAGACAGAAACTAA
GTAAGCAAATAAAGAAGGTAATTTCAGATAGTGATAAATGCCATAAAAGATAAAATWGGGTAATGCATTAGAGTGTTGATTTGAGGACAGGGGGAAGTTA
CACTAGATACACCCGTTAGGGAAGACTTCYCCAGAAGAGCAGTCAGCTTGGATTGAAGGATGAAAAGTAAAAGCTCCATTCAGAGCTCTTGGGGAAGAGC
CTCTTAGGCAAAAAACAGCTGGTGCAACAGATCAACGGACAGAACCATTTGGCCAGTTCTGGGACTGAAAGAAAGCCAGTGTGACTGGAATACACTGAGC
AAGGGAGAGAAAGGTCAGAGAGGTGAGCAGAGAGGTTGGCAGGGCAAGATCTTCATGGAAGGTCATATAGGCCCTGATTCAGAGCTTGCATTTTATCCTG
ATTGGAAATAAGTTTTAAGCAGAGGAGTGATATGATCTAATCTGTGCTTTGGGAAGATCACTGCCCAGCGGGACACAGATTGTGTGGAGCAGGAATGTTG
TAAGAAGTACAGACATGTAGGAGGCTATTCCAATAGTCCAGGTGAGAAATTACGATAGCTGGGCTAGGGTGGTAGCTGTGGAGACAGTGGGCAGTGGGCA
AGCTTGGCTGTTCTGTGAAAAAGTCTTCAGGAATTGCTGATGGTTTGGATATAAGGGGTGAGAAAAATAAAGGACTCAAGAGTGACTGCTAGGTTTTATT
TTCTTAATGGCACATATTTTTATTTGAAATTATCTTGTTTATTTGTGTACTTCTTTACTGTTGATCTCCCTCATCAGGCTGTAGGTACAGTGAGAGAAGG
AATCTTGCTTATCGTGTTCACTGCCTCAGCCTCAGTATCCAGAAGAGCACCTGTTCCTTGAATGTATGTGTATATAAATATTGATTGAGTACTTAGTATG
GACCAGGCCTGTACTAAGGCTGAGATACAGAGGAGAACAAGACAGAGATGACCCATACGATCATGGAGGCTGCATTCTGGCAGAGGAGATAGACAATAAA
CACATGAACTGAGTTGTTTCAGGTTTTCATAAATGCTGTGTTGACAAAAGGATGAAGAGAGTGGTTAAGGAAAAACCTCTTCTCTAGTGGTTCTGTTATT
CTACATGTATTCACTAGACTCTAACATCTGTGAAAGCAAGGACTAGGTCTTATATTCTTCGTGTAGTGCTAAGAAGATAGTATGTGCCCAGGAAATAAAA
GTGGGCTTGTCAAGCCTGGAAGCCATGCTCAGTTCCTGGAGCATCCTCAGTACCTGTTTTGTTATCTATGTGATGTGACCTGCTAGGGAAATTGTCCGAG
TCTCTCCTTTCTTGTGTAGGTTGACAATGCCTAGACCCATCAGTCTCTGCCTGGACAGGCCTGTAATTTAACTGCCTGCCTGGCTCTGATTGCTAATAGG
CATGGGTAGCCACCTATGGATTTGCACAGCCACACACGGCCTTGCTGCAAATTTAGCAGCAGATAGTGCCTCAAGGTCACTAGAGAAGAAATGAATCTGT
AAGGTGAATAAACTAAGGCCAATAAGCATAGAGTGCCAGAAAGTAGTGCCCAGAGGGATCCGAGGGGCATCTGCATGTTTATTAATAAACAAACACACAA
AAACCCCCGCCTCCTCCTCTACTTAAGGAACACAGTGAGATCTCCTCTTATGAAGTCATTTCTCCCATGACTTCTGCTTTGAACAGAAGATTTTCAAAAG
AGCTTTGTTTGCCCTTAAGCAGTCTTATCCTCAGATAAGGATAAACGATCAGAGGAAAATTTCACTGGGTTGTTGGTCAGCTATCAAAATGAAAAATGAA
AAATCTTTCTTAACTGGAGTAAGTGTGGAATGCTTGAATAGTGCAGCAGCTTTTAGTCATTCTTTTACAACTGCTGTACACATTGCAGCCAGAAAAGACA
TTTTAGTTGTCAGGTAGTCAATAAATATTTATTACMTGCTTCCTGTATACTGGTTCTCCACTGGGAACTGTTCCTAAAGGTTTGTTTTCTTGTTACTTTT
CTTGTCCCTGTGTTCCTCATAACTCAAAACTGCTGACCCATTTAGGAGGTATGGGAAAGCAAGATTGATCAGAAAGCAGACTGGGAAGAGACAAGTCATG
ATAATTCTTATGCTGTCAAAAACTGAGTTTAGCATCATGCTAAGCAGGCAGTATTCAATTCATAATTCAAAACTGAGTGTCGCAGTGAATGGGGCCCTGC
AAAGTCAATGTCTGATTGTTTTCTTGCTGATAAGCACCATGATCAGAGGTCTCTTCACTTTGGCTTAAATCATAAACATGTTTGGAGCACCTACCATGTA
TGGCCACTCTCCTAAGAGTGARGTAGGATATTGAGGTACTCCCAGTGTAGTGTCTGGCTTCTGGGGACTCAGTGTTAAATGAGTGTGGAGAAGATGTGTA
TATGAAGACTGTGTCTTAAGGGAGAATGTACTAAGGGAAATATGAAGTCTGGTAGGTACACAGGAGAAGGAGATATTAATACTTCCTGGGGGGAATCCAG
GCCTTACTAGAGATCCTTCTGCACACTGTCCCCCAGCTCCTCACTTTGAGTGTTTCTTTTGGATTATTCATTTTCTCTATCTTGTGGCAGGCCTCATCAA
GACTGGTATGTGCATCTGTGTTTGCTTTTATCAGATAATCTTCTACCTACTTTGAGTTTACCTTCTATTTCTAATTCCTTGCTTAACTTCTGGGTTCCTT
GCACAGCAGCRTCTGATATCCTGCATGTTAGTTCTTTGTTTTCCCTACCCAACTGAAAATTACTAATGCAAAATTATATTAGCAAAATGGGCATAACCAG
AATCACCACTGCTGGGGTAGTTAATGAGCAGAGGTCTCCCATTTGCTTCCTGCCCACCAGTCTCTCTCCTGCCCTTTCAAGGCAGACGGGTTGCTGGCTC
ACTAATTTCCCACATATTGCAATCTTTTCCTGTGATGCAGAAAGCTATGTGTATTTCCCCACTCCTGAGGTGACTGAACTGTTTAAGTAGTTTTGATAAT
TCGTTGCTTTAAAAAATACACAAAGATTTGAATAATATAGATAAATGTTTTCCTTGACTACCCACACCACCCTATTGAGGTCAGTATTCTTAGATATAAC
GAACAATGTGAGTTTGATCTATATTCTTCCAGACTTTGTTCCCATGCACTGACATATGTATATGTGTGTGTGTATGTGTGTTTGTGTAGTTTTGTGCTTT
TTTCTAACAACTCAGCTGCCAAATGATCAGTGCATATAGCACTACTTCATTGTTTTTATTCTCTTGAGTGTCATTCATGTATTTCTAACTCTTTGTATGC
CTAATATTTTTTTGTTTGAATGCCAGGCATTGTTTTAAAAAGCTATTGATGCTCCATAGGTTTACCTTTCCTCTACTAGGCAGATCAGGTTGAAAGACTG
ATTGCCTTAATCCAACAACTGACTAAGTTGCATCAGAACAGGTTGCAATTTTGTTAAATTACTTTTTGTTCTCCCTATTTCAGAAGCATGGCCCTCCAGG
GCTTTTGATTGTAATTCTTTGTCTCCTCAGCACTAAGAGACTGCAGAATATCTTGTCTGCTTTTGAGAGATTTGGGCTTAGCTCTTTAGTCTTCTGTACT
GTGCAGCTTCTGAACATGACAAATAACTTGACAGGGAGACCAACTCTGTGTTCAAGTCTCCTCAAATCTTCAATTTAACCACTGAAGCCGTACATGGTTT
CCAGAGGATCTGCTGGTTTCTTTGTCCCAGCAGCTTCCCTCTGCCTGAACCTACCCTAGATTCCATTCTCTAGAATGAGCCAGCTTAGGGTGGCAARTGT
CCCTGAAGTTGGCTGCATGTCCTCAGATCACCTCTGAAATCTTTCCTTTCTATAATTTTACTGTTGTTAGAACTTTTGGCTTCATTAACTTTCTAATGTC
CTTAAATATGTGATTTTTATAATTTATTTAACTTTTCTAGTTGTTTTTAGTGGGCATGTTGGCCTGCCATGAACAACTTCATTATACTTAGAAGTAGAAC
TTCTCCCTCATTGCTTTTAACTCCTTCAGATTCTTTCATTGCATGATGTCTGTGGCTTATTTGGCCATTTCCCTGTTGATAGACATGCTGATTTTTATTT
GTCACTGTTACAGTCTTATAATTTAAAATGAAGTACATACATTTTGTGTACTTATTTATAGCAATTACTAATATCTGGAATTTCTGGATTTAAAATATGG
ATTTTTAATTTTAATAGAGATTACCAAATTGTTCTCCAAAAAGACTTAAATTTAAATCTCAGGGGCTGAGGCTTCCCTTTAAATAAACCAGGTCTATCTC
TGATCTTATAGGTTGGCCCTAGTACCAAACAGTTCTACTAGTAACATTGAGAGTTCTATGAACTCTTTTAGAGACTCTGAGCACACTGAAAGCTTACCTG
CTGTGTTGTCCTTGCCACTCTTACCTCAGTGCTCTCCTGTGGGTACATTTAGTACCTTTACAACGTGTGCAGTGATCATGCCATGGATTACAAGAGTTTA
ACACATTTTCTAAGACACCAAGTGAGTAATGTAGATACTGAGGAGATATTCAGTAGAAAAAGCCAAATCACTAATAATAGCATATTYTCAATATACAGGC
AATTTCTCAGTTGAAAAGCTTAGCTATTATTGCTATGGCCATGGCTTCAAAGCTGTGAGGTTCGCTTTTTATTTATATTGGCAATTTTCCCATGTGCTTA
TAAAAATCAGTCCTTTGGATGGTTCACTCAGTGTATTTGAATACCTTTTCCAATTCTCTGAAGCTCCTTGATCCAGTAACAGTTTCTTTCCTTGGCAGAC
CATGAGGAGTGGGAAAGTAGCTTTTTCTAAGTAGGCATTGATTGGCATTGAGCAGTGGGAAAGATTGGAGCTGGTGAACATGGGGTGTGCAAATGTATTC
AGCCAACAGGAGCTCTTCCAGTTCATAGGGTGGATCTGCTGGAATAGTTGCCTTGGTTCTCCTTTCACTTCAGGGTGGAATTAAGCTCCTGGCTCAATAG
GGAGGAAGCAGGATAAGTCTTAGCCTCTGGACACTTAACCTAAAATTCTAAAGAAAAATTCCTTATTCCTTTTTTCCTTTTCAATGGCTTACCTTTAAAC
AGCATTAATATCCTGCCTGTTGTACTGAAGCAAGAAACTGTAGTATCTATTTTCAAAACTAGTACATGGATTTTCAATGTGAGTGTCTTGGTAATAAATG
CTGGTTTATTTTGAATTTAAAAATGTATTTTGATTTTGTACTGACAGTTTAACTCTTTGAAATATAACGGAGGAAGGGTCAGAAATAAAGCAATCTTTCT
TTCTTCTGGACTTATTTATTCACTCTTCTTTAAACAGTTGTTAAAWCTCTCTTATGCATTTGACATTGGGCTTTGCACTAGTGATAGAAAAATGAATAAG
ACTGTGACATCTTTTGGTACTACATCATATAAATTGTCTAGATTGTACTTCTAAGCCAGCATGAGCATTTTAGAATATAAGAAATAGAAACCAAACCAAG
AAACTCTAGTTCGGAGCAAAATTATATGCCCAGTTGTCTAAGAAAGGGCTTTGCTTTTTACCAGTAATTTAGAATTTTATGACTAAGACAAAGCAGAAAA
TTGGGAAGAACAGTGAAAAGGGCAAGAAGTTAATGGAGTGYGGTCAGAGCTGAGAGGACAAAATCTAAATGAAAGGGGGAAAAGCAATAAGGATTGAGGA
AGGTTGTTTAGGTCRTTAAGCTTACAAGATCTTCTATTTCCCAATTAGTACATTCTGACCCTGAAGACGTTTAAGTACATGACGAGGATGTCACTGGAGT
GTGACAAATTCTTCACATTCTCACTTCCCTTTGCTAATTCTGGCGTCAGAAGTTATTGCAGAGAACATAGTCAACCGTCTGTGGAGATACATCTAAAACA
GATGTGCCTATTGTTAAACAAACATGGTATGTTTAAATCCATATTTATTTATTAAACAAAAATTAGATAATTACTCCGATTATCTGGTACCCACAGGGAT
CATACAAATGACAAACACAAAGGGCCAGCACTCTGAGAATGAGAAGCCTAGAGAGAGGCCAGGCTGGGATAGTGCCAACCCTGACATAAGATAGAATATA
ATTAGGACTTTAAAGGAAATACAAACAAATATTGTGGGCACTCAGGAAGAAAAGCACTTTTGGTGGTTGTGGATACAGGTAGAGGGAGAAAGCACAAACA
ACTCAGAGAAACTTTCTTGAAGGAGATAGTATGCTAACTGGCCATGGAAAATTGTTTGAATATCAACAAGTGATGGGATCTCAACAGGGATAAAGGATAC
AGGTGTCATAGGTAAGGTAGTGGCATAAGCAAAGCCATGAAGGAGGACAGCTTGTTTGATGACTAGCAGTGTGTGTTATAGGAGATGGGGTGGAGGATGC
AGAGAAACAATGTATTTTGAGACCACACAACTATGCCTTTAAATCCCAGCCCTTCCGCTTATGCATACGGGACCATGCCTAGGTTGCTTAACCTTTCTAA
ATCTCAGATTACTCATCTTTAATATGGGGACAATAATATTGATTTTTGCATTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTGGGAGAGAG
AGAAAGGAGAGAGAGAGGAGAGAAAGACTGGTTATAATCTATGTAAACCTTCTGGTGCTCAATAAATGGTAGTAATTATTATGGCAAGTAGTTAGGCTAT
CTCAATTTTGGACAATGTGTTAGATAAAATAAAAAAAATAATTTGTGATCAAATTTTGGGTGATCTTAAGGAGCTAGTTTAGGAATATGGAGTTACTTTG
ATAGGCAYTGGAAAGCCATTGAAGACTTTTGACCAGGGAATGATGTGATTAGGGCTTAGAATTGCAGTGCTGATTCTAGATATATTGTAGAGCTACGACA
TAAAGGATTAGACAATTAGATATGAACCATGGTGTCAGACACCTACATATCTGTTCTTTACTCTCTTGCAGTTATAAAAACCCTGATTTTTAGCTGGAAA
CATGACTGTCTAAAATGAAGACCCTATTTACCTGTTTTGCTTGTGGCTAAGTGTGCCTATGTGACGATGTTCTGGCCAGAAGTATCATGCAGTAGCATAC
CTAAAAGATGGCTGGCCCACCTTCTTCTTTATCACTTCCTCCATCCTGCTTCTTAGATTACCTGCCATCTTGGTCTAGGTCCAGCTGCTAATTTGGACCC
TAGCAATATTGGAGGGATGAACTGGCAGGAGACTGAGTCCCAAAGAACTTCATGGAACAGAATTCTGCCATACCATCCCTTGACTAAATTTCACTAGCCT
TCTACATGAGAAAAGAATGAACTACCTTGTTGAAGCCTCTGAGATTTTGAGATTSTGTTACATGCAGTTGATCTTACAATCTGATTCTAACCAATTCAGA
TATGGAGGAAATAAATGAATAAGAACTTAGTTTCTAGGATTTCAAGCCAGTAGCCATTATAGGAATATAAGGAAACATGTTTGGAGCAGGGGGAGGATGA
TGGTTTTGGTTTGGGATTCAATCCAGGTGGAGATGTCAGGTAATTGGAAACAAATGTCAGGAGCTTGGAAGAGAGGCCAGAGTTGGAGGTTTAGACTTGG
GGTGGGAAGCAGGACTTTAAATAGCTCTGATAGTTGAATGTATGATAGGGGAAGACATTTTCAAGGGATAAAAGTATAAAAAGAGTGCAAAAACCTGAAG
GCTGACCCTGGACTAAGTGTCTGCTTATACAGGTGAGGAGGCAATAGAGATAGTGAAATTGGGCAGGAAGAGGTGTGGTGAAGGTGAGGGTAAAGGGAAG
AAGAGTTGAGGCTGAATTAATGAGCTTATTTCTTTTGCATATGGCATGTAGGAGAGGAAAAGGATTCCTAGGTTTMTCATAGTCAAGAATGTACTGATTA
TATGCATTTGCTTCATTAATGAATACAGTGCTATTTTGTTTAGTGTTTCAGGAAATGCTTTGATTCCAGCATTGTTTTCCGCTTTTAATGCTTGGAAACA
GCTTTGCTAGGCTCTTCTCAGGTGAGTAGCTGCACGCCAAAGTGTCTCAGTGACAGCATTGCTAAGGAGTTTTATGGAGAATGGATGGTCTTGACTGGAA
AGTCACTTAATGGCTTTTAAAGTTGTGAGCAGATGATCATACTGTATAAGTGACAGACTGTGAAGTCTGAGACCTCATGAATGGTTTTGATGTTGGCATC
AGATAAAATTACTAACAAATTAGATCTGACATATTTTAATGGTATGTATAATTATTATTGGTCTTTGTGATTATAGGCTACATAGTAACTGCTATCACTG
GTAATAGCCAGTATTACTTTTGTCTGGACACACACCAGACATTTACGGAAATAGCTGGAAGAAGAATGATATTGAGAATTGAGGGAGAGGGTGGTTTGTG
CCAAAAGGAAGGTTTGGAAGAGGTGGACACTATTCCTCTCTCACTTCCTAACTGGCTTATTCTGGAGTTGGAGGCCTGCAGTGCCTCACCCTGTCAAGCT
GACCTAGGCACCTAGTATGTTTAGCTGTTCCAGTCCCCACTCTCCAGATTTGGCCACATTCTCCCAGTTGGAAATGATGGAAGATATTGCCATCTGGAGT
TCTCTGATTTCCTGTAAGTTCTTGGAGACTTTATGCATGGCCCCACCCAAAGCTTTTCCTTCACCCCAACAGGAGAGAAGGAGGCTGCAGACCACAGAAA
CTTCAGAGATGATGATTTATGTGGACTCATCAGAAGTCTAAAGGGGCATGTCTGTGTTCTTAAAGGGTACGGGAACCTCAGAGAGCCAATTGGCCCAAGA
AGCAGTATGTAGAATGGCTACATATTCTATATTTTCAAAGATCAAACAGTGCAGAGTGCAAGATTATAGGAAACCCAAAAGGGTCACAAACCAGGATAAG
AAAATATCCCATTCACTGCCATATTTTCCAAACCTAAAAGAGTGCCTCAATCAATGTTTGTTGAGTTTTAAATAAATATCTTTATTTCAGTAATATTTAA
AAATGTATCCTAAATCTACTTGTYRTCTGTATTTTCAAACATAGGGAAATAAGCACCAATAGCTAATTGGAGGAATAGGATGGGGGATGGGGCACAGCAT
GAGGAGAGGAGTGAGAGTATGTCTCTCCCAGAAAACATTTATTGTAGGTATTGATTCAAATTCCAGTTCCTTTCATTCCTAGCTGTGTGATACTGGACAA
GTTACTTAAATTTGAGCCAGAGTGTCTCCACTGTTAAACTAAGTAACAATATCTACTTTATAAGATTATTGTGTAAAGTAGGTAAAATTTATGAGAACAT
GCTTAATAAATTCTAAGTGACAAAATGTTAGGTGTTATTACTGACATTTATAACAATAATAATAATAATAAAATAATAAAGATTGGAACATGGCCAGGGA
GTGGTGAGGGGTCATAGCATTGGTGTGAAAGTTGGATTTGAATGTGAGTTTCTCTGGCTCATATGGTAACTCTGCCTATCCAGGATTTAACTTAGAATCA
ACAGCTCCCCAAACAACAGCAGAGCTCTATCCAGTTTGAACACTTGAACTAGTTCTTTTACTCAGTGAGAACCTGTGAGTCTGTCTGGAGTAGAGAGGCG
GGTGTTGAGATTAAACCACCACAGTGGGCTGTCTCTGTCTTAGGGAAGAATAACAGAGAAGGAGTTTCTGCACACCAGTCTGACTTAGAGCTGAGCAGCA
CATAGACGTGTACCCAGGTATCTCATGCCTTATGCCCAGCGGGACCCTTCCTGGTGTGTATGGTCGATATGCTACCCTGTGGAGGGTGGCTATTTATTGA
ATTCCTATTCCACTCAACTTCAGTTTATCTGACTTTGGAGGGGTTGCAACACGGCCTTGCCTCTTATGCTGAGCTTTCTTTGGAATTGCTATGTGACTGT
TTCTTTGACAGACTTAGTTAGAAATTCAGATGATACTGATTTAAAATAGACCCGTGGGGTTTGAGAACAGTTAGAGAGAGCACAGATGAGAAGGAGAGGT
TAAATTTTTTCTAAACTCAAGTTGTCAGTACTAAATTCATTATCCCCCATTAACAGGCATAATAATGAAAATAATAATGTATAACTTTTTCACTCCATTC
ACTCATTTATTCATGAAATATTTATTAAGTGCCTATGTACTAGAGTGTATACTAAATGCTAGACATATATAGATAAATAGATAAACCATGCCTGTCTTAG
GGAGTAAGGTGGAAAGCCTGAGGGTGGCATGTAGGTTAGTCTGGCATATAATCTCAACAAGCTTTTGGAAAGATGAAATGGTTGTACTTAGAGGCAGAAA
TTGCATTGGTTTTGGTCACAGATGTAGCCTACCTCCATTGCCTGCCACAGAACCTGGCTCAGCTAAGTACCCAATAGATGTTTTTTGAATTGGCTTAATA
TTTCTAATTGCATGATTAAGTGGCCAGAATCAGTTAATTTAACCCATGAGTCCTTTTCACTCCTTTTACAGAGCTAGAAACTTTTTGTGGCCAGTCAACC
TGGTAACCAAACATTTAAATTCTGGTAATTGGTAAATATGCCTCGTCACAGGTTTGTTGAATGATTTATTTTTCATAAAAGCAGGAGGTTCATGACAAGC
TCAGCAAATCTGTTGGCAGTTTTAAGACATTATACCGGGTAGTTTAGGGAAATTTCTCAGCACATGAGACCCTTTAGATTATGTAATATTCTTGCAAGGC
AACTAGGAAAAATAGTTTTTAAAATTATGTCTATTTTGCTATATTTAAAAGCAGAAATTATCTTATTATGGAGAATTGATTAAATATTTGATAGCATTTT
TGTATGATTTAACATATTTATAGGTGTTAATTTCTCACAAAATTTAAGTTATAGCTCTAAGTGTAGAATTAATAGTTTCCCTTTGATTACAGTTTTTTTG
GTGTTAACGTTCATCTATTTTTGGATGATTTGACTTACCCTTCCTTTTTAAAATTCAGACTCTAAATTTAAGGCTATACATCACCATAGTGTTTATGAAG
TGAATTAAATCTTACAGAAYGTTCCAGTGCAATCTGAAACTACAGCAACTACTTGAGGTTTTATGTCTGAAAAGTGTTTTAATCAGTGATGGATTTGGAA
TTATTGCAGCTGATTCCTGAATTCTTAGGCCTAGGCCTTAGGAACACACTATCCAGATGTTTATAAAATGCCATTTTACCAATGTCCTGTTTATACTTTG
ACTTTGTGGTTCAAAAAAAATACATTTGCCTACTTCAAAGTACCAGATGAAAGTATTTTACATCAACTAAATACTGCATTTGAGCTGCCCAACAGTCCCT
AACACTGACTCCTTCTGCCTTAAAGGCATTTATTTCCTATCATCACCTGTTTTCTCCAAGACATGTGAGAAGAATAAAGCCTGTATTGTGGCATTTTGTG
TGAATGCTAAGWTCTTGGCAATGTTTCTTATACCTTCCCTAGCTCTTCTATTTTCCCTAAAAAGTATTCTCTTTTTGAAAGAAAAATTTAATTTCTCAAT
TTCTTAAACCAGATTATTAATTAAAACTGCAAAATGAAGGAAGGAACACCCACTAATTCTTCAAAGCTCAGCAACAGAATCAAATCCTTTGAAGATCTGT
CTGCTTAACTCATCACTATTAATCAGTTTAAGACTATTTAGAAAAGGTACTGAGAGAAAGAAATGAATAAAAATGGGTGAATAAGGCAATATTAAGCTGA
CACTTTATAGTCCGGTTGGTAGAGTAAAAAAGCAATCAAACTTAACAGCTTTTTAAAAAATTAAGAATGTTATATAGGTTGATGTTATTTTTATTATTAT
AAATRTAATATTTACTCCTTTTGCCAACTTGGAAAATGTAGAAAAGTCAAGAAAAACATAACATTCATCCATGATCCCACCACCCAGACAAAACCACTTT
TACCTTTCCCCTATTTTTTAAGTCATTTTTTGCTATGTAATTAATCAATTTGCATAAATACAAAATTGAGGTAACGGTATATGCACAATTTTGAAACATG
TTTTAATCACTTTCTTGTGGCATTAAATATTCTTCAAAATATGTTTTTAGTGGCTGCAGAGTTATGTTATGACTTTCTCATCCTTTAGTTGGTCTTTAGT
GTGTTTTTATGGTGTCCAGTTTCAGTATTCATGTTGATCTCCTTTCACCCTTTGTCTTCACTGAGTCACTCTTGGCTCASTATGGTAATCATTAGCACTG
GTTTCTAGATATTTCTGGCTCTTCACCTGCACATAAAACAGGGCTGTACATCTCAGTCCCTTGGAGTTTGGGTGAGGACATGTGACTTTTTCTAACCAAT
GAGATGTGAGTAGAGCATTTAATTACTGATGAGAGAGACCTTTCAGAGTGCTGTCCTCTTTGCCACAGTGACTGGCAGCTTTCCAGAGAGTGGCTGCTCC
ATTAGCGTGGATCCCAGAGTGAGGTTGAGGCCAACATAAACACCTAATTGGCCTGGGATGGATAGGTAATGTGAGAAGAAAATGAAACTTTGTTTTAGTG
AGTGAAATCTTAGGGGCTGTTTGTTATCAGTGAATAAGTTTGCCTGTCTTAACTGATAACACCAATCATTTGTATCTAGATTGGGAATCTGATTTAGACC
TTGTGGTCATCTTATAGACTCATGTTCACCTTCACATCTGTAAATTATGTGGCAGGTCATCATATACACTTTCTCAAACAATTGGGGAATCTTTGCCCCT
ATGCATCTGTTTTCAGGGTGTTTCTTTAGTTGACTTCAGGCGTATTCAATAACTCATATCATATACATACATAAACACTCATACCTTCATTCTCACAATG
TTTATGATTAGCCTTGTTCATACTTTTCTGTTGCCTAGGAAAATGTCAATAGAAATTTTAAAGTAAAGACTGATTTTTTTTAAAGTATAAACTTAGTAGT
TATATGAAAATGAGAAAATTCATAAGGAAAAAATCCTGTCATTTCCCCTGCCATTCAAACCTATTTTTATTATCCCATATTTCCTCTATTCCCTGTGTAT
AAAACTTTATATTGCTTATCATAGTTTACATACAACTTGACATTTTCTATATATATAAAAATTTTCATGTTTTTCCTACACTTCATAATTAACATTTTAA
TGGCTGCAAAATATTCCACTGAAATTGAACACCGTAATTTATACTACAATTTCCTTATTACTGGTTTTTTAGTTTGCTGCAATTTTTTTGAAATTCTGTT
GGAATAAATAATTTTTAGAGCATTTTAAAACAAATATACTAGAATGTATACATCTAATCAGTATTATCATATAAATAACTTCTAAGTCTAAACACATATT
CTAATGCAGGTGCCATTGATATAAACATTTCTAATCTCTTTTAAAATGGTCTTTATGGCCAATTGATGAGCTACAAATTAAAAATTAGTCTCATTATTTT
ATAATATATCTTGATTTGGACCCCAAATCATTCATTCATTTTGTTAATCATATTTTGGCTGTTTTCAAAAGTTAATTCTAATTTTAAAGCACCAAATTTT
GCCTTCATTTAGACCATTTGGAAGGCTGCCAAATGCTCTAAAGGCAATTTCAGAGGAAAAGTTCCAAAACTGTTAACAGCACTGGGCAATTGCTGCGATA
ACTGAGCAGCCTACCATAGTGATGGTTTTAGAGAAAAAAACACTCCTTTTTAAATGTGAGTTTGAGTGGATTTGTTACTGTAATCATTAAATCCACAACT
CTATAGTCACACTGGGCATGGATGTAATATTGTTCAAAATAAATGCCAGTTGCTTGATAGCAGGGACTGATTCTTTCATGACATCTACATTAGTGCCTTG
CACATGGTAACTACTTAGGTATATTTGTGATCGAGTCTGTGAAAGTGATCCCTGTTGAGATCACACTTTTTCCATTGGCAAGGACCTATCTTTGAATAAA
TCCTTTCTGCTGGTGAAGTCTTGAAGTCTCCAGCACTCTAGACTTACAGCATTAGCATTATGTGGGAATTTGTTAGAAATGAAAGTTCTCTGGCCTCACC
CTGGACCTACTAAATCAGAAATTCTAGAGATTGGGCCAGCAATCTGTTTTAGCAAGACTTCCATGTTATTCTGACACATAATAACTAAATGGTAAAGTTA
GCCTGAAGAAAAACTGAAAATAAAGGTCAAAGAGGTGATTCTATAATGAAAGAAAGTTGGTGTTAGAAGCCACAGACTAGCAAAATTCAATAAACATCTT
CAGAGCACCTACTGTGGTCCAGAAATTGAGCTTGTAGATACTAGGTATGCAAAAGCAAAATAGATAGTGTCTATACAGAAGACATAAATGTGCGTAAATG
GGTATAAAATAAATACAATGCTGAGTGATACTTCGATATAGAAGAATATACAAAATATGGGTGRTGATGATCATAACTACCATTTATAAACCACATGTTG
TCTGTCAGGCACAGTACAGTGCTTTATATATATATTTTTTTGGTATGATTATCAGAAGGAATATAAAGATTAAAAGGTGCTGCATTACTTAAATAGGTTC
CCTTAAACCTGGAAAGAATAAAATCCTGGTCACAAAGTTCATTTCTTGCCCAGAGCACTTGACCCATTCAGGGATCCTGTGTTTGTCATTTCTCTTCAGA
AATGATTATATTGGCACCTATCTCAGAATTGATATACAGATTAAATACRGTCATGGATGAAATTATTTAGCCCACTATGTATCATCAATATTCATTAGAT
AGTAATCATTTTTATTGCTACTAATAGTAATCATCATCATCATTAGAGGGGTGAGCGGCAATATAAGATAGATTCTATAGAGGTTAAAAGCATGACTCCA
GCCAGATTCAGATTGCCAGGGTTCAGTTCTGTCTTTGTCAGCTTCTAGCTGTGAGACTATGGGCTTAGCCTCTCTGTTTCAATTTTGTCATCTGTACAAT
GGGGACAGTAAGAGTCCTTCACAGGGTTGTAATAACTGGTAAATGAATTAATGTGTGAAAAGCACACAGCACACTGGCAGGCACAGGGCAAATGCTCAGT
AAGTGCTAGCTTGGAGTGTTCTGTCAAAAAGCCTAACATCTCTTTGTGGTATTTTGTGATTTTTGACAGAATGGTGTATGCTTTAGGCATCTATGGAACA
AAAATATCACCCTTCCTTAAATCTGTGGCGTTGAGGGATCACTACATATTTGAATAAAGGCCTTTCTCTGATGTCTAACAGGAAGAAGAAAACCACTGAT
ACCAAACTAAGGTTTAAAAAAGGCCAAGGGGAAGAAAATTTTAAATCAAAAGTCATCCATTCTTATTTCATGGAAATACGTTATTTAAGCAAATATACTG
ATAATGATGCACAGATGCTGTTTGTATACATTACTTTCCTCCTTTGAATTCACTAAGTACTGATTTCTTATTKGTGCCAGCGATCTTCAGAATTAGTTCT
GTCCCCTTCTGTATCATTGTGTGAGACAAATATCTCATATACAACTTTTCTAAAGATTAGAAGACTAAAATATGTGTCTATTGCCTCAAAGGCAGAGAAG
AGGTACACAAATGTGAATAAACAGTTAAAACATTAACAGATGTATTGGAAGAGTCCTTGAATACACATGTGATTGATATCAAGAAAACATTAGCTTTGTA
ATTCTGCCTAGATCGAACACTGATGGGCTGGCACTACAGAAAGATTCAGCTGCAAGTATTTCATGTAACTGATGGTGTAACGCAAAAACATTTCAGTAGA
TATCTTTCTAATAATTTGCCACAGGTGCTCAAATGCCTGGGAGCTAGAATTTCAAGGATTCAAATTGCTACTGTGATAGCTTCAGGCTTTGCTTCCAGGT
TTTTTTTTTTTTTTTTTTTTTTTTAAGCAGGCTGTGGCACATGTTTTTAAGAATTTAAGTCTGTTTATTGGTGATGCTGCAGTTTGCTTGATTACAGTTT
AAGAGGGTGACTGTAGTTTCTCAAAGAACCCAATGAATATGAACTCAGTTTACATCATTGAAAACTCATGTTCAATCTCTATCCTGTGTGTACTGTGTTC
AGTTATTTTCTTTGAACTTAACATTATTTCATCTACATTTCTATGTACTGCTTTCGACCCATTTACGTGTCATAGATGTCTTCTCTTTTGCCACTTCCTC
TCCTGAAGTTTCTGTCCTGGGTTTCTTCTAGAGTTCAACGTATATATAGAGATGCAGAGAACATCTTAGTACAAATTATTTTTTCTTTTTTTACGATATT
GGCGATGAGTTTGTTCTCCAAAGCAAAATAACCAAAACAAAATCAGAATTTTTATAGGTTTGCTGCATTTTGGGAGATCACACTCTAGAAAGATCAAACT
AATTTAAGTGCCACCAGCATTGGTTATACAGATTGATCATCCCTTATCCAAAATACTTGGGATCAGAAATGTTTTGGATTTTGAATTTTTTCAGATTTTG
GAATACTTACATGTACATAATGAGATATCACAGGGATGGGACCCAAGTCTTAAACATACAGTTCACTTGTGTTTGAGATACACCTTATATACATAACCTA
AAGGTAATTTTATGAAATATTTCTGATAATTCTGTGCATGAAACAAAATTTTAACTGCATTTTTGACTGCCACTGGCCACAGAAGTCATGTGGAATTTTC
CATTTGTGGCATCGTGTTGGTGCTCAAAAAGTTTCAGAGCATTTGGGATTTTGGATTTTTGGATTAGGGATGCTTAAACTGTATGTGTAATTTTCCCATA
GCTTATACGGTACCAGATTTTTATTATAATTTAGGTGTGTAATAACTTCTTACAGTAATTTTAATTTAGATTTACTTAGTTGGTAGGAAGTTATATATCT
GTGAGAGAAAATTCTTAATATTTATAATTTGAAAATATATAATGCACTGATTTATCATTTTGGTCATGGCAAACATTGGGATATATTTGTCTGCAAATAA
AAGAAAACTCGACTAATGGTGGTTGTATTAGTCAGGAYTATCCAGAGAAACAAAACCAATAGGATGTGCAAGTAAGCAGAAATTTTAACATACGGTAGAA
TTAAATTGGAAAGGAAACAAGGAAACTCATATATTTTGTGATGTTTACTATGGGTTACAGAATGTACAGTAAACACAAAAGCTAATATTTATTCAATACT
TTCTAGCTCACAAAACATTAAGTGTAAAATTTTAGCTATTTTAACTTTTCTTTTATCTTTATTTCACAGGCACTTACCTCCTGTATCTTTGAATCTTCTT
TATATTTTTATGTTTAAGAGAAAAAAGCCAAAAGTCCTTCCTGTATGGTGTGGATGTTAAATACCAAACAGTTTTATTCCCCTTAACATTTTGACCATCT
TCCTTCTTCCTTGCACTCTTGTGGAGTTGGCTGCTTTCCTTTACTTTGGAAGAAGCTACGTTTTTCTGACCCTGTAATGGTGTTCTTCTGAGATTTGCGG
ATGAACATAAGATATTAAACATATCGGTTGAGTTTTGTTCATGTGGAGTCTGTCATCAATATGGAATAGAATTCAATAATTTGACTTTTTCTTGCCTCTC
TTCTGCCATTTCAAATGAATCATAAAAATTAGGAAGGAAATTTAGTCCCATCTCCTCTCTCTTGAGCAGATTTCTTTTCCTTCTCTTTTTTTTTTAAACC
TGTGGGAGTTGGGAATATTTTAGTGCTCCCCCTTTGTGAATTATGGTGTAAATGAAACTTTTTGCTTTTGTGTTATTAATGACAGTTTAAAAGTCTGAGA
TGGATTTTCTCTTATTGTTGTTAATGACAGTATAAAAGTCTTAGGTAAATTTACTCTTAAGGTGCTAAATTAAAAAAAATTAATAAAGTCAATTGAAAAT
TTTCCAAGAGTTATTTTAAAGTTGATTTTTAAATCAAATAAGCTTTTCTATTAAGCAAAATAAGTGCTCTTTTAATTAGAAGCTTTAAAAAAAACTCTAT
GGAAACAAAAGACTATACCTTCAAAAGCTCACAATCTTTACAATTCCCACTTCCAGACCTTTTTTTAGGAAACATTCCAAGGCTTTAAACTATTTGTGAA
TAATTTTTATCTTAGTCAATGTGTTATATGCCCCTGCACAGACTTATATATTCTTCATTGAGATATATAATTGTCCTCTTGTTGGATATTTAACCTATAA
GCTGACACTCACTTTCAAGGATTGATTTGAGCTTTGCAAATTTTGAAATGCTCAGAAACATAAAGTGCTTGGTATCTTTTATAAGAAGCTAGTCAGAACT
GCCTGACATGAAGGGAGTTTGATTGATGTGTGATAATCAGGTGGGAAATTTCAAACTTATTTATTTAAGCACTGCATTTATTTTATGTAGATCAAAGGAA
AATATTCAGCTGGCTTCAAATGATGTCACTTTTCATAAGATACACAAGAAATTTGATGAAATTTGAAAAACTGATTAAGACTTATATTTGTTCATGTTCA
TTTTATATTTTGGGTGTACTATCTTGCAAGCACAAACACCAGCAGGCTTTGCTTTTACACATCTCATAAGCCAAGTCCATGGAAGTATAAATTTTTAATG
AGATAGATACTAGGATTCTCTCCTTAAAGGAAAATTGGAAACTTAGGATTCTTATTTTGACTTTTATAATAGAAGTTCTATTTGGGATATAATTCAGACA
CAATAAAATACACTCCTTTAACTTGCACAACTCTATGGATTTAGTATATTCACAGAGTTGTGCAACCACCACAACTAATTTTAGGACATTTCATCATCCC
AAAAAGAAACCTCATACCTATTAATATTCCACTCTCCCCTGCCAGTCCTGGGCAACCTAAAATTTACTTTCTATCTAAAACCTAAAATTTCCTTTATTGA
ATTTACATTCTATCTAGATCTGCCTGTTCTGGACATTTCATACAAATGGAATCTTGCAATATATGGTCTTTTTTGACTAGCTTCTTTCACTTAGAATAAT
GTTTTCAAGGTTCATCCATGTTGTAGCATGTACCAAATGTCATTTTGTATTGCTGAGTAATTTCATCATATGGCTATACTGCATTTTGTTTACACATTTA
TCATTTGATAGGTATTAAGGTTGTTTCTACCTTTTGACTATTAAAAATAATGCTGCTATGAATATTTGTGTGTAATATTTCTTCATGTGGGCATATATTT
TCATTTCGTTATAATATATACCAAGGGGTAGAATTGCTGGGCCATGTGATAAGTACATGTTTAACTTTTTGAAGAACTGTCAAATTGTTTTCCAGAGTAA
CTATGCCATTTCACATGCAATGTACAAGGATTCAAATTTCTCCACATCCTCCCCAATGCTTGTTTTTATCTCTTTTTGGTAATAGCCATCCTATTAGATG
GAAAGTGACATCTCATTGAGGTTTTGATTTGCATTTCCTTTATAGCTAATCATGTTCAGCATCTTTTCATGTAATTATAGTCCATTTATGTATCTTCTTT
GGAGAAATGTCTATTCAAATTATTTTCCCGTTTTCATAATTGGATTTTAAAATTATTGAATTGTTAAATATCTTTATATATTTTAGATACAAGTGCCTTA
TCAGATATATGCTTTGTAAAAGTTTTCTCCCATTCTATGGGTTGCCTTTTTACTTTTTGATGGTGTCCTCTAAAGCACAAAAGTTTAACATTTTGATGGT
TCCATTTATCTATTTTTTATTTTGTTGCTTGTGATTTTGGTGTTGTCTCTAAGAAACAATTTCCTTTCCCAAAGTCATGAAGTTTTGTAGTTTTAGCTAT
TACATGTAAGGCTATGATTCATTTTGAAATTGTTTTGTCTATGGCATGATTTAAGAATGTAACTTTATTCTTTTGCATGTGGATATCTGGTTTGCCTAGA
ACCATTTGTTGAAAAAACTGTTCTATTCTTGTTGAACTGTCTGGGTATCTTTGTTGAAAATGAATTGGCCATTCCTAGAAGGGTTTATTTCTGGACTCTC
AATTCTACTCTATTGGTTTATGTATCTATCCTTATACCAGTACCATGCTATCTTGGTTACTATAGTTTTATGGTAAGTTTTTAAATATGGAAGTATGAGT
TCTCCAACTTTGTTCTTTTTTTAAAATTCTAACTTGTTTTGTTTATTTTGAATGATTTCCATATGAATTTTATAATCAGCTTGTCAATTTCTTTTTTTAA
AAAAAGCAGCTGGAATTTTGATATGGATTGCGTTAAATCCATAAATCAACTTGAGGGGCATTGCCATGTTAACAATATTAAGTATTCTACTTTATAGACA
TGAACATCTTTCCATTTATTTAGATCTTTAATTTATTTTAACAATATGTTATAGTTTTCAGTGTACAGGTTTCACATGTTGGTTAAATTTATTTGTTCTA
TTTTATTGTTTTTATTATGAATTACATGGATTGCTTAGTTAATTTAATTTTCAGATTACTCTTTGCTATTGTTTTGCTTTTGCATCGTTCATTGCTGCTG
CACAATTGATTTTTGTRTGCTGATCTTTTATCTGCTAACCTTGATGAACTTCTTAATTAGTTCTAATCGTTTTGTGTGTGTATGTGTGTTCCTTAGGATT
TTCTATATGTAAGATCATGTCACTCTTTCTAGAAATTTGGCTTTGATATTAAAAATACATTAATATAAAACTAAAGAATTAGTTAGAATAAGATTTTGTT
AAAAATATTAACTTACTCAAAAAAAAAGATCATGTCATCTGTGAAAAGAGATACTTTTACTTCTTCTTTTCCAATATGGAATTTAAAAAATTTTTTTATT
ATTTGATTCCTCTGGTTAGAATCTCCAGTAAAATGTTTAATAGGAGTGGGGAGACAAACATCCTTGGCTTATTTCTGATCTCAGGGGAAAAGCATTCATT
CTTTTCCCATTACATATGATGTTAGCTGTGGGATATTTGTAGATGCTTTTTATCAGATTGAGGAAGTTCTCTTTCATTAGTTTGATTAGTGATTTTATCA
TAAAAAAGTGCTAGATTTTGTGAAATACTTTTTCAGCATCTGCTGGGATAATCATGTGGTATTGTCCTTTATTATATTAAAATAGTATATTACATCAATT
GATTTTTGGATGTTAAATCAACTTTGTGTTCCTGGGATAAATCCCATTTGTTTGTGGTATATAATCCTTTTTATATGTTGCCGGTTCTCTTTGCTGGTAT
TTTGTTAAGGATGTTTTGCATTTATATTTATAAGGGATTTTTGGTCTGTAGTTTTCTTTTCTTGTGTTGTGATGCCTTTGTCTGGTTTTGATGACAGTAA
TGGTGGCCTTGTAGAATGAGTTGAGAAGGGTTCCCTCCTCTTCTATTTTTTGTAAGAATTTATAGAGGATTGTTATTAATCTTTAAATCTTATTTAGATT
AGTTATGGCTTCCTTGGTAGTTTACCCTTTGCTTTTATAAATTGCAGAAGGGGCTTGTAAATGGGGACAGGACGGTGGTGTTTGTGCTGATTGGTCCCTT
TACAATAATTTTACTACAGTGAAAGTAGAGGATTTTAAATAAAACTGAGTCTTCATTTTGCCTCCTTCTATAAAACAATGATAGATGCTCCACCATTGGA
AGACATGCTTAGTTGCAGAAACAAATTCAAAGGTTTTTATATCTTAAATTAAAATTAGAAGATGCCTTTCAGTGCCGTCTCCTCAGCTGAGCCATGGGTG
CATGCCCGGCTCACTGTCCCCACTTTAAGAAGTCTTACCAGTAACCTATAAGTACAAATCTGTCTAGAAACACTACTTAAAAGAGCCTGTTAAGAAGTGT
TATACTGACCTTCTCTTGGGTAAGAGCCTAAGAACAAGGAGAGTTTGTTGAATCCCAGACATCACGTAAGGTAATATGAATAATAAATATTTAGATTGTC
TTCCTACATGTTGCAAGGTAATTTTTGGTCATTAATCACTCCACTRGCTCAGTGGGAAAAATTAACACCAAAGAAGTAATAACAACTAATTTTTACTAAG
TAATTACTATGTGCCAAACACTGTCTTAAATCCTTTATGTATACTATCTCTTTTATTTTTCATAGCAATATTATGAGGTCAATGCTAACATTATTCTCCA
CTTTACAAATGCGGAAATTTAGAAACAAAGAGGTAATCTTAGTTGCAAAGAATGCTGGAGCTGGGATCCGACCTAGGTTAAGTGACCCCAGAACCTGAAC
CAGAATTTGGAATAGATTATATGCATCCCAGGGATTTAGACTCAGGGTCTCTGTATTCCAAGTTCTGGGTTTGGAAGATAAGTCTTTGTACTCCTTTTGA
TGAATAATAAAATTTGCAGTCCACCTTTTCTTTTCTTTTTTTTTTTCTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCG
GCTCACTGCAAGCTCCACCTCCTGGGTTCAAGTGATTCTCCTTCCTCGCTATACCTGTAATCTCTGGGGATTACAGGCATGTGCCACCACACCTGGCTAA
TTTTTCTGTATTTTTAGTAGAGATGGGGTTTCCCCATGTTGGCCAGGATGGTCTTGATATCTTGACCTCATGATCCACCTGCCTCAGCCTCCCAATGTGC
TGGGACTACAGGCATGAGCCACCATGCCCGGCTTGCAGTCTACTTTTTAGAAATGTTCATAGAGGGTATACTCAGATGGTACTAATCACTTGAGATTAGA
CAGTCTCTGCAGGGATAATTGAATAAGCAAGTTAATAAAATAAATATTTAAAATGCATTGAGTGATTAATGTGTTTGAGGGTAAGTGATTTAGTTGTATA
ATTAATTATTTCTGCAAAATAACTCTATGAAATGGTATTATTATCACTTCCATTTGTAGAAGACACCCCTGAAACAAAGATGTGGGTAACTTGCCCTGGG
CCAGTTAGCAATAAGCCCAGATTTGAACCCAAGCAGTCTTGTTCCAGACCTTCTGTTTTTAACAATTCTACATTGCAGTTTCTCTAAGTAAATAGTCACC
YGAAATATGGCTACAACAATACAGTCACACCAAGAATGTAGTTAGAGATAAGAATGCATCATTGTGTTTGTGCATGTGGAGACTGGAGCTGCTTCTATAG
GAGATAAGCACCAAGCTATCATCTGTTGGAGAGAAATGTGTTGTGGGTGAAAGGAGGAGGAGGGCTGTTCTGTAAATATGAGACAAGCTGAAACAAATAT
AGAAATATGAAAAGAAAATCTGATTTTCAAAAGTGAAGTTTTTAGCCTATGCTTTAACAGAAGATAGGAATAGACTGTGGCACGCACTTGGAAGCTGTGA
CAGTTTGGTCCTGAGAGCACTGTGGTGTGGGAGGGTTAGGAGCCACACCTCAGGGGTGAAAAGGAACAGTTTGAAAGGGCAATTTTAGAAAATGACTTTG
ATAAGCTCCATTAGTAGATACAGAGGTTGAATCAACAGATTAATATAGGCTTCAATTATAAGTGTTTCTATGAATATAAGAAGCATCTAGAAATTAACAG
GAAAATATCTGACCAGTTGGGATGGTATTTCTCCTTTAGTGCCAAAAGTATAATAGTTTTTTTTTCTCTTGTGGCAGTAAAATTAAAGGCCTGGATTTAT
TCAGCAWCTTTTCTTTATGAGAATAGGAATATATTCCCAGACATTGTTCTACACTTTTCCTGCGTGGTGTTCTACCACCAATGTGGAGTTATAGATTTAG
ACCTCTGTGTTTGGGTGGGAAGAGAGTAGGCCCACTGGCAGGCAGTAACCACAGAACTACATGTATCTGGGCCAGTTTTATTCCAGACATGTGGATCTTC
TGGTCTGCAGCCTTGACAAACTTCAGAGTTCCCTTGTCTCCTTGTACAGATGTGTGTACCTTTTGATCATGAAGGCACTATTAATGTCCTTCAGAGTTTG
TGTCAATTTGCAACTTTGAAGGATATCCAAATTATCAAATAATTTACATATGATGATTATTAAATTGAAGTTTCTAATTTATTCTTAACAAAAAATAAAA
ATTACATTCACATCAAAAGCAAGTAAATCAATACTTCCCACATTTCCTGTTTCCCAGATGCAAACAAAGATAAGTGGAAGTTAAATATCAATATACAGGT
GCTTTCAAAAAAGTCTTTTGGTCTATTTCCACTTTCAAGGTAACCTGGTGGCTTCTTCTCTCAAGTCCTCACACAGGTATTCAGGAATACCAGGATGGYG
TGCCCAAGATTCCAACAGCCTGTATTACGGTGGAAGATGCAGAAATGATGTCAAGAATGGCTTCTCATGGGATCAAAATTGTCATTCAGCTAAAGATGGG
GGCAAAGACCTACCCAGATACTGATTCCTTCAACACTGTAGCAGAGATCACTGGGAGCAAATATCCAGAACAGGTGAGTGAAGGAGAAGGCTGGCCTAAG
AATACAGTTTCCTGGTCTAGTTTGAGTTATTAGAGATAGTTTGGGAAAGAGAGAACGTGAAACCACCTAGATGGTCCTCATAGATTCRTTGAAGGCAGAA
GCTTTATATATATTTTTTCTCATCAAAATTTTACCATGTTTACCATCTCACACCAGTCAGAATGGGTATTACTAAAAAGTCAAAGAATAATAGATGTTGG
TGAGGTTGTGGAGAAAAAGGAACACTTATATGTTGTTGGAGGGACTGTAAATTACTTCAACCCCTGTGAAAAGCAGTTTGGAGATTTCTCAAATAACTGA
AAACAGAATTAGCGTTTGACCCAGCCATCTCACTACTGTGTATTGTAACCAAAGGAAAGTAAATTGTTCTACTAAAATGATACCTGCACTCACATGTTTA
TTGCAGCACTATTCACAATAGCAAAGACATGGAATCAACCTAGGTGCCCATCAATGGTGGGCTGGCTAAAAAACAAATATATGGTCATATATATATATAT
ATATATATATATATATATATATATATATATATATATATACATMCCATGGAATACTACCCAGCCATAGAAAAGAATGAAATCATGTCCTTTGCAGCAAGAT
GGGCACAACTGAAGGCCATTATCCTAAGTGAATTAATACAGAAAGAAAAACAAAAAGCATGTTCTCACTTACAAGTGGGAGCTAATCATTGGGTACATGT
GTACATAAATACTGGAAGAATAGGCAATGGGGGCTCCAAAATCGGGGAGGGAGAGAGGGAAGCAAGGTTTAAAAAAACTACCTGTTGGGTACTACATTAC
TCTTTGGGTGACGGGTTCAACTGAAGCCAAAACTTTAGCCTCACACAATATGTCCATATACCCCCTGAATCTAAAGTTTAAAAAATAAAAAAATAAAAAT
TTTAGCACATTGACTGAAGAAGGGCAGGAGTAATTGAAGGACAGAATGGTATTCGTGATGTGGAAATTCAACCTCGGAACAATTGAGAGTGGTATTTGTC
CACGTGTTGTATTTATTCCATTTGAAGCTAGCCTGGCATTTGAGATAAAACCAATAGTTAATACTTATTGTGTTAATTATCTTATTTAATCCTTTCAAAG
CTTAGTGAATTTGCATATATTTTCTGTATTAGTCCATTCTCACATTGCTATAAAGAAATACCTAARACTGGGTAATTTATAAGAAAAGAGGTTTAATTGG
TTCACAGTTCTGCAGGCTGTACAGGAAGCATGGCGGCATCTGCTTCTGGGAAGGCTTCACAGAGCATTCAATCATGGCAGAAGGCAAAGGGGGAGTGAGG
TGTCTTAGATGGCAGGAGCAGGAGCAAAGGGGAGGGGAGATGCCACACACTTTTMAACAACCAGATCTCATGAGAACTCGCTAACACAAGAACAGCACCA
GGGGGATGGTGCTAAATCATTCATGAGAAACAGCCTGTATAATCCAATCACCTCTCACCAGGCCTCACCTCCGACATTCGAATTACAATTCCACATGAGA
TTTGGGCAGGGACACAGATCTAAATCATATGAAGTTTCTTCATTTTATAGGTGAGAAAACAAACCTAGAAGGAAACTCAATTACCCAAGGTCCACACAGC
TAAGTAGGCAGCTAAGAAGGAATTCAGACCCAGGATCTTGTGAATATTAAACCAAGCTTTAAACCACAGTTTATGTGCAGTTTCCAGAGTTCATGAATTT
ATCTGCAAATAAAGGGATGGTATGCAAGTAATTAACAGAATTATTGTGAGGACTAGATTAGGTAAGGCACATCAAATAGCTTTGTTGAGTGTTTGGCACA
TCACAGCTCACTGAATGTAAGTTTCCTTTGTATGGCATCAAGTGTGCAATAAACACTTTTTATAAGGTTTCTGGTGCAAATCTCATGCATTTGTTATTGA
AATTCTAGAAATGGAACTTAAAAATGTTATTTAGAAATTTCAGACTTGTATTTTATTTGACAGCATCAGTGGGATGAAGGAAAGGGTGAAGAGTGATGGC
ATTTGGTGATGGAGAAACAAGTCTTATGCACATGACTTCTCCCAGACTAAGGACTGGGAGACTCAGGACTCAGGACTTCTCCCAGACTTGAGGGCTGTAC
TGCAGTAAAGATTCATTTTAAGCTCAGGACTCTTTTCCCTCTTCTAAAATCATCTGCTTCAAGGACCTGGGCATCAACCATGGCTTTTGCCACAGGGATG
ATGGAAAACAAGAACTCAGTAGAATCACAGGGAGTCAGACAGCTGTAGAGAAACGGTGGTTTCAAATAGACAAGCCCAGCCCCTTGTCCCTTTAAGAAAC
TGATAACAACAGAAGAGCCAAGAGTCTATATTTCAGATGCTAAATAGTCAGATGCCTTAAAGTGTAATCCTTCCCAGGTATTTTCCCCAGTCAGTAGTTC
CAGGGTAAAGTTATGTCATCATCAGGTAGCTAGCCCAGGGCTTGAAGGGTTTAGGATTATAATACTATCGCTGTTTGGTCGAGCAGGCTGGGTGAGCTGG
CCTAAGGTTGTGGGCAGGTGGGTGGCAGGGTGAGAGTGAGTTATTGGGATCCTTAGTCTGTAGCAGCTATGGAGTCTCAGAATCTGAGGCTGAAGTATTT
AGGCAGAGGAGTTCTTGAGAGCCAGAGGGCTGAGATAGTGCTGGCTCTGACAGCTTCATGAGGGACATTAACATCTTCTGGCTAGGAGRGCTTGGGCCTA
TTTGTCAGCTCAGCCTGACTCATTCTTTTATTTTTTAAAATCAGCTGAATTGAGGTATAACTTATATAAAATAAATCAACCAATCTAATGTACAATTTGA
TGAGTTTGGAAAATGTATAATGTAACCACTACTACAATTATAATATATAATATTTCCACCACCCAAAGTTTCCCTTGAGTTCCTTTGTAGTCCATCTCCG
ACTCTACCACCCTGCCCTGGCAGCCAGTGATCTCCTTTCTAGAGCTATAGTTGTTTTTTAAATTATTATTTCATATATAAGTGAAATAATATAATTTGTA
GTCATTTTCTGTGAGGCTTATTTCACTCAGCATAATGCTTTTGAGATGTATCCATGTTGTTGATTCAGTTGTTTCTTCCTTTATATCCCCGAGTAATATT
TCATTGTACAGATATATGACAATTCGTTTATCCATTCAGCAATTGATGGATATGTGGGTGGTTTCTAGTTTTTGATTATTGTGTATAAAGCTTTTGTGAA
CATTCTTGTACTAGTCTTTCTGTGGACTTAATGTTTTCCTTTCTTCTGAGTAAATATCTTGGAGTGGAATTGCTGGACTGGCCTAAATTTAAGTACCCTT
CTCTCTGTCAAGATGCTTCACTCTGTATTTTGTCGGGGTAGCACCTTCTCCCAGAAGGTAGATGGACAATTTCAGAGCAATCATGAGATTTAGGATGTTG
CCTAGAATTCCAAGAGTTGATCATAAATACTTTGTTACCAAGATGTAAAAGGTAGAAGTTTAACAAAACTTCTTCCACAAAGAAGTAACAGCATTACTTT
CACAGAAAAAAATGAAAATGAGGACAGTAAAGTCAAGTCTGTGGTTGCGTTTTGTGGAGGGAATCTGCATTCTAGCTGGCCTGGAACCGCAGGGGACATA
CAGACTATGAAGGCAAGCAAGAAGCATGAAGTCCCTCTGCAGGTGTTAAGTTGACTAATGAGCCTGAAAAAGAATGGCCTTATCCCCAATAAATGTCGCT
TCTTCCATGAAGACTGCTTTGATAACATTCCCCTCATCCCAACACTTCATGCCACTGTTATGGTGTCATCTCCTAGCAGAACTTGCAAATGCCCTGAGAG
CAGGCACTCTGTTCACTCTATTTCCTTTCTTTTCCTTTTTCCCGCCCTAATGGCTATTTCAGGAACTTGGCATGCAGTGGCTTCTCAACACATGTTTTAT
TTTGGTAAAATGAAGGAGTAAGTAAGAAAAAAATGGTTGGAGGATGTTACTAATCTTGATCCTCTTTAAATCTGGAAGTTTTACTGCCCTTTTAGAATAC
CAATTGTTCATTGGCACATTGAACCTCATCCCTGAATGTAGTGCAACATGTCCAAATATGAACACATTGGCTCCCTCATACCTGATTTTTTGTCTTTGTT
TCTTGTTTCTATTAAATGAACCATATTTATCTAACAGCAAAGTTATAAAACTTCAAGTTAATTTTCATTCCCTCTCCTTTATCACTGTCCTACAGTCAGG
TATCACATCCTATTCAGTCTATTTTCAGCATATTAAAAAAAAATTCTGTTCCTACCTTGCCTTTACTGCTACTACTGCCTTAATTCAGGCCCTCACTATT
TCCCCCCGATTTTTTTTCTTCTGGTCTTTTCCATACTTCTTTGCAATGAGGCTCAAAGTTATTTTAAAACATTTGATCTCAACATGGTGATTCCCTGCTT
TCAGGTCCCTCTCTCCTGTTTCTTATAAGATAAAGGTTGTGATGAAGATAAATGCTGAGGTGAGTAATCAGAGGTGAGCAGAAGACAGAGAAAAAAAGAC
AAAGAGAGAGGGGAGTCAGGGTTAGATAAGAGGCAGTTATAGTAAGAAGAAATTATATGGTACCATTCATAAATGAACAGAAAATGAGAATGAAGAAAGG
GGAAAAGGAAATGTATGATGGTGAAAGGCAATGTCTGGTGGAGATTCAAGGTCAACTGAGAACTGATCTTTCATAGGCCAGGGAAGGAGTTCAGTTCCAA
AGTCTAGCAGACTTTCCTAAAATCATTCATTTTTAAGTTATCAGTAATGCTAACAKTAACTTAAAAGTTGGTTTTTATAATTTAGGTTGACTAACTTCTG
CCTGACACAACCTTGCTACTTTGCTCCATAGCATACTAAAGAATAGTGGTGCTAAATAACTTATAAAATTAGCTGCAGTGGAAATTATCTCTATAAAAGG
AGAAGGTCTGTTGAAACTATCATTATTCTGCCTGCAGAATAATGCAAATATCTTTGGAGACTTGAAAGTAGGCAGAGGGGAGGAAAGTGGGTATCTTAGT
CTGTTTTATGCTGCTATTGAAGAATATCATAGAATGGGTAATTTATAATGAACAGAAATTAGATCAGAGTTCTGGAGACAGGGAAGTTCAAGAGCATGGC
ACCAGCAATTTGCAAGGAACTAAGGAACTTCATGCTGCATCATCCCATGGCAGAAGGTGGAAGGGCAAGAGATGGTGAGAGCAAGAGAGCAGGAGGGGAC
CAAACTCCTTTTTATAACAAACTCATTTTTGAGATAATTAACCCATTCCTTTGATAATCATATTAATCCATTCCTGATGGCAGAACCCTCATGATTTAAT
TACCTCATATTAGGCCCCACCTTCCAGCAATGTTGCATTGGGGATTAAGTTCTCAACACATGAACTTTCGGGTGACATATGCAAAACATTGCATGGACTA
ACACTAGGCAGTGGCTAATAGATATTGTTCAGTAATAACACCCAGTATAGTTCCTTACATCTCATCAACCATGCAGAGAACCTTAATAAAAGTAAAGCAG
TTAGCATGTAAATAATCCTTCCATTTTGGCCCAAAACCCATGGGCAAAATGTGGTAAATATCAGCTTTAGAAAAGTGTATATGTGATTGATAAAGTATTA
GTACATTTCAAAACCCTGTTGCATAATTCATCCATAAGCCTGGACCGAATTAACCACAGGCTTTAAAAAGATGCCAATAGGCCAGGCGTGGTGGCTCACG
CCTGTAATCTCAGGGAGGCCGAGGCGGGCAGATAACTAGGTCAGGAGATGGAGACCATCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAAATACA
AAAAAAAGTTAGCCGGGTGTGGTGGCGGGCGCCTGTAGCCCCAGCTACTGGAGAGGCTGAGGCAGAAGAATGGCATGAACCTGGGAGGCGGAGATCGCAC
CACTGCACTCCAGCCTGGGCAACACAGTGGGACTCCATCTCAACAGAAAAAAAAAAGCCAATAATGAAAATACTTTATTGGGTTTCACTTTGTGAAAATA
GCAGAATAGGGGTAATATATACCTAAAATCTACCCTCTTTCCAAAAAACCGATGGTGGCACATTCTGGCTCCTCTAAGCCCAGAATTCTCTCTCCACTCT
GACTTCCTCAGAAACTGTACTCTTCTGTGATTTGGGCATGTTTTGCAGGACCCAGAAGATCTTGGACAGTGTGCATGAGTGCACTTCACTGGGGCTAAAG
CAGTCCTCTGGAAGCTCTGACATTAGCCTCAGAACTGCATTCTCTCAAGACAGCTTTATCCCTGGGAAATCATGGTATATTTAAGACCCATCTATGGTTG
AGAATAAATCCGAGTAGGTGAAAATGAGCGCTTTTTGATTTCTGAGCTGATACTTCATGGTACTAAAATAGCAATATTATTTCTACCCCCACTTATCAAG
GAACTACTTTGCATTTGAAAATTCAGAGGAAACTTCTTACCATCTGTGAATAGGTTTTATTTTTTGTTAACTCTATAGAGGTTATCCTAACAATTAAAAT
AGTCTTAGAGGCAGAGACAGAGAGTAGGGATCCTAGAGATTTAGTACAAACTCTATGACTTTCAGATTAGGAAAATTGACCAAGGAGAACTTGTCCAAGG
GGACACAGCAAATATGTGGTACAAACACATCTGGAACRTAACTCTAGATTTCTGGACTCCCATTTCTTTTAACCTCTAAGAGATTCCATTATGCCTGGGC
ATGCCTTAGTTGAATGGTGTATAAATTTGAGGGCTATACATTGATTCAGGATATAGGCAGTTCCATCCTTACCAAGTCATTTTTATAGGAGAAATTGTAC
CTTTCTCTCATGCTTTTTCTCCTGACATCTTTTCCCTAAGCACAAAGAGTTCTCATATCTACCGTCCTTTGTCGTCTCAGAGTTTCCTTAGAGCACCCCT
GAAGGAGTTTCACCTGGGAAAGTCGCCTGTGCTTGATCCATTGATTTTATGTATCCTCCCTCTAAGTCCTCCTTGGGTCATTTCTTTTTAGCTCCTTGTC
ACTTTGGAAGAGGATCTGATGAATGCATCACTTCTGGGGTGTTAATGACTCTTTATGACGCCTTGTTCCCCTGTGCCTCTTTTCACACCCCTTCACCAAT
CAGCTACTCAGGTCCATCTTTATCAGAGGGCAACAGAAAAAGCCAAAATAGATGCACTACTAATCATATTATATTGTAAAATAAATTTTTTAGAAATAAT
TTTAGACTCACAGCTATTGTAAAAATAGTGCGGAAAGTTCAAATGTATGCTTTGACCAGGCTAACATGATCAGTGATAACATCTTACGTAACCATAGTAC
ATTAACCTGTTGAGGACACTGGTGAGAGGAGACTCCTGAGAGCGAGCTGCTTTCTTGGAAAGCGAGGGCTGTCTTGTGGGCATCTCTGTGTAGCACCCAG
TGCAGGGTGGACCTGCTCTGACTTTAGCCCCCTTAGTCTTTTTCCAGTTTTAATTTATGATGCTTTCATGATTTTCCACAAACAGATGAACAAATAAACA
CAGAAGGAAGGTTGTGCTTGAATTGACCTGACCAGAGGACAAACTGATCCTAAACTGGACTCTCTCTCACCAGTAATGGATTCTCTAATGTTGACTCTTG
GGGCTGGCCCATTTCTTTTGATCCCCAGCAATTTCCTAGGTCTTATTTTGAGGTTTGCTTAGTAAAGGCAATATTTTTAAAATGTTAATATATTCATGAA
TTATTCTGAAGTTATTGTATGGAAAGGAAAGTGTTTGGGATTTTGGAGTGGTTGGCGGTTGATGGTATTCAAACCCATTTTGATAAGGCCTTGATGCAGT
GAATTTTTTTTTTAACATGCCTTTTTCTTACAGCAGTTATTTTCATGCATTCAAAGAACAAATTCAGTTTTATATGCCAGTATTATTTTAAATATAGTAC
AGTACTGTGAAGGCTAGTGGGGAACATTGAAATGAAAACTCTAGTTTGTTAACTGAACACTTCACTTTCTTTTTTCAGTGTGGGGCAGGATTTCTCAACA
TCATCTCTGTTGGCTCTTTGGATCAGATAATTCTTTGTTGTAGGGGGCTGTCCCGTGCATTGTGGGGTGTTTAGCAACATTCTTGGCCACTAACCACTAA
TGTCACTTCCTACCCCACACCACACCTCCTGCAGTCTCGAGCATCAGAAATGTCTCCAGACATTGCCAAATGTCCCTTGGGGGACAAAAGCCACCCCAAG
TTGAGAGTCACTGATGTGGAGTAATGGAAGGAAGACTAGATGGGTGTTGTGAGGCTTTGGTTCTGGTTTTATTTCTGGCACAAATAAGCTGAGTGGCTTA
ATCCTTCATCTATAGAAGGAGGAACTTTGTCTGAAAAAGCTTGAAGGTCATTGCCAGCCCTAAAATTCCTTTATTAAAAAAATACTGAAAGATGAAAAAA
AATACTTAAAGATGAAATTTATCATCACACTAATGGTAAATTCTGTGTACTGTTAAATAGCAACAAGACGTCATGGAAGCCCTTTCTAAAGCTGGTGCTG
GAGAAAAGCATTATTTACAGAGTAAGGGTGTTGCTGTTTTGTTTTGTTTTTAAATTCTGTGTTCGAATACAGTTGGGAACTTTCCTATTCAAAAAGTTAA
ACAGGCTCCCTTTTTCTGTGGTACTTCTTAAGCCTTTAATGTGCTGATGTGCACTGGGAATCTTTAAGAGGTAGCTTTGCAGTATTCTGCAAATTTTTGA
TCATGGAACACTGTTTTCACAGAGTATCTTAACATAAAACATTTTGTGAAACAGTAGGATGAGGCATGAGTTTTGCTGGGTAGATTATGTTTTAGTGTTT
TTTATTATATTCTTTTTAAATTGCTCTTACATTAATTCAGCATCTATTTAYTTATTGGGTATTGGTATGTGTGAGGCACTAAGGTTATAGCAATAGCATG
GGGTGGGCAGTATGCTCTGAGCATAACCTGTAAAATTTGCATCCTGTCTCTTATATTTTGTTGGTAGACTATTTTGCCTTTCTGGATGTAAACATCAGCC
TTTCCTGAAGATGGGAGAACTTATGCAGAAGTTGAGAAATAGGAGAGGCCCATTAGGAGGGACAGCCCACGGTGGGTCTGACATGCCATGTGAAGGGCCA
GGGCTTTGTCCTGTAGGCAGCGCGAAGGCACTGTAGAGTTTTAGCAGTGGATTTGCGTTTTAGCAGTGGATTTTCATTTTAGCTTACTCTGGCCACTGCA
TACTTTTGAGTAGGCAAAGACTGAAATTCAGCCAGAAGATAATAGAGTTTAAACCAAGACAGTTGAAATAGTGTTGGAAAAGAGGAGAAGGATTCAGAAA
ATGTTTGGAAATAAAGTTGGCAGGAGTTGTTGAAGTTTGGGTATATGAGAGAAAAAGAGGTAGAAGTGCAGTTTGGGTGAGTAGGAGAATTCATCCATTA
ATTCTACAGGAATTTATTGAGCTCCTACTTTGCTGGGTGTATTAGGGTTCTCTAGAGGGACAGAACTAATAGGATATATGTGTATATGAACAAGAGTTTA
TTAAGGAGAATTGACTCACACGATCACAAGGTAAAGTCCCATGATAGGCAATCTGCAAGTTGAGGAACAAGGAAGCCAGCAGTGGATCATCCCGAGTCCC
AAAACCTCAAAAGTAGGGAAGCTGACAGTGCAGCCTTCAGTCTGTGGCCAAAGGCCCGAGAGCCCTTGGCAAACCACTACTCTGAGTCCAAGGGTCCAAA
AGCTGAAGAACATGGAGTCTGATATTCGAGGGCAGGAAGCATCCAGTACAGAAGAAAGGTGGAGGTCAGAAGACTTAGCAAGTCTGCTTTATCCTAGCCT
CACTGGCCATTGCTTAGATGGTGCCCACCCAGATTGAGGGTGGGTCTGCCTCTTCCCGTCCACTGACTCAAATGTTAATCTCCTTTGGCAACACCCTCAA
AGACACATCCAAGAATAATACTTTGCATCCTTCAATCCAATCAAGTTGACACTTAATATTAACCATGACAAGTTCACCCCTTGTCAACTTGAACCCATAC
ACATCTCCTGAAATCGTATATAATCTCCAAATAAAGACAATAATTATGCCTAATATAATACAGCTATCTCTTGTGCAACCCGGAGCACACTAATTGTTAA
CCTAAATGCTATTACATAAAGTTAACAATACTTAAATACTGATATGAAGTCAATAACTCTTACGTCACATGACAAAGGAAAAAGAAAATGAAGATATTTT
CTTAGTGCAAGTGTATACATCTACATATTCTTAACAAAATTAGGAGGAAATATTCACAACAATTACAGTCCTCTTTCTGTAGCTGGTCACGTGGTTGTAG
CTGGTATTGATGACTACCTTTTTCTACTACCTATTCTGTATTCCCTTTGCCTTCAGCAAGCACCTCAGTGGGTCGTAGTTTTTTACTTGGTGTAGTGACC
CAAACCTTCACTCCTGAAGGGTCTGGGCCATTTGTAGTCATGCCTGGATTGGGTTGTTGTAGTTTCCCATTGACCATAATCACAAGGCATGGTAATACTA
AGAGATGCCGTAAGGATCTCCTGTATTCCATGCATACTCTTCCTTACCTCCATTATGGGATAATAGACTAATTTTATCTTGATAATCCGGATCAGTTGCC
CCGGCCAACACTGTAACTCCCTTCTTAGCCTGTTGACTTAGAGGTAGGCAGAGCCCAAAGTGTCCAGATGGCAACCTTAACTTCCAATTTAATAGAATCA
TTGTTGTGCCTCCTGGCAACATTCCTCCCTCTGGAACTAAGACTTCTAAGCCAGCAGAATATAATGTAGCAGGAACAGAAAACAAGAATTTTGCTAGTGG
GTCACTAGGGGTGATGGTGAGTGATGCCACTTCCATTTCCACCCCTTGTTTTTTGGACCTGTGAATCCTGGCTATGGGAGAAACAGTACCATGTATTGGA
TGCTGATTCAGATCATACACAGCCTTCTGGAGAACTTCACTCGAGCCCTGCAAAGCCCTGCAAAGTATTGTCGCCTAGTTGGCATTGTAATTGTGACTTC
AAAAGTCATTCCACCATTCTATCAATCCAGCTGCTTCAGGATGATGGGTAACATAGTAAGACCAGTGAATTCCATGAGCATGCACACATTGCCACACTTT
TTTAGCCATAGAGTGAGTGTCTTGGTCAGAGGCAATGCTGTGTGGAATACCATGACGGTGGATAAGACATTCCATGAATCCATGGATGGTAGTCTTGGCA
GAAGCATTGCGTGCAGAATGGGCAAACCCATATGTCTATTCCGGTGCAGACAAACTGCTGCCCTTTCCATGATGGAAAAGGTCCAATATAATCGACCTGC
CACCAAGTAGCTGGCTGATCTCCCTGAGGAATGGTGCCATATCRAGGGCTCAGTGTTGGTCCCGGCTGCTGGCAAATTAGGCACTCAGCAGTGGCTGTAG
CCGGGTCAGCTTGGTGAGTGGAAGCCCATGTTGCTGAGCCCATGTGTAACCTCCATCTCTGCCACCATGGCCACTTTGTTCATGGGCCCATTGAGCAATG
ACAGGGGTGGCTGGGGAAAGAGGCTGAGTGGTGTCCATAGAATGAGTTATCCTGTCCACTTGATTATTAAAATCCCCCTCTGCTGAGGTCACCCTTTGGT
GAGCACTCACATTGGATACAAATATTTTCACAGTTTTTGACCACTCAGAGGTCCATCCTTAAAATTTTGTATATACATATTATCCCATTATCAAATATTG
TCAAATTGCCCTCATAGCACCATAGCTGCATGGTAAGATGGGCAATTAAACAAGCAACAGTGATAGAAGGTGGTAAGTGCCACAGTATGGCAGCTACATG
CTTCTATAGGGGCTCATTTGAGGGCAACCGTCCTGGTCTAGGAAGCCAAGGATGGCTTTCTGGAGAGATTCAGTTTATTCCTACTAAAAAGAAGATTAAC
TGCATGCTAGAGATTATAAGGATGGGGTTGGGATGAGGTATATTACAAGCTGAGGAAGTACATGTGAAAGCCTGAAGAGTAGTGTTACTCTTTTTTTTAA
GAAACGTGATGTGACTTCCTTTAACTTCTGAATTCATTTGCTAATGAATCCTGTTTTTATGGAGTTATCCTGTAAAATAACCCAAAGACAAAGACATGGC
TTTTTTAATGTATATGTGTTTTTAGAAATAAATCATTGAAAAGCTCAGTAATCCCTTTGGARAACAGCTTTAGCATTGATGCTGTCAAGACCCTTGTCAA
AAGAATAAACCAAACCTGATTGGCCTGGTGGATAAACTCATTCCATACATAACTGAATAGTTAGAGACTGTACAGAAATGCAGTTTTGCCTTTCATCTTA
ATATGTAGTCTGATGATTTGTAAAAACCTTCTTAGTGGGAACAGCAGGTTATTCTGCCTGGGTGGGAGCCTTTTTACTAGCTTAAGCAGCTGTTTAAACT
TTCATAAGCAAAGTAATTATTAAATGTTTCATGAACATATTGGTTGGAACGTTTGTTCACATTTTAACCTTGAGTTGGAAAGTTTCAGGGGGGTGGGGTT
AAAGAGTTTTAAGCTGGCAAATTCATTCTTTTTTTCTTTCTTATTATAAACTTTTTATGGCTTAGAACCAGCCAACCTAAATCATGGAAGGAAAAATACA
TGTGTGGCAAGCATGAGACATTTCATTGTTTATTTTTCAAATTTCTGAAATGTGCTCATAGCTGTGCATGCCTCTGGGCTCATAAAGACAGCAAATGSAA
ATAGCTGAAGCCAGACAGACTGTTTTAGATAGATAGCCACCCAGGTAGGCAAGGAAAACCTTGTAGGTTACTCTTTCCTCCAATCAAGTCATATTAATTT
GCCAAAATGGGATTTTCAAGCAGGAGGATGTGATCTTTCATAGGTCTGAACACCTTGCCTTTTTCAATGATGGAGCCATTTAATAATAATCATAATCAGA
AGATGAGGAATAATATACATTTATAGAATACTTAGTACATGGCAAGTGTATATGACACATAGTAGTCTACGTGTTTCTCATACATTATCTCCTTTAATGT
TCACCACAACCTTGTCAAACAAGCAATGCTGTTATATCCATATAACAGATGAAGAAACGAAGGCTTAGAGAGGTCACAGAATTTGCAAAGCTTCTGAGTG
GCTGAGCTGGGATTTAAATTCATCTGTCCTATCCAAGAACAATTCATTATCCTGTACTTCTTAGTGCCTTTTTATTCTAGTTTGTGAAGTGCTGCTACCT
AAAGAGTTTCCCATTTTACTCTAAATGAAAAAGAAAACCAGGACAACCATCAGCATCAACAGCAACTAATGCTTGTTGAACAACTACTATGTGCAGGACG
CTATGTTATAAGCTTGGGAAATATTCTGGGATGAGAATAAAGAAGATAAAAGGGTCCTTGCCCGTGGCTGGTGAGGAAAATAGGCAGTAAGTTCTAGAGC
TCACACTGTGCAGCACTAGTGCAGGGCCTGCAGCACTGTGTCCTTGCTGGCCCAGTACTAATGTCTGCATATAGTACTTTACAATTTGTAATGTGCCCTC
ACTGATATTGTCCCACATAATCCCAACAATAGGACTGATAATAATGATTCCCACTTTAAAGATGAGGAAGCTGAGATTCAGAGGGACAAAATAATTGGAC
TAAGGTCAGGCACACACCAAAATAAGTGGAAAATACGATTCAAAATGTGGTTCTCTATAACTTGCTGTAGTCATTACCTAGAGCCCTGCAATTTTATATA
GCATAAAATAAATGCTTTAAGGATTACCTGAAACACAACCTTAAAAAATGAAAGCCTTTAAATAATAATAATTACAATATAGTGAAGTAATGAGAGCAAT
TTTAGTAGTTTTAAAATATGTCCACATTTTTTTTTAAAATTTCTGTTTAAAAGGTGGAGCCGAATTCTCTTCCCCTGCATGTGTACTGTACTTAGTGTCT
GACTTCTAGTGAACAGAATATTGCAGAAGTGCTGGGTTATGGCAGCCAAGATTAGAACATAAAATGCAGTGTAGCTTCCTCCTTGCTCTTTCTCTTGCAT
CACTTGCTCTGGGAGAAGCCAGCTGCCACGCTGGGAGGAGCACTTGGAGAGGTCCAGGTGGTAAGACACTGACTTCTTCTGCTATTAACCAGTACAAACT
AGCTAACAAGTAAATCCAACAGGTCCAGTCTAGGCTTCAGATGACTTCAACCCTGGCCAATATTTTGACCACAACCTTATCAGAGACCCTAAGCCAGAAC
CACCCAGCTATGCCACTCCCAGATTCTTGACTCACAAGAACAGTGTGAGATAATAACTGTTTATTGTTTTAAGCCACTAAGTTTTGGGGTAAACTAATAC
AGCAATTAAAGGGCACAAGATACACAGAAAGGAATAACTGTGTCTAAGCTGTCACAAAAGATGGGTACTAAAATGTGACAAATATGAGTAGGAACTTATA
GGTGGACAAGGAATTTATTGGGAGGTGTTCTGGGCAAAGAGGCAAGTGTATGCAAAAAAGTGTGGAAGTGTGCCACAGCAAGGTACATTTATGAAACTGC
ACAGTACAGCACAAGATAAAAATCACACCAAGAAATGTAATATATCATAATATAACAACAAATGTTCTTAAGAGTGACTTTGAGTCTGCAAGAAATTTAG
TTCTATATGGACTATTTTAAAAGATAGGAAAGCAATTAAAACATTGTTTGAAATATTTACTTCAAAATTTTTTTAAAGTACTGTATAAATTTTTAGTTAG
AGTCTAAGCTATCCAGAAAAGCCACTTCCCTGTTTTCTTACTTCACTAGAACTGTCTGGTTCCATGTTTTGAAAACTTTAGTTTAAATGTAGAGCCAAGA
ATTAACTAATGAAGAACACCTGGATTTTCTGCAGGATTTCACTGCACCAATTCTGTTACAACAATCAGGTAGAAATTAACATTTTATAACCAATTATATG
TTTTACTTGGCATCATGCTAACCAACTGAATTTTTACAAAAGAGAATTGGCCAAATTGACTCATTATTCTCCACCATACCTCACTCATTGACTGACTATT
TATTGAGTGCCGTCCGTGTGTTACCCACTGTGATAGGCCCATAAAACAACCCTTTATGGTTGCAAAAATCACTTTGCATCCCAGTTGCAGCTCTACTGTT
TTCTAGAGTTAATAGAAGTTCCTGGTGAAAAAAACTATGCTTAGTTTTTTTCTAAGCATGTTTAACTTGGGTTTTTAATTAAAATTAATACCTACTCATT
TGAAATAAAGAGAAAAGTGAAAAGAAGTTTTACTTGGAAATACATTAATTGAAAGACAGTTGCTGTTAGCATCTTGCTGCACTTCTTTCACTCTATTTTC
TTCTATGAGTATCTTTATAAAGTTATAATATTTTATAGATACTGTCAAATCTARTTGTTGTTTAACATCAGGCAAAATATCCCTTGAAACAGAATTTTTA
ATGTATTTAAGTTATTCTAACAAATGGATATCCTGCAATTTACTTAACCTGGTATTAGATGTTTTGATTATACATGAATCTTTCAGGAAAAATGATGTCA
TAGTTAAATAAATATGTAGCTAGTGAATTTTGAATGTGTCTTTTGAACTGTTTATGGGCTTTGTGATAATTGGGTAATTTTAAATGATAATCAGTAGGAA
GCTTAGGAAGAGGTTAACATGGTTTCTCTCCCTTCCAAGAGAACTGCCTTTGTAAGATTCTGAGATGACCACTGTGGCCATGTGCCCAAGTGTGCTGTCA
CAGTTATACTGTCAGTTAAATTAAGCATGAATGATTGGATGGAGAACATTATTATTCTCTGCACATTCTTGATTCTTAATTTAAGGTTAAACTAATTTAA
TGTCATGTGAATTTTTAGCAGCAATTATGGACAGTTAATGCATGTTCTTCCTTAGTTATGCCTCATCTCTTTGCAAAATTACAATATTTCATTCCAAATT
TCTTCTGACCAGATTTGGAAGTAGCTCTCTCTTCTCTTTTCCCTCAATGTTTATATCAGAAGGGTTTTGAGTTTATACTGTAAATCTCCATTTGTGTATT
TTCATAATAAGACTCTAAGAACCTTGACTGGTTATGAGGGCACTGGAATCAAAGCAAATGAGGGCACTGGAATCAAAGCACTGGACCCAGTGCTTTCTCC
ATCCTTCAGGGGATATTGTACAGACAATAGAGATGCTATCTTAACATCTCTGTTTGAGTTTTTCCCTCTCCACCTGTCTTGCATACCACCCTAACCAATA
CTCCTTAAGTATGGCTCTATATTACTATGCCCCTATCAACACTCTATTTTAAAAAGGCATGGCTTCACACTTCCTGTAAGATAATAGCCAGTAGTCCTTG
AATCTGGCATTCAAAGCTTTAAATCTACAAGATGATATACTGGTCATACCTTTTCCTGCCTATTTTCTAGAGTCTTTTCCCAGAAGACTCTGTTCCATGT
ATTTGGTGTCACTTTCCTGTCTCTGTGCCTTCCTCATACTGACCCCCTTTTCTAACCTGACTGTTGAAATCTTACCTACTCAGTCTTTTTTCATTTATTT
GTTGATTGTTTCAATAAAATTAATTTACTTAATAAGTATTTACTGAGCACTGATTGCTCATCAGACAACATTCAAGAGCCTACTGAAATGGCACCTTCCC
TGAGAAGCCTCTCTTAATTACACACCCATATACAATGTTTCTCTCTTCAGAACTTCCATAKGTCTCTTTTTTATGCTTTCCATAAAATTTGTCACAAATC
CCATACCTTATTTATGTGCATATAGGAGCATCTAATGGGAACTCAAAATTGCTTTAAAGAACATAAATGAATGAATGAACATGAATGAGCTAATGAATGA
AAGAAAARTTATGCCTTCTGCACCAGCAGAAGCTAATGACTAAAATAAAATGGTTAAACTGGACTAGAAATTTAAGATTGTTATGGGTTTCTAGTCTAGG
AAACACCCTCAATGTGGTTTCCATATTGGATTATCCCAACAGAGAAAGATATGGAATCCCCATCTTCTGATTCCCACACCATTACTCTTTCTGCACCATG
TTATCACATGCTACTCTATTAAAATTGAGGCAGTATTATCATACTTTGTTATTGCTTTTCATTATTAGACATAGTGTTTTAAGGACAGTATTGAATAGGA
AGATTGTTTTTTCAGAGTGCTGTAACCTATTTTAGCATTCAAAGGGGCAAATGTATAAACCTGAGTGGTGAGAAAAACGTAGCAGATTAACTAATTTTGA
AAGATAATTTATTTTGAACTTGAGTAGGGGCTAGGGACCTTCATTAGTTCCTAAGAAAAGTAGACCACAAACTCAACCTCTATGCTCTTTTTTATCTAGT
CATGATATTAGAGTATGTGTGGACTTTGACAGTGACACCTAAATGGTTTTTACTTGCCTCATTGTTTCCTTACTAACTGTATGAAARAAGAACACGTGTT
GAGCCCCTCCAATCTAAAAATACAAACTCTGGAATGCTCCAAAATTTGAAACTTTTTGAGTACCAACATGACTCCACAAGTGGAAAATCCTGACCTCACA
TGTTGGGTCACAGTCAAAAGGTAGTAAAACAATTGTTTCATGTACAAAATAATTAAAAATTTGTATGAAATTATCTTCAGACTATGTGTATAAGGTGTAT
AAGAAACATAAATTAATTTTGTGTTTACACTTGGTCCCATCCTCATGATATCTCATTATGTATATGCAAATATTCCAAAATCTGAAAATTCCAAAATCCA
AACATTTCTGGTCCCAAGCATTTCAGACAAGGAATACTCAACATGTGAGACTCTGGAGGTGAATTTTTGTTTGTTTGTTTGGTTGGTTGGTTTTTGCAGT
AAATTGTTGAAGTCTTAGAAGGGGCGCATTCAGCAGTTAGAGCTTCCCTTTTAATTTGCATACCATGCCGAAGAAGAGGAGGTGTGATTCTCCTTCTGGA
GATGATCATTCTTTCAAAAAGAATTATGGTGAATTGTGTTTTTTAAAAATAGACTTCTAGGGCAGAGTAGGGGAAAAACATAGGGAACCGTTAATTAAGG
TATCAGGGCTTGAGAACKTTTTTGTCTGCCCAAGACCCTTCCTTTGGAAACAGCACCTCTCCCAACATTTGTGCTCCTAGTGGACTGGTAACTTGCACTC
CTAAGAACTGGAATCTTGAGGAAGACACAGAGCGATAGATGAGATTGGGGCTGAGTCATCCATGATGGTATCCTGGGCAGTTCAGAATCTCTGAGCCTCA
GTTTTTCTTCCCCCCAAAATGGGATTCTATGTCTCACTGAGTTATTTGAGGATTCAGTGAGATGATGTCTCTGCAAGCTTTGGCACAGAGTTGTTATTCA
AGTGAATATTAGCTACCACTCTTTGAGGTTAGTAGTCCTGGGGACAATTCTTTTCTCCCCCTAAAGAAGGAAAGGGAAAGGAAACTTTCTACTGAGGAGG
TAGCAAATGCAGAATCACTGAAAGTGCTTGCGAAGAATATCCAACTATTCAAATTATGAATTAGCAAAAGATAATCAGGTGATTGTGAACTGTGGGTTGC
TGCTGCTTTGTTGTAATACTGCTGTTAAAACCCACGTTAGAGATCACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTGGTGGGGTCGGGGG
AGGGGGGAGGGATAGCATTGGGAGATATACCTAATGCTAGATGACACATTAGTGGGTGCAGCACACCAGCATGGCACATGTATATATATGTAACTAACCT
GCACAATGTGCACATGTACCCTAAAACTTAGGGTATAATAAAAAAAAAAAAAAAAGTCAATAGTACTGCAGAAACTCAGGCTTCTTGTTGGGTCGGGGAG
TGGCGAAATGTAAAGGGAGTAAAAAGGGTGGTAGTCTATAAAGGAACTAGCCATCCAGCCACCCAGAAACCAAGTCCCTCTTTTAATTAATAGAGTTATG
GAGAGGCTCCAGCATATTAATAAATGTCCCCCTATGGGTGGTGAGAACGTCAAATGTGAAACAGAGCATATTGGATTTTGTAATAAAAATACAGAGAATT
ATAAATGAGATGTCCAGGAGGCATCTAAGTTAAGGACACCTAAGATCAAGAATTTATATTCTAGTTGATAAAAAGTTGTGGATAAAATTAGGGTGCTGAG
ATGGAAAAAGAAAGGCTCCTGTTGGCAGGAGGAACACTGATATGAAGTGATGGGAGAGTTTTGATCAAGCCTGTATCTTTGGTATTTAATATGGGGATGC
GTAGAGAGTATTAGAAGCCATAGGTACAGCCACATACATTGTTAAAATGTGACTTTTTGTATATTATTTCACGTTTGAGCAATTACCAACTTACTAGCAG
TTGTACAAAAAGTAAGCCATTGTGAATTTGGGATGCATTTTCACATATACATTGTATTAGACCATTCTTGCATTGCTATTAAGAAATACATCAGACTGTG
TAATTTATAAAGAAGAGGTTTAATTGGCTCATGACTCTGGAGGCTTTATAGGAAGCATGGTGCTGACATCTGCTCGGCTTCTGGGGAGGACTTAGGAAGC
TTACAATCATGGTGAAGGTGAAGGAGAAGCAGGCAACTCACGTGGCGGGAGTGGGAGCAAGAGAGAGAGAGTGGGAGGAGAGGTGCCACACACTTTTAAA
CAACCAGATCTCATGAAAACTCACTCACTATTGCAAAGGCAGCACCAAGCCATGAGGAATCTTCCCCCATGATCCAAACACCTCCCACCAGGCCCCACCT
CCAGCACTAGGGATTACAATTCAAAAGGAGATTTGACTGGGGATAAATATCGAAACTATATTAGACATGAAGCTGCAAATTATTATTTAATTCATATTCT
AGCATTAGGTATACCAGAACAAGGTATCTGGGTAAGAGAAAGTCGATATGAAGGGCACAAGATAATGGAGGAAGACAGTTTCTTCTATCGTCTAGGGACT
TTGAGCCAATTCTTGGGAAAAAAAATAGATGATGTTGTCTTTGATGGTCCTTTTGTTGTTGTTTTGATCCTCTTCTTCAAATTCCTGGTACCTTTTCTTT
CTGACTAACAGAACTCTCTTGTTGTAAAACAGCCCAGTGAAATAGGTATTATCCCAATGTTACAGTTGAGAAAAGGGGGCTCAGAAAGGTTTTGTTAACT
TGCTCATGCCAGTATAATAAATAGGAAAAGCCAGTTTCATAATCAAGTATGTCTGGCTCTAAAGCTCACCAAGTCCAACATTTTTGCCTTGGAATGTGTA
AGTTAACAATGCCCCCACTAACAACATGAAGCAATACAGAAGGAATGGGTTGAGATGGGGTTTGGGCAAAGAAAAGATGAGCTTGGTTTTAGGTATGTTG
ATTTTGAGCTACCTTGGAAAGCCATTTTCTGTTTTGTGGTTGCAAGAGAAATCGTGGTTTGTTGCCCTGTGTTAGACATGGGTAAACTTAGAGTGTTCCA
TTTGCTGTAGAATTAGTGGAGGATAGATAGATGGGATATATAGGCAGAGATCGATAGATAGTTGTTTGTACATTGGTTGTTTGAAAGTTGAGCAATGTCT
GCAGTCACTAGTCAGTATTTCTATTGCTTAGCAACTCTATTTCCTCATGTAGCCATAACAAATGGAACTTTTATATTTATTTTTTATGCTTAAGGGTACA
TAGTGCTGCTTATAAATGATGCATAAGTGACAATTTTATACTGTGAGCATTACTCTGACTCTTGGAATCATAGAATCTCAAGGTTGGACGGGAACTTAAT
AGTTGGATTTGTTCTATATTCAGACTGCTTTACACCTCCATGAGGTCCTGACTGACACATACTACTCATTTAGATAGTGCTCCCTATCTGAAAAGTCTTG
GTTTTCAGATAACATTTTCTTTCCTTTAGGCAAATTATTCCTGTTTTACCCATGAAGGACAAATCCAAATATCTTGTCTTCATGAGAACTCATTGCACAT
TTAGAAATAGGCCCCATGTCTCTGCCAATTTTCTCTTTCCTGGGCTGAGCTTCTTCTCCATCTTTTCAGTGGCTCCTTGGAGAGATATATTCCTTGAGCG
CAGGACTCTTTAGCCCAGGTTCTGGGAATGCACCTCACAGAAGGCTCCAGTGTCATCCCCTGCAGGCATTGTCTCACTGGCAGAGAGCCACTCATCCATG
GCCATAGCCTTTTCCGGTGTAGTCCCCATCTAATGATCAATTCAGATGGGGTATAAAAGCTCAGTTATTTCAGTCCAATATGTGACAACTCTGACAAGCC
ATTTTAGTCTCAGAGCTGCTCATGGGGTCAGCTGAGTCTATTGTTGGGCTGCATTGCAACTTGATTTGTTTTCTGTTCCTTCTTGAGTCCTTCCCCTCCC
TTTCTCAGGTGTTCATTCCCAGGGCATAAACATTCTGCCTGCCAACTCTGATGCAGAGTCTGCCTCCTGGGGAACCAAGCCTGCAATGTATGACTTCAAG
TCTTCTTATGAAACCATTCCAATTTGTTTATGGACTTAGACTTCTGGAGTGGATAGATACCTCTAGGTGTAATCTCCTGTGTAATCAGAATACATTTTGC
TTTGAAGAATATTTTAAATTAAGTAAGATTCCACAAATCTAATGTGTAAAGCTCATGCAGTAGAAAGTTTTCAGTGTGGATGTCTTAGCTTAGGTTCCCC
CTCAAAAGCAGAGTGTGAAACAAGGACTTACATGTGAGTAGTTTATTTGAGGAAATTATCCCAAGGAACAGAAGTGGGAGACTGGAAATGATTGKTCACA
ATAATCTCTGTCATTTCATAGCCATAGTTTTTCATCAACACTTTCCTAATGAGCTCATCTTTGGGATGCCAAGTGACATTGCTGTGTGCTTTCTTCAAGA
GATCTGAGCAATGTAGTCAGACAGCCAATTAACATTTTTATTTACTTTGGGAAAGCTTTGAGTCCTGAGACCTGCATGAGATTTTTCTGGTAGTATTTCC
AACTGTCTAACAAAACATGTCAAAAATTTCATATTTGTCGTTCCAGGAATTCAGCTTAATAAGACTACACAGACCAGGACTGAGAGGTTGGTGGCAAAGG
AAGGAGCTACTGAGAGCCACACATCAATAAAATGAGATATCCAAAGCATGGAAGGAGGGTCAGTCAAGGCAATGAGGGATAGACTGGGATCAGTTCAGGA
GGCTCCTCCCAGAACCAGGAATCTAATTAGGAGACTGAAAAGAAAGGAAGTGAAGGGGCCCCAAGCCAGAGAGCCCTATGTATAAAATTATACATGATTT
TATATATGTAAGTCGTAATTTAATTCTCACAGAAATATTGTGAAGAATGTGCCAATATTATTATCAAAACTATTTAGCAGATGAAGTAACTGAGGCACAA
AGAGGCCAAATAAATTGTCCGATGTTGCATAGGTAGTAAGTGGCTGAGCCTGACTTCAAACCTCGATAGACTTTTCCCAAAGTTCATGCTCTTCTGAATA
TTACTTATTTCTCATGTACCTGTTTCTGAGGCAGAGGTTCTCATGTATTATAAATTTCCTTGATGAAAGACCAGGACTGGTTCAGAATGTGTGTGTTGGA
GAAGAGGGGTGTAACAGATACACATTTTATAGACCTCCTTCCATCCCATCCATCTGGGCCCACTGCATCTTGCACTGCACCACTCAGGGAACTTCCCCCT
TGCCCTTGTCTGCTACTATGTATCTCGGTCAGCAAGTTCCAACTTGGAGTTTCTGGCTCTTCTTGCCACTTCAGGACTTGGATGAGATACTAAGCCATGG
GGCACGCAATGTGGCCCCACATGTGTTGGAAGAAGCCAGATGATACACCCTGGACATGAAGGAGMGTTAACTCCTTGTAGGGTGAAATTTGACCAGAGGA
GGGCAATGGACAGGAGGGAAGTGGCTAAATTCCCTCATCTTGCACTGTCCAATCGACTTCTCTGAGGCATGAGTTTTTCTTCTAGCTCATTCTTTCCCTT
GTCAAGTGGACACACCAGCAAAGGACCTGTTGCGTCTCTTTGTGGCTTAGTGTGAAGTGATAGGCAGGATAGTGATCCTTCAGTTGGCATTGCTTGGCAT
CTTTTCTTGCCTCAATTTCCTTCTAGCTCATTCTTTCCCTTGTCAAGTGGATGCACCAGCAAAGGACCTGTTGCGTCCCTTTGTGGCTTAGTGTGAAGTG
ATAGGCAGCATAGTGATACTTCAGTTGGCGTTGCTTGGCATCTTTTCTTGCCTCACTTTCCTTCTTTCTAATCCTTGTACCCTGGGTTTACCCCTTTCAA
AGAAAGCATTAAAGGCCAAGCTAAGAAAATGGGTCTGGACTAAAAAGTGGAAACAAATAGAGTAGTAGGCATAGTTCTTAACAGCACTTCACTGTTCAGA
GACAAGAAAGGACATAGATTCTTTGAAAAATAAGTGTAGAACAAGTTAGATGTTGATATTATGACTAATGTGTAAGTTCCAGTACTTAACAAGAAGTTGT
TGTAAGGTGAGTATTTATGAAGAAGGGGGAGAAGGGAAGAACTCCCTGATCAGGCTGATTTTAAGTCAGATCTATTTACTGCCTGTTATGCCTGTCTCCT
CTTCCTCTTCATGTTGCTAATAGCAAAAATAGCCGCTATTTTCTGAACACTTAAATATATGTCTGAGACCATGCTAAGTGCTTTATGTATATTTTCTCAT
TTATTCCTTTGAGGTAGAAAATTGAGACTCAGAGAAGAGAAGTAGCTGTCAAGCAGCTAATGAGTGCTAGCACCAGATTTCAAACCCAGGGCTGACTAAC
TCTGAAGCCCATACTAAAAATGGATTTGTTCTGCTGTCTTCTGCAAAGTTCCTTATCAAAGGAAGTTATCTAGAGCAGAGGAAAGCCATATGGAGAAAAA
AATATGGCATGAGAGCATCTTATTCATTTTGTTCTTATTTGCTCCGAAAGCAACTTCTGGTGGAGCCAGCTGCTGGTGTTTGGAGTGTCTTTGCCTTCTA
GGAGGAAATACTCTTTCCTAGGTGCCACACTGTTGATACTTCTCAAGACCAAAATACCACAGGCCTCCAGCTCCTTGATAAAGCTTTAMTGTGTTGAATT
GGCATAAATCAATTCCCTAAGTCTGCCTAGCAGAACCAAACTCTGAATATGGTGACCTCACAGGGTCACCTAGCTCAAGGCAGCCAGCAGGCTTCCTACT
TGATACTTTCTTTGATAGATGTCTTTAGGGGAGCCAACTTTTCTTTAACATCTTTCCTTTGACTCTAAAGCTCTCCTCTCCCAACATTTCCYCCTCAGTT
TAACCCGAGTTATGTGTTCATGACATAAATAGGGCCACGTTTGCCGCTGAATGATGTCACAGTGCAGGTGATCCACAGATAGAGAATACAAATAGCATTT
GACATTTGCCTTTGGGATGCCTTATACTACTTTTTATCCTCCCAGTAATGTTTACATTGTTGTTTTGTTTTTGTTTTTTGTTATTTAAATGATAATGGCA
AAAGACCCTTGTTAAGAGTCATGAGATCTGGGATCTGATTGCAGCTCTGACTTATCATCTGGATGTGACTTTGATCTGTCACCTGGTCCTCTGACGACTC
AGTTCATTCACCTGCAAAATGGGAGAGTTGGGAGAGATTATTTATTCTTAAACCATGCTGATCATCAGAATCACCACAGATGCTTTTTAAAAAGGGCCCA
TCTCAGAGTCCTGAATCACACTTCAGGTGAAGGGAGGAGAAAGGAGATTGGGGAGAGGAGCAAAGGTCCAGAATCCATAATTGCAACAAGCTGCCTGGGT
CATTCTGATGCACAGTTTAGGACAACTTTATGCAATACTGCCAGTTGCACAACTCCAAGGGGTGCCACTTGCATTCTACAGACTCCATGGGCACAGTTCA
CATGAAATAGAATCTGAACAGCCCCTCTTGGTATTGTGTAATACAGCAGCCCTGTATGAGCTGATTACTGTATAGGGTCATTTGTAAGCATGGATATTCT
TTGATTGGATGACAGTAGAGTGCTTTGAGGTCCTCAGTAGACAGTAGCCCTGTATTAGTTCATTTTCACTCTGCTATAAAGAACTACCTGAGACTGGGTA
ATTTATAGAGAAAAGAAGTTTAATGGACTCTTAGTTCTGCATGGCTAGGGAGGCCTCAGGAAACATACAATCATGGCACAAGGCCAAGGGGAAGCAAGGC
ACATCTTACATGGTGACAGGAGAAAGAGAGAGAGAGAGTGAGGGGGGAAGTGCCACACTTTAAAACCATCAGATCTTGTGAGACCTCACTCACTATCATG
AGAATAACAAGGGAGAAATCCACCCCCATGATCCAATCACCTCCCACCAGGCCCTTCCTCTAACATGTGGGGATTACAGTTTGAGATGAGATTTGAATGG
GGACACAGAGCCACACCATATCAGACCCATAAGCATGTGGTTACAGATGAAGGCACAGTAGCTGTGACCAATAGGATAGGAAAGTGGATGGCTTAAGAAC
AGCTGATGAACACTGCCCCATACAAAGCTGACTCTCAGATTGTCTCCCACATTATAGCATTACAGCTGGTGCCCATCTGACAAGAGGGAGAGGTGTGTGA
AGAAAGCAGGATGTTGAGAGCAGCGTGAGCCAAACAGCAGGACCTCGGGTCATGGTTTCCCCAATAGGGTTGAATTGAGGAAAAGAAACAAGGCTTTCTC
CCAGCTAAGAAAAGCTTTTAGTTGCCTACTAATTTCTGTGCTTTGGGGTTTCTTTGACTTTGTTTTCCCTTTACACATGGTGAAATTCCTTTTGAAAATA
AATTCAGCCCTGTCTTAACCAAAAAAAAAAAAAAAAAAAAAAAGACTGGTAAACCTGTATGGAGATATTACTTGAGTTCCTAGAAGCCAGGTTTTGTTAG
TAAAAAATTGGATAAGTTTGGGTACTTGGGCAGACAGAAAGTTGAAAATCTGGGGAAAGACTGTTAGCATGCAGTTGTGATTACATTAAATGTTATAAAT
GAATTTTTATCAGAAGCTATTGAGATGCTGCTGAGCTGACTTGAGGTATTCCATTGTCTAGAATAATACTCTGCTTAATTTGCATGAGAATCAGTTGAGG
CATTTGTCAAAAATGCAGATTCCTGCCACAGCCCCAGGCAATTCTGAGTCACCGGGTATGGAGGGGGCATCTGGGCTGTGCATTTTACATGAGCATCCAA
AAATCATGCTTTGAGAATGCTGCCCTAGACAACTGATGGAAAGACAGGGAACTTTGTTCCAGAATACATCCTGTGTTCCTTGGAAATTATATTAACTCCT
CTCAGCCTTAGTTTTCCCTCATGTAATGTGGATAAKGATACTTACCCTTTCCAAAATCAGAGGTCTTAGAAAAGTATTTTAAAAAATAAACTGGATAAAA
GAGGTAATGCTAGTTACTTAGAATAGGAATTTATGTGAATAAAAGTCTATGTCTTGGGCTTCTGTAAACTCACCTCTCAACCCCAGCATACAGCACAAGA
ATATGGAAATAGAAGGAAGTATGTATGCMTATATGTGTATAAATATGATTGAGATTGTGTAGGAGCCTGTCTTAGTCCATTTGTGCTGCTATAACAAAAT
TATAATAAAATACCACCAACTACRTAGCTTATATACAACAGAAACTTATTTCTCACAGTTTTGGTGGCTGGGAGGCCCAAGACCAAGGAGCTAGCTGACT
CAGTGTCTGATGAAGGCTCACTTTCTCATAGATGGGGCTTTTTTGCTATGTGTCCTCCTGTGGTGGAAGGGGCAAGGCAGCTCTCTGGGGCCTCTTTTAT
AAGGACACTAATTCCATTCATGAGGACTCTGCCCTCATGACCTAATCACCTTCCAAACACCCTGCTTCCTGTCACATCACATATGAATTTTGGGAGGACA
CAAATGCTCAGACCATAGGAGAACCTTGGAAAGATTTCTAGAAAGTCAAACAATAGATTTTTAAGAAGTCTATTTTCTAATAAGCTATTAGTTAGTGCTT
ATTAGAAAATAGAATCTGCCAAAGTAATGTAGGAGGAGCATTTATCAAGGCAGATTGATAGAGACAGCTCAGTAGATAAGGCAAACAAATGTTGACCAGT
GAATTATATTCATAATATATTTTGTATTTGTAATATATTTTGTTCTTATTTAGAGAATGTACTAATTAGGGTAAAGTATAGCTGCTGTAACAGAGAACCA
ACAATCTAGTGGCTCAAATAACAAAGAAGTTTATTTACTGCTCATGTAGCAATCCTGGTATGAGTAGTCATTGCCTGATGAGTAACTTTGCTCTGCATGG
TCATTCGGTGAGAGGTTCCTTCTATCTTGTTGCCCTGCTGTCACGTAGGACACTGCCATCATTTACTTTGCAGAAGCTGGCTTGTCACCTGGAAAAGGGA
CAGAGAACATGGATCATCATAAAGCTCAGACCTGGAAATGGCACATAGAACTTCCATTCACAAACCACTAGTGAGCTTAAAAACACCAGGATGCCTAAGT
GAAGGGGAGGCTGGGGAATGTAGCCTATCAAAATAGCCATACCCAACCATAACTCTATTGTTACTGCTGTTGAAGAACGGGAGAATGGGGTTGGTGACTA
ACTAGCAGTCTCTGCCATGGGAAGGTATACAGAACTTTGAAAATGGAGCCAATTACTACTTTTTATGGCTTCACTAATTGGCCAGAGCTACTACTGTGCT
GTGGAGTATCAGTGTTTCCTTTGATGTGTTGTTCCTAGCCTCTCTATGGGCTTATATCTAGYATCCCAGGTAAACCTGAGAGTTATCCTGGGCAATGTGG
ATGCTGGTATTCCATTTTCTCAATTTTAGGGTTCTCCTCCTGTATCCTGTACAGGTCATGAGAAAAGACTTGTTGAGTCCTATCCTACTGTTAATAAATG
TGCTGTTGATAGGAAAATGTTGGCAGAAGTGCCAATATGAATAGTCTTCTAGTTGCTTTTCTGATGGTTGTGACATAATGAATCTCAARTGTGACTTTTG
TCATATAATTGGAGGCTCTGAACATTAAGAACATTTTCTTAAGGATCATCCAGGCAGAAAATGAGTTCACAGGTTTTTAACATTTTTACTGATGGTTCCC
AAGGCTCCACCTGTCCCTTCATTCTATTCTATACTGCCTCTTTATTGGATTTCTCCCCCACTGCAACKTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTCTGTGTGTGTGAGGAGAGAGAGACGAGAGAGAGAGGAGAGAGGGAGAAGAGAGAGAGAAGAGAGAGACAGAAAGAGAAAAGATTGACAATATATTTC
AGAATTCTTAAGGTTTGCTCCTCATTATTCTGTGATGTGCAGTACTATTCATAACAGAAAGGTCTGATAATTAGCTGCCTTGGGATGTTCTAAAGGTGAA
GCCACTCTCCTGCAATGCATCTTGCAAGAGAGATTAGTGATGTAGACTGGAGGTTGGCATGTGACAGAGACTGTTAAGGACAAAAGCAGATTGATAACAG
TGAAAGCTGCTGCTTGGACAGGTTCATGGATTTAGAGAGCGACCTCCCCGCCATGGGAACTGGATCCCTATGAAACTGTGGCATGAACTACAATGAGATG
AAATTACCTCAGAGAAAAATCTGAAGGCACATTTGAGGGTTGGGACATTGCTTAGGAAGCTGATTACCAAAGACAAAAACATTCATGTGTATAGTGGGAG
AATGGGAGATAGGTTACTCTTTAAATAGCTAGTTGGCATTGTCATTGAAGTTTGCCTTACTGGAAAAATTATGCAGCTATTTCTCTTTTCAGTTTTATAC
ACATGCGCACACACACACACACACACACACACACACACACACACCATATATTCTGGGGAAGAGGTGTTTTATTTTCCTTTTGTATCATGATTTCATAGAC
CCTTATATTCTCTAAGAGATCTGGGCTTTCAGCCACATTCCCATAGGATTCTGGAATTTTTCCCTCTACCCTCAGCCTGCCCCATCACCCAAGTGTGATT
TTTGTGATTCTTGTGTTTCTCTAGTGTCTCACCAACTGTATTTCTAAAGCTTGGTCAGTGTTCCATCTTGGATTTCWTGTTTTGCCACTTGTGATGGCAA
TTTATAATAAAACCAAGATATGACCTGTTTTGTATCCAGCAATGAAACAAGTTGGAATCTGCCTGTGATGTGCAATGTGCCTTCAATGAAGGGGCAGCTG
TGATGTGAATGGATCTTGGGGGAGAGAAAGGACCTTAATTTCTCTTCTCTTTTCCCATGGATATAAAACTTTGTTATGGTAAACTAAACCTCTGATATCA
TATGCAACCGCTGGCATTCTAGATTGTTTTAATGGCCACTCCTTATTGCTTCATGCTAAGCGTTACCATCTGTTTCTTTCTTAATTATAAATGCAGCAGG
AATTCACAATTACATCAGTAACGGTGGAAATAAAATGGAGTTAGAGGCTTTCTACTTAACACAAGGCAGCCTTCCTCTAATATTTTTCTTCTGTTACAGG
CATTGGTCAGAGAGGAGACTTTTTCAGTGGTTTTCTTTTCCCTCTCTTCAGTATACTTACCATGAGAATGTCATGCTATAAATTCAGCAATTTCCTTTTA
ATGAGAGGGAGAGCTGTGTTTATTTTCTGTCCATGGAGCTGGGGATGTGTGGGCAGCTCTTTCTCACAGTATTGGAAACCAGTGGTGTGACTGTCCTGCT
GTTATTGGCCTCTGTTTTTGTGAAAACAGATGAGTTATAATAGCCCAATGACATGAGTCATGTCATCCCCCAGAGGAGAGCTGGGAGTGGACATCTAAGA
AACTCTGGTAGCCAGCCTGCCTGTCTGTGAATATATGGGAACATTTATASAGGGAGGTGATATAAAAGCTGAAGACATGTTTAACCCAGATTACTTAGGC
TTTTATTTTTCATTAAGTGGAAAAACTAATCAAATTTCAGACTCATGAAATTTTAGTGCTAAAAGAAACCCTTATAAATCACCTTGATCAAAGCTGTAGT
GACTGCCCTTTCCTTTGTGTAGTGCTCGACCAGGTTGAGCACGGGATTTGGAGTCAGCAGAACAGGTTTGATTCTGAAGCCACCACCATGGACTTTGAGT
CCTCTTCACTGAGTTTTTAGTGTCAGTTCTCTTTATCCATGACAGGAGACATGATGCTTCTTATGAAGCCTATGTTTGGATTAAATGAGAGGGAACAAGT
AAATCCTAGCCATTGTGTGKCCGGTCTGTGGGGTTTTTTTCCCCTTCTTTCCATTCACATTTATGATAGATGAAGAGATATTGGTCCAGAGAGGTTAAAT
GCCTTGCCCAATATGATACATCTAGTTCAGGGTGGACCTGAAGTAGAAGTAGTTTTAAAACTCTATTTCAAGGCTTTTGCTTACTATGTCATATCTAGAC
CCTTTGCTACCTTTCTCCATCCTTGTCACCATTGTACAAGGATATGTACTTTTGCACAATGAATAACCACAATGGTTATCATGTGTATGATACTTTTTAA
ATCTGTAAAGTACCTTTTAAAATGTATATTCCCATTTAACATGAAGTAGGTGAAATAGTGTTATAATCTTTTTTTTCTCTCTCTCTTTGAGACGGAGTCT
CACTCTGTCGCCCAGGCTGGAGTACAGTGGTGTGATGTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTA
GCTGGGACTACAGGGGCCTGCCACCACGCCTGGCTAATTTTTTGTATATTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTG
ACCTCATGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCTGAAGTAGTGTTATAATCTTATCCTTCCTCTT
ATTTTAAGTTGGAAATTCTGAAAGGTCAAGTATCTTGTTGAAGTCACACAGAAGGCTGAGTCAGGACTTGAACCAGGTTTTTAAGACTTTCCATATATGG
GCTTCACTCTATACTAGATGGACTCTTACTGTTACACCAGTACATGTAGGAGAGGACTGAAAGATGCAGTAAAAAGAAATCGATATTATTATCTATAATT
TAATAGTTGTAGTTAGGACTTTTTATGATGTGAATACTATAAGACCAAAACCATTTTCTTGAATTATATTAATATTTTAGCGATCCACGTGCTTTTTACC
CACCAGAAGGTTCCCCTGGGTAAGTAAAGAGGTGGAGCAGGAGAGAGCAGGTTTGCACCGAAAGTAGTTMCAAAACAAAACAAAACATATAAGACATCAA
CCACAAGAAGCCCTTGCTCCAAAATGCAAATGACTTATTTGCTACTTCAAAAATGCACCTCATCAATGAAGGGATCATTTGATCATTTGTTCCTGCCAAG
TTTATGTTTAGTCCAGGAAGGGTCAGGCTGGTGCATATTCTCACCCAGGGGTCTGAGAGCACAGTGGCAGGTGTGAAAAGAGTCTTTGGGCCTTGCACTT
GCCTTTTCATGCCAATGCCCTCATCCAAATAAGAAGTCCCCTTTGCACTTTCCCAGCTTCTAGGCCATATGTTATGTCTGTTTCTTAGAGGGTGATTCAA
TGATTCCTGGTGATAATGACATCACACTGAGTTTTACTTACATCCTGTTTCTCTTGTATAATGCCCATGCTCCTCTTGTCATGCGGTCCTGAGCCATCAG
GGCCCACTCTATAAAGCTTCCTGAAAATCAGGCCTTCCTGGCAACAAAACTAAATCTTTTAATCTCAGAAACCCTACTACTGACCATGTATAGAAAACCA
TGCAAATTTAAAGAATGTAAATATTGACATTCTCAGGTTTTCCCATGTAACCTGATTTAGTCTGATTTCCCTATTATTTCTGCCATTTCTGTGGGCATTT
TACTGAAGCCAGGTTTTATAAAGCAGCCCAGAAGCAGCATCGTTCATAAGGTAAGGGCACAGGCTGTAGTATCGGCCAGACCTTTGGTCGAGTTCTGGCT
GTGCAGCTTGACTGTGTGATGTCAARTAAGTTCTCAGAGCCTCCCTTTCCCCATCTGTAAAGTGATGATAACGGTGCCCACCCATTAGCTGGTGCTGTGA
GGATCGGATGAGCTACCGCATGCAAAGTGCTTAATTACAGGACAATGTTTTGCCTTTCTGACCCCCCAGAACCAGATGAATGATTCATTTGTGATGTTTT
TCTCTTATTAGGAAGCTTTAGCTGGACAAAGGTCATTCAGGATTATTTTAACATATGARATGCATTTGTTTTATTGAAAGAGATTAGAAATGTTATTTTG
AAAGTTTTATACCTTACTTTAGAAGTCAAGTCTTATAACATTAGTAGGTTTTCACTTCAGGTTACTTTCATGTTCTGTCTTTTCACTGTGAGCAAGGTGG
TAAGAAAGCCATTCTTTCTATTGTCTTGTATGCGAATGTGAATATATCCTCTATGTGCCAAATACAACTTCGTGAGCATATTGTTTGTTTTAATGTAGCC
TTTTAATGTCAGAAAAAAAGTCTCAAAGTTCTAGTATAATAATAATGATTAAAATGCTTATTAAAGAGCACATTAAAAGATAAGGCTATTTTGAGGACTC
AGGGGCATATAAACAGGTTATTATTTTTTCATAGATGTATTAAATCAGACATGTGCTAGCCAAATGTCTGACCTTATATAGGTTTTCTTCAGAGTTTTAC
AGAAATAATGCTAAAATAAAGGAATGTGAATTCCTTTGCCAGTTCTTTGAAGGAAATGGTAGAGTCTGACCTACCTCGAAGGAGTATTAAGAGAAACAAC
CTGGTTATATTGCTGGAGGCTTAGAGTCTTTAAATAGTCTCAGAGATCAAATCTCCCTCGGCTACATAGAATGATTCCATACGCTTTCTTCTGAAACTTC
CTCTCTATCTCTAAATGGGGCCATTTTGAGCCCCTCATGAGGAGGCGCAGTGGAAGAAAAATGTTCTGCTGAGCAGAATCTGCAAGCCATGCCACATGCA
GACATCTCATCTGATAATGACATTCTCACTCTGTAGAGGCCAGGACCAACTGTGTTATCCTCTTTCTCCTGCTCCTCTCCTCCCACCTCACACATGCACA
AGCACCTGTCAACCAACATCCTCATACCCCTTCTTCTCTTAGAAAGGAGGGGCTTCAAATAATATTCTAGGGGGAAAGGTCCCATGACTCTCTGATAAGA
AGAGGAATCCTTTAATTCTACTAAACATGCAAAAGCATTGAGCAAGCAATTAGGCAACCATGTATATAGCTCCAGATGTCCCATACATATGGACAATTGT
CCACACTGCTGGTGGGGCTGGCAGCATTTTAAAAACTGGTTACAACACATATGGTCCTTTGCTTTTTGCTCTGGCATCTGAAGTCTTGCTAATCCAAACA
CATCATCGCTGTGGTACTTCCAGCACAGTAAATACCTATCTGCTCTCAAGTTACAAATGCGGTGTGCTTCCCTAGCTCAAGGTTGTGGGTAAATTAATTC
TTAAATGAAAGTGAGAGGCAGGGAGCTTTGCAAAGAGAAGAAGCATGTTAGGTGTAGGAAGAGGAAATTAAATGGATTGGACTCTCCTCTATCTTTTCAG
TGTTTTGGCCCTCCACCCATTAAAAGCTTTCAAGCTTTATTGGATGATAGTTTCTAATTCCCCTTCTAGCCAAGGCTCCAAGGTATGATTTCAGGATGGA
GAGTAAATTCTTTGTGTTTCCCATCTCTCAGAAAAATTGCTTATCAGCTAAAGTTTTCGAAGAGTCAGTTTATGGGAAGCTATTTTGGTTGTCTAGCTAC
TTATGTTATCATTATTCAGTCTAAAGTCTTGCCTATTGCTGAAAACTTTATGCAAAACAAGATATTGTGGTTATTTATTTCTTAGCCATTGCTTTGTTGT
TTACACACCCACATAATTACCTTGAACACCACAGGAAAAAAATTGCAAAATAATATTTCCTAAACACACTTTGGGTTTACAAAGTGATTATAAATGGCTT
TTAAAGAAAGTAATTCTTGTTCATTTCATTGTATTCAAGCTTCTCTACTTAATTGTGCTGTGTGTGTTGGAGGATTGTGGTGGTAAGTTGAGATATGTAG
ACAAAACAGATTTTGTCATTTTTTTCAGTAGACAAAATTATAATAGTGTGGAGATACTGTCATTTTAAAATTAATCTGAAAAACATTTATTGAGTACTTT
CAATATGTCATCAGACAACTTCACCTGTCTTTGCGTATGAAGTTTTTGTTTGTGTTTTGCTTCGATTAGTTTTGTAAAAGGAGACAGCAACCCAAGGACT
TTATAGCTATAAAAAGGCAAGGGTGGTTACTACAAGCTAAATATGAGAAAAAAACAGTTTTGATTCATTCCTTGAATGCCTCCATCACAGAGCAGTTTTT
AGCAATGGAAGTAAGATTGTGAAAGGAAAAGAACAGGGCCCTTTACAGAGCTCCAGGAATCCTTTTGTGGTACTTTCAGCAAGTATTGGTGGTAGAAAAT
TAATAGATATAATAAACACTGTGAGGTTGGCTGGCATTTTATCTATCCCTTGAACAGGTTTAGGAAATATAATTGACTTGTGTCCACAAATCTGAAATAC
AATTTTTTTGTGTGTAATAGTAATTTTCCCTGCAGCTTTGGCATTCTTTTTTCCATTAAACGTCTCAGTTTTCAGTGAGGGGAATACATCCTTGGTCCTA
CTTTGTCATTTTGGGATGATTTATTTTAAAATTACAGTAAGGGACTTTGTTCGGAATTCCACTAGGCTAATTTCAAACCCAGTTTGCTGACTCCAACTCG
CCATAATGTTCCCCACCTCCAGCACACCGAACAGGAAGTGGCATACTCAGATGCCAGGAACAAGGCGATTGCTCAGATGGAATAACACTTGGCAGTTTGG
AAAAATTTGTTGATGTAAGCTGAAATTGTAGGTTAGATACTGACTTGTGGGATACATTTCTGCCAATTATGGTCCATTGTACAGTCAAAAATGGGAAAAA
TTACTTACTGCAGCTGGCTTTTTGGCATTGAAATCACTGATGGAATAATCAGAGGGAAATCTTCTAAGTTATCATAAAAGATGGATTGTGACACAGGATG
TCAGTTTCCAGGGTTATCCGTTTTACCTGCCTCACATGACTGGAAAGCTTTTTGTTTAAGGAAAGAATCAAAGAGCCAGAGAACTGTTGAGCACTCCTTG
ACACTGACTTGCCCAATGATAACTGATTCCTACAACTAGCCTTCCTGTCCTGCTACTTCAGGGGCCTATGTTTTTAAGAGCTGCAGCCTTGGGAAGATTT
TTTTTCCGTGCCTCTCCTGTGTCCAAAGCTCCTGAAGCATCTGTAACTTCCTATTCCAGGAGTGTACACATTCTGTAACTAGAAGCCTACAGCTGTAATG
CTGAACACCAAAATAACTACAGTTGATCACTGGAAACATGCCTAAGGCTGAACATAATTTTTCATTTTCATTCATGGATTTGTACATATTCTAAAAAAAA
GTTCACTCTGAAAATAATATTTGCATAAAAGGAAATAAGAGAAAACATACTACCCACCCATGTAGAGCAAATGAGCTACATCTCTTTATTGATGAATTTT
AAGTCATTTGGGTTTTTCCATACTTATTTCTCATTGAATGCTCCTTTTCCAGAAGACCTCACAGTTGTCTGACTGTGTCCTCCATCACAGTCCTCCCAGT
ATTCAGGACAGATCTTAGGATTCCTCTCTTGAGGGTCACGTATCCCTGCTKTGTAATTCACCTCCTCTGTCCTCTATTTCAGGATGCTCGGCTCTAAATA
CACTGCTTGCCTCAACCTTCCCTTTGGATTGTAAGTTCCTTAAAGGAACTTAGGCAGCCGATGTTTCAGCCTCCCCAGAATCTGCCTCCTCTTTTTCTGG
AAATAGTACCTTAATTACTCAAGAGAACCTCCTCTCCCACTTTGCATACAGGCCAAGTGGCATCCCAATTAAGATTTTCTTCTCGTTTCTGCCTGGAGGT
GATCACATGATTCAGTTGAGGCTATCCAGATTATCTCTGCCCTGAGAATTTGAGCTTTGAGTAGAATCCCTGTAAGAATGGAAAAGAGAGAGATCTGATT
CCTCTTAGGAGAGTTTTCTGAAGAGAAGGCAGGATATCCTGCTGCTTGCCTTGACTTGCCTACTTCCCTTCCTTTATAAGCCCCGGTTGAGTAGCTTCAC
TTTAGAGTATGCGAGTTGACGCATATCTTGCCAATACATCTTTTAATTTTGTCCCAGTTGGCCCAAATTGGTTGGTTTTTGTTGACAAAGTATCCTAATA
CAGCCTCCATCTTCCAGTTCCTATTTATGTGTCATGATGATCTGAAGCATTTCAAAAGAATAGTGAAGGTTATTGCATAAGATTCAGAAAGTTCCAGTAT
TCAATGGGATCATAGATATGAATTAAACCAAAAAATATTCTTTATTATACAACTTTATTTCTTCCCAGAGTTTTAGAAATGTGTGAGTTTAAAATGGAGA
GTTCGAGCAGGAAATAACTGGAAATTCATGACCATTATCTTTAAAAATGATTTTTTAAAAATTTTAGAATAGTTTTAAATTTACTGAATTTTTGTAAAAT
AGTACAGAGTTTCCATATAGCCCACACCCAGTTCTCCCACTATTAACATTTTACATCAGTATGGTAGATTTGTCACAATTAATGAACAAATATTGAATAT
TTTTAACTGAAGTCCATAGCTTATTTAGATTCCTCTGTTTTTCCTTAATATCCTTTTCCTGTTCCAGGATCTTATACAGGGTACCACACTACATTTGAAG
TCACATCCTTTAGGCTCCTTTTGGTGTGATAGTTTCTTAGAATTTTCTTGTTTTTGATGGCCTTTACAGTTTGGAAGAGCATGGTCAGATATTTTGTACC
ATGCTTCCGATTGAGATTTGTCATATGTTTTTCAAAAGTTTAGACTGGGGTAATGTGTTTTAGGGAGGAAGACCACAGAGGTAAATTGCCATTCTCATCA
TCACATCAAGGGTGCAAACTATCAAAATGCTTATTGCTGTTGATGGTAACTTTGATCACCTGGCTGAGGTAGTGTTCATCAGGGTTCTCTTTCTTTTTTT
TCCTCCTTTTACACATTGCACTCTTTGGAAGGAAATCACTACACTGTGTGTAGCCCACACTAAAGAGTTGKAAGGTGAGAGACAGACAGGTACAAAGAAA
GAGGCAGTTATTAATTCCAGGATTTAAAAAAACAAGATGGCATTATACTCCACCTCTTTAAGGGTGTAGTTTGTATATATATATTATCCATAATTCTTCC
ACACAGGAGATTTATCTATTTTCCTTTTTTATTTTATAGCTTATTTATATTAATGTAGATACATGAATACTTATTCTATAAGTACTGGTTATAATCTAGT
ACTAGTTTATTTATTATGTTGCTCAAATTGTTACAGCCTTGGCCATGGCCATTGGGAACTCTTTCAGTGGCTCTTGTGTCCCTTTGGCATACTCCCATTG
TTGTGGGGTTTTTTGGTTTTTGGTCTTTTTTAGCCCTTCCTTACTTTCTGGCAACACAAAATGCTCTTGGCTTATCTCTCATACTTCCTGCTCCAGTCCT
AGAATCAGCCATTTCTCCAAGGAACCCTGGTTCTTTTTAGTGGAGAATGGCATTAAAAATATGTATCTGGTGTTAGTTATGCTCATTACACCTAGAGTGT
CATTGCTTCTAGGTCTTCTCAGCTGAAAGAACAAGAAGATGTATGTGTGTATACTAACCCATCTGTATACACATATCTATAAGTATTTCTCTGTGTAATC
ATTTGTATCTATTAAGATAAACATGAACACATACTGATATCTCCAACTCTAATCTTTCACCACATTCTAACTTTGTCCTCTTGCTTTTCTGTAAGATCCC
AATAGTGAAAATCTGGTTCCCTTCACCCACCATTCATTGTCCAGTTCCAGCATAGATGTATTGTTTCAGAATTGTTAACTCATACTCCTGTGGAGAACAG
CTGTATCAACTAGAGTACAGTGCTTATAGTGCAGTTACTGTTACCTTTAGCCGTATAGAGTGTACTCTTAGTGTACCTTATTCCAACCCCCTGCAGTGAC
GTTGTTTCATACTGTTCTCTTTAAAATTATGTTTTAAATTTATCCAGGGGATAATGCATAGCTAAAGATGACAATTCGTGCTGATAGGCTTATAATAAAA
ACTAGCAGCCCCTTTCTCTCACTCCTTSTGCACCTTTACCTGTTCCCCAAGAACAACACTTTCAACTCTTTTAGCYGTTCACATCAATTTGTCTAAAATC
TAAATAATGTACTTTACAGCTTGAGATATCAATTTTAAACATTATACATTGATTTCCTATTATTGTAGGTAAGGATTTAGCTTTATTGTACCTCCTTTCC
CTGACCTATTTCTTTACAACATAGTTATTTCACATTTTTTATTAAATCAACATTTAGTGTTTACATTGCTTTCCTGTTTGTTTTTTTAAATCCTGGGACC
AATAATTGACTCTTTCTTTGTACCCATTTCTCACCCTATAAGACTTTTCCCACATGATCAAACTTACCAGACAGTATCCAGTTTCTTCTTACTCCTAGTT
CTTACTTCCCAGGACCCTCTGTTTACTCAGGCTGCTTCATTGAGTGTATTTATGCATAGCTAGGAATAGGGCTGCTGGTGTCTGGGAACTGAATGGGGAA
GGAGACTAGGTGGGTGGGGGGTTCTCATTGTCTTCTATGTAGGCTTTCATTTCACCTCCTTGTTCTTAGATTGATGTCTCACCTCACCTCACCTTCCACT
GTGCCCAGGTCACTAAGTCACAAGCCTTTCTGAGTCACTTACAGTGAGACTGATACTACTATCTCCTGGCATTGGAAGGATGTGGGTTTCAGTTGCCTCA
TTGGGCATGAAGGGCTTAGGGACCTAAGGGTGTATATGCTTTTCATACTGCTTTCTAAAAAACTTTCTGCTTTCAACCCTATGACTTACCCTGCTTTAGT
GGTATGTGGTACCTCTAATTCCTGCACCTTCCTAAGGTTCTTCGCAGTAATGCATTTGTTTCTCTCAGGTATACCCTAAGATTGCCCCATGGGTACATAA
GTTACTCTAGCTTTACTGTGCTGAGTCAGTAAGAATTCCTGTATCTGCTTGACATCTTCATTTTGTGTGGTTCAGTGTTACAGATGTCTTTCGCCTTTTT
TTTTGTGCTGTTGGTTGTTGTGAGAGGTGATTGTGGAAAGAAAAGGGTGTGCCAAGTTAAACCTGAAGTCCCATACCTGGTCTACATTTTGTATGACCAC
ACTAAACTCAGCTCATGCGACCTCTTTGGAGAAGGTACTCCTGAATCTTCCAAAGTAAATTTCTTTGTCTTTGGCTTCCACGTCATTCTGTCTGTGGCAC
ATGCCATACTCTTGTCATTTTCCCCACTAGACAATAAACACATCTAGGGCAGGAATCATATCTAACTAACTAACGTATGTGTACTGTGAACTCTGTGCTG
CTGACTCTACTAGATATCCTCAATGTGTACTTACTTAAATCTAAGAATTTGCTACATTAATTGTAAACTAAAACCTCTGAGATATATTATGTTGCTCAGG
TACCATCTGAGAAGTTATGTGTCAATGTTGGGCTGAAACTAGAATTTCACGTTTTAAAGCCTTAAACTGGTTTTATGTCCCACAACTATGCGGCCCCTGG
AAGGTATTCTTGTGTGACCTAGAAAAGATTGGAAGAAATTGAGGATACTTCAATTAGGGAGGTTCCCCAAATAACTTGATTTTTCTAATTAGATAGAGAT
ATCTTTCAYATTTAAAATTTTATTTCTGTGCAGATTTGCTGTGACTTTGGTGTGGCCTAATCTTTAGCAGTAATCACTTTAKCAGTGAAATTTAACTTAG
AAGTCCAGTTAGGGTTAAGATAAAAAGGCCACATGAGGTAACAAATGAGAATATGTACTCTGGAGTTATACAGATCTGAGTTTGAACTTTAGCTCCTTCA
CTTACCAAATAAATAAGTCATCAACTTCTTTCAGCCTCAATTCATCTATGTTAAAATTGGGATAATAGCAATACAAACATTATTGGTCTGTATGAAGATT
AAACAATATAAAATATGTAAAACAGCATAATGCCTGGTATGTGGTAAGCTTTCAATAARTGTTACCTTCATTTGTTATATATATCATGACAGTTAATACA
ATGCTGAGCGAATATTTGATGATTSTCTGAAATAACTTGAAAAAGTTTAGTGAAAAAATTGGGGGATGGAGKGGTTGGGAACTGGGCACAGACAATTCAG
CCATCTAAGGAAGCAGTGGCACTTTCTTCACTGAGCCCTATTAAATTGAAAGATTGTGTTCTAGCACCAGGGAAGAGTAGCTATATGAATCATTTCTTAT
GATCTAAAGTCCATTAGCTACTCCATTTAGCTGTTAATGTTGCGAGGCCATTGGCGGAAATAAATATGTTATTTGGTAATGGACTTGTTTTCTTAACAAT
TATAATATATTCTTTCCAAATGCTGTAATTTAATTCTGCCATTSTGCTAATTAGTCAGCYGATCAGCCTTCAGCATTGTTTCAATATCCCACCCACCACA
TTTTTATATTAAAGCTCATTTAATTGGTGTTGTGGGTTGAATTCTGTTCCTCCCCAAATTCACACATACCCTAACCCCTAGTACCTCAGAAGGTGATCGT
ATTTAGAGATATTTCATCTTGAAAAGATTAAAATTAGGCCATTAAGCTATTAGGGTGGGGTCTGCTTCAATGTGACTTATCAGAAGAAGAAATTTGGACA
CACAAAGGGACACTAGGGGCATGCAGAGGGGGACCACCTTGTGAAGAGACAGAGAACAGGCGGCCATCKGCAAGCCACAGAAAGAGACCTCAGAAGAAAT
CAGCCCTGCCAACAGTTTGATCTTCAACTTGAAGCCTCCAAACTGTGAGAAATACATTTCTGTTGTTTAAGCCACCCTGTCTGTGGGATTTTGTTACAGC
AGCTAAGCAAACTAATGTGGTTGGCATTGAGGAGCAAAATTTAGACTGGAATTTCTGATTTATTTTATTCTGTATAGCTTATAAAGCACTTATCACACAC
GCCATTTGAACTTCACCCAATCCTATAAAGTAAGTGTTATTATTAACTCCCGTTTTACAGATGAAGCCATTGAGGCTCTGAGAGTCTACACAAACACATA
GCTGCTCAGGGGGCAGGTGGAAATTGAACCTGGGCTATTTGATTTCAATCCCCCTTTCTTTTTATGTTTCTCATTTCTCTCCCCCTTTACTGTGAATGTA
GAGCATGCACCTGTTCTTTTCTATTGCAGTTCATTCATTTGTGCAACTGACAGGTTACCACTGGTGACTGTGGATTGCTGCCTAATGCTGGGCTGAAGAA
AACAACAAATTTGCCAATCTCAAAAGAGAGCATTTTTATTTATTGCTCAGCTTCCAGAACCTAATGCCTTTCAATTTTCTGTCATTGTTCCACTGAAAGT
GAAGAATGTAATGTTGATATACCTCTTGTTTTTTCTGCTTTTATGCCACTCCATGTGGTTAGACCACCTTTTAGGTGTTCATTCATTCCACAAATATATA
CTGAGCACCTGTTTTGAGCCCCGAGTTTGGATGTCATGTTTTTGAGGCAGGAGTTAATGTGCTCAGCATGAAGAGCTGGGTCTGCACAGAAAACTGCTGC
TTCTTGAGCCAGGGAGGTCTTCCCATGATACTATATTGCAGCTTCTTTGCTGTAATGAAAATACAGTACACCTTTCCCCAACTCCCAAATTAAGCTTTCA
GTGTTCTTCATTCTCTGAAAAACTTTTATAGAAATTCTAAGAAGTGTGCCTCAAAATAATATAGTAAGCAACCTGATATTACTGGTTTTATATAATCTTA
GTGCACTATCTTATTCATAATTAAAGTTACAACGGTGACTATGTGGAAGTATCTTGGAGGAGAAAGTGAATAGATGAGGTGGGGGGACATTTGAGTAATA
ACTTTGATTTTGGATGTCTTCTCTACTATTTTTAGATTATAATTTAAATAAGTTCATGTGTATTATATTATTTCACCAAAAATTTTACTTTAAGATATGG
AGAATGCTCCATTTTTCCCCGTAAGAGTAGCAATAATTTTTAAAATTGTCTTTTAAAATTAGATTAAATTACTTAATTCCAGAGACCTGTGTTGTTCTTG
TGTGACAACACAGAGTATGCAACTTTAAGTTACTGGCCGTCTAATTAAAAAGATGTTTCCAAAGTATGACCAGCATTGGAATTTGTTCAGACCCATATTT
ATAAACAGTAACTATGACAACTCATTCCTCCCAACCATGCTCAACCCYTCATACTTTCCCAACTGTCTGTTTTACAAGATGACATAAGTAGAGGGTTTGG
AAAAAAGAAAAAAAAATCTTTGGATGATAAACGCTTTTTGCAAACAGAGCCTATAAAGCTGTTTGTTCAGCAGCATGTGAATCGGACAGTGGGAGTTCAT
CAGACAGCAAGGATTAACCCCCTAATTTGTTTCTCTCTTTTGGAAGAGAACAGACTGCTGTGAATTCCGTGTACTCAGCCTGAGCTGCCAAACATGATTG
AAAACTATTTGACTGACTGGTGGCCAAAACATGAGGCAGGGACCATTCATCATTTTCCTGCTCTTCACTACCCCATATAATAAGTTTTGTTTTGTTTGAA
AGGAGTAAATGTATGTTACAGTTTTCAAACCAATGTCTCCGACAACCTAAAAGCATTTCAATATTGTACCCTTTTCCAATAGAATGGAAAGATGCTACAT
ATCTGTAGCAATTTTAACCAAATTCCTTCTAGTTACCTCCATTTCCAATGCAGAAACTCCTCTCAAGTGAATACATACACAGGTTATAATATACTTGATG
AGCCAGTTTCTTTAGGATGAGTACATACATGACTGGTTTTGATTTGACCATTGTGGTGTGCAGTGGGCTTACTGTGTCCATACCAGTGTCAGAATAGTCA
GTCCTCTGGTGCTTGATTGGGTGGCATAGCCCATAAGATTAGCTGACTTTTAAAATCAAAGTAATAGGAGGACTATGCAATGGAGACAACTCCTCAACAT
TGACCCATCCCCTCAGTCCAGTTCCATATGTTCCATTGGGAATTAATTTCCTGCAGGCATAGAGGAGTCGTAAGAGTTGCCTCTGCCAGAGAAGCCCCAT
CTTTCCTTGAGCCAGGAGTCAGTAGAAGATAGTAGGCTACAAACCATTTGACTATACCTCTATGATCTCTTGCCACTGAATATAGAAAAGGAGTATAAAG
AAGCAGTATAAAATATGAAATTGAATTGTCAGTGGCTAGATAGTTAGACATATAGTCTGGGTATTCAAAGGGAGTGCCTTTTAAAAATGTGCTCAACCCC
CATTAGCCCATGAAATGCCTCCTTTCCGTTCCTACACTGGCATATCTTTCACCAGAAGCATTTAACCAGATTCTAGAACCTGTCCATTGGGAATAATTTA
GTCACCTTCTTCAACTTATTTTTCTCTTTTTCCCCTCTCAAATGTCATTTTTTTTCACATGGCTCCAGTCTCAATTCTCCTCTTATTTTATCCATTGTCC
CCAGTAACACACTCTTCTTTGTCCATCTAGTCATACATCAATCCACCTATCTATTCATCCAATCAACTATTATTGAGCCCCAATTACATGCATGTGAAGC
ATATTCTCAAAGCACCATTTCCCTGGCCAAGCTAGGATGATAATGAGAGATAAGATGCTCTGTTTCAGTTTGGTTATTCAAAGCAGACCCTATAATAAGG
AATTGGGAGCAAGTAGTTTATTTGTTAGGTAATTCCAGGAAGCAACAGTGAGGTAAAGAAGGAGAGGAAAGGGGGAAAAAAAACAACAAAATAATAAAGG
TGCATTAAGATGTGAGAAACTGCTTATAGGCAACTGGGTTTAGTCCTGCTGGGAATTTTTTGAGAAACTTTGTAGAACGTGCCTCAGAATTGTGCCCCTG
AAGGATGAGAAAGCTGAGATGTTTATCCATTTACTTCAGTCCTCACTGGCTAAGAGTTATCTTGGGGGCATTAAATCCCTGGCATTTTCAGGATGCCCTC
CCAGTAGGCTTTGCAAGCCTTAGTACTGGAGAGAGCCTTCAGGCAGAAAAGCAGAAGACAAGGGCATGCATAGTTTCTGTTCACCTAGGCTGCAGGTGAA
CTCAAAAGTGGATGCAGAGGTTTTGGTTGGGGTGGGGGTAGGGGTGATGGTGGTGATTCCATAGCATCTGCTTCAACCTCTGTGTTACCACCCCCAACTG
CCTTAAATGGAAGCATATCAGAGTTTTTCATTTTCTGGTAAAGAGTACCAGGGTGGGCATTTACTCTATGTAATGTGCAGAAACACAGCACTGTGTTTAG
AATTGGACTTACTCATTTCCTGAGTATATGTATAGCTTCCCTTTCTCTACAACCTCTTTTCAGCAGATTTATGCAGACAAGAAAAATATTGTAACCCAAA
GCGCCACTGCAAATTTCCCTGTGCTGACATTAATCATGCCCATTTGATTTATTATCTATCATTTGAAAAGAATATTTTGCAACTCTTGTGCATTGATTTT
TTTTTACCAAGAATGATTACATCCATGCAGCATAACTCTTCTAAAGGCTAATGCAGTTTGCTTTTATCACCCATTCACTCCCTAATTATGGTGTTTTCGA
AAGCAGACACTATACCTGGAAAGTTGGGAGAGAAATATTTGATTCACCCATCTTTCAGAGAAGAGGAGATGGATTTAAACCAGGCTAGATACTGTAACTG
ATTATTGAGTATTTGGCTTGGGGGGCTTAATTTACCAGCTACCATTGAATTAATTGAAATATAAACTTCTGTGGATATTAATACTTTCAAGAGTCAAAGT
TTAAATGCCATCTACTTTGGATCCGTTCAAAATATTTTCACTAACCCTTTATAATTTAATTGACTTTTTAACTTTTTTGTTCTRTTTTGTTTTAACACAG
CGATCTACCCTTTTATGTAACCCCTTCTGCTCCACATATCACTGGGCTGGGGCCAAAAGTAACTGAGTGACTAATATCTGGGAAATATTTATTGAATGAG
TGAAAGAAATCCACTTGGGATTTATACCCAAGAACAAATGCTCATTAACTGTAAATTCTCCTTCTTTTGAGGTTCATATATAGATGCTCTATATGTGTTT
ATCAAACACCTATCAGGTTATGAAAAGAATGCAAGAATGCCTCTCTTTTCTCTCCATTTATCCAAATCTATCATTTAAGGCCCTGGCATAATTTCTCCTT
CTTTAATGAAGCTGCTTCAATTTCTTCCAATTCAGTGCTTCATATACTTGGCTGCAGTTGGGGAGCTGTAAAAAATCCTGTTGACTAGGCTACACCCTAG
AACCCTAGATGATTTAAACCAGAGCCTTTGGGTGTGGAATTCAGGCCTCTGCTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCCATCCCCCAGGCTGGA
GTGCATTGGTGTGATCTTGGCTCACTGCAACCCCGTCTCCTAGGCTCAAGCGATTCTCGTGTCTCAGCCTCCTGAGTAGTTGGGATTATAGGTGCCTGTC
ACCACACCCAGCTAATATTTGTATTTTTAGTAGAAACAGGGTTTTGCCAGGTTAGCCAGGCTGGTCTCGACCTCCTGACCTCAAGTGATCTGCCCGCCTT
GGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCAAGGCCTCTGCACTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCAG
GCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCTGCTTCTTGGGTTCAAGTGATTCCCCTGCTTCAGCCTCCTGAGTAGCTGGGACTACAGGT
GTGCACCACAACGCCCAGCTAATTTTTTGTATTTTAGTAGAGATGGGGTTTCAACATGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCTGCCC
GCCTTGGCCTCCCAAAGTGCTGATATTACAGGCATGAGCCACCGCGCCCGGCTGGCATCTGCATTTTTAAAAGCTCAAGTTATTACAATGTGCAGCCAAG
GTTGAGAACACCACTGTACCTGGATGTGATTGCTCTCTTCTCTGAAAACCTAGGAAACCTCGATATTAAAAGCCACCTCTTAAGGACAGTTGTAATTGGC
CTAGTATTCTGGCTTAAGTTACTCTGAAGATCAACTAGCCTAACCACCCTTCCAATTCCAAGATACCTCTGACAGCCTTCTGGTTGTCCAGTTCAAATCC
TTAATACTGACATGGAACTTATTCCCAGTGCAGCCTTGCCCATCTTTGGGCAGCTCTGACCAGTCCAGATATAAGTCTGTCTCTTTGTAGCTTCAAGCTA
TTCTTCCTGTCTCTATCACTTTGGGGTGGGGCTGGGAGTGAGGGAATCTTTCTAACAAGTGTTTTAAATGTCTGAATAATCTATTTATTCAATAAACGTT
TATGGAATGCCTCCTATGTATTGGACACTGGGCTACCTCATTGAAAAGCGATGTACAAATTCCTAGGAGGATTTGCAAGCCAGTCCTCCTTTCTTCTTTT
TCTTCTTCTTCCTCTTCCTCTTCCTCTTCCTCTTCCTCTTCCTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTCCTCCTT
CTCCTTCTTCTTCTTCTCCTTCTCCTTCTCCCTATTCTTCTTCTTCTTCTTCTCTTTTTATTGTACTTTAAGTTCTGGGGTACATGTGCAGAACGTCCAG
GTTTATTACATAGGTATACACGTGCCATGGTGGTTTGCTGCACCCATCAACCTGTCATCTACATTAGGTATTTCTCCTAATGCTATCCCTCCTCTAGCCC
CCAAGCCCCGGAGAGGCCCCAGTGTGTGATGTTCCCCTCCCTGTGTCCATGTGTTCTCATTGTTCAACTCCCACTCATGAGTGAGAACTTGCATTCTGTT
TGTTGTTATTTTGTTATTAAGCTGCCACATTTCTGACATAAAAGAATATCTTTGGCTGCAATAGTGAAAGAGAAAATGGGCGTAAGCTGCAACATGAGAA
ATTTAGGTAGCAGAGCGATGACTATTAAACTTTGAGAAGTTTTCTGTTTAACGTTGTGAAATCTTTCCTTGAAGCTTTAAATATGACATACTTTCATGTG
ATTCTATTTATATACTGCCTTGAGGGCAGAGGGCAATGCCCTGTGTTCCTTCTGAGGGTTCCTTCTGAGTGACTCTAAGTCTCTAGATGAGGTAGCCCTG
AGGAAGCAAGAATGAATGATTAAGATACTTCCTGATGATGTTTTTAGGGGAAAGATAAACAAGGTTGCTTCCCCTGCTGGCTGGTGTTCCCCATCGTGCA
TGCATCCAGATGAGGTCTCCAAGGAAAATCTTGGTCCAGCAATGCTTGACTGTGCCAGTTCCCTGATGCTGATGGCTTTGCTGGGAAACAAAGCACATTA
AGGGTGGATCTAGGTCACTCTGGACTTCATACCTTTCCAAGGCAAGGAAAGGCCAAGCCCCAGGGGCTCCATTCACATTATTGTGCTCCTGAGGGGTTGC
GCTCCTAGACTTCATCAGTGTCACTGGAAATGATACCTCCCACAGTCATTTAATGAGGTAGTCCTGGGCATATAGCACAGTGGAGATAGGCACCTTGTCA
AACAACTGGTGCTGCAGAAGTGCTGAAAACCCTATGCTGTCTCATTGGAGGGAAGGTAAGGGGTCTCAGAGACTCTCTCCTAGGAATTAGAACATGGTTC
CACTTACTCCAACCTAGAAACACATCAGAGAGGAATTTTATACTCCAGGAACCAAGCTAACTAAGATGTTTCCACCACCTTTTTTTGCCTGCTTAGATTT
CAGATCCTTCTTTCTTTCTAATACACCAAGCCCTGAGATGACATGGGTTCCTTCTAATCTCAGAGTGTGAAATTTTCTCTCTGGAATTTAATTCTGGTTT
ATTCCTCCACCTTGCCCTGCTTTATCCTGTGGCATATGTGATGCCACAATGCAGTTGTGACTTCCCTGGATGCATCAGCGTTAAAGCAGACACAAGCACT
GAAAATATGCAGGGCCAGACCAGCAGGTCCCGTACAGCTGAAGTTCATCATGGTGTTTTACAACCAACCAATTACTCAATTCATTTTATGGGTTGACTGT
GCCCATCTTTTACTCTCATGAAGCATTTTCTATCGTAAGACAGAAAGCGAGGGAAAAGTGCTCTTTCAGTTCCAAACCCTGGGGCATTTATGCACTAATA
ACCTTCCTCCTTTGTGCTTTTCCAAAGAATGTAAACCAAAGCAATTAAATTAAATGGAGTTAACATTGGCATGGTAGCATAAATCAAACGTCAGGAAATT
CATTATTAAGGGGTTATCGTTCCTTTCTTATGAGCTATCTAGTATCTGCCTTCTCTGAGGTAAAAATAAGCCAAAAATTTGGTCCTGATATAAATGAGGG
GACTGCATGAGAGAGAGACAGACAGGGAGAGAGAGACCTTGTGTTTAGCAGCAGATAGGCAGACTTGTGATTTGTGGGCGAAACATGTTTATCAGATGCT
TGTCTCTTTGCCTCTTAATCAGGTTCTTCTTCCCATGGCATGCTAAGCAGGCAAACACAGTTAAGCAGTTTACCTCTGTACTCAACAGTTCCAGAACTGA
AAGTAAACAGCCTTGTGTGTTTAGGCTGCAGCCACCGGGCTGTGCTCTGTAGAGCTGCCAGATTTCTCCACATCACTGATTCTCCCAGTGAAAAGCAAAG
GCTTCCTCTTCATTGTGTTCACAGACTGAAAGTTGCTTGCAGGATTGGCTTCCGAAGTTCAGACCCTGATGAAGGAAAATGATACTCCGAGTCTGAGGGT
GGCAAATCAGAAGAAATAATTTGTTTGGATTCGGGTCTGATTTTAATTTCAGGAGTCTGGGGCCTGAAAGCTTTCTGCTGAGTCTGAACACAAACCCCAA
ACTTCTCAACTCAGGTTGCTTTTAAGGAATTGTAAACTATTTAAAACCTATATATTTAAAAAATTATAATTTATTCCCAATGAGAGGATCCTCTCCCCAG
CCAACGTCTATTTTGCACATGACTTTCTAATGAACTGTTAACAAGCATTTATATTAAGAGCTTGCTCGGGCTTTTGAATGATGGAAGATAATTCTGATTT
ACATGAGTGATAGTTTAAAATTCCAGGTGCTTTATTTCTGTTTATTGGGGTGGGACAGGGGAAGGACTAAAACTGCCTACAAAGACCCTTTCAAAGGCAA
AGGAATAGAATGTATAACATTCCATTTTGTCAGCATGAGGAAGGTCTTATTTAAGACTCTCTGAACAGATGTGACCAATTGTATTGGTGAGGAGGAATGT
TGGAAGATAAGATGTTCTGCTCTGTTTGAATGTGTATTTTTAGCAGTGTCCTATTGTAAAGAAGTTATGCCCATTATCTTTTGACTTGCTTTATCAGATT
AAACAAAGATGCTCATCTTTCTAGGCTTTCTAATATGCTCCCTCAATGCAAGTCTCTCAGCTCCAATGCTGTGTGTTAGAGTGTGATACCCCCTCCTGTT
ACTCCTATTTGGCTGAATTTCAGAAATCCATTTAGATACTCTCACGGTTTTGTTCAGCATTGCTCAAAACATGGCTTCTCACCAATTCTGACTGTCTCTC
TGAAACATGATTAATTTTTTCTATGTCTATCTTTACACTGTAGAGTTTAGGTTGAAAATATACTTTTACTGTAGTCTCTTATTTTCAGGAATGTGTACGT
AAGCACCCAAATGAATTCTACTCTGAGATACAATTACCCATGTATGCTTCCAACTGAAAGCATCCACTGAAAAAATATAGATAGAGAATTCAGTAGCTCT
GACTGTTAGAGCATCTCAGTAGGCAAAAGTTTCCTTACAGTAATTGCTATGCTTTGGAAACAGCATTTTCTGTGTACTAAGAACTCAAGGGAGAGCTGTG
TTCAGGTCAAAGCTTGGGTGAGGTATAATAAGAAAGAACCCCAGCTGGAGCAGTGAAAAAACCAAGAGGCGAGAATTTTGTCCTCTCTGAACTTCTCGGT
TAGAAGATTAAGAGGGAGATATAGGTTCCCTGAGACATATTCAGAAACTATAGGGGTTTCTATGGCAACAGAAATGAAAAATGAAAATACAGTCTCATCT
TCTCTTGTTAAGATCCCTCAGTTTCACATGAGCCCAAGATCAAGGAGTCAAATACAGAGAAAGTCACAGAGCAAAGAGGGAGCCATGTTTCTTTTCGTCC
AGCAGATGGCTAGCAACAAGAACTGCTTAGAAGACCTTCACTTGTTGAGGAATTGAGAGAACTGTTGAATTTCCTTTTTTCCAGGTGATTTTTGGGAAAG
ATTGAAAAGTTAATCCAAAGAGTTGGTTGAGATAGAGCATTTATCTCACTTGGTAGCTCCCCCAGTGGAATTGAAGTCCACAGAATTGCTGTCTCAGAAG
TTTCATTCTTTGGTTAGCTGTTTCCAAAGTGTAAGTGAGTCCTTCACAAACATGATTACCAAAAGTAATAAATAAATACATATCTGGCAGTGAGGATGAT
TTTTTTTGGAGATTTTTAGTTTTAAACCACGTATTTTACTGGAAGTATAATGCACCCATTTCCCAGTGGTTACATGGAAAGACTTCGTTCCTCTTCTGGT
TCTCCCAGCAATGACTTTTCAGTCACTGAAGAATTCAGAGGACAATGACAACTCCCTTCACAGGATCATACAGACACCTGTCATTTGAATGCCTGGGAAA
AGGATAGGAATGGAGATGTATCTGGTTGGACTCCAAGATAAGGAAAAACTTTTGATGGGCAATTGGAATGTCAGCAGATTTATATCTCCTTGAACTTGGG
TCTGTCAACACTGCCATGAGAAGGAAGATGTTTTTCCCACAGAGAGACATTTATGGGGCAAAGACAGACATCAGTGTGCTAAATCTTATAAAATTCCTTT
GCATCATCCACCTTGACAGATGGTCTTCAGGAATGTGCTGAACCTCCAAAACAGAGGGTTGGGAGGAAACYCAAGAGTGTTCTTCMCCTGTCTTCTGTCA
ATGACTACGACACACTGAAGGCCACATTGACCTTCCATCAAACATACATGCRGGCTTCAAGCCACCCTTCCTTCTTCCCCGTAAGGGACAGGTTGAAGCA
AAGATCATGCTATTAGGTATTAGGTAACAAGCCTCCACTTACAGAGTATCCTAGGGATGAAAACCTTTTTGCCTTATAGCCATGCTAGCTTCAAACATGA
GATAGGTAAAATCGTTTTGTTTTCAACTTTCTTTCCATTTACTTCCCTTTAACTTTTCTATTATGCCACAAAGGACAAGTATGTGTTTTCCTTATAAAAA
GAAGTTTTGGCAAAAAATGAAGTTTTGGTCCTATAGTTYATAGTGGCCCCAGAAAAAATTGCCTTACTATTTCCACAACACCATTGCTTGTTTTTTGTTT
TTGTTTTTTTATATAGTCCCACACTTTCTTTTGCTCCTGTTTCATTTACTAACTTGGAATGCTCACGCTCCTGGGCCTGATACACTCCTAGGATCACCTA
GGCTGGGTGAAGCTTGGCCTTCAGAGGAGTAGACAGAGCAGGAAGGATGACCACTATGGTCTTAGCTTCCTTTAGTATGACTTCCCTTTCTTCAGCTGGA
GTCCCTTCCCTAAACACCTGCAGCCATCCTGTGGCTTTGCATAGTGGAGCCCAGGGACTAACACGACAGTGGTCTGAGTGTCTCAGACTTCGAGACTATT
GCTTTCTCCTCTGTTCCAATCTCCAAAAAGAGTTCTATGAGAATAATTGCCCAAAGAGAAGGTACTTCATTTGGTAGGGCTGGGAAAAGAGGCATCAGAT
AGCATCTTGATATGGTGAAAGATTTGAACAGACAAAGATCTATCTGGTGCTAGTTTAGTTGCCTTGAATCATCGTTACAGATCCCTCTGGACTATTTCCC
TTTAGCCAATCAGCAACTTCCCCAGGGAGAAACTTGAGATCTTTTATTCTAGATTTCTGGATCCCTAACTTGTTCCAATGTTCCTTTCTTTTTAAAATTA
TTTTTAGTTTTCAATTTAAAATTTTTTCAAACATATTTTTTAAAAATGCAGAAAATCAGAGAAAGGGCAGCATGTATATATTCACTACCCAGATTGAACG
GTTGTTAACACTTTGCTATGTTTTCATCAGATAACTTGGGAAGAAARGAAGGAAGGAAGGAAGGAAGGAAATAGTGCAAATATAGTTGAAGTTTTACTCA
GTATTTCCTGCTCTCTTCCCTTTCTTCCCTATATAATTTACTTAAAAGTTTGTATATATTATTCCTATGTGCATTTTGATTATTTTTATTACATATACAT
GTTCTCATAAACCACATAGTTATTGATTTTTAATATTATAACTTTAAACAAGCAGCATCATAAAGTATGTATCCTTTTTCAACTTGATTTTTATTCAACA
TTATTATTACATTTTTAAAGACTCATCCACATTGATGTATCTAGCTCTAGTTCATCCATTTTAATTATACGAACTAGAGTTCGTTAAATGGTATAGTTGC
TCTAAATGCCACTTTACTATACAAAGCTGATTATGTTTCTTGCCTACTCATAACAACCCAGCCCCAAACTGCCTTTCCAGTCATCGTGAATTACATGTTC
TTGGACCCTTTCCCCTTGGTCCTCCTGTCTTTCAAAAGATGTGCTACATTATGTGATGAATTAATTGTCTGTGCTTTGACCCCAGTGAGTACAAACAGCT
TTGTGAGCAGCCTCTTTCAGGTAAGAGAGTTCATTTGAGATATGAGATTTTGTTTGTTCACCATTATCTTTCCAGCATCTAGGAGAGTGCTTGATTCTTA
ATAGGTGTGCAATAGATATTTGTTGGACAAATGTCTGCATGAGTGAGTAGACGGCTGTGGAATTGGGTTTAATGCTGTGATTCCAATGCATATAATAAGG
AATKAAGTTCTTTCCTAAAATACTCACATCACACTCTAGCAACCATTGGCTTCTTGCTAGTTGATTTATTCTCTAAGAATTGCCACAATAGATTAAAGAG
ATGATGTTTGTCAACTCTTTCAGATGGTAGAATCCTTGCTTGCCTCAGAGAGGACCACTGAATGTTTGCAAAGAACTACCACAAGCCCTCACCATGGGGA
ATTGGTGATTTGAAAGGCCTGGCAGATGTTACACTCTTTTGCCATCTGTCTCTTGGAAGTAGCTTCAATTTGGCTTTCAGTAGGCCCCAGCAAGGTCATG
AATATCAGATTTGGTGAGAAAACGCCAAGTGTGTAGCTTCAGTCAAAGGGAGACAGCTTTTCCCTTATGCTGCTCTTCTCAGCAGCCCAGGCCCATTTGT
TCTTCCTCTGTGTGGAACTGGATGCTCCCTCCTGTAGTAAATGGTTAGAGGGTCCAGAATGAAATGGAAAGTGGTCCTGTATCATCAGCAGTAGCTTCTT
GTGGACTTTGTCACCCTCATTCATTCAACAATTGTTTACTGAACAAGTAATTGACAAGACATTCTAACACCGACAAGTTGTGTTTAATTCAGAGGAGGAG
ACTGAACGCTGGTGTTTCCAAGGCACTAAATAAATGCTAAAACAGGGAGAGGAAGCACACAGGGCAGAGGAACACTTAGGAGGAGCACCATACTATTCTA
TGGTGTGGTGGTCAGCAAAAGCTTCCTGGGGGAAGTGACCTTATCTGTAAAATGAAATGGGATTAATACCCATGTTGCAAGATGGAGCCAATGTAAGGTA
ATGTCTTTAAGTTTCCTGCTGCTTGCTTAGTAATAGCAGTGATGACCATGTGGTATTGATGGTGATGACAGTGATAGAGAAGAAAAAAAAATGGCTTCAC
AACCAGATAGTCCGGTTTCAAATCCTAGCTCTTCTTGTCCTTAGCTCTGTGGCCTTGAGCAAATCACTTGGCTTCTCTGTGCCTCATCTATAAAATGCGA
ATAGTGCTAYGTACCGCTACCACAACTGTAATGATTGCAGAAAATGTTCACAAGGAACCTAACAGTGCCTAGCACCTGGAAGGCATTCAGTAAGAGGTGA
AAATGCAACAGGAGCTTGAAGAGAAGGTAGCAGTAGGAGCCATCAGTGGATATGGAGGGAAGAGCTCTGCATGTGGAGTCTAGGGACCTAGATTCTCATC
TGACTATCACTGAGAAGCTGGGTGCCCTTGGGCATGTCATGTCTGGCATTCTCTGGAGTCTCCCATCAGTGCAGAGAGGCCCATCCATGAATCAGGTAAT
TTTTAAGTGAGAGAAACACACAACAAGCCTAGGATTAAGGATGGTAGAGAGATTACTGTGTGWTGCTATGGCATGGGAAGACTTTGTGGAGGAGAAAGCC
CTCGGGCTGGATGCTGAAGGCCAAGTAGGTGTTAGACTGGGGGAGCTAAGTGAAGAGGGCATTCCAGGCAGGGGCATGATTGAGCAAAAGGGGCCAAGTC
ACGCATTAAGTATGTCAGCCGCTTCCCTCATCTCCTCACCTCTGGGGCAGCCTTACTCGTGGAGAAGAATGGATAATAGGAAGGTCTTGACTTCAGCTCA
GAAGTTTGTTTCTTTGATAGTCAGGACTGGTTCTGGGAAAATTGTCAAGTCATTGAAGTTAGTCTGTGCGACCATTCATCTTAATGTGAGCAACCCACGT
TTTTTGCCTGCACATTGCTGCCACCTGGGCTAAACAAGCCCCCCACTCCCACCCCACTTTGCAAGCCTACAAAATATGCCCTGTAGAGCAGCTCCTTTTT
GATTCTTATTTCCACCCTCCAAAGCATACCCAGAAGCACAGTATGTCAAAGCTTAGAGGGAGCTCGGAGTTCATTATTTTAAGCCCCCTTATTTTATTAT
GAAGGGCCATACCCAAAGATAAGCACTTACGGGCAGAAAAGGAACAGAGACAGATCATCACGGTCTCCCAGTTGTGTTCTTTCTTCCACTATGCAGCCTA
CATTTCTCTCTACCATACATTTTGATWACTTAACCTAGGACATCAATACCTATGTATTAATCAGGACTCTTGGGATTTTAAACGTCAAACACCTAGAGAA
ACTTGTTTGATAAGCAGGGAAGTTATTGGCTTGTGTAACTGAAGAGTTTTGGTAGGGCTGAATCCARGTTTCCAGAAGATGTCAGGTGTTTGCCTCTCCT
TCACAAGGCTTAACTTTTCTCAGTGTGGCTTCATTCTCAGGCAAGCTGCCTACAAATAGTGTCCAAAAGGCCTTAATGGCAACAGGCTTATATCCTACAA
ATAGTGTCCAAAAGGCCTTAATGGCAACAGGCGTATATCCTACCATCTTGGCATCCCAAGAAACATAGAGAAATGTCTCTGGCATAGGTCCTAGATAGGG
TTTTCATTAATTTGGCTTGAGACATGTGCCTACTTTCATTGTGATGGGGTTATAGAACTGTGATAGTCTTAAACTAGGTCAGGTACCCACCACTGAAACC
AAGACTCAAGGTCAGTCTCACCCAAWCCATGGATGACTGTGGGGAAGAGGAGGTTCCCAAGAGGTTACCAGGTTTCTGTTTCCAAAAGAGAGGGAAATAG
ATGTTAAGCTAGTATGTGTTCACTCACCCACACATCACCCTCACACAACCCACCACAAGCTGATAACAGTTTAAGGTATTGTATTCCTGATAGCATTAGC
CTTTTGTGAAGGACTGTACGTGTTTTAGTTGAGTATAACATGGAAATTTGGGGTACCATGGAAAGGCCAGTGAGGGGGTTAGAGAAGGTGGAGATTTTGT
ATTTCAGGGTTTTTTAGGCTCCCTCAAATTATAGCACAAAATATCTACTTTGTGGCATAGCATAAAATACTTTACTTATAAATTCTGTCCTGATGATAGC
CAGGAACTCAGCCTGAGATGAAAAGGTTTCCATTAGTGAACCACATGTAGACAATTGTAAGTTAATGCTAATTCATTATCCTCACACCTGGGCTTTCCAA
ATTTGTCTACCTCTTTTTTTTTTCTTAACCATGTATTGCTTATCTTTCTCATGAACATAACCAATGTCTTATGAGCCCAAGTCAAGTAGTGAACATCAGA
TAGGAAATTATAATTTTGTGTATATTCTTTCCCTCATTTTTGTGGCCTTTTTGTGTAGTTCTCTTGTGCCTGGAGAAAACTCAGGGTTTGTGTGTTAAGA
ATGAAGTGCTTGCATTCCCTCACCCAGATGCAGTGCAGCAATGGGGTACAGTGGGACCACATTGGAAGGAGGTAAGATTGGTGGCAGGTAGTTAAAAGGT
AGCATTGTTTACTGTGGGTCTAATGCAGTATTTCTGGACTGAATGGAATGGAAGTTTTGCCTAACATCTTTTAGAAATTGTTTTCAGGTCTGTTTCAATT
CCTAATGTTCTTTTATATAATTTCTGACTCATTTGCTTAATGGTTTCATTTGTGTTTAAAAAAGCAACATCAAACCTTCATTATTTACTTTCCGTGATGC
TTTAAATACCACAGAATTCAGTAAGGCCATCAAAGAGACAGAGAGGCCAACATTAAACATTAATTTTTATTACTTTGGCAAAGAATTCTTGAGATAATTC
AGCACAGAGGAACCAGTACAGGTCTCTGATAGCTGTACCAAGTGCTGATTAACTCAACCTCACAAAATCTCTTGCCTGTCAACAATTAGTGGAAACATAC
AGAAATATCTAAATATCCCAAAGATATTGGGGAGATATTTGGAAAGTATATGAAAACATTTAGAAACATCAGAAGTTTGAAAAACAAAGTTTTCCACATA
TATGAATGAGACTGGGGAAGGGAGTATGGTCTGTTTTCTTCTCACAATTTTATCACCCTGGCAGTTATTGGTGGAGAGAAGGTTCTCAGTAAGCATATGA
CGTATCTATTACTTTATCTTTACCTTGATTTCTCCATTCCCATAGCTTTAAAAGTCATTAGAGGAGATAAAACAGGGTCATTTATTTTGTATTGTCATAT
GTATGGATTTAGCAGCATGTGATATCTTTCCTTCCTTCCTTCCTTCCTCCCTCTCTCCTCCCTCTCTGGGTATTCCCTCCTTTCCTTCCTCCCTTTTTCT
TTCCAGTATTTAATGACTCCTACTCTATGTCATTGTCTCTTATGACTGAGAGATGCATAAGGCTTAGTCTTGCCCTCAAAAAGCTTACAGTTTTTTGAGA
GGTTACACACAAGTAAATGGGCAATTTCAATATAGTATAATAAATATTATGATAGAGGAAGTACACAGTGCCTTTGGGTCATTTAAGGAGAGCACTTAAA
CTCAGGGAATCAGGAAAGCCTTGTCAGGGGAAGTGCCATCTAATCTGAGTTTTGAAGGACAAGTTGAGTTAGCCAGAGCTAGTTTTCTATGGCTGAGTGG
GCCAGATGGGAGGAGCCTGGACCTGAATTTAATCTCCCTGCTGGGGTAAGGCAGGTGTCGGTGGCCACCCCCAGCTTCAGGTGCTCAGATAGAGTCCAGT
CCAGTAGTCATAGCATGGTAGCCAAAGGATTTTGCCTTGAGTTCATAATCAAGAAACGCCTCCAGGCCCTGGGGAGCAAGAGAGGAGATAGTAGTACTGG
AAGTCTGCCAGACCTTAGACCTTAGGAGAGACACTTGTATGAACATGGTCAAGTGAAATTCTAGTGTCTGGAGACCATGACACAGCTCAGCCTGCACAGG
GCTTGGGACGTGAGCTTTGTATGCACAGTGCAGTCCAGGATCCAGCCGACAGTCCAGTTGTTGCCTATACCCGCAGTCAATTGCCATGTTTTTTAGGAAG
CCTCTGTCGAGCGACTCTAGAGGTGTTTCTCCCTTCCCTCTTATTACTAAACCTTACAGAAGCTAAGCTTGCTTCTAAGATATCTTTTAGGTTTAATATT
CACAGGATTACAGTGTCTGCATTCCTTAGACGCTCCTATCATGCTGTGCTAGTCGGGCACTGTGCTAGGCACAGGGAATGTTGAGATAAAAGGAASTTGG
TTTGTTGTTTAAACTACCCAGATTGTGCATTGTTAAAAATTATTATTTTTTTGGAACTCTTAAAATTTTGTTTTGCCCAAAAAATTACATGACACTTTCC
TCTTAGAAATAAGTTAGTTATATAATACAGAAATGTAAAGGCCAAAACATTAATATTTTCCTTCTTTAAATTCTAGCTTCTTTCACCAGCGTTAACAACT
GATAACCTTCTCTTGTGTATCTTTTTAGTCCATTTTCTATGCTTGCATATCCATATATAATTGTATCAGTTGAGATTCCAGTAGGAAACAGATGGTACAT
TCAAATTAGAATAATTTAGACCGGGTGTGGTGGCTTATACCTGTAATTCCAGCACTTTGGAAGGCCAAGGTGGAAGAATCGCTTGAGGCTAGGAGTTTGA
GGCTGCAATGAACTAGCATGGTGCCATTACACTCCAGTCTAGGTGACAGAGCAGGACCCTGGTCTCTAAACAACAACAGCAACAAAACCAAATTAGGATA
ATTGAGGTTTAGTTTAATAAAGGGACTATTTATATGATGTAGAGAGGGTATAGGGAAAGCACAGGGGATCATGWTTATCAACCCTAAATCTGAAGGGGCA
CAGAGAGGAAGTGGTCATGGAAACCTGGACACAGAAAGGGTGCTGCAGAAAGGACCCTCTAATGGGCACTGAGACCTGTGATGGAGGGATGCAGCCAGTT
CTTAGCAACCACAGGAAAGGGGCTGGGAATAAATGCACTCCTTCCTCTCTGCTTCTAAGCGCCCCCATTGACTGAACCCTATGGGAAGCCAAGGGAACAA
GAAAACCTATTGATGTAGTCCATATAGGTCAGCCCCCTTAGCCAGAGAGCTGAGTGGAGAAAGGTGGAGAGTGGATCAGAGGGGCAAACAGAAGGTCTCC
AGTACAAATACATACATAGCATATAGTTTTAGGAGCTTTTACTTTCTGTGCTTCCTTGTTACAGAAATGAGATTGTGCTGTAGTACGATTCTGGGACTTT
TTGTTAACACAATTTGTCTTGAAGCCTTTTTGCATCAGTATGTATGGATCTAATTTAATTATTTTATTCATTGGCTGCTTAGTATTTCGTCATACAAGGT
ATCTGAACTTTTTAAAATTATGTATATGTAATAGTTGGTATATACAACAGAATATGTACCACCTATGTGAGTTATGAAGCCTAGCAATAAAACAGTCATC
TGTAAATTTATCTCTCAACCTAAGATCACTAATACCATCGACCTTAGTCAATCAAACTACTTGACCTCAGATCATCAGGCAATCAGGCATTAGTTAGAAT
TACCTAAGGAGCATGCATGTGCAGTTCACAATAGGGTTTGGGTTTCTATGAGAATCTAATGCTGCCACTAATCTAACTGACAGGAGGCAGAGCTCAGGCA
GTAATGCTCACTTCCTGTTGTGCGGCCATATTCCTAACAGGCCACAGACTGGTACCAGTATGCTAGCTGGGGGTTGGGGACCCCTGCTATACAGTCTTCC
TGTGTCCCCTCACCCCGCCAATGCTAGTCTGAAGTTTTTTGTGTTAATTCTCTTATACTTTTTAAAAATAGTTTTTCCATATTATGAGTATGTTGAAACA
ATATATTATATAGTTACTTTTTAAAAAGCTTTATAAAATTGCCGTTTTAGTTGTACATAGTCTTTTACAATTTGCTTTTTTAACATAGCATTCATATTGC
AGTGTGCAGCTGTGCTTCATTTATTTTCATAGCTTATAACACTCCATTGTGTGAATATGCCGCAATTCACCTCTCCATTCTACTGTTGATGGACTTTTGG
GTCATTTCCAGTTTTTGCTGTTTCAAACAGTGCTGCTTATGAACATTTTTGTCCGTGTCTCCTGGCACATACATACAAGAGTTGCTCTAGGGTATATACC
TAGGAGTGGAATTTCTGGGTCACGAGGTTTACACATACTTGGCTTTGCTAGGTWATGCCAAATTGTTTTCAATGGGATTATGCCAATTTACATTCCCATT
AGAAGTATGTAAGAATTCTGGTTGTTCCTTTTCCTCCTTAGTGCATGGTATTTGCAGAAGGCTTAACTTTTTACCATCAATACTCTTTTCAGGGATACCA
AGCAAAAACTTAATGAGAGTCTGACTCTGTTATCATAATAAATATTTTTCTACTTTTCTCTGTAAAAATGATTTTCTCTTTCTTGCCCTATTTTTTTTGC
CTCATTGTTCCCTAAGTTTATGTCATCTACTAATAAATTATATTTAAAAATAATTAATACATTAAAACAAATCTGCCAAATGGGCCTTTCAATTCTTTCC
AACTCTAAAATAAATGTAATTCTAGTAGAAATCCATATACAAATCATGGTTCATAAAACTGAAGGTTAACATTGCTRCCATATGGAGAAGTTAGCTCACA
TACAAAAAGAGAAAACCATCAGTTCTCCAAATATTTCTTTTTACCAAATTTGACTTTAACAGCAAACTGGATTGTGTGTACTCTTGAAAGGAATAGTGCT
CCATCTTGCTCTCCCTCTCTTTCTTCATCCTTCCTTAGTTTTGTTCTTTCTTTCTTTGCTTCTTTTATGTATTCATTCACTGATTCACTAAAACCCAGTG
GAGAAGACAAATGAATTATTACTGTGTAGCCTGCAAATGGGATGATGAGGAATGGACAGATGTCTTTTGGAGTGAGAGAAGGAAACTTGACTTCTGTATT
TCTTGAGTTCACTTCAGTTCTTAAGATAAAGTAGGTTCTACTGAGTATTTGCTAAATGAATGAACAAATCAATACTCTAAAATGTTTTCAGCTTTTTACT
CATTGYAGTGTAGGAAGAGCTACATGGAGTTGAATTTCTATCAACTAGCCCATCTTTTATTACTGGAGTTAGTCTTCTTTGGTAATTTAATACTCAGAGT
ACCTCATATGATCTCTTTATCGATGCCTTCAGGAGACATTAAACGTTCTATCAATTAATTATACTTAAAAAGAATACCTTTTGGATTCATTCAAGCACTT
CATCTTCTTTCCCCAAATCTTGGGAACTGGTGTCAGCTCCTTAAAATGAGCCAGCATGCTTTTTCACCCTCCCATATAAGTAAGAGCTTGTAATCACCCA
GTGTTTCTCTGACCTAGAAAAGCTGAGAAATTCACATAAATGAAAACACAGGGGCTTACAAAATTGCTTTCGGCCCTCTCCCTTAGAAGCATATCTGGCA
CTTGGTAACTGGCTGGATGGAATGTGGGTACTACATGGAGTGCCCTGGTGCTGCTGCTGCTGCTGCTGCTGCTAGGCTTATATAACTTTGAAATCAGAAA
GCAGATTCAGTGGGGTAGGGGAGAACTGCTTTTAACAAGCTGCTGGGATTGGCTGAACTTGTGCTGGCCTTGCACTCTTACTATTATAAACTTGATGTCT
TTCTCATTTGTAAACTTTATTTGCATGCCAGAGCTCAGCTGAATTTGCCTGGGTTCCTAGTTTCTTTAATCTTTTGTCCTGACTGGCTTGCATGTAAATC
AGCTTCAGACTTTCAGCTGCCCATATATTGCCCTAGTTTGCACTCTATAAAGAGTTCTTTCTTTGTAGGCTCCTGTCCAAAGCATGGCAGTATGTCTTAA
AACTGTACAATATGGTTACTATTAGTAGTAATGAGTTGTTATTGAGTGTCAGTATGAGGTTGAGTAGATGGAGCAACCAAGGCAGCTTAGAACTGAGGGT
TTCCCAGCTAACATGCTGTGGAACCCTGGAAAATTTGCCAAGCTCCTCCAGGTCTCCTATTCCATCCTGCCAGAGGTGATGTTTTTCTTTCCTGCTAGGT
ATGTCATGAATATAACTGAGAACCATGATTCTAAAACAATTAGAATGAAACTTTGTGATTTTATTTGATGAGATAAGCACTGTTTTCATATCTTTACATA
CATACTGCGTTGTTAAGTCCTATTGTCATAACCATGAATTAAATGTAGTCATTTTTATATTTTTAAATATAGCAATGCAAGAAAACTGAACTGATAGAGT
GATAATAAGGCAGATAAGTGAAAGAGGAAGGTGTTTAGCCATTCAAGCTACTGCTGAAATAGTGAATCTCTTTAATGGTAATATATGAGCTGGAATGTTT
ATCCTTATCCTTTCCTCTAGAGAAGATTAATTTATTTGGCAATATCTAAATAACTGAGAATGGTATATTCCTCATTCATAACTTAGAGAAACAATTTGGC
TACTTTTGTTGGCAGAACCTGAAATAGCATTGCCCTTCCAAAGACTGTTTAACTTGATTTCACAAGTAAACCACAAAATGCAATTATTTGATATTTTACC
ATATCCCATTCCCTTCTTTCATCCCCATAATGCAGGGGGCTGAGTTTGGATTTGCAAACCTTACTCCTTAGCCTAAGCCCTTACAATTGTTTGTATGTAA
TGCCAGATGCATGTTAAGGAAGGAATCCTATAGAGGCAGGTTACTTGGAGCGAAGTTTTCAGGGTGGCCAGCTCTGCCCAGTTGCCTTCTTTGGTCCCAG
CGAGATTTGTAGTTTTGGTTTCTCTGTTTGAGGCTGGGTTGGGTGCAGGGACCAAGCAAATGAAAAACAGACCCTTGGGGTATAAAAGAGGTGAGACATA
GGTCAAACAACCTATGGCTCCTCTAGCTGATACAGAAGATCCATCACCAACAACATAGGTTTATGGCTCAGTCCCATGACCTGGGTGGAATATCCGGAGC
AGTTCTGGAAATATACCATCCATTATAATCATCTGAGTGCTTGATTAAAATGTATATTCCTTTAAACACAAACAACAAAAACAAAAACATGTAGATTCCT
GGGACCCATGCTCAGATTCTGATTCACTAGATCTGGGGCGGGACCCAGGAGTCTGCACTGATGCAGATGTCACAGACAATTCTGATGCTGGTGCTCTAAG
AGCCACACTTGGAAAAATTCAGTTTAGTGCCTCTTTGTCATTCTTCCCTTTGGCTCCTTGCCTTTATTTCAGGAAATAACTATGAATATGACTTTCAATG
TCACCTCTAGGAGCTGCAGCCAGACATTCCTATGATGTACTTATAGCTAATCTAGTTGAGCTCCATTTGAGAGGATTCTAGATATATTACTTASTAGAGA
TCTGGCTTTCTAGAAGGCTCCCACTGGATCCAGGTAATGTCCAGTGGCTTGAACGATAGAAAGCTGGAGTCAGCAGCTGGCCTTCCAGACCCATACAAAT
CCTCTTTCTTTGGAAAGCCTCTAGCACTTCACTGTAAAATAACAGATAATCCCAGGCCAGAATTTTAATTAGAAAAGCTGAATGACCTGTAAGTAAATTA
TTAAGAATTTCAATATCAGCTAAGATCAATGGAACAGAACAGACAGCCCTGAGGTGCATCTGTAGATGCGTGTACACAATAATTAAGTTTGTTATAAAGA
TCCTATATACTATTTTCTCTGTATGTAATGGTGGGACCTATTTTCATACAATCCATAGATACAATTGAAATAATACAAATAATACAAATCATTGATAACT
GACTACCATGGGTCAGGCCTTGTTCTGCACGATTTCTATATATTCTGCTAATACTCATAATAAGCAGCACTTTAAGTATTATTACTCTTCTCCTTTTATA
GTTAAGAAACCAAGGCACAGGGAAGCTAAGTAACTTGCATAATGTTGCACAGCAAGAAAGTAGCAGGCTGGTCCTCTTGGTTTATTTAAGTTAAAATGAA
ATAATGGAGGAAATTAGGAATCTGAAGAAACCTCCATTTTCAAAAGAGTAGAAAAATAGATACCTGAAGGGCATCGTGGGGTCATAACATAACAACTGTG
AGAAGTGTTGTAGCTTTTTGTATGTTTGTGAAATTTTTCAAAAATGTGTCTAGGTACAGTAGTTGAAGCTTCTAATGCATATTGGGGTTAATTCCAGGAC
TCTTATCGTCACTCAGGGTTTGACAAAGTAATAGTTATTTGTATTACTAAACCTTTTAGGCTGGAAGGTTTTGTACATTAATAGATGTTAAAGATCTTAC
TGCAGAAATTACTGTCATGATTTTGGAAGCCCTAGTTTAACCCACATTGATCATAATATGTCTCTGGCATGGTCAAGAAGTTCTTTTTTCCTGATTCAAG
TACTTTATAAAGCATATTTAAAGGCTGGCTTCAATCTCTCTGGAGTTATACAGCCCTTCTGTTAGTCCTGGTACAATCCCTCTTGAGAATTTTTTCTTTT
TTTTAGTGTTATCAAAAACACAGTAAGACGATTGATATTGCTTAGTACTGAATCCCGGAGTTCTGTCTATGATCAAAATATCCTCTGGCCCACCAGCCAA
GATTCCAAAAGTGGTCTCATTATGGTTCATACCCAGTTTTCCATCCTACAGCCTTGGGTTGAGAGCTGCAGCCTCCCTCCAAAGTCCCCTCCAGGCAGTT
CTGGGAGTTCTGAGGTGTTTCTAGTCTGTTCAGTCCATTTGTTCATGACCCCCTGCTTCTGTCGTCTCGTTAGTATATCCTGATATAATAAAAGTTTGAA
AATATAATCAATGCTAGTAAGGAACAGAGTCCTATGCTGTACCATTTCTTTCTGAAGTGTAGCTTTGTTATTAAAAACAATAATAAAAAAAGGACTGGTA
CAAAATTTCCTGTTCTGGAGGTGTGGAGTTTTTCATATGTCAACCAGCTTTAACCTTTTGAAGGTTTAATGAAATCAGCAAATATAATCCACTGTACGAG
AGTGGATATGAATCAAGTCTATCATTGTTGAACAAACGGCATTAATTTCCAGTGCACATGTGGATCTGAGTTTTAAAATATTGGTTTGAAAAATGTCAAG
CTGCTCATTGTTTTAGAATATTTGAGCAGCTTGCTAGTATACTCTTTTTAAACAGTTGTACTTCTAAAAGGTTACAGTGTTTGCATATTTATTCCTTTCA
ATTTAAAAAATTCTTCCAGTGGCCTGGGTAGTAGGGAAATACCTCGAATTCCTTTTTTTATGGATTGTACTTCCTAGAGGGTATTAAAAAAAACTCCCTT
TCACTTTTAGCAGTAGCTGAAGCTACAGGACTCACTTTACACCCCAGCGCTCATCATCATGTCTCCGGGTGAAGTTCTCTTCAGTGTCCCCAGAAGCTGT
AGAATTAGATTGCTTAAAGCTCGTGGAAAAGCTTATATCTCCTATGTCCAGTGTCAGCCCCCTAGGAAGAAAAGAGCTCTGGGGGAACTAATGCTTGTTG
AGTGCTCTAAGGAACCAGGGATTGGATGATGAGCAGGACGGCCATGGGCCCTGCTCTCCTGGAGATCATGGTTGCTGTTCAGCCAGGGTCAGTGGGGCAG
AGAGCACAGTCGTCTCAAAAGTGGGTGTGGGGAGATCCATGAGGATGTTGGAAGCAAATATAAAACTGAGGGTTTTCTCATTTTGAATTTCCATTGTTGC
AGATGTTTCATAATGCAGATAGTATATTGGTATTTTGGTGCATCTTTTACAACAAACTTAATTATTTTGTATACACATACACAGATGTGCTTCAGGGCTG
TCTGTTGTGTTCCATTGATCTTAGCTGATATCTTTAAGAAGGATTGACAACTATATTTTAAAAATCTAATCTATCTAATCAGGAAATTGATTTAAACAAA
GCACTCCATGCCATACAAGATTTGATTGAGCTGTTTTTTCTTTTTTCCCAAGATGAAAGAGTGCCTAGGAGCRTGGTTATTTTTGCCCCTATATCCAATT
TAGCACCTCTTTCAAGTTAGGTTTGAAGTTGGAAGAATTACAACATATTTCTATAAAATAATCTGTTTAATGATATGATGTTTCATTTCTTACTAAAACA
AAACCCTTCCCATTAACTTGTTCGCTTGTCCCCATTTTATCATATATGCCTAGGGAGAAGTCTCCATTAACTGGTTTCTTCCTGCTCCTAAACTGTATCC
TCTTTCTTAAGCAAGTTCTCCACACTATTAGTTTGCTTTCAGGTTCCCCTGTGTTTGCTCTCTGTTCAAAACTGGTGATGCTGTGAATTGTAGTCAGCTC
AAGTGACTTCCAGGTGACTTGCCTTCAGCAGTGGCTGCTCATTTCATGCACTGCAGAATCCCTGGGTCATGCTGACCTGTTGATGATACCAGCATCACAG
ACTGCACATATCAGGCCTGCTTTCTATGATGCTGGTTTTCCAATTAACTTTGTGAAAAGGTATATCCCTGCTTATGTCTTCCTGGTTATCCAGCTCCTCT
TGCATTTGATTTCATCTTCAGCACTCGTCTGTTTGCCAGTTTTCCATAGTAGAAAGATAGATTTTTTTTCAAAAACGACTCTTCCCTTTTAGTTCCATTC
CATAGGACTTCTAAAACAGATACTTGCATTGCTTTCATTTCCAAAACAAAATTATTTGATAATTACAAAAATAATTCTAGAAAATAATTGTCATGTTAGT
TTGCTATATTGAATATTTTTTGGGACTTCTAGATTTAATGTATCACATTTCACTAATTGAAAGAAAATTATTATCAGCAAGATAAATCTGTTTGGGAGTG
TTTACTTATTTCTTTAATTTTCTATTTTTTTATTATACTTTAAGTTTTAGGGTACATGTGCACATTGTGCAGGTTAGTTACATATGTATACATGTGCCAT
GCTGGTGCGCTGCACCCACTAACTCTAGTTATATCTCCCAATGCTATCCCTCCCCCTCCCCCCACCCCACAACAGTCCCCATAATTTTCTAAATTAACAT
GCCCCTCCATAATTCTGAAATCCAAATTAAACTAGTATTTCTGGTACCTCAAGATTCCCTAAATGGAGCTTCCTGGGTCAGTACGCCACTTAATCTAACT
TGTGAAGAAAGACTTCAGCACTCAAACTCATTCTGACCCTGTGGACTTTGCTTCAGCTGCTCCCTTTGGCTGTAGTTCTCTTTCTCAGAGCTTCATGTGG
CCAGCTCTTATCACTCAAGTCTCAACTCAAACCTTACTTTCTTGGAAAGACCGTTTTCTGGCCGCTGAGGTCTCTGCCACTATCTGTCATAGAATTTGAT
TTTATTTTTTCACATCATGTGTCAGTCYCTGGAATTATTTTTGTTAACTTGTACATCTACTGTCCTCCAATTAGAATGTAAGTTGAGAAGAACAGAGCCA
TTGTCTGTCAAGTTCATTGCTGTATCCCCAGTACATAGTATGGTGGCCAGCACACAGTGGTTTGATAAATTCTTGGTGAATGCATGGATATAACATTTGA
GAAATGCTGCATAAAATATCATTCAATGGGTTTCTCTAGAGTGAGATATATTGGTACAGCATTTTCCAAATATATTTGACTAAGAACATGTATATATGCC
ATGTGCCACATAATGCAGTTTTGATCAATGACTGGCCACATGTATGAAAGTGGTCTCACAAAATTATAATGGAGTAGGCTATATCATCTAGGTTTGTTAT
GTACACCCTATGGTGCTTGCACAACAAAGAAATTGCCTAAATGACACATTTTTCAAATGTATCCCCATTGTCTCCTACTATTGGTCTGTATGACTGTCAT
TATGTCAGTACCATATTGTTTTGATTACTGTAGCTTTGTAATACATGTTGAAATCAGGAAGTGTGATGTTTCCAGCTTTGTTGTTTTTTCTTATAATTGA
TTTGGCTATTTGTGGCCTTTTGTGGTTCCATATAAATTTTAGAATTGTGTTTTCTATGCCTGTAAAAAAACAAACAAACAAACAAACAAACAAAAAACTG
CTATTGGGATTTTGATAGGGATTGTAGCCAAGCAGCTTGGCTTCAAAAATGCATTTTAAAACTTTTTTTCTCCTTTCTCTTTTCTCCTTAATCTCAAGAT
GTAACCTTGAAGCTAACTGCAGAAGCATTTCCCCTTAACCTTAAAATAAGACTTCATGTCCCTCTCTTTCCCATCATTATCTAACTGTATGCTAGTATCT
AATTATGTGCTTACTTAAAGTTCTGGGACTTAATCTTGAGACAGGCAGACCAAACCCGGAAACCCTGCTTCAAAATTTCAGATAACCTCAAGGTAGCTAG
TCAACAACTTGGCCATTGTTGAGATGATGCCAGCCCATGCTCCAGGTGGACCAAGACCCAATATAGCAACCAAAACAAGACACGCAGATCTAGTACTTAG
CGCGACTCCTGCTTGCCTTCCATATCAAGTCTCCCCTTTTTAAATACTTAGCTTCTTCCTAGAAATTCAAAGTGGTTACTTTGGATAGGGAATCTGGCCA
CTTCCCCATTACTAGTTTTGGTTAATAAAGTCACTTTCTTTCTACCAGATCTCTCTCTTGTTAATTGGACTCTGTAAGCAGTGAGTGGCCAGACCTGTGT
TCAGTTACAAGATGACATTGAATCTTTAGGTTGCTTTGGATAGTATGAACATTTTAACAGTATTAATTTTTCCAATTTGTGAACTGCAGCCTGTAAGTTT
TGATATATTGTGTTTTCATTTGTTTATATTGAGGTATTTCTAATTTCCTTTTTGATTTCATTTTGACACAATGGTTGTTTAAAAGTGTGTTCTTTAATTT
CCATGTATCTATAGATTTTTCAGTTTTTCTTTTGCTATTGATTTCTGTGTCATTCCATTGTGGTCAGAAAAAATACTTGGTATGATTTCTACCTTCTTAA
GTTGGTTAGGACTTTTTTTGTAACCTAGCATGTTACCTACCTTGGAGAAAAATTTGGGGGCACTTAAGAAAAATGTGTATTCTGCCACTGCTGGGTGAAA
TGCTCCGTATGTATCTGTTAGGTCTGTTTGATCTAYAATATTATTCATGTCCTCTGTTTCCTTACTTATCTTCCGTATTGATGTCCTCTTCATTATTGAA
AGTGTGGTATCGAAGTTTCCTACTATTACTGTATTGCTATCTATTTCTTCCTTCAGTTCTGTTAATGTTTGCTTTACATATCTAGGTGCTCTGATGTTGG
ATGCATATATATTTATAATTCTTATATCTTCCTGATGGATTGACCTTTTTAATCATTGTATATGTCCTTCTTTGTCTCTTGTGATAGTTTTTGACTTAGA
GTATGTTTTGTCTAAGGATAGCCACCCATGCATTCTTTTGGTTACCATTTGCTTAGAATACCTTTTTCTAGCCCTTCACTTTCACCCYGTATGTCTCACT
AAGTCTAAAGTGAGTTTCCTGTGGAGTGCATGTAGTTGGGTATTTTGTTTGTTTTCCATTCAGCTACTCTATGTCTTTGGATTGGGAATTAATTCATTAA
AATTCAGTGTAATAATTGGGAAGGGGAGGATTTAATATTGCGGTTTCATTAGTTGTTTTCTTTTAGTCCTATAGTCCTTTTGTCAGTCTTTTCCTTTCTT
ACTGTCCTCGTTTATGTTTTCTTGATTTTTTTTTTTTGTATTCATATGCTTTAATTCTTGTTGACATTTTTAGTATTATACCTTTTCATGGGTTTTGGAA
TTTTCGTTTGCTGACTCATTTTGAGTGGGATGTTTTTACATTCACTTTTTATTACATTTTTTCCCTTTCTCTGGGCTTACTCTTGTTTTCCTTGAGGTTT
TGTGATCACTTTTATCTGGTCTGAAAGACTTCCAGTCCAGACCCAGGTTTTATTATGTTCTATCAGCCACCCTTGCCAATGGTGATATTGGGGATATCAC
ATACTCTGTTATCAAGCGAGCAGGTGGTTTGATTCTGTGCCTGGGTCTGAATCACATCTTTGTCAACTTTTCCCTCACAGGCTTAAATTTTTATAAAACT
GCTTCTCTTAGTGTGTCGTGTTTTTTGTTGTTGTAGTTGTAGTTTTGTTTTTAGCTTCTTCTTMTTAGCCCAACCTCCTTGTTTGGCTTTACAGTTAACC
TGGCTTAGGTCTCCTTATCTCCAGTGAGCCAATTTTAGATTCTCTTATCCTGTAGGAGCAGAATGCCCAGCAGTCAGTGCTGGCTTCTAAATCTGGAGCC
TTGCAGGTTCCCTGACTTCAGACTTACTCACTGCTTGTGATTCTAATGCGTTTCTAGTCCACAGAGATGTTTATCTGGTTCTTGGARACAAACTATAAAC
ATTTTTATGTTTACTTTTTATGTTTCATCTTTAATTATCACGTTTGGAATAGGAGGAGTTTTATAATGGTGTGAATTTGCTGAATCATGTTGACCAGAAG
TCTCACCATTACTTCTGAAGCATTTTAAAGCATATTTCTGTCCTAATTTCTTGTCCATAGCTCTGTATGATTCTGACCTTTGAAGACTATAATAAAGGTT
CATCATTTTTTAATGTACTTATTGTTTATACTCATCACTGAGAGAAAATAAGTTACATTACACAGTAGTCGAGAATAAACTTCTTTAATGGGTTTATGTG
ACTAAAATTGTAAAGGTCAGGGGAATTAATGGGAAATTTGTTTTAATTATGCATTGATCACAAAACATAATATTGTTTTCTTTAAGGAACTGAACTTGCT
GGATTCTGAATCATATTTTATTACTAAACAGAAACAAATAAACTCAGATTGATTTATTGACCCTGCTGTATGCCAGGCCTTGTGAGGAATACATGGGAAG
GAAATAAAAAGGTCTCTGTCATTAGAAAGGCTGGTGTTTCTCAGCTGAAGGCTGAGGTTGGAGGGTCTCCTCCTCCCCTCTCCCCAGTAGAAATCTGTGA
GAATCTGAAATAGGAGGCTTTTTAATTTTCAAACTATGCACCCTATCTCCATTTCCCAGCCCCCTACCACCAGGGGAGTGTGTCTGTTGCCCCTCAACTG
CTTCAGAACTACTATCAGAGCCACTTTTACCAAGAACATACACCATAGCAATTGGACATTATGAAAACAATAAAATATGTAATTAAATTCTAAAATGAAT
TAGGATGCTAGATGGATTGAGCATACACTGGATACTAGGCAATGCATTAGGACCTTCCTTACAATTGCTGTTACATCAACTCTGTGGACAGATGTTAACA
TCCATTTTTAGATACACAAAAGAGGGAGCGCAGAGAGCTCAAGCAGCTTGCTGAGGTTCCTAGTAAGTGGCAGAGGTGGACTTCAAATCCCGGCCTGCTT
GCCTCTGAAACCCAGATCTTAATTACTGTGTTGTAATAAGAGGGAGAAAGACAAGGTTAAAATATGTCCTACTGTATTGTGGTTTACTGAAGGAATTTAT
GGAGATTAAAATTCATAAATTGTTATAGAGTTAAAACAGATGAAATAATGCTTCTTTGACAGACCATTTAGTTTTTTCTTTCATCTTTAAACAAYGCTGC
ACTAAAATTTGTCTGTAATGGCATAAAAAAAACCCTGATATTTGCCTTTTCTTCTCCATTCCCCATGCTTGTCAATCGTTACAGAGATTATGCTCAAATG
TGATATCAGGAAATACTTTTAGTCCCCAGCTTAAGCTTCTCATTTCTATGTGAAATATGGCAGACTTTTGATGCTTTCTCTAAGGTCCCGTTCTGGATAT
TCTCCCTGTGTTCAAGGCCCTTTTAGGGAGAGAGCCAGTCTATGGCCAGTCTTGCCAACTCTGTAAATGCAATTTACATTCTTAAAATTCGCTATCACCA
GGTCAAAACTAGCCCCTGGTGCATTTTGGGAAGCTTCAGTTCAAACACCTGAATTCATTTTCACCAATGCTACCTGGTTACCTTGTAACTCCAGAGTTTT
TTAGAGAGGTTTTGTATATGATTGCTTGAGCTATAGCTTTTTCCCTTTTTGYAAGCTATTATTGAAATAAAAACGTAACTTACCTATTTCACGGTGTATG
GATGTTTTTAAGTGGAATAAGTTCATGCTGTTTTAACTTAGGTTCACCAAACAACATTTTTAGAATATTTTCACCTTTCTAAATAATGTGCTTTTGATTG
ATACTCCCTCTAATTCAAACTGGCAGTGCATAGTACCCTAAACCAGTGCCCGCATAAGCAGTCTGTATAAAACATGCTTATGCTTTTCAGCTTCCCAAGT
GAATCTTTCCTAGAGAGAATTGTTTTTTTTTTTGAATGTTTGAGGTCATCTTACAATAATTATGCATAATCAGTAATGGAAACAATTTAAAGAGTTTACA
CTATGTGCCCGGAATATGATCATGATAAACAAGTCATCTCATTTATTTCTTACAACACACTTTTTAAGGGTAGGTTCGTATTATCATTCCCACTTTACAG
AGAGAGAAACAAAGGTTAGAGAGATTAAGTAACTTGCTCATGTCAAGGTGGTAGTGAGAAATTATTGAAAGCACCCATTATGCCATGTGAGTAAGCAAAA
ACTGGCAGATTAATTTTTAGCATACTCAAATAAAAGGTCATGCATTAGAAAAAAAGCAGTCAAAAGTAGCTTCTGCCCCATCTTTAGTGAAGCATACAGA
GGGATATGATTGAAATAGTCCTCAGCTCTGGGTCAAACTCTCTGGCTTCTATTTTCAGGCCCTGCCACTTGGGCAAACATTCCTTCTCTGTGGAAAAGTA
GAATGTTGGCYACAATCTCCTAAAGTCATTCTAGCTTTGATAGGGTGTGATTGTAGGAGCCTGCAAAGGAATCTAGAATCATTGTAGGTTTCCTAATGTC
TGTAGCTCTATGCAATTAAAAAGATTGAGTAAATCTTGGGAGCTGTCAAGAAGGTTCTTACAGTTTATATATAACATACAAAAAAATGTATAGGATATAT
CATAGTTTTGCTTGCTACATCTCCAAAATCTAGTGGAATTCAAGAAAGTTTCAGAAGGAACCACCAAAATGGCATGATGAGACTATTATAAGGGGTATAG
CAATCTTTAGCCTGCAAATAGAGAAAAAAGTCTTATTTAGAAATGTCTACAAAATTATGATTGTTATGTATTTCATACTTAAGAAAGTAATTTTAGTTGA
GATAAAATGAAGTACTGTTTTACACAGTGGATGATAATTTTGTGGAACTTTCCATCTGTAGAATCAAAACATAAAAAATAAATGTGAAAACAGGCAAATG
TAGAAATAACAGTCCATCATGGATTATCAAAGGACACTATAAAGTATGGAGTTCTCCCCTAAAAGCTGGTATTGATAGGGATCTTAGTTATTATGCCTTC
CTACTGTATGTGCCAGGGTTCCAATGGAAGTTGTCAATACAGCATAGCTCCAATTCAGGAAGGCAAATTTTAAGTCATAAAAGGTTCTGTTTAGGATGGC
AGATTTCCTTAATCATTAATTTTATTAGTAGTATAATATAATGTTAAATTTTTGTTTTGGTTCCAGTTGAAGAGCAGCATGATGATAGGAATTTGCACTA
GAAAACAATACTAATATCACAGGAAAACATTAAGAGTTTCTTCTCTCTGAATAGTGGTCATAATAAGCCCATCCTTCCTTTTCATAGAGGTTGATGGTGT
CTTTGGAGATGATCTATCTCACGGCCTCCTCAGGGCAGGTGTCCATTGTTTACCTGGCAGGTGTTCCTTGCACCTCTGCTTGAACACTGCCCATATTTGG
CAGCTTATCCTCTGGGGAGTACTGTTCCCTTGTGGGACTGCTCAGGTTTATTCTTTACTGAGCTCAAATCTATGTGCATATGCTCTTTCTCACTGGCCTG
ATTATTCCTTCAGGGCAAGTCTACTCTTCTTGCAGATGAAGCATCTAGCCCCTTACAGTCTTCTCTTCTCCAGTGTAATATATTCTGCTGCTCTTCAAGC
AGTGCATTTCTAGACACTGGAAAATCCTGWCAGTTCTTTTCTGACCACYGTCTCTTTTCCAAACTCTTTCCTCAGGTGTCCTGGACGGAAACAAAAGGGA
GTAAAAAAGTGTTGGATTTATTTAGAATAAAAAGGGAGTATTACTTCACATAATCAACAGCATTATTTTATTTTTATCAATGAACCTTAAAATCTTTAAA
AACATTTTCCCATGACTGAGATACTGTTAGCTCAATATGCTTGTGGCCACCACCTGAGTTTCCTGATTGTTGCCAGACAGACCGCTATCAACTCACCCTC
TCAAAGTGCAGTGTGTGCTTCAGATTTATCCCCACTGAATTATCTTGTCAGTTTTAAGCTATTATTTGTGCTTCAGGATATTTTACAATCTTGATTATTT
GGTCCAACATATTAATGATTCATCTTATATTTTTATCATCTTAAAATTCATAAGAATATCTCCAAGGTATTGATGGAAATGTTAAACAAGATTGTATCAA
GGGCCGAGTTAAGTTAAGCAATGCTAACATTCAAAACTTAATGAGAAATATAATTTAGTAAGAATGGTACTTTGATGCTTGTATTTCCTTTAATCTTGCT
CTAATTTATAGCCTATTAAAATATACTGTTTATGCTAATAAATACAAATTAAATTTTAAAATACATGTTTTTGTTTGTATTGTTTTTTCAAAAAATGCAC
AATTGAGAAAAAAAGTCCACTTTTCTTTCTTTTTTTTTAAGGTTTTCCACAGGTTGTGATTATTCAACACATGGCTACAATCGACTRATGAGATTTAACT
GATTTAATGTATGATAATATAATCTAATGACAAGTCAAAATAATTAGGGGGACAGGGACAACCTCATGAGTGTTGACTTTAAAAATCTAAATCCACAACA
TGACAATAATGTCACAGTGTCCATTGATGAAGAAAGTGAACAGTCTTTTTTTAATGATGTTCTTTTATTTTAGTTGATTGCATTTAGAGAGAGGACAACT
AAACTATTCATTCTCCTTTGTGGTATCTATTAAGTTTTAAAAATTACCTTGTCTTTCTGTTATTTTTTTTATTTATTTATTATACTTTAAGTTTTAGGGT
ACATGTGCACAACATGCAGGTTTGTCACATATGTATACCTGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTAACATTAGGTATATCTCCTAA
TGCTATCCCTCCCCACTCCCCCAACCCCACAACAGGCCCCGGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTGTTCAATTCCCACCTATGA
GTGAGAACATGCGGTGTTTGGTTTTTTTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCAT
CATTTTTTATGGCTGCATAGTATTCCATGATGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGA
TATTGTGAATAGTGCCACAATAAACATACATCTACATGTGTCTTTATAGCAGCATGATTTATAATCTTTTGGGTATATACTCAGTAATGGGATGGCTGGG
TCAAATGGTATTTCTGGTTCTAGATCCCTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTC
CTCTTTCTCCACATCCTCTCCAGAACCTGTTGTTTCCTGACTTTTTAATGATCACCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTG
CATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATCTGTCTTTTGGCTGCATAAATGTCTTCCTTTGAGAAGTGTCTGTTCATATCCTTCTACCAC
TTGTATGGCCATACTGCCCAAGGTAATTTACAGATTCAATGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAG
TTCATATAGAACCAAAAAAGAGCCTGCATTGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACGCTACCTGACTTCAAACTATACTACA
AGGCTACAGTAACCAAAACAGCATGGTACTGGTACCAAAACAGAGAAATAGACCAATGGAACAGAACAGAGCCCTCAGAAACAATGCCACATATCTACAG
CTATCTGGTCTTTGACAAACCTGACAAAAACAAGACATGGGGAAAGGATTCCCTATTTAATGAATGGTGCTGGGAAAACTGGCTAGCCATGTGCAGAAAG
CTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATTAATTCAAGATGGATGAAAGACTTAAATGTTAGACCCAAAACCATAAAAACCCTAGGAGAAA
ACCTAGGCAATACTGTTCAGGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATCGACAAATGGGATCT
AATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCAATCTACTTATCTGAC
AAAGGGCTAATATCCAGAATCTACAATGAATTCTGTTATGTTTTTAAAATAATTATTCCTTATGGACTTTCAGTCTAAGCTAATTTTTATTTGTTCTCTC
CAGCAGGTCTATCTTTATAACATTCAAGCTCCCCCTACTCCTTATCCTTGGAGTTCACTTTTATGGGGACAAAAGATGAGTTTTCTGTGCTTTGGAAAGC
ATGATTATGCTTCATGTTAGCTTTGGAATTAGAAGAAATCATTTTCGGACCATTTTTTTTGAGTTGTGATACACAAACATTATAAGGTTAATCAGCATTT
TGGCTTATTAGTGGCCCTTGATTCTTAGGAAACTAAGATAATTCTCTTTTTCCTGCAGATGTGACATTTGACTATGAATATTGAAGTTAAACTTCAATTC
ATTGTATTGTAAATGGAAAAGAAGAGTTTTTCATTTTAGGTATATRTACATAATACATATATTCTTTTCCTTGGCTCTCATCATGTTTATATTAGATACA
AAACTAGTTAACATGTCTAGTCTGGCATTTTTCCTCCAAGATATATAAATTCTAATAAAAAATAAGACAAGATTGGGGAATGGGGATAATAGTATTCTTT
TAAACAAGGATGCAAGAAAATGAAATGTTTAATTTTTGCAACATCTCCTTTCTAAAACAAAATATACTGATGGAAATTTGGCTTGTTTCCTAGAGTCTCA
ACACAGGAGTTATTAACTGCGATGACCGGGCTAATACTATGTGAGGTGGAGTATGATAAAAGGATTAAAAGCTAGAGGTACTGTGCTTGGATAGCAAGCT
GGATGCTTGTGCAGGCATGGAGCCTTTCAAAGTAAAGTTGGCTCCTTGACACTCTGTCCTGCAGCTTGCGCTGATTTTTAAGATCATTGAAAATCAGGTC
ATTGAGAAGTCTTCTTTTAGGGATGTCTGTAACATTCTTTGACTGTCTTATGTTTAAGCTAGAATTTAAGCATCCAAATAAAAGTTGTTCTCAGGTGTCA
TCATCATAGGAAGCCATTCAGCTACCCTAAAGTTCACTAAAAAGTCCTGGAACTTGAGGTGATTGACTTCTGACTCCCCATTGTCAGTGTGGTCCAGGGA
CATGGCAGGCAGGAGCCAACTGCTTAAGGTAGAAATGCTTTGAGTAACTTTCATTTAAACTGCACAGACTATCATGGCTGGGTATTTTTCAAAGCTACAT
AGGGTTCTGGAATTTTAGAAACCATTAGGGGCCAAGAAGAATCTKTCAGCTTATAGATCTAAATGTTCAAAATTTAAGTTAAAGCCTGTTTCTTTTGGTA
GGAAGCACCTTGACTCCCATTTTTTATAATGAAAGATTGATGATATCTCTATTAGCCTGTTTAAACTGAGCCATAAAAGAGTCTGTAGGAGGCCAGGTAC
AGTGGCTCATGCCTTTAATCTCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACTTGAAGTCAGGAGTTCCAGACCAGGCCAACATGGTGAAAACCGGTA
TCTACTGAGAGTACAAAAATTAGCCAGGCCTGGTGGCACGTGCCTGTAATCCCAGCTACTCAGGAGGATGAGGCATGAGAATCACTTGAACCTGGGAGAC
AGAGGTTGCTGTGAGCCAAGATCACACCTCTGCACTCCGGCCTGGGTGACTGAGTGAAACTGTGTCTCAAAAAAACAAAAAAAAAAAAGTCTGTAGGGTA
CCAAATGCTTTTTTTTTTTTGGAGACAGGATCTGGCTCTGTGGTACATACTGGAGTGTAGTGGTGTGTTCATGGCTCACTGTAGCCACAGTCTTCTGGAC
TCAAGTATCCTCCTACCTCAGTCCACCTTCCCCTCTCCAGTAGCTGGGACTATAGACGTGCACCACTACACCCGGCTATTTTTTTTTTTTCAATAGAGAT
GAGTTCTCACTACATTGTACAGGCTGGTCTTGAACTCCTGGCCTCAATTGATCCTCCCTCCTTGACTTCCCAAAGTGCTCAGATTACATGTGTGAGCCAC
CATGCTCGGCCTTCTTCTTTTCTAAAATCCCACCCACTTAGCATGACAAAGGCCTGGGACATAATGGTAAGTGAATAGTTGTAAGGAATGAGAAGTTTTA
GCTGTGCACTGTACCATGCTTGGATTTGATTATGGGAAAGATGATCAATATTAACATAGAAGTTACCTAAACTCTCTGTGTCTTTTCCCTTACCTCAGGA
AGTTCAAATACAATGTTGTAATTCAGCTCTTCTACTCTTCCTGTCCTCTCAAATGAGACAACTTATACTGTGGTTGCTGAGGCTAAATAGAGGAGGAATT
CAAATACATGGTTCTTCTACTTAAGAGAAGATCATCTCCAGTTGCATCAAATCATGACTTCTGGATGCAACCCAGTTGCCTCCATTTCATGAGAATGGTT
TCCTTCCATAGACATTCTCTGCTGTTCCCCTATCATTGTCAAATCAATGTTTAATCAATTCCAGCCATTTCTTGCAAATCCACTGCAATCACATTTTATA
AATCTACCTAGTGCTTGGTTTTCATGCGCCGCAGATAAATTAGGTCCTTCTTGTTTTATCCTGAGCTATCAGTCTAGTAACATGCTCACAGCATGCAACC
AGGAATAGGCATGATCTCCTTTTTGTGAGTCTAATCTGAGTGTCCTTTACAAGTAAGAGGGGATAGTCTGAGAGTGGAAACAGCTCTTTTCAGGACCAGC
TGGGTGATCCATGAGCATTTGAACAGATGGCCCATTTTTGTGGGAAAGGATTCTGTATCCTACAAGCTAACACCCAACAGCTTCACTGAAAAAAAAAAAA
AAAAAGCTTGAAGATAAGAAATCAATTCAAGAGGAACCCACATGTTTGCTGTGTTGCCTCTGAACACACCCTGTATGTCAAGAGCTTAGCTTTATTCTGT
AGACCACCTAGTCAGAATCATTGGGGAGGAAAATATTTGTTCAAACATAGTCCCTTTTGTCTGTGCTGGGCAATAGCACAATACATTCAGCAACCACCCT
CTGAAAGCCAAGGCTTTGTCTCCAGTGGGGATTATGAAAACATGGATTTCTTGAGAAGTGCCTGCCCACCTGTGTTTAGATTTTAAATTTTAGGAAGATG
CTTGACAGCCAGAAAAGAGGTGCTCAGGGAAAAGTCTGTTGAGATTATAGAGACTTTTTGAAAGACCATTACCTCCTTTAAAATGATTAGAATAGAAGAG
GAATTCTTGAAAACTGGCATGGAATATCGTATTAGATGGAACCTTGGAAGGTTTTATTTATCCCTTCTCTTTTAGCTTTCTGTCTAAGGCCTCAGAWTGT
AGTCTATTTTAGAAAATCTCCAAGGCAGGAAATTTTTCATAACCTTTCCCCTGTTAGTCATTTTTTTTAACTTCAACAAAAGCCTGCATCAGAAGCTTCT
TGCTCGCTTATATGACCCTAACGCTCACTGCTGCAGTCCAAGCCTGGCTTCCTTTGCACTTTCTTTTGCTGTTCATATTCTTCACAGTGGGACCTGTCTT
AGCTGAAGCCCATTATTAGGTCACTCCTTGGCCTCTTCTCTAAGGCTAAATAATGAGTTATTTTTTTTTCTCCTTTTTTGGTACATCATATTTTTTCAAC
CATTTAATGATTTTTGTTGTTGAAAATTTGGGGATTTCCTGTGTCTGGAAATGCATTAGGCCTCAAACTTTGTACCCCTAAGACTTTTCCTGCTACCTTT
TAAAAGACACCAAGTAAAATTAAGACTAGGAGAAGACAGCTGCTGCAATTTTTAAAAAATCACAAAAGCAAAAAAAAAAAAAAAAAAACCAAAAACACCG
AGTAGCTGTCTTTCTGGTTTTTGATTGAGCAAGATATTTGTAAAATGAAGCATACTTTATTGTCAGATGGGCCTGTTGTTTACTGACAATTGACCAACAT
GAATGTGGTCAGGTTTAGATGAATATCTATACAACTCACATAATTTTTAATGAAGGGAGTTAAAAGCTAAGCATGCCAAGAAAATAAGTATGACTCAAAA
GTGGCCCTTTCTTAGTATATTGGATGTATTATGGCTTCTAGTTACCAAGGGCCTTTGAAGATGACTGGGCCATTATTTTAATACTTTTTAATATGCTTCT
GGATTCAATTATTGCAGATTTTTACAATTATATTTGATCTCTAGTTAGTTTATAAGGAGGACACTATCTTTGTCAGGTTTTAATATCAAGATTGTGATAG
CTTTGTAAGTAAATGTAGATATTTTCTATACTTTTTCTTTGCTTTAGAACAGTTGAAATAGAACAAGATCAATCTGACATCTAATGTTTGGTTGAACTCA
CTTGTAAAACTGTCTGAGCCCCTTGACTTCCAAAGGTAGGTTTTTGATAATTCTTGCTATAGTTTAACATATCACACATATGGAAGACTTTATTTATCTA
TGTTCAATCTAGAGAATAGTAATGGAAGGATTACACATGTTCTCACCACTGAGTTGCAGAAACAGAACACTATCAGTGTCTTTGAAGGTCACTGTGTTCC
CGTACCTGATCACCTCCTCCTCTCTGCCCTAACCCCCATTTGACATAAACACAATGCTAACTTTGGTATACCATTGCTTTGCTTTTCTTCATAGTTATAC
CATCTTTGTATATATTATTACTGAAGATTATATTATTTAGTTTAGTTGAAATTTATATTATAGAATCATAATCTTCTACTTCTTTTGTCTTTTTTGGGTT
TTTGTTTTTTGTTGCCTATTTTTGTTTTGAGATTCATTTATATTTAATAATGCATCACTAGGTCATTTTCAGTTCACTTTACTACTTTGTAATAGTCCAT
TGTATGACTATTCCACAATGTATCGATTCTACTGATGATGGACATTTGTGTGTTTTCAGTTTGAGAACTTCTGAATGTGTCTGTATGACCGTTTTGGTCC
ATGTCTCCTGGTATTAGAATTCCTCTAATGTTTACACCAAGAGTGGAATTGTTGGATTGTGGAATGCCCATATGTTCAACTTTATAAGGATATGTCCAAT
TGTTTTCCCTTAATTATTTTAACAATTTTCTGCTTCTACCAGGAGTGGATAAGAATTCCTATTGCTCAGCCTCCTTGCCAAGATCTCATTTGTGTGATTT
TAAATTTTTTGCCAGATAGTTGTAAAGTGGTATCTTATTAAGGATTTAATTTACATTTACATTTCCCTGATTGGTAATGAAATTGGTCACCTTTTCAAAT
GCTTGCTGTCATTCATAATTTCTTTTCTGTGAAATGCCTCTTTATGTGTTTTGCCTATTTGCTTTTTGGGTTGCTTGGCTTTTTTATTGATTTGTAAGAA
TTCTTTACCCATTTTGAATATAAATCATTTTGAGTTATATATATTGTAAATGTCTTCTTCTAATTTCTAGCAACTCCTCTCATTCTATGATTTCTCTTGA
TGAACATAAAGCCTTCATTTTATGATAGTTAAATTTATACATCTACTATTCATGCTTTGAATTTTTATTCTATTTTTAAAATCTCCACACTGAAGATATA
AAGATATTTTTCTCTGTTGCACTTAAAACTATCATTATATTGTGTTTATTTATTTTCCATCTTCCCACCAGAATCTAAATTCAATTAAGGCTAGAATATT
TGCTTGTTTTACTCATTTCGGTATCTCTAGCACATAGTGGGAACTCAATAAAAATTGTTGAAGGAAACCATGACTGAATGCCAGAGAGGGTGAAATGTTC
TTCAGTATCTTGCATTAGCTCATTTTCCTAAGAATGCACATCCTCTGAGGCTATTTCCTCTCCCTAGTCCTGCCATATTTTTCATATGTCTCATTTTCAT
CTCATAATCAGGTGGATCCATTTGGACTCAGTGTCTTCATATGCACCAGTAACAGAGGGGCTTGTCCTCAGGCTGCTGTCTGCACATCTTTGATTTCGTC
CATCTCCACTCTCAGACCTACAGCTGGCCTGCAGGTGGATGTATGCCGTTGTCATTCTGGTTCCTTCTCCTAGCAGGCTTTCATCCAGTGCATTTCTGTT
CGACTGCGGTGTATTCTTCCCCTATTCCCAAGGCCCTCATTCCCAAGGTAGTCAGGGCTAATTTAGTCTGCCTCGCAAATAACAAACCCTACATTTCAAA
GAACTAGAGTTCCCATTCTGCCTTTCTAGTTGTTTTGTTACAGCTGCTACTGCTGTTGTTGTTTTCAGAGTAACTTTTTACTCTATACTGCATTTGGAAA
AGATGATGGTGAAAAGGAAGTTGGGGGAAAGGAATTGGTCAGTGCCTTGAGTGCCTCAGGATGCAGAACACAAGGGGTAGATGGGCAGGTGCCCACTTCT
CTGTTGATTCTAGGCCATGCTTTTGCTCAAAGGAATCCAGATCTGGCAACAGAGGCAGTGAAGGGACTGTGCATTTTCCTAGCATTTATCAGGTGATATT
TTTCATGAAACTGCAGTTTACTGCATTTCTGGGTAGTCTGTTTTTGTTTGTTTGTCTAACTCAGATCCAAGTTTATTATAACTAATGTTCTTTTATGCCT
GACCCTGACATAAGGGAGATTTTCAGTAGCCTTGTGCATTGGTATATTTTTCTGGGTTATCTTTTGTGAGGTAACATTAAGGAATGCTAGCCACATTCCA
TTTTGAGTGAAACCTCCTGCACTGCTATTTTCTAAGTGTATGCAGAAGCTCATATATTTGGAAAATTCAAGTTCATTCAAATTGCTACTGAATTAGAAGT
ATCTTTTTGTCATTACCTAGTTTTAAATCAATAGATATTAAAATTACTACTACTATTTCATTGTTGCCCCAGTTTTTTTTTCTGATTTAAAAAAATATAC
TAAAACAAGCTCTCATAATCCAGAGAATATGTAATCATTCTTCTATAGCACTATACCAAAGACCTTATCCTATGGGATATCGCTTAGTTTCCTATCATTC
AAAAACCATCTTTCCAATTTTTTAACTACCAGTTTAAGTAACAGTAAGTAGATTACAGAATGGAGAAAACATAAAGAAGTATGATCGTAAACAACTTCAA
TTTTTCTGAAAGAAATCTGAAGGATAAAATAATAGCTTCCTTGACTTAGTTGTTCCTATATATTATCTGAGAAAAAGTTTATTGAAGCACATTTTTACAC
TTTTAATCCACTGGAACGTCACTGAGAAAATGTTCTGAGAGTCATAAGAATGTTGACTAATTGGGCTGTTTGTCCCACATGGGATTACACCACTACTTTC
TGAATCAGAAGTTCCTGCTATTGCAACATGAATTATTCTTTATTTTTTATTTTTCCCTCTTAGAAACAATCCATTTGGGTTCATTACATAGCCATTTGTT
AGTTTGGGGGATTGTGCTTGTTTGTAACTACAATGAAGTCATACTAGACTGGGTCCGTATGTAAGTCAGTGGGAGATCGTGCAGCTGCTCAGTGAATCAT
TCAGTGCAAAGGGTCACCCTAATATTTTAACCCCAAAGTCCTGCTTTCCCAAAGTCATGGGTAATTTTTATTTTAATCATCAAGAAGATTGGTTCAACTT
TGGTTTACTTAGTACATGTTGCACATACATATCAATCTGTAAAACTTCTAAAAAAATTATATTGAAGTATAATATTCTCAGAGAAAGTGCACGAATCCTA
AGTGTATATGGTGAACTTTTACAAACTGAGTACACCTGTGTAACTGCYACCCAGATCAGAAAACAGAACATGACCAGCACCCCAAAAGGTTTCCTCTACC
CCCTTTTTGTCACAAACCCTCCTCACCAAGAGTAATCACTCTCCTGTTTTGCGTGTTTTTATACTTTATATAAATGGATTTATACATCATGTGTTATTTT
GTATCTGGCTTCTTTCATTCTTCATTATGTTTATGAGACTCATACAATTTTATCATGAATTGTGTTTTTTCATTTTCCATTTCTATATTATTGCTATGGA
GTGTCCTATTGATAAATACAACACAGTTTATTCATTCTATTGTCAGCAGACATTTCATGAGTTTTCTTTCTTTTTTTTTTTTTAGAAGGGTTAGGCCTAT
TATGAATACTCTGTTATGAACATTCCAGTACATCTTTTTTGGTTAAAGTATACACACACACACACACACACACACACACACACACACACACACATCCTGT
TGGATATATAACGAGGAGTAGCATTGCTGGGTCATAGTTTTGTGTATGTTCAGATTTAATAGATAAGCCAGTTTTTCCAGGTGGTTGAATGTACTTACAC
TAGCAATGTACAAGAGTTCCAGTTGCTCTACCTCCTCACCAATATTTGGCATATTTTGTCTTTTTCATTTTAGCCATCTGGTTCAATATGTATTGAATGT
GGTTTAATTTATATTTCCCTAATGATAATGAAGCTGAGTATCGTTTTTATGATTATTAGTAATTTGCATATCTTTCTTTGTGAATTGTCTGTTCATATAC
ATATATATATATGCTGAATATTTTCTGTTTTTCYGTGGGTTACCTTTTCACTCTCTTAGTGGGGTCTTTTGATGACTAGCTTTCCTAGTTTAAAAAAAAA
CACTCTCACATATTAAAGATCTTAGTAAATATTTAGAAAATTGTTAACCAATGTGTGAGGATCTCAGTAGTGACATGTTTAACTCAAAATGTAATTTATT
ATTTTTTTCTTTTATGGCTTATAATTTTTGTGTCCAGTTTAAGATATCTTTGCCTACTCCAAATTGGTGAAGTTATTCTATGCCTTCCTCTAAAATCTGT
GTTTAGATATGTAATTCATCTGACTACATATTTGTATGTTTTATAATGATCAAGATACATTTTTTTTCAAACCAATATTCTATATACCCCAGCATCACTT
TACTTGGTTTATAACTTGTTTGAAATGTGTCCACAAAATTTAGTTTCAGTGAATTTTTAAATATTTTCTTATAATTACTAATATTTCCTAAGAAGAATTT
TAAACCTGTGATGATTTCAAATGTGTAATATAATTTCTAGATTTATTTAATACTAATGTCAGTTGAAATTTCCCTTAAAAGTTCTCCTGTTCAATTGGAT
CTAGTTTTGAAATCCAGCTATTTATTTATTCAACATCAATCTATAATGCATAAAACAATTTTTTAAATAAATTATTGTTCTCATTTTCTCATTTAAATCA
ATTCAACACATGTTTATTACGTTTCTTCTAGAATTTGGGACAGTTACGAATGTGGTTGAAGTTTCAAGCTTCATTTTTATATCCTTTAGGTTTTAAGCCA
TATAATAAATTTATCAAATATCTGTCAGTAATAAGCCAATTTCTTTTCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGCCACCCCGGAGTGCA
GTGGCGCAATCTCAGCTCACTGCAAGCTCCACCTCCCGAGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCTGCCACCA
CACCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAACCAGGATGGTCTTGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCT
CCCAAAGTGCTGGGATTAGAGGCGTGAGCCACCGCACCCGGCCAAGCCAATTTCTTTAGTAGTCAAAATTATATTAATAAAGAAAGGTACAAAGTGAGGA
TTTTTATTACTATTAGGATAGACTTAGACCCCTTATACAATTCCTCAATACCAAGTTTTCCACTAATAATGACACATATCTTTAAAGACATAAAAATAGG
AAAGAAAATATAAAAGTTTCATTTTTATATTTTGAATACCTATAAATGTTTACTCTTTGATGTCATTTTTGCTTAGTTTTATTTTTTAACTTTTTATTAT
TTGTTCTAGGTTGTACTGGTCAGTGGACATCTGGACAGCTGGGATGTTGGGCAGGGTGCCATGGATGATGGCGGTGGAGCCTTTATATCATGGGAAGCAC
TCTCACTTATTAAAGATCTTGGTAAATATTTAGAAAATTGTTAACTAATGTRTGAGGATCTCAGTGACATGTTTAACTCAAAACACAAAATACTTAACAG
ATTAGTTACTAYGGTATGTTCAAAGATCCTCTTGAGGTCAGTTGATTCCCAGAAAAGAAACAACTTATGCTCTTAAARAAATTTTTATTCATGTGTACGC
CAGACATCTAAAGTGTCAAATGTTATTATCAGCCACTGGGGAAAATGAACAAGCAAAYAAAACTGAAGCAAATGTAACCACACCAGCTAAAGAATATGCA
AGGAAAATATGATGAAATGCAAAGAAAAATCAGCAGCACCTCCTACTTCCTTTCCCTTATTCATCTTAACACATTATCAGACTATTAGGACAATGGATAA
AGGCTGGTCGTCTTTCCATCATAGAAATAAAAGAGTAACCTAGATAGAAAGAATGATTTCCATAGCCACAATAAGGAATCCAGGCAGATAATTCTTTGTT
GCAAGGTCTGTCCCATGCATGATAGGATGTTTTGCAGCATCCCTGACCTCTTCCCACTAGAAGCCAGTAGCACCCTCCCCTAACCTCAAGTTATGATAAC
AAAAATGTCTCCAGACATTGCCAGATGTCCCCTGGGGGGCCAGGGAAGCAGTTGCCCCATTTTGAGAACCACTAATATAAACTAATAAAAATATCTAGGT
AACCTGAATACAGGGTCATTTTGTTAAAGAAAACAAACTAATTGGAAATCTTACATTGTATATACACTTTTACCATAATTACCATACATGACAGAAAATA
TTTTGACCACCTACTTTGCTTTTTATAAAGCACTTTGTAAAAGCTGGGCATATAGGTTTAAAGGATGTCCCCTGTTCTTAAGACTCTTAGAATGGAGTGG
GTAACCTTCACACATACATACACACATAGTTATCAATATAGACATAATTTCAACATCTAATTTTAGAATTGGGGAAGGTTTGAGAGAGAAGTTATCCAGC
AAATAAAACTGAAAATCACACATTCCTTCACAGAAAATCTGGGAGACGCTATGTTAATTCTCTCCTCCTCTTCTCTTAAAAATATTCCCTTGGCTATCTC
TTCTTTCTGTTTCTCATATCATTCCAGAAAGAAGTGGGTTCTAGAGGAAAGCAGGAAAAAGTCGAACATTTTTCCTCTTCAAAAATCACCGATAATGATT
TTGGACATTAATTTTATTTCAGTATGTTCAATCAGCTTGATTGGAAGCACAGTGGTGGAGTAAAAAGAGAAATTTTCTTTAGACCCATTTGAATTGGACT
TTAGGTCACTTTACTATATTTTGGTCCTTAAGCAAGTCATTTGAATGCTCTGGACTTCATTTTTCTCATCTCTATTAAACTGTAAGCTTCAGAGTATTTC
ATTTGCTCTAGATTGGAATAAAAATTGTATCTTCTTTAAGCTTTGAATCTTACTTCTTCGGTATTCAGCATGGGACCCTAAATCACTGTTAATTGAATTG
AATTCAGTTGCATGGACAAATGTTAAATACCATGCAAAAGTGAATTGAGTATCTTTTACCAGTTCTCAAAGTACATCGACTTCAGTTGCTTTTGATAGCT
AGTGACCAGTCTCTTTAATTTGGGACTTAAATCTCCAAAAGATTTCTGAAAGTCTATGTAAAGATATGAATAGAACTCTAAAATAAAGAGTAATATTTCT
TTTGAGTAGGCATTATGAGGCACCATAGTATACTGTTAAAAACATAGGATTCTGGAGCCAGACTGCCAGGGTTCAAATCTCAGCTCTGCAGTCTGCTAGG
TGTGTGGCCTTAGGCAAGTTACTTTGCCTCTCTGTGCCTCAATTTTCTCATCTGTGAAATGGGATAATAATAGTTCCTATCTCATAAAGTTGCTTTGAAA
ATTAAATAAGCAGAGTATACTTAGAACATGGGCTGGCCCAACCCAAGTTATCAATAAATGTTAACTTTTATAACTTAACTTAATAAGCATGATTCTGACA
GTACCATTTTTTTAATATAAGAGAAGATGATAATTTAGTTTACCTCCATCCCCATTAGTGATTGCTTTGCCTCCTAACTTTTAGTATATTAGCTATACTA
ATGTAACTTTAGGGCCAGTTGCTATGTATCCCTAAAATATCCTTTCCCTTTACTACTTAAGTCACCATCCCTTGTATGATAGAAACCCAGTGACCCCTCC
ACTTTTTTTCATTTCACACTAAATTTTTAGAAGTCTTAAATTTCTCCTGGTTACTTCTATATCCTGCTTATGTTTAATGCCCAGTATCTACTCTGCACCT
CACTTTCCATGATTGCACCCATTGAGTCTTACTCTTTAATTTTGAAATTGTGGATTTCTATTTGTAGATTGCCTATGTATTTTAACATGAAGAGCTAGGT
TCAGCATGTGATGTGTATGAATTCTGGATGAAAATTGCTGATATACTTGAACTAGAAATATGCCCTTGGGCTTGAGGCCAAGAAATAGGTTCATAATTAT
ATTACTTAATTACATGGAATCCAATCTGTTTAATTGGTAAAATGTGAAAGCTCTGTGGCAATCTCTTTTTCCAAGAAAAATGAGACTCCTTTTGGATGCT
ATTCCTTGGATGATGTGTCATGCAGCATGTCAGAGTCCCTCAGTGGAGCGTGTTAACTTGAAGAGCTGGTCCAGTGGGGATCTCTGATATTTGGAAATAT
TTTTCTAAGATTCATCCTTCTGGTATCTTCTTCTTTGTCTTCCCCTCTYACCACTCTTATAGATTCACTTTTTTGCTCAAGCCTTCAGCTTAAATTATAT
TCAATTAATCTAACAGAAGAGTTATTTGTGCTTTGTAAATATAATCAGTCTTTCCYGAGTAACTGTCTACAGAAGGCTGTTTGCTGTGAAGCGTCGTTGA
ATACTTTTCTGTGTCTGTGGTTTACTGGACTTGAAACTGTTTATTTGAAATGTTATTTTCTGGAATGTTCTGGTGTCAGTGGACAAAGCCTATGGCCAAT
GATGCTCCAAAATGCTCATTTGGCACTTAGAAAATAAACTACCATCCATCCCAAATTCTTCCAACTGTATCATTTTCTATGAAGTTAGAATTTTGAGTTT
CCAGGTCTAAAGAAATGAAAGATATGAGAATTAACAGTATTACCTGGTTGTTGGAATGTGGAATATATAAGAAACATTTTTCCAGAAAAAATGTAAATGT
TGAGCCTCCTGACTGTGATTACTATAGAGCTTGAAAGTCTATGTCTTAGAAAAATATTTTATTGGTATGTTTCTTCATTCATTCACTCAACAAATACTTG
TGCATTGACTGCTGGTTCATGTATCAGATGCCTTGCACTAAAGAGGAAAGAGAAATGGCCCTTTAAGTCCTTGAAGTAGGAGAGACATTTAATTCAAAAA
TTGCAATGAAATTGTGGTAAGTTCTCTGAATGTAGGATGTACAAATTACTTTGGGCACCTGGTAAAGAAACAGACCAACATGSCTTGGCTGGGTCAGAGC
AACTTCACTAAGATGTTATTTGAACTTTCTTTCATAAAGATAAATAGAAATTCCTGAGATGAACAGTGCAGAATGAAGTATTCCCAGCAGAGTACAGAGC
TTCCAGTTCTGTGTGTCATTAAAAATGAGAAGAAAATTGTTGACAGTAGCAGTCTTGGGATTATAGGGGGAGACAGGAGTTGTGGAATTACAGGAGAGGT
TCACTTTTTACCTGATATATTTGTATAATGTTAGATTTTTGTGTAATAAGTATGTGTTACTTCAGTAATCAAGAAAAAGCTATCAAATACTCCTCTACCC
CTACTCCCAAAAAAGAAATTAAAAAGAAAAGAAAGAGTTTTGGTATTGTCATTATCATAAACACCCTGTTAACAGAAACAACACAGCAGAGGTAAGGAGT
TGGAAGAGTTGTCCAGGAGTCACCAAGCCTCCCTGGCCCAGAATACAACCATGAAGACAGCCAAAGGCATGCCAGGGCTTTGATGCAAGTTCCACTGTAG
CTAGAGCCTTATGCAGCCATTTCCAATGCAGTGGGTTCTCTCTTAGAAATGGGGACCCATCTGGGAAGAAGGTTTTCTTCCCTAAGGCTCTGGTCAAGAC
TGTCTTGGAAAAGCCCCAGGAAATGTAATTCAGAGTAACAGAGAAGAAAATGAACAGCCTCCAGTGAAATGGAAGCCTAAAGGGTAGAGCTAGAGATGGC
TGGTGTCCTGAAACGAATCTGGGACTAGCCCAGACCTACAAAAGATATCTCCTTTGGAAAGGACCTCCCCACTGGGTTTAGCCATACCGCTGGGTATAAT
AAAAATATTGAGAGCTAGCATTGACTGAAGATTACTATTGTAAGCATTGTGCTAAGCACTCCACTGAGTACATATTCTCCTTTATTCCTGAAAATAAACC
CAAGCAGTAGGTAACTCGTGTTATATTCATTTTACAGAAGAGGAAACCAAAGCAGAGAAAAGCTAAGTACCTTGCCCAAGATCACCAGCTATTATGTGAA
AAATTTAAATCTAGGCAGCCTGACGCCATGCCCAACACTCTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTG
CGMTCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCACGAGTAGCTGGGACTACAGGCGCCCGCTACCACGCCCG
GCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCTATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAA
GTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCACTCTTAAGTACTTTATAATATTGTTTTAATGGAAAAACACTGCCAGTCTGTTTCTAGGAACA
CTCATCCTCAGGATAAAAAGAGATATTATAAAGAAAGGGGGGAAAAGTGTCCTATGGTCAGATAAGTTTGGGAACTCCCTCTTGGTAATTTCTTTATTTG
TAAATAACATTTGTTGGGAGAGTATTCACTCCGTGGGTATAGCGTACTTTGGAACACAATGCCCTGCGGCATTTTTTGAGGTGGCAGAACTGAGTAAGGA
TACAAGAATCCTTACACAGATGCACTTCTGGAAGTGAGTACAAATAGCCTTGGATTTGTTTTCATTCTAGATTTTCTAGGCTACCTTTGGGAGCCTGAGA
TTGCCAGAATATTGACAAGCTAGAACCATATGATGATTCCTTAATTGGCATGATAGAGCCTATTGTTGTGTCTCTCCCTGAAGAACATTTGTATCCACCC
AAGTGCAAACTCTAGCTGACAACTAACTTTTTATCCACACTATCTGAGTCTATTTTTTCAAAATGAACGTAGTATTATTGGAAATATTTGAAATATGCTA
ATGACTCTATCAGGTTTTTCATGGCCCCAGATGAATCAGAATTTGTAAGATTTTTATTTTCTAGAAGGAATTTTTATTTTAAAACATTCCATGAACTCTC
CCTATTGCCATGTTGGATACGCTTTCTGCACAATTATTTGGGAACAAAGGAAGGGAGACTAATGGCCCTGGGAAAGGTATCCTATTAAAATCACTGGTCC
TCAATATGTTTAGTGAATAATACATCTGCTTGTGAAGCTGTCCAGTCTGAAGCTGTGTTTTAAGTCTTAAATATTTCCCCCAACATTAAATTTTATTTTT
ATTAATTTAAATGTTAATGCGTAGATGCTGCTTGCTTCTTTGGTTCTGAATTTTGGTCTTGATGTTTTATAATTGCACTTATCGATGAAAGTACCTAAAC
CAGTAGAAGAATTAGAAACTTGAAGAAATTGTGAAGAAGGATTAAAATGGCAGATAGGAGGCAGGACTAGTTTGCAGCTCCCATTCGAACAGACAGAGCA
GTGTTTGGAGACTCACATAGTGAACTTTTGCTCTAAGAACTACCTCAAGAACATATCAGGAAAGCCAAGAGAATCCACAGACCCTTTGAAGGAACTGGAT
CACCRCTGCAGGCTTCCTGAGATGCCAAAAAAAACTATGAGTCTGTTTGCTTTCTCAAAGGAGAGGCTCTTGGTCTGGGGCAAGTTCTCAGCCCTAGTTA
CCTGTTGCCTGGAAATAGATTCAGTGCTGTTATGGGGGCACTGTGGGAGTGAGACCGGCCTTCAGGATTGCAGGCTGCATGGGAGCAGGGTAAGGCCTGT
GACTGCCAGCTTTCCTCCACCTCCCTGGCAACTTGTATGACTCAGTAGAGACAGCCATAATCCCCCTGGGAATATAACTCCATTGGACTGGGATCCACAC
CCTCATAGCCCACAGCAGCTGCAGCAAGCCCTGCCAAAGGAGAGGCTGAACTCAGACATGCTTACCCCTTCCCCCACCTGGTAGTCTTTCTCTACCTGCC
CTGGTAGCCAAAGACAAAGGTCATAATCTTTTGGGAGCTCTATGGCCCTACCTATCACCTGAGAAACCACTTAACCAAGTGTTCCTAGGGCAACTAGGAA
CACAGCTGATACACTCTTGTCAGTGCCACCTCCTGGCTGGAGGCCAACCAACACAAAACCAACACTCTAAACAAAAACACAACCAAGGACCCTCGCAGAG
ACGACTTCACTCCCCTGCTAATTCCATCAGAGCAGGTGCTGGCATCCATGGCTGCAAGACCTGAAGACAGATCACATCACAGGACTCTTTGCAGACACTC
YCCAGTACCAGCCTGAAGCCCAGTAGCTCCTCTGGGTGGCTAGACCCAGAAGAGCAAAAACAATCACTACAGTTCAGCTCTCAGGAAGCCCCATTCCTAG
GGGAAGGGAAAGAACATCACATCAAGGGAGCATCCCGTGGGACAAAAGAATCTGATTAGCAGCCCTGAATCCCAGACCTTCCCTCTGACCTAGTCTACCC
AAATGAGAAGGAACCAGAAAAACATCTGGGTAATATGAGAAAACAAGTTTCTTTTACATCCCCCAAAAGATGATACCAGTTCACCAGCRATGGATCCAAA
CCAAGATGAAATCTCCAAATTGCCAGAAATAGAATTCAGAAAGTTGATTATTAAGTTAATCAAGGAGGCACCAGAGAAAGGTGAAGTCCAACTAAAAGAA
ATAAAAATTATGGGATATGAAACAAAAAGTCTTCAGTGAAATAGACAGCATAAATGTAAAACAATCACAACTTCTAGAAGGCAAGAAATGCAAAATGCAC
TGGAAAGTCTCAGCAATGGAATGGAACAAGCAGAAGAAAGAAATTCAGAGTTCAAAGACAAGGCTTTCAAATTAACCTAATCTGTCAAAGACAAAGAAAA
AAGAATGAAAAAATTGAACAAAGCCTCCAAGAAGTTTGGGATTATGTTAAACATCCAAACCTAAAAATAATCGGCGTTCTCAAGGAAGAAGAGAAATCTA
AAAGTCTGAAAAACATATTTGTTAGAATCATCAAGGAAAACTTCCCTGGCCTTCCTAGAGATCTAGACATCCAAATACAAGAAACTCAAAGAACTCCTGG
GAAATTCATTGCCAAAAGATCATCACCTAGGCACATAGTCATCAGGTTAACTAAAGTCAAGATAAAGGAAGGAATCTTAAGAGCTCTGAGGCAAAAGCAT
CAGGTAACCTATAAAGGGAAAACCCCATCAGATTAACAGCAGATTTCTCAGCAGAAACCCTACCAGCTAGATGGGATTGGGGTCCTCTTTTTAGCCTCCT
TAAACAAAACAATTATCAGCCAAGAATTTTGTATCCAGCAAAACTAAGCTTCATAAATGAAGGAAAGATAGTCTTTTCCAGACAAACAAATGCTGAGAGA
ATTCACCACTACCGAGCCAGTACTACAAAAACTGCTAAAAGGAGCTCTAAATCTTGAAACAAATCCTTGAAATATACCAAAATAGAATCTCCTTAAAGCA
TAAATCTCACAGAAACTACAGAACAATAACACAGTGGAAAAAAAGGTAATCAGGCAACAAATAGCATGATGAATAAAATAGTACCTCACATGTCAATACT
AACATTGATTGTAAATGGCCTAAATTCTCCACTTAAAAGATAACAGAATGACAGAATGGATAAGAATGCACCAACCAAGTTTCTGCTGTCTTCAGGAGAC
TACTCTCACACATAAGGACTCACGTAAACTTAAGATGAAGGGGTGGAAAAAGATACTCCATGCAAATGGACACCAAAAGCGAGCAGGTGTAGCTATTCTT
ATACCAGAAAAAACAAACTTTAAATCAACAGCAGTTTAAAAAGATGAAGAGAGACATTATATAATGATAAAAGGACTAGTCCAACAGGAAAATATCACAA
TTCTAAATATATATGCACCTAACACTGGAGATCCCAAATTTATGAAACAATTACTATTAGACCTAAGTAGTGAGATAGACAGCAACACAATAATATGGGG
GACTTTAATACACCACTGATAGCACTAAACAGGTCATCAAGACAGAAAGTCAACAAAGAAAAACTCTACCTAAATGATACCCTACAAGTGAACTTAACAG
ATATTTACATGACATTCTACCCAGCAACTGCAGAATATACATTCTATTCATCAGCACATGGAACATTCTCCTAGACCATATGATAGGCCACAAAACAAGT
CTCAGTAAATTTAAGAAAATCAAAATTATATCTAGTACTTTCTCAGACCACAGTGGAATAAAATTCGAAATCAACTCCAAGAGGAACCCTTAAAACCATG
TAAATACATGGAAATTAAATAATCTGTTCTTGAATGATCATTGGGTCAACAATGAAATCAAGATGGAAATTTAAAAATTTTTTGAACTGAATAATAATAG
TGACGCAGCCTATCAAAACCTCTGGGATACAGCAAAACTGGTGCTAAGAGGAAAGTTCATAGCATTAAATGCCTAAACCAAAAATCTGAAAGAGAACCAA
TAGACAACCTAAGGTCATGCCTCATGGAGCTGGAGAAACAAGAACAATYGAAACCCAAACCCAGCAGAAGAAAATGACGAAGATCAGAGCAGAACTAAAT
GAAATTTAAAAAGAAAAAAGATAAATGAAACAAAAGCTGGTTCTTTGAAAAGATAAATGAAACAGATAGACCAACGAGATTAACCAAGAAAAGAAGAGAG
AAGATACAAATATGCTCAATTAGAAATGAAATGGGAGATATTACAACTGGTACCACAGAAATACAAAAGATTATTCAAGGATACTGTGAACACCTTTACA
CACATAAACTAGAAAATCTAGAGGAGATGGATATATTGAAAGTATACAATCCTCCTAGATTAAACCAAGAAGATACAGAATCTCTGAACAGACCAGTAAC
AGGCAGTGAGATTGAAATGGTAATTAAAAAAAATTCCAAACAAAAAAATTCCAGGACCAGATAGATTCAYGGCTGAATTCTATCAGATGTTCAAAAAAGA
ACTGGTACCAATTCTACTATTTCAAAGGATAAGGAAATAGAGAATCATCCCTAACTCATTCTATGAAGCCAGTATCACCCTAATACCAAAACCAAGGGAG
GACATAACAAAAAAAAAAGAGAGAGAGAGAGAAAACTACAGACCAATATCCCTGATGAACGTAGATGCTAAAATCCTCAACAAAATACTAGCAAACTGAA
TCCAACAGCATATCAAAAAGATACTTCACCATGATCAAGTGGGTTTCATACTAGGGATGCAGGGTTGATTTAAGAGACATAAGTCAATAAATATGATACA
TCACATAAACAGAATTAAAAACAAAAATCACATGATCATCTTAATAGATGCAGAAGAAGCATTTGACAAAATCCAGCATCGCTTTATGATTAAAACCCTG
AGCAAAATTGGCATAGAAGGGACATACCTTGAGGTAATAATAGCCATCTACAACAAACAGATAACATTATACTGAATAGGGAAAGTTGAAAGCATTCCCC
CTGAGAACTGGAACAAGACAAGGATTYCCATTTTCACCACTTCTATTCAACATAGAATTGGAAGTCCTAGCCAGAGTCATCAGACAAGAAAAAGATATCA
AGTGCATCCCAATCAGTAAAGAGGAAGTCAAACTGTCACTGTTTGCTGATGATATGATTGTATATGTAGAAAACCCTAAAGACTCATCCAAAAAGCTCCT
AAAACTAGCAAATGAATTCAGCAAAGGTTCAGGATACAAAATTAATGTACACAAATCACTAGCTCTTCTATATACCAACAGCAACCAAGCTGAGAATCAA
ATTAAGAACTCAACCCCTTTCACAATAGCTGACAAAAAAAAAAAAAAAAAAAAAAAAACCTTAGGATTATACCTAACCAAGGACGTGAAAGACCTCTACG
AGTAAAACTAAAAAGCTCTGCTGAAAGAAATCATAGATGACACAAGCAAATGGAAACACATCCCATGCTCATGGATGGGTAGCATCAATATTATGAAAAT
GACCATACTGCCAAAAGCAATCTACAAATTCATTGCAATTCCCATCAAAATACCACCATCATTCTTCAAGAAGTAGAAAAAACATCCTAAAATTAATATG
GAACCAAAAAAGAGCCCGCATAGCCAAAGCAAGACCAAGCAAAAAGAACAAATCTGGAAGCATCACATTACCCTACTTCAAACTAAACTATAAGGCCTTA
GACACCAAAACAGCATGGTACTGGTATAAAAATAGGCATATAGACCAATGGAAGAGAAGAAAGAACCCAGAAATAAAGCCAAATACTTACAGCCAACTGA
TCTTTGACAAAGCAAACAAAAACATAAAGTGGAGAAAAGACGCCTATTCAATAAATGGTGCTGGGATAATTGGCAAGCCACATGTAGGAGAATGAAACTG
GATCCTCATCTCTTACCTTACATAAAAATTAACTCAAGATGGAACAAAAACTTAAATCTAAGACCTGAAACCACACAGATTCTAGAAGATAAAATTGGAA
AAAGTCTTCTAGACATTGGCTTAGGCAAAGACTTCATGACCAGGAACCCAAAAGCAAATGCAACAAAAACAAAGATAGACATATGGGACTCAATTAAACT
AAAAAGCTTCTGCACAACAAAAGAAATCATCAGCAGAGTTAACAGATAACCACAGAGTGGGAGAAAATCTTTACAATCTATACATCTTACAAAGGACTAA
TATCCAGAATCTAAGAACTCAAATAAGCAAGAGAATAACAAATAATCCCATCAAAAAAGGGCTAAGGACATGAATAGACAATTCTCAAAAGAAGATATAC
AAATGGCCAACAAGCGTATGGAAGAATGCTCAACATCACTAATAATGAGGGAAATGCAAATCAAAAACACAATGCAATACCACCTCACACCTGCAAGAAT
ATCCGTAATCAAAAAAAAAAAAAAATAGATGTTGGCAGGGATGCAGTAAAAAGGGAACACTTTTACACTGATGGTGGGAATGTAAACTGGTACAAGCACT
GCGGAAAACAGTGTGGATAATCTTTAAAGAACTGAAAGCAGATCTACATTTAATCCAGCCATCTCACTACTAGGTATCTACCCAGAGGAAAAGAAGTCAG
TATATGAAAAAGATGCTTGCCCACTCATGTTTATAGCAGCATGATTTGCAATTGCAAAACCATGGAAGCAGCCCAAATGACCATCAATCAATGATGGGTA
TATATATATCATGGAATATTACTCAGCCACAAAAAGGAACAAAATAATGGCATTCACAGCAACCTGGATGTAATTGCAGACCATCATTCTAAATGAATTA
ACTCAGGAATGGAAAATCAAACATCGTATGTTCTCATCCACATGTGGGAGCTAAGCTATGAGGATGCAAATGCATAAGAATGATACATTGGACTTTGGGG
ACTCAAGGGAAAGGATGGGGGACAGCAAAGGATAAAAGACTGCACATTGGGTGCAGTGTATACTTCTCAGTTGATGAGTGCACCAGAATCTCAGAAATTA
CCACTAAATAACTTACTCATGTAACCAAACACCACCTGTTCCCCAAAAACCTATTGAAATAAAAAAAAWTTTTTTAAAAGAATTTGTTCCTTTCCTTTTT
TTAATTACATGTAAAACTAGGTTTATGGCCATGGGGCATCTGTGACTCCTCCTCTTTTTCTTTAGAGATGATCTTCTCATTTTTTATTCTGATATGTTAT
TTCCTCTAGCGGCAACTTATGTTAGTGAATGGCTTTTCTGTAAGACCCATGGCAGATACATATTTTTTTTTCTGCTGGGAATTGCTGAGAGCTTTTCCTA
AGGTTTGAACACATTTAGAAGCTTCACTAACACACTCAACAACCTTATGTCTCATCAGTTTACATAGACATTTCTACTAGGATGTGTAAAAAGACAAATT
GTGTGTAAATTGATTTGCAAAATACATCTGTGAGATAAAGCAAGATTTGTTTACAATGAGTCACTTAGAATGTGGTCTACCTTTTAGTCTGGATTTGGTA
TGAGAGATTCCATAGTCATTTTAGAGCCTTAGGCTACATGAATATTGCTGTTGTTATTGTATCATTTAGTTAGAATATACAATTTCTGTGCAAAAGTAGA
CACCACCCAGGGTATACAGCATAATAATGACCAGTTCTTTTCTATCTGACAGTCTGGAAGGGTGGCAGATGAATGCTATGAGAGGGCCCCCTTTTCTACA
GCATGCTTAGCTTCCTCCCCGATGTATGCTTTGATTTGGCCTTAGAAAGTGAAGGCATGTGGTTGTAAAGGAAGCGGAAGCTTAAGAAATTGGTATCATT
TATCCTGGAGAATAAGGGCCATAGAAAATCTTACTAATGGTATCCTTAGTGCCCCAGTGGATTTCCTCCCACCCAAGAATGGAATACATACAAATCCATG
GTAGGGCTGTCTGGAAAACCTAGGCTACCTTATTGCAATGGTATCATCACTGTATCACACACTTGGCTCACAAGGAGACGTCTTATTTCAATAAGAAGCT
TTGACTGCCCACTTCATGTCAGGCAAATAATATGGACAGGACACAGTTCCTTGCGTCAAGGAGCTCATAGTCAGGCAACAATGGCTTCACATGGATAGAG
GCATTTAAACCAGGCCTTGAAAAGTTAGGAAGTGGTAAAAAAAAAAAAAGAACAAATTAGAACTCATGAAAGTACATAGTTTGAGGAGTAGAAGATGTCT
TCATAAATCTAGAGTAATGGGTGAGTGAGGAGGGGGTGGGAAACGAGTAAAGTGAAGGATGAGAGTTTGTGAAGGGTACTGGATGCAAAGCTAAAGGTTG
GAGTTGGTGCTATAGGCAGCAGGCACCACTGAGGATTTTAAGCATGATAGGACTTCTTTCTAAAATAGGGATATCACATTGACTATTTTAACTGCTAAAG
TACTATGATAAATAGAATAGAGATACAGAAAAACAGAGTAGGGAGATCCCAGTTATACTGAGCCTAGAGAACTACAGCTTTGGAGTTGCTTAGCAAATTT
TATTTGCTGTGGTGGATGAGCCAGCTTCTACTTCTCTATGTTAAATATACCAAAGAGGAAGTGATGGGGTTTCCAGGGATGCTGTGTTCTTCGCCTACAC
GCTTCTCTGCATCATGCTAATGCTGCATTTTGCAAAAGCTGTGGTTTACCCAGCTTCCAATGAATTTTGTTCCAGTAAACTTGCCTAAAAACAGAAGTCT
GCAAAAAATAAGAAAATATGCTATGAACATCTGATCGGACCTTTATGGTTAACTGGGTTTTTTTAATTGCCGTGGAACGTAAGGGTTTAGTTAGTCTATT
CTTAGGCTCCTCGACTCCTGCAAACATTCTCAAAAATAAGCACTAGGAAAAGAACGTTTCTACTGGGTATGTGACAGGATAAAGAAAGTATTGAGGGAAG
TTGATTATTATAAGAGTACTTATTTATAATCCTGCTCGTGCCCTCCTCATATTAGATAATCATTATCGATGAGCTGATGCTTGGCCCATGTGCTTGCCTG
ACACTAGCATTTTCAGACTACATGTGACCCAGATCTCACTGATTTTTCAACCTTTAAGTCCTCCTTTCTTAATCCTTAAATAATTCAAAATCTCTAGGTA
AGTGAGAGGCAGCATGGATAGTAGAATAAGCATGTGCTCTATGTTAGAACATCTTGGATTCCAATCCTTCTGTGCTATCTAGTAGTTGTATTTTCCTGGA
CAAATTATTTAACATTCTATCATTATATATAGATTTTGAAACAGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAA
CCTCCGCCTCCTGGGTTCAAGTGATTCTTGTACCTCAGCCTCCAGAGTAGCTGGGATTTCAGGCACACACCACTATGCCCAACTAATTTTTGTATTTTTG
GTAGAGACGGGGTTTCACCCTGTTGGCCAGGCTGGTCTCAAACTCCTGGTCTCAAGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCA
TTAGCCACCGTGCCCAGCCTAAATTATTTAACATTTTAAATCTCAGTTTTCTCTTTTTACAATGGGAACAATTTATCTTCAGTTCTTGATAGGATAATTT
GAAATAATATACACAGTAACTGGCCCCTGCTAAGCCATCAATAATAGTAACTATTATTATCAGATTCTAATTGCCAAAACAGCAGGTTGGATGTTCCAGG
AGAGGTTATAATCCCAGTATCAACTCTCAGCTCTCGAGTCTTCATGTCTGTATCCCATTGCAAAGTTCAGCTTGGTCAGGGGAATCCTCACAGTGAGGAG
GCCCTCATAATAAAGCCCACATGTGAGTTTGGCCTGGATAAGTTAACTCACAAACCTTCACCCCAGTGTAGCCACCATCCATGAGTATACATGAGGCTAG
TGTATAAGGCTAATTCTCTCCTCACTGTTGTAGTGAAGAGCACTTAATAGATGTGTCATAAATGTTATGCAGACTTAACACTCTGAGGACATGGGGATGC
ACAGATCATTTTTCCCATCCCTTTTGCTCTCTCTGTGATGTCCTTAACCTAAATAACAGTGTGTAGAGAAAAATTTATAATATTCCTGAGGAAAAGAATA
GTAGAAACAGTAAATAGCTGTTAAGGTCAATATAATTTACTACAAAATAAGTTGTTTGAGATACAGAAAAAAATCAAGGCAGAGAAAACACAACCAAATC
TAGTGCTTACTATTTACAATTTACCCTGGGGCCTGAATTTTCAAGAAATCTTTCTGTTTTTTAATATAGTCACAACACCACAATTTTTAAGCATTTTCAG
AAGATCCTCATGCATAAAAAACCAAGGATGGTGACCACTGATGCTTGTATTATTTTCCTTTCTCTGAAATAATGGCATCTTTTAAAAGGAATATATTTAA
AATGTAATTGAAATTATTGAGTTGTTGCTCTGATTAATGTATGTGGGAAAATAGAAGTCAGGAAATGTTTCAAAAGCTATATTTCTGTTCTCATCGCCAA
TCACCATAGACCCTAGATCCATTTAGCCATCCCATATTCACTTGTTTTAGGCAGGATGTTAGAATAAAGAAATATTTTATGAAGTGCTTCATACTGGAAT
TTACTCCTTTTCTGAAAGAGGGAAGTGTGAATTTATCTTTTATAGTGAAATAATTTTACCTGAAGTCATTTCAATGTCATTTTTGGTCATAAATGAAGAG
TTTGGTAGAGGAATCTTTGAACTAATTACCTTTCTGAAACCTTACAGTATTTTGTTGCAAAAAACAATGGTTAAACTTATAAAGCAGAGGTTTTTGGTAA
AGATGCAAAACATCTACCTAAGAAAGCCCCATGTCCTATATTTTCATTTTTATAATCTATAAACATTAATTGAACACCTGGGAGAATGGAGGAGAGAACC
AATATTTACCTCCTATGTGACAGTTACTTACCATGATCTTTTTAAATCCTCAAAGCCGCCCTGTAAGGCATGTATTATTACCACTGGCAGGTCATTGGGC
CTGTCTGGGACTCAGTTCCTTATCAGTAAACTAGATGGTAACATGCTTGCAGGACTGTTATATGGATCAAACATAATCTAGGAAAAACACATGTCTATTA
GAGTTGCAAAGATGGAAAATACATGGCACATGATGTTAAAGAAAACTGTAGTGGCAGTGCTGCTACTAATGGTGATCATCTCATGGCTTGAATTGAAACA
GAGCACTTTGGTGGAGCAGTGATGTGGGATATAGAGTGACAAGGCAATGTTCATAGTGGTTGTGATAAGGAAGAACTTCAATAATGTCCTACAGCGTTTT
ATAACAGAAGCATCATTTTACTAATCACAAATATATAACATTTCCCGATTTTTTTAAATAAAAGAATTGGCAGTGAATACTCTTGCTTTAGGACTTAAAT
GAAGTAGAGTCAAATAAGATTTCTCATCCAGGTCTTTTATTTTTTTTCTTTGATATGGAGTCTTGTCTCCCAGGCTACAGTGCAATGGCACATCAGCTCA
CTGCTGCCTCAAATTCCCTGGCTCAAATGATCCTCCCACCTCGGCCTCCTGAGTAGCTGGGACTACAGGCATGCACCACCATACCCGGCTAATTATTAAA
ATTCTTTTTTATAGAGACAGGGTCTCACTGTGTTGCCCAGGCTGGCCTCAAACTCCTGGACTCAAGCAACCTTCCTGCCTTGACCTCCCAAAGTGCTGGG
ATTACAGGTGTGAGCTACTGTACCTGGCCTCATCCCAGTCTTCTTAAATTGATGTGAAGATGGTAGTAGATTATTTCAGATTTTAGGATGAACTAATAAT
AGCAGTTAGCATGCTTGAACAGACTGTATCTAGTTCTGAGCTAAATGCTGGATATGTGATTCTCATTGAGTCCAGGAGGTAGGAACCACTATTACTCCTT
TGACAGATGAAGGGACTAAGACTGATAATCTCACAACTTGCAAAACTAGAAAATCTCATATTTCTTTTTTGTAAGGTTGTTTTTTATTCTTTGCCCTTTT
TTAAACTAAGAAATATTTCAAATATTGAAAAATAACATTGAATATCCTCCACCTAGATTTCATAAATGTTAACGAATCTGGATATTTGTTTCAGATCCTT
AGTTCAGAAGAAATTAAAAGTTACCAATACAGTTGAAACCTGTTTTCTACCTCTCCACAATCCATTTCCTTCTCCCTCTGCAGATGTAACCAGTGTTCTG
AGATTGTTTTAAACTCACTCTAGAATATGTATATAAAAAATGGTATCATATAGTTTTTGTGATTTTGAATTTACATAASTGGTATTTTCTTCCATATTCA
GGTTTATCCTTTTGTTTATTTCTTCTATCTTTTTGAGGTAAATATTTAGTCTATTAATTTTCAGTCTTTCTTATTTTCTAATGTATACACTTAAGGCCAT
GCATTACCCTCTAAGTACTAGTTTAGCTGCATTTTGCAAGTTTGAAATAGTGCCTTAAAGTTTCCAAAATAGAGAGTTATTACTGCGTTACTGAGCTCCA
ATTTTGTTGCATATGAGTTGTAGTGTGGTCTATAGAATACCAACTTTTTGTTATTTATTGAGAGTTAACTTTGGCTCATTACTGGTCAATATTTTTTTAA
ATGATTATATTGACTTGAAAAGAAGATATAGCCTCCCTTTGCTGGGAATAGAGTTCTACATAGTTCATTAGAGCAAACTTACTAACTATTCAAAAGTACT
GTGTCATTTGAAAGAAGTATATTAAAAGGCCCCATTAGGATTGTGATTTTATAAATTTCTCCTTTAATTTCTATCAGCTTAGCTCTATGTARTTTGGGGT
TTTATTGCTTTATACAGTTTAGCCAAAAGACCTTCTTTATCCTTAATGATGAATTTTCTCTGCAAGTCTATTTTATCAAATATTAATATCATAGAACCAA
TTCTTTTTTGGTTACTTTTTTTTTTTTTTACTATTCCTTTTCTGACTTACCTCGGTTGTTGTGTTTTAGTTGATTCTGGTATATTTTAAAATATCCAATC
TGACAATAGCAGTTAACAGGGAAGTTTGTCATGTTTATTGTGATTACTTACATTTTGTGATTTTCTAACATTTTCTATTAAAGTTGCTATTTTGCTCCTT
TTTTTCTCCTTGTTTGCTTTCTATTGGATTCAGTGGTTTTTCTTACCCTCTCTCCTCATTTTCTCTCCACTATTTAGAAACTTATACATTCCCTTTCTTT
TTTTTAGTGGTTACTATTAAATATCACATGTATATTTGTCTTAATTAAATAATATAGTAACCACAGATTGCTTCAATATATCCCCTTCCATCATATATAT
TATTGTTGATTAGTGTTTTAGTTATGCCTTGTTTATAAACTGTCCCCAGATTTGTTATAACATGGTCATTATTATCTGCTGTGGTCTGAATGTGTCTCCC
AAGTTTCCTATGTTGGAAATGTTGGAAATCCTCAATGCAACAGTGTGRGGAGGTGAAGTCTCTGGGAGCTGTTTAGGTCATGAGGGATCTGCCCACATGA
ATGGATTGATGCCATTATAAAAGGGCTGGAAGGAGGGAGTTCACCCCATTTTTCCCTTCTGTCTTCTATGTGAGGACAGTTTCTCCCCTCTGGAAGATGA
ATTGTTCAATGTGCCATTTTGGAAGCAGAGACTGGATCTTAACCTACAGTGCCTTGATCTTGAACTTGTCAGGCTTTAGAACTGTGAGAAAATAAATTCC
TGTTCTTTATAAATTACTCAGTCTCAGGAATTATGTTGTGGTAGCACAAAATGGACTAAGACATTATTTGTTTGGCTTTGCCACTTACTGGCTGTATTAC
TTTGCAAGTTTTTTAGATGTGTGATGCCTAGTTTCCTCATGGATATACTGGGGATCATAATAGTATCTAATTATAGGTTTATTGTGATAATTAGATGAGC
TTCATCAGTTCCTGGCACATAACTGCTCAGTGAATTTCAGCTGTTATGATTTAGTTAGTACTTATTAGATTGTCAACATGTTCACTGATATGTTTATGAA
CTATTATTTCTTTCTCCTGGTTCAGTTACCTTCTTCCTGAAGTAGGACTCATAGTAGTTCCTTTAATAGAGTTCTGTGAGTAATAAACTATCAGTTTTAT
TTGAAAACACGTTTACTTTGTTCCATCTTTGAATGATGTTAGTTGAATGTGAAATTGTAGATAGCAGTTATTTTTTTCCCAGAATTTGGAAGATATTATT
TTATTTTTTCTGGCTCTTATAGTTGTTCTTGAGGAATCTAGTTGTATCAGTGATGATCTGCATTTTCACCATGATTTGTTTAGGGACACTTTAAAAAAAT
ATTTCCTTGCTCTTACTTTTTTTTCTTCTTCAATCTGAGAACTGGGAGCTCTTATGTTTTTTTTTTAATTCAGTAATGTCATAAGCTATTATTGCCTCAA
ATATTGCCTTCCTGCATTCTATTCTGTCCTTCTGTAATCCATACAGAATAAATCTATCATTTTGTCTCCCATGTCTCTCAATCTCACTCTCAGGTTTTCC
ATCTCTTCAACTTGCTTTACAACTTTCTGTGTGATTTTCTCAGGATTCATCCTTTCAATTTATTTCTCTTTGGTTGTGTTTTTAATTCTATTTAATCCTT
CCATTTAGTTTTTTAGCCTGATGCTTGGCATCTGGAGAAGACAAGAACAGGAAAATCAGGACAATGACCTGACTGTGTCACCCATTGGCATGAAATAATG
AGGAAGGGGTGAGGAGAACTATGAAAAGCATGAATGGCATGTTCAGTGATCCTCAATCAGTTTACCAACAAGTTTTCTTGGTATTTTAACCTTTTGTGTG
TGTTTTCAAAGGCGTTGTAAAAAACAAAACAACATATAAATTTGTTAAATAATAATAATGTATCTCCAGATTTTGCTTATCACAAAAATTTATAACAACC
ATACTTTAATTTAAATGACCAGTGTTACTGTATCAAATTGGTATTCTTTCAACTAAGAGAAAAGAAATTAAATTTGCCAATTTAGTTTATTTGGGGTACC
ATCTCACCCATAAAGATATAATTTTTCTATGTTTTTTAGAATACTTGAAACTGGTTCATAGAGTCCCTTTCGTGATCATAGGTTTGTAAACACTGGCATA
ACATTACTGATTGGAGCTCTAGAAAGCGGGAAGTCATTCTTGCCTACCATCTTTTATTCAGCATTTAGCTACTGGCTGATCTAGAAACTGCATCTACAGC
CACTGCTCATTACCTTCTTGACCCAAGTTGCAGCATCTACAGAAGATGGAGATGCAGTTTGTAAGTGGTCCAGGAATGAGTGTTGGTTAGCTTTTAGAGG
ATGTTGCTTGGACTAGCACAAGGAGTATCATACAAAACTCTCTTGTTGCCACCCTTGACAAATGACCCTAATTTTCATATCGGATTAGAAAATTCGATTG
GACCATCAAAGCAAATGTGTTCTTTTATGGTTTATTAGTGATTCTTCCCAGCTTTGGTAAGTGCAATTTATATAATCAGCTCTCAAAGATTTTCACTATG
GGTTTTTATTTATTCTTGCAGAATAGTGCCTTAGAAAATTTTATACGGATTTTTTTTTGCAACTATTAAGCAGTTTTCCCTTATTCCCACTCTCTCAAAC
CCCAATGCCCAGCATGAAGAAGAAACAAATCTCTATTTTCAAATCTAAGCCACTCATGACACACCCAGCTGGGCTTACTCTGAAATTGGATTTCCATTGA
AGGACAGTGGGCAGAACACTAATCACTTGGGGGCCTGGGGAAACAGTGGGAGGGTGAATCAGGAAGCCATCAGGAGATGCAGCCCTCTTGCTGCTTTATG
TAGTTAGAGAGAGAGCATATTTTTAGAATGGACTTTGCTAGGAGGATAAATAATACAGTTCTATTATTTGGACGTTTGAATCACACACGTCTAGCCCTTT
AACTCATCTGATATACCCCTATGTACTATTATTTTTCCATAGGGAGAAAAAGGCATTAAGTGAGGGATAGGTATATTAATGAATATACTTAGAGTTACTA
TATTGAAATCTGGGGAATATAGATACAGAGACCAAAATGGGGAGTGGTGTTGATCATTGTTGGCTAGTGGCCCTGAATGGAGCAGGGAGTAGGTTCCTGA
ATGGGCACAGGTAGGAATCATGTGGGAAATGGGCACRTGTGCATCTTTCAAATCCCTCCATAGGGCTGCTGCCTACTGCTTGTATTAAAAGGCATTTTAT
GTTGCATCTACTTGAAGATGCCTAAATATGCTATACTTTCACCTCTCCTCATTCAACATATGTCCATATGTTATGTATACTTCCATTGTCAGATTTGAGC
TCTTGAAGCATGATTTTTAATCTGTGCATGCCCACATCCAGTGCAAAGTAAAAACCAATAGTGTCTTTCAGGTTTAGAACTGACCACAGTCAAGTACTTT
AGGACAGGAAAGTGAGAGGGCCAGAGGGAAGCTTCGCTTTGGGGAGTAAAAGAACCAATCTACAGAGGCCCTTGGTCTCCCACAGAAACACAGAAATGAT
AAGGAAGTATAACTATGACTAAAGAGAAAGGAAAGAAGAGAGAGAGAAAGTGAAGAAACACAGCCAAGTAGAAGCAGAGCCTGCTCAGGGAAGCATAGAT
GGGTTAGAGGAGGGACATTTGGGATGCACATCAGAAAATCAGATGAGAAGTCCGCGTTTGTCTGTTTTGTCTGGTCACCATAATTGTGCTGGCTCTGAGT
TTCAACCTTTGTTAATCATACAGCCTTGTTTAAATATGGAATCATTTTTCTTTTGTCCTTCCTTGACTCCATCTTAAACATCACATTACTGATAACTCAG
AGAACTTTTAACCTAGGCAATCTTCATGTGAGTTCCATTCAGTTCCTTTTGATATACACATATTTAAAGTGACAGTTATTTCCTCTTATGGAAGATAGAT
TTTATTTAATAATTTTTTCAAGCGGAGAGATTAGTTGTGGTCACAGTAGAAAATTTTTCATAATTCTCCAAGTACTATAAAAAGTAACTTGATGGCATAA
AGTGAATTSCCATGATGAGAGTCATCCTGTCACTGTGAATTGCTGTGATCATCTTTAAAGTGATATATCTTTCCACACTGTCTGTCAGCAACTATGTAGG
GTTTGTTTTAGATTCAAAAATGTGTGAGATTAGTTGATCTATATCCAAAGAATTCAGACACTTTTTGTTGTTTTTGGATCTAGTCACTGTTCACTAGTTC
AGTTGTGGGGTAGTTTTCTTATGTTTATCTGTCCTGAAGTTTTATATTCAGAGGCAGTTTTTACATGCTCTTTTTTTCTTACCCTTCACTTAATGAAGCA
GGGTTATAGGAGAAAAATAACCTTTTATCTTTCCTCAGTGATATTAACTTCATTGCATTTAACTTTTTAATAAATCGTATGCCTACTAATTTACAGAAGC
CTTATTTCTAAAAAATGTAATATATATGACTTAAGACTGATCAACATCTTCCCCTTTCTACTACATACATATTCGGAGTTTTTATTTTGTTTTCTTTCTG
TATATTTCAGACTGGGAAAAAATGTACTATTTGTAAGCAGATGATTTAATTTCAGTAAATGTTTTTTTATTTCTCTCTCCCTTTGATTTATTGCTTGGAA
ACCATGAGAAACATCCAAGTGCAGATGCTGTTTTCCCACTCTGACAAAACATTGCTTGTTGACCTCGCAAACTTAGAAAGATTTATCTCCTGTGATTCAA
TGGTGGAAGTAATAATATTAGCAGTTAAAATTTTCTAAGACACGATCAGGAAAAGGAGACTTCGGTCGTTCTGCTTCTTGTTAAGAACAGCTGGCAATTT
AAAAAGCAGAGACTTGCTAAGGGGGAAGGAGGTAAAGAAGATCAAACAGAAATGCCTCCCCCTTTAGTGAAGTATGAACTGAGGRTGCTGCATAGTAGCA
ATAAAATCAGATTCTTAAATGCTTTCCCTTGTTTAGTGTGTATATGTGCTTATTTTTATTTAGTCTTCAAAGATGACTTTCCTTATATATTTATTCTCTT
CGCAGGAAATACATCTTGACCAAATATTTTTTGCCAAATACTTGTTGTATATTAAAGCCAGCTTAAAATGTCATATTTGCTGTGGCTATGTTGAGACTCT
GACAAGATTATCTGCAGTGTGAGTGATGTCTGCAAGAGTGGCCTCTCACCATGCCTTCTGCACATTGATTCCACTAATCTGCCAGGAGGCAGAGGTGATT
CCTATCATTCTGAGAGCTTCCTATAGAAGGCAGGGCCTCTGCAGTCTCTAGAACTGAGGAACTAAATGAAGGCCACCAAAGTGACCATTAAGTTCCTTAA
TTGTGAGGAAGCATCTTTAAGAGGAAATGATTCTACAGCCAGAAATATGCGTGACCAGTTCTACAGGATGTGATGTCATGTGACTGGTGGAGCTTGTCTT
TCTATCAAAGGCTTGTACAGAAAAGGGAAAAGAAATGGGCATGTTTCAGGTCAGTTCTGAATAATGGAAGAAAGAATGAAAGGAAGGAGAGGGGAGGGGA
GGGGACAGGAGCGGAGGGAAGGGGAGGGGAGGGGAGGGGACAGGAGCAGAGCGGAGGGGAGGGGAGGAGAGGGGAGTGGAGGAGAGGAGAGGAGAGGAGC
GGAGAGGAGAGGAGAGAGGAGAGGGGCATGTGAGCTGGATTTCTTCAAACCCCACCAACCTGGACAGTGAGTCCTGGAATCAAAATAATGGTGAGCCTCA
GCATCTAACATCAAACACCCAGACTTCCTTCTGGTTTAAGAAATTCCAAAGGCTCTCAGCTGTGATAAAATTAAAAGGACATATTCCTATTTGTTCTTTT
TGTTATTGGTTCTCTGTCTCCCCCTGAACCTTTAGCCAGAAATAGAGATGCACCCTTTCTTCTTCAGTAGCTTTGAGGATCAAAGAATCTTAGTTGCCAG
AGCTGGGAGGGGAATCTCAAAGATTGCCTAGTGGAACAATATGATTGTTCATGTGAATAAACTGAAACTCAGAGAGAATGTGGTCTATGCAAGACATGGC
CCATAGTCTGTGTCAAAAGCCAGGTTTTCTGACTTGTGGCCCAGGGCTCTCTGTAGTATTCTGGGCCAGCAAAATCCCGTGTCTCTCCAGACACATCTTC
TCTTGCACCAAATGGGCCTCCTTGCTGTGTCCTCCTCAAACCACCCTCACTCCCACCTCTGAACCTTTGCTGATGTTCACACCCTGCACAGAGTGCCCTT
CTCCTCCAACTCCTCTGCTCAGCACATCACATCCCCTAATGCTCAGCCCGATCTCATTTCCAAAGTTAAGGCTCTGCTACTCTTCCAGCCCAAATTGATG
TCTCCTCTCCCTAGACCCCTTCAGGTCTTTTTTCATTCCCTGTTTCATGTTTGATTTTAACTTCTCAACCAGATGATACTTTCCCAAGCCTATGTTTTTG
TCTTTTCCACAGCAGTCCTCCCAGCACCTACTGCCAGGCCAAGTGCTTTTCTCTACTTCAGTCTTCTTCTCTGTTAAATGTGAATAATAACACCTGCTCT
AAATCTAAGCCTAGTGGACTCCCAGCTTGTTGAAGGGCATGTTGAATAGTCTTATGTACTGGAAGTTTGAGCTTTTGGGAGGGTAAAAGAAGGGACAGGG
ATGCCTAGGCACACAGAACTCAAATGCAGTTATTTGGGTTTTCCTCTAACTTAGCCTCCACTGGTCAAATGTTTTTAGCACCTGCACCAGCAGCCATTTC
CATGTATCCCTTCTCCCTGGAGACAGTACAAACAAGAGATAATTCCTATCATTGTTGGGACAGAAGTCTCTCAAAGCCCTTACCAATATTATAGTTTTGA
GATTCACAGTTTCCTCTGAAACTTCCCCTTTAGGAGGGATGGAAACCACAGGATGGGCATTCTGGTAAATGCTCAACATAGATACCTATGGACTGGGTAG
CAGGYGACCCCTAGGAAAACCTCAAATATCCTATAAGGTCCTAATAAGGGCCAGTTATTCTAAGCAAAGGAGCTTCTGTGAGTCATAGTGCAATCCATAG
ATATGCTTGTTAGCTCCTTATTTAAACCCTTCCTGAAACAACAGCCAAGAAAGGAAAGGACTCAAGGTCACCTCTGGAATCAGAATCTACTCAGTCTTTT
CCCATCCTAGTTTGTATTCACCATATTCAGCCCTCAGCCAACTTGAGGCAGAGTGCCTTGGTAGAAAGTGGTTCTTAGAGACAGGCATCCAGGCAATGTA
GCAAAGTAGAAAGAGCCCTAGACTAGAAGTATAAAGACCCAGGTTTGAGGCCTGACTCTGCCACCTGCTGTCTCAAAAACTGCAATAATATAAAGTCTCT
TACCAATTCTAGCTTCAGTCTTCTCCTTTGTTAAATGTGAATAACAATAATGCCTTCCCTGCCAGTCATGGTGGCTCACACCTCTAATCCCCCCTACTTT
GGGAGACCGAGGTGGGCCAATCACTCGAGGCCAGGAGTTCAAGACTAGTGTGGCCAACATGGCAAAACCCCATCCTACTAAACATACACAAATTAGCTGG
GCGTGGTGGCAGGTGCCTCTTGTCCTGGCTACTCTAGAGGCTGAGGCACAAGAATCACTTGAACCTGGGAGGCAGAGCTTGCAGTGAGCCAAAATTGCAC
CACTGCACTCCAGCCTGGGAGACAGAACAAGAGTCTGTCATAATAATAATAATAATAATAATAATAATAATAATAATGCTTTCCCTACATCTAGCTATAA
TTATTTCTTTAACATTTCCTTCCCTGCTACATTGTCAGCTGCATAAGAGCAGGGTCTATGTGTATCTTGTTTAACACTGTATCCCCAGAACCCTAGTAGG
ACATGTACTGTATTAACTGGTTGGTTGACTGAGCAATAGGGAGAAGTTTAGAGCAAGTGCAAGCTATTATTATGATCCTTATTATGTTTGATGTTGTTGT
TATGTCTCCCTAGAGTTTGGTGGATTTTGGTTTGGATTTCCATTCCACTCYCCATCATTGAGAAGGAACTGAGTCAAAAGACCCATAGTGGATCAGCAGA
GACCAACCACTCACCATGGTCATAAGTAATTTCAGAGCCCATAGTATCTCTCTGTAGATTCTTCCCTAGTCTCAGTACTTGGCCACAGAGTGGATGGCTT
TGATCTTACACAGATTGATTCTATATCCCTTGATGGGTGTGTGGCAGCAATCATCAACAGCAAGGTGACCTTCTCTGCTTATCATGACTGGCCCCTTTTC
TTCTATAATTTTCTTCTTTGGTTTTTGATGTATGAGTATTTTTAGTGACAAAGATAATTAGGTACTTTAGTGACAAAGATAATTCCAATGGTACTGTACT
AAATGTGGCTTCTGCCTGAGGATGCACTTGTGTCTGAGGAGGATCTAGACTGTCCAAGTGAGCTCTTATTTTAAAGCCCCTCTTACAGGTTGGCTCTTAA
GGACTGAGGAGAAAGCAGGGCCTTTAGCATCAGACAGGTCTACTTTTGGAAGCCCATGTAGTTGACAATCTAGCTACATGGGACAATGTAGCTACAGGGA
AGGAAATGTTAAAGAAATAATTATATGTGTGAAGAATACCTAGATGTAGGGCAGATATTATTATTATCATTTAACATGAGGAAAACTTAGTCTGAGAGAA
GCAAGAAGCTTTGCTCCAAGTTTTTGAGACAGTGACACAGATAAGGTGTCTCTCCTTATTGTATAATAGGGACAATAATAAAGCCATCTTCAAGGGATGT
TGTGATGAATCAGTCAGAAAATGTATGTGAAGTTAATGAGCAAAGAGTCTGGCCATAGTATTAATTAGTATTAATACTATTAATAAGTATTCAATAAAGG
AGAGTCTCCCACTTTCTTTCCTTCCACTCTGTTTTCCATAAATTAACCAGAGATAAAAGTGGTGGAATTAGACTTCAGTCCTGTAATGGTGCACCTGAAG
TGCTTCCTCTCAATTCATATCCATCTTCCAGATTGCTTGTTGTACCCATATTTTCTGTTAACACAAATTGGAGGGAGTATCATGACTTTCATTTGTTGAC
AGATACACAAATGGGCAGAACACAATGATGAATGTCTCAATTCAGACAGGAATTGAATGTTGCCTGTGGGGTAGGCTGGCTCTGCCACCTGCACTGACAA
TACATCATCCCTGGAAATTAACCCATCTTCACCATAGCCATTGAAATGGAAAGAAGTGCTTGTTCATTAAAAACACCTTCAAATGGAAAGGATGAAGGTC
TAGCGTAGTATATATGGTGCATTAATATCTATAATCATGTTTAATTTGCATTAGTCTAACTCTGCCACTTGGAAACTGTTTTTAAGATATTGTGTTGCCT
GAATGGGTTTGTGTATGCATTATTTGCTTCTTGAATAAGAGCTGAACAGAAGCTAATAGCTTTATATAAAATATAGTGATTACCAAATTCAAGAGTCAAT
GTCCTGTTTCACATTCATTCTTGCTCACTTTTAGTACAAGCTTATGCATCATCAGGCATGTTGTATACAAAAATAATGATGTGGGTCCTGGTCTTTATAG
GTCTAATGGGTGGTAGTTCCATATTTCTGTAAATTTTAAAAGCATTATTACTCACTAAATATGGATCATTTTAAAATAATTAGATATATGTATGAATAGG
CTTCATATCACAAAGTTTTATTTTCTTTGTTAAGGATATGAATCCTAATGTCTTTACTATTGAATCTGCTAATTCAAATAATATCTATCAGTAGGTAGAT
GAGCTAAACACTAAGCCTGTATGTCAAATTTTATACACGATATTATGCTTAGATGCATACATAGCAAAACCAATATTTACAATATATTGGTGTACAAACA
ATATATTGGTGTAAAAAAATGATTAGTGCTTCATCAAGTTAATACATTCAGGTATCATAATTATGTATTATTTCATAGTGTATCAACAAGGAGAAGAGAA
ACTAGTTATTTCAAGCAGGAAGTGATTTAATTTAGGGAAATAGATTCTATAACAGAAAGAATTAATGTTTACCAAACACTATATTGTTCTCCCGTTCTCT
CTTGCTGTTAATTGGGACCCTGTGATAGTCCTGGCTGAAGGACTGTGAAGGGGAGGGAAGAATTAATATCCCAGGGCCTAACTGGTTAAGAGCTTGTGTG
CCTCTTTCAACCCTCACTTTCCCTGGAATAAACCTTGGAGCTATATGTTGAAATAGAAAATAAAAATATGGATGAATCTTGGTCGTCTGAGTCACCAGAT
AGAGGAGATCTCTTGCCAATCTGCACGGGATTTTGCATGAACAAAAAGTCACCTTTTACTGGGATAAGCCACAGAAATTTCAGAGTTTTGTCTATTGAGA
CAGCTAGGGTTAGTTACTGTAAAAATACTAGGGCCTGGAAAAATGTTGGAAGGATTGAGAGAGGGAAGATCAGGTTGCAACTACTAGTATGCAGAAAATC
ATAAAGCATAGGAACTGCAGGAAACTGTCACCAATGATCTCAGCTGTCTACAGCACCAAAGTGAGTGGTCAGTAGGAAGATACTTGGAAGCTGTTAGCAA
AAGCTCACATCTGGGGTCTACCCAAGTCCATGTGACTGCCTGTCTCAAAAGAGTAATAATAGTTCTATTTATCTTTTGTCTTTGAAACCTTGCATGAATG
AGTCTAATTGTCTTAATTTAAACCATAACCCTGCTGGCAGAGATTCTAAGAAATGTAGTTCTCATGCTTCCAATCCCTATAATACTAAGGAGAGCGTAGA
AGGAGAAAATGGTGTCAAATTGCCAAAAAAAAGAACCTGGCATATAGAAGTAGCCCAATTATTAGGTGATGACATGCCCCAGTTTGTCTGGGACAGTCCC
AATTTATTCCTGTTGACCTAGAGTAATTTTTGATAGTACCCCGTTTCAATCTCAACATGTTCCCTGCTTGGACACTAAATTATATGGACATCGACCTATT
AATAACATGATAAAAATACTTTATTTCATCAAAAAACACTTATTCAGGATATGCTAAGTGCTAATCATTGTGTGGGACATTGGTCAACAGAGGCATTTAT
GACCTTGGCATTCATGAAACTTAGAGTCGAATCTAGTGAATGATGGGAGCCTAAACAAGGCAATAGCTATGAGGATGGAGCAGAGGAGGCATACTCGAAA
GAGGTTGAAGAACTAAATCATACAGGTCTTGATAACTAGCATACTGGTTAAGACCCTTAGGCTCTTACGTCAGACTATCCAGGTTTGAACACCAGCTCTA
TCACTTGTTGGGTATTTTAACTTGGGAATTTACCAACTAATCTCTGCCTCAACTTACAACTCTGTTAAATGGGAATTATAATAATACTTATAAGATTGTT
GTGAAAATTAAATGAGATAAAAATTTATAAAGTTTATAAGAGGGCCTAAAATATAGTAAATGCTCAAGAAATATCATTATAGTGAAGAAATTGTGGTGGT
TGTTGTTTTATAATGGCTGAATATGAGAGAACTGTTAAGAAAATCCTAGGTTTCTGACTTGAATATCTTGATGGATGGTTATGTAAAATAATAAATGCAG
AAGAAGCTGATTTATGTGGGGGAAAATAGTGCATATAGTTTGAATGGATTGCTAGAAGAGTAAACAGAGGAATTGGCATTCTAATTTAAGTGGGGGAAGT
AATGCATTTGGTTTGATTATGCTGAGTTTGAGGGACTGGTGGGAAATCCAAATGGCAAGGTCTGATAGCAGCTGAATAGTTAGAATTGGGGCTCAGATAA
AGATCTGAGCTGAAATTTAGACTTGTGAGGTTTTTTTTTTTTTWAAAAAAAAACACTTCTATTTTAAGTTTAGGTGTGCAAGTACAGGTTTGTTACACAG
GTAAACTTGTGTCATGGGGGTTTGTTATACAGATTATTTCATCACCCAGGTATTAAGCCTAGTACCCATTAGTTGTATTTCTGGATCCTCTCCCTCTTTC
CACCATCTCACACCAGTCAGAATGGCTGTTATTAAAAAGTCAAAAGATTTGTGACTTTCTAGATGGTAGCTGAAGCCAAGGAAATTTGGGAGATGAATTA
GAGAAGGTATTCAGAGTAGACCAGAACTTTAAAGGGCAGAGGAAAAGAAACATATGAGAAAGACAAGAAGGAATTGCCAGAAAAATAGAAGAGAAGCAGG
CAAGTGATGTGAAGGAAGGCGAGGAAGGAGAGAAAGCCAGAAAGAACAGGGTGGACGATGGTGTTAAGTGTCAAGCACAAATCAAGAAGATGAGAACAGA
AATGATTTCCACAGATTCAGCAATTGAGGGCTTTTGCTGATTTTAGTAAGAATAGATTCAGTGGAGTAGGGAAGGTGGAAGTCTTCTCAGGTCACCAAGG
GTAGAGGTAAGAATGAGAAGAGAGAACATATAGATCATGAAATATTAATCTTCAGGGTGCTTGGCTGTGAAGGAAAGGAAAGGGTCAACTGGTGGCTAGA
GGCTTTTTAAAAGCACAGCCTACAAGATCCTTTGGTCCTAGAGTTGCACAAAGGATTTGCAGACCAGGAAAGGTTTAGATAACATGACCACCAAAGTCTT
CCCCATTTCAAAGTGTTTATTATTTCATGATTCTCTGCTTAATAAGTACCAAGGTTCAGCTTTTATTTTCACAGGTTGTTACCTGTRAAGAGGGTACAAA
ATCTGTTTTATCCTAACAAATTTAAGTTAGAATTTAGTTTGATCTTACGAGTCTTTAGGGAAATATATTTTAGGAGTCAAAATGTGTATCTGTACATAGT
ATATTTATGAATATTGTTCTTAATTTTTAATTCAGTACCTTTACAAATTATTTTATAATTGGTTCCTGTTTTCAACCAGTTGCTTGTGCTTATATATGCA
ATTTGTCTATTTTTTTCATATCTGTTTTCAGCTTCTCCCAAAGAATTATCATTAGGTCATAACAYTGGGGGAGGTTTACTGAATGATCATTCTTTTCAAA
GACTTTACCATTTCCCCCAGAGCCTTGGTTGGTTTATTGACTAGAGCAAAGCAGTTAGTTTGCTATTAGTGGAATAAGGTAGGCAAAGCATCTGGAAATG
TTCTACCAGGAGGAGCCAGTGGCCTTGTTTTCGAAAAGTCCCAGGTCTCCCATCACTCCCTCCAGTCTTGCTAGGGCATGAAAGAATCAGAATTTATAAC
TGCATCATAATTCTGTACTACAGCCTTTCATCTGGGATCTTCTGTTTGGAAAGTCTCTTCAAATGTTTTCTTAGCCTCAAGGGAAAAATTTCTCCCAGAG
ATACCTCAATTTTGATCAAAAGCATTCACAAGTCCACTTTTAGTTTTTTCTCTACCAATTAAAGTCCTCTTAGCTTGGTAGATTAAAGCTCATAAAACTG
GTTCCACTGGTTTATTAGAAAACTCACTTTAGCTAGAAGAGTCGAAGTTTTGATATACACAGACCCTAGAGAGCTAGGAAAATCTTACTTTTCTCCAAAG
GATTCAAGTCCTATTATTTAATTTTCATCTGATTTTGGCCAAGTTCAGATTTTTGCTGACTGTGTAACATAGCCTATTCATTTCAGCTACAAATAGTTCT
CTTTTGTTTCCATTTACTTAGAAATTAACAAAATATTGCCATCATTTTATGTGTTTTCATAAATGTATTTAAAGCCTTTTATAATTATGATATTTAAATA
TTCTGTTTTTAAATTCCAAATAACATTAGTTGAGAGATGCATCTTTGACATAAAAAAAAATTTCAGGAGAAAAATTTCTTGTAAAAGCTTCTCAATGAGT
GTATACATTGATCATAAGACCATTCTAATTCTAGAAACATTAAATATGAAAAAGTATACTTTTGGAATTGAAAAGATATGGCATTAATGGTCATTTCACT
TGACTTGAGGCTTCCCATGTGTGGGATTCATCATTACTTCATATGCATCTATCTAATCTTCATTTATCCATTCAGCTCACAGTTATTGAGAACAATATTA
AGTCTTAAGCTCTTTTGCTAAGCAACGGACAATGAACACTCCCTGGTGCTAGTTAGCATCCGAATTTGTAAAGTGAGCCATTTGTTGTATGTTTTAACCT
TTTAAAAAATTCAGCATTTTTCTCTAAATATTTTGAAATCTAACTCAAGAAAAATAAAAATCACCCAGTGGCTTTTTCACATAATTTTAATCACCTTTAT
TCTTCTGCTTATCCTGTCTCCTCAGTCTTACATTCCCCTACACTATGCAGCAACCTGAGTTGATAGCTATCATACCACGCCATGCTACTCTCATCATCAT
ACGGTGGCATGATTAAGACAGAGAAGACTTGAAAATAAGTATGCTTAAAATCTTCAGAAAATAAAATGTGAATAACATCCACTAAAAAATAAAAACAGGA
GTTTATGAAATAACAATTAAGTGGTAATCAAATTAGAACATGCAGATTCAAAAGACAACCGATTGAAATGATTAGAAATAAAAATGTATAGTCATTTAGA
ATTTCTAGAAAAAAATCTAAATAAAAGGAATAAATAAAGAGAATGCTGTCAAAGGGAGACTTTATAAATTGGATCACGGAAATTAGAAATTACCAAACTG
TGCAAAACAGAGAAAAGAGAACTGAAAATATAAAAGATTTTGTAATGCAAGAAGTTCTATTATATATAAGTAAATAGTTCCAGTGGGAGAAAATAGAGAA
AATTGCTGAACAGTTTCTAGAATTAAGGCAAGATGTGAGTATTCATATTCCAAAAAGGACAAATCATGCCAAGCAAGATGAAAATTTTAAAACCTCTTTC
TATATTTACATTATAATGAAGCTAAAGAACATCAAGGGCAGAATATTTGCTTTTCTGAATGGGGAGATATGAAATATCATTGAAGCTTTCCTTGATTACT
AGAGGTTTATTCCTGCATTCTGTTGTGATAACACTTTCTTCTATGTTGATTTAGTTATTTGCCTGCTGTAACTTCTCATGCAGTCATTGTACTGGCCTCC
AGCTCACTTTTGTTTACTGCTGTTCTATGCTATTTGCTGGACAAACCAAAAAACTGCCTTTGTTAAAAGACTTACAATAAACAACAATAGCTTATTAAAC
GAAGAATTGGCTTTAAAGAAGGTACATGATACTAGCGTAGCAAAAGCTAACATTAATCAGGTGTTTTCTATCTACTAGACATTTTTACAAGATTTTTCTC
ACTTAACCCTCACAATGTCCCCATGAGGCTGGTATTACTCTATCACCCCCATTTTACAGATGAGGAACCTGAGGCTTAGTTAGAGAAACTGATTCACTTG
CCCAAGATCATGTGGCTTTAGCAAGTATGTTAAGTGGTGCCTCCTAGATTTTAACAAAGTCAAATTCTAAGCCCAAAATTTTTAAATACTCCTTTTTCTT
ATCCTTTTTTTTTTTTTAACTTTTATTTTAAGGTCAGTGGTACAGGTGCAGGTTTGTTACCTAAGTAAACCTCTGTCATGGGGTTTGTTGTACAGGTTAT
TTCATCACCCAGCTATTAAGCCTAGAACCCATTAGTTATTTTTCCTTGTCCTCTCCCTCTTCCCAGCCCTCATCCTCCAAAAAGCCCTAGTGTATTTTGT
TCCCCTCTACATGTTCATGTGTTCTCATCATTTAGCTCCCACTTATAAGTGAGAAGATGTAGTATTTGTTTTTCTGTTTCTGTGTTAATTTGCTAAGGAT
AATGGCCTCCAGCTCCTTCCATGTCCCTGCAAAGAACATGATCTCGTTCTTTTTTATGGCTGCCTAGTATTCCATGGTGGGTATGTACCACATTTTCTTT
ATCGAGCCTAACATTGATGGGCATTTAAGTTGATCCCATGTCTTTGCTATTGTGAATAGTGCTGCAGTGAACATATGTGTATGTGTCTTTATAATAGAAT
GATTTATATTCTTTTGGGTGTATACCCAGTAATGACATTGCTTGGTTGAATGGCATTTCTGTCTTTAGGTCTTTGAGTAATTGCCATGCTGTCTTCCACA
ATGGCTGAACTAACTTACACTCCCACCAAAAGTGTATAAGTGTTCCTTTTTCTCCACAACCTTATCAGCATCTGTTATTTTTGACTTTTTAATAACAGAC
ATTCTGACTGGTGTGAGATGGTATCTCATTGCAGTTTTGATTTGCATTTCTCTAATGATCAGTGCTGCTGAGCTTTTTTTTTTTTGTATGATTGTTGGCT
TCATGTATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTTGCCCACTTTTTAATAGGGTTGTTTGTTTTCTTTCTGTAAATTTAAGTTCCTTATAGAT
GCTGGATATTAGACCTTTGTCAGATGCAAGTTTGCAAAAATTTTCTCCCATTCTGCAGGTTGTCTGTTTACTCTGTTGATAGTTTCTTTGGCTGTGCAGA
AGCTCTTAAGCTTAATTAGATCCCATTTGTCAAATTTTGCTTCTGTGGCAGTTGCTTTTCATGAATCTTCATCATGAAATCTTTGCCCTTGCCTCTTTCC
AGAATAGTATTGCCCAGGTTGTCTTCCAGGGTTTTTATAGTTTTGGGTTTTACATTGAAGTTTTTAATCCATCTTGAGTTAATTTTCATATACGGTATAA
GGAAGGGGTCCAGTTTCAGTTTTCTGCATATGGCTAGCCAGTTATTCCAGCACCATTTATTAAATAGGGAAACCTTTCCCCATTGCTTGTTTTTGTCAGC
TTCGTTGAAGATCAGATGATTGTAGGTGCATGGCCTTATTTCTGGGCTCTCTATTCTGTTCCATTGATCTATGTGTCTGTTTTTGTACCAGTACCATGCT
GTTTTGGTTACTGTAGCCTGTAGCATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTTGCTTAGGATTGCCTTGGCTATTTGGGCTCT
TTTTTGGTTCCATGTGAATTTTAAAATAAATTGTTTTAGTTCTGTGAAGAATGTCAATGGTAGTTTAATAGGCATAGCATTGAATCTATAAATTACTTTG
GGCAGTATGGCCATTTTAAAGATATTAATTATTTGTATCCATGAGCATGGAATGTTTTTCCATTTGTTTGTATCATCTCTGATCTCTTTGAACAGTGGTT
TGTAGTTCTCCTTGTAGAGATCTTTCAGTTCCCTAGTTAGCTGTATTCCTAGGTATTTTATTCTTTTTGTGGCAATTGTGAATGGAAGTTTATTTATGAT
TTGGTTCTCTGCTTGCTTATTGGTGGTATATAGGAAGGTTAGCGATTTTTACACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTA
AGAAGCTTTTGGGCTGAGACAATGGAGTTTTCTAGATATAGGATCACGTTATCTGCAAATAAAGATAATTTGACTTCCTCTCTTTCTATTTGAATACACT
TTATTTCTTTCTACTGCCTGATTGCCCTGGCCTGAGCTTCCAATATTATGTTGAATAGGAGTGGTGAGAGAGGGAATCCTTGTCTAGTGAAATCTGATTT
TCAAGGGGAATGCTTCCAGCTTTTACTTATTCAGTATGATGTTGGCTGTGGGTTTGCCATATATGGCTCTTATTATTTTGAGATATGTTCCTTCAATACC
TAGTTTATTGAGATTTTTTAACATGAATCGTTGTTGAATTTTATAGAAAGCCCTTTCTGCATCTATTGAGATTATCATGCGGTTTTTGACGTTAGCTCTG
TTTATGTGATGAATCACATTTCTTGATTTGCATATGTTGAACCAAACTTGCATCTTGGGGTTGAAGCCTACTTGATTGTGGTGGATAAACTTTTTGACGT
GCTACTGGATTCAGTTTGATAGTCTTTTGTTGAGAATTTTTGCATCAATGTTTATTAAGGATACTGGCCTGAAGTTTTCTTTCTTTCTTTCTTTCTTTTT
TTTTTTTTTTTTTTTTTTGTATTTCTGCCAGGCTTTGTTATCAGGATAACACTGGCCTATAGAATGAGTTAGTGAGTAGTCCCTCTTCAATTTTTTGGAA
TAGCTCCAGTAAGAATGGTACCAGCTCTTTGTACATCTGGTAGAATTCAGCTGTGAATCCATCTGGCCTTGAGCTTTTTTTGGTTGGTAGGCTATTTATT
ACTACCTCAATTTCAGAACTCATTATTGTTCTATTCAGAGATCCAGTTTATTCCTGGTTCAGTCTTGGGAGGGTGTATGTATCCAGGAATTTATYCATTT
CTTCTAGATTTTTTAGTTTATGCGCATAGAAGGTTCATAATATTCTCTGATGGTTGTTTGTATTTCTGTGGAGTCAGGGGTAATATCCCCCTTATCGTTT
TTGATTATGTTTATTTGAACCTTCTCTCTTTTCTCCTTTGTTAGTCTAGCTAGCAATCTATTTTATTAATTTCTTCAAAGAATCAACTCTTGGACTTGTT
GATCTTTTTAATGGCTTTTTGTGTCTCTATCTCCTTCAATTCAGCTCAGATTTTGGTTATTTCTTGTCTTCTGCTACCTTTGGGATTTGCTTGCTCTTGG
TTCTCTAGTTCTTGTAGTGGTGATGTTAGGTTGTTAACTTGAGATCTTTCTATCTTTTGGATGTGGGCATTTAGTGCTATAGATCTCCCTCTTAACACTG
CCTTGTCTGTGTCCCAGAGATTCTGGTACGTTGCATCTTTGTTCACATTAGTTTCAAAGAACTTCTTGATTTCTGCCTTAATTTCATTGTTTACCCAAAG
GTCATTCAGGAGCAAGTTATTCAATTTCCATGTAATTGTATGGTTTTGAGTGAATTTCTTAGTCTTTATTTCAATTTTGATTGTGTTGTGGTCCAAGAGA
CTGTTAATATTTCCGTTCTTTTACATTTGCTGAGGAGTGTTTTACTTTATGTGATTTATTTTAAAGAAAGTGCCATGTGGCGATGAGAAGAATGTATATT
CTGTTATTTTTGGGTGGAGAGTTCTGTAGATATCTATTTGATCTAGGTCCATTTGATCCAGGGCTGAGTTCAGATCCTGAATATCTTTGTTAATTTTCTG
TCTTAGTGATCTGTCTAATATTGTCAGTGGGGTATTAAACTCTCCAGCTATTATTGTGGTGCAGTCTAAGTCTCCTTGAAGTTCTCTAGGAACTTGCTTT
ATGAATCTGGGTACTCCTGTGTTGGGTGCATAYATATTTAGGACAGTTAGATTTTCTTGTTGTACTGAACAATTTACTATTATATAATGCCCTTCTGTGT
CTTTTTGTTTATCTTTGTTGGTTTAAAGTCTCCTTCGTCAGAAGTTAGAATTGCAACCCCTGCTTCTTTCTGTTTCCTATTTGGTAGATTTTCCTCCATC
CCTTTATTTTGAGCCTGTGTGTGTCATTGCATGTGACATTGGTCTCTTAAAGACAGCATACCAATAGGTCTTGGTTCTTTATCCATCTTGTCACTCTGTG
TCTTCTATTTGGGGCATTTAACCCATTYACATTTAAGGTTAGTATTTATATCTATGGATTTGATCCTGTCATCATGTTAGCTGATTATTTTGCAGACTTG
TTTATGTGGTTGCTTTATAGTGTCACTGGTCTGTGTATTTCAGTGTGTTTTTGTAGTTCTAAACCCAAATTCTTAATGACTACTCTATATCTTTTTTAGT
GGAAAAAAAGACTTTATTTCTTAGGACCCCACACACTATAAGCCCCTATATATTTCTCTTGAAGCCTGAAAGTCTTGACTTATTCTTCAGCTGTAATCAG
CTGTGGTGTACTTTGGGGACCCATCACTAGATTTGCACTGTGAGGTTACCTATGCTCCATTTCTCCAGTGGCCTGGTGCTATCTGACTCAATCTGGAGTA
ATATGCATGCTTTGCCAAGTGAATTTGATGACTGAAGGGTTCCATAAGGGTCTAAGATAAGCATAGATGCATATTGGCATCATCTGCTTGGAAGGGGCCT
TTAAAATGTCACCATTCCTCACTATGCTACACCAAGGAAGKGGGGATAATTATCATTGCTTGTGGTAGGTGAGGCAGGATGGTCAGAGCACGTACTTTGA
ACCTCATCATTCTGCTAAGTACTACTATACGTTATTTTTTTGACTATCATTATCACTGACATCTAGGATATAAGCACCTGTCTTTACTAATCAGACTTAG
TAAGACATTTTGGTATGTGTTGAGAAACAGTAATATTGAACATATAACCTTACAGATGGAATTACATTTTGGATTTAACTATCCTGACATCTTTTTCTTT
AACTCTCCTAATTGATTTCCATTATGTTGAAATCCAAGTCCATCCTTTGAAATGTTAGCGGGAAGACTGAGGATTGAAATGTGTAGATAGAAAAATCACA
GAATTTAACTTAAAGTACATGAAAAAATTCCAATGAAATTATAACCATTAATATCCTTAATACATAAAATATTCATACAAATCAATAATAAAGAATCCCC
ATGACTGCAATAAATAAATAAGTAAAGGTCCAAAATAAATAATTTGTAAAAAAAAAAAAAAGTTTAAAATGTTAAATCCCAGTAGCAATCAAATACATAT
AATTCAATTCAAAACACTGAAATGACACTTGTASTCTTTTAAATTAGTGATTTTAAAAAAACAAAACAACAAAAAAACAGAATATTGGTAAGAGAGCAAT
GAAAAATGAGTTTTCATACACTGTGGGAAAATAATTTGGTACCAACTATTTAAAAAGCAATTTGGCAATACTGTATACATCAAGAGCTACAAAATTACCC
TTTGACTAATTTTACTTCTCATAAATTATCCTGAAAAAAATTCAAATATCTGGAAAAGCTTTAGTTCAAAGCTAATCATTACAATGTTATTTGTAATGTT
AAATATCAGAAATAAATGAAAATTACTAAAATTGAAAAACAGTTAAAGTTTACTTCATCCTTAAAAGGAATATTTCACAGAGAATACAAATAGAAATACA
GAGAGACTGTGAAATAGCACAGATAAATGTCTAAGCTTTAATGTAAAATGAAGAATATACATATGTAATGGATCAACTATAAGAAACTTAAAAATATGAT
TAAGAAAGAAAGATTAAACAAAAATACCAAAATTTCAACAAAGATTATCTCTTGTTAATGGGGTTTGACTATTTCTTTTCTGTGTTTCCCAAATTTTTAT
GATGAATGTGATTTATTCTATTTTAAGAGGGAAAGAAAATTTTTTTATGAAGAAAAATTGAATTAAAATAAATTTTTATGGGGCTGAAGAAAAGGCCTCT
ATAAATGTGACTTGATTGGGAAGCTTGTGAATTTTTTCTGTAGGAACTGAGTATTTATGATCTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCCAG
GCTGGAGTGTGGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGGTTCTTCTGCCTCAGCCTCACAAGTAGCTGGGACTACAGGT
GTGTGCCACCACACCTGGCTAATTTTTGTACTTTTAGTAGAGACAGGATTTCACCATATTGGCCAAGATGGTCTCAATCGCCTGACTTCATGATCTGCCC
ACCTCAGCCTCCCAAAATGCTGGGATTACAGGCATGAGGCACCGCTCCTGGCCTATGATCATTTTATATGGACTGATTTAAAATCTGTTTTGAAGCCAGG
TGCAGTGGCTCACGCCTGTAATCCCAGAACTTTGGGAGGCTGAGGTGGGATAATTGCTTGAGCCCAGGAGTTCGAGACTACCCAGGACAACATAGGGAAA
TTCTGTCTCTATAAAAAATAAAAATACATTTAAAAAATCAAATAAAATCTGTTTTGAATAGCCATCAAAAACAACTTCTCCTACACTAACATTTAAGAGC
GTGAAAGGTGGCAAGAAAAGTTCTATCATAGCTTAGATCCTAAACTATTCTACGCAAGTTTTTGATGGGCTCTAACATGTTAATAGCATATATGTAACAC
TAATTACAAAGAAACCTCATTTCTTCATTGAAAAGGTTATCAGTTTAATGCAGTGAAATCTGACTATGTGAGTGTGAGTATATACAGTTGTGCTAATATC
AGTTTGTAGTCGTTCAAGGCTAATCTTCCCACTCCAGAGGAAATTTTTTTATCATATATGCATACATTGCTGCACTGAATAATGGGAACCTAAAATAAAA
AAGATCATTGCCTATTTTATATGCTCCATAAAATTCACTGACAGTAACCACCAACATCCCAGGTATCGTCTGCAGTTTAGAATCCTGAATATTTTCCCCA
AAAATGTCCGATAAGGGAAGCAATTTAAGCAAGGCAGACAGTGCTGCTAACAGAGACCATACAGTTTCAGCCAGCGAGTCTGCTGACTGAAATGAAGTCC
TTGGACCTGTGGTTTTTTTGTGGGGTTATTTGCTCTTGTAGAATAAGGCTCTCAGAATTTCAATAAAAGGGTGAAAACAGTTTTGAAACTGAGAAGACTG
TTACACTGCCTAAGAGGAATAGAGGTGTGATTGAGATGTGGTGAAAGAATCTGAAAGTTGAGTTGTTTTTTTTTAAGTCTCTTCCCGTGTCTATGTCCTG
CCATTTCTTAGATTTATACAAACCCGACCCAAAAAAGGGTGTCAGGGGCTTGAATCCAGCAGGCACTCTCATACAGGTCTGTTATACCACTTCACCTTTT
ATAGTCAGTCGACAGGACAGGGGGAATTACTTAGTATACAAAGAAGTGCAAGGGAAATAAAACCTATGCAAATCACATTTGTAGCCTTCTAAATATTTGA
CCTATATGAAAAATTCCAGCTTTGATTTCTTAGTCCAAATTGCAAATCAGCCAAACGTAGCTGATTCTGTCCTATATGARTTGGTTATTACTGTCTTTCC
CTTTCTTAGAACCCCTGGGAACAAACAAGAAAAAGTAAGGAAAACAAAATACTTATTAAAATGTAAATACAGTGGCTGGTTCCCTGATATGTTATGCTGA
CAACCCTTGCTGGCAACCCAGGAGGACCCAGGTGCACCAGGAACCGACTTATCTGGTCACAGAACATCGGGGGCTGGAAATTGACAGCCTCTGAAGGGGG
CCTTTTGTTACTTGACTTCTGTGGCAGGTTGCTGGCTCATTCTCCTGCATGGAAGAGTTGAAACTCGTCTTTCAACTAAATGGAGTACATGAGGGCAGAG
ATTCTTTTTTGGTTTGGCAACCCAAGTATATTAGGAAAAAATAGGCACTGCAAAATAGCAGGAAAGCATGAAGAATGCTTTATGAAGAAACATAAAAGAA
AACCAGAGGAAAGCATATTCAGCCTCAGTCATTAAAAAGCACACTACTGTTCCCAGTCTTGCCTTCTCCAAAAGTTTGTTTGTTTGAAGTTTCTTCTGCA
GAACTCTAAGCAGGTCTCCAATATACCGACATCTTTAACAGCATTCTGGAATGAGAGGAGTGTCTATTAAGGGAGACATACTCCTCTATTTCATTTGGAA
TTTTACACAACAGTTTTCTGTGTGGCTTAATTTTTGGCATCAAATTGTTTTAACAGAAGCTGTGCTTTTCAGTTAGATCTTTATCTTTGAGTTCTAGTGT
CCTCCCACGATGCCCCTAGGAGCCTATCAAAGCAGGCCAACCCTGCAGAAATGCCTAGAATAAAATAACATGCAAATGCCACTAAGAACTTGCTTCCCTC
CTGACTCATATTTTAGTTTCTATAAAGTGTCTGTTTTCAAAACTGACAGTGTCTGTAGCCTGTTAATGGAAGATAATGATTTGCACACCAAAATGGGAGT
AATCACAGGGCTATTTGACACTGTCCTTAGAAAAATTCCTTACTTACTCAAAAGCCAAAGCAAAGAACTATTTCTAAAATGACAAATGTGTGTAAATTTT
CAAAGTGGATTGTGATTTCACCCAGGAAAACACAGGCAGCCAGAACACAGTTATGCTTTAGTGTATATGGTGATCTAATTCTTGAAATAAAACTTTATTC
TGGGCAATAGCATGCATTTCTAGATGAGAGGAGAAATTGTTATTGCTCATAATAAAGGACGAAATGTTTTTCTTATTTGGGAACTTCAGGGGGATGAAGT
AAGGAAGTGGGCTGCAGAACACTGGGATAAATCTTATTTATTTAACATTTAATGCTATAGTCTGTTAGGAAACAAACTCACTGCGGTATAATTATTTAAT
ACTGGACAGTAAAATCATCTGCTAAGATTAGATTAAGTAGTTGACTCAAAGTACTCCCCAGGTTCAAGGCTCAAAAATGAATAAATCAACATGCTTACTG
TACAGAGCCCTTGAACATTATGTGTGCTGGGATGGTGGCTTCCTGAACTATCGCCTCTTGTTTGGGTCTGTTGTGAAGTCAAGGCTTGAGGACATGACCT
GACCTCTTTATTTAAAAAAAAAATCCATTTAATATCAGTTATCACTTGAAGAATTTAAAGACAGAATTATTTGCTCAGAAAAATTTGATGCTTTGTGCTA
TTAAACMCTCAGTACACAGAAATAGATTTAAGCAACATGGTGGTGAATCAAGCCAAGGAGAGCTGGGAAGCTGGAATTGATGGCTCAGTATTCTCTGTAA
TAATGTGTCAATTTATGCCTGGACATTTTAGGATGTCTGTTTATACAAATGTGAACAAATGTACCTTTGACTTGTAGCCAGGGTGAACCCAGTGCCAAAA
GAATAGCTCTTCTCTTAGACTGGGTTTCTCATTTTTTTCAGTTTTGTGACTGGCCTAGGGTGTATTTTCCTTATTGGAGCCTTGTGTTGTTGTCACCTTC
ATCCATGCCAGGTTCTCATAGGACTAATCCCCAAGGAAGTCATCCCCAGTCTACTGGGCACACTGAGGGAATCCACGTGTACAATGGAGGCTTAAGCTGT
GAGCTTTGCTATCAGGAGAACCTGGCTTTAAGTCCTGTTTCTGCCCATTATTATATATGTGACCATAAGTGAGTTGCTTAACCTCTCTAAGCCTCAGCTT
CCTGATCCATACAACAGGAAAAGTACTAGTACCTGCATCCTGTGTTACTGTGAGGTTCAAAAAGTAAAGGAACTAATGCACATAAAGTGTTTAGCATATT
GCCTGGCACAGGATAGGGACTCCATAAATGCCAGCTTTCTTTATACAAAGAAAAACGTCTTTGCCCTTTAGTTAATGTTCTCCTGTCCATGTCAAGGTCA
GCATGACACCATGGTAGTCTGTCTAGCTTGTATTTGTGTCTGCTGCTCACATAATTGTTTCTTCACTTGCTGACCTGGTTGGCTGAAGTTTTGGCCATGG
GCCACCCTGTCTGTGCCCCCTGGCTTTGGATCCCATCTCGTCCTATCCACAATGTCAGGAGCAAAGCCACTTCTTTACATACGTGGCAGAATCCAGCCAG
ACACTCTGCATCAGCAACGTCTCCACAGCCAGTTGCTTGGTCTTCAGCCTGTCAGGCGCTGAGCACTTGTTCTCCATCTGAACCAGCTCTGTGCTGGCCT
CTAGCAATTATAATGCACCTGCTGATGCCTCAGAGAGCCAGGCCAGACTGACACTTTCCTCTCGGTATTCTTTAATTCTATGCTTGACCAGTTCCAGCAT
TCTTTCTTCTTGGTCCCAGACACTTTCCACCTCATCTCCTACATGTCACATCTGATTTGTCCTTATTGTAGAAGGTAGGTGTAAGGCCTAAAGAGTGAGT
GTGGTTTGTTGTCAGCTGCTCCAAATGGGGCAGCATTGGCAGGAGGTGCAGGAACTGATAGAATAAGATTTCTATATCTTTTCTTGAGTTTGTGACAGTG
CTGTTTATGGTCACCAGTTTTTATTTGAGGAATTATCCATTTATGCAAAAAATGTTTTTTATTCTATATATCCTTTAAAAAGACATACAGGTTGCCCTCT
GGAAATGAGTCTTAAGCATGTCTATAGTATAGCTATATCATCCACATCTTGAGTCATTTTGCTCAGTGGATTTTCTTAATTCTCAATTAATTTGTATTCT
GTCAGACAGTCTAGTGAGGGAGTAACGAGTGGTAAGTTAGAAGGTGACAATTTTATCCGAGGTCTGTGCATAGGGTACAGTGGAAGAATGGAGACGGTGA
TGCCTCATGGCCTCAGCTTACAGTGTGATTTGTACATTTTCTGTGATTTCTATAAGTAACAGGCTGACAGTGTTGGATTTGCTGTGTTGTGCTTTGTATC
TACCTTTGTACTGCCTCTTTTTTCCCCTCCCACGCTGACTTTATCTCATTCCTTGTTTTCCTTGAGAAGATTGCACTGGAAAACTTGAAGAGGGGTTAGA
AGGTGGGGCCATAGTAGATACCAGTAGGAAGACTTCAGAACAGACCCTGTCCCCTGCTGTGATGATGCCTTGTGACTTAACACTGATGACCTTACATGGA
GGATTTAGTGAAAGTTATATTAGAAAGCAATTCAGTTACTTCCAGATTGTTATTGAAGTCCAGCCTCTGTGGTCTAYCTATGCCATTAGTATTTGTCCTA
GGTTATTTTTGCTTTCGTATGTCAGAGAATGGTCTCAACGTAAGGGGGTCTGAGTCAGGGTGGTCTAGTTGAAAAGGTATGGGCATTGGAGTAAAAATAT
AAAAAATCTGGATTCATATCCAGCCTCTAGCACTGAATAGCTCTGTGACATTGTGCAAATTGCTTACATTCTTTTAACTTTTGTTTCCTTATCTGTAACT
TGGGGATCCAGATATAATAATACTGTCAGGTATTATAGAATTATTGTGAAAATTAAATGAGATAATGTCTGGAAAGAACTTAGCACAGCGTCTGGCATAG
TGTTAAGTACCCAGTAAATCCTGATTCTTTCTCTCCCCCAGCCTCACTGCCTCACCAGCTGCCCAGCTGTCTCTAAACACAGCATCAGTGGAACTGTAAA
TACTTTCACAGTTATGTAATCGCTCTCCACAAATTCACTCTTTGATCACCTTTCTGCCCTCCCTCCAGATCTATTCCTAAACTCAATTTTGACTCTCCCT
CTGGTATAATCTCCTTCTCTCTGCAGAGAACAGTAAGACCTTAATGTTTAAAAAAATCATTTCTTCTTAAAACTTAAAGGCCCTAAAACATCATTTTGAG
TTTTTGTCTCCAGCAGGGTTTATTTCTGACAACAAAATTAATATATTTATATTTAATATTTGGAGCTTTTATTTTACAATCATCTTGACAGTAATATTTT
TCTGATATTTGAAAAGCCCCATGATTTTTCTGTGCAGAGAATGCATTTTGTTAATTTATCTAAGTGGCTGCTAGGCTTTTAAGGTTTTAGGTTCATTTTT
TATTTTTCTGGAGCTCAGTCCCCTAAAATGCAAATGAGTCTTGAGCAGCTCTTCCAGAAGATAAATTATTCTTCTTTTCTGTCTCCTACTGTTCAAAGTT
AGTGATAATTTTTAGACCCAGCAGTTGAAGATTTTGACATTCCTGTTGATATAAATGTGGACATTCCAATGTTGTTCAACTTCTGACTGTCTTAGGGACT
GATTGCTTATCTCTATCAGCCAAGAAAATGCCCTTTGCATTGGTCTCATCTCTCACCCACACCAACCAAACACATATATGCAATCTAATGTCTATAGGTC
ACATTCTTGCCACTTTATCTCTTTAAAATTGGATAGTTTTAGATGGAATTTGCAGGTGCTAATATGGACCACTGGGTAACAGGGATAGATACAGTAGCAT
TGTTAGATTATATTCTCTAAGTTGAGATTTTTCACCTAAAAAGAGACAGAAGAAGATGGAGGTTGCACAGTACTGGTCAGATCTTCCCATGCAGTTTATC
TTTTGGAAGGGCAACAGTATAAAGCAGTTAAGAGCATTAATTGGACATTAGGCAGTCCTAGGTTTGAATCCTGGCTCTGACACTTATTGGCTGTATAATA
CTGGTCAAGTGACTTAATTTCTCTACCTCTCAGTTTTATTATTTGTGAAACAGGATGACAATATTACTTGCTTTGCAGAATTAAATGAGGTAATATTTTG
AAAATTATATGAGCTATTATCTAAAAACATTTAGCACAGTGACTGGCACAGCAYAGAGTGCCCAGTCAATCTTGGTCCCTTCTCCCCAGTTTTGCCCTGA
ATGTTGGCCAGCTTTGCTGCAGATGCTTTCTCCACTATGCCATTACTCTCATCCAATCCTTTCCTTTATTAGCTTTCTTCCCTAGCCCTCACTTCTTCTC
TTGGACCCAGTGTGCGCGCTCTCTCTCTCCAGAAAAATAATAATTTTAAAAAAATCAGTTCTTCACATGAATGCAAAACACCTACTACAATGATGTGGGT
GATGGTGATGATGATAAGAATAATGTGGGAACTTTTTACCCTTTTTGTCCTCTGGATTGTAAGTTTCATGAGTTCAAAGATAATGATTTCTTCAGCACCA
AATGCCTTGGTTCCTGGACCAGGAATAGTTGGTGAATGGATGAATCTGATATTCAGAGTTGCAATGATTGCGGCATTTAATCTTTTTTATTTCTGCACAG
TTAATCCAAATGAGTATTTATTGATTTGTATATATATTTACTACTTCTATTGCAAAATTTTAGTTTCTTCTTTTATGAAATAGAATTCTTAAATGCATGC
TTGTGCATCCAAGAAGGACAGTGATGATGTGTTTCAATGTATTAAATGTTGAAATTTAAATGTTGGGGCATGTTCTTGAAATGGTGACTACACAGGGGAA
AAAAATTTAATAGATTGGTTTTAAGGTTTGAGGACGGGGGTCCTGGGAAAGTGCTGAGAATGGAGGCATAGCATTCCTTCCCACACTCAGCACATAACTC
TGCATGGATTTGGTTTCATTTCAAAAACGGAGTGTTCACAGACTGAATACACCTCTGTACACTTGACCCTAGGAGGGCAGCAGATAAACTTGGGGAGTCT
TTTTTAGACAATATTCCCCTGAGGTTTTAAGTAAATTTTTACAAGCTCCTAGAAATACTTTTAAGAATCTATATAAAATTTCTCCCTTACCTTAACAGCT
TTTACTTAGAAGATATATCAAAATGACCCCAAAAAGCAAAAGCTCTATAAGGTCAGCTAATCCATTACCTTAGCAATGTGAGGTGCATAAAATGTGAACC
ACTGAAATTTCATGTAAACACCTCGCAGTTTGCTCTAAATTTTCTTTTATCTCAAGGATGCAAATGTGTCTTGTGCTTCCCATAATTGAAGAATGAAAAT
GTTTGAGATAAATAGCCCTTCCCCTGAGAGGCCAAATACTTTCCTTGAAGAAATGCCAGTCCTATGTCCCTGTGGGTAGGGTTCAGTATTTGTAGAGTCR
CCAATTATAATGGCCCAGATCTAATAGGAACTCAAGGATTCCAGCCTATTTCCACCTACCCCACCTGCCCAAGACCAGCCTTATTTCCAGGCTTTACTCT
CCCTTAGGCATATGTGGTGGCAGGCACCTGTAACCCCAGCTACTCAAGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGGGGCAGAGGTTGCAGAAAGC
CGAGACCATGCCACAGCACTCCAGGCTGGGCAACAGAGCAAGACTCCATCTCAAAAAACAAGTAATAACAATAATAATAATAATAATATTAATGATTTAA
TGTTCAAAAATATCCTATGTCCAAAAGTTCTTTTTATAAATCTGATCCATATCGCTATTGTTGCAGCTTAAAATTCTGTTACACGTGGTAATACATACAT
TAACAAATACGTATAGGGCTCCTTGATTTACCAGGGGCTGTGTGTGAAAACTACATTAATCATAATTAACTGCCAAATGGTTAGAACAGAAAATAACAGC
TTTGAAGTCCAGAGAAAGGAGAGAGTGGAGCAGGAGGAATTGGAGCTGGATCTTGTAAGATAGTTGAGATATGCATAAGTTGAGAGAAAAAGAAAGGACA
AACCAGATGGCATAAATGGTGTGAGGAAAATCACAGAAATGGAAAGAAAGTGAGGAGGCCAATTTACATGGAAATGAGGCTTTTGGAAAAGGGAGTAGTT
GGAGGTAACTCTTGGAGGCAGATCGGAATCTATCTACATAGGGCCTTGAATGCTATACTAAAGAGGATGGTCTATCCCATAGACCAGTGGTGTCCAAAGT
TAGGAAGTGTGTAGGAAAATACATTTGTATATAGAAAAAGATGTATTCTTTATATAGAAAAAGAAATATATTTTACTAATAATTTCTTGTATTGACAATG
TTGTATATGTGTCATTTATATGTAAATATGCTATGTGGTGATCCACACTCAAAATTGTTTTATTGATAGAGATACATGTTCAAAAGAGGTTGGAGGCAGA
TGACTGCTATAGGTGATAAGGGATGATTAAAGGTTTTCATGCAGCCAGTGACATGTTCAAAGCAGTATTCTAAGAAGATGAATCTGGCAGCAGTTATACC
GAGAGGATTGGTGGAAGCAGTTAGTTGGCGATTGCAACAATTCAAAGGGCTTAAATTATGATAGCCACAGTAGGAATGTAAAGGAGGGGGAGAGTTCCAG
GGATGTTCGGATAATCTTATTATTTGCATGGTGAGATTTTCCTTTAGCAAGAGTATTCAGCAATCTCTTTGGGGGCTGAGAATAGAGCAGTGCTCAAGAA
GGTGAGTTTTTGTTTGAAACTGATTTCAAAAGTGGGTTAGTGGTCAGGCGCAGTGGCTCACACCTGTAATCCCAGCAATTTGGGAGGCCGAGGCGGGCAG
ATCACTTGAGGTCAGGAGTTCAAGACAAGCCTGGCAAACATGACAAAGCCCCATCTCTACTAAAAATATAAAACTAGCTGGGCATGGTGACAAATGCCTG
TAATCTCTGGAGGCAGAGGCATGAGAATCACTTGAACCCAGGAGTCGGAGGTTGCAGTGAGCTGAGATTGCGCCACTGTACACCAACCTGGGTGACAGAG
GGAGACTCCATCTCAAAAAAAAAAAAAAAAAAGGATTAGTACTACCCCAAATGTACTATGGTCTGAAAACCTAAACTTAAATGTGACCAATAATTAAAAA
TTACATTAATTACTGGTCAAAAACAATATAGGATTAATCCTTTAATTGAGTATAGATAACTTCATAACTAATTTTATACACAAGGAAAATCTTTGAAAAT
GTAGATAACATCTTCTCCACCATAATCATAAAAAGGAGCATGATAACAGAAGTAGCTTAATAATGGTTCCTGCATTATATTAAAAAAAACTTATGCTTCA
TATTTGCTGTTTGGTGTTGAAAAGGGATCCCAGAAATTTTCTCATCTCAGTTGCTTGTTGGAGATGCATTACTTTTTTATAATACATGATTCAAGTACAA
ACAGTTGTTTTTCCTCACACAGCTTGATCTTCACAAAAAATAAAATTTAWAAAACCATTTTGGTAAATGTAAATTTGTAAAAGGAGGTTTTGGTACTTGT
ACTTGATTTACCATCATTTTCTTTAAAATTGTACTGTTGTTTAACTTCTCACCAGTTGATGTTTTTGTAAGGTAGAACTCTTAACAAAAGTGTGATTCAG
AGTTCAAATCTATTATTAGCCAGGCTTCTCAATTTCTCCTTGCACATAAAAACATGGTAAATAATGATAGAGAAAAAGAAATAGCATGTTTGAAAATGCC
AACTAGATCAGGCTTGTGATTCCTACATGATACTAGCATTATCTTAGACATGTGTTGATAAAAGAGCCCTACTATCAGGCAATTTAAATTAAAAAAAAAA
ACAAATTCACATATTTTAACTCTTGCCAGGCATCGGATATAAACTTAACAATTATCTCAATCAAGGTAAAATAGACTATAGATTGTGTGTGCATATGTGT
GAAAATGAACAGAATATAGTGTAGAAAAATAGATACAATATGACACATAAAAAAGAAGATAAGATTTTAAAGTTCTACATTAAGCAAAAGTAACTTTTCT
CAGGCATTGCTGGTAGAAATATAAATTGGTAACCTTTCTTTAGGGCATTGGTGGCATGTGTCAAGAGCCTTAAGAATGTTTATACTGTTTAAACTCAGTT
CTATATTTCTATTTTTAAGAACTTGTCCCAAGAATAAAATCCTTAAATGCCCAATAATAAGGGAGTAGCTAAAATAAGTGAAGAACCATTTTTGAACATT
ATTGATTATAATAAGGACCATATGTGCCCTGACTTTAAGTGGAAAGGGCAGTAGAAAACTACTATTGTTTACATACATTTATAATTTTTGTACGTACATA
TTTGTATACATACATTTGTTTACAAAAAATGTAAAGAAGTATAACAATATTCTTACAAGTTGTTTTGGTTTCTAATTTTTTGTTTCTCTCAATTTTAAAT
TTTAAAAAAGATATGTTGCTATATATTGTATTTATATTCAGAAAAATTATCAAAATAATTTTAAAAATAAAATAATTAAAGAGAGCTCCCAGAGTTTAAA
ATGTAAATACCTATCATTTAATTCAGTTAGCTGATGGAAAATTTTGGTGACCATTACATATTTATTTAATGACTTAGTCAACAAGAGCTGTTGATGTATT
AAATTTTGAGTAGACCCAGCTGTGCTACAAAAGTAGGTAATGTAATGGCAACTAAAGCAAATGTCAAAGCTGAAGCACATTTAATTATCTTGGCTACTGG
GGTGTTTTAACCTGTGTTACTTGTGCTTTGGTCTCACAAAAATGGCATCTTTTACCAACTTTCTAAACTGAGTAGGCAATGCATGCTTTAGATTAAATGA
AAAGGTGGTCCCTTTTATTTATATTTATACAAATATATTCATTCAGTCAATCAAATAAACAAACATTTATTCAGCAATTGTCAAATGTCAGGTATTGGGC
CAGATTATGAAAAAGGGAAATGAGTATCAGAAAATTAATGGTCTAATGGGAAGATCAACATTTAAGGGTGGCTGAAAATGAAAATAGAGTTATGCATGCA
GTTCTAGAGGAACATTGAGAAAGGGGCAGCCAACTCTGCCTTTGAGTTAGGGGAGCCTTCCCAGAGAAAGTATTATAGAGATAGGCTTTGTTCAATGAAT
AGGAGTTTCCTAGATGGAAAAGGTGAAGAGGTATTCTAGATAGGAAGAAGAGCATATACAAAATGTCAAAACTCTGAGATAACATGGCCTGTTCAGGGAC
TGGTAGGAAATATGGTATAGCTAGAGCTTAGGATGAGAAGCAGAAGCAGATCATGATGGCAGACCAGAAGCAAGACTAGATTGCAGCTGTCACTCGGATG
GACAGAACAGTGTGTGGAGACTTGCATTGTGAACTTTTACTCAACAATGACTGCAGGAATACATTAGGAAAGCCAAGAGAACCCATAGACCCTCTGAAGG
AAGCAGATTACTCCTGCAGGACCTGGGAGACACCCCAAATACTGTAAGACACCCCAAAAAACTGTAGAAGTGGGAAAAGGAGATCATCTGCCCCTGAACA
TATATCCCCACTGGAGAGGGAACCTGAAGTTCTAGAGTACGGGAGAAGATTCCGACCTTACATGCAGCTGAGTCAATGTAGAGGGCCGAGCAAAATATGG
GGTTAGAGGAAGCAGGAGAAAAGTCCCTGTGGGCTCGCTGGCTCCCCTAGCAAGCCACTTCTGCCTCACCTCACAGGGGTCCTTGAGGAGGGGTGCTAGA
GGCACTGGGAAAAGGCCACAGGGAGAAGGAAACCTCCAGCTGAACTTTGTAACAATTTGAGCTGATCAAAAAGTCTCCTGGCCAGAACTGGGGGGAGGGC
ATGAATCCAGTGTGCAGACTCCACAGGCAAGGGAAGAAGGAAAGCCCTACTTACTTTTGCAGCTGGGAGGCAAGTAGCCTGGGGCAAGTTCTCAGCCCTG
CTCACCCACCACCTGGAAACAGACTTGGTGCTGTTGGGAGGGGCACAGTGAGAGTGAGATCAGCCCTTTGGGTTGCCTGGGAGCTGGATGAGGCCTGTGA
CTGCCGGCTTTCCCCTACTTCCCTGACAACCTGCATTACACAGCAGAGAGAGCCATAATCCTTCTAGGAACATAACTCCATTGACCTAGAAACTTCAACC
CCATCCTCCACAGCAGCCATAGCAAGAGTCTGACATGCCTAGCCCTGCCCCCACCTGGTGGTCCTTCCCTACATACCCTGGTGGCTGAAGACAAAGGGCA
TATACTCTTGGCAGTTCTAGGGACCCACCCACCACCTGTTCCTCCCCATATTACCACAGATGATGCTCTCTTGAATGTGCCACCTCCCAGCAGGAGGATA
ACCAGCYCAAAAATAGTGCACTAATCAATCAAAGCTAAGGTATCCTCACAGAGTCCATTTCACCTCCTTGCCGCCTCCACCAGAGCAGATGCTAATATCC
ATGGCTGAGAGACCCATAGACAGTTCATCACAGGACTCTGTGCAGATGACCCCAGTACCAGCCCAGACCTGGTAGACTTGCTGGGAGGCTAGATCCAGAA
GAGAGATAACAATCACTACAGCTCAGCTCTTAGGAAGCCACATCCCTAGGAAAAGGGGGAGAGTACTACATCAAGGAAACACCCTGTGAGACAAAAGGAA
CTGAACACCAGCGTTGAGCCTTAGACCTTCCCTCTGACAGAGCTGACCCAAATGAGAAGGAACCAGAAAACCAACTCTGGTAATATAACAAAACAGCGTT
CTTTAACATCCCCCCAAAAAATCACACTAGCTCACCAACAATGGATCCAAACCAAGAAGAAATCCCTGATCTACCTGAAAAAGAATTCAGAAGGTTAGTT
GTTAAGCTAATCAGGGAGGTACCAGAGAGAAACAAAGCCCAGTGTAAGGAAATCCAAAAAAATGATACAAGAAGTGAAGGGAGAAATATTCAGTGAAATA
GATAGCATAAATAAAAAACAATCAAAACTTCAGGAAACAATGGACACACTTATAGAAATGCAAAATGCTCTGGAAAGTCTCAGCAATAGAATTGAACAAG
CAAAAGAAAGAACTTCAGAGCTTGAAGACAAAGTTTTCGAATTAAGCAAAGACAAAGAAAAAAGAATAAGAAAATATAAACAAAGCCTCCAAGAAGTCTG
GGATTATGTTAAACTACAAAACCTAAGAATAATTGGCATTGCTGAGGAAGAAGAGAAATCTAAAAGTTTGGAAAATATATTTAGAGGAATAATTGAGGAA
AACTTCCCCAGCCTTGGTAAAGAACTAGTCATCCAAATACAAGAAACTCAAAGAACACTGGGAAATTCATCACAAAAAGATCACCACCTAGGCACATTGT
CCTCAGGTTATCTAAAGTTAAGATGAAGGAAAGAATCTTAACAGCTGTGAGGCAAAAACACCAGGTAAACTATAAAGGAAAACCTATCAGATTAACAGCA
GATTTCTGAGCAGAAACCCTGCAAGCTAGAAGGGATTGGGGCCCTATCTTCAGCCCCCTCAAAACATTTTATCAGCCAAGAATTTTGTACCCGGCGAAAT
TAAGCTTCATAAATGAAAGAAAGATACAGCCTTTTTCAGACAAACAAATGCTGAGAGAATTTGCCACTACCAAGCCACCACTACAAGAACCGCTAAAAGG
AGCTCTAAATCTTGAAACAAATCCTGGAAACACATCAAAACAGAACCTCTTTAAAGCATAAATCACACAAAAATACAATTTAAAAACAAAAAGCAAAAAA
CCAAAGTATACAGGCAACAAATAGCATGATGAATGGAATGGTACCTCACACCTCAATACTAATGATGAATGTAAATGGCCTAAATGCTCCACTTAAAAGA
TACAGAAATGCAGAATGGATAAGAATTCACCAACCATCTGCTGCCTTCAGAGACACACCTAACACTTAAGTGCTCACATAAACTTAAGGTAAACGGATAG
AAAAAGAGATTCCATGCAAATGGACATGAAAGTGAGCAGGAGTAGCTATTCTTTTWTCAGACAAAACAAACTTTAAGGCTCTAGCAGTTAAAAAAGACAG
AGGGTCATTATATAATGATAAAAGGCCTTGTCCAACAGGAAAATATCACAATTCTAAATATATATGCACCTAACACTGGAGCTCCCAAATTTATAAAACA
ATTAGTAATTGACCTGAGAAGTAAGATAGACAGCACCACAGTAATAGTGGGGGACTTCAGTACTCTACTGACAGCACTAGACAGTTCATCAACACAGAAA
GTCAACAAAGAAACAATGGATTTAAACTACACCCTGGAATAAATAGACTTAACAGATATTTACAGAACATTCTACCCAAGAACTGCAGAATATACATATT
CTATTCATCAGCACATGGAACTTTCTCCAAGATAGACCATATGATAGGCCACAAAACGAGTCYTGATAAATTCAAGAAAATTGAAATTATATCAAGTACT
CTCTCAGACCACAGTGGAATAAAACTGGAAATCAACTCCAGAAGGAACCTTCAAAACCAGGCAAATACATGGAAATTAAATAAACTGCTCCTGAATGATC
ATTGGGTCAAAATTGAAATCAAGATGAAAATTAAAAAATTCTTTGAACTGAGTGACAGTAGTGACATAACCTATCAAAACCTCTGGGATACAACAAACGC
GGTGCTAAGAGGAAAGTTCATAGCATTAAATGCCTACATCAAAAAGTCTGAAAGAGCACAAATTGAGATTCTAAGGTCACATCTCAAGGAACTAGAGAAA
CAAAAACAAACCAAACCCAAACCCAGCAGAAGAAAGGAAATAACTAAGATCAGAGCATAACTAAATGAAATTGAAACAAGAAAATACAAAAGATAAATGA
AACAAAAAGCTGGTTTTTTGGAAAGATAGATAAAATTGATAGACCATTAGCAAGATTAAMCAAGGAAAGAAGAGAGAAAAGCAACATAAGCTCAATTAGA
AATGAAAGGGACATATTACAACTGACACCACAGAAATGCAAAAGGTCATTCAAGGGTACTATGAACACCTTTATGTGCATAAACTAGAAAACCTACAGGA
GATGGATACATTCCTGAAAAGATACAACCTTCCTAGCTTAGATCGGAAAGAATTAGATATTCTGAACAGACCAAAAACAAGCAGCAAGATTGAAATGATA
ATTAAAAAATTACCAACAAAAAAAGCCCAACACCAGATGGATTCACCCAGAATTCTACCAGACATTCAAAGAAGAATTGGTACCAATTCTATTGACACTA
TTCCACAAGATAGAGAAAAAGGGAACAGTCCCTAAATCATTCTATAAAGCCAGTACCACCCTAATACCAAAACCAGGAAAGGACATAACCAAAAAAGAAA
ACTAAAGACCAATATCCCTGGTGAATATAGATGCTAAAATCCTTAATAAAATACTAGCTAACCAAATCCAACAACGTATCAAAAAGATAATCCACCATGA
TCAAGTGGGTTTCATACCAGGGACGCAGGAATGGTTTAACATACACAAGTCAATAAATGTGATACACCACATAAGCAGAATCAAAAACAAAAATTACATG
ATCATCTCAATAGATGCAGAAAAAGCATTCCACAAAATCTAGCTTCCCTTTATGATTAAAACTCTCAGCAAAATCGGCATATAAGGGACATACCTCAATG
TAATGAAAGCCATCTATGACAAACCCACAGCCAACATAATACTGAATGGGGAAAAGTTGAAAGCATTCCCTCTGAGAACTGGGACAAGACAAGGATGCCC
ACTCTCACCACTCCTCTTCAACATAGAACTGGAAGTCCTAGCCAGAGCAGTCAGACAAGAGAAAGAAATAAAGGGCATCCAAATTGGGACTCCCGCTGTC
TGCTGATGATATGATTGTTTGCCTAGAAAACCCTAAAGACTCCTCCAGAAAGCTCCTAGAACTGATACAAGAATTCAGAAAAGTTTCCGGATACAAAATT
AACGTACAGAAATCAGTAGGTCTTCTATATACCAATAGYGACCAAACTGAGAATCAAATCAAGAACTCAACCCCTTTTAAAATAGCTGCAAAAAGATAAT
ATAATAAAATACTTAGGAATATACCTAACCAAGGATGTGAAAGACTTGAACAAGGATACAAAACACTGCTGAAAGAAATCATAGACAACGCAAACAAATG
GAAACACATCCCATGCTTGTGAATAGGTAGAATCAATATTGTGAAAATGACCATACTGCCAAAAGCAATCTATAAATTCAGTGCAATTCCTATCAAAATA
CCACCATCATTCTTCACAGAATTTAAAAGCAAACAAACAAACAAACAAAACCAGTCCTAAAATACATACAGAACCAAAAAAAGAGCCCACATAGCTGAAG
CGAGACTAAGCAAGAAGAATAAATCTGGAGGTGTCACATTACCTGATTACAAACCATATTATAAGGCCATAGTCACCAAAACAGCATGGTACTGACATGA
AATTAGGCACATAGACCAATGGAACAGAATAGAGAACCCAGAAATAAACCCAAATACTTACAGCCAACTGATCTTCAACAAAGCCAACAAAAACGTAAAG
TTGGGAAAGGACACCCTATTCAACAAATGGTGCTGGGATAATTGGCAAGCCACATGTAGGAGAATGAAACTGGATCCTCATCTCTCACCTTATACAAAAA
TCAACTCAAGATGGATCAAGGATTTAAATCTAAGACCTGAAACTATAAAAATTCCAGAAGATAACATTGGAAAAACCCTTCTAGACATTGGCTTAGGCAA
GGATTTCATGATCAACAACCCAAAAGTAAATGCAATAAAAACAAAGATAAATACTGGGATTTAATTAAACTTAAGAGATTTTGCGTGGCAAAAGGAACAG
TCAGCAGAGTTAACAGACAACCCAGAGTGGGAGAACATCTTCACAATCTATACATCTGACAAAGGACTAATATCCAGAATCTACAGTGAACTCAAACAAA
TCAGCAAGAAAATAAACAATCCCATCAAAAAGTGGGCTAAAGACATGAATAGACAATTCTCAAAAGAAGATATACAAATGGCCAACAAACATATGAAAAA
ATGCTCAACATCACTAATGATCAGGGAAATGCAAATCAAAACCACAATGCGATACTACCTTACTCCCGCAAGAATGACCATAATCAAAAAATCAAAAAAT
AATTGATGTTGGCAGGGATGCAGTGAATAGGGAACACTTCTGCACTGCTGGTGGGAATGTAAACTAGTACAACCACTATGGAAAACAGTGGGGAGATTCC
TTAAAGAACTAAAAGTAGAACTACCATTTGATCCAGCAATCCCACCACTGGCTACGTACCCAGTGGAAAAGAAGTCATTAAATGAAAAAGATACTTGCAC
ACACGTTTATAGCAGCACAATTTGCAATTCCAAAAACATATATATATACTGTATATAGTATATATATACAGTATATATATACTATATATAGTATATATAT
ACAGTATATATAHAGTATATATATACAGTATATATACAGTATATATACTGTATATATAGAAACTGTAGTGTATATATATACACTATGTATATACTATATA
TATACACACTATATATATATATACTATATATGTTACTCAACCATAAAAACGAATGAATTAATGGCATTCGCAGTGACCTGGATGAGACTGGAGACTATTA
TTCTAAGTGAAGTAATTCAGGAATGGAAAAACAAACATTGTATGTTCTCACTCATATGTGGGAGCCAAGCTATGAGGATGCAAAGGCATAAGAAAGACAC
AATGGACTTTGGGGACTCAGAGGGAAAGGGTGGGAAGGAGTTGAGGGATAAAAGACCACAAATTGGGTGCAGTGTATACTGCTCAGGTGATGGGTGCACC
AAAATCTCACAAATCACCACCAAAGAACTTACTCATGTAACCAAACACCACCTGTACCCCAATAACCTATGGAAATAAAAAAATAAAAAATATAATAAGC
AGAAGCAGAGGATGAGAGTGGAAAACTGGGCTAGGCCAGAAATGGCCTTTATGCACTTGGAGTCATAATGTTTCTGCTTCACCAATGATTAACAGTGATT
TTCCTGGCTAATAGAATCTTAATCATTATAATGAGGTAGGACTGTTGCCTTTGAATTATGGAAATTATAGCTGTTAAGACCTGTTCCACAAACACAGGTT
ATACATATTATCACATCTCTTTAATCTTCTTTACAGTTAATCACCCAAGTCTCCACRGGGCTTATTAGCAGGAAGGCTATTATCTCCTCTTGAGATCCCT
CCCACTGCCCCTGAATTGTCCATGAATCCTGACTTTACTCAGGCCAAATGGGTCAGTCCTCCTGCAGAAGCCCATAGCTGGATCTGTCTGTGACTGCTGC
CCTCTCTGGTGTCTGCTATATGGCACCATTTGCACATCCGTGTCACAGGGTACCCATTTTGGGTGACAAGGTTACAACTCTCTTTGTTTACATTTCCATC
CTCAGCCATTGTTCCCTAAATCATAACCACTGTGCCAGGCTGGCTGGTCTGGAGGCGCTTCTGGAGTTGGCCTCATGCTAGTCTGAAATTAGTCCTTCTC
CTAGAATCTGAGGCCATTTTGTTGAGCCCAGATCAACAGCCCAGATTCCGCCCTTCTTTAGGATCACTTTATTTCCATGGCTTCCAGGACCTTCCCTGCT
CCGGGACCTTAGTCAGTGTCATCCTGACCCAATAGATCTCTCATCCCCGGCCTCCAGTTCGAGGAAACGGGGATGAAGACACTAGGGCTTCCCTCCAGAA
GGCCCTGGGCTCCTTTTTCCACACAGATTCTCCTCCTGCCAAGTGTGCAGATTGTTTCTCGGGGTGGCTCAAAAGGTAGCAGTTTGCAAGATGGAGTTTA
AAAAACAGTTTGTTGCCCTGCCCTAATGCTCCCCCAAAATGCCTAATTGCTTTATATTTACATAACTAAGAAAGACACCAAGGGATTCTTCCAAAAACAA
AGATCTTCTTCAAGGTGATCTTCTGTTCTGCCTTTAAAGAGAAGTAGTTGCAGTTTACTTCACTAAAATAATTAATTTTTGTCTAACCATGTCCCTATTT
TATCAGTGATAATGTGCTCATAAATTATACGACAGATTATGTAATTTGCCCAAAGCAGAAAGAGGTCTCAGACCCCAAACCCATGCATTTAACCACTCTG
CTTTACTACCTCTTGTCATTCAATTCACATGCTACCATGTCATTATTTACTTTTATGTCTCGGATACTGTACTCTTATTAGTTAAGTTTATTGCAGGAAT
ATAAATCTCTTTAAGTGTAGGCACTCTCTTCTGGGCTGTTGCTGAAAGAGAGTGGGACAACAGGTGTATTTGTGAACTAGTAGAAAATGAGTATATTTAC
TGCAGAAGGAAGTTGTGTTTTCTCTGCAAAGTTAGATCACAGAAGGGAGAATGATACTTATCTATAGTTCTGGAGGGTTGAAACCGAATAGTAAATGGGT
GTTAGGATCAATACATATTGTTAAGAAACAGTGTTCTATAAATTTCATGATTTAGGAAAGCTGTCTACAAAGCTGGATTAATCTTTTTCTGCTGAGGGCC
AAGTTTACTTTGCTCTGCCCCTCTCTGTGCAAGTGTAAGACAGTCAACTGACCTTTCAGATTATCAGCTTAATGATAGTTCTCTCTCAGAATTCTTTAAA
TTTAAGAATAATGAAAAAAAAGTCCAAAGAGATCTTTTTCATCATTTCTCTTCTCCCTATTATTATTACTCTCCTCAATGAAATGAAAATGAAATGCCTG
TGTATCCTATTTCATAAACCAAAACCAAGTTCTGACACATTATTGGAAGTTTATGTTGCTTTAGAGGAAAACCATGTTGGCTATAAACTGTTGCATTATC
TGGAAATCATACTGTAGATTCCAGGAGGTCAAGGCGTCTCTGGCAACTTCTATATATTTATAGGAGAACCGACTGCCTCTCCTCTAACAAAACCTCAATG
AGACCTGACTCCTAGCCAGCTAAGACTCGGCATGGTCCTCCCTGCGTCTTCAAATTCTAGGACTTTCCCTCATGTGCTTGCCTTGGACTGGAGCTGCAAG
CTACCAAGCCAGTGCCAGACTGGGGGCCAGGCTTACAGCAGAGCTTCCACTTACCCCAAATCTGCCACAGAATTAATTCCCTACGTTTGACCTCATATTA
CTTTGTTTTGTTACTATCATTGTTACTGCTTTAGTATTGTTGTTGTCGTTGCTTTCCTGTATATATTTAAGACTTGTGGCTTTTAAAACTAGTTTGGATT
TAAGATACACAATAAGTTCTATCATTTGAAAATGATAAATATAGATGTCCTTACATCAATTGTCTTCAGATTTCGGATATATTTAGCCTTTTGACTTTAT
CCAAAAACTAAACATTCTGATTGGCCCTCATTTTAAAAGGGAAGAACCTGTTTCTATTTATTTAGATTTGTATATGCTCTATATTGGGATGAGGGAGCTT
TTTGTACTGAAAGAAGTTATGTATTTTCCTACAGGTTAGATAAAATCTGTGTTTTCCCTTGGCTAGGTTTATGCATGCTGTATAAACAAAGGTGTTCTGG
GGCTCCTAAGGAAGCGGTCTGAGGACCATGTGTCTCACCTAGTTCTCCCACATGCTCTCCCTGGTGACTGTTGGCACTGACCAGAAAGGTCTAGAGTGGT
GGAGAGAGAAGCTAATAAACAATTCTTGAAAACCTACTATGTGCCAGGACTATGCTTGATATACATTTGCTTTGTTTTATTTAACTTTCATAACAATCCC
AGCAGGCAATTACCATTTTCCTTATTATATAGATGAAGAGATTAGGTATTATAATTAATCTAATCTCACAGAGCCAGAAGTGGCAGAGCCAGGAGTAAAA
CACAGCTCAGACTCCACAGCCAATGCCTTTCTGTACCCTACACCGTCCATCATGGATTTAGGTAGCCTGGGGACCTGAACTCCCCACTAGGTTTAAGGTC
TAATTCTYGAATGAAACCTCACGCATTTCTCTTAGGTTCAGGGACAATCAGATTGTCAGAGTAGAAAGAGACTTTGGATTCAACATTTGCTAACCCACTG
GCTTCCTAACTTCTTCCTAAGGCCTTCACTCTGTGAAGTAGGTGCTAGGGTTCCCTGCTAATGAGTACTAAGCTTCTCAAGGGCTTGAGCAGGCTTGTTA
GTCTTTTTAGGGCCAGCTGTGCACCAACTATGCTGTTGTTGTGTTGAGGCCTTAGCATTCCTCACTTCAAATCAATTACTTCTTTATTACCTTAATACAT
CACTGGCCATGTGGCTGATTTGGAATGTAAAGGAGACTAACCCTGTAGGATAATAACTTTCACTTGGCACACAAAATCTATACGGATATTCAGAGCATTT
GCTTTTAAAAAATGAATATTCTGTAGCCTGTGCTGCCTGTTTATTCTTATTTAGAGAATTTCGTCATTTTAATAATTTGGTAATATTTTACTGGTAGGTG
CGGAGATATGTAAAAAAAAGTGTATTTTTTTCTTTTCTTGTGGATTTAAAAAATGTTTAGAATTTTTATTTGCAGCCTATAAACAATAATAGTACTTTAT
CCTTTCTTATTTTTGCCTATATTACAAGCAAGTAATTTCATTTAAATTGACTTTAAGCACATTCCTTTGAAAGAAACCGAAGATTGTTATCTTTGGCAAT
CCTGATTAGATTTCTTCCTCAGACAACAGTTTATTAAGTTTGTGCTATGAATGTGGGCAGGTGGTTTGACTCGGTGGAGCAAGTAGTGGGCACTCTAGAA
TTCTTTTTCTCCAAGTACTCAAAGGCCTTTGGAAGAATTTCCTCTCTGAGCATTTAGATGTTCCTTCTACTCTGTGAGGTGAAAGTGTGTTATGTGGTTT
TATTTTTCACTTATTGAATGCCAATTACATGCCAGCCCCAGGGTTGTCTTACATGTGTTATCATATCTCATTTAATCTGAAAAAGGATTATGGCATAGGC
ACATAATATTATCTTCATCTTTCAGATAAAGAGGCATAAGTTCAGGTAAATACATATCCCAGTAGTTACACAGCTAGTGCCTAATGATAGCAGGATTTAC
CAGATCTGTCTGCCTTTTTCAAATATAACACCTTGCCTGGGAATGAGCTAGCAGAAGACTTTTAGAAGATGAGACTGGAGAAGTGGCTTCAAATTTCATT
CTAATCAAGACACTAAGCTTTGCATTTATTTATTCCTTCATTACCATTTATTGGGCACCTAATGTGTGTCAAACARTCTAGGAATTGGCGACATTACAAT
GAATAAAAAGCATAGATCCCTGTCTTCCAGAAGTTTACTTCTGGTTATTGGAGGTTTTGAGCCAAGAAATGACATGATCTGGCTTAGCTTTTACAAAGAC
CCTCCTGGCTACAGTGTGAAGCATCACCTGAAGAGAGGTGAGGGCTTCAGCAGCAAGCCCAGTTAGGAGGCCACTGCAGCAATCCAGACAACTGCGGGGC
TTGGACCACAGTAGTGGCCAAGATGAGAATTTGGATTTTATATGGACTTAGATGGAAACACCAATGGGATTGCTGAGGAACTGAATGTAGAAATTGCTTG
TCCATGTTTTAACTGCAACTATGGTCAGCCTGCATCCTAAACCTATGCTTTTTAAGTTATGTTAACATGCTGAAGTACAAAGTGACTTCACAACTATATT
CAATTTCATGAAAAACTGTAGCTCCTCCTTTTCAGCTCCTTAGGCTTAGGAAAGGAGAGTGCCTCTTGGAGCCTGGAAGAGGCAGGAGAGAGCTCTGTGT
CCCAGAAGCATTTGTCATCCAGGCTGCAGTTAGCCAGCTGGCTCCTTCAAAAGCCACACACCTGGGTGGCAGCACATATGTGGTTATACCTGAGATATGT
GGTGTGTCCATCTCAGAGCCACTCAAAGTCCATTTTAACCCTTCCCTATGGCTCCCCATGAGGAGGTGGGAAAACGAATCCTCTTAATAAGATTTAAGCA
CAGCTTCACATTTTTCTGTCTTTGTTATTTCTCAGAAATGCCATTATCAGTCTGAGTCAGAACAGATATTAATTCTTGGTCACAAAGTAGCACTTTTGGC
ATACTCTCACCATTTTTTTAACTTCAGAAACAGCTTCCTTGTAGGTAACTTTCACTGAGCTGACATTGTCAGCCAAAAATGGTTCTGGAGCCACTTCATC
TGCCATAAAATTTAATAAGTCCAGGATACAAATTTGTGTATCACAAGTCAATAAAATTGCCACCAAGCTGTTTGTGTAGTAATAAGGTCAATAAATGTCA
TCCTCATTCAATTAATTTTCATTGACCTTAAGGAAATGACCTTCTATTTCCAAGTAGGAGAAGAAATTGGCCATGGAGAAGCATAACTGTTGCATCTGCT
TTTCAGTTATTACATTACTGAAGATAGCATGGGCATCTAGCTATGCTTGTATATTCAGACTAAAAAGTAATCTACATGGCTTATCCTGAAGTAGACCCAA
ATGATTTAATTACAATTAAGATCATTGAAAGACCCCACAATATGCTTGGGGTCATCCTAACTGCATCTTCCAGATATGATCTAATATCTCACTGATCTTG
GCCATCCATTGGGTTCTGCTGGGCAGGATATCAAGTTAAGGATGTGATGAGAGGCTCTCACTTTCTGGCCTGCAAACTGCATTTGTCACAACCCCTTTCT
CCATTAACCTGGCCTGGAGATCAGCCCTGAAGTTGCTCCTTTGCTGTGCTGGCCATACCCTGAAGGAGACAACCACACCAGTGAGAGTTGAATGCCTCTG
ATTTCCTCCTTCCTCCACAAGGCAGATGAGGGACCCTGCCATTTTTTTATAAAATTCAAAATCAACTAAAGTATCACTTTTTTATTTTATTATTTTCCCA
GGGCTGCGTCCAAAGAGGACTCTGCGGCTGGTGCTCTGGACTGCAGAAGAACAAGGTGGAGTTGGTGCCTTCCAGTATTATCAGTTACACAAGGTAAAAA
CCCAGCTGTGGATTGCTAAGCATTTGTACATGTAATATACAAAAATCCCTCTCATTGTCCATTTAAGACTTCAATAATACTTTCTGGTCAACTGGCCCTA
GGAAACACCCTTGTATGAGCCTTCTCCCTCCAGCCCTGTGAATGAGAATGCACTGGTAAACCAATGATGCTGTGGTGTAGAGCTGAGGGCTTTTCTTCTT
CTACACCACAGTCTGAGGCCAAAGAAAAATTCCAATTGCCATGCTGCCATTTTTTTCAAGTCTACCTAGTTCTGCTGTATTCATGTATGTCAGAGAAATA
GTTATAGGCAAACATTCCCTCTCCCCACCGAGCCTATCCCCATACCTCAATGCCCGCCATATTCCCAGAAGCCTTGGCATTTGAGAGCCAGGTTCCAAGT
CATTGAGTCTGCCAAGAGCATTGCCATGATGGTGGTGGAAATGGCAGCAGCCACAGGCCTCTGTCCCAGGAATGTGGAGGACAGCTTGGTTTGACACCAG
CTGTCATTACACAAGTGTGAAGCTTGAAGCAGGAAGGTTATTGTGGATGGTCATGATTAGAAATACAAGACCACATGGAAGAGAGGGGATAGGGAGATTA
ATATCAAGAGCAAATTTTGAGACAGCAAAATATACAAGCTGAGAAATACTCTAGATCAAGTCAAATGTTAGTTCAAAGAGGAACTCCAAAATCAACGCGC
ATATGCTGGCAAGCAGTGATGGTTGCCCAGAGAGGAGCATTTGGTCTGCTGCTGCTGCTGGATGGTTTCCCCTGAATGTCCAGATGAGAAGAAGCAGATC
TTGCAAGCTTAAATTATCCAAATCGGAGAAGGGTTTCTTTTGTGAATTGTGTGTATGTTATTTTTGACCTTTTTTTTTTTTCAAAGTCAGTCTCTATTAC
CCTATTTCAGTCAGTTAGAGTATAATGAGTTCAAAGTCATGAATTTGGTCACTGAATACAATTATTTACTGTACAAAGGACAACTTATGACCTATGCCCT
ACTCTTTCACCACTTTAGTTCTTTTGGCCTCAGGTGATCCTGGGGATAACATAATTCAAGACAAGTGTCCTTTGGTTGGTAGGTCAGTAACATCATTTTC
TATGTGTTGTGGTAGACCACAACATCATATAAGGGTTGTTCTAGATTCAGCAACATTCAATTAATATTTTCTGAACATGTACTATGTTCCATACAYTATG
TTATGCATTAATGTTAGCATCAAAAAGATCTACCCTGACCTTACAAAGCCTACATTCTAAAGGACACTGACGATTAACTTGAATTATAAGGTGTTAAGTC
TTTCTGGGAAAGAAATTACATCTAAGCTGAGACCTGAAGACTGAGTGGAAGTAAGCTAAGGAAAATGGAGAGGGAGGGAGGAGGTGRGTACTGCACCTTG
GCAGAGGGACCTGTGTGTGCAAAGGCAGGAGATGAGACAGAGGAAAGCACACCAGAGAAATGGAAAGGAATTCAGAGTGGCTGCTGCATAGAATGCAAGA
TGCACAGTGGTAGGAGGGTGGAACAGAGACGTAAACAAGAGCCTGAACAAGAAGAACATATGAATCATATTTAGACGTGCGGACTTTATCCTCGAGGCAA
GAGAGTAACTTATTTTTAAGAAGAAGCTCTAAAATTCTATACATATTGGACTTTATATAAAAAAAAGAATAGTTAAAAGAACTATTCTTTTTTTTTTTTT
TTTTGAGATGGAGTCTCACTTTGTTGCCCAGGCTGGAGTGGAGTGGCACCATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGC
CTCAGCCTCCCAAGTAGCTGGGACTCCAGGCGTGTGCCACCACGCCCAGCTAATTTTTTGTACTTTTAGTGGAGATGGGGTTTCACCGTGTTAGCCAGGA
CAGTCTCGATCTCCTGACCTTGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCCTCTTTTATTCTCAGTAATA
CACTCTACTCCAAGAAAAATATTGGATTTAAATTGCAATTGATCTGGCTAAAAATTTTATCATCACTGAAATTCCTAGAATGTGAAAAAAGAAGGTTTAT
TTTTCTGTAATGTGAGTTTCACTGTAGCCTATCAAAGCACATGGATGAAATCGGAAATGCCTAAAATTCTGAGGTTGGCAGAAATACACACACTCAAAGG
ACATGCAATCACATAAACAGAACTACTTTATCTTGACAGCATCCAGGCTGCCTCCATACAAATGTAGCTTCATGTTGGTGGCTAGTCTGCATTGCATTTT
CAGAGATAGAAAGAAGAAATTCCAGAAAGGGAAAACATTGGCATTTTGTTTTACAGTAACTCTTTACCTCGCCTTTAAAAAGACATTGTGCATGCTTTAC
ATGATACAGCCAATTTCAAAGGACTTATTCTGGATTCTTATGATTAGCATATTGATATTGACATTACTAAGACTATAATCATTTCAAAAGTGGCTGAGTT
TAACTTAAAAGTTAATATAATAAGCAAGTCACAAACCACAAGGGTAAATTAGATTGTCTTTAGACTTCTCTGTGGCATTACTGAATGCCAGCAGACAGTC
CAACAATATCCAGTTCACTCCAGTCACAACAGAGAGATCATCTGTTCCAAATAAGGTTATGCTAACTGCTGAAACAAATAATAGGTCAAATTTCAATGAC
CTAACATAACCCAGAAATATATTCCTTGCTCACTTAACATCCAATCTACAGTAGGGCTCTGCTTTATACAGGTATTCAGTGATCCAAGCTGACATACCCT
TTAAAAACATGGCTTTAATATGCCTTTGAGTATTGACATCCAGCTGGCAGGCAGGGGGATAGTAGGAGGTTTTTATGGGACAGTTCTAGAAGTGGCTGAC
GTCATTTCTACTCACACTCCATTGGCAAGAACTAGTCATGTAGTCCAACTGTGTGAGAGGCTAGGGCATACAGGCACTGGCTGAGCAGCCACTTCCCAAC
AACAGCTCTATACTGTAGGCTGGGAGCATTCTATAGCTATATTCTCTATCTTTGGCAGAAAGCTGACCCACTCTAGGGTCTTCCTTTCACTTCGTTCTGG
CTTTCTAAACACTTTAGCTGCACAAGAGGCCAACTGCCCTGAGGTCTTTACCTCCCATGGTGCTCAAAGTTGAGATCAGCTCTGTGAGCTGCCTAAAAGT
ACTCATCTTCACCACTACCAGGATGCCTTTGTCTAGCAACACACAAAAAGAAAAGGAGTCACAGTCTTTGACCAGAAGGACCTTACATTTTACTTCAAAA
ATAACTTTAAATGCACACATAAGAAAGTTAGTATAACAAACCATATATAATGAAGTTTTAAATAATGTACTAAAAGTATTTTATTTTTATGGATGATGCT
ATCATTGACAAAGTGCCAAATGGTGTAAAGGCTGAACAGAGTAAATGGAAAGGATTTAGAAAAGGGAGAAATCACTATGGCATGTTAGTCGTGAGGAAGG
AGGCAACACCTAATCCTTGCAGAGCAAGTGGATTTCAGCCAGTGATCAAGAGGGGAGAGAAGGGACAGCAGCTCCCCTTTAGATGGATGATAATGGAGTC
TCGAGGTCTGCCTTTGGCATTGGTGTGGGTGATACCAAATAAGAACAGAACTTTTATGGCGGGGGTGGGGAGATCTATTTTAGTGATTGTAGAAATAAAA
GGTGTGAACTTTTTAAATGACTCTGCTAACATTTTTATGATACAGTTATGGTTATTAGTGATCTATGTCAGGAATCAGAAAATTATAGCTGATGGACCAA
ATCCAGCCTGCCACTTGTTTATGTACAGACTTCAAGCTAAGAAGTTTTTTCATATGTTTAGCTGATTATGCTACAGAGATTGTATGTGGCCCACAAAACT
TAAAATATTAACTATCTGGGTCTTTACAGAAAAAGCTTACCTACTTCTGGTCTATAATGATAAAAGTCATAAAATATCATCACATTATTTGTATACAATG
ATCTCTTTCTCGTTTGTATGACCTAAAATATAATTTTGTAAATTTTGTTTCGAGCCTAATATTAGCCTATGTAAGTATATTGTAGGAAGATATTATTGTA
ATGATAAAAGCTTGCATGCACAATCTTTTTTTTTTTTTGCATTCTTATCTGGCAGTCTTTAATAATAAAGTTGGCTAAACCTACATGGCACTAGCTAGGG
AGAAAAACAATACGTAGATTATTATTTCTTCTTTTTGTTTTTCTGAATGTAACATTCTTTCTTCCCCCTCACAAAGTCTTTTCAACAGCGAAAGTTCTAC
AAAGGCTATTTTAATAATAAATCAGTTTGTGGAATAATGAATTATTAATATTCATTATCCTTTCCTTAGTAAATATATCTTTGTTTACACTGTACTCTAA
TTAATATATGCAGAAAATATAAAATAGTTATTTTAAATTGTGGGTAAAATGTATTGCTGAACTAATTTTCAAAATTGTAGTTGGATTAAAAGCTACCTTT
ACTTCATAATTATGCTTTCTTATGACATATCAGCTCAATTATTATAATACGTGCTAGAATTTACTAAATTTACTAAACAATTTATTAAATTATAAAGGAT
GTGAGGCTATTTATAGCTTGTGTATACATTTTGAAATTCATATGCAACTTTATTATAATGTCTAAAACACTTCAAGGAAACAAACTTTGGCAAAAATGGT
CTATAAGCATTTTAGTAGCAGTTACTAAGTAAATAACTCAAACAGGAAGTGTTGAATATCTCACTGTAGTACTATACACTAGAATATAAATCATTCCTGA
GATCCATTCAGCATGCCTCTAACAGTTCATAGCGGAAAGTCCCATAAAAGATTTCTCTTCTTAAGAAAATGCAAGTTCACATGTTTCAATAAGTTGTTAA
ATTTTCTCTCCTTATTTTAAAGTCCTTTTCACCATGTCTTTGATTGTCTTGGTATTAGCACATAAGCTTGAGAATGACTTATATGGACAGTATATTGTTT
GTGCTTTATTTAGAAGCTTCTTTTAGAAGCAACTCATTTTTCTTGCTGTTTTATTGAAGTTTAATTAGCATTTGGTAAATGCACATATCTTAAGTACACA
GCAAAATAAATTTGGAAAATGTATACCCCTATGTAATCATCCCCCAGATCAAGGTATATAGCATTCCTATTACCCTAGTAAGTTTCCTTATGTCCCCTTC
AAATCAACTTCTGACTCTACCAAAGACAACTACTATGCTCCTTTGTAACTCCAGATTGGTTATGTCTGTTCTTAAACTTCATATAAATGGAACCATACAG
TACATAATCCTGAGTCTGACGTCTTTCACTAAACAGTATGGTTTTGCAGTTTATCCATGTTGTTGCATTAACAGTAGTTTGTCCCTTTCTATTTTTTTTT
TTTTTTTCGAGATGGAGTCGTGCTCTGTCCCCCAGGCTGGAATGCAGTGTGGCACGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTC
TTCTGCCTCAGCCTCCCAAGTAGCTGAGACTACAGGCGTGTGCCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGT
CAAGATGGTCTCGATCTCTCGACCTCGTGATCCACCTGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCAGCCATCCCTTTCT
ATTACTGGGTAGTTTTCTATTGTGTGAATATACCACAGTCTCTTTATTCTCCAGAACGAATGAAGCAAGAATATTCTGTTGATGGACATGTGAGTTGTTT
CCAGTTTTAGCTATTATAAATGAAGTTACCATGAACATTTATGTACAAATCTCTGGGTGGACCTATGCATTTATTTTCTTTTCTGGGAGTATAATTGCTG
GGTCATATGATAGGTGATGTTTAACTTTACCAGAAACTGCTGAAGAGGTGGGAAGTTGTACCATTTTACATTTCCACCAACAACATGTGGGAGTCCTAGT
TGCTCCCTATCTTTCCCAGTATGTGGTATCATTAGCCTTTTTATTTTTAGCCATTCTTATAGGTGTTATGTGTTTWTATTTTTCAAAGTACAGTTCTGAA
GAGTTACAAGAAAAATCCTGACTCCTCTCCTAATGGCCACTATTCTTTTGCCCTCCCTGCTTCTTCTTGCCTTAAGACTTTTTGTTTGTTTGTTTGTTTG
TTTTGTTTTCTTTTGTATTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCGCCTCCAGGGTT
CACGCCATTCTCCTGCCTTAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACCGGGTTTC
ACCGTGTTAGCCAAGATGGTCTCTATCTCCTGACCTCATGATCCGCCCACCACGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCGGC
CGCCTTAAGACTATCTTCATTTCGGTGTTCTGCTTTATGATTTCAGGGAGACCAAAGGCCTTTTTACCCTGCATGAGGTTTGTGGGGCTGTTCATGGTTG
GAGGGACCTTATTTCAATTTAGAGAAACATCTTGGCAAGAGGAGGACATAGAAATGCCGTCCTGCTCATAACCACGGCCGACTCCCAAGAACACATGGGG
GCTGTTGAAACTCAACTGGAGCCCAAAGGGGAGGACGATTCCCTCAAAGGGCATGAGGAGGAAGATTTCTCTTTTATGCCCAGAAAAGAGGTTATTCTAG
GGAGAGGGGAAAAGTCCAGAAAATGCCTTTATGTTATTCTTTATTGATAAATTACATTTTTTAAAAATATGAACTCTATTGGTTAAATTTAACTGGCATT
CACTTAAAAGGAAACTTTACCACATAGAGAAGCATGTTATTGCACTCTAGTGAATAAGAGTTTCATTATAGGAGTGGAATTTGACTTTGAAATTTGAAAA
TATAGATGAGTTTATTGAATTTTCAAATCAGTGAATAAAGTGAGGGTTGTCCAGGTACCATTTGCCTAATCTGCTTTTCATGGGAATAATGTTGCTGTCT
TCTCTTCTCTTCTCTTGGAAGGAGAACAGGATGTCATTTCTCATGTCCTGAAATGGACAAAGGAGAAAAAACATACCTAGCTTCAACTGGATTTCTGGCA
TTTGTTAATCTTTTCCATTTTAAGGAAAAATATGATCTGGCATAATTATAATGAGTAAGGTAATCTGGCCTTGAGAAAGCCTCATTACACAAGGTAATCA
AATAAAATAGATTGATATGTCTTATTCTGGCATGAAAAATATTTTAACCTTTTCCTGATTTATTGCACAAACTTCTGGCAATTGAATTACAGGGATAATG
AACACTGTTGTGTTCTGGTAGTCATTAATAAGGGCAATATTTTAAATAGGCTTTATTAAATGAGGGATGGGATGTATGGTCATTCCAAATACACGAATTT
ATCTGAACTCTAGCCAACTCTAAAACTGAAAAAGCAAAATTGAATATTTTGTCACAATTTCCTGTTTTGTCATACTGAGGAACAAAAATTCCTCTTTATG
TATAGAAATACACTAAAGTGTTAGCTTCTTTTAGCAGTGAAGTTCTTGCCAGCTTCCCAACCTGCATTAGGTTTCATGTTTCACTCTAAAATAAAAGAAT
ATGTTAGAAATGCTTTTGAGACTTCTTCGTGCTATCTGGGCAAATGTGTTTCTTTGGCATTTTTATTTTACTAACTCTATTTCCTCTATATGATGCTAAT
TTAGATAGAGTGACACTGCTAGAGTAAGGGTATTATACTCATGTTGAGCTCTGGTTATACAAATAATAGAGCTGATGTACTCATTCAGCATAATTGTGTC
CGGACTATGTCTCCAGCACAGCCTTTCTTATATCTTTAATGTTCTGTGCAGTATAGACGTACTAATCAGAGGTGATTGTCTCAATCATTACTGCTGGGCC
TTTATGCATCCTGTATTTTTCTTTCAGTGCCTAGATATTGCATTAGTCTCTCAAGCACATCACAAAACTGGTTTAAATTTCATTTGTCTCAGTGTTTTCT
TGGTCTGGAGCCTTTGTAGTTCCTATATTCACATGATTTATACTGCACACCTGGGAGCTCTTAAGGGTCTTATTAGAATTTGTGGATTTTATTTTTGTAA
AAAAAGGAAAGGATTGTCTTTTGAGTTTGCTTTCTCCTGTGTAGAATTCCATTATGACTAGGGGACTTCTGAATCTTATGTACATATGGTAATTATATAT
CAATGTATGCCAGTCTAGGCAGAGCTATCAAAATATCCCCTTTGATACTAGGAGAATCATATACCACCTTGCGAATAAACATGAGTAGGTTTCAACTCAT
CTCTTTGCTTTATCGCTCTTTAGAAGGGATCCTTCTTAACTGGCTTTTATTATATTTTTCTATATAAGAGAAAACAGTTTAAAGTAAAAAGACTATGACA
ACTAGAATGGAATTTTTTCATGTTTCTGGGAGAGCAAGACCTTGCCTACCATTCTGAGATAATTTTGTTTAATTCAATGCCTTATGGTTTCAGATTATAG
TGAAGTTTGACTTGAGTGTTGGTTTTAGCCCAGTACCTTTAAAGAAAAGAGAAATATCCCAACTTTTCTGCTACCATTACTAACCTAAGTAAAACAATTG
CCTTTTAAAGTTACTCCTAAGAATGTTGTGCCAAAACTTTGAGGTTTCTTGTCAATTATTTGGCTGGCATTTATTCTYCCCTCCTGAAACCGTGAAGAAT
GGCTTCAGCTTGTATCTAGTCTGTTTTACCAGCTTACAGGAGAGTGCCTTCTGGCACAAATAGTTTCTGCCTCAGTGCCTCCCTACTCCTAACCAGGTCA
TGACCTGACCCAGAAGGACCCATAGGATATCTAGTGCATGAACTTCCTGAGGAAATCAAGTTGGCACACCAGGATGCACAAATCTGAACTGAGGCATCAT
GCCTTGGGCTCACAAGTGAACTGCATGGGTCAGAGGCTTTGGGACTAAATTATCTCATTACATGTACTGGGGCCTTACTAAGTTACAGAGTCAGCAAACC
ACTTTTCAATCACCAGCACTATTTTATTTGGCCTGAAGTTGTCTTCTGCCCTTTTGTTTTCTAAATCAGGGGTTGGCAAACTTTTTTTTTTTAACAGTCC
AGATAGGAAAGATTTTAGGACTGCAGGTCATATGGTTTCTCTACTCAACTCTCATTGTAGGCAGTCATGGGCAAAACTAGACAAATGAGTATGGCTGTAT
TCCAAAAAAACCGTATTTACAAAAAAAAAAAAAAAAAAAAAAAAGAATAAAGGCAGGTCAGATAGTTTACTGACGCCTGTTCTAAACTGTTACAAGGCAG
AAGTTTAGAAAACTTTCTTCTGAAGCCTTTTCTTATATCACGGTCACAGCTTTTAGTGAAAGAGATTTGTAGCACATAGTGGAATTCTAACGTTTAGAGA
TTATGTCTTGGTAGGCTAATAATAGGACTGTTGGTAAGCTTAGCATTTACAAGGTTGCAGTTGTTTCCCTGTAGGTATTTGGCCAACAGAGGCCAACAGA
ACACACCATCACCAGATCAGTCTAGTGCCTTACTTATATCCCACTGAGCCACACAACAGGCATAATTACCTTGTTGGAGGAAGAAGTTAATGTACTTCCC
GAGTATTTCTAAAAGCAAGAACAGAACCCTTTATAAAGATAGCTAAATGTGTACTGGAAAATATATTTTAAAGGATATCTATTTTAAATGTTTACACATA
TAGAAGGGTCTTTTAGAGAAATGAACATTCCAATACATTTTGGCAATTTCACTGTTTAACCACATCCTAGTTTTGTCCATTGGTTTGCTTACACTATTTC
TTTTTTATTTTTTTTAATATTTCCTTTCCTTTTTAATATTAAACAATTGTGATTCTTTTTTTTTTGAGTGACTTCTTTTATTATTATTATTATTATACTT
TAAGTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTACACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGG
TATATCTCCTAATGCTATCCCTCCCCACTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAAT
TCCCACCTATGAGTAAGAACATGTGGTGTTTGGTTTTTTGTCCTTGCGATAGTTTACTGAGAATGATGATTTCCAGCTTCATCCATGTCCCTACAAAGGA
CATGAACTCATCATTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCC
AAGTCTTTGCTATTGTGAATAGTGCCACAATAAACATACATGTGCATGTGTCTTTATAGCAGCATGATTTGTAGTCCTTTGGGTATATACCCAGTAATGG
GATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGT
AAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGG
TTTTGATTTGCATTTCTCTGATGGCCAATGATGGTGAGCATTTTTTCATGTGTCTGTTTTCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTC
CTTCGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTGGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTT
GTGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCTATTTGTCAA
TTTTGGCTTTTGTTGCCATCGCTTTTGGTGTTTTAGACATGAAGGCCTTGCCCATGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTGT
TATGGTTTTAGTTCTAACGTTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAAGGATCCAGTTTCAGCTTTCTACATATGGCT
AGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGAAGATACGTGGCA
TTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTGGGTTACTGTAGCCTTGTAGTATAGTTTGAA
GTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGTGATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTT
TCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCTATAAATTGCCTTGGGCAGTATGGACATTTTCATGATATTGATTCTTC
CTACCCATGAGCATGGGATGTTCTTCCATTTCTTTGTATCCTCTTTTATTTCATTGAGCAGGGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCT
TGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTAAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGTATAAG
AATGCTTGTGATTTTTGTACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTA
GATATACAATCATATCACCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTTCTTCCCCTGTCTAATTGCCCTGGCCAG
AACTTCCAACACTATGCTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATG
ATATTGGCTGTGGGTTTGTCATAGATTGCTCTTATTATTTTGAGTTACGTCCCCTCAATACCTAATTTATTGAGAGTTTTTAGCATGGAGGGTTGTTGAA
TTTTGTCAAAGGCCTTTTCTGCGTCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACATTTATAGATTTGCGTATATT
GAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCAGTTTGCCAGTATTTTATTGAGGATT
TTTGCATCAATGTTCATCAAGGATATTAGTCTAAAATTCTCTTTTTTGGATGTGTCTCTGCCAGGCTTTGGTATCAGGATGATGCTGGCCTCATAAAATG
AGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGTTCCTCCTTGTACCTCTGGTAGAATTCAGCTGTGAATCC
ATCTGGTCCTGGACTCTTTTTGGTTGGTAAGCTATTGATTACTGCCACAATTTCAGAGCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTT
AGTCTTGGGAGGGTGTATGTGTCGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCGTAAAGGTGTTTGTAGTATTCTCTGATGGTAGTTT
GTATTTCTGTGGGATCGGTGGTGATATCCCCTTTATCATTTTTTATTGTGTCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCAGTCT
ATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTCCTCCGATTTTA
GTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCT
TTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGGATGTGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCGTTGGTTTC
AAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGAGCGGTTTTGAGTGAGT
TTCTTAATCCTGAGTTCCAGTTTGATTGCACTGTGGTCTGAGAGACAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCAA
CTATGTGGTCAATTTTTGAATCGGTGTGGTGTGGTGCTGAAAAAAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCCGC
TTGGTGCAGAGCTGAGTTCAATTCCTGGGTATCCTTGTTAACTTTCTGTCTCGTTGATCTGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATT
AATGTGTGGGAGTCTAAGTCTCTTTGTAAGTCACTCAGGGCTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCT
CTTCCTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGC
AACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCTTTTATTTTGAGCCTATGTGTGTCTCTGCACGTGAGATGGGTTTCCTGA
ATACAGCACACTGATGGGTCTTGACTCTTTATCCAGTTTGCCAGTCTGTGTCTTTTAATTGGAGAATTTAGTCCATTTACATTTAAAGATAATATTGTTA
TGTGTCAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGATCGTTAGTTGATGCAGTTTCTTCCTAGCCTCGATGGTCTTTACAATTTGGCATG
ATTTTGCAGTGGCTGCTACCRGTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCATTTGC
TTGTCTGTAAAGTATTTTATTTCTCCTTAACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGTTTGAAAATTCTTTCCTTTAAGAATGTTGAATA
TTGGCCCCCACTCTCTTCTGGCTTGTAGAGTTTCTGCCGAGAGATCCGCTGTTAGTCTTATGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCTCTGGC
TGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATTTGACAATTATATGTCTTGGAGTTGCTCTTCTCAAGGAGTATCTTTGTGGCGTTCTCTAT
ATTTCCTGAATCTGAATGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTGCCTGT
CACTTTCAGGTACACCAATCAGACGTAGATTTGGTCTTTTCACATAGTCCCCTATTTCTTGGAGGCTTTGTTTGTTTCTTTTTATTCTTTTTTCTCTAAA
AATCCCTTCTCGCTTCATTTCATTCATTTCATCTTCCATCACTGATACCCTTTCTTCCAGTTGATTGCATCGGCTCCTGAGGCTTCTGCATTCTTCACGT
AGTTCTTGAGCCTTGGCTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTGTATTGGTCATTCTAGTTATACATTCGTCTAAATTTTTTTCAAAGTTTT
TAGCTTCTTTGCCTTTGGTTTGAATTTCCTCCTGTAGCTCGGAGTAGTTTGATTGTCTGAAGCCTTCTTCTCTCAACTTGTCAAAGTCATTCTCCATCCA
GCTTTGTTCCGTTGCTGGTGAGGAACTGCCTTCCTTTGGAGGACGAGAGGTGCTTTGCTTTTTAGAGTTTCCAGTTTTTCTGCTCTGTTTTTTCCCCATC
TTTGTGGTTTTATCTACTTTTGTTCTTTGATGATGGTGATGTACAGATGGGTTTTTGGTGTGGATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGAC
AGGACCCTCAGCTGCAGGTCTGTTGGAGTTTGCTAGAGGTCCACTCCYGACCCTGTTTGCCTGGGTATCAGCAGCGGTGGCTGCAGAACAGCGGATTTTC
GTGAACTGCGAATGCTGCTGTCTGATCCTTCCTCTGGAATTTTTGTCTCAGAGGAGTACCCGGCTGTGTGWGGTGTCAGTCTGCCCCTACTGGGGGGTGC
CTCCCAGTTAGGCTGCTGGGGGGTCAGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGCCCATTCTCAGATCTCCAGCTGCGTGCTGGGAGAACCACTGC
TCTCTTCAAAGCTGTCAGACAGGGACATTTAAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCCCCAGAGGTGGAGCCTACAGAGG
CAGGCAGGGCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTCGAGCTTCCCGGCTGCTTTTTTTACCTAAGCAAGCCTGGGCAATGGTGGGCGCCCCTCCC
CCAGCCTCRCTGCCGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATCAGTGAGACTCCGTGGGCATAGTACCTTCCAAGCCATGTGCGGGATATA
ATCTCCTGGTGCGCCATTTTTTAAGCCCGTCGGAAAAGCGCAGCATTAGAGTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACCCCTTTCTTTGAC
TAGGAAAGGGAACTCCCTGACCCCTTGTGCTTCCCGAGTGAGGCAATGCCTCGCCCTCCTTCAGCTCGCGCAYGACGCACTGCACCCACTGTCCTGCGCC
CACTGTCTGGCACTCCCTAGTGAGATGAACCTGGTACCTCAGATGGAAATGCAGAAATCACCTGTCTTCTGCGTCGCTCATGCTGGGAGCTGTAGACCAG
AGCTGTTCCTATTCAGCCATCTTGGCTCAGTATTTCTTTTTTAAACCTGAATTATTTTCTGGGAGAGAGGCTCTTCCCAAGTGACCCAAAGATCATTAGG
TCTTTGGGTATTCAGTAGCCCTTCTGGAAGTTCATCTTCTACTTCTGGTTACTGTGATTTTCTGTGCTTCCACGACACTAACACGTAAACATCAAAGAGT
GGTCTCTCTAAGACAGCTTGAGGAGTGCACGAGCAGAAGTACTGGCAGGGCTGTTCATAAAGCCAATGCCAGAAAGCAGCTCCTCGCTGGCACATCCACT
TTGTACTTTGAGACGCAGTATCCAGAAGCCAGGATGGGCAATACCCAAACTATGTTACTTTAAGGGCTGAAGATCAGGCAGGGAACTGAGCCCCAGAATT
GTTAGACATTGTTGTGAGTGCAAAGTGAGCACTTTTGTCTTTCTTTCTGCTACTCATCTTACTTGATCATTCCTGAGTATATTAACCAAATCCTGTGGTG
TCTTAAAGATACCATGTGTGCCCTGAGAGGCTGGTCTCGGTCTAGCTTTCTGATTTCCTTATCAATTGGGTCACATCTGTATTTTCTGCTGACTCACTTA
TGTGTGTAAAAAACACAAAGGCATACTTTTTTTTTTCCTAAGCAGATCGGAACTTCTATTCCTTTTTTTTTTTTCCAGAAGACCTCTCTCGTGTACTCTC
ATCAAATGCTTGTCCTACATTTGTAATTATTCATTCTAGAAGCTGAGGTTGCCCCTAGCAACCAGCAGTTTTGTCTAAACTGTTTTGGTTTCAGGGTTGT
CTTAAAGGAGAGTTTCTCAAAATCCATTTCCAAAGAGCTTTTATACCCCACACAGCAAAACATGTATAAACAACAATTCAAATTTAGGGAGCTTAACAAG
GCCTTTCAACAAAGGTTTAAAGTGGTTTCATCATATGATTTATTTAAGATTAAACAGAATTTCTGTTACTAGTTAAAACGGGAGTGTAATTTGCTTTTAT
GGATTCCTATAGTTTCATTTAATAAAACTCATCCAATCAGATGCACTCCCTCCCCTGTGAAATCAGAGGCAGTGCCATATTTGTAAATGTGTTTCAGGCA
ACTCTCCAGGTAGTAACTGAGGGCTGGAAGAACGTACAGCATCCACCTGCCCTCACTGCCATAGCTGGCAGTGTTTTTTCCCCTCCAAAGCTCTGGAAAA
TACTTTATTATAMCTCACAGAGCCAAATGAGAGGCAATCAAACTGTTTTGTCATTTGAATTAGGAAAGGTCAAAGGGAAAGGAACATAATAGTAGACAGA
CAGAAAAGTGCTTTGTGAAAATTACCCATTTTTTCCAMGTAAGGAAAAGTAATTTGTTTTTTTTCAGTGCTAGAGATTTTTGTTTTGATAGATTTACAGA
GAGAAAAGAAACCACCAAGAATTTTGAAAGGTCCCATTTCCCAAACAAATATGTAACAAGTTCTTACCATTTAAAAGATGGCATTATAATCTCTTGCATC
TATGTGATCATTTATAAATTACGCTTTCGTGGACATCAAGTCATTGATGATAGTAATGACCCTGGTGGTYGCCAGACCATGTACTGTTTTCCTTATTTCA
CACATGAAGAAACAGAGGCTCAAAGAAGTGAAGAATGTACCCAAGTTTGCATAGCACAGCCCATAAGGTGCAGAGCCTGAACTTGGACTTCAGCCATGAC
TTCTATGACCACATACTTCTCTGTCACCATCTTAAATGTAGATATCTACTAATTTGTCATAAACTGAAGGACATACATAGCAGCATATTTAGGAATGCTG
GATAATCAGTAACATATAAATAGATGAAAGGAGAAGTTGCTTCAAGGTGCTTAGTTTAAAACACATATAGCATGGTATCAATTCTATACAATGGCCAAAG
GATATTGTGTAACCATGCAGACATCAGTTGTCACTAGTAATTCTCAATGTTTTATATTCACACTTTCTTGGTATAAAAATAAATATTTGTATTTGTTCAC
GAAGTTAATTCTATAAATCCTGCTACAATGAGTTTTAAAAAAATAACCAACAACACTTCACTTCAGTCATCTGTGTAATTTTCCTTTAGTTTGGGGCATT
TTCTAGGTAAAGTTTYAGCTAAACAATACAGAAAAATTAAAAAGTTCAGAGATCTTTTAATGATATGAAAAACTGTTTCTAATAATAATAAATGTTAAAA
TCATTTCACTATTCAAAAGACTGCGTTCAGAGCGGAGGCACCCTAACATACTACTCTAGGACATTTCTCACTGCCTTCATCTTCAAATAAAAGTGAGAAT
AGAACCCTAACCTTTGAGAGATGGAAATAATGCATGTATATGTCTGTTTTTATATCTTTCCCATGTGTATAGAGCTTAGACACTCTATATGTGAAGACCC
TCCAAAAATCAAGTCTGGCTTTCTTCTTTCAGGATAACCATTCCCGAAACACCAAGGACAGGGATACATCAGAATGGACCCCTACCTGTGCTATATTTAA
AGATCTCCAAGGATAGAGATTTTACGTATGTCAGTATTTTTTAACACTATCAGACAATGAGAATATTCCTGGCCAGGTCCACTTAGTGATTTCTTCATTG
AAGGATACAATTTAGAAGATTGGAGGARCAATTATAAAAGAAAGTAATACAATTTAGAAGATTGGGGGAGCAATTATAAAGGAAAGTAGCTGTAGGTCTC
CAAAAGTTAAAGTCCCTTAATCCCAGTTGCCTTAGTAGTTCTTGCATGAAAGCACTAAGGAAGGATCAATGACTGGGAGATGGGATGAATTCTGAATTGC
AAAAGAGACATTTAAATATTACTTGCAAACTAAACTCAAAGCACAAATAATTTAACACTGTTTTGTTTTAGTTTCTAAAAAAGTGGACTCTAATTCATTC
TTTCCTTGTTCAGGAGATAAAACTATTTGTAACCTTTAACATGTTCTTTTCTTCACAGTTGAGAGCTCAGTTTGTTAATACTTTCTTTCCCAAACTGTTT
TCTGAATGTATTGGAAAACTGCACCTGCCAGAATGGATTGGTGTTTGTTCTTCTTCAATGAAAGGTGGCTGTGATCAGGAGCTGCCCCTTTTAGAGAGCT
TAAGCTGCCAAAGCCTAATACAACAGAGGTGGAACGGAAAATGAGAATGAAGGACATATTCAAAAATTTAACAAATTGTTGGTGCCTCAGGCATGAAGCC
CATTGGTTTCCAAAGAATTTGGCAGAAAGATTTCTATCTTCTCATCTTGTAGGCAATTACCTTAATATGGCACACTTTTGTGATGGCTTTCATTGAAAGG
CTCTGTTTAAACATCTTTTTCTGAATCACCAAGATAAGAATGGAGCAAATGAAGGGAAAAAAAATATTCACTTGTACACAAAGCTGCTACCTTCAATTCT
CTGAAATTGTAGTTAATGCCTAATTATACTGACATTCCTATTGTACAAAAGTGTTGAGAATGCAAATATAATTTCCCAGCTAATTATTTCATTACATGGA
AGTGACATGAGTGAAGTAATAAATTAGCATCGTCTTTATAAGAACCAGCAATTCTGGACTTTATAATATTGAAATTTTCAAGTGGAGTGAAGTGCTTTTT
TCTTATGACTACTCTGATTAGGTGAAAAATGCCTTTTAAATTTATGTGTATAATACACCTCCTTCCTTCAGCAGATATTTTACCATTAATATAGGACAGT
GATATTTATGTGAGTACATTATTACTGAGAAGGAGACCCAAAGGATGTCAAAGGGCAGAGCTGCCAGCTGCGACAGTCTGGCTTGTACTGCTTTTCTTAA
ATGTGGTTCAAAGCAATCAGATTATGAATTGCAGTGAAATAAACTTACTTTTATTTTTAAAATACAACCACCATTAACAGCTCCCCAGTTAGAACAACTG
AATGTCAAATAATTGYATTCTCAAATTTAAACTAGAAAATAGTAGAGCTTGAGGAAGGGGAGTGGAAACTCAATAGTGACACATTGAGATGGGTTAGAAG
GTATTCAGTTCTCCATTTCTTTGATTTAAGGATCGTCAATTGTTAGTGGTGCGATTAAAATTAATACAAATTTTCAGGAAAAATAAAACTACATTAAATG
CACAGGGGTTTTTAAACTGACAATATCATACAGTGCCCAACACTTTTGTTTTTAGAATCAATCCATGTCTAAAATACCTTCAATCCAGAGTCTGCAGATG
TCTCTGAACCCTTTGGTCATTAGCAGTGAAGCATTGGCATTAAGGTGCCAGGCCACTTTGTGTCACCCATGCTCCTTGTTTTGACAAGGTGCTAAAGGTG
TACCCTTGTGGTTGGCAGCCTATTACAAGGCATATTGAACACGTTTTTCCTCTGTACTTTCAATTTGGCCAAGTTTTTTACACTTAATTTTTAATTTTAA
TATTTCTGTAAGCCATATAGCTTCTCCTGAAACTCTAAGGGAGCTTTTGGCAAATTGCTTAGTACCTGAGTGGGAGGCCTCCATGATTCATGGCTGGCTA
CACCAGTCTTTGCTCACCTTGAACACTCTAGAGTCTATTCTGAAGATTTGGCGATTTCTATTGTTTTTCATTGTTTTGCCTCACACATGAAAATCAATCT
TCTGTGTACATCAAAATATAATGAAGAATTTTAATCAATAATTATGGACTGTAATTTAAAATTTAATGATCTGTGTTGATACCAGTGTAAATAAGTGAAG
TGTAAAATACATTATCCAGGGCCCTTTCTGTGTGATGAAGTTTGCATGTGGACAAACAATGACAATGAATATATGAATACAATACAATGAATATGTTTGT
TTATTTGCCTAGAATTTGGTAACTTTCTTATGGAATGCATCAATAACAAGATACATTCCAATTTCCAAAATGCTAAAAAAGGAGAATACTGTGATTCTTA
CATTTAGGGAAATATGGTATTTTATCTTTTGAATTTTATACTGGCAGAAACAGGAGATGCAAAAAATCAGAAAAACAAGCCAGACGTGGTGGTGCACATC
TGTAATCCCAGCTACTTGGGAGGCTGAGGCAGAAGGATTGCGTGAGCCCAGGGTTTGTGATCAGCCTGAGCAAYGTAGCAAGACCCCATTTCAAAAAAAT
TAGAAAAATTGTGCTTAAGTAGCCTTTTGGTCCTGATTTGCTTGAGAGTCCAGCTTGTACCCATTGTCCTGACATAATCATTAATAGAATCCCTTTTCAC
TCTCAAAAGTTTCCTGGCCTACATAGCAACTTAAGTAATGGTTACTCTACTTATTAGTCACTTTTGTTGGTAATAACAATGCCTCGAGAGAACAGAATAG
CTTGGTATATTATAGCCCTTCAAATAAATATATTAAATTTATATAATCCTCAGAACAACCCTATTAAATAGCCCTTTCTTTTTGATGAGGATATGAAGCT
CAGTGAGATTAATGGTTGCCAGGGTCATTTAGCTATTATGTGACAGAACCAGTACTCCAACCCACAGGTCCAGGGCAAATTAATTCCATTGAGTTTAATA
ATAATAACACTATGAATGATCATCATAATCACCATTACTACCTTACTAATAAAGCTACCATTTGCCCAACAGAGGTTCTTGACCATTGCTGTGCCACAGG
CCACTTTGGTAATCTGGTGAAACCTATGGACCTCTTTTCAAATAATATTTTTGAATGCATAAAATAAAATGCATAGTATTACAAGGATATGAATTTTATT
AAAATATAGTTACCAAAAATTTTAAGCTAAATTTGCARTATAGTTATATATGTGGTTTTCCAAATGAATTAAACAAGATCTTGAAGGATTATTTAATTAT
GACTATGATATCAAAGTAATGATGAACATAAAGAATACTTAGAGATTTCTGCAACAAGTCTAATGTGATATGAAAAGATCTATGATTTCTACCAGCAACA
AAGTGACAGGTTTTGCTAATACTACTGAAGTTTGTTGCTTACATTCATAAGTAAAGAAAATTCTAAATTTTACATAGAGGTTAGTAAAAATAAAGATGTA
ATTTTTTCCCATTCAAGTTCACAGAGCTCATCCAAGTGTATCAACCCCCAAGGGACCCCGATTAGGACTTGCTGCCTTGGAATAAACCTGCAAAACAACT
ATTATTCCCATTTTACAAATGAGTAAACTGAGGCTCAGAGTAATTAAGTAACTTGCCTAATATTATTTACCTTATGGCTGAGAAGTGCATCAAATGGCAT
TGGCACTTGTACATCACCTCCTTTTGCTCCCCAGTGGCAAGCACTATAGAGGTGGGTATTGTAGTGTCCACCCCTCTCTGAGACTGACAACCTTTTCAGC
ATGGTTGCCCTAGTCACTTGCACATCCTTTAAACACCAATGATGCCCTTGATGGAGAACACAGATATCCAAAGAGAAACTGGAGGAGAGGTCTGAGTGTC
TGACTAATGCTTTTTATTCAACCCTCCTTGAGGATTTCTAGTGTTCAGTATCCCGTCAGTGGTCCTCACATGGCTCCCCAGAATGATCATTATTCCCGAC
ATATTTGCTGCTATTTTCTACCATAGCTATTTTCCTCTTCTACCTTTAGGTGATTATTGCTGCTACTTATTACTATTCTCAGATGAAGGAAATTGTTTTT
CTTCACCTCCCTTAGTTCAATACAGGTACCTATTTGGATTTTTTCAGTAATTGCTATAATTCCTTAGCCTCTCTTTATCTAAACTATACCCATTAAATTA
TGTTAACTCTTCTCAAAGCTAAATTGCCTCATCTGTTTATTATTTTCCTCATCTTGCCTGAATATTTTAAAACTTACAAAATATGTGAAGCGATTGTTAA
AAATCTAAGTAGTCCCAGGACACATTTATTAGTTACTGTAATTGAGTCTTACTGATTACACATGCATTATAAGCCTCATGATGTGCTAACTTTAGCACAA
CAAAGATACAGTTTTAAAATATTATATATTTAATATTTTTTAAATTCTATGTTGTCAGTTCAGTTACTGTTGCTCATCTCCTTCTCCTCCTGAGTAATGG
CCAAGTTATTTTGGTGAGTCTAACATATGGGAGTCTCATCTTTGATAGCAAAATGATGATGACATATAGTCTACTGAGAATATATTCAGCCCTGTTTTCA
CCTGAGAAGGAGGAGATTTTGCCACCTAGCCTCCAAAATAAGAGCATCTTATTCCATTATTGAAGGGACCTTTGAAGTTTCACTTGTATTTTGATAATTT
ATGGCCACTTCTTAAAAAATCACTATCACTCTATATATCCTCCTGGAAAGCATTTGTTTTAGCACTTATAATGGATGTTGTAAACATTTGTATATTATTA
AGTGCTTTATAACATACACAGTAAAGATTCAGCTAATAACTTTAATTGTGGAACTGTAGGTTTTCTTGAGAACATTTTTTTAAAAAGGAAAACAGATTCT
GAAAAACTGATGTTATTTTATCACCAACATGAGTAACCACATCATCATCATCAACATAATCATTATCTTCACCACCACCACCATCATCCAAAATGGCATC
TAGTTACATGCTCGCATGGGTTCACATATACAAATATACACACATATGTGTTTAAACACACACATACATGCATATATTTATTCATTCAGTCAGCACATGT
TTACTGAGAGCCTACTAAGTGCCAGGCAGTGTTTTGAGGTCTGCCCTCATCTTGCTTCCATTCTAGTGAATCAAGACTGATAATAAATTGGATAAATAAG
TAAAATTGTATGTTAGATGAAAATAACTGCTAAGGAGAAAAATAAAACAGGGAGCAGAGATAGAGTACATGAGGAGGGGGCTGTTTTAATTTTTGATAGA
GGGGAACAAGGCAGACTTTATGGAGGTGGTAATATTTGGTTAAGACCTGAAAGGATGAAGAGGAGAGCCACGTGGATACCTGGAGGAGAGCATTCTAGCG
AAGATGGAGAGTTGTTCCAAAGGTGCTGCTGGAGGCCATGCTTGACATTCAGGGGATAGGGAGGAAGCCAATGTGCTTGAAATGGAGCAGTGAAAGGAAA
GCAGTAGGACAAGAAGTCAATATAAAGAAGCCCAGGCAGAGTCAAGCCCCATGGGCCATTTTCTCTGAGTGAGGTTGGAACTATGGGAGGCTTTTGAGCA
TAGGAGAAACATGATCTGAATCAACTTTCTAAAATAATCATTCTGGCTGCTTGGTTGAGAACAGACTAAAGGGGAACCAGAATGGAAGAAAGATAATAGC
CTAGGCAAGACAAGAGTGTAGTTTGGAACAAGATGATAGCTGTGGAAGGCATAGCAAGTTGTCAGGCTGCAGATAATATTTTAAGGAAGGAGCGAACAGA
ATCTGATGGTGGATTGCATATGGAGTATGAGAGAAATAGAGGAGTYAAGCATAAACTGACAGTTTGGGGCCCAAACAACTGAAATGAGGGGAGTTAGGCA
GGGGGAAAAGGGGGAGATAAGGAGTATGGGTTTGAACMTGTTAAGTTTGAGATATCAGACTTTCATGTGGAGAGGTCAAGTAGGCAGTTTGGTAAAAAGT
ATAGAGTTCAATGAATTGACATTTCTCAAAAGAAGATATACAAATGGCCAACAAACATATGAAAAAATGTTCAACATCACTAATCATCAGGGAAATGCAA
ATAAAAACCACAATGAGATACCACCTTACCCCTGGGAGAATGGCCATTATTAAAAAATCAGAAAACAATAGATGTTGTCGTGGATGTGGTGAAAAGGGAA
CTCATACACTGCTGGTGGGAACGTAAATTAGTATAGCCTCTATGGAAAACAGTATGGAGATTCCTCAAAGAACTAAAAGTATATCTACCATTCTATCCAG
CAATCCCACTACTAGGTATCTGCCCAAAGGAAAAGAAGTCATTAYATCAAAAAGACACCTGCACATGTACATTTATCACAGCATGGTTCACAATTGCAAA
GATATGGAATAAACCTAACTGTCCATCAATAGATAAGTGGATAAAGAAAATGTGTTACATACATACCACGGAATACCACTCAGCCATAAAAGAGTGAAAT
AATATCTTCTGCAGCAACTTGGATGGAACTGGAGGCCATTATTCTAAGTGAAGTAATTCAGGAATGGAAAACCAAATACCACATGTCCTCACTTATAAGT
TGGAGCTAAGCCATGGGTATGCAAAGACAAACAGGGTGGTATAATGGACACTGGAGACTTAGAAAGGGGGAGAATGGCAGGTGAATGAAGGATGAAAAAC
TACCTATTGKGTATAATGTATACTATTCGGGTTACGGGTGCACTAAAATCCCAGGCTTCACTGCTATACAGTGCATCCATGTGACCAAAAAACCACTGTA
CCCCTAAAGTTATTGAAATAACAAAATGTTTTAAGTATAGAGTTCAGGGGGGAAGTCTACAGATAGCCATAGGCATGGAGTTTTCTTCATATAAATGCTC
CATCTGAATGGAAAATAATAGTTACCCTCTCACAACACCCCTGTCCCCCTGTCCAATGGAAGCTCAGCTTCTATGTTTTCAATGCTGTGATTGTTGGTTT
TGCTCTCCAGGGAATATAGTGCCCTTAGAGGCTCTGTCTCTTCATCTTGAAGATCCCCTGGTCCTAGGGTCTGGATTCTCCACAAGCCTCCTTTATCACA
TCATCATGAYCCTCACTGGAATCAGTCTCTCTGAACTGTTTTCTTCCTCCTCCTGATGTCTCACTCCCCTCTCTCCTTTCTCCAGGGCTATTGTTGCCAC
CAGTTCCTAAAGCCATTGGTTGCACCACCTTTCCTTCAATAAGTCAGCTGATGTAATTGGATAGAGATGGTTTTGTGGCTAACTTTTTCAGCCTTTTGAG
GTTCAAGTCCATATTCTGTAGACAACTTGAGGCTTCTTTAGTCATAAAGCCAAATAAATAATAACTCAACTCTCACCTTCAGATTCTCCCTGACCAAGAT
CATTTCTCCCATTTTCTAAATAGGCTGAAGGAAGGCAAGGGCTGAAACGGAGACAGGATGCTACTGCAGTACTCCASGTGAAGGCTGGTGGTCGCTTGGA
CTGAGTCAGAACAGGGAAACTGATGGGAAGTTGTCGGAGAGTAAGTCTATGTTGAAAATAGAGCCAACAAGATTTGTTGATAGATTGCATTTTGGGTGTA
CAAGCAAGAGAGGAGTTCCAGAAGAAACCAACTCTACCAGCACCTTGATTTTAGCCCTGTAAGGCTTATTTCAGACTTACAACCTCCAGAACTGTTAGAG
AATAAATTTTTAGGCCGGGCACAGTGGCTCATGCCTATAATCCTAGCACTTTAGGAGGCCAAAGTGGGTGGATCACCTGAGCCCAAAAGTTCAAGACCAG
CCTGGGCAACCTGGYGAGACTTTTCCTCTATAAAAACACAAAAAAATTAGCTGGGCGTGGTGGTGCACCTGTAGTCCCAGCTACTCAGGAGACTGAGGTG
GGAGGATTGCTTGAGCCTGGGAAGCCAAAGCTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGGCTTGGTGACAGAGTGAGACCCTATCTCAAAACAC
ACACAYACACACACACACACACACACAAATTGTGTTGTTCAAGTCAGTGACTTTGTGGTAATTTGTGACAGCAGCAATAGGAAACTAATACACAATTAGA
CATCTAAGTGGAGGTACTGAGTAGCTGTGGGATATGAGTGTAGAATTCAGGAGATGCATGAAAATATGAATTTGGAACTCATCACCATACAGATTTATTT
AAAACCATGAGCCTAAATAAGGGTTCCAACACAGTAAGTGTGATAGAGAAAAGAAGAGGCCTTTAGTCTGTTTCTGAGCACCCCAATTTCTATTGGTCAG
GAGGATGAGAAAACCAGCCAAGAAAAATGAGAAGGATCATCCAGTAAAGCATAAAAAGAGCCAAGAGTCTGAGGTTCCAGAAGCCAAGGCAAGAATGCAT
TTCCAGGAGTAAACAAATGTCAAGTGCAGCTCCATCACAGGTTTGAAATTTGGTGCTCACTAATGGTTTCCACTTTAAATTTTTTGCTAATGCCTACAAA
AATTCTAGGAGGGACAACCAATGTTTGAGAGTGAGATACTCTACAGAACATGCTTATATTTATCCTTTTAGAGATTGCCTAAGCTCTGATCCTCTCTTGG
AAAGCTACATTCTGGACATTAGTTGGATGCTTAGAATAAAGTCATCTGTTCATTTGACAAGTATTTTCAAGTGCCCGTTAGCTAGGTTCTGAGAATATGC
TGATGAACTAACAAGATCCCTGCTCTCATGGGAACACTTTCAGTCTAGGGTATTTGCTGAGGCCAAACATCACCTCTTTTATCAAGCTTTTGCCAACATT
TTTCAGTAGTTGCTTTCCCTTCTTTGTACATATTCATAGAACTCATCACATTTAATGTATTAGCCAGTTATTGCCTCTGCTGGTAAACTCTCCCCTCCTT
TAGGAAAGCAACCCTATCTTAGTCATCTTCATATATAGATACCCTCATATGTAGGTTGGAAATATGATTTATTATTAAAACCAGGAAATGTCTGCAAGAG
AAAGGAGGCTCTGTTAATTAACACCAAGACAGGGGATGTAAACTGGGACTTCCTAGGGCAAACAAAAATGTATAGTCACCCTATCACTCAAGTTTACGTC
AAAATAACTGTTGAATAAATACATTTTGCTTCCTGAAAAAACACATTTACTGAAATGTGACTTAATATTTTGCTTTTGGCTTTAATTGAGGATCAATATG
TAAGAAATAGTGTTAGGAAAAGTGTTTCTGCATCTTTTGTAAAACTGTTATTGGAGACTGTGTCCATTATTTTGTCCAGCGTTCCTCATATAAAGAGCCA
TGTAATTACTCCCCTTAGAACTGAGCGCTAGAAAAAAATATTGCTTTTTTCAAGGAGATGGTGGTGCACTTTCTCTTCCTAGATAATGAGAGCTCAGTAA
TACATCAATCACGCTCTCACATTGGCAGCCACAAGCTAGAGCTAAATTATATCCTCAAGTTGCTTTTAAGGCTGTGTCAAAATGTTCCAAATTGTGACTT
TTCCTTTGCCTTAAACATTTATTGTTCACCTACTATGTGCTTAGTTCTGTTATTTAATCTAGAGATATGGCAGAGATCCACACACGTGATTCCTGTGTTC
ATGGCATTTTCTTGGTTCTAGCACATTTACCTACTCTTTTAGTACAGTATTTGGACATTTTCTTGTAGAGAGCCTTAAATTTTTGCAGGAGCAAGGCAGG
CATTTAAAAAAAATTGAATGAAGTGCAATAGGCCAACAAATTAGGGAGGGGTATGGACGGTAGTCACAGAAGGCTTGGGCAGAAGTAGGGCATGAAGTCA
CTTGAGCAGACCAAGGAGCCCTGAAGTTCATATTTTGGTACTTTTGTTTTTCATAAGGTTTCAAACCTGCTAATTTTCTTTTGAAAAAGAAGAAGGAAAG
GCCCGCCTAAGAAAATATAATTATTTCTAAAGTTGTGGTTAGCATCTTTACTAATATTTGTAAAGAGTACTTGATCAAATAAGGCATATGGGGATACTGT
CACAATCCAGAAATGCTGAAAGTGCTTGTCTGTAGGCTAGAGAAAGAAAAACCCACAAATTGGGTTTTAATATGATACACCCTATACACCCTAGGATTGA
GTAAATATTTGGGTTCTAGAGTATAGCGTAGTCTATTTTTGCAGGACAAGAAAATGATGAGTACTATTTTTTTAAAAAATAACCTGTCTACTTATGGGTA
GATGAACTTAGCGGTCCATTATAACCTTAGAAAGGGACTTGAAGAAGCTGCTGCAGTCTTCCCAACCAAGAGAAGGACATTAGAGGTCAACCAGAAAGCA
CTATCTTGGCTGGAACAACAATGCCATCAAAAACAAGAAACACATCTTTATGTGTTGGTTTATTTAGCATGTCACAGTGTTAAGGGAAAATGGTCAAATG
AAGGAAAGGTTCTTCAGGCAGGCAATTTAGTTGTTACCTTTTGAACCTGGAGAAGAATAGTAGTGTGGTGGGTATAACAGGAAAGACTGACAGATAACCT
GTTAGAAGAGGGGACTGAGAGGGATAGAGAATGAAAAAGGCAGGGAAGTCTGCTCCTACAAACCCAGCTATGTTGGCACTTTCTCTTCTACAACTGCATA
CTGAAATGAACGTGAAACCAGTAGCATGAAACACTTGACCAATACATAGCATTAAAGGAATCAAAATTTAATTGTGAGCTCTTGAGTCCCACTACTTCTA
TTATTATTATATTGCTTCCACATGAAAGAATAAAATTAGAAGCTGAAATAGATATCAATTTGCTATGTAAGCCTTTTTTTAAGTCATATCTACCGAATAT
CCTGGATATTGCATTTTTTAAAAAAGCATATCAAATGCAGTCAGATTTGCTATATAATACAAATAAAATTACTCTTTTTAGCTAATGTTTATGCCACATT
TTTAGCCTTCTGGCTCACTGTTATGACCGTAGTGTCATTTATGCAGGGTTCGTGTGTTTTTGGTAAGCTTAAGAGTTATCCACGGACCTTAACAAGCACA
AGAGGAGAATTCACTAAGATCTAGAGTGCTTCAAATGACATTGCAAACATTGGACTGCCTGAAAACATAGGTTTGTCTCAGAACAGAATACCTCTGTGCA
CACACACAGAATGATAGGTCTGGAAAGGGATCTCCARTGGCTACTCATTCTGTTCCTGTCTCCAGGTACGATGGTGGCTAAACCATAGTAGGAGTGCAGT
GACAAGATGGTTAGATCCACAGAGGCTCCTGCATGTGTTAGGTTTCCCGCTCTGTCTGCAATTTTGGTACTAATGTAACTTACCCAAGACTGCCCATTTC
CCCAAGCTGCAGCCAGTTGAGCTATCAAATAAAATAATTTATGTTATCATCCCTTTCCTGGCTCTCCCTTGGGTGCCCAAAGCTGTTCAAAACTGAGTGC
TGGAGACTGAAAGTAAAGGTCAAAAGGAAAAGTCTGAACTTCAGGGTAGATCTGACCAGAAAATAAAGGCTGTCTTTCTACCTTGCACAGCAGAGGAACC
TTCTTTACCTATCATCCAATCATGTTAGTTGTTTGAGCTGAAGCTCTGTAAAGAAATCACCTTCATCCACAGAAACTGGGAATTCCAGGGTCACTGGCAG
AACTGCAAAACAGGATTGCAGCAACTCAGCACACACATTGTAAGATGATTTGCTTTTGAGAACTTGTTTTGAGCCTACCACCTGACCAAACAGCATCACC
ACCATTATCTGTAAAATATTTACATTTACAGGGCAAGAAAGAGTTACTAAAATTGATTGCCCTGTGTCAGTGTGGAGTTTACTTCTTTGAAGAATAAATT
GAGGAGGCTACATGATTAATTCAAATAGTTAGGAGTCTCTTTTCTTTCCACTTGATCTTGAGACTTCAATGTCACTTTAAGTCAAATTCAAAGACATGTT
GAGAAACATGAGAAAATACGTTTATTTCATTTATTTTTCCATGGTGGTCTCATAAGTTATTTTTTCTAGGTTATGAGAAGATAAAAAACTTTTAAACAAA
GAAGCCAAATTTGGAGAGAAAGGAGCTATTATTGAACTTGGGTCTATGTTTCTGAAAAGTAGCCTAGAATTTTATAAAAGCAAAAAACAAAAACATCATC
CTTGTGTTTATATTAGGAAGTATTTTAAAACATGCAATATGTATTTTAAACACTTTTCTTTTGAATCTTGCGTTGCACCCAAAGAATGCTAATGGTAACC
AAATTGTTCTTTGGCAGAGTAGCCTGACCCTTAAAAAAAGGAACAGAAGTGTTACAGCATGTGATTGTAGCACAAGACAATTATGAATCCTCAACCCTGA
GCAGATATTAACTAATCCTATGATCTGACCATAAGAGGTTACCTTGGAGCATTCCTCTACATTGCATTATGTATATTACATGGTAATGAATGWCAGTTTT
CATGGCTCCTAATAATGAGCWGCTTCTCTTTATTTAGAGAACAAAATAGGGGGTTTACAGATAATATCTGAGTTTATCATTGAGCTGCTCAGCCTCCTCT
TCTATGTGCCTCAGCTTGTCTCAATCAGTGCTGGTTATCTCAGCAATAAAGCATTCAGCCTCTAGAAGTTGGTTTCTTCCTACACCCTATAAACAAGAGG
ATGAATATCTTGTTACATGTGCTAAAATGAGTTGGGTGAAATGAGCATTACTCTGCTCCCTGTCACTAGCTATAATCAGCTTTTCAAATCTATACTGAGT
GTGTCCCCACACATAGCACACTAAGGAATAAGGATGTTCGTGACAATATATTCCTGAGAAGCAGCAGTTCTAACATCCCAGTGACAGCTATTCATTCCAG
TTTCTTTGTGCAGAGACATTGTCCCAACTCCTTCACCATGTGCTAACAATTAGATAATGACTCCATAAATGTAGAGAAAAAGCAGTGTCATGGACGGTGG
GTRGTTTGTTTTCTTAGTTCTTTATTGAAAACATATGGAGATGTTTATATATAAATAGAAAACAATAAAACGCTGCCATCATGTAAGCAGCAACTTAAAA
AGTTCTACACGAATAGAAATCAAACATTTCTATACCTATGCCAGAATTCTGGTTTACTGATATCTACACATCCTGTCTTATTTGGCTTGAAAAGATGTTT
TATTATTTTAGGCTTTTTATTTATAGTTGGAAGCAAATTGTGGAGCAAGAGATTTTTGTTTTTGTTTTCATTTCTTTCTTGGCTTAAACAAATTACTTTT
TTAGCAGGAACAACAACTTCTGTCCAAGTATACCTTGTGTTATGATCATGAAAAAAAGTTTTTAATGTATACATTTAACTACGGTCTTTGTATTTCTGAA
TTAAAAGTGAGGACTTGTGGCCTGACAGAAGTGACTTTCAGGAGACCCAGCAGTGGAGAGGTTGAGAGCACTGCTTAGGAGGTAGAAGCAATTCCTCTGG
GTTGGAATTCTGGCTGCACCACTTAACTAGCTAGGTAACCGTGGGAAAGTTAGTCAACCTGACTAAACCTCAGTTACTTCATCTGTCAGATGAGAAATAT
AAGAGCACTTAAAGAATGATCATGCACACTCATGGGATGAGCTGTAAGACGTTACACATAGTGTCTGGCTCGTAGGAAACATCACAGAAATGCTGCCTAG
CATCGTTGTAATCAGCTAACAGAAGGGCTTATATTGAGACCATCCTTGAAAATCTGAGAAGTGTTGATGCTCAGTGCCAAGAACAGTAACAACAGTAATG
CTACTGTTTACCAAGTGCTAGTTATGCCCTAGCCTTTACAATGTACTGTTTTTGACAATTCCATGAGCTGGGTACCATTATCATCCCCATTACAGCTAAA
GATTGGTTGATGTGAGGGTCAAACCCAGTCTGGATCATTCAGAAGCCCACACTCTTGATCTCTCTGCTAAAATGGCTGCCACATATATAGCCTAGGGCAC
CTTTGAAACCTTCTTTATTTACACTATTCTCTATGTTCCTGTCAACATCCTGTGACATTGCACAATGGCATTCACAAACTGTGAAGTCCCCTGTCCCTAG
GACATCTGTTCATTTGTAGTTAAAGAGGACCAGGAAACACTTAATGAACACATTATTAGAAGCCCTGGTTTTCAATTCATGCAACCATTTTTGCTTTGGT
TTAAAGGCCTTTTCTTTAAAGGTGCTTGAAGCTTCATATGGACAGGCTCATTATTCAAGCTTTTGTCCCAACCTACAGATGCAGAAGCCAAGGACCAAAG
TAACATGACTTGGGGACAGAGGGAGAGGCCATTCACCTGCCTTGGTAGCCCAGTGTATCAGTTGCTGAATCAGGAATACAACAGACTGAGCCCAGGGCAG
TGTCCAACTCATCAGGCTGCTCATTAATGTTGGGTCTAACAGCCAAACTGCTAACTAGCTCCACTTTTTAAAAACTTCTATTTTAAGTTCAGGGGTACAT
GTGCAGGTTTGTTACATAGGGAAACTTGCCTCCTGAGAGTTTGTTGTACAGATTATTTTCTCTCCCAGGTGTTAAGCCTAGTACCCATTAGTTATTTTTC
CTGATCTTCTCCCTCCTTCCACCATCCACCCTCTGGTAGGTTCCAGTGTGTGTTGTTCCTCTCTATCTGTCCATGTGTTCTCACCATTTAACTCCCACTT
ATAAGTGAGAACATGTGGTATTTGGTTTTCCATTTCTGACTTAGTTTGCTAAGGATAATGGCCTCCAGCTCCATCCATGTCCCTGCAAAGGACATGATCT
CATTATTTTTGTGGTTGCATAGTATTTCCTGGTATATATGTACCACATTTCCTTTATCCAGTCTATCACTGATGAGCATTTAGGTTGATTCCATGTCTCT
GTTATTGTGAATAGTGCTGCAGTAAACATACACATGCATGTGTCTTTATAATATAGAATGATTTCTATTTCCCCTTAACTGGTATATACCCAGTAATGGG
CTTGCTGGGTTGAATGGTAATTCTGTCTCTAGGTCTTTGAGGAGTCGCCACACTGCTTTCCACAATGGTTGAACTAATTTACACTCCCATCAACATTGTA
TAAGTGTTCCCTTTTCTCCTCAACCTCACCAGCATGTACTTTTTTTAGTTTTTAATAGTTGCCATTCTGACTGGTGTGAGATGGTATCTCATTGTGGTTT
TGATTTGCATTTCTCTAATGGTCAGTAATATTGAGCTTTTTTTCATATGCTTGTTGGCCACACGTATGTCTTCTTTTGAGAAGCCTCTGTTCATGTCCTT
TGCCCACTTTTTAATGGGGTTGTTTTTCTCTTGTAAATTTGTTTAAGTTCCTTATAGATGCTGTATATTAGACCTTTGTCAGATGCATAGCTTGCAAAAC
TTTTCTCCTGTTCTGCAGGTTGTCTGTTTACTCTGTTGATAGTTTCTTTTGCTGTACAGAAACTCTTAATTAGGTTCCATCTGTCAACTTTTGCTTTTGT
TGCGATTGCTTTTGGCATCTTTGTCATGAAAACTTTGCTAGTTCCTATGTCCAGAATGGTATGCCTAGGTTGTCTTCTGGGTTTTTATAGTTTTGGGCTT
CACATTTAAGTCTTTAATCAATCTTTAGTTGATTTTTGTATGGTGTAAAGAAGGGGTCAAGTTTCAACTTCTGCATGTGGCTAGTCAGTTATCCCATCAT
CCTTTATTAAATGGGGAACCGTTTCCCCATTGCTTTTTTTTTGTCAGCTTTGTCAAAGATCAGATATTTGTAGGTGTTCAGCCTTATTTCTGGGCTCCCT
ACTCTGTTCCATTGGTCTTGTGTCTATTTTTGTACCAATACCATGCTGTTTTGATTACCRTAATCCTGTAGTATAATTTGAAGTTGGGTAACGTGATGCC
TCCAGCTTTGTTCTTCTTGCTTAGGATTGCCTTGGCTATTTGGGCTATTTTGGGGTTCCATATGAATTTAAAATAGTTTTTCTAGTTCTGTGAAGAATGT
CATTGGTAGTTTAATAGGAAGAGCATTGAATCTGTAAATTGCTTTGGGCAGTATGACCATTTTAATGATATTGATTCTTCCTATCATGTAGCTCCAATTT
TAACCTACACAGTACATGACTAGAAGCACTTTGCCTGATTTTCTTGTTGGAAGAATGGGATCTGCCTGCAATATGGAAACCCTCACAAACAAGATGACTC
RATTCTGTTTTCATTTGCAAGATATATTGTGAATGTTCTTTTCTCCTTTTTGCAGGAGAGGGAAAGGGTTTAGGGTTGTGGGTGTGGCAGGGCATAGAAG
GGAAGAGGCTTAGGACTGCCAAATTACATGTCAACCTGCTGACTTAGCATCAGTGTACTAGTTAAATGAGCCCTGAATGTAAGACATTAATGCAAATATT
TTGCATATTATTAACTCTAATGATGCTACCATAATGCAGTATCCTCAGCTGAAAGCTGAGGTGGCATTTTTTATTATAAATGCCCTGGGTCTTTCACTGA
AAATCACCATGAAGACAAGTCCCTTAGAAGTGAGAGCAGAAATATGAACAGAGTTCTGCATCGTTAACCTTCTCATCATTAACAATAACAAAAAATATTG
GTGTCCCAGGGCCCTGCATTCAGTAAATGCCGGCAACATCTTTCTTTAGAAACTATCACTGCTCTTGCCCTTATAACTACAATATACTTCCAAAGCAAAA
GGTTAGGCAATCATTGTAAAATGGAATCTGTTTTAGAAAAAAATACTATGCAATCCCCAAATTGTTATGTAGGTGGAAAATCATTCTAAATGCAGAACAA
GTATTGCTTACCCTCCAGTGCCATGCTAGTGATGGTAGTGTGGAGTCTTGGAAAGCAGAGGGTTTCAGAGCCAGCGCTACCATTTGCCAGCTGTATGACA
TTGAGCAAATCGCTTGACCTCCCTGATTGTCAGATCCTTTCCTATAAAACAGCAACATTAATAATACTGCTTTGTCTATTTTATGAGTTGCCAAAGAACA
CCAAAGGAGATTGCAAATGTGAAAGCTCTCTGGACGCAATGTACAAATGTTATTATTGATTTTTTACTAGGTGAGTAATGAGGAATGAGTAGCAGTGTTT
GTCCAAGGATAGCTTGGGAATAAGTCAACCAAGGTGGCAGTTGGTAGGTCTTGAAGATGTGGTTGGCTCCTGGGAAACAGATGAGCTGGCCAGTTTGAAG
GATCTTAAAGTTGCAAGTTTTCGGGCTGGGTAGCAATTTAACTGTGCAACCTGTCAAGAGCCTRTTATATTCTAAATTTGTGCCGTGACAATATTGGCTA
CATGAAATAACTGTGTGCTTTCTTACCAGACTTTATTTGGAAAGAGTTTATGAACTAGTGGCCTGGCAGCGTTGCCTGGAATTAACAGTGCTGTGGTTTT
ACACCAGGGAGAGAAGTGTTTCATGCCTTGTTCTATTACCTCCCTCCCTGGAGATTCAACAGATGGAACAACAACAAAATCAGAACCCCAAGACAAACCT
GTCAGCTTGATGCCTTTAAGCTTCGGCAGAACTCACAATTAAGATAAGATAGAATATCCATTTAGAGGAAAGAGGTGCAAAGAAATAAGTTCACAGAGCA
TACCTTCTTTTGTCTGAGCATGGCTAATACTATCTGGAGATCCCTGCCACATAGGAGGAATTGTATACTGGAACACAGTGAACACTTAAGAAAATTAGTT
GAAAGAATATTATTGCTAGTAGAAATAACTGAACATCTTTAATATGGGGCTTTATATTTCCCTTCATTATATTTTTTTAATCCTTTCAAGCCAACTCTTG
AGTTTGGCAAATCCTAGGCTGAGTAATTGTGCATCTCAGAATGGTTAGATAATATGCAGAGCAGACCTTAAGTCAGGCACAGCAACATGTGTTTTGGCAC
AGCCGTAAGGAGGTAAAGTATTTGGTAATTGTTGTTTGATAGTTCCCAAGGAGAAAGCACTGAAGCAACAGATAAGAACCAAACAATTTTCTCTTGTGTT
TAGGTAAATATTTCCAACTACAGTCTGGTGATGGAGTCTGACGCAGGAACCTTCTTACCCACTGGGCTGCAATTCACTGGCAGTGAAAAGGCCAGGGCCA
TCATGGAGGAGGTTATGAGCCTGCTGCAGCCCCTCAATATCACTCAGGTCCTGAGCCATGGAGAAGGGACAGACATCAACTTTTGGATCCAAGCTGGAGT
GCCTGGTAAGACCAAAAGATGAAGTTGTGTTCCYTATATATTGCCAACAATTTAAAATAAAATTTCTGTTTTAATAGAGCACAATGAATACTAGYAGGCC
AGGTTGTCCACGGAAACCTTAAGCTTTTGTTCAAGGTATAATCTGATGATTTCYAAAACTGGGATAATAGTCCTCACCTTGTATTTGTTTACCCATCTGT
ATCCCTCCACTCTTTCTAAATTATAAGCTCCTCACTCCCAGAGATTCTGATTTAGTCATTCTGGAATTGGGCCTAAAAATCCATTGTTTTGTTTTGTTTT
TTAAGGAGGTATCTTTGGTGATTATAGCACAAATGATCTCATAACCAAAATTTGAGAAATAGAGTAGAAGGCAAATATTACTACTAATATCCTTCTAGTT
CTAGTCCTGTGCTAGAAAAACTTCCTTGATCCAAATAATTCCCTATTAAAACACTGTGGTATCTGAAATTTTACCATTAGAGATAGATTCCTTGAGGGTG
GGGTACTTTCTTTTAATCATGTTTTACCTTAATGCAAAGACTCCTGTGCAAGAGGTTGAGCATAAACTAATTTACCCTGGGCAGTGATTTATCATGTGAA
TATCCTGAAGAGAAGTCCTAAGTCCCTGGGGTTCAGGGATGAAATTATGAAATGGGAGCGGACATGAGGAGGTTACTTACAGAAATACAAGCTGGAACAG
CTGGAACAGTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTAGACAGGGTCTCACTCTGTCACCTGGGCTGGAGTGCAGTGACATGATCACAGCTCACTGTA
ACCTCCACCTCCTGGCCTTAAGCAATCTTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTATGAGTGTGCACCACCATGCCTGGCTAACTTTTGTATTTTT
TAYAGAGACAGAGTTTCGCCATGTTGCCCAGGCTGGTCTCCAACTCCTGGGCTCAAGTGATCTGCCTGCCTTGGCTTCCCAAAATGCTGGGATTATAGGC
ATGAGCGACCATGCCTGGCCTCTAGAACAGTCTTAAAGAAGACAAATGTATACTACTTCACAAAGTTACCTAAGCCTGGCCATTGAAAAAGTTTACTGAT
ATTGTTTGTGACCCGAGGTTGCTTCCTCAACACCATTATATCCATAATCCAAAAAAGTTAAAGGATCCATCTGCAAATTGTTCTGTATTTGTACTATACA
CATAGGATGCCTAACATTTGAACAGTTTTAACATTGCTGTATTCAGAAATATTTCTGTGGCTACAAACATTTCAGAGGTACTAAAACAGTGTCTCTGGAC
CTACTCCACTCCAGATTTTTTTTTCCAGGCTGCAAAGTAGATTTTACCAATAGTAACATACTACATAGATTTAAGATTTTTAAAAAGCTTATTCTTGCAA
TACTGCAGATTTTTAAGGCATATTTTAAGTTTTAAGGTTTATAATAATCTTTCATAACTAAAAATAAAAGGAGCTTTTCTGTACTCTAATAGAAAGACCA
AAATTATTTTCCTTTGTTCTTTGTTCTGTGTATGTTAACATATTTTGAAATCTCTTAAAGCAACATTTCCATTTACAATGCTGTACTTCTCTGGACAGAT
CCAATACTATCTACATATGTGTCATTGATAAACATGATCTAAGTGTAGGGGAGAGAGTCTGCCCTTTAAATTATATAGAATCATTTGTATGAAATTCTAG
ATTTTTTCTGAGCCTGAAATATTTCAACAAGAACTTCTTAAAAATTGAGAAACCCTGAATAAGCTGCTGTGTGGTAGCTGTGAGGAAAAGMCTGGTAGAC
TGTGGGTGAATGAGAGTGCAGACGGGGGGTGGTTCAAGGTGAGGTAAGGAGCTGAAACCTAAGACAGAATTGGGAACAAAAACTTGTCCCTCCCCATCCC
AGGTATTTCTTTTTTGTTGTGTTTGATCATTGAGACTTGGCTCTAGCTTTTTTCCTTCACATGTACGTGTTGTATAAGAATGGTTCTGTTTGGAGTGATC
AGGTTAATTTGATTCTTTTCACCTAAAATAAGAAAGCATTTTCTGTCTTTGCCATGGTTTAAGATGAGGTCAGATTTGATTTCTACCTAATAGAATGGAG
TGGGGAGACTGAGCCCATTATGGTTGTATAAGAATTAATAAGAGGCCGGGTGCAGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGT
AAATCACTTGAAGTCAGGGGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCAGCTCTACTAAAAAAATACAAAGTTAGCCGGATGTGGTGGTGCAAG
CCTGTAATCCCAGCTAACTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGCAGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCC
TGAGCTACAAGAGTGAAACTCCATCTGAAAACAAACAAACAAACAAAAAAGAATTAATAAGAGTTAAAATGTGTTGAACTCCTAATGTGTAGGAAGTACC
TAGGCTTTTTGCAGACACTGTTTTATCCATACARCCATCCTATGAAGGAGGTACAATTATCATRATCCCTATTTTGCAGATGAAGAAACAGACTCATAAG
GGTTAAATGACTTGCCCAAGACTATACTGCCCTTAGGGCAGGAGTCACCCTGAGAASAGGCCATTTTGGCTTCAAGGCTGGTGGCCCTTTTCTCACAATA
TGCAACAACACTGAGGGGTCTGGAATGCTGAGAAGCCTCCAAATCTCCGGCAGTGTCTAAAATGTTTATCTTACTCAGCTCTTGCTTATGCAAAGGATTT
CAGTCCATTCCTGCTCCACAGTGATTTACCCCTGGGAGAAAGGAGTTTGTTATTGTAAATAACTACTTATATCTTCTCACATTCTTTGTTCTACTCCCTT
CTTTAACTCTGAAAGATCAGAAAGGTTTACATAAAGTCAGTAGCTCATTTAGATGACTCTAAATGTTTCCTTGAATGCTRTTTTATTTCCTTTAGAGCAT
TAGAAGACAGAACCAAATTACTGCTGTCTTCCTTTTATTACTTTTGAGTTATCCTTTGATATTTCAAATTTGGGCTATTCCTGGAAGAAACAATGGTACT
GGTTATAACTCTTGTCACCTATTGAAAATTTCAGGTACCTCACTGTGTGCAGTGGCTTACCCCTGTAATCCCAGCACTTTGGGAGGCTGCAAGGTGGGAG
AATTGCTTGAGGCCAGGAGTTTAAGAYCAGCCTGGGCAACACAGCAAGACCCCCATCTGTCTCTMAAAAAAAAAAAAAAAGAAAAGGATGAAGAACCATA
TTTGGGTTCTTCATCTTTTTTCTAAAAGATGAAAATGAATTTGTCTGAAAAAGAAAAAAGTAAAAATATATCAGTTGTGTACCCTATATTTGTGAAGGCC
TGACAAATTATAGCTTAAAGCTAAGGGTAGGATTCTAAATACTAATTAAGTTATCATTTAAATAACTGCTCACCTAACTTCTAAAAAATTAATGCTAAAT
AATATTTCTAAACTCCATCCTTTTTTCTTTCTTTTTTTCTTTCACGGATTCAATAAACATTTATTGAGTCCCTACCATGTTCTAGGCCTATTAAATTTCT
ATAATTTGAGGTGACTGTATGATGACTAGACCCCAATATTCCATGTATACTATTTACCAAAATACTGATAGAACTGTATATCTATCACACAGATAGAATT
AAAATTCAACATTGCTTTCATTAATTATAGAAGACAAAAGGATCAATTTATAATACGGCCATCTTTGGGAGAGAAAAGATGATATCCTTTACCCATCTAG
ATGATATCTATAATGGACAGAATAACTGTCAACATTAATATAAGGCTTTGGGGAAAAAAGATTTTCTTTAAAAGTATCTTGGATGTACTTTCCGCATAAA
CTCTTTGTTCTAGATCTTCAGATTCCAGCCTTCTCCCATGTCCACCTCCTTCCATATTCCTATTCTTTCTCTCTAAATCCTCAGTGCTCTTTAAGGCTCA
TTCTGTATTCACTGGTGTTCATGAATCCTTCCTGAGTCCGTAGTGCTCTATTGCTTTTCCAAATTTCTAACGCGCTTCAAGTCTTTGTCCCACAACCTGG
CATGTGAATTACAAACTATGATATTGTTCTTGGAACACTAGGGGCTTATGTGCATCCTGCTGCCTATATGCAGTGATCAGTTCTTTGAGGTTAAGGTCAA
TAATTTCTCATTCTTTGCCTGTTCCAGAGCTGTCGGTTTAATTTTAGGAGACATTTAAATTCTTATAAATCTGACTTAGCAGAAACAAAAACATTGAAAT
AATTATTGTCTAGACAAGCTTTTAGATACTTCAGTTTAAGAATATGAAGAAAATAAAGGATACTAAGAGCCAAAAATGTATAAAAAATATTGGGAGAATG
ATATAAATTGGGAAGCCTAGAGCAATAAGGATTATTTCTCTTAAAGGAGCAAAGACTGAGAGAAGATGTATCTTTCAATACTTTAGTGATTCTCACACAT
AAAATGGTGAATTGCTCTTCCCTGACAATTTGAAAGACAATACATGACTTAAAGTGACCTAAGAGGGATTTAAGCTAGTCTCTAGTCACTCCAGATAATA
GAGAGGCTTTAAATCTCAAGTTTTTGCCTGATTCTCCTATATGAGCTCCAGGTTAGGATGAAAGGAGTCTATTTCATTCTGAGTATGTCACCAATGAGGT
ATAATCCATGGTTCTTAGATGTCCCTAAGTGCATCCTTCTTGAATATATTTCTTCTTTAGAAACTCTTTCACAAAATATACATTAATGAAAGAAAATTAA
ATACCCTCTTACTGTGACCTGAGAGAATGAGCCCACTCTTACTCTATATCTGCCAAGAAGAGTTTACTCCTCTGCTTCAGAATCTGAAATTCAACTTTTT
GTTGTTGTTGTTTTTAGTGTGGTGGCTTGTGGTAGACGGTGTATTGCAAGGAGTTAGAGGACTTGAGTGTATATTCTGACTTCAAAACTTCTAACTATGT
AGGCAAACAGTGTAATTTTTCTAAGCCTCATTTATTTGTTATTAAGCATCCTTATTAATCAACTATTGTATGGTACTGGAGAATCAGTAGTAAGAAAAGA
CAGATAAGATCCATGCTCTCACAGACAACACAGACTAGTAATGAGACCTGGTTATTTCATCTGCAAAATAAGTCTGGTAACCTATGAGTCRTTATTTCTA
CCAGGCCTCCACTTGTGTTCTCCTCCTCCTCTGTCCCCTATCTCATTAGCAGGCACTATAATTCAGAAACCTCAAAAGCACCCAGGACATAAAGCCAAAT
GTTTACAAGTCCTGTTTACTCCAAATCCCTGCTATTTCTTAAACCCATTCCCTCCTCTCCACCCCACAGACCTTGTCTCACCAAAACTCACTGATTCCTA
CAGCAGCCTCCTAGTAATATCCCAACCTGTGTTTTTAATCTTCTTTCACCTAATTGGCTCACTGCTTCTAGAATGAACTTTCTAAAGTGAAAATCAGTAT
ATCAACCTGGATGCTTTTGGCTGCAAAATGAAACAGAAGACCCAGTCAGAATGGCAGTAAGGGGATGATGTTTTTAAATTCGCTTAAAAAGAACTTTGCA
GCAGGTGTTACAGAGTGCATAATTTGGCCATTTGACCACTTCAGGGAYGTTGGTTCTTTACATCTTTCCATGTTGCCATTCTCAGCATGTAGACTTTTGT
CAGGCCTGTCTCTTTGTGGTCCCAGGATGGCTGCAGTTGCTCTAAGCAGCACATTCTCATACATTGTGCAGTAGTGGAAGAGAGAATGTCTGTAACAGAT
ATCCCTTTTGAAGAGTGAGGAAATGTTTTCTAGAAGCCCTAAAACAAGTTTCTTAAACTCCATATTATTGGCCAAAATTGTGACATATGTCTGTGGCTAA
ATCATGCAGAGGCGATAGAGTGGAATTACCTAGATTGGCTTATACTGATCAAATTTTACTTCCTAGGCATAGGGTGGGGCCCAGTATTCACTGAAAAACA
ACTTCTTGAGAAGCTGTTTGAGAAAAATTGGGATTCTTTAGGGAAAAGATGATGATATCTATTGGGTAAATAATTAAAAGTAGCTGCAATATCTGATCAT
CCCTGCTCCTTGCTTCCAATCCTCCAGCATCTCCCTGCTGTCTCCAGAGTATGTATGAATAAAGTGTTCACCAAGTATGGCATTCAAGGCCCCAAATCTC
AGAAATCACCGCTAAATAACTTACTCATGTAACCAAACACCACCTGTTCCTCAATAACGTATGGAAACAAACAAATGAAAACGGTAATTTAAAAAAAAGA
AATCGGGGCATCCAAATCGGTAAAGAGGAAGTCAAACTGTCGCTGTTTGCTGATGATATGACCGTATACCTAGAAAACCCTAAAGACTCCTCCACTCCTT
TCTATCCATCTCTCAGTCATACAAGTCTAATTGAAGTTCCAGGCACACCCTGCTGCTCTCATACTTCCTTGCCACTGGACCTGCCCTATTCTGTCTTTTT
CACCAGTTAATTTCTACTCACTCATGATGCAGCTCCTTGTTCTCCTCCTTCTCAAACCTTCTGCAATCTGCTACAGTCTGAGTAAATGTCCCCTGGGTAC
ACTCGTACAATGCCCTGTGTTCACCTCTCCTCTTAGTACTTATCTTGTTCTCCTAATTGTGATCAATTGTGAATTCCTCAGAATTCTCAGTGCCTACAAG
TGCCTGGCCCTCGACAAAATGTCCATGACTCAAATGCTGAATAAGCAGGATCCATGTCTGTAGGAAGAGTAAGATAATGCCAATGAGGTTTATTAACTAT
AATGCAAGACACAACTGTAAGTTATGATTAMTTTAGTAACGACATCACTCATTGAGCTGTCCTCTTTCATTGCATATTGTGTTGTTTTAAAAATCATATT
TTAGTTTATGTCATCTTTTCTATAATAGTTCAGACTCCACGTTGAAGTACCAAATACACAGATTACTCAGAATTTCACGTATTTTCCATCTTGCTTATTT
CTGCCCAATACCTCATATGGCATTAAGMAGAACTAAATTAAAACTTTCCATTTCTACATTTGCAAAGGCCTTTCCTCTAAAATGTTCTAAGAAAGGAGAC
CTCAGGACACAAGTAGAAATGGTACTGTAAAGTAAATTGAAGGTTCAGCCTCTGGACCCAGGACTCCTGCGTTTTCCAATCACCAGATGGAATAGCGCAG
CCCAGCGGCTCTATATCCCCTGTTGTCCCTAATTTAATGGTGCCTCCCTTATGGTGAAAACACTGTRCAGTGATGTTTGAAGGGATTGATGCTCCATGGT
AAGCAGACTTCGCCCTACTGGGAACATGAAAAGGAACCTCTCTGATTTGTGGCTGTAAYCCTCAAGCCCTCGTTTAAATAGCCAGGGCAGTTTCATTTAA
TCAACAAGCATGTGTTGAGTGCCTGCTGTAAACCAAACGCTGAGACACTGAGGAGAGAGGATGAAAAAGACTCAACAGGTCTCTGATCTTGTGGAGYTTA
CATTGTGATGGAGGGGTGGGACACTGGGAAGATACAGACTATAACTAAGAAATAGATTAAGAATAGAGAAAAACAGTAGACATTGATAAAGGCTATACAG
AGAATTATAGTAGGTGGTTACCTCTTACCTCTTTAATTCAGATGAGTCAAAGCTCTTGCTATTCACTGACTGCTATTTGCTTGACAGCAGTGTATGACAT
CCTCATCAATATTGCATTCCTGGAAATTGTTCATCAGAACATCTTATAAGCTTCTTCTGCTCTTCCCTCTTGCAGTAGATCTGCTTCAGCTCAAACAGAA
ACCACTGGGTATCTTGCCCAAAGCAGACCTGGCTCATGCCTTCTAGGATAATTACCAAGTAGGAGAAGAGCAAATTGTTATACCATTGGGCAGTTAGTCA
TGCACTGCTTTATGAAGTCTCTTCTATTGTTGCCTTGAACTGTTTTTTAAAGCACACACTTTAACTTTAAAGTTAATATACTTTGTACTTTATCTCCTTA
ACTGGATTGAGGATGAAGAGACTATTTTCTTCTTGTTCATATACCCACGACACCCATTATTACTTGGCATATAAAATGTATCCAGTAAATGTTTACTGAT
TAGATGTATTGATTTAAAGATGAAAATAAGCTAAGGAACAATAAAAGGAAGTTTTTGGTATAGTACCAAGATAAATAACACATGCAGAATAACTGCAGGG
GCACATAGGTCAGAAGACAAGAAAGACGTGGAAGAGAGGAGCTTGAGCTGGACATTGAAAGATATGTAGTATAAGAATGGACAGGCCAGGCACGGTGGCC
CACGCCTGTAATCYCAGGACTTTGGGAGGCTAAGGCAGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCCTCTCT
ACTAAAAATACAAAATTAGCCAGATGTAGTAGCGGGTGCCTGTAATCCTAGCTACCCGGGAGGCTGAGGCAGGAGAATYGCTTGAATCCGGGAGGCAGAG
GTTGCAGTGAGCCAAGATTGTGCCACTGCACTACAGCCTGGGTGACAAGAGTGAGACTCTGTCTCAAAAAAAAGAATGGACAGAAGAGGGTAGAGAAGGA
CATTCCTGATGAGATAATAATATGAAAAAGGCAGGTGTCCCTGTGGGGCCGGAAAGGAAAGTGACACCACTTTCCTAATTCATCTTGCAGGGCAGTGGGC
AATGAGAATAGGTGAGTACCTCTAGGCCAGATGAAAAAGAGTCATAAATGTCAGGTGAAAACTCTCATAGCTGATGCGAAGATACCGGAACGCTTTACAA
GGAGAGGGATTAATCAAAGCAGTGTTTTAGAATGTAAATCCCTAAAGCTTGTGCATGCCTAGAGCATCCAGGTCACACTCAAGTAGAAGGCTCAAAGTAA
GAASACTTAAAGGGAACGAGGAGCTTGAGGAAGTAGCAAAGGGTTGAAAACAATTGCTTTAGAAAATCAGATAATGACATTATGATGTTGCTCCATTGTA
TGTACTATAATGACCCATAAAACACTATTACTTAAGTCTCTGTACCATTTTCCGTGCCTTCTAATGACATAGCCTAGAAAAGTTTTCCTTTTCTATCTTC
CCCTTTTAGGGTCTCAAGATTAGCTCTTCTGAGTTCCCCTTCTTATCCATAGGACTTTCCATCCATTTCACTTTACAAGTTCTCTAATTTATTTCTTATG
TTACACTTTAATCAATGGGTAGCTACAGTGTATATAAATTATGGAGGATACAAAAATGAGATATGGACCCTTCTCTCCTGGAGCTCACAATTGAAAACTG
ATTTTGGTTAGCTTAATAATCGTGAAGATAAGAATAAAGACTTCATCACAGAAAACTAAATAAAGCTACATTAAAATTTCTAAGAAAAATATCTAAAATT
ACTTGAAAAGCCAGTGGAGTATAAAGAAGAAGGATTTCAAAATATGTTTTCTCCTTGTCAGCCATGTGAGATTTTTCTCTCTCTGCTTTAAATAATTAGG
AAATGTAGAATTTATTTTGACTTGTTTTAATATATGAAGTGATTTTAAAGTGTGATTTTTTAAAAATGCTATTACCAAAACTTTCAAATGTATACAAAAC
TAAAATAATATCATGAACCCCCATGCACCCACCACTCAGCTTAAGGAGTTTTTCACTCATGGTCAGTCCTATTTCAGCCACACAGCAGCTACTCTCCTAC
ACCCAGTTTATTTTGAAGCAGATCTCCAAAATCACATCATTTCATTTATAAATATTTTAATTTGTATTTCTAAAAGGTAAGGACTTGGTTTTATTTGTTT
TTGTTTTTGTTGTTTGTTTGTTTGTTTTTTGTTTTTTGAGATGGAATCTTGCTCTGTTGCTCAGGCTGGAGTGCAGTAGCACGATCTCAGCTCACTGCAA
CCTCCGCCTCCCGGGTTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTACGTGGGATTACAGGCACACACCACCATGCCAGGCTAATTTTTGTATTTTTA
GTAGAGATGGGGTTTTACCATGTTGGTCAGGCTGGTCTCGAACACCTGACGTCGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGTCATG
AGCCACTGAGCCCTGCCAAGGACTCATTTTTATTTATATAACTACAATACTATTATTCTACCTAAAATATTTTACAGTGATTTCTTAATATCATATCCAA
TATATGGCCAGTTTTCAAATATTCCCAATTGTCTTCATACTTCTTTAAAAATAGTTTTCTAATGTAAACCAGGATTCCAATAAGGTTCAAACAATGCAGT
TGGCTGATATATCCCAAGTTTCTTGTAATCTGTAGGTTCTACTTCCATCTTTTTTCTTCTTACCACTTATGTGTTACAGATGCCAAGTATTTGTCCTAAC
TCCATTTCCACGGCATCATTTGTCATGTTCCCCTATCCCTTGTATTTCCTGTGGATTGAGTTAAATCTAGAGGCTTGCCCTAAGTTTGATTTTTTTTAGC
GGGGGAGAGGGAGTGGGCTAAAATGCTTTCTAGATGTTGCTGCTTGTTTTCATAGGCATAATGTCTAATTATCTCCCTTTTTATGACATTAGCAGCCTAG
ATACATTTGAAGTTGACCCTTGAACAACAGGGAGTTTAGGGGTGCTGAGCCCTGCACACAAAAATCTGCATATAACTTTTGACTCCCCAAAAACTTAACT
ACTAATGAGCTACTGTTGATCAGAAGTCTTTATGATAACATAGTCAATTAACACATATTTTGTAAATGTATTATATACTGTATTCTTATAATAAAGTAAG
CTAGAGAAGAGAAAACTGTTAAGAAAAGCATAAGGAAGAGATACATTTATAGTACCGTACTCTATTTATCAATACCATCTGTTTACAAGATGAATTTTCT
GAAATGGCAACCACGGTGGCACACCTCAATCTGTGGTACATATCAAGCAATTCAACTTTTTCTTGTAAAGTCACGACTTTTCCCTGCTTCTTGGGAGCAC
TTCCAACATCACTAGTTGCACATTGTATGAGTCCTATGGTGTTAGTCAAGGTCTACAGTATTACACTAAATGTGATGAAAAGTATGTGAGAGCCATCACT
TCTTCCTGTGATATGCAATTTACTGGAGAGATGAACTGCTCACATAGAGGTGATTAGCATCCGCAGCATTTTACCAGATACTGGCAACACTTGAGCTCAC
CACAATAGCAACAGGAGGTAGCTATGAAATTACTACAGTAGTACAGTATGTACTACAGATAATGTTCTGCAGTTATGATTTAATACTACATCTTTACATT
TGTTTACATTTCTCTCATCTGCAAAGGGAGCCATGTACAATCTGTGTTTATGTGCATATGTTTTGACAAATTTTAACTTTTTATAATAGATCTGTGTATA
CTTTGTGGTAGTAAATGCTAAAATAAACTAGCATCCACATATATTTATGCATTCATAACATACCTTTTTCTTAATTATTTTGATATTTCCAGACTATGTG
GTTCATTGTAGAATTTTTTTAAATTGTCACAAATCTCCAAAAAATTTGTGGAAAAAAATATTTGAAAAAGTGGATCCACACACTTCAAACTCATGTTGTT
CAAAGGCCAACTAGATTTAATTTCAGTATATTCTGAATGGTACAGTCTAATCATGTAATTCCTTCTTTATTAATTTAAATAAATCTATGCAAACAGAACT
TTCCCCTTATCAGCTATTCAGTTACTCTGAGATACTTTTGTATAAGAAGGTAGGATAAATGCCTCATTCTTTCTCTTTATTTACCTATTTTTAAACCATC
AGTTTGTTTACTAGTATCACCCAAAGATGATTTATTTATTTTTTGTGTCATTATTAACTGATGGATTTAAAAATATTTGATGTGTTTCATTCCATTGTAG
TAGCTATTTTATTGATGCTCAAATTGTCCCATCTTTGGCCAATTGAAACATCTTTAAACTGGTTCTGAGTCCTTTTGACATGACCCTCATAGTTGTTGAT
ATCATCCTGGCTTTCTGATAGGACAAATTGTTTCAGGCTATCTTGTACATGTCCTGCCCTAGATCTGAAATCAGCTATCTCTTCAAAGAATCCAATTTAT
TTTCCTAGGTCATAGTATTTAGAGGCCACAGTCTGAACAGTAAGTGTRTGTRTTGCTACTGGATTGTTCATTGTTTCTAGGTCTTTTCAGCAGACAGGAC
TAGGAAACACTTTTTTTCTCCAACATGAAATTATATTACTAATTATATGATATTTCCAATTTAAGTTGAGGACTATAAAATTGCACTTTACCTCACTGAT
GTTACATCTGCATTTTCTTTTTCCCCTGCCTACAATCCTGGCTCTCAGTGGAACAACATAATCACTCATTTGCTTTATCCCACAATACACACCCAGTAGT
CTCAGAAAAACAGTATCAACACGATCACCAACAGTATAACTATTGAAAAGAGTTTTCTGTAGTTCTTTTTGTTTTTAGTATGTATATTCTACTAGAGATG
TACAAATTTCTGTTAACCTATGATGCATATTACTCTAAATATGATATCATTTCCATTTCTCTCYCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT
CCCTCTCTCCTTTTTTAGAGATGGGATCTCACCCAGGCTGGAGTGCAAAAGTACATTCATAGCTCACTGCAACCTCAAACTCCTGTGCTCAAGCAATCTT
CCCACCTCAGCCTCCCGAGTAGCTAGGACTACAGGCTGGCGCCATKGTGCCCAGCTAATTTTTTTAAAATTTTTATTTTTAGAGATGAGGTCTCACTATG
TTGCTTAGGCTGGTCTTGAATTCCTGGGCTCAAGCAGTCCTCCCACCTCGGCTGCCCAAAGTGCTGAGATTATAGGCAGGAGCCACTGCACCTGGCCATT
TTTATTATTTTTGTTTTAAAACCTCCACTATTGATTTCTAAAATGTTTAAATGCTTATTTTCTAATTTTTCTTTATAATGTGGGGAAGAGAATATGAGTA
GGAATCATTATATGATTTATGAATTACCTTGGAGTGTCATAGTTAGATCCTCAGGATACTATTGCCTGTTCTTTCTTCTTAGACCTGACTCAATTTCACA
ATTTCATTCACTCATTCATTTAAGAAACCCAAGTAAATGCTATGAAGCAATTGGAAAAGAGGCTTAAGGAGAGAATTTAACATATATTTGTTGTTTACTA
TGTGTCAAAATTATGATAGATGCTTTACTTATCTCATAATTTCATAAGAACATTTTGAAGTATAAATTATTATTATGTGACCAATTTTCAAATGAGGCAG
TTGGGAATCAGGGAGTTTCCTTTGCCCAAAGTCATAAAGATATTAAGTAGAGAAGCTAGAATTAACATATACAGTCTGTTTTACTCCCGTGTCACATATA
AGATGCAGTCCCTGTCCTTAAGGAGTTAATGGAGGGTTGAGACCCAAGAAGAACAGAGTACAATAGGAGTTCAGGCCAAAAGAAAGGTATTAAACTGCCG
GGGCCTCACAAAGAGGTGGCATTTCACCTGATTATCAGGAAATAATAAAATGTGCTGGATGTAGAGGGAATGCATCCCATGTCAAAAATTGGAGATGAGC
AACATTCTGTAGGTAAGAAAATGTGAGGGGTATTTAAAATGATAACCAGTCGGGTTGGACCAAAGTTTAGTTAATATAGGGAAATAGAAAACTAAAAGCG
TTGCCTGGAATCTCAGTTGGGATCTGAAGGTCATTCTGAGGATTCAGGACAGCTAGAAACTTTTGAAGGTTTGAGCAGGAGTGAAATATGCTAGGGCACA
ATCCTAGCCACTGGGCAGGCTCCGGCTAACCCAGATCCTTCTCCTTGGAAGGACTCCAGACAAAACCCACCCTCATAGATCCACAAGTCTTGCTGATTGA
CTGCATGTCTTCTAGCAATTTCCTAGAAAAGTTGCATTTTCTTCGATGTTTTGCTACTGGAAGTTTTGCCAAATTAAGTCTTCCAGTTGAAGAGAGATGG
AGTAGCCCCACATAGCATTGCATTGCGATTGGCAGTGGTTTTCTGAAGTCTCAGATGTGAGCAAATAAAGTCTGACTCTAATTAGACATACTTAATCTGC
TCGTTGAAACTTGGAGTCAAATAAGTCTTAGAGTGACATTTCAGTCTTAGAGTRACATTTCACTGATTTCTTATAAGAGCTTTGCTAAAAAATATGCTTA
TCAATTTAATCAATTATAGGATTCTAGAAATCACAGGAAAAACATCACAATTAAAGAGATTTTGGTAAAACTGAGTTAAAATTGGGTAGGACTTKTTACT
ATAAAAATAAGTTATATCTAATGTTATACAATAAACTGCCTAGTTTGGATAATTTCATTAGCTTAAACTCTTCCCTTTGCTCAGTATTAAAGTTCAGAAG
TKGCCACCTAACCTAACATTCTTACATATCCCCCTCATGGGGACTTTTAACACAGTGAATTAAGTGTCCCCTTTATTCCATTTTTTTATAAGAATGTATG
AGATTGCATAATTCATGATAACTAAACTTACTTTTAAAATATGACATTTGCTGTCTTAATTCTTTCCAGTTCATAATCTATAAATCAAATATGGTCGAGC
TCTGTGAAATCTATTAGTTATGCATCTTTTGAGACCTGAGTGATCCGTTGCCTATCATAGGACGAGATATGAAGTGTGTCCTCAGTATTCTTAGTACCCA
CCCTTCTTTCCTTCCTTCCTTCCTTCTTTCCTTCCTTCCTTCCTTCTATACATGTATTTTTTGTAATAGCTTGAATAGTTTACTGTCATGTAAGAGAATA
GTATCTTATGTAGAAACATAGCGTGGACTTCACCAATACTCATTTTTGGAAGTTTAAACCTAAGAGAAAAATGTTTGCTGGATACATCTTTATAAAATCT
ACATTTTTACAGAAATAGTTCATTGATTATTATAAATATCATGTTTGAAAAACTTTTAAAAATGAAGTTACACACAGATATTGTTTAATACCTTTAGCAC
TATACTGYGAAGTGCACTGCAGAAATAAAGCCATTGTTTATTTAGATGGGTCAGTGATTCCAGACTCACTACTCCTCACACAAGATTTTATCTGAGATAC
CCTGATCATTGTAGTCATTTGGCTTGTGAGCTTCAGTTGCCCCCCCATACGCTTAAATTTTTCATTTTGTGCTAGTGTAGACCAAGTCAAAGCCCACATA
AACCCAATATATGTGTTAAGGTTAGAGTTGTGCTTCACACTCTTGACTGTACTTTAAAATCACCTGGGGAGCTTTTAAAATTATCTCAGTGCTGGGGCCC
CACTCCCAGAGAGTCAGAGCTAATTGGTCAGGCTGCAAGGCCACAACAGTTGCACAAATGCAGGTGGCACCTCTTACCAAGAACCTCTTCATCTCCCTGG
CCTTCCAACTTCCTGGAGCACAACTCCACTGTTTTCCATGTGAATAGCACCCCTGTACTTGTGCAAACTTGGAAGCCCTAGCGATAGTGGCTGAGCACCC
ATGTTTTCAGAAGGCCCCCAGGTGTTCTAATATGCAGCCAGAATTGAGAACCACTGACATATAACTTTGACATTAGGTGTATGGATTAAGGAGCTGTGTA
GAAATAGATTCAAGATCTAGCTCTACTACTTTTTAGCTGTGTGACCTTAGGAAAGTCATTTCACTCCTTGGAACCTCAATTTCTTCCTAAATAAAATAGT
AATACTAATACCTACCTCATGAGATTATATAAAAGAAAAATAAGATGGTCAAAGTGAAATGCTTGGCACAAAGTTAACACTTAATAAGCCACTTTTATTA
TTTTAGCTATTAAAGCAAGATTTCTATATTAGTCTAGATTCCTACAGTACTAAGTTACAGAGGTCTATCTCAGATGATCTGAARCAAAAATGGGGAAATT
AAGCAAGCCACGGAAGGATAGAGTTTGATTTGGCCTCAGATTTTGGCATTTGAATGCTGTTAGGACACATATTCTCTCTCTCTTTCTCTCTCTGGGGCTT
ATTCCAGCTTCTCTTTTCATGGTGCTTGCATTCTCTCAGCCCAACTTCCCCCCTTGGGGTAAACCATGACCATGGGCAGCTCAAGACATATCTTTTCAGC
CTCTTTAGCACAGAACAGGCAAAAAATTCATCCTATCTGACCCGGTTGGAAAAGTTACAGTGACCCAGCCTGGCTCCATCCCTGTGGTCAAGAGCTGTAG
TCATTAAAACGGGGAGAAGGAGTGCTGTGCAGGTAAATACAATAACCAGCTTTGTTTCATTGTTGAGACCTGATTCAAAATAAATAAAATACATAAAACT
CCTGCCATTCTAGGATCTATTGGCAGACAAGGAAAGTCAGCAGTAAGATCCCAAGAGCAAGAACTTCCCTGAAATTAAAACACCTAGTCTCTCCACTCTC
CATGATCTATGCACAATAATCACCCCTTAAGGTGAATTTAAGATCACAGAAGTGTGCCTTATCCCCTCTGGTCCAGTTTAYTTGAGACGCTCAAACTCAC
AGGCAAATGAGGAGTTGAATCACTTCATACCAAGCTCCCAGCAATCTGCATTATTGAATACCTGAAGTGTTCTGTCCTCCCACTCCCACCCCATGGTATT
TCCTTACCCATACAAGTGAGAAGACTAGGCAGAGTTATTTATTTATGTAAGTGTTATTTATAGGAACACTCTCTACAGCTACTCTAACGTGTATGTTATC
CAAGAATAAGGCAATGAGGTAAAACAACCACAAAAGGCCCAGAAACATCCTTTAACATTTGGATTGTTCTAACCACTTACCTGACACTTGTGGTGGAGAG
GCAACAAGTGTCATGAAAGAGCAACAAGATTCATCACTTATAGCAGTGTGCTTTTGACAAGTTACTTAACTTCCTGGAGCTTCAGTTTCCTGATCTGTAA
AATGAGGGCAATAATATTTCAAAGGACTATTGTGAGAATTGAATGTATTTGATAAGTGATAATGTATTTGAATGTCAATTACACTCTGTACAGTTGACAT
TAAATAAGTGGTTTTCCAAGGGGGGTGAATAATTTTATATTTAAAGCATTATTGAAAAAGCTTTGCTATGAACATGTTCTCATGTATTTGGACCCAGTAG
AGAGGATGACTGGGCATGTACTCGACTATCCTAAGAAACATTGCAAAAGAGGCACAAGTACTATTGGTACTCACCAGCCATTGGGTTCTTAGCATACTTA
CTTTGTGGTTACAAAAAAGAGTGATGGAGCTACTAGCATACACTATAACCACCCTGCTACTATACTGGTTCAGTGTCCTTGTTTAGGAAAGCAGCCTGAC
TCATTTCACTGTAACATGGTACAACACTGCAGAGAATAATGCCAAGAAGAAAAATGTCAAATATTAATAACATTACTAGCTCTTCTATTTCAAAGAATGC
CTCTAGGGATTTTGAGGTCTCTTTATAGTTCCTATTCAGCCAAAGTAAATTGATTGATTATAGGTGATAAGAGTCGGTGGAGGATTATATGAGTGAATGT
ATAAAAGCACCTGGCCAAAGGCACAGAATAGCACTTGGACTGACTCTCACAGGCGAYATCAAGTTCTAGTTTGTCTGCTATGGACTGACTGGGTATTCTT
CACTGTAAAGGAGCCTCATCCCTAATGGTGATGTGAAGATAGTATGTATCCCAAAATATACATAGGGTATGCATTTTCTGTGACCTGGAAATGGGACAAG
TACCTCTGTAAGCCTCACTTATTTTATTTTTTTTCACACTGCCATGAGAAAGTAAATGTAAGCCTCTTTTAGCATTAAAACTCTATAACCCAAACCCCAC
ATTTTTCCAGAAGTGAAAATTGCTTACAATGTAAAAGATGAACATTTTGAATGAAGGAGCAGTCTACTCATAAACTTTTAGGAGCAAGAGATGAAATAGC
ACAAAACTGCCTATATCAAAGAAACACGAATAAAGTTCAGACGTGGATTTTAAGTTGTTCAAAAGATTGGTACTTCAACCTACTAAAATACTGGGGACAA
ACTGATGAGAATATCTTGGAAGTGAAGGAACATATTTCCTTAATTTTCAACATGTAGTCTTGGAACCAGTTTTATTTCAAATTTTTTCTAATATAAATAT
ATAAATATCTGATTTATACAGTTTATGTATCCCGTGGCAATGTGATCTTTTGCTTCTTTTATTTTCTTCCTACCCCTCCCCCATCTTTTTCTTGAGGGAA
TCAGGAAAAGGTGTCCTATTTCTCAACTGTTGAATCTATTTATGAAAATTAGAACTAAACAGTTTAGCACAATTAAGCAGAATGCCACATTCATCAAATC
TTCATTTTTCTAAGACTTCAATTCTGTCAGTCACTAGAAAGCATGTGCTAAGTGGAAGCTGTGTTTCCGGTCTTTTGGCATCCCACATCTGTTGACAATT
ACAGAGGCACATACAGTGCCATTCATAGAATGGCATGTGTCTCCCTATGCCTTGGTTCACAGGCCCTCRGGGACATTTACAAAGTGTGTACTTTTTAACT
GTCCTAGAACTAAGGAGTTTAATTTTGCCTGAGAATGTGTTTATGTGCCTTGTAAAGGAGCTAGTCATTCCCTTTTGCTTTCCTTTATTATGATGTGTGT
ATACTCTGTGTGTGTGTGTGTGTGTGTGTGTSTCTCTGTGTGTATGTACACCAAAGAAGAACCACACCAGGAATTGAGCATAAAGGCTTTCTCTTACCCA
TCTACACACCTTTCTTGTAAGTTGCTGCTTTTATTTTTTATTTATTCTTTTGTTAATAGTGTATTTCTTGGCTTCTGCTGGATTTTTTTTCTGTTTCTAA
ACACTATTTAGTTCTGATTTCATATCCTTATGTTCTTCAGTCAAGACTGGGGTCAGACTTCTTTATATTATATATGTAATTATTACAATAAAAGTCACCA
TGTGTGGTGGCCCACACCTGTAATACCAGCAATTTGAGAGGCTGATGAGGGAAGATTGCCTGAGCCTAGGAGTTCAAGACCAGCCTGGGCAACATAGCAA
GACCCTGTCTCTACATAAAATTTAAAAATTAGCCAGGCGCAGTGGTGCATTCCTGTAGTTCTAACTACTTGGGAGGCTGAGGGAGGAGGATCACTTGATC
CCAGAAGGTGGAGGCTACAGTGAGCCATGATCATGCCACTGCACTCCAGCCTGGATGACAAAGTGAAACCCTGGCTCTAAAAAAAAAAAACCAAAAACAA
GTCCCTGGACCCTCTCTGGAGCTATGCCCTCTTTCTTTTGGATCTCTTCCTGACCCATAAGCAAACCATATTCTTCAGGAAGTATCTAGTACCTAGAAAA
CTGAAGCTGAATCTACATGTCATCTATCCAGGAACTTCATCTCGCTAGTCTTAACACCTCAGATATTTGGCAATACCCAGAATATTGACCATTTTTCCTA
TTTTCATCCAAATATTTAATATTGGGTATGCATGACCATAGTAACATTAATTTTTTTCATTTAAAAGATAGGTACTGCCTTTGGACATTGTAAGCATCTC
TTGTTAATACCATGAATAGTTAAATAAATTCTAGTATAGGAGCCACCTAGAGGAGTTGTTTAACGGCTGAAAGAAGAATTAGGTGAAAAAGAAGTTGAGA
CTGAGGCTAAAGCCAATTGTGGTTTCATCCACAGTGGTTAATGGTGTTTCTTAATCTTTAAATATCAAATGTGTTGTAATGCTTAATTATCCTTAATACA
TAAAGGAAGTGACCTACAAATTCTTTACTGTTTATTGAAAAGTAGCATATTTGGAGGCTTTGACAATTCTACAGAAGAGAGGAAGCTGTTAAATTCTAGG
CTACCATGTCCTTCAAATGGGAAAAAACAAAATGCCTGAGCATGTCTCTTCTCCAGCATTAAATTTTTCATCAGTTTCCTATTAAACTCAAGGATATGGG
AAGGGAGCAATTTTAATTGCTTGGCACTTAAAAAGCCTCCTCCACTGTTCAATGAGTTAGAAATATTTTGAAAATTTGATTGCATTTAGAACCACACAAA
TTTACCTGTAATAAAATTTTTGCTGCACGCTTAAATAATGTCTTCTAGAAATGAACATTTAAATGAACTATAGAATGCTCAGGGGGTAAAGGGAAGCTAA
TATTTATTGAAGACCATAAGGTGCCAAATACAGTATATTCATTATTTTATTTGCTCTTCTTAACATCCATGTGAATGGGTATTGCTGTTTCTGTTTTACG
AATAAGAATTGGGGCTAAAACCAGCTGAGGGGGTTACCTAAATGGTACAAGGTGCAGGGCAGATCTGAAATCTGCTCTGTTTGATTGCAGAGTCTGTTTT
CCTTCTCTGTTGTCTTTACATTCTCAGGATTATGTTGAAAACAGCAAAGAGTGCCATCTTATTAGCTCATATAGGCTTTACAGTCAGTGYAGCCTGATTC
ACCAAAGCTACACACCCACCCTCACACACAGAAAACCACTTGGGGGCTGACTTACCTGGATTTGTGTCTAAATTATCCCATATATCAAATAATACTAGAT
CTCCTCTTCAGTTTCTGCTTTGTAGTTAGCTTAAAATATCTCAAAACTCACATTGTCCCAGAGGAATACCAAGAATGTCATCTTACGTTAAGTAAGTATG
TACTGTACTGTCTCATATTAATTAAATTTATGGTACCTAAATCAAGAATCCTTCAGATTGGCTTTTGAAGTGCACTCTATCTCTGCCATGGGAAGAGCCC
ATTTTGAGGTTTTCCTACACAAAAGAAAAGAAAGCCACCTCCAGGTATCCTTAGGGTCCTTTCAACTGATCCCCAAACAGAGGAATCTAGTTTCAATGGA
AGTTTTTAATAAACCTCATTATTTGACAATTAGTCAAGTGTCTGGCATTCCTTCTTTCTTTATTTTTCCACTTCTGCTTATGCTTTCAGGCTCCTTTGAT
GTTGTTTGCCCCTCCGGTGGTGGTAAATGACCACAATGGCTAATAGGCTGGCTTCCACAGGTGCCTGTTAACAACCACTTCATAAATATTCAACAGGAGC
ATTCTGTGCGAAAGACTGGGGAATTAGGTGACCTGCCAAATCTTTCCACATCCAATATCTATGATAATGGATACACAAATTACGCGGGACAGAAGGAATG
GCCTTGCACTGTGAAAAACCGAAGGGGAATCAATACAGCCTGTGGCTCCCAGCTCAGGCAGGCAGCCTCGCCCAGTATACTTCTCCCAGGTGCCGACTTG
GGGGGTCAAGGGCTTTCCCCTCTGCCTAATGAGCAGTTCTTCCATAGCAAGTCATCACCACCCCAGAGTGGTGGGCTCTTATCTGTATTTTAATTTTTTG
TTATAATGGTAATTAGCATTACATCTTGAATAGTAAATTAAGAAACCCAAAACAGAATTTTAAATTTAAAAAGCTTTTCCATTAGGAATCCAGTTGCATT
AATTTTGTGGATGGAAGGTGAGCTAAATTAGCCAAGTTTGTGCATTCATTACCTCGTTCTAATCCTCAACATCACAAATGCAAAAGACTGTCATTAGATT
TGAGAACTGACAAGAACTGGGATTTCACAGTATGAATGTTGAAAGATTAATTTGAAAAGATCTCACTAAAAAACACAAAAGGTTATTGCTAACATGGAAT
ATTTTATATTCATAGTCTGTACCTAGTTTTAAAATGCCTATTTACAGTTATCTGGCTTAAAAATAAATGGTACATTTACAGTACTTGATCAAATTGGAAT
ATTTCTAGGTATCTTGTTTTGATGATAGAGAAGTGTAGGTATCCAATATTATATGATAATATTGGAAATGCTTTTTTTATCAAGAGATATTTGACTTTCA
ATTATTATATCCAAAGAGAGGTTAAAAATAAAGAGAAACAAGAAAGAGAATGGGCTTTTTCACCCTTTTACTTCATAGTATGTTGTCAAAAAAGAAAGTT
ATTCTTTTGCAATATTTCACCCTTTGTGTTTGCCCTGAAAATATTAATGGTGAAGTAGAAATCACAGTGATGAAAGCAGTGTCATACATTTCATGAAAGT
ACAGTTAATTTTCACCAAATGAGTTGCCAAGCTGGTAGTGGGTAAAAATKTAAATGTTCATCTTTGATCAATTGAATTTTAATGTTGTGAATAGCTGTAT
GCCTTGATTTATACATCTGTAGCACATTTTAAACATCTGTGTTCAAGATGACCATTTGGGAAAAGATTCATTGGCTTCACTTAGTTCATGTTGTTTGGTT
CTATATACTATATTCAAGTCCCAAATGAGACTTTTCTAAAAAGAAATTTTACACAAATTGCTTACTTTATTATAGACTGCGCAACCTAGAATGGCATTTT
AAAAACCAGCATGGGTGATTTCACCATGAGTTTTCAAAGGTTATACAATTGTTGAAGAATGAAAATGTATCCGTTTCAACAGTGAAAATGAGAATAATTG
ATATTTAAATGCTACAGTAGCTGAGGCTAATGTTTCTCTTAGGAGCTCTGTTACCACAGGACCCTCACTCTCTGTGTTGTCTTTATTAGTTTCTAGGAGA
TTTTTGCATTTAGAACCTATAGCCTAGCTTTTAAAAAATGCTACTTTAAGGTCATAGACTGGAGTGTAGCATTATTTTTCATCAAACTTGATTAATTTTA
ACCATAGGTAGCTCAAAAGAACAGCTCAATTAAAACTACCACATATACAGGAAGAAAAGAAATAGATTGCCTGTAGCTTAGCTCTAAAATAGGAAGTCCA
AGCTATACTCGAAATAACTTTTACAGGTGACCCTTCTATTTTTAAGACAATTATAAGCTGGGCATGGTGGCTCATACCTGTAATCCCAGCACTTTGGAAG
GCCAAGGCGGGTGGATCACCTGAGGTTGGGAGTTTGAGACGAACCTGACCAACATGGAGAAACCCCATCTCTACCAAAAATACAAAATTAGCCAGGTGTG
GTGGCACACGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGACAAGAGAATCACCTGAACCCGGGAGGCGGAGGTTGTGGTGAGCCGAGATCGTGCCATTA
CACTCCAGCCTGGGCAACAAGAGCAAAGCTCAGTCTCAAAAAAAAAAAAAAAAGAGAAAAGAAAAGAAAAGAAAATTATAGTATTACCATTTCTAAAATG
TCTAGGCAGCCATTGCTATTAAGAAAGTTGCATTGCTTCTATTTACCTTACAATGTGTTTGCATCTTTCCTAAAAGCACAGGCCTAGAAGTAATTCCAAT
GATCCAGGGGGTAGTCCATAGTCTCCCCTTCGAGACCAGAGCTACAGCTGCAGATTTTGCTAACATCAGAATAGTCCGCTAGTTCTTCTTCATTTTCTAT
TAGTACAGGAATCCCCCCATGGGCTTAAAAGCAGCAGCTTTGTTATAAGAGGATCTTTTAAAAAAAATTACTCTTGAGATCCCTTTCTGCTGGAGATATA
TTTATTTTGTAGTCAATAAAAACTTACAGGACCCCTTCTGAAAGTTTTGCTTGGTAACTCATAATTTAAACATCTGTCATTTTTTCCTTTTTAACACTAC
CCTTTATGTGTATTGAACTCAACCTAGGATGGGGTAGGGAGTACTGATCCTTTCTTTAATTTTGAGTGGCCTTTTGGAAACACTTACCCCTGGACCAGTA
GTATTCAATGTGGTTAACAATCTCCTGTACAGCTTATTACAAGCGCAAAGACTCCTGAGCCCAATACCCCAAAATACTAATGTAGTAAGTGTGGGGTGAG
ACTCAGAATTTTCATTTTTCTTAAGTTCCCCTGCGGGCTAAGAAGGGCATCTGGGAACCATCCTTTGAGGAGTAAGATGGTCTCTGAGTCCTTGTTTATC
TGTTTACACAGAAACTACCTATTGTAACCACCTAAGAATTATGTGATCTAGGCAGTGTTTTCCCAGGTATACTAATGTTAACAGTTGCAGAAGCAAAAGG
ATAACACTGAGGTTACTTCACACGAATGGATGTTTGATGGATTCTGAGAGTTCCCTGGAGTAGGGAGACCTGGGTGAGTTCCAGGGCCCTGATGCTGATG
CTCTGGCATTGTGCAACTTAAATGACTCAGTTTTCTAGTGTGTGAGTGGAGATAATCATCTTTCCCTCCTACCCACATAATTCCAATGCTCTGACAAATG
TCGAGGCACTACCTGTAAAAATAATCTAATTTCTACATGATGGTGTAGTTATATAAGTAAAAGTTTTCCAGAACAAAATACCAATTGAAAACCTAGCATT
TTTTAATGTTTTATAATTTCCCCCCATTTTAGATGATAGCTTGTAAAACTACTTCCTCACAGACTTTCCCCATAACTTTCTACTTTACCTTTAACCTGTG
CTAATTCATTTCTATAAAGACATTGAGATACCAGATTACATGTCATGTTTCTAAACCACTCTCTAACTGGTGTCCTTGGAAATTTCACATTTCCCACACT
CAGAACCTAGGAGATCAACCATATTTGACTCACCGAAAATAATAACCAGTCTGGGATATGGTATGGGAAAAAAATTAGGTTAAACCACAAAACTCTTCCC
AATAATGAGTCAGTGTGTGAGTGCCTCTGTGTAAGACCTCATTTAAGAGCAGCAGGAGCTGAGTGGGGGACAGTTCTCAAGCGGTTCTTTGGAATTAGCA
TTTTTGCAAGGAAGCTTTCTTACCCACCCCAACTAGAGAAACCTCTCATTGTTTTACCCACCTCATCCTCTCCAAACATTATGATGCAACTTCACATCAT
AACAGGATGCTGCAAGAGTCCATGCCCCTTTAACTTCTGCTTTGTCTAAGACCAAGAACACATCTATGGCTGGACAAATTGGGTTTATCATTCATTGCAG
TGAGGGAGAACTCATGTCATGGGGACCCACGATGCATCTCAATAAAAGGGTGTTAGAAGGGCTTGGAGGAGGATTGAGATTTTGTGTAGAGGAGAGTTTG
GTAAGAGTCCAAGAAAGTGGCGTTCGCTCTAGACTGGGCGCTGTTGGGAAGTGGGGACCATSCTATGACTGTGTATCTTAATAAACTGTGTCTACAGGGA
CAGAAGCCCAGAAGGAGACTAAAGCTTTAATTAGTAAAGATGCAGCCATCACTTATATTTCTCAGAAGAGGGGATGTCTGATATTTTGTGGTTTGCCAGT
GACTTTGTTTTTTCTGGGCTTAAATGAAATTATGAACTGGCTAGTTTTGACTGACTTCAGTACRGTCACAGAGTGACCTTGTCTGTTGCTGGCGTTCCAT
GAGATTAGTTATTTGTTCATGAGGAGAACAGATGGCATGGTTTCTTTAACAGCACTGATACCTACTTGTAATTGTCAGGCCAGTTCCCAGATGTCAGAGG
CTACTTCTTTTTTAGATCAGATACCTTTGTAGCATAAAATCAGTTTTAGGGCAGTATGATTTTTCATGGTGAACATTTTAGGTTCTCTTTGTAGGTGCTG
GTTTTTAAATTAATCTTTAGTTTTGCCATTGTCCATTTATGATCAGTTGATCTGATTTCAAAATGCAAATCCCTAGCATTTAGGAACTTATACATTGGGA
ACATTTAGGGATTTAGGAAAAGTGGGAAGAGTGAAGAAAGGTTTCTCCCATGAAGCAGTGGGTCAGTAGGGAAATTATAAGGAAGACCAAAGAGAATGAA
ATGGTTACCAAAGTGTACTAATGTGAGAGATACAAAGATGGATGGATADATGGATGGATGGATGGATGGATGGATGGCAGAGAGAGAGAGAGAGAGGATG
AAAATGTCATGCTCATCTGAACCTCATTCTTATCACCCCAGGGAAACTGCAGTTATCCTAAATGCCTCTGGTACCAATAACTGACAAAACACATGATTCC
TACCATTTAGTTATTCGTCTGTTTGTATGTATGTACATACGTACATATGCATTGCATCTGTTTGACACATAATACTGAAACCGTATACTGCTAAAATTAT
GATAAAGAGCAGCTAATGTTCCAATAGGCTTTTCTTGCTTCATAGCTAAGGGGAAAATGTATGGGATGAAAACTCCAGTAGAAAACTGTGTGCGGCATTT
AGTTTTAACACCCACTACCTTTGAAATCTGTCAAAAATCCATTGTCCGCTGTGGTTAGCCTCAGAATCATAAGGTTTAAAGGCTATAAAATGTTCAGTTT
CATATAAACATAGAATGGATTCAGGATTTGAGGTGATGCATTCCTTTTCCAATAGGTACTTCTGCATAACTACCCAGTAGAGAAGGATCCTTTCACAARA
GGTGTGGGAAAACTATACTACAAGCCTGCAGTAACCAAAATGGCATGTTACGGGTACAAAAACAGACACATAGGCCAATGGAACAGGTTAGAGAAGCCAG
AAATAAAGCCACACACCTACAACCATCTGATCTTTGGCAAAGCCAACAGTAAAAAACAATGGGGAAAGGACTCCCAATTCAATAAATGCTGCTGGGATAA
CTGACTAGCCATATGCAGAAGATTGAAACTGGACTCCTTCCTCTCACCATACATAAAAATCAACCCAAGATTGATTAAAGACTTAAGTGTAAAACCTAAA
ATTATAAAAATCCTACAAGAAAACCTTGGAAATAACATTCTGGACATTGGCCCTGGCAAAGACTTCATGATGAAGACTCCAAAAGCAATTGTAACAAAAA
CAAAAATCGACAAGTGGGACCTAATTAAAGAGTTTCTGCACAGTAAAAGAAACTGTCAACAGAGTAAATAGACAACCTACAGAATGGAAGAAAATATTTG
CAAACTACGTATCTGACAAAGGTCTAATATCTAGAATCTATAAGGAACTTAAGCAATTCAACAAACTAAAAACAAACAATCCCATTAAAAAGTGGGCAAA
AGACATGAACAGACACTTCTCAAACGAAGACAGACAAGCAGCCAACAAACATATGAAAAAATGCTCAACATCATTAATCATCAGAGAAATGCAAATCAAA
ACCACAATGAGATACCGTCTCACACCAGTCAGAGTGGCTATTACTACAATGTCAAAAAATAACAGATGCTGGCAAAGTTGCAGAGAAAAAAGAATACTTA
CACACTGCTGGTGGGAATGTAAATTAGTTCAGCCACTGTGGAAAGTACTTTTGGAGATTTTTCAAAGAACTTAAAACAGGACCTACCACTTGACCCAGCA
AATGCTGTGTGTATACTCAGAGGAACATAAATTGTTCTACCATAAAGACACATGCTCACATATTTTCATCGCAGCACTATTCACAATAGCAAAACATGGA
ATTAACCCAAATGCCTTTCAATGGTAGAGTGGATAAAGAAAATACATTCATTACCTGGGTGACAAAATAATTTATAAACCAAACCCCAATGACACACAAT
TTACCCATGTAACAAACCTGCAYATATACCCCCTAAACCAAAAATAAAAGTTGGATAGAAAAAAGAAAGAGGTGTGAGAAAAGACCCCACTGTGACACAT
AAGTGGCATAGATAACAGTGGAGATTCACTCACATTTGWTGAGTATTACCTAGACAGTGGAGATTCACTCACATTTGATGCGTATTACCTAGACAAGGAG
GACAATGGCCCCTCTTCCTTTCTGTATTCTTTGTAAAGGGTAGGCCTTCTGAGAGGTTAAACCACCAATCAGAATTTGAAATCTTTAAAGTAATCAATTT
ATCCGCTATTCATTTGCCTTCTACTTTAAATCTAAAGTTTTGTCACAGCCAATATTTAKAGTSTCTGACATCACTGGGATCAGAATGGAAATACTARAAT
CTGTTTTGTGGTATCYTAAATTCACTGAATTAGTATTTATTGTAGGACTCCCATAGGGTGTGAGTCTTTACAAATAAAGGTAGGGAATGCCCTTTATTTG
TAAGGGCAAATAAGTTCCTCCTTCTCTTGTCAAGGGGATGTGAAAACCTCCTTGCACATTTTTTCTTTTCTTTTTTTCTCTTTGCAGAATGAGTGTTCTG
AGAAGAACAAAACTCTTTTCTGACAACTCTTATAAAACACTTTTGTGTTTGATTCTCCAACGACTAAGATTTGGACACACAATTCTCCATTCATTTCTCA
AGTGTCAAGARAGAATTGAGTTTAAAGGCTCCAATTCCCTTGCAGGTTACACTGTCTATCTAGATGAATTAGTATTCAGCACAGCTTTGGGAAAATCTCA
AATGATTTGCAGGTTTGCAAATTGTTCAAACTCATAATGAAATTTCAGGCTGAGGAAATCACTAAACAGTTCATGGCATGAGTTTTTCCCTCTGAGATCT
GGACATCTTAGATCAATTCACTCCTCTACCTTCGCTGCCCCATCCATGCCAGACAGCCCAGGGCTGCTTGAGAAAGTCACACACACCTGTCACCACTGAG
GTTATTCTCCTATCCCCATGTCCTCCCCTGCTCAGCAAACCAGCCCACTCTCCATCCATTTTCATTCTTTATTTTCTGTTCCTATAGCATGTGTTCCTCT
TCTTATCCMGGGCTATGTTCTGAGTCCGGTCCCCCTCTATGCCCTCAAGCAACTCAAACTGGCAATTATTTATATCCTATTGCTTCAATTCTCTCTCTTC
TCTAAACTTTTCCCATCAGAATATAAATATTTCAAGTATTCGCCATTAAAAWATATATATATATACAGCTTTACCCAACTTTATGAACCTCCAGCTCTTT
CTTTTCTTTGCAGCCAAGCTTTTTGTCCTCTCACTCATTCCTCCTTCCAGTGCATCCTGAATTCCACTTGGAACTGTCCACCAGGATTACCTTCCCAAGG
ACACAAAGGTCCTCCTTTTGGCCAAATTGAACTGGTGCATTCTAGTCCTTTTCTTGTTTGATTTTTCTGAAGCATTGACATAGTTGACCACCACTTACAT
CTTGAAACTCTGTATGTCCTTAGCTTCTCTTAACTCCTCTTTTCATTCCTTTTTYGCTTCCCTTCCTTGTGCCAGTCCCTTACGTGTTAGTATATGCTAG
GATCTCATCCTTGGACTCTATTTATTCAGGTCACTGTTCCTGGAAGATAACTCTATAGATTCTCAAATCTATATCTACAGATTTTGGAAGCCATGTGGCC
AATGTTACCACTTGGGTATCCTGTAGGTATTTAAATTCAACATGTCTGAAGCCAAACTTCTATCTCACCCTTACCACAACCCATCTCTAGGAATAGAAAT
TATCGTCCAAGTCGCTCAAACCTGAAAACTTGGCATTGACTTAGACTTATTTTCCTCATTCACTCTCCCTYATTCAGTCAATCCTTAAGATAATGCCATT
TCTACCCTTTAAATGTAGCCTCTCCTTTATTCATTGTACTGCTGCCTTAGTTAAGGCACTCAAAATTCCTCATTACTGCATTGCTCCCAGTTGTCTTCCC
AAAATGTGGCTTCCCATTCTTTCAAGGCCAACTCTTGAGCATGACATATTGGTATATAAAGGCCTACATGACTTGACACTTGCCAAACTCTCCAGCCTGG
TCTCTCATGGGTTTTTCATGTGGACTTAACTCTGGCCATAGCATCCTGCTGGAAATTATTTAAAAACACCAAATTATTTCACAATTCCTTATTTCATATG
CTATTATTCCCTTTGCTACTTATCTTTTAAGGCTTAGCACAGAGAGCGTCTTAACACATATTACTCAAGAGATGTTAGCAATCACTATTGTTGTTTTTGT
TGTCATGTCTCCCTTTAGTATCTAAGGCTGTTTGGTACTCCTCCTCTGTTTTCATAGTAAACTTAAAACATAGCCTTAATCATACTATATCATAGTTGGC
TACTTGTTTTTCTTGTCACCAAATTCTGAATTTTACTTTTCTCACTTACATTGCCTTCCTGGAACCTAAAAGCATTTGGGCTTGTTATTTCTGTTTAAAA
TAACAAAGACCATCAACAAATTTCCAGTGAAATTATAGTTGTGGTGGGGATGATGATGATGATGATGATGATGATAGCTACATTTATTGAACTCTATGTC
CTAGGCACTTGCTAAATGTTTTTAAATGTTTTCCATTATAATCTTATTAATGATTTCATTTAATGGGTAAGGAAACTAACACTGAGAGAGGTAAGTACCT
TGGCCAATTCATATAAGTTATGAGTGGTAGAGCCAGGATTTAAGCACATAGAGTAGTATTCCAGAGACCAAAAAATAAAGAAATCATTATCTATGTCCTG
ATACTAACCTTATCCTTATTACTTTATGAGAAAGAGAGCCTGGAAAGTCAATTCAAAATATTTGTTACATGTCTACTTTATGTTGGATTGAATTAGGTCT
TTGAATAAAACAGCTCTTCTTTGAACTTTATCTCCTAGAAAGGGAAATAAGATATGAACCTCCCTAAATAACTAGGCAAAATATTATAAATGCTAAAACG
TACAACTRCTATAAAAATGGAAAGAGAGAAAGTTTAAACTGGTTGAGGAAAACTCAGGAAAGTCATCTTGGAGAAGGCGGCATTTGATATGTGCCTGAAC
AGTTGAGTCCTAATGCGTGAAGATGGCAGAGGATTGAAGAGTGCATGAGATTTGAAGGGTACTTGTAAGGAATGGAACAACCACCTCTTATTACTCTGCT
TTATGGCAAAGGAGTAAGATGAAGGCAAGAGGCCTTCATAGAGCTTTCTCCCTGCAGAGAGGGGAAGAGTATAGTCCCTCATGACTCAGAATCTCTTGGT
TGCTGCCATGCAGGCATCTATGGAATCACAAAAGCRAGGCCCAGGAAACTTTAAACTAACCTATGCTTCCCGCCCAGAATTCAGTCTATTTCCATATTAG
TGGGTGCCTTCTGTCCRTACCTATTTCTGTGTGCAATGTGTTGAGTCTTTTGAGTGGTGGCTTAACAGCCCAGGAGAGAATTGAGCTATACTGAGGCTTC
ATATATGAACACAGTATGGTTCTATTCTTGAAAAGGTTTCCAGCGTCCTTTTCCAAAACTATAGAGTTGTGCTGCTCCTGTCTAGAAAGCAGCTCAGTGA
ACTTGACCTTGACCCTTCTGCTGTATGAACTTCTCAGAAGATTGCAGATACTTTTATTCAATAAGTCTATTCCCCCTTTTTTTGTTTAGTCAAGTAGGTA
ACTATTTTGTGGGTATATTTTCTAAGGTCAAATTCCTAATGATAATAGACAACCTGAAGTTGATAGTGGCCAACTCCGTGACATTGCTACTTGATAAATA
TACCAATCTTAGGATCTCTTCTTTTTTTTGAGTACACAAAAATCATTTTGAAATGCCTGACTTGCTAGTTTTTTGATGCCTTACATATGGAATATGCTTA
ATAAATTACATTTGTTATTTACTATATGTGACTCAATATATACATATGCAAGTACGTATGTGATTGTAACCCCCATTCTTTAGTCCTACTCTCTGTCAAG
AATAAGAAGCTTAAAGGTCCCTATAACCAACACAGAATTCAATGGCCTCTGTCGTGTAAGTAATGCTGGCAGCTACAACAAGCAATCCCATCTCAGTGGC
TTAACAAAACAAACATTTAGTTCTTGCTCATGTTATAGGCCAGTGGGGAACAGTTTGTGGGAGGGGTTTGGGGAGGAATATTGTGCGCCATGCAGGTATT
CAGGTATCCAGACTTCTATCTACTGACCTGGCTGTGCCCTAAGGTCTCAGAGCCTTGAAGTTCTCCACTGGAACCTCTGCAACTGGTTGCCCAGACAAGG
AGAGAGAGAGAGAGAGAAAGAAAGAACATGTAAATTTACAAGAGAGGTTTCTGGAAGTACCACACATGACTTCTGCCCAAATTCCATTGGCTAGAACAAG
TTACATGTTACATGGCCCTAACTAAGTGCAAGGGGAGCCAGGAAATGTTGCCTTCCTATGTATCCAGAAGAAAAATAAAATGATTTGTTGAACATACAGC
ATTGTCTCTATCACAGCCTTTATCCCCTTCATTATTCCACTCATTTCTAGTATTTTGAAAGTTTCAAGGTCTCCCCCAACCCTCAGATGTCAAGAGGGCC
TCCTAGTAGATTGATGGAGAGAGTTGGGGATACATAAAGAATGCAGTCTTCCCAACTTTACACTACTCTCTTTTTCCTGGATCATGGCTTTCTGCAGCTG
CTTCTCATTTAGTTCAGTCCAAAAACATKAATTGAAATCCCACCATGAACCAAGCACTGTTGTAGGATCTGGGGAGTCAATGATGCACAAGACAGTCTCT
GCCCTCAAGATGCTGAGTCTAGTGGGGTCCTCTACTACTGTGGCATGTTCTTTCATCAACTCCAAAGGGCTTTCTCCAGTGCTTTTCCCCCTCCCAAACT
TCTGGGTTCTTCAGAGAGAGGTCATACTCCCCTTCCAACTCTAGACAGCAACTCTCAGCAGAAGCCCTGCTGGTCCTTACAGGAATAGTCTGTGTTTCCA
AAAACCTTCTTTGAACACCCTAGAATTAATTTTGAGGGATAAGTCTAGAAAACATAACCCAGAGCCATATTCCTGCTTATTATTAAGGTCCTCTTTAGAT
TATGTCCTCAAGCATGGCACACATTCACTGATGTTCTCTGGCACAAGGAAAACTCTCATCCTCTCTGAGTGGATTGGTTGTCTTAATGGTCACAGTACAG
GTCATCATACACCTCTGGAGGAAGTCTGTTCTCCAGTATTGAGAAAAATTAGCAGTAGAATCAAATTCCCCTTCACAGGGGAATTTATTCAATTGGGTCC
TGGAAACAGCCATTGATATCCCATGATTCCCAAACAGAGACATGCAAATAGAATTCTACAATAGCCTGAGGTTGTATGTGTGTGTGTTCACTCACACCCC
CACACACACATACATAAACACACAGATATGTGTATAAAATTAAATTTAGAAAGCCATTTTGTAGAAGAGACTGACTTAGGCCTGTTAAATAAAAGTTTAA
TTTAACAAAGCAACCCGGTATTTTTTTCACCAAGTTTTTAAAGCATTCAAGATGCTAAATTTTCCAAGATGAGTTTTCTGGAAGAAGTCCCAAAACTCCC
TTCTCTCTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGTGATGAAGTCTCACTCCGTTGCCCACTACCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCA
CTGCAACATCCACCTCCCAGATTCAAGGGATCCTCCTGCCTCTGCCTCCTGAGTAACTGGGACTACAGGCTCACACCACCAAACCTGGCTAATTTTTGTA
TTTTTAGTAGAAACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGCGATCCATCCACCTTGGCCTCCCAAAATGCTGGGATTA
CAGGCGTGAGCCACCATGCCTGGCCCCAAAACTCCCTTTCTGATCACATCCTATCAGGCTTAGAAGGGGCAGGTATTTTCTTTTGGTGGGTTCAACTCCA
CCTTTGTTCATTTTGATTATAGGAAAAATTCTTAAGATATGTGTGTTTTTTTTTTTTCTGACTACGTGGTTTCTCCTAGTGCTAAATTCTCACCATGCTT
GAAATATTGTAGAGCAAAGCAGCTCTAGTTATCCTCAAGAAAAGGATCAAAGAAGGGAAAATATATTAATGAGCACAATAATTCAAAACCTCTTAAAATG
CTGTTCCCAAGTGTGCTGGGACTTTCTGGTCATGTCTCTGCGAAATGGATATTTTGGATCTTGCTTTAGCATACACAGRAAACCAATCTCCAGGCAGTTC
TTCCTTATAATTTCTTTACAAGTTTCCCCTTAAAGAATTCCTAATGTAYTTTCCTCAATAGTAACATAGATTTTTCTAGAGTTAGAAAATTATGAGAAAA
TAGAGTGAGCGGCTATCTCAAGTGTGTTTACTTGTCTAGTCCCCTGATATTAACTAGCTATGTACCTCTAACACCAAGGCAACCACATTATTGATTTAAT
GATAAGCTGTACAGCAGTGAAATCACATTGTTTCTTCATAGACACAGAGAAAGCAGAAGCATAGCTACTGTTGTCAAGGAGGTTAAAATTTAGATGTGAA
CACTAAAAGTGGGAACCCCAACTGGAACATAAGTTCCACGAGAGGCAGCCTTATTCACTGCTGAATCTCTAGTGTCTTGAGTAGTATCTGGAATATGATA
CAGTTCTCCAGAATTATTTGTTGAACGAATGGAGATCCAACAGCATAGAGCAATATATCACCAAGTATTAAAACTGTAAGAATGGCAGGAGTTCACTGAG
AAAAGTGAAGACTTTATGAAGACAGTGGAGTTGAGCAGAGCCATAGAGCTATAGACTTCCAATAGGTGGAGGAGAGAGGAGCGGGCAAACCAGGCAARGA
GAGATGAGAGAAGTAACACAGGAGGTAATGAGCATGTTGCAGTGGGAAAGTGGGCTTGGCTCTGGTCAGAGGAATCATGCAATGGATTAATAGAATCCAG
GCAGGTCAGGGATAGGGATAAGGACTTAGACATCTATCTGGTTTTGTGTCCTAGCTTCGTCATTTATTCAATAGCTGAATAAATCACCCCTTTTAGTCTC
ATTTAATATCTAAATTTGAGAATAATACATAGAACATATATTTTTAAAATTCAAGAAGAATTTATAGGTTAAAAATGGTAAACTTGAAGAGCTTTTTTAA
AACATGGTATTATCATTGTTATTATTTATGACAACAGTGTTCTGGTTGACCTTTTGATTGTGGTTTTCTTAGTGGGAAAATAGCTCATATAATGGCCCCC
GAATGTATGCCTGGGAAGAAATATGTTAAAAAATGAAATCTAGTGATTGAYTGTTTATTGGATAATTTCAAAATAGTACAAGGGAAAAAATTATTTTAGT
ACTCCTAAGTATTAGAAATAATTTTACAGTTCAATTTGTGTGATTAAATTATTGTATATTATATACAGTCATTTCACAAAATTGTTATGCGGGAAGTAAA
GATCCGTTCAGTCACTGAGTTAGCAAAGGAACTTGATTAGAATAATACTCAACCACGTTTGTATTGTCAGGAAATGTTAGAGAAAGCTTTAGTGTTGTTA
ATGACTCTTGGCATATATAATACTCCTCGTCCTTAAAGAACTTGACAAACATTGATTTAAGCCTCTTTTCAAATATATTCCAAAACTAAAGTCATTGTTT
CTGAGTATGCCATAAAAGATAAAGTACGATTTGGTGGTTCTCACATTAAAAAAACTGTTGAAGAAGCAGAAGTGAAAACTGCATATTCATAGAGTAATGA
TAGTTTGGGAGATGATAGTGTTGGCTTAAAACAAATTGGGTGGTATGTTCTGCCCACAATTGATCAAATTGTGGTCAATTATATAGACAGATTCAGCAAA
TATATAGTATTTCTGCCGTACTATATATATATATATGATATACTATATATGTAGAAGATATACTATCTCTCTCTCTCTCTGTTTCTCTCCTTAGAGACTC
TGAGTCTAAAGCAGACATCACTAATCAATCACAGATTCTTTCCAACTGAGTCTTTTTTTCTTTTTTCTTTTTTTTTTTTTTTTTTTGCCTTTTGACCAGG
AAAAGGAATCCAACTGAGTTTTGATTTGGCCATTATGTCTCTTTGAGATATAGGGCTCTAAGTAGCCAATACCAGAGATCAGAGTTGGCACAGGCAAAAT
GGAACCTACTTACTATCCTAGAATCAAGGATAGTTCTACGAAAGTTTCAAAGAGCCTCCCTTATCATTAATGGCTGCAAATATATAAGGGCATATAATTA
ATAATACATAAATGCAGGACTTAAATGACAGTAATATCTCAATCTCCCTTCCCACGTGTTGCTTTCTTCATTCATTTGGCCCTTCATTTTTATTCATTAG
ATTGGTGGCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCTCCCTCCCTCTCTCTCTCTCTCTCTCTCTCTCTCCTGATAGCTCACCTTATGTTAAGTGCT
AAAGAGAAAAGATATAAGACCTGCTTGCTGCTCTGAAAGAGCATGCAATATGGTACAGTTAGGGAGATAAGATCTAGCTGTGAGAAGCAGTCACACATCC
TGCTTCTTTTTAAAATGAATGTGATTACTTGAGTTGTTTGTTTGTTTTGAAAATAAAAATGCACTCAAACTGAAAAAAAGGAAAACGGATGTATTTCTTC
CTGGGTTTGCAAAGCCACTTCTGATTTCAAAGAAAGCTGCTCGATAATTTCTTACGGGCTCAACTCTGAAAGAAGCTCTTAGAAACCAAAGTACCTAATT
ACTAAGTCACCCCCATCCAACCATCACTACTGTTTGAGTTAAACTGCCTTTTTCCAGAAGTAGAGAGAGGAATAGGGGAGAGGTTCTGTGATGGGAAAAG
AATGAGGACCAGAGTGATTGTATATGTTGCTGTTTCTCGCTATTCAACAGGCAATTGAAGGCGGCTGCTTTACAACATTGGCAATAGTGCCTTTTCACTT
ACCTTCTTTTACTCGCAGTTTCAAGGATTCAGATTTGGTGTTTTGATTAGGAACATGGTCCAAAAGGCCTGAGTTCAGGTATCAGCTGTGCGATTTCAGC
CAAGTTCTTAACCTATCTACATGTCAGTAAAATGACATTACTGACATTTTTCATCTGTAAAATGAGATTAAAAACAGTGTCACTGAGGGAATTATGGTGC
ACTAAACCACCCAGCACTACACCCAGACTTTGCATGGGCTGAAAAAATCTTGTCTAGTATTATCACTGGTGATGCTTAGTTGACTATATTAGTTTCCTTT
TGCCACTGTAAGAAATCACCACAAAGTTAAGATGACTTAAAACAACAACAACAAAAAAGTGTCTTTTTTTACGTTCTAGAGGTCAAAAGTCAGAAATCTG
CTTCACTGGGCTAAAGTTAGGGTGTTAGTAGAGATGGTTCTTTACAGAGTGTCTGAGGGGAGAATCTATTTCCTTGCCTTCTAGTGCCTTGGGGCCCCTT
CTTCCATCTTCAAAGTATATCACTCCAATCATCTCTGCTTCCACCATTGCGTTGTCCTCTTCTCCAACTACCTCCTGGTTTCCTCTTGTAGGGATCATTA
TGGTTACATTGGACCCACCCAGATAACTCAGGATAATCAACCATCTTAAAATCCTTAATTTAAGCACACCTGCAAAGTTCCTTTTTGCCATATAAGGAAA
AGGTGACACTCACGGGCCCTAGGAATTAGGATGTGGCCAGCCATCTTTGGGGATCATTATTCAACTTAACCACATTGACTAATCAGATTATTCAACATCA
TTGAGACAGTCTGCTTCATAGTGCTATAACGCAGAGTGGTGACTGTGAACCTTGAGGCCATGAGGGTTTGAGATGCTAATCAAACAAATCACTTTAGAAA
ACTAGTATTTTTTAAACTCTAGTGTTATTTCTGTAACACCCATCTATCCTTCCACTCCTGTCTTATCTCTACTTGCTCAGAAAGAAAGATGAAATCTGAT
AAAGCAGAACAGAAGAGCATAATCCTAAAACTCAGATAGACCTGAGTTCATGTTCCAACTGCAACCTGATGGCTAGCTGGGTTACCTTGGGAAAATTACA
TGATTGCATTGGGTGCATTCCTCAAAAGCATTCCCTGAGACAAAGATTTGAGGTAGGACTTTATCTGAAAGATGATCCCAGGAAAGATGGATGGAAAGTG
AGGAAATGAGTCAGAGAATGGAAAGAAGCTAATAAACAGTATATTATCAAGCAGGTTACTCCTGTGGGCCACTGGGTGACCTGTGGGAAGTCACAGGCAG
ACAGTGTAGAACATCAGAGGTATCCTAGCTGTGGAAAAGAAGCTTTCATCATTGGCTGAGGACTGATCCCTGGCACATTATCTTCYGCACTTCCAGGCTG
CTCCTGAAGCAGGCTGAGAAAGCCCTGGGGAGACTGCATAGGATGGCCTACCTCTAGTGAGAAACACTGAGTGCCACACTGGTTGTAAATGGGGTACTAG
AAAGGCCTCTCTGAACTTCAAGGATGATAGYACTCAGCTTGCAGGGATTTTCTGAGAATTAGGGATTTTCTGAGAATCACATGCTAAAGCACCTACTAGT
ATGCATGGCACATAATAATCGCTCAACAAGTGGTAGCTTCTAAATAATGATCATATCAAAGGTTTGCCTTTGGTTTCTGCTTATGAAATTAGTTTGCACA
TGAGAAGATCACTCGACATTTTTGTGCCCAGTCGTTTTTTAATCTCTAAAATCAGGGAGGAGAGTAAACTAAACCATCCCAAAGTGTATTCTTAGGACTA
ATAATCTAAGTCGTCATGGCTTAGTTTCTCATGTCCTTTGGCACTATAATTTCGCTCTGGCTTCTATGCTGATGATTGTAAACTGACCTCAGCTGATTTG
GTCATGTATGACTCTTAGGATCTTTTTGGTAAATCATAGTAGCCTCTGATGAAGTTTTGAGGTAAGAGTTGCCTGCTCAACTGGCAACTTCACTACTAGG
TTATAATGAACAGAAATTCCAGACAAATACTGTCACAATAAAACATCCATCAAGTAAACATTTATTAGCAAGTAAACACACAGTTACACACACACAATTT
ATATGACCTGTTTTGTAAACTTGAGCATGTGTCAGCTGTTATTTTTAGCTCCTCTGACCCCCATCTTGCACAAAATATTCCCTGAAGGCCATCACAAAGA
TTCCACAGTCAGGAATTTGTCACTCTTTGGCTAGCATCAGGGATCTAGAATCCCTCAGTGTTCCTGGCTGGGCATAGGACTATTTAGAGATTTAGTCTAG
GTCATCATCCCTGAGGGTGAAGTCTACAGGACTAATTGGATTCTTGTGCCCTTGTGAAGCAGGTGTGGGAAGTGTTTCTAAAATATTTCTGCCGATCCAC
ATGTAAKGAATACTTTTAATTTCACTGAGAGTCTTTTCCTAACATTCACTGGCCTACATAACAAACTACCAATTTCATCAACAGAAAATCTGTTTCTGAC
TTTCAGTATGTTAATTAGCAAAGCATTGCTTGTGGGTTGAGATACAGGTAACAAAAACTTGTGGTAGCTAATTGAAAAGACCACCCCGGCATTGTGCCTT
CTTGATTAGCATGCAGACAGCTCTCGGGTTATAGCTTAACCTAAGTAATGGTCACGTGGTATCACACAGCACATGCTGAAGTTTGGGGATTTTTTTAGAT
TATAGTAAAATAGACATAAAATTCCACTCAGCCCTTGACAACCAACATTCTACCTTCTGCCTCTGAATTTGACAACTCTGGATACCTCATCTAAGTGGAA
TAATACAATATTTGTCCTTTTGTGACTGGCTTATTTCACTTAGCATAATGTCTTCAAGGTTTATCCAGGTTGTAGCATGTGTCAGAATTTCATCTCTTTT
TAAGGCTAAATAATATTCCATTGTATGTGTATACCATGTTTTGTCTGGTTTTTTATTCAGCAGTGGACATTTGAGTCGTTTCTACCTTTTGGTTATTGTG
AATAATGTTGCTATAAACATTGGTATACAAATAAATGCCAAAAGCATTTTGACATAAATTACAGATATAACAATCTGCTCCTTTTACTAGGAACCTAAGG
AACATGCAAACTATTGCTTAATCCTTAGTATTGTTGCAGTTTAGTAAAACACTTGTAGCTTCTTAGTACCTTAGTATATCTAAAAGCATTGGTCACGTGG
ATCTTCAAAATAAGATTTTAGAAGGAAACAGTTTTAAACTCTTTATTTGTTATCATAAGCCTGATTTCATATTTCATTCCCCAAACAGCTTTTAAAAATA
TCATTTACCCTATAGTCATTTAATTTCCTATACAGTACTTTCATTCTGCAAAAATCAGTTACATTTCTACAGCTATTTGGTAATTCTGCTTTGTTTCTAG
GATGCAGTTGCATAAAACATTATATTCTGTGACCTCAACCTCTTCATCTGTGAATGCTGAAATGTGCCTTCATCTTCCTTTCCATTGGGAGGTCCCGATA
CTTTACAGAATTTTAATAACTTCCCTCTGTAAGACCATGAATGTGGATAGTATCTGCTCTGAATTCTGATGATGGCCACGAATGAATCAAGTGGATTACA
TACCAGCAGAGATTGGAGGGCTTGGATTCTGTGCAGGATGGATTGTTTGTTTCCTTAATTTATATGTGAGAATGAATGTGTTTGTAAAATCAGGAAAACC
CAGGACCAGGCACTGTTCTTACCTACAGGTATGCTGTCAGAAAGCCCCTGCCCAGACTTCTGGATATTTCCTTAACATGCTTGGAAAGAAGTGTGTTTCC
TGAGTGATGAGTTCCCGGGTTCTGACCCTATCTTTGCAAGTGATAGACTGCAAGTTCTTAGAAAAGTTGACCTTGGACTTTGATCACACATCTGTTAACA
CATTTTTATTGAGCACCTACTATGTGTCAGGCACTCTGCCAGGTGCTTAGGATACCTCAGTGAGGAAACAGTGCTCCCTGCTCTTGCGGCACKGCGTCTA
GAGCTGCTCCTTGGGAGCCACTGGCCACATGTGGCTAATAAAATATGTTTAAGTTTAGGAAAATTAGGTAAAATTTAAAATTAAATTCTTCAGTTGCACT
AGCCACATTTCAAGTACTAGACATCCAAATGGAGATGTCAGGTAGAGAGTATGATGCTAAGAAAGAGGTGAAGGCTACAGAAATCATTTGAGAATCAATA
GCAGGAGAGCCTTGGGCCAGATGGATCGCAAGTGAGTGAGCATAGAGAAGAGAAGAGCCCTGGCAGTTCCATCATTAAGAGCTTGGGGATAAAGAGAGAG
AATCAGCAAAGAGCCGAGAAAGAGAGGSCAGTATAGGAAGAAAACGAAAGAGAGTGGAATACTAGAAGCCAGTGAAAAAGCGTATTGGGATAGAGGGAGT
GATTCTCGTGTCACATGCTGCAGGAATATAAAGTAAAATGAGGATAGAAAACAAATCATTGGATTTAATATATTGGTGACCTTGACAAGAACAATTCTAT
TAGAAGGTGAAGAGCAAAAGCCAAACAGGAAAGAACAGAAGGGAAGGAATGGGAGCTACTGACTCTAATAGCAGAAATTTGCTACAAAGGATCTTTTTTT
CAAAAAGGCTTAATAGGTAGTGCACTAACATTTATGGGATCCAGGCCAAAATGGAGGCCTATATACAATATTTGTAAATAGGTAAAAGTTATTTATCAAG
CTAACAAACTATTAAACAAATATGTGCTTTGCATTATATTGACAAATATAACTTCATAAGAATCTGGAAAAGCAGATTCCAATTTAGAATTATTGGACTT
TGGAGTTCTGTTCTATAACTTGGTGGCACAGGGAAAGGGCCTGAGGCCCACATGCCTTGGCTTCCAAACCCCAGCACCATCCCATACTCTGAAGGGTGTG
CTTGTGAGGGGCCTGCATGCCCTGGCCTGCATATCCCAGCCCTGTCCACACTTCTTCAAACAACGATCCCCTGAATATCTCTTGAGTCCAGGAGTGTGTA
AATCAGCAAGTCCACCCTAAGGAAGATGGACCCAGAGAAGAGGACTATGAACACCCTGTAAGGGGCTAAGGACCATGTGGGCAGAGAATTCTGAGGTGCA
GAGTACCCATGATCTAGATGGCAGGAAGCATCAGCTCTGACTAAGCACTTCTCCTTGGCCTAGCAAATGCTCACCCAGAGAGAGATGTATGGCTGGAGAA
GGGCCAGAATACAGACCTTAAGGCACAGAGCCAAGGGCAGCTCTCTGAGGTGGTGGGGAAATGGGGCAAAGAAAAAGATTTTTAAGATAAGAGAAATAAC
ATGTTTGCTCATGAGAACAATCCAGTAGAGTGGGAAATAGATGATGTGGAAAAGAAAAGGATAGCCAAAGCCATTATCTGAGTAGGCAAAAGGGAAGAGG
CTGTGGTGTGCAAGTGTAGAAATGGGCTTTGGATATAAGCTTGAACAGTTCCTCTACAGCAGCAAATAAGAAGGCAGAGCATGTGGATGCTGATGCAGGT
GAGGAAGTGGATGTGGTGGTGGGACGATGTGGAAGTTCCCTTCTGATTAATCAGCACATGTTTCTGGAAGATTTCTGATTAAGAATGCCTTGCCAGTGCT
GTTTCAGGTCAAAGTTGATTATTTTTGTTAATTTAATTTCTATGTAAGTCTCACTAATAATGCACTGTTTTTAAGTATATAAAGTACTAATATTCCATGT
TGTATAGCTCTTTCACTGGCATAGTTTCTCCATGAGGAAACTGAGGCACAGAGAGACAAWCATTTGTCAAGGGACACATAACAACTCTGCTGCCATTTTC
TCCTGACTTATGATATAACAGGCAGCTCCTACTGGCCTTTTGAATGTTTTTCTTGATTTAGGAGTCTGGGGGTTCCCAAATAAGAGATTTTATTTTTAAA
GACTTGATGGGATTATGTCAATTTTAAAAATCAATAAAAGAACTAGAAAGATGAATAAGAAGAATATAACTCCTTTCTTCTCATAAATTTTATTTTTAAG
TGTCAAAACACGCAATTTCTTTTCAGATACTGAAACCTGTGATATTATGTGCCCTTTGCCTACTGCAATYGCTTTCTGAATAGTCAAGTGATTCAGCGAT
TACCTCTGTGCACCCAAATCCTACCTGATTGGAAGGAAGTCACCGGGGAGGGGATGGTGAGATGACGCACTAAAGTAAAACTCCTTGTTTGTAAAAGGTG
AATAAAAACCACTTTTGTGTTACTCATAGAGACTGAATTGAGATCAACTTTAAAACATATTTTGAAGAATTTCCAGCTTCATAGAATTAAAGTGGTTAAT
TATAGACAATAACATAAGAGAAAGAGAAGCTTGTTGAGTGAGGATTCTCCACCACATTTTCTCAAGGACTTCAACCTTTGGCTCACTCTTCCTCCATACC
CATATTCTGCCATGATCCTTAGTGACTCCAACGTCCAACACAAAATGTCACCACCGTTCAGCTCATCCCTCAGCATAGCTTGTAACTCATCAGCATTCAG
AGATGCTCTCCTTCAAATATCTTGAGCATTAAATTTACCTTAGTTGATCCACATTGCCTCATACTTACCAACTTTCTTGTACATCCTGAACCTACTTCTC
TTCTTCCTGACTTCCAGACCCTTGACCCTTCCCCACCCTTCACTGGCCCTGCTCCATCCCATTCCTGCTTCTAGCCATAATCMATTTCAAGGGTGTTCTT
AATAGCTACGGTGCACTTTCATTCTCCATGCTCTGCTAGTTTCCCACATTGGCAATGATCTCCACTGTTGGTCTATGCCRTACAACTCAGAATTGCTTCA
TTCATCTCAGGCAAACCCCCTTTCAGATTCTCTATAGTGCTGTGTTCTGAACCCTTAACATGCTCTTGAGACCACAGTTCTACCTTTCACTGAAGGTCTT
TTCTCCACWATGTTGAGACATTGGAGGATGTCTGTCAGGGGTTCTCATTCTTTTCTTCCCCTCACCCTTCACAGCTTTACCCAGCCCTCCATCTTCCTTC
CTGACCCAGAAGGTTCCCCTCCTTTCTAAGGGTGAGCCATCAAGGTCTACCAGAACCTTGCTCTGTGAACGATCTCCTCTCTTCAATGTCTCTTCCTCAG
TGATTCCCCCTTTGGCCTGCAAACATGCTACACACAAATGATTTTTTTTTCAGTTATCTAGACTTTTCAGACTCCTTGAATGATTATTCCCCTTCTCTTT
CTTGGTGAATCCTATGGAATATGTACTCAGCGCTTTTGGCTCCTACTGCCTTACCCGCTGTTTTATGACCTCCGCCTCCCTTTCTGGCTTTACCTCCATT
CCCCACATGACTCGTCCTCAGGCCAATGCACATCCCCAGCTCCCTACCTTCTATCTCCATTTCTTCCTCCTTCTTTGCCTTCCCCCCAAAAAATTCTTTA
AGGGTTATTCTCCATGGAGCCTTCTTGAGGCAGCACTTCTACAAATCCATGCTATCTTTCTACCCAACTCTTATTTTTTTCTATTTTTACTGAGATACAA
TTGACATATGGTAAAATGCACCCAGCTTGATGAGTTTGGATAATTATGTAACCTGGGTGACCACCACCCAAATAAAGACAGAACATTTCCAGCACCCCAG
ACATTTTCCCAGTTCTACTTTTCAGTCAACTGCCAACTTCACCAAGAGACAACACTATTCTGATTTCTATTACCAGATATTAGTTTTTCCTGTGCTTGAA
CTTCATATAAATGGACTCACACACGGGTATGTATCATATTTAGCACTGCATACTGTTTCTGAGATTCAYCCACGCTGTTGCATTTATCAATAATTCATTC
TTTTTGATTGCTGAGTACTATTCCATTATATAAATACACCACAGTTTGTTTATCCATTTTCCTGTTAAATGCATATTTAACTTTTTTTCAGTTTTTGGCA
TTTATGAGTAGAGCTACTATGTACGTACTTATACAAGTGTGCAAGTTTTATTTTCTTTCTTGGRAAAATATCTAGGAGTGGGATTGCCRGGTCACAGGTT
AAATATATGTTTAACTTTCTAAGAAGCTGTCAAACTATTTTCCAAAGTGGTTTTTACCCCTTTTCATTCTTCACATCCCACCAGCAGTGTGCATGGAGTC
TGGTTGCTCCACATCCATCCCCTACTTCTGTGTCCTCCTTCTTGGCTTTTTTTGGCATCACTGCCTATATTCTTAGAGCATCTTATCTCATCTCCCCTCC
ACTTGAGCTTCTGAGGGACTGCAGTTGTGCCTTCATCATCTCTGCACCCCCACACTCTAGCCTTCCTTAAAGCTCTAAATTTGTACAGAATAGGATAATA
TGGAATCCAGCGAAGGAGCCAGGGATTCGGGAGTTCTGTACAAACAACCAAGTGGCCCAACCAAATCAATATGATCCGACTCACCCAGCAGTGTATTACA
GTATTGCAGCTTGAATGTGGGGCTCCTGCGGCCATTTGTCACAGTCTTCAGGAAAGGCTTTTTATCAGATTCATAGTGGCAAGTGATACARATTATTGGA
TTTCTTTTCCAACATAAAAAATAGCTATTTGCAGCCTTTTGAAGCTGGGTAAATGAGCCATTGATCTTACCTGTGGAACACCGCAGGGTATTTTTGTCCA
TCCTAACTTTCAATATTCTATGATGGGAGCCCACCCCTCCAGCCAAGCTGGTCTAATCATTATTCCTTGGGTGTGCCTGATCTGTATCCTCCTCCATACC
TTTTCCCACAATGTAGAGAAAATTTTTAGTGGAAATGTCCTCCCTTTTCCTCCTCCTAGAAGCTGTCTTCAAGGCCTGGCACAAATGCCAGTACGTCTAT
GAAGGCTTCCCAGCTGCATCATCCTGTAGTAACTCTTCTCTCCCATGAATTATTACAACCTTCCCAGGATGAGATGACGGCCTCCCTCATAGCTTCCTGG
ACTTCTAAATAGAAAGAGGAATCTGAGAACAGAAGAGAGCTCCCTAAATGACAAGTGTACCCCAGATGTCTGTGGCCATGTCCCAGARGGCCAGCTGCAA
TGCAGGGCCTCTCTTTTGATGTCCCTTGTTCACAACGAGCCATTTCACTTCTAGTCAGGACTATCTGCCTCCTACCATCATCTTGAAGCAATAAATTGCT
TCAGACTGTGTTTCATCACTTACCAGTCAGTCAAGAGCTTGGGTTGCATTCAAGAGCACATGTTAGAGCATTCTGTCTGCTGAGTGTGTGGGAAGGCACA
GAGTAACATGGCCCTGCCTCATGTCGTCAGTGCAGGATGCTCATTTCCAAGGGGGACAAGAAACATTCAGCTTAAATTTGGTAAATATCTTGAACAAAAC
AAGAGGAGTCTAAAAACCCTCCAGGTTTCTTTTCTCTTATTCTGTCTCACTCTCTGTCAAAGCAAACCAGCACCTGGTCTGTTTCTTCATATGCTCTGGG
ATATCTTCCYGAAGAACAGCCTGAAAAGCAGAGTCTTCTCTTGCCATTGTCCACACTGATCTCCAGGAAATCCTTCATCTTTAACCCTGGAAAATGGCAG
CTGGAGAACCAAGGAATACCACCCTCCCATGCTTCCTTATTTTCCCTTTCCAGCTTTGGTACTCCACTCTGTCCTCACCTCCCATTTCCTATAAAATATG
TTTATTCATTAAAAAGTATTTAATGCCTTATTTTTTATTATTTTTATTTTTTTTTTATTTTTTTTTTTGCTAAGACACTGTGGTAAGAATTAGAAGTCCA
ACAACAGACAAGATGAAAACAGTGTCTACTTCTGGGGCTTATATTTTACTAGGAGATATAGACACTCAACGAGTCATCTACAAAAGAGTATCCTGACTGC
CATCTTAGTAAAAGTACAAGGACTGTGGGCATATGAGAGGGGCAAAGAGGCCAAGCTCAGGACATCTGGGAAGGCCTCAGAGAAGAACTGACCCATAAGC
TGATGAGAGTTACCCAGAAGTCAGCTGGAAGCCATGAGGGTGGCATGGCACAGAGGACATGGGTGGGGGCACCCAGCAACTGAGAGCATGGCACAATAAG
GAAGCAGTGGCAGGTATGAGAGGGAGTGGTGAAGACAAAGCTGAAAAGGGCAGCAAGGATATTCCCATCACAGGCCTTTCTTGTACGTTCTAAGAAAGAG
TAGGGACTTATAGCAAAGGGGAGCCATTTATAAGCTCACACAGGGGAATGAGGGCATCCCTTTTGTGTTTGCAAAGGCCGTGCTGCAGCAGCACTGACAG
CATGGATCAGAGGGCAACACTGGACAGGCGGGAAGACAGAGGAGACATGACAATGGCTTCCATGAGGGGAGGGGCAGTGCTGATGGCGTACATGGAGGCA
CTAGTGATGTCACGGAGAGGAAGGAGTAAAGGATGGGGCTCTGGTTTCAGGCTTGCGCCTCTGGGATAATCGTAGCACACCCACAGAAGTTGGGAAGACT
AGAAGCTGCAGATCTAGGGACAGAGGGAAGCCATTTCGGGGATAGTTTGCTGTGTATCTGGGCCTCAGGAGAGGCCTGGACCATTGGGGTCACAAATCAT
CAAAACTTTGCTAGTCATGCTGCCCTGGGAGTGGGTTAGACAGCCCAGGAGAAGAGGAGGGATGCTAAGGAGCAGGCAGGTAAAGAGAAGCCCATGGAGA
AGACTGCGGGGCCATCAGCGAGTGGGGGCAACCAGGAGAGAGGCTACCATGACAGGGCTTGGGGAAGAGTTTTGCAAGGAAGGCAGATGATCAAGCAGGT
CCAGTGTCCCAGAAAGACCTTTTTTTGTTTTTGAGACAAGTCCTGTGCTGTCGCCCAGGCTGGAACCTCAAGAGGCTTGGCTCTGAAGGGAGGAGACAGA
GAGAGCAGCAGCAGGAGAAGGGTGTGGGGTAAAAGAATGGGTTGGTTTAAGACAGGAGGAACRTAAACAGGACTTTAATGTGTTTTAGAATGAAGAGGAT
GAGTGAATGAATGTTTGGTGAGAAGCAATTACAGGATATAAAGCAAATAATTAGAATATAGGCACAGTGTTTACTGACTTAAACACTTAACAACAAAATT
ATATGATAGTGGACTGAATCCTCAGTTTGCAAAACAGAGAATTCAGTTCCATGTGGTGGAGGCAGCATAGTGAGCAGGTTCTGGAGCAAACCTCTGTGGT
GCATTCCCAGTTGAGGGTGGCTAAGGGCAAGTGACCTAATCTCTCTACCAGAAATGGAGATAATCACACCCATCTCTCAGGCAACAACAACTGAGCTCAG
TTAGAGCGCAACAAATGTCAGCTCTAATCAGCTACTGAAACCTAACATTAAGGGAATAAAACGTATCTGGTGGATACTCACCCAGTCTGCTAAAGGTACA
GAAAAATGTGTTCATGTGCTGTTGATTTCTAAACTGCTGAAACTCAGACCAGTCCTCAAGAGCTGGGCCTGTTCCAACTGTGGAAACACTTAGGGTTTGT
ATTGTTTGGCTACAACGTGGGCAGCAGAGTGTCCATCACGAAGGCCATGTGTGCACAGCCAAGAAAACTCTTTTAGGTTCCTACCTGTCTCTTTCCAGAG
CCATCCCTCTGGATTTCAGATGAGATTTCCCTATTAAGGAGGGATGCCAAATGCTGGGGATTTCATAATACTCCCAACCCCAGGCACCAGATTTGTGTAA
TTGCAGTGGTGGAGATTTAATTGTCCTTTGAAGAGGCCCCATACTGTTTGTCTGTCAAATTGTCTGCATGTTGGTGCAGTTGAAATTATAGGAGAAGAGG
AAACCAGGGGTATGTTTCAAAGTAGTTGGCACGTGGTTGGTGATCCATAGTGCAGGTTTCCTTTCTGGAAGGTAACAGGACTGTGTTCTCATAAGGCAGC
ATGGCAGGGTGGAAGCCATATGGGATTTGCCCTCGAATTTCAGCGCTGCCGTTGAGCAGCTGTATGAACTTGAGCTATTTGCATATCTTCTTGAACTTTT
TTGCTCCTCTGTGAATGAAGCCATTGCACCAGCATGTTTTCAGGATTAAGTGAGACAATATGTGGAAGTGCCTGGCACACAGTAGGTGTTCAGTATTTTT
TTATTTTCCATTCTCTGTGTCCTTGTTTTGACTACCAGGTAACTATGTTTACCCTCAGAGATCTGATGTATTTCTTCATATCAAGTATATATCAAGAATT
TCATCCCTCATCCTAATGCATTAAACTCACTGCATGGAAGTTATACCATTACCTAGACTCACCACGGTCTTGTCAGACACCAGCAGAGTTTTGTGTGGCT
GCAATAGAGATGTTATTGCCAGTTGTCAGTATTGAAATGAGGCACTCCTTCATCCTTCAGTGAAATCTGTGCAGGCATTTTCCTTTCTCTGGTTAAACAT
TTTATAGTCTCCTTTAAAAACAATGCCCTCATTTCATTTCCTCTCTCTGGCTGGACTCTTCTCCTCCCTCCTGCTTTCCTAAAATCCATCTTGTTTCCCT
GTAYTGTTTGCTGAATGGGCAGTTTAATGAATACAGCATTTCCATTTTGAAATGTACAGAGCACAAGGCAGAAACTGAATTTCCTCCTGGACAGTTTCCA
TCCACAGTCCTCATTTCCAGTTTTCTCCCTTCTTTTCTTTTCTACAACACAACTGAAATTTGCTGAACCAGAAAGGGGAGGAAGGAGGTGTGACAGGAGA
GGCAATATGCCTTCTCATTGTTTCAGCAAAAGCTTATTAGCATCCTGCTCCCTAGAAGAGACCAAGTGCCCTAAAGATGCCCTGGGTGCCTCTTCTATTG
CACAAAGCTCAAGGTCCAGAGTATACAGTGCATGACAGAATCTAATTACCAAGATAATTACTGTTACCTGCACTACCTAACTGTTGTGTTTTGTAATCAA
AAGCTATATTGGCAGGGGTGAGTGTGAGCCTGCTGAAAACTCAGGGAAACTGTTGAAGGTTTATCAACCYGAAGCAATTTTACTCTAGTTAGTGGGCCTG
TGTTGCTCAGTTAGCAGAATGTTTGGGGATCAGAAGAATACCCCAGAGCACTTCAGCCATTGCATAGACATTAGTTACCGGGTAGGAATATCCTCAGCTG
ACTCAGGTATTCATGTTGTTGAAACCAGACTTCATGGCAATTTGAAAACGTCTGTGCCATTTTTAAATTTGTTCTCGAAATAGTTGATCAGTACCTGACT
TAGCCTTCATTTGGCATTCGGTGAAGGAGAAATTGATTTCCTTTGGGCATGGCTGTATGTACCTGATGGGTACAGCGTGTGCTAAGCTGGATGTAGGTAT
GTATTCATACTATCACCACCTGCTTCATATTCATTATGGCACAAGGTTACAAATTGGCTTTCTGTTTCCCATCTCAGCCAGCTCTAGTTAATTTATGTCT
TTACCTCTGTGCTTCACACACTAAAGAAATGGAGTTTCTACTTTAAAAATCAGGTGTATTGAAAAAATGGTTATAATTGTTTTTTTAAATTTTTAAAGAA
ATTCCAAGTGGAAAACAAGGAATAAGTTGCAAAAGAGTATGAAAAGTTTGGTAATAAAGGCAAGGACACTTAAAAGGAGGGAGTAAAATAACAAAGCAAA
ATGGGTGAGGCTGACAGGCTATAAATTGAAAAGGGAGAAGGGGTCAAGGAAAATGCAGACAGGAAGAAAAGAGACAGAAAAAGAAATGATAGGGCCTTGA
GTAATGGACTCAGAAAAGGAAATAGGAAAAGTTAAGACCAAAGTAAGAATTATGGAGACAAAAGTCAAAGACATCCAGGTCTCAAGAATTACAGGTTATT
GGTGGCCTGGGAGGTAGTGAAGAGGGGCTAGGCATATCCCTCATGAAGTTAGATGTCTGAATTCCTCAGGACAGTGTGACAGTCAGGGAGAATGTCCCCT
GAATATGCTAATTCAGACTCTAAAATAAGAGCCAGCCAGATTCATTACCATGGTTGGCCAGCCTGTAATGGCAACAGAATTCACTGATGCATATTAAACT
GAATTTTTCTAACCAAGGTCTTAAATAAACAGACACCAGCTATAACTGAAAATTAGAATAAGGCCTTCAGTGGTGACTATTTCTGTAGGGAAAGTCTGAA
AACCCTTAACATGGTTTTTTTCCAAATTTTTAGAAATTTGTGGTTCTTAAGGCTGCTTAGTATGTTAGCAATTGCTCCAGTGCAGGACTGTGTGGATCCC
TCTGGTATTTTCTTTTAACTTTCTGCAAGGCAGAGAGTGTGGCTGACCTGTGATATAAATGAAACCCCGTGGCAGGAACATTAACTCCATCTACAACAAA
GGAACATGTAGAGATTTGGATTCTAATGAAAATAATAGAAGCTCCTTCTCCCAAAGTTGGGAAATACAGAGGAGGTCTTCTCAGCCAGTCCAAATTTGCA
AAACCAGAATCATCACAGAAAGGTAGATAATAGGAGGCCTAAGAGAAAGCTCAGTTGTCCTTTGGCCTATGGCCTTTGGGCTTGCTGTAGATCCTCTGTT
GGCAACTGGATGCTCTGTTGRGTCCAGGAATTGATGATAACCAGTAGTTTGTGGGTAGATTTCCATGTTGAGCACTGCCTTCAGCTAAGTGCTTTCAGTT
GCCTCTTGTTATGGTTGGAGCTGAATGACCTTTGTTTACGTGTGTTTCAGGCTAACTGATGAATTACAAGATTTTCACCAATGAGTGGGAAATGTAGCGA
TAATTATTCAGACTGATTTATATTTGTCTTTGGGCTGGTTTTTCATRTATATTTTTAGACATTTTAATATATTTGGATCTGATTTTTTATAAAATCATGA
GGTTCTCTTTATGCTCAAGTGCTGCCAAGAAGTTGGACAGCCCTCCTGTTCTTCTCCCAGTTCCCCAGTCCCTATTCCAGATGAGGGGATGCAGAGTTAG
TTGTCMATTCATTCAACAAACATTTATTCAGCAGTTAGAGTGACTATCTCATCTCAGTTTCCCTGAGACTTTTCTGGTTTGAGCACTGAAAAGTTCTATA
TTCTAGGAAACTCCTCAACCTCAGGCCAGCCAAGACAGTTGGTTACCTTATCATCTACCATGTTCCAATAGAGCTAGGAGAGACCCTAGAAATCATGACA
ATTTCTTTATTATTATTAATTACTTTTTAATATTCTTCTTTTTTTTGAGACAGGATCTTGCCCTGTACCCAGGCTTGAGTACAGTGGTGCAACCACATCT
CATTACAGTCTCCACCTCCCAGGCTCAAGCAATCCCCCTGCCTCAGCCTCCCAAGTAGCTTGGACTACAGGCATGTGCCATCACACCTGGCTAATTTTTT
ATTTTTATTTTTTTGTAGAGACGAGGTCTCATCATGTTGCCCAGGCTGGTCTCAAACTTCCAGTCTCAAGCAATTATCCTGTCTTGATGATTTAAATTCA
AAGAAACCTAGCTTCCCAAAGTGCCAGGATTACAGGCACGAGCCACAGTGCCCAGCCCATTCTGATTTCTACACACCCATTTTAAAGTGCCAGTTAAAGC
CAAGGAGACCTCTTTATCAATTTGTTTTCCTTCTGATTCACACATTCCCTGGATTGGAAGAGATAATTAAGTTCTATGGTTGAAGATGTTATCTTCAGGC
TGCATTAAAGAATAAAATTAAATAAAAGGTCATGCAGTGTGCCAATAAGAGTTTTACAAGCCAGTTGGAATTTGAAAATTAGAGAGTCAAAAAGATAAAG
TGAATCAAAAATCATTTATTTAGTATTGAGGTACCTTTTGGTACATCAAAGAGATCATTTATAAAATAGTATAATGTAAGGAAGTTGAAAGAATGAACTA
CAGTGGAATACTATTATTATATCTACTTATGCCTTTTTTTCTGGAAAATGTTCACAATGATGTGAAAGGATCTAAGACCAGCCTGGCAGCCACCAGATGG
TGATTCTAGTCCTGGCTCAGTCAGTAATAGGTCACTGACCCCAGAGAAATCAATTCAGCCTCCCCAGGTCCTTGGATTTCTTTCTGTGAAAATGAAAGCA
TAGGTAGGAATTTCCCATGGAACAGCTAGCAGAGGAGAAATATTAAAAGTCAGGAGACTCATGCTATAGTTTTCATACTTCATTACAACAATGTTGTTTA
GGACAAGTGAGTTAACCTGTTAGCTTCCTCTATATAAAATGGAAAGTCATTAAAAACCTACATAGCAGGGTTCTTGTGAAGATCAAGTGATAATGTAGGA
AGCATGTACAAATGTCACATTCTGCCGTCACGTAATGGTCCTCACAGCTTGAGGTAGCATTTAGCATGTGTCATGATTTAGTACAAGGGTTGGCAAACTG
TTGCTCTTGGATTAAGTCTGGCTCATTGCCTGTTTTTSAAAGAAAAAAATTGTATATGTGTGTATATATGTTATATATAGGTACACACACATATGTGCTA
TATATAGCATATATACACACATAATATATAAACATGTACATATATAGCATTATATATATACGTGTATAATATCTCCAGTCCTCATGACCAGCCATGCTTG
TTCATTTACATTTGCATACTCTATGATTGCTTTCATGCAACAATGGCAGAGTTGAGTGATTGTTTTGCAACAGAGACTGTATGGCCCACTAAACCTAAAA
TATTTAGTCTCTGACCCTGAAATGTAAGATTGATAGCCCAGGACCAGGCRTGGTGGCTCACACTTGTAATCCTAGCACTTTGGCAGGCCAAGGAGGGTGG
ATCACCTGAGGTCAGGAGTTAAAGACCAGCCTGGCCAACATGGTGAAACCCTGACTCTACTAAAAATACAGAAATTAGCTGGGCGTGGTAATGGGTGCCT
GCAATCCAAGCTACTCTGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGARGTTACAGTGAGCTGAGATGGTGCCACTGCACTCCAGCCTGG
ACGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAGATAGTCCAAGATCCAGGATTCTTTTAGGTTCTGTGTCACTATGTGATCTCAGG
TTAATGATTTATTGTTTCTGATTCTGTTTCTTACACTGTAAAAAAAAAAAAAAATGGTGGGGGGGAATACAAATCCAGCCCCTTCTTTCCTCACAGAAAT
GTTGTTAAGATAGATAAGAAAACAAAAKCATTGATCTCTTCTGGAGGAAAGATGATTTAAATTCAAAGTATTACTCATAAGGTGGATGCTGTTAGATGAC
TCAGAAATGATGACTGATGTGTTATTATTATTCTCTGAAATTAGTTCCCTCATGTACCTCAGTGGGGGATTACTTAGAACAGCGATAGCATACAGACCCC
TGCATCGTGACACTACATCAAAAGCTAAGATACTGCACCAGAATCTAATTTAATCACAGTACCCAGTCAGGAGTGAGTTTTAATTGTTTCTTTATCCCTT
TATCCTCTGAAGACTGTCATTAACATTTACAAGACATGAACTTCAGATCATGCCAACATCTCTGCTGAGGTCACCTGGCAGCTAGCCATTTTAGTCCATG
ATCAAGACAGAGGGGCCTTCTGGGCACATGAGGAGGGACAAGACAGAACAGTAGTGGTGGTAGCACATAAGCTGGTTTACAGAGCAAATACCAAAGATAG
GCTTGTTTCTGTTAAAACTTGAATTTATATTTTATTCTTGGACACATGACTGATATCCAGGCTGACTAAGAACATACACAAGTAAATAACAAAACTTTGT
CTAACACGTATAAATATTAGGACCTCCTTTTTCCCCAAGAATCCCCTCAAACCTCTAGGGAGGATCTCCCTAAAGGAGCAGCTCTTCATGTGGCTGAAAG
CAGCCACATAAGGAGGCTAAGGCTGGCCTCTGAAAGTTACCTCGGCCCAGGTGCAGCCCATTTATAGACCCTCTATACCCAACTCCAGATTTATGGCATA
GATAAATTAGTGGGCAATCATTTGCTCTATAAAATGATTCTTCATTTTACAAGCTTATTCACTGCCGCATTCCTTTACTGATCTATTCCTTTACTGATCT
ATTCCTTTACTGATCCCTCTATACMCAACTCCAGATTTATGGCACAGATAAATTAGTGGGCAATCATTTGCTCTATAAAATGATTCTTCATTTTACAAGT
TTATTCACTGCCACATTCCTTTACTGATCTATTGCCACTAGTGCAGTTCCAATAAAATCTCATTGTTAGAAATCCAGTACACAAATGCTTTTTCACTGCT
AACCTGGATGGAAAGATGAAGAATACAATGCACTTATAATCCCCTTAGATCTTATGATGTGGCTTTGGTCAAAGTCTTCTGTTCTCAGTTTAGGAGCTTA
ATGTTCCTTGGTACTTACAATTGACAGGGAGAGACAGGACAAAAGATTCTTTAAAATAACAATGAAACAATATGTGATTTCATTAACTAACTTGCTCTAA
TTATCTGCATGAGATTTTTAATAAAAGGATCAGTCATACAGAAATAAGCTAACTGGCCTTTTGATGATGAGTAATAATGATACTGACAATAGCTACCATA
TTGAGCATTACCATGTGCCCCATAGCATTCTAACTCATTAACTCATTGAAGCTAAAACCTAAAAGGTAAGTATAATTATTTTCATTTCTGTATTACAGAT
GAAGAAATTAAGGCACAGAGAAGTAAAATATCCTACCTCATGTCACAAGCTGCTATATTTGGAGTCAATATTCAAACTCAGTGGCACTGACTTTATAATT
TTGCTACTAAATAGTTACAGTGCTGTATTGACAAGTAAAGCAACTGTCAGGTGCTGAAATGTAGGAGCAAGAGCAATACATAACATGTGTTCTACCTTCA
AGAAACTAATAAGAATTTCTGCCTCAGGCCATTAGAGAAAAACTGGTTTGGGACTTGTCCTTTGCCATAAAATGAAAGAAAAAAGGAAAACTGGACAAAA
TATATCAAACAACTAATTTCATACCTTGGACAACAGGAAGGTTGTTGTTGGACAACAGGAAGCCAAAGTGGAAAGAACTTGTTGGGTATATAGTAAATTG
AACAGAGACCCTAGAAGGGCCTTGGTGTAATAGTAAGGCTAAACTAGCCCTAGAATCAAGATTATTTTAGACTCACTCTGGTAAAACTTAAAAACAAGAC
TTGAAAGGATCAAGTACATCTAGAGCTGCCAAAACAATAGCCAACACTTTTTAAAGGAAAAAAAGACAATCTAGACAGACACTCAACATGTAAAATTTAT
TATATCTATCATTCAATCAAAAATTACTAGACATGTAAAGAAGCAAGAAAATATGACCCACAACTAGAACACCCACTGAAGAGAAGCAGACCTAGAAATG
ATAGTGATGATGAAATTTGTAGACAGGCACTATAAGCAACTATTATACATATATTCAAGGATTTAAGAGAAATCAGAAACATAATGMAAAGAGAAATGGA
AACTATAGAAAAGGAATCAAATGTAATTCTATAACTGAAAAATACAATATATGAAATAAAAAAATTCACCTTATGGGCTCAACAGTAGATTAGATACTGC
CAAATAAAAGATACATGAACTCGAAAAGATAGTGATAGAAGCAATTCAAACTGAAGATAAAATGAGGCTGAAGATAAAAAGGCTCTTGTAAAAATAAGAA
CAGAGTCTCATTTTTAAATAAAAATAAACAGAGTCTCCATGACCTGTGGGACAACATCAAGCAGACTAACATATATGTAAATGGAGTCCCAGAAAATGTC
AGGGTAATGGCAAAAAAACCTGAGGAATTAATGACTACAATTTTTCCAAATGTAATAACAACTATAAACTGACATATCCAAGAAACTCAATAAAACCCAA
GCATGATAAGCGACAAGAAAATCATTACAATCAACTAGTCAGAAAGCAGCAATACAAAAAAAACTTAAAAGCCTCCAGAGAGTTGAAACACATTATATAA
AAAAGAAAAAGATGAGAATAATCACTGATGTTTTTTGAGAAAATGCAATGTCTTGTAGAAGACAATGGGTGACATCTTTAAAGTGCGTGAACAAAAATCT
GCCCACCTAGAATTCTATAATCAGCAAAAATATTCCTCAAAAATAAGAATGAAATTAAGAATTTTTTAGACAAACAAAATTTGATGAGCAATTTTTTCAC
CACTCTAAGAAATGTCGAAGGGAATTTATCAAGTCAAAATAAAATAATGGGAACTCAGATTTGCACAAAAGAGAAAAGTTTCTAAATTAATAAATATGTA
AGCTGGGTGTGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCACGCGGATCATTGAGGTCCGGAGTTTGAGAACAGGCTGACCAACAAG
CTGAAATCGCATCTCTACTAAAGATACATAAATTAGCCGGACATGGTGGCGTGCACCTGTAATCCCAGCTTCTCAGCAGCCTGAGGCAGGAGAATCGCTT
GAACCCAGGAGGCAGAGGTTTCAGTGAGCCAATATCACACCACTGTACTCCAGCCTGGGCAACAGAGTGAAACTCTGTCTCAATAAAATAAAATAAAATA
AAATAAAATAAAATAAAATAAAATAAAATAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATTAAAATAAAATAAAATAAAATACAAAATAAAA
TAAAATAAAATAAATAAAATAAAATAAAATAAAATAAATAAAATAAAATAAAATAAAAAAAATAAAATAAAATAAATAAAATAAAATAAAATAAATAAAA
TAAAATAAAATAAAATAAATAAAATAAAATAAAATAAAATAAATAAAATAAAATAAAATAAAATAAAATATAAAATAAAATAAAATAAAATAAAATAAAA
AATAAAATAAAATAAAATAAAATAAAATAAATAAAATAAAATAAAAATAAAATAAAATAAAATAGTGAGTAAATATAAAAGGCATTTTGGTTTTTAAAAT
AGCTTGAAAAGTAAATGGACTGTTCAAATAAAAAATAATAAAGATATAATAATGATATAATAGGAAAAAATATATGATAATAGCATAAAAGAAAAGAGAA
TAAGTGGAAGTATACTATTGTAGAATTCTTAAATATATGAAGTACATATCTAATGAAGACTGTGATAGTTAAAATGCATATTGTAAATGCTAGAGCAACC
ATTTTTAAAAAATGGTATAGCCAATAAGCCATAGAAAAGATGAGATGGAATTTGAAAAGAAAAACCTCATATGAAATGAAAGGAAGAAAGGAACAGTGAA
AGAATAAAGAATAAGGTACAAAAAAATCAAGATGATATAATACAAACTCAATATATCAGTAATTACATTAGGCATAAATAGACTAACCATGCCCCATTAA
AAGACAGAAATCGTCAAACTGAATAAAAAAAGCAAGATTCAGTTATATGCTATTTACAAAAAAAATATTTTAAATATAAAAATAGCTAGGTTAGATATAA
ATGGATAGAAAAAGATATACAGCAAATTCTGTATACGTGAAGGCTGTCATAATTGTACTATCTGAAAAAGTTGGCTTCAAAATAGAGAACATTATTAGAG
AGGAGGAGGGACATTTTATAATGGTAAAATAATCTATTCATCAATAAGACACAGTGATCTTAAAAGTAAATTCACTCGCCGAGGTGGGCAGATCACAACA
AGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAGAAAAACAAAAATTAGATGGACTTGGTGGTGGACACCTGTAATC
CCAGCTGCTCTGGAGGCTGAGGCAGGAGAATCGTTTGAGCTGGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCATTGCACTCCAGCCTGGGCGACA
GAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGTAAATTCATTCAATTACAAGCTTTGAAAACTACATGAAGAAAAAACTGACAGAATT
GAAAGAATACACACATCTATAGTTGTGGCTGGAAATTTCAACACTTCTCAGCAGTTGTTAGAACAAGTAGCTGGAAAGTCTGGATATGGAAGATTCAAAC
AATACTATCAATCAACTTGATCAAATTGATATTACAGAACACTGCATTCAACAACAGCAGGGTGTACATTCTTTTTAAGTGCACATGGGGTATTCACCAT
GATAGACTATATGCTGGGTTATAAAAGCTTCTCAACAAATTTAAAAGGATTAAAATTATATGAGGTCTGTTTGTTGACCACCATGGAATTGGGTAAGAAG
TCAAAAGCATTAAGATATCAAGAAAATTCCCAAATACTTGGAAATTAAATATCACACTTCTAAATAAGCCATAGATCAAAGAAGAAATCACCAGGAAATT
AGAATTTATTTGAACCTTATTGATAATAAAAACACAATATATCCCAGTGTATGGGATGAAGCTAAAGCAGTGCTTAGATGGAAATGTGTAGGTTAAATGC
TTATGTTAGAAAAGAAGAAAGTTCTAAAATCAGTGATCTAGCTTCCACATTAAGAAGCTAACAACAACAACAAAAATACTAACCTTAAGTACGTAGAAAA
AAGTAGAAATCAATGAAATAGAAAATAATAAATAATAGAGAAAATCAATGAATTTTAAAACGGACTTTTTGAAACAAAGCTATAAAACTGATAAACTATC
AAGCTGGTCAAGAAAAAAGAGAAGATGCAAACTGGCAATCTCAGGTGTGAAACAGGACACATGACTACACATACGTCATTAAAAGGGCACTAAAGGACTC
TAATGAACAAACATATACAAAAAATTCAACAACGCAGATGACATGCATAAATTCCTTAAAAGACAAATTGCTAATACTGATTCAAGAAGAAATAAAAAAC
CTAAATACTCCTATAAATTAAATGAATTGAATTCATAAGTAAAAGCCTTTACTCAAAGAAAACCCCAGGCCCAGGTAGTTCCCTAATTAATTCTGTGAAC
CATTTAAAGGATAAATAATAACATGACTATGCAAACTTTAAGAAAACAGAGAAAGAGGTAAATACTTCCCAACTCATTTTATAAGGCGTGTATGACACTG
ATATCAAAACCAAAGATATGGTAAGAAAACTATAGACCAATATCCTTCATAAATATAGACACAAAAATTCTTAACAAAATATAAGCAAATTAAATTCAGC
CATATGTAAACTGGATAATATACTATGTTCAAGTGGCATTTATCTTAGAAATTTAAGGTTGGTTTAATATTTTTAAATCGATCAATATAATTTACCACAT
TAACATAATAAAGGAAAGAGTATGATCATTTCAGGAGGTGCATAAAAAGCATTGCACAAAATTCAACACCCATTCATAATAATGACTTTTGGAAAATTAG
KAATAGTGACAGCTTCCTCGACCTGTTAAAAGGCAGTGATGTCAAATCTTCAGTTTAATTATGAAAGAGTGAATGCTTTCCTACTACGATGGGGAATAAG
ACAAAGATTCCCGTTCTCACCACTTCTATTTAAACATCATATTGCAAGTACCAACTAGTATAATTAGACAAGATAAAGAAATCAAAGATTACAGATTGCA
AAGGAAGTAGTAAAATTATTATTATGAATAAACAACAGAATTGTGTACTGTCAACCTAAATAACTAAAAGAGAGGGGCTCTGTGAAAGAAAGATGTTTAT
CTGGGAATAGAGCTTTGCAATGGAAATACCTAGGCTGTAGTTAACTATGTGTGTATTCAGGGAGGTAAAGGAAGACAAAGCTTTTTCAAGGAAAAAATGA
GGAAGATTACATAATTGTTTTAAAATAATTATCCTTGACTACAAAGATCAATAAGAAGGGTGCGATGGGTACGCTAAAAGCCCASACCTCACAACTGCAC
AATATATACACGTCTTCTGCACTTGTACCCACTAACCCTATAATTTAAAAAAATAATAATAAAAAATAGCAAGAGTGACACCTTCTGAGGTTGGACAGGT
AGCTGCTGGGCAGATGTACTTACAGAAGTAAGTTTTATGCAAAGTCTTGATGGTCTCTGTGCAAAGTTGTGGTTTTAGCGGTCTTTTTTGTTATCAGGCA
TGCAAGCATGAGAACCCTCTCTTCGTGACCTTCCCTAGCTGTATTTGTTTGGGTTTTCATAACATTTATGCCTTCATTTTTATTCTGATAACTTTCACAG
TACATAGAAAATCCTAAGAAAACTACAAACATATGCTGCTAGAAGCAAGAAGTAAACTTAGCAAGGTCACAATATACAAAATTAAAGTTTATGTCTGTAT
ACTAAAAACTAGCAAATAATATTTTAAAAAATAACATCAAAGAACATGAAATACTCAAGAATAATTTTAATAAAATACATGTAAAATTTAGGAGATTTTT
AAGCAGACTTAAATAAATGAAAGAAAAATTTTGAAAAGGAGAAAAAAAATTTGAGGACTTACTCTGATTTCAAAAACTTTCATCTACAATAATCAAAGTC
ATGTGGTATTGGCATATTGGCATAAGAATAGACAGATCAGTGGAATAGAATAGGTCTATGCGTATATGGTCACTTAATTTTTTACAAAAGTACAAGGTTA
TTCAACGGGAAAAGGATAGTCTTTACAACAAATAGTGTTAAAACAGATATCCTTAAGGGGAAAAAAATGAACCTTAGCCCTTATCTCATACCCTGCACAA
AAATTAACTCAAAATGGATCATAAACCTAAATGTAAAATCTTAAACTATGATAATTATAGAAGAAAATATAGGAGAAAAATCTTTTGACCTCAGGTTAGG
TAAAGATTTCTTAGATTACTAAAGGAACTAACCATTTAAAGAAATTGATAAGTTGGACATCATCGTAAGTAAAATTTCCACTCTTTGGAAGATATCATTA
AGAAAATGAAAGGCAAGCCACAGAGGAGAAAATACAATACATACGTCTGACAAAGGACTTGTAACTCTCACAACTCAATTAAAAGGAGACTAACAAGAAA
AAATGAGCAAAATATTTTAACAAACATTTCACAAACAAGATACACCAATCCCCAGTAAGTACATGAAAAGGTGCTTGAGATCATTAGTCATCATTGAAAT
ACAAATTAAGGCTAGGTGTGGTGGCTCCCAACACTTTGGGAGGCCAAGGCCAGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGT
GAAACCCCCATCTCTACAAAAAATACAAAAATTAGCCAGGCGTGGTGGCACGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCACGGGAATTACTTG
AACCTGGGAAGTGAAGGCTGCAGTAAGCCGAGATTTCGCCACTGCACTCCAGCGTGGGTGACAGAGCAAGACTCCATCCCAAAAAAAATGAAAAAAAGAA
AAAGAAATACAAATTAAAACCAAGACAAGACATTGCTAACATTCACTAAAATGTCCAAAACAAACAAACTATGCAATAATGTGGATGAATTCCCAAATCA
TTATGCTGAGCAAAAGAAGCCAGACACAAGAGATCACACTGTATGATTCCTTTCAGGCAAAAGTATAGGAAAGGCAAGCCTAATCAATAGTGACAGGAAT
CAAACCAATGGTTGCCCGAGACGGGGGTGGGAAGGAATGGACTGAAAAGGACCATGAGTGAATTTTTAGGAGTGATGGAAATGTTCTGTGTCTTATTGCT
GTAGTAGTCACACAGGTGTGTTCATTCGCCAAAACTTGTCAAATATACACTTAGAATGAGTATTTTCTATTCTATTCAAATTTTGCATAAAAAGAAGCAG
CTATTTTGTTGTTCATGATAGAAGCAATATTAGCACTTACTGTTCTCTAGCTCTTTCCCAAGGTTTTGCAGCACTATGAATTCCTTTAGTCACTCAGAGA
ATTAGGAAATTAGCATGGGTTGTTTTGATCTGATTGGGCATCACAATAGGAACTGACCTTTCTGTCTTCTGAGCTCTAACTTTGGATCTCATGTTTTGCT
CCTGGTGTGTAAGTCCTAGCTCTCCTATTTGGGCCTCCTTAAGGGTGGGTGCTTGGTGCAACTGTCATAGTCCTTTGCTTAAAACTTTCTCCTTGGCCAG
GCACAGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTTAGGAGTTCAAGACCAGCCTGGCCAACTCGGTGAA
ACCTCGTTTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTAGCAGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACC
TGGGAGGTGGAGGTTGCAGTGAGCCGAGATGGTGCCGTTGCACTCCAGCCTGGGCAACAGAGCGAAACTCTGTCTCAAAAAAACAAACAAACAAACAGAA
AAAACTTTCTCCTCAGCTTATTTTACGAACATAGTTGTAAGTTGAATGAATGCACGCCTGGAGAGCAATTGGGATGCACTACTGTGGAAAGTAGAGGTAT
TCAGAAAAGGCTCAACAGCCATATATTAGGGATATTATGAAGTGATTTAAACATTAGATGATGGTTGGACTAGAGAAGTTCTTTCCCAGTCCTGATTATG
TGAAAAGAAAGCTTCCAAGGGCAGGAGACATTTCTCCACAGGGGGAAGTGAGTCTAAATATTAGGAGGGTCAGTAGCCATTCTGACAACCTACCCACCAT
AGACAGAGTGGGATTCACCCCTAAACCAGCAGAGTGGTTAGATGTCTGTCACCAGGCATGTGGGTCTGAATCAGAAGAAAGAGAAGGATATCATTTTGGA
AATTTACAAGTGAGACATGAAATCTAATAGAAGGGATTTCAAAAAGCACAGATTCATATGAGAAGTTCCCTGGAAAGAAAAGATGGGTGCTGATGTGGGC
AGGGGCCATCTGAGGATGGCAGCTTCACAGAATTGCCCTCTCACTCCACTCTGGGGCCAGGACTCCCCACTCCTGTAGTCTTCTCCCTAAGATGAGTAAA
TATGAATTCAGCACCAAGTAAAACGGCCTACACATCCTCTCACCAGACTCTTTTGCTTATAATCATCATTATTACCTTAAAGCCAAAGTTTACTCATCTG
TAAAATSAGGATAATAATAATTATAGAATCATTGTGAGGCTTTGATAAGATAATGCCTGTAAGTGTTTAGTACAGGCTCATAGAAAGTACTTAGTAAATC
CTGGCTATGATTGTGGTTATGATTTTGTTACTTGTTTCATCATTAAACCATGTATCATTTACTCCGGAAACAAAAAGTAGGAATGCTATTTCCCAATCTC
TGTACCACGCTCACAGCGAAACAGCCTGTGCCATCCACTAACATACCCATAAACAATCTCCACTGCATTACAATCAGGAACTTAGGGAAAATGAGGCTTT
TTTCTTGTTAAGCTTTATCTGCAGAATCTCAAGTAGTTTTTAGCTGTGCTCTTTTATATTCCAGTCAACCTCATTTCCACAGATGTACTCCCCTAGATTG
AAAGTTCCGTGAGAGCAGGCATCTGGTAAATTATGCCCACCACTCTTTCCCCAGGGCCTAGCAAGGTACTTGGCACTTAGTGGGAGCTCAGTAGATATAA
GATGAATGAATATGGTGCCCTTTCCAAAATCCTTCTACGCAAGTCCTGCTGCACTAGTCGCTGCCCTGCTATGGATGCAAAAATGAGTGAAAGGTTGATA
CATTGTAAACGTAACTGTGATCATTCTGAGTAGTCATTTAACCTCTTTACAGCAGCTGGATGATTATTTCTCAGCTATACGAAATTATTAAATAAGAAAT
AATTCATGCTTCATGTTCCATGTCCTCCATCATGAGGCCTTTTTACCAGTTTAATTAGTTAGTAAAGGACAGCACGCTTTCCTCTCCACCTTTTATCAAG
AATTCTAAAGGCTTTAGAGAAAAAATGACTCAGGAGGTGAAACAGCAGGACTCCTGGTGTTATTTATAAACTCGTCCCTGGCATCTGCAGCAGCAAATCT
CAAGCATCGTTTACCTTGCCCCGTAATTCTGGAGTTTGAGTATAAATGATGAAACAGCTAATGGCATGTTACCCGACAAAGTAGCATTAGCTTCCTCTAT
CATCGTCAGCTGTTTTTTTTTTTTTTTTTTTTTTCCACAAAAATGTGTAAATTGCAGTTTATCTCACCAGAGAAGCATTTGATCAAATGTACTTTAATTA
TATTTTGTGTGGCTACTGAGAATAATCACTGTTTCTTCATCATAAGGATTGTCCTAAAAAATTATATTAACGTGGGTCAACCATAAACAGCAGTGGGAAT
TTAGCTACCTTTAAATGCTAAATTTACCTCTCAGCTTGTAGATTTCCTACAAATGAATTTCTTTGGGTCAAGATTTTTTCATGAGCATTGGCAWTTAGTG
GATATTCCTTGAACCAACCTTTTACTTTAAGTGAAATGTATTTGCATTAAGAGCATATTCATTTCCCAGGCTGCTTCTTAACACATTTGTTTCCCTTTGT
TTTGGAATTCACAAAGCTTTTCATGGTTTGCCTATTCATTCCCTCACTGCATAATGATTTATAGTAGGTTATATTTTAGAAGGTTTTGTGTCAAAAAAAA
AAATTTGCATCTCTTCATCAGGTAGTCAGTTAAAGAGGCTGCGTTGAGCTGCCAAATGGGACGCTGCCAGGTGACCAAGAAAGAAAAGCCTACTTGCATA
AATAAAACGAAAGCATATTAGAACATTTAGCTAACATTCACCCAATTTTTCATAGTTGGCAACTTCTAACTTTGTTTCATCTTCAAGGATTATGGTTTGA
AGCAAGGGTAATTCGCCTTGTGTCTTCCTTTTAGTTCTTCCCTCAGAACCTGGTTTGGGAAAAACCTCACTAATATTTTGTAGCATCAGCCAAGTAGTTG
TCATCTTTTTTGTAACCAACTGCCTTATACAAAAGCATAGACACACTTATTTTGGATAAATCCATACTGTCTGACACATAAGCAAATATGGAAAATATAA
AGGAATCCAAAGGCTCTCACACAGATCAATTTTCTTCATTGGCCAGAGCTGCCTCTAAAGAAATTCACATGACACCGTCTTCATTTTTCTGAACATGATA
CATATTATTCATTAGCATTTAAGCTTATATCTAATGCACATTTTTAGATAGGATTTTTTAGTAGTAAGACTTTTTTATATGTYTACCTATTATTATCCAT
GGTAGAGTTTCTTGTGACCTTGACCCTGTGATATCTGGAAATGAAAAAAGCCCATTTTGTTTCAGACTCTTGGTCCCTCTAGCTATAATTCTACTTCTGA
CAGTGGCCCCCAGAGGCATTTTGTGGAGGGCTGCTGCCACTTTGACATCACCCCTAAAATTGTTGGGCACACCCTCTCTAAAATAATTTTATTTCTCATT
ATAGCTTAATCACTATGAATTTMTACTAGAGTCATTTAAAAGAACAATTTTAGCCTGCCCTACTTGTTGGGAAGAATAGGGGAAATTAACAGCATCTTGT
AACTGGAAGGACCCTTATAGGTTCCTAAGACTGATTCCAATTCCAAACAATAATACCAGTCCGTAAGTGGATCTGCTTATAGAGAAACACCTGTTGCTTC
TGTTTTTTGTCTCATATCCAGTTAGTTTCCCATTCACAGCAAAACATTCCCTTCAATSCCAAGGAAACTCAACCTTTTTGATTATTAGTATAGTTTCATC
AAAGTTTCTTTGAAAGGTAAAATATCCCCTTTTTCTTGCCTATAATTTTTAAACCTTTTTAAAGGTTGTAAAGAATTAGTTAGTCAAGGCTTCTTCTCAT
AAAGCCAGGGTTTCTTTTTTCCTAGACTCTATGTGCTTAAGTGCTCTATGATAAAATGTGGATGTTATAAACTCATCAGCTTGGCCATGTGGAAGTGAAA
ACCACTGGTCAGAGGTGTGTGGATTCTCCCTTGTGACCTATCTCATATTACTGTGAACCAGCTGGCCCCCAATACCATAAGCATTAACAATGGCTGACAA
AATTGGGACTCCAGCTCCATTGTGTCACCTGGGCATCTGTGCAGCACTCCTGCCAAACAGTCCTGCTAAACTATTCCGATTTCAGATGGGAATTTGGTCA
GAAACAGCATTTTCTTGTAATACTTCCCACTTTTCTAATTCCCTTGTTTCTGGTTGCCAAAAGAATGGGAGGTAGACAGGAAGAGGTGGGGAAAAATGTT
TAAGTTCAAATGTCATCTCTGCTAAAACCTGACTTCCACTGCACTGTGGCTTTGTAACCTCCTTGTGTTTGTAGCCAGCTATCAAAAATCTGTCCATTTG
AACATGATTATACTAAAGCATGATTATTTTAAAGCTTTCATTATAAACTCTACACTGGAAATAATCTTTAGGGTGTTTTCAGGTTTGAAAACCCATATGC
ACTGAATGTTCTCATGGTGTGCTCTGTCAGAAACAATTTTTAATGATGTTTCCTCAGTGAGCATCATTCCCTAGATGTGGACAGAGCTGCAGAAAGGCAT
TTACAAGGAGTCATGCTGGCTCAGATGGGTGAAGAGGGAACTTTATTGACGTCAGACCATGAAAAGAGAGTGGGCAATAAATTCTGTATAGACAAAGGTG
AACACAATAAACTGAGACTGACATATAAACACGAGTACAATTCAAAATACAGTGGTAAGGAGGTGTGGATGTTTCTTTATAGCTGTATATGTTTTTGACA
CACCCGCACACACAGAAAATTATAAAGTCAAAGATAATGAACCTAGAGTCATGTGGAAGGTGTGAGGTGGGTCAAGGGAGAAATAGAGGTTATTAAGGAG
TATAGGTAGGTATTGAAGAAGAGCCTCATTTTATACACATACAGACACATGCACACATATAYACCTATATATACTCTCTCTCCATATATACATATATTTA
TATTTATGCACATGTAAATACATATATGTAATTTATATTTATTTTCCCCCAATACTCCTCATACCTAGAGACCATGAACTACATACAGAGGGAAGGCACA
CTTTCTACCTGAAGGCCAGCCCTTATATTGGTGATCAGTTTGTTCAGTGCTCTTAATCATTAGAGTAATTGTGTATAAAATCATGAATGGGGACTTTGTG
AGTCACTTAACATTTGCAAGAAGCATATGAACGTGATTGTTCTTTTAGAGTTTGTTAGGTGGGTGGTGGTAAAGYAATACAATTTTCTAAATGGTAAAAT
CATGAATCTCATGCATGTCAAAAAATTTATTCAATTCATTAATTAATGAGAATATCAGTAAGATGTTACACCATTTTAAAGAGCATTTGAGAAACCAAGT
CTGTGCAACTTAATAAATATATATTAGGATAAAATTGCTGGGTTAGATAAAAACTGGTTAATGTCTTAGAAGCCAATAAACTGTAACATTTGAGATATCT
GTTCTATGGGACAAAATTCATTTTCATCTCTTTTAGACATCTTTAAGTTGACATGTAACTTCACTAAATCTGGGACCTTTAATCAACAGTAAGCAGTGAG
TCAAAATAAGTACATTCTAATAAATAATCTTTGGGTGGACTTGGCCCCTGAATGACATTGAAAGAATGTACTGCCTACCTTTTTGCTTTATTTTTAAGTC
ATGAATAATTTTTATAAGAGTGGTGAAAGGTATAAGAACATACTGAGTTCTACATAATAGTGTTTGGATCTCAACTTGTATACTGCTATATGTTCACATG
GTTTTGGTAAGGAGAACTGACTTGTCATTCTCCAAGGCAGAAGCTGAGAGTAGAACTCCCAGAAAGTGGGATTTACTTACCATAAGTTGCTGTAGAAAAG
GAGGATGGAGTCAATCTTTATTTCTGCTTTTGTCCCACTACATGTTAAGAATTTTTTCATTTACCCATTCAGTGATTCAACAAATATCTGTTAAGCATCC
ACTAAGTGCCAGGCATTGAGGATTGGGGTGAAAAAGCCCCTGCTCTTAAGGAGCTTACATTCTAGCAGAAAAGACAGACAACAATAATAAAACCATGATA
ATATTGTTTCAACTGGTAGATAGTGCTATGAAAAAGAAAAAGAAGCAGCAGCATGAAGGTAAGGGAGATAATGAGTGACCACATGGAGGGGTGGACTTTA
GACTGAAYGATCAGGGAGTCCCAGGAGGACTGGCAGGCCTGCAGAGTGTGGCCCGGCCACAGCGATGGGCTTGGTGTCAGGTAGGGCTGCCATTCATCTT
CTGCCCACTGTATGAATGTAATTCAAGTCTTTACTCTATTTCATGGTCCAGGATACCTCCGACCCAAGTTTCCATCTCTTTGTCATAAAGTAGAATAGGG
GTGGGAGATCAGAGCTGCAAATGAAGCAAGTCATGCAAATGGTTTCCCACTGGAGAAAAGGCACATTTTTTCCCGAGATAGGGCAGTGAAGAAGGTACAG
AGCATGGATTTCAGATCAGAGACACCTGGGTTTGAATTCTATTTCTACCACTTACTACTGTATGACATCAGACAAGTTACTAAAATCTATTTTCCATCTG
TTAAAGACACATGAAGATCTCTCCCTCATAGGGCCAATTCAATGAAATCATCTCCAGAAAGCCCTCAGTACACAGAAAGCACTCAACAAGCAGTGACTAT
TATTCTTGTAATTCCCCTATTTGGGGAGTCTGTAGCATCATCTTCATGTAGTACTGATTAACTAGTCTTAGTTATTGCTGCCACACAGTTTTACCACCTT
ACAGAGATGACTCATTATCACACAGTTCAGATACTGTGGGACCTGCAAGTCCACCAGAGGTGWTGGTGTTGACCTAAACTATTTGGTCAAAATTATGCCC
ATAGCCAAGCCAAGGTTTCCAAAGAGATAGAAGGTACATGGGCTTAGTGGCGCACCTAAAACTTTTTAGCCCAAGTTTGGAGATTCTTGGGTAGCTTGAG
AGTTAGAAACTAAAAGTAGAATACTTTTAATGGATTTGTGATTGAGGATTTTTTTTGTTTTTACTTTCTGGTCCTGTCCTGTCCTTTGTTTTCCTTTCAT
TTYTTCCCCCTCTTATGAGTTGAGTTGCTTTCTCTTCTAGGGAGCTATGTGTTAGGAAGCTGCTAATGAACTGCTTTTGAGTCTAATTTTCAATAAGATT
TAATACAGTAGGGATTAAACTGCCCCCTTGAAAAGAGAGATTAAGTGTCTGCAAATCCCATGAATTGATTTTCTAATTGTTTTGGTAATAATGTGTATGT
GTTTTTCATTTGCTAATGTTGCTGAAAATAATAATAATTTTAATTAAATTTTAAATGTATTTTTAGTATTTTAAGGATTCTAGAGGGACTAAGTTTTCTT
GCAAGGAATATGTTAAGACCATAACATTCTTCCCTCACCCCATAATTATTATGATCAGGGAATATCTATAATATATTCCATGGCAATTAAATTGCATACC
CCAGACTGTTCAAGATGTGTTTATAAAAGGAGAAATGGATTTCCCACAGCTGCTYGCCTGTGAATGCATCCTTCACACAGAACCACAGTAGCCAGTATAT
GCACTAAAATAACAGACTTGAATTTAAACTTTCAGTGCTTTCAAACGTCTTTCAAAAACTTCTCATAACACAAATTGCTTAATTTGTGTACATGAAAACT
CACTGATTACATATGAATGAGAGTCAACCTATAATAATGGTGACTTTGAGAATCTTTGTGTATGTGCCCACCCATCTCTTCAGGAATTAGCAGGTATTCA
GTCTTGTTCCAACATTCTGCACAAGCCACAGTCATTAGTGAGAGCACCCTGTGAAGGCTGAAATCTGCTGTGAACAGTATGGGGCAGCTCAGGTATTTTT
TATAATATTCATCAGATGGTCTTCACCCAGTCACGTAGCTGGAAAATGTTTTCTGTGAGATGAGTGTTTACAAAAAAAAAAGATTCATAGAGAAGGAGCA
AGGGAAGGAGGAAGAGGGAAAATAATCCAAACCAGGGTCAAGGCAGTCATATAGACTAGAATCACAGACCAGGTGTTCCGTCTTTAAAAAGCGATCGTCA
CAACTTTGATTTATTAAATTGGAATTTAAATCTTCCAAGCTGTAATGAATTGATCATGATACTGTTGATATAGATTGGCTCATCTTTGTGGCTGTATAAC
AACTATAATAAAGAATTAATTGAGTACCTATTAATCCTCACAAGCATCTTGGAAGTTGGATATCATTAGCCCTGTTTGCTGATTGAGGAAACTAAAGTTG
AATGGCTTTACATCATTCTTTCAAAGTCACCCAGGTTTTAAGCAGAAGAATTTGAATTTGAACCCAGCCCTACCTGCCTCTAAACCCCATATTCTCTCAG
CTGTATCTCCCTCCTAGGTGCAATGGCTCCTTGGCTGACATGCTGAAGGATATGTCTTCACATTCTTAAACTCCAAACCTCCCTTGGAAATAATTTCCTA
ACAGTGAAACTGCCCTAATAATGCYGTAGTTTGTTTCCAGGGGAGAATATTTGCCTTCAGAGCAGGCTCCTTCTGCCAGCTTTCCATTTCATAAATGCAT
TTTATGACTCCCTCTTCAGAGCTCATATACCTGTCAGAAGATCCTATGCAATTTATCCCTGGGGATAGTTAACATTCCCCCTGACCCACCCACCCTGCAA
TGTCAGGTGCTCTCAGAAATGGAAGTGCAGGATCTCCCTCAGTGCCCATCTTTTAGATCAGTAGCTGTCACTGATAAAATGTCTCCTTGGAACTACAGAG
ACAAAGTTGCAAGCCAGCCAGCGGGCCCACCCTGGTATCTCCTGCAGTTATCAGCATTCTCACTAGTGATTGATAGAACACGTTTTGGAGTTGTTTTAGT
TTTGTAGAATGTTCATGGGAACTTAGATGATATCTGAGGAAATGCCTTCTTCAAGTCACTAGTTCTAAAGGAAGGCAGCCAAATTCCTTCAGTCTGAGAA
TTTTGGAGCTCTGAAGAGGGCATGGACAAATATTTCTTGCCTCTCTTTTTTAAATATGGAATTTGGAGGCTTTGTCTGTCGACCACCATGCCGTGTCTTT
AAGAAGCTCTGACTGGGAAGGAAACAGCCCCAAGTGTTCCAAGCTCTGTCTGCTGGAATTAAATGTCCCTTCCTGTTTCCTGACATCCACAATTCTAATT
CATCCTCCATTCACCCTCAGTGACTTCTGTTCTTTGAAGGTTTTGACTCTGTCCTTGTACATGAATTTGACATTCACCTGATACTCTGTGGGGTCCAGAG
AGCATGTACTCCCCACCAGCTTCAACTAACTCTAAAATGTCACAGTTTCTGTTAAAGTGCTTTCTAGCTACTACCAGAGTAAACATACAGATTTGTCTCC
CCTGGGTGTGCTGTGAGTTCATGGCATAAAGTATTTTCTGGTTTTAAAATGGACTTCTGGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGAT
CATGAGGTCAGGAAATCGAGACCATCGTGGTTAACACGGTGAAACTCCTTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCAGGCGCCTGTA
GTCCCGGGAGGCGGAGCTTGCAGTGAGCCAAGTTCACGCCACTGCACTCCAGCCTGGGCGAAGAGCAAGACTCCGTCTCAAAAAAAAAAAAGGACTTCTG
GCTTTTCTACTGGGAAATGTGGTTATCTGTGCCTTCTGGAGGTCAAGATGTCATCATCTGGCCCTGGTCCCTCTCACTTCTCCTCAGACTGGACCTCTTC
TCCAGCTGTTTACTCACCTTCGTAGTTGTTCACACAATTTCTCCTTCATGTTTTTTGGAGCATCTCCCTAAGGTGCATCTCTAGTCACCCCACCTTCTCA
TTCATCCTCCCAACCACCATGGCTCCACATTTATGAACTACATTCAGTCTATTTTCAGCCTGACATTTAGGACCTTCCACAGGTAGTTGCCAACTTTATC
TGCCAATAATTAGCCCAAGTTACCCCCCAGTGTCAACCAAACTGGAACGCTCACATGTTCTGTTCATCTGGAATACCTGTGCCTATATCTGTCTGTTGAC
ATCCTAAGTACTCCACCCCAGAGCAAGGGGTTTATGGGAGTAGATAGGGGAAAACTCTGGTACAAAGTTGTAAGAACGTGGGTTGGGCTTGGAGAAAATC
TAGATGGCATCCTGGGGCAATGGAGGGCTCAAGAACAATGGCAATGTCCAGTCCACAAGACAGGAGGTAGGGGATTTGAAGAGGGAAATCCTAGCAATGT
GGTTACCAGAAACACATAGAAACATACCTCCCCTTCCCTAAAATAGTTATTGGATATAATAATAATTGCCTTTTAATAATACATGACTTAGCAAGAGGCA
AAATAAGGGAATTCCTCAGAGGTGAGAAATAATAGAAATAATGAAAATCTATAGAAGTAAGAAAACCCTGGGGCCTGGCATTTGTCTGCTAATCCCTGTT
TGCCTAGAGCATGGGTTTTAATGAGCAGTGRGTGCATCTAGGACAAGTACAAAACTTGGGGCCACTAGTGTACTTTATAAGATATTGATTAACTTTAGAC
TTATTAAGATGAATATGTAACCTATAATTTCCAAGGTCTCCACTGACAGAATTGAAATAAAGCATGTAGCTTCCAAACTATAGAGTTGGAGGGAAAAGGA
ATGAGAGAAGGGAAAAAAATCAACCCAAAAGAAGGCAAGAAAGAAAGAAAAAAAAGAAACCTAGAAAACATAATAAACAGATAGAAGCAAAAAAATTCAA
CYCTAAACTATTCATAAGAGAAACTCCTAAAAGTATGAGATAGAGAAAGGCTGCCAGTRAAACGATGGGAAAGGACATACCAGGGTAATACTCTGCAAAA
AGAACTAGGTGTGCCTATCTTAATTATTAGGAAAAACTGGACTTCCAGAACAAAAAGCAACATTACAGATGAGTTTTCAATTTACCAGGGATACATAATT
TTAAATTTGTATACCCCTAACAGCATAACTTTGAAATATATTTTAAAAAATTACTGGAACTACGGAATATTCAAAATCACAAAGGGACATTTTCACACAT
CTCACAGAGGGACATTTTCACACATCTCTCTCAAAATTGATGGGTCAAATAGACAATAAATCAGTAAGGAGTTAAAAGGTTTGAAGAACACAATTAAGAA
GCTTGATCTAATGGACTTACACAGAGCACTGAAAGCACATTCTCTTCAAATACACATGGAATATTTACAAAAATGCATCACATACTAGGCCATAGAGCAA
ACATCAACAAAATTCAAAGAATCTATATCATACAGCCAACATTCTCTAACAGTTAAATTAGAAATCAATAATGAAAAAAATAACTCAGAAAACTTCATAC
TTTTGAAAATTAAAAAAATGCATTCTAACTCATGAGTCAAGGAAAAAGTAAAACTAGAAATTAATAAATATTTAGAACTGAATTGTCATGAAACTACTAA
TGGGAACTGGTGAGATACAGCTAAAGCAGTATTGAGGGAAGATTATAGCCTTACTGCTTATGCTAGAGACAAAGTACGTCTGCAGAGTAATAAACTGAGT
GTTTAACTCCAAAAATTAGAAAAAGAAAAGCAAATAAATCCAAAGAAAGGAGGAGTAAAATAATATAAGCATAATATAAACTTAGGAGCAGAAATCAATG
GAAGAACAACTACTAAATAATAGAAAGTATCCAAAAAATGAAAGTCATCATTTTTTCTTTTTCTTCAAATTATTAATAAAACTGACAAACTGCAAGCAAG
ATTTAAAAAAAAAACAGAGAAGACACTGATAATCAACATCAAGAATGAAAAAGAGGGCATCACTATAGATGCTGCAGACATCAACTAAAATTAAAAACAG
GATATTACTGACAACTTCATGCCAATTATTTTGAGCATTTAGACAAAACTCACAAATTCCTAGACAAATGTAATTTCCATAGTTAATTCAAGAATAAGTA
CAAAACCTGAATAAGCCAATAACCATGAAAGAAATTGAATCATTAGTTAAAATTGTTATCATAAAGAAAACATCAGACTTTGATGGCTYTGTTAAAAGTT
CTACAAAATAACCAGGAAATAAATAATTCTAATCTTACACAAACTATCCCAGAATGTATAAAAAAAAGAAGGAAAACCATGTTATGCATCAGATACATCC
TTGATACTAAAACTGGAGAGCCACAAACAGAAAATGTAGGTTTTTCAAAATGAAAATTTACAATAGCAACAAAATATATAAGCCATCAAAGAAAGAAAAT
GAACAAAAGGGATGTAAAACTGTTATAAAACTTTAAAGACATTAAGAAGACAAATAGAAACATATATAAACACACCATTTTCATGGATAAGAACACAATA
TTCTAATAAAAAGATGTTCGGTTCCCCCCAATTTAAAATAGATATTACCACAATTCTGATCAAAATCCAAAAATACTTTTGGAGTATATTTAAATGATTC
TAAAATTTATCTGAAAGAGCAAATGGTTCTGAATAATCAAAACACTCCTGAAGAAGAAGGAAGAGAAAGTGAGGGAATTTGCCCTAACAGATATCAAGGA
TTCTAAAGTAATAGCAATTAAGATAGTGTGGCATTGTTGCAGAGATAGACAAATAGATCACTGAAACAATTAGAAAGCCCCAAAATAAACATATAAGGAA
ACTTAATATGGCACAATCCGTACCGCAGATCAGTGGAGAAAGAGGATGTACTACTAATGAATAAATGTTTCTAGGCAATGGAAAACTGAAAATAGAATCC
TACCTCACACCCAACACAAAAATCATTTCCTATTCTGGATGGGTRGAGAACTTAAAAATGAAAATAAAATATTTTTAAAATTTAGAATAGAATTTCAGAG
AATATCTTTGTAATATTAGGGTAAGGAAGGACTTCTTAAGACATAAACAGTATGGATCTTACAGGAAAATATTCATAAATCCAACTACATTGAAAGTAAA
AACACTTATTCATCAAAACACACACTAAACAGGGTAAAGAGATGAGCCACAAACTGGGAAATGATATATACAAACTTACTAACAGAAGTGTCTAAATTAT
GCCAAGAACTCTTACAAGTCAATAAGAAAAAGACAAATCCATTGAAAAATGGGCAAAATGCATGAACAAGAACTTCACAAAAGAGAAAACACACATAAAT
GACAAAAAAATCCACATGTAAAAACATACTTAATCTCACAATTAGTTTCTTTTAAAACTGAAAATGAAATGTTAGCATTTCACACTCACCAAATTTACAA
AAATTAGTTTGACAATATCAAGTGCTGTAGACTATGTGAAGCAAGAGAATGACTCATATACTAACAGTGTAAGTGTAAATTGAAAAGGAAAACATTTTGG
AATTGCACGGTAAAATTGAACACACACATACTCTATAGCCCAGCAAACCACTCCTACATTCAAAGCCTTGATAGTGTTGGTAGCAGCACGTAATAGAAAA
CTGGAAACCACCTAAATGACCATTGTTGGTAAAATGGATAAATAAATACAAAGAGGTAATATACTGCAATAAAACATGAAAATACTAGAGCTATACACAA
CAGCATAGATAAATCTTATATATGTTTGAATGGAAAAAGCAAGCTAAAGAAATATATCTGGAGGATATGGTTCAAAAGTAGGCAATATTAAACTGTATAT
CTGTACACGTATAATTGTTATATATAGTCATATACAYATATGTGGTAAAGTATGAAGTGGTAAAACTGTAGAAAAGCAAGGAGTAATTAAGAGGCAAGAC
AGGCTAGTGGGTACCTCTGGAGGGAGGAAAAGATCTGCAGTGGGCAGGGGTGTCATAAATGGGTTTCCAAGATACTGGTGATATCATTCTTGCATTAAAT
TATGGACATATATGTACTTATTATTTTCACCCTTTATAATATACATTTATGTTCTGTACAATCTTATGTGTGTATGGTATATTTCACAATAAAACAGTCA
ACCAACCAATCAATCAAGCTAGCTAGAGGCTAAAGAACTGAAACTAGAATCCATAAGATGGGTCTAGTAGGTTTTCAAGGATAAATAAGAGACAATGAAG
TTTCCCTGAGGCTATGATCCATGACTGAAACTAGCAAAAAGCTTCACACTTGAATGAGAAGAAAGCTTTGAAGCAGGGCAGAGACTCCTGCTGGTGCCCT
TGGAGGTTGCTGGGGATGTTATAACTCTAGGAAGTAAATGGATGATTTGAGAAGGAAAACTTGAACAAAGGGGTATTGGCTTTCTTTTGTAACCAGGAAG
GTACATAATTTGCAAACGTGCAGATACAAAGAAGATACTGTCTTTTTATAAATATGAGGCATTTGTCTCAGTTACTTATACAAATAAAAGTTTATTTTCC
CTTATATCACAGGAAATCCAGAAGAAGGCAGTGCAGAGCTTGTTGAGAGAGTTAGCAATATTTTCCAAATGTAGGCTACTTCCACTCTGCCATTTTTAGT
TTAGGGGCTTTTTGCCCCATGCAGCTCCAAAGTTCTCATCTGCCTTGAATGCAGCATTAGGGATATTTTCCCAACTCTTTGTCAACGAAGTTAAAGGCTT
TTCTAGAACTCATCCACAGCCGGCTACTCACATCATAGTCATCTGAATGGTGACACATGGACATTTCTTGCAGCAAGAGAGCCTGGAAAAGTAATTATTT
TGCTATTGCAGACTGTATAATAGGAGCAGGCAAAAGTGAAGGGGGAGAGGTGTGTATTCAGCAGTGTCTGTCAAAATACTCCACTAAGAATTCTTCCTCT
TTTATCCCCAGGAGCCAGTCTACTTGATGACTTATACAAGTATTTCTTCTTCCATCACTCCCACGGAGACACCATGACTGTCATGGATCCAAAGCAGATG
AATGTTGCTGCTGCTGTTTGGGCTGTTGTTTCTTATGTTGTTGCAGACATGGAAGAAATGCTGCCTAGGTCCTAGAAACAGTAAGAAAGAAACGTTTTCA
TGCTTCTGGCCAGGAATCCTGGGTCTGCAACTTTGGAAAACTCCTCTTCACATAACAATTTCATCCAATTCATCTTCAAAGCACAACTCTATTTCATGCT
TTCTGTTATTATCTTTCTTGATACTTTCCAAATTCTCTGATTCTAGAAAAAGGAATCATTCTCCCCTCCCTCCCMCCACATAGAATCAACATATGGTAGG
GATTACAGTGGGGGCATTTCTTTATATCACCTCTTAAAAACATTGTTTCCMCTTTAAAAGTAAACACTTAATAAATTTTTGGAAGATCTCTGATTTTTAT
GTGTTCATTTATGAACATTAAATAYGAAAATATTATGGTTTATATTATTTATTGAAGGAGTAGAGGAATTACTCAACTTTAGTATGCTCTTAATTGAATA
TATGGAGGCATTTGACTTTCTAATTTGTATATTTTTATATTATGTGAATTTTAAAAATGAGCTTTGGAATTTTTTAATTTATAGAAAAAAAGGATATCAT
TTGGGGAAAAAATCAAGAATGTATAATTCAATTGCCTTATTAAAGGTAAATACTAGGGTCTGTCACTAGATAAATAATAATGCTATTTTGCATTTATGTT
TTGTTATTTTACACAACATTTCCATGAAGTTGGGGCTTATTCACAATTTGCTGATGACATGGTTGGAGCTCAGAGAGGCTCAATAATATTTACAGAGTCG
TCTAGAGCAAAAACATTAATCCCCATCCTCTCTGGAGCCAATTTCTACTATTCTGCCTCACACAACATCCAATATTCAATAAAAAATTACAAGACACACC
GAAAAAAGAAGAAGAAATAAACTTATTGTCAAGAGATAAAGCAATTAAGAGAACAAGACTAAGAGATGACCCAGAAGTTTGAACGATCAGAGGAGTTTAA
CCTAACTATGATGATTATGTTAAAGGTCTAGTAAGAAAAATGGACTACACACATGAACAGAAGGGGAATTTCAGCAGAGCTGGAAACCATAAAATGGAGT
CAAATACAAATGTTAAAAAATGCAATGTCAGAGATATAAAATTTTTTTGTCAGACTCATCAGCCAATTGGACAAGGCTGCAGAGAGCATTAGTGGACTTG
TATGTAGGCCAATGGAAATTATCCAAAAAGAGAAGAAAGAGTAAAAAAAAAAAAAATGCCAGAGTGAATCATCCAAGAATTGTGATACAATATCAAGTTG
TCTAATATGTGTGTAACTGGATTTTCAGAAGGAGAGGACAAAGCATCAATTGTATTAATGATAAAAAAATGATTGAAAGAGTGGGATCTTTCATTTCTGA
CGAAGTAGCACACCAGTACTCTGACCCTTACACTGAAGATGACTAAAAATGCTAGATAATATTTGAGAAACATCTTATTAAATATATGAATGAACTGATT
AACAAGAATATTAGACAAAAGACTAAGTATCGAAAGACTATATACCAAGAGATACATAGAATATTTTTTGCTTTTAAAAGGTTTTTAAACTTTTAAATAT
ATATATATACATATGTGTGTGTGTGCGTGTGTGTGTGTGTACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGTTCACTGCAACCTCCACCTC
CCAGGCTCAGGTGATCCTCCCACTTCAGCCTCCTGAGTAGCTGGGACCAAAGGGTGCTAAATTTTTTTGTGTTTTTTGTTTGTTTGTTTGTTTGTAGAGA
TGGGGTTTCGCCACATTGCCCAGGCTGGTCTTGAACTCCTGGACTCAAGCGATCAGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACATGCATGAGCCA
CTGCGCTCAGCCTTAAAAACATACATATTTTTTAATTCCAATAGCTTTTTAGGTACAAATGGTTTTTGTTACACGGATGAATTGTATAGTGGTAAAGCCT
GAGATTTTAGTGCACCCCTCACCCAACTAGCGTGCATTGTATCCAATATATAGTTTTTTTATCCCTCACCTCCCTCTCATCCTCCCTGCTTCTGAGTCTC
CAATGTCCATTATAGCACTCTGTATGCCTTTGTATACCCATAGCTTAGCTCCCACTTATAAGTGAGAACATACAGTATTCAGTTTTCCATTCCTGAGTTA
CTTCACTTAGAATAATGGCCTCTAGCTCCATCCAAGTTGCTGCAAAAAACATTTCATTCTTGTTTATAGCTTACTCAGCAGTGTTCCATGGTGTATATAT
ACCACATTTTCTTCATCCACTCATCACTTGATGGGCAGTTAGATTGGTTCTATACCTATTCAACTGTGAATTGTGTTGCGATAAACATATGTATGCCAGT
GTCTTTTGATATAATGACTTATTTTCCTTTGGGTAGATACCCAGTAATGGGGTTGTTGGATAGCATGGTAGATATACTTTTGGTTCTTTGGGAAATCTCT
ATACTGTTTTCCGTAGAGGTTGTACTAATTTACATTCCCACCAATAGTGTATAAGCAGTCCCTTCTTACCACATCCAGTCAACATCTATTGTTTTTTGAC
TTTATAATAATGGGCATTCTGGGGCCAGGCATGGTGGCTCGTGCCTGTAATCCCAGAACTTTTGGAATGCAGGAGGATTGCTTCAGTTCAGGAGTTCAAG
ACTAGCCTGGACAATATTGTGAGACCTTTACTGTACAAAAAATAAACATAAAAATAAATTAGCCAGGCATGGTGGCATGCATCTGTGGTCCCAGCTACTT
GGGAAGCTGAGGTGGGAGGATCTCTTGAGCCCAGGAGGTCAAGGTTGCAGTGACCTGTGATCATGCCACTGCACTCCAGCCTGGGTGACAGCAAGACCCT
GTCTCAAAAATAATAATAATGGCCATTCTGACTGCAGTAAGGTGGTATCTCATTGTGGTTTCGATTTGCATTTTCTTGATAATTAGTGATGTTGAGCATG
TTTTTATAAGTTTGTTGGTCATTTGGAGATACATAAAACATTGAACAAGCTTTCTCTTTGAGAAAGTTTAAGGAATGTGGTAAACTTAAATTCCATTCAG
AGATCAGGAGATTGTAGACAAATTCCAGATTCTGCCACATTAAGGATACTATAGAACTCCAACAAAAATGAGACCCCAAAATATTATACCTCAATACAGT
GGTGAACAAAAATAACTCTCAGGTCTGCAAGGAAAGTTACCATGATTGAGTAAAAGCTAAGTAGAGGGTCTGAAGAAATTCCCACTTATAAAGTTAGATA
AAATATTAACTCACAACAAAAAGGGGAAAAAAAGAATCACAGCATTCTGAGCAAGAGCAAACAAAAAAAGATCAAGAATTAACCCACAGTGTCCTCTGAT
ATTGGAATTTTTTGGTTAAAATTATTTAAGCTATGTCCATTATTTCAAGGAAGTCAAAGAAGAGTTTGAAAGTAGAATAGAGAGCATGGGACCATAAAAA
AAAATGACCAAGCATATTGTAGAAAGAACCAAATAGAACTTTAGGGAATATAAATTATACTCAGTGAAATTTTAAAATTCGGGGACAAATTTAACCAATT
TAATGAGAGTTAGTAAACTGCAAGACAATAGTGATGAAATTTATGAGAATTTAGCACAGAAAGACAAAGAATGGAAAATATAAATGAAAGGTTAAGAAAT
ATGAAGGATAGAGTTATATTGTCTAATGTGTTTAATCAGGGTTTCAGAAAAAAGAAAATGGGACAAAGAATTATCTGAAGACATAATAAATCAAAATTTT
CCAGAATTTAGATACACAAAATCAAGAAACCCAGTGAATCCCAGACAGAATAAATAAAAAGACATATTTTAGAGAAACTACAGACCAGAAGAGACAAAAG
AAGCTCTTTGAAGTAAGAGAGAAGAGATGGACTATCTTGAAAAAAGCAACAATTGGACTTTTAGCTAACTTCTTAACAGCAACAATGCAAGCCAGAAGAT
CTTCCACATGCTGAGAGACAACAATTATCAACCTAACAACTCTGTGCTCAGGGAAAATATCTTTTGAAAACAAGGACAAAGTAAGGATATTTTTCAGATT
AAAAAGTGAAAGAGTTGGCCAGCCATGGTGGCTCATGCCTGTAATTCCAGCACTTTGGAGGGTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGAC
CAGCCAAGCCAACATGGCAAAACCCCATCTCTACTAAAAAAAAATACAAAAATTAGCTGGGTATAGTGGCACGTGCCTGTAATCCCAGCTACTAGGGGGC
TGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGCGAGCCAAGATCATGTCACTGCACTCCAGTCTGGGCAACAGAGTGAGACTCTGTCTC
AGAAAAAAAAAAAAAAAAAAGTGAAAGAGTTTACTACCAGCAGGTCTTCACTACAGGAAATTAGAAAAAGTGTCCTTTAGGCAAAATTAAATGATTATAG
AGTGGACACTAATATACAAGAAGTGAGGAGATTGGCTCCAGGCCAAAATCAAAATCTGTATGTGACTTTCCAGGCCTGACTTTAGGCATTACAAAGGCTT
TGCCTGGCAGGCGCTACTGGGAGAAAGCTGCCCCCTTGATGTGGTTTGATTGTGTCCCCACCCAAATGTCATCCTCAATTCCCATGTGTTGTGGGAGGGA
CCTGGTGGGAGGTAATTTAATCATGGGGGCAGGTCTTTCCTGTGCTGTTCTCATGATAGTGAATAAGTCTCATGAGATCTGATGGTTTTATAAAGGGGAG
CTTCCCTGCACAAGCTCTCATTTGTCTGCCACCATGTGAGACGTGCCTTTCACCTTCTGCTGTGATTATGAGGCCTCCCCAGCCATGTGGAACTGTGAGT
CTATTAAACCTCCTTTTCCTTATACATTACCCAGTTTCAGGTATGTCTTTATCAGCAGCCTGAAAACAGACTAATACACCTCCCCACAGCTGACTTAGTG
CTCTGCCAGTGGGTTACAGTTTTCCAGAAGGAGCTGCAGTCAAGGACTCAGGCCGCCTAGGGCAGCCACCCATTCCTCACCCAAACACCTCCATTCAAGG
CCTCCTTATCTTATGACCAAGATACTTTCATCCACTCTGACCCAGTACTTTTCTAGTCCTAGACTTCCCCTACTCCCTTCTGTCAGTCCCCTGGACCATA
AAATGTCAGGAGTCATTTGTTCAGGGCTCTTTGGTAGTGAGATGATTTTCCCTGTCTGAGCTGATTCATCTGACCCTTGCCTACTGCCATTCCCTGGGGA
AAAAATGGAATGTTAGGAAGCTGGTGCTTATTTTTGCCTCTTGTTTACACTATTTCTGTAAGTGATTAAGGCTTGATTGTTAACTTTCAGTTTGGCTTAT
TGTTCTGACTGACCACCTAATCCTGGCCACTGGACAGAAATTAAGAGCAAAGAAAGTGATAACCGTTTTAAACAAACATAGAATAAATAAAAACCACAAT
AATAAGGTGGTATTTGAAAAGAAAACAAGATGGAAAGAATATATTTCACTGGAATAGCATGTGAATAAGACGTGAAGTTACTGGAATTAGTGTTCTAAGG
TCCTTTTGAAACTGCCTTTGCAAAATTATAACAGTAAGAAAAATCTGACCTAGTTGACTCCATCTCACTTCTAACCCCAAGCTGTCCTTGGTCATTCCTG
GACATAGGCCAAGATAACTTTGAGAGGAATTTAGTTTACAGTTTAACTTAGAAGCAAGAATGATAATAGTCCCTCCCTGAAACTAACCCTCTCCCTGTTC
AATGGCTGAAACTGCCTTTGTAAGACTAATGAAAGGCCACAAGATTAGGATTATGGGAGAGGCCCAAGTTCTGCTAAAATGTAGGCATAGTTTCTATAAT
TTCTTACTGCTCAGGAGTCATGTGGCCAGAGGTCCCAAGATTTATAACTTCCCCAATTGCTTCTATAGGTATCACTGTTGTAGAACCTAAGACTGGGGAG
TTTTTTTTTTTTAGATGTTTTTCAGACTGATCCCATCTGGACTCATGACTCAGCTGGTCCTGTGGCTCTGCCCACAGGTGGCCTCACTGCACAAGGACAG
TCTTCCAGTGATGTGATGGCATTCCCAACCAATCAGCTGCACCCATTCCCTAGTCCCCTGCCCACAAAACTGTCCATAAAAACCCTAACCTCTGACCCTT
CAGGGAGACTGATTTGAGTGATAACTCCAGTTCTTCTGCATAGCTGGCCTCATGTCAGTTAAACTCTTTCTTTACTGCAATGCCATGGTCTCAGGCAATT
GATTTTGTCTGTGCAGTGGGCAGAAAGAATAAATTTAGGAGCTCATATGGGATCCACCCTTGTGGGTGCCTGCTTGCAGTTCATTGGTTCCCCACAGGTC
CGACTGACCT


SNP Information

Context             (SEQ ID NO:18205):
TCCCTCACGCATCTTACTTACTAGTGGGGACAGACAGAAACTAAGTAAGCAAATAAAGAAGGTAATTTCAGATAGTGATAAATGCCATAAAAGATAAAAT
W
GGGTAATGCATTAGAGTGTTGATTTGAGGACAGGGGGAAGTTACACTAGATACACCCGTTAGGGAAGACTTCTCCAGAAGAGCAGTCAGCTTGGATTGAA
Celera SNP ID:            hCV2045931
SNP Position Genomic:     216757
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18206):
AGTGATAAATGCCATAAAAGATAAAATAGGGTAATGCATTAGAGTGTTGATTTGAGGACAGGGGGAAGTTACACTAGATACACCCGTTAGGGAAGACTTC
Y
CCAGAAGAGCAGTCAGCTTGGATTGAAGGATGAAAAGTAAAAGCTCCATTCAGAGCTCTTGGGGAAGAGCCTCTTAGGCAAAAAACAGCTGGTGCAACAG
Celera SNP ID:            hCV2045932
SNP Position Genomic:     216830
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18207):
CTAGTGCTGTCAGTGGAGCATTGAAGTTCCCCACTATTATTGTGTTGCTATCTATCTGTTTTCTTAGGTCTAGTGGTAACTGTTTTATGAATGTGGGAGC
K
CCAGAGTTAGGTGCACATATATTTAGGATTATAATGTCTTCTTGTGACCTTTTTTGCCCCCCCTTTTTTTCTTACTATTATTGCTTTAGTCTGTTTTATC
Celera SNP ID:            hCV2045860
SNP Position Genomic:     72002
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18208):
TCTTGCTGATAAGCACCATGATCAGAGGTCTCTTCACTTTGGCTTAAATCATAAACATGTTTGGAGCACCTACCATGTATGGCCACTCTCCTAAGAGTGA
R
GTAGGATATTGAGGTACTCCCAGTGTAGTGTCTGGCTTCTGGGGACTCAGTGTTAAATGAGTGTGGAGAAGATGTGTATATGAAGACTGTGTCTTAAGGG
Celera SNP ID:            hCV2045933
SNP Position Genomic:     219022
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18209):
TAATCAACCTTTTGATTTTTTTTATCTGGTATTTCAAAGATTACTTCTTGGTTTGGATTCATTGCTGGAGAGCTACTGTGACCTTTTGGGGGTTGTTATA
K
AACCCTGTTTCGTATTTCCAGAATCATTTTCTGGTTTCTTCTCTTTTGGATAGATAATTTTTTCTAATTATTCTTGAATTTATTTTTGATTCTACTGTGT
Celera SNP ID:            hCV2045861
SNP Position Genomic:     75685
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18210):
TGAATGAAAAAAGTAACACTCAAAATTTACAAGATAATCTAGTCTAGTACTTTACATTTTAAGAAATACATGAATGGACCTGGAACTAATGTGTGTGTGT
K
TTTTTCTTTTTAAGTAAGCCATATAACCTATGAGGCAAGCAAGTTGTTCTAATTGCCTTCTGGTTGATTACATACTATTTGTTGAGTACTAGCTACTGGG
Celera SNP ID:            hCV15902137
SNP Position Genomic:     64518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18211):
TGCATCTGTGTTTGCTTTTATCAGATAATCTTCTACCTACTTTGAGTTTACCTTCTATTTCTAATTCCTTGCTTAACTTCTGGGTTCCTTGCACAGCAGC
R
TCTGATATCCTGCATGTTAGTTCTTTGTTTTCCCTACCCAACTGAAAATTACTAATGCAAAATTATATTAGCAAAATGGGCATAACCAGAATCACCACTG
Celera SNP ID:            hCV2045934
SNP Position Genomic:     219411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18212):
AGTTTAACTCTTTGAAATATAACGGAGGAAGGGTCAGAAATAAAGCAATCTTTCTTTCTTCTGGACTTATTTATTCACTCTTCTTTAAACAGTTGTTAAA
W
CTCTCTTATGCATTTGACATTGGGCTTTGCACTAGTGATAGAAAAATGAATAAGACTGTGACATCTTTTGGTACTACATCATATAAATTGTCTAGATTGT
Celera SNP ID:            hCV2045935
SNP Position Genomic:     222046
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18213):
CATGACCTGCATAGGGCTGGAGAAGAGTGCAGTTAGCCCTTGAGGGTTGGGGGTGAATGTGTTAAGGGTATTAAGGGTGGGGAGATACTGCTAAGTTGGA
R
AAAAACTTTCAGCGAATTTCACTGATTTCAAATCAAGCTGAATTTGAAGTTCTTGTCTACATGAGTGAACAATTTTTAAAACATTTGAAGGCATGCATTT
Celera SNP ID:            hCV15902138
SNP Position Genomic:     67480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18214):
ACCTTTTGGGGGTTGTTATAGAACCCTGTTTCGTATTTCCAGAATCATTTTCTGGTTTCTTCTCTTTTGGATAGATAATTTTTTCTAATTATTCTTGAAT
K
TATTTTTGATTCTACTGTGTTTTCTTTTTTTTCCCTCTTGATGATGCGACTTTAGTATTTACAGTTTATTCTAGCCTAATGAAGCTCTTGGTGCTTTCAG
Celera SNP ID:            hCV2045862
SNP Position Genomic:     75765
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18215):
AGAAAGGGCTTTGCTTTTTACCAGTAATTTAGAATTTTATGACTAAGACAAAGCAGAAAATTGGGAAGAACAGTGAAAAGGGCAAGAAGTTAATGGAGTG
Y
GGTCAGAGCTGAGAGGACAAAATCTAAATGAAAGGGGGAAAAGCAATAAGGATTGAGGAAGGTTGTTTAGGTCATTAAGCTTACAAGATCTTCTATTTCC
Celera SNP ID:            hCV2045936
SNP Position Genomic:     222341
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18216):
TGGATATTTTTGTGTGGGCCATTATTCTGCCTACCACAGCTTCTAAATTTGGAGCCATTTAATGAAAAGACAAGGTAAGCCATATGTGTGTGTGTGTGTG
R
ATATATATATATATATATATACATTGTTTGTTGGGCCTATACCTATATTTCATCCAACACAGTATAGGGTCTCAAAATAATTTAAGAACAATAGAAACTT
Celera SNP ID:            hCV15902139
SNP Position Genomic:     69415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18217):
AAAATATTATCAAAAGTAAATAGGACAAGGATTTTTTTCTTAAAAAATTGGGTCTACTGGTTTTTAAAAATTGGATTTTATTTAAAAAAATTCACTGACA
Y
AATTTTCTAAGAATATATCAATTAAGCAAATTAAATAAAATACAGTAATGGTTGAAATGGCCTGAAGGATCTCCCTGACACAAGGGGATCCTTTTATAAA
Celera SNP ID:            hCV2045863
SNP Position Genomic:     84239
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18218):
GAAAAGGGCAAGAAGTTAATGGAGTGTGGTCAGAGCTGAGAGGACAAAATCTAAATGAAAGGGGGAAAAGCAATAAGGATTGAGGAAGGTTGTTTAGGTC
R
TTAAGCTTACAAGATCTTCTATTTCCCAATTAGTACATTCTGACCCTGAAGACGTTTAAGTACATGACGAGGATGTCACTGGAGTGTGACAAATTCTTCA
Celera SNP ID:            hCV2045937
SNP Position Genomic:     222415
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18219):
TTTCTCACAGAATTAGATAAAAACAATTCTAAAATTCATATGGAACCAGAAAGGAGCCTGAATAAACAAAGCAATCTTAAGTAAAAAGAATGAAGCTAGA
R
GCATCACATTATCCAACTTGTTTATACTATAAGGTAGTGGTACAAAAACAGACACATACACCAATGAAACAGAATAGAGATCCCAGAAATAAAGCTGCAC
Celera SNP ID:            hCV2045864
SNP Position Genomic:     85804
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18220):
TTGGACAATGTGTTAGATAAAATAAAAAAAATAATTTGTGATCAAATTTTGGGTGATCTTAAGGAGCTAGTTTAGGAATATGGAGTTACTTTGATAGGCA
Y
TGGAAAGCCATTGAAGACTTTTGACCAGGGAATGATGTGATTAGGGCTTAGAATTGCAGTGCTGATTCTAGATATATTGTAGAGCTACGACATAAAGGAT
Celera SNP ID:            hCV2045938
SNP Position Genomic:     223508
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18221):
ATTCATATGGAACCAGAAAGGAGCCTGAATAAACAAAGCAATCTTAAGTAAAAAGAATGAAGCTAGAGGCATCACATTATCCAACTTGTTTATACTATAA
R
GTAGTGGTACAAAAACAGACACATACACCAATGAAACAGAATAGAGATCCCAGAAATAAAGCTGCACAACTACAACCATCTGATCTTTGAGAAAGTCAAC
Celera SNP ID:            hCV2045865
SNP Position Genomic:     85837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,9)      total(G,9|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18222):
GGACTATTTGAAAAATAACTGGTCCAGAGTTTAAAGGGTTTTAACCATCTACATCTAGAACTCTGGCTCTTTCAATTAACTTATTAACTGTATGACTTTG
K
ACAACTATAAACTCTCTGAACCTCAGTTCTCTTATATCTTAATTAGAGATGATACCTATCTCACAGGTTGTAATGAAGACTAAAGTTGGATATATGCTAG
Celera SNP ID:            hCV2045866
SNP Position Genomic:     92183
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|G,11)      total(G,11|T,4) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18223):
GAAGAAACATGAACATATTCTTCCCTATTTTTTTGTTCCAATATGGTTAAACAAAACTCCCAGATAATATAGAAACCTTGCTTATTCCCCTTATGAATAT
Y
TTACCAGTATTGCTAAGAAGTGAAATTGATTGATATTAATTTAACTTCCTCCTCTTCCCACCCAGACATTAGTAAATAGTGAAATGGTTGTAAGTGTTCA
Celera SNP ID:            hCV2045867
SNP Position Genomic:     92898
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18224):
CGGTGGGTCACGCCTGTAATCCCAGCACTTTGGGAGGCCCAGGCGGACGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAAAACGGTGAAACTCC
R
TCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCAGGCGCATGGAGTCCCAGCTACTCGGGAGGCTGAGGCAGGGGAATGGCATGAAGCTGGGA
Celera SNP ID:            hCV2045868
SNP Position Genomic:     95512
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18225):
GATCTTCATCTCTACACTTTACTTCTTTCTGATTTCCATTATCTGGTTTTCACTTCATTCATTTCATTTCCAAACATGCTTTTTCTGTATTTTCTATTTA
R
GTTAGTGGCATCTCAATCCAAGGGATAGTAGTTAATTTGATGTGTCTGAAATACAGGGTACAAAACAGGCTCATAGTCGGGGAGATTGCCCTTAACTCTC
Celera SNP ID:            hCV16025541
SNP Position Genomic:     20617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18226):
AACATACTATAAATGTTCATACCTTTGCTCATATTTGTTTTTTAACTGAAAATTCTCTTCCTACCATACCTATGAAATTTAATATCTATGAAAATTAATT
Y
AGCCTTCTAGGCTGATCTGAAATATCATCTTTTCTGTTATCTTTTTCTTATTCTCTCCAGAGATAATCCTGCAATACTTTGTTGTGATTTTATTTTACTT
Celera SNP ID:            hCV16025542
SNP Position Genomic:     21773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18227):
CGCTTGAGCCCGGGAGTTCAACACTAACCTGGGCAACATGGCAAAACCTCAACTGTACAAAAAATATGAGAATTAGTTGGGTGTGGTGTGGCACTCCTGT
R
GTCCCAGCTACTTGAGAGGCTGAGGCGGCAGGATTACCTGAGCCCTGTAAGGGTGAGGCTGCAGTGAGCCAAGATCGCACCAGCACTCCAGCCTGAGCTA
Celera SNP ID:            hCV16025543
SNP Position Genomic:     23819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18228):
ACTGAATTCTGTCATTATTTATAGTTTTCCAGTTGATTCTCTTGTGCTGTCCAGGTAAATAATCATATAGTTTCCAAATAATGATATTTTAGTTTTATCT
Y
TTATAATTTTACCTGCATTTTACTGTCTAGTTATGTTATTCAGGACCTCCAAAAAATTAATGGTGGTCATAGTAGACACTCTTGTCTTCAACTTATTGTT
Celera SNP ID:            hCV16025545
SNP Position Genomic:     47153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18229):
TCCATAAGGGTCTAAGATAAGCATAGATGCATATTGGCATCATCTGCTTGGAAGGGGCCTTTAAAATGTCACCATTCCTCACTATGCTACACCAAGGAAG
K
GGGGATAATTATCATTGCTTGTGGTAGGTGAGGCAGGATGGTCAGAGCACGTACTTTGAACCTCATCATTCTGCTAAGTACTACTATACGTTATTTTTTT
Celera SNP ID:            hCV11237300
SNP Position Genomic:     364741
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,9)   total(G,9|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18230):
TATTAAACTCTCCAGCTATTATTGTGGTGCAGTCTAAGTCTCCTTGAAGTTCTCTAGGAACTTGCTTTATGAATCTGGGTACTCCTGTGTTGGGTGCATA
Y
ATATTTAGGACAGTTAGATTTTCTTGTTGTACTGAACAATTTACTATTATATAATGCCCTTCTGTGTCTTTTTGTTTATCTTTGTTGGTTTAAAGTCTCC
Celera SNP ID:            hCV11237302
SNP Position Genomic:     363933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18231):
GATGTGAGCAAATAAAGTCTGACTCTAATTAGACATACTTAATCTGCTCGTTGAAACTTGGAGTCAAATAAGTCTTAGAGTGACATTTCAGTCTTAGAGT
R
ACATTTCACTGATTTCTTATAAGAGCTTTGCTAAAAAATATGCTTATCAATTTAATCAATTATAGGATTCTAGAAATCACAGGAAAAACATCACAATTAA
Celera SNP ID:            hCV161690
SNP Position Genomic:     441354
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18232):
TAAAAATAAGTTATATCTAATGTTATACAATAAACTGCCTAGTTTGGATAATTTCATTAGCTTAAACTCTTCCCTTTGCTCAGTATTAAAGTTCAGAAGT
K
GCCACCTAACCTAACATTCTTACATATCCCCCTCATGGGGACTTTTAACACAGTGAATTAAGTGTCCCCTTTATTCCATTTTTTTATAAGAATGTATGAG
Celera SNP ID:            hCV161691
SNP Position Genomic:     441602
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,8)   total(G,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18233):
TTTATACTTGAGTCCAAAATCCTATGGTGACCTACAAGGTCTTTGTGATCTGGCTCTATTTATCTACTACTCCTTCCTTCTTTATTTTGCTATGCTACTC
K
CTCTTCCTGTGTGAGGATTTTCACATACTCTCTTACTTTTATCTGCAGTGCTTGTTTGCATGCTCTCTCTCTTTCTCTCTCTTTCTGTTTCTCTCTCTCT
Celera SNP ID:            hCV2045870
SNP Position Genomic:     95870
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18234):
TGTTTCTTTGTGGGGGTATTCCTTCTAGTGGGTCATAACATATGCCATAAAAATCCACATTGTGGCCACTTCCATAGACCCATCTGCAGACAGGCCTTTA
Y
TCAGATCTTCTTGTCCCAGATCTTTCAATCTTTCTTCTTTCAGGTGCCTGCCCAATTAGCCAGGGTATTCTTCACTGTTTATTAATCCTTATATCTTCTA
Celera SNP ID:            hCV2045871
SNP Position Genomic:     96708
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18235):
TATTTCACCTAAGGAATTTAGTAAATTTCTCTTATTACCTTTTTAATATCTGCTACATCTGTAGTTGTGTCCCTTTTTGATTCATAATATTATTTGTGCC
S
TCTTTCTGTATTTCTCATTCACTTTTGCCAGAGGTATGCCAATTTTATTAGTTTTTGCAAAGAACCAATATTTGGCTCTGTTGTTTCCTTCTAGTCTATC
Celera SNP ID:            hCV2045872
SNP Position Genomic:     97961
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18236):
ACTGAATTGGAATCTCTGGAGTGGCACTTGTTTATCTGCCTTTTGACAAGCTGACCAAATATGCACACTAAAGTTTGAGTACCTCTGGATGATGTAGATT
Y
TAAGGTTCCTTCCAGCTCTATGATACTTTGAATGAGAAAGACAAAGACAGACAGCAATTACGGATTTCATTTCAGGTTTCTTTACTATTCTTTAATGTCA
Celera SNP ID:            hCV15902148
SNP Position Genomic:     108884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18237):
CAGAGAGGTGAACTGGTAAATACCAAATGAAGGAAGAATACTTTTTATAATTAAAATTCATAAAAAAGTAATGAACTATCATTTGAAATGGTAAGCATCC
S
ATCACTGGGCATTTCTAAACAGAGGTAATGTGGTCATGTGTCAGGACTGTTATAGTGAGAGTTTTACTTTGAGTGGGAAGTTGTACTTTAGAACAGACGC
Celera SNP ID:            hCV2045873
SNP Position Genomic:     106794
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,8)   total(G,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18238):
AAGCAAGCTAAAGAAATATATCTGGAGGATATGGTTCAAAAGTAGGCAATATTAAACTGTATATCTGTACACGTATAATTGTTATATATAGTCATATACA
Y
ATATGTGGTAAAGTATGAAGTGGTAAAACTGTAGAAAAGCAAGGAGTAATTAAGAGGCAAGACAGGCTAGTGGGTACCTCTGGAGGGAGGAAAAGATCTG
Celera SNP ID:            hCV8295439
SNP Position Genomic:     502937
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18239):
AAATACTGGAGCCAAGCAATGCAAAAGCTGAGAGACTCCATTTAATAGCATGTTAATATATTAAAACCCTTAATAATAAATTCATAGCACTTAAAATACA
W
ATATTTCTACAATGTAATATTATTTTACAGATGGTATTTAGTAAATAGCCAGTATTTACTGGGAAGTGGGGAATTCATTGTCCTTTGTGCCTTGCTTTGT
Celera SNP ID:            hCV2045874
SNP Position Genomic:     107296
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|T,7)      total(A,7|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18240):
GCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTGGCCAACATGTTGAAAC
S
CTGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGTGCACACCTGTAATTCCAGCTACTCTGGAGGCCAAGGCAGGAGAATCGCTTGAACCCAG
Celera SNP ID:            hCV2045875
SNP Position Genomic:     108090
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,7)   total(G,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18241):
ATATTTTCTATCTTTTTTAACTGTTTGCTACCTCTTTCTGTTAGAAAAGTGAAGAAAAATACCAAAGAAATATTTTTGTAAGAATAACTTAAAATTAAGA
S
TATTCCACATATCAATTTAAAAACAAAATTTCAACAGATTGCTACAGATTGCTTTTATATGGTTTAAATAATAAATTACTTTGATTCCATTTATGGAGCA
Celera SNP ID:            hCV2045876
SNP Position Genomic:     109691
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18242):
CTATGTTGAACAGGAGTGGTGAGAGAGGGCATCCTTGTCTTGTACCAGTTTTCAAGGGGAATGCTTTCAGCTTTTGCCCACTCAGTGTGATATTGCCTGT
R
GGTTTGTCATATATGGCTCTGATTATATCATGATATGAGGTTACATCCCTTCCTTGGTATGAGTTTGTGCCCCTTCCTGTGTCTGAGTGTTGACGATATA
Celera SNP ID:            hCV2045877
SNP Position Genomic:     113733
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18243):
GCTTTAGTAAGTATCACTCTATTTCTAGGTCTGTTTCAAAGCTGTCACCCTGATATTTCTCTTTATTCCACTTCTAGATTAGTTTCACTATTTCTTAGAT
Y
CTGTGTACTCCCTTTTAAGAACATTTCTTTTTCCTCCCCTTCAGGACATTTATTCAAGTGATTTTTTTTCCATAAAGGGTGCATGGGAGGTAAACTTCCT
Celera SNP ID:            hCV2045878
SNP Position Genomic:     117847
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18244):
CTTTTTTATCTAGTCATGATATTAGAGTATGTGTGGACTTTGACAGTGACACCTAAATGGTTTTTACTTGCCTCATTGTTTCCTTACTAACTGTATGAAA
R
AAGAACACGTGTTGAGCCCCTCCAATCTAAAAATACAAACTCTGGAATGCTCCAAAATTTGAAACTTTTTGAGTACCAACATGACTCCACAAGTGGAAAA
Celera SNP ID:            hCV90414
SNP Position Genomic:     258387
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18245):
TTCCTAGGGGAAATACAGAGCTAGATTCCTGCAAGCCTCTGGTCACATTTTTCTCAACTGGTCAATGAATAATTTTATTTTATGTGTTCTGTTTAAAGAC
R
CCTTACTGAGTATATATTATCGATTCATTAACTTTGAACTCATTGCCAAGAGCTCTAGAACTCATATCTGAACAAAGCTTATCGCACACACATGTTTTCT
Celera SNP ID:            hCV16271761
SNP Position Genomic:     30943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18246):
GTGCTTTCAAAAAAGTCTTTTGGTCTATTTCCACTTTCAAGGTAACCTGGTGGCTTCTTCTCTCAAGTCCTCACACAGGTATTCAGGAATACCAGGATGG
Y
GTGCCCAAGATTCCAACAGCCTGTATTACGGTGGAAGATGCAGAAATGATGTCAAGAATGGCTTCTCATGGGATCAAAATTGTCATTCAGCTAAAGATGG
Celera SNP ID:            hCV25637838
SNP Position Genomic:     240799
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:18247):
AAACAACTTATGCTCTTAAAGAAATTTTTATTCATGTGTACGCCAGACATCTAAAGTGTCAAATGTTATTATCAGCCACTGGGGAAAATGAACAAGCAAA
Y
AAAACTGAAGCAAATGTAACCACACCAGCTAAAGAATATGCAAGGAAAATATGATGAAATGCAAAGAAAAATCAGCAGCACCTCCTACTTCCTTTCCCTT
Celera SNP ID:            hCV25637839
SNP Position Genomic:     327258
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18248):
TTTTCATTAAGCATGACATGCTGGCTTTTGAGATGCAACAGAGATATTTTGTCATATTAAGAGAGGAAACCCTTTTTTCTTAGTATAGTACATGATAAGG
R
TTTTTGTCAAAAATAACGTTGAATTTTATCAAAAGCCTTTTCATAATTTATTGAGATGGTATTTTAGTTTTCTCTTTTTATTATTAACATGGTAAATTAT
Celera SNP ID:            hCV16025551
SNP Position Genomic:     47376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18249):
AACCCAAATCCAAGAGGTAACCAGATTTTCTTTAGGAATATAAGTTTTTCCAAGGCAATATCCATGTGTGAGACATCTTTGGAAGAATAAATGTACAGAA
R
TTGGTTGTATTAGTTTCCTAGGGCTGCTTTAACAATTTACCATAAAACCAGTGGCTTAAAAGAACAGATATTTATTCTTTCACAGTTCTGAAAAGCTGAA
Celera SNP ID:            hCV16025553
SNP Position Genomic:     52007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18250):
TCAAGTAGACAAAGTCAAATGGTAATACACAAGATTTGAATAATATAACTAATGAGGTTGAATAATATAATTTATGAGTGAATAGGGATATGGAACATTT
M
ATAGTATATTTTATTATTAATCAAAAAATTATGTTATGTATGAATATATATGTACATGATATATATTGGGATATATATGGGGTATATGTATGTATATATG
Celera SNP ID:            hCV16271693
SNP Position Genomic:     12642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18251):
TATGGAAATTATAGCTGTTAAGACCTGTTCCACAAACACAGGTTATACATATTATCACATCTCTTTAATCTTCTTTACAGTTAATCACCCAAGTCTCCAC
R
GGGCTTATTAGCAGGAAGGCTATTATCTCCTCTTGAGATCCCTCCCACTGCCCCTGAATTGTCCATGAATCCTGACTTTACTCAGGCCAAATGGGTCAGT
Celera SNP ID:            hCV459087
SNP Position Genomic:     384757
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18252):
CTTTTTCCTGCAGATGTGACATTTGACTATGAATATTGAAGTTAAACTTCAATTCATTGTATTGTAAATGGAAAAGAAGAGTTTTTCATTTTAGGTATAT
R
TACATAATACATATATTCTTTTCCTTGGCTCTCATCATGTTTATATTAGATACAAAACTAGTTAACATGTCTAGTCTGGCATTTTTCCTCCAAGATATAT
Celera SNP ID:            hCV460630
SNP Position Genomic:     317546
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,7)   total(G,5|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18253):
AACCCTTCTTCGAAGTGTGATTTCCTGGCTAATGGATGCTTCTGGGATGATTATTATATATATTTTTGTACTCAATTAAGCCCTATTCAGACCAACTTAT
K
TTTTGGTGAACTTAAGGACCTTATGATTAGCATCCATTAGCATTTCCATTACATCTATATTGTAATAATACCATCTAAAATTTCTATGCTGTATCTCTCA
Celera SNP ID:            hCV2045880
SNP Position Genomic:     120450
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,13)      total(G,2|T,13) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18254):
TGTCCTCAGCTAGTATGGCAAGGGCATGCTCCCTATCACTGCTAGTAATAGCAAATGATCACTACCACTGAGTATTTGCATCATGCCAGCTACTATATTA
R
GCTCTCTGTATATATTTTCTCATTTAATACTCCTCATAACCCTGCAAAGTAGGAATTGTTATTATTCCCCCCGTTACATAGAGGGGAACTGCAATTTAGA
Celera SNP ID:            hCV2045881
SNP Position Genomic:     120824
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18255):
GGAACTCATAAGAGAACCCAAAGAGAAGAAAAACTGTGGCAAGTTTTAGGCTACATTGCCTAGCTTATATCACAATGCCAGCAGCCTTCAACTGCAATAC
R
TAGGAACTGGGACTTAAAAACCAGCAGAAACACATTGGTAAACATCATAATGACACGCATATTTAGGAAAATGATGTTTTTAATTTCAAAATCTATGCAG
Celera SNP ID:            hCV2045882
SNP Position Genomic:     121712
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18256):
ATGCTATTATACCATCACGTGCTGCTGTGGCTTTATAGGAAGTATATCCTGGATGGTTATTACATATTTAGCTGGAATTTAGTTTCCTAGGGAAATAAAA
G
TTTCATATTTTAAGAATAGACAATTATTTTGAACAAGTGGTTTATGTCCACAGAAAGTTCATGTTCTTATCTTTTATGTTTGAATGAAGGCACTGTGTAT
Celera SNP ID:            hCV2045883
SNP Position Genomic:     123123
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,9)   total(G,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18257):
ATGTTTGAATGAAGGCACTGTGTATGAGGTGTCCCTGAACATTGGAAGTCTAAAGAGCATGGATTTGGATGTCAAAACTGGGTCCAGATTGAAGTTATGA
Y
ATGGACCACCTGTGAGAGCCTTAATTTCTTCCTGTGTGAATGTAAATAATACCTACCTCATGGGATTAAAAGAGAAAATAATATAAGAAAGCATATATCA
Celera SNP ID:            hCV2045884
SNP Position Genomic:     123299
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18258):
AGGCTTCCCAAAAGGTAAGAGTTACCTCCTCAAAGAAGCGGGGGAAATTGTCTCTTACTACTCTATGACAATGAGCAAATCACTCAAATTCTCTGACTCT
S
TCTTTTGGAAGAAATAACATTTACTGGTTGCTTTTGAGGATTGAATCAGATGAGATATAGAAAAGCCCTTAGCCCAGTGCTTGCTAGGGGAAAGATCAAT
Celera SNP ID:            hCV2045885
SNP Position Genomic:     127088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18259):
ACCAAGAGCTGTCTTACATCCTCTTTGGATTTCCGCATAGATTTTGCAAGCCGTAAATACAAAATTTGTCTAGAGTTCATAGTTGGTTCTGTTTACTGGA
T
TTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTGGCTCTGTTGCCCATGGTGGAATGCAGTGGTGCAATATTGACTCTGTGCAGCCTTCGCCTCCTGGG
Celera SNP ID:            hCV2045886
SNP Position Genomic:     130599
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18260):
AAAGATCTTGGTAAATATTTAGAAAATTGTTAACTAATGTGTGAGGATCTCAGTGACATGTTTAACTCAAAACACAAAATACTTAACAGATTAGTTACTA
Y
GGTATGTTCAAAGATCCTCTTGAGGTCAGTTGATTCCCAGAAAAGAAACAACTTATGCTCTTAAAGAAATTTTTATTCATGTGTACGCCAGACATCTAAA
Celera SNP ID:            hCV25637840
SNP Position Genomic:     327112
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:18261):
AGGCTTTGTTGTTTTATACACTCAGGCAACTTGAAAAGGATAAAAGAAAGGTGGAGAAAAGAATAGTAAAGTGAGCTCAATTAATTTTCTAAGAAGGCAA
W
CTAAAAACTTCTCACATGTAAACAGTAAGATGTCAGGGACACAAAATGAGTTAGCCCGTGTTGCTGGGATGAGGAGGGATAGCAGAGAAATGGCCATATG
Celera SNP ID:            hCV2045887
SNP Position Genomic:     131045
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18262):
GAGGCCTCCTCTGGCTGGAAGGTTGGCTGGAAGAGCGGGAAGAAAATTGTTGAATTCACTTAAATACATACTTTCCCATCCTATTAGACACAATTCCTCT
Y
TTTTAAAAACAAATAATTTGTAATGCCTTCTTTATTATCCTGAAATAAACATCATAGACAATCTGCTTGTGTACATTTTTAAATAAATATATTATCCTAA
Celera SNP ID:            hCV2045888
SNP Position Genomic:     136201
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18263):
CATTTTCGAATGATAATTTTTAGGAGAAATATTTAGAAACAGAATCAAAGGGCTTTGTTTTGTTTCCTCGAAATATAAACCTATTATTAGAATATAATTC
M
CAGTATGAGAAATGTAGGTTTTGCTTGAGTTTGCTTCCAGATTTAAGTAGAAAAGAAAGAAAATGACATTATAAAGAATTTTATCTCTTTTTTTGTGAAA
Celera SNP ID:            hCV2045889
SNP Position Genomic:     137626
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18264):
CAGGGTGCCATGGATGATGGCGGTGGAGCCTTTATATCATGGGAAGCACTCTCACTTATTAAAGATCTTGGTAAATATTTAGAAAATTGTTAACTAATGT
R
TGAGGATCTCAGTGACATGTTTAACTCAAAACACAAAATACTTAACAGATTAGTTACTATGGTATGTTCAAAGATCCTCTTGAGGTCAGTTGATTCCCAG
Celera SNP ID:            hCV25637847
SNP Position Genomic:     327052
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:18265):
TCAATATCACTCAGGTCCTGAGCCATGGAGAAGGGACAGACATCAACTTTTGGATCCAAGCTGGAGTGCCTGGTAAGACCAAAAGATGAAGTTGTGTTCC
Y
TATATATTGCCAACAATTTAAAATAAAATTTCTGTTTTAATAGAGCACAATGAATACTAGTAGGCCAGGTTGTCCACGGAAACCTTAAGCTTTTGTTCAA
Celera SNP ID:            hCV25637848
SNP Position Genomic:     427234
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18266):
TCTTTGTGCAGAGACATTGTCCCAACTCCTTCACCATGTGCTAACAATTAGATAATGACTCCATAAATGTAGAGAAAAAGCAGTGTCATGGACGGTGGGT
R
GTTTGTTTTCTTAGTTCTTTATTGAAAACATATGGAGATGTTTATATATAAATAGAAAACAATAAAACGCTGCCATCATGTAAGCAGCAACTTAAAAAGT
Celera SNP ID:            hCV16024838
SNP Position Genomic:     422003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18267):
TGGCTCCTGGGAAACAGATGAGCTGGCCAGTTTGAAGGATCTTAAAGTTGCAAGTTTTCGGGCTGGGTAGCAATTTAACTGTGCAACCTGTCAAGAGCCT
R
TTATATTCTAAATTTGTGCCGTGACAATATTGGCTACATGAAATAACTGTGTGCTTTCTTACCAGACTTTATTTGGAAAGAGTTTATGAACTAGTGGCCT
Celera SNP ID:            hCV16024839
SNP Position Genomic:     426264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18268):
GAGTTATCCTGTAAAATAACCCAAAGACAAAGACATGGCTTTTTTAATGTATATGTGTTTTTAGAAATAAATCATTGAAAAGCTCAGTAATCCCTTTGGA
R
AACAGCTTTAGCATTGATGCTGTCAAGACCCTTGTCAAAAGAATAAACCAAACCTGATTGGCCTGGTGGATAAACTCATTCCATACATAACTGAATAGTT
Celera SNP ID:            hCV198551
SNP Position Genomic:     253162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18269):
TTATAGTTTCAGGTTTATCTGCTGCCTGGGAATCAAAACACAGGTCTTGATTAACTTTCTATAAAGCAAGGATATGGACTAGGGATCACTAAGCTCTCTT
W
TATCTCTACAATGGTGTCATTATATGATTCTAATCCATCACTAGAAATGTATTGTGAAATAGTTAATTAATGTTTGCAGAATGCTTAGAGAACTTTTAAT
Celera SNP ID:            hCV2045890
SNP Position Genomic:     140573
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18270):
CCACATCTTTTGTTTGCACTCCTAAGCACACATTTTTATTCTTTACATGGCCAGGCTGTGAATTTTCATAATTTTTATGTTCTATTTCCCCTTAAATTAT
R
AATACTGTCTTTAAATTATTTCTTTCCCCTCACATTCTATTATATACATTTAAAAGAAGCCACACAGCTCCTTCAGTATTTTGCTTAGAAATTTCTTCCA
Celera SNP ID:            hCV2045891
SNP Position Genomic:     143679
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18271):
TTCCATCAGATATTCTAGTTTATCACTCTTAAATTCTGCCTTCTGTTAAAGCCCTCAGGCATGGACACACTTTAGCCAAGTTTTTTGCCACTTAATAACA
M
GGATAGCCTTTACTACAGTTTCCAATACGTTGTTCTTCATTTCCATCTGAGACCTCATCAGAATTGCCTGTACTGTCCATATTTCTGTCAGCATTCTGGT
Celera SNP ID:            hCV2045892
SNP Position Genomic:     143875
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18272):
GTGATAGTGGCACCTCCCAGTGTCACCCAGAATGATATCCCTAGTGGATGATAAGAAGGGAGGAGGTAGTTCTCAGCCTTGTTGGCTTGCAGCTTCCAGT
R
TGGGACCACCTCCTATGAGTGAGCTGAGAAAGGGGTGATCAGAGTCTTAGTATTCTTGATGGCTACTTAGGGTAGAGTTTCCACCCTATGAGTAGGACTT
Celera SNP ID:            hCV2045894
SNP Position Genomic:     151326
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18273):
TCATTATGTCCCTTAATCAACAATATGATATGGACTTTTTTGCATAAATAAACAAGAACAGATTGCCATTGGTTATATAGTACAAGTAACACTACCAATA
R
CATTGTGGTCCTCTGTGGTTATAGGATTAGAATGAATTTAATAGGACAAAAAGGAATATAGAGCATAATCATGAAAGGAGGTATCTCCAAGGGCATTCTG
Celera SNP ID:            hCV2045895
SNP Position Genomic:     158442
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18274):
CTTAGAAAAACATTAAGATTTTTCTTCTTTAGTAGTAGATGGCTTAAAGGTTTTAGGTCTGCTATTGGTAAATGCATTGGATGTTCAAAGCTTGATTGAC
W
AAGTGGGTAATAAATAAACCACTGGGACCAGATGACATCAACCCAGTATTTTTGAAGAAAGTAGAAGGTAATATTGTCAAAACTTGGTTCAATTATTTTT
Celera SNP ID:            hCV2045896
SNP Position Genomic:     163698
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18275):
ATGTCAGTCTTACTATGATTCAAAGGACATTAAAGCAAATGGGGTGTTTAGTGACAAAAGTATTTACAAAAAGCTTTTTTTTTTTTAAGTTCACACTGCC
R
TATTGTACTCTCCTCAACCTTACTTTTAAGTACATTTTCTATACTTAATTTGGGAGAAATTACCATAAAACATTTAGTGCTTTGTTTTCTGATATGGTTT
Celera SNP ID:            hCV2045897
SNP Position Genomic:     165806
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18276):
AGGCAGGGGCTCCAGAAGTTCTAGGTAGGAGTCCTTTGTTCTTATGTTTTTCAAGGGTCTCATGGTGACCAACATTGTTAACTTCTTTTAGCCTCTGTTT
C
CTCACCCTCAAATGAGGTCAATAGTATCTACTTTCAGAAGTGATATTCAAAATATCTGATATGGGAGTGGGACTTGGCTGTTATCAGACAGATGGCATAT
Celera SNP ID:            hCV2045898
SNP Position Genomic:     169759
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,12)   total(C,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18277):
CCCAGTAAACCAATTGTAATGTCAAAAAATTATGAGTTGAACCATCATAAGTGCAGATGCTCCTTGACTTACAATGGGGTTATATCCTGATAAGTCCGTT
R
TAAAGTTGTATAGTTGTAAGTTGAACCATCATAAATTGGGGACCGTCTATATTTGTAATCCTTGTGTTCTAGCATTGGTGTCTGCACATTTGAAGAGACA
Celera SNP ID:            hCV16018421
SNP Position Genomic:     16741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18278):
TGGTCTATTCTGCTATTGATACTTGTGATTGCATTGTGAAGCTCTTGTGTTGTGTTTTTCAGCTCCATCAGGTCAGTTATATTCCTTTCTCACCTATTCT
K
GTTATCTGGCTATCAGCTCCAGTATTGTTTTATTATGTTTCTTAGCTTCTTTGCATTGGGTTACAACATGCTTCTTTAGCTCAGGAAAGTTCGTTGTTAC
Celera SNP ID:            hCV11842127
SNP Position Genomic:     1997
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,9)      total(G,4|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:18279):
TTCAATGTCACCTCTAGGAGCTGCAGCCAGACATTCCTATGATGTACTTATAGCTAATCTAGTTGAGCTCCATTTGAGAGGATTCTAGATATATTACTTA
S
TAGAGATCTGGCTTTCTAGAAGGCTCCCACTGGATCCAGGTAATGTCCAGTGGCTTGAACGATAGAAAGCTGGAGTCAGCAGCTGGCCTTCCAGACCCAT
Celera SNP ID:            hCV211963
SNP Position Genomic:     303994
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18280):
AGTTCACTTCAGTTCTTAAGATAAAGTAGGTTCTACTGAGTATTTGCTAAATGAATGAACAAATCAATACTCTAAAATGTTTTCAGCTTTTTACTCATTG
Y
AGTGTAGGAAGAGCTACATGGAGTTGAATTTCTATCAACTAGCCCATCTTTTATTACTGGAGTTAGTCTTCTTTGGTAATTTAATACTCAGAGTACCTCA
Celera SNP ID:            hCV211964
SNP Position Genomic:     301706
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18281):
CAAATGGGCCTTTCAATTCTTTCCAACTCTAAAATAAATGTAATTCTAGTAGAAATCCATATACAAATCATGGTTCATAAAACTGAAGGTTAACATTGCT
R
CCATATGGAGAAGTTAGCTCACATACAAAAAGAGAAAACCATCAGTTCTCCAAATATTTCTTTTTACCAAATTTGACTTTAACAGCAAACTGGATTGTGT
Celera SNP ID:            hCV211965
SNP Position Genomic:     301277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18282):
GGTAGAGTGGATAAAGAAAATACATTCATTACCTGGGTGACAAAATAATTTATAAACCAAACCCCAATGACACACAATTTACCCATGTAACAAACCTGCA
Y
ATATACCCCCTAAACCAAAAATAAAAGTTGGATAGAAAAAAGAAAGAGGTGTGAGAAAAGACCCCACTGTGACACATAAGTGGCATAGATAACAGTGGAG
Celera SNP ID:            hCV16024840
SNP Position Genomic:     454523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18283):
TAAGAAAAGACAGATAAGATCCATGCTCTCACAGACAACACAGACTAGTAATGAGACCTGGTTATTTCATCTGCAAAATAAGTCTGGTAACCTATGAGTC
R
TTATTTCTACCAGGCCTCCACTTGTGTTCTCCTCCTCCTCTGTCCCCTATCTCATTAGCAGGCACTATAATTCAGAAACCTCAAAAGCACCCAGGACATA
Celera SNP ID:            hCV16024841
SNP Position Genomic:     432391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18284):
CAACAGCAACAAAACCAAATTAGGATAATTGAGGTTTAGTTTAATAAAGGGACTATTTATATGATGTAGAGAGGGTATAGGGAAAGCACAGGGGATCATG
W
TTATCAACCCTAAATCTGAAGGGGCACAGAGAGGAAGTGGTCATGGAAACCTGGACACAGAAAGGGTGCTGCAGAAAGGACCCTCTAATGGGCACTGAGA
Celera SNP ID:            hCV211967
SNP Position Genomic:     299474
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,7)      total(A,7|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18285):
CACCTAGTCTCTCCACTCTCCATGATCTATGCACAATAATCACCCCTTAAGGTGAATTTAAGATCACAGAAGTGTGCCTTATCCCCTCTGGTCCAGTTTA
Y
TTGAGACGCTCAAACTCACAGGCAAATGAGGAGTTGAATCACTTCATACCAAGCTCCCAGCAATCTGCATTATTGAATACCTGAAGTGTTCTGTCCTCCC
Celera SNP ID:            hCV16024842
SNP Position Genomic:     443681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18286):
ATATTCACAGGATTACAGTGTCTGCATTCCTTAGACGCTCCTATCATGCTGTGCTAGTCGGGCACTGTGCTAGGCACAGGGAATGTTGAGATAAAAGGAA
S
TTGGTTTGTTGTTTAAACTACCCAGATTGTGCATTGTTAAAAATTATTATTTTTTTGGAACTCTTAAAATTTTGTTTTGCCCAAAAAATTACATGACACT
Celera SNP ID:            hCV211968
SNP Position Genomic:     298896
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,7)      total(G,6|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18287):
TAATTCAAAACCTCTTAAAATGCTGTTCCCAAGTGTGCTGGGACTTTCTGGTCATGTCTCTGCGAAATGGATATTTTGGATCTTGCTTTAGCATACACAG
R
AAACCAATCTCCAGGCAGTTCTTCCTTATAATTTCTTTACAAGTTTCCCCTTAAAGAATTCCTAATGTACTTTCCTCAATAGTAACATAGATTTTTCTAG
Celera SNP ID:            hCV16024843
SNP Position Genomic:     460779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18288):
GAAAACAGTATGGAGATTCCTCAAAGAACTAAAAGTATATCTACCATTCTATCCAGCAATCCCACTACTAGGTATCTGCCCAAAGGAAAAGAAGTCATTA
Y
ATCAAAAAGACACCTGCACATGTACATTTATCACAGCATGGTTCACAATTGCAAAGATATGGAATAAACCTAACTGTCCATCAATAGATAAGTGGATAAA
Celera SNP ID:            hCV8294801
SNP Position Genomic:     415445
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18289):
AGAGGAGTCAAGCATAAACTGACAGTTTGGGGCCCAAACAACTGAAATGAGGGGAGTTAGGCAGGGGGAAAAGGGGGAGATAAGGAGTATGGGTTTGAAC
M
TGTTAAGTTTGAGATATCAGACTTTCATGTGGAGAGGTCAAGTAGGCAGTTTGGTAAAAAGTATAGAGTTCAATGAATTGACATTTCTCAAAAGAAGATA
Celera SNP ID:            hCV8294802
SNP Position Genomic:     415038
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18290):
TCACAATAAAAGATCAATAAATCTCAGGCTTTAAATCTTAGTCTCTCTATCTTTTAGCACATTCTCTTTCCACTGTGTTCTTTTCCACTTCTGTTTGTCT
R
TTCGCTCTGGCATTTTTATCATAGCCTGAGACATTTTCGAATGATAATTTTTAGGAGAAATATTTAGAAACAGAATCAAAGGGCTTTGTTTTGTTTCCTC
Celera SNP ID:            hCV11842203
SNP Position Genomic:     137494
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18291):
CACTCTTCTCAACTTCAGTATTACAGTAGGTATGTTAGTTTATTCACATGGCAGGATTGAGAGCTCTGCAAGTTATCTGTGGAGAGTTTGAAGAAGGCAG
R
TATACAAGCAGGCCAAGTCCGAAGAGATGAAGGACAAACTTACAAGACAGGAGAAAGCACAATCTCCAATCAGTCCTGAGATAACATAGCATACATCAGA
Celera SNP ID:            hCV11842208
SNP Position Genomic:     153149
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18292):
TCAAACTGTTTTGTCATTTGAATTAGGAAAGGTCAAAGGGAAAGGAACATAATAGTAGACAGACAGAAAAGTGCTTTGTGAAAATTACCCATTTTTTCCA
M
GTAAGGAAAAGTAATTTGTTTTTTTTCAGTGCTAGAGATTTTTGTTTTGATAGATTTACAGAGAGAAAAGAAACCACCAAGAATTTTGAAAGGTCCCATT
Celera SNP ID:            hCV16024853
SNP Position Genomic:     407938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18293):
TAAGGGTTCTTATGTTTAAATCTTTAATCTGTCTCAGATTTATTTTGGTGTAAGGTGTGTTATATATATCTAGCTTAATTTTTCTTCAATTAGTTATCAA
K
ATTTTTTTGTTTTTATATCACTTTTTGAAGTTCATTTTTTCCGATGGGATTCAAATATACTTATCACATTAAAATTTTCTAACTATATTTGTGTCTATTT
Celera SNP ID:            hCV16018439
SNP Position Genomic:     46433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18294):
ATTCCTTATCTTCGCATTTTTCGGTGGTGTTCACCTTTTATCCCTGTGCTCTGGGAAAGCTATATGCAAGAATGGCATCTCTAAGAGGACTTTTGAAGAA
R
TAAAAGAAGAAATAGCCAGCTGTGGAGATGTTGCTAAAGCAATCATCAACCTAGCTGTTTATGGTAAAGCCCAGAACAGATCCTATGAGCGATTGGCACT
Celera SNP ID:            hCV25770539
SNP Position Genomic:     145975
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:18295):
ATGAGGTCATGTGTCATACAGGCATGGAATGTTACAAAGCTGATATTTATGGGGCACTGACCATACACCAGGCACTGTTATATTTAACCTTTTTACTTAT
R
TTGCCCCATTTAATCATCACTATATATCTAAGAGCTAGATACTATGGTAAGTCCTATTTGATCTTCTTAACTAGAAACAGTACATGGAAAATGGGAGAGT
Celera SNP ID:            hCV11842141
SNP Position Genomic:     8378
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,8|G,11)      total(G,11|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18296):
ACTTAACATAATGGTCTTCAATTCCATCTATGTTGCTGCAAATGACAGGATTTCATTCATTTTTATGGCTGAATGATATTTCATTGTGTATATATATGGC
R
TTTTCTTTCTTCATTCATCTGTTGATGGGTACTTAGCTTGATTCCGTATTTTCACTATTGTTAGCAGTGCTGAAATAAACACGGGAGTGCAGATATCTCT
Celera SNP ID:            hCV15759408
SNP Position Genomic:     181663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18297):
GAGACGGGACTTTGCCATGTGGGCCAGGTTGATCTCGACCTTCTGGCTTCAAGCTATCTGCCTGCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCATGA
R
CCACTGTGCCTGGCTCTTTTCAGCATTTTTAAGCTGAATTTTAAACAGAGGAATGATATGATTGGATTTTCCTTAGAAAATAGCTACAGTAATAATGTTT
Celera SNP ID:            hCV11842142
SNP Position Genomic:     10209
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18298):
ATAACTAATATATTATGTATTTTCATTGGAGGAAGAACTGCGTTCATGTCTGCATTTCATCAAAGATTCCTAATGACTTCAGAGGGAGCCAGCCTGTTTT
M
CATGTTGCTAGAGAAGTGGAGTAAAAAGAGAGTGGGTGACATGATGGGGGCCATCTATGGTATAGTGAAGAGTTAGGGAATTAGAGGAACTTGGATACAG
Celera SNP ID:            hCV15759409
SNP Position Genomic:     196518
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18299):
TTATTTCTCTAATTTATCATATTGTTTAGTACATATTTCTTGAGAGCTTCCTAGTTGCTCAGAAATTTCCGAGTACTAGGATTACTAAGGTGAATTCCAT
R
TGTTTTTTGTCCTCAAGAAATATTTTTATGTAGCCAAAAGAGAAGGGGGTAAGAACATGTAAGTGATTAGTGTTATTTATTTTATATTTAGTGCTAAGTG
Celera SNP ID:            hCV11842218
SNP Position Genomic:     200651
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18300):
CAGATATGAAATACAGAGAAGAAATTTGAGCTGGCGCTTCCAAATAACTGTACTTCTTTAATGGTAAGATATCCCAAGCTTTGATTTCTCATCTTATTCA
S
TTTGTCAGGAAGAGACAAACAGGTGTGGGTGCTGGGCAGAGGGCTTGATCTCATTTTGCAGAGAAAGTGTTTGGAGACTTTGAACTAAGCAAAGAGTAAC
Celera SNP ID:            hCV11842148
SNP Position Genomic:     11083
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18301):
ATGTCTCCTTTTTTGCATTAATAAGTTCTTTTTTATTTTACTGTAAATTGGCAAATTATGGTTGTATATATTTATGAAATACAAAGTAATGTTGATATAT
R
TCATAATACAACCTTCCATACAATGTGGAATGATTAAATCAAGCTAATAAACATACCCATCACCTTAAATACTTATCATTTTTGTGGTGAAAATATTTGA
Celera SNP ID:            hCV11842149
SNP Position Genomic:     12840
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18302):
TGCTTATCAATTTAATCAATTATAGGATTCTAGAAATCACAGGAAAAACATCACAATTAAAGAGATTTTGGTAAAACTGAGTTAAAATTGGGTAGGACTT
K
TTACTATAAAAATAAGTTATATCTAATGTTATACAATAAACTGCCTAGTTTGGATAATTTCATTAGCTTAAACTCTTCCCTTTGCTCAGTATTAAAGTTC
Celera SNP ID:            hCV16024860
SNP Position Genomic:     441495
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,10)      total(G,4|T,10) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18303):
ATTATAGGTGATAAGAGTCGGTGGAGGATTATATGAGTGAATGTATAAAAGCACCTGGCCAAAGGCACAGAATAGCACTTGGACTGACTCTCACAGGCGA
Y
ATCAAGTTCTAGTTTGTCTGCTATGGACTGACTGGGTATTCTTCACTGTAAAGGAGCCTCATCCCTAATGGTGATGTGAAGATAGTATGTATCCCAAAAT
Celera SNP ID:            hCV16024861
SNP Position Genomic:     444757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18304):
AGAATGTGTTTATGTGCCTTGTAAAGGAGCTAGTCATTCCCTTTTGCTTTCCTTTATTATGATGTGTGTATACTCTGTGTGTGTGTGTGTGTGTGTGTGT
S
TCTCTGTGTGTATGTACACCAAAGAAGAACCACACCAGGAATTGAGCATAAAGGCTTTCTCTTACCCATCTACACACCTTTCTTGTAAGTTGCTGCTTTT
Celera SNP ID:            hCV16024862
SNP Position Genomic:     445832
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18305):
AGTTGAGTGATTGTTTTGCAACAGAGACTGTATGGCCCACTAAACCTAAAATATTTAGTCTCTGACCCTGAAATGTAAGATTGATAGCCCAGGACCAGGC
R
TGGTGGCTCACACTTGTAATCCTAGCACTTTGGCAGGCCAAGGAGGGTGGATCACCTGAGGTCAGGAGTTAAAGACCAGCCTGGCCAACATGGTGAAACC
Celera SNP ID:            hCV16024863
SNP Position Genomic:     480050
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18306):
AGAATCAGATAATTGTCTCTCTGTGCAATGTCCAACACCAGCTTTCTATGTAATAAAAATAAACTGAAAACAAACAGGAGGCAAAAATAAAGCTTCATGG
R
CTTCTTAAACTGTTTGTGAAAGTTGTTGTTCTAGAGATCATAAGGTAGGGAGTTAATAAATACTTTGTTCCTTGACAGGGCTACCCCATTGTACCACTCC
Celera SNP ID:            hCV154730
SNP Position Genomic:     33094
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18307):
CTCTATAAAATGATTCTTCATTTTACAAGCTTATTCACTGCCGCATTCCTTTACTGATCTATTCCTTTACTGATCTATTCCTTTACTGATCCCTCTATAC
M
CAACTCCAGATTTATGGCACAGATAAATTAGTGGGCAATCATTTGCTCTATAAAATGATTCTTCATTTTACAAGTTTATTCACTGCCACATTCCTTTACT
Celera SNP ID:            hCV16024864
SNP Position Genomic:     481425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18308):
CAGAACATTCTACCCAAGAACTGCAGAATATACATATTCTATTCATCAGCACATGGAACTTTCTCCAAGATAGACCATATGATAGGCCACAAAACGAGTC
Y
TGATAAATTCAAGAAAATTGAAATTATATCAAGTACTCTCTCAGACCACAGTGGAATAAAACTGGAAATCAACTCCAGAAGGAACCTTCAAAACCAGGCA
Celera SNP ID:            hCV11238222
SNP Position Genomic:     380963
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18309):
CACCTAACACTTAAGTGCTCACATAAACTTAAGGTAAACGGATAGAAAAAGAGATTCCATGCAAATGGACATGAAAGTGAGCAGGAGTAGCTATTCTTTT
W
TCAGACAAAACAAACTTTAAGGCTCTAGCAGTTAAAAAAGACAGAGGGTCATTATATAATGATAAAAGGCCTTGTCCAACAGGAAAATATCACAATTCTA
Celera SNP ID:            hCV11238223
SNP Position Genomic:     380556
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18310):
CAGCCTGTTTTCCATGTTGCTAGAGAAGTGGAGTAAAAAGAGAGTGGGTGACATGATGGGGGCCATCTATGGTATAGTGAAGAGTTAGGGAATTAGAGGA
M
CTTGGATACAGACTTGGCTCTGCTCCCAAACAACTAGGTGGTCTTAGGAATGTTTCTTAAACTTCTCTAGGCCTCATAATTTTCTTCTGTTAACCAGGGG
Celera SNP ID:            hCV15759410
SNP Position Genomic:     196607
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18311):
AGCAATTTTGAAATATACAACACAGTATAATTAACTATAGTCATCATGCTGACAATATAATCTCAAAAAATTTATTCCTCTTGTTTAATTGAAACTTTGA
M
CCCTTTGGCATTCCCCATTTTCCCCAACCCCTCAGACTTTGGTAAGCACCATTCTACTCTACGCTTCTTAGTTCTGTTGTTTAGATTCCACGTAGAAGTG
Celera SNP ID:            hCV11842150
SNP Position Genomic:     13054
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,7)      total(A,7|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18312):
TATATTGTGAATCTTAACTGGGGGCTTCTCCCAACCTGTTGTGTCCGGAATTGGTGGGTTCTTGGTCTCACTGACTTCAAGAATGAAGCCGCGGACCCTC
R
CAGTGAGTGTTACAGCTCTTAAGGTGGTGTGTCTGGAGTTTTTTCCTTCTGATGTTCGGAGTTTCTTCCTTCTGGTGGGTTCGTGGTCTCACTGGCTCAG
Celera SNP ID:            hCV15759272
SNP Position Genomic:     79270
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18313):
GCTTATTGCATTTAGCATAATGTCCTGCAGCTTCATCCATGTTGTCACAAATGACAGAATTTCCTCATTTTTAAAGGCAGAATAGTATTTCATTGTGCAT
R
TGTGCCACCTATTCTTTAGCCATTTATCTGTTGATGGACACTTCGGTTGATTCTATAATTTGGCTATTGTGAATAGTGCTGCAGTGAACATGGGATTGCA
Celera SNP ID:            hCV11842154
SNP Position Genomic:     13292
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18314):
TGGCCAGGGCAACGGGCTTTTTAAAAGACTTTCCAAGTAATTCTAATGAGTATCTAAGTTTGAGGACCACTGATCTAGATCAATTAACCATACATACATA
Y
ATATATATATATATATATATATGCATTTTTTTTTAAAAAGATACATTTAACACCTCCCCCCACCCAATAAACCTTATGGAAACCCAATGCATAAAAAAGA
Celera SNP ID:            hCV15759276
SNP Position Genomic:     91843
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18315):
GTGGAAGAGTGAAGCAGAAGAAGTCAGAGAGTTAGGAAGATGTGATTATGGAAGAATGTTCAAAGAGAGACAGTGCCACTGGCTTTGAAGATGGAGGAAG
R
GGGCCATGAGCCAAGGAATGTGGGTGGCCACGAGCCAAGGAATGTGGGTGGCCACTAGAAACTGAGGAAAGCAAGGAAATAGATTCTCTCCTAAAGCTTC
Celera SNP ID:            hCV11842155
SNP Position Genomic:     19716
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18316):
CTAAATCTGGAGCCTTGCAGGTTCCCTGACTTCAGACTTACTCACTGCTTGTGATTCTAATGCGTTTCTAGTCCACAGAGATGTTTATCTGGTTCTTGGA
R
ACAAACTATAAACATTTTTATGTTTACTTTTTATGTTTCATCTTTAATTATCACGTTTGGAATAGGAGGAGTTTTATAATGGTGTGAATTTGCTGAATCA
Celera SNP ID:            hCV250105
SNP Position Genomic:     310887
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18317):
TCAGATCATGAACCCAGGGGTCCAGCACAAAGACGTAGATCCAGCCCTGATAGGAGAATGCCTGGTTTTTAGAAATAGGGGGATTAGCTTCCAAACTATA
R
AAAGAATTCATTCATCCATTCATTCATTCATTTTAAAATTCAGGTCTTAATTCAAATATCACTTCCCCAGGGAGGCCTTTCTGATACATTGTCTACAGAA
Celera SNP ID:            hCV15759421
SNP Position Genomic:     216450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18318):
GTTTCCAGAGGATCTGCTGGTTTCTTTGTCCCAGCAGCTTCCCTCTGCCTGAACCTACCCTAGATTCCATTCTCTAGAATGAGCCAGCTTAGGGTGGCAA
R
TGTCCCTGAAGTTGGCTGCATGTCCTCAGATCACCTCTGAAATCTTTCCTTTCTATAATTTTACTGTTGTTAGAACTTTTGGCTTCATTAACTTTCTAAT
Celera SNP ID:            hCV15759422
SNP Position Genomic:     220497
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18319):
AATAAATAATTTGTAAAAAAAAAAAAAAGTTTAAAATGTTAAATCCCAGTAGCAATCAAATACATATAATTCAATTCAAAACACTGAAATGACACTTGTA
S
TCTTTTAAATTAGTGATTTTAAAAAAACAAAACAACAAAAAAACAGAATATTGGTAAGAGAGCAATGAAAAATGAGTTTTCATACACTGTGGGAAAATAA
Celera SNP ID:            hCV11237299
SNP Position Genomic:     365334
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18320):
GAACAGAATTCTGCCATACCATCCCTTGACTAAATTTCACTAGCCTTCTACATGAGAAAAGAATGAACTACCTTGTTGAAGCCTCTGAGATTTTGAGATT
S
TGTTACATGCAGTTGATCTTACAATCTGATTCTAACCAATTCAGATATGGAGGAAATAAATGAATAAGAACTTAGTTTCTAGGATTTCAAGCCAGTAGCC
Celera SNP ID:            hCV11842232
SNP Position Genomic:     224055
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,5)      total(G,5|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18321):
TATGCATATATGTGTATAAATATGATTGAGATTGTGTAGGAGCCTGTCTTAGTCCATTTGTGCTGCTATAACAAAATTATAATAAAATACCACCAACTAC
R
TAGCTTATATACAACAGAAACTTATTTCTCACAGTTTTGGTGGCTGGGAGGCCCAAGACCAAGGAGCTAGCTGACTCAGTGTCTGATGAAGGCTCACTTT
Celera SNP ID:            hCV8294698
SNP Position Genomic:     267524
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18322):
AGCTCAGGAGCAGTGGTTACAGAATTTTCTGGGGTTTAAATACCATCTAGAGGTTTCCCATTGGTTACTTGGTTACATCCTACATAAATGAGGTAGTGGG
M
CATGACCAGTCTGATTAGTCGCCTTTCATGATCAGTCAGAGACTGAAGTGGTTACAAAGTTACACCCCTATGCAAATGAAGACTAGGCCTGTGACCAGCC
Celera SNP ID:            hCV11842163
SNP Position Genomic:     34321
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18323):
AACAAAACAAGAATATCCACAAACATGACACCCTCTTTGGCAGAATAGACACTAAGTGCATATTTGTTGAGAATTGAGAAGATGCATAAGTCAGAGAAAA
K
AAATTATATTTAAAAAGGCTTTACAAATTTTTAGTTTTTGAGGTAATATATACAAGTGGAACACAACTCAAAAAGAGTATGTAGTGAAATGTAAGTTTCC
Celera SNP ID:            hCV11842166
SNP Position Genomic:     36040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18324):
GCACTACCTAACTGTTGTGTTTTGTAATCAAAAGCTATATTGGCAGGGGTGAGTGTGAGCCTGCTGAAAACTCAGGGAAACTGTTGAAGGTTTATCAACC
Y
GAAGCAATTTTACTCTAGTTAGTGGGCCTGTGTTGCTCAGTTAGCAGAATGTTTGGGGATCAGAAGAATACCCCAGAGCACTTCAGCCATTGCATAGACA
Celera SNP ID:            hCV28006898
SNP Position Genomic:     476370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18325):
TGAAGCCTGAGACAGGAGAACTGATTGTGTAATTCCAATCCTAAAGCTAGCAGACTGGAGACCAAGGAAGAGTTGACGTTTTACTTCAAATGCAAAGGCA
R
GAAACATTCTTCCTCAATTGCCACACAGTCTGACTGATTTTGCTGGCTCTCACTTTCCAGAAAGGGAACCATGGCCATAAATGTCATGGGAAGGTATTTA
Celera SNP ID:            hCV323016
SNP Position Genomic:     215845
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18326):
CCTTGAGGTAATAATAGCCATCTACAACAAACAGATAACATTATACTGAATAGGGAAAGTTGAAAGCATTCCCCCTGAGAACTGGAACAAGACAAGGATT
Y
CCATTTTCACCACTTCTATTCAACATAGAATTGGAAGTCCTAGCCAGAGTCATCAGACAAGAAAAAGATATCAAGTGCATCCCAATCAGTAAAGAGGAAG
Celera SNP ID:            hCV8295642
SNP Position Genomic:     336927
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18327):
TATTCTGTTTATCTCCTCTCTTCCTCTCTTGCCTCTATGGGTCCTGGCACAAAGTTTATGTTCCATAATTGATGTTAAATGAATGTCTTGTTTTGACTAA
R
ATATTTGTTCCTTAAGAACCTTATCCGTCTTACCTTTATTCTGTAGGACCAAGAACACAAGATCTTATGTGTACCCATTTAGCGATGACAGACTGACCAA
Celera SNP ID:            hCV1017285
SNP Position Genomic:     110152
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(G,82)   African-American(A,1|G,79)   total(G,161|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18328):
CCTTCCAAAGTCCTGGGATTTCAGGTGTGAGCCACCGTGCCCGGCCCCATGCTTCTTTATACTAGTTCTTTCCTCCCTTCTCACCTCCAGCCTGGGATGT
R
GTCTCCACTATGGTCTTTATTCCATACTCCAAATTTGTCTCTTTCCAAGTATCTTCCTAATTCCTTTTTTTAAAGTTACCTTTTTAATTTCCTGCCGTGA
Celera SNP ID:            hCV1017286
SNP Position Genomic:     128970
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(A,84)   African-American(G,3|A,81)   Asians(G,1|A,83)   total(G,4|A,248) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18329):
ACAGGCTCCTGGTCCTGGGTCTGACTTTTTTCCAGTGCAACCCAGTCTGACAATGCCATATATTCCCAGTATATCTGGGGAACTGCATCACTATTTCTTC
R
CATGCATTTGAGATTAGTTATCATAGATCACATTTTGGAGCTGGAAGGACCTTGGAGATTTTTTAAAGGCACTTCAAAAGTCATTATACATACATATTTA
Celera SNP ID:            hCV1145345
SNP Position Genomic:     8018
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18330):
TGCTGTGTCAAGTTTTGTTAATTACACATTGTTACATGTCAAGGCTTCTAACCTATTCATTCTATCCTGTAACCATAATGTATTTGTTTTGGTCTTCGTT
M
TAGAGAATTCAGTACAACTATTAGTCATTTTGCCAGAGATTTATCATGCATTTCTTGATTGACTGAAGTTAATGCACTAGCAATTTCTTCCAGAAATGGA
Celera SNP ID:            hCV11842172
SNP Position Genomic:     50420
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,8)      total(A,4|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18331):
TTTTGCCCACATCCTTGCTGTCATTACGCTAGTCCTAACTCTTGACTCGGCCATGCAGAATATTTTAAACCACTTTATCCTCTACACTGCCTCAGAGTTA
R
ATCATAAGTTGGATCATGTTACTTCCTCTCTCAGAAGACCTACATTTTGAAAAATTGCTTGTGGAATAAATCCCAAACTCCTAATTTGGCATTTAAGGTT
Celera SNP ID:            hCV27868493
SNP Position Genomic:     20880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18332):
CTATGTATCCAACAAAAGTCTAATATCCAGACTCTATAAGGAACTTAAGCAATTCAACAAACCAAAAACTAATAACCTCATTAAAACGTGGGCAAAGGAC
R
TGAACAGACACTTATCAAAAGAAGACAGACAAGTAGCCAATAAACATATGAAAGAAATGCTCAACATCATTAATCATCAGAGAAATGCAAATCAAAAGCA
Celera SNP ID:            hCV27868494
SNP Position Genomic:     86399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18333):
TCAGTGTGCTAAATCTTATAAAATTCCTTTGCATCATCCACCTTGACAGATGGTCTTCAGGAATGTGCTGAACCTCCAAAACAGAGGGTTGGGAGGAAAC
Y
CAAGAGTGTTCTTCCCCTGTCTTCTGTCAATGACTACGACACACTGAAGGCCACATTGACCTTCCATCAAACATACATGCAGGCTTCAAGCCACCCTTCC
Celera SNP ID:            hCV459430
SNP Position Genomic:     291971
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18334):
ACAGTAGGGACTCTGTGTGGGGGCTCTGATCCTACTTTTCCCTTCTGCACTGCCCTAGGGGAGGTTCTCCATGAGAGCAATGCCCCTACAGCAAACTTCT
R
CCTGGACATCCAGATGTTTCCATACATCCTCTGAAATCTAGGTGGAGGTTCCCAAACCCCAATTCTTGACTCCTGTGCACTGGCAGGCTCAACATCATGT
Celera SNP ID:            hCV27868495
SNP Position Genomic:     155178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18335):
TTATAAAATTCCTTTGCATCATCCACCTTGACAGATGGTCTTCAGGAATGTGCTGAACCTCCAAAACAGAGGGTTGGGAGGAAACTCAAGAGTGTTCTTC
M
CCTGTCTTCTGTCAATGACTACGACACACTGAAGGCCACATTGACCTTCCATCAAACATACATGCAGGCTTCAAGCCACCCTTCCTTCTTCCCCGTAAGG
Celera SNP ID:            hCV459431
SNP Position Genomic:     291986
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18336):
TTATAGTCCGGTTGGTAGAGTAAAAAAGCAATCAAACTTAACAGCTTTTTAAAAAATTAAGAATGTTATATAGGTTGATGTTATTTTTATTATTATAAAT
R
TAATATTTACTCCTTTTGCCAACTTGGAAAATGTAGAAAAGTCAAGAAAAACATAACATTCATCCATGATCCCACCACCCAGACAAAACCACTTTTACCT
Celera SNP ID:            hCV27868496
SNP Position Genomic:     228505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18337):
CAGAGGGTTGGGAGGAAACTCAAGAGTGTTCTTCCCCTGTCTTCTGTCAATGACTACGACACACTGAAGGCCACATTGACCTTCCATCAAACATACATGC
R
GGCTTCAAGCCACCCTTCCTTCTTCCCCGTAAGGGACAGGTTGAAGCAAAGATCATGCTATTAGGTATTAGGTAACAAGCCTCCACTTACAGAGTATCCT
Celera SNP ID:            hCV459432
SNP Position Genomic:     292052
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18338):
TTACTTCCCTTTAACTTTTCTATTATGCCACAAAGGACAAGTATGTGTTTTCCTTATAAAAAGAAGTTTTGGCAAAAAATGAAGTTTTGGTCCTATAGTT
Y
ATAGTGGCCCCAGAAAAAATTGCCTTACTATTTCCACAACACCATTGCTTGTTTTTTGTTTTTGTTTTTTTATATAGTCCCACACTTTCTTTTGCTCCTG
Celera SNP ID:            hCV459433
SNP Position Genomic:     292339
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18339):
AGATTGAACGGTTGTTAACACTTTGCTATGTTTTCATCAGATAACTTGGGAAGAAAGGAAGGAAGGAAGGAAGGAAGGAAATAGTGCAAATATAGTTGAA
G
TTTTACTCAGTATTTCCTGCTCTCTTCCCTTTCTTCCCTATATAATTTACTTAAAAGTTTGTATATATTATTCCTATGTGCATTTTGATTATTTTTATTA
Celera SNP ID:            hCV459436
SNP Position Genomic:     293191
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,6)   total(G,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18340):
GGTGTGCAATAGATATTTGTTGGACAAATGTCTGCATGAGTGAGTAGACGGCTGTGGAATTGGGTTTAATGCTGTGATTCCAATGCATATAATAAGGAAT
K
AAGTTCTTTCCTAAAATACTCACATCACACTCTAGCAACCATTGGCTTCTTGCTAGTTGATTTATTCTCTAAGAATTGCCACAATAGATTAAAGAGATGA
Celera SNP ID:            hCV459437
SNP Position Genomic:     293904
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18341):
GTCCGGTTTCAAATCCTAGCTCTTCTTGTCCTTAGCTCTGTGGCCTTGAGCAAATCACTTGGCTTCTCTGTGCCTCATCTATAAAATGCGAATAGTGCTA
Y
GTACCGCTACCACAACTGTAATGATTGCAGAAAATGTTCACAAGGAACCTAACAGTGCCTAGCACCTGGAAGGCATTCAGTAAGAGGTGAAAATGCAACA
Celera SNP ID:            hCV459438
SNP Position Genomic:     294910
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18342):
CCATCAGTGCAGAGAGGCCCATCCATGAATCAGGTAATTTTTAAGTGAGAGAAACACACAACAAGCCTAGGATTAAGGATGGTAGAGAGATTACTGTGTG
W
TGCTATGGCATGGGAAGACTTTGTGGAGGAGAAAGCCCTCGGGCTGGATGCTGAAGGCCAAGTAGGTGTTAGACTGGGGGAGCTAAGTGAAGAGGGCATT
Celera SNP ID:            hCV459439
SNP Position Genomic:     295263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,3)      total(A,3|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18343):
TTACGGGCAGAAAAGGAACAGAGACAGATCATCACGGTCTCCCAGTTGTGTTCTTTCTTCCACTATGCAGCCTACATTTCTCTCTACCATACATTTTGAT
W
ACTTAACCTAGGACATCAATACCTATGTATTAATCAGGACTCTTGGGATTTTAAACGTCAAACACCTAGAGAAACTTGTTTGATAAGCAGGGAAGTTATT
Celera SNP ID:            hCV11242200
SNP Position Genomic:     295927
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18344):
CTCTTGGGATTTTAAACGTCAAACACCTAGAGAAACTTGTTTGATAAGCAGGGAAGTTATTGGCTTGTGTAACTGAAGAGTTTTGGTAGGGCTGAATCCA
R
GTTTCCAGAAGATGTCAGGTGTTTGCCTCTCCTTCACAAGGCTTAACTTTTCTCAGTGTGGCTTCATTCTCAGGCAAGCTGCCTACAAATAGTGTCCAAA
Celera SNP ID:            hCV11242201
SNP Position Genomic:     296067
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18345):
AGGGATACCAAGCAAAAACTTAATGAGAGTCTGACTCTGTTATCATAATAAATATTTTTCTACTTTTCTCTGTAAAAATGATTTTCTCTTTCTTGCCCTA
T
TTTTTTTGCCTCATTGTTCCCTAAGTTTATGTCATCTACTAATAAATTATATTTAAAAATAATTAATACATTAAAACAAATCTGCCAAATGGGCCTTTCA
Celera SNP ID:            hCV11242205
SNP Position Genomic:     301091
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,11)   total(-,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18346):
CTTATAGATTCACTTTTTTGCTCAAGCCTTCAGCTTAAATTATATTCAATTAATCTAACAGAAGAGTTATTTGTGCTTTGTAAATATAATCAGTCTTTCC
Y
GAGTAACTGTCTACAGAAGGCTGTTTGCTGTGAAGCGTCGTTGAATACTTTTCTGTGTCTGTGGTTTACTGGACTTGAAACTGTTTATTTGAAATGTTAT
Celera SNP ID:            hCV27518577
SNP Position Genomic:     329856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18347):
TTTGCTCTTTTCTTAACTTTTCTAAGTTGAAGGTTGTATTAGTCAGGGTTCTCTTAGAGGGACAGAACTAATAAGATACACACACACACACACACACACA
M
AAAAAAAAACTAATAGGATATATATATGTATATATACACATACAAAACTAATAGGATATATATATATATATATACACACACTCACACAGAACTAATAGGA
Celera SNP ID:            hCV15759377
SNP Position Genomic:     98227
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,5)      total(A,5|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18348):
GGTCTTTTGGCATCCCACATCTGTTGACAATTACAGAGGCACATACAGTGCCATTCATAGAATGGCATGTGTCTCCCTATGCCTTGGTTCACAGGCCCTC
R
GGGACATTTACAAAGTGTGTACTTTTTAACTGTCCTAGAACTAAGGAGTTTAATTTTGCCTGAGAATGTGTTTATGTGCCTTGTAAAGGAGCTAGTCATT
Celera SNP ID:            hCV8294930
SNP Position Genomic:     445669
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18349):
AGGTAGATAATAGGAGGCCTAAGAGAAAGCTCAGTTGTCCTTTGGCCTATGGCCTTTGGGCTTGCTGTAGATCCTCTGTTGGCAACTGGATGCTCTGTTG
R
GTCCAGGAATTGATGATAACCAGTAGTTTGTGGGTAGATTTCCATGTTGAGCACTGCCTTCAGCTAAGTGCTTTCAGTTGCCTCTTGTTATGGTTGGAGC
Celera SNP ID:            hCV2060472
SNP Position Genomic:     477921
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18350):
TCAGGCTAACTGATGAATTACAAGATTTTCACCAATGAGTGGGAAATGTAGCGATAATTATTCAGACTGATTTATATTTGTCTTTGGGCTGGTTTTTCAT
R
TATATTTTTAGACATTTTAATATATTTGGATCTGATTTTTTATAAAATCATGAGGTTCTCTTTATGCTCAAGTGCTGCCAAGAAGTTGGACAGCCCTCCT
Celera SNP ID:            hCV2060473
SNP Position Genomic:     478147
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18351):
GTCCTCACAGCTTGAGGTAGCATTTAGCATGTGTCATGATTTAGTACAAGGGTTGGCAAACTGTTGCTCTTGGATTAAGTCTGGCTCATTGCCTGTTTTT
S
AAAGAAAAAAATTGTATATGTGTGTATATATGTTATATATAGGTACACACACATATGTGCTATATATAGCATATATACACACATAATATATAAACATGTA
Celera SNP ID:            hCV2060474
SNP Position Genomic:     479738
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18352):
ACTAAAAATACAGAAATTAGCTGGGCGTGGTAATGGGTGCCTGCAATCCAAGCTACTCTGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGA
R
GTTACAGTGAGCTGAGATGGTGCCACTGCACTCCAGCCTGGACGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAGATAGTCCAAGAT
Celera SNP ID:            hCV2060475
SNP Position Genomic:     480259
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18353):
CTGGAGCCAGTGAGAATACCCCACTGGGAGAGGGGAGAAGAATCAGCTGTGATGCTGGAGCCAAGAATTCATAAGATAGCCATCCTGGGTCTTGGCAGCA
R
CATTGGGACTCCTCCAGAAGGTATTGTTTGTCTTTTCAGTTTGATTTGTATTTTATAAAACTAATGTCCCTTGGTGTAATTGAGTACAATATGCATGATT
Celera SNP ID:            hCV25743044
SNP Position Genomic:     146282
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:18354):
TTCTTACACTGTAAAAAAAAAAAAAAATGGTGGGGGGGAATACAAATCCAGCCCCTTCTTTCCTCACAGAAATGTTGTTAAGATAGATAAGAAAACAAAA
K
CATTGATCTCTTCTGGAGGAAAGATGATTTAAATTCAAAGTATTACTCATAAGGTGGATGCTGTTAGATGACTCAGAAATGATGACTGATGTGTTATTAT
Celera SNP ID:            hCV2060477
SNP Position Genomic:     480528
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,9)   total(G,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18355):
CACACACACACACACACACAAAAAAAAACTAATAGGATATATATATGTATATATACACATACAAAACTAATAGGATATATATATATATATATACACACAC
W
CACACAGAACTAATAGGAGATATATATATATATGAGTTTATTAAGTATTAACTTACATGATTACAAGGTCCCACAATAGGCTGTCTGCAAGGGGAGGAGA
Celera SNP ID:            hCV15759385
SNP Position Genomic:     98309
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,8)      total(A,3|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18356):
CAAATTCTCTGACTCTCTCTTTTGGAAGAAATAACATTTACTGGTTGCTTTTGAGGATTGAATCAGATGAGATATAGAAAAGCCCTTAGCCCAGTGCTTG
M
TAGGGGAAAGATCAATATTGGTTTTCATCTTTCCTTTCTTTTTTCCTCCCCTCCTACCTCCATCAGGTGGGGAGTGTGACTTCCGGAGCACACTACACAG
Celera SNP ID:            hCV15759386
SNP Position Genomic:     127172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18357):
AGGCCAAGGTAATAGGTTTTTCACATTTGGAAAGCTATTTGGAATGTAGGAGAGTTCTTAGTACACAGATTGTCCCCCACATAGCTGTCTGTCTAGTGTC
Y
CCGGCCTCTGCCAACTAGTTACCAGTAGAATCTCCATACCATGGTGACAAGTAAAAGTGCTCCCCCCACATATTCAAAATGGCCCCTAGGGGCAGCATCA
Celera SNP ID:            hCV15759387
SNP Position Genomic:     136754
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18358):
CCTGTTTTCAACCAGTTGCTTGTGCTTATATATGCAATTTGTCTATTTTTTTCATATCTGTTTTCAGCTTCTCCCAAAGAATTATCATTAGGTCATAACA
Y
TGGGGGAGGTTTACTGAATGATCATTCTTTTCAAAGACTTTACCATTTCCCCCAGAGCCTTGGTTGGTTTATTGACTAGAGCAAAGCAGTTAGTTTGCTA
Celera SNP ID:            hCV82627
SNP Position Genomic:     357765
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18359):
AAATTACAAGACTGTTACTGATCAATGTTCAGGCCTATTAAAATTTCCCCTATCCCAATGGCACTTGGGCAACTACTTTTCTTGTATACTTTAGGAAGTA
W
CTAATTCAGACAGGGGACTAAGAAGAGACTCTTCACAGTGCTTGCTGATAGCCCCAAAATGCAGCATGAAACCACCCAAATGCCAAGACAAATTGAGAAA
Celera SNP ID:            hCV11842198
SNP Position Genomic:     125720
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,9)      total(A,1|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18360):
CTTGGCAGTTCTAGGGACCCACCCACCACCTGTTCCTCCCCATATTACCACAGATGATGCTCTCTTGAATGTGCCACCTCCCAGCAGGAGGATAACCAGC
Y
CAAAAATAGTGCACTAATCAATCAAAGCTAAGGTATCCTCACAGAGTCCATTTCACCTCCTTGCCGCCTCCACCAGAGCAGATGCTAATATCCATGGCTG
Celera SNP ID:            hCV27900579
SNP Position Genomic:     378907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18361):
GGATAGCTTGGGAATAAGTCAACCAAGGTGGCAGTTGGTAGGTCTTGAAGATGTGGTTGGCTCCTGGGAAACAGATGAGCTGGCCAGTTTGAAGGATCTT
A
AAGTTGCAAGTTTTCGGGCTGGGTAGCAATTTAACTGTGCAACCTGTCAAGAGCCTATTATATTCTAAATTTGTGCCGTGACAATATTGGCTACATGAAA
Celera SNP ID:            hCV11237472
SNP Position Genomic:     426207
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18362):
GTAATCCCAGCACTTTGGGAGGCTGCAAGGTGGGAGAATTGCTTGAGGCCAGGAGTTTAAGACCAGCCTGGGCAACACAGCAAGACCCCCATCTGTCTCT
M
AAAAAAAAAAAAAAAGAAAAGGATGAAGAACCATATTTGGGTTCTTCATCTTTTTTCTAAAAGATGAAAATGAATTTGTCTGAAAAAGAAAAAAGTAAAA
Celera SNP ID:            hCV11237475
SNP Position Genomic:     430465
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,11)   total(A,11|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18363):
TAACATAATAAAGGAAAGAGTATGATCATTTCAGGAGGTGCATAAAAAGCATTGCACAAAATTCAACACCCATTCATAATAATGACTTTTGGAAAATTAG
K
AATAGTGACAGCTTCCTCGACCTGTTAAAAGGCAGTGATGTCAAATCTTCAGTTTAATTATGAAAGAGTGAATGCTTTCCTACTACGATGGGGAATAAGA
Celera SNP ID:            hCV2060485
SNP Position Genomic:     486701
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,10)   total(G,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18364):
TGGGAATTTAGCTACCTTTAAATGCTAAATTTACCTCTCAGCTTGTAGATTTCCTACAAATGAATTTCTTTGGGTCAAGATTTTTTCATGAGCATTGGCA
W
TTAGTGGATATTCCTTGAACCAACCTTTTACTTTAAGTGAAATGTATTTGCATTAAGAGCATATTCATTTCCCAGGCTGCTTCTTAACACATTTGTTTCC
Celera SNP ID:            hCV2060486
SNP Position Genomic:     491694
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,9)      total(A,9|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18365):
GTGGAGGGCTGCTGCCACTTTGACATCACCCCTAAAATTGTTGGGCACACCCTCTCTAAAATAATTTTATTTCTCATTATAGCTTAATCACTATGAATTT
M
TACTAGAGTCATTTAAAAGAACAATTTTAGCCTGCCCTACTTGTTGGGAAGAATAGGGGAAATTAACAGCATCTTGTAACTGGAAGGACCCTTATAGGTT
Celera SNP ID:            hCV2060487
SNP Position Genomic:     492723
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,12)      total(A,2|C,12) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18366):
AGTCCGTAAGTGGATCTGCTTATAGAGAAACACCTGTTGCTTCTGTTTTTTGTCTCATATCCAGTTAGTTTCCCATTCACAGCAAAACATTCCCTTCAAT
S
CCAAGGAAACTCAACCTTTTTGATTATTAGTATAGTTTCATCAAAGTTTCTTTGAAAGGTAAAATATCCCCTTTTTCTTGCCTATAATTTTTAAACCTTT
Celera SNP ID:            hCV2060488
SNP Position Genomic:     492958
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|G,13)      total(G,13|C,3) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18367):
TGAGGGTCTTCTTGCCACATCATAACATGGCAGAAGGCATCGCACAGAAGAAGGGCAAAGAGGGGATGAGAGAGATCAAAGGAGACACAAACCCCTTCCT
R
CAATAAACATTAGTTTATTCATAAAGGTGGAGCCCTCATGTCCTGAATACATTTTGAAAGTCCAACCTTATAATACCGTCACAAGCGCAATTACATTTCA
Celera SNP ID:            hCV15759397
SNP Position Genomic:     144463
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18368):
TCAGTCCTTTCACTCTGTTATTTCTCATTGAAGCAATTGCTAACCAGTGTATATAATTTTTGAAAACATGGATCTTGTTTTATTTAGCTTTGGGTCCTCT
R
TAGCACTTACTAGAGTTCATTGCATCTAGAAATGTTAAAATGGCAAGCCAAGTAGAGGTTAACATAGACATCTAGAGAAATGTTATCCAGTTTTCCAGAG
Celera SNP ID:            hCV15759398
SNP Position Genomic:     171856
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18369):
TGTAGTTCAGTGGTAATAAATGCATTTATATTCTATTTGTTTCTTTGACTCTTCTCCCCTCTCCCCTTCCTGGCCTCTGATAACTACCAATCTCTATCTT
Y
ATGAGATCTACTTTTTTAGCTCCCACATGTGAGTGAGACTATATGATATTTGTCTTTCTGTGCTTGGACTTTTTCACTTAACATAATGGTCTTCAATTCC
Celera SNP ID:            hCV15759399
SNP Position Genomic:     181487
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18370):
CTGCGTTTTCCAATCACCAGATGGAATAGCGCAGCCCAGCGGCTCTATATCCCCTGTTGTCCCTAATTTAATGGTGCCTCCCTTATGGTGAAAACACTGT
R
CAGTGATGTTTGAAGGGATTGATGCTCCATGGTAAGCAGACTTCGCCCTACTGGGAACATGAAAAGGAACCTCTCTGATTTGTGGCTGTAATCCTCAAGC
Celera SNP ID:            hCV11237480
SNP Position Genomic:     434467
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18371):
CAATAGGGCCTCAGTCTAAAAAGACACATCAATTTAATAACTCACTTAAAAAATACATCATACTTATCTAATGACCATTACATTATATTTCAGGCAAGTT
M
TTAGAGAACTCTGATTCTTATGTAAGTGCCAGTGAAGGAAAAAAGATTGGAGACTCAAACAATGAGGAGTTATTATAAGCTGCCAGGAGAAACTGAAAAA
Celera SNP ID:            hCV26470600
SNP Position Genomic:     10788
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,3)      total(A,3|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18372):
ACTCCTTGATATATTATCTGAATAAATCCAGATTTTCAAATATGGGGTTGACTTAAAGCAAGATACATCTCTAGTAGCCTACATCTATATTTATCATATA
Y
GAAGATTTTTCTGACTTGGGTATTGAATATGAAGATGGGGATCTGGAGCTGGATCCTCTAATTGTTAGAGACCATTTAAAATACAATGGACATCATGACT
Celera SNP ID:            hCV26470601
SNP Position Genomic:     11984
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18373):
TTAGAAACTAAAAGTAGAATACTTTTAATGGATTTGTGATTGAGGATTTTTTTTGTTTTTACTTTCTGGTCCTGTCCTGTCCTTTGTTTTCCTTTCATTT
Y
TTCCCCCTCTTATGAGTTGAGTTGCTTTCTCTTCTAGGGAGCTATGTGTTAGGAAGCTGCTAATGAACTGCTTTTGAGTCTAATTTTCAATAAGATTTAA
Celera SNP ID:            hCV2060490
SNP Position Genomic:     496303
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,10)      total(C,3|T,10) ;no_pop(C,-|T,-)   ;(C,-|T,-)   Caucasian(C,20|T,60)   African-American(C,24|T,54)   Asians(T,22|C,60)   total(C,104|T,136)
SNP Type:                 INTRON


Context             (SEQ ID NO:18374):
TTAAAGCAAGATACATCTCTAGTAGCCTACATCTATATTTATCATATACGAAGATTTTTCTGACTTGGGTATTGAATATGAAGATGGGGATCTGGAGCTG
K
ATCCTCTAATTGTTAGAGACCATTTAAAATACAATGGACATCATGACTTGCAGCTAAATCCATTCAGCTACCTTTACTGTTTACCAAGCACCTAACAGGT
Celera SNP ID:            hCV26470602
SNP Position Genomic:     12036
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,6)      total(G,4|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18375):
ATAAGCCACTTTTATTATTTTAGCTATTAAAGCAAGATTTCTATATTAGTCTAGATTCCTACAGTACTAAGTTACAGAGGTCTATCTCAGATGATCTGAA
R
CAAAAATGGGGAAATTAAGCAAGCCACGGAAGGATAGAGTTTGATTTGGCCTCAGATTTTGGCATTTGAATGCTGTTAGGACACATATTCTCTCTCTCTT
Celera SNP ID:            hCV11237486
SNP Position Genomic:     443084
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18376):
AAAAGATAATCTTTGTAAGGAAGAAGAGGTAGTTGTGACTCTTTATGCATCAAACATTTAAAAATGCATATCTTTAAAACATGTAAAACTAATGATTAGA
W
CTATGAGAAATAAGCGAAGCTATTTGTAGGACACTTTAGATCTGTTGTTTTACATGACAAATCAAGTAGACAAAGTCAAATGGTAATACACAAGATTTGA
Celera SNP ID:            hCV26470603
SNP Position Genomic:     12480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18377):
AGAGCAAAGCCCTGTCTCAAACAAAACAAAACAAAATCTCAACGTTAAACTTTCTAGAGAATGGGTAATCACCTTTCAAGTCATTTTTCCAAACCCATTT
Y
TGAACCAGGACAGGCAATAACAGAGATTGGCAGGGGAAGGACTGATGTCTCCTCACAAGGGAAAAAGGACTCTGCATTGAAAACACAGATGAGCCTTTGG
Celera SNP ID:            hCV26470604
SNP Position Genomic:     24021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18378):
AGCTCAAGACATATCTTTTCAGCCTCTTTAGCACAGAACAGGCAAAAAATTCATCCTATCTGACCCGGTTGGAAAAGTTACAGTGACCCAGCCTGGCTCC
A
TCCCTGTGGTCAAGAGCTGTAGTCATTAAAACGGGGAGAAGGAGTGCTGTGCAGGTAAATACAATAACCAGCTTTGTTTCATTGTTGAGACCTGATTCAA
Celera SNP ID:            hCV11237488
SNP Position Genomic:     443378
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18379):
ATTTAAATCTAGGCAGCCTGACGCCATGCCCAACACTCTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCG
M
TCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCACGAGTAGCTGGGACTACAGGCGCCCGCTACCACGCCCGGCT
Celera SNP ID:            hCV8294884
SNP Position Genomic:     331603
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,8)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18380):
TAATCTGAAATGGTGATTTGTGTGGATAGAAGTACAAATAGACTGGAGGTGGGGAGGCCCTTCACTGGACAGGCAACATTAATCTAGCTGCCATTGTACC
R
CACACATGCTGAATGATGATGATACAGGAATGAAGGAAACATAATTCACTTGGGCAGCTCAAGAGCATTTTTTTAAGCTCTTAGTATATACTGGCTAGAT
Celera SNP ID:            hCV26470605
SNP Position Genomic:     25813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18381):
GGCCTTGCACTGTGAAAAACCGAAGGGGAATCAATACAGCCTGTGGCTCCCAGCTCAGGCAGGCAGCCTCGCCCAGTATACTTCTCCCAGGTGCCGACTT
G
GGGGGTCAAGGGCTTTCCCCTCTGCCTAATGAGCAGTTCTTCCATAGCAAGTCATCACCACCCCAGAGTGGTGGGCTCTTATCTGTATTTTAATTTTTTG
Celera SNP ID:            hCV11237489
SNP Position Genomic:     448400
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,11)   total(G,1|-,11) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18382):
CAGGAAAGATTCTGATTTGCCTTACTTGAGTCATTCCAGCTCTGTAGTTTAGGTGCAGAGTACAGGGTGAGGAATGGTATTGTGATTGACAGTCAACCTA
R
ACCAGAGTGTAGGGATCAGGGAGGACTACCCTAAAGAAAATAAAGCCAGAACATGGGAAAGTATGCTGGTAAATCAAAAACTGTATCGACTGGTCTATCA
Celera SNP ID:            hCV26470606
SNP Position Genomic:     27490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18383):
GAACAGTTGTTTACAGCATGAGAGCTAAAACAAGAAGGCAAAGTATTTACTTGTTTGACCTAGGCTAGGAACATGTGTATGGAGTGACTCAATTTTTTTT
W
TTTATTTATTTTTTTTTTTGCTGTACTGCACTTGTGCACAAATGACTGCAAAAGCAATGCAAGTATGATTTTGGGGTTACAAATAAATTTTAGTGAGTAG
Celera SNP ID:            hCV26470607
SNP Position Genomic:     31279
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,8)   total(A,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18384):
AGTTGTTTACAGCATGAGAGCTAAAACAAGAAGGCAAAGTATTTACTTGTTTGACCTAGGCTAGGAACATGTGTATGGAGTGACTCAATTTTTTTTATTT
W
TTTATTTTTTTTTTTGCTGTACTGCACTTGTGCACAAATGACTGCAAAAGCAATGCAAGTATGATTTTGGGGTTACAAATAAATTTTAGTGAGTAGGCAA
Celera SNP ID:            hCV26470608
SNP Position Genomic:     31283
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,8)   total(A,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18385):
GTTTACAGCATGAGAGCTAAAACAAGAAGGCAAAGTATTTACTTGTTTGACCTAGGCTAGGAACATGTGTATGGAGTGACTCAATTTTTTTTATTTATTT
W
TTTTTTTTTTTGCTGTACTGCACTTGTGCACAAATGACTGCAAAAGCAATGCAAGTATGATTTTGGGGTTACAAATAAATTTTAGTGAGTAGGCAAATTA
Celera SNP ID:            hCV26470609
SNP Position Genomic:     31287
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,8)   total(A,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18386):
TTTATTTAAAAAAAAAATCCATTTAATATCAGTTATCACTTGAAGAATTTAAAGACAGAATTATTTGCTCAGAAAAATTTGATGCTTTGTGCTATTAAAC
M
CTCAGTACACAGAAATAGATTTAAGCAACATGGTGGTGAATCAAGCCAAGGAGAGCTGGGAAGCTGGAATTGATGGCTCAGTATTCTCTGTAATAATGTG
Celera SNP ID:            hCV201637
SNP Position Genomic:     369207
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18387):
GATGACAATATTACTTGCTTTGCAGAATTAAATGAGGTAATATTTTGAAAATTATATGAGCTATTATCTAAAAACATTTAGCACAGTGACTGGCACAGCA
Y
AGAGTGCCCAGTCAATCTTGGTCCCTTCTCCCCAGTTTTGCCCTGAATGTTGGCCAGCTTTGCTGCAGATGCTTTCTCCACTATGCCATTACTCTCATCC
Celera SNP ID:            hCV201638
SNP Position Genomic:     372754
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18388):
TGTTTGAGATAAATAGCCCTTCCCCTGAGAGGCCAAATACTTTCCTTGAAGAAATGCCAGTCCTATGTCCCTGTGGGTAGGGTTCAGTATTTGTAGAGTC
R
CCAATTATAATGGCCCAGATCTAATAGGAACTCAAGGATTCCAGCCTATTTCCACCTACCCCACCTGCCCAAGACCAGCCTTATTTCCAGGCTTTACTCT
Celera SNP ID:            hCV201639
SNP Position Genomic:     374000
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18389):
AGGCAAACCCCCTTTCAGATTCTCTATAGTGCTGTGTTCTGAACCCTTAACATGCTCTTGAGACCACAGTTCTACCTTTCACTGAAGGTCTTTTCTCCAC
W
ATGTTGAGACATTGGAGGATGTCTGTCAGGGGTTCTCATTCTTTTCTTCCCCTCACCCTTCACAGCTTTACCCAGCCCTCCATCTTCCTTCCTGACCCAG
Celera SNP ID:            hCV217214
SNP Position Genomic:     470409
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,7)   total(A,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18390):
GTTAAATGCATATTTAACTTTTTTTCAGTTTTTGGCATTTATGAGTAGAGCTACTATGTACGTACTTATACAAGTGTGCAAGTTTTATTTTCTTTCTTGG
R
AAAATATCTAGGAGTGGGATTGCCGGGTCACAGGTTAAATATATGTTTAACTTTCTAAGAAGCTGTCAAACTATTTTCCAAAGTGGTTTTTACCCCTTTT
Celera SNP ID:            hCV217215
SNP Position Genomic:     471464
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18391):
GTGTATTACAGTATTGCAGCTTGAATGTGGGGCTCCTGCGGCCATTTGTCACAGTCTTCAGGAAAGGCTTTTTATCAGATTCATAGTGGCAAGTGATACA
R
ATTATTGGATTTCTTTTCCAACATAAAAAATAGCTATTTGCAGCCTTTTGAAGCTGGGTAAATGAGCCATTGATCTTACCTGTGGAACACCGCAGGGTAT
Celera SNP ID:            hCV217216
SNP Position Genomic:     471991
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18392):
AAGAAAATTATAGTATTACCATTTCTAAAATGTCTAGGCAGCCATTGCTATTAAGAAAGTTGCATTGCTTCTATTTACCTTACAATGTGTTTGCATCTTT
C
CTAAAAGCACAGGCCTAGAAGTAATTCCAATGATCCAGGGGGTAGTCCATAGTCTCCCCTTCGAGACCAGAGCTACAGCTGCAGATTTTGCTAACATCAG
Celera SNP ID:            hCV11237492
SNP Position Genomic:     450369
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,8)   total(C,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18393):
ATTGAGTGCCTGTATTTGAGTATAACAATTGAAGGTGCAGTGGTGAATAATTTACCCTACTTGACTTTGATAGTAAGGGAGACAGGTTTATAAACAAACA
K
ATTAGCTGATAGCATAGTTAATTATGGTAGAAACACAGAAGATGGTGCAAATAACTCTGGGGTGTTGTTTAGTGAGCCTTTACAGAAAAGGTAGTTTTTA
Celera SNP ID:            hCV27844073
SNP Position Genomic:     141169
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,21)   caucasian(T,34)   total(G,1|T,55)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18394):
CATAGCTTCCTGGACTTCTAAATAGAAAGAGGAATCTGAGAACAGAAGAGAGCTCCCTAAATGACAAGTGTACCCCAGATGTCTGTGGCCATGTCCCAGA
R
GGCCAGCTGCAATGCAGGGCCTCTCTTTTGATGTCCCTTGTTCACAACGAGCCATTTCACTTCTAGTCAGGACTATCTGCCTCCTACCATCATCTTGAAG
Celera SNP ID:            hCV217217
SNP Position Genomic:     472488
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18395):
CTAAAAACCCTCCAGGTTTCTTTTCTCTTATTCTGTCTCACTCTCTGTCAAAGCAAACCAGCACCTGGTCTGTTTCTTCATATGCTCTGGGATATCTTCC
Y
GAAGAACAGCCTGAAAAGCAGAGTCTTCTCTTGCCATTGTCCACACTGATCTCCAGGAAATCCTTCATCTTTAACCCTGGAAAATGGCAGCTGGAGAACC
Celera SNP ID:            hCV217218
SNP Position Genomic:     472910
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18396):
AGGATGCTGCACTGGGGAAACTGGGGAAAGTTTACATAGGATCTCTCTGTATTCTTTCTTATAACTCAATGTGAATCTACAGTGATCCCAACATAAAAAC
K
GTAATTTAAAAAACTTAGCGTACTTTACTGTATGTAGCTCCTTTCCTTGTACTTGATAACCTTAAGTCTTTTTGTCAACCAGTGATACACTGGTCTACAA
Celera SNP ID:            hCV26470610
SNP Position Genomic:     32077
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,12)      total(G,1|T,12) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18397):
TTTGTTACATGCATATAGTGTTTAATGGTGAGGTTTGGGCTTCAAGCATAGCCATCACCCAAATAGCAAACATTTTCAACCAAGATGAAGGTGTACTGTT
M
ACTCTGGGTAAGAGTGTGCCAGGCAGAAGGAACAGTTACTACCAAGGTACTGAGGTGGGAATATTGCCCTTCAGCAAAGAGGCTAGAGTGACTGGAGCAG
Celera SNP ID:            hCV26470611
SNP Position Genomic:     33941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18398):
ACTTGCCAGTTTTCTCAGCACCATTTGTTGAATAGGGTGCCCTTTCCTCAATTTATGTTTTTGTATGCTTTGTTGCGGATCAGCACTTACTTAATATATT
K
GGCTTTCTTTCTGGGTTCTCTATTCTGTTCCGTCGGTCTACATGCCTATTTTTATACCCCTACCCTGCTGTTTTAGTAACTATAGCCTTGTAGGATAATT
Celera SNP ID:            hCV26470612
SNP Position Genomic:     38948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,9)      total(G,1|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18399):
CCATCTGCTCCTGGTCTTTTCTTAACTTGAGACATTTTATTAATGATTATTACTAATTTTTATTCTGCTCAGGCTTTCTGTTTCTTCCTGGCTCATTCTT
K
GTAGGTTTTATGTGACCAGGAGTTATCCATTTTCTCTAAGTTTTTCCATTTGTTAAAATATAGCTGTTTATAATAGTCTCCAGTGATTCTTTGTATTTCT
Celera SNP ID:            hCV26470613
SNP Position Genomic:     40603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18400):
ATCTTCCACATAGTGTTGAGTCTGTAGGTACACAGAAGTCAAGAACTGAGGTTTGGGAACCTCTTCCTAGATTTCAGAGGATGTATAGAAATGCCTGGCT
R
CACAGGCAGAAGTTTGCTACAGGGGTGAGGCTGTCACAGAGAACTTCTGCCACGGCAGTGTGGAAAAAAATGTGGGGTTGGAACCCAATACAGAAACCCT
Celera SNP ID:            hCV26470614
SNP Position Genomic:     42487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18401):
GTGCAGACAAACTGCTGCCCTTTCCATGATGGAAAAGGTCCAATATAATCGACCTGCCACCAAGTAGCTGGCTGATCTCCCTGAGGAATGGTGCCATATC
R
AGGGCTCAGTGTTGGTCCCGGCTGCTGGCAAATTAGGCACTCAGCAGTGGCTGTAGCCGGGTCAGCTTGGTGAGTGGAAGCCCATGTTGCTGAGCCCATG
Celera SNP ID:            hCV11242175
SNP Position Genomic:     252344
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18402):
AGAATGGCAGTAAGGGGATGATGTTTTTAAATTCGCTTAAAAAGAACTTTGCAGCAGGTGTTACAGAGTGCATAATTTGGCCATTTGACCACTTCAGGGA
Y
GTTGGTTCTTTACATCTTTCCATGTTGCCATTCTCAGCATGTAGACTTTTGTCAGGCCTGTCTCTTTGTGGTCCCAGGATGGCTGCAGTTGCTCTAAGCA
Celera SNP ID:            hCV135357
SNP Position Genomic:     432848
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,8)      total(C,7|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18403):
GTCAAGAACTGAGGTTTGGGAACCTCTTCCTAGATTTCAGAGGATGTATAGAAATGCCTGGCTACACAGGCAGAAGTTTGCTACAGGGGTGAGGCTGTCA
Y
AGAGAACTTCTGCCACGGCAGTGTGGAAAAAAATGTGGGGTTGGAACCCAATACAGAAACCCTACTTCAGCATTGTCTAGTTTAGCTGTGAGAAGAGGAC
Celera SNP ID:            hCV26470615
SNP Position Genomic:     42524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18404):
TGGGAACCTCTTCCTAGATTTCAGAGGATGTATAGAAATGCCTGGCTACACAGGCAGAAGTTTGCTACAGGGGTGAGGCTGTCACAGAGAACTTCTGCCA
Y
GGCAGTGTGGAAAAAAATGTGGGGTTGGAACCCAATACAGAAACCCTACTTCAGCATTGTCTAGTTTAGCTGTGAGAAGAGGACCACCATCCTCCAGACT
Celera SNP ID:            hCV26470616
SNP Position Genomic:     42540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18405):
AATGCCTGGCTACACAGGCAGAAGTTTGCTACAGGGGTGAGGCTGTCACAGAGAACTTCTGCCACGGCAGTGTGGAAAAAAATGTGGGGTTGGAACCCAA
Y
ACAGAAACCCTACTTCAGCATTGTCTAGTTTAGCTGTGAGAAGAGGACCACCATCCTCCAGACTGATAGATCCACTGATAGCTTGCACCATGCACCTGGA
Celera SNP ID:            hCV26470617
SNP Position Genomic:     42576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18406):
TGAAATGAGTTAAGATTTTGGGGGACTGTTGGGAAGGCATGATTTATTTTGAAATATGAGGACATGAGATTTGGGAGGGGCCAGCGCAGAATGATATGGT
Y
TGGCTGTGTTCCCCACCCAAATCTCATGTTGAATTCTCATGTGTTGTGGAGGGGACCCAGTGGGAGGTAATTGAATCATGAGAGTGGATTTTTCTTGTGC
Celera SNP ID:            hCV26470618
SNP Position Genomic:     43147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18407):
GAAATATGAGGACATGAGATTTGGGAGGGGCCAGCGCAGAATGATATGGTCTGGCTGTGTTCCCCACCCAAATCTCATGTTGAATTCTCATGTGTTGTGG
R
GGGGACCCAGTGGGAGGTAATTGAATCATGAGAGTGGATTTTTCTTGTGCTATTCTTGTGATAGTAAGTCTCACTTACTCACTCGTGATAGTGAGTAAGA
Celera SNP ID:            hCV26470619
SNP Position Genomic:     43197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18408):
ATGGTTCTGTGGAAAGCTCTAGGTGCTGCCTAAGCCCCTATAAATTACTAGGACTTAACTTACAAATTACTTCCTCTGAAGATCTTGTCAAGACTTAGTT
Y
TAGGCTTTTCTTGGACTAGTTTAGTCTGTATTCATAGGGCAGTGTTTCTCTATCTTTTTTTTCATTACTATAAAAGAGATTTTTAAGACATTTTTTTCCC
Celera SNP ID:            hCV16270427
SNP Position Genomic:     81570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18409):
CAAAAGTACATTCATAGCTCACTGCAACCTCAAACTCCTGTGCTCAAGCAATCTTCCCACCTCAGCCTCCCGAGTAGCTAGGACTACAGGCTGGCGCCAT
K
GTGCCCAGCTAATTTTTTTAAAATTTTTATTTTTAGAGATGAGGTCTCACTATGTTGCTTAGGCTGGTCTTGAATTCCTGGGCTCAAGCAGTCCTCCCAC
Celera SNP ID:            hCV172733
SNP Position Genomic:     439946
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,10)   total(G,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18410):
AAGTTACACAGATCTCTGGGGCAGGGGCAAAATGCCACCAGTCTCTTTGTGTACCAAGAGCCACCATTACTCCAGTTCCCAACAAGTTCTTCATCTCCAT
S
TGAGACCACCTCAGCCTGCACTTCATTGTTTATATCAGCATTTTGGTCAAAGCCATTCAACAAGTCCTAAAATATTCCAAACTTCTCCACATCTTCCTGT
Celera SNP ID:            hCV27952757
SNP Position Genomic:     74080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18411):
TATCACCTCTTAAAAACATTGTTTCCACTTTAAAAGTAAACACTTAATAAATTTTTGGAAGATCTCTGATTTTTATGTGTTCATTTATGAACATTAAATA
Y
GAAAATATTATGGTTTATATTATTTATTGAAGGAGTAGAGGAATTACTCAACTTTAGTATGCTCTTAATTGAATATATGGAGGCATTTGACTTTCTAATT
Celera SNP ID:            hCV7532618
SNP Position Genomic:     504525
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:18412):
CTTCTGCCTTAAAGGCATTTATTTCCTATCATCACCTGTTTTCTCCAAGACATGTGAGAAGAATAAAGCCTGTATTGTGGCATTTTGTGTGAATGCTAAG
W
TCTTGGCAATGTTTCTTATACCTTCCCTAGCTCTTCTATTTTCCCTAAAAAGTATTCTCTTTTTGAAAGAAAAATTTAATTTCTCAATTTCTTAAACCAG
Celera SNP ID:            hCV27952758
SNP Position Genomic:     228112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18413):
GAACCTCAAGAGGCTTGGCTCTGAAGGGAGGAGACAGAGAGAGCAGCAGCAGGAGAAGGGTGTGGGGTAAAAGAATGGGTTGGTTTAAGACAGGAGGAAC
R
TAAACAGGACTTTAATGTGTTTTAGAATGAAGAGGATGAGTGAATGAATGTTTGGTGAGAAGCAATTACAGGATATAAAGCAAATAATTAGAATATAGGC
Celera SNP ID:            hCV217220
SNP Position Genomic:     474363
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18414):
TTCCACTTTATGGAGGAGGAAACACAGGTTCAGAGAGGTAAAGAAACGTATGCAAGATTGTAAGTGGAAGAGTCAGGATTTTTAGTCAGGTCTGTCAGAC
Y
TTATAGCCCATGTTTTCTCCTCTATGCCTAAGTAGGAGTGGGCTCAGTGGTGATGTTTTAAGGGCTAATGTTGATGTTTTAAGGGCTAATGAGAAGGAGC
Celera SNP ID:            hCV15956090
SNP Position Genomic:     121411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18415):
GATTGTGTTGTTTATAATCTTTTGAAGTACATTTTTAAAATTCAGTATTATACTGCTCAGAATCATCCATATTGTTGCATATTATAGTCATTCATACCTT
Y
TGACTGCTCTGTAATATTCAATGTGTGAATATAACAGCTTGCTATGGCTTGAATATTTGTTCTTTCCAAAACTCATATTGAAATTTAATCCCCAATGTGG
Celera SNP ID:            hCV15875172
SNP Position Genomic:     85263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18416):
GCCAGCGCAGAATGATATGGTCTGGCTGTGTTCCCCACCCAAATCTCATGTTGAATTCTCATGTGTTGTGGAGGGGACCCAGTGGGAGGTAATTGAATCA
Y
GAGAGTGGATTTTTCTTGTGCTATTCTTGTGATAGTAAGTCTCACTTACTCACTCGTGATAGTGAGTAAGATCTGATGGTTTTTAAAAGAGAAGTTTCCC
Celera SNP ID:            hCV26470620
SNP Position Genomic:     43226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18417):
GGAGGTAATTGAATCATGAGAGTGGATTTTTCTTGTGCTATTCTTGTGATAGTAAGTCTCACTTACTCACTCGTGATAGTGAGTAAGATCTGATGGTTTT
W
AAAAGAGAAGTTTCCCTATACAAGCTCTCTCTCTTGGCCTGCTGCCATCCACGTAAAACGTGACTTGCTTCTCCTTGCCTTCTGCCATGATGGTGAGGCC
Celera SNP ID:            hCV26470621
SNP Position Genomic:     43310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18418):
AATGGGCTAATACACCAACTATTGTTGTACTGGAGTCTGTCTCTCCCTTTATATCTGATAATATTTGTTTTATATATCTAGGTGCTCTGCTGTTGGGTGC
W
TGTATGTTTGGAATTGTTATATTCTCTTTCTGAATTGATCCCTTCATCATTATATAATGACTTTCTTTGTCTCTTTTTACAGGTTTTAACTTAAAGTCTG
Celera SNP ID:            hCV26470622
SNP Position Genomic:     43598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18419):
AGACAGTTGCTGTTAGCATCTTGCTGCACTTCTTTCACTCTATTTTCTTCTATGAGTATCTTTATAAAGTTATAATATTTTATAGATACTGTCAAATCTA
R
TTGTTGTTTAACATCAGGCAAAATATCCCTTGAAACAGAATTTTTAATGTATTTAAGTTATTCTAACAAATGGATATCCTGCAATTTACTTAACCTGGTA
Celera SNP ID:            hCV11242185
SNP Position Genomic:     256354
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18420):
ATTTTTGGTTGTTTTATATATCATTTGTCTCTTTCTTCCTTTTTTATTTTTTATCATTGTGGTTTAGTGGTTTTCTTTAGCGGTAATGTTTCACTTCTTT
K
TCTTTCTCATTTGTGTATCTTACTTTTATACTTTCATGTGTTTTTATTATGGTAGAGATTATCCATTTGCTTTCAGATGTAGGATTCCGTTAAGTATTTC
Celera SNP ID:            hCV26470625
SNP Position Genomic:     44052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18421):
GCTCGTGCCACTGCATTCCAGCCTGGGGTGATAGAGTGAAACTCCATCTCAAAAACAAACAAACAACAAAAAAACAAAAAACAACAAAAAAACAAAAAAC
A
AAAAAACAGAGTTAGCTCAGTGTTTTATGATTTATAAATATTTTCTTAATTTTCTAGGCATTTGTGTTTTGATTTTTTGTTATGAAATACTTTTTATTTC
Celera SNP ID:            hCV26470626
SNP Position Genomic:     46115
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18422):
ACTATATTTGTGTCTATTTCTGGGTTCTCTGTTCTGTTTCATTGATCTATTTTTCTGTTTACAAACCAGCAACTCACCATTTTAAATAATAGCTTTACAA
Y
AGGTTTTTATATCTTGCATTGCTAATCCCGATCATTTGTGTTCTTTTTCAGAATGTTTCTTGTTATTCTTATTTTTCCTGTGAACTTCAGAATCAAATCA
Celera SNP ID:            hCV26470627
SNP Position Genomic:     46615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18423):
CTTCCTACTTGATACTTTCTTTGATAGATGTCTTTAGGGGAGCCAACTTTTCTTTAACATCTTTCCTTTGACTCTAAAGCTCTCCTCTCCCAACATTTCC
Y
CCTCAGTTTAACCCGAGTTATGTGTTCATGACATAAATAGGGCCACGTTTGCCGCTGAATGATGTCACAGTGCAGGTGATCCACAGATAGAGAATACAAA
Celera SNP ID:            hCV11242189
SNP Position Genomic:     265192
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3|-,5)   total(C,3|-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18424):
TATGTGTGAACATATTAAATTTATAGAATAAGTCAGGTAGAACTGACATCTTTAACATTTAGAGTTTTCTTATCCATCAATATCCCTCACTTTTCCATTT
R
TTTAATTCTTGTGGGTCCATCAGTAACATTAAAAGTTTTATTCACATATTTCTTGTTATACATTTTTCTAGTTACTCTATAATTTTGGTTGCTACTTTTA
Celera SNP ID:            hCV26470628
SNP Position Genomic:     46857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18425):
TTTTATTCACATATTTCTTGTTATACATTTTTCTAGTTACTCTATAATTTTGGTTGCTACTTTTAATGCAATCTATTCTTACTTTGGATCTCCTATTTGC
R
TTGTTCGTATGTATGAAAAGTAGTGGTGTCACAATATTATTTTTGTATTCATTCACTTAACTGAATTCTGTCATTATTTATAGTTTTCCAGTTGATTCTC
Celera SNP ID:            hCV26470629
SNP Position Genomic:     46993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18426):
GCCATGGGTATGCAAAGACAAACAGGGTGGTATAATGGACACTGGAGACTTAGAAAGGGGGAGAATGGCAGGTGAATGAAGGATGAAAAACTACCTATTG
K
GTATAATGTATACTATTCGGGTTACGGGTGCACTAAAATCCCAGGCTTCACTGCTATACAGTGCATCCATGTGACCAAAAAACCACTGTACCCCTAAAGT
Celera SNP ID:            hCV91558
SNP Position Genomic:     415810
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18427):
GGGAATATAGTGCCCTTAGAGGCTCTGTCTCTTCATCTTGAAGATCCCCTGGTCCTAGGGTCTGGATTCTCCACAAGCCTCCTTTATCACATCATCATGA
Y
CCTCACTGGAATCAGTCTCTCTGAACTGTTTTCTTCCTCCTCCTGATGTCTCACTCCCCTCTCTCCTTTCTCCAGGGCTATTGTTGCCACCAGTTCCTAA
Celera SNP ID:            hCV91559
SNP Position Genomic:     416210
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18428):
AGGAATCATTCTCCCCTCCCTCCCACCACATAGAATCAACATATGGTAGGGATTACAGTGGGGGCATTTCTTTATATCACCTCTTAAAAACATTGTTTCC
M
CTTTAAAAGTAAACACTTAATAAATTTTTGGAAGATCTCTGATTTTTATGTGTTCATTTATGAACATTAAATACGAAAATATTATGGTTTATATTATTTA
Celera SNP ID:            hCV7532628
SNP Position Genomic:     504451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:18429):
TTCAAAGCACAACTCTATTTCATGCTTTCTGTTATTATCTTTCTTGATACTTTCCAAATTCTCTGATTCTAGAAAAAGGAATCATTCTCCCCTCCCTCCC
M
CCACATAGAATCAACATATGGTAGGGATTACAGTGGGGGCATTTCTTTATATCACCTCTTAAAAACATTGTTTCCACTTTAAAAGTAAACACTTAATAAA
Celera SNP ID:            hCV7532629
SNP Position Genomic:     504375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:18430):
ACTAATGTCCCTTGGTGTAATTGAGTACAATATGCATGATTCATATTATAATTTGGATAATTTCCTATTCCATTGGCTTAATGAGTTCTCTACCCTTTTT
Y
GTCCTCCCATTTTTTACTTCTGTTTCTTTTGTGAAAGGGAACTGATCATGTTGGATCGCTTTTTAAATGTAGAATCTGTAGCTACTGGTCCATGATACTT
Celera SNP ID:            hCV25742500
SNP Position Genomic:     146442
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:18431):
CTTGTGTGACCTAGAAAAGATTGGAAGAAATTGAGGATACTTCAATTAGGGAGGTTCCCCAAATAACTTGATTTTTCTAATTAGATAGAGATATCTTTCA
Y
ATTTAAAATTTTATTTCTGTGCAGATTTGCTGTGACTTTGGTGTGGCCTAATCTTTAGCAGTAATCACTTTAGCAGTGAAATTTAACTTAGAAGTCCAGT
Celera SNP ID:            hCV26470700
SNP Position Genomic:     280709
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18432):
TTTCTAATTAGATAGAGATATCTTTCACATTTAAAATTTTATTTCTGTGCAGATTTGCTGTGACTTTGGTGTGGCCTAATCTTTAGCAGTAATCACTTTA
K
CAGTGAAATTTAACTTAGAAGTCCAGTTAGGGTTAAGATAAAAAGGCCACATGAGGTAACAAATGAGAATATGTACTCTGGAGTTATACAGATCTGAGTT
Celera SNP ID:            hCV26470701
SNP Position Genomic:     280782
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18433):
ATTTATGTGAATAAAAGTCTATGTCTTGGGCTTCTGTAAACTCACCTCTCAACCCCAGCATACAGCACAAGAATATGGAAATAGAAGGAAGTATGTATGC
M
TATATGTGTATAAATATGATTGAGATTGTGTAGGAGCCTGTCTTAGTCCATTTGTGCTGCTATAACAAAATTATAATAAAATACCACCAACTACATAGCT
Celera SNP ID:            hCV11242190
SNP Position Genomic:     267429
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,12)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18434):
GGGATAATAGCAATACAAACATTATTGGTCTGTATGAAGATTAAACAATATAAAATATGTAAAACAGCATAATGCCTGGTATGTGGTAAGCTTTCAATAA
R
TGTTACCTTCATTTGTTATATATATCATGACAGTTAATACAATGCTGAGCGAATATTTGATGATTGTCTGAAATAACTTGAAAAAGTTTAGTGAAAAAAT
Celera SNP ID:            hCV26470702
SNP Position Genomic:     281059
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18435):
AAGAATACTAATAATAGAGTTTTCATTAAGCATGACATGCTGGCTTTTGAGATGCAACAGAGATATTTTGTCATATTAAGAGAGGAAACCCTTTTTTCTT
R
GTATAGTACATGATAAGGGTTTTTGTCAAAAATAACGTTGAATTTTATCAAAAGCCTTTTCATAATTTATTGAGATGGTATTTTAGTTTTCTCTTTTTAT
Celera SNP ID:            hCV26470630
SNP Position Genomic:     47357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18436):
GCATAATGCCTGGTATGTGGTAAGCTTTCAATAAGTGTTACCTTCATTTGTTATATATATCATGACAGTTAATACAATGCTGAGCGAATATTTGATGATT
S
TCTGAAATAACTTGAAAAAGTTTAGTGAAAAAATTGGGGGATGGAGGGGTTGGGAACTGGGCACAGACAATTCAGCCATCTAAGGAAGCAGTGGCACTTT
Celera SNP ID:            hCV26470703
SNP Position Genomic:     281125
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18437):
TACTCAAACTAGTCCAAAAAATAGAGGAGGAAAGAATACTTCCAAACTGGCCTTCTATGAGACCAATATTACCCTGATACAAAAACCAAACAATGACACA
T
TGAAAGACAAAAACAAAAAATTACAGGCCAATCTCCCTAATGAACACTGATGCCAAAATTCTTAACAAAACATTAGCAAACTAAATTCAATGATACACTA
Celera SNP ID:            hCV26470631
SNP Position Genomic:     58040
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18438):
AAAAGATGTTTCCAAAGTATGACCAGCATTGGAATTTGTTCAGACCCATATTTATAAACAGTAACTATGACAACTCATTCCTCCCAACCATGCTCAACCC
Y
TCATACTTTCCCAACTGTCTGTTTTACAAGATGACATAAGTAGAGGGTTTGGAAAAAAGAAAAAAAAATCTTTGGATGATAAACGCTTTTTGCAAACAGA
Celera SNP ID:            hCV26470704
SNP Position Genomic:     283248
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18439):
TCTAATGCGTGGGTGGACTTACAGCCTGGAAGCTGGAGGAGGGAGGAGGTACAGAGGACACAGAGAACATCTCTTTCCTTCCTGAAGGATGGAGGGAGAA
R
AACTTTCCCCCTGTCTGCTCCAGGCCTGACCTGAAGCTTGGCTGGCCCCAGGGAGAGCAAAGAAGAGCTTTATACTAGCTATGAAACTGGAATTTAAAAT
Celera SNP ID:            hCV26470632
SNP Position Genomic:     61799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18440):
CTTTCAAGAGTCAAAGTTTAAATGCCATCTACTTTGGATCCGTTCAAAATATTTTCACTAACCCTTTATAATTTAATTGACTTTTTAACTTTTTTGTTCT
R
TTTTGTTTTAACACAGCGATCTACCCTTTTATGTAACCCCTTCTGCTCCACATATCACTGGGCTGGGGCCAAAAGTAACTGAGTGACTAATATCTGGGAA
Celera SNP ID:            hCV26470705
SNP Position Genomic:     285884
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18441):
TTCAAGGAAAAAATGAGGAAGATTACATAATTGTTTTAAAATAATTATCCTTGACTACAAAGATCAATAAGAAGGGTGCGATGGGTACGCTAAAAGCCCA
S
ACCTCACAACTGCACAATATATACACGTCTTCTGCACTTGTACCCACTAACCCTATAATTTAAAAAAATAATAATAAAAAATAGCAAGAGTGACACCTTC
Celera SNP ID:            hCV15759716
SNP Position Genomic:     487185
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,12)      total(G,12|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18442):
TGGGTGGGATCTGATGAGTATTTGATGTTTTCTAAATCCCAAACTATCTTTTTCAATGAAGTCAATGCATTTTCAAAGCATTTTTCTGCTTAATTTGGAA
K
ATTAAATGTATCTAACTGGAAGCGCATACTAGAAAAGCATGAGAAAGGGCTTCTTGTCCTGATCAGAAAGATGAGGAGGCTCCGAAGAGATCTGAGGTAG
Celera SNP ID:            hCV26470633
SNP Position Genomic:     62517
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18443):
CTGGTCTCGACCTCCTGACCTCAAGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCAAGGCCTCTGCAC
T
TTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCTGCTTCTTGGGTTCAAGTGAT
Celera SNP ID:            hCV26470706
SNP Position Genomic:     286661
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18444):
TCCAGCTTCTGAATGCTGTCTATGTTTTTGGCTTGTGGCTCTTTCCTCCATATTTAAAGGCAGCAATGACCAGTCAAGTATTGTCATATTGTGTCACTCT
K
ACACTCAAGTTAGAAATCTAGCACTGTTCTCACTGGGCTAAAATCAAGGTGCCCTCAGGGCTGCTTTATTTTCTGGAGGATTTAGGAGAGAGTCCATTTT
Celera SNP ID:            hCV26470634
SNP Position Genomic:     68924
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,12)      total(G,12|T,2) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18445):
TGCAGAAAATCAGAGAAAGGGCAGCATGTATATATTCACTACCCAGATTGAACGGTTGTTAACACTTTGCTATGTTTTCATCAGATAACTTGGGAAGAAA
R
GAAGGAAGGAAGGAAGGAAGGAAATAGTGCAAATATAGTTGAAGTTTTACTCAGTATTTCCTGCTCTCTTCCCTTTCTTCCCTATATAATTTACTTAAAA
Celera SNP ID:            hCV26470707
SNP Position Genomic:     293147
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|-,5)   total(G,1|A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18446):
GGATATTTTTGTGTGGGCCATTATTCTGCCTACCACAGCTTCTAAATTTGGAGCCATTTAATGAAAAGACAAGGTAAGCCATATGTGTGTGTGTGTGTGT
R
TATATATATATATATATATACATTGTTTGTTGGGCCTATACCTATATTTCATCCAACACAGTATAGGGTCTCAAAATAATTTAAGAACAATAGAAACTTA
Celera SNP ID:            hCV26470635
SNP Position Genomic:     69416
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18447):
CGTGTCTCCTGGCACATACATACAAGAGTTGCTCTAGGGTATATACCTAGGAGTGGAATTTCTGGGTCACGAGGTTTACACATACTTGGCTTTGCTAGGT
W
ATGCCAAATTGTTTTCAATGGGATTATGCCAATTTACATTCCCATTAGAAGTATGTAAGAATTCTGGTTGTTCCTTTTCCTCCTTAGTGCATGGTATTTG
Celera SNP ID:            hCV26470708
SNP Position Genomic:     300854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18448):
TCCATGTGTTAATGAGAAGAATGTATATTCTGCAATTCTTGGGTAGAATATTCTGTAAATATTATTAGGTCAATTTTTTTTATAGTGTAGATTAAGTCCG
R
TGTTTCTTTGTTGACTTTCTGCCTCTATGATCTGTCTAGTGCTGTCAGTGGAGCATTGAAGTTCCCCACTATTATTGTGTTGCTATCTATCTGTTTTCTT
Celera SNP ID:            hCV26470636
SNP Position Genomic:     71866
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18449):
GGTCGATAGGACTGGGTGCCGTGGAGCAAGGGGTGGCACTCATTGGGGAGGCTCAGGCCACACAGGAGCCCATGGAGGGGGTGGGAGGCTCAGGCATGGC
R
GGCTGCAGGTCCCGAGCCCTGCCCCGCAGGAAGGCAGCTAAGGCTTGGTGAGAAATCGAGCGCAGCGCTGGTGGGCTGGCACTTTTGGGGGACCAAGTAC
Celera SNP ID:            hCV26470637
SNP Position Genomic:     80182
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18450):
CTTCAGATTCTCCCTGACCAAGATCATTTCTCCCATTTTCTAAATAGGCTGAAGGAAGGCAAGGGCTGAAACGGAGACAGGATGCTACTGCAGTACTCCA
S
GTGAAGGCTGGTGGTCGCTTGGACTGAGTCAGAACAGGGAAACTGATGGGAAGTTGTCGGAGAGTAAGTCTATGTTGAAAATAGAGCCAACAAGATTTGT
Celera SNP ID:            hCV91560
SNP Position Genomic:     416577
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18451):
GTTATCTCACCTTTACATATTTTTCTTAAAAATGACAATTTTCTGCATAACTGTAATACTATTATCACTCCCATTAAAATTAACTATATAATTTCTTAAT
R
TCCTGTAGTACTGCAAATTCAAATTGCTCAATTGTCCCCAAATTGTCTTTTGCAGCCAGTTTGTTCAGTCAGGATCTAATCAAGGATAGTGAATTTCTTA
Celera SNP ID:            hCV26470638
SNP Position Genomic:     90716
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18452):
CCGGGCACAGTGGCTCATGCCTATAATCCTAGCACTTTAGGAGGCCAAAGTGGGTGGATCACCTGAGCCCAAAAGTTCAAGACCAGCCTGGGCAACCTGG
Y
GAGACTTTTCCTCTATAAAAACACAAAAAAATTAGCTGGGCGTGGTGGTGCACCTGTAGTCCCAGCTACTCAGGAGACTGAGGTGGGAGGATTGCTTGAG
Celera SNP ID:            hCV91561
SNP Position Genomic:     416915
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18453):
TGTCTCAGGTGTGGCCAGGGCAACGGGCTTTTTAAAAGACTTTCCAAGTAATTCTAATGAGTATCTAAGTTTGAGGACCACTGATCTAGATCAATTAACC
H
TACATACATATATATATATATATATATATATATGCATTTTTTTTTAAAAAGATACATTTAACACCTCCCCCCACCCAATAAACCTTATGGAAACCCAATG
Celera SNP ID:            hCV26470639
SNP Position Genomic:     91832
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|T,1|-,11)   total(A,1|C,1|-,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18454):
TGATCTGACCATAAGAGGTTACCTTGGAGCATTCCTCTACATTGCATTATGTATATTACATGGTAATGAATGACAGTTTTCATGGCTCCTAATAATGAGC
W
GCTTCTCTTTATTTAGAGAACAAAATAGGGGGTTTACAGATAATATCTGAGTTTATCATTGAGCTGCTCAGCCTCCTCTTCTATGTGCCTCAGCTTGTCT
Celera SNP ID:            hCV91563
SNP Position Genomic:     421521
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,6)      total(A,6|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18455):
GAGCCACAGCCCAGAAGCTGAGAAGCCTTCCGGCCGATCTGTGGCCCTGAGGTCGCCCTTGGAGGGCGAGTGAGAACCCCCCAGGCGTTCCGGAGGTGGC
S
CCCAGCCCGAACCCGGCGCCCGCCCCGGCTTCCCGAGTCAGGTCTTTGCCCCGCCTCTCGGCCCCGCGGCCTGGCCGGCAAGCAGGGCTGCAGTCACGGG
Celera SNP ID:            hCV16270445
SNP Position Genomic:     6135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:18456):
TCAGGGAATATCTATAATATATTCCATGGCAATTAAATTGCATACCCCAGACTGTTCAAGATGTGTTTATAAAAGGAGAAATGGATTTCCCACAGCTGCT
Y
GCCTGTGAATGCATCCTTCACACAGAACCACAGTAGCCAGTATATGCACTAAAATAACAGACTTGAATTTAAACTTTCAGTGCTTTCAAACGTCTTTCAA
Celera SNP ID:            hCV7532630
SNP Position Genomic:     496755
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18457):
TAGGGATGTTCATGAAGAGTTGTGCATAGAGTGTTATCTACGTAAATCAAATGACACTTTCAGTGCAGTAGGGGAGTCCACAATATCCAAAGTGTTATGA
Y
TAAATTTTTTATGAGGCAAATAATCCCTTTATAAAATGAACAATCAGTCACTCCTTGATATATTATCTGAATAAATCCAGATTTTCAAATATGGGGTTGA
Celera SNP ID:            hCV16270449
SNP Position Genomic:     11834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18458):
TGAAAAACACTGCTTTAAGCATCTATAGGACATAATTTCGAGCTGTAGAACCACAGATTTTAGAACTCAAAGGGAATTTAGAGACCATGTACTCTAATTT
W
ACTATGATTTAGTAGATGTTGGTTAGCAACTGTGGAGCTGCAGGACAACAACCAACTTGTGTGCCTGATTTTCTAAAAAACTAGGGGCATCTCAAACAAA
Celera SNP ID:            hCV7532709
SNP Position Genomic:     84699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,12)      total(A,1|T,12) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18459):
TTCAGCACCAAGTAAAACGGCCTACACATCCTCTCACCAGACTCTTTTGCTTATAATCATCATTATTACCTTAAAGCCAAAGTTTACTCATCTGTAAAAT
S
AGGATAATAATAATTATAGAATCATTGTGAGGCTTTGATAAGATAATGCCTGTAAGTGTTTAGTACAGGCTCATAGAAAGTACTTAGTAAATCCTGGCTA
Celera SNP ID:            hCV7532639
SNP Position Genomic:     490407
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18460):
GGTGCCGTCTGTCACCCCTTTCTTTGACTAGGAAAGGGAACTCCCTGACCCCTTGTGCTTCCCGAGTGAGGCAATGCCTCGCCCTCCTTCAGCTCGCGCA
Y
GACGCACTGCACCCACTGTCCTGCGCCCACTGTCTGGCACTCCCTAGTGAGATGAACCTGGTACCTCAGATGGAAATGCAGAAATCACCTGTCTTCTGCG
Celera SNP ID:            hCV224532
SNP Position Genomic:     406473
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18461):
ATAAAATTGAGATAATTTTTACCTTTAACATAAAAGTTCGGCTCTAAAAAATGTTTGGCAAAGCAGAAACTCTAAGTACTAATGAGGATATGAGTTGCTC
Y
TACAGCCACTTTAGAGAGCTACTAAATGCAAATAAGCATGACCTGATTCTAGGCTCACACCCTAAAAAATCTCTCCCACAGTACTAAGACAGACTTGTAC
Celera SNP ID:            hCV28017750
SNP Position Genomic:     167335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18462):
CAAACCTTACTTTCTTGGAAAGACCGTTTTCTGGCCGCTGAGGTCTCTGCCACTATCTGTCATAGAATTTGATTTTATTTTTTCACATCATGTGTCAGTC
Y
CTGGAATTATTTTTGTTAACTTGTACATCTACTGTCCTCCAATTAGAATGTAAGTTGAGAAGAACAGAGCCATTGTCTGTCAAGTTCATTGCTGTATCCC
Celera SNP ID:            hCV26470710
SNP Position Genomic:     307928
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18463):
CCTACCTTGGAGAAAAATTTGGGGGCACTTAAGAAAAATGTGTATTCTGCCACTGCTGGGTGAAATGCTCCGTATGTATCTGTTAGGTCTGTTTGATCTA
Y
AATATTATTCATGTCCTCTGTTTCCTTACTTATCTTCCGTATTGATGTCCTCTTCATTATTGAAAGTGTGGTATCGAAGTTTCCTACTATTACTGTATTG
Celera SNP ID:            hCV26470711
SNP Position Genomic:     309636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18464):
TTTTTGACTTAGAGTATGTTTTGTCTAAGGATAGCCACCCATGCATTCTTTTGGTTACCATTTGCTTAGAATACCTTTTTCTAGCCCTTCACTTTCACCC
Y
GTATGTCTCACTAAGTCTAAAGTGAGTTTCCTGTGGAGTGCATGTAGTTGGGTATTTTGTTTGTTTTCCATTCAGCTACTCTATGTCTTTGGATTGGGAA
Celera SNP ID:            hCV26470712
SNP Position Genomic:     309988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18465):
GACTTTCCAAGTAATTCTAATGAGTATCTAAGTTTGAGGACCACTGATCTAGATCAATTAACCATACATACATATATATATATATATATATATATATGCA
T
TTTTTTTTAAAAAGATACATTTAACACCTCCCCCCACCCAATAAACCTTATGGAAACCCAATGCATAAAAAAGATTAAAGTGGAGGTGCTTTACATAAGG
Celera SNP ID:            hCV26470640
SNP Position Genomic:     91869
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18466):
GAGGATTTAATATTGCGGTTTCATTAGTTGTTTTCTTTTAGTCCTATAGTCCTTTTGTCAGTCTTTTCCTTTCTTACTGTCCTCGTTTATGTTTTCTTGA
T
TTTTTTTTTTTGTATTCATATGCTTTAATTCTTGTTGACATTTTTAGTATTATACCTTTTCATGGGTTTTGGAATTTTCGTTTGCTGACTCATTTTGAGT
Celera SNP ID:            hCV26470713
SNP Position Genomic:     310226
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18467):
TGAGGCAGGGGAATGGCATGAAGCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCCCCACTGCACTCCAGCCTGGATGACAGAGCGAGACTCCATCTC
A
AAAATAAAATAAAATAAAATAAAATAAATAAAATAAAATAAAATAAAATAAAAAAATAAAATATCCTCTGACAACTTCCCAGGCTTTTATACTTGAGTCC
Celera SNP ID:            hCV26470641
SNP Position Genomic:     95684
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18468):
AGGATTTAATATTGCGGTTTCATTAGTTGTTTTCTTTTAGTCCTATAGTCCTTTTGTCAGTCTTTTCCTTTCTTACTGTCCTCGTTTATGTTTTCTTGAT
T
TTTTTTTTTTGTATTCATATGCTTTAATTCTTGTTGACATTTTTAGTATTATACCTTTTCATGGGTTTTGGAATTTTCGTTTGCTGACTCATTTTGAGTG
Celera SNP ID:            hCV26470714
SNP Position Genomic:     310227
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18469):
GAGGCAGGGGAATGGCATGAAGCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCCCCACTGCACTCCAGCCTGGATGACAGAGCGAGACTCCATCTCA
A
AAATAAAATAAAATAAAATAAAATAAATAAAATAAAATAAAATAAAATAAAAAAATAAAATATCCTCTGACAACTTCCCAGGCTTTTATACTTGAGTCCA
Celera SNP ID:            hCV26470642
SNP Position Genomic:     95685
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18470):
TAACTTTCATTTAAACTGCACAGACTATCATGGCTGGGTATTTTTCAAAGCTACATAGGGTTCTGGAATTTTAGAAACCATTAGGGGCCAAGAAGAATCT
K
TCAGCTTATAGATCTAAATGTTCAAAATTTAAGTTAAAGCCTGTTTCTTTTGGTAGGAAGCACCTTGACTCCCATTTTTTATAATGAAAGATTGATGATA
Celera SNP ID:            hCV26470715
SNP Position Genomic:     318345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18471):
AGGCAGGGGAATGGCATGAAGCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCCCCACTGCACTCCAGCCTGGATGACAGAGCGAGACTCCATCTCAA
A
AATAAAATAAAATAAAATAAAATAAATAAAATAAAATAAAATAAAATAAAAAAATAAAATATCCTCTGACAACTTCCCAGGCTTTTATACTTGAGTCCAA
Celera SNP ID:            hCV26470643
SNP Position Genomic:     95686
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18472):
AGAGGAATTCTTGAAAACTGGCATGGAATATCGTATTAGATGGAACCTTGGAAGGTTTTATTTATCCCTTCTCTTTTAGCTTTCTGTCTAAGGCCTCAGA
W
TGTAGTCTATTTTAGAAAATCTCCAAGGCAGGAAATTTTTCATAACCTTTCCCCTGTTAGTCATTTTTTTTAACTTCAACAAAAGCCTGCATCAGAAGCT
Celera SNP ID:            hCV26470716
SNP Position Genomic:     320397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18473):
GGCAGGGGAATGGCATGAAGCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCCCCACTGCACTCCAGCCTGGATGACAGAGCGAGACTCCATCTCAAA
A
ATAAAATAAAATAAAATAAAATAAATAAAATAAAATAAAATAAAATAAAAAAATAAAATATCCTCTGACAACTTCCCAGGCTTTTATACTTGAGTCCAAA
Celera SNP ID:            hCV26470644
SNP Position Genomic:     95687
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18474):
CTAAAAAAATTATATTGAAGTATAATATTCTCAGAGAAAGTGCACGAATCCTAAGTGTATATGGTGAACTTTTACAAACTGAGTACACCTGTGTAACTGC
Y
ACCCAGATCAGAAAACAGAACATGACCAGCACCCCAAAAGGTTTCCTCTACCCCCTTTTTGTCACAAACCCTCCTCACCAAGAGTAATCACTCTCCTGTT
Celera SNP ID:            hCV26470717
SNP Position Genomic:     324748
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18475):
CAGGGGAATGGCATGAAGCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCCCCACTGCACTCCAGCCTGGATGACAGAGCGAGACTCCATCTCAAAAA
T
AAAATAAAATAAAATAAAATAAATAAAATAAAATAAAATAAAATAAAAAAATAAAATATCCTCTGACAACTTCCCAGGCTTTTATACTTGAGTCCAAAAT
Celera SNP ID:            hCV26470645
SNP Position Genomic:     95689
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18476):
CTGAGTATCGTTTTTATGATTATTAGTAATTTGCATATCTTTCTTTGTGAATTGTCTGTTCATATACATATATATATATGCTGAATATTTTCTGTTTTTC
Y
GTGGGTTACCTTTTCACTCTCTTAGTGGGGTCTTTTGATGACTAGCTTTCCTAGTTTAAAAAAAAACACTCTCACATATTAAAGATCTTAGTAAATATTT
Celera SNP ID:            hCV26470718
SNP Position Genomic:     325534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18477):
CCTTTGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGT
Y
GTGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAA
Celera SNP ID:            hCV26470646
SNP Position Genomic:     100356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18478):
ACGACTTCACTCCCCTGCTAATTCCATCAGAGCAGGTGCTGGCATCCATGGCTGCAAGACCTGAAGACAGATCACATCACAGGACTCTTTGCAGACACTC
Y
CCAGTACCAGCCTGAAGCCCAGTAGCTCCTCTGGGTGGCTAGACCCAGAAGAGCAAAAACAATCACTACAGTTCAGCTCTCAGGAAGCCCCATTCCTAGG
Celera SNP ID:            hCV26470719
SNP Position Genomic:     333701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18479):
AAAGACTTTCCAAGTAATTCTAATGAGTATCTAAGTTTGAGGACCACTGATCTAGATCAATTAACCATACATACATATATATATATATATATATATATAT
R
CATTTTTTTTTAAAAAGATACATTTAACACCTCCCCCCACCCAATAAACCTTATGGAAACCCAATGCATAAAAAAGATTAAAGTGGAGGTGCTTTACATA
Celera SNP ID:            hCV7532710
SNP Position Genomic:     91866
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18480):
CAGACCTAGAAATGATAGTGATGATGAAATTTGTAGACAGGCACTATAAGCAACTATTATACATATATTCAAGGATTTAAGAGAAATCAGAAACATAATG
M
AAAGAGAAATGGAAACTATAGAAAAGGAATCAAATGTAATTCTATAACTGAAAAATACAATATATGAAATAAAAAAATTCACCTTATGGGCTCAACAGTA
Celera SNP ID:            hCV7532640
SNP Position Genomic:     482787
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18481):
TCTTTATGCTCAAGTGCTGCCAAGAAGTTGGACAGCCCTCCTGTTCTTCTCCCAGTTCCCCAGTCCCTATTCCAGATGAGGGGATGCAGAGTTAGTTGTC
M
ATTCATTCAACAAACATTTATTCAGCAGTTAGAGTGACTATCTCATCTCAGTTTCCCTGAGACTTTTCTGGTTTGAGCACTGAAAAGTTCTATATTCTAG
Celera SNP ID:            hCV7532641
SNP Position Genomic:     478306
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18482):
AAGACTTTCCAAGTAATTCTAATGAGTATCTAAGTTTGAGGACCACTGATCTAGATCAATTAACCATACATACATATATATATATATATATATATATATG
Y
ATTTTTTTTTAAAAAGATACATTTAACACCTCCCCCCACCCAATAAACCTTATGGAAACCCAATGCATAAAAAAGATTAAAGTGGAGGTGCTTTACATAA
Celera SNP ID:            hCV7532717
SNP Position Genomic:     91867
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18483):
TGACCCTAACTTTCCATATTCTCCAGCTTGGAGATGCCTGTGGGAGGTTTGCTTTGAGAAGGCCCCAGCTTTGGCATTGTCAGTTTTTCATCTGGCTCCT
M
ATCTATTTCACTTTGTCTCAAGCTTCCCTTCTTTGGTGACCCACTAAAAACTGAAGTTGTGCTGGCAAGATGGTGCTTTGTTGTCATGGAAAGAGGCTGT
Celera SNP ID:            hCV11175264
SNP Position Genomic:     62986
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,12)      total(A,12|C,1) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18484):
TTATTGTTCATGGAGTTTCCCCCCCAAACACACACACCCATTCCACATTTGGTCATTTGTTTGTAATATCTTCTTTGGCTTTTCTGGATTCCAAGCATCA
Y
TTGTGCATTCCTTTAAAAAGCTTTAAGGCTTTTCACATCCACAGTGATCCCATTACATTCCTTATATAACTAATATATTATGTATTTTCATTGGAGGAAG
Celera SNP ID:            hCV11175268
SNP Position Genomic:     196352
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;JBIC-allele(C,277|T,1212)   total(C,277|T,1212)no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18485):
GAGCAAGTGCAAGCTATTATTATGATCCTTATTATGTTTGATGTTGTTGTTATGTCTCCCTAGAGTTTGGTGGATTTTGGTTTGGATTTCCATTCCACTC
Y
CCATCATTGAGAAGGAACTGAGTCAAAAGACCCATAGTGGATCAGCAGAGACCAACCACTCACCATGGTCATAAGTAATTTCAGAGCCCATAGTATCTCT
Celera SNP ID:            hCV15823409
SNP Position Genomic:     352851
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18486):
AATAAATGCAATTAATTAGAGATTTAAGTCCCACAGAGGAAAGCTTCTCTATGGAACAATTTGTCTTGCATTATTTCTCTAATTTATCATATTGTTTAGT
R
CATATTTCTTGAGAGCTTCCTAGTTGCTCAGAAATTTCCGAGTACTAGGATTACTAAGGTGAATTCCATGTGTTTTTTGTCCTCAAGAAATATTTTTATG
Celera SNP ID:            hCV11175269
SNP Position Genomic:     200581
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18487):
AGGAAAGTTCATAGCATTAAATGCCTAAACCAAAAATCTGAAAGAGAACCAATAGACAACCTAAGGTCATGCCTCATGGAGCTGGAGAAACAAGAACAAT
Y
GAAACCCAAACCCAGCAGAAGAAAATGACGAAGATCAGAGCAGAACTAAATGAAATTTAAAAAGAAAAAAGATAAATGAAACAAAAGCTGGTTCTTTGAA
Celera SNP ID:            hCV26470720
SNP Position Genomic:     335949
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18488):
AAGATACAGAATCTCTGAACAGACCAGTAACAGGCAGTGAGATTGAAATGGTAATTAAAAAAAATTCCAAACAAAAAAATTCCAGGACCAGATAGATTCA
Y
GGCTGAATTCTATCAGATGTTCAAAAAAGAACTGGTACCAATTCTACTATTTCAAAGGATAAGGAAATAGAGAATCATCCCTAACTCATTCTATGAAGCC
Celera SNP ID:            hCV26470721
SNP Position Genomic:     336370
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18489):
GCTTTAGTGGCTTTAGAAACCAGGACCCTATGCATATAAATAGTTGTAATAAAAAGGGAAGCAGCAACAGTGTATAGTTTTCATAATTTTTCAAAATAGT
W
TAAATATGATAGCAACTTTTTACTCTTACAGCTTAGTTGTGAAGGAGGCAAGGCCAGTACTCTTATACTCTGGGAAGCTAAGACCTAGAGAGATTAAATG
Celera SNP ID:            hCV27834490
SNP Position Genomic:     140942
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,33)   caucasian(T,38)   total(A,3|T,71)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18490):
CAGGACACAGTTCCTTGCGTCAAGGAGCTCATAGTCAGGCAACAATGGCTTCACATGGATAGAGGCATTTAAACCAGGCCTTGAAAAGTTAGGAAGTGGT
A
AAAAAAAAAAAAGAACAAATTAGAACTCATGAAAGTACATAGTTTGAGGAGTAGAAGATGTCTTCATAAATCTAGAGTAATGGGTGAGTGAGGAGGGGGT
Celera SNP ID:            hCV26470722
SNP Position Genomic:     340037
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,9)   total(A,5|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18491):
AGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCGGTCACTTTCAGGCACACCAATCAGACGTAGATTTGGTCTTTTCAC
R
TAGTCCCATATTTCTTGGAGGCTTTGCTCGTTTCTTTTTATTCTTTTTTCTCTAAACTTCCCTTCTCGCTTCATTTCATTCATTTCATCTTCCATCGTTG
Celera SNP ID:            hCV26470650
SNP Position Genomic:     104114
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18492):
AGGACACAGTTCCTTGCGTCAAGGAGCTCATAGTCAGGCAACAATGGCTTCACATGGATAGAGGCATTTAAACCAGGCCTTGAAAAGTTAGGAAGTGGTA
A
AAAAAAAAAAAGAACAAATTAGAACTCATGAAAGTACATAGTTTGAGGAGTAGAAGATGTCTTCATAAATCTAGAGTAATGGGTGAGTGAGGAGGGGGTG
Celera SNP ID:            hCV26470723
SNP Position Genomic:     340038
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18493):
GTTTTTGTTCATTTCATTAAGGGTTTTGAGAGTCAGGTTCCATTAACCAGTGTCATTCCACCATTTTATTCTGTGACTTCTTTTGGTGCTATTACATTTA
R
AAAATTCTTCCTCTCTAAAATGTGGTAAATATTTACCTACTTAGCTTTTAAAATATATTTTCATTTAATTCTAAAATGTATTTGAAATTAATTTTTATAT
Celera SNP ID:            hCV26470651
SNP Position Genomic:     113954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18494):
TGCAGATGTAACCAGTGTTCTGAGATTGTTTTAAACTCACTCTAGAATATGTATATAAAAAATGGTATCATATAGTTTTTGTGATTTTGAATTTACATAA
S
TGGTATTTTCTTCCATATTCAGGTTTATCCTTTTGTTTATTTCTTCTATCTTTTTGAGGTAAATATTTAGTCTATTAATTTTCAGTCTTTCTTATTTTCT
Celera SNP ID:            hCV26470724
SNP Position Genomic:     344179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18495):
ATACAATGAAATGAAATGATCTGTGCCAAATACTTGAAACAGTGCATGGCACATGGTAAATGGTAAATGTTTTATTTCCTCCCCCTTTTTCTTATTCTGT
W
TCTTTCTTTTTCAAAAAATTTAGATTTGTCAGAACTTTGTTGATTTAAAAACTTTGTTTCCCAGATAATAACCTCTTCTGCTTATCTTTTAATCTACTTA
Celera SNP ID:            hCV26470652
SNP Position Genomic:     115833
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18496):
AAAAGTACTGTGTCATTTGAAAGAAGTATATTAAAAGGCCCCATTAGGATTGTGATTTTATAAATTTCTCCTTTAATTTCTATCAGCTTAGCTCTATGTA
R
TTTGGGGTTTTATTGCTTTATACAGTTTAGCCAAAAGACCTTCTTTATCCTTAATGATGAATTTTCTCTGCAAGTCTATTTTATCAAATATTAATATCAT
Celera SNP ID:            hCV26470725
SNP Position Genomic:     344692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18497):
CAAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCACTGTACTCCAGCATGGGCAACAGAGCAAGACTCCATCTCAATGATA
A
TAATAATAATAATAATAATAATAATAATAATAATAATAATTTCTTATTAGTAATTTGAAGGCATTGCTTCTTTGTCTTTCAGCATTGACTGTTCCTAATA
Celera SNP ID:            hCV26470653
SNP Position Genomic:     118331
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,8)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18498):
TCTGCATTTTCACCATGATTTGTTTAGGGACACTTTAAAAAAATATTTCCTTGCTCTTACTTTTTTTTCTTCTTCAATCTGAGAACTGGGAGCTCTTATG
T
TTTTTTTTTAATTCAGTAATGTCATAAGCTATTATTGCCTCAAATATTGCCTTCCTGCATTCTATTCTGTCCTTCTGTAATCCATACAGAATAAATCTAT
Celera SNP ID:            hCV26470726
SNP Position Genomic:     346257
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,8)   total(-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18499):
AAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCACTGTACTCCAGCATGGGCAACAGAGCAAGACTCCATCTCAATGATAA
T
AATAATAATAATAATAATAATAATAATAATAATAATAATTTCTTATTAGTAATTTGAAGGCATTGCTTCTTTGTCTTTCAGCATTGACTGTTCCTAATAA
Celera SNP ID:            hCV26470654
SNP Position Genomic:     118332
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,8)   total(T,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18500):
ATAACCCTGCTGGCAGAGATTCTAAGAAATGTAGTTCTCATGCTTCCAATCCCTATAATACTAAGGAGAGCGTAGAAGGAGAAAATGGTGTCAAATTGCC
A
AAAAAAAGAACCTGGCATATAGAAGTAGCCCAATTATTAGGTGATGACATGCCCCAGTTTGTCTGGGACAGTCCCAATTTATTCCTGTTGACCTAGAGTA
Celera SNP ID:            hCV26470727
SNP Position Genomic:     355625
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18501):
AGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCACTGTACTCCAGCATGGGCAACAGAGCAAGACTCCATCTCAATGATAAT
A
ATAATAATAATAATAATAATAATAATAATAATAATAATTTCTTATTAGTAATTTGAAGGCATTGCTTCTTTGTCTTTCAGCATTGACTGTTCCTAATAAA
Celera SNP ID:            hCV26470655
SNP Position Genomic:     118333
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18502):
AAATCCAAATGGCAAGGTCTGATAGCAGCTGAATAGTTAGAATTGGGGCTCAGATAAAGATCTGAGCTGAAATTTAGACTTGTGAGGTTTTTTTTTTTTT
W
AAAAAAAAACACTTCTATTTTAAGTTTAGGTGTGCAAGTACAGGTTTGTTACACAGGTAAACTTGTGTCATGGGGGTTTGTTATACAGATTATTTCATCA
Celera SNP ID:            hCV26470728
SNP Position Genomic:     356644
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|A,8)   total(A,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18503):
GATAATGTGATATTAAGTCCTTAGGACTTTTAAAGTTGACATAGTATTATAACTGTTACCTCCGCTAATAGCGTCAAACCTTGGGTCTAATCAGGGCTCA
K
TCTCTTTACTATTTGTGTGACCTTCCTAACCATTTTGCCATTCTGTCTCCCTTCTGAACATAGCAAATATAACTAGCTTGCTTTGGCCTTCAAATTAATA
Celera SNP ID:            hCV26470656
SNP Position Genomic:     122820
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,8)      total(G,8|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18504):
TTAACACTGATGACCTTACATGGAGGATTTAGTGAAAGTTATATTAGAAAGCAATTCAGTTACTTCCAGATTGTTATTGAAGTCCAGCCTCTGTGGTCTA
Y
CTATGCCATTAGTATTTGTCCTAGGTTATTTTTGCTTTCGTATGTCAGAGAATGGTCTCAACGTAAGGGGGTCTGAGTCAGGGTGGTCTAGTTGAAAAGG
Celera SNP ID:            hCV26470729
SNP Position Genomic:     371177
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18505):
AAGGTAAGAGTTACCTCCTCAAAGAAGCGGGGGAAATTGTCTCTTACTACTCTATGACAATGAGCAAATCACTCAAATTCTCTGACTCTCTCTTTTGGAA
R
AAATAACATTTACTGGTTGCTTTTGAGGATTGAATCAGATGAGATATAGAAAAGCCCTTAGCCCAGTGCTTGCTAGGGGAAAGATCAATATTGGTTTTCA
Celera SNP ID:            hCV26470657
SNP Position Genomic:     127099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18506):
CCCTCTGTCCTCTTCCCAAGCCGTTTTTGGCACTCCCTAGAGGAAACCAGTTCTCCTCTCCTCTTTTACTTCTGCAGTGGGCACTTGGGCTCCAAGTATC
T
TTTTTTTTTTTTTAAGTTCATCTTCATCATCCTTTAAATTAAACACCTACTCCCCTGATAAATATGATGCTCTTTTTAACAATTAGTCTTTGGATATAGA
Celera SNP ID:            hCV26470658
SNP Position Genomic:     128464
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18507):
CCTCTGTCCTCTTCCCAAGCCGTTTTTGGCACTCCCTAGAGGAAACCAGTTCTCCTCTCCTCTTTTACTTCTGCAGTGGGCACTTGGGCTCCAAGTATCT
T
TTTTTTTTTTTTAAGTTCATCTTCATCATCCTTTAAATTAAACACCTACTCCCCTGATAAATATGATGCTCTTTTTAACAATTAGTCTTTGGATATAGAA
Celera SNP ID:            hCV26470659
SNP Position Genomic:     128465
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18508):
GTCATAAAGTGAGTTAGGATAGCTTTTCCTACTTTAACCTACCCTGGAATGGATTATATAATGCGGGTCTCATAAGTTTCTTGAAAACGTGAAAGGCCTA
R
AACCAGTTTTGCAAATTATCCCTTAATAACATTTGCTAAATTTTCCATGGCTATTCAGCTTTCTTATAATATTGAATCAATGTTATTAATTCATATTTCT
Celera SNP ID:            hCV16270462
SNP Position Genomic:     115529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18509):
AATATTTCATCCATTATTCAGACTATTGTCATGATTTAACTTGTTTCATATTTGGACCATTCTTGGGAAATGTTTTGGGTTTAATTGCCTTTTTTCTTGA
R
AAAAGAAACACATATCTTTTTACCATATTGCCAATATCTTGCAATTGTTTAATGCTTTAGTAAGTATCACTCTATTTCTAGGTCTGTTTCAAAGCTGTCA
Celera SNP ID:            hCV16270463
SNP Position Genomic:     117693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18510):
AATTCATTTTCACCAATGCTACCTGGTTACCTTGTAACTCCAGAGTTTTTTAGAGAGGTTTTGTATATGATTGCTTGAGCTATAGCTTTTTCCCTTTTTG
Y
AAGCTATTATTGAAATAAAAACGTAACTTACCTATTTCACGGTGTATGGATGTTTTTAAGTGGAATAAGTTCATGCTGTTTTAACTTAGGTTCACCAAAC
Celera SNP ID:            hCV15823410
SNP Position Genomic:     312552
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18511):
TTGCAGATGAAGCATCTAGCCCCTTACAGTCTTCTCTTCTCCAGTGTAATATATTCTGCTGCTCTTCAAGCAGTGCATTTCTAGACACTGGAAAATCCTG
W
CAGTTCTTTTCTGACCACCGTCTCTTTTCCAAACTCTTTCCTCAGGTGTCCTGGACGGAAACAAAAGGGAGTAAAAAAGTGTTGGATTTATTTAGAATAA
Celera SNP ID:            hCV15823411
SNP Position Genomic:     314530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18512):
TTAAGGATAGTACTGGAATTTCCTCATCTTCCTATTGTCCACATTGCCCAGCGTGAAATTTTGGCCCAGTAGGAAGGCTATACATTTGTTGAATTAATTT
K
GATCTGTAAGGCATATTCTTCCACGAAAAGGACATTGCACAATCACAATATTCTCCATAAACAAATGGACACTCAGAAAGAACTGTTGTGTTCTTTTATC
Celera SNP ID:            hCV7532724
SNP Position Genomic:     190913
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,18)      total(G,3|T,18) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18513):
CCCCTTACAGTCTTCTCTTCTCCAGTGTAATATATTCTGCTGCTCTTCAAGCAGTGCATTTCTAGACACTGGAAAATCCTGACAGTTCTTTTCTGACCAC
Y
GTCTCTTTTCCAAACTCTTTCCTCAGGTGTCCTGGACGGAAACAAAAGGGAGTAAAAAAGTGTTGGATTTATTTAGAATAAAAAGGGAGTATTACTTCAC
Celera SNP ID:            hCV15823412
SNP Position Genomic:     314549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18514):
TTAGAAAACTTAAGTTTGTGGATTCATATCCAAATATTGCCCTTTACTGATCTAGCTTTTTCTGCTGTAAGTTCTAGGAACCTTTTAATTCAGAGAGGGG
W
AAAGAAAAGAGCTAGCATACACTCAATAGCTTTTATGTTTTGGATGCTTCATAAATATCACCTCATTTGGACCCTTACAAGAGCTTTGGGAGGCAGGGAG
Celera SNP ID:            hCV7532725
SNP Position Genomic:     212003
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18515):
TTCAAAAAATGCACAATTGAGAAAAAAAGTCCACTTTTCTTTCTTTTTTTTTAAGGTTTTCCACAGGTTGTGATTATTCAACACATGGCTACAATCGACT
R
ATGAGATTTAACTGATTTAATGTATGATAATATAATCTAATGACAAGTCAAAATAATTAGGGGGACAGGGACAACCTCATGAGTGTTGACTTTAAAAATC
Celera SNP ID:            hCV15823413
SNP Position Genomic:     315287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18516):
GTCTCTTTGTAAGGTCATATTCGTAAAGGTTGCAAAAGAGACCAAACAATGTATTCCAATTGAGAAGTCCAGGTAGAGTATTTGGTTCATTTGTGCTGCT
R
TAACAGAATACCATAGACTGGGTAATTTATAAAGAATAGATCTTTATTTCTCACAGTTCTGGATCCTGGGAGGTCAAAAAACAAGGCACTGGCAGCTTCT
Celera SNP ID:            hCV7532726
SNP Position Genomic:     212331
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18517):
ATAAATATGTTATTTGGTAATGGACTTGTTTTCTTAACAATTATAATATATTCTTTCCAAATGCTGTAATTTAATTCTGCCATTGTGCTAATTAGTCAGC
Y
GATCAGCCTTCAGCATTGTTTCAATATCCCACCCACCACATTTTTATATTAAAGCTCATTTAATTGGTGTTGTGGGTTGAATTCTGTTCCTCCCCAAATT
Celera SNP ID:            hCV7532580
SNP Position Genomic:     281460
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)   Caucasian(T,0|C,58)   Chinese(T,0|C,20)   Japanese(T,0|C,36)   African(T,1|C,59)      total(C,173|T,1) ;(C,-|T,-)   ;(C,-|T,-)   Caucasian(C,58)   African-American(T,1|C,59)   Asians(C,56)   total(C,173|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18518):
CAACTTTTCCCTCACAGGCTTAAATTTTTATAAAACTGCTTCTCTTAGTGTGTCGTGTTTTTTGTTGTTGTAGTTGTAGTTTTGTTTTTAGCTTCTTCTT
M
TTAGCCCAACCTCCTTGTTTGGCTTTACAGTTAACCTGGCTTAGGTCTCCTTATCTCCAGTGAGCCAATTTTAGATTCTCTTATCCTGTAGGAGCAGAAT
Celera SNP ID:            hCV11248319
SNP Position Genomic:     310664
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,6)      total(A,5|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18519):
AGTTGATGAGTGCACCAGAATCTCAGAAATTACCACTAAATAACTTACTCATGTAACCAAACACCACCTGTTCCCCAAAAACCTATTGAAATAAAAAAAA
W
TTTTTTAAAAGAATTTGTTCCTTTCCTTTTTTTAATTACATGTAAAACTAGGTTTATGGCCATGGGGCATCTGTGACTCCTCCTCTTTTTCTTTAGAGAT
Celera SNP ID:            hCV15823417
SNP Position Genomic:     338969
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18520):
ATGGGGAGTGGTGTTGATCATTGTTGGCTAGTGGCCCTGAATGGAGCAGGGAGTAGGTTCCTGAATGGGCACAGGTAGGAATCATGTGGGAAATGGGCAC
R
TGTGCATCTTTCAAATCCCTCCATAGGGCTGCTGCCTACTGCTTGTATTAAAAGGCATTTTATGTTGCATCTACTTGAAGATGCCTAAATATGCTATACT
Celera SNP ID:            hCV15823418
SNP Position Genomic:     348037
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18521):
GCAGTGCATAGTACCCTAAACCAGTGCCCGCATAAGCAGTCTGTATAAAACATGCTTATGCTTTTCAGCTTCCCAAGTGAATCTTTCCTAGAGAGAATTG
T
TTTTTTTTTTGAATGTTTGAGGTCATCTTACAATAATTATGCATAATCAGTAATGGAAACAATTTAAAGAGTTTACACTATGTGCCCGGAATATGATCAT
Celera SNP ID:            hCV8295014
SNP Position Genomic:     312823
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18522):
ATAATTTTTTCAAGCGGAGAGATTAGTTGTGGTCACAGTAGAAAATTTTTCATAATTCTCCAAGTACTATAAAAAGTAACTTGATGGCATAAAGTGAATT
S
CCATGATGAGAGTCATCCTGTCACTGTGAATTGCTGTGATCATCTTTAAAGTGATATATCTTTCCACACTGTCTGTCAGCAACTATGTAGGGTTTGTTTT
Celera SNP ID:            hCV15823419
SNP Position Genomic:     348909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18523):
GTGAGGTGGGTCAAGGGAGAAATAGAGGTTATTAAGGAGTATAGGTAGGTATTGAAGAAGAGCCTCATTTTATACACATACAGACACATGCACACATATA
Y
ACCTATATATACTCTCTCTCCATATATACATATATTTATATTTATGCACATGTAAATACATATATGTAATTTATATTTATTTTCCCCCAATACTCCTCAT
Celera SNP ID:            hCV26470801
SNP Position Genomic:     494162
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,12)   total(C,2|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18524):
GGCTCCTTGGCTGACATGCTGAAGGATATGTCTTCACATTCTTAAACTCCAAACCTCCCTTGGAAATAATTTCCTAACAGTGAAACTGCCCTAATAATGC
Y
GTAGTTTGTTTCCAGGGGAGAATATTTGCCTTCAGAGCAGGCTCCTTCTGCCAGCTTTCCATTTCATAAATGCATTTTATGACTCCCTCTTCAGAGCTCA
Celera SNP ID:            hCV26470802
SNP Position Genomic:     497725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18525):
GTTGCTTGTTGGAGATGCATTACTTTTTTATAATACATGATTCAAGTACAAACAGTTGTTTTTCCTCACACAGCTTGATCTTCACAAAAAATAAAATTTA
W
AAAACCATTTTGGTAAATGTAAATTTGTAAAAGGAGGTTTTGGTACTTGTACTTGATTTACCATCATTTTCTTTAAAATTGTACTGTTGTTTAACTTCTC
Celera SNP ID:            hCV26470730
SNP Position Genomic:     376050
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,4)      total(A,4|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18526):
AATAGAAATAATGAAAATCTATAGAAGTAAGAAAACCCTGGGGCCTGGCATTTGTCTGCTAATCCCTGTTTGCCTAGAGCATGGGTTTTAATGAGCAGTG
R
GTGCATCTAGGACAAGTACAAAACTTGGGGCCACTAGTGTACTTTATAAGATATTGATTAACTTTAGACTTATTAAGATGAATATGTAACCTATAATTTC
Celera SNP ID:            hCV26470803
SNP Position Genomic:     499731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18527):
GAGAAGCAGAAGCAGATCATGATGGCAGACCAGAAGCAAGACTAGATTGCAGCTGTCACTCGGATGGACAGAACAGTGTGTGGAGACTTGCATTGTGAAC
T
TTTACTCAACAATGACTGCAGGAATACATTAGGAAAGCCAAGAGAACCCATAGACCCTCTGAAGGAAGCAGATTACTCCTGCAGGACCTGGGAGACACCC
Celera SNP ID:            hCV26470731
SNP Position Genomic:     377935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18528):
AACAACTACTAAATAATAGAAAGTATCCAAAAAATGAAAGTCATCATTTTTTCTTTTTCTTCAAATTATTAATAAAACTGACAAACTGCAAGCAAGATTT
A
AAAAAAAAACAGAGAAGACACTGATAATCAACATCAAGAATGAAAAAGAGGGCATCACTATAGATGCTGCAGACATCAACTAAAATTAAAAACAGGATAT
Celera SNP ID:            hCV26470804
SNP Position Genomic:     501005
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,11)   total(A,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18529):
AGCAGTGTCTGTCAAAATACTCCACTAAGAATTCTTCCTCTTTTATCCCCAGGAGCCAGTCTACTTGATGACTTATACAAGTATTTCTTCTTCCATCACT
C
CCACGGAGACACCATGACTGTCATGGATCCAAAGCAGATGAATGTTGCTGCTGCTGTTTGGGCTGTTGTTTCTTATGTTGTTGCAGACATGGAAGAAATG
Celera SNP ID:            hCV26470805
SNP Position Genomic:     504060
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,13)   total(C,1|-,13) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:18530):
ACTAAATGAAATTGAAACAAGAAAATACAAAAGATAAATGAAACAAAAAGCTGGTTTTTTGGAAAGATAGATAAAATTGATAGACCATTAGCAAGATTAA
M
CAAGGAAAGAAGAGAGAAAAGCAACATAAGCTCAATTAGAAATGAAAGGGACATATTACAACTGACACCACAGAAATGCAAAAGGTCATTCAAGGGTACT
Celera SNP ID:            hCV26470732
SNP Position Genomic:     381460
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18531):
TCTTACATCCTCTTTGGATTTCCGCATAGATTTTGCAAGCCGTAAATACAAAATTTGTCTAGAGTTCATAGTTGGTTCTGTTTACTGGATTTTTTTTTTT
Y
TTTTTTTTTTTGAGACAGGGTCTGGCTCTGTTGCCCATGGTGGAATGCAGTGGTGCAATATTGACTCTGTGCAGCCTTCGCCTCCTGGGCTCAAACAATT
Celera SNP ID:            hCV26470660
SNP Position Genomic:     130610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18532):
ACTCCTCCAGAAAGCTCCTAGAACTGATACAAGAATTCAGAAAAGTTTCCGGATACAAAATTAACGTACAGAAATCAGTAGGTCTTCTATATACCAATAG
Y
GACCAAACTGAGAATCAAATCAAGAACTCAACCCCTTTTAAAATAGCTGCAAAAAGATAATATAATAAAATACTTAGGAATATACCTAACCAAGGATGTG
Celera SNP ID:            hCV26470733
SNP Position Genomic:     382539
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18533):
GATTCTAATAAAAGTAGACACAGTTCTGGTACACTACTATGTGGTTATTTCCAGAAATATAAATGAGTGTTATTTTATATATATATATTATATATATATA
W
AATATATAATATGTACATATATAGTATTGAACCGACAGTAGGTACTTATGCCTTCTAAAAATGTAGTAGTAAGTGAACATAGGCAGGCAATATAGGAGGT
Celera SNP ID:            hCV26470661
SNP Position Genomic:     131698
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18534):
ACGTTTATAGCAGCACAATTTGCAATTCCAAAAACATATATATATACTGTATATAGTATATATATACAGTATATATATACTATATATAGTATATATATAC
A
GTATATATACAGTATATATATACAGTATATATACAGTATATATACTGTATATATAGAAACTGTAGTGTATATATATACACTATGTATATACTATATATAT
Celera SNP ID:            hCV26470734
SNP Position Genomic:     384003
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18535):
ATTTGGAATGTAGGAGAGTTCTTAGTACACAGATTGTCCCCCACATAGCTGTCTGTCTAGTGTCCCCGGCCTCTGCCAACTAGTTACCAGTAGAATCTCC
A
TACCATGGTGACAAGTAAAAGTGCTCCCCCCACATATTCAAAATGGCCCCTAGGGGCAGCATCATCCATATTAAAAACAACTGGCTTAGATTAATGGGAC
Celera SNP ID:            hCV26470662
SNP Position Genomic:     136790
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18536):
CGTTTATAGCAGCACAATTTGCAATTCCAAAAACATATATATATACTGTATATAGTATATATATACAGTATATATATACTATATATAGTATATATATACA
G
TATATATACAGTATATATATACAGTATATATACAGTATATATACTGTATATATAGAAACTGTAGTGTATATATATACACTATGTATATACTATATATATA
Celera SNP ID:            hCV26470735
SNP Position Genomic:     384004
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,8)   total(G,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18537):
CTTACTGTTCTCATCAAGACTTGGTAAATTTTCTTGGATGAATGTTGTCCTTTGCTGTATGCCCTTAGGGGAGTTTTGAGAGACATTAAATTATTTTTTA
W
ATAATTTTTCCCACTAAATATTTTGTGGGGTGAAGATCTGCTGAGTTACTCATGCTGCCATGCTGGAAGAATCACTGGGATAGCCAGTTTTGATCTCTCT
Celera SNP ID:            hCV26470663
SNP Position Genomic:     151795
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18538):
GACTGAGTGGCTCCAAGAACCTAGAAAAAGCCATCCAAATTATGTACCAAAACCTGCAGCAAGATGGGCTGGAGAAAGTTCACCTGGAGCCAGTGAGAAT
M
CCCCACTGGGAGAGGGGAGAAGAATCAGCTGTGATGCTGGAGCCAAGAATTCATAAGATAGCCATCCTGGGTCTTGGCAGCAGCATTGGGACTCCTCCAG
Celera SNP ID:            hCV25769613
SNP Position Genomic:     146199
SNP Source:               Applera
Population(Allele,Count): african american(A,31|C,1)   caucasian(A,14)   total(A,45|C,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:18539):
GCAGCACAATTTGCAATTCCAAAAACATATATATATACTGTATATAGTATATATATACAGTATATATATACTATATATAGTATATATATACAGTATATAT
A
CAGTATATATATACAGTATATATACAGTATATATACTGTATATATAGAAACTGTAGTGTATATATATACACTATGTATATACTATATATATACACACTAT
Celera SNP ID:            hCV26470736
SNP Position Genomic:     384012
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18540):
TTGCTTATTATAGAAAGCATGTACATAAATATAAAAATAATAAAAATCACCTGTATTGGTCCATTTTCACGCTGCTTATAAAGACATACCCAAGACTGGG
C
AATTTACAAAAGAAAGAGGTTTATTAGACTTACAGTTCCACGTGGCTTGAGAGGCCTCACAATCGTGGCAGAAAGTGAAAGGCATATCTCACATGGTGGC
Celera SNP ID:            hCV26470664
SNP Position Genomic:     154245
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,17)   total(C,1|-,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18541):
CAGCACAATTTGCAATTCCAAAAACATATATATATACTGTATATAGTATATATATACAGTATATATATACTATATATAGTATATATATACAGTATATATA
H
AGTATATATATACAGTATATATACAGTATATATACTGTATATATAGAAACTGTAGTGTATATATATACACTATGTATATACTATATATATACACACTATA
Celera SNP ID:            hCV26470737
SNP Position Genomic:     384013
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4|-,6|C,8)   total(A,4|C,8|-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18542):
TGTATTGGTCCATTTTCACGCTGCTTATAAAGACATACCCAAGACTGGGCAATTTACAAAAGAAAGAGGTTTATTAGACTTACAGTTCCACGTGGCTTGA
R
AGGCCTCACAATCGTGGCAGAAAGTGAAAGGCATATCTCACATGGTGGCAGACAAGAGAAGAGAGCTTGTGCAGGGAACTCCCCTTTTTAAAACCATGAG
Celera SNP ID:            hCV26470665
SNP Position Genomic:     154296
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,16)   total(G,16|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18543):
ACAGTATATATATACAGTATATATACAGTATATATACTGTATATATAGAAACTGTAGTGTATATATATACACTATGTATATACTATATATATACACACTA
T
ATATATATATACTATATATGTTACTCAACCATAAAAACGAATGAATTAATGGCATTCGCAGTGACCTGGATGAGACTGGAGACTATTATTCTAAGTGAAG
Celera SNP ID:            hCV26470738
SNP Position Genomic:     384112
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18544):
CAGTATATATATACAGTATATATACAGTATATATACTGTATATATAGAAACTGTAGTGTATATATATACACTATGTATATACTATATATATACACACTAT
A
TATATATATACTATATATGTTACTCAACCATAAAAACGAATGAATTAATGGCATTCGCAGTGACCTGGATGAGACTGGAGACTATTATTCTAAGTGAAGT
Celera SNP ID:            hCV26470739
SNP Position Genomic:     384113
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18545):
TTTTTTAAAAGCAAATAGGACAAAGAGACTTGCGATGAATAGGCTAATGATTTTGTACCATGAATTGAGGCACATAATTAACTGAACACTCTGAATTTGA
T
TTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTCACCCTGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGACTCATGGGTTAAAC
Celera SNP ID:            hCV26470667
SNP Position Genomic:     161949
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18546):
CTGTAGCCACAGTCTTCTGGACTCAAGTATCCTCCTACCTCAGTCCACCTTCCCCTCTCCAGTAGCTGGGACTATAGACGTGCACCACTACACCCGGCTA
T
TTTTTTTTTTTCAATAGAGATGAGTTCTCACTACATTGTACAGGCTGGTCTTGAACTCCTGGCCTCAATTGATCCTCCCTCCTTGACTTCCCAAAGTGCT
Celera SNP ID:            hCV11248320
SNP Position Genomic:     318979
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18547):
GGTGACATCTTAGAGCCTCACACTACTCCCTTCCTCAACTTATTTATTTATTGGAAAATATAATAAAATTGAGATAATTTTTACCTTTAACATAAAAGTT
Y
GGCTCTAAAAAATGTTTGGCAAAGCAGAAACTCTAAGTACTAATGAGGATATGAGTTGCTCCTACAGCCACTTTAGAGAGCTACTAAATGCAAATAAGCA
Celera SNP ID:            hCV26470669
SNP Position Genomic:     167273
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18548):
GCTGGGGAGCGGCGGGTTGGGAGCCTGTGGCTGCCCCTTCGGTGACAGTGGAGTCACCGAGCCTAGAAATGGGGAAGCTGTGACGTGGGGGTGGTGGAGG
R
TGCTGCGGGACAGCAGCGAGCACGGCCCTCAGCCGTCCTTCCCAACACGGTTTCACTTCCCCTCAGCTCCAGGGCTCAGCCCCAAGCCGCCCCCTTCATC
Celera SNP ID:            hCV26470599
SNP Position Genomic:     6614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18549):
CATGCTGTCAAAAGCATATCACATTTCTCCACTGCTATTTCCTTCCTTCTTAACTAAAAACAAAACAAAACACCATAGACAACAAATAGACACACACACA
M
AAAAAAAGACACTAGGTGAGAGTGAAGGTAGTTTGTACTATTTTCATTTTTCGTGTGTTCAATCGTATTTCTCTCAGCAAATATGATTGGAAGTGGTGCT
Celera SNP ID:            hCV7532732
SNP Position Genomic:     213312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18550):
GAACAGCTGGCAATTTAAAAAGCAGAGACTTGCTAAGGGGGAAGGAGGTAAAGAAGATCAAACAGAAATGCCTCCCCCTTTAGTGAAGTATGAACTGAGG
R
TGCTGCATAGTAGCAATAAAATCAGATTCTTAAATGCTTTCCCTTGTTTAGTGTGTATATGTGCTTATTTTTATTTAGTCTTCAAAGATGACTTTCCTTA
Celera SNP ID:            hCV15823426
SNP Position Genomic:     349785
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,12)      total(G,3|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18551):
ATTTATGGAGATTAAAATTCATAAATTGTTATAGAGTTAAAACAGATGAAATAATGCTTCTTTGACAGACCATTTAGTTTTTTCTTTCATCTTTAAACAA
Y
GCTGCACTAAAATTTGTCTGTAATGGCATAAAAAAAACCCTGATATTTGCCTTTTCTTCTCCATTCCCCATGCTTGTCAATCGTTACAGAGATTATGCTC
Celera SNP ID:            hCV15823427
SNP Position Genomic:     312095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18552):
GGAAGTCACAGGCAGACAGTGTAGAACATCAGAGGTATCCTAGCTGTGGAAAAGAAGCTTTCATCATTGGCTGAGGACTGATCCCTGGCACATTATCTTC
Y
GCACTTCCAGGCTGCTCCTGAAGCAGGCTGAGAAAGCCCTGGGGAGACTGCATAGGATGGCCTACCTCTAGTGAGAAACACTGAGTGCCACACTGGTTGT
Celera SNP ID:            hCV11238491
SNP Position Genomic:     464886
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18553):
TGAAATAGTCCTCAGCTCTGGGTCAAACTCTCTGGCTTCTATTTTCAGGCCCTGCCACTTGGGCAAACATTCCTTCTCTGTGGAAAAGTAGAATGTTGGC
Y
ACAATCTCCTAAAGTCATTCTAGCTTTGATAGGGTGTGATTGTAGGAGCCTGCAAAGGAATCTAGAATCATTGTAGGTTTCCTAATGTCTGTAGCTCTAT
Celera SNP ID:            hCV15823428
SNP Position Genomic:     313311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18554):
ATAAAATCATGAATGGGGACTTTGTGAGTCACTTAACATTTGCAAGAAGCATATGAACGTGATTGTTCTTTTAGAGTTTGTTAGGTGGGTGGTGGTAAAG
Y
AATACAATTTTCTAAATGGTAAAATCATGAATCTCATGCATGTCAAAAAATTTATTCAATTCATTAATTAATGAGAATATCAGTAAGATGTTACACCATT
Celera SNP ID:            hCV15817878
SNP Position Genomic:     494475
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,14)      total(C,1|T,14) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18555):
CTTCACAGAGCATTCAATCATGGCAGAAGGCAAAGGGGGAGTGAGGTGTCTTAGATGGCAGGAGCAGGAGCAAAGGGGAGGGGAGATGCCACACACTTTT
M
AACAACCAGATCTCATGAGAACTCGCTAACACAAGAACAGCACCAGGGGGATGGTGCTAAATCATTCATGAGAAACAGCCTGTATAATCCAATCACCTCT
Celera SNP ID:            hCV89606
SNP Position Genomic:     242355
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,6)   total(A,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18556):
ATTCTCAAGAAATGCTAGCTAATATTGAAATATGAAATAATACTTCTTTGGTCCAAAGATGTTTAAGCATTCCTATTTGGTAAAGAGAAGGAGCAAAAGA
M
CAAGAGAAAAATTAGATAATTGGTACAGTATGAACAGAGTATTTGGCTTTGGAAAGGAGGGTGGGCAGTTCTTTCACTGGGACAGGAGCTCAGAATGACT
Celera SNP ID:            hCV268551
SNP Position Genomic:     25162
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18557):
CAGACTCCACAGCCAATGCCTTTCTGTACCCTACACCGTCCATCATGGATTTAGGTAGCCTGGGGACCTGAACTCCCCACTAGGTTTAAGGTCTAATTCT
Y
GAATGAAACCTCACGCATTTCTCTTAGGTTCAGGGACAATCAGATTGTCAGAGTAGAAAGAGACTTTGGATTCAACATTTGCTAACCCACTGGCTTCCTA
Celera SNP ID:            hCV26470740
SNP Position Genomic:     387508
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18558):
TTTTCTATGTGTTGTGGTAGACCACAACATCATATAAGGGTTGTTCTAGATTCAGCAACATTCAATTAATATTTTCTGAACATGTACTATGTTCCATACA
Y
TATGTTATGCATTAATGTTAGCATCAAAAAGATCTACCCTGACCTTACAAAGCCTACATTCTAAAGGACACTGACGATTAACTTGAATTATAAGGTGTTA
Celera SNP ID:            hCV26470741
SNP Position Genomic:     391696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18559):
ATCCTCGAGGCAAGAGAGTAACTTATTTTTAAGAAGAAGCTCTAAAATTCTATACATATTGGACTTTATATAAAAAAAAGAATAGTTAAAAGAACTATTC
T
TTTTTTTTTTTTTTTTGAGATGGAGTCTCACTTTGTTGCCCAGGCTGGAGTGGAGTGGCACCATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAG
Celera SNP ID:            hCV26470742
SNP Position Genomic:     392188
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18560):
ACCAACAACATGTGGGAGTCCTAGTTGCTCCCTATCTTTCCCAGTATGTGGTATCATTAGCCTTTTTATTTTTAGCCATTCTTATAGGTGTTATGTGTTT
W
TATTTTTCAAAGTACAGTTCTGAAGAGTTACAAGAAAAATCCTGACTCCTCTCCTAATGGCCACTATTCTTTTGCCCTCCCTGCTTCTTCTTGCCTTAAG
Celera SNP ID:            hCV26470743
SNP Position Genomic:     396576
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,8)   total(A,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18561):
TATAATAGGCCTCATTATGGTACATATGATAAATTATCTTGTCCAATTAATTTATGCCACTTTAGACTAAGGACTGTCATATATATACATATATATACAC
H
CATATATATACACACATACATATATATGCACATATATATATATAGTTTCTTTAGGTCTTACCAAAGTATTAAATACTTTTTGAACAAATAACGTATTTTG
Celera SNP ID:            hCV26470671
SNP Position Genomic:     174974
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|T,2|-,7)   total(A,2|C,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18562):
CTAATCTGCTTTTCATGGGAATAATGTTGCTGTCTTCTCTTCTCTTCTCTTGGAAGGAGAACAGGATGTCATTTCTCATGTCCTGAAATGGACAAAGGAG
A
AAAAACATACCTAGCTTCAACTGGATTTCTGGCATTTGTTAATCTTTTCCATTTTAAGGAAAAATATGATCTGGCATAATTATAATGAGTAAGGTAATCT
Celera SNP ID:            hCV26470744
SNP Position Genomic:     397666
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,10)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18563):
CTCCCTTCTCTCTGAAAAGCATTTCACCTCTATGGGAGTGGGTGATACTGGATTTCATCTAAAAATATTATAGAGGTCAGCAACACTAGAGAACATTATA
T
TATATATATATATATATATTATGATTTGTTGCTGTTGGATTCAAAATTTGAGAATCCCCTGGAGGGTAGTTTGATTTGACCAGTTTGATTGGACACTTTG
Celera SNP ID:            hCV26470672
SNP Position Genomic:     200065
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18564):
TACTAACCTAAGTAAAACAATTGCCTTTTAAAGTTACTCCTAAGAATGTTGTGCCAAAACTTTGAGGTTTCTTGTCAATTATTTGGCTGGCATTTATTCT
Y
CCCTCCTGAAACCGTGAAGAATGGCTTCAGCTTGTATCTAGTCTGTTTTACCAGCTTACAGGAGAGTGCCTTCTGGCACAAATAGTTTCTGCCTCAGTGC
Celera SNP ID:            hCV26470745
SNP Position Genomic:     399278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18565):
CCCTTCTCTCTGAAAAGCATTTCACCTCTATGGGAGTGGGTGATACTGGATTTCATCTAAAAATATTATAGAGGTCAGCAACACTAGAGAACATTATATT
A
TATATATATATATATATTATGATTTGTTGCTGTTGGATTCAAAATTTGAGAATCCCCTGGAGGGTAGTTTGATTTGACCAGTTTGATTGGACACTTTGTG
Celera SNP ID:            hCV26470673
SNP Position Genomic:     200067
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18566):
ATTATGATGTTAGCTGGTTATTTTGATCGTTAGTTGATGCAGTTTCTTCCTAGCCTCGATGGTCTTTACAATTTGGCATGATTTTGCAGTGGCTGCTACC
R
GTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCATTTGCTTGTCTGTAAAGTATTTTATT
Celera SNP ID:            hCV26470746
SNP Position Genomic:     404621
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18567):
TGGGTTTTTGGTGTGGATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGACAGGACCCTCAGCTGCAGGTCTGTTGGAGTTTGCTAGAGGTCCACTCC
Y
GACCCTGTTTGCCTGGGTATCAGCAGCGGTGGCTGCAGAACAGCGGATTTTCGTGAACTGCGAATGCTGCTGTCTGATCCTTCCTCTGGAATTTTTGTCT
Celera SNP ID:            hCV26470747
SNP Position Genomic:     405748
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,14)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18568):
TTGAGGGTTTTCTTTTTTTGTTTCATTTTGTTTTTGTTTTTCTGAGGCAGAGTTTTGCTCTTGTTGCCCAGGCTGCAGTGCAAATGGCATGAGTTCGGCT
M
ACTGCTACCTCCGCCTCCCGGGTTCAAGCGATTCTCCGGTCTCAGCCTCCTGAGTGGCTGGGATTACAGGCACCCGCCACCACGTCCAGCTAATTTTTTG
Celera SNP ID:            hCV26470675
SNP Position Genomic:     203953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,3)      total(A,3|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18569):
GCAGCGGTGGCTGCAGAACAGCGGATTTTCGTGAACTGCGAATGCTGCTGTCTGATCCTTCCTCTGGAATTTTTGTCTCAGAGGAGTACCCGGCTGTGTG
W
GGTGTCAGTCTGCCCCTACTGGGGGGTGCCTCCCAGTTAGGCTGCTGGGGGGTCAGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGCCCATTCTCAGAT
Celera SNP ID:            hCV26470748
SNP Position Genomic:     405871
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,15)   total(A,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18570):
CAGCAATTGCTTCTGAGTTTCTGCAGACTGATATTTGTTTTCCTTTTTTTTTTTTTTTTTTAAACTATGCAGCTCTGATGTTGAGGAGTATGAAAAGAGC
T
TTTTTTTTTTTTTTTTTTTGCAAGAGAAATAAGGATCTCAATATAGGTTTGCAGAGGCCAGCAGGGATGTATCTTTAGGATGGGTTTACCTCATATCTGT
Celera SNP ID:            hCV26470676
SNP Position Genomic:     208868
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18571):
GCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTCGAGCTTCCCGGCTGCTTTTTTTACCTAAGCAAGCCTGGGCAATGGTGGGCGCCCCTCCCCCAGCCTC
R
CTGCCGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATCAGTGAGACTCCGTGGGCATAGTACCTTCCAAGCCATGTGCGGGATATAATCTCCTGG
Celera SNP ID:            hCV26470749
SNP Position Genomic:     406209
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18572):
AGCAATTGCTTCTGAGTTTCTGCAGACTGATATTTGTTTTCCTTTTTTTTTTTTTTTTTTAAACTATGCAGCTCTGATGTTGAGGAGTATGAAAAGAGCT
T
TTTTTTTTTTTTTTTTTTGCAAGAGAAATAAGGATCTCAATATAGGTTTGCAGAGGCCAGCAGGGATGTATCTTTAGGATGGGTTTACCTCATATCTGTG
Celera SNP ID:            hCV26470677
SNP Position Genomic:     208869
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18573):
GTATTTAAAATACTGCTCATTGCAATCCTTTTGAAAAGAGATTCTGATGCTCGTAAATACTCCAAAAAGGCATTAAGGTGTTACACTGATTTTTATTTTT
W
TTTTATTTTATTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTGAGATGCAGTTTTGCTCTTGTTGCCCAGGCTAGAGTGCAGCAGTGAG
Celera SNP ID:            hCV26470678
SNP Position Genomic:     211542
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,5)   total(A,3|-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18574):
CTCATTGCAATCCTTTTGAAAAGAGATTCTGATGCTCGTAAATACTCCAAAAAGGCATTAAGGTGTTACACTGATTTTTATTTTTATTTTATTTTATTTT
W
TTTATTTATTTATTTATTTATTTATTTATTTATTTATTGAGATGCAGTTTTGCTCTTGTTGCCCAGGCTAGAGTGCAGCAGTGAGATCTTGGCTCACCAC
Celera SNP ID:            hCV26470679
SNP Position Genomic:     211557
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,7)   total(A,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18575):
GGGGGGGTTGGTAAAATTATCAAAAACAGATGACAGCTGAGAAGGCCTCAATGGAGGAGTCTGACAGGCAAAGAGGAGAGAACACACCTGGTGGAGGGAG
M
AAGGACACCCATTTGGATTATACTCTATTTAGGAGACTATACAGCAGGTAACACTGACTTAGCCCTATCACTGCTACCACCACTTCTTTCTCTCCTTCCC
Celera SNP ID:            hCV27477749
SNP Position Genomic:     145475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18576):
TTTATTACTACCTCAATTTCAGAACTCATTATTGTTCTATTCAGAGATCCAGTTTATTCCTGGTTCAGTCTTGGGAGGGTGTATGTATCCAGGAATTTAT
Y
CATTTCTTCTAGATTTTTTAGTTTATGCGCATAGAAGGTTCATAATATTCTCTGATGGTTGTTTGTATTTCTGTGGAGTCAGGGGTAATATCCCCCTTAT
Celera SNP ID:            hCV114298
SNP Position Genomic:     362995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18577):
ATGTCAGTATTTTTTAACACTATCAGACAATGAGAATATTCCTGGCCAGGTCCACTTAGTGATTTCTTCATTGAAGGATACAATTTAGAAGATTGGAGGA
R
CAATTATAAAAGAAAGTAATACAATTTAGAAGATTGGGGGAGCAATTATAAAGGAAAGTAGCTGTAGGTCTCCAAAAGTTAAAGTCCCTTAATCCCAGTT
Celera SNP ID:            hCV26470750
SNP Position Genomic:     409228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18578):
TCAAATAATATTTTTGAATGCATAAAATAAAATGCATAGTATTACAAGGATATGAATTTTATTAAAATATAGTTACCAAAAATTTTAAGCTAAATTTGCA
R
TATAGTTATATATGTGGTTTTCCAAATGAATTAAACAAGATCTTGAAGGATTATTTAATTATGACTATGATATCAAAGTAATGATGAACATAAAGAATAC
Celera SNP ID:            hCV26470751
SNP Position Genomic:     412338
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18579):
ATTGCTTGAGCCTGGGAAGCCAAAGCTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGGCTTGGTGACAGAGTGAGACCCTATCTCAAAACACACACA
Y
ACACACACACACACACACACAAATTGTGTTGTTCAAGTCAGTGACTTTGTGGTAATTTGTGACAGCAGCAATAGGAAACTAATACACAATTAGACATCTA
Celera SNP ID:            hCV26470752
SNP Position Genomic:     417106
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18580):
GAATAGTGCAGCAGCTTTTAGTCATTCTTTTACAACTGCTGTACACATTGCAGCCAGAAAAGACATTTTAGTTGTCAGGTAGTCAATAAATATTTATTAC
M
TGCTTCCTGTATACTGGTTCTCCACTGGGAACTGTTCCTAAAGGTTTGTTTTCTTGTTACTTTTCTTGTCCCTGTGTTCCTCATAACTCAAAACTGCTGA
Celera SNP ID:            hCV26470680
SNP Position Genomic:     218636
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18581):
GACATTGCAAACATTGGACTGCCTGAAAACATAGGTTTGTCTCAGAACAGAATACCTCTGTGCACACACACAGAATGATAGGTCTGGAAAGGGATCTCCA
R
TGGCTACTCATTCTGTTCCTGTCTCCAGGTACGATGGTGGCTAAACCATAGTAGGAGTGCAGTGACAAGATGGTTAGATCCACAGAGGCTCCTGCATGTG
Celera SNP ID:            hCV26470753
SNP Position Genomic:     420237
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18582):
ATTACAAGAGTTTAACACATTTTCTAAGACACCAAGTGAGTAATGTAGATACTGAGGAGATATTCAGTAGAAAAAGCCAAATCACTAATAATAGCATATT
Y
TCAATATACAGGCAATTTCTCAGTTGAAAAGCTTAGCTATTATTGCTATGGCCATGGCTTCAAAGCTGTGAGGTTCGCTTTTTATTTATATTGGCAATTT
Celera SNP ID:            hCV26470681
SNP Position Genomic:     221287
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18583):
AACCCTGAGCAGATATTAACTAATCCTATGATCTGACCATAAGAGGTTACCTTGGAGCATTCCTCTACATTGCATTATGTATATTACATGGTAATGAATG
W
CAGTTTTCATGGCTCCTAATAATGAGCAGCTTCTCTTTATTTAGAGAACAAAATAGGGGGTTTACAGATAATATCTGAGTTTATCATTGAGCTGCTCAGC
Celera SNP ID:            hCV26470754
SNP Position Genomic:     421493
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18584):
TGGTGAAGGTGAGGGTAAAGGGAAGAAGAGTTGAGGCTGAATTAATGAGCTTATTTCTTTTGCATATGGCATGTAGGAGAGGAAAAGGATTCCTAGGTTT
M
TCATAGTCAAGAATGTACTGATTATATGCATTTGCTTCATTAATGAATACAGTGCTATTTTGTTTAGTGTTTCAGGAAATGCTTTGATTCCAGCATTGTT
Celera SNP ID:            hCV26470682
SNP Position Genomic:     224576
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18585):
TCAGATATTTGTAGGTGTTCAGCCTTATTTCTGGGCTCCCTACTCTGTTCCATTGGTCTTGTGTCTATTTTTGTACCAATACCATGCTGTTTTGATTACC
R
TAATCCTGTAGTATAATTTGAAGTTGGGTAACGTGATGCCTCCAGCTTTGTTCTTCTTGCTTAGGATTGCCTTGGCTATTTGGGCTATTTTGGGGTTCCA
Celera SNP ID:            hCV26470755
SNP Position Genomic:     424860
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18586):
TTTGGATGATTTGACTTACCCTTCCTTTTTAAAATTCAGACTCTAAATTTAAGGCTATACATCACCATAGTGTTTATGAAGTGAATTAAATCTTACAGAA
Y
GTTCCAGTGCAATCTGAAACTACAGCAACTACTTGAGGTTTTATGTCTGAAAAGTGTTTTAATCAGTGATGGATTTGGAATTATTGCAGCTGATTCCTGA
Celera SNP ID:            hCV26470683
SNP Position Genomic:     227720
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18587):
GATATAGAAGAATATACAAAATATGGGTGGTGATGATCATAACTACCATTTATAAACCACATGTTGTCTGTCAGGCACAGTACAGTGCTTTATATATATA
T
TTTTTTGGTATGATTATCAGAAGGAATATAAAGATTAAAAGGTGCTGCATTACTTAAATAGGTTCCCTTAAACCTGGAAAGAATAAAATCCTGGTCACAA
Celera SNP ID:            hCV26470684
SNP Position Genomic:     231135
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18588):
GAAATTCTAGATTTTTTCTGAGCCTGAAATATTTCAACAAGAACTTCTTAAAAATTGAGAAACCCTGAATAAGCTGCTGTGTGGTAGCTGTGAGGAAAAG
M
CTGGTAGACTGTGGGTGAATGAGAGTGCAGACGGGGGGTGGTTCAAGGTGAGGTAAGGAGCTGAAACCTAAGACAGAATTGGGAACAAAAACTTGTCCCT
Celera SNP ID:            hCV26470757
SNP Position Genomic:     428991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18589):
ATATCTTTCTAATAATTTGCCACAGGTGCTCAAATGCCTGGGAGCTAGAATTTCAAGGATTCAAATTGCTACTGTGATAGCTTCAGGCTTTGCTTCCAGG
T
TTTTTTTTTTTTTTTTTTTTTTTTAAGCAGGCTGTGGCACATGTTTTTAAGAATTTAAGTCTGTTTATTGGTGATGCTGCAGTTTGCTTGATTACAGTTT
Celera SNP ID:            hCV26470685
SNP Position Genomic:     232500
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18590):
CAAATGCTGAATAAGCAGGATCCATGTCTGTAGGAAGAGTAAGATAATGCCAATGAGGTTTATTAACTATAATGCAAGACACAACTGTAAGTTATGATTA
M
TTTAGTAACGACATCACTCATTGAGCTGTCCTCTTTCATTGCATATTGTGTTGTTTTAAAAATCATATTTTAGTTTATGTCATCTTTTCTATAATAGTTC
Celera SNP ID:            hCV26470758
SNP Position Genomic:     434031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18591):
TATCTTTCTAATAATTTGCCACAGGTGCTCAAATGCCTGGGAGCTAGAATTTCAAGGATTCAAATTGCTACTGTGATAGCTTCAGGCTTTGCTTCCAGGT
T
TTTTTTTTTTTTTTTTTTTTTTTAAGCAGGCTGTGGCACATGTTTTTAAGAATTTAAGTCTGTTTATTGGTGATGCTGCAGTTTGCTTGATTACAGTTTA
Celera SNP ID:            hCV26470686
SNP Position Genomic:     232501
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18592):
GGTTAGCTTAATAATCGTGAAGATAAGAATAAAGACTTCATCACAGAAAACTAAATAAAGCTACATTAAAATTTCTAAGAAAAATATCTAAAATTACTTG
A
AAAGCCAGTGGAGTATAAAGAAGAAGGATTTCAAAATATGTTTTCTCCTTGTCAGCCATGTGAGATTTTTCTCTCTCTGCTTTAAATAATTAGGAAATGT
Celera SNP ID:            hCV26470759
SNP Position Genomic:     436606
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,9)   total(A,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18593):
ATGAATTACATGGATTGCTTAGTTAATTTAATTTTCAGATTACTCTTTGCTATTGTTTTGCTTTTGCATCGTTCATTGCTGCTGCACAATTGATTTTTGT
R
TGCTGATCTTTTATCTGCTAACCTTGATGAACTTCTTAATTAGTTCTAATCGTTTTGTGTGTGTATGTGTGTTCCTTAGGATTTTCTATATGTAAGATCA
Celera SNP ID:            hCV26470687
SNP Position Genomic:     237117
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18594):
TGTTGAATCCCAGACATCACGTAAGGTAATATGAATAATAAATATTTAGATTGTCTTCCTACATGTTGCAAGGTAATTTTTGGTCATTAATCACTCCACT
R
GCTCAGTGGGAAAAATTAACACCAAAGAAGTAATAACAACTAATTTTTACTAAGTAATTACTATGTGCCAAACACTGTCTTAAATCCTTTATGTATACTA
Celera SNP ID:            hCV26470688
SNP Position Genomic:     238546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18595):
CCACACCTGGCTAATTTTTCTGTATTTTTAGTAGAGATGGGGTTTCCCCATGTTGGCCAGGATGGTCTTGATATCTTGACCTCATGATCCACCTGCCTCA
G
CCTCCCAATGTGCTGGGACTACAGGCATGAGCCACCATGCCCGGCTTGCAGTCTACTTTTTAGAAATGTTCATAGAGGGTATACTCAGATGGTACTAATC
Celera SNP ID:            hCV26470689
SNP Position Genomic:     239187
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18596):
TACAGAAATAGTTCATTGATTATTATAAATATCATGTTTGAAAAACTTTTAAAAATGAAGTTACACACAGATATTGTTTAATACCTTTAGCACTATACTG
Y
GAAGTGCACTGCAGAAATAAAGCCATTGTTTATTTAGATGGGTCAGTGATTCCAGACTCACTACTCCTCACACAAGATTTTATCTGAGATACCCTGATCA
Celera SNP ID:            hCV182569
SNP Position Genomic:     442208
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18597):
TGCTGTGAGGGACAGTCCCTCCTGGTCCATTGAGTCCCTGGATGCCAGAACATTAAGAATACAGAAAATAAGAGAATATAGTTAATACATTGTATACCAA
Y
GCCAGGAAAGATTCTGATTTGCCTTACTTGAGTCATTCCAGCTCTGTAGTTTAGGTGCAGAGTACAGGGTGAGGAATGGTATTGTGATTGACAGTCAACC
Celera SNP ID:            hCV15808208
SNP Position Genomic:     27387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18598):
AAGGCATAGCAAGTTGTCAGGCTGCAGATAATATTTTAAGGAAGGAGCGAACAGAATCTGATGGTGGATTGCATATGGAGTATGAGAGAAATAGAGGAGT
Y
AAGCATAAACTGACAGTTTGGGGCCCAAACAACTGAAATGAGGGGAGTTAGGCAGGGGGAAAAGGGGGAGATAAGGAGTATGGGTTTGAACCTGTTAAGT
Celera SNP ID:            hCV367347
SNP Position Genomic:     414946
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18599):
AACAAGCCAGACGTGGTGGTGCACATCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGAAGGATTGCGTGAGCCCAGGGTTTGTGATCAGCCTGAGCAA
Y
GTAGCAAGACCCCATTTCAAAAAAATTAGAAAAATTGTGCTTAAGTAGCCTTTTGGTCCTGATTTGCTTGAGAGTCCAGCTTGTACCCATTGTCCTGACA
Celera SNP ID:            hCV367348
SNP Position Genomic:     411674
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18600):
ATCAGATTATGAATTGCAGTGAAATAAACTTACTTTTATTTTTAAAATACAACCACCATTAACAGCTCCCCAGTTAGAACAACTGAATGTCAAATAATTG
Y
ATTCTCAAATTTAAACTAGAAAATAGTAGAGCTTGAGGAAGGGGAGTGGAAACTCAATAGTGACACATTGAGATGGGTTAGAAGGTATTCAGTTCTCCAT
Celera SNP ID:            hCV367349
SNP Position Genomic:     410516
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18601):
TCCTGCCCTAGATCTGAAATCAGCTATCTCTTCAAAGAATCCAATTTATTTTCCTAGGTCATAGTATTTAGAGGCCACAGTCTGAACAGTAAGTGTGTGT
R
TTGCTACTGGATTGTTCATTGTTTCTAGGTCTTTTCAGCAGACAGGACTAGGAAACACTTTTTTTCTCCAACATGAAATTATATTACTAATTATATGATA
Celera SNP ID:            hCV26470760
SNP Position Genomic:     439352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18602):
TCTTTTTGTTTTTAGTATGTATATTCTACTAGAGATGTACAAATTTCTGTTAACCTATGATGCATATTACTCTAAATATGATATCATTTCCATTTCTCTC
Y
CTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCTCTCTCCTTTTTTAGAGATGGGATCTCACCCAGGCTGGAGTGCAAAAGTACATTCATAGCT
Celera SNP ID:            hCV26470761
SNP Position Genomic:     439764
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4|-,8)   total(C,4|-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18603):
CTTTTTGTTTTTAGTATGTATATTCTACTAGAGATGTACAAATTTCTGTTAACCTATGATGCATATTACTCTAAATATGATATCATTTCCATTTCTCTCT
C
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCTCTCTCCTTTTTTAGAGATGGGATCTCACCCAGGCTGGAGTGCAAAAGTACATTCATAGCTC
Celera SNP ID:            hCV26470762
SNP Position Genomic:     439765
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18604):
CCAGTTAGCAATAAGCCCAGATTTGAACCCAAGCAGTCTTGTTCCAGACCTTCTGTTTTTAACAATTCTACATTGCAGTTTCTCTAAGTAAATAGTCACC
Y
GAAATATGGCTACAACAATACAGTCACACCAAGAATGTAGTTAGAGATAAGAATGCATCATTGTGTTTGTGCATGTGGAGACTGGAGCTGCTTCTATAGG
Celera SNP ID:            hCV26470690
SNP Position Genomic:     239601
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18605):
GAAGTCTCAGATGTGAGCAAATAAAGTCTGACTCTAATTAGACATACTTAATCTGCTCGTTGAAACTTGGAGTCAAATAAGTCTTAGAGTGACATTTCAG
T
CTTAGAGTAACATTTCACTGATTTCTTATAAGAGCTTTGCTAAAAAATATGCTTATCAATTTAATCAATTATAGGATTCTAGAAATCACAGGAAAAACAT
Celera SNP ID:            hCV26470763
SNP Position Genomic:     441345
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18606):
GGTGCCCATCAATGGTGGGCTGGCTAAAAAACAAATATATGGTCATATATATATATATATATATATATATATATATATATATATATATATATATATACAT
M
CCATGGAATACTACCCAGCCATAGAAAAGAATGAAATCATGTCCTTTGCAGCAAGATGGGCACAACTGAAGGCCATTATCCTAAGTGAATTAATACAGAA
Celera SNP ID:            hCV26470691
SNP Position Genomic:     241543
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|-,5)   total(A,1|C,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18607):
AAGTCTCAGATGTGAGCAAATAAAGTCTGACTCTAATTAGACATACTTAATCTGCTCGTTGAAACTTGGAGTCAAATAAGTCTTAGAGTGACATTTCAGT
C
TTAGAGTAACATTTCACTGATTTCTTATAAGAGCTTTGCTAAAAAATATGCTTATCAATTTAATCAATTATAGGATTCTAGAAATCACAGGAAAAACATC
Celera SNP ID:            hCV26470764
SNP Position Genomic:     441346
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,9)   total(C,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18608):
TATTGTGTTAATTATCTTATTTAATCCTTTCAAAGCTTAGTGAATTTGCATATATTTTCTGTATTAGTCCATTCTCACATTGCTATAAAGAAATACCTAA
R
ACTGGGTAATTTATAAGAAAAGAGGTTTAATTGGTTCACAGTTCTGCAGGCTGTACAGGAAGCATGGCGGCATCTGCTTCTGGGAAGGCTTCACAGAGCA
Celera SNP ID:            hCV26470692
SNP Position Genomic:     242166
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18609):
AGTCTCAGATGTGAGCAAATAAAGTCTGACTCTAATTAGACATACTTAATCTGCTCGTTGAAACTTGGAGTCAAATAAGTCTTAGAGTGACATTTCAGTC
T
TAGAGTAACATTTCACTGATTTCTTATAAGAGCTTTGCTAAAAAATATGCTTATCAATTTAATCAATTATAGGATTCTAGAAATCACAGGAAAAACATCA
Celera SNP ID:            hCV26470765
SNP Position Genomic:     441347
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18610):
TCAGACAACATTCAAGAGCCTACTGAAATGGCACCTTCCCTGAGAAGCCTCTCTTAATTACACACCCATATACAATGTTTCTCTCTTCAGAACTTCCATA
K
GTCTCTTTTTTATGCTTTCCATAAAATTTGTCACAAATCCCATACCTTATTTATGTGCATATAGGAGCATCTAATGGGAACTCAAAATTGCTTTAAAGAA
Celera SNP ID:            hCV26470693
SNP Position Genomic:     257661
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,12)   total(G,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18611):
TCTCAGATGTGAGCAAATAAAGTCTGACTCTAATTAGACATACTTAATCTGCTCGTTGAAACTTGGAGTCAAATAAGTCTTAGAGTGACATTTCAGTCTT
A
GAGTAACATTTCACTGATTTCTTATAAGAGCTTTGCTAAAAAATATGCTTATCAATTTAATCAATTATAGGATTCTAGAAATCACAGGAAAAACATCACA
Celera SNP ID:            hCV26470766
SNP Position Genomic:     441349
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,9)   total(A,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18612):
TTATTTATGTGCATATAGGAGCATCTAATGGGAACTCAAAATTGCTTTAAAGAACATAAATGAATGAATGAACATGAATGAGCTAATGAATGAAAGAAAA
R
TTATGCCTTCTGCACCAGCAGAAGCTAATGACTAAAATAAAATGGTTAAACTGGACTAGAAATTTAAGATTGTTATGGGTTTCTAGTCTAGGAAACACCC
Celera SNP ID:            hCV26470694
SNP Position Genomic:     257808
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18613):
CTCAGATGTGAGCAAATAAAGTCTGACTCTAATTAGACATACTTAATCTGCTCGTTGAAACTTGGAGTCAAATAAGTCTTAGAGTGACATTTCAGTCTTA
G
AGTAACATTTCACTGATTTCTTATAAGAGCTTTGCTAAAAAATATGCTTATCAATTTAATCAATTATAGGATTCTAGAAATCACAGGAAAAACATCACAA
Celera SNP ID:            hCV26470767
SNP Position Genomic:     441350
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,9)   total(G,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18614):
AAAGAATTATGGTGAATTGTGTTTTTTAAAAATAGACTTCTAGGGCAGAGTAGGGGAAAAACATAGGGAACCGTTAATTAAGGTATCAGGGCTTGAGAAC
K
TTTTTGTCTGCCCAAGACCCTTCCTTTGGAAACAGCACCTCTCCCAACATTTGTGCTCCTAGTGGACTGGTAACTTGCACTCCTAAGAACTGGAATCTTG
Celera SNP ID:            hCV26470695
SNP Position Genomic:     259018
SNP Source:               Celera
Population(Allele,Count): no_pop(G,7|T,7|-,8)   total(G,7|-,8|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18615):
TCAGATGTGAGCAAATAAAGTCTGACTCTAATTAGACATACTTAATCTGCTCGTTGAAACTTGGAGTCAAATAAGTCTTAGAGTGACATTTCAGTCTTAG
A
GTAACATTTCACTGATTTCTTATAAGAGCTTTGCTAAAAAATATGCTTATCAATTTAATCAATTATAGGATTCTAGAAATCACAGGAAAAACATCACAAT
Celera SNP ID:            hCV26470768
SNP Position Genomic:     441351
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,9)   total(A,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18616):
CACAGGTTTTTAACATTTTTACTGATGGTTCCCAAGGCTCCACCTGTCCCTTCATTCTATTCTATACTGCCTCTTTATTGGATTTCTCCCCCACTGCAAC
K
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTGTGTGTGTGAGGAGAGAGAGACGAGAGAGAGAGGAGAGAGGGAGAAGAGAGAGAGAAGAGAGA
Celera SNP ID:            hCV26470696
SNP Position Genomic:     269068
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,3)   total(G,1|-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18617):
CACAGTTTCCTCTGAAACTTCCCCTTTAGGAGGGATGGAAACCACAGGATGGGCATTCTGGTAAATGCTCAACATAGATACCTATGGACTGGGTAGCAGG
Y
GACCCCTAGGAAAACCTCAAATATCCTATAAGGTCCTAATAAGGGCCAGTTATTCTAAGCAAAGGAGCTTCTGTGAGTCATAGTGCAATCCATAGATATG
Celera SNP ID:            hCV422205
SNP Position Genomic:     351805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18618):
AGATGTGAGCAAATAAAGTCTGACTCTAATTAGACATACTTAATCTGCTCGTTGAAACTTGGAGTCAAATAAGTCTTAGAGTGACATTTCAGTCTTAGAG
T
AACATTTCACTGATTTCTTATAAGAGCTTTGCTAAAAAATATGCTTATCAATTTAATCAATTATAGGATTCTAGAAATCACAGGAAAAACATCACAATTA
Celera SNP ID:            hCV26470769
SNP Position Genomic:     441353
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18619):
TAACCTACACAGTACATGACTAGAAGCACTTTGCCTGATTTTCTTGTTGGAAGAATGGGATCTGCCTGCAATATGGAAACCCTCACAAACAAGATGACTC
R
ATTCTGTTTTCATTTGCAAGATATATTGTGAATGTTCTTTTCTCCTTTTTGCAGGAGAGGGAAAGGGTTTAGGGTTGTGGGTGTGGCAGGGCATAGAAGG
Celera SNP ID:            hCV422206
SNP Position Genomic:     425201
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18620):
TAATATTTTAGCGATCCACGTGCTTTTTACCCACCAGAAGGTTCCCCTGGGTAAGTAAAGAGGTGGAGCAGGAGAGAGCAGGTTTGCACCGAAAGTAGTT
M
CAAAACAAAACAAAACATATAAGACATCAACCACAAGAAGCCCTTGCTCCAAAATGCAAATGACTTATTTGCTACTTCAAAAATGCACCTCATCAATGAA
Celera SNP ID:            hCV26470698
SNP Position Genomic:     272170
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|-,3)   total(A,2|C,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18621):
GCCCAGAAGCAGCATCGTTCATAAGGTAAGGGCACAGGCTGTAGTATCGGCCAGACCTTTGGTCGAGTTCTGGCTGTGCAGCTTGACTGTGTGATGTCAA
R
TAAGTTCTCAGAGCCTCCCTTTCCCCATCTGTAAAGTGATGATAACGGTGCCCACCCATTAGCTGGTGCTGTGAGGATCGGATGAGCTACCGCATGCAAA
Celera SNP ID:            hCV26470699
SNP Position Genomic:     272926
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,16)      total(G,16|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18622):
AAAATAAAATTTCTGTTTTAATAGAGCACAATGAATACTAGTAGGCCAGGTTGTCCACGGAAACCTTAAGCTTTTGTTCAAGGTATAATCTGATGATTTC
Y
AAAACTGGGATAATAGTCCTCACCTTGTATTTGTTTACCCATCTGTATCCCTCCACTCTTTCTAAATTATAAGCTCCTCACTCCCAGAGATTCTGATTTA
Celera SNP ID:            hCV422208
SNP Position Genomic:     427354
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,8|C,11)      total(C,11|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18623):
CTCCACCTCCTGGCCTTAAGCAATCTTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTATGAGTGTGCACCACCATGCCTGGCTAACTTTTGTATTTTTTA
Y
AGAGACAGAGTTTCGCCATGTTGCCCAGGCTGGTCTCCAACTCCTGGGCTCAAGTGATCTGCCTGCCTTGGCTTCCCAAAATGCTGGGATTATAGGCATG
Celera SNP ID:            hCV422209
SNP Position Genomic:     428103
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,7)      total(C,7|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18624):
ATCCTGAACCTACTTCTCTTCTTCCTGACTTCCAGACCCTTGACCCTTCCCCACCCTTCACTGGCCCTGCTCCATCCCATTCCTGCTTCTAGCCATAATC
M
ATTTCAAGGGTGTTCTTAATAGCTACGGTGCACTTTCATTCTCCATGCTCTGCTAGTTTCCCACATTGGCAATGATCTCCACTGTTGGTCTATGCCATAC
Celera SNP ID:            hCV11238802
SNP Position Genomic:     470183
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18625):
ATCCATTTCAAGGGTGTTCTTAATAGCTACGGTGCACTTTCATTCTCCATGCTCTGCTAGTTTCCCACATTGGCAATGATCTCCACTGTTGGTCTATGCC
R
TACAACTCAGAATTGCTTCATTCATCTCAGGCAAACCCCCTTTCAGATTCTCTATAGTGCTGTGTTCTGAACCCTTAACATGCTCTTGAGACCACAGTTC
Celera SNP ID:            hCV11238803
SNP Position Genomic:     470280
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18626):
CCTGAGCTCAGTGTTAAAAACCAAACTGGAGTTTTAGGCATCATTTAGGTTTTCTGATTCTCTTGGTGAGGTACCAGTGTTTTCCTCAATGCCTACCTCA
R
AAACCTTAGCTTTGACTCCCTTCCTTTCCCTTCTATCAAGTCATTTATCTTCTTCTGAAATAGCTCCCAGATTTACTTCTTCCTTACTCATATTAGCTGT
Celera SNP ID:            hCV15808215
SNP Position Genomic:     27872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18627):
ATGCTTTTTATCCATTCAGCTTGATTATATCTTTTAAGTGAAGACTTTAATCTGTTTACATTCAAGGTTATTATTGATAAATGAGGAAATATTCCTGTCA
Y
TTTGTAATATGATTTTTGGTTGTTTTATATATCATTTGTCTCTTTCTTCCTTTTTTATTTTTTATCATTGTGGTTTAGTGGTTTTCTTTAGCGGTAATGT
Celera SNP ID:            hCV15808216
SNP Position Genomic:     43940
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18628):
AATCCTGCTACAATGAGTTTTAAAAAAATAACCAACAACACTTCACTTCAGTCATCTGTGTAATTTTCCTTTAGTTTGGGGCATTTTCTAGGTAAAGTTT
Y
AGCTAAACAATACAGAAAAATTAAAAAGTTCAGAGATCTTTTAATGATATGAAAAACTGTTTCTAATAATAATAAATGTTAAAATCATTTCACTATTCAA
Celera SNP ID:            hCV367350
SNP Position Genomic:     408716
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18629):
TTTTATCATTGTGGTTTAGTGGTTTTCTTTAGCGGTAATGTTTCACTTCTTTTTCTTTCTCATTTGTGTATCTTACTTTTATACTTTCATGTGTTTTTAT
K
ATGGTAGAGATTATCCATTTGCTTTCAGATGTAGGATTCCGTTAAGTATTTCCTGCAGGGCTGATCTAGTGGTGATGAATTCCCTGTTTTTGATTGTCTG
Celera SNP ID:            hCV15808217
SNP Position Genomic:     44100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18630):
TGAGAGAAGGGAAAAAAATCAACCCAAAAGAAGGCAAGAAAGAAAGAAAAAAAAGAAACCTAGAAAACATAATAAACAGATAGAAGCAAAAAAATTCAAC
Y
CTAAACTATTCATAAGAGAAACTCCTAAAAGTATGAGATAGAGAAAGGCTGCCAGTAAAACGATGGGAAAGGACATACCAGGGTAATACTCTGCAAAAAG
Celera SNP ID:            hCV3210938
SNP Position Genomic:     500002
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18631):
ACCTAGAAAACATAATAAACAGATAGAAGCAAAAAAATTCAACTCTAAACTATTCATAAGAGAAACTCCTAAAAGTATGAGATAGAGAAAGGCTGCCAGT
R
AAACGATGGGAAAGGACATACCAGGGTAATACTCTGCAAAAAGAACTAGGTGTGCCTATCTTAATTATTAGGAAAAACTGGACTTCCAGAACAAAAAGCA
Celera SNP ID:            hCV3210939
SNP Position Genomic:     500059
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,12)   total(G,3|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18632):
TAAGGTGTTAAGTCTTTCTGGGAAAGAAATTACATCTAAGCTGAGACCTGAAGACTGAGTGGAAGTAAGCTAAGGAAAATGGAGAGGGAGGGAGGAGGTG
R
GTACTGCACCTTGGCAGAGGGACCTGTGTGTGCAAAGGCAGGAGATGAGACAGAGGAAAGCACACCAGAGAAATGGAAAGGAATTCAGAGTGGCTGCTGC
Celera SNP ID:            hCV11250635
SNP Position Genomic:     391887
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18633):
CATGAAGCAGTGGGTCAGTAGGGAAATTATAAGGAAGACCAAAGAGAATGAAATGGTTACCAAAGTGTACTAATGTGAGAGATACAAAGATGGATGGATA
D
ATGGATGGATGGATGGATGGATGGATGGCAGAGAGAGAGAGAGAGAGGATGAAAATGTCATGCTCATCTGAACCTCATTCTTATCACCCCAGGGAAACTG
Celera SNP ID:            hCV26470770
SNP Position Genomic:     452849
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4|T,4|-,8)   total(G,4|A,4|-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18634):
CAAAAATAAAAGTTGGATAGAAAAAAGAAAGAGGTGTGAGAAAAGACCCCACTGTGACACATAAGTGGCATAGATAACAGTGGAGATTCACTCACATTTG
W
TGAGTATTACCTAGACAGTGGAGATTCACTCACATTTGATGCGTATTACCTAGACAAGGAGGACAATGGCCCCTCTTCCTTTCTGTATTCTTTGTAAAGG
Celera SNP ID:            hCV26470772
SNP Position Genomic:     454639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18635):
AAACCACCAATCAGAATTTGAAATCTTTAAAGTAATCAATTTATCCGCTATTCATTTGCCTTCTACTTTAAATCTAAAGTTTTGTCACAGCCAATATTTA
K
AGTCTCTGACATCACTGGGATCAGAATGGAAATACTAGAATCTGTTTTGTGGTATCCTAAATTCACTGAATTAGTATTTATTGTAGGACTCCCATAGGGT
Celera SNP ID:            hCV26470773
SNP Position Genomic:     454859
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,12)   total(G,3|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18636):
AACAAACAAACAAAAAAGAATTAATAAGAGTTAAAATGTGTTGAACTCCTAATGTGTAGGAAGTACCTAGGCTTTTTGCAGACACTGTTTTATCCATACA
R
CCATCCTATGAAGGAGGTACAATTATCATAATCCCTATTTTGCAGATGAAGAAACAGACTCATAAGGGTTAAATGACTTGCCCAAGACTATACTGCCCTT
Celera SNP ID:            hCV422210
SNP Position Genomic:     429734
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18637):
CACCAATCAGAATTTGAAATCTTTAAAGTAATCAATTTATCCGCTATTCATTTGCCTTCTACTTTAAATCTAAAGTTTTGTCACAGCCAATATTTATAGT
S
TCTGACATCACTGGGATCAGAATGGAAATACTAGAATCTGTTTTGTGGTATCCTAAATTCACTGAATTAGTATTTATTGTAGGACTCCCATAGGGTGTGA
Celera SNP ID:            hCV26470774
SNP Position Genomic:     454863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18638):
TTAAAATGTGTTGAACTCCTAATGTGTAGGAAGTACCTAGGCTTTTTGCAGACACTGTTTTATCCATACAGCCATCCTATGAAGGAGGTACAATTATCAT
R
ATCCCTATTTTGCAGATGAAGAAACAGACTCATAAGGGTTAAATGACTTGCCCAAGACTATACTGCCCTTAGGGCAGGAGTCACCCTGAGAACAGGCCAT
Celera SNP ID:            hCV422211
SNP Position Genomic:     429764
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18639):
ATTTATCCGCTATTCATTTGCCTTCTACTTTAAATCTAAAGTTTTGTCACAGCCAATATTTATAGTCTCTGACATCACTGGGATCAGAATGGAAATACTA
R
AATCTGTTTTGTGGTATCCTAAATTCACTGAATTAGTATTTATTGTAGGACTCCCATAGGGTGTGAGTCTTTACAAATAAAGGTAGGGAATGCCCTTTAT
Celera SNP ID:            hCV26470775
SNP Position Genomic:     454897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,10)      total(G,10|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18640):
TTATCATAATCCCTATTTTGCAGATGAAGAAACAGACTCATAAGGGTTAAATGACTTGCCCAAGACTATACTGCCCTTAGGGCAGGAGTCACCCTGAGAA
S
AGGCCATTTTGGCTTCAAGGCTGGTGGCCCTTTTCTCACAATATGCAACAACACTGAGGGGTCTGGAATGCTGAGAAGCCTCCAAATCTCCGGCAGTGTC
Celera SNP ID:            hCV422212
SNP Position Genomic:     429857
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18641):
GCCTTCTACTTTAAATCTAAAGTTTTGTCACAGCCAATATTTATAGTCTCTGACATCACTGGGATCAGAATGGAAATACTAGAATCTGTTTTGTGGTATC
Y
TAAATTCACTGAATTAGTATTTATTGTAGGACTCCCATAGGGTGTGAGTCTTTACAAATAAAGGTAGGGAATGCCCTTTATTTGTAAGGGCAAATAAGTT
Celera SNP ID:            hCV26470776
SNP Position Genomic:     454916
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18642):
CATTCTTTGTTCTACTCCCTTCTTTAACTCTGAAAGATCAGAAAGGTTTACATAAAGTCAGTAGCTCATTTAGATGACTCTAAATGTTTCCTTGAATGCT
R
TTTTATTTCCTTTAGAGCATTAGAAGACAGAACCAAATTACTGCTGTCTTCCTTTTATTACTTTTGAGTTATCCTTTGATATTTCAAATTTGGGCTATTC
Celera SNP ID:            hCV422213
SNP Position Genomic:     430180
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18643):
AGGTAGGGAATGCCCTTTATTTGTAAGGGCAAATAAGTTCCTCCTTCTCTTGTCAAGGGGATGTGAAAACCTCCTTGCACATTTTTTCTTTTCTTTTTTT
C
TCTTTGCAGAATGAGTGTTCTGAGAAGAACAAAACTCTTTTCTGACAACTCTTATAAAACACTTTTGTGTTTGATTCTCCAACGACTAAGATTTGGACAC
Celera SNP ID:            hCV26470777
SNP Position Genomic:     455078
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,8)   total(C,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18644):
AATTTCAGGTACCTCACTGTGTGCAGTGGCTTACCCCTGTAATCCCAGCACTTTGGGAGGCTGCAAGGTGGGAGAATTGCTTGAGGCCAGGAGTTTAAGA
Y
CAGCCTGGGCAACACAGCAAGACCCCCATCTGTCTCTAAAAAAAAAAAAAAAAGAAAAGGATGAAGAACCATATTTGGGTTCTTCATCTTTTTTCTAAAA
Celera SNP ID:            hCV422214
SNP Position Genomic:     430427
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18645):
AACTCTTTTCTGACAACTCTTATAAAACACTTTTGTGTTTGATTCTCCAACGACTAAGATTTGGACACACAATTCTCCATTCATTTCTCAAGTGTCAAGA
R
AGAATTGAGTTTAAAGGCTCCAATTCCCTTGCAGGTTACACTGTCTATCTAGATGAATTAGTATTCAGCACAGCTTTGGGAAAATCTCAAATGATTTGCA
Celera SNP ID:            hCV26470778
SNP Position Genomic:     455211
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18646):
CCTATCCCCATGTCCTCCCCTGCTCAGCAAACCAGCCCACTCTCCATCCATTTTCATTCTTTATTTTCTGTTCCTATAGCATGTGTTCCTCTTCTTATCC
M
GGGCTATGTTCTGAGTCCGGTCCCCCTCTATGCCCTCAAGCAACTCAAACTGGCAATTATTTATATCCTATTGCTTCAATTCTCTCTCTTCTCTAAACTT
Celera SNP ID:            hCV26470779
SNP Position Genomic:     455609
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18647):
GATGTACTACTAATGAATAAATGTTTCTAGGCAATGGAAAACTGAAAATAGAATCCTACCTCACACCCAACACAAAAATCATTTCCTATTCTGGATGGGT
R
GAGAACTTAAAAATGAAAATAAAATATTTTTAAAATTTAGAATAGAATTTCAGAGAATATCTTTGTAATATTAGGGTAAGGAAGGACTTCTTAAGACATA
Celera SNP ID:            hCV27941480
SNP Position Genomic:     502045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18648):
CAGTTTTTGGCATTTATGAGTAGAGCTACTATGTACGTACTTATACAAGTGTGCAAGTTTTATTTTCTTTCTTGGAAAAATATCTAGGAGTGGGATTGCC
R
GGTCACAGGTTAAATATATGTTTAACTTTCTAAGAAGCTGTCAAACTATTTTCCAAAGTGGTTTTTACCCCTTTTCATTCTTCACATCCCACCAGCAGTG
Celera SNP ID:            hCV8295205
SNP Position Genomic:     471489
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18649):
ACTTTGATCTTCTTATACCAGTTTGCCAGATGTAGCAGAAAGAGCATGTATGTGACCTTTCCTGTGCCAATTCAACCCAGCTGATGGGAAACTGTAAGTT
W
ATCTTGCATGACTTTTATTTCTAGGCATTACAGCAGAAGTTCTGGTGGTGACCTCTTTCGATGAACTGCAGAGAAGGGCCTCAGAAGCAAGAGGGAAGAT
Celera SNP ID:            hCV25744328
SNP Position Genomic:     195920
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,34)   total(A,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:18650):
ACTCAAACTGGCAATTATTTATATCCTATTGCTTCAATTCTCTCTCTTCTCTAAACTTTTCCCATCAGAATATAAATATTTCAAGTATTCGCCATTAAAA
W
ATATATATATATACAGCTTTACCCAACTTTATGAACCTCCAGCTCTTTCTTTTCTTTGCAGCCAAGCTTTTTGTCCTCTCACTCATTCCTCCTTCCAGTG
Celera SNP ID:            hCV26470780
SNP Position Genomic:     455752
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,8)   total(A,1|-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18651):
TGTTTGATTTTTCTGAAGCATTGACATAGTTGACCACCACTTACATCTTGAAACTCTGTATGTCCTTAGCTTCTCTTAACTCCTCTTTTCATTCCTTTTT
Y
GCTTCCCTTCCTTGTGCCAGTCCCTTACGTGTTAGTATATGCTAGGATCTCATCCTTGGACTCTATTTATTCAGGTCACTGTTCCTGGAAGATAACTCTA
Celera SNP ID:            hCV26470781
SNP Position Genomic:     456055
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18652):
TTACCACAACCCATCTCTAGGAATAGAAATTATCGTCCAAGTCGCTCAAACCTGAAAACTTGGCATTGACTTAGACTTATTTTCCTCATTCACTCTCCCT
Y
ATTCAGTCAATCCTTAAGATAATGCCATTTCTACCCTTTAAATGTAGCCTCTCCTTTATTCATTGTACTGCTGCCTTAGTTAAGGCACTCAAAATTCCTC
Celera SNP ID:            hCV26470782
SNP Position Genomic:     456371
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18653):
AAACAGCTCTTCTTTGAACTTTATCTCCTAGAAAGGGAAATAAGATATGAACCTCCCTAAATAACTAGGCAAAATATTATAAATGCTAAAACGTACAACT
R
CTATAAAAATGGAAAGAGAGAAAGTTTAAACTGGTTGAGGAAAACTCAGGAAAGTCATCTTGGAGAAGGCGGCATTTGATATGTGCCTGAACAGTTGAGT
Celera SNP ID:            hCV26470783
SNP Position Genomic:     457508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18654):
TCATAGAGCTTTCTCCCTGCAGAGAGGGGAAGAGTATAGTCCCTCATGACTCAGAATCTCTTGGTTGCTGCCATGCAGGCATCTATGGAATCACAAAAGC
R
AGGCCCAGGAAACTTTAAACTAACCTATGCTTCCCGCCCAGAATTCAGTCTATTTCCATATTAGTGGGTGCCTTCTGTCCATACCTATTTCTGTGTGCAA
Celera SNP ID:            hCV26470784
SNP Position Genomic:     457836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18655):
TCTATGGAATCACAAAAGCGAGGCCCAGGAAACTTTAAACTAACCTATGCTTCCCGCCCAGAATTCAGTCTATTTCCATATTAGTGGGTGCCTTCTGTCC
R
TACCTATTTCTGTGTGCAATGTGTTGAGTCTTTTGAGTGGTGGCTTAACAGCCCAGGAGAGAATTGAGCTATACTGAGGCTTCATATATGAACACAGTAT
Celera SNP ID:            hCV26470785
SNP Position Genomic:     457917
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18656):
GATACATAAAGAATGCAGTCTTCCCAACTTTACACTACTCTCTTTTTCCTGGATCATGGCTTTCTGCAGCTGCTTCTCATTTAGTTCAGTCCAAAAACAT
K
AATTGAAATCCCACCATGAACCAAGCACTGTTGTAGGATCTGGGGAGTCAATGATGCACAAGACAGTCTCTGCCCTCAAGATGCTGAGTCTAGTGGGGTC
Celera SNP ID:            hCV26470786
SNP Position Genomic:     459229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18657):
GCAACCCGGTATTTTTTTCACCAAGTTTTTAAAGCATTCAAGATGCTAAATTTTCCAAGATGAGTTTTCTGGAAGAAGTCCCAAAACTCCCTTCTCTCTC
T
TTTTTTTTTTTTTTTTTTTTTTTTTTTGTGATGAAGTCTCACTCCGTTGCCCACTACCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACATC
Celera SNP ID:            hCV26470787
SNP Position Genomic:     460110
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18658):
TCTCTCTCTCTCTGTTTCTCTCCTTAGAGACTCTGAGTCTAAAGCAGACATCACTAATCAATCACAGATTCTTTCCAACTGAGTCTTTTTTTCTTTTTTC
T
TTTTTTTTTTTTTTTTTTGCCTTTTGACCAGGAAAAGGAATCCAACTGAGTTTTGATTTGGCCATTATGTCTCTTTGAGATATAGGGCTCTAAGTAGCCA
Celera SNP ID:            hCV26470788
SNP Position Genomic:     462568
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18659):
CTCTCTCTCTCTGTTTCTCTCCTTAGAGACTCTGAGTCTAAAGCAGACATCACTAATCAATCACAGATTCTTTCCAACTGAGTCTTTTTTTCTTTTTTCT
T
TTTTTTTTTTTTTTTTTGCCTTTTGACCAGGAAAAGGAATCCAACTGAGTTTTGATTTGGCCATTATGTCTCTTTGAGATATAGGGCTCTAAGTAGCCAA
Celera SNP ID:            hCV26470789
SNP Position Genomic:     462569
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18660):
TTTAATGGTACTTTAAGGGTTCTTATGTTTAAATCTTTAATCTGTCTCAGATTTATTTTGGTGTAAGGTGTGTTATATATATCTAGCTTAATTTTTCTTC
R
ATTAGTTATCAATATTTTTTTGTTTTTATATCACTTTTTGAAGTTCATTTTTTCCGATGGGATTCAAATATACTTATCACATTAAAATTTTCTAACTATA
Celera SNP ID:            hCV15808230
SNP Position Genomic:     46420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18661):
AACATCAAGTGTAATTGATTTCCATTTTCTGTATATATCCTTTTTTCTATAATCATTAAAAAATTTTACTTTTGCTATAATCCTTTTTAACTTGGTTATT
Y
ACATTTTATTCTGATCACTTTTTAAATTTGTGTCCTTCATAATTCTTACTTTGTTTTCAGCAGCATTTACTCTGTTTGGATTGTCTCCAATATGACCTTC
Celera SNP ID:            hCV15808231
SNP Position Genomic:     50870
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18662):
TTGGATTGTCTCCAATATGACCTTCATTTCTCTGATGGTTTTATTTTTCTCTCCTGTTTATGAGCTCTGCCAGTCCAATCATCATCTCCTTGTATTGCCT
Y
GCCTTATTTTACTTGGGCTCTTGTATACTTAGTTTGCATTTTTAATTTATAGAGGTATGTGCTTATTTTTTTGTTTATATCATTATATTTGGTCACAATT
Celera SNP ID:            hCV15808232
SNP Position Genomic:     51046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18663):
TTCACTTTTTATGTTTATTAATTTCTTTTTTTCTATTTTCCTGTTTTTCATTTTATTCTAACTTCTTGAATGCTTATATTATCTCTTTCATTCTTTCTTG
K
TTATTAATATTTCAGCTATATCACCTAGATAATTGTATATTGTTCTTTCTTCGATTGTTATTTCCCAGATATCCTATAATTTCAGTTTTGATTTTATATT
Celera SNP ID:            hCV209449
SNP Position Genomic:     48613
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,11)   total(G,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18664):
TCTCTCTCTCTGTTTCTCTCCTTAGAGACTCTGAGTCTAAAGCAGACATCACTAATCAATCACAGATTCTTTCCAACTGAGTCTTTTTTTCTTTTTTCTT
T
TTTTTTTTTTTTTTTTGCCTTTTGACCAGGAAAAGGAATCCAACTGAGTTTTGATTTGGCCATTATGTCTCTTTGAGATATAGGGCTCTAAGTAGCCAAT
Celera SNP ID:            hCV26470790
SNP Position Genomic:     462570
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18665):
ATTACCAGATATTAGTTTTTCCTGTGCTTGAACTTCATATAAATGGACTCACACACGGGTATGTATCATATTTAGCACTGCATACTGTTTCTGAGATTCA
Y
CCACGCTGTTGCATTTATCAATAATTCATTCTTTTTGATTGCTGAGTACTATTCCATTATATAAATACACCACAGTTTGTTTATCCATTTTCCTGTTAAA
Celera SNP ID:            hCV26470793
SNP Position Genomic:     471269
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18666):
GGTACTCCACTCTGTCCTCACCTCCCATTTCCTATAAAATATGTTTATTCATTAAAAAGTATTTAATGCCTTATTTTTTATTATTTTTATTTTTTTTTTA
T
TTTTTTTTTTGCTAAGACACTGTGGTAAGAATTAGAAGTCCAACAACAGACAAGATGAAAACAGTGTCTACTTCTGGGGCTTATATTTTACTAGGAGATA
Celera SNP ID:            hCV26470794
SNP Position Genomic:     473158
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18667):
AGGAGAATCACTTGAACCCAGGAGGCAGAGGTTACAGTGAGCTGAGATGGTGCCACTGCACTCCAGCCTGGACGACAGAGTGAGACTCCATCTCAAAAAA
A
AAAAAAAAAAAAAAAAGATAGTCCAAGATCCAGGATTCTTTTAGGTTCTGTGTCACTATGTGATCTCAGGTTAATGATTTATTGTTTCTGATTCTGTTTC
Celera SNP ID:            hCV26470796
SNP Position Genomic:     480330
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5)   total(A,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18668):
ATAGTCTCCTTTAAAAACAATGCCCTCATTTCATTTCCTCTCTCTGGCTGGACTCTTCTCCTCCCTCCTGCTTTCCTAAAATCCATCTTGTTTCCCTGTA
Y
TGTTTGCTGAATGGGCAGTTTAATGAATACAGCATTTCCATTTTGAAATGTACAGAGCACAAGGCAGAAACTGAATTTCCTCCTGGACAGTTTCCATCCA
Celera SNP ID:            hCV11252260
SNP Position Genomic:     475904
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,11)   total(C,4|T,11) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18669):
AGAGAAGTAAAATATCCTACCTCATGTCACAAGCTGCTATATTTGGAGTCAATATTCAAACTCAGTGGCACTGACTTTATAATTTTGCTACTAAATAGTT
A
CAGTGCTGTATTGACAAGTAAAGCAACTGTCAGGTGCTGAAATGTAGGAGCAAGAGCAATACATAACATGTGTTCTACCTTCAAGAAACTAATAAGAATT
Celera SNP ID:            hCV11252262
SNP Position Genomic:     482117
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18670):
CTGGCCACATGCCATTTTTCTAATTCATTATTTCACTTTTTATGTTTATTAATTTCTTTTTTTCTATTTTCCTGTTTTTCATTTTATTCTAACTTCTTGA
R
TGCTTATATTATCTCTTTCATTCTTTCTTGTTTATTAATATTTCAGCTATATCACCTAGATAATTGTATATTGTTCTTTCTTCGATTGTTATTTCCCAGA
Celera SNP ID:            hCV209450
SNP Position Genomic:     48582
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18671):
GTTCAGACTCCACGTTGAAGTACCAAATACACAGATTACTCAGAATTTCACGTATTTTCCATCTTGCTTATTTCTGCCCAATACCTCATATGGCATTAAG
M
AGAACTAAATTAAAACTTTCCATTTCTACATTTGCAAAGGCCTTTCCTCTAAAATGTTCTAAGAAAGGAGACCTCAGGACACAAGTAGAAATGGTACTGT
Celera SNP ID:            hCV380151
SNP Position Genomic:     434228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,8)      total(A,4|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18672):
TGGAGTGCCTGGTAAGACCAAAAGATGAAGTTGTGTTCCTTATATATTGCCAACAATTTAAAATAAAATTTCTGTTTTAATAGAGCACAATGAATACTAG
Y
AGGCCAGGTTGTCCACGGAAACCTTAAGCTTTTGTTCAAGGTATAATCTGATGATTTCCAAAACTGGGATAATAGTCCTCACCTTGTATTTGTTTACCCA
Celera SNP ID:            hCV27984908
SNP Position Genomic:     427295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18673):
GCGTGGTGGCAGGCGCCTGTAGTCCCGGGAGGCGGAGCTTGCAGTGAGCCAAGTTCACGCCACTGCACTCCAGCCTGGGCGAAGAGCAAGACTCCGTCTC
A
AAAAAAAAAAAGGACTTCTGGCTTTTCTACTGGGAAATGTGGTTATCTGTGCCTTCTGGAGGTCAAGATGTCATCATCTGGCCCTGGTCCCTCTCACTTC
Celera SNP ID:            hCV11252266
SNP Position Genomic:     498880
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,14)   total(A,1|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18674):
AACACTGTACAGTGATGTTTGAAGGGATTGATGCTCCATGGTAAGCAGACTTCGCCCTACTGGGAACATGAAAAGGAACCTCTCTGATTTGTGGCTGTAA
Y
CCTCAAGCCCTCGTTTAAATAGCCAGGGCAGTTTCATTTAATCAACAAGCATGTGTTGAGTGCCTGCTGTAAACCAAACGCTGAGACACTGAGGAGAGAG
Celera SNP ID:            hCV380153
SNP Position Genomic:     434559
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,11)      total(C,7|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18675):
TTAATCAACAAGCATGTGTTGAGTGCCTGCTGTAAACCAAACGCTGAGACACTGAGGAGAGAGGATGAAAAAGACTCAACAGGTCTCTGATCTTGTGGAG
Y
TTACATTGTGATGGAGGGGTGGGACACTGGGAAGATACAGACTATAACTAAGAAATAGATTAAGAATAGAGAAAAACAGTAGACATTGATAAAGGCTATA
Celera SNP ID:            hCV380154
SNP Position Genomic:     434697
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,12)   total(C,5|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18676):
TAGTGCTAATGAATAGATGTCTTATGAACCTTTTTTTTGCACCAACAACACATTGGAAAAATGTACTTTCAAGAATAAATTGCAATCTGGTGAAATTTTT
Y
TATTAGTTAACAAAATTTAGCTTTTAAAAACAAGTATCAGTATAGTGGCTTTAGTGGCTTTAGAAACCAGGACCCTATGCATATAAATAGTTGTAATAAA
Celera SNP ID:            hCV27850027
SNP Position Genomic:     140794
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,31)   total(C,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:18677):
GAGGGATTAATCAAAGCAGTGTTTTAGAATGTAAATCCCTAAAGCTTGTGCATGCCTAGAGCATCCAGGTCACACTCAAGTAGAAGGCTCAAAGTAAGAA
S
ACTTAAAGGGAACGAGGAGCTTGAGGAAGTAGCAAAGGGTTGAAAACAATTGCTTTAGAAAATCAGATAATGACATTATGATGTTGCTCCATTGTATGTA
Celera SNP ID:            hCV380155
SNP Position Genomic:     436104
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18678):
CACACAAAAATCTGCATATAACTTTTGACTCCCCAAAAACTTAACTACTAATGAGCTACTGTTGATCAGAAGTCTTTATGATAACATAGTCAATTAACAC
A
TATTTTGTAAATGTATTATATACTGTATTCTTATAATAAAGTAAGCTAGAGAAGAGAAAACTGTTAAGAAAAGCATAAGGAAGAGATACATTTATAGTAC
Celera SNP ID:            hCV380156
SNP Position Genomic:     437955
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,10)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18679):
ATCTAATCAGGAAATTGATTTAAACAAAGCACTCCATGCCATACAAGATTTGATTGAGCTGTTTTTTCTTTTTTCCCAAGATGAAAGAGTGCCTAGGAGC
R
TGGTTATTTTTGCCCCTATATCCAATTTAGCACCTCTTTCAAGTTAGGTTTGAAGTTGGAAGAATTACAACATATTTCTATAAAATAATCTGTTTAATGA
Celera SNP ID:            hCV8295086
SNP Position Genomic:     306573
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18680):
CATGTCCTGCCCTAGATCTGAAATCAGCTATCTCTTCAAAGAATCCAATTTATTTTCCTAGGTCATAGTATTTAGAGGCCACAGTCTGAACAGTAAGTGT
R
TGTGTTGCTACTGGATTGTTCATTGTTTCTAGGTCTTTTCAGCAGACAGGACTAGGAAACACTTTTTTTCTCCAACATGAAATTATATTACTAATTATAT
Celera SNP ID:            hCV380157
SNP Position Genomic:     439348
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18681):
GTTTATCTTCTCAAATTTCTTCATAAGAACTGAGAAACAAATGTCTGCTCATGACTCATTGGACAGAATTGAATCACATGTTCATGCTAAAACCAGCCAA
Y
GTTAAGAGAAATAGATTTCCCAAGACTAGCTTATGCTAATCACAAATCATTCTGTGGAGCTGGGGAGAACCTCCTAGTTCTACAATACAGAAGCAGAAAA
Celera SNP ID:            hCV29130713
SNP Position Genomic:     50120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18682):
AGAAAAGGATAAATTTGTGTAGGTCTCCAGTGGTGTCTGCTACCTCTGTCTCTATAAAATGAAGAAATCAGCAGAAATATACTGCCACCAATTTTCTTGC
Y
CCCTTGCTGTGTCAAGTTTTGTTAATTACACATTGTTACATGTCAAGGCTTCTAACCTATTCATTCTATCCTGTAACCATAATGTATTTGTTTTGGTCTT
Celera SNP ID:            hCV29130714
SNP Position Genomic:     50315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18683):
TATTTCCTTGAGGACTTTTCTCTAGATGGGAAAAATTATGTATTGAAACCTGTTCCTTCCATTGTTTTGATTACACTTTTTGGGGACACTAGTTGTACAT
R
TGCTTGATTTCCATTTTCTCTCTCTTCCTGGCCTTTTGGCTAACATCAAGTGTAATTGATTTCCATTTTCTGTATATATCCTTTTTTCTATAATCATTAA
Celera SNP ID:            hCV29130715
SNP Position Genomic:     50728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18684):
TAGTCTTAGTTATTGCTGCCACACAGTTTTACCACCTTACAGAGATGACTCATTATCACACAGTTCAGATACTGTGGGACCTGCAAGTCCACCAGAGGTG
W
TGGTGTTGACCTAAACTATTTGGTCAAAATTATGCCCATAGCCAAGCCAAGGTTTCCAAAGAGATAGAAGGTACATGGGCTTAGTGGCGCACCTAAAACT
Celera SNP ID:            hCV16239403
SNP Position Genomic:     496063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18685):
AGGAGGCTCCGAAGAGATCTGAGGTAGGACTTCTGCCAGCCTCAAAATGTGCCACACACATTTAACTGGGAAGATGCTCTGAATAACATACTCTTGGCCA
Y
GTGAATGCGTTCCTTGGCAGCCCTGGCCCTGCAAAGTTTGGCAGGAGGGGATTTTCGGGTTGCCAGCTAAAGCCCTGACACTCAGAGCAGGCCTCAGTGT
Celera SNP ID:            hCV29130716
SNP Position Genomic:     62691
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18686):
CGAGCGCAGCGCTGGTGGGCTGGCACTTTTGGGGGACCAAGTACACCCTCCGCAGCCACTGGCCTGGGTGCTAAGTTCCTCATTGCCCAGGGCTGGCAGG
R
CTGGCCGGCTGCTCCAAGTGCGGGCCCGCCAAGCCCACGCCCACCCGGAACTCCAGCTGTTCCGCAAGCACCGCACGCAGTCCCGGTTGCCACTCGCGCC
Celera SNP ID:            hCV29130717
SNP Position Genomic:     80339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18687):
CTGACTTCTTTTGGAAGCAGAAGTCCTCCTTCTACTACTTTCAATTCTCATCTGCACCTAGTACAGGTGATAAGCATTCTATCAGAATTAGGACAATAAT
Y
TTCTAACAGGTCTTCTGATCTCCTTACTTTCAGCCTCCATACTACCTCCAGAGTGAACTTTTTGAAACACAAAAACACAAATCTCCTGTCATTCTCCTGT
Celera SNP ID:            hCV29130718
SNP Position Genomic:     82548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18688):
AACTAACCTTAAAATCTTAGTGGCTTAACACAACACAGATTTATTTCTCTCTCATGCAAATTTCTTTGATGCTTGGACAATTTTCCAGTGTACTCCTCTC
Y
GTATAGTGACTTAGAGATCCAGGCAGCTTCCATTTTGTGTTCCATCAAATCATCTATTTTCTTGATTTCCCTGGCGCAGGAAGAGGAAGCTAGAGGGCCT
Celera SNP ID:            hCV29130719
SNP Position Genomic:     83740
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18689):
AAGGGTTCTTATGTTTAAATCTTTAATCTGTCTCAGATTTATTTTGGTGTAAGGTGTGTTATATATATCTAGCTTAATTTTTCTTCAATTAGTTATCAAT
R
TTTTTTTGTTTTTATATCACTTTTTGAAGTTCATTTTTTCCGATGGGATTCAAATATACTTATCACATTAAAATTTTCTAACTATATTTGTGTCTATTTC
Celera SNP ID:            hCV15808257
SNP Position Genomic:     46434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18690):
ATATCTAGCTTAATTTTTCTTCAATTAGTTATCAATATTTTTTTGTTTTTATATCACTTTTTGAAGTTCATTTTTTCCGATGGGATTCAAATATACTTAT
S
ACATTAAAATTTTCTAACTATATTTGTGTCTATTTCTGGGTTCTCTGTTCTGTTTCATTGATCTATTTTTCTGTTTACAAACCAGCAACTCACCATTTTA
Celera SNP ID:            hCV15808258
SNP Position Genomic:     46498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18691):
TCACATATTTCTTGTTATACATTTTTCTAGTTACTCTATAATTTTGGTTGCTACTTTTAATGCAATCTATTCTTACTTTGGATCTCCTATTTGCATTGTT
Y
GTATGTATGAAAAGTAGTGGTGTCACAATATTATTTTTGTATTCATTCACTTAACTGAATTCTGTCATTATTTATAGTTTTCCAGTTGATTCTCTTGTGC
Celera SNP ID:            hCV15808259
SNP Position Genomic:     46999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18692):
TTCCAATCCTACCAAAGATAAGACACTGATGACATCTCATCTCCTGCCTAACTTGTGACTATTCTCAGTATTGGTGAAGAGGTGAAATTTGTAGATGAGG
K
ATTTTAATCCTTCACTTTGTATTTGATACATGACTTTATGTATTATGGTGCTGATTTTTCAGCACATCTTTATTTTCCCTTTTCCAGTTTTAACAATGAA
Celera SNP ID:            hCV29130720
SNP Position Genomic:     94355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18693):
AGATTGTCCCCCACATAGCTGTCTGTCTAGTGTCCCCGGCCTCTGCCAACTAGTTACCAGTAGAATCTCCATACCATGGTGACAAGTAAAAGTGCTCCCC
Y
CACATATTCAAAATGGCCCCTAGGGGCAGCATCATCCATATTAAAAACAACTGGCTTAGATTAATGGGACTGGACACTTTGTACTCCAAACAAAATGGAG
Celera SNP ID:            hCV29130722
SNP Position Genomic:     136820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18694):
CATGAGAATGTTTGAGTATATATATATTATTACAGTTATTTGCCTCTTAGACTGCATTTGGGTATTCCTCTTTGAGTTTCTATTTCGTGTAAATGCATAT
R
GTTTCCTATAAAAAACACAATTTATAATCCTCCAGGAAGTCTGTGTAAGTCAGTCAGTCAAATTACCTGGTTGATTATAGTTTCAGGTTTATCTGCTGCC
Celera SNP ID:            hCV29130723
SNP Position Genomic:     140398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18695):
ATTACACTCTAGTGAACACCCAACTTGCTAAGTCGTCCCCCATACACACCTTACTGTTTCTCTCTTTGTTATCATTTCCTTATGCTGAGCACTTGCCTGG
R
GTAGCTCCCTCCCCCAGCCTTCCCTGGGGCTCTCATTTCCTCCCTCACTCATTTGGTTAACTCTTATTTACCATTGAAGATTCAGTTTGGAATTCACCTT
Celera SNP ID:            hCV29130724
SNP Position Genomic:     170998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18696):
ACTCTGGATGGATGGAGGCTCCACAAGAGCTTCATTCCAAATTAAGATGTTCAGGCTACATTGAAGAAAGCAATCTATTTGCCTTGGAAAAATTTATTAG
Y
GCTAAGAGCTAATATATGAAATATACAATCTGTATCTGGATGTTTGCATTTCTCTAAATCTTGCCCTCAACATATATATCATTTTCAATAAATGGTTTTG
Celera SNP ID:            hCV29130725
SNP Position Genomic:     175487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18697):
CCTTTGGGTAGGGCTAGACTATTTCCTGTTCAGAGGTGAAGACTTCTGAAATCAGAATCAATTTTCTAAAACATACCACATTAAAATAAGACCATAGACA
Y
GTTTTTCTGTCTATAAGTCTTTTTATTTTGATGGTAGAAAATGTTGTAAGATTATTTCATTATCTTCTTATTGTTAACTGTTTTGGGGAAGAATCAAATC
Celera SNP ID:            hCV29130728
SNP Position Genomic:     191220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18698):
GCTTATATGCTGGTGGTGGAAATGTAAATTGGTTCAGCCACTGTGGAAAGCAGTTTGGAAATTTCCCAAGAAACTTAAAACAGAACTGCCATTCAACCCA
R
CAATCCCATTATTTGGTATATACCCAAAAGAAAATAAATCATTTTACCAAAAAAGACACATGCACTCATATGTTTACCATAGCACTATTCACAATAGCAA
Celera SNP ID:            hCV27996076
SNP Position Genomic:     86690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18699):
TTTCTGGATCAGCTACCTGTAAAAGGTTTGTGTGAGAGGGGCACCCCATTGTGTTCTAGGCTAATAACAATTGTCCTTATGATTTAATGAGTATTTTTTT
W
AATTTAGCTTTTACTCTCTTCCCCATTGCCTTGCCTTCAGACAGATTTCTGAAAATATAGCTTATACATGTGATTTGTTATTCAGTCTCAGTTACTTGCT
Celera SNP ID:            hCV8296042
SNP Position Genomic:     51370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,4)      total(A,4|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18700):
GTTGACAAGATGTTGTCTTAGTCTATTTTGTGCTGCTATAACGGAATACCATGGACTGGATAGTTTATAACTAACAGAAATTAATTGGTTTACAATTCTA
S
AGCCTAGAAAGTCCAAGATTGAGGGGCCACATCTGGTGAGGGCCTTTTAGCTGCATCAAAACTTTGCAAAAGGCATCACATAGTGGAAGGGCAAGAGAGG
Celera SNP ID:            hCV27996077
SNP Position Genomic:     142273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18701):
GACTGGTATGGCCCACAAACCCATGCTTTGAGTAGCACTGTTTAAAGCATGGACTCTAGAGCTAGAAAGCCTTTGTGTATCTTTGGCAAACTGCTTAATC
K
CTTGGTGCCTCAGTTTCCTCATTTGTAAAATAAAGGTAATAATAAACTACCTTATAGAGTTGTTGTGAGGATTAAATGCATTAATGAGTGTAGCATACTT
Celera SNP ID:            hCV27996078
SNP Position Genomic:     145000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18702):
TTTTCCAAACCTAAAAGAGTGCCTCAATCAATGTTTGTTGAGTTTTAAATAAATATCTTTATTTCAGTAATATTTAAAAATGTATCCTAAATCTACTTGT
Y
GTCTGTATTTTCAAACATAGGGAAATAAGCACCAATAGCTAATTGGAGGAATAGGATGGGGGATGGGGCACAGCATGAGGAGAGGAGTGAGAGTATGTCT
Celera SNP ID:            hCV27996079
SNP Position Genomic:     225724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18703):
AATTCTGTCATTATTTATAGTTTTCCAGTTGATTCTCTTGTGCTGTCCAGGTAAATAATCATATAGTTTCCAAATAATGATATTTTAGTTTTATCTTTTA
W
AATTTTACCTGCATTTTACTGTCTAGTTATGTTATTCAGGACCTCCAAAAAATTAATGGTGGTCATAGTAGACACTCTTGTCTTCAACTTATTGTTAATA
Celera SNP ID:            hCV15808269
SNP Position Genomic:     47157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18704):
TTTCCAAACCTAAAAGAGTGCCTCAATCAATGTTTGTTGAGTTTTAAATAAATATCTTTATTTCAGTAATATTTAAAAATGTATCCTAAATCTACTTGTT
R
TCTGTATTTTCAAACATAGGGAAATAAGCACCAATAGCTAATTGGAGGAATAGGATGGGGGATGGGGCACAGCATGAGGAGAGGAGTGAGAGTATGTCTC
Celera SNP ID:            hCV11242664
SNP Position Genomic:     225725
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18705):
GGTGTTTCTTAAAAATTTGTCAGTATTCCGCTAGTGAAACCAACTATGTGTTGAACTATTTTGTTGGGAGTAAATTGACAATTTGTCCTCCTTTTAAAAC
M
GATAGTGATATGTTAGATTTTCAAATTTATCTGGGATGTGATTTCTTAGAAAAGCATCTTAATTCTCAAATTTACTCACACTGAATTGATCAAACTGGTG
Celera SNP ID:            hCV16271711
SNP Position Genomic:     47844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18706):
GTTAGAAAGTTATACGACTAGTTACATTGATGTCATAGTGCTAAAAATAATGTTCTTTGCGGGGTCTTTAGAGGTTTCAAGACTAGTGAAATAATGATTG
S
ACCATATTCTTTTGGATGATTAAGCTTCCCAGGAGGGAAGTCCTAAAATGGCTAGCTTACTTCCCATAATACCTCCATCACCCCTTGGAATAACATATTC
Celera SNP ID:            hCV29130730
SNP Position Genomic:     197488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18707):
CTTGTAGCCCAGGTGAGTTACCTCTTTTTTGGTATTTCCACATACATCGTTCTGTGCATGCTCTGTATCATAATGTCTTGGAAGTATTGATAGTTTTGGT
K
CGTGCTTTGGTAGAGTAGACTAACTGTTGTAACAAACAGCTTCAAATCTCAGTCACTTCACACAATAGGAGTCTTTTGCATGTTCACATAATGGTTTCAA
Celera SNP ID:            hCV29130731
SNP Position Genomic:     199176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18708):
TTTATATTTAGTGCTAAGTGAATGATTGGGGGAAAGGGATAAAGAAAGGAAATTACTATTTATTAAGCACCAACTTTGTACTATTCTAAAGGGTTAAAGA
S
TTTGTCTCAATTAATTCTTTATGTAACCCAATAGAAGTAGATACTGTATTGGTATCTCTTTTACTGAAGGAGAGACAGGTTCAGAATGATTAATGGCTTA
Celera SNP ID:            hCV29130732
SNP Position Genomic:     200832
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18709):
GGTTAAAGAGTTTGTCTCAATTAATTCTTTATGTAACCCAATAGAAGTAGATACTGTATTGGTATCTCTTTTACTGAAGGAGAGACAGGTTCAGAATGAT
W
AATGGCTTATCATGCTACACATCTAATGAAAGAACTAGGATTCAAACTCAGTCTCTGGCTCTAACTTCCATGCTGTTAGATTGTACCAAGCAACCTGGAG
Celera SNP ID:            hCV29130733
SNP Position Genomic:     200923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18710):
TTGTATTCAAAGGGGGAAGGAGTAGGGGTCCAAGTTGATAGGCAAGGATTAAAATCTATGGGATGAATCTGTATTTAGTTCAGCCCAAAATTTAAAAATC
W
TAAGTTTCAAATAACAATAAGGATTTGTGGTTTTAGAGAAAAACCAGATTTGGTGATATATCTTGTATGTTCCATTGGGCAAACTTCAGCTGAGCAGATT
Celera SNP ID:            hCV29130734
SNP Position Genomic:     201838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18711):
CACTTTACTGTGAAAATTGCATCACCACACTGGGTATGAACTCATTGAGGTGGGAATGAGTTGTTGATAGGGCTTGGCTTTGGAAATACTACTGGCTGAT
R
TTTTATATCACTTGGCCTTTGTGTACTGTATTGACAGAGTATAGTGAAGAGGAGGAGGAAGAGGAGCAATTTAGTTTGAAGATGACTAAGAGCTGATTAA
Celera SNP ID:            hCV29130735
SNP Position Genomic:     202649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18712):
GAGAAAAGTGAAGACTTTATGAAGACAGTGGAGTTGAGCAGAGCCATAGAGCTATAGACTTCCAATAGGTGGAGGAGAGAGGAGCGGGCAAACCAGGCAA
R
GAGAGATGAGAGAAGTAACACAGGAGGTAATGAGCATGTTGCAGTGGGAAAGTGGGCTTGGCTCTGGTCAGAGGAATCATGCAATGGATTAATAGAATCC
Celera SNP ID:            hCV111311
SNP Position Genomic:     461398
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18713):
ATTAATGTTGCATTCTTCACCTTTAGACAATCTCAGATTTTTGATGTCCTGGTGGTTTGGTTCTTAAGCATGACCTTAAGATAATTAGCTATCAAGCTTC
R
TTTAAATTGTTTTGAAATATCATTGCAATTTGGGGAGCATATGTGCCTGCTGGTGAAAAATAAGGAAAATACCACTGGGACTCAAAAACTGTACAAGTGA
Celera SNP ID:            hCV29130736
SNP Position Genomic:     203282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18714):
CTTTTGATTGTGGTTTTCTTAGTGGGAAAATAGCTCATATAATGGCCCCCGAATGTATGCCTGGGAAGAAATATGTTAAAAAATGAAATCTAGTGATTGA
Y
TGTTTATTGGATAATTTCAAAATAGTACAAGGGAAAAAATTATTTTAGTACTCCTAAGTATTAGAAATAATTTTACAGTTCAATTTGTGTGATTAAATTA
Celera SNP ID:            hCV111312
SNP Position Genomic:     461851
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18715):
ATCTGACCAGTTGGGATGGTATTTCTCCTTTAGTGCCAAAAGTATAATAGTTTTTTTTTCTCTTGTGGCAGTAAAATTAAAGGCCTGGATTTATTCAGCA
W
CTTTTCTTTATGAGAATAGGAATATATTCCCAGACATTGTTCTACACTTTTCCTGCGTGGTGTTCTACCACCAATGTGGAGTTATAGATTTAGACCTCTG
Celera SNP ID:            hCV29130737
SNP Position Genomic:     240207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18716):
CTGAGAACTGATCTTTCATAGGCCAGGGAAGGAGTTCAGTTCCAAAGTCTAGCAGACTTTCCTAAAATCATTCATTTTTAAGTTATCAGTAATGCTAACA
K
TAACTTAAAAGTTGGTTTTTATAATTTAGGTTGACTAACTTCTGCCTGACACAACCTTGCTACTTTGCTCCATAGCATACTAAAGAATAGTGGTGCTAAA
Celera SNP ID:            hCV29130738
SNP Position Genomic:     245756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18717):
ATCCCTGAGGGTGAAGTCTACAGGACTAATTGGATTCTTGTGCCCTTGTGAAGCAGGTGTGGGAAGTGTTTCTAAAATATTTCTGCCGATCCACATGTAA
K
GAATACTTTTAATTTCACTGAGAGTCTTTTCCTAACATTCACTGGCCTACATAACAAACTACCAATTTCATCAACAGAAAATCTGTTTCTGACTTTCAGT
Celera SNP ID:            hCV111314
SNP Position Genomic:     465907
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,6)   total(G,6|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18718):
GATTTAGTACAAACTCTATGACTTTCAGATTAGGAAAATTGACCAAGGAGAACTTGTCCAAGGGGACACAGCAAATATGTGGTACAAACACATCTGGAAC
R
TAACTCTAGATTTCTGGACTCCCATTTCTTTTAACCTCTAAGAGATTCCATTATGCCTGGGCATGCCTTAGTTGAATGGTGTATAAATTTGAGGGCTATA
Celera SNP ID:            hCV29130739
SNP Position Genomic:     247638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18719):
TGTTAACACATTTTTATTGAGCACCTACTATGTGTCAGGCACTCTGCCAGGTGCTTAGGATACCTCAGTGAGGAAACAGTGCTCCCTGCTCTTGCGGCAC
K
GCGTCTAGAGCTGCTCCTTGGGAGCCACTGGCCACATGTGGCTAATAAAATATGTTTAAGTTTAGGAAAATTAGGTAAAATTTAAAATTAAATTCTTCAG
Celera SNP ID:            hCV111315
SNP Position Genomic:     467493
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,7)      total(G,4|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18720):
GCAAGTGAGTGAGCATAGAGAAGAGAAGAGCCCTGGCAGTTCCATCATTAAGAGCTTGGGGATAAAGAGAGAGAATCAGCAAAGAGCCGAGAAAGAGAGG
S
CAGTATAGGAAGAAAACGAAAGAGAGTGGAATACTAGAAGCCAGTGAAAAAGCGTATTGGGATAGAGGGAGTGATTCTCGTGTCACATGCTGCAGGAATA
Celera SNP ID:            hCV111316
SNP Position Genomic:     467828
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18721):
ATGCACTGTTTTTAAGTATATAAAGTACTAATATTCCATGTTGTATAGCTCTTTCACTGGCATAGTTTCTCCATGAGGAAACTGAGGCACAGAGAGACAA
W
CATTTGTCAAGGGACACATAACAACTCTGCTGCCATTTTCTCCTGACTTATGATATAACAGGCAGCTCCTACTGGCCTTTTGAATGTTTTTCTTGATTTA
Celera SNP ID:            hCV111317
SNP Position Genomic:     469260
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,8)   total(A,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18722):
CTCCTTTCTTCTCATAAATTTTATTTTTAAGTGTCAAAACACGCAATTTCTTTTCAGATACTGAAACCTGTGATATTATGTGCCCTTTGCCTACTGCAAT
Y
GCTTTCTGAATAGTCAAGTGATTCAGCGATTACCTCTGTGCACCCAAATCCTACCTGATTGGAAGGAAGTCACCGGGGAGGGGATGGTGAGATGACGCAC
Celera SNP ID:            hCV111318
SNP Position Genomic:     469570
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,10)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18723):
TGCCACTTTAGACTAAGGACTGTCATATATATACATATATATACACACATATATATACACACATACATATATATGCACATATATATATATAGTTTCTTTA
R
GTCTTACCAAAGTATTAAATACTTTTTGAACAAATAACGTATTTTGGGGGGCATTATTCTGTCCACTTACCTAAATCAAGGATGATATAAACAATAAATA
Celera SNP ID:            hCV2045900
SNP Position Genomic:     175028
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18724):
GAGTTTATTTTGATGCAAAAAAGTTGAAATCTATTTTTTTATAATACACATTTTTCATGAACTTCTTGAAGACCCCTCCTATTTGCCAGACACTGTTCTT
Y
CATTGACTAATAAATAAATTCTCTCTCCTTTCTTTTTTCATTTTTCAGCTCTTGGGTTTTACAGTTTTAAAAATTAATTTTTAATTAGACAAGTAAAAAT
Celera SNP ID:            hCV2045901
SNP Position Genomic:     182680
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18725):
CCTAGTCTACCCAAATGAGAAGGAACCAGAAAAACATCTGGGTAATATGAGAAAACAAGTTTCTTTTACATCCCCCAAAAGATGATACCAGTTCACCAGC
R
ATGGATCCAAACCAAGATGAAATCTCCAAATTGCCAGAAATAGAATTCAGAAAGTTGATTATTAAGTTAATCAAGGAGGCACCAGAGAAAGGTGAAGTCC
Celera SNP ID:            hCV381120
SNP Position Genomic:     333989
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18726):
GGTGTTATAGGAGTCTTTTAATTTTTTTTGTTTCTGGGATCTTCCTCATTGTTTCTTGTTCTTTGTATTTGTATTTTCTATCCTTATAATTAAAAATGTT
Y
TGGCGAGTTAAAGGTTTTGTTTCGTGTTATTTCTCCTCCTCCACCCATGAAACATCTGTTGGGTTTACTTATTCTTTCACATTCCATTTTTCTTTTCTTT
Celera SNP ID:            hCV15808270
SNP Position Genomic:     48041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18727):
AGTCTTCCCTGATCACCTAATACAAAGAAGTTTTCTGTCCCCCTCATTCTTCAGTTAGCTAAAAATAATAGAAAACCCAAAACAATAGTTGCTTACACAC
M
ATAGAAGTTTCTTTCTCTGTCATATGAAATTATAGATAACTATGCACCAGAGTGTTAGCAACCCAGATTCCACTGTCCAGATGTTCCTTTCCAAGCCTAC
Celera SNP ID:            hCV2045902
SNP Position Genomic:     183926
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18728):
TTGGAGACTCACATAGTGAACTTTTGCTCTAAGAACTACCTCAAGAACATATCAGGAAAGCCAAGAGAATCCACAGACCCTTTGAAGGAACTGGATCACC
R
CTGCAGGCTTCCTGAGATGCCAAAAAAAACTATGAGTCTGTTTGCTTTCTCAAAGGAGAGGCTCTTGGTCTGGGGCAAGTTCTCAGCCCTAGTTACCTGT
Celera SNP ID:            hCV381121
SNP Position Genomic:     333005
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18729):
GTAGCCATATGTAGTTTCTTTTGACATCTTCTTGCAACTCCGTTTGAGCTGTGATACAAAGTTTACATGCCCAGTGCAGGGGAAATGATGTGTGTCTGCC
R
CTTTTGAGTGCTATGATTGTTCACTTCTTTAGATTCTCATAGTCTGTCCTGATAATTGCAGGAATTAGAAAAGGCTGGCCTAGAGTCCTTTCCTCACCTA
Celera SNP ID:            hCV8296050
SNP Position Genomic:     51700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18730):
ATTATTGTGATTCCCATTTCACAGGATAAAAAAAAGTTAAGTAGCTTATTCAGGATCAAAAGGCTGGTGAGCTTTATAGCCAGCATTCAAGCCAGGGTAT
R
TAGTGATAGGCATTTCTTGTTATTGACAAAGAAATCCTCTGCTTTAAGCATATATCGAATAATGCATAATGTAATAAATACCCTGTTTTTTCAAAAAAAA
Celera SNP ID:            hCV2045903
SNP Position Genomic:     188776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18731):
AGACATTTAATTCAAAAATTGCAATGAAATTGTGGTAAGTTCTCTGAATGTAGGATGTACAAATTACTTTGGGCACCTGGTAAAGAAACAGACCAACATG
S
CTTGGCTGGGTCAGAGCAACTTCACTAAGATGTTATTTGAACTTTCTTTCATAAAGATAAATAGAAATTCCTGAGATGAACAGTGCAGAATGAAGTATTC
Celera SNP ID:            hCV381122
SNP Position Genomic:     330483
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18732):
AAGTTTCTTCTTTATAGGAAACTTCCTAGATTTCTTCCTTTAGTCAGAATTAATGCTGATTTATGTTCTCTCATGAAATTGTACTTTGTACTTTCATTTA
S
TGCTGTGACTGTTCTTTTTAAAGTTATTGTTTACTTATTTTTTTCTCCTCCAGATTATACAATCCTTAAGGATAGTACTGGAATTTCCTCATCTTCCTAT
Celera SNP ID:            hCV2045904
SNP Position Genomic:     190747
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,17)   total(G,17|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18733):
CGTGTTAACTTGAAGAGCTGGTCCAGTGGGGATCTCTGATATTTGGAAATATTTTTCTAAGATTCATCCTTCTGGTATCTTCTTCTTTGTCTTCCCCTCT
Y
ACCACTCTTATAGATTCACTTTTTTGCTCAAGCCTTCAGCTTAAATTATATTCAATTAATCTAACAGAAGAGTTATTTGTGCTTTGTAAATATAATCAGT
Celera SNP ID:            hCV381123
SNP Position Genomic:     329749
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18734):
CAGAGGTGAAGACTTCTGAAATCAGAATCAATTTTCTAAAACATACCACATTAAAATAAGACCATAGACACGTTTTTCTGTCTATAAGTCTTTTTATTTT
R
ATGGTAGAAAATGTTGTAAGATTATTTCATTATCTTCTTATTGTTAACTGTTTTGGGGAAGAATCAAATCAGGAGAGACTGAGATTGGAGTCTTTTTATC
Celera SNP ID:            hCV2045905
SNP Position Genomic:     191250
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,11)      total(G,11|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18735):
ATTCTTACAGATTAAGGAAAAGAATTGCTGACAACTTAGGCTGACTTTTATATACCTATTTGTTTTCCTTCCTAATTCCTCTTAAAATGAAAATGCCAAG
M
TTTTCTTTTGATATTTGTTACATTTGTGAAATAATATAACAATGCAGTTAATGGGAAGAGCATGACCCCTGGATTCAGATATCCAATAGTTACAAATCTC
Celera SNP ID:            hCV2045906
SNP Position Genomic:     191838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,10)      total(A,2|C,10) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18736):
AATATAGCTATTACTGTTATTATCATCATCAATTATTCTACCTATAGAAATATGCAAGTTCCTTGGAAGTATACATTTCTGGAGAGTGATCAGGGATGGG
R
TATTATACTTTTATTTTTTCGGTTTCTCTTCATTCATTCAGTGGGTTATGGGTATGTGTGTGTGTGTGTGTGTGTTTCACACATTATGTGCTAGGCACTA
Celera SNP ID:            hCV2045907
SNP Position Genomic:     192148
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18737):
TTCGGTTTCTCTTCATTCATTCAGTGGGTTATGGGTATGTGTGTGTGTGTGTGTGTGTTTCACACATTATGTGCTAGGCACTATTTCAGGCACTTGGAAC
K
TACATTATTGTAGGGGTACAACTGGAAACTGATAAATGCTGTAAAAAAAATTAAACAAGCTAAGAGGTACAGGAGGTTGGGAGAGAGTTGCAATTATTAA
Celera SNP ID:            hCV2045908
SNP Position Genomic:     192266
SNP Source:               Celera
Population(Allele,Count): Caucasian(T,130|G,178)   Chinese(T,4|G,56)   Japanese(T,3|G,17)   African(G,26|T,74)   total(G,277|T,211)no_pop(G,1|T,8)   total(G,1|T,8)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18738):
TCGTGCTGATAGGCTTATAATAAAAACTAGCAGCCCCTTTCTCTCACTCCTTGTGCACCTTTACCTGTTCCCCAAGAACAACACTTTCAACTCTTTTAGC
Y
GTTCACATCAATTTGTCTAAAATCTAAATAATGTACTTTACAGCTTGAGATATCAATTTTAAACATTATACATTGATTTCCTATTATTGTAGGTAAGGAT
Celera SNP ID:            hCV381127
SNP Position Genomic:     279176
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18739):
ACTAGTGATTTGCATTGGCAACTGTGGTGTCTAGATTAGGTTTTGGCACTTTAGGACTCCACTCTCTTGTTTGTTAAAAACAAAACAAAACAAAACAAAA
M
AAAACTTGAATGGAAGCATAGACCATAATGAAGTACCACCCTCGTGTGACTTTAATTTCACAGTGGCCTATGAAAATTTATAGAAATTTGGCTTCATTTC
Celera SNP ID:            hCV2045909
SNP Position Genomic:     194293
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,10)      total(A,10|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18740):
TATGTTTTAAATTTATCCAGGGGATAATGCATAGCTAAAGATGACAATTCGTGCTGATAGGCTTATAATAAAAACTAGCAGCCCCTTTCTCTCACTCCTT
S
TGCACCTTTACCTGTTCCCCAAGAACAACACTTTCAACTCTTTTAGCTGTTCACATCAATTTGTCTAAAATCTAAATAATGTACTTTACAGCTTGAGATA
Celera SNP ID:            hCV381128
SNP Position Genomic:     279128
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,6)   total(G,6|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18741):
AGTGTTCATCAGGGTTCTCTTTCTTTTTTTTCCTCCTTTTACACATTGCACTCTTTGGAAGGAAATCACTACACTGTGTGTAGCCCACACTAAAGAGTTG
K
AAGGTGAGAGACAGACAGGTACAAAGAAAGAGGCAGTTATTAATTCCAGGATTTAAAAAAACAAGATGGCATTATACTCCACCTCTTTAAGGGTGTAGTT
Celera SNP ID:            hCV381129
SNP Position Genomic:     278071
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18742):
GCTGAAGTATTTAGGCAGAGGAGTTCTTGAGAGCCAGAGGGCTGAGATAGTGCTGGCTCTGACAGCTTCATGAGGGACATTAACATCTTCTGGCTAGGAG
R
GCTTGGGCCTATTTGTCAGCTCAGCCTGACTCATTCTTTTATTTTTTAAAATCAGCTGAATTGAGGTATAACTTATATAAAATAAATCAACCAATCTAAT
Celera SNP ID:            hCV27931049
SNP Position Genomic:     243689
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18743):
ACAGTAGGATGAGGCATGAGTTTTGCTGGGTAGATTATGTTTTAGTGTTTTTTATTATATTCTTTTTAAATTGCTCTTACATTAATTCAGCATCTATTTA
Y
TTATTGGGTATTGGTATGTGTGAGGCACTAAGGTTATAGCAATAGCATGGGGTGGGCAGTATGCTCTGAGCATAACCTGTAAAATTTGCATCCTGTCTCT
Celera SNP ID:            hCV29130740
SNP Position Genomic:     249851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18744):
ACATGTGTGGCAAGCATGAGACATTTCATTGTTTATTTTTCAAATTTCTGAAATGTGCTCATAGCTGTGCATGCCTCTGGGCTCATAAAGACAGCAAATG
S
AAATAGCTGAAGCCAGACAGACTGTTTTAGATAGATAGCCACCCAGGTAGGCAAGGAAAACCTTGTAGGTTACTCTTTCCTCCAATCAAGTCATATTAAT
Celera SNP ID:            hCV29130741
SNP Position Genomic:     253698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18745):
TGACCCCCCAGAACCAGATGAATGATTCATTTGTGATGTTTTTCTCTTATTAGGAAGCTTTAGCTGGACAAAGGTCATTCAGGATTATTTTAACATATGA
R
ATGCATTTGTTTTATTGAAAGAGATTAGAAATGTTATTTTGAAAGTTTTATACCTTACTTTAGAAGTCAAGTCTTATAACATTAGTAGGTTTTCACTTCA
Celera SNP ID:            hCV29130742
SNP Position Genomic:     273159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18746):
TTGTTATATATATCATGACAGTTAATACAATGCTGAGCGAATATTTGATGATTGTCTGAAATAACTTGAAAAAGTTTAGTGAAAAAATTGGGGGATGGAG
K
GGTTGGGAACTGGGCACAGACAATTCAGCCATCTAAGGAAGCAGTGGCACTTTCTTCACTGAGCCCTATTAAATTGAAAGATTGTGTTCTAGCACCAGGG
Celera SNP ID:            hCV29130743
SNP Position Genomic:     281172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18747):
GAGGCCATTGGCGGAAATAAATATGTTATTTGGTAATGGACTTGTTTTCTTAACAATTATAATATATTCTTTCCAAATGCTGTAATTTAATTCTGCCATT
S
TGCTAATTAGTCAGCCGATCAGCCTTCAGCATTGTTTCAATATCCCACCCACCACATTTTTATATTAAAGCTCATTTAATTGGTGTTGTGGGTTGAATTC
Celera SNP ID:            hCV29130744
SNP Position Genomic:     281444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18748):
AATGTGACTTATCAGAAGAAGAAATTTGGACACACAAAGGGACACTAGGGGCATGCAGAGGGGGACCACCTTGTGAAGAGACAGAGAACAGGCGGCCATC
K
GCAAGCCACAGAAAGAGACCTCAGAAGAAATCAGCCCTGCCAACAGTTTGATCTTCAACTTGAAGCCTCCAAACTGTGAGAAATACATTTCTGTTGTTTA
Celera SNP ID:            hCV29130745
SNP Position Genomic:     281769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18749):
TCAAAACACAAAATACTTAACAGATTAGTTACTATGGTATGTTCAAAGATCCTCTTGAGGTCAGTTGATTCCCAGAAAAGAAACAACTTATGCTCTTAAA
R
AAATTTTTATTCATGTGTACGCCAGACATCTAAAGTGTCAAATGTTATTATCAGCCACTGGGGAAAATGAACAAGCAAATAAAACTGAAGCAAATGTAAC
Celera SNP ID:            hCV29130748
SNP Position Genomic:     327178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18750):
CTTGGAGGAGGATTGAGATTTTGTGTAGAGGAGAGTTTGGTAAGAGTCCAAGAAAGTGGCGTTCGCTCTAGACTGGGCGCTGTTGGGAAGTGGGGACCAT
S
CTATGACTGTGTATCTTAATAAACTGTGTCTACAGGGACAGAAGCCCAGAAGGAGACTAAAGCTTTAATTAGTAAAGATGCAGCCATCACTTATATTTCT
Celera SNP ID:            hCV490395
SNP Position Genomic:     452162
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18751):
GTCTAGATTAGGTTTTGGCACTTTAGGACTCCACTCTCTTGTTTGTTAAAAACAAAACAAAACAAAACAAAAAAAAACTTGAATGGAAGCATAGACCATA
R
TGAAGTACCACCCTCGTGTGACTTTAATTTCACAGTGGCCTATGAAAATTTATAGAAATTTGGCTTCATTTCTAGTGGCTCCAATCCGGATGCCAAAATT
Celera SNP ID:            hCV2045910
SNP Position Genomic:     194321
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18752):
AGAAGAGGGGATGTCTGATATTTTGTGGTTTGCCAGTGACTTTGTTTTTTCTGGGCTTAAATGAAATTATGAACTGGCTAGTTTTGACTGACTTCAGTAC
R
GTCACAGAGTGACCTTGTCTGTTGCTGGCGTTCCATGAGATTAGTTATTTGTTCATGAGGAGAACAGATGGCATGGTTTCTTTAACAGCACTGATACCTA
Celera SNP ID:            hCV490396
SNP Position Genomic:     452364
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18753):
CAGAAGCAAGAGGGAAGATTGTTGTTTATAACCAACCTTACATCAACTACTCAAGGACGGTGCAATACCGAACGCAGGGGGCGGTGGAAGCTGCCAAGGT
K
GGGGCTTTGGCATCTCTCATTCGATCCGTGGCCTCCTTCTCCATCTACAGGTTTGTCACAATGTTCATTTGAATTCCTTTCAAAAACAAGGGTTTTCCGT
Celera SNP ID:            hCV2045911
SNP Position Genomic:     196102
SNP Source:               Applera
Population(Allele,Count): african american(G,22|T,14)   caucasian(G,10|T,22)   total(G,32|T,36)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,5)      total(G,5|T,2) ;JBIC-allele(G,273|T,1206)   total(G,273|T,1206)no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:18754):
AGAAGACCTCACAGTTGTCTGACTGTGTCCTCCATCACAGTCCTCCCAGTATTCAGGACAGATCTTAGGATTCCTCTCTTGAGGGTCACGTATCCCTGCT
K
TGTAATTCACCTCCTCTGTCCTCTATTTCAGGATGCTCGGCTCTAAATACACTGCTTGCCTCAACCTTCCCTTTGGATTGTAAGTTCCTTAAAGGAACTT
Celera SNP ID:            hCV381130
SNP Position Genomic:     276651
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18755):
GTGTCAGTTCTCTTTATCCATGACAGGAGACATGATGCTTCTTATGAAGCCTATGTTTGGATTAAATGAGAGGGAACAAGTAAATCCTAGCCATTGTGTG
K
CCGGTCTGTGGGGTTTTTTTCCCCTTCTTTCCATTCACATTTATGATAGATGAAGAGATATTGGTCCAGAGAGGTTAAATGCCTTGCCCAATATGATACA
Celera SNP ID:            hCV381131
SNP Position Genomic:     271120
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18756):
AGCTTCCTAGTTGCTCAGAAATTTCCGAGTACTAGGATTACTAAGGTGAATTCCATGTGTTTTTTGTCCTCAAGAAATATTTTTATGTAGCCAAAAGAGA
M
GGGGGTAAGAACATGTAAGTGATTAGTGTTATTTATTTTATATTTAGTGCTAAGTGAATGATTGGGGGAAAGGGATAAAGAAAGGAAATTACTATTTATT
Celera SNP ID:            hCV2045913
SNP Position Genomic:     200695
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18757):
GACATGAGTCATGTCATCCCCCAGAGGAGAGCTGGGAGTGGACATCTAAGAAACTCTGGTAGCCAGCCTGCCTGTCTGTGAATATATGGGAACATTTATA
S
AGGGAGGTGATATAAAAGCTGAAGACATGTTTAACCCAGATTACTTAGGCTTTTATTTTTCATTAAGTGGAAAAACTAATCAAATTTCAGACTCATGAAA
Celera SNP ID:            hCV381132
SNP Position Genomic:     270750
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18758):
GTGCCTACTTTCATTGTGATGGGGTTATAGAACTGTGATAGTCTTAAACTAGGTCAGGTACCCACCACTGAAACCAAGACTCAAGGTCAGTCTCACCCAA
W
CCATGGATGACTGTGGGGAAGAGGAGGTTCCCAAGAGGTTACCAGGTTTCTGTTTCCAAAAGAGAGGGAAATAGATGTTAAGCTAGTATGTGTTCACTCA
Celera SNP ID:            hCV27931051
SNP Position Genomic:     296426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18759):
TTCATATAAACATAGAATGGATTCAGGATTTGAGGTGATGCATTCCTTTTCCAATAGGTACTTCTGCATAACTACCCAGTAGAGAAGGATCCTTTCACAA
R
AGGTGTGGGAAAACTATACTACAAGCCTGCAGTAACCAAAATGGCATGTTACGGGTACAAAAACAGACACATAGGCCAATGGAACAGGTTAGAGAAGCCA
Celera SNP ID:            hCV490399
SNP Position Genomic:     453399
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18760):
TATTTTGGAGCCCGCATTCTGGAGACTCCATGCCTGTGTCTTTGTTCAGCCACTTGCCAGATGTGCCTCATTGGTGCCTCAGTTTCATCTGTAAAATGGG
K
GAAATATCTTCTTTGTTTTTCTTCCTGGAGTTTTGAGGGTTTTCTTTTTTTGTTTCATTTTGTTTTTGTTTTTCTGAGGCAGAGTTTTGCTCTTGTTGCC
Celera SNP ID:            hCV2045914
SNP Position Genomic:     203820
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18761):
CTGCCCCATCACCCAAGTGTGATTTTTGTGATTCTTGTGTTTCTCTAGTGTCTCACCAACTGTATTTCTAAAGCTTGGTCAGTGTTCCATCTTGGATTTC
W
TGTTTTGCCACTTGTGATGGCAATTTATAATAAAACCAAGATATGACCTGTTTTGTATCCAGCAATGAAACAAGTTGGAATCTGCCTGTGATGTGCAATG
Celera SNP ID:            hCV381133
SNP Position Genomic:     269977
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,3)      total(A,3|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18762):
TAAACAACCAGTGTGAGCCTGTTTTCTCATCTGTAACATGTGGAGAACAATGTTTACCTCATAGAGTTGTTGAGAGAATTAAATGAAATCAAGCCCTTGA
Y
ACAGACTGAAACATGGGAAGTGATTGATGAAATATAACTGACGTCTTATCTTGGCCATGGTCATTATTATCACTGTCATCATTAGATAGTGATGGGACTA
Celera SNP ID:            hCV2045915
SNP Position Genomic:     205580
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18763):
TGTTAATAAATGTGCTGTTGATAGGAAAATGTTGGCAGAAGTGCCAATATGAATAGTCTTCTAGTTGCTTTTCTGATGGTTGTGACATAATGAATCTCAA
R
TGTGACTTTTGTCATATAATTGGAGGCTCTGAACATTAAGAACATTTTCTTAAGGATCATCCAGGCAGAAAATGAGTTCACAGGTTTTTAACATTTTTAC
Celera SNP ID:            hCV381134
SNP Position Genomic:     268889
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18764):
TAAGAAATTGCCTAACTTTTTATTTTTATTTTTATTTTTTGAGACGGAGTTTCACTCTTGTTGCCTAGGCAGGAGTAAATGGCGCGATCTCGGCTCACTG
Y
AACCTCCGCCTCCTGGATTCAAGCGATTCTCCTGCTTTAGCCTCCTGAGTAGCTGGGATTACAGTCATGCACCACCACACCTGGCTATTTTGTATTTTTA
Celera SNP ID:            hCV2045916
SNP Position Genomic:     206872
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18765):
TTTATGGCTTCACTAATTGGCCAGAGCTACTACTGTGCTGTGGAGTATCAGTGTTTCCTTTGATGTGTTGTTCCTAGCCTCTCTATGGGCTTATATCTAG
Y
ATCCCAGGTAAACCTGAGAGTTATCCTGGGCAATGTGGATGCTGGTATTCCATTTTCTCAATTTTAGGGTTCTCCTCCTGTATCCTGTACAGGTCATGAG
Celera SNP ID:            hCV381135
SNP Position Genomic:     268662
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18766):
CCTCATTGCATCACATAAGGAAACAAATAATGTCACTTTTCCTTATTGGTGAGACCAAATTTGATCACTTGTCTAAGGCATTATCTCTGGATTTCTTTAT
Y
GAAAGGTAGCATTCCACCTTTGTAGAGGAAATACATTGCAATTATTGTGGGATGCTCTTGAGACTTTGTGAATCTTAAGTTCTTTAACAAAATTTCACCC
Celera SNP ID:            hCV2045917
SNP Position Genomic:     208125
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18767):
ATGGAAAGACAGGGAACTTTGTTCCAGAATACATCCTGTGTTCCTTGGAAATTATATTAACTCCTCTCAGCCTTAGTTTTCCCTCATGTAATGTGGATAA
K
GATACTTACCCTTTCCAAAATCAGAGGTCTTAGAAAAGTATTTTAAAAAATAAACTGGATAAAAGAGGTAATGCTAGTTACTTAGAATAGGAATTTATGT
Celera SNP ID:            hCV381136
SNP Position Genomic:     267236
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18768):
GATGCTCTTGAGACTTTGTGAATCTTAAGTTCTTTAACAAAATTTCACCCAGTGAGATTTTAACATCCGTTGATGACCCCTGCCTGAATCAATCATTGTA
Y
TGGAAGTTGCAAATGTTTTTCTAATTCAATTATTTCTATTACAATTATTTGCTGTGTGCTTTTGTAATAAAGAGCATCTGCCTCCTTTTCCTTCTTTTTG
Celera SNP ID:            hCV2045918
SNP Position Genomic:     208276
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18769):
CTTTGCCTTCTAGGAGGAAATACTCTTTCCTAGGTGCCACACTGTTGATACTTCTCAAGACCAAAATACCACAGGCCTCCAGCTCCTTGATAAAGCTTTA
M
TGTGTTGAATTGGCATAAATCAATTCCCTAAGTCTGCCTAGCAGAACCAAACTCTGAATATGGTGACCTCACAGGGTCACCTAGCTCAAGGCAGCCAGCA
Celera SNP ID:            hCV381137
SNP Position Genomic:     264989
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18770):
GCCACTTCAGGACTTGGATGAGATACTAAGCCATGGGGCACGCAATGTGGCCCCACATGTGTTGGAAGAAGCCAGATGATACACCCTGGACATGAAGGAG
M
GTTAACTCCTTGTAGGGTGAAATTTGACCAGAGGAGGGCAATGGACAGGAGGGAAGTGGCTAAATTCCCTCATCTTGCACTGTCCAATCGACTTCTCTGA
Celera SNP ID:            hCV381138
SNP Position Genomic:     263765
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,7)   total(A,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18771):
TTCCCCCTCAAAAGCAGAGTGTGAAACAAGGACTTACATGTGAGTAGTTTATTTGAGGAAATTATCCCAAGGAACAGAAGTGGGAGACTGGAAATGATTG
K
TCACAATAATCTCTGTCATTTCATAGCCATAGTTTTTCATCAACACTTTCCTAATGAGCTCATCTTTGGGATGCCAAGTGACATTGCTGTGTGCTTTCTT
Celera SNP ID:            hCV381139
SNP Position Genomic:     262695
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18772):
AGATTTGTTATAACATGGTCATTATTATCTGCTGTGGTCTGAATGTGTCTCCCAAGTTTCCTATGTTGGAAATGTTGGAAATCCTCAATGCAACAGTGTG
R
GGAGGTGAAGTCTCTGGGAGCTGTTTAGGTCATGAGGGATCTGCCCACATGAATGGATTGATGCCATTATAAAAGGGCTGGAAGGAGGGAGTTCACCCCA
Celera SNP ID:            hCV29130750
SNP Position Genomic:     345348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18773):
ACCACCAAAGTCTTCCCCATTTCAAAGTGTTTATTATTTCATGATTCTCTGCTTAATAAGTACCAAGGTTCAGCTTTTATTTTCACAGGTTGTTACCTGT
R
AAGAGGGTACAAAATCTGTTTTATCCTAACAAATTTAAGTTAGAATTTAGTTTGATCTTACGAGTCTTTAGGGAAATATATTTTAGGAGTCAAAATGTGT
Celera SNP ID:            hCV29130751
SNP Position Genomic:     357487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18774):
TGCATGTGACATTGGTCTCTTAAAGACAGCATACCAATAGGTCTTGGTTCTTTATCCATCTTGTCACTCTGTGTCTTCTATTTGGGGCATTTAACCCATT
Y
ACATTTAAGGTTAGTATTTATATCTATGGATTTGATCCTGTCATCATGTTAGCTGATTATTTTGCAGACTTGTTTATGTGGTTGCTTTATAGTGTCACTG
Celera SNP ID:            hCV29130752
SNP Position Genomic:     364228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18775):
TGTAGCCTTCTAAATATTTGACCTATATGAAAAATTCCAGCTTTGATTTCTTAGTCCAAATTGCAAATCAGCCAAACGTAGCTGATTCTGTCCTATATGA
R
TTGGTTATTACTGTCTTTCCCTTTCTTAGAACCCCTGGGAACAAACAAGAAAAAGTAAGGAAAACAAAATACTTATTAAAATGTAAATACAGTGGCTGGT
Celera SNP ID:            hCV29130753
SNP Position Genomic:     367580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18776):
TGGAGAAGTGGCTTCAAATTTCATTCTAATCAAGACACTAAGCTTTGCATTTATTTATTCCTTCATTACCATTTATTGGGCACCTAATGTGTGTCAAACA
R
TCTAGGAATTGGCGACATTACAATGAATAAAAAGCATAGATCCCTGTCTTCCAGAAGTTTACTTCTGGTTATTGGAGGTTTTGAGCCAAGAAATGACATG
Celera SNP ID:            hCV29130755
SNP Position Genomic:     388776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18777):
GTAACTGAGGGCTGGAAGAACGTACAGCATCCACCTGCCCTCACTGCCATAGCTGGCAGTGTTTTTTCCCCTCCAAAGCTCTGGAAAATACTTTATTATA
M
CTCACAGAGCCAAATGAGAGGCAATCAAACTGTTTTGTCATTTGAATTAGGAAAGGTCAAAGGGAAAGGAACATAATAGTAGACAGACAGAAAAGTGCTT
Celera SNP ID:            hCV29130758
SNP Position Genomic:     407813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18778):
TTTAAAAGATGGCATTATAATCTCTTGCATCTATGTGATCATTTATAAATTACGCTTTCGTGGACATCAAGTCATTGATGATAGTAATGACCCTGGTGGT
Y
GCCAGACCATGTACTGTTTTCCTTATTTCACACATGAAGAAACAGAGGCTCAAAGAAGTGAAGAATGTACCCAAGTTTGCATAGCACAGCCCATAAGGTG
Celera SNP ID:            hCV29130759
SNP Position Genomic:     408170
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18779):
CAAGAATAAGTACAAAACCTGAATAAGCCAATAACCATGAAAGAAATTGAATCATTAGTTAAAATTGTTATCATAAAGAAAACATCAGACTTTGATGGCT
Y
TGTTAAAAGTTCTACAAAATAACCAGGAAATAAATAATTCTAATCTTACACAAACTATCCCAGAATGTATAAAAAAAAGAAGGAAAACCATGTTATGCAT
Celera SNP ID:            hCV11334240
SNP Position Genomic:     501289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18780):
AAACTATGCAGCTCTGATGTTGAGGAGTATGAAAAGAGCTTTTTTTTTTTTTTTTTTTTGCAAGAGAAATAAGGATCTCAATATAGGTTTGCAGAGGCCA
R
CAGGGATGTATCTTTAGGATGGGTTTACCTCATATCTGTGTAATACAGAGAACTATAAATTATCCACCCACTCCAACCTCCCCATGTCATCAGTGGTTGT
Celera SNP ID:            hCV2045921
SNP Position Genomic:     208929
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18781):
AGGCTGGCCTAAGAATACAGTTTCCTGGTCTAGTTTGAGTTATTAGAGATAGTTTGGGAAAGAGAGAACGTGAAACCACCTAGATGGTCCTCATAGATTC
R
TTGAAGGCAGAAGCTTTATATATATTTTTTCTCATCAAAATTTTACCATGTTTACCATCTCACACCAGTCAGAATGGGTATTACTAAAAAGTCAAAGAAT
Celera SNP ID:            hCV381140
SNP Position Genomic:     241088
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18782):
AAACTGTAGTTTTGTATGGCTTTTGTCTGGGAATGCCATACTTTGTCAGAATAAGATGTGGTGTATATTTTAACATGTAATCCAATATGTTAACACAAAT
R
AAACTGTGACTTCATACATAGATGCATTTGCTCTTTGAGCTCTACAATCACAGGAATTCTGATAAATTCTATTTTGCATGACTTCCTTAAAAATATAAAA
Celera SNP ID:            hCV2045922
SNP Position Genomic:     210071
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18783):
TATAATGCACTGATTTATCATTTTGGTCATGGCAAACATTGGGATATATTTGTCTGCAAATAAAAGAAAACTCGACTAATGGTGGTTGTATTAGTCAGGA
Y
TATCCAGAGAAACAAAACCAATAGGATGTGCAAGTAAGCAGAAATTTTAACATACGGTAGAATTAAATTGGAAAGGAAACAAGGAAACTCATATATTTTG
Celera SNP ID:            hCV381141
SNP Position Genomic:     233638
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18784):
GAAATACGTTATTTAAGCAAATATACTGATAATGATGCACAGATGCTGTTTGTATACATTACTTTCCTCCTTTGAATTCACTAAGTACTGATTTCTTATT
K
GTGCCAGCGATCTTCAGAATTAGTTCTGTCCCCTTCTGTATCATTGTGTGAGACAAATATCTCATATACAACTTTTCTAAAGATTAGAAGACTAAAATAT
Celera SNP ID:            hCV381143
SNP Position Genomic:     232073
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18785):
GCTGCCCACTTCTTCCAGACAGCCAGTCTCATATGTCAACCTCTGCCACATCTGAAATTTCTCTCCCACTGCTCTAATGCGTGGGTGGACTTACAGCCTG
R
AAGCTGGAGGAGGGAGGAGGTACAGAGGACACAGAGAACATCTCTTTCCTTCCTGAAGGATGGAGGGAGAAGAACTTTCCCCCTGTCTGCTCCAGGCCTG
Celera SNP ID:            hCV15902127
SNP Position Genomic:     61727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18786):
CCCAGAGCACTTGACCCATTCAGGGATCCTGTGTTTGTCATTTCTCTTCAGAAATGATTATATTGGCACCTATCTCAGAATTGATATACAGATTAAATAC
R
GTCATGGATGAAATTATTTAGCCCACTATGTATCATCAATATTCATTAGATAGTAATCATTTTTATTGCTACTAATAGTAATCATCATCATCATTAGAGG
Celera SNP ID:            hCV381144
SNP Position Genomic:     231349
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18787):
ATAGTGTCTATACAGAAGACATAAATGTGCGTAAATGGGTATAAAATAAATACAATGCTGAGTGATACTTCGATATAGAAGAATATACAAAATATGGGTG
R
TGATGATCATAACTACCATTTATAAACCACATGTTGTCTGTCAGGCACAGTACAGTGCTTTATATATATATTTTTTTGGTATGATTATCAGAAGGAATAT
Celera SNP ID:            hCV381145
SNP Position Genomic:     231064
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18788):
ACTTTCAAACCATAGAATAAAGAAAACGAAAGGGGGAAAACTGCAAACAAATGTGCTATGAGATTAGATGGATTTGAAGGGGACTCGACAGTCTTGGGCC
Y
TTTGTTTTGGAAGATGGATTTTGAAAGTTATCTTTTATTGTATTCCTGTGAGGCCCATTTGTTTCCTACCCTTTTCTCTTGTCCCCCTCTTCCTTCTCTT
Celera SNP ID:            hCV2045927
SNP Position Genomic:     212779
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18789):
ATCCTTTAGTTGGTCTTTAGTGTGTTTTTATGGTGTCCAGTTTCAGTATTCATGTTGATCTCCTTTCACCCTTTGTCTTCACTGAGTCACTCTTGGCTCA
S
TATGGTAATCATTAGCACTGGTTTCTAGATATTTCTGGCTCTTCACCTGCACATAAAACAGGGCTGTACATCTCAGTCCCTTGGAGTTTGGGTGAGGACA
Celera SNP ID:            hCV381146
SNP Position Genomic:     228880
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18790):
ATACAATCATAGTGGAAGGCAAACAGCGAGCAGGCATCTTACATGGCAGGAACAGGAGCAAGAGGGCGAGGGGTAGGTGCTACACACTCTTAAATGACCC
R
TGAGAACTCACTCACTATCTTAAGGACAGTGCCAAGAGGGATAGTGCTAAACCATTCACGAGAAATCCACCTCCATAATCCAATCACCTCCCACCAGGCC
Celera SNP ID:            hCV8296075
SNP Position Genomic:     87563
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18791):
AGATGGCACGGCTGGAGAAATTCTTATCGGGCTCCCAGCTCACGTTCCAGGCGGCCTCTCTGTCTCTCTCCTCTATTCTTATTTGTTCATGGTTGACCCA
R
ATGGAAACTTGAAATGCAAATGTATTTCTTCTTGGAAGTTTCCAAGTAAAAAAGGTGATAGTGACTCAGCATAAGATGCTTACATGCCCCCAAAAGAATA
Celera SNP ID:            hCV2045928
SNP Position Genomic:     213814
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18792):
TGACTGATTTTGTTGGCCCTCACTTTCCAGAAAGGGAACCGTGGACATAAATGTCATGGGAAGGTATTTAGTAGAAGGTGTGATTTTTGGGGGCGCATAT
R
AAACATTCTAAAATTCAAGGCCAGGGCGCTGTGACAGGCTCTAATCTATGAATCATTATATTCTTAACATATTCTGAGAACAGGAAGAGAAAGCTCAACC
Celera SNP ID:            hCV2045929
SNP Position Genomic:     214231
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18793):
GCTATGGTTGTTCTAGATCATCCTATCACCTAGCCTTTACAATCACCACAGAGTAGCACGTTGGTTTCTGACTTTTGGAACAATGTTAACCTGCTTTTTC
R
CAGAGTTACGTATCTCAATAAATGGAATTACTACCTACATAGTTGTCTCGGCAAAATCTTGGGAATTCTTCTTTATCACCCACCATTCACCACTGTTGAA
Celera SNP ID:            hCV2045859
SNP Position Genomic:     69776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18794):
GGAGCTCTGTCCCAGGGAGAGATCAGAGCTCTGTTCATAAAACAGTTGCTGGAGGGGCTTAAGGAGGTCCTCTCTAGCGAGGAGGAATGACTTGGGGTCC
Y
GCTTACAGAAGCAGTCTGGCTGCTTTTTGGTAGGGCAGGTGTGCTGCATTGTAGCAGAGGGAACCCTTCCTAGTTTAGACCGTCTGTATTCTCCACATCC
Celera SNP ID:            hCV2087166
SNP Position Genomic:     3138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:18795):
AAGACAAGAAAGACGTGGAAGAGAGGAGCTTGAGCTGGACATTGAAAGATATGTAGTATAAGAATGGACAGGCCAGGCACGGTGGCCCACGCCTGTAATC
Y
CAGGACTTTGGGAGGCTAAGGCAGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCCTCTCTACTAAAAATACAAA
Celera SNP ID:            hCV29130761
SNP Position Genomic:     435514
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18796):
AACATGGTGAAACCCCCTCTCTACTAAAAATACAAAATTAGCCAGATGTAGTAGCGGGTGCCTGTAATCCTAGCTACCCGGGAGGCTGAGGCAGGAGAAT
Y
GCTTGAATCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTACAGCCTGGGTGACAAGAGTGAGACTCTGTCTCAAAAAAAAGAATGG
Celera SNP ID:            hCV29130762
SNP Position Genomic:     435679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18797):
TTTTTTGTTTTCTTTTCTTCAACTTTTAAGTTCAGGGGTACCCATTACTGGGTATATACCCAAAAGAATATAAACCATTCTATTATAAAGATACATGCAC
R
CATATGTTCATTGCAGCAGTATTCACAATAGCAAAGACATGGAATCAACCCAAATGTCCATCAATGATAGACCAGATAAAGAATATGTGGTACATATACA
Celera SNP ID:            hCV2087168
SNP Position Genomic:     1116
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:18798):
GAGTCTGTTTTCCTTCTCTGTTGTCTTTACATTCTCAGGATTATGTTGAAAACAGCAAAGAGTGCCATCTTATTAGCTCATATAGGCTTTACAGTCAGTG
Y
AGCCTGATTCACCAAAGCTACACACCCACCCTCACACACAGAAAACCACTTGGGGGCTGACTTACCTGGATTTGTGTCTAAATTATCCCATATATCAAAT
Celera SNP ID:            hCV29130763
SNP Position Genomic:     447590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18799):
GTGAAGTAGAAATCACAGTGATGAAAGCAGTGTCATACATTTCATGAAAGTACAGTTAATTTTCACCAAATGAGTTGCCAAGCTGGTAGTGGGTAAAAAT
K
TAAATGTTCATCTTTGATCAATTGAATTTTAATGTTGTGAATAGCTGTATGCCTTGATTTATACATCTGTAGCACATTTTAAACATCTGTGTTCAAGATG
Celera SNP ID:            hCV29130764
SNP Position Genomic:     449250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18800):
ATATTTTGGATCTTGCTTTAGCATACACAGGAAACCAATCTCCAGGCAGTTCTTCCTTATAATTTCTTTACAAGTTTCCCCTTAAAGAATTCCTAATGTA
Y
TTTCCTCAATAGTAACATAGATTTTTCTAGAGTTAGAAAATTATGAGAAAATAGAGTGAGCGGCTATCTCAAGTGTGTTTACTTGTCTAGTCCCCTGATA
Celera SNP ID:            hCV29130765
SNP Position Genomic:     460849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18801):
AGACTGCATAGGATGGCCTACCTCTAGTGAGAAACACTGAGTGCCACACTGGTTGTAAATGGGGTACTAGAAAGGCCTCTCTGAACTTCAAGGATGATAG
Y
ACTCAGCTTGCAGGGATTTTCTGAGAATTAGGGATTTTCTGAGAATCACATGCTAAAGCACCTACTAGTATGCATGGCACATAATAATCGCTCAACAAGT
Celera SNP ID:            hCV29130766
SNP Position Genomic:     465031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18802):
ATTTTTCTGAACATGATACATATTATTCATTAGCATTTAAGCTTATATCTAATGCACATTTTTAGATAGGATTTTTTAGTAGTAAGACTTTTTTATATGT
Y
TACCTATTATTATCCATGGTAGAGTTTCTTGTGACCTTGACCCTGTGATATCTGGAAATGAAAAAAGCCCATTTTGTTTCAGACTCTTGGTCCCTCTAGC
Celera SNP ID:            hCV29130767
SNP Position Genomic:     492483
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18803):
TTCAACTGGTAGATAGTGCTATGAAAAAGAAAAAGAAGCAGCAGCATGAAGGTAAGGGAGATAATGAGTGACCACATGGAGGGGTGGACTTTAGACTGAA
Y
GATCAGGGAGTCCCAGGAGGACTGGCAGGCCTGCAGAGTGTGGCCCGGCCACAGCGATGGGCTTGGTGTCAGGTAGGGCTGCCATTCATCTTCTGCCCAC
Celera SNP ID:            hCV29130768
SNP Position Genomic:     495408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 58
Celera Gene:                 hCG1783364 - 30000041553740
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W3E9(4428206..4443281)
Chromosome:                  ChrX
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12218):
TACTCTGCTTTCCCAAATGTCAGAGGAAGCAGAGTGGTTTACAGTCCTGAACCTTAAGGATGCCTTTTTCTGCATCCCTGTACATCCTGACTCTCAATTC
TTGTTTGCCTTTGAAGATCCTTCAAACCCAATGTCTCAACTCACCTGGACTGTTTTACCTCAAGGGTTCAGAGATAGCCCCCATCTATTTGGCCAGGCAC
TAGCCCAAGATTTGAGCCAGTTCTCATACCTGGACACTCTTGTCTTTTGGTATGCGGATGATTTACTTTTAGCTGCCCGTTCAGAAACCTTGTGCCATCA
AGCCACCCAAGTGGTCTTTTTATAAATTTTTTATTTATTTATTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGC
TGACTGCAGGCTCTGTCTCCTGGGTTCACACCATTCTTCTGCCTCAGCCTCCCAAGTGGCTGGGACTGCAGGCGCCCGCCACCACACCTGGCTAATTTTT
TTGTATTTTTGGTAGAAACGGGGTTTCACTGTGTTGGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCTGCCCGCCTCAGCCTCTCAGGGTGCTGGGA
TTGCAGGCATGAGCCACTGCGCCCAGCCCCACCCAAGTGTTCTTAAATTTCCTTGCCACCTGTGGCTACAAGGTTTCCAAACCAAAGGCTCAGCTCAGCT
AACAGCAGGTTAAATTCTTAGGTCTAAAATTATCCAAAGGCACCAGGGTCCTCAGTGAGAAATGCATTCAGCCTACACTGGCTTATCCTCATCCCAAAAC
CCTAAAGCAACTAAGAGGGTTCCTTGGCATAACAGGCTTCTGCCAAACATGGATTCCCAGGTACAGTGAAATAGCCAGGCCATTATACACACTAATTAAG
AAAACTCGGAAAGCCAATACCCATTTAGTAAGATGGACACCTGAAGCAGAAGTGGCTTTCCGGGCCCTAAAGAAGGCTCTAACCCAAGTCCCAGTGTTAA
GCATGCCAACAGGGCAAGACTTTTCTTTATATGTCACAGAAAAAGCAGGAATAGCTCTAGGAGTCCTTACACAGGTCCGAGGGGCCAGCTTGTAACCTGT
GGCATACCTGAGTAAGGAAATTGATGTAGTGGCAAAGGGTTGGCCTCATTATTTATGGGTAGTGGCAGCAGTAGCAGTCTCAGTATCTGAAGCAGTTAAA
ATGACACAGGGAAGAGATCTTACTGTGTGGACATCTCGTGATGTGAATGGCATACTCATTGCTAAAGAAGACTTGTGGCTGTCAGACAACCGTTTGCTTA
AATATCAGGCTTTATTACTTGAAGGACCAGTGCTGCAACTGCACACCTGTGCAACTCTTAATCCAGCCACATTTCTTCCAGAAAATGAAGAAAAATAGAA
CATAACTGTCAACAAGTAATTGCTCAAACCTACACCACTCGAGGGGACCTTCTAGAGGTTCCCTTGACTGATTCCGACCTCAAATTGTATACTGATGGAA
GTTTCTTTGTAGAAAAAGGACTTTAAAAAGCGTATTATGCAGTGGTCAGTGATAATGGAATACTTGAAAGTAATCCCCTCACTCCAGGAACTAGTGCTCA
GCTGGCAGAAATAATAGCCCTCACTCAGGCGCTAGAATTAGGAGAAAGGAAAAGGGTAAATATATATACAGACTCTAAATATGCTTACCTAGTCCTCCAT
GCCCATGCAGCAATATGGAGAGAAAGGGAATTCTTAACTTCTGAAGGAACACCTATCAAACATCAGGAAGCCATTAGGAGATTATTATTGGCTGCACAGA
AATCTAAAGAGGTGGCAATCTTACACTACTGGGGTCATCAGAAAGGAAAGAAAAGGGAAATAGAAGGGAACCGCCAAGTGGATATTGAAGCCAAAAGAGC
CACAAGGCAGGACCCTCCATAAGAAATGCTTATAGAAGGACCCCTAGTATGGGGTAATCCCCTCCAGAAAACCAAGCCCCAGTACTCAGCAAGAGAAAGA
GAATGGGGAACCTCACAAGGACATAGTTTCCTCCCCTCAGGATGGCTAGCCACTGAAGAAGGGAAAATACTTTTGTCTGCAGCTAACCCATGGAAATTAT
TTAAACCCTTCACCAAACCTTTCACTTAGGCATTGATAGCACCCATCAGATGGCCAAATTATTATTTACTGGACCAGGCCTTTTCAAAACTATCAAGCAG
ATAGTCAGGGCCTGTGAAGTGTGCCAAAGAAATAATCCCCTGCACTGCAGGCCATACAAATCCCCTGCACTGCCAGGACACACATTTCAATCCCTGTATC
TTTAACCTCCTTGTTAAGTTTGTCTCTTCCAGAATCGAAGCTGTAAAACTACAAATCATTCTTCAAATGGAGCCCCAGTTGCAGTCCATGACTAAGATCT
ACCGTGGATTCCTGGACCGGCCTGCTAGTCCATGCTCGGATGTTGATAACATCAAAGGCACCCCTCCAAAGAAAATCTCAATGGCATGATGCCTACTATG
CCCCAATTCAGCAGGAAGCAATTAGAGCGATCATCAGCCAACCTCCCCAACAGCACTTGGGTTTTCCTGTTGAGAGGGTGTGACTGAGAGACAGGACTAG
CTGGATTTCCTAGGCCGAATAAGAATTCCTAAGCCTAGCTGGGAAGGTGACCGCACCCACCTTTAAACACAGGGCTTGCAACTTAGCTCACACCCGACCA
GTCAGCTAGTAAAGAGAGCTCACTAAAATGCTAATTAGGTTAAAACAGGAGGTAAAGAAATAGCCAATCATCTATCACCTGAGAGCACAGAGGGAGGGAC
AATGATCGGGATATAAAACCTAGACATTTGAGCCGGCAGCGACAACCCCCTTTGGGTCACCTCCCATTTTATGGGAGCTCTGTTTCAGTCTATTAAATCT
TGCAACTGCAAAAAAAAAAAAAGTTAAATGAACAACATCTTCAAGAAATATAAGATTGTGTAAAGCAACCAGATCCGCAATGCATGGCCATTCCTGAGGG
AGAAGAAAAAGTAAGAAATTTGGAAAACATATTTGACGGAATAATTCAGGAAACATTTCCTGATTTTGTTAGAGTTGTAGATATCCCGATACCAGAAATT
CTGAGAACACCTGTGAGATATTACAGAAGATTAATATCATCAAGGCTTATAATTATTTGATTATCCAAGTTCAATGTGAAAAAACAAATCTTAAAAGCAG
CTCCATTGATGGGCATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCACGATTTA
TAATCCTTTGGGTATATACCCAGTAATGGGACGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTTTGATAGACTGGATTAAGAACATATGGCACAT
ATACACCATGGAATACTATGCAGCCATAAAAAAGATGAGTTCATGTCCTTTGTAGGGACATGGATAAAGCTGGAAACCATTATTCTCAGCAAACTATTGC
AAAGAGAAAACCAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACATCGGGGCCTGT
TGTGGGGTGGGGGGAAGGGGGAGGGATAGCATTAGGAGATATACCTAATGTAAATGACGAGTTAATGGGTGCAGCACCCCAACAAGGCACATGTGTACAT
ATGTAACAAACCTGCACATTGTGCACATGTACCCTCGAACTTAAAGTATAATAATAAATAAAAAAAGAAAAAAAAAGCAGCTACAGAGAATCATCAAATT
ACCTATGATGGAAATCCCACTAGTCAAACAGTGGACTTCTCAGCGGAAACCTACCAAGCCAGTAGAGATTGAGAGCCTGTTTTTAGCCTCTGTGAAGAAA
AAAAAAATGCCAGTAAAGAATTTTATATCCTGCCAATTAAGCTTTATAAATGAAAAAACGTAAAGTACTTCCCAGATAAGCAAATGCTAAGGGAATTCAT
CATTGAACCAGCCCTACAAGAAATGCTCATAGAAGTACTAAATATGGAAACAAAAAAATGACACTGACATCATAAAAGCACATGTCACATGTGCACATGA
GCAAAACTCACAGATCTTATCTGGCAATTACATGATTGAGACTACAAAGCATATAGCTAACATCAGTGTGACAGAAACAGAACCTCATGTATCAGTACTA
ACATTGAATGTAAATGGCCTAAATACTGCACTTAAAAGATATAGGCTGGCATATTGGATGAAAAAGCAAGACCCAACTAACTGCTGCCTAAGACACCCAC
CTAATGGTTACAGACAAAAAGCAAAAGGGGGAAGAAGATGTATCACGCAAATGGAACAGAAAACTGAGCTACTCTTTAAACAAAAGTAAACAAAAAACAA
AGAAGGGCATTATATAATGAGAAATATAACTATCCTAAATATATATGCACCCAACACTGGAAGACCAAATTCATAAAACAAATATGACTAGACCTAAGAA
AATAGAAAGCAATACAAAAATAGTGGGAAACGTAAATAACTCACTGACAATACTAGACAGATCACGAAGGCAGGAAATCAATAAACTCTGGACTTAAATT
GGACCCAGACCAAATGAACCGCATAGATATTTACACAACATTTGACAATGTTATGTAAATGACAGAATATACATTTTCTTATCTGCATATAGAACATTCT
CCCAAATTAACTACATGCTTGGCCATATAGCAAGGCTCAATACACTTGAAAAAATAATAATTATATCAAGTATCTAATTGGACCACAGTGGGATAAATGT
AGAAATCGATATGAAGAGGAACTCTCAAAACAACACAAATACATGGGAACTAAATAACTTGCTCCTGCATGACTTTTGGGTAAACAATGAAATTAAGGCA
GAAATAAAATAATATTTTTGAAACACAAAAATGGGGACACAACATACCAAAACTCCTGGGATGCAACAATAGCAGTATTAAGAGGAAAAATCATGGCATT
AAATGCCTTCATCCAAAAGAGAGAAAAATCCCCAACTAACAACCTAATGCTCCACTTCAAGGAAGTAGAAAAACAAGAAAAAAAAAAAAAAAACACTAAA
CCTAAAGCTAGCAGAATAAAAGAAATAACTAACACCAAAGCAGCACTAAATGAAATTAAGATTAAAATAATTATACAATCATTAAAATGAAAAGTTTGTT
CTTTGAAAGGATAGACAAAATTGATAGACCACCAACTAGATTAATTGAGAAGACAGCTGACTCAAATAAACACAATCAGAAATGATAGTGTTGACATTAC
AACCAATATCACAGAAACAGAAAAGATCATCAGAGACTATTATGAACACAAACTAGAAAACCTAGAAAACATGGATACTTCCTGGACACATACAACCTCC
CAAGATTGAACCAGAAAGAAATGGAAATCCTAAACAGACCAATAACAAGTAATGAATTTGAATCTGTAATACAAAATATCCAACAAAAATGGCCCAGGAC
CAGATTGATTCACAGCTGGATTTTACCAGACATACAAAAAACTTGTCCCAATCTTACTTAAATTATGCCAAAAAATCAAGGAAGAACAATTCCTCTCTAA
CTCATTCTATGAAAGCAGTATCACCTGATACAAATATTATGCAAGGAAAGAATAAAAAAACCTTACAAGCTAACATACCTGGTGCATACTGATGCATAAA
TCCACAATAAAATATTAGCAAATTTAAACAAACAGTACATCAAGCCATGTGGGTTTGATACCAGAGATTCAAGGATGGTTCAACATATGCAAATCAATAA
TGTAATTAACCACATAAACAGAATAAAAAACAAACACTACATGATCATCTCAATTGATGAAGAAAAACGACTTGATAAAATCCAACATTTCTTCACAACC
AACTAGGCATTTAATATACATACCTCAAATTAATAAAAGCCATCTATGACAAACCCATAGCCAACATCATACTGAATGAGGATAAGGTTAAAGCATTCCT
CCTAAGAACTGAACAGGATATTGGTGGTGTCCATCGTGGGCAGCAGACTAATAAAGGCCATGGCACCAGCAGAAATCCTGAACAGGAAGGAGATCTCCGC
ACAAATAAGGGCGAGACTGAAGAATCAAGTCACTCAGTTGAAGGACAAGTACCTGGTTTCACACCAGGCCTGGCAATATTACAGGTTGGCAACAGAGATG
ATTCCAATCTTTATATAATGTGAAGCTGAAGGCTGCTGAAGAGATTGGGATGAAAGCCACTGACATTAAGTTACCAAGAACAACCACAGAATCTGAGGTG
ATCAAGTACATCATATCTTTGAATGAAGACTCTACTGTACACRGGTTCGTAGTGCAGCTATCTCTAGACTCAGACAATACACTGAAGGAGTGATCAATGC
TATTGCACCTGAAAAGGATGTGGATGGATTGACTAGCATCAGTGCTGGGAAACTTGCTAGAGGTGACCTAAATGACTGTTTCATTCCTTGTATGCCTAAA
GGATGCTTGGAACTCATGAAAGAGACAGGGGTGCAGATTGCCAGAAGGCATGCTGTGGTGGTTGGGTGCAGTAAAATAGTCAGGGCCCTGATGYGTGACT
TGCTTCTGTGGAACAATGCCACAGTGACCACCTGCCACTCCAAGACTGCCAATCTGGATGAGGAGGTAAATAAAGGCGACATCCTGGTGGTTGCAACTGG
TYGGCCTGAAATGGTTAAAGGGGAATGGATCAAACCTAGCAATAGTCATCAACTGTGGAATCAATTATGTCCCAGATGATAAAAAAAACAAATGGGAGAA
AAGTTGTGGGTGATGTGGCATACGACGAGGCCCGTTCCTGGTGGCTTAGGGCTCATGACGGTTGCAATGCTCATGCAGAGCACTGTAGAGAGTGCCAAGC
RTTTCCTGGAGAAATTTAAGCCAGGAAAGTGGATGATTCAGTATAACAACCTTAACCTCAAGACACCTGTTCCAAGTGACATTGATATATCACGATCTTG
TAAACCGAAGCCCATTGGTAAGCTGGCTTGAGTAATTGGTCTGCTGTCTGAAGAGGTAGAATTATATGGTGAAACAAAGGCCAAAGTTCTGCTGTCAGCA
CTAGAACGCCTGAAGCACCAGCCTGTTGGGAAATATCAGGTGGTGACTGGAATAACTCCAACACCCCTGGGAGAAGGGAAAAGCACGACTACAATCGGGC
TGGTGCAAGCCCTTCTTGCCCATCTTTACCAGAACTTTTTTATGTGTGTGCGACAGCCTTCTCAGGGCCCCACCTTTGGAATAAAAGGTGGTGTTGCAGG
AGGCGGCTACTCCCAGGTCATTCCTATGGAAGAGTTTAATCTTCACCTCACAGGTGACATCCATGCCATCACTGTATCTAATAACCTTGTTGCTGCGGCT
ATTGATGCTCAGATATTTCATGAACTGACCCAGACAGACAAGGCTACCTTTACTCATTTGGTGCCATCAGTAAATGGAGTGAGAAAGTTCTCTGATATCC
ACATACAAAGGTTAAACAGACTAGGCATTGACAAGACTGACTCTACCACACTGACAGATGAAGAGATAAACAGATTTGCAAGATTGGACATTGATCCAGA
AACCATAGCTTGGCAAAGAGTGTTGAATACCAATGATAGATTCCTGAGGAAGATCACGATTGGACAGGCTCCAACGAAGAAAAGTCACACACAGACGGTC
CACTTTGATATCTCTGTGGCCAGTGAAATTATGGCTGTCCTGGCTCTCACCACTTCTCTAGAAGACAGGAGAGAGAGACTGGGCAAAATGGTGGTGGCAT
CCAGTAAGAAAGGAGACCCCGTCAGTGCTGAAGATCTGGGGGTGAGTGGTGCATTGATAGTGCTTATGAAGGACACAATCAAGCCCAATCTCATGCAGAG
ATTGGAGGGCACTCCAGTGTTTGTCCATGCAGGCCCATTTGCCAWCATCGCACACGGCAATTCCTCTATCATTGCAGACCGGATCACACTCTAGCTTGTT
GGCCCAGAAGGGTTTGTAGTGACGGAGGCGGGATTTGGAGCAGACATTGGAATAGAAAAGTTTCTTAACATCAAATCCCAGTATTCCGGTCTCCACCCTC
ACGTGGTGGTGCTTGTTGCCACTGTCAGCRCTCTAAAGATGCACAGGGGTGGCCCTATGGTCACTGCTGGAATGCCTCTTCCCAAGGCTTACATAGAGGA
GAACCTGGAGCTGGTTGAAAAAGKCTTCAGTAACTTGAAGAAACAAACTGAAAATGCCAGAATGTTTGGAATTCCAGTAGTAGTGGCCGTGAATGCATTC
AAGAYAGATACAGAGACTGAGCTGGACCTCATCGGCTGCCTTTCCAGAGAACAGAGGGCTTTTGATGCCGTGAAGTGCACTCACTGGCAGAAGGGGGCAA
GGGTACCTTAGCCCTGGCTCAGGCTGTCCAGAGAGCAGGACAAGCACCCAGCAGCTTCCAACTCCTTTATGACCTCAAGCTCCCAGTTGAGGATAAAATC
AGGATCATTGCACAGAAGATCTATGGAGCAGACAACATTGAATTACTCCTCAAAGCTCAACACAAAGCTGAAGTCTACACAAAGCAGGGCTTTGGGAATC
TCCCCATCTGCATGGCCAAAACACACTTGTCCTTGTCTCACAACCCAGAGCGAAAAGGTGTCCCTACAGGATTCATTCTGCCCATTCGCAACATCCATGC
CARCATCGGGGCTGGTTTTCTGTACCCTTTAGTAGGAACGATGAGCACAATGGACTCCCCACCCAGCCCTGTTTTTATGATACTGATTTGGACCCTGAAA
CAGAACAGGTGAATGGATCATTCTAAACAGATCATCATCCATCTTCAAGAAGCTACTTTGAAAATCTGGCCAGTGTCTATTCAGGCCCACTGGGAGTTAG
GAAGTATAAGGCAGCCAAGAGTCAGCCCCTGCCCAGAAGATCTGAAACTAATAGTAGGAGTTTTCCCGGATGTCATTTTCAGCCTTAATTCTCATCGTGT
ATAAATTAACATAAATCATGCACATGTCTATTTACGTTAGTGACGTTCCACAGAATAAAAGGAAATAGTTTTGCCAAAAACAAAAAACAAACAAACAAAA
AAAACAAGAACTGAAAAAAGACAAGGATCTCCACTCTCACCACTCCTATTCAACATAGTACTGGCAGTTCTAGCCAGAGGAAAGGGATCCAAATTTAAAA
AGAAGTAGTCATGTTATCTCTGCTTGCTGATGACATACCTAGAAAACCTAGACTTTACATAAAATTCCTATATTTGATAAACAATTTTGGTAAAGTTTCA
GGATACCAAATCAATGTAAATAAAGTCAGTAGCATTTCGATACACCAATAGCATTAAACCTAAGAAACAAATAAAAAATTCCATCCCATTTACACTAGCC
ATTTACAAAAATAAAATACTAGAAATATGTTTAACCAAGGAGGTTAAAGATCACTATAAGGAGAAATACAAAACACTGATATAATAAATCATAGATGCCA
GAAATAGAAAAAGATCTTATGCTCATGGACTGGAAGTATCACTAGTTAAAACGACCATACTGCCAAGAGCAATCTACAGACTAAACATAACTCCTATCAT
TACAAAGATAATTTTTCACAGAATTAGAAAAAAAATCCTAGAATACATATAAAACAAAAAAAGAGCCTGAAGAGCCAAATAAATTTTTCATAAAAAGAAA
AAAGAGGCCCCACATTATCTGACTTCAAAATATACTAAAAAACTATAGTAACAAAGACTGTATGGTAATGGTAAAAAAATGGAGACATAGAATGGAACCA
AATAGAGAATCAAGAAATAAAGCCACATACCTATAAAAAACTGAACTTTGACAAAGTTGACAAAAATAAACAGTGAAGAAAGGATATGAAATATTGCTTT
ACTGAATAGCAATAAAGAGTTCTGGCAAAATTGGCTAGCCATATTCAGAATAATGAAACTGGACCCCTCTCTCTCACCATATACAAAAATGAACTCAAGT
TTCATTTATGACTTAAATGTAAGACCTCAAACAAGAAAAATCCTAAGAAAAAAAAATAGAAAAAACTTCTGACATTGAGGGAAATAATTTATGACTAAGA
CCTCAAAAGCAAATGCAACGAAAACAAAAGTACACAAATGGAACATAAACTATTTTAGCTTCTGTACAGCAAAGGAAATAATCAACAGAGCAAAAAGACA
AACTACAGAAGAGAAGAAAATATTTGCAAATTATGCCTCTGAAAATGGTCTAATATCCACAGTCTACAAGAAACCAAAACAAATCAACAAAAAAAACCCC
ATTAAAAAGTGAGCAAAAAACATGAATAGACATTTCTTAAAATAAGACATGCAATTAGCTACAAAAAAAAATTATGAAAAGGTGCTCAACATCACTAGTC
ATCAGAGAAATGTAAATTAAAACCACAATGAGATACCATCTTACACCAGTCAGAATGGCTATTTTTTAAGGTAAAAAATAACAGTTGTTGGCGAGAATGC
AGAAAAAAAGGAATGCTTATACACTGTTGGCATATTGTAAAGTAGTAAAATTTCTGTGGAAAACAGTATGGAGGTTTCTCAAAGAACCAAAATAAAGCTA
CCATTCAGCACTGCATTTCCACTCCTGACTATCTAACCAAAAGAAAAAAATTATTATATCAAAAAGACACCTAAACTTGTGTGTTGTGTTTATTGCAACA
CTATTTACAATAGCAGTCATGGAATAAACCTAAGTTTTTATCAATGGTTGACTGGATAAAGAAATGTGATATATAAACACCACAGAATACTATACGGCCA
TAAAAAATGAAAGCATGCCCTTTGCAACCACGTGGATTTAGCTTGAGGCCATTATCCTAAGTTAAACAACTCAGAAACAGAAAGTCTGTTTCTCACTTAT
AAGTGGAAACTAAACAATGGATACACTTGGACAAGTAGGCAGAAATAATTGACACTGGCAACTCAAAAATATGGAAGGGTGGGAGGTAGATGAGGGCTGA
AAAATTACCTGTGGGATAAAATGTTCACTGTTTGCATGACTGGTACACTAGAAGCCCAAACTTCACCATTACACAATATATCCATTTAACAACATGCACA
AGTACCCTTTCAATCTAAAATAATAAAAAATAAAGTACAATAAATATAAGACTTGACTGTGAAATTCCTAGAGGAAAATAGAGAGAAAAAGCTCCGTGAC
ATTGGTCTTGGCAATTGTTTTTTGCATGTATCTCCGAAAGCACAGGCTAATAAAGCAAAAATAGACAAATTGGTTTAGAGCAAACTAAAAAGTATTTTCA
CACAAAGAAAACAATATAAAATACAAAGGCAACCTACTGAATGGGATAAAACATTTGTAAAACATATATTTGATATAGGATTAATATTCAAAATATACAA
GGAATTCATAGAACTTATCAGAAACAAATAACTTAATTGAAAAATTGGCAAACAACCTGAATAGACATTTCTTCAAAGGAGACATGCAACTGGCCCCTAG
GTATATGAAAAAAAAAAATCAACAACACTAATCATCAGGTGAATGCACACCAAAGCCAAGATGAGATGTCACCTCCCACCCAATAGCATAGCTATTATTT
TTTTTTAAAGGTAAGTGTTGGTGAGGACAGGGAGAAAAGGGAAACCTTGTACACTGTGGTAGAAATGTAAATTTGTACAGCCATTCAAAACATTAAAAAT
AGAACTACCATATGATCCAGCAATGCTACGTCTAGTAATATATTTGAAGTAATTCAAATCAGGATCTCTAAGAAGTAACTGCAATCCCATGTTCTCTGCA
GTATTATATATAATTGCTAAGATATTAAAACATCCTAAGTGTGTGTTGATGGATGGATAAAGAAAATGCTGTATATACATGCACTGGAATATTATTCAGC
CTTAAAAGTATAGAAAATTTTGCAATTTTCAACAATATAGATGGACCTGAAGGGCATTATGTTAAGTGAAATAAACCAGACACAGAAAAACAAATGTTTT
ATAATATCATTTATTTATGTAATCTAAAAAAGTCAAATTCCTAGAAGTAGAGAGTAGAATCGTAGTTGCCAGGAATTGGGGTGGGGTAAGGGGATGAAAT
AAAGCTATATTGGTCAGAGGGTACAAACTTTCATTTGTATTAGTCATTATATATTATATATGTATATATATATATGTGTGTGTGTGTGTAGGTGTGTGTG
TGTGTGCGTGTGTATGTGTGTGTGTAAGGGTACTAAAATTAGGGTACTCCANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAGTAC
CATAACAAACCCACTTTGGAAGACAATCTCAAGATTTCTAACAAAGCAAAGTATATTGTGTTCCTTGGTACTACCTAATTGAATAGAAAACATGTCTATG
GAAAAGGTGCACATAAATGATTATAACAGCTTTTGTTCAAAGATAACAATATTTTGAAACAACCAAGATGTCCTTTACTAGGTAAATAGGTAAAAAATGG
TGGCACATCCTTAAAATGAAATATTATTCAGAGATAAAAAGAGTTACCAAGCCACGAAAAGACATGGAGGGAACTTAAATGCGTATTTCAATGTGAAAGA
AGCAAGTATAAAACGGTTACATAATTTAGATTCTAAATATATGATATTAGGGGAAAGGCAAAAGTATAAAGACAGTAAAAAATCTGTGGTTTCCAGTAGG
AGTGGAGAGAATGTATGAATAAATAAGTGATGCACAGAAGTTTTTTGAGTGGTAAAAACTACTATTCTGTATGATATTGTAATGATAGTTACATGGCATT
ATGCATTTGTCAAATGCTGTAAAACTGTACAATATAAACACTAATGTAAACTATGGAGTTTAGTTAATAATATATCAATATTGTTTCATCAGTCATGAAA
CATGTACCCTACTAGTGAAAGAAAGAGGGGCTACCCATGGACACTGTACTATCTGCTCAATCTTTTGGTAAATATATAACTGTTCTAAAAATAAAATCTG
CTAATAAAAAAATCCAACAGCACACAAGGCCTTGGCATATTTTTCTACAAAATAGGTAAAAGTAAGGTGTTGCTAGGAAATATAGAAATGATAAAAAGAC
CTGGATTATAAAATATCCCCCACAAAGTTTGATGTCCTAACTCCTTTCCTTTTATTCTGACTTAGAAAGAATTACAGACCAACATCAGTTAGCAACTATT
GAGTTTCTGCTACAAAATCAAAAAAGCTCCCTCTTTATATTGAACCTGAAAGTGGATAAAGTTCAAATTGCTATATAAAGTTATTAACTTTAGAGAAATA
TTTAAATGTATTATGCCATATTAAAATTCTGGAATACTAAATCCTTAATATTTTTATTCTCCTGAGTCAAAAGTTTTCATTTCTTCTTGGCTATTTATTC
TGACAGGAGAACCTTAACATCATTTTCTCAACTTCCATAATAAAAGTTGCTAATTTGATTTTAATTGCTATAAAATATAGCCATCCTGTCCTAAAACATG
GTATTTTTCTGACAATAGCTTGGGAATGGTGGAGGTGGCACACATCCTTACCCCACCTCCAATGATGTAATAATGTCTTTCTCTATTTACCTCCTCCCTC
CTCAGATACACACATCACTCATTCTCATGTTCCTCCACTTCCTCCTTTTCAGAAAATATACAGAAACAAAGATACATAAATTAATTTATGCAATGACAGA
TTATAGAACAGCAGGCCTGTTGGTGTTTCAGAAATGCATTTATCACTGTGATGGAATTTTGGAGTGTGCCTAGGAACTTTATAAAATGGAATGATATTTG
TAATCCCAGTGACAGGGATTATATAGGCTATGGGATCTATCCACCAACAACTCAAGCTATAAAACTAAGTTTCTTTTTTTATTCAAAACTCATTTTAGGA
CTCTTAGTAAAGTTCTGTAATTTTTCTCTGGTAGGTTCTACAACCTTATTTTTAGAGTCTGTAGGCATTTTGTAGGATTTTCTGTTTGTCTTCTCTGTTT
TCCTCATTCTACTTTTTATCTGGTTATTGCTGATATGTTAGCTATGGTTTTTCTCATTTTCATCGTACATCCTATTTTAGGTTGAACTCATTTATTCTAA
GAGTTTTAAAATAGCACTCCTTGAGTTTTACAAGAATATACTCATATCTTAATCTATAAATAATTATTGATTTGTCTTTTTTCATAGTCATACCTCTTAT
TTCTAATTTATCCTTGGCATACTTTCTATAAATAATAATGGTGATGGTTAGCATGCTTATCTAACTTTATATTTTAAAGAGATTGCCCTGGATTTCATGC
ATATAATATAAAAAGAACATAGTATGGCAAAAAATAATTTTTAATCAGAAACAGACATCTGAATTTTATAAAATGCTTTCTGGAAAAATATTTAGGTTAT
AAAATTTCTCTTATGGAACCAACTTGTAAAGCATACAACAGTAGTATAGATCCTTGTATTCCATACACCAATCTTCACTAGAGCCTGTTCTAAACTTATC
CAATATGAAATGAAACTCCTAAATGAATTCACATGTATTTCAATCTGTCTCTTTTTTAGCATGTGACTATTTTAAACTATTATTTCAAACTAAACTATTC
TGTGATAGCTCTCCCTGCTACCTGATGCCAACAGGTGATGAGGTCTGCAACACTGTCACTTCTGACACTGCAGAGAAAGTTTCAATAACAGTGAGACTCT
TGATTAGTATCAACAGTGAAAAAACCCATTTAGGAAAATTGGCTTTTCATACACATGAATTTCAGGCCAGCAAAAATATGGTTTTAATACCGTAAAGGGA
AGGGTTTGGGGTCAGAATATTAAATTGGCTAGAGAATTTGGTAATGAAGAGTCTGTACATTAAGTTATTAGAATTTTTGCTAAAGCTACAGAACAGGAAG
GGAGGTAATTCTACTGTGAGAGCAAATTACATTGGACTAAAAGTTCAATGTAAGTAATTTACTTCCATTCACTTACTTTTTTCCTCCTGCTCCTGGCTTC
ATAATTTTGCATTTATCCTCCAGCTCGCCAGGAAAGTACCAATTTGCTTTGCCACTAGCATTCTATGGTTTATCA


SNP Information

Context             (SEQ ID NO:18804):
GGGATTTGGAGCAGACATTGGAATAGAAAAGTTTCTTAACATCAAATCCCAGTATTCCGGTCTCCACCCTCACGTGGTGGTGCTTGTTGCCACTGTCAGC
R
CTCTAAAGATGCACAGGGGTGGCCCTATGGTCACTGCTGGAATGCCTCTTCCCAAGGCTTACATAGAGGAGAACCTGGAGCTGGTTGAAAAAGGCTTCAG
Celera SNP ID:            hCV25745205
SNP Position Genomic:     8130
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,14)   caucasian(A,21|G,5)   total(A,23|G,19)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:18805):
GCCTAAAGGATGCTTGGAACTCATGAAAGAGACAGGGGTGCAGATTGCCAGAAGGCATGCTGTGGTGGTTGGGTGCAGTAAAATAGTCAGGGCCCTGATG
Y
GTGACTTGCTTCTGTGGAACAATGCCACAGTGACCACCTGCCACTCCAAGACTGCCAATCTGGATGAGGAGGTAAATAAAGGCGACATCCTGGTGGTTGC
Celera SNP ID:            hCV26649571
SNP Position Genomic:     6594
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:18806):
GCTTCTGTGGAACAATGCCACAGTGACCACCTGCCACTCCAAGACTGCCAATCTGGATGAGGAGGTAAATAAAGGCGACATCCTGGTGGTTGCAACTGGT
Y
GGCCTGAAATGGTTAAAGGGGAATGGATCAAACCTAGCAATAGTCATCAACTGTGGAATCAATTATGTCCCAGATGATAAAAAAAACAAATGGGAGAAAA
Celera SNP ID:            hCV15850923
SNP Position Genomic:     6702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:18807):
AAGTTGTGGGTGATGTGGCATACGACGAGGCCCGTTCCTGGTGGCTTAGGGCTCATGACGGTTGCAATGCTCATGCAGAGCACTGTAGAGAGTGCCAAGC
R
TTTCCTGGAGAAATTTAAGCCAGGAAAGTGGATGATTCAGTATAACAACCTTAACCTCAAGACACCTGTTCCAAGTGACATTGATATATCACGATCTTGT
Celera SNP ID:            hCV27531941
SNP Position Genomic:     6901
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:18808):
CCCATCTGCATGGCCAAAACACACTTGTCCTTGTCTCACAACCCAGAGCGAAAAGGTGTCCCTACAGGATTCATTCTGCCCATTCGCAACATCCATGCCA
R
CATCGGGGCTGGTTTTCTGTACCCTTTAGTAGGAACGATGAGCACAATGGACTCCCCACCCAGCCCTGTTTTTATGATACTGATTTGGACCCTGAAACAG
Celera SNP ID:            hCV26649557
SNP Position Genomic:     8703
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,14)      total(G,14|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:18809):
CTGGAGCTGGTTGAAAAAGGCTTCAGTAACTTGAAGAAACAAACTGAAAATGCCAGAATGTTTGGAATTCCAGTAGTAGTGGCCGTGAATGCATTCAAGA
Y
AGATACAGAGACTGAGCTGGACCTCATCGGCTGCCTTTCCAGAGAACAGAGGGCTTTTGATGCCGTGAAGTGCACTCACTGGCAGAAGGGGGCAAGGGTA
Celera SNP ID:            hCV26649559
SNP Position Genomic:     8305
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:18810):
GATTGGGATGAAAGCCACTGACATTAAGTTACCAAGAACAACCACAGAATCTGAGGTGATCAAGTACATCATATCTTTGAATGAAGACTCTACTGTACAC
R
GGTTCGTAGTGCAGCTATCTCTAGACTCAGACAATACACTGAAGGAGTGATCAATGCTATTGCACCTGAAAAGGATGTGGATGGATTGACTAGCATCAGT
Celera SNP ID:            hCV28028193
SNP Position Genomic:     6343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:18811):
GTCAGCGCTCTAAAGATGCACAGGGGTGGCCCTATGGTCACTGCTGGAATGCCTCTTCCCAAGGCTTACATAGAGGAGAACCTGGAGCTGGTTGAAAAAG
K
CTTCAGTAACTTGAAGAAACAAACTGAAAATGCCAGAATGTTTGGAATTCCAGTAGTAGTGGCCGTGAATGCATTCAAGACAGATACAGAGACTGAGCTG
Celera SNP ID:            hCV25747385
SNP Position Genomic:     8224
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(G,25|T,9)   total(G,61|T,9)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:18812):
AGTGGTGCATTGATAGTGCTTATGAAGGACACAATCAAGCCCAATCTCATGCAGAGATTGGAGGGCACTCCAGTGTTTGTCCATGCAGGCCCATTTGCCA
W
CATCGCACACGGCAATTCCTCTATCATTGCAGACCGGATCACACTCTAGCTTGTTGGCCCAGAAGGGTTTGTAGTGACGGAGGCGGGATTTGGAGCAGAC
Celera SNP ID:            hCV27899206
SNP Position Genomic:     7945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Gene Number:                 59
Celera Gene:                 hCG1783650 - 206000045554792
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(45015140..45099451)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12219):
TGGGGGAGAATATAATGTCGTCACGCCTCAAGGCAGGATACCTTCTGGGTTTGCCTTGATGACCGCAGGTGACTAAGATGACCATTTTCCTTCCTTTTGG
TATTGGCCAACCTCCATTCTACAAATATTCTTCCTGCTGAAAGCATTAGCAGTGTAGCCTGGGTTTTCTTTTCCCTCTCCTACCTCTGGGATTGGCTGTG
GCTTTGCACACACAACAGCATACACACAAATTCTTACACCAACTTGCAGAGGTTCACATGGGGAGAGAGTTCTAACTACCATAATCTGTGGCCACATCAA
CATAAACAATAATTTTGTTCAAGTGAGATGCGGAAGGAGATGGGATCAGAAAATTCCCAATATGCTAGGGAAAGCTTGGACTTCCTTGGAGGTTGATGCT
AGGGACACATACCTCTCCTGAACAAAAGGAAGTCTGAGGCTCTCAGGCACAAGCAGGTAGATATACATACCCTTGGGACGGAGAGACTGCATCAAGCCCA
CAGTTGGCTGTGCTTGTCCTAACTCTATTCTATCCAGGGAAAAAGATTTCTCTTTCCTATAAAGTGCTGAGATTCCTACCATGTAGGGGCCTTCTGCGAC
CAAGGGGTTGATCACCAGGTAGCTATCTCATGCTGGTATCTCATTAAGCCAAATCCTTGCAAAGTAAAAGATTTTCTTCCATCCCTTTTTCCACTTTTTT
TTTTTCTCATTTTTTTTTGTTCTACTCCTCAGCTGCTGCTGGTTCTTGGGAGGCTGCTTTGTTTTGCTATTTTTGAGTTGACTTGCTTAAATAATAAACC
CACCCTCTTGTAGAGGATTAAGCAGACAATTAGGAAATCAATCAATCAATTGGTGTCAGCTGCAGGCAGAGGCCGGTGAAAGGCCTCATCTTCCCGGTGG
CCCTTTCCAACCTCAAAACCTGCTGAGGCTCTGGGCCGCGCAGGCGGCGGGAGCTCTCAGCTTCATTTGCTTCCATTTCAGAGCCTTGAGGCTGGGACAA
ATCCAGGAATGGAGAAATGAGGGAGCAGGGAGGAGTGTGTGGCGGCTTCAAAGTTTTGTTCTTGGTGGAGTAGGAAATGAGAGGCTGAGGCAGGGTGGTC
AGTGGCTCCTGGCTATGCCATTGCCCAGCTGGCCGGTATGTTGCCAGCTTCCTCTTTAGGAAACATGGGAGGGAAGGCTGCCTGGCCCACCAGTGTGGGG
AACGGCTGGGACACAGGTGCCAATTACAGGGCTATTCACTCACCTGGCTGGACTGAGCTGAGGAGGAGAAGAAAAAAGGAGCAGGGAGTGAGGGGCTGGG
CCTCTAGAAGCCGAGGCAGCCTTTGTACTTGCAGAGACAATTCCCCCCAAGAGTGAGGGCCGAGCGCAGAAAGTCGCCAGGAACTCTCAGCATGGCACAG
TCATCCCGAGGCCCTAGCCCCGCCGGGGAGCACCAACTTGGGGCCCTGGGGACACCTCTCTGGACATCCCTGACACCGTCAGCTAGAGCCCAGGCCTCTC
ACAGGCCTGGACTTGGGCCGCTTCCCTGGCAGGAGGGGCCCCACACGCCCCCTCACTAGGGTCAGCTTTCTCCCCAGCTAAGAGATTGTGCCTTCAAGCT
TTGGCTTCACAAAGAGTGAGAGAAACCGCATGTGGCTTCTCCTGAGAGGGGAAAAGAACTGCGTCTACGGAGGAAGCAGGAAGAGCTCTTTTATCAGTAT
TTTTAAGAAGGGTTGTTTTAAAGGAGAAAATAAGGTCTTGACTGGAACCCAGGTAGTCTGGAGCTCTGCGTCGGGAACCAGATCTGCCCCCAGATACCCT
GACTCACTCCAGAAGACAGCATCTGAGGTCTGTGCTCTCCTTCCTATCACTCCCTGCAGTGGTGGCGGTGATGAGGGTCTTGGGTACCCAACCTTGGAAA
GAAGATATCAGGTCTTTCTGATGGCACAGTTACCCGTGCCTCCACTTCTCCCCAACAGAAGCTGGGGCAGCGGTTTGTTTGCAGAGACATAAGACCGGCT
TTGCCCAAGCAAATTGGCAGGGCTCCCTCCCTAGGCTGACCCAGCTCACGTAGGACCATGAAAGCCACGTCTGTCTAAGCTGTTAGAACTCCCAGTGCAT
CCAGGGGGGCTTGGGCACCATTTGAGTTTGGGTGGAGAGCCTGCTGGAGTAGGATGGTGGGGCCTCACCAGGCTTCCAGGTGCCCTAGGACTGGGAATGG
TAAAGTTGGCTCAGACCTCTCATATAGAGTGCAAGGTGAAATGAAAGTTGGGGGTTGAGGTGTCAGGTGGGGGATTATAGATTCTAGGCTGGTGACCCAG
GCCGAGGTGGGCTTCTTTCTTGGTGGAGAAGAGCAGTCGAGTTGTGCATGAACAATGGCTGATCCGAATTCCATGTGGTGTCTTTGGCTCACTGTCCCGG
GCCCTGGTTTGGTCTAGGAGAGTCTGTCTACGACAGGGGGACACGAGGCAGCTTCATCTTCCCTAAACTGATGCATCTGAGGCAGGGGCCCAACTGTTGC
CCATGTCCTGATATCCACCTGGAAGGTCTGCAGGGTCATCTTCCTCCAAGATCTCTCCTGGTGAGATCAGAACTTCAGGGAGGTGAAGCAGGGGATCCCA
TCGCTTCACCCCAAAAACCCACCCAGCCCTAGCAGTAAAAAGGACAGGACACAGCCCTGGGGTACATGTTTATGTGAGTAATAAAATATTTACTATAACA
TAAATATAAAGGGAACTTCCCAGTCTACATTATTTTTTTTTCAATAAAGATACAAAGAGAATGCACCGAAACATTGTTTCAAAAAATAATAAAAATAAAA
TAACAAAATTTAAATTCAAACCTTAACAAACAGAAGAAGAAACGGAGAAGGGGGAAGCTCCAAACACATCCAGAAAATAAATAGAGATGGGTCAGAAATT
CGGAAATCATATTAAAATATCTTTTTCGGATTAGTCAGTGTACAAAATCCTTTAGGGTAGGAAGGAAGGGTAACCCGGAAAACCAAAAATAAAAACCAAG
CACAAAATGTTTCTTCTCCCCGCCAGTGTGTACATATCTCACATATTTACATGGTTCCCACCTCACCCCAAACTTGGGGAATTTCTCTCCCGGCCTCCCC
TGGCATCCCGCATCCCGGCGGGCTGGAAAGGGAGCAGAGGGAAGCTGCAGGGAATCAGGCGGAGGGTTCTCAGGGAACGGCTTATTTCTACAGCTGGTTA
AAAAACAATCTCTCTAACTTTTCCAAGTTTCGTTTGGTGTGGCCAGGAGGGCAGGGCCCCGCGGGGAGCAGGGGCCGCGCTATGCGGCGGTCGGTCTGCA
GCAGGGCAGARGCCCCTTCCCGTCTGGGTGTGTGGGAGCGCAGACCCCTCCGGCGTGGCCGGGAACCAAGCCGGGGCTCGGATGAAACGAAACGAAAAAT
GAACACTCGAATTTTTTTTGTTAGTTTTTTTTTTTTTTTTTGCTTTTTTTTGGGGGGAGGGTAGGGTAGGGAAATATAAGGGGAAAAATAAATTAGGCTA
GATTAAAGCTTTGGCTATTTCCTGCTTTTATACACAGACGCGGCTCTCGCGACCTCCCCTCCGGGGCCCCGATAAATACAGTATACTGCGATTTAAATTA
AGGGCGCGGGCGGAGTTAGAAGGACCCCAGGAGCCGAGAGGCTCCACGAATAAATAAAAACCGTAAAAAACCAAGCCCGGAGAAAGGGGAAAGCGGGGTG
GGGCGCATCCTTATAGGAGAGAAGAGGCGTGTAGCGAATAAAGTGACAGCCCCCCACCCTGGACCCGCAGGCTCAGGAGTCCACGCGGGGAGAGGGGATG
GAGAACTCTCCTCGCTTCGTCCTCTCTCCCGGGGAATCCCTAACCCCGCACTGCGTTACCTGTCGCTTTGGGGAGGCCGCTGCCGGGATCCGGCCCCGAA
CAGCCCGGGGGGGCAGGGGCGGGGGTCGTCGAGGGGATGGGGGCAGAGAGCAGGCGGCGGGCAGGATGCCCGGGGTGAGTTGGCGAGTTCCGGATCTTCG
CTCCTCTCTCCCGGGGCTCGGGCGACGCAGCCTACCGGGCTGTCTTCGCCGCTCACCGGAGAGGGTCGTCCGGGTGTTTGGTTTTGTTCGAAAGTTTCTG
GGCTTTTTTTTTTTTTTGTAAAATCCAAAGCAACCGAACAAAAAGAGTCCAGGCCGCGCGGGCGGGCTGCGCGCCCGCGCCCTGCAGCGCGCCGGCGGGG
GCCCGGCCCGCGGGGTCACTGCACTGAGCCGGGCAGTGTGTGGTGGTGGTGGTGGTGCAGCGCCGCCGGCGGGGGCGGTGGGGGCGCGGAGGGTGGCGAT
GCGCCGCCCCCGCCAGGCCCTAGCTCCCCAGGCGCGTATACATCGTCCATGGGCGGGTGGCCCGCGCCGGCCGCAGGGGTCATGCGCTTCTCCTTCTGCC
GCCGGTTGCAGAACCAGACGCGCACCACCTCCTTCTCCAGCTGCAGGCTGTCTGCCAAGCCGGTGATCTCGTGCGCCGAGGGCTTGGGGCACTTGAGAAA
GTGGCTCTCGAGCGCGCCTTTGACCCCCACCTCGATGGACGTGCGCTTCTTGCGCTTGCGGCCCTGCGCCGCGATCTTGTCCAGGTTGGTGGGGCTGCCG
CTGGACGAGTCGGTCTCCTCCAGCCACTTGTTGAGCAGCGGCTTGAGCTTGCACATGTTCTTGAAGCTCAGCTGCAGGGCCTCGAAGCGGCAGATGGTGG
TCTGCGAGAACACGTTACCGTAGAGCGTGCCCAGCGCCAGCCCCACGTCGGCCTGCGTAAAGCCCAGCTTGATGCGCCGCTGCTTGAACTGCTTGGCGAA
CTGCTCCAGGTCGTCCGAGCTGGGCGCATCCTCGTCCGAGTGCTCGCCCACCGATGAGCCGCCGCCGCCCGCGCCCGGGTGCAGGTGCGCCGCCGCCGCG
TGCAGGCCGCCCGCGTGTGCATGTCCGTGTGCGTGTCCGTGGGCGCCCAGATGCGGCGGCGGCGACGGCTCCAGCTGCGCCTCGTGGCCATCCTCGTGCA
GCGCGTGGTGCAGGCCCGGCCCCGCGCCGCCACCGCCCGCCGCCAGCATCCCGGCCAGGCCGCCGCCGCCGCCCCCCGGGTAGGCCGCCTGCGCGTACAG
CCCGAGCGGCTGGGGCTGGTGGCCCCCGCTGGCCCCGGGCGAGGGCGACATGGCCGGGCCCAAGTGGTGCGCTGTGCTGCCCTGCGCCCATGCCGCGCCC
GCGTGGGCCGCCCCCTGGTGCACCAGGCGCGCGTGGAAACCTCCGCCGCCGCCGCCGTCGTCGGCTCGGCCGGTGCCGCCGCCGCCTGCCTTGCCGTGTT
CTAGGTGCGGGCCGCCGGCCCAATCGCCGCCGCCGCCTCCTCCCGTGGGTAGCCACTGGGGGTGCGCTAGGCCCACGGGGTGGCCCGCGCCCGCGCCCAG
CCACTCGTGGTGCATCAGCTTCTGCACTTCGCGGTACGCGGCCCCTGCATGCAATCGCTCCGCGGCCGCCGCCGCCGCCGCCGCCGCCGCGGCGTCCGGG
TGCATAAGCGGCCCGGTGCCCCCGGCTCCGCCACCGGGGCCCCGCGGCAGGTACTGCGCGGTGGTGGCCATGCCGCCCCGCGCCCTGCGCCGCGCCGCCG
CCGCCGCTCCGCTCCGTCTGCGGGCCCCGCCGCCTCGCTCCGCCGGCTTAAAGCCCCGACCCGCTCGGCGCTCCGGAGCCCCACCCCGCCCGCCGCCCAT
TGGCTGCCCGCGGAGCTGCCTCCCGCCTCCCCTGCCCGGCCCCCGCCCCGCGCGCCCGCCCGCCACCCTGCCCGGCCGCCCAGAGCTCTCCATTGGGCGT
CGCTCCCGGGGTCCCGCGCGCCGGCCGTGCTGATTGGCCGCTGGGGCTTCATTCACGGCCCCCCTACCGTCCGCGTACACACTCACGCCCCGGGGGCGCG
GCCGCCACGTGGGGAGTGGCGCGGGGGTGGCCCTGGGACCGCACCCCCTCTCGTCCTGGCTGTGTGGGCCCCGCTTTCCCCCAGCGCTGGAGACTCCGAG
CCCGGCCGGTCCCACATTCCACGCGAGCTGAATTCCCGCCCGCATCCCGCCCGGGCAGCAGGGATTGCCGGCTCCGGGAGGCGCTCGGGCTCCGAGAAGC
GGCTCAGCCCCGCGCCCCTCCCTCCTCAGTACCGCTGCCGGCGGACCAGGATTCCCGCGGGTCCTGGCGGCTGCGAGCGCGAGGCGGCGCGGATTCGCGG
CTCGGTTCCGGCGCGACTGCTCACCGCGCCCGCCTCGCCTCCCGCGGCTGCCAGCGTGCACTGGGCGCTCCTCGGCGCGTCTGCCCGGCCCGTCTCGGCT
TTCCTTCTCCTTCCTCTAGTCCCAGCGTCACAACTCCGCCGACCTCCTCTGCCCTGAGAGCGCGTCCGGTGCGGGCGGAGTCGGACGGACTCTGGCTTCA
CGCCTCGCGCGGGCACACCTTCTCCCGGGCACTGAGGCCCAGGTGAGTACCGCGCGGGCAGCTGGGGCTGGGACGGCGGGCGGCAGCGGTTCTACAGTCC
TACGCGAGCCCCTGGTACCCGGCCGCGCTCCGGGGTTCCAGAAGGAGAAGATCTCGAGGTGGAGACTGTGGCTCCGGGGRAAACGCTGCTGGCAAGGGCG
CTAGTTGGGGGTGGACGTTGGGCCCAGGGGTATCTGACCTGCGCCGCTGCAGCCTTCTCGCTCCTTCTCCCAGCTTGAACGGCTCATCGGCTGTGGTCGT
GGTGGGATCACGCCCCGGGAGAGGAGAAGGATGGGCTCAGGGAAGGGGCTCGGGCTCTCCAGAAATCCGGCGTGCAGGCCGGGAGCTGTCCAGCCTCGCT
AAGAGCCCTGGGCTAGAGTTTGCCCGGACTTGCCTGGAGCTGCTGAAAAGGGAATTGAGATTGAGGAGGCCTTGTTGGAAAGGTGGGCAGTGGAATTTAG
CTACCTCCTCACGCCCCAGCCCTTGAGGACTCCCTGAAGGATCTTGAGTGGAGTCGGACCTCACTGCAGTTCCTTTGTGCCTTCTTACCCGACCTTGGGC
CCCAGGCTGAGGGTACTGAGCTGTGTTTTCTCCTCTTCCCCACACCGAGGCTTGGGTCCCAGGGAGTCTTCAGCTGCCAGTCCTCCCTCTTTTCTCTCCT
GGATCTAGCCTCAAGTGGATTTATAGCTTACAGGGCCCTGGGGTCCCAGATCACAGAACTGAGCTGGGGGCCCACCTAGGGCCCCACTGGGCAAATCAGG
TCTGTGGAATAAATCCTTAGATTGAAAAAAGTTGCTGGGGGCTCAGGTGGCAGCTGCCATTGGAACGATCCAGGGCGGCTGGGACAGAGTTGACAGTGAC
AGGGGTCACCCTGGGCACAGACTTTGATCATGTGGGCCCTGAATGCCCTAGGACCAGCCAGGGAAGGAGTGGGACAGAGCAGGGCCCTTATCCTGCCATT
GGCCACTGTCCTGAGCAGGCTCCGTGGTCCCACCCTAGCTGTAAGAGCTGCGATGGAGCTCTGTGTCTGAACCGAGCTAGAGATACTGGGCTTTCCTGGA
CTCTGGCCCAGGGAATGGTCACCTTGAGGCAGCCCAGGTCTTTCACCTTTCCCAGGCCTGGGAGGTAGGAGGAAGACTGGGAATTCCGCAGTGAAGTCCA
TGCTCGTGYCAGCCCTAACCAGGCCTGTGTGATATTGAAGCTTGGGCTTTCAACCTGGAGCTGCCATCATCTCCCTGGGCAAGAGTAACTCTGGTCTAGC
CTTCCTAGCTCTTGGTTTTCCTTCCTGTATGTTGGGAATAACAGTACTATAGGCAGCCCACCTGTCTCACTAAGGTAGGTCAGATAGTTATGTGAGACAA
CGGGGGTGTAAAGCTCTCAGATAGGTGTTTACTTTGGTCGTTTCCATTGTTGCTGTTCAGTGACAGGCAAGGCATTCCCCCTCTCTAACTAAATCTCAGT
TTCTCCACCTGTAGCGTGGGATTGCAGAGGTTTGGACCAGTCGACCTCTCTGGCACTTCTCACTCTCATGGTCTGTGATTCTGTGAATCTGTCTCAGTTC
CTGTTGAAGGAAGTCTGGACAGCGGGCAGGTGTTTTGATTTCCAGCCTTTGGAATTGCCACTGAGGCTGGAAGAACAATGACCAACAGGCACGGATTTTT
TTTTTTTTTTTAAATTATACTTTAAGTTCTGGGATACATGAACAGAATGTGCAGGTTTGTTACATAGGTATACATACAGGCACAGTGTTTTAGCAAGTAC
TTTTACCTGTACCTCTCAGCCCTGTGAGAGAGCACTGAGATTATTATCTTCATTGCCTAGATGAGGGACCCAAAATTTGTCCAAGGGCACAGGACCTGTG
AGTTTTCACTCATCATTCCCCTCATTACCGTGGGATGGGGGTCTATGGAGGCAGCAGCTTTGGCTGGCACAGCAAAGAGAGCCCTTGGCCCTGTTTCTGG
TAGGTCTCAAGGGCAGGCCAGGGCCTGCTGGGGCTCCTGAAACCGTCTTCCCATGTCTGTGCTGAATTGAGGGGCATCAGCAGTAGAGCAGTAGCGAGGC
TTCTAGGTTATCAGCTTGTCACCCAGCAAATCAAAGTCCCAATCCCACCATGTCCTTTAGCAGCCCTGTGACTTTGTGTGAGCCACATTGCCTCTTGGAG
CCTAAGTTTGTGCATCTTACAGTGAGAACAATAATGCCTGCTTTTCAGGATTGCTCTGAGGCTCCACAGATGAAATAAGGCATGCAATTTAGGTGCCCTT
TAAATGTTAGATGCTGGCCTGGGCTGGAAAGCAGTTTGAAGCAGGAAAGATATAATTCTTTTCTCTGCTTTGGAAATTTTAGACCTTCTACAGGGATATG
GGTTTGGTCTTGAGTCAGAATTTTCTTGTGTTTGAGTTAAGTTTCCCCCAGGAAGTCTTGACATCACTCTTAAGATTCTGTGTGGGACACTAGGGCTGAG
ACATGGCCACTGGTAGAAACATCTGCAGCTGAGCAACCCCTTTGTCCTGCAGCACCACCTTCTTAGGCCCTGGGGAGAACTCATCCTCAGACCCACAACA
CGTAGGCAGGGTGTACACACAGAGGTCAGACATCCACGTGACCCATGCAGACACAGAGTGGTGTGGGCATGAGAACAGGTGTGCACACACACACACACAC
ACACACACACAGATACAACCATGCAATTTAGCACAGGACTGAATGTACGGATTCACAATAGGAACACACAAACTTGCACCATTAGGCTGAATATTGATAG
TCACACAAAGCAACACCCAGTGGTAAATACAGGCATGTGTCTAAATGGGGAGATACACAGAACCCACACATAGGCTGAAATAGGCTGAAGTAGGCACTGC
TTTGCTGACACAGAGATACATGAAACCTAACAGGCTCTTGGGGCCACAAACATGGAGACTCTCAGCTGGTGTGCCGAGTCACACACATAGGCATACCATC
ATACTCACACACAAGAGCACGTGGAGCCAGCCATGCACACCCTCTCACCCAGATGCACAAAGAGGCTTACCCCACACATCACAGAGACACACAGACATAT
CTACCCACACCCTGTAAGAAATAACAGATCCGCTCAGGGGATCAGAAAGCAGAGGAAAGGGCTGTGTCCAACCCAGAGTTTGGTCCACATGGTTTGGTTG
CAGCGCTAGGCCCAAGGCTTTTCTTTTCATATTTTTTCCCACTCTCCTTTTCTGTGGAGTGCAGCTCCCAGCCAGGCCGCCGCCAGTTTCAGAGTCTCCY
GGGCCTCCCTCCCCAGYGGGGCCTCTGCCCAGCCYGCCCCCAGGCAGGAGCTGCTTGGGCTTTCCCAGAGCACAGCAGCCTCCTCCAGGCTCTGGAGTGT
GACCGAGCGCCTACTCATTTGACACAGGTCACCGAGCCTCCAGCAGATGGGGCCCTCGCTGTGGGGGGTCTCTGAGCCRGGGGCTGTGGGRGGCTGGGAG
TAGGAGGGAGGCTCTGCAGGGATGGACAGGCTACACAAGCTCCAGCTCCTTATACTCTTTCTGCAAAGCCCCGGGTTACAGACGTGGGACCTAGAATACA
ACTATACTCACGAGTCAGTCGTCATCAGCACCCTGGCGGCCACATACACAGGGCAGTATTCCAGACACACATCCCAGGTGTCAGGGGGCCTAACAATGGC
ACGCCGAGCACAGCTTTGGGAAGGAGAAAGAGGAAGAGCCTTGCTCAGCGTCTCCTGGAGGCAGCTGGGTCTGGCTGCTTTCCCCCTTTGGTCTCTGAGC
CCCCGAGCTCTCTTCTGTGAGTTGGTCAGTTGGTTAGGAGTCCAGGATGGGTTGAGAGCAGATGCAGTTTCAGACCTCAGGCCTTTTCAGTGCTGGGGGA
AGACAGGCTCCAGGATGCTCCACCTGGATTCCTCACAAGTCAGGAATGCTAAGAGATGAAGAGGAGAGATGGGGCCCATGGGAAGTGCTGCCGGACAGGC
TGTGTATCTTAGGATGCCTCCCGCATGCATGGACTTTGAGTCTTTGAGGCTGGCTGGACCGGGGCAGCACTCGCGGGCCACTTCCTTTCCCTCCTGGCAG
TCTCCTTATGCCCTGGATCTTGCCTTTTCAGAGTGGCCTGGCTTGGCAGTAAAGGGTCCTGGGTTCCATCTTGGCCCTGACTCAGGCCTCATTTTGGGCC
AGTGTCAGCCTCCTAACCCTCTGTATCCTCATCTGAAAGTTGGGCAATATGGTCTCTGTTGGCTGCTTGAGAAGATGGGGGTGAGATCACTGCTTGAAGA
AAACTTGGAAAGGGAAAGTGTGGCTTGATTTCCCTCCCTGGCCGGCCATCTGGGGTGGGTAAGAGGCTGTGTGAGCAGGCGTGGAACCTGCCTGCTCCCC
TAACCAGTTCTTGCTAAAGAGTGTCAGGAGGGACCACGCCCACTGGGGCTTGCTGCCCGCGCATTCTGAGCTGCAATGTGGTTTTGACTGGAAGAGTCTG
GCAGGGTCCTAGCTGTCATAAATTCCCAGTCTTAGGAGGGTGCCAGGGTCATCTTATTGATCCACTGCCTTGGCGAGGGTGGGTGCCATCTAGACAGATT
TGTAGTGCTTGCCACCATCCTAAAGCTCTCCCCGCATAGGATGAGCTCACCCTTCTGAGCCCTCAAAGCCCCTACGTCTCTCCCTCTAAGCTCAGCCCCT
TCAGGTGTCCAGTTCTTCTGTCCTTCCTGTRATCTTTAGAGCCCAAGGCAGAAGAGAGGAGTAGTAGTAGGGCCGTCGCTGCCTTTGGCAGAAGAGAAAG
GAGCGATCTAACTTATTTAATCTCAGGTCTTGGTGAAGGGAAGGAGGGACAGAAGGTGAAATATCTCTTTGGGAAGAATCTTTCCTTGTATTTTTGTTTT
CCTGCCTCAGCCCCTAGGCTGTGGGTGTGGGTAGGGGTCCTCCCAGAGTGTCAGTAGAATATTCAAATTAGGGGTGGTCAATTGCTCTTGAAATTTACTT
TCATTTTTAGCAGAATGTCAGCCTTTGAGCTGGTGTTAATGCCCACAATCCGGTTATGCAGAACACGCTCTCTGCAAATCGGTAAATCATTAGTGGGGAT
TAATCAACTCTGAAAGGCTGGGGCTAGGCTTTAGTTTCTTTCTTTCTTTCTTTCTTTTTTTTAAAACATACTTTTTATCCGGATGGCTGCAAAATTCACC
ATCACAGGATAGGGTGGGAGCAGGGGATGATAATTTAAGTCCTTGTCACCATCATTAGAAAAGTGAGATACCTTTCTGGGCCTTGGGTTGACTTTGTAGT
CCAATTGAAGGGTGGGAGTAGGCAGTTTGGGTGGGGTGGGAGGAAGGGAGGGCAGTTCCCTTGTGATTATATGTGTTATGATGTTTATAATAGTGTGTAG
GTGGCTTGGTGTGCTTGTATATATGGTGACTTTATGTTAGCATGCTTGCATGAATTCATACGTTTCTACTTTAGAGATGCCCATTTATGTGCTTGTGTTA
GGGTGCTTTTGCTTGGTTTGTATTAGTGTCAGACACTTGGTTTGTAATTGTGTCAGACAGTACTTCCGTTTGAGAGTGTTTTGGGATACTGTTTTATTGT
GTGTGTGAGTACTTCCCCTCTGGTGGGAGACCACATCTCACCCTCCTCAGCCTCAGGGTAGCTCCCTAGGGGAGGAAGGTAGAACAGGAGGGCAGTCCCA
ACCAGCACCTGCTGGGGGGGTGTGGCTCAAGGTTGATTTGCATATTCATGAGCTAGCTGCCTGGTGGCTTGGGGAGCTCTCCTCTTGAAGAGACTCAGTC
TGAGCCCAAGTGGGAGACCTCTTAGGGCAGATAGGGAGGTCAGGCTCTCACTGTTAACACCTCTTACTCCCCAGTCTCAGGTATAGTGGCTGCCTCCACC
CCATGGCTCAGGAACCTCCAAAACCCGCAGTTCCTGAAACCTGACCTCTGCATAGCCACAGTACACATAATTCTAGCTTCCAATAGGGATAAGAGTGATG
TGGCCGCTCCTATCAGGAAGCTGTCAGTTCCTGGACGCTCCTGTGGGGGATCTTGGGGAAGGAAGCTTATTCTTCCAGCCAGGATCAAGCTGATAAATGG
GACCATCTCCCCATTCTCTGTTCACACTGGATCAGCCTCCKTATTCCTCTCCTTCTCCCTAGCTTAATGCAGCCCAGCTTTGGAGTAGTAATTACCTTCA
CATGACCCAGTAATCATATTCCCTGGGTGTTGAGCAGAGCATGTGTGTACGGGGATGAGGTCACAGGACTTTCCCTTCCCCTCTAGTCACAGAGTGTGAG
GTTTGAGGTGGGATTTAATGGGCCTGGTCCTTACATCAACCCACATTTTCCTCTAACCACCCCCACCTCCCTCTCCCAATATAGGGTCAGCTTGGCTAGC
CTGGGCATCACCGTTTGCTACTCCCCAGATGGCACAGGTGCCCTGTACTCCTGTACATGTGCCTCGTTCATCATCCCACTGTATGTCTCCCCACGCCTCC
AATGTAGTAGTCTAGCTTGTAGTCAGGGGGAAGAATGGAATGATACAACTACTTGGCTTTTGCAAGGTGGGAAGGTCTGGGGAGAGTTGTCTGGGCTCAT
TGCTGACCTTTCTCAGCTTTCTTGGGGGGTAGCAGGTGGAGGGTGGAAGTGGTGAAGGAGGATTTAGGAATTATATTTTCCCAGGGACCTCTCAGCATCT
TTATATATCTCTCGTGGCAGACATCTGTCTGAGCTTAGGGTAGCATCTGCCTAGGCTAGGGACAACATCTGTTTGAGGCTGGGACACCTGGCTGAGCCCA
GCACATTATCTGGCCCTGGGACAGCTTCTGTCTGAGCTCAGGACATGTGTTTGAACCTGGCACAACATCTGTCTGGGCCTGGTACATCATCTTCCTGGCC
TGGGGGCAATGTCTGTTTGAGCCCTGRATGTGTGTTTAACTTGGGGACGTCTGCTGGGCCTGGAACAATACCTGTCTGAGCCTGGGGATGGACTTGTCAT
TGCAGATAAAATCACCCCTGAGCCTCAACTTTGGTTTGTGGCTGAACACAGAGTGTGTGCAGGGCTCATGTCCCTGTTCTCCTTTCTACCGAGGAACGGG
ATCTTAGGTGGAATGCCTCAGTTTACCTTCAATTGTAGGTCCATTGGCCTGGTTGCTCTGGGTACCTCGAGCACTGGACAAAGCCTACAACCCCAGTGGC
TCTGGGAAACCAAAGTCAAAAGAACGCATGAGGGGATCGATAGGTTATAAAATCCAGTGACCGGTCTAGGATGATTCTCCCTTTCTCCAATCCCTCATCT
AGGTACTTGAGTCAGGTCACAGTGTTCCCACTAAGACACAATTTGGACATGTCACTTTGCACTTGGCTCCTGAGAACCCTTCTATTTATTTATTTATTTA
TTTATTTATTTATTTATTTATTTATTTTTTGAGACAGAGTCTCACGCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGC
CTCCCGGGTTCAAGCTATTCTCCTGCCTCAGCCTCCCGGGTAGCTGGGACTACAGGCACCCACCACCACACCTGGCTAATTTTCCTGAGAACACTTCTAT
TGCTCCCTGTTATGTACATCATCAGGCCCAAAGTCCCTGGTAATCCTGTCTCTGCTGACCCTCTGAATCCAGCAACACTGAGCTCTGTTCCTGCAAACAC
ACGGGGCCCTCCGAGACCCCTTATCTCCACACACATGGTTCCCTCTCCTGGGAATGTCCACCATCTCTGCTTTACATTCTTCAAATCCCAGCACAAGGGT
CACCAGCCCTGGGAAGTTTTCCCCTCTAGACTAAGCCACAGCCTCTGTCCTGCTTCCACAGTCCATTTGTGCATTAGCATTTACAGGCCTATATTGTCAT
TAATTCTTTGTGTGTCTGTCTCTCCCATAGGACTGTGAGCTCTGGGGCTCCGGGACTGGATCTGCTTCACCTCTATCCCCCAGCACCCAGCTCAATTCCC
RGTCTATAGTACTCACCAATAAAGAATRCCTGTTGAATGACCATAGGTTGTGCCCCTGTGATCTCATTTCCTTCTTTTTTAAAAATGAGGGCTTAGAGGG
ATACTGTAGACACTGGTTTGCAGTCTCAGAAGAAGTGGGCTTCAGAGAAGAGGGCATGTCTTTTTCATACCTGGTTGGTTGACTGTAGCCAAAAGCGCTG
GGTAATGGACCCAGAGTGCCCTGGACAAGAGCCTGGTGGAGGCTTGTCCTGCCCAAGGTTCTTTATCGGTGAAGTGAAGTGAAGGTCAGGGGGCAGCAAT
GAATCCAGACATAATAGCCTCTCTGTGGGCTGCAGGGATGGGACTAAGTCTAATAAGGAGGACTGTGTCGGGCAAATGTCAGGACCTTGACCTGGGACCA
AACCCAACTCCTTGGGGGCAGGTGGGAGAATAGAGGCCTGGCTCAGCACGAATGGAGAAGTTACAGGGTTCCTAGGTATGCTCGTCTTGCCAGAGAGAGA
AAGTCACAAAAAGTTTTATCAATATCAACGTTGTATCCAGAGCAAGGTGCTCTCACTGGTCAGGACACCCTGGCACCTGGCCAGCTTCAGAGGGACATGG
ATCCCTAGGAATGTGTATGGGGAGAAAGGCCAGAATAGGGGGGCATGTGGAACCATGAAGAGGTAGCTGAGAAGTGAATGTTCCGAGGACATGGTCTCTG
CTTTTGTGTCTTTTATTCCACCAAATAGGAATATCTTTATGTTTTTGCTGATGATAAAAACAATACAAGCTCATTTGTAAACACTAGAAAAGTAGTATAC
AAAATAGAAAATGGAAGTCCTCCATCAGCCTCTCTGCCTCAYTCCTCATAACTACTCCTGGTGGCTATATCTTTCCAGACCTTTTTTTTGTGTGGACACA
CAGTACTTAATAATAGTAGCTTAGGTTTATTGAGGGTTTATGATGTGCAGGTACTGTGCTAAATGCTTCTACCTGAATTTACGCATTGCATCCTCACAAA
AACATTATGGGTTAGCTGCAACTATTATTCCCATTTTACAAATGAAGAAACTGAGGCTCAGAGAGTTGAACTCAAACTTGCCAGGGTTATCCAGGTAGTA
ATCTATATCGTTATCTGTGGATCTATTATGTACAGATATATAGATAGATAGAGATATGAATTCTTTTGGCAGAAGATGGGACCACAGTGCATATAGTGTT
TTATAGTGTTTTGTAACTTGTTCTTTTTTGTTGTTGTTGTCGAGACGGAGTGTTGCTCTGCTGCCCAGGGTGGAGTGCAGTGGCGCAATCTTGGCTCACT
TCAACCTCCACCTCCTGGATTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGYGCCTGCCACCACACCGGCTAATTTTTGTGTTT
TTAGTAGAGATAGGATTTTACCACGTTGGCCAGGCTAGTCTCGAACATGTGACCTCAGGTGATCCGCCTGCTTTGGCCTCCCAAAGTGCTGGGATTACAG
GCGTGAGACACCGCACCCGGCCTGTAACTTGTTTTTTTAAATTAACAATGTTTTTGGATGTGTGTCTATTTTTTAATACATCTTATCCACTTTACCCTTT
TGAAATGGCTGTACAGTATTCATTGTGTTGATGCACTGTAATTTCTTTAAAATCTACTGATGGACATTGAGATTGCAGCTTCTGCCTCTTGTCTGCAGGG
CTGTCCTGGGTCCCAGGGAGTAGATAAACTCTTTGTGACCTGAAGGAGCAGAGTTCAGATCAAGCCATGGACATTTTAGGGAGCCAGTGTTCGGGTTCCC
CATTCTAAGGACCACCTTGTCAGAGACTAAGCTCCCTGACTCTGGAGGAATTGAGTAAAGGCAGAGTAGCTGCTCTCAGAAATGCCGCAGGAGGATTTTT
GTATCAGGCTATGCTTTGGGGGGAGCGTGGGTGGGGCCTGAGGTATAGGGAAAGGAGCGCTGGTTTTACAGCTTGGAGACCTGCTCAAGTCCCTGTTCTG
GCTCCTGGCAAACCTCCCAGTGCTTCAGTTTTCCCCATCTGTAAAATGAAAATAGAGTACCACAGTAGTTCAGATCATGGGCTTGGAGCCAGGCAGACCT
GATTCTGAGTGTAGGTGCTGCCTCTTACCAGCTGTGTGACCAGGGGCAATTTGCTTAAACTGTCTTAGCTATACTTAACTTTAACCCAGGAATACAATAC
AAATAGTTGTGTGTGTGTGTGTTTTGAGACAGGGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGACGTGATCACAGTTGACTGCAGCCTTGACCTCCT
GGGCTCAAGCGATCCTCCCACCTGAGCCTCCTGAGTAGCTGGGGACTACAGGTGCATGCTACCACACCCAGCTATTTTAAAAAAAGATGTTTTGTAGAGA
TAGGGCCTCATTATGTTACCCAGGCTGGTCTTGAACTCCTAGGCTCAAGCGATTTTCCCACCCGGGCCTCCCAAAGTGTTGGGAATATAGGCATGGGCCA
CCACACCAGCCTACAAATAGTTTGTCCTTACATTTCAACTAATTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCGCAGGCTGGAGKGCAGTGGTG
TGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTACCTCAGCCTCCCAAGTAGCTGGGATTACAGGCRCCCACCACAAGGTCCA
GCTAATTTTTTTATTTTTATTTTTAGTAGAGAYGGGATTTCACCATGTTGGCCAGTCTGGTCTGGAATTCCTGACCTCAGGTGATCCGCCCGCCTTGGCC
TCCCAAAGTGCTGGGATTACAGGCATGAGCCATCGTGCCTGGCCTCAGCTAATATTTTTTATCACCTGTTTTCGCCCAAGCATTGAGGATATAGCCATGA
AAAAGATAGACAAAGCCACTGTCCTCAGAGAATGTACATTCTAGAAGAGGAGGGAAGAGAATCAGACAGGAAACAAATAAACAGTTTCACAGAAGATGAC
TACAGATTATACTAAGAGTTTTGAAGAGACTGCATCGGATGCTATGATAGAGTTGCTGGAGGGGCCCAGATGCAGTTGGTTGAGAAAACCCTCCCTGAGG
ATGTGACATGGGAGCTGAGGCCTGGGGATGAGAAGGGCCAGTCACACTGAGAGCCATGGAAAGAGCGTCCTGGCAGGGAAGACTGTGAGGTGCCAAGGTG
TCCTTGTGTGTCCAAGGAACAAAAGGCAGCTGATGTTGCTGGAGCAGAGTGGCAGAGGAGAGAGCAGCTGGAGCTGAGATCCAAGAGGGAGGTGATGCAG
ACCTAGCAGGCCCTTGTAGAACGTGGTCAGGAGTCTGATATCCTGCTAAGGGTGAATTTCTACCTCTTAGGGTTCTCATGAGGGTTCAATGAGATATGCA
TGTTTGGGTTTCCCCAGAAGCAGATCCCAAGATAAGGATTTGAACACATGCAGGAAAGTGATTCCAGGAAATGCTGGTAGGGAGTGGGCCTGTGAGACTG
GGAGGGGAGGAAGCCCACAGAGRGAGCCTCTTGGAGCAAGTTGCAAGTTACACTATGGGTAACTGGACCACTGAGGATCACTGGGCGCCTGTGTTGAACA
CACTTCTGAGAGTTACCCCACTTGCTAGATGAGGAAGCCAGGTCATTTATCTACTGTCATGTCAGTCATTCTGGGGGTTGGGGTGAAGGTTAATTCTCTA
GCACTCTGAGCCTGCCTTGGGAGGGCAGAGCAGGCTCCTGGAGACCAGAAGAAGCCCTCAGGCAAGGATGCAGCTGCAGGCARTTTGAAGTCAGGCTAGA
GTACACTGAAATGGTAGGGCCTGGAGGAATGGGGGTGGAGCGCCAGCACTGTCTGCTACTCATGGAGAGCTTGTGGCATAGGAAGCACCCTATCGATGAT
AGTAATTATTGCTGATAATATTAATGGTAGTTTTACTAATGATTATTGTCATTGTGAGGGTTAAATTGGAGGATATTAATCATAGCTCACATATATTGGG
TTCTTATAGGTGCCAGCAGTAAGCACTTCTAAGCACTTTACATGCTATCTCATTTCATACYTGTAGTAGCTAGTATGTAGGAGAATGCATGATGTGTGGC
AGGCAGTCAGTAAATCGCTGTTTCTTCAAACTTGGAAGTTCTAGAACTTCAGGTGATGAATTTGGGACTGTTCAATGGACCCCTAGATGCTGAGGGTTCT
TGTCCCAAACCTCCTGAGCTACAGGCAGCCTCCCTGGTGCCTTGAGATGCTGACTCAGCAGAGAAAGATGTAAATTCCTACCTTGGTTTGCATACAATTT
ACACATATTTATTTATGAGTGTCTTTGATTAATGTCAAAGTGCCTGTGTGATTTTTCTGCCAGGCTTCTGGGCCCTGCAAGGGCATGGCTGGCATCAATG
TGGCTGCAGGCTCCGTGTGAGCATGTGGGGGTTCTCGGGTGGCCTGAAAGTGACAGCCATGGGTAGTGGCTGGCAGCCATAGGTAGTGGCTGGCAGCCAT
AGAGGGCGTGGTGAGCAGCCTGGAGCCTGTWATTCTAGCGTGATTTGGGCAGCTGGTGTGAGTCGGGGATGTCTGTTARCATGTGGCAGGGTCCAGCCAA
GGGACTGGGGGCAGGTCAGGGCTCCAGGCACTGGGGTGAGTGACTGTGGGCCCACAGTTGGCCATGGTCTTGGAGGAGCCTGGGTGGCGGCCACATTTTC
TGGGTGGGAACTCAGACCCAGGGAGCCAGGACAAGCTCAGGTTCTAGGACTCATGGTGGTGGGAAAGGCTTCCAAACAAGGCAGAGCTCAGAGGCTGTCT
CTGCAGAGTGCCTGCCCCCCGGGGCTGCCCAGGGCAGGAATCCTCTGCTTAGAAGCTCTGAGAAAGGGAGTGCTCTCTGCAATCAAGGCCTGGGACAGGA
ATTGAGAAAATCTGCCAATCAGCAAGAATTTTCTGTGTGCTGGCAGTGCCCAGCCCTGTGTCTGGAACTGTGGAGAAGATCAGTCCTAGCCTGTAAACTT
TGGCAGGAGAACTGGTGAGATAAGGAGGGAAGGGCAGACCCCGACCTTGGTGGAGGCTCTGTGCTTGGCACCATGCGGTACTTACACCCATTATCTCCTT
TAATCCTCACAAGAGCCCAGACAGGCAGTTAATGTCATGTCTCCTCATTACAGGGGAGAAGCAGGGATCAGAGAGCTGTAGTAACTTGCCCAAGGTCACA
CAGCAAGTAAGTGGAGGAGTCTAGATTTGAACCCAGCTCTGTTTCATTCCAGAGCCCAAGCACTTGACCAGTTTATTCTGCCTCAGCTAGGTGTAAAATA
AGGATAAAACCAAGATCATTTAGTTTTTGTGAGTTAAATGGGCTCAAGTGTGTGGACAGCTTAGCATGGTGGCTGGCACACAGTAAGTGCTCAGTAAAAG
TGTTTTTTTCTTAAGTGGTACAGCAAGGATTCTTAAATCCTGGTTCATTGCACCCTCGTGTTTGCATGGTACTGTGGTTTTTGCCAAGGCCAATTGGGAG
GGCAGACGGTTGGGAACAGAGCATGACCTCTGCTGTGAGTTGAGTGAGCCCTTGTCATGCAGGGACACTGACAGCCATCAGCAGATGGGTGGGACCACCT
GCCAGGCCAGATCCTCTGTTGGCTCAAGGCCCAGCCCTGGATAGGGTAGGGACACTGAGGCTGTCTAGTCAGGATGGCCTGGATATACGTGTGTGTGTGT
ATGTGTGTGTGTGTGTGTGTTTATGGACTTGGTGAGGGTCCTGGACTAGAGAAGGAGAGACAACTTTGGGAAGTGGGGAGCTCTCCCAGCAGGCAATGGT
CAGAGCCCTTTCTTATTTCCAGCTGCAGAGATCTAAATCAGGTGAGAGCCTGAACCATGTGAAAATGTGTGGGAAATCACTCCTGGCAGAGGGAACAGCA
AGTGCAAAGGCCCTGCGGTGGGAATGAACTTAATGTGTACATCCACTTTCCACAGTAGCTGTAGAGACAATATTGACTCCAATTCTCCAGTATTTGATGT
AGAGGAGCTAAGTGGGGGCAGGATTCATTTATTCCTTCAACAAACATTTAGTGCCTGCTTTGTGCCAGGCACTATCCTAGATGCCAGTGGCTAACACTTA
TTTGGTGCTCACTGCTTCTAAGCACTTTATGTATATTATCTCATTTAGTCTTCACAGCACCACATTGAGTTGGGGAAGTCTGGGGAGACAGCTGGTCCTC
CTCTGTTTCCTCTACCTTCTTCCCATCTCCCAGCCACCTCAGGTACCCAGTRTGTGCCACCCAGGAAGACCAGGATCTCCACAGTGGGTGAGSTGGGGCA
GTTCTGAGAACATGACTGCTGCAGGGTCTTTCCCGTCCTGACTGGGCCCTGCCTAAGCGCAGGCTGTTAGCCTCCTGGGAGCCACCCAGTGACAGGCTAG
AAAGGGTGCTCTCCAGTCAGGCCTGCCTCAGAACATCCCCTCCCAGGGGGCTTCCAGTTGTACCTTCTCTGTTCCTTCTCTACCACTCAGCTCCTGGCCT
CCCTCCAACCCATTTGTGTAGCTTAAGCCCTGTTTTTGGACTCTGCCTAGGGAGCCACGTTCCAGTTCAGGGCTGAGACTGCTGGCAGGGAGAAAAGAAA
AACTTCCATTTTCTGATGGGGCAGTCCCCGAACACTCCCTGTGGTTTCACTAACTCTGCTGGAGGCAGCAGGGCGGTTCACACTGTGCCCGGCTGACTCT
GTCCTTTCCTTACGATGATCAGCTCACAGGGCCTCAGCCAGGGCAGACTTTTCAGTTCCTAACTGCCCACCTGTGCCTGTGCACCCAGCTTGTGCCCATG
ACYTGGGCTCCTCACCCTCTTCCGGAGGAAAAGGGGCAGAAAAGATTAAATAGAAAATTGCTCAAAATTCAGAGGCCGTGGAACAGATCTGACAGTTCCA
ATAGACTTTGGTGAATAAATAAACCTGGAAAAAGGGGGTTTTCTGGGTGGGGTGAAGGAAAAGGAAGGTCTTGTATGATGGGCTACGCTAACCTGGAAAC
CATGGCTCCATCTGTCATTCCATTCATCCGTCTATCCATCTATCCAACCATCCATAATCCATCCTGCCTGCCTGCCTGCCTGCCTKCCTKCCTTCCTTCC
TTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCTCTCCATCCATCCATCCATCCACCCACCCACCCACCCACTGACTGCTTGCCTG
ATGCAGCCACCAGCTCAGTTATGCTTGTGGAGTAAGTGTGCTGGGAGCTCGTCAGTGTTTATGCTTTTATGACCCCTCTGTTTGTGCATTTCCTCTCCTC
ACCAGGTTTGTAGAGAGCTCCTTGTGAAGTGAAGTCCCTCCATCTCTGTAGAGCCAAGAGGAGGGGCTCTGTGTTGGCTGTGGGGTTGGCAGCAGCTGCC
TGGCTTGGGCACCCTGGTTAGTGGGGAATCTTGCATGCTGCTGCCACTCCTGCTGCACCAGGCCTATGACCTTCAGTCCCAGCTGTGGAGTGTGCCAATG
TGGTCGCCAGGTGAGCAGGGCCAGGGCTTTGCACTGCTCCAGGGGCAGGGCCTTGTTGCCTGGCAGCCTGCCCATGATGCTGAGGGGCTGCTGGCCTCCA
GCCAGCACCAAGCTTTTAGAGTGATACAGTTGTATTGCTGCAGAACCTCTCCACACTACTATAGTAAACAAACAGTCTGGGGCCAGGCATGGTGGTTCAT
GCCTATAATCCCAGCACTTTGTGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCATTGCTACT
AAAAATACAAAAAATTAGCTGGGCGTGGTGGCACATGCCTGTAATCCCAGCTAATTGAGAGGCTGAGGCAGGAGAATCACTTGAACAGAGGTTACACTGA
GTGGAGATTGCACCATTGCACTCCAGCCTGGGCAACAAGAACGAAACAAAAAAAAAAAAAAAAAAAAAAAGTCTGGGACTCTGGGCCTGCCTGGGAACCA
GGAAGGATTGGGGTAGTTGCCATCTCTGTTCTTGGAGGGGTGGGTGGGTGGGCGAGCTTTGAACCCAGCAGCTGCTGTGGGCCTGAGAGTTGAGGCCAGT
CCTCCCGACCCCAGCCAGACCTGGCTTGGACAGCAGATGTGGGGCAGCACACAGACTAGGCGGTGAGCTGTGTTGGCTGGAAGTGAAACTGCAGAGGGCC
CAAAGGCAAAAGACCCAAATCAGACGGAGATAGAGATGCAGATAGAGCAGAGGRATATGGAGATTGAGGGGGTGAGGGGGGAGTGGGGGAGAGAGAGAGA
GAGTCTCAGAAAGGCAAGACAGAGTCAGTGAGAGAGGGAAGATTCAAAGGACTGAGAAGAGAAGGATCAGGGGAGGGGAGTCCAGGGCAAGGGAAGAAAG
CCGGTGTGGTGGGCTCAGGGAAGCAGGTCTTTCAAAGGCAGGGGATGCAGAGAGTAATGATAGCTTAATAAAAGCCCCCTCCTGTGTGGACAGCACCCTA
CAGCGAACAAACTTTCCCACTTGCCAAAACTCATTCAGGCCTCCTGATAGCCGGGCTGAGATGGGGTTGGAGATCTCCACRCTGCAGGATGGGGCGGGGA
GCTGGAATTGGAACTGGGACTGGCTGGAGTGGGTAACACAGGGTGGGGGTGGTGAGTGGCTTAGAGACAGAGCCCCCAGCTGGGCCCAAGTCCCTGCAGT
GACTGAGACTTCCCCAGCTGTGTTCCCGGGCCAGGCTTGTGCTCGCCATTCCTGCCACCATGACAGTGCTGCTTTGTTTCCTGGGAGGAGGTGCGTCGCT
CTCAAGTCCCGGCTGCTGACTGTAGTGGATGCTGTGGTGCATGCTCAGATTCCCCTTCAGGTCTGAGGCGCTCGCTCCCCAGCTTCTGGGTGTGTGGGCT
GTGGATGACTCACAGCTGAATCCGTCTCAGGGAATTGCCTTTGATGGAAGTGGGGGGAGAACCTTGCCCAGCGTTATTCCTCCTCCCTGGGGGCAGCCTG
TATCCAATGGCCTATTGATTGTAGGAGTGGGGGAGTTGTACAAAGGCCAAGTCCCCTTGCATCAACTTGTGACACTACTGAAGGGCCATCCCAGTTCCAG
AGGTCCTTGGGAGATTGGCTGAGGCCTTTGGTATGACTGCATGGCAGATCAATTTCTCCATTTGCCCAACCCTGCTTCCCTCGCTTCCTGTTGTTCTTGG
GATTACTCCCCAGTAAACTCCCCCAGAAACGGTGAGGCTGTGAGATTAGACACCCAAGAAGGCCAAACTCTGGCCCCTAACAACAGAACTGGTGGAGAGA
TGTGAACTTGGAGCAGTTGTCACCTCTGAGACAACTCAGAGGYGGTACAGCTTGAGTGAGCAGAGCCTCCCTGGCCACAGATGCCATGTCCCATCCCCTA
GCCATGGACCCCAAGGATAGGGGAGAGAAGAGGCTTACCCTGTGGGGCTGAGGATTGATCCTTGAGCCCAGCTTTGGAATTGGGACACCAGAGCCTGGGT
GTTTCTCAGCCCAGAAGCCTTGCGTGACCTTGGGCATGCCCGCTCTGCCTTGCCAATGCCAATCTCACAGTCTCAGAGTATTTCCAGGGATTCTGACCTA
TGACACTAATGCTAACCATTGGACACCAGCCTGGACTCAGCTCAGCTCCCCTCCCTCACATCCTTGTTTTCTTTCTAATTCTTATTGACATCAGACAGGT
ATCTGTGTATCAGGGAGAAGTCGTAGTAGGAGGGAATGTTCATCCAGCCCTCCCCACCCTGGGCAAAACCCCTCTGTGCATTCCCAGAAGAAAATTCATA
GAGAACTCGTCCCCTAGCGGGTAAGCTCAGAAGGGGCAGGGCCCTGTGCTGCCTGGCACATGAAAGGTGCTTGATGGTTTTGAGTGATGATGACTCTGGC
ACCTTTGTGCTCCACCAGAGAGGCAGGAGGTGTGGTGGTTAGGGTGCTGGAGCCAGACTGCCTGGTTCACATGCCAGCTCTGCCTGTCAGAAGCTGGGTG
ACCTTGGGTAATAAGGACAAAATGGGTTAATCTATATCAAAGTACTTAGAACACAAAATGGCCTGTGTTAGCTATTATCATTATTATTATTTTTTTAGTT
GTAAGATAACACCTGATCCTCCAGGTTGTTTGGGCTGTAGATCCCATGTCTAAGAGATGCACACACACATAAGGAGTTATTTCCTTAGTGAACAAGGAGT
CTCATGTGTTGCCCTGTATCCCTATAACCTCATGCAGTGCAAGCTCCTCACTTGGAAACTCTGCAGACAAGGCAGAGAGGGCTGGGCCAAGGTCATACAA
TGCTCTGGGCTGAGGAAGACCCAGGCCCTGGTGTCCAGTTCCCAAGCTGGGCTCAAGGCTCAATTCTCAGCCCCATAGCCTCTTCTCTCCCCTCTCCTTG
GGGTCCATGGCTAGGAGACGGGACGTGGCATCTGTGGGCAGGGAGGCTCTGCTTGCTTAGGGATGGATTGTCTCAGAGGTGACAACTGCTCCAGGCTCAT
ATCTCCCTCTGTATACCCAGTTCTGTTGTTGGGGGCCAGGGTTTGGCCTTCCTGGGTGTCTAAGGGATCAGATGAGAGGCCACTGAAGTTCGGAGGGTTA
ATCTCTGGCACTGTGCTTGCTGCACAGAGATTGCAGTGGTCAGGTAACTGTAAATAATAATACCAAACCATAACATTCACCCAGCACTCTCATTCCCTTC
CTACCTCATTTACCCCCACGATGATCCCACGAAGTAGGACTTGCCCCTTCCACTGCTGCTAGCAGGGGCGGGACTCTAAGCCCTGCCCCTCTGCACCTGG
GAACTGCCTCTTACTTGGTCTTCCTGCTGTCTCACTCCTGCCTCATTCGAGCTGTGCTATTTAGTACAGTCCCCACATGTAGCCAGTGGGTGCATGAAAT
GTGACTAGGTCAACTTGAGATGTGCTGTAAATACAAAATATGTACTGGTTTTTGAAGATGTGGTATAAAGAAACCAATGTAAAACATCGCTAATAGTTTT
TTTATATAGATGACATGTTGAGATGATAATATTTTGGGTGAAACAAAATATATTATTGAAGTTAATTTCACCTGATTCCTTACTGTTTTTCATCTGGCCA
CTAGAAAATTTTAAATTATGCATGTGGCTTGAAACATATTTCTGTTGGACAGTGCTGCTCTGAAGTCTGTTATTCACACAGCAACCAGGGTTATCCTTTA
AGATCTTGGTGATTATGTCCCTTCTCTGATCACAACTCTTTATTATTATTACTTTTCTTTCTTCCTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACC
CAGACTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAACAATTCTCGTGTCTCAGCCACCAAAGTAGCTGGGATTACA
GGCGCACGCCACCATACCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTTACCATGTTGGTCAGCTGGTCTCCAACTCTTGACATCAGGTGATC
TGCCCGCCTCAGTCTCCCAAAGTGCCGGAATTACAGGCGTAAGCCACTGCTCCTGGCTACTTTTCTTATTTTTAAGAGATGGAGGTCTCACTGTGTGGCC
CAGGCTGTCATGCAGTGGCTATTCACAGGCGGGAGTATAGCACCCTATAGCCCTGAACTCCTGGGCTCAAGTGATCGATCCTCCTGCCTCAGCCGTCTAA
GTACCTGGTACCACAGGCGTGCACCGCCATGCCCATCTGCTCACAACCCTTTACRAGCTCCTGTGACACAAGATAAAAGCCAATTACTTACCATGGCCTT
CCAGACCCTTTGAAGGTGATTCACCCTCTTGCTTCCTTACAGATCTTCCCTCCTGCCATGTGTGGCTAGCACGTGCTCCTATGTTCTAGCCACACCGTAA
CTCCTTAAACTTGCTAAGCTTATTTCCACCCCAGGGCCTTTGCTTGCTGTTCCCTTTGCAGGGAGTGATTTGCCATCTCTCCATATGTTCACTCTCTCAC
TTGATTCTGATTTCTGCTAAGATGTCCCTTCCTCAGGGAGGACTTTTCTGTCCATCATAGCCAAAACAAATGCCTCTGTGCTCTCTAATCCCTCGGGCAG
AACATTAGCTCTTATGTAACATTACATACATGGCCTAGGGTTTTTCATCCTGTAGTCATGAAAATCCCGTTGGCACTTGGGAAGCTCTTAGAGATACCTA
GCTCAATCCTCTCTTTTTATGGAGGGGGAGATCGAGGTCCAGGGAAGGAAGAAACTTGCCCAAGTTCATAGGTATAGAAATAATAATAGCCAGCTGCCAT
TTATTGAACATCTGCTCTATGCTAGGGGTTTCACATCCATTCTTTTGTTTATTCCCATTATTTTCTTAGTAGTCTCTGATTTTGCAGTTGAAGAAGCTGA
GGCTCAGAGAGGTTAGGTGATTTGTCTGAAGTCACATAGCAGGAGGGCATAGACTGGGATTCAGACCCAGATCTGTTTGACACCAAAGATTGGGTTGTTC
CTCTGGCCTCTGTGGGTTCCCACATTCCAGGACCCAGGTCCTGTGTCTCAGGCCAGAAGATTTTCTATATTGGCTGGAGCTTCTGTGGGATGCAGGCAGT
GGATGAGAAGGGAAACGAYAGCAAATAGAGGAAGCACAAGTCTCTGGCCTCAGTGTTGGGTGCACACAAAGCAAATGGGAGAAGGAGGAGAGGGGCTCCC
TTCCCCTGCCCCAAGGCCCAGCCAGGCAGGCCCCCAGCAGCCTGGCTGTCTCCCTCCCTTGCGGGCTGGAGCTGCCTCTCCGCCTCTGCCCGCCTGATCG
GGGCAGAGCTCGGCTTCATGTATTATTAATAGCACTGCCAGCCTTCCTGTTTTCACGCTGATAACCTGCAGGGGAGGGCTGGTGGGAGGGAGGGAGCAAG
GTGGCAAACCCTGGAGCTTCTAGGGTCCCTCCCCCCTCAGTAGAGCAGCTCTGCGGGGGTTGGCCCCAAGTCTCTAAAGTTGGTTTCTAGAGCCTCCCCC
ATCCAAGCCCAYGGGAAGGGACCAGGGCCTCCTAAAGGGAAATCACATGGGAGGTTGGAACGTGGGGTCTGGGAAGGGCCCTGTTACTCAATCCATCTAG
GACACCAATGGCTCAAGTCACCTTGGCCCTCCCCAGAGGCAGAAGTGCCSATGTCTAGGGCACATGGGGCTCAGAGCTGAGGATTCAGGGGTGTGTGTGT
GTGTGCATGTATGCACGTGTGAATGTATGTGCGTGTGTGTGTGTGTGTGTGTGTATTTGAGAGAGAAAGAGAGAGAGAGAGAGCATGAGAGAGTGAGTGC
TTGGCTCCCAAGGTCCGCTGTGATAAGAGATCTCTGAGGTCCAGCCACACATAGACTTCAGGCCATATCTGAGCTGGCCTCTGCCTGCCCCCGCTCCCAC
GCCTAATCTTTTTCCTTTCTAGTGCCCAACCTGGAGGCCAAAGGCAGGTTACAGATGGAGCCACCATGTCCGGGACTCTGATGGGTGGGGTGGGTAGGGG
CCCGCCCCTTCGATCTGGCCCATAGGCTGGAGGTGGCTGTAGGGGATAGCAGGTGCCAGCYGTGCATCTCTTTCCAACTTCTTGTTCAGTGATGTCACAT
TGGTTGTTTGAAATTGGTCATGGTGGGAGGATTTACATTACAAAAATCAGCAAATGCTACAAATCAGGGTTCTGCACCCCTAGAGCCAGTTGTTAGACAT
TTAGTAGCACAGCTCTTGGACCAGTATGGAAGGCTCTGCTGCATCTCATCTAGAACATGCCTATACCTTTTTTTTTTTTTTTTTTTTTTTTGAGACAAGG
TCTGGCTCTGTCACCCAGCGGGGAGAAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGCTCAATCGATCCTCCCACCTCAGCCTCC
TGAGAGGCTAGGACTACAGGTGTGCACCACCACACCCAGCTAATTTTTGTATTTTTTGTAGAGATGGGGTTTCGCCATGTTGCCCAGGCTGGTCTTGAAC
TCCTGGGCTCAAGTGATCCACCCACCTTGGGCTCCCAAAGCACTGGGATTATAGGCATGAGCCACTGTGCTCTGCCACGCCCATACCTTTTCTATCTTTT
ACCTCTTCCCAGACTGCTCCTGTGAAGTCTTTCCTCTTCGCTCTTGCCTGTTATTTTTCAATAATGTAATAAGAGGAGTCATGATATTGGCTAACATTTC
TTACGTGCTTGTTAATTATTTTCTGGGTCTGTTGGAAGAGCTTTACAAGATTCACTTCATCTTCACTGTCATCTAGTGAGTATTATTTCCAGTTTACAGA
TGAGGTAACTGAGGCACAGAGAGGTTAAGGAACACTTGAGGTCACACAGCTGGTAAATGGCAGAGCTGGGACCCAGCTGGGACCCCTATCTGGCTCCATG
GCTGCTGCTGACAGATACTATGTCATCCCTGCCTCCCTGCAAGGGCTGCATGTGGGTGCCTCCTACAAGTCTCTGTGACTGTCCTGGCACTTGGGCCTCT
CTGACTTCCTTTGCTGTCTCCCCGGAGCTATGCACTTGGAATTGTCCTTACTGGGCCCAGGTCTCTCCTGCCCCCCCAGACTGGGAGCTGCTTGAGCTCA
GTATCTGGGTGTGATTCTTCTGSTGCCTTCAGTACCTGGCCCAGGAATGAGTGCAGAGAGTACTTGCTGAATGAGCCGCTAGTGGGGGTAACCATGTGGC
ACAGCACCTGGCACCTGGCACACATGCCTGTGCACAATGCCCAGTAAGGGGCAGCTGTGCTTATCAGAGCCTGGGCTCCATCTTCCAGCACATTTTGATG
AGTGCCTTTCATATGCCAGTCCCTGTTCCAGGAGCTGGGGTTTATCGTGGTAAATAAAACCGACAGAAACTTTGTCCTCTTGGACAAAGCTTATGTTCTG
GTAGGGGAGACATCTAATAAACAAGATAAAGAATGAAAASGTAAAGCATTTAGGGATATGTGCTCAGGGGAAAAATAAAGCAGGGAAGAGGCTAGAAAGT
GTCCAGGGAGATTTTGATGGGTTGGTCAGGAGCCTGTCGGACTTCACTGAGAAGGTGCCAGTTAAGGAAGTGAGGGAGTGAGCTATACTGTTTACTGGGG
GAAGAACATTCTAGGCCGAGTGAAGTTCCTGGGGCAGGAACTTGCTGGACATGTTTGAGCAACATCAAGGGGGTCAGTGTGGTTGGGGTGGGCAGAACAG
AGGAGAAAATCGGTCAAGGAGTTATTGGAGTCAAGAGAGGCAAGTGAGGGAAAGAAGGGGCTAGTGGCAGTGGTGGTGTAGGGTGGGCATGGGGAGGGTT
ATGAGAAGCAACAGCTTTTCCTTCTGCCCTATGAGGAGCAGGAGAGGGACAGCTTCGAGAGGAGGGAGACTGTTTTCTGTAGCCGAAAACAGTCTTGCAG
CTCTTGACTGGGTCTTTGGCCTCTTGTAGACCCAGGTGCAATGCAGAATTGCCTCCATTTCCCCTCTAGACTCCTACCAGCTGCTCCCCTGTCCTGGCCA
CAAGAAAGTCCTGCCCTAAGGGCACTGCTGGTCTGGAATGGCATCTTCCTTGTCCTCAGGTTTCTGCTGCCCTCTCTGCCTGCCCCTCACACCTTAGGGA
ATACTGACTCCATGGTCAGGCTCCTGAAGTGCTAACTGTGGACTGGCCAGTCTTGGAGCTCCTGTTTTCCAGCCCCTTCCCTCCATGTTCCTGAGGTCCA
GCCTCCAGGCACAACCTGCCCCAAGAACAATGCAGGAGAGACCCAGGGCCTGGAGCGGCTGGCCGTGTAGGGACAAGGTGGCAAAAAAGGAAAGAGATTG
GGAAGATTGTGGGTTCAGTGGGCACAGGGGGGCTGGGCAGAGGTCTCCTACCCAGCAGGAGTCTAGGACTGTGGATCAGAGGTGGTGCCAGGGCAGGTGA
TGTCTGGGCTGGGAGCGTGTGGACTGGATTTATTTGTCCAATGCCACACCCCACCCCAGAGCTCTAAGTGCTCAGCATCATAAATAAAACTCACCTAATA
AATCTCCCCTGTAAATTTTCTGCGTAGAATTTCATTACTTGTCTTGTTTCCAGTCATTAGGTTTTAGTCCAATTCGGAGTTGTCCCGATGGCTGTGTAAA
TCATGCCTGCACCCTGGAGAGCGTGAACTGCAGGGAGAAATCACGCCTGGGCCTGCAGGGGTGACAGCTCAAGCCTGAACAGCTGGACCCTGTGGGGAGT
CGGCTGCTTGCACTGAGCTCCTCCTATTCTCCTTGCCCTGGATGGGGAAGGAACTATCATTAACTGAGCACCTAACGAGTGCCAGGAACTTTATAAACAT
CATCCTGAATCCTCACACCAGCCCCACAAACTAGGAATTACTATCACCATCTTAAAGAATGGAACTGAGGCTGGAAGAAGGGAGGTCATTTGCCTGAAGT
TACACAGCTCAGCTGGTTTGTATCTGACACAGTCTGGCTTTGAGCTTAGGTTTATCTGGCTCCTACTGCATCTACTGCCTCCTAGTGTCATAGTTAGAAG
AGACTGTAGAGAACTTAGCACAGTGCCACCCCTTCCACAAGCATTCCTTGGTTACTAGCTAGAGTCAACCCCTCTGTTGTCTGTTTCCTGTACTGACTTT
GAACCACTTAGGAGGCTTTGCTCACACCCAGTGGCCTTCCATGACTCTCTACCTGCTGTGCTTTCTGATACATGGCTCCTTGGGCTTTTGCACACTCATA
GCTATGCATCTAGTTCCAGGACTATTGAGTTCTTGTTTTTCTTCTTTTCTAAACCATAAGCTCCGTGAGGGTAGCGGCTACACCTGCTTGATTYGCCCGT
GTATTTCCAGGATCTAGTATAGTATACAGCACATAAAGGTGATGGATAAATTTTTTATCGAGTGACTGGATGGAATAATGAATGAATGAATGTAGTCACA
CCAGGGAGGAGAAGGAGGAGATGTCAATATGGCCACACCTCCTCTGTGCAGGTCAGTTACATTCCCAAAGCCCAGTGGAGGTCTGAGTGGGTAGGGAGGA
TTCTGGAACCTCATGTCCAGGCCCCAACTCAGTGCCAATCTTAGCTTTCACCTCAACATCAAATTTTAGCCCTTGACCCAACTCAAACTCCAAACTTAGC
CTCAACTCCTAATCCATTTCCAACTCTGATCTCAGCCTCAAGTCCAAACTCAACACCTGACCCCACCTCAGCTCCAACCTAATCACAGCCTTCACCTCAG
CTATAGCCCCACCCCTATTTCCATTTCAAAATCAGCTTCTATCTCAGCCACAACTTAAATACAGATCCAACTTCCACCTTAGCCCCCATTCCAGACCTCA
ACCCCAGCATCACTAGTCAAAAGCAGTAGCTCCTCCTCACCTGTGAGCAGGGAGCAGCCATGGTCCTCAGATGTTGACTGTCCCATAAGCCTGTCATCCT
TTCCCCCACCTGCCTTACAGCTTGGAGAGGGGAGGAGTCCTGCTGGCCTCTTGTGAGAACTCAGTAATATTTTTCCACACCCGTCTCATGGTTACAGTTC
ACAAACCACACACATGTCCATCAGCCCACCAGGTAGATCCCCTAACCGCTCAGGGAGAGGTCTGCATTTCTTTATGTTACACTGGCAGAAATGGAGGTTA
TTAAATGCTTTGGCTGGTTTGTGATAAAGGGGGTGCTCTAAGCCAGCTTTTCTAAGTTTCATGCTGTCCCTAGTCTCCCTGACCTGGGTAGAAGATGAGA
GGGGCCCTTGGTTCTGTGTGTGTGGGTGTAACAGCAGGGACCCCTTACCCCCAGCCCTCAGCACCCTTGGGTGGTCTCCACTAAGGGCTATGACAGAAAC
ATTCTGAATGTTTCCCACCCTGAGCTCAGGAGAGCTTGTATCAAGAGAGAGGCGAGTGATACAGGACTAGTGAAGTGTGTGGTGGATTTGAGGAGTGTTT
GGTTASGGGCCTGGCAGCAAACAGAATCTACTCCTAATGGTTTCTATGCAGCGACTGTGATGAATGGGCTACCTACAAAGGCCTGGGTGAAGATTTTAGG
AAGCAGCAAGAGAGGTGGGGCTCCAGGGACTAGCAACAGTCAGAAGCCCTTACCACCTCAAGGGCTGATGAGACGAGGGGAGGGAATGGTGTTGTGGAGG
AGGGAATGCCTGGTGCAAGCCGTAGTCATGGAGAAACACAGCCACTGCTAAAAATGTTGCCCAGGAAGGAGGGAGTGAGGAGGGAATCCCTGACCTCCCT
CTTCCCCTTCCCTCCAACTTCTGCCGGTGCCTCCCACCAGCTGAACCCAACCAGGGGCACCCAGGCCAGGCAGTTCYCTGGGGTCAGTCTCCTGGGGCAC
AGCTCAGGGCTGAGAAGGGCAGGGTGTGAATCTGGGCCAGGGGATCAAATGGAGAATAAACAGCATGGGGAGAAAGCAAGAGCAAAGGGCAGGTCTTCCA
GGAGAGACAGACAGACAAAGAAAAAGCAAGGGAGGTGGAGAGTGTGTGAGAGAGGGAGTGAGAAAGGGCTCAGCCATTTGTCTGGGCAGGTCTGCGGAAC
TCAAATCCGGCTCATCTGCATCTCCTCAAATAAACTTCTGGGAAGTGAATGCCTGAAGCAGGCAGAGTGCAGAGAAGTCAGCAAATATGTGCGTAGTGAA
TTCCAAGCCTTCTGTTCCCAGCTCCTGGGAGGGGCCGCAGTGCCTTGGGGTGTCCTGCCGTGTCTCCATCRGGTCCCCTGCCTGGCTGCTCTAACCCTGA
GGAATGGCCTCCAYTGTGGGCCTGTGGAAACAGGGAGAAGAATCTCTTATCCAGCAGGTCTGAGGGCCACAGGAACATAAGTAACACTGAAGAGTGAGGC
TGATCCCTGGGGTTTGCGCGAGCCTGCAAATGCATGATTCAACAGCACTCGCCTGGTGCCTCTGGGAGGCAAGCTGGATGAGGATGTTGTTCCCATTTTA
TAGATGAGGAAACTGAGGCTCATTGGGAAGGGACTTTCCCAAGGCTATGTTATGAGTTAGTTGCAGAGCTTTGAACTTGGGCCCAGACTGAGCCTGAAAC
CTGACCTTACACTGAGTCCCAGCCCCAGTCCCTGAACATGGTCTCTGAACATGGCTCAGATTTTGCCCCAAAAGCATCTGGACCAGGAGGTTGGAGCGGC
CTGGGATACCCCCTGAATACTTTCATACTAATTCTGCTATGGACAGATGCCTGCAATCCCCTAGAGGCTTGGACATTTTCCAAAGGAAACTTTTACTGAA
GAAAGATCATCTTTATTTATGAAATACTTATTCCGTGCTGGGCACCATGCTAAGCACTTTGCATGAATTATCTCATTTAATTCTCTGAACAATTTATAAG
TTTGAAACTATCATTATCCTCGTTTTACAAATGAAGAAACTGGGGCTCTGCGAGTAACCTTTCCAGTATCCCACAGCTAGTACATAGTGGAGCTAGGATT
CAAACCCAGGTCTCGATGCCTCTGTAGGATTTCATTGTTAAGCTGCACTGCCTAACAGGGACCAGAAATTGTAGTTTTTCTTCTTCTCCTAAAAGCAAAC
ATCCAGGCTGGGCACAGTGGCTCACGCCTGTAATGCCAGCACTTTGGGAGGCAGAGGTGGGCGGATCATGAGGTCAGGAGTTTGAGATCAGCTTGGCCAA
CATAGTGAAACACTATCTTTACTAAAAATACAAAARTTAGCTGTGCATGGTGGCGCACACCTGTAACCCCAGCTACTGGGGAGGCCGAGGCAGGAGAATC
ACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCACCTCTGCACTGCAGCTTGGGCGACAGAGCGAGACTTCCCCCCACCCCCCCGAAAAAG
CAAACATCTTACATATCCCTAACCAGGAGGGGCCACAGGTGGCCTTGATAGGCACAACTGCCAGGTCTTCCAGCCCTGGCCTGGGCCACACCTGGGCAAG
GCCTAGCCAGGCTGTGATAGAGGAGACCAAAGAGTGTGCCCTTCCTCACCATGGCCCAGGGGAAGGAGAGCAGATCCAGAAGATCTGTGGGCCATGGAAG
GAATATCCYTGGTCTTGCACAGRACACAGCATCTGTACTTATTCCATACATGGGTACGGTCCACAAGGTATGGGCATGCTCCACGCTTGTGAGCGATGTC
TGTCTGCCTGCCAAAAGAAGCTGCTGGATGCATGCAGGGAACTTYTCCCTATCTTCCCAGTGCTGTGCAGTGCTAGGCCTGTGAGAGATCAACCAAAGCC
CCAGCTCAGAACTATGGGGAGGAGAGATAGGCAAAGGGCACCTTCTAGGAAGATCTGACTAGGGCTGTGCCCCCAGGGAGAGCCCAGGTTTCTTGCTGCC
ATCTATTCCCCCAAGCAGACCCCTCCTGGCTCTCCCTGTACATCAATAACTCTCCTCTTGTGTCCCATCCCTAAAGGTTCCCAGGAAGGAAGAGGGGACC
CTGGATCCTGACCTTACAATCTGTGGATCATGAGGTGTGCAGATGCTGTGCCTGGGAGCCAGAGACATGGCATCTTCTTTGTGATTCTGGGCAAATCCCT
TGGCCTCTCTAGTCTCCTTTCCTCCTATGCAAAGGGAACTGGCTGGCTTCAGTGATCTCTGGKACTCCTTCACACGAATTTTCCCACTGACTCTCCCGCT
CTGAGCCCTGAAGCTTCTCTTCAGCCTGTCCCTCCCCTCCCCCCTCCAACTTCTGGGCAGAGGCTCTGGCCATGGTGCTGAAGGTGGCCATGGCCTCTGC
AGGGTCTTGGAAGACCGGAGGTGAGCAGGGTACCCACCTCAGGACTTGTGAGGGCAGAGGAAAACTACCCTAATTAAGAATTTACTATGTACTAAGCCCG
GTGCTGTTCACTTTACATGCGTTACGTTGAYTGATTACAGTGTCTCTTGGAGGAAGAGATTATCATGGGAAACTGTTTCAGGAACTGTGGGTTCTACACC
TTCCAGGAAGCAGAAGGCTGTTCTGACTTACTTAGGATTTCAAGTAGCCCTGGCTCCCAGAGATGGTCCTGGGACAATTAAGGGCAGCTGAGAAAACAGT
GACATGTAGAAATGGTTGATAAAACTGTGAGGGAACGTCTGTTGACACTGATTCTGAGCCTGCGGCCAGAGATGAATGATTGAAGCACCAGGCTTGTTAA
AGCGAGAGCACGTTTGATTTCTCTCCCCTGCACTGCATGCGATTTTGCTGGAGGGAAGTTAGCAATCAGCTAATTGACATTGAATTAACCATGAAACTCA
GCCCCTGCCTTCTCTCTGAAGCGCTCTCCAGCAAGACTTTATCAAGGCTTTGAATTATTGATTATTACTTATAGCTCTGATGGGGTGATTTCCTTTTATT
TGTTTTCACATTGGGTGTCCTTCATAAGTGTCCCTGAGAGTGGGAGGCACCCAGATGCAGAGCTTCTTACCAGAGGAGCAGAGGAGAGAAGTCTAAGTCC
AGGGAGGACAGGTCTGGACAGTCCATCCTGACCCAGAGAAATAAATCTGTTATCTGTTAAGCCACGGAGCTTTTTGTTTTGCATTTTTGCTGCTGTTACT
GTAGTAAAGCTTAGCCTAATCTGACTAACAGGGACTCCGGAGGCCAGGTCCTTTCTGATGCCCCATCATGCCAAGCTTATAGGGTGTGAATGTGGCTGTG
CTCCCTGCCCTGCCATTCAAACTCTATCTGTAAGGATGCTTACTCGATGCCTACTGCAATTCCTTCAGATACAGGGATTCTTCCACAATATCCAAACCAA
ATGGCGTTCTGGACTCTGCTTGCATATTCCTGGGATGAGAGTACATGCTGTCCTGAGGCAGTAAAAGTGCTCAGCACCCACCGTCCCCTTGGCATCATCC
ATGTAACTTCTACTGGTTTGGGCTCTGTCCCATGGAGCCCCACAGAGTAATTTCTTTYTTTTTTTTTTTTTGGTCCCATGACAGCCTTACAAGAATCTGG
AAAAAAAAAAAAAAAAGAATCTGRAATTAGATATCCAAGGCCTCCTCTCTTCCAGGAAACATCATTTCAACTCTTCACAACACTAAATTTCAAGTCCCAT
CCCTAACTTGGTCTCTTCTTGTATTGGGAATCCAATATGTCTAGGAGCCTCTGGAAATACAATATCTAGAACTGGATTTAACACTCCAGGTATGGCCTGA
GAGTGATAGAGCCTAACAGACCCATCACCTTCTTCAGATTGGGCATTAGACCTTTAATGATGCAGCCTGACTGGGATGAATAGCTTTGTTCTATGGCAGA
GACACATACTATTTATTGAATTCATGTGCTCCTCATGTTTCCCAGCTTCCTTGTGGCCAGGTGGGGCCATGTGACTAGTCTGGCCAGTGGCCTGTGAGCT
GAAGTGATATGTGACACTCTAGGATGACACATTTGAGAGCCAGTGAGTGATGTTCCAGGCTCCCCTTCCTTGCCCTGGCGACCTGGAAGCCAAGTATTCC
AGATGGCATTGCTATAAGACACAAGCAGCCTGGATTTATGAATCACCACTGGGAAGGGAGCCACCCTAAAGAGTTGCTGGACCCACAGTGAACTTTTTTT
CTTCCTTTTTTTTTTTTTTTGAGACAGAATTTCACTCTTGTCGCCTAGGCTGGAGTGCAATGGCGCAGTCTTGGCTCACTGCAACCTCCACCTCCCAGGT
TAAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCAGCCACCACCACGCCCTGCTAATTTTTTGTATTTAGTAGAGACGGGGTTTCA
CCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGAACCGCCCACCTCGGCCTCCCAAAGTGCTGAGACTACAGGTATGAGCCACTGCACCTGG
CCCACAGTGAACTTGGTATGAGCAGAAATAAACTTTTATGTATTAAGTCACTGAACTTTTTGTTGCAGTAGTTGCTGTTACTGTAGCACAGCCTCACCAA
ACCTAACTGATAGGCCCAGCACACTCCTCACTCACATTGGGAATTGATTCTATTTCATCATCTGTGTAGTGCCCCATGTTAAGCCCTGTCCCTCCCCAGC
TAGACTTTGCTGTGATTCTTATTTATTGGCTTTGAGCTCCATAAAGTTAGTGACCATGTCTTACTCTTTGTATCTCTCCCAGGGCCTAGTCTGCTGCACA
GAGGATGTTCACATTTGTAGAGGAAGGGAGTAAGAAAAGGAAATTCTGAGTCCATCAAGATAGAAGCAGAAAATATTCCCTAGGATATTTCTCTGGAATG
AGGCAATATGGACTCAAATCTCTAGTTCCATCACTGAACAGCTGCATGTCCCTTAGCCAGTTACTTATTCTCTCTGCGTTTCTGTCAAATAGTGGTAACA
GTCCCAGTTTCTCAGAAGTTGAGGATGTAATCATATATTTTATAAAGACTGGCTGGCACATTGTGTTGTAAAAAAATGTCAGATGTTGTCATCACCATCA
CCATCGTAGTTATCACTGTCATCATCAGCGGGAACAGGGGATATTGTTGCCCATTACATCTAGGAGGGAAGCAGAGAAGAGAGTCATCCAGGAAGGGTCT
CAGCCCCAAGGCAGTCCCAGACGGAGGACTTGGCAGATGCAAGATCACGTAGATGCTCTCTGGCTCAYGGTCAGATATCCTGRGCCCAGCCCTGCAGCAC
TGTCCTCCAGAGGATGCACACCTACCCAGGCCTCCTTACCCTTCCTCACTGGACTTTCTCTCAACACATGTGTTTGGCTTGAGATGCAGCTTGTCACATG
TGTCTGGCTGATTCCACTAGGACAACTCTGCTTGCTTCTGGCAGAAACCTGGACAAGGCAATGGAATATATGGGAGTCATGTCTCTCTGCTAACAGGCAT
TCTGTGTGTAGAGGAGGGAGGATGGCCTCTTCGAGGTGGACTGCACACATGGGCAGATGTCATCTGAAGATTTTGAAAAATTTTTGTTTGTGTACCCTAC
ACAGTCCACCACAGACACATGTCACTGTGCAAGTGCACACCATTTTGGATGCCCAATGTCATTGTGGAAGAGAGGGAGCCTACATTTTTTGAGCACCTAT
TATGAGCAAGCTGTAACTGATACCAAAATTAATCCTCACAATTCCATGAGGTAGAGTTTATTATTCCCATTTGAGAGGTGAAAAAACTGAGGCCTAGACA
GTGTTTGAACTGGGGACTTGAATCCAGGTTTGCCTGACTTCAGAGCCTGCCCCCTTTTATTTATTTATTTATTTTTTGGTTTGTTTTTTTGGGACAGAGT
CTCACACTCTTGCCCAGGCTGGAGTGCAGTGGCGTCATCTCGGCTCACTGCAGGCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAG
TAGCTGGGATTACAGGTGYGTGCCACCATGCCCAGCTAATTTTTGTATTTTTTTTTTTTTGAGATGGAGTCTCGCTCGCTCTGTTGCCCAGGCTGGAGTG
CAATAGCACGATCTTGGCTCACTGCAAGCTCCACTTCCCGGGTTCATGCCATTTTCCTGCCTCATCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCAC
CACGCCGGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATGATCTGCCTGCCTCGGC
CTCCCAAAGTACTGGGATTACAGGGGTGAGCCACTGGTGTCCAGCCSCTGCCCCCTTTTAATTTATTTGTTTATTATTTCTTTTTCAGGACAGTGGATAC
TTTTTTTTTTTTTTTTTAAGATGGAGTCTCATTTTGTTGCCCAGGCTGGAATGCAATGGTGCAATCTCAGCTCACTGCAACCTCTGCCCACCGGGTTCAA
GCGATTCTCCTGCCTCAGCCTTCTGAGTAGCTGGGCCTACAGGCACCTGCCACAATGCCTGGCTAATGTTTATATTTTTAGTGGAGACGGGGTTTCACCA
TATTGGCCAGGCTGGTCTTGAACTCCTGATCTCAGGTGATTGATCCACCTGCCTTRGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCGCCGCACCCA
GCTAGGTTTTATGTATTTTGGAGGACCCTCATCCAGAGTCTCTTCAGATTTGTCTCTTTGGGTTTCTCTTCATTAAGCGTCACACTTCTCACTTGTTCAA
ATACTTTTACTTTCGGTACCTTTGAAAGGCTTACTTTCAAAACAATGGTTATAGGCTGTAACCAAATGATCCTAATTAGCTGCCTTGGCCACATTTTTAA
TGTTTTCTAATAATTCCTGTTTCTGCAAGAAACGAATCTGGAGCCATGGTCCTGCAGAAACTTGATAATGTCTTTCTTGGGCGGTAGCTCACTGTGCAGC
TGCTCCACGGCCCATGTCCACTGTGGAATGGCCGCTGCCATCTGCCCCCGCTGCCTCTTCCTGTCTTCTTTTTAATACACTGCCTACTCCCAAGACTTGT
CCTCTGGCCCGATCTTCCACTGCCCTCCACCTTGACAAATGTACACTTTCCTGTCCTCCCTAAAATACATACACACACACACACACACACATATACATAT
ATATACACATATATACATATATATATACATATATATGTATATACATATTTTTGAGACGGAGTCTCGCTTTTTCGCCCAGGCTGGAATGCAGTGGCACGAT
CCCAGCTCACCACAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGCATCACAGGCACCCGCCACCATGCCMGGCCA
ATTTTTTGTATTTTTAGTAGAGGCAGGGTTTCACCACATTGGCCAGGCTGGTCTCCAACTCCTTGCCTCAAGTGATCTGCCCGCCTCGGCCTCCCAAAGT
GCTGGGATTACAGGCATGAGCCACTGCGCCCAGCCTAATATTTTATAATCACCAGGCACTGTGGTATGTTCTGAGCCTTGGCTTTCTTCCCTGAAAATGG
TACCTGTCTCTTGGGACTGTTGTGAGGACTGATTAATATCCACAGAATACTTAGCACACTGCCTGGCACAAAATTAGCATTGAGTGTTTGTTATTAATAT
AATAATGGCYGACATATATTGAGTACTGTGTTTGTCATATTCCATGGTGCTARGTGCTTTATGCAGGATATCTAAATGCTCAAAACAATCCTTGCAGTAA
GTGTTAGTACCCTCATTTTCAGTTGGGGAGATTGAGGCTTAAGAGAAGTTAAGTAGGCTAGGGGAGGTGGCTCATGCCTATAATTCCAGTACTTTGGGAA
GCTGAGGTGGGAGGATCACTGGAGCTCAGGAGTTCAAGACCAGCCTGGGAAACATAGTCAGATCCCATCTCTACAAAATAATAAAAATAAAAATRGAAAC
ATTGAGAAAAGTTAAGTGAATTACCCAAGTTCACAAAGTAAGGAAGAGGCAGTGTAGGGATCTGAATTCTGATCACCTGACTCTAGAGGCTGTGCTGTGG
CTGCTCAGAACCAAGAACTAATAATAATTAATAATCTAGAATAATCACTTCCATATATTGAGCAGTTATTATGTGTGAGGGCACAGCTCTTATCTATACC
TGTATTTATATCTATGCCTCAATTTTTAAAACTGTCCTCTCTGAGGCAGATTCTATAATTAGCTGGATTTTTTTTTTTTTTTTTTTTTCCTGAGACGAAG
TTAAACTCAGTCACCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCCGCCAYCTGGGTTCGAGCAATTCTCCTGCCTCAGCCTCCAGA
GTAGCTGGGATTATAGGCATGCTCCACCATACCAGGCTAATTTTTTGTATTTTTCCTTGCAGTGAAACCCTCAGACAGGGTTTCACCATGTTGGCCAGGC
TGGTCTTGAACTCCTGACCTCAAGTGGTCCACCTACCTAGGCATCCCAGAGTGCTGGGATTACAGGTGTGAGCCATCGCACCTGGCCAATTAGCTGAATT
TTTTACACATGAGACTGAGAGTAAGAAGGATTAGGTAACTTATGCAAGACCTCAAGCTAGGGAAATGCAGTGTGGGGACGGGAACCCAGGCTGTTGACAT
GGATGTGACCACTGCAGTATATCACCTTCATAGCAGGGAAGATATATGTATTATATATCATTTGAATGTGGTGTAGAGCTTGGATTAAACCATTGTTTAT
GCAATACATACTGAAAACAAAAGGATTCACGATGTTATAAGAGAAAGGGACACATAAAGATATACTAGGCAAAGGCTAACACTAAATAAATAGAGGTCAA
AATTGGTGGCCTTCCAATGACTCCAGATGACATGAGCAGGCCACAACCAGTTTGATTCAGCTTGATCCCATCTTGGCCAGCCCCACACATTGTGAGCTGG
CCCCAACAGGTCTGGTTTGATTGGTGCCAGCTTGAATCAGTTAGTTAGATCTAGTTGCAGCCAGTTGGGACCAGCCTGAACTGGATTGACCTAGTTTAAG
TCCTTTTGTGTCTTCAGGCTGACTTGCCTTTCAGTCTTAGAGTTTTGGGGCTCCCTGTGGAAACTCTTCTCTTGGAATCCTGGCTGGATGGCTTTGCTTC
AGACACTAGCGAGGGGGAGAGTGTAAGTAAATTATTAACCTGACAGGATCCAGCCCTTGGACCCTTGGGGGTGTAACAGCTGGAAGGCCCCAKCCTGTGA
ACCCTRGCTTGGCTCACTCTGCAAAGTCCCTCCTACTCAAATTCCCCTCCAAAGGTCCCTGTGGAATCCCCTCGCTGCTTGCCTTCCCCGCACCCTGTCC
AGCCCCAGAAGTAGATTTTTCCTTCATTTTCTTTTTGAAGGTGCAAACATAGGGGGTCCATGTGAGCAGACCTAGAGCTATCCCTGAGCAGTGTGGCTTG
TCTGGGATGTTAGGGCTGATGTGTGGGTGGTGCCCCCTGTGTTGGGTGATGGTTGGTGTTGCTCACTTCATTTCTAGACCCCGACAAAGATGTGACTTGT
ACTGCTACACTGACAATGTAACGAAGCATTGATGTGCATGGAGACTGGGAGAGGAAGGTGGGCAGAAAGGGCAGGTGCTGGCTAATGGGATGCCACATCA
CATTATCATTGTGCAGGAACCATGCCCCCTGCAGAGGATAACAAGGGCTGGAGGTAATGAGTACCAAACAGGCCTGAGGAACGCCCCCCGCCCTGCTGTG
CAGGCTGGACTCCTACCCTGGGGCTTGCTGCTCCATTCCCAGCTGGACTGGGTTGCAGGGAGCGGTGGGACTGATCAGACTCAGGAAGCGTTAGAAATCC
AGCACCAGCTGTCTCCTGGAGGCTGAAAATCCCCTGGGACTGGCCACCTCCTCCTTTCTCATTCGTGCCATGCCTAAGGTTATGCGGATGTTGGTTAGAG
GCCTGGGGATGGCCACCCAATTGGAAGAAACCTGTCTAATGCACTTACCCACGGCCACAGGGAGATCAGTAGCTGGCCAGCCCATGCTCCTTTGAAATGC
CTGTGGATATGTGCTGCATAGACAGAGGGTAGTGCAGAGAGAGAGGCTCCTTTCTAGTGTGGGGTACAGCCCCCCCMMCCCCCCCACTGTGGAAGGCAGA
CTGCTCCAGAGGACACCTGGTGGGGGCCAGGCCTAGTTCTCTCCCTTCCAGTTCTGGAGCAGAATGCCTGCCCCCTCTACCTGCCGTGAAGCAGGCCATG
CCAGGGCTCCTGGCACTTCAGAGGATGCTTCCTATCCCTTCTGTGGGTCTCAGCTCTCCAGGTCCTGTGGAGGGACTGGGGCCACAAGAGAGTTGGCGAT
GGGCCTATGTGTGTTAATTAACCTGGGGTAGTCTTTGTGGACTGTGCCCTGAGGTCAAGGATGGACTCTTCCCCAGGGACTGACTGCCTTGGGGACCAAC
TGAGCCCAGAAACAACTGTGCCCAGGGACTGACTGCTGACTGTGCCCTGTGCCCTGGGGGACCRATGATGCCCAGGAATCAGCTACATCCAGTCACTAAC
TGTGTCCATGGAATGACTATGCCCAGGAACAACTGTTCTCAGAGACCCTTTGAGGGCTCACTGTGTCTGGGGCTCATCTGCACCTAGGACTGACTTTGCC
CACTGTCACTATACCTGAGAGCCAACTGGACCCAGACTCTACCTGTGCCCAAGGATAGATTATGCCCAGAGAGTATCTGTGACCAGGGACCATAGAGAGT
GTCTATGTGCCCAGAGACAGACTGTACACAGGACTGACTTTGCTTAAACACTGTTTCTAGGGACCAACTGTGTCCTGGTACTAGCATTTTCCAACAATCA
ACTATGTTCAAGGACAGCTGTACCTGGCAAACAGCTGAGCCCAGGCACTGGCCCTGCCGAGGGCTGGCCTAGGCCCAAGGATAGATTCTATCCAGGGACC
TGAGGCCTGCTGTGCCCAGGGACCAGCTGTGTCAGGAAACAAGCTGTGCCCAGGGACTCTGGATAGGGGGAAGCTGGGGACAGAGACTCTCCCATGTGGG
CATAGACTTGTGTGCCTGGCATACAGGCTGCCCAGCTGCATGCCACATGCCTGGTGTGAGTGCCTCTGGCAGCAGCTYTTATTCTGGGACAGTGGGAGGA
GGGCCCCTTGCCCTTTGTGGAGGTACTCTCAGGCTCCTTTCCCATTTTGGCACCTAGTGAATAGGGAAGGAGAAAGAGCACACAGAGGGCTGGGCGCTGA
GGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGTGGGTGGATCGCTTGATGCCAGGAGTTTGAAACCAGCCTGGCCAACATGGTGAAACCCCAT
CTCTACAAAAAATACAAAAATTAGTCAGGCATGGTGGCACATGCCTTTAATCCCAGCTACTCCAGAGGCTGAGGCACGAGAATCGCTTGTATTTGGGAGA
TGGAGGTTGCAGTGTGCCAAGATTGCACCACTGCACTCCAGTGTGGGTGACAGAGCAAGAATCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGGCAC
ACAGAGCTATTGAGCACCTGTCCTGTCATGTGTCAGCACATGCCTGGTCCTTTCTTCCCCATATGTCATTTTGTCCCCAGGACTACCCCATGAGGCAGCA
GTTATCATCTTCATTTACAGATGGAAAAACTGAGGTTCACAAAGATGAAAGTTCTTTCCTGGTCTTTCTGACTCCARAGCTCTTACCTGTAGTGAGGTCT
GCCTATTTCCACACTGCACGTGGGTCTCCCTGAGTGGAGGGAGAGGCAGGGGCCTCCCAGCATCTTACAGAAGAGGAAGCTGAGGAAGGACCAGATCCCA
GGCATCTGGTCTGCAACTGGCACACTAAACCTGTTCATGCCAGTGGCCCTGACTTCTCAGGAGAAGGGCACTTGGCTGGCCTGGTAGGAAGGGCTTCCTG
GAGGCTGCATTCCTGGTTGCTGTCTTGGAGGCAGGAAGGCCAGGGTGTGGAGGCCGTCTGTCCCATCACAAGCCCCCTTTCATGATGCTCAACAAGGCTC
CTTCAGAGGCCGGACTYGGCTGTGCAAACACGCACATCTGGGCTGCTGGCTGGGGCGGGGTGGCGGAACTCCCCCACAGCTGGCCAGCTGCTCCTGACCT
TCTGGACAAAGGGAGCTTTGGCCCTGTGGGGGTTCCCGGGAACTTGGAGCTCTGGAGGGTATAGCCTCTACCCAGCCCTCCACGGGGGGCAGTCCTCTCT
GGCTGCCGCCTGTCATTTTCATCATAACTGGAACTCTGCCTCTGACAGCATTTCCTGCTGAGGGCATGCCCTTTCCCTCCCTCGAGGGCCTGCACCCAGC
CAGAACTGAGGAAAATAGAACAAAGGCTGCAGGCAGAAAGAAACTCAAGCGGCAGGCAAAGAAGCATCTAAGCAGCCATCCCAGTCTAATCCCCATCCTC
TTGGAGCTTTTAATTTCGTGGAGGAGAAAGACACAAGCCAGATAATCGCGCACGCACACACACACACACAACTGTAAATAACAACAGACTATGTAGTGTC
CTTCAGGTTTTAGGCACTGGCTTGGTGCTTTACATATTTTAACTAATTTCGTCCTCACAACAACCCTATAATAGGGAGATACTATTATTATTCCCATTTT
ACAGACCAGGCAGTTGAGGCACAGAGAAGTTAGGTGACTTGCTCAAGGTTACACAGCTAGTAAGTGGCAGAGCCAGGATCTGAAATTAGGAAATATGCAT
TCTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAAGCTGGAGTGCAGTGGTGCGATGTCGGCTCACTGCAACCTTCGCCTTCTAGGT
TCAAGCAATTCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGTGCACTACCACACCCAGCCAATTTTTTGTGTGTTTTTGGTAGACCACGTTGGCC
AGACTGGTCTCAAACTCCTGACCTCAAATGATTCGCCCACTTTGGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCACCACCCCCCCGGCCACGGAAA
CATGCATTCTTAATGATGCACATTTGCAAACCACCGTGAGGTCCATCTCAGGAGGAGCTTGGATGGGGAGTGGGGAAGCCACTGGGGAGGGCAATGGGAT
TCAAGCTTCGAGAAGATCACTCTGGCTGCTGGGTGGAGGGCAGATGGGGGTCCAGACTGCAGGCTGTCAAAAGAGACCTGGTGAGAGATGACAGCGATGC
GGCCTGGATTAGGGCAGGGGCAGTGGGCACCAGGAGAAGAGGGCAAGTTTGGGAGAGACGTAGGGCCTAGAATGGTGGCACCTGGTAGGTGAGTGGGTGT
GGGAGGGTGCCTTAAGGTGGGGTTGAGGACTCTACCCTGTGTTTGGGAAGTGAGCCAACCAGCTGTGTCTCAGGTGSTCTCTCCACCTGCCCGGCAAGCC
CACCTCGACTCTCCTGCTTCCTGGGGGAAGAGGTGGCCTGGGAGGCATGTGGGAGGCTTTCCATGACTGCTGAGCCCTAGCTTCCTGGAGCATCCCTCAG
GGTTCGGGGAGAGTAGGTCACTGGTAAGTGGAGGAAGCCCCGAACCTGGCCTCAGACACAGATTTAAATCCTGACTCCTCTGATGAGCTGTGAGACGTTA
GGGGAGTCACATATATCTCTGGACCTTAATTTCTTACGAAATTTGGGAAATGATGCCTGCCTCACTGGGCCTGCATACGACAATTAATATGGAAGTGGAC
TATGAAGGTGAGGGTGGAGGAGCTGTTTTGTTGTTGCTGTTCAATTGTATCATTTGAGGCTTCTTTCCACGTGGCAGGAGAGGYGGGCTGGTGGGAGGCT
CGGGAGGCCTGGACGCCAGCCTCTAAGAGGTCACGGGATGGTGGACATGATCCCATGATGGGCCTCAGTCTCCGGATCTGGGATGTGAGCCCCCGATGGG
AGGCAGAACAGCCAGGGTGGTCCTGCCAGGCAGGTGGAGAGAGTGCTGCTGCAAGAGTTAGGCGCTGAGACAGAGCTGGCCAGAAACAGCATCCCTCGTT
CATTCCAAGTTCATTCACTCCTTTAACAGACATGCCACTGAACACCTGCACAGTGTCAGGCCCCATCCTAGGGGCTGCGATATGATGAGGAAACAAGGTC
ATTCAGGTTCTGGCTTTCTAAAGCTCATCGTACAGTGGGGKCAACAGATAGTAAAAAAATCAACAAGGRGGGTTGAAACAGCAAAATGTTCTATGAAGAC
AAAAAAACCAAAACCCAAACCCTGGTGATGTAAAAGAGGGTGAGGGGGAGAAGGGCTCCTTCAGATAGGGCGGTCAGGGGCAGTCAGGGGAGGTCTCCCG
AGGTGGTGACAGGTGAGCTGAGGCTAGGCTGATGAGAAGTTTAGGGGAAGAGCGGGCAAGCTCAGGTGACTAGTGAGGAAGGAGGAGTGTGACAGGAGAG
GCATGGAGAGATGGGAGAGAAGCCAGGTCAGGTGAGGCAGGAGAGAACGCGGTCATGCCAGGCTTTGCAGGCCCTTCTAAGGAGTGTGAACTTTGTTCTG
AGAGCAATAGGAAGCCTTTGAAAGGTTTGAAGCAGGGCGTGACATAGTCTGATCCACTGTCTGGATGACTCCAGCTGCTGTGCAGMGAATGGATTGAATG
GTGGGAGGGACTGTGATGCTTAGCGACCTCTGGCTGTGACRCCTGCCCCRGCCCTGCTGTGAGGATGCTCCACTCTGTCTGCTTAGGMCTTACTTGCCTT
CCACACTCTCCCCAGCCCTCTTCTGGGCCAGCAGCTCCAGGCTGTGCCAGAGTTCCCAGAAAGCACCAAGAATCTTGAGGCAGAGGACTGACTGGCTGGC
CTGGGGAAGGCTTGGCAACCCAAGTGCAGGTACAGTGGGCATGGGTGTGGCTGCCCTGCCTGCCTCCACCCTCCATGCAGGACAGGTACCCCACGCCCAC
CCCCACCCCTCATGGGGCTTTTGAATTAAAAAGTCTTAACTTTTTCTTTTAAATGGCAGCTCTGTGTACTGTACATGGTAATTAATACATTAGCATTTAT
GCAAAATACCATCACAGCCGGGCTGGTATGTCAGCTGCCTTCCTGAGCTGCAAAAATGTGAGCGCCCCGAGGTACCTCAGACAGGCCCCCGCCCCTAGCA
GACAGCTCYGTTTGACCTGCATCATTCACTAACCTGTCTCGGGGAGCCTGTCTACATGCACACATCTGTGTATGTTGGCCAATGTAAATGCTGCTTCTTG
TGAGTGTCTGTGGTATGCATATGTGTCCTTGTGTGTGGATGCACACGTGCTGCTTGTGTCTCTACAAGCAGATACAAGGATGCCCTTGTACACAACACAY
GTGCTGCTTGTATAGACATGAGTGTTGTCTACGAGGGCATCCTTGTGTCTGTGTGTGTGCCTGTGTTGGTCTGGGCATGAGTGCATATGAGTCTATGGTT
TTATATGTGTACATCTCAGAATGTGTGTGTATGTACATTTYGTTTTTTTTTCTTCCAGGTTGAAGCGATTCTCTTGCCTCAGTCTCCCCAGTAGCTGGGA
TTACAAGCACCTGCCAACACGCCTGGCTAATTTTTTAATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGTCTGGTCTCGAACTCCTGACCTCAAA
TGATCCGCCCACCTTGGCCTCCCAAATTGTTGGGATTACAGGCGTGAGTCACTGTACCTGGCTGTGTATGTACATTTCTGTGTGCCTGTTGTGCTTGTCT
GCCGGTCTATGTATTTGTGACTGGGTGTGTCTGTGTGTTTCTGTGCATCCATGTGGGCTGTGCATGCATGTGCATATGTGCATGGATATGGATGTTCATG
TTCATATGTGTATATCAGTGGCTGCCCACGCTTGAATGCCTCTGTGTGGGTCACTAGGTATGTCTGTGGGATCTGCTATTTGTGTCTGTGCATCTGTGTG
TCAGTATGACTATGTGTGTGTCTCTGTATGTGCATTCCTATGCATGTCTCAATTTGTGTGTGTGTGTGCGCATGTGCGTGTGAAATGCTTGCTAGACTGA
CTGTGAAATGAAGTTGCAGCACAGTGGAAAGAACAACTCACTGGAGACAGTGACATGCGTATTCTCTGGACCCTGGGCACCCTGCCGCTGATGGGCTCAC
AGGGCAGTGGGAGAGATGAGCCCTTCAGTGGGCAGTGAGGACCCGGGTTACTGGTTGATGGCAGAGGCCAGCGCAGGGTGCTCCTCGGAAGCTCAGTTGG
CCCTGAGTAGGAGTAGGGGTGAGGTGGGGTTGGGGAGAGTTTCTGAGGCGGCGGCTGTTGAGTGGGATCCTGGAGGGTGACTAGGAGTTAGCCAGATGAG
AAGTAGAGTCTGAGGAGCACGGATGTGGCACTGTGACAGCACCTGGCCTGTTCAGAGAGGCTGGAGACCAGGAAGGAGCTCATTGTCAGGAGTCGGGGTA
GCTGGACTAGACCACCCAGGGCGCATATCCTGAGGGAAGCGGGACTCACTGGAGGCCTTCAAGAAGGACAGGGTCATGGTCAGGGTAGAAATATCACTCT
GCTTTCACAGTGAGGAAGGACTCAGAGGGATATGCCAGGAGACAGAGATTGGAGCCACGGCAGCAGGGGGAAAGGAAAGGGGATGGAATCAGAGGGTATT
CCCGAGGTAAAACGATTAGTATCCAGAGATTGATTAGACAACAAAGTGAGGGGAGGGAGAGGGAGGAGCAGGAGTTGGGGGACATCCAGTTTGTGGCTGC
AGAGATTGGATGGTTGATGAGGATGTTCACGGAGACAGTGAACACAGAAGGGTGAAGGGAAGAGTTTTCTTTGGAGGGAAGGTGATGAGTTTTAGACATC
TTGAGTTTCAGATACCTATGAAATGTAATTTGTTCATTCATTCTTCATTCACTCATACATATACCATGTATCAGGCATTTGAGAAACCAAGATGAACGAG
ACAGAGAGACAGTGGAGTTTAGAAAGAATTACAAAGGCTCCGGAAGCTGGGACCACTGTAGGAGAAGGGAGAGAGGAGAGACCTGTCATGCAGAGGCCTG
TGGGTGGGGTAAATAGGTTAACCTTTTAGGGAAGACAGTGGGAAGGCATGGAAGGATTGTGCAAGTGTGGGGGCTGCCATGTCAGGTGTGTACTTTAGAA
AACCTTTCCTCTTCTTGCACATGTCCATTGTCAAGGGGTCCCTGGTTTTCTAATCTGTAAAATGGAGCTGATGATCTGGGCCGTTGCCACACAGTTGMAC
AATTGTGAAGTAGATTAATGCTGGGTCCTGGTAATGTGTCCCTGCCCTCAAGGAGCTTACTGTCCAGTGTAGAAGCAAGCACAGAAACAGACACTACAAT
GTGGTAGATGCTGTGATGTGGCCAGCACATAGTAGGTGCTYAATAAATATTTGTTAAATAAATGATTGATTGAATGGATAACAGCACAAGGATCCGTAGG
AGCTGAAGGAGGTTTCTCACTCACCAGGAGGTAGAGGGGTTAAAAAAGACTTCCTYGGTGAGGTGCTGCACAAGCTGGGTCCTAAAGAATGATTAGGAAT
TAGCCAGGGGAAGAGGGGAGGGAGCAGCACAAAGGCTGGAGGTGGAGGAGGTGCGACAGGACATCATTTAGTGTGGCTGGAGCAGAAGCTGCACAGTGAG
GAGAGGAGGGGTGCAGTGGGATATGACAGAGGCCATATCACAAAAGATCCTGAGTGCCAGGCCAAGGAGCTTAAGTCCTCCACTCCCCCAATAAAGAACG
TGGAGCCACTGAAGGCTTTTAAGCAGAGGAGTGGCTGATTAGTTTTGTGTTTTCTAGAAAGCACTCTGGCCTCTTGGCAGGGAGGTTGGTGATGGAGTCT
TTTGTGGCTTAGTTGGGGTAATGATCGTGCTGCTGTACGTCTTGGATTTATCTTAAGGGATAGGGCACCAAACTTTTTTTCTTTTTTTTAAAAATTTATT
TGWGACAGGGTYCTGCTCTGTTGCCCAAGCTGGAATGCAGTGGTGCAATCATAGCTCACAGCAGTCTTGAACTCCTGGGCTCAGGGGATCCTCTGACCTT
GGCCTCTCGAGTAGCTGGGACTACAGGCATGCATCGCCCCCCACCCCCACCCCCGACCCCAGCAAATTTTTGTATTTTTTTTTTTTGGTAGAGACTGGGT
CTCACTATGTTGCTCAGGCTGGTCTTGAGCTCCTGGCTACAAGTGATTCTCCTCCCTCAGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACTTTTT
AAAACTGTTTTAAAACATAGATTGAAGCATCTACAGACCAGGCAGTGGGAACCCTGGCTTCTACACTTTACCCTGCTGTTCTCTGGCTCTGTGACCTTGG
ATTGGTCACTTAGCTTCTTAGGGCTTTAGATGGTTCTTGGGTAAGGAGACACAGTTAGAAAAGGGAAGGACATTGGGAAGGGCTTTGCGTGGCTTCCTGG
GATATAGGGTCCCCTCAGGGCACAGGAGGCACACTGGGATAGGGGGCAGCTGCCTTCCTTCTTCCTTCTCCTTGACAGGAAGAGGAGGAGAAGAGTGAGG
ACAAGGATGAGCTCATGTATTTTCATGCTGTGGCCTCGACACCCAGCCCCTTAGTCCCAGCTCACAGAGGCTGGGAGGCTGCTCTGGAGTGGGCTGACCC
CTCCCGCAAGCAGGCACTCTGCTATTGTTCAAAATGGAATTGGTCCCAGGAAGCTTGGAGCTTGTGAAAGCCGCTATGAATTTTGCAAAACAGCTCTGAG
GCGGTAAAGCATGTCAGGAAAATCAAATGCGGAAATCCCTATTTAGAAACCCCACTCTGGACAGGCATGGTGCGCCGGGAGGAAGGACTGGGTAGGGGAG
GGGTATGGCCTAGATGCCCCTCCCCTGTAGCCTGGGAGGGTGCCCAGCACAGCTAGGAGGGGAGACCCCTTGGCCCCACCTTCTTTCCAACTTACCTGGT
TTCCCAGATTTGAGGCCCTCACAAAGCACCCCCAACCTTTTCCAATGCACCTATACTTTTTTTTTCTTTTGAAAGCAGCTTTATCATTTTGCAAAAAAGG
ATACATATGCTCATTGCAAAAAATTCAGACAATATGGAAAAGTTCAAAGAAAAATGTAAAAACCACCTCAGATTTTACCAGCCAGAGATAACCACATAAC
ATTTTGGTGAACGTCCTTCCAGACTTCTCTCCTTGCATAAATATACACAAATAGATTTCACGTATGCAACTCCACCCTGAGTGAAATCAGACGACACATG
CTGTTCTGTCACCTGTTTTTTTCCTCCCCACTCAGCAATATGTCATGGACATCCTTCATGTCAATTCATACAGATCCACCTCATGGTTTTAATGCCTGTA
TTATGTGTATGGATATACCAGTATCTGGATATACCTCACTTTACTTACTCAGTCCCCAGCTGATGGAGATATATGTTTTTCCAATTGTCTTGATCCCTGC
AATGAAYATCTAGGTGCATATATCTTTGCATGTTTCATTGATTCATTCATGCTACAGATGTTTTTTGAGTGTGTTCTGTGTACCAGCCCAATGCCAGGTA
CATAGGAAATGTACCAGCCCAATGCCAGGCATAGAAATCATGAATAAAACAGACATGGTCAGTCCTGGCTGTGGTGGAGTTTATGATGTAGTGGGGAGAC
ACGGTGTCTGGCCCCTGCCATCAGGAAAGACAGCAGTTTTTTGCAATGAGCGTGTGTATTAAGCAGTTACACAGATACTTATCCAATTAGCAGTTGATCT
GTAGTACGARGGAGAAGTACACATAGTACGAAGGAAACGTACAGGCTATGASAGAATAAAACAAGAGAAGCTAACCTGAGCTTGGGAGTCAGGGAGGGCT
TCTCTGAGGAGGTGACATTCAGCTTGAAAGATGAGTGGGCAAAAGGCAGAGTCAGGATGAAGAGGAAAGCACTGGTGAGCATGGGAGGGGRACAGCAAGA
GGGTTTCACTCAGAAGGAACAGTGTTTTTAATTATTAACACACGGGAAATTCCTCAAAATGAAATTGCTGGGTCGGAGGGTAAGCAGATTTTGCATTTTG
TCACATATTGTAAACTGCTTCTCACCAAGGTTTTACATGTGTTCCATCCCGTAAAGGGTATGCCACGAGGTTGTTGTGAAGGTTCAGTAAGAGAGTGAGC
GTGGAGGGTTAAGCATAGCGCTGTCACATAGGCAGTGAGCTGGCCACTGCTSTTGCCATTATTATTATAATTATCTTTGCCAATCTAATCGGTGAAAAAT
GATATCTCATCTTTGTTTTTAACCAATGTGTCTTTTTTTCGACTCCACAGGAAATTGAGCCCTTGAGGGGGAAATGAACCATCTTTCTTTCTTAAGCCAC
CTTTGTCAGGAACCTTCCTGTGCCCCTTGGGGAGGCAGGAAATGTCTAGGATCCCTGGCCTGCAGTCCCATCCTCACAGCAAAGCCCCTAGGACTTAGAA
ATGACTCCAAGTCCCACGTGGCTCTGGGCTTCCAAAAGCAAGCRCCAATCAGAGAAGGTGGAGAGGAGATGGGAGAATGGTTTGGAACCTGTGTGGGACG
GTCGTCCCGTGGAGAGGGGCAGGCAGAGAGGTGGGGGCCCTGGAGGCAGAGTCCCATGCCATTAGGAGTGCTTGGAGATCCCAGGTGCTCCTGAATGATA
TTAATGCATCTATATGAATATTAATAGCATGGYCATTAATATTAATGACAATAATAAACAAGTGTGAGGATTATTTTTAAAGAGGGCTGCTGCTCCAGCT
GTTGCCTCCCTTCATTAATAAGCTGCTGAGATTCTCAGCCATCCTTTCCCCAGACCTCTGGCAAGACTCAGTGGCATCCTCAGGACCTCTGTCTGGGTAG
GGGTGAGCCGAAAGAGCATTTTCCCAACATTTTGGATGGAAGGAGAATCAATGCAGGAAACCCTGAGTTTCCGTCCAAGGAGGTCCGGGCCATGTGAGTG
GGCATGGGGCAAAGGAGGGATGAATCGGCTTGTGTATGGGAGCCAGCTGTGAGGACCCTACTTCCTTCTCTCGCAGGCCTGCGGCCCCAGCCGTCTGCAT
CCCCAGAGGAGGCTGGGCCAGGAGGGGGTTTGCAAGGGACCAATCTCTTGCAAAGGTGGTGAGAGGAATTACCCTGCTAAAGTGATCATGAATTATAGAA
AGGAAGAGGGGGGAGGAAGGCCCAGAATATCATATGTGTAAATAAAACGGAGTGGCGGCCAGACATGAAAGCCAGCCACCAAGCTCTTGCACCCACAGAG
CCTCTTCTCCTGTGGACCCACCTCCTGCCAAGTTCCACCGCAAGTCACTTCCAGCCTCCTTCTTCAAAGGATTTGTTAATAAGTCAATGACGGAACATCT
AAAGGGGAAAAATATTTCTCTTTATRGTTGAAGATAATTGTCCCAGGAAAAAAAGAAAACAACAAACCTTTAATTACAACTCACATGGAGAAAGCTTGAT
TTGTGGGCAGAGCCCAAATGCTGAGGAGCTGGATGTAAAATATTTGTAATATTTAGGGAACCTAGAGTTTTACATAAAAGTAAACAGCATTGCCTGAAGG
CACAATTTCCAGCAACACAATAAAATGTGCAGTGAATTTATGGCGGCCATCCATTAGCTCTTACCAAGGCAACGTCGCCCCTATCTGTCGTCCATCATTA
TAATAGAGGGTTAATGCACCGAATTTACATAAAAAAGTCATATTGTCTGCATGAATTATTTACACTTGAAGCTGTTTTTACAGCTTGGTTTCAAGCTGGA
TTCTGGGAGAGATTCTGCCAGTAAATTACTCTGTGGAGACCTGGTTCTATAACTGTGCGCAGAGCCGGCAATGAAAAGAAAGGAAAATGGGCAGGCCCTG
GCGGGTCGTTGGTGCTGACGCCTCTCGGGTGGGGGCTGGAAGCAGTGGTGGAGGCTTCTGGAGGTGGTTGGATGTTGCTGCAGATGGGACTCTGCCTCTG
GGCCTGTGGCTTCCTGGTTGCCACTCAGCTGCCCGTGTGGCCAAAGTGAGTTCAGGCCCAGAGAACCATAGCAGTCCTCCAGAGGTGTCTGAGGGCTCTT
GGTGGCCAAAGTCTAAGGCCTTTTAAGGATCAGGGGGATCCCTGCAGAGGGAGAGAAGCTGCTGCAAGAGTTGGAGCAGGAACCCAACTCAGCAGTGTGA
GCAAGACCCATCATCCCCATTGTACAGATGGGAAGATGGAGGCCTCAAGAGGCACCTACTCAAGAGGTGGGAAGTCTATTCATCCCAGGTGGGCCTGGGG
ACTGTGGGAGGTACATGCACTTCAGACCTGGGGGGTGGGGGGGCTGGCACGGAGCATCTTTGGGACACACAGAGAAAGAGAGTCTCCATGCCACGCATCT
CAGCCCTTATTGTTTTCCGGGACCTTTCCTTAACTGATGGCAGTTTTAGTGGTTGGGCTGGCGTGGGATGCACTGATGTGTGCCACTGGGTTCTTAAATC
TCTCGAGGTATGGGGTACTGGGGAGAACTGCTCATGTTTCCAGGTGATGTGGAGTTATGGGGAGCTGGTCATGCAGTGGAAAGACCTGGATTTTTATTTT
TATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGATGCCATCTCGG
CACACCACAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTYCTGAGTACCTGGGATTACAGGTGTGCACCATCATGCCTGGCTAATTTT
TGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAATGATCTGTCCACCTCGGCCTCCCAAAGTGCTGGG
ATTACAGGTGTGAGCCACTGCCTAGATTTTTAATCAAGTGTCAGCTGTGTGGCCCTGGGTACGCTTTGGGCCCTCAGTTTCCTCATCTGTAAAATGGGAT
TTCTAATCTTAACCCTCCTAGACTGTCCCAAAGGAATGGTGAGAGGCACCAATGGGATACAATACTCGGAAGGTGTCTGGTGTGTTAGAAGCAAGGCCAC
AGGTGACAGGGTTGGCAGAGGGAAGTGCTGAGGCCTGGGCTGATAGAGGAACTTGAAAAGAAGAGAGTGAAATGGACACAGAGAGACAAGGCTAGATAAT
CAGACACAGAGAGGTGAAAGAATCATAGAGACAGAGAGAGRGSGMGAGGGAGAGACAAAGAGCAAACCCACAGAAACAGAGAGAGAGAGAGAGAGAGAGA
TGGGGGTGGTGTGGGGAAGAGGCTGTGTTCCAGGAGAAAGAAGTCAGAGGCAAGGTCAAGCTGCTTAAGGCTCCAACTGCCTGGAGTCCTGTGGATGCCT
TTCTGGCCAGTGAAGAGGTTGGCAGGGCAGGGCCCACCGTGGGGCCCGTGCCACCCCTTGCCTGGACCCTCTCCCTCCTTCCAGGCCAAGAAGTGCCTGG
GCTCCTCTCTGGCCTGGGGGTTCCTGCCTCTTCTCCCTTTGCTTTCCTTACAGCACAAGGAGGCCAGAGCCGGATGCCAGCGCCCTTCCTCCCCCATCCC
GCAGCACCTGGGATGGGCGTGTGCTCGTCGCTGTCGCCGTGCTCTCGTCTCCCACTCCTGGAGCAGCCACAGCAGGTCCCAGGGGCCTGGAGACAACAAA
TGGCTCCCTGCTGATGGGCTGCTTGCCGCCTCCTGTCTGCCAGCCAGTCCTGCTGCACACCGGCAGATAATCAAGTAGGGCAGGGGAACCTCTCCTGCCC
ACGGTGGTGTGATTTAAACCTGAACTTTGCTTTCTTTCATTCCCTGGAGAAACAGGATTTAGATTGTAAATCTCTTTCTTCCTGAGAACATGCGCATACA
CCCAGGTGCACACACACTTGCATAAACACATAAAGGTGTTCACACACTGCAAACTTGAATACTTACACGCAAACATGTCCACCCGTTTCCACACCACACA
TGTAAGCAATCACGCACGATGCATCTGCATGTGCAAACAGCTCACGGCCACAGGTAAGGGCAGGAGGAAAATTTGTCAGTGGCTGGAACGGCTGTGATGT
GTGGGGTGGGTGGAAGCTGGTGAAGTGGACAAGGGATGCTGAAATTGCAAGAAACTCTCTAGACCTCACCCCGCCTTGTTACATGGGAGAGGAATGAGGT
TTGTGCTGTTGCATGAACATGTGTGCCTCTGTGTGTGTCCCTGTGTGCAAGCGTGTGTGTGTGTTTCTGTGAGTGTTTTGCAAGCGTAAGTGTCTTTGTT
GAGTGCTGAGGTTGACAGTCTATGGATGGGGTAGTGTGTGCTGCATCGTGCTGGCCTTGGGACTGGACTCAGGACCRGACTGGTGTCCATAGTGCCATGG
CCATGCTGTAGGCCTCGGGCAGGCTGTCGCTTTTCTCCGGGCTCCAGCTTCTGCTGGTTCCCCAGGGTTCTGCCAGTTCTGACTGTCTAGTTTCTCTGTG
TGACCTTGAGGGTGTGTTTCTCCAAGGCTTGAATGAGCCGGGCTTGGGGTGTGCGTGTGTGTTTGGTGAGCATTTGCGTGTTTATGCTGGGTATGTTTGT
GTGCATGTTCRTGTGTCGATGTGTTGTAGGTGTTTGTGCATGTGTTTTTGCCTGCATGTGGGCGTATTTGTATGTTCAGGTGAGTGTACTTACAGCAGCG
AGGATGCCATGCACCTGTGTTTGTATTGTGAGTCTGTGTAGAGTCTGGCGTRAGCGTGTGTGACAGTGAGCTTGGGAGGTGATCTGTGGGTGTGTGTTTG
CCTAGTGGGAGGATTTGTGAGGGTGGATATGGGAGGCTCCCCGTTCTTACTCCTCTGCTTTCATCTTCTCCGTAACATTGATCACCATTGGACACACTGG
GTATTAGTAGTTACTTCTTTGTTTATGGTTTCTCTCCTGAAAGCTAGAATGCAAACCCCATGAGGGTAGGAGTTTTACCTGTTTTGTTCATGGCTGTATC
CCCACTATTACAACAGTCCCTGGCACATGATGGTGTAGCTGATGTCCAAGAACATTCACTGAATGAATGAATGAATAACTTAATCATCTCCTTCAAGAGT
TCCCTTAAGTGTCACTCTTAATTAGTGTTGACCTCCACTTAAAATTTCTGCCTGCCCCAGCGGATCATGAGGTCAGGAGATTGAGACCATCCTGGCTAAC
ACGGTGAAACCCCGTCTCTACTAAAAATACAAAAACAAAATTAGCCGGGTGTGTTGGTGGGCGCCTGTAGTCCCAGCTATTCAGGAGGCTGAGGCAGGAG
AATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCAGAGATCGTGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAAAAAAAAAA
ATTTCTGCCCTCCCCTCCCCACAGCTCTCTAGTTCTTCTTATGTTGTTCTCATTTTTCTTTTTTAAATTACCTTCCAGTATACCAAGTGATTTACTAATT
GTTGTTTACTTTTTATTTTTATTTTCTGAGTGGGAGTTGCACTCTGTCACCTGGCCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCCGCCAC
CTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGATGCACACCACCAAGCCCAGCTAATTTTTCTATTTTAGTAGGGACAGG
GTTTACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGTTGATCCACCTGCCTTAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATG
TCTAGCTTTGTTTATTTATTATGTACTATCCTAAGTTTTTAAAATTGTTAGTATCCCTGTTAGAATGAAAGCCCTCACAAAGAGTGGAACCTTTGTTCAG
TTTGTCCACTGATGTCTTTCGGGTGCCTGGAACAGTGCCTGGCAGCTGGCAGGTGCTTAATTGATATTTACTGAGTGGATGGATGGGCTTCTGTGTGTCA
TGCGGGCATGAGTGGGCTTTTGAAGTGTTTTCTGTGAATGTGTTTATAAAGTGTGTGTGGGTGTGTGATAGTCAAGGACTGCATTTTTTTTTTTTTTTTT
TTTTTTTGAGATGGGGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGTGCAATTTCTGCTCACTGCAACCTCCACCTCCCTGGGCTCAAGTCATTCTC
CCACCCCAATCTCCCTATTAGCTGGAATTATAAGCGTGAGTCACCACACCTGGCTTTTTTTTGTATTTTTTGGTAGAGATGGGGCTTCGCCATGTTGCCC
AGTCTGGTCCTGAGCTCCTGATGAGCTCAAGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCAGTCAGGACT
GCATTTTTAATGATGTGGGTGACTGTGTTTGATGATGTGGGTAACTGTGTACTTTGAGGCCCGAGGGCAAGTCTCTGATAGAGCTTTCAGGTTTGGGGCA
TCCTGCTTGGGTATTGTCAAAGATTTGCAAACAGACCCATGAATGGCTTCCCTAGGAATGTCTAGGAATCTTTTCCTTGGTGGGCTGCAAACCTGGTGGC
CACAGGCCTGAGCCCTGTCCCTGGCAGCCTCCTGGGTCCACCCCTTCCTTTGCCTGTGGGCACATCTGGGCCTCATGCTTAGGGAATTCCCTCACCCTAT
AGCACAGTCTGAGCCCTGGGCTGGGAGGCATCAGGAGAAGGGCAAAGGCTGTAGTCAGTGCTGGAGGACAGCCACATGAGCAGCAGCTGGCCTCAGCACC
TGGACAGTCTGGGAAGAGGGGCCTTGGGGTGCCACTTGGACAGGGGGTAATCCTGGCACCAGGGATTCAGGAGGCAGTGGTCAGTTCAGAGGCATCAGGG
TTTGGTGGCAGGTGGCTAAGCCCTGATGAGGGGTTGGGAAAGAGGGTCCAAGCTGGCCCTATGCTTGGGCTGTGGGGGCATCGGGGGCCCAGGCATCAAA
GAGTTTATGGTGTGATGTGGGCTTGGGGGCCAACATGAAAAGCCCACTGTTTCAGTCTTCAGGGAGTGGTGGGGTCTGTGCCTCAGTCCAGTCCCATTTA
ATATGAAGGTGGTGGGCACAGAGCGGCTGGGAGGTGGGGTGAGGGGAGGCCACCCTGTGGATGACAGTGTCAGGACCTAGAAGGCACTCAACCAAGTGAA
ACTTTGGGCTGAGGCTGAAAGACACATGCAGCAAGGCCAGAGACAATATGCCCCCTTAGGCCAGCATTTAGGAAATATTCTCTAATGCGTGAGTGTGGTG
GTCAGGGTCAGACAGCTGCACTCAGCTTTCACAATCTCCAGCTGTGTGACCTTGGGAGGGTTATGTAACCTCTCTGAACCTCAGTTTCCTGACAGGCACA
ATGCAGATACTTTAAAAAAAATTTCATAGTGAGATTGGAAGGATCAAGCTGTCATTACTACTGTTATTCTTGTTATTTAAAAAGCTGTACAGGTCCAGGA
AGGAAGGACTGTCTTGACAGGAATTCAGACAAAAAAAGATCCAGGGTTTTGGCCGATCTCAAATTAGTATGAGGGTCTAATATGGATGGTGAGATCTGTG
ACATACAAAAGAAGGCAGTGATCCCTGAAGCCAACATGGGTTCACCAAGACCGGGCACAGCTCTTAGGTTCTTGACAGCTTAATGACTCGTGGGTAAAGA
AAACGAGCCAGCATGGGTGGAGAGGAATCTGTGATTTATTGAGCACCAACTGTGTGCTGGATACTTCACACGCATGGTTTTATTTAATCCTCACAAGCTT
GTGGATTAAACAAGACRTGACAATCTCCATTTTACTGATGAGAAACTGAGTCTCCGGGAAGTGACTTGCCCAAGGTGGGTGGAGCTGGGATTCAAACCTG
GGTCTGTCTGACCCTTTCTGCCATATCACACTGTCTCCTAAGATGTTGGGTAGAGTCTCTCGTGACTTTTGAGGACATGAAGGATGTCTGAGAGGGCGCA
AAGAGGGCTCCCATTGGGCCAAACAACAGCCATGAAATGTTCACGTAAGTGTAACCAGGTCAGTCTACAGAAGGCCTCTAGACACTGCCATGGGGCTGTC
CACCCTGCTTTGATCAGTCTATGCCAAGGACCTATAAGAAGACATGGAGGATACAGACTTATAAAAGGTGGAGTGGTAGAAAGCTCCAAGGGACAGAGAA
AACCTCAGCAGAATCAGGATTTAGAAAGATCTCGACAGACTGGCGTGGCAAGGTGAATTTAGCTGAGGAAATATCACAGGGAAAAAGGCTGAGGCCCATC
TTGACTACAGGAAAAATTGTAGAAGGGATGGGCAGCTCATGAGAAAGATTTAGAAGCTCAAGTGCCAGTAAGTTCAGCATGAGTCAGTAGGCTACATTAA
TAGAAGTATGGTGTTTGGGACAAGGGAGGGGGGCCTCTCTCTAGCCTCAGTTTACTCTCTGCCCTGGGGCAGTTTGTACTGCAGGTATTTGAAGGTCATG
TGCTATTTTCTGTTTTTCCAGTTCTCTCCCTTTCTTTTCAAGTTATTAGGGGAGGCAGAGTCCTTCTGGAGTTTGACCCTTGGATTCCAYCCAGAGCAGC
CTCCAAAATGACACCTTTGAAGGTGGGAAAGACACTGCATATTCTCTGGGTTTTTGTTTGAGGTCTGTCTTGGATTTGTTCTTTATGCCCAATTACCCTA
AGTCAAGGGAGAAGAAAGTGCTGGTCTCTGAATGTTCTGGAACGGGGAGAGCTCCTGGTTCCCTAGTTCCTACTGGCCAGGYGTATCCATTCCTTTTCCA
GCTGTCTCCTTCCCTTCTTAGAGCCCTTTTTCTGGTGGTCAGTGGCTTGCCAGGGCCTGGCCAGGCTGGTTCTCCTATGCTGGAGGAGGGGCAACAGGAG
GGAGCCTTGCAGCTGCTCACATTGGGGCTGGATCTCTGCTTAAGCTGGGATGTCACCTGCCAAGCTGAATTCGGCACAGGAAGCTCCTGGCTGGAAGACG
CGCTGTTTAATTTGGAGATTCTGTTCCACTCTGAAATGTGCTTCTCCTGGCAGCTGCAATGAAGTGAAGCTGTTGAGCTTCCCTCTCTTATGCCAGAATC
ACAGCCACTTTTTCCTGAGAAAGAAACAGAGCTACAGACAGTTTTACTCATTAAATACTTTTTTTCCCCTTAAATCTGTTTTTGTAATTTTTTTTTTTTT
GCGTGAACGGAAAAGTAAAACGGGTGATATTGAAATAAACAAGGCATTTGTGATGGGAAGGTTAAAGCAGATTGTTGGGGGTGGGGAAGGGGGTTGGAAA
TGCCCCATGTGTCTGTATGCAGGCTGCTCGTAGCCTGTTGAGGATGAGAGTGAGAGAAAGTATTCATGAGGCTGCCCCTCTCCCAGCCCAGAGGAGTCAA
TTTCTCCAAGTGTCCTGGGCTTCAGTGAGAAAGGCAGTGGAGAAGGGAGCTCTCGTTTATTAAGGKCCCACCAAGTRCTACGCCTGTAATATGGGTGAGC
TCATTCAGTCCTTATGGCAACCCTGGGTGGTAGGAGCTATTTTACAGATAAGGAAGGTTGAGGCTCAGATGACTTAAGGTCAACCCTGCAGGGCATACAG
AGCTGGGATTTGAACCTCCATCTGTCTGACCTCTGATGBTGTTTTTGGCTATACTTTGCTACCCTGAGCAGTTGTGTATCGAGCTGGGGGATGTAAAGGG
AGGAGAAGAAAGAAGATGAAGAGATACCAGCCAGCCTTAAGGAGTGGACATCCTGCCTGGTGAAACTGAACAAGACACCTACCGCATGTGAGTGAACCAA
GCCCTAGTTGCTGGGCTCCGACAAACATGGCTGGTTTGGGGAAGGGTATGTAAGAGTGGGTGTGGAGGGTTTTGGCCTGATAATGAAGGTAGGCTTCTTG
GAGGTAGAGGACCCTGGAAGTTGAGTGGAGTTGAGGGAACAGCCTGGCAACATCCTGGGCCAAGGCAGGCAAGGTGTGAGTATGGCTCTGGTGAGAGGAG
GTAAGTCTGAGTCGGGTAGTGATGGTTGTGGTGAGAATATCCATGTTGGCAGAGGAGGATCAGGTTGGAAGATGTAGTGCAAAGAAAGAGCCCTGAGCTG
GGAAGCAGGTGCCCAGTTCTTGTCCTGGCTCTGCCATTGAGTTGCTGTGTGATCTTGGGCTAGTCCTCTTCCCTCTTTGGGTGTCCAATTTTCTGTCTGT
AAAATGGTAGAGTTGGATTACAGGATCCCTAGAGACCTTTGCAGGGTCCTAAGGAGAAAGAAGGTGACTATAATATCCAGAGGACCTTGAATATCAAGAC
TTGGCATTAGAATCATGAAATGTTAGGAYTAAAAAGATCTCCAGGAATCATCTACTTAAACTATCTTCCTTTACATCCTACAGGATGAGTAGGAGTTATC
AGGCAAAGGAAAGCAAAAGATGGAAGAGGGAAAAGARGGCATTCCAGGCAGGAGACATAGTGTGAACAAAGGCATGGGTGGAGGCACGGTGCAGTGAACA
TTAAGCAGGTTGACATTGAAGATTAAAGACCAATGTGGCCGAGTGCAGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCAC
CTGAGATCAGGAGTTTGAGACCAGCCTGGCCAACATGTATTTTGTAAAAATACAAAATTTAGCTGGGTGTAGTGGCGCACACCTGTAATCCCAGCTACTT
GGGAGGCTGAGGCAGAAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATGGCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACC
CTGTCTCAAACAAAAACAAAAACAAAAACAAAACCACAAAAGACCAATGTGGGGTGTGGGAGGAGGCGAGTCATCAGTTAGGAGAGGGAGATGGGACCAG
ACCTCGGGAGGACCAAGGGGGTTTGACTCCATCCTTTGGGTAATGGGGACTCATTGAAGCTGTGGGAGTGACATGCTCAGAGGTACAATTTTGAAAGATG
ACTTTGGCAGCTTTGTTGATCATGGATTTGATAGGGGCTGGGAGCAGATACAGGCCAAGGATACGTGCTGACAAGACAGGTCAGGAAGCTGTGTGTCAGC
TCAGCAGGAGGTGGTGATGGTCCCAGTCAGGGTGGCAGAGTGGGGACACTGAGGATAGCASCTGTTCACAAGGTATTTGGGAAGTGGAATAGATAGGACT
TGTTGATTGATTGGCTATGGGGAGTGGAGAAGAGTGAAGATACAAGGACTCTCAGGTTCTGGCTTGGTGATATTCACTGAGATGGGACACACAGGAGGAG
AGAGGGRTTTTTTGGGAACAAAGATAGCTGAGTTTTAGATCTGGTGAGTTTGAGGTATCAATGGAACAGTGTGTAATGTCTCATTCATTCATTAATTATT
TACTGAGCATTTACTATGTGCCAGCCATGCCTGGATACTGCTTTTCCGTAGCTGTCAGCCTAGAGGGGCATTCAGAAAGTTCTTCTATACACTGAATATT
GAGCAGCTGAACTTTTACCCATTGGCCTTCTTCTGCCCTTCAGGACTTCACTGGCGTCTACCCTCCTTCAGAGATTAGAGATCAGTGATTGTGGTTCCTT
GCATCATCTTTGTTTCTGGGAACATGGAGCTGTGGAGGGAATGTGGACTTTAGAAAATTATAAAGGCATGGATTTTAGCCCAAGCACCTTTTGTATGATC
TCATTTGTTAAGTGGGTTTAACGACAACTTTTGTTTTTGTTTTTGTTTTTTTTTCAGATGGAGTTTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCC
ATCTCGGCTCACCGCAACCTCCACCTCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCTCAAGTAGCTGGGATTACAGGTGTGTGCCAGCATACCCAGCT
ATTTTTTTTTTTTTTGTATTTTTAAAGAGACAGGATTTCATCATATTGGCCAGGCTGGTCTCAAACTCCTGGCCTCACTGATCTGCCCATCTCGGCCTCC
CAAAGTGCTGGGATTACAGGCATGAGCCACCACACCTGGCCTAACAACACCTCTGTTACTGACAGTAGAGTGCTGGAGTGGGTTCCTACTGGCTAACAGA
ACCCACTGGAGTGGGTTCCTACTGGCAAACGTTTGGGCATCTCTTCCCAATTCTGCATGCATTGACATCCCATTGGTAGCTTGAAATTGACCATCGTGGG
AGTATTTACACCACAGAAATTGGCAAATGCTACAAATCAGGACTCCTTTTTTCTTTCAAAAAGCTGGTTGGTAAGTATTTACCAGCTAACAGTAAATATT
TATGGCATATAGAGTTGTGGTTTGGATGATGGACGTAGAGCACCTGGCACATGGTACCCAGATATACACATATTGCTTAGCACAGTGGGTACCTAAGTGT
GACTACCTTTTCCTTTGATGTTTCCTCTCTATGGGAATACTGTTGCTTCATTTGCTCACAATAACAACCTCCCTTCCACCAGGGCCTGCTCCTCTCTTTT
CTCAAACAACATGGTCCCAAGTGAAGCTGCCATCTTCTTACTCCTCTTGGCCTCCATAATGGGGTAGAGTTAAAAGGATGGGGATTTTGGAGTCTCATGA
GACTAAATTTGAATCTTGGCTTTGCCTCCTACTAGCTGTGTAATGACCCTGGGCAAGAAATTTAATCACTCTGAGCCTCAATTAAGTCACCTGTAAACTG
GGGATGGGCATGCCTCCCTCATTAAGTTGTTGTAAAGATGAAATGAGGTAATGGGTACATGAGGGCCTGGCATTGAGGCGGCAGTTTCAGTGAGAGCTTG
ACCCATGCTGGTCTCCTTCCCCTGAAAAGTCCAGTGTGGACTTGGGAAACAGCTCTGATGATGGGGTGGGGGGTGGGAGAGGGAGGAACTGGGGCTGCAG
CCTTGGGAAGGATGGTTTCTGGTGGAACATGTAGGTCGAGAGAGGCTGTGGGCCATAGGACCTTCCAAATGTATTCTGAGTGCAGTGGAGGGGAACTCCC
CTGGCCACAGTTCATGCTTCCAGGGCCCTCACCTGCAGATCTGCAGATAAACTCCTATCATCAGCTTGGCTCGTGCGTTTCTGGGGCGGCTGTGGCAGCC
TGGGCTGCCCTGATTTACCACCCCAGCCCCAAGCAGATTAAATCACCCAGAGTCATTTGAATTTTACTTGGCCTTGTCACACAAATCTTAGAAACTGCTG
TCTGGCAAGAAAACTTTCCCTGTACTTTTTGGAGGAAAACTAAGAGCTCTAGAAATTGAGGTGAAGTGGAAAAAGGAGGTGGTTCCAGGGGGGTTTCTGC
ATCTTCAGATCAGACCAATGTTGCAGGTTAGAGGAGGGATTGTGGTGTGTGTGTGTGTTTGTGTGTGTGTGTGTGTATGCAATTGCTGCAGAGGCCTCTG
GGACAATGTTGTTTCTGGCTGTGTGACATAGGGCAAATCACTTAACCCCTCTGAGTCTCACAGGACTGTGGTGAAGGTCAAAGGGGCTAGCTTGTGGAAA
GCATTTTGTAGGCTTCAATCAGTTCTGTGACTACTAATTGGAAAGATGAGACAAATGACTACATAAATAAATTATATATGGCAGTGGTTACTATGCGTCA
AGCAGAGTAAGAGCTCTAGGAGCCAAATGGAGGGGCACATTGCCAGAGGTCTGGGGCTTGACTTGGGCCTTAAAGGAAGCCTAAGTCCCAGGGAAGAGAA
GTGGAAGAGGCTGTAGTGCAAGTGAGGTTGTCGACGCCACCTCTGTCTCCATCAGTGTGTGTGGCTCTGAGGTGGATCCTGATTGGTTTAGCCAATTCAG
ATAATGCCCCCTTCTCTGACCTTGGCACATTGGCTGGTTCCAAACCAACCATACATACATTCTCCTAGTCACTGGAATTGATTCAGATTGGCCCCATCAG
ACAGAAACTCGGGGTTTTGGTGAGATGGCTGGGGAAGCACGTCTAATCTCTTTGTATCTGGATTTGAATGAGGAAACATGTGGGCCTAGTTTCTGGCAGG
CATCTGGTGACTAGGAACACTAACCTGAGAATGTAGCCAACATATGGAGGTGGGAAGAACCTGGAAAATCACAGAAAAATGGAGTCCCAGCCCCAGTCAA
ACTATGCCTGATGTTTGTTGCATCTGGAGTATTACATGAACTAATCAATCTGCTTTATTAGGCCAGTTTGGATACAGGGGCTGATACGGGGGCTGATGGA
GGGATCTGAGTAGGGAGCCGAGAGTCTACTTGGTGTTAGGCAGCCATGAATGAGGAGACCCTGTAGGCGGGAGTAAAGGGTGGGTGAGGGTGCGTAGTGG
GGTGAGGGTGGCTGAGGTCTATAGGAAATGAGACTAGAAGAAAGTCTGGGATTGAATAATGGAATGACTCAAATGCAAGGTTAAGAATTTGGGCTTGATT
TTGTAGGCAATGGGGTGTAGCTTCAGATTTGTGAGCAGAGGAAGGGAAAGGATAAGTGATGTGAACACAGTGATATTTTGGGAAGATCAACGTAAGAGTG
GGATATATATATATATATATATATATATATATATGGATTGGAAAGAGAAATTGGGGGCTGAGACTTTAAAAATTATCATTTATGGATGCTACACATAGTT
CATGTATTATCTCACTTAATCCTTAAAAGAGCCTCCCCCATCCCTCTTTTTTTTTTTTTTTTTTAAGCTGACTTTCCAAAATCTTGCGTAACTTGACTAG
ACCACATAATTAGCAAATGGTGGAGTCAGGATTTGAACACAGGTCATCTGACTTCAAACCCTGTATCCTTATTCACCATATTTATGGTAACACAGTTGAC
AAATTAGGATGGGCTAGATAAGATAGTGGCTACAGAGGTGGAGAGAATGGAACGAGAGATATTAGGTTGGTGAAGTTCTAGATGTTTTGTCATTAAAATC
AGAAACCAGATCAGGATAACCATTGTTATCAACATTTAAAAAACTCTTTTCCAAAAGTGCTAGGCATTGCAATTAGATAAGAAGATGAAACAGAAAGTAT
AAATGTTGGGAGAGAGGAGTAAATAATCATAGTTTGCAGATAAGATGATTATTTATCTGGAAAACTCAAGACAATATTCTGTAAAACAATCAGAAAAAAT
AGAGTTTAGTAAAATGGCCAGTAACAAAAAAATTTACACAAACTAACAGTCTTTCTATTTATAAAATGACTATCTAGAAGGTAAAATAAAAGCTCCATCC
ATACTGTAAAACACAAACACAAAATACTCAGAAATAAACTTTACAAAAAAGTGTGTAGCATTACATGAAGAAAACTCTTCTGAGTTTGAATAAATATGGT
ATATACCTAGTTCTTGAGTAGAAAGATTTAATGCTTTAAGGATGTCAATTCTCCTAAACAAATGTGTGAAATTAAGATAATCCAATCAAGATCCCAACAG
GATTAGAATTTTTTTTGACAAAATAATTATGAAGCTAATCTGGAAGAATACCAAATGAGAATAAGGAAAATTCCAAAAAAGAAAAATGATGAATATTTAC
TCTATCAGATATTAAAATGTTTTATAAAGGCACAATATAATTAAAATTCTTGTCTAGGAATAGACAGACAGATCACTGGGACAGACTAGAGTCTAGAAAT
GGGCCCAGATATTTAAGGGAATTTTTGTTTGTTTTTGGAACAGAGTATCACTTTGTTGCCCAGGCTGGAGTTCAGTGGTGTGATCTTGGCTCACTGCAGC
CTTGGCTTTTCGGGCTCAAGTGATCCTCCCACCTCAGCCTTCTGATTAGCTGGGACTACAGGTGCAGGCTACCACACCCAGCTAATTTTTTGGATTTTTT
TGTAGAGATAGGGTTTTACCATGTTGCCCACATTGGTCTTGAACTCCTGGGCTCAAGCGATCTGCCACCTTGGCCTCCCAGTGTGCTGGGATTATAGGCA
TGAGCTATTGCACCCAGCCTTAAGGTATTTTTATATGATAAAACAGCATTTTAATTGAGTTGGGAAAATATGGGCTATTTTATAAATGGCGTTGGGATAA
TGGGCCAGCCATAGCAACACTCCTTATTGGGGTAAGAACTCTCTGACTYGGTCTAATAAGCTCAAGCCATGAAGACCACATGGCATAAATATGAGTGAAT
ATTTTGATCATCTTAAGGTGGGGAAGATTCTTCTAAGTATGACGTGATATTTGAAATCATAAAAGAAAAGATTGATAAATTTGACTATATGAAAATTAAA
CATTTAAGTACCTTAAAGAACATTATAAGAAAATTTTAAAAGAGGGGTATATACATATGTATGTGKRTATATATATATATATATATATATATATATATAT
GACAACAGTTTAATTTTATTTCTAATGTACAAAGAGCTCTTACAAATCATTAAGAAAAAGATAAATATCTCATTAGAAAAATGGGCAAAGGACATGAACA
GGCAATTCACAAAGAAAATAACTACAAATGCCTGAAAAAACAAAAAGACATTTATTTCCCCCTCCCTATAATCTTAGCAATGCCAATAGAAACAAGCATC
ATTTGCCTTCTGTTGATCTGGCCAAACATTAAGGCTGACAAAACCCAGGCTTGATGAGGGTCTGGACTAATGTGTGGGCACGGTTGATGAGAATTTTGCT
GTTGTAAGCTTTCTGAAGGACAGAGTGGYAAAATAGAAATAGCATACCCTTAATTGCAGCCATCTCATTTATTGGATTTTATTCTAAGGCAATTGTTGCA
AAAATGAGCAAAGAGAATATGCACAAGGATATTTATCACAACATTGTTTATGAGAACAAAATTCTCACAACATCCTTAAATGATCATCAGTAAAGACCCA
GTTAAATAAAGTATGATACATATAATGGACTACTATGAAGTAATTAAAATAATTTTGTAGAGCTCTATTTATTGACATAGAAAGATGTCTAGGACATATT
GTTGAGAGAGAAAAGCAGGTGTCAGCGAGAACAGTATGTATAATACAATTCCTCGTCTATAAAATTATATACATAGATCTCTATGTGTATATATGCATAG
AGATATGTCTGGAAGGCTGTTCACCAAAATGCTTGGAGTGGTTGTATCTGGGAGGTAGGATTTTTACTTTCTTTTTTGTACTTTTAAGTATTGGTTAGAT
TTTTTTTTATAATGAAGATATATCATGTTTTTTAATCAGAACAAAGAATAATTCTATTTGTTGTAGCATTTTGGAAATAAGGCAGATACTAAATAGGAGG
AATCAGCATGTGGTGATTTAACAGATGTGGATAAGGAGTCAAGACATAAGCCAAGAATTTGCCCTTTGGTGCCCGGAAGCTTCATGCATCATGGCAAACC
CAGAGCAAGAGTTGATGCTGGAGGAAGAAGGAGGCCCTGGGTTTTCAGAGCTTTGTTCTGTGGCAGTGGCTGGTGGGCAGTATGGCTGCCTCTTAGAAGG
GGAGGGCTGGGGTGGGCTTTTCCCCAAGGACAGAGCTAGGGATGAAATCTCAGAGGGAGAGAGTGCATCGGCAGGTKCAGGAGAAAGCTGGAAACTGAGC
CTGGAACACAGCCATGGTGACAAGACGGGTGAAGAAACAGGATGCGTGGTCAGGAAGGCGCGGGGCTACAGGAGCATGGAGTGTCTCAGGATTCCATGGG
TGTGGGGGCGAATTTCTAGGGAAAGGTCAACCATATCTAATGATGCAAAGGCACGGAGGCTGGGGAAAGGGCACAGGACTTGACAAATAGGACCTTGTTG
ATGACCTTGGACCGAGCAGTTTCAGTGGAGGAATGAGGCTGTGCATTGTCGTGTGTGGGAGTAAGGGAGTTTGTTGTGGGAGAAAGGAGGATTTTAGCTT
GGGGGAGCTGATTTAAGGGAAAGGGACTGAGCCTTGAATAGAGATGTCAATAACTGGCTCGTGTGCCTCCCTGCTCACTCCCCAGCCCTGGCAGGCATCA
CTAGTCATTCTGCCGAGCCCAGATGAAGCCATAAAATCTTTCTCCTAATAGCCAGCTCAGGGAGCCGCTACCAGGTTCTTGGAGTTGGCTGCTGAGATGA
ACCTATTTTCCATGCCTGGGCTTGAACACACGCTTGCAGGATGATGAGAAGAAACACATGGAAGGGGCGACGGAAGGAGCAGGAAAGCCGAGGCCTGGTG
GAGCCAGGGCCTCCCATCCATGCAGGCATAGACGGTGAGCTCAGTCTGGTGAGACTTCCAGGCCAGAGCCTGGATGAGTGGAGCACTCTGCCAGTGAGTC
TGAGCTGACCAAGCACTAGAACAAGAGAACAAGTTCGTCCTTTTGGTGATGCTGTGAAAAAGCCCAACTGTGTGTGAACTACCAGTTGGTGTACAGATAT
TTGAGGACTCACCACGGCCCACCATCTGGCTGTCCAGAGAAAGCATCGTCAGCACTCTGTTGTCTGGAACACTGAGCATGGAGGGGTCTGCCTGTGGGTT
CCAACTGCAGTGCCCGAGARCAGAACAAGGAGTTGTGGCTCAGTAGTGGCTTGTTGGGAAGACTTTTAAGGAATATACTCAGTGTGATTCGGCTGCTGGG
CCTCTAATGGTGTTTTGATTGCATCAGTGGGAGCATGGGGTTCTGGATAGTGGAGATAAATGCTCTTTTGGACTCTCAGTGGCCAGAGCTTCTCTGGAGC
AGTGGAGAGAGGCAGACACGCGGGCAGAGCTCACCCACAGAAAATGACCAGGGTCAGGGGAGGCTGGGCATCATGCCCATCTAGGAGAAATGCTCGAAGG
AGCTCAGGCCAAGGAATTAGATGTTTGCTTTTAACCTGCCGAAGCAGTGCTTTCAAACACATTGTCCTTGGAATTTTAGTTTCTTGCAGTTGTTTCACAG
AAAAGGGTTCTATGAGCAGATGTGTTCAGGAAATGCAGCACCCACAGCTCAGTGCACGTGAGTACAGTAAAGGCTTTGAGAAGTCCTGCAGCGAAGAAAC
TTGTTTAATGTAGCATTTTCTCAAGCTTATTCAACTACAGAAGCTTTTTCAGTTCCATATCGATTTGCCTCCTGCAGGACTAGTGACGGACCTGGGGCAG
AGGGAGCAGCGCATCCTGTGTGGTCCCAGACATACAGAATTGTTTGGGCAAATGTAAGAATGTTGCAAAGAGGCAAATTTTGGCTCAGTTCAAGGAAGAA
CTTTGAAAGCAATTGCAGATGTTTAACCCATGAAGGAGGTGGTARAGGAATTTGAGTTCCCAGAGGCCTCAAGCAGAATGTGGACTTAGCAGGAATCCTG
CAGAAGGAAGCCAGGTTCTAAGGGGTTGTCATCATAGATTTCTGTGGTTCCATGAGTCCTGGAAGAGGGGCTCCTTGGCTGCCCCATAGTGGTACTCCTC
CCTCARAACCTGTGGCCTAGCTTGTATTGCTGTGTACGGCAGCCAGGCGGACTTGGAATGCTTGAAATGAGCAGTCTGCGAAGGTAAGATGTGAACACAC
GAATATCCTCATTAAGTCCCAAATACACATCCCAAACTTTACATAACAGGAGCAGCAGCTGGAGACGCCCACAGCCCTAATTGCTTTTCTGTACTAAGAG
AACGTCTTCTCTTCAGCTCTGCTTCTCCCATTCATTTAGGTAATTACTGGAGGGAGCCAGCTGTGGAAGGCTGGCGGGCAGGCAGGCGCATTTGTGACAC
CACCTAATGGGTGCCGCCATGAGGATGGGGTGCCACGGGAGCTGGAGCCTGTCCGTGCTCTTCATGGGGAGTAGGGTGCTGAGGATGGGAGGCCAGCTGC
TCGGCTTCAGTCCTGATCTCAGTGGGCCCAAAGTGAGCTGCCGGGATGGAATGCCTCTCCTCCCAGGGACTTGACAAGCACGATTCCAAGAAAGGACAGA
TCCAGAGCCAGGTACAGGCATGGGGAGGGGAACGCATGGAAGAATCGACTCTGCTCAACGAATTGCTCAAGGTGCTTTCTCTGAATCTCATGTTGGGCTG
GGGCACTGAGGCCGATCAATCAGGAAGAGCCCACTCTCTAAGCTCACAGGTCAGGGGAGGAAGCAGTCATGGGCCAGAAAGGGCTGGGATCAAAGGAAGC
TATCAGGACTGGGGTGTGCAGAGGACACAGAGACTGACTCTGTCTTGGTGACAGGGAATCTGGGAAGATGTCTTGGAATAAGAGATAGTAGGATTGGGCC
TTGGAAGTGTGTATGACCCTGCAGTTGGTGATCCCTTCTGCAAAATGGGGCCAAGGAAAACTTCCAGGCCCCAAAGTGACATCTGGTTTGTCCCCTTGCT
TCCTGGTCCCTAGTAACAACCTGGGACTCATGAGGATCCTCTTGAGGTTTCTTTAAGGCAGTCCTGAGCATGGGGCTCGCAGCTGGAGCCAGCCTGGAAC
CTGGGCCCTTGGTGGTTGGCCAGGGTGGGTGCCCTGGAAGAGTCAGCTTTGAGCCTGTCTTCAGAGGGGCCCTAGGGAGGGCTGTGGCCTAGGCGCTCTG
CCCACCAGGCTTCCTGTGGGTGGCAAGTGAAACTTTTCCTCTTGGTTCTCTCCCAGAAGCCAGCTTCATTCCCCCAGCCCCAAGTGGCGGCTCCTTGGGC
CGGAAACAATGTGCTTTCTCCACGCCTTAGAGTGGAAGTCAGCAGTTTGGCACCGTCTGGCTGGCAGCCTCCACCGGCTTCCTTTGGCACTTTATTGGCA
AAGGCGGTGACATTTCTTTCAGTTGGGTGGGTGGAGCTGTTATGCAAACTCCCGCTCTCCTCATTCGCCAGATGAATATTCATGACTCAGGCAATCTGTA
CCAGCCAGACTTTCCTGAGGGCGGCAGCTTTTCTTCTCTTCCTCTCTCTCTTTTTCTTTCTCCTTCTCTCCTTCCCAGCTCTTTGGAAAGCTGAAGTGCA
GCTATATTTAATTTACAAATACAGAGCCATTTAGCTTGCCTTTTGAGATGCAGGCACTGGGGAGGAGGTGCTGGGGAATGGGAACAGTGGTTGAGGAGTT
TGGTCCTGACCCTGTGCCTCTAAGCTCCAGTGTCCAGCCCCTGGGCCCTAGATCCTGGGAAGCTTTGGGAGTCTGGAGCTTCTTTGAGCTTGGCCTCTTG
GGGCCTTCAGGGATGAAGGTACAGCAGCTCACGCCACCCCATTCCACACTGGCCTCTGAGGTCAACATGGAAATTCTCAGGCAATGATGSTTTCCTGCAA
TTCATGGCCTGGGACCCACCAATACATCTTCTCCCGCTCTGCTCTCCCGTTTGTCAAGGCCCACCCAGATCCTGCTCCAAGCTCTAGGTGGAAGCCCAGA
AGGCACTGGAGCATTTGCTAGTCATTGGCTTTCCGGGGAAAGAAATAATCCTTGTTTGGGGTCCAATTCCTTGGGGAYACATTACTCCCTTTCTAGGAAG
GACAGGTCCCTAGTTTCCTTTGTCTCTTCCCAAAGAGGCACCAAGAACTCTGGCAGAGGGGTCAGAATTACCAGAATTTGCCAGGAAATGTGGTCTTAGC
AAGGATGTGCTTGCGTGAGCACGTCTTGTGTGTGTGTATGTAAATATTTACGCACAGCTTAAGTGAGTCTGTGTGCCTACATCTATGTTCAAGTGTCTGA
GTGTGTGTCTGTATGTGTAAGGGCGTGAATGTGTGTGTCGCGGGAAGTCTGGGAATGCTTGCATATGTGCGAATGTGCCTCTCCAGTTCGCGTTGCGTGT
GTACCTTTGGGGGGACTGGGGATATCGTGTGTAAATACGGGTGTTCCTGGGGGGCCCAGACGTGTATGCGAGTGTGTACGTCTATTAAGTGAATTGTAGG
TGTGTGTAAAATGAGAGTCTGGAGGAGAGAAAGAGAGAGTGTGCATGTGTGTGTGTGTGAGTGTGTGTGTTAGGGTGTGTTTCCCTGACCTCCATTTCCT
CCCAAACCTTTTCCTCTCCAGGAAGGTGGAGGGGGACGTTTCCCCCTTTGCAAGTGTTACAGATTCTATCCGAGGACGTGAACAGAAGGTTTCCCAGCAC
AGAGCGTCCTGAAATTACTTTATATTCCCCCCCTCCTTGTTTCATCTAATCAAAATAGCAGCATTAGGCTCACCCATTCTCCCTGCCCACCCCTCAGCCC
TGGGGGAGGGAGCGAGGCGGGCGGGCCATCTTGCCTGACCCCCTTTGAGAGCACCTTGCAGGCCTGAGCCAAGGAGCTGTCTTCCAAATCTCCTCTTTCC
TCAGCGGCCCATGCTTCAGTGGCAAGAGCCAGCTGCCTCCCTGCCTGCCAGCAACTGCCAAGCTCTTCCAGAACCCACATCTAGGCCCGGCCTCATTTAC
AAATATGCAAATTTGCATCTTTTCTGGTATGCAAATGGAGACATGACAAATAGCTAATTAGGGTCAAAAGAAGCACTCTGAACCAATTAGTTGTAGGGTC
TATCCCTTTCTCCTGGGAGAAGACTGGGCCTTCCTGCTCCCTWCCCAGCACTGACTCCCAAATGCCCACACACTCTGGCATCCTGTCTGGCTGGGGCCCT
GACTGTGAAGAGCACTGAAACAGACGTCAGTGCATGGGCCTCAGTCTTACCTCTGACCTAGCTATGTTACCCTGGACTCATTTGACTGAGCCTCAGTCTC
TTCCTCTGTGAAATGGAGCAATGACAATGACTATCTTGTCCCTAACCATCCACCCCAGCATAGGGAGACTTGGGAGGACTTGGATGTAAATAGCTTTTGA
AAACTGTACTACAGGCCAGGCACGATGGCTCACACCTGTAATCCTAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGACCA
GCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGGGCGCTTATAATCTCAGCTACTCAGGAGGCTGAGG
CAGGAGAATCACTTGAACCRGGGGGGTGGAGGCTGCAGTGAGCCGAGATCACACCACTTCACTCCAGCCTGGGCAAAAGAGCAAAACTCCGTCTTGGGAA
AAGAAAAGAAAAGAAAACTGTACTACAATTTGTCTGATAGGCACATCACTTGTAATCTTACAAAGTACTTTCTGCCCTTGATCTCATTTAATCGTCCCAT
CAACCCTCTGAATTAGATGAATTCAATGTAGGGATAGGATGGCAGTAGGTTTCATTCCACATGCCAACTCTGGCCAAGTATGAATGGTGCTTGGAGTGGT
GTGTTGAGAAGGATTCAGAGGCCAAGTCTAAATTCACCAAAAAAGAGACTGTGAGCTCTTAGTGACATTTCCCATGGGCAAGTGTTTGGATTCTGGGAGG
TCATGTGCTGCATACTTACCTACCTGAAAGATATGGAATTTGGAGCAGGAACCTGGGTTCCAGTCCTGTCTGCTCCCTTGATTAAGTTACTTATCCTTCC
TTGGCTCAGCTTCCTAGTATAAAGCAGGGAAAATAAAACCTATGTCTTTGGGTTATTGTAAAGATTAGGCAAGGGAAACTTAGGCAAAATCTCTTTGTCA
TCTGAGAGGGGATGTCCATTTAATTGGCATGTCAGTAGGGCAGGCATATTGTCCATTTCACAGGTGAGGAGCTTGAGGCCTGGAGAGGGTGGATGACCTG
AAGAAGAAGCTGGCAGCATCACCAGGCAGGGCTGCATGGCAACTGGGGCTGCTTCTCTCTCTGCCACTACAGGATCCTGGCTCCCTCACACCACCCCCAT
GCTGATGCCCCACACGGGCTGCAACAAGCCCTGCTGGCCTGGCTCCATTTCTGGGTGTGAAATTTGGCTGAGTCGGCACCTGGTAGAATGGAGCAATTGC
TATCCTGGAGCCTGGGGCCTGGGACAGGGCCAATGCGCAGACCAAGGGTTGATGGGCGGATCTGACCAAGGGTTGGTGGGTGGGCCTGGCGGGCTTGGCC
AGGGAACTCGCCAAAGCTGGGCAGCTGGCAGGAGTGGGGCAGGAGAGGGCCTGGCTTGAGGACAGCCACTCAGGGAAGCTGAGACCCAGGGCCTAAGCTC
AAAACAGAGCCCAGCAGCATGAGTGTCTGCCTGGTTGCTGGCGTGCCTGAGCATGTCGGCCGGTGTCTCCGAGCTTGTCTTTGTGTGTGTGCACGTGTCT
AAGGGTATGCTGGGTGCGTGTGTTCTTATAAATGAGTGTGCATGTCTATCAGTGCAAGAGCTGGTGCACCCATGTAGTTGTGCACATCTGTGTACCAAGG
TGTGTCTGTGTCAGTGTGAGCCTACACATCTGTGTATAAGCAAACTTCTTGCATGCATACATCTGTCAGTATCCGTGTGTGTCTGTGCATTTCTGCCTGT
ATCTGCAAATGTCTGCTTGTGCACTGTCCATGCAGGTAGGTCCACACTGGTGTGTGTCTGATGACCTCTGTCAGTATCTGCRGACATGAGTCTGTGCTTT
CTGTTAGCATCTGTGCAAGTGTCATCTACGTCTATGAGCATGTTTGTTCTTTCCAGTGCCTCTATGTGTCTTGTACCTGTATGTAAATCTGTCCATGCCT
GTCGTGAGTGTCTCTGCAGCTGTGCCTGTATGTTGGTGTATTTTGCAGTGTGTACATCTAGTGAGGGTATTGGTATTCACTTCAGGATGCAGGCATGGCT
GTCTCAGGGTGAGCAGGATGGAATCTTCCCTGTGTCTGCAGTGGCTCCCGGTCATCACTTCCATCTTTGCGCTGTGGCTGAGGCCTCCTGGACTCTCATG
TTCCTTTCCTCTGCTTGAAGGGAAGCTTTGCTCAAGGTTTCCCAGGGTGCTGCCTCTGACAGGACCAGGCCCTGGTGTCCCTGAAGGAGGACCCGCTTTG
CCCTTTGGACTTGTTTATCCCTCCCCTCACTCTTTCCTCCTCTCATCTCCTTTCCTTTTTCTTTTCTTCCTTCCATTCCTCATCCTTGTCCCTTTTTTCT
CTCCCTCTTTCTTTCCTTCTCTCCTTCCTTCCTTTTTTGCAACTCGCTTGAAGAGACTGGGTCTTGGGCTGCTGCGGGAGTGACAAATGACGTTTCAGAA
GCCACACTTCAACCTCTGGAGAGGGGTCCCCACTCCCGCCCCCATGCAGATGCAGCTCCAGAGCCACCCAGTCTCCGGGGGCTCTGTAAATTAAAGCCAT
TGCATGCCCCATTGCATTTTAATCATCAGCCCCCAGCAGTAGCTCCRAGTGAGAACCCATGACCTTTTCTCCTTCCCTTTTGAGGAGCCCTCTCCCACCG
CTCCTACACTGCTGGTAAAAGGCAGCCGCACTGCCTGCTGGAAGACCTGCCAGCTTGGGCTTCAGAGCACTTCTGCCTCAGATCCACGACGATCCCTTCT
GWCATCGTGGGACCTTTCCTGGGATTTGATTTAGGGCGACGCTTCCTCCTGTCTGTGTCCTGAGTCCTGCCTTCCCTGGCTGGTCCTCTTTGCTTAGTCA
CCCAGATCATTCCCAGACAGCTGCGCCCTGGATATGGCTCCTCTCATGTGCTGCCTGGAAATGTCTCCTCTCTTCTCACCTGCTGAGAGGTCCTTCTGGG
CAGGGACTCGGGCAGATTCATTCCTGCCTGCCCCACATTTCCCTAGCCCAGGGCCTGGCCYGTTGCAGTGCTGAAGGATGATTCTGGTAAGAAACAAGGT
ACTCCAGCTCACATCTTGCAATGATTATGCCTCCCCCACTCTCCCTTCTCCTTGCAGTTCTCTCTCTTCACTGATGATTTTGGATGCAATTTAAAATAAA
AATATTGATTAAAAATGGAAACTATATAAATAAAAATAAAAACACTTAACATCAATGTGTCATTTGAGCTTTAACATAAAGAGAAAACATGTGAAGGTGA
CAATTTGTGGACAATTCCAAATTAGCATGAAGTTCTCAGCTGGTAAGTATCTTGACTTTTTTCCCCTCTCTTGGGGTCTGTGGAATCCTGACCAGGCATG
TGGTGCAGTAGAATGGGAGGAACTTGGCTTCGGCCTTGATAAGCCTGGGTTGAATCTTCCACTTATGGGCTTTCTGAAGCTCAGTTTCCTTATCTGTGTA
ATGGGGAGAAAGACCCTACTTCATGGCGTGATTGTGAGGCTGATAGAAAAGGGCACACAGGGGCCAGGCCCAGTGGCTCATGCCTGCAATCCCAGCACTT
TGGGAGGCCGAGGCAGGAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGGGT
GCCTGTAGTCCCAGCTACTCAGGAGGCCGAGGCACGAGAATTGCTTGAACACAGGAGGCAGAGGTTGTAGTGAGCCAAGACTGTATCACTGCATTCCAGC
CTGGGCAACAGAGTGAGACTCCATCTTAAAAAAAAAAAAAAAAGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAA
GTGCTGGGATTACAGGCGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTAGTGGCAGGTGCCTGTAATCCCAGCTACTTAGRAGGCTGAG
GCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTAAGCTGACATTGCACCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAA
AAAGGAAAAAAAAAAAGAAAGAAAGAAAATGGTGCACAAGGCCAGAAGCAGTGCCTTGTGTCTATCATTTCACCTTCAGAATACAGCCAGAGTCCAACCA
CTCCTTCCACAGACACTGCTATAGTAGAGGTCCATGCCCAGTGGTCTATTCTCTACGCAGCAGTCACAGTGATCCTGTTAATTAGCATTTAAGTCGTAGC
ACATCACTTGTCTGCTCAGAGCCTGCAGTGGTGCGTATCTCATTGGGAGTAAAAACCAAGGTCATCATAGCAGGCTCAAGGCCTCACATGGTCAATCATC
CCTCACCCCAGGGCCCCCATCCCTGTCTTTACTATTCTCCCCCATTGCACTTCCCTCCAGCCCCACTGCCCTCCTGGCTGTTCCTGAACATGTCGGGCAC
TCTCCTGCCTCAGGGCCTTTGCACACGCCATGCCCTTTGCTGGAATGCTCTTCCCCCAGATATCCTCATGCCTCCCTCCATCACCCCCTTCAGGTCTTTA
CCCAAGTGTCCCCTTCTCCATAAGGAAGACCCTGTTCTTTCTGACCTATTTTTATCTGTGGCACTTGTCACCATCCAGTATATATATTTTTTTGCTGACT
GATTTTCTATGTTGCTTGTCTCTCCCTGAGAGAATGTGAGCTCCTTGAGAGCAGGGATGTTTTGTCTTTGTTTTCAACATCTGGAACAGTGCCTGGCAAG
TCATGGGCGCTCAATAAATATTTGTTGAATGAATGAATTGCTCATCATTTTGGAGGGTGCCAAAACATAGGAGCAGCTATCTTCCAACTTGGGCAATCAG
AGGTGAGAATTCTGCAATTCTGAAAGGGCATTATTTCAGCATTACTTTGTTAGGGAGGCAGTGGGGGCCCTTGGGAGGAAACCCCATGGTCCTTCCGCTT
GGGGCAACCAGCTCAGGAGGAAGTACCATGTGCTGGTTCCCAACTCAGCGGGAGAGTCAACAGTGTGTTCTCGTGGGCCAGCCAGGCATCAGGGATCCTG
CTCCCTGGAAGCCTCTCTGTGAGCTCCCTGCCCCGTGGCTGCAAGCATATCCGAGGCTAAGGCGGGCCTTCCAGGAGGCTCACACTCAGCCAGGCTTCTC
TGTGGAGGTAAGGGCACCAGAACGCGGAATAAACTTGTACTAAGGTAGGTATTTTAGCTGGTGCTGGAAAGTTGGGGGAGGATTAGCTACCAGAAGAGCA
CGGGCCGGGCACTGCAGGCCCAGGGAGCAGCGCGGGCAGAGCCGAGCATGTAGGAGGCTCTTGGTGCACTGGCTGGGGAGGGACAGGCAGCGAGTTGTGG
CTGGAACGTGTCTACTTACCTGCGAGAACCTCCTGAAGCCAGGATTGAGTCTGCTCCATGTTTGCCTGCCCCTGTAGTGCTTACAATGGTGCCTGGCCCT
CGCAGGTGCCCTTGACGTCCGCTGTGTGGCCTGTTCAGCTCAGGCCAGGAGTCTAGGAATTGGGTGGTCTAGGCACCTCTGATGGTGCAGATCAGACCTC
AGAACAGGCCTTGGAGAAGACAGGGGTTGGGGGGTTTGGCTGGGAAAATGGTCTAATCTATTTGGTTGTTGCAAAAATAATTGCAGTCTTGCCATTAACT
TTGGTAAAACTGCAATTACTTTTGCACCAACCTAATTCCTTTATTTTATTTTTCTTTCCTTTTCTTTTTTTAAACAATGTTTTGTAATCTACCTTTATTT
TAAAAGTAGTTTCTTCCAAGATTGGCACAAGGGTTTCTCCAGAGCTAGAGATGAACCCAGGTCATAATGATCTCCCTAGTCTGGACACATTCATGGCTAA
ATATGGCTTTGTCTGGATTTTAGAACAGGGTTCTTTACTTTTTTTTTTTTTTAAATGCCATGAACTTCTTTAGCAGTCTTCTAGAGTAGTGTTTTATTCT
TTATTATTATTTTTTTTTAGAGACAGGGTCTCACTCTGTTGCTCAGGCTGGAGTGCAGTGGCATGATCATAGCTCACTGCAGCCTCTAACTTCTGGCCTC
AAGTGATCCTTCCACCTCAGCCTTCCAAATAGCTAAGGCTAAAGGTGCGTGCCATCACTTTCAGCTAATTAAAACAATTTTTTTTTTTTTTTTTGTAGAG
ATGGGGTCTCACCATGTTGCCACACTGGTCTTGAACTTTTGGCCTCAAGTGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCA
CCATGCCCAAACCCAAATAGTGTTTTTAAATGCATAAAATGAGATACATAGGATTACAAAGGAATGGTTACGGTTCTAACCATAGATCCCAGGTTAAAAT
GGCCAGTTACACTCTTTTCGAGGACAAATATTCCACTCTGTGAAAACAGAGCACAAACCTTGGCTTCTCCTCCTGCACACTGGAGGGTGGGGTTGGGGGA
GGTGTTTGTGCATATTTTTGCAGGGCTGTCCTGGGGGTGGAGATAAATGTCTGAGAGGCAGAGTTTGGAACCCTAGGAGGATGCCACTTGGAGGCAGATG
GCTGGGCTGCCTGGGGGAAGGGTTGAGCACCCCATCTCTGGAGGTGGTGAGCTGGAGGCCCATCTGTCAGGGATTCTGGGGTCAGGCTGGGGTGGGTGAT
TTCTGCCCAGGTGGGAGAGGATTTTGATTTTTCCTGAGCTACTTTTGGTGGTGAATCTAGGAGGTACGCAGGGCTGTAGGAACTTTCTCTTTTGCCAAAC
CCTGAGCCACGCCGGCAGCCCTGGGAATGAGAGAATGGTTACTTTGTGCAGGCTTCCACCCGCCAGGCCCATAGCAACAAATTTACCCCAGTGCCATCTC
CAATTTGCCTCAGAACCAGTAATTGATCTTGTTCTTTGGAAGACAATGGCTTCAGGGTAGGGAAACACCTTGCTCCTCTGTCTGTCTTCCAAAACCATTC
CTGGGGAAGGGGATGGATTGTAAACCATATCACCCATCCTCCCGCAACAGCTGTGCAGGCTTTCAGTTCTGAGCCTAGGAGGGGATCCCTCCTTCTTTCC
TCTGTGGCACCGTCACCCTCCCTGGCAGCTTGAAGGCCTTCGACATCACCCAAGAGCCTTTGAAATTGTCCAGTCCAAATCCCCTGTGTGGGAGCGTGGA
TGGGGTCACTGAGGCCTAGAGAGGGCAAGGGCTTTGCCTAAGTCACATAGCCTCAGGGTAGCAGGGCGGGTTCTGGAACCTCAGCACTGACTCATCCTGC
TGTGTCTGGAGTAGGGAGAGCTGGCAGTGGGAAGGCAGCCCCGGGTCTCCTTTGACAAACACATCATGCTTCCCACCTAAACCACCTCTGTGGGTGGGGA
GCTGGGGACTGGTCTATTAGCTTTCTCCCRCTGTCCCCCGAGGGTGCATTTGTCTGTTTTGCATTTTTTCCAGGCTGTAGTTAGACAACTCCTGGTCCTG
GGGGGAGCGCTGCAAAGAGAAAATGTCAGGGCGACATGCCGCCAAGATAACATTAGCGAAATATCAAGTCCTTTATGATGTCAAGAGGGATTCCTTCCCG
CTGCCGAAGCTGCCTAATGACATCATAAAATAGGCCTGCAGCAGCCGCAGTCCCCCTGAGTCATCCATCAGCCCTGTTCATGGAGGGTCCCAGCCCGCAC
GCGGGGTGGGGGGTGCCGGATTTTAAACCCAAAGGAGGCTCCAACAGAGCAGTACTGTGATGAACTGAGGGACAGAGGACACCCACAGCTCCCAGAAAGG
GGCAGCCTCCTGGCGGCAGTGCCCCTCCATGGCTGACCTGGACACTAGGGGACAGGCATGTCTCCAAGGCCCCTCGGAGACCTTGAGGCTGAGTTGGCTG
CCATAGGAAACTAACACCTCCCGGGGAGGACCGCACCCAGCCTAGAGTACCTCCGTGGTGCTAAATGAGAAAAGAGAGCCAAGCCCAGACTTCTGGTTTC
CTGAGGGCTGACCTATCTCTTGAGGGACAGACAGGACTGCTGGGCCCACGGGCCCCATCATCTGGTGCAATGAGACCAAGAGTCACCCCACTGGAGACAG
ATGGAGGAGGTCTTTGGCTCCTTTGAGGCTGGCATGTACTCTTGCATGTTTTGTGTGTACACTTGCGTGTGCCCATCTAGCTGTATAAATCTAAGAGTGT
TCACAGCACATTGACAAATGGGTTGGTCCGCATGTGTACAGCCCGTGTGTACACACTCATGCCTGCATGCCTACTGTCCACCTGCTTTCATTTTTGTGTG
TCTGAGTCTACAGCTGCCTAGATACCTTTCTCTATGTCCATGTGCTTGTGTTTATGCATGTCAAAGTGTCTGCCGATGTGGGGAAGGAGATGTGGAAGCA
GATAAGGAAGAGTGAAGGGAGAAGGGGGATCCCAGAGGGTGAGTGGGTGCGTGGGGTGTAGGGGTGCCAAGCACGTCCACTCATCACGCTAGGCGGAGGA
CATCAGCTGTGTGTTGGATTCACCTGGGGAAGCTGTAAAATCTACCCATGCTCCAGTCTCCCCTCAGATCAATGAAATCAGGACCTCTGGAGCCAGGGCC
CAGGTACCAGCATTTTTTCAAGGCTCCCCAGGCGACTGTAAAGTGCCACTGGGGTTGAGAACCAGGGGTGTACTCAAGCCTGGCTATTCTAAGTGTGGTC
TGAGGACTCGCAGCATCAGCCCACCTGGGAGCTTCAGAGAAATGCAGAATGCCAGGCCCTGTGCCAGGCCTCTTGAGTCATAATCTGCATTTTCATCCCA
CAATCTGTATTTGAATAGGATCCCCAGGTGATCTGTACATCCATTAAAGCTTGAGAAGAGTAGAGTGGTGCTTCTCCACATAAGCAGGCAACAGAACGTG
TTTTAACAAACCCTCTGGGGTGATTCTGTTGCAGAATTTCTGATTCAGTAGGTCTGGGGTGGTGTCTAAGAATGTGCTTTTCTAACGAGTTCCCAGGTGA
GGCTGATGCGGCCAACCTGGGGCCTACACTTTGAGAACCACTGGTATGATTGTAGCATATGAAGGAGGCAGACAGGGGGAAAAGGGAGTGGAGGCGGGGG
TGTTGGGGAGGGAAGGTGGGATGGAAGGGGAGAGGACAGCTTAGTCACCTGGGAAGATCATGTCCCTCGAGAGTCTGCCCTGTCATTGTCTTAGGGTCTT
GATTTTCCTGA


SNP Information

Context             (SEQ ID NO:18813):
CTGCATGTGGGCGTATTTGTATGTTCAGGTGAGTGTACTTACAGCAGCGAGGATGCCATGCACCTGTGTTTGTATTGTGAGTCTGTGTAGAGTCTGGCGT
R
AGCGTGTGTGACAGTGAGCTTGGGAGGTGATCTGTGGGTGTGTGTTTGCCTAGTGGGAGGATTTGTGAGGGTGGATATGGGAGGCTCCCCGTTCTTACTC
Celera SNP ID:            hCV1848944
SNP Position Genomic:     57452
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18814):
TGTGGCTTAGTTGGGGTAATGATCGTGCTGCTGTACGTCTTGGATTTATCTTAAGGGATAGGGCACCAAACTTTTTTTCTTTTTTTTAAAAATTTATTTG
W
GACAGGGTCCTGCTCTGTTGCCCAAGCTGGAATGCAGTGGTGCAATCATAGCTCACAGCAGTCTTGAACTCCTGGGCTCAGGGGATCCTCTGACCTTGGC
Celera SNP ID:            hCV905633
SNP Position Genomic:     50703
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18815):
TTTGCAAGCGTAAGTGTCTTTGTTGAGTGCTGAGGTTGACAGTCTATGGATGGGGTAGTGTGTGCTGCATCGTGCTGGCCTTGGGACTGGACTCAGGACC
R
GACTGGTGTCCATAGTGCCATGGCCATGCTGTAGGCCTCGGGCAGGCTGTCGCTTTTCTCCGGGCTCCAGCTTCTGCTGGTTCCCCAGGGTTCTGCCAGT
Celera SNP ID:            hCV1848945
SNP Position Genomic:     57077
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18816):
CCTTGTGTCTGTGTGTGTGCCTGTGTTGGTCTGGGCATGAGTGCATATGAGTCTATGGTTTTATATGTGTACATCTCAGAATGTGTGTGTATGTACATTT
Y
GTTTTTTTTTCTTCCAGGTTGAAGCGATTCTCTTGCCTCAGTCTCCCCAGTAGCTGGGATTACAAGCACCTGCCAACACGCCTGGCTAATTTTTTAATTT
Celera SNP ID:            hCV905634
SNP Position Genomic:     48241
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18817):
GTGAGTGTCTGTGGTATGCATATGTGTCCTTGTGTGTGGATGCACACGTGCTGCTTGTGTCTCTACAAGCAGATACAAGGATGCCCTTGTACACAACACA
Y
GTGCTGCTTGTATAGACATGAGTGTTGTCTACGAGGGCATCCTTGTGTCTGTGTGTGTGCCTGTGTTGGTCTGGGCATGAGTGCATATGAGTCTATGGTT
Celera SNP ID:            hCV905635
SNP Position Genomic:     48100
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18818):
CCATCACAGCCGGGCTGGTATGTCAGCTGCCTTCCTGAGCTGCAAAAATGTGAGCGCCCCGAGGTACCTCAGACAGGCCCCCGCCCCTAGCAGACAGCTC
Y
GTTTGACCTGCATCATTCACTAACCTGTCTCGGGGAGCCTGTCTACATGCACACATCTGTGTATGTTGGCCAATGTAAATGCTGCTTCTTGTGAGTGTCT
Celera SNP ID:            hCV905636
SNP Position Genomic:     47909
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18819):
GACATAGTCTGATCCACTGTCTGGATGACTCCAGCTGCTGTGCAGCGAATGGATTGAATGGTGGGAGGGACTGTGATGCTTAGCGACCTCTGGCTGTGAC
R
CCTGCCCCGGCCCTGCTGTGAGGATGCTCCACTCTGTCTGCTTAGGCCTTACTTGCCTTCCACACTCTCCCCAGCCCTCTTCTGGGCCAGCAGCTCCAGG
Celera SNP ID:            hCV905637
SNP Position Genomic:     47441
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18820):
TGCCAAGTTCCACCGCAAGTCACTTCCAGCCTCCTTCTTCAAAGGATTTGTTAATAAGTCAATGACGGAACATCTAAAGGGGAAAAATATTTCTCTTTAT
R
GTTGAAGATAATTGTCCCAGGAAAAAAAGAAAACAACAAACCTTTAATTACAACTCACATGGAGAAAGCTTGATTTGTGGGCAGAGCCCAAATGCTGAGG
Celera SNP ID:            hCV1848949
SNP Position Genomic:     54126
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18821):
TAGGGGCTGCGATATGATGAGGAAACAAGGTCATTCAGGTTCTGGCTTTCTAAAGCTCATCGTACAGTGGGGGCAACAGATAGTAAAAAAATCAACAAGG
R
GGGTTGAAACAGCAAAATGTTCTATGAAGACAAAAAAACCAAAACCCAAACCCTGGTGATGTAAAAGAGGGTGAGGGGGAGAAGGGCTCCTTCAGATAGG
Celera SNP ID:            hCV905638
SNP Position Genomic:     46969
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18822):
AACACCTGCACAGTGTCAGGCCCCATCCTAGGGGCTGCGATATGATGAGGAAACAAGGTCATTCAGGTTCTGGCTTTCTAAAGCTCATCGTACAGTGGGG
K
CAACAGATAGTAAAAAAATCAACAAGGAGGGTTGAAACAGCAAAATGTTCTATGAAGACAAAAAAACCAAAACCCAAACCCTGGTGATGTAAAAGAGGGT
Celera SNP ID:            hCV905639
SNP Position Genomic:     46941
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18823):
GTCTAGGATCCCTGGCCTGCAGTCCCATCCTCACAGCAAAGCCCCTAGGACTTAGAAATGACTCCAAGTCCCACGTGGCTCTGGGCTTCCAAAAGCAAGC
R
CCAATCAGAGAAGGTGGAGAGGAGATGGGAGAATGGTTTGGAACCTGTGTGGGACGGTCGTCCCGTGGAGAGGGGCAGGCAGAGAGGTGGGGGCCCTGGA
Celera SNP ID:            hCV27913149
SNP Position Genomic:     53244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18824):
TGATAGAGGAACTTGAAAAGAAGAGAGTGAAATGGACACAGAGAGACAAGGCTAGATAATCAGACACAGAGAGGTGAAAGAATCATAGAGACAGAGAGAG
R
GGGAGAGGGAGAGACAAAGAGCAAACCCACAGAAACAGAGAGAGAGAGAGAGAGAGAGATGGGGGTGGTGTGGGGAAGAGGCTGTGTTCCAGGAGAAAGA
Celera SNP ID:            hCV11183920
SNP Position Genomic:     55941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18825):
AATGGATTGAATGGTGGGAGGGACTGTGATGCTTAGCGACCTCTGGCTGTGACGCCTGCCCCGGCCCTGCTGTGAGGATGCTCCACTCTGTCTGCTTAGG
M
CTTACTTGCCTTCCACACTCTCCCCAGCCCTCTTCTGGGCCAGCAGCTCCAGGCTGTGCCAGAGTTCCCAGAAAGCACCAAGAATCTTGAGGCAGAGGAC
Celera SNP ID:            hCV1848950
SNP Position Genomic:     47488
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18826):
TTAATATGGAAGTGGACTATGAAGGTGAGGGTGGAGGAGCTGTTTTGTTGTTGCTGTTCAATTGTATCATTTGAGGCTTCTTTCCACGTGGCAGGAGAGG
Y
GGGCTGGTGGGAGGCTCGGGAGGCCTGGACGCCAGCCTCTAAGAGGTCACGGGATGGTGGACATGATCCCATGATGGGCCTCAGTCTCCGGATCTGGGAT
Celera SNP ID:            hCV905640
SNP Position Genomic:     46584
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18827):
TGATCCACTGTCTGGATGACTCCAGCTGCTGTGCAGCGAATGGATTGAATGGTGGGAGGGACTGTGATGCTTAGCGACCTCTGGCTGTGACGCCTGCCCC
R
GCCCTGCTGTGAGGATGCTCCACTCTGTCTGCTTAGGCCTTACTTGCCTTCCACACTCTCCCCAGCCCTCTTCTGGGCCAGCAGCTCCAGGCTGTGCCAG
Celera SNP ID:            hCV1848951
SNP Position Genomic:     47450
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18828):
GGCACCTGGTAGGTGAGTGGGTGTGGGAGGGTGCCTTAAGGTGGGGTTGAGGACTCTACCCTGTGTTTGGGAAGTGAGCCAACCAGCTGTGTCTCAGGTG
S
TCTCTCCACCTGCCCGGCAAGCCCACCTCGACTCTCCTGCTTCCTGGGGGAAGAGGTGGCCTGGGAGGCATGTGGGAGGCTTTCCATGACTGCTGAGCCC
Celera SNP ID:            hCV905641
SNP Position Genomic:     46177
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18829):
GTGAACTTTGTTCTGAGAGCAATAGGAAGCCTTTGAAAGGTTTGAAGCAGGGCGTGACATAGTCTGATCCACTGTCTGGATGACTCCAGCTGCTGTGCAG
M
GAATGGATTGAATGGTGGGAGGGACTGTGATGCTTAGCGACCTCTGGCTGTGACGCCTGCCCCGGCCCTGCTGTGAGGATGCTCCACTCTGTCTGCTTAG
Celera SNP ID:            hCV1848952
SNP Position Genomic:     47386
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18830):
TTGCTGTCTTGGAGGCAGGAAGGCCAGGGTGTGGAGGCCGTCTGTCCCATCACAAGCCCCCTTTCATGATGCTCAACAAGGCTCCTTCAGAGGCCGGACT
Y
GGCTGTGCAAACACGCACATCTGGGCTGCTGGCTGGGGCGGGGTGGCGGAACTCCCCCACAGCTGGCCAGCTGCTCCTGACCTTCTGGACAAAGGGAGCT
Celera SNP ID:            hCV905642
SNP Position Genomic:     44817
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)   (C,-|T,-)   Caucasian(T,8|C,76)   Asians(C,72)   total(C,148|T,8)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18831):
CAAGCTCTAGGTGGAAGCCCAGAAGGCACTGGAGCATTTGCTAGTCATTGGCTTTCCGGGGAAAGAAATAATCCTTGTTTGGGGTCCAATTCCTTGGGGA
Y
ACATTACTCCCTTTCTAGGAAGGACAGGTCCCTAGTTTCCTTTGTCTCTTCCCAAAGAGGCACCAAGAACTCTGGCAGAGGGGTCAGAATTACCAGAATT
Celera SNP ID:            hCV9645945
SNP Position Genomic:     73978
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18832):
TGGATTTTTTTTTTTTTTTTTTTTTCCTGAGACGAAGTTAAACTCAGTCACCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCCGCCA
Y
CTGGGTTCGAGCAATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTATAGGCATGCTCCACCATACCAGGCTAATTTTTTGTATTTTTCCTTGCAGTG
Celera SNP ID:            hCV1848954
SNP Position Genomic:     41064
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18833):
CCAGGACTACCCCATGAGGCAGCAGTTATCATCTTCATTTACAGATGGAAAAACTGAGGTTCACAAAGATGAAAGTTCTTTCCTGGTCTTTCTGACTCCA
R
AGCTCTTACCTGTAGTGAGGTCTGCCTATTTCCACACTGCACGTGGGTCTCCCTGAGTGGAGGGAGAGGCAGGGGCCTCCCAGCATCTTACAGAAGAGGA
Celera SNP ID:            hCV905643
SNP Position Genomic:     44477
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18834):
AGGCTGTGATAGAGGAGACCAAAGAGTGTGCCCTTCCTCACCATGGCCCAGGGGAAGGAGAGCAGATCCAGAAGATCTGTGGGCCATGGAAGGAATATCC
Y
TGGTCTTGCACAGGACACAGCATCTGTACTTATTCCATACATGGGTACGGTCCACAAGGTATGGGCATGCTCCACGCTTGTGAGCGATGTCTGTCTGCCT
Celera SNP ID:            hCV1848955
SNP Position Genomic:     34409
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,10)   total(C,5|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18835):
GGACAGAGACTCTCCCATGTGGGCATAGACTTGTGTGCCTGGCATACAGGCTGCCCAGCTGCATGCCACATGCCTGGTGTGAGTGCCTCTGGCAGCAGCT
Y
TTATTCTGGGACAGTGGGAGGAGGGCCCCTTGCCCTTTGTGGAGGTACTCTCAGGCTCCTTTCCCATTTTGGCACCTAGTGAATAGGGAAGGAGAAAGAG
Celera SNP ID:            hCV905644
SNP Position Genomic:     43878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18836):
AGAGAAGTCAGCAAATATGTGCGTAGTGAATTCCAAGCCTTCTGTTCCCAGCTCCTGGGAGGGGCCGCAGTGCCTTGGGGTGTCCTGCCGTGTCTCCATC
R
GGTCCCCTGCCTGGCTGCTCTAACCCTGAGGAATGGCCTCCACTGTGGGCCTGTGGAAACAGGGAGAAGAATCTCTTATCCAGCAGGTCTGAGGGCCACA
Celera SNP ID:            hCV1848956
SNP Position Genomic:     33071
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18837):
GACTCTTCCCCAGGGACTGACTGCCTTGGGGACCAACTGAGCCCAGAAACAACTGTGCCCAGGGACTGACTGCTGACTGTGCCCTGTGCCCTGGGGGACC
R
ATGATGCCCAGGAATCAGCTACATCCAGTCACTAACTGTGTCCATGGAATGACTATGCCCAGGAACAACTGTTCTCAGAGACCCTTTGAGGGCTCACTGT
Celera SNP ID:            hCV905645
SNP Position Genomic:     43264
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;no_pop(A,-|G,-)   ;(A,-|G,-)   Caucasian(G,15|A,61)   African-American(A,30|G,52)   Asians(G,8|A,74)   total(G,75|A,165)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18838):
GAGACCAAAGAGTGTGCCCTTCCTCACCATGGCCCAGGGGAAGGAGAGCAGATCCAGAAGATCTGTGGGCCATGGAAGGAATATCCTTGGTCTTGCACAG
R
ACACAGCATCTGTACTTATTCCATACATGGGTACGGTCCACAAGGTATGGGCATGCTCCACGCTTGTGAGCGATGTCTGTCTGCCTGCCAAAAGAAGCTG
Celera SNP ID:            hCV27913150
SNP Position Genomic:     34423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18839):
GAATGTTTCCCACCCTGAGCTCAGGAGAGCTTGTATCAAGAGAGAGGCGAGTGATACAGGACTAGTGAAGTGTGTGGTGGATTTGAGGAGTGTTTGGTTA
S
GGGCCTGGCAGCAAACAGAATCTACTCCTAATGGTTTCTATGCAGCGACTGTGATGAATGGGCTACCTACAAAGGCCTGGGTGAAGATTTTAGGAAGCAG
Celera SNP ID:            hCV1848957
SNP Position Genomic:     32306
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,7|C,8)      total(G,7|C,8) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18840):
CTAGCGAGGGGGAGAGTGTAAGTAAATTATTAACCTGACAGGATCCAGCCCTTGGACCCTTGGGGGTGTAACAGCTGGAAGGCCCCAGCCTGTGAACCCT
R
GCTTGGCTCACTCTGCAAAGTCCCTCCTACTCAAATTCCCCTCCAAAGGTCCCTGTGGAATCCCCTCGCTGCTTGCCTTCCCCGCACCCTGTCCAGCCCC
Celera SNP ID:            hCV905646
SNP Position Genomic:     42006
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18841):
ACTCATAGCTATGCATCTAGTTCCAGGACTATTGAGTTCTTGTTTTTCTTCTTTTCTAAACCATAAGCTCCGTGAGGGTAGCGGCTACACCTGCTTGATT
Y
GCCCGTGTATTTCCAGGATCTAGTATAGTATACAGCACATAAAGGTGATGGATAAATTTTTTATCGAGTGACTGGATGGAATAATGAATGAATGAATGTA
Celera SNP ID:            hCV1848958
SNP Position Genomic:     31194
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18842):
CCTCCCAAAGTGCTGGGATTACAGGCGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTAGTGGCAGGTGCCTGTAATCCCAGCTACTTAG
R
AGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTAAGCTGACATTGCACCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTG
Celera SNP ID:            hCV26167545
SNP Position Genomic:     79092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:18843):
GTTTATCGTGGTAAATAAAACCGACAGAAACTTTGTCCTCTTGGACAAAGCTTATGTTCTGGTAGGGGAGACATCTAATAAACAAGATAAAGAATGAAAA
S
GTAAAGCATTTAGGGATATGTGCTCAGGGGAAAAATAAAGCAGGGAAGAGGCTAGAAAGTGTCCAGGGAGATTTTGATGGGTTGGTCAGGAGCCTGTCGG
Celera SNP ID:            hCV1848959
SNP Position Genomic:     29340
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,7)   total(G,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18844):
TTTGCTTCAGACACTAGCGAGGGGGAGAGTGTAAGTAAATTATTAACCTGACAGGATCCAGCCCTTGGACCCTTGGGGGTGTAACAGCTGGAAGGCCCCA
K
CCTGTGAACCCTGGCTTGGCTCACTCTGCAAAGTCCCTCCTACTCAAATTCCCCTCCAAAGGTCCCTGTGGAATCCCCTCGCTGCTTGCCTTCCCCGCAC
Celera SNP ID:            hCV905647
SNP Position Genomic:     41993
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18845):
TGGGAAGCTGAGGTGGGAGGATCACTGGAGCTCAGGAGTTCAAGACCAGCCTGGGAAACATAGTCAGATCCCATCTCTACAAAATAATAAAAATAAAAAT
R
GAAACATTGAGAAAAGTTAAGTGAATTACCCAAGTTCACAAAGTAAGGAAGAGGCAGTGTAGGGATCTGAATTCTGATCACCTGACTCTAGAGGCTGTGC
Celera SNP ID:            hCV905648
SNP Position Genomic:     40695
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18846):
AGCACACTGCCTGGCACAAAATTAGCATTGAGTGTTTGTTATTAATATAATAATGGCTGACATATATTGAGTACTGTGTTTGTCATATTCCATGGTGCTA
R
GTGCTTTATGCAGGATATCTAAATGCTCAAAACAATCCTTGCAGTAAGTGTTAGTACCCTCATTTTCAGTTGGGGAGATTGAGGCTTAAGAGAAGTTAAG
Celera SNP ID:            hCV905649
SNP Position Genomic:     40453
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18847):
ACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGGGCGCTTATAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACC
R
GGGGGGTGGAGGCTGCAGTGAGCCGAGATCACACCACTTCACTCCAGCCTGGGCAAAAGAGCAAAACTCCGTCTTGGGAAAAGAAAAGAAAAGAAAACTG
Celera SNP ID:            hCV26167547
SNP Position Genomic:     75520
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18848):
AAAAGATTGATAAATTTGACTATATGAAAATTAAACATTTAAGTACCTTAAAGAACATTATAAGAAAATTTTAAAAGAGGGGTATATACATATGTATGTG
K
ATATATATATATATATATATATATATATATATATGACAACAGTTTAATTTTATTTCTAATGTACAAAGAGCTCTTACAAATCATTAAGAAAAAGATAAAT
Celera SNP ID:            hCV26167548
SNP Position Genomic:     68966
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3|-,8)   total(G,3|-,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18849):
AATGTTTTATAAAGGCACAATATAATTAAAATTCTTGTCTAGGAATAGACAGACAGATCACTGGGACAGACTAGAGTCTAGAAATGGGCCCAGATATTTA
A
GGGAATTTTTGTTTGTTTTTGGAACAGAGTATCACTTTGTTGCCCAGGCTGGAGTTCAGTGGTGTGATCTTGGCTCACTGCAGCCTTGGCTTTTCGGGCT
Celera SNP ID:            hCV26167549
SNP Position Genomic:     68316
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,13)   total(A,1|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18850):
CCTGTGTGGACAGCACCCTACAGCGAACAAACTTTCCCACTTGCCAAAACTCATTCAGGCCTCCTGATAGCCGGGCTGAGATGGGGTTGGAGATCTCCAC
R
CTGCAGGATGGGGCGGGGAGCTGGAATTGGAACTGGGACTGGCTGGAGTGGGTAACACAGGGTGGGGGTGGTGAGTGGCTTAGAGACAGAGCCCCCAGCT
Celera SNP ID:            hCV11861849
SNP Position Genomic:     22981
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18851):
CGGAGCTATGCACTTGGAATTGTCCTTACTGGGCCCAGGTCTCTCCTGCCCCCCCAGACTGGGAGCTGCTTGAGCTCAGTATCTGGGTGTGATTCTTCTG
S
TGCCTTCAGTACCTGGCCCAGGAATGAGTGCAGAGAGTACTTGCTGAATGAGCCGCTAGTGGGGGTAACCATGTGGCACAGCACCTGGCACCTGGCACAC
Celera SNP ID:            hCV1848960
SNP Position Genomic:     29023
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,10)   total(G,10|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18852):
CTTGGGACTGTTGTGAGGACTGATTAATATCCACAGAATACTTAGCACACTGCCTGGCACAAAATTAGCATTGAGTGTTTGTTATTAATATAATAATGGC
Y
GACATATATTGAGTACTGTGTTTGTCATATTCCATGGTGCTAGGTGCTTTATGCAGGATATCTAAATGCTCAAAACAATCCTTGCAGTAAGTGTTAGTAC
Celera SNP ID:            hCV905650
SNP Position Genomic:     40410
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18853):
ATACGTGCTGACAAGACAGGTCAGGAAGCTGTGTGTCAGCTCAGCAGGAGGTGGTGATGGTCCCAGTCAGGGTGGCAGAGTGGGGACACTGAGGATAGCA
S
CTGTTCACAAGGTATTTGGGAAGTGGAATAGATAGGACTTGTTGATTGATTGGCTATGGGGAGTGGAGAAGAGTGAAGATACAAGGACTCTCAGGTTCTG
Celera SNP ID:            hCV8859054
SNP Position Genomic:     63861
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18854):
TAAAGGGTATGCCACGAGGTTGTTGTGAAGGTTCAGTAAGAGAGTGAGCGTGGAGGGTTAAGCATAGCGCTGTCACATAGGCAGTGAGCTGGCCACTGCT
S
TTGCCATTATTATTATAATTATCTTTGCCAATCTAATCGGTGAAAAATGATATCTCATCTTTGTTTTTAACCAATGTGTCTTTTTTTCGACTCCACAGGA
Celera SNP ID:            hCV8859055
SNP Position Genomic:     52952
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18855):
TGGAGCTTCTAGGGTCCCTCCCCCCTCAGTAGAGCAGCTCTGCGGGGGTTGGCCCCAAGTCTCTAAAGTTGGTTTCTAGAGCCTCCCCCATCCAAGCCCA
Y
GGGAAGGGACCAGGGCCTCCTAAAGGGAAATCACATGGGAGGTTGGAACGTGGGGTCTGGGAAGGGCCCTGTTACTCAATCCATCTAGGACACCAATGGC
Celera SNP ID:            hCV1848963
SNP Position Genomic:     27412
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,12)   total(C,12|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18856):
GTATGGATATACCAGTATCTGGATATACCTCACTTTACTTACTCAGTCCCCAGCTGATGGAGATATATGTTTTTCCAATTGTCTTGATCCCTGCAATGAA
Y
ATCTAGGTGCATATATCTTTGCATGTTTCATTGATTCATTCATGCTACAGATGTTTTTTGAGTGTGTTCTGTGTACCAGCCCAATGCCAGGTACATAGGA
Celera SNP ID:            hCV8859056
SNP Position Genomic:     52207
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18857):
CAGATGCAGCTCCAGAGCCACCCAGTCTCCGGGGGCTCTGTAAATTAAAGCCATTGCATGCCCCATTGCATTTTAATCATCAGCCCCCAGCAGTAGCTCC
R
AGTGAGAACCCATGACCTTTTCTCCTTCCCTTTTGAGGAGCCCTCTCCCACCGCTCCTACACTGCTGGTAAAAGGCAGCCGCACTGCCTGCTGGAAGACC
Celera SNP ID:            hCV25929480
SNP Position Genomic:     77747
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,20)   caucasian(G,34)   total(A,4|G,54)
SNP Type:                 INTRON


Context             (SEQ ID NO:18858):
CCCACATTCCAGGACCCAGGTCCTGTGTCTCAGGCCAGAAGATTTTCTATATTGGCTGGAGCTTCTGTGGGATGCAGGCAGTGGATGAGAAGGGAAACGA
Y
AGCAAATAGAGGAAGCACAAGTCTCTGGCCTCAGTGTTGGGTGCACACAAAGCAAATGGGAGAAGGAGGAGAGGGGCTCCCTTCCCCTGCCCCAAGGCCC
Celera SNP ID:            hCV1848964
SNP Position Genomic:     27019
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,18)   total(C,18|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18859):
GTCATCCAGGAAGGGTCTCAGCCCCAAGGCAGTCCCAGACGGAGGACTTGGCAGATGCAAGATCACGTAGATGCTCTCTGGCTCACGGTCAGATATCCTG
R
GCCCAGCCCTGCAGCACTGTCCTCCAGAGGATGCACACCTACCCAGGCCTCCTTACCCTTCCTCACTGGACTTTCTCTCAACACATGTGTTTGGCTTGAG
Celera SNP ID:            hCV905653
SNP Position Genomic:     37983
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(A,-|G,-)   (G,-|A,-)   (A,-|G,-)   Caucasian(G,84)   African-American(A,5|G,77)   total(G,161|A,5)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18860):
GCAGAGGAAGGGAAAGGATAAGTGATGTGAACACAGTGATATTTTGGGAAGATCAACGTAAGAGTGGGATATATATATATATATATATATATATATATAT
G
GATTGGAAAGAGAAATTGGGGGCTGAGACTTTAAAAATTATCATTTATGGATGCTACACATAGTTCATGTATTATCTCACTTAATCCTTAAAAGAGCCTC
Celera SNP ID:            hCV26167550
SNP Position Genomic:     67235
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18861):
GAACTCCTGGGCTCAAGTGATCGATCCTCCTGCCTCAGCCGTCTAAGTACCTGGTACCACAGGCGTGCACCGCCATGCCCATCTGCTCACAACCCTTTAC
R
AGCTCCTGTGACACAAGATAAAAGCCAATTACTTACCATGGCCTTCCAGACCCTTTGAAGGTGATTCACCCTCTTGCTTCCTTACAGATCTTCCCTCCTG
Celera SNP ID:            hCV1848965
SNP Position Genomic:     26155
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,8)   total(G,8|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18862):
TACCCACCTCAGGACTTGTGAGGGCAGAGGAAAACTACCCTAATTAAGAATTTACTATGTACTAAGCCCGGTGCTGTTCACTTTACATGCGTTACGTTGA
Y
TGATTACAGTGTCTCTTGGAGGAAGAGATTATCATGGGAAACTGTTTCAGGAACTGTGGGTTCTACACCTTCCAGGAAGCAGAAGGCTGTTCTGACTTAC
Celera SNP ID:            hCV905654
SNP Position Genomic:     35231
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18863):
GTGAGCAGAGGAAGGGAAAGGATAAGTGATGTGAACACAGTGATATTTTGGGAAGATCAACGTAAGAGTGGGATATATATATATATATATATATATATAT
A
TATGGATTGGAAAGAGAAATTGGGGGCTGAGACTTTAAAAATTATCATTTATGGATGCTACACATAGTTCATGTATTATCTCACTTAATCCTTAAAAGAG
Celera SNP ID:            hCV26167551
SNP Position Genomic:     67231
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,6)   total(A,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18864):
AGACATGGCATCTTCTTTGTGATTCTGGGCAAATCCCTTGGCCTCTCTAGTCTCCTTTCCTCCTATGCAAAGGGAACTGGCTGGCTTCAGTGATCTCTGG
K
ACTCCTTCACACGAATTTTCCCACTGACTCTCCCGCTCTGAGCCCTGAAGCTTCTCTTCAGCCTGTCCCTCCCCTCCCCCCTCCAACTTCTGGGCAGAGG
Celera SNP ID:            hCV905655
SNP Position Genomic:     34963
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18865):
CGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATGATCTGCCTGCCTCGGCCTCCCAAAGTACTGGGATTACAGGGGTGAGCCACTGGTGTCCAGCC
S
CTGCCCCCTTTTAATTTATTTGTTTATTATTTCTTTTTCAGGACAGTGGATACTTTTTTTTTTTTTTTTTAAGATGGAGTCTCATTTTGTTGCCCAGGCT
Celera SNP ID:            hCV8859059
SNP Position Genomic:     39047
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18866):
TGTGAGCAGAGGAAGGGAAAGGATAAGTGATGTGAACACAGTGATATTTTGGGAAGATCAACGTAAGAGTGGGATATATATATATATATATATATATATA
T
ATATGGATTGGAAAGAGAAATTGGGGGCTGAGACTTTAAAAATTATCATTTATGGATGCTACACATAGTTCATGTATTATCTCACTTAATCCTTAAAAGA
Celera SNP ID:            hCV26167552
SNP Position Genomic:     67230
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18867):
AGATTAGACACCCAAGAAGGCCAAACTCTGGCCCCTAACAACAGAACTGGTGGAGAGATGTGAACTTGGAGCAGTTGTCACCTCTGAGACAACTCAGAGG
Y
GGTACAGCTTGAGTGAGCAGAGCCTCCCTGGCCACAGATGCCATGTCCCATCCCCTAGCCATGGACCCCAAGGATAGGGGAGAGAAGAGGCTTACCCTGT
Celera SNP ID:            hCV1848967
SNP Position Genomic:     23743
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18868):
CATACATGGGTACGGTCCACAAGGTATGGGCATGCTCCACGCTTGTGAGCGATGTCTGTCTGCCTGCCAAAAGAAGCTGCTGGATGCATGCAGGGAACTT
Y
TCCCTATCTTCCCAGTGCTGTGCAGTGCTAGGCCTGTGAGAGATCAACCAAAGCCCCAGCTCAGAACTATGGGGAGGAGAGATAGGCAAAGGGCACCTTC
Celera SNP ID:            hCV905656
SNP Position Genomic:     34545
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18869):
ATTTTACAGATAAGGAAGGTTGAGGCTCAGATGACTTAAGGTCAACCCTGCAGGGCATACAGAGCTGGGATTTGAACCTCCATCTGTCTGACCTCTGATG
B
TGTTTTTGGCTATACTTTGCTACCCTGAGCAGTTGTGTATCGAGCTGGGGGATGTAAAGGGAGGAGAAGAAAGAAGATGAAGAGATACCAGCCAGCCTTA
Celera SNP ID:            hCV26167554
SNP Position Genomic:     62339
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,6|G,6|T,6)   total(G,6|C,6|T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18870):
GACTAGGCGGTGAGCTGTGTTGGCTGGAAGTGAAACTGCAGAGGGCCCAAAGGCAAAAGACCCAAATCAGACGGAGATAGAGATGCAGATAGAGCAGAGG
R
ATATGGAGATTGAGGGGGTGAGGGGGGAGTGGGGGAGAGAGAGAGAGAGTCTCAGAAAGGCAAGACAGAGTCAGTGAGAGAGGGAAGATTCAAAGGACTG
Celera SNP ID:            hCV1848969
SNP Position Genomic:     22654
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18871):
CACAGCCACTTTTTCCTGAGAAAGAAACAGAGCTACAGACAGTTTTACTCATTAAATACTTTTTTTCCCCTTAAATCTGTTTTTGTAATTTTTTTTTTTT
T
GCGTGAACGGAAAAGTAAAACGGGTGATATTGAAATAAACAAGGCATTTGTGATGGGAAGGTTAAAGCAGATTGTTGGGGGTGGGGAAGGGGGTTGGAAA
Celera SNP ID:            hCV26167555
SNP Position Genomic:     61900
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18872):
GTTCCCAGCTCCTGGGAGGGGCCGCAGTGCCTTGGGGTGTCCTGCCGTGTCTCCATCGGGTCCCCTGCCTGGCTGCTCTAACCCTGAGGAATGGCCTCCA
Y
TGTGGGCCTGTGGAAACAGGGAGAAGAATCTCTTATCCAGCAGGTCTGAGGGCCACAGGAACATAAGTAACACTGAAGAGTGAGGCTGATCCCTGGGGTT
Celera SNP ID:            hCV905658
SNP Position Genomic:     33114
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18873):
AGAGGAACTTGAAAAGAAGAGAGTGAAATGGACACAGAGAGACAAGGCTAGATAATCAGACACAGAGAGGTGAAAGAATCATAGAGACAGAGAGAGAGGG
M
GAGGGAGAGACAAAGAGCAAACCCACAGAAACAGAGAGAGAGAGAGAGAGAGAGATGGGGGTGGTGTGGGGAAGAGGCTGTGTTCCAGGAGAAAGAAGTC
Celera SNP ID:            hCV26167556
SNP Position Genomic:     55945
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18874):
GAGGAGGGAATCCCTGACCTCCCTCTTCCCCTTCCCTCCAACTTCTGCCGGTGCCTCCCACCAGCTGAACCCAACCAGGGGCACCCAGGCCAGGCAGTTC
Y
CTGGGGTCAGTCTCCTGGGGCACAGCTCAGGGCTGAGAAGGGCAGGGTGTGAATCTGGGCCAGGGGATCAAATGGAGAATAAACAGCATGGGGAGAAAGC
Celera SNP ID:            hCV905659
SNP Position Genomic:     32677
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18875):
ATGTGGAGTTATGGGGAGCTGGTCATGCAGTGGAAAGACCTGGATTTTTATTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTT
T
GAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGATGCCATCTCGGCACACCACAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCA
Celera SNP ID:            hCV26167557
SNP Position Genomic:     55347
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,8)   total(-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18876):
AGGTGATGTGGAGTTATGGGGAGCTGGTCATGCAGTGGAAAGACCTGGATTTTTATTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTT
A
TTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGATGCCATCTCGGCACACCACAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTG
Celera SNP ID:            hCV26167558
SNP Position Genomic:     55342
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,12)   total(A,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18877):
TCTCGAGGTATGGGGTACTGGGGAGAACTGCTCATGTTTCCAGGTGATGTGGAGTTATGGGGAGCTGGTCATGCAGTGGAAAGACCTGGATTTTTATTTT
T
ATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGATGCCATCTCGGC
Celera SNP ID:            hCV26167559
SNP Position Genomic:     55301
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18878):
TCTGTCCCATGGAGCCCCACAGAGTAATTTCTTTTTTTTTTTTTTTTTGGTCCCATGACAGCCTTACAAGAATCTGGAAAAAAAAAAAAAAAAGAATCTG
R
AATTAGATATCCAAGGCCTCCTCTCTTCCAGGAAACATCATTTCAACTCTTCACAACACTAAATTTCAAGTCCCATCCCTAACTTGGTCTCTTCTTGTAT
Celera SNP ID:            hCV15861301
SNP Position Genomic:     36324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18879):
GGAGGTTGGAACGTGGGGTCTGGGAAGGGCCCTGTTACTCAATCCATCTAGGACACCAATGGCTCAAGTCACCTTGGCCCTCCCCAGAGGCAGAAGTGCC
S
ATGTCTAGGGCACATGGGGCTCAGAGCTGAGGATTCAGGGGTGTGTGTGTGTGTGCATGTATGCACGTGTGAATGTATGTGCGTGTGTGTGTGTGTGTGT
Celera SNP ID:            hCV11861854
SNP Position Genomic:     27550
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,11)   total(G,3|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18880):
TGGTCCTCCTCTGTTTCCTCTACCTTCTTCCCATCTCCCAGCCACCTCAGGTACCCAGTATGTGCCACCCAGGAAGACCAGGATCTCCACAGTGGGTGAG
S
TGGGGCAGTTCTGAGAACATGACTGCTGCAGGGTCTTTCCCGTCCTGACTGGGCCCTGCCTAAGCGCAGGCTGTTAGCCTCCTGGGAGCCACCCAGTGAC
Celera SNP ID:            hCV1848971
SNP Position Genomic:     20693
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,9)   total(G,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18881):
TCACAGCACCACATTGAGTTGGGGAAGTCTGGGGAGACAGCTGGTCCTCCTCTGTTTCCTCTACCTTCTTCCCATCTCCCAGCCACCTCAGGTACCCAGT
R
TGTGCCACCCAGGAAGACCAGGATCTCCACAGTGGGTGAGGTGGGGCAGTTCTGAGAACATGACTGCTGCAGGGTCTTTCCCGTCCTGACTGGGCCCTGC
Celera SNP ID:            hCV1848972
SNP Position Genomic:     20652
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18882):
GTTCTCGGGTGGCCTGAAAGTGACAGCCATGGGTAGTGGCTGGCAGCCATAGGTAGTGGCTGGCAGCCATAGAGGGCGTGGTGAGCAGCCTGGAGCCTGT
W
ATTCTAGCGTGATTTGGGCAGCTGGTGTGAGTCGGGGATGTCTGTTAGCATGTGGCAGGGTCCAGCCAAGGGACTGGGGGCAGGTCAGGGCTCCAGGCAC
Celera SNP ID:            hCV1848973
SNP Position Genomic:     18931
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,10)   total(A,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18883):
CTCTCGAGGTATGGGGTACTGGGGAGAACTGCTCATGTTTCCAGGTGATGTGGAGTTATGGGGAGCTGGTCATGCAGTGGAAAGACCTGGATTTTTATTT
T
TATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGATGCCATCTCGG
Celera SNP ID:            hCV26167560
SNP Position Genomic:     55300
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18884):
TTAAATTGGAGGATATTAATCATAGCTCACATATATTGGGTTCTTATAGGTGCCAGCAGTAAGCACTTCTAAGCACTTTACATGCTATCTCATTTCATAC
Y
TGTAGTAGCTAGTATGTAGGAGAATGCATGATGTGTGGCAGGCAGTCAGTAAATCGCTGTTTCTTCAAACTTGGAAGTTCTAGAACTTCAGGTGATGAAT
Celera SNP ID:            hCV1848974
SNP Position Genomic:     18461
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18885):
GTGTGTATTAAGCAGTTACACAGATACTTATCCAATTAGCAGTTGATCTGTAGTACGAAGGAGAAGTACACATAGTACGAAGGAAACGTACAGGCTATGA
S
AGAATAAAACAAGAGAAGCTAACCTGAGCTTGGGAGTCAGGGAGGGCTTCTCTGAGGAGGTGACATTCAGCTTGAAAGATGAGTGGGCAAAAGGCAGAGT
Celera SNP ID:            hCV26167561
SNP Position Genomic:     52552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18886):
GTGAAGGTTAATTCTCTAGCACTCTGAGCCTGCCTTGGGAGGGCAGAGCAGGCTCCTGGAGACCAGAAGAAGCCCTCAGGCAAGGATGCAGCTGCAGGCA
R
TTTGAAGTCAGGCTAGAGTACACTGAAATGGTAGGGCCTGGAGGAATGGGGGTGGAGCGCCAGCACTGTCTGCTACTCATGGAGAGCTTGTGGCATAGGA
Celera SNP ID:            hCV1848975
SNP Position Genomic:     18183
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,8)   total(G,5|A,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18887):
GGCCCCTGCCATCAGGAAAGACAGCAGTTTTTTGCAATGAGCGTGTGTATTAAGCAGTTACACAGATACTTATCCAATTAGCAGTTGATCTGTAGTACGA
R
GGAGAAGTACACATAGTACGAAGGAAACGTACAGGCTATGACAGAATAAAACAAGAGAAGCTAACCTGAGCTTGGGAGTCAGGGAGGGCTTCTCTGAGGA
Celera SNP ID:            hCV26167562
SNP Position Genomic:     52510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18888):
GATCCCAAGATAAGGATTTGAACACATGCAGGAAAGTGATTCCAGGAAATGCTGGTAGGGAGTGGGCCTGTGAGACTGGGAGGGGAGGAAGCCCACAGAG
R
GAGCCTCTTGGAGCAAGTTGCAAGTTACACTATGGGTAACTGGACCACTGAGGATCACTGGGCGCCTGTGTTGAACACACTTCTGAGAGTTACCCCACTT
Celera SNP ID:            hCV1848976
SNP Position Genomic:     17923
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,11)   total(G,3|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18889):
GTTGGGGTAATGATCGTGCTGCTGTACGTCTTGGATTTATCTTAAGGGATAGGGCACCAAACTTTTTTTCTTTTTTTTAAAAATTTATTTGTGACAGGGT
Y
CTGCTCTGTTGCCCAAGCTGGAATGCAGTGGTGCAATCATAGCTCACAGCAGTCTTGAACTCCTGGGCTCAGGGGATCCTCTGACCTTGGCCTCTCGAGT
Celera SNP ID:            hCV26167563
SNP Position Genomic:     50712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18890):
CAGCCCATGCTCCTTTGAAATGCCTGTGGATATGTGCTGCATAGACAGAGGGTAGTGCAGAGAGAGAGGCTCCTTTCTAGTGTGGGGTACAGCCCCCCCC
M
CCCCCCCACTGTGGAAGGCAGACTGCTCCAGAGGACACCTGGTGGGGGCCAGGCCTAGTTCTCTCCCTTCCAGTTCTGGAGCAGAATGCCTGCCCCCTCT
Celera SNP ID:            hCV26167564
SNP Position Genomic:     42878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18891):
GCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTACCTCAGCCTCCCAAGTAGCTGGGATTACAGGC
R
CCCACCACAAGGTCCAGCTAATTTTTTTATTTTTATTTTTAGTAGAGATGGGATTTCACCATGTTGGCCAGTCTGGTCTGGAATTCCTGACCTCAGGTGA
Celera SNP ID:            hCV1848978
SNP Position Genomic:     17084
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18892):
CCAGCCCATGCTCCTTTGAAATGCCTGTGGATATGTGCTGCATAGACAGAGGGTAGTGCAGAGAGAGAGGCTCCTTTCTAGTGTGGGGTACAGCCCCCCC
M
ACCCCCCCACTGTGGAAGGCAGACTGCTCCAGAGGACACCTGGTGGGGGCCAGGCCTAGTTCTCTCCCTTCCAGTTCTGGAGCAGAATGCCTGCCCCCTC
Celera SNP ID:            hCV26167565
SNP Position Genomic:     42877
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,1|C,15)      total(C,15|-,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18893):
CACGATCCCAGCTCACCACAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGCATCACAGGCACCCGCCACCATGCC
M
GGCCAATTTTTTGTATTTTTAGTAGAGGCAGGGTTTCACCACATTGGCCAGGCTGGTCTCCAACTCCTTGCCTCAAGTGATCTGCCCGCCTCGGCCTCCC
Celera SNP ID:            hCV26167566
SNP Position Genomic:     40095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18894):
TGCCTGGCTAATGTTTATATTTTTAGTGGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGATCTCAGGTGATTGATCCACCTGCCTT
R
GCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCGCCGCACCCAGCTAGGTTTTATGTATTTTGGAGGACCCTCATCCAGAGTCTCTTCAGATTTGTCTC
Celera SNP ID:            hCV26167567
SNP Position Genomic:     39356
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18895):
CTGGAGTGCAGTGGCGTCATCTCGGCTCACTGCAGGCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTG
Y
GTGCCACCATGCCCAGCTAATTTTTGTATTTTTTTTTTTTTGAGATGGAGTCTCGCTCGCTCTGTTGCCCAGGCTGGAGTGCAATAGCACGATCTTGGCT
Celera SNP ID:            hCV26167568
SNP Position Genomic:     38719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18896):
ATGTCTCCTCTCTTCTCACCTGCTGAGAGGTCCTTCTGGGCAGGGACTCGGGCAGATTCATTCCTGCCTGCCCCACATTTCCCTAGCCCAGGGCCTGGCC
Y
GTTGCAGTGCTGAAGGATGATTCTGGTAAGAAACAAGGTACTCCAGCTCACATCTTGCAATGATTATGCCTCCCCCACTCTCCCTTCTCCTTGCAGTTCT
Celera SNP ID:            hCV27517644
SNP Position Genomic:     78161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:18897):
GAAGCAGAGAAGAGAGTCATCCAGGAAGGGTCTCAGCCCCAAGGCAGTCCCAGACGGAGGACTTGGCAGATGCAAGATCACGTAGATGCTCTCTGGCTCA
Y
GGTCAGATATCCTGGGCCCAGCCCTGCAGCACTGTCCTCCAGAGGATGCACACCTACCCAGGCCTCCTTACCCTTCCTCACTGGACTTTCTCTCAACACA
Celera SNP ID:            hCV26167569
SNP Position Genomic:     37968
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18898):
GCAGCGCTAGGCCCAAGGCTTTTCTTTTCATATTTTTTCCCACTCTCCTTTTCTGTGGAGTGCAGCTCCCAGCCAGGCCGCCGCCAGTTTCAGAGTCTCC
Y
GGGCCTCCCTCCCCAGTGGGGCCTCTGCCCAGCCCGCCCCCAGGCAGGAGCTGCTTGGGCTTTCCCAGAGCACAGCAGCCTCCTCCAGGCTCTGGAGTGT
Celera SNP ID:            hCV27833998
SNP Position Genomic:     9700
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,31|T,1)   total(C,59|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:18899):
CCTCCTCCAGGCTCTGGAGTGTGACCGAGCGCCTACTCATTTGACACAGGTCACCGAGCCTCCAGCAGATGGGGCCCTCGCTGTGGGGGGTCTCTGAGCC
R
GGGGCTGTGGGGGGCTGGGAGTAGGAGGGAGGCTCTGCAGGGATGGACAGGCTACACAAGCTCCAGCTCCTTATACTCTTTCTGCAAAGCCCCGGGTTAC
Celera SNP ID:            hCV27857378
SNP Position Genomic:     9879
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,24)   caucasian(G,32)   total(A,2|G,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:18900):
ATAGAGGAACTTGAAAAGAAGAGAGTGAAATGGACACAGAGAGACAAGGCTAGATAATCAGACACAGAGAGGTGAAAGAATCATAGAGACAGAGAGAGAG
S
GAGAGGGAGAGACAAAGAGCAAACCCACAGAAACAGAGAGAGAGAGAGAGAGAGAGATGGGGGTGGTGTGGGGAAGAGGCTGTGTTCCAGGAGAAAGAAG
Celera SNP ID:            hCV11861863
SNP Position Genomic:     55943
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18901):
GGAAGGCAGCCCCGGGTCTCCTTTGACAAACACATCATGCTTCCCACCTAAACCACCTCTGTGGGTGGGGAGCTGGGGACTGGTCTATTAGCTTTCTCCC
R
CTGTCCCCCGAGGGTGCATTTGTCTGTTTTGCATTTTTTCCAGGCTGTAGTTAGACAACTCCTGGTCCTGGGGGGAGCGCTGCAAAGAGAAAATGTCAGG
Celera SNP ID:            hCV16107295
SNP Position Genomic:     82530
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,17)      total(G,17|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:18902):
ATAGGTAGTGGCTGGCAGCCATAGAGGGCGTGGTGAGCAGCCTGGAGCCTGTTATTCTAGCGTGATTTGGGCAGCTGGTGTGAGTCGGGGATGTCTGTTA
R
CATGTGGCAGGGTCCAGCCAAGGGACTGGGGGCAGGTCAGGGCTCCAGGCACTGGGGTGAGTGACTGTGGGCCCACAGTTGGCCATGGTCTTGGAGGAGC
Celera SNP ID:            hCV27967581
SNP Position Genomic:     18979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18903):
GGGTGGAGTGCAGTGGCGCAATCTTGGCTCACTTCAACCTCCACCTCCTGGATTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGG
Y
GCCTGCCACCACACCGGCTAATTTTTGTGTTTTTAGTAGAGATAGGATTTTACCACGTTGGCCAGGCTAGTCTCGAACATGTGACCTCAGGTGATCCGCC
Celera SNP ID:            hCV1848980
SNP Position Genomic:     15768
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18904):
TTTTTGCTGATGATAAAAACAATACAAGCTCATTTGTAAACACTAGAAAAGTAGTATACAAAATAGAAAATGGAAGTCCTCCATCAGCCTCTCTGCCTCA
Y
TCCTCATAACTACTCCTGGTGGCTATATCTTTCCAGACCTTTTTTTTGTGTGGACACACAGTACTTAATAATAGTAGCTTAGGTTTATTGAGGGTTTATG
Celera SNP ID:            hCV1848981
SNP Position Genomic:     15242
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18905):
TCCTACACTGCTGGTAAAAGGCAGCCGCACTGCCTGCTGGAAGACCTGCCAGCTTGGGCTTCAGAGCACTTCTGCCTCAGATCCACGACGATCCCTTCTG
W
CATCGTGGGACCTTTCCTGGGATTTGATTTAGGGCGACGCTTCCTCCTGTCTGTGTCCTGAGTCCTGCCTTCCCTGGCTGGTCCTCTTTGCTTAGTCACC
Celera SNP ID:            hCV25928842
SNP Position Genomic:     77902
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,33)   caucasian(T,32)   total(A,1|T,65)
SNP Type:                 UTR 3


Context             (SEQ ID NO:18906):
CCTTTCCTTACGATGATCAGCTCACAGGGCCTCAGCCAGGGCAGACTTTTCAGTTCCTAACTGCCCACCTGTGCCTGTGCACCCAGCTTGTGCCCATGAC
Y
TGGGCTCCTCACCCTCTTCCGGAGGAAAAGGGGCAGAAAAGATTAAATAGAAAATTGCTCAAAATTCAGAGGCCGTGGAACAGATCTGACAGTTCCAATA
Celera SNP ID:            hCV11183884
SNP Position Genomic:     21203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18907):
TAGGACTGTGAGCTCTGGGGCTCCGGGACTGGATCTGCTTCACCTCTATCCCCCAGCACCCAGCTCAATTCCCGGTCTATAGTACTCACCAATAAAGAAT
R
CCTGTTGAATGACCATAGGTTGTGCCCCTGTGATCTCATTTCCTTCTTTTTTAAAAATGAGGGCTTAGAGGGATACTGTAGACACTGGTTTGCAGTCTCA
Celera SNP ID:            hCV1848982
SNP Position Genomic:     14428
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18908):
TAATTCTTTGTGTGTCTGTCTCTCCCATAGGACTGTGAGCTCTGGGGCTCCGGGACTGGATCTGCTTCACCTCTATCCCCCAGCACCCAGCTCAATTCCC
R
GTCTATAGTACTCACCAATAAAGAATGCCTGTTGAATGACCATAGGTTGTGCCCCTGTGATCTCATTTCCTTCTTTTTTAAAAATGAGGGCTTAGAGGGA
Celera SNP ID:            hCV1848983
SNP Position Genomic:     14401
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18909):
GCAGTAAAAGTGCTCAGCACCCACCGTCCCCTTGGCATCATCCATGTAACTTCTACTGGTTTGGGCTCTGTCCCATGGAGCCCCACAGAGTAATTTCTTT
Y
TTTTTTTTTTTTTGGTCCCATGACAGCCTTACAAGAATCTGGAAAAAAAAAAAAAAAAGAATCTGAAATTAGATATCCAAGGCCTCCTCTCTTCCAGGAA
Celera SNP ID:            hCV26167570
SNP Position Genomic:     36258
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18910):
CCAGCACTTTGGGAGGCAGAGGTGGGCGGATCATGAGGTCAGGAGTTTGAGATCAGCTTGGCCAACATAGTGAAACACTATCTTTACTAAAAATACAAAA
R
TTAGCTGTGCATGGTGGCGCACACCTGTAACCCCAGCTACTGGGGAGGCCGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGA
Celera SNP ID:            hCV26167571
SNP Position Genomic:     34036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18911):
TCTGTCTGAGCTCAGGACATGTGTTTGAACCTGGCACAACATCTGTCTGGGCCTGGTACATCATCTTCCTGGCCTGGGGGCAATGTCTGTTTGAGCCCTG
R
ATGTGTGTTTAACTTGGGGACGTCTGCTGGGCCTGGAACAATACCTGTCTGAGCCTGGGGATGGACTTGTCATTGCAGATAAAATCACCCCTGAGCCTCA
Celera SNP ID:            hCV1848986
SNP Position Genomic:     13327
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18912):
CCACCATGTCCGGGACTCTGATGGGTGGGGTGGGTAGGGGCCCGCCCCTTCGATCTGGCCCATAGGCTGGAGGTGGCTGTAGGGGATAGCAGGTGCCAGC
Y
GTGCATCTCTTTCCAACTTCTTGTTCAGTGATGTCACATTGGTTGTTTGAAATTGGTCATGGTGGGAGGATTTACATTACAAAAATCAGCAAATGCTACA
Celera SNP ID:            hCV26167572
SNP Position Genomic:     27961
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18913):
CCCGCATAGGATGAGCTCACCCTTCTGAGCCCTCAAAGCCCCTACGTCTCTCCCTCTAAGCTCAGCCCCTTCAGGTGTCCAGTTCTTCTGTCCTTCCTGT
R
ATCTTTAGAGCCCAAGGCAGAAGAGAGGAGTAGTAGTAGGGCCGTCGCTGCCTTTGGCAGAAGAGAAAGGAGCGATCTAACTTATTTAATCTCAGGTCTT
Celera SNP ID:            hCV1848987
SNP Position Genomic:     11131
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18914):
GGCAGGAGGTGTGGTGGTTAGGGTGCTGGAGCCAGACTGCCTGGTTCACATGCCAGCTCTGCCTGTCAGAAGCTGGGTGACCTTGGGTAATAAGGACAAA
A
TGGGTTAATCTATATCAAAGTACTTAGAACACAAAATGGCCTGTGTTAGCTATTATCATTATTATTATTTTTTTAGTTGTAAGATAACACCTGATCCTCC
Celera SNP ID:            hCV26167573
SNP Position Genomic:     24422
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,9)   total(A,4|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18915):
TTTCCCACTCTCCTTTTCTGTGGAGTGCAGCTCCCAGCCAGGCCGCCGCCAGTTTCAGAGTCTCCCGGGCCTCCCTCCCCAGTGGGGCCTCTGCCCAGCC
Y
GCCCCCAGGCAGGAGCTGCTTGGGCTTTCCCAGAGCACAGCAGCCTCCTCCAGGCTCTGGAGTGTGACCGAGCGCCTACTCATTTGACACAGGTCACCGA
Celera SNP ID:            hCV1848988
SNP Position Genomic:     9735
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,2)   caucasian(C,16|T,4)   total(C,38|T,6)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18916):
CCATCCATAATCCATCCTGCCTGCCTGCCTGCCTGCCTGCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTC
T
CTCCATCCATCCATCCATCCACCCACCCACCCACCCACTGACTGCTTGCCTGATGCAGCCACCAGCTCAGTTATGCTTGTGGAGTAAGTGTGCTGGGAGC
Celera SNP ID:            hCV26167574
SNP Position Genomic:     21548
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18917):
ACCATCCATAATCCATCCTGCCTGCCTGCCTGCCTGCCTGCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTT
C
TCTCCATCCATCCATCCATCCACCCACCCACCCACCCACTGACTGCTTGCCTGATGCAGCCACCAGCTCAGTTATGCTTGTGGAGTAAGTGTGCTGGGAG
Celera SNP ID:            hCV26167575
SNP Position Genomic:     21547
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18918):
GCTTTTCTTTTCATATTTTTTCCCACTCTCCTTTTCTGTGGAGTGCAGCTCCCAGCCAGGCCGCCGCCAGTTTCAGAGTCTCCCGGGCCTCCCTCCCCAG
Y
GGGGCCTCTGCCCAGCCCGCCCCCAGGCAGGAGCTGCTTGGGCTTTCCCAGAGCACAGCAGCCTCCTCCAGGCTCTGGAGTGTGACCGAGCGCCTACTCA
Celera SNP ID:            hCV1848989
SNP Position Genomic:     9717
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,14)   caucasian(C,5|T,11)   total(C,9|T,25)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:18919):
AACCATCCATAATCCATCCTGCCTGCCTGCCTGCCTGCCTGCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCT
T
CTCTCCATCCATCCATCCATCCACCCACCCACCCACCCACTGACTGCTTGCCTGATGCAGCCACCAGCTCAGTTATGCTTGTGGAGTAAGTGTGCTGGGA
Celera SNP ID:            hCV26167576
SNP Position Genomic:     21546
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18920):
CCAACCATCCATAATCCATCCTGCCTGCCTGCCTGCCTGCCTGCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTC
C
TTCTCTCCATCCATCCATCCATCCACCCACCCACCCACCCACTGACTGCTTGCCTGATGCAGCCACCAGCTCAGTTATGCTTGTGGAGTAAGTGTGCTGG
Celera SNP ID:            hCV26167577
SNP Position Genomic:     21544
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18921):
GAAACCATGGCTCCATCTGTCATTCCATTCATCCGTCTATCCATCTATCCAACCATCCATAATCCATCCTGCCTGCCTGCCTGCCTGCCTGCCTTCCTTC
C
TTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCTCTCCATCCATCCATCCATCCACCCACCCACCCACCCACTGACTGCTTG
Celera SNP ID:            hCV26167578
SNP Position Genomic:     21496
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,10)   total(C,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18922):
GGAAACCATGGCTCCATCTGTCATTCCATTCATCCGTCTATCCATCTATCCAACCATCCATAATCCATCCTGCCTGCCTGCCTGCCTGCCTGCCTTCCTT
C
CTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCTCTCCATCCATCCATCCATCCACCCACCCACCCACCCACTGACTGCTT
Celera SNP ID:            hCV26167579
SNP Position Genomic:     21495
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,10)   total(C,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18923):
TTGATTGGCTATGGGGAGTGGAGAAGAGTGAAGATACAAGGACTCTCAGGTTCTGGCTTGGTGATATTCACTGAGATGGGACACACAGGAGGAGAGAGGG
R
TTTTTTGGGAACAAAGATAGCTGAGTTTTAGATCTGGTGAGTTTGAGGTATCAATGGAACAGTGTGTAATGTCTCATTCATTCATTAATTATTTACTGAG
Celera SNP ID:            hCV11861877
SNP Position Genomic:     64007
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18924):
CAGGGAATGGTCACCTTGAGGCAGCCCAGGTCTTTCACCTTTCCCAGGCCTGGGAGGTAGGAGGAAGACTGGGAATTCCGCAGTGAAGTCCATGCTCGTG
Y
CAGCCCTAACCAGGCCTGTGTGATATTGAAGCTTGGGCTTTCAACCTGGAGCTGCCATCATCTCCCTGGGCAAGAGTAACTCTGGTCTAGCCTTCCTAGC
Celera SNP ID:            hCV1848991
SNP Position Genomic:     7609
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18925):
GCGGCAGCGGTTCTACAGTCCTACGCGAGCCCCTGGTACCCGGCCGCGCTCCGGGGTTCCAGAAGGAGAAGATCTCGAGGTGGAGACTGTGGCTCCGGGG
R
AAACGCTGCTGGCAAGGGCGCTAGTTGGGGGTGGACGTTGGGCCCAGGGGTATCTGACCTGCGCCGCTGCAGCCTTCTCGCTCCTTCTCCCAGCTTGAAC
Celera SNP ID:            hCV1848992
SNP Position Genomic:     6580
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18926):
TCTCTAACTTTTCCAAGTTTCGTTTGGTGTGGCCAGGAGGGCAGGGCCCCGCGGGGAGCAGGGGCCGCGCTATGCGGCGGTCGGTCTGCAGCAGGGCAGA
R
GCCCCTTCCCGTCTGGGTGTGTGGGAGCGCAGACCCCTCCGGCGTGGCCGGGAACCAAGCCGGGGCTCGGATGAAACGAAACGAAAAATGAACACTCGAA
Celera SNP ID:            hCV1848993
SNP Position Genomic:     3311
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,7)   caucasian(A,32|G,2)   total(A,57|G,9)
SNP Type:                 UTR 3;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,11)   total(G,2|A,11) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:18927):
TGGAAACCATGGCTCCATCTGTCATTCCATTCATCCGTCTATCCATCTATCCAACCATCCATAATCCATCCTGCCTGCCTGCCTGCCTGCCTGCCTTCCT
T
CCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCTCTCCATCCATCCATCCATCCACCCACCCACCCACCCACTGACTGCT
Celera SNP ID:            hCV26167580
SNP Position Genomic:     21494
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18928):
CTGGAAACCATGGCTCCATCTGTCATTCCATTCATCCGTCTATCCATCTATCCAACCATCCATAATCCATCCTGCCTGCCTGCCTGCCTGCCTGCCTTCC
T
TCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCTCTCCATCCATCCATCCATCCACCCACCCACCCACCCACTGACTGC
Celera SNP ID:            hCV26167581
SNP Position Genomic:     21493
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18929):
AACCTGGAAACCATGGCTCCATCTGTCATTCCATTCATCCGTCTATCCATCTATCCAACCATCCATAATCCATCCTGCCTGCCTGCCTGCCTGCCTGCCT
K
CCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCTCTCCATCCATCCATCCATCCACCCACCCACCCACCCACTGAC
Celera SNP ID:            hCV26167582
SNP Position Genomic:     21490
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18930):
CGCTAACCTGGAAACCATGGCTCCATCTGTCATTCCATTCATCCGTCTATCCATCTATCCAACCATCCATAATCCATCCTGCCTGCCTGCCTGCCTGCCT
K
CCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCTCTCCATCCATCCATCCATCCACCCACCCACCCACCCAC
Celera SNP ID:            hCV26167583
SNP Position Genomic:     21486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18931):
GGTTCAAGCAATTCTCCTACCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCACCACAAGGTCCAGCTAATTTTTTTATTTTTATTTTTAGTAGAGA
Y
GGGATTTCACCATGTTGGCCAGTCTGGTCTGGAATTCCTGACCTCAGGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCAT
Celera SNP ID:            hCV26167584
SNP Position Genomic:     17133
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18932):
GCATGGGCCACCACACCAGCCTACAAATAGTTTGTCCTTACATTTCAACTAATTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCGCAGGCTGGAG
K
GCAGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTACCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCACCA
Celera SNP ID:            hCV26167585
SNP Position Genomic:     16991
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,10)   total(G,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18933):
AAATAAATGATTGATTGAATGGATAACAGCACAAGGATCCGTAGGAGCTGAAGGAGGTTTCTCACTCACCAGGAGGTAGAGGGGTTAAAAAAGACTTCCT
Y
GGTGAGGTGCTGCACAAGCTGGGTCCTAAAGAATGATTAGGAATTAGCCAGGGGAAGAGGGGAGGGAGCAGCACAAAGGCTGGAGGTGGAGGAGGTGCGA
Celera SNP ID:            hCV16051896
SNP Position Genomic:     50256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18934):
TCCCACCCGGGCCTCCCAAAGTGTTGGGAATATAGGCATGGGCCACCACACCAGCCTACAAATAGTTTGTCCTTACATTTCAACTAATTTTTTTTTTTTT
T
GAGACGGAGTCTCGCTCTGTTGCGCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTACCTCA
Celera SNP ID:            hCV26167586
SNP Position Genomic:     16956
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18935):
ACTAAGACACAATTTGGACATGTCACTTTGCACTTGGCTCCTGAGAACCCTTCTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTT
T
GAGACAGAGTCTCACGCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCTATTCTCCTGCCTCA
Celera SNP ID:            hCV26167587
SNP Position Genomic:     13830
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18936):
GTCACAGTGTTCCCACTAAGACACAATTTGGACATGTCACTTTGCACTTGGCTCCTGAGAACCCTTCTATTTATTTATTTATTTATTTATTTATTTATTT
A
TTTATTTATTTTTTGAGACAGAGTCTCACGCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCT
Celera SNP ID:            hCV26167588
SNP Position Genomic:     13816
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18937):
CAGGCATGTGTCTAAATGGGGAGATACACAGAACCCACACATAGGCTGAAATAGGCTGAAGTAGGCACTGCTTTGCTGACACAGAGATACATGAAACCTA
A
CAGGCTCTTGGGGCCACAAACATGGAGACTCTCAGCTGGTGTGCCGAGTCACACACATAGGCATACCATCATACTCACACACAAGAGCACGTGGAGCCAG
Celera SNP ID:            hCV26167589
SNP Position Genomic:     9330
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18938):
GGAAGCCAGGTTCTAAGGGGTTGTCATCATAGATTTCTGTGGTTCCATGAGTCCTGGAAGAGGGGCTCCTTGGCTGCCCCATAGTGGTACTCCTCCCTCA
R
AACCTGTGGCCTAGCTTGTATTGCTGTGTACGGCAGCCAGGCGGACTTGGAATGCTTGAAATGAGCAGTCTGCGAAGGTAAGATGTGAACACACGAATAT
Celera SNP ID:            hCV11861882
SNP Position Genomic:     72006
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18939):
ATGACAAATAGCTAATTAGGGTCAAAAGAAGCACTCTGAACCAATTAGTTGTAGGGTCTATCCCTTTCTCCTGGGAGAAGACTGGGCCTTCCTGCTCCCT
W
CCCAGCACTGACTCCCAAATGCCCACACACTCTGGCATCCTGTCTGGCTGGGGCCCTGACTGTGAAGAGCACTGAAACAGACGTCAGTGCATGGGCCTCA
Celera SNP ID:            hCV1848927
SNP Position Genomic:     75043
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,7)   total(A,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18940):
CTGTGGGGGATCTTGGGGAAGGAAGCTTATTCTTCCAGCCAGGATCAAGCTGATAAATGGGACCATCTCCCCATTCTCTGTTCACACTGGATCAGCCTCC
K
TATTCCTCTCCTTCTCCCTAGCTTAATGCAGCCCAGCTTTGGAGTAGTAATTACCTTCACATGACCCAGTAATCATATTCCCTGGGTGTTGAGCAGAGCA
Celera SNP ID:            hCV16063988
SNP Position Genomic:     12541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18941):
CACCATCTGGCTGTCCAGAGAAAGCATCGTCAGCACTCTGTTGTCTGGAACACTGAGCATGGAGGGGTCTGCCTGTGGGTTCCAACTGCAGTGCCCGAGA
R
CAGAACAAGGAGTTGTGGCTCAGTAGTGGCTTGTTGGGAAGACTTTTAAGGAATATACTCAGTGTGATTCGGCTGCTGGGCCTCTAATGGTGTTTTGATT
Celera SNP ID:            hCV1848928
SNP Position Genomic:     71120
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,8|G,9)      total(G,9|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18942):
GCAGTATGGCTGCCTCTTAGAAGGGGAGGGCTGGGGTGGGCTTTTCCCCAAGGACAGAGCTAGGGATGAAATCTCAGAGGGAGAGAGTGCATCGGCAGGT
K
CAGGAGAAAGCTGGAAACTGAGCCTGGAACACAGCCATGGTGACAAGACGGGTGAAGAAACAGGATGCGTGGTCAGGAAGGCGCGGGGCTACAGGAGCAT
Celera SNP ID:            hCV1848929
SNP Position Genomic:     70177
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18943):
CTCGGGCGACGCAGCCTACCGGGCTGTCTTCGCCGCTCACCGGAGAGGGTCGTCCGGGTGTTTGGTTTTGTTCGAAAGTTTCTGGGCTTTTTTTTTTTTT
T
GTAAAATCCAAAGCAACCGAACAAAAAGAGTCCAGGCCGCGCGGGCGGGCTGCGCGCCCGCGCCCTGCAGCGCGCCGGCGGGGGCCCGGCCCGCGGGGTC
Celera SNP ID:            hCV26167590
SNP Position Genomic:     4117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:18944):
TTTTAATTGAGTTGGGAAAATATGGGCTATTTTATAAATGGCGTTGGGATAATGGGCCAGCCATAGCAACACTCCTTATTGGGGTAAGAACTCTCTGACT
Y
GGTCTAATAAGCTCAAGCCATGAAGACCACATGGCATAAATATGAGTGAATATTTTGATCATCTTAAGGTGGGGAAGATTCTTCTAAGTATGACGTGATA
Celera SNP ID:            hCV16085624
SNP Position Genomic:     68749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18945):
TCTGTGCATTTCTGCCTGTATCTGCAAATGTCTGCTTGTGCACTGTCCATGCAGGTAGGTCCACACTGGTGTGTGTCTGATGACCTCTGTCAGTATCTGC
R
GACATGAGTCTGTGCTTTCTGTTAGCATCTGTGCAAGTGTCATCTACGTCTATGAGCATGTTTGTTCTTTCCAGTGCCTCTATGTGTCTTGTACCTGTAT
Celera SNP ID:            hCV905622
SNP Position Genomic:     76982
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18946):
ATCTCCAGGAATCATCTACTTAAACTATCTTCCTTTACATCCTACAGGATGAGTAGGAGTTATCAGGCAAAGGAAAGCAAAAGATGGAAGAGGGAAAAGA
R
GGCATTCCAGGCAGGAGACATAGTGTGAACAAAGGCATGGGTGGAGGCACGGTGCAGTGAACATTAAGCAGGTTGACATTGAAGATTAAAGACCAATGTG
Celera SNP ID:            hCV1848933
SNP Position Genomic:     63137
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,8)      total(G,6|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18947):
GAAAACCTTTCCTCTTCTTGCACATGTCCATTGTCAAGGGGTCCCTGGTTTTCTAATCTGTAAAATGGAGCTGATGATCTGGGCCGTTGCCACACAGTTG
M
ACAATTGTGAAGTAGATTAATGCTGGGTCCTGGTAATGTGTCCCTGCCCTCAAGGAGCTTACTGTCCAGTGTAGAAGCAAGCACAGAAACAGACACTACA
Celera SNP ID:            hCV11183909
SNP Position Genomic:     49998
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,13)      total(A,1|C,13) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18948):
TTGGCCTCTTGGGGCCTTCAGGGATGAAGGTACAGCAGCTCACGCCACCCCATTCCACACTGGCCTCTGAGGTCAACATGGAAATTCTCAGGCAATGATG
S
TTTCCTGCAATTCATGGCCTGGGACCCACCAATACATCTTCTCCCGCTCTGCTCTCCCGTTTGTCAAGGCCCACCCAGATCCTGCTCCAAGCTCTAGGTG
Celera SNP ID:            hCV905624
SNP Position Genomic:     73790
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18949):
TGGGCAAATGTAAGAATGTTGCAAAGAGGCAAATTTTGGCTCAGTTCAAGGAAGAACTTTGAAAGCAATTGCAGATGTTTAACCCATGAAGGAGGTGGTA
R
AGGAATTTGAGTTCCCAGAGGCCTCAAGCAGAATGTGGACTTAGCAGGAATCCTGCAGAAGGAAGCCAGGTTCTAAGGGGTTGTCATCATAGATTTCTGT
Celera SNP ID:            hCV905625
SNP Position Genomic:     71845
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18950):
TTAAGGCTGACAAAACCCAGGCTTGATGAGGGTCTGGACTAATGTGTGGGCACGGTTGATGAGAATTTTGCTGTTGTAAGCTTTCTGAAGGACAGAGTGG
Y
AAAATAGAAATAGCATACCCTTAATTGCAGCCATCTCATTTATTGGATTTTATTCTAAGGCAATTGTTGCAAAAATGAGCAAAGAGAATATGCACAAGGA
Celera SNP ID:            hCV905626
SNP Position Genomic:     69329
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18951):
CCTCTCCCAGCCCAGAGGAGTCAATTTCTCCAAGTGTCCTGGGCTTCAGTGAGAAAGGCAGTGGAGAAGGGAGCTCTCGTTTATTAAGGGCCCACCAAGT
R
CTACGCCTGTAATATGGGTGAGCTCATTCAGTCCTTATGGCAACCCTGGGTGGTAGGAGCTATTTTACAGATAAGGAAGGTTGAGGCTCAGATGACTTAA
Celera SNP ID:            hCV1848938
SNP Position Genomic:     62177
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18952):
CTAGAGACCTTTGCAGGGTCCTAAGGAGAAAGAAGGTGACTATAATATCCAGAGGACCTTGAATATCAAGACTTGGCATTAGAATCATGAAATGTTAGGA
Y
TAAAAAGATCTCCAGGAATCATCTACTTAAACTATCTTCCTTTACATCCTACAGGATGAGTAGGAGTTATCAGGCAAAGGAAAGCAAAAGATGGAAGAGG
Celera SNP ID:            hCV905627
SNP Position Genomic:     63029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18953):
GGTGTGTTTCTCCAAGGCTTGAATGAGCCGGGCTTGGGGTGTGCGTGTGTGTTTGGTGAGCATTTGCGTGTTTATGCTGGGTATGTTTGTGTGCATGTTC
R
TGTGTCGATGTGTTGTAGGTGTTTGTGCATGTGTTTTTGCCTGCATGTGGGCGTATTTGTATGTTCAGGTGAGTGTACTTACAGCAGCGAGGATGCCATG
Celera SNP ID:            hCV905628
SNP Position Genomic:     57311
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18954):
ATGAGGCTGCCCCTCTCCCAGCCCAGAGGAGTCAATTTCTCCAAGTGTCCTGGGCTTCAGTGAGAAAGGCAGTGGAGAAGGGAGCTCTCGTTTATTAAGG
K
CCCACCAAGTGCTACGCCTGTAATATGGGTGAGCTCATTCAGTCCTTATGGCAACCCTGGGTGGTAGGAGCTATTTTACAGATAAGGAAGGTTGAGGCTC
Celera SNP ID:            hCV1848939
SNP Position Genomic:     62166
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,9)   total(G,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18955):
CCTGCCCTCAAGGAGCTTACTGTCCAGTGTAGAAGCAAGCACAGAAACAGACACTACAATGTGGTAGATGCTGTGATGTGGCCAGCACATAGTAGGTGCT
Y
AATAAATATTTGTTAAATAAATGATTGATTGAATGGATAACAGCACAAGGATCCGTAGGAGCTGAAGGAGGTTTCTCACTCACCAGGAGGTAGAGGGGTT
Celera SNP ID:            hCV28032835
SNP Position Genomic:     50141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18956):
TCTGGAGTGTGACCGAGCGCCTACTCATTTGACACAGGTCACCGAGCCTCCAGCAGATGGGGCCCTCGCTGTGGGGGGTCTCTGAGCCGGGGGCTGTGGG
R
GGCTGGGAGTAGGAGGGAGGCTCTGCAGGGATGGACAGGCTACACAAGCTCCAGCTCCTTATACTCTTTCTGCAAAGCCCCGGGTTACAGACGTGGGACC
Celera SNP ID:            hCV27832000
SNP Position Genomic:     9891
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(A,1|G,27)   total(A,1|G,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:18957):
AAAGATTGATAAATTTGACTATATGAAAATTAAACATTTAAGTACCTTAAAGAACATTATAAGAAAATTTTAAAAGAGGGGTATATACATATGTATGTGT
R
TATATATATATATATATATATATATATATATATGACAACAGTTTAATTTTATTTCTAATGTACAAAGAGCTCTTACAAATCATTAAGAAAAAGATAAATA
Celera SNP ID:            hCV16000346
SNP Position Genomic:     68967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18958):
TTTATGCCCAATTACCCTAAGTCAAGGGAGAAGAAAGTGCTGGTCTCTGAATGTTCTGGAACGGGGAGAGCTCCTGGTTCCCTAGTTCCTACTGGCCAGG
Y
GTATCCATTCCTTTTCCAGCTGTCTCCTTCCCTTCTTAGAGCCCTTTTTCTGGTGGTCAGTGGCTTGCCAGGGCCTGGCCAGGCTGGTTCTCCTATGCTG
Celera SNP ID:            hCV1848941
SNP Position Genomic:     61482
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18959):
GGGGGCCCTGGAGGCAGAGTCCCATGCCATTAGGAGTGCTTGGAGATCCCAGGTGCTCCTGAATGATATTAATGCATCTATATGAATATTAATAGCATGG
Y
CATTAATATTAATGACAATAATAAACAAGTGTGAGGATTATTTTTAAAGAGGGCTGCTGCTCCAGCTGTTGCCTCCCTTCATTAATAAGCTGCTGAGATT
Celera SNP ID:            hCV905630
SNP Position Genomic:     53433
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:18960):
TGAAGGTCATGTGCTATTTTCTGTTTTTCCAGTTCTCTCCCTTTCTTTTCAAGTTATTAGGGGAGGCAGAGTCCTTCTGGAGTTTGACCCTTGGATTCCA
Y
CCAGAGCAGCCTCCAAAATGACACCTTTGAAGGTGGGAAAGACACTGCATATTCTCTGGGTTTTTGTTTGAGGTCTGTCTTGGATTTGTTCTTTATGCCC
Celera SNP ID:            hCV1848942
SNP Position Genomic:     61290
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:18961):
TGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGATGCCATCTCGGCACACCACAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCT
Y
CTGAGTACCTGGGATTACAGGTGTGCACCATCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAA
Celera SNP ID:            hCV11183917
SNP Position Genomic:     55452
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,14)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18962):
AGGGAGGGCTTCTCTGAGGAGGTGACATTCAGCTTGAAAGATGAGTGGGCAAAAGGCAGAGTCAGGATGAAGAGGAAAGCACTGGTGAGCATGGGAGGGG
R
ACAGCAAGAGGGTTTCACTCAGAAGGAACAGTGTTTTTAATTATTAACACACGGGAAATTCCTCAAAATGAAATTGCTGGGTCGGAGGGTAAGCAGATTT
Celera SNP ID:            hCV905631
SNP Position Genomic:     52691
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18963):
GTGGAGAGGAATCTGTGATTTATTGAGCACCAACTGTGTGCTGGATACTTCACACGCATGGTTTTATTTAATCCTCACAAGCTTGTGGATTAAACAAGAC
R
TGACAATCTCCATTTTACTGATGAGAAACTGAGTCTCCGGGAAGTGACTTGCCCAAGGTGGGTGGAGCTGGGATTCAAACCTGGGTCTGTCTGACCCTTT
Celera SNP ID:            hCV1848943
SNP Position Genomic:     60517
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Gene Number:                 60
Celera Gene:                 hCG1785397 - 104000117710481
Gene Symbol:                 BDKRB2
Protein Name:                bradykinin receptor B2;B2R;BK-2;BK2;BKR2;BRB2
Celera Genomic Axis:         GA_x5YUV32W0QP(43475344..43527040)
Chromosome:                  Chr14
OMIM number:                 113503
OMIM Information:            BRADYKININ RECEPTOR B2;BDKRB2


Genomic Sequence (SEQ ID NO:12220):
TCCATCCAGAGGCCACGCTTTCCATTCAAACCAGGACTTGCTTCAAAGGCAGAAAGAAGGCAGCGGCGTTCTAACAGATACCAAGGCAAGAGACCCGGTC
ACATCCTTCCTTACTGGTGTTGTTTCCCTACATTGGCCAACCACACCCACCGAAAAGGGGAGGGCAGGGCCCCAGAGTTCCTGCTCCTTTGAGTCCCCCC
ACTCCCTGTGAGAGGAAGGTAGAGAGTGCTGATGAAACGTGCACATACCAAGAAGTGAAAGGAAAACAGATGAGCTTGTTTTCTGCAGTGTTTCTGCAAG
CTGTGAAATAGGCACAATTCTGGTGGTTTTAAATAAGAGCTAAATGCACTGGTTTTTGTGCTTATAACTGGCATTGAGTGATATCAAGGTGAATGGTAAA
TGCATGCTAATAATTTAACGTTTTAATTTTTCTATACTCTCAAGGTGAATGGTAAATGCATGCTAATAATTTAACGTTTTAATTTTTCTATACTTAGAAC
AACATTAAACAGCAAATTTTAAAAACACCATGACAGGCCAGGAGCAGTGGCTCACTCCTGCAATCCCAGCATTTTGGGAGGCTGAGGGCAGGGAGATCAC
TTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACAGGGTGAAACCTCATCTCTACCAAAAATACAAAAATTAGCTGGGCATGGTGGCACACACTTGTAAT
TCCAGCTACTCGGGAGGCTGAGGCAAGAGATTTGCTTGAACCCGGGAGGTGGAGGTTACAGTGAGCCAAGATCACACCACACCACTGCCCTCCAGCCTGG
GGGAGCAACAGAGTGAGACTTGGTCTCAAAATAACAAAACAACAACAACAACAAAAAAGAACACTTGTCATGACAAGTCAAAAGAGAGACCACAGAAGAA
AGGAAAAAGCCTTATGGCTTAATACCTTTACCAACACTTCTTTCCTGCTTTTTGAGGAATGGGCCCATTTTTCACTTTGTACGGAGTCCCACAAATTCTG
TAGTTGGCCTGCCTGTCATACGTTTCCGTGAATGCTAAGGAAAGGATGGTGGCTGGAGGCGGAGCTGTGCAAGAAGAAACAGCAATACAAAAGGGGGAAA
TTCGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTCGGGAGGCTGAGGAGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCTACCA
CGGAGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCG
CTTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGTGTCACCGCACTCCAGCCTGGGGGACAGAGCGAGACTCCGTCTCAAAAAAAAATAAAGGG
GGGGGCGGAATTCCGCTTACAACAACAGCATACATAATATGATCCTGTTCATGTAAAGTGGGATATATTGAAGTACGGACATATATAACACTATATAATG
AATATATGTAAACACACAGAAACATGGCATCAAATTCTTTTTTTTTTTTTTTTTTTAATTTGAGACACAGTTTCATTCTGTCACTCAGGCTGAAGTGCAG
TGGCGCAATCTCGGCTCACTGCAACATCCGCCTCCTGGGTTCAAGGGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCTCCTGCCACCAC
ACCTGGCTAATTTTGTATTTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACCCCTGACCTCAAGTGATCCACCCGCCTGGACTT
CCAAAGTGCTGGGACTACAGGCGTGAGCCACCGCGCCCAGCTGGCATCAAATTCTTAATCATCTCCAAGCTGTACACTTTTCAGTTGATTTTCACTTTTT
ATCATACACATTAAGTTCAAATAATAGAGAAACAATACATCCATATTATGTATATGATCAGCTGTTTTTTTTTGTTTTTTTTGTTTTTTGAGACAGAGTC
TCACTCTGTTGCCCAGGCGAGACTGCAGTGGTGCAATTTCGGCTTACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGT
AACTGGCATTACAGATGTGTGCCACCATGCCTGGCTCATTTTTGTATTTTTTAGTAGAGACGGGGTTTTGCTATGTTGGCCAGGCTGATCTCGAACTCCT
GACCTCAGATGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGCGAGCCACTGCACCCAGCCATGACCAGCTTTTTTAAAAAGCTGCATT
TTCATTTGGGGAAGGGGAAGACATGCCGATGGAGTCAGACTTGGACTCAGCTCTTGGCTCTGCTGTTTCCACTGTGCAGGATTTAGGCCAAGTTAAGTAA
CTCCTCTCAGCCTCTGATTCTCCATCTGTAAAATGGGGATACTGACTGGTAACCATCTCATCAGGCTGTTGTGAAGGGTCGTGTGCTTACGTAGGGCCTG
CTACAGAGATCACTTGGCAGCGAGTCGCCATGCGGGGCTAGGGCTGGGGGGCTCATGCCTGTGCCAGAGGACAGTGCCCCCACAGGCTGTGCAGGAGGCC
TCTGGGAAGGGAGGCCAGAGGCAGAGAAGGCAGGCCAGAGATGGCACGCATGGGCACATGGGCTGGGAGGCGCATTGGGGACGCAGAGGCTCTCTAGAGT
TCTTAGCTGTGAGTGTTAGTGCCAATCAGGCAAAACTACAGGCTCTGCATGGGTTTTGCCATGAACCCAAATCAGCACTTATCCTCTGACCCTGCTTTCC
AGTTTCCCTGCTGGTCTGTCTGACCTGTGTGTAACTGGTCAGCCTTTTGCAGGGCGGCTGCTGATTCACAGAGGACCAGGGAGTGCCTTTCTGGTCAGCA
CTGTGGCATTCTGGACAAAAGCACAGCCCGCTCCTGGAGGCCGACGAATAGAATAATGGCCTTCCCGGGAGGACCTGTGCCTTACACACAGACATGTGGA
GAGAAAGATCTGGAACATTGGGGTGGAGGGTGGACTTTCATAAACAAACATGTACACACATGTCTACAGCCCGCTTTTATGCTGTTCTGTTTGGCCTGGT
CTTTCCTTCATCCCAGTAAGGTTGGATCTGGGCACTTTTCCCTATAGACTGCTTGTACTCCTTGCAGAGGGCACCTCCTATGTGCCGGCTGATAAATAGC
AATAAGTAAGACGGGGTCCTTGCCTCGTGGTGTTCTCAGACCACCAAGAACAGTTCCGGGGTGTGTTAGAAAACAGGCATGCAAGAGGTGCGGACAAGAC
CAGGGGCTTCAGGAAAGGCCCCCAGGCAGCCTCCCAAGAGAAGAGCAGGCTTGATTCAAGCGAGGGCGAGAAAGGGCATTTCAGGCAGAGATTGCCACAT
CAAAGGCCCCGGGTCAAGTGCAATCCTGCCCCACTCAGGAGTGCGAGGGGGGTCTGTGGGGCTAAAGTACAGAGGGCTGGCCGTGGCTGGGGAGGCTGCA
GTGGCCGGGGAGGAGACAGCAGGAGGAACAGCTTCTTATCGTGCCATGTGAAAGAGCCCTGCTTAGTGGGGCAGGGTTTTGCCAAAATAACTGGATCCCT
CCTGTGGTCCTTGCTGAACGCAGTTGGGCTGACTCGAACCTGGAGGCTTTACAGGGCTGAGCCACCCCCTGCAGACCCCAGCCAAGGAGACTGAGTGGTG
AGGAGTGTGATGAGGCTGCCGCTGCAGGGACTTTGCAGGGGCGTTGAGACAAACCTTCTCATAGCAAAAATGCAGTACAAAAGTGTGCCACTCCAGACAT
AAACTGGGTGCTACTGAGTCCTCAAGGAACACTTTGAAATCCTCCGCCTGGCTCTGCCCATAGGCAGGGGACTGGCCTCAGGGTAAACTCCTCCGAGGCA
CGGGGATGTCTGAGGCATGGGGATGACTGATTCATTCACTTCTGCTTGACAATGCACTGCCTGGCTATGTGGGTATCTGATAAATGAGTGTGTGGGTGGA
TGGATGGAGGGAGGGAGGGAGGGAGGCAGTGAGAGAGGGAGGGATGGACTGATGGATGGACAGACAGACGGATGGATGGATGGACGGATGGACGGACAGA
TGGATGGATGGATGGATGGTTGGATGGATAGACGGATGGACAGACAGACAGGCGAATAAGTAAATGAATGGTTGGATAGGTGGATAGGCAGGTGGGCGGA
TGTGTGGGTAGATACCAGTGTAGATGAATGGAAGAGTGTGTAATTGTTTTATAAGATTAAAATATTCTTTTGATGGCAGGACACAACACAGTGACACTCA
GATAAATGAAAGGTAGAACTTTTGTTTCTTACAGCTCCAAATGAGAGGCTGTCAGGCTGGGCCACACAGGATGTGCAACTGGGGACAGGGTCCAAGCAAG
CTGGAGCTATAGGCGGCAGCTATGTGTGGCACGTAGGGTGGTGTTAACGAGGTTTCCTTGGCTCCCTATGGATTGGCTAACTTAAATAAGTTTGTGAGTT
CCAGATGATGGGAGCTGTCCATTATTGTTTGGTACCTGGCTCCAAGGCCATCAGGGCAGGTGGCTAGTGGCCCAGAGTGTGAGAACCTGGTAAGAGAAAG
GGCCAGAATGTGAACTTAATCAGCTGCTCATGAACTGGCTGGCCTCCAGCCAGGACCTCAAAACTGGTTTAAAGTAGCCTTTTTAAAAAACTATATGACA
GAGATGGATGGAGATGTGTGCAGATGGACAGATGTCTTTTAGAGATTTCTGTCAATGATATTTACAGAAGCATCAACATTGGATTCAGATCCTTGAGGAT
TTTCAACTCATAGATACAGAGCTCTACAATATCTAAGTTGGAAGAGACTTCAGAGGGTCTCTGGACGCTCATGCAGGTCTCAATATGTTGTGGATCTCAG
AGCTCTTCAATATTTTAGTGAAAGCTATAGATGAGGCTCCATAGGGGATAAAGCACAGACACACCTTTTCAGAGGGCTTGTGGACTCTGGGCAGCCTGTC
CATAGACCTCTGTCCCCAACTGGCAAGTCAGGAAACTCCAGATTAAGGAGCCCCAATGTGGTTGAACAGCCAGGTGCACAGATGAGTCAACCACACAGCC
AGGCCAGGGAGGGCCTTCACTCAAGAGCCTACAGCCAGTTCACAGCCAAGCCAGGGCTAGCGCCCAGGCCACCCATAAACTGATCTGAGACTCTGTTTCC
CTGTCTCCATGATGATGGGATCAGGCTTGATTGCTGGTTTGTAGGCTTGTTATGAATCAAGTCACAGGGAAGAGGAGCTGATGGGCTGGGGGGACGTCCT
CTGGCCCTCCTGTCTCTTCCCCAGATCCACTGGGCCCACTCTTATCTGTTCTCTTCTGAAGGAAGGGTTTTAAGGCTTCAAAAAAAAATGTTTTGAAAGT
CCCTGCCCTTTCCAGCTCCTACCGTCTCAGCCCTGGGAGTGTAAAGTGCTGCAGATAGTTAGTAAGTCTTTGAGCAAAACTGAGAAAGCCAGCCTGAGCC
TTGACATGGGAGAAACCTCCGCCATACATCTCCGAAGAAACGGCCGCGTGTCTCAGGGGAGCGCAAACACCCGCACCCAGGAAACAGGACAGCTTCTGCC
ACTGTCGCCCTTGGGAGCCGTACGTGGCATACAAAGAAATCCCAGGACTCCGCCTGCCCACCTGGCCACCCTCTGTTTACACCTTCCGCGTAAACGCSCA
CTGTTTACATCCAAAACTCAGACACAAAATAACCACCTCAAGAAGATAAATAATGATAAGAAATAAATGTTACGCGAGGCAAATTTATTCACATGGGGCT
TCCCAGGCCACTTTGTGGTCAGCCGGGAGGGACGTTTTTGCCGTCCCACGACTCCAACGGGCAGCCGGGCTACGCAAACATGGAAATCTTCCAAGAGCCT
CCCTGGCCCCCAGGGCTCAGAGGGTGGCAGAGCGGAGAGCGAAGGTGGCCGCAGCCTTCCCGGCCCCACAGCCAGCCTGGCTCCAGCTGGGCAGGAGTGC
AGAGCTCAGCTGGAGGCGGAGGGGGAAGTGCYCAGGAGGCTGATGACATCAYTACCCAGCCCTTGAAAGATGAGCTGTTCCCGCCGCCACTCCAGCTCTG
GCTTCTGGGCTCCGAGGAGGGGTGGGGACGGTGGKGACGGTGGGGACATCAGGCTGCCCCGCAGTACCAGGGAGCGACTGAAGTGCCCATGCCGCTTGCT
CCGGAGAAGGTGGGTGCCGGGCAGGGGCTGCTCCAGCCGCCTCACCTCTGCTGGGAGGACAAACTGTCCCAGCACAGAGGGAGGGAGGGAGGGCAGGCAG
CGGGGAGAAGTTTCCCTGTGGTCGTGGGGAGTTGGGAAAAGTTCCCTTCCTTCCGGAGGGGAGGTCTGACAGGCGATGGGGAGAAGGGTTCCCAGCAGGA
GGAATCGCCCTGTTTGTCTGTTGTAGGTTTCTCTTCTCTGAATCAAGGTGACAGACAGGCTTGTGTGTGTCCAGTGTGTGAGGGATTTCGTGATTGGATT
TTCACATACTTTGAGTGGACACCTTGGAGTAAGGCAGCGAGGTGTGTGTGGTGCAGCAGGGACGGGTGCTGGGTGGAGGCTCCAGAACCTGGCTTTTCAC
CCACAGCTGTGCCACTCCTTGGCCCTGTGTGACCCTGGACAAGCTACTCAACCTCTCTGAGCCTCAGTTTCTCTGTCTGCAAAGCAGCCAGCTCGCTGGC
TCCCTGGGGGTGGCAGGGTTAAATCAGAAGCAGGCGGGGGTGGGGGGGTTTGTGAATGTTGGCTGATGCGCCTCCAGGAGGCAGGTGGTAGTGACTACCT
CAGATGGGCTTAGAGACCCTCTTCCCACGGTCCTGGCTGACCAGGGCAGGGGGATAGGATGGTGCAGGGGTTCCAAGCACCGGCTTTGCATCCGGCCCAG
GTTGCAGCTCCAGCCCTGCTCTCACCCTGTGGGTGACGTTTTTGGGCGAGTTATTTTGTCCTGTCTCCTGAGCTATAAAGAAGACCTGGAAGTTCCTCTT
TATGCAAAGATAGAGGTAGGCTCTTGCCTGTGAAGCACCACGTRTGTCATAGGCACTAAATAAATGGCAGCCGTGATTCGAGTTGCTGAGAGTAGGTCGT
TTCCGCAGCCTGGGTGGAGGTGAACAGCAGGTGTTGCTGTTCCAGGCAGGTCAGAATGTGCCTCACTGAGTCACAGGCCGCCTGTGGCTCCCCAGCCTAC
AGGAAGTGGGAGCCCTGGCCTGGGTGTGGGGTGATGGGGGCCTCCCTGGCCAACCCCRCCCCTAATTCCATTTCTGAGTTGGAGAAGGGCTTAGGTGGTG
GGGGAACAGGTAAGCAACCCCAGAGGACATTGCAAAGAGGCCCTGCCCGAGGTTCTCTGGAGAAAAAACTGTGCTGCGTCCTTCGGGCCCTGGCAGCAGC
AAGAGACATTCCACAGTTGTGAGCCCCACAAGCTTGGAGGAAGCATTTGCTGTTTCCCCTGCTTGGGGTGAGAGCAGGGGACAGCCAAGAGAAGGCGTCT
TTGGATGAAAAAGAGGAAGCATGCGTGCTGTCCCCACAGGCAGCACCCCAGGCCTCATCCCAGCTCTCCCTGCAACCCTGCACTCCAAGCCTCTCACTGC
ACTGATGAGGAAACTGAGTCTCAGAGGGGGAACATGACCTCAGCCAGCCCTTCGCTCAGTGTCCAGGGAAATGCCTCAATCTCTTTGGGATTCCCTCCCT
TGCAAACGGGGAGGTTCCCATGGTTGGGCCTGCATGATGGATCTGAGGACTTTGAAAGTGGTATTTGCCTGCCGGTGGGACCCAACCTGGAAATATTAGG
TTGGTGCAAAAGTCATCTCGGTTCTTGCCATTAGAAGTAATGCCAAAAACCGCAATGACTTTTGCACCAACCGAATAGCTGTGCCACGTGGTTTTTGCTA
ACACAGTGACTGGCTCAGTAACAAGTTTGGTGGCTCCAGAGGTAACATTAGGGCGGCCTCCTCACCTGTGCTGCTTGTGGTCAGGGAGGGGCCCACCTGG
GCGCGGCGGGGGGAGCCCTGCAGATTTGCCCAGTGTCATAGCCTGTTTGAGCTGCTATAAGAAATACTTTAGACTGGGTAATTTATCAAAAAACAGACAT
TTATTGCTCTCGGTGCTGGAGGCTGGGAAGCCCGAGATCAAGGCACTGGCAGATTGGGTGTCTGGTGAGGACCTAKTCGTCATAGATGGCACCTTCTATG
CATCCTCATATGGTGGAAGGGTGAACACGCTCTCCCAGGCCTCCTTTAAAGACCACCAATCCCATTCACAAGGAGGGGGACCTCATGATCTAATCTCCCC
CCAGAAGTCTCACCTTTTAATRTCACCAGCTTGGAGATTAAGTCTCAACAGGTGAATTTTGGAGGGACACAGGCATTTGGATCATAGCACCGGGGGACTC
TGGTTTTCAGAATGAAAGTAGGGGCCTTGTCTATCCGCTCAAGCTGCCTCCTCTGCACTGAAAACGATGCCTAGCCCAACATGGATGGATCAGTGTTTGC
TGAAATGCTGAATGGTTAAATGAATAAATAAATATTGCTCATATAGCAGGCAATAAAAAAGCATACAGAACCTATCACTAAGTGAATGAAGCTACTCTGA
AAAGGCATATGCTGTATGATTTCAACTATATGTGACATTCTGGAAAAAGGCAAAACTATGAAGACAGTAAAAAATAAAAAAATCAGTGGTTGCCAGGAAT
TAGGGGAGGGAGGAGAGAATGGGAGGAGCCCAGAGACTTTTAGGGCAGTGAAACTTCTGTATGACACTGTAATGGTAGAGGCATGTCATTGTGCGTTTGT
GCAAACCCACAGAATGTCCATCACCAAGAGTGAACCCTGATGAAAACTATGGACTTTGGGTGATGATGATGTGTCAACGCAGGTTCATCAATTACAACAA
ATTGACTGCTCTTGTGGGGGATGTCAGTAACGGGGGAGGCTACGTATGTGTAGGCACAGGGGATATATGGTAAGTCTCCGTACTTTCTGCTCAATTTTGC
TGTGAATCTAAAACTGCTCTTTAAAAAAAAAAAGGCACACAGAGCAGATCTGCATGTTGTTTTGAGGATTCAGAAGGCACTTAGGACAATTACGGTACCT
CAGGGTCATGAGTCAAACAATCAGACCTGCCAAGACTTGACACCCCAAATGCATCACTTCTGACATCCATTGGGTCCAGGAATCCCCTGCCTCATGAATA
TCCATCTTAGTGTGCATGCCTCCAAGAATGGGGAGCTCACTACTTTGCGAGGCAGCGCATTCCATCTTAGGAGAGTTCTACTGTTTAAAAGCTCTTCCTC
CAACTGCCCCCACTGAGCAATGGGTCCACTTTCATTTCCTTGGGGTTTGTACCATTCTAGTCCTATTGCTTCTCTCTGAGCTAAATATCCACAGCTACTA
AATCTGCCCCCCTTGAAAAGTGTTAAATCCTCAATTCCTCCTCTGAGCTCCTCTGGTTTTCCTGGGGACCTAAGGCTCTGCTTCCCCAAAACACCCACTC
CAGGGTTGTTTTCTAGAACAAACGTAAGGCATGAAGTATTTCTTTGACTCTTTCATCACAGTGGGTTCTGGAAGATTCTGGAGGCTGGAAACATATGTGC
CTCCCCCTCCCCACACACATTCCAAAAAAGTCATCACAGCAGAAAGCACGGTGGAACAAACAGCTCTCGGTTCGAATTCACCGTCACTTACTGGCCAGGA
AAGTTATCTGAGCCTCAGTTTCTTCTCCTGTACAATGGGGAGCATCATTCCTATTTTTGAGGACCACTAGGAGGCTTACCTCTGTTTGTGCTGATGTAGT
GAAAGGGGATGTCAGGCACACTGCAGGAGCTCAGGTACCAGACGGACTGTCTATGGAGGCAGGAGTGAGGGCCTGGGGCGGTCACAGAGGTTGCATTTGC
TTTGCAGTAAGGCCATGGCCGCTTAAGGGTGTCYAGAAAAAAGCCCTGTCCGACATGCACACACTCCTGTGTCCAGGCAATGAGCCTGTGGGCACTGACA
GCAAGAGTCCTTCTCACGCTTCTCTTCAGGGCTCAAACTTTAGATTTACTCCGGCCTGTCCCATCCCATTCACTGCCAACCCCTCTGAGCCTCTCTGATC
TGTGCCACCGGTGAAGGGCAGTCGTGGGGCACAGAGAAGTGGCCCAGCTGAGTGACATCTGGAAATGAGCAGTGCCTGAGGGGACGCCCGTGGGGTGTTG
TGACCTGTACAGTGCCAGGCTCCAGCACAGCCCCGTCGCTTCTGTGGTTCTTATCATGGTCATGAGGTCGCTTCTCCTCTTCCCTGCGGGTTTCCTAAGT
GGTCACACTCCAGTGGCAGGGTGGTCTGCCGGAGAAAGACCAAAATTTGTCATACTTTAGAATCACCTGGAGACTGGTCACCCACGCAGGTGCGGGGGTC
CTGCTCTGGGGACTGTGATTTGAAGTCTGGGTACTATTCACTGAAATGACAGACTGCGGCAAATCTCAATCAATCAAGGTTCATCGAGTTGATAAACTTC
AATTGACATTTATCGAGAGTTTGAGGGTGCACCTGGGAAAAACATGAGCCACAGAAAATGTGTGTGGCCTATGCTCTCCGAAGAGTCATGAGACTTAGTG
TTGTAAATCAAAGAGAAACTGACTGAAGCAGGTCTCAATTATTTTTGAAGTTTATTTTGCCAAGATTAAGGATGCACCCAGGAAAGAGGGACACGAAATC
ACAGGAAACATCTCTGGCCCATGCTTCTTTCAAAGAAGGGTCTTCACTATTCAAAGGGAAAAAAGCAGGCAGTAGGGGAAAGAAGGAAAAATCGGGGGAA
GGTGGCCAAAAGAGGCAAGCAGTTGCACCCCTTTGAGCCTTTTCGTTAACTTCACTGAATGCACATTTTTCATGTGAAAGAAGCAGGTGGAGGAATCATC
AATTCCGCATTCACCTGGTGCTCAGTCAATCTGCATTTTTATATAAGATAAAATAATCATAGGGCTGGGCACGGTAGCTCACAACTGTAATCCCAGCAGC
TTGGGAGGCCAAGTTGTGTGGATCACCTGAGGTCAAGAGTTCGAGACCAGCCTGTCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAACTAGC
CAGGCACGGTGGTGCATGCCTGTAGTCCTAGCTACTTGGGAAGCTGAGGCAGGAGAATCATTTGAACTCAGGAGGCAGAGGTTGCAGGGAGCTGAGATCA
CACCACTGCACTCCAGGCTGGGTGACAGAGCAAGACTCTATCTCAAAATAATAATAATAATAATAATAATMATMATCATCATCATCATCATAGCATATAG
GAAGCTGTCAGCTATGCACTCGTCTCAGGTGAGCAGAGGGATGACTTTGGGTTCTATCCTTTGTTCCATACCTGTGAAGCTAAGCTGTTAATTTATATCA
TGAGGGTGAAATACAACAGAGCTGCTTGAAGGCAAAGATCCTGGGGCCCACAAGGAATTTCACTGTGAGCAAAATGTGAGGGAAGTAAATAGTTATCCAT
TTAGACACAAAACGGGAGGCGGGTTGCATGACCCAGCTCCCAGCTAGACTTTTCCCTTTGGCTTAGTGMGTTTGGGGTCTGGGGATTTTAATTTTATTTT
TCTTTCACAGTATTTACACATGTCCTTGAAGTGGAGAAAGCATGTAGGAAGAGGAGGTTAGGCAGAAGGAGGCCTGATCTCATCTTGCCTTTGTCTTGCT
TTTRTGCTGTACCTGGGGAGATCAGCACCATCAGCGTGACTCTAACAGACTTGAGTGTGAGGAGCTAGGCTTGGATTGCAGACCTCAAGTTACAATTGAT
GTGTCCTTGTTTTGTGGTAAGATCCACATCTTGAAAGGTTTCACCCAGCAAAGAACAATTTGTGGGGGCAGTCATGGGGAGATATCCGAGGCCTTTTCCT
TTCTGTGGGGGTCTGGCTAATGTCTAAGGTTGTGGAGTAACAGCTGTCATTAGGAATAAGGATGACAATGTTGGCTGACTCAGTCTCCAGGCTTAACTTT
CCCTTTGGCATAAAGAGTTTGGGGGTCCCAAGATTTCTGTTTTCCTTTACAGTACTCAAGGACTTGCTAATATCTCAGGGGATTTCAGCCACACTTTGAA
ACAAGCTACCTTAGCAAATGGTCTGTCCTGGACCCAAAAGCCACTCTCCTCAGGCCCTTCCTCCTAGTCCCACCAGCCAAAAAACTTGGGGACCCCAAAC
CTGTTCTTCACTCTCTGGCACCTGTGCTCATGTGCCTGCTGCCTCAGGAAAGGACAGAAACCCTCCCCGATCCAAGTTATTAGCAAACTGCCCATCTCCA
CAAAAATTTAAATGGACAGATTGTTAAATGCACACAGCTCACAGCCAGCTCCYTTCAAGGTAGATTTGGGCCCAAACATTTCGGGAAGCATCAGGCTGTG
CCCCGCCATCCCTACCAAACAGGAATCCTCTCGAGGGAAAAGACTGGGCCTTTCCCTCAGCCCCTAGCACCCACTCATGCTTGGCACCTGCTGTGCTCTA
AGAGTGCAGGGGTCACTCCCTGACCACAGAGGGAGGCTCTCTGGGGTTCTCCCGGAGCCTCGGAGATTGCACCTTGTGCATGCGCTGCTGCACCTGGGGT
ACATCACCCCCACTCTGGAGCCCACTGGCCRGTTAGCAAAGTGAGAGGTGAGAGAAGGACCTCTTGGTCTTCTTTGAACAGAAAGATCCAGAAAGCAATG
GCTAGAACACAAGAACAGGTCAGGGGAGGCAGGAGAGGGTCTGCACACCTGCTACAGGTGTGCTCACACGTGGGCCAGGGCCTGCAGATGAGGGATCTGT
GCTGATCATTTGTGATAGCCAAAAGTAGWGAAAACCTGGGGGGACTCCTCAAATGAACTGTAGCACATTGGGGAGATGGACTCTGTGAAGATGATTCCTC
TCTCCACCCACTTCCCTTCTCCCTCCTCCTCCCGCTCCTCCTTTTTCGGAAGCCAGGCACAGGGATTGAATCCCACCCCATTCCTCCCCTGCTGTGTGAC
CTAGGGCAAGGGATGTGGTCTCTGGGATCCTTCGGTTCCTTCAGCTATAAATAGTAGTAGAATTGCAAACTACCTACGAAAACTGGGAACTCCCTGCGAA
GGCCGGTGCATTACAGGGCAGTCCTACTCTGAAATACTGTGAGGCTATTGAAAAGCAAGGTGGGTCGACAGATTGTTAAATGCAAAGAGGTGAGGACACA
GCCGGCGGTGCATTTAGGGTGCTTCTGCAGGCGTCCTTATACRTGGATATGTGCACATCTGCTCCTGAAAGCTCAGAAGATGTCTGGAAAGCAACAGGAG
ACACCAGTGAGCCTGGCTGTCTCTTGAGGCAACAGGCAGGGACAGAATCTGGAGGGAGACCTACCCCTCACTGTATTCTTTTTCCCACTCTGAAATGTTA
CCATGAGGATGCATATCTCTTTGCAAAAATTTAAATATAAAAAGCAAAACAAACTTGAATAGAAATAAACTACTTGAAAATTTTAGAAAACACTGTTACA
TCAAAGAGACAGATCATCAAAACTGAAATTATAGATATTTGAGAAACAACTAACTATAAGAACACTGCTTACCAAACTTATGGGATGCAGCCAAAGCCAT
AGTCAGGGGATGAGTCATGCCTTTAAATTTTTAAATTATTAAACCAAAAAGATTGCAAAAAAAACTGTTCAATTCAATAAACTAGATAATAATGATCCAA
AAAAGTAGAAGAAAGAAAAGAATTACAAAAACAAAATGACAAGTTAGAAAGGTAAAAAGCATTAATGTCAGTAGGCCATCTAAGGATGGCTCTTTGAAGA
GCAGACAGGAGAAGGGCAATCCCAGGAAGTGCTATGTGCTATGCAGAGAATTAGAATAAGTTGATGGCAGAGATCAGTGGGTGGCGGCTCGCTTGGGTGG
TAAAGAGTAGCCTGCAGCCAAAGTTGGGCACAGCAGTGCAGTCTTCACTGGGGGAATGCCTGGGAARCAAGATTTGCCTGGGTAGGAGTTTCCATCAGCA
CCCCCAGAAAGGTCTCCTTTCTACCCTGGCCCCCAGTTCTTTGATGGGTTTTGCTGATGCTCCTGTGTCTCTGAACAGCAGGCGCCTCACCTATAGAAAG
GTAGGATAGCAGGAGTTAAYGCCCCCTCCCCCATTCCATGGCCCCTGCCTGGGATTCTACCATCTCTGCTTCATATGCTTTATAGGAGTTCGGTCTGAGC
CCACAACCCAAACAGGCTCACAGATGTGCTAGCTATTTCGCCACCAGTATTTTTTTAATAGTCAATATTTAGAAATTGGCACCAACTGGCCCGATTGTTC
AACAGTCCTGGGTTAGGTTACTAGGCCAATTACTTGCTGAGTAACCCAGGACAGGTCACTGACCTCTCCGAACCTCTCCTTTCTCACCTGTGTGATAAAG
ACTACTGCTGTGCCAACACAATAGGACTGTGTATGAAAGTACCCAGACTGTGCCTAGACTCAGGAAGCTGGTTTATTCCTTCCTCCCCTAACCACTTACT
GAGAGACTGCTCAGGGCTCCCCTCAGCTCAGAGATCTTTCCCCACAAGGAGCTGAGAGCCTGGTGGGAGAGACAGGCAGAGACCCAAGTGGTTCTAACAC
AGCTCTCTGAATCTGTAACCCCAAGTCCCATCCCCAGAGGACACTGGGACAGTCACACTGATGGTTTGTCCCTAAGCCTCCAGCATCAGGAGCCATGTGG
CAGGATCTCCACTCTTCTTCTTCCTGGGCCTCTGTCTGGACCGACCCAAACACACACACACACACACACACACACAYGTGTACACACACAAGTTGCTTCT
TTGCTGCCTGCATGTCCTCACACCAGCTTATGACACACCTACAATGTTTGATGTGTCATTGTGGGCAGGTTTCAAGTTGGAGGACCTAGACCTAGGTAAA
GTAGAGGGTCTCCCTAAGTAAGGGAGGGTGCACAGTGGAGAGAAAGGGTAGGGGAGACTGCCCAGTGCCATTGACATATGCCTGAGCCCCAGGGCACCCT
TGGCCCCCCAAAACAATCACAAGTATCCCCCCCGACAAACCTGCCAAGTAGGCATTGTGTCTCCACTTGACAGTTGAGGAAATGGTCCCTAGAGGGGAGA
CAGAGCTAGCTAGAGACTGGGCTGGCCCTGGAGCCTGGCCTGGGTCTTCCCATCGCATCCTGCCTCCSTACATAAGCAAAGGTCGAGAGGTGGGAACTCC
CAAAGATGCTCAGGCAGGGCCAGGGGAGACCAGTGGGGCAGGGAGGGGACAGGAGGGGAAGGAGGAGCTGGGGCTGGAGAGATGGGTAGGAGCATGAGTC
CCTTGCCTGGGCCTCCCCATGGTGGGCGGTGATCCAAAAGCCCCAGTCAGAGCCCTCTGCCCTGTGACGGGGGCACCCTGCATGTCCCCTCACTCCCTGC
CCTCCAGTCCCCGCCAGTCCTCATGTTTTCCATGAGGATGAGTACAGCCGCAGGGACTTTCCCTGCAAGTGGTCTGGGCCRTATCTTCCGGGAGTCTGTT
TGGACTGTGGTGTCTGTGGCTGAGGGGGTGGAGGTGAGGGCACCCAGGCCCATCACTTGACAGAACAATCTGTGGATTTGGGGGAAAGAGGAGGCGACTG
TCATTCCTGAGAGAGGACGGGAACCAACAGGAAGGATTCCTGAGTGCCAGGGATGACCACACTGGATCCTCACAACAGCCCTCCTGCCGGGGACAATGCT
CCTTATCCCACAAGCGGGGACCTGGGCTCTGACAGGAGGCCACACACTTACAGTCCCTCCCTTAGTGACCGGCAGAGCTGGGATTTGAACACCCCTGGTG
AGACTCCCTYGTCCAGACCCCTTCGTTGTACAGCAGGTTTGCCTCACATGCCAGAGTCGGGGTGGCCTCAGGGCACAGCCAGGAGATGTCCCCAAATCCM
GAAATGTGGTTTGAGTCCCAGTCCCTCATCTCTCCAGCCTCCAAGCCCTCACCTATGCAATGGTGCCTTGCCCGGCTCACAGGTTATGAAAAGGGGTGAG
ACGAGAYAGTGTCCCCTAAATACATCTGACAGCACTTTTGAATGGAAAAGAGAAAAAGAAAATACTATAAGCATCCAGATTGACTGGAGGTTGGGGAGTT
GGTGGGGGCGGGGACAGGCAATCCATAAAGCAAGAAAAATCAGGCTGGGTTCAGGCTTTTCTGCAGCAGCGAATGCATCAGAGCTGCCAGGGGGGCAGCT
GTAGACCTAAGAGAGTTCCTTTAAGCACAAATTGGCTGATTATCTTTTTTASGTAAATAAACCCATAATTCATTCCAAACACTTGGCTTATTTAAATATT
TTTATTGCCAAAGGAATATATGTTCTTCACAGAAAACTTGGATACCATGACAAACAGTAAAGAAAACCCAAAAGCAACCTATGATCCCATGCTCAAAGAC
AACCAGCGCCAGTAATAATTTGGTATTTTGCCTTCTCAACTTTTGAACTTTGTTGTATGTACAATTTGGTTACCCAGCTTTTTGTTCCCCTAACRTGTTA
TCAGAAACATTCTCTCATTTTTGGTGAACTCTTAGAAGCATCCTTTTTTCATGTCTGCTTGACATTTGTTGAATGGATATAAGATCATGTATTTAACCAA
CTGCCTGGTCCTAAACATTTAGGTTGTTTCCTGTGACCCTTCTTCTGCATGATGAGGAACATCTCTGTGCATAAAGCTTTTCCTGTCCTTTTGATTATTT
TCAAAAATGCCAAACAAAAAAAAAAAGGGAGGGGGTTGAAGGTTCTGGGTTTTCTTCACTGAATTATCCAAATATTAAATGATCTAGAGACAGGTTTGGG
AGCCACTAAACCCTCTCCTCCTGTCTGACCCTATTCAGAGAAGACATTGGAAGCTGCCATCTGCTTTCCTCTCACAGTCTGTAAGTGGCTCATTAAATAC
TTGCAAACTAGATTATTTTTATGTTGTCTTGGCTACAGGAGTTTCTGCAGGAATCAGAAACAGGAAGAAAAGGCAGGTCCTTGGAGACAGAGGAGCTGGC
ATCTCATCAGATGCAATTTCTTATTAATAGTCATCCCTAACATTGATTCGGCATCTACTAATAATCAATCCCTTCTTACAGATAAGGAAACTGAGTAGCA
ATAATCTATCCCATCTTACAGATAAGGAAACTGASACTCAGAGAGGTTAAGGGCACTGCAGTAAGCGCAGACACAGAGCTATGACTCCCGTTCTCCCTGT
GTCAGCCCCTGCGCAGTGYGAGTGGGAGGTGAGCCACTGTTGCGTGCCCTCTGCCAGACAYAGGCCTGCAGGTCAGACTCACAGGRGCCAAGCAGAGCAT
CTGGGAGGATTTTGTTTCTGGCTCCAAAAATGAAATACCAAGGAAAGTAGGCAAGCTCATGCATGTCAGAATCCTCAATCTCAGCTCAGGAAGTAGGAAT
TTTCCACCTTTGTTAGCAGCAGAGATGACAAACCCCAGGGCCCCACATATAGCCTGTRCCTTAGTCACTGCCTCGGGCCAGGTTGCAAGACCCCTCCTAC
CAACTGAGCTACAAATCACAGTTCCTGGAGGGTGGGCCTTTATATAACAGGGAACAGAACTCTTCTGTACCTCSCACYTCCCCGCAAGAAGTAGGCCAGG
CATGGTAGCTCATGCCTGTAAATGAAGCATTTTGGTAGACCAAGGTAGGAGGGTCACTTGAGGCCAGGAGTTCGAGACAAGCCTGGGCAAGATCCCATCT
TTAAAAAAAAATTTAAAAATTAGTGAGCTGTGGTGGCAGGAGCTGTGGTCCCAGCTGCTTGGGAGGATGAGGTGGGAGGATCGCTTGAACCCGGTGGGTA
GAGGCTATGGTGAGTTATAATTGTACCACTGCACTCCAGCCTGGGCAACAGAGCAAGATCCTGTTTCAACAAAAGAAAAAGAAGAGAGAAGAGGAAGAAA
GAAGGAGGAGAAGAGGAAGAAGAAGGAGGAGGAGGAGGAAGGAGGAGGAAGGAGGAGGAAGAGGAAGGAGGAGGAGGAAGGAGGAGGAGGAGGAAGGAGG
AGGAGGAGGAGGAAGGAGGAGGAGGAGGAGGAGGAGGAAGTAGGAGAAGAAGAAGGAGGAGGAGGAGGAGGAGATCCTACAGCACTGTTTGGAGGATTAT
GGGAAAATTAGGCCCACACATCTGATATACAATCGGCACATCCTACAAATGTAAAATGTGTGTCTTGAACCAGAAAGCCCAAGGAGTGAGGGGCTGTGGC
ATTGAGTGGGGTAGCTATACATAGCCCTAGGGCTTAAATCTATAGAATTTAAGTAATCCTGGTCCAAATTCACCAGAAACATTGCCTAGACTTTACTTGA
ATACCTTTAGTGACAGGGAACTAACTACTACCAAAGGCAACTAACTCAGCTCAGCAAACATTCAGTGATAGCTGCGCTTCCCCAGGACCAGAGATTCAGA
TAAGCAAACACCCTGTTCTGTGCTCAAGGGACTGATGGTGTGTGACAATCGAGATAGTGTGAAGAAAAAGGACAGCATATGTGTGTCTCTGTGCATGCAT
GTGCAAACACTGACACTGCAGTATGTATTCAGAGGAAGTCACTACAATGGTGAGGCCCACCTGGCACCAGAATGAACAGATTTAAGAAAGCTAGTCACCG
CAGACGGTCACAGCTGGAAGGATTTTACAAAATAATCTATCTTATCATCCTCCTTTGCCCTAGAGATGGGGAAACTGAGGCCCAAAGAGTGAAAGCCACC
TGCTCAAAGGCATATTGTTGAGTCTAATAATAAAAATAACCATAGCAATAGCAACACTGAGGGCAGCTGTCCCAGATGGACGCTGGCTCCATGCCAGCCC
CTGGGCTAGGCGTCTGGTGGCACTACCTCATTTCACTGCCATAACAACTGGGTCCCCCATCTTGCAGATGAGGAAGCCCARGTTCAGAGAGGTGAAGTGG
GGGGCTGGGGGTCTATCCCAGACCTTGTTGTCACCTCCTCACTCTCCCAGTAGCGCCAGCCAGAGCACCTGTCTTGGGAGCCCCGAGGCAGGGACAGGCT
ATGCATCCAGGAAGCYCCCAGGCTCTAAGGAGGCGGCCCTATAACTGCTGGATGACCAAAAATCAGGCAGCGATCCCTAAGTCCCTTCTGAGCCCCAGGC
TCCAGRCTCCTCCAACCAGGTCTGCCTTACGCTTTTGACCACAATCAACCCGGCTCTTTCTCGGTTCTTTTCATCTCTCTGGTGGTTTTGTATGCAGAGT
CACCCAGGTCCCCACTTACGAGCCTGTGAGATGGGATAAATCACTTCCCTTTGCTGAGCCTCAGTTCCTTCACCTGTAAATGGGCATAACAAGTTCCTCC
AGGACAATCGTGAGGCTCAGGGAAAGGACTGTCGTGCAAACCCACCATGGCATGAGCTGTCGAGTGCAGTGCCCGCTGCCACTAAGGAATGAGTGCCACT
CTGGGATTGTGGAAAGTGCAGASGGGCAGGGTTGAGATGCTCGTGCATGACTTTGGACAGGTCACCTCCCTCTCAGAGGTTTAGTTTCCTTACTTGTTAA
GCTTGGACTAAAAATATCTAAATGGTGAGATTTTTCCAACTTCTTTGGCTCTAGCATGTCTGTGGTCCTTGATGGTTTACAAAGCGCTTTTGCACTTGAG
ACCCCTAAGTGCTAATTCTACCACATCCCCATCCACTTCATAGTGGGATGACCTTAGCCAAGGCTCTTCACCTAAACYTCCATAAGCCCCTCGCTGGAAT
TTGAGCCTGTTTTGCTTTTTTAAAGTGAGGGCAATGCTACTGGCCCCACCCATCTTACAGGACAAGGGAAGCCCAAGGACATGAGAGCTTTCTGAGCTGC
ATCCCAGGCCCTGCTCTGCCACTGACTCGCTGAGGCTGGGTTTCCCCATCTGCAAAATAAGGACATRAAAACCCATCTAGAGCTGGGCATGGTGGCTCAT
GCCTGTAATCCCAGCACTTTGGGAGTCCAGGGCAGGCAGATCACTTGAGGTCAAGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACT
AAAAATACAAAATATTAGCCAGGTGTGGTAGCTCATGCCTGTAATCCCAGCTACTAGGAAGGCTGAGGCAGGATAATTGCTTGAACCCAGGGGACGGAGG
TTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGTCTGGGTGACAGAGCGAGACCCCATTTCAAAAAAAACAAACAAACGAACCAAAACAAATAAAAAC
CCATCTAGAGTGTTGTGGGGATTAAATGAGTTAATATCTGTGAAGTGCTTTGAACAGAGCTGGCACGGCCGGGCACGGTGGCTCACGCCTATAATCACAG
CGCTTTGGGAGGCCAAGGCAGGGATCACTTGAGCCTAGGAGTTCAAGACCAGCCTGACCAACATGGCAAGACCCTGTCTCTACTAAAAATACAAAAATTA
GCAGGGCGTGGTAGCATGCTGCTGTAATCCCAGCTACTCAGAAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAAGATGCAGTGAGCCAAGAT
TGCGCCATTGCACTCCAGCCTAGGTGACAGAGCGAGACTCTGCCTCAAAAAACAAGAACCAAAAACCCCTTAAGAGAAATGGGGTTTTCTCTTATGAGAA
AAATAAATATCCCCGGTGTTTCCTCTGACTTGCCCAGGGCTGCACAGCTCACAGGGGAGGGGTGGGGACCGGGACCTGGCACTTGGCTCCTGCTGCTCTG
CCCTATGCCCTTGGGGACTTCTGGACAAGGGTGGGCTTCTCTGGGCTGACAGAGGAGACAGAGGCAATGGTGTGCTGGTAAATGGTTAACAACTGGCTCT
CTGGAAAAAAATGCCCTAACTGTAGCAAAAAAAAAAAAGAGACTAGAACTGGCACATTGCAGATGATATAGGCATTTGCTGTCACTATCAGCATCAGCAT
CATTACTTGTCCTTTCAACAAATATTTCCTGAGCCCCTGTCGTAGGCCAGGCCCAGTGCTAAGAGGTGGGGACACAGTGGAGGGAAGACAGAAAGTTAAG
TGTGCTGTTTCCATAAAGTGTGCTGACAGCCATATAGGAGCACTGGGGCTGGGGTGTCTCTACGGTGCCTGGGAGGGTCTCCTAGAGAAGGTGACATCAA
GCAGGTTCTGAAGGATGAGTAGGAGTTGGAAGGAGTTGGAAGAGCTCCTGCCCTTTGTGGAGCAGGAGAGGGAGGTGGTCCAGGGACCTTTCTGGCCGAC
CAASCCTAGAGCCAATTGCAGTGAGCCATTGTGACATTGGACTTGAAACTGGTCACTGCGAGAGTATTTATACCATAGAAATTTGCAAATGCTACGGTTA
GGGCATTTTTTTCCAGAAAGCCCGTTGTTAACCATTTACCAGCACCCCACTACCTCTGTCTCCTCTGTCAGCCCAGGGAAGCGCACCCTTGTCCAGAAGT
CCCCAAGGGCATAGGGCAGAGCARCAGGAGCCCAAGTACCAGGTCCCAGCCCCCACCCCTCCCCTGAGAGTTGTGTGGTCCTGGGCAAGTCAGAGGAAAT
GCCGGGGGTATTTATTTTAAAAAGTGTCTATCAGGACTCTACATTATGCCAGGGGTCTCAAAGGTGAAAGAGGCATGAGTTTGTCCCTCAAGCAGCTCAG
GAGGAGCTGGAGGAGGTTTCCTAGGCACGAGCTTATCCACACCATGACACATAGACCCTGAAGTGTTTTAAATCAATTACAAAAAGCAAAAATACAAGGA
AGCTGACAGATCTTTACTTTGGGAGAAGTGGAGGCTTGGGAACAAATGAGATCATCAAGGTCTTTTTGTCCGTTTTCTAAGGAGTTGGGGTCATTGGCTG
AGATCCTGCAGATCTGGAGGTACCAACATGAGACTCCGAGGGCCACCTCCTCTGCCCCTCCCTCCCCACCCCCTTTAAGGCCCTCTCTGGAATCCATCCC
TTTTCCTCCATCTCCCCAGACCTGGCTGAGGCCTCCGTTGTGCCTCTGGTCTGGTGCCTCAGCCCCCTCGCTTCCTGCTTCCAGATTTTGCCAACTGCCC
CCCACCTTTGACCATGTCCAGGCATCCTGGCTCAAAAGCCAAGATGAGATCTATACTTGAGAGCGTATATGAGAGGGATGCAACTGAGGCTACCTGGAGT
GCGTGGACACAGCCATGGCCTCAGGTCATCATCTCCCCCACGAAGCCTCCCACACCTCCTGTCCCCAWCTTGGGCACACTTCCCACCACCTGGGAGACCC
CTGAGGGCAGGCACCATCTGTCCTTCACCACTATATCCCCCTATAAAGAGAGATAATGCAGTGAGGTGCCGGGGTTCAAATCCCAACTCCACCCATCACC
AGCTGTGTGACTCTGGACAAGCCACCTCTGTGTGACTCTGGACAAGTCACCTCACTGCTCTATTCCTCCAATTTTTATAAAATTGGGATAGTACCAGTGC
CTGCATCTAAAATAGGTGTGGATTACATGAATTATTTCATGGAAAGTGCTTAGAACATTGCTTGGCATTCATAGTAAGCCTCCAAAAACTGAAGCTATTA
TTATTCCCTGGTTGCTGGCCCAGACTAAGCACTCATAAATTTGTTGAATGAATGCAATGTAAACAGGGAAATGCTCTGTAAATGCTGGTGCAAGCTCATC
AGCTTCGTTGTCGTCATCAGCATTGTCCTGATGCTATTCATGGTGGGTGTCCTGTCTGGAGCCCTGCTGGCTGTAGACCACCAATGTGGGCACAGTCCTA
GCCCCTCGCTCAAGTAGGGTATGCGAGGACTCAGGAGACGTCAACAGACATTCACAGTATTTACACTGGGACCTTGGAACCAGTGTGGTTGAGTAGACAC
CCGGAGGACAGAGTTCTGAGTTTATTTGGGAGGGGTTGCCGGGGAGAGTCAGCTGTCTGGAAAGGCTTCCTGGAGGAGGAAGATTTGCTAGAGGTGCTTG
AGTGGTTGGTGCAAGGGGGCTTGTGGGGAACCAGAGCGTCCTGGTGTTTAGAGCAGCAAGGAAGAGGCTGGGTAAGGACAAAGGACAYTGGGACAGACAG
AAAGCCTGACTCTAGAAAGAAGGGGCCAAGGTCACTGGAGAGGAGAGAGAGGAAGGATTAAGGACGATTGAGTGGGTCATAGGGGTTGAGGGCTCTGTGT
AGGGAAAACAGTTTCCCACTCAATCCTTTCGATGCCACTGTGATTAAATGTGTGGGTTTATTTCCTCAGAAATTGTCTTACAATTCCGTTCAGTTCTGAC
ATTATCTGCCCGGAGGCAGCACAGGATAAGAGCTCAGTCCCACAAGACTGCCGCCACTTCAGAACCCATCGCAAGTCTCAAGTGGCCTGCACTTCTGACC
AACCAGCTGTAAGGCAGGGTTCCCACAACCCCCTCCACGGGTTCAGTAATTTGCTAGGATGGCTCACAGCATCAGGGAAACATTTACTTACATTACTGAC
TTATAATAAAAGACACCACTCAGCCACAGCCAGGTGGAAGAGAGGCACAGACCCACACGTGGGGCAGGGGCCTGGAGCTTCGGTGCTGTCTCTGGGGGCA
CCACCAGCTCAGCACCTCCCTGCGTTCACCAACTCGGAAGCTCTCCCAATCCTGTCTTTTAGGGATTTTGATGGAGRCTTCATCATATAGGCATGATGGA
TAATAAATTCAATCTCCAGCCCCTCTTCCCTTCCTGGAGGATGTGGGGTGAAAGTTCCAAGCTTTGTATCATGGTCTGGTCATTCTGATGACAGCCCCCA
TCCTGAGCCTATCCAGCCACCACCAAGAGCCACCTCATTAGAACAAAAGATGTGCCTATCATCTAGAAATGTCAAGGGAGTTAGGAGCTCCGTGTCAGGA
ACTGGTGTCAAAGACCAAATATGTATTTCCTAATATATCACGATATCACAGGTTGTGAGAAGAATGCMATCAATGGTCAAACTCCAGAGCTGCACACTCT
CCAATATGGCAGTGACCAGCCACATGCAGTCACCAAGCACTTGAAAGGTGGCTGCTTCAAACTGGTATGCTAAGTGTAAATACACACTAGATTTTGAAGA
GTTAGCAGGAAAAAATAATAATATAAAATAACTCAATGACTTTTTGTATTGATTACATATTAAAATAATGTTTTGGATATATTTGATTATATCTCATATA
TAACCAAAATTGATTTCACCTGTGTCTTTTTACTTTTTTTAATGTGGCTACTAGAAAATTTGAAGTTACTTCTGTGGCTAACTTTATAGTTCTATTGGAC
ATCACCGACCGCTCTAGGCTATGGAAAATTCTGTAGAACAAACAACTGGAAGTTGGAAGAAAAGACAGTAAGAAATAGCAAGGAAGGGTGTGCTGTTGGG
AGTTGCTTGGAGGTTGGCGGCACAGGGCTGAAGGCTAGCAAACCGAGCGATCATGTCACACAAACAAATTCACTATTCGGACAGATACGACGACGAGGAG
TTTGAGTATCGACATGTCATGCTGCCCAAGGACATAGCCAAGCTGGTCCCTAAAACCCATTTGATGTCTGAATCTGAATGGAGGAATCTTGGCGTTCAGC
AGAGTCAGGGATGGGTCCATAATATGATCCATGAATCAGAACCTCACATCTTGCTGTTCCGGCGCCCACCACCCAAGAAGCCAAAGAAATGAAGCTGGCG
AGCTACTTTTCAGACTCAAGCTTTACACAGCTGTCCTTACTTCCTAACATCTTTCTGATAACATTATTATGTTGCCTTCTTGTTTCTCACTTTGATATTT
AAAAGATGTTCAATACACTGTTTGAATGTGCTGGTAACTGCTTTGCTTCTTGAGTAGAGCCACCACCACCATAGCCCAGCCAKATGAGTGCTCTGTGGAC
CCACAGCCTCAGCTGAGTGTGACCCTAGGAGGCACAATGTGCTCTGTATCCAGAACACACTTGGCAGATGGAGGAAGCATCTGAGTTTGAGACCATGGCT
GTTACAGGGATCATGTCAACTTGCTGTTTTTGTTTTTTCCTGCCTGGTGTTGTATGTAAGGTCACTTGTGGATTTATGTTTCAGCGTACTGGAAACTTTC
CATTTTATTCAAGAAATCTGTTCATGTTAAAAGCCTTGATTAACAAGGAAGTTTTTATAATCTAAAAAAAAAAAAGAAATAGCAGGGAAGGCTGTAGGTG
AAAAGAAACTTAAGAGACCTATCAAACAACCCAATGTGTAAAGTCATTTGCATTCTGATTCAAGAAAACCAGCTGTGAAGAAAGTAGCGTGAAATTCATA
TGATTGAAAGTTGTAATACTTCCTGGATAGTTGATGCCATTTAGGAATTATTGTCAGTTTCTTCGAGATGTGATAATGGTTGTCTAGTTATGCTTTCTGA
AATAAGAGTCCTTAGCTTTTAGAGAAGAATAGTGAAATATTTACAGATGAAATGACAGACATGCAGGATTTACTGCAAATATTACAGGAGGGGTARGGTA
GGTTTGGGCATAGAGAAAAAGATTGGCTGCGAGTTGGTAATTACTGAAGCTGGGTGAAGTATGTGGAGTTTCATTATGCTAGTCTATCTACTTGTGGGTA
TATTCCAAATTTTCCATAATAAAAAGTTAAAAAGCAAAAAAAAGAACCATCATCTCCACCTGAGGTTCTGGCCCAGACTGCTTATGTTCAAATCTCAACT
CTAGTCTTGCTAGCTGTGCCTCTGTTTGCTCGTCTGCAAAATGGGGATGATAATATTAGTCCCTACATTGCAGGGGTTTCTCTGTAATGTGCTTAAAAAT
ATGGAAACAATATAAATGAAATGAAGATATGTTGCAGGCACTTTGCACATTGTCACGGTGCTCCCAGTGCCTTGTTCCAGGGAGGTTATCCTTATTTACC
AAGAGGTTAAGTCACCTGCCCTAGGTCTTCCAGTCAGTGGAGGCAAAGCCAAGACATGTCCCGAGTTCATCTGACTTCTGAGTTCAGGCATGACCTGAAT
GTTCTTGCCTCGGGCTCAGGGCTCAACATTTCCTGTCTTCTCTGCTTCTCCAGTCCTGAGAGATTCTGGGCCCGTTTCCCTGCAGATCAGCTCTAAGGAA
CATGCTTCTCTCCTGCTCCTTTCTAGAAAAGGCGTAACATTGGCAGAACCAGGAACTCTGGAATTCTGAAGGTTGACTCCCTCAATTCCAAGGGGCTCCA
CCTCCTGAGCGGAATTGGATAGAAGACAAAGGTCACATGGCTAGGGTGAGGCTTTGAGATGGGCGAGACTGTGAGCAGGACTGACAGGTCAGGGCCAGGA
CCCAGGATCTTCAGAAGCCACAGGGAGCAAGGCAGGGAGCAGCCTCCTTTGTGCCACACCCAGTGAAGGGGAACTTGCTAAGACAGATTTGTTCCTCCCA
TCTCCAGAAGAGCCGTTGGATGCCAATGGGTGAGGAGCTGAACCTCTGCAGACTCAGTGTGCTGATCCCATTGCCTCTGCTTGCATGCCTCTCAGGATGG
GGAGTTCACTGCATCCCCCTCTTTAAAGACATTACGGTTGTACAAAGGTCTCCAGAATCATCTRTTACATCCCCTCATTCTYCCAATGAGGAAATTAAAG
CTCAGAGATGCCGAGGCATTTACCCAAGGGCACACCTGGTCCTGGGCCTACGACCCRTAGACAATATTCCTTCCACCTCTTTGCTATAGAGTCTCAGACT
AGGGATCTTGGCTGGCTGAGAAATCAGGGAAGGCTTCTTAGAGGAGGTGAGATTGGAGGTGGCCCTTGTAGGGTGGCACTAAGATGTCGCTTGATATCCT
AATTTTTTTTTTGGCCCTGCCCACCATGTGTGTGCCTGTGCTGCCATGTCACACTAAGCAGAGTAAAATGAAGGAAGGAACGGATGAAAGGGGCAGGAAA
GCGACTCCCAGGAGCTGAAAGGGCAATAGTATAGGTCCCTTCAGCACCTAGGATATGTTGTGGGAAGCCCTTAGACCCCAGATACTACCCTGTGCAGATA
GGGATAAAACTCCACCTGTCCCAGCTCAGTGCTCTCCCCGGCTCCTCTGGCCTGCTTGCTGGGCAGGGCCCAAACCAGTTCAGGATTCCTTTTTCTCTGT
GACCTACCAGTTAGGGTTCTCTGTTTACTGTGTCTCCTCCTCCTTGTTTTGTATACCCAGCTGGGTGGGAAGAAGGTCACAGCCCAGGTTTGCACGTGGT
GGAGGAGCAGGGCCAGTAACTGGTTAGGCAGAGACCCCGCCCACCACCCTCCACTCCCACCCTAGCAGGGCCTGTGCCATCCCCAGGACACCGGAGACCA
CCAGGGGGCTGGAGAGGCTGCGGGAGAAACAGCCTTCCTGGACACACCCAGCTACGGCTCACTTCCCAGCCTGAGCTGTTCCTTAGGAATTGCTTTTCTG
GGAAACACACCCTCTTCCAGACCTGCAGCCTTCCTTTCTATGTGGTTTTTGGTTTTGCTCTCTGGTGAGGGTTTCTATTTTTTCCTGGTATACATGAATG
GCATGCAGGAAAGTGGAATGAGGACATCATGACCACCATGCAAAGGCCATTGCTCTTAAGGTTTGATGTAAGCTCCCCACTCTCCACCCCCACTACCCCT
CTGCCTCGGCCTGGGKTATGAGGTCTTGGTTTTGACAATCAGACAATGTTAGCACACTGCTGTGTCTTCCACCTGCAATGRAGCACTGTAGGACGATTTT
AAAAAGCAAAGTGGCAGGCCAGGTGCGGTGACTCAAGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATTACCTGAGGTCGGGAGTTCGAGA
CCAGCCTGACCAACATGGAGAAACCCCCGTCTCTACTAAAAATACAAAATTAGCTGGGCGTAGTGGTGCATGCCTGTAATCCCAGCTACCTGGGAGGCTG
AGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAAAGTGAGACTTGGTCTCA
AAAAAAAAAAAATTACAAAGTGGCTGAATACCAAGATCCTAGGAACTAGGTTCAGCCAAACTGGCTGTGTGTCCTGGTAGAATGCCCACCCTCTGTCTCT
GGGCCTCCATGCCCATCTCTGTAGCATGAGGGATTCTGATGAAATAATTTCCAAGAGCCCTTCCCACACTAATACTCCAGGATTCTGTAAGGTTAATTTG
GCAAGAATTCCAACGGCRGAAGAAAGATGGAGGGAGGAATATGTCCAGTCTAATAACCCTATGCTCAAGTCAGAAAGCCCCTCGGGCAGTGTCCGAGAGG
GCTACAGCCCTGGCCCCAGAACCTGAGTCCCTCTAACCTGGGTCAAACCCCTAAAAGCCACTCCAGCAAGAGACAGGCAAAGCCCGGGCTCTTGCTCCAG
GCTGGCATTGCCTTGCCGTGTGGCTGTAGACATCGTTTCACCTCTCGAGGCCTCAGTTTTCCCTTCTGCAAAAGACAGGCTGGGGGAGGTTGGGCATTTT
CTTCTTAACTACCAGGAGTCTTTCCTCCAATAAAATTGTGATGGAAACCGGATGTCACACAAAGGGAAAGGAAACACTGGCATTTCTGGAGTGTTTGAAG
CATGTGAAGTATTGTTTAAGGGCTTTGCAATCATTAATGTACTTTGTGCTCACATTAACCCCACAAAGTAGGTGCTATTATTATCCCCATTTGACACATG
AAGAAACTGAGGCCCTGAGGAGTTAAGCCACTTGTCCAAGGTAAAGAGTGGGAGCTGGGCTTCTGATAGGGAGTGGGCCTCAGTCATGAAACCACAAGAC
TTGTGTAGTTCCAACCCCCTGGGGACATCTCCAGGCACTTGACCCATGCTCTTCCAACATTCATGTATGCACGCACACGTGTACACACACGTGCACACAC
AAACACACACATGTGTGCACAAACACATGCATGCACACACAAACACATGCATGCACACACAAACACACACACATATATACACACACCAACACAAACACAM
ATGTGCACAAACACACGTGTGCACACAAACACACACATGCACACACACACACAAATGCACACACATGCGTGCACACTGTGGCTACTCCTCTGTAGCCTGC
TGGCCACACTCGGCTCAAGCCCCAAATCAAAGGTGACTAGCAAGATTGCGAGACAGATTTCTGGAGATGGGAAACTGCGTCATCAAATTGTCTCAGGGAY
GGAACACCCATCAGAGCCCTGGGGGAGAGAAGAGACACGGGGTGGCTGCCAATTTTGCTGACCTATGCTGCTGACTTTCCAGCAGCCCCCGACTCCTGTG
GCCAGCTGAGCCCAGGTCCAAGCTGCCCCCTGCACAGGGCTTGTTCCCTGGAGGGCTATAAGCCACAGCATCCCCTCCAAGACAGCCAGTCCTGTGAACC
TGCTCAATCCCTCACTATTCCTTGGGGCCTGCCCTGGGAGAAGGGAGAGTTCCCTGGACCCCTTCTTGGGACTTGCGGTGACAGGGGTGTGGCTCACTTG
CTCAAATCCCTTGTGTGAGGGGAAGCATGCAAGCAAGTGGGTGCTGGGGCCGGGGCAAGCGCTTTTGGGCTCTGGCCCTACAGTACCGTCTAGGGTTGTG
TTACAATTAATGCTCTTTTAGMAGTTGCCATTCACTGATGGCTAAGTGTTAACCAACTCAGTGGAGAGTGAGGGTGACAGCCTTTTACACCYTGCCCTCT
TGGTACCTGGGTCCTTGTCTGGCATCCAGGAAGAATCAGGTCACACGGACTTGAAGGATGGTGAATGCAGAGGTTTTATTGAGTGATGGAGGTGGCTCTT
AGTCGGGTGGRGAGCTGGAAAGGGGATGGAGTGGGAAGGTACTCTTCCAGATGGCTGAACTCTTCTCCAACTGTCCAGCTGCCTCTTCCACATTCAGACA
CTTCTTCTCTTCTCTCCTTCTCTGCCATGCTGCTCTGCTCCTCTGCCAGTGGAGTTTGGGGTTTTTATGGGTATRGGATGGGGGGCATGGTGGGCCAGGG
TGGTTTTGGCAAAAGCAACACTCAGGTGGGAAAACAGGAATGTGAAGTTCTCATTTAGGGCCGTGGGCCCAGGCTTGTGGGTGGGGCTTTTGCCAGAGAG
CTGTCCTCCTCTACCCAGTATTTCCCTGCCTCCTGTCCATATCACCTGCACCAAGAACCTCACTGGGTGGGAGCCAATCCAGAGCCAGAGAAAGGACTTG
ACACTTGGCCTCAGGCAGACCCAGGCTTGAATCCTGGCCCTGCCTCTGATGAGCAGGGTGACCTGAACTGTCTCAGGTTGCCTCGCTGACTCTGCTTTCC
CATCTGGAACATGGGAATAGCAATGCATCAGCCACTCAGTGCAGTGTTGAGGCTGGAACAGGTGGGGCACACTGTGAGCTCCATTTCCTTTTGCCTCCAC
CCAGCAATTATGTCTGCTGGGGAGAAGAGGAGAAATAAGGATCACACCCTGCCCTCTATCAGTCAGTCAACGACCATTTATTAAACACCTACTAGGTGTC
AGGCACTTGACAGAGAAATGAAATAACAACACAAGCAACTCTTATAGCTATACCCTATAATAAATGTTATAGAAGCAGGAGGCAGGTAGAGGTGGAAGAG
AACCTTCTGCTTGCAGGGGGATATCAGTCAGAGAAACAGAACCAATAGGAGACACAGATTAAGAGATGTATTGCAAGGAACTGGCTTATGTGATTGTAGG
GATGACTAGGCAAGTCAGAAGTCGCTTGGGAATGCCAGAACACTCAGCCTTGGACCGAAGCTCCTGCCCGCAAGCTGAATTTCTTCTTCTTCCAGGAAAC
CTCAGATCTGCTCTAAGTCCTTTCAACTGATTGACTCAGGCCCATGCAGGGAGTTGAGGACAAGCTTCCTTAGTGAAAGCCAGCTGGCTGTGGGCTGTCA
CCACACAGACAAACTGCTTCACCCCAACACCAAGATTAGCTTGAAATGGAATAACTGGGGCCTGTCATCCAGCCAGGTGGACCCACAGACTCACCGCAGC
AGAGCACCTAGAGGCGGCCACGGAGGGTTAGTGACAGAGCAGAATCAGGCAGGGCACCCGGGCAGGGGGCAGACCCAGCAAAGGCTCCTAGGGCAGATTG
TAGAAGAGGTCCTTGGAGATCAGGGAGTACAGCAACGTGGCTGTGGCACTATTAAATTAAATTAAATTAAATTGAAAATAAAATTAAATTAAAAAGGATT
GGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCATGAGGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCTG
TCTCTTCTAAAAATACAAAAAAAAAAAATTAGCCAGGTGTGGTGGCGGGCGCCTGTAGTACCAACTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAAC
CCGGGAGGCAGAGCTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCTACAGAGCGAGACTCCGTCTCAACAAAAAAAAAAAATTAAAAAG
GATTGGAATAAAGGAATGGTTTAGTAAACAAAAATAAACAAATGCAATGCCTTTTTTGAAGGCGTCATTACTACAGCCATGATGGAGCAACACGGATAAA
TTCCCATGACAGGAGGTTTCATGTAAAACCACGGTGACAGAACACAGTTGGATGTGGCATACATAAACAGCTGTGCCCAGGGATGGAACTCTGGGAGATT
TTCCCATTAGTTTTAAATGCTCTTTCATGTAGTTATTCTTTTATTTTTATGTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAACGGTG
CGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCCGCCTCAGCCCCCCAAGTAGCTGGGATTATAGGCGCCCGCCACCACACCCA
GCTAATTTTTATATTTTTAGTAGAGACGGGGCTTAATATTAGTTTTAAATGCTCTTTGCTGTAGTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCCGTCA
CCTAGGTTGGAGTGCAACGGTGGGATCTCAGCTCACTGCAACCTCTGCCTCCCGGTTCAAGCGATTCTCCTGCCTCAGCCCCCCAAGTAGCTGGGATTAT
AGGCACCCACCATCATGCCCAGCTAATTTTTGTATTTTTGTAGAAGTGAGGTTTCACCATGTTGGCCAGGCTTGTCTTGAACTTCTGACCTCAGGTGATC
CACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACAGCACCCAGCCTAGTTATTTATTTATTTATTTTTTTTTTAAAGAGAGAGATGT
TATTTTTTTTAAGGGGAATGAGTGGTATTAGGATGTCAAATGAAATTGCTTATTTAATAAAACTGAAAAGCCCAGTTTGGGGAAAGAAACAAAACACACT
GAGCAGAATAATCTAACCACAGTGAACAGGAAAAAAAGCCAAGAATAAAATAAGTTCCGGGGTATCCAAGGGTGAGCAAAGCCAGGCCGGCAGGCCTCCT
CCTCCCTTGCAGAAAGCAGGATGGATGAGGGGCTCTGCTTCTCCAGGCTCCCTCATGTCCCCACTGAAAGTGTTTCCAGAACATTCCAGGCCCATAAAGT
GTCCAAATGCTGGAAGGACTTACATGTATATGTCTGGGATTGAATCAAATCTTCTGACTCAATTCTCTTTGGGAGTTCTGAGAATGGAGGTCACTTCCCA
GAACCCCGTCTTCCCCCTACAGACAGCTTTGGCCTTCTTTTCAGGGAAGAAAAGAAAAGGGACTCTTGGAAACCCTGCTGAGGGCCACGCAGCTCTGGTT
GTTGAGGCTCATATGGTTTATGAGGCGCCATCACCCCCTTCCGCCACCCCCTGCCTGCTGTGGCCTGAGGCTTACCTTCGTGACTGCCCTAAAAACAGCA
TCCAGACTCAGTAACCACGTCAATCAGCTTTTAGAGGAAAACATTTATTCTGGGGAGGTGTCAGGGAAAGGATTCAGGAGATCTTGGTTCTTTCTAGCTC
TGGCCTTGACATCGACTTGCTGGGTGGTCTGAAGGATTTCACTTATTTACAGAGCGAATATTGTTCAAGAGTTTGGGATGTGCAAAACTCAGCTGCAGGC
GTGATGCAGGGTGGGAAGATGAGCAAGGCAGGGTCCTCCTCTCCAAGTACAGCGAATATGGTGGGACAGATGCACATGCACTTTATGCACGCATGCACGC
ACACCATGTGCTCAGCTGCCACTGAGAGGAGATAGGAGATGCAGAGGGAGAGGGAGAACAGCCGCCCTCTGACTAAGGATGGAGCCCAGCTGTCTCAAGA
GCTCTCCTGGATGGACAGACTGGTGGCGTCCCAGCAAAATCCCCCATCTCTCCATCCGGCTGTGTAATGAATGACTGGAAACCTCAGCTGGCCTGTGAGC
AGGAGATCTGGCCAGGTGGAAGGGAATCCCTGACACCCCACAGCCCCTGGTGTAGCTAAAGCAGACGGGCCTCCTGGGCTGGTGCAGGAAGAACAGCTTA
TGTTCTCGAACACATTGACCACGTGCTCCATGCATCTGACACACACGGACTCGTCTACTCCACACAGCACCCTAGGAGATGGGGCTGTTTAAAATACCAA
TCCCCACTGTATAGTTGAAAAAAACGAGGTGCAATGAGGTTAAATAACGAGCTCTAGAGAGGAGGACTCAATTCACAGTCAGCTTCCAGAGCCCATCGGC
CTAACCGCCAGGCTGGCTTCCCGTCCGTAATGCACGTTTCCAGCTAGAGGCTTTCAGGCTGTGTTTCCCACACTTAGCCATTGACATTCACGTTCACAGT
TTTTGCCACATCCATGTCACCTGTACAACCATTTCTTTAGTAGTGACTTACTTTTGAACTGCAACTTCATGTCACCAATTTAAATGGAAAATGAGTATCA
CTTATCATAAAAAAGATGATAACTGTACAAAATAAAAGCAATAGAATGTGAACAATGCTATTAGAGCCTGGGTAGATTCGGGGACCAGCCAAGGCTCTGA
ACCTGCTCAGTCTGTTGAAAAAGGAGATTACGCACATAGAAAGGCGTTGAAGTGCACGGACACCACGCTGAGACGTTCTTGTTGGCCTAATCAGGAGGAA
CGACTAGATTATTCAATTCAAGGTTGTTTACCAGGCCAAACTACTTCCCTTGCTGGGAAATGCTTCCCAGCTCTAACGTGCAGTCAGAAAATACGGGACA
CAAGTTGACATCCGAAGGAAAAATATCTTTTCCTTCTCCACTTCCGAGTTCTTGGTTGGGGGCCCTGAAACAAAAAACAGATGAACAAGAGAAAAGTGAA
CAAATTAATTTAATGTAAGTTTAATGTGACATGGGAACCTTCATAAGGAAATGAAGTGATTAAGCCTGAGTGCCTTTTTGTTTTTTTGAGACAGAGTCTC
GCTCTATAGCCCAGGCTGGAGTGCAGTGGTGCGATACGGCTCACTGCAGCCTCGATCACCCCGGGCTCAGCTGATCCTCCCACCTCAGCCTCCCAGGTAG
TTAGGACCAGGACTACAGGTGTGTGCCACCACGCCCACCTAATTTTTTGGTACTTTTTGTAGACACAGTCTCGGCTGTGTTGGCCAGGCTGGTCTCCCAC
TCCTGGGCTCAAGCGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGGTCACAGGCATGAACCACTGTGACCGGCCTGAGTGTTTCCATTAGATGTCATG
AACAGTGGAGAATCATGGGGCTGTGGTGGGACCAGGGGGCACGAGCGAAGTACAGAGAACTGGAGAAACAGCAAGGCCTGTCGGGGCTCCTCTCAGTGTC
CCCAGTGCTCGGAGTGGACGGTGCCCCTTTCCTCTGGCTGTGGAGTCTGGTGTCCTGCTTCAGGGAACAATCACATAGTCCTTCTGCGCCTGCTGTTTCT
TGGATTCTTTCCACTTAAAATATTCAACATGCGAAGCTGCCACATTTTGGGGTAGCGTGCCCTGAATCATTGGCTACAAGGTCGCGGGCCCCACATGAGG
CACAGTTGGCCCTTGAGACAGTGACACTATGTATTTCGTGGAGGCCACTGCTTCAAAGGCCCTAAGGTGTGGATTCCTGGGAAACCAAAACAGGCTGTCT
CCAAGGCTCAAGTGGAATTGATTTCTAACAGCCCAGGCCCACGGTGTCTGTGCGAGTAAATGAAGAAAGTGTTTTTACAGTAAGTCTTCTTGGATAGAAT
TCTGAGGGAGAGAGAGAATGAGTGAATCAGAATGTTGGATGTTCCCTCTAAGGCATCTGTTTAAAAAATCAGGGGAAAAACCCAGGAGCAGAGTCATCAC
CTGTCCCCAGCTCTGAGGATCTGTGTCTGTGAGGCACATGAGTCCACCCTCCTAGCTCTGTAGACAAGGAAACTGTGGTCCAGAGAGATGGAGATCCCAC
AGACAACGGCCCACCTGGAGCACCCCCTCCCCGCCTGACTTTATATTCCCAGGATGCATTCATCAGGGTCTCAGTAAAAAAAAGAGGGCACATTCCAATT
GGGTAATAGGAAGAGGATGTTAATGAAGCGTTTCTTTACAGTGCTGTAGGCAGCATATTGGGGTTCTGCGAAGAGCAGGCAGCACCCTGGGTGCCTCAGG
GCTGGTACGGCAAAGCCTCAGCACCCTCCCTACCTCCTTCCCCCCTCGCGATCAGGCCCCTGATAAAAGCAGTGAACTCTGCTCCAGGYCTGGCCAGCAT
AAAGGCCCCCAAGAGAGGAGCCAACAACACCCCATCCTCCCTCTCACCCTCCCTCAGGCTCCTGCTGGGGCTCCCACTGGCCAAACCCAAAGAGAAGCCG
GAAGGCAAAGAGCTCCGTGGTACCCATCAGGGCTCCCAAGCAGGGGCCACAGAGGAGAAGCCAGGAGGTGACCTGGAGCAGGACACAGCAGCTCCCTGAC
AGGGATCCTCACCCAGGGCACGCCTCTAGTAGCAGATGGAGAAAACAACTCAGTAGACTTCAGACTCCCAAATTCTCCCAGTTCCTTAACCCGCCTGCCC
TCTGGACTTCGGGAGAAAGTTGAGAGGGAAAGCCCTCAACTTTGTTTTGAAAATGAGAGCAATGTTTACAGCCACTAGCAAGCAATTAGGATCCAGCTGG
GCTGATGTGGCCAGATCTGGGGACACCCAGCCAGGTAGATGCACAACAGACCCATAATGGAGGCCAGCGAGGAAACGCTGGACACGTCCCCCATGACTGA
GCTGTGAGGACCTGACTTATCTGTGCGGCGGTCACTGTCGTGTAGAAATGGAAGCTGTACATGCAGGCTGAGGCTTCTCAGCTGGACAGTTCAGCCCGAG
TGAGCCCCAAGAGGACAGGGGAGGCTGGTCTTCATTCTTCCCCTCTGAATCACCAGCAAATGATAGACCGTCAATAATTTGTTAAATGCTTTTTAAAATG
AATGCTTTAAGCCGGGTGCAGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATTGTTTGAGGTCAGGAGTTCGAGACCAACCT
GGCCAACATGGCAAAACCTCATCTCTACCAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGCACCTGTGATCCCAGCTACTCAGGAGGCTGAGACAGG
AGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATTACGCCATTGTACTCCAGCCTGGGTGACAGAGAGAGACTCCGTCTCAAAAAAAAA
AAAAAAAAAAAAAAAATTACGCTTCAAACACATGATCTCTCACCACTGTTGAATTTTCTTTCTATGAGCCCAGGAGGGCCTCTCAGAGAGGAAAGCTCCT
AGGTCTTCCTTTCCCTCTGCAAACTCCCTGCCTTGAAGGATCAGAAGGACTGTGCTGSTCGTTGCATCCTTTGCAAGTTCCAAACCCTGATCCCAGCTGT
GCTTAGGGGTTCCTGCAAAYCTTTTCCAGGTGTTAATTACCTCCCACTTCATTTCCTGTTTACCAACTCAGCTTTTTGTTTTAGTGTGTTTGAATTCCCT
GAACTGACCGTTGTCTGATCTCCACCTCCCAACTGAATTAGGGGAGCTGGGCTTCTGGAAACCCAGGTGCCGGGTGTTGCAGAGTGGCTGAAAGCTGGGA
TGTGGCAGATCCGTGGCTACATTCATGCACACACACACACCCACATACCCACACATGCACACACACACACACACCTGCACTCACACACTTGCACATGCAT
AGACCACAGCTTTCCACACCCTTCCTAGACAGGGGTCACTTGGTRTCCTGGAGAGAGTGTGAAGTCTGGAAKGGAAAGAGGGGGGATTAAGCCCCACCTC
TAGCCATGGGACTGAGACAAGTCACCCCCACCCATCTGCGCCTTGTTTCCTCCTCTGTGAGGCAAGCACAGAGCCCATGCCTCCCTCCCTGGATGGGAGT
GATGTGAAACTTGAAGAGGGGTAGAGAYAAGGGTCGTCAATGGAAGCCCCTTGGGCAAAAAGGCCCTTTCAACTAGGGGCACAGAGGAGGCCCTGGGCTG
AGAACTTGACAGCACCTTGTATTGGTAACCAGCCGGAGGGACTGGAAATACTCAGATGTGTCTGTCTCCCTTATTAGGTTCAAAGTCCCTCRAGACCCTG
TCTCCATCACAGTGCTCCAGTCCAGACCCCTCCTCTGAGCTCCAGACCCTGCTGGACCCAACAGCCATCCCCATCCCCACCTGCCTGGAATTCTCCAAAG
AACCTCCCCTTTAACAGTTCCAGCCTTTAACAGTTCCAGTCTAAACACATGACCTTTCTCCTCTAAATCAGCCCCCCATCTCTGCCTTTGCAGGAGATGG
AAGCCATGACACCTGCCTCGCCCCTGTCCTCACCCCATCCATGTCCAATCAAGCACTAGGCATGTCAGGTTTACCCTCTAAACTCCTCTGGAATCCAGTC
TCTCAGTCTCCATCATCCCAGGTCGAAGCTAATGGGCTAACTGGTCCTTGCTTCCACTCTACCCCCACTGCAGTCCTGACTTCCTGAGCAGCAGCCAGGG
CCTAATCCATATTCACACCAAGCGCCTTCCTGACTGAGATATCCTCCTGCACCATCATCCCTCCACCCTGTTTAGTTCTGCTCACCCTCAGTGTTCTCAT
CAATAATCCACTCGCCCTCACAGGCGCGTTTGGGACCCCATGTTCTATGCTCTCACAGGACCTTTTGCTTGATTTTTCACTGTAYTYAGGTCAGTTTGCA
GTTATTAAGTGACTGAGCAATGTCTGGCTTCTCCAGTAGACTGTCAGCTCCTAGCCATTGTATCCYTAGCACCGCTGTGTGGGAGCACTTCACAAACGTC
CATTGAGTCAGGGACTCAGCAGTCTCCATTTCYCCTCCCTGCTGGAGAATGMGTGTATTTTGCAATCCCCAGCCCCTGTGCCATCTAACCRTCTTTTCTT
CTCTGTTCAGCCCAGGTGTGGCCTCACTCACATCCCACTCTGAGTCCAAATGTTCTCTCCCTGGAAGATATCAATGTTTCTGTCTGTTYGTGAGGACTCC
GTGCCCACCACGGCCTCTTTCAGGTGAGTCAAAGGGATTCCTCAGTTCACTAGTTAGRGGAGGTGGGCAGACACCCTGGAGAACTCCCTGGAAAGCTCAA
CTCTCATGCCCCGGACAACAGTTGAAGGAACCAGTGATGTTAAGCCCAAAGACAAAACCTCTCAGGTGTCCAAGTCCCTGTAGGCCTGTTGGGAGCAGAG
GGAATGTTCTGCGGAACTAGAGGAAGAGGGGCTCAGGGAGAAGAAGGGCACATTCCTGGTTGTCATATGTGATCTATCCCAGATGAACTTGGAAGTGAAR
GGAAGAGAGTTAAACATTAAAGTAAATACCCAGTGGATCAGACAGCAATGTGCCAGATTGCCTTGGAGACAAAATATCTCCAACACATGGCTGACATTTG
GTGGGAGATCAGAACACCCTAAAGAGAGAATTTAAGGGGAGGGGGAGGAGGACCTGAGCCAGAGTAGAAGCAGAGGATAGGGAGATCTGTTCTTGGGGAC
AGCATTTGCAAGAAACAAGGCTGAGGGGTCCACTCCAACCTCTCCACCCTGCTGCAGGTGCTGCCTATGATGAAGATGAGCAGATGGCCATCTCAGCTGG
GGCCACAGTGCACTGGACCTATAGTTTCCAATTCCGCACTCAGCAGGCATCTTTCTGATGATCCGATGGCTTCTCAGAGCCAGGGATGGGCCAGGATCCA
TCCCCTTGGCTACTGTCTTGCTGAGAAATTWATAAGCAGCATCTGGTGCTATACTTTGGTCTCTAGTGAGTTAGCTCATGAAAGATGAYAGACTCTCCAA
GCCAGGGGTAYGCAGGAAATGGGTTTTCTGTAGCTACAGAAATGGGGTTGAGGGTTGGACCAAGGSGACTACCCAGGGGAAGTCTTACCTTCAGAGGACT
CTGGAAAGGAGGCTGCAAGTTTTCATGGGTCAAGAATTCAGAGCCCAGTAGAGACAGCTTATCTCTGTTCCAAGATGTCTGGGGCCTTGGTTGGAAGATT
CAAAGGCTAGGAAACCAGGAGCCACCAAAAGCGTAACTGGGGCCAGAGGATCCACTYTCAAGGTGGCAAGTTGGTTCCCCCCATGTGGCTGCTTGAGTAT
CCTCACATGGCGGCTCACATCCTTCCAAGTAAGCAATGCAAAAGGCCAAGAAAGATGCTGCAAAGCATGTTATGACCTAGCCTCAGAAATCACACACCAT
CCCTGCCACCATTAGTAAGAAGTCCAGCCCACRTCCAGGAGAAGAGGAAGCAGATTCCTCCTTTTGAAATGAAGAATATCAAGTAATTCGGGGGGCATAT
GAAAGCCACCACACACCACAGGGATCTTTTTAGAGCATACTTCTTATACCATCACTGTAGTTCCTTAAGACTCAGGGGCAAAGCCTCACTTCCTTAGCAC
CCAGTGAAGACCACGCTTACTCCCTCACTCAACCTCTTGCTACTTCCCACCTCTCCYGTCCAACATCTAGTGTCACTTTCCAGAACATACCAACAGCTTC
CCCAGTTCTGTGCCTCTGCTMAGGCTGTTCCCCCTGCCTGGTCCACTTGTCCTCCTTCTTGTCCSKTCAAAATGCTTCTTATCCTTCAAGACCCAGCTCT
AGAGTCACCTCCARCCCCTTACCCACCAGCCYCCTCTCCAAGTCTGTGTCCCACAASCCCCCTGCTCCCTCCAGGGCMCCCTCCACCCTCTGGGCCACAG
TTGTCAGGAGTCAGGCAGGGCAGGGGCCRGGTGGTGTCTTCTTTGTGTTCTTGCACTCAGGGCAGAGCTCAGCACAGAGCAGACGCTCAAAAAACATTTA
AAGGATAGAAGCATTGATTTGTGGGTCCCCCAGTCTGGCTCCAGGATGCCAGCCAGCTGCTCCTAGAAGCAAACGGACTTTTCCTGGGAAATCCCAGAGG
TGATGATCAGTATCTCTCCCGTGACTCGTAGTTCAGCTCTTCCTCCATGAGCCTGACTATCAGTGGACCTTCCAGAAAGAGCCCCTTTTCCTTCTCTCAC
CCACAGCACAGGGCACTGGGAAAATGCCCAATGAGTCCTGCCCTCTGGGTTGTGCTTTGGACTTTTCAGTGTGTCTTCGCATCCACTCTTCARCTTGAAT
GTTGCAACAGCCATGAAAAAAGAAATGCAAAGCGATTCAGGATGAGAGCAATACCCTACTCCAAAGAAGGCAAAATAGAAGCTCAGAGAGGTCAAGCAWT
TTKCCCAAGACCACACAGCTAGGAGTGGAACTCATGGCTGTCCAAGCCCCACGCCTCTGCTGAAGGTAGAGATGAATTACAGCAACAAGTCTAGAAAGGT
GCCTGCCCTATGGTCTGTGAGTCTTGCCTAAGAATGAAAGAGGAGCCAGTGGGTTAAAGATGAGGTCACCAACAAACGGTGGTGTTGGAGTTTACCACTG
GTTATTTTAATGGGTTTGCAAGAATTGTTAATTACTAATGTTTATTGAGCCTAGTGCAGTGCTTGGGGYATTTTGCACATTGTCTCTGATCCCTATCACA
ACCCTGAGAGGTAGTTTTTTTAACTCCCATTTTACAGGTGAGGTCATTGTGGTTCAAGGACGTTAAGTAACTTCCCCAGCRTCACACGGCTTATAAGTAA
GGCAGCCAGGATGTGAACCCAGTAGGACTATCTGGCTGCAAAGTCCCCACCCTCCCTCGCCATCTGTATCCTCCAATCAYCTTCAGTGCTTTGCTGATAG
AAGGTACGGAAATACGATGCCACAGACTGTCSAGGAAGACAGAAACTAGGCAGATGGGCTGGCCATGGTCTCCAAGCCAGACTGGAATCTCCAGGTCTGG
AATGATATCATTTTTCTCTTTTAATAAATTAACTCACCCACCACACGGCTTTGAGAGGCTCAAAGKTGACCAACTCCCTTGGGAGGGCCCCGGTTGATAA
GGAAGGAAYGTGAATCCTCCCATCACGGAAGCTTCAAGGAGGTCAAGGGTCCAACACTTGAGATTGTTAGTGCTGTTGGTGGATACTGGCCAAGGAAATA
TCCCAGTGGAGCCTCGAGATGARGAACATGAGGCCCCCGTTTAGATCCAAGGATCAGAGGGGGCTCTGTAAGACCCAGGGGAGTCAGGTGCACTGGAGCG
CGGGCTGCAGAAAACAGCCTGAGCTCCACCTCGGCTTCTCCTTGYCCTGGCTGGTTGTCCTTAACCCCTGTCTCCTTCTGGACCAGTTTTTGTCCTTCCC
TTGTGACCCTGAGGGGTAACAGCCTCTTTTCCACTTTCTTTCAGCGCCGACATGCTCAATGTCACCTTGCAAGGGCCCACTCTTAACGGGACCTTTGCCC
AGAGCAAATGCCCCCAAGTGGAGTGGCTGGGCTGGCTCAACACCATCCAGCCCCCCTTCCTCTGGGTGCTGTTCGTGCTGGCCACCCTAGAGAACATCTT
TGTCCTCAGCGTCTTCTGCCTGCACAAGAGCAGCTGCACGGTGGCAGAGATCTACCTGGGGAACCTGGCCGCAGCAGACCTGATCCTGGCCTGCGGGCTG
CCCTTCTGGGCCATCACCATCTCCAACAACTTCGACTGGCTCTTTGGGGAGACGCTCTGCCGCGTGGTGAATGCCATTATCTCCATGAACCTGTACAGCA
GCATCTGTTTCCTGATGCTGGTGAGCATCGACCGCTACCTGGCCCTGGTGAAAACCATGTCCATGGGCCGGATGCGCGGCGTGCGCTGGGCCAAGCTCTA
CAGCTTGGTGATCTGGGGGTGTACGCTGCTCCTGAGCTCACCCATGCTGGTGTTCCGGACCATGAAGGAGTACAGCGATGAGGGCCACAACGTCACCGCT
TGTGTCATCAGCTACCCATCCCTCATCTGGGAAGTGTTCACCAACATGCTCCTGAATGTCGTGGGCTTCCTGCTGCCCCTGAGTGTCATCACCTTCTGCA
CGATGCAGATCATGCAGGTGCTGCGGAACAACGAGATGCAGAAGTTCAAGGAGATCCAGACRGAGAGGAGGGCCACGGTGCTAGTCCTGGTTGTGCTGCT
GCTATTCATCATCTGCTGGCTGCCCTTCCAGATCAGCACCTTCCTGGATACGCTGCATCGCCTCGGCATCCTCTCCAGCTGCCAGGACGAGCGCATCATC
GAYGTAATCACACAGATCGCCTCCTTCATGGCCTACAGCAACAGCTGCCTCAACCCACTGGTGTACGTGATCGTGGGCAAGCGCTTCCGAAAGAAGTCTT
GGGAGGTGTACCAGGGAGTGTGCCAGAAAGRGGGCTGCAGGTCAGAACCCATTCAGATGGAGAACTCCATGGGCACACTGCGGACCTCCATCTCCGTGGA
ACGCCAGATTCACAAACTGCAGGACTGGGCAGGGAGCAGACAGTGAGCAAACGCCAGCAGGGCTGCTGTGAATTTGTGTAAGGATTGAGGGACAGTTGCT
TTTCAGCATGGGCCCAGGAATGCCAAGGAGACATCTATGCACGACCTTGGGAAATGAGTTGATGTCTCCGGTAAAACACCGGAGACTAATTCCTGCCCTG
CCCAATTTTGCAGGGAGCATGGCTGTGAGGATGGGGTGAACTCACGCACAGCCAAGGACTCCAAAATCACAACAGCATTACTGTTCTTATTTGCTGCCAC
ACCTGAGCCAGCCTGCTCCTTCCCAGGAGTGGAGGAGGCCTGGGGGCAGGGAGAGGAGTGACTGAGCTTCCCTCCCGTGTGTTCTCCGTCCCTGCCCCAG
CAAGACAACTTAGATCTCCAGGAGAACYGCCATCCAGCTTTGGTGCAATGGCTGAGTGCACAAGTGAGTTGTTGCCCTGGGTTTCTTTAATCTATTCAGC
TAGAACTTTGAAGGACAATTTCTTGCATTAATAAAGGTTAAGCCCTGAGGGGTCCCTGATAACAACCTGGAGACCAGGATTTTATGGCTCCCCTCACTGA
TGGACAAGGAGGTCTGTGCCAAAGAAGAATCCAATAAGCACATATTGAGCACTTGCTGTATATGCAGTATTGAGCACTGTAGGCAAGAGGGAAGAAAGAG
AAGGAGCCATCTCCATCTTGAAGGAACTCAAAGACTCAAGTGGGAACRACTGGGCACTGCCACCACCAGAAAGCTGTTCGACGAGACGGTCGAGCAGGGT
GCTGTGGGTGATATGGACAGCAGAAGGGGGAGACCAAGGTTCCAGCTCAACCAATAACTATTGCACAACCAYCTGTCCCTGCCTCAGTTCCCTCTTCTGT
AACATGAAGTCGTTGTGAGGRTTAAARGCAGTAACAGGTATAAAGTACTTAGAAAAGCAAAGGGTGCTACGTACATGTGAGGCATCWTTACGCAGACGTA
ACTGGGATATGTTTACTATAAGGAAAAGACACTGAGKTCTAGAAATAGCTCCRTGGAGCAGAATCAGTATTGGGAGCCGGTGGCGGTGTGAAGCACCAGT
GTCTGGCACACAGTAGGTGCTCATTGGCTCCCTTCCACCTGTCATTCCCACCACCCTGAGGCCCCAACCRCCACACACACAGGAGCATTTGGAGAGAAGG
CCATGTCTTCAAAGTCTGATTTGTGATGAGGCAGAGGAAGATATTTCTAATCGGTCTTGCCCAGAGGATCACAGTGCTGAGACCCCCCACCACCAGCCGG
TACCTGGGAAGGGGGAGAGTGCAGGCCTGCTCAGGGACTGTTCCTGTCTCAGCAACCAAGGGATTGTTCCTGTCAATCAATGGTTTATTGGAAGGTGGCC
CAGTATGAGCCCTAGAAGAGTGTGAAAAGGAATGRCAATGGTGTTCACCATCGGCAGTGCCAGGGCAGCACTCATTCACTTGATAAATGAATATTTATTA
GCTGGTTGGAGAGCTAGAACCTGGAGAGCTAGAACCTGGAGAACTAGAACCTGGAGGGCTAGAACCTGGAGAGGCTAGAACCAAGAAGGGCTAGAACCTG
GAGGGGCTAGAACCTAGAGAAGCTAAAACCTGAGCTAGAAGCTGGAGGACTAGAACCTGGAGGGCTGGAATCTGGAGAGCTAGAACCTGGAGGGCTAGAA
CCTGGAGGGCTAGAATCTGGAGAGCTAGAACCTGGAGGGCTAGAATCTGGAGAGCTAGAACCTGGAGGGCTAGAACCTGGAGAGCTAGAACCTAGAAGGG
CTAGAACCTGGAGGGCTGGAATCTGGAGAGCTAGAACCTGGAGGGCTAGAACCTGGAGGGCTAGAACCTAGAAGGGCTAGAACCTGGAGGGCTGGAATCT
GGAGAGCTAGAACCTGGAGGGCTAGAACCTGGAGGGCTAGAACCTAGAAGGGCTAGAACCTGGAGGGCTAGAACCTGGCAGGTTAGAACCTAGAAGGGCT
AGAACCTGGAGAGCCAGAACCTGGAGGGCTAGAACCTGGAAGGGCTAGAACCTGTAGAGCTAGAACATGGAGAGCTAGAACCCGGCAGGCTAGAACCTGG
CAAGCTAGAACCTGGAGGGAATGAACCTGGAGGGCTAGAACCTGGAGAATGAGAAAAATTTACATGGCAAAGAGCCCATAAATCCTGACCAATCCAACTC
TGAATTTTAAAGCAAAAGCGTSAAAAAAAAGATTCCCTCCTTACCCCCAACCCACTCTTTTTTCCCACCACCCACTCTCCTCTGCCTCAGTAAGTATCTG
GAGGAAGAAAACAGGTGAAAGAAGAAGTAAAAACCATTTAGTATTAGTATTAGAATGAAGTCAAACTGTGCCACACATGGTGAATGAAAAAAAAAAAAAG
AGGCTGTGTTTTGTCACACAGGGCAGTCATTCAGCACCAGAGCACGTGATGGTCTGAGACTCTCTTAGGAGCAGAGCTCTGCCGCAATGGCCATGTGGGG
ATCCACACCTGGTCTGAGGGGCAACTGAGTCTGCGGGAGAAGAGCGGCCCTATGCATGGTGTAGATGCCCTGATAAAGAACATCTGTCCTGTGAAAGACT
CAATGAGCTGTTATGTTGTAAACAGGAAGCATTTCACATCCAAACGAGAAAATCATGTAAACATGTGTCTTTTCTGTAGAGCATAATAAATGGATGAGGT
TTTTGCATAGCTCTAGCATTTGTTACAACTCCCGAAACCCCCGAGTTTGGTCCCTGGGGTACCGCCTTGCACACTCAGAAGCCTTTGGGAAGGGGTGCTA
TTCATTTCTGCTCAATCTGTTAACAGGCTTCTGGCATGTAGATCAGTGGTCTCCAAGCTTTTGTGATTGTATATTCCTATAGGAAAAAAAGAATTGATTA
TGCATACCCRGTATGTATACTTATTAATCTGTATGAAGATGTACATTCTAAAATATAATCAACCAGTAGAAATTTAAGAAAGAAGATGTAAAAAAAAAAA
ATATTAACAGTGCTTGAATATTTCCTTCCATCTTACATTTCTGCAGGGATAACTCATTACCAAGTTCCCACTACATGAATGTGAGACCCTCATGAGGCCT
AGAATCATAGGCGCAGCAGCGATTCAATCATTTATTCATGCAATATAGACTTACTGAGTGCCTACCACTTGACTTCCCTTCAAATCAGGAGTATCTTCTA
CAATATCCTGATGAAAAGCCACTTGTTTCATACTCCCAGTGATGGGGAATTCATTATCCATGCCACTTTGGGATCCCTTCATTATTCATGTATTCATTCC
TTCACTCATTTATTAAACAAAACTTGCCTAGTCTGTCTCCATAAATGCCCCTCCTCCATCCATGCATCCATCCATCCATGCCAGGAACCTGGGGCTCATC
GCTCAACGTACCCTCTCCTTCATCTGTTCCATCTGGTGGGTCAGCACCTCTTTTATTTTTTTCTAACTTTTATTTTGAGTTCAGGGGTACACGTGCAGGT
TTGTTACATAGATAAACTTGGGTCATGGGGGTTTGTTGTACAGATTATTTCATCACCCAAGCATTAAGCCTACTACCCATTAGTTATTTTTCCTGCTCCT
CTCCCTCCTCCCAACCCCCACCCTCCACTAGACCTCAGTGTCTGTTGTTCCCTTCTTTGTGTCCATGTGTTCTCACCATTTAGCTCCCACTTACAAATGA
GAACATGTGGTATTTGGTTTTCTGTTCTTGGGTTAGTTCGCTAAGAATAATGGCCTCCAGCTCCATCCATGTCCCCGCAGAGGACATGATCTCATTCTTT
TTTATGGCTGCATAGTGTTCCATGGTTGTATATGTACCGCATTTTCTTTATCCAGTCTATAATTGATGGGCACTTACATTGACTCCATGCCTTTGCCATT
GTGAATAGTGCTGCAGTGAGCACTCATGTGCATGTGTATTTATGATAGAATGATTTATATTCCTTTGGGTATATACCCAGTAATAGGATCAGCACCTCTT
TTAGATTCTACTCACTAAGTGTTTCCTAAATCTATGTTTCCTTCTATGTCCAACCATCGTCTGTCATGGGTGCCTCCAATACTAACTACTACCATCTCCC
AATTCTTATTCTTCACTCTGCAGCCAACATGGTCTTTTAAGAATGCAAATACATTCATGGGGAGGCTATAAACATAGAGAACTGTGTTCAGGAGCCAAGA
CTTTAGGATTAGGTAGACCTGGATTCCACTTGTGGTTCAGCCTTGGGCTCTTATTTGCTGTGTAGTCTTGGGTACCTCAGTTATCCTTTCTGAGTCAACA
TTTCCTTGTCTGCAAAATGGGGATAATAATGGTATCTACCTCATAAAATTGTTAATAGGATTAATGTATGAAAGCATCTAGCACAGTGCCTGGTACATAG
TTGGCACTGAACATGTACTAGCTTTGATGATGATGATGATGATGATGATGATGATGTGGTGGTGGTGTTGGCAGTGAGTGTGATGGGGGCATCCTCCAAG
GGAAACCCTTCCATAGTGTCCCACCCCTCTTGCGATAAGGTTCTACAGCTGTAACATGGCTTGCAAGACCCTTCATGATCTGGTCCCTGTCTTGTCTCTA
TGTCTCCCTCTCTCTGCTCCAGGCTCATTCTCTACCCTCCAGCCATTTGGACACAAGAACCTAGACAGATCCCAGAAGATATTTCATTCTGCCTCCAGTG
CCCACTCTTCCCACCCAGACTGCACCCCCTCACTAAGTGCCCTGAACTTGGAGGAAGTTGTCCACAAGTGCCCAAGGGAGCTCACTCCTCCAGGGAATTT
TGTTCACAGATGCCTGCATTACTCAAGGGAGTCTGCAATCCAGGGGAAACCACATGCCTGGAAACCTGAGCAGGGCTCTTAGCAGGCAAAAAAAGAAAAA
AAAAATGCTGGGAGAGCCTCCCCAGCGAGGCAACAGGAGCAGCCCCTCAACTCCTGACCCTCTCTGGCTCCAGCAAGCTGGCGCAATGAGAAGAAGTCCA
GGTGGGCTCAGGAGACCAGGCAAGGGGCCTAGCTCCTGAGTCTTCCCTGGCCACAGAGGGGTGAGAATAGGATGCAGAGATGCAAACTGGACACCAGATG
ACCTCATGGGAATTCATGCTAGTGCTGGAGCCTCTTGAGCACAGCCTTCATGACTCAGAGGGGGAGTGTCTCCATTGTGTAGATCCCAGCCATGTGCTGC
ATTATCTCCTTGTTACCCAATTCCTGACCCTTACGTAGCTCTGATCCTTCACCAAGGATGAGGGTGGGGAGCAGGGATGAGCAACAGAGGTCATGATTTG
GCAACAGCAATGGCTGAAAGTTTAATCGTTTGTTCATGAGAGTTTTATTCTGGTTTTAGTTTTTTATTTTGTTTTGCTGGCTGAGGCAAAATAGTCCCAG
GTCAAAGGGACCCCATCAAAATACTTCACGCTCACAACCACTCTGGGAGTTTGCATGATCACTGGTTCATGGTATGGAAACTGGGGCCCAGAGAGGGAAG
TAACTTTCCAAGGCCATGCAGTTCTTAAGGAGGGTGCTCTGGAAATTCTCTCTGTTCTTGGGGTGTTCATGCCTTAACAAACCGAGGATACAAATTCTGT
CACAGGAAAAGTCCTCGAAGTGCCTTCTTGCATGACGAGCTTATGACCCAGGGCTTGGGCTATTTCTGCCACAATAAAAGCTTTGCATCTCATAGGCCTT
GTGCATACTTGCTTCCTGCAGATCACCTTCCCAGAGCTGGTGGATGTAATTCACATGCCGTAGAGTTTACCCACTTCAGCTTTTACTTAATAACCAATTC
ATGCAACCATCACTACTGTCTAATTCCAGAACACTTTCATCATCCCCCAAGAAATCGCATATTCATTAACAGTCACGTCCCATTCTCCCTTCCTCATGGC
TTTGGGCAACCACTAATCTTTCTGTCTCTAGATTTACCTGTTGTGAAAGAAGCCAGGCACATGTTGTAGGATGCTGTCTCTGTAGAGCCTATAACACATG
CCTTTTGTGTCTAGCTCCTTTTACCTCCTAACACTGAGCTAGAATGTTTAATTGTTGGGGGAGAATTTTGGGGACCAGTCCATGGGTTCCCTACCATGCC
ACTTGTGTGATCTCAGCAAGCCACTTTACTCATCTTCCCTCCCACCACCTTTGGCCTTAGTTTTCTCGTCTGTCAAGTGGAGAGATAATAAGTCATGACT
CTAACAGGTTTCTGGCATGTAGATCAGTGGTCTCGAAGGACTGCCTTATGTGATGTTGATGCTGTCCTCTATAGTTTACGAAGGCCCCAGCACCAACAGT
ACAGGGGCTTGGAGGCAGGTTCCTGGTTCACATCTTACCTCTGCCACTTCCCAGCTGTGGGAATTTGAAGAAGGTCAGTGAATTTCTCTGAGTGTCTCTT
TTCTCATCTATTAAATGAAGATCCAAGTATTGTGAAGATTCAGTGAGATAAAGATGTTGTGATGAGTTGAAGAGTATCCCTCCACCCCAACTCATGTCCA
CATGGAACTTCAGAATATGACCTTATTTGGGAATAGGGTCTTTGCAGAAGTAGTTAAATTAAGATGAGGTTACACAGGTTGAGCATTCCTAATCCAAAAA
TCTGGAATCACAAATGCCCCCAAATCCACAACTTTTTGAGCACTGACATGATGCTCAAAGGACATGTTATTGGAACATTTTAGATTTTGGATTTCTGGAT
TAAGGATGGTCAGCTAGTATGTATTCTGCAAATACTCCAAAATCCAAAAACATTCAAAATGCAAAACACAAAAACTTCTGGTCCCAAGCATTTCTGGATA
AGGGATCCCCAACCTGTACTGGACTAAGGTGACCCTTAAATCCAATAACTGGTGTCCTTATAAGAAGAGGAGAAAAACACACAGAGACACAGAGAGAGAT
GGAGGCAGAGACTGGAGCGATGCTTCCACAAGCCAAGAAATGTGAAGGATTGCCCAGAATCACCAGAAGGGAGGAAGAAGCAAGGAGTGGCTTCTCCTTC
AGACCCTCCAGGAGGAACCAACACTGCCAGCACCTTGATTTTGGACTTCTGGCCTCCAGAACTGTGAGAGGACAAATGTTCATTGTTTAGGCCACTTAGG
TTTTGATACTTTGTATGGAGCCCTGAGCAAATGGATACAGGTATTTTAGTCTTTTTGAGCACATGCTCACCATCCAGTTGCCCATTAAGGTACCTGCAGG
CCCCTTCTCTCAACAATGAGAGGGCACACTGGATGTTTTTCTCAGGTCTTTTTAGGGTTAGAGATACTTGTTCGTGCAGATTTCCTAAGAAATAATACCA
AATGCCATCTTACTAAATTGTAGAGGATTTTTTTCAAATGGAAGATACTGAGGCCTTTCCCATATTGCGGGCCAGCCCAAGCCCCCAGAGCGTGAATCAT
GGGCCCCGGGTGCTGAGTGTAAATGCCCATCCTTGCGGACCTAGGACCTGGGATCTGCTGATTCTTTCTTCCTTCCCCAGAACCAAAAGGCAGGCCAATT
CAAAGAGTCTCAGACCAGGATTCAAATAAATAAATAAATGGCCTCAGAGCCCAGCTCCCAGCTTCCAGACAGCCCAGCCACCAACCCCACCCAGGTGGGA
GGCTACTTATAGACAACCCTGAAAGATGGTCAAAGATGGGGTTCTGAGACTCTCTGGATGCCTCCCTTCATGCTGAGTCACCCTTTGCCGTCCACTCAGC
CGGCGAGCAATGAGTGTCTGTTTCCTCTCTTCAGTTCTGGCCAAGACAGAGCACGGTGTGTGTGGGCCCTCCTCATAATGACACTACCATCGTCTTGTGC
AACAGTAAAATGATAAAATCAGGAACAGTTACTGTGGGGTGCCTACTAAAGGCCAGTTGCATCACCACATTATCCCATGTGATTACCAAATTCTACAACA
TGCTCCACTTTACAGACTGAGGCTCTGGAAGGTGGAATTGAAAATGGTCCAGATTCTCCAATTGCACACAAAAAATGTGTTGCTTTCTACCATAATTTCC
CATTAAATTGTCTCTTTCACAAAAAAAAAAAAGAAGAAGAAGAAGAGGAAGAAGAAAATGGTCCAGATTCACCTTCTCAGCAGTGACGGAGCTAGGGTGT
CAACGCTGCTGAGGCAGCTCCACACCGTACACCTGCCTGCCTGGACTTCCAAATCAGACCTTAAGGACCAGGGACGGGACTTGTTTTTGCAGTCAGATTT
GCTCACTGTCTTCCTGACCTCCCTAAGTACAGTAGTCCCCCCCTTTATCCATGGTTTCAATTACCTGTGGCCAATATAGGTCTGAAAATATTAAATGGAA
AATTCCAGAAAAAAGCAATTAATACGTTTTAAATTATGCACCAGTCTGAGCAGTGTGATGAAACCTCGCCCCGTCCTGCTTTGTCCCACCTGGGACATGA
GTTGTCCCTTTGTCCAATGTACCCATGCTATATAAGCTACCCACCATTACTGTATAGCAAAAAGCATAGTGTTATAAGGTTTGGTACTATCTGCAGTTTC
AGGCATCCACTGGGGGTCTTGGAACGTTTTCCCCATGCCTAAGGGGGAACTGCTGTACAGAGCCTCATTCCTTTCTGTTTTGAAGACCACTGGATCCTGT
TCTGTTTCTTCATAGAACTCACAATCACGATCCTGTACAGGTTTCTCTGTTAGTCTGTCTCTATCCCAAGTCTGTAGCCCCCATGAGGGCTGGGACAGTC
AAGAATGACCCCAAGTCTTCAAGAAAAGTTATGGTTATCTTCAGCAATTTCAGTTCCCCTATACTCAGAGTTCTGCAGCTCACAGAAGCAATTTCAGTTT
CCCTGGATCCGGAGTTTTGCATCCCCATCATGGGGACCAATATGATTTATATGAAAGATAAATGCTCACAGCATCAACTTTATAATACGGTAATCCAATT
CCATCTCTTTAAAACATCATAAAGGAACTACTGGTTTCTAAGGAAAACATCTTATTCCATACCCCCATTCTTTGCTGTACACATGGCTTAATTAGG


SNP Information

Context             (SEQ ID NO:18964):
GTAAGCGCAGACACAGAGCTATGACTCCCGTTCTCCCTGTGTCAGCCCCTGCGCAGTGCGAGTGGGAGGTGAGCCACTGTTGCGTGCCCTCTGCCAGACA
Y
AGGCCTGCAGGTCAGACTCACAGGGGCCAAGCAGAGCATCTGGGAGGATTTTGTTTCTGGCTCCAAAAATGAAATACCAAGGAAAGTAGGCAAGCTCATG
Celera SNP ID:            hCV25934034
SNP Position Genomic:     17261
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,37|T,3)   total(C,67|T,11)   
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,8)   caucasian(C,37|T,3)   total(C,61|T,11)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:18965):
CTAGAGGTGCTTGAGTGGTTGGTGCAAGGGGGCTTGTGGGGAACCAGAGCGTCCTGGTGTTTAGAGCAGCAAGGAAGAGGCTGGGTAAGGACAAAGGACA
Y
TGGGACAGACAGAAAGCCTGACTCTAGAAAGAAGGGGCCAAGGTCACTGGAGAGGAGAGAGAGGAAGGATTAAGGACGATTGAGTGGGTCATAGGGGTTG
Celera SNP ID:            hCV27969549
SNP Position Genomic:     22988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18966):
CGTCACACGGCTTATAAGTAAGGCAGCCAGGATGTGAACCCAGTAGGACTATCTGGCTGCAAAGTCCCCACCCTCCCTCGCCATCTGTATCCTCCAATCA
Y
CTTCAGTGCTTTGCTGATAGAAGGTACGGAAATACGATGCCACAGACTGTCCAGGAAGACAGAAACTAGGCAGATGGGCTGGCCATGGTCTCCAAGCCAG
Celera SNP ID:            hCV16175302
SNP Position Genomic:     41080
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,44)   total(C,2|T,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18967):
TCTCCACCCCCACTACCCCTCTGCCTCGGCCTGGGGTATGAGGTCTTGGTTTTGACAATCAGACAATGTTAGCACACTGCTGTGTCTTCCACCTGCAATG
R
AGCACTGTAGGACGATTTTAAAAAGCAAAGTGGCAGGCCAGGTGCGGTGACTCAAGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATTACC
Celera SNP ID:            hCV1772922
SNP Position Genomic:     27581
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18968):
GAATGAGGACATCATGACCACCATGCAAAGGCCATTGCTCTTAAGGTTTGATGTAAGCTCCCCACTCTCCACCCCCACTACCCCTCTGCCTCGGCCTGGG
K
TATGAGGTCTTGGTTTTGACAATCAGACAATGTTAGCACACTGCTGTGTCTTCCACCTGCAATGGAGCACTGTAGGACGATTTTAAAAAGCAAAGTGGCA
Celera SNP ID:            hCV1772923
SNP Position Genomic:     27516
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18969):
TGCATGCCTCTCAGGATGGGGAGTTCACTGCATCCCCCTCTTTAAAGACATTACGGTTGTACAAAGGTCTCCAGAATCATCTATTACATCCCCTCATTCT
Y
CCAATGAGGAAATTAAAGCTCAGAGATGCCGAGGCATTTACCCAAGGGCACACCTGGTCCTGGGCCTACGACCCTTAGACAATATTCCTTCCACCTCTTT
Celera SNP ID:            hCV1772925
SNP Position Genomic:     26482
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18970):
TCTGAAATAAGAGTCCTTAGCTTTTAGAGAAGAATAGTGAAATATTTACAGATGAAATGACAGACATGCAGGATTTACTGCAAATATTACAGGAGGGGTA
R
GGTAGGTTTGGGCATAGAGAAAAAGATTGGCTGCGAGTTGGTAATTACTGAAGCTGGGTGAAGTATGTGGAGTTTCATTATGCTAGTCTATCTACTTGTG
Celera SNP ID:            hCV1772926
SNP Position Genomic:     25396
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18971):
TATGAGAGGGATGCAACTGAGGCTACCTGGAGTGCGTGGACACAGCCATGGCCTCAGGTCATCATCTCCCCCACGAAGCCTCCCACACCTCCTGTCCCCA
W
CTTGGGCACACTTCCCACCACCTGGGAGACCCCTGAGGGCAGGCACCATCTGTCCTTCACCACTATATCCCCCTATAAAGAGAGATAATGCAGTGAGGTG
Celera SNP ID:            hCV1772928
SNP Position Genomic:     22168
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,5)      total(A,1|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18972):
TCTACCCTGGCCCCCAGTTCTTTGATGGGTTTTGCTGATGCTCCTGTGTCTCTGAACAGCAGGCGCCTCACCTATAGAAAGGTAGGATAGCAGGAGTTAA
Y
GCCCCCTCCCCCATTCCATGGCCCCTGCCTGGGATTCTACCATCTCTGCTTCATATGCTTTATAGGAGTTCGGTCTGAGCCCACAACCCAAACAGGCTCA
Celera SNP ID:            hCV29078136
SNP Position Genomic:     14120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18973):
CCAGTAGACTGTCAGCTCCTAGCCATTGTATCCCTAGCACCGCTGTGTGGGAGCACTTCACAAACGTCCATTGAGTCAGGGACTCAGCAGTCTCCATTTC
Y
CCTCCCTGCTGGAGAATGCGTGTATTTTGCAATCCCCAGCCCCTGTGCCATCTAACCATCTTTTCTTCTCTGTTCAGCCCAGGTGTGGCCTCACTCACAT
Celera SNP ID:            hCV27857633
SNP Position Genomic:     38233
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:18974):
CCAGGTTGCAAGACCCCTCCTACCAACTGAGCTACAAATCACAGTTCCTGGAGGGTGGGCCTTTATATAACAGGGAACAGAACTCTTCTGTACCTCCCAC
Y
TCCCCGCAAGAAGTAGGCCAGGCATGGTAGCTCATGCCTGTAAATGAAGCATTTTGGTAGACCAAGGTAGGAGGGTCACTTGAGGCCAGGAGTTCGAGAC
Celera SNP ID:            hCV25935271
SNP Position Genomic:     17578
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:18975):
GTGAGTTAGCTCATGAAAGATGACAGACTCTCCAAGCCAGGGGTATGCAGGAAATGGGTTTTCTGTAGCTACAGAAATGGGGTTGAGGGTTGGACCAAGG
S
GACTACCCAGGGGAAGTCTTACCTTCAGAGGACTCTGGAAAGGAGGCTGCAAGTTTTCATGGGTCAAGAATTCAGAGCCCAGTAGAGACAGCTTATCTCT
Celera SNP ID:            hCV7565916
SNP Position Genomic:     39266
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,6|G,36)   PGA-EUR(EAN-PANEL(C,11|G,35)   total(G,71|C,17)   (C,-|G,-)   Caucasian(C,29|G,55)   African-American(C,13|G,65)   Asians(C,3|G,77)   total(G,197|C,45)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18976):
CACAAACGTCCATTGAGTCAGGGACTCAGCAGTCTCCATTTCTCCTCCCTGCTGGAGAATGCGTGTATTTTGCAATCCCCAGCCCCTGTGCCATCTAACC
R
TCTTTTCTTCTCTGTTCAGCCCAGGTGTGGCCTCACTCACATCCCACTCTGAGTCCAAATGTTCTCTCCCTGGAAGATATCAATGTTTCTGTCTGTTCGT
Celera SNP ID:            hCV16175236
SNP Position Genomic:     38291
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,42)   total(G,2|A,42) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18977):
GTTGTTAACCATTTACCAGCACCCCACTACCTCTGTCTCCTCTGTCAGCCCAGGGAAGCGCACCCTTGTCCAGAAGTCCCCAAGGGCATAGGGCAGAGCA
R
CAGGAGCCCAAGTACCAGGTCCCAGCCCCCACCCCTCCCCTGAGAGTTGTGTGGTCCTGGGCAAGTCAGAGGAAATGCCGGGGGTATTTATTTTAAAAAG
Celera SNP ID:            hCV1772929
SNP Position Genomic:     21424
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18978):
TGGTTTGAGTCCCAGTCCCTCATCTCTCCAGCCTCCAAGCCCTCACCTATGCAATGGTGCCTTGCCCGGCTCACAGGTTATGAAAAGGGGTGAGACGAGA
Y
AGTGTCCCCTAAATACATCTGACAGCACTTTTGAATGGAAAAGAGAAAAAGAAAATACTATAAGCATCCAGATTGACTGGAGGTTGGGGAGTTGGTGGGG
Celera SNP ID:            hCV29078137
SNP Position Genomic:     16007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18979):
CATGTCCCCTCACTCCCTGCCCTCCAGTCCCCGCCAGTCCTCATGTTTTCCATGAGGATGAGTACAGCCGCAGGGACTTTCCCTGCAAGTGGTCTGGGCC
R
TATCTTCCGGGAGTCTGTTTGGACTGTGGTGTCTGTGGCTGAGGGGGTGGAGGTGAGGGCACCCAGGCCCATCACTTGACAGAACAATCTGTGGATTTGG
Celera SNP ID:            hCV28012990
SNP Position Genomic:     15481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18980):
ATCTAGTGTCACTTTCCAGAACATACCAACAGCTTCCCCAGTTCTGTGCCTCTGCTCAGGCTGTTCCCCCTGCCTGGTCCACTTGTCCTCCTTCTTGTCC
S
GTCAAAATGCTTCTTATCCTTCAAGACCCAGCTCTAGAGTCACCTCCAACCCCTTACCCACCAGCCCCCTCTCCAAGTCTGTGTCCCACAACCCCCCTGC
Celera SNP ID:            hCV7565917
SNP Position Genomic:     39965
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18981):
CTTTCTATGAGCCCAGGAGGGCCTCTCAGAGAGGAAAGCTCCTAGGTCTTCCTTTCCCTCTGCAAACTCCCTGCCTTGAAGGATCAGAAGGACTGTGCTG
S
TCGTTGCATCCTTTGCAAGTTCCAAACCCTGATCCCAGCTGTGCTTAGGGGTTCCTGCAAACCTTTTCCAGGTGTTAATTACCTCCCACTTCATTTCCTG
Celera SNP ID:            hCV16175237
SNP Position Genomic:     36758
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|C,44)   total(G,2|C,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18982):
AAAGACAACCAGCGCCAGTAATAATTTGGTATTTTGCCTTCTCAACTTTTGAACTTTGTTGTATGTACAATTTGGTTACCCAGCTTTTTGTTCCCCTAAC
R
TGTTATCAGAAACATTCTCTCATTTTTGGTGAACTCTTAGAAGCATCCTTTTTTCATGTCTGCTTGACATTTGTTGAATGGATATAAGATCATGTATTTA
Celera SNP ID:            hCV11469542
SNP Position Genomic:     16495
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18983):
GCCCCCTCTCCAAGTCTGTGTCCCACAACCCCCCTGCTCCCTCCAGGGCACCCTCCACCCTCTGGGCCACAGTTGTCAGGAGTCAGGCAGGGCAGGGGCC
R
GGTGGTGTCTTCTTTGTGTTCTTGCACTCAGGGCAGAGCTCAGCACAGAGCAGACGCTCAAAAAACATTTAAAGGATAGAAGCATTGATTTGTGGGTCCC
Celera SNP ID:            hCV7565918
SNP Position Genomic:     40129
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,20)      total(G,20|A,4) ;no_pop(A,-|G,-)   PGA-AFRICAN-PANEL(A,3|G,45)   PGA-EUR(EAN-PANEL(A,2|G,44)   total(G,89|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18984):
CAGGCTTTTCTGCAGCAGCGAATGCATCAGAGCTGCCAGGGGGGCAGCTGTAGACCTAAGAGAGTTCCTTTAAGCACAAATTGGCTGATTATCTTTTTTA
S
GTAAATAAACCCATAATTCATTCCAAACACTTGGCTTATTTAAATATTTTTATTGCCAAAGGAATATATGTTCTTCACAGAAAACTTGGATACCATGACA
Celera SNP ID:            hCV28012991
SNP Position Genomic:     16252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18985):
GATCCCATTGCCTCTGCTTGCATGCCTCTCAGGATGGGGAGTTCACTGCATCCCCCTCTTTAAAGACATTACGGTTGTACAAAGGTCTCCAGAATCATCT
R
TTACATCCCCTCATTCTCCCAATGAGGAAATTAAAGCTCAGAGATGCCGAGGCATTTACCCAAGGGCACACCTGGTCCTGGGCCTACGACCCTTAGACAA
Celera SNP ID:            hCV29078138
SNP Position Genomic:     26464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18986):
ACAAGCGGGGACCTGGGCTCTGACAGGAGGCCACACACTTACAGTCCCTCCCTTAGTGACCGGCAGAGCTGGGATTTGAACACCCCTGGTGAGACTCCCT
Y
GTCCAGACCCCTTCGTTGTACAGCAGGTTTGCCTCACATGCCAGAGTCGGGGTGGCCTCAGGGCACAGCCAGGAGATGTCCCCAAATCCCGAAATGTGGT
Celera SNP ID:            hCV27918953
SNP Position Genomic:     15810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18987):
ATCATCTATTACATCCCCTCATTCTCCCAATGAGGAAATTAAAGCTCAGAGATGCCGAGGCATTTACCCAAGGGCACACCTGGTCCTGGGCCTACGACCC
R
TAGACAATATTCCTTCCACCTCTTTGCTATAGAGTCTCAGACTAGGGATCTTGGCTGGCTGAGAAATCAGGGAAGGCTTCTTAGAGGAGGTGAGATTGGA
Celera SNP ID:            hCV29078139
SNP Position Genomic:     26557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18988):
AGCTGTTCGACGAGACGGTCGAGCAGGGTGCTGTGGGTGATATGGACAGCAGAAGGGGGAGACCAAGGTTCCAGCTCAACCAATAACTATTGCACAACCA
Y
CTGTCCCTGCCTCAGTTCCCTCTTCTGTAACATGAAGTCGTTGTGAGGGTTAAAGGCAGTAACAGGTATAAAGTACTTAGAAAAGCAAAGGGTGCTACGT
Celera SNP ID:            hCV15969680
SNP Position Genomic:     43572
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   PGA-EUR(EAN-PANEL(A,4|G,42)   total(G,42|A,4)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:18989):
AAAGGACTGTCGTGCAAACCCACCATGGCATGAGCTGTCGAGTGCAGTGCCCGCTGCCACTAAGGAATGAGTGCCACTCTGGGATTGTGGAAAGTGCAGA
S
GGGCAGGGTTGAGATGCTCGTGCATGACTTTGGACAGGTCACCTCCCTCTCAGAGGTTTAGTTTCCTTACTTGTTAAGCTTGGACTAAAAATATCTAAAT
Celera SNP ID:            hCV27918954
SNP Position Genomic:     19423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18990):
ATGTTGCAACAGCCATGAAAAAAGAAATGCAAAGCGATTCAGGATGAGAGCAATACCCTACTCCAAAGAAGGCAAAATAGAAGCTCAGAGAGGTCAAGCA
W
TTTGCCCAAGACCACACAGCTAGGAGTGGAACTCATGGCTGTCCAAGCCCCACGCCTCTGCTGAAGGTAGAGATGAATTACAGCAACAAGTCTAGAAAGG
Celera SNP ID:            hCV15969681
SNP Position Genomic:     40599
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   PGA-AFRICAN-PANEL(T,10|A,38)   PGA-EUR(EAN-PANEL(T,16|A,30)   total(A,68|T,26)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18991):
AATGTCAAGGGAGTTAGGAGCTCCGTGTCAGGAACTGGTGTCAAAGACCAAATATGTATTTCCTAATATATCACGATATCACAGGTTGTGAGAAGAATGC
M
ATCAATGGTCAAACTCCAGAGCTGCACACTCTCCAATATGGCAGTGACCAGCCACATGCAGTCACCAAGCACTTGAAAGGTGGCTGCTTCAAACTGGTAT
Celera SNP ID:            hCV27918955
SNP Position Genomic:     23868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:18992):
GGGAGGCTCTCTGGGGTTCTCCCGGAGCCTCGGAGATTGCACCTTGTGCATGCGCTGCTGCACCTGGGGTACATCACCCCCACTCTGGAGCCCACTGGCC
R
GTTAGCAAAGTGAGAGGTGAGAGAAGGACCTCTTGGTCTTCTTTGAACAGAAAGATCCAGAAAGCAATGGCTAGAACACAAGAACAGGTCAGGGGAGGCA
Celera SNP ID:            hCV11469547
SNP Position Genomic:     12631
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:18993):
GAAGCATGCAAGCAAGTGGGTGCTGGGGCCGGGGCAAGCGCTTTTGGGCTCTGGCCCTACAGTACCGTCTAGGGTTGTGTTACAATTAATGCTCTTTTAG
M
AGTTGCCATTCACTGATGGCTAAGTGTTAACCAACTCAGTGGAGAGTGAGGGTGACAGCCTTTTACACCTTGCCCTCTTGGTACCTGGGTCCTTGTCTGG
Celera SNP ID:            hCV27918956
SNP Position Genomic:     29522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:18994):
GACAGAAACCCTCCCCGATCCAAGTTATTAGCAAACTGCCCATCTCCACAAAAATTTAAATGGACAGATTGTTAAATGCACACAGCTCACAGCCAGCTCC
Y
TTCAAGGTAGATTTGGGCCCAAACATTTCGGGAAGCATCAGGCTGTGCCCCGCCATCCCTACCAAACAGGAATCCTCTCGAGGGAAAAGACTGGGCCTTT
Celera SNP ID:            hCV11469548
SNP Position Genomic:     12353
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18995):
GCCACTGTCGCCCTTGGGAGCCGTACGTGGCATACAAAGAAATCCCAGGACTCCGCCTGCCCACCTGGCCACCCTCTGTTTACACCTTCCGCGTAAACGC
S
CACTGTTTACATCCAAAACTCAGACACAAAATAACCACCTCAAGAAGATAAATAATGATAAGAAATAAATGTTACGCGAGGCAAATTTATTCACATGGGG
Celera SNP ID:            hCV7565882
SNP Position Genomic:     5698
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Healthy individuals, origin undefined(G,3|C,342)      total(G,3|C,342) ;(C,-|G,-)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:18996):
GCTCAATCTGTTAACAGGCTTCTGGCATGTAGATCAGTGGTCTCCAAGCTTTTGTGATTGTATATTCCTATAGGAAAAAAAGAATTGATTATGCATACCC
R
GTATGTATACTTATTAATCTGTATGAAGATGTACATTCTAAAATATAATCAACCAGTAGAAATTTAAGAAAGAAGATGTAAAAAAAAAAAATATTAACAG
Celera SNP ID:            hCV15859407
SNP Position Genomic:     45610
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,1|A,41)   total(G,1|A,41) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:18997):
ATACCCACACATGCACACACACACACACACCTGCACTCACACACTTGCACATGCATAGACCACAGCTTTCCACACCCTTCCTAGACAGGGGTCACTTGGT
R
TCCTGGAGAGAGTGTGAAGTCTGGAAGGGAAAGAGGGGGGATTAAGCCCCACCTCTAGCCATGGGACTGAGACAAGTCACCCCCACCCATCTGCGCCTTG
Celera SNP ID:            hCV15859336
SNP Position Genomic:     37145
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18998):
TCCCTCACTCAACCTCTTGCTACTTCCCACCTCTCCTGTCCAACATCTAGTGTCACTTTCCAGAACATACCAACAGCTTCCCCAGTTCTGTGCCTCTGCT
M
AGGCTGTTCCCCCTGCCTGGTCCACTTGTCCTCCTTCTTGTCCCGTCAAAATGCTTCTTATCCTTCAAGACCCAGCTCTAGAGTCACCTCCAACCCCTTA
Celera SNP ID:            hCV15859370
SNP Position Genomic:     39921
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,3|C,43)   total(A,3|C,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:18999):
CCCTCAGTGTTCTCATCAATAATCCACTCGCCCTCACAGGCGCGTTTGGGACCCCATGTTCTATGCTCTCACAGGACCTTTTGCTTGATTTTTCACTGTA
Y
TCAGGTCAGTTTGCAGTTATTAAGTGACTGAGCAATGTCTGGCTTCTCCAGTAGACTGTCAGCTCCTAGCCATTGTATCCCTAGCACCGCTGTGTGGGAG
Celera SNP ID:            hCV15859371
SNP Position Genomic:     38085
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,41)   total(C,41|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19000):
CCACCCATCTGCGCCTTGTTTCCTCCTCTGTGAGGCAAGCACAGAGCCCATGCCTCCCTCCCTGGATGGGAGTGATGTGAAACTTGAAGAGGGGTAGAGA
Y
AAGGGTCGTCAATGGAAGCCCCTTGGGCAAAAAGGCCCTTTCAACTAGGGGCACAGAGGAGGCCCTGGGCTGAGAACTTGACAGCACCTTGTATTGGTAA
Celera SNP ID:            hCV15859372
SNP Position Genomic:     37328
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|C,45)   PGA-EUR(EAN-PANEL(T,8|C,38)   total(C,83|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19001):
GCTTCGGTGCTGTCTCTGGGGGCACCACCAGCTCAGCACCTCCCTGCGTTCACCAACTCGGAAGCTCTCCCAATCCTGTCTTTTAGGGATTTTGATGGAG
R
CTTCATCATATAGGCATGATGGATAATAAATTCAATCTCCAGCCCCTCTTCCCTTCCTGGAGGATGTGGGGTGAAAGTTCCAAGCTTTGTATCATGGTCT
Celera SNP ID:            hCV27969550
SNP Position Genomic:     23577
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19002):
CATGCATGTCAGAATCCTCAATCTCAGCTCAGGAAGTAGGAATTTTCCACCTTTGTTAGCAGCAGAGATGACAAACCCCAGGGCCCCACATATAGCCTGT
R
CCTTAGTCACTGCCTCGGGCCAGGTTGCAAGACCCCTCCTACCAACTGAGCTACAAATCACAGTTCCTGGAGGGTGGGCCTTTATATAACAGGGAACAGA
Celera SNP ID:            hCV25933600
SNP Position Genomic:     17458
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(A,11|G,29)   total(A,24|G,54)   
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,11)   caucasian(A,11|G,27)   total(A,16|G,38)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:19003):
TCCCGTTCTCCCTGTGTCAGCCCCTGCGCAGTGCGAGTGGGAGGTGAGCCACTGTTGCGTGCCCTCTGCCAGACACAGGCCTGCAGGTCAGACTCACAGG
R
GCCAAGCAGAGCATCTGGGAGGATTTTGTTTCTGGCTCCAAAAATGAAATACCAAGGAAAGTAGGCAAGCTCATGCATGTCAGAATCCTCAATCTCAGCT
Celera SNP ID:            hCV15842495
SNP Position Genomic:     17286
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,9)   caucasian(A,15|G,25)   total(A,28|G,34)
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,19)   caucasian(A,15|G,25)   total(A,34|G,44)   
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:19004):
GGTTCTGAAGGATGAGTAGGAGTTGGAAGGAGTTGGAAGAGCTCCTGCCCTTTGTGGAGCAGGAGAGGGAGGTGGTCCAGGGACCTTTCTGGCCGACCAA
S
CCTAGAGCCAATTGCAGTGAGCCATTGTGACATTGGACTTGAAACTGGTCACTGCGAGAGTATTTATACCATAGAAATTTGCAAATGCTACGGTTAGGGC
Celera SNP ID:            hCV1772930
SNP Position Genomic:     21204
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19005):
GGAAGCCCAAGGACATGAGAGCTTTCTGAGCTGCATCCCAGGCCCTGCTCTGCCACTGACTCGCTGAGGCTGGGTTTCCCCATCTGCAAAATAAGGACAT
R
AAAACCCATCTAGAGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGTCCAGGGCAGGCAGATCACTTGAGGTCAAGAGTTCGAGACCA
Celera SNP ID:            hCV1772931
SNP Position Genomic:     19867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19006):
TCCCAGACCTTGTTGTCACCTCCTCACTCTCCCAGTAGCGCCAGCCAGAGCACCTGTCTTGGGAGCCCCGAGGCAGGGACAGGCTATGCATCCAGGAAGC
Y
CCCAGGCTCTAAGGAGGCGGCCCTATAACTGCTGGATGACCAAAAATCAGGCAGCGATCCCTAAGTCCCTTCTGAGCCCCAGGCTCCAGGCTCCTCCAAC
Celera SNP ID:            hCV1772932
SNP Position Genomic:     19016
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19007):
CGGGCCAGGTTGCAAGACCCCTCCTACCAACTGAGCTACAAATCACAGTTCCTGGAGGGTGGGCCTTTATATAACAGGGAACAGAACTCTTCTGTACCTC
S
CACCTCCCCGCAAGAAGTAGGCCAGGCATGGTAGCTCATGCCTGTAAATGAAGCATTTTGGTAGACCAAGGTAGGAGGGTCACTTGAGGCCAGGAGTTCG
Celera SNP ID:            hCV1772933
SNP Position Genomic:     17574
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:19008):
GTCCTTGTCTGGCATCCAGGAAGAATCAGGTCACACGGACTTGAAGGATGGTGAATGCAGAGGTTTTATTGAGTGATGGAGGTGGCTCTTAGTCGGGTGG
R
GAGCTGGAAAGGGGATGGAGTGGGAAGGTACTCTTCCAGATGGCTGAACTCTTCTCCAACTGTCCAGCTGCCTCTTCCACATTCAGACACTTCTTCTCTT
Celera SNP ID:            hCV29078140
SNP Position Genomic:     29711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19009):
GGGTGCCTCAGGGCTGGTACGGCAAAGCCTCAGCACCCTCCCTACCTCCTTCCCCCCTCGCGATCAGGCCCCTGATAAAAGCAGTGAACTCTGCTCCAGG
Y
CTGGCCAGCATAAAGGCCCCCAAGAGAGGAGCCAACAACACCCCATCCTCCCTCTCACCCTCCCTCAGGCTCCTGCTGGGGCTCCCACTGGCCAAACCCA
Celera SNP ID:            hCV29078141
SNP Position Genomic:     35589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19010):
GAGACTCCCTTGTCCAGACCCCTTCGTTGTACAGCAGGTTTGCCTCACATGCCAGAGTCGGGGTGGCCTCAGGGCACAGCCAGGAGATGTCCCCAAATCC
M
GAAATGTGGTTTGAGTCCCAGTCCCTCATCTCTCCAGCCTCCAAGCCCTCACCTATGCAATGGTGCCTTGCCCGGCTCACAGGTTATGAAAAGGGGTGAG
Celera SNP ID:            hCV1772935
SNP Position Genomic:     15900
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19011):
TGACAGTTGAGGAAATGGTCCCTAGAGGGGAGACAGAGCTAGCTAGAGACTGGGCTGGCCCTGGAGCCTGGCCTGGGTCTTCCCATCGCATCCTGCCTCC
S
TACATAAGCAAAGGTCGAGAGGTGGGAACTCCCAAAGATGCTCAGGCAGGGCCAGGGGAGACCAGTGGGGCAGGGAGGGGACAGGAGGGGAAGGAGGAGC
Celera SNP ID:            hCV1772936
SNP Position Genomic:     15168
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19012):
TGAACCTGGAGGGCTAGAACCTGGAGAATGAGAAAAATTTACATGGCAAAGAGCCCATAAATCCTGACCAATCCAACTCTGAATTTTAAAGCAAAAGCGT
S
AAAAAAAAGATTCCCTCCTTACCCCCAACCCACTCTTTTTTCCCACCACCCACTCTCCTCTGCCTCAGTAAGTATCTGGAGGAAGAAAACAGGTGAAAGA
Celera SNP ID:            hCV7565923
SNP Position Genomic:     44922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:19013):
GGCTATTGAAAAGCAAGGTGGGTCGACAGATTGTTAAATGCAAAGAGGTGAGGACACAGCCGGCGGTGCATTTAGGGTGCTTCTGCAGGCGTCCTTATAC
R
TGGATATGTGCACATCTGCTCCTGAAAGCTCAGAAGATGTCTGGAAAGCAACAGGAGACACCAGTGAGCCTGGCTGTCTCTTGAGGCAACAGGCAGGGAC
Celera SNP ID:            hCV1772937
SNP Position Genomic:     13243
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19014):
GGAGGCTGATGACATCACTACCCAGCCCTTGAAAGATGAGCTGTTCCCGCCGCCACTCCAGCTCTGGCTTCTGGGCTCCGAGGAGGGGTGGGGACGGTGG
K
GACGGTGGGGACATCAGGCTGCCCCGCAGTACCAGGGAGCGACTGAAGTGCCCATGCCGCTTGCTCCGGAGAAGGTGGGTGCCGGGCAGGGGCTGCTCCA
Celera SNP ID:            hCV26351339
SNP Position Genomic:     6135
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(G,17|T,51)      total(G,17|T,51) ;HYP2(G,17|T,51)   total(G,17|T,51)
SNP Type:                 UTR 5


Context             (SEQ ID NO:19015):
GCAGGAGAGGGTCTGCACACCTGCTACAGGTGTGCTCACACGTGGGCCAGGGCCTGCAGATGAGGGATCTGTGCTGATCATTTGTGATAGCCAAAAGTAG
W
GAAAACCTGGGGGGACTCCTCAAATGAACTGTAGCACATTGGGGAGATGGACTCTGTGAAGATGATTCCTCTCTCCACCCACTTCCCTTCTCCCTCCTCC
Celera SNP ID:            hCV1772938
SNP Position Genomic:     12829
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19016):
GGGTAATTTATCAAAAAACAGACATTTATTGCTCTCGGTGCTGGAGGCTGGGAAGCCCGAGATCAAGGCACTGGCAGATTGGGTGTCTGGTGAGGACCTA
K
TCGTCATAGATGGCACCTTCTATGCATCCTCATATGGTGGAAGGGTGAACACGCTCTCCCAGGCCTCCTTTAAAGACCACCAATCCCATTCACAAGGAGG
Celera SNP ID:            hCV1772939
SNP Position Genomic:     8176
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19017):
GCGGAGAGCGAAGGTGGCCGCAGCCTTCCCGGCCCCACAGCCAGCCTGGCTCCAGCTGGGCAGGAGTGCAGAGCTCAGCTGGAGGCGGAGGGGGAAGTGC
Y
CAGGAGGCTGATGACATCACTACCCAGCCCTTGAAAGATGAGCTGTTCCCGCCGCCACTCCAGCTCTGGCTTCTGGGCTCCGAGGAGGGGTGGGGACGGT
Celera SNP ID:            hCV7565890
SNP Position Genomic:     6032
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): patients with cardiovascular diseases(T,1|C,182)      total(C,182|T,1) ;(C,-|T,-)   
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:19018):
CGCTGGCTCCATGCCAGCCCCTGGGCTAGGCGTCTGGTGGCACTACCTCATTTCACTGCCATAACAACTGGGTCCCCCATCTTGCAGATGAGGAAGCCCA
R
GTTCAGAGAGGTGAAGTGGGGGGCTGGGGGTCTATCCCAGACCTTGTTGTCACCTCCTCACTCTCCCAGTAGCGCCAGCCAGAGCACCTGTCTTGGGAGC
Celera SNP ID:            hCV7565891
SNP Position Genomic:     18881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19019):
GGGGAGACCAAGGTTCCAGCTCAACCAATAACTATTGCACAACCACCTGTCCCTGCCTCAGTTCCCTCTTCTGTAACATGAAGTCGTTGTGAGGGTTAAA
R
GCAGTAACAGGTATAAAGTACTTAGAAAAGCAAAGGGTGCTACGTACATGTGAGGCATCATTACGCAGACGTAACTGGGATATGTTTACTATAAGGAAAA
Celera SNP ID:            hCV16175285
SNP Position Genomic:     43627
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|G,45)   total(G,45|A,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:19020):
TTGGGAGCCGGTGGCGGTGTGAAGCACCAGTGTCTGGCACACAGTAGGTGCTCATTGGCTCCCTTCCACCTGTCATTCCCACCACCCTGAGGCCCCAACC
R
CCACACACACAGGAGCATTTGGAGAGAAGGCCATGTCTTCAAAGTCTGATTTGTGATGAGGCAGAGGAAGATATTTCTAATCGGTCTTGCCCAGAGGATC
Celera SNP ID:            hCV15859415
SNP Position Genomic:     43870
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:19021):
AAAAGCAAAGGGTGCTACGTACATGTGAGGCATCATTACGCAGACGTAACTGGGATATGTTTACTATAAGGAAAAGACACTGAGGTCTAGAAATAGCTCC
R
TGGAGCAGAATCAGTATTGGGAGCCGGTGGCGGTGTGAAGCACCAGTGTCTGGCACACAGTAGGTGCTCATTGGCTCCCTTCCACCTGTCATTCCCACCA
Celera SNP ID:            hCV15859416
SNP Position Genomic:     43753
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|G,44)   PGA-EUR(EAN-PANEL(A,2|G,44)   total(G,88|A,6) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:19022):
GGTATAAAGTACTTAGAAAAGCAAAGGGTGCTACGTACATGTGAGGCATCATTACGCAGACGTAACTGGGATATGTTTACTATAAGGAAAAGACACTGAG
K
TCTAGAAATAGCTCCGTGGAGCAGAATCAGTATTGGGAGCCGGTGGCGGTGTGAAGCACCAGTGTCTGGCACACAGTAGGTGCTCATTGGCTCCCTTCCA
Celera SNP ID:            hCV15859417
SNP Position Genomic:     43737
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,4|G,44)   PGA-EUR(EAN-PANEL(T,2|G,44)   total(G,88|T,6) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:19023):
CAAACTCCCTGCCTTGAAGGATCAGAAGGACTGTGCTGCTCGTTGCATCCTTTGCAAGTTCCAAACCCTGATCCCAGCTGTGCTTAGGGGTTCCTGCAAA
Y
CTTTTCCAGGTGTTAATTACCTCCCACTTCATTTCCTGTTTACCAACTCAGCTTTTTGTTTTAGTGTGTTTGAATTCCCTGAACTGACCGTTGTCTGATC
Celera SNP ID:            hCV15859346
SNP Position Genomic:     36820
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|C,41)   PGA-EUR(EAN-PANEL(T,6|C,36)   total(C,77|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19024):
CCAACAAACGGTGGTGTTGGAGTTTACCACTGGTTATTTTAATGGGTTTGCAAGAATTGTTAATTACTAATGTTTATTGAGCCTAGTGCAGTGCTTGGGG
Y
ATTTTGCACATTGTCTCTGATCCCTATCACAACCCTGAGAGGTAGTTTTTTTAACTCCCATTTTACAGGTGAGGTCATTGTGGTTCAAGGACGTTAAGTA
Celera SNP ID:            hCV15859347
SNP Position Genomic:     40869
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,2|C,44)   total(C,44|T,2)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19025):
TGCAACAGCCATGAAAAAAGAAATGCAAAGCGATTCAGGATGAGAGCAATACCCTACTCCAAAGAAGGCAAAATAGAAGCTCAGAGAGGTCAAGCAATTT
K
CCCAAGACCACACAGCTAGGAGTGGAACTCATGGCTGTCCAAGCCCCACGCCTCTGCTGAAGGTAGAGATGAATTACAGCAACAAGTCTAGAAAGGTGCC
Celera SNP ID:            hCV15859348
SNP Position Genomic:     40603
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|G,46)   PGA-EUR(EAN-PANEL(T,7|G,39)   total(G,85|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19026):
TCCAGGAAGCCCCCAGGCTCTAAGGAGGCGGCCCTATAACTGCTGGATGACCAAAAATCAGGCAGCGATCCCTAAGTCCCTTCTGAGCCCCAGGCTCCAG
R
CTCCTCCAACCAGGTCTGCCTTACGCTTTTGACCACAATCAACCCGGCTCTTTCTCGGTTCTTTTCATCTCTCTGGTGGTTTTGTATGCAGAGTCACCCA
Celera SNP ID:            hCV7565898
SNP Position Genomic:     19106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19027):
CACCTGCACTCACACACTTGCACATGCATAGACCACAGCTTTCCACACCCTTCCTAGACAGGGGTCACTTGGTGTCCTGGAGAGAGTGTGAAGTCTGGAA
K
GGAAAGAGGGGGGATTAAGCCCCACCTCTAGCCATGGGACTGAGACAAGTCACCCCCACCCATCTGCGCCTTGTTTCCTCCTCTGTGAGGCAAGCACAGA
Celera SNP ID:            hCV15859381
SNP Position Genomic:     37172
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|G,45)   total(G,45|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19028):
CCATCTTTTCTTCTCTGTTCAGCCCAGGTGTGGCCTCACTCACATCCCACTCTGAGTCCAAATGTTCTCTCCCTGGAAGATATCAATGTTTCTGTCTGTT
Y
GTGAGGACTCCGTGCCCACCACGGCCTCTTTCAGGTGAGTCAAAGGGATTCCTCAGTTCACTAGTTAGGGGAGGTGGGCAGACACCCTGGAGAACTCCCT
Celera SNP ID:            hCV7565899
SNP Position Genomic:     38389
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,31|T,3)   total(C,39|T,3)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;PGA-AFRICAN-PANEL(T,3|C,41)   PGA-EUR(EAN-PANEL(T,8|C,38)   total(C,79|T,11)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19029):
TGCTTGATTTTTCACTGTACTCAGGTCAGTTTGCAGTTATTAAGTGACTGAGCAATGTCTGGCTTCTCCAGTAGACTGTCAGCTCCTAGCCATTGTATCC
Y
TAGCACCGCTGTGTGGGAGCACTTCACAAACGTCCATTGAGTCAGGGACTCAGCAGTCTCCATTTCTCCTCCCTGCTGGAGAATGCGTGTATTTTGCAAT
Celera SNP ID:            hCV27836276
SNP Position Genomic:     38166
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:19030):
GGACTGTTCCTGTCTCAGCAACCAAGGGATTGTTCCTGTCAATCAATGGTTTATTGGAAGGTGGCCCAGTATGAGCCCTAGAAGAGTGTGAAAAGGAATG
R
CAATGGTGTTCACCATCGGCAGTGCCAGGGCAGCACTCATTCACTTGATAAATGAATATTTATTAGCTGGTTGGAGAGCTAGAACCTGGAGAGCTAGAAC
Celera SNP ID:            hCV1772900
SNP Position Genomic:     44135
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;JBIC-allele(A,136|G,1359)   total(G,1359|A,136)
SNP Type:                 UTR 3


Context             (SEQ ID NO:19031):
ATCCAAGGATCAGAGGGGGCTCTGTAAGACCCAGGGGAGTCAGGTGCACTGGAGCGCGGGCTGCAGAAAACAGCCTGAGCTCCACCTCGGCTTCTCCTTG
Y
CCTGGCTGGTTGTCCTTAACCCCTGTCTCCTTCTGGACCAGTTTTTGTCCTTCCCTTGTGACCCTGAGGGGTAACAGCCTCTTTTCCACTTTCTTTCAGC
Celera SNP ID:            hCV1772902
SNP Position Genomic:     41545
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19032):
CATTTTTCTCTTTTAATAAATTAACTCACCCACCACACGGCTTTGAGAGGCTCAAAGGTGACCAACTCCCTTGGGAGGGCCCCGGTTGATAAGGAAGGAA
Y
GTGAATCCTCCCATCACGGAAGCTTCAAGGAGGTCAAGGGTCCAACACTTGAGATTGTTAGTGCTGTTGGTGGATACTGGCCAAGGAAATATCCCAGTGG
Celera SNP ID:            hCV1772903
SNP Position Genomic:     41309
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;PGA-EUR(EAN-PANEL(C,1|T,45)   total(C,1|T,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:19033):
TCTCTCACCCACAGCACAGGGCACTGGGAAAATGCCCAATGAGTCCTGCCCTCTGGGTTGTGCTTTGGACTTTTCAGTGTGTCTTCGCATCCACTCTTCA
R
CTTGAATGTTGCAACAGCCATGAAAAAAGAAATGCAAAGCGATTCAGGATGAGAGCAATACCCTACTCCAAAGAAGGCAAAATAGAAGCTCAGAGAGGTC
Celera SNP ID:            hCV16175212
SNP Position Genomic:     40493
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,46)   total(G,46|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19034):
TGGTCTCCAAGCCAGACTGGAATCTCCAGGTCTGGAATGATATCATTTTTCTCTTTTAATAAATTAACTCACCCACCACACGGCTTTGAGAGGCTCAAAG
K
TGACCAACTCCCTTGGGAGGGCCCCGGTTGATAAGGAAGGAATGTGAATCCTCCCATCACGGAAGCTTCAAGGAGGTCAAGGGTCCAACACTTGAGATTG
Celera SNP ID:            hCV1772904
SNP Position Genomic:     41266
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,7)   total(G,7|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19035):
CACTAAGTGAATGAAGCTACTCTGAAAAGGCATATGCTGTATGATTTCAACTATATGTGACATTCTGGAAAAAGGCAAAACTATGAAGACAGTAAAAAAT
A
AAAAAATCAGTGGTTGCCAGGAATTAGGGGAGGGAGGAGAGAATGGGAGGAGCCCAGAGACTTTTAGGGCAGTGAAACTTCTGTATGACACTGTAATGGT
Celera SNP ID:            hCV26351340
SNP Position Genomic:     8676
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19036):
CTTATCCTTCAAGACCCAGCTCTAGAGTCACCTCCAACCCCTTACCCACCAGCCCCCTCTCCAAGTCTGTGTCCCACAACCCCCCTGCTCCCTCCAGGGC
M
CCCTCCACCCTCTGGGCCACAGTTGTCAGGAGTCAGGCAGGGCAGGGGCCGGGTGGTGTCTTCTTTGTGTTCTTGCACTCAGGGCAGAGCTCAGCACAGA
Celera SNP ID:            hCV16175213
SNP Position Genomic:     40078
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|A,46)   total(A,46|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19037):
GGTACCAGACGGACTGTCTATGGAGGCAGGAGTGAGGGCCTGGGGCGGTCACAGAGGTTGCATTTGCTTTGCAGTAAGGCCATGGCCGCTTAAGGGTGTC
Y
AGAAAAAAGCCCTGTCCGACATGCACACACTCCTGTGTCCAGGCAATGAGCCTGTGGGCACTGACAGCAAGAGTCCTTCTCACGCTTCTCTTCAGGGCTC
Celera SNP ID:            hCV26351341
SNP Position Genomic:     9934
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19038):
TCTAGTGTCACTTTCCAGAACATACCAACAGCTTCCCCAGTTCTGTGCCTCTGCTCAGGCTGTTCCCCCTGCCTGGTCCACTTGTCCTCCTTCTTGTCCC
K
TCAAAATGCTTCTTATCCTTCAAGACCCAGCTCTAGAGTCACCTCCAACCCCTTACCCACCAGCCCCCTCTCCAAGTCTGTGTCCCACAACCCCCCTGCT
Celera SNP ID:            hCV16175214
SNP Position Genomic:     39966
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|G,44)   total(G,44|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19039):
GGAGGCAGAGGTTGCAGGGAGCTGAGATCACACCACTGCACTCCAGGCTGGGTGACAGAGCAAGACTCTATCTCAAAATAATAATAATAATAATAATAAT
M
ATAATCATCATCATCATCATAGCATATAGGAAGCTGTCAGCTATGCACTCGTCTCAGGTGAGCAGAGGGATGACTTTGGGTTCTATCCTTTGTTCCATAC
Celera SNP ID:            hCV26351342
SNP Position Genomic:     11271
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19040):
GGCAGAGGTTGCAGGGAGCTGAGATCACACCACTGCACTCCAGGCTGGGTGACAGAGCAAGACTCTATCTCAAAATAATAATAATAATAATAATAATAAT
M
ATCATCATCATCATCATAGCATATAGGAAGCTGTCAGCTATGCACTCGTCTCAGGTGAGCAGAGGGATGACTTTGGGTTCTATCCTTTGTTCCATACCTG
Celera SNP ID:            hCV26351343
SNP Position Genomic:     11274
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19041):
GGGAATGTTCTGCGGAACTAGAGGAAGAGGGGCTCAGGGAGAAGAAGGGCACATTCCTGGTTGTCATATGTGATCTATCCCAGATGAACTTGGAAGTGAA
R
GGAAGAGAGTTAAACATTAAAGTAAATACCCAGTGGATCAGACAGCAATGTGCCAGATTGCCTTGGAGACAAAATATCTCCAACACATGGCTGACATTTG
Celera SNP ID:            hCV1772908
SNP Position Genomic:     38700
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,22|G,26)   PGA-EUR(EAN-PANEL(A,16|G,30)   total(G,56|A,38) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19042):
CAGCCTTCCCGGCCCCACAGCCAGCCTGGCTCCAGCTGGGCAGGAGTGCAGAGCTCAGCTGGAGGCGGAGGGGGAAGTGCCCAGGAGGCTGATGACATCA
Y
TACCCAGCCCTTGAAAGATGAGCTGTTCCCGCCGCCACTCCAGCTCTGGCTTCTGGGCTCCGAGGAGGGGTGGGGACGGTGGGGACGGTGGGGACATCAG
Celera SNP ID:            hCV1772941
SNP Position Genomic:     6052
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;Southern Germany(T,80|C,120)   Northern Ireland, France, Scotland(T,920|C,1080)      total(C,1080|T,920) ;(C,-|T,-)   
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:19043):
TCCCTGGAAGATATCAATGTTTCTGTCTGTTCGTGAGGACTCCGTGCCCACCACGGCCTCTTTCAGGTGAGTCAAAGGGATTCCTCAGTTCACTAGTTAG
R
GGAGGTGGGCAGACACCCTGGAGAACTCCCTGGAAAGCTCAACTCTCATGCCCCGGACAACAGTTGAAGGAACCAGTGATGTTAAGCCCAAAGACAAAAC
Celera SNP ID:            hCV1772909
SNP Position Genomic:     38458
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,3|G,29)   total(A,3|G,37)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,10)   total(A,2|G,42)   
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): patients with cardiovascular diseases(A,23|G,160)      total(G,160|A,23) ;(A,-|G,-)   PGA-AFRICAN-PANEL(A,3|G,41)   PGA-EUR(EAN-PANEL(A,2|G,44)   total(G,85|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19044):
CATTTAGGTTGTTTCCTGTGACCCTTCTTCTGCATGATGAGGAACATCTCTGTGCATAAAGCTTTTCCTGTCCTTTTGATTATTTTCAAAAATGCCAAAC
A
AAAAAAAAAAGGGAGGGGGTTGAAGGTTCTGGGTTTTCTTCACTGAATTATCCAAATATTAAATGATCTAGAGACAGGTTTGGGAGCCACTAAACCCTCT
Celera SNP ID:            hCV26351345
SNP Position Genomic:     16716
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19045):
AGCACTTGCTGTATATGCAGTATTGAGCACTGTAGGCAAGAGGGAAGAAAGAGAAGGAGCCATCTCCATCTTGAAGGAACTCAAAGACTCAAGTGGGAAC
R
ACTGGGCACTGCCACCACCAGAAAGCTGTTCGACGAGACGGTCGAGCAGGGTGCTGTGGGTGATATGGACAGCAGAAGGGGGAGACCAAGGTTCCAGCTC
Celera SNP ID:            hCV11664563
SNP Position Genomic:     43448
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(A,4|G,76)      total(G,76|A,4) ;HYP1(A,4|G,76)   total(G,76|A,4)PGA-AFRICAN-PANEL(A,2|G,46)   total(G,46|A,2)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:19046):
TATTCATCATCTGCTGGCTGCCCTTCCAGATCAGCACCTTCCTGGATACGCTGCATCGCCTCGGCATCCTCTCCAGCTGCCAGGACGAGCGCATCATCGA
Y
GTAATCACACAGATCGCCTCCTTCATGGCCTACAGCAACAGCTGCCTCAACCCACTGGTGTACGTGATCGTGGGCAAGCGCTTCCGAAAGAAGTCTTGGG
Celera SNP ID:            hCV16172279
SNP Position Genomic:     42503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:19047):
TTTCTCACTTTGATATTTAAAAGATGTTCAATACACTGTTTGAATGTGCTGGTAACTGCTTTGCTTCTTGAGTAGAGCCACCACCACCATAGCCCAGCCA
K
ATGAGTGCTCTGTGGACCCACAGCCTCAGCTGAGTGTGACCCTAGGAGGCACAATGTGCTCTGTATCCAGAACACACTTGGCAGATGGAGGAAGCATCTG
Celera SNP ID:            hCV26351347
SNP Position Genomic:     24783
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:19048):
GGATCTTGGCTGGCTGAGAAATCAGGGAAGGCTTCTTAGAGGAGGTGAGATTGGAGGTGGCCCTTGTAGGGTGGCACTAAGATGTCGCTTGATATCCTAA
T
TTTTTTTTTGGCCCTGCCCACCATGTGTGTGCCTGTGCTGCCATGTCACACTAAGCAGAGTAAAATGAAGGAAGGAACGGATGAAAGGGGCAGGAAAGCG
Celera SNP ID:            hCV26351348
SNP Position Genomic:     26703
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19049):
CAAACACACACATGTGTGCACAAACACATGCATGCACACACAAACACATGCATGCACACACAAACACACACACATATATACACACACCAACACAAACACA
M
ATGTGCACAAACACACGTGTGCACACAAACACACACATGCACACACACACACAAATGCACACACATGCGTGCACACTGTGGCTACTCCTCTGTAGCCTGC
Celera SNP ID:            hCV26351349
SNP Position Genomic:     28900
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,8)   total(A,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19050):
AGTGGAGGAGGCCTGGGGGCAGGGAGAGGAGTGACTGAGCTTCCCTCCCGTGTGTTCTCCGTCCCTGCCCCAGCAAGACAACTTAGATCTCCAGGAGAAC
Y
GCCATCCAGCTTTGGTGCAATGGCTGAGTGCACAAGTGAGTTGTTGCCCTGGGTTTCTTTAATCTATTCAGCTAGAACTTTGAAGGACAATTTCTTGCAT
Celera SNP ID:            hCV11664567
SNP Position Genomic:     43128
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(C,6|T,61)      total(C,6|T,61) ;PGA-AFRICAN-PANEL(C,6|T,42)   PGA-EUR(EAN-PANEL(C,1|T,43)   total(C,7|T,85)   HYP2(C,7|T,61)   total(C,7|T,61) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:19051):
TGGGCTTCCTGCTGCCCCTGAGTGTCATCACCTTCTGCACGATGCAGATCATGCAGGTGCTGCGGAACAACGAGATGCAGAAGTTCAAGGAGATCCAGAC
R
GAGAGGAGGGCCACGGTGCTAGTCCTGGTTGTGCTGCTGCTATTCATCATCTGCTGGCTGCCCTTCCAGATCAGCACCTTCCTGGATACGCTGCATCGCC
Celera SNP ID:            hCV11664568
SNP Position Genomic:     42362
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(A,9|G,29)   total(A,9|G,55)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,18)   caucasian(A,9|G,27)   total(A,9|G,45)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,9|G,27)   total(A,9|G,57)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(A,14|G,133)      total(G,133|A,14) ;JBIC-allele(A,278|G,1029)   total(G,1029|A,278)   (A,-|G,-)   HYP3(A,15|G,133)   total(G,133|A,15) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19052):
GCCTACAGCAACAGCTGCCTCAACCCACTGGTGTACGTGATCGTGGGCAAGCGCTTCCGAAAGAAGTCTTGGGAGGTGTACCAGGGAGTGTGCCAGAAAG
R
GGGCTGCAGGTCAGAACCCATTCAGATGGAGAACTCCATGGGCACACTGCGGACCTCCATCTCCGTGGAACGCCAGATTCACAAACTGCAGGACTGGGCA
Celera SNP ID:            hCV16175292
SNP Position Genomic:     42631
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,40)   total(A,3|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,40)   total(A,3|G,71)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   PGA-AFRICAN-PANEL(A,2|G,44)   total(G,44|A,2) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19053):
TCACGGAAGCTTCAAGGAGGTCAAGGGTCCAACACTTGAGATTGTTAGTGCTGTTGGTGGATACTGGCCAAGGAAATATCCCAGTGGAGCCTCGAGATGA
R
GAACATGAGGCCCCCGTTTAGATCCAAGGATCAGAGGGGGCTCTGTAAGACCCAGGGGAGTCAGGTGCACTGGAGCGCGGGCTGCAGAAAACAGCCTGAG
Celera SNP ID:            hCV16175293
SNP Position Genomic:     41423
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,37)   total(G,1|A,37) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19054):
CTGGCTGCAAAGTCCCCACCCTCCCTCGCCATCTGTATCCTCCAATCATCTTCAGTGCTTTGCTGATAGAAGGTACGGAAATACGATGCCACAGACTGTC
S
AGGAAGACAGAAACTAGGCAGATGGGCTGGCCATGGTCTCCAAGCCAGACTGGAATCTCCAGGTCTGGAATGATATCATTTTTCTCTTTTAATAAATTAA
Celera SNP ID:            hCV16175294
SNP Position Genomic:     41132
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|C,46)   total(G,2|C,46) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19055):
GGGCGAGTTATTTTGTCCTGTCTCCTGAGCTATAAAGAAGACCTGGAAGTTCCTCTTTATGCAAAGATAGAGGTAGGCTCTTGCCTGTGAAGCACCACGT
R
TGTCATAGGCACTAAATAAATGGCAGCCGTGATTCGAGTTGCTGAGAGTAGGTCGTTTCCGCAGCCTGGGTGGAGGTGAACAGCAGGTGTTGCTGTTCCA
Celera SNP ID:            hCV27947755
SNP Position Genomic:     7044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19056):
CAGATAAGGAAACTGAGACTCAGAGAGGTTAAGGGCACTGCAGTAAGCGCAGACACAGAGCTATGACTCCCGTTCTCCCTGTGTCAGCCCCTGCGCAGTG
Y
GAGTGGGAGGTGAGCCACTGTTGCGTGCCCTCTGCCAGACACAGGCCTGCAGGTCAGACTCACAGGGGCCAAGCAGAGCATCTGGGAGGATTTTGTTTCT
Celera SNP ID:            hCV25935907
SNP Position Genomic:     17219
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,2)   caucasian(C,36|T,4)   total(C,58|T,6)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,36|T,4)   total(C,67|T,11)   
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:19057):
CAGAAGGGGGAGACCAAGGTTCCAGCTCAACCAATAACTATTGCACAACCACCTGTCCCTGCCTCAGTTCCCTCTTCTGTAACATGAAGTCGTTGTGAGG
R
TTAAAGGCAGTAACAGGTATAAAGTACTTAGAAAAGCAAAGGGTGCTACGTACATGTGAGGCATCATTACGCAGACGTAACTGGGATATGTTTACTATAA
Celera SNP ID:            hCV15859427
SNP Position Genomic:     43621
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|G,44)   PGA-EUR(EAN-PANEL(A,2|G,44)   total(G,88|A,6) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:19058):
CCCTAACATTGATTCGGCATCTACTAATAATCAATCCCTTCTTACAGATAAGGAAACTGAGTAGCAATAATCTATCCCATCTTACAGATAAGGAAACTGA
S
ACTCAGAGAGGTTAAGGGCACTGCAGTAAGCGCAGACACAGAGCTATGACTCCCGTTCTCCCTGTGTCAGCCCCTGCGCAGTGCGAGTGGGAGGTGAGCC
Celera SNP ID:            hCV25932065
SNP Position Genomic:     17135
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,24)   caucasian(C,14|G,26)   total(C,18|G,50)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19059):
TCTTGTCCCGTCAAAATGCTTCTTATCCTTCAAGACCCAGCTCTAGAGTCACCTCCAACCCCTTACCCACCAGCCCCCTCTCCAAGTCTGTGTCCCACAA
S
CCCCCTGCTCCCTCCAGGGCACCCTCCACCCTCTGGGCCACAGTTGTCAGGAGTCAGGCAGGGCAGGGGCCGGGTGGTGTCTTCTTTGTGTTCTTGCACT
Celera SNP ID:            hCV15859358
SNP Position Genomic:     40057
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,19)      total(G,2|C,19) ;(C,-|G,-)   PGA-AFRICAN-PANEL(G,7|C,41)   PGA-EUR(EAN-PANEL(G,9|C,37)   total(G,16|C,78)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19060):
CCCTGCCTGGTCCACTTGTCCTCCTTCTTGTCCCGTCAAAATGCTTCTTATCCTTCAAGACCCAGCTCTAGAGTCACCTCCAACCCCTTACCCACCAGCC
Y
CCTCTCCAAGTCTGTGTCCCACAACCCCCCTGCTCCCTCCAGGGCACCCTCCACCCTCTGGGCCACAGTTGTCAGGAGTCAGGCAGGGCAGGGGCCGGGT
Celera SNP ID:            hCV15859359
SNP Position Genomic:     40032
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19061):
TAGCCATTGTATCCCTAGCACCGCTGTGTGGGAGCACTTCACAAACGTCCATTGAGTCAGGGACTCAGCAGTCTCCATTTCTCCTCCCTGCTGGAGAATG
M
GTGTATTTTGCAATCCCCAGCCCCTGTGCCATCTAACCATCTTTTCTTCTCTGTTCAGCCCAGGTGTGGCCTCACTCACATCCCACTCTGAGTCCAAATG
Celera SNP ID:            hCV1772910
SNP Position Genomic:     38252
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,5)   caucasian(A,5|C,17)   total(A,12|C,22)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,5)   caucasian(A,8|C,22)   total(A,11|C,27)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,11|C,21)   caucasian(A,11|C,27)   total(A,22|C,48)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;PGA-AFRICAN-PANEL(A,14|C,30)   PGA-EUR(EAN-PANEL(A,19|C,27)   total(A,33|C,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:19062):
ATTCCGCACTCAGCAGGCATCTTTCTGATGATCCGATGGCTTCTCAGAGCCAGGGATGGGCCAGGATCCATCCCCTTGGCTACTGTCTTGCTGAGAAATT
W
ATAAGCAGCATCTGGTGCTATACTTTGGTCTCTAGTGAGTTAGCTCATGAAAGATGACAGACTCTCCAAGCCAGGGGTATGCAGGAAATGGGTTTTCTGT
Celera SNP ID:            hCV7565900
SNP Position Genomic:     39131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19063):
ATGCATGCACACACAAACACATGCATGCACACACAAACACACACACATATATACACACACCAACACAAACACAAATGTGCACAAACACACGTGTGCACAC
A
AACACACACATGCACACACACACACAAATGCACACACATGCGTGCACACTGTGGCTACTCCTCTGTAGCCTGCTGGCCACACTCGGCTCAAGCCCCAAAT
Celera SNP ID:            hCV26351350
SNP Position Genomic:     28927
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19064):
GCAGAGATCAGTGGGTGGCGGCTCGCTTGGGTGGTAAAGAGTAGCCTGCAGCCAAAGTTGGGCACAGCAGTGCAGTCTTCACTGGGGGAATGCCTGGGAA
R
CAAGATTTGCCTGGGTAGGAGTTTCCATCAGCACCCCCAGAAAGGTCTCCTTTCTACCCTGGCCCCCAGTTCTTTGATGGGTTTTGCTGATGCTCCTGTG
Celera SNP ID:            hCV27991164
SNP Position Genomic:     13967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19065):
CCAGCTGCCTCTTCCACATTCAGACACTTCTTCTCTTCTCTCCTTCTCTGCCATGCTGCTCTGCTCCTCTGCCAGTGGAGTTTGGGGTTTTTATGGGTAT
R
GGATGGGGGGCATGGTGGGCCAGGGTGGTTTTGGCAAAAGCAACACTCAGGTGGGAAAACAGGAATGTGAAGTTCTCATTTAGGGCCGTGGGCCCAGGCT
Celera SNP ID:            hCV1772916
SNP Position Genomic:     29875
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19066):
CATGCACACACAAACACATGCATGCACACACAAACACACACACATATATACACACACCAACACAAACACAAATGTGCACAAACACACGTGTGCACACAAA
C
ACACACATGCACACACACACACAAATGCACACACATGCGTGCACACTGTGGCTACTCCTCTGTAGCCTGCTGGCCACACTCGGCTCAAGCCCCAAATCAA
Celera SNP ID:            hCV26351351
SNP Position Genomic:     28930
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,10)   total(C,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19067):
GTAGTTCCTTAAGACTCAGGGGCAAAGCCTCACTTCCTTAGCACCCAGTGAAGACCACGCTTACTCCCTCACTCAACCTCTTGCTACTTCCCACCTCTCC
Y
GTCCAACATCTAGTGTCACTTTCCAGAACATACCAACAGCTTCCCCAGTTCTGTGCCTCTGCTCAGGCTGTTCCCCCTGCCTGGTCCACTTGTCCTCCTT
Celera SNP ID:            hCV16175224
SNP Position Genomic:     39857
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,41)   total(C,1|T,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19068):
TACAAAGCGCTTTTGCACTTGAGACCCCTAAGTGCTAATTCTACCACATCCCCATCCACTTCATAGTGGGATGACCTTAGCCAAGGCTCTTCACCTAAAC
Y
TCCATAAGCCCCTCGCTGGAATTTGAGCCTGTTTTGCTTTTTTAAAGTGAGGGCAATGCTACTGGCCCCACCCATCTTACAGGACAAGGGAAGCCCAAGG
Celera SNP ID:            hCV27991165
SNP Position Genomic:     19678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19069):
AGGGTTGTGTTACAATTAATGCTCTTTTAGCAGTTGCCATTCACTGATGGCTAAGTGTTAACCAACTCAGTGGAGAGTGAGGGTGACAGCCTTTTACACC
Y
TGCCCTCTTGGTACCTGGGTCCTTGTCTGGCATCCAGGAAGAATCAGGTCACACGGACTTGAAGGATGGTGAATGCAGAGGTTTTATTGAGTGATGGAGG
Celera SNP ID:            hCV1772917
SNP Position Genomic:     29592
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19070):
CTGGCCACACTCGGCTCAAGCCCCAAATCAAAGGTGACTAGCAAGATTGCGAGACAGATTTCTGGAGATGGGAAACTGCGTCATCAAATTGTCTCAGGGA
Y
GGAACACCCATCAGAGCCCTGGGGGAGAGAAGAGACACGGGGTGGCTGCCAATTTTGCTGACCTATGCTGCTGACTTTCCAGCAGCCCCCGACTCCTGTG
Celera SNP ID:            hCV26351352
SNP Position Genomic:     29100
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19071):
GTTCCCTCTTCTGTAACATGAAGTCGTTGTGAGGGTTAAAGGCAGTAACAGGTATAAAGTACTTAGAAAAGCAAAGGGTGCTACGTACATGTGAGGCATC
W
TTACGCAGACGTAACTGGGATATGTTTACTATAAGGAAAAGACACTGAGGTCTAGAAATAGCTCCGTGGAGCAGAATCAGTATTGGGAGCCGGTGGCGGT
Celera SNP ID:            hCV11469530
SNP Position Genomic:     43687
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,4)      total(A,4|T,4) ;PGA-AFRICAN-PANEL(T,10|A,38)   PGA-EUR(EAN-PANEL(T,12|A,34)   total(A,72|T,22)
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:19072):
GCAATGCAAAAGGCCAAGAAAGATGCTGCAAAGCATGTTATGACCTAGCCTCAGAAATCACACACCATCCCTGCCACCATTAGTAAGAAGTCCAGCCCAC
R
TCCAGGAGAAGAGGAAGCAGATTCCTCCTTTTGAAATGAAGAATATCAAGTAATTCGGGGGGCATATGAAAGCCACCACACACCACAGGGATCTTTTTAG
Celera SNP ID:            hCV16175225
SNP Position Genomic:     39633
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,43)   total(G,43|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19073):
TCTGTAGCATGAGGGATTCTGATGAAATAATTTCCAAGAGCCCTTCCCACACTAATACTCCAGGATTCTGTAAGGTTAATTTGGCAAGAATTCCAACGGC
R
GAAGAAAGATGGAGGGAGGAATATGTCCAGTCTAATAACCCTATGCTCAAGTCAGAAAGCCCCTCGGGCAGTGTCCGAGAGGGCTACAGCCCTGGCCCCA
Celera SNP ID:            hCV27991166
SNP Position Genomic:     28118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19074):
GCTTATCTCTGTTCCAAGATGTCTGGGGCCTTGGTTGGAAGATTCAAAGGCTAGGAAACCAGGAGCCACCAAAAGCGTAACTGGGGCCAGAGGATCCACT
Y
TCAAGGTGGCAAGTTGGTTCCCCCCATGTGGCTGCTTGAGTATCCTCACATGGCGGCTCACATCCTTCCAAGTAAGCAATGCAAAAGGCCAAGAAAGATG
Celera SNP ID:            hCV16175226
SNP Position Genomic:     39457
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,45)   total(C,1|T,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19075):
TGTCTCTGATCCCTATCACAACCCTGAGAGGTAGTTTTTTTAACTCCCATTTTACAGGTGAGGTCATTGTGGTTCAAGGACGTTAAGTAACTTCCCCAGC
R
TCACACGGCTTATAAGTAAGGCAGCCAGGATGTGAACCCAGTAGGACTATCTGGCTGCAAAGTCCCCACCCTCCCTCGCCATCTGTATCCTCCAATCATC
Celera SNP ID:            hCV26351353
SNP Position Genomic:     40981
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,7|G,41)   PGA-EUR(EAN-PANEL(A,4|G,42)   total(G,83|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19076):
CCTCCAGCATCAGGAGCCATGTGGCAGGATCTCCACTCTTCTTCTTCCTGGGCCTCTGTCTGGACCGACCCAAACACACACACACACACACACACACACA
Y
GTGTACACACACAAGTTGCTTCTTTGCTGCCTGCATGTCCTCACACCAGCTTATGACACACCTACAATGTTTGATGTGTCATTGTGGGCAGGTTTCAAGT
Celera SNP ID:            hCV11664571
SNP Position Genomic:     14777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19077):
CTCAGTGTTCTCATCAATAATCCACTCGCCCTCACAGGCGCGTTTGGGACCCCATGTTCTATGCTCTCACAGGACCTTTTGCTTGATTTTTCACTGTACT
Y
AGGTCAGTTTGCAGTTATTAAGTGACTGAGCAATGTCTGGCTTCTCCAGTAGACTGTCAGCTCCTAGCCATTGTATCCCTAGCACCGCTGTGTGGGAGCA
Celera SNP ID:            hCV11469532
SNP Position Genomic:     38087
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,36|T,4)   total(C,74|T,4)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19078):
GGCCAGGATCCATCCCCTTGGCTACTGTCTTGCTGAGAAATTAATAAGCAGCATCTGGTGCTATACTTTGGTCTCTAGTGAGTTAGCTCATGAAAGATGA
Y
AGACTCTCCAAGCCAGGGGTATGCAGGAAATGGGTTTTCTGTAGCTACAGAAATGGGGTTGAGGGTTGGACCAAGGGGACTACCCAGGGGAAGTCTTACC
Celera SNP ID:            hCV7565907
SNP Position Genomic:     39189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19079):
TACTGTCTTGCTGAGAAATTAATAAGCAGCATCTGGTGCTATACTTTGGTCTCTAGTGAGTTAGCTCATGAAAGATGACAGACTCTCCAAGCCAGGGGTA
Y
GCAGGAAATGGGTTTTCTGTAGCTACAGAAATGGGGTTGAGGGTTGGACCAAGGGGACTACCCAGGGGAAGTCTTACCTTCAGAGGACTCTGGAAAGGAG
Celera SNP ID:            hCV7565908
SNP Position Genomic:     39211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19080):
CCTGGGCTGAGAACTTGACAGCACCTTGTATTGGTAACCAGCCGGAGGGACTGGAAATACTCAGATGTGTCTGTCTCCCTTATTAGGTTCAAAGTCCCTC
R
AGACCCTGTCTCCATCACAGTGCTCCAGTCCAGACCCCTCCTCTGAGCTCCAGACCCTGCTGGACCCAACAGCCATCCCCATCCCCACCTGCCTGGAATT
Celera SNP ID:            hCV11469534
SNP Position Genomic:     37492
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,7|G,41)   PGA-EUR(EAN-PANEL(A,10|G,36)   total(G,77|A,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19081):
TTCACAGTATTTACACATGTCCTTGAAGTGGAGAAAGCATGTAGGAAGAGGAGGTTAGGCAGAAGGAGGCCTGATCTCATCTTGCCTTTGTCTTGCTTTT
R
TGCTGTACCTGGGGAGATCAGCACCATCAGCGTGACTCTAACAGACTTGAGTGTGAGGAGCTAGGCTTGGATTGCAGACCTCAAGTTACAATTGATGTGT
Celera SNP ID:            hCV11664574
SNP Position Genomic:     11704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19082):
GCAAAATGTGAGGGAAGTAAATAGTTATCCATTTAGACACAAAACGGGAGGCGGGTTGCATGACCCAGCTCCCAGCTAGACTTTTCCCTTTGGCTTAGTG
M
GTTTGGGGTCTGGGGATTTTAATTTTATTTTTCTTTCACAGTATTTACACATGTCCTTGAAGTGGAGAAAGCATGTAGGAAGAGGAGGTTAGGCAGAAGG
Celera SNP ID:            hCV11664575
SNP Position Genomic:     11569
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,10)      total(A,1|C,10) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19083):
TGAACACGCTCTCCCAGGCCTCCTTTAAAGACCACCAATCCCATTCACAAGGAGGGGGACCTCATGATCTAATCTCCCCCCAGAAGTCTCACCTTTTAAT
R
TCACCAGCTTGGAGATTAAGTCTCAACAGGTGAATTTTGGAGGGACACAGGCATTTGGATCATAGCACCGGGGGACTCTGGTTTTCAGAATGAAAGTAGG
Celera SNP ID:            hCV11664576
SNP Position Genomic:     8322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19084):
GTGCCTCACTGAGTCACAGGCCGCCTGTGGCTCCCCAGCCTACAGGAAGTGGGAGCCCTGGCCTGGGTGTGGGGTGATGGGGGCCTCCCTGGCCAACCCC
R
CCCCTAATTCCATTTCTGAGTTGGAGAAGGGCTTAGGTGGTGGGGGAACAGGTAAGCAACCCCAGAGGACATTGCAAAGAGGCCCTGCCCGAGGTTCTCT
Celera SNP ID:            hCV28012989
SNP Position Genomic:     7258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19085):
CTCTGCTCAGGCTGTTCCCCCTGCCTGGTCCACTTGTCCTCCTTCTTGTCCCGTCAAAATGCTTCTTATCCTTCAAGACCCAGCTCTAGAGTCACCTCCA
R
CCCCTTACCCACCAGCCCCCTCTCCAAGTCTGTGTCCCACAACCCCCCTGCTCCCTCCAGGGCACCCTCCACCCTCTGGGCCACAGTTGTCAGGAGTCAG
Celera SNP ID:            hCV15859360
SNP Position Genomic:     40014
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,1|A,45)   total(G,1|A,45) 
SNP Type:                 INTRON;TFBS


Gene Number:                 61
Celera Gene:                 hCG17857 - 206000044635936
Gene Symbol:                 NDUFS2
Protein Name:                NADH dehydrogenase (ubiquinone) Fe-S protein 2, 49kDa (NADH-coenzyme Q reductase)
Celera Genomic Axis:         GA_x5YUV32VSLS(220353..249651)
Chromosome:                  Chr1
OMIM number:                 602985
OMIM Information:            NADH-UBIQUINONE OXIDOREDUCTASE Fe-S PROTEIN 2;NDUFS2


Genomic Sequence (SEQ ID NO:12221):
CCCGGTGCCCAGAAAGGGCAGCCGGGATAGTGAGGTTATTTCCTGCCCGCCCAGGGGCGCCGCCGAAGGATCTCCAGAATCTGTGCTCTTCGGTGCAGCC
AGTCCTGGGGAGTGGGGCGTGGCGTTGAAGGGGTCGGCCGGGGCACGAAGAAGCTGTATCGGAGGCGTGTGTCCTGGGGGTTGCCAGCCACTAGGACTTG
CAGTGTCAAAGGCTGGGCCAGTGGCCCATGGCCTGACAGTGTCTCTGAGGCTGCAGTGGCCCCGCTGTAGCGCAAGCTGACTGCCCCAGGCAGTACCACA
TCTGTGGGGGAGGGCATCAGCGTGTATTCACCATTGAGGGCATAGGAGCCATCTGGCAGCTTCAGGGCCAAGTAGATGCTCCGGTGGCCAGSGTTTCCCT
GCTGCCGGACAAGAATGTGGGTGGCCCCCGCGGGGATAGTGACCACATTGTTGTATCCGTACCTGTGTGGAAGGAGTAGATGGGGAGCTCAGGATCACCT
GAATCCCCTCAGCCTTCTGAGCTGTGCTTATGTGACTGTATGTGTGTACATGTGTGTAGATGGCTGTCACCCAATCCTATGTGAGCTGTTCGGTCTGGAT
CAGAGCTACATGCACATGTGCCCTACTGCCTCTTATCTCTGGACCTTTACACCCACTGCCCCCTTATTGAGTTGCCCTTCCAAGCCCCACTTCCTTGGTA
CCTGTCTAATTCCTACCCTCCTTCTGAGACTCAGCTCAGAGGTCACCTCCAAGGAAGCCTTCCCTGATGCCCACAAGGGCACTCACAACACCCTGTTCCA
ACTTCGGATGAATACATGGGAAACCGCACTGTAGCTGCCTACTCGTCTATCTCCCGCTAGACTGTGAGCTCTTTGAGAGTGGAAACAGTGCTGAGTTCCC
CTCTGCATCACTAGGACCCAGAATGTCCAGGAAGGTAGAGGGAGGAATGATGGTGAAAGAACCTGAATTTCCTGAAGGAGCCTGACTGCTTGCTGCAACC
AGAACSGTCCCCTCCGCACACCATGCACTTGTCAAACTTCTTCTTGGAGCCAATGATGCGATCACAGCCAGCATGGATGCATCGGCCCTGGACACAGACC
GAGGAGCTGTCCGGGGAACAGGGGGTCCCATCTACCACCTGAGGAAAAGAGAAAGAACAATGCTGAAGGTTCCTCCTAAGTCAAAAGGGGTTGGTAAATC
AAACGAGACCCATGTCCCATCAGGGAAGCAATGTTGTCGGAAAAGTTGGATGAAGTAGGGGATGTAGATGGGTGAGTGCCGGCCACCATGTGGGTGATAA
TCATAACAATAATAATTATTATCACATATAACATCTAGCCAGCATTTTCAGAGCACTGAGTATGAATCAGGCAGCATGCTAAGTGTTTTATAAACACAAA
TGTAAATCTCACCACCACTATTTGAGGTTTTTAGGGATGGAACGTTGAGGTTTAGAAAAGCTAAAGAACCTGTCCAAAAGCCACACAAATGGCAAGCAGA
GGAGCCAAGATGGGAAGTGCAGTCTGTCTGGTCCCAGCACCAAGCCCTAAACCTTGATGGCACTGTCCCTAAATGGACGCTAGAGGGCAGCCAGCCTGTA
GAAATTCTCAGGTTGGGGCGAAGGGAGCAAAATGCTGCTGGGGCTTGTTTTTCTTTGTGCAGCCTTCAACCCACCACCCTATCACAGAGAGGGAGTGTAG
GGACTTCAGTCATCTCCAGGAGGCCTGTCCATTGAGGGACTGGCTGTCCAGGAGCTGAATGAAACCACCACTATAATTTGACAGAGGAGCCCATGGAAGA
GGGGTGAAGGACTTGTCCCAAAGGCCACACATTCGATTCTCACCAAATGCAGCATTAGAAGATGGGGAGTCAGAGGAAAAGAAACCACGGGAAATAGGAT
AGGCTAGAGGGACCTATTGGCCACATATCTGGAGTCTGGGGCTCGTTTTCCTGATACCCATGTACAGATAAGTCTGAGTGGAATCCTGGACTGGGCTGGC
GTGGCTGTAGGAACAGGGTTACTTTGGGTGATCTTTGTTATCAGAAAGCAGAGGGAGCACTGCGGGTGTGTGTGACCATAGACAGGGCCTGGGGGTGTCC
TGACCCTCACCCGTGGCTCCAGCACATAGTAGTAGCCCAGTGCCYGGGCCTGGCAGGTGAGTTTGCACTGGTCCTGGGGGGCCACGCCTGTGTAGCGAGG
AACCCAGTCCATGGGCCCTGGGAAGCTCTTGAAGAGGTCGGTGCGGTGGTTGTAGGCAGCACACTGCTCCTCGCGGAAGGTCAGGGCTGGAGGGGTAAAA
CAGTCAGAGCCCCTCCTTCCTTCCTCACATCACCCCACATCCCTCCACCCAACCCCTGAGAACTCTAGACAGCACAGCTCTGCTCTTCCCTGCAGACGGC
CAAGGACAATTCCCAGAGGTTAAAGGCACTCCCCACAGCAGCAGGGGAATCAACACCCCCTTGGTCTTGCACTCAAGGGACAGTCCTTCCTGCTCTACTG
TCCCCTCCCAAGGGCTCCCATCCCCCCTACTCCTCACCTGAGCCAGTTGGGCAGTCCTCAGTGTTGCAGGAGCGGAAGCGGGTACGGCRGCCCTCACAGT
ACTTGCCACCATTCCGGGGGACAGGCCTCGTGCAGTCTCGGGAGGAGAACTGGACACCACCCCCACAGGTCCGAGAGCAGTCACCCCATGGTCCCCAAGG
ACCCCAGCCACCAGCCTGTGGAATCTGCAAAGGCACAGAANGGAAGTGGGGCATAAGTGAACTCTCTCCTGGGCTTAAGGCCAGTCCCCACACCCCCGGG
CCCTTTACCCCACCCCTGCCCTAGGATCTCACATTGAAGTCCTGGAGCTGGTCCATGTGGAGGCAGCGACCACCCATGCAGGCCTGTGCGGGCCCGCAGG
GTGTGCCATCGGCCCAGGGCGAGTGTTTGGTCTGGCACATGGCATGGCCATTGAGGTGGCCAGAGCACCAGAGGGCAGCACAGGGCGGCGGCAGCTGTGG
ACAATGGCGTGAGTCGGGCCCGAAGGTCAGCTGGCACTGGCGGTCAGCATCATAGTCCTTGCCAGGGAAAGTCACAGGCAGATGCAATGGAGCCTCTGGT
TTGTCTAAGAGACAGTGCCCTGGGAAGGGGGTTGGGGCACAAAGTCAGCAACGGGCTGAGGGGAGCATTCAGGATTGCCAGCAGAAAGCTTAGGCTCCCT
GGGGCCTGATGGAGCCTAGAAAAACAATCCTAGGACTATAAGAGGATTTAAATTTTTGTTATTTATAATTTTTGTTTTAATTACTTACTTTTTTTTTTTT
TTCCTGAGACAGAGTCTTGCTCTGTCGCTCAGGCTGCAGTACAGTGGCATGATCATGGCTCACTACAGCCTCAAACTTCTGGGCTCAAGCAAACTTCCTG
CCTTGGGCTCCTGAGTAGCTGGGATTACAGGCATGTGCCATGTCCAGCTAATTTTTTGGAATTTTTTGTAGTGATAAGGTCTTGCTATGTTGTCCAGGCT
AATCTCAAACTCCTGGTCTCAAGCAATCCTCCCACCTTAGCCTCCCAAAGCATTGGGATTACAGGTGTAAGCCACTGTGCCTAGCCCTGTAAGAGGCTTT
AATGGGCAGCTATAGTTTATTGGATGCTTATTATGAGATGAGCATTGGCTAAATGCTTGACCAGCACTATTTAATCATGGCAAATACCTATGAGATAGGT
ACCGCTATTATACTTATCTGACATATCAACTACAAACACAGAGAGGTGAAGTAACTTACAGTCACACATCTACACCTGCTTAAAGAACAGAATAAGAGGC
CAGGCATGGTGGCTTAATGTCTGTAATCCCAGCACTTTGGAAGGCTGAGGTGGGAGGATTGCTTGAGCCTAGGAGTTCGAGACCAGCCTAGGCAACACAG
TGAGACCACATCTGTATTTAAAACAAAACAAAACAAAACAAAACAGAGTAAGGATAGGAACTCAATTCTGCCTATTCTAACCAACTATAGAATATTTGAG
TTTGCTTCTCATCAACATCTCTGCCTAGTGGCAGTCATCCTGCTATTCTTGCATACCTCACTGCGTGACAAGGTAATCACCTCCTTCATAGCCAGCCCAT
TCCAGTGGTGGACAGTTCTGGCCCTCAGAAAGTCAGTTCTAATTCTACTRAGCCAAAATTCGCCTCCTCTAGCTATGCTATTTATTCTGGGAGGAAGTGA
GAACTACACAAAGACAGCAGCATTTCTCACCCCTTCCCACACTGCAGAGGAAGCACACTTGGGGGAGGCAATTTGGTCCATGCAGAATGCAGCGGAAGTG
AGAGTGCCCTGGAGGACAGGAATTGAGTGCTACCCAGGGAAAGGTAAGTGCCATCTGCTTACCATAGCCATTGTCCAGGAAGTCAGTGATGAAGCGGGCA
CTGCAGGGGGACCAGGGCTCCTCAGGATCCACATGAGCCATCACAGGGGCCATGACATGGCGAGAGGTGCTCAAAGGCCCATTCAAACTGATGCATGGCT
TGGAGTTGTCATGGAGCATGTTGAAGACATGRCCTGTGGGAGCAAAGGCCCTGATAGGATCTGAGGGTCCCTTCCCCATGCCCTGAGGGACTCCATAATA
AATCTGGCTGCAGCTGTGGATGATCAGATCCATTACCCACCTCACCCTGCCCCCAGTCCTTTCCTTTATGGTACTCTCAGGGCTCCCAGTATGTAGCCCC
GTCTCTTTCTCTGTCTCCTCTTCCCCAAAATATACTCAGGGTCCCTCCCTACCCACTTTTCCTTATAGCCAACATTCCCAACTGTGACCCCACCCATTGT
CTCTGACTCCCCCTCCAAATACACACACACAGACACACACACACACACACACACACACACAGAGGAGTTCACAGTAGTTTCGACCAACTAATTTATTTAA
TAGAAAAATGTAAATGTATGTCTACACCTGGAGCAGAGAGGAGTAATAGCCCTATACCTAGGCCTGGGGGAAGAATACCTTGGGACCCCCATTAACACTG
TGGTGAACTTGCTACCCCCTCCCCCACCTTCTCCTCCCTAATACCTTTCTCATCCACCCCTACTTTACCCAGTTCATGAGCAGCAGTGAAGGCTGACTGG
AGCCCATCATCCTCCACAATGGCACAGCTCCGAGCCGGGTCACAGACGGTGCCCACATCAGCCATACCCAGCGTGTCGCAAGTGGAGACTCCACACAGGT
CCTGTGGAGAGGGATCATAGAAGGTGCATAGACAGCCAAGACACCTGGGTCCATTGGGTTGAGATCCAGATTCCCGGGGACCTGGGCACTGAGGACCCAG
CACTGTCAGGGCCTAGGTAGCCACACATGGCAGTGTGGCTGGGGCAAGGCACCATGTCACACAACTCCAGGAACATCATTTGCATCATAGTCTATGTAGT
GGCGCTTCTTAGAATTGTGCAGTGCATGGCCTGCGGTGCTGACTGSGGCCTCACCTGACGGGTAAACAGAATGGCTGTGTCAAAGTGGTCAGGGTCCGAG
TCCTCAGGGGTGTTGAGGCCCCGCTGCCAGGCACAGAAGCTGCGCAGGGTCTGGGCAGCACTGGGCCCCACTTGGGGCCCCTCCTCGCCTGACCCCAGGA
TCACTAGCCGAGTCACCACCAAGCTGACAGGATTGCGGATGCTTGGGTGCTTGAAGGCCTTGGCTGCTGCTGCCATCACTGTTAGCAGGTAGCGCTTTAG
CCCCGCACCGTGGAATGCGGCCATCTTGTCATCTGCCACCACCAGTGTCTCCACAAATCTACTCAGTGAAGCAAAGCGCTGTAGAGAAAAAGGGAGAGGA
AGATCCTGAAATAGCCTCTCAGACCCATGGGTCGGTCGATTCTCCAATCCCTCACTTCCTGGGTCTGGAACTCAGCATAGTCAGCTGGGCCCCACACACC
CCACGGGATTCCTGACTCCTGGCGGGTCTTGGTTGGGCCCTTCCCCCAACGCCAAATCTCAGGGCTTTTGTGGTAACTCTGAGGAGTCAGCAGCTGGTTC
TAAGAAGGGGAGGAGAAGGGGACGCCACATCCCAGGGCTGCGGGAGCCCCAGAGGTGAAAGCAGCCTGGACTGCCGTCAGGAGGGACTTTGGGGTTCTCC
AGGCCTGAGTGTGGCTGGGGCCTATGGGACCAGGGCTAGAGGGCTGGGCTGCAACGTGTCTGCCCTGTGTGGTTGGAGGAACGATTCAGTCAGCAGCTAG
GGCCAGGGCCAGAGCTCAGCGTGGCGGTTGTGGAGGGAGCGTCTGGTCTGGATTAAAGCTAGAGAGGGAGGAGGGAGGAGGGAAGGGAAGAAGGGGGAGA
CCAGGAGTGGGAGGGAGGAAAGGATGGAGCCTCAGGCAGCCTCGCAGTCCGGCCACAGTGTGTGAAGGGGATTGACCAGAAGGAGGTATGGGATACCCTC
CCTCTCTTGCCACTCCTGCCCTAGTTTGCAGTTTGCCACAGTGATTTTAAAGGCAGCAKCAGAAGCCAGACACCAAGCCCTAGGGCCTCAAACCTGACTC
CTATAGCTGGGAGTGGGGGATGAAAATCAAATTTGGAGCAGAGAAAAGAGCCAAGGCCAAGGGGCTGTTAGGAGACCTTTACTGCTGGGGACTGTGTCAG
TAGGAGATGCCATGGCCAGGAAGGGGTGGGGTGGGGAGAGGGAGCAGTTATTCCCAGCCCAGAGTCTGTGACYCACCTCTGAGAACCCTCGGTGGGTCTG
GCTAGGAGAAGGGTGAAGGGGAGAGGCCTGAGCCTTACCAAGAAAGGAGGCTCATGGAGAAAGGAAAGGCAGGCAGAAGGGAGGGAAGCAGAACGGCCAG
AAGTGKAAGTGGGTGGAGAGAGGGTGAATAGGGGTCAGTAGGACAGACATGGCGGGAGGACACCGCAGGACACAGACTCCAGAGATGCCTACCTTGGCTC
TTCGGGGTCTGGGGCTGGGGCTTCCAAGAGGAGCCTTGACGTTGCACATGGGACCTTGACCGCTGGCAGGACTCTTCCGGCGTAGGATGTGAGCCCCAGG
TCCCCCAGCAGAGTTAGGGGTGCCTCCCTCCAGGGGCTGGAGGTGGAGTTCAGCCCCCCGATATTGTAACACGCCTAACAGGGCTCCCCCATCCCAGTGC
AGAGATGCCACYGACTCCGGATCTCCATTGATGGTGCCAGTCAGGTAGGTGCCAGGCTCTGCTCCACCCAGCAGCTCAGGCGCCTGGCCCAGGTACTGCA
CTGTCAGCCCCTCGACCTGCACACCGGAGTCCTGCTCCAGCTCTAGTARCAGCGTCTCCCCAAAGGCCTGCAAGCGGCACAACAGCCTGGCAGGGGYGCC
CGAGCCAGGCAGGACGCTGCCGTTGAGCTTCTCTGGAAACACGATCTCCTCCTCCCGGGGGAGGGGGCTGGCCAGCCGGGCTGAGGGCAGGAGAGAGGCC
AGCAGTAGCAGAAGCAGCCACACCAGCCAGGAGAGCGGCACAATGGGGAGCAGGAGGCAGGGTTGGGCTCCCCACAGCCAGCGCCCTGCCAAGCCCCTCC
CGGGATGCGAGCCTGTCTGGGACATGGCACTGGTACTGCAGCTGGGAGGGACTGAGGCCGTCTAGGGCACCAAGTCCTCCACACCCTAGCTTTGGAAAGC
TCCTCTCTGTAGCCTGGGGGCTTGGACTCCTGCCAAGGTCAGAGGCAAAGTTTTCAGAAGGGCTGAGGACCGTTAAAGGAAATGGAGAAAACTTAGTCCT
TGGGCTTGGGAGAGGTGCCCAGGGGTCTGGCTTCTCCAAACTCTCCTCCTGAGCCCTCCTTTCCTGGATCTTTGTCTCTCCCTGCCTGTGTCTTCTGCAG
CTTCTCTGGCCTCTCCCTCTGTAGGACTCTGTCTGGGCCGCTTCTGTGCCTGCCCTGTCTCTGCCTTCTTCCGCTGTGCCTTTGTCTCTGTCTCTTTCCT
CCTCTGTCTCTCTCGTGCATATGTGTCTGTGGGTCTCCCTGTGGGTTCTCCCCAGCCTCTCTCCGCGCCAGCTCTTTTAAGCATGGTGAGCCTCTGCGAT
TGATTGGCTGATCTCTAAGCCACTCAGCTGAGCTCTGTCGGTGGGACTCAGATGGGTGTATCATCGCTTCCCAAAAAAATGGGACTTGCCCAGGGGAGGG
GAATCTCTAGCAGCCGAATGGATAATAGGCACTGGGCCAGCTGATGACATAGCCTTTTCCCAAACCCCACAATCAGCCCTCAGCTGTCTCTTTCCCTTTT
TGGTGGGACAGAGCCCCAGGAGAGGCAGAGAGTGAGGGAAAGGGCCTGGCCGGCATGCACAGATAGGATCACKGTCCTGGGAGAATTCCTGCTCTTATAG
TCTAACCTACCATGGCTTCTCTTTTCTCAAGGCTCCCTCATGCTGCCCTTTGGCCCTAGTGGCTGGTTTCCAGGGCTGAGGGGACTGAGTGAGCTGCCTG
AGAAAAGAGGGTAGGGAACAGGTAAGGAGGCATCAAGAGGGAAGAACAAATAAAAGAGGTAGCTTGACATGGCTCAGGATAGAACTGAGCAGCTGGGAAG
AGTAAAAAAGGCAGAACATTGGGGGAGGCAAGGAGACAGTGATCAGGGAGTTGACTGCCCAAAGGTAGGATGATCCTGCTTGGAATGAACATAACAGAGG
CGGCAGATGACAAGGCAGGAGGGGTTAACGACTTTTCCTTTTATAGAAGGCGGATCCAGGGTGGCACCTCCTCTTTTCTAACGTCCCTTCTCTCCCTCAG
GATCCCCCTTCCTGAGTTACCACTACCCACCCCCTCCAAAGCCCAGAACAGCCATTCCGCCTCCATTTCCCCCCAGGGTTCCCCCTCCCCACTTCCTGAC
TCCCCATTTCCCTGGCCCAGCTCCCAGTAGCTTCCCCCAGGCTTTTGGCCCTGCTCCTACCCACTCCCAACTGCCCTAAACCCTCCCCCAGCCTCAAGTC
AGCCAGCCCCCAGCATAGGCAAGACTTGCTCTCAGGAACCCAGATTCACCCAGTATCAATCTGGGAGAATCCCCACCTGGCTCCCACCATCCACCCCACC
TTGCTCTGAGAACCCAGTGGTTCCTGGAATATCTAGTCATCTTTTCTTTTTAATTCTCCCTGGGGCAGGGAGAGGGTGGAGACAGCATTGTGCATATAGG
GAAATTAGGGTACTGGGAGAAATCCATTGCCTGGGGTGGGGAAAGTGGCTGGGGAGGAAGAGGTGGTGTTAGGGAAAGGAAGCAAATTATTCCTTTGGCT
TTGGATAGGAGGGAACTCGGAAAAGAGGTCTTGGGTATGAACTCTCAAGGCAAGGAAGGGTTCAGAAGTAGGGGCAATTTCTGCTCACCCCATCCTCTGG
CTGCTTGTTTCCCCAGGAAATCCCCAGGAAGGAGAGTGCAGTCAGCAGTCTCTTTCCTTTCCCAGAAGTGGACCACCTCCTCTTGCCTCTATTYCCCTAT
TCACTCTGCTTTGTCACCTCCTGTCCCCCGCATATCATATCCGTCAGAATACTTCCTTTCCCCCTCCCTTCCTGCTCAGGTCGGTAATACCTGCCCTGGT
GCCTATCACTTCCTGGATCACCCACCCCCTTGTGACTGCCAGACCCACCTCTTGACCCACCACTTGCCTGACCCTGGTTCTAAGCMAACGGGGCTGGGAC
TAGAGGAGTCGGACAAAGGGTGGGAGACCAGAAGGGGCAGGGGCAAGAGGAGCTATCACCAGAGAACTCTACTGCCCCTTTCCACTCCCCTATTTGAGAT
GAGGACAAAGGGGGTGACTAAGCAATGAAAGACAAAGGGCTTTAGAGTGGCTGCAGCAGTGTGTGTGGGGGTGTTGGCAGCAGGGAGAAGGCACAAAAGC
TGCAGTGTCCTAGGCAGCCCCTCAGGAGCCCCCCACCCCAGTCCCAGCTCAAGCTGCCTCCAGGGCCAAGCAGCCCAAAGTCTATCCTGACTTCTCYCAG
GCTGGATCAAGGCAAATAAATGCAGTCCTTCCCATCCCCCACCACCATGGCCACATTTGCTGTGTTTCAACAATAGAAAGAAGGCCCAGGGAAAGAGCAA
GGAATGAGGACAACAGAGGGACCAAACCTCTGCCCTGGCTCTGTGGCAGCTGCCTTGTCTAGCCCAGGTCCTGGTCAGTTCCCAYAGCTAAGGATCTGGC
CCCACCCTTTGGTACAGTTCCCATTAGGTCAATTCCCAGGCCAGAAGTCTGGCTTTCCCCTCTTTCTCTGCAGTGAAGAATTCCACCATCTCTGCTTCCT
GGTCTGTCTGCCTCACCCTGCTGCRCTGCTGGTGGGCTGTGTCCCTGGGATCCTGTCTAGGGGATATCTGGGGAAGGCCTCTTTCCAGGCTCAGAGTTGG
AGAGTTGTACAAACTCTACGGGTGGGTGGCCCAGCTGGAGTTGGGCTTAGAGGCAGAGGGAGAAAACAGGAACTAGCCTCTAAGGCTGGAAGAATCTTTG
TCCATACAGAATTGTGATCAGACTCCTGGTGCTACTACATTTCCGTGCTGTTGGCCATTACCCAGGAGGGCTATAGCAGGGTCAGAAAGACGTTAGGGAA
AAGAGGCTGACGCAAGACGGAAGTGGGGTGTGAGGCATCTCTAAGGGCGCTTCCTGGGTCTGTGATTCTGTAGGTTCGGGAAGCCTGGAGGATGTCAGGG
TCACCCACAGAGGACCTCCACTCCCCCATCTGGGATGAGGTGGCTCCTACACACCCCGACACTCCCCTCCGCACCACCAATGCCGGCGGCCTTGGCATCC
TATTCTTTTTTGTTTTGGTTTGGCGGGAGCTCTCAGACCCGCCCAGCCCCACTTAGGCTCCTTTCTCCAATCTCAATTTATGACATCTGGAAATTAGCTG
GCTTTCCCAACTCCTGTCTTTTGGATTCAGTGATGGGAAAGTAATTGGCAAAGCCTGGGGCTACCCTATAAGGGCAGGGCTCAGATACAATCCGAGAGCA
GGACTAAAGCATGAGGGCGGCCAAGGCGGAAGGGAGTAGGGAAGGAAGCGCCGCGCGTTTCCAAGATACGCAGGCGGGCTCGGCGAGAGAGCACGAAGTA
TCTGCCCCACGCAGGAACGGCAATTTTCCCTTGCTCGCTCCTAGAAAAGCCAGCCAGGAGCTGTGGGAGGAAACGCCCTCAGTAAAGATGACCGCGGTCA
CTGTTATCTAAACGCAAGTGAAGCCGAGTCACAGGACCCGGATGTTGTCAGTTCGACGGTAAACGACCCTGCCAGCTTCCAAGAGGGCGGCTTCACTGTG
CGAATAGGTGAGAAGCCAAGAAGGAGGCGCGCTGGAGTTACTTCCGCCCGGTTCTCCTTCCCGCAGTCTGCAGCCGGAGTAAGATGGCGGCGCTGAGGGC
TTTGTGCGGCTTCCGGGGCGTCGCGGCCCAGGTGCTGCGGCCTGGGGCTGGAGTCCGATTGCCGATTCAGCCCAGCAGGTGAGATCGAGGGCAGCTCTCG
ACACACTTTCTCCAAGGCTAGGGTTTCTCAGGTTGGGGACGCTTTACTCCCCCAGAAAATAATAACCCAAGCCTGTGACCCCATTGTCCATCCCTGATTT
CTTGGGCTACGGGATGCAGTGGCGCCCACTCTGGCGAGGGAGGGGAGAGGGTCTAGAGTTCGTTCGTGCCGAGGTGAAATCAGCGGAGTGGGAGACTCTG
CTTTTTAGCTTCAGTAATTTGAATGCACCTCTYCTGTCATACCTGAGTAGAGCTCAGCCAAAGAGCCAGAATGCTCGCTGTCTCTCTGTCGTTGACCTTG
AACAAACACTTTTCTCACGTTCATATTCACCTGGTTGATAATATCAATATGATGAAAATATGAAGAAGCTAGGATCCCAACCTTGCATGCCCAGGGGTGA
TGGGTGGAGTTATTCCAGGAATAATTTGTTAGTAGGAATGGAACCTCTAGAGTTCCAGCTTGTTTTGCCGAAGCTACATTAACTTCAGATCAGTGACTTG
GCATTAAAAAATCCAGGACATTGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGCAGATCATCTGAGGTCGGGAGT
TCGAGACCATCCTGACCAAAATGGAGAAACCCCCGTCTTTAAAAAAATACAAAATTAGCCGGGTTTGGTGGCGCATGCCTGTAATCTCAGCTACTTGGGA
GGCTGAAGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTTCAGTGAGTCGAAATCACACCATTGCCCTCCAGTATGGGCAACAAGAGTGAAACCCAG
TCTCAAAAAAAACAAAAAACAAAACAAAACAAAAAAACAGGTCATCCTTCCTGGGTCCCCTTGAGAGTGAATGGGAACACAGGAACCAAACACTGTTCAG
GCCCTTTGTCTAGGATCTGTCTTTGACTCCCCAGAGGTGTTCGGCAGTGGCAGCCAGATGTGGAATGGGCACAGCAGTTTGGGGGAGCTGTTATGTACCC
AAGCAAAGAAACAGCCCACTGGAAGCCTCCACCTTGGAATGGTGAGTGACCAGAGTTGCTGTCCCAACCCACACCCATCCCTGCCCCCAGCTGATTTCCT
TTTCTTTTTTTGAGACAGGGTTTCCCTCTGTCTCCCTGGCTGGAGTGCAGTGGTGCGAAAGTGGCTCACTGTAGCCTTGAACTTCTGGGCTCAAGGCAAC
CTTCTGTCTCAGCCTCCCCAGAAAGCCGCAACAACAGGCCTGTGCCACCACAACTGGCTAATTTTGAAAATTTTCCTTTTGTAGAGACAGAGTCTTGCTA
TGTTGACCAGGCTGGTTTCAAACTCCTGGCCTCAGGTAATCCTCCCAACTCAGCCTCCGAAAGTGCTGAGATACAGGCTTGAGCCACCATGCCTGGCCTC
CAGCTGATTTCTAAGTGCTCTTGAGCTCTCTGTCTTAGGCAAATTTTAGCCCCTATCCTGTTTGCTTCTTTCACCACGAAATTCAACAGACATAATAGTG
ATAACAACAGGTATTTGTGAAGTAGAGAAGGAAAGGAAGGATGTTGCAGAAGAAAATAAAGAATGGGTCCCAGTAAATACCCAAAAGTCCCTACCAATTT
AAATATTAATGCCAGCTTTTCCCATGTTCAATATATTTCAGGTTCACTACATTATCTCCCTCTCCAGACAAGGTGGTGGTTTTCCCGTTGGTAACCAAAT
GAAACCTACATGAATACAAACCATTTTTTTTCCTATCAAAACTAGCTCTTCCTTTTGACTTTTGATTTTGATCAGTGGCACCCTCATTCTCCTAATCCCT
CAGGATTGAAACTTTTTAGTCATCTTTGGCTGTTTTATCTTGCCCTCCATGTCTATGTCCAGTAAGTTACCAAACCATGTAGATACTTTCGTAATGTCTC
ATATCTGGTCATCTCTCCCTTTTAATTTTTATTGCCATCATTCTTATTCAGATTTATCTTGTATTAGACCCTGATTATTTTAGGAGTCTATTCACTGAGT
TTTTGCCGCTGATGTTGTCCCCTTTCCATCTATCCTATACAGTGTCATCACCTTCATCTTCCCCAAACATTATTTTACCATGTTATTCATACTCTTGCTC
CAAAACCTTCAAAGACACTTCCAGTTACTTTCCACAAACTTACAGTAACAATAGCTGAGTGCTTACCATTTGCCAAACATTTTCGTATGCATTATTTTGT
TTAATCTTTACAACAGCTCTATGAGAGTATTACCCCAGTTGTGAGGAAATTATGGTCTAAGGAGATTAAAACTTGATTAAAGCCCGGATGCGGTGGCTCA
CACTTTGGGAGGCCGAGGTGGGCGGATCACCTTAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGCCTCTACTAAAAATACAGAAAT
TAGCCAGGCGTGGTGGCACGCACCTGTAATTCTAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAACCGAG
ATCACGCCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTGTCTCAAAAAAAAAAAAAAGGTTAAGGACACACAGGCAGATTTGTACTCGGGTCTGTCA
GACTCCAAAGCCCATCATGAAGAATTTTGGTGGAAAAGATGGGCTCTGGTTTCAAATCTCCACTCTCAATTTACCAGTGAATAAAGTGTCTATTTATAGC
ATTATTTTAAGGATTAAATGAGATAACATGTGCCTGGCACATGTAAGTCCCCTATAAGTGTTCATTGTTATTAATGATATGTACAGATAATTGAACCACT
ACCCCCTACTTTGTCCCAGTACTAATCATCCCTCTCTTAGGAAGTCCCAATAAGAGTTCCATGGATGTTTACTTCCTTGTTTCTAAGATTTGGCCCATGT
TGATTTCATAGCCTGGAATGCTTCTTCTCCCTTCTAGCTATCTAAATCATTTCCTATATTTGAGCTCAGATCCTACCTACATGAAGTCTTTGCAGTGTTC
TTTCCTTCTTTTAAAAACTTAATGGCTAAGGCACTTTCTTGGTTACTTACAAATTTGGCCTCTGTTCCTAGTTTTTCACATGTACTTCTTTCGCAAATTA
AAATGTAAGCTTCAGATTAGGTGGGCATGGTGGTGTGCGCCTGTAGTCCCAGCTACTCTGGAGGCTGACACAGGAGAATTGCTTGAACCTGGCAGGCAGA
CATTGCAGTGAGCCGAGATGGTGCTGCTGCACTCCAGCCTGGGTGCAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAGGTAATCTTCTTGAGGGTAA
AAGTTCATTTAGTGCGAGTAAGCATTAGGTATACCATTTCCTGACTGGTTGGCCATTCATTGGATACATTTGGAGGACAGTATATCATAGTAGTTAAGAT
GTTTGGATCCTGGAGCTAAACAGGCTGGGTTAAAATCCTGGTTCTGCCACTTACTAGTTTTATGATCCTGGAAAAGTCATTTAAGCTCCATGGCCTCAGT
TTATCCAATGAAATGGGGATAACGATAGTACCTATTACTCATAACAGTTGTTGTAAGAATTAAATCAATTAAAGTGCCTAAGGTAGTGCCTGGCACATAA
TAAAGCTATATAAGTGTTATGTATTATTAAAAAGATATTCTATGCACACTGACTATGAACCATGAAAAAAAAAAAGGTATTCTAGGAGACATAGAGTGAG
ATTCATGATGTCTGTCATCAGAAAGTTTAGATCTTCCTTTTCCCCATCTAAGAGTCCTCTTCCTGGTTATAGTGGAGATTAGGAAATTAACAAAGTATGG
AATGGTGAGTTAGAAAATCTATAGGGAGAGGCTAACTCCTTGCTRTCTTTTGGGGGATCCCAAGGGAATAACCATGTGGCTCTGAACTATTTCTTACTTC
TCAGATGTGGACCCTCCAAAGGACACAATTGTGAAGAACATTACCCTGAACTTTGGGCCCCAACACCCAGCAGCGCATGGTGTCCTGCGACTAGTGATGG
AATTGAGTGGGGAGATGGTGCGGAAGTGTGATCCTCACATCGGGCTCCTGCACCGAGGCACTGAGAAGCTCATTGAATACAAGACCTATCTTCAGGTGTG
GGGGGTGAACAGGAGCCTTTTGGCGGGATCTGGGGTTGCTTTAGCCTGGGGCTTTGCCAGTTTGCTGCCCTTAAAACGTGAGGGGAGGAAGGTGTTGAGA
GGAGTAACCCGTTGAGATTACTCTTGGTTGGGTGGATGGAGGGAAGTGGCAGGGGATGCTTGAGTCATTAGGATTTGGTTTATTTAGCAGCAGTGCTTTG
AAGCTGGAGCTATACTCAGCTTTTCTCTGGCTGACTTTTTGGCAGGCCCCTTTGCCATTACTTGAGTGCCTCAGTTTCCCTGCTCTTACGTTAGACTAGT
GCGTCAAAGCCAGTGTCCCTAGGGGCAGGGAAAGAGAAAAGACATTAGCTCGCTAAGTTTAACAGCTGATTCTTGTATCTTCCAGCTGTCTACGTTTGTT
TTCAAAACATTCAATGAGTCACAGCAACTCAGAGAGGGTTTATGACAGTTTGCCATTTTTAGGAGAACTGTATAACCCAAATGATGAAGGTCAGATTTGA
AGGAGTTGGATCTCTAATAGGAATCTGAAGTTTTTTTCTTACTGTCATGAAGAAAGGTCCTGATAACAGGATGGTAGGATTAGGATTTAGATCCAGCCCA
GTGTCGGGGTGAACAGTGACTAGAATGTGATTCCCCAAGAGAGCCTCGGCGATGACAGTTTCTGGTCCTGGAGTCTATGGGTTAACCCCTGTAGCATTAG
CCCCCGTCACAGTGACATCAGAATAAGAACAGGCTGTCCCAGCTAGTAGCGTCTTAGCTCCACCCTCTTCCTGGAAGCTGAAGCTGGTTCAGCAGACAGC
TAGGACTTGGCTTTTTGGCATTCTGGAGGAAGGACCATTTCTACCTGATGCTCTGTCTTCCTTAAATACCTCACTCTGGCCGGGCTCACGCCTGTAATCC
CAGCACTTTGGGAGGTCGAAGCAGGTGGATTACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACAAGGTGAAACCCCATCTCTACTAAAAATACAAA
AATTAGCCAGACGTGGTGGTGTGCGCCTGTAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTAGCCAAGATGGTGCTACTGGCACTCCAGCGCC
TGGGCAACAGAGCAAGACTGTGTCTCAAAAAAAAAAAAGATTAAAAAAAAAAACCCTCCCAGATACTCTTAAGACTGATTGCCTTTCTCCTTCAGTATCT
GAAGTTTTTTGTTTGTTTTGTTTTTTTCCCTACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACCTCTGCCT
CCCGAGTTTAAGCAATTCTGTTTCAGCCCCCAGAGTAGCCAGGATTATAGGCACGCACCACCATGCCTGGCTAATTTTTTTTTTTTTTTTTTTTTTTTTG
AGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATAGTGTGATCTTGGCTCACTGCAAACTCCACCTCCCAGGTTCAAGCGAGTCTCGTTCCTCA
GCCTCCCAAATAGCTGGGATTACAGGTACTCACCACCACGCCCAGCTAATTTCTATATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTC
TCAAACTCCTGACCTCATGAGCCACCCTGACTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCTGACCAGTATGTCAGTTTTTTAAA
TTTTTATTATTTTTTGAGATGGAGTTTTGCTCTTGTTGCCTAGGCTAGAATGCAGTGGCATARTCTTGTCTCACTGCAACCTCTGCTTCCTGGGTTCAAG
TGATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCACGCCCTGCTAATTTTGTATTTTTAGTAGAGAAGGGGTTTCTCCATG
TTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTACCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACGTGCCCGGCCAAGG
ACTCTTGACAGTGGTATCCTGGAGCTAGCTCATACGGGCTTGCAAGAGTGCAGTTGTTAAATTTTCAGGAGTTTTGTGAGCCAGTTGTTGAACATAGCCA
TTGTCAGAAATTAATTTATATAAGCTTATGATTTAATACATTATATTAAAAGCAAAGGTAAGATTAAATATTCAAAGCTCATCACTTCATTATTTTACCA
CATTTTACTATGCTCTGCCTTTGAGGTATTTGCTTTGAATGTGTCTGTATGGTGGAAATACTGTATAATGGTGTGGTATTCTTCCCAATGCYGCATTCAG
TTACATGATATTGGTAACTTAAAATTGGCCATTGTGGGAGTATTTTTACCATGGAAATTGGCAAACATGACAAATCAGAGTCCTCCCTCACTTTGGAGAG
CCAGTTTTTAAACATTTACTAGAATACTACTGGTTTTTGGGATATTTTTACCTGCCTTGTTGGGGCTCCTGAGACTAGAAAGGCTTATACAGCACCAACT
TCTGGTGCCGACTGAGAGCAAGGCTTCAGGCAGCCAGACTGTGGGCTCCTGAGCCTGTTAGATGTGACCCACATTCCTCCCTCTTCCCAGGCCCTTCCAT
ACTTTGACCGGCTAGACTATGTGTCCATGATGTGTAACGAACAGGCCTATTCTCTAGCTGTGGAGAAGTTGCTAAACATCCGGCCTCCTCCTCGGGCACA
GTGGATCCGAGGTATGTCCCCCCAACTTTTTCTGTGGCCCACTGTGAGCATAGCATAGTGCCTTTTCCACCACTTCCCCGTTGAACCCAAGCTTAKTGTT
CAGACCCCAGGCTCTGCCCAGACCTCTCTGTCCGCCTCAGTGCTTGGCTCCTATATCCTGTCTTCTCCTTGTCTTCACAGTGCTGTTTGGAGAAATCACA
CGTTTGTTGAACCACATCATGGCTGTGACCACACATGCCCTGGACCTTGGGGCCATGACCCCTTTCTTCTGGCTGTTTGAAGAAAGGGAGAAGGTAAGAG
TGGGAGGAAAGGATAGGAATAGGGAAGGAAGTGCAGGAAGTAGAGAAGGTATAAAGGAGACAGGAGATTAAAAGAAGAGAGAGAACATGGGAGAACATTT
AGAGGGGGAAGGTATGTTTAACTTGGGTTATATTTGTAGAAACTATATCATGAGGGGTTGGTTGGGCACAAGAAGGCAGAAAGTGGGGGAGTAGGCCATC
ATAGGACCTGGGGGCCTGGGACTTTGACACTAATTCCCAGCACGTTCTATGAAGATGTTTGAGTTCTACGAGCGAGTGTCTGGAGCCCGAATGCATGCTG
CTTATATCCRGCMAGGAGGAGTGCACCAGGTGAGCAGGTCCCCGGCTTCCCCAAATGTCCAGCCCAGGCCTATTTTCCCTGTGGCCACTGGAGGGCAGTG
CTGGATGATGGAAACTCCAAACCTGTATCGCTGGGGGAGGGGGTGCTGAGAGGGCTCTCCTTAGTGAAGGCTATGCCACATTCARTAGCACTTCCGTTTG
GCTTCTAGGACCTACCCCTTGGGCTTATGGATGACATTTATCAGTTTTCTAAGAACTTCTCTCTTCGGCTTGATGAGTTGGAGGAGGTAAGCTAGGAGTC
AATGGGAAAAATCTCTCCCCCACAAGAAGGGCTAGAGAAATACAGAGATATTTGAAGAGTGTGAGGAARAGTATTAACACACCAGTTTTCTTGATCAATA
GTTGCTGACCAACAATAGGATCTGGCGAAATCGGACAATTGACATTGGGGTTGTAACAGCAGAAGAAGCACTTAACTATGGTTTTAGGTGAGGGGAATAC
AACTTCTCTCCGTAGGAGTGGGGGTGGGAGTGGGGGAGTTCCAGCCTAATATCTTGTCTTTGAAGACTTGTTGGCATCCTCCTAGTCATACCCTGAATGT
GAAGGATCAACAAGGGAGGCTAAGGAAGAAGGAGCCTCCTTACTTAGTTTGTGGAGAGTGGCCCTTATTCCCATTATGCTCTCCACAGTGGAGTGATGCT
TCGGGGCTCAGGCATCCAGTGGGACCTGCGGAAGACCCAGCCCTATGATGTTTACGACCAGGTTGAGTTTGATGTTCCTGTTGGTTCTCRAGGGGACTGC
TATGATAGGTAAGGCCCCARTCCTTTCTTGGCTGATATTCCAGCTAGTTTCCCCTGCCTCACTCTTCTCTTTGCCACTTCCTTCTTTACCCTACTTCTCA
GTGTCTGTGGGAGCTCTTGTGTGTGTTAGACGAGGTTGCTCTCAAAACACTTTCACATATATGGAATCTTACTTATTTTTTTCTTTTTTGAGACGGAGTT
TTGCTCTTGTTGCCCAGGTTGGAATGCAATGGTGCAATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAG
TAGCTGGGATTACAGGCATGAGCCACCACGCTCAGCTAATTTATGTATTTTTAGTAGAGACGGGATTTCTCCATGTTGGTCAGGCTGGTCTCAAGCTCCT
GACCTCAGGTGATCTACCCGCCTCGGCCTCCAAAATTGTTGGGATTATAGGCGTGAGCCACCACACCCGGCCTATGGCATTCTTTTTATCTTTACATTAT
CCTTGTCTTAGATGGAGCTAGCTTTGGCTGCATTTTATAGCTGAGAAAGCTGAGGCATAAAAGTTAGGGATTAGCTGGGATTATTCTTCAGGAGTGGTCG
AGACTAGAATCCTCCTGATCCAGTGTTCTTTCTAGTAGATCCTAAGCTTCAGATTCTCCTCCTGGGCCAGGCACAGTGGCTCATGTGTGTAATCCCAGCA
TTTTGGGAGTCCAAGGTGGGTGGATCACTTGAGGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATT
AGCTGGGTGTGGTGGTACATGCCTGTAAGTCCAGCTACTTGGGAGGCTGAGGAAGGAGAGTTGCTTGAATCTAGGAGGTGAAGGATGCAGTGAGCTGAGA
TGGAGCCACTGCATTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAACAAAAAACGAAAACCAAAAACAAATTCTCCTCCTGTTTTCTCACCC
TGAGTCAGATTTGTTACTGTGTATTGTTTTTTTTATTTTTGTTTGTTTTATTTTTTGAACCTGGTAGCTACTGCTGTTATTTTTGTTTGTCCATTTGACT
CTCACCCATCCTGTGGTCCAAAAAGTGCTTAAGGAGGTAATTAAAGAAATAAATACTACAGGCCATGTTCTGAGAAAATAAGGAGAGGGTTTGGGGAAGC
ACCCAAGAGTAGAAGCAAACGATTACAGGGGGCTGGGGTTGGTGGCTCATGCCTATAATCCTAGCACTTTGGGAGACCAAAGCAGGCAGTCGCTTGAGCT
CAGGAGTTGGAGATCAGCCTGGGCAGCAAAGTGAAACCTCGTCTCTACAAAAAATATTCGGATGTGGTGGTGCACGCCTGTAATCCAAGCTACTTTGGAG
ACCGAGATGGGAGGATCACTTGAGCCCCAGAGTTCGAGGCTGCAGTGAGCTGTGAAACCCTGTTTCAGAAAAAAAAAAAAAGACTACAGGGTTTATATGG
GTGGCCAAGCCAAGCAGAGATGCTGTACTTGGAGAAAAGAGTGGGGAGAGTTGACCTAACCCTTTTGAGGTTGGCCAAAGGGCATCCTTCCTAGCCCCAT
ACCTGCTCCTCTGACTGTTCTTCTCTTGCTCTGTCTCATCTTCTTGAGGTACCTGTGCCGGGTGGAGGAGATGCGCCAGTCCCTGAGAATTATCGCACAG
TGTCTAAACAAGATGSCTCCTGGGGAGATCAAGGTTGATGATGCCAAAGTGTCTCCACCTAAGCGAGCAGAGATGAAGGTTGGCTGCAGGGAGGGGGAAA
GTGTGGGGTGTTGGAAAGGGGCCAGTGGCTGGGGAGGAGTATCCTTGGATTAAATCCTATCTTTTGGTTTTCTTTTTTTTTTGAGACAGAGTTTTACTCT
TATTGCCCAGACTGGAGTGCAATCTCGGCTAACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAG
GCGTGTGCCACTACGCCCAGCTAATTTTTTGTATTCAGTAGAGACAGGGTTTCACCATATTGGTCAGGGTGGTCTCGAACTCCTGACCTCAGGTGATCCT
TGGCCTCCCAAAGTGCTGGGATTACAAAGCGTGAGCCACCACACCCAACCCAGTTTTCTTTTAATAGAGAATTTACTGTRTAGTAAGAGATTCGGGTTTT
TTTTATTTTTTTATTTTTTTTGAGACGGTGTCACGCTCTTTCACCAGGCTGGAGTACAGTGGCATGATCTTGGCTCTCTGCAACCACTGTCTCCTGGGTT
CAAGCGATTCTCCTGCCTTAGTCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCA
CTCTGTTGGCCAGGCTGGTCTTGAACACCTGACCTCTTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGAATTACAAGCGTGAGTCACCGCACCCGGCC
ATATAAGAGATTCTTAATCTCCCATAGCTCTCCTGTTTTATTCTGTATCCTCTCTGCTTACTGACTGACATGTGGCTTTAGTCTCCCTGAGGGTAGAGAT
TATTTTCTGTGCTGGGGGAGGCCTAGGAGACAGAGTTTGGATATGGTTTATTGATGCTCCCTGTTTCCTCTCTTCAGACTTCCATGGAGTCACTGATTCA
TCACTTTAAGTTGTATACTGAGGGCTACCAAGTTCCTCCAGGAGCCACATATACTGCCATTGAGGCTCCCAAGGTAAGGAGAGGAGGGGAAGGAAAAGAC
CATATGTAGAGTAGGTAGCTAAAGATAGATGTTTAACAAATAGCTCATTCATCAATGAGAGAGAAAACAGAATGAATAGAGGTTTTGTTGGCAGAGAAAA
ATACTCTTCATGTTAATACAGACACCCAACCTTCTTCCTTGAACAGGGAGAGTTTGGGGTGTACCTGGTGTCTGATGGCAGCAGCCGCCCTTATCGATGC
AAGATCAAGGCTCCTGGTTTTGCYCATCTGGTAAGAATCAATCCCAGTAACTATAACTCCAATGAATTAAACCTGACCTTGGTTGAGGTTTTTATGAACT
CTTCTTTCTCCTCCCACCTTGCAAGTCTTAACTAACATTGTTGCCATCTCAATCTCCCTAGGCTGGTTTGGACAAGATGTCTAAGGGACACATGTTGGCA
GATGTCGTTGCCATCATAGGTACGAGGCCTATTGTGTAGTAGAGGTATCCTAGACAAAGGAGTTCGGGACGCCCACTGGGGACAGAAGGAGAACACTTCC
TGTTCACCATAGGCCATGGCATGGACTCGGGTCCTCAATCTTTTGAGCACAGTAATGGGTTCTGGATCTTGGGTAACACCACTTTTTTTGTTTGTTTTGC
CTCACAACAGGAAGATAAGTAACATCACTTTTTTCCTCCATCCTCTCACCTAGGTACCCAAGATATTGTATTTGGAGAAGTAGATCGGTGAGCAGGGGAG
CAGCGTTTGATCCCCCCTGCCTATCAGCTYYTTCTGTGGAGCCTGTTCCTCACTGGAAATTGGCCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGKAT
GTTCATGTACACTTGGCTGTCAGGCTTTCTGTGCATGTACTAAAAAAGGAGAAATTATAATAAATTAGCCGTCTTGCGGCCCCTAGGCCTAAACTTCTGG
TATCTTAGTGTCTCAGTATCTTAGTGTCCTTCACTCGGACTGTAAACCTAAGAATGTTCATTAACCCTCCATTCCTGTTAGATTCAGTCAGGTCTTAGCA
ATTTTTCCTGCTCGTCTCCACCCCCTTCTCTGACTCTTGTCCTTTCCACTTCTCTATTCCCCATTTCCTCTTTCGCCTCAGTTCCCTCCTTGCCCAAACC
TTCTCAGTGCCCACATAACTTGGTAAACCACTCAAATCAAGACCTGGGGTAAAGTTGGGAGGGAAAGGGCTATAGTGGGGTCTGAGGGAATGTTGACGGG
CAGTTTCACACAGATAAATCTCTGAACCAGCCGGGCGCAGTGCCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGATGGATCACCTGAGATC
AGGAGTTCAAGACCAGCCTGATCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCCGGGCGTGGTGGTGCATGCCTGTAATGCCAGCTAC
TCGGGAGGCTGAGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCGGTGAGCCGAGATGGCGCCATTGCACTCCAGCCTGGGCAACAAAGCAAGAGTCCG
TCTCAAAAAAAAAAAAAAAAAAAAAAATCTGAACCAGGTGGAGTGGAAAATGGCAGATGTAGACAGCCTTTCCTGAGCGTGARAGTCTCCTCATTCTGTG
GGTTAGGAGTTGGTCATTGAAGGGCTGACGCTTAAGAGCCCAGATCTCCCAACTCCCTTAGTTGGCCCTTCCGGGAGCCGCCCRGTCTCTTGTGCAGGAA
GGGGAAGGGGCCAAAGCATGGGGGAAGGCGTGGCAGGAAGAGGGGGACTCTGTGGTCAGGGAACTKCTCGCTGAGCACAGCTGCACAGTGCTGTCAGAAC
GGCCGATCTCCAGCCCAAGATGATTCCAGCAGTGGTCTTGCTCTTACTCCTTTTGGTTGAACAAGCAGGTAAGAGGGTTTGGTGAGGGATAGCGTGAGCT
GGCTCCAGGGTGGAAGTCCAGAGCTTGGGTCTGAGGGCCAAGTCAAACACAGGTGAAGGAAGGCTGACAGTGGGTAGGTGGGCATAGGGAGACCCTGAGG
CTAGTCCTCTCCAGCCCCGACCCAGGGCACTAGACTCATAGTTCCCTCCTTTCTTGTTGCCTTCTTACTTCATTCCAGACTTTTCTCCGTATTATTATTA
TTATTTTGGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCTACTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTC
CTGCCTCAGGCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCGGCTAAGTTAAGTATTTTTGGTAGAAACCGGGTTTCGTCATGTTGACCA
GGGTAGTCTTGAACTCCTGACTCAAGTGATCCACCCACCTCGACCTCCCAAAGTGCTGGGATTACTGGTGTGAGCCACTGCACCCAGCTATTATTATTAT
TAAAAAAAGACAGGGTCTTACTATGTTGGCCACATCGGTCTTGAACTCCTGGCCTCAAGCAATTCTCCCACCTCGGCCTCCCAAAGTGCTACTGTGCCTG
GCTGACTTTTCTCTTTTCAGGGTTGATAGAAAGTGGCAGGGGAAGGGTCTGGTTGTATGGCATGAAGAGCTGGTCTGGTGAAAAGCCTCATTTCTCATGA
TGAGCATTTCCCATGGGGTGCCTTTGGTCTTGTCTGCTGGGAGCTGATCTCTAGCTGGTTTAATATACAAAGCACCCTTGGTGCCTATAATTCCAGCTAC
TCAGAAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCTAGCCTGGGGGACAGAGTGAGA
CTCCGTCTCAAAAAAAAAAAAAAGATTTTACATATATATCTCTATCTATCTATCTATATACACACACACACACATACACACACACACACACACACACACA
CACACACACATATATATATATATAGAGAGAGAGAGAGAGAGAGAGAGATAACCCTTTAGGAAGGTAGGACTCTGTTCTTGTGCTTGGGAGTAAGGCAAGG
ATATAGCCAAGACAAACAGACGGGATTGCTGTTTCTATGGGTCATTGTTAATGCTCCATTCTGTCAGCAGTTGATAATGAGGGTGGGCAGCATGAGATCC
CCAGTTCCAGAGACCTGAGCGTCAGCTGAGAAATAGAGGCAGAAATGGGAAGGTCTCTGAAGCTCTACAGCTCCAGCCACTATCTAAGAATTCTCACTCC
TCGTTCACTCTGTGTTGTCTGTGCTGGATTGGTGTGTGTGTGTTGGTGGCAGCTGGGTGTTGGGGAGGAGGAGGTCAGTAAACTTCAGGGAAACTGTGGA
AATTGAAAGAGAATGACTGGGGAGGAATTCCAGCAGCCTAGCTGAGAAGGTGGGAGCAAGTATTAAGTTAGCCACTGGTCTGCTGCCGTGGGATGAGGAG
GGAGGAGGCCCGCTGAGGCACAAAGGAAAGCATGGGCTTTAGAGGCAGAAAACCTGCATTTGAGTTCCAGCTCTGTCACTTAACTCTGTGGCTCTGAGTG
AGTTACTTAGCTTTTCCGAGCCTTGGTTTCGTCACCCATAAAATGGCGATGATGATGTTTCCCTCACAGGGTAGTTTTAAGATTTGTGCAATATCGTGTG
TGTGAAAGAGTGTTGCAGAATAAAAAGTACTTGACCGATGTCAGCAATTGACTGACGTTAGTCACATGTTCCCTACTGGTCCTCTGATACGGGGTGAGAG
CAGTCTCTGGAGCCCAGACTTGATTTGATTTTTTAAATTGCACAAAACTTCCCCTCTCAGAGACCCAGAGAGTGAGTAATAGGGCAGAGTAACAGGAGCT
GGAATCCATATAGCTGTGGTCATTCCCCCAGCCTTGTGTTCAGGGCCAAAGGTATCTGTAAGGTCTGGGAAAAACAGACACACTTTTTTTTTTTTTTTTT
TTTTTTACATATTTAAGTGTCTTGTGGTGGGACAGAAAGCAACAAGGCTGAGGCTAGGAGATGACCAATGATAGAGTAATTGCCTTCTCTCCCTTCCCCA
GCTCACATCCTTCCTGTCCAGCCCTCAGCCACAGGTCACAGGACTTAGTAGAGACACTTCTGTGGTTTCTTCACTGAAATTTGCCACTACCTCTCCCTCC
CACTACCCATCTTGGCTGAGGTTTTGGTTTCAGTCCAGTGGACTCAGATGGGTCCCTTGAGGTGGATAAAGTGCTCAATGGTGCCTGAAGAACCCACAGT
GCTAAAAAGAAAAGGTTGGGGGCTGAGGGGGAAGGCCTCAATTATTAGTCCGTGTGAGTCCCATTTCAATAGAACCCTCAAGCTTCCTATCCTAGCCTGA
CCCTATGGTGTGGGAGGAGGGAAAGGTAAGGGCAGTGGAAGGCCAGAGAGAAACAGAATTTCTTCCCTTAGACGGCTCCCCTCCAGGCCCTGTCCTACCT
CCCAGAGCCCCTTCCCTTCTCTCCTCTGAGTACCAGATCCTCCCTGATACCCCCGACCCCATGGGCATCCTCTATCCCCTCAGCGGCCCTGGGAGAGCCT
CAGCTCTGCTATATCCTGGATGCCATCCTGTTTCTGTATGGAATTGTCCTCACCCTCCTCTACTGTCGACTGAAGGTAGCGCTGGGCAGGGTGGGGTAAG
GGCTGGAAGGGGAAGTGGGAGGAGGGCAGCAGCAAGGATTCGAAGAGAAGGAATAAAAGGGGATCCTCCACAAAGTTTGGAGGGAAGGGGGATGGGCCAT
TAACTTACCCTTTACTGATAACCTTTCCCCCATTCCAGATCCAAGTGCGAAAGGCAGCTATAACCAGCTATGAGGTATGGACCCTCCTACACCTGGTGTG
GACAACTTTTCAGACCCTCAGCCCTCCTGGGGCTCTAGCCTGGGTTTCCGGGCCTCTGGGAGGGCCTGCCTCTCAGGTGCTGATCTGCATACACCTCAGA
GGCCTCCCTCCCACCTTACCTAGCCAAGCCACAAGTAAAATATTCAGCAGGTGACAGGGAAGAATCAAGCATAGAGTGATAAAGAATATGTGAGAGACTT
GGATGTAGTATGTCGGGTGTATATGTGTGCTTGTAGCCATGTGGGCAAACAGGTATCCATGTCCCAGAGTGTCCATGTGAGTGCCCTCTAGCCCAAGGTG
GCTGGCTGCCCACCCCCCATGCCTCCCTGGGTGGGGCAGATGCTGAGGGGCCCTGGAGAAAGTGTGGGTCTTTAATGTTTTGCTTCTTTTGTCTCTGCAG
AAATCAGATGGTGTTTACACGGTAAGTGTGCCTACCTCCCCCACCCAGGAAGTCAGCAGAAGAGGGTGGGATTTTGAGCGATCTTTGGAAGGCCGGTGGG
GGGAGGGGGGTCCTGTGGAGGTGGGAGGGGCCTCTGATGGACTCCAGCTCCTGATCGCCCTTTGACTCCCATCTCCAGGGCCTGAGCACCAGGAACCAGG
AGACTTACGAGACTCTGAAGCATGAGAAACCACCACAGTAGCTTTAGAATAGATGCGGTCATATTCTTCTTTGGCTTCTGGTTCTTCCAGCCCTCATGGT
TGGCATCACATATGCCTGCATGCCATTAACACCAGCTGGCCCTACCCCTATAATGATCCTGTGTCCTAAATTAATATAYACCAGTGGTTCCTCCTCCCTG
TTAAAGACTAATGCTCAGATGCTGTTTACGGATATTTATATTCTAGTCTCACTCTCTTGTCCCACCCTTCTTCTCTTCCCCATTCCCAACTCCAGCTAAA
ATATGGGAAGGGAGAACCCCCAATAAAACTGCCATGGACTGGACTCTATTCATTCATTCATTCATTTATCATAGATTTATTCAGTCTCTGCTAAGCACTA
GATACAGCTTTTCAGTTCCAGAACTCACAGTCTAATGGACTTCAGAGCTATTTTGCTCGACTGAGGGATAAATGCTGACTATGGCTGGGGGAGGGATAAA
AACCTTTGACCTGTAGGTGCTCTGAGGATGGAGCTGGAGCAGGGACTAGTGTGTTGGGAGTCTAGGCATATTTGGAAACATAAGAAATGACTTCTGTATC
AGCATGGCCTTCTGTGTTCGACAATTGAACCAAGGTTGGGTTGTAGGGGAGCCTGGGTGTCCCCAGATGGCCACCAATCCAGACAGCATCAATCCAGTAC
ATGCATATGGGAATTAGCATAGCTGAAAAGCCAAATATGCAGAACGGATGGTGTAACTAGGGCTGAGTGAAGCTCCTAATGGAAGGTTTTATAGCAACAG
TGAATTTTCAGGGCATCTGGGGCAAGTGGGACCTTAGAGGGCCAGATGGGTCAGTGGTAGGTAAGGCAAAGGGAAATAAGTTGGGTCCAAATGGGGGGGT
CATCTCCTTCAAGTGCATGGGTGGTGGTCAAGGCCCTGTCAATGCCTGTCCTGTTTTCAGAGCTACGAGGAATATTTGCCTGAAAGAATTTAAACCTCAG
GAGATGCTGCCAGTCCTACTTGTGACCCAGTCTTTTCAGAATGGGTCTAGAGACTCCAAGCTTACCCCTGGCATAACCCCCAACCTCCACAGTGCTGCAC
AACACTTCACACTGCATAGTGACTTACACTTTTCAAAGTATTTTCCAGCTCATTGTACCATTTGATCTGCTAATTAACCCTGTGAGGAAATTCAGGCTCT
TTGAAGTTAATTAACCTGTCCAAGGTCACCTTGCAAGGAACCGACTGAGATCACTTTCGTCTCTGCACATTTTGCCACATGAGAAGAAGCAGATATTGGG
AAAGAGAAGGGGTAGTGAGTAATCATGAATGGCGAGGGTCTTGAAGGCCAGATGAAGCAGGTTGATCAATATCTGGAAGGAATTGGAGCCATCTCCGGTG
TCTGGCGGGGGAAAGGTGATTTCAGATGAGATAAGAGAAATGAGCCAGGGTAGGAAAGTAACTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCC


SNP Information

Context             (SEQ ID NO:19086):
TTTTTCCTCCATCCTCTCACCTAGGTACCCAAGATATTGTATTTGGAGAAGTAGATCGGTGAGCAGGGGAGCAGCGTTTGATCCCCCCTGCCTATCAGCT
Y
CTTCTGTGGAGCCTGTTCCTCACTGGAAATTGGCCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTTCATGTACACTTGGCTGTCAGGCTTTCT
Celera SNP ID:            hCV8722001
SNP Position Genomic:     23130
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:19087):
AATACCTGCCCTGGTGCCTATCACTTCCTGGATCACCCACCCCCTTGTGACTGCCAGACCCACCTCTTGACCCACCACTTGCCTGACCCTGGTTCTAAGC
M
AACGGGGCTGGGACTAGAGGAGTCGGACAAAGGGTGGGAGACCAGAAGGGGCAGGGGCAAGAGGAGCTATCACCAGAGAACTCTACTGCCCCTTTCCACT
Celera SNP ID:            hCV27844295
SNP Position Genomic:     9586
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,36)   total(A,1|C,71)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19088):
ACCCAACCTTCTTCCTTGAACAGGGAGAGTTTGGGGTGTACCTGGTGTCTGATGGCAGCAGCCGCCCTTATCGATGCAAGATCAAGGCTCCTGGTTTTGC
Y
CATCTGGTAAGAATCAATCCCAGTAACTATAACTCCAATGAATTAAACCTGACCTTGGTTGAGGTTTTTATGAACTCTTCTTTCTCCTCCCACCTTGCAA
Celera SNP ID:            hCV8722002
SNP Position Genomic:     22624
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,18|T,4)   total(C,47|T,7)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,29|T,11)   total(C,64|T,14)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,325|C,572)   total(C,572|T,325) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19089):
TGTTCTTCTCTTGCTCTGTCTCATCTTCTTGAGGTACCTGTGCCGGGTGGAGGAGATGCGCCAGTCCCTGAGAATTATCGCACAGTGTCTAAACAAGATG
S
CTCCTGGGGAGATCAAGGTTGATGATGCCAAAGTGTCTCCACCTAAGCGAGCAGAGATGAAGGTTGGCTGCAGGGAGGGGGAAAGTGTGGGGTGTTGGAA
Celera SNP ID:            hCV156083
SNP Position Genomic:     21316
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19090):
GGAGTGATGCTTCGGGGCTCAGGCATCCAGTGGGACCTGCGGAAGACCCAGCCCTATGATGTTTACGACCAGGTTGAGTTTGATGTTCCTGTTGGTTCTC
R
AGGGGACTGCTATGATAGGTAAGGCCCCAATCCTTTCTTGGCTGATATTCCAGCTAGTTTCCCCTGCCTCACTCTTCTCTTTGCCACTTCCTTCTTTACC
Celera SNP ID:            hCV25653285
SNP Position Genomic:     19590
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19091):
CAACAAAGCAAGAGTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAATCTGAACCAGGTGGAGTGGAAAATGGCAGATGTAGACAGCCTTTCCTGAGCGTGA
R
AGTCTCCTCATTCTGTGGGTTAGGAGTTGGTCATTGAAGGGCTGACGCTTAAGAGCCCAGATCTCCCAACTCCCTTAGTTGGCCCTTCCGGGAGCCGCCC
Celera SNP ID:            hCV27848237
SNP Position Genomic:     23983
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,6)   caucasian(A,35|G,5)   total(A,63|G,11)   
SNP Type:                 hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,3)   caucasian(A,20|G,4)   total(A,37|G,7)
SNP Type:                 hmCS


Context             (SEQ ID NO:19092):
TAGGTCAATTCCCAGGCCAGAAGTCTGGCTTTCCCCTCTTTCTCTGCAGTGAAGAATTCCACCATCTCTGCTTCCTGGTCTGTCTGCCTCACCCTGCTGC
R
CTGCTGGTGGGCTGTGTCCCTGGGATCCTGTCTAGGGGATATCTGGGGAAGGCCTCTTTCCAGGCTCAGAGTTGGAGAGTTGTACAAACTCTACGGGTGG
Celera SNP ID:            hCV27848239
SNP Position Genomic:     10225
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,1|G,37)   total(A,1|G,67)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19093):
AAGCTGCAGTGTCCTAGGCAGCCCCTCAGGAGCCCCCCACCCCAGTCCCAGCTCAAGCTGCCTCCAGGGCCAAGCAGCCCAAAGTCTATCCTGACTTCTC
Y
CAGGCTGGATCAAGGCAAATAAATGCAGTCCTTCCCATCCCCCACCACCATGGCCACATTTGCTGTGTTTCAACAATAGAAAGAAGGCCCAGGGAAAGAG
Celera SNP ID:            hCV27850260
SNP Position Genomic:     9897
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|T,1)   total(C,71|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19094):
GGCGAGGGAGGGGAGAGGGTCTAGAGTTCGTTCGTGCCGAGGTGAAATCAGCGGAGTGGGAGACTCTGCTTTTTAGCTTCAGTAATTTGAATGCACCTCT
Y
CTGTCATACCTGAGTAGAGCTCAGCCAAAGAGCCAGAATGCTCGCTGTCTCTCTGTCGTTGACCTTGAACAAACACTTTTCTCACGTTCATATTCACCTG
Celera SNP ID:            hCV382245
SNP Position Genomic:     11633
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19095):
CCTCTGGCTGCTTGTTTCCCCAGGAAATCCCCAGGAAGGAGAGTGCAGTCAGCAGTCTCTTTCCTTTCCCAGAAGTGGACCACCTCCTCTTGCCTCTATT
Y
CCCTATTCACTCTGCTTTGTCACCTCCTGTCCCCCGCATATCATATCCGTCAGAATACTTCCTTTCCCCCTCCCTTCCTGCTCAGGTCGGTAATACCTGC
Celera SNP ID:            hCV27842318
SNP Position Genomic:     9394
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19096):
CCCTTCCGGGAGCCGCCCGGTCTCTTGTGCAGGAAGGGGAAGGGGCCAAAGCATGGGGGAAGGCGTGGCAGGAAGAGGGGGACTCTGTGGTCAGGGAACT
K
CTCGCTGAGCACAGCTGCACAGTGCTGTCAGAACGGCCGATCTCCAGCCCAAGATGATTCCAGCAGTGGTCTTGCTCTTACTCCTTTTGGTTGAACAAGC
Celera SNP ID:            hCV15867981
SNP Position Genomic:     24166
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,11)   caucasian(G,32|T,6)   total(G,57|T,17)
SNP Type:                 UTR 5;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,8)   caucasian(G,31|T,7)   total(G,55|T,15)   
SNP Type:                 UTR 5;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,732|G,763)   total(G,763|T,732)   (G,-|T,-)    
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:19097):
CATCACTAGGACCCAGAATGTCCAGGAAGGTAGAGGGAGGAATGATGGTGAAAGAACCTGAATTTCCTGAAGGAGCCTGACTGCTTGCTGCAACCAGAAC
S
GTCCCCTCCGCACACCATGCACTTGTCAAACTTCTTCTTGGAGCCAATGATGCGATCACAGCCAGCATGGATGCATCGGCCCTGGACACAGACCGAGGAG
Celera SNP ID:            hCV27464590
SNP Position Genomic:     1006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19098):
AAAGCAGAGGGAGCACTGCGGGTGTGTGTGACCATAGACAGGGCCTGGGGGTGTCCTGACCCTCACCCGTGGCTCCAGCACATAGTAGTAGCCCAGTGCC
Y
GGGCCTGGCAGGTGAGTTTGCACTGGTCCTGGGGGGCCACGCCTGTGTAGCGAGGAACCCAGTCCATGGGCCCTGGGAAGCTCTTGAAGAGGTCGGTGCG
Celera SNP ID:            hCV40795
SNP Position Genomic:     2145
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,15)   caucasian(C,21|T,13)   total(C,40|T,28)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): (C,5|T,5)      total(C,5|T,5)Caucasian(T,109|C,197)   Chinese(T,7|C,51)   Japanese(T,2|C,18)   Tfrican(T,45|C,53)    ;(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19099):
TGGTTCTTCCAGCCCTCATGGTTGGCATCACATATGCCTGCATGCCATTAACACCAGCTGGCCCTACCCCTATAATGATCCTGTGTCCTAAATTAATATA
Y
ACCAGTGGTTCCTCCTCCCTGTTAAAGACTAATGCTCAGATGCTGTTTACGGATATTTATATTCTAGTCTCACTCTCTTGTCCCACCCTTCTTCTCTTCC
Celera SNP ID:            hCV7481371
SNP Position Genomic:     27979
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;UTR 3;TFBS


Context             (SEQ ID NO:19100):
CATCTAAGAGTCCTCTTCCTGGTTATAGTGGAGATTAGGAAATTAACAAAGTATGGAATGGTGAGTTAGAAAATCTATAGGGAGAGGCTAACTCCTTGCT
R
TCTTTTGGGGGATCCCAAGGGAATAACCATGTGGCTCTGAACTATTTCTTACTTCTCAGATGTGGACCCTCCAAAGGACACAATTGTGAAGAACATTACC
Celera SNP ID:            hCV34487
SNP Position Genomic:     15245
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,18)   caucasian(A,1|G,1)   total(A,13|G,19)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19101):
GAGCAGCGTTTGATCCCCCCTGCCTATCAGCTTCTTCTGTGGAGCCTGTTCCTCACTGGAAATTGGCCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
K
ATGTTCATGTACACTTGGCTGTCAGGCTTTCTGTGCATGTACTAAAAAAGGAGAAATTATAATAAATTAGCCGTCTTGCGGCCCCTAGGCCTAAACTTCT
Celera SNP ID:            hCV26627115
SNP Position Genomic:     23198
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,6)   total(G,2|-,6|T,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:19102):
TGCACTGTCAGCCCCTCGACCTGCACACCGGAGTCCTGCTCCAGCTCTAGTAGCAGCGTCTCCCCAAAGGCCTGCAAGCGGCACAACAGCCTGGCAGGGG
Y
GCCCGAGCCAGGCAGGACGCTGCCGTTGAGCTTCTCTGGAAACACGATCTCCTCCTCCCGGGGGAGGGGGCTGGCCAGCCGGGCTGAGGGCAGGAGAGAG
Celera SNP ID:            hCV25651633
SNP Position Genomic:     7297
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,38|T,2)   total(C,74|T,4)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,35|T,1)   total(C,71|T,3)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19103):
GTGCCAGGCTCTGCTCCACCCAGCAGCTCAGGCGCCTGGCCCAGGTACTGCACTGTCAGCCCCTCGACCTGCACACCGGAGTCCTGCTCCAGCTCTAGTA
R
CAGCGTCTCCCCAAAGGCCTGCAAGCGGCACAACAGCCTGGCAGGGGCGCCCGAGCCAGGCAGGACGCTGCCGTTGAGCTTCTCTGGAAACACGATCTCC
Celera SNP ID:            hCV25651634
SNP Position Genomic:     7249
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,12|G,26)   total(A,13|G,61)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:19104):
AGACCTTTACTGCTGGGGACTGTGTCAGTAGGAGATGCCATGGCCAGGAAGGGGTGGGGTGGGGAGAGGGAGCAGTTATTCCCAGCCCAGAGTCTGTGAC
Y
CACCTCTGAGAACCCTCGGTGGGTCTGGCTAGGAGAAGGGTGAAGGGGAGAGGCCTGAGCCTTACCAAGAAAGGAGGCTCATGGAGAAAGGAAAGGCAGG
Celera SNP ID:            hCV27858007
SNP Position Genomic:     6673
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19105):
AAGGCACCATGTCACACAACTCCAGGAACATCATTTGCATCATAGTCTATGTAGTGGCGCTTCTTAGAATTGTGCAGTGCATGGCCTGCGGTGCTGACTG
S
GGCCTCACCTGACGGGTAAACAGAATGGCTGTGTCAAAGTGGTCAGGGTCCGAGTCCTCAGGGGTGTTGAGGCCCCGCTGCCAGGCACAGAAGCTGCGCA
Celera SNP ID:            hCV25651636
SNP Position Genomic:     5446
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,39)   total(C,1|G,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19106):
GGGGGCCTGGGACTTTGACACTAATTCCCAGCACGTTCTATGAAGATGTTTGAGTTCTACGAGCGAGTGTCTGGAGCCCGAATGCATGCTGCTTATATCC
R
GCCAGGAGGAGTGCACCAGGTGAGCAGGTCCCCGGCTTCCCCAAATGTCCAGCCCAGGCCTATTTTCCCTGTGGCCACTGGAGGGCAGTGCTGGATGATG
Celera SNP ID:            hCV27863178
SNP Position Genomic:     18810
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19107):
CATGAGCCATCACAGGGGCCATGACATGGCGAGAGGTGCTCAAAGGCCCATTCAAACTGATGCATGGCTTGGAGTTGTCATGGAGCATGTTGAAGACATG
R
CCTGTGGGAGCAAAGGCCCTGATAGGATCTGAGGGTCCCTTCCCCATGCCCTGAGGGACTCCATAATAAATCTGGCTGCAGCTGTGGATGATCAGATCCA
Celera SNP ID:            hCV25651639
SNP Position Genomic:     4532
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19108):
GGCCTGGGACTTTGACACTAATTCCCAGCACGTTCTATGAAGATGTTTGAGTTCTACGAGCGAGTGTCTGGAGCCCGAATGCATGCTGCTTATATCCGGC
M
AGGAGGAGTGCACCAGGTGAGCAGGTCCCCGGCTTCCCCAAATGTCCAGCCCAGGCCTATTTTCCCTGTGGCCACTGGAGGGCAGTGCTGGATGATGGAA
Celera SNP ID:            hCV27863179
SNP Position Genomic:     18813
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19109):
TGGGACCTGCGGAAGACCCAGCCCTATGATGTTTACGACCAGGTTGAGTTTGATGTTCCTGTTGGTTCTCGAGGGGACTGCTATGATAGGTAAGGCCCCA
R
TCCTTTCTTGGCTGATATTCCAGCTAGTTTCCCCTGCCTCACTCTTCTCTTTGCCACTTCCTTCTTTACCCTACTTCTCAGTGTCTGTGGGAGCTCTTGT
Celera SNP ID:            hCV25653275
SNP Position Genomic:     19620
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:19110):
CTCCTGACCTCAGGTGATCCTTGGCCTCCCAAAGTGCTGGGATTACAAAGCGTGAGCCACCACACCCAACCCAGTTTTCTTTTAATAGAGAATTTACTGT
R
TAGTAAGAGATTCGGGTTTTTTTTATTTTTTTATTTTTTTTGAGACGGTGTCACGCTCTTTCACCAGGCTGGAGTACAGTGGCATGATCTTGGCTCTCTG
Celera SNP ID:            hCV11626860
SNP Position Genomic:     21780
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19111):
TGCTTGAACCTGGCAGGCAGACATTGCAGTGAGCCGAGATGGTGCTGCTGCACTCCAGCCTGGGTGCAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAA
A
GGTAATCTTCTTGAGGGTAAAAGTTCATTTAGTGCGAGTAAGCATTAGGTATACCATTTCCTGACTGGTTGGCCATTCATTGGATACATTTGGAGGACAG
Celera SNP ID:            hCV11626861
SNP Position Genomic:     14680
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19112):
CCCAGGGAAAGAGCAAGGAATGAGGACAACAGAGGGACCAAACCTCTGCCCTGGCTCTGTGGCAGCTGCCTTGTCTAGCCCAGGTCCTGGTCAGTTCCCA
Y
AGCTAAGGATCTGGCCCCACCCTTTGGTACAGTTCCCATTAGGTCAATTCCCAGGCCAGAAGTCTGGCTTTCCCCTCTTTCTCTGCAGTGAAGAATTCCA
Celera SNP ID:            hCV11626862
SNP Position Genomic:     10085
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,28|T,8)   total(C,61|T,11)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,27|T,11)   total(C,55|T,13)   
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19113):
TCAGCCCTCAGCTGTCTCTTTCCCTTTTTGGTGGGACAGAGCCCCAGGAGAGGCAGAGAGTGAGGGAAAGGGCCTGGCCGGCATGCACAGATAGGATCAC
K
GTCCTGGGAGAATTCCTGCTCTTATAGTCTAACCTACCATGGCTTCTCTTTTCTCAAGGCTCCCTCATGCTGCCCTTTGGCCCTAGTGGCTGGTTTCCAG
Celera SNP ID:            hCV9243700
SNP Position Genomic:     8273
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:19114):
GGAGGAGAACTGGACACCACCCCCACAGGTCCGAGAGCAGTCACCCCATGGTCCCCAAGGACCCCAGCCACCAGCCTGTGGAATCTGCAAAGGCACAGAA
N
GGAAGTGGGGCATAAGTGAACTCTCTCCTGGGCTTAAGGCCAGTCCCCACACCCCCGGGCCCTTTACCCCACCCCTGCCCTAGGATCTCACATTGAAGTC
Celera SNP ID:            hCV11626865
SNP Position Genomic:     2741
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,18)   caucasian(C,16|T,22)   total(C,34|T,40)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,19)   caucasian(C,16|T,22)   total(C,31|T,41)   
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19115):
TGAGCCACCGCGCCTGACCAGTATGTCAGTTTTTTAAATTTTTATTATTTTTTGAGATGGAGTTTTGCTCTTGTTGCCTAGGCTAGAATGCAGTGGCATA
R
TCTTGTCTCACTGCAACCTCTGCTTCCTGGGTTCAAGTGATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCACGCCCTGCT
Celera SNP ID:            hCV158096
SNP Position Genomic:     17263
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19116):
TTTTCCTCCATCCTCTCACCTAGGTACCCAAGATATTGTATTTGGAGAAGTAGATCGGTGAGCAGGGGAGCAGCGTTTGATCCCCCCTGCCTATCAGCTT
Y
TTCTGTGGAGCCTGTTCCTCACTGGAAATTGGCCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTTCATGTACACTTGGCTGTCAGGCTTTCTG
Celera SNP ID:            hCV8721997
SNP Position Genomic:     23131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:19117):
AGTTAGGGGTGCCTCCCTCCAGGGGCTGGAGGTGGAGTTCAGCCCCCCGATATTGTAACACGCCTAACAGGGCTCCCCCATCCCAGTGCAGAGATGCCAC
Y
GACTCCGGATCTCCATTGATGGTGCCAGTCAGGTAGGTGCCAGGCTCTGCTCCACCCAGCAGCTCAGGCGCCTGGCCCAGGTACTGCACTGTCAGCCCCT
Celera SNP ID:            hCV25472222
SNP Position Genomic:     7112
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,10)   caucasian(C,35|T,5)   total(C,63|T,15)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19118):
GAGAAGGGTGAAGGGGAGAGGCCTGAGCCTTACCAAGAAAGGAGGCTCATGGAGAAAGGAAAGGCAGGCAGAAGGGAGGGAAGCAGAACGGCCAGAAGTG
K
AAGTGGGTGGAGAGAGGGTGAATAGGGGTCAGTAGGACAGACATGGCGGGAGGACACCGCAGGACACAGACTCCAGAGATGCCTACCTTGGCTCTTCGGG
Celera SNP ID:            hCV25472223
SNP Position Genomic:     6806
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,6)   caucasian(G,4|T,6)   total(G,6|T,12)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19119):
CTTGATGAGTTGGAGGAGGTAAGCTAGGAGTCAATGGGAAAAATCTCTCCCCCACAAGAAGGGCTAGAGAAATACAGAGATATTTGAAGAGTGTGAGGAA
R
AGTATTAACACACCAGTTTTCTTGATCAATAGTTGCTGACCAACAATAGGATCTGGCGAAATCGGACAATTGACATTGGGGTTGTAACAGCAGAAGAAGC
Celera SNP ID:            hCV25473857
SNP Position Genomic:     19169
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,20)   total(A,3|G,55)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19120):
AGTACCACATCTGTGGGGGAGGGCATCAGCGTGTATTCACCATTGAGGGCATAGGAGCCATCTGGCAGCTTCAGGGCCAAGTAGATGCTCCGGTGGCCAG
S
GTTTCCCTGCTGCCGGACAAGAATGTGGGTGGCCCCCGCGGGGATAGTGACCACATTGTTGTATCCGTACCTGTGTGGAAGGAGTAGATGGGGAGCTCAG
Celera SNP ID:            hCV25473205
SNP Position Genomic:     392
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,24)   caucasian(C,3|G,37)   total(C,7|G,61)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19121):
CCACTGGAGGGCAGTGCTGGATGATGGAAACTCCAAACCTGTATCGCTGGGGGAGGGGGTGCTGAGAGGGCTCTCCTTAGTGAAGGCTATGCCACATTCA
R
TAGCACTTCCGTTTGGCTTCTAGGACCTACCCCTTGGGCTTATGGATGACATTTATCAGTTTTCTAAGAACTTCTCTCTTCGGCTTGATGAGTTGGAGGA
Celera SNP ID:            hCV150642
SNP Position Genomic:     18985
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,9|G,23)   total(A,16|G,54)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19122):
GCACAGTGGATCCGAGGTATGTCCCCCCAACTTTTTCTGTGGCCCACTGTGAGCATAGCATAGTGCCTTTTCCACCACTTCCCCGTTGAACCCAAGCTTA
K
TGTTCAGACCCCAGGCTCTGCCCAGACCTCTCTGTCCGCCTCAGTGCTTGGCTCCTATATCCTGTCTTCTCCTTGTCTTCACAGTGCTGTTTGGAGAAAT
Celera SNP ID:            hCV150643
SNP Position Genomic:     18296
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,15)   total(G,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19123):
TGTGTGAAGGGGATTGACCAGAAGGAGGTATGGGATACCCTCCCTCTCTTGCCACTCCTGCCCTAGTTTGCAGTTTGCCACAGTGATTTTAAAGGCAGCA
K
CAGAAGCCAGACACCAAGCCCTAGGGCCTCAAACCTGACTCCTATAGCTGGGAGTGGGGGATGAAAATCAAATTTGGAGCAGAGAAAAGAGCCAAGGCCA
Celera SNP ID:            hCV27834702
SNP Position Genomic:     6459
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19124):
ATTTTACCACATTTTACTATGCTCTGCCTTTGAGGTATTTGCTTTGAATGTGTCTGTATGGTGGAAATACTGTATAATGGTGTGGTATTCTTCCCAATGC
Y
GCATTCAGTTACATGATATTGGTAACTTAAAATTGGCCATTGTGGGAGTATTTTTACCATGGAAATTGGCAAACATGACAAATCAGAGTCCTCCCTCACT
Celera SNP ID:            hCV150644
SNP Position Genomic:     17792
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19125):
AGTCTCCTCATTCTGTGGGTTAGGAGTTGGTCATTGAAGGGCTGACGCTTAAGAGCCCAGATCTCCCAACTCCCTTAGTTGGCCCTTCCGGGAGCCGCCC
R
GTCTCTTGTGCAGGAAGGGGAAGGGGCCAAAGCATGGGGGAAGGCGTGGCAGGAAGAGGGGGACTCTGTGGTCAGGGAACTGCTCGCTGAGCACAGCTGC
Celera SNP ID:            hCV27832639
SNP Position Genomic:     24084
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,35)   total(A,1|G,71)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:19126):
TGCATACCTCACTGCGTGACAAGGTAATCACCTCCTTCATAGCCAGCCCATTCCAGTGGTGGACAGTTCTGGCCCTCAGAAAGTCAGTTCTAATTCTACT
R
AGCCAAAATTCGCCTCCTCTAGCTATGCTATTTATTCTGGGAGGAAGTGAGAACTACACAAAGACAGCAGCATTTCTCACCCCTTCCCACACTGCAGAGG
Celera SNP ID:            hCV25651640
SNP Position Genomic:     4150
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,38)   total(A,1|G,63)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19127):
CCTGCTCTACTGTCCCCTCCCAAGGGCTCCCATCCCCCCTACTCCTCACCTGAGCCAGTTGGGCAGTCCTCAGTGTTGCAGGAGCGGAAGCGGGTACGGC
R
GCCCTCACAGTACTTGCCACCATTCCGGGGGACAGGCCTCGTGCAGTCTCGGGAGGAGAACTGGACACCACCCCCACAGGTCCGAGAGCAGTCACCCCAT
Celera SNP ID:            hCV25651641
SNP Position Genomic:     2589
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Gene Number:                 62
Celera Gene:                 hCG1786672 - 30000023734302
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(44252999..44272174)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12222):
GACCAGCCTGGCCAATATGATGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCAGTCACCTGTAATCCCAGCTACTCGGGAAGC
TGAGGCAGGAGAATCGCTTGAATCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGTGACTCTGTCTCAA
AAAAACAAAAAACAGGAGAGAATGGATTTTCCTGTCCACATAGAATAAAAAGCAGTTGGTTTAGCCAGGCATGGTGGCATGTGCCTGTAGTCCCAGCTAC
TTGGGGAGCTGAGATGGGAGGATTGCTTGAGTCCTAGAGGTTGAGTCTACAGTGAGCTGTGATCATGCGACTGCACTCCAGCCTGGGCGACAGAGTTGAG
ACCCCATTTCAAAAAACAAAACAAAACAAAAAAACAGATTGGAAAACAGCAATGAAAGATTGAGTTCTATAAGTTGACAATAAAGAAAATTGACAAAATT
TTCCAGTTTTGCTGTGATTTGTCTTTGAATTTGGTAGTTTCTGTTTGGGTATTTCTTGTGTATGTTATTACTTGTGTTTTAAATCTGAAACCCCATGTAT
GTGGAATCAGATTATGCTGCTATAGAGATCCCTCATGGCAACTCAACCATTCTCTTAGTTGGCATTATATAGAATTATTTTAAATGCAATGATGATTAAG
AATGAGAAACAATTTCTCTGTCTTTTGTACTCTAAGAATGGGTGAAAATGACATTTTTAAGCTTTGTATCTTTCAGAGTATCTCCTTCTCTCTGTGCACA
TGGAGTTTTGTGTCTCTTTTGCTTTACCCCTAGTTCTCTAGACCTTTAAGACTCTTGTTTAACTGTGACGGTATTTGTGTTTGAATAAGAGAGATGCAAC
TGAAATACACAATTAGCATTGTCTTCACTTATTTCCATTTTCCCTCCTTTTCTCCCAAGGTGTCTTTTGCAGCTCACATTGCAGGTGGATTTGCTGGAAT
GTCCATTGGCTACACGGTGTTTAGCTGCTTTGATAAAGCACTGATGAAAGATCCAAGGTTTTGGATAGCAATTGCTGCATATTTAGCTTGTGTCTTATTT
GCTGTGTTTTTCAACATTTTCCTATCTCCAGCAAACTGACCTGCCCCTATTGTAAGTCAATTAATAAAAAGAGCCATCTGGAGGAAATAAAAAAAAAAGG
AAGACTCTATGAAGAAACAGAGAAGTCTCAGCAAAGGCTAACAATTTTATATAGAGGACAAAACAGCATTAAACTCATCAGTTGCAAAGATTGCCTATAA
AAGGACCTTAGGATTTAAGGAAGGGGCTTCTTAATGTAGAAAGGGAAGAAGAAGAGAGAAAAGAAGGGTAGTAAAAACTAGAGATTGGGGCCAGGCGCAG
TGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGAAATCACCTGAGGTCATGAGTTCAAGACCAGCCTGACCAATATGGTGAAACCCT
GTCTCTACTAAAGAAAATACAAAAATTAGCCGGGCGTGGTGGCGTGTGCCTGTAGTCCCAGCTACTTGCGAGGCTGAGGCAGGAGAATTGCTTGAACCTG
GGAGGCGAAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGTGACAGAGCGACACTCGGTCTCAAAAAACAAAACAAAACAAAACAAAA
TTAGAGATTGGGTCTTTCCCAGGCATATGGTATTCTATAAAACAGACTTACTCTCCTTGGAGGATATATTTTGGAGAATGCTTCATAAAATCTATGAATA
CTGTACAATGCTGATAATAAAAACTTTTTATACCTGTGTCAGACTCCTGATAATCACTTTAAAATAGATCACTGTTTGAGGAGATAGATCACTACTGTTT
GAGGTGTTTTACACACTTTATTGATAATATTATCAACAACCCGGAAAGGTAGTTATTACTCTGCATCTTAGAGTAATCTTAAAGAATCCCTTAAAGGAAC
CCTTAAAGAATTAAGTACTTGTCTGAGGGGAGCAGAATTTAAACATAGATAATGACTTGGAAACCTGTAGTCTCCCCTATAGGTCCAACAATGCTGTGTT
CCCCAAACACTGAAGGGTATCATAGGAGTACAGGAACAAACATCTATGCGGGGTACACCATGAATGGTGGAAATATCTCATAGAAGAAGACTGAGGATTT
TCTGGACTGCTAGTTTAAGATTCTGATACCGTGTCTAAGATCCCAAGGAACCGGGCACTGGCTTTCTGGTGCACACTATATACCTAGACTTCAGATTCTC
ATCTGTGATCAGACTGTCATCCTTCATGTGGGTCATGGCTCTCCTAGGAGTGGGTAGGATTTATTTACAGAAGGTAAAATGTCATACCTGAAAGCTGAGA
AGCATGTGTCATTTTCCTGTATAGAATTCAGACTGTGGTTTATTATGTTTTTGGAAATGGTAGTTTTGGGTCATCTGAATATAGGAAATATAATTTTTTC
TTTTATCATCAATGTATTTATTAAACACCCATCTAAACATGTCACTGTATCTGGAAGGGGCATATACACTTAGTTAGATATAGTGAGAAAAGTTAATACT
TTAGTATTTTGAGAAAAACTGATCAGAAATTTGTTTAAAAAGTTAAATTTAAGTATAAACATGGGAATATGAGTGTTTTTTTTTTTGTTTTGTTTTTTTT
TGAGATGGAGTCTCGCTCTGTTTCCCAGGCTGGAGTGCAGTGGGCTGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTACCTC
AGCCTCCAGAGTAGCTGGGATTACAGGCATGCGCCACCACATCTGGCTAATTATTATTATTTTTTTTTTGAGACCGAGTCTTGCTCTGTCGCCCAGGCTG
GAGTGCAGTGGCCGGATCTTGGTTCACTGAAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTATCTCAGCTTCCTGAGTAGCTGGGATTACAGGTGGCC
GCCACCAAACCTGACTAATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTAGTAGAGACGGGGTTTCACCATGCTGGCCAGGCTGGT
CTCGAACTCCCGACCTCAGGCCCTCAGGCGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCGGTCCCTAATTTT
TTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTCATCTAGGCTAGAGTGCGATGGTACGATCTCGGCTCACTGCCACCTCCACCCACTGGGTTCAAGTGAT
TCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTG
GCCAGGCTGGTCTTGAACTCCTGACCTTAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAACCACTGCACTCGGCTAATTTT
TGTATTTTTTAGTAGAGACGGTGTTTCACCATGTTGGCCAGGCTGGTCTCAAACCCCTGACCTCAAGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGG
GATTACAGGTGTGAGCCACCATGCCTGGCCTTATGAGTGTGTTCTTGGTTAAACAAAGATTCAAACAAGAAGTTAAAAGATAAAATCTCAGCCAGGTGCA
GTGGCTCATGCCTATAATCTCAGCACTTTGGGAGGCCAATGTGGGAGGACTGCTTGAGCCCAGGAGTTTGAGAACAGCCTGGGTAACATTCAAGAACTCT
ACAAAAACATAAAAAATAACCAGGTGTGGTGGTGCTTGCCTGTAGTTCTAGCTACTCCAGAGGCTGAGGTGGGAGGATCACTGGAACCCAGGAGTTCGAG
GTTACAGTGAGCTATGATCATGCCACTGCCCTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTTAAAAAAAAAAAAAATCTCCTTTTGCCTTCTCACTTC
AAACCTGCTGTTTTTCCCTAGTGCTGACCATCATCAGTGGTCACAACAGTATGGTCTGTATCCTTGCAGACATTTTTCTATGTAGGATGAGCAGAAAGGA
AAATGGATTTAAGTTAATGTCCAACTCATCCACTGTATTGAACTTCACTGAATCTGCTCTACACCCTCAAAGGGACAAATCTGAAGAACAAATTAGAGGT
GTCCATGGTATAACTCCTCCTAAGCATCATTTGCTTCTCAGATTGATCTCAACTAGGAAAAGTTTTTGTTAATCGATTTTAGCTAAATATATATGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATATATATTTTTTTTTTTTTCTTGAGACAGGGTCTTGCTGTGTCGCCCAGGCTGGAGTGCAGTGGC
GCCATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGGGTAGCTGGGATTATAGGCATGTGCCACCATGCCT
GGCTAATTTTTGGTATTTTTAATAGAGACTGGGTTTCACCACATTGGCCAGGCTGGTCTTGAACTCCTGACTTCAGGTGATCCGCCTGTCTCAGCCTCCT
CCCAAAGTGCTAGGATTATAGACATGAGCCCAGCCTCTAATTAGATATTTTTATGAAATGTAGGTTTTAACAGGATAAATGTGATACATGTATTGTTCTA
TAACTTGCTTTACAACATGACCTAGGGACCTTTCTCTATTAGTTCATAGAAATCTTTATTCTCTGAATTGCTGAATGATATAGATGTACCATAGATAACC
ATTCCTCTGTCAGACATTTAAATTATTGCTGCTTTTGTATAATTACCAACAGTGCTATGTGAACATCCTAGCATGTGCAGTGTGTCTCTGAATGTCTATG
CTGAATGAATATTTCAAGTATCCAAAAGCAGAAATGCTATACTAATATTGATAGGTTTAAACTGCCTTTTAAATAGCTGTATCCATTTATATTCTTACCT
ACAGGATATGAGAGTAACAGTGTCTCCCTACTTTGCCAAAAGAAGGTATTATAAATCTTTAAAATTTTGCATTTTGATAGTTAAAAAATAATATTTCACT
TAAATATGTATTCTCTGACTACCGAGGTTGAGGAAGTTTCGAGTTTATTAATAATTTATGAGTTACACATATGTAATTCAGATAACACATAATATAGAAA
CATGAATATATTGTGTATGTATGTGTGCCTATACAAATATATATATATATAATATATATATATATATATATATAAATATATATATATATATATATATATA
TATATATATATATATATATATATATTTTGTCCCTGGTGAAATGTTTGTATTTAATCTGAGAAGTAGCTATTGTTGGCAAAAAAGCCCAGGGAAGAAGTAT
TTATCTGTTATGCTCAACCTGCCAGATCACTAGCTCTGAAGGGACCTTTAATGACCTAAAATACAATGTAATTGTTAATAACAGAACATGGGAGACAGAA
TCAGGATCTATCTATGAAATCGGACATGACCCATTTATTAAGGCAGATGACCAAGAAGTTATTATCTAGTAAGAAAGACTTTTTTGGTTCTAGAAACATG
GTTTATTGCACAAAAAACAATGACATTTTATTAGGTTCCCCCAGTGGCAAAAGTTGCATACAAACAGCACACAAATACCTCCTGTCATTTTAAATTTGAC
ATCTCTGAATTATGGAGGAATCATTCACTCAGCTTAATTTGGGGCTCATGACTTTAGTCTTCTAGATTGCAGTGTGTTATCAGGACTATTATAAGCATTC
TTTATCTGTGCTGTCCAAAAAAGCAGCCATTAGGTAGATGCAGCTCTTTACATTTTTATTAAAATTATTTAAAATTAAAAATTCAATTGCTCTGACACAC
AAACCATAATGCAAGTGTTCAATAGCTACATTTGGCTACTGGCTGCCTTATTGGCTAGCACAGATAGAATATTTCCATTGTTGCAGAAAGTTCTATTGGA
TGGTGCTGTTTTAAAAGCAAGGATAAGCAGAAAGGGACATGGATTTTAGTTGATGGATGACTCACTCACTACATTCAACTGAACTGAATCTGCTCTATAC
CAGCAAAGGGACAAATTCAGAAAATAAATTGAAGATGGCCATGCTGTAACTTCTAAACATGGTTTGCTTCTCAGATTTACCTAAACTAAGAAAGGTTTGT
GTTAATCTCTCTGTTTTAGCTTATTAAGAAAGAGTTGTTTGAAATGTTTTTATCTTTTTCTTTTGAATTCTATGGTACTGTATATATGTATACCAGTTTT
TATGTCATTTGCTATGAAAGCTTTAATTTGTAGCTAAATACTACTGCTCCTTCTTTCAGGAAATACTATGTGTTGTCCTTTATGAAAAAAATMTTTTCTT
TCTTTTTATGATTATAAAAGTAAAATGCTTATAGTAAAAAATTAAAATACATGTAATTACAATATATTAAGTATATAATTTGTAATCCCAACATCCAGAG
CTAATCACCGTTAATATTTTCATGAATATCCTTCTAGACTTTTTTGTATACATCTGTAAATGTAACTAAACTTATAATAATGGGGCCATATTATTCTATT
TTATAACATCAATTTCACTGAAATGAAATATCAAATGCCATTTTATGTATGTTTATCATTTCTACTGGTTGCATAGTATCACACCGTGGATGTAGTCGAT
TATTTAACCAGTTTTTCTTGTATTATTATTTTATGTTTTTAGCTTATGACTATTATAAACAACATGAATTACATCTTTGCTTACATTATTATTATTTATG
AACCATAAATGAGACTTAACTTGCTTACTTTTTTTTTATTTTTTGAGACAGAGTCTCACTCTATTGCCCAGGCTGGAATGCAGTGGCCAGATCTCGGCTC
ACTGCAACCTTCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGATTACAGGCATGTGCCACCATGCCCGGCTAATTTTTGT
ATTTTTAGTAGAGATGGGGTTCAACCATGTTGCTCAGGCTGGTCTCGAACTCCTGACCTCGTAATCCGCCCGCCTGTGCCTCCCAAAGTGCTGGGATTAC
AGGCGTGAGCCACCGCGCCTGGCCAACTTGCTTACATTTTAAAGTGCTTTGGGTTGTTGGGTCAGAGTATGCTATTATTATTATTATTATTATTATTATT
ATTATTATTATTTATTTTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAATGGTGTGATCTCGGCTCACTGCAACCTCTGCCTCTGGG
TTCAAGTGATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGACTAATTTTTGTATTTTTAGTAGAGCAAGGGTTT
CAACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCGCTGGCCTCGGCCTCCTAAAGTATTGGGATTACAGGCGTGAGCCACGTGCCC
GGCCAGAGTATGCTATTATTAACATAATAAAGTCAATGGAAAGTTTCTCTATTTCAGGAATACAACTATATTTTAGAAGGTTGATGCTTTTGCAAATCGT
ATTAACAGAGCCGGGCGCGGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGAGGATCACGAGGTCAGGAGATCGAGATCACGGTGAA
ACCCCGTCTCTACTAAAAATAACAAAAAAATTAGCCGGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACCCGGAGAGGCTGAGGCAGGAGAATGGCGTG
AACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACCCCAGCCTGGGCGACAGGGCGAGACTCCGTCTCAGAAAACAAACGAACAAAAA
AAACAGAACAAAGGCTGAAGAAAGGAACTAAAGACTCTAGAACTAGTTATTTAAAAAGCCAAAGCTATCACTATTTTACATTCCTAAATTTAAATGATTA
AACTTAAGAGAAAACAGATAATCTCTTAATGTTTCTTTCCGGCAAATTTGAAGTTTGCTTACAGAGGAAAAATAATAGTTTAGTAAAAAATTTAAGGAGC
TGACTCTAAAGCCACAATGATTGGGTTTGAATGCCAGCTCCAGCTGTGTGACCTCAGGTAAATTAAGGTGTGCTTCCGTTTCCTCATCTGTAAGATGGGG
GAAACAACATACTTACCGCATAGGATTTTAGTGATGAACACATCTTGTATCTTAGTAGTTTGTTTGATTGTGTAACAGTKCCCTTTATATAAAGGGGACA
GGACATACATTTATATTTTAAATGAAAAATAATGAAAATATTCACTTTTAAAATCTTTCCTTTGGGGTATATTTCCTCTGAGATAACCTGGGATACCAAC
CTTAATATGCAATCTGCYGGCAAATAATCCAAGCAGCTAAATTATAACTTGCCCCACTGCTTCCTTCAAGAGAGCAGCTATATGTCTTAAATAGGTCAAA
TACTGCTACAGTGAAAGTTTCCATAATACTRCCACCATACCAGTGAACAATCTATTGCAAGTAATATCTATAATGAGATTCTGGTACCATAAGGCCGGGC
GCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTTGGGAGTTCGAAACTAGCCTGACCAATATGGAGGAAC
CCCATCTCTACTAAAAATACAAAATTAGCTGGGCATGGTGGCGCATGTCTGTAATACCAGCTACTCTGGAGCCTGGGGCAGGAGAATCACTTGAACCTGG
GAGGTGGAGGTTGCGGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGGGAAACTTCGTCTCAAAAAAAAAAAAAAAAAAAAGATTCT
GGTACCATAAAATAGTTGAGAATTTTTGGAGTTCTTTTTGTTTTCTGAGACAGAGTTTCTGCTCTTGTCGCCAAGGCTGGAGTGCAATGGCGCGATCTTG
GCTCACCGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGGTTACAGATGCCTGCCACCACACCCAGCTAATTT
TTTGTATTTTTGTAGAGACAGTGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCATCGGCCTCCCAAAGTGCTGGGATT
ACAGGTGTGAGCCACTGTGCTGGGCTTGAAGTTCATTTTAAYGTAAGAATTTACAAAATTTGGGCTGGGCGCGGTGGCTTACTATGGGAGGCCGAGGCGG
GTGGATCACTCAAGGTTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAACAATACAAAAATTAGCCAAGCGTGGTGGCACT
TGCCTGTAGTCTCAGCTACTTGGCAGGCTCAGGCACGAGAATCACTTGAACCTGGGAAGTGGAGGTTGCAGTGGGCTGAGATCCTGCCACTGCACTCTAG
TCTGGGCAACAGAGTGAGACTCTGTCTCCCCCCACCAAAAAAAAAGAAAAAAAGTATACTTTTTCATAGTAAAGTATAATAAGTACTTTATACATATTCA
TAAATATTACTGAGATGAATTTCTGAAAATGTTCACCAATTGCCAGGAAGAAACCAGAATTTATTTCAAATTTATTTCAATTTGGATTAAAAAAACTAAT
CTAAATTCCTATGACAGCCAGATCTGTTTCCTCTGGTTTCACTGAATGCCATATCTTACTGAATTATCAAATGAAGCATATTCGTTTTCCTATGTGTATA
AATGAGATTTAAAAATCACTGACTTTTTGRCCGGGCACGGTGGCTCATGCCTGTAATCCTGGCACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAG
GAGATCGAGATCATCCTGGCCAACATGGTGAAACCCCGTGTCTACTAAAATACAAAAAATTATCCCGGGGGGTGTTGGCAGGCGCCTGTAATCCCAGCTA
CTCAGGAGGATGAGGCAGGGGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAATGCGCCGAGATTGCGCCACTGCACTCCAGCCTGGCGACAGAGCAAGA
CTCTGTCCCAAAAGAAAGAAAGAAAGAAAAAAAAATCACTGACTTTTCAAGCCAGTAATGGCATGTTGGGGAAAAAGAAATTGACTTTGTTATAACTTTT
ATATCAAATAATCTTAATAAATAAGGTTAAGATCAGGTTACTAGTTTTAGAAACCTTTCCAAAAGTTCTGTTGAAAAACAACAATAGGCTGGGCATGGTG
GCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGAGAAACATCATC
TCTACTAAAAATACAAAATTATCCGGGCATGGTGGTGCATGCCTGTAATCACAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTG
GAGGTTGCGGTGAGCTGAGATCATGCCATTRCACTCCAGCCTGGGCTACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAATATAATTTTAGGC
CATGCGCATTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGCCAGATCATCTGAGGTCAAGGGTTTGATCTCAGCTCACTGCAACCTCT
GCCTTCCAGGTTCAAGCGATTCTCTTGCCTCAGCCTCCCGAGTAGCTGGGACTACAAGCGCCTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGA
GGCGGGGTTTTACCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAAATGATCCACCCACCTTGGCCTCCCAAAGTGTTGGGATTACAGGTGTGAGC
CACCCCGCCCAGCCTATATTCTTAATAGAGAATATATACACTCCTCCTCCAGGTATCATGTTTTTTTCATTGTAYTGTGATGTCTAAATATAAGTGATTT
TAAATTCCTGACATTTAAGTATATTATTGGTAACAGATTCACACTTTGGCCAGGTGTGGTGACCCACACCTGTAATTCCCACACTTTGGGAGGTGAAGGC
AAGAGGATCACTTGAGTCTAGGAGTTTAAGACTAGCTGCAGCAATAGAGTGAGACCCTGTCTCTACAAAAAAATAAAAAAAATTATCTGGGTGTAGTTGC
ACACACCTGCAGTCCCAGCTACTCAGGAGGCTGAGAGGGGAGATGATCGCTTGAGTCTGGGAGGTTGAGGCTGCAGGGAGTTGTGGTTGCAACACTGTAC
TCCAGCCTGGGCAACAGAGGGAGACTCTGTCTCAACAAACAAACAAACAAAGAAAAAACCCCACAGCTATCTAGGGAAAAAGTAAAGCAACCAGCATATA
GAAGTGACATATTGTTATATTTTCACCATAGGTTTGCTTTAAGAAATAGTGCTCCCTTCAGAATGGAAGAATTTATCTGCCTCTTATTTGATGTGGATCA
GAGCTAAGATGGCTGACTAAATAAACATGGGGGACTGGAATCTCCTTRGAGATACTCTGGAGGAAGTTCACATCCACTCCACCATGATTGGAAAGATCTG
GCTCACCATCCTGTTCATATTTCGAATGCTTGTTCTGGGTGTAGCAGCTGAAGATGTCTGGAATGATGAGCAGTCTGGCTTCATCTGCAATACAGAACAA
CCAGGCTGCAGAAATGTATGCTACGACCAGGCCTTTCCTATCTCCCTCATTAGATACTGGGTTCTGCAGGTGATATTTGTGTCTTCACCATCCCTGGTCT
ACATGGGCCATGCATTGTACCGACTGAGAGTTCTTGAGGAAGAGAGGCAAAGGATGAAAGCTCAGTTAAGAGTAGAACTGGAGGAGGTAGAGTTTGAAAT
GCCTAGGGATCGGAGGAGATTGGAGCAAGAGCTTTGTCAGCTGGAGAAAAGGAAACTAAATAAAGCTCCACTCAGAGGAACCTTGCTTTGCACTTATGTG
ATACACATTTTCACTCGCTCTGTGGTTGAAGTTGGATTCATGATTGGACAGTACCTTTTATATGGATTTCACTTAGAGCCGCTATTTAAGTGCCATGGCC
ACCCGTGTCCAAATATAATCGACTGTTTTGTCTCAAGACCAACAGAAAAGACAATATTCCTATTATTTATGCAATCTATAGCCACTATTTCACTTTTCTT
AAACATTCTTGAAATTTTCCACCTAGGTTTTAAAAAGATTAAAAGAGGGCTTTGGGGAAAATACAAGTTGAAGAAGGAACATAATGAATTCCATGCAAAC
AAGGCAAAACAAAATGTAGCCAAATACCAGAGCACATCTGCAAATTCACTGAAGCGACTCCCTTCTGCCCCTGATTATAATCTGTTAGTGGAAAAGCAAA
CACACACTGCAGTGTACCCTAGTTTAAATTCATCYTCTGTATTCCAGCCAAATCCTGACAATCATAGTGTAAATGATGAGAAATGCATTTTGGATGAACA
GGAAACTGTACTTTCTAATGAGATTTCCACACTTAGTACTAGTTGTAGTCATTTTCAACACATCAGTTCAAACAATAACAAAGACACTCATAAAATATTT
GGAAAAGAACTTAATGGTAACCAGTTAATGGAAAAAAGAGAAACTGAAGGCAAAGACAGCAAAAGGAACTACTACTCTAGAGGTCACCGYTCTATTCCAG
GTGTTGCTATAGATGGAGAGAACAACATGAGGCAGTCACCCCAAACAGTTTTCTCCTTGCCAGCTAACTGCGATTGGAAACCGCGGTGGYTTAGAGCTAC
ATGGGGTTCCTCTACAGAACATGAAAACCGGGGGTCACCTCCTAAAGGTAACCTCAAGGGCCAGTTCAGAAAGGGCAYAGTCAGAACCCTTCCTCCTTCA
CAAGGAGATTCTCAAYCACTTGACATTCCAAACACTGCTGATTCTTTGGGAGGGCTGTCCTTTGAGCCAGGGTTGGTCAGAACCTGTAATAATCCTGTTT
GTCCTCCAAATCACRTAGTGTCCCTAACGAACAATCTCATTGGTAGGCGGGTTCCCACAGATCTTCAGATCTAAACAGCGGTTGGCTTTTAGACATTATA
TATATTATCAGAGAAGTAGCCTAGTGGTCGTGGGGCACAGAAAAAATAGATAGGGGCAGCTCTAAAGACCAGCTGTTAAGACAGACAACTGCAAACTCAT
TTAAGCAAGAGAAAAACAGCTCTAATTCGAGATTGTGAAGCAACACTTCTAAATTCAAAGACATAGAGTTGTCAAATCAGGATTTTTTTTTTTTTTAAAT
GATATCCTTTCGAATGTAACTGATTTTGGGAAAATCACATGTTCAGAATTGAGGCTAAATGGTTTGATCAGGTTTTCTCTTTGAAGAGACCACAGCCTTA
GGAAATGGTTCTTGATCTATACAATTCCACCTTGGACACTGGGTTAATTCTGTTTGCCCCTGGAACACAATCACGTAAGTTTCCTTCTAGACTGGCATCC
TGATGTGTCTTGAGTATAATCACATGTTGCTACCTAGTAAATAAAATCTTAAGAAGATCCGTGGCTTTCCTTCACCAGTTCATAGCATCGTGATTCATTG
CCCGGATTGGACTCGACTCTACTCACTGGACATCTAACCACTCCACTTAATTAACAATACCCACCCTACAGGGGTGTTGTAAGGATTAAAATTTAAAATA
CCCGTGTTTTCTACAGTGCCTGGCTCAAAAGCTACTGCAAGCTCGTTACTGCTCATCCTCCAGAGGCCCACATCAAGTCAGCCACGACTCAAGGAGACTC
CAAAGATAAAAGCTGAAGCCAAAATATATGATTCTAAACACCCTCCTCGGCTACTGCAAAGCACTGTGAGCACTTTCTCAGGACGAGAGCCAAGAAGCCC
AGCACCTATGGGTCACCACAGTTTCCGAGGTCCCAGATGAAAAAGATGCGCTCGCTACCACCGTGCGGCGGTCCTTTCTCTCGCAATAGTCTCAATGCTC
CCGGGCCCTGCCTCCGGACGCCAGGACAGAGGTACCAAAATCTCACCTCCTGCAAAGAAACCTAATTGCTACGGGGGCCGGAAGAGGAAGAGGTGCGGCT
CCGACAGCCAGAGGGGCGGGCATACGCAGCCTCCCTCGGCTCAGCCTGCTACTGGGGATGCAGAGCGTCCTGGTCGCCATGAAAACAGGCCACACCTCGG
CGATCCCGGCCSGTGGTTTGCAAGTGCGCAGGCGCGCGCCCCCTTCCGCGCATGAGCAGTGCTGCTCCCAACCCGCCAGTCGCGGTCTCCSGCGCCAGCT
ACGCCGCTGCCGCTGTCACTATGGCCCATTACAAAGTGAGGGGGGCGCGGCGTGGCTGGGGGCATGCGGGCGGTAGCAAGCCGCTGGTCGGCTCTGGGTG
GGAGTGGGGTCGCGCGCGCAGGTTTGGGCGGGAGGGCCCCGAGGTAGTGAGGCGGAGGCGGGGTTGCCGGACTCCCAGCGCCTTCTTCCTGCTCGGCTCC
CGGGCTCTGGCCACTGACCCCCGGTGTCTCTTCAGGCCGCCGACTCGAAGCGTGAGCAGTTCCGGAGGTACTTGGAGAAGTCGGGGGTGCTGGACACGCT
GACCAAGGGTGAGCCTGGGCTAGGAGAGGGTACCTCGTGCCCTCGTCGTGCTCCCCGGCGCTGCCCCGTTCCCCAGCGGGCCGTAGCGTGGGGAAGGAGG
GGAAACAGATGGGGCCCGTCCGGGGTCCAGCGAGGTGGGCCTCGGGGTTCAGCAGGGACCTGGCTGCTGGACGCCGCCCGGGTGGGGTAGCCTAGCTCCG
CTACCCTTCTCCGCACCGGGAGTGAAACTCTTGCAGCTGTTGCAAAGTCTCTTCAACTTCCGTTGCTTTGCCTCCAGCAGCCGCAGTGGACATGTTTGCC
AAGGACCTTCAGATCCCAATTCCTCCCACCTTACGGTTTTTATGGAGTCCTCAGAATCTTGTTAAGAAAGTTTCCCTCCAACAAAGAGCAACTGGAAAAA
TGACCGAATTTCCAAGTGGGCTATGAAGTAGCTGAGTGAGCCTAATCCCCAAAGTAGGAGATTCATAGCGAATTTGGCTGTGGCTTTTCAGCCCCCATTC
CTTAGTCTGTCTGTGTCAATTCTTATTTTGTGTATATTTCATAAAGTAGAATTACAGCTTAAAGAGCTCGAGGGCATATCAAGGTGGTTACATTGTTTTC
ACTTTTTAAAATGAAAGCTTACTGTTAACGCTGTATCTCTTCATTCGTGGCTTCAAGATCTAAGTTAAGTAGATGAGTAAAGTGTTGGAAACAGGAGGAT
TTCAAGGGGTAGGGTACAGTTTACTTTATTGGCTTAGCACTAATTTGAATGCCTGCTATGTGTCACTCAACTCACTGGGATATTCAAGGGTGTAGAATGG
AATTGTTCGCAGGGATGAGGACTTGGGTCATATGAAACTAGGAAGTTTGGGAAGTGGGAAATAAATTGGTAACTGCCCTTTGGACAGAAGCAAAGTTTAG
AGGAAAATTCTAGGAGCATAACTCCTGGGTCTTAGAAGAAAGAAGGCTAGTAATTTTGAATTGCTACCTATTTGGGGTTCAGATAATAGTTTACCTCTTT
GCAAATAAACTTCAGCAAGTCTTAAGGGACTACTCTGTGAAAGTACTGTGCTATGTTGTCTCTGAAAGTGTCACAGATGCTTTGAATGTCATTCCGTCTA
AAAACTCCTTACGTTCATTTCTTTCATTTAATAATTTTACTCAGGTGTCTGTTCTGCACACTGGAGATAAGCAGGGGAGGATAAAAGTCTCGGCTCTCAT
AAGCTTATATCCTAGTTGAGGGAGAGAAATACATAAATAAATATGTAGTGTCAGCTAGTGGTAAGTGGTACAGATAAAAATACAGCAAAGTTAGGGATAA
AGAGTAACAGGTGAGGCCAGGCACGTGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCTGAGGTGGGTGGACTGCTAGAGGCCAGGAGCTCAAGACCA
GCCTGGGCAACATGGCAAAACTCCCATCTCTTAAAAAAAAAAAAAAATTGCTGGGCATGGTGTGTGCCTGTAATCTAGCTACTGTGGAGGCTGAGGTGAG
AGAATCACCTGAGCCCAGGAGGTCAAGGCTGCAGTGAGTTGTGATTGTGCCACTGGGCAACAGTGACACTCTGTCTCCAAAAAAAAAAAAAAAAAAAAGT
GACAGGTGGGATGTGTGTGTCATTTTATATAGGGTGATGGGGGGAAGGCCTTTCTTAAGAAGTAACTTTTGACCAGAAACCTGAAAGAAACAGAGTTTCA
GGAAGTCTAAGGAGGCCAGAGTGGTTGGATGGAGCAAGTGAAAGACTGAATGGTAAAAGGCAGAAAAATGACAGTTGTAGGCGGTAACTGACTACACAGA
AGATGTTGCCCAGGCTGGAGTGCAGCGGCATGATCTCGGCTCACTGCAACCTCCACCTCCGGGTTCAAGCGATTGTGTTGCCTCAGCCTTCCAAGTAGCT
GGGATTACAGGCATGTGCCACCATGCTTAGCTAATTTTTTGTATTTTTAGTAGAGAGGCGGTTTCACCACATGGGCCAGGCTGGTCTTGAACTCCTTACC
TCAGGTGATCCGCTCACCTCAGCCCCGCAGAGTGCTGGGATTACAGGTGTGAGCCACCGCCCTCCACTAGAATTTAACCTCTCAATCTCCTTAGATTTCC
AGGCTCCTAAATAACATCAGCCAACACAGTATTGATGTGATTTATTAAAAATTTGATTTTCAGCTCCAAACATAGGTGCTTTACACAATTCTATTTGTTT
TTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGACTGCGGACTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTC
CGCTTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCGCGCCCGGCTAATTTTTTGTATTTTTAGTA
GAGACGGGGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGC
CACCGCGCCCGGCCTCTATTTGTTTTTACTTTTTATTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGAATGCCTGGCCTCAAGTGATCCTTCTGCC
TTAGCTTCCCCAAGTGTTGACGTTACAGGCGTGACCCACTGTGCCCAGCCTCACAAATTTAATTTACATATATATATTTTTTCGAGACAAGGTCTCTGTC
GCCCAGACTGGAGTGCAGTGGTGCAGTCATGTCTCAGTGCAGTCTTAATCTCCCAGGTTCAAGCAATTCTCCCACCTCAGGCACCCAAGTAGCTGAGACT
ACAGGCACGCACCACCATGTCCGGCTGATTTTTAATTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTG
CGATCTCTGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCTGCCACCATGCCCG
GCTAATTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCTTGACCTCATGATCTGCCTGCCTCGGCCTACCA
AAGTGCTGGGATTATAGGCGTGAGCCATCATGCCTGGCCAATTTTTTTTTTTTTTGTAGAGTTGGGGTGTTGCCCAGGTTGATCTCAAACTCCTGGGCTC
AAGCAATCCTCCTGTCTTGGCCTCTCAAAGTGCTGGAATTTCAGGAATGAGCCACTTTGGCCTAAATTTTTACAGCTTATTTCCAAGATGATTTGAAATA
GTTTATAACATTAAAACACTATGAAAGGATGGCTAAAGATGATAAATCATTTGGAAGCTGAAGCATTTTAGCTATTTTGAGCGCTATATCAACCTCTAAA
AATCCTGGCTGCGAAGGCAAAAAGGGGAGCATGATTGGGTATAGAGTTCTTGTCTGATTACAAGGAAGTGCATTTCATCTATAGAACAGCACAGGAAACT
TTGTATTTACAGTATCTTCTGCAACTATCAACCTTTCAAGTACCAGTGACAAATGAGAAGCTGAAAGAAATGGGGTGGGGGAATAAGAGGAGGAGAGAGT
AGAGTATTAATATTCATGTCTTATAAAATGAGGATTTGGCCAGGTGTGGTGGCTCACACCTGTAATCCCAGAACTTTGGGAGGCTGAGGTGGGTGGATCA
CCTGAGGCTGGGAGTTCGAGACTAGCCTGACCAACACAGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGCACATGCCTGTTAT
CCCAGCTACTAGAGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGGGGTTGTGGTGAGCCAAGATTATGCCATTGCACTCCAGCCTGGGCAAC
AAGAGCAAAACTCTATCTCAAAAAAAAAAACAAAAAAAAAAAACCAAATGAATTTCTCAAAAAATAGTGATTTTTTCATACTGTATATTATTTTGGTAAG
TTATTAAAACTCTAAAAGAACAAAAGGGAAGTATGTAAGTTGGTTTACAACAGGACTTAACTTGGGGTCTAGATATCTATCACTGTTTTTTTGTTTGTTT
GTTTTGTTTTTTTGTTTTTGAGACAGAGTCTTGCTCCATCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTG
ACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGCCGCCCGCCACCACGCCTGGCTCATTTTTTGTATTTTTTAGTAGAGACGGGGTTTC
ACTGTGTTAGCCAGGATGGTCTTGATCTCCTGACTTCGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCCAGC
CACATTTTTTTTGTGTGTGTTTACTTTTTTTGCTTTTATTAGATTTTTCAAAGGGTTCCATGCACAAAAAGGCCAACCACTGATTTAGAGTTTTTTATCT
AAGTAGTAAATTCTAGGAGGAATTTGTTCCATAGATGAAGAGCAAGGCAGTGCTCATATGAGTGATTAGATATGA


SNP Information

Context             (SEQ ID NO:19128):
TTAAATGAAAAATAATGAAAATATTCACTTTTAAAATCTTTCCTTTGGGGTATATTTCCTCTGAGATAACCTGGGATACCAACCTTAATATGCAATCTGC
Y
GGCAAATAATCCAAGCAGCTAAATTATAACTTGCCCCACTGCTTCCTTCAAGAGAGCAGCTATATGTCTTAAATAGGTCAAATACTGCTACAGTGAAAGT
Celera SNP ID:            hCV26167497
SNP Position Genomic:     8418
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19129):
ATCACTTGACATTCCAAACACTGCTGATTCTTTGGGAGGGCTGTCCTTTGAGCCAGGGTTGGTCAGAACCTGTAATAATCCTGTTTGTCCTCCAAATCAC
R
TAGTGTCCCTAACGAACAATCTCATTGGTAGGCGGGTTCCCACAGATCTTCAGATCTAAACAGCGGTTGGCTTTTAGACATTATATATATTATCAGAGAA
Celera SNP ID:            hCV1976616
SNP Position Genomic:     13015
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,8)   caucasian(A,17|G,21)   total(A,23|G,29)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19130):
AAGCAGCTAAATTATAACTTGCCCCACTGCTTCCTTCAAGAGAGCAGCTATATGTCTTAAATAGGTCAAATACTGCTACAGTGAAAGTTTCCATAATACT
R
CCACCATACCAGTGAACAATCTATTGCAAGTAATATCTATAATGAGATTCTGGTACCATAAGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTT
Celera SNP ID:            hCV26167498
SNP Position Genomic:     8531
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19131):
AGAACATGAAAACCGGGGGTCACCTCCTAAAGGTAACCTCAAGGGCCAGTTCAGAAAGGGCACAGTCAGAACCCTTCCTCCTTCACAAGGAGATTCTCAA
Y
CACTTGACATTCCAAACACTGCTGATTCTTTGGGAGGGCTGTCCTTTGAGCCAGGGTTGGTCAGAACCTGTAATAATCCTGTTTGTCCTCCAAATCACGT
Celera SNP ID:            hCV25931771
SNP Position Genomic:     12916
SNP Source:               Applera
Population(Allele,Count): african american(T,22)   caucasian(C,1|T,37)   total(C,1|T,59)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19132):
CATCTGCAAATTCACTGAAGCGACTCCCTTCTGCCCCTGATTATAATCTGTTAGTGGAAAAGCAAACACACACTGCAGTGTACCCTAGTTTAAATTCATC
Y
TCTGTATTCCAGCCAAATCCTGACAATCATAGTGTAAATGATGAGAAATGCATTTTGGATGAACAGGAAACTGTACTTTCTAATGAGATTTCCACACTTA
Celera SNP ID:            hCV8858923
SNP Position Genomic:     12435
SNP Source:               Applera
Population(Allele,Count): african american(T,18)   caucasian(C,6|T,24)   total(C,6|T,42)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,8|T,30)   total(C,9|T,67)   
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;(T,-|C,-)   Caucasian(C,13|T,71)   African-American(C,11|T,73)   Asians(C,13|T,71)   total(C,37|T,215)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:19133):
GCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCATCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCTGGGCTTGAAGTTCATTTTAA
Y
GTAAGAATTTACAAAATTTGGGCTGGGCGCGGTGGCTTACTATGGGAGGCCGAGGCGGGTGGATCACTCAAGGTTCAGGAGTTCAAGACCAGCCTGGCCA
Celera SNP ID:            hCV26167507
SNP Position Genomic:     9242
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19134):
AGGGGCGGGCATACGCAGCCTCCCTCGGCTCAGCCTGCTACTGGGGATGCAGAGCGTCCTGGTCGCCATGAAAACAGGCCACACCTCGGCGATCCCGGCC
S
GTGGTTTGCAAGTGCGCAGGCGCGCGCCCCCTTCCGCGCATGAGCAGTGCTGCTCCCAACCCGCCAGTCGCGGTCTCCGGCGCCAGCTACGCCGCTGCCG
Celera SNP ID:            hCV27855487
SNP Position Genomic:     14212
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,26)   caucasian(G,38)   total(C,2|G,64)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:19135):
CACACCTCGGCGATCCCGGCCGGTGGTTTGCAAGTGCGCAGGCGCGCGCCCCCTTCCGCGCATGAGCAGTGCTGCTCCCAACCCGCCAGTCGCGGTCTCC
S
GCGCCAGCTACGCCGCTGCCGCTGTCACTATGGCCCATTACAAAGTGAGGGGGGCGCGGCGTGGCTGGGGGCATGCGGGCGGTAGCAAGCCGCTGGTCGG
Celera SNP ID:            hCV27855488
SNP Position Genomic:     14291
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,27)   caucasian(G,38)   total(C,1|G,65)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19136):
TTCTATTCCAGGTGTTGCTATAGATGGAGAGAACAACATGAGGCAGTCACCCCAAACAGTTTTCTCCTTGCCAGCTAACTGCGATTGGAAACCGCGGTGG
Y
TTAGAGCTACATGGGGTTCCTCTACAGAACATGAAAACCGGGGGTCACCTCCTAAAGGTAACCTCAAGGGCCAGTTCAGAAAGGGCACAGTCAGAACCCT
Celera SNP ID:            hCV25931167
SNP Position Genomic:     12790
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,3)   caucasian(C,36)   total(C,53|T,3)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19137):
AAACCGCGGTGGCTTAGAGCTACATGGGGTTCCTCTACAGAACATGAAAACCGGGGGTCACCTCCTAAAGGTAACCTCAAGGGCCAGTTCAGAAAGGGCA
Y
AGTCAGAACCCTTCCTCCTTCACAAGGAGATTCTCAATCACTTGACATTCCAAACACTGCTGATTCTTTGGGAGGGCTGTCCTTTGAGCCAGGGTTGGTC
Celera SNP ID:            hCV25931710
SNP Position Genomic:     12878
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,5)   caucasian(C,40)   total(C,63|T,5)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19138):
AAAGTGTTGGGATTACAGGTGTGAGCCACCCCGCCCAGCCTATATTCTTAATAGAGAATATATACACTCCTCCTCCAGGTATCATGTTTTTTTCATTGTA
Y
TGTGATGTCTAAATATAAGTGATTTTAAATTCCTGACATTTAAGTATATTATTGGTAACAGATTCACACTTTGGCCAGGTGTGGTGACCCACACCTGTAA
Celera SNP ID:            hCV27828126
SNP Position Genomic:     10975
SNP Source:               Applera
Population(Allele,Count): african american(T,14)   caucasian(C,2|T,30)   total(C,2|T,44)
SNP Type:                 INTRON


Context             (SEQ ID NO:19139):
ATAAAATATTTGGAAAAGAACTTAATGGTAACCAGTTAATGGAAAAAAGAGAAACTGAAGGCAAAGACAGCAAAAGGAACTACTACTCTAGAGGTCACCG
Y
TCTATTCCAGGTGTTGCTATAGATGGAGAGAACAACATGAGGCAGTCACCCCAAACAGTTTTCTCCTTGCCAGCTAACTGCGATTGGAAACCGCGGTGGC
Celera SNP ID:            hCV25928862
SNP Position Genomic:     12690
SNP Source:               Applera
Population(Allele,Count): african american(T,20)   caucasian(C,3|T,21)   total(C,3|T,41)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(T,14)   caucasian(C,2|T,4)   total(C,2|T,18)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:19140):
CCAGTTTTTATGTCATTTGCTATGAAAGCTTTAATTTGTAGCTAAATACTACTGCTCCTTCTTTCAGGAAATACTATGTGTTGTCCTTTATGAAAAAAAT
M
TTTTCTTTCTTTTTATGATTATAAAAGTAAAATGCTTATAGTAAAAAATTAAAATACATGTAATTACAATATATTAAGTATATAATTTGTAATCCCAACA
Celera SNP ID:            hCV1976613
SNP Position Genomic:     6393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19141):
CCTCTGGTTTCACTGAATGCCATATCTTACTGAATTATCAAATGAAGCATATTCGTTTTCCTATGTGTATAAATGAGATTTAAAAATCACTGACTTTTTG
R
CCGGGCACGGTGGCTCATGCCTGTAATCCTGGCACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGATCATCCTGGCCAACATGGTG
Celera SNP ID:            hCV1976614
SNP Position Genomic:     9830
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19142):
AGTGCTCCCTTCAGAATGGAAGAATTTATCTGCCTCTTATTTGATGTGGATCAGAGCTAAGATGGCTGACTAAATAAACATGGGGGACTGGAATCTCCTT
R
GAGATACTCTGGAGGAAGTTCACATCCACTCCACCATGATTGGAAAGATCTGGCTCACCATCCTGTTCATATTTCGAATGCTTGTTCTGGGTGTAGCAGC
Celera SNP ID:            hCV25927135
SNP Position Genomic:     11548
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,40)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19143):
GGTGGTGCATGCCTGTAATCACAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCGGTGAGCTGAGATCATGCCATT
R
CACTCCAGCCTGGGCTACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAATATAATTTTAGGCCATGCGCATTGGCTCATGCCTGTAATCCCAG
Celera SNP ID:            hCV1976615
SNP Position Genomic:     10531
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19144):
TTCCTCATCTGTAAGATGGGGGAAACAACATACTTACCGCATAGGATTTTAGTGATGAACACATCTTGTATCTTAGTAGTTTGTTTGATTGTGTAACAGT
K
CCCTTTATATAAAGGGGACAGGACATACATTTATATTTTAAATGAAAAATAATGAAAATATTCACTTTTAAAATCTTTCCTTTGGGGTATATTTCCTCTG
Celera SNP ID:            hCV26167496
SNP Position Genomic:     8280
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Gene Number:                 63
Celera Gene:                 hCG1787699 - 208000027688690
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(51718336..51731923)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12223):
CCTGCACCTCCGGGCTCTGTCCATGCCCCACCAGCTACGCACTTGTACCAGTTGGTGAGCGTCATCATGACGTGCAGTGAGGCCAGCACCAGGCAGAAGT
GGAAGAAGGAGTAGCTGTAGGTGACGCCGTCCTGCTCGTTGTCAAAGGCCCGGCCCTCACAGGCTGCCACCTGCTGCTGCTGCTGCTGTGTGGCGTCTAG
CATAGGTGGGCACTCCTCGGTCTGCATCAGGCTGTTCACCTGCCGGTGGTCTGAGGAGCGCAGACTGCAGGGGAGGGAGGAAGGTGGGCAAATAGATAGC
TCTGGCGTTGCTCATAACACTGGACACAAATGGTCCCAGAGCCTCAGGGGCCAGCGACCCGGTTACTGGGCCTGGGAGTTAACAAACTGCTTTGCCTCTC
AACTCTACCCCTACCCCCACTCCCATTTTCTGTGTGACCTTGAGCAAAACACTTAACCTCTCTGAGCCTCTGATTCCTTGTCTGTAAAATAAGGGATAAT
CGTACCTCCTCTAGAGGGCTGCTGGGGGGACTAGACGGAATAATGATGTAAGGTCTCTAGCATAGTGCTTGGCACAGAATATAAATTCAATCAACAGTCA
CTATTGTTAGGATTGTTCCTTTGCCATTTCCATAAACACGTATCGAGTACCTAATACTACAAAGTACCATACCAGGTACTACATCCATTAAGAATGTTAA
TAATTAATCACGCTCATTTGCCATTGATTTTAAGTTTCCATTTTATTAGTGTCAGGTGGTTTTACCAATGGCCTCCCTTTCCTTCATGCTTACACTAAAA
AAAGAACAACAGTAATGATTGTATGTCATGCTTTTCTGTGATGAGCCTTGATGTTTTTAACAGAATTTGATAGTTTGAGACATAAAAATTTTTGAAAAAC
CAACACACGTTTCCAAACAAAAGGAAAAGGAGAGCTGGATCCAGCCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAGGGAGGGGAGGG
AAGAGGAGAGGACACAGAGGTAATTCAAGCCTTTCCAGCTTGAAAAGGAATCAAATGTGACAAAGAAGACAGATGTTTATGAACTGTACAGAACTGACTT
GGAGAAAATGTTTTGAAAAAGGCCAAAACAGAAGAAAATGTGAAAGAGCTTTAAAATGTTCTAGCCCAGGGGCCTGGGGGCAGGGGTGCTGTTGGAACTG
GGATGGATGGATCGGGGAGATCAGGGGAGCAGAGCCAAGATTCCCTCTAGAGTTAAGGGCAGATGGAAAGTGGTGCTTGGAGAAATGCAGGGCCACAGGG
AGGCAAACTCGGGGTCTGCCTGATCCGTGTAAACAATAATTAAACCTAATCTTATGATCTAGTGACTTGTAAGAACAGCCACCACCTACAGCTACCTAGT
TGTGCAAATGTTCACAATATTATGCTCATACTAATATACAAATGTTCACAATATTATGCAAATGTTCACAATAATATGCAACACTTAATTTGGCAAACTC
CCAGGCTCAAGTGATCCTCCTACCTCGGCCTCCTCAGTCACTGGGACTAGAAGGTGCATACCACCATGCCTGACTAATTACAAAACCTTTTTTTTTTTTA
GAGACACCATGTTGCCCAGGCTGGCCTTGAACTCCTGGGCCCAAGCAATCCTCCTGCTTCAGTCTGGCAAAGTGTTTGGATTACAAATAACTTACTACTT
GCCAAGTTCCTTTCTAAGTGTTTTTGTTTTGTTTTGTTAATTTTTAAAAAGAGACAGCGTCTTACTATGTTGCCCAGGCTGGTCTCAATCTCCTGGGCCC
AAGAGATCCTCCCACCTCGGCCTCCCAAAGTGCTGGGGGTTACAGGTGTGAGCCACCATGCCTGGCCCCTTTCTAAGTGTTTTACACATACTGATTCATC
TATAGCCCTTCAACAATCCAATGAGGAAGGTACTATTTTTATCTCTATTTTACAGACAAGGAAATGGAGGCCTAAAGAGGTTAAGTGACTTGCCCAGGAT
CACATAGCTAGTAAGTGGCAATGCCAGGCTCAAATGCAGGCATTTGAGTCCACATGGATAAGCACCTACTAAGATGCCCCTTTGAAAAGAACCTCTATGT
GAACTTCAGCATGAGCTGCCTTCTCTCGGGGGAGAGTGTGGGGTCACAGCCACATCCACTACAGTGGAGGTTGTCATCCTCTTACTGAGGAGGAAACAGG
AGCTCAGAAAGGTTAAGCCACTTACCCCAAGCCGCACAGCAGGGGAGAAACAGACCCTGGACCCACTGACCCCAGTCCATGCTCCTTCCCTGACCCCACA
GCCGTCTGCACCCAACTGAACTGGCCCAGTATGCAGGAAAGGGCTGTGAGCCAGGAGGCAAGGTCACGCCTGCCTCTGTTGCCCACTCATGCCATGCCCT
CTGAGGGACTCAGTTTCCCCTCCCGCACAATGCAAGACCTGGATATATTGAATGTGAAGAGCACGTTCCAGTTTGGTATCCTGGCTCCCACACCCTCCCC
TCACTCTGGCTCAGGGCCCTCAATCAYGATCCTTCCCCAGAATCCAGACCTGGCCATACCTGATGAAGAGGGTGCACAGGAGGAAGATGATGAGGCCCAC
AATGCTCGGGGCATCCCACCACTGGGTCTCATAGCCCTCGGGGCCTGCCACAACTGTCTCGTTGCYCAGCTGGGTTGGCAAATGGGGGTTGCATTTCTGT
TCTGGAGATGGGAGCACAATCACCCTCAGCCCATGCAGGCCAGGCCTAGGTAGCCAAGTGGCCCTGAGGATGGCTAGAGAGCCACCCCTAATAGACAGAC
AGATACACAGCCAACCACTCAAGTCCCAGCAACAGAGCGCTCAGCAGTCACAAGGGCAGAGAGACAACTCAGGAACAGACGGGGCCCTCCCATCTCATGG
GAGGACTGAGTCTCAGAATGGGCTGGAGCAGGGATGTCCCTGTCACCTGTGAGGGTCCCCAGCCCCACAGTAGACTGATACTGACCCAGGAACGAGGCCA
GGCCTCCTTGAGCCTGGGCCCATACTTACCAGGGATACTGGATAGGGCTGACCAGGTGACAAACATGGTGTAGAGGGTGATGACCGAGGCCTGCAGCAGA
CCCGAGTTGGGCTGGGCGTCCTGGCAAGAGGACCCCTGGTAAGACCCCTGCCAGACCAGAGACACCCCACCCCACCCAGCCCACTCACACCAGCCAAGGG
ACCTCAGAAACTCCCACCCACCTAGGATACCCCACCACACCCCACTTAGGGAAAACACCAAGCAGGCCACCTACCACCCACCTCACTAACCAAAGGCTGA
GTCCTAATTCTTCTTTCTCTTAACACCCCTCAGATTACTTGCCCTCCTCCCCTGCTGAAACCCCATCTCATCACACTGAATTCCTTCATCTCCACCTGGC
CCACTGTCCCCCTCCTCCCTGCTCTCCGTCTGGAGAGTCTGCCCAGCCTCTCCCACCACAAGGCCTTTGCCGTCGCTGTGCCCTCCCTCTGACAAGTTCC
TTCCCAGCATCTCCGCACAGGCAGCGCCTCTTCAGTATTCAGACAGGACTCCTGCGGAGCCCTGGGAACCTGAACTACGGCAGCCCTGCACCTGCCAGCC
ACCCACCTTTCAGCCCACACCCTCTTTCATGTTCCACATTGCAATATTACCCAAAATCACCTCACTGGGCCTAGTCCCCTGTTGCCTGTCCTTCCCCACC
CCTCACCACACATGCACATAAAAACATGAACCTGAACTCTGTGATTAAGAGCACAGGCAGCTAGGCATGGCGGCTCATGCCTGTAATCCCAGCGCTTTGG
GAGGCTGAGGCAGGCAGATGGTTTGAAGTCAGAAGTTCAAGACCAGCCTGGCCAACATCGCAAGACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGG
TGTGGTGGCGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGAAGGTTGGTTGCAGTAAGCTGAGATCA
TACCACTGCACTCCAGCCTAAGTGACAGAGCAAGATTCTGTCTCAAAAAAACAAAAACAAAAAAAATTTTAGGCTGGGTGTGGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGCTGAGGTGAGCAGCTCACTGGTTACTTGGGAGGCTGAAGCACAAGAATCACTTGAACCCGGGAGGCGGAGCTTGCAGTGAGCC
GAGATTACACCACTGCACTCCAGCCTGGGCAACAGAGCCAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAAAAGAAAACCAGAGCAC
AGACTCTGGAGCCAGCCTGCCTGGGTTTGAATCCCAGCTCCCCATGTGACCTTGGCTAGGCCTCTTCTCTAAGCCTTTGTTTCCTCATCTGCAAAGTGAG
GATGAGGATGGTGTGAGGATCAAATAACATGTCCGAGGCCACTAACTACTGGCTATCATCATTATTCTTCCTCCCCTTCCTCACAGCCATATCCCCAACA
TCTAGAAGAGGGCCTGGTACACAGGAAGTGCTCAAGAGGTATTTGCTGGATAAATACTGATTGCTGTGTGACCTGGGACACAGACATCGCCTTCTCTGGG
CTTCAACTTTTCTTACTGGGATATGAGGCTCTGACCAGAAGGGAGGTTCCCAGCCTTTCTGCTAAAGACCCCTGAAGACTACCTAAGCCCCCTGAAGCTG
CCGGTGTGCTGAGATCTCAAACCACAAAGCACCACTGTACTCACAAGGGGCTCCAGCGGTACTTTCTGAAGAACACGCAGTTCCTCTGGGAGCTCCTGCC
CATTATTCCAGATGGTCTTGGATTGGAAATGTGAAATTGCACCTTCCTACACTACTTCCAGAGGTGTCTAGGAATCACCACTCAGGGACTGCCCCTAATG
TTCTACTGATTTGCATAAAAACAAAAATGACAACAATAATAACTACAATAATAGCTAATGTCTGAGAGATATCTACAGGCCAGGCATGGAGTGTTTACAA
ATAGGATCTCAATCCTGAGAATAACTCCAATAGTAGGTCTTATTATCTCCATTTAATATTTGAGAGGCAGAGAGAGGTTAGGGCACCTCCTAAAGACACC
CAGCATGAAGCCGTGAGAGCCTGACTATAACCTGGGGAGGCTGACCTGGGAGCCCACACACTCAGGCCGTGCCTCTGTGATGACAGCCCTAGCCCCAGGA
CCCAGGTTCCTACAAGAAGTCCCACCCACTAAGGGGCCGGGCTTCAGGCCAGGGGGGGACAGGCAGGCTCACCTGGACCTTGGGCAGGACAGCAGCGATG
GACACGCAGACACAGAAGGTGAGGTTGAGGCTGATGAAGACCTTGCCCTCGTGGCAGCCGCTGGGCTCAGTGTAGTACATGAACATCAGCGCCACGGCCG
CGATCGACAGCAAGTAGAAGAGGAGAGTGAAGAAGAAGAGGCCTGGGCCAGAGGGGTAGTGAGAGGGTAGGCAGTGGGTGGGGCAGGAGGAACAGGGATC
CCTACTCCCTCGAGGGACCCTGTTGGCAGCTCTCCCCCTCTCCAGCTCTCAGTTTCCCCACTTGAAGAATGACGTCACTGCCTTTCACCAACACCTTTGT
GAGTCATTGCCCCACCCTGAGCTAACATGATTCACTTGCTACCTTGTAATAAGGGAATTGTAACAATAAATACAATGAACTCAAAACAGTCTTGCAAAAA
CTGAACGAGGTACAGGCTGTTGACCTGCCCTCCCTGTCTGAGAGATACTGGCAAGTCTAGGGAGGTGTGGAAACCAAACAGCACCCAGGTGAGCCTTTCT
CCTCGTTGTGTTCAGAACTGAAAGGACCAGGGACTCACCCTGCTACTGGGGTTTCAGGGACCAGGTGTCACTTGAAGTTCAGCCTGGGCACCACCAAAAG
GGCGTCCCACACTACTGGCTGTGTGTGGCCCACCCTGCAGGAACCCCCAAACAAGACCCCTCCAAGGCCTCTCCAGGTCAGCTCTCCTCGGATTCCCTGA
AGTCATCCCAGGATCAGCTGGTGCCCCCCATCTCCCTGGGACAATTGGAATCTTGACCTAAGGCAGTGGCTGCTAGGGATGCCCCCCAGTTTTATCTAGC
TTCAAGGACCCTCGATTTCTCAGGCAGCCCCAGCCCTGCCCAGGCTCGAGTCCCCACACGGAGGCAGGGTGGCAGCACTGACCTGCGTACCAGGCACGGG
AATCGCACTCCTCGGCCTTGCCCAGCCACCGCTGGTTCCAGGAGTGCGCAAAGTCGATGAGCAGCACCAGCTGGATGAGGATGAAGAGGAAGGAGCCCAC
GACGCCGAAGTAGAACCAGACTGGGTGGGGAGAGGGGAGTGAGGCGAGGAGGGTCCCTCTCTCACATCTACTCGTTCAACAAGCGTTTTCTGCTACACCC
TGCACCGGGGACACTGAGAAGAACAGAGTCCCTGCCCTCAGGGAGCCCCTAGCTACGCACAGAGGGCAGGATATGGGTCGGGGCAAGACAGCTCCCCCTA
CCCCTGGGTTGCACAAAGGCCGTGTGGCCAAGCACCACAGTGCTGTCTCACGGGTGGGGAGCGAGGACCTAGCCAGCAGCCAGGGGTCTGTGTGCCCCAG
CAAAGAGCAGCCCCACCACGTTCCTCCAACCTGCCGCCCCACTTCCCTCCCCACAGCCCCCCATGCCTCCTGCCAAGTCCGCCTACTGTTGGTGAAGGAG
CCGTCAGGAATGTAGAAGGCACCCACGGTGAGGCCCACCAGGATCAGGAACTTAAAGAACCAAAACCTACAGAAGGGGTCGGGGAATGGACAAGGAAGCT
GAGTGCAGGCAGGGAAACTGGAAGCCAGACTGGGCCTGGCCCCAGAGCCCCCACCCACAAACAGCAGGTGCTGAGAGGGGTGAGGGTGGGCTTTCTGGTG
GTCTGATAGGCACAGAAAGTCTCTCCTGGCCCTGGAAAAAACCCTAAGGGGCAGGAGGAAGGACCAAGCAGTGGTGAGGGTGGTCACCCAGGTCCAGCCC
CAGCTGTGTCACTGAAGTGCTGCGGGGCCTGAGGCTTGCTGCCACCCTTTCTGAGCCTTACTCTTCATCTGAGAAATGGATATAACTCAGAGCTGTTCTC
CATGCTGTGCCCTCCCGTGGCTCCTGAGTGGTGGGTAGGGTCTGCAGATCCCTGGACAGGCAGAGGAGCGGGCAAGGCACTGGGGGAAGGTCCCAGGGTG
CAGGCAGGGACCCCTCTCTCACCCATTCTGGATGGCAGCCCGGGGGTCCCGGCTGCTGCTCACGCAGAGCATGAGCAGGGTGAAAAAGAAGAAGAAGGCC
GCCGTGGCGAAGCACATGCGGTAGACAGCGCGGTAGCCAAGCAGGGAGCCACAGTCGATGTGGCCCTGCAGGACGGTGGGGATCCCGGCCCCCTCCTCAC
ACACCCAGGGCAGCTGTGGAGACAGACAGAGCAGCGTCAAAGCCCCACCCCTCACAGAACCCTGGCAGCTCCCTTTATAAACCAGAGCCCTGGTCTCCCA
AGGCCGGCCAGGAAAGAGGCTCTCCCAGCAGGGGCTGGACCAGACAGGGAGGGGAGCCCCTCACCTCTATCTCCACTGCCTCCGCCTCCATTCCTAGCCC
TCTCTGGGCCTGAAGCCCTGGGAGGGAGCTCCCCAGTTACATCTTGTTATTGTTTATTTCCCACAGCCTCAGAAACTATTGCGCTGTCTAAAGCAGTGGT
TCCCAAAGTGTTCTCCACCCACCACCTACATCAGAACCATCTGAGATGCTTGGGAAAACAGAGATTCTGTGGCCCCTCTCCCATGGAATAGAGCCTCAAG
GTGGAGTCTGAGAATCTGCATTTCTACAAACTCCCCAGGGAATCTCATCTTTATACACACTAAAATGTGTATAAGGCACCTACGGTGATGCCCACGTCCC
CCTGGGTCTGTGCTAGGCTGTAAAACACTGAGATGAAGGGAAGAGTTAGGAGCCCCAACCTGGGCTTAAGCACTAAGAGGGAGAAGAGCATCCCCTAGGC
CAGTGTCCAGGGGGCGATAATGATTAATAAGATTTTCCAAGGAGACTGTGGCCTAAGAGAAAGAAGAATCCCCCCAAGAGGCTCAAGCCCTCCTCCCCTC
ATTTCCAACCTCAGATCATCAGTGCACCCAAACACCCTGCCTCCTCTTCTGGATAAGCTGTGACCCCAAGCCTGGGCCCTCTATCCTGGAGCCACTGACG
CCCCTCGCTGGAGGCCGCCCTGCCTCCCCTGGGGCACTCACCTTGTAGAGCTGACTCTCCACGCCCGGGCTCAGCATAATGATGGACACCAGCACCCCCA
GGAAGAGGAAGAACGTGAAGATGAGGCGGCTCACGGTGGAGTTGCGGCTGGCGGGGCAGCAGCTGCACAGGATGCAGGGGGCAGAGCCGCAGAGGCAGGA
CGCCTGCGGGAGGGCACTGTCACTCTTCCCTCTCCCCTTCACCGCCCAAGCGCGCACCTCTCACCACCTGCCCAGAGGTCGGCGCATCTGTGCTGCGCTA
GGCAGGAGCACACTGTTCCCCAGACACCAGCCCATTGAACTTTCAGGTCCGAGAGGGAGGCTGGGTCATATAGGGCTACACAGCCAGTAACCACAGAACC
CAGATTCAAACCTGGGTCTATCTCCAGTGATACTGTGGCTTGAAAGCGAGAGCTAGCCGAGGTCACGCTGTTTCTTTCTTACAGGGAGGGAGAGTAGTTT
AAAAAAAAAAATCACAAGGCCAGCTGTCACCGATTACCTTCGTGACCTTATACAACTCACTCAACCTCTCTGTGCCTCAGTGTCCTCTTCTGTAACATAG
TGGTATGTACTCCTCACAAAGCAGTTGTGAGAGTGAAACAGAAATTCCACATTGTAGCCCCCTTGGGCTCCCTTTCCCCTTCCCCACTTAATTTTTCCCC
GCGGGACTTCTGCCATCAGCGAGGCTTTATGTTTTGTCGGCCTCCGCTTTCCAGCGGGGCAGGAATTTTTGCGTTTTGTTCATTGTGGTATTCCTAGAAA
TTCGAACAGTGCCTGTCACACAGCAGGAGCTTACAGGCTATCTGTTGAAGGAATATGAAGTGTTTGGCATAGTACCAGTCACATGTTAAGACCTCAGAAA
ACAGCAAGTGCAGAATAAACACCAGTTGGATAAACGGAATGATTTTCGGCTCTGAGGCTATACCAGCACTAGACAGCAGGTGGCGGT


SNP Information

Context             (SEQ ID NO:19145):
ACAATGCAAGACCTGGATATATTGAATGTGAAGAGCACGTTCCAGTTTGGTATCCTGGCTCCCACACCCTCCCCTCACTCTGGCTCAGGGCCCTCAATCA
Y
GATCCTTCCCCAGAATCCAGACCTGGCCATACCTGATGAAGAGGGTGCACAGGAGGAAGATGATGAGGCCCACAATGCTCGGGGCATCCCACCACTGGGT
Celera SNP ID:            hCV22275430
SNP Position Genomic:     6927
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,21)   caucasian(C,17|T,23)   total(C,34|T,44)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:19146):
AAGAGGGTGCACAGGAGGAAGATGATGAGGCCCACAATGCTCGGGGCATCCCACCACTGGGTCTCATAGCCCTCGGGGCCTGCCACAACTGTCTCGTTGC
Y
CAGCTGGGTTGGCAAATGGGGGTTGCATTTCTGTTCTGGAGATGGGAGCACAATCACCCTCAGCCCATGCAGGCCAGGCCTAGGTAGCCAAGTGGCCCTG
Celera SNP ID:            hCV161389
SNP Position Genomic:     7066
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 MISSENSE MUTATION;SILENT MUTATION


Gene Number:                 64
Celera Gene:                 hCG1788921 - 30000054263727
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(40227291..40240161)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12224):
CAGTTGGAATATCTCCCACTTCATTTCTTATTGAGGTTATTTGGATTTTCTCTCTTCTTTTCTTGGTTAATCTTGTTAATGGTCTATCAATTTTATTTAT
CTTTTCAAGGAACCAGCTTCTTGTTTCATTTACCTTTTGTATTTTTTTCATTTCAATTTCATTTAGTTCTTCTCTGATCTTGGTTATTTCCTTTCTTCTG
CTGGATTTGCGTTTGGTTTGTTCTTGTTTCTCTAGTTCCTTGAAGTGTGACTTTAGAATGTCAGTTTGTGCTCTTTCAGTCTTTTTGATGTAGGCATTTA
GGGCTATGAACTTTTCTCTTAGCACTGCCTTTGCTGTATCCCAGAGGTTTTAATAGGTTGTGTCATTATTGTTGTTATGTTAAAAGAATTTTTAAATTTC
AATCTTGCTTTTGTTTTTGACCCAGTGATCATTCAGGAGTAGTTTATTTAATTTCAATGTATTTGCATGGTTTTGAAGGTTTCTTTAGGAGATGATTTCC
AGTTTTATTCCACTGTGGTCTGAGAGAGTGCTTAATATAATTTCAATTTTCTTAAATTTATTGAGGCTCCTTTTGTGGCCTATCATACGGTCTATCTTGG
AGAAAGTTCCATGCACCGTTGAATAGGATGTGTATTCTCGGGTTGTTGGATGGAATATTCTGTATATATCTGTTAAGTCCATTTGTTCCAAGGTATAGTT
TAAATTCATTGTTTCTTTATTGACTTTCTGTCATGATGACCTATATAGTGCTGTCAGTGGAGTATTGAAGTCCTCTACTATTATTGTGTTGGTGTCTATC
TCATCTCTTAAGTCTATTAGTAATTGTTTTATAAATTTGGGAGCCCCAGTGTTAGCTGCATATATGTTTAGAATTGTGATATTTTCCTGTTGGATAAGGC
TTTTTACCATTATATAATGTCTCTGTCTTTTTAAACTGCTGTTGTTTTAAAGTTTGTTTTGTCTGATATAAGAATAGCTACCCCCACTCACTTTTGGTGT
CCATTTGCATGAAATGCCCTTTTCCACCCTTTTACTTTAAGTTTATATGAATCCTTATGTGTTAGGTGAGTCTCTTGAAGGCAGCAGATAATTAGTCGGT
GAATTCTTATCCATTCTGCAGTTCTGTATCTTTTAAGTGGAGCATTTAGGTCTTTTACATTCAATGTTAGTATTGAGATGTGAGGTACAATTCCATTCAT
CATGCTATTTGTTGCCTGTGTACCTTGATGTTTTTTGTTGTTGTTGTTGTTTTATAGGTCCTATGAGATTTATGCTTTAAAGAGGTTTTGTTTTCATGTG
TTTCCAGCATTTGTTTCAAGATTTAAAGCCCCTTTGAGCAGTTCTTGTAGTGGTGGCTTGGTAGTGATGAACTCTCTCAGCATTTGTTTGTCTGAAAAAG
ACTGTATCTTTCCTTCTATATGGAGCTTAGTTTTGCTGGATACAAAATTCTTGGCTGATAATTGTTTTGTTTGAGGAGGCTGAAGATAGGGCCTCAATCC
CTTCTAGCTTATAGGGCTTCTGCTGAGAAATCTGCTGCTAATCTGATAGGTTTTCCTTTATAGGTTACCTGGTGCTTTTGTCTCACAGCTGTTAGGATTT
TTTCCTTTGTCTTAATTTTAGATAACCTGATGACAATGTGCCTAGGTGATTATCTTTTTGCAATGAACTTCCCAGGTGTTCTTTGCACTTCTTGTATTTG
GATGTCTAGGTCTCTAGCAAGGCTGGGGAAGTTTTCCTTGATTATTCCCCCAAATATGTTTTCCAAATTTTTAGATTTCTCTTCTTCTTCAGGAACACCG
ACTATTCTTAGGTTTGGTCATTTAACATAATCCCAGACTTCTTGAAGGCTTTGTTCATGTTTTCTTGTTCTTTTTTCTTTGTCTTTGTTGGACTGGGTTA
ATTTGAAGACCTTGTCTTTGAGCTCTGAATTTCTTTCTTCTACTTGTTCAATTATATTGCTGAGACTTTCCAGAGCATTTTGCATTTCTCTAAGTGTGTC
CAATGTTTCCTGAAGTTTTTATTGTTTTTTCTTTATGCTATCTATTTTCTTGAATATTTCTCTCTTCTCTTCTTTATCGTTTTTTGGATTTCCTTGCATG
GGGCTTCACCTTTCTCTGGTGCCTCCCTGATTAGCTTAATAAACCTGCTGAATACTTTTTCAGGTAAATCAGGGATTTCTTCTTGGTTAGGATTCATTGC
TGGTGAGCTAGTGTGACTTTTGGTGGGTGTTTAAGAGCCTTGTTTTATCATATTACCAGGGTTGCTTTTCTGGCTCCTTCTCATTTGGGTAGGCTCTGTC
AAAGTGAAGGTCTAGGGCTAGAGGCAGTTGTTCAGATTCTTTTGTCCGATGGGGTGTTCCTTTGATGTAGTACTCTCCCCGCTTCCCTATGGATGTGGCT
TCCTGAGAGCCGAGCTGTAGTGATTGTCATCTCTCTTCTGGGTCTAGCCACCCAGCAAGTCTACCAGGCTCTGTGGTAATACTGGGGGTTGTCTTCACAG
AGTCCTGTGATGTGAACCATCTATGGTTCTCTCAGCTGTGGATACCAGCTCCTGTTCCAGTGGAGGTGGCAGGGTGGTGAAATGGACTCTATGAGGGTTC
TTAGCTTTTGTGGTTTAGTGCTCTATTTTTTTGCTGGCTGGCCTTCTGCTGGGAGGTGGTGCTTTCCAGAGAGCATCTGCTGTGGCAGTATGAAGAGGAA
CTGGTGGTGGATGGGGCCCTAGAACTCTCAAAAGTATATGTCCTTTGTCTTCAGCTATCAAGGTGGGTAGGGAAGGACCACCAGGTGCGGGCAGGGCTAG
GGATGTCTGAGCTCAGACTCCCTTGGGTGGGTCTTGCTGCGGCTTCTGTGGGGGATGGGAGTGAGGTTCCCAGGTCAATGGAGTTATGTTCCTAGGAGGA
TTATGGCTGCCTCCGCTGAGTCACACAGGTTGTCAGGGAAGCGGGGGAAAGCTGGCAGTCACAAGCCTCACCCAGCTCCCACACAATCCAAAGGGCCAGT
CTCACTCCCACTATGCCCCCGCTAATAGCACCGAGTCTGTTTCCAGGCAGTGGGTAAGCAGGGCTGAGAACTTGCCCCAGGCTACCTGCCTCCCAGCTGC
AAAAGAAAAGGGCTTTAGTTCTTCCCACACCTGTGGAGTCTGCACACAGGATTCACATCCTCCCCCAAGTTCTAATCAGGAGGCTTCTCAACTAGTTCAA
ATTGTTACAAAGTTCATCTGGAGACTTTCTTCTCTCTGTGGCATTTTCCCTGCACCTCTGGCCACCCTCTCAAACGAGCCCTGTGATGCCAGGCAGGAAT
GGCCTGCTTAGGGACTCAGCAAGCTCCCAGGGCCTTTCCCACTGCTTCCTCTACCCCTGTATTTCACTTGGCTTTCTAAATTGACTCAGCTCCAGGTAAG
GTCGAAATCTTCTCCCAAAAACTAGACCTTCAGTTTCCCTGGTGGCGGTGTGTGTTCAGGGGCGGAGGATCTCCCTTTCCCACTTCCGCAGTTTGGGTAC
TCACAGTATTTGGGGTGTCTCCCAGGTCTTGCAGGAGCAGTTCACTTCCTTCAGAGGGCCTGTGGGTCCTCACAGGATTCCTGACTTATTCCTGCAGTCG
TTCTGGAGCTAAAACTCACCATGCAAGCCTCCACATGCTGCTCTGTCCATCAGAGTCAGAGCTGCAATCTAGTCCTGCCTCCTCAGGGATGGAACTTGAT
TGATTAGGCATATGACAGGTACAGAATGAAAAAGAATATAAACATTTACAAATTCAGTTAAAATTCTAATATAATTACATTGTATAAGCTTATAAGTGAG
ACTGTTTAAGAGTTTAGATAGTTCTACCTGAGTTACTTGAACAATTATAAAAGATCCCCTTAAACTGAATTATTTTATATAAGTTCAGTTTATAAGTATA
CTATTCTATCTGTAAATCCATATAATAGATATATATAATAGACTTACAGATAGAATAGTATACTTATGAACTGAATTTTAAGACATAAATAAACCTAGGT
ATTGAGTTTTAAATTAATAAATTAAATATTAACTTAAAACCTAAGCTCTTGTAAGTAGTCTTTTATTTTGTGCTCACAGAATCTGCCCTCAGACATGAAA
AAAAAATGACATGACACTATTGTTATCTGCATTTAACAGACGAATAAACTAACACTTAGAAAGGTTAAGAAGCCAGAATCAGCTCCATGAATGTCTGGCT
CTAAAACCTGTGTCCCCACTGAACATATGGCTTCCTTGACTGACCAACCCCCTAAAGAGCCAGGTGACTTGGGAACAATTAAATTTTTCGAAGTAACTTT
ACTAAGGTCTGATTATATGTATTATAGATTGATTTTATAGATAAGCAGTCAATTTCAGCTTAAGGAAAGATAATTTTTTGGCTCACGTAGCTGAAAAGTC
CGGCCTCAGACGTGGTAGCTACAGACTGTGTTGGCTCCATTCAGAGACAGGCTTTCTTTCCCTTTGTGGTACAAGACCACTGGAGCTATCCCTCTGGGCT
AAAGTATAGCTAAAACATGGACTGCCTCTCTTCTAATTGTTCTCACAAAAGAATCATTGCATCTCACTGAAGAGTAGGTCATGGGTCCATTCTGGAACTA
ATCACTGTGACCAGGGGAAGGTGATGCTTTAATGGTCATGCCTGGGGTCAGAAGTTGACCCTTGGAGTTCGGGGTGGAATTAACTATACCATAAACATAT
GGACTGAGAGTAGGGAAGGAACAATCTTCCTTGAAAAGGGTGATTGGATGGCAGGCAGCCAAAATAGATGTCCAGTATAGTAGGCAACCTTACCTCTCTC
ACTTCAAAGTTCTTTGTATTACCTCACTCTATCATTCATATTTACTGCTGACATTTACTCTTTCTTTTGGCCAAGAATCATGATACTACACTATAACTTA
ATTGTGTGTCCTTTATTTCTCCTGTGACTGCATGTTGAAGGCAAGGGATATCTGTCTTGCTTTTCTTCAGCGACCTACGTAAATGCTTGTCTAAATGAAT
AAAACCTAGATTACAGGATACTGGGTTTGTTACTTAAGAGAAGAAATGTTGGAAAAGTGTTTTCAGGGTTTTGTAGGTGGTAGCTCTGTAGTGTAAGGAG
GAAAAGTCAAATTCACTAAACGCTTATTGATAACTTCTTTGTGTTGGGCTGATCTCTCTTGCGGACAGTGTTCCAGTGGCCCTCAAAGAGCAACCAGTCT
AAGCCAGGTGTGGTGACTTGCACCTGTAGTCCCAGTTACTCGGGAGGCTGAGGTGGGAGGACTGATTGAGCCTGGGAGGCTGACGCTGCAGTGAGCCATG
ATTGTGCCATGCACTCCGGCCTGGGTGACAGAGCAAGACCCTGTCTTAAAAACAAACAAAAAACAACGAGCAACTAGTCTAGAGGAAGAGACTGGATGAA
GGGTATTGGTTACTGTGATTTGGTTTTGGCCTAGATCTAGGTTATTATGGATTGCCTAGAGCCTTGGTAATAGATTGAGTACTGGAGAAGGTTTGGGTTA
CCATATATGACGTTGGTTGGGTTAAAGATTCTTATTTTTCATTTATTGAGCATCCATGTCAAATTCTTGACACTTAGAGCCTGGGGCATGGGAATAAGCA
GGTCAGAAGACTCCCAGGATAGGCCCAGGTCTTGACTCAGGGTTATACCCATTACTCTGCTAACAGTGTGAGGAACCTACCTAAAAATAGAGATTGAGAT
ACTCACCAAAGCACAGACATAGGGGCAGACTGGGATAAAGCACAGACCCATGCTGCCAGGCACCCAGTGAAACAGTGCATTTTCCCAAAGACAGCATGAC
TCCTGAGGTGGAAGCATTACTGCCCAGTTTCAGAGGGAAGCTGTGAGGGGTGTCTGGGCTTGAGACTCAGTTTAGTAGAATTGCTCATACTTTTTACTTG
GGCTGTGCAGAGGAAAGACATCTATAAAAAATTGCACTCATTTGGAGAACCTGACTGTGGTCATTTTGAAGCCAAGGCTTGCTTAGAAAGTGTGGAAATT
AATAAAGTAAAGGAAATTGATAAAGATCTGCACAGGGGTTTCCTCTGCCCAATCCTCCCACCTTCCCCTTCAAACTTAAACTCGAGCCTGCTGCTCTCCG
GCCTAGCATTGCTCTTGCCATGGCTGTCAGTGATGCTGACATGCGAAAGCAGATAAAGCATATGATGGCTTTCATTGAATAAGAAGCCAATGAGAAAGCA
GAAGAAATAGATGCAAAGGCARAAGAAGAGTTCAACATAGAGAAAGGTCAGCTTGTGGAAACCCAAAGACTAAAGATTATGGAATATCATGAGAAGAAAG
AGAAACAGATTGAGTAGCAGAAGAAAATTCAGATATCCAATTTGATGAATCAAGCAAGGCTCAAAGTCCTCAGAGCGAGAGATGACCTTATCACAGACCT
ACTAAATGAAGCAAAACAGAGACTCAGCAAGGTGGTAAAAGATACAACCAGGTACCAAGTGCTGCTAGATGGACTGGTTCTCCAGGGTTTGTACCAGTTG
CTGGAGCACCGAATGATTGTTYGTTGCAGGAAACAAGACCTTCCTCTGGTAAAGGCTGCGGTGCAAAAGGCAATCCCTATGTACAAAATTGCCACCAAAA
ACAATGTTGATGTCCAAATCGACCAGGAGTCCTACCTGCCTGAGGACATAGCTGGTGGAGTTGAGATCTATAATGGTAATCATAAAATAAAGGTTTCYAA
AACCCCAGAAAGCCAGCTGGATCTCATAGCCCAGCAGATGATGCTAGAAGTCCAGGGAGCCTTCTTTGGTGCAAAAGCCAACAGGAAATTTTTGGACTAA
GCCTTCAGGAGGTAGAGCACGTTCTCAGCTCTCCTGCTATGATGTGGAAGATTCTGATATTTGAAGAAACGCGAATGTTTCTGTAGCTTCCTCTTTACTG
CCCCAATATTGCTTTGCATTTATCAGTGATGCCCCTCTGACACTAACGCCTTGCCTAATTATTCACAATGGTGGGAAGCTTCATGTAATATGATCAGGAC
CCACCTCCAGTTCATCTGAAAGTAACACAGCATCCAGTTGGTTCTGCAGCACTAGGGGAGGGGGCAGAGGTGGTTGCATGGGCTTCCTGGGTCTCGGCTT
TCCATCTGGCCTAGAGGTGATGTGTTTGGTGTTCCTAGCCCTGCAGTCCCCACTCTTGAGGCTTAAGGCGCATGTGGCACACCACTCCTTCCAGCAGTAG
TCGCTTCACTGTTACCTGTTTAGGCCTAGAAGTTTTCTCTCATCTGTAAATGTGATTTAAAATCTAAGCCATGAATATGCTTTATTTATTAAAAGAGCTA
TGTGGATTTTTAAACAATGTGGAAATTATGTTCATGTTGTACTGTCATCAAAGATAAAAATGTTTTAAAAAAAGAAAACAAGTATAATTTAAAAAAATTT
TTAAAAATGAAAGGAGCAGAGCCAGAAGAGGAGCCATGCAGACTCCAGGAAAGAACAGCTCATGTTGCCTTTCCCTCCTACCTCCCTGGAGGGAGGAGCT
AGCAAGGGAAGATAGCCACTGTGACACTCCTTTCTCAGCATATGTGGGTCTGAAGTAAAGGTGGAGGTGGACTTCTGGGAGTGAAGAGGGAATAGCCTAC
CCTCCTGGCCAAACACAAACCCTGATGCTATTACATCTGGGCTCAGGACAGCTGTCCATTTCTCACCACTTCGATTAGGGTTTTCAAGAGAAACATAATG
AACCTCTATTAGGGTTTGGCAACAGAAACAGAACAAATAGATAATATATTTGTTNNNNNNNNNNNNNNNNNNNNTTAATATACACAAATCAGTAGCTCTT
CTATACACCAACAGCAACCAAGCAGAGAACCAAATCAAGACCTCAACCCCTTTTACAATAGCTCCCCCTAATAGAGGTTCATTATGGAAATTGGCTCACA
TGATTGCAGAGGCCAAGAAGTCCCACATTATGCTCTCTGCAAGCTAAAGAACTAGAAAAGCAAGTGGTGCAATTCAGTCCAAATTCAACGGCCTGAGAAT
GAGGGTAGCTGATGGTATTACTACCAGTCCAAGGGTGAAGGCCTGAGAACTGGAAGAAGGTGGGGAGTGGTGCAGGGAACTGCTGGTGTAAGTCCTGGAG
TGTGAAGGCCTGAGAATCAGGAACTCTGATGTTCAAGGGCAAAAGAAGATGGATGTCATACCTCAAGAAGGGAAAGAGAAAACTTTCTTCCTCTTTTTTT
TTTTTTTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCGGTGATGCAGTTTCGGCTCACTGCAACCTCCACCTCCCAGGCTGAAGCGATT
CTCCTGCCTCAGCCTCCTGAGTAGTTGGGATTACTGGCGCCTGCCACCATGCTTAGATTTTTTTTGTATTTTCAGTAGAGACAGGGTTTCACCAGTTGGC
CAGGCTTATCTCAAACTCCTGACCTCATGATCTGCCCACCTCGGCCTCCCAAAGCACTAGGATTACAGGCGTGAGCCACTGCGCCCGGCCACCTTTTGGT
TTTACTCAGGTGGACCCTTAATGGATTACATGATAACTGCTCACACTAGTGTCAGTGGATCTTTTTTACTCAGTCTGCTGATTCAAATGCGAATCTCCTC
TGGGAACACCAGCATAGACTCACACAGAAATAATGTTTGACTAGCTATCTGGGCATCCCTTAACCCAATCAAGTTGACATATAAAATTAACCATCACAAG
TCTGCCCCTTGTGAACTTGGCATCCATATGTATCTCCTTAAACCATAGTTAATCTCCAAATAATGACAATAACAAGGTCATAATTCCACTTAACATGATA
CAACTATCCTGCATACAACAAAAAATGCAGTAATCCCTTTTCCAGAAGAGGAGGTAAAGTCTGTGAGTGACGTGTAGTCTTCTGATATCCCATACTTAAA
ATACTAAGATGTCTTTAAAGTATTAACAATACTAGTACTTAGAATACTAGTATAAAGTCAATACATCTTATGTTACACGATAAGGGATAAGAAAGGAAAG
GAAACAAAGATATTTGTTTAATATATGTGTACATACACACATTATTTAAAAAAAATAGGGATGAAATATTCATGACAATTACAGTCTTCTTTTCTGTAAC
TGATGACATGGCTGCAGCTCATACTTACAACTACCATCTTCAACTACCCATCCTGTATTCCCTTTGCCTTCAGCAAGAACCTCAGCTGGTTATGCTTCTT
AACCTAGAAGGCCAAGGTTGGTTTGAGGGTGGAGGGGAGGTAAACCAAACCTTCATTCCTAAAGGTCTGGGCCATTCATAGTCTTGCCTGGTTTGGGTTG
TAGTTTTCCATTGACTTTAACCACAGGGCATGGTAATACTGAGACACCCTAAGAGATCTCCTGTGTTCCAGACATATTCTTTTTTACCTCTTTTATGTCA
GATTTCCCCATGGTAGTCTGGATCAATTACCCCAGCCAACACCATAACTCCCCTATTGGCCTGTTGACTCAGAGGCATAAGGAGCCCAAAGTGGTTGGAT
GGCAGTCTTAACTTCTAGTTCAATGGAATTTAGTTCAACTGTGTCTTCTGGTGGAAGCAGTCCTCCCTCTGGATCCAGCAGAGCATACCTTTGTAGAAAC
AGGAAGCAAAATTTTTGTTAGTAGGTCACTAGGGAATCAGTGTGTGGTGCCCTTCCCATTTCTACCCCTTCATTCCTAGACCTATAAATCCTGACTATGG
GAGAAACAGTACTGTATGTTGGACATTGATTCAGAACACATACAGCCTTCTGGAGAACCTTTGCTTCTGCCTTGCAAAGTATTGTCACTTAGCTGGTTCT
GTAAGTGAGTCTTCAAAAGGCCATTCCACTATTCTATCAAGCCAGCTGCTTCAGGTTGTGGGGAACACGACAAGACCAATGAATTCCATGAACATGGGCC
CACTGTTGCACTTCTTTGGCTGTGAGGTGAGTTTCCTGGACAGAAACAATGCTGCATAGAATGCCACAATGGTGGATAAGGCAAGATGTAAGTCCCTGAA
TGGTAGCTGACAGAAGCATTGCATGCAGGGAAGGCAAATCTGTATCCAGAGTAAATGTCTATTCCAGTAAGGACAAAATGTTGCTCCTTTCATAATGGAA
ATGGTCCATTATAATCAACCTGCCACCAGGTAGCTGGCTGATCATCCTGGGGAATGGTCCTATATCGGGGGCTCAGTGTTGGTCTCTGCTCTTGACAGAT
TGAGCACTCAGAAGTGGCTATCGGCAGGCTGACCTTGGTGAGTGGAGGTCCATGCTGCTAAGCCTACACATAACCTCCCTCCCTGTCACTATAGCCACTT
TGTTCATGAGCCCATTGGGTATTGACATGGGTGGCTGGGGAAAGAGGCTGACTGATATCCACAAAATGGATCACCTTCTTCACTCAGTTATTAAGATCCT
TCTCTGCTGAGGTCATCCTTTGGTGATCATTCATATGGAACACAAATATCTTCATGTCTTTTGCCCAATCAGAGCAGTCTTTCCATATACTTCTTCCCCA
AATTTCTTTGTCACCAATATTCCAACCATGTTCCTTCCCAGTCCCTGGCCATCCAGCCAAACCATTGGCTATAGCCCACGAATCAATATATTATCGCACA
TCTGGCCATTTCTGCTTCCAAGCAAAGTGTAGAACCAAGTACACTGCCTGTCGTTCTAACACTGGGAAGATTCCCTTTCAGCACTGTCCTTCAAGGATGT
CCCAGAGAGGGGCTGTAGTGCTGTACCTGTCCACTTTCAAGTGGTGCCTGCATATTGTACAGAACATTCTTTAAACCAGGCCCAAACCTTCTCTTTCTCT
GTCAACTGATCATAGGGAACTCCCCATGAGCCCATAGGTACAGTTTGAGAGAGAGTAAGAAAGCAGTGTAGTAAGAGTGACCATGGGCATTTGGGCCACT
TATTCATGTAACTTACTAGTGCCTTTAGGGATTGCTCTGGACTTACTGCATATATAACACTTCTATTTGATGACGGGGAGCTGCTATGCACACCCAACTT
TATGGCTTGGTGAGTCGGATAACACCTCATCCATGATGGGCAGCTCAGGTAACATGGTAACTTGGTGGCCTATGGTCAGGTGTTTAGTTTCTACTAAGGC
ACAGTAGCAGGCTAAGAGCTGTCTCTCAAAAGAATAGCACTGTGTAATGTTTCAGTCAATGATGGACCGCATATACTGCTGTGGCTCCATAAAACCATAA
AACTGTATTTTGTACTGTACTTTTCTATGTTTAGATACATGAATACTTACCATTGTGTTGCAGTTGCCTACAGTATTTAGTACAGTAACATGCGGTACAG
GTTTATAGCCTAGGTGCAATAGTCTAATTGTAGAGTAGGCTATAATATCTAGGTTTGTGTAAGTAAACTCTATGATATTTGCACAATGGCAAAATCGCCT
AACAACATGTTTCTCAGAACATATCCCTGTCATTAAGCAACTCATGACTGTAGTTATCTGCCAATAATGGAGGGCCTTGCTCCAAAATCCCAAAGGCCTG
CACTGTGATTCGTCTATGCACGCCTGCTAAATAGGCTCCCAATGGCATCCCTATCTGCCATAGACTCACCAAGCACCATAGGATCTGCTGGATCATATGG
GCCAAGTGGCAGAGCAGTTCGCACAGCAGGCTGAACCTATTGTAGAGTCTTCTTTTGTTCTGGGCCTCATTTAAAACTAGCAACTTTTTGGGTGGCTTTG
TAAATGGACCATTTTGGAGGCAAAATCCAAAATTCAAAGAGGCCCACGAGGTATTGTGCCTCTTTCTTGGTTGTAGGAGGGGCCAAATGCTATAACTTAT
TTTTTACCTTAGAAGGAATATGTCCCACACCACCAGCCCTCTAGAAATTCCACTGCGTAGAAGGCTCCTGAATTTTAGTGGCATTTATTTCCCACCCTCT
GACATGCAAATGTCTTACCACTAAGTCTCAAGTATACTTGTTGCTCACTAGGTCCAATTAGCATAATGTCATCTATGTAATGGAAGAGTGCGATATCTTG
TAGAATGAAAAAATGATCAAGATCCCTGAAAACTAAATTATGGCAGGACTGCGAGTTGATGTACCCCTGAGGTAGGATGGTGAAGGTATATTTCTGATCT
TCCAGCCAGAAGAAAATAGTTTCTGGTAGGCTTTATAGACAGGGGTGGCAAAAGGCATTTCCCAGATCAATAGATGCATACCAGGTACCAGAGGATGTGT
TCATTTGTTCAAGCAATGAAACCACATCAAGTATAGCAGGTGCAGTTGGAGTCACCAGTTGGGTAAGCTTATGATAATCCACTCTAATTCTGTAAGATCA
TTTGTCTTCTGCACAGGCCAATTAGGAGAGTTGAATGAGATGTAGTGAGAATCACCACCCCTGTATCTGGTGTCACTAATCTCTGCAATGAAAGGAATGC
AGTTATTGCTTCTGTTTTACTGTTTTCCTAGGTGGTGGCAGTTCTAGTGGCTTCTAGTGGCCTTTTCCATGGTAATATCCCTCATTTCATTGTCAGGGAA
CCAATGTGGAGGTTCTACTAACTGCTAAGTATATCTGTTCCTTATGCATCCTGAAACTGGGGAAATAACTACAGGATGGGTTTGGGGACCCACTGGGCCC
CCTGAGAGATGGAACTGAACTAAAATTCCATTAATCACCTGGCCCCCATAATCCCCTACTCTGATTGGAGTGCCACAGTGACATTTTGAGTCTCCTGGAA
TCAAGGTCAGTTCAGAGTCAGTGTCCAGTAGTCTCTGAAAGGTCTGATGATTTTATTTTCCCCAATGCAGAGTTACTGTGATTAAAGACTATAGGTCCCT
TTGAGGAAGGTTGAGGGAAAGATGAACAGCATAAATTTTTGGTAGTGCACCAAGATCCTTCCTCCAGGGG


SNP Information

Context             (SEQ ID NO:19147):
GGCTGTCAGTGATGCTGACATGCGAAAGCAGATAAAGCATATGATGGCTTTCATTGAATAAGAAGCCAATGAGAAAGCAGAAGAAATAGATGCAAAGGCA
R
AAGAAGAGTTCAACATAGAGAAAGGTCAGCTTGTGGAAACCCAAAGACTAAAGATTATGGAATATCATGAGAAGAAAGAGAAACAGATTGAGTAGCAGAA
Celera SNP ID:            hCV8375074
SNP Position Genomic:     6222
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,12)      total(G,12|A,3) ;(A,-|G,-)   Caucasian(A,17|G,67)   African-American(A,17|G,67)   Asians(A,29|G,55)   total(G,189|A,63)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:19148):
AAAACAATGTTGATGTCCAAATCGACCAGGAGTCCTACCTGCCTGAGGACATAGCTGGTGGAGTTGAGATCTATAATGGTAATCATAAAATAAAGGTTTC
Y
AAAACCCCAGAAAGCCAGCTGGATCTCATAGCCCAGCAGATGATGCTAGAAGTCCAGGGAGCCTTCTTTGGTGCAAAAGCCAACAGGAAATTTTTGGACT
Celera SNP ID:            hCV26054201
SNP Position Genomic:     6698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:19149):
ACTCAGCAAGGTGGTAAAAGATACAACCAGGTACCAAGTGCTGCTAGATGGACTGGTTCTCCAGGGTTTGTACCAGTTGCTGGAGCACCGAATGATTGTT
Y
GTTGCAGGAAACAAGACCTTCCTCTGGTAAAGGCTGCGGTGCAAAAGGCAATCCCTATGTACAAAATTGCCACCAAAAACAATGTTGATGTCCAAATCGA
Celera SNP ID:            hCV8375075
SNP Position Genomic:     6522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Gene Number:                 65
Celera Gene:                 hCG1792358 - 206000045405793
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W3P1(5442444..5455025)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12225):
GGGAGATGAGCTTGCTGAGTTTCAAGGAACAGAAGGAAGCCTGAGTGGCTGGAGTAGAGTGGGCAAGGCAGAGTCCCCAGGGGCGGTGCTGGAGGGGCCC
CGGGGTCATTTGTCATCACCCTGTCTGACTCTAGGCTCTGCCAAGGCCCCCTTCCTGGCATGCCAGCCGATTGCCCCCAGAAACAGGGCCTCCATTTCCT
TTTGCCTCCCCCAGTACTTCATCCGAGGCTTTGCACCAGGGCCCCTGGAAGCCCCAGGCCCATGGGTGGGCAGGAGCCTTCTGGCCTTCTCCAGACGTCC
CAGCCCTGACTTTGCCTTGACCACAATGTGCAGTGGGCCCAGGGCCAGGCCAGGGCTGGGGGAGGCCGGTTTCCCTCTTGCTTTCATCTGCAGGCAAGAT
CTCTTTCATCGTATCTGTTGTTTTTAGGCCATGTGTTGGGCTGTGGACAGTGAATGAGAGCTCAGGAACACACGCCTATAAATCTGCATGGAATGAAAGA
AAGGTCCAAGCATCAGGGCGCCTGACGCCCCACGGGCCCTCCCCCTTCCCCCGTCCATCTGAGGACTCCTTGGGGTCTGATGTCAGGGGACAAGCTAAGA
AAACTAAGGAACAGGGGTGGGTGGCAGACAGATGAGACCTGGAAGGGAGCCCAGAAATATCAAACCCAGCACAAGACGGGTGGGGGACTCGCTCAGCACA
TTCGGCCAGAGCCAGAACAGAACCAGGGTCTCTGACGCCGTCCCATGAAGGACCTGAGCACCTACTGGATGCTGGGCCCTGGAAGGAAATGAACAATCAC
TGTGAGAAATGCCCCGATGTGGGATGGCCACCTGACTGAGCAGAGCCAGGAACTCTGGGCCAGTTGGGTGACCTTGGGCAAGTCGAAACCTCCCTGAGCT
TTTCGTCTTTCTTCTCTGCAAAATGTTTCTGCCAGTGATGTTGGGAGGTTCTAAAATCACATGAAGCCACCTATGTTGAGGGGCTCTTGGAGCTGCTGTA
TCTGTGCAAGCCTCTGAATCCTGTTTTTAAATCATTTGTTATTTTTTTAACCAGTTAGGCATGGGGCTTCATCCTTGTAAGTACATCCCATTTCTGTCCA
GCCTGAGTTAAAGGTGGAGGACTGGGAAACAGACTAACTCACATGAAACATAGAGCAAACAGTTCAGCATTAATCCTGCATCTGATATCTCCTCCTATGC
CTCCACAGATGGGCAGCTTACTACCAAACAAGGCTGCCGTTTTCCATGGTGAAATAGCACTAATGGGTTATAAAGCGCCTTCTACACCAAGGTGCAGTCA
GCTCTTGCTCCTGACGCCACTAGACCTACAATAAGCCTGGTTACTCACCCATTTTCATGGTGATCCTTCTAGAATCCTCTGGCCTTGAGTATGCTTCCCT
GCCAGCTCCCAGAACCCAGGCTGACTCTAGTTTCTGAAGCCTTTCTCATCTCTCTTGAGTTTTCTACAATGAGCATGTGCTGCTTTTTCTATTTTTCAAA
TAGATTATATTATTTGTGATAACCAATCAATACAGAATGCAAGAAGAGGAAGTGAAAGTCTCCCTATTTTTCTCTCTCCAAACCTGGCTCCATGCAAGGC
CCAGCGGCACCTTCCTCCCGGCTTCTCTCTCCCTTTGGTTATGTATTGTTTGGAAGCACAGATTAGCACTGAGAATGCAGCAGGCAGCACAGGGGAGAGG
TTGAGAGCACAGGTGCTGGAGCCTGCCTGTGGCCAGGGCTTGAATCCCTCCCCTGAACCTCAGTCTGCTCATCTGTAAAATGGGGTCATTAGGGTACCTG
CCGCACAGGGTCATTAGGAGGATCGAGTGAGTCCATGCACGCAAAGTGCTCAGACCAGTGCTGGGCGCACATGAGCCATTATAGGCGTTTTGCTTTGTTT
GTTTAATTAAAAACGAATGGCACCACACGTACATTTCATTCTGTAGATTACATGTTCATCATGGACAGCTCTCCGTGGGAGCTCAGGTAGGCCTATCTCA
TCTTGCCAACAGCTGTAGAGCTGTTCTGTGACCACACTCATGCTTTATCCACGTTAAGATCAGGAAAAGTCACTTTTAAGAAAGGACCCAAGGTGGGGCC
CTTAAGCAGCCTTCTGCCACTCTTGGTATCATTTAGTCCCAAGGAAATCCTTTGGTTCTCTCCTCGGTGGCCCATGGCGGCCCTGAGCCGGCCAAGCCAG
CTCCAGGAAGTGGGAACCAGGCCCTGAACAAGAAGACAGCTGGGCCCAAAGAGGGTTTGTCCCCAGGGAGAGGTTGGGTACAGATGAGAAGCGACCAGGC
TCCTCCCGGTGTGGCCAGAACCCCTCAGAGAGGATCATGTGGGCAGGGCTAGTCACAGAAGGCTTCCTGGAGGAGGCAGGGTCTGAGTGGGGTCTTGAAG
AGTAAGAGAGAGCTGAACAGACAGAAGTGGGTTGGGGGAGAGGCACTCGTGGCAAAGACAAGGCTGTTTGGGCTGGTGAGGAGTTAGGATGTCTAGAGCC
AAAGGGCCACATAAGGGAAAAGGGAGAGTACCTTGAACACCAGGATGCATGTGGGTTTGCCCTGCCAGCAGTGGGGAGCCACAGAAAGTTCTGGATGATA
ACAAATAATAACACTCTGTGTGACCCTGAGAAGGCTCGAAGCCTCCCCAGGCCTCAGCTGCCTGTGGGTGCTGGAATAGACCCGAGGGAGGCAGAGGGGA
CTACTTAGGGGCAGGAATTTGGGATCAGGCCCTGCTTCCTCTAATCAAGGGGACCCAGAAGTGTGAGGGCAGTCCCAGAGGTCAGTCCCTGCCTTCAGAT
CCCCACTCCACAGAATTCAACGTTTCCTTTCCTTTTAACCTGCCGGCTTTCCAGGGAAATCTGATTTTGCGAGCATGTTTTCTTAGCCAGGGGAAATGAG
CACCATGCAAACAACGAAGACGGCTGCGTGTGATAAGGGGCTGGGCTGCTCCAGTGTGGCCTGGAGGGGAAAGAGGGACTGGTCACTGCTGGCTGCCTTA
GGTGGAGAGAAGACATCAGGCCTCAGAATGTCTGAGCTGGAGGGGGCCTTGGGAAGTGTCTAGCCACAGATGTGAAAGTAGAGGCCCAGACAGGGAAGGG
GCTTGCCCAGCCAGCATGGAGGGCCTGAGTCTGCTGTGGCTCATGCCCCACACTCCAGCTGGAGGGGCTGCGGTGGGACTCCCTTTCTCTCTGTAGCAGG
CTGGGCCAGTTGAACCCATGCTGGGATTCAGAGTCTGGCTGATGGTGGCCCTGCTGGGTCCTCTCTGGTGAAGATTCACAGAGGGAGGGAGGAGCTGGGC
ACTTGAGGTCAAGAATGAGGGAGATGAGCGTGACAGGGGGAAAAGGGGGAAAAGGTATGTCCTCCACCTTGGTTTTGAGTCTTGTTGAGAAAAGGACAGG
GAAAGATGCGGCCCAAGTCATTGTCATGGAGACCATGCAAGACCCAGGGCCCTGGAAGGGCTGCCTTAGGGCCCAGGTGACAGTTTGCAAACTGGAGTTG
GCCTAAGCCCACTGCTTGACCACCTCCATGGTGATGTGGCAAACATGGCACCTCCATGGCCATGACAAACGTGGCACCTGGAAGCTCAGGGTGACCAGGG
TGGAGGGTGGCCACACCTGGTGCAGCGTTTTTGCAGGCGCGCCTGTGGCCAATGCAGTCACCAGGCATCTCACCAAGAAGTGGAGAAAACTCCCGGCTGG
GGTTTGGACACCACTTGGGGAGGCGCCGGGAGTAACTGGCCTTCTGGCTGGGGCTGGGGAGGGGTGTTTGGAGGGGATGAGGTCTAAGAAACTTCTTCAT
CTGGATATTAACATAAGTGTGACCTGGGTACCTACAGGCTGGTGAGGCCTGGGCACAGCAGAATTCCAGTGAGTTGCCATCCTCCTGCATTCAGCAGCAG
GGCCAGAAGCTCCAGGTCTGCTGGGGGGCCCCTCCACTCAGGAAGAACACACCTCCTTTGCCCCCTGGAACTGTGTTGGGAGTTTTCACAACCTGAGGGG
GTTGGTGTTGGTTCCATTTTTGAGATAAGGAAACTGAATCTCCTAGGCTACTGTGCAAGTGACCTCACGTGTGACTTTCCTTTCTTCTCAACAAGGTTGT
GCTTTCTCTAGAAGCTGTTCATGGTGGAATTTCTAATGTTGCAACAGACTAACAGCAGAGGACGTTGCTGGGCTATTTGGGCTCCTGGGGGCACCCACAG
CTTCAGCTGAGCACCAGTAAAGAGTACCAGCTTCCTTTGCAGCCCCCCATTCTACCCCCATCAGTGACTGTGGGAACCACGGATGTGGGGTGTTTTCCTA
CATGATTTCATCTTCCTGAGGACCATTCTACACAGAATGGGCTGCCCCCAGGGAGGCCCAGTCACTTCCCATCCCCGCTATTCTTGGGCAGTAAGATGCC
AAAGTCAGTTCAGTCAACATCTCGCACACAAGACTGGTACAACCGTGACATTCTGACCTGACTTAACCCCGGACAGTGAACCAGGCACTTTCCTCTTCCA
GGCCATTATTCTTTCTAATCCCCTTTGGGCAACCTCTCTGAGCCTCAGTTTTCCCTGCTGTAAAATGGGGATTCATAGAGACAACACCTCATAGGCCTGT
TATCTTTCTCCAAGGCCTGACTTTGTCACTGAACAAACTCAGAGACAGAGGTTCAGCTGGGTGCGGTGGCTCACACTTATAATCCCAGCACTTTGGGAGG
CTGAGGCAAGTGGATCATTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCAAGACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGTGT
GGTGGTGGGCACCTGTAGTCGCAGCTACTCAGGAGGCTGAAGCAGGAGAATGGCATGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGTGTCACT
GCACTCCAGCCTGGGTAACAGAGCAAGACTCGGTCTCAAAGAAAAAAAAAAAAAAGATATGGAGATTCACTTGCTTCTTATCCTGCGAGCTCCCACCCAA
GTACCCTGTGGGCTTCCCATCCAAGCCAGGGCCACCAGCAACCCACAAGAGACCATGCAGCTCTCCGGACCCGGATCCTGATACCTTTACTTACCCAATT
ACTTACCATGACCTCAGAAAAGTCCCGTAGCCTCTAAGTGCCTCAGTTTCCACATGTGTAGAATGGGGACAGTAACAGTACCCACCTCATAGGATGAAAT
GAAACTCAGCCCAGGGCCTAGTTCTCAATTGCTACATAATACATGGCAAACTTGAGTGCAACTGGGAAGCACAGTGAGTATGGGGAATGGAAAGTGTTTC
ATCCCCGGGGAGGCCACATCAATCTCACTTTATTAGATCATAAGTGCTTTTAACAAGGCAAACAGCAGAAGGCCAGCAGCCCGCCAGCCAGAGCCAAGAA
CTGAAATCCAGTTCTCCAAGACCCCGGACATCAAAACAACAATGCAAAAGGCTGAACATCAAAGAATGAACAGCAAGTCCAAACATTTCACTGTGCTCTT
ATCTTAATTAAAGCAAGTCATACTCAGAGTTTTGGATGACACAAGTTGAAAAGCGGGGTCTGGTTTTATTAGCTTTTGCTGACACCCACAGAGAAGTCTG
TGACTTACCCAAGGTCACCCAGCACCCTGGGGCCAGAGTTGGGGTCCAAAACCAGGCCTCAGCTGCTGGAGCCGGCGCGCCTTTCATAACCTCCCTGCCC
CCACCCTAACCTGAGCTACAGGGACCCAGGGTTGTCATTTCAGGGGAGAGGTCTCCGTTCATTCATCCAGCTATATATTGAATCATGTTTATTGAAGGTC
TTCTGCTTTCTAGGCACTGTTCTAGGCTCTGGGGATACAGCAATGAACAAGACAATCTAAACGGTTGGGGAAAGCAGACATCAGTAAATAATTACGTAGA
TAATCATAGTCACACGTTACATAATGACGTTTTGGTCAACACTGCACCGCATATATGACCATGGTCCCATAAGATGATAATGGTGCATTCGCTTTGCAGA
CACTGCCACCGCCGGGAGCCCCGTACTATCAGCCATGGTCAACCCCACTGTGTTCATTGATGGTGAGTCCTTGGGCCACGTCTCCTTCAAGCTGTCTGCA
GACAAGTTTCCAAAGACAGCAGAAAACTTTCGTGCTATGAGCACTGGAGAGAAAGGATTTGGTTATAAGGGTTCCTGCTTTCACAGAATTATTCCAGGGT
TTATGTGTCGGGGTGGTGACTTCACGCACCATAATGGCACTGGTGGCAAGTCCGTCCACCAGGAGAAATTTGATGATGAGAACTTCATCCTAAAACATAC
AGGTCCTGGCATCTTGTCCACGGCAAATGCTGGACCCAACACAAATTGTTCCTGGTTTTTCATCTCCATTGMGAAGACTGAGAGTTTGGATGGCCAGCAC
GTGGTCTTTGGCAATATGAAAGAAGGCATGAATGTTGTGGAGGCCATGGAGCCCTTTGGGTTCAGGAATGGCAAGACCAGCAAGAAGATCACCATTGCTG
ACTGTGGACAACTCCAACAAATTTGACTTGTGTTTTATCTTAAACACCAGACCATTCCTTCTGTAGCTCAGGAGAGCACCCCACCACCCCTTTTGCTCTC
CATATTCTAGAATCTTTGTGCTCTGGCTCAGTTCCCTTTGAGTTCCATGTTTTCCTTCTTCCCTTCTATACTTAGCTGGATTGCAGAGTTAAGTTTATGG
TTATGAAATTAAAACTAAATAACAAAAAAAGATTATAATGGTGCTAAAAAATTCCTATCACCTAGTGACGCCCTAGCAATGCAACTCATGACCTTTTCCA
TATTTAGATACACAAATACTTGCCATTGTGTTACAATTGCCTACAGTATTCTATACAATAACATGCAATAAAGGTTTGTAGCCTGGGAGCACTAGGCTAA
GCCATAGAGACCAGGAGTGTGGTATGGTGTACCATCTAGGTTTGTGTAAATGCACTCTATGGTGTTTGCACAATGACAAAATTGCCTGGGGATATGCATT
TCTTAGAACGTATCCCCATCATTACACGAGGCACGGCTGTATTTTGTTGCAATTATAAATGCTATTTCTTATGTCCCTTCTCTCTGAATCTGGGCTTGAC
TGACAGATTTCAATGGAAGTGTTTGCTGTAATGCTTTCCAGGCCCAAAGCTACTTTCCCTTCTCCTGGGATGCTCACTTCTGAAACCCAGCAGCCATGGT
ATAAGGAAGCCCAAGCCGCCCCGTGGAGAGAACCAGGTGGGGAGAAAGCAGTCAAGCCAGTCACCACTGCAGAGGGGAACCCCCAGGCCCTGTCAGCCAC
CCCCAGCTGCCGCCACCTACACTATGGGGAGGGGAGCGAGATCAGCTGGCTCTGCCCAGCCCTGCCCAAATTGCAAATTCATGAGCAAAACAAAGGATTG
TTGTTTTGAAGCCATTCAGTTGCAGAGTGGTTTATTATGTAGCAATGGACAACTAGAGTGCCACCTTTTACCCTCGTGGGGTAGCATAGACCCAATTATG
AGCCCCATTTTATAGACGAAGAAACTAAGGTTCAGAGAGGTAAAATGACGGGCTCAAGGTCAGACGGGTAACGAGTGGCAAGGCAAGATTAAATGACGTC
AACTTCTGTGTTTTTTCCACACTACCCCTTTACTGTCAGCGCAACAGCATGGCGACCCGGAGGTTTCCATTAATGCCATTCTCACTCAAAAGCAGGAAAC
TCCAAAGGGGGATTCTTGGGCATGGCGAGGTGGCTTGGGGAGACAGTGGCTGAGCAGGGGAGCTTACAGCAGTCTTAGAGTCCTCCCGAGTGTACCAGGT
AGATGGGAGTCTGCTCGTTGTTTTGTAAGGAGAGGCCACGGAGACCTTTTGAGATGAGCAAACACAGGCTCGTTTGTGTGTTGAAGGCCTCTGTTTCCCC
TTTTGTGAAAGGGGGATGGGAAAACCACCCTTGTCCTGATCTAGCCGGTGCTGGAGATGAGCGGGCCCCTTGTCAGCTGCTAGCATTCCATTTTGAAAGA
AGTGAGTAATAGCGGAGACTCCCACAATGAGAATTTTTAATGCAAGAAAGTCCGTGGTAGGCAAGAGGGAGAGGGCAAAGCCCGTTCCTGAAAGCTTTGT
AAGCAAAGCCCCTGCCAAACTGTGTTGCTTCTGAGGCCAGAAGCAGCATGAAAGATCCAACCGGGGAGGGAGGCAGGGGCTCTGATTCTGGTCCCAGCTC
TGATCTTGACCTACTGTGTGACCTTGGGCAAGTCACCGTCCCTCTTTGGTCCTTATATGTACAATGAGAGGATGGGCTGGCTGATCTGGAAGATCCTGAC
AGTGTCCAACAGGCAGGATGGACAAACCCGAAGAAACTGAGAAGCTTCTCTACCCTGCAGCCCCAAGAGCTTGCAGAATTTAGCAGTCAGTGAGGAATCA
ATCAGTCCCTTAGGCTGTTCTAGAGGCAGTGATGTAGGTGAGCTCCTCCAGGCAAATTCTTCTCCCCCTCCTCTCCCTCATTCCCCATTGTCATCATTAT
TATTTATTTGCCTTTCAAATGGGCCACCCGGAGCTCTTTATAAAGATAAAAATAGCATAATTCAAAGCCTCCACCAGCAACCCAATCCCATCTGGTGATG
GAGGGTTGCAAACAATCGCTTTGTTCCTCCCAACTCTGACTCCTTCAGGGTCTTATAAAATGAGAGCACGCACTTTCAACATCTAATTGAAGATAATGAG
GATGATGCCCATGCTGAGGGTGGTGGCTGTCATGTGCCAGCACGGGCTTTGTGTCAACAGGGTGTATAGCATGGTCTCATGTGATCTTCTCAATAACCCT
ACAATGTAGTCAACTATCATTACTTTTTTCTTTTCTTTTTTTCTTTGGAGACAGGGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGCATGATCATGG
CTCACTGCAGCCTCATCCTCCCAGGCTCAAGTGATCCTCCCGAGGAGCTGAAACTGCAGGCATGCACCATCACAGCTGGGTAACTCTTTAGTTTTTTGTG
GAGAGGGGGTCTCTGTTTCTTGTCCAGGCTGGTCCCAAACTCCTGAACTCAGAGGATCCACCCACTTCAGCTCCCAAAGTGCTGAGATTACAGGCATGAG
CTGCCACATCCGCATCCCGTTACTACTTTTACACAGATGAAGAAATTGAGGCCTACAGAGGGAAAGTAACTTGTCCAGGATTGCAGAATTAGCGACTGGG
ATTCAGACCCAAGCATCCTGACTCCAGAGCCTCGATTCTGAATTATTAGGCTATTTTGCTTCCCAGCAGCATCAGCAACAACAACTACTACTATTACTAT
TACCCACTACTACTTCACTGAGCACTTATTGTGTGCTAGGCATGGAGCTCAGGGTTTTAATTCTGTTCTAGCAAATCCATGCTGCAGAACAAATCAATCC
AAAGTTGATTAGAACAATAAGTTATACTTTTGTGTTCATGCATCGGTAATTTGGACAGGGCTCAGTGGAGACTACTCATCTCTGCCTCAGCTGGGATGAT
TCCAAATGCCTGGAAGAGCTGGGGCCTGGCTGGGTACCTCCCTCTCTCTCTTCCTGCAGGTCAGGGCCTCCACGTGGCCTCGCCAGCATGGAGTTCCCAG
GGTCATCAGTTTCTTTTGTTTTTTCTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCATGATCTTGGCTCACCGCAAC
CTCTGCCTCCCAGGCTCAAGTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTGCACCACCATGCCTAGCTAATTTTGCATTTTTAGTAGAGATGGG
GTTTCTCCATGTTGGTCAGGCTGGTTTCAAACTCCCGACCTCAGGTGATCCGCCCGCCTCAGCCCCCAAAGTGCTGGGATTACAGGTGTGAGGGTTTATC
CGTTTCTTACATGGTGGCTGGCGTCTCCTAGAGACTAACACAGAAGCAGCAAGGTCCTTCTGCCCTGGCCTTGGAGGGCAGCAGCGTCACTCCTGCTGCA
TTCTGTTGGCTACAGACGAACATAACGTGGGTCCAGATCCCAGGGGCACGGGAAGTGAATCCCCCCATCTCAGTAAGAAGCTTGTCAAAGCACTGATGGC
CACCTTCAACTCGCCATGCTTATGTTCTCATTTAAGAACTTTTACAATGATCTATGGGATTCATTTATCCACTCACATCCATTGAGCACCTACCGTGTGC
CCGACACTGCTGCAGGTCCTGGGAGAGAGCAATGAATGTGAATGTCATTACACTCACTTTACAGATGAGGCAATGGAGACTTGCAGGGGTCTCAGGGACC
AGCCCTTTCCCTGTAGACCCTCACGAGTTCTTTACAGTGAGCCCATGAGGCTGGTACTGCGACGGCCAGCCTTGAAGTGGAGAAGCGGGATCCGCATGCT
GGCCAGGCACTTGCTCAGCACCCCTTCCTTGCCTTAGTGAGTTCCAAGTCTGCACTTCACTGTGACAGGGATGCATGGGTCCCACTGGACTTGGGGGGCA
TCCTGCAGGAGGGGCCAGGCTTATGGAGAAGAAGCCCGCGGTGCTGTTCAAATGCCAGCCCTGATGCGAGCGAGGGAGGGAGGGTTGCCTGAGGGCGGGA
AGCGGTGAGGGAGCCGGGATAATGGCCCAGCCTGAACCTGTCGCCACGGCAACCGCAGGGGCCGTCTGGAGCCAGCAGCCTGCCAGGCCTTGGCCCCACA
AAGCCCGAGAGGGAGGCAGAGGGGGCGGACCTGGCGGGGCATAAATCAGGGAGTTCTATGCCCCTGACTCCGGGCAGACGATTTATGGGACTACTCCAAG
CCCACGAGATGCACAGGGGAGAGCTGAGAGGGTCTCCCTGTTCCCACCGCCCCTGGGGCCCCTGCTTGGACTCGGATGCGTGTGCAGGGTGGGCAGGAAG
AGGCCCCTCCAGGCCACCCTCAGAGCTGCTGGAGGCCCCTGCCCCCACCCATCCCATAAGACACCTCTGTGCCCACTGTACCAGCATGCGGCCCCCACGC
CAACAGCAAAAGTCTCAAGAAAGAGATACCTCTAAATTCTTGAAATGCATGCTGATATTTTCTATCTTATTCTGTTCTATTCCTTTTTAAAAATGCTGGT
CACAACTCACTAAATTAATGTCATGACTCATTCATAGTTTGTGACCTGCAGTTAGGTCAACACTGATCCAAAGGAAGCCAGAGGGGGAAACTGAGGCTCA
CCGACTCCCTCCTCTCACACACAACTGGAGCAGACTTATATGCATCAATCAGCTCCTCCAGTCTCCCCACACACCTGGCTCTGCCTCAGGGCCCAAGCTT
GTTCCCCACCACCCATTGTAGTCATTCAAGATGGAACCAGCTTCCTTGGAAGGTAATGAGCTACCCATCTCTGAAGTCATCCAAACAAAAGTTGAATGAC
CACCTGCCGGGTGCTCCAGGGAATCCCGGCATCCCTTAGAGAGAGGCCAGACTAATGCCTCTGAGCCTATACGGGGTGGGAAGCAGGCAACGCTGACTAC
TTTGCCCACATAGCGGCTGAGCCATGGACAGGATGGGAGAGAGGCTGCAGGCCAGCCAGGCCCACTGGAGGGGGCTCAGAGCTTCAGGCTGGCTCAGATA
GACAAGGGGCAAAGATAGCATCAAGAAGGTGAGTGTCCAAGGATGGTGGCTCACACCTGCAGTCTACCTCAGTACTTTGGGAGGCCGAGGCCAGAGGATC
GTTTGAGCCCAGGAGTTCAAGGCTGCAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGGTGACAGATGAGACCCTGTCTCAAAAAAAGAAGGTGAG
TATGCCTGGTGGGAGCCTGGCAGAGACAACAGGGGCCACTTAAGAGGTCCCAGCACCCAGCCCCCTTCCTCCTGGCCCCTTTGCATTACCCGCCCAGACC
TGCAGGGGGCTGTGCCTTCCCTGGCTGGGCCCCTAGTCCTGGAACAATGTTCCCAGCCCCACAATCACTGTTTCTGCCCTATCTCCTGCCTCTCTCAGCT
GTCTACCTCCAGAAACAAGTTCCTCTTACCAGGAGGTGCCGAGATGCTAAGAACGGCTGATGACTGTGTTTCCGCACAGCACAGAGGCCTGCTGCTCCAG
ATTCAGACAGACCCGGATCCCAGGCCCAGCTCTGCCACTCACCTGTGTGTGATCTTGAGCAAAAGCCTTGACCTCTCCCAGCCATTTTAGTCAATAACAT
GAGGCCATCATATCTACCTTGTGATCATTGATAAGGGAAGACATCCAGGGTATATTAAGTTAAAAGGGCAAATCTGTTCCCATGTTTGTTAAAAACAAAA
ACAAAAGCAAACCCCTTTATTTATATGTTCGCTATGCATGCAAAAGCTTGGAAGGAAATGCCCCAAACAGGTGGTAGAAGGGTCATGGAGAGGGAGAGGT
GGATGATTTTCATTTCCTACTCTATACACTCTTTGAATTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCCGTCATYCAGGCTGGTGTGCAGTGGCG
TGATCTCGGCATCTTGGCTCACGCAACCTCTGCCTCCCGAGTTCAAGCAATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGG


SNP Information

Context             (SEQ ID NO:19150):
GATGATGAGAACTTCATCCTAAAACATACAGGTCCTGGCATCTTGTCCACGGCAAATGCTGGACCCAACACAAATTGTTCCTGGTTTTTCATCTCCATTG
M
GAAGACTGAGAGTTTGGATGGCCAGCACGTGGTCTTTGGCAATATGAAAGAAGGCATGAATGTTGTGGAGGCCATGGAGCCCTTTGGGTTCAGGAATGGC
Celera SNP ID:            hCV11548140
SNP Position Genomic:     6372
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19151):
AAAGGAAATGGAGGCCCTGTTTCTGGGGGCAATCGGCTGGCATGCCAGGAAGGGGGCCTTGGCAGAGCCTAGAGTCAGACAGGGTGATGACAAATGACCC
Y
GGGGCCCCTCCAGCACCGCCCCTGGGGACTCTGCCTTGCCCACTCTACTCCAGCCACTCAGGCTTCCTTCTGTTCCTTGAAACTCAGCAAGCTCATCTCC
Celera SNP ID:            hCV29225892
SNP Position Genomic:     12480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Gene Number:                 66
Celera Gene:                 hCG18025 - 79000075537942
Gene Symbol:                 PBEF
Protein Name:                pre-B-cell colony-enhancing factor
Celera Genomic Axis:         GA_x5YUV32W188(3447017..3496341)
Chromosome:                  Chr7
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12226):
AAGGGAGTGCTTGAAAAGTTCAGAAGAGAGAAGTGACAACTGAGGGAAGGGACCCAATGAGACTGGTGGAGGTTGGGGAGATTAACCTGGGGCAAAAGGA
GGAACATTTCGCTTCCTGAGCCAGGAGAAGAAAGAAAACAGTGTGTGTGGAGCCCTGTACCTGTCAAGGTTAACCAGGTCATACTGTGGCAACAATCCCA
CAATCTCTGTRGCTTACAACAGAAAAGATTTATTTCTCTTTCATACCCGTGTCCGGAACCAGTTGGCTCTGACTTGATTCCATGTTGTCCACATTTCAGG
ATTTAAGTGAGAGGATTGGCTCATATCTGGAATACTGCAGTCTTGGTGGCAGAAGGAAAAGAGAGAATGCCAAACCATGCACAAGCTCTTAAAGCTGCTG
CTGGGAAGGGAAACACACCATCTCGGTACACATTTCATGGCCGAAGCAACTCCCACGATCATGTCTGAGTTCACAAGAACAGGGACATAGAGAGGGGCTG
TGAATATGGAGAACAACCCAGTAGACAGGGGCTTTGACTTTGGGCAAAAAATATAATCTACTACTGGGCCATCCTGCTTTTGCCGGTGAAAAAGTTGCTC
CTTCATTCACTCAATAAATATTGAGTAAGCCCCTACTTTGCACCTGGTGCTACACTTTTCTCATAGACCTCTAAATAAGACAGACCTTTGGTCTTGTAGA
TATTACAATTTAGAGAATTTCCACCTGATGGCCTTGGTTTTTCTTACTGGCATAGGGGACTACATCATCTGCCAAGAGAAAGTTGTTTGAAGGTAAGGAG
TTTGAGGAGAGAGGTAAATATTTCAAATCACCACTAAACAAAAAGAGAAGGAAAGCTGAATGGGGGAAATAAATGGATTGCCTGTCAGCATTACATGTGT
CACTATGGTTGGCAACCTCATGGCTATGTTCCCTGTCAGTGCTCAGTCTCCTGGATACTCTAAGAGCAAAAAAGGTAAGGATCTGGGGGACCGGAGGGCT
AGGAGACACAGGAGCCAGAGATGATGTTGACAATACGAAGTAATACGGTCGGGCTAGGTAATAAGAAAGGAAGGAAAGTCATGTGGGCAAATGCTGAGCA
AGAGACAAAGGTCTTGGGAGCTAAGATTAGGTGTATTGGGAGGGGAGTGAGTGACCTAGAAAGGCAGGACGAACTGATCAAGAAATGCATTGCTGCAGTT
CAAGGTTTCACAGGTGGGGCAGTTCTTGATCTAGAAGAGTCCAGGGTGTGGAAGCTGGGTGGGGACTGGTTTATGATTATTCAGGTCTTAATTGTTCCTG
AGACACTGTCCCTGTAGTCAAGGGTTATGTCCATGTGCAGCTTTATATTAATTGACTCGAATGCTGAGTTTCCTGGGAATAATGAATTAACTACCTATCC
TGTTGTGTCTCCCCCTCCCCAATCCAGACCCCAGTCATTTCACACTTGCTTGGAAAAAAGAGCTGAGAAAAAGATAACATTTCTTTTTAAAGTCCTCCAG
TGCTTCTTTGTATGGTACTGTCTGTATACTAGGTGTTCATACATTCCTCCTGAATTGAGTCACATTGAGATTGTTCCCTTTTCTGCTTCCTACTCAATAG
CAGGATTTTTCAGACTCCTTTTGGCATCTGAAAACATTCAGCAACTTCAAGAACTGTCCTTCCTTGGAGGAGGGCAAAAATGGTGCTCATCCCCTATCAY
GTAAAGCAACATGGTAACAACACAAGGTAAGAATGGAAACAGAGGAAACAAAATGGGAGAAGAGGGGAAAATATTTAAAATGATTACAAGAAAATCAGTC
TTTTTTAGTTCAGTTTTATTAAGATCTAATTTATATGCTATTCACCAACTTTAAGCTTAGAATTCAGTGAATTTTGACAAATGTATACAGTCGTATAACC
ACATATATCATTCTCATCACCCCAAGAAGTTTCCTCAGACCTGCTTGCAGTCATTCTGCTTCTCATAATCCCAGTCTCTGACAACCACTGATCTGCTCTC
TTTCATTATAACTTTGCCCTTTCCAGAATTTCAAATAAATGGAATCAGACATATAGCCTTTCATGTTCAGCTTCCTCAAGAAAACCAGTCTTATATGGAG
GATGTGAAAACAGCATATAGGTTAGGGAAAGGTAAGAAAAAGAAATAGTAAAGTTCACCAGTCTGAGTGCCCACCTCCTTCAGCTTCATCCTAAGTAATA
ATACCCCTCCCACAAAAAATCAGGTTTTATGTGCTAGTTACATTTTTAAATACTCATTAGAGGCCAAAGGCAGTGGCTTATGCCTGTAATCCTAGCATTT
TGGGAGGCCAAGGTGGGCAGATCACTTGAGGTCAAGAGTTCAAGACCAGCCTGGCCAGCATGGTGAAACCCCTTCTCTACTAAAAATATAAAAGTTAGCC
AAGCATAGTGGTACATGCCTGTAGTCCCAGCTACTCAAGAGACTGAGGCACGAGAATCACTTGAACCTGAGAAGTAGAGGTTGCAGTGAGCTGAGATCGG
ACCACAGCACTCCAGCCTGGGTGATAGAGYGAGACTCCATCTCAAAAAACAAACAAAACAAAACTCATTTAAGATAAGTACATAATTATTAAAGACAAAT
TTCATGTACATCAATGATAAGCAGACCTCACTTAGGAAAACACTGATTTCAAAGCTCTTGACATTCCTATATACTTCAAACGGTCTTATTCTCTCAGTCA
TTGATATGGGCTAGCAACTCTTAAATTTGGGCCATTAGCAAAATTTGTAAGTAATGATGACATTGGAATCCCCACATGTGGCATCATAATGTGCATGTTT
ACCTTACTTTTAAAGGTGAATTTAAACCTTTTATTTTTGTTTATCTTTATTTCCCATTGAATTTGGTTGGAATTAGAAAAATGTATGCTTGAATATAATG
GAAAACAAAAACACAACTAATAGAGACGGGAAAATCGAGACTTGCCATGCAGCAAACATAGATTGCGATAGACGTCCTGTGTGAAATTTGAAGACAGTTT
CAAGTCAGATAGATGATCGACTCAGCATTGCCGGTTAGGAGAGTGCAGCACAGTCAGACCACAAAGACACCATAGAAAGGGCATAATTACATTTTGCAAT
GGAATGTCTGTGGATAGTCTATATATGTGCACTCATTCTTACTGTGTGTGGATGACAGTTGCTCTATCATTTTTGTACATTTAGACGAGGACTCCATAGT
TTCCTGTGCCTCTCTTTGTGTGATTGTACAGGCTTAGCCGACTGAGTCATTACAGAGTGTAACACTGATAAATCATTGAATCTGTGAAGACCGTGTCTTT
CTGTGGATGAGGCCTTTCCCTAGGAAATTAAAACTCTGGGAGGTTCCCAAAGGGCCTTGGAAGTTTGAATAAGAAAAAAAGTCCAAGTTTAATTTTTAAA
AGCTCTCTTTTTCACATTTGTCTTTGTGACAACTGTTGCTAATTGGCGAGTCTAGAGGAGATTATAAAGGGAGATGGATAAGACCATCGTCAGGGGTTGC
AGGTAGGTGAGTTCCATACCTACTTCACCAGTGTTTTTTACTGAGGTCAAATCAGGTCAGATTGGAGTATCTGAGGCAACTTTGAAATATAAAGGTGCAC
CCGAGGCTGTCTGCAAGGGTGTGTGGCAACAGGAGTGGCACAGATACACTCACTTTGCCTGAACAAATATATGAGCCCTAGGTCTTTCATAGCACTCTGA
GGGAGGGAGACAAGGAGCTGCATGCCCAATTGGCAGTGCCTGATTGCTATTTGGTAGGATGGTATAATAATCCAGGGCTTTGAATCAAGTGAGGGGGCCC
ATTTGAGTCTATGTGTTATTATTTGTCATGTTGTTGTGACCTATGAAAAACAGTTTCTCAGGTCCTCTACATGCTACAACCTCCCCGGGCTCAGGCAATC
CTCCCACGTCAGTCTCCTTTCAGAGAAGCTGGGACTACAGGCACATGCCACCACGTCCAGCTAATTTTTGTATTTTTTGTAGAGATGGGTTTTCACCATG
TTGCCCAGGCTGGTCTCAAAATCCTGGGCTCAAGTGATCAGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTAYAGGTGTGAGCCACCACGTCCAACCTTA
ATGCTAGCTGTTAAACTGTCTTTCAGGGGAGGCCATTTTAAAATGAAATCTTGGCTCTGTTTTCAGTGATAATTTCATAGTTCTAAACCCCAATTAATTC
TGAATTGCTCCAGCTTAAGCATGTAGTTACATAGAGAATGTGCCTATTTCTATCTCAGGCAAATGGTGATTGTCCTATTGGTAACATGACTTCATTGTCA
TTTTTTTTCTCTGGAGACTACTGTGAGGATTCACATTACTAATACTTGTGCAGGCCTCACTCCTTAATTTAACAAGCAATGTCAATACAATATTTTTTCT
TTGCACAGATATAAGACCTTTTTATTTTAAAACTGCAAATTCAACTCAAAGATTGCAAGATCAAATTTTGCATCTTAAAAAAATACTACCATAAACAAAG
CCCACATTATAATCAGAATCCTACTTTCTTTTCTGCATAAAGCAGCATAGAACAACGGTCATTTATAGATACATGAATTCCAGGAAGCTAAACAAATAAG
AATTTGTACTATAAGTAAAGTAGGTTATATAAATTTTAAATGAAGGAAAAAACACCAAATTAAGGACAAAAATTATCTTTTTCCTTCTTTGAATTGCACT
CCTTGAAATAATATAAAAAAACTCCCAAAATCAAATATTAAAAAATAATTTGTTTAGGCCGGGCGCGGTGGCTCACGTCTGTAATCCCAGCACTTTGGGA
GGCCGAGGCGGGAGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAAGACGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCGT
GGTGGCGGGCGCCTGTAGTCCCAGCTGCTTGGGAGACTGAGGCAGGAGGATGGCGTGAACCAGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCAGCCACT
GCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAATAGAAATAATAATTTGTTTAAATGCGTTTACAAATAATTTTCCCCGGTAAAACACAGGG
AAGATCAACCAATAAATACATAAGCCCTCTTGTTTCAAACCTCGTTGCTGAAAATAATTGTAAGTGTACTAGTATTTACTACATTGGTGAGTGCCTGGTG
ATACCTTCCACTTCCATGATCTTTGCCCTGTATTGTATCTACGTGTAGATGAGGTGATTGTCAAAAATATATACTGACTTCAAGACATAGTGTTGACTGA
GGTTGTCTTTATTAGAAGTCTCAGCCATGCCTCCAGTTTCGAGATGAATCTCAATTCACAAGTTCCACTATGAATCTCAATTCACAAGTTCCACTACCAC
CACCACCATCACTGCCCCCAGATAGAATGAGACTTCTAATAACTTGAAAGACAAGTCTATAAATATCCTGTAATCGTTTTCACTGTATCACTTTTTCCTG
GCTACTTTTATCCGATAAAAACCTCAATTTATTTTTAAGCTATTAAACATGCGGACAAAGGGAATCTTAGTTTTATGCAAAAACGCAACCACGCATGAGA
ACTGCGCAAGTCTTTCTTGGAATGGTCTGTATTTGGGTGAAGTCATCAGACGTCATTACACTTCTTTATTTTGGGGTTGCCAACTCGTTTCCCAGGATTT
AAAGACTATAACGATGATAAAAGTCAGTGTCGCACCCTGTCAAAGGCTTGGCCCGTTGCCTTTTCCTTCCCGGCAATACTCGGTTCAATTAGGTCTTGTC
CCCTCATTATCTGTGAGGACTGAATTCCACCCCCGCTTTTCAACGCAGGCTCTTTGCTCGGGAAAAGTCAAACCATCTCTCAAAGGATCAAAGAGCTCAG
CCATAGACAGAGCCGCCGGAGGAAAGCGGAGTCGCTGCATCAGATGAAAGGGGCCCCTCAGCCTCACTCCTCACCGCAGCTCCTGGGATCTTAAAGACAG
GGTCAGGAGGATCAGGAGGGACAAGAGGGATGGAGGCGAAAGGCTGGATCCTTAATCCAGGCCGGAGACAAAGGTGAGTAACTGCGCGTGGTGGACGGGA
AGATGGGCAGTAGGAGGCTCCTCGCCCCCTAGCCGGGTGGCGTGACTTCAGGAGGACCCAGAAAACCGGCCAGGACTGGGTAGGACGGAAGGTCCCAGGC
GGGGCGGGCGAACCGGCTCCTCGTGGCACTGGCAAAGCTGGGAACGCCCCCTCCAGGCCCCGCCCTCCCGCGCCCGTGCCGGGAACTCGAACTTAGGTAA
GCGCCCRGGTCACGCGCCGGGGCTGCCCCGCTGCCTCCAGCTTCCCAGAGCTGGCGTCTGGGAGGAAGAGCGCGTGCATCACGTCCTCCTCCCCGCCCCG
CCTCCGGCGCACTGCGCACGCGCTGCCGCGCCCCGCCCTTTCTCGGCCCCCGGAGGGTGACGGGGTGAAGGCGGGGGAACCGAGGTGGGGAGTCCGCCAG
AGCTCCCAGACTGCGAGCACGCGAGCCGCCGCAGCCGTCACCCGCGCCGCGTCACGGCTCCCGGGCCCGCCCTCCTCTGACCCCTCCCCTCTCTCCGTTT
CCCCCTCTCCCCCTCCTCCGCCGACCGAGCAGTGACTTAAGCAACGGAGCGCGGTGAAGCTCATTTTTCTCCTTCCTCGCAGCCGCGCCAGGGAGCTCGC
GGCGCGCGGCCCCTGWCCTCCGGCCCGAGATGAATCCTGCGGCAGAAGCCGAGTTCAACATCCTCCTGGCCACCGACTCCTACAAGGTAAAGCTCGGGGC
CCGGGCAGATGAGGAGGAGCGGGGCGCGCTGGGGACGAGCGCGCGGCAGGGGGGCGGGGGCGGCTGGGGCTGGGGTTGGGGCTGGGGCTGGGGCTAGGGT
CGCGGCGCGGGGAGGCCCGGGGGAGGCGCGGGCGGCGGCGGCTGGGGCAGGTGAGGAGGCGCCGCAGTGGGCAGGAGGTGGCTTGAGGAGGATGGAGGGC
TGGGCGGTGGAGGCGGGGCCTGGGGGCGCGCGGCGGCGGCGGCGCGGCGGGGGGCTGAGGCGGGCCCCAGCGGACTCCCGGGCGCCGGTGCTCGGGGCTC
GGGGCTCGGGGCTTGGGCGTCGCCGGCGAGCGCATGCCCTTCCCTGAAGCGCGGCCTCTTGGCCTGGAGCTGGGACCAGTTAGGTAACGGCCCCGGGGAC
CCGCAGTGGAGAGTGAGCGGGGCTTTCCCCGCCGGGCCAGCCCGGCGCGCTCGCCCCTGSCTGGGCAGGTAAGTCTCCCGGGGCGCGAGGTGGGAGAAGT
CCTGGCGCGGGCGCCGGAGCAGCCGCGGTCCTCTGCGGCTCCGGCGCGGAGGACACTCGCCTGGCCCCGGTAGCCGTAGTGGATTCCCCTGTCCCACTCC
GCCGGGCTCCGTTTCAAACTCCTTGGCACCTAGTGATTGCTCGTGCTCCTTATCCCTGGGTGTAGAGGCCGCTCTGCTCTTATCTGCTTTAGGGTCATTA
CAGGATTTCTGTGAAAAGGAAAATGAAACACGAGGATTTAAAGGAACTGTAGTTTTAACCCTAGAGAACATGTGGAGAGGGAAATGGCACAGCGTTGCGT
TCACATGCCCATTGAACACTTGTGTGGGTAGCTGCCACATTCAGTTGATATGAAGCACGCAGTAGTGAAGGGAAGAGGTAAAGTAAATTTTACTTGAGCA
GCATAGTGGTTTGGAATACAGTGGTAAAACATAGTACTCTCATGTTTTTGTTTTGATTCTTTTTTTTTCCTTTGTTTTTAGCCCTCCTCCGATATTCCGA
GAAAGTATTTTRGAGAATTCCATTTTACTTAAGTTTTGTCTGTTTTTTTCCAATCAGCTTAAAATGCTGTTTATGATATTTAGATAGGTTCTTGAAATCG
AGCCAAGATCCATCAACARGTTGTCTTTTAGATGCAAGTTTAAAGTATTGCAAAATCCGAACACTATCAAGTATGATTCTTGAATATTGTCAAGTATACG
TGATAATACCTCAAGTATGGTCCTTTACTTGGTCCTAAAACCTCCTCTTGTGTTCTCTTGGTTCAATCATAGTGTTTTCAAAATTTTAAATAGTGATTTT
AGAATAGCCTCATTCATAGTTTTGTAGAATTTTTTTCTTAACTAAATCTAAAATAACTGTCAGATTTTTTTTTTACATGTTAGCCAAATGTAAAGGGAGG
TTGAATAGTCTAAATTTTAAAAACAGAAGAATGCAACTTCCTTTAGTTTGCAGTTCCTCTAACCATTATACATAAGGAATGTAAAATTACTTTAACATCA
GTTTTCTGGGGTGCTTTTAGTTAGAATAGTGAATTATCTTAAAGGTTTCTAATCTAGTGAGCCATACTTAATTGCACTATTAGAATTTGCACCTATTTAA
TAAATTTTACTTCTGTCAACTTTCAAGTCAGACTGGTGTGTTTTATATCCTTTATAATATGAAACTTCAGAATATTTTCATCTTAGATTTTTCATTTTTT
CCCCAAAAGTCACCTCTAGAGGGTTCAATCAAGTCGATATGTTTTATACCAGTGGCTTACCGCAGTATGCTAAAATAGATTGTGTGTTCCACAGTCACAT
TTAAGTCTTAGGTTTCATTTCCCTTATGTTTTTAGGGGTCCTTATAACCTATTTTACATTTTTGTCTTTTTATCTTAGGAAAAAGGACAAAAATGATAAT
CTTGAGKTTAGAAGTAATGAAACTTATTTAGAAATTACACGAGAATGTTACATATCCTTATCAGTGCTTACAAACTATTGGCCAAAGTTGGGAACTCTAG
TAGTTTCAGATGTGTTGATGAAGAGAGCAAAATATTGTTGATTTCTTCTTTCTAAAACTGAAGAAAGAATAATTGATTGCCTAAGCACTACGAAAGTTAT
TTTGCAAGTAGATGGTATGGTAGCAAGCACATGACAATGGGAGTTTTGTTTTGTCTTGTATCCTGTCAAGAGAGTCCAGAACTATTTGGACCAAAGGAGC
ATTTGAAGTATATACATTCACTTCTGTAAACTCATACTTTATTGTATATAGTAAGGAATTAAGGACACTGACGACTGTGGTTCCTCTATTTTCATCGTGG
TTCTTGTTAGAAGTAAGGACACCGTTTAAACCGCATTATCCATTAGTTATGAAATGTGCTGTCCGGTGTAGGTTGCTTCTCAAAGGGTCATCTGTAAGCT
GGTTATCTAGAATTCAGCATATTTTTAACCATTCATTTAATAAATGTTGGTGACCTATTGGGTATTATAAAAGAAGACAAAGATAAGTAGTATTTTGAAA
TCCAGGAGGGACAGAAGTTGATTTTATAGAAGTTTCAAAGAGCTGTGAAATTTATATATGGTGATTAGGAATTCAAGGCAGCTTTTTTTCAAAAAAAAAG
AAAATTTTGCTTCCTCTAATGGCCAAGTAACAAATTTTTGTTGCTTGTCTTTCACTGCTTCTGAGCGGATGCTTCGGTATTGTCACGGTGGCTCCTGAGT
CAACCTGAGCCTCATGAGTGGGGTACTGTTGCAGCTTGYACCCCAGAGACTGCCTATGCATTCATAAAGATATATGTGACATTGTACATATATTTCAATT
TTTCCATTATGTTTTGTTATATAGGAAAAACTTGAGCMCCATAAATAAAATATATAAATCATGAATATACTTCATAGGGAGATTAATTTAGGTCATTAAT
AATTGAGCTGGTGTTCTCGTTGTGAGTTAATGAAATCTGGTTTAAAGGTGTGGCAAAAGAGATACAAGTCATTAGAAACTCCATGCAAGAGGTTTTAAGG
GAAGAGGCAATATGATTATAGGTGATTTTGCAATTTCTCTCCTTCCCCAAATAACCCAAAATCCTTAAGTCATGTTTATGAGTGAGTATTGCTTCAAAGC
CAAATAGCAGTGAATTATTTTTGGGGGCAACAGACAGATTTCCAGGGTTTAAGAAATCTTAAATAATACTGAAAAGAAGAATCGGTTATGGTTTTTGCTG
TTTCTAGCACATTAGCTTTGAAGCAGCAGAAAGTCTTAGCCAGTGTTGGGCAGAGTGTATCCTCTTCTGATTGCCCTTAGATATTATATAGCTAACATAA
CTTGCCCTGTGACCTTGGGTATGTTATCCCATGTGATCTTACATATACAGCTTATTTTTTAAATGTTGACTTGTGATTTTTTAGCAGTTAAAAAGTATAA
CTGAAAAAGTAAGATAGTAGTACTTGCATTTGGTCATGTGATCCCATTGTGGGAGGAAAGATCTTCAAATCAACCCTAAGACATCAAATCAGCCCTATGG
GACATCTAGAGAAGCATCTAGAGAAAACTAGGCTTTCTTTTCCCAAAAGGATTCTGTTCAACTGAAATATATGTGTCATATCTCATACTTTTTTAAAAAA
ACTGTCATACTTGGAACAAGGATATTTAGCCTTGGGAATCTAATTTTTTGTTACAGTTGGTTGGCCAGCACTCCTTAATGGAAAMAGCTRTCCATCATTT
GACTTAGGGCTAGACCGTTTTTGTTCTAGGCATTAAAATAATACCAGTTACTGTTATCTAGTATGTAATAATTTTTAGAAGTTTATCCTTTCATGAAGTA
AATTAATCACACAACTGAAGAGTTATGTTAAAAGAACTACATTTTTCTGTTTGTGCTTATGTTTGTTTTTTTTTTGAGACGGAGTGTTGCTCTGTTGCCC
AGGCTGGAGTGCAGTGGCACGATCTCAGCTCACGGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCTTGCCTCAGTCTCCTGAGTAGCTGGGACTACAG
GCGCGTGCCACCACGCCCGGCTAGTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCCATCTCCCGACCTCGTGATCCA
CCCGTCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCAGTTCTTTACCACATATGTATTGATGTTCAGATGGTGTTCTTTT
AACAGCAGGAGGGCCATGCCAGTTTAGGAAGCATTTTCACTGGGAAGGTTTGCTGGGATCTTATTAGGTATTTTGTTTGGTTTACATCTACGGAATAATT
TTGTATTTATTGTAGAACCATTTTCTTTAGTAATAGAAGTCAAGTCAGTGCTAAAAAAGTTAACATGATTTAAGAGCTTTCTGTGTTAACTTTAGAATAC
TATGAAACTTTTTGTTAGCGTTACTTAACATTTAAAATTGAGCACTTCATTTCCCTACCATTTGATAGCCTTCCCCATCTCTATAAATGGCACTCTTATT
AATGCAGTTGCTCAACCAAAAATGTGGGAGGTATTAATTCTTCTCCCTCATTATCATCTTCCACATCCAATTTATCGGCGTAGTTCCCCTTTACCTCCAA
AAACACTGGGCAAATTCTCCCATCTAACCTAATAGCCCCTAACTCCTGCACTCTTTGGTCACCCTATAATCCATTCTTATCCACCACTAGGCTAATCCTT
TTAAAAGGTGAATCATGTCATATTCACCCCAGCTTAAAACATAATGGCTTCCCATTGCACTTGGTATAAAATCCAGGCTCCTTGGGGTAGTCTGTAAGCC
TTACATGATCTCATTTCTGCCTACCTCTGACCTTATCGTGTTCTTACTGTCCCCACCCCGCCCCCATACTTTTAAGTACCTACCACATTGGCCTGCCTTC
TGTTCTGTCCCTTATGCCAAAGCATTTCCTGTCTCCTTGTCATTTAGGTCTTGCTCACATGTCACCTTCTCAAAGAAGTCTTCCTGGCCCCCTCTAGCCC
ATCATTCTCTTACATTTTCATAGCATCTATCTTGATCTGAAATTAATATATTTTTTTTCTTCCTTCTTCAGCCCTTATTAGTCCTTTGAAAATAGAGACC
ATGTCATTCTATTTACTTTCTCATCCTCAGTGTCTGAAGTAGGTACAGAGTATGTATTTGTGAATGAAGTATTTATAAAATAACAGTTGATTTGAATTTA
TGMTATATCATCCAATTTTCTGGTGAAGGTTCAAAATGGCCTGTTTAGTAGAAAGTAAAATGAAGAGGACAGTAAGCTAGCAAAACTAGAATCATTATAA
ATCCTTTTGACTACATTGTTAGAAATACTTTCTTAAAAAGCTCTGCTTTAAAAACATTTTCCCATTAAACAACATGTACATATACCACCCCTATAAGTAG
ACCTAAACATGCTCTGTATTCTTCTGTAAACTTGTTGGGTGTTAGTAGATAGTTAATAAATGGTGTTTCTTGGCTAATTACCTGCGAGTTTGCCTAGATA
ACTTAGATGCGTTAGCTATATTCTAAAACGATACTCTTAAGGTTCTCCAAAGATTTTTAGAGTTCATACTTCGTTTCTAATTAAGCAGTTCAGACATTTT
TGTATTTTAAATGGTATTTGTTTTCAGAGAAGGCATTCTAAGTAAAGGTAGGTTTTTAAAGTACTATAATTAGAGAACATAGCTGAAGCTTTAAAATTAT
AAATATTTAATTATTGTCCAGAACTGGAGCTGTATTTGTACAAAGAACATTTTCAGTATACTTTTAGACCAAGATACAGAGTTAAATAGCTTAGAGACAT
TTCCATTTTGCTTTTGACTCTTCGTCTTCTCAGAAAAAGRAAATAACTTGCCTTCTAGTAATTTTAAATCTGATAAAGAATGCATCATTAAGTACCTGAA
CAGTAAGGGTCAAACTGTGGAGAAATAAAACTATGAATCAGACTTACAAACTTGTGCTATAAGATCCACACCATTTTTCAAGTTTTACTTCATCGTGTGT
GCTTTTCTTCTATCTCACTACTTAGTCCCACTAAAGAAGTTGGAGTTATTTACATTGTAAACTGGACATTTTCATTTTTACATACATCTTGGGTGTGTTT
TTAGGTAGAGGTGTCTTTTTCTTCAGTTTCATAAGTAGTTGAGGTAGTGGTCATATTTATTACTACAGACTCATTCATAAATATATTTGTTTTTGCATTT
TAGTGAATTGACATAAATTTCATTGCTGCAGATTCTGTATTAGCTATCTTGCTTAGCTACTTCTTAAATTTTATTAAAGTGGGATCAGTCCCTGGATTCT
AACCTTAATAAGCCCTGACATATACTTCTAGCTTTTGATGAGWCTTCCCTGTACCTTTTAGTATATCACTATCTGTTGTACTTAAGGAAAACAGCTCCAA
GTCTCCTRCTTGACTTAAACTCTCAGATCACTTGTTACTATAAAGATTTACCTCCAAGGTTGTCTGTGTGCTGCATTAGGGGCTATTTTTATAGAGTTGC
AAGTATGCTACCATTGGCAAGGAAACAGCACATTCATTCAGAATCATCAATGGAAATATATTCATCTTAGGATTCTTGTACTAAGCTATGAAGATTCTTG
AGGATAGAGCCAAGTTTTACTGAGATTGAGACTGTGTACCCAAAGACAGCATTGGCTTTCCTGAACTTGAGATCAAAGCTAAACAGGAAAAATGATTTAT
GTTCACAGTGATCACTCATGAAAAATGGTCTGCAAAGATTTATTCCGCCATTGCCATGATTCACCCTGTATCTTAAACCTCAAGGCACTGTTATTCCTAC
TCTTGAAATTGGGCAGATACACATTATTCTTCCACTTTATTTTTTATTGGTAAAATGTTTGAATTTATTTCCATGTTTTAACCATATTAAAAGTATAATG
AACACTCACTTTTTACTTTTTCTTTCTTAAAAGCAGATAAATTTTTTACATGGTGGCTCTTACCCAAGTTCATGGAAAAGAAATTTGTGCTAAGGAAGAC
CTCTTCGTATTTTAAACTCATAAGGATTTGATGTTTAAGAATTTATTTTCCAGTTAGGTGGGTGATTTGACAAAGGGAGATTACAAAACAGGATTTTTTT
TTACTTTGCTGCTTTACTTTGCTGCCACCGCCGTTGCTGTCATCCAGGTTTTCATAGTGTCACTGTGAAGGCTAAAAGTGATCATCCTCAGTACCTCATT
GTACAAGTAAAGTAGTCATGTTAAGTCATTGACTTTTGGAACATACCACATTGAGATATTAGCAGTACCAAATTCTGCTGTCTTTCAGTTCATTCCTTTC
TGTTGTGTGTGCCCATTAGGCAGCTGCTTCTCTCTCTCTTCGCCTGGATGAAGGACTGTTCCCCAAAACCAAATGAAATACTTTTCCAACCTAGAGGCCT
TGTAGTAGATTTAGTGTGCTTGTATGTAAAATTTAACGCTCTCCTGTGGTTTTAAGATACTGAACTCTGAAAATATCTTAGATACTTATTTTTTATTTGG
TATAGCCAGGAAAAGAAACTGGTTAATAGCAAACAAGAAATATAGTTTCTCTGGTTTTGAAATAACTTCAAGCCTTTTCTGTTGTGATTTATAGTCTACT
CATCGGTGTTTTCTAACAGAAGTGTATTTCTTTACATAGGTTACTCACTATAAACAATATCCACCCAACACAAGCAAAGTTTATTCCTACTTTGAATGCC
GTGAAAAGAAGACAGAAAACTCCAAATTAAGGAAGGTGAAATATGAGGAAACAGTATTTTATGGGTTGCAGTACATTCTTAATAAGTACTTAAAAGGTAT
TACTTTTCCTAGTATATTTTAAACACTGCTTATTACTCTTAACTCCTTTAGGAGTTCTTTTAGAATTTTTAACAAATCTGTTAATTTGGATGCATTAAAT
CATATAATTTGGTGTGTGTTTGATGTTCTAAGTATGAGAAAAGTTTTCTGAAATAAAAGGTTTKTTTTTTTTTTTGGAAACCGAGTTTCGCTCTTGTTGG
CCAGGCTGGAGTGCAATGGCATGATCTCAACTCAGCGCAACCTCCGCCTCCTGGTTTCAGGCAATTCTCCTGCCTCTGCCTCCCGAGTAGATGGGATTAC
AGGCATGCACCACCACACCCAACTAATTTTGTGTTTTTAGTGAAGACGGGCTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCTCGACCTCAGGTGATC
CACCTGTCTCGGCCCACCAAAGTGCTGTGATTACAGGCGTGAGCCACCACTCCTGGCCGAACTAAAAGTTTTGAAATAAGTTTAGAAAAGTCATTAATTT
TTGGAGGCTAATCTTGTTTGTTATACTTTAGTCATTAATTCAAAGTAAAGGAGTTGTTAATGAACTGGAAACTCCTTTTGAATTATGGTAGCAATCAGAA
TATTTTTATATTAGCCAGTTTTACCTTGAAGACCTATTTTTAAAAACTACCTGTGTCTCTGGACTTAGTTGCAAATGCATATTAAAACAAAAATCCCCCA
ATTTCTGTGCTTTCTTATTTGAAAGGCCATTTCTAGGGGGAAAACAGTTCCCAAACGCATTATACATGTTGGAAAAGTTTATCTCTAACCTTTTGAATTA
AACAATTTCAGAATTGAAAACAGTAAGTTGAATTTTAGGCCAATAACTCTTTTCTATAATCTTGACTCTTTTAAGATTAGGCAGTTCAGATAGTCTTATA
CTACTGAAAACCTAGCTAGATATCAGAAGTAATTATTAGTGGCAAGAATACCAAAGTTAATACCAAAGTTTTTTTGTTTTGTTTTGTTTTTAGACAGGGT
CTCACTCAGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCTGCCTCCCAGGCTCCAGAGATCCTTCCTGCTCAGCCTCTCAAG
TAACTGGGACCACAGGCTCGCACCACCATGCCTGGCTACTTTTTTATAGTGACAGGGTCTCACCATGTTGACCAGGCTGGTCTCAAACTTTTGAGCTCTC
AAGCGACCCGCCCGCCTTGGCCTCCCAAAATGCTGGGATTACAGACATGAGCCACCACGCCTGGCCCCAAGATACTTTAAACGAGTTTACTAGTTATCTT
GTATTAAGTTACCAGCAACTGATAGCACACTTTAATTTAGTCATACAACTTAAGAACTTTGTAAAATATTACTCATTTTTAATTATAACTAAAATGTATT
GATTACCTATTCTAGGCCAGCATTATTGTAAGTGGTTCGTATGTCTTAACTCATTTTGTCCTCACAAACATCATATAAGTGGGTACTCGACTTTTATCCT
CATTTACGGATAAGAAAAGTTAATTAAAAGTGTGTTGTTTGGGGGGCAGACATTTAGTAATTGTGGAAATTACTGACTTACCAACCCTAAAGATGCCACA
TTCTTTACGAACGAAGTGAGACGTTTCATTTGGATGTAAGAAGCTTTTGAGTCATCTCAAAGTTGAAAAGTACCAAAATTAATCGAGAGAAAAAAATTAA
GTTAATATCATTTTTAAAAGCTGTGCAAGTAATAATTTTTTCTATTACACATCTGCTTTTACAATAAATAAACATTTATACTTTGAGTTATTAAAAGTAC
AAATTCCTTTTCTGACTCTGCTGTTGACTCTGGGTGAGCATTTAACCTCTTAGTTATATTTTTAATCCATAGAATGGGTGAAATAGCCAAAGATATTAAG
TCTGTGACAGTTCAGCAACTCACAGAATGCACCTTTAGAAATGTAAACAGGACATGTATATTCTTCTAGGTAAAGTAGTAACCAAAGAGAAAATCCAGGA
AGCCAAAGATGTCTACAAAGAACATTTCCAAGATGATGTCTTTAATGAAAAGGGATGGAACTACATTCTTGAGGTAAAAGATGGTTTCATCTTTTGATCT
GTTTTGGTTTTTCTTTCAGTTCAAAACTTCTTGCAAAGGAATTTGTTTTTGTTTTGTGTTTTTTGAGAGAAAGTGTCACTCTGTCACCCAGGCTGGAGTG
CAGTGGCACAATCTCGGCTCACTGCAACCTCTGCTTCCTAGGTTCAAGCTATTCTCCTGCCTTAGCCTCCTTAGTAGCTGGGACTACAGGCACGCACCAC
CACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTACTGTGTTGGCCAGGCTGGTCTCAAACTCCTGACTTCAAGTGATCTGCCCACCTTGG
CCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATCCCCGGCCAGAATTTGAATAAGAGATTAGAGTATCATTACAGTTCTTTTTTGTTTGTGATCT
GAATATAATGGCTATTTCATAGCCATTATATATCCTTTTGAAAAGTTATATTATAGCCAATATATCCTTTTGAAAAGTTAAGGTTGACATTTTATCCCTC
TCCCCGCATCCCCCATGTTAAATCATTAGCATATAGAATCTACAGCAAGTCTAAGTAATTAATAAAAATGAATTATAACTTAAATAACATTTTTGAGAAA
GATAATTCATTCTTGAAAATACACTATAGGTAGGAAAGGGCATGGTTATTTGGCAATTTCAAAATGTAGGTCTGTTTTCTTGACTGAAAATAGATGCTGT
GAGTCTATCACTACACATAATTCTGGGAAGTTTCTCACTGTATAGTGAGAATGGCTTGGTGCTGATCCACAAAGTTGATTTTTAGTCTTGATTGTATTAT
ATTTATATCTAGTATGTTTGAATTCATTGCCTAAATATTAAGGCACTCAAAGACATGGTAATAGAATTATAAGAGTTAAATATCCCGTGGTGGTTTCCTT
TTATTACAATGATCAGTTGGGAATGGAATCTGTTGGCGTATCTTGATGTTGAGTGTTACTTTTAAGTCTCACAAACGAAAGTTTCTTACATTGAAAAGAC
TGTCAAACACAGAATAATTAGAAATACTTTAACTTTCATGCCTATATGACAATACTGAGCTATACTATTTGGTACTTATGGGTCTTGAAAAAGTCAGGTA
AGTACTCTGTGCTGCACTTTTCCTGTATCTTAAATAAGGTCAATAGAATCTGTGAGCTATCACCTGTACTTGCTCCATTTCTCTTCTGTGAGGTTTGTTG
TAAGGATAAATACAGTAATAAGTTAGGTACTATGCTTATTACTATACTGTCCAGTGGCCAGGGCAATAAGTCGTTTGATTATATGATCAGAAAATCTTGG
GGAACTAAAGGTTCTCTAGAGATAATCTGGTCTAACCCCATTTTACAAACAGAATCTGAGACCGAGAGATGGCAAGTGACTAGTCCAGGGTCTCCCCGCT
GCTTTTGAGTCCAAACTAGGACCTGTAGGGCAATGTTCTTTTTGCTATACACTGTGCCTCCAGTGCTTGTATTAAACAGATTTTTCTTGTATTTAATTAC
CTTGTCCCAAATCACATAAATAAATTATCAGGATTTCTGAAACAGCTTGCCTTCCTAGTGAAAAGTTAGGCACAGCTCTTAGCTTTAAAAGGGAGGTACA
GTGTCACATAACAAATAACCTTCAGCCTAATTTTGGAGGCAATTATTACATTAAGAGGAAGTCAGTTAAGTCATACTCGAGTGTTAATTGCCAAGATTCT
GTGTTTGGCCTGTCTCATAGTTTCAGGTCCACGACCAGAATAGAGGGAACCTATTTCGGTTCTTCTGCAGGGATTTCCCTAGCTCTCCTTCTCTCTCGTT
TTGTTTTCTTTTGTTCTTTAATAGCAATCCTTTATCTTTCAATCTGCAGCCTTTATTTTGTGAAAATAACRAATTTAGAATAAAGGTAGTGTTCTTGGAA
TACTTTTAGAATATGTTGGAATAAAGTCATCCTTTCTCATTTTCTGAAAAAGCAGGGAAGAAGCAACAGTTTGGTTTTGATGAGTTTGGAATTTTCTGCC
ACTTGTAGTGATAAATGTTCTTAGCAGAAGCACGTGGCAGCATTAAACTTAAAAATTAATATCAGTACGTATGTTAATAATTTTAACTAGTTTTATTTTA
GAAGGATAAGGATATTCTGACTAGATTACAGTAACATCTACAATTGCAATTTCTATGACAGTAAATTTAGCTTCTATAAAACGTAAAGAACCTTTAGTAA
AACAGCAGGGAATTGAGTATCATCTGTTGAATAAATAAATTTATCATTTTATCCTGCCAGAAGTATGATGGGCATCTTCCAATAGAAATAAAAGCTGTTC
CTGAGGGCTTTGTCATTCCCAGAGGAAATGTTCTCTTCACGGTGGAAAACACAGATCCAGAGTGTTACTGGCTTACAAATTGGATTGAGGTAAATTGTTT
TTTTAATTCTTATTTAACATTAATTGAATAAAGACCATTGAACTGAGATTACAGTTTAGAATTTGTTACTAATAAAGCTATATAATCTCCTATAATTTAS
TTAACCTTTCYAGGCTTCAATTTCCTCATCTATAAAATGACAGACTAAATAATCTTTAAGGTTTCTTCTAGTAGAATAGAATGTTCTGAGATTTTGTTTA
AATCAAATTATTGAGAGTGATTGTTTTTAAAACCTAGTTGGCTTTCATCTAATTCATTGCCATTTTAAGTGTGTATTATTTTAGAGCAAACTTAGAAAAA
CAGCACATTTCTAGTAACTTACGACATTCGATGAATGATAAATGTTCAAGTTAGACTAAAGGAACTTTATTCCAACTTCTAGTAACTACTTTCTTCATTT
TTCTCTCATCAGTTTAGGTCTTAGGATCTACCATCTGTTACTTTTCAGTTTCTCATCTAAATAAAACAAGATCTGCTGTTCATATTGTTTAATTTCTCAG
GAAGGGTACATTTTGGGCTTTGGGTTTATACTGCGAGCCTTTTTTTTGTTTTTCTTGTATGTATACCTAAGTAGTCATATGTTTTCACATGGTCAGAGTT
TTGATAATAATACTCTACCTAGCTTCTGAACAGTTTAATAATAGATTTAATCCGTGAGAGGAAATACCCTCGAAAGTTACTATAGAAATAACACCTTACT
ATCTGGTGGCATTTACTTAGTTCTTAGAACTGACTAATTAGTTTATCRGTTAAAGTAATTTGCTATTATATTGTAAAATAGTACATTTGAGGCTCACTTA
TAAAAATTGGAAAACATCGAAATATAAGAGGTCCAAGAGGGTGTTTGAAACACATTTTGCTAAGTTGACAGGAAATTAATAGACTTTTTATGGGCCATTA
ACTAATAATACACTSAAAAAAAAGGTACAGTTAAATAAAGGTTTTAAATAGTCTATACCGTATACTAAAACTAAATTAATATTTAGGACTGAAATAACAT
ATTGATTAAGTACCAGCTATGTACCCAAAAAATGCTGGGCACAGAAGTTAGAGTAAGATGTTTTACTTAAAGGGCCTTTGAGTGAGAGTTGGCAATTCAT
TCTGAACTAACCACTAATATCATTAAGAATTAGTGCTGAGTTGGTAGCAGGAAATAGGTAATTCTGTCTAAAGGAATCATGAAATGGAAAATAAATAAGC
TTTTAATAAGGAGAAGGAAGAGCTGAAGAAATGGCACAGTGTTCTTAGAATGACAGATAGTCCTATGGGGACTGCAGCATAAAAGTGAAAAATGTATAAG
ATAAACCTTTAGATGGTAAGCAAGGCAAGATTCTCAAATTCTGTATGAATCAGCTCCACCTCCGCCCCATGGACAGTAGATGACCGTTAATGGCTTTTAA
GGAAAGATGCAACCTGGAAAAAAAAAAAAAAACTTGTTTTAGAATGGTAACCACTGGCAATATGAAGAATAATTAGACTAAAGAAGAGAGGTAGGATAAT
CATGGGCATTGGCAGTGGAATTGAAAGAGTAATTTCAGAAGCAGAATGGTCAGATGTTGGAGGTGATTGGTTATAGAGTTTAAGAATTGTACTGATTTTC
TATTGTGTAACAAACTACCCCAAAACTTAATGGCTTAAAGCAACTATTATTTCTCCTGATTCTGTGGTTGACTGGATGGTCGTCTGCTGCTCTTGCTTAG
ACTTAGGCATCTGCATTTAGCTGAGGGTTCAGCCAGGGCTGGACATCCTTTAATGGCCTCATTCCCATGTCTGGGGCCTCAGGTCAGATAGCTGGGACTA
CCGGGTCTCACTCCAGAAGAGGYTTCTTCAGAGCATGGTAGTCTTGGGGTTCTAAGAGAATGAGAGTAGAAGCTGCAAAACCTCTTGAAACTGGGGCTTG
GGAGTCACACATGACTTTCTCCACATTCTGTTCGTCAAAAGCGAATCATAAGGACAGCACAGACTCAAGGGATAAGAAAGGAGATTCCATCTCTTGATGA
GAAGAGCTGCAAAGGCCATATTTAATCAGTCACAGGAGTCTAATGCTACAAAGTAGTTTTTTAAAAAGATGACTAGATTGGCAAGTTCAAGGTTAATCTT
TTTATTTGTTTTATTTATATATCACTTAGCTGGTATTCAGTAAAAGCTTGCTTTGTAAAATTTAGTTAATATCTTTTTGGTTCAGCACAGACATTGCATC
ATCTTAGCAGCTCTTTTTCAAACAGATTTGAAGCTGCTTCAAATAACAATCTGGTTTATAAAATGAAAATAGAAAATTATGATCTTAGAATGAAGAARTG
AATTTCTAAGCCATGATAATTATTACGGTTGCTGTGATTAGACAGACTTTTCTGTGGAGCTTCCTGACAACCAAGAAAAAAGGGGAAATCAAGGAACTGT
TCTTATCAGAAAGTAGGAACCCAGCAATTCTTTCATTTTCTCATTGGGAACTTAATAGTCACTGAATTACAAAGTAGACAGTGACCTTGATTATACAACA
TATGCGGAAGTGTTTCCTGTAACTTACGTGAGTATTTTATCAAATACTTATATATYTGATAAAAGCTAAGTACATAAAGCATAACTCAGTAGATAGAATT
CTCTAGTAGTAAGCTAAAGTGCTTCAAGTATTAGTTGTCATATTAATCCAAGAGAAAATTAGATCTGAGACTACCTCGAGGAGTAAACGAACAACTTCTT
TAAACCAATACTAGTCAAAATGCAGTCCACGGACCAATGCTGGTTCATGCCCTATTTGATCCAAGTCCACATTAAGTACAGAAATGAAGAGTAAGCATTT
AGAAACTTGGGGCAATTTGACATTGCCTCAACATCCAAGTTTCAGTGTCCTTTATAAACTATTGATCCATGACAGATCATGAAACTTTCTAAAAATTGAT
CCWTTTATCACATAGTCTTTCAAAATATTATTTGCTTCTTTGAAGCTTTGGATAGAAACTTGATAATGTGAAGTTCTCTGCTATGTGGACCTGGTGTGCT
TATCTTCTTTGTTGCTGATTTGAGAGCTGAGCTATGTACTATATCTGGAATGCACACAGCAGGCATCCTGCTGYGCAGTTCTGTGTCTAGTTAATAGTAT
GGAAGTTCAGGACATACCTCCAAAAAAAAAAAAAAGCTAGGATTTTCCTCAGAAAGAATGCAGTATTTTATGTCTTAATATTTGTGGTTAATTTTGTTAC
TACAGACTATTCTTGTTCAGTCCTGGTATCCAATCACAGTGGCCACAAATTCTAGAGAGCAGAAGAAAATATTGGCCAAATATTTGTTAGAAACTTCTGG
TAACTTAGATGGTCTGGAATACAAGTTACATGATTTTGGCTACAGAGGAGTCTCTTCCCAAGAGGTAAGTAACTGAAACCAACCTCATTTAATATAATGT
GGATTGTTGGTTAGAGTACCACTGTAAACTTTTGGGGACGTTATTGAGATTGATCTTGGTTCTAAAATTCCAAAGATTCAACCAACAGATACATATTCAG
TACCTACTACTGTGTTCAGGGTACATGGGATATGTCCTTCAACAGATGTCCCTGTCCTTTATATATTAGATGGATGGACAGATGGATAGCCAGAAACAGA
CATAATATATCAGATGTGAAATAATGCCATAAAGAAGCTCAAGGCAGGGTAAGGGAAGAGAGAGTGATGAAAAGTGGGGGTGGGACACTGTTAAATAGGT
CTCTTTGAGGAGATAATAGTTGATTTTTTAAAATATTTAGGAAAAACTGAATCTTTGTCATTAGGAACTGTTATGTCTGACAATAAATACTTTCCTAAGA
GAAAGACAATTCTTATGGGAGCTATGCTATATTCCTTAAATGTGGTTGGCTGCATCCTGGTATTATTAATGTGGGTTTCTTTCTGTTTTGGATTTTGGTT
TATGATTGATTTTCCAGACTGCTGGCATAGGAGCATCTGCTCACTTGGTTAACTTCAAAGGAACAGATACAGTAGCAGGACTTGCTCTAATTAAAAAATA
TTATGGAACGAAAGATCCTGTTCCAGGCTATTCTGTTCCAGCAGCAGAACACAGGTAAAAAATTCTGTTCATTTTTTAAAACTACTAATTTTTTCACTCT
TGTATTTGTAACTCAGTGACATTTTACCTAACTGCAGAGCCAGGTACCTACAGTACATCTTCATGAACTTGAGCAACACAAATTCAGTATTTATACAAAA
GTATAAACATTAGTCTTAGAGAGGCAGAGAAATTTTATCCATGCTAGAAGAAACAGTTTAAGAGCTTTTTTCCAATACTTATATTGCCATAGAAGTTTTC
TTTTAAGGAATTTTTTTTCAATTACTGTATTGTCATATGTAGGTAGATTTTATTCATTAAATTTAGAAGCACTCACTGTAAGTACCAGCCACTTTTTGCC
TTTTCCCTGTCCTCCTACATGACCTTATCTATATTTGCCCTAGAAATTGTCATCTGTACTGTACCTTCAGTTGTAGATGAGAAAGCAGGACCTGTTGAGG
AAAGAAAGGGTGTTCAGATTCTTTTTACGCTTCCTTGTCTGCTTTCAGTAAACTATCTCCAGTTACCCAAGAAAGAAATTACAATCTAAACTGCAGCTGC
TCTGGTCCTAGAGCTAACTTTATTAAAAGTAAATCAGGTTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCC
AGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAG
GCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGTCAGGATGGTCTCGATCTCCTGACCTCGTGATCCG
CCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCGTAAATCAGGTTTTTTAAATGTTTGCCAAACCTTATCACTGACTT
TTATAACAAAATTATTTACTATAATCATTAGGGAATATTTAAGTTCTGCTAATACTTAAAATTGCAGAGTGCTAAAACCAGCAGTGAGTTTAGAATCAAG
CTAAGCTTTATTGTTGCTACTATTTGAGGCATATTAGTTGACTGGTGTTCATATGCAAGGCAGTCTACTGGGTGCAACAAGGGTTAGAAGGATATTTTTA
AAAAACTGACCCTATTCTCAGGATGAAAATAATACACTAGTAATAGTCTGCTCTGTTGGTTAACTCCTCGTAAGGAGGTACAATTAAAATGCTGTAGTGT
TGCAAGGGAAGGAGAGGAAGAATCATATTCCTTCACTAGCAGGATCAAGAAAGCTTTTATAGAAATATACAAAATCTTCACTTCTTGAAGGATTGGTAAA
ATTTAATAGCCAACATTGGGCACTTATTCATTCTCTGAGTAAATATTTATTGCATGCTTATCTTGTATCAAGCATTGTGATGAAAGCACAAGAATGAAAG
AGGAGGGAGAATGTTTAGAGAATAAGGGCTGAAACACAGATTTTGTAGGGAGCGTAGGGGAGACTGAGAAGACAGGTTCAGGTTAGTAAGGGCGCTCATA
TTTTGACACTGAATGTTAACTATGTGCACATCATGCTAGCTATTCTAAATYAGGCATTTTCAAATGGAAGCAGGCACTGACATTTTTGAGCAAAGACGTG
ATGTTATGAGATAAATATCTTAGGGGACTTTTTTATATTTTTATAGCAGGATATCTATCCTATGGATTGAAAAAAGGAAAAATCAGAAGGTAGTCTTTAT
AGGAAGCTATTCCAGCAGTCTTAAGGTAATGAAGTCCAGACCAAGGTGCTAAATAAATGGAAAGAAATAGGTAAACATGAGCAATGGCTTGGGAGATAAA
ATTGCTCAAAGTTGGTAATTTGAGTTGGGACTCAGTAGAAAATAGATTCAGCTGACGTTTATGAGCATTGTWTTAGTAAGGCCTTGTTGAACACTTTTAC
ATACAACTTTCAAGACTAGGAAACTGGGAAAATAAGAGTGTCTTTAACAAAGTTTTAAGAGTTATTTTTAGTTTGGCCTTAGATGTACATACATCTTTTA
AAAATCTAACATAGTATGCACATATTAGACTCTTCGTTGATGGTTATTTCAAAGTAGTAACATCATGATACGGAGGACAAGGATAATATCTTCTTTAGGA
CTTGTTAAAATGAAAAGGATACTGTATGTGGGCAAGGGATAAAAATCCATTTTATTTTTATGGTCTCATATTGATTGCATTTGTAAAATTTGACTCCTTA
TATATTCAAATGCCTCACRTGTTCTTAATAGAATGTCTTTTAAACAACAGCGTAGTATAGCAAAAAGAGGATTGGACTGAAAGTTGGGAAACCTGGGTGA
CCTTCCGGCTGACATAGTGGGTGGCCTTGGGCAAGTCACTTATCTCTCTGTTCTTCATTTCTTCCATCCAACCAAACAAAAGGAGGAGCTAAAGTTTTAC
ATCTCCAACATGACAAGGTCATTGATGATAAATGAGCTACTATCTAAATAACTTTAAAATAAGAGAACTCTATAAATTTAGAGGTTTACCATTATTGTAT
GTATCTTAATAGATGAATCTGCACCTAAAAATATTTAATTACAGAAGCTTTTTTTCTCAAACTTTGGAAAGGTATCAAATTTAATTTGGTGCTTGAAATT
AGGATTTATGGCATTGGTAGAATTCATTGATTATTTATGATCTTCATATATCACATACTGTACTAGAAGAATAGAGGTTATGATTGGACTAGACAGAGAG
TGCCAGAGCAAGTATCTGTGGGATGCTGAGATGAAGATATTCAACTTTCTATCTAACAAAGTAGATCCAGAGCCTGGAAGAAAAACAGAGGCTAAGATAC
AGATACTGGAAACCCTCATGCAGGGACTTTTTTTTTTTTTTTTTTTTTAAGCTTTTGAGTGTTTCACACAAGGTATGTTACAGAAGACAAGTGCCTAAGT
CAGAACTATGAGAAATATTGCCATCTGACAGGTTAGATTAAAGAAGGAGAGCACAGCATCTGGGAAGACTGAAAAGGGAACCATAGAAATAGGGGAAAAA
AGGTGAAACATGGGAGATGTCATTGAAGTCAAGAGAAAGAAAGCATCAGGAAAATTCAGGTGTCATGGAGAAAGCAAGTAAGATGGGGACAGTGAAGTTT
GCTAGACATGATACAAGTAGATCGTTAGGTGACTTACTGATACAACGTTATAAGTAGTGACCCCTTAACTGTAGGAGTTAATTCATACGTTGTAAAGTTC
TCCAGTATTGGTATTCATTGATCTTAATTCTCTCCTTTTTAAAGAGAAAAGTTGCAGACCTGAATATGAAGAGGAGCTTCTCTTCAGTCATATCTTAATT
TTCCATTTAGCCTACAGATGCATGAAGTAGAGAATTGACATCATAGCTACTGGCAGCCTCTGTAGCTGTTAAGAAGAGTGTTCACTAATGAGTTTTATAT
AAACAGGTTCTCTCTCAATTTTGGATTCGGGTAGTAGTCTTTACAATCTTGAAATGTGCATGCTGCACTACCCCAGGTATACCATTGACAGTATGGGGAA
AGGTTCTAAGTCTAGTCCTTTAAAAAAAAAAACACACACACACATTGTATAAAGTGATTATTTCAGACATAAAGTCTGACTCTTCAAACAGTTATGAGTT
AAACTTATACCTACTTGGGCTTTATAATAAATGAATGTGCTATCTTTTTATTATTTACTGAGGAGAACAGATTAGAGGCGGACTAGAAAATTAGGGAGAA
TGACCAATTGCTTGGCATAATTAAATGGTAATTTTCAAAATTAAGTTGTTTGAGATCTTTTAAAATTATTTACATTATATATTAACAAATATTTACACAG
GTTGAGCATCCCAAATCCAAAATGCTCCAAAATCTGAAACTTTTTGSTCAAAGGAAATGCTCATTGGAGCATTTCAGATTTCAGAACTGGATTTCAGATT
TCAGAACTGGGGATGCTTAACTGATAAGTATAATGCACATATTCCAAAATCTGAAAAAATTTGAAATTCAGAATACTTCTGGTCCCAAGCATTTCAAATA
AGCGATACCCAATCTATAATTACATATTGAATACAAATCTATCCCGTAAGAACTGATATTAAGGACATTGCAAAAATCACTATAACCATTCTTATCCAAT
AGAAACTCTCATACTTTATTTTCCATCTTAATTATGTTTTGCTTAAACTAAGTATTTGAATTCTTATTCCCTGGGCATATATTAATTCGTAGTAGATAAT
CTGCAAACAAAATACATGACTTCCTATTACTAGCCACTTGAAAATATAACAGGTAGTTGACTATATGTATGTATGGTATAGTATAAATAATTGCCTCTAA
GTATAAGATTTTGAAAGGTAAAAAAACAAAATGTATGTCTGTACTATTATTGGTATATAGTTTCAAAAATTCACAGAAGGGAGCCAGGTGCTCTCATTGC
CTAACAAAATAATGGAAATATGTATTCATTCTAACATCTTGACATACAGTATAAAGGGCACTCAGCAAGTGCTTTTTAGTTAGACTGATTTTAAATGAGT
AGATTCAGGAATACCAGAAAACACACACACACACAGATAATTGGTTGAAAATACGAGGTTAGAAACTTAACCATTGAAGAGGAGTAAGGCTACTTAAAGC
GTTAAAAACTAATTGGGTAAGGTATGGTTGACCCAGCTACTTCATTTGCCTTACGATGTATATTCATTAAACTAAGTCACTCACCTTCTCTGTGATGTTG
ATGGTTTGGTAYAGTAAACATGAGATATGATTAAAGGTGATTCAGGGATAGATCAAGTGTCTGCCTAAGTAAATCTGTGTTTTCATTTTTTTTTCTAGTA
CCATAACAGCTTGGGGGAAAGACCATGAAAAAGATGCTTTTGAACATATTGTAACACAGTTTTCATCAGTGCCTGTATCTGTGGTCAGCGATAGCTATGA
CATTTATAATGCGTGTGAGAAAATATGGGGTGAAGATCTAAGACATTTAATAGTATCRAGAAGTACACAGGCACCACTAATAATCAGACCTGATTCTGGA
AACCCTCTTGACACTGTGTTAAAGGTAAATTTTCATATGTAACTTTATTATTAGAATCCCTCTGTAGGCCAGSTGCATCAATACTACTTTTCATTTATAT
ACACACAATTTCAGAGCTGTGTGGACCAGTCCCCTTTATTTTAGAGTTGCAGCCCAGAGAGAGTAATAGATTTGCCTGAGGTCACACAGTAATAGCACAG
AAGGATACCAAGACTTATGGATTGTTTTACTGTCAATTAGACATTTGAATAGATATTTTGTTTTCTGCTTACCTGCAAAATTAATTAACAGCATTGCCAT
TTTAATTAATCCTATGATTTGGGCACCAAACTTATTTGCAGTTTGTTTCTTTTTCAGCATAAGTCACTGCTAGACCTTTGAAGTTGTTAGCACAGAAGAA
ATAGGAACAGGGTGATGTGGAATAAAAATAATTCAAAAATACTCTTCAAGTGGAGGTTCTTTAGAAATACTGTTGATTCATAATGTAGCAGTGTTACTTT
TTGTTGTTAATGTTCAAGGACTTGGTTTATCTTCTTCAAAAAGTAGTAATAGCAGGCTTATTTGATGCCTACTACTAGAAAAATATTTTAGGTGATTTAC
ATAAGATACGCCATTTAATCTCTACAAAAAAAAACAGTGATAAATATTACTGTCTCTGTTATAGAAGAAAAAAACAGAGGCTTAAAAAGGTTAAAGTAAC
TTGCTCAAGGTCACACAACATGAAAGATAAGGAGTCAGATATCCAGTGTAGGTCTTTTGGCTGCAGCCTTGCTACTTGACCACACCATTTGTCAGTTAAT
GAGCAGATGATACTTACCCCTTAAGAAAGGGAAACAGAATTAAGGAGGTCTTTTCTTATTCTATTAAATGATAGGCCAATCTGAAAGTCTTGTCTTAGCC
TGCAATATTTGGTTTTAGCAAACTTGATAGGTTTCATGTTTTTACTGTTACGTAATAAAMAATGTACACAGCTAGTTATGAGAAACTGATTTCATCAATG
GGGAATTTTCTCTTTGTTAGAATCTTTAATCAGTTTATTTAGGAAAAAGAAATGATTGTTGTGGGAAGAGAATGTATTTCTTTTGTTTATATGACCAAGC
TTTCTGAGAAATTTTAATTTGGTGTACAAAACTTTTAGTAGTTAGTGAATGAGTAAGATGATTTGTGTATTGTGCAGTTTGGCTTTAAGAGCAAAGGAGA
ACTTAGAGACTATGGGTTCTAGATGCTGTGTCTGCCTTTCACAGTTTCTCTGAACTTTGTGATTGAACTGGATTCATATTGGAGTTATATATCAGACAAA
AACCAAAGTCATTGGGCACAAGCAGAATAAGTCCAAATTAAAAGTATAATCATGAGTTTGTTAAATAATGCTTTATATACTTCTTTAAAATATACTTATT
TAATATTAAGGATTTTTTTTTCCTTGAATCCATATAATTTGAAAGGTCTAAGGGGAAAAACTTGTTTTGAGCCACTTTATGATGTGAATTCACTTCATAG
GAAATAACATGCTTGTTTTTAATGTACTTTAACCCTTTAAAGTACACTGGACCAAATTTTAGAGAGCATATACATAGTGTTATAAAATTTTTAAAGTAGT
TAATTTTTATATTCTCGATTATCAAAGCAAAATCATTTAACTTTGAAAAGCTCTTATACTTGTTTTCAGCTTTAGTTATTTGTGTTGCATGTGTATTTTT
CCATATAGGTTTTGGAGATTTTAGGTAAGAAGTTTCCTGTTACTGAGAACTCAAAGGGTTACAAGTTGCTGCCACCTTATCTTAGAGTTATTCAAGGGGA
TGGAGTAGATATTAATACCTTACAAGAGGTATGTGTTTTATATTAAAAGTTTCAATAAGGCATTTCTTATAATTAAGTTYGTTTATGTTTGATAAAGAAC
ACAATATAAATACAATTTTAAGTCTTTGTAAGTGTTTATGTTGGTATAAATCTCTGTGCATTGCTTAAAGTTTAGAAATAATAGTAGTTTAAAATACAGA
GGTGCCAGCCAAGCCATACTTACTCTTCCAGTTGTCATTGGCCACCCTGAATGATGAATCTAAAGAAGTATCATTGTGAAACAAGGAAATGTCAGTCAAG
AAATATTCCTTGGAATATAAAACAAAGCCTTGACTCTGCTGGCATAGGTCTGAGTTTTCATARACTGGAGCTTCACAAATCTGTAAAACTCATAATATTA
ATGGGTGCTTTTTCAGAAATTATAGAATAGCTGCCACCTCTTCTAAATTAAGCATTGACTGTCATCAGTATTAGATTTAGCCAGATAGTATAAGTGTTAT
GCAGGCGTACCTCATTTTATTGTGCTTTGCAAACATTGCATTTTTTTACAAATTGAAGGTTGTGGCCACCCTGTGTTGAGCAAGTCTGTTGGTGCTATTT
TTCCAACATGTATTCACTTCATGTCTGTGTGACACATACTGGTAAATTCTCACAATATTTCAGACTTTGTCATTATATCTGTTATGGTGATCTGTGATTA
GTGATCTTCGATGTTACTACTGTGATTGTTTTAGGGCACCACAGGGCACACCCAGATAAGGCAGTGAACYTAATTGATAAATACTGTGTGTGTTGTGACT
CCTTCACCAGTTACCCATTCCCTTTCTCTGCTCACTTCAAGTTTCCCTATGCCCTGAGACACAACAGTATTTAAATTAGGTCAATTAATAACCCCACAGT
GGCCTCTGAGTATTCAAGTGAATGGAAAAGTCACATCCCTCTCATTTTAAATCAAAACCTAGACATGATTAAGTTTAGTGAGGAAGGCATGCTGAAAGCT
AAAATAGGCCTCTTAAGGCAAACAGTAGGCCAAGTTGTGAATGCAAAGGAAAAGTTCTTGAAGAAAAATCAAAGTGCTACTCCACTAAGCATATGAATAA
GAAAGTGAAACAGCTTTATTGCTGCTAGGGAGAAAGTTTGAATGGTCTGAATAGAAGATCAAAGCAACCACAACATTTCCTTAGGCTAAAGCCTAATCCA
GAGCAAGGCCCTCGTTTCAATTCTGTGAAGMCTAAGAGAGGTGATGAAGCTGCAGAAGAAAAATTGGAAGCTAGCAGAGGTTGGTTCCTGTGGTTTAGGG
AAAGAAGCCATCTCCATGAGTGCAGAATGAAGCAGCAAGTGCTGATGTAGAAGCTGCTGCAAGTTACCCAGAAGATCTAGCTAAGATCATTGATGCAGRT
GACTAAACAGATTGTCAGTGTAGAGGAAACAGCCTTCCATTGGAAGAAGGTGCCGTCTAGGACTTTCATAACTAGAGAGAAGACAACATCTGCTTTGAAA
GGACATGCTAACTCTCATTAGTGGATAATGCAGCTGGTCACTTTTAAGTGGAAGCTAGTGCTCATTTATCATTCTGATAATCCTAGGACCCTTAGAATTT
GCTGAATCTACTCTGCCTGTGCTTTATAAATGGAACAACAAAGCCTGGATGACAGCATGTCTGTTTACATCATAGTGTACTGAGTATTTTAAGCCCACTG
TTGGGACCGACTGCTCAGGAAAAAAAAAAAAAAAAAAGATTGTTTCGAAATATCATTGCAGATGGCATCTGAGATCTGATGGAGATGTACAAAGAGGTTA
ATGTTGTTTTTCATGCCTGCTAACACAACGTCCGTTCGACAGCCTATCCATCAAAGAGTAATTTCAGATGCTATTATTTAGGAAATATATTCTTGGCCGG
GTGTGGTGGCTCACGCCTGTAATCCCACACTTTGGGAGACCGAGACAGGCAGATCACGCAATCAGGAGATCAAGATCATCCTGGCCAACGTGGTGAAACC
CCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGGGGCAATGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAAGGGAG
GCAGAGGCTGTAGTGTGCCAAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGTGAAACTCCGTCTCAAAAAAAAGAAGAAATATATTCTTAAGTCT
GTAGCTGAAAGGGTTCACCATTCTAGATGCCATTTAAGAACATCATGCTTCATGGGAGGACGTTAAAATGTCAGCATTAACAGGAGTTTGGAAGAAATTG
ATTCCAACCTTCACAGATAACTGAGTCTTGATTTGACTTCAAGACTTCAGTGGAGGAAGTAACTACAAATGTGGTAGAAATAGCTAGATAACTAGAAGTG
GTGGAGCCTGAAGATCTGACTGAATTGCTGCAGTCTCATGATTAAACTTGAACAGATGAGGATTTGCTTCATATGGGTGGATACAGAAAGTGGTTTCTTG
AGATGAAATCTACTGCTGGCAAAGATGCTGTGAACATCGTTGAAATGACAACAAAGGACTTCGAATATCAGTAAAATCAGTTGATAAAACCAAAGCAGGG
TTTGAGAGGATGCACTCCCAATTTTGAAAGAAGTTCTTGTGTGGGTGAACGCTATCRTACCAAACAGCATCGCAAGCTACAGATAAATCTTTCGTGATAG
AGTCAATTGACGTGACAAACTTCATTGTTGTCATTTTAAGGCATTGCCACAGTCACCCCAAAACCTTCAGCAACCCTGATCAGTCAGCAGCCATCAACAA
CAGGGCAAGACCCTCCACCAACAAAAAGATGACTCACTGAAGGCTCAAGTGACCATTAGCATTATTTAGCAATGAAGTATTTTTAATTAAGGTATGTATT
TTTAAGACATAATGCTATTGCACACTTAATAGACTACAATGTAGTATAAACATAACTTTTATATGCAATGGGAAATCAAAAAATTCCCRTGACTTGCTTT
ATTGCAGTGGTCTGGAAGCAAGCCCACAGTATTTTCAAAGTATGCCTGTATTGTCTTAAAATTTTTGCCTCGTTTACTAAATAAGGTTCTTAAGGGCCAT
AATTTCATCATAACACCTAAAATACTCTGTAGAATATCACTAACATAATGTAGGCCATTTGCATTCAGAAACCACTGACATTTTGATGTATACGAATCTC
AGATGGTATCTACAGCTATGAAACACAAGTTTTTTTCTGTTCGAAAGAGTTTGGTGGAGATAGAGTAAGGTCAGTACCCAAATTATAGTAGTTTTCCAAA
GATTGTTGTACATAATACTTCTCACTTCCAAATCAAACAGTATTTCTGCGGTGATGGTGTATTTAGAGTTCCAATATGAGGCGTCCGGAATAGATCTCTT
GTAATAACAGAGATGAGGTTTCTTCCACTACSTCTTCCAAACTGCCTTGCTTAAGAGAAGTGGGAATTCCTTCAGCTAAGACATTTGGTGTTGGGACATA
GGGGCTTTCATGTGGAAAGGAAAAAAGAAATAGAAGAAAAGTCTGCAGGGAGAAGGGGGAGGACCTTACACATAGCAATCTCAGCTGRCACACCTAATTG
CCGTTTTCCCCTTAGCTCAGCTGAACTGACAGTCTCTTACCTTGGTGTCAGTTAAGTACTGTTCCCAGGTGCCTTTCAGGCACTTTAGCACTTACGTGTA
TACACAGACACACACACACACCCCTCCCCCTTGCAGGTGAAAGAACATGGCAGGGTACTGTATCTGTTTCAGAAATCCCATTAGCCTGCCTGTTGCTGTG
CCTACCTTTCCTTGTTCCAGCAGTCAGCTGTTGGATTGTTCAGGCAAGTTGAACGGAGTTCAAGTTGGGTGTTCAGTCAGGTACTCAAAACTTTCCTTTC
AAAAATCAAAGCTCTTCGGCTTTCTTTTCCTTCTTTTCTTTCCTTGTTTATATAAACTTTAGGAATGTATGTGCGATTTTTTTTTTTTGACAGGGWCTCA
GTCTGTCACCCAGGCTTAGTGCAGTGGTGCAGTCACAGCTCACTGCAGCCTCAACCTCCCAGGGTCAGGTGGTCCTCCCACCTCAGCCTCCTGAGGAGCT
GGGACTGCAAGTGTGTGCCACCACACCTGACTCTTTTTTTTTTTTTTTTTTAATGTTTTGTAGAGATGGGGGTCTCACTGTTTCCCAGTCTGGGAAACAG
TCTCAACTGTTTGGCCTCGAACTCCTTGACTCAGGCCTCCTAAAGTGCTGAGATTACAGGTGTGAGCCACCATTCCCAGCCTGTATGTGCATCTGTATAG
TTGAGAATCAGCCCAAAACTGTACATGAATAAACTACATAAACAAGAATATTGAGATAAATACTCTTTGGCATTAGTGAAACTTAAACAGAACAATTAGA
GGATTGAATCGTTTTGTGTTAATGCAGATGTACTCAGGAAGGAAAAATATCTTTTTCTCTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTTGCCCAAG
CTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCTGCTTCTCGGGTAGCTGGGATTACGGGCGTGTGCCACCACGCCCGGCTACTTTTTGGATTT
TTAGTAGAAATAGGGTTTCACCATGTTAGCCAGGCTGGTCTCGAACTGCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAG
GCGTGAGCCATTGCGCCTGGCCAGAAAAATACCTTTAAAAAGCTGGGCCTGTTGGTGTACCTAAAGGATAATACAGATGTTCCTCTCAACTTAGCATGGG
GTTGTGTCTCAATAAACCCATTTTTAAGTTGAAAACGTTAAGTGGAAAATGCATTTATTATACCTAACCTACTAGACCTCGTAGTTTAGCCTCCCTTACC
CTACAGGTGCTCAGAACACTTAGTAGCCTACAGTTGAGCAGTCATCTAACACAAAACCTATTTTATAGTAAAGTGTTGAATATCTCAAGTAATTTATTGA
TGTTCCACTGAATGCGAATCACTTTTGCACCGTTGTTAAGTTGAACCATTGTATGTTTGTGACCATCTGTACTTGTAATTTCTTTACATTCATTGGTATG
AAAAATATGTTCTTAGAAGCAGGAAAAAGAATTCAGTTTTGCTTTGTATACTAAATTAGATGCTGTAATTTTGATAAAATGAAAAATCTGCTTTATTTGC
AACAATTGTTTTCTTCCTTGACGTCAGCCTCACTCTTGGACTTTGCTAYTCAGCCTGTCACCCCTGTGAATTCCCATGAGGTTGACAGTGTAAACCTGCT
CTAAGTTTTCACTTTGCACYGTGTACCAAAATGAAACTGCTTATTTAGGAAAATAAAAATATCTTTTGTGTTGGACAAAATACAGAGCGCCTRTCTTCTT
TTTCTGTTGTGTTTCAGTTATGGATTCAGTCTTCTTGGGTATCATTGAAACTTCTATTGGAGTGATTTATTAAAATATTAACATAGTATTGCATTATCAG
AGTTGGCAAGAGGAAGCTTTCTTTGAAGTCTCACRTGTATTAAATGTTTTTCTTCCCAGACTCAAAATTCACTTTAACTCCAAATTGTCTAAATTTTAAA
ACTTTTGGTAAAGAAACTTGGCCTGAAATACAGTGATATGATATTAGATGATACTGTTCTTTGTTATTTCCTCATTTTGTTTTTGCCTCTGAAGCATATC
TAAAATGAGGTGACAGGTCAGAAACTATTTTCTCTATATTTTACCTTACCCTCCATCTACCTGTTTCCCTTTTCTTCCCCTTTTCTGTTCTACTCTTTGC
ATTTCTTCTGTATTGAAATTCACTTTGTTCACAATTATTTAAAGGAAAACCTGAACTCAGGGGCCTTGGGTACCTTTAGGTTCAGGTACAATAAAGACAT
GAGACTGGATTTGCGTGCATCCTAAAAGAATCACTTTTAAATAAGTTTTATATGTTTTCATCTTGATTCTTCTAGATTCATCTTGATTCAAATTAGATGG
TTGGCATTTAAAAAGAAAGTTGCATTTCTAAATGTAGATTTGTTTAAAAATGAAGTTGCTTGGGATTTGTTGGGTTTTTTCCTTTGCAGTGTTGAAAACA
AAGAAAGTCAATTCGAGACTATTAAAAAAGTCAATTTGAGACTATTTGGTGAGAATGTGGTAACTTTGATACACATAAGGCTGTTACACTTAYGATTTTC
TAATAACTTCTGAAAGTTCTGTTTAAAACAGAGTCAGCCTTTCCAGTTGCTTTCTGTTTGACTATTCTCATGAAATAAATGGTTACCAAACTTCACTTGC
CACATTCTATCATCAAAGTGATTGAATATATTAAGGCAGATGCTAGGTAAATAAACTTGACTTTGGTGAAAGAAATACAAATGACATTGGTAATAAACAC
ATCTTTAAAGTTGTATGTCCCTTGAAAGAACTCTTTTAGAACTGTTCATACAGGTCTCTCTAGCTGGTTTATAACTAATCATTCTCCCAAAAATGATACA
GTAATCTTAACACCCACAGCACCTGTGCATAATTTTGTTTCTGGCACTGGTATATCAGCCAGAATAAAATGACTCTACCAGTATACCAACTGTTATATAG
GAGAAGTATTTTATACTCTTTTGCCACCAATATCTTTGATTCTTACATGTTCCATTACATATGACATGTAATTATACAGTGTATTGTGACTTATTGGTGA
TGATTACAGTCATTCCTAGAGTCTAGTAAATTGGCTCCCATTGCTTGTGTTGCTGAGATCTGGACAATAACTTAACGAGGTGAATGAGAGAAGTTGACTC
AAGTAATCTTAGATATTTATAGCTAGTTTTTTCTCACTTTCTCTCATTTCCTTCACTCCCCGAATCCTACCAGAACCACAGTGACAGCAATGCAGATTCA
GGAACTATGCATGAAATCCTCTCCTTCCACACATATCCATCTTTTGGGGGTGGGTGGGTCTTTAAAAACAAAATGCGGGCTATAATTATTTATTGACCGT
GTTATAAAACAGTCTTGGATGCTTCATTCATCAATATTGTCCCTTGAAAATAATCTCCATTCTCTTCCAAATTAAGGTTTGGTTTGGTTTKGTTTTGTTT
TAATCTTCTAGATTGTAGAAGGCATGAAACAAAAAATGTGGAGTATTGAAAATATTGCCTTCGGTTCTGGTGGAGGTTTGCTACAGAAGTTGACAAGAGA
TCTCTTGAATTGTTCCTTCAAGTGTAGCTATGTTGTAACTAATGGCCTTGGGGTATGTCACCTTTTAATTACTTCTGTGTTACTACCTTCCTTATGTATC
TAGGTAGAATGTGGTTATTGAGTGCATTTGTCAAAGATTGATGTGGCCRTGGACTGTTAATATGTTGTTGGGTACTACTGACCTTAACTCAGAAACAAGG
AAAGAAGGGAGATATTAGGTAATAACAGACCTAAGGAGACAGAGATTTGGAAAAAGGAAGAACAATAAGGAAAAAGATTATTTAAGAGAGATAATACAGG
TCAGTCATTTCCCACTGCCGTTTTTACCTTTAGATCAAAAAGTAATATTTGAGTAGGAATGTCAGCTTACCTAGCCATCATATATTAAAGACAAGCAAGT
ATATAATCACTGACCAAACTGTTACAGGAAGGTAGAATATGAGGTTTGGATTGTTATACCACAGTCATGTTCTAGTAGCCATAGAACAGCTAGGCAAGTG
AACAACAACCCCCCTTGCTTCTTTGTAACGTCTTGAGAGCTGGAGATTCTATAGAGCAAGGGACAGAGGCAGGAGGATGCTAAGAATTAAGAACACCTGA
GTTGATTCCCTGCTTCACTCTTTGATCTTTCTTTGGAAAGTTCTGGGATTGACTCATTTGTTGCTGCTTGTTCCACTGCCACTTGTTTCTGTTTCTTTGC
TGCCTACCTTTCTGATGTAGAAACACTCTGCTGTCTTCAGGTTCTCTAAGACTTTTGCTTCTGACAATAACAAGGCAAAAGTAAAAAGTACCAAAAGAGG
GATACGTTATGAAATAGGAAAGCCTTTACCTTAGTAATACTCTTGTTCCCTCTCCAAAGATTGTGTGTGTGGTTTTGGCGTAGTTGGTATAGTTGGGCTT
TTCTTCAACAGCATGTACATGCTGTGCTTACTGTCAGTTTAAAGGCAGTTTGTAATATAAAGAGATACCTTAAGGGTCACATGTTAGAATGCTCACAGAC
TTCCTACAAATGGAGTATTAGGTGTTCTTCAGTGGCAAAAAGGATATCCAAGATGTCATACTTTTTCTTTATTACAAACGACTATCCTTCAAAACAGGCT
AAAGTGTTATGTTTCTGAAAGCCAGATGTGGATTGGTTCAGTTATACCTATTAAGTGCTTAAAACTTAAATGTAAATTATGTATGTGCTTTTTTGTAAGG
GAGTGTTTAGACATTTCTGATGATTAGTCTTCTACTTGTCTAACTTTCTTAATTTGGATTTCAGATTAACGTCTTCAAGGACCCAGTTGCTGATCCCAAC
AAAAGGTCCAAAAAGGGCCGATTATCTTTACATAGGACGCCAGCAGGGAATTTTGTTACACTGGAGGAAGGAAAAGGAGACCTTGAGGAATATGGTCAGG
TATGTATCTATGCTGATTGGTTTTTTTAAGCAATAGTAGGTTGGCTCACCAAATTAATAAGAAAGGAGGTTTTTATGTTATTGTTTTTGTGGAAGACAAA
GTATTATATTTTATTATAAAATGTCCAATTGCTGACCTGGCCTACCAAAATAAGATACAAAACAAGTGTCTACGTCATAAACACGGGGCCTGTGTATACA
TAGGGAGAAATATTACGTAAGTATAGTGATTGACAGCAAGTTTGTATACACTTTATCCAAAAGCAAACTATGTTACTTTAATATAAAATGTGAAAACAAG
GTGACTTGATTTGGATTACATAATAAATGGTGAAACCTTGATTTAACCAAGTTTTCTGATTCAAATCAACCAAACTAGAAAAATTTACAGTACACTAAAG
TAGTTCATATGATCTAATGGTCTTTAGCATACAAAAGTACATTTATATTTGTGAACTCAAGTTAAAAAATTTTTGGTTTTTAAGCCACTTGATCAAAAAA
AACTTTAGACAGAACTATTCATGAATATTCATATTATTAGAAAAAAGTACACTAAACATGAGTGCACTATTACTTCCTATTTTGATTCTTTATACTACAT
CACAATTACTGCTTATAACATGTTACTTTTACATTTATTAAGGTTTTGAGCCAGAATTGAAATAACTTTGTTACCGTTAATGAAAAAATATGTTTGTAAA
TCAAACTTTTAGAATTAGATCCCTTTATATAGCCTGTTAGGCAATTATTTGAGTAAGCTTTGTGTAACTCTTGTACCTACTAAGATTTTGGCAGATTTAG
TTTATCCTAGATGAGCTAAAGTCACTTCAAACTAAAAGTAAAAATCTAAGTGTGATTTTTAAAAGACACTGATTTAAGAGTATGTGAATGATAGTAGAAT
AAACTAGAAAATAATTCATAATCATCTAGGCAATTTGATTTAAGAGTAGGAACTAGTATTCCCTTAAATTTAAATTTGTGAAAGAAAATGCTACAGCTAA
AGCACTGTGGTTTGAAGCAACACAATGACAAAAATATTAGATAATGTCATATGCACCTCAATCTTCAGACTAGGTGGAAAATTGAGATTACTTCTGTGGA
TTTTTCAGAGAGAAACCAGAAGCAGGTAACTCCTTAGTGAGACAGGAGTGGCTCTACCAGACCCAAAGGGAATTTAATTTCTTCAATCTGTCTTTGCTAC
TCTTGTATGGATGAAGTGGATTACCTTTGTCATTGACTTTTGGAGTATAAACAGAATCTTTAACCCAGTCACTGTGTGTTAGTCAAGAATGCAATACTTG
TTTTTCTTTGTTTCTGTTTTGGGATTGGCTTTTGGCTTTTTGTGGGTTTTCTAGACCCAAATTTAGCACTAGCAAATTTCTTAAACTTCCATTTGATAAG
TTTAATCACTGTTGAGTTTGTTGGCCAGGAACAAGGCAGGGTTTACCAGGCTTTTTTGCTGCACACTCACAATGATTACAGTTCTCCCTAGGCACCCAGG
CATCTTCCTTCAGCCTGAGGAAAAAAAAGATTGGTCAGCTAGGTTTCTTGGTTTTCCTTTAAGAAAACTGGTTTAAGAATGTAGTATTAAGGTCATTCCT
TTTCATAGAAGTTAAATATTTCTACATACCAGGCAACTCAGTGATTGGCCATTTTAGATAGTACCTTGTTCCACTAGCATTTTTTATGCATCAAATCATC
TCACAATTTGAACACCATTGGCATSTCTGTATTTGACTGGTTGGTTAGTCTAATTCATCAAACCAGGATTCAGGTATTTTGCTTAATAAKGTAATATAAT
CATGAAATTTCCATTTATGCAGGATCTTCTCCATACTGTCTTCAAGAATGGCAAGGTGACAAAAAGCTATTCATTTGATGAAATAAGAAAAAATGCACAG
CTGAATATTGAACTGGAAGCAGCACATCATTAGGCTTTATGACTGGGTGTGTGTTGTGTGTATGTAATACATAATGTTTATTGTACAGATGTGTGGGGTT
TGTGTTTTATGATACATTACAGCCAAATTATTTGTTGGTTTATGGACATACTGCCCTTTCATTTTTTTTCTTTTCCAGTGTTTAGGTGATCTCAAATTAG
GAAATGCATTTAACCATGTAAAAGATGAGTGCTAAAGTAAGCTTTTTAGGGCCCTTTGCCAATAGGTAGTCATTCAATCTGGTATTGATCTTTTCACAAA
TAACAGAACTGAGAAACTTTTATATATAACTGATGATCACATAAAACAGATTTGCATAAAATTACCATGATTGCTTTATGTTTATATTTAACTTGTATTT
TTGTACAAACAAGATTGTGTAAGATATATTTGAAGTTTCAGTGATTTAACAGTCTTTCCAACTTTTCATGATTTTTATGAGCACAGACTTTCAAGAAAAT
ACTTGAAAATAAATTACATTGCCTTTTGTCCATTAATCAGCAAATAAAACATGGCCTTAACAAAGTTGTTTGTGTTATTGTACAATTTGAAAATTATGTC
GGGACATACCCTATAGAATTACTAACCTTACTGCCCCTTGTAGAATATGTATTAATCATTCTACATTAAAGAAAATAATGGTTCTTACTGGAATGTCTAG
GCACTGTACAGTTATTATATATCTTGGTTGTTGTATTGTACCAGTGAAATGCCAAATTTGAAAGGCCTGTACTGCAATTTTATATGTCAGAGATTGCCTG
TGGCTCTAATATGCACCTCAAGATTTTAAGGAGATAATGTTTTTAGAGAGAATTTCTGCTTCCACTATAGAATATATACATAAATGTAAAATACTTACAA
AAGTGGAAGTAGTGTATTTTAAAGTAATTACACTTCTGAATTTATTTTTCATATTCTATAGTTGGTATGACTTAAATGAATTACTGGAGTGGGTAGTGAG
TGTACTTAAATGTTTCAATTCTGTTATATTTTTTATTAAGTTTTTAAAAAATTAAATTGGATATTAAATTGTATGGACATCATTTATTAATTTTAAACTG
AATGCCCTCAATAAGTAATACTGAAGCACATTCTTAAATGAAGATAAATTATCTCCAATGAAAAGCATGACATGTGTTTCAATAGAAGAATCTTAAGTTG
GCTAAATTCAAAGTGCTTGACATCAAAATGTTCTAGAGTGATTAGCTACTAGATTCTGAATCAKACATCACATCTGACTAGAGACCAGTTTCTTTCGAAT
GATTCTTTTATGTATGTAGATCTGTTCTTCTGAGGCAGCGGTTGGCCAACTATAGCCCAAAGGCCAAATTTGGACTTCTTTTTATAAATGCAGATTGTCT
ATGGCTGCTTTCCCACTACTCCAGCCTAAGGTAAACAGCTGCAATAGAAGCCAAATGAGAATCGCAAAGCCCAAAATGTTTATTAACCTGCCCTTTACAC
AAAATYACACAAAAAGTTTCCTGATCTCTGTTCTAAGAAAAGGAGTGTGCCTTGCATTTAAAAGGAAATGTTGGTTTCTAGGGAAGGGAGGAGGCTAAAT
AATTGATACGGAATTTTCCTCTTTTGTCTTCTTTTTTCTCACTTAAGAATCCGATACTGGAAGACTGATTTAGAAAAGTTTTTAACATGACATTAAATGT
GAAATTTTAAAAATTGAAAAGCCATAAATCATCTGTTTTAAATAGTTACATGAGAAAATGATCACTAGAATAACCTAATTAGAAGTGTTATCTTCATTAA
ATGTTTTTTGTAAGTGGTATTAGAAAGAATATGTTTTTCAGATGGTTCTTTAAACATGTAGTGAGAACAATAAGCATTATTCACTTTTAGTAAGTCTTCT
GTAATCCATGATATAAAATAATTTTAAAATGATTTTTTAATGTATTTGAGTAAAGATGAGTAGTATTAAGAAAAACACACATTTCTTCACAAAATGTGCT
AAGGGGCGTGTAAAGAATCAAAAGAAACTATTACCAATAATAGTTTTGATAATCACCCATAATTTTGTGTTTAAACATTGAAATTATAGTACAGACAGTA
TTCTCTGTGTTCTGTGAATTTCAGCAGCTTCAGAATAGAGTTTAATTTAGAAATTTGCAGTGAAAAAAGCTATCTCTTTGTTCACAACCATAAATCAGGA
GATGGAGATTAATTCTATTGGCTCTTAGTCACTTGGAACTGATTAATTCTGACTTTCTGTCACTAAGCACTTGGTATTTGGCCATCTCCATTCTGAGCAC
CAAACGGTTAACACGAATGTCCACTAGAACTCTGCTGTGTGTCACCCTTAAATCAGTCTAAATCTTCCAGACAAAAGCAAATGGCATTTATGGATTTAAG
TCATTAGATTTTCAACTGACATTAATTAATCCCTCTTGATTGATTATATCATCAAGTATTTATATCTTAAATAGGAGGTAGGATTTCTGTGTTAAGACTC
TTATTTGTACCCTATAATTAAAGTAAAATGTTTTTTATGAGTATCCCTTGTTTTCCCTTCTTAAATTGTTATCAAACAATTTTTATAATGAAATCTATCT
TGGAAAATTAGAAAGAAAAATGGCAAGGTATTTATTGTTCTGTTTGCCATAATTTAGAACTCACACTTAAGTATTTTGTAGTTTTACATTCCTTTTTAAC
CCATTCAGTGGAGAATGTCAGCTTTTCTCCCAAGTTGTATGTTAAGTCTATTCTAATATGTACTCAACATCAAGTTATAAACATGTAATAAACATGGAAA
TAAAGTTTAGCTCTATTAGTGAAGTGTTAAATTTGTGTGCTTCAAGTAATGCCATTTTCAGGCCTACCTGTTTTAAGTATTCCTCCAGTTCAAAGAATTA
GAAGATGAGAGAAGGGCAAGTGTCAGAGTTGACTCCTTTTCTGCTTTGTGCAACTGTATAGATGACAGTGCCTTTTACTAAGGAAGAACACTGGAGGGAC
ATCAGATTTGAGAGGAAAGAGCACGATTCCCGTGTTAAGGCTTGAGACGCCTTTGACATATCTAAATGTAGGTATTAAGTAGGCAGTTGATGATACAGGT
TTGTGGACAGAAGGGCCTCAAGGTATGACTGATGTATACCTTGGAAGGTATACATCTTTGGAAGCACACAGTAAAGGATACTCTTCTAGGGATAGTATAG
AGCAGGAGTTGGCAAACCCCACGCCATGAGCCAAATCCAGCCCACCATCTGTTTTTGTAAATAACTGTATTGGAACATAGCCACACCCATTTATTTAGTT
ACTGCCTTTGGCTGTTTTCTTGCCACAGTGGCAACACTGATTAGTTGCAACAGAGAAATTATGGCTGTAAAAACTAAAATAGTTTACTGTGAGGCCCTTC
ACAGGAAAAGTGTGCTGATCTCTGCTAGAGTATAAAGAGAATCTAGGGCTAAACCATGAGTAACTCTTGAAGGTTAAGTGGCAGAACATGAGCAGACCAA
ATGACAAGCATAGCTAAAGAGATGAAAGTTCCAACCAGAAGGAGTGAAGTCACAAAAGCCAGAGGAAACATTTTTCAGCCCAGCTGTTGAATGCTGCTGA
GAGATCAAATAGGATGAAGAATTTAAAACAGCTACTGGATTTAGCCACCTGGAAATAATTGGTGCCTTAGACACATTCCTTTCCAGGTAGTAGAAGAGGC
TTATTTCTGAAAGAAGCTCCCTTATATACCTCTTTGAATGTGGGTTGCGAAAAGGGAGGAGAGAATGAGGCAATAGTATCTTTGTCCTTCTAGCTGTAGC
CTTACATCTGAAAAAGGTCCAGGAAAGAGGGAGGAGTTGAAAATAAAAGCAAAAAGACATCAGTGATGATTTGGGGTTCCAGAGAAGGTGGAGAAAGGTA
AGATCCAAAGCACTTGGTAGGGTATTGGCTTTGAATGATAGGGGTCCTTCTAGAAGAAAGGAGAAGATGGAAGCAGGTGTGTACTTTGGTTTTCTACAAA
GTTGGAGGCCAGATCCCACTTGTACGTGGTTTATTACTCATTCATTTATGTTCACCCCAGAGAAGCGCCATTTTTCATGGTTAGCAGCAGAATTCAGTTA
GAAACACAGTTATCCTGACCTGCTTTATATATTTTTTAAATTCCGTAATTGGCTACTGAGCTGTTATTTCTTTGACATAAACTAGGCAATGCATTATAAC
AAACTATCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAATCTCACTCAAAGCCGCTCAACTACATGGAAACTGAACAACCTGCTCCTG
AACGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAACGAGAACAAAGACACAACATACCAGAATCTCTGGGACGCAT
TCAAAGCAGTGTGTAGAGGGAAAATTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCCAAAATTGACACCCTAACATCACAATTAAAAGAACT
AGAAAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAACTAAAATCAGAGCAGAACTGAAGGAAATAGAGACACGAAAAACCCTTCAA
AAAATCAATGAATCCAGGAGCTGGTTTTTTGAAAGGATCAACAAAATTGATAGACCGCTAGCAAGACTAATAAAGAAAAAAAGAGAGGAGAATCAAATAG
ACACAATAAAAAATGATAAAGGGGATATCACCACCGATCCCACAGGAAATACAAACTACCATCAGAGAATACTACAAACACCTCTACGCAAATAAACTGG
AAAATCTAGAAGAAATGGATACATTCCTCGACACATACACTCTCCCAAGACTAAACCAGGAAGAAGTTGAATCTCTGAATAGACCAATAACAGGAGCTGA
AATTGTGGCAATAATCAATAGTTTACCAACCAAAAAGAGTCCAGGACCAGATGGATTCACAACCGAATTCTACCAGAGGTACAAGGAGGAACTGGTACCA
TTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATGAGGCCAGCATCATTCTGATAGCAAAGCCGGGCAGAGACA
CAACCAAAAAAGAGAATTTTAGACCAATATCCTTGATGAACATTGATGCAAAAATCCTCAATAAAATACTGGCAAACCGAATCCAGCAGCACATCAAAAA
GCTTATCCACCATGATCAAGTGGGCCTCATCCCTGGGATGCAAGGCTGGTTCAATATACGCAAATCAATAAATGTAATCCAGCATATAAACAGAGCCAAA
GACAAAAACCACATGATTATCTCAATAGATGCAGAAAAAGCCTTTGACAAAATTCAACAACCCTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATG
GGACGTATTTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAGCATTCCCTTTGAAAACTGGCAC
AAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATCAGGCAGGAGAAGGAAATAAAGGGTATTCAATTA
GGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGACGACATGATTGTTTATCTAGAAAACCCCATTGTCTCAGCCCAAAATCTCCTTAAGCTGATAAGCA
ACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAGCATTCTTATACACCAACAACAGACAAACAGAGAGCCAAATCATGAGTGAACT
CCCATTCACAACTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAG
GAAATAAAAGAGGATACAAACAAATGGAAGAACATTCCATGCTCATGGGTAGGAAGAATCAATATCGTGAAAATGGCCATACTGCCCAAGGTAATTTACA
GATTCAATGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAACCAAAAAAGAGCCTGCATCGC
CAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAACAGCATGGTACTGG
TCCCAAAACAGAGATACAGATCAATGGAACAGAACAGAGCCCTCAGAAATAACGCCGCATACCTACAACTATCTGATCTTTGACAAACCTGAGAAAAGCA
ATGGGGAAAGGATTCCCTATTTAATAAACGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAA
ATCAATTCAAGATGGATTAAAGATTTAAACGTTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCATTACCATTCAGGACATAGGCGTGGGCA
TTTTGTAATTTTTATAGAGATGGATTAACGATCTCGCTTACAAACTCTCTTGAATTGGCTACACGTTTAATTCTGATTAGGTCTTCCTGACTCGCCAGAG
TTGTTCTGCCAGATCTCTGAGCCTCTCGCTTTCCAGCCCTTCCTCTTCAGCTAACAAACATGTTCCTTTTTCTCACACCTTTTTTAAAGAACTCCCTTGA
TAACACCAGCTCTAGCCTCCCTTCTCCCATTTACATCAGACTTCTCTCCATTTACTGCCTCACCTCCCATTCAGTTATCTTCCATCTGGTTCTCACCTCT
TATTGGACAAAGCAGTGACCTTCTAATTGCCAAATGAATAAATTTTGTTATTACATTATCTGAGGGCTCTCCTGCATTTGCCACTACTAAGAATTCATTT
CTTTACTACTTTGTTCTATGATCTTTTGGGGTCTTCTAATCCCTGTGGACTGTCCCTTCTCTCTCGGTCTGTTTTTCACACATTTTTAAATGTTGACACA
TCCCATTTATCTCCATGTTCATCTTGGCTGATGTCAGCCATTCACGTGGTGTCAGCTATGAGCTATCTACTACAGCCTCCACACATTTATGTCTCCAGCC
CAGACTTCTAAATCATTCTACCTGTCACTGATACATTTCCACTCAGATGCAACAAATCCAAGCTTACCATATTCCCCCAGAACTTACTATATTTATTTTG
ATTCTCTCATTTGGCAGCTCAGGCAGCCCCCAACATGAAACTTCCCTCTCCATTACCCTATACATTTAATCGGCCACATAATCCTATTGATTTACCTACT
AAATAACATTATAATCTGTGTCTTCTCTCCAACTCTTATTTCAGAATCTCAAATTTCTTCCTGAAGTACAGGCTGAGCATCCCAGATCCAAAATCTGAAA
TGCTCCAGAACATGGAATAAAGTCTTGTATGCCTACATGACACTCAAAGTAAATGTCCTTAGAAGCATTTTGGATTTCAGATTTTCAAATTAGGGATGCT
CAGCCAGTAAGTAAATGCAAATATTCCAAAATCTGAAATCTAAAACACTTCTGGTCCCAAGCATTTCAGAAAGTAATTTCTGTATTACTCAACTTGTAAT
CAGAAATTATCTAATTAGTTTTCCTAACTCCAATCCAGCCTCCCTCCACTCTGCTACCAGAGTATTCTAACAAAATCAGAGTGTCAGTCCCCTGCTGAAA
GCACCTCAGTGTTCCTTTAGSCTGCAGGATGCTGCTCGGAATCCAGCCTGACCCTCCCTGATCTGGCCTGTGCTGCGTTTATAGCCTCATGTCCACTCCT
CATTTCCTGTCCAGCATCACTGATTTGCTCTACCTTAGACGCACACATGCACACATGCTGTACACCATTTTCTCCATTTATCTGCCTTTGTGTATTCTAA
GTCCTTGGCCAGGAATGCCTTCCCTGTAGGTGGTACTTATTTTAGGTGACAGTGCCTTAAGGTGGACTCAATTTAGTGATAACACCTCCAAGAGGCCTTC
AACAACTCACCTGCCATCCCCACCTCACATGCCCTTCCTCTGGCCTCTGTAGGTGTTGAATGTATCTCAGAATTAGCATTTACAGTCCAAAGGTCTGTGT
CCTATATGAGACATTCATCTATATTTCATCAGCACATAGTAGACATTGAAATGTCTGCTGAGTAAATGAATGTCATTAAAATAAACACTTTTAAGGTGTT
TTGATAACTTCTCTGTAATACTAGTACCCTGAACATGTTAGTGTTTTTAAAAAGTGAAACGACATTTTTTAAGTACTTTTGTAAAAAGGTGGATAATTTT
TTTAAAGTATATTCACATATTACTGTCTTTTTTAATTCTTAAATTCATGAAGTATAGGTGTTTCATCAAAACAGATTAGAAAGCTATGGTATAAAGAAAT
TAAATTATTTGCCTAACGTTACCTTGTATGTAGTTCAGTAGTTCATAACTTTTCTTGGGTCTTAGACTTCTGAGAATTTGATGAGAGCTATGGACTCTCC
TCTCAGAAAAATTCTCACTTGTGAATAAACAACAAGTTTGCCTAAAATTTGAGGAGGTTCGTTTCACAGGCGCCACACTGAGAACTCTAAGTTAATTACA
GAGCAGAGATTAGATTTCAGGGCTGTTTCTAGCAAATGTTCCTCTGTTTGAACTTCTAGTAGTATTCTTAGTAATGTTAAGGTTTTAATTACCTTAAATT
GTTTTTGCAACAAGTCAACATAAAGATAATTTTAATTCCACTCAAAGATTCTACAGACTTCACTAATGCAGATTTCAAAATTAGTGGCTATTTTAAATGC
CCTTTTTTATAGGTGGAGAAACAA


SNP Information

Context             (SEQ ID NO:19152):
CTTGAACTGCAGCAATGCATTTCTTGATCAGTTCGTCCTGCCTTTCTAGGTCACTCACTCCCCTCCCAATACACCTAATCTTAGCTCCCAAGACCTTTGT
S
TCTTGCTCAGCATTTGCCCACATGACTTTCCTTCCTTTCTTATTACCTAGCCCGACCGTATTACTTCGTATTGTCAACATCATCTCTGGCTCCTGTGTCT
Celera SNP ID:            hCV2673309
SNP Position Genomic:     48221
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 TFBS


Context             (SEQ ID NO:19153):
AAGAAGTATCATTGTGAAACAAGGAAATGTCAGTCAAGAAATATTCCTTGGAATATAAAACAAAGCCTTGACTCTGCTGGCATAGGTCTGAGTTTTCATA
R
ACTGGAGCTTCACAAATCTGTAAAACTCATAATATTAATGGGTGCTTTTTCAGAAATTATAGAATAGCTGCCACCTCTTCTAAATTAAGCATTGACTGTC
Celera SNP ID:            hCV11613118
SNP Position Genomic:     30363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19154):
GACTTCGAATATCAGTAAAATCAGTTGATAAAACCAAAGCAGGGTTTGAGAGGATGCACTCCCAATTTTGAAAGAAGTTCTTGTGTGGGTGAACGCTATC
R
TACCAAACAGCATCGCAAGCTACAGATAAATCTTTCGTGATAGAGTCAATTGACGTGACAAACTTCATTGTTGTCATTTTAAGGCATTGCCACAGTCACC
Celera SNP ID:            hCV11405265
SNP Position Genomic:     32657
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19155):
TTTTTAATTCTTATTTAACATTAATTGAATAAAGACCATTGAACTGAGATTACAGTTTAGAATTTGTTACTAATAAAGCTATATAATCTCCTATAATTTA
S
TTAACCTTTCCAGGCTTCAATTTCCTCATCTATAAAATGACAGACTAAATAATCTTTAAGGTTTCTTCTAGTAGAATAGAATGTTCTGAGATTTTGTTTA
Celera SNP ID:            hCV25652660
SNP Position Genomic:     19200
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,38)   total(C,74|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:19156):
TATTTAACATTAATTGAATAAAGACCATTGAACTGAGATTACAGTTTAGAATTTGTTACTAATAAAGCTATATAATCTCCTATAATTTACTTAACCTTTC
Y
AGGCTTCAATTTCCTCATCTATAAAATGACAGACTAAATAATCTTTAAGGTTTCTTCTAGTAGAATAGAATGTTCTGAGATTTTGTTTAAATCAAATTAT
Celera SNP ID:            hCV25652661
SNP Position Genomic:     19211
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,1)   total(C,75|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19157):
GCTTCCTGAGCCAGGAGAAGAAAGAAAACAGTGTGTGTGGAGCCCTGTACCTGTCAAGGTTAACCAGGTCATACTGTGGCAACAATCCCACAATCTCTGT
R
GCTTACAACAGAAAAGATTTATTTCTCTTTCATACCCGTGTCCGGAACCAGTTGGCTCTGACTTGATTCCATGTTGTCCACATTTCAGGATTTAAGTGAG
Celera SNP ID:            hCV81981
SNP Position Genomic:     211
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:19158):
GCAGGATTTTTCAGACTCCTTTTGGCATCTGAAAACATTCAGCAACTTCAAGAACTGTCCTTCCTTGGAGGAGGGCAAAAATGGTGCTCATCCCCTATCA
Y
GTAAAGCAACATGGTAACAACACAAGGTAAGAATGGAAACAGAGGAAACAAAATGGGAGAAGAGGGGAAAATATTTAAAATGATTACAAGAAAATCAGTC
Celera SNP ID:            hCV29286201
SNP Position Genomic:     1700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:19159):
AGCATGACATGTGTTTCAATAGAAGAATCTTAAGTTGGCTAAATTCAAAGTGCTTGACATCAAAATGTTCTAGAGTGATTAGCTACTAGATTCTGAATCA
K
ACATCACATCTGACTAGAGACCAGTTTCTTTCGAATGATTCTTTTATGTATGTAGATCTGTTCTTCTGAGGCAGCGGTTGGCCAACTATAGCCCAAAGGC
Celera SNP ID:            hCV7590634
SNP Position Genomic:     41764
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:19160):
TTGGGTATCATTGAAACTTCTATTGGAGTGATTTATTAAAATATTAACATAGTATTGCATTATCAGAGTTGGCAAGAGGAAGCTTTCTTTGAAGTCTCAC
R
TGTATTAAATGTTTTTCTTCCCAGACTCAAAATTCACTTTAACTCCAAATTGTCTAAATTTTAAAACTTTTGGTAAAGAAACTTGGCCTGAAATACAGTG
Celera SNP ID:            hCV2673282
SNP Position Genomic:     35535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   JBIC-allele(A,140|G,1357)   total(G,1357|A,140)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19161):
ATACTGTATGTGGGCAAGGGATAAAAATCCATTTTATTTTTATGGTCTCATATTGATTGCATTTGTAAAATTTGACTCCTTATATATTCAAATGCCTCAC
R
TGTTCTTAATAGAATGTCTTTTAAACAACAGCGTAGTATAGCAAAAAGAGGATTGGACTGAAAGTTGGGAAACCTGGGTGACCTTCCGGCTGACATAGTG
Celera SNP ID:            hCV7590635
SNP Position Genomic:     25419
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19162):
GACGTCAGCCTCACTCTTGGACTTTGCTACTCAGCCTGTCACCCCTGTGAATTCCCATGAGGTTGACAGTGTAAACCTGCTCTAAGTTTTCACTTTGCAC
Y
GTGTACCAAAATGAAACTGCTTATTTAGGAAAATAAAAATATCTTTTGTGTTGGACAAAATACAGAGCGCCTATCTTCTTTTTCTGTTGTGTTTCAGTTA
Celera SNP ID:            hCV2673283
SNP Position Genomic:     35320
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;JBIC-allele(T,154|C,1331)   total(C,1331|T,154)
SNP Type:                 INTRON


Context             (SEQ ID NO:19163):
TACTAAATTAGATGCTGTAATTTTGATAAAATGAAAAATCTGCTTTATTTGCAACAATTGTTTTCTTCCTTGACGTCAGCCTCACTCTTGGACTTTGCTA
Y
TCAGCCTGTCACCCCTGTGAATTCCCATGAGGTTGACAGTGTAAACCTGCTCTAAGTTTTCACTTTGCACTGTGTACCAAAATGAAACTGCTTATTTAGG
Celera SNP ID:            hCV2673284
SNP Position Genomic:     35249
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19164):
TGAAAACAAAGAAAGTCAATTCGAGACTATTAAAAAAGTCAATTTGAGACTATTTGGTGAGAATGTGGTAACTTTGATACACATAAGGCTGTTACACTTA
Y
GATTTTCTAATAACTTCTGAAAGTTCTGTTTAAAACAGAGTCAGCCTTTCCAGTTGCTTTCTGTTTGACTATTCTCATGAAATAAATGGTTACCAAACTT
Celera SNP ID:            hCV27518425
SNP Position Genomic:     36193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19165):
CTTTCAAAAATCAAAGCTCTTCGGCTTTCTTTTCCTTCTTTTCTTTCCTTGTTTATATAAACTTTAGGAATGTATGTGCGATTTTTTTTTTTTGACAGGG
W
CTCAGTCTGTCACCCAGGCTTAGTGCAGTGGTGCAGTCACAGCTCACTGCAGCCTCAACCTCCCAGGGTCAGGTGGTCCTCCCACCTCAGCCTCCTGAGG
Celera SNP ID:            hCV2673286
SNP Position Genomic:     33996
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19166):
AGCGTAGGGGAGACTGAGAAGACAGGTTCAGGTTAGTAAGGGCGCTCATATTTTGACACTGAATGTTAACTATGTGCACATCATGCTAGCTATTCTAAAT
Y
AGGCATTTTCAAATGGAAGCAGGCACTGACATTTTTGAGCAAAGACGTGATGTTATGAGATAAATATCTTAGGGGACTTTTTTATATTTTTATAGCAGGA
Celera SNP ID:            hCV7590639
SNP Position Genomic:     24751
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19167):
ACCACTAATAATCAGACCTGATTCTGGAAACCCTCTTGACACTGTGTTAAAGGTAAATTTTCATATGTAACTTTATTATTAGAATCCCTCTGTAGGCCAG
S
TGCATCAATACTACTTTTCATTTATATACACACAATTTCAGAGCTGTGTGGACCAGTCCCCTTTATTTTAGAGTTGCAGCCCAGAGAGAGTAATAGATTT
Celera SNP ID:            hCV25652673
SNP Position Genomic:     28273
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:19168):
TGCTTTCCCACTACTCCAGCCTAAGGTAAACAGCTGCAATAGAAGCCAAATGAGAATCGCAAAGCCCAAAATGTTTATTAACCTGCCCTTTACACAAAAT
Y
ACACAAAAAGTTTCCTGATCTCTGTTCTAAGAAAAGGAGTGTGCCTTGCATTTAAAAGGAAATGTTGGTTTCTAGGGAAGGGAGGAGGCTAAATAATTGA
Celera SNP ID:            hCV26937662
SNP Position Genomic:     42006
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(T,-|C,-)   POOLE|_CEPH(T,67|C,121)   total(C,121|T,67)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:19169):
GTGTTGGGACATAGGGGCTTTCATGTGGAAAGGAAAAAAGAAATAGAAGAAAAGTCTGCAGGGAGAAGGGGGAGGACCTTACACATAGCAATCTCAGCTG
R
CACACCTAATTGCCGTTTTCCCCTTAGCTCAGCTGAACTGACAGTCTCTTACCTTGGTGTCAGTTAAGTACTGTTCCCAGGTGCCTTTCAGGCACTTTAG
Celera SNP ID:            hCV2673287
SNP Position Genomic:     33588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;JBIC-allele(A,145|G,1358)   total(G,1358|A,145)
SNP Type:                 INTRON


Context             (SEQ ID NO:19170):
TCTTAGAGTTATTCAAGGGGATGGAGTAGATATTAATACCTTACAAGAGGTATGTGTTTTATATTAAAAGTTTCAATAAGGCATTTCTTATAATTAAGTT
Y
GTTTATGTTTGATAAAGAACACAATATAAATACAATTTTAAGTCTTTGTAAGTGTTTATGTTGGTATAAATCTCTGTGCATTGCTTAAAGTTTAGAAATA
Celera SNP ID:            hCV25652674
SNP Position Genomic:     30080
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,18)   caucasian(T,38)   total(C,4|T,56)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19171):
TCAACCTCCCAGGGTCAGGTGGTCCTCCCACCTCAGCCTCCTGAGGAGCTGGGACTGCAAGTGTGTGCCACCACACCTGACTCTTTTTTTTTTTTTTTTT
T
AATGTTTTGTAGAGATGGGGGTCTCACTGTTTCCCAGTCTGGGAAACAGTCTCAACTGTTTGGCCTCGAACTCCTTGACTCAGGCCTCCTAAAGTGCTGA
Celera SNP ID:            hCV26937663
SNP Position Genomic:     34151
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19172):
ATCAAACAGTATTTCTGCGGTGATGGTGTATTTAGAGTTCCAATATGAGGCGTCCGGAATAGATCTCTTGTAATAACAGAGATGAGGTTTCTTCCACTAC
S
TCTTCCAAACTGCCTTGCTTAAGAGAAGTGGGAATTCCTTCAGCTAAGACATTTGGTGTTGGGACATAGGGGCTTTCATGTGGAAAGGAAAAAAGAAATA
Celera SNP ID:            hCV2673288
SNP Position Genomic:     33432
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(G,-|C,-)   JBIC-allele(C,144|G,1359)   total(G,1359|C,144) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19173):
TGGGGTATGTCACCTTTTAATTACTTCTGTGTTACTACCTTCCTTATGTATCTAGGTAGAATGTGGTTATTGAGTGCATTTGTCAAAGATTGATGTGGCC
R
TGGACTGTTAATATGTTGTTGGGTACTACTGACCTTAACTCAGAAACAAGGAAAGAAGGGAGATATTAGGTAATAACAGACCTAAGGAGACAGAGATTTG
Celera SNP ID:            hCV25652675
SNP Position Genomic:     37349
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:19174):
AAGGTATGTATTTTTAAGACATAATGCTATTGCACACTTAATAGACTACAATGTAGTATAAACATAACTTTTATATGCAATGGGAAATCAAAAAATTCCC
R
TGACTTGCTTTATTGCAGTGGTCTGGAAGCAAGCCCACAGTATTTTCAAAGTATGCCTGTATTGTCTTAAAATTTTTGCCTCGTTTACTAAATAAGGTTC
Celera SNP ID:            hCV2673289
SNP Position Genomic:     32989
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19175):
ACAGATAAATCTTTCGTGATAGAGTCAATTGACGTGACAAACTTCATTGTTGTCATTTTAAGGCATTGCCACAGTCACCCCAAAACCTTCAGCAACCCTG
A
TCAGTCAGCAGCCATCAACAACAGGGCAAGACCCTCCACCAACAAAAAGATGACTCACTGAAGGCTCAAGTGACCATTAGCATTATTTAGCAATGAAGTA
Celera SNP ID:            hCV26937664
SNP Position Genomic:     32779
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19176):
TACAGATAAATCTTTCGTGATAGAGTCAATTGACGTGACAAACTTCATTGTTGTCATTTTAAGGCATTGCCACAGTCACCCCAAAACCTTCAGCAACCCT
G
ATCAGTCAGCAGCCATCAACAACAGGGCAAGACCCTCCACCAACAAAAAGATGACTCACTGAAGGCTCAAGTGACCATTAGCATTATTTAGCAATGAAGT
Celera SNP ID:            hCV26937665
SNP Position Genomic:     32778
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,6)   total(G,6|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19177):
CTACAGATAAATCTTTCGTGATAGAGTCAATTGACGTGACAAACTTCATTGTTGTCATTTTAAGGCATTGCCACAGTCACCCCAAAACCTTCAGCAACCC
T
GATCAGTCAGCAGCCATCAACAACAGGGCAAGACCCTCCACCAACAAAAAGATGACTCACTGAAGGCTCAAGTGACCATTAGCATTATTTAGCAATGAAG
Celera SNP ID:            hCV26937666
SNP Position Genomic:     32777
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19178):
GGAAAGAAGCCATCTCCATGAGTGCAGAATGAAGCAGCAAGTGCTGATGTAGAAGCTGCTGCAAGTTACCCAGAAGATCTAGCTAAGATCATTGATGCAG
R
TGACTAAACAGATTGTCAGTGTAGAGGAAACAGCCTTCCATTGGAAGAAGGTGCCGTCTAGGACTTTCATAACTAGAGAGAAGACAACATCTGCTTTGAA
Celera SNP ID:            hCV26937667
SNP Position Genomic:     31399
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19179):
TATTGACCGTGTTATAAAACAGTCTTGGATGCTTCATTCATCAATATTGTCCCTTGAAAATAATCTCCATTCTCTTCCAAATTAAGGTTTGGTTTGGTTT
K
GTTTTGTTTTAATCTTCTAGATTGTAGAAGGCATGAAACAAAAAATGTGGAGTATTGAAAATATTGCCTTCGGTTCTGGTGGAGGTTTGCTACAGAAGTT
Celera SNP ID:            hCV25652679
SNP Position Genomic:     37091
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:19180):
TTCCAGCAGTCTTAAGGTAATGAAGTCCAGACCAAGGTGCTAAATAAATGGAAAGAAATAGGTAAACATGAGCAATGGCTTGGGAGATAAAATTGCTCAA
A
GTTGGTAATTTGAGTTGGGACTCAGTAGAAAATAGATTCAGCTGACGTTTATGAGCATTGTATTAGTAAGGCCTTGTTGAACACTTTTACATACAACTTT
Celera SNP ID:            hCV26937668
SNP Position Genomic:     25010
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19181):
ATAAGCCCTGACATATACTTCTAGCTTTTGATGAGTCTTCCCTGTACCTTTTAGTATATCACTATCTGTTGTACTTAAGGAAAACAGCTCCAAGTCTCCT
R
CTTGACTTAAACTCTCAGATCACTTGTTACTATAAAGATTTACCTCCAAGGTTGTCTGTGTGCTGCATTAGGGGCTATTTTTATAGAGTTGCAAGTATGC
Celera SNP ID:            hCV7590640
SNP Position Genomic:     13208
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19182):
GGCGAACCGGCTCCTCGTGGCACTGGCAAAGCTGGGAACGCCCCCTCCAGGCCCCGCCCTCCCGCGCCCGTGCCGGGAACTCGAACTTAGGTAAGCGCCC
R
GGTCACGCGCCGGGGCTGCCCCGCTGCCTCCAGCTTCCCAGAGCTGGCGTCTGGGAGGAAGAGCGCGTGCATCACGTCCTCCTCCCCGCCCCGCCTCCGG
Celera SNP ID:            hCV7590641
SNP Position Genomic:     6307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19183):
TGGCCTGGAGCTGGGACCAGTTAGGTAACGGCCCCGGGGACCCGCAGTGGAGAGTGAGCGGGGCTTTCCCCGCCGGGCCAGCCCGGCGCGCTCGCCCCTG
S
CTGGGCAGGTAAGTCTCCCGGGGCGCGAGGTGGGAGAAGTCCTGGCGCGGGCGCCGGAGCAGCCGCGGTCCTCTGCGGCTCCGGCGCGGAGGACACTCGC
Celera SNP ID:            hCV27491400
SNP Position Genomic:     7260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19184):
AGAAAGTTTGAATGGTCTGAATAGAAGATCAAAGCAACCACAACATTTCCTTAGGCTAAAGCCTAATCCAGAGCAAGGCCCTCGTTTCAATTCTGTGAAG
M
CTAAGAGAGGTGATGAAGCTGCAGAAGAAAAATTGGAAGCTAGCAGAGGTTGGTTCCTGTGGTTTAGGGAAAGAAGCCATCTCCATGAGTGCAGAATGAA
Celera SNP ID:            hCV2673291
SNP Position Genomic:     31231
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,9)   total(A,3|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19185):
TCATTATATCTGTTATGGTGATCTGTGATTAGTGATCTTCGATGTTACTACTGTGATTGTTTTAGGGCACCACAGGGCACACCCAGATAAGGCAGTGAAC
Y
TAATTGATAAATACTGTGTGTGTTGTGACTCCTTCACCAGTTACCCATTCCCTTTCTCTGCTCACTTCAAGTTTCCCTATGCCCTGAGACACAACAGTAT
Celera SNP ID:            hCV2673292
SNP Position Genomic:     30770
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19186):
AGTTTTCATCAGTGCCTGTATCTGTGGTCAGCGATAGCTATGACATTTATAATGCGTGTGAGAAAATATGGGGTGAAGATCTAAGACATTTAATAGTATC
R
AGAAGTACACAGGCACCACTAATAATCAGACCTGATTCTGGAAACCCTCTTGACACTGTGTTAAAGGTAAATTTTCATATGTAACTTTATTATTAGAATC
Celera SNP ID:            hCV2673293
SNP Position Genomic:     28158
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,29)   caucasian(A,13|G,27)   total(A,22|G,56)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:19187):
ATTGGGTAAGGTATGGTTGACCCAGCTACTTCATTTGCCTTACGATGTATATTCATTAAACTAAGTCACTCACCTTCTCTGTGATGTTGATGGTTTGGTA
Y
AGTAAACATGAGATATGATTAAAGGTGATTCAGGGATAGATCAAGTGTCTGCCTAAGTAAATCTGTGTTTTCATTTTTTTTTCTAGTACCATAACAGCTT
Celera SNP ID:            hCV2673294
SNP Position Genomic:     27912
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,27)   caucasian(C,20|T,8)   total(C,29|T,35)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19188):
TCCATTTTACTTAAGTTTTGTCTGTTTTTTTCCAATCAGCTTAAAATGCTGTTTATGATATTTAGATAGGTTCTTGAAATCGAGCCAAGATCCATCAACA
R
GTTGTCTTTTAGATGCAAGTTTAAAGTATTGCAAAATCCGAACACTATCAAGTATGATTCTTGAATATTGTCAAGTATACGTGATAATACCTCAAGTATG
Celera SNP ID:            hCV340123
SNP Position Genomic:     7919
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19189):
CATCGAAATATAAGAGGTCCAAGAGGGTGTTTGAAACACATTTTGCTAAGTTGACAGGAAATTAATAGACTTTTTATGGGCCATTAACTAATAATACACT
S
AAAAAAAAGGTACAGTTAAATAAAGGTTTTAAATAGTCTATACCGTATACTAAAACTAAATTAATATTTAGGACTGAAATAACATATTGATTAAGTACCA
Celera SNP ID:            hCV26937670
SNP Position Genomic:     20015
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19190):
TGGAATACAGTGGTAAAACATAGTACTCTCATGTTTTTGTTTTGATTCTTTTTTTTTCCTTTGTTTTTAGCCCTCCTCCGATATTCCGAGAAAGTATTTT
R
GAGAATTCCATTTTACTTAAGTTTTGTCTGTTTTTTTCCAATCAGCTTAAAATGCTGTTTATGATATTTAGATAGGTTCTTGAAATCGAGCCAAGATCCA
Celera SNP ID:            hCV340124
SNP Position Genomic:     7812
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19191):
CATACCAGGCAACTCAGTGATTGGCCATTTTAGATAGTACCTTGTTCCACTAGCATTTTTTATGCATCAAATCATCTCACAATTTGAACACCATTGGCAT
S
TCTGTATTTGACTGGTTGGTTAGTCTAATTCATCAAACCAGGATTCAGGTATTTTGCTTAATAATGTAATATAATCATGAAATTTCCATTTATGCAGGAT
Celera SNP ID:            hCV25652649
SNP Position Genomic:     40325
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:19192):
TTCTCTGCTATGTGGACCTGGTGTGCTTATCTTCTTTGTTGCTGATTTGAGAGCTGAGCTATGTACTATATCTGGAATGCACACAGCAGGCATCCTGCTG
Y
GCAGTTCTGTGTCTAGTTAATAGTATGGAAGTTCAGGACATACCTCCAAAAAAAAAAAAAAGCTAGGATTTTCCTCAGAAAGAATGCAGTATTTTATGTC
Celera SNP ID:            hCV2673296
SNP Position Genomic:     22174
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;JBIC-allele(C,586|T,709)   total(C,586|T,709)
SNP Type:                 INTRON


Context             (SEQ ID NO:19193):
AAACTTGGGGCAATTTGACATTGCCTCAACATCCAAGTTTCAGTGTCCTTTATAAACTATTGATCCATGACAGATCATGAAACTTTCTAAAAATTGATCC
W
TTTATCACATAGTCTTTCAAAATATTATTTGCTTCTTTGAAGCTTTGGATAGAAACTTGATAATGTGAAGTTCTCTGCTATGTGGACCTGGTGTGCTTAT
Celera SNP ID:            hCV2673297
SNP Position Genomic:     22003
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,7)   total(A,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19194):
AATTTTTAACAAATCTGTTAATTTGGATGCATTAAATCATATAATTTGGTGTGTGTTTGATGTTCTAAGTATGAGAAAAGTTTTCTGAAATAAAAGGTTT
K
TTTTTTTTTTTGGAAACCGAGTTTCGCTCTTGTTGGCCAGGCTGGAGTGCAATGGCATGATCTCAACTCAGCGCAACCTCCGCCTCCTGGTTTCAGGCAA
Celera SNP ID:            hCV26937672
SNP Position Genomic:     14764
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,6)      total(G,6|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19195):
CTCCGCCGACCGAGCAGTGACTTAAGCAACGGAGCGCGGTGAAGCTCATTTTTCTCCTTCCTCGCAGCCGCGCCAGGGAGCTCGCGGCGCGCGGCCCCTG
W
CCTCCGGCCCGAGATGAATCCTGCGGCAGAAGCCGAGTTCAACATCCTCCTGGCCACCGACTCCTACAAGGTAAAGCTCGGGGCCCGGGCAGATGAGGAG
Celera SNP ID:            hCV26937673
SNP Position Genomic:     6716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:19196):
TAGTCACTGAATTACAAAGTAGACAGTGACCTTGATTATACAACATATGCGGAAGTGTTTCCTGTAACTTACGTGAGTATTTTATCAAATACTTATATAT
Y
TGATAAAAGCTAAGTACATAAAGCATAACTCAGTAGATAGAATTCTCTAGTAGTAAGCTAAAGTGCTTCAAGTATTAGTTGTCATATTAATCCAAGAGAA
Celera SNP ID:            hCV2673298
SNP Position Genomic:     21656
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19197):
TGTTGCTTGTCTTTCACTGCTTCTGAGCGGATGCTTCGGTATTGTCACGGTGGCTCCTGAGTCAACCTGAGCCTCATGAGTGGGGTACTGTTGCAGCTTG
Y
ACCCCAGAGACTGCCTATGCATTCATAAAGATATATGTGACATTGTACATATATTTCAATTTTTCCATTATGTTTTGTTATATAGGAAAAACTTGAGCAC
Celera SNP ID:            hCV11613106
SNP Position Genomic:     9539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19198):
TCTATTAAATGATAGGCCAATCTGAAAGTCTTGTCTTAGCCTGCAATATTTGGTTTTAGCAAACTTGATAGGTTTCATGTTTTTACTGTTACGTAATAAA
M
AATGTACACAGCTAGTTATGAGAAACTGATTTCATCAATGGGGAATTTTCTCTTTGTTAGAATCTTTAATCAGTTTATTTAGGAAAAAGAAATGATTGTT
Celera SNP ID:            hCV16155589
SNP Position Genomic:     29160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19199):
GCACCCCAGAGACTGCCTATGCATTCATAAAGATATATGTGACATTGTACATATATTTCAATTTTTCCATTATGTTTTGTTATATAGGAAAAACTTGAGC
M
CCATAAATAAAATATATAAATCATGAATATACTTCATAGGGAGATTAATTTAGGTCATTAATAATTGAGCTGGTGTTCTCGTTGTGAGTTAATGAAATCT
Celera SNP ID:            hCV11613107
SNP Position Genomic:     9638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19200):
TGTTTGAGATCTTTTAAAATTATTTACATTATATATTAACAAATATTTACACAGGTTGAGCATCCCAAATCCAAAATGCTCCAAAATCTGAAACTTTTTG
S
TCAAAGGAAATGCTCATTGGAGCATTTCAGATTTCAGAACTGGATTTCAGATTTCAGAACTGGGGATGCTTAACTGATAAGTATAATGCACATATTCCAA
Celera SNP ID:            hCV29286191
SNP Position Genomic:     27047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19201):
ATCATCTTAGCAGCTCTTTTTCAAACAGATTTGAAGCTGCTTCAAATAACAATCTGGTTTATAAAATGAAAATAGAAAATTATGATCTTAGAATGAAGAA
R
TGAATTTCTAAGCCATGATAATTATTACGGTTGCTGTGATTAGACAGACTTTTCTGTGGAGCTTCCTGACAACCAAGAAAAAAGGGGAAATCAAGGAACT
Celera SNP ID:            hCV337019
SNP Position Genomic:     21398
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19202):
TAAACATGAGCAATGGCTTGGGAGATAAAATTGCTCAAAGTTGGTAATTTGAGTTGGGACTCAGTAGAAAATAGATTCAGCTGACGTTTATGAGCATTGT
W
TTAGTAAGGCCTTGTTGAACACTTTTACATACAACTTTCAAGACTAGGAAACTGGGAAAATAAGAGTGTCTTTAACAAAGTTTTAAGAGTTATTTTTAGT
Celera SNP ID:            hCV29286192
SNP Position Genomic:     25072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19203):
GAGGGTTCAGCCAGGGCTGGACATCCTTTAATGGCCTCATTCCCATGTCTGGGGCCTCAGGTCAGATAGCTGGGACTACCGGGTCTCACTCCAGAAGAGG
Y
TTCTTCAGAGCATGGTAGTCTTGGGGTTCTAAGAGAATGAGAGTAGAAGCTGCAAAACCTCTTGAAACTGGGGCTTGGGAGTCACACATGACTTTCTCCA
Celera SNP ID:            hCV29286194
SNP Position Genomic:     20923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19204):
GGATTTCCCTAGCTCTCCTTCTCTCTCGTTTTGTTTTCTTTTGTTCTTTAATAGCAATCCTTTATCTTTCAATCTGCAGCCTTTATTTTGTGAAAATAAC
R
AATTTAGAATAAAGGTAGTGTTCTTGGAATACTTTTAGAATATGTTGGAATAAAGTCATCCTTTCTCATTTTCTGAAAAAGCAGGGAAGAAGCAACAGTT
Celera SNP ID:            hCV29286195
SNP Position Genomic:     18571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19205):
AACCTGCTCTAAGTTTTCACTTTGCACTGTGTACCAAAATGAAACTGCTTATTTAGGAAAATAAAAATATCTTTTGTGTTGGACAAAATACAGAGCGCCT
R
TCTTCTTTTTCTGTTGTGTTTCAGTTATGGATTCAGTCTTCTTGGGTATCATTGAAACTTCTATTGGAGTGATTTATTAAAATATTAACATAGTATTGCA
Celera SNP ID:            hCV27485469
SNP Position Genomic:     35393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19206):
TTTTTAAAAAAACTGTCATACTTGGAACAAGGATATTTAGCCTTGGGAATCTAATTTTTTGTTACAGTTGGTTGGCCAGCACTCCTTAATGGAAAAAGCT
R
TCCATCATTTGACTTAGGGCTAGACCGTTTTTGTTCTAGGCATTAAAATAATACCAGTTACTGTTATCTAGTATGTAATAATTTTTAGAAGTTTATCCTT
Celera SNP ID:            hCV29286196
SNP Position Genomic:     10490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19207):
ATACTTTTTTAAAAAAACTGTCATACTTGGAACAAGGATATTTAGCCTTGGGAATCTAATTTTTTGTTACAGTTGGTTGGCCAGCACTCCTTAATGGAAA
M
AGCTGTCCATCATTTGACTTAGGGCTAGACCGTTTTTGTTCTAGGCATTAAAATAATACCAGTTACTGTTATCTAGTATGTAATAATTTTTAGAAGTTTA
Celera SNP ID:            hCV29286197
SNP Position Genomic:     10485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19208):
CTTAGGTTTCATTTCCCTTATGTTTTTAGGGGTCCTTATAACCTATTTTACATTTTTGTCTTTTTATCTTAGGAAAAAGGACAAAAATGATAATCTTGAG
K
TTAGAAGTAATGAAACTTATTTAGAAATTACACGAGAATGTTACATATCCTTATCAGTGCTTACAAACTATTGGCCAAAGTTGGGAACTCTAGTAGTTTC
Celera SNP ID:            hCV29286198
SNP Position Genomic:     8707
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19209):
ATCAAATCATCTCACAATTTGAACACCATTGGCATCTCTGTATTTGACTGGTTGGTTAGTCTAATTCATCAAACCAGGATTCAGGTATTTTGCTTAATAA
K
GTAATATAATCATGAAATTTCCATTTATGCAGGATCTTCTCCATACTGTCTTCAAGAATGGCAAGGTGACAAAAAGCTATTCATTTGATGAAATAAGAAA
Celera SNP ID:            hCV25652659
SNP Position Genomic:     40390
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:19210):
TAATCCGTGAGAGGAAATACCCTCGAAAGTTACTATAGAAATAACACCTTACTATCTGGTGGCATTTACTTAGTTCTTAGAACTGACTAATTAGTTTATC
R
GTTAAAGTAATTTGCTATTATATTGTAAAATAGTACATTTGAGGCTCACTTATAAAAATTGGAAAACATCGAAATATAAGAGGTCCAAGAGGGTGTTTGA
Celera SNP ID:            hCV2673300
SNP Position Genomic:     19848
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19211):
GCTATCTTGCTTAGCTACTTCTTAAATTTTATTAAAGTGGGATCAGTCCCTGGATTCTAACCTTAATAAGCCCTGACATATACTTCTAGCTTTTGATGAG
W
CTTCCCTGTACCTTTTAGTATATCACTATCTGTTGTACTTAAGGAAAACAGCTCCAAGTCTCCTGCTTGACTTAAACTCTCAGATCACTTGTTACTATAA
Celera SNP ID:            hCV2673302
SNP Position Genomic:     13143
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,5)      total(A,5|T,4) ;JBIC-allele(T,134|A,1355)   total(A,1355|T,134)no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19212):
ACAAAGAACATTTTCAGTATACTTTTAGACCAAGATACAGAGTTAAATAGCTTAGAGACATTTCCATTTTGCTTTTGACTCTTCGTCTTCTCAGAAAAAG
R
AAATAACTTGCCTTCTAGTAATTTTAAATCTGATAAAGAATGCATCATTAAGTACCTGAACAGTAAGGGTCAAACTGTGGAGAAATAAAACTATGAATCA
Celera SNP ID:            hCV2673303
SNP Position Genomic:     12640
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   JBIC-allele(A,141|G,1332)   total(G,1332|A,141) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19213):
GTCATTCTATTTACTTTCTCATCCTCAGTGTCTGAAGTAGGTACAGAGTATGTATTTGTGAATGAAGTATTTATAAAATAACAGTTGATTTGAATTTATG
M
TATATCATCCAATTTTCTGGTGAAGGTTCAAAATGGCCTGTTTAGTAGAAAGTAAAATGAAGAGGACAGTAAGCTAGCAAAACTAGAATCATTATAAATC
Celera SNP ID:            hCV2673304
SNP Position Genomic:     12003
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19214):
TTTTTTGTAGAGATGGGTTTTCACCATGTTGCCCAGGCTGGTCTCAAAATCCTGGGCTCAAGTGATCAGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTA
Y
AGGTGTGAGCCACCACGTCCAACCTTAATGCTAGCTGTTAAACTGTCTTTCAGGGGAGGCCATTTTAAAATGAAATCTTGGCTCTGTTTTCAGTGATAAT
Celera SNP ID:            hCV2673305
SNP Position Genomic:     4073
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:19215):
GCTACTCAAGAGACTGAGGCACGAGAATCACTTGAACCTGAGAAGTAGAGGTTGCAGTGAGCTGAGATCGGACCACAGCACTCCAGCCTGGGTGATAGAG
Y
GAGACTCCATCTCAAAAAACAAACAAAACAAAACTCATTTAAGATAAGTACATAATTATTAAAGACAAATTTCATGTACATCAATGATAAGCAGACCTCA
Celera SNP ID:            hCV2673307
SNP Position Genomic:     2530
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 TFBS


Gene Number:                 67
Celera Gene:                 hCG1810785 - 146000220705953
Gene Symbol:                 LPA
Protein Name:                lipoprotein, Lp(a);AK38;LP
Celera Genomic Axis:         GA_x54KRFTF0F9(10026913..10120025)
Chromosome:                  Chr6
OMIM number:                 152200
OMIM Information:            APOLIPOPROTEIN(a);LPA


Genomic Sequence (SEQ ID NO:12227):
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNATTAGTGATCGAGAGCCATTTTTGCTGGTGGCAATCATATGGTACTTTTAATGGGAATATTAGAAAGGCACCGGTAA
TGACCTTGTTGCAGCACAAAGGAGAGAGTGTGGGGTGCCCCTGCATGTTGTCCCACCTCTTGTGACGTGTATCGTTTTGGAATTTCCAGTGGCTTGATCA
TGAACTACTGCAGGAATCCAGATGCTGTGGCAGCTCCTTATTGTTATACGAGGGATCCCGGTGTCAGGTGGGAGTACTGCAACCTGACGCAATGCTCAGA
CGCAGAAGGGACTGCCGTCGCGCCTCCGACTGTTACCCCGGTTCCAAGCCTAGAGGCTCCTTCCGAACAAGGTAAGGAGTCTGTGGCCAGACATCTACAC
GCTTCSATGCTGGGATGAAAAGCCATGGAAATTCCCACTGATGCAGCCGCCTTCAATGGTAAACGGATGCTCGAGTGTTGCCTGAGTTCTACCATGTTGG
GGGAAGCCTCCGTGTACTCTCTGGGGGAGCCAGCGGAGTGATTTCTGGTGCAACGTGGTTGGGCTTTGTCTTTAGAATGGGCACAAACCCTCCAGGGTGA
TCGACTTCACAATTCACCTTGTTCTAAAATGGGCTACCTCAGTGTCCCAGCCAAAATTTTTATTGTAACGTGCTGTCAGGTGTGTGACTCTTTCAGTCCA
GTAAGCTTTTCCGGGGATTTCTTCAAGTAGCCAGCAKTCAGWGCAATCTTCAGCATTGCAGATTCAGAGAAATGTGGCTCTGGAGCCTGTCATCCTCGAG
AAACCTAACAGGGCTGCATTAATTCCATATGGTCCTGGGTCTATGGAGCAGTAYATGAGCTCCCAATGCTCTAAGGCTCTTCAGTCCTAGGCTTTGAAGG
GAGTGATTTCTCAGTGTTCTTAAACCTCTTTCTGATGGCACTTGTACCTGTGAGGGGTCTAGAGAGAAAGGTTAGTAGACTTCTCCTTTACTGCAATTCA
GGATGCAGGGCATGAGAGGATTCCCTCCCTCSTCCAAGGGAAGAAGGTTTTGGCGTGCACACATCCTTGAGAAGCAAAGTGTCTTTGCCTTCAGTCAGAT
ATATAGGATCGTTTTCTGCCCCATGGCCTGGAAGCCAGAGGCYTTGGCTTTCATGATCAACGATCTAGGGAAACATGCAAAATTTCCRTGTCTTTCCCCT
CCTCTGCCCYCGACAGCCAATTACCACCTGCATCCTGCATTGCCAAATGCAGTGCCCTTTGTATGAACATTCAGTAKAGTTTCATAGAAAGGTGCTACTT
CGTGAGCGCACTTTGCAGTGAGAAGATCTGTTCTGTTCTGTTTTTCTAAGGATTTCAGGTGAAATATTTCCTAGAACTTACTACAGTTCTAGATTGGTAG
GAATCTGTRGGTTTGCTGTATGTTTTTTGGTTGGTTTTCTCCCATCCATCTGCCTACAGGTAAGGGAAAGATAAMGTTCRTAATTCTCATAGACTCCTTT
CTGGTTKTGTCATARATGKCTTCACATATTTCGTTATTCTCAGAGATACTCAGTTTATTTCTTGTGTTTTCATTTCAGCACCGACTGAGCAGAGGCCTGG
GGTGCAGGAGTGCTACCACGGTAATGGACAGAGTTATCGAGGCACATACTCCACCACTGTCACYGGAAGAACCTGCCAAGCTTGGTCATCTATGACACCA
CACTCGCATAGTCGGACCCCAGAATACTACCCAAATGCGTATGTCTTTGTTCTTTACCATAAGAGAATAAAGGGCCAACTGAAGTTTCTGTGACAAGAGA
CATGCTTCAAGCTGAGTTCTCCGAACTCAACTTGTGTCAGATTCAGATGGYGTAGCAAAATGTCTCAGGATGATTTCCTTGGAGCTAAGGGTCTGAGAGA
AGAGAAATGTTAAGCTGCCTCACCTTCCTCCTAGTTTTGTGGAGCAGAAGGGAAATGAGGAGGCGAGGAGATCACCTTATGAAGAAAGTCAGAATGACGA
ACSACCAAACACTTAGATTACCCTTGCCCAACACCCACTAAGCGTCAATGAAGACTTTCCAGTTGGAATTCCGTTATTCTGACTTCCAATTCCTGAAGGG
AAGATTGTGTTTGCCTTTTCTGTCTGGGCTCATGAGGAAAGTTTATGTGCTTACTTATGGACAGGTGAATTGATCTGTTTCTATTTCTACCTGTATTCCA
ATAGGGAGAAAATCTCTTGGTCCTAAGTACCAGTGGCCTGAARGGATAGAGGTTCCCAGCAAGAGAAGATCCAAGGAAGGAAGGCAGATGAGAGTCAGCA
CAGAGAGKGATGCTGAAAAGTAAAAGGGATGGGTAGATGGATAGAAGCCCTGGYCTGACCACCCCATGGCCAATCATTTGGCCATAATCAACAACCAAAG
ACATGGAAAAATGGTTTCTACATGTGGGACAACAGATSGTAGAGGACCTAGAGAATTGAGAGAGGGCCAATGATGAGCTCAACTCCATAGATGCCTTGGC
TTTCTTCCTGGATACCCTTCCTGCACTGARTAGCAAGGAGATGGAGCTCAAGCAGCCTGTAGCCATCTAGCTGAGCAGAGGAGAGGGATTGGAGTTTGGG
ATGACTCTGGTATWTTCTAGGTCCGCTACAAATAAGAACTGGTTTGTGGAGGAAAGGAGCTCTACAAATACGCATAGAAGTCTCCTCCAGTAGYTGGCCT
CACATGACACTGCATGTGCACAGAAAATGGTTCTACAGAAAGTGTGGCAAAGAACATTTACTGAGAAACAGCAACTACAAGAGAACAGCAAGCTCAATTA
AGAAGATAGAGATCACATAGCACTCTGTGTTATTGGAGTTCTTACCAGCTAGATGAGAGAGTGCTCACGGAACACATTGCCAATTCAGTGGAGACCCCAG
AACAGCCATAATTTCAAAGTACAATTAGTATATTACTAGAATAAAGGCAGCTGCAGACAACCCCTTGCACAGCTGAAAAGCAAGTGTCCAAGCATCAAAT
GGGTTTCCAATCAATGAAGTGCCTGTGAGAGGAAATCTCAACTCTCTTCAGAAGTAAACAACAAAGTCAATTGCCTCARCTATGCGGTATCCCCAGAGTG
AGTCCTAAATTAAAAATTTGACTACGTGTAGAAAAGAATTTCGTGTGATCCATGACCAGRAAATAAATCAGGCAATACAAACAGGCTCAGAAATGACATC
GATAATTAGAATTGCATGAAAATTTGACATATCAGTATGATAACTGATTTCAGATATTTAAAAAAAGTGCAACAAAGCAGGTATCATATCAAGACAAATT
AATAGTATAGAATAGCCAAATCAAATTAAAGAACTATTATACAAAAAGTATGTCTTAAATGAAGAAATTACTGTATGTCCGCCTGAAAAATTTAGATGTT
TCAGAAGAAAAAATTAACCAAAAACAATTCTGCAGAACCTACAGAATGAGCCACACACACACACATTCAAAACACACCCATACACACACACATGCAAAAA
CTCACAAGTTCTAACACACACACAAACACACACACACATGCACATCCCTAAAGAAATAGGGAAATATAAAATTAACCGACCCTCAGAGACATGCAGGAAA
ATATAAGAAGATTTCCTGCATGTGGGAAGCAAGTCACAGTAAAGAGCAAGGGAGTTTGGAGTAGATACAAATACCGGAATCACGGATGGCTGATAACTTT
TCAATTATGAAGAACGTTAGAAAAATCACAGATTCATGAAACTAAAGGGATCAAATAGGAAATTTCGAGAAAAAAAACTACATGATGCACTTCTCTACAT
CACAGTTCAAAGGTAACAAGGCAAGGATATAAGAAGAAGAAACATCTCACGAGAAACTGGAGAAAAAAGAGCTGTGTCTTCCTAGAGTACAGTGATACAA
ATTGCTAATGCGTTCACCTCAGAAACACTGGAAGCCAGATACCAGGGAATATTATTAAAATGATAATGAGGAACAAGAAGAGATCAACCGAGAATGCTGA
ATCCAGCAATAAAATGCCTTGAAGATCATCCATGTTGGATAAATGCATATTGTGCACTGCCCAAAACAAAGAAACTGGAAAGTGTAAGACTTTGGAATCA
GCAGGCTTATGTAGCAACAGAGGTGACCCGAAAGAATTAGGTATAAGAAGAATAGAAGAATTGCATGAAAATTTGACATATGACTAAGATAACTATTTCA
AATATTTAAAAAAAGATGAATATGTAATAAAACAGATAAAATATCAAAAGAAAGTAACAGTATTGACTAGCCAAATCAAATTAAAGACTTAGTGTAAAAA
GCTATGTCTTAAAAGAAAAAATTACTGGATGGCTGCCTGATCAATTTAGACATTTCTGAATAGGAAACTAACCAAAAATCAATTCTACAGAACCAACTAC
ACACATATATACACATACAACACACCCATACACACCCACGCAAAAACTCACAAGTTCACACACACACACACACACACACACACAACCCTCAAGAAATAGT
GAAATAGAAAACCAACCGAACCTCACAGACATGTTGCAAAATAGGAAAAGATTTCCTGCATATGGGAAGCAAGTCACAGAAAAGAGAACGGGAGATTGGA
AACAGAARCAAATACCGGAATCAAGGATGGCCGAAAACTTTTCATTGATCAAGAATATTAACAAAATCGCAAAAACACGAAATTCAATGCATCAAATAGG
CGTTTCGAAAAAAAGAAAAAATCTGGTATGATGCACTTTTGTACTTCACATTTTCACGGTAAGAAGACAAAGATATAATAACAAGAAACTTCTTATGAGA
AACTGGGGAAAAACAAGCTGTTTCTTGCTAGAAGAACAGTGATACAAATTGCTAATGCATTCTCGTCAAAAACACTGGAAGCCAGATACCGGGAATGTTA
TTAATGTGGTAAACAGGAACAAGAAGAGATCAACCAAGAATGCTAAATCCAGCAATAAAATGCCTTGAAGATCATCCATGCTGCATAAATGTATGTTGTG
CACTGCCCCAAACAAAGAAACCGGAAACTGTAAGAATTTGGAATCAGCAGGCTGATGTAACAAGAGAGGTGACCCAAAGGAATTAGGTAGAAGAAGAATA
GTACAAGAAGGGAACTTTCTGCAGCCCATGTAATGAAGAACCCAGCAATTGGCAAATGTAGATGTAAATGCAAAAGTATTTTCTTGACCAAATTTCTATA
TATTTTTAAATGAGCGTTGACTACTGGAAACAAAATGAGAGCAAGAGATTTAATTTTAGCCTCGGTAGAGGTAAGAATTTGAACAAGTAGCGTAAATCAT
GTAGGGAATAATTAGAAGTGTACCATTGTAAGTTTCTTACCTCATGCACAATGGTATGTAATATTAATAAAATGTTACTGTGTGGGTTCAAGGAGATATT
GCAAATCCTAGAGCAATCACAAAGTTTTGAACTCTGAGGTATATTGTATAATAAGAATATTCCATGTATTCAAAAGAGAGAAGCCAAGGAAGAAAGAAAT
TTGTCACGAGTTTGGGCTCTTAGTACATCCTGTAGCTCATTGAACCAGCTTCCTGGAATGGAGGGTCTGGGATTGACACTAGGCCACATGTATAGAGTCT
CTAGAGAGACAGTGTTTCATCCCCATGGCCCGTAATACATTTCCCATTTTCTCAGGCAGCCACAGGTCATGAATGTGAGGATAGAGAGAGGTTGGAGCAA
CGTTCTTGGGAGGCATAAGGAAGAGCAAATGCTTCAAGATCCCCGCAGCCCAAACTCCTACCTGCTTTGCCCCCTAATGCAGTGTTCCTCCGTAGCTGTC
CGACCTCTTCAGATCTCTTAGTCTACCCTGCCATCTTCCTTTATGCCATGGGTCCCACTGTTCTTTCAACTCATCCCCCTTWCCCTCAGTGCAGAGTAGC
TGCGGCCAGCAGAGGGTAGACTGAGAGCAGGAGAGAAGGTCCTGCCCAGGAACCCATTCTAGAGATGCTGCATTCTGCCTGGGAGCAAGTTTTCCAGGGC
AGCTTTGAGAAGTCTTGCAGAAACAAACCTATTTGACCCACATGATATGGGAATGACAGAAAGTAATACAATTTGCACAGTGCTTTTCCATGGGAAAAGT
AGAGCCTTTTCGCGAGGTTTTGAGTACATAGAGAGTGAAGGTTGACCTGGAAAGGTTATCCTCCTGGATCCCATGTTTTTTCTGAAGAACTACCTGTTAG
TTGCAACTTGCACATTAGAATATGAAGTCCTACCGAGAGAGATACGGAGAACTAGATAAATACAGATACTTTTGTATGTGAATAAACGATTCCACAATAC
ACACATCAAAATCCATACCAGTTATTCCAGAGAGATGGATTGGGCAGAAGGCAGAAGGAGAATACTCTGATCGTTTTTTGCCCACGTGTATGTATTATCT
CAGTGTTTCTAAGAAGCGTTTGCTACTTTAGATTTTTTTTTATAATAATAATCTTTTAAGTATGAGAAATGTGCAGACAGGATTAGTGATTGAGAGCCAT
TTGTGCTTSTGGCAATCATATGGTACTTTTATGGGAATATTAGAAAGGCACTGGTAATGACCTTGTTGCAGCACAAAGGAGAGGGTGTGGGGTGCCCCTG
CATATTGTCCCACCTCTTGTGACGTGTATCGTTTTGGAATTTCCAGTGGCTTGATCATGAACTACTGCAGGAATCCAGATCCTGTGGCAGCCCCTTATTG
TTATACGAGGGATCCCAGTGTCAGGTGGGAGTACTGCAACCTGACACAATGCTCAGACGCAGAAGGGACTGCCGTCGCGCCTCCAACTATTACCCCGATT
CCAAGCCTAGAGGCTCCTTCTGAACAAGGTAAGGAGCCTGTGGCCAGAAACCTACACGTTTCGATGCTGGGATGAAAAGCCATGGAAATTCCCACTGATG
CAGCAGCCTCCAATGGTAAACGGATGCTCGAGTGTTGACTGAGTTCTGTCATGTAGGAGGAAGCCTCCGTGCACTCTCTGGGGGAGCCAGCGGATTGATT
TCTGGTGCAACGTTGGGTGGGCTGTGTCTTTAGAATTGGCACAAACCCTCCAGGGTGATCGACTTCACAACTCACCTCGTTGAAAAATGGGCTATCTCAG
TGTCTTAGCCAAAATTTTTATTGTAACATGCTGTCAGATGTGTGACTCTTTCCAAGCCAGTAAGCTTTTCCTGGGACTTCTTCAATTAGCCAGCATTCAG
TGCAATCTTCAGCATTGCAGATTCAGAGAAATGTGGCTCTGGAGCCTGTCACCCTTGAGAAACAGGGCTAACAGGGTTGCATTAATTCCAAATCACCCTG
GTTCTATGGAGCAGTACATGAACTCCCAATGATCTATGTTTCAGGACTTCCTCAGTCATAGGTGGGCTCTGCAGCCCTAGGTTTTTAAGTGAGTGACTGC
CCCGTGTTCTGGTGGCAGTTGTACCTGTGAGCGGTCTGGATAGAAAGAGTCGGAGACTTCTGTATTATTGCAACTCAGGATGTGGGTCATGAGAGGATTT
CATCTCTCCTGCAGGGGAGTAAGCTGTTCGCCTCCACCCATCCCTGATAACTGAAGTGTCTTTGTCTGCAGTYCTAGACGAAGGACTGTTGTCTCTCCCA
TGGCCCAGAAGCTGAAGACCTTGCCTTTTGTTATGAAACGTTCATTGTTTTCATGTCTGTCCGTTTCTCTGCCCCTAACACCCAATCACCATGTATGGCC
TGTACCCCCAAATGCATCGTGCTTTGCTGTTTGCTGCCCCATAGTCCTCATGAACATTCAGTAGAAATTCCCATAAATGTGCTTGCACGTGAGCACAGTT
TCCATTGAGAAGCCCTCTCATYTGTCCTTTTTTTCTAAGCTTTTATGTGAAATATTTCTAAGAACTTACTACAGTTCTAAARTGTTAGGAATTTGTTTCT
TTGGTGTTTTTGTTTGTTGGTTGGTTGTTGCTTTTCTCAAGTCCATCTGCCTACAAATAAAGAAACAAGAATGTTACTTGTCATATTCTCCTGAGGTCAT
AATTCTCAGAGACTTTTTTCTGGTTTGTGCCATAAGTGGCTTCACATGTTTGTCTCTTCTTGGAAACACTCAGTTTGATTTCTTTTCTTTTCATTTCAGC
ACCAACTGAGCAAAGGCCTGGGGTGCAGGAGTGCTACCACGGAAATGGACAGAGTTATCAAGGCACATACTTCATTACTGTCACAGGAAGAACCTGCCAA
GCTTGGTCATCTATGACACCACACTCGCATAGTCGGACCCCAGCATACTACCCAAATGCGTATGTCTATTTTCTTTACCATAAGTGAAGGAAGGGTCAGT
GGAAATTTCTGTTAGTAGAGTCATGCTTCAAGCTGAGTGTTCAGGACTCAAGTTGTCTCAGATGAACAGTGCATAGCAAAATGTCTCAGGAACATTGTCT
TTGAGCAAAGAGTCTAAGAGAAGACAAATGTTAATCTGGCTCTCCTTCCTCCTAGTTTAATGGAGCAGAAAGGTATCTGGAGGCAAGGATATCACATTAA
GAAACAAGTCAAGATGACAAATGATGAAACTCTTAGAGTACCCTTCCACAACACCCACTAAGGTTCAATGCAGCCTTTTCTCCTTGGAATTCTATTAAAC
TAAACTCCAATTCCTGAAGTGAAGGTTCTGTTGGGGTTTTCTGTTTTGGCTTACAAGGAAAGTATATATGTATATCTATGGAGAGGCAAATCTATCTCTT
TCTATATCTACGTCTATTCCAATATGTAGAAACACAGTCGGTTCTGACCACCAGTGGTCTGAAGGGATACTGGTTGTTAGAGAATAAAARTGGCAGGAAG
GCAGATGAGAGTCAGCAAAGAGAGAGATCCTGTAAAGTAAAAGGGTGGATAGATGGACAGAAGCCCAGGTCTGACCAGCCCATGGCCAGGCTTTMGGCCA
TAAGTGACACCAAAGACATGGAAAAATGGTTTCTACATGTTGGACAACAGACAGTAGTGGACCAAAAGAATAGTGACAGGGGGAACAATGAGATCAACTC
CATAGATACCTTGGCTTTCTTCCTGGAGGCCCTTCTTGCACTGAAGAGYAAGGTGATGGAGCCCAGATGGACTGTAGCCATCTTCCTGAATGCAGGAGAG
AGATTGGAATTTGGGACTACTGTGGTAGCTAGGATTTTATAGGCCTGCTGAGAATGAGAATGGATTTGTGGATGAAAGGAGCTCCAGGGGCACGCATAGT
AGTCTCCTCGAATCTTTGGCTAAACATGACGTTGCATGTGCCCAGAAAAAGGTTCCACAAGAAAGTAGAGAAAAGAATATATCCTGAGGAATAGCAACTG
CGATTGAACAGTGAGCTCAATAAAGAGGACAGAGCCCTCATAGCATTCTGGGATACTGGAGTTCTGACCAGCTGGAGGAGAGACCTCACTGAACCTCTTG
GGAATACAGTAGAGACTCCAGAAAAGTCATACTTTAGGAGTAGAATTAGTAAATTTCTAGAAAAAAAGGCAGCTCTAGACAAACCCTGGCAAAACTGAAA
AGCAAGTCTCCAAGCATTAAAATCATTTCCAAGTCAATTAACTGCCTGGGAGAGGAAAACCCTCTTTAGAGGTAAACAACAAAGTCAAGTGGCTCAGCTA
TGTGGTGTTCACAGTGTGAGTTCTAAATTTAAAACTTGACTACACATAGAGAAGCTTTTAGTATGAACCATGACCAGGTGAAAAATCAGTCAATACAAAT
AGACCTAGAAATGACAGAAATGATTAGAATGGCAAAAAATTTGACATATCAATATGTCAACTGAGTTTTAGGTTTTAAGAAAACATGAATACGGAATGAA
GCAGATACCATATCAAGAGACAGTAACAGTATAGAAGAGCCAAATTAAATTAAAGAACTAGTATAAGAAGGTATGTCTTAAATGAAAAAATTACTGGATG
TATTCCCAATGGAGTGAGATGTTTCAGAAGTAAAAACTAACTGAAAAACAATTTTATACCACCTACAGAACCAGCTACACATACACAAATGACACACACA
TATACACACATACTCACACATGCACAGGCTTAGAAACATGCACGCACACACACACACACACACACACACACCTCCACAAATACTAAAAAATGAAATCCAC
TGATCCTCACAGACAGGCGGGAAAATATAAAAAGATTTCCTGCATGTGGGTAGGAAGTCACAGAASGAGAGGAAGGAGAGATTGCTACAGGAACAAATAC
TGGAAGCAAGGATAGCTAAAAACTTTTCAAATAAGAAGAATATTAAAAACCACAGATTCAAGAAGCTGAATGAATCAGACAGGGAATTTCCAAAAAAAAA
AAAAAAAAACTGTATGATTCACTTTTGTACATCACCGTTCAACAGTCAGAAGGCAAAGATATAATAACAAGAAACATCTCATGAGAAACTGGAGGAAAAA
GAGCTGTGTCTTGCTAGAAGAACAGTGATACAAATTGCTAATGCATTCTCATCAGAAACACTGGAACCCAGTTAACAGGGGATATCATTAAAATGATAAA
CTAGAAAAAAAAGAGATCAAATGAGAATGCTACATCCAGCAATAAAATGCCTTGAAGATCATCCATGTTGGATAAATGCATATTGTGCACTGCCCCAAAT
AAATAAACCAAAAACTAATAATTTGGAATCAGCAGGCTTGTGTAACAAGAGATGTTGCCCAAAGAAAATTAGCTAGAAGAAGAATAGTTCAAGAGGAGAA
CTTTCTGCAGCCCACRTAATGAAGAACCCAGCAAATGGCAAATGTAGATGTAAATGCAAAATATTTTCTTGATCAAATTTCTATATCTTTTTAAATGAGA
GTTGACTACTTGAAGCAAAATGATAGCAATATATTTAACTTTAGMATATGTAGAGGTAAAAATTTGAACATATARMCTAAATCATGTGGGGAATAATTGG
AAGTGTACCATTGTAAGTTTCTTACCTTATCCAYGATGGTATGTAATATTAATGAAAGGTTGAATTTGTGGGTCCAAAGGGATATTGTAAATCCTAAAGC
AATCATAAAATTTTGAATTCTGAGGGATATTATATAATAAGAATTTTCCATGTATCCAAAAGAGGGAAGCCAAGGAAGAAAAAGAAGTCTTTCAAGTACT
CAAGCTCTGAGCACATCCAGTTGCTCWTTGAACCAGCTTCCTGGAATGGAGGGTCTGGGCTTGAGACTAGGTCACATGTGTAGAGTCTCTAGAGAGACAG
TGTTGGATCCCCATGGCCCATAATACATTTCCCGTTTTCCCAGGCAGCCACAGGTCACGAATGGGAGGATTCTGAGAGGTTGGAGCAATGTTCTTAGGAG
GCATAAGGAGGAGTGAATGCTCTGAGATTTCCCCAGCCTGAGGTCCTCCATAGCTGCCCGACCTCTTCAGACCTCATAGTCTGCCCAGCTGTCTCCCTTT
ATGCCATGAGTGCCACTGTTCTTTCAACTCATCCCCCATTCCCTCAGTCCCGGAATTGCTGTGGCCAGCAGAGGATGGACTGAGAGCAGGAGAGGAAGTC
CTGACCAGGAACCCATCCTAGAGATACTGCATCCTGCCTGAAAGCTAGGTTTCCAGGGCAGCTTTGAGAAGTCTTGCAGAAAGAAACCCACTTGACCCAC
CTGATACGGTATCGACAGACAGGAATACTTTTTGTGCAATGGTTTTACATGCTGAACATAGAGCCTTTTGGCTACATTTTGAGTACATTGAATGAGACTG
CTGGCCTGGGAAGGATATCATGCTGGATGCCATTTTTTTCTCTGGAGAACTATGTGTTAGTTCCAACTCGCACATTACTATATGAAGTCCTACACAGAGA
GATACGGAGAGCTAGACAGATAGAGATACTTTTGTATGTGCATAACCAATTCCACAATACACACGTCAAAATCCATACCAGTTATTCCAGAGAGATGGAT
TGGGCAGAAGGCRGAAGGAGGATATTCTGATCCCTTTTTGGCCACATGTATGTATAATCTCAGTGTTTCTAGGAAGTGTGTGCTGCATTAGATTTTTTTT
CTTTAAAAAAAGTGATAATATATTAAGTATGAGAAATGTGCAGAGAGGATTAGAGATTGAGAGCCATTTGTCATTGTGGCAATTGTATGGTATCTCTTTT
GGGAATATTTCAAAGGCACCAGTAATGACCTTGTTGTAGCAAAATATACAGTGTTCCTGCATATGTACCCATTTTTTGTGATGTGTATTCTTTTGGAATT
TCCAGTGGCTTGATCAAGAACTACTGCCGAAATCCAGATCCTGTGGCAGCCCCTTGGTGTTATACAACAGATCCCAGTGTCAGGTGGGAGTACTGCAACC
TGACACGATGCTCAGATGCAGAATGGACTGCCTTCGTCCCTCCGAATGTTATTCTGGCTCCAAGCCTAGAGGCTTTTTTTGAACAAGGTAAGAAGTTGTG
CCAGACATTTACCTGCTTGGATGCTGGGATGAAAAGCCATGGATACCCCCACTGACGCACAASCCTTCAGTGCTACACTGGTTCTCGTGTGTTGGTTCTG
GGTCTGCCATGTGGGAGGAAGCCTTAGCGCACTCTCTGGGGGAGCCAGAGGTGTGATTTTTGGTGCAACCTGTGCGAGCTGTGTCTTTAGGATGGGCGGA
AACCATTCTGGGTGCTCGACTTCACCACTCCCCTCATTGTAAAAGGGGCTATCTCATTGTCCTAGACAAAATTCTTATTGTAATATGCTGTCAGATGTGT
GTGTCTTTCCAAGCCAGTAAACTTTTCCAGGGATTTCTTCAAGTAGACAGCATTCAGTGCAATCTTCAGCATTGCAGATTCCGAGAAATGTGGCTCTAGA
TCCTGTTATCCTTGAGAAACCTAACTGGGTTGCATTAATTCCATATCTCCCTGGGTCTGTGGAGTAGTACATGAGCTCCCGAAGCTCTATCTCTCAGGTC
TTTTTCAGTCCGAGGCAGGTTGTGCAGTTCTTAGCTTTGAAGGGAGTGATTTTTTCGTGTGCTTTTGCCTCTTTCTGATGGAACTTGTACCTGCGGGGGG
TCTGGAGAAAAAGAGTAGTAGACTTTTGCTTTATTGCAATGCATTATGCTGGGCACGAGAGGATTCCCTATCTTATTGTAGGTGATAAGCTTTTGGCCTC
CACTCATCCCTGAGAAGTGAAGTGTTGTTGCCTACAGTTTTAGCTGCAGGACTGTTGTCTGCCCCATCACCAGGAGTTTAATGCTTTCTTTTTTGAGCAA
TCATCTAGGGACACATGCAAGGTTTTTATATGTCCTTGCCTCCTCCCCAAAAAACCATTTTAATGCTTGGAGACTTGCTTTTCAGCTTTGCCAAATGCAT
CACCCTTTCTTCTATGCTGTTCCATGTCGTCATGAACACTCTGTAGAGATTCCTAGAAATGAGCTTCCATGTTAGTGGAGTTTCCGATGAGAAGCAATCT
GATATTTCTTTTCCACTAAGTTKTACRTGAAATATTTCTAAGAACTTACTACAGTTCTAGAATGGTAGGCATCTCTTACTTTCGTGTTTGTTTGTGTGTT
TTCTCATGTCCATTTGCCTATTAATAAAGAATAGAGAATGGTTGTAAATCTCAGTGACTCTTTTTTGGTTTATGTCATAAATGGCTTCCTGTATTTTTCT
GTTCTAGGAAATAATAAGCTTGATGTCTTCTGTTTTAATTTCAGCACTGACTGAGGAAACCCCCGGGGTACAGGACTGCTACTACCATTATGGACAGAGT
TACCGAGGCACATACTCCACCACTGTCACAGGAAGAACTTGCCAAGCTTGGTCATCTATGACACCACACCAGCATAGTCGGACCCCAGAAAACTACCCAA
ATGCGTACGTCTTTGTTCTTTACCATAAGCRAAGGAAGGGCCAATGGAAGTTTCTGTTAGAAGAGTCATGCTTCAAGGTGACTGCTCAGGACTCAACTTG
GCTCAGATGCAGAGGAACATTTCCTGTGAGCMAAAGTTCTTAGAGAAKACTTTGTTTTTTTGAGACAGAGTCTTGCTTTGTTGCCCAGGCTGGAGTGCAG
TGGCATGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCTTCAGCCTCTCTAGCAGCTGGGACTACAGGCACCCACCACCAC
ACCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTTCTAGCCAGGATGGTCTTGGTCTCCTGACCTCGTGATCCGCCTGCCTCAGCCTC
CCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCTGAGAAGACATTTTTTAAGCTGGCTCTCCTTCCTCCTAGTTTTATGKAAGCAGAAGGAT
ATATGGAGTTGAGAAGATCTTATTAATAAAACAGCCGGGATGACAAATGACCAAAGAGTTAGAGTATCCTTCTACAACATCGGCTGAGGGTTAATACAAC
CTTTTCACCTTGGAATTCTATCATTCTAAGCTCTAGTCCCTGAAGTGAATGTTGTGTTGGCCTTTTGCAYCTTGGGTCACAGGGAATTGATACTTGCACA
TCTATGGAGAGGCAAATCTTTTTCTATCTACTTCTTTTTCAATGGGTACAAACACACTTGGTCCTGAGCACCAGTGGTCTGAAGAGATACGGTCTGCCCA
GAGGAGAAGAACAAAGGCAGGAAAGCAGATGAGAGTCAGCAAAGGGGCGATGCTGAAAAGTAAAAGGGGCGGGTAGATGGACAGAAGCCATGATCTGGCC
ATTCTATGGCCAGTCTTTCGGCCATAAGTGACTACCAAAGACACGGCAAAACGGTTTCCACATGTTGAACAACAGATGCTAGAGGACCAAGAGTATTGCA
AGAGGGAGAAAATGAGATCAACCCATCAATGCCTTGGCTTTCTTCAAGGAGACCCTTCCTGCACTGAAGAGCAAGGAGATGGAGCCCAAGCTGACTGTAG
CCATGTTGCTGAACAGAGGAGAGTGATTGGACTTTGGGATTACTCAGGTAGTTAGGATTTTCTAGCCATGCTAAGAGTAAGAATGGACTTGTGGAGGATA
GGAGCTCCAGGCATAGAAGTCTCCTCAAGTGTTAGTCTAAACATAAAGCAGCACTTGCATAGAAGATTTTCCACAAGAAAATATGGCAAAAAAACACCAT
ATATTGAGGAACAACAACTACAAGGGAACAGTGAGCTTAATAAAGGTGACAGAGCTCACATAGTGCTCTGGAATATTGGAGTTTTGACCAGCTAGAGAGA
AGAGACCTCATTGAAAATCTTGGGCATTCAGTAGAGACCTCAGAAAAGTCAGACTTTATGAGTAGACTTTGTATATTCCTAGAATAAAGGCAGCTCCAGA
AAAAACCTAGCAAAGCTGAAAAGCAAATCTCCAAGCATTAAAATGGTGTCCTAGTCAATTAACTGCCTTCTAGAAGAAAACTCAACACTCTTTACAGGTG
AACAACAAAGTTAAGTTGCTGAGCTATGCAATATCCACAGTGTGAGTCCTAAATTTATAACTTTACTACACATAAAAAAGCATTTAGTGTGAACCATAAC
CAGGAAAATAATCAGTCAATAAAAATAGAACCAGGAATGATAGAAATGATTTAAATGGCATGAGAATTTGACATATTAGTATCATAACTGCATTGCTGGA
TTTAAGAAAACATAAACATGGAACGTAACAGATATCATATCAAGGGAAAGTAAAAGGATAAAAGAGTCAAATCAAATTAAAGGACTATTAAAAGGTATAT
CTTAAATGAAAAATTCACTGGATGGTCTCCCAATCAGGTTAGTTGTTTCCAGGGAAAAAATTAACTGAAAAATAATTCAATAGAATCTACAGAAATAGCT
GCACATATATACACACAATGGCACACGTGCACACACCCACACCCACACAGGTGTGAATCCTAGAGCCACACSAGCATTGAAACATAGAGAAGTAAAAATT
GTTCATTGAGGAATATGTAGCAATGCTCAATGTGTTTTACCCTAATAAGAGCTTTTGTGATGTATGATTGAAAAACTGACACAACTGAAGAGAGAAATAG
ATAAGCCCACACTCTGAGTTAGAGATTTCCTTGATTCTCTCACTATGGTTATAAATCTTTCCCAAACACAACAGGCTAGAACAAATATGCAGAAAATTAG
ACATAGTATCTTTGTTCTCAATAAAAACGTCGACCTATTTAACATTATACCGAACTACCGAATACACATTAAAGTGTGCATGGAGCATTCACTGAGGTGT
ACTCTACACATGACCTTCCAGCAAGTCTCCATAGATTTAAAAGAATTAAAGTCATACAGAGTGTGTCACTTTATTCTCCCAGAATAAAGTGAGATATGAA
TAATGAGAAGTTTGCCAGCTTCTCAAATATTTGGGAGTCATAYGGTGCATTTCAAAATACTCTTTGGGACAAAGAAAACATCACTAAGGAATTTAGAAAA
GTTTTGAACTGAGTAAGAATATAACACAATTTATCCAAACTTAGGAGATGCAGTGAATGTCTTTAGGCTTTTACATAATTTTAGATGCTCTTAGGGAAAA
ACAGAAGCATGTAATAATCAAGATTTCAAACTGCAATTCTCAAAGTGTAGTCTAGAGAAACCTGAGGACCTTTGAGTACCTTCAGAGACAGTCCATGAGG
TTAAAGGACTTTGCTACGTGAAAAGTAAGATGCTATTGGCCCTTTTTACTTTCATTTTCCAACAAGAGAAGAGGGGAGTTTTCCAGCAGTTACATAATAT
GTAATGGCATCATGTCTCTGATGGCTAAGAAAATGGGCAATTGTTGACTTTGTGTGTTAAAAAAATTCTCAGTGTTGGTTTCTTATACTATAAATATTCA
TCTTGTGTTTTGAAAAAGAAAAGCTCTTTGGAATCCCCTATGAACAAAGACTTTGACAGTTGTTGATCTAAGACCACAGCTTAARTATCTACACAAGAAA
AAAAAAAAAAGCAAATAAGAGCCAAGGAAAGCAGATGGAAGGAAGTAGTCCAAACCAGTGACATTCAGTGAACAAGAAAAGAGACCAACAAGGGAGTAAA
CTCTTGAAACAGAAAGTTGATTCTTTGAAAAGATCCATATGATTGAACACAGTCTGGCTAAACAAATGACAGACCAATGAGGGTGCACAACCATCACCAT
CTGGAGTAACAGAGGAGAGGTGCCATTACTATAGCATCTTCCAGTTCTGAAAGCTGAAAAGAAGATTTTGAGAACAATTGTATGTGAATAAATTCAGGAA
TGTTAATCATGTGGGMCAATTCCTGAGGAAGACAACAAATCAGCAAACCAGATGCTGAATAGTTAGTGTAGTCCTGTAGAGAGACATACAGAGAGGCTGA
CAGAGAAATATTTGTATGTGCATAAAACAATCTACAAGACACACTTCAAAATCAATCTCAGTTAATCTGGAGGAACATATTTCACAGAAGGTGGAAGGAG
GGTATTCTGATCCTCTTGTACATTGTACAACATTGTACAATGTACAGAGTATAATTGTACAAGTACAATTGAAGTTGTACAAGTACAAGTGCAACTTGCA
CAATGTACAGAGTAAACATTGATGTTTACTCTCAATTTTCTTATGGAGCACAGATGACTTTGGATGTGTTACAATATGAATGATAATTTGTCTTTGAGAT
GTTCGCAGTTGTTTAGAAGTTGAGGACCATTTGTGCATATTATGGGACCTTTAGTGAAAATATTTCAAAGTCTCTTTTTACACTTTGTTACAGCAAAATG
TAGAGGGCGCTAAGTGCCCTTGAATCTTCTCCCATCTCTGGTGACCTGTGTTGTTTTGAAATTTGCAGTGGCCTGASCAGGAACTACTGCAGGAATCCAG
ATGCTGAGATTCGCCCTTGGTGTTACACCATGGATCCCAGTGTCAGGTGGGAGTACTGCAACCTGACACAATGCCTGGTGACAGAATCAAGTGTCCTTGC
AACTCTCACGGTGGTCCCAGAYCCAAGCACAGAGGCTTCTTCTGAAGAAGGTAGGAAGTCTRTGGCCAGACAACCACACCCTAGGACGTTGGGATGAAAA
SAGTTGCAAAATCTTAGTGATATAGAAGCCTTCCATGCTCACACAATTCCAAGTAGAATGTGGACTCAGGGTCAGCCACTGGGAAGGAACACTCAGCGCC
TTCTCTGGGAGAACCAGAGCTGTGATGTTTGGTACCCTGTGAAAGGGTGGTATCTATAGGAAGGGTGCAGACCCTCTAGGGCACTGGACTTACCACTCCC
CTGGTTATTCAAAGGATCATTTTAGTGTCTTAGCCAGAAGAATATTCTAACATTTTGCCAAATTTGTGAAGATTTACCAAGCTCATGATAAGCCTTTCAT
GGTATTTCTTCAAGTAGTCAGTGTTCRTTGCATCTTTGGCTTTGYGGTTTCGGAGGAATGCGGTTTTTGAGTCTGTCATCCTTGAGAAACCTAATATGAC
TTTTCTTAGTTCCATATACTTCTGGGTCCAGGTAGCAGTACATAGCCAACAAATGCTCCATCGTTCTGGCCTATCTCCATCTTAAGCCAGTCCTGCACAA
CTAGGCTTTGATGGGAGGGATCTCTCAGTGTTCTTGCCCCTCCTTCTCATGGAACATATATCTGTGTTGGTCTYTGAGAAGAAGAGTAGTGGATATCTAC
TTTGTTGCAATGCAGAATCCTGGGCCAAAGATACCAGCCATCCCTCCAAGGGAATAAAATTTTGGCCAGTAGCCCTCTCTGAGAGACAATTTGTCTTTGC
CTACGAGTCCTAGATGCAGGACCGCTTCCTGCCCCATCTTCAAGAAGCTGAAGGCTTTGGCTTTGGAGGATCAGCAGTCTAGGGAAATGTGTGACGGTTT
CATGTCTGTCCCCACTGACAGTCAATCACCACCTACAACCTGCACAGCCTGATGCATAGCAGTCTAGTTTCCTGCCTTATTCTCAGGAACACCCAGAAGA
TGTCTATATTAAAGAGCATGCACATGAGTRCAATTTTGACTGATAGGCACTCTGATCTTTCCTTTGGTGCCTGTGTTTTAAAGGAAATCTTTCTAAGAAC
TCGTTAAAGTTCTAGAATGCTATGAATCTTTGGGTTTTATTATTGGTATGTCCATCTGCCTGCTAGTACAGAACAGAGCATGGTAGTCTTTCTCAGAGAC
AATGATCCTGTTTCAGTCACAGATTTCTTCTGATGCTTCTGTGTTCTAGAAATTACTCAGCTTKATTTCTCCTCTTTGAATTTCAGCACCAACGGAGCAA
AGCCCCGGGGTCCAGGATTGCTACCATGGTGATGGACAGAGTTATCGAGGCTCATTCTCTACCACTGTCACAGGAAGGACATGTCAGTCTTGGTYCTCTA
TGACACCACACTGGCATCAGAGGACAACAGAATATTATCCAAATGGGTACAACCTTGAGTTTTCTTCAAAGACAGACAGCAGCCCCCTTACATTTCTCTT
GGAAGGGCCATGCTTCCAACTAACTTCTTATGACAAATTTATCTCAGATCTGGAATGTTGGGTAGAATGTCTCAGGCTTCTTTCTTCAGGCACAGTGTCT
GAAAGGAGAGAAATGTCAGGCCAGCTCTCTTTTCTCATAGTTGACAGAAGCAGGAGGATATTTGAAGGTGGTGAGTTCTCATGAATAGAAAGCTCAGGAC
ACATGGCCACGTGCTTAGAAATAGCACCATTCCACAATGCCCACTAAAGACCAATGCAATAGTTCAACCAGGGATTTCTGTCATTCTAATCTCCAAGTCC
TGAAGTGAAGGTTGTATTAGCCATGTTCATCTTGGGCAACAAATAAAGGATATCTATGTTGACATCCAGATCTTCCAATCACTTTCTCCTCTAACCTGTA
CCTGGGTTCTGAGAACAAGGTATCTGAAGAGCTATGTGTTGCCAGCACATGAGGGGCAAAAGTAGGAAGGCAGCTGAGAGTCAGGAAGTATAAAGATTCT
GAAGAGTTACACATGCAGGAAGATGGACAGAAACCCAGTTCAGACCACGTCAGCGTTTCTGCCATGAAGGACTATCAAATACATAGGAAAAGTGTTTTCA
TAGGTTGGACAACAGACATGACAGGCCTGAGAAAATTCAGAAAGGGAATCAAAGGAGATCAACCTTATCATGTCCCTGGCATCCTTCCTTGAGACCCTTG
AAGGGCAAGCAGATGGAGCCCAGCTGACCACAGCAGTCTTGCTTAACTGAGGAGAGAGACTGGAGTTTGTGATGCCTCAGGCATCTGACGTATTCTAGGC
TGGCTAAGAATGAGAGGGGATTTGTGGAGGAAAGGAGCTCCAAGAATACACACCGAAGTCTTCTCAAGGCTTTGGCTAAATACAAAGCTGCGTATGCACA
AGGAGAGTTTTCACAAAGAAAGAACAATAAAGAAAAGCTACTGGGGAAAGAACAACTGCAAGGGAACAGTGAGCTCAATGGAGATGCTAGAGCTCACATA
GCACTGGGGGATATTTGAGTTCTGACCACTCAGAGGAGAGACACCTCACTGAACATCTTGGGCATTCAGTAGAGGTCAAAGAAAGCCATAATTTGGGAGT
AGGATCTTCGGATTCCTAGAAATAAGGTGACTCCAGAAACACTCCAGCAACCCTTCTTCCAAGCCAGTCTAAAAGGATCCAAATGATTTCCAAGTAAATT
AACTGCCTTCCAGAAAAAAGTAAACTCAACCCTCCTTAGAGGTAAGGAACGAATACAAGTTTCTCAGTTATATGACATCCCCAGAGTGCAACTTGCATTT
AAAAATTTACTAGACACAAAAGAAGTTTTCACTGTGATCCATAACTGGGAGAAAAATCACTCAACACAAATAGGCCCAGAAATAATAGAAATTATGGCAT
TGGCAAGAACATTTAAAATGCACCTCTGAGAACTGTGTTTCAGGAAAATGTCAGCAAAAGCTGACCATGAGAGAAATGAATGCATAATATCAGAAAAGAA
AAGAATTGAAGAGCCAAATGGAAATTTAAAAACTGAGAAAAGTTATATCTGTAATGAGGAATTCACTGGATGGCCTTATAACCAGTTTAGATATTATGGT
AGGAAAAGGTGAAYGAGAAAATGATTCAATTAAAGCTAGACAAACCACAAGACAGACAGACAGACACAAATACACATACACACAATGACTGAACCAATTA
ATCAACAGAGCCTCAAGGACATCTAGGAAAACATCCACACATTTAATATATGTGTTAGGCAAGTCACAGAAAGAGAGGAAAAAGATAATGTGACAGAAGT
TATACTTGAAGCCATGACGGCTGACAAATTTCCAAACATACAGAAAATGAGAAATTCATAGTCATGAAGCTCAATGACTCAGGTATAGATTTTTAAAGAG
CAAAACTCTGATTTACYGGGGTACATCATAGTTAAATTGTCTGATTTCAAAGCTAAGAAGAAAAAAAGGGGGTTCCTATGAACAAACATTTTGACAGTTG
ATCTAAGACCACAGCTTAAATATCTAGGCAAGGAAAAGCAAATAAGACACAAGGAAAGGGGATGGATGGAAATAGTCCAAACCAATGACATTCAGTGAAC
AAGAAAATAGACCAACAAAGGAGTAAATCCATGAAACAGAAAGTTGGTTCTTTGAAAAGATTCATGTGATTGACCACAGTCTGGCTRAACAGATGACAGA
CCAAGGAGGGAGTACAACCATCACCATTTGAAGTAACAGGGGAGAGGAGCCATTGCTATACCATACTCCAGGTCTGAAAGCTGACAAGAAGATATCAAGA
AAAACTGTATGTGAATAAATTCATGAATGTAGATCATGTGGATCAATTCCTTAGGTAAACAACAAATCAGCAAACCAGATACTGAATAGATTGGGTACTC
CTATAGAAAGACATACAGATAGCCAGACAGAGAAACATTTGTACGTGCATAAAACAATCTACAAGACTCACTTCAAAATCTCTCAGTTAATCCAAAGTAA
CATATTTGGCAGAAGGTGGAAGGAGGGTATTCTGATCCTTTCTTGTACACATTGATGTTTTCTCTCGGTTTTCTTATGGAGTATAGACGAGTTTGGATGT
GTTACAATAAGAATGATAATCTGTCTTTGAAATGTTCACAGTTGTTTAGAAGTTGAGGACGATTTRTGATTGTTACAGGACCTTTAGTGAGAATATTTCA
AAGTCACTTTTTACCACTTTGTTACAACAAAATGTAGRGGATGTCTGGTGCCCTTGTATCTTCTCCCATCTCTGGTGAACTGTATTGTTTTGTAATTTGC
AGTGGCCTGACCAGGAACTACTGCAGGAATCCAGATGCTGAGATTAGTCCTTGGTGTTATACCATGGATCCCAATGTCAGATGGGAGTACTGCAACCTGA
CACAATGTCCAGTGACAGAATCAAGTGTCCTTGCGACGTCCACGGCTGTTTCTGAACAAGGTAAGAAGTCTCTGGCCAGACAACCACACCCTTGGACGTT
GGGATAAAAAGAGTTGCAAAATCTTAGTGATACAGAAGCCTTCCATGCTGCACGGGAATCTGAATGTGGACTCAGGGTCAGCCAATGGGAAGGAAGCCTC
AGCGCCTTCTCTGGGGGAACCAGGGCTGAGATTTTTGGCACCCCGTGACAGGGTGGTGTCTTTAGGAAGCGTGCAGACCTTCTAGGGCACTGGATTTACC
ACTCCCCTGGTTATTCAATAGATTATTTCAGTGTCCTAGTGAAAATGGATATTCTAACATCCTGCCAAATTTGTGATGATTTACCAAGCTCATCATGAGC
CTTTCCTGGTATTTCTTCAAGTAGACAGTACTCATTGCAAACTTCAGCTTTACAGTTTCAGAGGAATGTGGTTTTTGAGTCTGTCATCCTTGAGAAACCT
GATATGACTTTACTTAGTTCCATATCCTCCTGGGTCTAGGTAACAGTACATAGCCAGCAAATGCTCTATCTCCCTGTCTACCTTAATCTTAGGCAGGTGC
TGCACACCTAGGCTTTGATGGAAGGGATTTCTTAGTGTTCTTGCCCCTCCTTCTCATGGAACACGTATCTGTGTTGCTGTTTGTGAAGAAGAGTAGTGGA
TGTCTACTTTGTTGCAATGCAGGATCCTGGGCCCAAGATTTCCCGCCGTCCCTCCAAGGGAATAAAATTTTGGCCAGTACCCCTCTCTGAGAGACAATGT
GTCTTTGCCTGGAAGTCCTAGATGGAGGACCACTTCCTGCCCCATCTTCCAGAAACTTAAGGCTTTGGCTTTGGAGGATCAGTGCTCTGGAGAAATGTGT
GACGGTTTCATGTCTGCCCCCACTGACAACCACCACCTACAGCCTGCACCGCCTGATGCATGGCACTCTGGTCTCCTGCCTTGTTCTCAGGAACACCCAA
AAGAGATCTTTGCCAAAGAACAGGCACATGAGTGCAATTTTGACTGATAGGCACTCTGATCTGTCCTTTGGTGCCCAGGTTTTAAAGAAAATCTTTCTAA
AAACTCATTGAAGTTCCAGAATGCTATGAATCTTTGAGCTTTGTTATTGGCATGTCCATCTGCCTACTAATGTAGAACAGAGCATGGTCGTCATTTTCAG
AGATGATGTCCTGTTTCTATCATGGATTTTTTTTCTCATGCTTCTGTGTTCTGGAAATTACTCAGTTTGWTTTCTCCTCTTTGAATTTCAGCACCAACGG
AGCAAAGCCCCACAGTCCAGGACTGCTACCATGGTGATGGACAGAGTTATCGAGGCTCATTCTCCACCACTGTTACAGGAAGGACATGTCAGTCTTGGTC
CTCTATGACACCACACTGGCATCAGAGAACCACAGAATACTACCCAAATGGGTATGTCTTTGAGTTTTCTCCCAAGAGAAASAGCCACCCACTTAAATTT
CTCCTGGAAGAGCCATGCTTCCAGCTAACTTCTTATGACCCAATTTCTCTCAGACCCAGAATGTTGGACAGAATGTCTCAGGCTTCTTGCTTTGGGCACA
GGGTCTGAGAGGAGAGAAATGTCAGGCCAGCTCTCTTTTCTCATAGTTGATAGAAGTAGGAGGATACTTGGAGGTGGTGAGKTCTCATGAATAGAAAGCT
CAGAAGAACATATGACCATGTGCTTAGAAATAGCACCATTCCACAATGCCCACTAAAGACCAGTGAAATAGTTCAACCAGGGAATTCTGTCATTCTAATC
TCCAAGCCCTGGAGTGAAGGTTGTGTTTGCCATGTTTGTCTTGGGTAACAAGTGAAGGATATCTATATTGACTTCGAGATCTTCCGATCACTTTCTCCTC
TAACCTGTATAAACACATTGGGTTCTGAGAACAAGGTGTCTGAAAAGCTATGTGTTGCCAGCCCATGAGGGGCAAAAGGAGGAAGGCAGCTGAGAGTCAG
GAAGTATAGAGATGCTGAAGAGTTACACATTCAGGAAGATGGACAGAAACCCATGTCTGGCTATGCCAGCCTTTCTGCCATGAAGGACTATCAAATACAT
GAGAAAACAGTTTTCACAGGTTGGACAACAGATATGGTAGGCTTGAGAGAACTGAGAAAGGGAATCAAAGGAGATCAACTTCATCATTAACCTGTCTTCC
TTCCTGGACACAGTGTTGGATTGAAGGACAAGCAGATGGAGCCCAGCTGACCACAGCAGTCTTGCTTAACTGAGGAGAGAGACTGGAGTCTGCGATGCCT
CAGGCAGCTGATGTGTTCTAGGCTGGCTAAGAATGAGAAGGGATTTGTGGARGAAAGGAGCTCCAGGAATACACACAGAAGTCTCCTCAAGGCTTTGGCT
AAATACAAAGCTGCGTATGCACAGGGAGAGTTTTCATAAAGAAAGAACAACAAAGAAAAGCTACTTGGGAAAGAACAACTGCAGGGGAACAGTAAGCTCA
ATGGAGATGCCAGAGCTCACATAGCACTGGGGGATATTTGAATTCTGACCACTCAGAGGAGAAACACCTCACTACATTTTGGGCATTCAGTAGAGACCAA
AGAAAGCTGTATTTTGGGATTGGGATCATCTTATTCCTAGAATCAAGGTGACTCCAGAAAAACTCCAACAACCCTTCTTCCAAGCCAGTCTAAAAGGATC
CAAATGATCTCCAAGTAAATTAACTGCATTCCACAAGAAAAAAAAAACTCAACCCCCCTTAGAGGCAAGGGACAAATACAAGTTGCTCAGTTATATGGCA
TTCCTATTGCGTTACTTCTATTTAAAAATTTAATAGAGACACAAGAAGCTTTCACTGTGATACATAACTGGGAGAAAAAATCACTCAACACAAACAGGCC
CAGAAATTATAGAATTGATGACATTGGTGAGAACATTTAAAATGCACCTCTGAGAACTGTGTTTCAGGAAAATGTCAGCAAAAGCTGACCATGAGAGAAA
CAAAAGCAGAATAGCAAGAGAAAAGAAAAGAACCGGAGAGCCAAATGAAAATTAAAGAACTGAGAAAAGGTACATCTCTAATGAAGAACTCACTGGATGG
CCTTATCATCACTTTAGACATTACGGTAGGAAAGGTGACCTAGAAAATAATTCAATAGGAGCTACACAAATCACAGGACAGACAGACAGACCAACAGACA
GAAACACACACACACACACACACACACACACACACACACACACACACACACAAAGACTGAACCTATTAATCAACAGAGCCTCAAGGGCATCTAGGAAAAA
TCCACACATTTAATATATGTGTTAGGCAAGTCACAGAAGGAGAAGAAAAAGATATCATGACAGACATTATACTTGAAGCGATGATGGCTCRCAACACGCC
AAATATACAGAAAACAAGAAACTCATAGTCAAGAAGCTAAATGACTCAGGTATAGAATTTTAAAGAGCAAAACTCTATGATTTACTGGGATATATCATAG
TTAAGTTGCCTCAATTCAAAGCTAAAAAGAAAAAAAGGGGGTTCCTATGAACAACAGCTTTGACAGCTGTTGATCTAAGACCACAGCTTAAATATCTAGG
CAAGGAAAAGCAAATAAGGCACAAGGAAAGAGGATGGAAGGAAATAGTCCAAACCAATGACATTCAGTGGAAAAGAAAATAGACCAACAAAGGAGTAAAT
CCATGAAACAGAAAGTTAGGTTCTTTGAAAAGTCTATATGATTGGCCAAAGTCTGGCTAAACAGATGACAGACCAAGGAGGGAGCATATCCATCACCATC
ATGAGTAACAGGAGAGAGATGCCATTGCTATAGCATCCTCCAGGTGTGAAAGCTGAGAAGTAGATATTGAGATCAACTGTATGTAAATAAATTCATGAAT
GTAGATCATGTGGATGGATTSCTTAGGTAAATAACAAATCAGCAAATCAAACACTGAATAGATCATGCAGTTTTATAGAGACTTACAGACAGCCTGACAG
ATAAACATTTGTATGTACGTGAAACAATCTCCAAGACACACTTCAAAATCCCTCTCGGTTAATCCAAAGGAATGTATTTGGCAGAAGGTAGAAGGAGGGT
ATTCTGATCCTTTCTGGTACACATTGATGTTTTCTCTCAGTTTTCTTATAAAGCATAGATTACTTTGAATGTGTTACAATAAGAATCATAAGCTGTCTTT
GAAATGTTGACAGTTGTTTAGAAGTTGAGGACCATTTGYGAGYGTTATGGGACTTTAGTGAGAATATTTCAAATTTGCTTGTTTACACTTTGTTACAAGA
AAACATAGAGGGTGCCAGGTGGTGCTGTATCTTCTCCAATCTCTGGTGACCTGTATTGTTTTGGAATTTGCAGTGGCCTGACCAGGAACTACTGCAGGAA
TCCAGATGCTGAGATTCGCCCTTGGTGTTATACCATGGATCCCAGTGTCAGATGGGAGTACTGCAACCTGACRCAATGTCCAGTGATGGAATCAACTSTC
CTCACAACTCCCACGGTGGTCCCAGTTCCAAGCACAGAGSTTCCTTCTGAAGAAGGTAAGAAGCCTGCAGTCAGACAACCATACCCTCGGACATTGGGAT
AAAAAGATTTGCAAAATCTTTGTGATGCRGAAAACTTCCATGCTGCACAGGAAGTCGAAGGTGAAGTCATGGACAGCCAATGGGAAGGAAGCTTCAGTGC
CTTCTCTGGGGGGACCAGAGCTGGGATGTTGAGTGCCTTGTGAGGGATGGTGTCTTTAAAAGGGGCACAGACCCTCTAGGACACTGGATTTATCACTTCC
CTGTTATCAAACGAATCATATTAGTGTCCTAGCCAAGATGGATATTCTAACATCCTGCCAAACTTGTGAAGATATACCAAGCTCCTAAGCCTGTCCAGCC
CTTTCTTCAAGTAGGCAGTGTTTATTGCAGTCTTCAGCTTTACCATTTTGAAGGAATGCCATTTTTGAGGCTGTTGTTCTTGAGAAACCTAACATGTCTT
CATTAGATCCGTATTGTCCTGAGACTTTGAAGCAGTACATAGCCACCRAATTGTTTATCTCCCCAGCCTACCTTCATCTTGGGCATGCCTTCCACACCTA
GGATTTGAGGGAAGGGATTTCTCAGTGTTCTCATCCCTGCTTCTCATGGAACATTTATCTCCGTTGTTTTTTGAGAAGAAGAGTAGTGGATGTCAGCTTT
CTTGTAATGAGGGATCCTGGGCCCAAGATTCCCTGTCTCCCCTCCTAGGCTATAAAATTTTGGCCTGTACTCCTTCTCCCTGAGAGGCAATGTGTCTTTA
CCTACAAGTCCTAGATGCAAGATCCTTTTCTGCCCCACACCCCAGAATCTGAAGGCTTTTGCTTTGGAGGAGCAGTGGTCTAGTGTGCAAGGGTTTCATG
TATACCCCCCACTAACAGCCAATCACCACCTATAGCCTGAACAGCTTGATGCATGGCACCCTGGTCTCCTGCCTTGTTCTCATGAACACCCAGAAGAGGT
GTAAGCAAAAGACCATTCACATGAGTGTAATTTTGAAGTATAGGCACTCTGATCTGTTTTTTGTTTGTTTCTTTGTTTGTYTGTTTTCCAGGGTTGAATT
AAAATATTTATGACTACTTATTAAATTTCTAGAATCCTATAAGTCTATTTGTATTTTTATTCTACATTTCAATTTGCATGCTAATATAGAAGAGTGTAAA
TTGTTAATCCTCAGATTATTCCACTTTGTGTGTCATAATTTTTTTCACATTTCCCTTTTCTAGGCAATACTGAGCTTGATTTTCTCTTTTAATTTCAGCA
CCAACTGAAAACAGCACTGGGGTCCAGGACTGCTACCGAGGTGATRGACAGAGTTATCGAGGCMCACTCTCCACCACTATCACAGGAAGAACATGTCAGT
CTTGGTCGTCTATGACACCACATTGGCATCGGAGGATCCCATTATACTATCCAAATGCRTATGTCTATCATGTTAGCCATAAAAGGAACAATAGTCAACT
AAAATTTCTCTTAGCTGGCCCATGCTACAAGCTCACTTCCTAGGTCCAAATTTCTCATAGACTCAGAGTTTGTAGCAAAATGTCTCAGGAAACTTACTTT
TGAGCAAAAGGTCTGAATGAAGAGAAGTTTTAGGATTGCTATCTTTCATAACAATTTGATGGAAGCAGCAGGATATATGGAGGTGGTGAAGTCTCATTAA
TGTAAAGCTAAGGAGATCAAATGACCAAATGCTGAGACAAAGTATCATTCCACAATGCCCACTAAAGGTCCATGCAGTCTTTCAACCATGCAATTCTATC
ATTCTATCCTCCATTCCCTGAAGTGAAATTTGTGTTTGCCATTTTTGACACGAATCAGAAGTAACAAATTCAGGCTGGGTGCAGTGGCTCAGGCCTGTGA
TCCCAACACTTTGGGAGGACAAGACGGGCAGATCACCAGAGGTCAGGAGTTCAAGACCAGCCTGGCTAACATGGCAAAACCCCATCTCTACGAAAAATTA
AAAAATTAGCCGGTCATGGTGGTGGGTACCTGTAATTCCAACTACTTGGGAGGCTGAGGCAGGAGAAACACTTGAGCCTGGGATTCAGAGTTTGCTGTGA
GCCGAGAACATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCAATCTCAAAAAAAAAAAAAAAGAAGAAGAAGAAGAAAAGAAGAAGAGGAAGA
AGAAGAAGAGGAAGAAGAAGAAGAAGAAGAAGAGTAAGAGAAATTTTTTGGAGCCGCAGGAGGAGCCAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGA
AGAAGAAGAAGGAGGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAAATAGAAATGAGTGCAT
ATATTTATATATGAGTACTAGCCTGTATGAACACACTGGGTTCTAAGCACCAGTTTTCTGAAGGGATATGGGTTGTCAGGCAGAGTAAAAGCAGGAATGC
AGATGAGAGTCAGGAAGTAAACAGATGTGGTGATTAAAATGGGCAGGTACATGGACAAAAAAATGCATGTCTGACAAAAACTGGCCTCTTGCCATAAGTG
AGTATGAATAATATGGAAAAACTGTTTGCACATGTTGAACAGCAGACAGTACAACCTGAGATAGTTTAGAAAGGGAAACAAATAAGATCAACCCCATAAT
TACCCTTCCTAGACTTAAGGGCAAAGAGTTTTAACCAAAGCATTCCACAGCAGTCTTGCTAAACTGGGGAGAGAGACTGGAGTTTTGTTTACTAATAAAA
CCGAGATTTTCTAGGTTAGGTAATAATGAGAAAGTATTTGTGGAGAAAAGGAGCTCCAGGAATACACACAGAAGTCTCTTCAAGTCTCTGGCTGAACAGA
AAGCTGTGTATGCACAGAAAGAGTTTCCAGAGAGAAAGGAGAACAAAGAACAGCTACTGGGGAAAGAACAACTGCTGGGGAACAGTGAGCTCAATGAAGA
TGCCAGAGCTCACATAGCACTGGGAGGTATTTGAGCTCTGACCAGCCTGAGGAGAGACACTTCATTGAACATCTTGGGCATTCAGCAAAGACCCCAAAAA
ACCATACTTCAGGAGTAGAATTAATGCATTCCTAGAATAAAGTCTACTCCAGAAACACCCTAGAAAAGCTTAGAAACCAAGTCTAAAAAGATCCAAATGA
TCTCCAAGTAAATTAATTGCCTGTCAGAAGAAAACAACCTCTTCAGAGGTAAACAACAAAATTAAATTGCTCAATTATATAGTATGCACAATGTGTGGCA
TACATTTAAAAATTTGCTAAACATACAAAAAGCATTTAGTGTGACCCATAACCAGGAGAAAAATCAGTCAATACAAATAGACCCAAAAATGATAAAAATA
ACAGAATTGGCAAGGAGATTTAAAATGTATGTATCATAATTGTGTTCAAGGATTTAAAGAAAGCGTGGACAAGAAATAAATAAATGGATAATATCAACAG
AAAGAAAAATTGTAAAAGGACCAAATGGAGAGTCAAGAACTGAAAAAAAAGACATCTCTTTAATGAGAAAATCACTACATGGCCTTATAATCATATTAGA
TAGTACAGATGATAAAGCTAACTAGAAAATATTAGGGTGGTGCAAACCATAGCACGCTTATACAAAGCCTGAGAAGATAAACAGAGCCTCAAGGACATCT
ATGAAAATATCAAAATATTTAATATTTGTTTAAAGCAAGTCACAGAGGARGGGAAAGAGATATTGGAACAGAAAAAATACTTGAAGCAGTGATGGCTGAT
GACTTTCTAAATATGGAAAAAATGATAAACTCACATAGTCAAGAAGCTCAATGGATCAGATATAGGATTTTAAAAAGTAAAGCTGTATGATTTATTTGGA
CACATCATAATTAAATTGTCCATAATCAAAGATAGAAAGTAAAATCTTATTTGAAGCCCAAGGGAAAAAACATACCTTTACATAGAGTAACAGTGACACA
AATGACTGATGCCTTCTCATCAGAAACAACACAAATCAGAAACAATAGAATAACACCTTTAGAGTGGTAAGAAGAAAAAAAGATCAAATCAGAAACAACA
AAATAACACGTTTAGAGTGGTAAGGAGGAAAACAAGATCAAATCAGAAACAATGGAATAACACCTTTAGAGTGTAAGAAAGAAAAAAAGATCAAATCAGG
AACAACAGAATAACGCCTTCAGAGTGGTAAGAAGGAAAACAAGATAAAATCAGAAACAATGAAATAACACCTTTAGAGTAGTAAGAAGAAGAAAAGATCA
GGTCAGAAAAAATGGAATAAYATGCTAAGAAGAAAAAAAAAGATCAAGTCAGAAACAATGGAATAACACCTTTAGAGTGAAAAGAAGGAAAAAAACCCAG
CAAGCTTAAACGCTATGCACAGCAAACAATTCCACTGAAAATGAATGTTACGTAAGTACATATTCTGTCCTCCTAAAAACAAAGAACAAATAAAAGAATG
TTTCATCAGCAGGATTATGTAATAAAAGATGTGAAAGAATGCTATGTAAGTAGAAGAAAAATAATACCATATGGGAATTGGCATCAAAACCACAAAATAC
TATCAAAACAAAAAAACTTTATTGATAAATTTAACACAATATGCAAAAGAACTATACCATGTATACTACATAACATTGGTGAGAAGAAAATTAGAAGATC
TAAATAAAGACACATCATGCTTATAGATTAAAAAATCCAATGTCACTTTTCACAAAACTGATCTTTAGTTTCAACCCACACCCAAGCAGAATTCCTGCAG
TCTTTTCTTGAAAACCTAACAGAATGTATATGCTAGAATCACCAAGACAATCTTTAAAAAGAATAAAAAACTTGGAATAAAATCACAAGTTTGTGGGATA
GATGCATATGGTAATATGGAAATTCTCATAAAGACACAGTAATCAAGACATGTGGTATTGGCTGGGACGCTTGGCTGTAATCCTAACACTTTGGGAGGCC
AAGATGAGAGGATTGCCTGAGATGAGGAGTTGCAGACAAGCCTGGGCAACATAGCAAGACCCTCATCTCTACAAATATTTAAAAAAATTAGCCAGGTTTG
GTGCCATGTGCCTGTAGTCCCAGCTATTCAGGAAGCTGAGGTGGGAGGATCACTGGAGCCCATGAGGTGGAGGCTGAAATGAGCCATGATTGTGCTACTG
AACTTTAGCCTGGGAGACAGATTAAAACCTTCCCTCTCTCTCTCAAACAAACAAACAAAAAATACATAGTATTGGGCAAAACATATGCAAACAAAAACAG
AAAAGGGTCAGCATAAATTTACATATATGGTCAATTTATTTTCAATACAGGTAGCAAAGCAATTTAATGAGGAAATTTTTTTCCAAAATTGGTCTGAAAC
AACTGGATAGCCATAGAAAAAAACTATAACAAATGTGACGCTTGAATCCTACTGTATGACTCAAATTAAATTAATTTGAGATAGCTCTTAGACCTCAATG
TAACAGCTAATTCTGAGGCTGAAATATAAGACTGCTATGAAAAAGTATAGTATCTTATAACCTTGGAGAAGGAAAAATTTTTTGAGGGAAGAACCAGAAA
ACACTAACTGTAAAAGAAAACAAATGATAATGTGGACATTCATTGAATAAAAACTTATGCTCACCAAATATGACTGTTAAGAAAATAAATAAGTAAGTAA
CACACTGGAAGAAAAACACTCTCATCCATATATCTGACAAATGGCCTGTATCCAGAGTATAGAAACATTTCTCCCACTCACTAATCAGAGGACAAACAAC
CTAATCAAAATGGGCAACAGGCTTGAATAGTCATTTCTTAGGAGAAGATGCACACAGAGCCAACAATCACCTGAAAAAGTGCACAACATCTTAGCCATCA
AAAATCAAGAGTTATAACCCTCATAAGATGACACTGAACATCCAGTGTACATGGATATCATTAAGAAGACACAATAATAAGTGGTGTCACCGATTTGGAG
CTAGAATGTGCCACTCTCTCATATGCTGGTGGAAGTTCAAAATCATACAACAAATTAAAAAATCAGTCTGATGCTTTCTTATAAAGTTCGATAAATATGC
ATCTATCCTACAAACCTGTAATTCTATTCTTGAATATTTACCCCCCAAAATGAAAACATAAGTCCACAAAAATCTATATAAATATTCATAGCAGCTTTAT
GTTTTATAAACTCAAAATAAAAACTATTTCAATGTTTTCATCAAAAGAAAATGAAAACTATTTAAATGGTTTCATCAAAAGAAAATGAAAAAAGAATTTC
CAGTATATTTATACAAAGGAATACTATTCATCAACAAGGAACAAGTTACTGATAGTCTCAGAAGCATGAACAAACCTCRAAAATATATTAAGGAAAGAAG
CCAGACGTCAAAGTGTATAGTCTGTATGAGTCCATTCATGTGAGTTTATAGAAAACACAATTTATGGTGAAAGAAACCAATAGCATTTGACACTGGCCGT
GGGAAGAGGGTAGCAGAGATTGATTGAGCAGCCACACAAGGGAGTTTCTGGGGTGGTGAAAATGTTCTGCATTGTGAGGGCAGTGTGGGCTACACAAGTA
TATGTATTTATCAAATCTCATCCAGCTACATTTAAGATCTGTGCATCTCACTCTATGTGAAAATATACTCAACTGAAAAACAGAGCAGGTATCTGTTTCA
GGTGCTACATCACTTGATACGTCCAGTTGTGTTAAAAACCACTGCCTAACATCCTCAAATGGGGGATCTGGGCTTGAGACTAGGTCACATGTGTAGAGTC
TCTACAGAGACCGTGTTGGATTCCCATGCTCCATAATACGTTCCAAGTTTTCTCAGACAGCCACAGGTCATGAATGTGAGGATTCTGAGAGGTTGGAGCA
ACGTTCTTGGGAGGCATAATGGGGAAGGCATTCTCCAAGATTCCTCCAGCCTGGGGTCTTCACCTGCTGTGCCTCTTACTGCATTGTTTTCTGACTCATC
CATAGCCACTTGACCCCTTCAGATCCCATAGTCTACCTAGCCGTCTCCCTTTATGCCTTGGGTCCCGCTGTTCTTTCAACTCATCACCCATTCCTTCAGT
CCCAGAGTGGCTGCAGCCAGCAGAGGATGGACTGAGAGCAGGAGAGGAGGTCGTGCCCATGAACCCATCCTAGAGAAGCAGCATCCTGCCTGGGAGCTAG
TTTTCCAGGGAAGCTTTTATAAGTCCTGTAGACCCAAACCCACTTGCTCTACCAGATACAGTATTTATAGTAATACTATTTTCATGATTATTTTATATTG
CAAATGTAGAGCATTTATGCTACACTATGAGTAAATAGAGTAAGGGGGCTGGCATGGGAATTATATAATCTTGGATGCCACTTCTTCCTTGGGGAAATGT
ATTTGAGTTCCAACTTACATATTACTATATAGTCTTATAGAGAGAGAGACAAAGAGCTAGACAGACAGAGATATCTTTGTATGTGCATTAAAAAATCTAA
GATACATATTTCAAAATCTGTGTCATTTATTCTGGAGGAAAGTATTTGGCAGAAGGTGAAAGGAAGATATTCTGATCCTTTCTTGTACAGACATGTATTA
TCTCAGTTTTCATAGAGAGCATATACTACTTTTGATGTTTTAAAACAAAAATTATAATCTGTGATGTGTCCACAGTTGTTTAAAAGTTGAAGCTGAAGAC
CATTTGTGCTTGTGGCAATATTATTGTGGTATAATGGGAATATTTCAAAGGCACTTGTTAACACTTTGTTACAGCAAAATGTAGAGGGCGCTAAGTGCCC
TTGAATATTCTCCCATCTCTGGTGACCTGTGTTGTTTTGAAATTTGCAGTGGCCTGACCAGGAACTACTGCAGGAATCCAGATGCTGAGATTCGCCCTTG
GTGTTACACCATGGATCCCAGTGTCAGGTGGGAGTACTGCAACCTGACACGATGTCCAGTGACAGAATCGAGTGTCCTCACAACTCCCACAGTGGCCCCG
GTTCCAAGCACAGAGGCTCCTTCTGAACAAGGTAAGAAATTTGTGGTTAGACATCTATATACTGGGATGAAAAACCATGGAAAATCTTACTGATGCAGAA
GCCTTCAGTGGTACACTGGAGGGTTGGTTGAGGGTCTGCAATGTGGAGGAAAGCCTCAGCGCCCTCTCTGGGGGATCCAGAACTGTGATTTTTGGCACGC
TGTGAGGAGGCAGTGTCTTTAGGAAGGGCACGGTGTCTTTAGGAAGGGCACAGACCCGCCAGGGCACTGGACTTACCACTCCCCTGGTTATTAAATGGGT
CATTTCAGTGTCCTAGCCAAAATGGATATTCTAACAGCCTGCCAAATATGTGAAGATTTCCAAGCCAATAAGCCTTTCCAGTGATTTAAAGTAGRCTTTT
TTCATTGCAATCTACAGTTTGCAGTTTCTTAAGAACATGGCCTTTGAGTATGATATCCTAGAGAAACCTAAGGAGACTGCATTATTTTTCTATTGTCCTG
GGGCTGCATAGCAGGAGGTAACCAACGAATGCTGTCTCTCCCTGGYCTATCTCAGTCTTTCACAGGCTCTGTTCACCTCAGCTTTGAAGTTAGAAATTTC
TAGGTGTTCTTGCCTCTTCTTCTCATGAAACCTGCATTGGCAGTGAGTCTACAGAAGAAGAGGAAGAGAATTCTGCTTTGTTACAATTCAGGACTCTGGG
CACTAGAAGATTCCCTATCTCTCCTCCAAGGGAATAAGTTGTTTGTCTCTAACCCTCCTTGAGAAACAATGAGTCTTTGCCTGCACTCCTAAATGTAGGA
TGATTTCCTGCCCAAATTTTCAAAAGATTAAGCCTTTTGCCTTGGTATGAGCAATGGTCTAGGGAAATGCGCAAGGGTCTTGTGTCGGCCCCTGACTGAC
CACCAGTCACCTCCTACAGCCTGCACCAAGGAATGCATTGCATTCTGGTCTTCTGCCCTGTGGTTCTCATGAAAACCAGCAGAGATTCATATGATGGAGC
TGCACATGAATGTAATTTCCAATGTCCAGCATTCTCCTCTGTTCTTTATCTTTAGATTTAAAAATAATGTTTCTATGAACTTATTAAAATTCTAGAATAC
TATGAATCTACTGGGTCTTTTCACATCCTTTTGCTACTAGTAGAAAAAAGAATAGTAATAATTTTCAGAGGCTACTGTCCAGTATGTGACATAAATTGTC
TCCCATGTTTCTCTGCTCATGCAATTACTGAGTATGATTTATTTTATTTTAATTTCAGCACCACCTGAGAAAAGCCCTGTGGTCCAGGATTGCTACCATG
GTGATGGAYGGAGTTATCGAGGCATATCCTCCACCACTGTCACAGGAAGGACCTGTCAATCTTGGTCATCTATGATACCACACTGGYATCAGAGGACCCC
AGAAAACTACCCAAATGCGTATGTATTTGATTAAAACMATAAGAGGAGCAACAGCCAACTCAAATATTGGTTAGAAGACCCATGCTTTAAGCTCACTTCC
TAGGGACAAATTTCTCTTAGACTCACATTTTGGCAAAATGTCTCAGGACCTTTGCTTTTGAGCAAAGAGTCTAAGAGAAGAGAAATTTTAGGCCTGCTAT
TTTTCCTAATAGTTTTATGGAAGGAGTAGAATATACGGAAGTGGCGAAGTCATATTAATGTAAAGCTCAGAAGATAAATGACCAAAGCTTAAACACAGCA
CCATTCCACAATGCCCACTAAAAATCAATGTCATCTTTCACTCGTGCAATTCTGTCATTCTAAATTTCAATTCCCGAAGGTTTGTTTGCCATTTTTGTCA
TGGGTAATAAGTAAAAAAAAAAAAATTAAGATGTGTATATATATATATATRTATATATATATACACACACACACACACACACAAACATCTGAATATTTAT
ATATATGTCTGAATATTTATATACTTGTGTATAAAACTTATATTTAAATTTTTGCATAAATTTATATATTTTTAATATTTCACTAAAAATTATATTGTTT
CACTATGTATGTCTGAGTATTTTTATATATTTTAATATAACATTTTAAATATTTATATATAAATATTCAGGTATGTAACTGAATATTCATTTACACACAC
AAATATATGTGTGCATGTGTGTATATATATATATACCCATATATATATATATATATACACATATATATATATATATATATAGTATATATATATATATATA
TATATACACATATATATATATATATATATGTATATATATATATATATATATATACACACACACACACACACACATACATACAGGTATAAACACACTGGGC
CTGAAGCACCAGTGGTCTGAAAGGACATGTGTTGCCAGGACTTGAAGAGCAAAAGCAGGAAGGCGGATGAGAGTCAGGAGGTACACAAACGCTGAAAAGT
AAAATGGACAAGTACATGGACAAAAAGCAGGTATAAGCATAACAGCCTTTTGGAAGTAAATGACTATAAAATATATGAAAATACTGTTTTCACAAGTTGC
ACAACAGATAGTAGTGTATTGAGATAATTTAGAACAGAAAACAAATGTGATCAACCCCATAAGTGTGCTGTATTTCATCATGGATTGAAGGAAAAAGAGA
TGGAGCCCAAGAAGACCACAGCAGTCTTGATGAACTGAGAGACACCAGAGTTTGGGATTACAAAGGCAGCTGGGATTTTCTACACTTGGTAATAATGAGA
AAGAATTTGTGGAGATAAAGAGCTACAGTCATGTACCTAGAAGTCACCTCAGTGTAATATAAATCTGCATATGCACAGGGAGTGATTCCACAATGAAAGT
AGGACAAAGAACAGCTACTGGGGAAAGAAYAACTACAAGGGAACAATGAGTTCAATGGAGATGGCAGAGCTCACAAAGCACTGGGGGATATTTGAGTTCT
TACCAGCTAGAAAAGAGACCTCATTGCAAATCTTGGGCATTCAGTAGAGACCCCAGAAAAGCCACTCTTTGGAAACAGAGTTGATGTATTTTAAGAGCAA
AATCTACTCCACAAAAATCCTAGCAAAATTGAAAAGCAAGTCAGAAAGACCAAAATCCTCTCAACATAAATTAGTTGCCCATCAGAAGAAAGCTTAACCT
CTTCATAGGTAAACAATAAAATCAAATTGCTCAGTTATCTGGCATCCACAATATGTGACATAAATTTAAAAATTTACTAGACATACAAGAAGCATTTAGT
GTGATCCATAACCAGGAGAAAAATCATTCAATACAAATAGACCCAGAAATGACAGAAATGATAGAATTAGCAAAAACATTTAAAATATACATATGATCAY
TTGATCTTGTGATCAGATATCACAAGAGAAGAAAGAGATACTTGAACAGAAAAAATGCCTGAAGCAATGATGGCTGAAAACTTTCCAAATATGAAGAAAA
AAAARCTCACAGATTCAAGAAAACTAATCAATCAGAAATATGATTTTGAAAAGTAAAAATGTATGATTTACTTTGGCAAATCTTCTTGGTTAAATTGTCT
AAAATCAAAGAAAGCTAGGAAAATTTTATAAGCCAGAGGAAAAAAGATTGTTTATATAAAGGAACAGTTACACAAATGACTGATGCCTTCTCATCAGAAA
CAATGAAAGTCAGAAACAATAAAGTAACATCTTTAAAGTAATAGAAGAAAAACCCAAGAGGTGAGGGATCATGGCAGACAGGAGGCAGGACTAGATTGCA
GCTCTGGACAGAGCAGCATGCAGAGGCTCATATTGTGAATTTTAGCCCCATATTGACTGCAAGAACAGACCAGCAATCCTGAGAGGACCCACAGACCGTG
TGAAGGAAGCAGACTGCTCCTGCAGGATAAGGGAGACACCCCAAATACTGTGAGTTCCCCAACTGCAGAAGTGGAAAAGGGAGGCCTTACTCCCTCAAAC
ACACCCCACAACTGGAGAAGCTGAAAGTCTGTTTGCAGGAGAAGTTCCCAACTTTACCTGGGCCTCAGTAAATTTAGAGAGCTGAGCCAAGCAAAATATA
GGGGTAGAGGAAGCAGCAGAGAAGACCTCAGAGCTTGCTGGATCCCCAAGCAGCTCATTCCTGCCTGGCACCACAGAGATCCATCAGAAGTGTGGCCAAA
GGAACAGAGGGTAAAACTCCACATGGAGGACTGCTCTACCTGAACTTTCTAACAATTTGAACAGGGGGAGAAGCCTCCTGGCCAGAACTTGGGGGAGGGC
ATGAATCTGGTTTGCAGACTTCACAGGTGGGGGAAGGACTAAAGCCCTTTTCTTTCACAGCTGGGAGGTGGAAAGCCTCAGGCAAGTTTTCAAGCCTGAC
TTTCCCCCCACCTGGAAACAGACTTGGAGCTGTTGCGGGGTTGGGGGCATGGTGGGAGTAAGACCAGCCCTTCAGTTTGCATGGGTGCTGGGTGAGGCCT
GTGACTGACAGCTTCCCTCCACTTCCCCGACAACTCAGATGACTCAGCAGAGGCAGCCATAATCCTCCTAGGTACACAACTCCAGTGACCTGGGAACTTC
ACCCCCACACCATACAGAAGCTTCAGTAAGACGTGCCCAAGGAAAGTCTGAGCTCAGACACGCCTAGTCCCACCCCCAACTGATGGTCCTTCCCTACCCA
CCCTGGTAGCAGAAGACAAAGAGCATATAATCTTTGGAGTTCTAGGGCCCACCCACCTCTAGTCCCTCTCCACACTAGTATAGCTGATGCAGGAGGCCAA
CCAGCACAAAAATAGAGCATTAAACCACCAAAGCTAGGAACCCCTATGGAGTCCATTGCACCCTCCTCCACCTCCACCAGAACAGGCACTGGTATCCACA
GCTGAGAGACCCATAGATGGTTCACATCACAGGACTCTGTACAGACAGTCCCCAGTACCAGCCCAGAGCTGGGTAGACTTGCTAGGTGGCAAGACCCAGA
AGACAGGCAATAATCACTGCAGTTCAGCTCACAGGAAGCCACATCCATAGGAAAAGAGGGAGAGTACTACATCAAGGGAACACCCCATGGGATAAAAACA
TCTGAACAACAGCCTTCAGCCCTACCTTCCCTCTGACACAGTCTACCCAAATGAGAAGGAACCAGAAAACCAACCCTGGTAATATGACAAAACAAGGCTC
ATCACACTCCCAGTTCACCAGCAATGGATCCAAACCAAGAAGAAATCCCTGATTTACCTGAAAGAGAATTCAGGAGGTTAGTTATTAAGCTAATCAGGGA
GGGACCAGAGAAAGGCAAAGCCCAATGCAAGGAAATCCAAAAAAAAAAAGGTATAAGAAGTAAAAGGTGAAATATTCAACAAAATAGATAGCTTAATAAA
AAAACAATAAAAAATTCAGTAGACTTTGGACACACCTTTGGAAATGTGACATGCTCTGGAAAGTCTCAGCAATAGAACTGAACAAGTAGAAAAAATAAAT
TCAGAGCTCAAAGACAAGGACTTCAAATTAACCCAATCCAACAAAGACAAAGAATAAAGGATAAGAAAATATGAACAAAGCCTTCAAGATGTCTGGGATT
ATGTTAAATGACCAAATATAAGAATAATCGTGGCTCCTGAGGAAAAAGACAATACTAAAAGCTTGGAAAACATATTTGGGGGAATAACTGGGGAAAACTT
ACCTGGCCTTGCTGGACACCTAGACATGCAAATACAAGAAACACAAAGAACATGTAAATACAAGCAGCACAAAGAACACCTGGGAAATTCATCACAAAAA
GATCTTAGCCTAGGCACATTCTCATCAGGTTATGCAAAGTTAAGACGAAGGCAAGAATCTTAAGAGCTGTGAGACAGAAGCACCAGGTAATGTATAAAGG
AAACCCTATCAGATTAACAGCCAGTTTTTCAGCAGGAACTGTACAAGCTATAAAGGATTGGAGCCCTATCATAGCCTCYTCAAACAAAACAATTATCAGT
CAAGAATTTTGTATCCAGCGAAAGTAAGCATCATATATGAAGGAAAGATACAGTCGTTTTTGGACAAACAAATGCTAAGAGAATTCACCATTACCAAGTC
ACCACTAGAAGAACTGCTAAAAGGAGCTCTAAATCTTGAAACAAATCCTAGAAACACATGAAAACAGAATCTCTTTAAAGCATAAATCACACAGGACCTA
TAAAACAAAAGTACAAGTTAAAAAACAAAAACAAAAAACAAAACCAAAGTACGGAGGCAATAAAGAATATGATGAATGCAGTGGCACCTCACATTTCAAT
GCTAAAATTGAATCTAAATGGCCTAAATGCTCCACTTAAAGGATACAAAAAGAGTTGGTGGCTGGCAAGATGGCTGAATAGGAACAGCTCCAGTCTGCCG
CTCCCCGTGAGATCAACACATAGGGTGGGTCATTTCTGCATTTCCAACCAAGGTACCCGGCTCATCTCATTGGGACTGGTTAGACAGTGGGTGCAGCCCA
CAGAGGGTGACCTGAAGCAGGGTGGGGTGTCACCTCACCTGGGAAGTGGAAGGGGTCAGGGAACTCCCTCCCCTAGCCAAAGGAAGCCGTGAGGGACTGT
GCCGTGAAGACCAGTGCATTCTGGCACAAATACTATGCTTTTCCCACGGTCTTTGCAACCTGAAGACCAGGAGATTCCCTTGGGTGCCTACACCACCAGG
GCCCTGGATTTCAAGCCCAAAACTGGGCTGGCATTTGGGCAGACACTAAGCTAGCTGCAGGAGTTTTTTTTCATACCCCAGTGGTCCCTGGAATGCCAGC
AAGACAGAACCATTCACCCCCGTGAAGAAAGGGCTGAAGCCAGGGAGCTAAGTGGTCTTTCTCAGTGGATCCCACCCCCATGGAGCCCAGCAAGCTAAGC
TCCACTGGCTTGAAATTCTTGCTGCCAGCACAGCAGTCTGAAGTTGACCTGGGACGCTCAAGCTTGGTGGGAGGAGGGGTATCCACAAATACTGGGGCTT
GAGTAGGAGGTTTTCCCCTCACAGTGTAAGCAAAACCGCTAGGAAGTTTGAACTGGGCAGGGTGCACTGCAGCTTGGCAAAGCCATTGTAGCAAGAGTGC
CTCTCTAGATTCCTCCTCTCTGGGCAGGGCATCTCTGAAAGAAAGGCAGCAGCCCCAGTCAGAAGCTTATAGATAAAACTCCCATCTCCCTGGGACAGAG
CAACTGGAGGAAGGGGTGGCTGTGAGTGCAGCTCCAGCAGACTTAGTTTCCTGCCTGCCAGCTCTGAAAAGAGCACCAGATCCCCCAACACAGCACTAGA
GCTCTGATAAGGGACAGACTGCCTCCTCAAGTGGGTCCTGGTTTCAGAAGATAATAAGAAACTCCTCTGAGCTAAAGGAGCATGTTCTAACACAATGCAA
GGAAGCTAAGAACCTTGAAAAAGGTCAGAGGAATTGCTAACTACAGTAAGCAGTTTAGAGAAGAACATAAATGACCTTAGGGAGCTGAAAAACACAGCAC
GAGAACTTCATGACACATACACAAGTATCAATAGCAAAATCGATCAAGTGGAAGAAAGGATATCAGAGATTGAAAATCAACTTAATGAAGTAAAGCGTGA
AAACAAGATTAAGGAATAAAGAATGAAAAGGAATGAACAAATCCTCCAAGTATGGGACTATGTGAAAAGATTGAACCTACGTTTGATTGGTGTACCTGAA
AGTGATGGGAGAATGGAACCAAGTTGGAAAACACTCTTCAGGATATTATCCAGGAGAACTTCCCCAACCTAGCAAGACAGGCCAACATTCAAATTAAGGA
AATACAGAGAATACCACATTCAAATTCAGGAAATACAGAGAACACCACAAAGATACTCCTCAAGAAGAGCAACCTGAAGACACATAATCGTCAGATTCAC
CAAGGTTGAAATGAAGGAAAAAAATGTTRAGGGCAGCCAGAGAGAAAGTTTGGGTTACCCACAAAGGGAACCCCATCAGACTAACAGTGGATCTTCCTGC
AGAAACTCTACAAGCCAGAAGAGAGTGGGAGGCCAATATTCAACATTCTTTTTTACTATTATTATACTTTAAGTTCTAGGGTACATGTGCACAAGGTGCA
GGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCTTCATTTACATTAGGTATATCTCCTAATACTATCCCTCCCCACTCC
CCCCATCCCATGACAGGCCCCGGTGTGTGATGTTCCCCACTCTGTGTCCATGTACTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATTCGGTGTTT
GGATTTCTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCACATCCCTACAAAGGACATGAAGTCATCCTTCTTTATGGCTGCATAG
TATTCCATGGTGTATATGTGYCACATTTTCTTAATCCAGTCTACCATTGATGGACGTTTGTGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAA
TAAACATATGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTAGATATATATCCAGTAATTGTATGGCTGTGTCAAATGGTATTTCTAGTTC
TAAATCCTTGAGGAATCACCGCACTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCCACCACCAGTGTAAAAATGTTCCTATTTCTCCACATCCTCTC
TAGCATCTGTTGTTTCCTGACTTTTTAATGATCACCATTCTAACTGGTATGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTG
ATGGTGAGCACTTTTTCATGTGTCTCTTGACTGCATAAAAGTTTTCTTTTGAGAATTGTCTGTTAATATCCTTTGCCAACTTTTTGATGGGGTTGTTTGA
TTTTTTTTCTTGTAAATTTGTTTATGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGGGTAGATTGTAAAAATTTTCTCCCATTCTGTAGCTT
GCCTGTTCATTCTGAGGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTGGTCAATTTTGGCTTTTGTTGCTATTGCTTTTGG
TGATTTAGTCATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCTTAGGTTTTCTTCTAGGGTTTATATGGTTTTAGGTCTAACATTTAAGTCT
TTAATCCATCTTGAATTAATTTTTATATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGKCTAGGCAGTTTTCCCAGCACCATGTATTAA
ATAGGGAAACCTTTCCCTATTTCTTGTTTTTGTCAGGTTTGTCATAGATCAGATGGTTGTAGATGTGTGGTATTATTTCTGAGGGCTCTGTTCTGTTCCA
TTGGTCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAATGTAGTTTGAAGTCAGGCAGAGTGATGCCTCCAGCTTTG
CTTTTTTGGCTTAGGATTGTCTTGGCAATGCATGCTCTTTTTTGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAG
CTTGATGGGGATGGCATTGAATCTATAAATTACCTTAGGCAGTATGGCCATTTTCACAATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTCCAT
TTGTTTGTGTCCTCTTTTATTTCATTAAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCCCATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTC
TCTTTGAAGCAATTGTGAATGGGAGTTCATCCATGTCCCTACAAAGGACATGAAGTCATGTATGGGAATGCTTGTGATTTTTGCACATTGATTTTGTATC
TTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGTCTGAGAAGATGGGGTTTTCTAAATATACAATCATGTCATCTGCAAACAGGGACAA
TTTAACTTCCTCTTTTCCTAACTGAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAG
AGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTATGGGTTTGTCATAAATAGCTCTTA
TTATTTTGAGATATGTCCCATCAATACATAGTTTATTGAGAGTTCAGCATGGAGAGCTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTRTTGAGATAA
TCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGATGGATTACATTTATTGATTTGCATATGTTGAACCAGCCTTGCATCCCAGGGATAAAGCCAACTTG
ATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCAGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCATGGATGTTGGTCTAAAA
TTCTCATTTTTGTTGTGTCTCTGCCAGGMTTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTMTGATTGGAAT
AGTTTCAGAAGAATTGGTACCAGCTCCTCTTTGTATCTGTGGTAGAATTCGGCTATGAATCTCTCCTGGACTTTTTTTGGTTGGTAGGCTCTTAATTATT
GCCTCAATTTCAGAGCCTGTTATTGGTCTATTCAAGGATTCAATTTCTTTCTGGTTTAGTCTTGGTAGGKTGTATGTGTCCAGGAATTTTTCCATTTCTT
CTAGATTTTCTAGTTTATTTGCACAGAGGTGTTTATAATATTCTCTGATGGTAGTTTGTATTTCTGTGGGATTGGTAGTGATATCCCCTTTATCATTTTT
TATTGCATCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGTGGTCTATCAATTTTGTTGATCTTTTCAAAAAACCAGCTCCTGGATTCA
TTGATGTTTTGAAGGTTTTTTTGTGTCTCTATCTCCTTCAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTTAATGTGTTTGCTCTT
GCTTCTCTAGTTCTTTTAATGGTGATGTTAGGGTGTCAATTTTAGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTGTAAATCTCCCCCTACACAC
TGCTTTAAATGTGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTGTCATTGGTTTCAAAGAATATCTTTATTTCTGCCTTCATTTCGTTACATACCCAG
TAGTCACTCAGGTGCAGGTTGTTCAGTTTCCATATAGTTGAGCAGTTTTTAATGAGTTTCTTAATCCTGAGTCCTAGTTTGATTGCACTGTGGTCTGAGA
GACAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAATGCCTCACTTCCAACTATCTGGTCAATTTCAGAATAAGTGYGATGTGGTGCTGAGAA
GAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGAGTTCAATTCCTGGATATCCATGTTAACT
TTCTGTCTCATTGATCTGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTCTCTTTGTAGGTCTCTAAGGACTT
GCTTTATGAATCTAGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTAAATTGGTCCCTTTACCATTATGTAATGGCCTTC
TTTGTCTCTTTTGATCTTTGTTAGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCTTTTTTTGTTGTTTTCCATTTGCTTGGTAGATCT
TCCTCCATCCCTTTATTTTGAGCCTATGTGTGTCTCTGCACGTGAGATGTGTCTTCAGAATACAGCACACTGATGGATCTTGACTCTTTATCCAATTTKC
CAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAGGTTAATATTTTTATGTGTGAATTTGATCCTGTCATCATGATGTTCGCTGGTTAT
TTTGCTCATTAGTTGATGCAGTTTCTTCCTAGCATCGATGGTTTTTACAATTTGGCATGTTTGTGCAGTGGCTGATACCGATTGTTTCTTTCCATGTTTA
GTGCTTCCTTCAGGAGCTCTTGTAAGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGATTTTATTTCTCCTTCACTTATGAA
GCTTAGTTTGGCTGGATATGATATTCTCAGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCTGCCACTCTCTTCTGGCTTGTAGAGTTTCTGCT
GAGAGATCTGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTGGTGAATCTGACAATTATGTGTCTTGGAGTTACTCTTCTCGAGGA
GTATTTTTGTGGCATTCTCTGTATTTCCTGAATTTGAATGTTGGCCTGCCTTTGTAGGTTGGGGAAGTTCTCCTGGATAATATCCTGAAGAGTGTTTTCC
AACTTGGTTCCATTCTCCTCGTCACTTTCAGGTACACCAAGCAGATGTAGATTTGGTCTTTTCACATAGTCCCATATTTATTGGAGGCTTTGTTCATTTC
TTTTTACTCCTTTTTTTCTCTAAACTTCTCTTCTCGCTTCATTTCATTCATTTGATCTTTAATCACTGATACCCTTTCTTCCACTTGATTGAATCAACTA
CTGAAACTTGTKCATGTGTCACGTAGTTCTCGTGCCATGGTTTTCAGCTCCATTAGATCATTTAAGGTCTTCTCTATGCTGTTTATTTTAGTCTGCCATT
CATCTAAACTTTTTCAAGGTTTTTAGCTTCTTTGCAATGRGTTCGAACATCCTTCTTTAGCTCGGAGAAATTTGTTATTACAGATCGTCTGAAGCCTTCT
TCTCTCAACTCATCAAAGTCATTCTCTGTCCAGCTTTGTTCTGTTGCTCGTGAGGAGCTGCGTTCCTTCGGAGGAGAAGAGGCACCCTGATTTTTAGAAT
TTTCAGCTGTTCTGCTCTGGTTTCTCCCCATCTTTGTGGTTTATCTACCTTTGGTTCTTGATGATGGTGATGTACAGATGGGGTTTTGGTGTGGATGTCT
TTTCTGTTTGTTAGTTTTCCTTCTAACAGTCAGGACCCTCAGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCCACTCCAGTCCCTGTTTGCCTGGGTATT
ACCAGTGGAGGCTGCAGAACAGCAAATATTACAGAACAGCAAATGTTGCTGCCTGATTCTTCCTCTGGAAGCTTCATCTCAGAGGGGCACCCAGCTGTAT
GAGGTGTCAGTTGGCCCCTACTGGGAGGTGTCCCCCAGTTAGGCTACTCGGGGGTCACGGACCCACTTGAGGAGGCAGTCTGTCCATTCTCAGATCTCAA
ACTCTCTGCTGGGAGAACCACTACTCTCTTCAAAGCTGTCAGACAGGGATGTTTAAGTCTGCAGAAGTTTCTGCTGCCTTTTGTTCAGCTATGCCCTGCC
CCCAGAGGTGGAGTCTACAGAGGCAGGCAGGTCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTTGAGCTTCCTGGTCGCTTTGTTTACCTACTCAAGTCT
CAGCAATGGCAGACGCCCCTCCCCCAGCTTTGCTGCCGCCTTGCAGTTCGGTCTCAGACTACTGTGCTAGCAGTTCAATCTCAGACTGCTGTACTAGCAG
TGAGCAAGGCTCTGTGGGCATGGGACCCTCTGAGCCATGTGCAGGATATAATMTCCTGGTGTGCCGTTTGCTAAGACCATTGGAAAAGTGCAATATTAGG
GTGGGAGTGTCCCGATTTTCCGGGTACATCTGTCATGGCTTCCCTTGGCTAGGAAAGGGAATTCCCTGACCCCTTACACTTCCCGGGTGAGGCAATATCC
CGCCTTGCTTCGGCTCACTCTCCGTGGGCTGCACCCACTGTCTGACAAGCCCCGGTGAGATGAACCCAGTACCTCAGCTGGAAATGCAGAAACCACCCAT
CTTCTGCTTTGCTCATGCTGGGAACTGTGGACTGGAGCTGTTCCTATTCGGCCATCTTGAAACCTCCCCTCTCTCACGATCACAAGGTCCCACAATAGGC
CGTCTGCAGGCTGAGGAGCAAGAAAAGCCAGTCTGAATTCCAAAACTGAAGAAATTGGAGTCTGATGTTCAAGGGCAGGAAACATCCAGTGCCAAAGAAA
GATGTAGAATATTCAACATTCTTAAAGAAAATAATTTTCAACCTAGAATTTCATATCCAGCCAAACTAAGCTTTATAACAAAGGAGAAGTAAAATCCTTT
ACAAACAAGCAAATGCTGAGGAATTTTGTCAACACCAGGCCTGCCTTACAAGAGGTCCTGAAGAAAACACTAAATATGGAAAGGAAAAACCAGTAACAGC
TACTGCAAAAACATACCAAATTGTAAACACCATCAACACTATAAAGAAACTGCATCAACTAATGGGCAAAATAGCCAGCTAGCATCATAATGACAGGATC
AAATTCACACATAACAATAYTAACCTTAAATGTAAATGGGCTAAATGCCCCAATTAAAAGACACAGACTGGGAAATTGAATAAAGAGTCAAGACCCATTG
GTTTGCTGTGTTCAGAAGACCCATCTCAGGGTGAAAAGACATACATGGGCTCAAAATAAAGAAATGAAGGAATATTTACCAAGCAAATGGAAAGAAAAAA
AAAGCAGCGGTTGCAATCTTAGTCTTTGATGAAACAGACTTTAAACCATCAAAGATCAAAAGAGACAAAGGAGGGCATTACCTAATGGTAAAAGTATCAA
TGCAACAAGARGATCTGACTGTCCTACTTATATATGCACCCAATACAGGAGCACCCAGATTAATAAAGCAAGTTCTTRGAGACCTACAAAGAGACTTAGA
CTTCCACACAAAAATAGTGGGAGACTTTAACACCCCACAGCCAATATTAGATCGACGTGACAGAAAATTAACAAGGATATTCAGGACGTGAATTCAGCTC
TGGACCAAGCTGACCTAATAGACATCTACAGAACTCGACACCACAAATCAACAGAATATACATTCTTCTCAGCACCACATTGCACTTATTCTAAAATTGA
CCACATAATTGGAAGTAAAACACTTCTCAGCAAATGCCGTAGAATGGAAATCATAACAAACAGTCTCTCAGACCAAAGTGCAATCAAACTAGAACTCAGG
ATTAATAAACTCACTCAAAACCACACAACTATATGGAAACTGAACAACCTGCTCCTGAATTACTACTGGGTAAATAACAAAATTAAGGCAGAAGTAGATA
AGTTCTTAGAAACCAAAGAGAACAAAGACACAATGTGCCAGAATCTCTGGTACACAGCTAAAGCCATGTTTAGAGGGAAATTTATAGCACTAAATGCCCA
CAGGAGAAAGCGGGAAAGATCTAAAATCAACACCCTAACATCACAATTCAAAGAACCAGAGAAGCAAGAGCAAACAAATACAAAAGCTAGCAGAAGACAA
GAAATAACTAAGATCAGAGCAGAACTGAAGGGGATAAAGACACGAAAACCCTTTAAAAAATTAATAAATCCAAGAGCTGGTTTTTTGAAAAGATTAACAA
AATACATAGAAGCCTAGCCAGACTAATAAAGAAGAAAATAGAGAAGAATCAAATAGACACAATAAAGAATAATAAAGGGGATATCACCAATGATGCCACA
GAAATACAAACTACCATCAGAGAATACTTTAAACACCTCTATGCAAATAAAATAGAAAATCTAAAAGAAATGGATAAATTCCTGGACACATACACCCTCC
CAAGACTAAACCAGGAAGAAGTCAAATCCCTGAATAGACCAATAACAAGTTCTGAAATCGAGGCAGTAATTAATAGCTTACCAACCAAAAAAAGCCCAGA
CCAGAGGGATTAACAGTCAAATCCTAACAGAGGTACAAAGAAGAGCTAGTACTATTCCTTCTGAAACTATTCCACACAATAGAAAAAGAGGGACTCCTGC
CTAACTCATTTTATGAGGCCAGCATCATTCTGATACCAAAACCTGGCAGAGACACAACAAGAAAAGAAAATTTCAGGCCAACATCCCTGATGAACATCAA
TGTGAAAATCCTCAATAAAATACTGGCAAACTGAATCCAGCAGCACATCAAAAAGCTTATCCACCATGATCAAGTTGGCTTCATCCCTGGGATGCAAGGC
TGGTTCAACATATTCAAATCAATAAACATAATCCATCACATAAACAGAACCAATGACAAAAACCRTATGATTATCGCAATAGACGCAGAAAAGGCCTTTG
ATAAAATTCAATACCCAATCATGCTAAAAACTCTTAATAAACTAGGTATTGATGGAGCATGTCTCAAAATAATAAGAGCTACTTATGACAAATGCATAGC
CAATATCATACTGAATGRGCAGAAGCTGGAAGCATTCCCTTTGAAAACCAGCACAAGACAAGGATGCCCTCTCTCACCACTCCTATTCAACATAGTATTG
GAAATTCTGTCCAGGGCAATCAGGCAAGAGAAAGAAATAAAGGTATTCAAGTGGGAAGAGAGGGAGTCAAATTATTTCTCTTTGCAGATGACATGATTGT
ATATTTAGAAAACTCTATCATCTCAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAA
GCATTCCTATACACCAATAAGAGACACAGAGCCAAATCCTGAGTGAATTCCCATTCACAATTGCTACAAAGAGAATAAAATATACCTAGGAATCCAACTT
ACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAATAAGATAGGACACAAACAAATGGAAAAACATTCCATGCTAATGGA
TTGGAAGAATCAATATTGTGAAAATTGCCATACTGCCCAAAGTGATTTATAGATTCAATGTTATCCCCATCAAGCTACCATTGATTTCTTCACATAATTA
GAAAAAACTACTTTCAATTTCATATGGAATAGAAAAAGGGCCTGTATATCCAAGACAACCTAAGCAAAAAGAACAAAGCTGGAGGCATCATGCTATCTGA
CTTCAAAATATACTACAAGGCTACAGTAACAAAAACAGCATGGTATGGTACTGGTACCAAAACAGATATATAGACCAATAGAACAGAACAGAGGCCTCAG
AAATAACACCACACATCTACAACTATTGGATCTTTGACAAACTGGACAAAAATAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGTTGGGAAAA
CTGGCTAGCCATATGCAGAAAACTGAAACTGGATCCCYTCCTTACACCTTATACACAAATTAACTCAAGATAGATTAAAGAATTAAATGTAAGACCTAAA
ACCATAAAAACCCTAGAAGACACTTTGGGAGGCCGAGGTGGATGGATCACGAGGTCAGGAGATCGAGACCATCTTGGCTAACACAGTGAAAGCCCATCTC
TACTAAAAATACAAAAAATTAGCTGGGTGTGGTCGTGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAGCTGAGGAGGTT
GAGCTTGCAGCAAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCAAAAAAACAAAAACAAAAACAAAAAATCAAACCCT
AGAAGAAAACATAGGCAATACCATTCAGGACATAGGCATGGGAGAAGACTTCATGACTAAAACAGCAAAACCAATGGCAACAAAAGCCAAAATTTACAAA
TCAGATCTAATTAAAATAAAGAGCTTCTGCACAGCAAAAAACTCTCATCAGAGTGAAAAAGCAACCTATGGAGAAAAATTCTGTGGTCTAGCCATCTGAC
AAAGGGCTAATGTTTAGAATGTACAAGCAACTTAAACAAATGTACAAGAAAAAAAAAACAACCCCATCAAAAAGTGGGCAAAGGATATGAACAGACACTT
CTGACAGGAAGACCTTTATGTGGCTGACAAACATGAAAAAAGCTCATCATCACTGTTAATTAGAGAAATGCAAATCGAAACCACAATGAGATACCATCTC
ATGCCCGTTAGAATGGCGATCATTAAAAAGTCAGGAAACAACAGATGCTGAAGAGGATGTGTGGAGAAAGAGGAACACATTTACACTGTTGGTGGGAGTG
TAAATTAGTTCAACCATTGTGGAAGACAGTGCGGTGATTCCTCAAGGATCTAGAACCAGAAGTACCATTTGACCCAGCAATCCCATTACTGGGTATATAC
CCAAAGGATTATAAATCATTCTACAATAAAGACACATGCACACGTATGTTTATTGTAGCACTATTCACAATAGCAAAGACTTGGAACCAACTGAAATGCC
CATCAATGATAGACTGGATAAAGAAAATGTGGCACATATACACTGTGGAATACTATGCAGCCATAAAACAGGATGAGTTCATGTCTTTTGCAGGGACATG
GATGAAGCTGGAAACCATCATTCTCAGCAAACTAACACAAGAACAGAAAACCAAACACCATATGTTCTCACTCATAAGTGTGAGTTGAACAATGAGAACA
CATGGACACAGGAAGGGGAACATCACACACAGGGGCCTGTTGGGGWGTTGAGGCTAGGGGAGGGATTGGATTAGGAGAAATACCTAATGTAGATGATGGG
TTGCTGGGTGCAGCAAACCACCATGACACGTGTATACCTATGTAACAAACCCACACATTCTACACATGTATCTCAGAACTTAAAGTATAATAATAATAAG
ATACAGAACTGCAGAATGAATAAGAACTCACCAACCATCTGCTGCCTTCAGGAGACTCATTTAAGACATAAGGACTCACATAAACTTAAAGTAAATGGGT
GGAAATAATAATAAGTGGTGTCACTGATGTGGAGGTAGATTATAAAACTCTTATCATATGCTGGTGGAAGATCAAAATGATAAAACGAATTAAAAAATCA
GTCAGATGGTTTCTTAAAAAGTTCCATCAATATGCCTCTATCTTACAAACCTGCAATTCTATTCCTGAATCTTTATCCCAAGGAAATGAAAAAGTAAGTC
CACAAAGAGTTCTATATGAATATTTATAGGAGCTTTATTTATTATAATTCAAACTGTAAAAATAATTTCAATGTTCATCAATAACAAAATGAAAAAATAA
TTTGCAACCTACTGGTACACTTGAATACTATTCAGCACTGAGTATCTTAAATAGCATGGATGGAGCTCAAAAATATACTCAGGAAAGAAGCCATGTRTAT
TCTGTATGAGTTCATTTACATGAGATCATTTACATTTCCTCCAAAAGAGGAAAAACTAATTTCTGTTGAAAGAAACCAATGTATTTGCCTCTGGCAGTGG
TAAGGGGGTAGCACAGATTAATTGGGTAGGGACTCAAGAGAGTTTCTGGGGTCACAGAAATGTTCCGTGTGGTGATGGGAGTTTGGGCTCCACAGGTATA
GGTGTTGATCCAAAATCATCAAAAAAACAACATTGCAGATCTGTGCATCTCACTCTGTGGGAAAGTATATCTCAACTGTAAAAAGGGCAGAAATTGCTTT
TAAACGCTCAGCCTTTTAGCACATCCAGTTGCTTGGAGAACCAGCTTACTCAAATGGGGGTCTAGGCTGGAGACTAGGTCACAGGCATAGAGTCTCTAAA
CTTTCCCATGGCACATAATACGTTTCAGGTTTTCTCAGAGAGCTGCAGGTTAGTAATCTGAGGATTCTGACAAGTTGGGTCAACGTTCCTAGGAGGCATG
AATGGGAGTGCATTCTCTAAGATCCCTCCACCCCAGGGTCCTTGCTTTCTGTGCCTCTTACTCCATTGTTTTCTGACTCCTCTGTAGCCACTCGACCTCT
TCAGATCCCATTGTCTACCCAGCCATCGCCCTTTATGACTTGGGTCCCACTGTTCTTTCATCTCATCCTCCATTCCCTCAGTTTCGGAGTGGCTGCCGCT
AGCAGAGGATGGACTGAGAGCAGGAGAGGTGGTCCTGCCCAGGAACCCATCCTAGAGAAATGGCATCCTGTCTGGGAGCTAGTTTTTTAGGGCAGGTTTT
ATAAGTCTTGTAAAGCCAGACACACTTGATCTACCTGGTATGTTATTTACAGTAATACTATTTTCATAATTGCTTTTCACTCTAAAAGTAGAGCCTTTTA
GCTACACTGTGAGTAAATAAAGGGGCTGGCCTGGGAATGGTATCATGTTGGATGTTGTTTCTTCCCTGAAGTAATATATATCAGTTACAATTTACATGTT
ACTGCAGAGTCCTAGAGAGAGACACAGAGAATGAGACAGATACCAATACATTTTTATGTGCATTAAAAAAATCTAAGGCCAGGCGCAGTGGCTCACACCT
GTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAAT
ACAAAAAATTAGCCAGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGACTGAGGCAGGAGAATGGCTTGAACCCAGGAGGCAGACCTTGCAG
TGAGCCGAGATTGCGCCACTGCACTCCAGTCTGGGCGACAGAGCGAGACTCCGTCACAAAAAAAAAAAAAAATCTAAAATGCACTCTTCAAAATCTATGT
CATTTATTCTGGAGGAATGCAGTTGGCAGAAGGAGGAAGATATTCCGAATTTTTCTTGTATACATTTATGTATGATCTCAGTTTTTTTATGGATCATAGA
CCAATTTTGATATTTTAAAATAAAAATTATAATCTATCTTGGAAATTTACATGGTTCTTTAGAACTTGAGGACCGTTTTTGCTTTTCGGAATATTATTGT
ACCTAAAATGGGAATATTACAACGTCACTTTTTAACACTTTGTTATAACAAAGTTTAGACAGCGCTGGGTGCCCCTGAATTTTTTCCCGCCTCTTGTGAC
CTGTGTTGTTTTGGAATTTGCAGTGGCCTGACCGAGAACTACTGCAGGAATCCAGATTCTGGGAAACAACCCTGGTGTTACACAACCGATCCGTGTGTGA
GGTGGGAGTACTGCAATCTGACACAATGCTCAGAAACAGAATCAGGTGTCCTAGAGACTCCCACTGTTGTTCCAGTTCCAAGCAYGGAGGCTCATTCTGA
AGCAGGTAAGAAGTCTGTGGCCAGATATCTACACATTTGAACATTGGGATGAAAAGAGATRGAAAATCTGACTGATGCAGAAGCCTTCCATGCTACACAG
AAACTTGAGGGTATGGCAGGTGGAAAGAAGCCTCAGCACTCTCTCTGGTGGAGCAATTTTTGGCGCAACGTGCGTGGGCGGTGACTTCAGGAATGGTGCA
AACCCACCTGGGCACTTGACTTACCACTCACTTTGTTATGAAAGGGGTTATCTCGGTGTTCCAGACAAAATTCCAATTCTAACATCAGGCCAAATTTGTG
CCAAATTTCACACTAGTGAGTGTTTCCAGGCATTTATTAAAATGGACAGTGTTCATTGCAATCTTCAGCATTGCAGTTGCTGAGGTATGTGGCCGCTGAG
TTTGTCATCCTGGGGAAACCTAATATGATGATATTTATTCCATCTAATCCTGGGGCTATTTGGCAGTAAATACCACAGAATACACTATTTCTCTGGCTTA
TTTCAGTCTTAGGTAGGCTCTGCACACCTATGCTTGGAAGGCAGGAATTTCTTGGTGTTCTTGTGCCTTCTTCTCATGGAACGTGCATCTTTGGTGTGTG
TTGAGAGGAAGGGTAGTAGACTTCTGCTTTGTTGCAATGCAGGATGCTGGAACAAGAGGATTCCCTGTCTCTACTGTAAGGGAATAAGATTTTAGCCTCC
ATCCTTCTCTAAGAAGCAATGTGTCTTTGCCTCCAAGTACTAGATGCAGGACCATGAACTGCCCCGTCCACCAGAAGCTTAAGGCTTTGGCTTTTCAGGA
GCAATCATCTAGGGAACTGTGCAGGGTTTTCATGTCTGTCCCCTACTGACAGCCAATCACCATACAGCCTGCATAACCTAATCCATCATCGTCTGGTTTC
CTGCCTCATTGTTTTCATGAACAACCAGTAGAGAGCCATACGAAAGAGCTTGCACATGAGTCTTTGTTCCAATTGTAAGAGCACTGATAGGTCCTTTTCC
CACCAGGTTTTGAATATAAAATTTCTAAGAACTTATTAAAATATTAGAATGYTATTAATCTATTGTTTTTGCTTCAGCATGTCCTTCTGCTTGTGAGTAT
ACTAAAGAGAACAGTCATAATTCTGAAACTACTGTCCTGTTTGTGTCATAAATTGCTTCACATGTTTCTGCATACTAGTAGTTACTCAGCTTGATTTTGT
CTATTTTCAGCACCAACTGAGCAAACCCCTGTGGTCCGGCAGTGCTACCATGGTAATGGCCAGAGTTATCGAGGCACATTCTCCACCACTGTCACAGGAA
GGACATGTCAATCTTGGTCATCCATGACACCACACCGGCATCAGAGGACCCCAGAAAACTACCCAAATGAGTATGTCTTTGATGTTACTTGTAAGAGGAG
CAACAGCCAACTTAAGTTCCTCCTAGAAGAGCCTTGCTTCAAGCTAACTTGTTAGGACAAATTTCCCTTAGACCCAGAAGGTGTGTCAAAATGTCCAGAC
AACTTTGCTTTTGATCAAAGAGTCTGAGAGAATAGGTATTTTAGGCTTGCTATCTTTTCTAATAGTCTGATGGAAGCAGAAGGCTACATGGAGCTGATGA
GGTCTTTTTAATATAAAGCTCAAGAGATCAAATGATCAAATACTTAGAGTGCCATTCTACAAGGCTCATAAAAGATCAATGCACTCTTTCACCCATGCAA
TTCTATCATTCTAACCTCCCTTCTCTGAAATGAAGGCTTTTTGCCATTTTTGTCATGGGTCACAAGTAAATAATTCACATGTATATGAGTATATATATAA
CCAGGTGTGTTTATTCAGACTAGTATGTATATATATACATATATATGTTCATATAAGTTAGTATTCATATATATGTTCATATATATATGTTCATACAGAC
TAGTATTCATATATATATACATATATATATACACACACAYATATATATATATATATATGTTCTAGGGAAACATGCAAGGTTTTTATGTCTGTCCCTGACT
GATGACCAAATACCCTATAGCCTGCACAGCTGCAAGCTGTATAGCCATACAATTTGCAGGACACACACACATACACACACACACACACACACACACACAC
TAACWTATAATATAATATAATATAATATAATATAATATAATATAATATAATATAATTAATATATATAAACCTGTGTGAACACACTGGGTTCTAAGCTCCA
GTTTTCTGAAGGGATATGGGTTGCCAGGAGAGGAAGAGCAAAAGCAAGAATGTAGATGAGAATTAGGAAGTAAACAGAYATGGAGATTAAAATGGGCAGG
TACATGGACAAAAAACCAGGTCTGACAAAAACTGGCTTTCTGCCATAAATGACTATAAAAGATATTAAAAAACACTTTCCACATGTTGGACAAGAGACAG
TACAGGACTGAGATAATTTAGAAAAGGAAATGAATGAGCGCAACTCCGTAACTATTATGACTTTCTTCCTGGAGAACCTTCCTGGACTGAAGGGCAAGGA
ATTGGAGCCAAAGCCAACCACAGCAGTCTTGCTGAACTGAGGAAAGAGACTGGAGTTTGGGATAGCTAAGAAAATGTGTATTTTCTATGCTAGGTAATAA
TGAGAAAGAATTTGTGGTGAAAAGGAGCTGAAGGAATATGCATGGAAGTCTAATATAAACTGCATATGCACAGGGAGAAATTCTACAAAGTGGGACAGAG
AACCACTACTGGGGAAAGGACAAATTCAGGGAAACAGTGAGCTCAATGGTGACGCCAGAGCTCACGTAGCACTGGGGGATACCGGGGTTCTGATCAGYCC
GAGGAGAGACACCTCATTGAACATCTCGGGCATTCAGTAGAGACCCCAGAAAAGTCATACTTTAGGAGTAGGATTTATGCCTTCTTAGAATAAAGACTAC
CCCAGAAACACCCTAGTAAAGCTTAAAAACCAAGTCTAAAAGGACCCAAATGATCTCCAAGTAAATTAACTGCCTGACAGAAGAAAACTCAACCATCACT
GGAGGTAAATAACATGATTACAGTGCTCTGTAATGTTGCATTCACAAGGAGTGACATCATTTAAAAATTTATGAGGCAGGAAAAAGCAATTAGTGTGATC
CATAACTAGGAGAAAAACCAGTCAATACAAATAGACCAAGAAATAGTAGAAACGATGGAATTGACAAAGAAATTAAAACTGTATATATGATAATTGTGTT
CAAAGATTTAAAGAAAACATGAACATGAGGGAAACAAATGCAGAATATAAAAAAAAGCAAATGCGTAAAACAACCAAATGGAAATTAAAGAACTACAAAA
AAGTATAACCTTAATAAAATACTCACTGGATGGCCTTAATATTAGTTTATACATTACAGAAGAAAAAGTGAACCAGAAGATAACTCAATGAAAGCCATAC
AATCTGTAAGACACACACACACGCACACGCGCGCGCGCGCACACACACACACACACAGAGAGAGAGAGAGAGAGAAAGAGAGAGAGAGAAAGGCTGAAAA
AAATAAATAGAACCTTAAGGATATCAGTGAAAATAGCAAAAGATTTAATATATGGGTAAAGCAAGTCACAGAAGGACGGGAAGGAGATATTGGGACAGAA
AAAAATACTCAAAGCAATGATGGCTGAAGACTTTACACGTATGAAGAAAATGATAAACTCACAGTCAAGAAGCTCAATGAATCAGAAATAGTATTTTTAA
AAGCAAAACTCTATGATTTACTTGGGTACATTATAGATAAATCGTCCAACATCAAAGATAACAAGGATAATCTTATAAGCCAGAGGAAAACAATATCATT
TACATAGAGGGACAGTAATGAAAGTGACCGATGCCTTCTCCTTGGAAAYAATGGCATAACATCTTTAAAGTGATAAAGAGAAATAAAAACAGATCAACCT
AGGACGACATGTCCAGCCAAAACAAACAAATAAACAAAAAAACCCTTTAAAATAAACGTGATGTAAATACGTATTCTGCCACCTCCAGAGGAAACAAGSA
AAAAAACAAAAGAATGTTTCCAAGGCAGGCTTCTGTATTAAAAGATTTTAAGGAAAGTTATTCAGGTAGAAGAAAAATAATACCAGATGGGAACTTTAAT
CCATACTAAGTAATGAAGAGCCCTGGAAATGGCAAATGGCAATGTCAATATAAAATACTCTTATTTATCTAATTTTTAAATGTATTTAAAGGACAATTTG
TGATATTAATTAAAATAATAGGAATATATTGTTGTTTCAACGTATGTAGTAGTAAAATTCATAAAAACAGTAGCACAAATAATGCAGATGATAACTGGAA
GTATACTGTTAATGAGTTTTTTGCATTATCCATGAAGTTATATAATATTAATAGATGGTTGAATGTGATAGTTTAAGGTGGGATATTATAAATCCTAGGA
CAACCAAAAAAATTTAAACTGAGAGGAATGGATAGTAAGAGGAATAGTCCTTTTATGCAAAAGAAGGAAGAAAAAGAGGAATAAAGAATATAAAAGATAT
GGTGTAAACAGAAAATACATAGCATTATTGTAGACACAAACTGAACTACCTTATGAGTATATTAAATATAAAAGGATTAAGCATTACAAATAAAAGGCAG
AGATTGTAAATTGAATAAAAACCACAGCTAAGTGTGTTCTTTTTAGAATAAATACTCTTTAAGTGTAAAGATCTACTTTAAACACCAAAATATGAAAAAG
GATATATACCATGAAAACCTGAATCATAAATAAGCTGGAGTGGTGATTAATGGATGCAGGCACTCCTAAAGACTAATAAGTGAATGTGGTCAAATTGAAG
AAACAAAAGTATATACGTGCTCAATGTGCAAAAACTTTTTCTGTATACATGCTATGATCCTTTGGAAAATTAAAGTTTTAAAGCAATATCACTGACAATA
GTATCAAAACCAAAAAATATTTAGTGATAAATTTCACACACTATGCTCAAGGACTATACACCTTGCACTAGAAAACAATGTTGAGGAAAGAATTAAAAGA
TCTAAATATACACCATGCTTATAGATTAAAAGACTCCATATCAGTTCTCGTGAAATTGATCTTTGGATGAAACCCACACCCAAGCACTATTGCAACAGTC
CTTTTTTGGAAAAAAAAATTGGAGGACTTATATACCTTAATATAAAGACTTATAAAAGTACAGGAATCAAGACATGTGGTATTGGCCTGGCCCCTTGGCT
CATGCCTGTTACCCCAACATTTTGGGAGGCTGAGTCTGGAGGATGGCTTGAGCCCAGATGTTCAAGACCAGCCTTAGCAACAGAGTGAGACCCTCTCTCT
ACAAAAAATAAACAATTAGATCGATGTGATGACTTGCACATGTAGTTTCAGCTACTCGGAATGCTGAGGTGAGAGGATTGCTTGACTCAGGAGGTCTAGC
CATGAGTGAGCATTGATCATGCCTCTGCATTCCAGCCTGGATGATGGAATGAGACACTGTCTCAAAAAAAAAAAAAAAAAAGGATATGTGTTATTGGCCA
AAAAAGTATGCAAACCTAAAAAGGGATGGCCCACCACCAGACCCACATACATATATGGTAAATGGATTTTCCGTATAGATGGCAAAGCAATTCAATGGAG
ACAAAAATGTTTTACAAAATCATTCTGAACCATTTGGATATCCATGATACAAAACAAAAGCAGAACTTGACTTTTGCTTTTCATCTCAAATTATTTTGAT
ATCTCTTCCACCTAAGTGTCAGAGCTAAAACTGAACCTGAAATATGAAAGTTCCATGAAAAAATATAAAATCTTCACAACCTTGGAGAAGGCAAACTTTT
TTGAGGCAGGAGTCTGTAAACACTCACTATAAAATAAAACAAATTATAATGTGGGCTTTCATGAAAACTCATGCTTACCAAAAGTCATTGTTAAGAAAAT
AAATAGGCAAGTAACACATGAGAAGAAAAATGCTCTCTGTCCATATATCTGACAAATGGCTTGTGTCCAGAATATAGGAACATTTCTCCCACTCACTAAA
CAGAGGACAAACAACTAATGGGCAACAGATTGAATAGGCATTTCTTGGGGATAGATAGATGTACACATAGCCAATAAGCACCTGAAAAAATGTCCAGTAT
CTCAGCCATGAAAAATAAAGAGTTATAATCATCATGAGATGTCACCAAACACCCAATGGACATGGATATTATTAAGAAGACACCACAGTAACTGATGTCA
CTGATGTAGAGCAAGGATGTGAAACTCTCTCATATGCTGGTGAAAGTGCAAAATGATACAACCACTTTTGAAATCAGTCTGATAGTTTCTCCAAAAGTTC
AATAAATGCACTTTTACCCTACAAACCTGCAATCCTGTTTGTGAATATTTACCCCACAGAAATGGAAACATAAGTCCACGAAGACATCTCCAAGAATATT
CATAGCAGCTTTATTTTTTATAACCCCAAACTGTAGACAATTTCAATGTCAATCAATAAGAAAATGAATAAATAATTTGTGAACTAGTCATAYAATGGCA
TACTGTTCAGCAATAAAAGGGAGCATGTTTTTGATACTCTCAAATAGTATGGAAGATGCTCAAAAATATTACATTAAAGAAAGATGCCAGATAACAAAAA
TGAACATTATGTATGAGTCTATTGATGTAAGGTTCCAGAAAGGTAAAACTAATTTCTGGTGAAAGAAACCAATATCATTTGCCTCTGGCCATGGGAAGAG
AGTAGCAGAGATTGATTGAGCAGTAAAACGAAGTTTTTTTCTGGGGTGATGTAAATGTCCTGTATTGTGATTGAAGTGTGAGTTACACAAGTGTACATGT
TCATCAGAAGTCATCAAACTACATCTAAGATCTGTGCATTTGACTATACATGAAAATATACCTCAGTTGAAAATAGATCAATAACCTCCCTCATATACTA
TACTTGCTAACACAGCCAGCTGCTTGGAGAACCAGCTTGCTGGAATGGAGAATCTGGGCTTGAGACTGGGTCACATGTATAGAGTCTCTACAGAGACAAT
GTTGCATTCCCACGGTACATAATACATTTCAAGGTTTCTCAGACAGCCACATGTCATGAATGTGAGGATTCTGAGAGGTTGGAGCAACATTCCTGGGAGG
AACGAAGGGGAGCACATTCTCCAAGATCCCCCACCACCGGGGTCCTCACCGGCTGTGCTTTTTTTTTTTTTTTTCTTGACAGAGTCTCGCTCTGTCGCCA
GGCAGGAGTGTAATGGCCCAATCTCGGCTGATTGCAGCCTCCAACTCCAGGGTTCAAGAGATTCTCCTGCCTCAGCTTCATGAGTAGCTGGGACTACAGA
TGTGCGCCACTGCGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTTGCCATGTTGGCCAAGATGGTCTCGCTCTGTTGACCTCGTGATCCACC
CGCCTTGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAAAGCACCCAGCCTGTGCCTCTYACTTACTCAATTGTTTTTCTGAACCCTCCATAGCTG
GTGGACCTTTTCAGATCCCATAGTCTAGCCAGCCCTCTCACTTTATGCCTTGGGTCCCACTGTTCCTTCATCTCATCCCCCTTCTGTCAGTCCCGCAGTG
GCTGTGGCCAGTAGAGGATGGACTGAGAGTAGGAGAGGAGGTTCTGCCCAGGAACCCATCCTAGAGAAACAGCATCCTGCCTGGGACCTAGTCTTCCAGG
TCAGCTTTTATAAGTCTTTTAGACTCAAACTCACTTGACCCACCTGAAGTGGTATTGACAATAATGCTATTTTCATGGTTGTTTTTCACTGTAAATGCAG
AGCCTTTTAGCTACACGACTAGTACAGAGAGTAAGGGAGGCTGGCCTGGGAATGATATCATCTTGGATGGCATTTCCTCCTTGGAGAAATATATGTTAGT
TCCAACTCACATGTTACTATACAGTCCTGTAGAAAGAGATACAGAGAGTTAGACAGGTATAGACGCATTTGTATATGCATAACAATCTATAAGACACACA
TCAAAATCCGTATACCGGTTCCTCTAGGGGTATGTGCTTGGCAGAAGGTAGAAGGAGGGTATTCTGGTTCCTTTCTTTTGCACATTTATGTATGATCTCA
GTTTTTATATGGAGCATTGATAGGGTTTGGCTATGTCCCCACCCAAAATCTCATCTTGACTTGTAATCTCTATAATCCTGATAATCCCCATGTGTCAAGG
GCAGGACCAGGTGGAGGTAACTGGATCATGGGGGCAGTTTCTCCCAGGCTGTTCTCATGACAGTGAGAGAGTCTCCTGAGATCTGATGGTTTTGTAAGTG
TCTGGCATTTCCCCTACTTGCACTTACTCTGTCCTGCCGCCTGTGAAGAAGGTGCCTGTTTCTCCCTTGCCTTCTGCCATGACTGTAAATTTCCAGAGGC
CTCCCCAGCAATGTGGAACTGTGAGTCAATTAAAACTCTTTTCTTTGTAACTTACCCAGTCTGTCTCGGGTATTTCCTCATAGCAATGTGAGAACGGGCT
AATACAAGCATATACTACTTTTGATATTTTAAAATAAAAATTATCATCTATCTTTGAAAGGCATGCACAAATGGGAAGTTGAGGAACATTTGTGTTGTGG
CAATTGTATGATACCTTTAATGGGAATATTTCAAAGACACTTGTTAAGACTTTGTTAGAACAAAATGTAGAGGGTGCTGGATGTCCCTSAATATTCTTCC
GCCTCCTGTAACTTGTATTGCTTTGGAATTTCCAGTGGCCTGACAATGAACTACTGCAGGAATCCAGATGCCGATACAGGCCCTTGGTGTTTTACCAYGG
ACCCCAGCATCAGGTGGGAGTACTGCAACCTGACGCGATGCTCAGACACAGAAGGGACTGTGGTCGCTCCTCCGACTGTCATCCAGGTTCCAAGCCTAGG
GCCTCCTTCTGAACAAGGTAAGAAGTCTGTGTCTTACCTTGTCTAGCACATACCTCTCTATGTGCTTGGACAACGGGATGAAAAGACATGAAAAACCACA
CTGATGCAGAAGCCTTTAGTGCTACACGGGAGCTCGAGTGTTGGTTGAGGTTCTGCCATGACCAAGGAAGTCTCAGTGCCGTCCCTGGGAAAGCCAGAGC
TGTGATTTTTGGCACAACTTGTGGGAGTAGTGACTTTAGGACTGGCGCAAAACCTCCAGGGTGCTCAACTTAACCACTCACCTTATTCTAAAATGGGTTA
TTTCAGTGTCCCAGTCAAATTCCTATTCTAACATGCTGTCAACTGTGTGATTATTTCCAAGCCAATAAGCATTTCCAGTAATTTCTTAAAATAGTGTTCA
TTGCAGTCTTCAGCGTTGTGGCTCCTGAGGRATGTGGCCCCTGATTCTGTCRTCCTAGAGAAGCCTGACATGACTGCATTGATTCTGTATCGTCCTGGGT
CTATGTGGCTGCCTGGCTGTCTGTAATCATCTGTTTTATTTTTATTTTTTTCTACAGAYTGTATGTTTGGGAATGGGAAAGGATACCGGGGCAAGAARGC
AACCACTGTTACTGGGACGCCATGCCAGGAATGGGCTKCCCAGGAGCCCCATAGACACAGCACRTTCATTCCAGGGACAAATAAATGGGCAGGTCTGGAA
AAAAATGTAAGCCACTTTGATTTGGACTCTTTTTCCCTTTGCTGACAAATCTTTTCAAACAGAAGAGGGGCAGAGGAAAATACTGGAAAGACTTCAGGAG
GCTAAGCGTAATTAGCCTTAGCATGGAAAGTGCAAGCAGCACAGGCCAGCAAAGCCCCACGCGTGTGGGGGTTCTCAGGCCTCTTCTCTTTTGACATTTC
TTTACTGTTTCCATTGTTGGGTGCTGTTTCTCGTTTCTAGTGCTTGTCCTCTAAGCCAGGGGTCCCCACTCCAGTACTGGTACTGGTACTGGTACTGGAA
CTGGTAATTATCTGTGGCCTGTTAGGAACTGGGCTGCACAGCAGGAGGTGAGCTTCGGGGGAGCAAACAAAGCTTCATCTGTATTTTCTGCTGCTTCCCA
TCACTCTCATAGCTGCCTGAGCTCTGCCAGCTGTCAGATCAGAGGCAGCATTAGATTATCATAGCACAAACCCTATTGTGAACTGCACATGTGAGGAATC
TAGATTGCATGCTCCTTATGAGAATCTAATGCCTGATGATCTGTCATGCTTCCATCACCCCCAGATGGGACCACCTACTTGCAGGAAAATTAGCTCAGGG
CTCCCACTGATTTTACCTTATGGTGAGATGCACATTTATTTCATTATATATTACAATGTAATAATAATTGAAATAAAGTGCACGATAAATGGAAGGTACT
TGAGTCATCCTTTAACCATCGCCCCCTCACCCCAGGTGCACAGAAAAATTGCCTTTTATGAAACTGGTCTCTGGTGCCAAAAAAGTTGGGGAACCACACT
GCTCTGGGTTCTAGTAGTCAGAGATGCCCTCTATGAGGCTTAAGTCAGATTTTTCTAGAAAAGATTTGGATGGGCCATCAGGTCACCATGAGACTTCCCT
TAGCCTCATGCATTCTCTGTGATGGTTTACTTTGGGGCCTATGAATAGGGAAGACTGAGATATAGGAAAAACCAAAGTGTCTGTGTTCCCCCACTCTCAC
ACCCATGTAACATAACACTTCTCACACCAGATATGGGGGGATTTCTCCTCACACCCCAAGCGAGTCTCCAGCAGATACCAGCTGGGTGTCCTACAATGTA
ACTCGGTCCTGACACTCTATCTGGAGACAGTGTCAGATCCCACAAGTTAAGGCTCAGTCCTACAAGACTGCCCCACTGCAGATGCCAATCCCAAGTTSCA
GGCTGTGACCTGTACTTCTGCCCAGCTGGATAAAGATCTGTTTTTCTATATGACCCTCCATGGGTTTGATTACTTTGCTAGAGTGGCTCACAGAACTCAG
GGAAACACGTTACTTTTATTTACCCATTTATTATAAAAGATATTAAAAAGGATCCTGGTGAACAGCCAGGTGGAAGAGATGCACAGGGCAAGGCACGTGG
GAAGGGGCTCAGAGCCTCTATGCCCTCTCCAGTGCACCAGTCCCCAGTACCCTAAGTGTTCAGCAACCCAGAAGCTCTCCAAGTGCAGTCTTGTTGGGTT
TTTATGGAGGCTTCATTACAGAGGCACAGTTGATTACATCATTGGCCATCGGTGATCGGCTCACCTTCGGCCCCTCTTCCCTCCCTGGAGGTTGGAGGGT
GGGGCTGAACAGTTCCAACCCTCAAGTCACATGGTTGGTTCCCTTGGCAACCAGCCCCTGGGGCTATCCAGGAACCCACCAAGAGTTGCTTCATTGCAGC
TCCCTTCACCCAGGAAACTCCAAGGGATTTAGGAGCTCTGTGTTAAGAACTGGGGGGCAGAGACCCAATATACATTTCTTATTCTATCACAATATCACAG
GAAGCTAAGGATGATACTGCCTTTGTGTGTCTTGGCTGTGGATGGTGCATAATGCATGGAAGTAAGCATTTCTGAATCAACAGCAAACAGGCTTTATCAG
GTAGAAGACCCCTCAGCGCCCCAGGGACAAAGCTCATCAATGATGTCCCACTGTCCTCTGAGGCTCTAGCTCTAAGACCTCCAGTGGGTCAAGCTCCTGG
AGAAGTGGCACATTCTCCAAAGACCCTTCAGGGTCACCACACCCTGGTTAAGGGTGTGGCCTCATAACTCCTTTTGACTATGACTGATGGCTTACAGCAT
AGAAAGAAATAACTTTGTCAAAAAATATAATAATGATAGAAAGGAAGAAGGAACGCTCCCTTTTGTCTTCTAAGAATAGATGTGAAATGTGTGTGCCTTR
GAATATCTTCTCCCTCTCCTGCTCCACGTGAGCTGGAGCTTACATGCCTGCTTGTTTTCAGTACTGCCGTAACCCTGATGGTGACATCAATGGTCCCTGG
TGCTACACAATGAATCCAAGAAAACTTTTTGACTACTGTGATATCCCTCTCTGTGGTAAGTTGCCTTCTGTTTTGGTAAGGAAACTGCTTCCTTAATATG
GATTTGGAAAAAAAAAAGCAAAAAAAACAGAAAATGGCTTTTGAGCTGAGTGCTTCTGGGGAGGAGATGGCTGCCCTCTCCACCAGAGCCTGCTTTTCAT
CATGGCCACCTTGAACCTGCCCTACTATTGGCCCCATTTGTTAGGAAAACACCCGCCCCTCCCACCACACACACATAAATAAAATAAATGTCAAATTCCC
AAAGGGCAAACTTAGAGGTGATCTAATCAGCCCGGGATAGTCCCACCGAACCCTTCTTTGTCTAGCGTGGGATGCATGAAAAACAAATTTAGAGTCATTA
TGATGAAAAACTGTCCTCTTCTGCAGCTGAGAAGAAAAAAAAAATACGAGCAGCAGGAAACAGCTAAGCATGTAATGCACATTGTAAACCTCAGATGGCC
ATCCTAGGAAATCAATGAAGGGTAGTGCAGCTCTTTAGCCCCAGATGGCCTTTCTCGTAAGATTACTACTCATGAGTCCCATTAGCGACATTGCTTAGAG
ACTGCTTGTTAGGTTCCTTCCTCATTGCTCTGAGACTCTTATTGGGAGTATGAGGCTTGGATCAGGGGAAGGGGAATTGACATTAGATCTTAAATGATTG
GGGTAACAAATCCATGGGGGAAAAAAAGCCACTTGTACTTGTTCCCTATTTTCTTCCTGCTGACCAATCAACTTGTCTGTCCGAGTTACAGAACACCACC
CTGGACTTTTCTTTTGTGTAATTTGGTTGCTTGTGGTTGGGTCTGCCATGTGAAGGGACCTTGAGCTGGGGGAAGAAGGTTGGCCTCCAAGTCCACTGAA
GACCAGCATCCTGAGATTGCCTGGGGAGGTGGTACAGGGCAGTGATGAAGATCATGGGAGCCACACTGCCCATCGTCACATTTGGGCCACTCCTGGGGAG
AGCAAGAGGGAAGAAGGAGAGGTTAGGGTGATAGGAAAGATTCTACTTGGCCAATATTATTATAATGTGGCATTGTGGTCTCTGGATTTAGTGTGAGTTG
ATAGCTGACTTTTTTCTCGAGTGGGTGCTTTTGTTCTATTTTGTCGGTGCTATTGCAGAAGCATCTTGGTGGTTCCTCTACCTCAAAGTCTCTTGATGGG
GTCAGTTCCAGTTCTCCGCTTCTGGCCCCATCTAGTACACGCCACTGCCTCTCACTGCCTGGGCTCTCTATCCTTGACAGGCTGCCTTGAATTTAAGCCC
AGTCTGACTTACCTGCCTCAAACACCCACAGTAGTGCCTGGGACTCATGCACCTTTGACTCCCATGGAAGGGAAGTGCAGTAGCTTCCCAGGTGCAATTC
TGCTGTCCTCACCCACATTGAGGATGTATGAGAATCAGGTTCTTAGAGATTGGAGAAAGAAGGAAGAATGGGAACAAGATTTCTTCCAATGGACTGTGAG
GTTCCCCACCTTACTTTGATGTAAGACAAGTGAGGTTAACCCCAAGCCTGGTGAGGAGGGTTCCCATCAGACACTTGGAAATCCTGAGGACTGTTTCCTG
CAGAAGGATGTGGTTGGTGGGATATTCAGGTTTGACTCATGATTGAGAAAGTTAGAGCCTCTGGTTGGAGAAAGAGTTTAATAACTATTTCATTTCCACC
AACACATTCAGTACGAATAATAAATAAGTAAAAATAAATAGAAACATTCAGTTTTATTTTGAATAGTAGGAGTAGGGTATAATTTCTGTAGTTACTCTTT
TAGTACAATGATGCATGTTTACTGTATGTAAGGCATACTAGCAGAAATTGAGCTCAGCACTAGAAAAGATGATTGCATTCCATGCCATGCTTCTTTTTTA
CAAAAGACTTCTATAGATAGATTCTCAAAACAACCCACAGCAAATGAAAAGTTATTTGGAAAACTCAGGTTCCAGATTCACTGGAGTGTAGAATCTCTGG
TTGGTTGGGGAGGAATTTCCTCTTGCAGTTGTTATTAATAATTATATGAATAATTATTAACTATATTAATATTTATAGTTTTGAAGACCTTGAAGGGCTG
GAGACAACAGAGAAGCATTTTTGAACACCCTCTGTAGCCCCTGCACTGTTGTAGGCATTGATGGGTGGTACCAAAGATGGGACACTTTCCCTACCTCCAG
AGACCTTGTGGGCTTGCTGCAGAGAGAAGGCAGGGAGGAGGAAAAGAAGAATAGAGGCACATGTGTGTAAATTACCCCCACAGCAGTCAGTTAGTCATGG
GAGGCTCCCCAGAAGAACTGTCCTGAAGCTGGCTGAGAGAAGGCAACATTTCAACATAGGACAGTTATCCTTGCTACATAAAATCACATACACACATGCA
CATATGTCCACACACAGAGACTCACATGCAAAAGAATCCTTTGTGCCTTTCAGTAAACTTTACATGGTTTAGAAAGAACTTATATTTCCTTGAAAGGAGA
GTGTCCTTTGTTGTTTACTACCACTTTTTAAACTTAGAAAGAAAAATCTAAAGAGTGTTTATSATTTTACCATTTAATTTCACCTTTGAGATGTGAAAAA
CTAGTGCTTGGAATTCGTCCTGAATTAAACGACACAATTGCTAACTTGGACTCAAATGCGACTTCTTTTCCCACCTTGTGCCACAGCATCCTCTTCATTT
GATTGTGGGAAGCCTCAAGTGGAGCCGAAGAAATGTCCTGGAAGCATTGTAGSGGKGTGTGTGGCCCACCCACATTCCTGGCCCTGGCAAGTCAGTCTCA
GAACAAGGTAAGAACAGGCCCAGAAACCATCTATACTGTCCTTCCATGTAAGCCCCACAAAACCCTTCTACATTTACACAGAACCCACACAGCTGATGCA
TCAATACCTGCCTCTCTGTTTTCTGAAGGAGGAAAAAATATAGAAAAATTAAAAAAAGTTATATTATTATAGGTTCTCTACTTGGAAAATAGCCAAAATA
CAAATCTTTTTCTTGATCTGGGCAGTTCCATCAAAATCTGTAGGCACAGTGATTTGCACCAAGTTCCAATACTTTTGGAAAATATTGAAGATGCTCTGAG
GGTTTCTATGGATATCCATTGTCTCACTGTCAGATGAAAAGAAAGGGAAGTTTTTAGAAATGTGACACTTTGCAGTGAGGGAGGACAAGAGCAAACTTAC
CTACAGTCTATCACAGGCACAGATTTTTTTTTACACTTTTGTGAATCATTGAATTCAATGCCGAGGCTATTCATCTATTCACAAACACATGAACAARTTA
TGGGTTGTGATCCCCATAAATGAAGAGTAATCAGTCCGAACCCACAGAACCTGGACATTTTGGGTATCGTTTCAGTGGAACATGCAATTCGTAAGTTCAG
TTTGCTTGGGTGTCTCTTAGGAAGAACACATAGGACACAGACCCATCTGCCTGCATGTTTTGCTTCCTCATCTCCTTTCTACACCAGGGCACCTGTGCTC
AATTGCTGTTCTCCTCTAAAGAGACTTCCTTCTGTAAGTTTGTGAAATGCCATCGACAAACCTGATCGCATCGCATTTCACTCTGCTGTTGAGTTGATTT
TTCTTTACTTTATCGTTTGTAACTTCTTGCTCTACAGAGCTTTCACCTTCCACATATTTCAGATTCATTCTTTCCTAAACTGTGTGGTGGTCTATGTCCT
CACTGACTATCAACATACTGCCATCATGCACTTCCTATCTCTATTCCTCTTCGTTGCAATCTGGCTCCAAGTGGCTCACACCATTATTCTGATCTATCAA
CTGCCTACACAGTCCTAGAAAGTAAGTGAGTCAAGAAACATCCCCCAAAAGTAAACTTTTCAGGTAAGATCAGAAGACCCTCATGAGTCACTGCTGCTCA
GGATCGTATCTGGCTCCTTGAAGAGTGACCTTGCATAGATCTTGTCATAAAAAATGAAAGAGACCTTGGGAAGGTCTTGGGCTGGTCACTTTTGTCAGAG
TCCAGGGCTGTGGGGTGAAAGCCRCAGCTATAGAGCTTCATTCTGGAGTCACTTAGCTTTGCTCTCCTGGGGACAGGCTGTGCCTATTCTTGCCTCAGGC
ATCAAAAAAAGTGGCACAGATGGGCCCTTCTGAAAAATCTCACTACTGGAGCACAGCTCGAAGTTTCTACTATCCTGACGTTGGGCGGTAGTCCTTTGCT
TTGGGAATATGAACATGATCAAAACTGAGTGAACTTGTCTTCCTGGCTTTCTGTACAATGAAGTAGAACAAACCATCCAATTTGACCAAAGYCTTGGCAT
GTTTTCTTTCTAGGTTTGGAAAGCACTTCTGTGGAGGCACCTTAATATCCCCAGAGTGGGTGCTGACTGCTGCTCACTGCTTGAAGAAGTAYGTTTAAGG
GAAAACTGACATGGGGTCTTATCTTCAAGACTTTTTTCCTCCCTCTCTTCCTCCATCCCTTCTTTCTTCCCACCCTCCCCTTCCTTCCTCCCCACCTCTC
TTCCTTTTCTGGAAGGAACACTAGGAACCAGGGAATGCATGCAGAATCCTGAGGCAGAATTTCCAGGGCAATTGGATGAGAGAGGAGGGAAGTGTTTCTA
GAGGGAATCTGCAGAGGGAAGACCCAGTGCAAGTGATTTTTTGGACCTGTATAAACCGCAGGACAGAGCTGTTCACTACCAGAGGCATCAATCTGTATTG
CATTGCTCTAGAGCAATATCTGAGGCTGAATAATTTATAAAGAAAAGAGTTTAATTGGCACATGTTTCTGCAGGCTTTACAGGAAGCAGGATGCTGTCAT
CTCCTCTGCTTCTGTGTGGGCCTAAGGAAGATTACAATCATGGTGGAGGGCAAAGTGGGAGCAGGCATGTCACATGGCCAGAGCAGGAGCAAGAGACAGA
GAGAGATGGGGTGGGGGTGCTGCACAATACCAAATGACCAGACTTTGCAAGAACTAAGAGTGAGAGCTCACTGATCACCATGAAGATGTGGCCCAAGCCA
TTCAAGAGGGATGCACCTCTATGATCCAAACCCCTTTCACAGGCCATAGCTCCATCACTGGGGACTACAGTTGAACACGAGATTTAGGTGGGGACAAATA
TACAAACTATATCACAGTCTCTGATGAAACAGATTGAGAACAGACCTTAACTGTCAGTTTCCAGCAAATTGTGAATTTTGTTTCTTGCCACTCATAAGTC
ACTGATTCTGGGTGGCCGAGGGTGTCAGAGGGACAGCGCCAAGTTCATGGCACAGAGGATACCTGAAGGGGCTGGACCATATTTTTCTCTTGACATCCTC
ATCTTTTCTAGGTCCTCAAGGCCTTCATCCTACAAGGTCATCCTGGGTGCACACCAAGAAGTGAACCTCGAATCTCATGTTCAGGAAATRGAAGTGTCTA
GGCTGTTCTTGGAGCCCACACAAGCAGATATTGCCTTGCTAAAGCTAAGCAGGTACTCGCTCACCTGTGGTCTTCACCCCACGCTGGTGAAGATATTTGC
TTTATGTCTGGGTTTTATGGGCCATGGCCACTGCATGGCAGTGGGGAGGAACTGTCTATCACATGAAAGGCTCAAGGGCTTTGGGGACAGCATCAATCTT
CAACCCCAGCCCTGCCACATGTTAGTTGTGCTCTTTAAAAAGGCAGAAGGATTCGTTTCCTCACGTGGAAAAAGAGATACCCTGTTACCCGTAAAACTTA
CTTAATGTTCACCAGTTCATCCACATTCATGATCAGGGAAAGGTTGTTATTCCAGGCTAACTATTCTCCTTTCATAATAATATGCTGGAGAGAATCAAAT
GAGATTGCATTTCAAAGCGCTTGAAAAACCACCATATCGAGCCATGCTTAGTGTGGGCGCCTCTAATCACTGCTATTCAGGAGGCTGACGAGGAAGAATT
GCTTGAGCCCAGGACTTCAAGGCTGTAGGCAGCTATGATTGTGCCACTGCACTCCAGGCTGGGTGACAGATCAAGACCCTGTCTCAACAAAAGAAAAGAA
AACAAAACAAATGAACAGAAATATTCCACAATGTCAAAAAAAAAAAAAACCCACACAACATACAATTTACAAATGCAAATAATAATATTATTGTTGTCTT
CTTTGATTTTCTCTTTCCTGGTGAAATTTTGTTTTATTAAGCCTGACAAAGTGATACCTTTGCTTACRTCACTTAAAGTTAGTCTATTTGGACCTAGGTG
ACAGTACAATCAGCTAAGAAACAGTATTTGTAGGAGAGGCAGGTTTGGGACAGGTGACAAGGCATGTGGGGTGCTCGCTGTGCTGGTGGCTCTGGAAGGC
AGGGTGTCAATGCAGACAGGGATGAGCATGGCCTGGTTGGGAAGGCATGGGGCAGGCAGGAGCCTGAGCTGCTCTCCTGGGCCTGGTCACAAGCCCATGG
CAGCTTCTCTGGGTCTGTGAACTGAGGGGTGATGTCCTGGAATCCTCTGACACTCTAGGAAGGAGAGAAGGGCCTTTCTGGCTCAGCCTTTATAAACAGT
AGCTGATCTCCCTCTTGCTCCCCAGGGTCCTCCCCACCATCCCAGCAAATGTGCAAATACAAGATCTCTGCTCCTCATGGTCCTCAGAGAGCTGGGGTGT
TCTGATGGCTTGAACAAGTCACTTAGGAAATGTGGGGTTTTGGAGGCATTCTCTGATAGGCTGATACGTTTTGAGTTTAGAGTTCCCACCGCACATCCCC
ACACCCCTAGAGTCTAGGGCATTTAGTGCTCCATGAGGGAACCTGTAGAGTGAGGACATCTGCATCACAGGCTGGGCCTTCTAGTGTCCAGAAGCAGAAA
GTGTGTCTGCTTCAAAGTTGGTGCTAATGATGATTTTTGGTCAGAATACGGCATTTCTCATTTCCATTCCTTTATCCCCTTGAACTTACTAAAGTAGAAT
CAGGTCTAAAAACCAGAGTTCTAATCTTTAAGAGTCCCTGGGATTCTAAGGTATATGAATGTCCTTGGAAAACAATACCATTTAGTTCATGCAAGGTGCT
TATTTCCCATCCTCTTTCATTTGATGTCTAGCATTTTACTGCATTCTTACCACCACGGTTTAGTAACATTCACGAGGAGGAAGTGGAGGATCCAGATGGA
GCAACTTGCTCTGGGCACACAAGGCATTTGCAATTTTATACCCTCTTGATGATGTCTCAGCCAGACATTCTGCCCAGTCATCAATGCCCTCTTCAATTAA
TATGAAAGGACACACTTGGCATGAGATTCCAATCGTGCACAGAATATACATGAGAAGTGTGCCTTTGTCATCCCTACTTTCAAAGGCTAAGGCCACCCTC
AGTTTCTTGCATGCAACTGATGCCTTTCAAATGAAACCTTACATCTGTGTAGTCCATAGGCAACCACAGGCAAATGTGAGGGTGAAACGCTGTGTTCTAC
ATTGTTCTGTGTCAGTGAAGCAAGGCAGTGCCAGCTCAGAGGGCTCTGGGGCTTCAAGGCAGGGATGCCTGGTTGTAGGTACTGCCACTTCCAGCTGGGC
AGTGAAACATAACTGCTAATACTTTCCTTACAGGCCTGCCGTCATCACTGACAAAGTAATGCCAGCTTGTCTGCCATCCCCAGACTACATGGTCACCGCC
AGGACTGAATGTTACATCACTGGCTGGGGAGAAACCCAAGGTGAGATCAATTCCATTGCCCACGTAACAAATTGTTTTTGACCTTCAGTGCATGTTACAA
AATGAGCATTTTGGAGATAGTTGTACAAATTCCTACCCATGAATGTGGTCTACCCACTCCTGACTTTGCCTGGACACCTGTCTATGTCTCCATAATCAGT
CTTCAAGGGACTTGGGCAAGGGGAGCGGTGCCATTTCCTTGAGTCTCTCTCTTTTTTGTTTTCAGAATCTTTTAATTTTTTTTGTAATGATTGTATGTTT
CCCTTACAACAAAAACAAACACCAGTAGAGGTCTTTGAGTCTCTTAATCATAATTTCAGCATTCATATTGCTTCCCCAGGTAAGTGGGGTTTTGACCCAG
CCCTCAAGTTAAGGGTGTTAGATTATTTTTCATGTGAAATTAGACAGACTGCGTTTCTAAACATGGTGCAAAACAGTAACGACAAAAGTTGTAATTAAAC
TATTCTTCTTCCCAAATACCCACATGTCTAATGTGTGTGTGAGGGTGTTAGGCAGGGGACCTGAAGCTGGGGGAGAGGCAGACAGTTCCCATGGCCCCAA
GTCTAGGATGGCATTTGGTATTGGTTGATGGGTGAGAGCAAGAGAGGGAATATTTTTGTGCATGATGTGGTATCAGCACCTGTACTACATTTTATGGATT
CCTTCTTCTCTTTGCGGTATGCCCTGACAATAATTATATCCGTCAGCCTTACCCCCTTGGCAGTAGGAAAACTRAAACTGTCTTAAAGTCTCAGCTCTAC
TTTCTCAGAGGTGCAGGCAAGGGCACTGGGAGTCTGGGGCCCTGGAAAACTGTTCTGACTCTGCCACTTGCCAGATAGACCTGAACTAGACACGTTACCT
CTTTGTACCACTTGGCTCTAATCCCTTATCTGTAAAACCAGCATTTTCAAATGGTGCTTTGCACATCAGCCTTTTGCATAAGCTTTGATTTGATAAAATG
TTTTTTGTGTTTTTAAAAAGATTAAAAACCACAGGTTTAGATAATTTCAAAGTAGGCTTCCCTTTTTCTGTCATTTTCCTATTATTTTTAAAACCTCACC
TCCTTGACTCCTTGTTCCCTTTTTCTGCACTGCTGAGTCTGGGAGCACTGAGGCCAGGTAAAAGGAAACTTGGCAAATGAGGGGCACCTATGGGTGTGGG
AGGCTGCTCCTGGTGTTTGCATATTTTAAARTTTAAATGCTACAAACCACTGTGAGTTAGGTATTATTGTTCCTATTTTACCATTGAGGAAGCTGGGGCT
CAGAGAAGGTGGAGGGTGGTACAGACAAACCTGAATTGGAACCCTGGCTCCTGCCTATGGGCTGTCAGGACTTAGAAAAGTCGTGAGCTCTCGCTGATTG
TTTCCTCAGCTGATGTGGGCTGCAGGGCTGTTATGGGGGAAATAATAAGAAAGTGCATCAAGTGCTGAGCACATCCTAAGCACTCCATCATGGCAGCTCC
TACTACTAATAAAGAATAGAATTATATCTAACATGATTCTTTCTTGCAAGTGACAGAAAATCCAACTCAAATTGGATTAAGCAAAACAAGGGAAATTCTT
AGTGAGCTGCAAAGTTTTCAGGCTCACATGATGGCCCCAAATCCCAGGTCCTCCCAATCATGGAGTAGGCACTATTTGGGGGCACAAAGGTGACATTCCC
ATGGCTGCAGATGCTGTGGTGCTGTGGCTGTACCGGGAAAGAATAAGAAAGGCCACTCTCCCAATTATGTGAACAATAGTCTGCCCACTCTGAGAAGTCA
AACTTGGGTCACCGTCCTGCCCCTGAACCCATCACTGACTGGCTCTGACCTGCACCAATTGTTCCATGTTGGAGGTGAAGGCAAGACCCCACTAATACCC
ATAAGGGGCAAAAGTTAGATAGATCCTTCAAGAGGATTATGGGAGGTAGGGCAAAAAGCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCACCATCTCCAATACCACCATCACTGTAACCATCATCACCACCACCATGATCACTAT
CACCATCATCACAATGATCACTGTAACCATCATTACTACCCACCACCATCACCACTACTCCACCACCATCACCATTATCATTACCATCACCATTATCACC
ACCATCATCATCACCAGCACCACCATCATCACCAGCACCACCATCACCATCACCATCATTAACACCATCACTATCACCATTGGTTTAATCATCACCACCA
TCATCATAAATAAACATCACATAACCAGGGTGTAGCTGGGTGTTGACCCCAGAGCCCACTCACTGTTTCCTCTCTCCCACCCCCATCCACACATTTCTAA
CCACCATCCTGCACTGGGCTCCCAGTCTCCTCTGGTCTCACCCACATGTCCACTGAGAAAAGGATTTTCAGAACACCAACTAGACCAGGAGGAGCCACAT
ACATAACTCAGGCCTGCTTATCAACTTTCTACATGTTAATAATGACATCAGATCAATGGGTGTTCTCAGCTTCTCAGAAGGAGGTCAAAATTCTCCCCCT
CTCCCCTTCATGTGTCCAGACCTTCCCGGATTTGGATGTACCAAGTGCAGAGTGGTGTTGAGGCCAAGGGGCTCATCCATGTAAGTCTCATCTGCAATCA
CTGGGCTGATCCCGTGGCCCTGTCTCCAGGGCGCCATCAGAGAGGGCTTCAATCCTCAGGTTACCTGTGGCCCACCCTGCCCTCAGAGGTGCCATCTCTA
CATTGGCCACGAGATGGCAGCACATACTCATAGACTGCATTAATTTCCCAGCAACTCCTGGTGGGTTTTCCCTCTTATCAGGATGTTTGCCTTGCTCAGA
GAGCAAATCTGAGAGCAGTGACACCTAACTTAACTTTCAGCAAAATATTTTGAGAAGGGTGCCCCTTTACACATCTGTGCAGTCCAGGTGATGCATCCCA
TGCCCAATGCTCGGTAGTCAGGAGGAGCTTCCTCCATGCAGCTCTGCGGAAGAGACTCTTCCACGCTGCTCATGTAAACTCCAGATTCGGTGTCAGTTTT
CTGACACCGAAGACAATGATCTAAGTGCAGTCAAGGGCTTTGGGGAAAGCAGGAGAGAGTGCCTCAGTTCTAGCCTGTGCCATGCTTGCAAAGTTTTGCA
AAATTCTAATGAGAGCTGGGCTTGCAACATTGGAAACTTGGATTATTTGTGAGAGCACTGAGAAATCCCTGGGCATGTCCATCTGGAAAAACAGCATTTC
CTCTGGCACTTTARCAGAGGTTCTGTTTCAATTTGGCGAAGGAAATTAAGCAGTTTTTCACAAAAGAAGAACTACAAYGAGGAGAATTGTCCCTAGTATT
TCTTCTCCCTAATTGTCAAGGAAGTGTAAATTAGAAAATGAATCAGGACAATTTCCACCTACTATGTTAGCTAATATTTTAAAAATTGAATATCACAAGG
GTGAGGCAAAGTAATTGTTTTCCAGTGACATTTTCCACTGTCACACCCTTTTAGAGAATAATTTGGCAATGTTACTGTGAGATAGAAATATGTCTATATA
ATTATGGGAACTGAGAYTTCAGAAAGTAATAAGGAATAAGAATGAAATTTATGAACAAACATGTGGAAGGTTGGAAGCAAGAGTGGGGCCAACACGCATG
GGGAGGAAGCATTTGGGCAGYGACTCCGCAGACCCAGACTCAAGCTGAGCTATACAACCTCCTTACGCCTCAGTTTCCTCAACTGAAGAACAGGAATGAC
AAGTGCCTGTTTCATAGGACCGTTGTGAGGATTAAGTGAGATATACCACATTATGAGCTTGTGCCTGGAAAGGTTGATTCTTAGTAAATGATGACTATTC
TTTTTTATTGCAATAAAATTTATACAACATAGAGTTACTATTTTAACCATTTTTGCAGGTACCACTGAGTGGCATTCAGTACATTCACAATGGTGTGCAA
CCGTCACCATATTTCCAGGACATTTTTCTCATCCCCAAAGGAAACCTCATGCCCATTAAGCAGTCACTCCTCATTAAAATATTAGTTATGAAGACTGTAK
CATTTTTTTAAAAACTCATGATATAACATTGATTGAAAAAATCAGTATAGGAAATTGTGCATTATGATGTAATAGTAAAAGAAGCATATAAAAATCTGAA
AAAAGTATATAAAAAGAATAGCAATTGTATTTCTCAGACTCTCTTTACATTGTAAAAATCATTTTGATAGCTTCAAAAGAAAAGCAAAAAGTACACAAAC
AACAACCAACCCCAAAGCAGCATGACAAAGCCCAGATTGTTGAATCCAGGTCTTGGGAACATAAAATCTTATATGACATTTGCACTTTAATGGGTCAGAG
AGTCCAGTGGCATTGGGAGCTGCCTTGTGTTCTGCAGCCTCACGGACAGACAGGAGGTCCAGCTCCACTGCTCTGTTCTTCTGGAATTTCCTCGTGAACA
AGCTTTGGCCTCAGTAACCATTTCTTTCATCTTTTTAAACACAGGTACCTTTGGGACTGGCCTTCTCAAGGAAGCCCAGCTCCTTGTTATTGAGAATGAA
GTGTGCAATCACTATAAGTATATTTGTGCTGAGCATTTGGCCAGAGGCACTGACAGTTGCCAGGTAAGAAAAGATCAATAGATCAAAGTCTTGTGCTCTC
CCGTCTCAGTCTCAGTCCCTTAGACGTCAGTCCCAAAGTGGCAAATTCAGGAAGGTTTTGTCAGTGGAAGACCCCAGTCTAAGTGTTGCTCAGAAACTCC
CCAGATCTGTCCCTGAATGCATATTCAGATCATCTAAGGAGACGTCTTGGGGCTTGAGTTCCAGATCCATAGCAAGGGAGCCGTAAGTGCCATAACTACC
TCAGGCCACTCACCTTCCTGGTGTGTGCTGGTCACCAGTGACTGAAGTGGTGGCTTTTCCAGTAGAGAGGAAGGTAGAGGGTACAGGACCGAGACAAATT
ACACACACTTAACAATGATGTCCAGGCTAGCCCAGTCTAAAGGAAACACCAAGTTAGGAAGCAATGCATGCAGGATTCACAAGGGATTATTTTTTTTCCC
AGGAAAAAACTAAGTGATGTGGTTTTGTTGAATAGACTTTGCTAAGTACTTAAGCACTGCAGATGCTTGAGTAATATGCTCATAAGTTCCTTTCTGATTT
GAATTACTGGGAAAATGTACATATGGATAAGAGAAGGATGGCATCCCATATTAAAAGGTTGGCAGCTTAAAGCTCACATGAATTTTCCCCTACCTCTGTT
TAGGGTGACAGTGGAGGGCCTCTGGTTTGCTTCGAGAAGGACAAATACATTTTACAAGGAGTCACTTCTTGGGGTCTTGGCTGTGCAYGCCCCAATAAGC
CTGGTGTCTATGCTCGTGTTTCAAGGTTTGTTACTTGGATTGAGGGAATGATGAGAAATAATTAATTGGACGGGAGACAGAGTGAAGCATCAACCTACTT
AGAAGCTGAAACGTGGGTAAGGATTTAGCATGCTGGAAATAATAGACAGCAATCAAACGAAGACACTGTTCCCAGCTACCAGCTATGCCAAACCTTGGCA
TTTTTGGTATTTTTGTGTATAAGCTTTTAAGGTCTGACTGACAAATTCTGTATTAAGGTGTCATAGCTATGACATTTGTTAAAAATAAACTCTGCACTTA
TTTTGATTTGAATTAATTTTGGTTTTGGTCTTCAAAATTTTCATGCTCTTTTCATCCCATCTATTTTTATTTTTATTTTTTAGACTTTACGTCCTGGGGT
ACATGTGCAGAATGTGCAGGTTTGTTACATAGATGTACACGTGCCATGGTAGTTTGCTGCACCCATCAACCTGTCATCTAATTCGGTATTTCTTTTAGTT
CTATCCCTCCCCTAGCCCTCCACCCCTTGACAGGCCCAGGTGTGTGATGTTGCCCTCCCTGTGTCCATGTGTTCTCATTGTTCAACTCACACTTATGAGT
GAGAACATGCCGTGTTTGTTTTTCTGTTCTTGTGTTAGTTTGCTGAGAATGATAGTTTCCAGCTTCATCCATGTCCCTGCAAAGGACATGAACTCATCCT
TTTTTATGGCTGCATAGAATTCCATGGTGTATATGTGCCACATTTTATCCAATCTAACATTGATGGGCAATTGGGTTGGTTCCAACTCTTTGCTATTGTG
AATAGTGCCACAATAAACATACGTGTGCATGTGTTTTCATAGCAGAATGATTTATAATCCTCTGGGTATATACCCAGTAATGGGATTGCAGGGTCAAATG
GTGTTTCTGGTGCTAGATCTTTGAGGAATCACCACACTGTCTTCCACAATGGTTGAACTAATTTATGCTCCCACCAACAATATCAAGGCATTCCTATTTC
TCCACATCCTCTCCAGCATCTGTTGTTTCCTGACTTTTTAATGATCGCCATTCTAACTGGCATGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCT
CTAATGATCAGTGATGATGAGCTTTTCTCATATGTTTGTTGGCTGCATAAATGCCTTTTTTGGAGAAGCATCTGTTCATATCCTTTGCCCACTTTTTGAT
GGTGTTGTTTTTTTCTGGTAAATTTGTTTAAGTTCTTTGTAGATTCTGGATATTAGCCTTTTGTCAGATGGATAGATGGCAAAAATTTTATCCTATTATG
TAGGTTGCCTGTTCACTCCGATGATAGTTTCTTTTGCTGTGCAGAAGCTCTTTGGTTTAATTAGATCTCATTTGTCTATTTTGGCTTTTGTTACCATTGC
TTTTAGTGTTTTAGTCATGAAGTCTTCTCCCATGCTATGTCCTGAATGGTATTGCCTAAGTTTTCTTCCAGGGTTTTTATGGTTTTAGGTTTTGCATTTA
AGTCTTTAATCCATCTTGAGTTAATTTTTGTATAAGTAATGCCCTTCTTTGTCTCTTTTGATCTTTGTTGGCTTAAAGTATATTTTATCAGAGACTAGAA
TTGCAATCCCTGCTTTTTTTTTTCTTTTTGCTTTCCTTTTGCTTGGTAAATATTCTTCCATCCCTTTATTTTGAGCCTATGTATGTCTGCACATGAGATA
GGTTTCCTGAATACAGCACACCAATGGGTCTTGACTCTTTATTCAATTTGCCAGTCTGTGTCTTTTAATTGGGGGCATTTAGTCCATTTACATTTAAGGT
TAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGCTAGCGGGTTATTTTGCCCATTAGTTGATGCAGTTTCTTCATAGTGTGGATGGCCTTTAC
AATTTGGTAGTTTTTGCAGTGGCTGGTACCAATTGTTCCTTTCCATGTTTAGTGCTTCGTTCAGGAGCTCTTGTGAGGCAGGCCTTGTGGTGACAAAATC
TTTCAGCATTTGCTTGTCTGTAAAGGATTTTATTTCTCCTTTGCTTATGAAGCTTAGTTTCGCTGGGTATGAAATTCTGGGTTGAAAATTATTTTCTTTT
AGAATGTTGAATATTGGCCCCCACTCTCTTCGGGCTTGTTGGGTTTCTGCAGAGAGATCCACTGTTAGTCTGATTGGCTTCCCTTTCCGGGTAACCCAAC
CTTTCTCTCTGGCTGCCCTTAGAAATTTTTCCTTCATTTCAACCTTGGTGAATCTGACGATTATGTCTTGAGGTGGCTCTTCTCGAGGAGTATCTTTGTG
GTGTTCTCTGTATTTCCTGAATTTGAATGTTGGTCTGTCTTGCTAGGTTGGGGAAGCTCTCCTTGATAATATCCTGAAGAGTGTTTTCCAACTTGGTTCT
ATTCTCCCCATCACTTTCAGGTACATCAATCAAATGTAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGCCTTTGTTTATTCCTTTTCATTCTT
TATCCTCTATTCTTGTCTTCTTGCTTTATTTCATTAAGTTGATCTTCAATCTCTGATATCCTTTCTTTTGCTTGATCGATTTGGCTATTGATACTTGTAT
ATGCTTCACAAAGTTCTTATGCTGTGTTTTTCAGTCAGATCAGGTCATTTATGTTCTTCTCTAAACTGGTTATTCTACTTAGCAATTCATGTAACCTTTT
TTCAAGGTTCTTAGCTTCTTTGCATTGGGTTAGAACATGCTGCTTTAGCTCGGAGGATTTTGTTATTATACACCTTATATAATAGCCTGATATAACTATA
AGATTTTTTTGTAAGCACCATCGTAACCACAAAGCAAAAACCTAAAGTAGATATACAAAAGATAAAAAGGAATCAAAGCATACCACTAGAGAAAATCACT
TAATCACAAATAAAGATACGAAGAGTGGAATAAAGGAACGAAGGGTCTACAAAACAACCAGAAAGCAATTAACAAAATGGTGATAGCAGATCTTACCTAT
AAATAATTATCTTGAATGGAAATGGATTAAATTTTCCAATAAAAAGACATACAGTGGCCAAATAGATTAAAAAATAAGATCCAACTATATGATGCCTATA
ACACACTCACTTCACCTGTAAGGACTCAAACAGACTGAAAGTAAAGGGATGGAAAAAATATTCTATGCAAATGGAAACAAGAAGATAGAGGGGTAGTTAT
ACAGATTGAGTATCACTAATCCAAACATCTGAAATCTGAAATACTCCAAAATTAAAAATGTTTAAGTGCCAACATGATGTTCAAAGGAAATGTTCTTCGG
AGCATTTTGGATTTTTGTGTTTAGGGATGCAAAAACAGTAAATATATAATTTGTATTAGTCCATTCTCACACTGCTATAAAGAATACTACAAAGAGACTG
AGTAATTATAAAGGAAAGATGTTTAATTAACTCAGAGTTCCACAGGCTTAACAGGAAGCATGGCTAAGGAGGCCACAGGAAACTTATAATCATGGCGGAA
GATGAAGGAGAAGCAGGCACCTTCTTCACAAGGTGGCAGGACGGAGTGTGAGTGTGTGAAGGAGGAACTGTCAAACACTTATAAAACCATCAGATCTTGT
GGGAACTCACTCACTCTCACAAGAACAGCATAGGGAAAACCGCCCCCATGATCCAATCCCCTCCCACTGGGCTCCTCCCTTGACACATGGGGATCATGAG
GGTTACAATTCACGATGAGATTTGGGTGGGACACAGCCAAACCATATCATAATGCAAACATTGCAAAAACAATTCAAAATTCAAAACATTTCTGGTTTCA
GGCATTTTGGATAAGGGAAACTCAACTCAACATGAGGTAAAGCAGACTTTAAGTCAAAAACTGTAAAAAGAGACGAAGAAGAATGTAATAATAAGGAGAT
CAGTTCATTACAAATATATAGCAATTATAAATATATATTAATATATATACCCAAAATTGTAGTACCTACATATAGTAACTAAAACAAACATTAATAGATC
TCACAGGAGAGCTACACTGTAATATAATCATAGTAGCACACTTGAATAGCTCCACTTTCACTAATGGACAGATCATCCAGACAGAGAATCAATATGGAAA
CACGAGACTTAAACTACACTTTAGCCAAGTAGACCTAACAGAAATATATAGAACATTCCATCCAACAGCAGTAGAATACACATTATTCTCAAGTGCACAG
GGAATATTCTCCAGAATAGATCATATGTTAGGTCACAAAACTAGTCAAAAAATGTAAGAAGATTGAAATCATATCAGGTTTTTTTTTTAGATCATAATCG
TATGAAACTAGAAATCAATAATGGGGGAATATTGGAAAATCCACAAATAGATAGAAATTAATCAATATGCTCCTGAACAATCAATGAGTCGAAGAAGATA
TTAAAAGAGGAAATTTTAAAAAATCAAGACATGAGTTCATGTCCTTTGCAGGGACATGAATGAAGCTGGAAACCATCATTCTCAGCAAACTATCATAAGG
ACAGAAATCCAAACACCGCATGTTCTCACTCATAGGTAGGAATTGAACAATGAGAACACTTGGCCACAGGGCGGGGAACATCACACACCAGGGCTTGTCA
GGGGGTGGGAAGCTGGTGAAGGGATAGCATTAGGAGAAATATCTAATGTAAATGACGAGTTGATGGGTGCAGCAAACCAACACGGCACATGTATACCTAT
GTAACAAACCTGCACGTTGTGCACATGTACCCCAGAACTTAAAGTATAATAATAAAAAAAGAAATATTTGTTTTTGATTTATATGCCAATCAGACAAAAT
GTGAAAAGCCCTACTGAAATTAAGTATCACCATGAAAGATAAATTCTGGATAATTTTTTCAAGTTTTAACAATGTAGCTTTAATTGGAGAAAGCTATCAT
TTGGAATGAGTTAATCTATCCTATACTAAAATAAGTCACTTGCTTTAAAACATAATAAATATGATTTTGAATTGAAAACAAAAACAACTCAAGACAAAGG
AAAATGGACACACTAACATACCAATAATTTATAGTATGCAGCAAAAGTGGTTTTAAGAGGGAAGCTTTTACCAATAAACACTTCCATTAAAAAAGAAGAT
CTCAAATAAGCAACCTAAGATTACACCTCAACAAACTAGACAAAGAACTAACTAACCCAAAAGTTAGTAGAAGGAAAGAAATAATAAAGATCACATCAGA
AATAGTAAAGACTAAAAAACTGATACCAAAAAGAAATAAAACTACTAGTTGGTTTTCAATAAAATAACAAAATTGACCAACTTTTAGCTAGATTAAGAAA
AACAGAGAATACTCAAATAAAACCAGAAAGAGGAGACATTACAATAGATACTACAGAAGTACAAACGATCATAAGAGACTACTATGAATAATTACATGCC
AACAAATTGGATAACTTAGAAGAAATGGATGAATTCCTAGAGCAAAAAACCTACAAAGACTGACTCAGAAAGAAATAGAAAATCTGAACAGACCAATAAT
GTGTACATGATTGTATCAGTAATAACAAGTCTCCCATCAATGAAAAGGCCAGGACCTAATGGCTTCACTGCTGAAGCATACCAAACATTACAAAGACTAA
TATCAACCCTCCTCAAACTCTTCTTAAAAACTAAAAAGAAGGAATGCTTTCACATTCATTTTATGAGGATAGCATTACACTGATACTAAACACAGAAAAA
TAATACGCTAATAAAAGAACATTACAGGCAATATCCCTGATAAACATATGTGCAAAAATCCGCAACAAAATACTAGAAAACTGAATCCAGTAGCACTTTA
AAAAGATCATTCACCATGATCAAGTGCGATTTGTTTCACGAATGCAAGAATAGTTCAACTTACACAAATAAATAAATGAAAGGATGGATGATAAAAATGT
GTATCTATATATATATGTTTTATACACACACACACACACACACACACACACACACACAGAGGAATATTATTCAGCCTTAATGAAGAAGAAAATCCTGCCT
TTGCATCAACCTGGAGGACATTATAATAAGTGAAATAAGCCAGACACAGAAAGGCAAATACTGTGTGATCTCGCTTACATATGGAATCTAAGAAAGTCAA
ATTCCTAGAAATAGAGAGTAGCTTAGTGATTGCCAGAGCCGTGGAAGGGGGAAATGGAGAGATGTTGATCAAAGGATACAACTGTATAGCTTTGCAAGAT
AAATAGGTTCTGGAGATCTAATGTGCAGAATGGTGACTAGAGTTAATAATACTGTATTGCATACTTGAAATTTGCTAAAAGAGTTGATCTTAAGTGTCCT
CACCATATACAC


SNP Information

Context             (SEQ ID NO:19216):
TGCAAGGTTTTTATGTCTGTCCCTGACTGATGACCAAATACCCTATAGCCTGCACAGCTGCAAGCTGTATAGCCATACAATTTGCAGGACACACACACAT
A
CACACACACACACACACACACACACACTAACATATAATATAATATAATATAATATAATATAATATAATATAATATAATATAATTAATATATATAAACCTG
Celera SNP ID:            hCV27422577
SNP Position Genomic:     63873
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19217):
GAGAACCACTACTGGGGAAAGGACAAATTCAGGGAAACAGTGAGCTCAATGGTGACGCCAGAGCTCACGTAGCACTGGGGGATACCGGGGTTCTGATCAG
Y
CCGAGGAGAGACACCTCATTGAACATCTCGGGCATTCAGTAGAGACCCCAGAAAAGTCATACTTTAGGAGTAGGATTTATGCCTTCTTAGAATAAAGACT
Celera SNP ID:            hCV11285380
SNP Position Genomic:     64598
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19218):
GCAAGGTTTTTATGTCTGTCCCTGACTGATGACCAAATACCCTATAGCCTGCACAGCTGCAAGCTGTATAGCCATACAATTTGCAGGACACACACACATA
C
ACACACACACACACACACACACACACTAACATATAATATAATATAATATAATATAATATAATATAATATAATATAATATAATTAATATATATAAACCTGT
Celera SNP ID:            hCV27422578
SNP Position Genomic:     63874
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,4)   total(C,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19219):
ACCAAATACCCTATAGCCTGCACAGCTGCAAGCTGTATAGCCATACAATTTGCAGGACACACACACATACACACACACACACACACACACACACACTAAC
W
TATAATATAATATAATATAATATAATATAATATAATATAATATAATATAATTAATATATATAAACCTGTGTGAACACACTGGGTTCTAAGCTCCAGTTTT
Celera SNP ID:            hCV27422579
SNP Position Genomic:     63905
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,7)   total(A,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19220):
AGAAAGTAATAAGGAATAAGAATGAAATTTATGAACAAACATGTGGAAGGTTGGAAGCAAGAGTGGGGCCAACACGCATGGGGAGGAAGCATTTGGGCAG
Y
GACTCCGCAGACCCAGACTCAAGCTGAGCTATACAACCTCCTTACGCCTCAGTTTCCTCAACTGAAGAACAGGAATGACAAGTGCCTGTTTCATAGGACC
Celera SNP ID:            hCV27461621
SNP Position Genomic:     85121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19221):
ACCGTCACCATATTTCCAGGACATTTTTCTCATCCCCAAAGGAAACCTCATGCCCATTAAGCAGTCACTCCTCATTAAAATATTAGTTATGAAGACTGTA
K
CATTTTTTTAAAAACTCATGATATAACATTGATTGAAAAAATCAGTATAGGAAATTGTGCATTATGATGTAATAGTAAAAGAAGCATATAAAAATCTGAA
Celera SNP ID:            hCV27397370
SNP Position Genomic:     85500
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19222):
TTTGTGTTGTGGCAATTGTATGATACCTTTAATGGGAATATTTCAAAGACACTTGTTAAGACTTTGTTAGAACAAAATGTAGAGGGTGCTGGATGTCCCT
S
AATATTCTTCCGCCTCCTGTAACTTGTATTGCTTTGGAATTTCCAGTGGCCTGACAATGAACTACTGCAGGAATCCAGATGCCGATACAGGCCCTTGGTG
Celera SNP ID:            hCV11285387
SNP Position Genomic:     70489
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,22)   caucasian(C,13|G,17)   total(C,25|G,39)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19223):
ACATCAAAGATAACAAGGATAATCTTATAAGCCAGAGGAAAACAATATCATTTACATAGAGGGACAGTAATGAAAGTGACCGATGCCTTCTCCTTGGAAA
Y
AATGGCATAACATCTTTAAAGTGATAAAGAGAAATAAAAACAGATCAACCTAGGACGACATGTCCAGCCAAAACAAACAAATAAACAAAAAAACCCTTTA
Celera SNP ID:            hCV407852
SNP Position Genomic:     65649
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19224):
AGAATATTCATAGCAGCTTTATTTTTTATAACCCCAAACTGTAGACAATTTCAATGTCAATCAATAAGAAAATGAATAAATAATTTGTGAACTAGTCATA
Y
AATGGCATACTGTTCAGCAATAAAAGGGAGCATGTTTTTGATACTCTCAAATAGTATGGAAGATGCTCAAAAATATTACATTAAAGAAAGATGCCAGATA
Celera SNP ID:            hCV407854
SNP Position Genomic:     68293
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19225):
AATGTGAGGATTCTGAGAGGTTGGAGCAACATTCCTGGGAGGAACGAAGGGGAGCACATTCTCCAAGATCCCCCACCACCGGGGTCCTCACCGGCTGTGC
T
TTTTTTTTTTTTTTTCTTGACAGAGTCTCGCTCTGTCGCCAGGCAGGAGTGTAATGGCCCAATCTCGGCTGATTGCAGCCTCCAACTCCAGGGTTCAAGA
Celera SNP ID:            hCV407855
SNP Position Genomic:     68959
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19226):
CCTGACACAATGCCTGGTGACAGAATCAAGTGTCCTTGCAACTCTCACGGTGGTCCCAGATCCAAGCACAGAGGCTTCTTCTGAAGAAGGTAGGAAGTCT
R
TGGCCAGACAACCACACCCTAGGACGTTGGGATGAAAAGAGTTGCAAAATCTTAGTGATATAGAAGCCTTCCATGCTCACACAATTCCAAGTAGAATGTG
Celera SNP ID:            hCV25928164
SNP Position Genomic:     23762
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,36)   total(A,71|G,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19227):
ACACACTGGGTTCTAAGCTCCAGTTTTCTGAAGGGATATGGGTTGCCAGGAGAGGAAGAGCAAAAGCAAGAATGTAGATGAGAATTAGGAAGTAAACAGA
Y
ATGGAGATTAAAATGGGCAGGTACATGGACAAAAAACCAGGTCTGACAAAAACTGGCTTTCTGCCATAAATGACTATAAAAGATATTAAAAAACACTTTC
Celera SNP ID:            hCV27422580
SNP Position Genomic:     64079
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19228):
CTAGGACGACATGTCCAGCCAAAACAAACAAATAAACAAAAAAACCCTTTAAAATAAACGTGATGTAAATACGTATTCTGCCACCTCCAGAGGAAACAAG
S
AAAAAAACAAAAGAATGTTTCCAAGGCAGGCTTCTGTATTAAAAGATTTTAAGGAAAGTTATTCAGGTAGAAGAAAAATAATACCAGATGGGAACTTTAA
Celera SNP ID:            hCV27422581
SNP Position Genomic:     65799
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19229):
CTAAGAAGCGTTTGCTACTTTAGATTTTTTTTTATAATAATAATCTTTTAAGTATGAGAAATGTGCAGACAGGATTAGTGATTGAGAGCCATTTGTGCTT
S
TGGCAATCATATGGTACTTTTATGGGAATATTAGAAAGGCACTGGTAATGACCTTGTTGCAGCACAAAGGAGAGGGTGTGGGGTGCCCCTGCATATTGTC
Celera SNP ID:            hCV27422582
SNP Position Genomic:     12309
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19230):
GTAACTCGGTCCTGACACTCTATCTGGAGACAGTGTCAGATCCCACAAGTTAAGGCTCAGTCCTACAAGACTGCCCCACTGCAGATGCCAATCCCAAGTT
S
CAGGCTGTGACCTGTACTTCTGCCCAGCTGGATAAAGATCTGTTTTTCTATATGACCCTCCATGGGTTTGATTACTTTGCTAGAGTGGCTCACAGAACTC
Celera SNP ID:            hCV27422583
SNP Position Genomic:     72598
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19231):
GGTGTCTCTTAGGAAGAACACATAGGACACAGACCCATCTGCCTGCATGTTTTGCTTCCTCATCTCCTTTCTACACCAGGGCACCTGTGCTCAATTGCTG
T
TCTCCTCTAAAGAGACTTCCTTCTGTAAGTTTGTGAAATGCCATCGACAAACCTGATCGCATCGCATTTCACTCTGCTGTTGAGTTGATTTTTCTTTACT
Celera SNP ID:            hCV27422584
SNP Position Genomic:     77209
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19232):
TGTCTCTTAGGAAGAACACATAGGACACAGACCCATCTGCCTGCATGTTTTGCTTCCTCATCTCCTTTCTACACCAGGGCACCTGTGCTCAATTGCTGTT
C
TCCTCTAAAGAGACTTCCTTCTGTAAGTTTGTGAAATGCCATCGACAAACCTGATCGCATCGCATTTCACTCTGCTGTTGAGTTGATTTTTCTTTACTTT
Celera SNP ID:            hCV27422585
SNP Position Genomic:     77211
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19233):
TCTCTTAGGAAGAACACATAGGACACAGACCCATCTGCCTGCATGTTTTGCTTCCTCATCTCCTTTCTACACCAGGGCACCTGTGCTCAATTGCTGTTCT
C
CTCTAAAGAGACTTCCTTCTGTAAGTTTGTGAAATGCCATCGACAAACCTGATCGCATCGCATTTCACTCTGCTGTTGAGTTGATTTTTCTTTACTTTAT
Celera SNP ID:            hCV27422586
SNP Position Genomic:     77213
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19234):
TGCTGAGTCTGGGAGCACTGAGGCCAGGTAAAAGGAAACTTGGCAAATGAGGGGCACCTATGGGTGTGGGAGGCTGCTCCTGGTGTTTGCATATTTTAAA
R
TTTAAATGCTACAAACCACTGTGAGTTAGGTATTATTGTTCCTATTTTACCATTGAGGAAGCTGGGGCTCAGAGAAGGTGGAGGGTGGTACAGACAAACC
Celera SNP ID:            hCV27422587
SNP Position Genomic:     82531
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19235):
TCCGCCTCCTGTAACTTGTATTGCTTTGGAATTTCCAGTGGCCTGACAATGAACTACTGCAGGAATCCAGATGCCGATACAGGCCCTTGGTGTTTTACCA
Y
GGACCCCAGCATCAGGTGGGAGTACTGCAACCTGACGCGATGCTCAGACACAGAAGGGACTGTGGTCGCTCCTCCGACTGTCATCCAGGTTCCAAGCCTA
Celera SNP ID:            hCV11285390
SNP Position Genomic:     70598
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,19|T,13)   total(C,54|T,16)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;Northern Ireland, France, Scotland(T,660|C,1340)      total(C,1340|T,660);(C,-|T,-)   (T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19236):
ATTTTTATTTTTTTCTACAGACTGTATGTTTGGGAATGGGAAAGGATACCGGGGCAAGAAGGCAACCACTGTTACTGGGACGCCATGCCAGGAATGGGCT
K
CCCAGGAGCCCCATAGACACAGCACGTTCATTCCAGGGACAAATAAATGGGCAGGTCTGGAAAAAAATGTAAGCCACTTTGATTTGGACTCTTTTTCCCT
Celera SNP ID:            hCV25931531
SNP Position Genomic:     71338
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,38)   total(G,75|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19237):
CTTGCACGTGAGCACAGTTTCCATTGAGAAGCCCTCTCATTTGTCCTTTTTTTCTAAGCTTTTATGTGAAATATTTCTAAGAACTTACTACAGTTCTAAA
R
TGTTAGGAATTTGTTTCTTTGGTGTTTTTGTTTGTTGGTTGGTTGTTGCTTTTCTCAAGTCCATCTGCCTACAAATAAAGAAACAAGAATGTTACTTGTC
Celera SNP ID:            hCV27422588
SNP Position Genomic:     13682
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19238):
CATGTCGTCATGAACACTCTGTAGAGATTCCTAGAAATGAGCTTCCATGTTAGTGGAGTTTCCGATGAGAAGCAATCTGATATTTCTTTTCCACTAAGTT
K
TACATGAAATATTTCTAAGAACTTACTACAGTTCTAGAATGGTAGGCATCTCTTACTTTCGTGTTTGTTTGTGTGTTTTCTCATGTCCATTTGCCTATTA
Celera SNP ID:            hCV25924171
SNP Position Genomic:     19223
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,34)   caucasian(T,28)   total(G,2|T,62)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,32)   caucasian(T,38)   total(G,2|T,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:19239):
AAATTTCTATATCTTTTTAAATGAGAGTTGACTACTTGAAGCAAAATGATAGCAATATATTTAACTTTAGCATATGTAGAGGTAAAAATTTGAACATATA
R
ACTAAATCATGTGGGGAATAATTGGAAGTGTACCATTGTAAGTTTCTTACCTTATCCACGATGGTATGTAATATTAATGAAAGGTTGAATTTGTGGGTCC
Celera SNP ID:            hCV29322770
SNP Position Genomic:     16675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19240):
ATATTATATAATAAGAATTTTCCATGTATCCAAAAGAGGGAAGCCAAGGAAGAAAAAGAAGTCTTTCAAGTACTCAAGCTCTGAGCACATCCAGTTGCTC
W
TTGAACCAGCTTCCTGGAATGGAGGGTCTGGGCTTGAGACTAGGTCACATGTGTAGAGTCTCTAGAGAGACAGTGTTGGATCCCCATGGCCCATAATACA
Celera SNP ID:            hCV29322771
SNP Position Genomic:     16927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19241):
CGTTTTCTGCCCCATGGCCTGGAAGCCAGAGGCCTTGGCTTTCATGATCAACGATCTAGGGAAACATGCAAAATTTCCATGTCTTTCCCCTCCTCTGCCC
Y
CGACAGCCAATTACCACCTGCATCCTGCATTGCCAAATGCAGTGCCCTTTGTATGAACATTCAGTAGAGTTTCATAGAAAGGTGCTACTTCGTGAGCGCA
Celera SNP ID:            hCV29322772
SNP Position Genomic:     7010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19242):
TCGTCATGAACACTCTGTAGAGATTCCTAGAAATGAGCTTCCATGTTAGTGGAGTTTCCGATGAGAAGCAATCTGATATTTCTTTTCCACTAAGTTTTAC
R
TGAAATATTTCTAAGAACTTACTACAGTTCTAGAATGGTAGGCATCTCTTACTTTCGTGTTTGTTTGTGTGTTTTCTCATGTCCATTTGCCTATTAATAA
Celera SNP ID:            hCV29322773
SNP Position Genomic:     19227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19243):
GAATCCAGATGCTGAGATTCGCCCTTGGTGTTATACCATGGATCCCAGTGTCAGATGGGAGTACTGCAACCTGACGCAATGTCCAGTGATGGAATCAACT
S
TCCTCACAACTCCCACGGTGGTCCCAGTTCCAAGCACAGAGCTTCCTTCTGAAGAAGGTAAGAAGCCTGCAGTCAGACAACCATACCCTCGGACATTGGG
Celera SNP ID:            hCV25929478
SNP Position Genomic:     32598
SNP Source:               Applera
Population(Allele,Count): african american(C,17|G,19)   caucasian(C,34|G,6)   total(C,51|G,25)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19244):
AAGGAAGGGCCAATGGAAGTTTCTGTTAGAAGAGTCATGCTTCAAGGTGACTGCTCAGGACTCAACTTGGCTCAGATGCAGAGGAACATTTCCTGTGAGC
M
AAAGTTCTTAGAGAAGACTTTGTTTTTTTGAGACAGAGTCTTGCTTTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCCGCC
Celera SNP ID:            hCV29322774
SNP Position Genomic:     19732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19245):
AAGTTTCTGTTAGAAGAGTCATGCTTCAAGGTGACTGCTCAGGACTCAACTTGGCTCAGATGCAGAGGAACATTTCCTGTGAGCAAAAGTTCTTAGAGAA
K
ACTTTGTTTTTTTGAGACAGAGTCTTGCTTTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCA
Celera SNP ID:            hCV29322775
SNP Position Genomic:     19748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19246):
CTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCTGAGAAGACATTTTTTAAGCTGGCTCTCCTTCCTCCTAGTTTTATG
K
AAGCAGAAGGATATATGGAGTTGAGAAGATCTTATTAATAAAACAGCCGGGATGACAAATGACCAAAGAGTTAGAGTATCCTTCTACAACATCGGCTGAG
Celera SNP ID:            hCV29322776
SNP Position Genomic:     20088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19247):
CGGTTTTCTTATGGAGTATAGACGAGTTTGGATGTGTTACAATAAGAATGATAATCTGTCTTTGAAATGTTCACAGTTGTTTAGAAGTTGAGGACGATTT
R
TGATTGTTACAGGACCTTTAGTGAGAATATTTCAAAGTCACTTTTTACCACTTTGTTACAACAAAATGTAGAGGATGTCTGGTGCCCTTGTATCTTCTCC
Celera SNP ID:            hCV25930013
SNP Position Genomic:     27866
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,20)   caucasian(G,40)   total(A,12|G,60)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19248):
GCCATTGCTATAGCATCCTCCAGGTGTGAAAGCTGAGAAGTAGATATTGAGATCAACTGTATGTAAATAAATTCATGAATGTAGATCATGTGGATGGATT
S
CTTAGGTAAATAACAAATCAGCAAATCAAACACTGAATAGATCATGCAGTTTTATAGAGACTTACAGACAGCCTGACAGATAAACATTTGTATGTACGTG
Celera SNP ID:            hCV207123
SNP Position Genomic:     32021
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19249):
CTAGGAAAAATCCACACATTTAATATATGTGTTAGGCAAGTCACAGAAGGAGAAGAAAAAGATATCATGACAGACATTATACTTGAAGCGATGATGGCTC
R
CAACACGCCAAATATACAGAAAACAAGAAACTCATAGTCAAGAAGCTAAATGACTCAGGTATAGAATTTTAAAGAGCAAAACTCTATGATTTACTGGGAT
Celera SNP ID:            hCV207124
SNP Position Genomic:     31491
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,7)   total(G,7|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19250):
TATTTCCAAGCCAATAAGCATTTCCAGTAATTTCTTAAAATAGTGTTCATTGCAGTCTTCAGCGTTGTGGCTCCTGAGGAATGTGGCCCCTGATTCTGTC
R
TCCTAGAGAAGCCTGACATGACTGCATTGATTCTGTATCGTCCTGGGTCTATGTGGCTGCCTGGCTGTCTGTAATCATCTGTTTTATTTTTATTTTTTTC
Celera SNP ID:            hCV25923806
SNP Position Genomic:     71152
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,32)   total(A,1|G,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:19251):
AACTTACTACAGTTCTAGATTGGTAGGAATCTGTAGGTTTGCTGTATGTTTTTTGGTTGGTTTTCTCCCATCCATCTGCCTACAGGTAAGGGAAAGATAA
M
GTTCGTAATTCTCATAGACTCCTTTCTGGTTGTGTCATAAATGGCTTCACATATTTCGTTATTCTCAGAGATACTCAGTTTATTTCTTGTGTTTTCATTT
Celera SNP ID:            hCV29322777
SNP Position Genomic:     7275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19252):
CACAGCAGTCTTGCTTAACTGAGGAGAGAGACTGGAGTCTGCGATGCCTCAGGCAGCTGATGTGTTCTAGGCTGGCTAAGAATGAGAAGGGATTTGTGGA
R
GAAAGGAGCTCCAGGAATACACACAGAAGTCTCCTCAAGGCTTTGGCTAAATACAAAGCTGCGTATGCACAGGGAGAGTTTTCATAAAGAAAGAACAACA
Celera SNP ID:            hCV207125
SNP Position Genomic:     30452
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19253):
GTAGGTTTGCTGTATGTTTTTTGGTTGGTTTTCTCCCATCCATCTGCCTACAGGTAAGGGAAAGATAACGTTCGTAATTCTCATAGACTCCTTTCTGGTT
K
TGTCATAAATGGCTTCACATATTTCGTTATTCTCAGAGATACTCAGTTTATTTCTTGTGTTTTCATTTCAGCACCGACTGAGCAGAGGCCTGGGGTGCAG
Celera SNP ID:            hCV29322778
SNP Position Genomic:     7307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19254):
GGACATGTCAGTCTTGGTCCTCTATGACACCACACTGGCATCAGAGAACCACAGAATACTACCCAAATGGGTATGTCTTTGAGTTTTCTCCCAAGAGAAA
S
AGCCACCCACTTAAATTTCTCCTGGAAGAGCCATGCTTCCAGCTAACTTCTTATGACCCAATTTCTCTCAGACCCAGAATGTTGGACAGAATGTCTCAGG
Celera SNP ID:            hCV207126
SNP Position Genomic:     29582
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,8)      total(G,2|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19255):
GTCTTAGCCAGAAGAATATTCTAACATTTTGCCAAATTTGTGAAGATTTACCAAGCTCATGATAAGCCTTTCATGGTATTTCTTCAAGTAGTCAGTGTTC
R
TTGCATCTTTGGCTTTGCGGTTTCGGAGGAATGCGGTTTTTGAGTCTGTCATCCTTGAGAAACCTAATATGACTTTTCTTAGTTCCATATACTTCTGGGT
Celera SNP ID:            hCV29322779
SNP Position Genomic:     24127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19256):
ATGTAGAACAGAGCATGGTCGTCATTTTCAGAGATGATGTCCTGTTTCTATCATGGATTTTTTTTCTCATGCTTCTGTGTTCTGGAAATTACTCAGTTTG
W
TTTCTCCTCTTTGAATTTCAGCACCAACGGAGCAAAGCCCCACAGTCCAGGACTGCTACCATGGTGATGGACAGAGTTATCGAGGCTCATTCTCCACCAC
Celera SNP ID:            hCV207127
SNP Position Genomic:     29370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,5)      total(A,1|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19257):
TTGAAGGAATGCCATTTTTGAGGCTGTTGTTCTTGAGAAACCTAACATGTCTTCATTAGATCCGTATTGTCCTGAGACTTTGAAGCAGTACATAGCCACC
R
AATTGTTTATCTCCCCAGCCTACCTTCATCTTGGGCATGCCTTCCACACCTAGGATTTGAGGGAAGGGATTTCTCAGTGTTCTCATCCCTGCTTCTCATG
Celera SNP ID:            hCV207128
SNP Position Genomic:     33148
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19258):
GTTACACCATGGATCCCAGTGTCAGGTGGGAGTACTGCAACCTGACACAATGCCTGGTGACAGAATCAAGTGTCCTTGCAACTCTCACGGTGGTCCCAGA
Y
CCAAGCACAGAGGCTTCTTCTGAAGAAGGTAGGAAGTCTATGGCCAGACAACCACACCCTAGGACGTTGGGATGAAAAGAGTTGCAAAATCTTAGTGATA
Celera SNP ID:            hCV25928241
SNP Position Genomic:     23722
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,37)   total(C,1|T,73)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:19259):
AGTGACCTTGCATAGATCTTGTCATAAAAAATGAAAGAGACCTTGGGAAGGTCTTGGGCTGGTCACTTTTGTCAGAGTCCAGGGCTGTGGGGTGAAAGCC
R
CAGCTATAGAGCTTCATTCTGGAGTCACTTAGCTTTGCTCTCCTGGGGACAGGCTGTGCCTATTCTTGCCTCAGGCATCAAAAAAAGTGGCACAGATGGG
Celera SNP ID:            hCV25927513
SNP Position Genomic:     77724
SNP Source:               Applera
Population(Allele,Count): african american(A,6)   caucasian(A,33|G,5)   total(A,39|G,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19260):
TCCCAGTGTCAGATGGGAGTACTGCAACCTGACGCAATGTCCAGTGATGGAATCAACTCTCCTCACAACTCCCACGGTGGTCCCAGTTCCAAGCACAGAG
S
TTCCTTCTGAAGAAGGTAAGAAGCCTGCAGTCAGACAACCATACCCTCGGACATTGGGATAAAAAGATTTGCAAAATCTTTGTGATGCAGAAAACTTCCA
Celera SNP ID:            hCV25929408
SNP Position Genomic:     32640
SNP Source:               Applera
Population(Allele,Count): african american(C,18|G,20)   caucasian(C,34|G,6)   total(C,52|G,26)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19261):
TTTACACTTTGTTACAGCAAAATGTAGAGGGCGCTAAGTGCCCTTGAATCTTCTCCCATCTCTGGTGACCTGTGTTGTTTTGAAATTTGCAGTGGCCTGA
S
CAGGAACTACTGCAGGAATCCAGATGCTGAGATTCGCCCTTGGTGTTACACCATGGATCCCAGTGTCAGGTGGGAGTACTGCAACCTGACACAATGCCTG
Celera SNP ID:            hCV25929266
SNP Position Genomic:     23577
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,5)   caucasian(C,36)   total(C,65|G,5)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19262):
TCCTTTGCTTTGGGAATATGAACATGATCAAAACTGAGTGAACTTGTCTTCCTGGCTTTCTGTACAATGAAGTAGAACAAACCATCCAATTTGACCAAAG
Y
CTTGGCATGTTTTCTTTCTAGGTTTGGAAAGCACTTCTGTGGAGGCACCTTAATATCCCCAGAGTGGGTGCTGACTGCTGCTCACTGCTTGAAGAAGTAC
Celera SNP ID:            hCV25925778
SNP Position Genomic:     77992
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,40)   total(C,75|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:19263):
AATTTCTATATCTTTTTAAATGAGAGTTGACTACTTGAAGCAAAATGATAGCAATATATTTAACTTTAGCATATGTAGAGGTAAAAATTTGAACATATAG
M
CTAAATCATGTGGGGAATAATTGGAAGTGTACCATTGTAAGTTTCTTACCTTATCCACGATGGTATGTAATATTAATGAAAGGTTGAATTTGTGGGTCCA
Celera SNP ID:            hCV11226249
SNP Position Genomic:     16676
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19264):
TTCTAACATTTTGCCAAATTTGTGAAGATTTACCAAGCTCATGATAAGCCTTTCATGGTATTTCTTCAAGTAGTCAGTGTTCATTGCATCTTTGGCTTTG
Y
GGTTTCGGAGGAATGCGGTTTTTGAGTCTGTCATCCTTGAGAAACCTAATATGACTTTTCTTAGTTCCATATACTTCTGGGTCCAGGTAGCAGTACATAG
Celera SNP ID:            hCV29322780
SNP Position Genomic:     24145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19265):
TCTCCATCTTAAGCCAGTCCTGCACAACTAGGCTTTGATGGGAGGGATCTCTCAGTGTTCTTGCCCCTCCTTCTCATGGAACATATATCTGTGTTGGTCT
Y
TGAGAAGAAGAGTAGTGGATATCTACTTTGTTGCAATGCAGAATCCTGGGCCAAAGATACCAGCCATCCCTCCAAGGGAATAAAATTTTGGCCAGTAGCC
Celera SNP ID:            hCV29322781
SNP Position Genomic:     24374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19266):
AGTTTTCTTATAAAGCATAGATTACTTTGAATGTGTTACAATAAGAATCATAAGCTGTCTTTGAAATGTTGACAGTTGTTTAGAAGTTGAGGACCATTTG
Y
GAGTGTTATGGGACTTTAGTGAGAATATTTCAAATTTGCTTGTTTACACTTTGTTACAAGAAAACATAGAGGGTGCCAGGTGGTGCTGTATCTTCTCCAA
Celera SNP ID:            hCV29322782
SNP Position Genomic:     32339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19267):
TTCTTATAAAGCATAGATTACTTTGAATGTGTTACAATAAGAATCATAAGCTGTCTTTGAAATGTTGACAGTTGTTTAGAAGTTGAGGACCATTTGTGAG
Y
GTTATGGGACTTTAGTGAGAATATTTCAAATTTGCTTGTTTACACTTTGTTACAAGAAAACATAGAGGGTGCCAGGTGGTGCTGTATCTTCTCCAATCTC
Celera SNP ID:            hCV29322783
SNP Position Genomic:     32343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19268):
ATGGGTCATTTCAGTGTCCTAGCCAAAATGGATATTCTAACAGCCTGCCAAATATGTGAAGATTTCCAAGCCAATAAGCCTTTCCAGTGATTTAAAGTAG
R
CTTTTTTCATTGCAATCTACAGTTTGCAGTTTCTTAAGAACATGGCCTTTGAGTATGATATCCTAGAGAAACCTAAGGAGACTGCATTATTTTTCTATTG
Celera SNP ID:            hCV29322784
SNP Position Genomic:     40995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19269):
TAGCACGCTTATACAAAGCCTGAGAAGATAAACAGAGCCTCAAGGACATCTATGAAAATATCAAAATATTTAATATTTGTTTAAAGCAAGTCACAGAGGA
R
GGGAAAGAGATATTGGAACAGAAAAAATACTTGAAGCAGTGATGGCTGATGACTTTCTAAATATGGAAAAAATGATAAACTCACATAGTCAAGAAGCTCA
Celera SNP ID:            hCV334752
SNP Position Genomic:     36350
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19270):
ACGGCTGACAAATTTCCAAACATACAGAAAATGAGAAATTCATAGTCATGAAGCTCAATGACTCAGGTATAGATTTTTAAAGAGCAAAACTCTGATTTAC
Y
GGGGTACATCATAGTTAAATTGTCTGATTTCAAAGCTAAGAAGAAAAAAAGGGGGTTCCTATGAACAAACATTTTGACAGTTGATCTAAGACCACAGCTT
Celera SNP ID:            hCV207131
SNP Position Genomic:     27117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19271):
GTTTGCTGAGAATGATGGTTTCCAGCTTCATCCACATCCCTACAAAGGACATGAAGTCATCCTTCTTTATGGCTGCATAGTATTCCATGGTGTATATGTG
Y
CACATTTTCTTAATCCAGTCTACCATTGATGGACGTTTGTGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATATGTGTGCATGTGT
Celera SNP ID:            hCV29322785
SNP Position Genomic:     48921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19272):
GAGCAAAGCCCCGGGGTCCAGGATTGCTACCATGGTGATGGACAGAGTTATCGAGGCTCATTCTCTACCACTGTCACAGGAAGGACATGTCAGTCTTGGT
Y
CTCTATGACACCACACTGGCATCAGAGGACAACAGAATATTATCCAAATGGGTACAACCTTGAGTTTTCTTCAAAGACAGACAGCAGCCCCCTTACATTT
Celera SNP ID:            hCV27531060
SNP Position Genomic:     25095
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19273):
ATAGCTCTTATTATTTTGAGATATGTCCCATCAATACATAGTTTATTGAGAGTTCAGCATGGAGAGCTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCT
R
TTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGATGGATTACATTTATTGATTTGCATATGTTGAACCAGCCTTGCATCCCAGGGATAAA
Celera SNP ID:            hCV29322786
SNP Position Genomic:     50791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19274):
CACATTTCCCTTTTCTAGGCAATACTGAGCTTGATTTTCTCTTTTAATTTCAGCACCAACTGAAAACAGCACTGGGGTCCAGGACTGCTACCGAGGTGAT
R
GACAGAGTTATCGAGGCACACTCTCCACCACTATCACAGGAAGAACATGTCAGTCTTGGTCGTCTATGACACCACATTGGCATCGGAGGATCCCATTATA
Celera SNP ID:            hCV27531061
SNP Position Genomic:     33946
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19275):
TGCTGGATTCAGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCATGGATGTTGGTCTAAAATTCTCATTTTTGTTGTGTCTCTGCCAGG
M
TTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATGATTGGAATAGTTTCAGAAGAATTGGTACCAGCTCCTC
Celera SNP ID:            hCV29322787
SNP Position Genomic:     51029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19276):
ACTACAGTTCTAGATTGGTAGGAATCTGTAGGTTTGCTGTATGTTTTTTGGTTGGTTTTCTCCCATCCATCTGCCTACAGGTAAGGGAAAGATAACGTTC
R
TAATTCTCATAGACTCCTTTCTGGTTGTGTCATAAATGGCTTCACATATTTCGTTATTCTCAGAGATACTCAGTTTATTTCTTGTGTTTTCATTTCAGCA
Celera SNP ID:            hCV27502712
SNP Position Genomic:     7280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19277):
TTCTCTGCTCATGCAATTACTGAGTATGATTTATTTTATTTTAATTTCAGCACCACCTGAGAAAAGCCCTGTGGTCCAGGATTGCTACCATGGTGATGGA
Y
GGAGTTATCGAGGCATATCCTCCACCACTGTCACAGGAAGGACCTGTCAATCTTGGTCATCTATGATACCACACTGGCATCAGAGGACCCCAGAAAACTA
Celera SNP ID:            hCV27531062
SNP Position Genomic:     41909
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19278):
TTGCAATCTTAGTCTTTGATGAAACAGACTTTAAACCATCAAAGATCAAAAGAGACAAAGGAGGGCATTACCTAATGGTAAAAGTATCAATGCAACAAGA
R
GATCTGACTGTCCTACTTATATATGCACCCAATACAGGAGCACCCAGATTAATAAAGCAAGTTCTTAGAGACCTACAAAGAGACTTAGACTTCCACACAA
Celera SNP ID:            hCV29322788
SNP Position Genomic:     55411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19279):
ATGCGACTTCTTTTCCCACCTTGTGCCACAGCATCCTCTTCATTTGATTGTGGGAAGCCTCAAGTGGAGCCGAAGAAATGTCCTGGAAGCATTGTAGGGG
K
GTGTGTGGCCCACCCACATTCCTGGCCCTGGCAAGTCAGTCTCAGAACAAGGTAAGAACAGGCCCAGAAACCATCTATACTGTCCTTCCATGTAAGCCCC
Celera SNP ID:            hCV25929122
SNP Position Genomic:     76456
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,5)   caucasian(G,38)   total(G,67|T,5)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19280):
CCTCAGTGTCCCAGCCAAAATTTTTATTGTAACGTGCTGTCAGGTGTGTGACTCTTTCAGTCCAGTAAGCTTTTCCGGGGATTTCTTCAAGTAGCCAGCA
K
TCAGTGCAATCTTCAGCATTGCAGATTCAGAGAAATGTGGCTCTGGAGCCTGTCATCCTCGAGAAACCTAACAGGGCTGCATTAATTCCATATGGTCCTG
Celera SNP ID:            hCV29322789
SNP Position Genomic:     6537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19281):
GAGGCACACTCTCCACCACTATCACAGGAAGAACATGTCAGTCTTGGTCGTCTATGACACCACATTGGCATCGGAGGATCCCATTATACTATCCAAATGC
R
TATGTCTATCATGTTAGCCATAAAAGGAACAATAGTCAACTAAAATTTCTCTTAGCTGGCCCATGCTACAAGCTCACTTCCTAGGTCCAAATTTCTCATA
Celera SNP ID:            hCV25925349
SNP Position Genomic:     34059
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 DONOR SPLICE SITE


Context             (SEQ ID NO:19282):
CTTTGCTGTTTGCTGCCCCATAGTCCTCATGAACATTCAGTAGAAATTCCCATAAATGTGCTTGCACGTGAGCACAGTTTCCATTGAGAAGCCCTCTCAT
Y
TGTCCTTTTTTTCTAAGCTTTTATGTGAAATATTTCTAAGAACTTACTACAGTTCTAAAGTGTTAGGAATTTGTTTCTTTGGTGTTTTTGTTTGTTGGTT
Celera SNP ID:            hCV1550866
SNP Position Genomic:     13622
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19283):
ACTCAGGATGTGGGTCATGAGAGGATTTCATCTCTCCTGCAGGGGAGTAAGCTGTTCGCCTCCACCCATCCCTGATAACTGAAGTGTCTTTGTCTGCAGT
Y
CTAGACGAAGGACTGTTGTCTCTCCCATGGCCCAGAAGCTGAAGACCTTGCCTTTTGTTATGAAACGTTCATTGTTTTCATGTCTGTCCGTTTCTCTGCC
Celera SNP ID:            hCV1550867
SNP Position Genomic:     13373
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19284):
AGCACCAGGTAATGTATAAAGGAAACCCTATCAGATTAACAGCCAGTTTTTCAGCAGGAACTGTACAAGCTATAAAGGATTGGAGCCCTATCATAGCCTC
Y
TCAAACAAAACAATTATCAGTCAAGAATTTTGTATCCAGCGAAAGTAAGCATCATATATGAAGGAAAGATACAGTCGTTTTTGGACAAACAAATGCTAAG
Celera SNP ID:            hCV1550868
SNP Position Genomic:     46479
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19285):
TGTCACAGGAAGGACCTGTCAATCTTGGTCATCTATGATACCACACTGGCATCAGAGGACCCCAGAAAACTACCCAAATGCGTATGTATTTGATTAAAAC
M
ATAAGAGGAGCAACAGCCAACTCAAATATTGGTTAGAAGACCCATGCTTTAAGCTCACTTCCTAGGGACAAATTTCTCTTAGACTCACATTTTGGCAAAA
Celera SNP ID:            hCV25927459
SNP Position Genomic:     42038
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,35)   caucasian(A,7|C,33)   total(A,10|C,68)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,686|C,795)   total(A,686|C,795) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19286):
CATGGTTTAGAAAGAACTTATATTTCCTTGAAAGGAGAGTGTCCTTTGTTGTTTACTACCACTTTTTAAACTTAGAAAGAAAAATCTAAAGAGTGTTTAT
S
ATTTTACCATTTAATTTCACCTTTGAGATGTGAAAAACTAGTGCTTGGAATTCGTCCTGAATTAAACGACACAATTGCTAACTTGGACTCAAATGCGACT
Celera SNP ID:            hCV25930249
SNP Position Genomic:     76263
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,33)   caucasian(G,40)   total(C,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:19287):
GCACATGAGTCTTTGTTCCAATTGTAAGAGCACTGATAGGTCCTTTTCCCACCAGGTTTTGAATATAAAATTTCTAAGAACTTATTAAAATATTAGAATG
Y
TATTAATCTATTGTTTTTGCTTCAGCATGTCCTTCTGCTTGTGAGTATACTAAAGAGAACAGTCATAATTCTGAAACTACTGTCCTGTTTGTGTCATAAA
Celera SNP ID:            hCV25927745
SNP Position Genomic:     62852
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,31|T,9)   total(C,68|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:19288):
TTTAACTTTAGCATATGTAGAGGTAAAAATTTGAACATATAGACTAAATCATGTGGGGAATAATTGGAAGTGTACCATTGTAAGTTTCTTACCTTATCCA
Y
GATGGTATGTAATATTAATGAAAGGTTGAATTTGTGGGTCCAAAGGGATATTGTAAATCCTAAAGCAATCATAAAATTTTGAATTCTGAGGGATATTATA
Celera SNP ID:            hCV11226257
SNP Position Genomic:     16734
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19289):
GAAGGTTTTGGCGTGCACACATCCTTGAGAAGCAAAGTGTCTTTGCCTTCAGTCAGATATATAGGATCGTTTTCTGCCCCATGGCCTGGAAGCCAGAGGC
Y
TTGGCTTTCATGATCAACGATCTAGGGAAACATGCAAAATTTCCATGTCTTTCCCCTCCTCTGCCCCCGACAGCCAATTACCACCTGCATCCTGCATTGC
Celera SNP ID:            hCV11326263
SNP Position Genomic:     6943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19290):
CCTTCAGTCAGATATATAGGATCGTTTTCTGCCCCATGGCCTGGAAGCCAGAGGCCTTGGCTTTCATGATCAACGATCTAGGGAAACATGCAAAATTTCC
R
TGTCTTTCCCCTCCTCTGCCCCCGACAGCCAATTACCACCTGCATCCTGCATTGCCAAATGCAGTGCCCTTTGTATGAACATTCAGTAGAGTTTCATAGA
Celera SNP ID:            hCV11326264
SNP Position Genomic:     6988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19291):
GCAAAATTTCCATGTCTTTCCCCTCCTCTGCCCCCGACAGCCAATTACCACCTGCATCCTGCATTGCCAAATGCAGTGCCCTTTGTATGAACATTCAGTA
K
AGTTTCATAGAAAGGTGCTACTTCGTGAGCGCACTTTGCAGTGAGAAGATCTGTTCTGTTCTGTTTTTCTAAGGATTTCAGGTGAAATATTTCCTAGAAC
Celera SNP ID:            hCV11326265
SNP Position Genomic:     7077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19292):
GTGTCCCAGCCAAAATTTTTATTGTAACGTGCTGTCAGGTGTGTGACTCTTTCAGTCCAGTAAGCTTTTCCGGGGATTTCTTCAAGTAGCCAGCATTCAG
W
GCAATCTTCAGCATTGCAGATTCAGAGAAATGTGGCTCTGGAGCCTGTCATCCTCGAGAAACCTAACAGGGCTGCATTAATTCCATATGGTCCTGGGTCT
Celera SNP ID:            hCV29322790
SNP Position Genomic:     6542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19293):
CAGCACCTGTACTACATTTTATGGATTCCTTCTTCTCTTTGCGGTATGCCCTGACAATAATTATATCCGTCAGCCTTACCCCCTTGGCAGTAGGAAAACT
R
AAACTGTCTTAAAGTCTCAGCTCTACTTTCTCAGAGGTGCAGGCAAGGGCACTGGGAGTCTGGGGCCCTGGAAAACTGTTCTGACTCTGCCACTTGCCAG
Celera SNP ID:            hCV29322791
SNP Position Genomic:     82074
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19294):
GTGGCCTGACCAGGAACTACTGCAGGAATCCAGATGCTGAGATTCGCCCTTGGTGTTATACCATGGATCCCAGTGTCAGATGGGAGTACTGCAACCTGAC
R
CAATGTCCAGTGATGGAATCAACTCTCCTCACAACTCCCACGGTGGTCCCAGTTCCAAGCACAGAGCTTCCTTCTGAAGAAGGTAAGAAGCCTGCAGTCA
Celera SNP ID:            hCV25929926
SNP Position Genomic:     32573
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:19295):
CATTGCAGATTCAGAGAAATGTGGCTCTGGAGCCTGTCATCCTCGAGAAACCTAACAGGGCTGCATTAATTCCATATGGTCCTGGGTCTATGGAGCAGTA
Y
ATGAGCTCCCAATGCTCTAAGGCTCTTCAGTCCTAGGCTTTGAAGGGAGTGATTTCTCAGTGTTCTTAAACCTCTTTCTGATGGCACTTGTACCTGTGAG
Celera SNP ID:            hCV29322792
SNP Position Genomic:     6654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19296):
ATCTATCTCTTTCTATATCTACGTCTATTCCAATATGTAGAAACACAGTCGGTTCTGACCACCAGTGGTCTGAAGGGATACTGGTTGTTAGAGAATAAAA
R
TGGCAGGAAGGCAGATGAGAGTCAGCAAAGAGAGAGATCCTGTAAAGTAAAAGGGTGGATAGATGGACAGAAGCCCAGGTCTGACCAGCCCATGGCCAGG
Celera SNP ID:            hCV305045
SNP Position Genomic:     14590
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19297):
AGGAAGGCAGATGAGAGTCAGCAAAGAGAGAGATCCTGTAAAGTAAAAGGGTGGATAGATGGACAGAAGCCCAGGTCTGACCAGCCCATGGCCAGGCTTT
M
GGCCATAAGTGACACCAAAGACATGGAAAAATGGTTTCTACATGTTGGACAACAGACAGTAGTGGACCAAAAGAATAGTGACAGGGGGAACAATGAGATC
Celera SNP ID:            hCV29322793
SNP Position Genomic:     14695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19298):
ATAATTCAATAGAATCTACAGAAATAGCTGCACATATATACACACAATGGCACACGTGCACACACCCACACCCACACAGGTGTGAATCCTAGAGCCACAC
S
AGCATTGAAACATAGAGAAGTAAAAATTGTTCATTGAGGAATATGTAGCAATGCTCAATGTGTTTTACCCTAATAAGAGCTTTTGTGATGTATGATTGAA
Celera SNP ID:            hCV249895
SNP Position Genomic:     21672
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19299):
AGACAGTAGTGGACCAAAAGAATAGTGACAGGGGGAACAATGAGATCAACTCCATAGATACCTTGGCTTTCTTCCTGGAGGCCCTTCTTGCACTGAAGAG
Y
AAGGTGATGGAGCCCAGATGGACTGTAGCCATCTTCCTGAATGCAGGAGAGAGATTGGAATTTGGGACTACTGTGGTAGCTAGGATTTTATAGGCCTGCT
Celera SNP ID:            hCV305046
SNP Position Genomic:     14849
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19300):
GAATTAAAGTCATACAGAGTGTGTCACTTTATTCTCCCAGAATAAAGTGAGATATGAATAATGAGAAGTTTGCCAGCTTCTCAAATATTTGGGAGTCATA
Y
GGTGCATTTCAAAATACTCTTTGGGACAAAGAAAACATCACTAAGGAATTTAGAAAAGTTTTGAACTGAGTAAGAATATAACACAATTTATCCAAACTTA
Celera SNP ID:            hCV249896
SNP Position Genomic:     22143
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19301):
ATACTATAAATATTCATCTTGTGTTTTGAAAAAGAAAAGCTCTTTGGAATCCCCTATGAACAAAGACTTTGACAGTTGTTGATCTAAGACCACAGCTTAA
R
TATCTACACAAGAAAAAAAAAAAAAGCAAATAAGAGCCAAGGAAAGCAGATGGAAGGAAGTAGTCCAAACCAGTGACATTCAGTGAACAAGAAAAGAGAC
Celera SNP ID:            hCV249897
SNP Position Genomic:     22685
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19302):
AGAGGTGCCATTACTATAGCATCTTCCAGTTCTGAAAGCTGAAAAGAAGATTTTGAGAACAATTGTATGTGAATAAATTCAGGAATGTTAATCATGTGGG
M
CAATTCCTGAGGAAGACAACAAATCAGCAAACCAGATGCTGAATAGTTAGTGTAGTCCTGTAGAGAGACATACAGAGAGGCTGACAGAGAAATATTTGTA
Celera SNP ID:            hCV249898
SNP Position Genomic:     23016
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19303):
AGAGTGGTAAGAAGGAAAACAAGATAAAATCAGAAACAATGAAATAACACCTTTAGAGTAGTAAGAAGAAGAAAAGATCAGGTCAGAAAAAATGGAATAA
Y
ATGCTAAGAAGAAAAAAAAAGATCAAGTCAGAAACAATGGAATAACACCTTTAGAGTGAAAAGAAGGAAAAAAACCCAGCAAGCTTAAACGCTATGCACA
Celera SNP ID:            hCV1550871
SNP Position Genomic:     36921
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19304):
TAATAATTTGGAATCAGCAGGCTTGTGTAACAAGAGATGTTGCCCAAAGAAAATTAGCTAGAAGAAGAATAGTTCAAGAGGAGAACTTTCTGCAGCCCAC
R
TAATGAAGAACCCAGCAAATGGCAAATGTAGATGTAAATGCAAAATATTTTCTTGATCAAATTTCTATATCTTTTTAAATGAGAGTTGACTACTTGAAGC
Celera SNP ID:            hCV1550872
SNP Position Genomic:     16516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19305):
TTACCTAATGGTAAAAGTATCAATGCAACAAGAAGATCTGACTGTCCTACTTATATATGCACCCAATACAGGAGCACCCAGATTAATAAAGCAAGTTCTT
R
GAGACCTACAAAGAGACTTAGACTTCCACACAAAAATAGTGGGAGACTTTAACACCCCACAGCCAATATTAGATCGACGTGACAGAAAATTAACAAGGAT
Celera SNP ID:            hCV11836570
SNP Position Genomic:     55478
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19306):
TAGTACAGAACAGAGCATGGTAGTCTTTCTCAGAGACAATGATCCTGTTTCAGTCACAGATTTCTTCTGATGCTTCTGTGTTCTAGAAATTACTCAGCTT
K
ATTTCTCCTCTTTGAATTTCAGCACCAACGGAGCAAAGCCCCGGGGTCCAGGATTGCTACCATGGTGATGGACAGAGTTATCGAGGCTCATTCTCTACCA
Celera SNP ID:            hCV25924840
SNP Position Genomic:     24964
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,40)   total(G,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:19307):
CATGATCAAGTTGGCTTCATCCCTGGGATGCAAGGCTGGTTCAACATATTCAAATCAATAAACATAATCCATCACATAAACAGAACCAATGACAAAAACC
R
TATGATTATCGCAATAGACGCAGAAAAGGCCTTTGATAAAATTCAATACCCAATCATGCTAAAAACTCTTAATAAACTAGGTATTGATGGAGCATGTCTC
Celera SNP ID:            hCV11836571
SNP Position Genomic:     56865
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19308):
ACACACCTCCACAAATACTAAAAAATGAAATCCACTGATCCTCACAGACAGGCGGGAAAATATAAAAAGATTTCCTGCATGTGGGTAGGAAGTCACAGAA
S
GAGAGGAAGGAGAGATTGCTACAGGAACAAATACTGGAAGCAAGGATAGCTAAAAACTTTTCAAATAAGAAGAATATTAAAAACCACAGATTCAAGAAGC
Celera SNP ID:            hCV27422538
SNP Position Genomic:     15966
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19309):
TACAAATGCAAATAATAATATTATTGTTGTCTTCTTTGATTTTCTCTTTCCTGGTGAAATTTTGTTTTATTAAGCCTGACAAAGTGATACCTTTGCTTAC
R
TCACTTAAAGTTAGTCTATTTGGACCTAGGTGACAGTACAATCAGCTAAGAAACAGTATTTGTAGGAGAGGCAGGTTTGGGACAGGTGACAAGGCATGTG
Celera SNP ID:            hCV1550877
SNP Position Genomic:     79868
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19310):
AGCCTAGAGGCTTTTTTTGAACAAGGTAAGAAGTTGTGCCAGACATTTACCTGCTTGGATGCTGGGATGAAAAGCCATGGATACCCCCACTGACGCACAA
S
CCTTCAGTGCTACACTGGTTCTCGTGTGTTGGTTCTGGGTCTGCCATGTGGGAGGAAGCCTTAGCGCACTCTCTGGGGGAGCCAGAGGTGTGATTTTTGG
Celera SNP ID:            hCV1550878
SNP Position Genomic:     18263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,2)      total(G,1|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19311):
AACAAATACTGGAAGCAAGGATAGCTAAAAACTTTTCAAATAAGAAGAATATTAAAAACCACAGATTCAAGAAGCTGAATGAATCAGACAGGGAATTTCC
A
AAAAAAAAAAAAAAAAACTGTATGATTCACTTTTGTACATCACCGTTCAACAGTCAGAAGGCAAAGATATAATAACAAGAAACATCTCATGAGAAACTGG
Celera SNP ID:            hCV27422539
SNP Position Genomic:     16092
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19312):
AACTCTCACGGTGGTCCCAGATCCAAGCACAGAGGCTTCTTCTGAAGAAGGTAGGAAGTCTATGGCCAGACAACCACACCCTAGGACGTTGGGATGAAAA
S
AGTTGCAAAATCTTAGTGATATAGAAGCCTTCCATGCTCACACAATTCCAAGTAGAATGTGGACTCAGGGTCAGCCACTGGGAAGGAACACTCAGCGCCT
Celera SNP ID:            hCV25924417
SNP Position Genomic:     23801
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,38)   total(C,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:19313):
GCAATACTGAGCTTGATTTTCTCTTTTAATTTCAGCACCAACTGAAAACAGCACTGGGGTCCAGGACTGCTACCGAGGTGATGGACAGAGTTATCGAGGC
M
CACTCTCCACCACTATCACAGGAAGAACATGTCAGTCTTGGTCGTCTATGACACCACATTGGCATCGGAGGATCCCATTATACTATCCAAATGCGTATGT
Celera SNP ID:            hCV25925506
SNP Position Genomic:     33964
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,35|C,5)   total(A,73|C,5)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19314):
CATGAACACCCAGAAGAGGTGTAAGCAAAAGACCATTCACATGAGTGTAATTTTGAAGTATAGGCACTCTGATCTGTTTTTTGTTTGTTTCTTTGTTTGT
Y
TGTTTTCCAGGGTTGAATTAAAATATTTATGACTACTTATTAAATTTCTAGAATCCTATAAGTCTATTTGTATTTTTATTCTACATTTCAATTTGCATGC
Celera SNP ID:            hCV25927252
SNP Position Genomic:     33681
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,24)   caucasian(T,38)   total(C,4|T,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:19315):
TAGACAGATAGAGATACTTTTGTATGTGCATAACCAATTCCACAATACACACGTCAAAATCCATACCAGTTATTCCAGAGAGATGGATTGGGCAGAAGGC
R
GAAGGAGGATATTCTGATCCCTTTTTGGCCACATGTATGTATAATCTCAGTGTTTCTAGGAAGTGTGTGCTGCATTAGATTTTTTTTCTTTAAAAAAAGT
Celera SNP ID:            hCV27422540
SNP Position Genomic:     17713
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19316):
CAAATGCGACTTCTTTTCCCACCTTGTGCCACAGCATCCTCTTCATTTGATTGTGGGAAGCCTCAAGTGGAGCCGAAGAAATGTCCTGGAAGCATTGTAG
S
GGGGTGTGTGGCCCACCCACATTCCTGGCCCTGGCAAGTCAGTCTCAGAACAAGGTAAGAACAGGCCCAGAAACCATCTATACTGTCCTTCCATGTAAGC
Celera SNP ID:            hCV25929140
SNP Position Genomic:     76453
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,30)   caucasian(G,38)   total(C,2|G,68)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19317):
GGAAGAACTTGCCAAGCTTGGTCATCTATGACACCACACCAGCATAGTCGGACCCCAGAAAACTACCCAAATGCGTACGTCTTTGTTCTTTACCATAAGC
R
AAGGAAGGGCCAATGGAAGTTTCTGTTAGAAGAGTCATGCTTCAAGGTGACTGCTCAGGACTCAACTTGGCTCAGATGCAGAGGAACATTTCCTGTGAGC
Celera SNP ID:            hCV27422541
SNP Position Genomic:     19631
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19318):
GTGTTTTCATTTCAGCACCGACTGAGCAGAGGCCTGGGGTGCAGGAGTGCTACCACGGTAATGGACAGAGTTATCGAGGCACATACTCCACCACTGTCAC
Y
GGAAGAACCTGCCAAGCTTGGTCATCTATGACACCACACTCGCATAGTCGGACCCCAGAATACTACCCAAATGCGTATGTCTTTGTTCTTTACCATAAGA
Celera SNP ID:            hCV27422542
SNP Position Genomic:     7464
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19319):
TGTTACAATATGAATGATAATTTGTCTTTGAGATGTTCGCAGTTGTTTAGAAGTTGAGGACCATTTGTGCATATTATGGGACCTTTAGTGAAAATATTTC
A
AAGTCTCTTTTTACACTTTGTTACAGCAAAATGTAGAGGGCGCTAAGTGCCCTTGAATCTTCTCCCATCTCTGGTGACCTGTGTTGTTTTGAAATTTGCA
Celera SNP ID:            hCV27422543
SNP Position Genomic:     23467
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19320):
GTTACAATATGAATGATAATTTGTCTTTGAGATGTTCGCAGTTGTTTAGAAGTTGAGGACCATTTGTGCATATTATGGGACCTTTAGTGAAAATATTTCA
A
AGTCTCTTTTTACACTTTGTTACAGCAAAATGTAGAGGGCGCTAAGTGCCCTTGAATCTTCTCCCATCTCTGGTGACCTGTGTTGTTTTGAAATTTGCAG
Celera SNP ID:            hCV27422544
SNP Position Genomic:     23468
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19321):
ACCGATCCGTGTGTGAGGTGGGAGTACTGCAATCTGACACAATGCTCAGAAACAGAATCAGGTGTCCTAGAGACTCCCACTGTTGTTCCAGTTCCAAGCA
Y
GGAGGCTCATTCTGAAGCAGGTAAGAAGTCTGTGGCCAGATATCTACACATTTGAACATTGGGATGAAAAGAGATGGAAAATCTGACTGATGCAGAAGCC
Celera SNP ID:            hCV25930985
SNP Position Genomic:     61785
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(T,40)   total(C,4|T,74)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19322):
TCTTTACCATAAGAGAATAAAGGGCCAACTGAAGTTTCTGTGACAAGAGACATGCTTCAAGCTGAGTTCTCCGAACTCAACTTGTGTCAGATTCAGATGG
Y
GTAGCAAAATGTCTCAGGATGATTTCCTTGGAGCTAAGGGTCTGAGAGAAGAGAAATGTTAAGCTGCCTCACCTTCCTCCTAGTTTTGTGGAGCAGAAGG
Celera SNP ID:            hCV27422546
SNP Position Genomic:     7651
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19323):
AGAAATGTTAAGCTGCCTCACCTTCCTCCTAGTTTTGTGGAGCAGAAGGGAAATGAGGAGGCGAGGAGATCACCTTATGAAGAAAGTCAGAATGACGAAC
S
ACCAAACACTTAGATTACCCTTGCCCAACACCCACTAAGCGTCAATGAAGACTTTCCAGTTGGAATTCCGTTATTCTGACTTCCAATTCCTGAAGGGAAG
Celera SNP ID:            hCV27422547
SNP Position Genomic:     7803
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19324):
CTGTAATGAGGAATTCACTGGATGGCCTTATAACCAGTTTAGATATTATGGTAGGAAAAGGTGAACGAGAAAATGATTCAATTAAAGCTAGACAAACCAC
A
AGACAGACAGACAGACACAAATACACATACACACAATGACTGAACCAATTAATCAACAGAGCCTCAAGGACATCTAGGAAAACATCCACACATTTAATAT
Celera SNP ID:            hCV27422548
SNP Position Genomic:     26849
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19325):
AAGAAAATGAAAAAAGAATTTCCAGTATATTTATACAAAGGAATACTATTCATCAACAAGGAACAAGTTACTGATAGTCTCAGAAGCATGAACAAACCTC
R
AAAATATATTAAGGAAAGAAGCCAGACGTCAAAGTGTATAGTCTGTATGAGTCCATTCATGTGAGTTTATAGAAAACACAATTTATGGTGAAAGAAACCA
Celera SNP ID:            hCV249901
SNP Position Genomic:     38979
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,10)   total(G,4|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19326):
TGTAATGAGGAATTCACTGGATGGCCTTATAACCAGTTTAGATATTATGGTAGGAAAAGGTGAACGAGAAAATGATTCAATTAAAGCTAGACAAACCACA
A
GACAGACAGACAGACACAAATACACATACACACAATGACTGAACCAATTAATCAACAGAGCCTCAAGGACATCTAGGAAAACATCCACACATTTAATATA
Celera SNP ID:            hCV27422549
SNP Position Genomic:     26850
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19327):
TATGTTTTTTGGTTGGTTTTCTCCCATCCATCTGCCTACAGGTAAGGGAAAGATAACGTTCGTAATTCTCATAGACTCCTTTCTGGTTGTGTCATAAATG
K
CTTCACATATTTCGTTATTCTCAGAGATACTCAGTTTATTTCTTGTGTTTTCATTTCAGCACCGACTGAGCAGAGGCCTGGGGTGCAGGAGTGCTACCAC
Celera SNP ID:            hCV27971977
SNP Position Genomic:     7319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19328):
AAGGGACTGCCGTCGCGCCTCCGACTGTTACCCCGGTTCCAAGCCTAGAGGCTCCTTCCGAACAAGGTAAGGAGTCTGTGGCCAGACATCTACACGCTTC
S
ATGCTGGGATGAAAAGCCATGGAAATTCCCACTGATGCAGCCGCCTTCAATGGTAAACGGATGCTCGAGTGTTGCCTGAGTTCTACCATGTTGGGGGAAG
Celera SNP ID:            hCV27993681
SNP Position Genomic:     6206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19329):
CCCTACCTCTGTTTAGGGTGACAGTGGAGGGCCTCTGGTTTGCTTCGAGAAGGACAAATACATTTTACAAGGAGTCACTTCTTGGGGTCTTGGCTGTGCA
Y
GCCCCAATAAGCCTGGTGTCTATGCTCGTGTTTCAAGGTTTGTTACTTGGATTGAGGGAATGATGAGAAATAATTAATTGGACGGGAGACAGAGTGAAGC
Celera SNP ID:            hCV27464218
SNP Position Genomic:     86788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19330):
ACATGCTGTCAACTGTGTGATTATTTCCAAGCCAATAAGCATTTCCAGTAATTTCTTAAAATAGTGTTCATTGCAGTCTTCAGCGTTGTGGCTCCTGAGG
R
ATGTGGCCCCTGATTCTGTCGTCCTAGAGAAGCCTGACATGACTGCATTGATTCTGTATCGTCCTGGGTCTATGTGGCTGCCTGGCTGTCTGTAATCATC
Celera SNP ID:            hCV25924281
SNP Position Genomic:     71131
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,30|G,4)   total(A,66|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:19331):
AGAAGCCTGACATGACTGCATTGATTCTGTATCGTCCTGGGTCTATGTGGCTGCCTGGCTGTCTGTAATCATCTGTTTTATTTTTATTTTTTTCTACAGA
Y
TGTATGTTTGGGAATGGGAAAGGATACCGGGGCAAGAAGGCAACCACTGTTACTGGGACGCCATGCCAGGAATGGGCTGCCCAGGAGCCCCATAGACACA
Celera SNP ID:            hCV25931644
SNP Position Genomic:     71259
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,38)   total(C,73|T,3)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:19332):
TTCTACAACATCGGCTGAGGGTTAATACAACCTTTTCACCTTGGAATTCTATCATTCTAAGCTCTAGTCCCTGAAGTGAATGTTGTGTTGGCCTTTTGCA
Y
CTTGGGTCACAGGGAATTGATACTTGCACATCTATGGAGAGGCAAATCTTTTTCTATCTACTTCTTTTTCAATGGGTACAAACACACTTGGTCCTGAGCA
Celera SNP ID:            hCV11285578
SNP Position Genomic:     20270
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19333):
CTGATGGCACTTGTACCTGTGAGGGGTCTAGAGAGAAAGGTTAGTAGACTTCTCCTTTACTGCAATTCAGGATGCAGGGCATGAGAGGATTCCCTCCCTC
S
TCCAAGGGAAGAAGGTTTTGGCGTGCACACATCCTTGAGAAGCAAAGTGTCTTTGCCTTCAGTCAGATATATAGGATCGTTTTCTGCCCCATGGCCTGGA
Celera SNP ID:            hCV27040019
SNP Position Genomic:     6832
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19334):
GTTTTCCAGTGACATTTTCCACTGTCACACCCTTTTAGAGAATAATTTGGCAATGTTACTGTGAGATAGAAATATGTCTATATAATTATGGGAACTGAGA
Y
TTCAGAAAGTAATAAGGAATAAGAATGAAATTTATGAACAAACATGTGGAAGGTTGGAAGCAAGAGTGGGGCCAACACGCATGGGGAGGAAGCATTTGGG
Celera SNP ID:            hCV29051281
SNP Position Genomic:     85017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19335):
TGTGATCCATAACCAGGAGAAAAATCATTCAATACAAATAGACCCAGAAATGACAGAAATGATAGAATTAGCAAAAACATTTAAAATATACATATGATCA
Y
TTGATCTTGTGATCAGATATCACAAGAGAAGAAAGAGATACTTGAACAGAAAAAATGCCTGAAGCAATGATGGCTGAAAACTTTCCAAATATGAAGAAAA
Celera SNP ID:            hCV103951
SNP Position Genomic:     43900
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19336):
TCCATCTGGAAAAACAGCATTTCCTCTGGCACTTTAGCAGAGGTTCTGTTTCAATTTGGCGAAGGAAATTAAGCAGTTTTTCACAAAAGAAGAACTACAA
Y
GAGGAGAATTGTCCCTAGTATTTCTTCTCCCTAATTGTCAAGGAAGTGTAAATTAGAAAATGAATCAGGACAATTTCCACCTACTATGTTAGCTAATATT
Celera SNP ID:            hCV29051282
SNP Position Genomic:     84778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19337):
TAGAAAGAAATAACTTTGTCAAAAAATATAATAATGATAGAAAGGAAGAAGGAACGCTCCCTTTTGTCTTCTAAGAATAGATGTGAAATGTGTGTGCCTT
R
GAATATCTTCTCCCTCTCCTGCTCCACGTGAGCTGGAGCTTACATGCCTGCTTGTTTTCAGTACTGCCGTAACCCTGATGGTGACATCAATGGTCCCTGG
Celera SNP ID:            hCV25924573
SNP Position Genomic:     73600
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,1)   caucasian(A,24)   total(A,41|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:19338):
GTAATGAGGAATTCACTGGATGGCCTTATAACCAGTTTAGATATTATGGTAGGAAAAGGTGAACGAGAAAATGATTCAATTAAAGCTAGACAAACCACAA
G
ACAGACAGACAGACACAAATACACATACACACAATGACTGAACCAATTAATCAACAGAGCCTCAAGGACATCTAGGAAAACATCCACACATTTAATATAT
Celera SNP ID:            hCV27422550
SNP Position Genomic:     26851
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19339):
CATGTACCTAGAAGTCACCTCAGTGTAATATAAATCTGCATATGCACAGGGAGTGATTCCACAATGAAAGTAGGACAAAGAACAGCTACTGGGGAAAGAA
Y
AACTACAAGGGAACAATGAGTTCAATGGAGATGGCAGAGCTCACAAAGCACTGGGGGATATTTGAGTTCTTACCAGCTAGAAAAGAGACCTCATTGCAAA
Celera SNP ID:            hCV103952
SNP Position Genomic:     43430
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19340):
AGCTGGGCTTGCAACATTGGAAACTTGGATTATTTGTGAGAGCACTGAGAAATCCCTGGGCATGTCCATCTGGAAAAACAGCATTTCCTCTGGCACTTTA
R
CAGAGGTTCTGTTTCAATTTGGCGAAGGAAATTAAGCAGTTTTTCACAAAAGAAGAACTACAACGAGGAGAATTGTCCCTAGTATTTCTTCTCCCTAATT
Celera SNP ID:            hCV29051283
SNP Position Genomic:     84714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19341):
AATGAGGAATTCACTGGATGGCCTTATAACCAGTTTAGATATTATGGTAGGAAAAGGTGAACGAGAAAATGATTCAATTAAAGCTAGACAAACCACAAGA
C
AGACAGACAGACACAAATACACATACACACAATGACTGAACCAATTAATCAACAGAGCCTCAAGGACATCTAGGAAAACATCCACACATTTAATATATGT
Celera SNP ID:            hCV27422551
SNP Position Genomic:     26853
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19342):
GCTTCTTGCTTTGGGCACAGGGTCTGAGAGGAGAGAAATGTCAGGCCAGCTCTCTTTTCTCATAGTTGATAGAAGTAGGAGGATACTTGGAGGTGGTGAG
K
TCTCATGAATAGAAAGCTCAGAAGAACATATGACCATGTGCTTAGAAATAGCACCATTCCACAATGCCCACTAAAGACCAGTGAAATAGTTCAACCAGGG
Celera SNP ID:            hCV27422552
SNP Position Genomic:     29782
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,8)      total(G,8|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19343):
TGGATAGAAGCCCTGGTCTGACCACCCCATGGCCAATCATTTGGCCATAATCAACAACCAAAGACATGGAAAAATGGTTTCTACATGTGGGACAACAGAT
S
GTAGAGGACCTAGAGAATTGAGAGAGGGCCAATGATGAGCTCAACTCCATAGATGCCTTGGCTTTCTTCCTGGATACCCTTCCTGCACTGAATAGCAAGG
Celera SNP ID:            hCV27422553
SNP Position Genomic:     8238
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19344):
ACCCTTCCTGCACTGAATAGCAAGGAGATGGAGCTCAAGCAGCCTGTAGCCATCTAGCTGAGCAGAGGAGAGGGATTGGAGTTTGGGATGACTCTGGTAT
W
TTCTAGGTCCGCTACAAATAAGAACTGGTTTGTGGAGGAAAGGAGCTCTACAAATACGCATAGAAGTCTCCTCCAGTAGTTGGCCTCACATGACACTGCA
Celera SNP ID:            hCV27422554
SNP Position Genomic:     8414
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,4)      total(A,1|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19345):
GTTTGGGATGACTCTGGTATTTTCTAGGTCCGCTACAAATAAGAACTGGTTTGTGGAGGAAAGGAGCTCTACAAATACGCATAGAAGTCTCCTCCAGTAG
Y
TGGCCTCACATGACACTGCATGTGCACAGAAAATGGTTCTACAGAAAGTGTGGCAAAGAACATTTACTGAGAAACAGCAACTACAAGAGAACAGCAAGCT
Celera SNP ID:            hCV27422555
SNP Position Genomic:     8494
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19346):
AGCAAGTGTCCAAGCATCAAATGGGTTTCCAATCAATGAAGTGCCTGTGAGAGGAAATCTCAACTCTCTTCAGAAGTAAACAACAAAGTCAATTGCCTCA
R
CTATGCGGTATCCCCAGAGTGAGTCCTAAATTAAAAATTTGACTACGTGTAGAAAAGAATTTCGTGTGATCCATGACCAGAAAATAAATCAGGCAATACA
Celera SNP ID:            hCV27422556
SNP Position Genomic:     8879
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19347):
CCACTGTTGTTCCAGTTCCAAGCATGGAGGCTCATTCTGAAGCAGGTAAGAAGTCTGTGGCCAGATATCTACACATTTGAACATTGGGATGAAAAGAGAT
R
GAAAATCTGACTGATGCAGAAGCCTTCCATGCTACACAGAAACTTGAGGGTATGGCAGGTGGAAAGAAGCCTCAGCACTCTCTCTGGTGGAGCAATTTTT
Celera SNP ID:            hCV25931500
SNP Position Genomic:     61861
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:19348):
AACAAAGTCAATTGCCTCAGCTATGCGGTATCCCCAGAGTGAGTCCTAAATTAAAAATTTGACTACGTGTAGAAAAGAATTTCGTGTGATCCATGACCAG
R
AAATAAATCAGGCAATACAAACAGGCTCAGAAATGACATCGATAATTAGAATTGCATGAAAATTTGACATATCAGTATGATAACTGATTTCAGATATTTA
Celera SNP ID:            hCV27422557
SNP Position Genomic:     8960
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19349):
TCTGTCATTCTAAATTTCAATTCCCGAAGGTTTGTTTGCCATTTTTGTCATGGGTAATAAGTAAAAAAAAAAAAATTAAGATGTGTATATATATATATAT
R
TATATATATATACACACACACACACACACACAAACATCTGAATATTTATATATATGTCTGAATATTTATATACTTGTGTATAAAACTTATATTTAAATTT
Celera SNP ID:            hCV27422558
SNP Position Genomic:     42451
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19350):
TTGACATCCTCATCTTTTCTAGGTCCTCAAGGCCTTCATCCTACAAGGTCATCCTGGGTGCACACCAAGAAGTGAACCTCGAATCTCATGTTCAGGAAAT
R
GAAGTGTCTAGGCTGTTCTTGGAGCCCACACAAGCAGATATTGCCTTGCTAAAGCTAAGCAGGTACTCGCTCACCTGTGGTCTTCACCCCACGCTGGTGA
Celera SNP ID:            hCV25930271
SNP Position Genomic:     79090
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,36|G,2)   total(A,73|G,3)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19351):
TCTTGTGATCAGATATCACAAGAGAAGAAAGAGATACTTGAACAGAAAAAATGCCTGAAGCAATGATGGCTGAAAACTTTCCAAATATGAAGAAAAAAAA
R
CTCACAGATTCAAGAAAACTAATCAATCAGAAATATGATTTTGAAAAGTAAAAATGTATGATTTACTTTGGCAAATCTTCTTGGTTAAATTGTCTAAAAT
Celera SNP ID:            hCV27422559
SNP Position Genomic:     44005
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19352):
TTACCTACAGTCTATCACAGGCACAGATTTTTTTTTACACTTTTGTGAATCATTGAATTCAATGCCGAGGCTATTCATCTATTCACAAACACATGAACAA
R
TTATGGGTTGTGATCCCCATAAATGAAGAGTAATCAGTCCGAACCCACAGAACCTGGACATTTTGGGTATCGTTTCAGTGGAACATGCAATTCGTAAGTT
Celera SNP ID:            hCV282793
SNP Position Genomic:     76997
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19353):
CAAGCACAGAGCTTCCTTCTGAAGAAGGTAAGAAGCCTGCAGTCAGACAACCATACCCTCGGACATTGGGATAAAAAGATTTGCAAAATCTTTGTGATGC
R
GAAAACTTCCATGCTGCACAGGAAGTCGAAGGTGAAGTCATGGACAGCCAATGGGAAGGAAGCTTCAGTGCCTTCTCTGGGGGGACCAGAGCTGGGATGT
Celera SNP ID:            hCV25928573
SNP Position Genomic:     32729
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,36)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:19354):
CACTTTGCAGTGAGAAGATCTGTTCTGTTCTGTTTTTCTAAGGATTTCAGGTGAAATATTTCCTAGAACTTACTACAGTTCTAGATTGGTAGGAATCTGT
R
GGTTTGCTGTATGTTTTTTGGTTGGTTTTCTCCCATCCATCTGCCTACAGGTAAGGGAAAGATAACGTTCGTAATTCTCATAGACTCCTTTCTGGTTGTG
Celera SNP ID:            hCV27484766
SNP Position Genomic:     7209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(G,675|A,818)   total(G,675|A,818) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19355):
GGATTGCTACCATGGTGATGGACGGAGTTATCGAGGCATATCCTCCACCACTGTCACAGGAAGGACCTGTCAATCTTGGTCATCTATGATACCACACTGG
Y
ATCAGAGGACCCCAGAAAACTACCCAAATGCGTATGTATTTGATTAAAACCATAAGAGGAGCAACAGCCAACTCAAATATTGGTTAGAAGACCCATGCTT
Celera SNP ID:            hCV25926037
SNP Position Genomic:     41987
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:19356):
GCTGTATGTTTTTTGGTTGGTTTTCTCCCATCCATCTGCCTACAGGTAAGGGAAAGATAACGTTCGTAATTCTCATAGACTCCTTTCTGGTTGTGTCATA
R
ATGGCTTCACATATTTCGTTATTCTCAGAGATACTCAGTTTATTTCTTGTGTTTTCATTTCAGCACCGACTGAGCAGAGGCCTGGGGTGCAGGAGTGCTA
Celera SNP ID:            hCV27040020
SNP Position Genomic:     7315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19357):
TCCCAGCAAGAGAAGATCCAAGGAAGGAAGGCAGATGAGAGTCAGCACAGAGAGGGATGCTGAAAAGTAAAAGGGATGGGTAGATGGATAGAAGCCCTGG
Y
CTGACCACCCCATGGCCAATCATTTGGCCATAATCAACAACCAAAGACATGGAAAAATGGTTTCTACATGTGGGACAACAGATGGTAGAGGACCTAGAGA
Celera SNP ID:            hCV27040021
SNP Position Genomic:     8154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19358):
CAACAGATGGTAGAGGACCTAGAGAATTGAGAGAGGGCCAATGATGAGCTCAACTCCATAGATGCCTTGGCTTTCTTCCTGGATACCCTTCCTGCACTGA
R
TAGCAAGGAGATGGAGCTCAAGCAGCCTGTAGCCATCTAGCTGAGCAGAGGAGAGGGATTGGAGTTTGGGATGACTCTGGTATTTTCTAGGTCCGCTACA
Celera SNP ID:            hCV27040022
SNP Position Genomic:     8330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19359):
GTGTTCCTCCGTAGCTGTCCGACCTCTTCAGATCTCTTAGTCTACCCTGCCATCTTCCTTTATGCCATGGGTCCCACTGTTCTTTCAACTCATCCCCCTT
W
CCCTCAGTGCAGAGTAGCTGCGGCCAGCAGAGGGTAGACTGAGAGCAGGAGAGAAGGTCCTGCCCAGGAACCCATTCTAGAGATGCTGCATTCTGCCTGG
Celera SNP ID:            hCV27040023
SNP Position Genomic:     11682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19360):
GGTCTATGTGGCTGCCTGGCTGTCTGTAATCATCTGTTTTATTTTTATTTTTTTCTACAGACTGTATGTTTGGGAATGGGAAAGGATACCGGGGCAAGAA
R
GCAACCACTGTTACTGGGACGCCATGCCAGGAATGGGCTGCCCAGGAGCCCCATAGACACAGCACGTTCATTCCAGGGACAAATAAATGGGCAGGTCTGG
Celera SNP ID:            hCV25931587
SNP Position Genomic:     71298
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19361):
TTATGTGCTTACTTATGGACAGGTGAATTGATCTGTTTCTATTTCTACCTGTATTCCAATAGGGAGAAAATCTCTTGGTCCTAAGTACCAGTGGCCTGAA
R
GGATAGAGGTTCCCAGCAAGAGAAGATCCAAGGAAGGAAGGCAGATGAGAGTCAGCACAGAGAGGGATGCTGAAAAGTAAAAGGGATGGGTAGATGGATA
Celera SNP ID:            hCV11846435
SNP Position Genomic:     8043
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19362):
GAAAATCTCTTGGTCCTAAGTACCAGTGGCCTGAAAGGATAGAGGTTCCCAGCAAGAGAAGATCCAAGGAAGGAAGGCAGATGAGAGTCAGCACAGAGAG
K
GATGCTGAAAAGTAAAAGGGATGGGTAGATGGATAGAAGCCCTGGTCTGACCACCCCATGGCCAATCATTTGGCCATAATCAACAACCAAAGACATGGAA
Celera SNP ID:            hCV11846436
SNP Position Genomic:     8108
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19363):
TGGGACTATGTGAAAAGATTGAACCTACGTTTGATTGGTGTACCTGAAAGTGATGGGAGAATGGAACCAAGTTGGAAAACACTCTTCAGGATATTATCCA
G
GAGAACTTCCCCAACCTAGCAAGACAGGCCAACATTCAAATTAAGGAAATACAGAGAATACCACATTCAAATTCAGGAAATACAGAGAACACCACAAAGA
Celera SNP ID:            hCV27422560
SNP Position Genomic:     48253
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19364):
GGAAATACAGAGAACACCACAAAGATACTCCTCAAGAAGAGCAACCTGAAGACACATAATCGTCAGATTCACCAAGGTTGAAATGAAGGAAAAAAATGTT
R
AGGGCAGCCAGAGAGAAAGTTTGGGTTACCCACAAAGGGAACCCCATCAGACTAACAGTGGATCTTCCTGCAGAAACTCTACAAGCCAGAAGAGAGTGGG
Celera SNP ID:            hCV27422561
SNP Position Genomic:     48429
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19365):
TTATATGGTTTTAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTATATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATG
K
CTAGGCAGTTTTCCCAGCACCATGTATTAAATAGGGAAACCTTTCCCTATTTCTTGTTTTTGTCAGGTTTGTCATAGATCAGATGGTTGTAGATGTGTGG
Celera SNP ID:            hCV27422562
SNP Position Genomic:     49770
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19366):
TTGGTCTAAAATTCTCATTTTTGTTGTGTCTCTGCCAGGATTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCT
M
TGATTGGAATAGTTTCAGAAGAATTGGTACCAGCTCCTCTTTGTATCTGTGGTAGAATTCGGCTATGAATCTCTCCTGGACTTTTTTTGGTTGGTAGGCT
Celera SNP ID:            hCV27422563
SNP Position Genomic:     51090
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19367):
ACTTTTTTTGGTTGGTAGGCTCTTAATTATTGCCTCAATTTCAGAGCCTGTTATTGGTCTATTCAAGGATTCAATTTCTTTCTGGTTTAGTCTTGGTAGG
K
TGTATGTGTCCAGGAATTTTTCCATTTCTTCTAGATTTTCTAGTTTATTTGCACAGAGGTGTTTATAATATTCTCTGATGGTAGTTTGTATTTCTGTGGG
Celera SNP ID:            hCV27422564
SNP Position Genomic:     51270
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19368):
AAAACCAACCGAACCTCACAGACATGTTGCAAAATAGGAAAAGATTTCCTGCATATGGGAAGCAAGTCACAGAAAAGAGAACGGGAGATTGGAAACAGAA
R
CAAATACCGGAATCAAGGATGGCCGAAAACTTTTCATTGATCAAGAATATTAACAAAATCGCAAAAACACGAAATTCAATGCATCAAATAGGCGTTTCGA
Celera SNP ID:            hCV27422565
SNP Position Genomic:     10408
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19369):
TGCACTGTGGTCTGAGAGACAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAATGCCTCACTTCCAACTATCTGGTCAATTTCAGAATAAGTG
Y
GATGTGGTGCTGAGAAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGAGTTCAATTCCTG
Celera SNP ID:            hCV27422566
SNP Position Genomic:     51984
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19370):
CTTCCTCCATCCCTTTATTTTGAGCCTATGTGTGTCTCTGCACGTGAGATGTGTCTTCAGAATACAGCACACTGATGGATCTTGACTCTTTATCCAATTT
K
CCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAGGTTAATATTTTTATGTGTGAATTTGATCCTGTCATCATGATGTTCGCTGGTTA
Celera SNP ID:            hCV27422567
SNP Position Genomic:     52499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,6)      total(G,4|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19371):
CCAAGATGGTCTCGCTCTGTTGACCTCGTGATCCACCCGCCTTGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAAAGCACCCAGCCTGTGCCTCT
Y
ACTTACTCAATTGTTTTTCTGAACCCTCCATAGCTGGTGGACCTTTTCAGATCCCATAGTCTAGCCAGCCCTCTCACTTTATGCCTTGGGTCCCACTGTT
Celera SNP ID:            hCV9178954
SNP Position Genomic:     69264
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19372):
TTTTTTCTCTAAACTTCTCTTCTCGCTTCATTTCATTCATTTGATCTTTAATCACTGATACCCTTTCTTCCACTTGATTGAATCAACTACTGAAACTTGT
K
CATGTGTCACGTAGTTCTCGTGCCATGGTTTTCAGCTCCATTAGATCATTTAAGGTCTTCTCTATGCTGTTTATTTTAGTCTGCCATTCATCTAAACTTT
Celera SNP ID:            hCV27422568
SNP Position Genomic:     53312
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19373):
GTTTTCAGCTCCATTAGATCATTTAAGGTCTTCTCTATGCTGTTTATTTTAGTCTGCCATTCATCTAAACTTTTTCAAGGTTTTTAGCTTCTTTGCAATG
R
GTTCGAACATCCTTCTTTAGCTCGGAGAAATTTGTTATTACAGATCGTCTGAAGCCTTCTTCTCTCAACTCATCAAAGTCATTCTCTGTCCAGCTTTGTT
Celera SNP ID:            hCV27422569
SNP Position Genomic:     53440
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19374):
TGTTTGGGAATGGGAAAGGATACCGGGGCAAGAAGGCAACCACTGTTACTGGGACGCCATGCCAGGAATGGGCTGCCCAGGAGCCCCATAGACACAGCAC
R
TTCATTCCAGGGACAAATAAATGGGCAGGTCTGGAAAAAAATGTAAGCCACTTTGATTTGGACTCTTTTTCCCTTTGCTGACAAATCTTTTCAAACAGAA
Celera SNP ID:            hCV25931084
SNP Position Genomic:     71364
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:19375):
GACATTCAGTGAACAAGAAAATAGACCAACAAAGGAGTAAATCCATGAAACAGAAAGTTGGTTCTTTGAAAAGATTCATGTGATTGACCACAGTCTGGCT
R
AACAGATGACAGACCAAGGAGGGAGTACAACCATCACCATTTGAAGTAACAGGGGAGAGGAGCCATTGCTATACCATACTCCAGGTCTGAAAGCTGACAA
Celera SNP ID:            hCV11284288
SNP Position Genomic:     27387
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19376):
GAGTATGATATCCTAGAGAAACCTAAGGAGACTGCATTATTTTTCTATTGTCCTGGGGCTGCATAGCAGGAGGTAACCAACGAATGCTGTCTCTCCCTGG
Y
CTATCTCAGTCTTTCACAGGCTCTGTTCACCTCAGCTTTGAAGTTAGAAATTTCTAGGTGTTCTTGCCTCTTCTTCTCATGAAACCTGCATTGGCAGTGA
Celera SNP ID:            hCV270357
SNP Position Genomic:     41146
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19377):
TAGATGTAAATGCAAAATATTTTCTTGATCAAATTTCTATATCTTTTTAAATGAGAGTTGACTACTTGAAGCAAAATGATAGCAATATATTTAACTTTAG
M
ATATGTAGAGGTAAAAATTTGAACATATAGACTAAATCATGTGGGGAATAATTGGAAGTGTACCATTGTAAGTTTCTTACCTTATCCACGATGGTATGTA
Celera SNP ID:            hCV304787
SNP Position Genomic:     16645
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19378):
CCTTGGCATGTTTTCTTTCTAGGTTTGGAAAGCACTTCTGTGGAGGCACCTTAATATCCCCAGAGTGGGTGCTGACTGCTGCTCACTGCTTGAAGAAGTA
Y
GTTTAAGGGAAAACTGACATGGGGTCTTATCTTCAAGACTTTTTTCCTCCCTCTCTTCCTCCATCCCTTCTTTCTTCCCACCCTCCCCTTCCTTCCTCCC
Celera SNP ID:            hCV25925177
SNP Position Genomic:     78092
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19379):
ACAGTTGTTTAGAAGTTGAGGACGATTTGTGATTGTTACAGGACCTTTAGTGAGAATATTTCAAAGTCACTTTTTACCACTTTGTTACAACAAAATGTAG
R
GGATGTCTGGTGCCCTTGTATCTTCTCCCATCTCTGGTGAACTGTATTGTTTTGTAATTTGCAGTGGCCTGACCAGGAACTACTGCAGGAATCCAGATGC
Celera SNP ID:            hCV25929895
SNP Position Genomic:     27938
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,40)   total(A,74|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:19380):
CTCAGACTACTGTGCTAGCAGTTCAATCTCAGACTGCTGTACTAGCAGTGAGCAAGGCTCTGTGGGCATGGGACCCTCTGAGCCATGTGCAGGATATAAT
M
TCCTGGTGTGCCGTTTGCTAAGACCATTGGAAAAGTGCAATATTAGGGTGGGAGTGTCCCGATTTTCCGGGTACATCTGTCATGGCTTCCCTTGGCTAGG
Celera SNP ID:            hCV27422570
SNP Position Genomic:     54353
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,6)      total(A,1|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19381):
ATTGTAAACACCATCAACACTATAAAGAAACTGCATCAACTAATGGGCAAAATAGCCAGCTAGCATCATAATGACAGGATCAAATTCACACATAACAATA
Y
TAACCTTAAATGTAAATGGGCTAAATGCCCCAATTAAAAGACACAGACTGGGAAATTGAATAAAGAGTCAAGACCCATTGGTTTGCTGTGTTCAGAAGAC
Celera SNP ID:            hCV27422571
SNP Position Genomic:     55120
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19382):
ATCATGCTAAAAACTCTTAATAAACTAGGTATTGATGGAGCATGTCTCAAAATAATAAGAGCTACTTATGACAAATGCATAGCCAATATCATACTGAATG
R
GCAGAAGCTGGAAGCATTCCCTTTGAAAACCAGCACAAGACAAGGATGCCCTCTCTCACCACTCCTATTCAACATAGTATTGGAAATTCTGTCCAGGGCA
Celera SNP ID:            hCV27422572
SNP Position Genomic:     57018
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19383):
CCAAATGGAAATTTAAAAACTGAGAAAAGTTATATCTGTAATGAGGAATTCACTGGATGGCCTTATAACCAGTTTAGATATTATGGTAGGAAAAGGTGAA
Y
GAGAAAATGATTCAATTAAAGCTAGACAAACCACAAGACAGACAGACAGACACAAATACACATACACACAATGACTGAACCAATTAATCAACAGAGCCTC
Celera SNP ID:            hCV11284290
SNP Position Genomic:     26814
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19384):
CAAACTGGACAAAAATAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGTTGGGAAAACTGGCTAGCCATATGCAGAAAACTGAAACTGGATCCC
Y
TCCTTACACCTTATACACAAATTAACTCAAGATAGATTAAAGAATTAAATGTAAGACCTAAAACCATAAAAACCCTAGAAGACACTTTGGGAGGCCGAGG
Celera SNP ID:            hCV27422573
SNP Position Genomic:     57938
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19385):
CACCTACAACCTGCACAGCCTGATGCATAGCAGTCTAGTTTCCTGCCTTATTCTCAGGAACACCCAGAAGATGTCTATATTAAAGAGCATGCACATGAGT
R
CAATTTTGACTGATAGGCACTCTGATCTTTCCTTTGGTGCCTGTGTTTTAAAGGAAATCTTTCTAAGAACTCGTTAAAGTTCTAGAATGCTATGAATCTT
Celera SNP ID:            hCV11284291
SNP Position Genomic:     24730
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19386):
GAAAACCAAACACCATATGTTCTCACTCATAAGTGTGAGTTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACACAGGGGCCTGTTGGGG
W
GTTGAGGCTAGGGGAGGGATTGGATTAGGAGAAATACCTAATGTAGATGATGGGTTGCTGGGTGCAGCAAACCACCATGACACGTGTATACCTATGTAAC
Celera SNP ID:            hCV27422574
SNP Position Genomic:     59246
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19387):
ATAATTTGCAACCTACTGGTACACTTGAATACTATTCAGCACTGAGTATCTTAAATAGCATGGATGGAGCTCAAAAATATACTCAGGAAAGAAGCCATGT
R
TATTCTGTATGAGTTCATTTACATGAGATCATTTACATTTCCTCCAAAAGAGGAAAAACTAATTTCTGTTGAAAGAAACCAATGTATTTGCCTCTGGCAG
Celera SNP ID:            hCV27422575
SNP Position Genomic:     59897
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19388):
TATATATGTTCATATAAGTTAGTATTCATATATATGTTCATATATATATGTTCATACAGACTAGTATTCATATATATATACATATATATATACACACACA
Y
ATATATATATATATATATGTTCTAGGGAAACATGCAAGGTTTTTATGTCTGTCCCTGACTGATGACCAAATACCCTATAGCCTGCACAGCTGCAAGCTGT
Celera SNP ID:            hCV27422576
SNP Position Genomic:     63740
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Gene Number:                 68
Celera Gene:                 hCG1810849 - 149000145732339
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VTB5(5080635..5265883)
Chromosome:                  Chr16
OMIM number:                 600761
OMIM Information:            SODIUM CHANNEL, NONVOLTAGE-GATED 1, GAMMA SUBUNIT;SCNN1G


Genomic Sequence (SEQ ID NO:12228):
AAAAAACACAAAAAACAACAACCACAACAGAAATATTTTTTAGAGATGGGGTCTCCCTATGTTGCCCAGGCTGGTCTCAAACTCCTGGCTTCAAATTATC
CTTCAAATTATCAGCTTCCTAAAGTGCTGAGATTATAAGCATAAGCCACTGCACTTGGCCAACACTTGGTTTTGACTTTGGCTTTGTTTGGCTCTCACTT
GTAAATCTCTCATGAAGGTATTACTGCCTCTCCACTCCTACTGTCACTGATATAGTTGAGACCTTCAGAAACTCTTGCTTGGATCATTGCAGTAACTAAC
TGATCCTCTGCCACCACTGTCTTCCTTCATCTGTTATGTGCCACACTGCTCATAGATTGCGGGTTTGAAACCAATATTGTCATATTGCTCCCAGGCTCAA
AAACCTTCAATGACACCAACTGTCTGGAGAATCAGACTCAAATGCATTAGCCTGACTTTCAAGTTGCCCATTATTTGGCCTTCAGTTCCTTTCCCAGCAC
CATGTCCCAGTGCACCTCACCACACACATGCGTATGCACACACATAGACACACACACTACATTTCATTTCCCACTTAGATTGAGGTTTCAGGGGTTAGGC
ATAGCATTGGGTTTAGGGTTGAATCTAAGTTTGGGTTTGTGCTAATCAGCCTTCAAGATGATCTTCAGTGATTCCTGCTTCCTGGTATTTATGCCATTGT
ATAATCCTCTCCTACAGTGAATAGGGCCAATCTGTGTAACCAATAGGATATTGTGGAAATGTTGGACTGTGTGTGATAGTTCGTTTTATTTATAACCTTG
ACTTGACCATGGGGTGCCCAGAAATTTGGCTAGACATTATTTCTGGGTGTATCTGAGAGGATGTTTCCCAATGAGATTAGCATTTGAATTGATGGACTTG
ACATGGTAGATTTCTCACTGCCCCACCACTGTGGATGGGGCATCATCTAATCTATTGAAGGCCTGAATAGAACAAAAAGGTGGAGGAAGGGAAAATGTGA
TCTCTCTGCCTGACTGTTTGAGCTAGAACATTGGTCTTCTCCTGCCTTTGGATTGGGACTTAAGTGATTGGTGCTCCTGGTACTCAGGCCTTCAGACTTG
GACTGGAACTTAAACCATTGGTTCTTCTTCTGGAACTCAAACTGGAACTACACCACTAGCTTTCCTGGGTGTCCAGTTTGCAGACACACATCATAAGACT
TCTCAGCCTCCAAAATCATGTAAGTCAATTCTTTACAATAAATCTCTAATGCTCCTGTTCTACTCTTTTAGGGAACCAATTATATGCACGTCCATCCCTT
GAATGTCTTCTCCAATCTGCTAATCTTTTTTATTTCTCATTCATTCTCTGAGTTTTAGAATAATTTTTTCTTTTCTTCTTCTTCTTCTTCTTTTTTTTTT
CTTTTTAGAGATAGGGTCTCACTCTATCACCCAGGCTGGAGTGCAGTGGCGTGATCATAGCTCGCTGCAGTCTTGGGCTCTTGGGCTCAAGCAATCCTCC
CACCTCAGCCTCTTGTGTAGCTAGGACTACAGGCATGCACCACCATGTTCAGTTAATTTATATTTTTTAAATTTTTGTAAAGACAGGGTCTCACTATATA
GTCCAGGCTAGTCTCAAACTCCTGTTCTCAAGTGATCCTCACACCTGAGCCTTCCAAACTGCTAGGATTACAGCCATGAGCTACTGATCTAGGCATAGAA
AAAATTTTAAATCGTTTCTTCAGACTCACTGACTTAATTTCAGGCAACATCCAATCTTCTGTTAGGTACCTCTGTTGCCTTTTTAGACTCCATAGATATA
TTTTTATCTGTAGAATACTTTTATGTTCTAGGATTATTTTCTAAGAACTGCTTTAGAGAGTCAATAGCCTCTAATCTTATGAATATTACAAAGTAACCAT
TTTTTTTCTTTTAAATTTTGGCCTCTGGGCAGCAAGGGTGAGATATCCAGGAACATTTGCTCTAATTCCTCATGTCAATATCCTTTTGACCTGCTAGATC
TTTGTATGTGTTCAGTCATTATTCTCTATTTGCTCATTTTTACAGAAGGAGGTCTTTATTTGTTCAACACTGAGTGTTAAGATGGGTTAAACAGTCTGTC
TAAATATTTTTGGCCTGGACAAAGAAAGAAGGGGAAAGTTTMTATTTACTATACCTTTACTTTGCCTTAGTAAAGAGTCAGCAATCTGTGGCACTAGTGG
GGAAGTGTCAGCCCAGGGCAAATGTGACCGTGTATCTCTCCTTTGTGTCAGATGTCTTTTTGTGTGTCCACATTTGTTTTAGCAGTCAGATTTAACTGAA
GAAACAACACCTTCTTTAACAAGCCCAGCTGGCCTTATCAGGGGGCTGTGCTTGGGGGTGAACCTGCTTAATTGAGCACATCTCCTAGTGTGAAGAGGCA
TTGGTGGATACTTTAGCAGGCTTAAGCTTTGCTTCCTTATAAACTGCATCCATGGTCCACTATTATCCCCTTGAAACTGGCAGGGATCATAATGAATGTT
TGGTTCCTTCTACCTCCAACTTGAATGGGCTTTTCTCCTGCTTGGAATACACCATGGTTCGTCAGGTCTACTCTCAATATGGTTTAAACTCAATGTATCT
TGCAGAAATTCCTAAATGTTTCTGGACTGGTCTAAAGGGCACCCTTCCTTATTTTCCATCTGTGGGGCAGAGGTTTTTTTCTCTTTTGATAAACCTGGTT
CTCCCTTTCCTTTATCCTCCTTCACTTGGCCAACCAAGTCATGCCTCAAGTCTCAGCTTAAACCCTGCTTCCTCCAGGAAATGGCCCTGGAAGTTTCTGC
AAGTAGACACCCTATGCTGTGCTCTTAGAATTTCTCATATTCTGCCAGTCATAGAGCTCATCTTCTGGAATTCGAACTCTGTCTTCCCCTGTAGATTGTA
GTCTACAGAGCAAGGACACTGCTCATTCATTCATTCATTCATTCATTCAAAAACGGAGCCAAGTATATGTGAGTACTAACACTGTTTTTCTCTCCTGCCC
AGTGCCTGTTACAGATTATTTAGTTAATATTCACTGGAAGGATTTATGGCCAGCTTCAGGGAACCAGGCCTGAGATGGTGGCTGGGTGAGCAGGAAGAAT
GCTGGAACACCAGTGGTTGGGGCTTCACCGCAGACCCAGGGAGCAAGAGAGTCATAGGTGGAGGGAGCTGAGACCTGCCAACCTGGGCTCGTGCCCTGGG
GTTGGCCTGCAGTGGGAACTACCTCACAGGGACCATCGTACGAAGAGTGAGCCAGGGCTGGTCATTGTGCAGACCCTCTGATGCTGTGCTAAGAAATCTC
AGAGAGCCAAAGGAAAACAGTGTGTCTGTTTCCATGGAGGCTGAGACCTCCATGGCTAGAGTTTTGCACCAGTGAACCATTATTCTGGAATGCAGTGAAG
TGTTTATGCCTATAAACTTTGCAGTCAGCCTGGGAGACTCAAGAAGGTTACAGAAAAGTTATCAGAAGGCCAGGCATGGTGGCTCACACCTGTTATCCCA
GCACTTTGCGAGGCCAAGGCAGGCAGATCACTTGAGCTCAGGAGTCTGAGACTAGCCTGGGAAACATGGTAAAACCCCATCTCTGCAAAAAATACAAAAA
TTAGCCAGGCACGGTGGTGTGTGCCTGTGGTCCCAGCTACTTGAGAAGCTGAGGTAGGAGGGTCACTTGAGCCCGGGAGGTTGAGGCTGCAGTCGGTTGT
GGTTGCACTACTGCACTCCAGCCTGGACAACAGAGCAAGACCCTGTTTCCAAAAACAAAAAGTTCTTAGAGCCTCAGTTTCCTTTTCTTTAAAATGGATA
TATGACTAGTACCTCATAGGGTCATTGTGATAATAATAATAATTATTATTATCTAATAATAATATTATTGTTAGTTTGTGATAATAATAATAACTATTAT
TAGTTTTTGAGACAGAGTCTTGCTCTGTTGCACATTGTGGTAATTAAATGAGATTATGTGTGTAGCACATGAGCCTGCTGTTTGGCATAGGGTAAAAGTT
TAATAAATGGGAATTATTATTATCCTGTAGTATTGCTGGTCGATACGGTTTGGCTGTGTCCCCACCCAAATCCCATCTTGAACTGTAGTTCCCATAATCC
TCACGTGTCGTGGGAGGGAGCTGGTGGGAGGTAATTGAATCATGGGGGCAGTTATCCCCATGCTGCTATTCTCATGATAATGAGTTCTCATGAGATCTGA
TGGTTTTATAAGGGGCTTTTCCCCCTTTGGCTTGGCACTTCTCCTTGCTGCTGCCCTGTGATTGCTTCCCCATCCACCATGAATGATTGTAAGTTTCCCA
AAGCCTCCTCAGCTATGCTGAACTGTGAGTCAATTAAACCTCTTTCCTTTATAAATCACCCAGCCTTGGGTATGTTTTTATTAGCAGTGTGAAAACGGGA
CTAATACCTGGGAATTATTTTCAATGCATCTAAAGGGGATGAGAGGAGCAAAGTTTTGCTTCCTTTTAGATGTACATCTTCCCCTACGTCTTAGAACTTC
TGGTTGTGCCAGCCAGTAGCCAGTAGGTCCTGGGCCAGCACCTACCCAGATTTCTTCTTATTTTTACATTTTTATTTATTTATTTTTTTGAGAGGGAGTC
TCGCTGTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTA
GCTGGGACTACAGGTGCCCACCACCATGCCCAGCTAATTTTTGTGTTTTTAGTAGAGACAGCATTTCACCATGTTGGCCAGGCCGGTGTTGAACTCCTGA
CCTCAAGTGATCATCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCTGACCTACCCAGACTTCTCCTGGACTGCGTTG
CAGCACAGAACAGCTGGGTTTCCCCTAACATGCTACATCTCTATAGATGAGGCCTAAAGCTGCCATCACCCATGTGAGAAGGCCAGGAATCGCAGCACTA
GCCAGTCATACCTAATTACAGTGAAACATCCTAAGATAAAATGAGTTACCCAGATATCATCGAAAAGCTACATTTAGCTATAAAAAAATTATCCTGGGAC
CAAGTGGAGAGGAATGTAGACCACAGAAGGTTTAAAAGAGCTGCCGATGGGCTCTTTGAGACTTTTGTGCCAAAATTGAGGTGTCTAAATTACGGTTCTT
GTCCAATCCATTAGACCAACTCTCTTTTGAAGCCTGTCCAACATGTAAGGCTTGGTGACTGGATTTGGGGTGAGGGCTGACTTTTGTGTTTTTTTTTTCT
TTTGACTGGATGAGAGTGAGGGGGCTAACTTGTAGGTGTTTTGCCTGACAAACTGGGTAGATGGAGATGCTGCCAGTTGACGTTTTGGGAGGGTGAACAG
ATTTGGACAGGCAAGAAACTAAGTCTAGTTTTGAACATAGAGACTTTTTAAAGGTGCTTGAGGGGTGTTGAGGTAGAAATGTCTAGAAGATAATTAAAAT
GTGGATTTGGAACTTCATATAGAGTCACATGAAGATGTAGAATTAGAATTGTAAATAAGGAGGGGACAATGGCAGTTGTAGGTAGGGACAAGATAGCCCA
GAAGTATAAAGTAGAATGAGAAGAGAACTAAAAAGAAAAGCATGAAGAATTGTTATTTGGGGAGGGAAAGCAAAAGAAGAGAAGTCAGCAAAAGAAGACA
TGAAAGGCCAGGTGCGGTGGCTCATGCCTGTGATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATTGCTTGAGCCTAGGAGTCTAAGACCAGCCTAGGC
AACATGGCGAAACACTATCTACTAAAAATATAAAAATTAGCTGGGTGTCATGGCACACTCCTGTGGCCGCAGCTACTTGGGAGGCTGAGGTAGGATGACA
GCTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCCATGATGATCACACCACTGCACTCCAGCCCGGGCAACAGAGCAAGACCCTGAAAGAAAGAAAGAAAG
AAAGAGAGAAAGAGAGACAGAGGGAGAAAGAGAGAAAGAGAGAGAAAGGAAGGAAGGTAGGAAAGAAGGAGAAGGGAAGGGAAGGAGGGAGGAAGGAAGG
AAGGAAAAGGAAGAAGGAAGGAAGGAAAAGAAAAGAAAAGAAGAAAGGAAGGAAGGAAGGCAAGAAGAAAGGAAGAGAGAAAGAGAAAGAAAGAGAAAGA
AAAAAGAGAGAAAGAAGAAAGAAGGAAGGAAAGAGGGAAAGAAGGAAAGAAAGAAAGAAAAGAGAAAGAAAGAAAGAGGGAAGGAGGGAGGGAGGGAAGG
AAGGAAGGAAGAGAAAAAAATCAGAGAAGGAAGACAAAAGCCAGGGGCTAGATGTTCTACCACCAGACATCTGAAGGAGACCTTTAATTCACTGGAAAAG
AAATGCAATTAAATTTTAAACACATGAAACATACTCAACCTCACTCATGATGGAAGAAATACATGATCAAAAAATGAAGTGGTACCATTTTTTTTAAAGG
TTTTGTTTTTCTTGTTTTTTATTTTTTTAATTTTACCCCCCAAAAGAACTACTTGAGGCTTCATTTTTTTAGAGCAGTTTTAGGTTCACAGCAAAATGTA
GAGGAAAGTATTAATACAAATATTTCCCATCCCTCTCCTCCCCCATGCGTAGCCTTCCCGGCTATCAGCAACCCCCACCAGAGTGGTACATTAGTTGCAG
TTGACGGACCTACATTGACACATCATGATCACCCAAGTCCATAGTTTACATTAGGGTTCACTCTTGGTGTTGCACATTCTATGGGTTTGGTCAAATGTAT
AATGACAGCCTGGCATGGTGGCTCAGACCTGTAATCCCAGTACTTTCGGCAGCTGAGGTGGGTGGATCACAAGGTCAGGAGTTCAAGACCAGCCTGACCA
ATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGTCAGGTGTGGTGGTGTGTGCCTGTAGTCCTAGCTACTTGGAAGGCTGAGACAGGAGAAT
TGCTTGAACCCAGGAGGCTGAGGTTGCAGTGAGTCGAGATCACACCACTGCACTCCAGCCTGGGTTTCAGAGCAAGACTCCTTCTCAAAATAAATAAATA
AATAAATAAATAAAATAAACAAATGTTTAATGATATGTGTCCATCATCATAGTATCATAATGGAGTAACTTCACTGCCCTAAAAATTCTCTGTGCTCAGT
GTATTCATCCCTTCCTCCCACTACCCCCTGTCACATAGTTAAAATCATATAGTATGTAGCCTCTTCCGGTTGGTCTTTTTCATTTAGTAATATGTGTTTA
TGTTTCCTTGTTTCATTTTCATGGCTTGATAGCTCATTCCTTTTTAGTGATGAATAATATTCTGTCATCTGGATGTAGCAGTTTATTTATCCATTCACCT
ACTGAAGGGCATCTTGGTTGCTTCCAAGTTTGGGCAATTATGAATAAAGTTGCTATAAATAAATATCTGTGTGCRGGTTTTTTTTGTGGACACAAATTCT
CAACTCCTATGGGCTTTTTTTTAAAGCTATCCAATTGGCAAGAATGGTGAAGTTTAACACTGTGTTGGAGAGGATGTGGGGAAATAGGTAATCTAAAATA
GTGAAGACACATACCCTTTGGCCTGGTAATTCTCCTTCCAGGAATCTATTGGACAGATATACCTACACATGCATAGAGGGAGGTTCGCACAAGGATATTC
TCTGCAGCATTATTTGTTGTAGCAAAGGGTTGGAAAGAATTTAAATGTCTGTCAATAGTGGACTTGCCAAATAAGTTATGGCACATCATTTCAGTGGTTG
TCATATGGGATTACCAAAACAAATAAGGTCACCCAATAAGAATTGATATGGAAAAATACCCAAGATTTTTGTTGTTGTTGTTGAGATAGAGTCTTACTCT
GTCACGCAGGCTGGAGTGCAGTGGCGCAATGTCAGCTCACTGCAGCCTTGACCTCCCGAGTTCAAGCCATCCTCCCATTTCCACCTCCCTAGTAGCTGTG
ACTACAGGTGTGCGGCACCAGGCCTGGCTAATATTTTTGTATTTGTAGAGATGAGATCTTGCTATGTTGCTCAGGCTGGTCTCAAACCCCTGAGCTCAAG
TGATCCCTTCACCTCAGCCTCTCAAAGTGCTGGAATTACAGCCACTGCCAGGCCAATACCTAAGACATTTGAAGTGAAAAAGTCAGTAACAGGATGGAAA
ATGGTGTACTACCATTGATGTAAAAATGGATAAGGGTCTATCCATTTTTTGGAGCCAGACTGCCTTGGCTTAAATCCCAGCTCCACCACTTTCTAGCTTT
GTAACCTGGGAAAAGTTGCCTGTTCCTCAGTTTCCTCAGCTGCTGCCCTCAGAGGGTTATCAGGGAAAGGAAGGAGTTTACTTCTCCCTTTTGTATTTTT
AAATATTTTAAAACCATGGGACTATGTTAACCTATTTTTTTCTTTTCTTTTCTTTTTTTTTTGTTAGACAATGTCTCTGTCACCCAGACTGGAGCACAGT
GGCATGAAGATACCTCACTGCAGCCTCCATCTCCTGACCTCAAGCAATCCTCCCACCTCCTGAGTAGCTGGGACTACAGGCACCTGTCGTCATGCCTGGC
TAATTTTTAATTTCTTGTAAGACAGGGTTTTGCTATGTCGCCCAGGCTGGTCACAAACTCCTGGGCTCAAGTAATGCCCCTGCCTTGGCCTCCCAAAGTG
TTGGGATTACAGGCATGAGCCACAGCCCCTGGCCTACCTAATTGTTTTTTTTTTTAGTTGAGATGAGATTTTGCTACATTGCCCAGGCTGGTCACAAACT
CCTGGCCTCATGCAATCCTCCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGTATAAGCCACTGCACCTGGCCTACCTCATTTTATTTCAATTAAAAA
TTCTAATCAAAGAAGATACACAAGTAGCAAATAAACACGTGGAAAAGACGCTCAACATCATCATTAGGGAAATGCATATTCAGGCCACAATGAGATACCA
CCTCATACTTATTCGTGTGGCTAAAATGATAAAGGCTGACAATACCAAGTGCTGGTGAAGATGTGGAGCAGCTGGAATTTTCATGTGCTGCTGGTGGGAA
TGTAAAATGGTACGATCACTTTGGAAAACAAGATGGCAGTTTCTTATCAAGTGAAACATGCACCCACTGCACCTTCACAGTGACCTGCAATTTCAGTCCT
AGGAATTGACCCAAGAGGAATAAAAACCTACGTACTTGAATGTTCTTAACAGCTTCCTTCAAAATAGCCCAAAACTTGAAACCACCCCAAAGTTCATCAA
CCTGGAAATGGATAGCCAGACTGGTATATCCATACAATGATATAAAAAGAAATGAACTGCTGATACTCGGAACAACATTGATGAATTACGCTAAATGAAA
ACATTTACATTATACTAAGTGAAAGAATCCAGAAACAGAAACCTTGGCTGGGCACGTCGGCTCACTTCTGTAATCTCAGCACTTTGGGAGGCTGAGGTAG
GTGGATCACTTGAGGTCAGGTGTTCGAGACCCATCTGGCAAACATGGCAAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCAGGGCGCGGTGGCATT
CACCTGTAATCCCAGCTACTTGGGAGGCTGAGGTAGAATTGCTTCAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAGATCCTGTCACTGCGCTCCAGCCT
GGGTGACAGAGCGAGACCCTGTCTCTAAAAACAAAACAAAATAAAACAAAACAAAAAACCCCACAACACCCAAATACTGTATGCTTCTGTTACAGTAGGC
AGGCAGACATGAGCAGGGCAGGAGAGGGCTCCCCCCGATCCACAGACCAGGACTGTCAGGCGACAATCAGGTGATGGTCAGGCAGCTGTTAAGCTGTTCT
CTAAAATAATAATTGGTCACAGCCAGGGCCAGGGAAAGACAGTCTACCAATAGATAGAAAGACCTGAAACTAGTGAAGAGCATCTTCCCAATAAGCTCTT
GGGAGTTGAGCGAGTGGACTCAAGCATGCTCATTAACAGGCAAAATGGCAGAGTTTAACTGATATATGGCCTTCTAGGAACATTTGGCCAGTAAGGGAAG
AACGCCTCAAGTAGGCATATGTACAACTCCAGTAAACACAGTATGCATGCAGCCCCTCCCAAGCACTGGCAGATCACTGTACATGCAGACAGCCCACCCT
AACAGAAGAATCAGGGAACAGATACAAGACCCTGGAAGTATGCCAACATATAAAACCCTAAGTCAAAAGGTCCAACCATGCACTTGAGCTCTCTCAAGTC
GCCTGCTTGGCCCTCTTCCAAGTGTACCTTCCTTGCTTTTGTTCCTGCTCTAAAGCTTGGTAATAAACTTTCCCTCCTGCTCTAAAAATTGCCTTGGTCT
GTCACTCTACCTTATGTCCTTTGGATGATTTCTTTCTTCCGAGGAGGCAAGAATTGAGGTTGCTGCACTCATACAGATTGACTGTTACAGTTCCATTTAT
AGAAAATTCTAGAAAAGGCAAAATCATAGTGATAAGAAGTAGATTAGTGGTTGCTAGGGAGTAGGAGTAGGGAGGGCTTGAGAGCAAAGAGGTGCAAGGG
AACTTTAGGGGACTGAAATATTCTATATTATGGTCGTGGTGGTGGTTCCATGACTGCATATTGTCAAAACTCAAATTGGATTAAAGAAATTGTGAATTTG
GGCCAGGCACAGTGGCCCATGCCTATAATCCTAGCACTCTGGGAGGCCAAGGCGGGTGTATAACCTGAAGTCAGGAGTTCGAGACCAGCCTGGCCAACAT
GGTGAAACCCTGTCTCTACTATGAATACAAAAATTAGCCAGGTGTGGTGGCACGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACT
TGAACCCGGGAGGTGGAGATTGCAGTGAGCTGAGATCACACCACTGCACACCAGCTTGGGCTACAGAGTGAGACTCCATCTCAAAACACAACAAAACAAA
CAAAACAAAAAAACAGGCTTCGTCTAACAACTATACATTTTTTTTAGAAGGATGGCCTGGCCTAAGAGGCTCAGGGACAGAGGCATGGCCTGGTCTCTAA
TGTTTGGTGRMAGGGAAATTAAACAGGATGAGGCTGGGAAGGGCCCATTTGGTTGGATGCTTTTGTGGCCCTTTTGCTGGGGCATCTTGGTGGGGGCGGG
ATGGAGTGGATCCCAAACTGTAAGGAGTAAAAGAGTCAATGTGGGGTGAATAAGGGGAGGTAGCCATCTGAGATCAACTTCCAAGAAATTTGTCTGTTCA
TAGATAATGGAATAAACATGACCCAACCTTTCTGGTTACAAAAGAAATGCAGATTAAAAGGACAACACTGTGACTTATCTGCTTGGTACAGTCTGATAGC
CTGGGCAGCCAAAGTGGTGTGTAATCTTTGTAGAAAGCAATTTGGAATAAAAGGACTCTCTCTTCTCAAAGCGTAAGCTCTAGGCCGGGTGCGGTGGCTC
ACGCCTGTAATCCCAGTAACTTGGGAGGCCGAGGTGGGAGGATCAATTGAAGCCAGGAGTTTAAGACCAGCCTGGGCAACATGACAAAACCCCATCTCTA
CTAAAAATACAAAAATTAGCTGGGTGTGGTGTSGCACATCTGTAATCCCAGCTACTCGGGAGGCTGAGGCATGAGAATCACTTGAGCCTGGGAGGCGGAG
GTTGCTGTGAGCCAAGACCGTGCCGCTGCATTCCAGCCTGCGCAGCAGAGYGAGACCCTGTCTCAAAAACAACAACAACAACAACAACCCAAAAAAGTGT
AAACTCTTTGACCTGGCTGCTCCAGTAGGAATTTATCCTAAGGAAATAGTTTGGCAAAGGCAGTGGTGAATCAAAGTGTCATTTATAACATATACCTATA
GAAACAACCTATGTATCCAGTAATAGAGGATTGGCTGAGTGAAATAATGGTTTATTCATCCCAGAATTTGCTCTCAGCTTTAACCTGTTTTGACCTACAC
AATCGTGTGTTGGAGGAAAGGATTGGTGAGTGGGAAATGGGGATGGGAGGGAGATTTTTGCTAAATATTCTTTTCTACCTTTTGTATTTTGAACCATGTG
AATCTATTACCTATCAAAAAGTTAAAATAAAAATGTTAATATGATAAAAATTATGATCTTGAGCTATAATTGCCAACATGAAAAGCCATTTATGATACAC
AATTTAGTGGGAAAAGCAGATTGTAGGACAGGGTGAGCATATTTTTGTAAAAAAAATGTATATATATACATATTTACATGGGTAAACACTGCAAGAGAAA
AGCAAAATGTCACCTATAGTTGTGTCTGGATCGTGGATTTTGGTGACTGTGGGTTTTTTTCTCTTTTATATTTGTATTTTCTAATTTTTAAAAGAATGAT
GAATGAAGGTATTGTATAATTTAAAACACACACTTTTTGGACATTAGTGGGAAAACTGGTGAAACTGAATAAAGTCTATAGTTCGGTTCAAAGTTTTGTA
CCAACATTCATTTCTTAGTTTTGACAAACATCCCACGGCTCTCTAAGCCACAGTAACATCAGGAGAAACTGGGTAAAGGGTATACGGAAACTGTCCATAC
TATTTTTGCAATTCATCCATAGAGCTAAACTGATTTAAAGCAAAAAGCCTTTTTTGTTTGTTTGTTTGTTTTAAGGAAATTGGGTCTTGTTCTCTCGTCC
AGGCTGGAGTGCAGTAACACAATCACCGCTCATTGCAGCCTCAACCTCCCAGGTCAAGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTGCAGG
TACATGCCACCATGCCCAGCTAATTTTTGTATTTTTTTGTAGAGACAGGGTCTTGCTAYGTTGCCAGGGCTGGCCTGGAGCTCCTGGGCACAAGCCATCC
TCCTGATTCACTCTCCCAAAGTGTTGAGATTACAGGTGTTAGCCACTGAGCCTGGCCCAAAAAGCCTTTTAAGAAAAGTTTTTAGCCAGGCACAGTGGCT
CACGCCTATGATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGGTCACTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACGTGGTGAAACCCTGTCTCT
ACTAATAAAAATACGAAATTAGCTGGGTGGGGCAGTGCACATCTGTAATCCCAGCTATTCAGGAGGCTGAGGCAGGAGAATGGCTTGAACCTGGGAGACG
GAGGTTGCATTGAGCTGAGATCACACCATAGCACTACAGCTTGGGTGACAAGAGCGAAACTCCATCTCCAAAAAAAAAAAAAAAAAGTTGTGTTTAAAAT
AAGTTTACTTAACTGGGTGTGGTGGCACACACTTGCGGTCCCAACTACTCTGCAGGCTGAGGTGGGAGGATTGCTTCAGCCCAGGAGTTCAAGACTGCAG
TGAGCCAAGGTCACACCACCGCATTCCAGCCTGGGTGACAGAACAAGATCCTACCTCTTAAAAAAAAAAAAGTTTATGACATAGAAATGTCTCACAGGCA
GGCTGGGTGTGGTGGCTCATGCCCGTAATCCCAGAACTTTGGGAGGGTGAGGTGGGTGCCTGGCCAACATGGTGAAACCCAGTCTCTACTAAAAATACAA
AAATTAGCTGGGTGTGGTGGTGCACGCCTGTAATCCCAGCTACTTGGGAGGTTGAGGCGGGAGAATGGCTTGAACCCAGGAGGTGGAGGTTGCAGGGAGC
TGAGGTTGTGCCACAGCACTCCACCAGCCTGGGCAACAAGAGTGAGACTCCCTCTAAAAAAAAAAAAAAAAAAAAATAGGAGGGGAGCCGTGGGATAACA
AGGGGGATGAACAGCGGGTGGGAATGGGATAGGGTAGAAGAGGCACCCCCTTCTCCAACGTTGGAGGGAAAAGAATAAAGATAAGAGGGGATATAAGTGA
AGTTTCACTCATGCCAACACACCTTAGTTTTCTCTGGAAGGTCAGGGCCAGCTCACCTGCTGAGGCTTATGGTGATGAGCAAAGGGTGGGGATTGTGAAC
GGCAGAGAAGTTCTGGAATCCAAAATGAGACATGCAAATCAAATTACATGAAAGAACACTGTTTTCCAATTATCCCAGGAGATAAGTCACTTCAAAATTG
TTAAAATTAAGGAGCCCTTTTGGCCTCCAACCCCTATATATTGAGTCAGAAATTCCATGGAAGAGATCTGATATCTTCATATTTAACAAGCACCCCAGGT
TCTTGAGGAGTGTCTGAGGGACACTAAGGTAAAGGAATGCTGAACCCTGGCCGCTGAAAGTGTGCTCTGAGGACCAGTAGCTTCTTTTTTTATTTTGTTT
TGCTTTGCTTGAGATGGAGTTTCGCCCTTGTCACCCAGGCTGGAGTGCAATGTCAGGATCTTGACTCACTGCAACCTCTGCCTCCAGGGTTCAAGCAATT
CTCCCTCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCCACCATCACACCCAGCTAATTTTTGTATTGTTAGTAGAGACGGGGTTTCACCATGTTGG
CCAGGCTGGTCTCGAATTCCTGACCTCAGGTGATTCATCTCCCTCAGCCTTCCGAAGTGTTGGGATTACAGGCGTGAGCCACCGCGCCAGGCCAATGTCC
AGTAGCTTCTGCCTCACCTGGGAGCCGGTTAGAACTGCACACCTCATTCCAGACCTAACAGATCAGAGTGTGCATTTTAAATTGGATCCCTAATGGTTCA
TATGCAGATCAAAGTTTGAGAAGCATTATGCTAAGYAACTGCTGTAACCATAAATGTGTAACTGATCAATTGGTATAATTACACAATTTTCCCCAGCGGG
GCTAATGAGCCCACTAGCCGAAAGAGAGAAACTCCCATTTGCACTGTTCCAGGGTTGCAAGGGTGAAACTGTAGGGAGGTGTTGAATGCATGGCTAAAGT
GTTTGACTATTAGGTCTCCTATAGAAACAAGATGGAGAGGGCGGATGAGCTGGGAGTTTAGGGAAGGCCGAGGGGGTCTGGAGATTCCGATTGGGTCAAG
AAAGAGGGTAGAGAACAAAAGTAGGAAAAGTGGAGGGGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAAGCGGGTGGATCA
CTTGAGGTCAGGAGTTCGAGACCAACCTGACCAACATGGTGAACCCCGTCTCTACTAAAAATACAAAAAAATTAGTCGGGCATGGTAGAGGGAGCCTGTA
ATCCCAGCTACTCGGGAGACTGAGGCAGGAAAATCCCTTGGGCCCCGGAGGTGGAGGTTGTGGTGAACCGAGATCTTGCCACTGCACTCCAGCCTGTGCC
ACAGGGCGAACTCCCTCTCAAAAAGAAAAAAAAAAAAAGTGGAGGGATGGGAGGTATTTCAAATCAAAGGTGTAGCTTTGGGAATGTGTGGCTACCAAAG
ACTGAAGAGGAAAGTTACTGGAGTTGAGAAACTCAAAGAATTGTTAGGTCTCCTGATTGAGTGGTCCATTCAGAATTCAAGTACAATTTGCTCAAGATGA
GGACTTGGGCTTCTTTGCTCGGCCACTGCTCTTYGGGGAATCCACATGGTGTGGGTGGCACGCACCTTTATCCAGGATGGGCACATGACTCAAACATGGC
CAATGAGAGTGTCATCCTCTGACTGCTGTGATTGGTTGAAAGCTGGGCATGTGACCCAAACAGGACCAATCAGAATCCCTTGCTGGGTTTGATATATGAA
TGCAGGCTGAAGGAGGATCTCGTTTTCTTAGATATGAATGAGCTGGAAAAGCAGTAGAGGCTTAGAAGGGTGAGTGGTTGTCAGGGGTGAGTGATTGTCA
GAGGCCATCTTTGCACCCTGTGGAGAGAAGTGATCTCAGAAGAAAGTTAAGGAGATCAGGGGAATGGAGGAGGGCGATGGATGGGACCCTGATGACTGAA
CATTGCGTCCATCTGCCCTTAAACCTGGATGCATCTAGATGGTTAAGTGAGTCACAATAACCCCCTCCCCCACTCTTTACCAAAACCAGTGTGAGCTGGG
GTGTCTGCCACACCTGAAAAAGCACAAATAAGGCTCGGTGCCGTGGCTCAGGTCCGTAATCCCAGAGCTTTGGGAGGCCAAGGCGGTAGGATCACTTGAG
GCCAGTAGTTCAAGACCAGCCTGGCAACACAGTGAGAACTCATTTTTACAAAAAATTAAAAAAAATTTTTTTTTCTTTTAATTAGCCTGGCATGCTGGTC
CATGCCTGTAGTCCCAGCTACTCAGAAGGCTGAGGCAGGAGAATCGCTTGAGCCCAAGGAGTTGGGGCTTCACTGAGCTATGATGGTGCCACTGCACTCC
AACCTGGGTCACAGAGGAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGCCTAAATGTAAGGAGCAAACAGGGCAGCAGGGGCTGAAGTCTT
CGGGGGATGTAAACGGTCCTGGATGATGCTGGGTGGTGTTGGCAAGGGTGAAAGAAGTGGTATGTTGGTGCTGGGGGCTTCAAAGGAGGAAGGCTGTAAA
TAGTGCAGTGGAAGTGGCAGAGACAGCCTGGGAAAATGTCAAGGTCACCTTGAGGAAGCCTATGGACAAGGTAGCAGACTGCAGCCTCCACACAAAGCCT
GACATTGAGGCAGGACCATCAGGACCAGAGATCTGTACACGAACTGAACCTGGCCCTTATTCGGGTTTAACCCTGATCCTGACCACAGATTGACCCCTGA
TCCTGACTGCACTGGGCTCTCCTCTGGCCATTGGCTCACCCTCGACTCAGGCCCCATGCCAAGCTCTGATCCTGTCCTTTTTCTCTCCCTCCTTTCATAC
TCAGTGTAAAGACCCTGGTGCATGCTGGCTGGCCCATGGCCATCATAATCTCTCCTTATTTCATGAGCTGTATCCATCCCTCGCCAAGGCCAAGAACATT
ATTCTAAGATCTCAAGCCATGGCCCAGAAAGCCATATCCAGTTTTCCACTTAAAGAAGGAGCTAGTGACCTCCTAAATCCTCGTCTCTTTTTCAACATCT
CTGCACCAAGGGAGGATGTGATGAGGACACTCCCTTGACTCCCAAGATATTCTGTAAGGCCATCAATTTCCATAAACTGTCCATTGAGGGTGGGCTGGCA
TTTGCCTGCCCTACTCCCCAGATCTGCATGAATGTGGGGGCTCCTTAGATGTCCAGTTTGGTYGTTTTTCAGGTGCCCAGCCTTAAGCCCGAAAGTTTAA
GTCAATAATAGCAGACCCCAGAAAACTCCCTTGAGGATCTTCAGGAGTTACAAAGCCTGAGTTGCATTTATTACTATTATTTTAAAGTTCAAGATATAGC
AGCTTTAAAAACCAGAAGATCCCAGAGGACATTTCCCTGTGGTCCTAAAAGTTCTTTACAGCATCTGCCTCTAGGGCAGCAGAGGAAAAAAATTGTAGTT
GGCAGTGCTTACCCAACCTTAGCCCATTCAGCTGCCTGTAGGCAGGCTTACTAATGTCTGATGCATGGTAAATACCTAATGTTATAAAAACAACAACAAA
AGCCCAACACTAAAATATTCTGCTGAGGATCTTTCATGAGTCAGGCCCTCTGCCAAGTGCTCAGAATCAACCTTATCTCATTTTATCCTCAAAATAAGCT
TAGGCAGTAAAAACTGTTATTACCCACCCCTGCCTCCACCTGCTTTTATGGATGAGAAAACTGGGGCAGAGACTGGTTAAGAAACTGGCCCAGAGTCATA
CAGCTAATAAGTGTTGGAACTTGGATTTGAACAAGGTAGTCTGACTTCAGGGCTTAAAAAATAATTATGGATCGCTTCTTGGCCTTTTGGCTAAGATCAA
ATGTAAAAAATAATTACAGGATACATGTGTAGTAGAATGGATGGATGGATATGTGAATGGATGGATGGATGAATGGATGGATGGATACGTGAATGGATGA
GTGAGTGGATGAATGAATGGATGGATGAGTGGATGGTTGGATATGTGAATGAATGGATGGATGAGTGGATGGATGGACAGACACGTGAATGGATGAGTGA
GTAGATGAATGGATGGATGGATGGATATGTGAATGGATGGATGGAGGAATGGATGCACTGTTATGTGAATGGATGGATGGATGAGTGGATAGATGAACAG
ATATGTGAAAGGATGAGTGAGTGGACGGACGGATGGATGGATGGATATGTGAGTGGAAGAGTGAGTGGATGAATGGATGAATGGATGGAAATGTGAATGG
AAGGAAAATGGATGAACAAGTTAATGTCAGATGATTCAGAGGCTGGAGGTATTCAGGGGGCAGAAGTGTGTTCTGAGGCTGRCAGGGATCTGGGGACTGA
CTGGCTGCAGAAGATTGGCAGGCAACCACAGATAGCCAGCCTCCCTGTCTTGCCAAAACTCCCTTTGCTTTTCTTCTTTTTCTCAAGTTTGTACTTGAAT
CTCTTTCACGTTGCTGGGTTGGAAAATCCTCTGAGCTGGCTTGAGATACCCCATGTAAGAAAAGAGAGCCCAGATGGTATCTCCTGGAAGCCTGTCACTG
CTGGAGTAATGGCTGGTCTTTATTTTCTTCTTTGTGCTTTTCTGAAATGCCCAGTTTTCTATAGTGTGGAATGGGGTATCTATTGTTGTGCTAAACCTTG
GTGGCTCTTGGGCAATCATTCCTTACCCTCCTCTTTTAATGTGACTTTTAGGGGGAGGGCTGCTCTCCCAATTCAGAAGTACACACAAAATCCAGGCCTG
GCAACCCACAATGTTTTCATTCCTTTGGCCACAGTGATTGGTTCAAGAAAAGCCCCATGACCTAAGTATGTCCAGTGCAAGCCCATTCAATAATTTGGGG
TTTTGAGATAGTTGTAAGACAGAAGTTCTCTTTCTTTGGGTGAGGGGAGTGCTAAGAGACAGTACACATATCTAGGGTTTCTAGCACCCATCTTGACACT
GTATGGCAAGTATGTCTGAGAATGGAGCTAACATAAGGGAAGACAAATGAGAGAGAGAACTTAGAGTTCAGATCTCATCTTCTGAATTCCTGGATCCAGC
CATACCTGAAGCAGAGACCCATGGACTTTTCAATTATGTGAGCCTATATGTATTTACTTTTTCTTAATGCAATGTAATTTAGGCTTTTACCACTCACAGA
CAAGATTCCAAACACAATGCTTACTACTTTTCTACAACTACAAATAAAAATGTATTTTTAATAATGTTATTACCAGTCATGGAGGCTCATGCTTGTAATC
CCAGCACTTTGGGAGGCTGAGGTAGATGGAGCCCAGGAGTTCGAGACCAGCCTGGACAACATGGTAAGACTCATCTCTGCAAAAAATACAAAAATTAGCC
AGGTGTGGCTACTGACTATATGCTTGCCTGTAGTCCCAGCTACTTGAGAGGCTGAGGTGGAAGGATTGAGCCTGGGAGGTTGGGGCTACAGTGAACTATG
ATGGTGACATTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAATAATAATAACAATAATACTGTTGTTAAAAAAGAACAAAAGACAACTGTC
AGATCCCTGAGTACATGCAATCATTTAACAAAGAGAGCTGTTGAACAACAGAGTTTGTCAGACAAACACCTGCCCATCTGGCCAGAGGTATGAGCAGATG
AGGCTGGGAAGATTCCCCTGGGAATGTTCCTGGAGGAGGGCGAAGGAGCGTTTTAACAATCAGTTCTGTTTCACCTCCTCCTGCTGCTCCTTCCAGCTTG
CASCTGGGCACAATGGGGCACCTTCAGTCTGCAGCCCGCAATTAGAGCACATGTCTCGGGAATCCTGCTGATCCAGACCCCTTCTCCACCCTGGGCCTGT
CCTGCCTTGGGAGTGAAGGAGCTAGAACTGTTCCTCCGTTTCCTAGGAGGTAGCGGTGGCTGCGTGAGCCAGAGGTAGGCCTGGAGGGGACATTCCCAGG
GCAGCCACCCTGGGGAATGCCAGGCCGATCATTTCTTGGGGATGCCTCTATGGAGGAGGGGACAGAGCCAGAAAGATATTTGCACCTTGRGGACATTTCT
TTGAATGCTAGGTTGCTTTTAGGATGTGTTGTGAACATCCATGCAACACCTGTGTTAACACSCACTCATCATTTTCTTTCTTTTCTAAGATTTTTTTCTA
RGACAAGGTTTTGCTTTGTCACCCAAGCTGGAGTGCAGTGGCATGAGCATACTCACTGTAGCCATTGGGAGGCAGAGATGGGAGAATCACCTGAGTCTGG
GAAGTCAAGGCTGCAGTGAGCTGTGATCATGCCATTGTACTCACTCTACCCTGGAGTGAAACAAACAAACAAAAAAAGCAAAGCAAACAAGTGGGTTTCT
ACTGCCACTTCAGGTGAGAAATAGCTCCTTGCTACCAAGTTTTCCAAATGTCCTGTGTACCTCTAGTCACTTCTACTTTCTTCTCCACTACCCCAGCCCC
AGGCCAGAAGTTTCTGCTCTTCTAACTTGCTCAGTTAGAACTATGCTCTTCTAACTGTGCTCAGTGCATCTTGCTTTTCTTTATAATTTCACTTATTATT
TTTCATTAGGTCAACTCGCTCTCTTTTCATTTAAATAAATTTAGTTTTTGGATTTTGTATTTTTTTAATCACATAACTCTTTTTTTTTTTTAGATGGAGT
TTCACTCTTGCTACCCAGGGTGGAGTTCAGTGGCATGATCTCAGCTCATTGCAACCTCCGCCTCCTGGGTTCAAGCCATTTTTCTGCCTCAGTCTCCTGA
GTAGCTGAAATTACAGGCATCTACCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCTTGTTGACCAGGCTGGTCTCGAACTC
CTGACGCCAGGTGATCCACCCTCCTCAGCCTCCCAAAGTGCTGGGATTACAGAGGTGAGCCACCGCGCCCAGCCACGTAACTGTTTTAAAGTGCACAGTT
CAGCAGCATTTATTATGTCCTCCATGCCATGTAACCACCACCTCTATCTAGTTCCAAAGCTTTTTCCTTATCCCCAGAGGAGACTCTATATCCATTAAGC
AATCACTCTCCATTTCTCCTCCCTGCAATCTGCTTTCTGTCTGTGAATTTATCCATTCTGAGTATTTYGTATAAATGGAATGGGACCATATATGACCTTT
TGAGTCTGCTGGCTTTGTTCACTTAGCGTGATGTTTTCAGGGTTCATTCATATGTCAGTAGTTCATTCTTTTTAAACTTTTTGTTTTATTTTTATGGATT
TAGGGATACAAATGCAGTTGTGTTACACGGATATATTGCATTAGTAGTGAAGTCTGGGCTTTTAGTGTAGCTGTCACCTGAACACTGTACATTGTCTCCA
ATAGGTAGTGTTTCATTCCTCCCACCTTCCTACCTCTTGGAGTTCATTTCTTTTTAATGGGTGAATAATATTCTGCTGGGAATATACTTATTTTATTTAT
TTATTTATTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTACCTCTGCCTCCTGGGTTCAAGCAGTTCT
CCTGTCYAGCATCCCAAGTAGCTGGGATTACAGGTGCAYGCCACCACACCTGGTTAATTTTTGTATTTTTAGTATAGACAGAGTTTCACCATGTTGRCCA
GGCTGGTCTCGAACTCCTGACCTCAAGCGATCCACCTACCTTGGCCTCCCAAAGTGCTRGGAATACAGGCATGAGCCACTGTGCCCSGCCAAGTTAAGGA
TCTTTAGATGTGGAAAATATCTTGAATTATCTGGGTGTACCCTAAATGTAATCACAAGTGTTTTTATTAAAAGGAGGCGGAAGGAGATTTGGCAACAACA
GAAGTCAATGTGATGACTGAAGTAAGAGGCTTCTCTGCTGGCTTTGAAGATGGAGGAAGGGGCCAGGAACCAAGGGATGCAGTTCTAGAAGTTCGAAAAG
GCAAAAAACCAGATTTTCCCCTAGAGCCTCTGGAGGGAGCACAGCCCTGCTGATAGCTTGATTTTAGCTCCATAAGATTCATTTCAGAGCTCTGGCCTCC
AGAACTGTAAGAGAATARATTTCTGTGGTTTTAAGCTACTATGTTTGTGGTAGTTTGTTACAGCATCCACAGGAAATGAATACAGTGCTCAATAAACGTT
TGTTGCATGAATAAGTGATTGTTAAACTAGTGACTAAAGGAGATGCGTTCTTCTATAGTACATGATCTTGCACTTTTTTTTTTTTTGGCAAATCTCGGTC
AATCAATTGACTTTTTTTTCTATTGATTACATTAAGCATTGGTTACATTAAGCAGAAGACCACTGAGAAAACAAAGGCAGTGAAGAATTGATGCTGMTAA
GTTCAAATTAGATAGCAAGAGAGCTAGAGAGCTACAGGCTCTGAGGCAGCTCTCTCTTTGTTAGAAAAGAGAGACGAACAGTGTTAGAAAGTATTGAAGA
CATGTGAACATCGAACCGAGATTTTGTTTTTTGCTTTTTGGGGATTTATTTTTGAGATGGGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTTCAA
TCACAGCTCACTGTGACCTTGACCTCCYTGGCTCAAGCCATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACACACCACCACACTCAGCT
AATTTTTGTATATTTTTTTGTAGAGACAGGGTTTCCCTGTGTTGTGGCTGGTCTTGAACYCCTAGGCTCAAGCAATCCTCCTGCCTTGGCCTCCCAAAGT
GCTGGGATTCAGGCATGAGCCACCAYACTGGCTGAACTTTGYTTTTGCACATTGGAAAATGGACTAGCTTTCTTATTCTGTTTGTCAATGATATTTGATG
CTCCAACTTGCAAGGGAAGACCATATAGAGAGAGTGACATTTGCATCTGATCTTGAAGGAATGCGTGAATGAGTGGAGGGTGAGTGGAGGAAGAGAGAGG
GAACCATTCAGAGTTGCAGATAAGTCTGTGTGCTGCCTAAAATTATCACCGTAGGGTGAGTCCTGCAACTTGAGAAACATGGCCAAGGTGTGATGGGGCA
GATGGGGCAGATGGGGCACTGCCAAGAAGTGTCTAAGCAGGAGGTGCTGTGGTCCAGTCTGCACTTCGGAGACATTCTCTTGGCATAGCCTGGAGTAGGG
AAGGAGGAAGGAGAGCTGGAAGAAGGGAGATTCATGAAGAGGAGGGGAGCTTCCTGTCACTTCACCTTTTGTCCTTATTAAGTCTCTTTCTTAAACGTCA
GTGTTTCGGAGTCTCCATCTTTGACTCTTTTCTCTTCTTTATTATTTTTTTTTGAGATGAAGATCTTGCTCTGTTGCCCAGGCTGGAGTACAGACAGACT
CACAGGTCACTGCAGCCCCTAACTCCTGGGCTCAGGCAGTCTTCCTGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGTGCGAGCCACTGCACCGAACCC
TTTTCTCCTCTTCTGATCTGCTTCTCCTCCATGGTGACCTAATCCACACCCCTGGCTTTGTCCTGCCTGGATGATGCCCATGTCTCCATCTAGCCCAGAC
CTCTCTCCTGAGTTTTTAACCCCAGAAGAGACTAGCATGTTTATCTAATATCTTCCCTTGTGCAGGATCACAGGACATAGGCTGAGTCTGCAGTGCCTCT
GTTCATCAGGGAGGTGGTCCATGGGTGGCAGGACACTAGGGTCTGGGATTCAGTGACTCAGAGGACTAGTGAGGGTGGTGGCTCCATTTGAGAAGACCAG
GGGTACATTAAGAACAGGCATTCTTGTGACTTACAAATGGAGTCGGTGTCCCTTGGAATCAGTARCTCCTAGCTATGGCAGTTGCTTATGAAAGGGGTCT
GGGAATGAAGTTGTTCTACTCTGTCCTCACCTTTGTCCTGGGAAAAGAAGSCCCCTCAGCTGAGTAGGCCGGATCTGAAGCTAAAGAGGGCTGGAGAAAA
CTTCAGGGGCAGACACACTTAGCCTCTAGGGAAAAGCTTCTATCTGAAAGGCAGTTTGCACAGTGCTTAAGTGCATTGGCTCTGCCTGCTAGCCTGGGCA
CAGCAGTTACTAGCAGTGTGGCCGTGAGAACTCTTTGTGACTCCATTTCTTTTCTTTTCTCTTAATTATTTTATTTTATTTTATTTTGAGATAGGATCTC
TCTCTGTTCCCCGGGCTGCAGTGCAGTGGCACAATCTCAGCTCATTGCAGCCTCAACCTCCTGGGCTCAAGACATCCTCCTGCCTCAGTGTCCTGAGTAG
CTGCTGGGACTACAGGCGTGCGCCACCATCATGCCCAGATACCTTTTCATATTTTTTGTAGAGATGGGGTTTTGCCATGTTGCCCAGGCTGGTCTCAAAT
TCCTGAGCTCAATCAATCTGCCCGCTCTGGCCTCCCAAAGTGCTGGGATTACAGGCRTAAGCCACCACATCCGGCCTCCATTTCTTTCTTTATGAGTTCC
TGAGCTGTTAGAATTACACAAGCTGATGTGTGTGAAGTGCTTAGCAGAATCCCTGGCAAACCATAAGAGCTCAATGCATATTAGCCATTGTTAGTATTGT
CACTGTTTTTATAAGCGCCACAAACTTTTCCTAAATGCCAACACTGTACTCTGTCCCGTCCCCATCTAGGGACAAGGAGATAAGACACAATTCCTGCCCT
TGCAGAGCTCATAGTCTAATGATAGAGGCAGATGTGGATAAAAAATTGTATACAGGGCCAGGCACCATGGCTCATCCTGTAATCTCAGTACTTTGGGAGG
CTGAGGCGGGAGAATAGCTTGAGTCCAGGAGTTTGAGACTAGCCTGGGCAACATAACAGGAACCCATCTCTACAAAAAATAATAATAAAAAATTAGCCAG
ACATAATTGTGTGCTTCTATAGTTACAGCTACCTGGGAAGCTGAGGCAGGAGGATTGCTTTAGCCCAGGAGGTTGAGGCTGCAGTGAGCTATGATTGTTT
GAAGTCCAGGAGTTCAAGACCAGCCTGGACAACATAGTGAGATCTTGTCTCTATAAAAAATTTAAATATGAGCCATGGGTAGTGACAAGCACCTGTAATC
CCAGCTACTCAGGAGGCTGAGGCAGGAGGATCACTTGAGCCCAGGAGGTCAAGGCTGCAGTCAGCTATGATCATGCCACTGCGCTCCAGCCTGGGCAACA
GAGGCAAGACCCTGCCTGTTTCATATATATATATACGTATATATATATATAATATATAAATACGTATATATATATAATATATAATATATATAATATATAA
TATATATAAAATATAATATAATATATTTTATATATATTATATATATATATGGGTGAAAGTTGTGTAATGGTGGAAGCTCCAACTTCTTGGGGCAAGGGAA
GAGGGTCAGGGAAAACTTTACAGAGGTGCTGACATTTGCAGCTGGCCTGGAAGGGTGAAGTGGAGAAGGAGGGAAGACGATGCTGGGCACTGCAAGAGCC
AAACAAGAATGGAGACAGCTGGAGTTTGCTGGGTGTGCACGCCCGTGTGCTTGGGGGGAGTTGAGCGGCTGTTGGCTTTGGATTCTCATGGCCTTGCCTT
TGACAAGCCTACTAGAAGTGTTCCTCCATCAGGCAGAGGCTGGCCAATTCCACGAATCTGAGGGCACCTCCTGTCCCCACCATTGGGGAGGAGGAGGAAG
CTCCTGTCTGTGCTGTGCTCAGGTAGACATCAGCTGCAAGTTCCCTGTCGGCACCGGCTACAGCCGCCAGAGCCCAGCATGGACGAAAGCCAGGCTCACG
GCCTCTGTAGCCCAATCCTCACCTGCATGGGCCTGGCTCCTGAGCCCACTTCACAGGGGAGCTCCCTCCAGTCTGGGGTCTCTATGACCTCCTCCTTGCT
GGCTGGCATGCCTCCTGGCAATGCCCTGCCCTATAAGGTCTGGTGGAAACACCAGATAGAGCAGAGGCTTACTCTAGCCACAGGCCTGGGGTTGAGTTGG
ACCAGGGATGCCCAGGTCCAGACAGGGTCCCTACAGCCCCTCTCTTTTACCAAGACTCTTGCCCTTACTAGCAGCCATTCTCATGAAGGGATTAGTCCTG
AAATGTGGACCTTCCCCACCCATGGATGAAGGACTTCCTTTAGCCCTAGAGCCAGGGTATTTAGCCTCTCCCTCTTCCTACCCAAAATGACATCGGACTC
ACTCTTAAAAGGTACAGACCAGAATGGCTGCAAAATAATGGAGTGATAAAAGGCACCAGCTCTGGTGTCAGACTGTCTGGGGTCAAATCCTAGCTCTGCA
ACCTCTTAGCTGTGTCACCTTGGGCAAGTAACTTAATCTTTTATGCCTCAGTCTCTTCATCCACAAAATGGGATAATCATACCCATTGAATGTGCTCATC
CAAGGGTCAGCACAGTTTTCCGTAAAGGGACAGAGGGAAAATATTTTAGGGTTTGCTGGCTTTGCAGGTCTGGGTTGTAGCTACTCAACTCTGCCACTGT
AGTGCATGAATGGCCATAAACAAAACTTGAACAAATGGATGTGGCTGTGTACCAATAAAACTTTATTTATAGACACTGGAATTCGAATCTCATATCATTT
TCATGAGTCACAGAATCTTCTTCTTTTGCTATTTAAAAGCAAAAATAAAAATTCTTGGCTGGGCACGGTGGCTTGTGCCTGTAATCCCTGCACTTTGGGA
GGCTGAAGTGGGAAGATCATTTGAGGCCAGGAGTTCAAGAACAGCCTGGGCAACATAGTGAGATCCTATTTCTACAAAAAATAAAAAATAAAATAAAATA
AAATTCTTAGTTCATGGTCAAAAACAGGATTTGCTTTGCGGAACACCATTTGCAGTCCCCTATGCTAACCTATCTAGGTGCTTAAAACAGTACCTAACAC
CCTGTTCTTGGGTTGGCTTTAAACACCAACCAAGGATTTAATACCTGTTAGCCATTTCAGGTGGAAAGATGTGAATGTGGTATGAAGTGGGTCATCTGTG
GCAGTTGGCTTGTTGGTGAGGGACAGGCCATTGGTAATGGAAGGGTCAGCTCTGTCTTGGAACAGCTGCCCAGAGCATGGCCCACCATGCTCCCCCTCCC
CACCCAAAGTGACACAGACCTCACCCTTTAAAAGGCACAGACACGAATTGGATGCAAAATCATGGAGTCAGATTGTCTGGGTTCAAATCCTAGCTCTGCC
ACCTCCTCACTGTGTCACCTTGGGCCGGTAACTTAATCTTTCTGTGCCTCAATTTATTCATCCACAAAATTGAATAACYAAATCCATCTCCTGGGCCCAC
CCATGCCCCAAAGTGAGGACACTCTGACATAGTCCCAGACCTCCACCWCGGCACTCTGATCTCCACCAACACTCCAAGGGCYCTGGGCCAGTTCTCTGCT
GCCTGAGGGCATGGAGGACACCTTTCTCCAGTGTCAATGATGAAGAACAGTTTATTCACAAACGGCTCCAGCTTCAGGGCTGGCACTTTCTCCTATCTTT
GGCATCTGGCAGTAGCTGTCCAGCCTTGACACTCAAGGTCACATCCTTGGGCCCCAACCCAGGCTGGCAGTGTGGGTGAAACCCTCGGCTTTGGGGCTTT
GGAAGAGTCCTTCCCTCTCAAGACCCGTAAAGAGCTGCATCAGTCCTCACTCTGGCCTTCACTTGGGCCAGCACCACTGCCTCGGYTCCCAGTCTCTAGT
GACGTGCTAATAGTTCARGTCCCGGGATTTATCTCAGCCTGGACAGTTGTGAGTGTTGCTGCGTAGTACCCGATGGCTCCTCCTGCGCATGCCCMGGCCC
CATCTTGCGGTTTAAAGCAGGCTTTTTGGTCAGAGTATCTGAAAAGCCCAGAGTGGGGCAGAGGGTCCCCTGTGCACAYGTCTGGGGGCACCCGATCCAT
GTCCTTAGAMCATGGCTGGTGGTCCTGACTAGATCTGTCTTCTCAACCCTGCCTCASAGCTCATCCAGCATCTGGGTATCTGTGAGCTGGTTGGAAAAGG
CCCTCTCCAAGCGCAAGGTATTGTATTTGGGGGGCGGTGTGCCGGGCACTTGGGTTCCTAGGGCTGGAGGCAGGTGCAAAGCAGAGTTGAAAGTGGGTAG
GTCATCGTCTATATCCAGGGCTGGATTGTCCTGGCCCTGTGGGCTACGGGGAGCTTCTGGACATGGGGGAGCCTGTTTCYAGGCCYACCACTCCTTGGCT
TTCTGCCACTGGCGGCGGGCAATGATAGAGAAGAAGTCAATGAAGAAGACCTCGATGATCTCGATGACGCAGACAACAGAGCAGCTCATCCACAGGCCCA
GCTGGCCACCGAAGTTGGACAGAAGCATCTCAATCTGCAAGACAGGCCAAGCCACACCATCAAGAGGAACCTCCCCCCAAGTTGGCCTCACACAGGAACC
CTGATTCCCAAGGGAGCCACGGGTCAGCCCCGACCCTGCACAGGCTGGGAGGAAGAAGCAGGCAGCCTTCCTGTTTCCTCTTACTCTGTGCATTCCGACC
TGAGACCTGGCTAGCCTACAACAGCCCTCCTAGAGTAGGCTGGAACCCCCTACCCTGATTCTGCTCCCCAAGGCCAGGAAGATGCTCACATTTGTAGGCC
CAGGACAGGTCCTGGAAGGAAGCCACTCTACTCACACTGTTGGCTGGGCTCTCCATGATGGATCTCTGGTTCAGGTCTTTGTAGAATATCAAGAGTTTGG
CCAAGTCTGTCCTGCAAAATTCCAACAGGTGAATCAAGAGCCTTGGCATCCTACCAGATTACCAGTCCTCAGCATGGCTGTCTCCCTCCTACCCAAGCTG
GCAGCATGGCCAAGGCACTGAGCTCCTTGGGGATATTAGAACCTGGCCCATAAGGGCTCCGTCTACACCCCAGAGCATATCTCCAGCCTGGATCTGGTCC
ACAGGTCATTCATTCACTCAAGAACTGCTCCCCAACTTCCAGATTAAGTCAGTCGACCCAGCCATACTGCCATTGTACCCTGTTCTTCATTAAACATTGA
CATTTGTAATTGATTGATTGCAATCTCAAGTATGTACAGGTAATGTACATGAGCAGGGTAGTTGAGGTAATATGATAATAGGCACAATGGCAACAAGCAT
TTATGGGGCACTTCCTGTGTTGCCAAGCACTGTCGTAAGAACTTTATGTGAACTAACTCATTGAATTCTACCAACAGCCCTATGAGGCAGGTATGTATAT
TTTCATCATCCTCATTTCGCAGATGTGGAAACTGAGATGCAGATTGGTTAAGGAACTTGTCCAAGACTATGCTGTCAATAATTGGCTGAGCCAGTACTCC
AACTCATTTAGATCTAGCTTCAAAGTCCATGCTCTTAACCATTGCACTAAACTGCCTCTTGATAGGACGATGGTGAACTGGACCATGACTCAGCCAAAAG
AGCAAGTATTACTCAGCTGTTTGGTGCTACAAAACAGTGGAGGGTCGTTCTTGCCAGAACTTTTGAATTTTCAGGAAAAGTTGGAAATAATGGGTTGCTT
TCATGAGGCTAGATTTGGGCCAAGGATCAGTCACCAGCTTGCAACACTTGGTTTAATGGTTTGCAATTGCTTGGTCAAAGTCTATTTTCTCATTAGAGTG
TAAGTACCTCGGGGGACAGAGACTATGTCTGCTTGATTGTCCTGGTTCCCCCAGCACCTCACACAGCACCTGGCACCTAGGGGGTGCTCTATGAATGTTG
GAMGCAAGATTGGCCAGATTGGCTCTCATGGCAGGCAGGCCCAGCAGTGCGCATGAGGGAGATAGTGATGGCTTAGAGAAATGTGAGTTCACATGGCATG
ATTCACAGATGTGAGTTCACCGTCTCCCAGCTTTGAGGAAATGAATGAGTGAGTGAATGAAAAGGAGAGGGGGCCAGGCTTGGTGGCTCACGCCTATAAT
CCCAGCACTTTGGAAGGCCAAGGGAGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAAACCCCATCTCTGCTAAAAATATA
AAATTAGCCAGATGTGATGTTGCGCACCTATAATCCCAGCTACTTRGGAGGCTGAGGCAGGAGGATTGCTGAAACCCAGGAGGCAGAAGTTACAGTGAGC
TGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGTAAGACTCCATAAAAAAAAAAAAAAAAAAAAAGAGGATTTGGCCATACACATACAGAAGCAA
GTGAGAAGGCTGGGGGCTGTGGTGGGMAGAGACAGAGGAACAGGGTAGAGGTAACTTACTTGTTGAGCTTTTTGTTTACTTGCCGGCCTTGGTCCCAAGT
GAGAACAGGCAGCAACCACTTCTACAAYGGAGAGAGAAAGCGTGGGCCTGAGGGTGCCTGAGAGGCTAGGGCCAGCCTCCCGCCTCAGGCTCCCCAACTT
GTCCCCCAGCCTCCACAAGGTAATTCTTTTCCCCCTGGACCATGTCCCAGGCCAGAGGACACAGCAAAAATGTCAGTGGGGCTCCAGGCTGGGGGCTTCA
GTGGGGAAGGGTGGGCAGAAGAACTTACCTCCGAAACCACAGATGGCCATTGTGCCAGGCTTGTGGTTAGTGTCCACTCTTTAAAGCTAAGGGAGGAGGG
GACAGCATGAGTGTAGGCAGCCCAACCCAACCCAGCCRCCCGTCTCACCCCTTGGGGTCCACATACCTGCAGGCTTCCTTGCACACAGACTGGCAGCCCA
GCTCTTCCTGGACAAAGGCTCGATGCAGTTGGTAGTAACAATACACTGAGGGACAAGGGAGAGGGCAGCATGAGCTTTGGAGCCACAGGACCCTTCCTGG
CCATCCCCAGGTCACCAAGGACAGCCCCGCAGTCTCATTTTAATGATTTCTCCTCCCACTTTCTACCAACTCTCTGGAAACACATATTGCATTGTGATGT
TGGGAAACAGAAAGCAATGGCGGTTGAGGATGTGAGTTGAAGGTCAGACCACCCTTGGTTTGGATCCAGCTCTGTTCCTTTCTGGCTGTGTGACCTTGGG
CAAGCCACTTAGCCTTTCTSGGCCTTGGTTATCTATTCTGTGAAAAGGTAATATCCACCGTTCCTACCTCCTGGAGTTGACTAAGGTGGTCAGTTGCAAA
GTATAATTTAAGCCAGGCTTGACAACAGAAGTAAAACTCTAGTTAATGGCTCTCAACCAATACCTCCCTCACGCAAAAGGCAACAGGGGTGGAGTCCCAG
GAGTGCCTATTGCCAGGACTAGGCTGACCCTGGTCCTGGGGCATGCAAGGCTGGAGCTGGGTCTCACTCACTCCAGTTGGGGTGCTGCTGGTAGTTGCAG
TAGTTGGCTGCAGGAGGTAGAGGCTGGCTGTACTGGGCACACCCACATTTCTCCACCATCTTTGTCTGGAAGCATGAATGAAGGCAGATCTGAAAGAGGA
GACCCAGGAATGCCATTCATGTCTTTGCTCAGGGATGTCAGGGRGTTTCCTGCACATCCCTCAGCCCAGGGGGTCAGCCTCCCTTAACCTTGGCCAACCA
CATGAACCTGCCCCTTATGCCAACTGGGCTGGGCATGGTCCCGGAACTGCAAAGGGCCCAACCTGGAAGATGTATTAATAATTTACTTATTATTTTTATT
TTTTATGTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGACTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGCTCAAGTGATC
CTCCCACCTCAGCCTCCCAAGTAGCTGCGATTACAGATGCACACCACCATGCCCAGCTAATTTTTTTGTATTTTTGGTAGAGACAGGGTTTCACCATGTT
GGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCTCCCACCTTGGCTTTCCAAAATGCTGGGATTATAGGCATGAGCCACACCTGGCCGATGTATT
AAGAATTTAGACTAACTGAGATATGGAGATGGGGCTGAGCTGGGGCTGCAGTAGTTGGGTGGTCATTTTCCATCATGTGGGTGCCAACACAAAGATAAGT
GGGAAAATTAGAGGAGTTGTCAAGAAACAGAGAGAAATAAACACAGTCCCTGTGTTCCTATTCTCAAGYCCAACCCCTCCATGTTGGATCTTCATGGATC
ATAAGCTACCACAATATCCRTGGAGCTTATAGCATAAAAGCTAATGGCAGAGTTCCTGAAGGCAGGCTACTCARGTCAAATCCMATCTTTGCTATTTTTC
TGCTGTTTGGCATCATGCAAGTTACTTAACCTCTCAGATGCTTTGCTTTCTTTATAATAATATCAACTTCATGAAGTTGTGAGCATGAAATGAATTGATA
CATGTAAGGTGTGTGTGTGCATGGTAGYTCTCACTAAATGTCATCCAGAAGTATCTTTCTGATGAGCTCACTTTTTTTATTTTTAAAGACAGGGTCTTGT
TCTCTCACCCAGGCTGAAGTACAGTCGTGTGATCATGGCTCACTGCAGGCTTGAACATTTAGGCTCAAGGGATCCTCCCTCCTCAGCCTCCCTTATAGCT
GAGATTACAGGTGTGCACCAGTATGCCCAGGTAATTAAAACAAATTTTTTTTTTTTAGAGGCAAGGTCTTGCTATGTTGCCMAGGCTGGTCTCAAACTCC
TGGGCTCAAGTGATCTTCCTACCTTTGTCTCCCAAAGTGCTGGGATTATAGGCATGAGCTACCATGCCTGGCCCAAAAGTCCTCTTTTACTCAGTGTCTA
CACCACCTCTCAGCTCAGCTCTTATCTAAGTTGGAAGACTCAGTGCTGAAGGTTTCTGGTCCTTTTGTTCTGCTGGGATGATTYTCATGGACTCTCTGGG
GTATCCTGGTAGGAGGTGAACTATAAATTCCCAGAATGTGAGAGGAGGCAGAACAGATCATCTCACTTAAGTGTTGAAAAGTCAGATGTCTACAGGAGAC
AGTGATGKAAGTGACATACTGGAGGGGTAGTGAAAACTGTGGGAGCCAGAGAACACCTGCTTCATTTATTGGGGTAGCTACACCCACTGTTTATCCTGCA
GGAAATATGGGCTCAATGTTGCYGTATCGTTTCATTTTTTCGAGAGGCTGGRAATCTGGATTTTCTTGTGAAATTCCTTGACTTTCGAACACCATCCAGG
CTCTTGAAAAACCAGGTATGCCACCTGGAAGGCGACTGGGAGCTGCAAATTAGCAGCCCCTGATCCAATCCCACCTCCCCTTGTGGTTGCTGAGGGGAAC
CCAGCTGGCCCAAGGCCATYATCCAGMGAGGGGCACCAGCAGGCCCGGAAGCCATGCTCTTGACCCTTCAGCCAGTGTCTCTCCCAGACCGCTTCTTTCC
TGTTCCTCCCTTGCCAAGGCCTACTTAGGAGGTGGGYCTGTCTCAGCTGTACATTGAGTTCCACRGAAACCTCGGTGTATCAATTAAGCTCTGGTTACAG
ACGAACTGCAGAGGACTGGAACCAGCCGGCATCATTTGTTCTTGAGGTCTCTGGATGAACCCCAGGGATCCTCACCAGAGTTCCTGGTGCAAGCCACACC
CCAGCYTAGATATAACTTTGTCTCCTGGGTCCGGGCCATAAACCCAGGGCTGGGTGCCCCYGCCAATCTGTTACCTGGAGCGAGTAGGCAGCGTTGTAGA
TGTTCCTGATTGGCACGTCACTCCCGTCCTCCGTGCACTGACTGTAGGGCTCACTCAGCTTGAAGGACTCTGTCTGCAATCACAGCAGCACACACTCAGC
CCTGTCCTCCCCCCGGACCCAGGCGGGGGCTTTGCAAGGAGCACCAGACAGGGGACTTTGCAAGCAGCCCTTGGGAGCTGAGAAGCTATTTGGTCATTCA
TTTAATGAAAAGTTAGTGAGAACCTATTAGGTGCCTGGTACTGTGGTAGACACTGAAATCAGCAATGATCAAGATAGATAAGTTCCCTGCTCTCCTGGAA
CRTASCTTCCAGTGGGGTAAACAAATGGTCAGCAAGCAAATAAATAAACAAGATATTTTGGATAAATCTGGATGGTGTTTAATGAAATRGGGTAGGGAAA
CTGGAGGCGTTAAGAGCAGATGGGCAGTTTTTCCCATAGAGTGATTAGGGAAGGTATTTCCGAAAAAGGGACCTGTTGGCTTAGCGTGGAACTGCAAGAA
AGAGCTGGTCTTGTCAAGAAGTGGACAGGAAGTCGGGAATGGTGACACACACCTGTAGTCACAGCTACTAGGGAGGCTGAGATGGGGGGATCACTTGAGC
CCAGGAGGTCAAGGCTGCAGTGAGCCATCGTCGTACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCTATCTTTAAAAAAGAGGATGAAGTGGACA
GAGTACGATTGGGTAGAGCAAACAGGAAAGGCTTGAAGCAAGATGGGCTGGTATGGCTGAAAATGGCAAAATAGAGAAATTGCTGGAGATAAAGTCAGAT
GGGGAGGTTGAGGCCAAATCATGCCCAGCTGAGAAATTTGGATTTGATTGTCTGAATGAAATGAATTTGCAGTTGGCAAATCCACTGGGACGTGGGAGGA
GGGATTAGAAAGATGAGCAGGGGCCAGGCTCAGTGGCTCATGCATGTAATCCCAGCATTTTGGGAGACTGAGGAGGGAGGATTCCTTGAGTCCAGGGTTT
GAGGCTGCAATGAGCTATGGTTGTGCCACTGCAATCCAGCGTTGGTGACAGAGGAAGACCCTATTTTGAAAACAAAGAGAGAGAGAGAGGGAGGGAAGGG
GGGAAGGAGGGAAGGAAGGAAGAAAGGAAGGAAAAAAGAAAAGAAAGAAGAGAGAGAAAGAAAGAGAGAGAGAGAAAGGAAGGAAGGGCGGGAAGGGAAG
GGGAGGGGAGGGGAGGGGAAGGGAAGGGAAGGGAAGGGAGAGAAAGGAAGCGGGAGCAGGGACTGTGAGTGCTTGGGATTCTCGCTCAGGTGAAGGACCC
ATTGCCTTGTTTTCTGGTCCCAGAAGTTGACTTGAAGGATGTTGACTTTCTTAGAAAAAAGCTAAGGAAAGCTCAACAGAGTAGAATGCTACCCTGATCA
TGAGAGGAGGTAAACAGCATTGTCACTCAAAATTCAAAATCCTTATTCAATAATTTTTTTTGCTTTTKTTTTTTAGAGATGAGGGTCTCACTCTGTCACC
CAGGGTGGAGTGCAGTGGCACAATCAAGGGTCACTACAGCCTCTACCTCCCGGGCTCAATGGACCTTCCTGCCTCAGCCTCTCTGAGTAGCTGGGACCAC
AGGCTCCTGCCACTGCACCTGGCTTCAATGATGTTTTATTGTGGATTACTAAATTTTGCTCTAGCTTAATATTTGTCACTGCAAATAAATAATCCAGCCA
AGCCAAACAAGCAAAAATGGGGGTGGGAGGATAACATCTTCTAAGGTCAGCAACTCAATGGAAGATAAATAGTGACCAGTTTATTACAACTGTGTGTTTG
TGTGCTGTGTGCATCCACGTGCCCATGTATAATTGTTTTTATTTTTTTGGTTGGGGAGATGGGGGTAAAGASAAAAAGAATGGCAGATTTGTGGGAGGGA
AGAAAATTATTTTCTCTTTGAAGAAAGAATGAAMACGGGTAGAGGGGGAAGGAATTAAGAGGTTTGAGGCAGGTGGAAACTAGCCATCTCAACTGGTATA
ATCCCTTTCTGTTTGTATTGCATTTCATCTGCTGACCCATTAGTCTCCCTCAATTAGCTGCAAGTACCTCCAGGGCAATTGACGATGCTCATTTAAAACT
GTTTAAACAACAGAAGCAAACAAAGGGGAAAGTGGCTGTCTGGCCTCCCCTCTTTCCCAGGGTGCCCGCACTAGCAGATCAGATCTTGCATCTCAGACAG
ACAGACATGGACTCATACATTTACTTTGCCCTGCAACCCGCCCTTCTCACTAACAAGAGTGAGTGTCTTTCTATGTCAGTACAGAATAAATAGACTTAAT
AGATGGGTAGCAAATGCATGCAGGGCCTCTAGTGCACACCAGGGCTGGGCTGGGCACAGAGGTGCAAAGATGCCAAGCAGTGGCCTTCCTTGAGGTCACA
ATTCCTTGCCATCCTCTAAGCTTCTCCAAGCAGCAGGATCCCTGGGCAGAAGCGTTCCTTTGGTCCCCCCGGTCCTGCTGAACTGTTCCCAGAGTCTAGA
GTGTCAGCTACAGGCTCTAGCTTCCTGGGGTAGGAAAGCATAATACTCTGGCATCCAGATGAGGGGTCTGTCCACTTAGGCAAGCCGAGTGCAGCCAGCA
GGGGTGGCTGGGGCTCCCTCTACCCTGAAAACCAGCCCATGGCCTGCTTCCAGGAAACTGATTATGAGAAACCATTTGGATTTCAACGCTTTCTGAGTAC
TCAATGGCCCTTCATTCTGCAACGATGCTTATCAAACTCACAGCTCTTGAAAGGTTCAGGTTGTTTTCCGAAGCAACCAGAAGTAGAGCAAATGGAGCAA
ATTTTCTGTTCATGCCTCGAATGCATGAACTTTGACAGAATGCTCTTCCCTCGGCCCCAGCTTTCAGTTTTCTAGAACTGCTGGCTTGTGGAGGCTAGGA
AGACATTTTGACTTCTATCCTGACCCCTAGGGACACACAAAAAAGAGTGTGTATATGTGTGCATATGTGTGAGTTTGTATGTGTATCTATGCATACACTT
ATGCATGTAAAAGTGTGTATGTGTGTGCACACATAGGTATGTGTGGATGTGTGTGAGTGGATGTGGGCATGTATGTGTAGGTATAGGGGTATATGTGTGG
GACACGGAGCCCATTTATATCAAACCAGATTCTTTCTGCTTCTTTCTGAAGATCTTGGGGGAAGGAGACAATTGTATAGGAGTCCTTAGCTCACCACCCT
CTCTCTCTGAGACAGGGTCTCGATCTGTCACCCAGGCTGGAGTGCAATGGTGCAATCATGGCTCATGGCAGCCTTGACCTCCTGGGCTCAGGTAATCTTC
CCACCTCAGCCTCYCAAAGTGCTAGGATTATAGGTATGGGGCGCTGCACCCAGCAAGCTCATTCTTTAAGGTATAAACAGTGCTAAGGGGGAAAGCCCAG
ATGGCAGCAGAGCCTGAGGGGAAGGGAGGTGACAAGAGGAGGGCCTTTATCAAAGCCCCCACAGCTTCTGGGGTTAGAGAGCCAGCTCCCACCTTCTTGC
AACCTTGAGACCTTCCAACCAGTATAATCACTTCTCATCTGTAAGGTGGTCAGTCCAGCCAAGCTATTCCCAGACAAGGTGGCTATCAGACCATTGTTCT
CACATTTCAGTGGTAACTCTTGTCCCAGCCAGTAATCCCAAGTCACCTTCTCAGAAAGATTGCCTGTCTTGCCACAGCTTAGAGGTTTGCAAATTCTGTT
CTGTCTGCACCCTGTTTTAGGGCCCATCACAGCGGGGTGGGCRGTAAGCAGGCTGGTTTCCCAGGCTCAGCTACATTCATCCTGCATTTCTGTTTCCATT
GTGTACATTTCTGGGTAAGACTTTGTTTGAGTGAGAGATTCTCCCAGTAGTAAAAAGGACTTCCTCCCCCAGCCACTGAGGGCATGGTGGAGGTGTCTAC
CAGCCCCAGTCAACAGGCTAAAGTGGCAGCTGGGCTCTGGGGGTGGGTGGGGGGCTTTTCTTTCCCTTGGTTTCCATGCTATACCCCTGTTTCTCAGAAT
GGACTGCTGCTGCTTCTGCCAGGGAGGGGACAGCAGGGATGGCCAGGCTGGGGATGGAACAGGTGGATGGTTTTCTTCTTGAACCTGTGCAGACCTGGGA
GGGACTTTTTTTTTTTTTTTCTTGGAGATGGAGCCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCTCCCG
GGTGTAAGCCATTCTCATGCCTTAGCCTCTCAAGCAGCTGGGATTATAGGTGTGTGCCTCCATGCCTGGCTAATTTCTTTGTATTTTTAGTAGAGATGGG
GTTTCACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCTCCTTGGCCTCCCAAAGATTACAGGCATGAGCCACTGTGCCCAGC
TTGGACTCATTATTGAGGAGGTTTTGTTTGCTTTGGGTCTCTAGGCTGTCTCAGGGCCCCTCCCATGACCCTGTCCTGATGGTCTCCTCTGACCGTGGGC
GTAAGGGGGTTGAATTCTGGGCCCTTCTAGAAGGCTTTTTCTCAACGGACCGTATTATGGTCAATGGTCATTCACCCCTAAACAACCGGGAGCACCAGGC
AGGCTAGCTAAGGGGTCAGGAATGTAGGCTTGGATCCGAACAAGTCTGAAATCAGATTCCCACTGTGCTACCTAGTGGCTATTTGATTTTGATTAAACAA
TAACAACAATAGACCAGGCATGATAGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGGTCACTTGAGGTCAGGAGTTTGAGACCAGC
CTGTCTAACATGGCGAAACCCCGTCTCTACTAAAAATACAATATTTAGGTAGGTGTGGTGGTGCACGCCTATAATCCCAGCTATCTGAGAGGCTGAGGTG
GGAGGATTGCTTGAACCCAGGAGGTCAGAGCGGCAGTAAGCTCCCACTTTGGCCTCCCAAAGCACTAGGATTATAGGCGTGAGCCACTGTACCCGGTGAA
AAAAATTCTGATGGTTTAGAATATTACATGAAATAATAAAATAACTGGAAGCAAACTCAATTTAGTATCTGGTCTCAAAGAGGAAGAACTCTCATTAACA
TAATGATTAAAGAAGAAAACAAAGACTTTGACTATGTAAACATTCACTATTTTGCATGTGAAAAAGTACCCTAAAGAAAACCACAAACTGGGAAAGATGT
TTGCAACACATACGGCAAATAATCATTATCCTTTATGTATGTATAATTATTAATAGTATCTTTTATATATAATGTACTAGTAGTGTATAATATAAATATA
TATTATATATGTATATATATATAAAATTCATAAAGGAGAGAGGTGTCAAAAAAGACAATAGAAACCTTCCCTAACCCCTCTTTTTCCTTTTTCACTCAAA
GTTATTTTTCCTTCTCTTCACCTCTTTTCTTAAAAAATATATAGTAATAGTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTATATA
TATATATATATATATATATGTATATATATATATATATATATATATATATATATATATATATATGTATATATTTGTGATGGAGTATCACTCTGCCACCCAG
CCTGCAGTGCAGTGGCATGGCCACAGCTCATTGCAATCTCTGCCTCTTGGGTTCAAGTGATCCTCCCGCATGAGCCTCCCAAGTAGCTGGGACTACAGGT
GTGTGCCACCACGGCTGGCTAATTTTTATATTTTTTGTAGAGATGGGGTGTCACCATATTGCCCAGACTGGTCTCAAATCTCCTAGGTGCAAGTGATCCA
CTGGCCTCAACTTCCCAAAGTGCTGGAATTACAGGTGTAAGTCACTGCCCTCAGCCAAGCCAATATATTTTAAGCACTGACTATATGCCAAACACATTTC
CAAGCGTTTCACATGCACCAACTCATTAAATTCTCACCAGCCATGAAGTAACGTCATTATTATCATCCCTATTTTACAGATGAGATCACTGAGGCAGAGA
TTATACAACCAATGTGCAAAACTGGGGTGGGTTTGAATCTCAGCCATCAGAGCTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTC
TGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCCACCTCCCGGGTTCATGCCATTCTCCTGTCTCAGCCTCCCGAGTAGCTGG
GACTACAGGCGCCTGCCACCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTATTAGCCAGGATGGTCTCAATCTCCTGACCTC
GTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCTGACCCATCAGAGCGCTTAATCCCTGTTTGGCATAGACTGA
ACTTGTGAAATAAAGTCTGGCTATGTGCTTTAGAATCAAAATGTACAACAGGATTTGTAATGACATGGAGTCTCCCCATTCTCCAGGGCCTGGTCCCCAA
CCCCACTGGGTGAGTGGTCCACCCACGTCCACTTCTTCATTTTCCATTCACCATTCGACCCACTGCACTTCGGTTTCTGTTCCACTCCTTCCACTGAAAA
CAACTCTGGCATAGAACACTGGTGACCTCTTGGCTGCCAAAACCAGAGAATACTTTTGCCTTCTACCTTGCCTGACCTCTCGACTGTACTTGCTTATTTG
GTCACACCTTCTGTAAAATTCTCTTCCTTGATTTATCTGATGCCAACTCTTTCTGGCTTCTGTTCCTACTTATCTGCCTCTCTTTCTCCTTTTACTTTCT
GCTCAGCCCTTAAACATTTGCATGTTTAGGKTTCTGTCTCAGGTCTTGGGTGATGGCATTTATTTCCATGTCTACAATTACCCCCCAAGGTTTTCTCCTT
AACTCCAGGTCCATAGCATCTAATGAATGCTTTCTTTTCACCTTGACTTCTCAAAGGCATAACAAATTGGGTCTGTCCCAAATCGAAGTGGTCATCTTCT
CCCAAAAACATACCCTGCCCTTGGATTCTCTAATTCTGAGCCTGGCATTCCTCCATCTCCCTGCCCAAGCCAGGACCTAAATATCAATCTAACTTCCCCC
GGCCCTTCTGGCTAACATTGGCTGTCAAGTCCTGTTGCTTCTGTGCTATAATATCCGTGAAATCTATTTCCTCTGCTCATCTCCACAGCCATTGCCTCAG
CTGAGGTCCACATCATTTCTTTCTAGAATTACTACAAATGTGCTGTCTCCAGTGTACTGATTGTACTTCCACTAAAATGATTTTTTGAAAAGTTTCTCTA
CACAGCTTAAATAAACTCCTTTTTGTGACTCCTCTGTAATTGCTACATTCTTTGTCTGGACTGGCTCTTCTTGACTATTTGCCTGCACTTGTCCTTCTAA
ATCCATTATTTAGAAAGCCTTCTCCAGTAGCTTCTGTCTGGGCATCCATCCATCCATGCACCTACCCACGCACCCACTCACCTATCTATCCATTCAGCCA
GCCAGCCATCCATCCACCTACCCATCTACCCACTCACCTATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCACCCACCCACCCA
CCCATCCATCTGTCATCTATCAATATTTACTGAGGATCTGTTATGTTCTAAGAAGTAAGCTTTGGAACCAGGCAGAAAAGGTCTGTTTCCACAGAGATGG
AAACTGTATTGCAAAGTTGTGCTTACTTTTGTCTTTGGTCAGGTGTGGTGGCTCACATCTATAATCCCAGCACTTTGGGAAGCCAAGATGGGAGGACTGT
TTGAGGCCAGGGGTTTGAGACCAGTCTGAGCAACATAGCGAGACCCCCATCTCTACAAAAATGTAAAAATTAGCCAGATATGGTGGCATGTGCCTATGGT
CCCAGCTACTTGGAAGGCTGAGGCAGGAGAATCCCATGACCCCAGGTGGTCGAGGTTGCTGTGATCTGCGAGCTGTCATCACACCACTGCACTCCAGCTG
GATGACAGAGCAAGACCTTGTCTTTAAAAAAGCAAACAAACTTTTGTCTTCCCCTCTGAAAGTTAGGAACTTTGAAGGTAGGAGCTCTGTTGGGTTCACC
TTTTAATATTCAGTGCTTTGGACACACAATCTCTCAGTGAATAAAGGAAGTTTTGTTTACCAACTGCCTGGCCAGCCTGACTGAGCCTACCAGCTTCACA
CACCTATTAATCAATCAATACATAAATAAAATCAGAAAAGAAGAAAGGAAGGAAGTCTAGTTTGGTTGGAGTTTTTCTTAGTGACACTCTGCTGACCTCT
TCATAAACCCTGTTTTTTTTTGTTGTTGTTGTTCTAAATGCTCATAAATCAGACCTAGAGCTGACTGACCCTGCTCTGTGGCTTTGATTTTCTACATCTT
AAATTAGGTGTAGCAGAAAACTCACTCATGTCTTTGTTTACCCACTACTGGTAAAGAGAACATTTGCTTAACAATGTGGTGGGTATTTCCAAGCTCAGAG
CAAGAAAACAAGAGAGCAGAATTCCTTAGTTCTTATACTTTTACAAGCTCTAGTAACTTACACCAGTTTGAAAAGGGGGAAGAGGGCGAAAGGATAAGGG
AAGGATGCGCTGCAAATCCTGGATCCTACTTCAGGGTGCAGATAAAAGTGTGTGGGACATGTCTGACCAAAATGCTCACCATTGTGCTCTGAGGTTTTGC
CATCTGCCAGTGAACAAAAGAATGAGTTGCCCAGCTGCTTAAGTGGCTATCTCTTAAAAAAGTCTTTTCAAGTCACAGTTTGAGCAGATTGAGGGTTCGA
GATAGTTTTTCCTTTTTCATTCACACAGCTCAAGCTGATACACATTACTTCCCTCCCATGCTGGAACAAAGCCCCTAAGTAACATGCCTCCTGAGAGCAT
CTGGGGGCCCAGAAAGACCATTTTGATGGTTTCCCTTGTCCAGTGTTGTCCTTTTCATGGGGCACCATGAGGCAGTGAAGCCCCASATTTCATCTGTCAT
ACTTCCATTCCGGTTCATCATCTCGCTGTCTCAGCTTAAATAGCACCTCCTCAGGAAAGCCTTCCTTGAACCTCATCTTCCCCATTGAAAATGAGCCCCA
GGTCAGTCGTGTCATAATATGCACTCATATGGTCTTACATTTCTTCTTCATAGCASTTATGGCAATTATAATGAATCATTTGTATTATTTCTGGTTTATT
ACTCAATCCTCTCTSCTGGACTCTAGACTCTCTCAGGACAGGGACGGTGTCCTCCACACTGAGGTGYCCCATGTCTAGCACATAGAAGGTGCTCAGAAAA
TGTCAATTGAATGGATAAATGACAGGCGGATATCCAAGCCCTAATTGCCCACCATCTTTTTATGTAACCCAATGCAAAGCTATAGCTAGAACTTTGTGTC
ATTCTAGCTTCACTTTTACTTGGGAAGACACAATTAGCTTTTCCTCTAATTCTGCATTGCTCTAAAGCCAAGGCTCTCAGGAGTTCAAGGCTCCAGTGAG
CTATGATTGTGTCACTGCACTCCAGCCTGGGTGACAGAGCAAGAACCTGACTCTAAAAATTTTTTAAATTTAAACATTAAAAAAAGGTCAAGCCAAGACT
CCCAAGGGTGCTGCCTCTTAGAATAACCACTACAACTTGGTAAAAATATAGATCCTTGGGCTCATCTTCTAGAGATTCTGATTCARTGGCTTTGAGTCTG
ATAATCAACCAGGTTTGGAAACCACTTCTCTGGAGGATATGTTTGTGAAGGATAAAAGCTAGGAAGTTTAATTGGGGATATTAAGGTTGGATTTAAATAA
AGGCATGAACAAATGTATAGTCCACAAGGAGATTTTGTTTCTTTCTCCCCACCCAYAAACAGGTAAAGAAAAACGTCATTATGGGCCAGGCGCTGTGGCT
CACGCCTGTAATCCCAGCACTTCGGGAGGCTGAGGCGGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCTGTCTCTAC
TAAAAATACAAAAAATTAGCCAGGCGTGGTGGCGGGTGACTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAGTGGCATGAACCTGGGATGTGGAG
CTTGCAGTAAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGTGACACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAG
AAAAGAAAAACATCATTATGAAAGAATGAAATTAAAATGATAACAGATACCATTTTTCTCTTGACAGATTAGCAAAGATTAAACATTAATACATTATGTT
GGTTAGAGTGTGGGGAAATAGCTACTCTCATATTGCTGGKGKGGTTCTCAATTGCTATATCCTCATTGGGGGACAATCTGGCAAACACATGTCCTGTTTG
ACAAACTTCTAGGAAGTAACTGGGCAAATACACGTCACATTGCACCATTGCTTTTAGTTGTGCCTGAAATGACCTAATGTCTATCAATGGGGGGTTGCAT
CAATAACTTATTCACGCAATGGAAGACTATGAATCTTTTAAAAGAATGATGCAGATCTATATGTTTTGATATGGAACCATTTCCCAGCTATAGCATTAAG
TGAGAAATATTTTGTATTTGCATAAAAGGAGAAATGCTTATACCTATATGCACTTGCTTGAATGACTAGAATATCCCTGCCAAGACACAGTAGCAACAGT
GGTGGTCCCTCTGGAGAGGAAGGAGAAGTCTGGATGTCGGGAGTGGAAGAGAGATACACTCTGCTTGGTACACTCCTTGGTATGGTTGGTGTGGACACTC
TCTTTAAATAAGTTCTTAAAAAAAAAATAGAGGCAGGGTCTCACTATGTTGCCCAAGCTGGGTCTTGAACTCCTGGGCTCAAGCACTCCTCCCCACTCAG
CCTCCTGCAAAGCTGGGACTACAGGTGTGCCCCAGCATGCCTGGCTAATTTTATATTTTTTGTAGAGATGGGGTCTTGCTATGTTGCCCAGGCTGGTCTT
GAACTCCTGAGCTCAAGTGATCGTCCCACTTCAGCCTCCTGAGTGGCTGGGACTACAAGTCTATGCACTGCACCTAACTCCTTTAAATCAGTTTTTGTTT
GTTTGTTTGTTTTTGAGACAGAGTCTTACTCTGTCACCGAGACTGGAGTGCAATGGTACAATCATGGCTCACTGAAGCCTCGACCTCCCTGAGGTCAGGT
GATCCTCCTACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCCTGTGCCACCATGCCTGGTGATTTTTTTTGTATTTCGTTTTTGGTAGAGATGGGGTTT
TGCTATGTTGCCCAGGCTGGTCTCAAACTTCTGGGCTCAAGTGATCCACCCACCTTGGCCTTCCAAAGTGCTGGGATTATAGGCATGAGCCACTGTGCCC
GGTCTAAATAAGTTCTTAACAGTCATTCTATGAAAGAGAGAAAGGGAGAGGCAGATAGATACTGGAATAAAAAGACCCCAGGCCTGCAAACAAGAAAACT
CCATAAGCAGTGGAGTGACCAAGGCCATCAGAGTCCACTCTTCATCTTGCCATTCAGCTCCCATTGGGCAAGGCTGACTCGGGGATTGGAGTCTGCGGCT
TACTTGTGCTTCTGTTGATAGGTTTGCATGTTCTCAGTGCCCAATGAGGTCCACAAAGGTCAAATTTGGAGGGAGAAGGGGTTCTTGGTAAATGAGGTAA
AATTGACAGGAGTGTAATGGGCTAAATAGACTTTGGATAGCTGAGTGACTTTCCACTAGGCTTTAATACAGTTATTGACATGCCTCATAGGCCTCTAAGC
AGCCCAGAAAGATAGACGGTAATCTTATCTGTTTGTATTACTGACAAATATATAGTTAGTGTCCTAATGCCTTGCTTCCAGCATAGGTTCCATAAATGCT
GGTGTCTTGAAATTCTCTCCCCAAATGGCACCCTGTCCTATTAATCCATACAAATACAACCTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCTCGG
CTGGAGTGCAGTGGCGTGATCTCGGCCCACTGCAACCTCCTCCTCCTGGGTTCAAGCTATTCTCTTGCCTCAGCCTCCCTAGTAACTGGTATTACAGGCA
CACACTACCATACCCAACTAATTTTTTGTATTTTTAGTAGAGACAGGTTTCACCAAGTTGGCTAGGCTGGTCTCAAACTCTTGACCTCACCTCGGTCTCC
TGAAGTGCTAGGATTACAGGTGTGAGCCACTGCAGCCGGCCAGAAGATACAAACACAACCTTTAATGTAACTCCTGAAATGAATGGGATAACCATGGGAA
AATCTGGGACCATGTTCCCTTTTGAAACAAACACCCTTTTCCATAAGCTGCACCCCATTGGTTATCCTTGGAAAAAAAAAGATCTGTTCTCTCCAAGCCT
ATGGAAATGAGAATATTCTCTTACCAGGTGCATTCCTATAGAGGTGACCATTGCTGTCTCAATCTCTGTTCCCACATCTTCGACGAAGGGATACTCATCC
TGCCGATGGATGATCACCTTAGCTCCAGTGGAGGACACGAGGAATGGGTTGTATTCCTCTTCGTTTATGTACAAAATGACTTGCAGCCCTGGGAGGATAA
GACAACCTGCTGTGATCCAAGGCTAGGAAAACATTTCCTGGGGGTAAACCACCTCTCCCACTGCTTCAGGAGCTTCAAACCCAAGACCAGGTATTTCTAG
CAAGTGACAGGTGGACGAGGGCTAGACTGGAAGCTCYGTGAGATTGGAATGCATGCCTGACTTGCTCTCTGCTGTGCCCCCACAGCTTAGCCCAAAACAG
GGGTTCAAACACAGTATTACTGTCACAGTTCTTGCCAAGCATACGTTTTTGCCAAGTGTAAGGAAATTGCCACTCTGCCTGAGACATGAATCTCCATGTG
GTCCTTTGAGATGGGGAGCTCGGAACATTCAAAAGAAGATGCATTGCTCCGGCTGCTTAACCCCTCAGGGTGGGCACTCAGAGAAGAGATGAATCACTAA
TGGTGTTTCTCATCACTGGCCCAACTTCTCCTCCCACTCCTGCTCTTGCCCCCTGAAGTCTATGCGGACACAGCACCAGAGTAAACACAGTATCAGTGCA
CATGGGAACTAAGAGTGAAAAGTTGCAGAGTCCTGGCTCTGCCATGGATCGGCTGTGACCTCCAGCAATTCACTTCCCCTCTCTGGGCTTATTTACAAAT
TGTTTGCAATTGTTTACAAATCATTTGCAATTGTTTACCAATTGCCCTTGTTTACAAATTGAATGTCAGTATAACTCTCAAAATTCTCTTCTTTCCATCC
GTAGAGACCCTGCTCATTCATGTATGGGCTGAGGTCCTTTGAAAATTGGACCTCAGGCCAGGTCACTCCCTGAAACCTGAAACTCTTCAGTGGCATCTCA
CTGGATATATGGGAATGCCACAGAATAAACCTGGCTGCATCTATCAAGGTGATGATGATACAGCCCTGCCTACTTCTCCCTCCTCATCTCCTCCCACTGT
CTCCCCACCTCAATAAGCTCCAAGCACACTGGTCTTATTTCTGTTTCTAGAACACATCTGATTCACATCCTTCCCAGGGCCTTTGCCCTTGCTAGTCCCT
GGAATGTTCTTGTGTAGACCTTAACATGAATCTTTTGCTCCTTAAATAGCCCTCCTCTTAGAGATCTTTCTGGGCCTTCTTATCCAAACTAACCCCCCCA
TCCTGACCCCAGCCACTCTGTCTTCCTACTCTGCCTCTTTCTTCCCTGAATAGCAGTCTTTAGGATTTGTAACTAGATCATGTCTGTGTAGTTGTGTACT
CATTTTTCATCTCTCTCTCCCCACGAAAATGTAAGTTTCCTAACAGCAGAGAAGACATCTATCTTTTCACTGCTGTGTCCCTGGTACGTAGAAGAGGGCC
TGGCAAACAGGAGAAACTCCATGCTTGGTAAGTGGATGAGTGAATCAGCAGGGTCTATATGGATGGAAAGAAGAGAATTTTGAGAGTTATTCTGACATTC
AATTTGTAAACAAGGGCAATTTGTAAACAATTGCAAAGAATTGGTAAACAATTGCAAACGATTGTAAACAATTGCAAACAATGTGTAAACAACTTGTAAA
CAATTGCAAACAATTTGTAAATAAGTTGTAAACAATTACAAACAAAGCCCAGAGAGGGGAAGTGAATTGCTTGAGGTCACACAGCCCCTCCATAGCAGAG
CCAGTACTCTGCAACTTTTCACTTTCAGTTTCCAGATTACTTCTTCCCCATGGAATATGTGCACTGAATTATGATTTCTTGCAGACTTAGTAAGAGCACA
GACTACACAGGGACAAAGGCCAGGATTCCAAGTGTGGATTTCCTTTATGACAGGCCCTCCCTTGTCCTGGTGCGAGTATATCTACATATCACATCATTTT
CAATTTGCATGGGACCTTTCAAGAATTCCTTTTGGGCATAAGCCAGGCCAATCTGTTCAGTTCCTACCTTCCCTAGAAATGTAATCATAGTGGAATAGTA
GTGCTGGAAATTGCAGTGGTATTATTTTGAGGGTAGTAGCAGCAGCAGCAATGGTGGTAGACTSGTAGCAATGCTAGTAACGGTAATAATAGCAGTAATA
ACAATAGCAACTAGCACTTATTGTGTGCTTGGTATGTGTTATGGCTGAATTGTTTTCTGCCTCAAATTCATATGTTGAAGCCCTAACCCCCAAAGGGATA
TTATTTTGAGATAGGACTTTAATTAAGGTGAAAGGAAGTCACAAGCAGGGGGCTCTAATCTGATAGGATTGATGTCCTGATCAGAAGAGGAAGAGACATC
ACAGGCCTCTCTCTGTTGACACACCACAGAGGAAAGGCCATCTGAGGACATGGAGAGAAGACAGCCAGCCTTCTGCAACCCWAAGAGAGAAGCCTCACCA
GAACCGAGTCTGCCTGTGCCTTGATCTTAGACTTTCTAGTCTCCAAAACTGTGATAAATAAATGTCTACTGTCCAAGGCACCCAGTCTCTGGTATTTTGT
TATGGCGGTCCAAGCAGACTAACAGAGTGCAGAGCAGGTCTTATTCTAAGTCTGTATCTTAAGTCCTGTCAGTAATCTCACATGGGAGATACTATTATTA
GTCCCGCTTTATAGACGAAGCGCAGTAACTTGCCCAAGGTCACACAGTGAGTGGCCAAGCTGGGTTTCGGCTCCGTCCAGAATCTGTCACCTGAACTAAG
ATAAATGTGCGTCTACTTCCCTAATCTGTTCAGCATATCTGGGCTCAACTCCCTTTGGAAACCACCTGTCCTGCATTACTCACCCTAGCTATGAGTTTAA
ACCAGAGTAGTTCCCTAGCAGAAGGAACCCCAGTGATGTCCCTGTCGCTCTCTCAAAGATGGAAGAAAAGTCAAAAAGGAAAACAAACACTAACTTGGAA
GGAAGGAACCAGCATGAACACTGATGGAAACACTGATAGAAAAAGGGGCATCCCTGGTTTCTGGCCAAGTGGGAGAGATCCCGCTTTTCCAGAGGGCTCC
CGCATCCCCACTGTSCTGCTGCCCCCATGTCCACTATTGGAGGGCCTCAAGATCTCCTTGGCACAGGTTTCCTTACCATATTCGCTGCCCCCCATGGAGG
TGCTGAGAATGGTCTCATTTTCTCTGTTGTTGAAAGTATAGCAATTCCCATGCATCGGGTGGTGGAAAAGCGTGAAATTCCTATGGAGGAAGAAAATGGG
TCAGAAAGGGATCTCCCCCATGCATCTTAGCTGAAGTTGGGCAGGGCAGTGCTAATGGAGCCAACTCTCTTTGGGGAGAATGTGTGAGAGATGTGACTCA
TTTTCCCCATCTTGCTCCTGATCAAATGACAAACAAGGCCCCTCATCCTGGTTGACACACATGGACATAGAACTAGACTCTCTGCCTTCTGTTTTCTCTC
GGAATCTTCTCACCTTCATCTCTATCCTGACTTGACATTCTTTGTGCCATGTCTGTCCCCAAATTCCTCCACTTTTGAATTTCTCAGCCAACACTTGACA
TTTTCCATTAAAATTCTCAGTCCTAGAAAATAATCCCCAGGGCATCATCTGTGCCCTTACATGACTTTGGAACCCAACTCTTAGGGAGACATGATTCCAG
TTATTTACTTTTCACAAGAACCAATCTGTCTGCTAACATATACAGATAGGTGAAAGAGGCTTAGTGTTTTATTKTATTGTATTGTATTGTATTTTTATTT
CTGAGATAGGGTCTTGCTCTTTTGCCCAGGCTGAAGTGCAGTGGCGCAATTATGGCTCACTGCAGCCTCAACCTCCCAGACTCAAGCAATCTTCCCACCT
CAGCCTCCTGAGTAGCTGGGACTACAGGTGTGTGCCATTATGCCCAGATAAGTTTTTGAATTTTTTTTGTAGAAAGGAGGTTTTGCCACATTGCCCAGGC
TGGTCTCGAACTCCTGAGCTCAAGCAATCATCTTCCTCAGCCTCCCAAAGTGCTGGCATTACAAGCGTGAGCCACTGTGCCCAGCCCAGGAACACTTTAG
AATGTCTCACCCACTGCTCAGTCACTATAAGGGATCTGAGTGTTATCATAAAGGTGAAAGGTTTGAAATCTCACATATTTGAACATGGGCCTTTCTCCTC
CCATCCCTCCCTCCATCTCTTCCTTCCTTCCTTAGAACGATGGTTCTTAGTCATCAGTATGCATGATGGTAATATACAAGGTTAGGTTATAGGCACACCA
TATGACAAAAACAGCAATTACTTTTGTGCCAATCTAATACCTTGTGGGTTGGGTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAAGAGTCTCACTCT
GCAGCCCAGGCTTGAGTGCAGTAGTGCAATCTTGGCTTATTGCAACCTCCGCCTCCCGGGTTCAARCGATTCTTCTGCCTCAGTCTCCTGAATAGCTGGG
ACTACAGGCATGCACCACCATGCCTGGCTAAGTTTTGTATTTTTAGTAGAGACGGGGTCTCGCTATGTTAGCCAGGCTGGTCTTGAACTCCTAGCCTCAA
GTGATCCACCCACCCCAGCCTCCCAAAGTGCTGGGATTTAGAGGCGTGAACCACCATGCCTGGCCAACTACCTTGTTTTTAATGAGTAGTTTAATGAGTT
TAAGGATATTTTGATTTTATGTCATGTATACCTCACTCACTGACTCTAGAACACAGCTCCCATGTAAGCAGTTTCCAAAAGGCAGCATCAGTGAGAAGAG
CACCTTTTGCTCCCAAGACCTATCATCAAGGCTGTAGGTTCCTGCAAGGGGCCTGGTACTCAGAGCTGCCAGTCCTTAGAGGCTGAGAGAGCAGCATTCT
CTCCTGACCTGGCATCACAGGACACTCCATCAAAGAAGCAGGTCACCAGCAGCTCCTCAGCAGAATAGCTCATGTTGATTTTCTTCTCCAGAGGCACCTG
TGCCATGATGTTCATGTAGTGTAGCTTATACCACTCCTGAATGGCATTGATTCCCGAGCTGAAGGTGTAGGTGGCACAGTCGGAGGTGTCATTTGAGCAC
TGTGAATAAGAGGAGATGCGAGGCTGAAGCCATCGGTCCTATCGCTACTCTTCAGAAGGACCATAAGAATGAGTGACTGAGACTCCAGGCCAGATACTCA
GGGGAACAGGTTGGATATCTGGGGCAAGGATGGGTTTCCTCTCACTTCTAGGGGTTGGGAGTGATCATCCTCAAGCCTCAAGGACCAAAAAGGGGCTGAG
TGAGAAAGGACACAGAGTCCTACTCCTGCAACTCTGCACTACTTGCCCACCAAGGAAGAAGCAAAACCAGCTCTTCAGGGTCCCTAGGCACCTAGGTTTC
ATCCGATTGATGCTACTACGTTCCTAACAACCTTTCCCATTTCCTATCATATCAAAAGTCAAGACATCTGGATTCCAGCCCAGACTCTGCAGGAGGGGGA
GAGACTACTTCTCTGCAGGATCTCAGGCAAGGTATTCTGTGCCCATTATCTCACCCACAAAATGTTGACTGAAACACCATCCTTCCCAACCACGTGTGGT
AGCTGGGAGGACCCATGTTTGAAATATACAATGAGAACTTTATAGAGAAGCCATTATACATTCCAAATGTTCTTATCACACAAAGCTTGGAAACTTTTCT
AAATGGACAGATGTCAACTGATTTTGGCTGGTTGCAGTGGCTCATGCCTGTAATCCTAATRCTTTGGAAGGTTGTAGTGGGAAGACTGATTGAGGCCAGG
AATTCGAGACCAGCCCGGGCAACACRGCTAAACCCCATCTCCATAAAAAATAGAAAAATTATCCAGGTGTGGTGATGCATTCTTGTAGTCCAAGCTACTT
GGGAGGCTGAGGTGGGAAAATTGTTTGAGCCCAGGAGTTMTAGGCTGCAGTGAGCTATGATTGCACCACTCCCACCTGAGTGACAGAGTGAAATCTTGTT
TYTAAAACAAACAAACAAACATCTATATAAAGAGTTGATTTTGGTATCAAGAAGAGCCTTGCAGATATCCCATGAAAGGACCCAAGAAGACTTTGAAATC
TCAATGATTTAGAAGAAGGTCCATTTTTCAGGATTTGGGACTATAGCTACAAGGTCACACAATTGGCAATCAAGCCTATAAGGTATGGACATAGCCCCTG
TCCTCCAGAGGTGGCTGGGGCATGGAGAGGGAGAGTGGTGATAGAGTTTGCCCAGGAAGGTACTAGAATTCATTTTCAGTGAATGGCATTTCTCAAGAGC
CCCTCAGGCCAGGTGCGGTGGCTCACGCCTGTAATCTCAGCAGTTTGGGAGGCCAAGGTAGGGGGACCACCTGAGGTSGAGGGTTCGAGACCAGCCTGAC
CAACATGGTGAAACCCAGTCTTTACTAAAGATACAAAAACTTAGCCAAGCATGGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAG
AATCACTTGAACCCGGGAGGTAGAAGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCGTGGGTGACAGAATGAGACTCTGTCTCAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAATCCCCTCAAATGGGACCAAAAGGGAAAATGAAGTCAAGCCAAGCACCTCATGAAGGCAAGTACTGCACGAATATTGATGTT
TCTGCTGTTTATTGTCCGTCTTTTTCTTTTGGGTGCCTGCACCTCAATTTTGCTTTGGAAGAATTTCCTTTCCCCCTCTGGATACAGCCTGGTGAGATTG
TCCATGAAGATACTCCACCATCCATTAGCCAAAGGGTGATTAGGTGACCCAAGCTTGACCAACCAGATAGTCCCAAGATGGAATTTGACTCTTAAGCATT
AACAACACCAACAAAAACTGAACATATTTGATGCTTCTTTACTCCAGCAGCAATATCTGAAATGACTTTTCATCATTTCTTGCTACCCAGATCCCTGCAT
CTGCCCTAATTTCTGCCCTTTGAGAGGCCTCCATGAGTTACTGGTTGCCTTCTAATACATTTACCCCCACTCTGCCCCCCACTACTTAAAATTACCTGAA
TCAGTTTCAGTTGTTTGCAGCTGAATCATCCCAGCTGGGTGTCTTTCCTTTCTTTCCTTTCTTTTCTTTCTTTCTCTCTTTCTTTCTTTTTTTAAAAAAT
AATTTTACTTTAAGTGCTGGGATACATGTGCAGAACATGCAGGTTTGTTACAAAGGTATACATGTACCATGGTGGTTTGCCGCACCTATCAACCAGTCAC
CTAGGTTTTAAGCCCCGCATGCATTAGGTATTTGTCCTAATGCTCTCCCTCCGTTTGCCCCCCAACTCTCCCCTTTTTTTTTTTAACAGAGTCTCATTCT
GTCACTCAGGCTGGAGTGCAGTGGCACCATCTGGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCTTGCCTCAGCTTCCCAAGTAGCTGAG
ATTACAGGCATGTGCCACCATGCCCAGCTAATTTTTGTATTTTAGTGGAGATGGGTTTTACCACGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGT
GATTCGCCCGCCTTGGCCTCCCAAAGCGCTGGGATTACAAGCATGAGTCACTGTGTCTGACCCCAGCTGGGTGTRTTTCTTCCAGTTGGACCACAGGGGC
TAGTGGTCAAGGAGAAGAGTCCTGGACCCAGCCCATCCCATGCCCCTAAGCAGTGAAAGAATGAGAAGGTGAAATCTTACCAGTTGGAATCCCACCACTT
GCTTGGACTYGATGTGCATGACATTTGAAGCCTTGTGAATGATGCTACCRCYGACTTTCCGCTTCCTCCCTGTGAAGAAGTCCCTGGCCTTGCCCTTCTC
ATCCTGATCAAAGATCAGCAGCGGRATCCGGTGGGAGAATCTAGGCTGCTTTCCCTCTGAGACGGAGTTCCAGGACTCCGCCTCTCGGCGCTTCCGGGAC
TCTGGAAAGCCRTACAGGGACTTCAGGGCCTCTCTGGTCTCCTGTTCCAAGTCAGCTAGAAGGTGGCGAACGGTGCTGTACCTGCCAAGGTGGGGAGGAA
AAGTCAGGGAGAGGGGAGGCGGCCCTGGCAGAACTCTGGTGCTCCTCCAGGCTGTTTTCCATCAACACGTGTCAGCCTCRTGCCCACCTTTCCCAACTCC
TTGGCAGAGGAGACCACGCCTTTCATGACTTGACCCATCCAAAGTGACCCCTGGCTCTGGCAAATGGGGAAAGGCTCATGGGTGACCCATGTGTGACTTC
CTGTGGCTTCACCTCTGCCACCACTGTCTGCTTGCCCTCAGGGTGTGTTGACAAGTTTGTCCCAACCAGCATTTCTGTAGTGGTGACTGTCAGGTGCCTC
CCATAAACCAGCCACAGTGAGGACAAGTAAATAACTGCCAACCAGGAGTCTACCTAATGGGCAGGCTCCTTCTCCACCCAGCTCACTCTGCCTCTGCCCA
CTGATTGTCCTCAAATCTGTGCTGGGGGGAAGGAGGGTATAACTGTTACCTCGATGACCCCCAAGAACACAAAATAGTTATAAAGGAGTTGCCTGCGTGA
AGCACAATATACCATCTTTTAATTTTCACAAATCAAATGGTTCCAGCCTCCTCTTAACTCTCTCCWCTCTCCTTTCTCCCACTTGCTCTAGGCATAGGCA
GCAGAGCATAGCAATTGAGAATAGAAACCCCTGGGTTTAGCCAAATTACCTGAGTTTAGGTTCCCCATCCTGGTACTGGCTACCTGACCTTGGACAAATG
TCTTAGCCTCTCTGTGTTTTAGCATTCTCCTTTGTAAAACGGGATTTGCTGGGAAGGTTCAATGAGTTTATTAAATATAATAAACACACACAGACATACA
TATAGATAATTAAATGCCCTCTATTATTGTTATTATTTTAGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCATGGTTCCCTG
CAGCCTAGAACTCCTGGGCTCAAGCAATCCTCCCACTTCAGCCTCCTAAGTTGCTGGGACTATGAATGTGTGCCATCACACCTGGCTAATTTAAAATAAA
ATATTTTTAGAGAGGGGGCCTTGCTCTGTTGCCCAGGCTGGTCTCGAATTCCTGGCCTCAAGCAATCCTCATGCCTTGGCTTCTGAAAGTGCTGAGATTT
CAGGCATGAGCCACTGTGCCTCTATTGTTAGTTATATTAGTGTTATTATATTTATTAAGACTTTATTCCTCCACTACAGTATAAGCTCCACTAGGGCAAA
TACTGTGTTTGGGTTGTTCAGTTCTCTATCCCAGAACCTAGTACAGTGCATGACAGTTTATAGATGCTGAGTAAATTATTATGGAACAAATAATGGATGG
AAAGAAGGAAGGAGGACCAGAGAGAGAGAGAGAAGGAGGGAGGGAGAAAGAAAGAAGAGGAAGACATGGAGGGCGGAGAGAGAGTCTTAGACTTGATCTT
GATTTTGAGCTTTGCACCAACTCACTGAYGATTCTGGACAAGTTAGTTTCGTTTGATAATCTTTCTCCCCTGTTCTTCTTCCCTTCTCCCCACCCCTGCT
CTGACAAAGTCTGCCTGATTCTGACCTGCCTCACGGACCAGTTTTCCATAATCCTGAGAAGGACTCTGATGACCCATTTAGAACAGGTCCTGCCGAGGAT
GATAGGGCAGTCCCAAGGGCTGATCACACCCAGGGCCCGATGAGCTCAATTAATGGGGCTGGGTTTATTCAGATGAGGGTTTGGGGCAGCTGAGGTGCTT
ACAGAAGTCACCTGGGTGTCACTTCTGAGTCAGCCTTGAGCTCACTTATGCTGCAGGCAGAGTGAACATGTGAGCTYGGAGAGCCAGGGGTGCAGATGCA
GATGGGGGTTGGCTAATTTGGGCTTGATATGGGGAGTGTGCAGAGGGGGTTAGTTCGTTCCAGGCCTCTTCTAAGTGAAACAAATCCTGCAGCTTCCTCT
TTCTGCTCTCTCTGGGCTAGCCCATCCTCAGAAGTCATTGATGGAGTGGGTGTGGTGGTTCACTCCTGTAATCTCAGCACTTTGAGAGACCAAAGTGGCA
GCACCACTTGAGCTCAGGAGTTTGAGACCAGCCTGAGTAACATAGCGAGACCCCATCTCTTAAAAAATAAAAAATTTTAGCTGGATGTGGTGGCATGTGC
CTATAGTCCCAGCTACTCAGGAGGCTGCAGTAGGAGAATTGCTTGAGCCCAGGAGGTCGGGGCTGCAGGGAGCTATAATTGCACCACTGCACTCCAGCTT
GGGTGACAAAGTGAGACCCTGCCTCCAAAAAAAAAAAAAAAAAAAAGAAAAGGCCAGGTACTGTGGCTCACACCTGTAATCCAAGCACTTTGGGAGGCCA
AGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAGCATGGTGAAATCCTGTCTCTACTAAAAACACAAAAAAATTAGCCTGGCGCT
GTGGTACACCCCTGTAGTCCCAGCTACTCGGGAGGATTGTTAGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCAYTGCATCCCAGCCTGG
GCAACAAGAGCGAAACTCCATCTCAAAAAAGGAAAAAGAAAAGAAAAAAAACAAGTCACTGATGGTCTGAAAACTTGGTACATACAGATTTAGAACTGGG
GAGGGGGCTGTTTACCAGCGTTAGCAACAAATTCAAATTTCTAGAAAGCACATTTGTAGGCTGGAATCGACCTCCAGGCTGCCAGTGTGTCACTTTCGGG
AGGGGCTTTGGCCTCTGTGGGGGGCCTGGCTCCCTACTCGCGTTTCCCTGCTCATGCCTCTTACTTGTAGGGGTTGATGTTGCAGATGGTGACTGCAGGA
AAATCCAGCTTCCGGAAGTGGACTTTGATGGAAACTGAGACAGTATAGAAGGAGAAGACGAGGAGGGCGCACTGCCAGAGGATGAGGGCCACGGCAGTCA
GTGTGAACCCGATCCAGAGGAGGCGGCGCAGACGGCMGCGGGACACCACGATGCGGCGACAGCCATGGGTGTTGGTGTTGAGGCAGTACCACCGCATCAG
CTCTTTAATGGTCGGCGCCTGAGGGCCCGTCACGGGCAGATTCTTCTTGATTTTGGCTTTGATCTTCTCTCCGGGTGCCATGGCGAGGATGGGACTTTGA
GGACGGGACTCYGAGGACGGGCGTGCTGSAGGGGCAAAGAAGAGAAGCAGGTGAGCTGGCAGGCACTAGCCGGCTAGTGTGTCCCTGGAGACCACAGTYT
GGGAAACACCAGTCCATGCGCCCTTAGAGACCTCCTTCCTCTGTTCCTCTGTGGCTTAGGCACTTTGCATTCTGAATCCTTGGCCCCTTTTCCACGGGAC
GTTTGTTTTTGGCCACCACAGCTGCCAGAGAAGCTGCCTACTTCTCTTACGGCCCCCAGGCCTAGCCGTGCRGGGGCTGGGTGAGGTGCAACCTGCGAAG
CGCTGGCTGGACAGGCTGCAGGACCTTTCCCCGGGTTCCTGGGCAGGAACTCTGGAAGCAGCCCCATCAGCTCTCTTATCAGGCAGGGGTACCCGTGCCT
TATCACCTCCAGTAGCCCGCCTTCCTCAAGGGCAGCATTCCTATCTCATTATGCCCCCYGGTTCCTAGCACAGTGTCTGGCACAGAGCAGTGCTCGGCAG
ATTGTAACTGACAGATGAAATCTGCCAAGAAAATTTCCCGGCAGCCACCTTAGATCATGTTCCTGGCTGCATTTTCCCCAGCCTTTTCTCTGAGGCTTTA
TTATAAGTGAAACGATTTCTCTTTTGTTTCTTCTCTTTACAGTCAAGCTCTTAATGTTTCTAGATCACCTGATGTAACAATAACCTGCAACTATTGGCCA
CTTAGTGTTTGCCAGGCATTGTGCCATATTTCCTTGATTCTAAGATACCATTAATTTAGAGAATGCCCTTGATTTAATAACAGCTTTGGGGGAGAGTACC
AGTATTGGAAGGCAAATTATCACATTCATCAATGTRCACGATGCATCTCAACTATACAAACTTTACAATGAGAAATAATTTTAGAAATGAACTAATATAC
TACATAAAAACTCATTTCATGTTTATAATATATAGTCTCATTAGTCTCATAAGTAAATTTGTCTCTCTCTATAAATATACACRTAGCCTACATATATTTC
CTTTTGTGTTTCAATAATTCCATGAAGTAGGCATGCTATTATTATATCCATGTTACAGAGGAGAAAAATGGGCTCAGAGAGGTTGAATATCTTGTGTAAG
ATGATGCAGCTGGTTAGTGGAGGAGCTGGATGGAACCCTGCAGCCTTCACCGCTATGGCATACGCCTTTGAGGGGCCTGGTAGTACGCTGGGTGCAGGGA
GTTAATTAACAATACCAAGAACTAAAGGTAGGAGGAAAGAGAAGGAACACAGCTATTTAATTTCCAAACTCTGAACAGTGCACATGACCACTTCCCAAGA
CTTGTGAGCACTAGTATTGGGGGTGGGGGATATATGAAAACTGTGTCGTCCTATGCCTTCTACAGTGACAAAGGCAAATTAGGACATATCCTAGGGCATA
CAGGGTGGTCCCCAGGACCAGAGAGGACCCRTGTCTGTGACTTCGAYGTGCCCCATCAAGATTTTTAGGCAGTATTCGGAACCTGCAGAGTTATGTCTTT
TTTTCCCACCCTGAACCCATGAAATATGGGCTAAAATTGGAAGCTGGGGCAAAGCTAGGAGGCTTCCAAGCTTATGATGCKAGTGGGTTTAAGGCCTCAG
ATGGAAAGGAAATGGAGTGCTGGGCATGGAGGTGAGATGTCCAGAGCAGMCAAACTGCTCTAAACCCTCCATAGATTGATATGATTTTGCTGGGATGAAG
AACACCATCAAAATGATGCTAGTAGCCTCTGGGCAAGAGGAATATAATTTATTTTTTTATCACTTAAAATATTGCCTATCCTTACCTCCTCCCTCACTAC
AATCCAAAAAAATAAAAAATGAAATAAAGAAGAAGGAAAGAAAGAAAAAAATTAGCRAGAGTTTGTTTTTAAAATCTAGGTCCAGGTTCAATTGCTTGTC
AAATAAAACTGCAGCCCTCCTCTGTGARTGTTCAACAGAAGCTGTGATTCTGGAAGCTCCTATCCCCAGCTCTCAGGGGTACCTCTGCCCCATCAGCCCC
TTCCCCAGAACCGACCTTGACCCCAATGGATCAGTCGACAATGTCAGAGGAGCCCCCAAGTGAAGGAAGGGAACTGATCTTGCTCTTTGCAAAACAGATA
AAATATTCATATAAATAATATTTCAACTTCAAAGCAAAACAAGACTGTAGCTACCATTAGATTATGCAGCCTGAGCCAATGTGATACCCTTGGTGGAAGA
ATTACTAGCTGATACCCAGCACTTACTCTTCTAAGTACTTTGCAGCTGTCACCTCATTTAATTTTCACGATAATCGTCTGAGGTAGGTATCACAACCACC
TCCATTGTACAAATGAAACAGACGCTGACAGGTTAAGTAGCTTGCCCAAGGTCACACTAGAAAGTGGCTGAGCTGGGATTTGCACCTAGGAGTCCCTTTA
ACGACTAACTAGGCTGCTCTTCAATCATTAATAATAATAACAGCAGCAGGGAAAGCAGCAATAATGGCAGCTATCACTTATTGATCCCTTTCTGTACTCC
CAGGCATCCCACTCAGTCCTTTTCACACACTACCTGATTTAATCCTCACTAGTTATATGAGGTGCTATTACTTGGCCCATTTCACAGAGAAGGAAACTGA
GGCACAGAGGTTAGGTAATTTGCCCAAGACCACACAGGTAGAAAGGATTTGAAGGATTCTTTAGAATTCCAGGGCCCTGGCTCATCGCAGCGGCTCCGTG
CACCCCCTCCTCACCTACCACCGACTTTGCCTGTCCCCCATCCCACAGTGCAGGACCCCAAAGCTTGGAGAGGGATGAGAGATTTGCCCCAAGTCTAGCG
TTGGGTTCGCTGGACCGGAGAGTTCCCGATCAGTGCCCGTCCCGAAGGGCGAGTCCTGTGCAGAAATCACTTGAACTCAACCTCAGGGCCCTGACCCGAG
CTCCTGCCGAGCGACCCCGCAGCCCTGCCCTCCCTGCGCGGAGCGAGCGGGCGCTGTCCTGTGGCGGAAGCCACGTCTGCCCCGGGGGAGCGCCGGCTGA
AGGCGCTGGAGCGAATCCAACCAGCCCACTTCAAGTGTTTGCTTCTTTCTGCACCAAGTCACCCCGGAGAAAGCATTCCAGAGGGTAGAAGGAACAGTAG
CGGACAGGTCCACGCGACTCACCCCGGCAGGGAAGGGGGCTGAACAGGCGCTGGGCGGAGAAAAGAGGCCAGGTGTGGCCCGGGACCCCCAGACCCCCGG
ACTCTGAGTGGCTCTCGACTGGCTTCGTGCTCCGGGCCACGGCGTGGGTAGACCCGGGAGAGCTGGCCGCTACCGCCCGGGCAAGGTGTCCCAGCATCCC
GGGCACCGGGAAGCCGCCACYSGCTGATGCTGGCTCGGCCACCCACCGCGCTGACGGCGTCCGACGCCCTGGCGCYCGGCATCCGCTCCAGTGCCCAGAA
CCCCCGAGCTGGTCCGACCCAACCCGGCTGAACTCACCTTTCGGTTCCAAAGGGTCCAAGGCTCGTGCGGGTGCGCTGCTCCTCTGCTCGCTCTCGGGCT
AGCATCCCCTGGCAGCGCCACCGCGGGCTCTTGTGGGCCGGCCAGGCCCCGCCCCCTAGGGACCCGCCTCCCCAGGCCCCGCCCCCACCTGCCCAGGTGC
TTTCCCCAGGCCGCCAGGCACCTGAGACCGCCCGGAGMGGGCCACGACTTCACAACGCCCCCTGGCGCCCCGAAGCCGCCCTGCGCCCCAGCCCGGCCGC
GCTGCGYCTTCCTGGGCCACCGCGCAGTGCCTGCTGCCGCCCCGAGGCCGCCCTGCCATCCTGCATTCCCGCTGGGTCTCTGCGGCACTTACCCCAAGGC
GCCTCAAAGCGCCTGCTGCCCCCTATTACTGCCCCGCGACTTCCTTCCACTCCCGTCCAGATGGCAGGTGCCTGCCCTAGCACCAGCAGTAATCCCACGC
AGCCTCGCTCCTCGGACTCCCTCCAGACCTGCAGCTTCAGTGCCCACCAGCGTCCGGCTGTAGGCAGCAGGGGCTGTTCAGCCAGGCCACTCATCCTTTG
ACCTTTTCAGCTGCTTCTTTCTCTTTCTTTCGTTATTTCCTCCTTCCTTCTTCTTTCTTTTCCTCTTTCCTTCTTTTTTTTTTTTTTTGACGGAGTCTCG
CTCTGTCGCCCAGTCTGGAGTGCAATGACGCTATCTCAGCTCACTACAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGC
TGGGGTTACAGGCGCGCGCCACCATGCCCGGATTAATTTTTGTGTTTTTAGTAGAGACGCGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTACTGAC
CTCAGGTGATCCACGCGTCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCTGGCCTGTCCTTCTTTCTCTTTCTCTCTTTCTTTCC
TTTCTTTCCTCCTTCCTTCCTTGCCTGCCTGCCTGCCTTCCCGCCCGCCCACCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTC
CTTCCTTTCTCTTTCTTGCTTGCTTGCCTTCCTTCCTTCCTCCCTCCCTCTTTCTTCTTTCTCTCTCTCCCTTCCTTCCTTCCTCCCTCCCTCCCTCCTT
TTTCTTTCTTCCTTTCTTTCTTTCTTTCTTTCTTTTTCTTTCTTTCTTTCCTCTATTTCTCTCTTTCTTTTTTTAACAGGGTCTCCCTCTGTCACCTTGG
CTGGAGTGCAGTGCTGCAATCATAGCTCACTGTAGCTGCCAACTACTGGGCTCAAGCGAGCCTCCCACTTCAGCGTCTCAAATAGCTGGAATTACAGAGG
TAAGCCACCTTTCCTRGCTTCAGCTGCCTTTTTATAGGGACTCAGATAACTACAAGAAACGAGATTAGAAAACTGCAATTGGGAGGGACCATAGAGACAC
AGCCCCTTTGTGCCGGGGAGAAACTGAAGCCCAGAGAGAGGAAAGGATCTGTTCTTACCTAGAGCTTCTCAGATTTGAATGTGGTTACAATCACCTATGG
ATGTTGTTAAAATGCAGATTCTGACTCGATAGGGGTGGAGTGGGTCTTAAGAGTCCGAATTTCCAAATTCCTAGGAGATGCCTTGGTTGCTGGTCCAAGG
GCKGTTTGCCCAGGTGGATGGAAACAGGTCCAGCATTATTGGAGAGAAATTTAAAGAAAATCCTCTAAAAAATCTCAGCTGCTTCTTCTAACAATATATG
CTCATTGCAAAGAATTAAAACAATAAACTGTGCCCCCCCCTCCCCAAATAAGCATGGCTAACAGTTTGGTTATTATTTGGTGTGTGTGTATGTGTGTGTG
TCCACACACACATATTAGTTTTATATATATACACATACATATATAATGGGATTTTGAAACACACACTGTTCAAATTCTATGTTTGTTTTGAATGACAATA
CACAGTTATATTCTCACTGCAAAATAAAGCCAGCTTTTTCTTCTTTTTGTCTTTTAAAWTATTTATTTATTTATTTATTTTGAGACAGGGTCTTGCTCTG
TCACCCAGGCTGGAATGTAGTGGCATGATCATGGCTTACTGCAGTCTCAACTTCCTGTGGCTCCAAGGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGG
ACCCCAGGTGCATGCCACCGATACCCAACTAATTTTTTTTTTTTTTTTTTTTTGGTAGAGAAGGGGTTTCACCATGTTTGCAAGGCTGGTCTTGAACTCC
CGAGTTCAAGGGATCTACCCATCTCAGCCTCCCAAAGTGCTGGCATTATAGGCATGGAATTAGGCTAGATTCAAGTTAAAATTTATATACAGTGAAACGC
ACAATTTTTTTGTTTGTTTGTTTTTGAGGCAAGGTTTTGCTCTGTCACCCAGGGTGGAATGCAGTGGTGTGATCATAGCTCACTGCAGCCTCCAACTCCT
GGGCTCAAGCAATCCTCCTGCCTCAGATTACAAAATAGTAGCTAGGACTAGAGGTCTGTGCCACCATGCCTGGCTAATTTTTTATTTTTGTGGAGATGGA
ATTTCACTATGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGAAATTTGCCTGCCTTGGCCTCTCAAAGTGTTATGATTGCAGGCATGAGCCACTGC
ACCTGGCCCAAAATGTACAAGTCAAGGAGTTTTGGTAAATGTGTACACTCCTATGACCAACACCATCTGATTCTTCAGTACAGAGTGGTATTGCCTCTAA
ACCACTCCTGTCATCATAAGACCATAGGCAACGTCCTCTCCTTCTTGAAGCATCAGTGTTCAGATTTATAAAATATACCTAGAATCTACTTCTCCCCACC
TCTGGGGCCACCACCATGCTCYAATTGATCATTGTCTCTCACCCGAATCATTGCCATAGGCTCCTCACTAATCTTGCTAATTCTGCCCTCCACAGCCTCT
TGTCAATAAGCCAGTCAAAGAGATTCTTATTGAATTAAGGTTAGATCATGCCATTTCTCTATTTAAACCCATTCAGTGGCTTCTTGCTTCATTTATAATG
AAAGCCAAAATCCTTATGGTCATCTGCAAGGCCCTCCATCATCTGACCCTGTTGTCCCTCTGCCCTCGTCTCTTCCTACTCACACTCGCATATTCTGCTT
CACCTTCACTGGCCTCCGTGCCATCCTTGCATATGACTATGACCGAACCTAGCCTTAGCAAAGTCATTTGGTTTCAGGCAACAGAAACAGACTCAAATTA
GCTCAAGCAGAATCAATAAATTATTAAATGGATGCAGGCAGGGCTCCTTTACAGAATCCAAAGAAACACAGAGGGTCTCAGGAGAATGGGAACCAGGAAA
GGTCTGGATCTCTCAGGAGGAGGATTTTGTGRTCTTTTTTTATTTTTATTTTTACTTGAGACAGGGTCTGGCTTTGTCACCCAGGCTGGAGTGCAGTGGT
GCGATCTCGGCTCACTGCAACCTCCACCTCCTGGGCCCAAGTGATACTTCCCCCTCAGCCTCCAGAGTAGCTGGGAACATAGGCATGCACTGCCACACCC
AGATACATTTTGTGGGTTTTGTAGAGATGGAGGTCTTTCTATATTGCCCAGGCTGGTTTCGAACTCCTGGGCTCAAGCAGTCCACCCGCATTGGCCTCTC
AAAGTGCTGGGATTACAGGTGTAAGTCAGTGCGCCTGGCAGAGGATTTTGTGGGCTTTCTTGAATTTTCAAAGCCTGTCTTAGTCTCATGAGTCCTGAAG
ATAAATTTGATTGGCCACTGGCCTGCCAATGAGCTAGTTTCTTTGGCTCAGGTGTATTCATTCCTGGTCCAATCAGCTAACACTGTGAGGGTAGGAATGG
GTAAAACAAATATGACTGAAGAGATTCACCACTACTGGTAAATGGGAAATTCTCAGATCATGTGGCTGTAAGTGAGGAAGAAACCTTAAAACAAGTGAAC
CAACATTTCCCTTTGTTTTCAAAAAAACACTTCTGGTCCACTTAGGAAAAAGCAATATAGATGAGACTTACATTGCCCCCTAAATACTAAGATTTTAGAC
TTGCTTGTCGAGAGCAATGGTGTAGAAGCCATTTGCTTGTTTTTCTGCCAATATCCATTCTTTTTATTCTAGAGACATCCCTGAATTTCCTTTGGAGAAC
CATTCAATCCTATCCACACCCCCCRTCCTCATTCRTGTGGTTCAACTTAGGTTGACCCCCATCTCTGGCTCTAGCAAATCAGCTTATCTTGTCACTCAGG
TTATAGTCTTTTTTTTTTTTTTTGAGATGGAATCTCGCTTTGTCGTCCAGGCTGCAATGCAGTGGTGCTATCTCGGCTCACTGCAATCTCCGCCTCCTGG
GTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACATGTGCACACCACCACACCCGGATAATTTCTTTTTTTTCTTTTTTTTTTTTTAG
TAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTAACTTCAGGTGATCCACCCACTTTGGCCTCCTAAATTGCTGGAATTACAGGCAT
GAGCCACCATGCCTGGCCTTTAGGTTACAGTCTTTTGCTCAGGAGTGGGCACAGACAGAAATTCAATCCAATGAGAGTCTGAGAGTCACACCCACCCAAG
ACTTTGTCTAGAATATTGCAAAGGAGGATGTCTCTTTTTACTGGGACTTCTAGCAGAAAGGACTGTGTGATCCAAGGGCTGTGGAAAGTATCACATAGGG
CCTTAGAGTGAAACCAACACAAAGAAAAGCAGAGCCCAGTGATGGAGAGGGTTCCAGCAAGTCTCTGGACCCAGCACTGCCTACAGCTGGGTCTACCTTC
TGGAATTCTCAGTCATATGAGCCAATAAACTTGCTATTGTGTTTAGGACATTTTGAGTTGTTTATCTCACTCAAAACCAAAAAAGTCCCAACTAATATAG
AGAATAAAAATCCTATCTTCCCACTTGGATGTGGTGATGYCTTCTTCTGTTTCTTAAAGTGAGTGTATTTCATATCTAGTCCCAGATGAATATCTACAAA
TCTGGGCAACATTTTTATATGCCAAATGACAACAGGGAGAGCCCTGAGCTATTTAAAGGGATAACAGGTAATTAGAACTCTGACAGGGAAATAGACTCCC
CTTGATCCTAGCTCTCTCTCTCTYTTTTTTTTTTTAGATGTTGTCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCAGTTCACTGCAATCTCTGC
CTCTTGGGTTCAAGTAATTATCGTGCTTCAGCCTCCTGAGTAGCTGGGATTATAGGCATGCTCCAACATGTCAGGCTATTTCTTTTGTATTTTTAGTAGA
GACGGGGTTTCATTGTGTTGGCTAGGCTGGTCTCGAACTCCTGACTTCAAGTGATCCACCTACTTCAGCCTCCCAAAGTGCTGGGACTACAGGTGTGAGT
CACCGCGCCCAACCAGCTATCTCAATAAGACCCAAAGTTTACCAAATTATCTTCATAGGACCTAAGGCTAATATGAGTCAGGTGTGGGGTCAAAGGGACT
CACATTTCCAGGATCACATTTATATTATGTAGTCGGATGGGAGGGTTCTAAGAAGCAATCAACAAGGTCTTCCTTGTTGAAGACAAGGAAAGTCTTTCTT
GCTGGGCTGATGAGGGTGGTGGCATGGTAGAAGACCATTCTTATTTATTAATTGGACTCTAATTCAATGACCTGGATACTATTTCTGTGTATAGTCTTAG
CTTAAGCCAATAGCATCAGTTGTTGAAATAGAGAAATATAAGCTTGGTTACATTAATTTTCTAGGACCCTTTTTCCCCAAAGGGTACACATATGTTTCTG
GCAAAAGTTAGTACCATTTTTCTAGTGTAAGAGACTTTTTTTTTTTTTGAGACAGGGTTTCACTGCTGCCACCCAGGCTGGAGCGCAGTGGCACAGTGTC
GACTCACTGCAGCCTCCACCCACTGGGTTCAAGCTATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACATGCCACTGTGCCTGGCTAACT
TTTGTATTTTTTGTAGAGATGGGATTTTGCCATGTTGCCCAGACTGGTCTCGAACTCCTGAGCTCAAGTGATCCGCCTGCCTTGGCCTTTCAGAGTGAAA
AAACATTCTTTTACTAATTAGACTTTTTTATGGGTCAAGAGAATGCACAGATTACCCATGGTGATGGGGGCTTATTGAAAGCACAACTTCCCAGCTGTGT
CGGAGGGGCTTTTATTGCCCTATACCCCATCGATTTGGCCCTTGTAAATTCCACATTTTATCATGCATCACTCAAAACATTCTGCATCCAGCACTTATTT
CTAATTCAGGTAAAACTCTATATATTGCAGATATCAGAATCAAACAACCGTGAACTAGCTTAGGCTAAAGAATGAAACAAATTAGCTCATGTATAAGGGA
GTCTGGCTTCAGGCTCAGCTTACACTTGAATTCAAAAGATGTCAACAGGTCCTGGTTTTTCTGCCTTTGAGTCTTGGTTCTAATTCATCAGTGTTCACAC
CATTCTCTGTCCAGTGTTGTTGCAAGATGGCTGCACTAGCTCTAGCTTCTACATATACATAATGCTGAGTCCAGAAGGACTGATAGCTTAAGCACATATT
GTAGGACAATCTTGATTGAGCTTTATTGCCTTGTTTGAGGCATGTTTCAACTTCTTTTTTTACTTATTAGAGATGAGGTCTTATTCTGTTGCCCAGGCTG
GAGGGCAGTTGTGTAATCATAGTTCACTGCAGCCTTGAATTTCTGGGCTTAAGCCTTCTGAGTAGCTGGGATTAAAGGTGCAAGTCACCATGCCTGGCTG
TTTCAACTTCCAGTTGAACACCATGATTAGAAGAATGGGATGCATTGATTGGCTTAGGCTTGGATTATATGCTCTGTCTCTGGGTAGATTCAGCTTCACT
CAAAACACAAGGGCTGAGAATGGGGAAGAAGTGGTTCTTTCCAAGCAAAATCAGAATAAATTCTGGGTTGCAAAAACATCTCATATTGCATAATTTCTCT
ACTGTTGCCTTCTTTGGCACTTGCAACTGATAATTGTCTCAGTGAAACACTCTYTTCTCTTGGCTTCTCCAATGCATTGCTTTCCCTGAAATTCTATTTA
TACTCCTTTGGAACATTTGTTTTTGTTTTTGTTTTGAGACAGAATCTCACTCTGTCACCCAGGGTGGAGTGCAGTGGTGCGATCTCAGCTCACCTCCCAG
GTTCAAGTGATTCTCCTGCCTCAACCTCCTGAGTAGGTGGGATTACAGTCATGTGCCACCACGCCCGGCTAATTTTTTTGTATATATTTTAGTAGAGACG
GGGTTTCACTATGTTTGTCGGGCTGGTCTCGAACTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGCTCCCAAAGGGCTGCGTGAGCCA
CCACGCCCAGCGTTGGRACGTTTTTGCAATACCTCTGTAGAGTTTCTGGTCCTTAGAGGATCACTGCTGGGGTTCAGGGTCTCAGGAGGCTAGTCACAAG
AGATAGCAGGAGATCTCAAAACTTCCATAGAGTCAGAGGAGATATAAAGATATATAAAGTGGCTTAGAAAACTTGGTTAAGCTGCTACTAAGGCTTAGGC
ATCTGTGGCACAGGGTTGGCTAAATGTGGGATCCAGAGGAGATAAGTAATCTTGCTCCCAAGTTTGACTCTTTCCAGGATTCCTACAAATCTAGAATGAT
GTCCCTCAGTTCTTGTGGATGTTATCTTGCCCCACCAAGATGGGATTAATGCTCTCTCTTCATGCATTCTTAATGACTTAGTCTTTTGGGGCAACCTACT
GTCTTTGACCTTTGGGGAGTAGGAACCAGGGTCCTCAGATTCAGTTGTGTGGATTTCAATTTTTTTGATGCTGCTTCTCTTGAGAGAAGCTGGCTTTAGA
TATCAGCACTGCGGACAGCAGCCATAGTTTCTCCTTTTATGCAGGAGGTCTCCAGTGGAAGCCTCATCGCCCATGACATGCAATTCACAATTTTGGAATG
AATAGATGAAGGAGTGAAAGGGGCATTCTCCAGCCAGTCTATTCAGTCTGTGTGGATGAGAGATATCATGGTCAGATTACCTTTAGAACTGGACATGTAC
AATCAATTCTTGCTATTTGGGCTAGCTATGTTCTATAAAGCTGCCACAAACACTGAATTAGTGAATACTGAACCATTGCTTCTAGAAGAAATATAGAGTT
CGGTTCCCGAGAGCCTCTGGTCACAACGTTGTCATTAACTGATCGATACGTAACTTTGTTTTATGTGTGTTCTTGTTTAAAGTCACCTTGTTTAATATAT
AGTTGATTCAATAACATTGAAATAATGGCCAACAGCACTATATAACTCATGCCTGAATAAAGCTTACCTAACACATATATTTTTTCAGTAAGGCACATAC
AGCCTTCCTGTGCTTAGGAATATTAGATAGCACTTCAGCGCTAGGGAGCAAACTCACCAACAAAACAAAAATGTGAAAATTGTGGCAGCCTATATAGGCT
GCAAAAAAGGACATGAGTTTACAGTATAAGAGCTGAAACAAGAGGGTAGAGTGTTGCCTTATTTGACCTCAGCTGGGAACAAGCACAGTGGGTGACTAAA
ATTTTTGCTGCTTGGCACATGTCCCTAAAGGCATTGCAAGTATTGATTTTAGGGTTACAAATAAATTCTAGTGAAATATGAAATCCATGAATAATGAGAA
TTGACTGGGTTTTTTTTTAGTTTTCTTTAAGCCCGTGGGTTTGTTCTTCATCTTTTGGATTTTTCTCCAAGTCTCAGAACACAAAAGATACTCAGAGGTT
ATGGAAGATGATGTCCTTACAATGGCCCATAAGGCCCTACATGATTTCATTCACTCTCCCTTTTCTTGAGTCTGAGAGTGTAGAGTTAGGTTATTGATTT
GAGATCTTTCTTCTTTTTTAATGTAGGTGTTCACAGCTGTAAATTTCTCCCTAATAACTGCTTAAGCTACATCCTCTAATTTTTATATGTTGTGTCATTT
TTACTCACCTCAAAATATTTTCTAATTTCTCTGTTGGTTTATTTTTTAATTTTTTAATTTTTTTTTTTTTGAGACAGAGTCTTGCACTGTCACCCAGGCT
GGAGTGCAATGATGCAATCTCTGTTCACTGCAACTTCCATCTCCCAGGTTCAAGCAATTCTACCTCAGCCTCCCAAGTAGCTGGGATTACAGGCTTCYGC
CAACACGCTCTACTGATTTTTTGTATTTTTAGTAGAGATGGGATTTCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCATGATCTGCCCTCCTC
AGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGCCGGTGGTTTCTTTTTTGATCCAATATTTATTTGGGAGTGTCTTAATTGTCACA
TATTTGTGAATTTCCCAAATTTCTTTCTGTCACTGATTTACAATTCCACTAAATTGTGCTTAGAGTACAACGGCCCCCAAGTGTAGTGCRAAGTGCTATC
TAGTATTCCTAAGCACAGCAAGACTGTATGTGCCTTACTGAGAAAGGCATATGTTAGACAGGCTTTATTAAGGCATGAATTATAGTAATGTTGGCCATGA
TGTCAATGTTATTGCATCAACTACATATTAAATAAGGTGACTTTAAACAGAAACACACATAAAGCAAAGTTACATATTGATCAGTTGATGAAAATGTTGT
GACCAGAGGCTCTYGGAAACCTAACTCTGTATTTTGTCTAGAAGCAATGGTTGACCTTCTCCCCATTTTAACCTGAGCTGCCTAATGCACAGTGGGGCTG
GGGAGGGGCTGGGGGAAGCAGGGCTGAATCTTGGATCCTGGGGAAAGTTAAAGATGCAGAAGTGATGTCAGCTCTCTGTAGCGCAGTTCCCTTCCTGGTC
CTTGCCACACAGCACCTTCTACAGAGACTAGCTCTGTGGGTGGCGGGGGCCCCCACAGGCCCCACTGCTTCCCCTCCCCGCTGCCCGTGCTGCTTCTCTG
TGCCTGCTGTTGGAGCTCTGATGAAGGAGTAGCTGGCTGCCTTGTGAGCTGGAGGGGGCTGGGGCATCTGCCTGGGTCTTTGCGGAGAGCTGCTTATGGG
TGTGGTCTGTCCAGGCATGTTGTTTCAAAGGCGGTGGACGTGAGCAAAAGCATCCTCACAGTTGATCAATAACTTTTCTTGTTTTTAAACCATCATGTCT
TCATTTTACATTGGAATAAAGCGAGTTTTTGAAACCTGCCAAAAAAAAAAAAAAAAAAAAAAAGAAGAAAGAATGGTTCAGTATTCACTAAGTCAGTGTT
TGTGGCAACTTTATAGAACATAGCTATCCACAACAGCAAGAATRGGCCAGGCGTGGTGGCTCATGCCAGTAATCCCAGAACTTTGGGAGGCTGAGACAGG
CAGATCACCTGAGGTCAGGAGTGCGAGACCAGCTTGACCAATATGGTGAAACCCTACCTCTACTAAAACTACAAAAATTAACCTGGCATGGTGGTGAGTG
CCTGTAGTCCCAGCTACTTGGGAGCCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCTGTGAGCCGAGATGGTGTCACTGCACTCCAGCC
TGGGTGACAGAGCTAGACTCTATCTCAAAAAAAAAAAAAAAGAAAAAAATTGTGCATGTCCGGTTCTAAAGGTAATCTGACCATGATATCACTCATCTAT
ACASACTGAATAGGCTGGCTGGACAATGTCCCTTTCACTCCTTCATCCTCCTTACTGTATTCATTTCAACATTGTGAATGGCATTTCATGGGAGATGGGC
ATCCCATTAGAGACCTCTGGCACTGCATGATTTCAATCTTTTAAATGTACTTGGTTGGGCTTGTTTTGTGGCCTGTCATATGGTCTATCCTGGAGCCTTA
CATGATTTAGTAATGTTGCCAGAAGGCTCAGGAAGGTCTCCCGATGCCGCTGAGGCCTCAGTCCTAGCCACTGGCCAGATTCTTTACACTGTCGGGAGAA
AAAATTCAGGGATGAGTCAGAATGAAGCAAGAAGCTTTTATTGCAAAGTGGGAACACACACTTAAGAGAGAAGGGCGGGCATGCTTGGGAGAACGAATCT
CACACGATGGAGTTTGGGTTTCTAATTCTATGGGTGTCTCTTCAATTAGGGGTTGGAATAATCAGTAGGTATTCTGCAAAAGGAGGAAATTTCAGGGACC
CCAATTACTGCCTACGTGTTTGCCTGGAAGAGTCATGGACACGTCATCCTGACCAGGGTTTTGGCCATTTTCTCTCCCTTCTTTTGTGTTTTCGGTTATC
CTGTGGTTTCTTTGCCTAGTTCTTGTTTGAGCTGTTGTTTGGGCTTTTCCATCCTCCTGTGATCACCCAGTGCTGTTCCTATCTCGGTACCACTCAAACC
TCAAATCCTACTATTCACCCTGTGTTTATTTCTCTCTAGCCACTCTGGCCTCCTTGCTGTTTTGCAAACTCATCCAGGCACGTTCCTTTCTGAAAGCCTT
TGGAGTTGGCTCTGCTCTGACTGGAATGCTCTCCCTCCTGATTTTTGCCTGGCTCCCTATTTCACCTCCCTCAGATCTTTGCTCAAGAGTCACTCTCCCA
GCAAGGGACCATTGCTATTTATTCATAACCACGCTATTTAAAATTTCAACCCCATGTACATTTTCTTTAGTTTCCCTGTCCAGCTTTATTTTCTCCATAG
TGCCAATTTTCTGTTTAAATTTTTTTTGCTTTTAAGTATATATATATATTTCTAATAATTTACATCTATGATATAGGTTTCTTTATTTTTATGTAATTTT
TAATTTTTGTTGGTACATAGTATGTGCATATATTTATGGGGTACATGAGATGTTTTGATACAGGCATGAAATGTGAGATAAGCACATCATGGATAATGGA
ATATCCATCCCTTCAAGCATTTATCATTTGAGTTACAAACAATCCAATGACACTCTTTATTTTAAAATGTACAGTTAAATTATTATTGACTTTAGGCCGG
GTGCAGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGTGGCTGGATTGCTTGAGCTCAGGAGTACAAGACCAGCCTGGGCAACACGGCAAA
ACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGACACACACCTGTCGTCCCACCTACTTAGGAGGCTGAGGCAGGAGGATCACTTCAGCC
TGAGAGACAGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCAAGAGTGAGATCCTGTCCCCAAAAAAAGTTATTCTTGACTTTAGC
CACCCTGTTGTGCAATCAAATAATAGGTCTTATTCATTCTTTCTATTTTTTTGTACCCATTAACCATCCCACCCCACCACCCTTCCCAGTCTCTGGTAAC
CATCCTTCTACTCTCTATGTCCATGAGTTCAATTGTTCTAATTTTTAGATTCCACAAATAAGGGAGAACATGTGATGTTTGTCTTTCTGCATAGCATCAA
TTTCCGTCTGACACAATGTATCTATTACTTGTTAGTTGTCTGTCTTTCTACATTAGAATGCAGGCTTCTCCAGAGCAGGCATTTCTGCCTTTTGTTCACT
GCTCTATCCTCAATCTGAAGAACAGTGCCTGGCACACAATGGGAGCTCAACACATATTTTGTGAGTGAACAAGTGAGTAAAATAATAGAACCAGTTCTGA
TTTGGGTTATGGTCATCTCCTCTGTCTCCAAAAGACTGTGCTTGAGAAAGAGGTTGTCTCAGACAATGGAAATGCAGGCTGGAGGGCTGAATGGACCAGT
CAGAGACAGTTATATTACAATTTGTATATTCCATGTGGGCTAGAACTTGGTTATGAATGATAGGCACAGGACCACCTTCATGGGTATGTGACCTGTGTGG
TTGTCCAAGGCCCCATGCTTAGAAGGAGCTTGGGCTTGGTTTGATGCTTTACTGTCTTGAAATTTTTAGAAATTTTTGAACAAGGGGCTCTGCTCCTTCA
TTTTATTTCATTTTTACTGGGTCCTGGATATGCAGATTCCTTGCATTTAAGAACACTGATAGGCTGGGCACTGTTGTCCTAGCACTTTGGGAGGCTGAGA
GATGAAGATTGCAATGAGCCGTGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGTGCGACCCTATCTCAAAAGAAACAAACAAACAAAACAAAAAAA
CAGAAAAACTGAAAAACGTTGATAAAGGTGGATAATTGCTAGACCAAACCTTAATAGAATCCAATTGAACTTGGAGCTTTTCTAGCAGGAAGAGAGCCAG
TACTCAGGTTGAAAACATGGGCTAGACAGTTTAGGCTCTGGAGGAAAAACAAGTAAACTGTAAGCTAACATTCACTAAATTTAAATTCTATGAGAGCAGA
GATTTTGTCTGTTTGTATTGGTTAAAAAAAGAAGAATGGATGTTCAACATATGATTATTTCAGCCTGCCTTCCTTCCTTCCTTCCTTCCTTTCTTCCTTC
CTTCCTTCCTTTCTTCCCTCCCTCCCTCCCTTCTTCCTTCCTTCCTTCCTTTCTTTCTTTCTTTTTTTCTTTCTTTCTCTCTTTCTTTCTTTCTTTCTTT
CTTTCTTTCTTTCTTTCTTTCTTTCTCTTTCCTTCCTTCCTTCTTTCTTTCTTTCTTTCTCTCTCTCTCTTTCTCTCTCTCTCCCTCTCTCCCTCCCTCC
CTCCCTCGCTTCCTTCCTTTTTTTTTTTTTTTTTTTATGGAGACAAAGTCCCRCTCTGTTGCCCAGTCTGGAGTACAGTGGCATGATCACAACTCACTAC
AACCTCTCTGCCTCCTAGGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCATGCCATCATGCCCAGTTAATTTTTATATG
TTTTGTAGAGGGAAGTTTTCTCCATGTTGCCCAGGCTGCTCTGGAACTCCTGGGATCAAGCAGTTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAG
ACATGAGCCAGCACACCCAGCCAGCTTTTTCATATGCTTAAAAAACTTCACAATAAAAAGTTTAGAAAGTAAGAAGTAGAATAACATATGTGGTAATACG
TGTAATATAAATATGTATAATGTATAAAATATACTTTGTGGTAGTATCAATGACATAATATGTACATTTGTAGGTTTTTTATTCATTTACAGATGAAGAT
AATCTGTTGCTCCATGGTCAAATCAATAGCTAACCCGATGATTGATTGATCTTTTACAATGTTTTTAAGCATCTTTTGGTAAATAATCAATTTAAATTAG
CAGGAGGGAATTTTGCTATTTGAACAGGTATTAATGGTTTAAGGACTGTCTGTTTTTAAATACTTTGAAATGTGCTTAAATTTTGTTTAATAATATGTTA
AGCAATATTTAAATATTAAAATTTTGCTCAATAATCACTAACCCCAGACAAAAAAATTTCACCTCATTGTTAACAATTTTGTGTATTCTTTTAGGCTTAA
AAATTATTATGTAAATATAGAAAACTACATATATGACCTAAGTGGGCTTATATTTTTCTGTAATTTTTTTTCACTTAACTATAAATTATGGTAATCTTTC
CCTGTAAATCCATAAAGAGGTATCTTATTCTTTTTAACCAGCCTCACAGTGTTTCCAGTACTTCTTGGTCTATAGATATTTTTCCTTATCCCATTTAGAT
GGCAAGTTTTCATGAAAATGTGATATAATTATGCAAAAAAMGTTTAAAGTTTAAAGTGAAAAGAGAATCTTTGAAGAGATTCCAGGTTTTCTCCAGACCA
TGCTAATCAGGTTTCCCCCCTCARTTTAATTCAAGATATTTCATAGAAGCCTTCAAATTTTATTTTCTAAAACACTAGATCATGATGTTATTGGTGACCC
TCTGGGGTTGGACAGGGTGCAATCAATTAAGATTACAGTCAGCTCTGAGTATTAGGAGCCCAGATTAATCGTGACTTAAACAACTAAGTCGGCTCAGGTG
GAAATTTATAACTCTAATGCATATTTTTTTTGTTTATTTGTTTATTTATTTATTTATTTTTTAGAGGGAGTTTCACTCTTGTTGCCCAGCCTGGAGTGCA
ATGGCACGATCTCAGTTCTCTGGAACCTCTGTCTCCCGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCA
CACCTGGCTAATTTTGTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTACCCAGGCTGGAGTGCAGTGGTGCGATCTCTGCTCACTGCAACCTCCA
CCTCCTGGGTTCAAGTGATTCTCCTGCCTTAGTCTCCTGAGGAGCTGGGATTACAGGCGTGTGCCACCACGCCTGGCTAATTTTTCTATTTTTAGTAGAG
ATGGGGTTTCACCATGTTTGTCAGGCTGGTCTTGAACTCCTGACCTCGTGATCGTGATCTGCCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATG
AGCCACTGTGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGGTCCTCCCGC
CTTGGCCTCCCAAAGTGGGGGGATTACAAGCGTTAGCCATCGCAATCAGCCTTAATGGATATATTTTAAAAGAATATTTCCTGGCAAGGATGCAGGGAAA
CTACATCTCTCATATATTGAGAGATTGGTGGGAACGTCATACGGCACAGCCACTCTGGAAAATAGTTTGGGAGTTTCTTGTAAAACTGAACATACACTTA
CCAAAAAACCTAGCAATTGCATTCTCAGGCATTTTCCCCAGAAAAATAGAAACTTATGTTCAGACAAATACCTGTCTATTTAAGACATACATAAATGAGT
GTATGTTAAATACCTGTACATCAATGTTCATAACAGCTTTATTTTAATAGACACAAATTGGGAATAAAAGAAATGTCTTTCAGTGGGTGAATGATTAAAC
AAACTCTCGTGCAATCATACAATGGAATACTACTCAGCAATAAAAAGGAATGAAATATTGATACATGCAATAGCTTGGATGAACCTCAAGGGCATTGTGC
TTAGTGAAAAAATGTCAACGTTAAGAGGTTGTGTACYACATGTCTCCCTTTACACAACATTCTCAAACTGACAAAACTATAGAGATGGAGAACAGATTGG
TGGTTGCTAAGGGACAGGGACTGGGGTAAAAGCATATGGATGGAAATATAGAGGGGCAGCAGGAGGGAGTTCCTTTATGATGATAGACCAGTTCTGTATC
TTGATTGCAGTAYGGTTACATGAATCTATACATGAGTTTGGATTGCACAGACACCCCWCCCCACCCCACACATAAATGAATGCATGTTAAAACTGGCGAA
ATAAAATCTGTAGTCTAGTCAACAATTGTGTACTAATGTCAATTTCCTAGTTTTAACATTTTGCTTTAGTTATGTAAGATGTCACCATAAGTAGAAGCTG
AGTGAAGGGCTCAAGAAACTCTACGAGGGCCAGGCACAGTGGCTCATACCTGTAATCTCAACACTTTGGGAGGCCAAAGTGGGTGAATTGTTTGAGCCTA
GGAGTTCCAGACCAGCCTGGGCAACATAGGGAGATGCATCACTACAAAACAATACAAAAGCTAGCCAGGCATGGTGGTGTGCACCTGTAGTTCCATCAAC
TCAGTTGTCTGAGGCAAGAGGATTGCTTGAGCTAGAGAGGTTGAGGCTGCAGTGAGCCAAGATTGGGCCACTGCACTCCAGCCTGGGTGACAGGGTGAGA
TCCTTTCTCAAACAAACAAACAAACAAAACAAAACAAAAACACACCAAGAAAAGAAACTCTATGTACTAATTTTATAACTTCTTATAATTATTTCAAAAT
AAAAAGTTAAATTCTAAAAAATTGAAAACCAATGATCTAAGCTTCCATCTCAAGCTAGAACAAGAACAGTAAATTAAACCCAAATAAGTTGGAATGAAGA
AAATAATAAAGAGTAGGGATCAACAAAGTAATGAAGATAAGTTTTTTAATATAAAGTTTTGATCTCTGGTAGTGTAAGTTCTCATTCTTCAAGATTATTT
TGGCTGTTCTAGGTATCTTGCATGTCCTCATAAAGTTTAGAATTAGCTTGTCAAATTCCACACATAAAAAATAAGCTTGCTGCTATTTTGATAGAGAATG
TGCTGAATCTACAGATCAATTTTGTGAGAACTGACATTTTTACAATATTGAGTCATCTAACCATGAACATGGTATATCTTGCCATTTATTTAGTGCTTCT
TAATTTCTATCAGCAATGTTTTGTAGTTTTCAGTGCAGGGGTCTTACATGTTTCTTGTCAGATTTATTTCTAGGTATTTGATGAGTTTTGCTATTGTTAC
AAATGACTGTGTTTTCCATTTCATTTTCTTTTTCTTTTTTTAGAGATGGGATCTTGCCCTGTCATCCATGCTGGAGTGTGGTGGAACAATCATGGCTCAT
TGCATGATTGAATTCCTTGGCTCAGGTGATCCTCCCATCTCAGCCTCTCAAGTAGCTGGGATTACAGGCACCAGCCACCACACATCACTAATTTTTAATT
TTTTTTTTGTTAAGATAGGAGTCTCGCTATGTTGCCCAGGCTGGTCTCGAACTCCTGGCCTCAAGCAATCCTCCCTCTCTGGACTCCCAAATTATTGGAA
TTTCAGGTGTGAGTTATCACACCYGGTCTTTAATTTGATTTTCTACTTGTGTGTTACTAATACATTGGAGTTAGTGCAGCTGTTCAAGGATGTCGTCAAG
AATCAGCCTCTTGTTTTCTGTGGCTTCTCCACTCTTAGCATGTGGTTTTCATGGTCAAGGTCACAAAATGACTACTGCATCCCCATGCCTGGAAAACCAT
TTCCCAAGAGGAAGAAGCAGCAAGTGACAAGGTGGAAAGGAGAGCACTGAGATTAAGAAAGAAAAACTTTCTTAGAAGTCACTACAGATTTCTGTTCTAT
TTCAGTCATTAGAAGGCAAACTGGGATTTTTAAATTTTTAATTTAATTTAATTTAATTTTTAGACAGGGTCTCACTCTGTTATTCAGGCTGGAATGCAGT
GGTGCAATCACTGGGTTTGAGTGACTGGCTCACTGCAGCCTCAAACTCTGGGGTTCAAGTGATCCTCTTGCCTCAGCCTCCTGAGTAGCTGGGACTACAG
GCATGTGCCACCGCACCCAGCTTTTTTTTTTTTTTTTTTTTTTAATAGAGACAGGGTCTCACTATGTTGCCTAGACTGGTCCTGAATTCCTGGCCTCCAG
CCATCTTCCTGCCTTGGGTTCCCAGAGCACTGGAATTACAGGTGTGAGCCACTGTGCCTGGATGAAAATGGGATTTTAAAATTAGGTACATCGCTGCTCC
AAACAAAATCAGCATTCTATTGGTAAATCGTAAGAGGGGAATAGATATTAGGTGGGAAACCAGCAATGTCAGCCACAACATGGAAAAGGATTTAGATCTC
ATGGCACCATGTACTCCTACCATTCTCTCAATAAGGTTAAGGCACAGTTTTTATTTAATGTTCTATGTTATTATGACTATGCAAATATTATTCCCTACTG
ATCTGTGTCAAGTACTATGATTACATTTCCTCTTTTGGTCAACTTCTGTATTTTCCTTGGAATTATGGCTTCTTCTTTTTGTTTGCTCAGTTTTCTCTGT
CACTGTCTCTAATTCTTTCTTTTTTTTCTTTTTTTTCAAGATGGAGTTTTGCTCTTGTTGCCCAGACTGGAGTGTAATGGCACGATCTTGGCTCACCACA
ACCTCCATCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCACATCCGAATAATTTTGTGTTTTTA
GTAGAGACGGGGTTTCTCCACGTTGGTCAGGCTGGTCTCGAACTCTCGATCTCAGGTGATCTGCCCATCTCGGCCTCCCAAAGTGCTGGGATTACAGGTG
TAAGCCACTGTGCCTGGCTGCTGTCTCCAATTCTTTCTAAGCTCTCCAACAGAATTGCAAAATTCTGCTAAAAATATTTTTTTCATGTAGTCAGGCACAT
CAAGTTTCTCTTTTTTTTTCCCCTCCCTGGACATATCTCTCCTAGGGCCTCCTATAATTTTACTCAGTCTGAACTGATTGTTCTCTAAGCATTCTGGAAT
TTTCTTTGGCCTCTCTCTGTGTTATGTTTTCTGTACCCTGGCTCTCCTGCCGATCTTTATGGCTTAATCTCTCATTTTGGTTGACCATATTTTCCAATAG
CTTCCTGACAAAGAAGTCATAAGAAGTACATTTTTTGAGGCAATGCGTGAAAATGCCTTTATTCCATCCTCACACTTGATTGATAGTTTGGATACTGGAA
ATACTAGTTCCTCCTTATTTTGAAAGCATTATTTCATTGTGTTTTGCTTCTTGTGTTGCTTTTGAAAGTCTGAGGACATTCTGATGGTCTTTTTTCCTGA
TTGTCACATTTATTTATTTATATATTTACTTACTTATTTATTTATTTTGAGACAGTCTTACTCTGAGTTAGAGTGCAGTGGCACCATCTCGGCTCACTGC
AACCTCCGTCTTCTGGGTTCAAGCGATTTTCATGCTTCAGCTTCCTAAGCAGCTGGGACTACAGGTGCGCCACCATGCCCAGCTGATTTTTTGTTTATTT
TAGTAAAGACAGGGTTTCAGCATGTTGGCCAGGTTGGTCTCAAACTCCCGGCCTCAAGTGATCCACCCACCTCAGCCTCCCAATGTTAGTTTTAAACGTA
ACTCTGTGGCCTGTGCTTTTTCATTATAGACATTTCAAAGATATATCTGTTTTCGGTGTTCTAAAATTTCCTATTAGGTTAGTGCAAAAGGAATTGCGGT
TTTGCCATTACTTTAGCATCAAAATAATTCATGCTTCGGCATAGGTCTTTTAAAAATACATTGTGCTGGGTGCTTTTAATCTGGACGCTCATGTTCTTCA
GTTCTGGACATTTTCTTCTATTATTTTCTGATGGAGATTACTGCTCTTCTTGTATAACTCCTGTCAGGTGATTTTTAATGTTCAATGAATTATCTAATTT
TATTATGATTTTCTCTTTTCTTTGCATCTGTTTTTTTTTTTCTATTCTACTTTTTTGGAGATTTCTGCAAGTTTATTTTCCAATTCTTCTTCCCTCTTCT
ATCAAATCTTTAGTCYGGGTGCGGTGGCTCACGCCTGTAATCTCATCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGCCTGAGCTCAGGAGTTCGA
GATCAGCCTGGCCAACGTGGCAAAACCCCGTCCCTACTAACAATACAAAAAATTAGCCAGGCATAGTGGCACACACCTGTAAACCCAGCTACKTGGGAGG
ATGAGGCAGAAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATACCATTGCACTCCAGCCTGGTCAACAGGGTGAGACTCTGTCT
TAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGACCTCATGGGGACTTGGTAAAGAGTGCTGAAGATTACCTGGGCAAAAAYAAAAATTTGGAAGA
TGCTGTCAGTGACCATGTATATAATGCAATGGATAATATGTACTTGAATTCAAAACTTTAGAAATGAAATTTGAGGATAGAGGAGGAATTTTTTAAAAAC
TGGTGTGAGTTAAACATATCAATTTTCTTCTGCTCCACGCCAGAATTTTACTAAAATCAGAGTAAAAAAGTAAAAAAGATGTAGAACCACAACAGAGAGC
TCAGAAGAGGAGAACCCAGTCAATGAGAGATTGTGTAAGTCAAGATTGCATTGGAAAAGCAGAAACCAACTTGTATATTTCAAGTAGGAAAGGTTTGAAT
ATGGAGAATTTCAGGCTTACCCCACCATTGGAAGGCTGGGGAAATGAAGGGCAGGCAAGCCACTGCCACCAGTCTTAGACGATAGCACTGAAGTGAGTGA
ATCTCACGGCCTCCCATGGAAACTCTGTGCGTCTTTTAAGGGCTGGGCTGGGACTGGAGTAGGACTAGTGAGGGAGTCTTCTCAGGTACAAGTTTTAAGG
GGGCATCAAAGAATATTTTAGTGCAATATATACATATATACACATATATATACACACWATATACACACACAYACACACACACACACACAYAYATATATAT
ATATATATATTTTGTTTTGGAGACAGAGTGTCACTCTATTGCCCAGGTTGGAGTGCAGTGGCATGATCTTCGCTCACTGCAACCTCTGCCTCTTGGATTC
AAGTGATTCTCCTGCCTCAGCCTCCCRAGTAGCTGGAATTACACACACYCGCCACCACACCTGGCTAATGTTTGTATTTTTAGTAGAGTCAGGGTTTCAC
CATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCACCTTGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAACCACTGCACCCAGC
CATGCAATATATTTTTAAGCATTATTTATTTATTTATAGAGGTGAGGGGTCTTGCTATGTTGCCCAGGCTGGTCTCCAACTCCTGGCCTCAAGCAATCCT
CCCACTTCAGCCTGCCAAGTAGCTGGGACTATAAGCTCGAGCCACTATGCCCATCAAAATTTTTTTTTTCATTGACAAGGAATAATTATGTGTTTATGGA
GTACCATGTGATGTTTTGATCTATGCATGCATTGCAGAAAGAACCAATCCAGCTAATTAACATTTCAATGCAATATTTTTTAAAAACAAACAATGTGAAA
AAAATCCATGATCAACAAAATGTCCGAATTTTTAGTAAAAACAACATCCAATCCTGCACTTGCACAACCCTCTCTCACTCACGTCTCCCTCATCTCATCT
CTGCTCAAGAGCTCTGTGAAGACTGAGTTACTGTCTTCTTGGCAACCCACAGCCCTGAGATGGGTCATTTGCAACAGCATGCCTGAAAGCCAATGAGACC
TCAGGTCTGCAGTTTTATTCATCCAGTCTGCCCACAACTGCTGCCAAAGAACAGCTTTTCCTTTTGTCTTCCAAATCTTTGCAAGTACCTCTCATTGGCA
AACTCTAAGAAAGAGATTCTTGAAAATGTAATTCTGTGATGCCGAGAACACTGTAGAAGAGGGAGGGAATGCTGTCAGGTTAATAACAGACAATCCAGCA
GAGAGATGTCAAGAGGTTTCAAAAAGCTGGAAGTCAGGTAAAGATATTAGTAGTACTGAGAATTGTGACTCTCAAATACTTGCAGAGAGGAAGCCAACAG
CATGCACATTGACAGAGCAGGAGCATCGCCATCTTGGACAAGCACTGCCATTCTAAGTTTCCCCTTGATCAAAAACTGCCTGATTTTAAAGGGCATCAAC
CTAATGGCTAAGGTCACCACGAACATAAACCACAAATGACTTCTCTGACCAGAAACATTCCAAACCCCTCCTCGACCAGAGATATGCCAGCCCTGAGATA
ACCTCCCCTCTGACCACAGAGATGTTAGCCCCAAGATAACCTCCCCTCTGACCAGAGAAATTCCAGCCCTGCCATGAACTTCTCCCCACAAGCCTATAAT
AAGCTCTCACCCTAAAACTGAAARATGCTCTTAGTCTGTAAGAGAGAGCGCTCCTGACAGAAATCAGCCAGAAGCCCCTCTTAGGTTTATTCTCCAAAAT
AAACCTGTCTTTGTCGAGCCACTTTTCGTGTTTCTTTCCTCTTTCTTTAACTCTTACACACATCTTCATAGTCTCTAACATGTCAGCGTTATGGACTGGA
TTGTGTTCCTCCAAAATTTATTCATTTATTTTTCTTTATTTATTTATTTTGAGACGGAATCTCACTCTGCTGCCCAGGGTGGAGTATAGTGACACGATCT
TGGCTCACTGCAAGCTCCACCTCCCAGGTTGAGGCAATTCTCATGCCTCAGGCTCCTGAGTACCTAGGATTACAGGCATGTGCCACCACTCCCAGCTAAT
TTTTTTGTATTTTTAATAGAGACAGAGTTTTGCCATGTTGCCCAGGCTGGTCTGGAACTCCTGGCCTCAAGTGATCCACCCGCCTTGGCCTCCCAAAGTG
CTGGGGTTACAGGCATGAGCCACCACGCCTGGCCTCCTCCAAAATGTATATGTTGAAGTCTTAACCCCTGGTAACTCAGAATATGATTGTACTTGGAGAT
AGTTTTTAAAGAGGAAATTAATGTTAAATGAGGTCATTTGGGTGAGCCATAATCCAATATGACTGGTGTCCTTATAAGAAGAGAGATTGGGGCGCAGACA
CAGAGGGAAGACCATGTGAAGACATGGGGATGAGAAGGTGGCCATCTACAAGCTAGGGAGAGAGGCCTCAGAAGAAATCAACCCTGCCAACACCTTAATC
TCAGACTTTCAGCCTCCTAAATTGTGAAAAAATAAATGYCTGTTGTTTAAGCCACCCGATCTGTGATTTTTGGTTATGGGAGGCTGCATTAGTCAGGGTT
TTTGAGAGGGACAGAACTAATAGGATAGATGTGTATATGAAAGGGATTTTATTAAGAATTCACTCATACGATCACAAGGTGAAATCCCACAATAGGACAT
CTGCAAGCTGAGGAGCCAGGAAGCCAGTCCAAGTCCCAAAACCTCAAAAATTGGGAAGCTGATAGTGAAGCCTTCGGTCTGTGGCCTAAGGCCCAAGAGC
CCCTGGCAAACCACTGGCGTAAGTCCAAGAGTCCAAAAGCCGAAAAACTTGGAGTCTGATATTCAAGGGCAGGAAGCATCCAGCACGGGAGAAAGATGAA
GGCCGGAAGACTCAGCAAGTCAAGTCCTTCCACGTTCTGCGGCCTGCTTTTATTCTAACCACACTGGCAGCTGACTAGATGGTGCCCACCCAGATTGAGG
GTGGGTCTGCCTCTCCCAGTCCACTGAATCAAATATTAATCTCTTTTGGCAACACCCTCACAGACACACCCAGGAACAATACTTTGCATCCTTCAATCCA
ATCAAGTTGACACTCGGTATTAACCATCACACAGCCCCAACTAACATAGTCGGGAATTGGAGGCATCAGATGCAGCAAAAGCTGGGTAAGCTTAAGCATG
GGGCTTAACATAGGGACCCTAGTTGAAAGTCTGTATGTTTAGACCCTTAGGGAACCTCACTTATCACACACATCCAGACAATTACACTTCTAGCCCCAGC
CCTCCAGCATGAAGTGCAGTCAACAAAGACATTAAACTAGAGAGCTCCAAGTTCAGAGAAGCAAGGCTCCAAATTCAGCAAGCAAGTCCTTTACCTAGCA
AAGGGCTGGAAAGAAAAATAATTCTGAAAACTGGGGAACCAATAGAAGATTGCAACCTAAAGATTAAGACATCAGCCCCTACCTAATCTATTTCTGCCTT
TTGGTCCCAGACTGGTGTAGGCGACAGCAGGAAATTGGGCATTCTTTTCAGGAGAAATAGACAAGGCTCTGAAAAGGTCTGCATGCGGTGACATTTGAGG
ATCTGACACAAATGGCTGGCTTCCTTCTGAACATCTTACATTTGGTCCTCTGAGTTGAAAAGCCCCACCTCACGAGCACAACCTTTTAGTATTTCACTGT
TAAAGATAATAGCCCACAGCCGGGAACAGCCTCCCGAGTAGCCGGGATTACAAGTACCTGCCACCGCACCRGGCTAATTTTTGTATTTTTGGTAAAGATG
GGTTTTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCTGCCTGCGTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGATTTATTTT
TATTTCTTGCTCTGTCTGCAGGCTGGAGTGCAGTGCGATCATAGCTCACTGAAGCCTCAAATTCTTGGGCTCAAGAAGTCTTCCTGCCTCAGCCTCCCAC
GTAGTTGGGACTATAGTTTTTTTTTTTTTTTTAATTAGCCGCCACACCTGACTAATTTTTTCAAATCTCTTTTTCTTGTTTTGTTTTGTTTTGTTTTGTT
TTTGCCTGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCGGAGGTGGGAGGATCACTTGAGCTCAGGAGTTCGAGACCAGCCTGGC
ACCATGGCAAAATCCTGTCTCTACAAAAGAATACAAAAAATTAGCAGGGTGTGGTGACATGCACCTATAGTTCCAGCTACTCAGGAAGCTTAGGTGGGAG
GATTGCTTGAGCCTGGGAGGTAGAGGCTGCAGTGAGCCGTGATTGTGCCACTGCACTCCAGCCTGGGTGAAAGAGCAAGACCCTGTCTCAAAAAAAAAAA
AAAATTTAGAAATGGGGGTTTTACCATGTTGCCCAGGGTGGTCTCAAACTCCTGGAACGAGGTCTTACATTTTCTGATCCTTTGCCTGTCTCCTCCACCT
CATCTTTGGCCATTTCCTGCTTTGCTCAGTTCATGGCAGCCACTCTGATCTGCTTGTTCTTCTTGGWACAGGCCAGACTTATTTCCAACTTGGGCCTTTT
GCAGTTCCTCTTTCCTCTGTCTGGATGGTCCCCAGATTTCCATAGGTGCTTGTTGCCACACCTCATTCAGTTCCCTGCTCAAATATCCTTCCTCAGAGAG
GCTATCTTCAACATTCTACATAACACACTCTCTGCCCACCACTTCCTGTCTCTTTTCTTGGTTTTGTTTTTCTTCCAAGCAATTAACAGTAGCTGAAATT
TTATTACACACAGTATTTGTGTGTTTGCTTATTTTCTGTTGTCTTCCCCTAGCATGGAAAATACTTTGTATTTTCACTGTGACACCCCCAAAATCTATTT
TTTTTTTTTTGAGATAGGATCTTGCTCTGTCGCCTAGGCTGGAGTGCAGCYGCGCAATCACAGCTCACTGCAACCTGTAACTCCCGGCCTCAAGTGGATC
CTCCCGCCTCCGCCTCCCAAAGTGCTGGGATTACAAGCCTGAGCCATTGCGTCCAGCCTGTCCCCAGCTTTGTCTCCCACTATGGAAGCTGGAGGAAGGT
GATGGTTCCTTCCCTACTTTCCAGCTGCTGGTGACCAGACCTAGGACCTAGGGCCCAACCAAATGGATGCTTCCATTTTGAGCTAAGAATGCTGAAGGTA
TTATATTGGTCCATTTTGCATTGTTATAAAGGAATACCCAAAACTGGGTAATTTACAAAGAAAAGAGTTTCTTTTGGCTCATGGTTCTGCAGGCTGTACA
AGAAGCACCGTGCCAGTCTGATGCTTCCACTTATGGCAGAAGGTGAAAGGGACTCAGCTGTGTCACATGGCAAGAAAGGGAGCAAGAAGGAAGGGAGGAG
GTGCCAGGCTCTTTTTAACAATTGGATCTCCTGTGAACCAACAGAGTGAGAACTCACTCATTACTTCGAGGACTACACCAAGCCATTCATGAGGGATCTG
CTCCCGTGACTCAAACACCTCCCACTAGGACCCGCCTTCAACATCAGGGACCCTTTCCTCCCCTCTCCTCTCCCTCCTCCCCTATTTCTCCTTTCCTGGA
TCTCTTTTCTTTTCTTTTCTTTTTTCTTTTCTTTTCCCTTCCTTTCCCTTTCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCTCTT
CTCTTTTCCCTCCCTTCCCCTCCCCTCCCCTCCCCTCCCCTTCCCTTCCATTCCCTTCCTTTCCCTTCCTGTCTTCCCTTCCCTTCTCGACTCTTCTATT
CTCTTCTTTTTTGAGACAGGGTCTTGCTCTTGTCACCCAGGCTGGAGTGCAGCAGCATGATCACGGTTCACTGCAGCCTTGACTACCTGAGCTCAGGTGA
TTCTCCCACCTCAGCCTCCCAAGTAGCTGTGCCTACAGGTGTGCACCACCATGCCTGGCTATTTTTTTTATTTTTTTGTACAGATGGGATCCCTCTATGT
TGCCCAGGCTGGTCTTAAATCTCTGGGCTCAAGCAATCTTCCCGCCTTTGGCCTCCAAAGTGTTGGGATTACAGGTGTCTGCCACTGCACCCAGCCAGGG
ATCACATTTCAACATAAGATTTGGAGGGGAAAAATATCTAAACTCTATCAGATAGGAAAGCAAAAGTTCAGAGACATTTGGAAGTTATTCAAGGTTACAC
AGTGGCTACAGCAGAACTAAGAGGCAAGTGGTGCGGCTACCACTGTCTGAAGGTGGCGCCAGCTTCACCGACGGCGCCAACAGTGACATCTTAAGCAGCA
TTTTCTGGAGCAGAGTCCTGGCTATGTACTGTCTTCCTTGGTTTCCTAAGTCTGATTCTGAAGCTTTTCTAGCAGTTATGTGAGCTGTTGATATCCTTCT
AAAGATCTCCTTTTCTGCTTAAGTTAGCAAAAGTCATTTATGTTGTCTGCAACTAAGAACTTACGATGGGTATACAGGTCAAAGGAGAAAAATGCAAAGG
CTCATCTCTGTTGATGCCCAGAAGGCATTTGATAAAATTCAAGACCAATTCCTGATAATAACCCTTCCTGAAGTAGGAATACATGGATACCACTTTAACG
CAATAAATAATATATATCTCAAACCAAAAGCAAGCATGCTTAATGGTAAAGCACTGGATGAAATGCTATTAAAGGCAGAAACAATGCAGGCTTTCCTACT
CTCCTTACTATTACAGACAAAATTCTGGAAGGGCAATTAGACAAGAGAAAAAAAAAGATGAGGTACAACTATTATAAACAAAGTGGCGAGGTTTTTATCT
CATGTGTTGATATAAATTCCTGAGAAACCCAATAGGATCAACTGAAAATTATGAGAAAGAACTAAAGTACATCAAGGTGGCTGGTTACAAAAATATTTTT
TTTCCTGTAGACAAACAACAGAAAATATAATGACATAAAATATCCCATTCATAATAGCAACCAATAGGAATAAACTTATTAGTATTATGCAAGACCTATG
GGAGGAAACTATAGTACTGGGAGGGGCATTAAAAGCCCTTGTATAATTTTTTGAAGACAGACTTTATTCTCAGATGAGAAGATAAATATTGTGGTGATGC
CAGTTTTCCCTCACTTAATCTATATAAATTAACCCCCCTAAAGGATTAAATTCATTTGAGAGAATAAGCAAACAGACAGATAATAAAATACTAGGAGATA
ATGCTCTATCAAACATTTCAGCATATTCTAAACCTATGCTATCCTGGAATACAGAGGCTTATCAATGGGATAGAACAGAATTTTTAAAAATCTTAAATAT
ACGGGGCATTTAATAGGTGATAAAAGCAGCATTTTAAAGTAGTGGGAAAATTACATTTAAAAATGGTGCTGAGACAATTGGCTAGCCATGAAGCATGCAG
AAAAGGCAAGATCCCTATCTCATTTCTCATGCAAAAATAAATTCCAGATGGAGAGCATAATAATAAGAAAAAAACCCAGAACTGCACTAAATTAAAATAC
AGATGAATATTCTTATGATCTTGGAGTGGGGGAAGGCTAAGTATGTCAAAAATATTGTAAATCTTTATGAAAAAGACTAATCTGTTTCACTATATAAAAT
AATTTAGGCTGGGCTTAGTGGCTTACACCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGGTGGATGGCTTGGGTGGGTGGATGGCTTGACCCTAGGAG
TTTGCGACCAGCCTAGATAACGTGATGAAACCCTGTCTCTGCTAAAAATACAAAAAGTTAGCTGGGCGTGGTGGCATGCACCTGTAATCCCAGCTACTGA
GGAGGCTGAGGTGGGAGGATCGCTTGAGCCCGGGAAGTCAAGGCTGCAGTGAGCCATGATCACACCACTGCACTCCAGTCTGGATGATGGAGTGAGACCC
TGTCTCAAAAATAATAATAAAATAAAAATAATAATTTAAGTTCTGTATATGATATGAAAACACTGTAAACATGGTTGAAAGGGAAGTAGGGAATGGTATA
GACTGAAAAATAATATAATTTATATAGAAAATAATTTTATGGACCAGGTGTAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGACGG
ATCATTTGAGGTCATGAGCTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTATTAAAAATACAAAAATTTGGCTGGGCGCAGTGTCTCACGAC
TGTAATCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTTAAGAGATCGAGACTATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAAT
ACAAAAATTAGCTGGGTGTGGTGGTGCGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAGTCGCTTGAACCCGGGAGGCAGAGGTTGCAGT
GAGCTGAGATCGTGCCACTGCACTCCAGCCTGGCGACAGAGCAAGACTCTGTCTCAAAATAATAATAATAATAATAATAATAGTACAAAATCAGCTGGGC
GTGGTGGTACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCACGACAATGGCCTGAACCCAAGAGGCAGAGGTTGCAGTGAGCTGAGATCATGTCA
CTGCACTCTAGCCTGGGCGATGGAGTGAGACTCCATCTCAAAAACAAAACAAACAAACAAAAAACTTCTACGAGATAATATCTATAAAGGAATACACCGA
AAAGAATAATGGGCAAATGGTGTGTGCAGGTGAATCACACCAGTAAAAATAAAATCGCTAATTAAAAGGTATTCCTAGTTGTTTTCTTGATTGCAAACAG
CAGAAACTGACACTGGTTTGTTTCCCCAATAAAGGATTTACAGGAAACCTATCAGGTTAGCTCACAGAAAGAACAGAGCCAGAGAAACAGGCTTGGGCAG
AAACCCAGGGACACAGACACCAGTAAGAACTTGCCACTAGAGTAGCAGCTGGACACTTGCTGCTACCACCCCCACACTGTACACCACCGTACTGCCACAC
TGCTAAATATATAGCTGCTAGATTCATTAATTCACTGCATTATCTCCAACGAACCGTGTATCAATACTTCTAGAGCCAAAGTCTAGGTAGGAACATATAG
TTGGTCTTGCTCTGTCACCCAGGCTGGAGGGCAGTGGCACGATCATAGCTCATTGCAGCCTCCACCTCCTAGGCTCAAGTAATCCTTCCGCCTCAGCCTC
CTGAGTAGCTGGGACTACAGAAGTGCACCACCACACCAGGCTTATTTATTTATTTTTTTAGAGACGGGATCTCGTGATGTTGCCCAGCCTGGTCTCAAAC
TCTTCCCGTCTCTGTCTGCCTGTGCTGAGATTACAGGCATGAGCCACTGCACCCGGCGGTGGTCTTTTTTAGGTCATGTTCCTGGGCTCTAGCTTCCAGG
GGTAGGAAGGGGAATACCTGCTCCCTGCCACCCTACCCAGTTTTCATAGTGGGATCTTGAGTGGTCCTGCCTAATTTGGTATCCCTTGCAGACAGGAAGT
TGGTTGAGATGTTGGATAGCAGAGAGACTGGCACATGATGTTCAACCTTACTCATACAAACAAAAAGTGCATTAATATGCCATCTTTTGTTCATCAAACT
TGTCAATGTGAAAAAGACTGGAAAACTCAACAGTATGTTGGGATTGGGAAATGTGCATTTCCCATTAGTTGCTGACAGGATAAAACCTTTCTGGGGGTCA
GCTTGACAATAGGTGTCATATATGGAMTACGCATACCCTTTGATCCAAGGTTTCAGCCTAAGGAGATAGCTACATGATGGACAAGGTATAGGTCATGATA
ATATTCACTGCACTGTTGTTTCTAATTTACGTTTCCCGAGCTTAGGGGTAAGGGGTGGTACAGAGAGGGACAATGAAAGATTCACTACAGAATGTTCAAG
GTGAGTCTTTAAGAATGATCATCTGAACATTCCAATGAGGAATTTTTTCAAGCCTGTGTCAAACTTTGAGGCTCAGTGGAGACCTATAAGACCTGTAAGC
TTAGTGAGAGGGGCCCAGACTGGGAAGGCAGTTCTTAGGTATCCCACCAAGAAGTTCAGATATTGTTTAGAGGCCGGGCGCGGTGCCTCATGCCTGTAAT
CCCAGCACTTCGGGAGGCTGAGACAGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACA
AAAATTAGGGCAACACGCTCGGGTCCCCTTCTACGCTGTGGAAGCTTTATTCTTTTGCTCTTCACAATAAATCTTGCTGCTGCTCACAAAACAAAACAAA
ACAAAAAACAAAAAACAAAAATTAGCCAGGTGTGCTGGCAAGTGCCTGTAATCCCAGCTACTCAGGAGTCTGAGGCAGGAGAATTGCTTGAACCCAGGAG
ATGGGGGTTGCAGGTGAGCTGAGATCCCGCCACTGCACTCCAGCCTGGTTGTTAGAGTGAGACTCCATCACACACACATACACACACACACACACACACA
CACACACACACACACACACACACGACATTGTTTAGGTATAAAGTTGCCAAATAATCAACCTGTTATATAATGGCTACCTTACTGGGTACCGAATAATGAG
TAAGATGGGTCTCTACTGGGTTGAAGCCCACATATTAGTGAAGGTGATGATTGTAAACTGAATTGCAATATGGTCAAGTCAGTGTCATGAATGAGAGGTG
CCAAGAGGGCCTGTGGAAGGGACATCTCCTGGAGGGGGTGATATCTAAGGTGGGACTTTAAGGATGAGGGGAAGTTAGCTAAGTAGAAAGGTTCTAAGTT
AGCTAAGGAAAGGTTCAAGGGAGAGGGAACGGCTCCAGCAAAGGCCCTCGAGTCTAGATCAAACTGCCCAGAAGTTGAGGGCCATTGCATTCACATTTTA
GTGTGAATAATCAGATGGCTTTCTTCCTGGTGTCCAGATAAGAATTTTGACTAAGAGGAGAGTGGAGCCGATTAGGGACAGTGCAGAGCACCCTGGAGAT
GTCATCATAGAGCCCTACTTACATTGGGGAGGGAGGTCAAAGGTAAAAACCATTTACTTTGAAACGTGGTGTAAGGTGGCCTTCATGTTTTAAARAGGAG
GAAGGGCTCTCCCTTCTCTGATTTCTCTCTTCTGCCTCAGGACTCAGACTAGCCCTTTTAGCAGAGGGGAGCCTATAGAGAGGAGGTCATATACTAGTTG
ATTTTGGACTAAAGGCATCCCAAAGATGTACTATTTTTTGCTCCCTGCACTATTTTTTTTTTAATGGAACCAAYGTTTAAAAATAGGATTTCTGCCTTCT
CTTAAAACATCAGATGATCTGGTAACGCTGAGCTCCTGTTCTCACATGGGAACAACTGGCTGGAGCTGAGTGGCAGCCACCTCTTTAGAAAGATGTTAAT
TTGAAGTCTGCTATAGTCCCCATCATTCCTTATATTTCCCCCAACACTGAGACCCAAGTCACTTGAAAGTCAATATGATGATTCAAACACCAGGATTCTT
CACTCATTTGTGGGTTTGTGACCTGTGATATTTGTGGATTCGTGACCTTTGGTTTAGAGGTCAAGTATAGGGGTTGTAAATAAAACTTGGGTTTGAATCA
GATAAGAACTGTACCAATCTCAAAGACGGTGAATTAAAGATTAAAGAAAATATTGCATGYTTGGCATAATGTGTGGAACACAACAGCTATTGTAAACACC
CAGTAGGAATGTAAGCTGCAAGAGGGCAGGTAGAAACCGTGCTAATTTAATCCGCTGGGGATATGACATTTGATTCTAATTTAATAGGTTTAATTCTTTG
CAATATCCCCAGTAACTGCTGAATGAATGAGTGAGTGAATGAATGAATGGAATGATGAATGATGGGAGAGCCCGGAGGAGTTTTAAAGGCTGGAATGAAA
AGGAAAGTAGTTATGATAACAGCGTTTCGCTGGGACTCCAAGGTGCAGCCAGGAAGAAAAGCCCGCTGGGACGTGCCAGGGTCTGTGACTGCGCTCCGCT
GGCACCCAGAGGGTAGGTATCTGCAACGTCCCTTGGGAGCCAGACAGGGCTGACTTGCCCAGGACCTGTCAGGGCCATGTCCACCAGCTCTTGCACGGTC
TGGTAACTGACAGCATCCTGATTCCTGCACGTTCCCGCCTCTGCCATCTGACCAGCAAAGACAGAGACCCACCCCGGGGATCCACCATCCAACGGGAGCC
CAGCCTTTTCCTCCAAGCCGGGACGGCGCCCACACTAGACATGGCCTCCCTCGGGCTTCACGCAGCAGGACCGCGCCCGCAGCCTCCAGGCATCGCGTCC
GGCTGGAGAGGCAGCTACCGTCCCACAGTGAACATGGCGGCCGAGGCGGCTTCAGCGCCGGGCGGGCGGCGCCGGGAGGCACGTCACGTGAGCGGCTCAG
CTGGGCGGACCGCGCGCGCGCCCGCTGGCCCCGCCGGCCGCCGCTCGCTCGCTGGCTCGGCTGCGCTTTGAGGTGTGTGGGGCGTCGAGCCCCCGGGCCC
GGTGAGGCGCGGCGCTGCGGGATGCGGCGGCGGCCGTGGCGGGGCCGCGGGCCGGGCGGGCGGGCGCGGTGATGAGTGTCTGCGGCCGCCGCCATGTCCA
AGGTAACGGCGCCTGGGTCCGGGCCGCCGGCGGCGGCGAGCGGGAAGGAGAAGCGCTCCTTCAGCAAGCGGCTGTTTCGGAGCGGCCGCGCTGGCGGCGG
CGGCGCGGGGGGCCCCGGGGCGTCCGGGCCGGCCGCGCCTTCCTCGCCCTCCTCGCCCTCCTCTGCACGCTCGGTGGGCAGCTTCATGAGCCGCGTTCTC
AAGACGCTGTCCACGCTCTCGCACCTTAGCTCTGAGGGCGCCGCCCCAGACCGCGGCGGCCTCCGCAGCTGCTTCCCGCCCGGGCCGGCCGCCGCGCCCA
CGCCGCCGCCGTGCCCGCCGCCGCCCGCCTCTCCCGCGCCGCCCGCTTGCGCCGCCGAGCCGGTGCCCGGCGTGGCGGGGCTCCGCAACCACGGCAACAC
GTGCTTCATGAACGCCACGCTGCAGTGCCTCAGCAACACCGAGCTCTTCGCCGAGTACCTGGCGCTGGGCCAGTACCGGGCGGGGCGGCCCGAGCCCTCG
CCTGACCCGGAGCAGCCTGCGGGCCGCGGCGCGCAGGGCCAGGGCGAGGTCACTGAGCAGCTGGCGCACCTGGTGCGGGCCCTCTGGACCCTGGAGTACA
CCCCGCAGCACAGCCGCGACTTCAAGGTGAGCCCGCGCGCCGCCGCGCCCCCACTGCACCCCGAGCCCCTGGGGCACCTGCCCGCCCAGGTCTTCCTTCC
CTCGGTTCCTCTTGGCCCGGCAGGCTTCTGCATTGGTTGCTCCGAGTGGTCTGGGCAGTCGACCAGTGATTTTAAGGAGATTCATTCATTCATTCATTTA
TTCACTCACTCACTCACTCAAACATGTATTTATTGAGAACTTACTACATACGTGCCCATACTCTGTGATAATAGGCAATGGGAGTGACGTTGCAATGAAC
AAGACTATCCGCCTTCATGGAACTTGCATTTTTGTGGGGTGGGAGTGTTGAGCATGGGTTCAAATCCTGGTTCTGCCACTTACTAGCAATGTGACGTCGG
GTAAGTTAAGCAGCCTCTCTGTTCTTACAGTTTCTTCATCTGGGGGACCTACTTTGTAAGGTGGTTGTGAGCTGCAAACAAGTTAATATATTAAATCGAA
CACTGTGGAATTACCCATATTTAACCGTTTTTTATTTACAGATTGGCACTTTTATAGGGTTCAACCTGATAAGTAAAATACTTCCATATCATGTGTATTT
GCTGCTATTATTTTTGTTATTAAAGACTTGAAGAAGTTAACGAGATAATATCAGATAGTGGTTTGAAGAAAGAAAAACCTGCTGCTGTGATTGATGTGCT
GACAGGCTACTTTTTATTTTTATTTTATTTTTAGAGACAGGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGCTCACATAGCCTCAAACTCCTGGGCT
CAAGCAATCCTCCCGCCTCACCTTCCAGAGTATTTAATAGCTGGGACTACAGACACACACCACCATACCTACCTATTTTTTATTTTTAAAACACTTTTGT
AGAGACGGGGGTTTTGCTGTGTTGCCCAGACTGGTCTTGAACTCTTGTCCTCAAGCCACTCTCCCCGCTTTGGCCTCCCAAAGTGCTGGGATTACAGGGG
TGAGCTATACATCCCTGGGGGTATGTATGGCCCTTGGCCAAGCCCTCCTTTGCTGTTTGCTGGTGGGGCTGCAAGTGTAGTGAGAGGGTGAGATTTGAGA
GCCGAGTGGTGGGCTGGGACCGGATGGTATGGGACCATTTAGGATGCACTAAGAAATTGGGCGGTTACTCTAAGCAGAAGGGGAACATGATGTGAGATTG
TGTAAGGGATACTTTCAGGTGGGACATGAATATGGTATTAAACAGCATGGAATCGGGCGGGGCGCAGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAG
GCCAAGGCGGGTGGATCACCTGAGGTCCGGGGGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGACGGGCGT
GGTGGTTCATGCCTGTTATCCTGGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGACGTTGCAGTGAGCCGAGATCGTGCCATT
GCACTCCAGCCTGGGCAACAGGAAACTCTATCTGTAAAAACAAAACAAAACAAAAACAGCGTGAAGTCACACAGGGAGAAGGTTAATTCCTTTTTTTTTT
TCCTATCCTAATCTTGCCCAGGACGAAGTCTCAGCTTGATGTTAGCCTGTTTTTAATACCTCTTGTTCACCCCCCACCCWTTTTTTTTTTTTTTTTTAAA
CAGAACAAGCTTCAAGTCTAGAAGCATTGGCAGGTAACAGTAGCTAGAATTTAATAAGGTTATGTTTTTATTGGGTTTCCATTTGTCTTCAATTCATGGC
AAAAGGTACTGGTTTCCCATTGGTGCTATAAAGCTTCTTTATAACAACATTTAAGTAAAAGGAGATGATTTTGTTAAAATATGAAAAGGTCATCTAGCTG
AGGATCTGCTTTGTTAAGGTCCTGCTTTCTTGCTGACGAACTACATGGCCAGTGTGCATCTCTCCCCGTTTAATACTTTTTACTTACATCTTATGCTGCT
CAATGCTGTTTTTCTTGGAAAAAAATCGTTGCTGTTTGATCTTGGCAATTTGAATGGAAGTACTTGACTGAGATAGGGACTGGAAAAAAAGATCTATGTC
AGTGATCTCAAAATTATTATTATTATTATTATTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGGGCAGTGGCCTGATCTCGGCCCACTGCAAC
CTCTGCCTCCTGTGTTCAATCAAGCAATTCTCCTGTCTCAGCCTCCCAGGTAGCTGGGACTACAGGCGCCCGCTACATGCCCAGTTAATTTTTGATCCAC
CTGCCTCGGCCTCCCCAAGTGCTGAGATTACAGGCGTGAGCCACCGTGCCCAGCTGAGATCTCAAAATTAGAAAGGGAGAATGATCAGGAGAACTGACTA
CTGTAGGTCCACCCCCCGCCCCCCACCCCACACTGCCCCTCTTTGCTTACAATTGCCTGTAAGTAGCCACAGCATTTGTAAACTTTTCGAGGTCAGAGCC
TAGTATTTAAGTTTGGTTTTCTCCTCTTTTCCAAAATGTGAAAATCAGTTTCTACAGCATCTTTGTATGTGAACATTTCCATTGCTTTTTATGAGTTTGT
GTTCACTTTTTTATCCATTAAGCTGTGAACAGAAATGGGTCAATAATTCTAGAAGTACAGAGACTGATTTATAGGCATGCTTTGGCAGACATGAACAGAT
TCTTAGAGGCCTGGCTTTTTAAAAGTAATCTCCTGAACCTTTAGTAGGTTTCACTCTACATTCATTCATTCACCTCCCATTTATTGAAGGCTTACTTAAT
CAGTTAGGAATGCCTTCAGCCCAAGAAAGGAAAATCCCTAATGATAGTGCCTTAAGCAATGAAAACGTTGCAATTGGCAATTGGCACACACAGTGATTCC
GGAGGTGGATGGTTCTATGGTTCAGTGGCTCGTTGGGCCCAACAAGGATTCAGACCATTTCTGTATTTCCACCTGTTGTCTTTTTAGCTATCATTGGCTT
TTTGTTCTTAGGTTTGTCACCTCATGGTTGTCCAGTGATGGCAGCCACTGCACCTGGCATTCTACCCAGGACGGCAGGAAGTCATTAGGGAAATAAAAAT
TCTTCCAGAAGCCCCCTCAGCAGGCTTCTGCTGATATTTCATTGGCTATAACCATGTCAATTGGCTGTCACGGAGGCTGGAGGGTGGGCATTTGGGTTTT
CCTGTCTTCACAGAGGAGATGAGTAAAGGAGGGGTTTACCTCCCAGGGAGCTATGAAGAGCTGAGTCGAGTAGGATCTAGGAAGTTCCCTGAGACAGCGC
TTCTCATGCGTCAGTGTGCACATAATTCACCTGGGGATCTTGCTACAAAGGAAATTGAGATTCGGTAGAGCTGGAGCGGTGCCCAAGATTCTGCATTTCT
AACAAGCTCCCTGGTGATGCCAGTGCTTTTGGCTCAAGGACCATCCTGTGTATAGCAGGCATCAAGGAACAAGGAAAGCATTACCAAAAAGGTGGCTCCT
GAGCAGTGTTCTGAAAGATGAATAGAAATTTGCRGGGCAAGGAAGTGGTGGAGTTGCATGAAAGGGCGTGTGGTTTTGGGGAATAGACATTTAGTGGCTG
GCTGCACCATAGAGAGCAGTGGKGGTGCAGGAAGCCTGGGAGAAGAGTGTTGGAAACTCACTGTGAAGGGCTTCGTGAGCTATGCTGGTTTGGATTTCAT
CCTCTGCAAGTTGAAAATCCAGAGGTGATTTTTAAGCAAGGAAGTGATATAATTAGATTCTTTTCCCCTTTTTATTCCCCCGGTTAGGTAACTCTGGCAA
ATTGATTACTTTTTAAAAAAAGGTTTTATTTTAGCTAAATTTGATGGGTATTATTTTGAATATAAAGAAAGTTGAATGCTAAGGCAGGACGCAGTGGCTC
ATGTCTGTAATCCCGGCACTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGACCAATAGTTCCAGACCAGCCTGGACAACATGGTGAAACCCCATCTCTA
CTAAAAAAATACAAAAAGTAGCCGAGCGTGGTGGCACACACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCACGAGAATCTCTTGAACCCAGGAGGTGG
AGGTTGCAGTGAGCAGAGATCATGTCACTGCGCTCCAGCCTGGGTGACAGAGTGAGACTCTGCCTCAAAAAAAGGAAAAAAAAAAAAGAAAGGTAAACAC
CAGAAGGTGGACCTGAGGCATACCTCACTGTGCTTCGCCTGCTTGGGGTGGACATCGTTATTTCATTCAGATATTCTTCACTTTCACATCGCTCACATTC
AGCCTTAGAATCCTGCTCAGTTCTAGAAGGGCTCCAGGCAGCCACCACCACCTAGTTGAAGTTGGCAGAGGAGATAAAACCAATTTGCCATCTTGAGATA
GTTACCTTGAGGTTAGAAAAGCACTTACTATGTCTTTGTGCTTTTATTATCTTAAAACTTTAAGTTACTAATGCTTTTCTTTGTAAGTTTTTCAATTAGA
GTTCTTTCTTCCTTTTTAACCACATTGATTTGAGTTTTAGGAGCTTGCCAAGTAGATGGTTTTTGGTTTTGGATGGGCTAGATGGTTGTTAAAGTTGGGT
TTTCATTTCCCAGGATGAAATGAGTTGACTAGCTCAACCTTGATATGCTGTAAAAAATGTCTCTAGCCATTACCTTTATCCTTTCTCTTTTCACACAGAT
TTTTTGTTTGTTTGTTTCCTACTCTTAGAGCACTGGTTTTCAACACGGGCACTTTTGCCTGTCCTCACCCCACCCTGCCCCCACCCCCTGGGACATTTGT
CGATGTCTGGAACCCTACTTGGTTGTCACAGCTGGGATCAGGGTGCTACTGGCATGTGGTGGTAGATTCCAGGGATGCTGCTAAATGTCACACAATGTGC
AGGACAGCCCCCCTTACTAAAGGGTTTTCACCCCAAAGTGTCAGTAGTGCTGAGGCTGAGAAACTGTTTGGAGGAAAGTTTGGAGACTCAGCGCAAGTTT
CCTTTTACTTCCCCAGCCTTTAAAATGGTTACCTTGTTATCTCTCGCGCTCTCTCTTTCTCTCTCTCTCCCCCCCCCCAACCTCTCCCTCTCTCTTTCTC
CTTCTCTGTCTCTGAGTGTGTATATGTGTTTGCAGCAGCACTAGGGTAAAACTTGGGCTTCACTGGCAGGACCCTTGCATCACTTTCCTAGTAAAATAGT
GAGAGTAAATAAATCACTTTGAATACATAATATGCCATTTTAAAGGGAATCAGCTTATTGCTTTCATAGGAGCATGGGTGCCCCAGATTCTTACAAATGC
TTTCTGAGTTTTAGAGCTCAGAGCCGTTTTGCAGCAAGTAAAAAGATGGATGGTCATCTTTCAAGCAAGAAAGATAAATTTTATGGCAGCAGTTTTTAAA
TTGTGCTGGCAAAGAACAGCTAGCACAGAGTGATCTATTGATAAAAGAATTGTGGGGACTCCTTCCAGATTTGCAGTGAAACAAATGGTAATTGATGAAT
AGAATTCTCTCTCCCATTTTTTTTTCCTTGAACTTTGGTGCCTTGTGGTGCTTATTTATTAGTGAGAATTCTCAAGTCACAAAAGGAATAAACTTGTATA
AGAGACTAGTGGTGAACAACCTGGCAATCAGAGGCTCACACTTGCTGAGTTTCCCAGCCTGCTTTTCCATGCACTCATGCTGGGGGTTCTGGTGCTATGC
TGCAAACCCATGGTACACAGTTTTTTTCTKGTTAGTGTCAAGCTCTTTAGTATACTGATACTTCAGTGTTTTCCACAAAGCACACTGACTTCAGGGTGTC
CCTTGGAAAAAATGAAATTGTGTAGGTCACATTTAGCTTTGTGACAGAGTATAAAATAAAAAGTACATCCCTTCCTGGTCAGTTCTCTGGTCCATCAAAT
GCCATCACTTGAGTTTTAGCAAAGCTCCACACCTCTGAGGGAGAAAGTTGATAGAATCATGAAGTTTTAGACTTGGAAGCAGACTTGGATGTGGTGTGAG
TAGTYCCTAGCCTTTCAGGATGTGGGAACTGAGTTCMCCCMCTAGCTAGAGGTTGAGGGAGCAGAACCAGAATTCTGACTTCCACTGACTGTGAACTCTG
TGTACCCCTGCACTGCTGGTGCACAAACTGGGTCCTGGGCCTGGGTGGCCTTATCAGTACAAGCAATGAAACGACAGGTCTCAACATAACACGTACATGG
GCAGAGGGGACGTGCTGAAACGTGTAACATTTTTTCCTCTGAGACTGTGGTGCTGAATTGGAGTGAAAATAAGGTCATCTGCAGCTAGCTTCACGTTTGT
GCCATTGCTCCTCAGGCTTAGGTGTTTTTGGAAGTCTTTCTTAAAACACATTCCTTTCAGACTGTTTCAACACGTATATCAACACATGTGGATCTCTCTC
CAGTAAGCTTTGAGCTGATGTTTACCACATCTTACCAAGTTTGGTAAAAGTGAAGTGTAAGAATTACAATAAATTTTCCATGAGGACTAATTGAGGAATA
AAAATACATGGGATAATTATGAACTCCATATTTTGGACCTGAATCACATTTGCTGCACAGTTATTGTTAGTTTAGGTAAAGGGGCTGGGAATACAGGATT
AAGTACAAAGGTTATAGGACTAGGTTCATGCCGTCAGAGAACTTAGCTGCTTATAGAGAAGCTGTTTTAAGTTGTACTGATGAGGAAAGTTCACTGGGAG
CTGAGAGAGAGGTGAGATCATTGTGTATGAAAGTGTAAGTAGAAAGATTTCATTTATTCATCCTTTTATTTGTTGTCAGCAATTAAGCATCTACAAATTT
GATTTTCTAACTCCATGCCACATATTGTACAAGTCATTTGTATATAGTGGAAAACAAAGTGATATGATAATGGTAAAAAAATTGTAAAAGGCCATGTGGT
CCCTTCCTTTACGGAACTTTTATTGCCACAGAGGAGGCAGATATTATTCAATAAACACTGGTAAATATGAAATTAAAAATTACAGTAGGCCAGACATGGT
GGCATGTGCCTGTAATCCCAGCACTTTGGGAGGCCGTGGTAGACAGATAGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACAGGCGAAACCCTGTC
TCTCCAAAAAGTACAAAAATTAGCCGGGCGTGGTGGCACACACCTGTGGTTCCAGCTACTTCGGAGGCTGAGGTGGGAAGATCACCTGAGCCAAGAGGTC
AAGGTGTGGTGAGCCGAGATTGTGCCACTGCCCTCTGGCCTGGGCTACAGAGTGAGACCCTGTGTCCAAAAAAAAAAAAAAATTATTGTATAAATGCTAA
AGAGAAATAGATAGGTGTATGAGAGGGAATAATGGGTGTGACCAGGCAGGAAGAATAAAATGCAGAAGGCGCTATAGTTGGAAAGAGCTGAGGGTACACT
TGAAAGTCTGACAGATCTTGTTTGCAGCTAGAGAGCCAGGAGGAGAGCGGGATGGAGGAGGTGGAGAGGCAGGGGCCAGGTAGGCAGAGGCCGAGTCTGC
CTTGTGTAGCTATAGTGCCTTACAGACCAAGGTAAGGGGTTTAGATTTTATTCCAAGAGTCATGGGGGCTGTTATAGGCTTTAAACAGAGTCCTGGTATG
ATCTTGTGAAAATGTGAAGTGGTTATTCTGGGCACTGAATAGTGAGTAGAATGGAGGCAGAGACCAGTCAGGAGGCTTTTGTGATGGACTGGGTAAAAGG
GATGGTGGAGGGAGGTGGAGAAGTGGATGGATTTAAGATGTGTCTGGAGGTAGACTCTTGACAGAACTTGCTAATGGATTGATTTGTGGCAAGACACTGG
AGCAGAGAACGTTGAGGAGAGCATCCAGAATAACTCCCACCTGTTTTCCTGAGCAACTGGGTGATTGCTGGGGCTGTATACCTATTTGAGGAGAAGGAGT
TTTGGGGGAGTCAGGAATTCAGGTTCAGATATGTTAAATAGTACACTCAGGAGATGTCTAGTAGGCAGCTGGGTAAGGAACTCAGAAGATAAGATAAACA
TTTTGGAGGCGTCACCACTGGATGGTATTTAAAGCCATGGGCTATAGACTTAGAATGGGATTTGAAGATAAATAAAACATTGATAGTTAAGGGGAAGAGA
GACGACATTCTAAGTTGCTAGGGAAATATTCTGAGCAGAGGTATAGATATAGCATGGTCTGGGGACAGAGAGCCTTGATTTGGAGCAGATTCTCGGCCTT
GGCACTCTTGCTATTTTGGGCTGGCTAATTCTTTGTTGTTGGGGGCTGTCCTGGCACTGTAGGATGTTTAGCAGAATCCCTGGCCTTCACCCACTAGATG
TGGTTGTACTCCCCCCTACTCCAAGTCATGACAATTAAAAATGTCTCCAGATACTGCCAAATGTCCCTCGGCAGCAAAATTGAGAACCACTGATTTGGAA
TGAAGGGGAGATAAATTTAGATAACTGGGGAGAGGAGAGGGGGCACATTATGGATGGCTTTGAGAGTCTGTCACAACAGTTTAGCCTTGAGGCTGCAATC
AGTAGTGATTCAATTGAGCCTTCTTGAGTTGTGCAGAGAGATTGATTTGATGAAAACGATTTTAGAAAAATGGGTCTGATGGTGAGTGAAAATGAATCAA
ATGGAGGAGAAAATAAATACAGCGAGAAAACAATCACAGGAATGAAGTGAGGAAAAGGAGGAGGAAAGGTGAATCCAAGTGACATTTTGGAGGACATTGG
ACATTATTAAGAAAACTACAAGAGGCGTAGTGGTAAAGGGAATACTGAGGTTTCAGGCCAAGGTGATAAAGAAATAATAGGGATATTTGATATAAATTTA
ATAGCTGATAGAAATTGAGCACTTAGAAAGGGAAGTGGTTTGTGGAGCATGAGGAGCAGAAAGATTGTGCATTTAATTTGAATATATGGGGTTGGGAGCC
ATAGGATATGACCTTCCCACTTAAGAGAGGAAGCCTTAATAGACAGTTGGAAATCAGGTGCAATTTAGGACTAGCTGTATAGACTTGGATTCAGCTGCAT
AGAGGTGATAATTGAAGCCAGGAGCATATTTAGAAGGTCTGAGGCCCATGACTAAGCCTTTGAGGGAAACTAAAAATGAGAGGACAGGAGGAGAGAGAGG
ACCTCTTAAGGGGCAGTCAGAGAGGTAGCAGGAAAACCAGGAAGGCAGAGTCATGACACCTGGTTTGCTTTACAGTTTGACTACCTGCTCTTAGCGCTGA
ATACAGCGTAGAGCTGCAGAAATATCAGTTTATTTTACTTTATTTTTTATTTCGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGCAGTGCAGTGGTGTGA
TTAGCGTGATCTCGGCTCACTGCAATCTCTGCCTCCTAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGGGCATCASTG
TGCCCAGCTAATTTTTGTATTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGGTGGTCTCGAACTCCTGACCTCAGGTGGTCCACCCGCCTCGGCCT
CCCAAAGTGTTGCGATTACAGGCGTGAGCCACCGTGCCTAGCCTGAATTATCAATTTATGCCCATTAAGAAACAAATCAGGTTGGTATTTTGCAGACAGG
ATATATAGATTTATTAAGTCTACAGATTTATTTAGCACATTTTCTGTGCTGGTCCTGCATTAGAAGGCACTGGGGATATGAAGATGAGTGAAGTGGCCCA
TGCCCTCAAGGAATTCAGGGTTTAGAAGGGAAGACAAATGGGTATAAAAATAATTGCAATAGGATAGGACGAGTGCTGTGCAAACCTGGGGGTGAGGTCA
CCTGAGGGAGGAATGGGGCCTGTGAGGTGACTGAAGAAACAATACCTGCTCCGTGTCTTGAAGGATTTGGTAGGAATTTTCTAGGTGGATAGTGGAAAGG
TGGGAAAGTCCTTTGCAGGGCAGCAAACCCTGTAAGTGCAAGGGTTTGGAACCTCAAWCAACATGGCTTCTTCAGAAAATTTCAAGGTCTAGGGTGGTTG
TAGCAGAAGGGTACAAGGTACAAGGTAGRATGGGAGGAGGCCCACTGAGTGATGGTTTGAGCAGGGCTGGATCTGGAAGTCCTTCGGTGCCATGTTGCAG
AATGGCATTCTGCAGAGGTAGGCACCAAATAATTTTAGACAAGCTTGTGGTATGATTGTCTTTTTTCTTTTATTTTTAAAAGAATGGTCACTCAGACTAG
GGACATGGAGGATGGGTTGAGTGATGATGAGAGAGGGGAAGGGACAGAACCTGGTTCAGGACAAACAGTATGTATCTTAGCCTCTTTGAAACTGGTTACA
TTTGGGAAACTGAAGCAATTTAGAACTGTTCAAAGATGATAACTTCTATTTTAGACATGTTTTATTTGTGGTCCCATGGTAATTCATGAGGGGAAATATT
TGGTAGTTTAGGATAGAGTTTTGGCTAGAGATTTCTATTTGTTATAACACTCCAATTCTGAGATTTTTAAAAAATGTCTTCCCAACCAACGATGTAAACT
AGCACTAAATCTGTCATTCTGATTTGACCTAGTTTGGTTCTTTACACATTTGCAGGGGCAGAGCTTCAACTTGAACTTAGGGCAGTGTGACATACATGCT
CTTACTCTGGAACACGTTGCCCTAAGGTGCCATTGATTTACATTTTTGTACTTCTTGTCCGCTTACGATATTTTATATGGTTGTTATTCTGGTCAGACCA
CTTTGGATTATGATTTTTAAATGCAACTTGTAAAACATTTTTTACATGTTTCTAAAGAACATTTGTAATACTGTTTAATGATTTATATGATATCACTTTG
CTAAGTGATAATTTACTTATTCTGTCCTCTTCCTTTGGACGTTTTCCTCCCTACTCTTTTTTTTGTTTGTTTGTTTTACTATAATGAACATGAATCGTGT
TAATAACTTTTTGCTTTGTTGGATTGTTTCTTTAGGATACATTTCCAGACATATACTTAGAACATCAAAAACGTATGGACATCTTTTTGATTTCTCATGT
GTTATATTATGTCGCATGTGTTATGTTATATGTATATATATATATGTATAACACATATATATATGTCATGTGTTATATTATGTAGGGAGGAAAACGTCCA
AAGGAAGAGGACAGAATAAGTAAATTATCACTTATCAATGTGATACCACCATATAAATCATAAAACATTAAACAGTATTACAAATGTTCTTGTTTGAGTT
CTTGTTTTCTTGAATCTGTTTGAGTTCTTGTTTTCACTTTTTTCAGATCATATAATTCTATGTTTAACTTTTTGAGGGACTGTCAAACTATCTTCCACTA
ACTGCACCATTTTACATTCTCACCAATAATGGATGAGGGTTCTGATTTTTCTGCATCTTCACCAACATTTGTTAGTTTCCATTTGTTTTTGATTATAGCC
ATCCTAGTGGGTGTAAAGTGGTATCGCATTGTTTTTTTTGTTTGTTTGTTTGAGACAGGGTCTTGCTCTGTCACTCAGGTTGGAGTGCAGTGGTTCAGTA
ATGGCTCACTGCATCCTCAACCTCCTGGGATCAAGGGATCCTCTTGCTTCAGTTCCCCTGAGTAGCTCAGACTACAGGTGCGTGCCACTATGCCTGGCTA
ATTTTTGTGTTTTTGTAGAGATGGGGTTTTACCTTGTTGCCTAGGCTGGTCTTGAACTCCTGGGCTCAAGTGATCCACCCGCCTTGGCCTCCCAAAGTGC
CGGGATTACAGGCATGAGCCACCACACTAGGCCTCATTGTGGTTTTGATTTACATTCTCCTAATGAATAATGATGCACTTTTCAAGTGCATATAGTTCAT
TTGTATATCTTTGGAGAAATGTCTATTCAGGTCTTTGCTAATTTTTGAATTAGTTTTTTGTTAGTGGTGGTGATGAATTGTTAAGAGTTCTTTATATATT
CTAGATGTTAATTTCTTATCAGATATATGAATAGCAGCTATTACCTTCCACTCTGTCATTCACTCTCTTGGTAGTGCCTTTTCAGGCACAAAAGTTTTTT
TTTTTTTTTTGAGATGAAGTCTTGCTTTGTTGCCTAGGCTGGAGTGCAGTGGCACGATCTTAGCTCACTGCAGCCTCCGGCTCCTGGGCTCAAGCAATTT
TCCTGCTTCAGCCTCCTGGTTAACTGGGATTACAGGCGCCCACCACCACGCCCAACTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGG
CCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCGCCGTGCCCAGCCAAGTTTT
TAATTTTGATGACGTCCACTTTTTCTAGTTTTTCTTTTGTTGCCTGTGCTTTTGTTCATATTCAATAGATCATTGCCAAATCCAGTGTCATAAAGCCTCT
ATGTTTTCTTCTGAGAGTTTTATAGTTTTAGTTCTTATGTTTAGGTTTTTGATCCATTTTGAATTAATTTTTGTATTAATTTTTGGTAAGGGTCCAACTT
TATTCTTTTGCATGTGGCTGTCCAGTTTTCCCAGGACTATACCCTGGTTGACAAAATTGTGCTTTCCCTGTTGAATGATCTTGGTACCCTTGTTGAAAAT
CAATTGATCATATATGCGAGGGTTTATATCTTGACTCTGTGTTCTATTCCATTGATTTATATGTCCGTTTTTATTAGGCATTATCTTTATGTATCTTTAC
CCCACTGTTCTCATTGCTGTAGCTGTGTACAGTAGTAAGTTTTGAAATCAGGAAGTGTGAGTCCTTCAATTTTGTCTTTTTCGAGATTGTTTTGCTTCAG
TGTCTTGAGATTATTCCATATTAATTTTAGGATGGACTTTTCTATTTCTTCCAAAAGATGCTGTTAGGATTTTGACAGAGATTGCCTTGAATATGTAGAT
TGATTTGGGTAATATTGTCATCTTAACAATATTAAGTCTTTTAAGCCATGAAGATGGGATGTCTTTCCATTTATTTATGTCTTTAATTCCTTTCAACTAT
GTTTTGTGGTTTTCAGTGTACTGTTTTTTTCCTTCCTTGGTTAAATTTATTCCTAAGTATTTTATTCTTGTTGATGCTATTGTAAATGGAATTATTTTGT
TTTATTTTTGGATTGTTCATTACTAGTATATAAAAGTGCAATTGATTTTTGCATGTTGATTTTGTATCCTGCAATTTGCTGAATTTATTAGTGCTAACAG
ATTTTGGTGTGGAATCTTTAGGTGTTTCTACATACAAGATCATGTCATTTGTGAAAAGAGATCATTTTTCTTCTTCCTTTTCATTTTTAATGGCTTTTGT
TTCTTTTTCTTGCCTAATTGCTCTGGCTAGAACTTTTCATACTATGTTGAATAGAAGTGGTAAAAGTAGGCATCCTTGTCTTGTTTCTTGAGCTTAGAGG
AAAAGCTTTTAGTCTTTGACCATTCAGTATGATGTTAGCTGGGGGCTTTTTTATATGGTGCTTCTATCATGTTGAGGAAGTTTCCTTGTATTCCCAATTT
GTTGAGTGTTTTTTTTTTTTTTTTAAATCATGAAAGAGTGTTGAATTTTGTCAAATGCTTTCTTCTGCATCAACTGAGATGATCATGGTTTGCTTTTTTC
TCATTATTTTGTTAATGTTACGATCAATTTTCATATGTTGAACGTCCTTTCATTCCAGAAATAAATCCCATTTGGTTATGATGTCTATTTAGATTTTGAA
GACTGTTTTTGATTTTTAAACTTTATAAGAGCTCTCTATAGAATATGTGTGTGTGTGTGTGTGTGTGTATAAGGTAACAACTTTAAACATTTGGTACATT
TGATAAAAATATTTCCCTCATTCTCTTCCTCTTTTAGTTTGGTACTTTTGTATATTACAGAAAGTTTTAATTTATATTTTTTAACCTGACCTTTTCCCTT
ACTGCTTTTGTTACTATATAGCTGAAAATGGTATTCTTGTATATAGGATAATTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTAGCTTTGTTTCTACT
GTGTTCTAAAATATTTACCTCTTTAGAATATGGAGTTTACTTTGGTGAATGTGTACAGTGAGGATTTCCTTTAAGGTTTGGTATTTCCCATCTCGTGTAG
TATAGTGAGTGGTTAGTGTTCAAATCCTGGCTGCACCACTTGCTAGCCTCGAGACCTTTGGCACTTAACTCTTTGGGCTTAATTTCCTCATGTGTAAAGT
GGAGATAAGAGTATATCTGTTTCATAAGGCTGTTTTGAAAACAAATGAGAGAAAAACTTGGCAGGGGGCCTGGCATGCCATCAGGGCTCACTGAGAGCTA
ACTGATGTTGTTACCATTGTTACTCCAACCTTATGATCATCCTGCTTATTTACAAAAGGTTTCTCTGTATTTAGAGTTACGGTTTATTTCTGAATTTTGT
ATTCTGTTTCATCAATTCTTTTACTGGTGCTGTTTAGTGTTATTGTTGCTTATTCTTCTTTCTCATGCTACTTAAAGTTTCTCTAAATTTTAGAATCATT
TTGTCAAGTTTCAAAAACAAAGTAATCTGTTCGATTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAGAGAGAGAGAGAGAGACAGGGTCTCACTGTG
TTGCCCAGGCCGGAGTGTAGTGGCATGATACTGGCTCACTGCAGCCTTGACCTCCCAGGCTCAAGTGGTCCTTCCACCTCAGCCTCCCGAGTAGCTTGGA
CTACGGGTGCATGCCACCACGCCTGGCTAACTTTTGTTATTTTTTTGTAGAGATGGGTTTTGCCATGTTGCCCAGGCTGGCCTTGAACTTCTGGGCTGAA
GTGATTTGCCCATCTCTTCCTCCCAAAGCGCTGAGATTATAGGCATGAGCCACTGCGCCTGGCCAATCTGTGTGAATTTTAATTTTAAATATATGCATTA
ATTTGGGGCAGGTAACCACGTTTGCTGAATGCCTGCCTGTCACTGATAAAATCAACAACTTTCCACAAAATATCAACTAAAAATGCTATAGTAGGAAAGC
CTGAATTGACCGATAACTGAGGAAGAAATGGAAAGCTATTAAAGAACTGCCTGTTCCCTCAAAGGGTAGCAGGATTGGATGGATTTTTTCATACATTCTT
CCAAGGATCAGATAATCCCCATGTTGTATGAACTGTTTAAAAACATATAAAAATCAGTCTCAGAGGCAAAATGATTCGGTTTCCTAAATCCATTGCCGTC
TCCCCCCAACTCCCTCATGTGCAGTGATTATGTCTTATTCAACATCGAATCTCTGTGCCTGGCTTGTAGGAGGTGCACAACGTGTTGATTAATCTGAGAG
GAACGTGGCACAACCAAAGACAGCTTGCAGAGCAGCCAGCCCCAGCCTCTGATGTTATAAATGTAGATGTGCTGGTGGTGGGCCAGTTCTGTCGTGGGCT
TGGGTCAGACCTCACTTGAGGACTGTGATTACTCTTGGGCTTTAAGCTTTGAGAGGGGAGAGGAGAAATTAGAAAAGGAAATGGCGGGCCTCGTATACAG
GATTTATGAGCAGGTTGTCTGAAAATAGGATGAGTTGCCTCACATAATAGTATTTTTCCTATCATCACACAAGCTTAAGCAGAGTCTTGGGTGATACTGT
AGGGGGGCAGTCACATGCTTCRTAGTGGATTGGGCTGGATTCACTTACTTTCTTTTCTTTGTCTCTTGCTGCTTTCTTCTGACTTTTGAGCTTATAAAAA
TGTATGTTAGAAGCAGTGTTGACAGTGTTTGGCAGCTTTATGGGTGTGTGAAGAGTGGATAAGGAGGAGGAGATGAAAATAACGTAGAGGTTTTAAAACG
GTGTTTGGGGATGGCACTCTTGACGATTGGAAAAATAAAATGGAAAGCCATTCTGGAGGTGGGTGGATAAGTTTCGTTTTGGTTGGGTCATACAGTATTT
GAACCTAAGAATCCCAAGAAAACTTTTATTAAAAGCTATATTTATTGAATGTTACCATTTTCAGGTACTGTGCAATGTGAATCATTTAAGTTTTTGGTGA
CCCATGTAGAAAGGAACTGATCTAGTCTAAACATGGAACTATCTCTTAAATCAAGATAACAGCTGTAATCATATAGATGCTTTTCCTGAGTTAGTTGTTT
TAYGTCTTCCTTTGTGTGACTTAAAGTTTTTAGTTTGACTCTGCTACTTTTGTTCTATTTGTGCGTGGCTTGATGGATTTTTCCTGTCCCCATCTATACA
CTCGTCACAATGAGGGGCTACTAAATAAGGCAGTGTTCTCTGTTTGTGTAGTCCCCMCAGCTGTTTCCTATAGTAAAGACTCTGGAAAACAATGACCTCA
TAGTTTCCACAAAAAAAAAAAAAAACCTTTTATATTTAGTAGGGGAAAATAAATCATTCAAAATTCAGTAATTTAAAGTTATGTCCTCTGTTGCTTCTTC
CTTCAAAAATATTATTGTTTGCTCTGCTAATTAATTGTTCATTGGCTGTTCCTCAAATGACCTTTTATGTTTAACAAACAACATTTTTGCAGTGGAGCAC
GTCGGGATATCTTGTCTTTCGTTTGATTGTGATCTTTCTCTATTTAGAAATCATTGTTTTAAGCCATGGACTGTGGCAGTTCCTAGAGCAATTGGCCAGT
CACTGAACATCTGTTGCTTCTTCCCTCCAGCTGTTGGGTTCGGATGGTAGCAAACAGTGTGTCCACAAATAAACAGTTGACGCTTTAGAAGATTTCATAG
GACTGGTCAGGAAATGCCTTTGTTGGTATCTGCTTCTACTGGAAGGACCCCTTCTTTGTAAACACATCACTAGCTCAGTATATGTTTTGGCTTTAATTCT
TGGTATTCTTTTGATCTTGAAGAGCAAGGCAGAGAGCCATCTGATTGTCAGGAGATTTAAGAAACAATAATAATCACAGTGATGGAAATGCCGCTTATTT
GTGTAGGGCCATATCATTTACAAAGTGAATTCATGTACACAAGCCCAGAGAGAAAAGCAAGCTGATGATGGCAGGTTCCATGTGCCTTTTATGGTTCATT
AGAGTTCTTCAGCATCAAATGCCCTCCCATTCATTGCTACACTCATTTTACTGCTTGCTCATTTCAGTCCTTTGGTACTCTAGTGACACAACAGGTTTCT
GTGTTTGATCCTGTCCCCAACAACATTTTTGCCTGTGAGTTGGATGAGGACCTAACCTAGGTATATTAATTGAATTTGTAAATGTCTTCTACAAAAATTT
GGCTGGGCATGGTGGCTTATGACAGTAATCCCAGCACTTTGGGAGGCTGAGGGTGGAGGATTGCTTGAGCCCAGGAGTTCAAGACCGCCAGGGCAGCATA
ACAAGATCCTGTGTCTACAAAACTAAAATAAAATACAACTTTAATTTGTTACTATTTTTAGACAGTCTTGCTCTGTCGCCCAGCCTGGAGTGCAGTGGCA
TGATCATAGCTCACTGCAGCCTTGAATTGCAGGGCTTGAGATCCTCTTGCCTCATCCTCCCGAATAGCTAGAACTGCAGGTGCACACTACCATGCCTGGA
TAATTTTTGTATTTTTTTGTGAGATGGGGTATGTTGCCCAGACTGGTCTCAAATTACTGGCCTTGAGTGATCCTCACACCTTGGCCTTCTAAAGTGCTGG
GATTACAAGTGTGAGCCACAGCGCCCAGCTGAATTTCTAAATGTCTTGACGGGTATAGCGTATACTCCAAGTTAGAGAATGCAGGTCCGTTAAGATCTTT
AATTAAAATTAACAGCTAAAATGGAATAGAATCCTGCATCTTGCATTTGGATCCAAAAATGAACTAACTACCCCATAGCACCTATGTGAAAGGACCTGGG
TGTGTTACTAGCACGTGACTTACGCTGATGTATCTGCCAAAAATGTTTAAGGTTTTTATGCTACCTTCAAAGAAGTATCTTGATCTGGGGTGGTGGGTGA
TAGTGCTGTTCCTGTCAGACCACACCTAGGATTTTATGTTTACGTGTCATTCTGGAAACCTAGGATATCATGTAATTTCTGGGCTGACAAACTGTAGTGT
GTCTAGAGTTGGTGGTGGAAGACTCCCTAGGGGAGTCTTTCAGCAGGGAGAGGGGATTGCTTTGAGAGAAAGCATTTGTCTTTGCACATAATTCCAACTC
CTGTAGTTCCGGCCCTCATTATGTCTCAGTCACACAATTGCAGTAGCCTTCTAGCCCCTCCGCTGTTGCTAAACTCTGTCCTTTCTAATTGGTAGTTTTT
CTTTTTTAAAATTTTATTATATTAAAAAATATTAGTTGGGGGGGGGGTGTCACTTTGTTGACCAGGCTGGGCTCGAACTCCTGGCCTCAAGTGATACTCC
CATCTTGGCCTCCCAAAATGCTGGGATTATGGGCGTGAGCCACCACGCCTGGCCTAATTGATAGTTTTGGTTGCTGCCAGATGAATCTTATTAAAGTTTA
CTTGAAATTACATGTTTTCCTTTTCAAAAATTGCCATTGCTTTTTTATACAGAAAGTACCATGTAAATTTCTTAGCTTGGTATTTAAGCTTTCTCATGAT
GAAATCTTATCTTCCCCCCTGTCCCGGAAAGGCAGAGGAACACAGGGAAAGAGCTGTAGCATCAGAGACTTTGGTTCAGATTCTGAGACCTGAGGCAAGT
GATGCATTCTTCATAGGACTGATAATCAGGAATAGGTGAGAAATGTATGTAAAGTGCCTAATATGGTGCCTGGTATAGAGAAATCTGTTAGCATTATTAT
TTCACAGTCCCCTGACTACTTTGCTGGCTATTGTTTGTGCCCTATACCCTCCCACTTGTAGTGCTTTTTCTGTTTTCTCCTTCCTGGGTCCAGAGTACAT
CCCCACTTTACTAGTTTTAGAAATTACTCTTASATTAAAGTTCCCCTAACCCCTGTAGTTGGACGTTATGGCTTCCTCCTTTGAAAGCAGATAACATTTT
ACATGGAACCATGTTAAAGTACTTGTACACTTCTCACTTAGTTATGTTTAAATAATAGTAATAATAGCCAAATGTTCAGAAAACCTTTCTTTGTGAACAT
TTCAACTATATATAACTAAGAGGGGAGAGCAGTACGATGAACCTGCATTTCCCTGTCACCCAGCTTCAACARCTACCAATTTGTGGACAATCTTATTTCA
TCTGTATAACCTTTGCCTTTATTCTCCCCAAACTTTTGAAGCAGCTTCCAAATGTATTTCACCCATAAATATTTAAGTATATATCTCTAAAAGATAAGGA
TGCTTTAGAAAAATGATAATGCCATTGTCTGCCTAAGGAAAACTAATATTCCTTAATTAGTGTTCATATTTCTCTGATATTGTTTCTGTCACACACATAT
ATATGTACACATATATGTGTACAACTGTGCATATATATTTCCTACACTTTATGTAAGGATCCAAATAAGTTTCCAAAATTTCAATGGATTGATACATCTG
TTGTCGCTCACAACCTCTCTCTCTCATTTATTTTATTTTTCCTCTGGCAGTTTATTTGTTGAATGCGTGTTTGTCTAGTAGAGCAGAGCTCTTCAAATTA
TTTGTGGTTTAGGACTAATTTTTAAAATTTCCAATCTATTGTGGGCTGTTTGTAAAATACAATACAAATGAATTAATAGAAAAGTGACATAAAAAAGGCA
TATGTAAGACCAGCCCCATTAAAAAATTGTTAAATTCAGAAGACATAAAGTTATGGTTTAATTTGTAAATACTTCTAAATGCTTACTCTCAATTTCTATA
ATCTCATCATGGACTGGCAACGGAAACTTCATAGTCTTGATTTTTTGTATTATATTCCAGTAGCTTCAATTAAGATGTTCCTCTGTCCATGTATTTCCTG
TAAAATGGTAGTTAGAGCTAGAGGTTTAGAGACTCAAGTTTGAGGTTTTTTTCTCCTCTTTTTGGCAAAACTTTCTGTCGTGGTGTTATAAACTTCCATC
AGAAAGCCTGCACTGTTTGGTTYTATCTCTTGTGGTGCCAAGAATCACTGGTAGTTGTTCCCTGACCCGTTAATTTATTAAGGGTTGAAAGTGGTGAAAT
TATAATTCTAACATTCCTTTTTTACTTGTTAGCTGGAACACTTCTACAGAGACTCTTGTCCAGTTATTTGGTTTCCCTGAAGTAAATTTTTCAGAAGAAA
GGCTAGATAAAAGCTTGATTTTTCCCCCTCCTTTATTTTTCAGTTTTCAAAATAATTACTTGATTTCCAATTGTGTTTAGTGAATTTTTATAACCTTATG
AGCTCATGGGTTTAAGCATATTTGATGTATTCAGTCAGTTATAGTTTTTAACCTTATTGATGCTCAAAATTGTCCCATTTTTGTCCAGTGGGACAAGTCG
ACTCTCAAGTCGTTTTGAGACTGTACTAGTAGCCTGGCATGTCAAACGAGAATGCAAGGATCTTAAGATGTTCCAGGCTCATCATTTCTTGCACCAGATC
TGGAATTAGTCATTTCCAGATACTGGAATCAGGTTCCTTTGGTACAGCGGTACTGAGAGACCACAGTTGAGGCATGAGGGATGCACATGGTTTCTAAGAA
AGGAGTGATTTCTTTTAAAGCTAAATCATGAATTCACATTGATTATTCCAATACAGGGCTTCGGGGTTTTATTGACCCTCATTGGTCTTGTATCTGTGGC
TTGTTCCTCCCATGCTGAAAATCCTACTTGTAACACCAGCGTAAATTCTCATTTGCCTTATCCCACAGTATGCTCCTAAGTCTCAGAATAATAATCCCAG
TACTGCCACCAACAATGTTAGTATTTGAAAATGGCTTAAGACTTATTTGGTAGTTTTTTTGTCCATAGCATATATTCTACTAGGACCGTATGGTACAAAT
TACTGTGTTTTAAAGTTACTTGGAATAGTTCTCTATGTGGTTTTGTCATCACTGGATATATAGTTAATATTAGTTGTTTCGGCCAGGCGCGTTGGCTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAGATGGTGAAACCCCGTCTCTACAAA
AAAAAAAAAAAAAAACTACAAAAATTAGCCAGGCGCAGTGGTAGGTAGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAAC
CCAGGCGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTACACTCCAGCCTGGACGACAGAGTGAGACTCCATCTCAAAAAAAAATCAGTTGTTTCTTT
TTTAATCTTTTTTAAAATGAGGTTTTCTTTTTTTTCTTTGAGATAGAATATTGCTCTGTCGCCCAGGCTGGAGTTCAGTGATGCGATCATAGCTCACTGC
AAGCCTACCTCCCAGGCTCAAGTGATCCTCAGTCCCTGGAGTAGCTGGGACCACAGGTGCTCACCACCATGCCCAGCTAGTTTTTTATTTTTTGTAGAGA
TACTGTTTCACTATGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGCAATCATCCTGCCTTGGCCTCCCAAGGTGCTGGGATTACAGGAGTGAGCCA
CCACACTAGTCAATTTGTTTCTTTTTTTGCTTTTGATTTTGATAGATTGGTTCCTATCCTAAATTTGATTTTGTTGCATCATAATTATATTAAAAAATAC
AATATATGGCTGAAGTCAAATCTGCAAAACAAGATCTATTCAGAAATCTAGCTCTGTCTCTGATCCTTCCACTCTATTGCCTTTCTCCCTAAATTTTATG
ATTTATTCTTTCATTGTTTAAATATAAGGCAGTATGTATAGGTATATATTAATATATGTGTGTATTCATATATGGGTGTGTATTCATGTTCTCTCTTATT
TAGATAAATGGTAGCACACTATGGATAATTTTCTCCTCTTGCTTTTCTTCGTGTCGCTAACGTATGAGTGCTTATCACATGCCCTGCACAGTGGATTATT
TTATTTGCTCCTTATAATGTTGTAAGGTAGATGCATGTGTTACAATTTCTGTTTTATAGTTGGAGACAGAGGTATTTCTGTGTAGACCTTTACTTCTCTG
AGTCCCTTTTTTATTTCTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCGGTGGTGTGATCTTGGTTCACTGCAAGCCCCA
CCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTATAGGCGCCCGCCACCATGCCCAGCTAATTTTTTTTTTTTTTTTAAGT
AGAGACGAGGTTTCACCATGTTAGCCAGGATGGTCTCCATCTCCTGACCTTGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAG
CCACTACGCCCAGCCTTTTTTTTTTTTTTTTTTTTTTAAAGAGACAGGGTCGCTCTGTACCCAGGTTAGAGTTCAGTGGTGCGATCACAGCTTACTGCAG
CCTCAAACTTGGGCTCAAGCAATCCTCCCACCTCAGCCTCTGTGGTAGCTGGGACAACAGGTGCCTGCCACCACTCTCAGCTAATTAAAACTTTTTTTTT
TTCTTGTAGAGACAGATTCTTGGTATATTGCCTAGGCTGGTCTTGAATTCCTGGCCTCAAGTGATCCTCACGTCTCGGCCTCCCAAAGTGCTGAGATTAT
AGGCATGAGGCACTGTGTATGGCTGCTATGATTCCCTTTAACCCCCATAGTAACTAGTCGTGACCCTTGTGTGCATATTCATGAGCAAATGAATGAGCAG
GGAATTAACTTCTCTATTTACTTTACTTTGAGCAATGATGGGAGCAGAGAAAGGCTGTTTCCAAACTCTAGAGAAGGAAATTCAACGCTTTCTTTATTTG
AAGGTTATGGCTCTCTGTAGCTGGAGAAGAATAATAGTAAGAACTTATTCCCTGACCAGAGTTGCTCCCAGTAATTACACAGATACATTAAGTTGGAAAG
TTCTTTAATCTTCTAAAAATAAGAGTTCCTTTATAACAGTACAGTGACAACTTGGTAAATCTTCCTCATTTTAGAGTCTTTGTGTCATGAAAGTTATAAT
AAACTAGGGTAGCTAAGGAAAAGGACAAACTCCTTTAAAAGCAACAGCTCGTGGAAAATATCTACTAGTTAATGATTTCACAATTTTAATAGTGACAGGA
AGAAAGGAGAGTAGCTTCATTTCCCTTCAGATGGGAAAGAAAGGAGTATTGGCTGCTTTTTATTTTATATCCAGCTGGAGGAAGGRGTTAGTTACCCTTC
AGGCTCTATTGTGATGTCAGGCAGCTGGTTAAGCTGTTGTAGCTGCCCCCACCCCTTCCCGGATTCTGTCAAGCTTCAGAGGGTAKWGCTGAGGGAGGTG
GAGGGCATCCAGGGTCAGAGGCTACTCTTTTCCTTTTGAAAATCTGTGAGCCTATGAGTTTTGAATGTAGTGAGACTCCTAGTGCAGCTGAGATCTTGGG
CAGGTCACTGAGCCTCAGTTTCCATATTTTCCTTTTCATTGCCACATAGTAATACCATCCTCACAGATCGTGGTGTTTAACAACCATTGACTCCTTTACA
CCTGAGTGGTGAAAACATTTTAGCAAGAACAACCAACCAACACACCAACCAACCCAGCCTGTGACAGCAGGTCTGGGACATAAGAAAGGGATGCTGGTAG
GAGAGAGGTGTGGAAAGGATCTTGCAAAATATCACCATAGTTAAGTGCTGATGAGAAGTACGTTCCACCTCTACACTTTCACTGGGTCTAGCTTTGCAAG
TCTGATTGTTTTATAGCTTGCCTTTGATGCGTAGATACTCTAGGGTTTTTTTTATTTTCTTATTTTTGTGAGACAGAGTCTCGTTCTGTCACCCAGGCTG
GAGTGCAGTGGCATGATCTCAGCTCATTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGCTTACGGGCACCC
ACCACCATACCTGGCTAATTTTTGTATTTTTAGCAGAGATGGGGTTTCACCATGTTGGCTAGGCTGGTCTTGAACTCCTGACCTTCGGTGATCCACCCAT
CTCAGCCTCATGCTGGGGTTACAGGCATGAGCCACCATGCCCGGCCATGATGCTCTAGGTTATGACCACTTGAATTTCAGACTGTTTTAGAAGAGGTGGT
ATTTATTTATATCTCCAGTGTTCTAGTGCTGGATGACTCACTGACGAGTATGTCCCGGAGAGGGCACTCACTTCTCAGTATGATACATTCTGTGCCATTG
TATCGTCGTTGAATAACACAGTGATAATCCATGTGCCTGGCGTTTTGGGGAATGAGTCTTTTACGTAAGTGACTTCTGAGGTAACTACTTATTTGAACAT
CAGATCCTTACAATTTTAACCTTTTCTTTTGATTAGATGGCTTGATCATATTATTTTGTACTCTTTGCCAGGGTGAGAATCCTAGACATACTCAGTTGTT
CCTTGGTGACTTAGGGTTGTTATGAACATCATTGATTGATCTCCTTTTAGGTAATGTGGAGGTTTCTTTTGGGGCTAGTGGGACTACATAGGCCCTATTG
AGTGGTTCTGGATTGCTATATTGTTCGAATTCTTATTTCTGCTATGATATTTCCTTTCATTGCTCCCTACCATCTTCATGCTAGTTTTCTCTTGCTTTAT
CCTATTTCTGGGATCCTGTACCTCCTACTTCCTCCTGTACTTTTCTTCTTTTTTTTTTTGAGATAGAATCTCACTCTGTCTCCCAGGCTGGAGTGCAGTG
GTGTGATCATGGCTCACTGTAGCCTTTATCTCCCAGGCTCAAGTAATCTTCTCACCTCAGCTCTCTGGTAGCTGGGACCACAGGTGTGCGCCACCATGCC
TGGCTAATTTTTAAATTTTTGGTAGAAACCAGGTCTCTCTTTGTTGCCTGGGCTGGTCTCAAACTCTTGGCCACAAGTGATCTTTCTGCCTTGGCCTCCC
AAAGTGTTGGGATTACAGGCATGAGACACCATGCCCGACTATTTTGCAGTTTCTAATCTGCTTTTTAGTTAAGTAACTAGATAAATAGAATCGGCTCTAA
ATAAGACTTAACTAAACTGAGTTAGAGTCTGAGCATCTGACTAAATTAAGAAACTTTAGYGTTTTTCCTTTTTAATGTCAACTTTCTTATTTTTTATTTT
ATTTATTTATTTATTTATTTGAGATGCAGCCTTGTTCTGTTGTCCAGGCTGGTGTGCAGTGGCATGATCTCGGCTCACTGCATCCTCCACCTCCCAGGTT
CAAGTGATTCTCCTGCTTCAGCCTCATGAGTAGCTGGAATTACAGGCGGGCACCAACACGCCTGGCTGATTTTTGTATTTTTAGTAGAGACAGGGTTTCA
CCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCATCCACCTCGGCCTCCCAGAGTCCGAGGATTACAGGCGTGAGCTGCCGCGCCCAG
CCTAATGTCAACTTTTTGAACGAAGTATGCCATACATACAGAAAAATATATATGGCGTTAGTGTACAGCTTGATGTATTATCCTAAAGTGATAATTTGTC
ACCCAGATCAAGAAATAGGACATCTCTAACACTCCAGAAGGTACCCTTTCTGGAATGTTAGACTGTCTTCTAACACCATCCATTAGATCGTCTTCTAACA
CCATTGATTAAACATAGACTGTCTTCTACCACCATGGATTAGTTTTGTCTGTTGTTGGACTTTATTATGAGTGAAATAAGTATATATTGTTTTAAAAACA
GCTTTATTGAAATACAGTTAACCTACGATTTAATTCATCCATTTAGTGTACAGTTCGATTATATTCTTGGAGTTGTGCAAACATTTATCACAGTCAATTT
TAGAACATTTTTAATTATCCCCCCCAAAAACCCCATACTCATTAGCAGTCACTCCCTATTTCCCTGGAATATTCCAGCCCTACATGAACACTAAGCTACA
TTGTGTCTCTATCTAGTCTGGGTATTTCAGATAAAAGGAATCATATATGTGGCCTTTTGCATCTGGCTTCTTTCACTTAGCATGRTATTTTCAAGATTAA
TCATGTTGTAGTATATATCGTACTACATTTCTTTTTATAGCTGCAAAATATTCTATTATATGAATATTTCACATTTTGTTTATTCATCTGCTGATGGACA
TTTGAGTTGTTTCTACTTTGGCTATTATAAATAATGCTGCTGTGAACATTCACATACAGATTTTTATGTGGAGATATGTTTTTGTTCCTCGGGTATATTT
TAGAGATGGAATTGCTGGGTCATATGGTAACTGTGTTTAATTGTTTGAGGAGCYGTCAGGCACTTTTCCAACATTGCTATACCATTTTATTCCCACGAGC
ACTGTGTGAGGGTTCCAGTTTTTCCATATCCTCATCAACACTTGTTAACGTCTGTCTTTTTCATTATAGCCATTTGAGTAGGCGTGAAGTGGTATCTCAT
TGTGGTTTTGGTTTGCAATAAGTATATATTCTTTTGTGTCTGGGTTCTTTTGCTAAAATTTGATATTAGATAACATCTATTTCTGTAAGAGTAGTGTCTA
AAGTTTTGTAGAAAACATGGAAAATATATGCAAGTTGAAATAATAAAATTGACTTACTTGCCTTCCCCTCCCCTGTGTGTGCATAACATAATTGATATCA
AACCATATATCCAGATTTTCATCATGTGATCTTTATTTTGTATTGTCTTATGAGTAATTTTCGTCATAAAGACTTCTCAGATCATTATATGAAGGTACTG
TAACCTATTTTTGGACATGTAGATGGCTTCTGGTTGTAATGAATGTATTTTGTACATAAATCTTTCACTTTTCATTATTTCTTGAGGCTATATAAAACGA
GGAAATTCCTTTCAGTAGTTACCTATTTCAAAGGCTCTTAAATCATATTATTACCTTATTTACAGAAGGATTTTACCACTAGCATTGTTAAGAATGTGTG
GTACCCCACTGTTGTAATTAAAAAAGAAATCTTTAAGTTGTTAAGTAGAAAATAGCATTTCATTGTTTTAATTTGCATTTCTTTGGTTAGTAGTGAGGGA
GAACAGCTTGATCTATTCTTTGAAGTTACTATATGATAGTAACATTTTGATACTAGGGAATTGCCGTATTTTGATTTCACACTCTTCTCTTTGTTTGCTG
TCTGTATATTCACACACTCATCCATTTAGCATCCACATAAGACAGGCAGATGACCAAGGCCTGAACTGACTAGAATTGGTAAAGATTGGGCCGGGCCAGG
CCAGGCCTAGGCTGGGAAGGTTCTAAATTGTACTTTGCTAGGAGAAGACTGGAGCCAGGATGAGCTGGAGGTGTCTGTGTTGGTTTTTAGGAGATCTGAT
TCTTGTGTCCAGGATTGAAAGAATGGGCGGAGGCTGTGATTGATTGGAGGCCTAAGAGTCAGCCTGGCTTGCCTGTCAAGTATCCATAGGGTTGGCTGTG
TAGAGTGCCACAGCAGGTCTGTGACTTGCAAGCRTCTCAGGCAGTTAAAATTTACTGGGAGTACTCTGGGTTTATGGCGATGTGAATGCATAATTTATAG
TGAAACTTGCTGGATCTGCTTATGAATAATCTCCCTTAGTTACTACTAAGTGATATTGCAGTTATAAAAATGCAATAGCAGAATARTGAGTCAATGCAAG
GTTATTTCCAGAATATTTTGGATCYCCTTATAAAATCGGCTGTTCAGTTAAAAACATTTTAGGTCTSTTATAATAAAATGTCAGTGTATTCAAAATCAAG
AGGATTTTGCCTCTTGTGTGTGTATATATAATCTGTGTGTGTTTATAGAAGAAATATATGGATCTTTGGCTTAGGGGTAGTTCAAGGCCTTATCTCATTT
TTCCTCTAGTCCTTGCCTTTCCCACCTTATTCTGCCTCCTGGGATGTATARGTCACTTTACTTCCACTTCGGAGAGGAGCACCACTCAGCGAAGAACATT
GATTGGCTCTTGTGCTGTGGGCAGGGTCATTGTGCTGAGTTCGTATGTCTGTATGTTCCTCCTCTACCTTCTTTTACTTGCTCAGAAAGCTGCCACTGCC
ATTCTTTTTTTCTCTTCCTAGGTTTAAGCATTCATCTCCCACCACCTGGCAAGCCAGGATGGCCTGAAAAGGCCGCTGGATGTAGCTGTAGGGATACATT
CTTTTTCTCTCTCTAATTTTTCTTTGATGCTGGCTGCTGTCTCTTTCCCCAGTGGTTAAGATCCAGAGGTTGGTTTGGGCTTTGGGTTTAGAGTTACTAT
AAATGGAAAACTTTCGTTTAAAGCTCCATAGGTCTGTCTCTTGTTTTTAAACAGCCTGAGATATCATTGACATATAAAAATTGTGTATATTTAAAGTGTA
CAACTTGATGCTTTTTAAACCCTCAACCATTTGTAATGTTTCATGACAGGAATATATAATAATTTATTAGATATTTAGATGGCTTTTCAGTTTTAACTTT
AACTCTTTCAGATTATCATTCTTCCTGTATGATGACCAACTTGCATTGGGACTGGACGTTTGCTTTTTTGTGTTGATTGTAAGTCAAAATTTCCCCCCTT
CCTCCTTAAAAAAAGGGTTTGTTTTACTATAGTTTTGAATTGTAGATTGTGTTGGAAAAATGAGAAAGAGTCCAAAAAGAAGATACATTTGAGTTACTTG
AGTTAGTTGATTGGGTAGTTAAATACATTTTGGTGACCTGAGCTGACTCTAAACTTGGAGTCAGCAAGTCTTGGCCACTTAAGTTGTGCGGGGAAGGATG
GACTATTGGTGGAATTAATCTCCACCAGAAGAGCAGCTTGAGCATTTAAGGTGAAGAACACCCCCTTTACATTACTGATGAAAGACAGATGGAGTTCCCT
AAAGCCAGATCTTTGTCTCTGGTGTGTTTGCTTTCTCTAGCATCCTGGGACACTTGGGCAGGACATAGTTCTTCACATGCTGCAACTTGATCTTTCTACA
TCATCTGCATTCCTCCTTATTTCTCAAATAACATGCCAATTAGATAAACGGCATTTTTGTTTCTGGGCCATATTTCAGTCATAGGAAGAAATACAAATTG
CAACAAAACAAAAACTGCTAAACAAGGAGTTATTTAAGAGCAGATAAATTCCCTGAAGCCTCAAGGTTGGTGCAGCTGTAGCTCAGTCGTGCTTTATGTC
TAACTGAGAATTGACATTTAGAATGAAGAACCTGAGCCCTGTATGATGCTGAGTCCTATATGGGGACAAATCATTTTAAGGTACTTTGTTGAAGAAGGAT
TATGGGCAAAAATATTTTAAAGCTTTTTTAATCAGCTGAGGTTGAACAATAGTGGTAATTGGCCGGGCACGGTGGCTCATGCCTATAATCCCAGCACCGT
GGGAGGCTGAGGCAGGCGGCTCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCATCTCTACAAAAAATACAAAAATTAGCTGG
GCATGGTGATATGCGCCTGTAATCCCAGCTGCTTGGGAGGCTGAGGCAGAAGAATCGCTTGAACTCGGGAGGCGGAGGTCGCAGTGAGCTGAGATTGTGC
CACTGCACTCCAGCCTGGGGGACAAAGCGAGACTGTCTCAAAAAAAAAAAAGAAAAAAAGAAGAGTGATAACTTTGAAAAGTTACTTTCTTTCTCTGAGG
CTAAGTTTTTTCATCTATAAATAAGAATACAGCATAGGGAATTTCCTAAGGGTGAATTTATTTATTTTATTTTATTATTTTTTTGAGACAGAGCCTTGCA
GTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGTTGACTGCAACCTCCGCCTCCTGGGTTCAAGCGATCCTCCTGCCTCAGCCTGTAGAGTAGCTG
GGATTACAGGCATGAGCCACTGCACCCAGCCATTAAGGGTGAATTTTATAGAAAATAACATCTATAAGCAATAAGCGTAATGCCTGATACAGTATAAGCA
CTCAATAAGTATTAACTGTTATTGTTACCCTTTGCACCAAGCACTGTATTTGCTAGGTATTGGGGAAGTAATATTGAGTAAGACATTATTCCTGTTCACT
GTCTAGTGATACATGTGAGATGGTATGTCCTAGAGATATGAATAAAACGTAATGTAAGAAGTCATATAATGCACTTATGACAAAGGAGCCTCCCATAAGT
TTTGGTGCTTTTGGAAGTGAAACTCCGGAGCTTTTCCAGTGTGGCTGTGTTCGTTCTCAGACTTGGCTTCACATTAGAAATAGTCATTAAAAATAAGTCA
CACTTGAAAAAAAAATTAGCAGTGGGCTGCTGCCAGGACATGGTTTTTATTTTTAACTTTCCCCAGGCAATTCTAATGTGCAGCCAGGATTGAGAACTAA
TGCTTTAGATATTTTCTCGTTTTCTTTATCTTTGGCATTTTTAAGGATTATGTAGTATCATAGGGTGATTCTTTTCTTTTTTTATTCTATTTTTCAAAAC
TAACATAATAGCATCTGTACAGAGTTTTAGACTTTACAAAATGCTTTTATGATCTCATTAAAGCCTTACAGTAATCCTTTTAGAAAAGCATTCCTATCAC
CATTCCCATTTTGCAGAAAAGATGACTGAGGCTCAGAGAAGCACATGTTAAGTAAAAAATGGTAGAAAGTTCGGGTGCAGTGACTGACACCTGTAATCCC
AGCACTTTGAGAGGCTGAAATGGGAGGATCACTTGAAGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAA
ATTAGCAGGACGTGGTGGCGTGCACCTGTAGTCCCAGCTACTTGGAGGCTGAGGCAGAAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGA
GATTGCACTACTGCGCTCCATCCTGGGCAGAGAGAGACTCCATCTCAACAACAACAAGAACAGAGAGAGACTCCATCTGMACAACAACAACAAMAAAAAA
AAAAAGAAAAGGAAAAAAATCAAACGTAGTAGAATGAGAACTTGAACCCTGGTATTCATAATCCAGTCTTTCTTTTTCTACTGCATAGTTTCTAGCAGAA
AGTTTTTACCATTGTGTAAGTACTTACTTGGAGTCTTCTCTTGCTACTTGTATAATCTGTTGGGACAACTTTTGCTCCTTGTTTGTCTGGCTGAATCCAC
TTATAGGATATTCCTTTCACTATTTCTCCCTTTTATCCTGGCTCTTGACCATACTTTAACCCTTAGTTTTGTGGTTTCACGAGTCAGTTATAATTTCTTG
AAATGCAGTAACCATTAYTCAACCCCTTTATTAYAGCCTTTTCTTTTGGGTGAGGAATGCRTACTTTACTAGTCGTTATTCAGCAATGAATCCTTGCCAC
CAGCTCTTTGTGGTACATATGAATTTGCTTAAAATCTGACACTAATCTTATAGCAGTGCAGATATTCTTTGCTATGCAAATCTGTTTGGTTCCTGAGTTT
GGATCCTGAGAACATGGATATGATGGACACCTATACTTGAGTTATCCTATGCTTGGCCCTTGTGCCTGGAAGGATCAGGAGCTCTGTACAGGTTGAGTAT
CCTAAATCTGACAATCTGAAATCTGAAATGCTCCAAAATTTGAAACTTTCTGAGTACTTACATTATGCTCAAAAGAAATGCTCATTGGAGCATTTTGGAT
TTTGAATTTTCAAATTTGGGATACTCAGCTGGTAAGTATAACACAAATAATTAGAAATCGAAAAAAATATGAACTCTGAAATACCTTTRGTTCTGAGCAT
TTTGCATAAGGGATACTCAACCTGTACCAGGAATAACATGCTTTTCTCTGTGGCCAAATGTGAACAGAGTCCAAGGAATGTGTGTGGCATTTGCTCCTGT
CCTCATCAGGTTGTCTTTCCATCCTGGATGGAAGCCCCCTTTCCCTGTGCCTCATTTCTTTCTCCTCTCCCACCAGGGTCCCCTGCTTATCTTTCTGAGG
AGGGAGAGTGGTTTGAAGGRTGTGGTGGAGGGCATTCCAGCCCTAGGGGAAGTACATATGAAAGCCTAGAGGCCTTAGGGTCCCTTTCAAGGGCCTTTTG
CCCCAGCCAGCAAATATTAGGGGCCTCTCAGTCTTATTTGTCTCCTCTCCCCTCAGAGGAGAAGATAAGGAGGAAGAATGGATGAAGGGCACAGAAGGCC
CTATTTATTCTGTGTCCTAGTATGTCATACTATTGCATGGACACTATATTACCATTTTTTCATGAGTCGTATCTGTTTTTACAGTGTTCATCTATTTGTA
CAAATTTTATCCCTTATGTTTTAGCTAATTATTCTTCATCAACTTAGTAGGCGTCCTGAAAGTAAAATTCAAAAGATGAAACTTTTCTCAAGACAAGTGC
TTATTATTTTATTTCCAGCAGCAGCCCATAAACCAGATTTCACTTTTAGATACCACCCAGCTGTTTGCATTTCATCTATTTCTTTTTCTAAAAATGTAAA
TACTATTGTCYTCCTGAGTTCTTCTGTTTTTTTTGTTTGTTTGTTTTTGTTTTTGTCCATGATCACTGGAAACAAATTTTGTGTTTCTTCTGGCATAGAA
TCAAAGAAAGTGGGCAATGATTGGGTTTGATGAGTCTTGCAAGCTACCCTTCTTCCCAAAAGAGGAGCCCAACTTCCAGTCATTCATGTCAGACCAGTAT
TGCCACATCCATTTCCCATGGGTGGAAATCACCAGTGACCGACCATTGCTTTTTCTTCTTCTTCCTGGGGTTAGGTGAAGGATGTCTTGGATCAGTCAGT
ATCTTTTCCCTGGAGCCTGGGATGCTTCGACCTCTTTACTAGGGCTCTACAGGAAGAAAGACCCTCATGTCTAATTTTATGGCTCTTTTCTGACCCATGT
TTCCAACTCTTTTTTTTTTTTCTTTAAGGGAAAAAAATAAAAACATTCTCTCTTTGAAGGGTAAGGAGAAATTTTGTGAAACTTGAAAACCCGGTAAGTG
TTTTGCCTTTTACTTTATTATTTAGTAACTATATGCTAAGGATCATCCCAAGTGAGGGGATAATAGGAGCAGGGGTCAAATGTGTTTATAGTAGGATGTA
TAGGATTTAAGTCAGGAGACCAAGAGACTCAGTTTAATATTTTTTTCCAAACAGAAACACTATACCCACATTCTGTAAAATAGACACAAATATGTAAGAT
TAATTTTAAGAAGGTGCATGTTCTATTTTTTCTTTTCTTTTCTATTTTCTTTTTATTTATTTTAAATAGAGACAGGGTCTCGATATGTTGCCCAGGTTGG
TCTTGAACTGGGCTCAAGCCATCCTCCTGCCTTGGCCTCCCAACGTGCTGAGATCACAGGCATAAGCCAACACACCTGGCCCACATTCTATTTTCTATAG
AAATGACATACTTAAATAATTTCTCAGATTGTAGCAATGCTTCTATTTACAGAGGACATTGATAATCAACTTTTTCAAAACTGCAAACATACAGAAAGAT
TAATTTAGGACATCAAATAAACTAAGGTTTAATTATGAAAAAAAATCGTAAAAGGCAAATCAAAGCAACATCAGATGTGACCAAAAACGTATACCAGATC
ACTTTCCGGGACTCTTGGAGAAGGGCTTGGGTGAAGATTTGGGATGCAGGGGTCTTATCTGCTCATTTGATGAACCAGGATTCGAATCACAGGTTCAGTG
AGTTGCCTCTTGATAACCAGTGGTTTGTGGCAGAGCCGGAGCTTGAGCTTAGGATTCTTGACTCCTACTGCTTTTCTTTTTTCTGTGATACATACTAAAG
GATTGGCCGTTAGATTCTTCTATGTTTTGTTTTGTCTGGGGAGTATCTGCAGTGGGAATAAGTTACCATTGTGAGGGGTAAAAAGAGGCAGAAAGAGGAC
CTTTTGTGTTTGTGTTATTAAGATTTTCTTTTCCTTAAATTTCCTTTAGGGTCTGATATAGTGATTTAGGGTGGGGTTGACCCAGAATGGTTTTTGCCCT
AGTTACGAGTATTGTGGACGTTCTGTTACCTGTTGGGTCGTGCCCAACAAACATGTTGTTGAGCAGCCTTGGCACTCTGCCTTAGAACACAGCAGTTGGT
GGATAAGTGTGGATGAGTTGAAGTGATCGTGGACAGAAGCGTAAACAAATTTAATGCAGTCTTGATAATTGAACGTAGTCTCCACCCTGAAATCTGAATG
GATGCTGTGTATAAAATATCTGCTTTGAAATACAATGAAGAGTTTGATTTCAGTTAATTTGTTTGGAATGTCTATGTTGAAACTTTCTTTTTTTTTTTTT
TTTYCCTATTTTTTCCCCATTGGGAGTCAGTTAAGAGAGAGGATTCAGGACAGAAGCTTGCTGTACTTCTGACAGTTTGTGTGGCCCAACTCTATGCCAT
GAGATTGTCATTACCCCTGTTACACCTAAGAGCTCTTCTTGGCAGTTGTCCTCTACTTTCTTTACAAAATAAACTCAAAAAACCAGGTTCCCTGCCTTCC
TGTCTCTGGCTTATCTGCATGCAGGACTATCTTTACCTCCTTCTCTTCCATCTCTCCTACCGACCTTCTGTTTAAGGCCAGTTCCTCTGCAGCCTCTTTT
AAATCAATCTCTCCTTTTCCCCTTACCAAAGAATCACCATTTTTTTTTTTTTGAGTAAGGGTCTTGCTCTGTTGCCTAGGCTGGAGTGCAGTGATGCGAT
CTTGGCTCACTGCAATCTCCACCTCCCAGGTTCAAGCAACTCTCCTGCCTCAGTCGCCTAAATAGCTGGGATTACAGGCGCCTACCACCATGCCTAGCTA
ACTTCTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGATATTGAACTCCTGACCTCAGGTCATCCACCCGCCTCAGCCTCCCAGAGTG
CTGGGATTACAGGTGTGAGCCACTGCACCCAGCCTGAAGAATCATCTTTATTCAGATATCTCCTTTCTGTTAGCTCTTCCCTTAGCCTGTGGGTCCCTCT
GCTCCTGAAGGTCCCCTCCAGATGGTCACAGCATCTTTCCTCCATTCTGTTATAACTGAGCTCCTTGGTGATGAAGAATGATCTCTGGCAGTCATTCAAA
CCCTTGCCTTGTTTCTTTTAACCCTCTCTGATAAATATTCTGCTTCATTGAGATTATATGAGCAAGCAACCTCTTAATTTGCTATTCTGGAGGATCTGCC
TCAGAGCCTGCCTGACTTGCCTTTTCTGCGGTAGTTTTCATTATTGCTTCCGCCTCCATGGAGGTTTGTCTGTCCTCACTTGTATGATGCCACTCTCTCT
CTCCTGGCTGCCACCTCTTTGCTTCTTCACGGGCAGCTTTTCCGTGACCTTTTCCAGTGTTCAAGATTCTGTCCCAGCTGCTTCCTCTTCTCACCATATG
TTCCCTGGGTTCTGTCTCATGTGATAGGTGTGTGCTGCTCTGATTCAAATTTCCAGCTCRGATCTCTTTCCTGAGCACCAGATTTAACCTCACTTGGGAT
CATGTTGATACCTCAAATGCAACTTGTTCAAAACTGTGGTCCCCTAATCTCTTCCTCTATTCCTGGTTCATTATCTACCTAAGTCAGAAATGGGAGACCT
TGGTGTCATCTGCTTTCCTCTTTCGATCCGTCAGTATAGTGACACCTACATGTTTGTCTTCCATCCCGAGTCAACCAAGGTTTCATTAGTGCTAATGATG
TTTTTTTTATTAATTCTTTTTTTTTTTTGGGACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCAYGATCTCGGCTCACTGCAACCTCCACC
TCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGACTACAGACATGCACCACCGTGCCCGGCTAATTTTGTRTTTTTAGTAGAGACG
GGATTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCCGCCCACCTCAACCTCCCAAAGTGCTGGGATYGCAGGTGTGAGCCACC
ACACCCGCCTATTCATTTTTTTAAAATTAGGAAATCTTCTCTTCTGTAGGTCACATTCTTCCATTATACATACTAATGCCTTTGGTTTTGATTCTTCTAA
ATGAGGGGAACATAAGGCCATAAGCCAAACCATTTCAAGATGGAATAAGATTTTTTTTTTTAAATTATTATTCCTTTTATTGAGATGGAGTTTCACTCTT
CTCGTCCAAGCTGGAGTGCAATGGCGCGTTCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCATTTCTCCTGCCTCAGCCTCCCAAGTAGCTGGG
ATTACAGGCATGTGTCACCACGCCTGACTAATTTTGTGTTAGTGGAGACGGAGTTTCACCATGTTGGTCAGGCTGGTTTTGAACTCTTGACCTCACGTGA
TCCACCTGTCTCAGCCTCCCTAAGTGCTGGGATTACAGGCGTGAGCCACCATGTCCGGGCCGTTTATATATATATAATGCTAAAGGGAGATAGACATGAA
GACTGAGAAAAAAGCACTTGAATTTGGTGATTTAGTGGGGAGGTTTTGTACCATGATGAAGACTTCCCATCATGCCTGTTCCTCCTTGTGTACCTGTTTC
TGAGATGGCATCCAGTGGTCCCTTCCAGGTATTTGAAACTTTGTTGCTATCAGGATCCTTCTCCCTTGTTCATTTTATTCAGTAAGTTGTGTCAGTGACA
CCTCCATATTCTCTGTGATATCCCTTTGTTTTTTTCCTCCCGAATCTGAATCTCAAGATCTATAAATGAATATTTTCTTGTTGATTCAGATCAAACTGAT
CATCAGATTGTGATGCAAATCGCAAATCTGTTCCTTCTTTTCACCTCTGTTATCGTTGTCTTAATTGGAATATAGTAGACAGTTTTTAGTTCTCTGGCCT
CCTTTATCATTCTTCAACATTTCACACTGTTGATCACCCTTTTCTTCATGAAGCTCTCTTCATTTGACTCTTGGACACCATTCTCCTGATTTTCTCACAA
CATCTTTGATGGTTTTTTTCTTGGGCTTCTTTGAGCCTCCCACCTAAATATAGGTTACCTCTGCATTCTGTCCTCTGGCTCAGTCTCTCATAGATGATGT
CTGAGCACTCTCAGCCTTAGTTGAGGTTTCTACCACCACCCCCCATCTGTTGAATTCCAAATCTTTGTCCTTAGCATAGACTCCTGCAGTGAGCCCACAG
ATCTGTATTTTTCAGTTGTTTACCAGATAACTTCCATTCAGAGCTTCTGTAGAACTTCAGCTACAATGGATTCGAAAGGGGGGACTCATTCCGSGAACTC
TTTCCTGGACTTCCTCCTTTTTTATTTTCTGTCTTGATGCAGGGTACTACCAGTTGCTCATCATCTAGGTAGGACACCTGAGTGACATTAATGCCTCCTT
CCTCCCTCTCCACATTCATTAGGTCACAAATCCTATTGATTCTACCACTTGAATTCCTAAATCTCTCCCAAATCTGCCTTCCCATTCTGTCCTCACTGCT
TTAGCTTAGACTGTCATTATTTCTTGCCTCTTTAGTTTGTTTCCTAACTACTCTCCCATTGTACAGTTACCTCCCCTGCTTTCTGTCTTTTTTATTTTTA
TTTAATTAWTTATTTATTTATTTATTTTTGAGACGGAGTCTCGCTCTGTCGTCCAGGCTGGAGGGCAGTGGCACGATCTTGGCTCACTGCAAGCGCTGCC
TCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTCACTAGGACTACAGGCGCCCACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGA
MGGGGTTTCACCATGTTAACTAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCTCCTTGGACTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACT
GCGCCCGGCCCCCTGATTTCTCTTTACTCCCATATATAATATGGCTAAAATTTGAGTGCTGGTTATATCTCATTTACAAGTGAAATGTTTGGCATGCATT
CTCAAAATCTATTCATCACACTGAGTCATTATTATCCATTTTACTTTGGAGGAGAGTAGTCCCAGGCCTCACAAATAGGAAGTGGGGCAACAGAGATCTG
AACTCAGGCTGTATGGTCCAGAGCCCGTGATCTTAATTTACCAGTTCATTTACGGCTCCCTGTGCCATGTTTGACTGGCCTTTAAAATCTTTCCTGAGCT
GGCCTCTGACTTTACTGTTTCATCTCCTCCTACTCTGCCTAATCTGTTTACTGTTTGATCTCCTCCCATTCTGTCTAATAGACCTGGAATTTCAGGCCTA
TTTCTACCTTGTTGGTCTTCCTTGAAGGTGTCATATTGTATCTTTGTTTGTGCATGTTGCTTCCTCAGCCTTGAATCCCTGCCTCTTAATCTTCAAGGCC
CAGCTCAAATGACATCTCCTGGAAGGGTTTCTTGTCTGTTAGTTAACACCACCGTCCTCTTCTTAATTAGCCTCTATTCTTTTCCCATGATACACATATA
CACAACTGCCATATTTATATTTATAGAAAGTTTGTAAATATATATATTCGTATTTAAATAAACTTTTAGGATAGTTTTAGATTTACAGAAAAGTGGCAAA
GGTAGCATAGAGTTTCCACGAAGCCCAACTCAGTTTCCCTTTTGTTAATATCCTATGTCACTGTAGTGCATTTGTTATAACTAAGAAGCTAACATTGGTA
CATTACTATTGATTAAATTTGATACTTTATTCAGGTTTCCCCAGTTAGTCTCTTGTGCGTTTTTTCTGTTCCAGGCTCCCATGGGATAACACATTGCATT
TAGTCGTCACATCATCTTAGTCTCTTCTGGTCTGTTATTGTTTCTCAGACTTTTCTTATCCTTGACCTTGATAGTTTTGAGAAGTACCAGTCACATTTTT
TTTTTTTTTTTTTTGGTAGAATGTCCCTCAGTTTGGGTTTTGTCTGATGTTTTCCTTATGATTAGACTGAGGCCATGGGTTTTTGGGAGGAAGACCAGAG
GTTAAATGTTCTTTTCATCACATATCAAGTGCACATGCTAGCAACCTGACTTACCACTGGTGATGTCAACCTTGCTCAGCTCTCTGAAGTAGTGTTAGTT
ACTTTGTTAGTAACTATAAGTTACTTTCTACTCCTCTTTCCATTCTCCTGTCTTTGGAAGTAAGTCACTATCACAAGCCACATTCAAGGTGTAGGGGTGG
TAAGCTCTACCTCCTGGAGGGGGGATTATTGATATAAATTATTTGGAATTCCTCTGTAAGGAAGATTTGCCTCTTCTCCCTATTTGTTCATTCAGTCATT
TAATTATATCAATTTATACTTTTTTATACTTTGGGTTATAACTCAATATTGTTTATTCTGTTGATCAGATTGTTCCAGCTTTGGCTGTTGGGAGTTCTTT
TAGATTGGTTCCTGTGTCCCTTTGACATGTCCCGTGTCCCAGTGTCCTCGAAAGGGCCATTTCTCCAAGGAGCCCTAGTTTTATATTGGAAAATGGTATT
AGAAACCAAGATATGGGCACTGGATGTGCACGTTGTTACTGGGGTGTCACTACTTCTTCGCCTTTCAGTGTACAGATATATGGATGTGAACCCAAGTTTA
TATAAATATCTGTAATTATTTATCTGTTCATCTCTATGTTAAGAAAATAGGAGTTTATACCAACTTCAGCTGATTCATTGCCTTCCCTCCTTGCTTATCT
GTAACTTCCCTCTCTGACTATGAGAAACTTGGCATCCATCACCACCATCCCATTAGCTACACTGTAAGCGTGGACTTTCTCCCTGTCCCCCTCACTAGGC
TGTTAGTATCTTAGACACTTATTAAGTCTTTGTTGATGAGTGATGAATCTTGAAGTTGTTATGTATCTTACATAATAAAAGTTTAGCATTTTAGCAAAAG
CAATGTAAATCAATCTTGTAAAGTTTGAAACAAAACTTTTAACTGCTTTGTTATGTAACATGTATTCATTGTAGAAAATATGAAAAGTGAGAAGGAAAAA
AAGCACCTGTTATTCTATCACCCAGAGATAATACTTAATATGTAGGTATGTGTTTAGAACTTTTTCTTTGTATRTATATGTCTACACCCCCCTAAATGAT
TTTTACAAGAATACATTCACATTTCACACTACTTATTTATAACCTTTTTTCACTTATATAGTATTTCTTAAGGATGTCATGTAGTTGTATCATAATTTAA
CTGTTTTTACTGTTTCATCTCCTCCTACTCTTAACCAATTCTCTTTTTTAAGATGTCCAAGTTATTACCAATTATTTGCTTTTATAAACCTTGATTAATA
TTTTCTTAGAAGTCTTGACAGGCTGTTCTGATGATGTCTTTAGATACACTCCTAAAAGTAAGATTGCTGGATTAAGTGTATTTTAAGGGTTCTGGTACAT
GTTTCTAGGGGTGAGGTTTTTACACTGGCATCTGTTTTTACTTTGCACTCCTTCTGGGAAGTATTCTCTAACACCCTTGAGATCTTGCATCCCTTTTGCG
ATTATGAATAAATAGTTTTTCTTTAAAGCCAGGAACTCACAGCTGTTCATGGTGATTTATTTACCTGCATAGACTATTGTGTCAAAGAATGCACTGCAGT
ACCGGGGAAATTCCCAACATGATGCCCAGGAGTTTCTGCTGTGGCTTTTGGACCGAGTTCATGAAGACCTCAACCATTCAGTGAAGCAGAGTGGCCAGCC
TCCTCTGAAGGTAAGGACGCATGCTGCCCTAGGGCAGTCAGCCAGCCATGAGAGTGTGTAGATTCTTCTACTGAGGACTTGTTGCATTGCGTTAATACAA
TGAAATTGACTAAGCTCTGGGTGAGTATAAGATTCAGTGGCTACTTAAAGGACATTTCATTTTGTTTACTACTGTGCTGGCAGTGTAAGATACAAGAGCT
GTTGTCCGCAAGGAATTTATAGTCTAATGAGAGGGGAAACATTTGCATGTATGATGAGCTTCAGATTAAAAAAAGTGATTCCATTTCACTAAACTGTTTT
TAAAGCAGAATATGTTTGCTTTCTATTCTAGTAAGACACATACTCTGTAGTTCACTGGAATGAATACACAATCATAAAGGAAACGTATGGATTTTCTCTG
CTGTTGGGATTGGATTTGACCATAGTAGCCCCAGAATGTTCTTATTGAGAAACATAGCAATTAATTCTTAATTTTATACATGTAGTCTTACAAATATGGG
TAAAATGACTTATATAATGGAAAAAAATTAGACTAAAGAGTTGCTTCCCTTGGGCAGCTTTTAAAGTTTTTGATAATTCTTCTCTGTACTTCAAATTTTA
AATTTCTAAGTTTGGTAAGTTTTAAATTATTCTGATTCAAGGTCCTTTTGTGCCTGAACACTCTATTCTGTCATATGACTATATGCGTGTGGCTGACTCT
CCCACCAAATTGAGACATCCTCAAGGTCAGGCACTGGGTCTTATTATCTTTGTATCCTAATGTTCTGTACAGTGCTCTCTGCATGTGGTAGCAGGTGCTC
AGTAACTAATTGTTAGGCGGAGGGACATGAAAAGTTAAATACAACATGAAGTAGAGTGTGATTAGGCACCAACATACAGAGCACAGGTAATAGGTACTAG
GGAATTTAGGCATGGGAAGCATTAGTACTTTTTTTTTTTTTTTGAGACGGACTTTCGCTCTTGTTGCCCAGGCTGAAGTGCAGTGGCACAGTCTCGGCTC
ACCACAACCTCTGCTTCCTGGGTTCAAGTGATTCTCCTACCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCACAGCCGGCTAATTTTGTA
TTTTTAGCAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAAGTGATCCGCCCACCCCTGCCTCTCAAAGTGTTGGGATTA
CAGGCATGAGCCCCTGTGCCTGGCCAATATTAGTACTTTTAAAGTGGTTGGGGATTACTTATTAGAGGAGATTGGGATGGGGGCTTTGAGAATTGGAGGG
GAACTGGAGCATCCTGGGGAAGGGGAGCTGCCCGGCTGAGTGCTGTGCAGAGACGATTGCTGGCAGAGTCTGTGTGAGGGGATGAGTCCACGTGACCCAC
ATCCTACTGCTGTGTTCTGGCTCCTTTAGCAGGTGCCCGTCACTGAAGTATCTGCACTTGATGCATAGCTTGTAAAGGAAGTCAAGATCATATGTGATTC
TCTAGCTTCATCTTCAACCAAGAATTGGTCTTTCTAGTCTGTGAAGTTGTACTTTCTTTTTTTTTTAGCCACCATCAGAGACTGATATGATGCCTGAGGG
ACCATCTTTCCCTGTCTGTAGCACTTTTGTACAAGAACTCTTTCAAGCGCAATACAGGTATGAGAAAATCGGATGTTTCCACTTATTTTGTTTACCTGAC
ATCGTTCTGGGTGATTTTAATGTCAAGCGTCTTACCTTTTTGTTTTGAAGATCTTCTTTGACGTGTCCTCATTGTCAGAAACAGAGCAACACTTTTGATC
CTTTCCTTTGCATTTCTTTGCCAATTCCTCTGCCCCACACAAGGTAAGAATGGATTTAGTAAAATGAAGACTGTATTTTCTTATGGTATCCCTTTGCCTC
TGTAGGCTCCTATTAGGTCTTCTTACTTATTTAGACAGGTAATGGGATTAATAATGGGATTGAATACAGTCATTGCTACAACCTTACAAGAATAAATGCC
CTCCTGAGTTTGCAGGGTGAGCAGGCACATGAGGCAAGCAGGGGCTGTGTAGTCTGGCCCAGTTCGTCATCCACACATAGTATCGGGGTTGGGGGACGGG
GGCTGCTGAGTGACTTCAGGATTCTCTAGAGACCTTACTTTACATTTCTTGTTTCTTCGTTGCTTTATTTTGAACAATTTCTCAACATTTCCAGGAGTTA
TGCTGTTCTAAAGAAAATACAAAGCACAGAATCAAGTGTAGATATATTTTTGTTTGCTTCATAGAATGTTCATTTTATGAAGATTGCCTTTTCCAAAGAT
CTTGATGATTGTTTGACAGTTCTGCTTAGAGCCAAGTGAAATTTTTCCATTTGGGCTTCCGAGTAACAGTGTGGGTTAGCTTTAGTTTTTTGTTGATTTC
GTCTCAGGTTTATTTTGCATCTTCTATATTTTAGTTGAAATAAGTGACTAATGAGAAGATCTGACTTTGATCTGTACAGGCCTCTCTATGTCACTGTAGT
GTATCAAGGCAAATGTTCTCACTGCATGAGGATTGGTGTGGCCGTACCTCTGTCTGGGACTGTCGCCAGACTTCGGGAAGCAGTGTCTATGGAAACAAAG
ATCCCCACTGATCAGGTAATAAGTCTGCTAAGACCAGTTACACATGAGCCACAAAAGTATTGCTTTCTGTTCTCTTAGAATTTTTTACAGTTCTTTGCCA
AGTATGGTTGGATAGAGATTTAAAACCAGTTGCATTTAGAGTTTAGGGAAAAAAATCAAGGCCCCAAAGACTAAAATGTATATAGAAACTTTTCATGTTT
CATTTAATTGTGTATATAATTTTAAAAGAAGCTGTGACTTTACACCAAGACCTTCTTGTAGCTTTGTTCATAAGGTATAATTACTTAACCCTTCTTAAAT
CATTCCTGTGGATGTGTATGTGGGCAGTGGAGCGTCCTCGCAGTGTTTGAGATAGTCAAAGAGGCTTTGAAAACTTGAGCAGTGACGCTAGAAAACCCCT
TCCCATTGTGATGATAAGAGTGGATATCTTGCTAGTACAATGTTCTGTACGTAATAGATGCTCAATACGTTTTGTTTTCTCATTACGGCTGGACCAGAGT
CTCTTACCTTGTTTAGAGAAGAGAAAGGAAAGTTGTGCCCATGCCGCATCCCTTTTTGGGGTAAATGTTTGATAAGCAGTTATGTTGAAATTGACCAAAA
ATACTTTTGACCTGTTTGGACTTGACATGTTTTTGCATATAGCTTTTACTCAATTTACTATTATTATTTTATTTGGAAAAACATTCCTTAYTTAAGATTT
ATTAAGGAAAGATGACTCCGTAGCTAAATTGCTTTCCCTAGATAGTAGCTTCTGGAAGCTACTGTGTAATCCCTGGAATAATAAAGGTGTTTTGTACTTT
GGCCTCATGTGGCCTCATTTGGGAAGTTACCACAGTAAAACAAATACAGCCAGCAGTGTTGCCCTAATATGGCAAATATCTCATATTTTTGCAGGCCAAG
TACTGGCATGTTGATAAAATGTTCATATTCTTTCCTACTCTGAAAAGCCCATTGGCTCTTTCTTCTCTTCAGGATGAGGGAAAGGCAGAAAGGGAGGGAG
CGAGGCTTCGGTGGTGTCCAGGGCAAATCTGGTTGCATCTTTAGAGCTTCCAGCACTGTCTGGCTCCTTTTGCATGTGGTTTAAATTGGTGAAATAATTA
CAAGTTTGCTGTTGACCTCAGTTTGCTGAAGAGAGTGAATTTTACTTGCTTGTTCACCGGCAGAAAAACAACATGGTCATTAAATTCATTAGAAGGAAAA
TGTGCCAGGAACATTTTTGCTGGACTATTTGTGGAATATACCACCGACCCCTTTTACCTGGTAGATTTGCAGAATGTTAGTGCTGGTAGAGGGGACCTCA
TAGGTCTAGTCCAACTCCCTTATTTGAAAGAGGCTCAGAAAAGGCATGTGACTTGTTCAGGTTTGCAGGGCTGGTTGATGACAGGCCGGACCRGAACCTG
CATGCCCAATCCAGTGCTTTTTCACTAGACAGCGTGGCTGAGCATATAATGAAGTCTTTAAATGTCTCCAGTGTTCTCCTCTCCATCTTTTGTTTTTCTG
TTTTGTTTGTTTGTTTGTATGTATGTATGTATGGATTGATTGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCATTGGTGTGATCATGGCTCACT
GCAACCTCAACCTTGTGGGCTCAAGCAGTCCTCCCACCTCAGCTTCCCAAGTAGTGGGGACTGTAGGCGCATGCCACCACACCCAGCTGATTTTTGTATT
TTTCGTAGAGACGAGGTTTTGGCATGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGCAGTCCTTCTGTCTTGGCCTCCCAAAGTGCTGGGATTACT
GGCTTGAGCCACCATGCCTGTCCTGTTTTTCTGTTTTATTGTAAAATAACCATTTCAGAAATATAACAGAAAGAGGAAGTATCTCATACTAGGTATCTTA
ATGCGAAGGGTTACTGACTTTAATACTRTGTTATATAGTATCCATTTAGATTTTTTCCATGCATATATACATTATTTTATATAAGTAGAATCATTTACAC
ATATTATTTTTACCTTGCTTTGTATTTACTTAGATTTTTGCATGTTAGTGCAAATATATATAGTTTATTCTTTTTAGTAGCTTTATAATTCCAGTAAGGC
TATACTACATTTAACTAGTTAGTATTTTTGGACATTTGAGTTGATTTTTTTTTTCAATACAAATATCCGTGGTTTAGGCTTGAAAAATAGAAAATTAAAT
GATATGGGAGAAAGCCTCAGAGTCAGATGTGGACTCTGTCCTTGACATGAGGCTGAATCGTTGTAGAACTTTAGGCAAGTCTCTTGGCTTCTCTTCTTTC
AGTGAAACGGAGGTTAGACATTATGATCTCCTGGTTCTCTTCTACACTAAAACTTAGAGAAACTCTGGAGTTAGAGTCATAGAGTTCTGCATCAGAGTAC
AGGTGTCCCTCAGTGTCCATGTGATTGGTTGTAGGAACCCTTGCACTAGGATACCAAAATCCACAGTGCTTTAATCCCTTTTATAACATGGCACAGTATT
TACATAGAACCTAAGCATATCATCCTGTATACTTTATTTATTTTTACTTTTTATTTTATGGATACATAATAATTGTACTTCCAATATACTTTAAATCATC
TCCAGATAACTTACAATATTTAATACAGTGTAAATGTTATGTAAATAGTTGTTATGCTATATTGTTTAGGGAATAATGACAAGAAAAAATAGACTCTGTT
CAGTATACATTCAATCATCCTTTTTTTTTCTTCTGAATATTTTTGATCTGCAGTTGGTTGAATCCACAGATGTAGCACCCACAGATATGGAGGGGTGACT
GTATATTGTTATATAATTACAGAGGGTACTGTGCTTCCAGGATTCTCTCATTAAAGGCAAATAAAGTGGGCTCTGCGAGATGTCTCTCAGACCACTGCCA
GTCCTGATGGTCTGGAGAAGTTCATAGAATTGGGAGATCAATTAGTATCGAATTTCCAGTTACCCACCTGTTTACATTTTTCCTATTTTTAGATTGTGTT
AACAGAAATGTACTATGATGGGTTCCATCGTTCCTTTTGTGATACAGACGACCTGGAAACAGTCCATGAAAGCGACTGCATTTTTGCCTTTGAGACTCCC
GAAATATTTAGGCCTGAAGGAATTCTCAGTCAAAGAGGTAAGGGAGCTCCTGTTTCCATAATGCCACCTGGGTTTGCAGGTTTAACTATAGTCTACCTTT
TTAGTTGTCTATTATATAATGATATACATTTTTTTTTAAATTGTGGTAAAATACACATGATTTTTTAATGATGGTATAATGGTAAAAATCTTATAGTAAT
ATTTTCCTAGAAGAAGGCAGCTCTTACTGTTTTAGGCAAAGATATATCCATAGTTTAGTTGGGAAAACCTCTTATTGAGATTTAGGACTGACTGTGACCT
CTTTAAGTAGCCTTTTTGGCATCTTATCATGACATTCAGGAAGATATACTATGCCATAGGTTTTTTTTTTTTTTTTTTTTTTTTTAAATTTTGCTATCAG
CTCTTAAGATTSTAACATTTTTGCTATAGAATGTTTTCTTGGTACCTGCTTTTAAGAAATTTGCATGTAACTCTTCATTGATAGGCAGCAAAATGAAGTA
AAGCCCTGGACAGTATTTTTCCTCTTACTGCGGTTTGGGCTGTGATTTGGAACTTAGCTTGTCTCCCCACTGTGCCTGGAGTTACAGGGTTATTCTGATT
TTAAGAGTTACCAAGCAACTCAGACTTTGCTCCTCGCCACAGCATTCTTCAGGGTTCCTCTTAGGGCTCCTCTTCTTTTGCTCTACCCCAGTGGTTATTA
ATGCATCAGTATTACCTGGGAACTGGTTAGAAATGCAAATTCTTGGTCCCTACTCCACACCGAGTAAAGGAGAAACTCTGGTAAACAAGCCCTTTAGGTA
GGTGATCGTGATGCAAGCTAAGTGAGAACTGCCGCTCTTATCAGGATTTTCCACGCCTTGATTTTTTGAGCTGAATTCCCCCACTARCCTCCACTTTTCT
TTTGATTCCAGTTCCATTCCTTGACTTCCACCTCCCTACTGGAATTTCTACTTAGAAATCCTACAGGCATCTTACCCTTAGCATTTCTTTCTTAGATTGG
TTGCTCCTGCATTTTTTCTAGAAATAATGGCACTACTATCCTCCTCTTCACTCAAACTGGATCCAAGCTTGATAACTTCTCCTTCAAAATTCTCATAGAG
CTGTTGACACACACTGCATTTTTCCCCTTTATTCTACTGCCACTGACGTAGTTCAGGCGAGTCCCAACTGAGCCTTTCCAGTAAGTTTTTATCTTTACCA
CTGAACTTTCTCCTGTCTAGTTATTTCTCCACAGACTTATTCTAATACACAGTTCTGATCATGTTACATGCTATTGATTTACCAGTGGTTCCCCTTTTCT
AAGATCAAATCTAAACACYTTGAAAGGAGCATAACCCCCTCCTCCCCTGCCATGATTTGGTCCTTGCCTTTCTTTCCAGTCTCTCTACTCCATTTTCTCT
CCTTCCTCGGTTCTTCTCTTTCAGGTTACTCTGTTTCTCAGACATGCCATGTGCTTTTCCATGTTCCTTACCATTTGCTGTGCTGAGGATTCACTTCTCC
AGCTTCTATTCTCGTTAGCTCCTGCTTTGTTTTCCCAAGGTACCTTCCAGTCTCCCCATCCTGCCAAGCTCTAAGCACTCATTATTCGACTTTCTCTCTC
TCTTTTTTTCTTTTTGAGACAGAGTCTTGCTCTGTCGCTCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACCGCAACCTTAGCCTCCCGAGTAGCTGG
GATCACAGGCGCATGCCACCACACCTGGCTAATTTTTATATTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCA
AGTGATCCAYCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCYGGCCCACTATTCTGCTTTGTGTTTCTACAGATTTCCCTA
GTCTAGACTTCTATATAAATGGAATAATAAAATACATGGTATTTTGTGACTGGCTTTACTTAGTGTGATGTTTTCAAGATTCATTCATGTTGTAGCATAT
ATCATACTTAATTCCTTTTTGTGGCCAAATAATATTTTATTGTTTGAATAGATCACATTTTGTTTATTCATTGTTAATGAACATTTGGGTTGTTTCCACC
TTCTGGCTAATGTGAATAATGCTCCTGTGAACATTCCACACAAGTTTTTGTGTGGACTTATGTTTTCGTTTCTCTTCATACCTGGGAATAGAACTGCTGG
GTTGTGTGGTAACTTTATGTTTAATCATTTGGGGTACTTACAGACTTTTCCAAAGTGGCTGCACCGTGTTACATTTTTATCAGCAGTGTTTGAGGGTTCC
AGTTTCTCTACGTCCTCGCCAACACTTGATTATTATCTGACTCTTTAATTTTAGCTATTGTAGTGGGTATGAAGTGGTATCTCATTATGGTTTTGATTTG
TGTTTGTCACTGACATGATGTTGAGCATCTTTTCTTGTGCTTGTTGGCCATTTGTATATCATATTTGGAAAAATGTCCATTCAAATATTTTACCCATCTT
AAAATTGCATTGTTTGCTTTTTGTTGTTGAGTTTTAGGAATTTTCACATATGCTGAATACTAGACCCTTATCAGATATATGATTTGCAAATATTTTCTCC
CATTCTGTGGGTGGTCAAAACTACCTGATAATGTCCTTTGAAACACAAAAGTTCTTAGTTTTATTGAAGTCCAGTTTATCTATTTTTTTTTGTTCCTTGT
GCTTTTGTTGTCATGTCTGACACTTTATCAAATCCAAAGTCATAAAGATTTACCCCATAATTTCTTTTAAGAGTTTTATAGTTTTAGCTCTTATATTATA
GTTTTTTGAACTATTTTGAGTTAATTTTTTATGTGCATGTGCATGTGTCTTTTTAGTAGCATGATATATAATCCTTTGAGTATATACCCAGTAATGGGAT
TGCTGGGTCAAATGGTAATTCTAGTTCTAGATCCTTGAGGAATTGCAACACTGTCTTCCACAATGGTTGAACTAATTTACACTCCCACCARCAGTGTAAA
AGCATTCCTATTTCTCCACATCCTCTCCAGCATCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAATTGGTGTGCGATGGTATCTCATTGTGGTTT
TGATTTGCATTTCTCTGATGACCAGTGATGATGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATACCCTT
TGCCCACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTCGTTTGAGTTCTTTATAGATTCTGGATATTAGCCCTTTGTCAGATGGATAGATTGCAAAAA
TTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCCGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCTGTTTTGGC
TTTTGTTGCCTTTGCTTTTGGTGTTTTAGTCATGAAGCCCTTGCTCATGCCTATGTCCCTAAAGATACTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTT
CTAGGTCTAAGATTTAAGTCTTTAATCCACCTTGGATTAATTTTTGTATAAGGTGTAAGGAAGAGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGT
TTTCCCAGCACCATTTATTAAACAGGGAATCCTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTGTTACTTC
TGAGGCCTCTGTTCTGTTCCATTGGTCTATATCTCTGTGTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTTAGGT
AGCGTGATGCCTCCAGCTTTGTTCTTTTTGCTTAGGATTGTCTTGGTGATGCGGGCTTTTTTGGTTCCATATGAACTTTGAAGTAGTTTTTTCCAATTCT
GTGAAGAAAGTCATTGGTAGCTTGATGGGAATGGCATTGAAACTGTAAATTACCCTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTATMCATG
AGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGACGTCCTTTGCATCCCTTGTAAGTTG
GATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGTATAGGAATGCTTGT
GATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGTTTAAGGAGATTTTGGGCTGAGACGATGGGGTTTTCTAGATATACAA
TCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCTTTCTCTTGCCTGATTGCCCTGGCCAGAACTTCCAA
CACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCTTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCT
GTGAGTTTGTCATAAATAGCTCTTATTATTTTGATACACGTTCCATCAATGCCTAGTTTACTGAGTTTTTAGCATGAAGGGCTGTTGAATTTTGTTGAAG
GCCTTTTCTGCATCTATTGAGATAATCATATGGTTTTTGTCATTGGTTCTGTTTATGTGATGGATTACATTTATTGATTTGCATATGTTGAACCAGCCTT
GCATCCCAGGGATGAAGCCAACTTGATCATAGTGGATAAGCTTTTTGATGTGCTGCTGGATTTGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCGAT
GTTCATCAGAGATACTGGTCTAAAATTCTTTTATTTGTTGTGTCTCTGCCAGGCTTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTTAGGGAGGA
TTCCCTCTTTTTCTGTTGATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTAGAATTTGGCTGTGAATCCGTCTGGTCCTGGACTCTTTTTGGTTGG
TAGGCTTTATTATTGCCTCAATTTCAGAGCCTGTTATTGGTCTATTCAGAGATTCAGCTTCTGCCTGGTTTAGTCTTGGGAGGGTGTATGTGTTCAGGAA
TTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGTGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGATATCC
CCTTTATCATTTTTATTGTGTCTATTTGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCTTTTCAAAAAACCA
GCTCCTAGATTCATTTATTTTTTTGAAGGGTTTTTTGTGTCTCTATCTCTTTCAGTTCTCCTCTGATCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGA
ATGTGTTTGCTCTTGCTTCTCTAGTTCTTTTAATTGTGATGTTAAGGTGTTGATTTTAAATCTTTCCTGCTTTTTCCTGTGGGCATTTGGTGCTATAAAT
TTCCTTCTACACACTGCTTTAAATGTGTCCCAGAGATTCTGGTACGTTGTCTTTGTTCTCATTGGTTTCRAAGAACATCTTTATTTCTGCTTTCATTTTG
TTATTTACCCAGTAGTCATTCAGGAGCAGGTTCTTCAGTTWCCATGTAGTTGTACAGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAATTTGATTGCAC
TGTGGTCTGAGAGACAAGTTTGTTGTGGTTTCTGTTCTTTTACAGTTGCTGAGGAGTGCTTTACTTCCATTTATGTGGTCAATTTTAGAATAAGTGCGAT
GTGGTGCTGAGAAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGAGTTCAAGTCCTGGAT
ATCCTTGTTAACCTTTTGTCTTGTTGATCTGTCTAATGTTGACAGTGGGATGTTAAAGTCTCCCATTATTGTGTGGGAGTCTAAGTCTCTTTGTAGGTCT
CTAAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATGTAGGATAGTTAGCTCTTCTTATTGAATTTGATCCCTATACCATTATG
TAATGGCCTTCTTTTTCTCTTTTGATCTTTGTTGGTTTAAATTCTGTTTTATGAGAGACTAGGATTGCAACCCCTGCTTTTTTTTTGCTTTTCATTTGCT
TGGTAGATCTTCCTCCATCCTTTTATTTTGAGCCTACTTGTGTCTCTGCACATGAGATGGGTCTCCTGAATACAGCACACTGATGGGTCTTGACTCTATC
CAGTTTGCCAGTCTGTCTTTTAATTGGGGCATTTAGCCCATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTTATTATGATGTTATTT
GGTTAWTCTGCCCGTTAATTGATGCAGTTTTTTCCTAGCATTGATGGTCTTTACAATTTGGCATGTTTTTGCAATGGCTGGTACCGGTTGTTCCTTTCCA
TGTTTAGTGCTTCCTTCAGGAGCTCTTGTAAGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGATTTTATTTCTCCTTCACT
TATGAAGCTTAGTTTGGCTGGATATAAATTTTGGGTTGAAAATTCTTTTCTTTAAGAATATTGAATATTGGCCCCATTCTCTTCTGGCTTGTAGGGTTTC
TGCAGAGCGATCTGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCTGACCTTTCACTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACCTTG
GTGAATCTGACAATTATGTGTCTTGGGGTTGTTCTTCTCGAGGAGTATCTTTGTGGTGTTCTCTATATTTCCTGAATTTGAATGTTGGCCTGCCTTGCTA
GGTTGGGGAAGTTCTCCTGGTTAATATCCTTGAAGAGTGTTTTCCAGCTTGGTTCCATTCTTCCCATCACTTTCAGGTACAGCAATCAAACATAGATTTG
GTCTTTTCACGTAGCCCCATATTTTTTGGAAGCTTTGTTCATTTCTTTTTACTCTTTTTTCTCTAACCTTGTGTTCTTGCTTTATTTCATTAATTTGAGC
TTCAGTCACTGATACCCTTTCTTCCACTTGATCGAATTGGCTATTGAAGCTTGTGCGTGCATCACAAAGTCCTCATGCCATGGTCTGCAGCTCCATCAGG
TCATTTAAGCTCTTCTCTTCACTGTTTATTCTAGTTAGCCATTTGTCTAACCTTTTTTTCAAGGTTTTTAGCTTCCTTGCGATGGGTTTGAACATGCTCC
TTTAGCTCAGAGAACCAACCTTCTGAAGCCTACTTCTGTCAACTCATCAAAGTCATTCTCCATCCAGCTTTGTTCCATTGCTGGCGAGGAACTGCGATCC
TTGGAGGAGAAGAGGTGCTCTGGTTTTTAGAATTTTCAGCCTTTCTGCTCTGGTTTCTCCCCATCTTTGTGGTTTTATCTACCTTTGATCTTTGATGTTG
GTAACCTACAGATGGGGTTTTGGTGTAGATGTCATTTTTGTTGATGTTGGTGCTATTCCTTTCTTTTTGTTAGTTTTCCTTCTAATGATCAGGTCCCTCA
GCTACAGGTCTGTTGGAGTTTGCTGGAGGTCCACTCCAGACCCTGTTTGCCTGGGTATCACCAGTAGAGGCTGCAGAACAGCAAATATTGCTGCCTGATC
CTTTCTCYGGAAGCTTCGTCCCAGACAGGCACCCGCCTGTATGAGGTGTCTGTCGGTTCCTACTGGGAGGTGTCTCCCAGTTAGGCTACATGGGAGTCAG
GGACCCACTTGAGGAGGCAGTCTGTCCATTCTCAGAGCTCAAATGCCATGCTGGGAGAACCACTGCTCTCTTCAAAGCTGTCAGACAAGGACCTTTAAGT
CTGCAGAAGCTGTCTGCTGCCTTTTGTTCAGCTATGCCCTGCCCACAGAGGTGGAGTCTATAGAGGCAGCAGGCCTTGCTGAGCTGTGAGGGGCTCTGCC
CAGTTTGAGCTTCCTGGCTGCTTTGTTTACCTACTCAAGCCTCAGCAATGGTGGATGCCCCTCCCCCAGCCAGGCTGCCACCTCGCAGTTTGTTCTCAGA
CTGCTGCGCTAGCAGTGAGCAAGACTCCGTGGGCATGGGACCCACCGAGCCAGGCATGGGAGAGAATCTCCTTGTCTGCCGGTTGCTGAGACCTTGGGAA
AAGCACAGTATTTGGGCAGAAGTGTCCTGTTTTTCCAGGTACAGTCTGTCACAGCTTCCCTTGGCTAGGAAAGGGAAATCCCCCGACCCCTTGAGCTTCC
CGGGTGAGGCGACACCCCACTCTGCTTCAGCTCACCCTCCGTGGGCAGTACCCACTGTCCAACCGTCCCAATGAGATGAACCAGGTACCTCAGTTGGAAA
CGCAGAAATCACCCATCTTCTGCATCGATCATGCTGGGAGCTGCAGACCAGAGCTGTTCCTGTTCGGCCATCTTGGAACGGATCCACTTCATTCCTTTTT
AATGGCCGAACAGTATTCCATACATACATATGCATGTACCACATTTTGTTTATCCACTAATCTATTGATGGGCATTTGTTTTTTTCCTACCTTTTGTCTA
TTATGAATAGTCCTACTATGAGCATTTGTGTACAAGTATTTGTTTGAATACCTGTTTTCAGTTCTTTTGGGTATGTACCTAGGAATGGAATTGATGGATC
ATATCATAATTCTATGGTTGTCTTCTTGGGAATTGCCAAACTGTTTTCCACAGGAGCTGGATCATTTTACGTTTCCACCAGCAATAGATGAGAGTTCTAA
TTTCTCCACATCTTTGCCAACATTTATTTTTCATCTTTTTGATTTTAGCCATCCTGGTGAATGTGAAGTGTTACTTCATTGAGGTTTTGACTTGCATTTC
TCTAATAGTAAATGATGATGAACATCTTGCCATGTGCTTGTTTGGCCATTTATATATTCTCTTTGGAGAAATGTCTATTCAAGCCTTTTTCCCATTTTAA
ATTGCATTATCTTTTTGTTGAGTTGTTTTTGTTGAGTTGTAAGAATTCTTTGTAAGGATGTATAATACTAGACCCTTATGGGATATATGACTTGCAAGTA
TTTTATTCCATTCTCTGGGTTTTTTCTCTTTCTTGATAGTGTTCTTTGACGTACAAAAGTTCTTCATTTTGATGAAGTCTGTTTTTTCTTTTGTTGCTCA
TAATTTTGTCGTCATATCTAAGAATCCGTCACCACATCCAAGGTCATAAAGATTTACTCTTGTGTTTTCTTCTGAGTTTTGTAGTTTTAGCTCTTACATT
TAGGTTGTTGATACATTTTAAGTTAACCTTTATAAATTGTATGAGGTAGGGACCAAACTCCATTCTGGGACAAGTAAATATTTACTTGTCCCAGCACCAT
TTGATGAAGAGATTGTACTGTCCTCATTGAATGGTCTTGGTGCTCTTGTTGAAAGTCCTTATTTTAATTCCTCTTTTACTTTACCCTCTACTTCCAGAGG
CCTCTGGCACCTCCAGTTTCTGATTCTTTCGGTGATCCTGTATATTGGGTTGGCCAGCTTTCTCCAATGCCAGCTTACAATTCAGTTTTCTCTGGTCTAC
TCATATTTACAATATTTTCTAGATAGTCTATTATTTCACTTATTCTTCTTTGACCCAGGTGCTTGTTTGTGTTTCTTTTCCAGTTGTTACGTTTCCCTGT
ATGTGTTTTTGTTTGGATTGTTTCTAGTTTTATTGCATTACAGTAAAAAATACCTAAATTATCTTGTCCAGAGAGCCTTTCCTCACTCCCTTTACCTGCA
GGCTGGCTGGCGAACTCCTGCTCTTCTGGGCAGTTAACTTCTGTTAATCTCTCACACCAGCGTGTTATGTGGAAATGATTTGTTTTCTTCTCTGTCCTTC
CCACCACACTGTGAAGTTCTCTGGAGCTGGGGCCACATTTTGCTTTATCTTGTTATACCCAGCAGTGCAATATAGTTCTTAATATGCAGCAAGAGCCCAG
GTAATGTTTGTTCAACTGAAAGTTTCTCAAAATCCTGTTCCCACCCCAGTTGCTTAGGGTTAACACTAAGCTTCTATTTATAAGTGAATTTGGTGAATCC
AAAGGTTATTGTATTCTAGCCAGAGACTGCCTTATTGAGTCTGCGTTAGCCTCTATCCTAAGGCCTTAACAGATGTTTTATTCAATATATAATGAGGCTA
CTGCTTTCCCCACATTACTGGTGAGGAAGCTGAGACTTGGAGATGAAGTAACCACTCCCAGCTCACACAGCTGGCAGTAAATGGGTCCACAGTTTGAACA
CAGAGCTTGATTTCTGTGCAGTTGACAATGTGGCATCCCCTTATCTCGTCAGGAGTCCACATCTATTCTAGGAGAACAGATCTTCCCACCCTTACCTCTG
CCAAGAACCTGGGAAACGAGTTTATTGTCTCAACTTCAGATATCTATTATTTTTATTTTCTCATACCAGAGTTTAAAATGGTTAGGAAGTAAGATCTACT
CCTGTTCCTTTTGTGATTTCTTTATGGTGTTTAAGCTTAAAAAGTTTTCTTCCCTCTAGTGGCTTGACAAAGATTCAGCTTTTTTCTTATTTCTAGTTTG
TATGTGTTGTTTTTTTAAACTCTATCTGGAATTTATATTGGCATTAACTATGTACTTTGTCATTTTAAATTGTTATAATGTTGAGGTATCTTAATAGGTT
CAGTGAGTCTTAGATTGCTGAGTATTGAGGTTATTGCCAGCATTCTGCTATAAATACTTTTGTGTAGGCCATTTGTATTTTATTCTCTTTCTGGTGGTAT
TATTATTAATGGTGGTGGCAGGAGGGGTTTCTTCTATTTTCCAGCTGGGATGTCATTTCCCTAGGCTGTGCTTCCAAAGGATTAAAGGAATGAACAGGTA
GTCAGGCATTTATTGGGGTTGTGCTGGGTGCTGAGTTGCTGGGTACTTTGATTGACAGGGAGCTCTGCTTTGGGGCATTTGGGAGGATCAGTACTGTGCC
TGTCAAATATATATTTTTGTTAACTTTAATGTGGATTGATCCAGTCTAGTAGACTGTATTCCAAGTTGGAAGATTCTCCTGATGGCTCTGAGTCTAGTAG
GTGTAGTGTGTAATTTACCTTTTATTTCTTATAAGTCTGGCTCTTTAATCAGGGAGAAGAAACTGCTATTGAATATTGAAGAACATTCCACATCTTTATT
TTTTAAAAATTTGTTTGATTACTGGTTGCATGACCTCACTAAATTTTCTTGGTGAATCATCTCAGCACACATGCCCTTCTAAAACTGTATCTAACCTTCA
CTGAAGTGCAGTTTTAATTTTCAGTTTTTAAGATAGGTAAGGCTAGTTTAAAGGAAATAATAATGGATGCTAAAGAAATTCTCTAACGGCTAGATGAGTA
ATCTAAGTAGGATGTTTCTTTTTTTGATTGCAGTTTAATTTACATAATGACATTTTTAAAAAAAATTTTCTCTGTTGGGTAAATTTCTTCATAACGAGTG
AATAAAAATAATTTTGAAGAGATAAAATGAGTTGTTTTTATTCTGTTTCAGGAATTCATTTAAACAACAACCTAAACCACTTGAAATTTGGCTTGGATTA
TCATAGACTGTCTTCTCCTACACAAACAGCAGCAAAGCAGGGGAAAATGKATTCTCCCACATCAAGAGCAGGCAGCGACAAGATTGTCCTGTTGGTGTGT
AACCGAGCCTGCACTGGGCAACAAGGGAAAAGGTGAGAACCAGATTATTTTCCAGTAAGTACCTAGACTGTAACAGTTCAGTATTTTCAAACATGTTAAA
AAGCATGGGCAAAAAGTTCTTACTTTTAGTAGTTAATTTTTGATTCTGATATTTAGAAAGAATACATGTACAAGTTGACCTGATTTGGGGGGTTGGTCGG
GGGAGAGTAAAATTAGGAATCTGGGGTTTTTTGTTGTTGTTGTTGTTGTTTGTTTGTTTGTTTGTTTTTTGATATGGAGTCTCGCTGTGTTGCCCAGGCT
GGAGTGTAGTTGCGCGATCTCGGTTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCTTGGCTCAGCCTTCCGAGTAGCTGGGATTATAGGCGCC
AGCCACCACACCCAGCGGATTTTTTATATTTTTAGTAGAAATGAGGTTTCACCATGTTGGTCAGGCAGGTCTCAAACTCCTGACCTCAGACGATCCGCCC
GCCTTGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCATCTGGCCAGGAGTCTAGTTTTAAAAGTCCCATTTCATATGTGTATTTTCAGTTC
AGGCTCCTCTTGGGGCTCTAGACCCATTTCCAGCTACTTTCCTGACAGCTTTTTTATTTTTATTTTTTTAATTGTTAACATGTCTACTTGGATGGTGCAT
GTCCCTCAGTCTTCTGTCCCAAATTGAACTTATGTCTTATGTCCCAAGTTGAATTGAAGTATGTCCAAATTTTCTTTCCTTTTAAAACTGGCTCTCCAGT
ATTTCCCATCTTGGCAAATGGCACCACACATTCATTCAGGTTTCTAAGTCAGAAATTTGGGAGTCAGAAATCTCTCTCAAATTTGTCTAATGCCCTCTGT
AAGAGTGTATGGGTGTTTTAGACTATCTTTTAAAGTAACTCTGTCACAGTAGGAATGTAACCTGAGTATTAACAAGAGACAGATATGTTTCAAGGAGAAA
GGACTCAGTGTTTCTTAACATTTGTTAGAATAGCCTTTATGTTAGCCTTTGAAAATTTTGCTTTGAAATAAGTTCCCTGCATAGTAAATAACATAAATGT
AAAATGTGTTGATATGCATATTTATGCTATTCATTGACAGGTATTTTAGTGTTTACAGTGTGTTGGGCATGGTTCTAAACACTGGGGATTCAGCAGGGAA
CAAGACAGGCAAGGTCTGTGTCCTCATGGAGCTTCCATCCTAGCTAGGACAGACCGACTATGAACAAGCAGACGTCTTTAACTTCAGACAGTCCGTACCA
CGTCGAAGGCATTAAAACAGACTAGAATGATAGAGTGTGATGGTGGGAGGCTGGCAAGACRACATTAGGAAGGGAGGTCAGGGAAGRCGTCCCTGAAGAG
ACCGCAGCCAAGCTGAGCCCCAGTGTGCTGTGTGAACATGGGGGGAAAGGATCCCATGCAGAGGGAACACCYGGTACATGCACACAAGACTAGGAGGAGC
TTGGTGTGTGTCAGGCACAGAAGGAATGAAGTAAAGAACCTGTGGAATTCCCTTCATGATGCTAGTCTCTTAAAGAGTGAAGTCATTATTTTAAAAAAAT
ATGGTTGGGTGATTTACATGTACTTGTAACTCATTTCACCTCACAGTAGTTTTTAGGCAGATTGGTTCACTGTTAAGCACCACTGTGAGCGAACAGTTTG
ATAGTTGTTGGAAACTGGTTTCTTGGTGATCTTAGCACCTCTACTTCCCTCTGGGCCTGAGTCAGAGTTAATCTGTTAGATCATTTGTTCATTCATTCAT
TCATCTATTTTCTAGACATTGTCTGTTTGCGCTACTAAGATAAATAAATCACAGTGCTTGCTATCAAATAACTCACAGCCTATTGGTGGAGGCAGAAAAA
TAAGCAGGCATTGTTTATAGCACAGTATACACAGGGAACAAGCCAACAGGGTGCCTCCTGGAAAAGAATACCTCCACTGGGTCTTCACATGAGTGAGTAG
GAGACAGCCTAGACTCAGAAGGGTGGGGAGGGTATTTTAAGCAGAGGGAGTTCCCTGACAAAAAGACATGGATGTGTGAGAGTAGGACACATTCAGGGAA
TTCAGGTTTGACTGACTGGGCGTGGATGAGAGTTGAGGCTAGGATAGTGGTCCTCAACATTGGCTGCATATTAGAACCACCCAGAGAGGCCCTAAAAACA
TCTCAGTGCTCAGATCATATTCCAGACTGATTTCATCAGAATCTCTCCGGGGGCTGGACTTGGGCATCATTATTTTCTAAAGCTCCTCTTGTGATTTTGG
TCTTCGGTCTGTGCAGCTGAGGCCAAGAACCACAGTACTGCTTGGACTCTGTGGGACATAGCTCTGGAGCTGWCTTTCACTGTCACTTGCTTGCCAGTGC
CTCCCTTGTTGTCAGAGACTCAAGAATGTGGCTGCCTGTCTGTGAGACCTTCCAGCCCTATCTAGTCCTCTGGCACCCAACCTCTTATGAGTTCGACCTG
TGCTGTTTGCCAGGCTCATGTCCACTCCCACCCCCTGTGCTCTCCATCTTCACTGATCCTGCCCCGTTGCCACCTGCTGWCCTAGCACCATACTCCCCTA
GAAGCCATTTTGGTGTATTGGCTATTAAATTTCATTTAGAAATCCAAGCTGTTCATCTCCTTATGAAGAGTTACCATTAAATTTCCTGTTTCTTTTATTT
TGAGAACTGTCCTAAAGCCAATTATATTGTGATTCCGTTTTAAGAGATCGAGAAAAAAAGATAACAGTGTTAAAGGAATTACCGTACTTTAAAGGTGATT
ACATTGTTGATGTGTGTTAGATTTGGACTGCCTTTTGTGCTGCACTTAGAGAAGACAATAGCTTGGGACCTTCTGCAGAAGGAAATCTTGGAGAAGATGA
AGTATTTCTTGAGGCCCACGGTTTGCATTCAGGTTTGTAAGCATTTTGATATTCCAGCATAGCATGGGTATATACTCAGTGAAGAAACAAACATTACAAT
GAAATTTGAGTTTCTTGTGTTTAGATTTCCAGGACTGAGAATTTATCCCTCATTTTATGAAAGAGCTAGCCACTGCAAGGTTTTCCTTGAACTGCTGCAT
ATTCCTTTATAATATTTATCTAATAACGTTCAATACATGATCAGCTTGGAAAGGATTTAGTAGAATGTCTATCTGTATATGTTAAAAATTATTACTATGT
TAAGGTATCCGTGGAAGACCATTAAGCTGATGTTTAGTAAAGGCAATGTGTTACTTGTCTTGCATAACATATTTGATACGTAAATCGCATTTGGGTAAAT
AATATTTAAAGTGTATTAGAGTGGCTCAACAACCTTATAGAATCTTATAGTGAAGCATTTTGCAGAATAAACAGTTTACTGTAACTCTAATCTGTTTTGG
AAATGCCACTGTGAAACAGATGCCCTTGAAGAAAAATTTGGCTTAATTCTCATCTAACATCTGATGCAGGTGTGTCCATTCAGCTTGCGTGTGGTCAGTG
TTGTTGGAATAACATATTTGCTGCCCCAGGAGGAGCAKCCCTTGTGCCACCCAATAGTAGAAAGGTAAAAAAAATTTTTTTTTAAATTACCTTTTAGAAT
CTCACACATATTCATGTGTGATTTCAAGTGATGTCTTATATAATTTCCACATAAGTGTGCAGGGTTCTTTAGGCTTATTTCGAAATTAAGTACTTATTTT
ACTTTTGATTTGTGCTTGGGTATATGTTTGATGATCTTTCTTGAAATAAGAAAAGCCCTGGAGGACTTGGGTTAGGAAAGCAAATTAACGTATGTCCTAG
GACTGTAGATAAATTACACTTTCATATTCACCAGGAATGAAGTTTTGTAAAGTAACGTTCTAATCAGGCCACATTCTTCCTTAAAACCCTTATATGGCAA
CTTGTGGCCTAAAAAATAAAGCCCGTGTTCCACAATGTAAGAAGTTCTTCACAGTTTGAATTCCGCTTACTTTTGTCAGGCTTTGCTCTTCCTCTCCCCA
CTATCCCAACCTTTCAGCAGCATTAAAGTACAGATGATTGTTTGAACAGGCGATACTATTTTATATGCGTGCTTTGCATGTGTGGTTTCCTCCGTCCGTA
ATTCCTTTCCTTTAAGCCCTTTTTTATACTCTTCCTCCTCCCACCCCCAGCAACCTGCCCCATAGAATTAGTCACTCTACTCTGCTACCTCTGTGCTGTC
TAAATCTGTTATAATACTCTATTGTATTAATAAAATAATATACATATATACACACTATGTATCTATGAATATATAATATACATGTGAAAACTCAAATTTT
TTATAATAAAAATTATTATAATGATTTTTTCAACAAATATTGTAGTGCCTATATTTCAGGATTCTAAAAAAGCATACAATATGGTCCTGCTTGAAAGCTT
ACTGTTTGGGTTTAGAGATGAGAGTTAGTAGACAACAATCCAAAATATTGCATAACAAACAAGATGAGATAGGTAATATTAACTGAGTTCTGGGTTTCTC
AGGAGATGGCAAGGAGCCAGTGAACTTGGGACGGGGGTAGCTTTGGAGGAAGGAGGAAGAAGGGTGCAGTCTAGAGCAGGCATGGCATGTTGGTGGAGAG
GTGGAAAGGTGCAAGGGGCGACTTTGTTCCCAGGGGACTACCGTCCAGTGTCTGTTTGGGTGGGTGAAAAATTGGGCAAGAAATTGGGAAGGTCATAATG
ACTATCTGAGAGTGATCATCAACCTTATGACACTAAATTTCTTCCAACCTCTTTATTATTARTACTGTATTGGGCTTTTTARTTTAAGGGTTTTTCAGTT
TAGTTGAAATGTAGTTATTAAATCAGTGGTTATAGTGGTCTTGCTGAAAACTTTTTTCTGATGGGGAACTATGATGAAGATTTTCATTAATCACCTGAAA
TTATGATTTTGGGTAGGACATAATCACATTAAGTAAAATCATTTGTTTAGAAAATAATATGTGGCTTCCCTCTCCACTTCCCTGGTTCTATAGGGCATTA
AAATCTTGTGGACCAGGTGGCACTRCTCATGTGAAATTAGTAGTCGAGTGGGACAAGGAGACAAGAGATTTGTGAGTATTTTTAAAGTTAGTGTTTATAG
AAACATTGTTTTAATTATCATTTTTATAGCACACCTTTGATATGTTAAATGAGCTGAAACACAAATCTCTCTTCTCTTTAGCTAAGTATCCAGGTGTGTT
GTTAACCCTTTATTTAAGCAGTTTATTATTCCTTTCCTATACATTCTCTCTTCCCAATCCCAGAACCTTAGAACATTTGTTCACTGCTGAAAGAGAAGCT
GTATACTCATTAGCTACTATATAGGTTCAATTTACTTTGATTTTTATTACAGGCCCATTAATTCTAGAAAGCAATGTCAGATGCATGTTCTTAGATGTAA
AGGACAGGAATATGTGGTTTAACCAGTACAGTTCATGGCCAAACCCAGAAAAATCAAGTTAGTTCTGGAAATAACTTTGTATACAGAGAACTTTTCAAGA
ACATTTTGGAATATAGAAAAGTTGGGTCACTACTTTTGTTTTCTTACACATTGATTTTTTTTTTCCTTCGGTTATGAGTTTGTAGTCACTTCATGAAGCC
ATAATTGTATTTTTCCTTCTGTTTTGCAAGACATTCCCTGATAGATGCTTTTCCCCCTAATTGCAGCTTATTTGTAAATACTGAGGATGAGTATATTCCT
GATGCAGAAAGTGTTCGTCTGCAAAGGGAGCGTCATCATCAGCCTCAAACCTGCACTTTATCCCAGTGTTTCCAACTGTACACCAAAGAGGAGCGGGTAA
GAGACTGGGCAGCATTTCTTGGTTGCTCAGGGCAGTGGGGAGTGGGGCATGGCAAGGTGATAGTGGAGAAACAAATCACGCCCCAGAAGTCGCCGCAGGA
TTTTGCATATATGTAAGTCTGCACATGTAATGAGCATCTTAATGCTCTTGCTTTTAGGACTTTAACAAGAAGTTGTAAGTTTCTAGAAAACCGTGATTAA
TTGAAGTACTCTGGAAATGAACCTTCATAGTTCTTTTTAATGGTTAATGATCAAGTTTTGGTGATTTTCTTTCTCAATTTAGAAGTTTTAAGATCTTTTC
CTTAGTAACTTAAACAGTGATTCTTGACTTTTTGGTACTAAGAACATAAGTGCCAGGACCTATTTAAATTTAAATTAATTAAATTTAAAAAATTAATTAA
AATTAAGTGAAGTAAATAATTCAGTTCCTTCGTTGCATTAGTCATGTTTCAAGTGCTCAGCAGACACATGGTGGCTAGTGGGTCCCATATTGAACAGCGT
AGATATAGACCAGAAAGTAGACAGCAAGGCTTCGCAGGTAGTAGGGACCCAGTAAGTATTTAAATGAATGGATGGACAGAGAGATGGATAAATAAGCCTC
TTTGGGTGGGGCCCAGGCCTGTGTGATTTTTATGCACCTTATAAACATTGACTAGAGTACTTGGAGTCATCTAACCTTGCATTGATATCTAGGATCATAA
TTTTGACTACTAGTTGTAACTCTTCACTCTTAAATGGAGTCATGCAATTTCAGGATTGAAGGGGACTTTAAAACTCTTTTATTCTGGTGGTTGGGTTCTT
CTTCTGCTTAATTTCAAATAGGTGATTGCTTAGCCTGAGTTTGAGTATCTTTTGTTATGAGGTAGTTTGCCTCGTTAAGACAGAGATAGACCATGTTTTC
TCTGGATGGCTCTGATGGTGACTGAAGTTAACCTGAAATATGTCCACTGGTTACTATAGCCAACAGTTGTTCTCTGTCTTAAATTCATTATGACTCAGAA
GTCCTAATATTATTTTTGTCTGTTGTTCGAATATTTGAAAATAGCTTTTGTATTTCCAGCGAGTCTTCTCTCCCCCACACTGTTTTTAGCTAGTTTCTTT
AATAATAGTTTTTCATAAGACATGGGTTTTTTTTTTCACCCCTTCCCCCCCTCCCCCCCGCCAGGTTTGCACTCAATTATGAAATAGTTGGCTTTGGAAT
TGGTTGACTGTAGGTTCTCTATGACACCTTGCCCTGTTTAGCTTTTTTTTTTTTTTTTTAATGACTTTGGAGATGTTTGATAATGGCACAAAGATAATGG
ATGAGCAAATCTACTAGATGGCAGCACTGGTATTCCACAACACATCTCACTGATCTAGAATGGTAGCAGGATACCTTTTAACAGGGGCTCATTCATTCAG
TAGGTGTTTTTTGAGTACATACCATGTTAGGTATCGTACTGGTACTGAAGAAGTAGCAGGGGCCAACATAAACAACATTTTTGCCTTCATGCTGTTTGTA
GTCTAGTGGAACAAGTAAATAAAGGAAGCAAAGTTCCTGGAGGAGGAAGCAAAAGCCCTTTGGCAAGACTGTCAAACAGAAATGAAGCCAGTATGGCTGG
AGGACAGGAAGTGAGGGACAGAATTGAGACAGTATATGCTCCATGAGAGCAGGTACTCCATCTGTCTTGATCACTAAATAATTCCAGTATCCAGAGCAGT
GCATGGCACATAGAAAGTGACATCTGGCCGGGCGCAGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGACGGATCGCCTGAGTTCACG
AGTTCAAGAGCACCTGGGCAGCATGGCAAAACCCCGTCTCTACCAAAAATACAAAAATTAGCTGGGTGTGGTGATGCATGCCTGTGGTCCCAGCTACTGA
AGAGGCTGAGGTGGGAGAATCACTTGAGCCTGATGGGTGGAGGTTGCAGTGAGCCGAGATCACACCACTGTACTCCAGCCTGGGTGATAGAGTGACACTC
TGTTTCAAAAAAAAAAAAAAAAAAAAAAAAAGAGAGAGAAAGAAAGTAACATATTTAMCATTTATACAGTATTTACCGATTTAGTCGTTCCTCTTTGAGG
GATAATCTATTCAACAAACCAGAATCTGTTTAGAGTTTGGGTGCCAGCTCTGGCTRCTTTTGATTGTGTTATTCCATTGATGCCCAGCATCTGCGGTTTA
CAGAGAGATTTTGAGTTGCACCATGCCCTGGCTAAGGCATTAGTCCAGCTGTAACACAGTCTTGCATTAAGTGGCACTTAACGGGAGTCATGCTTCTGTT
TTCAGCTTGCCCCCGATGATGCCTGGCGTTGCCCACACTGTAAGCAGCTGCAGCAGGGAAGCATTACRTTAAGCCTCTGGACTCTGCCTGATGTGCTTAT
TATACATCTAAAGAGATTTCGGCAGGTATGGAAATCCTTTATCCTCAGGAACAAACAAGTTGTGACAAGTTTCTTATGCCCCCTGCTGATGGGCTCTGTG
AGGGTTCTTTGGTATACCTGTTTGATCCAGTGAGTCCTGTCTGTGTATGTTATAGACACACTTTTGCCCCTGTGTTTAGGGTAATGTTTTGTTCTTTCCC
AAGGCAAAATTTGATTTTAGTTCAGATTGCAGATATTTTACTTGACTTGTAAATGTCGTGCCTAAATTTTGTTAAGTGTACTCTGGGATTTAAAAAGAAC
TAAGTAGAGATCCTTTCTGGGGGAGGTAGAATTCTGTTTCTACCTAATGTAATATGGGTGTTCTGCTCCTGAGAAGCTGTTGTATGGTTGGGGAGATGAG
TCATAAATAAATACAAAGAAAATCTGCTTTGAATTGTATTGCTTTGTGAGTCAGTTTTTCCAAAAAGGCTGTCTATTCCCTGAGGTTAGGATTGTCTAGA
CAGTCTCATTGTAAGAGGTAAATGGGAAGTAAACATTAGCGGACTCCACAAGGCCTGGCTCTTAGTTTGTATCTGAAAGATGAGCAAGCTTTTACTAGGT
GAGGTGGAAGCAGGGATCTCCCACACGGGGGCAGAGAGAGCAGTGTGTGCAAAGCCCGACAGTGGAGAAAGCACAGCCTGCACGAGAGGCTGGGAGCAGG
CCAGGTGGGCAGGCAGTCCAGAGGGGTGGGCAGTGGCGGGAGTTGATGGAAGACGTGGGTGGATGCTGGTTGTCCAAGGAACCCTTTGGGGGCGGAGTAG
GATTCCGATGAAGGGTTATAAGCAGAGAAGCAACCTTACTAAATCTGTATTTTGAAAATATTATTCTGGATATTGTGTAGATAACAGATTAGASGCTACA
AGAATGAAGATGGGGAGACCTGAAGGAGGCCCTTGCCTTCATCCAGGGTGGGCTGCTAGTAGRTGGGATAGGTTGTGGCAGTAGAGACGGAGAGATGTTG
AGGACTGTCTGAGGAGGCGGAGGTATCAGGGGCAACACACAGATGGTCCCCAGGTCTGGGGCTTTCACACAGAGGTTTGAGGTTCAGCTCCTATGGGAGT
GAAGAGTGGGCATTTGGCACCCACTGTGTATTCYGTTGGGATCTGCAGGTGGAAAGCTGGCTGAGGGTTTGGATCCCAGCCTGCTGTTTCTCCTTCCCCA
GACACAGAGTAATTTCCTGGGCTTTCTGTTTTCTTTTGAAGGCATGTCACCACCCTTCCAGCAATCCAGAGGCAAACCTGCAGTGTCCTCTTTGACTCTT
CTTTCTTGTCCCTCTCATCTAGGCATGGCCATGCCTCTTCATYGACTCCTGTGTGTCCCCTCCCCATTCTTGCTGTCAGACAGCGTGCTGGTTCAGACAT
TTTGTTGCTTTTCAGCTGGTCACTGTTGCAATGATTTTAATTGATTTTTCACCTCCATTACTCCTATTTCTAACATGTTCTGTGCACTGCTTACACAGTT
CTTGACCCACAACTCTGGTGACATCACCTTTTCCATAAAAGCCACAGAGGATACACTCCAGATTCTTCAGGCTGGCCTTCCTGACCACCCAGGACCCATC
ATCCCTTTCTCTCATGAACATTTTTCTTCCCTTCACAGACCTATACGTAGCTCCTTAGGGTGGACATATCTATGCCTGGTTAATTTTTTAAAGTTCCCAT
AGACACAGGAAACATTCAGTCATTATCTCTTCAACTGATGGTTGGATTTCAAAGCATTTCCCTATAGGTTTAATGGAAAATACAGATTACTAAAGATTGC
CACTGAGTGGATATATTAAGCTAAGACAGTGTTGCCTTGTGATGTGCCTGTTGGAGGATGTGGAGGGGAACAGGCACTGCTTATCAAGAGGCTCTTCTGC
ACCAGGCGCTGTGGTTTGCCCTTCATGGAGCCATCACATCATTAGTTTTCATGTCTCTTTGACAGAGGTATCAGGAAGAGCCACCTGATACTGTCATTTT
TTTTTAAGTCAAATGCTTTAAAGCCCTTTAACAGATAAGGAAAGGAAGACTCAGAGAGGCTCATWTACCCCCTCTATATGGATCCTTACTGGTTCCACCT
TAGCTGATATTAAAACCTGTTCCTCTAGATAGCTAAAACTATCATCTGTTTCCCTGATTTGTATGTCTTGGGAAACATCAGATAGGTAACTCACACCGCT
TTGTCTGATAGGATCCACATTCCCCTCTAAAGTGATCTGCCATCTGCTTGCATTAAAATATCACCAGAACTTGTTTTTCTTCTTGCAACAGGAAGGAGAC
AGGCGCATGAAACTTCAGAACATGGTCAAATTCCCCTTGACTGGCCTGGACATGACACCTCACGTGGTTAAGAGGAGCCAGAGCAGCTGGAGTTTGCCAT
CGCATTGGTCCCCGTGGAGACGGCCCTATGGACTCGGGAGGGACCCTGAGGACTACATCTATGACCTGTATGCTGTGTGCAATCACCATGGCACCATGCA
AGGGGGGCACTACACAGGTCTGCAGTGTGAGAGGCTGCGTGTCTGTGCTGGCGAGTCCTTCAGACGGGTTTGCTTGTGGCAGGGTGACTTGACTTTAGAG
CCTCATTTCCCCTCCGGTAGGCAGTGTGCCAACTGTGAGGGCAGTTTCCATCCTCTGGATCTCTGCCCAAGAGCAAATAAACGAACATTCTTCCTCCTTT
TCCTGAGTTGGGTCGTCCAGTAGGTAGCTGACTGATTGGGGAGTGGTATGTGCAGATGGCATTGTCTGGTCAACTGAGGATTTGCTCTTTGTTTACCTAA
CCTGCRCTCCCCATTTACGGTTTTGCTAGATAGAGTTCCTTGAGTTCTATCTTCTCTCTCATTTTAAATGATTGTGAACTACTTTTTTTTTTTTTAATTA
AAGATGAGCTGTTGCTGTGTTGCCCAGGCTGGAGTACAGTAGCTATTCACAGATGTGATTATCACACACTACAGCCTTGAACTTCTGGGCTCAAGCAAGT
CTCCTGCCTTATTCTCCAGAGTAGCTGGGATACAAGTGCATGACACTTTTATAGTGTCTTTAAAGTGACTTAGAAGGGTTTTTCTTTTTGTTTTAAGGTT
AAATTGACCTTGTCATTTATAAAAGCAACTATGTTCATCATGAAATTTAGAGTCTAGAGGTGGAAAGAATACCATCATCCATGGGCTTATCACTGAGATA
ACCACTGGTAACATTTTTTTTAATTGCGATAAAATATACATAAGAAAATGTACCATTTTAACCATTTTTAAGTGTACAGTTCAGTGACATTAAGTACACT
CACATTGTTGTGCAACCATTATCACTATCCATCTCTACAAGTTTTTTAATCTTCCCAGACTTAAACTCTGTACCTAATAAACACTAATTCCCATTTTCTC
TCCCTTCAGCCATGACAAGCACCATACTTTCTGTCTCTGTGAATTTGACTACTCTTGGTACCTCTTTTAAATGGAATCATTCAATATTTGTTCTTTTGTG
ACTGGTTATTTCATGTAGCATAATGTCTGTAAGGTTCATCCATGTTGTGGCAGGTATCAGAATTTCCTGCCTCTTTAGGGCTGAGTAATGTTCCACTGTA
TGTAGGTAATATTTTGGTATGTAGTATATACTTGACGTGTTTTTCTCTTAAGTTTTTGCCATTATTTTCCACTGTTGGGATTTTACTGGCATTTTGTTGT
TGTTGTTCAAGTGAWCATTTATTGAGCCCCTCACATCCTGCTTGCCCTGGGCTCTATCACAGCAGAGATCAGTAGGTCCCCAGCCTCTGTCTTCTGAGAG
TGTAATCAAGTAGAGGGAGATGTGGGTACAGATATGGTTTAAAAAGGAGTCCCACATCATGGGTTCTGTGGTGGAGGTGTGAGCAGTGGGCAGAGATCAG
AGCCAGAGGAGAGAGTGGCCAGAGCGTGCTGGAGGGGGAGGGTCAGCTGTCGGGGAAAGGAGCCTGCCGCCTCACCTCATGGGCTAGAGTGGGGTGGATA
GACAGGTCACAAATTCAGAAGCACAGCAGCACAGTGAGGGGTGAGTGGCGCATGCCTTCTGCATCCTCATCTTCACGCCTAGTATTGTAACAGAAGTAGC
TTGATGTGGACACTTAATTTTTTATAAATACTTTTTTTTTTTTTTTTTTTTTGCGACGGAGTCTCGCTCTCTCACCAGGCTGGAGTGTGGTGGCGTGATC
TAGGCTCACTGTAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACACACCACCACACCCAGCTAA
TTTTTGTATTTTTAATAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCCTGACCTGGTGATCTGCCCTCCTTGGCCTCCCAAAGTGCTG
GGATTACAGGCATGAGCCACTGCGCCCGGCCTATAAATACTTTTTAATGACCACAGAATGTTCTGTTGATAGATCTCTAATGTTATCTAACCCTTCCCCA
TTGCTGAACATCTATATTGTTTCTGGTTTTTAACTTTTCGTGTAACATTGTTGAATATCTTTATGCTCTTTCACTTTTTTTGAATTTTAATTCTGTATTT
CCTTGAGATTGAGTCTTGGAAATGGAATCATTGGGCTAAGGGCCTGCWTGAGCCTTTTGGGAGCCAGGCAGATTTCAGGGCTTTATTCGTTGATGTGAGG
GTTGATGTGATTAATTTGATTATCCGTGTGAGTGKCTAGGATTTGGATTTCTGCATCCTTCACACTCAGTGTGTTATATATGTATACTTCTCAGGGACTT
TCTTTATTAATTCAGTGGTTTCTGCAACAAGACCCCGAGTGCTAGTGCTGACCATTGATTTATAAAGGTAGGGAGAGATGGAGGAGGGGTGGGGTCTGGC
CAATCCTGGGTACTATTAAATCTCTGGGACTCTTTTCTCTAGTATTTAGCCGTGAACCTCCCTCCCCATCAGCCAAGGCAGAGGAGTCCGTTGGCCTTGC
TACCTTTCATACTCACTGTTTCAGTCTGCTCTGTTCCCTTCCAGGAGGGCCGGGGTTGGGGAAGATTACTGGACACAATAATCTTTTATTCTTGAAACCC
TTTTAGTTCAAGTTCTTTAAATAGATATTTTTCTTTTTTTCAAACTCATTTTACTGCCTGAAGTTCTTTAAATATTTAAATGCTGCAGGCAGCAATTGTT
TGTGAGAGGAATGATCCCAACTTTGAGCGCATCTTGTGATGGAATGGCTTGGATTGCCTCTGCCTGCTGTAGGAAGCGCTTTCAAGGAGAGAAAGAAGCT
AGAGAAGTTTGAAAGATGCTCTCACTTCATAGAAGACAAAAGTTAATGTGAATTAAATGTTTAGATATATTTTGCCTTGTACTTTGGTTTAAACCATATT
TCAATGATGATAATAGTATATTTGGTATCTTACATATTTTAGGTTTCTATTTTATGGGGGCCATGTATACAAATATTGTGTCTTGTTGGATTTTTGCTTT
TGTGGCATTACCAGTCATGTCTGTGTTCTTTGGTACTGAGTGATGGAATTCTATACTTGTGGACTGGTAGAATGGAAAGGGATGTGGAGGTCATTTAACT
TCACAACTCACCCGGTGTTGTAACACCTTTGCCAGCATCCTTGATTGGCGTTCACCAGCTCAGCTTTGGTAAAGAATGTGTTTTCCATTTATAACACTAT
TTCTCAAGAAAATATGGACTGKCTTGTTACATAGTTTCTGGGAAGAAATTGTTGGGAAGAATAAGACAGGGCTAGACTTTAGCATCKTGTTGCTCTTTAT
ATATAGAATAGATCTTGGAAAATGCCTGGAAACCTCCAACTACCTTAGAGGCAGTACAGTTTGGTGGAAGGAGCTTGGGTTAGAAGCCAGACACATCTTT
CTAGCTCTGTGTCCTGGGGCAGGTAGCTGTTCACTAATTTGGCTACCATGTTAGTGAGCCAGGAAGAGGTCATGCTGACCTCAAGGAACCCATTACCCAG
GATGTGCTCAGATGTTTTCTGTATTATTTCCCCTTTCTCATGCTGAGACCCTACCACCACTTTTCTAGTATATGAGATGTTTAGAGTCTTAGTTTAGAGA
ACATTTTAAATATTCTTCGCATTGTTGAATGAAAGATACTCTGTTTTTAAGTTTTTTCTTTTTTTTTTTTTTTTAACATCAACTTTTAAGTTCAGGTGTA
CGTGTTCAGGATGTGCAGGTTGGTTACTTAGGTAAACATGTGCCATGATGGTTTGCCGCACAGATCATCCCATCACCTAGGTATTAAGCCCAGCATGCAT
TAAGCTATTCTTCCTGATGCTCTCTCACCCCTCATCCCCATTTTTAAGTTTTCATTTGGAATGTTTATTTTATGTTTTGAGACAGGGTCTCACTTTGTCA
CCCAGGCTGGAGTGCAGTGTGTGATCGTGGCTCACTGCAGCCCCAGCCTCCCGGGCTCAAGATCCTCCTACCTCAGCTTCCCAAGTAGCTGGGACTACAG
GTGTGCGCCACCACACTTGCCTAATTTTTAAATTTTTTTGTAGAGTCAGGGCCTATACTATGTTGTCCAGACTGGTCTCGAACTCCATATCTCAAGCAGT
CCTCTGCCTCAGCCTCACAAAGTGTTGGGATTRTAGGCATAAGCCACCATGGCCGGCCTGGAATGTTTATTTTGATGTAATCTTTATTTTGCACTGTTTC
TAGCTATAATCGATGGTATAATGATATAATCGATTGTGTAAGGATTCTAGAACAGTGCCTCTCACACCATCTGTGATGAAGAACTTGGTTTTTTCTACTT
TAAAATTTCCAATCCTTTMTCAACTAGTGCATTTGTAAGAATACAATAAAAATATCACGGCAGTATCAGATTGCTATAAAAGTTTTTTAAATGCTKTTCT
CCTTTTTGGTGCTTCTCTCGTGTGGGCTCGTGTCAGTCCGTGAGCCATAATTCTAGTAGCACTGGCCTAGAGAATACTTCAGAAAGTAGTTCTAGGAAGA
AAAGCAAGTAGAATTATTTTGTAATTAATGAGTTTGCTGTGCTGTCTCAGTTTCCACACTGTGACTGAGAAGAGGCCATTCTGAAGAGGAGCAGGCTGAA
AGGAGGCAAGGCTGTTCTGTCTCCTTCTCTTGGGCATGTCCCTCACAGCTCTGCTCCCACTCACCACTCCAGAAGAGCAGCTACTCCCCAGCTGGGTCAT
GTGTGCATCAAGCCTGACCTGACGCCACTGGCCAATTGCTGTTTCCTTAGAGCTCCATTTGCTGCTTACATTTTAAGTTCTTTCCCTTCTGGTTCCGGCA
AGTTCTCAGCTGCAAATAACTTCCCTGCCTCCGTTCATAGGTCCTTATTCTGCTCTCATTTTGGGGGACTTGTCTGGTGTAGCCCTTTCTCACCCGCGTC
TCTTTTATCCCTTAAGTCTCCATACTTGCGGAAATGGTTATGGCCCATTGAAGGAGTCACTCCTGGTGCCTCTCAGGACCTTATCTGCCCCATCCCTGGG
GCCATCCTGAGTCTGTTCCAGCATTCAGCTAAATATTCTAGCACTCGTTTATTCTCACCCCAAATAAATGCATATTTTTAGAAAATGTGATCATAATGTA
CTTTTCTGGATCAAGCTTATAACACCCTTTGATATATCCTTGCAGGATGACTGGGTTTGTGAACTCTTAAGTTTTYGTCTGTTTTTGCTGCTACTTGAAT
GTTCTTTATTTCTAGCTCAGGCTTAGAATTTGGACTGAAAGAAGTCCTCCTGCGTTCATGRGCTCATGTGTTCTCAGTCTGCCAGGGAACTTCCATGGAG
CCTGGTTTGTGCTCCTCCCTGAGGGAAGCAGGGCAGGATAGGGCTTCAAGTGCAAGCCAAGGACTTGATAAGCCTGAAATGAGCTGGGCTCCTGCCTTTC
ACCAGCTGCACGACCTTGGGCAAGCAGATTAATCTTTTTCAACCTCTGGAAATTGGGAGTAATAAGAGAACAAATCTGAGGATTAAATGAGATGCTTGGC
ACATAATAAGTGTTACATATTATATTTATCTGCTATCATATCATTATATTGTTATTTCTATTCATATTATTTGCTATTTCTAATAGACACTAAAATGTTG
CAACACACTGAACTCAGGGTTTCTTCACCCTGGCACCATTTTGGTCGGACAGTTTTGTCTTGCAGGGGGCTGTCCTGTGCATTATAGAATGTTTAGCAGC
ATCCGTGGCCTCTACCCACTAGATGCCAGTAGCACCTCTCCCTTGAGTTGTGACAATCAAAAACATCTCCATTCATTGCCAAATCCCACTCCCCCCGCCA
CAGACACAGTTCCCTGGTTGAGACCCATTGGTTTAAATAAGTRTGTGTTTTCTAAGATGAACTGGAACTGCATCTACTTGGAATGGTTTGGAATTTCTCA
AGATATTTTGCTCGAGTGTGATACAGAATTTAGAATTTTTTTTTAATCTCTTTCTGTGTTGCTATACGCAGCCTTAAAACGTTCTTGAGTTAATTAGATG
AGCCAAAGAGATGGTGTCTGTGGGTCGCATGAAGTGGCTGGTGCAGCCTCCCCTGGTGCTGATGGCGGGCTCTCTTTGGCAGCGTACTGTAAGAACTCTG
TGGACGGCCTCTGGTACTGCTTCGATGACAGCGATGTGCAGCAGCTGTCAGAAGATGAGGTCTGCACGCAGACAGCATACATCCTCTTCTACCAGAGGCG
GACAGCCATCCCGTCATGGTCAGCCAACAGCTCGGTGGCAGGTGAGGTCCACTCTTGTTCTTGGGCAGTTTTTTCCAGAGCAAAAGATTGTAATGAATGG
TCTAGAGGACCTCTCTGGAGGCTCTCATGACTCYGTCAGTTTGATCAGATGAATCCTTACGTTTCCATTTAATCTGGAAACTAAAATGACTRCAGTCAAG
GAAGTTGGGGAGGAATGTGACAGCACCTGTGGCCCAGTGGAGTTCACTGGGGACAGTGGGTTGGACCTGGCGCAAAGAAAGCTCATGATGTGTTCTTGTG
GATAAATGCATGGGTGAGCTGAAAAGCAGCGTGGCATACTACCCGCTGTCCTGGGGTTATCCTGGAGCCTGTCCCATCTGGGCCACATAGCAATCATCTA
TAATACAGGTGTAATAATAATGCCTACCTCATGGGGTCATCGTAAGCATCCAGTTAGATAAATGTGTGTTAAAACATTTTGTAAAGGGTAAAGGACCATT
AGAAATAGTCTGCTTTTCCAGTGAGAAGATTGGACTATTCTGTTAGGAGAAGGATTGATGGCTGTGATAATATTAGGTGGCTTGGGTTTAGCCGGATGAC
ATCCAGCCTGTTGTGTTTAATAAATGCAGGGACCAGTACCCACACACAATATGAATGCAGCCACACATAATCCAAACAAGTGGACACACGTTTCTGAATG
CAGAGTTTGACTTCAAGAGAGCGTGACAGAGGATTGGAATGTGGTGATGTGCAATCAGGTTAGGGGCTATGAATCCTTGCTTCTCTTGAAGCTTGCAGGG
GGTGAGTTCAAAGCAGTGAAAACAAGGCATCTCTCAAGCAGAATGACGCCCTGCTGGGGGCCAAGCCCACCCAGTGTACAGCCACTCACTCAGTTAACAC
AGCGGGAACTCCAGTGCTCTTCCACCAGTCTCAGATGTGCTCAGAAATGACACCTTCTTGAGGTCTACTTGAGACAGTCATGCTGCTTCATGTACTCTGT
TTCAAGAGCAATTTCTCTTGCCCTAATAAATATTTAAGGGCGTCCCTGGAACAGACAGGGCAGATTGACATATAGCTGTGTGTGTGTATTATTAATATTA
TGAAAATGGTGACAAATTTCCTTAAAACAGGCTGAGAGAAAAAGAGTATACTGCCGCATCCTCTCTTCTCTTTGTGTAAGAAATATTACTGCAATTGCTT
AGAACAGTGCCTGGCATGTAGATGCTTCATAAATATTTGTAGAATGAATGTATGAGTGCTTGTCTATTCCATTCTCTTGCCAATTCTTTAGACTCAGACT
TACATTATAAAGTATTCATCCCTATCCTTGCATTTTATTACTACAAATTTCATGCGTCAGGAAGTCTGCCTTACATCTTTTCATCTTAACTGGGGATATT
CGGACAGGCACGACATGACACAGGGTCTGGGAATTGATGCTGACCTCGGGGTGAGGACATCAACGCCCCCCAGCTCAGCTCGTAACACCTTCATGAGGGT
GTGTGTGGCTCAGGGCTGGCCGAGGGACCCCAGCCTGACCTCTATGCCTGTTTTCTTCTCTGCAGGCTCCACAAGTTCTTCCCTGTGTGAACACTGGGTG
AGCCGGCTCCCGGGCAGCAAGCCAGCCAGCGTGACCTCTGCAGCTTCCTCCAGACGCACCTCCCTGGCGTCGCTCTCTGAGTCCGTGGAGATGACTGGAG
AAAGGAGTGAAGATGATGGTGGGTGTGGGTTTTGGTGACAAATTTCCAGAATGGTAACTCACAGACACAGCAGAGTCCCTCGTGTTTTTCCTAGGAGCTA
AGTCCCAAGGAGATGGTAGGAGAACCCAAAGGGAGCTACAGGGAGTGGAGCTGTGTAGCTGTGAGTTATGATCCTAAAAAGCATTTTGTATTAACAGAGT
CATTTGCTTTTCCTGTGTCCCAGTACTTTCTCCTTCCACTTCATTATTTTCCACTTGTAAGGTCTCTTGTGGAGGCTGGAGCTTTATATACCAATGTATA
CTTTTTTTTTTTTTTTCCCAAAGTGTTTTAAAAAGCAGGATAGCTGGAAGAGGCTCAGAGAGATTGTGCTTTGCCCAGGCCACGTGGTGGGGAGTCGGCT
CCAGGCTTGGCAYGGAGGCCCCTGGCTCTCTTGGCCCCAGGAGAGCCTCACCTTCCAACATGCTGCTCCCCAGGGAGGAAGCTGTGGAATGTTCTTTTTA
GTACAGAAGCATCTAAAACAAAAGCTGTTGTTGCCTTTGCATAGAGATAGTAAAAAGTCCGATAAAAATTGAACTCTTTTTTTTTTTTTTCTTTTTAAAC
TTTCACTTTCTGCTTGGGTAATGGCAGGATAGACSTTAGTTTCGACAGGGACCCAGGTGGTGTGGGAAGGACCGGGCAGCCACAGTACTGGGAGCTGGAA
RGAGTGAGTGCAGCTTCTATAATGAGCATAGTGACTCAATCTGCCAACAAGTCTCAGTCTGCAGCCAGCATTTCGATCACTGTAATCTGCTTCTAGTGGT
GATGGATAATTCTGAGAAAATGAAATTGAGTTAAAATTGCAATAGGCTGGAAGAAGAATGCCAGGTGAAGAGAGCTGCACCATAGCTCTAGCTCTGCCAC
CTCTTCTGGCTTGTTGCCTCTTCCTCTTTATTTGTAAAATAAAAACATTGGACTGCAATTCCTAAGCTCCTTCCGGCTCCTCACATCTTATGGAAAACTG
ACTGGTGAACCTTTGCTTGTTTAGGCAGAGGTTATTTTCAGTACTGCCTTTAAACTTAGAATTCACTGTCATTTTAACGATAAGCCTCAATAAGGTTTGC
CTCAGTCTATTTTTAAGCAGTGCAGTTGGTGAAATCAGTATCCTTTTAAGCATCATCATTGTATAATGGTGCTGGGTGGTGCCCACAGAATAGAGCCTGT
TTCTTAGGCTCTATAAAGACAGAATTTTGTAAATATCACAACTGTAGTATCATTGTGTAGAAAATTTAATTTAGAATATTTTCTTAGGACGTTTTGAGCC
ACACCAAATAGGAGTATGTGGTTCTGATTATGAGTATTTTTTTTTTTTTTTAAACGGAGTCTGTCTCTGTCTCCCGGCTGGAGTGTAGTGGCGCGATCTC
GGCTCACTGCAAGCTCCGCCTACCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCCAGCAGCTGGGACTACAGGCACCTGCCACCACACCTGGCTAATT
TTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGAATGGTCTCGATCTCCTGACATCGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTG
GGATTACAGGCRTGAGCCACCACGCCTGGCCTCTGATTATGAATATTTTTTTGGAAGTTTTAAGTTACTGGATTTAGGAGTATATGATATCCAAGTCTTT
TTAGCTCTTTGCGTTGATCCACATCTGTAGTCAACAATGACAGGCCAGCTTACATGTGGAATTGAGTGGTGCGGGAAGGGGTTCTGGGTTCTGGTATTAG
CTCTTCCTTTAATGAGTTGTGTAATCTTGGTCAAGGACTTCATTTCTGTGAGCCCCAGATCACCTTCAGGAAGGTAATGAAGCTGGGTCAATACCTCACA
GCATCTATGGAATGCCAGGTGCTCTGTTGGGCACAGGACTTGTAAGGTTGTATTTAATCGTCACACTTGCCCTGTGAGTTAGACCAGAGGTCAGCAAACT
GTAGCCCCATAGGCCAAATACAGCCCACTGCCTTTCTTTGTAAACATTTTTGGAACGCAGTCAGACACGTTTTCTTACGTGTCACCTGTGGCTGCTTTCA
TGCAGCAGTGACAGAGTTGAATGTTTGGCCTGCAAAGCCTAACATCTGCTGTCTAGGCCTTCACAGGAAAAGTTATACCGAGCCCTGATGTAGGGCAAGG
AGGCGAATAGAAGTTTGCTGTGTTAGAATGATCCTGAGTTAGAATGTCCCTATTTTATACATAAGGAAACTGGGCTCAGAAAAGTCAAAGCCACACAGGG
ACTCCTTGATCCCAGATGGGCTGGCTCTGAAGGTCATGCTCCTTTCATCCCATGAGGCTTACCTTCGTTTCACCTTCAGTGTCTTACAGTGTTGTYAGAA
TGTCTTCATTGGCTTAACTTAACAGTATTCTCTTTACTGTGTTCAGGAGGCTTTTCAACTCGACCATTTGTGAGAAGTGTCCAGCGTCAGAGTTTGTCAT
CCAGATCTTCTGTCACCAGCCCCTTGGCCGTCAATGAAAATTGCATGAGACCTTCATGGTCCCTGTCTGCTAAGCTGCAGATGCGCTCCAATTCTCCATC
CCGATTTTCAGGGGATTCGCCAATTCACAGCTCTGCTTCCACCTTGGAGAAGATTGGGGAGGCAGCAGATGACAAGGTCTCCATCTCTTGCTTTGGTAGC
TTGCGGAACCTTTCTAGCAGTTACCAGGAACCAAGCGACAGTCATAGTCKCCGTGAGCACAAGGCTGTGGGCCGGGCCCCTCTGGCTGTCATGGAAGGCR
TGTTCAAAGACGAATCGGACACCCGCAGATTGAACTCCAGTGTCGTAGATACACAGAGCAAACATTCAGCACAAGGGGACCGCCTGCCCCCGCTCTCTGG
TCCATTTGATAACAATAATCAGATCGCTTATGTGGATCAGAGCGACTCCGTAGACAGCTCTCCAGTCAAAGAGGTGAAAGCCCCCAGCCACCCAGGCTCA
CTCGCAAAGAAACCAGAGAGCACAACTAAGAGATCCCCCAGTTCCAAAGGCACTTCTGAGCCAGAGAAAAGCTTGCGGAAGGGGAGACCAGCCTTGGCAA
GCCAGGAGTCATCCCTTTCAAGTACATCCCCTTCTTCTCCTCTTCCTGTAAAAGTCTCTCTAAAGCCCTCCCGCTCCCGCAGCAAAGCAGATTCTTCTTC
CAGGGGCAGTGGACGGCATTCATCCCCTGCCCCTGCCCAACCCAAAAAGGAGTCATCCCCGAAATCTCAGGACTCCGTGTCATCTCCTTCGCCACAGAAG
CAGAAGTCAGCCTCGGCCCTCACCTACACTGCTTCCTCCACATCTGCCAAAAAGGCCTCGGGCCCTGCCACAAGGAGCCCTTTCCCACCTGGGAAGAGCA
GGACTTCAGACCACAGCTTGAGTAGAGAGGGCTCCAGACAAAGCTTGGGTTCTGACAGAGCCAGCGCCACCTCCACCTCCAAACCCAATTCCCCTCGGGT
GAGCCAGGCCCGAGCAGGGGAGGGCAGGGGGGCCGGGAAGCACGTGCGGAGCTCCTCCATGGCCAGCCTGCGCTCCCCCAGCACAAGCATCAAGTCTGGT
TTGAAGAGGGACAGCAAGTCTGAGGACAAGGGGCTGTCCTTCTTCAAATCAGCCTTGAGACAGAAGGAAACCCGGCGCTCGACGGATCTTGGCAAGACAG
CCTTGCTCTCTAAAAAGGCTGGTGGGAGCTCTGTTAAGTCTGTCTGTAAGAACACCGGGGACRACGAGGCAGAGAGAGGCCACCAGCCTCCAGCTTCCCA
GCAGCCAAATGCAAATACAACGGGAAAAGAGCAGCTTGTCACCAAGGACCCTGCTTCTGCCAAACATTCCCTGCTGTCCGCTYGCAAATCCAAGTCTTCC
CAACTAGACTCTGGAGTTCCCTCGTCTCCGGGTGGCAGGCAGTCTGCAGAGAAATCCTCAAAAAAGTTATCTTCTAGCATGCAAACCTCTGCACGGCCTT
CTCAAAAACCTCAGTGATATTTCTGCAATCRAAGTGTTTTATCTGTAAAGATGTTTRTTTATTTAGAACCCCTGCCCTCCCACCAAAGCCTCCTGTGCTT
TTGTTTTGTACTTTTTTGAGTCACGTGCCCGACKGTGTGTGTGTGTGTGAGTGTATGCGTGTGTGTGTCTAATTCAATTGCAAATTGTTCAAAGCGTCGC
CTTATTCTGCCATTGAACCAAATAACAGCCATAGGCAAAACATTGACACCAAGCTAACTGGAATAATTGTAGACGATACCCAGGACGGTCCCTTTAGCAA
TTGTACATATTTCTTTCTAGAGAACTCTAATGACTTTCTTTGGATATGAGGGTTTTGAAACCTGTGAACCAGAAAAGCTACCATTAGTGCGTARAAGGAG
GAAGGAGCTGACTCGTGTTTCTTCTGAGCAGGACTTGTCCTTACTGTGGATTGTGGGTGGCACCAGGAGCTCTAAAAACTGTGACTCTAACAACGAAACA
AATCGAGGGAAAAACTCTTGCTTTCTGCACTTTCGCCCCATCTACCAGTCTTTGTAAAGGGCAATATTTTAACACTAATGTTTCTCARGTATATACTCAG
CTAGTCTAGGATGGTTGCACACCAGTAAATGGATTAAAGAGGAAGGTGCCATGTGGGTGACTGTGTCATTTCTCCTACTGCCACAGATAGACATTTTCGA
GGTAGAAATGAAGCCTTTCACCACCTTCCTATCTGTGGTGACATGTGCACCAAAACCTGTCTTGACTCTTGGGATAGGTCCTAGGAAGTGGCAGATTGGA
TAGCCAGAAAGCCAGTCACTCGTTTAATTTTTTTTCCTTCTGAAATTACTAGCTAAGGCTCTTGGAATTTTGCACTGTAGTAGAGCAGTTAACACCTTTG
ACAGATTCCTGGAAAAAACTTCTAGATTCTAAACTGGGTGAAAGACTGGACATCATTTTCCTTGTCAGGTGTTGCATTTTTCCGTTAGAGGTGGRAAGCT
CCACGATGCCCTGTGTCTGTGGGCTCATGTTCCCTCATCTTGTAGCTTGGAGAGGAAAGAAGTTGCCTTCTGCCAAAAGCCAATGGTGGTATGTTGAAGC
GTTGTGTGATCAAGTGTTACATATGCACTTCAGATCCTGTCTGTCAGTCTCTGTTAGGGCTGCCTTTCAGTAACTCATTTATTATTTCTTCTTTGTTCTT
AAGATTTCATCTCATGCCCAGAACTCACAAGCAGGTTTTGGAGTGTGTTCCATCTGGCCGTGTCAGTGCAAATTGCATTTCTTACAAAGGAGAACCTCAC
CAAAAAAAACCTCACAGATAAGCAAAGTATATAGTTTTGCAAGCTTTTTCAAGGTCTCCTGGCAATACTTTCCTGCTCAATTTTTAGCTTTTCTTTTTTT
TTTAAATGTCAAGAGAGTGAAGGTCTTGATTCTCTCTGAATAGCATTTGTCACTTTGCCAGTAAATACAGCATGCTAAGTTTATGTGCTTTTAAATATTA
GCGTTTTTCGTCAGACTCTTCAAGTTCTTCTTGAACCCTTGGTGCACAGATCCATATATAACCTCCCTTTTCAGTATTGCTGTGTGTGAATTAACTACAA
CACATATGCATGCATAGCTGTGAATTCTGCACTACYTTTTTTTTCTTTTTTCCCCCCAAGAATATCTCTTGGGAAAAGTTTTTAGTACGTTACTTAACTT
TATTTTGCTGCTAATTTGCGCATTAGCCGGTAACTTGCAAGTCTGGAGACCACTTACTGTTGAGGGTAGCTGGAATTTTAGACCCTTGGCAGTATTTAAG
ATTTAGACATTTAGCCTTGTGAAAGTTACCACAGTGCTCCATGTGATTCATTGACTGTGAGCCTGTTGTCCATTGCACTCAGCCCTGTACTCACTTCTTY
ACTCGCTGTCCTGGTTTTACTGTTCAGATTTTGGTGGGTTCTCAAAGCAGTACCACTCTCATCTGCTCAGTACATCTGCGGCAACTGGCTGCCTTCGATG
CTGTCATTGCGTTCAGCCCAGCACATCACAGCYCCATCAGTGTGTAGCCACCGCTCTCGTTTTTCTGTATCGCTTTTATCTCCTGAAAAAGATGCACCAA
ATAAGAGATCATCTATATCAGGAATTGAATGTCTAACTCAAACCTCTCATTTTTGTTTARTAGGTAGATCTCATTTGAAGTCTCCTATCTGAATCTCTGA
AACAATTATAGTTTGATTAGACAAAGGTTTTTAATAACACTTCTTTTTTGCTGTAGTCAAGCATTAATAGAAACTAGTTTAATTTTCACAGTGGTAAATA
TTTTTATTCTTGAGTTATCTAGGAATGGATTTTCCACGATGTCTAGTGACTTAAAAAAAAAAAGGAAAAACGTTTCTACAAATCCCTTTGGTTTTCCATG
GGATCTGGAATAAAATGTCAGTGTCTATAAACTGTATGTCATGGAGTTTAGTCCTTGTTTCAGGTTTAATAGAAAAAATCAGGAAGTATCATGGCATTGT
CTAGACATCATGAAGCTATTTTATTTCCATAGTTGGTAAACAGTGAAAATTTCATTATCTCCAACTACTAGGTACAACTTTAGGCCACAGGAAAGGTTAT
TTGGCCCGAAAGTTTGGAGGTGCTCCTTGAGGTGGGAAGTATCTTGTGGGAAAGTAGTTACTTGATTCAATTTAGTTCATTGGTAGGGTTGGGGACTTGG
TGTTGGTTTCTTTCTTTCTTTTCTTTTTTTTTTTTTTTTTAATTTTCCCAGCAATATTTAGCACAATGAGCGTGTATGTGCTTTGGGGTTAAAAATTATC
TGCTAGGGATGATAGGCCTGGGTTTCTCGTTGACATCTAGATGGGCCTGATTAGAGCAGTCATCTCCTGGTAGGCACAAAATAATCACCAACAGTAATGT
TGTATCTGTAATGTTTGTTTGCTTTTTAAAGTTTTATTCTTGATTTCTTGTAAACATCCATTGCACTGAGGCCRTATCATTCCTTAAGACAGCCCTACAT
CTTGCCTTGGTAATCCCTTAGATAATGTGGAAACTCAAACCGTTAGGCTCCAGTCATCTTAGACCATTTCCCATCCGTTTTGTATTTTCTCKTCCTGAAA
GCAGCTGAACTGAAAGTAAGTAATAATATGCTGGACCAGTGGGAACGGATGTGGGAGTATTTGTGGTGTGCTAAAATACTGTAATTATCTGTGAGGCTGC
CTGACACGCTTYTGCAATCTTGTTTTCATCATTCATTCTGCAAACGTTTATGGAGGGCCTTCTTTGAGCACAGAGGCAAAACTGAAAGCTTCAGGGATTT
GCTGTAGCTGAGGAGCCCTGGGAGCACAGCCCATCAAGCAAGGGATGTGATGGTGTCCTAAATGGAGTGACAGTTCTCCTGGGAAAAGAGATCACGTGGA
TTCCGGTCAAATCGGCTAAGGCTTGTGGTTCTCTTGAGCAAGTCTGTTCCTTCTGGAAACCAAAAGTGCCCTTCATCTTTAGAGACATTTTACTCTTCCA
TCCACCTTTTCAGACTGAGCTGTCTCTACTATTTAGGGGTTGAAAATCCATTACACAGTCACTTTACGTTAACATTGGGTCATCTTATGTTTGTATGAGA
CGGATGTGGGATTTGAGGGGAACATTGTCATTCCCTTAAAATAACTATCATGAAAAAAATAGCAACAGTATGTAAAGGGACCAAGAGTGGCAGCYTTTAG
GGAAAATGGAGCAGAGAAGAGCTGTGAACAAAGCTCATTTATTTGAAATAAGCGTGCTTTATTTCACATAGAGGGGCATCAGACGTTACATTTCATTCGG
ACAAATTACTGAACAGCCGAAGTGATTGTTTCCAATGTAGGTTATTATAATTATTGGATACAAAGATTTAACTAGTGTTTCTGGGTTGGATTTTTGAAAT
AGTATGCAAGTCATAAGCACAGTTTCAATAAAACACGTATTCTGGAGGTGCGTGGAACTTTGTATTATTTGTAGTTGAGAAAGGCAAACTTTGCTGACAA
ACCAGTACCTATCACAAACGAACACAAAAAGTAGCTGTTACTGTGCAGGCTGTCTTTAACTTTCATTTCATAAAGGGTACATTATTGTTAAACTCTACTA
CATGGTTTGGGGAGAAATCCAGTGGTTTTATTTAAATGAACACTCTCACACTGCCTTTTGATCAACTTTCAAAGTATTTTGCAGATGCATTTTGAGCATG
ACCATTTTTTTCCCCAAGTAAAAACAATTGTGCGTGGCCTCCATATAACTCAGAAAGCAYGCTCTTACTACCTATGCAAGCAAACAATAAAACATATAGA
CATGAAATGTTAAGTCTTAAAAAAAAAAGGCAACAATTATGGAGCTCTATTTTTAAATTTGTGATTTTCAAAATATGGCTTACTCATCATTGTGTAGAAG
AGCATGAATGCGATTTCTTGTTTTGCTCTGCATATATTTCTCTGCTGTTTTTCTGATCATTGGCGAGATTGTAAAGTATTTTGCAAGCAGAAGTGGAATT
GGATATGTTGAACACACATCATTGGTGTACATACTGTATTTAGCCTGAAGACTTTCCTAAAGTGTTTTGTTCTAAAAATAACCTGCCATTTTCTATAGAT
TTTAATTTTTTATATCTTCAAGGGTTCTATTTTGGTCACAAGGAAAGAATGTGGCTTCTAATAGTGCTAAGAATTAAAAGATGCTTTTATAGAGACTTAG
AGCTATTTTGAAAAGCTTTGGGGCTTCCCAGCCACTGATCACAATTAGACTAAGCCCATGGAATTTCTGGGAGTGTTGTGCAGTGGATTCGGTTCTAGAT
CCATCTTACATTTGTTTAGTGTTTCCCAATTTTTGGGAGAAGGGGTGCACAGCAAATTTGAGAGACTTTTTTGAATCTCACACATGTATTTTCCTCAAGA
TTCTTTTAAGCCTCTTCTGAATGACTTGTCTGAGATAGTGAAGACCCACATTAACTAGAATCAGCTGGGGAACTTTAAAAAATACAGTGCCTGGGTCCCA
GTCCCTAGCTTTTGATCTAATTCATGTAGGGGTGGGATCCAGGAATTACCATGTATTTTAAAAGCTTCTGGGTGTTTCTAATTTGCAGACAGATTGAGAA
CCACTATGATACGTCATCCCTTTACTGAGAATTATGGCGAGAATCACTGCCATTTGAATTACTCAGGAGTGACTGATTCCTCAGTTGTGTAGGAGAAGCA
GAAAAAATAAGAATAAAAAGAATTGAGAGATACTGATATCAAACTCCCATTTGAAATACAAGGGCCCTTCTGATTCAAGGCCCAGTTGGGGAGCTTGGAC
CATGTTGTGAATGGCCTAGCACTCGCCAGTCTGGTGGAAATTGGTGGTCTTAGTTGCTGGAGCAGGCTGAGTGTCCCCGCGGGGTTTGCATCTGTCCCCA
GAACCTTTTCCCCAGGCCCGTGGGGGAATAGGGAAGTCACTCTGAGCTAGAAATTGTCGAAGAAGAAAAGAAACAACCTTCCTAGCCTTGGAAAGCCTGT
CCCTGCTTTTGATAGAATTATTGCCTTTTTGTAGGAATTACAGTAGCAAACCCCAGGCTGCCGCTGAATTTCCTACTTTTGCTCATTCTCTAGGATAGTT
CTTATCCAGAATGTGGTTTCAGGAATTCTTTTTTTTAGTTTGAAAATGAATGTGAAACATTTTCTTTGGTGTCTTTTTTTAAAAAAAAAAAAACCCTTAT
TGCTATTTTTTCGTGTTTTTGTTTTGTTTTGTTTTTTGTTTGTTTTACCATTAAGTAATACACATCCCAGAATTTGGCACTCTGTGTTAACTGTGGAGGC
AAATAAAATTTAGTTTTAATCTGTGGTGAGCTGAATGCACTACAACACCTTCCAAGTAATCTGATGGTTTCATTCTGTCGAGCCTCATGCTGCCTACAAA
ACACCACAATTTACCTGGTGTTTTCAACATTTTAAGGAATGAAGATACAAGTAGACATGCAAGTTGGAAATGTTTCTTTAGAAAGGCCATCCAGAATAAT
GATATCTGTTGCAGTCGTCCAAATGCAATATGAAATTTCCTAGGTGCTATTATAAACGGTGTGGTGTCATACCAAATGCAAAAGCAGTTACAGTATTTCC
GAAGTTGGAGTTCTCTTTGTAGGCCTTTCAAATACGTGTTTGCATTCCATAGAGGTCTGCTCACCAACTGTGCCTCTCACCACTGGTTAAAATTGAATTT
AAGCCTCATTGACATAAGTCGTTTCTTGATTGAACTCTTCAGTTTTTACACTGGAATTTCTGTAGTTGTCTTGAAAGCTGCATGTCACATCACTGTACAC
AAAGTGCTTTGGTATTACTCATGCACCGTGGATAGTGATTTCTGTGTCGTTTTCATTTTCAGTTGTACAGTAATATGGAAGGCAGGATGTCTTTCCTAGA
GGCTGGAAGAAAAGTGTATCGTACATTTTAAATTTATTTTAGAACAAGTGCATGAGATGTGTCACTGATTTCTGTTATTTATTTGTATGTTTTATTATTC
AAAGTGTATGCACTTTTAAGAAGCAGAATTTATATTTTTACGTTTGAAACRTTTTATTTCTGAAACAGCGTTGATTATATAGTATACAGTTGGAATTAAG
AGAAAAGTGGAAAATGTAACAAAATACAATAAATTTATTACAAGATGTCCTCTTCAAGCCACATTTCTCCTTTCTCCCCCTTGCCAACTGATATCTTTTT
GGTGTTGACTATAATAATAATTGTACTGCATCAGTCTTTACAAAATGCCTTAAAATTGCAGTGTTTAAAACACAAGTTACAGAAAGATGTATACATATGT
TTTCTGTGTAAAAGTTTAAAACAAAAAATCACATCCATGCTTGTATAATTTTCACAATCAGGGATGGTTCTTCCCATTTCCTCCATGACGGATTAGAGAC
AGTTTGTCCTGGGCCATGGAACTGGACAAAAACTCACATTCTGGTTCAATCCAACAGATTTTCAACATTTCGCATTATTTTCCCCCTCTTACCAAACTTT
TATGATGGGAAGAAATAGCAGTATAAAAGGGGCCATTCTTCCTGCGCTGTCTCATACCCTAGATATTTAATATTTTTGATACAAACAACATTTTTCCAGC
TGTCTTTCCCACCCTTCAGGACAGAACTCCCTACTGAGGATGTCACATCACCTATGGCCACGTGGGGGCACTAAAGATCTCTTATGCATTTTAGAAGTCC
AGCCTGCAGGTGGTTAGCCTCTGAGTGTGGAAATGTTTATTCAGTATGAGTTGGGGAATACGGTATCAGTGAACAGGGGTTTCTGTTTAGGGGAGTGCCA
CCAGCCATCATTTGTTCCCGGAAAGTGTTGAGTACAGATCAGGACAGATCTTGTTTCCCTAAAGCACAGCATTATGGTTTAGGGTTGGGGTGGGGGGAGT
TGATGTTCCTGACAAGTGTGAACCACATGCCGTGCTAGGTACAGCACTTCTAAAGCTCTCTAATTTGAAATGGTAAGATTTCGCTTAGGTTCTGTTAGAG
AGTTTAACCATGTAGTACGCTGATTATTCAAGAGGCTTCATTATGCCACAAAGTGTTCACATGTCATAAAATATGTAGATTTAATAGTTATGCAGATATT
TAAGGATCATTTTGCCTGTCTCCTTAGGATTTGGAAGATTATCTTTCAATACTTGAATGGTCAACGTCTCTCTGAATACTTTTCGGGTCCCTGTAAATCT
TCCTGAAGAAAGCAAAGGTGTGATAACACCCCTTGCCCAGAGCTGCATGTTCCTGTGTGTTAAACTGCCCCGTGGGTGATTCTAGGCCACTCTGACTCCG
TGGGATGTAGCTTGAGGTCCTCCCCCACCCCAGTATCCCCTTTCTCCCAGCTGGGTTCTGTGTCATATGTTCTAATTCTGTGTACATCATCTAACATAAC
GTTGAACGGTTAATCACTTCGATTTACTAATACATTCACTTTCCATTGCTCTTCACTCCTTCCTGGGTTCTCCCAGATGGATGCTTCAGGTTTCCTCTCT
GCGACCCTGTTCCTTTCTCAGGCTTCTCCACGAGGGTCATCTGGTAGATTTCACCTTGCTGGGTGGGTTGGGTCTACCTTCTGCAAACCCCTCTGGAATT
CGGTCTTGGTTTGGTCTGGTCTTAGCTACGTTTTTCACCCTCTGCCAACACCTGCTATACACAGAGGACAGGGCTGTCCTCTCCCTTGGTGGTGCATTTT
TGCATGCCATATAACCCAATGGCCTTGCACTCGTTTCTTAGAGCTTTCAGGGATTTGATATCAGTTTGACTTGCTCTTTGGATGTCTTAACAGCTCCATT
TTTCTTGTGAAACGTGAGAAGATGGTGCAAATGAGACTGCAGTGCCTAGTTGGAATCAGGCCTCCCTGCCCCCGGTGGGGTCTCAGGGATCTTGCATTCC
AGCACACCACCCCTGTGCCTTCCCTTTGTTTAGGAGGACTCCAGAGAGGCCCACAGTGCACAGATCCAGTTCCAGAGACACAGGGAAAAGGGTGTAATAC
GTCTTTCCTCTCCGAGAGTCTGGAGTGGACAGTGTGTGGGGATTGTGCACTGGGGACTGAGGATGAATGGCACCAGCCTCAGGGTTCCAAGTCCACAAAA
GTTGTGGTGAGGAAGGTGCCCCTTTACTGTTTCACTCAGAATCGGAGTCCAGGTTCCTTCATTTAGTAATGTCTTCTGTGTGCCCAGCTGCTGGGGTTAT
GACCACACTTGGAGGGGCTCACCTGCCAGTCAGGAGGTCAGGTTGGCCAACAGATAACGTTTCAGCAAGTTTGCCACTTATTCCCTGCTCTTTCTCAAGG
CATCGTCCCTAGAATGCTCTTCTCCGAGATGCCAGCCTGGCTCATTCCCTCATCTCCTCCACATCTTTACTCACATATCACCTTATTGAGGCCTTCCCTT
ACTACCTTTTTAGAACACTGCAACCTGCTTCACACGCTGTCCGTACTCCCTATTTTATTTTCTGCATATCACTTATCACAACTACCATAGGTCATATGTG
AGCTGATGGGTGAGCTTACATGAGAGCGGGGAGGTTTGCCTGTTCTATTCACTGCTCTTTTTCTCAGCATCTAAGAGGGTGCCAAGCTTATAGCAGTTAC
TTAGTAAATACATACTAGCTGAATTAGTAATCTGCCTGAGTCTTTCTATCCAGAAGATGGAGGATACTGGTACTTGCATCATAGAGTGGTGAGAGTTAGA
TGGGAATGATGCCTATAAAGCCTTCAGCACAGTGCCTGGCACAGAGAAAGCGCTGGCTGAATGGAGCCATTTGTAATGATAACAATAGTGATGAGGAGGA
GGGGCCGACCCTCCTGGGGTCAGAGGAGGGGGCAGTGGGCCATAACTCACACTTTCCAGGCAGGGGAAACTGCTTGCACTCTCTGGAAACCCTGAGTCCA
GTCTTCCTGGAATGTAGGGCAGGAAGGCAAGAAGCGTTGGATGAAGGGGGCGGGAGATCCCATCTAGGGGGACCTTTTATGAACTGCTCCATTTGTCCTG
TAGTAAATGAAAATCCAGGAAGAGATTTTAATTTAGGGGAGAGGAGATCCAGTTTGCACCTTCGCATGGTCACCATGACAAGATGTGTCATGAGAGAGCC
GGTTCGGAGCTGGTTGCAGGAGTCTGGGTAGAGTGTGCGGAAGGGCTGACCGAAAGCAGTGCTGGGTGGCTGGAGAACAGGGAGACGCTTGGAAAGGCAC
CGTGCTCAGGGTCCAGGAGCAGGCTGCGGGGTTCGAATCTTGCTAGCTGGACAATCTTGGGCGGATTACTCAACAGCTCAAATTCTTCACACCTGTAAAA
TGTGGATAACGGTGTCTACATGATCATCACGAGGCTTAACTGGAATGCCTGGTTTATTTACATTTAATATAATCACTAATGTATTTGGTTTTTTGGTACT
ATCTTAACTTTCTTGGATATTTGTCCTGCTTATTTTATATTTATTCTT


SNP Information

Context             (SEQ ID NO:19389):
CCCCTAGAGCCTCTGGAGGGAGCACAGCCCTGCTGATAGCTTGATTTTAGCTCCATAAGATTCATTTCAGAGCTCTGGCCTCCAGAACTGTAAGAGAATA
R
ATTTCTGTGGTTTTAAGCTACTATGTTTGTGGTAGTTTGTTACAGCATCCACAGGAAATGAATACAGTGCTCAATAAACGTTTGTTGCATGAATAAGTGA
Celera SNP ID:            hCV11192594
SNP Position Genomic:     22018
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19390):
GCAGTGAAAGAATGAGAAGGTGAAATCTTACCAGTTGGAATCCCACCACTTGCTTGGACTCGATGTGCATGACATTTGAAGCCTTGTGAATGATGCTACC
R
CCGACTTTCCGCTTCCTCCCTGTGAAGAAGTCCCTGGCCTTGCCCTTCTCATCCTGATCAAAGATCAGCAGCGGGATCCGGTGGGAGAATCTAGGCTGCT
Celera SNP ID:            hCV380785
SNP Position Genomic:     53750
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,2|G,38)   total(A,3|G,73)
SNP Type:                 SILENT MUTATION;INTRON;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;40 Africans; 32 white Americans; 2 CEPH individuals(A,7|G,140)      total(G,140|A,7);HYP3(A,7|G,141)   total(G,141|A,7)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:19391):
AATAATCTCCCTTAGTTACTACTAAGTGATATTGCAGTTATAAAAATGCAATAGCAGAATAGTGAGTCAATGCAAGGTTATTTCCAGAATATTTTGGATC
Y
CCTTATAAAATCGGCTGTTCAGTTAAAAACATTTTAGGTCTCTTATAATAAAATGTCAGTGTATTCAAAATCAAGAGGATTTTGCCTCTTGTGTGTGTAT
Celera SNP ID:            hCV29337101
SNP Position Genomic:     122325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19392):
AGATCAGCAGCGGGATCCGGTGGGAGAATCTAGGCTGCTTTCCCTCTGAGACGGAGTTCCAGGACTCCGCCTCTCGGCGCTTCCGGGACTCTGGAAAGCC
R
TACAGGGACTTCAGGGCCTCTCTGGTCTCCTGTTCCAAGTCAGCTAGAAGGTGGCGAACGGTGCTGTACCTGCCAAGGTGGGGAGGAAAAGTCAGGGAGA
Celera SNP ID:            hCV380786
SNP Position Genomic:     53912
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,31|G,9)   total(A,62|G,16)
SNP Type:                 SILENT MUTATION;INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;40 Africans; 32 white Americans; 2 CEPH individuals(G,37|A,111)      total(G,37|A,111);(G,-|A,-)   HYP3(G,37|A,111)   total(G,37|A,111) 
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:19393):
GTTTGTGCCCTATACCCTCCCACTTGTAGTGCTTTTTCTGTTTTCTCCTTCCTGGGTCCAGAGTACATCCCCACTTTACTAGTTTTAGAAATTACTCTTA
S
ATTAAAGTTCCCCTAACCCCTGTAGTTGGACGTTATGGCTTCCTCCTTTGAAAGCAGATAACATTTTACATGGAACCATGTTAAAGTACTTGTACACTTC
Celera SNP ID:            hCV2284922
SNP Position Genomic:     113533
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;(G,-|C,-)   Caucasian(G,25|C,57)   Asians(G,13|C,67)   total(G,38|C,124)
SNP Type:                 INTRON


Context             (SEQ ID NO:19394):
TTGAGTTGTGACAATCAAAAACATCTCCATTCATTGCCAAATCCCACTCCCCCCGCCACAGACACAGTTCCCTGGTTGAGACCCATTGGTTTAAATAAGT
R
TGTGTTTTCTAAGATGAACTGGAACTGCATCTACTTGGAATGGTTTGGAATTTCTCAAGATATTTTGCTCGAGTGTGATACAGAATTTAGAATTTTTTTT
Celera SNP ID:            hCV341448
SNP Position Genomic:     169243
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19395):
AAAATGCAATAGCAGAATAGTGAGTCAATGCAAGGTTATTTCCAGAATATTTTGGATCTCCTTATAAAATCGGCTGTTCAGTTAAAAACATTTTAGGTCT
S
TTATAATAAAATGTCAGTGTATTCAAAATCAAGAGGATTTTGCCTCTTGTGTGTGTATATATAATCTGTGTGTGTTTATAGAAGAAATATATGGATCTTT
Celera SNP ID:            hCV29337102
SNP Position Genomic:     122367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19396):
ACCTGCCAAGGTGGGGAGGAAAAGTCAGGGAGAGGGGAGGCGGCCCTGGCAGAACTCTGGTGCTCCTCCAGGCTGTTTTCCATCAACACGTGTCAGCCTC
R
TGCCCACCTTTCCCAACTCCTTGGCAGAGGAGACCACGCCTTTCATGACTTGACCCATCCAAAGTGACCCCTGGCTCTGGCAAATGGGGAAAGGCTCATG
Celera SNP ID:            hCV380787
SNP Position Genomic:     54080
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19397):
GATCAACTTTCAAAGTATTTTGCAGATGCATTTTGAGCATGACCATTTTTTTCCCCAAGTAAAAACAATTGTGCGTGGCCTCCATATAACTCAGAAAGCA
Y
GCTCTTACTACCTATGCAAGCAAACAATAAAACATATAGACATGAAATGTTAAGTCTTAAAAAAAAAAGGCAACAATTATGGAGCTCTATTTTTAAATTT
Celera SNP ID:            hCV29337103
SNP Position Genomic:     179560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:19398):
AACACAAAATAGTTATAAAGGAGTTGCCTGCGTGAAGCACAATATACCATCTTTTAATTTTCACAAATCAAATGGTTCCAGCCTCCTCTTAACTCTCTCC
W
CTCTCCTTTCTCCCACTTGCTCTAGGCATAGGCAGCAGAGCATAGCAATTGAGAATAGAAACCCCTGGGTTTAGCCAAATTACCTGAGTTTAGGTTCCCC
Celera SNP ID:            hCV380788
SNP Position Genomic:     54566
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,7)   total(A,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19399):
AGAGAAGGAGGGAGGGAGAAAGAAAGAAGAGGAAGACATGGAGGGCGGAGAGAGAGTCTTAGACTTGATCTTGATTTTGAGCTTTGCACCAACTCACTGA
Y
GATTCTGGACAAGTTAGTTTCGTTTGATAATCTTTCTCCCCTGTTCTTCTTCCCTTCTCCCCACCCCTGCTCTGACAAAGTCTGCCTGATTCTGACCTGC
Celera SNP ID:            hCV380789
SNP Position Genomic:     55429
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19400):
TCAATTTCCATAAACTGTCCATTGAGGGTGGGCTGGCATTTGCCTGCCCTACTCCCCAGATCTGCATGAATGTGGGGGCTCCTTAGATGTCCAGTTTGGT
Y
GTTTTTCAGGTGCCCAGCCTTAAGCCCGAAAGTTTAAGTCAATAATAGCAGACCCCAGAAAACTCCCTTGAGGATCTTCAGGAGTTACAAAGCCTGAGTT
Celera SNP ID:            hCV11192599
SNP Position Genomic:     17163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19401):
CACAGATGGCCATTGTGCCAGGCTTGTGGTTAGTGTCCACTCTTTAAAGCTAAGGGAGGAGGGGACAGCATGAGTGTAGGCAGCCCAACCCAACCCAGCC
R
CCCGTCTCACCCCTTGGGGTCCACATACCTGCAGGCTTCCTTGCACACAGACTGGCAGCCCAGCTCTTCCTGGACAAAGGCTCGATGCAGTTGGTAGTAA
Celera SNP ID:            hCV25472798
SNP Position Genomic:     30538
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,13)   caucasian(A,31|G,9)   total(A,56|G,22)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,11)   caucasian(A,31|G,9)   total(A,56|G,20)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,13)   caucasian(A,31|G,9)   total(A,56|G,22)
SNP Type:                 INTRON


Context             (SEQ ID NO:19402):
TTTCTGTTTTATTGTAAAATAACCATTTCAGAAATATAACAGAAAGAGGAAGTATCTCATACTAGGTATCTTAATGCGAAGGGTTACTGACTTTAATACT
R
TGTTATATAGTATCCATTTAGATTTTTTCCATGCATATATACATTATTTTATATAAGTAGAATCATTTACACATATTATTTTTACCTTGCTTTGTATTTA
Celera SNP ID:            hCV2611320
SNP Position Genomic:     139828
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19403):
TGAACAAGCAGACGTCTTTAACTTCAGACAGTCCGTACCACGTCGAAGGCATTAAAACAGACTAGAATGATAGAGTGTGATGGTGGGAGGCTGGCAAGAC
R
ACATTAGGAAGGGAGGTCAGGGAAGACGTCCCTGAAGAGACCGCAGCCAAGCTGAGCCCCAGTGTGCTGTGTGAACATGGGGGGAAAGGATCCCATGCAG
Celera SNP ID:            hCV2611325
SNP Position Genomic:     154061
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19404):
GGGTTTGGGGCAGCTGAGGTGCTTACAGAAGTCACCTGGGTGTCACTTCTGAGTCAGCCTTGAGCTCACTTATGCTGCAGGCAGAGTGAACATGTGAGCT
Y
GGAGAGCCAGGGGTGCAGATGCAGATGGGGGTTGGCTAATTTGGGCTTGATATGGGGAGTGTGCAGAGGGGGTTAGTTCGTTCCAGGCCTCTTCTAAGTG
Celera SNP ID:            hCV380790
SNP Position Genomic:     55777
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19405):
GACAGTCCGTACCACGTCGAAGGCATTAAAACAGACTAGAATGATAGAGTGTGATGGTGGGAGGCTGGCAAGACAACATTAGGAAGGGAGGTCAGGGAAG
R
CGTCCCTGAAGAGACCGCAGCCAAGCTGAGCCCCAGTGTGCTGTGTGAACATGGGGGGAAAGGATCCCATGCAGAGGGAACACCCGGTACATGCACACAA
Celera SNP ID:            hCV2611326
SNP Position Genomic:     154087
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19406):
AAATTAGCCTGGCGCTGTGGTACACCCCTGTAGTCCCAGCTACTCGGGAGGATTGTTAGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCA
Y
TGCATCCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAAAAAGGAAAAAGAAAAGAAAAAAAACAAGTCACTGATGGTCTGAAAACTTGGTACATAC
Celera SNP ID:            hCV380791
SNP Position Genomic:     56485
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19407):
GGGAGGTCAGGGAAGACGTCCCTGAAGAGACCGCAGCCAAGCTGAGCCCCAGTGTGCTGTGTGAACATGGGGGGAAAGGATCCCATGCAGAGGGAACACC
Y
GGTACATGCACACAAGACTAGGAGGAGCTTGGTGTGTGTCAGGCACAGAAGGAATGAAGTAAAGAACCTGTGGAATTCCCTTCATGATGCTAGTCTCTTA
Celera SNP ID:            hCV2611327
SNP Position Genomic:     154172
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19408):
TCGGCGCCTGAGGGCCCGTCACGGGCAGATTCTTCTTGATTTTGGCTTTGATCTTCTCTCCGGGTGCCATGGCGAGGATGGGACTTTGAGGACGGGACTC
Y
GAGGACGGGCGTGCTGGAGGGGCAAAGAAGAGAAGCAGGTGAGCTGGCAGGCACTAGCCGGCTAGTGTGTCCCTGGAGACCACAGTCTGGGAAACACCAG
Celera SNP ID:            hCV380792
SNP Position Genomic:     57112
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(C,7|T,33)   total(C,12|T,64)
SNP Type:                 UTR 5;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(C,5|T,31)   total(C,6|T,62)   
SNP Type:                 UTR 5;INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;40 Africans; 32 white Americans; 2 CEPH individuals(C,66|T,81)      total(C,66|T,81);HYP3(C,67|T,81)   total(C,67|T,81)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:19409):
GCTAGTCTCTTAAAGAGTGAAGTCATTATTTTAAAAAAATATGGTTGGGTGATTTACATGTACTTGTAACTCATTTCACCTCACAGTAGTTTTTAGGCAG
A
TTGGTTCACTGTTAAGCACCACTGTGAGCGAACAGTTTGATAGTTGTTGGAAACTGGTTTCTTGGTGATCTTAGCACCTCTACTTCCCTCTGGGCCTGAG
Celera SNP ID:            hCV2611328
SNP Position Genomic:     154361
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19410):
GTCACGGGCAGATTCTTCTTGATTTTGGCTTTGATCTTCTCTCCGGGTGCCATGGCGAGGATGGGACTTTGAGGACGGGACTCTGAGGACGGGCGTGCTG
S
AGGGGCAAAGAAGAGAAGCAGGTGAGCTGGCAGGCACTAGCCGGCTAGTGTGTCCCTGGAGACCACAGTCTGGGAAACACCAGTCCATGCGCCCTTAGAG
Celera SNP ID:            hCV380793
SNP Position Genomic:     57129
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,30)   caucasian(C,7|G,33)   total(C,13|G,63)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,13)   caucasian(C,6|G,20)   total(C,9|G,33)   
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,4)      total(G,4|C,1) ;40 Africans; 32 white Americans; 2 CEPH individuals(C,44|G,103)      total(G,103|C,44);HYP3(C,44|G,104)   total(G,104|C,44)
SNP Type:                 INTRON


Context             (SEQ ID NO:19411):
TTTTCTAAAGCTCCTCTTGTGATTTTGGTCTTCGGTCTGTGCAGCTGAGGCCAAGAACCACAGTACTGCTTGGACTCTGTGGGACATAGCTCTGGAGCTG
W
CTTTCACTGTCACTTGCTTGCCAGTGCCTCCCTTGTTGTCAGAGACTCAAGAATGTGGCTGCCTGTCTGTGAGACCTTCCAGCCCTATCTAGTCCTCTGG
Celera SNP ID:            hCV2611329
SNP Position Genomic:     155073
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19412):
CTGAATCCTTGGCCCCTTTTCCACGGGACGTTTGTTTTTGGCCACCACAGCTGCCAGAGAAGCTGCCTACTTCTCTTACGGCCCCCAGGCCTAGCCGTGC
R
GGGGCTGGGTGAGGTGCAACCTGCGAAGCGCTGGCTGGACAGGCTGCAGGACCTTTCCCCGGGTTCCTGGGCAGGAACTCTGGAAGCAGCCCCATCAGCT
Celera SNP ID:            hCV380794
SNP Position Genomic:     57372
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,19)   caucasian(A,4|G,24)   total(A,7|G,43)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,6|G,32)   total(A,10|G,64)   
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19413):
CAGCCCCATCAGCTCTCTTATCAGGCAGGGGTACCCGTGCCTTATCACCTCCAGTAGCCCGCCTTCCTCAAGGGCAGCATTCCTATCTCATTATGCCCCC
Y
GGTTCCTAGCACAGTGTCTGGCACAGAGCAGTGCTCGGCAGATTGTAACTGACAGATGAAATCTGCCAAGAAAATTTCCCGGCAGCCACCTTAGATCATG
Celera SNP ID:            hCV380795
SNP Position Genomic:     57559
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(C,7|T,33)   total(C,10|T,64)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19414):
AGAAATGAACTAATATACTACATAAAAACTCATTTCATGTTTATAATATATAGTCTCATTAGTCTCATAAGTAAATTTGTCTCTCTCTATAAATATACAC
R
TAGCCTACATATATTTCCTTTTGTGTTTCAATAATTCCATGAAGTAGGCATGCTATTATTATATCCATGTTACAGAGGAGAAAAATGGGCTCAGAGAGGT
Celera SNP ID:            hCV380796
SNP Position Genomic:     58083
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19415):
TATATGAAAACTGTGTCGTCCTATGCCTTCTACAGTGACAAAGGCAAATTAGGACATATCCTAGGGCATACAGGGTGGTCCCCAGGACCAGAGAGGACCC
R
TGTCTGTGACTTCGATGTGCCCCATCAAGATTTTTAGGCAGTATTCGGAACCTGCAGAGTTATGTCTTTTTTTCCCACCCTGAACCCATGAAATATGGGC
Celera SNP ID:            hCV380797
SNP Position Genomic:     58531
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19416):
CGTCCTATGCCTTCTACAGTGACAAAGGCAAATTAGGACATATCCTAGGGCATACAGGGTGGTCCCCAGGACCAGAGAGGACCCATGTCTGTGACTTCGA
Y
GTGCCCCATCAAGATTTTTAGGCAGTATTCGGAACCTGCAGAGTTATGTCTTTTTTTCCCACCCTGAACCCATGAAATATGGGCTAAAATTGGAAGCTGG
Celera SNP ID:            hCV380798
SNP Position Genomic:     58547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19417):
ATGAAAAGTTAGTGAGAACCTATTAGGTGCCTGGTACTGTGGTAGACACTGAAATCAGCAATGATCAAGATAGATAAGTTCCCTGCTCTCCTGGAACATA
S
CTTCCAGTGGGGTAAACAAATGGTCAGCAAGCAAATAAATAAACAAGATATTTTGGATAAATCTGGATGGTGTTTAATGAAATAGGGTAGGGAAACTGGA
Celera SNP ID:            hCV28004652
SNP Position Genomic:     33805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19418):
ACCTGCAGAGTTATGTCTTTTTTTCCCACCCTGAACCCATGAAATATGGGCTAAAATTGGAAGCTGGGGCAAAGCTAGGAGGCTTCCAAGCTTATGATGC
K
AGTGGGTTTAAGGCCTCAGATGGAAAGGAAATGGAGTGCTGGGCATGGAGGTGAGATGTCCAGAGCAGACAAACTGCTCTAAACCCTCCATAGATTGATA
Celera SNP ID:            hCV380799
SNP Position Genomic:     58681
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,7)      total(C,4|A,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19419):
GAACTCTTAAGTTTTCGTCTGTTTTTGCTGCTACTTGAATGTTCTTTATTTCTAGCTCAGGCTTAGAATTTGGACTGAAAGAAGTCCTCCTGCGTTCATG
R
GCTCATGTGTTCTCAGTCTGCCAGGGAACTTCCATGGAGCCTGGTTTGTGCTCCTCCCTGAGGGAAGCAGGGCAGGATAGGGCTTCAAGTGCAAGCCAAG
Celera SNP ID:            hCV28004653
SNP Position Genomic:     168661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19420):
TGCACACCTCATTCCAGACCTAACAGATCAGAGTGTGCATTTTAAATTGGATCCCTAATGGTTCATATGCAGATCAAAGTTTGAGAAGCATTATGCTAAG
Y
AACTGCTGTAACCATAAATGTGTAACTGATCAATTGGTATAATTACACAATTTTCCCCAGCGGGGCTAATGAGCCCACTAGCCGAAAGAGAGAAACTCCC
Celera SNP ID:            hCV27894151
SNP Position Genomic:     14736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19421):
CTGCAGAGGACTGGAACCAGCCGGCATCATTTGTTCTTGAGGTCTCTGGATGAACCCCAGGGATCCTCACCAGAGTTCCTGGTGCAAGCCACACCCCAGC
Y
TAGATATAACTTTGTCTCCTGGGTCCGGGCCATAAACCCAGGGCTGGGTGCCCCCGCCAATCTGTTACCTGGAGCGAGTAGGCAGCGTTGTAGATGTTCC
Celera SNP ID:            hCV27894152
SNP Position Genomic:     33406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19422):
TTAATGAAAAGTTAGTGAGAACCTATTAGGTGCCTGGTACTGTGGTAGACACTGAAATCAGCAATGATCAAGATAGATAAGTTCCCTGCTCTCCTGGAAC
R
TAGCTTCCAGTGGGGTAAACAAATGGTCAGCAAGCAAATAAATAAACAAGATATTTTGGATAAATCTGGATGGTGTTTAATGAAATAGGGTAGGGAAACT
Celera SNP ID:            hCV27894153
SNP Position Genomic:     33802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19423):
GCTCTCCTGGAACATAGCTTCCAGTGGGGTAAACAAATGGTCAGCAAGCAAATAAATAAACAAGATATTTTGGATAAATCTGGATGGTGTTTAATGAAAT
R
GGGTAGGGAAACTGGAGGCGTTAAGAGCAGATGGGCAGTTTTTCCCATAGAGTGATTAGGGAAGGTATTTCCGAAAAAGGGACCTGTTGGCTTAGCGTGG
Celera SNP ID:            hCV27894154
SNP Position Genomic:     33889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19424):
ATTTATCTGATGCCAACTCTTTCTGGCTTCTGTTCCTACTTATCTGCCTCTCTTTCTCCTTTTACTTTCTGCTCAGCCCTTAAACATTTGCATGTTTAGG
K
TTCTGTCTCAGGTCTTGGGTGATGGCATTTATTTCCATGTCTACAATTACCCCCCAAGGTTTTCTCCTTAACTCCAGGTCCATAGCATCTAATGAATGCT
Celera SNP ID:            hCV27894155
SNP Position Genomic:     40331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19425):
AAAGCCTTCCTTGAACCTCATCTTCCCCATTGAAAATGAGCCCCAGGTCAGTCGTGTCATAATATGCACTCATATGGTCTTACATTTCTTCTTCATAGCA
S
TTATGGCAATTATAATGAATCATTTGTATTATTTCTGGTTTATTACTCAATCCTCTCTGCTGGACTCTAGACTCTCTCAGGACAGGGACGGTGTCCTCCA
Celera SNP ID:            hCV27894156
SNP Position Genomic:     42656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19426):
AGTGAATGGCATTTCTCAAGAGCCCCTCAGGCCAGGTGCGGTGGCTCACGCCTGTAATCTCAGCAGTTTGGGAGGCCAAGGTAGGGGGACCACCTGAGGT
S
GAGGGTTCGAGACCAGCCTGACCAACATGGTGAAACCCAGTCTTTACTAAAGATACAAAAACTTAGCCAAGCATGGTGGTGCATGCCTGTAATCCCAGCT
Celera SNP ID:            hCV27894157
SNP Position Genomic:     52278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19427):
TATCCTGGCTCTTGACCATACTTTAACCCTTAGTTTTGTGGTTTCACGAGTCAGTTATAATTTCTTGAAATGCAGTAACCATTATTCAACCCCTTTATTA
Y
AGCCTTTTCTTTTGGGTGAGGAATGCATACTTTACTAGTCGTTATTCAGCAATGAATCCTTGCCACCAGCTCTTTGTGGTACATATGAATTTGCTTAAAA
Celera SNP ID:            hCV28610
SNP Position Genomic:     125934
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19428):
CCTTAGTTTTGTGGTTTCACGAGTCAGTTATAATTTCTTGAAATGCAGTAACCATTATTCAACCCCTTTATTACAGCCTTTTCTTTTGGGTGAGGAATGC
R
TACTTTACTAGTCGTTATTCAGCAATGAATCCTTGCCACCAGCTCTTTGTGGTACATATGAATTTGCTTAAAATCTGACACTAATCTTATAGCAGTGCAG
Celera SNP ID:            hCV28611
SNP Position Genomic:     125961
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19429):
ACCTCTTATGAGTTCGACCTGTGCTGTTTGCCAGGCTCATGTCCACTCCCACCCCCTGTGCTCTCCATCTTCACTGATCCTGCCCCGTTGCCACCTGCTG
W
CCTAGCACCATACTCCCCTAGAAGCCATTTTGGTGTATTGGCTATTAAATTTCATTTAGAAATCCAAGCTGTTCATCTCCTTATGAAGAGTTACCATTAA
Celera SNP ID:            hCV2611330
SNP Position Genomic:     155280
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19430):
CAGGCCGCCAGGCACCTGAGACCGCCCGGAGCGGGCCACGACTTCACAACGCCCCCTGGCGCCCCGAAGCCGCCCTGCGCCCCAGCCCGGCCGCGCTGCG
Y
CTTCCTGGGCCACCGCGCAGTGCCTGCTGCCGCCCCGAGGCCGCCCTGCCATCCTGCATTCCCGCTGGGTCTCTGCGGCACTTACCCCAAGGCGCCTCAA
Celera SNP ID:            hCV894888
SNP Position Genomic:     60807
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(C,59|T,88)      total(C,59|T,88) ;HYP3(C,59|T,89)   total(C,59|T,89)
SNP Type:                 INTRON


Context             (SEQ ID NO:19431):
AGCATTTTGGATTTTGAATTTTCAAATTTGGGATACTCAGCTGGTAAGTATAACACAAATAATTAGAAATCGAAAAAAATATGAACTCTGAAATACCTTT
R
GTTCTGAGCATTTTGCATAAGGGATACTCAACCTGTACCAGGAATAACATGCTTTTCTCTGTGGCCAAATGTGAACAGAGTCCAAGGAATGTGTGTGGCA
Celera SNP ID:            hCV28612
SNP Position Genomic:     126389
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19432):
GGGTGAAAAATTGGGCAAGAAATTGGGAAGGTCATAATGACTATCTGAGAGTGATCATCAACCTTATGACACTAAATTTCTTCCAACCTCTTTATTATTA
R
TACTGTATTGGGCTTTTTAATTTAAGGGTTTTTCAGTTTAGTTGAAATGTAGTTATTAAATCAGTGGTTATAGTGGTCTTGCTGAAAACTTTTTTCTGAT
Celera SNP ID:            hCV2611331
SNP Position Genomic:     157462
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,22)   caucasian(A,11|G,27)   total(A,19|G,49)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19433):
AATTGGGAAGGTCATAATGACTATCTGAGAGTGATCATCAACCTTATGACACTAAATTTCTTCCAACCTCTTTATTATTAGTACTGTATTGGGCTTTTTA
R
TTTAAGGGTTTTTCAGTTTAGTTGAAATGTAGTTATTAAATCAGTGGTTATAGTGGTCTTGCTGAAAACTTTTTTCTGATGGGGAACTATGATGAAGATT
Celera SNP ID:            hCV2611332
SNP Position Genomic:     157482
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,4)   caucasian(A,31|G,7)   total(A,61|G,11)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19434):
GATCACACCACTGTACTCCAGCCTGGGTGATAGAGTGACACTCTGTTTCAAAAAAAAAAAAAAAAAAAAAAAAAGAGAGAGAAAGAAAGTAACATATTTA
M
CATTTATACAGTATTTACCGATTTAGTCGTTCCTCTTTGAGGGATAATCTATTCAACAAACCAGAATCTGTTTAGAGTTTGGGTGCCAGCTCTGGCTGCT
Celera SNP ID:            hCV2611335
SNP Position Genomic:     160558
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19435):
ATAATAGGCACAATGGCAACAAGCATTTATGGGGCACTTCCTGTGTTGCCAAGCACTGTCGTAAGAACTTTATGTGAACTAACTCATTGAATTCTACCAA
C
AGCCCTATGAGGCAGGTATGTATATTTTCATCATCCTCATTTCGCAGATGTGGAAACTGAGATGCAGATTGGTTAAGGAACTTGTCCAAGACTATGCTGT
Celera SNP ID:            hCV418579
SNP Position Genomic:     29075
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,7)   total(C,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19436):
GGAGTAGGATTCCGATGAAGGGTTATAAGCAGAGAAGCAACCTTACTAAATCTGTATTTTGAAAATATTATTCTGGATATTGTGTAGATAACAGATTAGA
S
GCTACAAGAATGAAGATGGGGAGACCTGAAGGAGGCCCTTGCCTTCATCCAGGGTGGGCTGCTAGTAGATGGGATAGGTTGTGGCAGTAGAGACGGAGAG
Celera SNP ID:            hCV2611337
SNP Position Genomic:     161794
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19437):
AGAGACAGAGGAACAGGGTAGAGGTAACTTACTTGTTGAGCTTTTTGTTTACTTGCCGGCCTTGGTCCCAAGTGAGAACAGGCAGCAACCACTTCTACAA
Y
GGAGAGAGAAAGCGTGGGCCTGAGGGTGCCTGAGAGGCTAGGGCCAGCCTCCCGCCTCAGGCTCCCCAACTTGTCCCCCAGCCTCCACAAGGTAATTCTT
Celera SNP ID:            hCV25473247
SNP Position Genomic:     30228
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,11)   caucasian(C,31|T,9)   total(C,56|T,20)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,10)   caucasian(C,20)   total(C,30|T,10)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19438):
ATTCTGGATATTGTGTAGATAACAGATTAGAGGCTACAAGAATGAAGATGGGGAGACCTGAAGGAGGCCCTTGCCTTCATCCAGGGTGGGCTGCTAGTAG
R
TGGGATAGGTTGTGGCAGTAGAGACGGAGAGATGTTGAGGACTGTCTGAGGAGGCGGAGGTATCAGGGGCAACACACAGATGGTCCCCAGGTCTGGGGCT
Celera SNP ID:            hCV2611338
SNP Position Genomic:     161863
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19439):
CATGTCACCACCCTTCCAGCAATCCAGAGGCAAACCTGCAGTGTCCTCTTTGACTCTTCTTTCTTGTCCCTCTCATCTAGGCATGGCCATGCCTCTTCAT
Y
GACTCCTGTGTGTCCCCTCCCCATTCTTGCTGTCAGACAGCGTGCTGGTTCAGACATTTTGTTGCTTTTCAGCTGGTCACTGTTGCAATGATTTTAATTG
Celera SNP ID:            hCV2611339
SNP Position Genomic:     162243
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,13|C,41)   Chinese(T,2|C,18)   Japanese(T,8|C,32)   African(T,4|C,56)   (T,3|C,7)      total(C,7|T,3) ;(T,-|C,-)   Caucasian(T,13|C,41)   African-American(T,4|C,56)   Asians(T,10|C,50)   total(C,147|T,27)
SNP Type:                 INTRON


Context             (SEQ ID NO:19440):
CATGTAGAAAGGAACTGATCTAGTCTAAACATGGAACTATCTCTTAAATCAAGATAACAGCTGTAATCATATAGATGCTTTTCCTGAGTTAGTTGTTTTA
Y
GTCTTCCTTTGTGTGACTTAAAGTTTTTAGTTTGACTCTGCTACTTTTGTTCTATTTGTGCGTGGCTTGATGGATTTTTCCTGTCCCCATCTATACACTC
Celera SNP ID:            hCV15877450
SNP Position Genomic:     110803
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,317|T,1184)   total(C,317|T,1184) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19441):
TATAATGAATCATTTGTATTATTTCTGGTTTATTACTCAATCCTCTCTGCTGGACTCTAGACTCTCTCAGGACAGGGACGGTGTCCTCCACACTGAGGTG
Y
CCCATGTCTAGCACATAGAAGGTGCTCAGAAAATGTCAATTGAATGGATAAATGACAGGCGGATATCCAAGCCCTAATTGCCCACCATCTTTTTATGTAA
Celera SNP ID:            hCV495082
SNP Position Genomic:     42767
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19442):
GTTAGCCCCAAGATAACCTCCCCTCTGACCAGAGAAATTCCAGCCCTGCCATGAACTTCTCCCCACAAGCCTATAATAAGCTCTCACCCTAAAACTGAAA
R
ATGCTCTTAGTCTGTAAGAGAGAGCGCTCCTGACAGAAATCAGCCAGAAGCCCCTCTTAGGTTTATTCTCCAAAATAAACCTGTCTTTGTCGAGCCACTT
Celera SNP ID:            hCV488875
SNP Position Genomic:     83224
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19443):
TAATATGCACTCATATGGTCTTACATTTCTTCTTCATAGCACTTATGGCAATTATAATGAATCATTTGTATTATTTCTGGTTTATTACTCAATCCTCTCT
S
CTGGACTCTAGACTCTCTCAGGACAGGGACGGTGTCCTCCACACTGAGGTGCCCCATGTCTAGCACATAGAAGGTGCTCAGAAAATGTCAATTGAATGGA
Celera SNP ID:            hCV495083
SNP Position Genomic:     42715
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19444):
TTGTGGCTGGTCTTGAACCCCTAGGCTCAAGCAATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTCAGGCATGAGCCACCACACTGGCTGAACTTTG
Y
TTTTGCACATTGGAAAATGGACTAGCTTTCTTATTCTGTTTGTCAATGATATTTGATGCTCCAACTTGCAAGGGAAGACCATATAGAGAGAGTGACATTT
Celera SNP ID:            hCV457487
SNP Position Genomic:     22742
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19445):
AGCAGAGTTGAAAGTGGGTAGGTCATCGTCTATATCCAGGGCTGGATTGTCCTGGCCCTGTGGGCTACGGGGAGCTTCTGGACATGGGGGAGCCTGTTTC
Y
AGGCCCACCACTCCTTGGCTTTCTGCCACTGGCGGCGGGCAATGATAGAGAAGAAGTCAATGAAGAAGACCTCGATGATCTCGATGACGCAGACAACAGA
Celera SNP ID:            hCV27860514
SNP Position Genomic:     28080
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;INTRON


Context             (SEQ ID NO:19446):
GAGGTATCAGGAAGAGCCACCTGATACTGTCATTTTTTTTTAAGTCAAATGCTTTAAAGCCCTTTAACAGATAAGGAAAGGAAGACTCAGAGAGGCTCAT
W
TACCCCCTCTATATGGATCCTTACTGGTTCCACCTTAGCTGATATTAAAACCTGTTCCTCTAGATAGCTAAAACTATCATCTGTTTCCCTGATTTGTATG
Celera SNP ID:            hCV2611340
SNP Position Genomic:     162965
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19447):
AGTTGGGTCGTCCAGTAGGTAGCTGACTGATTGGGGAGTGGTATGTGCAGATGGCATTGTCTGGTCAACTGAGGATTTGCTCTTTGTTTACCTAACCTGC
R
CTCCCCATTTACGGTTTTGCTAGATAGAGTTCCTTGAGTTCTATCTTCTCTCTCATTTTAAATGATTGTGAACTACTTTTTTTTTTTTTAATTAAAGATG
Celera SNP ID:            hCV2611341
SNP Position Genomic:     163706
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19448):
TGGTATGTAGTATATACTTGACGTGTTTTTCTCTTAAGTTTTTGCCATTATTTTCCACTGTTGGGATTTTACTGGCATTTTGTTGTTGTTGTTCAAGTGA
W
CATTTATTGAGCCCCTCACATCCTGCTTGCCCTGGGCTCTATCACAGCAGAGATCAGTAGGTCCCCAGCCTCTGTCTTCTGAGAGTGTAATCAAGTAGAG
Celera SNP ID:            hCV2611342
SNP Position Genomic:     164615
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,4)   total(A,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19449):
GCAATAAAAAGGAATGAAATATTGATACATGCAATAGCTTGGATGAACCTCAAGGGCATTGTGCTTAGTGAAAAAATGTCAACGTTAAGAGGTTGTGTAC
Y
ACATGTCTCCCTTTACACAACATTCTCAAACTGACAAAACTATAGAGATGGAGAACAGATTGGTGGTTGCTAAGGGACAGGGACTGGGGTAAAAGCATAT
Celera SNP ID:            hCV2611270
SNP Position Genomic:     76737
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,8|C,8)      total(C,8|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19450):
TTGTTGAATATCTTTATGCTCTTTCACTTTTTTTGAATTTTAATTCTGTATTTCCTTGAGATTGAGTCTTGGAAATGGAATCATTGGGCTAAGGGCCTGC
W
TGAGCCTTTTGGGAGCCAGGCAGATTTCAGGGCTTTATTCGTTGATGTGAGGGTTGATGTGATTAATTTGATTATCCGTGTGAGTGTCTAGGATTTGGAT
Celera SNP ID:            hCV2611344
SNP Position Genomic:     165548
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19451):
AGCAGGAGGGAGTTCCTTTATGATGATAGACCAGTTCTGTATCTTGATTGCAGTATGGTTACATGAATCTATACATGAGTTTGGATTGCACAGACACCCC
W
CCCCACCCCACACATAAATGAATGCATGTTAAAACTGGCGAAATAAAATCTGTAGTCTAGTCAACAATTGTGTACTAATGTCAATTTCCTAGTTTTAACA
Celera SNP ID:            hCV2611271
SNP Position Genomic:     76958
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19452):
GCTAAGGGCCTGCTTGAGCCTTTTGGGAGCCAGGCAGATTTCAGGGCTTTATTCGTTGATGTGAGGGTTGATGTGATTAATTTGATTATCCGTGTGAGTG
K
CTAGGATTTGGATTTCTGCATCCTTCACACTCAGTGTGTTATATATGTATACTTCTCAGGGACTTTCTTTATTAATTCAGTGGTTTCTGCAACAAGACCC
Celera SNP ID:            hCV2611345
SNP Position Genomic:     165635
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19453):
TCGCTATGTTGCCCAGGCTGGTCTCGAACTCCTGGCCTCAAGCAATCCTCCCTCTCTGGACTCCCAAATTATTGGAATTTCAGGTGTGAGTTATCACACC
Y
GGTCTTTAATTTGATTTTCTACTTGTGTGTTACTAATACATTGGAGTTAGTGCAGCTGTTCAAGGATGTCGTCAAGAATCAGCCTCTTGTTTTCTGTGGC
Celera SNP ID:            hCV2611272
SNP Position Genomic:     78324
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19454):
GTTGTTAAAATGCAGATTCTGACTCGATAGGGGTGGAGTGGGTCTTAAGAGTCCGAATTTCCAAATTCCTAGGAGATGCCTTGGTTGCTGGTCCAAGGGC
K
GTTTGCCCAGGTGGATGGAAACAGGTCCAGCATTATTGGAGAGAAATTTAAAGAAAATCCTCTAAAAAATCTCAGCTGCTTCTTCTAACAATATATGCTC
Celera SNP ID:            hCV1838052
SNP Position Genomic:     62203
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19455):
TTTTTTTGTAGAGTCAGGGCCTATACTATGTTGTCCAGACTGGTCTCGAACTCCATATCTCAAGCAGTCCTCTGCCTCAGCCTCACAAAGTGTTGGGATT
R
TAGGCATAAGCCACCATGGCCGGCCTGGAATGTTTATTTTGATGTAATCTTTATTTTGCACTGTTTCTAGCTATAATCGATGGTATAATGATATAATCGA
Celera SNP ID:            hCV2611346
SNP Position Genomic:     167533
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19456):
GCAATCATAGCTCACTGTAGCTGCCAACTACTGGGCTCAAGCGAGCCTCCCACTTCAGCGTCTCAAATAGCTGGAATTACAGAGGTAAGCCACCTTTCCT
R
GCTTCAGCTGCCTTTTTATAGGGACTCAGATAACTACAAGAAACGAGATTAGAAAACTGCAATTGGGAGGGACCATAGAGACACAGCCCCTTTGTGCCGG
Celera SNP ID:            hCV1838053
SNP Position Genomic:     61916
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19457):
TAATGATATAATCGATTGTGTAAGGATTCTAGAACAGTGCCTCTCACACCATCTGTGATGAAGAACTTGGTTTTTTCTACTTTAAAATTTCCAATCCTTT
M
TCAACTAGTGCATTTGTAAGAATACAATAAAAATATCACGGCAGTATCAGATTGCTATAAAAGTTTTTTAAATGCTTTTCTCCTTTTTGGTGCTTCTCTC
Celera SNP ID:            hCV2611347
SNP Position Genomic:     167719
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19458):
AATGAATGGTCTAGAGGACCTCTCTGGAGGCTCTCATGACTCTGTCAGTTTGATCAGATGAATCCTTACGTTTCCATTTAATCTGGAAACTAAAATGACT
R
CAGTCAAGGAAGTTGGGGAGGAATGTGACAGCACCTGTGGCCCAGTGGAGTTCACTGGGGACAGTGGGTTGGACCTGGCGCAAAGAAAGCTCATGATGTG
Celera SNP ID:            hCV2611348
SNP Position Genomic:     169792
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,28)   caucasian(A,10|G,28)   total(A,18|G,56)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;JBIC-allele(A,216|G,1277)   total(G,1277|A,216)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19459):
TGGCCATCTACAAGCTAGGGAGAGAGGCCTCAGAAGAAATCAACCCTGCCAACACCTTAATCTCAGACTTTCAGCCTCCTAAATTGTGAAAAAATAAATG
Y
CTGTTGTTTAAGCCACCCGATCTGTGATTTTTGGTTATGGGAGGCTGCATTAGTCAGGGTTTTTGAGAGGGACAGAACTAATAGGATAGATGTGTATATG
Celera SNP ID:            hCV2611276
SNP Position Genomic:     84039
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,11)   total(C,4|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19460):
TTTTCCCAAAGTGTTTTAAAAAGCAGGATAGCTGGAAGAGGCTCAGAGAGATTGTGCTTTGCCCAGGCCACGTGGTGGGGAGTCGGCTCCAGGCTTGGCA
Y
GGAGGCCCCTGGCTCTCTTGGCCCCAGGAGAGCCTCACCTTCCAACATGCTGCTCCCCAGGGAGGAAGCTGTGGAATGTTCTTTTTAGTACAGAAGCATC
Celera SNP ID:            hCV2611349
SNP Position Genomic:     171713
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19461):
ACATTTTCTGATCCTTTGCCTGTCTCCTCCACCTCATCTTTGGCCATTTCCTGCTTTGCTCAGTTCATGGCAGCCACTCTGATCTGCTTGTTCTTCTTGG
W
ACAGGCCAGACTTATTTCCAACTTGGGCCTTTTGCAGTTCCTCTTTCCTCTGTCTGGATGGTCCCCAGATTTCCATAGGTGCTTGTTGCCACACCTCATT
Celera SNP ID:            hCV2611277
SNP Position Genomic:     86067
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,5)   total(A,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19462):
CACATTTCTCCACCATCTTTGTCTGGAAGCATGAATGAAGGCAGATCTGAAAGAGGAGACCCAGGAATGCCATTCATGTCTTTGCTCAGGGATGTCAGGG
R
GTTTCCTGCACATCCCTCAGCCCAGGGGGTCAGCCTCCCTTAACCTTGGCCAACCACATGAACCTGCCCCTTATGCCAACTGGGCTGGGCATGGTCCCGG
Celera SNP ID:            hCV25474701
SNP Position Genomic:     31344
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,5)   caucasian(A,15|G,3)   total(A,26|G,8)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19463):
AGCATGGAAAATACTTTGTATTTTCACTGTGACACCCCCAAAATCTATTTTTTTTTTTTTGAGATAGGATCTTGCTCTGTCGCCTAGGCTGGAGTGCAGC
Y
GCGCAATCACAGCTCACTGCAACCTGTAACTCCCGGCCTCAAGTGGATCCTCCCGCCTCCGCCTCCCAAAGTGCTGGGATTACAAGCCTGAGCCATTGCG
Celera SNP ID:            hCV2611278
SNP Position Genomic:     86451
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19464):
GGTGGGAGGATCAATTGAAGCCAGGAGTTTAAGACCAGCCTGGGCAACATGACAAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGT
S
GCACATCTGTAATCCCAGCTACTCGGGAGGCTGAGGCATGAGAATCACTTGAGCCTGGGAGGCGGAGGTTGCTGTGAGCCAAGACCGTGCCGCTGCATTC
Celera SNP ID:            hCV484670
SNP Position Genomic:     11633
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19465):
AAACAGGCTTCGTCTAACAACTATACATTTTTTTTAGAAGGATGGCCTGGCCTAAGAGGCTCAGGGACAGAGGCATGGCCTGGTCTCTAATGTTTGGTGG
M
AGGGAAATTAAACAGGATGAGGCTGGGAAGGGCCCATTTGGTTGGATGCTTTTGTGGCCCTTTTGCTGGGGCATCTTGGTGGGGGCGGGATGGAGTGGAT
Celera SNP ID:            hCV484671
SNP Position Genomic:     11111
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19466):
AAAACAGGCTTCGTCTAACAACTATACATTTTTTTTAGAAGGATGGCCTGGCCTAAGAGGCTCAGGGACAGAGGCATGGCCTGGTCTCTAATGTTTGGTG
R
CAGGGAAATTAAACAGGATGAGGCTGGGAAGGGCCCATTTGGTTGGATGCTTTTGTGGCCCTTTTGCTGGGGCATCTTGGTGGGGGCGGGATGGAGTGGA
Celera SNP ID:            hCV484672
SNP Position Genomic:     11110
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19467):
AACACACAGATGGTCCCCAGGTCTGGGGCTTTCACACAGAGGTTTGAGGTTCAGCTCCTATGGGAGTGAAGAGTGGGCATTTGGCACCCACTGTGTATTC
Y
GTTGGGATCTGCAGGTGGAAAGCTGGCTGAGGGTTTGGATCCCAGCCTGCTGTTTCTCCTTCCCCAGACACAGAGTAATTTCCTGGGCTTTCTGTTTTCT
Celera SNP ID:            hCV344388
SNP Position Genomic:     162034
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19468):
AACCTCTCAGATGCTTTGCTTTCTTTATAATAATATCAACTTCATGAAGTTGTGAGCATGAAATGAATTGATACATGTAAGGTGTGTGTGTGCATGGTAG
Y
TCTCACTAAATGTCATCCAGAAGTATCTTTCTGATGAGCTCACTTTTTTTATTTTTAAAGACAGGGTCTTGTTCTCTCACCCAGGCTGAAGTACAGTCGT
Celera SNP ID:            hCV7709855
SNP Position Genomic:     32228
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19469):
TTGGATCTTCATGGATCATAAGCTACCACAATATCCATGGAGCTTATAGCATAAAAGCTAATGGCAGAGTTCCTGAAGGCAGGCTACTCAGGTCAAATCC
M
ATCTTTGCTATTTTTCTGCTGTTTGGCATCATGCAAGTTACTTAACCTCTCAGATGCTTTGCTTTCTTTATAATAATATCAACTTCATGAAGTTGTGAGC
Celera SNP ID:            hCV7709856
SNP Position Genomic:     32084
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19470):
ATTTATAACACTATTTCTCAAGAAAATATGGACTGGCTTGTTACATAGTTTCTGGGAAGAAATTGTTGGGAAGAATAAGACAGGGCTAGACTTTAGCATC
K
TGTTGCTCTTTATATATAGAATAGATCTTGGAAAATGCCTGGAAACCTCCAACTACCTTAGAGGCAGTACAGTTTGGTGGAAGGAGCTTGGGTTAGAAGC
Celera SNP ID:            hCV329726
SNP Position Genomic:     166687
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19471):
AACACCTTTGCCAGCATCCTTGATTGGCGTTCACCAGCTCAGCTTTGGTAAAGAATGTGTTTTCCATTTATAACACTATTTCTCAAGAAAATATGGACTG
K
CTTGTTACATAGTTTCTGGGAAGAAATTGTTGGGAAGAATAAGACAGGGCTAGACTTTAGCATCGTGTTGCTCTTTATATATAGAATAGATCTTGGAAAA
Celera SNP ID:            hCV329727
SNP Position Genomic:     166622
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19472):
CTTTGCATAGAGATAGTAAAAAGTCCGATAAAAATTGAACTCTTTTTTTTTTTTTTCTTTTTAAACTTTCACTTTCTGCTTGGGTAATGGCAGGATAGAC
S
TTAGTTTCGACAGGGACCCAGGTGGTGTGGGAAGGACCGGGCAGCCACAGTACTGGGAGCTGGAAGGAGTGAGTGCAGCTTCTATAATGAGCATAGTGAC
Celera SNP ID:            hCV2611350
SNP Position Genomic:     171935
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19473):
TTAGTAGAGACGGGGTTTCACCATGTTAGCCAGAATGGTCTCGATCTCCTGACATCGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGC
R
TGAGCCACCACGCCTGGCCTCTGATTATGAATATTTTTTTGGAAGTTTTAAGTTACTGGATTTAGGAGTATATGATATCCAAGTCTTTTTAGCTCTTTGC
Celera SNP ID:            hCV2611352
SNP Position Genomic:     172912
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19474):
GGAGATGTCATCATAGAGCCCTACTTACATTGGGGAGGGAGGTCAAAGGTAAAAACCATTTACTTTGAAACGTGGTGTAAGGTGGCCTTCATGTTTTAAA
R
AGGAGGAAGGGCTCTCCCTTCTCTGATTTCTCTCTTCTGCCTCAGGACTCAGACTAGCCCTTTTAGCAGAGGGGAGCCTATAGAGAGGAGGTCATATACT
Celera SNP ID:            hCV2611280
SNP Position Genomic:     92595
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19475):
TATAGAGAGGAGGTCATATACTAGTTGATTTTGGACTAAAGGCATCCCAAAGATGTACTATTTTTTGCTCCCTGCACTATTTTTTTTTTAATGGAACCAA
Y
GTTTAAAAATAGGATTTCTGCCTTCTCTTAAAACATCAGATGATCTGGTAACGCTGAGCTCCTGTTCTCACATGGGAACAACTGGCTGGAGCTGAGTGGC
Celera SNP ID:            hCV2611281
SNP Position Genomic:     92774
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19476):
CCTTTGACAGATTCCTGGAAAAAACTTCTAGATTCTAAACTGGGTGAAAGACTGGACATCATTTTCCTTGTCAGGTGTTGCATTTTTCCGTTAGAGGTGG
R
AAGCTCCACGATGCCCTGTGTCTGTGGGCTCATGTTCCCTCATCTTGTAGCTTGGAGAGGAAAGAAGTTGCCTTCTGCCAAAAGCCAATGGTGGTATGTT
Celera SNP ID:            hCV2611354
SNP Position Genomic:     176295
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:19477):
GGTGGGTTCTCAAAGCAGTACCACTCTCATCTGCTCAGTACATCTGCGGCAACTGGCTGCCTTCGATGCTGTCATTGCGTTCAGCCCAGCACATCACAGC
Y
CCATCAGTGTGTAGCCACCGCTCTCGTTTTTCTGTATCGCTTTTATCTCCTGAAAAAGATGCACCAAATAAGAGATCATCTATATCAGGAATTGAATGTC
Celera SNP ID:            hCV336948
SNP Position Genomic:     177333
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:19478):
GTCAAGTATAGGGGTTGTAAATAAAACTTGGGTTTGAATCAGATAAGAACTGTACCAATCTCAAAGACGGTGAATTAAAGATTAAAGAAAATATTGCATG
Y
TTGGCATAATGTGTGGAACACAACAGCTATTGTAAACACCCAGTAGGAATGTAAGCTGCAAGAGGGCAGGTAGAAACCGTGCTAATTTAATCCGCTGGGG
Celera SNP ID:            hCV2611282
SNP Position Genomic:     93160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19479):
GATTTAGACATTTAGCCTTGTGAAAGTTACCACAGTGCTCCATGTGATTCATTGACTGTGAGCCTGTTGTCCATTGCACTCAGCCCTGTACTCACTTCTT
Y
ACTCGCTGTCCTGGTTTTACTGTTCAGATTTTGGTGGGTTCTCAAAGCAGTACCACTCTCATCTGCTCAGTACATCTGCGGCAACTGGCTGCCTTCGATG
Celera SNP ID:            hCV336949
SNP Position Genomic:     177200
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:19480):
TTTTTCTGTATCGCTTTTATCTCCTGAAAAAGATGCACCAAATAAGAGATCATCTATATCAGGAATTGAATGTCTAACTCAAACCTCTCATTTTTGTTTA
R
TAGGTAGATCTCATTTGAAGTCTCCTATCTGAATCTCTGAAACAATTATAGTTTGATTAGACAAAGGTTTTTAATAACACTTCTTTTTTGCTGTAGTCAA
Celera SNP ID:            hCV2611355
SNP Position Genomic:     177460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:19481):
GCACAAAATAATCACCAACAGTAATGTTGTATCTGTAATGTTTGTTTGCTTTTTAAAGTTTTATTCTTGATTTCTTGTAAACATCCATTGCACTGAGGCC
R
TATCATTCCTTAAGACAGCCCTACATCTTGCCTTGGTAATCCCTTAGATAATGTGGAAACTCAAACCGTTAGGCTCCAGTCATCTTAGACCATTTCCCAT
Celera SNP ID:            hCV2611356
SNP Position Genomic:     178274
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:19482):
GCCCTACATCTTGCCTTGGTAATCCCTTAGATAATGTGGAAACTCAAACCGTTAGGCTCCAGTCATCTTAGACCATTTCCCATCCGTTTTGTATTTTCTC
K
TCCTGAAAGCAGCTGAACTGAAAGTAAGTAATAATATGCTGGACCAGTGGGAACGGATGTGGGAGTATTTGTGGTGTGCTAAAATACTGTAATTATCTGT
Celera SNP ID:            hCV2611357
SNP Position Genomic:     178392
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,5)      total(G,5|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:19483):
GAAAGTAAGTAATAATATGCTGGACCAGTGGGAACGGATGTGGGAGTATTTGTGGTGTGCTAAAATACTGTAATTATCTGTGAGGCTGCCTGACACGCTT
Y
TGCAATCTTGTTTTCATCATTCATTCTGCAAACGTTTATGGAGGGCCTTCTTTGAGCACAGAGGCAAAACTGAAAGCTTCAGGGATTTGCTGTAGCTGAG
Celera SNP ID:            hCV2611358
SNP Position Genomic:     178512
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:19484):
TTCTCCTGTCTAGCATCCCAAGTAGCTGGGATTACAGGTGCATGCCACCACACCTGGTTAATTTTTGTATTTTTAGTATAGACAGAGTTTCACCATGTTG
R
CCAGGCTGGTCTCGAACTCCTGACCTCAAGCGATCCACCTACCTTGGCCTCCCAAAGTGCTAGGAATACAGGCATGAGCCACTGTGCCCCGCCAAGTTAA
Celera SNP ID:            hCV27961196
SNP Position Genomic:     21597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19485):
TCAAGGACCATCCTGTGTATAGCAGGCATCAAGGAACAAGGAAAGCATTACCAAAAAGGTGGCTCCTGAGCAGTGTTCTGAAAGATGAATAGAAATTTGC
R
GGGCAAGGAAGTGGTGGAGTTGCATGAAAGGGCGTGTGGTTTTGGGGAATAGACATTTAGTGGCTGGCTGCACCATAGAGAGCAGTGGGGGTGCAGGAAG
Celera SNP ID:            hCV2611286
SNP Position Genomic:     98234
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19486):
TCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCATCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACC
Y
GGCCCACTATTCTGCTTTGTGTTTCTACAGATTTCCCTAGTCTAGACTTCTATATAAATGGAATAATAAAATACATGGTATTTTGTGACTGGCTTTACTT
Celera SNP ID:            hCV27961197
SNP Position Genomic:     142861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19487):
TAGAAATTTGCAGGGCAAGGAAGTGGTGGAGTTGCATGAAAGGGCGTGTGGTTTTGGGGAATAGACATTTAGTGGCTGGCTGCACCATAGAGAGCAGTGG
K
GGTGCAGGAAGCCTGGGAGAAGAGTGTTGGAAACTCACTGTGAAGGGCTTCGTGAGCTATGCTGGTTTGGATTTCATCCTCTGCAAGTTGAAAATCCAGA
Celera SNP ID:            hCV2611287
SNP Position Genomic:     98323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,7)      total(G,7|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19488):
TTTTAGAAAATGTGATCATAATGTACTTTTCTGGATCAAGCTTATAACACCCTTTGATATATCCTTGCAGGATGACTGGGTTTGTGAACTCTTAAGTTTT
Y
GTCTGTTTTTGCTGCTACTTGAATGTTCTTTATTTCTAGCTCAGGCTTAGAATTTGGACTGAAAGAAGTCCTCCTGCGTTCATGAGCTCATGTGTTCTCA
Celera SNP ID:            hCV27961198
SNP Position Genomic:     168576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19489):
TGATTAGCGTGATCTCGGCTCACTGCAATCTCTGCCTCCTAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGGGCATCA
S
TGTGCCCAGCTAATTTTTGTATTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGGTGGTCTCGAACTCCTGACCTCAGGTGGTCCACCCGCCTCGGC
Celera SNP ID:            hCV2611289
SNP Position Genomic:     104098
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,8)   total(G,5|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19490):
AAGCTAGGAAGTTTAATTGGGGATATTAAGGTTGGATTTAAATAAAGGCATGAACAAATGTATAGTCCACAAGGAGATTTTGTTTCTTTCTCCCCACCCA
Y
AAACAGGTAAAGAAAAACGTCATTATGGGCCAGGCGCTGTGGCTCACGCCTGTAATCCCAGCACTTCGGGAGGCTGAGGCGGGCGGATCACAAGGTCAGG
Celera SNP ID:            hCV7699530
SNP Position Genomic:     43356
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19491):
CCCCTCCATGTTGGATCTTCATGGATCATAAGCTACCACAATATCCATGGAGCTTATAGCATAAAAGCTAATGGCAGAGTTCCTGAAGGCAGGCTACTCA
R
GTCAAATCCAATCTTTGCTATTTTTCTGCTGTTTGGCATCATGCAAGTTACTTAACCTCTCAGATGCTTTGCTTTCTTTATAATAATATCAACTTCATGA
Celera SNP ID:            hCV7709860
SNP Position Genomic:     32074
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19492):
TCAAGAAACAGAGAGAAATAAACACAGTCCCTGTGTTCCTATTCTCAAGCCCAACCCCTCCATGTTGGATCTTCATGGATCATAAGCTACCACAATATCC
R
TGGAGCTTATAGCATAAAAGCTAATGGCAGAGTTCCTGAAGGCAGGCTACTCAGGTCAAATCCAATCTTTGCTATTTTTCTGCTGTTTGGCATCATGCAA
Celera SNP ID:            hCV7709861
SNP Position Genomic:     32020
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19493):
TCCATCATGTGGGTGCCAACACAAAGATAAGTGGGAAAATTAGAGGAGTTGTCAAGAAACAGAGAGAAATAAACACAGTCCCTGTGTTCCTATTCTCAAG
Y
CCAACCCCTCCATGTTGGATCTTCATGGATCATAAGCTACCACAATATCCATGGAGCTTATAGCATAAAAGCTAATGGCAGAGTTCCTGAAGGCAGGCTA
Celera SNP ID:            hCV7709862
SNP Position Genomic:     31969
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19494):
CCCTTGGTGCACAGATCCATATATAACCTCCCTTTTCAGTATTGCTGTGTGTGAATTAACTACAACACATATGCATGCATAGCTGTGAATTCTGCACTAC
Y
TTTTTTTTCTTTTTTCCCCCCAAGAATATCTCTTGGGAAAAGTTTTTAGTACGTTACTTAACTTTATTTTGCTGCTAATTTGCGCATTAGCCGGTAACTT
Celera SNP ID:            hCV336950
SNP Position Genomic:     176936
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:19495):
TTGAAGGATTTGGTAGGAATTTTCTAGGTGGATAGTGGAAAGGTGGGAAAGTCCTTTGCAGGGCAGCAAACCCTGTAAGTGCAAGGGTTTGGAACCTCAA
W
CAACATGGCTTCTTCAGAAAATTTCAAGGTCTAGGGTGGTTGTAGCAGAAGGGTACAAGGTACAAGGTAGAATGGGAGGAGGCCCACTGAGTGATGGTTT
Celera SNP ID:            hCV2611290
SNP Position Genomic:     104658
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,8)   total(A,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19496):
CCTGTAAGTGCAAGGGTTTGGAACCTCAAACAACATGGCTTCTTCAGAAAATTTCAAGGTCTAGGGTGGTTGTAGCAGAAGGGTACAAGGTACAAGGTAG
R
ATGGGAGGAGGCCCACTGAGTGATGGTTTGAGCAGGGCTGGATCTGGAAGTCCTTCGGTGCCATGTTGCAGAATGGCATTCTGCAGAGGTAGGCACCAAA
Celera SNP ID:            hCV2611291
SNP Position Genomic:     104729
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19497):
ATTTGTGCGTGGCTTGATGGATTTTTCCTGTCCCCATCTATACACTCGTCACAATGAGGGGCTACTAAATAAGGCAGTGTTCTCTGTTTGTGTAGTCCCC
M
CAGCTGTTTCCTATAGTAAAGACTCTGGAAAACAATGACCTCATAGTTTCCACAAAAAAAAAAAAAAACCTTTTATATTTAGTAGGGGAAAATAAATCAT
Celera SNP ID:            hCV2611293
SNP Position Genomic:     110957
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19498):
GGTTTAGAGACTCAAGTTTGAGGTTTTTTTCTCCTCTTTTTGGCAAAACTTTCTGTCGTGGTGTTATAAACTTCCATCAGAAAGCCTGCACTGTTTGGTT
Y
TATCTCTTGTGGTGCCAAGAATCACTGGTAGTTGTTCCCTGACCCGTTAATTTATTAAGGGTTGAAAGTGGTGAAATTATAATTCTAACATTCCTTTTTT
Celera SNP ID:            hCV2611295
SNP Position Genomic:     114623
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19499):
GGTTAGTTACCCTTCAGGCTCTATTGTGATGTCAGGCAGCTGGTTAAGCTGTTGTAGCTGCCCCCACCCCTTCCCGGATTCTGTCAAGCTTCAGAGGGTA
K
TGCTGAGGGAGGTGGAGGGCATCCAGGGTCAGAGGCTACTCTTTTCCTTTTGAAAATCTGTGAGCCTATGAGTTTTGAATGTAGTGAGACTCCTAGTGCA
Celera SNP ID:            hCV2611296
SNP Position Genomic:     117986
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19500):
GCTTGTTTTTCTGCCAATATCCATTCTTTTTATTCTAGAGACATCCCTGAATTTCCTTTGGAGAACCATTCAATCCTATCCACACCCCCCATCCTCATTC
R
TGTGGTTCAACTTAGGTTGACCCCCATCTCTGGCTCTAGCAAATCAGCTTATCTTGTCACTCAGGTTATAGTCTTTTTTTTTTTTTTTGAGATGGAATCT
Celera SNP ID:            hCV118728
SNP Position Genomic:     64735
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19501):
GTTAGTTACCCTTCAGGCTCTATTGTGATGTCAGGCAGCTGGTTAAGCTGTTGTAGCTGCCCCCACCCCTTCCCGGATTCTGTCAAGCTTCAGAGGGTAT
W
GCTGAGGGAGGTGGAGGGCATCCAGGGTCAGAGGCTACTCTTTTCCTTTTGAAAATCTGTGAGCCTATGAGTTTTGAATGTAGTGAGACTCCTAGTGCAG
Celera SNP ID:            hCV2611297
SNP Position Genomic:     117987
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19502):
GAAGCCATTTGCTTGTTTTTCTGCCAATATCCATTCTTTTTATTCTAGAGACATCCCTGAATTTCCTTTGGAGAACCATTCAATCCTATCCACACCCCCC
R
TCCTCATTCATGTGGTTCAACTTAGGTTGACCCCCATCTCTGGCTCTAGCAAATCAGCTTATCTTGTCACTCAGGTTATAGTCTTTTTTTTTTTTTTTGA
Celera SNP ID:            hCV118729
SNP Position Genomic:     64725
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19503):
CTTGATCATATTATTTTGTACTCTTTGCCAGGGTGAGAATCCTAGACATACTCAGTTGTTCCTTGGTGACTTAGGGTTGTTATGAACATCATTGATTGAT
C
TCCTTTTAGGTAATGTGGAGGTTTCTTTTGGGGCTAGTGGGACTACATAGGCCCTATTGAGTGGTTCTGGATTGCTATATTGTTCGAATTCTTATTTCTG
Celera SNP ID:            hCV2611298
SNP Position Genomic:     119141
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,9)   total(C,1|-,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19504):
GCTTTTTAGTTAAGTAACTAGATAAATAGAATCGGCTCTAAATAAGACTTAACTAAACTGAGTTAGAGTCTGAGCATCTGACTAAATTAAGAAACTTTAG
Y
GTTTTTCCTTTTTAATGTCAACTTTCTTATTTTTTATTTTATTTATTTATTTATTTATTTGAGATGCAGCCTTGTTCTGTTGTCCAGGCTGGTGTGCAGT
Celera SNP ID:            hCV2611299
SNP Position Genomic:     119760
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19505):
GGTCAAGCCAAGACTCCCAAGGGTGCTGCCTCTTAGAATAACCACTACAACTTGGTAAAAATATAGATCCTTGGGCTCATCTTCTAGAGATTCTGATTCA
R
TGGCTTTGAGTCTGATAATCAACCAGGTTTGGAAACCACTTCTCTGGAGGATATGTTTGTGAAGGATAAAAGCTAGGAAGTTTAATTGGGGATATTAAGG
Celera SNP ID:            hCV7699540
SNP Position Genomic:     43186
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19506):
TTTTCTTTGCATCTGTTTTTTTTTTTCTATTCTACTTTTTTGGAGATTTCTGCAAGTTTATTTTCCAATTCTTCTTCCCTCTTCTATCAAATCTTTAGTC
Y
GGGTGCGGTGGCTCACGCCTGTAATCTCATCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGCCTGAGCTCAGGAGTTCGAGATCAGCCTGGCCAAC
Celera SNP ID:            hCV16097557
SNP Position Genomic:     80816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19507):
CTTGCGGAACCTTTCTAGCAGTTACCAGGAACCAAGCGACAGTCATAGTCGCCGTGAGCACAAGGCTGTGGGCCGGGCCCCTCTGGCTGTCATGGAAGGC
R
TGTTCAAAGACGAATCGGACACCCGCAGATTGAACTCCAGTGTCGTAGATACACAGAGCAAACATTCAGCACAAGGGGACCGCCTGCCCCCGCTCTCTGG
Celera SNP ID:            hCV25770466
SNP Position Genomic:     174100
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19508):
CATGAGATGTGTCACTGATTTCTGTTATTTATTTGTATGTTTTATTATTCAAAGTGTATGCACTTTTAAGAAGCAGAATTTATATTTTTACGTTTGAAAC
R
TTTTATTTCTGAAACAGCGTTGATTATATAGTATACAGTTGGAATTAAGAGAAAAGTGGAAAATGTAACAAAATACAATAAATTTATTACAAGATGTCCT
Celera SNP ID:            hCV8918732
SNP Position Genomic:     181851
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:19509):
GGCTGGTTGCAGTGGCTCATGCCTGTAATCCTAATGCTTTGGAAGGTTGTAGTGGGAAGACTGATTGAGGCCAGGAATTCGAGACCAGCCCGGGCAACAC
R
GCTAAACCCCATCTCCATAAAAAATAGAAAAATTATCCAGGTGTGGTGATGCATTCTTGTAGTCCAAGCTACTTGGGAGGCTGAGGTGGGAAAATTGTTT
Celera SNP ID:            hCV121235
SNP Position Genomic:     51726
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,14)   total(G,14|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19510):
ATTTCCAGCAGCAGCCCATAAACCAGATTTCACTTTTAGATACCACCCAGCTGTTTGCATTTCATCTATTTCTTTTTCTAAAAATGTAAATACTATTGTC
Y
TCCTGAGTTCTTCTGTTTTTTTTGTTTGTTTGTTTTTGTTTTTGTCCATGATCACTGGAAACAAATTTTGTGTTTCTTCTGGCATAGAATCAAAGAAAGT
Celera SNP ID:            hCV8918735
SNP Position Genomic:     127111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19511):
ATGCAGGCAGGGCTCCTTTACAGAATCCAAAGAAACACAGAGGGTCTCAGGAGAATGGGAACCAGGAAAGGTCTGGATCTCTCAGGAGGAGGATTTTGTG
R
TCTTTTTTTATTTTTATTTTTACTTGAGACAGGGTCTGGCTTTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAACCTCCACCTCCT
Celera SNP ID:            hCV118730
SNP Position Genomic:     63932
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19512):
CCCAGGGATCCTCACCAGAGTTCCTGGTGCAAGCCACACCCCAGCCTAGATATAACTTTGTCTCCTGGGTCCGGGCCATAAACCCAGGGCTGGGTGCCCC
Y
GCCAATCTGTTACCTGGAGCGAGTAGGCAGCGTTGTAGATGTTCCTGATTGGCACGTCACTCCCGTCCTCCGTGCACTGACTGTAGGGCTCACTCAGCTT
Celera SNP ID:            hCV11895899
SNP Position Genomic:     33461
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(T,37|C,111)      total(C,111|T,37) ;HYP3(T,37|C,111)   total(C,111|T,37)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19513):
GCTGGAGTGCAATGATGCAATCTCTGTTCACTGCAACTTCCATCTCCCAGGTTCAAGCAATTCTACCTCAGCCTCCCAAGTAGCTGGGATTACAGGCTTC
Y
GCCAACACGCTCTACTGATTTTTTGTATTTTTAGTAGAGATGGGATTTCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCATGATCTGCCCTCC
Celera SNP ID:            hCV465751
SNP Position Genomic:     69798
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19514):
GTCGGGCTGGTCTCGAACTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGCTCCCAAAGGGCTGCGTGAGCCACCACGCCCAGCGTTGG
R
ACGTTTTTGCAATACCTCTGTAGAGTTTCTGGTCCTTAGAGGATCACTGCTGGGGTTCAGGGTCTCAGGAGGCTAGTCACAAGAGATAGCAGGAGATCTC
Celera SNP ID:            hCV465752
SNP Position Genomic:     68017
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19515):
GAATAAATTCTGGGTTGCAAAAACATCTCATATTGCATAATTTCTCTACTGTTGCCTTCTTTGGCACTTGCAACTGATAATTGTCTCAGTGAAACACTCT
Y
TTCTCTTGGCTTCTCCAATGCATTGCTTTCCCTGAAATTCTATTTATACTCCTTTGGAACATTTGTTTTTGTTTTTGTTTTGAGACAGAATCTCACTCTG
Celera SNP ID:            hCV465753
SNP Position Genomic:     67654
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19516):
GGTGAGACTCTGTCTTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGACCTCATGGGGACTTGGTAAAGAGTGCTGAAGATTACCTGGGCAAAAA
Y
AAAAATTTGGAAGATGCTGTCAGTGACCATGTATATAATGCAATGGATAATATGTACTTGAATTCAAAACTTTAGAAATGAAATTTGAGGATAGAGGAGG
Celera SNP ID:            hCV27077800
SNP Position Genomic:     81186
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19517):
AGTAGGACTAGTGAGGGAGTCTTCTCAGGTACAAGTTTTAAGGGGGCATCAAAGAATATTTTAGTGCAATATATACATATATACACATATATATACACAC
W
ATATACACACACACACACACACACACACACACACATATATATATATATATATTTTGTTTTGGAGACAGAGTGTCACTCTATTGCCCAGGTTGGAGTGCAG
Celera SNP ID:            hCV27077801
SNP Position Genomic:     81758
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5|-,7)   total(A,5|-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19518):
GACTAGTGAGGGAGTCTTCTCAGGTACAAGTTTTAAGGGGGCATCAAAGAATATTTTAGTGCAATATATACATATATACACATATATATACACACAATAT
A
CACACACACACACACACACACACACACACATATATATATATATATATTTTGTTTTGGAGACAGAGTGTCACTCTATTGCCCAGGTTGGAGTGCAGTGGCA
Celera SNP ID:            hCV27077802
SNP Position Genomic:     81763
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19519):
ACTAGTGAGGGAGTCTTCTCAGGTACAAGTTTTAAGGGGGCATCAAAGAATATTTTAGTGCAATATATACATATATACACATATATATACACACAATATA
C
ACACACACACACACACACACACACACACATATATATATATATATATTTTGTTTTGGAGACAGAGTGTCACTCTATTGCCCAGGTTGGAGTGCAGTGGCAT
Celera SNP ID:            hCV27077803
SNP Position Genomic:     81764
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,9)   total(C,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19520):
CAAGCCTCAAGGACCAAAAAGGGGCTGAGTGAGAAAGGACACAGAGTCCTACTCCTGCAACTCTGCACTACTTGCCCACCAAGGAAGAAGCAAAACCAGC
T
CTTCAGGGTCCCTAGGCACCTAGGTTTCATCCGATTGATGCTACTACGTTCCTAACAACCTTTCCCATTTCCTATCATATCAAAAGTCAAGACATCTGGA
Celera SNP ID:            hCV11190188
SNP Position Genomic:     51272
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,9)   total(-,9|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19521):
GGGAGTCTTCTCAGGTACAAGTTTTAAGGGGGCATCAAAGAATATTTTAGTGCAATATATACATATATACACATATATATACACACAATATACACACACA
Y
ACACACACACACACACACACATATATATATATATATATTTTGTTTTGGAGACAGAGTGTCACTCTATTGCCCAGGTTGGAGTGCAGTGGCATGATCTTCG
Celera SNP ID:            hCV27077804
SNP Position Genomic:     81772
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19522):
TTTTTTTTTTTTTTTTGAGACAAGAGTCTCACTCTGCAGCCCAGGCTTGAGTGCAGTAGTGCAATCTTGGCTTATTGCAACCTCCGCCTCCCGGGTTCAA
R
CGATTCTTCTGCCTCAGTCTCCTGAATAGCTGGGACTACAGGCATGCACCACCATGCCTGGCTAAGTTTTGTATTTTTAGTAGAGACGGGGTCTCGCTAT
Celera SNP ID:            hCV11190189
SNP Position Genomic:     50366
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19523):
CCGGCCAGGCCCCGCCCCCTAGGGACCCGCCTCCCCAGGCCCCGCCCCCACCTGCCCAGGTGCTTTCCCCAGGCCGCCAGGCACCTGAGACCGCCCGGAG
M
GGGCCACGACTTCACAACGCCCCCTGGCGCCCCGAAGCCGCCCTGCGCCCCAGCCCGGCCGCGCTGCGTCTTCCTGGGCCACCGCGCAGTGCCTGCTGCC
Celera SNP ID:            hCV11894736
SNP Position Genomic:     60738
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(A,29|C,118)      total(A,29|C,118) ;HYP3(A,30|C,118)   total(A,30|C,118)
SNP Type:                 INTRON


Context             (SEQ ID NO:19524):
AAGTTTTAAGGGGGCATCAAAGAATATTTTAGTGCAATATATACATATATACACATATATATACACACAATATACACACACACACACACACACACACACA
Y
ACATATATATATATATATATTTTGTTTTGGAGACAGAGTGTCACTCTATTGCCCAGGTTGGAGTGCAGTGGCATGATCTTCGCTCACTGCAACCTCTGCC
Celera SNP ID:            hCV27077805
SNP Position Genomic:     81790
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19525):
TAACATTTATACAGTATTTACCGATTTAGTCGTTCCTCTTTGAGGGATAATCTATTCAACAAACCAGAATCTGTTTAGAGTTTGGGTGCCAGCTCTGGCT
R
CTTTTGATTGTGTTATTCCATTGATGCCCAGCATCTGCGGTTTACAGAGAGATTTTGAGTTGCACCATGCCCTGGCTAAGGCATTAGTCCAGCTGTAACA
Celera SNP ID:            hCV11193234
SNP Position Genomic:     160656
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19526):
CCCGGGCAAGGTGTCCCAGCATCCCGGGCACCGGGAAGCCGCCACCGGCTGATGCTGGCTCGGCCACCCACCGCGCTGACGGCGTCCGACGCCCTGGCGC
Y
CGGCATCCGCTCCAGTGCCCAGAACCCCCGAGCTGGTCCGACCCAACCCGGCTGAACTCACCTTTCGGTTCCAAAGGGTCCAAGGCTCGTGCGGGTGCGC
Celera SNP ID:            hCV11894737
SNP Position Genomic:     60476
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(T,4|C,76)      total(C,76|T,4) ;HYP1(T,4|C,76)   total(C,76|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:19527):
GTTTTAAGGGGGCATCAAAGAATATTTTAGTGCAATATATACATATATACACATATATATACACACAATATACACACACACACACACACACACACACACA
Y
ATATATATATATATATATTTTGTTTTGGAGACAGAGTGTCACTCTATTGCCCAGGTTGGAGTGCAGTGGCATGATCTTCGCTCACTGCAACCTCTGCCTC
Celera SNP ID:            hCV27077806
SNP Position Genomic:     81792
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19528):
GCTTCGTGCTCCGGGCCACGGCGTGGGTAGACCCGGGAGAGCTGGCCGCTACCGCCCGGGCAAGGTGTCCCAGCATCCCGGGCACCGGGAAGCCGCCACC
S
GCTGATGCTGGCTCGGCCACCCACCGCGCTGACGGCGTCCGACGCCCTGGCGCCCGGCATCCGCTCCAGTGCCCAGAACCCCCGAGCTGGTCCGACCCAA
Celera SNP ID:            hCV11894738
SNP Position Genomic:     60422
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(C,29|G,118)      total(G,118|C,29) ;HYP3(C,30|G,118)   total(G,118|C,30)
SNP Type:                 INTRON


Context             (SEQ ID NO:19529):
AGTGTCACTCTATTGCCCAGGTTGGAGTGCAGTGGCATGATCTTCGCTCACTGCAACCTCTGCCTCTTGGATTCAAGTGATTCTCCTGCCTCAGCCTCCC
R
AGTAGCTGGAATTACACACACCCGCCACCACACCTGGCTAATGTTTGTATTTTTAGTAGAGTCAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTC
Celera SNP ID:            hCV27077807
SNP Position Genomic:     81927
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19530):
ACAGAAGGAGGTCTTTATTTGTTCAACACTGAGTGTTAAGATGGGTTAAACAGTCTGTCTAAATATTTTTGGCCTGGACAAAGAAAGAAGGGGAAAGTTT
M
TATTTACTATACCTTTACTTTGCCTTAGTAAAGAGTCAGCAATCTGTGGCACTAGTGGGGAAGTGTCAGCCCAGGGCAAATGTGACCGTGTATCTCTCCT
Celera SNP ID:            hCV29337091
SNP Position Genomic:     2142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:19531):
GGCTTCGTGCTCCGGGCCACGGCGTGGGTAGACCCGGGAGAGCTGGCCGCTACCGCCCGGGCAAGGTGTCCCAGCATCCCGGGCACCGGGAAGCCGCCAC
Y
GGCTGATGCTGGCTCGGCCACCCACCGCGCTGACGGCGTCCGACGCCCTGGCGCCCGGCATCCGCTCCAGTGCCCAGAACCCCCGAGCTGGTCCGACCCA
Celera SNP ID:            hCV11894739
SNP Position Genomic:     60421
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(T,4|C,76)      total(C,76|T,4) ;HYP1(T,4|C,76)   total(C,76|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:19532):
TGGAGTGCAGTGGCATGATCTTCGCTCACTGCAACCTCTGCCTCTTGGATTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAATTACACACAC
Y
CGCCACCACACCTGGCTAATGTTTGTATTTTTAGTAGAGTCAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCA
Celera SNP ID:            hCV27077808
SNP Position Genomic:     81949
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19533):
GCCACCTGGAAGGCGACTGGGAGCTGCAAATTAGCAGCCCCTGATCCAATCCCACCTCCCCTTGTGGTTGCTGAGGGGAACCCAGCTGGCCCAAGGCCAT
Y
ATCCAGCGAGGGGCACCAGCAGGCCCGGAAGCCATGCTCTTGACCCTTCAGCCAGTGTCTCTCCCAGACCGCTTCTTTCCTGTTCCTCCCTTGCCAAGGC
Celera SNP ID:            hCV29337092
SNP Position Genomic:     33120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19534):
ATTTTATTACACACAGTATTTGTGTGTTTGCTTATTTTCTGTTGTCTTCCCCTAGCATGGAAAATACTTTGTATTTTCACTGTGACACCCCCAAAATCTA
T
TTTTTTTTTTTTGAGATAGGATCTTGCTCTGTCGCCTAGGCTGGAGTGCAGCCGCGCAATCACAGCTCACTGCAACCTGTAACTCCCGGCCTCAAGTGGA
Celera SNP ID:            hCV27077809
SNP Position Genomic:     86398
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,7)   total(-,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19535):
TTCCAAATGTTCTTATCACACAAAGCTTGGAAACTTTTCTAAATGGACAGATGTCAACTGATTTTGGCTGGTTGCAGTGGCTCATGCCTGTAATCCTAAT
R
CTTTGGAAGGTTGTAGTGGGAAGACTGATTGAGGCCAGGAATTCGAGACCAGCCCGGGCAACACGGCTAAACCCCATCTCCATAAAAAATAGAAAAATTA
Celera SNP ID:            hCV29337093
SNP Position Genomic:     51661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19536):
GATTCTAAGATACCATTAATTTAGAGAATGCCCTTGATTTAATAACAGCTTTGGGGGAGAGTACCAGTATTGGAAGGCAAATTATCACATTCATCAATGT
R
CACGATGCATCTCAACTATACAAACTTTACAATGAGAAATAATTTTAGAAATGAACTAATATACTACATAAAAACTCATTTCATGTTTATAATATATAGT
Celera SNP ID:            hCV29337094
SNP Position Genomic:     57936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19537):
TATAATTATGCAAAAAACGTTTAAAGTTTAAAGTGAAAAGAGAATCTTTGAAGAGATTCCAGGTTTTCTCCAGACCATGCTAATCAGGTTTCCCCCCTCA
R
TTTAATTCAAGATATTTCATAGAAGCCTTCAAATTTTATTTTCTAAAACACTAGATCATGATGTTATTGGTGACCCTCTGGGGTTGGACAGGGTGCAATC
Celera SNP ID:            hCV29337096
SNP Position Genomic:     75424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19538):
TCAACAGTATGTTGGGATTGGGAAATGTGCATTTCCCATTAGTTGCTGACAGGATAAAACCTTTCTGGGGGTCAGCTTGACAATAGGTGTCATATATGGA
M
TACGCATACCCTTTGATCCAAGGTTTCAGCCTAAGGAGATAGCTACATGATGGACAAGGTATAGGTCATGATAATATTCACTGCACTGTTGTTTCTAATT
Celera SNP ID:            hCV29337097
SNP Position Genomic:     91227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19539):
TTAATAGTGACAGGAAGAAAGGAGAGTAGCTTCATTTCCCTTCAGATGGGAAAGAAAGGAGTATTGGCTGCTTTTTATTTTATATCCAGCTGGAGGAAGG
R
GTTAGTTACCCTTCAGGCTCTATTGTGATGTCAGGCAGCTGGTTAAGCTGTTGTAGCTGCCCCCACCCCTTCCCGGATTCTGTCAAGCTTCAGAGGGTAT
Celera SNP ID:            hCV29337098
SNP Position Genomic:     117886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19540):
CTGTGATTGATTGGAGGCCTAAGAGTCAGCCTGGCTTGCCTGTCAAGTATCCATAGGGTTGGCTGTGTAGAGTGCCACAGCAGGTCTGTGACTTGCAAGC
R
TCTCAGGCAGTTAAAATTTACTGGGAGTACTCTGGGTTTATGGCGATGTGAATGCATAATTTATAGTGAAACTTGCTGGATCTGCTTATGAATAATCTCC
Celera SNP ID:            hCV29337099
SNP Position Genomic:     122134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19541):
CCTGGGGGTAAACCACCTCTCCCACTGCTTCAGGAGCTTCAAACCCAAGACCAGGTATTTCTAGCAAGTGACAGGTGGACGAGGGCTAGACTGGAAGCTC
Y
GTGAGATTGGAATGCATGCCTGACTTGCTCTCTGCTGTGCCCCCACAGCTTAGCCCAAAACAGGGGTTCAAACACAGTATTACTGTCACAGTTCTTGCCA
Celera SNP ID:            hCV25643504
SNP Position Genomic:     46237
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34)   total(C,71|T,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19542):
CAGGGACTCCTTGATCCCAGATGGGCTGGCTCTGAAGGTCATGCTCCTTTCATCCCATGAGGCTTACCTTCGTTTCACCTTCAGTGTCTTACAGTGTTGT
Y
AGAATGTCTTCATTGGCTTAACTTAACAGTATTCTCTTTACTGTGTTCAGGAGGCTTTTCAACTCGACCATTTGTGAGAAGTGTCCAGCGTCAGAGTTTG
Celera SNP ID:            hCV25742137
SNP Position Genomic:     173696
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:19543):
TGAACACTGATGGAAACACTGATAGAAAAAGGGGCATCCCTGGTTTCTGGCCAAGTGGGAGAGATCCCGCTTTTCCAGAGGGCTCCCGCATCCCCACTGT
S
CTGCTGCCCCCATGTCCACTATTGGAGGGCCTCAAGATCTCCTTGGCACAGGTTTCCTTACCATATTCGCTGCCCCCCATGGAGGTGCTGAGAATGGTCT
Celera SNP ID:            hCV11190190
SNP Position Genomic:     49015
SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,22)   caucasian(C,26|G,12)   total(C,40|G,34)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19544):
TGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTGCAGGTACATGCCACCATGCCCAGCTAATTTTTGTATTTTTTTGTAGAGACAGGGTCTTGCTA
Y
GTTGCCAGGGCTGGCCTGGAGCTCCTGGGCACAAGCCATCCTCCTGATTCACTCTCCCAAAGTGTTGAGATTACAGGTGTTAGCCACTGAGCCTGGCCCA
Celera SNP ID:            hCV63934
SNP Position Genomic:     12859
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19545):
AGGTTAATTCCTTTTTTTTTTTCCTATCCTAATCTTGCCCAGGACGAAGTCTCAGCTTGATGTTAGCCTGTTTTTAATACCTCTTGTTCACCCCCCACCC
W
TTTTTTTTTTTTTTTTTAAACAGAACAAGCTTCAAGTCTAGAAGCATTGGCAGGTAACAGTAGCTAGAATTTAATAAGGTTATGTTTTTATTGGGTTTCC
Celera SNP ID:            hCV27077810
SNP Position Genomic:     96380
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19546):
GGTTAATTCCTTTTTTTTTTTCCTATCCTAATCTTGCCCAGGACGAAGTCTCAGCTTGATGTTAGCCTGTTTTTAATACCTCTTGTTCACCCCCCACCCA
T
TTTTTTTTTTTTTTTTAAACAGAACAAGCTTCAAGTCTAGAAGCATTGGCAGGTAACAGTAGCTAGAATTTAATAAGGTTATGTTTTTATTGGGTTTCCA
Celera SNP ID:            hCV27077811
SNP Position Genomic:     96381
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19547):
GATCTTGGCAATTTGAATGGAAGTACTTGACTGAGATAGGGACTGGAAAAAAAGATCTATGTCAGTGATCTCAAAATTATTATTATTATTATTATTTTTG
A
GATGGAGTCTCACTCTGTCGCCCAGGCTGGAGGGCAGTGGCCTGATCTCGGCCCACTGCAACCTCTGCCTCCTGTGTTCAATCAAGCAATTCTCCTGTCT
Celera SNP ID:            hCV27077812
SNP Position Genomic:     96838
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,12)   total(A,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19548):
TGGAGGAAAGTTTGGAGACTCAGCGCAAGTTTCCTTTTACTTCCCCAGCCTTTAAAATGGTTACCTTGTTATCTCTCGCGCTCTCTCTTTCTCTCTCTCT
C
CCCCCCCCCAACCTCTCCCTCTCTCTTTCTCCTTCTCTGTCTCTGAGTGTGTATATGTGTTTGCAGCAGCACTAGGGTAAAACTTGGGCTTCACTGGCAG
Celera SNP ID:            hCV27077813
SNP Position Genomic:     99769
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|-,9)   total(C,7|-,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19549):
GAGGGAGAAAGTTGATAGAATCATGAAGTTTTAGACTTGGAAGCAGACTTGGATGTGGTGTGAGTAGTTCCTAGCCTTTCAGGATGTGGGAACTGAGTTC
M
CCCACTAGCTAGAGGTTGAGGGAGCAGAACCAGAATTCTGACTTCCACTGACTGTGAACTCTGTGTACCCCTGCACTGCTGGTGCACAAACTGGGTCCTG
Celera SNP ID:            hCV27077814
SNP Position Genomic:     100737
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19550):
GAGACAGTATAGAAGGAGAAGACGAGGAGGGCGCACTGCCAGAGGATGAGGGCCACGGCAGTCAGTGTGAACCCGATCCAGAGGAGGCGGCGCAGACGGC
M
GCGGGACACCACGATGCGGCGACAGCCATGGGTGTTGGTGTTGAGGCAGTACCACCGCATCAGCTCTTTAATGGTCGGCGCCTGAGGGCCCGTCACGGGC
Celera SNP ID:            hCV11894746
SNP Position Genomic:     56937
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(A,6|C,61)      total(A,6|C,61) ;HYP2(A,7|C,61)   total(A,7|C,61)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:19551):
GAGAAAGTTGATAGAATCATGAAGTTTTAGACTTGGAAGCAGACTTGGATGTGGTGTGAGTAGTTCCTAGCCTTTCAGGATGTGGGAACTGAGTTCACCC
M
CTAGCTAGAGGTTGAGGGAGCAGAACCAGAATTCTGACTTCCACTGACTGTGAACTCTGTGTACCCCTGCACTGCTGGTGCACAAACTGGGTCCTGGGCC
Celera SNP ID:            hCV27077815
SNP Position Genomic:     100741
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,12)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19552):
AGTTATTTCTCCACAGACTTATTCTAATACACAGTTCTGATCATGTTACATGCTATTGATTTACCAGTGGTTCCCCTTTTCTAAGATCAAATCTAAACAC
Y
TTGAAAGGAGCATAACCCCCTCCTCCCCTGCCATGATTTGGTCCTTGCCTTTCTTTCCAGTCTCTCTACTCCATTTTCTCTCCTTCCTCGGTTCTTCTCT
Celera SNP ID:            hCV11193244
SNP Position Genomic:     142319
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19553):
TTGAAGCCTTGTGAATGATGCTACCGCCGACTTTCCGCTTCCTCCCTGTGAAGAAGTCCCTGGCCTTGCCCTTCTCATCCTGATCAAAGATCAGCAGCGG
R
ATCCGGTGGGAGAATCTAGGCTGCTTTCCCTCTGAGACGGAGTTCCAGGACTCCGCCTCTCGGCGCTTCCGGGACTCTGGAAAGCCGTACAGGGACTTCA
Celera SNP ID:            hCV11894747
SNP Position Genomic:     53825
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,31|G,9)   total(A,62|G,16)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(G,22|A,125)      total(G,22|A,125) ;HYP3(G,22|A,126)   total(G,22|A,126)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:19554):
CTGAGGTGGGAAGATCACCTGAGCCAAGAGGTCAAGGTGTGGTGAGCCGAGATTGTGCCACTGCCCTCTGGCCTGGGCTACAGAGTGAGACCCTGTGTCC
A
AAAAAAAAAAAAAATTATTGTATAAATGCTAAAGAGAAATAGATAGGTGTATGAGAGGGAATAATGGGTGTGACCAGGCAGGAAGAATAAAATGCAGAAG
Celera SNP ID:            hCV27077816
SNP Position Genomic:     101968
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,7)   total(A,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19555):
AAGCCCTTTAGGTAGGTGATCGTGATGCAAGCTAAGTGAGAACTGCCGCTCTTATCAGGATTTTCCACGCCTTGATTTTTTGAGCTGAATTCCCCCACTA
R
CCTCCACTTTTCTTTTGATTCCAGTTCCATTCCTTGACTTCCACCTCCCTACTGGAATTTCTACTTAGAAATCCTACAGGCATCTTACCCTTAGCATTTC
Celera SNP ID:            hCV11193245
SNP Position Genomic:     141887
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19556):
AGTGAAAGAATGAGAAGGTGAAATCTTACCAGTTGGAATCCCACCACTTGCTTGGACTCGATGTGCATGACATTTGAAGCCTTGTGAATGATGCTACCGC
Y
GACTTTCCGCTTCCTCCCTGTGAAGAAGTCCCTGGCCTTGCCCTTCTCATCCTGATCAAAGATCAGCAGCGGGATCCGGTGGGAGAATCTAGGCTGCTTT
Celera SNP ID:            hCV11894748
SNP Position Genomic:     53752
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(T,4|C,76)      total(C,76|T,4) ;HYP1(T,4|C,76)   total(C,76|T,4)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:19557):
CCTTTCATTCCAGAAATAAATCCCATTTGGTTATGATGTCTATTTAGATTTTGAAGACTGTTTTTGATTTTTAAACTTTATAAGAGCTCTCTATAGAATA
T
GTGTGTGTGTGTGTGTGTGTGTATAAGGTAACAACTTTAAACATTTGGTACATTTGATAAAAATATTTCCCTCATTCTCTTCCTCTTTTAGTTTGGTACT
Celera SNP ID:            hCV27077817
SNP Position Genomic:     108446
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19558):
CTTTTTGGCATCTTATCATGACATTCAGGAAGATATACTATGCCATAGGTTTTTTTTTTTTTTTTTTTTTTTTTAAATTTTGCTATCAGCTCTTAAGATT
S
TAACATTTTTGCTATAGAATGTTTTCTTGGTACCTGCTTTTAAGAAATTTGCATGTAACTCTTCATTGATAGGCAGCAAAATGAAGTAAAGCCCTGGACA
Celera SNP ID:            hCV11193246
SNP Position Genomic:     141412
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19559):
CTTTCATTCCAGAAATAAATCCCATTTGGTTATGATGTCTATTTAGATTTTGAAGACTGTTTTTGATTTTTAAACTTTATAAGAGCTCTCTATAGAATAT
G
TGTGTGTGTGTGTGTGTGTGTATAAGGTAACAACTTTAAACATTTGGTACATTTGATAAAAATATTTCCCTCATTCTCTTCCTCTTTTAGTTTGGTACTT
Celera SNP ID:            hCV27077818
SNP Position Genomic:     108447
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19560):
TCAAAGAAGTATCTTGATCTGGGGTGGTGGGTGATAGTGCTGTTCCTGTCAGACCACACCTAGGATTTTATGTTTACGTGTCATTCTGGAAACCTAGGAT
A
TCATGTAATTTCTGGGCTGACAAACTGTAGTGTGTCTAGAGTTGGTGGTGGAAGACTCCCTAGGGGAGTCTTTCAGCAGGGAGAGGGGATTGCTTTGAGA
Celera SNP ID:            hCV27077819
SNP Position Genomic:     112667
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19561):
TACTTTAAAATTTCCAATCCTTTATCAACTAGTGCATTTGTAAGAATACAATAAAAATATCACGGCAGTATCAGATTGCTATAAAAGTTTTTTAAATGCT
K
TTCTCCTTTTTGGTGCTTCTCTCGTGTGGGCTCGTGTCAGTCCGTGAGCCATAATTCTAGTAGCACTGGCCTAGAGAATACTTCAGAAAGTAGTTCTAGG
Celera SNP ID:            hCV341592
SNP Position Genomic:     167796
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19562):
CAAAGAAGTATCTTGATCTGGGGTGGTGGGTGATAGTGCTGTTCCTGTCAGACCACACCTAGGATTTTATGTTTACGTGTCATTCTGGAAACCTAGGATA
T
CATGTAATTTCTGGGCTGACAAACTGTAGTGTGTCTAGAGTTGGTGGTGGAAGACTCCCTAGGGGAGTCTTTCAGCAGGGAGAGGGGATTGCTTTGAGAG
Celera SNP ID:            hCV27077820
SNP Position Genomic:     112668
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19563):
AAAGAAGTATCTTGATCTGGGGTGGTGGGTGATAGTGCTGTTCCTGTCAGACCACACCTAGGATTTTATGTTTACGTGTCATTCTGGAAACCTAGGATAT
C
ATGTAATTTCTGGGCTGACAAACTGTAGTGTGTCTAGAGTTGGTGGTGGAAGACTCCCTAGGGGAGTCTTTCAGCAGGGAGAGGGGATTGCTTTGAGAGA
Celera SNP ID:            hCV27077821
SNP Position Genomic:     112669
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19564):
AGGAGAAGAGTCCTGGACCCAGCCCATCCCATGCCCCTAAGCAGTGAAAGAATGAGAAGGTGAAATCTTACCAGTTGGAATCCCACCACTTGCTTGGACT
Y
GATGTGCATGACATTTGAAGCCTTGTGAATGATGCTACCGCCGACTTTCCGCTTCCTCCCTGTGAAGAAGTCCCTGGCCTTGCCCTTCTCATCCTGATCA
Celera SNP ID:            hCV11894753
SNP Position Genomic:     53710
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,39|T,1)   total(C,76|T,2)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               HGBASE
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(T,3|C,64)   total(C,64|T,3) 
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:19565):
TTGCAGTAGCCTTCTAGCCCCTCCGCTGTTGCTAAACTCTGTCCTTTCTAATTGGTAGTTTTTCTTTTTTAAAATTTTATTATATTAAAAAATATTAGTT
G
GGGGGGGGGTGTCACTTTGTTGACCAGGCTGGGCTCGAACTCCTGGCCTCAAGTGATACTCCCATCTTGGCCTCCCAAAATGCTGGGATTATGGGCGTGA
Celera SNP ID:            hCV27077822
SNP Position Genomic:     112938
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19566):
ATACAGATTTTTATGTGGAGATATGTTTTTGTTCCTCGGGTATATTTTAGAGATGGAATTGCTGGGTCATATGGTAACTGTGTTTAATTGTTTGAGGAGC
Y
GTCAGGCACTTTTCCAACATTGCTATACCATTTTATTCCCACGAGCACTGTGTGAGGGTTCCAGTTTTTCCATATCCTCATCAACACTTGTTAACGTCTG
Celera SNP ID:            hCV27077825
SNP Position Genomic:     120954
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19567):
CACGAGCACAACCTTTTAGTATTTCACTGTTAAAGATAATAGCCCACAGCCGGGAACAGCCTCCCGAGTAGCCGGGATTACAAGTACCTGCCACCGCACC
R
GGCTAATTTTTGTATTTTTGGTAAAGATGGGTTTTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCTGCCTGCGTTGGCCTCCCAAA
Celera SNP ID:            hCV338088
SNP Position Genomic:     85271
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19568):
GCGGAGGTTGCAGTGAGCTGAGATTGCACTACTGCGCTCCATCCTGGGCAGAGAGAGACTCCATCTCAACAACAACAAGAACAGAGAGAGACTCCATCTG
M
ACAACAACAACAACAAAAAAAAAAAGAAAAGGAAAAAAATCAAACGTAGTAGAATGAGAACTTGAACCCTGGTATTCATAATCCAGTCTTTCTTTTTCTA
Celera SNP ID:            hCV27077827
SNP Position Genomic:     125580
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,4|-,10)   total(A,4|C,4|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19569):
GAGCTGAGATTGCACTACTGCGCTCCATCCTGGGCAGAGAGAGACTCCATCTCAACAACAACAAGAACAGAGAGAGACTCCATCTGAACAACAACAACAA
M
AAAAAAAAAAAGAAAAGGAAAAAAATCAAACGTAGTAGAATGAGAACTTGAACCCTGGTATTCATAATCCAGTCTTTCTTTTTCTACTGCATAGTTTCTA
Celera SNP ID:            hCV27077828
SNP Position Genomic:     125594
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,13)   total(A,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19570):
CTGGAGCCTGGGATGCTTCGACCTCTTTACTAGGGCTCTACAGGAAGAAAGACCCTCATGTCTAATTTTATGGCTCTTTTCTGACCCATGTTTCCAACTC
T
TTTTTTTTTTTCTTTAAGGGAAAAAAATAAAAACATTCTCTCTTTGAAGGGTAAGGAGAAATTTTGTGAAACTTGAAAACCCGGTAAGTGTTTTGCCTTT
Celera SNP ID:            hCV27077829
SNP Position Genomic:     127510
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19571):
GTAGCAGTTTATTTATCCATTCACCTACTGAAGGGCATCTTGGTTGCTTCCAAGTTTGGGCAATTATGAATAAAGTTGCTATAAATAAATATCTGTGTGC
R
GGTTTTTTTTGTGGACACAAATTCTCAACTCCTATGGGCTTTTTTTTAAAGCTATCCAATTGGCAAGAATGGTGAAGTTTAACACTGTGTTGGAGAGGAT
Celera SNP ID:            hCV27077758
SNP Position Genomic:     7475
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19572):
CACTATTTCTCCCTTTTATCCTGGCTCTTGACCATACTTTAACCCTTAGTTTTGTGGTTTCACGAGTCAGTTATAATTTCTTGAAATGCAGTAACCATTA
Y
TCAACCCCTTTATTACAGCCTTTTCTTTTGGGTGAGGAATGCATACTTTACTAGTCGTTATTCAGCAATGAATCCTTGCCACCAGCTCTTTGTGGTACAT
Celera SNP ID:            hCV11193259
SNP Position Genomic:     125918
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19573):
CAAAGAATTGTTAGGTCTCCTGATTGAGTGGTCCATTCAGAATTCAAGTACAATTTGCTCAAGATGAGGACTTGGGCTTCTTTGCTCGGCCACTGCTCTT
Y
GGGGAATCCACATGGTGTGGGTGGCACGCACCTTTATCCAGGATGGGCACATGACTCAAACATGGCCAATGAGAGTGTCATCCTCTGACTGCTGTGATTG
Celera SNP ID:            hCV27077759
SNP Position Genomic:     15534
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19574):
AAGATTGGGGAGGCAGCAGATGACAAGGTCTCCATCTCTTGCTTTGGTAGCTTGCGGAACCTTTCTAGCAGTTACCAGGAACCAAGCGACAGTCATAGTC
K
CCGTGAGCACAAGGCTGTGGGCCGGGCCCCTCTGGCTGTCATGGAAGGCGTGTTCAAAGACGAATCGGACACCCGCAGATTGAACTCCAGTGTCGTAGAT
Celera SNP ID:            hCV25770061
SNP Position Genomic:     174050
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,7)   caucasian(G,26|T,14)   total(G,55|T,21)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19575):
GGTGGCAGGTGAGGTCCACTCTTGTTCTTGGGCAGTTTTTTCCAGAGCAAAAGATTGTAATGAATGGTCTAGAGGACCTCTCTGGAGGCTCTCATGACTC
Y
GTCAGTTTGATCAGATGAATCCTTACGTTTCCATTTAATCTGGAAACTAAAATGACTGCAGTCAAGGAAGTTGGGGAGGAATGTGACAGCACCTGTGGCC
Celera SNP ID:            hCV25748619
SNP Position Genomic:     169734
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,38)   total(C,2|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:19576):
GGTGGCAGGCAGTCTGCAGAGAAATCCTCAAAAAAGTTATCTTCTAGCATGCAAACCTCTGCACGGCCTTCTCAAAAACCTCAGTGATATTTCTGCAATC
R
AAGTGTTTTATCTGTAAAGATGTTTATTTATTTAGAACCCCTGCCCTCCCACCAAAGCCTCCTGTGCTTTTGTTTTGTACTTTTTTGAGTCACGTGCCCG
Celera SNP ID:            hCV25771515
SNP Position Genomic:     175331
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,4|G,32)   total(A,5|G,69)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:19577):
ATGAGACGGATGTGGGATTTGAGGGGAACATTGTCATTCCCTTAAAATAACTATCATGAAAAAAATAGCAACAGTATGTAAAGGGACCAAGAGTGGCAGC
Y
TTTAGGGAAAATGGAGCAGAGAAGAGCTGTGAACAAAGCTCATTTATTTGAAATAAGCGTGCTTTATTTCACATAGAGGGGCATCAGACGTTACATTTCA
Celera SNP ID:            hCV11896361
SNP Position Genomic:     178995
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:19578):
GCTACTCGGGAGGCTGAGGCATGAGAATCACTTGAGCCTGGGAGGCGGAGGTTGCTGTGAGCCAAGACCGTGCCGCTGCATTCCAGCCTGCGCAGCAGAG
Y
GAGACCCTGTCTCAAAAACAACAACAACAACAACAACCCAAAAAAGTGTAAACTCTTTGACCTGGCTGCTCCAGTAGGAATTTATCCTAAGGAAATAGTT
Celera SNP ID:            hCV11192600
SNP Position Genomic:     11751
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19579):
AGGAATTCATTTAAACAACAACCTAAACCACTTGAAATTTGGCTTGGATTATCATAGACTGTCTTCTCCTACACAAACAGCAGCAAAGCAGGGGAAAATG
K
ATTCTCCCACATCAAGAGCAGGCAGCGACAAGATTGTCCTGTTGGTGTGTAACCGAGCCTGCACTGGGCAACAAGGGAAAAGGTGAGAACCAGATTATTT
Celera SNP ID:            hCV11896362
SNP Position Genomic:     152650
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19580):
TGCTTCTATTTACAGAGGACATTGATAATCAACTTTTTCAAAACTGCAAACATACAGAAAGATTAATTTAGGACATCAAATAAACTAAGGTTTAATTATG
A
AAAAAAATCGTAAAAGGCAAATCAAAGCAACATCAGATGTGACCAAAAACGTATACCAGATCACTTTCCGGGACTCTTGGAGAAGGGCTTGGGTGAAGAT
Celera SNP ID:            hCV27077830
SNP Position Genomic:     128138
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,6)   total(A,5|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19581):
GACTCTTGGAGAAGGGCTTGGGTGAAGATTTGGGATGCAGGGGTCTTATCTGCTCATTTGATGAACCAGGATTCGAATCACAGGTTCAGTGAGTTGCCTC
T
TGATAACCAGTGGTTTGTGGCAGAGCCGGAGCTTGAGCTTAGGATTCTTGACTCCTACTGCTTTTCTTTTTTCTGTGATACATACTAAAGGATTGGCCGT
Celera SNP ID:            hCV27077831
SNP Position Genomic:     128310
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19582):
GCTGTGTATAAAATATCTGCTTTGAAATACAATGAAGAGTTTGATTTCAGTTAATTTGTTTGGAATGTCTATGTTGAAACTTTCTTTTTTTTTTTTTTTT
Y
CCTATTTTTTCCCCATTGGGAGTCAGTTAAGAGAGAGGATTCAGGACAGAAGCTTGCTGTACTTCTGACAGTTTGTGTGGCCCAACTCTATGCCATGAGA
Celera SNP ID:            hCV27077832
SNP Position Genomic:     128904
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19583):
TTGAATGCTAGGTTGCTTTTAGGATGTGTTGTGAACATCCATGCAACACCTGTGTTAACACCCACTCATCATTTTCTTTCTTTTCTAAGATTTTTTTCTA
R
GACAAGGTTTTGCTTTGTCACCCAAGCTGGAGTGCAGTGGCATGAGCATACTCACTGTAGCCATTGGGAGGCAGAGATGGGAGAATCACCTGAGTCTGGG
Celera SNP ID:            hCV27077760
SNP Position Genomic:     20101
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19584):
ACCAAGGTTTCATTAGTGCTAATGATGTTTTTTTTATTAATTCTTTTTTTTTTTTGGGACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCA
Y
GATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGACTACAGACATGCACCACCGTGCCCGG
Celera SNP ID:            hCV27077833
SNP Position Genomic:     130374
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19585):
TAATTGTCACATATTTGTGAATTTCCCAAATTTCTTTCTGTCACTGATTTACAATTCCACTAAATTGTGCTTAGAGTACAACGGCCCCCAAGTGTAGTGC
R
AAGTGCTATCTAGTATTCCTAAGCACAGCAAGACTGTATGTGCCTTACTGAGAAAGGCATATGTTAGACAGGCTTTATTAAGGCATGAATTATAGTAATG
Celera SNP ID:            hCV27939290
SNP Position Genomic:     70090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19586):
AAATGAATACAGTGCTCAATAAACGTTTGTTGCATGAATAAGTGATTGTTAAACTAGTGACTAAAGGAGATGCGTTCTTCTATAGTACATGATCTTGCAC
T
TTTTTTTTTTTTGGCAAATCTCGGTCAATCAATTGACTTTTTTTTCTATTGATTACATTAAGCATTGGTTACATTAAGCAGAAGACCACTGAGAAAACAA
Celera SNP ID:            hCV27077761
SNP Position Genomic:     22174
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19587):
GACTGTCATTATTTCTTGCCTCTTTAGTTTGTTTCCTAACTACTCTCCCATTGTACAGTTACCTCCCCTGCTTTCTGTCTTTTTTATTTTTATTTAATTA
W
TTATTTATTTATTTATTTTTGAGACGGAGTCTCGCTCTGTCGTCCAGGCTGGAGGGCAGTGGCACGATCTTGGCTCACTGCAAGCGCTGCCTCCCGGGTT
Celera SNP ID:            hCV27077834
SNP Position Genomic:     132209
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19588):
CGCATGCCACCACACCTGGCTAATTTTTATATTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCA
Y
CTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCGGCCCACTATTCTGCTTTGTGTTTCTACAGATTTCCCTAGTCTAGACTT
Celera SNP ID:            hCV27939291
SNP Position Genomic:     142810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19589):
TAAGTGATTGTTAAACTAGTGACTAAAGGAGATGCGTTCTTCTATAGTACATGATCTTGCACTTTTTTTTTTTTTGGCAAATCTCGGTCAATCAATTGAC
T
TTTTTTTCTATTGATTACATTAAGCATTGGTTACATTAAGCAGAAGACCACTGAGAAAACAAAGGCAGTGAAGAATTGATGCTGCTAAGTTCAAATTAGA
Celera SNP ID:            hCV27077762
SNP Position Genomic:     22212
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19590):
ATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGAATGGCATTGAAACTGTAAATTACCCTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTAT
M
CATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGACGTCCTTTGCATCCCTTGTAA
Celera SNP ID:            hCV27077835
SNP Position Genomic:     144996
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19591):
CTATGATCATGCCACTGCGCTCCAGCCTGGGCAACAGAGGCAAGACCCTGCCTGTTTCATATATATATATACGTATATATATATATAATATATAAATACG
T
ATATATATATAATATATAATATATATAATATATAATATATATAAAATATAATATAATATATTTTATATATATTATATATATATATGGGTGAAAGTTGTGT
Celera SNP ID:            hCV27077763
SNP Position Genomic:     25165
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19592):
AAAATAGGATGAGTTGCCTCACATAATAGTATTTTTCCTATCATCACACAAGCTTAAGCAGAGTCTTGGGTGATACTGTAGGGGGGCAGTCACATGCTTC
R
TAGTGGATTGGGCTGGATTCACTTACTTTCTTTTCTTTGTCTCTTGCTGCTTTCTTCTGACTTTTGAGCTTATAAAAATGTATGTTAGAAGCAGTGTTGA
Celera SNP ID:            hCV11193265
SNP Position Genomic:     110322
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19593):
ATGTTCAGAAAACCTTTCTTTGTGAACATTTCAACTATATATAACTAAGAGGGGAGAGCAGTACGATGAACCTGCATTTCCCTGTCACCCAGCTTCAACA
R
CTACCAATTTGTGGACAATCTTATTTCATCTGTATAACCTTTGCCTTTATTCTCCCCAAACTTTTGAAGCAGCTTCCAAATGTATTTCACCCATAAATAT
Celera SNP ID:            hCV15997632
SNP Position Genomic:     113772
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19594):
CTTTTTCCTGTGGGCATTTGGTGCTATAAATTTCCTTCTACACACTGCTTTAAATGTGTCCCAGAGATTCTGGTACGTTGTCTTTGTTCTCATTGGTTTC
R
AAGAACATCTTTATTTCTGCTTTCATTTTGTTATTTACCCAGTAGTCATTCAGGAGCAGGTTCTTCAGTTTCCATGTAGTTGTACAGTTTTGAGTGAGTT
Celera SNP ID:            hCV27077836
SNP Position Genomic:     146570
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19595):
TATGATCATGCCACTGCGCTCCAGCCTGGGCAACAGAGGCAAGACCCTGCCTGTTTCATATATATATATACGTATATATATATATAATATATAAATACGT
A
TATATATATAATATATAATATATATAATATATAATATATATAAAATATAATATAATATATTTTATATATATTATATATATATATGGGTGAAAGTTGTGTA
Celera SNP ID:            hCV27077764
SNP Position Genomic:     25166
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19596):
TGCCAGTCTGTCTTTTAATTGGGGCATTTAGCCCATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTTATTATGATGTTATTTGGTTA
W
TCTGCCCGTTAATTGATGCAGTTTTTTCCTAGCATTGATGGTCTTTACAATTTGGCATGTTTTTGCAATGGCTGGTACCGGTTGTTCCTTTCCATGTTTA
Celera SNP ID:            hCV27077837
SNP Position Genomic:     147406
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19597):
AGTACCTCGGGGGACAGAGACTATGTCTGCTTGATTGTCCTGGTTCCCCCAGCACCTCACACAGCACCTGGCACCTAGGGGGTGCTCTATGAATGTTGGA
M
GCAAGATTGGCCAGATTGGCTCTCATGGCAGGCAGGCCCAGCAGTGCGCATGAGGGAGATAGTGATGGCTTAGAGAAATGTGAGTTCACATGGCATGATT
Celera SNP ID:            hCV27077765
SNP Position Genomic:     29603
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,10)      total(A,1|C,10) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19598):
GTCTGTTGGAGTTTGCTGGAGGTCCACTCCAGACCCTGTTTGCCTGGGTATCACCAGTAGAGGCTGCAGAACAGCAAATATTGCTGCCTGATCCTTTCTC
Y
GGAAGCTTCGTCCCAGACAGGCACCCGCCTGTATGAGGTGTCTGTCGGTTCCTACTGGGAGGTGTCTCCCAGTTAGGCTACATGGGAGTCAGGGACCCAC
Celera SNP ID:            hCV27077838
SNP Position Genomic:     148708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19599):
GAGTTCGAGACCAGCCTGGCCAATATGGTGAAACCCCATCTCTGCTAAAAATATAAAATTAGCCAGATGTGATGTTGCGCACCTATAATCCCAGCTACTT
R
GGAGGCTGAGGCAGGAGGATTGCTGAAACCCAGGAGGCAGAAGTTACAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGTAAGACTC
Celera SNP ID:            hCV27077766
SNP Position Genomic:     29946
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19600):
TTGGCTTAATTCTCATCTAACATCTGATGCAGGTGTGTCCATTCAGCTTGCGTGTGGTCAGTGTTGTTGGAATAACATATTTGCTGCCCCAGGAGGAGCA
K
CCCTTGTGCCACCCAATAGTAGAAAGGTAAAAAAAATTTTTTTTTAAATTACCTTTTAGAATCTCACACATATTCATGTGTGATTTCAAGTGATGTCTTA
Celera SNP ID:            hCV27077839
SNP Position Genomic:     156238
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19601):
GCGGTTGAGGATGTGAGTTGAAGGTCAGACCACCCTTGGTTTGGATCCAGCTCTGTTCCTTTCTGGCTGTGTGACCTTGGGCAAGCCACTTAGCCTTTCT
S
GGCCTTGGTTATCTATTCTGTGAAAAGGTAATATCCACCGTTCCTACCTCCTGGAGTTGACTAAGGTGGTCAGTTGCAAAGTATAATTTAAGCCAGGCTT
Celera SNP ID:            hCV27077767
SNP Position Genomic:     30920
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,9)      total(G,9|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19602):
CTCAGCCTCCCTTATAGCTGAGATTACAGGTGTGCACCAGTATGCCCAGGTAATTAAAACAAATTTTTTTTTTTTAGAGGCAAGGTCTTGCTATGTTGCC
M
AGGCTGGTCTCAAACTCCTGGGCTCAAGTGATCTTCCTACCTTTGTCTCCCAAAGTGCTGGGATTATAGGCATGAGCTACCATGCCTGGCCCAAAAGTCC
Celera SNP ID:            hCV27077768
SNP Position Genomic:     32482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,7)      total(A,1|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19603):
CTTTTACTCAGTGTCTACACCACCTCTCAGCTCAGCTCTTATCTAAGTTGGAAGACTCAGTGCTGAAGGTTTCTGGTCCTTTTGTTCTGCTGGGATGATT
Y
TCATGGACTCTCTGGGGTATCCTGGTAGGAGGTGAACTATAAATTCCCAGAATGTGAGAGGAGGCAGAACAGATCATCTCACTTAAGTGTTGAAAAGTCA
Celera SNP ID:            hCV27077769
SNP Position Genomic:     32684
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19604):
GAAGGAAACCCGGCGCTCGACGGATCTTGGCAAGACAGCCTTGCTCTCTAAAAAGGCTGGTGGGAGCTCTGTTAAGTCTGTCTGTAAGAACACCGGGGAC
R
ACGAGGCAGAGAGAGGCCACCAGCCTCCAGCTTCCCAGCAGCCAAATGCAAATACAACGGGAAAAGAGCAGCTTGTCACCAAGGACCCTGCTTCTGCCAA
Celera SNP ID:            hCV25743979
SNP Position Genomic:     175063
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,1|G,39)   total(A,2|G,72)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,37)   total(A,2|G,74)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19605):
CAAAGCTAGGAGGCTTCCAAGCTTATGATGCTAGTGGGTTTAAGGCCTCAGATGGAAAGGAAATGGAGTGCTGGGCATGGAGGTGAGATGTCCAGAGCAG
M
CAAACTGCTCTAAACCCTCCATAGATTGATATGATTTTGCTGGGATGAAGAACACCATCAAAATGATGCTAGTAGCCTCTGGGCAAGAGGAATATAATTT
Celera SNP ID:            hCV380800
SNP Position Genomic:     58750
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19606):
TTATCACTTAAAATATTGCCTATCCTTACCTCCTCCCTCACTACAATCCAAAAAAATAAAAAATGAAATAAAGAAGAAGGAAAGAAAGAAAAAAATTAGC
R
AGAGTTTGTTTTTAAAATCTAGGTCCAGGTTCAATTGCTTGTCAAATAAAACTGCAGCCCTCCTCTGTGAATGTTCAACAGAAGCTGTGATTCTGGAAGC
Celera SNP ID:            hCV380801
SNP Position Genomic:     58957
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,9)   total(G,9|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19607):
AGAAGAAGGAAAGAAAGAAAAAAATTAGCGAGAGTTTGTTTTTAAAATCTAGGTCCAGGTTCAATTGCTTGTCAAATAAAACTGCAGCCCTCCTCTGTGA
R
TGTTCAACAGAAGCTGTGATTCTGGAAGCTCCTATCCCCAGCTCTCAGGGGTACCTCTGCCCCATCAGCCCCTTCCCCAGAACCGACCTTGACCCCAATG
Celera SNP ID:            hCV380802
SNP Position Genomic:     59028
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19608):
CAGTGAGGGGTGAGTGGCGCATGCCTTCTGCATCCTCATCTTCACGCCTAGTATTGTAACAGAAGTAGCTTGATGTGGACACTTAATTTTTTATAAATAC
T
TTTTTTTTTTTTTTTTTTTTGCGACGGAGTCTCGCTCTCTCACCAGGCTGGAGTGTGGTGGCGTGATCTAGGCTCACTGTAACCTCCGCCTCCCGGGTTC
Celera SNP ID:            hCV27077840
SNP Position Genomic:     165032
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19609):
AGTGAGGGGTGAGTGGCGCATGCCTTCTGCATCCTCATCTTCACGCCTAGTATTGTAACAGAAGTAGCTTGATGTGGACACTTAATTTTTTATAAATACT
T
TTTTTTTTTTTTTTTTTTTGCGACGGAGTCTCGCTCTCTCACCAGGCTGGAGTGTGGTGGCGTGATCTAGGCTCACTGTAACCTCCGCCTCCCGGGTTCA
Celera SNP ID:            hCV27077841
SNP Position Genomic:     165033
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19610):
TTTCACTTTCTGCTTGGGTAATGGCAGGATAGACCTTAGTTTCGACAGGGACCCAGGTGGTGTGGGAAGGACCGGGCAGCCACAGTACTGGGAGCTGGAA
R
GAGTGAGTGCAGCTTCTATAATGAGCATAGTGACTCAATCTGCCAACAAGTCTCAGTCTGCAGCCAGCATTTCGATCACTGTAATCTGCTTCTAGTGGTG
Celera SNP ID:            hCV27077842
SNP Position Genomic:     172001
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3|-,4)   total(G,3|A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19611):
GTGTTTTATCTGTAAAGATGTTTATTTATTTAGAACCCCTGCCCTCCCACCAAAGCCTCCTGTGCTTTTGTTTTGTACTTTTTTGAGTCACGTGCCCGAC
K
GTGTGTGTGTGTGTGAGTGTATGCGTGTGTGTGTCTAATTCAATTGCAAATTGTTCAAAGCGTCGCCTTATTCTGCCATTGAACCAAATAACAGCCATAG
Celera SNP ID:            hCV27077843
SNP Position Genomic:     175434
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2|-,9)   total(G,2|-,9|T,2) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:19612):
GGTAGGAGGTGAACTATAAATTCCCAGAATGTGAGAGGAGGCAGAACAGATCATCTCACTTAAGTGTTGAAAAGTCAGATGTCTACAGGAGACAGTGATG
K
AAGTGACATACTGGAGGGGTAGTGAAAACTGTGGGAGCCAGAGAACACCTGCTTCATTTATTGGGGTAGCTACACCCACTGTTTATCCTGCAGGAAATAT
Celera SNP ID:            hCV27077770
SNP Position Genomic:     32808
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,7)      total(G,4|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19613):
ATAATATGCTGGACCAGTGGGAACGGATGTGGGAGTATTTGTGGTGTGCTAAAATACTGTAATTATCTGTGAGGCTGCCTGACACGCTTTTGCAATCTTG
T
TTTCATCATTCATTCTGCAAACGTTTATGGAGGGCCTTCTTTGAGCACAGAGGCAAAACTGAAAGCTTCAGGGATTTGCTGTAGCTGAGGAGCCCTGGGA
Celera SNP ID:            hCV27077844
SNP Position Genomic:     178523
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:19614):
AGGGGTAGTGAAAACTGTGGGAGCCAGAGAACACCTGCTTCATTTATTGGGGTAGCTACACCCACTGTTTATCCTGCAGGAAATATGGGCTCAATGTTGC
Y
GTATCGTTTCATTTTTTCGAGAGGCTGGGAATCTGGATTTTCTTGTGAAATTCCTTGACTTTCGAACACCATCCAGGCTCTTGAAAAACCAGGTATGCCA
Celera SNP ID:            hCV27077771
SNP Position Genomic:     32923
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19615):
AACACCTGCTTCATTTATTGGGGTAGCTACACCCACTGTTTATCCTGCAGGAAATATGGGCTCAATGTTGCCGTATCGTTTCATTTTTTCGAGAGGCTGG
R
AATCTGGATTTTCTTGTGAAATTCCTTGACTTTCGAACACCATCCAGGCTCTTGAAAAACCAGGTATGCCACCTGGAAGGCGACTGGGAGCTGCAAATTA
Celera SNP ID:            hCV27077772
SNP Position Genomic:     32952
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19616):
AAAGCTCAACAGAGTAGAATGCTACCCTGATCATGAGAGGAGGTAAACAGCATTGTCACTCAAAATTCAAAATCCTTATTCAATAATTTTTTTTGCTTTT
K
TTTTTTAGAGATGAGGGTCTCACTCTGTCACCCAGGGTGGAGTGCAGTGGCACAATCAAGGGTCACTACAGCCTCTACCTCCCGGGCTCAATGGACCTTC
Celera SNP ID:            hCV27077773
SNP Position Genomic:     34968
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19617):
TGTTTTTATTTTTTTGGTTGGGGAGATGGGGGTAAAGAGAAAAAGAATGGCAGATTTGTGGGAGGGAAGAAAATTATTTTCTCTTTGAAGAAAGAATGAA
M
ACGGGTAGAGGGGGAAGGAATTAAGAGGTTTGAGGCAGGTGGAAACTAGCCATCTCAACTGGTATAATCCCTTTCTGTTTGTATTGCATTTCATCTGCTG
Celera SNP ID:            hCV27077774
SNP Position Genomic:     35434
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,9)   total(A,9|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19618):
GCTGCTGCTTCTGCCAGGGAGGGGACAGCAGGGATGGCCAGGCTGGGGATGGAACAGGTGGATGGTTTTCTTCTTGAACCTGTGCAGACCTGGGAGGGAC
T
TTTTTTTTTTTTTTCTTGGAGATGGAGCCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCTCCCGGGTGTA
Celera SNP ID:            hCV27077775
SNP Position Genomic:     37606
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19619):
GCCTCCTGAGAGCATCTGGGGGCCCAGAAAGACCATTTTGATGGTTTCCCTTGTCCAGTGTTGTCCTTTTCATGGGGCACCATGAGGCAGTGAAGCCCCA
S
ATTTCATCTGTCATACTTCCATTCCGGTTCATCATCTCGCTGTCTCAGCTTAAATAGCACCTCCTCAGGAAAGCCTTCCTTGAACCTCATCTTCCCCATT
Celera SNP ID:            hCV27077776
SNP Position Genomic:     42486
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,6)   total(G,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19620):
TTCTTTCTCTCTCTCTCTTTCTCTCTCTCTCCCTCTCTCCCTCCCTCCCTCCCTCGCTTCCTTCCTTTTTTTTTTTTTTTTTTTATGGAGACAAAGTCCC
R
CTCTGTTGCCCAGTCTGGAGTACAGTGGCATGATCACAACTCACTACAACCTCTCTGCCTCCTAGGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTA
Celera SNP ID:            hCV11193277
SNP Position Genomic:     74353
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19621):
CCTGGGTGACAGAGTGACACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAAACATCATTATGAAAGAATGAAATTAAA
A
TGATAACAGATACCATTTTTCTCTTGACAGATTAGCAAAGATTAAACATTAATACATTATGTTGGTTAGAGTGTGGGGAAATAGCTACTCTCATATTGCT
Celera SNP ID:            hCV27077777
SNP Position Genomic:     43737
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19622):
CTGGGTGACAGAGTGACACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAAACATCATTATGAAAGAATGAAATTAAAA
T
GATAACAGATACCATTTTTCTCTTGACAGATTAGCAAAGATTAAACATTAATACATTATGTTGGTTAGAGTGTGGGGAAATAGCTACTCTCATATTGCTG
Celera SNP ID:            hCV27077778
SNP Position Genomic:     43738
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19623):
TGGGTGACAGAGTGACACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAAACATCATTATGAAAGAATGAAATTAAAAT
G
ATAACAGATACCATTTTTCTCTTGACAGATTAGCAAAGATTAAACATTAATACATTATGTTGGTTAGAGTGTGGGGAAATAGCTACTCTCATATTGCTGG
Celera SNP ID:            hCV27077779
SNP Position Genomic:     43739
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19624):
ATAACAGATACCATTTTTCTCTTGACAGATTAGCAAAGATTAAACATTAATACATTATGTTGGTTAGAGTGTGGGGAAATAGCTACTCTCATATTGCTGG
K
GTGGTTCTCAATTGCTATATCCTCATTGGGGGACAATCTGGCAAACACATGTCCTGTTTGACAAACTTCTAGGAAGTAACTGGGCAAATACACGTCACAT
Celera SNP ID:            hCV27077780
SNP Position Genomic:     43840
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19625):
AACAGATACCATTTTTCTCTTGACAGATTAGCAAAGATTAAACATTAATACATTATGTTGGTTAGAGTGTGGGGAAATAGCTACTCTCATATTGCTGGTG
K
GGTTCTCAATTGCTATATCCTCATTGGGGGACAATCTGGCAAACACATGTCCTGTTTGACAAACTTCTAGGAAGTAACTGGGCAAATACACGTCACATTG
Celera SNP ID:            hCV27077781
SNP Position Genomic:     43842
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19626):
GAATGTGTGAGAGATGTGACTCATTTTCCCCATCTTGCTCCTGATCAAATGACAAACAAGGCCCCTCATCCTGGTTGACACACATGGACATAGAACTAGA
C
TCTCTGCCTTCTGTTTTCTCTCGGAATCTTCTCACCTTCATCTCTATCCTGACTTGACATTCTTTGTGCCATGTCTGTCCCCAAATTCCTCCACTTTTGA
Celera SNP ID:            hCV27077782
SNP Position Genomic:     49378
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19627):
AATGTGTGAGAGATGTGACTCATTTTCCCCATCTTGCTCCTGATCAAATGACAAACAAGGCCCCTCATCCTGGTTGACACACATGGACATAGAACTAGAC
T
CTCTGCCTTCTGTTTTCTCTCGGAATCTTCTCACCTTCATCTCTATCCTGACTTGACATTCTTTGTGCCATGTCTGTCCCCAAATTCCTCCACTTTTGAA
Celera SNP ID:            hCV27077783
SNP Position Genomic:     49379
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19628):
CCAACTCTTAGGGAGACATGATTCCAGTTATTTACTTTTCACAAGAACCAATCTGTCTGCTAACATATACAGATAGGTGAAAGAGGCTTAGTGTTTTATT
K
TATTGTATTGTATTGTATTTTTATTTCTGAGATAGGGTCTTGCTCTTTTGCCCAGGCTGAAGTGCAGTGGCGCAATTATGGCTCACTGCAGCCTCAACCT
Celera SNP ID:            hCV27077784
SNP Position Genomic:     49674
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,14)      total(G,2|T,14) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19629):
TCCATAAAAAATAGAAAAATTATCCAGGTGTGGTGATGCATTCTTGTAGTCCAAGCTACTTGGGAGGCTGAGGTGGGAAAATTGTTTGAGCCCAGGAGTT
M
TAGGCTGCAGTGAGCTATGATTGCACCACTCCCACCTGAGTGACAGAGTGAAATCTTGTTTCTAAAACAAACAAACAAACATCTATATAAAGAGTTGATT
Celera SNP ID:            hCV27077785
SNP Position Genomic:     51840
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,18)      total(A,1|C,18) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19630):
ATACAGGGTGGTCCCCAGGACCAGAGAGGACCCATGTCTGTGACTTCGATGTGCCCCATCAAGATTTTTAGGCAGTATTCGGAACCTGCAGAGTTATGTC
T
TTTTTTCCCACCCTGAACCCATGAAATATGGGCTAAAATTGGAAGCTGGGGCAAAGCTAGGAGGCTTCCAAGCTTATGATGCTAGTGGGTTTAAGGCCTC
Celera SNP ID:            hCV27077786
SNP Position Genomic:     58598
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19631):
GAAGCTCCTATCCCCAGCTCTCAGGGGTACCTCTGCCCCATCAGCCCCTTCCCCAGAACCGACCTTGACCCCAATGGATCAGTCGACAATGTCAGAGGAG
C
CCCCAAGTGAAGGAAGGGAACTGATCTTGCTCTTTGCAAAACAGATAAAATATTCATATAAATAATATTTCAACTTCAAAGCAAAACAAGACTGTAGCTA
Celera SNP ID:            hCV27077787
SNP Position Genomic:     59153
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,8)   total(C,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19632):
GTTGAAAGTGGGTAGGTCATCGTCTATATCCAGGGCTGGATTGTCCTGGCCCTGTGGGCTACGGGGAGCTTCTGGACATGGGGGAGCCTGTTTCCAGGCC
Y
ACCACTCCTTGGCTTTCTGCCACTGGCGGCGGGCAATGATAGAGAAGAAGTCAATGAAGAAGACCTCGATGATCTCGATGACGCAGACAACAGAGCAGCT
Celera SNP ID:            hCV27528860
SNP Position Genomic:     28086
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;INTRON


Context             (SEQ ID NO:19633):
GCATTATTGGAGAGAAATTTAAAGAAAATCCTCTAAAAAATCTCAGCTGCTTCTTCTAACAATATATGCTCATTGCAAAGAATTAAAACAATAAACTGTG
C
CCCCCCCTCCCCAAATAAGCATGGCTAACAGTTTGGTTATTATTTGGTGTGTGTGTATGTGTGTGTGTCCACACACACATATTAGTTTTATATATATACA
Celera SNP ID:            hCV27077788
SNP Position Genomic:     62333
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19634):
ACACACACTGTTCAAATTCTATGTTTGTTTTGAATGACAATACACAGTTATATTCTCACTGCAAAATAAAGCCAGCTTTTTCTTCTTTTTGTCTTTTAAA
W
TATTTATTTATTTATTTATTTTGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAATGTAGTGGCATGATCATGGCTTACTGCAGTCTCAACTTCCTGTG
Celera SNP ID:            hCV27077789
SNP Position Genomic:     62559
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,4)   total(A,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19635):
AAAAAAAAAAAAAAAAAAAAGAAGAAAGAATGGTTCAGTATTCACTAAGTCAGTGTTTGTGGCAACTTTATAGAACATAGCTATCCACAACAGCAAGAAT
R
GGCCAGGCGTGGTGGCTCATGCCAGTAATCCCAGAACTTTGGGAGGCTGAGACAGGCAGATCACCTGAGGTCAGGAGTGCGAGACCAGCTTGACCAATAT
Celera SNP ID:            hCV44024
SNP Position Genomic:     70944
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19636):
GTGACAGAGCTAGACTCTATCTCAAAAAAAAAAAAAAAGAAAAAAATTGTGCATGTCCGGTTCTAAAGGTAATCTGACCATGATATCACTCATCTATACA
S
ACTGAATAGGCTGGCTGGACAATGTCCCTTTCACTCCTTCATCCTCCTTACTGTATTCATTTCAACATTGTGAATGGCATTTCATGGGAGATGGGCATCC
Celera SNP ID:            hCV44025
SNP Position Genomic:     71304
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19637):
GAGGACGGGACTCTGAGGACGGGCGTGCTGGAGGGGCAAAGAAGAGAAGCAGGTGAGCTGGCAGGCACTAGCCGGCTAGTGTGTCCCTGGAGACCACAGT
Y
TGGGAAACACCAGTCCATGCGCCCTTAGAGACCTCCTTCCTCTGTTCCTCTGTGGCTTAGGCACTTTGCATTCTGAATCCTTGGCCCCTTTTCCACGGGA
Celera SNP ID:            hCV27854830
SNP Position Genomic:     57199
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,34|T,2)   total(C,66|T,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19638):
TGGGTGACAGAGTAAGACTCCATAAAAAAAAAAAAAAAAAAAAAGAGGATTTGGCCATACACATACAGAAGCAAGTGAGAAGGCTGGGGGCTGTGGTGGG
M
AGAGACAGAGGAACAGGGTAGAGGTAACTTACTTGTTGAGCTTTTTGTTTACTTGCCGGCCTTGGTCCCAAGTGAGAACAGGCAGCAACCACTTCTACAA
Celera SNP ID:            hCV25474289
SNP Position Genomic:     30127
SNP Source:               Applera
Population(Allele,Count): african american(A,24|C,10)   caucasian(A,30|C,8)   total(A,54|C,18)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19639):
TAACAACGAAACAAATCGAGGGAAAAACTCTTGCTTTCTGCACTTTCGCCCCATCTACCAGTCTTTGTAAAGGGCAATATTTTAACACTAATGTTTCTCA
R
GTATATACTCAGCTAGTCTAGGATGGTTGCACACCAGTAAATGGATTAAAGAGGAAGGTGCCATGTGGGTGACTGTGTCATTTCTCCTACTGCCACAGAT
Celera SNP ID:            hCV17427
SNP Position Genomic:     175888
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,17)      total(G,17|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:19640):
TTAGCAATTGTACATATTTCTTTCTAGAGAACTCTAATGACTTTCTTTGGATATGAGGGTTTTGAAACCTGTGAACCAGAAAAGCTACCATTAGTGCGTA
R
AAGGAGGAAGGAGCTGACTCGTGTTTCTTCTGAGCAGGACTTGTCCTTACTGTGGATTGTGGGTGGCACCAGGAGCTCTAAAAACTGTGACTCTAACAAC
Celera SNP ID:            hCV17428
SNP Position Genomic:     175694
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,16)      total(G,16|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:19641):
CCATAGGCAACGTCCTCTCCTTCTTGAAGCATCAGTGTTCAGATTTATAAAATATACCTAGAATCTACTTCTCCCCACCTCTGGGGCCACCACCATGCTC
Y
AATTGATCATTGTCTCTCACCCGAATCATTGCCATAGGCTCCTCACTAATCTTGCTAATTCTGCCCTCCACAGCCTCTTGTCAATAAGCCAGTCAAAGAG
Celera SNP ID:            hCV27077790
SNP Position Genomic:     63422
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19642):
CCTATCCACACCCCCCATCCTCATTCATGTGGTTCAACTTAGGTTGACCCCCATCTCTGGCTCTAGCAAATCAGCTTATCTTGTCACTCAGGTTATAGTC
T
TTTTTTTTTTTTTTGAGATGGAATCTCGCTTTGTCGTCCAGGCTGCAATGCAGTGGTGCTATCTCGGCTCACTGCAATCTCCGCCTCCTGGGTTCAAGTG
Celera SNP ID:            hCV27077791
SNP Position Genomic:     64809
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19643):
ATCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACATGTGCACACCACCACACCCGGATAATTTCTTTTTTTTC
T
TTTTTTTTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTAACTTCAGGTGATCCACCCACTTTGGCCTCCTAAATTGCT
Celera SNP ID:            hCV27077792
SNP Position Genomic:     64986
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,8)   total(-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19644):
GCATCAACTACATATTAAATAAGGTGACTTTAAACAGAAACACACATAAAGCAAAGTTACATATTGATCAGTTGATGAAAATGTTGTGACCAGAGGCTCT
Y
GGAAACCTAACTCTGTATTTTGTCTAGAAGCAATGGTTGACCTTCTCCCCATTTTAACCTGAGCTGCCTAATGCACAGTGGGGCTGGGGAGGGGCTGGGG
Celera SNP ID:            hCV27077793
SNP Position Genomic:     70314
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19645):
TAAGTGGCACTTAACGGGAGTCATGCTTCTGTTTTCAGCTTGCCCCCGATGATGCCTGGCGTTGCCCACACTGTAAGCAGCTGCAGCAGGGAAGCATTAC
R
TTAAGCCTCTGGACTCTGCCTGATGTGCTTATTATACATCTAAAGAGATTTCGGCAGGTATGGAAATCCTTTATCCTCAGGAACAAACAAGTTGTGACAA
Celera SNP ID:            hCV25741604
SNP Position Genomic:     160868
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:19646):
TGAGCAAAAGCATCCTCACAGTTGATCAATAACTTTTCTTGTTTTTAAACCATCATGTCTTCATTTTACATTGGAATAAAGCGAGTTTTTGAAACCTGCC
A
AAAAAAAAAAAAAAAAAAAAAAGAAGAAAGAATGGTTCAGTATTCACTAAGTCAGTGTTTGTGGCAACTTTATAGAACATAGCTATCCACAACAGCAAGA
Celera SNP ID:            hCV27077794
SNP Position Genomic:     70841
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19647):
GAGCAAAAGCATCCTCACAGTTGATCAATAACTTTTCTTGTTTTTAAACCATCATGTCTTCATTTTACATTGGAATAAAGCGAGTTTTTGAAACCTGCCA
A
AAAAAAAAAAAAAAAAAAAAAGAAGAAAGAATGGTTCAGTATTCACTAAGTCAGTGTTTGTGGCAACTTTATAGAACATAGCTATCCACAACAGCAAGAA
Celera SNP ID:            hCV27077795
SNP Position Genomic:     70842
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19648):
GCCTCACAGTGTTTCCAGTACTTCTTGGTCTATAGATATTTTTCCTTATCCCATTTAGATGGCAAGTTTTCATGAAAATGTGATATAATTATGCAAAAAA
M
GTTTAAAGTTTAAAGTGAAAAGAGAATCTTTGAAGAGATTCCAGGTTTTCTCCAGACCATGCTAATCAGGTTTCCCCCCTCAATTTAATTCAAGATATTT
Celera SNP ID:            hCV27077796
SNP Position Genomic:     75341
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,9)      total(A,3|C,9) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19649):
TGACTGGCTCACTGCAGCCTCAAACTCTGGGGTTCAAGTGATCCTCTTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGTGCCACCGCACCCAGC
T
TTTTTTTTTTTTTTTTTTTTTAATAGAGACAGGGTCTCACTATGTTGCCTAGACTGGTCCTGAATTCCTGGCCTCCAGCCATCTTCCTGCCTTGGGTTCC
Celera SNP ID:            hCV27077797
SNP Position Genomic:     78822
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19650):
TGTAGAGATGGGGTTTTGCCATGTTGCCCAGGCTGGTCTCAAATTCCTGAGCTCAATCAATCTGCCCGCTCTGGCCTCCCAAAGTGCTGGGATTACAGGC
R
TAAGCCACCACATCCGGCCTCCATTTCTTTCTTTATGAGTTCCTGAGCTGTTAGAATTACACAAGCTGATGTGTGTGAAGTGCTTAGCAGAATCCCTGGC
Celera SNP ID:            hCV31505
SNP Position Genomic:     24357
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19651):
GAGTTCGAGATCAGCCTGGCCAACGTGGCAAAACCCCGTCCCTACTAACAATACAAAAAATTAGCCAGGCATAGTGGCACACACCTGTAAACCCAGCTAC
K
TGGGAGGATGAGGCAGAAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATACCATTGCACTCCAGCCTGGTCAACAGGGTGAGAC
Celera SNP ID:            hCV27077798
SNP Position Genomic:     80993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19652):
TGAGGCAGAAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATACCATTGCACTCCAGCCTGGTCAACAGGGTGAGACTCTGTCTT
A
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGACCTCATGGGGACTTGGTAAAGAGTGCTGAAGATTACCTGGGCAAAAACAAAAATTTGGAAGATG
Celera SNP ID:            hCV27077799
SNP Position Genomic:     81102
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19653):
AGAGGCTCACACTTGCTGAGTTTCCCAGCCTGCTTTTCCATGCACTCATGCTGGGGGTTCTGGTGCTATGCTGCAAACCCATGGTACACAGTTTTTTTCT
K
GTTAGTGTCAAGCTCTTTAGTATACTGATACTTCAGTGTTTTCCACAAAGCACACTGACTTCAGGGTGTCCCTTGGAAAAAATGAAATTGTGTAGGTCAC
Celera SNP ID:            hCV105408
SNP Position Genomic:     100430
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19654):
TCACTTGAGTTTTAGCAAAGCTCCACACCTCTGAGGGAGAAAGTTGATAGAATCATGAAGTTTTAGACTTGGAAGCAGACTTGGATGTGGTGTGAGTAGT
Y
CCTAGCCTTTCAGGATGTGGGAACTGAGTTCACCCACTAGCTAGAGGTTGAGGGAGCAGAACCAGAATTCTGACTTCCACTGACTGTGAACTCTGTGTAC
Celera SNP ID:            hCV105409
SNP Position Genomic:     100705
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,11)      total(C,2|T,11) ;(T,-|C,-)   Caucasian(C,21|T,53)   African-American(C,13|T,65)   Asians(C,13|T,63)   total(C,47|T,181)
SNP Type:                 INTRON


Context             (SEQ ID NO:19655):
GACAGGGACTGGGGTAAAAGCATATGGATGGAAATATAGAGGGGCAGCAGGAGGGAGTTCCTTTATGATGATAGACCAGTTCTGTATCTTGATTGCAGTA
Y
GGTTACATGAATCTATACATGAGTTTGGATTGCACAGACACCCCTCCCCACCCCACACATAAATGAATGCATGTTAAAACTGGCGAAATAAAATCTGTAG
Celera SNP ID:            hCV318458
SNP Position Genomic:     76913
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,11)      total(C,3|T,11) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19656):
CCAGCCTCCAGCTTCCCAGCAGCCAAATGCAAATACAACGGGAAAAGAGCAGCTTGTCACCAAGGACCCTGCTTCTGCCAAACATTCCCTGCTGTCCGCT
Y
GCAAATCCAAGTCTTCCCAACTAGACTCTGGAGTTCCCTCGTCTCCGGGTGGCAGGCAGTCTGCAGAGAAATCCTCAAAAAAGTTATCTTCTAGCATGCA
Celera SNP ID:            hCV25772357
SNP Position Genomic:     175183
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34|T,4)   total(C,71|T,5)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19657):
CACATTAAGTAAAATCATTTGTTTAGAAAATAATATGTGGCTTCCCTCTCCACTTCCCTGGTTCTATAGGGCATTAAAATCTTGTGGACCAGGTGGCACT
R
CTCATGTGAAATTAGTAGTCGAGTGGGACAAGGAGACAAGAGATTTGTGAGTATTTTTAAAGTTAGTGTTTATAGAAACATTGTTTTAATTATCATTTTT
Celera SNP ID:            hCV25746480
SNP Position Genomic:     157725
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19658):
TGTTTAGGACATTTTGAGTTGTTTATCTCACTCAAAACCAAAAAAGTCCCAACTAATATAGAGAATAAAAATCCTATCTTCCCACTTGGATGTGGTGATG
Y
CTTCTTCTGTTTCTTAAAGTGAGTGTATTTCATATCTAGTCCCAGATGAATATCTACAAATCTGGGCAACATTTTTATATGCCAAATGACAACAGGGAGA
Celera SNP ID:            hCV62906
SNP Position Genomic:     65540
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19659):
GGAAGGCGACTGGGAGCTGCAAATTAGCAGCCCCTGATCCAATCCCACCTCCCCTTGTGGTTGCTGAGGGGAACCCAGCTGGCCCAAGGCCATCATCCAG
M
GAGGGGCACCAGCAGGCCCGGAAGCCATGCTCTTGACCCTTCAGCCAGTGTCTCTCCCAGACCGCTTCTTTCCTGTTCCTCCCTTGCCAAGGCCTACTTA
Celera SNP ID:            hCV11192578
SNP Position Genomic:     33127
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,10)      total(A,3|C,10) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19660):
AAATGACAACAGGGAGAGCCCTGAGCTATTTAAAGGGATAACAGGTAATTAGAACTCTGACAGGGAAATAGACTCCCCTTGATCCTAGCTCTCTCTCTCT
Y
TTTTTTTTTTTAGATGTTGTCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCAGTTCACTGCAATCTCTGCCTCTTGGGTTCAAGTAATTATCGT
Celera SNP ID:            hCV62907
SNP Position Genomic:     65724
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19661):
TGAACACTAAGCTACATTGTGTCTCTATCTAGTCTGGGTATTTCAGATAAAAGGAATCATATATGTGGCCTTTTGCATCTGGCTTCTTTCACTTAGCATG
R
TATTTTCAAGATTAATCATGTTGTAGTATATATCGTACTACATTTCTTTTTATAGCTGCAAAATATTCTATTATATGAATATTTCACATTTTGTTTATTC
Celera SNP ID:            hCV2611300
SNP Position Genomic:     120685
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19662):
GAAATATATGGATCTTTGGCTTAGGGGTAGTTCAAGGCCTTATCTCATTTTTCCTCTAGTCCTTGCCTTTCCCACCTTATTCTGCCTCCTGGGATGTATA
R
GTCACTTTACTTCCACTTCGGAGAGGAGCACCACTCAGCGAAGAACATTGATTGGCTCTTGTGCTGTGGGCAGGGTCATTGTGCTGAGTTCGTATGTCTG
Celera SNP ID:            hCV2611301
SNP Position Genomic:     122551
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19663):
CATCCTGGATGGAAGCCCCCTTTCCCTGTGCCTCATTTCTTTCTCCTCTCCCACCAGGGTCCCCTGCTTATCTTTCTGAGGAGGGAGAGTGGTTTGAAGG
R
TGTGGTGGAGGGCATTCCAGCCCTAGGGGAAGTACATATGAAAGCCTAGAGGCCTTAGGGTCCCTTTCAAGGGCCTTTTGCCCCAGCCAGCAAATATTAG
Celera SNP ID:            hCV2611305
SNP Position Genomic:     126620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19664):
GCTGTACTTCTGACAGTTTGTGTGGCCCAACTCTATGCCATGAGATTGTCATTACCCCTGTTACACCTAAGAGCTCTTCTTGGCAGTTGTCCTCTACTTT
C
TTTACAAAATAAACTCAAAAAACCAGGTTCCCTGCCTTCCTGTCTCTGGCTTATCTGCATGCAGGACTATCTTTACCTCCTTCTCTTCCATCTCTCCTAC
Celera SNP ID:            hCV2611309
SNP Position Genomic:     129060
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19665):
CCTTCAGCCAGTGTCTCTCCCAGACCGCTTCTTTCCTGTTCCTCCCTTGCCAAGGCCTACTTAGGAGGTGGGTCTGTCTCAGCTGTACATTGAGTTCCAC
R
GAAACCTCGGTGTATCAATTAAGCTCTGGTTACAGACGAACTGCAGAGGACTGGAACCAGCCGGCATCATTTGTTCTTGAGGTCTCTGGATGAACCCCAG
Celera SNP ID:            hCV27982773
SNP Position Genomic:     33265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19666):
CCTTGGAATCAGTAGCTCCTAGCTATGGCAGTTGCTTATGAAAGGGGTCTGGGAATGAAGTTGTTCTACTCTGTCCTCACCTTTGTCCTGGGAAAAGAAG
S
CCCCTCAGCTGAGTAGGCCGGATCTGAAGCTAAAGAGGGCTGGAGAAAACTTCAGGGGCAGACACACTTAGCCTCTAGGGAAAAGCTTCTATCTGAAAGG
Celera SNP ID:            hCV11192585
SNP Position Genomic:     23851
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19667):
GGTACGTTGTCTTTGTTCTCATTGGTTTCAAAGAACATCTTTATTTCTGCTTTCATTTTGTTATTTACCCAGTAGTCATTCAGGAGCAGGTTCTTCAGTT
W
CCATGTAGTTGTACAGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAATTTGATTGCACTGTGGTCTGAGAGACAAGTTTGTTGTGGTTTCTGTTCTTTT
Celera SNP ID:            hCV27982774
SNP Position Genomic:     146641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19668):
ACTAGTGAGGGTGGTGGCTCCATTTGAGAAGACCAGGGGTACATTAAGAACAGGCATTCTTGTGACTTACAAATGGAGTCGGTGTCCCTTGGAATCAGTA
R
CTCCTAGCTATGGCAGTTGCTTATGAAAGGGGTCTGGGAATGAAGTTGTTCTACTCTGTCCTCACCTTTGTCCTGGGAAAAGAAGGCCCCTCAGCTGAGT
Celera SNP ID:            hCV11192586
SNP Position Genomic:     23765
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19669):
ACAGGGTTTCCCTGTGTTGTGGCTGGTCTTGAACCCCTAGGCTCAAGCAATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTCAGGCATGAGCCACCA
Y
ACTGGCTGAACTTTGTTTTTGCACATTGGAAAATGGACTAGCTTTCTTATTCTGTTTGTCAATGATATTTGATGCTCCAACTTGCAAGGGAAGACCATAT
Celera SNP ID:            hCV11192589
SNP Position Genomic:     22726
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19670):
CTACCTTCCCTAGAAATGTAATCATAGTGGAATAGTAGTGCTGGAAATTGCAGTGGTATTATTTTGAGGGTAGTAGCAGCAGCAGCAATGGTGGTAGACT
S
GTAGCAATGCTAGTAACGGTAATAATAGCAGTAATAACAATAGCAACTAGCACTTATTGTGTGCTTGGTATGTGTTATGGCTGAATTGTTTTCTGCCTCA
Celera SNP ID:            hCV473494
SNP Position Genomic:     48064
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19671):
CAGAAGAGGAAGAGACATCACAGGCCTCTCTCTGTTGACACACCACAGAGGAAAGGCCATCTGAGGACATGGAGAGAAGACAGCCAGCCTTCTGCAACCC
W
AAGAGAGAAGCCTCACCAGAACCGAGTCTGCCTGTGCCTTGATCTTAGACTTTCTAGTCTCCAAAACTGTGATAAATAAATGTCTACTGTCCAAGGCACC
Celera SNP ID:            hCV473495
SNP Position Genomic:     48382
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,5)      total(A,5|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19672):
ATTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTACCTCTGCCTCCTGGGTTCAAGCAGTTCTCCTGTC
Y
AGCATCCCAAGTAGCTGGGATTACAGGTGCATGCCACCACACCTGGTTAATTTTTGTATTTTTAGTATAGACAGAGTTTCACCATGTTGGCCAGGCTGGT
Celera SNP ID:            hCV447835
SNP Position Genomic:     21507
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19673):
GGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTACCTCTGCCTCCTGGGTTCAAGCAGTTCTCCTGTCTAGCATCCCAAGTAGCTGGGATTACAGGTGCA
Y
GCCACCACACCTGGTTAATTTTTGTATTTTTAGTATAGACAGAGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGCGATCCACCTAC
Celera SNP ID:            hCV447836
SNP Position Genomic:     21539
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,6)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19674):
TTTTGTATTTTTAGTATAGACAGAGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGCGATCCACCTACCTTGGCCTCCCAAAGTGCT
R
GGAATACAGGCATGAGCCACTGTGCCCCGCCAAGTTAAGGATCTTTAGATGTGGAAAATATCTTGAATTATCTGGGTGTACCCTAAATGTAATCACAAGT
Celera SNP ID:            hCV447837
SNP Position Genomic:     21659
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19675):
CACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGCGATCCACCTACCTTGGCCTCCCAAAGTGCTAGGAATACAGGCATGAGCCACTGTGCCC
S
GCCAAGTTAAGGATCTTTAGATGTGGAAAATATCTTGAATTATCTGGGTGTACCCTAAATGTAATCACAAGTGTTTTTATTAAAAGGAGGCGGAAGGAGA
Celera SNP ID:            hCV447838
SNP Position Genomic:     21687
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,13)   total(G,1|C,13) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19676):
GGCAGAGGGTCCCCTGTGCACACGTCTGGGGGCACCCGATCCATGTCCTTAGACCATGGCTGGTGGTCCTGACTAGATCTGTCTTCTCAACCCTGCCTCA
S
AGCTCATCCAGCATCTGGGTATCTGTGAGCTGGTTGGAAAAGGCCCTCTCCAAGCGCAAGGTATTGTATTTGGGGGGCGGTGTGCCGGGCACTTGGGTTC
Celera SNP ID:            hCV11895900
SNP Position Genomic:     27857
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,22)   caucasian(C,7|G,27)   total(C,19|G,49)   
SNP Type:                 SILENT MUTATION;INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,24)   caucasian(C,8|G,28)   total(C,20|G,52)
SNP Type:                 SILENT MUTATION;INTRON;TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(C,37|G,111)      total(G,111|C,37) ;HYP3(C,37|G,111)   total(G,111|C,37)(G,-|C,-)    
SNP Type:                 SILENT MUTATION;INTRON;TFBS


Context             (SEQ ID NO:19677):
GTTTAAAGCAGGCTTTTTGGTCAGAGTATCTGAAAAGCCCAGAGTGGGGCAGAGGGTCCCCTGTGCACACGTCTGGGGGCACCCGATCCATGTCCTTAGA
M
CATGGCTGGTGGTCCTGACTAGATCTGTCTTCTCAACCCTGCCTCAGAGCTCATCCAGCATCTGGGTATCTGTGAGCTGGTTGGAAAAGGCCCTCTCCAA
Celera SNP ID:            hCV11895901
SNP Position Genomic:     27810
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(A,4|C,76)      total(A,4|C,76) ;HYP1(A,4|C,76)   total(A,4|C,76)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:19678):
CCTCCTGCGCATGCCCAGGCCCCATCTTGCGGTTTAAAGCAGGCTTTTTGGTCAGAGTATCTGAAAAGCCCAGAGTGGGGCAGAGGGTCCCCTGTGCACA
Y
GTCTGGGGGCACCCGATCCATGTCCTTAGACCATGGCTGGTGGTCCTGACTAGATCTGTCTTCTCAACCCTGCCTCAGAGCTCATCCAGCATCTGGGTAT
Celera SNP ID:            hCV11895902
SNP Position Genomic:     27779
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(T,4|C,76)      total(C,76|T,4) ;HYP1(T,4|C,76)   total(C,76|T,4)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:19679):
TTATCCCCAGAGGAGACTCTATATCCATTAAGCAATCACTCTCCATTTCTCCTCCCTGCAATCTGCTTTCTGTCTGTGAATTTATCCATTCTGAGTATTT
Y
GTATAAATGGAATGGGACCATATATGACCTTTTGAGTCTGCTGGCTTTGTTCACTTAGCGTGATGTTTTCAGGGTTCATTCATATGTCAGTAGTTCATTC
Celera SNP ID:            hCV510064
SNP Position Genomic:     21068
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19680):
TCTAGTGACGTGCTAATAGTTCAGGTCCCGGGATTTATCTCAGCCTGGACAGTTGTGAGTGTTGCTGCGTAGTACCCGATGGCTCCTCCTGCGCATGCCC
M
GGCCCCATCTTGCGGTTTAAAGCAGGCTTTTTGGTCAGAGTATCTGAAAAGCCCAGAGTGGGGCAGAGGGTCCCCTGTGCACACGTCTGGGGGCACCCGA
Celera SNP ID:            hCV11895903
SNP Position Genomic:     27695
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(C,29|A,118)      total(A,118|C,29) ;HYP3(C,30|A,118)   total(A,118|C,30)(C,-|A,-)    
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:19681):
TCAAGACCCGTAAAGAGCTGCATCAGTCCTCACTCTGGCCTTCACTTGGGCCAGCACCACTGCCTCGGCTCCCAGTCTCTAGTGACGTGCTAATAGTTCA
R
GTCCCGGGATTTATCTCAGCCTGGACAGTTGTGAGTGTTGCTGCGTAGTACCCGATGGCTCCTCCTGCGCATGCCCAGGCCCCATCTTGCGGTTTAAAGC
Celera SNP ID:            hCV11895904
SNP Position Genomic:     27618
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(A,37|G,111)      total(G,111|A,37) ;HYP3(A,37|G,111)   total(G,111|A,37)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:19682):
ACAGAGCCAGAAAGATATTTGCACCTTGAGGACATTTCTTTGAATGCTAGGTTGCTTTTAGGATGTGTTGTGAACATCCATGCAACACCTGTGTTAACAC
S
CACTCATCATTTTCTTTCTTTTCTAAGATTTTTTTCTAGGACAAGGTTTTGCTTTGTCACCCAAGCTGGAGTGCAGTGGCATGAGCATACTCACTGTAGC
Celera SNP ID:            hCV510066
SNP Position Genomic:     20062
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19683):
CGGCTTTGGGGCTTTGGAAGAGTCCTTCCCTCTCAAGACCCGTAAAGAGCTGCATCAGTCCTCACTCTGGCCTTCACTTGGGCCAGCACCACTGCCTCGG
Y
TCCCAGTCTCTAGTGACGTGCTAATAGTTCAGGTCCCGGGATTTATCTCAGCCTGGACAGTTGTGAGTGTTGCTGCGTAGTACCCGATGGCTCCTCCTGC
Celera SNP ID:            hCV11895905
SNP Position Genomic:     27586
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(T,37|C,111)      total(C,111|T,37) ;HYP3(T,37|C,111)   total(C,111|T,37)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:19684):
ACATTCCCAGGGCAGCCACCCTGGGGAATGCCAGGCCGATCATTTCTTGGGGATGCCTCTATGGAGGAGGGGACAGAGCCAGAAAGATATTTGCACCTTG
R
GGACATTTCTTTGAATGCTAGGTTGCTTTTAGGATGTGTTGTGAACATCCATGCAACACCTGTGTTAACACCCACTCATCATTTTCTTTCTTTTCTAAGA
Celera SNP ID:            hCV510067
SNP Position Genomic:     19990
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19685):
ATCCATCTCCTGGGCCCACCCATGCCCCAAAGTGAGGACACTCTGACATAGTCCCAGACCTCCACCACGGCACTCTGATCTCCACCAACACTCCAAGGGC
Y
CTGGGCCAGTTCTCTGCTGCCTGAGGGCATGGAGGACACCTTTCTCCAGTGTCAATGATGAAGAACAGTTTATTCACAAACGGCTCCAGCTTCAGGGCTG
Celera SNP ID:            hCV11895906
SNP Position Genomic:     27282
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(C,37|T,111)      total(C,37|T,111) ;HYP3(C,37|T,111)   total(C,37|T,111)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:19686):
GCTGGGAAGATTCCCCTGGGAATGTTCCTGGAGGAGGGCGAAGGAGCGTTTTAACAATCAGTTCTGTTTCACCTCCTCCTGCTGCTCCTTCCAGCTTGCA
S
CTGGGCACAATGGGGCACCTTCAGTCTGCAGCCCGCAATTAGAGCACATGTCTCGGGAATCCTGCTGATCCAGACCCCTTCTCCACCCTGGGCCTGTCCT
Celera SNP ID:            hCV510068
SNP Position Genomic:     19703
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,5)      total(G,5|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19687):
TTCAAGATTCTGTCCCAGCTGCTTCCTCTTCTCACCATATGTTCCCTGGGTTCTGTCTCATGTGATAGGTGTGTGCTGCTCTGATTCAAATTTCCAGCTC
R
GATCTCTTTCCTGAGCACCAGATTTAACCTCACTTGGGATCATGTTGATACCTCAAATGCAACTTGTTCAAAACTGTGGTCCCCTAATCTCTTCCTCTAT
Celera SNP ID:            hCV2611310
SNP Position Genomic:     130060
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19688):
CTCAATTTATTCATCCACAAAATTGAATAACTAAATCCATCTCCTGGGCCCACCCATGCCCCAAAGTGAGGACACTCTGACATAGTCCCAGACCTCCACC
W
CGGCACTCTGATCTCCACCAACACTCCAAGGGCCCTGGGCCAGTTCTCTGCTGCCTGAGGGCATGGAGGACACCTTTCTCCAGTGTCAATGATGAAGAAC
Celera SNP ID:            hCV11895907
SNP Position Genomic:     27248
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(T,44|A,103)      total(A,103|T,44) ;HYP3(T,44|A,104)   total(A,104|T,44)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:19689):
TGGATGGAAATGTGAATGGAAGGAAAATGGATGAACAAGTTAATGTCAGATGATTCAGAGGCTGGAGGTATTCAGGGGGCAGAAGTGTGTTCTGAGGCTG
R
CAGGGATCTGGGGACTGACTGGCTGCAGAAGATTGGCAGGCAACCACAGATAGCCAGCCTCCCTGTCTTGCCAAAACTCCCTTTGCTTTTCTTCTTTTTC
Celera SNP ID:            hCV510069
SNP Position Genomic:     18282
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19690):
TCACCTTCTCAGAAAGATTGCCTGTCTTGCCACAGCTTAGAGGTTTGCAAATTCTGTTCTGTCTGCACCCTGTTTTAGGGCCCATCACAGCGGGGTGGGC
R
GTAAGCAGGCTGGTTTCCCAGGCTCAGCTACATTCATCCTGCATTTCTGTTTCCATTGTGTACATTTCTGGGTAAGACTTTGTTTGAGTGAGAGATTCTC
Celera SNP ID:            hCV191760
SNP Position Genomic:     37243
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19691):
GGAGGCTGAGGTGGGAAAATTGTTTGAGCCCAGGAGTTCTAGGCTGCAGTGAGCTATGATTGCACCACTCCCACCTGAGTGACAGAGTGAAATCTTGTTT
Y
TAAAACAAACAAACAAACATCTATATAAAGAGTTGATTTTGGTATCAAGAAGAGCCTTGCAGATATCCCATGAAAGGACCCAAGAAGACTTTGAAATCTC
Celera SNP ID:            hCV27535751
SNP Position Genomic:     51902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19692):
AGGGTCTCGATCTGTCACCCAGGCTGGAGTGCAATGGTGCAATCATGGCTCATGGCAGCCTTGACCTCCTGGGCTCAGGTAATCTTCCCACCTCAGCCTC
Y
CAAAGTGCTAGGATTATAGGTATGGGGCGCTGCACCCAGCAAGCTCATTCTTTAAGGTATAAACAGTGCTAAGGGGGAAAGCCCAGATGGCAGCAGAGCC
Celera SNP ID:            hCV191761
SNP Position Genomic:     36814
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19693):
GGGTTCAAATCCTAGCTCTGCCACCTCCTCACTGTGTCACCTTGGGCCGGTAACTTAATCTTTCTGTGCCTCAATTTATTCATCCACAAAATTGAATAAC
Y
AAATCCATCTCCTGGGCCCACCCATGCCCCAAAGTGAGGACACTCTGACATAGTCCCAGACCTCCACCACGGCACTCTGATCTCCACCAACACTCCAAGG
Celera SNP ID:            hCV11895909
SNP Position Genomic:     27179
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(C,37|T,111)      total(C,37|T,111) ;HYP3(C,37|T,111)   total(C,37|T,111)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:19694):
GTGACCAGTTTATTACAACTGTGTGTTTGTGTGCTGTGTGCATCCACGTGCCCATGTATAATTGTTTTTATTTTTTTGGTTGGGGAGATGGGGGTAAAGA
S
AAAAAGAATGGCAGATTTGTGGGAGGGAAGAAAATTATTTTCTCTTTGAAGAAAGAATGAAAACGGGTAGAGGGGGAAGGAATTAAGAGGTTTGAGGCAG
Celera SNP ID:            hCV191762
SNP Position Genomic:     35372
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,12)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19695):
GTAATGGGATTGCTGGGTCAAATGGTAATTCTAGTTCTAGATCCTTGAGGAATTGCAACACTGTCTTCCACAATGGTTGAACTAATTTACACTCCCACCA
R
CAGTGTAAAAGCATTCCTATTTCTCCACATCCTCTCCAGCATCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAATTGGTGTGCGATGGTATCTCA
Celera SNP ID:            hCV83970
SNP Position Genomic:     143991
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19696):
CACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGACTACAGACATGCACCACCGTGCCCGGCTAATTTTGT
R
TTTTTAGTAGAGACGGGATTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCCGCCCACCTCAACCTCCCAAAGTGCTGGGATCG
Celera SNP ID:            hCV2611312
SNP Position Genomic:     130485
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19697):
TATTTTTAGTAGAGACGGGATTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCCGCCCACCTCAACCTCCCAAAGTGCTGGGAT
Y
GCAGGTGTGAGCCACCACACCCGCCTATTCATTTTTTTAAAATTAGGAAATCTTCTCTTCTGTAGGTCACATTCTTCCATTATACATACTAATGCCTTTG
Celera SNP ID:            hCV2611313
SNP Position Genomic:     130584
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19698):
CCCACAGATCTGTATTTTTCAGTTGTTTACCAGATAACTTCCATTCAGAGCTTCTGTAGAACTTCAGCTACAATGGATTCGAAAGGGGGGACTCATTCCG
S
GAACTCTTTCCTGGACTTCCTCCTTTTTTATTTTCTGTCTTGATGCAGGGTACTACCAGTTGCTCATCATCTAGGTAGGACACCTGAGTGACATTAATGC
Celera SNP ID:            hCV2611314
SNP Position Genomic:     131894
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19699):
CTCAAAAAAGTTATCTTCTAGCATGCAAACCTCTGCACGGCCTTCTCAAAAACCTCAGTGATATTTCTGCAATCGAAGTGTTTTATCTGTAAAGATGTTT
R
TTTATTTAGAACCCCTGCCCTCCCACCAAAGCCTCCTGTGCTTTTGTTTTGTACTTTTTTGAGTCACGTGCCCGACTGTGTGTGTGTGTGTGAGTGTATG
Celera SNP ID:            hCV27511654
SNP Position Genomic:     175357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:19700):
CAGCAGGCCCGGAAGCCATGCTCTTGACCCTTCAGCCAGTGTCTCTCCCAGACCGCTTCTTTCCTGTTCCTCCCTTGCCAAGGCCTACTTAGGAGGTGGG
Y
CTGTCTCAGCTGTACATTGAGTTCCACGGAAACCTCGGTGTATCAATTAAGCTCTGGTTACAGACGAACTGCAGAGGACTGGAACCAGCCGGCATCATTT
Celera SNP ID:            hCV28026490
SNP Position Genomic:     33237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19701):
TCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTCACTAGGACTACAGGCGCCCACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGA
M
GGGGTTTCACCATGTTAACTAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCTCCTTGGACTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTG
Celera SNP ID:            hCV2611316
SNP Position Genomic:     132401
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19702):
GAAAATATGAAAAGTGAGAAGGAAAAAAAGCACCTGTTATTCTATCACCCAGAGATAATACTTAATATGTAGGTATGTGTTTAGAACTTTTTCTTTGTAT
R
TATATGTCTACACCCCCCTAAATGATTTTTACAAGAATACATTCACATTTCACACTACTTATTTATAACCTTTTTTCACTTATATAGTATTTCTTAAGGA
Celera SNP ID:            hCV2611317
SNP Position Genomic:     134674
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19703):
TGAGTAGCTGGGACTACAGGCACACACCACCACACTCAGCTAATTTTTGTATATTTTTTTGTAGAGACAGGGTTTCCCTGTGTTGTGGCTGGTCTTGAAC
Y
CCTAGGCTCAAGCAATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTCAGGCATGAGCCACCACACTGGCTGAACTTTGTTTTTGCACATTGGAAAAT
Celera SNP ID:            hCV11192590
SNP Position Genomic:     22660
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19704):
TTGACCAAAAATACTTTTGACCTGTTTGGACTTGACATGTTTTTGCATATAGCTTTTACTCAATTTACTATTATTATTTTATTTGGAAAAACATTCCTTA
Y
TTAAGATTTATTAAGGAAAGATGACTCCGTAGCTAAATTGCTTTCCCTAGATAGTAGCTTCTGGAAGCTACTGTGTAATCCCTGGAATAATAAAGGTGTT
Celera SNP ID:            hCV2611318
SNP Position Genomic:     138591
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19705):
TTTTTGCTTTTTGGGGATTTATTTTTGAGATGGGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTTCAATCACAGCTCACTGTGACCTTGACCTCC
Y
TGGCTCAAGCCATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACACACCACCACACTCAGCTAATTTTTGTATATTTTTTTGTAGAGACA
Celera SNP ID:            hCV11192591
SNP Position Genomic:     22528
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19706):
GGACCTCATAGGTCTAGTCCAACTCCCTTATTTGAAAGAGGCTCAGAAAAGGCATGTGACTTGTTCAGGTTTGCAGGGCTGGTTGATGACAGGCCGGACC
R
GAACCTGCATGCCCAATCCAGTGCTTTTTCACTAGACAGCGTGGCTGAGCATATAATGAAGTCTTTAAATGTCTCCAGTGTTCTCCTCTCCATCTTTTGT
Celera SNP ID:            hCV2611319
SNP Position Genomic:     139293
SNP Source:               Celera;dbSNP
Population(Allele,Count): (G,3|A,3)      total(G,3|A,3)Caucasian(G,17|A,43)   Chinese(G,2|A,18)   Japanese(G,9|A,31)   African(G,10|A,50)    ;(G,-|A,-)   Caucasian(G,17|A,43)   Caucasian, from CEPH families(G,103|A,219)   African-American(G,10|A,50)   Asians(G,11|A,49)   total(G,141|A,361)
SNP Type:                 INTRON


Context             (SEQ ID NO:19707):
CTGGTCTCGAACTCCTGACCTCAGGTGATTCGCCCGCCTTGGCCTCCCAAAGCGCTGGGATTACAAGCATGAGTCACTGTGTCTGACCCCAGCTGGGTGT
R
TTTCTTCCAGTTGGACCACAGGGGCTAGTGGTCAAGGAGAAGAGTCCTGGACCCAGCCCATCCCATGCCCCTAAGCAGTGAAAGAATGAGAAGGTGAAAT
Celera SNP ID:            hCV380784
SNP Position Genomic:     53575
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19708):
GGTCAATCAATTGACTTTTTTTTCTATTGATTACATTAAGCATTGGTTACATTAAGCAGAAGACCACTGAGAAAACAAAGGCAGTGAAGAATTGATGCTG
M
TAAGTTCAAATTAGATAGCAAGAGAGCTAGAGAGCTACAGGCTCTGAGGCAGCTCTCTCTTTGTTAGAAAAGAGAGACGAACAGTGTTAGAAAGTATTGA
Celera SNP ID:            hCV11192593
SNP Position Genomic:     22297
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19709):
ATGCATAATTTATAGTGAAACTTGCTGGATCTGCTTATGAATAATCTCCCTTAGTTACTACTAAGTGATATTGCAGTTATAAAAATGCAATAGCAGAATA
R
TGAGTCAATGCAAGGTTATTTCCAGAATATTTTGGATCTCCTTATAAAATCGGCTGTTCAGTTAAAAACATTTTAGGTCTCTTATAATAAAATGTCAGTG
Celera SNP ID:            hCV29337100
SNP Position Genomic:     122286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Gene Number:                 69
Celera Gene:                 hCG1811168 - 84000314674337
Gene Symbol:                 CACNA1E
Protein Name:                calcium channel, voltage-dependent, alpha 1E subunit;CACNL1A6;Cav2.3
Celera Genomic Axis:         GA_x5YUV32W2NG(19738150..20138588)
Chromosome:                  Chr1
OMIM number:                 601013
OMIM Information:            CALCIUM CHANNEL, VOLTAGE-DEPENDENT, ALPHA-1E SUBUNIT;CACNA1E


Genomic Sequence (SEQ ID NO:12229):
TAGCCCATCCTTGAACAGTCACCATAACAACATAGGCACATGGAGAGGAATGTGGGGTAGGCAAAAACTGATGCCAGTCCAGGGGAGAATAGAGCTTTGC
AGGGAGTGGGGGTGGGTCAGGGAACACTTCCTGGGTGTGTTTTGCTATGTTCTTTTCATGATATAGACTGGAAATGATTGAGAAGGACACTGTTCTAGTG
GCTTTTAGCAACCTGACTCATCCAGGACAATACCTCTTACCAACTTAGCACAACCTCTCAGGCTGACACACTGCTTTTAGGACAGTGTTTGAAGACATGG
TTCCTAGGGGGAAAGGGTGTCTATTAACAATGTAGGTTCCTGAACCCACCCAAGATCTACTGCATGAGAATCTCTGAAGAGACATCCAGGAATCTGCATT
TTTAACCAGCAATGTAGATGGTTCTGATGTACATTAGAGATTGAGAAGTGCGGTCTTAGGAAGTCATGGTAAATGAAAATCATGCCCAGCTTTTACTCCT
CCTTTTGCAGTCAGGTAGCAGGCTGGCTCAGCTAAGAAAAATCCCTAGATGAATATTTATTTCTGCACAGGGAATGTTTCCTCTCAGAGTAGGCGGGTGA
GTATGCTGAGTAGGTCATTCCCTGCCATTCCTATTGCTGGGCAGGAAACCCATTTTACTGTATCAGTTCTCTCTCAAGAGAATCATTTTTAGAATTAACT
CAACACGATATATAAGTTGTAGAGTATCATATCTCAAAATTTGTTTCCATCTTATAACTTTTAATTTCTAACAGGTGGGAATTAGGACATCTTTACCCTC
ATCCAGCCTATGGCAGACAGAGGGTACAGAGCCAAGATAGCTCAGGGCCAGCTTGGGGACACTTGTATGCCTACCACTCACCTCGTAGTGTTCATCAGTT
CCATTTCTGTCCACTATCTCTTAGCCAATGTGCTTGGTGGTCTATGCAGTGGAGATTTCTTTGCTGAACTCAGAACTTTCAGGGAATAAAGATAGTAGAC
TTAGAAAAGCATGAGTTTCATTGACTTGCTGGTGTATCCACTTCTCACAAGGTAAGTTGGAGGATGCACATGTTCTGGAGGAATCAGAAAGAGAGTGGTG
GAGGGGTGGGAATAGGATGGGCATGCACCCAAGGAAAGGAAGATGAATGTCCTCAATGTGACAGACTCATCTTTAAGGGTCTGAGAGGCACAGATAAGCC
AAAGGGGTGCATGGACCATTATTTCTAAAGCAGTAAAAAATAGATGAATTAAGAAGTAAAACTCTTGATAGGGTATAAAGGGAAAGATGGTGCAAAGGAC
ATAATATTTCTTCATGGACAAAGATCTTGACTTTGACTCTGGAAGGGTGACAGGGAAGACAATTTCAGAAGTAGGCTATGAGCTCGAGTGTTTTTGGCAG
TGCAGGGTGCTTGTGTGGGGGTGGAGGAAGAGAGCCCTTATTCTGCCATTCCACTGTGCCCTGACAGGGAAGGGAAGGGTTTTTCTGGGGCTGCTGGATT
ACACTAAACGCTCTTCCACCCCAGGATCCCCATAATTTAAAATCACACCCTCTGCTCATTAACCAAACTTAGCAATGAAGAATAAGAAGAGAAGTAGGTA
GGAAGCAAGGGTTAGAGTCAGACTGGTGCTCTCAAAGCTTTCATTAGCTCGTTCTTGGGCAAGTTTTGCAGAGCTCATCTTATAACTTTTAATTTCGAAG
CAGGCCCTCTTCTCCCTCTCTTCAGGAGTGTTGAGTGTGAGCTATAGGACAGCAACTTTGCTCTCAGGAAGCTGCTCACCTGGGTCCACCCCTCATTCTC
TTTTGTAGATCTCCATTTCCTATTTTTGCCAGGTTCTCTGTAGAACCTGCTTCCATGGGCGTAGGCTGAATGACAATAATGGAGTCCAAGAGACGCAGAT
GAAAGACCAAAGTTTACAGGACTTTATAAATAAAGTTTTATCAGAACACAGTCATTCCCATTCATTTACATATTCTCTGGCTGCTTTCATGCTACAACAG
CAGCGTTTAAATAGTTGCAACAGAGATTGTGTGGCACGCAAAGCTCAAAATATTTATTTTCTGGTCCTTTGCAACAGAGATTATATGGCATGCAAAGCTT
GAAATATTTATTTTCTGGCCCTTTGCAGTGTTTGCCAATCCTTGCTCTAGAGAGTTTTGTATGGGCATTTAAATGCTACCCTTAAGTAACATATATCACT
TCCACTCACAACTCACTGGCCAAAATGGTCACATGGCCCCACTCAACCATAGAGGGCCAGGAAGTACATCCTACTGTGTGCCCAAGAAGGGGATAATCAG
AATATTTGGCAAACAGCACTAATGGTCACCATAAGCACCTAATATGAATTGAACTCAGTACTAGGTGCTGGGTATAGAAAGAAGAACAAGACAAAATTGT
TGATCTCAAGGAATTTAAGGAATGCCAGAATTTGGGGATTGGAGGGGGAAGGCTAAGTATAGATTCGAGTGTCCTTTCCTAGAAGATATAGACTGGCTTG
TCTGAATTGCTTGAGATCTCGGCTTGGTGCTAGCCAGAACTGGGGACTGATCGGCTTGGCAAGCAGTGGGGGCAACAGACCCTCCTGGTGAACATTTGTA
TCAATAATAGAAGGGTTGTTTAACAGAAATTCTTAAAGGAAAGATGAGATAATTTCATATTTTGATATTCATAACATAAAGCTGGAGCTCCGCAGTGCAT
ATTATTGCTGTTGTAATTTTGGCAAAGATGTGATTCAAATTGGCAAAGTGTCTGGGAAGAGGAAATCATGTAAGGAGAGAGGGTGGGATGGGTCAGGAAA
CAGAGGTGGGGAGCCAGGTACTGGTGGCCTGGTGAGAGCTGGGAGGGTGGCCCAGGAGCCTTTGTCACAGACAGACACGAGGGAAAGGAGGCTGCAGCCA
GCAGGGCCTGAGAATTCTTGGAGTTGCTGGAGATGCTAAGGCCTGGGGAGGGAGTGGGAGCAGCAGGGGAGGGGTGTGCGCGTGCATGTGGTGAGGGAGA
GACATTTAAACATCGTAGGAATGAAGGATAAATTTAAAATCCCTCAAGGGGAGTTGAGACAGAATGACAACGTGAGGAACGTGAATCACTCTTTCTAGGG
ACCCACCCAGCTGTTGGCATGATTTGGAATACATTTTCTTCTCCTTACCAAGCTCATTCTGGACTCCTTATCTTCCTTCTCCCTGATCCCTTGACCTGGC
CTTGGTGGCCAAGTACCGAGTGTTGGCTACCATGTCCTGGGAGCTTCAAGCTCAAAAGCATTGAGGCCTTAGGGTGTGGTGCTGGTAGGGCAAGGAAGAC
CAGTCCAGATGCTGGAGATGGAGAAGGGGACGAATAGAGAAGGTATCTTAGGGCTCCAGGGGCGTCCGAGTCTACTGAATGCTCCCATCAGGCTTTATCA
TGTATGCGCTAAGATCATCCTCTCATCCAGACTTTTTGTTTCTATTTATTATCTTAGCATAACGAGGAGGGGGGCTGGGAGAGGCATTTATGGATTCTGC
TTCATGTGGTAGAGACACTGTGATCAATATAGTGGAGAAAACCATAAGCTAGGACTTGAAATCTGAGTTCTCTCCCAGCTCTGCTTTTTATTGGCAGTGT
GATCCTGGGTGGGGCTCTCTACCTTTGTGGACCTCAGCATCCATAAAATGATATGGTTAGATCATTATAATTCCTAACCATTGAAATAGTCTTTGTTTTT
GTGACTTGCAATTTGACTTGCCGTCCAACCCAGGGAAGGCGGGGTGGGAGATGGTGTCTGGAGGGCAACTTTCTGGGAGGATGCCACCCTGGGGGCCCAG
TACAGCTCCCAACACATAGTGGGTGCTCAACCATCCAACACTGGTTGAATGATCTGGAGGCCAGAGTTCCTCTGAGCATGTAGAGCACGGGACACTTCTT
AGATGCCACCTGTGGTCACTGAGACGTGTGGTTGGGAGGAATTCTGGTTTTGGGCTCCTGGCTAGGAGGGAGGCAATAAGCAGGTATCTTGAAAAGGTGG
TAAGTTCAGGCCCTCTCAAGCCACAAGGACTCCCCCCAGTACTTAGACCTGCTGTGGGGACTAGCAATGTGTGAGTAACTTTTACGTCTCTCATTAAGTT
AAACCTTTGCTAATTGGAGCATGTCAAGATCTAGTACCAGCCACCCACCTGGAGTGCTGCTTTCACTTGGGCAGGTCCATGAGGCGTAAAACAGGGAAAA
CACCTCAATGGCTTTGGACTCAACCTTTAGGGGTGTAGTAGTGGAGGAACAGTGCACAAAGGAGGAGAGAGGAGTGACCAGGGAGGCAGGAAGAATCCTT
TGGTTTCCCTAAATCCTCTCTCATGCACATGCTCTTCCTTTTGCCTGTTTTCCTCTCCTGTTCTTCAACTGGCAAACTCTGTTTAACCCGGCTCCAGGGT
CCTTTCCTTCACAAAGCCCTCCTGACCAACCCCAGCTGGGCTAGGTGCCCCTCTTTTTTTTCTTTTTTTGGGATGGAGTCTTGTTCTGTCACCCAGGCTG
GAGTGCAATGGTGCGGTTTCAGCTCACTGCAACCTCTGCCCACCGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACAC
GCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACTAGGTTTCACCATGTCGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCTCGC
CTTGGTCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCGCCCAGCCAGGTGTGCCTCTCATGTGCTCCTCTAGCAATCAGGCCTACGCCAATCAT
AGCACATTCTGTGATGTGGTCACAATCGATGTTCTTCCTGCCTCTTCCATGAGGATGATGTGGACTAAGTCCAGCTCATGTTGTTGTGCCTAGTGCCTGG
CACAGTGCCTTGCACATGGTAAGTTCTCAGTCAACGCTGATTGAATACGTACGTCTTTCAGAGGCCAATCTGGTTATGTCCTCCTTGGCATGGAAAAGGA
GAATGATGCCAAGGGGAGCAGCAGGGGCATCTGAGTCACACGTGGCCCCAGGTCCTGAGGCAGGCACAGGCATTAAAAAAGGAGGAAGGAACCTGCATAC
AGGACCCAGTTCTCAAGAAGAGTTCTCCTTAGGCTGGGCTCAGAGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCTGAGTGAGGAGGATCGCTTGTG
CCCAGGAGTTGAGACTAGTCTAGGCAACACGGGGAAACGTCATCTCTACAAAAAATAAAAAAATTGCTGGATGTGGTGGTGTGTGCCTGTGGTTCCAGTT
ACTCAGGAGGCTGAGACGGGAGGATCACCGGACCCTGGGAGGTTGATGCTGCAGTGAGCCGTGATTGCACCATTGCACTCCAGCCTGGGTGACAGATCCT
ATCTCAAAAAAAAAAAAGGAGAGACCACCTTGTGGCTTGGTGCCCCCAGGCACGCACTTGGGAGGCAGGGCAGCAGGTGGTGGTGGCAATCCCCCCAGAG
TGGGCCCTGGGGAAGGGGTTAGAGGGATTCTTCTACCAAAAATGGGAGGGAACAGCCAGCTAGCTGTCCGAGGTGGGGCTGAGATGTGCGGCCCTCGGAG
TTCTCTCCTTATTGCAGCACCTCTAAACCTTACCAACGCGGCATATCATTATTTCTTTAATCTGTGTCTTCTGCAGTAGACTGTAAGTTTATGAGGGCAA
GAATCCAGTCCACTTTGTTAAATTCTGGACACCTGGGGGCCCAGCCTGGTCCGCCGCGGATGCTCCTAATTTCAACATCATTTATCGAGCTCCACTGTGT
GCCAGTTTGTGGGTCAGGCCCGGGATGTAGCACTGAGCAAGCCAGAAGCCTTGGCCTGGAAGGCAATGCCATTAACCTCTTTCTTTCTCTTCTCTATTTC
CCTGTGACCTTGGCCCCATTCTTCCTCCCTCCCTCCCTTCCCCACTCCTTGTCTCTGCCCTCTCCCTCCCACAGAGCAATGTTCTGTGATGGTGCCCGAG
ATGCGTGGACTGAGCCCAGACCGCAGGCTGCCCGAGCCCGCCCCCTGCCCGGCTGCGGGGAGCCCTGAGCCCAGGTCCGCGGGCCGCCGCCAACGCCACG
TCCTGGCCCTGCCGGAAGAAGAGGCATGGCGGCCCCAGCAGTGCGCTCTGCTCGAGGCCGACGCCTCGGACGAGGTGGGCATGCTGCCGGCTTCCCCGCG
CGCCGCCTCTGGCTTCGACAACTTCTTCCAGGTGCAGGAGGGCGAGGGCCAGGGCTGGGAGGGCGCCATGGCACTGGAGGCGGGCTCCAGCCCTTTCCTG
CCGGTGAGCCCCGAGGTCATGAAGCGGCGGCGCGGGGGCCTCATCGAGCAGCGCGACATCATCAAGGCCCACGAGGCGCACAAGATGCAGAGCACCCCGC
AGGCCCGGCGCAAGGAATGGGAGTGAGTATGGCGGGGACGCGGGGGCGGGCATGGCTGGCTGGGCCTGAGGTCGGGGTGGGTTCCTGGAGCGGATGGGCC
CCGTGAGGCCGCCCTGGAGGGTCGGGAGATGCTTTCGCTGTGCTGCGACTAACGAGAGGCTGGACCCTCTGGATGAGGTCCTCGTGGTCAGTCCCTGATC
TCACCACCCGGCTGTAGGCCTCGTCCAGCCTCACTGAGGCGTTCAGCTGTCAGATGTGGGTGAATCAGCCTTGCCCCCAAGGCTCACTTGTTTTACTAAG
AGCCTGTGGAGAAAGAACTGGGGTCTGTTTCATTCTCTGAGCTTTCCTGAAAGCCAGGGAGAATCCTTCACAACGTGGATCATCTATTTCATCTTTACTT
CAGGAACTGCAGCTAACCCTGCCTTTTTAATATCCTCCTTGGATGAATGATTACATTTTGGGCACATCTCCAGTGGATGGAGGAAAATGTCCAAGATCTG
TGTGGCCACTCCTGGCTTTATTTCTGCTCTGTTTGTGTAGGGCAAAAGGCCAACTTTAATTCACACCTGTTGAGAATTTTGGCTTTTTCTTCTTAGGAGT
CCTAAATTAAAGGAAGATGGGATTTCACTTAATTCTCTCGGTTGCCCCAGGTTTTTGCTCCATAGAAGGACTTTGCTTTGTCCTGTGGATGCCGGAGTTT
ACTCGGCATGCTGGCATGCCCTGTGGTCTGTATGTCTTCATCTCTTCTTGCTTTAGATTGTTGACTTGCTAGATGTCATCAAGTACAAAGAGATTAGTCA
CAGATGTATTTTGATGGTGGTGGTCGTGGTGGGATTTACCTMCTTGGTTTCAGTGAATGTTCTGGATGATACAAGTAGGGGTAAATGAGCTGATCTCTGT
TTCATAAGGATGTTAATGTTTGTTAGTTCGCTCATTCATTCATTCAGTGAGTCCGAATGTATGCCGGGCTCCTGGGATTCAGAGAGGAGTTGGGCACAGC
CAGCATTCAACAAATCTCTTGGTTGTTCATCTCTCAGCACTATTAGTATTTAGAGCCTTGCATACCTGTCTTTAAGTGCCAGGCAACATTCCAAGCACCT
TACATATATCCACTCATGTTAATCTTCACCATAACTATGAGGTAGGTACAGTTATTAGCCACATGTAACCAATGAGGCACAGAGAAGTTAAGTGACTTTC
TCAAGGTCACGTGGATAACAACCGCATTGTTACTGTGATTTGATATTAATTAGTAATTTGAACCCTGGCAGTCTGGTTGTGGAATCCATGCCTTTAACCA
TGATGGCACAGTGCCTTTCATTCTAACTCTCAAAGTACTTCTCTCAACAACCTATTGAGATGCCATGGTAAGAGCACTGGTGTKGGGGTTTGGAGACTTG
GGTCTAATTCCCAGGGTGACCTAATTAGTGGTGTGACCTTGAGTAAGTCACCTCATCATGACTTCGAAAGACAAGTAGGAGGGAGTAGACTTCCTTTAAA
TACAATGCAGCTCTGATAGCTGGCCTTTCTTCATATTTAGAAGTACTATTTTTTAATGCACCTCCATCTTATCTTTCTAAGAGGACCCTGAACAACTTGA
GGGCTGAGACTGTCATGCACATTGTTCATGTCACTCAATGCCTATCATCTGGCCTAACCCAAAAAATCCCACAATACTCAATGAAAAACTAGCTTTACCA
TGACTAGCAATGTGGAAATAACTTTTATGTCTCTAAGTTAAACTTTACTGATTGGAGGATGTCAAGATCTAGTACCAGCCACCTACCTGGGGTGCTGGCG
GGGATGATTGGGAGACTGTTTTCACTTGGGCAGGTCCATGAAGAGGTAAACCAGGGTACACACATCAATGGCCTTGGGGAATGTCAGCCTTTAGGGGTGT
GGCAGTGGAGGAAGAGCACATGAAGGAGGTGAGAAGGAGTAGAAGGAGGTGGGAGGGTAACCAGAGGGTATAGGGACAAAGAAGTAAGGAAAATGGTGTG
TTCAGAAGGAAGGTCATCATCTCCATAGAATGTTGCTGAGAGGTCAAATAAAATGAAGATAGAGAAGGAAACACTGGCTTTGGCAACACAGAGATGACCT
GAATGGGAGTAGTTTCCACAGGGCGATGGGGTCAGTAGCCCAGTTGGAGTGGGTTGAAAAGAAAATGGGAAGTGATAGAGACAGTGATGTTGCCCCATCC
TTCTCTGCTCCCCAACACTCACGGCCTCATCATGGCTTTTCCCCTCACCACCCAAATTCCTTAGCCTCATGGCTCTGTACATGCCTTAATTTGATCTTCT
CCACACCCCTCCCCAGTTCTACGAACCCTAATGTTACTGAGCAAAGAGGGCTTGCTGCTCGGGGCACTAGAAGCCAATACTACAGCACTGGGTTTTTGAG
AAGAGAAGCTTTTTATTGCATGTCAATTCACAAAGAGACGGGATGTCAAGCCCAAATCTGTCTCTCTGTCCTCGCTTCAAGGCAGTATTTTCATTAGAAA
AGGTTCAAGGGATTAGTAAGTGATTGGTGGAGGGAAAGGGGAGGTCTGGAAAGTCCTTGGACATGCTCAGTTATCTCTTCATGCTACCTCACAGGTCGCA
TGTGAAAATTCTTGAGGACTTAGTATGAAACATGTCATGGAAGTTCAGGCTGTGGTGTCAGCAGGCTTGTTCTGCAGACGCCAGTAGGCCAGGCCATCTT
GGTTCCAACCGATGTCAGCCAGTTTTTTCTTGATCTCACGTTGTGGGGAATTTCAGCATTTCTGCAAGTTGTTTCTTTTCTTATCTGCCATTCTGCAAGC
TCAAGAATATCTGTTAGTCATTGGTTTCTTACTCTTTGGGGCACAGTTTCAGCTTCAGCTTTTCAGCAGGTTGTTTCTTTTCTTATCTGCTATCCTGTAA
GCCAAAGAATGTAGTCATTGGCCTCTTTAACTCTTTGGGGCACGGTTTCACTAATACACTGTCTGGCACTCATGTTTCATCATCAGCAAAGTCCTGTTCA
TCCTCCTCATCTTCTCTGGAAGTCCCCTTCACTCTCTTATTTCTGCTGGAGCCTCCCCCCAGGAATGCGGCTTGCTCTGCAGCTGCCTCATGTGACAGCT
GCTTTCCCTTCCACGCTGCCTTGGACCCTGGAGTCTAGAGAAGCAATTTGCTCCTCACTATTGCTTCCAGACCATTACTCCCCTCTYCTGTCCTAAAAAT
GCCAGCTGTGGCGTGCATGTCATCAGATAATACCACCTACTACCCCTCGTTGCCACCATCTACAAACTCCCAAGTCACTTGCTTCATTCCAGGAAGAATG
GGTTAGCCCTGGGTTTACTGCCTCTCTTCCCCACGTCTTCAGCTGCTGKCAGTTCTTAGTGATTTCAGTATCCAYGTAGATGACCCTTCCTGCACCCTGA
CCTCTTGGTTCCTTAGCCCCTTCTGTTTGGTGACTTTGCCTTCTTGCTTYCTGCTGACAGCTCACCTCCATGGTCTGCCTGGACATTGTCRTAACTGCAT
TACTCCATAATCTCGGTTTCAAGCATCCCACTGTGTGATCACCCCCTCTTTTCTCTCCACTCCCTCTAGTGCTCAGTTCCCAAGATTCTTTAATCTTACT
GCATCCACAAGACACTGATCCTATTACCTTTTCACTATCCCCTTCCCCAGTCATGTCACCATTTCCCATCTTATCAAACTGAACTCCATCATAAGCACCA
AACATATTTTCCAGATAAAATAGTGACCTTTCACTTGAAGTCTCCTCCTACCCTCTCAAGCTCTTTCTTCTACCAACTTCTAAGATAGAATGAATCATCC
ACAAAGGGCAAGAATGCTGGAGCTCAAGTTGGTTTCTAGTGTACTTCATGCTTCACCATCATTATAATCTCCTTATTTTCACCCTCAACTTTGTTGTCCC
TCTGCTGCTTTGTTATACCTTGTCTGGCAAGACTTCAGCCCTGCTAAATCCCACTTKCCCCTATTCTTCATGTACATATGGGCAGGTGACCATAGCTATA
GAAAAAGTCACAACCACGCCGATTGACCTCACTGTGAATTGATGACTGCCACCTCCAGTTGGCCCTTAGTCCTGCCCAGAAATCTTACTACTTTTCCCTT
TTCTATTCACTCTCACACTCCTCTAGAGATTATTTCACATGCTTTTCCCTTAACTCTCAAATCCCATCATTTCCTGCCAGCTCGCTCCTAGCTCATGACT
ACAATTGCCTTCCTACTTCACTGGGAAAATAGCAGCAATCAGGAGAGGCATGTACAGGCTCCATCCACTGCACTGACCGCCTGCTGCATCTGGTCCCTGG
TACCAGGCCTTTACCTTCTGTTACTGTGGACTGAYCACCCCTCAAGTTCCATGTGGAGTCTGTTGCCCATGTAGAGAAAAATGAGCCCCTTTGTTTATTC
TGTCTCCATTTTTTTTTCTTACAATTTTCTCTGGAACCCATTCCAATCAGGTCTTTGTCCCAGGCAAACAAACAGCTGTTGACATGGTGACATTGGCCTT
CCCAAGGCAGAATCCAATGGGTGTTCCTTCGTGTCCATCTTCCTTGACCTAGCAGCAACATTTGATCACTTCCTCTTTCTTGAAACTCTTTTGTCCTTAT
TTTTTATATTTTATGTTTTTTTAGAGACAGGATTTTGCCGTGTTGCCCAGACTGATCTCAAACTCTTGGCCTCAAGTAATCCTCCTGCCTCAGCCTCCTG
AGCTAGGAGTACAGGTGAAAGTGTTTTGTCACATGGCTTTTACGATACCCACTCTTGGTTCTCCTCCTATGTTGTGGGTTGCTTCTCAATCTCTTGCTAG
TTTCCACTTCCTTTTCCCAATCCTTACTAAACACTGGATGTCCCAGGGCTTGGTCCTCAGCCTGTTCTCTTCTCACCAGTGCTTACTTCCTAGTGCTCTT
GCCCAGTCCCAGACCTTTGGTTAGCATCGTATACTGCTGACCTCTAAATTGGTGTCTGTACTCAGGACCTCTTCCCTGAATTTAAGATACCACCCACTTA
TTCACCATCTTTACTTGTACATCCATCGACATCTCAAGCTGAACATGTCTAACATCAAAATATTGATTTCTCTCCAAACCTGCTTCTCTTGTAGTTTTCT
CTTTCATTAAACCTACATTTTTTCTGTTGCTGGGGCCAGAAATGTTGAAGTCATTTTGATTCTCACATTGACACTCAATTCTTGCCAATCCCCAGTGTCT
CCCCCCTCAAAATGTATCAGATCACCATTCACCACCTCTGCTGCTGTCTCCCTGGTCCAAGCACCTTTTATTATTTTTATTCCACACACGTATATGATAC
TAGATGCCCAGCACTATTCTAGGTACTTTATAAATATTAATTAATTTATCCATGTAATAATTGATTGAAGCTGGTACCATTATTACCATTATTGTCCCCA
TTTTTGCACTTGGGGKATAGAGAGTTTAAGTCACTTGCCCAAGATCATAATGTCAACCACCTCTTAATGAGCCTCCCTGCCTCTGCCCCTCCCTGCTAGA
CTCTGTTTCCCCAACTGCAGCTAAAGATCCTTACTTTTTCTTTTTTGATTCACAAAGGATTTAGAAAGGTAGAACAAGTAGTTTCTGTCCAAGAGTCTTA
AGAAATATTTCATATCAGTCCTTAGCTCAGTGCATGATTTCCATCTTCTCCCTCTTCCCCCTGCCCAGCCAGCCTCCTAAAGATGCATGAATGTCTTTGG
TTTGATTTCTTCATCTTTCCCCTTAACTCATTCTGCACTGGCTACACTGGTCCCTTGTTATGCCTTGAATGTACTCAGACCTCCCACATCAGGCCTCTGC
CTTTTGCTGGTCCCTTTGCCTAGAATGCTTTTCCCATTTATCAGGATGGCTCCTCTCTCATTTCATTTAGGTTTCTGCTCAGAGAGAACTTCCTGATCAC
CCTATTTAAATAGCATTCCCCCATTGTCACTCTCTTTCCCTCTTTATTTTGCTTTATTTTTCATCATAGCCCTTATTGTTTCCYCAACGGACACACAAAC
ACACACACATACATACAAGCACAGATATTTTGCACTGGAGTRCAAGCTTCTTGAAAGCAGGGCCTTTGTCTTACCTTCAGGGTCCARAACAGTGCCTAGT
GTGCAGTTGACTCACAATAAGTGTTTGCTGAAAGAATGATGAAGTAAACATATTGAGGGGAATTGATATCCATTCTAATCAGCTAAGTTCCAGGGAAGGA
GGCAGCTGAGTTCCCTGTGTCCACTGTGTGGTTGTACAGGTTGCTGACTGCAGAGTCCTCCAGTTGAATAGTCAGCAGTGGAAGTGGGGAGTCTGTTCTC
TGCCCCACTTCAGGGCTGCCCAGGATCTGCATGCACTTTGTAGAGATGGAAATTTTTCCTCCCTTCTGTCTCCTGCCTTTCAGCTTCTCCTGACTTAYGT
TCTTTAGACAGGATCCCTTTGGCTCTAGGACAGGGGCAGCCTGGTCCTTTCCCAGGGCTTGGATTTACTGTAGTGGGAAATCAGGCAGGGTTCTCTGTGG
GCAGCCCTGACAGCATCTTGCTCCTCCCAAGGCCCTGTCCACTGCTTATACAGGTGAAAGCCTGGGACACATACCACCAGCTTTACAAATCCTGTCTCCT
AGACACTGAGTCAGGACCCTGGTGATAGTGAAACAGACTAGAAACCAACCTGGGAGGTCTCCTGCATTTTTTTTTTGTCTTTGGCTGGGTAAGCCAAATG
CTGATGGGAGAAGGAGTACTTTAGGTGATTTCAGATGAAGCAGATTTTCTTGTACAGAATGTTGTTTTCCTAAGAACCTATTTAAAGGTTTCCTCAGGCC
CACTTTTCAGGTGATGAGGACCTCTTGGTTAGCACCAAGTGTTTATTGTGTACTAAGTTTTATAACTTTAGCAAGTGGGCATGTCACAATGTTTTACTAA
TACTTTAATATAGTTCTCTCCAGCTTAAAACATTTTTCATACAYATGATCTCATCTGAGCCTCACAATGACCTCATGAATTAGCTGTTATTATTTATAAT
TTACAGGAGAGAAAAATGAGCTCCGAAGTTAGAGGTGGTACTAGGTCAAAAACCTATGTCTTGATAATGACTGCCACCATTTATTGAGCACTGGCTATAT
GGTAGGTGATTTGCATGTATTATTTATTCTAATGGAAATAATAGGTACCATGATGAAGAACAGAAACATTTTGTATGGCACTATTATTGCATATGGGTCT
GGAAGAAAGGAAATTATGTGTAACTTTAAAGTCTGCGTAGGTTGGTATGACTTACTCTATAAAGAGGGAGGGGGTATTTCCATAATCATAGTACTTAGCA
CACTACATTGTAATTGCCTGTTTACATGTCTGTGTCCCCCACTAGATTGTAAGCAGAGAAGTCTGTCTGCTCCCCATTGTGTCTCCTTTACTTAGTACTG
TGTTGGGCACATAATAGGCACTCAGTAGACATTTGCAGATGAAAAACAACAACAACAACAGCAACAACATGATTTTTCATATTGGGAAACTGAGGCTTGA
TAAGGTTAAGTTACCTGCCCAGTATCACAGAGCCAGTGAGGATTCACTCCAGGTCCTCTAATTCCGAAGCCCATGTTTGTTCTACTGAGCCATCCTACTC
ACTGGTGTCCCTACAGTAACTGGCACAGCACTGGGTAAATGACGGGAACTCAGTTCATGCTTGAATTCTTGCAATGCTACTTGTAAATTGTGGGCTTGGG
CACTTTGTAACCTCCGCATTTTTTGAGTAGAGGAGAGAAATAATACCTACCTTGCAAGCCTGTTGCAAAGTTTGACCACATTTATTAGATCATATAGTCT
GGTGGGGGGTCCTCAAAATGTTGATGAGCACCAGGGTTATTCTGGGCCTCTTCTCTGCCTACAGCCTCCCTGGGTGACCTCACCAGGTCCACATATCTGC
AGATGACTCTCAAATGTAAATTTCCAAAGAACCCTTGACTCTTGAAGCCAAATGCTTGTCTGGCATCTCTGCACTGTTGTCTATCTAATCAGCTTCTAAA
ACATAATGTGGCTAGAACAAAACTCCTGATCCTCTTCTGATCCTGTCTGGCCCCTCATTTTTCCTTATCTCAGTAAATGGCACCACTATTTCTCCAGTTG
TCYGAGCCAAATATTCTCATTATCTTTTATTTCTCTCCATTTTTCCTCACTTCTGATCAGTGGTAAGCCCTGTCAYTAACATCTCCCAAACATATCCCAA
GTCCAAACACTTCTCCATCCCCACTGCTACCAATCTCTTCCAAGCCACTATCCTTTGGACCATTGCAATGGCCTGCTAACYTGTCTTTGCATCTTTGTTT
CCCTAGAATAAGAGAATGTGATCTATTGACACAACAGGCAGGGACAATATGAACTCTTTTTGCTGGCTCATAAAGCCCTATCCGACCTGAGCTTTGCTTA
ACTCCTGGCCTCATCTACTCTCTCCCTTGTTCCCTGTGCTCCTGCCCACTCGCCTTTTATTTAGGCTATGCCTGTTTATGTCTCTACCCTGGCTCCTGCC
GTTGCCTGGAATATTTCTCCAGATCTCAACAGGGTTGGTTCATTCTTGCCATTTGGACCTTAGCTCAAATGATACTTCCTCAGAGAGGCTGTCCTTCATC
ACACAGTCTAAAATAGACACCTGGTCACTGTGCCATATCACCTATGCAGTTGACCACCAACCCCCACAAGAATGTTGGTGCCYTGAGATCAGTGATTTGA
CTGCCTCGTTCACTCCATATCCCCAGTGCTGAGGGCAATGCTGACATATGGGCCCTCAGTAATTATTTGTGAATGAATATTTATGAATGTTCCGTAACAG
TGGCTATGGTTATAGTTACGATCTATGTGTTCACCTGGCCTCTGATAGCCCTAGCCATACCAAACGGTCTAGTCCAGGAAGCTCAGGACACCACTGGCTC
TAGGTCTAGACCAGGGTCAGCCCCTGGGGTGTGGAGATTCATGAGCTGTAAAACACAGGTTGGTTAACTTACAGGTTGTATGAGAACTGTCCTCCTTCAA
GCTATTGTTTGATCACCACAGAGCCATGTCTTATTTGACTTTGGGTAAGATATCCAACCTTTGTGGGCCTCATTTTGCTCTTTTGCTAGATTGTGGATGA
GTACAGCAACCTTTTTGAATTGTTATGAAGGAAAAACAGCATGTAAAGTACTTAGTCCGATGCTTGGTTGTTTTTCTCCTTGATGTCTGGTTCCTCACCT
WCAGGAGCCTGTCACTTGCTATCACTTATAGTTTAACCAAAACATTAGATTGTGAATCTAACAATAGAAGCCTGCAACTTCTTRTCTACCGAGAAAGTGT
ACAAGAACTGCTAACTCATGCCCCCATGCCTAGCAACATGGCTTTCTCAACTTTGAAAGGATTAGAGTCATCCGTTGGTCTTAGGAACCAAAAACATTGA
TGCAACTCCAAATAAAAGTAGCAAACATGTATTTTTCCACTACCATAATAACCCTAATCCCCTTAATCTTACCCATCATTACTACCTTAGCCAACCCCTA
TAAAAAAGGTTCATATCCAAATTACGTAAAAACATCTATCGCATGTGCCTTCATCATCAGCCTCATCCCTACAACAATGTTTATATGTACAGATCAAGAA
GTCATTATCTCAAACTGACAGGCATCAGAGGTTTGCCGAAGCCCRAGGTGCAGAGGTTGTAGTTAGGCTTGGGATCAGCTGTATACATCAACGGACCACA
GCAGCATGTGGGAGACTACAGGAGGGAATGCACAGTGCCTGGCACAAGGTCAACAGTCAGTGCATATGAGCCATTATTATGATCATTATTATTATTCATC
TGGTCTAGCTGCTTCATTTACAGGTGAGGAAGCTGGGGTCCTGAGAGCCTGGGTGACTGCTGGTGCTTTATGTGAAGGTCAGTGGACTGTGGTGAGTGAC
AAGGTAGGAGGAACCAGTCCTGSAAGTCCCACCCACTTCTGTCTCATGTGCCCTGCAGCTATGCTGACTTAGTAGGGGTGATCACATTCAAACAACAGTC
TCACCGGCATTCACACCGCATTCAGCATCAGCAACATATTCTGTAAGGCAACACCTGTCTCAACCTTGAAGCTTTATGGGTGAATTTAAGGGCCATTGGG
CCAATTTTTTTTTTTTTTTTGCTGGCCTTTTGAAAGGCGGCCAGCCTCCTGCAGATCTAGTGAGACTAAGTGGAGACCTCAGTCCACATGCTGCCACCTG
CTGCCAGCATCAGACATCACTCGGGTTGTTAGAATACAGGAATCTGTGGAACCACTATTGCCAAAAGGGTGCATGGCAGAATTTGTTCTTATATATGAGT
GCTTTGTTGAATTATCGGATATTTTAATTTTATTTAAATGTGTATGTTTTTAGAGGGGGCAGGAAGTCTCCAGGTCACTGTATTCCCCACCATTCCCTAC
TGCCTTAGGGCTATTAGAGGACTGACTTGGTCCTGAAGGCACCTGAGTTTGCAGGTCTGCAAAATCCAACCTTCTCACTCAGAGACGAGGCATTTCAGGA
TCCTAGGGCTGTAGTATAACAGGGTTGCAGAAACCAAAACATATGCCAGTGGAACACAGAAATCATGAGCCTTCAACACACTGGGTTATCACTAACCAAC
AGCAAGTTTGAAAACCACCAGCCAAGAAGAGACCGGAGCACATGCCCTGCTTTCTTGGAATTCTGAGCAGAGCAGGAAGGTGCAGAGAATCCAGAGAATT
GGGCTTCCCTTAGGAACTGACACAATTTGGGTGATTTCTAGAGATTTGCTTTAAGATGATCCTTTGGGGAACTTCAGCACACACCCTTGAATTTTCCTTA
CCTGTCCTCCCGGGATTAGAAAAAAGAGGCTGTTTCTAGATCTGGTCTCTGGTGACTCGCCTTTCCCTTCAACCTTCCGCAGTTCTAGAAATGCTTCCCT
AGAGAACTGGGTTTGAGAATAAACAAGGTGGTGCGCGAGCAGCGCGGTTTTCTGTGCTTGCAGTGGAGACCGCCTGTGACAAGGAGGGTCCTGTACTGGG
AAGGAGGGGGACTGGCCCCCTGCTAAGTGCCTGGCGACTCTCATCTCTTGCAGAGAACGAATGCATAACCTCTCTGCCACTCCCTTTCTCTTTCTGAAGC
CATTGGATGCCCTGAGAGAAAGCAGAGGGTTTCCATCTTTTCCAGAGCACAGTGCTGGGAGCAAGGGCTGGGGGAGATCTGTTGTCCCAGTTCTTCCCTT
CTAAGGCAGGCCTTGGGGGAGGACTCTCCCCCAAGACTCTGCAGCCTGKTGCTCAAGCCGGATCGGCCCGTTCTGTGCTTCCTTTTGTGGYACCATCAGA
GTCTCCTCCCTGTTTGGAGGCTCAGGTGAATCAGTCCCCTCTCTCCCACCCTGCCCTTGCGCTGGGCTGCCTCCACTCTGCTCCCATGGCCATATCTGTA
GAAGGAGGCTCTTCAGTCTTCTGAACATGTCAAGATTCGGAAATTCTGCCCCCAGCCACCTTTTTGAAGAAAATGGGAAAAGCGGCGCCCTCTAGCGCCA
GCTGCTCAATTTGTTTTCCCTCTTTTTCAGAAGAGATATTTTTTCTTCTTTTATGGTGCCCCCAAGTGGTTGTTTCTGTGTATTGCAGCCGCRGTCTCAC
TGGGATGCTTTCCGCTGTGTAGCTGGAGGGGCTGGGGCAGCCTGGTGGTCAGCACTCACATCACAAGAAAGGAAAGCGAAGCCAGGAGGAGAAGGGCCTT
GGCAGGGCACGATGAGCGCCCCGAGACTCCCACCGCAGTCCAGGGCCTTCCCCCTCCCTGACCACTGGCAACCCCTTGCCATCTTTAAGGGCTTGCCTGG
ACCCATGGCTGCAAATGAGCCAAAGGCGTTTTCCTCTTGGATGTGAGGGGATGGGTGAAGACACGTGCAGAAAAGGAAGTGCTCATTGTGGAGGAGGTGA
ACATAATTGGAGGAATTYGCTTTGGCCTTTTTGGCTGAAAAAAATATTTATGAAATTGCTGTACACCCCCGCTCCCCCCCCCSACCCCAAGCAGAGTTAG
ACACCTATAGAATTCCAGGCACCGATGAAAAGACCTTTAAAATTAATCGCACATAACTTCTCATTGAAGGNGCAGGTGAGAAGGCTGAGGCGCAGAGAAG
GAGGTGGGCGTGGGGCACCCTTCTGAGGACCCCACCTCAGCCGCTCATACCCCAGCCACACTGTCCTCCTTCTCTTCTCTTCTGCTTTTAGCTCCTTTAA
CCATCTTTCTCTTCCTCTTTTTCTCTCGAAGCCTGTAGCAGGGAGGGAATGAAGGCATGCASGGTTGGCGTGTGAGTGAGGAAGAGGGCTTGTCCNCCTT
TCCCCTCTGTCCCTGCCCCCGCCTCTCCTGGGGACCTCCTTGCAGACCCTCTGCAGCTGTGCTCACATCCCACTACTCAGCCTCACTGCTGTTCTAAAAA
GGCAGCATTACTGCCTGCTGATCAGGTGATGAGGAACCTGCAACCCTTCCCAAATTTATAAAGAAAACAGAGGAATTCAGTAAATTCTCTTTCTGCTCTT
GGAGTAGGACAGACCAGTGGTCAGTTCTGGGGACAGTGCTCCTGGTGTGGAGACAGTGTTGGCTGGACACACCCAGCTTGGGTGCACTGGGGTCAGGTGG
TCAGGTCTAACTGCATCCCCCTCCTGTCACTCCATCTCAACAATTCCCCAACCCAGTCCTACCCCATCTCAACCCTTCCTCAACCCAACCTSTCTCCATC
TCAAGTCCTCCCCATTTCAGCCACTATCCGTCTCAAGCCCTTCCTATGTCAACCCTTATCAATTAAACTCCTCCTCATCTGAACCCTTCCCTAACTCAAC
CCAGCTCATCTCAACCCCTTCCCATCTCAACCGCTTCCCATCTCAGCCACTTCACAACTCAACCCCTTCACAACTCAACCCCATTCCCATCATGGCCCCA
TCACAACTCAACCCCTTCCCATCTCATTCCCTTCAAAACTCAACCCCTTCCTGTCTCAACCCCTTCACAACTCAACCCCTTAACAACAGAACCCCTTCCC
ATCTCAACCACTTCACAACTTAACCCCTTCACAACTCAATCCCTTCCCATCTCAACCCCTTCCCAACTCAACCCCTTCCCATCTCAACCCCTTCCCATCT
CTACCCCTTTACAATTCAACCCCTTCACAACTCAACCCCTTCCCATCTCAACCCCTTCCCATCTCAACCCCTTCACAACTCAGCCCCTTCCCGTCTCAAC
CCCTGTCAATCTCAACCCCTTCACAACTCAACCCCTTCCTATTTCAACCCCTTCCCATCTCAACTCCTTCCCATCTAAACCCCTTCACATGTCAACCCCT
TCACAACTCAACCCCTTCACATCTCAACCCCTTCACAACTCAACCCCTTCCCATCTCAACCCTTCACAGCTCAACCGCTGCCCATCTCAACCCCTTCACA
ACTCAACCCCTTCCCATCTCAACCCTTTCCCATCTCAGCCCCTTCCCACCTCAGCTTCTTCACATCTCTACCCCTTCCCATCTCAACCCCTTCACAACTC
AACCCCTTCCTTACTCAATCCCTTCCTATCTCAACCCCTTCACAACTCAACCCCTCTCCATCTCAGTGTCTCCCCAACTTGACCCTTCAACATCTCAACC
ACACTCATCTCAACGCCTCCCTATTTCACCCTCTCCCCATCTCAAGCCTACCTCATCTGAACTCTACCCATCTCACCACACCCATCTCAACCCTCACCCA
TCTCAACCTCTGCCCCATCTCAACCTCACTCATCTCAACTCCTTCCCTATCTCTACCCCTGCCCGTCCCAACCCCTCCCATCTCAATTCCACCGCCATCT
CAACTCCTCCCCCATCTTAACCCCTCCTCACCTCATTCCTTCTCCATCTCAACCCCCTCCACCTCAACTTCTCCCTCATCTCAGCCTCTTCCTCATCCTA
ACCCCTCCCACCTCAACCCTTCCCCATCTCAAGACTTCCCCATCTCAACTGCTCTCTACCTCAACTCCTCCTCCATCTCAACCCCTCCCCAACTTCAACC
CCTCCCCCACCTCAACTCCTCTCCAACTTCAACCCYTCCCCCACCTCAACTCCTCTACCATTGCAACTCYTCCCCCATCTCAACTCCTCCTCCATCTCAA
CCCCTCCCCCACCTCAACCTCTCCCCATCTCAACTCCTCTCTCATCTCAGCCCCTCCCCCAGCTGCCATCTGTTATGGTTGCTTCTTTCCCCTGTGTTTA
TACTTAAGCTGGGAAAAATTCCCCCTCCCTCCCTCCCTCCTCCCCTTCCCTCTTTCTGTGATGAACATGAAATTATATTACACATATAGGTCTTTGTTTT
GCTCTTATTCTTTTAGTTTTTAAAAATTACAGGATATGGTGTGCATCTTTCTTTGGCCATTTCTGGAAAGATGTCCATAACATCTCTTTCACGCTGCAGA
GTATTCCTCAGCATGACTGAACCACAGTTTATTCCAGCARCCCTATCAATGGATGTTCCCAGTTGCTTTGCAGTTACCAGCTGTGCTGTAGTAAGCCTCC
CCTACATGCCTTTAGGATGTGCACTTTCAYTTCTGTAGGGTCAAGTCCTAGAAGTGGGACTGTGGACAAGTCTTTCCCACGCTATGCCCTCACTCTCCGG
AGGACTGGCACTTCTCTCAACACCCCTCCTCAGCATCTCAGCCTCAAATTGAAATGTGAACTTTCACAGTCTGTGTTATCTCTCTGGCCCCACTGGAGAG
GCCCGATGAATTAATAATATGCCAGCAGGAAACAGAGAGATGGAGTTATTAATTGTCAGTCCATGAGCCCACCCTCTCAAGGTCCTAATTAGCATGCTGA
CAGCTTCGGTTTTATCCAGAGCYAGGGCAAGGCTCTGGGGACACTGTGGCTCAGCTAGGGGCATCCGGCACAGAGTGGAGAGCCCTGGTGCCTTTCTGGG
TGGGGTGGAGGGGCGCTTGCAAGAGGCTTGTGAATTCAGAAGTTCCTTCAGGGATCCCTTTGTGCCTGCTGTGGGGTAGGGGAGAGAAACAGGCTGGGAG
TGGGGGCAGGAATGGGAGTTTTAGTGTCCAGGTGGTGGTGATGGTTGGTGTGTGCTGCTCTTGGGCCCCAGTGGTGGGTTTGTGATTCTGGTTCTGCTGC
AGGACAGTGACACTCACCAAGCTGTGYTGGGTGTAGTTGTCTCAGGGAGGTGCCTGCTTTCAAACCAAAGTTCCTTTGATGGGGAGGACTGACCCCAGGA
AGACTGATTGCGTATCAATATTACTCTAACCCATGGCCCTCTTTCATAACATGCACACTCCTGGAAAGGATATCATTAAATCTGGCATTGGTGCATGGCC
AGGCTCACATAGGGTTGCTCAAGAAATGTTGCTGTAAAGGAGGCCGGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTTGAAGTGGGTGG
ATCATTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGTGAAACCCCATCTCTACTAAAAATATAAAAATTAGCTGGGCATGGTGGCACACGCCT
GTAATCCCAGCTATTTGGGAGGCTGAGGCAAGAGAATCGCTTGAACCTGGGAAGCAGAGGTTACAGTCAACCGAGATCACAACACTGCACTCCAACCTGG
GCAACAGAGTGAGATTCCATCTTAAAAAAAACAAAAAAGAATTGTTTCTGTAAAGGAAACTACCTATAGGAAGCTGCGTGACCTTGGCCAGGCCTCTTCA
CCTCTCTGGGCCCTTTTTAATGTGGATTAGAGGTGGTCCTTATTTTGGTTTGCTCCATACTGGGCAGCCAGAACCATCTAGAACACCAGCCAGGACTTGC
TCCCCAAGGGTGCTCCTCTGTTGCGNTGCCTGCCTCTCTGCCCAATCTCTCTCCACACAGTGGAGGCTCTGAGTCTTTCCTACTTTGAGCCCTCATCTCC
ACCAGCATCTATGCGTAGCTCTGCTGTCTCAGGCGCCTCTCAAGAAGTTTCAGGCAGCAGAGTTGGTGGAAGCTGAAAAGTCATTTGAATTAGTTTGCCT
GGGTCTATTGCTCAGGAGCCTGGGCACATCTCTTAACCTTTCTGGGGCTGAGGACACCAGCATTCAGGGTTGTGTGTGAGGTGCTTAGTATGATTATTAC
TCATGTTTGTTATTAGGCTCTGTCCTGCTTCCCCCAGGCTGTGGCCGGGAAGACAGAACAGCCATTTACACAGTAAGCTGCCCAATGACCCTGCCTTTCC
CATTCCCAGTCTGCTTTTAAAAAATATGGGTGTCTAGACCCCAACCCTCAAAGATTCAGATCAGTTCATCTTAGGTGAAGTTTTAACAGGAAGATGTATA
TAGATGTATATATTTTACAAGCTCTTCAGGTGATTGATTAGTTTAAGAACCATTGATTGAGACCCATGGCAACTGGGCGGGCAGGTACCTTGTGCTCATG
GGGCCTGCCCAGCCAGACACAGCCTTTTTCAGGAGCAAATCCCCCTATCTCCCTTTTGGGACACAGCAGACTGTCTGAGATCATCTGATGACCTCTACAT
ACTCTTTTCTGGGACTAAGCTGCCTTTCTGGATCAGTTAGAAGGCAACTGGAACATCTCTGAAAGGTTCTGGATCTCTGTGCACATACAGTAAGGGGACA
GAGCTCATTCTGTGACAGTCTTACCAATGCACCACAATGTAGCAGTCTCTCGTTGTAAGGCATCACCCGGAGTTCTTCGTTTCATGACCAAAAAAATTAA
GGAGTGTGGACAAAGGGTGAGGTTAGAACGAAAGTTTAATAAGCAAAAGAAGAAAGTCCTCTGCCACAGAGGGGACCCGAAAGAGGGTTGCCTTTTTACA
GTTGAATTCAAAAGCTTTTATAAGAAACTCCCCTCATCTCTGTAGCTGTTTGTGTAATTCCCCTTATCTGTGCAGCTGCGGGCATGTCCTTAGGCAAGCA
CAAAGCACAGCTTCTCTTGTTCGKGTTACTGTGGTTATGTTTTGGGTARGTCCCCCACCTCCCTGTGCAAGTTCCCATGGAGCCCACTRTGTACATGCCC
GAAAAGAGGAGGAAACCTTTCTGTGGGAGCCCACTGATTACACCAAGAACAAAGGCTGCTATGTTGGGCCTTACTTGCTTRTCTGTGCAGCTGCAGCCTG
AGTTTTCCCCAGGCTGCTCTATTTGTGCCTGTAGCTTGATTTTTCAGGCTGTCTTTCATTTTGAAAGAATTTTACCAAAGACAAGYTTTAGCTGTCTGCC
CAACTAGTTTTTCCTTTTCTCCTCCCTCAACTGGATCATAACTTATGACTCTGAGGCTGAGTCCTGGGATAGTTGGATGTAGAGGGGGCATTATCTGGAT
TTGAACCCAGTAATTCTTAGCTGTCTGATATTACATAAGTTACTTAGCCTTCCTGAACCTCACTTTCACCATCTATAGGACAATATGTGCTTTGCAATAA
TAACATTAGATTTCTAGAAACACACACACATGCATAACACCAGGAACAAATTTTCCTATAACTTATTTTATTGATTTCTTTTACATATATGAAATAGAAA
AATGATATTCCAAAGAATTATACCTCTCAATTTTTTTTAGGAAAAATGTTTAAAAAATAAAAAAAAAAGAATTCAAATTGTGCAAGTAAAACAAAAGGTA
AATTGGAGCTCTGCTTTAAAGTAAATTTCAATAGAAGATTGTTGTTGTTTTCTTTAAGTAAGAAGCTGAAATTGCGGAGTGAGTTTTGATGTGGCAGTGT
GTATGCTGTCTTGGTTATCCAGCTGTTTTGACTCGGTTTTGATGGCAACATATACTGACCATGAAACTCAGAGGTAAGTAATTTCACCATTTTGAAGACA
CCCACAGCTCTTGACATTTTCAAAGGGTGGTTCCCAAAATAGGAGTTCTTTTGAGATGGCATTGGTATATTCCAGGGTGATGGATGCCAGAGATTGGCTG
GGTGGCTTGATCTGGGTTGCAGACAGTTAAAAGTTAAAGAAAAGTAGGGTAGCTTCTACTTCCTTCATGACCTGGTCCAGGATATTAACAGACATGCCAG
TGGACCTGGGTGCTTGATGTTACTTAACACAGGTATCATTTCCACTTTTTCCCTCTGCTCCAAGCCACAGGGAAACTCAGCCATTTCCAGGGCCCTTGGT
TTCAGGAAGGTCTCTGCAGTTGCATGGAGCCTGCTTTGCCTGGCATTCTGCAGGATTCTTTAGTACAAGGATTTTGACTGGGTCAAATCAGAGATTTGGG
CAAATTCCTGCATTTTAAAATAGTCTTCTCCTAAAACCCTTTCATTCTATGTGATGGACAGATAAGAGATACAGGGCTCCTGTATCAGAAATTTTATTTG
ACTTTTGGAGTAGAGTGACCTGAAGAACAAATTGCAGTTTTATTTTTCTCATTACAGCAAGTCAGGAGGAGGCAGCCTGGGCCTGGTGGGGCACTTCTCT
GATGTCAACAGGGTCTGCCCACCCTGCCATCTTTAGTGTGGCTTCCTGCATCGCCGATYGACCAAGTGGCAGACCTGAGGGCAAAAGGAAGCCTGATATT
GGAGTCAGCCCCCTTTGGAAGAACTTTCCCTACAGCCCACCTAGTAACTTCTGATGATACCTCCTTGGCCTGATTTAATTCAGTGCACCAAAAATATTAT
CATTTCAACACAAAACCAATGCAAACAAAGAATATGCCCCTAAATGAAATGGTGGGATCTAGTTTAATTTTTATCAAGAGACCTTCCTGAAGCCAAGGGC
CCTGGAAATGGCTGAGTTTCCCTGTGGCTTGGAGCAGAGGGARAAAGTGGAAATGATACCTGTGTTAAGTAACATCAAGCACCCAGGTCCACTGGCATGY
CTGTTAATAAAAAAATTTTTTAATGTTTTCATTCATGTATCGTTTCAACTGAATCACATGTACCCTAAAACTTAAAGTATAATAAAAATAAATAAATAAA
ATAAAATAACAAAAAAATGTTTTCACAAAGACAGTTTTCAAAGTAACAAAGGACATTGAGAAAAAAAATCCTTTGGTTGTTCCAAGTGTACAGAACATCA
GATAAAAATAACATCAATTTTCCACAGAGAAACCAAATATGTCRTTTAAATGCTTCCAGAATTAAACATTTGATGTGTATGTTGGGTGAGGAGGCAACAG
GATTGGATAGGGTGGTGGGAAGTCTGAGTTTTGGTCTCCCCTCTCTCACTAACTAGCTGTGTGGCTTTCACTAAACAACTCCAGCCCCTTAACCTCACTA
GCTCAGTTTTATCATCTGTAAAATGAAAGGATTGGTCTCGATCAGTGCTGTCCAATAAAAATAATATTTGAGCCACCTGTATAATTTTAAGATTTTTAGT
AGCCATGTTAAAAAAGCAAAAGGAAACAAGTAAAATCAATATATTTTATTTAATCCAATGCACCAAAAATATTATCATTTCAACACAAAACAAAATTATT
GAGAAAGTATYTTACATTTTTTTGCACTAAGTCTTTGAATGCTGTGTATAATTTACCCTTCCAGCACATCTCAGTTTGGACTGGCACAGTGTCAGGCGCT
CAGCAGCTGCACACCTCTCCTGGCTACTGTTTTGAATGGTGCTGCCCTCCAGAGCTCCAAGGTTTCTTTCAGTCCTGACCCTTGAGGATTGTCACCTTTT
TTTCTTGACTCAGCTTTGAGTGTCTTGGCCTCTCTTTCCATCCCCCAACCTGGGGCTTCTCTTCAGGCATGGGGTGAAGGGATCAAAACCCTGAGGGCCA
CCCCSACTCCATGATTTCTTTCTGCACTGTCTGCTCTCTGTCCTGTGCTTTCCTGATTTGGAATCACTTCCCTCGCTTTTTCTCAGGCTGAGATCCCTCC
CAGCTTGCCTTATCTCTGCCTGGTCCCTGAGGTAACCCATTTGCAGCCTCCCATTCCTGCTCTGTCTAGGCCATTTCATGTTCTCTTAATTTTGCATTCC
ATTGCCTTTAAAATCTTCAACCACTTAAAAATGTAACAATATACATTTTTTTCTTTCATTACAAAAGACGTGCTCATTGTGAAACAATTGGGAAATATAG
GAGCTTATAAAGAATAATATAAAAATCACTCATAATCCACTCACTCCAACCCAACCACTGCTAATGTTTTGATGTGCTTATCTTTGGTCTTTTTCTAAGC
ATTACGTATACATGTAAATGTGTTTTAAATTTCTTTTTCTGGAGATTTTACAGAATATATAGTTTTCTATTCTATTTCTTTCACTTTTCATTATACTGTG
AGCGTTATAACAATATCATTAAGTATCGTTTGAAAACATCATTTGTAATTGCTAATGGCTGAGGTTCAGGGAGAGATTTTGATAATATTATGTCACCATT
AAGCTAGGGACTTAGATAAACTTAGTATCTGCCCTGCTTCTCATTCCTCCTTGTTGAAGAGCTCTTGACCAATGTAAAAAGCAATAGCCAAATGTGAAAT
AAAGAACTACCTTATTAACAGCTCAGCAAGCACTGGAGACCGGCATGTTTGCATTTCCACGCTCATTGGTCTAGGTGAGGCTTCCTGGTCCCCATCCCTG
GAATCTAAGATGAGCTGGGCTTGTGGAGCAACCTTGGGCTTGACTTTCCTACTTGGCTCAGACTGGCTTTGGCAAATTGCTTAACCGCTCTGGGTATGTC
CTTATCTGTAAAGTGGTGATTATAATAGTGCTCACCTCATAGGTCTGTTGTGCAAATTAAATGAGAGAGACATATAAAGTGCTTATCATAGTTCCTGGCA
GATAGTAAATGATCCATAAATGTTAGTTTTACCATTTCCCTATTTTTGGACACTTAAGTGGCTTAATTTTTTTTACTATTATAAATTAATCAGTTTATCA
GTAACAAATATTTATTGAGTACTTACTACTGGCCAATTTTTTTTTTTTTTAAATACTAGAAATTACAGGGGTAACCAAGACCAGACAAGTGTCTGATCTC
ATGGAATTTAAATTTTAATGGGAGACATGATCAATAAGCAGGGTAAGTTTGGATATGGAAAAGGCTATCAATCACATACAACAAGATGATGCCCTGAGCT
TCAGGTAGGGTGGGCAGCGAGGAGCTTTCTGAGTTAGGTGATGTGTGAGCAGACATCTGAATGACAAGGGGGAGATCTGGGGAAGAGCAAGTTAAAGACC
TTGAAGTGGAAGTGAACTTGAGGAGTTCAATCAAAATTCAGAAGCAGGGAGCGCAGGGGGTTTGGTGTGGTGGGAGGAGCTACGGGAGGTGGGCAGGAGC
CACCTGGTCAGGGAACACTTCGGAGCTCAGGGTGAGGACTGTGGACTTCATTGCAAGGTRTGAGACATGCACTGGAGGCTTCCGTGCAGCGGAGGGATGC
CTACTCAGTGGTGTGCTGGAGCGGGCTCATGGGAGCTTCTGAGAGCCTCTTGGCACGTCTCTTCCCAGCTCCTTATTCAGTGAAATCATGTTGATAAGTG
GCTTGATCTGGGTTGCAGACAGTTACAGATTCTCCTCGATTTATCAGGACACAATCTGATCAACCCATTGTAAGTGAAAAATATCATCAGTCAAAACTGC
ATTTAACACCATCTAAACCCTTCCTAAAGTCAAAAGATCRTAAGTCAAACCATCATAAGCCCAGGACTGTCTATATTTATAACACAGGAGTTTATAGCAG
ATGCTACTCTTCCCCTAGAGAGCYAGTTGTTAAATGTTTACCAGCACACCACTGGAACAAACTAATCTAGGTTTTAAAAAATTCTCTTTGCCTATGCTCT
GTGAAGAATGAATTACAGGGAGGCAATATGCAGTTTTGACTGTAGTTTTGAGAATTTCCTTAGGATAAATTACTGGAAGTGAAATTACTACAGAAAATTA
TCTAATTGCTCCCCCTACTGAAAATGTTCATCATTTATACCTCCACTAGCAGCAAGGTACCATTTCCTTGTACTCTTACTCACACTTAGCTTTAGCCACC
CCCATAGAATGTTCCTTCTATCTAGAACTTTGCATTCTGTTCTCTATGTGTAGCTGATTATTTATTTATTTATTTATTAATCCTTCAGGTCTGGTCTCAC
ATCTCTCTTCTCAGAGGACTTTCCTGACCACTCTATTTCATTGTAATTACTTATTTGCCAGAACCATGGCCATTTATTTATGTCTAGGACAGGGTCTGCC
ACATAGTAGGCTCCCAATATATATTATTGAATGAATGAATGCATCCGCCTACCTTTCTGAATTCTCAAATTGATACTAATACAGTCAAAGGAGTTCCTTT
CCTTGGAATGTCTAGGATTGGCTTTTTTCAGCTTAATGATATTTCTGGAGTTGAGGTATATTAAGTCCAAAGAGTTCAATAATTGATAACAAAATACTGT
GCAATAACCTAACATTATAACAAGATATTTTGCAATAAAATGCAGCTTTAAAACATCTGTTATCCAAGTGAAGTGATGACTCACAGAGAAAATATTTCCA
AACCATACATCTGATAAGGAGTTAATATTAAAAAGATATGAGGAACTCAAACGACTTAAGAGCAAGAAAACAAATAACCCTATTAAAAAATGGGCAGGGG
ACCTGAACAGACATTTCTCAAAAGAAGACACACAGATGGCCAGCAGATCCATGAAAAGATGCTCAACATCACTAATCATCAGGGAAATGCAAATTTAACC
ACAGTGAGATATCAGTTCACACCTGTTAGAATGGCTATAATAAAAGAGACAAACAATGAATGTTGGTGAAAATGTAGAGAGAAGGAAATTCTTATGTATT
GTTGGTAGAATGTAAATTGATACAGCCATTATGGAAAATAGTATGGCGGKTCTTTAAAAGCTAAAAACAGGACTACCATATGATCCAGTAGTCCCACTTC
TGGGTATATATCCAAAGGAGATGAATCAATATTTTGAAGAGATATCCACACTCCCATGTTCATTGTCTCATTATTCACAATAGCTAAGATATGCAAGCAA
GCTAAGTGTCTATCAATGGGTTAATGGATTAAGAAAATATGGTGTGTATACACAATGAAATACTTTCAGCCTTAGAAAGAAGAAAATTGTCATTTGTGAC
AACATGGGTGWACCTGGAGCATATTATGCTAAGTGAAATAAACAGGCACCGAAATGCCAATATCATATGAGCTCACTTATATGTGGAACCCAAGAAAGTT
GAACTCAGACATACAGAGTACAATGGTGGTTACAGAGGCTGGGGACGAGGGGGGTGGATGAGAAAGGGGTGAGGTTGTTCAAAGGGTACAACATTTTAGT
TAGACAGGAGGAATGTGTTTTAGAGATCTGTTGCACAGCATGTTRCTATAGTTAATAATAGCAGATTGCGTATTTCAAAATTGCGAAAACAGTAGATTTT
AAATGTTCTCACCACAAATAGGTATATGAGGTGATGGATATGTTAATTAGCTTGATTTTATCATGTAAAATCTACAATTTAAATATATATGAAAACATCA
CATTAAACCCCATAAATATATACAATTATTATGTCAATTAAAATGAATTAAAATAATAGAAAACCCCCAAAAAAGCATGTTATCCATTAAAACACGAAAA
ACCAAGAGCCGTCAATAACTGCATGTTTCTAGTGAGACTACAGCAATTTCTCTGTGCACTTGCCAGAGGCTTCTCTGACATGTGGTCACCCTGGAGCCCA
TGCAACACCCTCTTATTGCCACAGACTTCTGTGCTCACTGCATGGCCAATATGTGTAGACTAACTTCTGACAGTTTTATATTCTCTTTTAAAATTTTCCA
CATTTGCTCTTGATCTCATTCTTTCTTTTTTCTGTGCTATAAATTTCTCCAGCTCTACTAGATCATCCCACCAGTGTAAAAACATGCAATAGAATGTCAC
ATATAAGAACAAAACACAAGAATCCTTGCTACCTCATACGCCTCTTTATCCTCGGTCCCATTTCTCTGCTCTCCTGTATAGCAAAACTTCTCAGAAAAGT
GGCGAATGTTGTCCCCACTTTCTCATCTCCTGCCCCTCCTAACCACTCTAACAGGTGGTCTGCTCACAAAAACTGCTCTTGTTCAGGTCATTAGTGATGC
CCACATTCCTGAGTCCCATGGTTCTTTCTCTGTCTTTATTTGATTTGACTTCTCAGAGTACTTAGACTCTCATTCTTGAAGCATTTGCTTCTCTGGCTTT
TGTGGTAGCATGCTGTTCTAGTTTTCCTATTTCACTGGCTGTCCCATTCCAGTCTCTGTTGCTGGTTCTTGCTCCTCTGCTATACCCCTGATGTAGGTGT
KCCCCAGGGCTGGCTTCTGGGCCCTCTTCTCTTCTCTGTCTATGCTCACTCCCAGGATCTCACCCATTTTTGTAGGTTTACATAAATCCACATGTAAATG
ACTCCCACATTTATAGATTCAGCCTTCATCTCTCCTCTGAGCTCCTGAGGCTGAAATCCAGCTGTTCCCTTGACATCTYAACTCAGGTGTCTAATGAGAG
TCTTCAACTGAACAGGTCCAAGGAACTTTTGACTTATGCCATCCTCCAGTCTATTCCTCCTCATGTCTTCCTTTCCCCACAAATGACACTACCATCTATG
GTGTGGCTCCAATTCCAGATTATACTAAACAGTTAAGGGAGGTGTGTGGTGAGAATGGTGGCCATACTCCCTTGGGGTGCTGTCACCAGGACCAGTCTTG
AGCCCAGTTCAGCCCTCCTTGTTTAGTAGCATATGTCTCARAACATGATATGCACGGCCASTTCCACCCACTGCTTTCACTTCCGGCCCCTTTTCTTAGG
AGTTTTGGTCTCATAATGGCTCTAGAAGCAGAGGAACTGAAGGCTAGAGTGGGCAAAAGTATTCTCTCTACTTCCAAAATTATATTCATGCAAGAGAAGT
TGACTTCCTGGTTTTCTGGGTAGTACAATCCCTAGGTCCATATGATGTGGAGCTGGAATTGTGGATGGGGAATGGTGCATTTATGGAAATTCTTTCAGGG
CAGTAGGTTTGTTCCAATTCCATTCTCATTTTTAAAAATACCATTTGCTTTTGCCTTTTTATTTTTTTAAATCATCAGGTGGGGAGTGGGAAAGTCTAAA
TCAAAGACTGTCATTCAGATGGTATTTTAGGCTAGAAATCCCCAATATAGAAATACAAATATAAACAATTAGGAGAAATTTATTTATACCCATGAGAATG
GCAAAATTCAGAAAGGTGGATCATACCACTCTTGTCACTGATGAGGGAGATGGAAATTTGCACGCGTACACTGGTGGGAGCATAACTGGTACGCTTATTT
TGGAAGAATCTAGTGAAGTGAAATGTGTGCCTGACCTATAATCCAGCAATCCCACTCTTGGGTATATATGTCCTAGATAAATTCTGAAAAGATGTGTACA
AAGATTTCATTGTAGTATTTTACTTGTGATAGCAGGGACTTAGAGGCAACCTAGGTACCCATTCCAAGGGAATAGATAAAGTGTGGTGGAGCATCTATGG
GAGGGATATGCAGTGGAGAAGCGACAGCCTAAACACATATAGCAGCATGGTTAGATTTTCACAACAGTGTTGAGTAAAAAACAATAGGAACTGGATGAGA
TTTATAACATATTATGACTTATATGTTAAGTTAAAAACATACCTACCAAACTTTTCCTATTTGATTTGRATATTTGAATATTTAAGTTTGTATGTTAAAT
ATGTCAGAGATGGTACCCATGCTAGGCAGGGGGTTGAAGGGGGAAAAAGCCCTGTAGCATCTGGAGTCAATTCAGACATAGAGAATAATAATATGTCTAA
AATTAAAGACAGAGATTTCAAATTTGAGATATTTTCCCTGTAAATTTTAGAAGRTTAGAGTTTCCCAAATTTAGATTTTTTTTTTTTTTTAAAGAACTGC
CTTTAAACCAAGTTTCATGCCCTGCTTGAGTAGGCCATGACTTTGTCTATGGCAGTTAGAGCTAGACTCTACCTTTTTTCTGCTCCCAAATTGCTCCGAG
TTGCTTGTGGTGTGAAACCGGTATACACAATCAGTTGCCTTACTTTCTAGAGGATGAACCCCTTAAGGACAGGGCTGCAACTCAGTCATCCTGGTGTCCC
CATCACCCAGCACAGTGACCAGCAGTGATCTGTACTTATTTGTCACCTTTAATTGCATCACGGTGTTTGTAGTCTTTTTGGTGTATGTGCGTGCCCTGGC
AAGAGGCTCATCTAAGGCATTTCCCCACAAAAGGGCAAGCCTCTCCCACAGATACAGTATAATACTAACTTCCAAGAACATAACATGTCATATGGTCACA
GGTATAAAAACATAAAATGGATTTTCCCGARTGATGGCCAAATTTATCCCCACAGGGAGGCAGCATCTTTTCTACTTAAGAAGTACCTTTCGGAAGTGCT
TTTCAAGTTAATCCAATCGCAAAAACATTGAATCCTACTAAGTGCCAGGGGACAGAAGTCTAGGGGGCATTTCCACCAAGATGGCCAGAAGGCTCTAGAT
CAAGTGGTAAACAGAGCGTGGTATGTGGAGTACAATCCTTTCGGCAATAATAGTCATAATAGGAAATAATAAAGACCTACATTTATAGAATGCTTTAGAC
CTTTCAAAAGTACTTTCGTGTCAATTATCTCAGTATGGTTTGGTGACCAAATCTCAGGCAGCACCTGTGATCAGGTAGATGTTTTCTTTGGAAAATGATC
TCCAGCATTGGGCTACATATTTTTTAGGTTGCATGAGTGTGCGGGGGAAAGAGGCAATTGTCGTATGCTTCCATAGAAGGAGATGAAGGAGCGAAGAATG
GAAACTTTCCCATCCCTGGGAGTAAAACCTTACATCRGTGATACCCAATCCTGCTTATTGATGCCCCAGGGGTGTCTTGAAATTCTTCAAAKGAAATTAA
TTGTAATTCACTTCAATTTTTAAAATCCACAGATATGCTGCATAGCACAATGCTTCTGGGCAGGGTGGCCCAGGGGAGGTGGACTGAAAGTTGTGTGTGT
CAAAGAAGCTGTCAATCCACCAAAGAACAATAGCAAGCTGAAACTCCCCCAAATTTGGGGGAGTGATTGGTCTGTGTTTGAACCTGCAGGGTAGGCAGAG
GCAGAAAGGGTTGATGTTGATTACTGAAAAAGTTGAAATAGCTTTGTGGGTGACCAGAATGACATCATGCTCTCAACAGAGGATGCCCTGCCTGGGGCCA
CTGCTATTAAGATGCCCAGCTTGGCTGGACACCATGGCTCACTCCTGTAAACTCAGCACTTCGGGAGGCTGCGGTGGATCCAGGCTGGGGTAGGCCTTGG
ATTGCCTGAGCCCAGGAGTTCGACACCAGCCTGGGCAACCTTGTGAGAGCCCTGTCTCCACAAAAAATTTAAAAAAATTAGCTGGGTGTGGTGGCTCATG
CCTATGATCCTACTCAGGAAGCTGAGGTGGAAGGATCGCTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGCCATGGTCATGCCATTGCACTCCAGCCTGRG
TGAGAGAGCGAGACGACCTTGTTTCAAAAAAAAAAAAAAAAAAAAAAARMWMAAAAAAKAGYGCYCAGCTCTTCCCAAAGTCTGGAAAAGCAGGCTTCCT
GGCCCCTAGGGGCTATGTCAAATCTGTGTTCCACAGTGGATGGCAAGGCTTCATTTTATCCTTATCATCTTTAATCGGCTAAGTTAACAATTCATTGCTC
TTTTTTGAGACAAAGTCCCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAACCTCCAGTTCCCGGGTTCAAGCAATTCTTCT
GCCTCAGCAGAAGTCCAGAGTACCTGGGACTACAAGCGCCTGCCACCACACCCAGCTAATTTTTGTATTGTTAGTAGAGACGGGGTTTCCCCATGTTGGT
CAGGATGGTCTTGATTTCCTGACCTCATGATCTGCCTCCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCCCAATTCACTG
CTTTTAACATTTGTTGATGCCAAGAAAGTGCTACTGGAAGGCTGHTATAGGTTTAAGAACACAATGATTGGTCATTCTTTTTCTTTCCTACCCAGATTGG
AAATTCCAAGTTTKCTCTGTCATCACATCTGGTTAATGCAGACACTCGAATCACTGTGTGTTCTAGTACTCAGAACTTAAAAGTCATCATATCGGATATG
GGAGACTCACTGACAACTGGGCCTCAAAGGAATTTATCAAGCGCCGCCTCTGCTTTTCTCTTCCTGCTTTGCTGGGTTTGCATGGGAGCTGGGATTTGCG
GGCAGCTGTAAGTGTGTTTGGGCTGGAGGCAAACTCTTGTGTCTTTTTAGCCTGATTCTACATAGCATAGTAGGAAAGGGGCCAGAGAAAGTGGCTGGCA
GTAAGAAAGCCTCTGTTTTGAGAATGTGAAGCAGCCTGGGAGAGAGTGAGGGAAGAAAGGAGGGGAGCCGAGAGTTAGAAAAGCCTTAATTCATTTCATC
TGACAGCTCAGAGCCAGAAGTTGCCAGGTCTACTCATTTGCAGGTTGTGTTGTCAACACAATCACAGTATTTTAYAGCCCACACGGACCTTGGACTCTGG
CATGCCATGTAATAGGCTGCAAAAAGTAGCAGCTCTGCTTCCCATCTCACTKGGGGCATGGGGAGAGGAGGATTGGGTTTAGGGAGGAAGGGTACAGGTG
TGARGGGCACAGGTATGAGGTGCATAGGTATGAGAGACTCAAGTGTGGGGGGCACAGGTATGGGGGCATAAGTATGAGGGRCACAGGTGTGAAGGGCACA
GGTATGAGGGACACAGGTATGAGGGTCAGGGCATGAGGGAGACAGGTGTGAGGGGCCAGGTGTGATGGGCACAGGTATGAGGGACAGGTGTGAGGGACAC
AGGTGTGAAGGGCACAGGTGTAAGGGGCACAGGTGTGGGGGAACATGTGTGAAGGGTACAGGTATAAGGGGCACAGGTATGAAGGGAATGGATGTGGGGG
ACACAGGTGTGAAGGGCACAGATGTGAAGGACACAGAGCTTCATCTTTGCTCCTCATTTTGTTCTTGCGCCTTCTCTTTCCAGCTGTTACAAAGTGCCTT
CCAGTGGGCCACCTCCCCACTTCCTCTGTTGGGGGCAGGCCAGCACAGCCTATTGCCCAGATGGCAGGGTCTCAAAACAGCCTCCCAGTGACCTGGTTCT
ATAATATCCTAGAAGGAGTTGGAGGACATGACCATGTCCTGGTTCTTTGTGTTCAGATAAACTCAAAGGCCCTCAATTTCAAGCCCTTCCACATCCTGTC
TCTTTCTTCCTTCCATTCCCCAGAAGACAGTGATTGGTGGGTCAATGGGCTCCATAGGTGATGTTCCACCCCATGGGAGAGAAAGGATCTTAGTGCAGCT
GTGCCCACTGTCCCATACGTGGGCTGCTCCCTCTGCAGGAAGTCTATCTCTGCAGACCAGCCTTGCTGTCAGGAGCGCCCTGGTCACCCGGCCTCTCTGG
CTTATTGTGCAGGAGGGGCAGAATTCTAAACCAAGGAGAAGAAAAGCCCAAATGGAGATAAGCTGGCCCAGTGCAGAGGGGCAGCATAACTTAGTAGGAA
GCACTAGGCTAGAGTTTGAGTCCTGGCTCTGGCTTTGCAAAGTGTGTAAGTTTACACACACCACTTTACTTTTTTATACTCAATTTCTTTCTCTGCAAAC
TATGGGAAAAAATCTCCACTTTCTCTACTTTACAGAACTAATATAAAAATGTGTGAAAGCACTATGCAGAATATGAAATACCAGATGAAAGTAAGGTGGT
GGACAGAACTGTACAGCCTCAGGCTTCTCAACCAAAGATCCAGGTCCATTCTGCTGTCTGCCTCCAGTAGATGTTTGACACGAACTCCATARTCTCAATT
TCAACCTCATACTTCATGGTTTCTTTGTCTCTTCCCTGGGTTTTCCCCATGGCGATAAGAGATCAGAAAATGTGCTCTCTCTTTGTGTCTGAGATGTTGG
AGATGACTAAGAAAATATCTTAAATGTATTTTGAGGCCTGGTATTCTAAAACAAAGCCTGCTGCTGAGGAAAACTACAAAGGGTGGTACAGATTTAAAAG
GAGGCAGATAGCCTGCTGCAGGCAGGACCACAGTCTTATCACCYCACTACACAGCTATAAAGACACACAGGTTCTGAGGTGGCATGTCCTGCAGCAACTG
TGTAAGGCAGGGCTTCTTATCCCTGTTTTACAGATAAGGTAATACTGAGGCTTTGTGAGCAGACAGAGGTCTCTCCAATGGTGAGGCCAGGATTTGATCC
CAGGTCCGTCAAACTCCAGGATCCATTCTCTTCCCCCTGCAGCACAATAAATTTGATTATGCATAGAATGTATATGTGACAGCTCTCATCCTGTATCTGC
CTCACAGCAGGACTTAGTGCTTTGATGAATCCTCAAAATAATTTAGTTTCATAGTACACTGATGGGAAATGGAGCTTTTACTGAAGATTTTCTGGGGCCA
GATCAAGAAGACATTTTGCATTAAACATCATCTAAACAAACTTCCTTTAATTCCTTGAATTCATTCTTAACATCTCTGTTCTTCCTAATGCTTGTTTCTC
AGCTCTACTTCCAGGATTGGTTCATCTATTTTTTCTCACTCTTTTGCTTTGATCCCTTGGTATCTCCTCCAKTGTTCCAAGTAATTCATTTCCCTCCCGC
AGCATAGGCAGGGTGGCCGAGAAAAAGCCCTGCAGTTAGTTGAGCTGCCTTCCTTTGATAGCAATCCAGTGAGCATCTGGGTTATTCTGGCATGTCCCCA
GGTGGGGCTGACCAAAGCATTCACTCAACAGAGTAGGTGTCCTCCAAGGCTAAGGTGGACTGTGCTATTAAAAAAAAAAAAAGATTTTTCTTTATATTGT
GTGATGTGGGAGAGATGGAGAAGGAGAGGTAAAAGAGAGGGTGTAAGGTACTGGAACTGCTATGGGGGGAAAGGGAGGAGGGAATTGAYAGGGGACATTA
AAATTTGAATTACAGGACTTGGTGATTATCTGGAGAAGKAGAGAAAGGAAAGAGAAGGGAGGACTCCCAGGTACTTGACTACAGCAGCAGGGTAGAGTAA
GATGGAGAATTCTGGAAGAAAAATGGATTTGAGATGGGTGAGAAGAAGAATAGTTTGGGGAAGATAATTTAGTTTCTGAATGTAGGGCTTCCTTGCTATC
TACTTGGGACCCTGCCCCTCCTGTCTGACCCCAGCAGATGCACTTTTTGCTTTAGTTTTAGGTCATCTGCTGATTCATCTGCTGATTCAGGCCAGCACCA
GCTGGGGAGATGGGAGCAGCCAGCAAGCTCAGGAGCTCAGAATGTGATTCCCCAGCTCACCGCCATGATGAGTGCTCCGTAGACAACTTACTCTGCTTGG
AGTCCCCTGGGGTTGCTCCCACCTCTGGGGTCTCCTCTTCCATTTTTCCCAGCTGTGGTTCCTCTGTCTTCTCTCTCTGTAAATTTTTTGACTTCTGATC
TTTCAGAAATTTCTCACATCTCTGGCTCACTGATGGCATTCATGTTTTCCAGTACTAGTTTTAGATATGTTCCTAAACAAAACACAACAAAATGGAGGAA
AAGAAAGAGAGATACGTACTGAGCCTACTTTCKTGATCAACACTTCTATACTTATTTGTTTTCATGTCTCATTCCCCTTCATGACTTTGAATTTCTTAAG
GGCAGGAATCCCTTTCTTTCTGAGCACTAACCAATTCTCCTTTTCCATGCACTAGGGAACTTAGTATTTAGGAAATTCTGTGGCTACTTCTTTTGTAATT
GAAAACAAAGATTAAAATACAATACATAATCTTCCAATTCAAGATTTGTTTTTTCATATATTTCCAAGTCAACACTATTCCTGAGTGCCTCTTCTGTGTT
TAGCATGAATTTAAGCAAATATGTGGAAAAGTGGAAAACATGAACACACCAGATGACCCTGCTATTCCCCATGCTTCTGGGTTTCAGGGCTGGAGAGGAT
GAAGGATAGGAAGTGAGGATGAAGGATGGAAGTGATTCTCTGGCCTAGAGGAAGTGCCTTGTGTAGCTGGCTCATTGGTAGGTGAGCTTCTGTCAGTCCT
CCCCAACTTCATGTCTTTGCTGCATACTTGTCCTGTAATTGGTATTACACCAGGAGTATGAGGTACAACAGGTGATGTAGCACACAAGGGCCTTGCCCTC
AATGAACTGGGTGGATCAGCCTGACACAGAGGCAGCAGTTGGGGAGCATTCTAAGTTAAGAGTTAAAAATTGTAGCTCTTGACAGATCTGGTCTCARGCT
CACCTGACTTGCTAAATTAGTGATTCATGCAGTAAGATCATTCAGATTCCAAAAAGGGAGGCATCAGTATGGGGAGAGCATCTTTTCACCTTTGCACATG
GCTCCAGAATTTCCACTGGTTCAAAAGAATCCCCAGCAACCCCAGTCTCAGGAGATAATTGCTCTTAACAGCGCACCACACTGGGCAYCCCAGCACTTAT
GGACAGCAGAGGAATGTAAGGGTGAATGCATGTTTTTTTTTCTGCAAATGACTGTCACTCATTCATCTTGGAGCCCACCTGACAACTTGCTTTCCAGGTA
AAATAGCATCATTTTTCTAGGCTGGCTTCTTCTATGCTCACTAGCAGGGCTGACCTCAGATGTCTGGGGCAGTCTTARGTACCTTACCAGACTGTGGTGT
TCTTTGGGGGGACTTCCAGGACTGGGAGAGGATGTGGCAGGGGCCATTGTTCTGGAGTCTCCCAATATCTGTGAGGTCATCACAGGGGTGCCATCCTGCC
CTTGCAGCACAGCTTAGATTTTGCCTTGGTCTGTAATAAAGGATGAAGTGAATCTCTGCCAAAGGTCCCAGGCTTGCTTGGTGCCAAGGGTTTCATTCTG
AGCACGTCAGCATACAGTCGGCCTAATGGATAAAGCTATTATAGATTATCTAATTAATACAGCAGACTGCTGTTTCATTACAGGGGCTATGGACTCTGTC
AGTGCACAATGCGTAGAGGTACTGCCATCAGTTTCTTGTTCCTGGTGTTGGGGTGGCTAATGTACTATATGAAGATTCAGAGGCATTTAAAAAGATGATC
AAGTGCCATGCTGAATTCATGTTTACAGCTTCTTGGCTTGGGCTCTTGAAATCTAGAAGTCTTTGGGACTGAAAGCGAAGAATTTGTCTTGGTTCAAAYG
CTGTCTGCTCAATCCCATTATTGCCTTCCAGCACGTGCCCTTGGACACTCTCGTATCTTGTTGTCTGGTTGTAGAGCAGATTTTCACATGCTGGGAGACA
TCATGAAATGTGCCATTTGTTTCACTGAGAAAGCTCTTCTGGTGGCTGGTGGGGCTGTGGCACCTACTAGATCACTGTGTTATTTCCAGATCCTGTGTTT
GGTGTAAATGGTACCTGGTTTGTTTCCTRTCTTTAAATTACAGTATTCTTAGGAGTGCTGTTCTTTTGAACTGCACCTGTTGGACTCTTCTTAATTCCCG
AAGAATCTGGGCCATTGTTTTTTAAGCTTGTAATATTATCCTTCACTGTAGGGTGATTTGGTAAGGTTGCACTTCCAAGGTTCTTACATTCTTCCCAAAT
GTACCTCATTGCACAAGCTGCTACCAGGAGAAAAGGGTGCCTGGATTAGTCTCAGGGTTCAAATATCCAGAATATCAAGGTTTCTCTTAGGAATAGTTAA
CTGAGTAAAAGAAAACCTGCTTGTTATTCTATTTTGGGATTTYCCCCCCCTATAAAAATAGAACTGTATTTAAAAGTTAAATCTAGACTGGGCATGGTGG
CTCATGCCTTCATTCCCAGAGCTTTGGGAGGCCAAGGTGGGAGGATCATTTGAAGCTAGGAATTTGAGACCAGCTGGGCAACATAGCAAGACCTCATCTC
TAAAAAAAAAAAAGAAAAAAAAAATTAGCCAGGCATGGTGGTGTGCCTGTAGTCCCAGTTATCCAGGAGCCTGAGGTGGGAGGATGGCTTGAGCCCAGGA
GTTCAAGGCTGCAGTGAGATATGATTGCACCTCTGTACTCCAACTTGGGCAACAGAGTGAGACCATCTCTTAAAAAGAAAAAAAAAAAAAGCAGTTAAAT
CTACGTATAGATAGTAAAGTGTTTTAGTTTTTCTGTTACTGCCTTTACAAATGACCACAAATTTAGTAGTTTAAAAAAACTCCAAATTTATTATCTTACA
ATTCTGTAAAGCAGAGACCTGGTATGGGCCTCCCCAGGCTAAAATTAAGGTGTGGGCAGACTGTGTTCCTTTCTGGAGGCTCTCAGGGAGAACGTRTTTC
CTGCTCCTTCTGGCTGTTGGCAGAAGTCAAGTCTTGTGGCTGTAGGGTCGCAGTTTCCTTCCCTTGCTGGCTGTAACCTAAGGGCTCTTTCATGCTTCTG
GAAGCTGCTGCATTCCTTGGCTTGTGGCCTCTTCTCTCCATCTTCAAAGCCAGTAATAGCGGGTGGGGTCTTTCTCATGCTCTGTCTTTTGAACTCACTC
TTTTCTCTTCATCTCTGCTTTTAAGAGCTGGTGTGATTAGATAAGAGATTATGTAATTAGTCAGACCATGATAATCCATGATAAATCTCTTCATTTTAAG
GTCAGCTGATTAGCGACCTCAATGCCATCTGCAGTCTTAGTTCCCGTAATTTACAGGTTCTGGGGATTATGATGTAGACATCTTTGAGGGGGACATTATT
CTGTGTACCACATATGATTTCTTCATTAAACACAATACATGTAATTTAAATTCTAGAGGTTACAATGGGGAGGAGGTAAATTAGCTTTTTTTGAGCACCT
ACTGTATGCCAAACCTCATGCTAGATCTGCACATGCATCCCCTCATTCTAACATCTCAACAACCAGATGAGATAGATACTATCCTTGTTTGATGATGAGT
TAACTGAGGTTTAGAGAAATTAACTAACTTTCCTGAAGTCCAAAAGCTAGTAAACGTAGGAGTCAGGACTCAAGCTCAGGTGGCTAAGATTCCAAATCTG
AATGTTTCTCTTTCCACCACATCATATTTTTTCTCCTGGGATCTCAACTAAAAGCCTCAGAAGTAATCACTTATTTAAATGTATGTGTTTCCTCCAGGTT
CGTTATAGTCTGTTTGAAGTCTGAGTTTGACGTAGATAGATTACTCATTTCCCCTACTCCAGCCTCTGATAAGCAGCAGACCAATTGTATATTACCACAA
CCTGGGAAAAGAGAGATAACTGATAAAGTGAAGAGACTTTGTCTCAAGGCCTTTGGTGGGGCTGAGCTCTAAGTCAACTAAGTGGCTTAAAGTGGAACCA
GGCATCTTATCCCTGCAGGGCCTCCCCTGGGTGTGACAGGTGGAGGGCATACCAGTCGGAAAGCTGGTCCAAGCCTCCTCTGTCCTGCTCATCTCAGCTG
CCTGGGACTCTGCAGAGAGGCTGCCTGGGACTCTGCAGAGAGGCTGCCTTTGGTCAATTCAAGCTGCCCCAGCCAGCACGGTTGACTGGCACAGAACGGC
CTGGAGTGGCTGTGCCAACTCAGTCATAATGGGAGGAGCTGTGCAGAGAAAGACCTTCCAGGAATTGAGGGTGCAAGGAGATAGGATGGGGCAGATATGA
GCGGCAAGTTTGGTGGGGCCATTGGCAGGGCCACATCTGGAGGCCTCCCATTCTGTGAAACACCCCAGCAGTGTGTTAATTGATTTATTTTGAGTGCAGT
TTGTTTGGATGTGGGTAGACTATTGATGCTGTGGCACTTTGGAAGCTCACGTTTCCAAGCCAGAGATACTTCATTTGTGTCTGAATGAGAAAAATCTCAA
GATACATGCCGTTCCATCCCTGAGATGCCTGCCACAGTACCAACTCATGGAGGCTGCAGTTACTTCAGTCTCATATACACATATATGTGTGCTCACATAC
ACACTTTTAAATAATGTGATCGGCTTATGTCCTGCTTCAGTATTCTTGCTCTTTTCTTCCAATTTGGGTACTGCTCTGACAGGCTGGCAGCACACCACAA
TTCTGTCTTTGCACATTGATTGACCTGACTCTGACATATCAGGATTGCAAATTACTAACTTGCTTTTAGGCCCTGGCTCCTGAGGAATTTATAATGTCTA
TTGGGATCTCTTCTCCCCCTTAGCTTCTGCATTGAGAGTCAGAAGTGTGCATGAAGTGGTGTTGGCTTCTTTCTGTTTGTATCCAGGAGGGTGGGAGGCC
CCAGGAGAGCAGACATCTGGGGCTTCTTTCTGTTGCACTGCCAATGCCTATCCACAGAYGACCTTATGTGAAGGTGCTAGGCTGTGAATTCCTTTGTTTT
ATTTCAGGAAACATTGATTAAACATCTATTTTGGATATTCAAAGACAAAAAATGACCAACTTATTTCTCAATTAAAATGGCAAATGCAATATAGTGTTAT
CATKGCTATGGGGAGTGGTTGGGAAATATAAKGTATTATAGGGGCACAGGGGCACATAGGAGGGTGCCTATATTAGTCTGTTTTCACACTGCTATAAAGA
CATACTGAGAATGGGTAATTTATGAAGAAAAGAGGTTTAATTGACTCACAGTTCTGCAGGCTATACAGGAAGCATGGCTGGGGAGGTCTCAGGAAACTTA
CAATCATGGTGGAAAGTGAAGGAGAAGCCAGCATGTCTTATGTGGCTGCAACAGGAGGAAGAGAGAGAGCAAAGGGGGAAGGGCTACACACTTTCRAACA
ACCAGATTTCATGAGAATTCACTATCACAAGAATAGCAAGGGGGAAGTCTGCCCCCATGGTCCAACCTTCTCCCACCAGGTGCCCTCCCCCAACATTGGG
GATTACAATTCAATATGAGATTTGGGTGGGGACACAGAGCCAAACCATATCAGTGAGTGCCCAACCCCATCTTGGTAGTGGATGGTCAGGAAAAGCTTCC
TTTAAGAACTGACATACAAGCTAAACCTAAAAACAAAGTGGAGATTTTCAGGTGAAGGGGGATTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTGTGTGT
TTGTGTGTAGAAGGGGTTCAAGAAGAAGGAAAGACAAGTTCTAGGCAGAATAGATGGCATGGGAAAACACCCAGAGGCCARAGATAATTTGGCAATTGAG
AGAATTAGAAACCGAGATTATGGGTGGTTTTTAGAGCGCAGTAATATCATGGATGGAGGTATGGGGAGAGATTAGATTAGCAGGAACTAAAAAACGAGAT
AATAATGTATAGGCCAGGTGCAGAAATTTGTGCTTTAACCTTAGGGAAATGCAGAGCTACTGAACAATTGTAGAATAGTTTCATGATCAAATTTGGCTTT
AAAGGAGATGATTTTAGCTGTGATACAGAGAACGGCTTGGAGGAGGCAGGACCAGCATCAGGGAGACCCACTGCAGTGGTCTTAGGTGATAAGAGCAGTA
GCCTGACCTAAGGACTAGAATGGAGAAAGCAGGTGAATCTGAAAGATATTTAGGAATTGCAAAGAGTAGGACTTTGTGATTGAAGAATAGGATTGAGGGA
GAGGAGGTGGCAATAAGAATACCCCTATTTCTGGCTTAGGCAACTGGATGGTGATAGTGGAGCCATTGATGGCTACAGAGACAGAGAAGGCAGCACAAGT
GTGGAGGCATGGGGTGGAAAGATGAGAGCTGTATGGGCATGTGGAGGTATAGAAATACTTCTGTGCTGTTGACGAATAGTCAGCCCTTAGCAGGCACTCA
TATATTTTCTTCCACTGCCTCGCTCACCCTAACTAACCCAGTACCTAKGGCATTCTCAAGATCTAGAAATGGAACAGTTACTGTGTGACATAGCAGGAGG
TCTCCTGTTCTGACTGGTTAGTGCCCTTGCCATACCAGATCAATATTTTTAACATCCCTTCTGTGGAGACAGTTCCTGTGGTAGGGTTCCTGTGGCAGTT
GGTTGTAAAAAGACAAGAGCTGAGGAGAAAGAGGTTATAGCCAACCAGGCACGGTGGCTCACACCTGTAATCACAGCATTTTGAGAGGCTGAGGTGGGTG
GATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGCGCATGCCT
GTAGTCCCAGCTACTTGGCTGAGGCAGGAGAATTCACTTGAATCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGTCTGGGCA
ACAAGAGCGAAACTCAGTCTCAAAAAACAAAGAAAAACAAAAAAAATAAAGTCATAGCTAGCAATGTTTTATTTGAGAGTCACCACCTAAAGGGTAAAGC
CTTTGAGTGSATGAAAGTCTTCAGGAAGAGTGTAGCAAGAAGGAAGACAGGGCCCAGGGCTAAGGAATTTGGACTTTACCCTACGAGAAGTGGGGAGCCA
ATAWTGTATTTTAAGCAGGGGCATGAGGCAACTGGTGARGCCTGCAGGACTAAAGGGAGTGCCAGAGATGTCTGACAAGGTTGCTGCCCTCAATGAACTA
ATTGGGGTAGGCGAGATAAATGTCTCTTGGAAAGTAATGGTCATGCCAGGTGTGATGATTAAGTAGCAGGTGTGTAGCACAGAGAGTAAGGGGGCTAATT
GTTTCCCACAAAGTAACTTGGAGCCCCTATGGTTAGGGCCGGATGAGGGCTTAGTCAATCAATTTGCCTTTGTGGTAATCCTGAATAGAAGAGGCTGCTC
CTTGGGTGAGAAGACAAATAGACTTTTGAGTTCCCTTTAAAGGCTAGACACTTGGATAACTAGGAAGGGTTCTTAGTAAAAGCRAATGCCTTTTATGAGA
CTGTGCAGTTTACAAAGCCCTTTGATGTCTGCTACCTCATTTCATTCTTTTAACAAGTAAGTTAGAGGACATTGCAGAGATAAGGAAGTGAGGCCCAGAG
ACGTTAGAAGTTAATTAATAAGTTATGGAGCCAGTCTTCATGTCTGGGTCTTTAGATCCAAAGTTTGATTCTTTCACACTTCTCCAGTGGTTTGCAAACT
GTGTTCCTTGGAGCCCTTCAGGGATGCCTTGGGCTTGCAGGTGATGGGGAGGGGATGGGAAGCATTCAGGGAGCAGGGCTTCTGCTCCCAGAGCCCTACC
TCAGCCAGGGCTCTCAGGAATTTTCCAGTTTTCTATGTCAGCCTGTTTTGGAAGGTTTCCCCCAAGGAAGCATTTCCCAATGTGGAAAAACCTACTCTAT
GCTGTCTTCAAGGCTATCTCTAGGTAGGCCTGTCCCTAAACCCTCCTCCRAAGTTGGTGTGAATTCCTGTGCTTAACCACATRCAAGATCTAGCAAAACA
CTTCTTCTTTTCTAACCCTAACTCTTCAGCTCCAGCTCCAGCCTATTCCCTCTGGATCTTGTTCTAGGTTGTCTGGTGGTTCTTCTCAGTACAATCTGTT
TCGTTTCTGCCCCAACACCCTACCACCTTTTTCTAGATTCCTGGCACTCCAGACACTGGAAGAACGAGTATAAACATTTACCAGCTTGGATCCTTTCCCA
GACATGCATTGTTGCTGACCCTGTGACCATCAGCTGGACAGTTTTAGTGTCTTCAAATCTTGATGGACTTGTATTTGGACACTTTGTGGCAGTGTTTTTC
TGAAACCAGTGCATCTCAAGTAGTTGGATCTAATAATTCCTTTGTTCTCAGAAATTGTACGTTCATTAAAACAATCCTTTGTCCATTAAGTTACTTTTTT
TAAAGGCTACAGTTTGCCTGGATGTATCCAGTAGGCATGAGTTAGAGATTAAAGACAAAGGGCCCAGGGGCAAAGGAAATAATTTTGTTTCCTAATCATA
CAGTGACATTACAAGTTAGCATTTCTGTAGTTTCCCTKGCTGAGAACTGCCTAGAATTTAGTGATAATTTCCTGACTCACAAATTGTGAAACCTAGGCCT
AAGCCTTTCTCCTYTTCTTAAATATTTATTGAGCACCTACAGTATAGGTGCAAAGCTTAGCTCTAGGCTCTGTAAAGGATACAGATTTTAACAAACAGTT
TCTGCCTTCAAGGGAGTTAATGGTCCCAGCATGTGCCTAAGTAATACAAGGAGGAGGCAGGGAGGGGTGGATGGAGTAAGTGCTGAGGGTGGCCTGAAAA
TGGAAGTAATCAGTTTATTTCAGGGTTCCAAATGAGAACATTAGTATTATGCTAAGTAACTTCTCTTTTATATCCTGCTCCAGAAGTGTAGGGGTTGGTG
GCAGAATCCCRCAGTGGACAGAGGCCCAGAAGCCAACTGGACAGAAGGTCTAGCAAGGAGAGCTGACCCTGATAAATCTAGTCCCAGCTGCTGGTGTGGT
TGATGATAGAGAGCTGTGGGCTCCAGAGGAATTCTGGTGCTGAGACAAACTCACGTATTTCAGTTGTATGCTTTGCAAAATCTGTTTGATTGCCAGTAGC
TCTTGAGCCCTTAGCCCCTGATAGGCTGGTCACCCACCAGATCCACAGCAGGGAGAACACAGGCTCTGCAGACAGAGACTGGGTATAGGTTACTGCTCTC
TTTCTCACTTTACTGTGTTGGTTGCTTAACTTCTCTTGCCTCAGGGTTCTCACAGTGCAGAGGGGAAATGATACCTACCTTGATGGGTGGTTGAAAGGGT
GGGAGAGCGTGCAGGGAAAGAGCTTGGCATACAGTAGACACTCATTAGATAGTACCTCATTACTTTTGTTATGAATCCAAGGGCTTCATGGTGGGATCAA
GGACCACAGCTGTGGTGGCCTAGCACAGATGTTGCATTTTACTCTTGTGAGTGGTCAGGAAAGCCATGCTGTATGGTGGAGTGAGGGTCTAGAGATCAGG
CCCCCATCCCCACCCCGCTCCCCAGAGCCTCCAGGGGACCTTGGACAAGACTCTTAACCTTCTCTGTACATTATTCCTATTCAAACACTGATAAAATGGA
AGTGAAAAATCACAACCTTCTGAATTGAAAGGGACCTTTCAATATAATCTACAATAGGTGTATTTAGTAGAAGAGACAGTTGAGGCTTAGACAAGGTGAA
ATGAAGCTCCAAAGGCAAATCAGGGGGTGGCCCTGTCTTGACTCCCAATATAATGCTCCCCTTCACATAGTTGCTACCCAAGTAGGTGGTGGCTTGAGAG
TTTGGGAGCATTCATGAACTATTGCATCTGAGGTGCTTTTGGCTGGACCACTTATATCATAGACAAATCCATTTTTATTAGCATCATTCAAGGTTCATAG
CATAAAGGCAGCAAGAAATGGTAGTGAAAATATGCTGTCTTCCCCCTAAACCAGTTTTAATTTCTTAACTCCCTCCTGCCCCTTAGTTCCTCTAAGTATT
TTCCTCCTCTGACCTGATATTCATTCACTTGGTATTTATTCCACATGTACTAGGCTTTGCGTACTACAGGGACTTCATAGCCAAGACATGCAAAGTTGAA
AAGTTGGATAAACAATACAGGAAAAACAAAAGTGAACAAAAATGCAAAGCACTATATGATTAAATGTTAAATGAGAAATCTATGCCTGTGGTTCCCAAAT
GCTAATTTATGGATTTGTACTTGTTGATGATAACATTTTCATCAGTTTTCTGTGAAATGAGAAAAATAGGGCAAGGTGTGATTATTTCATAAGGCTACAT
TTATTTAATAGGATTTTCTGAGATTATATCCTTCCAACATTTTAGTGCTAAAATGCCCTTTCTTTTATGAGATGTTGGAGCATAAATAGTGGTGGTTGAA
AGCCCATACTTAAAAAAATAGAAAGTTGGCCACATTATATTGGTTTCTTTTGAAATTTGGCTCATCCTTGAAATCTAAAGCTAAGACAACCACTGGTGGG
CACAAAAGTCCAGAGTGAAGGGGAGGAGCAATTTTTGAGGAGTGGAGTGCTCAGGGAGAGCTCCAAGGACAAGGACAAACACTGATAAGGAATTGAAGGA
TGAGAGGATTCAATAATGTGGAGAGGTTTGGGGAGRCTTCCTCTTGAGAGGATAACGTGAGAAGAGCCTTGGGAGCAAGTGTGGAGGGTCTGTTCAGGGC
AATAGGGAGAAAAGTTTGGATGCCTTGTCTTTTTACCTGCTGTGCTCGTAAAAAATTCACCCAGTTGTTACCACAATAAAAACTGATCTTTGGCTCCTTT
CAATTAACCAGGTCACTGTCCTGAACTACTTGCCCCAGTCACTGAATCAATGCCCCAGTTCACCTTGTATTCCAGAACTAGTCTTTCATCTGCTCAAGGC
AAGGTCAAAAACAGGCATACAAGAGCATCTGATGCTCAGTAACTCAGCTCCAGTTCTGACTTCTTTTTTTTCATCCTTGACCATAATTTAGACTCATTAA
TGGGTTAGATGGTCTTTGCTCATTCTGGCCTCGTTTCTGGGCCCTACACCCTAGGCCATGCCCTTGAATGTGTCCCTAGCTCTGTGAGGAGGACCCATGA
GCAGTAGTGTGCCAGATGCGTCACAGAGGGGACTTAGGGAATGGAAGAAGGCTCAACAGGATGCATTTACTGGGTGGAGAGGGAGGAACTGGTGGCCTAT
GCCTGTGGGACTGAGGTTCGGATGGTTACCATTGACTAAAATGGGAAGAGAGCCTGTTTGGAGGAGAAGAATTTGGTTTCAGGGATGTTGAGCCCAGGAA
TGGGAAGGGAGAACTGGTAAGAAATTGGAGGGAGGTGAAGGGAGGATGAGGAGAAGGACCAGGTCCATTTGGAGTCATGGTCAAGGTCTTCTGGAGAGAG
ACTGCATCATTGCTGMWGGTACCAGTGAGTGAGGAGGAAACTGAAAAGAGTTCAGCCTCACAGGAAGGCTGGAAATTAGTGCAGGAGGGATGGGCAGGTG
AGTAGGAGGCTGGGGAGGTCACASAGGACAAGATGAGAGAGTCCATTAACCTAGAGAACATACCATTTGTGTCTGTAGGGGGTACTCCTGTGTTCTGGAC
TAGGAGGAGTTGTGTTTCACTATGGGTGAAGAGCCTGAGGGTAAGGAGAGGCTGTGCCTGTTCTGCGACCCTCCATGTGATCTGAGGTATTCCCTTGGCA
CATACTCAGACACCCACCTCCTTTGCTTGGTGTCTTCAATCTTTCCATACCTCCTCCTCAGGGGGAAGAAGTCCTTGCTTCAAGTAACTGACTGGCTGCA
AGTCATGGAGAGGGTTGGGGCCAAGGGAGCCATCTTTTTTTACGCCTCCCTCTGGGGCTGCTAAGAGCAGTAGATCTGTTTGAGCTTATTTATGTGCCTG
GAGTTGAGAGCTCATATTTTGCTTATTCAACCAGCTTCCCACGCTGCCAGGAAGGCACTAAGCAGCAGAAATTCATGTTCACCCTCTCTGTCTCCCTCTC
TCTCTCACTCTGTCTTTGGTATTCTTCAGCTCCAATGGGAGCTAATATTTACCTGCAGTGTTAGCTGTGGGGCCGTGGGATGTGGCAGCTGGAGGTGGAG
AAGACTTTTTTCTCCCTTCCTCCTCCACCTGTCTTTCCCTAGAGATTTGAAAAGGGAAAAATTGTAATTTTAATCTTTAAGACTGCCTGTTTGAGATTTC
AGATGTTGTTGAGAAAAGTCAAGGGGTCTTGTGCTCACTTTTCTACTGAAAGATAAGTGTCTTAGTCTGTGAGCCTCTATAATAAAGTACCACAAAGTAA
GTGGCTTGTAACAACAGAAATTTATTTTTTATAGTTCTGGAGGCTGGGAAGTCCAAGATCAAGGCACTGGTAGATTTGGTGTCTGGCAAGGGCCCTCTGC
CTGATGGATACCTTTCTTTCCACTGTAACCTTACAAGGTGTAAGGGGCAAAGGATCTCTTTGGGGCCTCTTTTAAAAGGGCACTAATCTCATTCATGGGG
GCTCCACCCTTATGACCTAATCACTTCCCAAAGGCCCCACCTCCTAATACCATCCCCGTGGGGGGTTAGGATTTCAACATATGAATTTGGGTGAACATAA
ACATTCAGTCCATCAAAACAAGGAGGAAGATGAGATTGGTGGGCTTTTAGGACATGCTGCAGAGAAGGGAGAAAATGTCAGCCAAGGAATACTGTCATAC
TGTTCCTTACAAGTGGAGTGACTCCCGCGTTGGTGACAAGAGGGCATGGATGACAGAGTCTGAGACATTACTRTGACTGGTCTTACTTGGTGCTGGTCAG
CTCGGACAACTTCTGCAGGGGGAGCCTAGCAGATTTCATGTGCTAGGCACAACAAGCAGGGCTGGCAGCCATAGCTTCTCCCTACCTGCAGGGAATGTGC
ATAGGGGCAAGTTCCCTCTGAGCCCACTGCCTGGTGCTGACTCAGCCCAAGTGCTTACCTGCTCACCAGTCAGGAGTTGAACATATAGATGAAGTTGAAC
GAATGTCTGAGGYCAGGAATAGGAAAAATGTCTCAGCTCAATGTGGTTTGCGCATGACAAAAAGAGTAACTGGTGATATTTCTAAGACCTTGGTACATTC
CCACTATGGGACAGGATCGTCCCTCTCCAGGATGCTGGGGGAAGGGACAGGTGGGAGATGGGGCAGGGATGAAAAGGAGAACCTTGAGGCCGGGAGTGGG
TGGGGATGTTGGCCTGCATGGATTCCACACAAGGTCTAAGTCCATCTGTGTGTGTAAGCCAGCGCCCATAGCGGCTGGAGGCTCCTCCACTCACTTCTCC
AGTGCCTTTTCCTGCCTTTATAGCAGTTTTCCAGAAAGTCTATTCCTGTTCTTCAAACTGCTCTTTTATGCTGTGTGTCATGATTTCTCATGCCCCAGTT
TGTCCTGTTGTTGCCATGGTAGCTGGCTAGGGGTCGTCTCCAGTTGGGTGGGAATATCTTGCTGGCAGGCCACGGAGGCAGAAGAAGATATGGGTGACTT
CAGGCTGGTGCTTCGGGGACTCCTGGTGTTACAGACCACCACCTGGCTCCCCATTCCYACCCCTCTGCATTTCCCACAGTTTCCTATGCCCACCAGAAGG
CAAAAACAGAGGAGGAAATAAGTGTAATATTTGCCTTTGTTACGGCCATTTCAGAAAAAGCCTGGCAAGGCATAGACTGCCCCTTTCAAGATTGAGCTAT
GGCAGAACTAAGATGGGACCCTTGTCTGGGCAAGAACCGCAAGGGAACACTTGTCCCATCAACACTTAGAAAGAGAAAAGAAGGCAGCAGACAGCAAGGC
AGGATTTAGCTGTGAAAAGCCACTTCCAAGAAACACGAAGATAAACTGAATGCCCTTGACACCTATGAGCTAAGCATCTGGCAGCTGGGACTCTCCATGC
CTATGAATATAGAAACTTTTGTATGGGCCCTTGACTTCACTTTTGTGAAGTTTCCTGTGATTTGGGCACACTGCATTATTGTTTGCCTTTCTATCTTTCA
CTTTGGTTTCTATCACATTTGATGGCTACTTTTCACATGATACATTTTAAATCATTTATTTACCCATCCATCCATCCATCCATCCATCCATCCATCCATC
CATCCATCCACCCATCCATTTATTCAACAAATATTCAAGAAATAACCATTGATTACATACTATATATTATGTACTGTTCCAACTATGGGGAGATAGCAGT
GAACAATATTGACAGTCTCTGCTCTCAAGGAGCTTACATTCATCTGAGATAGATCAATAACAAATAGACAAGAAAATACAGGATAGTAAAGAGTGGAAGA
TTAACCTGGGGTGATGTCACAGACTGTGACTGGGTGGATGGTCCAGGAAGGCTCTGCAAAGGTAGCRTGTGAGCTGAGATCTGAAAGCCAGGAAGCAACC
RCTATGGGAGGATGGGGAAGAACATTCCTAGTACAGGGAACAACATTCCCAGTACAGGGAACAACTAGCTTAATGCCCTAAGGCAGAAGCAAGATTGGTA
TGTTTGAGAAACCTCAAGGAGGGCAGTTGAGATAGGTGAGCCGGTGAGCACTTGGGCTGAGTCAGCACCAGGCAGCAGGCTCTGAGGGAACTTGCCCTTT
ACACATGTTCAGGTAGGGAGAAGCTATGGCTCCCAGCCTTGCTTGTTGTTGTGTCTAGCACATGAACTCTGTGAGGATTCCTCTGTAGAAGCTGCCCACG
CTGGCCAGTGCCAAGTAAACCAGTCATAGTAATGCCTCAGACTCCATCATCCATGCCCTCTTGTGCCTAACACTGGAGCTACTCCACCTGTGACTGGAGC
GATGGGGAAGGACGTGGAAGATACAGTCAGAGGGTTAGTGTGCCAGACACCTTACCTGCACCACGTCACAGCCTTGTGGCCTCAACTGTTTCTGGGACTT
TTGGCTGCTTGTTCAGGTTCCAGTTGTCACTGCAGTGACTGACCAACTCCATGCATGTAAAACCCGACAGCACTTCACCTCATGAAGKTGTACCTCCCAC
CTCTTACCCTGGAGCTTCCCTATTGACACCAACTCACGAGATGCACAGGACTCTCCTGGGCAACTGGAAGGTGGAGAGGAAATTAACTCCCTGAGTGATG
AACATTTGATCAGTGAGAGATTGAGCAGATGAATTCTTCTCTGTCTTCTGATGGACTGTCCTGAGGCACAGTTGTCTTTTACCAATGGCCAGCTAGGTAA
TGCACCATCATATTGGCTCTCCCTCCTTGCCTGCCTTACTTCCCTTTTCCCTCACTCCTGCTTCCTTGCGTTTGCATACCTTAATAAAGGCACCTGAACC
CTTGCCTCAGGCTCTGCTTTCTGGGGGAAACCACACTTAGACGGAGAGGCAGGCACCAGCTGATATAGGGCCTGGTAGGACATGATAAGGAATTTACATT
TCATTTTGAGAATTAGGGGAGGTTATTAGAGAATACTGAACTGGAGAATGATATGGTCTGTTAGACTTTTAAAAAAGCTGACTCTGGTTGCAGTTTGGAG
AATAGATTGAAGGAAGGCAGGATGAGCAGTGGGCAGGCTACTATCACAGTTCAGGGGAGAGATGGATGATGGCATGAACCAGAGTGGGAGCAGTGGTGGT
CATGAGCCTGTGTGTTTGTGAAGGGCAACCATAAGACAAGGCTGTACTGAGAAGCATACTGGGTAGTGGGCCAGGAACAGGACCCACACCTTTGCACAGC
AGCTGTTATGGTTGAAATTCAAATATGTGGTTCAGCAAGACAACAAATTACAACCTACCAAGGACCTTCATCACCTGTTGAACATAGAGAGACTTCAGCT
GGGGAGAACTGAAGACCTTTACAGAAACCTCAGGACATTTTTATTCAAACCCATCCRTGGAGTTCCCTCAGGAGGAAGGAGCTTGGGTTCAGCTCCTAGT
TGAATCAAGTAACTCTCYGCCTTCATCTGTTTAATTCATTTAYACTTAGAGTAGTATTTCTTTTGCAGAAAGGGATGCATGGCTAAAAATGTACTACTGC
TTCCATTAATGAAAATTAATTTAGCTTAATAAGATGAGTCTGAATCTTGGATTCTGCCAGCCCTGAGTTTGAATTCTAGTTTGACCCGTTTCTAGGTATG
TGGCCTTTAAGTTTCTCATCTGCAATATGGGAATTAACACTAACTTCCTGGAGTTGTGAGAGTTAAATGATTTGGGTGTATAAAATATCTGATACATGCT
CTTTATACCCTCTTTACTCCACTCATAGTAAATAAATCCTGTGGGAAGCTGAAGTACGGTGGGGATTGAATTGAGGTGGGTGCAACCTTAGCCCTCACCT
GGTAGACTTCCTTCTAGAGTTTAACCTGGAGATACTGGAGCTTTTGCCATTAAGGGAGGTAACAGATCATTACAAAACATTCCTCTGGAGTTATTCAGGA
GACTAGAACTGAGCCCTTTCTTTTGAGAGGGTCAAAACAGTATCGGTTTATGAATGACTATGATAGTACCCCTGTGAGATAGTTTAAAAGAAGTGTTGGG
CCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGYGGGCRGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTG
AAACCCCSTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGACCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATCA
ACTTGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCAYCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAA
AGTGTTGTTCAATCCATTTTATAGATGATAGTTTCTAATACTTCAGGCAGTTGTGCCTTCCCTCTGCAATCAAACTCTGGGGCATTTTTCCCCTTGATGC
TGTCTTCTTCACTTGCTCAACCAAAAATACCAGCTCTTGCAGAATAAATCATCAATTTCTGAGGGTGGCTGATGTGAACAACTCATATGAATCTCAGGCC
CATCTTAGATTTTTTTTTTTTTGGGAAATTACAAAAGTATTTTACATTTGTTATAGAAAATATGGAAAAGCATATGGAAGAAAATGAAAATTATCCGTAA
TGCCATCATGTACAACTGATCGTTAATAATGGATAAATATCCTTCTAGGCTTTTTTTTCCCTACACACATACCTGTATGTATATTCACACACATACATAT
ACCCACATACAGCTTATTATACTAATGGGGATTATAGGGTGCACATCTTGCTTTTGTAACCAGCTTTACTGATTAATAATATATTATGAACAGTGTACTG
TGTCATTAAATATAGTTTTACCATGTGATTTTGAATAATTGCAAGAATTCTCTTATGTGATTCTTATGATTTGATAACAAGTTCCTTATTGTTTTTCACT
TACAATACAAAAAGATTGTAGTTTTTAATATTCAAATGAACAATCCAATGACCAGTTTTATAAATGCATCTTCATGTGCAAGTCTAATGACCTGATAAGG
AGAAATTCCTAGGATTAGAATTATTGGGGCATAGGCTGTGCACATATTTATGACTCTTGAGAAGTATTGCCCTACCTCCTTCAGGAAAGGTTGTGCTAAT
TCCAACCTCACCCACAGTGAATGAGATTGCACTCATCTTTGCCAACTCTGGGTATTTCAGTTAGTAAGAATGTCTCTTKAACTTCTCCTAAACACAGTTT
AATTATGATATATTTCGAACATTTGTATAGAAAACAAGAGACACCCACGTACCCACTACCAAGATTAAATACATAATAATATTTGCCATATTTGCTTCAT
CCCTCTCCCATTTTCAAATAAATACAATGTTACAGATGCATTTTGTATGCTCATTCTTTGTTCCTTGCTCCGGAAGTCATCACTCCTCTGARATTGATAT
TTCATTACCATGTGCATTTTTGTAATTTTACTACATGTRCATTTATGAAAAAGCATGTATATGAATTTTTTGAGTTTTAAAGTTTTATTTACGTGATACA
TAGAATGTGTCCTTTTGCAGCAAAATGAACATTTGTTTTTAAGATTTACCAGTATTATTACATGCATACTGAGTTCATTATTTCACTTTCTGCATAGAAC
TCCATTGTATAAATAAATCACAGGTTCTTAATTCGCTTCCCTTCTGAGGGGAGGCTAGGTTGCTATAATTTTTTGTTATTACAGATAAAATGATCATCTT
GTCCATGTCTCTTGGGTGCATGTGTGAGATTTTCTCTGGGAAAGATACCTAAAAGTGGAATTGCTGAGTTTAGGAATACACATTTCCAACTTTTATTAGG
TACAGTAGTTCCCCCTTATCTGCAGGGGATAAGACCCCCAGTGGATGCCTCAAACTGTGGATAGTAYCAAATCTTATAAATGCTATATTTTTCCTACACA
TACATACCTATGATAAAGTTTAATTTATAAATTAGACACAGGAAGAGATGAATAATAACTATTAATAAAATAGAACAATTATGTGATATACTGTAATGAA
AGCTATTCACATAACTTATATGGGCTCTCTCTCCCTCTCTAAAATTATCTTAATATTTTTGGACTCTGGTTGACTGAGGGTAATGGAAAGTGAAACTGTG
GATAAGGTGGGGACTACTGTATTATCTAACACATTGCTTTTCAGAGTGAATGTRTCATTTCCACTCTGCATATCATATGCAGMACTCCCATTTCTATATA
TCTTCAACATCACTTGAGATGTTCAGAATTATTAAAGTGTGCCAATCTGATGGGTGTGAAATGGAATCCAATTATTGCATTAATTGCACTTTCCCTGATT
ACTAATGAAATTGAGCACTGAACATATGTTTGTTGGCCATTTGGATTTCCTCTTGTGTGAACTGTAGATTCCTATCCTCTGCCCATATTTCTATGAGGTA
GTATGTGTTTTTCTTATGATTTCTGAGAATCTTGTATATGTTCTAGATAGAATTCGTGAGTTGTCAGTATCTTCTCCCCCACATGACTTGTCTTTTTCAC
TTTGTTTATGGTGCTTTTTGTCATACAGAGTTATTAATTTTAGTRTGGTAAAATGTATCTGCATTTTTTTGATGATTTTTGTTCATCTTCTCTCATTAAA
AAATTCCTTCCACATACTGAGATAAAAAAGAAGTCATTTATATTTTTTAAATAACATTTTTTACAGTTTTGCATATCACATTTGGCTCTTTTAATCTATC
TGGAATTAATTTTTGTGTATAGTGTGAGGTGGGCTCTAATTTTATCTATTTTTTCTCTGCTATGATTAGTCCTTTGACTCAACACCATTTAGTGAGTAGG
CAATTCTTATCTGCTGTTTCTGGGCACTTTATTTTATTCCACTGGTCTATTTGTATATCCCTCTCACCCATGTCTCACTAATTTAGTTTTTATAACTTTG
TAGTTTTGGTATATTAATTCTCCCCAAATTGTCTTGGCTATTGGCTCTTTATTCATCATATGATTTTTAGGATCACCTTGTCACATTTCACTAAAAAGAT
TAGATTTTAATTGAAATGGAATAAATGGATAGATTAACCTAAGGGAGCCTTGCCATATTTAAGCTACTTCGTTTTTTGTTTTTTTTTTAGTCCCTGGGCA
TGACTTATTTCTTCTTATGTTTAGAGCTTTCTTAAAGTCCCTCAAGAGAGTTGAAAATTTTTCTTTACATCTTTAATTGGGTTTGTTTTTAGGTACCTTA
TGGTTTTGTTGCTTTTGCATGGTGTCTTCTTATCATTACTTTTTCTGAGTCTTTGTTTTAGGTGTACCAGAACTTGTACTTTTGTACACTGATTTCATGT
CCACCATCTTTGTAGAATTCTCTTACTACTGTGAGTGGCTTTTTTTTTTTTTTTGTAGGCAACTCTTATATTTTGGATGCAGGCAGCATCACCTGTGAAT
AATGATAACTTTGTTTTTTCCTTTATAATCCATATGSCTTTTCTTTCTTTTTCTTTACTTATTACATTAACCAGTACTTCAAGTCCAATACTGAATAGAA
AGAGTTTCAGTGGGTGTCCTAGACTGATACTTCACTTTACAGCTATGTCTTGACTTAGTCCGTGTTCCCTGTGAACACCACCTTACCTCTGACCATCCTG
CCCACTTTACGTGGCATTGTTGATTAGTAATTTAGTTCCTTTTTTGTGTATGTATTCATAAATTAGACATTATATATATATAAATAAAATTGTCATTATA
TCCACTAATATCTTTTGCTCCTCACACCATTTTCTTGCAGACCATTCTTTTCTTCCATTTAAATTTCCTCCCCAAGAAATGTCTTATAGTACTTATTTCC
CCTGAACTTGTATAGTAAACTCTCTATTTTCCTGGAAAAGTCTTTATTTCGAGTCATAATTTAGCTATTTTCAACACTTGATGATATTATTCTATCACTT
TCTGGCCTGGCCTCTATTATTATAATTAATAATCTAATTGCTGCTTCTTGTAGGTAATCTGTCTTTCCTCTCAGGATGCTTTTAAGATTTTTTCCTTCAT
ATTTTTGGATCTTTTGATATTTCACTAGAATATGTGTGTATAGGTTGAATTTATTTTTATTTATCCTCCTTAGAATTCATTGAATTTCTTGACTTGGAGG
ATTTATATCTTTCATCAATACTAGAAAATTTATCCTACAGATCTTCAAATATTGTCTTTCTGCAGTCTCTATGATCTCTTTATAGAAGTCCCATTAGATA
TATTTTGGGTCTCTTCATTCTGTCTTCCATGTCTGTTAACTTTAATCATATTTTCTCTATTTTTATCTCCCTGGGCTGTATACTGTGGAGTTTCCTCATA
TGTGTTTTCCTGTTTACTGACACTCTCCTTAGTTATATATAATCTAATAGTTAACCTATCTATTGCCTTTAATTTCAATGATTATATATTTTATTACAAG
AAATTTTGTATTTGCCACTTTTTCAAATTATCTTTTTTTCATTTCATTGCATTCTATTATTTTATTTCTTTACATATCTTTTCTATTATTTCAAGTACTG
GAGCTTTAATCTTCTTGTTCTTTGTATTAGCTAACTTATCCTTATGCTGATTATTTCCTTGTGTGCTTCAAAAATTTTGATTACAAGTCATGTTTAGTAG
TGCTTGTTTTCCCCATGGAAATGCAGTGTACTCAGGATTGTGAGAGTAGCCTAATAGAGTAGTTTTGTTTGGTTTTCTTACTTGACCCAGGGGTGTTATT
TTCTTGGCCTAAGTGTTCCTGAATCCCGCTGAACADGTAAATTCAGCCCATAAATCCATGTCACACACAATCCTGAGTTTTGATTTCTCAGGGTTTTGCT
TTTTCTCATTCACTCAGAGACAGAAGCTTCCTTGTTATCTATTTTTGCTGTAGAGTTGATTTTCATGCAGTTTATTTAACTGAAGGTACAGTTCTTTAAG
GGTTATAGCTTAGCGCAGAATCTTAGTTCCAACTTCTGTCCACATAAGGTCTAAAGACCTTATCACTTCTCTTGAGTGGACATTAAAACTTACCCATTAG
GCTGGGCATGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGCTGGTGGATCACTTGAAGCCAGGWGTTTGAGAACAGCCTGGCCAACATG
GCAAAACCATATTTCTACTTAAAAAAAAAAAAAAATTAAGCCTTGTGTGGGTGGCGTGTGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGACATGAGAAT
CGCTTGAGTTTGGGAGGTGGTGGTTGCAGTGAACTGAGATGGGGCCACTGTACTCCAGCTTGGGTGAAAGAGCGAGACTCTGTCTTAAACAAAACAAAAC
AAAAAATAAAACAAAGCAAAGCAAAGCAAAACAAAACAAAACACATAAAAAACCCAACCCATTAAATCTTTGTTACCAGGACTAGTTACTGCCTATGGGA
CAGCTGCAATTTCAATTCACACGCTTCCTCCTTTGTATTTCAATTCCTCCTAGGGATTTCCTTTTATATCTTTCAAGTTCAGCAATATATCTTTTCAAAT
ATATTTGAAAATATATTTCTGTACTTTATCAGTTTTTCTAGAAATGTGTAGCAAGAGATTTTCTTATTCTGCCATCTTTCTAGTACTGAATCCTTGAATG
ACTTTTACAAAGAGAATAAAATAGGAAAGCATAAAATAGTCCCTGGGAAATACACACAGTCYTCTAAGACTTGAAACTAGATGTTCCTAATGGAGAGGTT
AGTAAGAGTGCCGGACACAGCACAGGGGAAGATTTGAGGAAGGAAGTGGGTGAGAAACAGCAGTGCATTAATGGGCAATTACTTTCTGCCCCCTCAGATG
GTACGTGAGTGCTTAGCTAATGGCAGTTCACTTAGAAAAGTGATCATTGGTAAGTCCTTACCAGCAGCTCCCAAAAATATCTTGCCTGAAGTGATCGAGC
CTTTTTAGGAAACGAAAGATCAGATTCAGAAAGCAAGGAGATGGTTCTCAAATTCTAGTGAAGACAAATTCTAGAAGAAAAGCTTTCAAAGGGTGTTGTT
GACCAGAGAAGCTGAAGGATTCAAGCTTTCTTGTAGCTTTATAAATAAGAAGGGAAAGAAAACAGAATGAAAAGCAGGGGATGAGGGTACACAGGGTTGA
GTTGAAAGCATGAGTGTAGGAGTTTTCACTGCAGACATAGCTGATTTGAGGGGGAAACATTGTTTTGCAGGGCTTGTGACCAAATTTCTTAGGATCCAAA
GTGTCAGGAGAAATCCTATTTATTTGAAATCTAGTTGATAAGCCTTAAGCTGATTATGTCAGGTTGAGGTCACTTTTTCTTTTCAGCTTGGGTTGTCCCT
TCAGACTCTGCTGTCCCTTCAGTTTCTTTTATCTTAAGGCATGGAGCCCTGTGCAGGCCTATGAGACCATCAGAAAAATAGAGGTGCAGCTCTGAGTTCA
CTCCAACTCTCAAAGGCTGTGACTTACTAGATATGAGGGAGAAAATGAAAGTGTACATAGTGAGGCAAATGCATTCCACTGGGGTTCCTGCATTCCTGGT
CATGATGTTGATGAGTCCTATGAGCTAGAGCAATCTATTTAATTATTCTACACCAGGAGTCTCAACTGGGAGGTGATTTGGGCCCCAAGGGTCATTTAGC
AATGTTTGGAAACATTTTTGATTGTCACAGCTGAGTGGGGGAAGTATATCTGGTGTCTAGTGGCTACAGGCCAGGGATGCTGCTGAATATCCTACAGTGC
AAGSGCATCCCCTATGACAAAGAATTATGTGACTCAGAAATGCCAATAATGCTGMGCTTAAGACACCCTTCTCTACATGTCTTTTCTTATCTGCAACATG
GAGGGGTTAGAAGAAGAGGTTGATGTGTGTGGCTAGATTAGGTTATTACCCATCTGTCTAACAGAGAGCACTTCAACCCACATCACATCTCTAGATACAT
GGAGGAAATGAAATTAGTTGAAAATGTTCCCCAATTTTCTACCAAAGAACAAAATATTGTACTCGAGATGTGAGCTTTGCAGGTTCACGGTGACCACTGT
GTCTGCCTCCACGCATTGGGTCATTGGTCTTGTCATGTTAGGTTTGCGAGTTGCACTTGCACCTGTGAAGGGAAGGTTGAGGACAGGCTTCCTTGAGCTG
AACTGATTGTCTCCAGAATGGTTTTATCAGCTGTAGCTTCTCCCACAGCACCTTCCCAACATGGTGCAGATCCTAAGGAGTCCATGTCCTGCTTGTGTCC
ATTTGGCTTTGTTTATAGTTTCCATTCATTTATTTATGCATTTATTCATTCATTTAATAAACATGTATTCAGAGTCCACTAGACATAAGGCAGTGCATTA
GTTACTATGGAGAATGCAAAGATGAATGAGCCAAGCCCCTTGTAGTATAGTGGGGAGCCAAGATGTGTACACCACAGTATCTGAGGCAGGGTGACATAAA
GTGCCAGCAGTACTCAGAGGAGAGAGAGATCACTTTTGTCATATGACCACAAATTGCTTCATAAGGGAGGTAGCATATGGGCTGGGCTTTTAAGTCTAAA
TAATTTTTTGGCAGGTGGCTATGGAAGAAGGGGTAAGGAAGGGAGAAAGAAAATGAGAAATGATATGGAGGAGGTCAATTACAAGGTGTTCTCAGGGAAG
GGTTAACAGTCCTGCTTCATTGGAGCAGTAGTAGGAGATATTGCTAGGAGCATAATGGCAGGTAATAAGGACTTAGACTGGATGACATTTAAGTTTTCTT
TCAACCCTAAGATGATAAGATCTTATGATTGGATAGTTATATTTGATAGGCACTAGAAAACTCATTCATTCATTCAACAACAACAAAAAATTTATTAAAA
TTTTTTTTTTAACCAGATACTGTTCTAGGCATTGGGGATACAACATTGTACAAGCGCTTCAATTTTATTGCACTGAAAGGTGAGATAGGGTCAGAGTTGA
GCTGTGCAATGAATTTTTGTGGTAGAACCTGGAAGAGGAAGATGGATGAGGAGACTCTGCCCATCTCCTGAATGGAAGGTAATACTGACTCGAGGGGTGG
TGGTGCAAATGGCAAGGACAGGAAGACTGTGACTGTGGCATAGAGAGAAAAATGACAGGGCTTGGGGAATGCTTGTTGTGGGAGTTGGAGTCAAGGATGC
AGCCAAAGTTTTGTGCCCGAGTTAGGGGGAGACTGCAATGCTGCAAACAGCATTAGAGACCTAGGAGGGAGCTGGTTTGTAGAGAAAGAGGATGAGTTTG
CTTTTAAACAAACTGATTCATGGTGCTGTCAGGTCATCCAGGTGGAGGTGCCCATTTGAGCCATGGTGAATATAGTACCAGACAACAACAAAAACAAAAA
CCAACAAAAAACAGAGCCGAAGATAAAGGTTTGGAAGTCTTCTGGATATTAGCTTTATTTGAAGCCATCCATATGGATGAGATCACTGAGAGAGTGCATA
CATAGTGAAGAAGGCAGACACCGGGATCTGAGGAATGTTCACATTTAGGAGGCAGGAGAAGGAAAGGTGAAGAAGATGAAGGAGCAGTTAGGGAGGTAGA
AGGAGGAGTTTGGAAATGCTCCTGAGGGAGGCAGGAAGAGGAAAGCCAATTCATGCTGAGTCCCAATATATAAGAATGTGTGCACACCCTAATAGCCTCC
AGGGAAACAGACTTTGGGGTGAAAAAATTCCCTGGAACATATTTAGCTGTAAAAGTGTTGAGCCACCTTATCATGTTATCACTTCTTAGTGCTTCAGCCA
GAGGGTGAGGAGGGAGGGGGAGTGGAGGAGGCTTTCCAGTGAGTCATCCCTCCTGCATGTTAGGAGTTTTGGTTAAAAGATTTASAGAGAGAGAKAGTGA
GAGAGAGAGAGTGAGAGAGAGAGAGCGTGAGAGAAAGAAAGAGAGCAAGAAAGCGAGAGAGAGAGCACGAGAGCACACAAGTGAGCGTGAGCGAGCTGCT
TGATTTATTTTAATTTTTTTTAGAGATGGAGTCTCTAAAATATTTTTTTTTTTATAGATAGGATCTCTGTCACCCAGGTTGGAGTGTAGTGCTGTGATCA
CAGCTCACTGCAGCCTTGAACTCCTGGGTTCAAGCATTCCTCCCATCTCAGCCTCTTGAGTAGCTGGGATTATAGGCATGTGCCAAAACACTTGGCTAAT
TTATTTTTATTTTTATTTCTTGTAGAGGCAGATTCTCTATGTTCTCTATGTTCTCTATTCTCTCTATGTTGCCCAGGCTGATCTCAAACTCCTGGCTTTG
GGTGATCCTCCCATCTCGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAACTGCCACATCTGGCCTTGATTTRTTTTCTAATAGGTTCCTAGGGCACTGT
GGCAACAATGCCTTTTCCCCTGAGAGGTATATAACCAAGGAGAGGACATTTGGGGACCTTCTATGATTGATTTTTGTCTGTGCCATCTTGTTCCCCATAG
CCTTGATGGCCAAGTGGCTATGTGGGGATCTGTAGTTCACACAAAGCCTACAGTTCCCAGGTAAAGGGACTTTTTATCTTTTCACCTTTGGCCATGGCTT
GGAGGAAGCTTTGGGCCTACTGCTTGGCTCTTATCAAGTCCTGAGTGACCCCCTGCTCTTCTACGCTAGGCCCTTGAAACTCTCCTCAACTAGTCTTAAG
TTCCAGGCTACAATTTCTCCTTCAGCTTGTCTCTTGCAATAAGGTTGTCTTGGTCTGTTTTTGCTCCTATAACAAAATACTCTAGAACGGGTAATTTATA
AACAGCATAAACTTATTTCTCACAGTTACGGAGCCTGGGAAGTCAAAGATCAAAGTGCTGGCAGGTTAAATGTCTGTCGAGGACACGGTCTCTGCTTTCT
TGAATGCTGCTTCCTCCAGAGTAGCTGATGGCAGTATCCTCACATGGCAGACAGCTGATGGACAAAAAGGGCCTAGCTACTTCTCTCCAGCCCTTTTATA
AAACACTAATCCCATCCATAAGATTAGCCCTGATGGCTTAATCATGTCCTAAAGACTTTACCTCTTAATACTTCTGCATTGGGGATTAAGTTTTAACATG
AAATTTGAAGGTGATGCAAACATTCAAACCATAGCAAAGGGCAGTAGTAAGATGTAGTCTCTGGCATTTGGCAGGCCCAGGCTCCAAGTGTAGTTCTGTG
TGATCTTAGTGTAGGAACTTAGTTTCTCTGATCTTTATTCGCCTTATTTGGGAAATGGTTGAAGCTAACCATACCTATGTTGTAGGATTCTTGTGCAGAT
CAACGAGGCAACACATATATAGTGCTTCAGCCTTCCACAGATGTTGGTTACTGTTGCTGCTTTGAAGAGTTTCTTTGATTTTTTTTTTAACTTAATACTC
TTTTGGTTGAGTTGCTTTCAGAATTTCTTTCCCTTTTCTCCCAATGTTTTTCAATTAAGAAAAAAATGTAATTAATTTGAAGAAAATTATAACCTAACAC
CTCTTAGCCAACTTCTGTGCGGCTCTTGGGGAAATAAAGGGCCGTGAATGCTTTGATTATAGTGATATAATTCCCTTTTGGAAATAAGTTTGTTTTTTTA
CATCATCTATAATGCCTGGTGTCTGTCCCTGCAAATATAACAATAATACCACCCACAGTGGTGTGACACTCTGTGTTTACAAAGAATTTTCATACATATC
AACAATCTCAGTATCATTCTGTAAACTGGGTCTTTCACCCTCAGTGAAAGTAATCCCTTTTCTGATATCACCACCTCATAAAGGTATCTGCACCCTCATG
TTCATTGCAGCATTATTTACAATAACTAGGATATGGAAAAAACAAAATGTTCATCGATGGATGAATGGATAAAGAAAATGTGGTGTATGTAGACACACAC
ACACAATGGATTTTTATTCTGCTGTAAAAAAGAAGTAGATCCTGCCATTTGCCCCAACATGGATGGACCTGGAGGACATTATGCTAAGTGAAATACACAC
AGCATGATCTCACATATGTAGAATGAAAAAGGGAATGAAACAGTGGTTAGCACCAGTGGGTGGGGGGTGGGGACTGGAGGAGGAAGTAGGGAGACGTAGG
TCAAAGGATACAAAGTAGGTATGTAGGATGAATGAGTCTAGAGATCTAATGTGGGGCATGTGGAATAAAATTAATAAAATTGTATTGTATTAGAGACTTG
TGTTAAATAAGTAGATATCAGCTGCTCTTGTTACAAAAAAAGTAACTATGTGAGATAATGGATGTTAATCTTCTTCACTGTAGTAACCATCTTACTATCT
ATATGTATCCGATAACATCCTGTTGTAAATCTCAAATGTACACAATAAAATTTATTTTTTAAAAAAGGAAGTTGTCTTTTGACATCACCTATAATGCCTG
GTATCTGTACCTGTAAATATAATAGTAATACCACCTACAGTGGCATGACACCGAGTTTACAAAGCATTTTAATACACATCTCTACCATCTCAACATCATT
CTGTGAGCTGGGTCTTTCAGCCCCAGTGAGCTGGTGACTGTCTTCAGGTTTTAGATGCACGCGTGCGTGTGTGTGCGSGCGCACTTGAGGTATTGCTTCT
TTTAACACAAAAAGCTGAAGTTTCAAAGCAGGTGGGGTGTGGGTTAAACACCGTTCTAAATGGCAGGCCTGCTGTTCATGGGGAGGGAGAGTGGCCTGAA
AGTTTAAAAATAACCTGAACATTATAGACTCCTGTGAATTCTACAGCCCAGAGCACTGTGAGTCTGTGGGTGTTTTACCTGCTGGAGTGCAGGCAGGAAA
ACTAGTTGAGATGCAGGAGGATTTAAATTCGCTGAGTCCTTTAGTGGCATGGGCTGGCAGCAGAAGTATTTGTGAAAAAAAATTAAAGCCAGAACTAATG
ATCAGGATCGATGTTCCTGAATGGTAGGAACAGTGCTACCCTTTGATTTGCTGAACACCGCATAGTATTTGTATCGCCGGTGCAGCAGACCCTTGTTTTC
TATGACTGAACAACTATCCTTCCCCCTTGCTCCCTGAACTCCCTTACTGACCTCTCCAGAGTTTGGCTGATACCTTTTGCAGATAGCTAACTGAGGCTGG
CCTACCAGGGAGCTCAGGGTTGGGACATTTTGGATAGACTTAGCCATTCATTGAAAAACAAGTAAATGGTGTAAAACCATGCTMATTATGCATAAATTAT
GGGCAATAGCATACCCTTTGAATTTTGAGAGTTTTGAAGGGTTGAAATAATTTTTGAATTAGCACTCAGTTCTTGATCTGACTCCTGTTGCTCTGGGATA
TTGCAATGCAAAATGACAGCAGCAGTAGGAGGAGCAGGTTGGGCTACGAATGTATCATCACATTTGGTTTATCAGTAGCCCCATGCGATTCAGAGGGCAG
GTACTACTTTTGCCATTTTTGCATGTAAGGATATAAACCCAACCAGGACTGAGGTGCAAGCCTCCTGGTGTYGTTTCCACCCTGATAACTCATTTATTCT
GAGGCCCTTCGGCACCATCTGTAGAGTCTGGATATATTCTTGCCTCTTGGAACTGTAGAATCATCATGAAATCTCTATTCTCTAGCTCAAATTTCTATTA
ATGATATCAGCGAGATGAATTAAAGTGGCTAAGATAATGGGTTTTGAAGTCAGGGTGACCTAGGATTGATCTTTTGCTATGTCACCCACCACCTATGTGA
CCATCAGGGAAGTTACTTAGTYCCTTTCAGTCTTGCTTCTCTTCCTGTAAAATGGGGTTTATAATAGCACTTGCCACATGGGCTTATTTTGAGAAATAAG
GAAAGTGAATCTGGTTAGCATGGAGCCTTGCACATTGTAAGTATTTAATACCTAGGACAAATAATATTATAAACAGCATCACCTATAYTTTTCTTTGTAA
TTATTCTTTATTTGTTTGATCCATGTCCATTTTTCTTTTTTTTACAGCTCCAGAATTTGCAATATGAAAATAGAGATTATTTAAACAAAGGAAAGTAGCA
TAACTGGAAACTTTGAATTATTCTATTAATACTTGACTACATATGGAAGAATATTATTGAAAAATATGATCCAGTGATGGGGTGGTTTTGTGAAAAAATA
CAAGCCTTTAAAGGAAAAAGCTAAATCTTGAGTGCATGTATATGTGTGTGTCCAAGGAGTTGGCTTGTCAGTGGTGTTAGGAGGATTTCAGAAATTCTCT
CTTGATTGAGAATTACATTTCCACCTTTCCAATTTGTAAACTGCACATTAGGAATATTCAGAAACCTGCAAAAGAGCCTGTAATTCTTCACATTTGAATG
TACTGTATTAAGCCTGTCTGAAAACTTCCCGTAGCATGGGAAGATAACCTGCATGTTTGTACACTTGGCTGGCAGAACGTGAGATCACATCAGAATCTAG
TGCATGTCTTTGCAAACGTGTGTGTCATTTTCATATGTAATTCTTCATAAGAGAAATAGGCATGATGACATTTGCCTTTTTGTAAAGAAGAGATAGAACG
AATTAATACTGTAGTTGATATGGGTTTTTTTTGAAGCAGGACTTTATTATCTTATGTTTAATTTTCTGTGGAAAGGGATCTCAAAATATTCTTTAGGTGG
GGAGCTGTTTCCTTTTAATAACTGATTCCCCAGATCTTATTTCAACTCCGTTTCTAAGAGCAAGAAATATTCCTCATAAGACAATGAACCCTATTGTTTA
ATGATTGATAAGATGGTGCTTGGGCAGTTAGTGTGCTGGAGAAGTTACCCCTGAGTTAGAGGCACTTAATTTCCTACAAGGGAAGTAAATACCCCTTTTT
GATATATATTTATTCCTGTTTATATCATCTGGGTTGATGTCCACTCAACTCACAAGAAACAGCTGGGAACACCTGGCAGCAGAGAGAGGCTTCTAGTCAG
AGCTAGAATGTGTTAGGGGAAGGGTAGCTCCTCAGACAGGGCCCAGATACCTGATTGATGCCCAAGCTCTTTTTCACCAATAACAGTTGCAGGAGATCCA
TGCATTCAGTGACAATTTATTTTGCAAAGGCTTGCTATGAGGATAACATAATGCAGGCACTCTAGGTAAAAGAACAAAGAGAAAGATATGTCCTCTACTC
CTGAGAAGCTTACACCATAGTTGAGGAGACAAGGCATACATAATTGAAAAACTAAATATGAATATAATGGCAAAGTTACAGTTATGACAATATCAGTGAT
AAAACAGTACTATGAACGATACAGAAATTCTGTGAGTTTATAGGAGGTACAGGTCAGTGTTGGAGAGATTATGAAAGGCTTTGTGGGAGAGCAGATTTGA
ACTGGACCATGCATAGAAGGATGCCTAGGAGTGGGAGAAGCAGAAAAGAGGAAGAATATTTTTGGGGCAGTGTGAAGCAGGCGCTGTGAGCAGGGCTTTG
AGGCAGGAATGGGCATGACACGTTTGTTTATGTACCTCATACTATGGTAYGTGAGGAGATAGTGTTGGAAAGATAGGTTGAATTCTGATTGCCTTGAATT
GTCAGGCTAAGGTGTCTGGCCATTTTATAGGCAGTGGGGAGCCACCGAAGTGATGACAATGTAACATGCATAGCAACTGGCATTTTGGGAGGGGGAGCTT
GCTTTGAAGGATTTACAATGACGTCACTTTTACACATATTGAGTCTGGGGATGAGGGACAATCCATATGCAGCTACCCCTAACTTCATTGGACACCTGGG
TCTGGAAATGAGGCGAAAGGTGAGGTCTAGGAGCTAGATGTGGTGTGGAGGGGGTAGTTGAAATGGCAGGTAAGGATATAATCTTGAAGGGAGAGAAGTC
AGACAGAGGAAAGGGGTTGGGGACAGACCCATGGGTGCCCTACAGGTGAGAGCAGTAAGAGGAAGAGAAGGAAACGGTGAGAAACTGGGAGATGTGGTGG
CTGGGATGCCAAGAACGATGASCTCTGAGGAGAGGGGGAGGTCAGTGGTGTCAAATGCTGCAGAGTGGTCAAGTAGGAGGGTAAAAAAAGGGACCATCAG
GGGTTCAGTGGTAGTCTTAGAGCAATTTCTGTGGAGTGGAAGGGGCAGAGCTAGTAAATGGCCTGCCCAGGTATATATTTCAAAACTGGCCTTAAGTCCA
TATCATATGGGAATGCCTTCTTCCCTTTGATTATTTTATACTAGGTGGGTGTAACCAGCTGCTCAGTGTAGGAGAGAGTGGGAGAGAGAGGGTGTGGTGA
TGGACAGGTGGTGGCTTAATCTGCTGATGATTCCAACACAAAGGGTTCTTGGAGAGGCAGGATTGGTGGGTGCAGTGGAATCTTATTCTCTTTCTCTGGG
CCTTCAGGGCCCCTTTAGGCTTGACTGCAGCTGTGAGCTGCATTTTCTGTTACTGCGGCATTATCTTCAAGAGTGAAATGTAGGGAGTGGATCAAGACCA
GGCAAGACACGAATCCAACCTGGGCACCTTCTCCTAGGCACTGCCTCCTTTGGGCTAGCCCCTGACATGATACCTGACACGTGGAAGGTGCTCACTGCAT
GTCTGCTAAATGAACCAATCGGCCTGAGCCCACCCGGGCTGAACGAGCTTTGCAAGGTGTGGGCTGTGTTGTGTTTTCTGAGTCAAGAGGCCGTGGGGGT
GGATGGATGGATGTGCTCCTGCCGGTTGTTCTCACCCTCTGCTCACCCCCATCAGTGGGAGCTGGGGCGCTGCTGAGTCCTCCTGCTGCACTTTGCCTTG
GCTGAGCAGCAAGGTTGGGCCCTGAGGGTGGGAAGGGAGGTAGACAGTGATGGGCATGGGATCCTTTGCTGTCTGGGGCTAAACTCCSAACCTCCAAATC
AACTTTCCCAATAAAGCTTAATATCTATTAGGGTAAGCATATTTTTGGCTTTTCTCTGGGCTGAAAGGTGACCTCATCTTATGGGAAAGAAAGGCTTGAA
GTGGTAATGCTATAATCTTCGTGATCCTAGATACATTGAAAGAAAATAAAAATGCTGATTTACTAATTAACTCCATGCATCTTGTGTACTGCCCCCCTCC
CCACCCCCCAAAACATCCTAAACATTCATGCTSCAGGCTGCTGCTCCATGCCTCCAATAAACTAGCTCTTCAAAGAGATCTCTTTTGTATTCTTCCCTTT
TCCAGCTGCCTCCAGTGGGAGGGGATGGCTCCCTGCTCTGTTGTCTCCCAGTACTCTCCTGTGGTGCACTCCACATCCCGCCTTGTATTCGAGCCCTYTG
TGGGTATGTTTTCCCTTCTCCTCTTTTGAACTGTAAGTTTTTAGAGGCTATGACTGTGTCTAATTTATCTCTGAGCCCCAGAATCCCTGAGAACAATGTG
TGGCTCATCAAAGGGGATTAATGAGTATTTGTTAAATGGGTTTATGAATTCATGAATAAGTAAACAAACACACAGCTCTCTCAGGTATCATGGCCTTTGG
GTCTCCAGACACTGGTCTCTACTATTTTTTTTTCCTTTTTTCCTCCATTCCTCTTTCTGACCTGATCTCAGGCACTTACATGTCTCTGCTCCTCTGTCCA
TCCCCCGCACAACAGAGTGTGTTCATCCCTGGCTGCACTTCTGAAGTTGGCTTTCAGAAACAGAGTCTGTAGACATGCAGTGTTTCCAGTGTGTTACCGT
GGTCACAGCTACTGAAGGTGAAATGTACATAACAAGTACTTAYGTAGCACATACTTATTGTGTGCAAGGTACTGATCTAAGAGCTTTATGCATATAAACT
AACTTAATTTTCACAACAGCCCAGTGGAGCAGAATGGTATTATTCTTAACAATTAAACCCTCTGGGAGACTCTCTGGTTCAAGGTCATGCCTTACCTCTC
TAAAGCTCAAGATCCTGCCTATAACTTGACTCTTAAGCAAGGAAAATATTATTTTGACATGCAGTATGTTAATAATGGTCACATATTGTGAAGAATCCTG
TCCTTATTATTAGGAGATCCAGCTCTGCTATTTCCTAGCTCTGTGCACTTGGACAAGTCCCTGACTCTCTGGGTGTTCAGATAACAGGATGTGCCTCACA
GTCCTTCTGCAAAGATGCAATGAGAAAACATTACGGTTGGCACCCAGGAAGTGATGGGTTGTCATAAATGAATGGTTTTTAAAACACTTTAAAACCAACT
TTGCTGACCTGTGGTTAGCTGATAGCATGTTGGAGTGTGGGGCTTCTCAGGCTTAGGTTTGAGAGATGCTGATTCTAGGGACGGACATTACATAAGGATG
TGAAGTTATGTTTTCACCCAAGTAAGGGCTGTGAGGTATTGTGAAAGCCACCAGACTCCCAAGATGTCTGCATTGCCATAATGCTCCTCTGCTCCACTAT
GCATTTGCACATGGTCTCCTGCCAACTTTTTTCTTAAGAACCCACTCCCAAATCCTCTCTGCATTATGTTCCTTAGAGCACTGCTTTGCATAAGAGTCTA
TTTCTTGGAAAAGCTCAACGGAGGAAAAATAGAACAAAAGGGGCTCTGATAACTTAAGCATAAGCTATCTGAGTGTAACTGGCAGGGTGGGGGAAGATGA
AGGAGCAGGCCTGGTGGGAGGGGCACAGGCCATTTGGATGAAGCCCACATTCACAGACTTCTCAGTGATGGGTGAAAAATCTCTTATGAAGATGGCCCAA
GGCCTGACAGATCTGGGAAGAGCTTAAGAATGAGGGTAATAGGCCAACTGCTTCTCCAACTTTGCCACTCATGTCCATCTGTCTTAGTACAAACTCCCAC
AGGCTGCCTGATCTGGGGCAGTGTGGACACCTTGTTTTCTGCCTTTTCCAGAAGAGGCTGGAGGGACTACCTACCAGTCCCCTTCACACCTGATTGCAGC
TCGATGATACACTGCAGTAGAGGGGCTGCAGGATAAATGCTTTGAAATGTAATAGTCTTCATGGGCTTTATAAAGTAGGAAAGTTTTCCACTTGCTTCCT
TAGCTCCTGTTGGGTTTCCACTTTGCAGGTCATTGCTTTCAGAAAAACATGTGGAGCATTTGGTAACCCCATCTTAACTTGGGAGGGTGTGTGTGGGGCT
GCACTTTCCAACTACTGTGAGATGGGCTGGCTGCATTGTGGTGAAATTTAGTACCTCAACAAAGTCCCATAGGGGAGTAGAGGGCTGTTGACAAGAGGTC
AGAGCCTAGGAATATCTAAGCTCTGAGGCATGGTGCATGGGGTGCTGGGCTGCCAAGCACTCGTGCTCAGTGACCAGTAGATGGTGCTCTGACAACAGGA
AAATACAGTTACTGTCCCTCTGAGACTGGAAAGGGATTTTCAGATGGTCTTCAGACTGGTTTCCAATCAGAGTTATGACTAATTGCTRATTTTCCACATT
TCCATTTGTGGATCCTTAATAGGACAGTGGAACTCGGGGCACTGGAAGGAGAATGCCCACCAAATTCCCATATGAAGAAATTCCCATATGAAGTMATGCA
ATACCGCATGACTACAGTATTCTGGTCATGAACTTTTTCTGAGGATCCTCCTGGATATTGAGGGCATGGTGCCAGGAACACTTGGCCTCTGATCAAATTC
AATTTGAGGATGGTAAGCATAGCATTTCCATAGGCTTAGTGTCAYTGTATAGTTTCTTCTCTTGATAAACAATTTAGAATTACCCTATTGCTGTCCTGAA
GGGCAGCATGGGTTTTAGAAAGAGCCGCAGATTGGAAGTCAGATGTGTTAGAAGTCCACACTCTGCCGCTTATCAGATGTGGGCAAACGGCTTAACGTTG
CTGAAACTCTGCTGCTTTGTCTGTCAAGGGTCGTGATACATGTGTTACCAGGCTCACCTCAGAAGTTTGGAGTCAGGCTCAGCTGTGGGGCTTATGTAAA
CTGAAAACTATTAAACACATGTATTATTCAACCATTAAAATTGTAGCCACTGGCGGGGCGCAATGGCTCATGCTAGCACTTTGGGAGGCTGAGGCAGGTG
GATTGCTTGAGCCTAGGAGTTGCCAGCTAGGACAACATAGTGAGACCGTCGTCTCTATAAAAAAAAATAAAAACAACAACTGTAGCTGCCTTGGGGGCTG
GTAGAATGGGGGATTAGAGAGTATGAAACCAGTATAGAAATTCATAGATCTCAAAGCTCTCAAGAGCTATGACAGCCAGGTGGGGGTGGAAGATGAGAGT
CTGTCTTCCTGCTAGCACTGCTGCCCTTAGGCCAAGTCTCTTCACAAAGCCATTTATGCCATTATGTTTGCCCCTTTCCTTTTTGGCTGCACYCTCCAAG
AATTATCCCTTTTAACTCACATAGGTGCTGAAACTCCCTAAGGTATTCCACATTAATTCCCAACCTATGCATTTATGATTCCTGTCTCCTTGGAAGGCAA
GAAGGCAGATATCAACTCCAGTGTGTCGTCGCATTTGCACATGTAGTATCCCATCTTGAGTATTCTAGGTCTCTGAAGAATTACAACAGCCAAAGAGAAT
ACAGGACGTGGAATACTGGATCTCTGCTGACATCTGATAACACTGAAGAGACAAGTCGGGGATCTCTGATGTTCCAAGAACTAAGTCTGGGAAGTAAAAG
GCTAGTGAGCCCTGCTTATTCTGGGCATTGAGAAGGTATGCCGCCAGCCTGCTGAGGCAGAACCACAAAGGAAAGGGGTGAGGTGACAGCATGAGAGTGA
AGTTCATGAAGCTTTCTGGCCTGCAAGGTTATACARTCTAGTATAATCTAGTGTAAAAAGCTACATGATTTATGTCATCACCCATCTTGTTCATTATAGT
ATCCTCAGTGCCTAAAACAGTGCCTGGCACCTGGARGGGACTCAAAGATACTTCTCTAATGATTTGAATGAATTTTGTGCTATGGATTATGGTACTGTCT
GAAAGGAGCGACATACACTTAATAATTTCTGAAAGCCCTTTTTCTAACCCTATGTAGTTTACAGGGATACCGAGATAGCCACTTGGGACTAGTTCTAAGT
GACTGGCTGATGGGACTTCATGGTTCACAGCACCACCCTCCCTCCGTTTCACGACTGACTAGGTATTCAGACAGAAGAGGACCCTCTGATTAAAGCAGGA
GGAAGGACAGAGTAAGGCAGTAATGTGAAATCAAAGTAACAATTACAGCTGACTCACCTTGAATAGTAATTTCACCTGAAATGGGCTCCCCTGAATCCAA
AGGTCAAATGCCTTCCCCAAGGGCAGCAGGCTGGACATGTTGAGACCATTCCTTTGGATTTCCAGTAGAGAATTTTCCTACACACACACACACACACACA
CACACACACACACACTCTCACATACATTCTCACACAACAGACACATGTCAGTGCTCACAGGGCCTTGCCCACAGACAGACACATACCCGTAGAAACACAC
ATGCCATGCACTCAGACATCACCTCACTTCTCAACAGTTAATCTCACTTCACAGGCGTGAAGCCATACTCACCCATGGTTTCCAACCTCTGGGCTTTGGT
CAGTGTCTGTTTCCTTCCTCAGCCCCTCCTTTCCTTCTTCCCTTCCATTGTTCGGGTTGGAAGGATTTGGAGAGGCCTATGTGTTGAGCCAAGGCAGGAA
AACACAGAAGACGGTGTGCCCCAGCTAGTGTGGACATGGGAGGGGACAGCTGGTCCCTGCCCTCAGTTCAAACCACCAGTCACCTGTGGGGAAGGGCTTG
GCGGCTAAACAGGAGCTCTTTCCCTGGGGCTTGGAGTCCACCTTTCCCACCTCTGCAGCTCAGATACCAATTCTATTTTTTTTTTTTTCTACATTAATGG
GTTGGGTTTGAGAAAGTCCGTGGAGCTTATTTGGGAGTAAAGGATGGGGGGCGGGAGGATCCTTCTGATTGTTCGCATTTCGAGAAGGGTAGTTTTAGCC
CATAACTCACCATGGAGGGCCCTTCCAGGAGACGTCGGGCAGGGCTTTCCTACAGCGGAACCGGGAGGCCGCCCCGTGAGGGCAGAAGCTCYCGCCAGGA
GCCAGCACCACCAGCAGAGTGTGGAACCCCCAGAGGTCCTAGCCTCCTCCACRGGGCCTCCCAGGTGCTAAGTGGGGAGATGGGGAGAGGGTTCTGCCCT
CTACTTGGAAATGCCTGGCCGTGTTCGTGGAGCCTGGGAGGTGCGGAGGAGCGGCGACGCGGCCATGGCGCTAGGCGCGCAAAGGCCCCGACACCTYACT
AGGGCGGCGGCGGGCCCGTGGCACCGCTCCCGGCACCGAACAGGGCACAGCACTGGGGACACCTCTCTGCAGGGACCCAAGACGCGCGTGCGTGTGCGCC
CCACGCCAGGCCCTCGCTCTCTTGCGGAGACTCCGCCGCATCGCTGGCTGCACCTGCCTCTCTCTTCTCGGCATTACTTGGGGGAAAGGGGACTCTTCAC
TGGACCTTTGCAGAGGTGGCTGCTACCCTTTGGCCACATAAATCAAGAAGGCAAGCCAGCCTCACCTTCCAGGAACCTCCAGCCTTCCGGCTGCGTCCCC
GCCCCTCCCGCCTGGCCAGCTCCTCCCCCGCTTCTCCCAGCGCTCTTGCGCGCCTCGCTGCGCCTCTGCGCGCCGCTCGCTGTCCTCTGCCTCGCCTCCC
CATTCTCCTTCCGCATCTTCTCCAGTGCTCCGCCGAGGGCGCTGCCTGCGGGGAAGAGGGAGACTGAGCCGTTAGTGAGGAAGTTCGGTCTGTGGACAAG
TGTGGTGCCAGGCCGCCGCGAGGCTCGGCTGCAACCTGTTCCTCGCCCGCCGGTGCTCGCCGCCCGCCCGCTCGCACTCCCGCCCTCTCGGCGGCGCAGC
CGCGGATCGCTGTTGCATGCTGATCCGGGGAGGCGGCGGTGGCGAGCGCTCCGGGCGGATGCTGGCACTCAGGCTTCGCTGCTCTCTGGATGCTGCTCAA
CTTCTAGCCCAAGCGCAGGAGCTTTGAAGTCATTTGTCCCTTTTCGCTTGGATCGACTTCTTATTTTGAGATTTTGGGCATTGCGGTTTACGCAGGAACC
TCAATATCGCTCTCCCCACCTCCCTCCCTCTTTCTCCAACCTYTGGATGCGTCTCTGCTGGCAGATATAAAGACCCAAGTCTTCGCGGTGGAATTYCTTA
GATGGACTTGCAGGGGCTGGCGTTATAAAGCATGTCATCGTAACCCCGTCCTCGTCTTTRTTTATTTTTTTTTAAAGTTCTTTTGTTTTCATTTTCCCCT
CCTTCCCACCCCTTCCCCCAACCAATAAATCACCAAACTGTTACCTAGCGGGCCGGTGCCTGCCTCTCTCCCTGAACTAGGTGGTGCGTCTGCCAGAAGA
GGAGCTATGTTTGAAGAGCAGCCTACTCCACCCCTCTCCTCTCTGGTCCCTGAACACCACCACACACTGGCATTTTGAAAAAAATATTTTCCTCCAGAAA
CTGGGCACCCCCAAGCCCTACCACCCGCTTTTTTTTTCTTTTTTCTTTTTTTTTTTTTTCCTTCTTGAGGAATGGAGCTTCGCAGAGGTTGCATTTAGAT
TCAACAGTTCACAGCGGCGGGCTGCTGCTGCTGCCTCTCCGAAGAGCTCGCGGAGCTCCCCAGAGGCGGTGGTCCCCGTGCTTGTCTGGATGCGGCTCTG
AGTCTCCGTGTGTCTTTCTGCTTGTTGCTGTGTGCGGGTGTTCGGCCGCGATCACCTTTGTGTGTCTTCTGTCTGTTTAAACCTCAGGATGGCTCGCTTC
GGGGAGGCGGTGGTCGCCAGGCCAGGGTCCGGCGATGGAGACTCGGACCAGAGCAGGAACCGGCAAGGAACCCCCGTGCCGGCCTCGGGGCAGGCGGCCG
CCTACAAGCAGACGAAAGCACAGAGGGCGCGGACTATGGCTTTGTACAACCCCATTCCCGTCCGGCAGAACTGTTTCACCGTCAACAGATCCCTGTTCAT
CTTCGGAGAAGATAACATTGTCAGGAAATATGCCAAGAAGCTCATCGATTGGCCATATCCTTTCTTGCCCACCATAACTCCCTCTCCCCCTTTGCATTTC
TTCGGGTGAAGGGGGGTACCTAGCATGGAATGTATCCCCCACCCCTTCCTGGTGCCAATTTGCCCCTTTGCTGAAGCACMCTCTTCGGTGCATCTAAGGG
GCAAGCTTGGTGCCGTGGAGACCCGTTTGGGCACTAGTGTTTTTCAAGGTAAGACTTTTGGTTTTTTATTTTTCCTATGTGGAAATCTTTAGTGTCCCTG
GGTGCATCCCTTTCTGGGCTGGGCTTTGTCTGATTCCCAGCCCCCTCCCCACCCCTACTCCCTTCACATGCCGCCCTCTACATAGATTGGGTTGCCCCAA
TGCTTCCTTTCATAATYAATTCTCATTTTCCTTTCTTTAAGCCAGCCACTCTGCCCGTATCCCCACCARCCAGGAGACACCGCACTGTCTTCCTGTAGGG
AAGTCAAGGCTCCATGAGGGGATTTATCAGTTCAGAAGTTCCCAGGGCCAAAACCCTGTGTACAGATAGACAAATGAATAAATAAAACAGGCTTTTGGGT
GGGGACTCAGCTAACTCTAGGGACTTAAGTTTAAGTTCCACTGAAAGTGGCATGAGTGAGTGTCTGTCAGGGGAGGTGATCTCTGTTGCCACAGCCCAAG
GAGCTCAAACTTGGAGTTCTCCTCTCAGCCAAGAAAGAGCAGCTCATCAGGCCCATCCTGTCCTTGGTCCTTGGTTGGGTACTCTTGCTTCTTAGTGCTT
GACCCAGCTGATTGCTCTCCCAGTATCCAGGATCCAGGTGGATCGGCTGGGCCTGAATTCATCCGCTGAGGCCAGAGGTGTGCATGCAGTCTCTCTCTCC
CTAGCTCCAAAGGAACTGCTCTCCCCAAAGCACTGGTGGGGGCCATCTCTGATGGTGGTGGTGTCAGGGTGAACAGGCATGGAAGGAGCTTCTTTGCAGG
TTTAATCAAGTGCACCAAATGCAGACTGCTGATTAGGCAGCTCACTGCCTTGTTCTTCACTAAGGATTGGACGCCTGGCAAGGCCATTGGGAATTGGGGG
TGGTGAGGCAGTGAAGGGGATTAGTAGGAGGCAAGCTAGTGGTCTGGCGTTAAATATGGGGATGGGGTTGGAGACATGGGACTTTGGGAGGGAGATTTGG
GAGGGATGCATCTGCAATGGAGGCCCCTTCTTTTCTCCCCTATTCTCCCTCTTTCCCACCCCCACCGTCCAGGTGTGCAGCAGTGAGGCAGCTGGAGCTG
CCTTGGGTCTCTAGTATTAGCCAGACACGCGGCTCATTTCCCCCAGGGCCTGGGCATCTCCCTACTCCCCCAACCCCAGTCTCTGGCCTTCCCCTTCTTC
TCTAGTTCCCTGCCTCAGCAGCTCGGTGATTGGCTGGCGCGTGGTGCTTCTAGGCAGCACCCCCTCATTAGAAACGAAGGAGCATCTCTAAGCAGATATT
CTTCCTGCTGCTGTTCGCATCCTCCCACAGCAACCCCGGCTGGGCTTCTCCCTCKCTCCTCTCTGCATCCCGCTCCCCTGCTCCACTCTCACAGAGTGAT
CCCAGGCCATCCATTGCCTGAGTTGAACGTATCTAGCTAGGGTGGAGGTTTCGGGCGGGGGAGGGGTCGGGTCCCTGCAGTCACGCCTGCCGGTGCGCTG
CACAAAGCGGACAGATCTCATTGTGTTGTGTGCTGCGGCTGCAAATATTCCTCTAGGCAGTCTACGGATTTCCCAGCTGGGCCCTCCTTTCTCACTCGGC
TTCTACGGTTCTCTAAATCTTCCCATCCACCAGGTGCTGCCTTGCTGTGCCCCTCTCTTAGGGGCGTGTTTATTCAGACAGGCGCCCTCCCGTTTCTTTG
CGGTAGACAAAGCCGCCCAACCGCCCCGCGGGTGGCAAAGTGTGCCAGCAGCCATCGTTGGCACCTCGGACAGCGCCGCTGAAACTCCCGGCGGCCCGGG
GCTCCCCAGTTACCCGGGTTCAGCACCTCGGGTACTTCTGGCCGGGCCCAGCCTTGGAGCTGAGAAACCAGGCACGTTTCCTACACCACGTGGTCACCTT
TTTTCACGTTTTCTCTTCCGCTGCAAAGACACCGCCTTTCCACCAGGCGTTGCGAGCGCGCAAGGTGCGGCTGTGAGTCTTACTCCTCCCTTTCCTTGTC
TTTGGCCAAAAATGGACCAAAGAGAGTCAAACGGGAGACTCTCGAGGGAGTTGATTTCAGCATCATGCTCAGTGCCTTGGCCCCGAGCCCTGTCCCAATG
GTCTCTTTTGTCTGCATAGTTGGAAATTTCACAGTGGTTCTACAGCATGTAGGCTGTGGTAACAGTGTTCAGGGAACATCTGCTAAGGTGTTTAGTGGAG
CCCTGTTGGAAAATATAAAATACACCATGTACAATGTAATTGACTAATATATTCCCTCTGGTGGTGACCACGTGGAAACATTGGGCTTCCGTGGGAAACG
CACCTAAATTCCTAGTCTCACCTTCCTTTCCTTTCTAAACAAATAACTTCCCAAGTATCTTGCTTTGTCTTATTGGGAGTCAGTCTGGGTAGTGGTTGCC
CATAAAGCTTTGGAGCTAGGCTGCCTGGGTTGAAATCCTAGTTCCTTCACCAGCTTTCTGACCTTGAAAATTACTTCATTACTCTGTGACTCAGTCTTCT
TACCTGTTAAATGAGGATAATAATAATAATACTGGGAGAATTAAATGACTTAATATATATCACATGCCTAAAACATTATCTAATTACCCAGTAATCACTA
GTTGTTATTATTAATGGCATCTTTCAGAAATTTCAGCGTGCCTGAAGTGGGGAGGGGTCTTAGTTCAGGTGAAGTCCTCTAGATTCTTGCCTCTCAAAGA
GAGCAAGGAGCTGCATCCACATCACCTGGGAGCTTGCTAAAAATTCAGAATCCTGGGCCCCACTTCAATCCTGCTGAATCAGAATCTGCATTGTAATGAG
ATCCCTGTGTGATTAATATGCTCATTAAAGTTTAGGAAGTACTTCTTTGCTCTTTGTAAGTGCCAGATTTTTTTTTTTTTTTTTAAGAAAGGAAGGTTGT
TCAGTTGTTCAGAAAACATGTCAAGACCTGCTTTCATATTGACATTTGCACATTTAGCATGCTTGAGGATTTTGTTTGTGTTACAACACGTTTTGAGACT
TACACTTTCATTGGCTGCAGAAAGTCACTGTAGGACGAGGGGGATAATGTACACTTCTATGTGCCGCATTAGTGGTCTCATCATGCTGTGCATTACTGGT
CTTTAATCATGTTTGTCTGAAAAGATTGGTTAAGTAAAAGGAATGGTTTAATTTATGCTTCTAGGATCACCCCGACTTGGAGGGGGAGGGTAATCTTATC
CAGTTATTAATAGGGGAGGTCTAGTTCTTATGGGAAGAAATGCTCAAGATAACCCAGATTTGGCATGAAAGATGGTGGCAAGTCAACAGCCTACTCTGAA
TGTGTTTCATTTTTCTTGGAAGCTACATCTGCATAGGGAGATAATTTTATTTTCTTATGGCACTTTCCTCTGCARTGGATACCATACTCTTTTTAAAAAT
GCTAATGYGATTTAAAATGTGATGTTACATTCTATACGATTCCTCGTTTTCATTTTCTTTTTTGCTCATCTAATAGATCTTCTCTGGCAGTTGGCTGTTC
TGAGTGCCCTCCCATGTTCACCGTGCCTCATGCTTACCAGCTCTCACTGTTTCATGCCCAGGGCCAGTTACCCTGTGGGCCATACAGCATCTCTCATGTG
GTTTGCAGGATGCCCCACACTTGTTTGAACTTTTCCAGGTCACGGGTGTGAAGGCAAGAAGTAGTGTGTCTGGCTTGGAGACTCTATGCCAGAGTTGGGC
AATAGGATATTCCCCCCACACCTCCATCGCCTTGGTTGTCTCAGCAGGGGAGMACATGCTTCGTGTGGAAATGAATATGGCTTACAGTAGGAAGGTCAAA
TATGTTTGCAGCCCTGAGATAATGAAGCTCATCACAATGAACCTGTGGACATTAATCCATGATTTCTTATTGTAGAGAATTTCACTGTATCCCCAAAGCA
CTCTGGCTATGGATCAGAGGTTGTATGCTTTACTACTGTGAATCTCCCATTGTAAAATGTCCGTTTATTTTGGAGGATTTTGGTGAGGGTTACCAAAAGT
TTTAGTTCTTAAATCTCCCATTTTGGTGTCTTCTTTTCTTCTGCTTTTGTTGCCTATAAATGTATAGCACATTGCAGGATAGTAGACTGAGGTCCCGGTA
AGAATTTCAGGTTTGATGTAACTAGTGAATCATGAGTCAAGATGCCTTGATTAGGGAAGATGATGGCAGCTAACAAGGATGAAGTCTGTAATTATATCCT
ATGATCAGATAATGCAGAGGGGTTCATATCTTCTGTGTACCTGTGCGTGGATGCAGATGGTGAAACAGATAGTGACTGCAGCTGGTACTGGAGCTGTAGG
AGAAAGTTCTTCATTTTCTGAGCATCCCAGGACAATCTCTGAATTGCCTGTTGGCTTTGCTTTTGATATGAAGTGTGGGTAATGTTTCATGTGGAAACCA
GGCCATGACTTGTTGTGGGGACCATTTATAATTGGGATGAAGCCTGRAAAATGAGTTGGAGTGAAGGAATTTGACAGAAATGAAATGACTTGAGGATAGA
GACAAAAATATCCTCAATGTGATAGTTTTGTCTGTTGGTTTGCATGTCATTATTTCTCCACTTCCCTCCACTTGCTTTTTCTGCAATAGGCGCAGTGCAT
GCTATGAATTAAAGGAGGAAGAGGAAAGTAATGAGAACAGGCCTGCTTTTTTTTTCTTCTGAAACATCCAGACTCTGAAATTATTAGCTCCATCCAAAAT
TACTTATCTCTTTATAGCACTGCTGTACAAAATGTAGGTGTTTTTCCCCCTCAAATTCTGCTGCTTTCCCCCTTCTTTATAGGAACATCTGGTTTCTTTC
AATCTTCATATTCTTAGTGAAAATAAAACTGAGTGAAGCTTTGCTAAGCTCTCAGAACTCTTGCAAACCCTTGACTCCATGTGTTTGATGAGCAGGTCAG
CCACCTCCCTTACGTCATGCACAGGGCTGCCTGGAAAGCTACAGCTCACCAAACACCAAAGCCCAGATGTGCAATCCAGTCCATCAATGGTGACTCTGCT
GATCTTATTTTGCTTATCACTGACCACAAAGACATAAAAGAGGAAACCTAAATGCAACTCTAATTAATATCCATTTATTCAGAGAGAGAGAGAGACCAGG
TCTTTACTTTCTCTTTCTGCCCGTCTTTTCATCTTTCTATATTTCTCCCTCTCTCATTTTTAGGTTCAGCCTTTGTGAATAATTCATTATATGTGTGGGT
TTTTCCTAGGATTTTCAGAAAAGGAAGGTTATTTGTCTTCCTCTTGGGTAGGATTATTAAGGTCTCTCACAGAGGACCAACTTCAGGAATCTACTTTTTC
TCTAAGACCTTTGTTTTCTGCAGTGGGACTGTCACACAACAGAAAGGAAGCTGGGGAGAAATCTTGTAACCTGCTTTTTCTTGTCATTTTTATGATGACT
GCCTCCTACCCAGCCCTGTTACATTTGAGTGCCCCCAAAATATGCAACTACTAGCCTTTTCTACTCAGAGACTGTGGTTAAGTGGAAGGTACGTGTCACT
CTGAATCCTCTCATCATCTTGGGTTTTCACACTGATAAATGCTGAACGACTAGGCTAAGGAACAGTCCTCTGTAACCATTTCTTTTCAAATTCCAGTGTG
AATTTTTACAGGAATTACAGGGAGCAGGGGTAGTTATGGGGACCAGGCATGGAAATTAGTGTCTAACACTCCGCCACCACTACCACCACCACGATGTGGC
TTCTAAAGCAGTCCCTTCCACAGAGGGATAGAAACATGAGGGGCTTGGATCAATGTTACTTTTCCCAAGCCTTCTAAACATGCACAGAGAGGATGCACGT
GTGGGTTCACCCATCAGTCATGTTTCCAGCATCAATCTTAATTAAGGACAGAAGGTATAGCACAAAGTTTTTAGACTCCCCCAACCTCGTGGTTTCTTAG
TGTTAAGGTTATTGCAGAGAGATGTTTATGGTGTATCTTTGCTCACTGAGCACCCCAAATATGTTTCCTTATAAAGCTTGACGAGCCCCAGTGTCCTCAT
CTCTGGAAAGCAGGGAGCAGCTAGAAGATGTGTTCTTATAAGGTGAAGATGGGCCAGATTAAGGGGAACAGCAATGAATGACTTTAAAATGTGTCRGTTA
TCCAAGAGATCCTCCCTGCCACCTCCCAGAGCAGTGGGTACTTCTTAGGAGCTTCCTTTATTGTATCTTGAGCTCCAAATTTGTAGGACTAGATAGTTCC
ACCCTTAATCCTCTTACTTATTAAAAAAAAAAAAAGGAGCCTCAAATAGACCCATTTGTAAAGCAGTAGTTAATCCCAGAAGCAGGTGGGTGGGGCTTGG
GAATGCTATGCCCAGCTAGGCTCCAGCCACGCTCCAGCCACGTGAGGCTTCAGAGAGAGGCCCTGCCTGGCACCTGTGCCAAGCATGTTTTTTTTTTTTT
TTTTTTTGCCTGTGGGTGGTTGATTTGAATCACTGTTGCAACTCTGCATAATCTTGAGGCTATATTTTTGTGTGTGTGCTGCATTTTGTCTTTTGCTGCA
TTTTTGCTGCATTTGGGCTGCATCGGTTCTCTTCATCTCTGGAGAATTTGGAAAGCCTCCTTCAGATATATGCCTGAGCTTTCCAAAGACTTGTGTCATT
AAAGGGGGGTGTCATCTTTCTTCCCTTTGGGGGAGGGATTAAAAAGGATGTAGCTGGATGGTAGGTAGCAGGCTAGAGGGGAAAGGAAGAAGTGCTCTGG
TGTAGATCATGGGTGGAGCCTTGATGATACTCAGTCTATTATGGCATCATTGCTGAGATGCAGGACATCGTGCGTGGCCTTCTGGATCCAGAGCGGAGGC
TCTGAAAACCAGCACTAGGAGGAAAATTAATACTCTCGAGCCTTTCTCAGCCTTCAGCTTTGCTGTAGGTTGGAAGTTTTTCAAACTTTCTGTGCCTCTT
TCTCAATTTCCACACCATTGTCTCATGGGACTGGTCAGAGCCAAAAAGCATGAAATGGATTTTCAACAGTCACTCACTAACGTCCTGGCAATTTCCAGCT
GTGTTCTCCTGGGAACTGTTTTGCTGCTTTTCTATCAGCGACCATTCCTTTCAGCAGATGATTTCCATCAACATCAAGGCTAATTCCTCATTTAGTTCCT
TTGTGTTGATGTCAGACATAGGCGGTCTGCCCGTTTCATCTACACTACTGGCTGTCAACCTGTGTCTCAGAATCACCTGGAGGGCTTGTTAAAATACAGA
TTACTACCCCCCACTCCCAGAGTTTCTGGTTCAGTAGGTCTGAAGTAGGGCTGGAGAATTTTTGTTGGTYACAATTTCCCAGGTGATATTCATGCTGCTG
GTCTTGGACATCATGCTTTGAGAACCATTGCTGTACATGGTTTTGTTATCTGCCTGGCAATGCCTTTCTAGAAGGCCAGTCTTACAAATTGCTGATGCAT
TTCCTCATCCCAAATCTCTCTCATTTACCAGCTAAAGCCCTGCTGCTAACAAAAGCTTATGCTTTGGGTTTGGATAGTGAGGAGGCTTTGAGACTTCTCT
AACAAAATGCTGATGACCTTGAGACCAGGGACATATTAAGCAAAATATATGTCATTATCAACTTTGAGTTAGTTTATCTTGTTCTTTCAGGACTTATCAC
TGAGAGCAGGCTCTTCTGAGAAGGGACATGCACCCATTTAATTCCAGCACCTAGCACATGCTGGCACATGGTGAGCATTCAGTAAACTTTTGTTGGATGA
TTTATACCCAAATTGGCTACTATTGAGTTAACAAGCATCAACAAAGTGCCTCATATTGCCCTGACCAGGACCTGTAAGACCAGGTGTAGCCCCAGGGAGG
GGACAGGAGGTTGCCAGGAGGTGGTGTGAGGGCAGTGGATGGCTGGGAGGGGAGTGAAGGATCATCACATGGGAATTGGGAGGCTGTAAAAGACAAGATT
TAGCTACTTCATAATTTTCCTCAGGATTCTTTCAGTTTCTGTATTACTTGATGCAGGCTTTCTCACGGAAAACAAAACAAAACAAAACAAAACAAAAACC
AGGGTATTTGTTATCTGGCATTTTGTTACATGGAACTCTTTATTAATTGGCATATAGTATAATGACAATTGAGATTTGTAATGGTGACCCCCTAGGTACC
ACAGAATGTTGGAGTGCTTTCTGAAGAGCATTCATTGTATTATATTCAACACAGTTCCAATGGTGTGTGCACTTCATTGTATTTTGAGCTTTGTGTGATT
TATAATTCATATTGATTATATAAGTAGCTCATTACCACTTTTTTTGTTCAATTAACCAAAGTGTTCTTCTCCAGCTGTACCAGATGACAGAGGAATTGGT
ATGTTGTTCTAGAAATCAGACCTTTTAGTTCTAGAAATATTATAGGAGCTGGAGGTGAATCCTGGTGCAATTGTCATGTATCAGGTGATATTTAGAACAA
AGTCATTATTTCAAAAATGGACTAATAGCTCAGCAGGCTTTAGATTTACTGGGCAAGTTCCCCAGCTGGTAAGCTGGTATCACATCTAACTGGGTGTGTT
TGTTTCTGTAGGCTAACACTGAAAATGAACCACCAAGATTTCCAAGAGAGCTTTCAATAAGCATCTCAGCAAGAGGTTGTCAGATGATACCTTCCCCAAC
CTGACTCTGAGTTATCCAACTTTTATGCCTTGGGCTTATTTTCCTGCTCTTTTTTACTCCCACTTCCCTCCTTCCTGAAGGTCAGGAGATGTTGAGCTCT
AAAATGATTCTGTTGTAGGGTGATGGTCTTTAGGTTCTTCAGGGTCAGTTTGAAACTCTATGGAACTTCAGAGTATGACCTGAATAAATGTCTGAGTAGT
GACCTGAGTAAGTGTCTAGATGACCTCAGTAAGTGTCTAGATGGCATCTAGATGACTCTTTTTGGAGTGTTGGGACCATTAAGTCCCTCTAGTACAGTGT
TTGTTCATTTGCTTTCTATACTGGGATCACAAATCCTACTGACATCTGGTTGATGCTATAGACCTGTCTCTCCTGAAAAATACACATACAATTTTGCATT
CAATTTTAGAGGTCTATGAATCACAATTTAAAAACATCTATCATGTTAAAAAATTCCCACAATTTGGGATGTTGGGATGCTGGGCTATCAGGAGTAGTGA
TTCTCAACCAAATATCAAAGCCTTTATGAGCAAGTACGACAGGAACTTTATATGAAGGAACTAGAGAGATACGGTTGCACTGGGCTGTCAGCCAGGCTGC
TATGAAAGAACACAAACATTCTAACCAAAGGGCATGAATTCAATACAGAAACTCTTTCTACATCACTGTGAAAGACGACTGTCAAGCTGGAATACCTCCA
GTGACAGGGTGCTCTTCTGTTGTTAAAAAACTTAAGATATAGGAAGTGGAAATATTCCTCCTTATAGCTTCCATTTGTTCTTTCCCTTCCTGTTTTCTGT
TTTGTAAAACAATATAGACTCAGTCTACTTCCTTTCACTTGACAATACTATGGCATTGAACAGCACAGTTGGTGGATTTTTGGTGATGATAGACATGGCT
CTTGGCACATGTGGCCCTTAAGGACTTGATATGTGGCTAATGCGACTGAGAACTAAATTTTAAATTTTACTGACTTAATTTTAGTTAAGTTTAAATAGCC
ACATATGGCTAGTGGCTACTGTACAGGATGGCACARGCAGAGGGAATACATGATGAGTCAGAAAGCTTAAGCTCCCCTTTGGTTCTGTCATTTGTTAGCC
TTGTAACTGGGCAGGGTCTCCTTGGCTTGGTATGCAGGGCTTCTCATGAGCCACTCTGCACATTGCGCCAGCTTTCCTTGACCACTGTAATCACTGTCTC
TCCAGCTGCTTCAGTGGCTGCTGATSCCTGAAGGCACCATCCTCTTCCAGGCCTCCGTGCCTTTGCACTTGCTGCTTTTCCACCTAGAATGAGTCTGGCT
TTAAGATTGTACTCAGAGGTCACTTCCTCTGTGAAGCCTTCCTTGATTTCTCTTGGCCGAATAAGACCAGCTTCCTCCTTTGGGCTCTCATAGGGCACTT
TATTTATTACTTTGTTGTATCACATACCACATAATTTTAGTATTGGTTTAAAATCCCTGCAAGGGAGGGGGGACGTTATCTAATTACCAGATAATAAGGC
AATGCTTATTAACATCAGCATTTAACACATTAGTTTGAATTAAAATACTTTTTAAAGTGGTGTTTTTTTTTTTTTTTAAAGAAGTGGCATTCCGTTTCTG
ACTTGAGATAGTCAGCTAAAATCTCTGAATCTTTTTTTTTATATGAATTGATGACAGAGTTAGTTTTCTCTCACTCTGTTCTCATTCAGTTTAATTTTTG
AATCTAGATTCAGGACTCTATGTTTATATCAAGTATATTTTATCTCCTTGCTTTTGCTCCAATGTTTATCCTGCAGAGATCCTTTTCAACTGAGAACAAA
GAACTAACATTCATTGAGCATCTACCAAATTTCAGGCTCTACTTCAAACAAGTGTATTATCCACATTTTAAATATGGGGAAGCTGAAGCTAAAGAAGATT
AAATCACTTGCCCAAGGTCACCACMGGTGAGCTTGAACAAGTGGTCCGAATCCAAAGTTTAAGTGATTTCTACACCGCACTGTCTATGGACTTTGCTGTT
TCATGAGTGAGCTCCCCACCCTAAGTGCTATGTCATCTGCAGATTTATAAGCAAATACTTAATGCTTTCATTTGAGTAATTGATAAAAAATATATTTAGA
ATCAGGGACCCTCTTTCTGCTTATCATCAGTGTATTAGTCAGTGTGCGTTGACCGTTCAGCTTTTCTCAAGTATTCTGAACTGTGCTTTAGCCTACTGAC
ATTTCTGTATTTTGTCTGTAAAAATATTGTACGCGATATTCTTGTCACATGCTTTACTGAAATCAGTACACACTTTCATGACTACTTCATGTCTATTTTA
AGCAGGAGGTAGCATCTTGGTTTCTCCAAAGTCCACTTTAGGTATCATTTTCAGAGACTCAGACAATATTTTATTTCTTTCTTAGACAATAAAAGTGTTG
TGTCCTAGATCTCAGGAGTTGAAGGGATATTAGATGTCATCTAGTCCAATGCCCAGTTGATGAAAGCTTCACCTTAGAGTTCAGGATTTACCAGTCTCTG
CATGGAAGCTTTAGGGTATTAGGGGGTCGTTGTTAAAAATGACCTCTGGATTCAAATCTCAGTATCACCTCTGTCACTTTATAGCTGTGTGCCTCAGGCA
ACCTGCTTACCCTTGCAGTGCCTTGGATTTTTCAAATGTAAAACAGAGATAGTAATTTGCTTCTGGGGTGTATCATAGGATTTTTGTGAAGGTCAGATGA
GATAATACATGCAAAGTGCTTGGAACAATGTTTGGCAAATAGTAAGCTGTGAATAAATCTTGGTTATTAGTATATGGTTAATTTCAGATACATAAACATT
AAACTTCTGCAGCTATGTTTTCTCTTTCCAACAATGCTGTCCTACTTCCTCCTGGCTCTTACCAAGTTTCTAACCTGAGTGCTGCCAGATAATGTTTACG
TGACCTTGCATTGGTTTCATCACCTCCCTGAGCCTCAGTGTCTTCAGATGTGAGGTGGAGGTCACTTTCCCTGCTTTGCCTGCCTTATAAGACTGTTGTG
AGGTTAGCATTGGCTAATGTGTATGAAAGCCCTTTGCAAACATATTAGGTATTAGTATTAGTGTTAATGTTGATAGAATTTATAAATATATAACACTTAT
TGAACATTTACTATGTGTCAGAATACTGTGCTAAGTGCTGCCCATGAGTTATTGCATTGATTCTTCATGACAATCCTACAGAGATAGGCATTCTTGTTTT
CTGTCTTTCATAGTTAGAAGGATTAAGGTGTGGAGAGGTTAACTCATTTCCCTGAGATCGCACAGTAAGAGCTGGAGGCCTGRATCAGAACTCGTGCTCT
TAATCACTGAAGCTAAATAGTCTTTCCATAAGACTTTTTTTCTTCCTTCTCAAAGTTATTGGGTTTACACTTTTAAAAATAAAATTTAAAATATCTACAT
CAAAACCTGTTTCCTTTATATGTTTCTAATGCTGATTTTATACCAGTATTGTACCTAAGGACAYATTTGGATTTACAATCAGAAAAAATATCTTCAGGAG
CAATAATGATGCAGAATTTTCCCAGAAAGCTTTTGATAAAAACAGATAGGATACTTAAAATGATCTATAACCTTAACAGACTCACTTGATTTTGTCTTTG
AACAAAAATGGTAGCAAAAAATTTCAGATGGCTTGATGGATGGCATGTAGAAGGATCCCCTTTAGATCCTTGGCATCTGGGCAGATTTTCTTCCTGGGGG
TTGCCAGCCTCCTGGCTAACTACTTCCTATCTGCTTAGGCTTCTTGGGTATTTAGGGCCTCTATGTTTGTTCTATCAGATAAGAGAGAAAAGATTGGAAT
TCATTAACTGTGGAGGAAGCTTCTGAAAGGGTTAGGGTGCTGTGGGGGGAAGGGGAAACCTCCATTGCTTGGGACTCTTGGAAATTTGCCTAATGAGCTT
GGTGAAGGTCCTCTGCTAGGGATATTAGGGGCATTTTACCTGTGGGAAATGTTTACTGGTGTGGACGAGAATGGAGAATTAGGATGCACCACTTGGCTTC
YGGAAACCAGACAGAGCACTCAAAAGAAATTAAGGAGTGGGCCTAAAAAGTTAAAGGAACTGCCTCTCCTTTCTGCTAACTTTGGATTGTTTTTGCATGG
AAATTTGTATTTGTGAAATAACTGAGCCATATGGATGCACAAGGATGCATGTGTTCTTCTAGTCTGTTGATATGAGGAGCAGTTGAAGGGTGTGGGCTTG
TCTGGAGGTGGGGTGAGTAGGTGGATGTGGTAACATGAGGAGGGAGCAGGTCTGAGGAATATGGGCCTATGTCAATCCGAGGATCTGGGCATTTTGGCAA
GAGCACCCTCCCTTCTCATAGAGAGGTATTTATTTATTTTTGAGATCACCATCTGCCCCACCACCTCCCCCCACCTGAAGTTCTATGGATAAGGATGTTA
CATCTCTGGGTAACCTCTTTCCCTGGCGATGATTAAAGAGTAACAAATGCCCACTCAGAAAGACTGTACAGGCTGAGAAAGACTGAGCTCATTTCTGTCA
CAAACATCAGTAGACAGGCTCAGGAGAGCAAAGCAAAGGAATAGATTCTAGGAAATTAGAACTTCTAACAGCTTTCTATACTTCCACTGTGAAAAAGGCT
GGGTGCAGAACAACCTGCATAATCATATGCCTTACCATTTCTCTTTTTATCTTACCTTCRTGTCTTTTTATCATATAATTTTACCACCATTCTATAAGGA
CCTCCCTCCAGGCCTGGAGAGCTTTCTGTTCCTCAATATGCATCCCTGAGAATGGATGGAGGAAACTAACCTTTAATGAATGCCTATTGTATGACAGGCA
CTCTACAGTGTGCTCTAGAGGAGTGTATCATTTAATCCAACCCCGGGTGAAGTGGATATTGTTCTCATTTTATAGATGATTAGCTTAAGGTCACAGATAG
ATGTGGTCTGACTGGTGCCACTGGCTGCTCTCTTTCCATTGTTTCATGCTGCCTTGGGTTAGACCAGAAGACCAGCAGGTACTCTTCCCTAACAGAGTAT
CTTTTTAGGATGACACTGTGAACTACTTGCATGCATCTGCAGCATCACTGGGTATGAGGCTAACTCATGAAGGAGTGAAGGATCAGTAGATGGAAGAAGA
GCAACTATCTCTTTCCCATCATTATGGTCATCATGAAATGGACCTGAGACATCCTGGCCTGGGTCACTGGAATGCGAGCTTGAGTCGGAATCTGAGATCT
TTGCTATTTTGTCTTTCCCCCGCCAAAACTCCACTGCTGCAGTTCCTTTATCTGTCTGCAGAGCGCGTTTGGTTTGGAAATGCCAGTTCCCCTTTCAATA
TTAGCATGGAAAGTCCATTTTCTTTTTTCCGGTTCTCAGAGAAGTCTACCCTCAGTCCTTTCTGTTCTGGGGTACCCATAGTGTGAGTCATAGTGTGGAG
GTGGCAGCTTTCATGACCTTCTCTTGAAATTTTACATACTGAATGCAGCTTTTTAAGGAAATGAGGGTTGGGTTATAGAGAGACTGCAGAAAGACTCTTA
TATCCTGATAAAGACTATAGAAGAGGCTTATAGTAGGTTTGTGGAAAAGGGCAGCTTTTCCACAATGGTTCACTTCCAGGCCACCATTGTGAAGATTCTA
GCTTTTCTTTAACTCTGTTAGAGAAGCTGCTAGCGAATCCAACTGGTCATGGAGCTCCTATGCTTGACAATTTAGAAGTATTTCCATGGACTCTAGACCC
TTTCAAGATGTCCCTGGGTGTGCCAGGATTTCCATTTTTGAATGCTATTGTGGGATCTCCTCATTAGTAATTTCACCAAAAATGGCTTCTCTCAGTTGTA
ATCATGTATGCTCTTTCTTTCTCCTCCATTTCCCTTCCCATCATGTTCCTCATTAGCATAACAGAATACTAGAATATTAGATTTATAGAGAATAAAAAGA
AACTTGAATCAAACTCACACTTATCCATAAGAAAACTGAAGGCCATAGAGGTTAAATGATTTGCCTCAATAAGTGGCAGAGCAGAGCCTAGAACCCAGGG
CCGCGACCAAGTGCCAGCATCCTTTTGTCACATTTTCTCTTCTTTCCTCTGTACCCTTTCTGTGCTCAACCATCTTCTCTCTAGTCCCTTCTTTCTCTTC
TGGGGCTTCCTCATCCTTAGCAAGTATATGTTTTTGGTGTTTGGGGCATAGGAGGCTGGATATAAGGATCATGACTAATAAGAAAGGACTTACRTAAGAA
AAAATAGGAATGGATAAGAGAAAGATATTCATAGAGGTGAAGCCAACCAGCAGAGATCCAGTGAGAATTGGTAACAGTGACTCAGAAAAATGGTTAATAT
TCTTCTTTCCCAAATATGTTGCTGGAGAACTTTGTGAAATGATAATATAAAACTCAATAGGCAATGGACTTCTACCCAGTGTAAAACCAAGAGCAGATCT
CAGCAGATGGGAGAATAGATGGATGCTTAGGCAAGCACTCATCTCAGAATGGTTGCTGGGCTCTTCAGTAGCCCTAAGAAAGGCAAACTATCCAGACTCT
GCCCTGAGAGGTAGCTCTTTGAGAACAATTGAGTACTCCTGGGAAGGAGGAAGCAGCTCAAATAAAAAGATCTTTAGATCCCTTTCTTTTAGAATTCTYT
ATTGGAGCTAAGAGACCAGGGAATTTTATTTGATTATTCTGATAATAGTTTTCCCAAGCTTTTCAGGGTGTAGGGCTGAGAGTACAGAGAGGTTTCTAGC
CCTGGTTCTAGAAAAATCTCATTCCTTTCCTGGTCTCAGCATCTACATCTGTAAAATGAGTGTGTTGGAATAGTTACTAAGACTCTAAGGTGCCTTTCAG
TTCCCACTGTAGAGACTCTGGGATTCTAGTTTCCATCATTGTTATTTCAGCTGATTGGAGGACACGATTAACTTTCTTGGTCTCCAGCATTCGAAGCCTG
GCTGCACATTAGAATAAGCCTGGGAACTTCTAGAAATGCTGATACCTAGACTGCAGCCAAGACAAATTAAATCCAAATTTCTGGAGATAGGACCCCTGTA
TTCTTAATTTTGAAAAGCTTTCCAGGTGATTCTATGGTCCAGCCATGGCTGAGATCCACTGATCTTCTAGACCGAGGGGAGCCAGTTACCTGACTTCCTT
CTGTTTCTTTTGAGTGTACTTTGATTACGTCTTGGCTGCTCCCTCTCAGTTTTCTTGCAGGCTATGGTGAAATAGCAGGAGCCGCCTGGGTGTCTTGAAA
TTTAGCCTGAGAGAATGGGGTGATTAATTCTTATGTGTCACTGCRTTGACAAAGCCATTCACCTGTGGCTGCTTCCGACACACCTCCAGCTGCACAGGTA
ACAGCCTTCTGTGATGAGGGGGATGGACCAGACATCCTGAATGCAGGTCTGGCTGAGGAGGCCATTTGAGGCTGAAGGACAGAGTAAGGCTCACCCAGGA
GGCCCTTGAGCAAGTGACTAAGAGTTGTTGACCTTGCTTCCTACCTGGTTGGTTCACCCCTTATGCATATGAAGGTTGATCCAGCATGACTACCATTGAA
TACAGCAGTCACCGCCTTAACATCCTTGACACTCCCCTGGGGATGTGGAACTCACAATAAGTGCTGTGCTGAAACTGGCTTGTCCCAGCTCTTGAGTGTC
CTCTCTGTATGTCTCTTCTAGACTCCATGTTCRGTGATATCAAGATGGTAGCTTGAAATTGGCCATGGAGAGAGTATTTATACCCCAGAAATTTGCAAAT
GCTACACATTGGGGCTTTTCCCCCGAAGTTAAACATCTATTAGCACAACACTTAGTTTTCTACTTAACAAAATAGTCCATTCACTTGTGGAACAGTGGAA
GTTCTTCTCTTTATTGCTCCAGATCTGTCTTCGGATGGGTACTCTGCACATTGGGTCTTAGTCTTTGCCTCCATAATAACTTAGAAAACATCTGAGCCCC
TTATTACAAGCTAGCCCTTCAGATATTTGAAAGCAGCTGTGATGTATTTCTCAAGTCTTCCCTTTCCAAGCTGAGTATCCCTAGTTCTTTCAACATTATC
TCACGTGGTTTGCAGGCTCAGTAGGTGTCTTTGAATGCCAGGGCACAGTTGCAGAGTTTTCAGAGGAAAACAAACATTCTCCCACAGGTGATCTATGGAC
TCTTTCACAAAAGGCTTTTCATTTTTCTTATGCTGTCTCAGTTCCATGATGCTGGTGTTGATATGAAGTGGGGTGTAGTCTTGGGTGGGGTTGCTGATTG
CACCTCATAGTCATCTTCCCTGAAATGCACGTTGCTGCCAGAACTCTTGATGGGCTCCAATTCATCAGAGTGTCATCAAAACACAAATTCTCGTTTCTGA
AACAGGTAATTTTCCCACTGCTGTTTTGTTTTCTTCCAGAGGCTTTTAATGCTCCCCTTTTCTTTTTTCCCTTTTCTGTAGCGTTCAATCATTTGTCTGC
TGTTCACCAAAACTGTGTGTTGAATGACAGCGTTTTGAGTCCAGGATCCAGTCACACGCAAAACAAATGAATTTGTTAAGACTTATCCAGCTGTCTGTAA
CTGCAAGGGGCATGGCAGTGGGAGGARGGAGGGAGACAGTACTGTCTTATTTTCTCAGAACCAGCACTTCCCATCCTTTGGGAATCAGGGCCCAGATGAG
TCTGGAACTGACCTCAGTGTTGGTTCACCAAAGTAGCAATCATGTGCACTTCCTTTCAGCCACTTTATCCAGAGGGCAGGGTCCTGGGAGTCAGATGGGA
GTTCTTTGGTCTAAAGTAATGAGAATTTGGACTTGCCTTCACAGCCAGCATTAAATGGGTAATGCTTAGGATCTTTTGCTTTGAGTAACTGAGTCCACTG
ACCTCCATGAGAGAGCAGCAGGATTGTATTGGCAAACAAAAGGCCTTTTGGGGAGTTCTCTGCCTCTTTGTTATGTTCTCAATATTGCTTTATTTGTCTT
TCATTCATTAGGTTTTTAGGAGTAGGTGTGATGGCATTTCCATCTTCTTGACAGCAGGAGTGGGGAAGAGAGAGAGAGAGAGGGATTAAGAAGGAGAGAG
GTGTGTGTCTGTTCAGGACTGCCTGTCAGATGGTGAATTTGAACAGAGGCAGCTGTTGTCATGGCGATGGCAGGTTGCATCCCACCACCATGGAAACCAA
AGTTAAAAAACTGATGTTAAGGCTGGAAGTCACATGATACATTTTTGTTTTGTTTTGTTTTAAAAAAAGAAAAGGGGTTTGGTTTTTTAGTCTTTTTTTT
TAAGATGAGGTTGGGTGGTGAGAAAAATTGCACAAGGAAAGCAATGAGATGATGACATGGGACAGTATGGAGTAGGCAGAGCCTTCTTTCATGTTTTTCT
GCTTGTTGACAGTGCATGTCTCCTGCCGTGGTTAGAGAGGGGATGGGAGGGGTATGCAGGGTGGACTTCCAGGTTTGCAGCCAGAGTTGTACACTGCTAA
CTGTCACATGGAGAAACACAGGGGTTTAGCCCTCTTGCCCTTTGGAGGTGATGTGTGGTTCACCTTCTGTTGATCAGCCCAGAACAGACCCAGGAAACCT
AAAAGTATGGACTACCCAAATAGGAAGATAGTCCATATATTGATAAATTTGGAAGGTTAACATTTATTTTCAGAGAATTGAAAAGTTCATCTATAGCTCC
TCAGAATCTCCAGGAATAGTTCTGTCTGTTTATTCCCTTTTCTGGGCTGGTCTCTTTTGGGCTGCCATGTCCTGCCAGGGCAGCCATAGGAGTGAGTGCA
AAGAAGTCCAGAAGGAGCCCTGGGCCAAGACTCCTTGCACCATAGCTTATCTCTTAACCTGGGCCCTCTCACCTGGGCAGGGTGGAGCGGCTTGCTGAGA
GGCATTAGAAAGCCCTCTTGGCTCTCCATCTTTTTACCTCATACTGACTTCTACTTTATGCCATGATCTGGAGAAAATGTGAAACATCCCTCCAGGAAGG
GAGCTGGACTGGCCAGGGCTGTTTTTGCTTGCTTGTTCTTTTTTTGTTTTGTTTTGTTTTTTGAGACAGAGTCTCACCCTGTCCCCCAGGCTGGAGTGCA
GTGGTATGATCTCGGCTCACCACAACCTCCATCTCCTGGGTTCAAGCTATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGTGCCCACCACCA
TGTCTGGCTAATTTTTGTATTAATTGCAGAGACAGTGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCTTGACCTCAAGTGATTCACTCGCCTCGGCC
TCCCAAAGTGCTGGGATTGCAGGCGTGAGCCACTGTGCCTGGCCAGGCCAGGCCTGTTTGAACAGGGCTGGTTTGAATTTTCCTTTTGTGTAGACAGGTT
AGGAAGCAGAGATTTCTGTAAGAATGTCTGCTTCTAGGAAGGTGAGGAAGACCATGAGGGATGCAGACACACTGTTGAAGTGATGGTCATAACTATTGCT
ATGTCTGGGTTTTAGGCACAAGGTCTTATGTCTTCGGCATTACTCGTCCCTCCAGGACAGATGTATCTTTCTCAGTCGGCTCAGACGAGGGTCATATGAT
CTCACCAGCATGATCTCACTGCATTTCCATCAGGGTCTGTGGGAACTGGAGCCAGACTTCTGTGATGGTTCAACCCCTCCTGTTCTTAGCCCTGGCCTGG
GGTGTGATTAATATCCCTTCTAATCACTGGGAGAGATTGCATCAGAGCCATCAGCTTCATAAATCCTCCTCTGGGGACTGGTGTTTGGATGCGCTTTCCA
TATTCTCAGGAGGTTCTGGGCCAAATGTCTTTGCTCTTTTCCTGGAGGCCCATTACCATAATTTTCTTTTAAATCCTTTATTGGAGTTGGTCTCCTCTGT
GTCAGTCCATGGCTACAGCCAGCCAGCCCACTCCTGAGGGCTGGAGGCTGTAACCACCAACAGATGCTTTCCCCAAAGTATTGAGCCACAGTAGATGCTG
AAAGATTGAGTTAGTAGGATACTGAAAGTAACTGTATTTGTGCAACACTTTACAGTTTTCAGAGGGAGTTCAGATTCCGGTATCATTTTAGGCTTCAGTC
CTTTTGTATTTCTTGTTTGGTTCTGTGGGAATGGATGGTCATAACCCTTCATTGACTCTTGAGTACTGTGTTGGGACAGCTTTTGCAGTCGGAGGCCTGG
CTCTGGTTTCCTTTACCAAGCTACATTTTYTCCATTGCATTCCAGGTCTTGAAGAAGATTCTGAAGTTACACGGAAGGCTTGGATAGCTGTATTTCATTC
CTGTTCATATGTAAAATGTCTATTTGGTGTCATGCTAATAGGGAATCACAGACTAGTTAAGGCTCTTTCTCTGTTACTGTCTTTGAGTCAAAGTCCACTT
ATTAGGATGATATTTATGTGCACATGAAGAAGAGGTGGAAAGACATGCATGAAGGTGTCCATGCCATCCTCTGAGGCTGTTACATCTCTTGGATTTAGAC
ATCCAAAAACATGAGACTGAAGGGAGAAAAGGAGAYAGGTCTTCCTGTAGGGTCTGGGGTGAGGGGTGGAAATGGGTAAAGGAGGCTGAGGAATGCCTCC
CCTCAGACTGTGGACTCTTCTATACCCCCCCAGGAGTTTCCAGGAAGTGCCTGAGTGCCCACCGACTGCTCCCCACAAAAGCATATTCTGCATTAGGCTG
AAGTTGGGAGAGTGCACAGCATTCTATCTGCCTGCCTGTCAGAGCATGGCCTTCTTAGTGTTCGGATGTCATAGGCTCTGGGAGGAGACAGCTAAGTACA
GAGGTCTTCAGGATGAGCCCCCTGGTGGTGATAGAGATGCATGTTTGCCTGGGGACACCCAATATTTACTGCCTGAGGCCTAAGTCCTTCCCAAGCATGT
ACCTACAGATCTGTACCTGAGAGGTGATGATGAGGAGGCTTTTCAGGCTCAGGCAGATGAAGAGCTCAGCTCCAGGCCAGGCCCCCAGGGCTCCGGTGAC
AGCAGAACCAGCATCACCACCCTTGCCCCAGCTTTCTGTGCTTCAAGAAGGAAATGAACAAATGGCAGGTGTGCAGGCCACGTCGTGCTGCTCAAATTAG
CCATGTTGCTAAGGAAACAAGTCAACCATTCAAAGGAAGGAGCATTGRGTAAAGGAGATAAATCAATAAGTGAACCTATTTTTATCATTTCCCTAATGAT
TGTCTTGAAACTGCTAGACTAGAAAGAGAGTTGGAGCAACACAGGTCCTCATTAATGGGCTCAGAGGGAACGAGGAGTGAAGGGGTGTTTGAGGAGATTG
CCAGTAAAGTTTATGAAATGAGGCCTCTAGTGAGCAGTGAGCTGGTACAGGAGGGAAGGCAGGAAGGAAGATGTCTTTTGCAAGTTTCAAAGTGGTTTCA
TGGTCATTTCCTCATTTTGGCCAGGTCCCTTCATTCTCTTGCATTTAATCCTCTCCGAAGTCTTTTTCTGATTTCTCTGGCCATYGCRTTCCTCCTCACT
CTCAGGTTGGGATGGGTTTTTGTGTTGATTTGTTCTTTTCAGGATACATATAGCTTTAATTGATTTTGTAGTGATAAATGAACACATGCTCATTTGAACA
CTCAGAAAATGGTTAGAGGAGTAAAGAAGAAAGTGAAAATAACCCTGCTACCGAGAGAAGACTCATCATCCTTCCAGYAAGACAGAATTTTTTCTTGTTC
TCTCCCTTCTCTTTTTTTTTGTTTTTGTTTTTTTTGAGACGGAGTCTTGCTGTGTTGCCCAGGCTGGAATGCAGTCGCACGATCTCAGCTCACTGCAAGC
TCTGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCGTGCCACCATGCCTGGCTAACATTTTGTATTTTTTT
TAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGATCTTGATCTCCTGACCTCGTGATCTGCCCACCTCGGCTTCTGAAAGTGCTGGGATTACAGGCG
TGAGCCACCGCACCTGGCCTTCTCTTTTTTTTTTTAAACATGAAAGGGATCTTCCATGTATGCTGGTTTATTTTCTTTTTTAAATAGGTCATGTGTGTCT
ACAGTGGACAGTATAAAAAGTTCAAATGGGTATACAGTGTGGAGAGTGTGGGTACCTTTTGTAAGGATACCTCTGGCTCTAGTTTCCCTGTATGATTCAT
TTATCAATTGAATATTAATTTATTAATAAAATAACAGTTACCGGGGCCCCACTGTGTGCCAAGTACAGTGGTGAGTGAGGCAGGCAAGGTCCTGCCCTGG
GGCTCCCAGTCCTTACTGCCCCATCATCTCCATTTGTTCAAGATTTCAAAACACAAGCAATCTGGATACCAGGGATAGATATTCTTCCCTAAAATATGCA
CAGTGTCAGGCACAGAGTGTAATGAGTGTCACTGAATTCTAGAACAGAGAGTCAGAGTCCTGGACAGACTTCCATCTTGTCCCTGATTGTGGTTGCCATG
AAGGGTGATGGTCTTTGAGGCCGTGGCGACTCGGAGCTCCCTTTGACCTTTCTAAGTCATGTCTTTGTCCAGTCTGCCAGGTTGAGGGKCACTAGCTTGA
CTGGTGGGTGGGTGTTATTTGCCGTCTAGGCTCTTCACTTTGGGGATGTAGCAGAGCCATTGCTTTGGGGTGTGAAGTTTTGCTGTCGGGAAGAAATGGG
AGTGGTGCCTCGGAGGCAGCCTGCAAGGGTGGGAGTGAGCAGGAGCCATGGCTCAGGCCAGAGTGGGTGAGCAAAGCCCTGTCTTTGTAATGGCTCCTTA
GTGAATGCCTCATGTTCATTCTTACCTGCATTGAACATTGACTAAGCTCCTACTATATACCATGGGCTCTGCTAAGCACTGCCAGTAGAGACATGAGCAA
AACTCCTGCTTTCAAGATATAGTTTCTTGATTTAAATAGGAGAAGAAATAATACAGTCACACAATTCAAAGAGCTGTGGGGCACGGGGAGAAACTTTCAC
TGACAAGGTGGCATTTCAGCTTGGTCTTGATGTATGACTGGAAAGGAGAAGAAACGCCATTGCATGTGGTGGCAGAAGCACCTAGATGTAAATGCCTCTT
TTTTGTGCTTTCTTCAGAAAGGGAAGTGGAAAAGAGTTTAAAGAACAGGGCTGTAAGGGAGAGTGGCTGGGGCCTAGGCAGACTTGGATGGTCTCTTCTG
CTCACCTCCCCTGAGATTTCCCTGCCACTATCCATTCTTTCACCTAGCCCACAGTTACACAGAATCTCCACATTCTCACTGCAGGTTCTTCATTACCGCA
GCCATGAATTCATCCTGAGGTCTAGATGCCCTATAAGGCTGAAAGGGACATCCCTCTCAAGGGCATATATATCTGAACAATTTTAAAAATGTAAAGCAAA
AAAAAAAATATTTTTAAGCCAGAAGATTGCTGCTGTGAATGGGCCTCACATCAGATAGTGGGAAGAGGATTTGGCTGGAGAGGAAGTGAGAATAGGGTCT
TCTTAGAACCTGTGAATTACCAAACTCCCACCTTTAGATTCTAGACTTTAGGGCCTTGGGTAGCACCAGCCATCAAGACCTCATGAATTCTCAGCCACCC
AGATACCTGGCCAGTCACTGGGAGTTTGACTCATCAGCAYCTGGGCCAAGAGCCATTCCGCTGCCTGGAGCATCTTCCGGTGGTGTTGGCTACACCTTCC
TGAGCTAGCCTGTGTCCCCACAAACCTCACATATCTGCCCTTGGACATTCTGGACTAGTTGAGCTTAAAGGTCCTTATAGGGAGCAATATACTTGGGTTA
ACTGGCTAGGAAAATGCAGGTATGGGTGTGGAAGCAGGGAGCTGGGGCAGTGGAGGAACTGCCATGGTCCAAGGGGATATTGTGAGTGGAGAGTCAGGGG
CAGTGGAGGAGCTGCCATGGTCCAAGTGGGTATTGTGAGTGGGGAGGCCTCGGAGGCACATGGCTGCCAGGACCTGTCTTGCCTGCAGGCTCAGCACTGA
GAACCCATCTACTTTGAAGCCTGTGCTTATCACTTTCAGGTTTTCAGGGGAAGAAGATTCAACCCCCCAAAACAATCATAGACCCCACATAGACCCATTA
GAATGCGAGAGGTCTGCAGCTTGAACGAGAAAGTACTTGTGCCCAGTCCTACCTTCCAGGGCAGGCACTGGGCTTCTTGGATCTGCTGAGCAGGTGTCTG
AAWTTGCATGAGACGTTTCCAGCTGTGAGGAGTGACCAGGTGAGCCCCACACTGTTGTGAACACTTTTGTTAGGAACCAGGACAGGGGATGACATGGAAG
AGGCCCTGGTTTCACTCCAGTCAGATCCATCATCCCTCCTGCCCCAGCTCTTGGGGACTGGCAGACAGACCCCCACTTTGTGTCAGGCTGCCCAGGTATG
TTCCTGGGAACACCGTTCAAAAGAGATGCTCTGAAAAAAAGAGTTACAAGGTGAAGCAAGTTTGGGAAATGTTGTGTGCTGTCCCAAACGCCTTGTGTGT
GTGTGTGTGTGTGTGTGTGTGATGGGGTGTGTGCCCACTGTATGCAAAAGTATTAAAGGCCCCAAGAAGTCCTGCTGGGGAGAAACCTGCTTAACTTTGC
CCAACCCAGGCTTTCTCTCATTGGTTGATTGCAAGTTCCTATAGCACCAGTATTTCATGGCCTGCATCTTAGGAATACCACTCTCAACGCTCTCAACTTC
TGTTGTCTTTTGTCAGTGACTTGTATGCGTGTTGYCAGTTCTCTTTCTGGATCCATCGCCCAAGCATGTTTTCAGGAAAGGGTATGGATTCCTTGGCCAC
CATTGCTGCTGGGTTCCCATCTTTAATTTGCAGGATGAGTCTGGGATTCCGGGTGCCTATGCCAGGCCCAGGGCAACCTAGGCTGTTCAGAAGGCTTATG
GGACACTGGGTCCTTGTGTGGTTCCTGGTTGCTCTGCATTTTTTCAGAGGTCTGGGTTACAGCCATGATGGGAGGGGAGGAGCACTCCTCCTGCGATCAG
TGGGCATGGGTGGCCCTTGGCAGGCTGTATGTTGGGGGCCAGTCCTTAGAAGGTGGTCATGCTAGCTGGGTGGGCGTCTGTGGTGTGTGTCTGCTGGCAT
GTTTGGCTCTCAGGGGCTTCACACCCGGAGTGTTTGAAGGAAGAGGAATGCCCATGGGTGCTGAGGGACTTTCCATGTGGGGAGGCTCCCCTCTGAGTGG
GAGGGTTTAAGCAGGCACAGTGGGGTGTGGAGGCAATGGACAGGCTCTGAAGTCCCCTGAGGCCAGGTCTGTTTTTAGTTCCGGTGGCTGAACCTCAGGG
CAGCAGAGGCCCGTGGAATGGTCTCTGGGGTCTGTGTGCTGTGTGAGTGCTAGAGGTGCGTGGGAAGGAACGATGGTGGTCAGCTGCTGGCGAGTGAGTG
TGACTCTCCAGTGTGACTCAGAGATGCATGGTGGTGGGGGAGGAGAAGGCACTGCCAAATGAGGATTAAGAGAAGGACTAGGGGCTCACACACAGCCAGC
ATCTCAGCCCTGCAGCCCCTGATGCCAGCACCAAGACCAGAGCAACTGGTGAGCAGCTCACATCTCATTGCACACACTGCCTTGCCCTCCCCAGAGATGC
CCTGGGTGCTAACTTAACATTGTGTTATTGCCACAGGTAGCCTGGCAGGATGGGGGCATTGCAGGGATAGCTGTGATTTGCCCTCCTGAACTCCACGACA
GGGTTCCAGGCCCTGCACCCTACACAGCCTGTCTGGGTATGTGGGGAGATAAGAACAGTCCCTTTCCTTCCCTCCACTTTGCCAGATCTACGGCTCCTCT
CTTCTGCCTGGATTCCAGAATCTTCTGGAGCACAGGTTGCTCAGCAAGACCAGCTGCAGTAGCTAACTTGTGTTTGTCGTAACAGTAATCACAGAATGAA
ATTCCAACATGCAGAATGACAGCACTGGGAGCTGGTGATTCCCTCTTTCTCTTCTGAGAGTCCTTCCCACCTCCCTCGGAGCATGTGGCAAAACCTTCCT
GCAGGGGTCATAGTCCTGTTTTTGAAAAGGCACAGGGAGCACCTCACCTGTTTTCAAAAACATCTAACAGAAAAAAGCCTGCATTCATTCATTGTAGTGT
GGTTCTTACAGGACTGGACTTTGCTGTCCAGGATTCCAGACTCGTGATCAGTCTCTGTTTCATATAGATGCAGACACTTAGAAGAAAATAAGGTGGGACA
AAGCAAGCCTCTCCTTCCCCCAGAAGTACATTGCTGAGTGGAATTTTAAAATAGAAGGAAGCTCACATGGAGAGAATTGTTTATTTTCCAGATGTTCTTC
TGTTACTCAGTGGTGCAGAGATTCTAGAAGAGAGGACTCCAGTTGTGAGCCCAGGAGAGCAATGGATTGCAGCAGCTGGATCTGTGCACAAGCATCGTTA
CCCAGTTCAGTGGTTTGAAGACTGGGGAGAACAAGGGGTCTGCGATGGCATTAATTATGTTTCTTCCTCCTTTCTTCCCCCTTCTATTTTCAGCCTTGGT
TATTGGATTTGTTATTGAATTCACTCAGTAGCTGGAGTGTCTGCCATATGCCCAACTATATTATGTATTGGCTATATACGTTCCTTTTTTGGAGAAGATG
CTTTGTGTTCAGAGACCAGGCACAAATGTTTTTGGTTTCACAAAACCAAAAGTGGATGCTAAGGACCATCCACTGTCTTGCCTGCCTGCCTRTTTACAAA
TAAAAATCATGCAAACTGCACAGACACAATGCGGGTTGATAGAGTTGTGTGTTTATGGGCACGGCCATCTTGGAGGCTGTGTCCCTCTCTGGTGAATTTG
TTCCTTAACTCCGCTTTCCCACGCCATTTGAGTACATGATCCTGGCCACCATCATTGCCAACTGCATCGTCCTGGCCCTGGAGCAGCATCTTCCTGAGGA
TGACAAGACCCCCATGTCCCGAAGACTGGTATGTGATTCCCCTCCTTCTCCCCTTTGCCCCTTTTGTCTTTCTTGGTTTCTTCTCCTCTGCTTTATCACT
CTCCCATTCCCTTCCTGCCTGTGAGTTCTGGGAGGAGTTTGCTCTTTGCTGGGGGACAAGCTAATGACAGACCCCATGGGGATTCACACGGAAAAGAAGA
GATTACAAACACTGTGTCTGTGCTGCGTGGCAGCCAGGGAAGAAGRAAGGGCAGGCACAGGCCCATTTTCTTCCCTCCTCTTTCCTAAGGGACTTCTGAT
ACGAGAGGAAGAGGTGGGGAGTAGAGGGGAGAGGATGAAGGATGCTCAGTGCTTGTGTGTATTTGTGGTTATGAACTTCCCAATGCTTACGTCCTTATTC
TCCTTAAAGAAATGAGTCACACATCTAACGTATTCCCCCTAAAAAGAGCAGACAAACTGCCTAAAATTCACGTGTGTACTTGAGATGATGACCTTCAAGC
TTCTAACTTATGTGAAGAGCAGCAAACTCCTTCAGGGCAAAGCCAGGGCCATCAGGGACCTTCCTGGGAAGGAAGTCTAGCCCCTGGGTGTGACCCTCAC
ATTGTCCATTTCTACAGCTGGCTCCCCTGGGTCTCCCTTGCCCTGTGCACTCCTGAGTCACAGACAGCCTGCAAGGGTCCCTTAGCACCCTTGCTTCCCA
CCTACACATGGGCAGGCCCAGCACAGACATCYAGGAAGGGCCAGGCTGTGCTTTTGCCTGTGTCTCATAAAGCACAGTCCTCTTCTCACTGGTGCTTCTG
CTYCTCATCCCCACAGGAGAAGACAGAACCTTATTTCATTGGGATCTTTTGCTTTGAAGCTGGGATCAAAATTGTGGCCCTGGGGTTCATCTTCCATAAG
GGCTCTTACCTCCGCAATGGCTGGAATGTCATGGACTTCATCGTSGTCCTCAGTGGGTAAGTCCATTTTCTCTCTCTGTCTGTGTGTGTGTATGAAGGGG
GTTGGTATCATGAGGTGGCTGGGGGCAGGGAACCTGGGGTGGAAAGACAGCAATCTGTAGAGTAGGGGCAGAAGAAAAAGTTCAAGGCTAAGATTCCCCA
GGGTGCTGGACCATAGGTCAGCCACCTCAAGAGGAGGATGAGTACTGTGTGGAGATGCGTGTGGTGTTAGGCAGAGGCCATGGGACTCTCAGCCAGGTCT
GGAAGCTGCCACTTCTGGTTTTCCATTCTGTGCTTGGCTCAGTGGCTAAACACCCACTTCTCTGGGGAGGGTGACATTTCCCAATGAGCCTTTTCACCAA
AGCAAGCAGCTTACCCCCGCCTGGGAGGCACCTCCAAGACGGGCCAAAAGATGTAGTCAAATGCAGCTTCTTTTGGGCGTTGGAGAAGACCTCAGCCATA
TTTTCTGAACTGATCATTGAGACTTGTGTTCTGACAACAGAAGTTTTTATCATTTGCAGATTTGTTAATAGTATAAAATCGAATCATATTAAAATGTTGG
ATAAATCATTCTGTGGAAATTAATATAGCCATACGACATTGGGGCTGACCCAGTGTCACAGCAGCATATATGATGGCAGTACATTTAGTTAAATATTTGA
TAAATCATTCTTTTGGAARTGAATATAGTATGAGGAAGCTGGGTTGACCCAGTGCCCTTGGCAGCAAATGTGTTGGCCTTGGGAATGGTGTGACGGGCAG
GCCTTCCTGGGCTTTTGTGGCTTCCTATTGGTCTTTGTGTCAGGTGGCTCTTGGTACCTGCAAAGCTGGGCACTGAGGAGTGGTCCTGTGTGGATGTGGC
AGCAAGTGATGTGGTCTGGAAATTCCCTTACCCAACTGCTTGGCAGACAGGGTTCAAACCCATGAAGAAAAGAAGAGAGTGACTTAGAATGGCAGGGAAG
GCGAAATATTAGCTACTACTGTGATTGACCAACAGGAAAGGAGAGAAAAGAGGAATTGTTTTCCAGGGAGGAGTCAGAGGAGGGGTGAAGGTAGATAAAG
TCTTAGAAGGAAGGGTAAGGGCTTGGGAATGATTGCATCTATTTGTTGTCATGTGGAATAGACAAAATACTCTTATTTTTTAATCTTTACACCATTGGGA
TTACATGAAAGAGAAAACACTGAAGATGTAATGGACTGGAATATGTAAATGGAAGCACGTAAGCAGCCAGCCCCTCAATATGGGAAATGGATAAATAGAC
TGGGATGACTATTCATGTTTAAAAATATCTGTTGCCTTACAAAAGGATTTTCTGGAGGTTAGTTTTCTAAAAGAAAATTCTACTACATTTTAAATATGAA
TTAGTATATGAAGATATAGTTTTTACATAGTATTACAGAASTATATTGGGTAATGTTGCAAATGTCCCTAAAATAAATAATATGTGCTGTATTAGAAGAG
GCCTGTWTGAGAATCTGAATCATTTAGAAATGTTATGATTCTATCTAGAAGAAAAGTGTTGTATAAGTCACTACAGAAGAACAACAAAAAAAGAAAAGTA
TTGTRATGTGTATATAATAAGTTTGTGTAAATTCTTGGTCCTGCTCAGCTCTATATGTGGCAGAATCCATTTGAAATTTCTTGTCTAGTCCATTTATTTT
TGTTTTAAATGATTATATGTTCATTAAAGAAATATGGAAAATACAGAAAAGTCAAAAGAAGAAAAAAAAATTCACTGATTCAGAAAAATTCCTGATTGTT
TTGTGGTATTTCCTTCCAGGCCTTCGATGCTAAGCAAGCTGTCTTTTAAATGCTTGTAATTTTGCTGCTTTCTTCCCAATATAGTATGAGCATATTACAT
GTTATTGCATATTTTGGTAAAAATCTGTAATGACTGATCAGCAGTTTGTTAAGTAGATGTACACATCTTGCTTCTCATTTTTGCAGTTACTTGACACTTG
GATTCTTTCTGTTTTTTGGCTCTGATAAATAATTATTAAAGATGCTCCAACGTACGTCTTTTGGATATCACATTTTATGAGACATTTTACAAGGTTGAAG
AAGTACTTCTGGAGGAGTATACGGCTGTTCTGGTGTGGGGTCTGGGAACTAATGGCTGAGAGGAGGTRGAGAAACTGGTCTGTTTGACTGCATGAGAGAA
GACTTCCAGTAGATGTTAATCTCTCTGCAAATAAGGGTTGCTACATGGTTGTTGAAGAAGCAGATTCATAGGGACCCATAGGGTTCTTTTGTCAGCGAAG
CCAAGAAGGGCCCCTGGGTCCTTGCCTGCATGTCCAGGGGGTGTTCAAGAGTCAGTGCAGGTGCTGAGCTTGGCTGAGTCAGTTGTCCTCTCTGTGCTCT
CTTTCCCATCCCTCACATCTTCCCTTCTTAGTGGCWCTTCAGATGTCCCTGGCTTTGTGAATTGCCTTCACAGGCCCCTGATTTCCATATGAACTCACAG
GACTTTGCTCCTGCTCCTCCTCCAGACCTGCTGCTTAGCCCTCTTCTCAGCATGGACCGTTCCCTTTCTCCTCAATTCATGGGTGAATGTGCTCCAGGCA
AAGAGCTTGGTCCTCTTGAGATCCCTGCTGAGGGGCTGAGGGTTGCGGTTCTATCCCACAGGAATGCATGATCATATTTAGTCTTACAGTCACATGATGC
TCTCATCTACCACATTGTGTGGCTCTAAGATGCACGTTTTTCATGCTGGAACATTGCTGAAATCAGCCTGTGTCTTACAATAATGGCATGATATAGTTTA
ATTGACAGCATGTTTTTCTTTCTTAGTGCTACATAAAATTACGGGGCATCTTACAATTGTTGGGGTTGTAGATTCAATGACATGTGATACCAACCAGGGA
GGCAGGCAAAGTGGACTTTAGAGATGAGTCATCTGGTACTCAAAGAGGGTAAGTTATTCACCCAAGATCACACCTGCCTCTTAATGGCAGATGCAGGAGT
CAGAATTGTGCCTTTTGATCCAGGGCTGGTGTTTTGACCCCTGCCCTGTGCAGCCTCCTTACCAGGCCACCTGGTGTCCCCCTTTGTCTTCCTGACACCT
GCACCCACAGCAGTCCCTGCTGACAGCTCTTCCTTCCCACCTCATCTCCAGGTGTCACCTCCCATTTTCCCCTCTGCACAGGAGGAATGACAGGTRCTGG
AGCATGACACAGTGCCTCAGGGCTGAGGCTGCACAACTTCTCAGCTCTCGGTGCTGACAGGAGGGAAGTGGGTGCTGAGGTGTCAGTCAGCTGGCTCAGT
GTAAGACCTGCTCTTATTGATCTTTGCTGAGAGATGACTAGTTGAGGGGCCTGGGCTACCACATTCTGCCTGTGACCTCTGACCTCCTAAACTTTAGTGT
TCTTTGGCCTATAAGTTGAGGGTGTGCATGGTTTAGAAAGCGCATTTATGTACATTGCTTCATCTTGTCCTCAWAATGCCATAGAAAASACCTTGCTAGC
CTCATTTTACAGATGAAGAAACCGAGGATCAGAGAGGGCACATGAATTGCTAGCAGGCACTAGATCCAGGACTTGAGACCACATCTCCTGGCTCCAAGTT
CCTTCTTTCACTGACTTTTCCCCATACTGGCAGTTACTTCACAACCCCAAGGGCCCCATGGTTCTAAGGCTCTGTGGTTGCAGGTTCCTTTAGTCCCCGT
GAGGCAGTGTGGGATGAGCTCAGGGAGGTATGATCAGGCAAATGTTCACTCTCAAAGGTGGGGCTTCACATGTGAGTTGAAGGGGACAGGGGCCCAATGT
GTCCATCCTGAGACTTCTCTCTGTGGGCTTGGGATGAGACTCCCTGCTCTGTGGTAAAGAAGGCATGTCACTTTAACTGTCAGCATAGCATGGTTTGATG
TGTAGAGAGTGGATCAGAGTTCCAGCTGATTTCTTCCTTAAATGGCTTGTTTKTTCACTCATTCACTCACCAATTCATTAATTCAGTGAAACTAGTATTG
TGTTGGTGAAGGCAGAAGGCAATGCTGGGACCGAGAAATGTGGACGTTATTATATTTTCCCACCTGCTAAAAGACAGTGGAATTTGCCATTCTTTTAACA
CATTCTTATCTTACAGAACTTGGGATCTCTCTTGCATTGGGAACAACTCAGGCAATTTTTAAACACTTGTCAGGCCACCTGGAGAATTCCAAATTAGTTG
AAGTCACTATTACACATTAGTCAAGAGTGAGTTATAAAAATATAGTACCTGGAGCAGATGGACAGATGAGATGGGAGGATGAGAGTCAAGGGTACTCCTA
AATCATGGGTAACAACAGGGAAATGAAGGCGAGGACTGTGTCTTAGATGCCCACTCATCTCTATATGCCCAGTGCCTGGCATATAGTTGGTACTCAGTAA
ATGCTGATTGAATTGAATTGCTTGCCTATCCCCAGATTCTCTTGTCTATAGGATACAAAAATGAGTGCTGGGGGAAGGCTGGGGCTGGGGTAAAGAGGGA
TTGTCTGTTCCCAGCCTTCCCCCTTGGCCTGGCTGAGCCAGGCAGTGTCTATGTCTCTCTCATCTCTATCTACCTCTGCCAGGCTGCTCATATTCTGGTC
ATTCTATTAGGAAAATGAAAGCTGGGAGCTCAATTTCTAGGCCATTAAGCAATATTGGGCTTCCAGTCACCTGTGGTTATTTACCAGGTTGTCAGTGTTA
TCTCCTGAGAATTGCTTCCTGGGTGATAAGGGCAGAGTCAGCACTGCATATTGAAGACCTAACCTCATTGAAGTGGCTGTGGATGGGGTGGGGGTTGGAG
GGGTGGATAAGGAGAAAGCAGGGGTATCACATCACCTAGCGTTTACCATATAATAAAAATGGTCATTTATTGAACCATGTGCCAAAGACCACACACACAC
ACACACACACACACACACACACACACACAATTTCTAATCCTAAAAATGTACCAGGAGTTGAGAATCATTAGGCTTGACTATTACCCAGTCCCATTTTACA
GATGAAGAAGCCAAGGCACAGACAATTTAACTTGTCCAAATCCAAATGGTTGGTATAAGGTAAAGTCAGAATTTGAACCCAGGCCAGTTTGCCTTTAGCA
CCTGGGCACCTTCCCTAGGCCAAGTGATGTCACTGCCTCAGACTCAGCGACAGCACCAGCTGTTCCTGTGCTGCTGGAGCAATTTAGTCTCCTTTCCCTA
TTTCCCTTGTGTCTCTTTGGGTTCAGGCCAAATGGAGAAAAGTGTGTTATCCCTTTCCATCTAGGAAGTCTTTGTTTTCCATTGTATGTTAAAGTATTGG
TGACATTACAGAGCTAGTCTTGAGTGTTGGTAATATTGTCTATTTTCCTAAGAAAACCCCCAAATCAGCTCAAAATATGCTCTTTCCTGAGTTTTGTCAG
CCTTGCGTGGGAGGTGACCTGCGTTGGCTCTTCCCTTTACTGCGGAGCACATGGTGTAGACTCTGGGGAGGGGCAGGTGTGTCTGTGCCTGGCTCTTCCT
CCTTCCTCTGCCAAGGTCATCACCCCAGGGCCTAGGAGGCCCCTCAAGAGCTATTGCTGAATACCCACTGTGTGCCAGGTACTGTGTTTGGTGTGGGTGG
AATGGGGCCTAGTGTCTTCCATGGTGGTGGGGGCTGGAGCCACGCAACATGAGAACGTGAAAGGGTGTCCAGCCTGGCCCTGGGGCACTGGGGAAAGCTT
CTTGAAAGAAGTCACATTTAAACAAGTGGAAAGGATGGACAGATGGAACTTAGCTGGGCAGGGAAGGAGAAGAGCCCTTCTGGGAGAAAGAATGCTATGT
ACAAATGCCCTGTGGGGGTGGCACATGGAGAGAGGCACACAGACAGACCACAGGACACTTCTGGAAGCCTGGCAGGTGGCATGGGGAGAGACCTGCAGAG
GTCAGCAGGGGCCAGTCTAGGCCATTCTGAGTAGTCTGTACTTTAACCAGAGGGCAGTGGGGAGCCACGGAAGGCTTTGAGCAGGGGGTTCACTATTTCA
CTGTTTCACTCTGAGTCTGCTCTGGATGTGGCACAACTCTTTTTTCTTTTTTACCCTGGAATCAACTCTGAGGAAAGCCATGGAAAAAAGTTGGAGCCAT
CTCCACATCCTTAGCTGCAGTTTGGGAGAATGTGCAGAGCCAAGCAGAAAGAGGGGAGGCAGAGGAAAAGGGAGCAGGGGAGAGGAGAGCCAGGGAGTGC
TGCAGTAAAGCTGGGAGCTGCCGTCCTCATCCCCAGCTTCTCGCCAGTGGCACATGCAGAACGATTTAGCCTGAAGCCTGTTGGTAGGAGGATGCTATCT
AGAGCTAAATATATATTGATAGGTATTTTTAGAGGGTTTTCTGTAAAGAGGCTGCCCTAATACAAGAGTTTCCTGAGCAGCTAAAGATCGAGGAAAGCAG
AGTTTTCCTCAGCACTGTCTCTCTGAGGCTGAGAATGTGGGGGAAGAGTTGTGAATGCAGTCCTCAGGCCCCCAGCCCAATTTGAATCCCTGTGGTAATA
GTATGATATCAGTGGGTATTTATATAGCATCACCAGGCCAGTGAGCCTGGCGGGACCTCAGAGACCTGTCTTTTACTTGTCCTTACTGTTCTGGGCAGGT
GAAGGATGCAGATGGGGAGCAAGGGCAGAATGGGTAGAGGGAGGAGACATGAGAACTTGTTATTTAGGAGATGGGGAAACCGAGGCTGAGTGGAGCAAGG
CAAGGGACTCAGAGATACTTAGCTGAGCTGCTAGATGAACAGATATTTATTTAGTGCCTTAATGCTAGGCACTAAACCTGGCATCAGCATTATTAATGCT
GATGTTGGGGAGGTCTGCAAGCCTGTAAGCCTTACCACTTTTCAGTTCTTCCTCTCAGCATCGTTGCTGGCTGCTCCTCTGACAGATCTCCACCTCCTCC
CTGGCTTTTTGTGCATTTCTAGCTCCACACTGGGGAGCACAGCTGCCACTTGCAGCATCTCCTTTTATCAGAACATTATTTCTGTTCCAATTGCATTTCC
CCCCAGATGGGCAAATGATGGAAAAGATAAGGTTAGAATATAGGATTTCGATTCCAGGGAGAGGTGGGCAAAAGACAAAATGTGAAGCTTAAAGGTCTCT
TCTTAGCTCTGTGCTGCTGATAAATCCAGTTACTTCAGGGAGACTCCTAGTGAGAGTGCCAGTTAGTAGTTGATGGGCAGCTGAGTTGGGATTGTGCCTT
GGGTGGGAGGGAATTTTTTCTCATGTATGCACTCTGTCTTTTTTCTATATTGAGATGCACCATTGGTTCACTCAACAGATATATATTGAATATACACTGT
GTTCCAGATGTAAGACATTGGTGTTGGGATGGTTTCTGTTTCCTGAAAGGCTTCTTCTTGCCACCCCCACCCATTGACAGAAGCTCCATATGGACAGAAC
TGAGTGGGGCCTGAATTGGCTTTGATATCACCAAAGAGGAGGAAAAGCCAGAGGGAGTGAAGAAAGCTTCGAAATCCCTGGGTGGTTTGGTTTGGGACTT
TATTTGTCTCCTGGCATTGCATTCACTCAGGGTGATACAGGGAAAGAMATTATGGCAAGGTGCTTTCTAAGTCAGACCGTTCTCCTGGGCCTGGAGCTCT
CATTTGAAGGCAGTTAAACKCGTGCATTCTTGTGCTTGTGCATGAGTGTATGTGGAAGAGGGAGGTGGGGTGAAAATYCCCAGGTATGTTTTCAAAGCAG
AGGTGGATATGGCATAAATGCGAACTCTATAGATTTACAAGAATTGAGAATTAAAGGAACTGTTTACATTTCCATTCTGTGGTTGAAATATGTCTCCTCC
TTTGGGTAGAGATTTGTGCACTTGTGTCTATGTTGTAAATGTAGTCCACAGTTAAGTATAAATGTGTTGGTGTGAAATGTGAAAATGCAGCAGCACTATT
TAATGTATGTGTCACTGAAGTCAGGAAATAGCAGATATAATGAGTGCAGAGTGGTTACCAAAGGGAAGGGGCAAGGTGGGGCAGAGCCGATGTTGAGAGG
AAAATGAGGGCATGCTGGTTTAAGAAAGAACGTATGAAGACAAGGTAAGGCTAAGGTTACTAAAGCTCAATCACTGAATTTTAGATCTAGGAGAATAATA
AATTTGCCTAACTTTCCCTTACTTATTATTTTTTTCACAGAAGAGAAGACTAAAGTGCATGTTGCTAAGTAACTTGTCCAGGGTCTTTTAGATGGGGTGT
GGTGAGCTGGGGCTTGGATCCTGTGTAATTCCAAATCTAGGACTCTGTTGCAGCGATGCCTTACTACCCCTGGCGATGAGAATCTGCTGCTTCTTGGTTG
TATTTAGGCCATGAAGCTGGAGGTATTAAGAAATAAGATTTTCTGTTATTTGGCTGGAATATACATGTGCAACTTACATGGAAACAGAGTTTAATCTCAT
GGACTGAATGACCTGGCGGCTCTGGGTTCTGGTCCTGATCCTGACATACATTCTCTCTGTCATACTGGTGATGATGTAACCCATCTCAGCTTGGCTTTCC
TTTATGAAACTTCATTTATGAAGTGAAGGTAAAACCTGCTGTAGCTACCTCCACCAGGTTTCATGACAAGCAAAKAGGATAGTGATGATGTTGATAATGA
CAGCTCCCATTTAACCAGGAGCTCATGTCTTATTTTAAATGCAGAAGGCTTCATATTCTATATTGGCACTTGCACATATTATTTTAAATATAGAAATGTA
AGGCAATAGTGATATTATCTYCATTTTACRGATGAGGAAACCAAAACTTAAAGAGGCAAAGTCACTTGCTCAAGGTCAAATAGTTACTAAGGGGAGAGAT
TGGCCCTTTAATTCTATTATCAACAATTCTAAAGCCCTTGCTATATCTAGTGTACAGCACAGCCTCCACTGCCAAAGTGTTTTGCAAAACAATAAAGCAA
AATACCAAATCAGTGAACAATAATACCTTCCCTCCAGGACAGTGATATTATAAAGATAAATGTTAAAATACACATAAAGCACCATGAGTGCCTTGAAAAA
AACCAGCATATAAAAATTGAAAGTACTCAAAATACTATGGTTCTGTAGACCTCATTAAGAATGGTCATTTATCTCTATAAAACTTGCAACCACAGAAACA
AATTTCACTGAAACCTATTGCAAATTTTAAAACTATGGTAAATTTAAAATTTTCCATTAGTTATAATTTTGCCTCAAGAGAGAAGTTTACTACATATCGC
ACATAGGATRTATCTTATTTCCTATCAGCAGCATATCTAATTTTATCAAAATTAGTCAAATCCTGCTACAGTCATTACCCATAAGAACAACAAAGAAGTT
CCAAGAGTAAAAGTTGAAACAAAGGCCTTTATTTTAAATTTTTCTAACAAGGAAAATGTTACATTTTCTAGATTTCCATTTTTTTGGTCTTCCCTTTCTT
TGTCTTCTATCCTCCCCACTTCTCAYAAAACATACACAGGCCAGAGGGGTCAGCCCCTGTCCGCCCACATCTGGATGTGACCCAGGAAGGCTGACAATGC
CCTCTCTCCTCCAGGAAGAATGTCCAGGCAGAGCCCTTGCACAAAGGAGGGGCTGAAAAGAAGCCTGAGGTCTGACTTCTTCCCTCTTGTCTTTCATTTC
CTTCCTTCTTGACTGCCACTCTTCTGTCAGTTGCCTGGACCTTGGTGACAGAACATTTAGGAAGGGGGATCAGGGCCATGGCTTTTCTCCCTGGCCTCCA
GCACTGGAACAGTGACTAGGAGGCAGAGTGACAAGGGTGGCTGCTTCACATGTCAGATGCATTGGAAACAATTTACATCACTGTGGGGGTCCCTGCATCT
CACCTCCTCTCCACCAGCCCTCTGGGGCCCAGCTGGCCTTGGAGAGTCCTTACCTAGTCCAGGTTGGCATGACTAGCCATGGGAGAGCTCAATCTGAAAT
GGAACTGAAACTGACCTGGTTTGGGGTATCTTTGCTGTTGAATCTTAGTCAAAACTCTGGGTGAGGGAGAGAAAACCAGAAAGAAGCCCACTCAGGGCTA
AGCATCCCTAATACCCATATATGAGCTCTGAACTATGGTGTGGGGGAAAATGGACAGAGTCAGGAGAAGACAGGAGGGAAGGAAGTATAGAGGCAGCCGG
TATTAGTTGAGCACATCCTGTGTTCAAACATTGTGCTGACTGCTAGGGACGCAGCACTGGATGGAGATATAGCCTCTATTCATACCTTGCTGTCCAGCAG
AGAAGACAGATATTTACTTTAATTTAATAGTGTATAACATGCTGCATAGGAGAAGACTTAGGGTGCTAGGATAACTTTTCACTGGGACCCTAACCTAACT
TGAGACCTGAAGACTGAGTTATACTTAGCTAGGATGAGACGAGAAGAGGGAAGGGGACAGGATGAGGAGAGTTCCAGGCAGAGGGTAGGACAGTTGTGCA
GGGCTAGAGGTGGGGGAGGCCATGGCAGGTGTGAGAAACAAAAAGAAGGCTGGAGGGGACCACAGTGATTGTAATCTAAGAGGGGTTGGAAAGTAGGCAG
GGACCACATCATTCACATCATTCAGGGCCTCGTTGGCATGTCCAGGCATGTTCAGTGGGAGGCCATTGAATGGTTTGAAACAGGAAAGTGAACAGATTTG
CAGGAGAGGCACGATGTTTGCAGAGAAGAAGATAGAACAAGTTGCCCAAATGACTCCATGTCTCCTCAGAATTAGGGAAATAGGATTAAAGTCCTCAGTG
TCCCTTTCTTCCTTCTTGCCCCCTCCTTCCAACATCAGCCCTCAACTATAATTTTGTTTAACCTATTGGAGCTGTACCAAAACCCAGTCTACAGACCTTA
TAATCTAGCTGAGCACATGTTAAAGATTTGTTAACCTGCCCAGAGTAGAGACATAGTCCCTGGCCCTCTGAGATTATACTCTGAGCATCTCCTACTGATT
CAAATAATGGGTAAGAATTGATGAGTGTGTGGGCTTTTATTTTTTATATTCAGCACAGAAATTATTTTAAAAATGCTTTGCTGAGAACATTGCTATATGA
TTATTATGATTTTTATTTTTCTGATAGAACAATGGTCAAAAGATCAAGCCAACCCACATGCTTGTTTATGGGATGTTTCTCTTTTCCCTGTTCCCAAAGC
CCATGACACATCATGATGCTGAATCTGGATCCTAACTGAACTCTGGTTAATAACCACTGTAAATATAACATTTTGTGATTTAGGGGCCCTTACATCCTTC
CAGTGGGGAGCTCAAAGTGCTCTGTGAGTTACATTCTACCCACTCATTTGGAAGAGGGAAATAGAGAATCCCAGTTCCCTTTCCAAGTAAGTGTCGTATT
CTCTGTTCTGGAGACAGGTCACCCAGATGGATCCTTCACATATGGACTCTGGTGATAGAGACGGGAAGGGAGTAAATGCTCACCCCGGTCTTTTCTCCTG
CCCACTTCCATCCCACATCCCCTCTTCAGATGAGTGCAGCCAGCTCTTTAACGTGTTAGCTTCTTCCTCCCTGCTCTTCTGTTGTCCTTTTCTTAGTCTC
CCTAATCCTTCCCTGTTTTCATTTTACATTCTGTTCTGAAATACAAGACTTGGGGAGTTTGAGGTAGATGCCACAGAGGGTAGTACGTGGTGTTGTGGTT
GTGGTGTGTATGAGAGACTCATTCTGACCAAGACCTTCTTAGAACTTTGTCTATTAGACTCTGACCTCCAGTCCTTCTTCTCCAATAAGCAAATTCAAGT
TTGGGGTGGGATCTCCCTACTGGGAATCTGATCAGGTCAAAGTTTGACTAGCTAGTACTGCAAATAAAGGAGGAGGAACTTCCAATGATTTCCACTCCCC
CCAGCTGTGACTGGTCTGAACTCTAAGCAACAAGAAGTCACCTACAAGCACTGGCTGTTTCCTGAATAAAGTTTCCCTCAAATATGTAACATAGTATATT
TTGTAGTGTGTGGATGCTGTTGTGATTTATAAAATATAAATACATCTAAAAGTATTGTTGAATGAGTAGTATTGTTTTCTTTTTTAATTTATTCAATATA
GCATAGTGATTAAGAATTTGGGCTTCATAGACAAGCAAACCTGAATTCATATCTTTGCTCTACTGTTTTCTAGTACTGTGGTTGTGGGCAAGTGACCCAG
CTTCTGTTAAGTCTCAATGTCTCCATCTGCATAGAAAAAGGAATGGCTCTGGGTAATAACAATTATTTAACCATGTTGTTAAGGGGCTATAGTAATTGAA
ATAACTCCTCCAAGGGATGGGGTTGGTCTTGAATTTGTGACATTAAAAAGAGAGCCTCACACTTGAAAGAATGAGAATTGCTAGTTCAGTGTAACTAACC
CATTGATATGAAAGAAGGAGATGAGGCCCAGAACTGCAATGTATGCCCCATTTTGCCTGTGGCTAAAGCCTGATTTTAGTCAAGCTGGTCTTCAGTCTTG
TGTAGAGGTGATGGGGAAAGTAGAAGTAGAAGTTAGATACAATGCTTCACTCGTGAACAGAACAGTCTAATTGGAGTTCACGAGATATATGGCCCGTGTT
TGATTTTTGGTATTTGGTAGTGGAGGTCTGGGAGTTGGGAGCAAGCAGCTGTCATCCTTTTGGGAAGCCATGCTGTCCCCAGCAGGTGACACCCCAAGTC
TCTTTGCCAGTGAGGCCCCACCACCCCACACTAGTATGAGTTAGGTTGCTCATGCAGAGCCATTTCTCAGGCATTATTCCTAACTCTTTTCCTTTTCATA
AAGTGAGAGGGCTTATGCTCATCCCTCAACCAGACTATGAAAGAGACACTCACATTCCCAAGTGGTGGTTTTATTTTTTTATATTTTATGTTTGTATGGG
AAATTGTGGATAAAGTGAAATAATTATAAATAAATGGTATGTTTCCTTTTTTAAAAAAGAGCAATCTAATTGGAATAGAATGTATGTGTGGTCCTAAGGC
AGCTGGGAACAATGTGACCCGTACAGAGCTTGTTCCAGGTTGGCTGGTCCAGGCTATAGGAGTCTCATTTTTAAAATCTAAAATACCTCTCTTGCAAGAT
TTATGTACTAGATTAAGCAGGGCTAGATGCTCTAACAAATAACCCCCCAAATTTCAATGGGTTAACATAGTAGGTTCTCTCTTGCTCCTTGAACAGGCCA
GTGTGTCCTGAACAGTGCTCCTGGCTTCCCTCCACTTGGTGAGGTAGAGACCCAGGCTCCTTCTATCTGGTAGCYCTGCTGTCCTCTATGATCTCGTGGT
TTATGTCCCTTCAAGAGAAGTGGAAAGAGAGAGTAAGAATAAGGCATACTCCTTAAATGTATTGGTATAGAACTGATACACATTACTTCTAGTCACATCC
CATTGACAAGGAACAGCCATGTGGCTCAGCCTAGTTGCAGGTGAGACTGGGAGATYTAATCCCTAATTGGGCAGCTGCCTTCTAGCAACAACCTTGCCCT
GTGGGAAGGAGAGCATCAATTTTGGAGGACAGTAATGATCTCTTCATTRTCTATGTGAGTATAAATTGTCAGATGCATAGGAGATATATAATAAATGTTT
TCTTCTAATTATTAGTAACATCCATTGAGTCAAGAAATATTTGCTATGTGTGTACAAAACATTTTGCTAAGTATTGAGGCTAGAAAGATAAATAATAAGA
TACCTGCCCCCAAGGAACTTTAAGTCTGATGTGTAGATAGTATATATAGGTAGATGATTTTCATTTGAGCTTGACAACATTTGATCAGAAGAAAAAACTG
GGAATAAATGTGCTCTACTCTGTGCAATCAGCTTTCTATCTGTCCATCTATCCTCCTTTCATTGARTGGGTCCCATGTGTAAGGCCTAGCGGTGAGCAGT
AGGAGGGACAGCAGTAGAGTTAAATAGGGAAGAGATGGAAGATCAYTGGGAATGTGGTTTCACTTTGCCCTAATGCAGCAGCTGTTGACACACTACATGC
TGGTGTAACTAGCCATTGAACTGTTGTTGCCACCTSTCTTGATCAAGCTTTGAAGATAAGCATGAGAAACAATTAGTGTATTTCATATTTTTTTTATTTT
TGTTGTCATGCTTATTTTTGTCCTCTTCAAGATAGCAAAGCCTAGGGGTAGTCAGCCAGCTGAGGCTATTTATAAAATGTCCATGTTGGCCTGGATATCA
CTACTGGTTAACATTTGTCAAACTCTAAACTCTGTAGTCTAGTAAARCAGAGGATCAGGAGCCAGTTTCAGAGGGAAAACCAACCTTTCCATTTACTAAT
TTCTTTTCTATCCTTAGCCTGCACAAAGAAGRTTGAGAAGTCAGAATTTTAGTTATGAACTGTGTRCAACTACAACAAATAGAGTCAGTAGTAAATAAAT
GGTTGTCACGAGTCTTTGGAGAAGGATTTATTATTGTGGCCATAGATTGGAGTGGTCCTTGAGGATGTTAATTATGTTGCTGCTTGTTGCARTTTATGAC
ATGGCTTCTATGTGGGGTAATTGGATCTAGGGGAGCTATCCTTTTCCATGGAAAAAGGCCAGTTTGGTCTCAGGTTTATAGCCCTAAGGAAAGGAGTTTC
AGAAAGCAGTTGCCCAAATTTTTCAGCCTCCTTGATATTTCCAGTGCACAATTCTGGAAAAGGGCTCCTTAATTCAGAAATTGGCCTTTGTTGCAGGGAT
GCTAGGTCAGGAGGCAGGGAGGGGAAGAATGGAAAGGAGAGCAGAGATTACCTAGTTATTCAGGACTGTGGACCTAATTAATAGCTGGTGTTCAGTGCTA
ATCACTGCATTAAACATTTCAAAGGATTTTTAAAAAATTCTTGGCAACATCCCTGTGAGGTAGGTACTATTATAATCACTACTAGATGAGGAAACCAGGG
CTTAGGTGGTTCAGTAATTCCCCCATATCATGCTGCTAATAGTTAGTTGGTGGGGTCAGGATTCCAATGAGGAAGCCTGACTCCAGAGCTTAGGTTTCTG
ACYGTGATGCTACACTGCCTTCCTAATTTATGTATCTAGTGGCTGCATGGTCTGAATTTTTTTTTTTTTTTTACTCCTGATGCATCTTAATTAACAAAAG
TGAAAGGGTGTATCTGTTGGTCTGGATGTCAAAATCCATCCAAGGGAATATAAAACTCACTACTTGGTTTTAGTTACTGGAAAAATGGCTTCTATTGAAG
GGAATTAAGAGAACAATAGATTATTGGTTTTTCTATATCATTTTGATCTTGAAATCAATTTAGAAATATTGTCCATTTAGCCTGTTAACAATAGGTTAGA
GTTATAAYACAGGACAGCCTGGCAAGATGCAAGGAACAAAGGCTCTGGCATGACATAGTTCTGTATTTGAAGTCTGCTTCTGGCTTTGTGACACTGAGCA
AGTTATTTAACCTCTCATCCTCAATTTCCTTACTGGGAAATGAAGGATTTAGGGTATTTCTGAGTATTTTATGAGACTAAACTGGTATGATATATGTTGA
GCATTTGAAACAGTGCTCTGCACATAGTAGATTTTCAACAATAGTACCTGCTACTATTTTATAGTTTATTGATGAGGAAAGGGAAGCATATAATGAACAA
AYATATTCTCTGGGTTACTCTAGCCCCCACAAAAAACTTGCCCTAGCTGGGATGAAGTTGTTGTCCTTGTATTTTCAATCTGTTGCTACTTGTGCTGGAT
TATGCTAGCTTCTAGAACATACTAAATCTTGAGTTAATTTCTTAGTCCATTTGGACAGCTATATCAAAAGTATCATAGACCAGGTGGCTTATAAACAACA
GAAATTTATTTCTCAACATTCTGGAGACTGGGAAGTCCATGATCAAAGCAGATTCAGTGCCTGGCAAAGGCCCCTTTCCTGGYTGCTGGACAGCTGTCTG
TGTCCTCACATGGTAGAAGGGGTGAGGGAGCTCTCTGGTGTCTCTTTTRTAAGGACACTAATCCCATATAAGAGCAGAGTCCTCATGACCTAATACCTTC
TAAAGGCTGAACCTCCAAATATCACATTGGGGATTAGGTTTCAACATATGGATTTTGGGGATACACAAACATTCAGTCTATTACAGTGGGCTTTAGAGTC
CTGGAATCACTTCATCTTTGATCTGTATTTATAGCTTAATTTATCTTGATACAGGTTTCAAAATATAATTGAATAGCTACACTCACTTGATAATATTAAA
GTAGGGCTATATCTTTAAGGCACAGTATCAGCTGGCTGTGAACAAAATGCTGGCTGATATATATGGTCTTCTTTTTCTCTCTGTATTCTTTTTTGAATTC
TCATTCCAGTTCTGGTTTTAAATGTACCTTCAGYAAATAGATCCTCTTTATTTCCCTTCTAGTTCATTACTTACTTCCCATGCCTTCCTACTTATATAAT
CAAAATCTCATGATAGTTCTATGTTGTTTTTGTTGCTTTCCAATTACTTATCTGAGTCTTCCTCTTTTGAGAGAATATAACACCTTAATATTTATTGTAA
TAAATGGTTTGTTTTTATTCTTTTCCTTTATTTTATTTGCTATTTATTAGACTTTATTACTGTTTCTTCATTTTTCTTCTTACTTCTTTCTGTATTGATC
AGCATCTTTTAAACCAGTTTTTTATAATTATCTACTGGATTATCAAACTCTTGTGGTGAAGACCATTTTTTATCTGTTTCATTTTACTCCCCATCTTTCC
ACTTCTGATATGGTTTGGTTGTGTCCCTACCCAAATCTCAACTTGTTGTATCTCCCACAATTCCCACATGTTGTGGGAGGGRCCCGGGGTGGGGGGGGCA
GTAATTGAATCATGGGGGCTGGACTTTCCCATGCTATTCTCATGATAGTGAATAAGTCTCATGAGATCTGCYGGGTTTATCAGGGGTTTCCACTTTTGCT
TCTTCCTCATTTTTCTCTTCCTGCTGCCATGTAAGAAGTATGTTTCACCTCCTGCCATTATTCTGAGGCCTCCCCAGCCAAGTGGAACTGGAAGTCTCAT
TAAACCTCTTTTTGTTCCCAGTTTCAGGTATGTTTTTATCAGCAGCATGAAAACAAACTAATGCAGTAAATTGGTACCAGGAGAGGGGTGTTGCTGAAAA
GATACCTGAAAATGTGGAAGTGACTTTGGAACTGGATAACAGGCAGAGGTTGGAACAGTTTGGAGGGCTCAGAAGAAGAAAGGAAAATGTGAGAAAGTTT
GGAATCTCTTAGAGACTTGTTGAATGGCTTTGACAAAAATGCTGATAGTGATAGGAACAATAAGGTCYAGGCTGTGGTTGTCTCAGGTGGAGATGAGGAA
CTTGTTGGGAACTGGAGCAGAGGTGGCTCTTGTTATGTTTTYGCAAAGAGACTGGTGGCCTATTGCCCCTGCCCTAGAGATTTGTGGAACTTTGAACTTG
AGAGAGATGATTTAGGGTGTCTGGTGGAGGAAATTTCTTAGCAGCAAAGCATTCAAAAGGTGAGTTGGGTGCYGTTAAAAGCATTCTATTTTAAAAGGGA
AACAGAGCATAAAAGTTCAGAAAATTGGCAACCTGACAATGCAGTAGAGAAGAAAAACCCATTTTTTGAGGAGAAATTCATGCTGGCTGCAGAAATTTGC
ATAAGTAGCAAGGAGCCTAATGTTAATCCCCAAGACGATGGGGAAAATATCTCCAGGCCATGTCAGAGACCTTCATGGCAGCCCCTCCCATCACAGGCCC
AGAGGCCCAGGAGGAAAAAGTGGTTTTGTGGGCTGGGCCCAGGGTCCCTGTGCTGTATGCAGTTTAGGGACTTGGTGCCCTGTGTCCCAGCTGTTCCAGC
TGTGGCTGAAAGGAGCCAATGTACAGCTCAGGCTGTGGCTTCAGAGGGTGGAAGCCCCAAGTCTTGGCAGCTTCCACATGGTGTTGAGTCTGAGGTGCAC
AGAAGTCAAGAATTGAGGTTTGGGAACYTCCACCTAGATTTCAGAAGTTGTATGGAAATGCCTGGATTCCCAGGCAGAAGTTTGCTGCAGGGGCAGGGCC
CTCATGGAGAACCTCTGCTAGGGCAGTGTGGAAGGGAAATGTGGGGTTGGAGCCCCCACATGGAGTCCCTACGGGGGCACTGCCTAGTGGAATTTTGAGA
AGAGGGCCACTGTCCTCCAGACCCCAGAATGGTAGATCCATTGGCAGCTTGCACTGTGCACCTGGAAAAGCYGCAGACACTCAACACCAGCCCATGAAAG
CAGCCAGGAGGAAGGCTGTACTTCACAAAGCCACAGGGGTGGGGCTGCCCAAGACCATGGGAACCTACCTTTGGCATTGGCATGTCCTGGATGTGAGATC
TGGAGTCAAAGGAGATCATTTTGGAGCTTTAAAATTTGACTGCCCCACTGGATTTCGGATTTGCATGGGCCCTGCAACACCTTTGTTTTGGCCAATTTTT
CCCATTTGGAATGGCTGTATTCCCCCAATACCTGTACCTCCATTGTATCTGGGAAGTAACTAGCTTGATTTTGRTTTTACAGGCTCATAGGTGGAAGGGA
CTTGCCTTGCCTCAGATAAGACTTTGGACTGTGGACTTTTGGGTTAATGCTGAAATGAACTAAGACTTTGGGGGACTGTTGGGAAGGCATCATTAGTTTT
GAAATGTGAGGACATGAGATTTGGAGGGGCCAGGGGTGGAATGATATGGTTTGGCTGTGTCCCCACCCAAATCTCAACTTCAGTTGTATCTCCCATAATT
CCCACATGTTGTGGGAGGGACCCAGGGGGAGGTAACTGAATCACGAGGGCTAGTCTTTGCTGTGGTATTCTCATGATAGTGAATAAATCTCACAAGATCT
GATGGGTTTATCGGGGTTTCCACTTTTGCTTCTTCCTTATTTTTCTCTTGCCGCCGCCATGTTAAGAAGTGCCTTTCACCTCCCRTCATGATTCTGAGGC
CTCCCCAGCCATGTGGAACTGTAAGTCTAATTAAACCTCTTTTTGTTTCCAGTTTCAGGTATGTCTTTATCAGCAGCATGAAAATGAACTAATATAACTT
TTTTGCAGGCTTATAAGCATCCATATACATACAGCACTAAATTTGATGCTGAGAATATAGCAGATTTTTAATACTTATGTGTAGCTGACAGTTTGACTGT
GAAACTCAGTTGATTCCAGTGAAAAATGGTGTGTTGTAGTGGAAAGCCCACCTAGACCCAAATTAGTAGAATCCTGGTAGTGGTCCTTATTGGTGGTATG
ACTGCAGCACTAGTTGTTTTATCTTCTTGAATCTTAATTTAAAATGAGATAGCAATACTAGCTTACAGAACCATCGAAGAGACTAAATGGAATGGCATAT
GTGAAAATGTCTGGTAACTTTATTGTTGCTGGTACCTTTACCTGTCTACCTTCCTCCCATCCCTTCTGCTGGCCAGTAGCATGAGTCATGAGGGGCACCA
TATGCAGTTATCTATATTCAGGCTATGGGTGCTGCAGAGAAGAGAGCCCATTAAAATTTGATGGTGTTCCCAGGAGCTGCTGGGCTGGAGAGGTAAAATG
GAAGAGAAGAGAAAGAATAAGAAATAAGAATAGTCAGAAATTTTGCAGCTTTTGAAGAAGGAAGGCACAGGCTTATGGTTTATGATCTGCTTGTATGCAT
GCCTGCCTATGGGTTGTATTTATTCCTGCCTGAGATTACATCAAAGTACATCTACATCTATATTTCATATTCATCCTCTATACCATATATTCTCCTAAGG
AGAACTCTTGAATGTGAACTGTGTGGCAGTGGTGTTTCCTTTGCAGCTTGCTTGCTTTATGAATGATTTTGTTGAAAGAATTTAAAAGCCTTTTCCTTCC
TTTGGAGAAACCATAACTTATTTGGATAAAYTGCTCCAGAATGGGATTCCCCTGTCTTTTCTGTTTGTATCTTTTCTGCCTTTTACCAATCCATGCCATG
ATGTTCTGTTGTGTGGGAACCAGTCTAAGACCTGGCTTCCTAGGGGGATAGCCCCCTTCCTCTGTGCCCACTTAGCACTTATCTGCATTTTCCCTCCATC
AGCAGGCATTTGTGTCCCCTCTGTGTTATTCTCGTGGCCCTCTTGTTTCTTCACTGAGATTGAGGGCGGGGGTCATGTTCTCCTTTCCCTGTTCTCTAGG
GTGACTTGTGTATATATTCTTAGACCCACAATAGATGCCCAACAAATGCAAGATGAGTGAGAGGTGAAAAGCAGGGTTCTGTGCAAACCTGTCCATGGAG
CTGGGCAGGGCGGGAGGTAYGGAAATCATGAGCCCAGCTTACGCCTTATCGTCCATGTTCACTCATACTTTGCCCAGGGTGTGTTTACTGCTCCTGAGCC
CAGGTAGCAGGTGTAAAAATCTAAGCTATAACCAAACCTTAGGCCCAGGAGCAGTAAGAGTGTGGGTTCTAAGCTCATAGTCCAGCTGTGGGACTGAGGC
TGAAGGTAGAAAAATTGCCAGGCATGGTGGCTCACGCCTGCAATCCCAGCACTTTGGGAGGCCAAGGCGGGTCCATCACCTGAGGTCAGGAGTTTGAGAC
CAGCCTGGCCAACATGGTGAAACCCCGTCTCTACCAAAAATACAAAAAATTACCCCGGTGTGATGGCACGTACCTGTAATCCCAGCTACTCAGGAGGCTG
AGGCAGTAGAATCACTTGAACCTGTGAGACAGAGGTTGCAGTGAGCCGCCATTGCACCGTTGCACTCCAGCCTGGGCAACAGAGTGAAACTTCATCTCAA
AAAAAAGAAAAGAAAAGAAAAGAAAACTGGGTGACATGGAGTGGGGTCCTTTGATCAGGACTCTGAGGAGGCTGGTGTGTTTCTCCCTTCCTGTTTCAGA
GGCAGCCCACATCATTTAGCCAATTAAGTTGGAGGACTCTATTTTCTGTTTGAGTGTTTGTTGTTTTTTGTTTAAAATAAATGATGTGTTAATACAGTCA
GTTGTTTGCATGACACAGATTTCTTTTCAATCAGTCTCTTTTCCCCTCTCCCCACTCTTCCTGGACAATTAGCAAAGTGTTTGGTCTTTGGTTTGGATGA
ATAATTGATTCAGAAGCTTTGTGAATGATTCATGGCCCATATGCTGGGGCAGCATGATGTGGTGTATGGGTGTGTGGCAGCAGCACCTCATTACAAAGGT
CAAGCTTCTCCCRAGCTTGGTGCAGGGGCTGTGCAGGCCACCTCCAGGGGCAGAGCACGTTGCACSTGATCTTTCTCTCATGTTCTCTCAAAGAGAGAGT
GTTGGAGCTTCTTCCAGAAAAGCAAGGTTCTCTATGGGTGTATGACTTCCAGACCAGTGATTCTGGTTTGGGTTGGATTTGTCAGTGAACTGAAGCTTTC
CCCTTTAAGCCAACACTTCACTCTCCCCAAGCTGAATAGCTGATTTGATTTTCAAAGCATTTGAGGAAAGGAGATCTCTTGCCTGTCTTCCTTTACATTA
CAGTACTTCAAACCTTCCCAAGCAGGGGATACTTTTTTCTTTGGATCTTCTCCTAAACACTCCCTGCTACTACGCTAATTTTATTTCCTTGTCTATCTCC
TTTACTGGAGATGGAGAACACCTGGTTACCATTCGCTTTATAGGTCTCCCTTGTCTTTGAAGACTATTATTACATACTTGCTTGCATGAGGCAATGGGAC
TGTTGCCTARCTTGTGGAAGAGTGGCATTCCCTATCTACAAAACCTCTCAGTATTTGAGACTTCTTAATGTGTCCTGGTCTTTAGAAGCTGAGTTAGGAA
AAATAAGTTGGTTACATTAAGTCCTGAACCAAGTTTTTTGTCTCTTAGGCAGTCAGATCCCACATTTTTAAATAGGGAATCGAGACAGAGACAGGATATG
AATAAAATCCAAGACTCTGATGAAGATGTGGCAGTTTGGTGATTGATCATTTGGGGTTTTTTTAGTAAGATCATAAAAATATTGCATAAAAATTTATTTT
CTAGCATAAGTTATGATTATCATGTTTAGGTCCCTAATCCATATGGTGTTTCTTTGCATCTAGTATGTGAGGTATGACTATACCTATATGTTTTTCCGTC
ACTTCCCAACTCCACTGAGTGAATACTAACAGTACAACTTTTGCCCACTGATTTGTAATGTCACTTCTGTTTGTATACCAAATTCCCATATATATGTGGT
CTGTTTTTAGGCTGTCTTTTCTATCCCATTGGCAATGATTAATGACTATATTTTTATAAAACTTTTTGATAACTGATAGTGCCAATCTTCCCCTCCATTT
GTCTTTAAAACTGGCTAATCTTAGCCATTATARTTTCATATGAATTAGAACTAAYTTGTCAAAATCTTCAGGTTTTGTTTGGAAATGCAGTGGATTTATT
GACTACTTTTGGGGAAAATTAACATTTTCACAATGTTGAATCTTACCAATATTTCTCCACTTATTTGGGATATATTTTATACCCTATTATAGTTTTGGAG
ATTTTTTCCACTTATGACTTGCGCATCTTTGTTATAATTTTTCTTCTGTATCTTGTAATTTTATTACTCTTGTGAATGATTTAATTTTTTTATTTCTAAT
AGAATGTTGCTAATGTATAGGAATGTTAGTTTTTATTCGTTGATGTTATATCCAGCAATCGTGTAAAAGTTTRTTAGTTAAAATCATGTTGGTAGATTTT
TTTTTAGATTATATAGGTAGAAAACTGTATTAACTACAAACAAGTGTTATTGTATTTGTTTCTTTCTAATTCACCTAGTATATGTTTCTTTTTCTTATCT
TATTGCCCTAAACAGGACTTCCAGGAAAATGTTGGGTAATGACAGTAATAGAAGGCTGTCTTATTTTGTTCCTTATTTAAAGTTTAACAATGAAGACAGA
TGTTCCTTATAATGTTAYGGTGAATACTCTTTATAAAGGAAGTAAAGAATGATTGTTAAACTAATGTCAATAATAGCTCAATATTTTCATCTAATTCATA
AACTCAAAGGTTTTGGAAGTTCATTCTGTAGAAGATTAAACATTGACATTATTGTGGGTGCTATTGRAAACTGAGTTAAAAGTTTAGTACTAGCAATAAG
CTTATTTTTGGAGTGATAATATACATACAATTTTGATGAAACATGATGTTATTGTATAAACAAAGTTTTTACTAAATTAAGAAACCTATGGAACAGAAAC
ATATAGGATGAATTGTATGGACAAAGAATTCATTATCACAGCCACACAAAGTATGGTATTCCGCATTTTGAAATAAAGACTATGTATTGGGTACAGTATA
CACTGCTTGGGTGACGGCTACACTAAAATCTCAGAAATCCCCACTAAAGAATTTATCCATGTAACCAAAACTACCTGTACCCCCAAAACTATTGAAATAA
AAATAAAAAATAAGAAAAGAAGTAGTAGGCAAATAGAATGAGTAAAAAAGAAAAAGTAACAAGAAAATTTAGCAAGTTCATCAAAAAGCAAGAAAGCAGA
GAAAGGAAGYGATTTTAAAGTGAGGCAAGCAGAATGTGTGAAAGTAGAAGTAAGTCCTGACTTAATAGCAATTGAAACAAATGTAACAGATTAAACTTAT
TTTTTAAAAGTCAGAGGCCCTGTGACTTTATTTAATTTTTTGATCTTATGTTTMAATGACTAAGCTAAGTAAAATGACACTAGAAAATTGAAAATAGAGG
AGGTGGCAAAAGGTGTTCTAGACAAATGCCAACCAAAAGTAAGTGAACATAACATTAAAAAAATTCAAGGTGAAAATATCAAAGGAAACAATAGTGACYA
TTTCACTGTGATAAAAAGAAAATAATTGAAGGACATTTAAAACTTATGCACCGTCAGAATAAATGTCTGTTAAAAACGTAAAGGTAACTATTAGGTAAGG
AGATTTCCAACTGGTTTTGAACAAAAYGCAACAAAAATTTAGGGGTCTTCATAAAAAAGTTCAGTATCATTTTGGGCACTTAGGTTGATTTACAAAGCAG
GTCCTCAGAGGCTTAAACATTTATAAAATGTTTCCCCTCCCCCATTTGTCTTTAAAATTGGCTAATCTTAGGCATTAGAGGTCCTGAACTAAGTTTTGAA
CAAGGTAATGGGCAGCAAAGAGAAAAAATGTATGCTGCAATTCTGACTTTATAAAAATTCACCACCAACATCATCACAAAACTTTTGTAGTTCAGTTACT
CTGTGTATTTGAAATTTTTGATAAAACTATAATGTGTGTATATAAATATATTTTTATGTATATATGTATAAATGTAAATTACATTTCTGCCATATATACA
CACACATACATACATATGTAATACACCCATACCCATGCACATATAGATGATTACCTTTAAATTTTTAACCACTCTATTGTTGTCTTTTATCCTTTGTGGC
TGATAGTGCTTCCAATATCAACATGATTATTTCTTTTTTTTTTTTTTTCGAGACAGATTCTCTCTCTGTTGCCCAGGCTGGAGTGCAACAGTGCAATCTC
AGTTCACTGCAACCTCTGCCTCCCGGGTTCCAGCGATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACTATCACCCCGGCTAATTT
TTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTAAACTCCTGACCTCAGGTGGTCCACCGACCTTGGCCTCCCAAAGTGCTGG
GATTACAGGCATGAGCCACCATGCCTGGCCAACATGATTATTTCTTTACAGATAACTTTTGTTTCCTCTTTCATTGGAAGCATTAGCATTTTTTCCTTAC
TTTTGGTGCTGTAAAATTTCACTAATATGTGTCTTATATGATGGTTTCTATTTATTTTTATTTTTATGGCATTTTAAGATTTCTATTTTTATTCAATGCT
GGGAAGTACTTTTGAATTGATTCTTTTACTTTCAAATTCTCTGCTTCTCCACTTCTTAATTTTGCTTCTCTCCATTTTATCTATTCTTTATTTGTAGCAC
TTGTTTTAAATGATGTTGGAATTTCTTCCCTCTATTTTTAATCTTTTCTTTATATTTTTCATCTTTTTCTTACTCTTGTGTTGATTTCTGGGAACACTGC
TCAGTTCAGTTTTTCACATCTCAAATTCACCTGTCTATTTTGCCACTCAATCTACTTAATCATTTTAAAAGTTTTCAGTTATCGAAATGTTCAATTGCAC
CATCTCTAGGTAATTTTGTAAAATGCTTGCAATATTCTCACACTTTTCTCTAAGCTGATAATTATATGTCTTCATTCTCATTGAGTATAAGTTCTTTGAT
TGTTGAGTTTGTTCTCTCTCTCTCCGTGGTATTGAAATTCCTCAAGTTTTTGGTGATTCTTGATTGTAATATTATCTTCTTTCTACCATGTCTGTTTGTG
CAAACTTCTTGGAAGGAGAATACCTATGAAGCTAATAGTCTGGCAAGGGTATAGAAGTGGTGAGACCTGCTGCTGGATGGGTCACTTTGATGACCAGTCC
CCTGGGAGAGAGCACTTCCTGTTCCTCTCAGGCATGGAAAGGCATGAGAGCACTTCCCCATCTTTCTCACCCAACTTTCATGCCCATTGCCCCTGCTTGT
GGGCAKATTTTCCTTTTTGCTGCCYGGTCTGAGGGATAAGGTGGGTTAAGGAGGAGGGTTAAAGTGAGTGCTTGATCTTCCTGCTACTGTATTCAAACCA
TCACCCTGTTGGTCACCTGGATCCCATCAGATCCCAGTGGCCACCCTCTGTAGGTGGGAGCACTTGTGGTGACATGCCTACATTTAGAGTGGTCATATTC
TCTTCTGAGGGCTGGGGGCCGTGGTTTCTTTTYCTTTTCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAG
TGGCACGATCTCGGCTCACTGCACCCTCCACCTCCAAGATTCAAGTGATTCTCCTGCCTCAGCTTCCCAAGTAACTGGGATTACAGGCATGAACCACCAC
ACCTGGCTAATTTTGTGTTTTTAGTAGAGACAGGGTTTCACCTTGTTGGCCAGGCTGGTCTTGAACTCCTAACCTCAGGCGATCCACCCACCTTGGCCTC
CCAAAGTGCTGGGATTACAGGTGTGAGCCACCACACCTGGCCTGTGRTTTCTTTTTAAAAATCAGATTGTAGCTACTTTCTGTCCAGAGGGGATTCATCA
CAACATCTAGCCTAGTGAGGGTTTGTTTCTCTTTTTTCTGTCCAGTGTGGTTACTGTATGTATATAGAAAATGATTTCTAGGAATTTGGTGGAAGGGGGG
AGAGGTCACAGTGTGTGTTCAGTCTACCTGTCTGAGAGAGAAGTTGAGGCAATATTTTCTTCTAACCTCTCTGAGTCTCAGTTACTTCACATTCAAAATG
AGGTGGTGATGATGATGAAGCATGAGGGTGGTAGTGGTGATTCTCAGTTAATATTTGAAATTGGAGTGTATGTCAGGCACTGTTCTAAGTACTTTACCTG
TGCAAACACATCTAATGCCTCAACAACCCTATGATGTCTATTCTATTACTATTGCCATTTTATAGATGAAGAAACAGAGGTACAGTGAGATTAAATAATT
TACCCAGATAAGGGGCTACCTACTATGTAGGATTAGTTTGAGAATTATTAAGCTAACACATGTAAAGCACTTAGCATAGTACCTGAAATATATTGGAACA
ACAAAAATGGCACTAATAAATATATACTGAGTGAATGAAAAGTCACCAAATATTTATATTCCATGCAGTTTGCAGAAGATCTTGTAGAAGTTAGTTGGAC
AGGGTGCCCTGTTCTAGTGTTTTCTGTCTTAGTGTTTTTATGTAATATAAAAGCTGTGTGTTTCTGGCCATTTGATTCTTACCCTACCAGCTCAATATTT
AAAATTTTTACATATTGAGTTATTGGTGCTTGAAACCATTTTAAATCTTTCTGCTTTCTCATATGATATGATTGCAAATAAATTAGGTAATGAGTTTTAA
AAAATCAGTTGTGGTTAATCTTTCAGGTTCAGAGAACTGAAAAATATATCTGCTTTAAGGGAACTTACATTCTAATTTCCATACACATATATATTACATG
CATTTTTATACATGCTGCATGAGAAAGATGTCCTTTATATGGTGGTTCTGTATTGAATACCAGCATCCAGCACATTGTCTGGCACAGAGCAGGTGTTCAA
TAAAGTACTGCTGATTCAATGGAATCTTTTTCATGTGTTATACGTAAATGTGCATGTATATGTAAATTGGAATGCAAATCTGTGCCTTCCTGGGACCCAT
AGTCTAGTGGAAGAGAGTGACAAGAAGCAATTGCAATACATCACCGCACTAATGCTCTGTTKAATGTATTCTGGGAGTATGGAAGAAGGAGAAGGTGACT
GTGTTTGGGAAAAAAAAAWCACAGAGAGGTGATATTTATTTAAGCTGGATGTTGAAGGTGGGTAGGAGATTGCCAAGGAGAACATGGGAAAGGGCATTCA
GTCAGGGAAAGTGGAGGAAAGCAAACTGACTAGCAAAGTCCTGAGAATCTACAAAGTGAAAATCTGTTCAGTGATATAGTGTTAATCTGAAAAGGCTTCT
GTTGAATTTTGAAAAAGATCATGCAGAAGATGATAAGCATGGTTTCACAAAATGTAATATAATTCTGCAATTCTTTGCCTAAAGGCTYTCAGTGGTTTGC
TGTTTTCTGCAGCAGAATACAAGATCCCTCCTGACCTGACCACATGCAGCCTGCCCTCCAGCTATACTGGACTACTTGTGGTTCCTTGAATTGTGTGCTA
TTTCATGCCTCCTTCCTTTTGAATGTGCTCTTTTGCATGCTGTAACACCAACCCTGCCATCCCTCTGGCTGGTATCTATTCAGCTAAGTGACTATTCCCT
GACTGTGCTTCCTCCCCATTTCCTTCTATTTTCYGTTACTCGTTGACTAGGCTCACCCTAAACTTCACTCACCCAGTTGACATTAGTATCTCCTCCACTA
CATAGCTTCTCACCAAGGGCTTGAAGGCAGGGGTTGTATTGTATTCTATTTGAACTCCTTGTGTGCCTGGCACTTAGTAGTCATTCAGCAAATATTACCA
AATGAACAGATAATGACTGAACAAGCTAATTAATGAATTAATGAATGAATGAATGGCAGATATGAAAGGGGGAAGAATTCAGGAAGACAGGCAAAATATT
TCAAGGATACCTTTAAGGCCAAATGAAGAAATGGAAGGTTGATCCAGCCAATCCTTGTCACATGATCACCTTCATGGGAGGAAGAATATATTATTCCCGG
TCTGCTTACCCCTTCTCTAATGGTCCTTTTACCACTACTAATGCTCTGTATGAGCCTCTCAATCCAGGTGTCCCGCAAGGTCTGAGTCCCACTGAAGCTT
TTCTTAAGTTGAGTAAAAGTAACCTGAAAAAACTGATAAGCATTTTTCTTAGTAGAAATCCTTCCTCTGAGCAGTAACCTCTGAATATTATGTATAAAAC
CATTACATTACTTAATGGATAAGACTCATGTTAAAATTCACCTTGTCTCCACAGAAGATAGACCCAGAGTTTAGTCTTTGCTTTTAGTGGCCACATGTAA
AAGTGGTGTACAGTGGAGCTGTATTACTTATTATAGGTCTTGTGTTAAAATAGGACAAAGGTAAAATTAGAAACCAGGATGCCAGATTTCAGGTCCCCAG
TCTTACAACAAATAAACATGCTTCCTATTTAGGTCCTCTTTGGTCTCTCTCCTCCTTATCATCACCATCAGCAGATGCTCAATGAACACCTCCTATTTGG
GTGTGACATCCTGTTGTGTGCTTGTGATGCACAGTTAGACCCTTCAGATTGTTTATAATAAGGGAGATGGAGAACCTTCACAAAATCCCCCGATGTAAAC
GCATTTCCTAGATCCCTTGTGGAATTTATTGTAATTCTATACATGCACACAATAAACATCAGAGGGCTTCGAGTAGGTGCCTCATCATCAGGAATGCCCT
GTATCCTCATCTCCCAAACCGTGGCACAGGGCTGATTCCCCTGTGTTTACTACCCTAATCTCTGTGCTCTATGGCAACATGGTGTTTTATATGGCTTTTA
TATGGTAGTGTGTACTCCTTGTGTGCCTGGCACTTAGTAGTTATTCAGCAATATTTGATAAATATTGAACAAATTAACAAATGAATGACACATATGAAAG
TGAGAGAATTAGGAAGGCAGATGATGGGGTTTAGAATATGCTCCCCAAAATATGTCACCTTGGCGTACTCAATGTTTTAAGCTAAAGGAATTTGAAAAAC
AACGTGTGCAGGAAAGACTCTCTGGYCTTCCCCTGAAAGAGCTCATAGAACGCTCATGTGAGAGGTGCCCTCCCATCCCTGGAGGAAAGGAGCATCGTGA
TCCCTGAAGACAGAGGGACACTGACAGGKATATGAACAAATGGACCTCGCAAAGTCTCCCCTAGTTTACTGTACTTAGCCCACACCATTTTGTCTTATTG
TATTTTTCCATAATTTTCCACTCTTCATCAAACCTGGTATTAAAACAGTCAGGTATAATCATTTCTTGGAGTCCTCATTTCCTTATAAAGGCTCCTGTGT
CTTATAAAAGTTATACAGGTTAAGCATCCCTAATCCAAAAATCCAAAATCAGGAAATGCTCCAAAATCTGTAACTTCTTGTAACGTGGTATTCAAATGCT
CATTGGAGCATTTCAGATTTTGGAGTTTTGGATTAGAGATGCTCAACTGGTGAGTATAACATGAATATTCCCAAATCAAAGAAATCCAAAACACCTCTGC
TCCCATGCATTTTGGATAAAGGATATTTAACCTGAATTAAATAAATCTGTATGTTTTTCTTTTGTTAATTTGTCTTTTGTTATAGAACCACAGCTGAGAA
CCTGGAAGGGTAAAAGGAAAAGGTTTTTTCCTCCACTACGCGGGCAAAATATTGCAAGGATGTTCTTAAGGTCCTAAAAAATCTTAAGATTTAACAGGTT
TTTAGGCAGAAATGTTGTACTTTCCATTTAGAAAGAAGTTGAAGCTTTATATCCAACATTATATATGTTTAACATAATAACAGTTAAAGATACACTTAAA
AAAAGATGGAGAGAATTTTCAAGGAATAGGATTTCAGGAGCTAGAGGTACTAGGAGTTATGAATCTCCCCATTAGATAGGTAGACAATGAAAAAAAAAAG
GGGGAAGGGGATGATTTGCAGTTTGATGGTAACAGGATCGTTGAGAGCAGCAAAACAGAAGTAAATTGATGCTCATCTCCCAGATTAGTTGAGAACGGCC
TAATTAGCTAATGAACAGTTCCAGTCCTATGTTCTGAAAGGCTCTGYTTCTGGGCAAGCCGCAGTGCTTAGCAGCAGCTGCTAAACCATGTGGACATGCT
AACACCAAGCAGAGGAGCACATGTTATGTTTTGACCTGCAAAGACTCGTCTTTTTGAGTCACACATTCTTCAAGGAGTATTAGAGATCTTGTTTCTTCGT
ATAATAGAGAAGTAGCAGTCTCAGTGGCATGAACTCTGGAGCCAGACTGCCTGGGTTCAAATCTCAGCTTTGTCACTTACTAACACAGTGATCACTGCTG
CTTGGTCTCTATGTCCTCATGTAGGCCCTTGCTCCCCACCATTGTATCAGGTTTGGTCTGGGTGACCAAGAGAACACGGCAGAAGTGAGGGTGTGGCTTT
TGAGGCTAGGTCCTAGCAGACATTGCCATATCTTCCTTGCTCTCTTGGATCACTTGCTTGGTGGGGAAGCAGGTTACCATATCATGAGGACACTCAAGGA
GCCCTATGGAAAGTCACATGATCAGGAACTGGAGACTCCTGCCAAAGCCATGAGTAAGCCGTCCTGGAAACCCAGATTAGTCAAGTGTTCAGATAACTGC
AAACCCCAGCTGACAGCTTGACTCCAACTGTGGTTGGTTTCTTGACTGCAACCTCATGAGAGATCTTGAGCAAAAGATCCCCACAAAAACACTCTCAGAT
TCCCCACATTGCTAATTACTGTTTTAAGCCACGAAGCTTGCTTTTCAGAAGTGTTAATAGATAATTAAAGCAAAAAACTTTGTAAAGAACTAGTTTAAAG
GATGTTCTTAACAACAGACTTGACTTGATGAAGAAATAGTGGCTGATATTGTTTGGCTTTGTGTCTCCACCCAAATCTCATCTTGAATTGTAATCTCCAC
AGTCCCCACATGTCAAGGGGGAGATCAGGTGGAGGTAATTGAATCATGGGGGTGGTTTMCCCCATGCTGTTCTCATGATAGTGAGTGAGTTCTCACGAGA
TCTGATGGTTTTATAAGGGGCTCTTCCCCATTGGCTCAGCACTTCTCCTTCCTGCTGCCTTGTGAAGAAAGTGTCTTACTTCCCCTTTGCCATGATTCTA
AGTTTCCTGAGGCCTCCCCAGCCACGCTGAACTGTGAGTCAGTTAAAACTCTTTCCCTTATAAATTWCCCAGTCCCGAGCAGTTCTTTATAGCAGTATGA
AATCGGACTAATACAGTGGCATGCCTTTTAATTTCTTGATTTATGGAATACCTTTAAAGTAATGTTACCTAAAGTAACTTTTGTGGAACAGTAGTCCTGC
AAGATGCTCCATATATAAGGGGTTTGATGTGTTTATTAGTTTGGGAAATGCTGCATACTAGATCTCCTTCTTGGAAATACACGTTGCTCATAAGCATATT
AAAGAATATAAACAAGTCTTAAGGATTTTTTGTTTGTTTGCGTAGTCCATTGTTTCCTAAACTCATATAACCAAGGAATTTTTAAAGTCAAATGTCACAT
ATTAAAATATTAGAGAATACTCTGTAAGAAATGTTGTCTTATAACACTGATTCTCAGACTTATGCCTACATCAGAATYGTCTGGAAAGCTTAAAACGAGA
TTGTTGGGCCCCACTCCCTGTGTTTCTAATTCAGATAACCTGGGGTAGGGCTTGAAAATTTGCATTTCTAATAAGATCCCTGCTGATGCTGATGCTGCTG
ATGGGTGCGTGTGTCGGGAGGGGACCACAYTTTGGGAACCACTGTTCACTAGGGTTTCAGKTTCCTGAGTAAGAGCTTAAAGAATGAACATGCAAATGGC
CAATAAGCACAGGAACTGATGTTCATCTGCTATGGACTGAATGTTCCTGTCCACAAATTCATATGTTGAAACCCCAGTCCCCAATGTAATGATATTTGGA
GGTAGGGTTTGGGGGAGCTAATTAGTTCATAAGGGTACAGCCTTTATGATGGGAATAGTGCTTTCAGAACAGCCGTAAGAGAGCTTGCTTCATCTCTCTC
TGTCATGTGAGAACACAGTAAGAAGATGGTTCTCTGCAGACTGAGAAGAGGGTCCTCGCCAGGAATCTAACTGGCCAGCACCTTGATCTTGGACATCCCA
GCCTCCAAAACTTTGAGAAATAAATTTCTGTTGTTGAGGCCACCCAGTGTATGGTATTTTTTAAAGCAGCTGGAACTGAGCAAGGCAACATCATTAGCCA
TTAGGGAAATGCAAATAAAAACCACGATAAGATACCACCTCACACCCATTAGGGTGGTTACAATAAAAGAGACAGACAATAACAAATATTGAGCAGGAAT
ATGGAGAAATTTGGATCCTCACACATTGCTGTTGAGAATGTGAAATGGCACAGCCTCTTTTAAGCTCCTTAAAATGTTAAACATGGACCATATGACCCAG
CTATTTCACCTCTAGAAATTTTAAGAGGCATAACATATACCCATACAAAAAGTTGTGCATTAATGTCCATAGCAGCATCATTCACAATAGACAAAAAGTA
TCCCAAGTGTACATCAGCTGATGAATGGGTAGACAAAATGTGGCATGTCAGACAATGGAATACTACTCGACAATGAAAAGCAACAAAGTACTGATACTTG
CTATAATGTGGGTGGACCTGGAAAACATAAAGAAGTTCCTCACAACAGGCTACATATTTTATGACTCCATTTATATTAAAAAGTTCAGAATGAGCAAATC
CATAAAGGGCGTACGATAGTTGTTACGAAAGGCTGGTAGAAGTGAGGTGGGGAGTTGACTGGTAATGGGTTTGGAGTTTTTTTGGAGCGTTGAAAATGTC
CTAAAATTAGATAGTGGTGATGGTTGCACAATCCTGAATATACTAAAAAAAAAAACCCCACTGAATTGTACGCTTTAGAAGGGTAAATTATGTGGTTGTA
AATTATAACTCAATAAAGCTGCTATAAAAATGCATATAGCTTCTAAATTAGGATGGCAACAAAAGTACAAATATCCAATTGCAGTATACGTTTTAACTTT
ATTGTAACCTATAAGGTGCCAGAGGCATACTACAAATGGTGGCAGTGGTGGGTTGGTGCAAGCTGAAAATTTAGATGTAGCTGGCGTTTTAGCACCCTTC
TCCCCCTCCTTCATTCCCGTGCAGATAATAAATGTTTATTGTTGTTCTATTGTGGCCCCAAGTGAGCTGTGGACRTGGTGGGGAAGCAGCAGGCTGACCC
CGGAGGGTTTGCTAATCAGAGAGAGTGTAAAACCTGTTTCAGAATCTGTCATTTACATGGGGCAGCAAATGACAGATAGCAATTTAAAGGGTCACCTTTC
CCAGGGTATGGCTGTTTGTTTTGGTCATTGTGGTTGGTTGTTTTGCATTTTAAGAATGTTTGGAGCCTTAAGCTAGCACAGTGGCTCTCCAAACTTCAGC
GTGCATCAAAATCTTCTGAGGTTCTTGTTTAAAATGAAAAATTTGGCCCTACCCCCAGAGGGTAAGGAATCTGCCTGTTTAGCAAGCACTCAGATCATTC
TGATGCAGGTGGCTCATGGACCACGGTAAAAACATTTCAGCTCCAAAAAAAAAAGTCTTGCTATGTTGGGGGTGTACATAAATAAGCATGGGGCTGATCT
AACCAACCCCAGGACAGTAGTTACTCCCAGAAGGAGGGGATGAAAACAGGTTGGGTGGAGCCTTGCCTGTGTCTGAAATGTCTAGGTTTTTTAAAACATG
ATTTGAAAGAAATAACAGAAAATATTAACCCCTGTTACATATAATACCATGTTTGTTGTATCTTTTGCCTTATTTTTTGACTATTTGAAATGCAGTATCT
CAAAGTATTTTGTCATACTTGGCATTTTAGATGTTCGTCCATTCCAGGGACTCAGYGCACTGAGGCAGGGAAGACAGTGGTCCAGTTGGTGGGCTCCCTG
TGTCCTGCAGGGCTGTGGGGGGATGGCAGTGCTCCCAGCTTGGAATCCCCCCACACTGAGGTGGGAGATTTCCTCCTCCCACGTGAGGGTGTGGTCTTGA
CTACTCCTGGCTCCACACAGGCTGTCCCTTAGGGCAGGGGGCAGGAGCTCAAGAAGCTGGAGGAYAGAATTTCTCCCCTGAGAACAGGAAAGAGAGGAGG
CACGAGGAAACCACAGTCTGTCTGCTTTACCCTGATGGACTTCTGTTCAGGGAGTTTGGGTGAATTCCACATTTKGATCACAATAGTTGTCGCCTGCCTT
TCTTTTCCCTCATAGCTTTCAAGACCCCTTTCAWGTCCCTCTGTCTCCAGGAAAGATGATTTATTTTTTTCTTGGCCCAAGGCTCCCCCAGGGGCCCCAA
GTCCAAACACTTTCTTTGCTGTTCCTTCAGGAGTGTTCTTTCTGTGATCCCATTATATTGAAATATATGCAGATGGAGCATCACGTGTGCCTCTAGGGGG
TTGGGGAGGAGCCTAAGGAACCTAGAGAGCCATCCTGAGATGTGGGGAGAGGGTTGGGGTGCTGCAGGAGAGCGGGATGACTGGCCTGTGTTGACAGACA
CGCCGTGGGGAAGCAGAAGCTGCCCCGACAGTCTTGTAAATGGAGTGTTCACCTCTAGCAGATGTAAGGCATGGTTTGGAAGGGGATGTGTGCCAGGTCG
TCAAGTTTCACAGCAGTCTCAGGCCAGTTGGGAAGCCTGGCAGCGTGTGCCATCCCTGAGCAAGAGGGAGGCTGGAAGAGAGGACTGTGGTCTGAAAGTT
AGGAGCCCTGGGCTCTTGCTAGCTTCTTCCTTCTTCGAACCTCTGCCCTGCTGTGTGAGAGCAGGTAGTGCCCTTCCTCTGCCTTATGGAGTGATGAGAA
GGAATTAGGGCACTTGGAAGATGCTGATTTCTAATCCTTTAGTTGCCACCAGGCCTCAGCCCCCTTGACTTTCTTCCTCACCCCCTCAATTTTCCTGCTG
CCCTTGAGCTCTTCATAAAAGTCCCTGCTGGGGCCCTGCCTTCTGTTTTCTATCTCAAATTGTCCCCTTTCCCTTCCCAGACCTGTTGTCCTCTATGTTG
AAAGTTTCTAAAGTTATGTGAGGGACTGTTTGGGGCTAGGGTGGAAGGGGGCTCTTAGTAGACACCACCACTCACCCATTCTGTGCCAAGCTTGGGGCCA
GCTGCTGCGGTGATAAACACACCCTCTTCTCTACACAAAAAAGCCGTGCAGACAGTGCACATTCATCAGCTCCTGTTCTGCCTCTTCATGACAACTGTCC
ACCTCTCAGGACATGATGTGCTCTGAATATCAGTGTCGGGCCATTTCAAACCCAGGGGATTTGGTGTCTGGTGTTAGCCTGGGGTAAGAAGTAGTGACCC
AGGCACTGGGCTCACCCCTTTCCTGCATTCTTTATGCCTGACAGTTTCTCAAGTCGTGCCTGTCCTTTTAAATCAAGCGATCTGTTCTTCCCTTTGATGT
CGTCCTCCYGGCCACCAGCCTACATCCTCATTACCTGATAACTTAGATGATTTAAAGCCTCACTGGTTGGCTTCTTGCCGTCATTTTCTCCCCAGCTTCA
GTCTGTTAAYGGCCATGARAATCTCACTAAAGCCCTTCTACAGCAAGGCACATGCCTAAATGGGAACCCAAAACATCTCCCTCTTTCCCATTGCMCCCTC
TGCCCTGTTCTCTGTGGCTTTTGAAGCCTTCCTCAGCACTGATGCCACCTGAACTCCAGCAGTGCTCATGCCTGCCCCCGACTCTGGCCACCGATGCCAC
CTTAACTCCAGCAGTGCTGATGCTTGCCCCTGACTCTGGCCACCGATGCCACCCTAACTCCAGTGGTGCTCATGCCTGTCGCTTTGGATTTCTCACCCCT
GTTCATGATCTGCCCTCCTCTGGAATCCTCTATCCTCTCCTCTTTCCTGTGCATCTTTCAAAGCCTTTCACGATGACACGGGCTGGTGCATTTGCATTCA
GATCCTCTGTTCACTAGAAATGGAAGGGACCTTGGAGGTCCTTGAGTCCAGCTTCTTTCCAGAGTCCCYGCAAGGGGCAGTAACTTGCCACTGACTACAC
ACTAGGTTATTCCAGGACCAGACCTCTCACTCCTAGTCCAGCGCTCCTTCCACCACACCATGCTGCCCAAAGATGTAGAGGAAGCATTCTCGCCCACAGC
TGACTGGGATGTTGTCATCAACAGCGGCGGAGATGCAGTGGGAGTAAATAACAATGTTTGTGGAGGCCTTCTTATTCATTGCATTTGCGATGCAATTAGC
ACTTTATTATAGCTTGTTCTCATTCTTATTGTCAGTTCCACACATTGAGCCCTTTATTTTATCAGAATATAACACTGCCTCGTTTGCTAATTACCTCATA
CATAGAAGTAAAAACTGTCTTAAATATCTTTTGTAGCCCACAGCATCTCCTGAAGTTCTAGGCATAGAGGAGAACTTACTATCTACTTGTTAATTCACTG
GGTTTCAAGGACAATTCCAGGCAAGGCTCACATTTGAGCCATTAGTTGTGATGAAGACCTGTCCACTAACAGCATTGTCAGCTTTGCCTTAATTTTCTAT
CTGAGGCTTCTTAGAGCCTCCTGGTTAGAGGTAGGTATACTTTCCCCTCTGTTCCCATAACACTTTTTTTTTCTTTTTTTTCTTTTTTTTTTTTTGAGTC
AGGGTCTCATTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACCGCAACCTCTGCCTCCCGGGCTCAAGCGATTCTCCTGCCTCAACCTC
TTGAGTAGCTGGGATTACAGGTGCGTGCCACTACCACCCAGCTAATTTTTGTGTTTTTAGTAGATACGGGGTTTCACCAGGTTGGCTAGGCTAGTCTTGA
ACTCCTGACCTCAAATGATCCACCTGCGTTGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCGTGCCCAGCCTCCATAACACTTTATTAGTATC
TTTATTGTTGCTCATGTCATATGGRTAATTATGAACAGACTCCTGCCTCCTCCTRTGTTTCTGGGGACAATAAGAAGTCTTTCTTTGTATGGCCCGTAGG
CTGCTTTGTCCACACAATGTCTTGCACATGGTTGTGCTCATACATGGTTGTTGAATTGAATATTATGAATAATGACAGAGTTAACAGTAGCTTACCCTCA
TGTGGTTTATCTACACAGCCCAGGGCTTTCTTCCACAGTGTGGCCAAACCCCAGACTGGGACTAAGGCCAGGCTAGGAGGGTTTGGGATGGTTTCCAGAT
GGGCAAAGATAGTTTTGTGTCTCAGAATGTGTCTCTAACCACATCTCAAAACCAAATATGATAAATGACTTTCGTCTTATCCATCATGTTTAGTTGGCTA
AGCCTCTTCCTCTATCAGCCCAGATAATGAAGAGATGGGATTTTTATTGTTTTCTCTGTGGCACAGAGAATAAAGCAAGTTCCCAGGTAACAAGGCACAG
CAGCATCTTTCAAGCCCCGAAACTGAGATGGTCTGAGAAGAGCAGGCACGTCTAGGAGAAACAGAAAGGAAAAGCCAGCCGGAAAGGGGAATCATTCTTA
ATCGATCCCAAGCCTCTGAGAGCTGGAAGGTCTGACTGCATTTTACAAATAAAAAAGTCAAAGCCCCATAAAGGAAAGTAGCCTAAAGCCACAGGGATGG
TGAAGGAGTGGCGTCAGGATGGGCAGAAAGAGCTCTGGACTCTTGGGCTGCTGCTACAACCACCTGGTGTGGGTTTTCTTAACACCACAGCTCCATCAGG
TTCTTAGGAAAAATGTCACACAACCAGGTTGTCAAAAGGGCTTTGAGGGCATTAAGAAAGGGACAGAAGTGGATGGATTAGAATGGACAGGTAGGGTACC
AAGGGGCCAGAGTGAGAATGAGGAAGAAGGGCTGAAGAGAGAGGGATCAGTCGTATTTGCTTCTGTTTCTGAATAGTTTCCCTTTTTGGAAAGAGAAGTA
AGAGAATAGAAGGCTAAAATCATGCCACAGACTGGCAGGGGTGGTTGGGTGTAGACACAACAGCTCACCTTCAGGCTGCTTTCACATTCATTCATCTCTT
TCCCTTATAATGATGATGCTGCCTCCAGTTTTTAGAACTTTCTGGAAACTTCTGAGAAGTGACTGTCTAAAGGGGGATGATGGGAGAAGGGGAGTTGYCC
ATGGGTTCCCATCGTGCTTGCTGGAGCAATGGGTGTTGGCAGATTTCTTCAGAAGGAGTTTGTCAGCAGTGGGGTGGGGCTGGGAAGAAAGCCACAGTGA
GGCAACAGGTGCAGGCATGGAGACCAGAGCAAGCACAGTGTCCGTGGAGAACGGCATGCATGTCACGGCAACCACTGGAGTGAGCGTGGAGTGGAGCATG
GCGGAGAGTGGGGGTGAACAGGCAGGCAGGAGCTCTAGGTCTGTGTACTGCGGTGACACTTCTGGATTCTACTGTGAAGACAATAGAGGGCCATTAAGAG
GCTTAAAGTGAGGGGGTGGTAGAATCCTGGCTACATAGACCTCCCAGCACTCAGAGCCTTGGAATCTTGCCATGGTGGTACATGTGTGTGTTGGGGGTAA
TTAGGGAGGAAGGGGTGAGGCTGAGCTAGGATGACTAGTTAGGACACCATCTTTACTGTCTAGAATATACTGAGGGCTGTGACCTGGGCTGTGTCAGTGG
GACCAGAGGAGGGGACAGATACAAAAAATACTTAGGGGTCTTTAAACTTGGGGGATGAGAGGGAAGAATCCMAGATGAATCCCAAGTGTAGGGGAGGGTG
GCTTTTTTCACCCTGGATGAGGAGCAGTCTGGTATGGAGAGGGGATGAGGGTGGCTCTGGCTTTGGCGGTTGGGTGTGTCTTTTGGACTGGGTGTGGTGC
CCTATAGAAAGGCTGGAGCTTGGGACAGGTCTGTGTGRACACCTCGATTCATCACTGCATGGTTGGTAGTTGAAACCATAGACATGGGTCAGATTGTCCC
AGTGAAATGGCAGAGAAGAGGGCAAGGACAGACTCCAAGAGGCCCTGAATCAAATGGGTATGGAAAATATGGAGGGCCTGGGATGGAGGCTGAGAGGGAG
CTGGCAGGAGGGGTGGGGGCAGATTGGTTGAGACCATTAGCAGGGAAATGAGGGAGAAAGARTTTCCAGAAGGGAATGGTTACCAGGTTCAAATGTGAGG
GAGGAATTCACTGCTGGCATTTGTTTGAGAAGCCCTGACCTTTTTCTGTTCCCTTGCTAGAAATAAATGCTTTTTTTTTTTGGTAGCAGACAGTAATGTA
CTGGAATGGAATCATGATTGTTCCGTGTCTCAGAATCCATATGTAAAGTCCCTTGTCAGATAGCAGGGAAACAGTCATCTTTGGGCAGTTTGTACTGAGA
GGGAGGGGAGGCCGAGTGTAAAGGATCGGTGCCTTAATTTTAGCAAGGCTCTGAGCCCCTTGGAAGGCAARCTTTATTTCTACATAGATTGAAAGTATTA
TTATTATTACATCCTTACGCTGTATCAGCGCCAAACACTGGAGTCCTCAATACTGTATTTATTTCTCTGGGCTTTTGGAGGGGTGGGGAAGAAACGGSAC
ATTTAGGTTGCTAAGTGATTGTGCTTGCTTCTAAAAATAATGAGATTCCCCAGTGGCTCGTTCTCCTGTGTTTTGCTTAGAGTTAGAGGATGCCAAGGTC
AAGTTATAGATGACAGGCTGTGTCTCCAGGTGGTGTCAGGGCATCCTGTTGGGGAAGGACAAGGTAAACTCTCCCTCTCTGGTCCTCCCACCTGCATCCC
CTTAGGGCCCACTACTTTGGGAAATTGCAGGAAAAACTGGGCCTCCCCCTGCTTGGATTGAAGAGCCTCGCCTAGGCAGTCAGMCTCAGTGGTTGCCATG
GTGATGGTGGGTGGTTGGTGGGGTGGTGATGCAGCGTTTGGCCTGTGCAGCTGAGGTCCTCAATGCAGGCTGCTTGGAGCCCAGGCTGCTGAAGCTTTTG
ACAGTTTGTTTAGGATTCCAGAGGGTCACTTGCTGCGGTGTTGAAATCTTCAGACAGACCCGCCAGCTCAGCCAGCTGAAACCTTCATTGTTGAATATGC
ATCTCACAGGCCAAATTTTGGCAGGCGCTCATGGGATTAGGAGCTCCACAGCAACCTTGGTGGGGGAAGGGGTGTGCGAAAAAGCTCTGTGCAGGGGAGA
GTGGCTGGGATAATAGACTCTGAGGACAACAGAAGGCCAGAGGCCCTTCAGATCGTCCAGTTCATCAACACCTTCAACAACATCCCTGACAGCTGGTCAC
CAAGCTTCTGCTTGGACTCTCCTTGTGATGGGGAGCTCACTACCGGGCAAGGCACACCACTCCATTGTTGAATAGGTTTTACATTTTCTCCTCTCTCCCT
CACTTCTTTCGTTCCTCCCTCATTCTCTCCATCTTTCCTTCCCCCCTCCTTTCCTTGCATCCTTTCATTTTTTTGGCAAAATTCTGGCCCCTTCTAATTT
GATTCACTGACTCAAGTTATGCCAAGAAGGAAAGCAGTGTAAGCTTTCATCAAAGTGACAACCACTTGCCACCCAACAAAACATTCATACTTTTCTCAGC
TACTTCTGACATTATTTCAAGACCCCTTGTTATTTCCCCATCCCCTATATTTCTCCATATTGCTCTTAAAATATAACACCCAGAATGAACCACAGTACTC
GACTGGTCTGACCAATGCAGAGGACTTTAGGGTGACACCCATGTTTGTGAACAGTCTGAGATGATTTTGTAGCCCCCTCCTCACACCCTTGGCTGATACG
AAGGCTGTGATTCTCTGTCGTTCCCAGATCTTTTACATATGAGCAGCTGATGCTGGGCTCTACATTTGTACTTTTTTGATTTTGTCATCTAAGCTGTTGA
GAAACACGTTGAAATGGACAGAAATGATGATGGAATGCCGTGGCAAAACTCTAGAGGCCTCCCTGCAGGTGGAAATTATAATAGTATTCATAGCTTTTTT
TTTCTGTTTTTATATCCAACTATCTACTTGTCTAACCAATTAATCACTGATCTTTTTTTTTTTCCTTAGAGTGTTCCATTCCATTGTATGGATGTGCTAC
AGTTTGTTTATTTATTCAGCAATGGAAGGACATTTGATGTTTTCCAGTTTGGGGTGATTATGAATAAAGCTGCTCTAAACATTTTTTAAAATCATTATAT
ATTTATTATTTTACTTTAAGTTCTGGGATACATGTGCAGAACGTGCAGGTTTGTTACATAGGTATACGTGTGCCATGGTGGCTTGCTGCACCTATTGACC
CATCCTCTAAATTCCCTCCCCTCGCCCCCACCCCCTAACAGGCCCCTTTGCAGGGACATGGATATTTTGGTGTTATTTCTGAGGTCTCTGTTCTGTTCCA
TTGGTCTGTATATCTGTTTCGATACCCAGTACCATGGTGTTTCGGTTACTGTAGCCTTGTAGTATAGTTTGAAATCAGGTAGCATGATGCCTCCAGCTTT
GTTCTTTTTGCTTAGGATTGTCTTGGCTATACAGGGTCTTCTTTAATTCCATATGAAATTTAAAGTAGTTTTTTTCTAATTCTGTGAAGAATGTCAATGG
TATAGCATTGGGAATAGCATTGAATCTAGAAATTACTTTGGGCAGTATGGCCATTTTTACGATATTGATTCTTCCTATCCATGAAGATGGAATGTTTTTT
CCATTTGTTCGTGTACTTTCTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTTAGCTGTATTCCTAGGTATCTT
ATTCTTTTTGTAGCGATTGTGAATTGGGAGTTCATTCATGATTCGGCTCTCTGCTTGTCTATTATTGGTGTATAGGAATGCTTGTGATTTTTGCACATTG
ATTTTGTATTCTGAGACTTTACTGAAGTTGCTTATCAGTTTAAGGAGTTTTTGGGCTGCGATGATGGGGTTTTCTAAATATACAATTATGTCATCTGCAA
ACAGAGACAACTTGGCTTCCTCTCTTCCTATGTGAATACCCTTTATTTCTTTCTCTTGCCTGATTGCCCTGGCCAGAACTTCCAATACTATGTTGAATAG
GAGTAGTGAGAGAGAGCATCCTTGTCTCGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTGTGATATTGGCTATGGGTTTGACATAA
ATAGCTCTTATTATTTTGAGATGCGTTCCATCAATACCTAGTTTATTGAGAGTTTTTAGCATGAAGGGATGTAGAATTTATCAAAGGCCTTTTCTGCATC
TATTGAGATAATCATGTGGTTTTTGTCATTGGTTCTGTTTTTGTGATGGATTATGTTTATTCATTTGCGTATGTTGAACCAGCCTGGCATCCCAGGGATA
AAGCCGACTTGATCGTGGTGGATAAGTTTTTTGATATAGTCACTGGTATTTTGAGGTGATTGCTATCATTATCATGATCTTACTAATAAGAAAGCAGAGC
CACAGAGAGGTAAAATAAGTTGCTCAAGGTCACACAGGCTCTAAATAGCAAAGTCAGTATTTGAATTTAGTGTTTTTTGTTGAGCTAGGGTTTCACTCTG
TCATGCAGGCTGGAGTGCAGTGGTGAGATCACAGCCCACTGCAGCCTTGACCTCCTGGACTCCAGGGATCCACCCCAGCCTCCCTAGTAGCTGGGAATAC
AGGCACATTCCACTATGCCCAGCTAATTTTTTTAGTTTTATTTCTTGTATAGATGAGGTTTTGCCATGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCA
AGTGATCCTCTCACCTCCGCTTCCCAAAGTGCTTGGGATTAAAGATGTGAGCCACTGCGCCCAGCCTGAATTTAGTTGTTATTCAGTAATCCATATAATT
TGGGAATGATTGTTCAAATGGCACAGACTCTSACAGGGGTTCAATCTACCATTGTGTCAGTGTAGCAGATGAGATTTTTGTCAAGGGGCTTGCTGAAATC
CAGGGTACCATATCTTTAGCATTTTCCTAGTCTGTTTGTCCAATAACCCTGTTTAAAAAAAGAAACAAGATTAGCTTGGATCGGTTTATTCCAAGAAATC
TCATGCTAATTCCTAATAATAAGAAACAATGCCAATAGTGATACTAATGGTCCTCACATTTGCTGAGTCCCAGCCTGTGCCAGGCACTGAGCTAAGCTTG
TCCCATGCACTGTTTGATCATCCTGCTTTCTCGTTGCTCACACACTGTGTACTGACSTACGGCTGAATTCTCCTGGGATTGACAATGAGCTTACTGGTTA
TCACTGTAGAGTCTTCTGTTTGGAATCAAGACATTTGCTCAGGTTTTAAGGCCTCTGTTTTTATCCCCAGTTTCTCACAAGCTGCTTGTTTGGATGTCTT
ATCAGTGCTGGATCTAAGTGAGCATTTAATTTGGAGCTGCAGGCTGGGTTCAAGTCTGGCTCTATGACAGCTTTTTATCAATGAGACCAACAGCAAATCA
CTCAACCTTGAGCTTTGGTCTTCTCCTCTTCCAAATGGAGATTATAATCCCTATGCAGAGTATTTCCACAGATGCTGAGATGCTCATACAGGAGAATGTT
TGTGTAAAAGTGCTTCTCAGACTTCAGTTGCAGACACACTTGAGCCATTTTTGTTATTTAAAATGGTTAAGTGTTCCTACTAGTATTATCTCCTATCCAA
GTTTCACTTTTAACAGAATTTATCCTCCCCCTTTTAGATTTTTAAAAAATATTCATAAGACACTCAGAGGTATGACTGAATGTTGGTCACTAGACCCAGA
AAGGGGTATACCTACCAGCTCTTGCCCACTGAGTTGTGCTTGAGGTGGAAGAAACAGAATTGCAGACTCCAGGAGGAAAAGGTATGCTTCTAGAGGTCTT
TCATCTAGAGCGAATCTTTCCCACCTTCTCCTAATCAGCAGAAATCATTACAGGAACAAGACATATCGATCCTGGTCAGAGGGCACCATATACATAGAGT
TCTGTTTTCTTCTTTTTCTTTCCACCCTCCCCCAGCCTCAGAAGGCTAATCCAGTGCCACCTGCGATTTCTTCTGATGTTACTGTGGAAGGGAGGGTTAC
ATAAAGAGAATAACCAGGTTTTCTCCTGTGGCACCTGCAGCCCCATTTTCTCATTGGGAAAACCAAGGTATGAAGGAATAGGTTAGGACTTAATGGTGCA
TAAACTCAGAGCCAGCAGTCATTCTTCCATCCCTGGTCTTGGCATTTGGAAGATGWGATCCACTATGTTGTAAGSTCTAAGGGGCAGGAAATACAAGATG
ATGTATTTATGTAAATATAATGTACTATGTTGTAATCATATGTGCATGCAGGAATGAATGACTGAATAAGTGAAGGGAGAATTCTTTTCTACCTGAACTG
TGGCTCCTGCTAGTCTGAAAGGCATGCAGCCTTTCTTAAGCTTTATGAAGAGGAAGGCTAGAAAGAAGTTCAGAAAAGCTTCCCCCATCTTTATTCTTTA
AACTCTATATAAAGGCATGAAATGTTCTGAGACTGACGAAAACATGGGCCTAGACCAGCAAATGATTTTGGAATAACAAAGATGAGCCTAGTTCTCTAGC
TATTGTCACCTCCTTTGTTGTGCCAGTGGTGGTTACCATGTGTCCTCCTTCACTGGAGGATACAGCCAAAGTGAAGGATGCTGCAGTGTAAGGATGCAGG
ATGGGTTTTCTGGCTTCAAATTCGTTATAGACTAGAGTAGCCCAGGGCATCTTCTTACTAGATGTCTTGCATCATGGCAGCAACACCCCTGGTCCCTCTG
GGGTGGATGGGGTGCAGCACACCTTGGTGAGGGGTTTACACTAAATACTGCTGACCCCAGGACAGCRATTTCTCATACATTTTTATTCCAAAGTATTCCT
GAAAGGTACTTTTGCTTCCTCATGTTTCCACAACAACCCCCTCTAGAGCAAGGATATAAATAAGAAAGCAAAATTTCAGGCTCCCTTTACAATCACAGTA
GCTGTTAACTGCTGAAAGGGACTCAGAGAGGGGCCCCTATGGGAGGGGGAGGCAGAGGGTGGAGCAGGCCAGCCTGTCTCCCTGGGTAGCACATCCCCAA
AGAATCCTCTGAGCATTGATCTTTGATTGTGCCCCTTCCGTGCTACCCAGCAGGACCTTCTCCCCTAAAGARGGGTCACTTTGTATTGAGGATCTCCTTC
TTATATTGCATTTGCTTAGAGGGTGCATGGCCTCAGACCACATTTTGGGGCTGATGGGAAGAAGTTGGGGCAGGAGGGCACTGTGGTCATAATGAGGTCA
TGGACTGCTAAAGCTTCCAGTTCTGAGGGGCTCAGGTTTCTCAACAGAGTGAAGATCAAAGTGTGTTCAGTGTGGCTGCTGCTGCTGCTACAAAGAGGTG
TGAAATGTGGGTTTGGAAAGAGAACCGAGGATAATTTGCTAGTTTATAGCCTTTCCTAGAGTTCACACAGAATTTTTAGTACTTTCTCTCCCTCCCTTTT
TTGTAACTGTTTCAGAGAAGGTGTGAGATCAGCAGGCTGTGAACATCGTGCAGTGTGGGAAAGGGGAGCTGAGGCATGGGTCTCTGTCTCCTTGGCCCTG
GGAGAAGGGATTTTGGTGGGAGCTGGGGGAGTGTTTGGGTGTCATCTTGGGGAGCATGTTGGGGAGTGTGTGGGATCAACATTCCCACCACCTTCCTCCC
TGTCACCTGGGTGCTGGCTTCTGGAAGGCTCAGCCCTGCAGGTCCATAGCAGGACTTTCCTGGCTGTGCCRTACAAAGTACCTGACGATGAGATTGCTTG
GAAGGGCATGGGGAGGAGCCAGTGACAGATGTGGTGGGATCCATAGAAAGGGCTGCTGTGGAGCCTCTGCGTATTACTCAGGAGCACCTACTGAGTTTTC
TGTACAGCCTTTGTTTTGCCCTCTGGAAAATGCCACCAGGAGCTCTAACCTTACTGTGATCACCCTTTGCCATTCAGTGCCTGCCTCCATTCCATCTGAC
AGCTTTAGATATTTGAACAGTCCTCTTGCTGACAGCTGTGTGGAGCAGGAGTGTCCTGTTCGCATGCCAAGTACTCAGACTCTGGGAAGACAGAGATAAT
GAACTTCCTTTTCACCCCAGTGATTGCCTCCGAGTTCAGAACTCTGTGCCCTCGCATCAGGCTGTGGCTGAGCCTCCAACTTGCTTTGCTCCCTTGGCCC
AGCATCTCTCCCCTTCCTGTCTACTTTCTCAACCACTGCTGGGAGACCTTCCTAAAGCATAGCTTTGCTCATGTTATCCGCTGGGCAGAAACCATCCATG
GGTCTCAGTGCTCATGAGAGGAGGGGGCAGAGCTGGCTCAGCGGCACTCTGTGGGGAAAGGACTCGGGTTATGTTAAGAAAGTGAGATTGCTGCCAAAAG
GGATCCCACCCTCTGGGCCTGCTGTGACTGGGATTCCAGGCCTTGAATAAGATTCAGACAGTCCCATTTTTAAATTCAGCTCTGGCTAGACTGCCTCTGC
AGTGTTTTTGAAATGGGTGCTACCTTAGAAGAGCAAAAAGGAGTAGTCTCAGATACAATYGTCCAGAATAACTAGGGTTTAATCTAAAGAGTGAGTTACC
AGGAAATGAGAGAAGGAGTGAGGACATAGGCCTGGAGAAGCGAATAATTCCAGAAGCAAGTGACATTTGTCTTGGAACACTTGAAGGGCAGTCTTGAAGC
TACACTAAGAGAGGGTTACTTTGTGTAGCTCCAAGTTCAGGGATGGGCTGTGCTGCCCTCACTGCAAGAGTTCATATAGATGCTGGGATGAGCTTCGCCC
AGGAACACTGTGTTCCTGGAGTTTGGGCTTGATTTTCTAAGATCATATCCAACTTGAAGTTTATCAGTTCACCCTTTCCTGCCACATACATTTATCGAGT
ACCTACTACATGCCAAGCACCTTAGTTTGTGTTATACTGGAAAGGCAGCACAGGCTTTGCCCTCAGAGAACTCAGTCTAGTAGGGAAAAACAGATAAGAA
AACTGAATTATAAGATAGAAGACTGAGGGAAAGGGTGGTTTGGGAAACCTTCCTGAAGCAAGTGCATGCTGAACAGTGTTGAGGAGGAGCAGTTTAAACC
TAGCCAGGGTGAGGTGCATGCGAGAGCCCTGAAATGTGAAAGCTGGGCACCTGCAGGAAACCAAAATTAGTTCAGGTGACTGGAGGGTGGCAGGCGGAGG
CGTGGCAAGAGGCTGGAAGACAAGGTGGAAGACAGATCATGACATTATTCTAAAGTCAGCATGGAAGGATTGGAGGATTTTAAATGAGAAGCTATAAGCC
AGACTTGGATTTTAGAAAGATCACTCTAGTAATGGTCTGGAGAGAAGAATACGGGAGGAAGGGGTAGGGAGGCAGAGAGAAACCAGTAGGTATTCTTGTG
AAAAATTATGAGGACGTTGGCAGTAGGGATAGAGAAATGAAACTGTTAATAGAGAAAAAGCTATGGAGTTCCTACAAGACGGTCTTTTGGGAAAGACAGA
AGAGGTGACATTTAAGTTGAGACCTGGAAGATGAGAATAAAACAGTCACGTGTAGATGTGAGACCAAGAGAGCTCCAAATTGAAGGACTAGCGAAGCCCT
TGAAACAGAATTAAGCCTGGAGCATTCAAGAAACAGAGAAGGCTGTTGTGCCCAGATCACAGAGATCAGTGGAGACAGCCTGAATCTTGCAGGGCCTGGG
AGAGGTTTGTTCCTGGGAAAGGTTTGGGCTGTTACTGCAAGTGTAATGAGAAGCTAGGGAGCTATAAGCAAATTGGTCTGACTTACACCCTAGAAATTTC
ACTCCACTGTGTAAAGAATGGATTRCACAGAATATGTGCAGGCTGGAGGCCTTGTAGGGAGCTGTTGGAGAGTGGAAATGCCCAGCAGGGTACCAGGTAT
GCAAGGAGAGAGGTCTGTCCTGGAGATAAAGACTGGGAGTCATTTGCATCCAAGTGATAGTTGGGCACTTCRTTTCAGTAAGGCCTTTTAGGGAGTGAGT
GTGGATTGAAAATAAAAGTGGGGAAAGGCAAGTATGAAACTTTAGGAAATGTGGCTTTTAAAGGGAAGTGGAGGAAGAGGAGTAGCCAAAGGAGAAAAGG
ATAACTCAGAAGGAAAGGGAGGAATTTCAAGGAGAGGGTACTAAACACTACAGAGTTATTATAAAGTGCTGCAATACAATACCGACAAGTACATCTTGAA
TTTGGAGACCTGCGGGCCTCTGATGCCCTGTAATGAGTCATTTTCACGGAGTGAGGAGGACAGCAGCCAGGGGCAGCAGGCTGGGTAGGTAGAGGGTACA
AATGTGCACCAGCTTCAGAAGCTGGACCAGGGAAGTGAGGAGGCTAAGGAGGGGCCACAGAGATGCAGGGAAGAGCTGTGTCAGAAGAGAGCACACAAAA
AGTTGAGGAAACAGGAGAGGGGGTCATCACAGAGCTGCTGAAGGCGTGGGATGCAGAGCATCGACATTCTTCTGCAATGTGAGAAAAAGGGTCACCAGCT
TTTAGGAGACTTCAGTCCACATTGGTATTAGAAAGTTTTGATTGTTTAAAATAAGGATCTCTAATGATTATGGAAGAGCTATTTTTTTTTTCTGTATTTG
TTGACCTTTAGTCATGTTTGAAGTTTAGCAATCAGAACATGTACTACAGCTCTTAATTTGAATGTAAACTCACCATCCAGGCCCACCTAGACAGGGTCAC
AAAGAGTTGCTTTTGTGAAGAGCTCTCAATATTTTTGCCAACTTCAGAAGGTTAGGAAGATACTGCAAACAACCTTGCTTTTTTTTTTAAGTTTTTTTTT
TTGTGTGTGATTATAAGGAATATATTTCCATTGGAAAAAAAAATCAAGAAAATACAGATAAGCATAAAGATAATACAGATAACTTGTAATTCCACTACCT
AAAGACAATCACTGTTACCATTTTGGTATATTTCCTTCTAGTCTTTTTTTTCCTTTTGAATGTATTTTACACTGTTGAATTAATATTTTAGATAAAATAT
TTTCCCTTTAAAGTTATACTGCTTTTCCTCTTAAGACTATATGATGCCTTTTCCATTGTATTAAAAGTTCTGTAGAAATAACATTTAATAGCATTTAAAA
GGCTGTGTAATATTCCATTGAGTGCACCATACTTTGCTCAACCATTCCCCTACTGTTAAAACACTAAAGACTTTCTGTGGAAAACCAGTATGGCAGTTCC
TCAAAAAATTAAACATAATATGATTAACCATATAAACCAAATTGAACCATAAAAATTAAACCATATGATTCAGCAATTCCACTTCTGGGTATGTACCCAA
AGGAATTGAAAGCAGGGACTTGAACAGATTTGTACACCCATGTTCACAGCAGCATTATTCACAATAACCAAAAGGTTTCAGAAGCAACCCAAGTGTTCAC
TGATGGAGGAATGGATAAACAAAATGTGGTCTGAACATACAATGGAACAGTATTCAGCCTTAGAAACGAAGGTAGGCCTGACACATGCTACAGCATGGAT
GAACCTTGGAAACATGATGCCAAGTGAAATAAGCCAGGCACAAAAGGACAAATACTATGTGATTCCACTCATATTAGGTACTTAGAGTGGTCAGATTCAC
AGGCAGAAAGCAGAAGATGGTTGCCAGGGGGCTAGCAGGAGGGGAGAGTTATTGTTTAATGGTACAGAGTTTCAGTTAGGGCAGATGAAAAAGTTCTGGA
GATGAGTGGTAGTGATGGTTGTACAACAATAGGAATGTACTTAATGCCGCAGAACTCTACACTAAAAATGGTTTAAAATGGCAAATTTCATGTTATGTAT
AGTTTACCACAATTAAAAATCTTAATACTGACATTTTTTTGAAGTTGGGTTTATTGGGGTATAATTTGCATTTAGCAAAATCCATTCTTCTTAGATATAC
AACTCTGTGTTTTGACAAATGTATATAGTTGGCTAACTACTACCATAATCAAGATATAGAATATTTCTATCACCCCCCAAATTCCTTCCAGCCTCTTTCT
AGTTAATCTTTTCTCTTCATCCTCAGCCTCTAGTAACTGCTGATTTTTTGTTCTTATAGTTTTGCCTTTTCTAGAATGTCATAAATGGGAWGAGGAGTCT
ACAGCCTTTTTGGCTTCTTGCACTTTGCATAATGCTTTTGAGATTCATCCATGTTGCTGCATATATCTGTAGTTCATTTCTCTTTATTTCTGCCTAGTAT
TCAGTTGTATGGATGATCACAATTTGTTTATTCACCAATCGAGGGWCATTTCAGTTGTTTTCAGTTTGGGGCAATTATGAATGTAGCTGTGATAAATAAC
TATTCATTGCTGGGTCAAATGGTAAGTATATGTATAACTCTGTAAGGAGCTGCCAAACTGTTTTCCAAAATGGGTGTATTATTTTGCATTCCCGTCAGCA
ATATATGAGAGTTACAGTTGCTCCACGTTCTAAGCAGCATTTAATATTATCAGGCTTTTTATTGTTTTGGTTTGGTTTGTTTTTAGCCTTCTAATAAGTG
TGTAGTAATAACTATTGTGGTTTTAATTTGCATTTCTCTAATGATTAATAATGTCCCATCTTTTCATGTGCTTATTTATTCTCCTTATCTCTCATTGCTG
AAGTGACCTGTTCACTTCTTTTGGCCATTTTTTAATTAGGTTGCTTGTTTTATTATTTAGTTGTAGATGATTTTTAAATTTTTTGCTATTATAGATAATG
CTTCARTGAACAACATTGTATGTGAAAATATTGCCCTCACTTTGGGTCTATACTTATAATAATTTCCTAAAGCTACTAAATCAAAGAGAGTGAACATCTT
CACCATCCTTATATGCCCATAGTCCAACAGCTCTTCAAAACCATTGCACCAATTCACTGTCCTACTGGTGGCAGTTTAATAGGCATGACAGGCCATTGTG
TTGTCTTAATTGGAATTTGTTTGATTATAATGCTATGGAACTTTTTTTCATATGATTATTAAACAGTCTGTGTTTCTTCTTTTGTGAGTCATCATCCCTT
GCCTTTTTTGATACTGGATTGACATAGAAATTTGCCATGGCTGTATCTCTACAGGATTAGTTCTACAGTATGTGATGCTCCATGCCAGGATCAGCAGTTT
ACAGTATTTTCATAAAATCTTAACTTGGTCTTAGCCTCGTTTCTTTCACTTTCGGAGGTCACGAGTTAATTTGCGTAGCTGGCAAGGTAAAAATAAGAGT
TGAAGAGAAAGATTTTTGCCCTCAAGTTAAACTTGGACACTGGGTGTCAGCACTTCTGTGAGAGGCAGACATCTCTCTGTTGTTCCTAATAAATAGAAAA
AGTGTTCTTTTAAATTCCTCTCTGAGAAAATGGCCATGCCACTTAGTTTCCCTGTTGTGAGAGTAACCTCTTGATTCCTCTAACAACTCAGCATTTTATG
TGTTCACAATGAAAGTACAATTAAAATCACTTACTTCATGCTTGCATAGCTCTATCAAATAGATTCAGGCAGCAAACAGTTCCTGTATATAGGCACAATT
CTTTTTTAATTATTAAAATTGCTTATCTTTTATTTTATTCCAAATAGATGGTATGGGATGTGATATGACTCAGAAGTACTAGAATGAATTTTGACTTAAT
AACTCTAAAAATAAAAAGCATTTTGTTTTCTCTGACAAATAGCTCTCGTTCATTTTGATGCTCGACAGACAGCTGATATTTTATAAAACTTTATGATTGC
CTCTTCATCAAGCACTGTAATTGTAGGTTTGTCTTCTTTGCAAGTATGGRGAACTGGGTATTTTCTTTTAAATACTTGTCATCCTAGGAGGCGGATTGCC
TATGCCTGTCATGCAAATCAACTTTTCAGGCATCATAGGCAGAACTAGGAAAGTAGAACAATGGAAAAATATATATTTTTGTCTAAAATTTATGGATCTG
TGACTTGCCTGAAAGAGTTATTTGAGAAGGTTTTTATAAACTCAAACAGATCCTTTAAACTAGATATTTCCCAGACTGCCCAAAAAAGGGCCSCTGTCCC
CCAATACCACACAACACTATGAGAAAGTAGAATTTTATTGCTTGGGTTTTTCTTTTCCTCATACTTTGAAAGATCTCTTTGGCCAGCTTTCCATTCAGTG
TTAACCCACACTCGTCAGTGTTTGATGTCATGAGAAGAGGACTCTGGCTTGCTCAAGGATCATGAGTGAGTAAATTTTTCAGTCTTCCAGAAGGGGAAAA
GGAAGCATCATTTTGGTATCTTAGGGATTAAGACACTTGCTAACATGATATCAAGAAAAAAGCTTGCACACTCTCCAATTGGTATACTGGCTCCATGCCA
GTTACATAGTTTTGGGTTTTTCCTTGTTTTTCATGTACAAGGATACCTCAGAGAATGGTTGTTTGGCTCCAGACCACTGCAGTGAAACAAATATCTCAAG
AAAGTCACATAAATTCTTTGGTTTTCCAGTGCATATAAGAGTTATGTTTACACTATAGTGTAACTTATACATATAGTGTAGTCTATTAAGTGTGCAGTAG
CATTATGTGAAAAACAATGTACATCTCTTAAAAATACTTTATTGCTAAGAAATGCTCATGATTATCTAAGCATTCAGTGAGTTGTAATCTTTTTGCTCCT
GGTAGATCTTACCTGGATGTTAATAGCTGCTGACTGATTAGGGTGCTGGTTGCTAAAGGGTGGAGTGGCTGTGGAAATTTCTTAAAATAAGACAAGAACA
AACTTTGCTGTATCCGTTGACTCTTCCTTTCATGAAATATTTTTCTGTTGCTTGTGATACTGGTTTATAGCATTTGTCTCACAGTAGAATTTCTTTCAAA
ATTGGAGTCAATTCTCTCAAACTCTGCTGCTGCTTTATCAACTAATTTCATGTAATATTATAAATCCTTTGTTGTCATTTTAACAATGTTCACAGCATCT
TCATCAGGAGTAGATTTTACCTCAAGAAACTACTTTCTTTGCTTATTCATAAGAAGCAGTTCTTACTGTGAAAGTTTTATGAGATTGCAGCAATTCAGTC
ACATCTTCAGGATCCATTTCTGATTCTAGTTCTCTTGCTATTCTTACCACATCTTCAGTTACTTCCTCCACTGAAGTTTTCAACTCCTCAAAGTCATACA
TAAGAGTTGGAATCAACTTCTTCCAAATTCTTGTTTATGTTGGTCTTTTGACCTCTTCCTATGAATCATGAATGTTCTTAATGGCATGTAGAATGGTGAG
TCCTTTCCAGAAGGTTCCAATTGACTGTGACCAGATCCATCAGAGGAATCATGATCTATGGCAGCTGTAGTCTTCTGAGATGTTATTTCTTAAATAGTAT
GACTTGAAAGTCGAAATTACTTCTTGATCCATGGACTGCAGAGTGGATGTTGTGTTAGCAGGTATGAAAACCACATTAATCTTTGTTTCCATCAGTGCTC
TTGGTACACTGTCAATGAGCTGTAATATTTTGAAAGGAATCTTTTTTTTTTTTTCTGAGCAGGTCTCAACAGTGGGCTTAAAATATTCRGGAAACCATGC
TGTAAAGAGATGTGCTGTCACAYAGGCTTTGCTGTTCCATTTATAGAGCACAGGCAGAGTAGATTTAGCATAATTTTTAAGGGCCCTAGGATTTTTGGAA
TGGTCAGTGAGCATTGGTGTCACCTTAAGTCACTAACTGCATTTACCCATAACAAGAGAGTCAGCCTGTCTTTTGAGGCTCTTATAAGTCTGGCCACACC
AGTTTTACCATCTTTCACTTTGGTTTCTTATCTAGATGGTATTATCTATATGGAATAGGCAAGTGGGTTATTGTGAGTGACAGAAACCTAACTTGGACTA
GTTTGAGCAAGGAGGTACTTTTCAGGGAAATGATGTTTCACAAAACTGCCACRCTGCAGGCAGAATTAGAAAATAGGCCTTGGGAATTRCAGAAATAGGG
CTCCAGGTCCACCAGAATTATTTCCTCTTTTCATTCCCTCTTGGCCCTGTAAGATTGGCTTTATTTTTCTCTCTCACTGTAGCCAGTTTTCTTCTGGAAG
AGAAAACATGGATAGTGACAGCTCTTGAGCCTTTTAGCTTATGGCTTCAGCTGCTTCAGAAGAGATCAACCAAACTCTATTGGTCCTAACTCCAAACATC
CAGGGAAGGAACTTCCTGCCCCTGATCCTGTTAACTGTGGCCAGTAGTGCCATGTAAGAGCACTGAAATTTTTGGAAAGACCTTAGGGATGAAGTATTGT
TGTCAGAGGAAGAGGAGGGACTGGTAGTAAAAACAATAGGTGTACATTCTTTGTGGGCAGTGCTGGATTATATAGCTAATCATGGGGCTTGGATACTGGA
GTTCATTAGTGCATCTTGTAACAAGGCCACTTTTGGGGGTGTGGCTCCCACATGGATAATTAGCTGGATCCTGGTCTTCAGCTGTGTCCTGCTCTATCCC
TGACTAGCCATCTCACAACTGCTTGTTCCTGGTCCTGGGGGGGTACCTGCGGAGAGAAAGTGTGTGGGTGGTAGATCAACAGAAATCCCTCGCCACTGCT
AGAAAAACAACTCAAAGAACATGTATTTATGTAGATGATTTCTTATAATGTGGGATTTCCCTCTCCAGCAATTTTCCTTTGCCAACTCTCTGAAGCACAG
TTTTGGTAACATTCATATGATGCTGCAATCATAGGATACCATAAAGCTCTGCAGAGAGGCAACTCTGGTTGTCCTAGAGAATGCATTTGTCAAATATATG
TGCCTTTGGGATATATTACTAGCTATTAGCCATTATCTTTCGTAGCTTTTGAAAGCACTCCAAATTTGGAATCTAAATTTCTGGGTTTGAGTCTCAGCTT
GATCACGTATTATCTCAGTGACCTGGAGCTAGCTAGTTTCTCTCTCTGAACCTTAATTCTCAAACTTATAAAATTGGGATAGTGGTACCTGTATGGAACA
GGGCTATATAAACTGTGAAACAACAATAAGAAATGTTTCTTTTTCTTTTTGTTATCACCTGGGCCTGAATGACAGAGTTTTTCTCCATCTCTTGGCATTT
CTCCTAGCTGTGTCTGAGTGAATAATCAGGGACTTTCTCAGAAAAGAGAAGGAAATGCAGGACCATTGGTAGGAACTTGACCTTTGTTTCTATCATACTG
AGGTTAAGCAAACTCTTTATTTCTGTATTCTTCGTCTGGCATCCTTTGGGGAACCTCTTCTTGAGGTTAAGGTGAGATGAAGGCTTCCTTTGGAGACACG
TTCAGGCCAAGCTTCAYGCTCTGAGGAGTTGTTTCAGGAAGAAAGAGAGAGGAGCTATGTGTATGTTCTCCCAGTGTGAATAGGGACTAATGTGAAACAT
ATGCCATTGCCTTTAATCAGGCTATTAAGCATTTCTCAGTTTTGATGGAACCTCTATCTGAGAGGTTCACCTATAGCAGTGGTTCTCAACTAGGGGTGAT
TTTTGCTTCCCAGAGGACATTTGACAATGTCTGGAGATGTTGTTGGTTGTCATTGCTGGGTGAGGTGGGAGGGGGTTGGCAGGAGGGGTTGCCACAGGTA
TCTAGTGGTTAGAGGCCAGAGATGCTGCTAAATACACTACTACCATGCATAAGGCAGCTCCCCACCACCAATTGTCTGTCCCCAAACATCAATACAACAT
CTTCTTCTTAGTGTGGTGGTTTTGATTGTTGAGCTTTCTTTTGGTGGAGAAGGAGAAAGGATTTTTAGGCCATGATTTTTATTCTCATCAAAAGGCATAT
ATTGAGACCACTTCATACCCGCTAGGATTTTTCTGAAATTTAATTATGAATGCCATTTTAAATTCCAGAAGGGGTTGCCTTACTTTTGTTAAATACAGTA
CTCTTTATTCCCTCCTAGAAATGGCACAGATCTCTCTTGGAGAGGGCAAGGTGACTCTACTCCCCTTCTCATCCTCTTAAGAAATATCATGGCTTCTTAT
CTGTTATATATTGTCTGTGGTCTTAGAAGAAAGTCTGTGCTCCAGTTTGGCCATAAATTAACTCAGAGCCATATGTATTGAGCAATATACCCCAYCAAGC
TGTAAAACAAATGAACAAATGGAAAACAACAAAAGAAACTCCAAACCAACCAACCAATCAGAAACAGGTCACTGCCCCATGACAGTTTTGAAGTGTGTGT
GAAAGAGGAGAAAGAGCTTTAAGACTGTCCATTCTGGAGGGCAGCAAGATGTTGTTGCTTCRGGTAGCATAAGAGGGAACAGATTCTCTTCTACAATGCC
ATGTTTGTGGTTCTTGGAAAAGCACAGCAAAACCTTTCAAGGCAAACTGTTTCATCATTCTGGGATAACACCAAGAAGCTGCATGGTGCTATTAAAGCAG
CCATTCATGTTGGTCTGCCTTGTCTTCTGTAGAGGTGGGTTTTTTAAACTGTGGATCAGCTCCTTTGGAGGGTCATGAAATGCATTTAGTTGATTAAAAC
CTTAAGTAAGGAAGAATTGAAGAGAAAACATGAGTACATCACACAAATAAAGAGTACTGTTTTATGAAACATTATGTAATTTTATGTATGTGTGTATATA
TATATACACACATATATATACACACACACACATCTGGCTTGTGATGTAAAATACATTGCTTAATGTAGGCTATGATCAAAAAGGCTTGAAAATCACCACT
TTATATGCTTTTACCTTTGTTCTAGAACATAGGTCAATTGAAGCCCAAAGTGTATTTTCTGTTCTAACTCAGGGGCCTGAGTTTCATTACCTGCTTACCT
GCTCATTCCTAAACCAGTCACTACCCAGGACAGTGGATGATTTGCTTATACGAATCTACATTCACCCACAGGGGAGTCTGGAGAGCTGCCTGGCCTCCCC
AGCATGCATGTTGTCAGGGAAGGCTGCTGCAGAGAAGGCAGCCAGCACAGCCGCCCCAGGAATGGCCTGTGGGGATAGAGAAAGTAGCATTAGTTTAGGT
ACAGAGACCAAGGTAAACACCCAGTTATGGCAACTGGGGCTGGGGCTTGGGGAGAAGGTAAAAGACCAATAGTTAATCAGGAAAATTCTTTTGAGCTTAG
AGTAGCAGTGTGGTTAACCTGGTGTTCCATTGCCAAATTTAAGCCTGGAGTTCTTTGAACACTGCCAGGCTTGGTCCAAAACATTAATACAGCCTATAAA
ATTTTCCTTCTGTGACATTTCCCAGTCTCTCCAGATCTGTTCATTCATTCATTCATTCATTTATTTTTGAGACAGAGTCTTTCTCTGCTGCCCAGACTGG
AGTGCAGTGGCATGATCGTGATTCACTGCAGCCTCTATCTCCTGGGGTTRTGATTCTCCCACCTCAGCCTCCCAAGTAGCAGGGACTACAGACACATGCC
ACCATGCCCAGCTTATTTTTATTTATTTTCATAGAGATTCGTAGAGATAGGTTCTTGTCATGTTGTCCACGCTGGCCTTGAAGTCCTGGGCCCAAGCAAT
TCCTCCAACTTGGCCTCCATTAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCCTCTTCGGACTCCTTACTGTCTACTCTCCCCTGATTCATT
AGGTTTCAGCCACACCAGCCTTGTTTCAGTTTTTCAGATATGCTGGTTTCTTTTGTGCCTCAAGACTTTCTGTGCAGGCCTTTTTCTGCATCTGGGATGT
TCTTCCCACATTGTTTCCTCTGACCTACTCCAGCTTCACTTTTTAGCTCATCTGCCACTTCCACAGTGAAGCTTCCTTCCCTGACCTTTCRCTTATCATA
ATTGAGACCTATTTAATGTATGTCTCTTTCATTAAGTATCGCAAGGACAGCCATGATCACCATCTTCTCTACTGTAATGCCAGGGCCTGCTGCATGGCAT
ATGGTCAGAAGTATCTCGATTGTAGAGTAAGTCTTGGGCTCTGGGATGGAGCTAAGCCTGATGGCATCAAGGGGCCCCGGCAGAGTAGGTGGGGAGGAAG
AGGCAGCTTGCAGCCATCTGGGCTGGGCTTGACATCTTTTACACCTTTCCCAGCCTCGTCCTCTTCCCTCAGATATATTTCCTTGGTCAAGTTGATTTTC
TTTGGCTTATCTCTATGTGAACAGTTTAATACACAGGGACTTTTTAAAAAATAAAATGAAGTAAAGTCTCCAGAAATTGATTCCCAAATCAAATCACACT
TCAGTAATTTAAAAGAAATAGAGAGCAAAACATCATGTGTAATTCAGTAGATTTTTGATAGATCATAATTACTTACACATGTGGCTACACCCCCTTTAAT
TTGGATATCCAATTATTAGGTGTCATGGGCCCAGTCACAGCTCCGTGGATGCGTCTGTGGATGAGTCCAACTAATCTGCAATTGGAAATGTATTAACACC
CACTTCTCCTTGAGCGAAGGGCATTTCTAGAGCATTACTGTTGCATATTGTTCCAGAAGGAGCCATAGTGTGTGGAAATGGGAAAGATGGTTTCTGCCAT
CAGGGAGCTGGTTTTGAACTGAGTTACGAGGATCTAACTCATTAATGATCAGACCCATGTTCTAAGATATAAGAACTGTATGTAATTGGGAGTTAAACAT
AGAGCAGCTCTCTGGATGTTGAGAGGAAGGGAGATTGGTGTGAGCTACAGAAGCATAGCACCATCAGGGCAGGTGTTGGCTCACAGAGTTAGAGCCAGGA
GGGGTCTGAGAGGTCCGTTTATCTGATCATTTCATTTTATAGATAAGGAAACTGATATATTATTTCTCTTCTTCCTCTGTAACACCTAATTATTTTCTAT
GAGCCAAACTGTAGTAGACTTTTTTTTTTTTTAAAGTTCTTCCTCATTCAGCTTCCCCAGTGGCACCAGTTTTCCCTTTTGGGAAGATCTTATTGTGTGT
TCCTCGGGGGGAGTCTTGCTCACCTTGGAAGTGGTAGGGGATTTGGGTGCAGGGGGACTTAACCTTGACCACACGCTTCTTCTGACTTTACTCTTAAGCT
GATGATGCAACAACAGCAAGACAGTTGATGTTTATAATCATACCAATAGCCACAGTGGCCTAAGAATCAGATTTCCCAGAATCTCTGACCTTTGCCAAGT
GTATTAGTTTCCTATAGCTTCTGTAACAAATGACCACAAATTTGGTGGCTTAAAGCAACACGTGTATTTTCTTACAGTTCTGGAAGTCAGAAGTCTAAAA
TCACTTTCACTAGGCTAAAATCCAGGGTTGTGCTTCCCATCTCTCCTCCCCAGAGGCTTTAGTTCRKTTCTTTGCCTCTCCCAGCTTCTAGAGCTACATT
CTTGTGTTCTTTGGCCCTTGGGCCCTTCCTCTATCTTCAGAGTCAGATGCAGAATAACTTGCTTCTGTCCTTACATTGCCTTCTCTCTCTCTAGTCAATC
TTCTGCCTTTTTCTTGTAAGGGCACCTGTGATTGTGCCTCGAGTCCACCTGGATAATCCAGGTTATTCTTTCCACCACCAGATCCTTAATCCCATCTGCA
AAGTCCCTTTTGCCATAACAGGTAACGTTCACAGATTTCTCAATTAGGACCTGGATATCCCTGCCCCAACAAGGTTTCTGCTTTCCTCTTTTCCCAGCCT
GGTCTTCCAATATCCCCTCAATTCTGTGAGTTCCTGGTATCTTCTCAGTATACCTTTTTGGAGGGAGGGAGCTGATGGGTCTGCAGTTTAAGACAGTTGA
AATCTGTTTCTGTTGTTTATGACCAGGAACCTCCATGGTAAATCAGTGCTATGTGCAGAACTTTACAAGCATTATTTTTTTTTAATCCTTGTTTTAACTT
TCTTAGGAAGGCACTATCTCCTTTTTCCAGGTAAGAAAACTGTAGCTCAGAGTGGCAATTTCAAAAAGCCTGACAGCTAGTATAGGTGATGGAACTGGGA
TTTGAAACTAGCCAGTGTGACTGAAGAGCGTGTGCCTTATCCCTTTCTCAGAATCCTAGTTCAACTAGCTTTTGGTCTTAGACCTTTTCCAAGGAGGAAG
TAGAATGTCATCTGGGCCCTGAGGTCTGAATCAAATTGTTTAGGCAGGGGAGAGAAGGCAAAGGAGAAGCATTCCAGGTAGGAGAGAGGCTGGAGACTAA
GAAGTGAATCCAAGAGATTTAAAGGAAGGGACATGACAGGTAAAGTGGAATGACAGATAAAGGAACCAACCACGTATGGAATGCTTTTGAATGGACACAG
CAACTCATTTATGTCAACTACCCATGGGAATGATATTCTGACTCAACTTTGTGTTGGAAATTCAGCTTGTATTAGGTCCCTTGCTGCCTCCTCATGGCCT
CCTCATCACATGGGCTGGTTAAACATCTAACATCCTTTGCTAGTGTTAGCCTTTTCTCACAGATGCTGATGAACAGCCTGTCTTTCAAAAACTTAACAAG
GTTCTTTGTTGGTATCGATATGGGTAATTTCTGGAGCTTGGGAGACATCCTGGACCTAATGGTGTAAGATCTCTGGCTTGTGTCTCCTTTCAGAAGAGAA
ATTGGAAATTTTTTTCTAGGGCTGGGACAATGACTAAGAAGGGAGCTCTTTATCTGGTGTTTTCTGGTTACTACTTAAGTGTAACTGATAGATTTAGCAA
ATGAAAATATAAGACATCCAGTTAAATTTGAATTTTAGGTTTCAGATAAACAATGAATATTCCATGCATTGTACAAAYATTGCACTAAAAATTATTTATC
TGAAATTCAAACTTAACTGGGTGTCCTGCATTTTGGCTGGCAACCCTGAACCTATGACCACTGTTTCAGGGTATTTTCAGGCATAGACTTGTACAGTGAA
TGTGCCTGTGAAAAGATATTATAGACCTGGATTGACAAGGAGGCTAGGAAAGAACCCCAAGTTCAAAGGGARTGCAAGGTTGGAGAATTCTTTGGGCGAC
TAACTTGGGGAGAGATGATTTGGTTCTCATTGCCCAGAGCATTGCCTCTGTCTTCTGTTCTGCTGTGCCACTGTGCTATGGCCACRATGAGAAAGACTTG
TGCTGCATCATCAGGATTGTATCAATCTCCATTCTCTTCCTATTTGCTGACACCTAAAAGTAAAAACATTCAAGGTAGGGTTGAGCCATGATCTCTAACA
GGAAATAGTTATTGAACTTGACTGTGTGCAGAACATGATACCTGTGCTGGTGGTGGTCAGAGGGCTGAGTGTACTCTCCAACTGTCCTCTGTTGTGGGGG
CAAAGTGGGCATTAAGCACCCCCCTGTATACAGAGCTTTCCACCGGGCTGTGTGCCTATAGTGACAAAACAAATGGAAAACACGCTTGTGCTCTTGAGGA
GCACAGATATATGCCTCTTGGGACAGCAGAGAGCTTAGGCTTTTATTAACTCAAAATTGGAGTTATTCTCAGTGGCCCCACTCTGATTTTGTGGTGTGTG
TGTCTCTCCATGTGTGTATATAGAAATATTGCAGCAATCATCACCTGCCATTAAGCTACTTTTGTACATAGTAATTAGGAGAGGTGCATGGAGTCTGGTC
CTGAGAGTGAGATATGGCAAGTGATCTGTGGCGCTTGGTAATTTGTGGCCTTAGAATGAAGGGAAGAATGCTCACTTGCCTGTTTGGGGATGAAAACTAA
AAAATCTTGATATTTTTTAGCAACACACTGGACTAAGGAACAGTGGACCCTCCCAGCACTGGGCAAACATTACACAGCGTAATGGCAGGGTGGGGAAAGG
ACTGGATTTGACATCAGAAGAGAACTGACTTTAACTCCTGATCTTACCATTTATTAGCAATTTAATTTTTTCTGAGCTTTGGCTTGCTCTTTTATGAGAT
GGAGACAATAGCAATATGAGGAAAATTTTGAAGATTTAATGACATACCACTTGAAAATGCTAACTGACAGCAAGCACCTTGTATTTGTCACTGCGGTGTT
TCCCATTCTCATAGCACTTTGTAACTAACTCTGTTATAATGCTTCATGGTGTGTTATAATTATTTCTTTTATGTGTCTGTCTACTTCCACTAGACTGAGA
ATCAAGGGCCATTTTCAACTCTTTACTTTTCCAGTAGCCTCCTGATTAAGCCCTGGTACTTACAAGGCCCATAGTTTTGCTGAGCTGTGTGTACTTCAAT
ACTTAAGCTTTGCTAGGAGGCAAGTCTTTAACTTCTGAGTTTCCATTCTTTCCTCTGTCTCTCTAGCTCTCTTACTGAGAACTGGGAAGATCCCACGGGA
CAGGATCTGTCCAGTCCTCAGTAAGAGTCTTTCAAGAATATTACCATCTCAACACCAGTCAGAATGGTGATTATTAAAAAGTCAAGGAAAAACAGATGGT
AGAGAAATAGGAATGCTTTTACACTGTTGGTGGGAATGTAAATTAGTTCAACCACTGTGGAAGACAATGTGGTGATTCCTCAAGGACCTAGAACCAGAAA
TACCATTTGACCCAGCAATCCCATTACTGGGCATATACCCAAAGGAATATAAATCATTCTGTTATCAAGATACATACACATGTATGTTCATTGCAGCACT
ATTTGCAAAAGCAAAGATGTGGAATCAACCCAAATGCCCATCAATGATAGACTGGATAAAGAAGATGTGGTACATATACACCATGGAATACTATGCAACC
ATAAAAAGGAATGAGATCATGTCCTTTGTAGGGACATGGATGGAACTGGAAGCCATTATCCTCAGCAAACTAACACAGAAACAGAAAACCAAACACTGCA
TGTTCTCACTCATAAGTGGGAGCTGAATGATGAGAACACATGGACACAGGGAGGGGAACAACACACACTGGGGCCTCTCACGGGTAAGTGTGGGGAGAGG
GGAAGGGAGAGCATCAGGAGAAATAACTAATACGTGCCGGGCTTAATACCTAGGTCACGGGTTGATAGGTGCAGCAAACCACCATGGCACACATTTACCT
ATGTAACAAACCTGCACATTCTGCACATGTAACTCAGAATTTAAAATTTTTAAAAAAGAATATTAGAAGATCCTCATTAGACTCTAAATGCTTGAGTATA
GATTCCCAGTATTCTCCTGTGTACTCAAACACATGTATGTTTGAATAGTATCCCAGCTTGCTACCCTATTCTCAGTAAGTTCTAGGATTTCCTTGATGTT
CTCTCCTTTTGACCTCTGCTTCAACAAATTTATTAATTTAATCAGTGCAATTCAAGTTCAATTCATCAAGCCTTTATTGAGTGCCTCTTACTTGCCAGTC
ACTGGGCTAGGTTTTGGGGGTAGAGATGAGTAAAATGGTGCCTCCATTAGAAGTGTTTCAGATTTAGTGGGAGAGACAGATGAGAAAACAGAATTTCTCT
AGGATGTGGTTAGGGCAGTGATGGAGGTGGACACGTTATGGGAGCACAGAATAGGGCTATTTTCCTTTATTGTCTTTTTCCTCTAAGAATTCCATTGTTG
RCCAGGTATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCAYGAGGTCAGGAGTTCGAGACCAGCCTGGACAGCATGGT
GAAACCCTGTCTCTACTAAAAATACAAAAATCAGCCAGGTTTGGTGGCATATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAAGAGAATCGCTTGA
ACTCAGGAAGCGGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGATGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAGAATCCCA
TTGTCCCTGCTTACTTTCTAACAGGTGAAYGGGGAGCCGGCTGTCATTCCTGCCTCAAGGAGTATTGGAACTGTGGGAGTTAGGAAGCTGCCAGTGGCCA
ATGTGCATCAATTAAAGACCCAGTTGGTAGCCCTCCTGCACTGGRGGACAGAAAAGAACACTTGGAGGCCCAGGACAGCACAAGGCCACAGGCTGCATGG
CCCTGGCTGCAGTGTGGTTGGGAGAATTTGGGGAGCAGGTAGTTTCAGCCAAAGACTAACTTGGTGACATGCGCATACCTCATGGCTGGCTCTGTGAGAC
CCCTGCAACAAATGCCACCTTTTTCCTTCCCTTTTTCAAGTTAGCTTTGCTTTTGTTCTCTTTCCCATTTCTCTGACATTTGCTTCTCCCCCCAGTTCTT
ATTTATTTCCTTTGTTGTTTATATCCCTACATTTTCTTTTACTGCTCACTCTTCTATCATCTTATTCTTCTTTCCCTCTACCATTTTTCCCCTCTACATT
TGAGCCTTCTTTGCCTTTTAATTTTATCTTTCTGCCTCTATCACCATGTTCTGAAACATAACTGTTAAACTCAGGGTTGGAGAGGAAATTTTCATTTCCA
ACAGGGCTTTTTATGATATGAAAAGAGTGTCTCATGTGTATCTGAGTATCCTAGGAAACAGAAGTCTAATTTCTAACTCATATTCTGCATACTGTGTTTG
AAAGACATCATCATGAAAGGAGAGTCTCCCACCTGGGCAGCACAGGAGACTGTGCTGTGCACCTTACCTTTATTACAAGAACCAGCCAAACAATGATTCC
TTCTTTTTTGTGGTTCTCTATCTCCACACCTATCCTTGAAGTTTCTCTTTATCTCKCTCTTTCTCTTTTTCTATTTCTGTCATATTTTTCAGTTCTATTT
TCTATGTTGCTTCTCGTTCTTTTTTCTCTTTAGTCCTTCCCTRCTTATTAGAAATTATATGACCCCCTCCTTAATGTCTTTCCTTGGCCTTGGAAGATAG
AGTCAAAAGGAGTGTGGAAGACTCCACTGCCCCAAGTCCCCCCGTTTCTGACGACGGCATGGAAGTGTGACTCAGGAGAGATGGGGAAGATTCAGAAACC
TTGTCTAGCTCTTGAGATTCTTTATGAGTAGGATTTCTTTCTGCTTCTTATTTTTAGGTAGTATGAACGTAGACTCAGAGAATCTTAAAGTTGACAGGAA
TCTCTATTGGTTGTTTARATAACCTTTACCCCATGTAGGATCCCTCTTTACTTCCTAATGATGCTCTACAGGTAGCTCCCGGATACTTGGAGTTTTGGGA
AGGGTGCCAGCACATGAAKCCGTCCGCTTGGCTGTTGGCAGCACTAATTGTGTCAGTTACCGCTTGCGATTCTGTTGTCCTGGTCTGTATGATTTGTACC
TAATGATTGTATRTCTGCTTCCGAGGGCCATAGGGCATGCACTTTCCATACAGTTCTTTTTCTGAGATTGAAGACACGTCAAATAGTGAAGGAAGTTCAG
GTACCTTCTTTAATACTTGAACTATTTCAGAGAGGTTCCATCAGAAATAAACAAAACAAGCCATTTTTGCCACCCTTTGACTATAGAGGAACCCAGTTTT
CTGAATGCCTCATTTCCTGATGGTTCTGAGTAGCTGAGATTGTTCTGGAGGGATTATGGGTGAGAAACTTCCTTTCATTCTTCACAGAAAGAAGAATAAA
ATGAGCAAGTTTTAAATTAAGATTTTATTAATATTAGTAAGCTTTGCATTAGCCACAATGTCTGTGTGTACATTATAGTTTATAGAACACTCTTAATATT
AAATACCATGTCATTTTATTTTTATAACTAGACCACGATACCCCCTTATTTTAGAGATGACAGAAGTGGGGTTCATAGAGGTTGAGAGACTTGTGTTGAG
TTACCCCATTCTCAACAGAGTGAGTCAGACTTAAACTCAGTTCTTCTGCTCTTAATCTTCTGCTATGTCTTTCATAAATACATATATGTCCTTGTCTCTC
CAAAGTCCCTGCAATGTCATGAGATTATAGGAAATAAGTTGTCTCCTTGGTGTACACAATCTAATAGAATTATGGATTTGTATGTGTGTGTATTTCTGGA
TTTGGCTGTGGAACATGGAAAAATAGGAAGAAATCCAATTAGGGTCAAAGAGTGGTTTGTGCAATTATAAAAATACTGATACTATGTGAAGACCATTGAA
ATTCTTCTCCAGTTGCAAGCATCAGCATAATTGATTTGTTTGGTAAAAATTCTGTCAAGGTAGAGATGAGTGAGTTACTTTTTTACTGCAGTTAATCCAG
AGAAATTTCCTGAAGGAGATAGACAGGGGAACCTAAGAAAATTTTGAAATAAAAAAATACAAGGGCCTGGTGGGTTGGAAAGAGGGGAAGGAGTTGAAAC
AGGGCAGAGAGGAGAAAGGGGACAAGTGTTGGGGACAGGAATGGGACAGATGTTGTGGCCCTTGTGTTTTGCTTGGGATTTGGAACTAGGGTTCTGGTAT
GATGATAAGTTTTCCTTCTTTGCAAAGTAAAACCCAGATGGCTAAATTTAATTCCACTTGGAGCCACTGGTGATTCACCCAAGCTCAGGTGCACCCACAT
ACAGCTGGCGTCAGCGCTGTGTGCTTTCCAGGCTGAGCTTGCCTCAGCCCCGCTTCCTGCATGGAACAAGAGGGGAAAACCAGACTGGTAACCTTGACCC
TTCTGTGTCTCTGTCTGCAGCATCCTGGCCACTGCAGGAACCCACTTCAATACTCACGTGGACCTGAGGACCCTCCGGGCTGTGCGTGTCCTGCGGCCTT
TGAAGCTCGTGTCAGGGATACCTAGTGAGCATCTGCCATTCTTTCTGCTCTGCTAAGAACTTTCTTCATGTGTCCTCAGCTGGATCCAGGTCTAAGGGAA
TTTGGGATAAACAAACAATATTCCTCCTGGGAGGAAGCCTCAGTGGTAATAAATAGTGGAGATGGAGCAATCTGGTGTAACATTTTACTTTACATTTAAC
TTTTTGCAAATATAAAAGATAATAGAAAATCTTTACAGAAAATGTGGAAAGTAAACAACAAAAAAGAAAAGTGCTCTTTATCTTATCACTCAGAAATCAC
TTTTGTTAAAATTTCAATATTTTTCATTTTTCCCCTGTGCATTTTAATATAATTGAAATCGTTATGTAGATTGTAGTTTTATATCCTGAAATAAGTATTT
TATTTTCCTAACCTTAAAAATTCTTGGCTGAGTGCAGTGGCTCACACCTGTAATCCTAGCACTTGGGAGGCTGAGGTGGGTGGATTGCTTGAGTTCAGGA
AGAGTTTGAGACCAGTCTGGGCAACATGGTGAAACCCCATCTCCACAAAAAATAGAAAAAAGTAAAAAAAATGTAGCTGAGCATGGCAGCTCACTCCTGT
AGTCCCAGCTACTCAGGAAGCTGAGGTGGGAGGATCACTTGGGCCTGGGAGGCCAAGGCTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTTGGC
GACAGACCGACACTCTGTCTCAAAACAAAAAAATTCTTATATGTGTTATGATTTATTTAGCCATTTTTATGTTTTATGTTGCTGGATGGCATAAAAAATA
AAAATAGGCTATTTCCAGTTTTTCTCCAACTATAAATGTGCTGCAACAAACACCTTTTTACTTAAATCTTTATTCAAATCTCTGACTGTTTTCTTGGCTA
GAATCCTAGAAATGCAATGTGTGGGTCAAAGGATATGGCATTTTCTGAATAGTGCTTGTACTAATTGTGCTTCCCCAACAGAGACTGAGAACTGGGTCTG
AGATAGAGTGAATGGGAAGATGAACTTTATCCCAGCTCTTGAAGGATTTACAGCCTAGCAGAGCTGGGCYTAATTTCCTTTAGGAAAGGAGCACATTCTA
ATAAATTTAATCTATCAGAGGCAGACGGCAGCATGGATGAAACCAATGAGGGAATGAAACTAATCCTCCCCTATCAGATGGTGCTGAGGGACAGCTGCAT
TGGTCATTCTCTGTCCTTCCTTCTAGGCCTGCAGATTGTGTTGAAGTCCATCATGAAGGCCATGGTACCTCTTCTGCAGATTGGCCTTCTGCTCTTCTTT
GCCATCCTGATGTTTGCTATCATTGGTTTGGAGTTCTACAGTGGCAAGTTACATCGAGCRTGCTTCATGAACAATTCAGGTAGGGTCGTTCTTTTCTGTC
TTCTCCTTTTCCCTTCTCCCCTCTGTTAACTGGGGTAATTTCAGGGCACTTGGAGGCTCATTGGAAAAGTATGTCCTATTCTGACCCTGGAATTAGAATC
AGAAGCTTCTAGTCAGCAGCCTTTTGAGGCACAGTCAACCAAGACTAGATATCCTCACTTGACATTAATATTGCAAAGCAAATATGTAGTTGGAAGATTT
CAAATAGATGGTCTTGGCTCCCCTATCCCATGGTCAAGGGCCATGGGAATGAACTTGAAAAGCCATCTGTCTGAGCCAGGCATAGTGGCACCCACCTGTA
GTTCCAGCTACTCCCTGGAGGCTTAGGCAAGAGGATTGTTGAAGCCCAGGAGTTTGAGGCCAGCCTGGACAACTAGTGTCTCTCTGTCCCTATCTCTCTG
TCTACARAAAAAAAAAGTGCAACCTCTCTGAATATCTGAATCAATACCCCTTTACTCTTTGTACAGCAGCCTCTGACTGAATAAATAAGTACTTTTTGTA
TAGTGGCCTCTCTGGCCCACAGGCTGGTGAGATCTAGGAGTCCAGAGTCAGAGTTGGGTCCCTCCGGATCTGTGGAGACATTTTCCCTTCATGATCCTTC
TCACCATCTTCTCGCTCTCTGTTTTGACCCACACGTGGTATGGAAGAACTGAGGGAGCTCTGAGCTTGGTTTGCAAGTGTGCTTGGGAGATTGTTAGGGT
ACACAACCCCAAATTCTCATATCTTTGTATTTCATTTGTTCTTTTCAAGTTGAGTTGAGTATCCTAGGAGGAAAGGAGATGGGAGGCAGGCTGAAGAATT
CCAAATAAGTACCATGCTTTTTATGAAAAGAACCTTAAAAGAACACTTTCCACCTTGGATTTCTATTTTTTATTTTTATCTTTTATTCAAAACCAGGAAT
CCACGCTGGAAAAACAAGGAGTTAAACCCCCCTAAAAGGACCATAGTTTATAACTGTCCCCAAGAAACCCAGGAAGAACTCAGGGCTCATCCTGGAGTCT
GAAGCCAGAAAACCTCACTTTGCCTTTTCCTCAAAGTGTGCCGTGTGATTCAGTCCTCTTAATTCCTGTGGTACTTCAGGTGAGGGTAGAGGATGAAGCT
TGCAGAGAGCAGGGGACTATGTGGAGGAGAGGCTCCATTTTTCAGGAGACTGGGAAACATTGGATKGAACACATGATATGTGAGCTGGGAGGTGCAGAGA
GGCCAGGGAGGAGAGGGAGCCTGAGACAAAAAAGGGCAGGCCTCTTTCCGTGGGGGAATGGAATTGCTTGCCTATGGCTTCCTGGGGTCATTTCCAGCTC
ATGCGAAACACCATGTGATTTATCTCCTACCCTCCAAATGTGTCTGCAGGTATTCTAGAAGGATTTGACCCCCCTCACCCATGTGGTGTGCAGGGCTGCC
CAGCTGGTTATGAATGCAAGGACTGGATCGGCCCCAATGATGGGATCACCCAGTTTGATAACATCCTTTTTGCTGTGCTGACTGTCTTCCAGTGCATCAC
CATGGAAGGGTGGACCACTGTGCTGTACAATGTGAGTAGAGCTGGTGGGGACCTGGAAGGAGGAGGGAAGAACCCTGGATGGAGGCTTCTGTGGTTGTTT
GGCCTGGCTAGTCCGGGGACAGGGAGGGCTATGGATATAGGTGTATTGGGATGGGAGGTGAAGACTCAACTGGGATAAGCCTTAGCAGTTCATAACCCTC
TTTTGTCTGGCCTGTTGCTACGTACAAGTACACAGCTTCTTAATACGATTAGGAAATTACATCCTATGTTGGATAGGTGAACAAATTAGTTAAGTCAGAT
CAACTTAATAGTTACAGAATATGTTGGTTGGACGTGGCGGTAGGGTATAGTGAAGGGTACTAATGTATGATACTGGCTGCCCAGTAGAATTAGCTGGAAG
CCTTAAAAAATTTTATCACCCCCTCAGGATCTGGGAGAATTTACTAAAAAAGAACAAAAAGAAAAGAAAAAAAAATTATACCAACTGAGCTCCATCCCAC
ACCAATTAAGTAGGAATATTTAGGGGTGAAGGTCATTTTAGAAAAGTCATTGACTTTTCTAAAAAGCTTCCTATCTGATTCTCGTATGTAGCCACTGTCA
AGAACTACTGCATTACACACACATAAAAAGCATGCTTAATTGTGAGATTCACCAGGGGTGCTTGTTGAAAATTCAGATTCACAGACCCCTTCTCTGGAGA
TTCTAATTTTGTGTAGCTTTGTATAGCTAGTGAGCTGTGCTTTTTTCAAGTGCCCTGGTGATTCACATGATCAGACATGTTGAGAAGGTTCTGAGTTGGT
CTAGCTGCCTGTCAGGGATGTTGGGGATTCCTGCATGGGGACAGAAGGTAGGGTGATCATGAAGTCTCTTCCATCTTCCAGAGTCTAATTTTAATAAGTT
AKCAAAGGCTTGGTGCAGACTCTATGCTCAAAAATGAGAGTGACTTGAGGTATGTGGTTTGATGTACATGGATCCTAGGTGGGTAAAGCAGTTTGGGCAG
GTGCTTTTGAAGGACTGTACCCTTACCTGCATTCAGCCAGCCCACCCCAAAACAGTAACTTTGGAATGATCATGCCTCTTATGCACGCTCCCACCGTCTG
CCTTTACCTTAAGGTGCCGTCTGTTTCCTTCAGTTCTTCTCTAGATCTTTTTAGCCTGATTCTATCTGTATAAAACTTATTAGGTGGAACATAAGGTGGC
TTATACAAAGCACCCTTTAGAAAGAGCTTTGGATATAATTTACACTGGAGGGAAAGGAAATGCTGTGTCTCAGAAGAAACTCGACGAGACTATAATGCCC
AAAGAGCAAGGATTGTGTAAGGCCTGTAAAAGGAAGTACTTAGTAGAGGTCCATTGCTAACCTGGATCCATTCCCACATAGGATGAGCAAGGCAGGACTG
AAGCTTTGCAGAAAAGAGTCACTGGCTATTATGCTAAAGCTCTAAAGGGCAGTGAAGAAGTCCCAAGGACCAGCTTACACCCAGCAAGCCCAGGGATGAA
GTGTGACCCAGAAAGCCCTGGAGGACACTCTGCAGTTCTCACCAGCTGTGGGARGCAGCAGGAAGGAGGGGAGGGAGGCAAGGTTGATGAGTGCAGTCAC
TCCTCATTTGAGATGTAAAGGTTGTCTTGAGGCCATGCCACTCAAATTAGCCAGGCACCTCTAGGAATTGCAGCACTGGCCCTGCAGTGGCTGGTGTCAC
ATGGAGGGCTTTGAGAGTGATGCATTTCAATTAWATGTGTAGACTCACCTAAGTGATGTGATAAATGCATTGAAAGCCTGAAAGGAGAAGTGTTGCATTT
GAGGATACAGGCGTGATTGTTGGTCCTCTTTAGCCAAGATTCAGATGGTACTGAGAGGAGAAGGAGCACAGCTGAAGAACCACTCATTTTTTCTTTATTA
GTTTCTTTGTTCATTCCTTCATTCTTTCTGTGTTTATTAACTGAGCATCTATTACATGCCAAGCACTGTCCTAGGCACTAGGGAAATAGGGAGAAAAAAG
TGCCATGATTCCTGCTATCATAGTGCTCTCTTCAAATCCCTCTCTCCCCAGTTACCTGTCAACCACAGGTTTAGAAGTTACACACAGGCAGAGATTTTGC
TCCTCTCTCTAGTTTTGCTCACTAAGGAGGGAAGGAGGGAGGGGAGGAGATCAAGTTGCAGATACTTTGAAACCTTTTATTGCATGGGTGTCCAGGGCCC
ACAGACTCACATACTCTGACTTCCAGCCTGTCAGTCATTGAACTTGAGTTTACTGAAGGCCTCCTGCTATTCTGATGGCTGGATTTAGGGCTAGGGGGAC
TGTTACCCAAAGACTGTCTACCTGTTTGGACTGTCTGCTACCTGTTTGGACTGTTCCTACACACACACACACACACACACACACACACACACACACACAC
TTATACACACTGGTTGCGTACCATGAAGTTAACTATGAATGACTAGTCAGCTTAGTATTATAAATACATGTATACATATATATGTGTGTGTTTCTGCATA
TAGAAAAATGACTCACTAAGCATCACCACAACCACCACCAATAAGATACAAATATAAATATAACTGTATTGATTTTCCTTTCTACCACTCCTCATTCTGG
GAAGGCCCAGTTCACCCAGCTGCTGGATTTGTTCATGAAGAGCACTAAGAGAGGGGGATCCCCTATTTCCCAGCCCTATGCACCTTCTATTCAGTGGTGC
AACGAACATGTAAGATTTATTGTTGTTAGTTACATCCAAACCAGTAGGAGAATCTTCAGGTTTACCCAGTAGGAAGAAGCTCTCAAGCATGTGGGCTCAG
TTTAACCTTTTTATATGCAATGTAAATGCTTCCCTCATGTTTGCCTCCCTTTTCTGTAGCACAGACTCTTCCTAGATGCCTCCCTATGACCTTGTGTTGC
TCTGCCAATGATTACTATTAACTTCATTTGCTTGTGGCTTTTCTCATTATAATGAATTGTAAGGGGGAGGGTTCCCATTGTCAAGGCAACCTGGAGTCAC
CTGTGCTTCATTTAGTCTCTATCCAAATGTCAACTGCTTGGTCAAACTCCAACTATATTCTTGGCTTCCCTCCCTCCTCTGGTGGAAGGAATGCAAAACT
GTCGACAGTTCTGGCTATTGCTACCTGTTTGCACTGTCTGTCCCAAAGGTCTCCTCGACTTGCAAACTCTCTTCTTTACTTATTTCTCGTAACCTGATAA
GTATGTCTTCCACAGTACAATGTGTTCTCCTTCTGATCAATGCTCTTCATTCAACAAATGTTACTGTGGCTCGCTAACCCTCTTCACCTGGGCTGGAGGT
GGCTGAGAGAAGTGACTTTCTTCTGATTCTGATCTGAGTCTTATTTCTCTTTGTCATTATAGTTTTATGTTATCTGCTGATTCAGTTAGCTCTTTTATTG
TATCAGGACTAATTCCCAGATTGCAGAGGTTCCCAGTCCCTGTCTGCAGTTACTCACATCTTTGCTCCTGAAGTCTAGTATGTTTCATTTGTATTTCTGT
AGTTGGAGTTATTTCTCKTCTTACTTACTGTTGATAAACTCATGTAGAGGCAGAAATTTCTTGGAGGTGTACTGTTTCTGCAGCTTTGCAGGTATGCTTT
CCGCATCTGTTGTGACTACTTAAGATGCTCCAAGCTGCTATGGTGGAAGGGGTTTTATGGACTTCATTGGCTTTTGGCAAGAAGAGGCAACTKAAAGTCT
GGATGCTTTCTGAGAGTCTTCCCAACTCCTCAGAAATCTTTTGGTCTATAAACAATGACTGTGGCTGTCTTTTAAGTTGCCTTTTCACAGCTGCATATAG
TCAGGATTTATTAAATGGTTAACAGCTATTCACTTTCTGTCTCATTGAGATTTTGCTTTATGTTCCTCTATGAGCATGGTGAGGCATAACATCCATCTCG
CAGTTGATGAAAAACYACCATTCTCTTTATGAAGTTCCTCTCATTTTGTGGTATCTACAGAGAATGCTTTGGGTTCTGAGATCCATGAGACTAGGGAATG
TGGCTTCCATCTTTGCTTCAGTCTTTTCCTACCACCTCCTCCACATTATAGTAGAACTACTCAAAACTAATTTGACAAATAGGTGGCAGGAGTCTATGAT
TATCTTATGGTGCTAGAGTGATAAGATGAACCAACTGACCTAGGATCAGGTGTATAGTTCCTAAAATTTGTAGACACTGTAATTGTGACTGGTATTGTAG
ATACTGTAAGTGTTACTGTAATTGTAATTGGTATCCAGGATCACTCATGCTCTGGAATAAACTGGTCCCCCCCCYGCCTCAAACAACCCCATCTGGACTG
CCCTGTTCTTATGTCCTTGCATGAGTCTGGGATCCTGTAATATAGGTGATGCTTGGAATTGGATACTAGTATCTGTTCATCTGTTACTTATCCATAGAGG
GATTGGTAAGTGGATCTTGGAAGTTACTTTCTTTTTCCCATGACGGCTGGGAGGTGAGGTGTATGTGCTTAGTGAGGAGCTATGATAACTTCTTTTTAAT
TGGCAGAACACCTTGCTTGTCAGGCTTTTCATGGAGAGGAGAGAGTAGAGGGAGAGGGAAACTATTTCCTGAACTCAYAGTAAAGGCTTTTCCCCTCTGT
TTACATTCATACATAAGTATAGATTCATTCACTAACTCATTCATTCACCAAATAATTTTTAAGTGGCTACTATGTGCCAAATACTGTTCTAGATGTTGGT
GATACAGTAGAGAGTAAAACATAGGAAAGTCCCGGCCCTCATGGAACTTATATTCTAGTGGGAAAATGCATATAGAACATAAGGAAAACATATGGTATAT
CAGATAGTGATAGATGCTGTGGAGAAAAAAAATGTGGGGAAAAAGAGAACTTGGTTGCAATTTTAAATGGAGATGTCAGGAGGACCACATTGAGAAGATG
GCATTCGAACAAAGACTTGAAGTGGGTGGGTGAGGGAGTGGGCCATGTGGTTATCTGGGGGAAGAGTCTCCTGAGTCCCAGATAGCTGGGCCAGCAAGTG
CAGAGATCCTGAGATGGGGACGGGCTGGGTGTATTTGAAGAACAGCAAAGAGCACAGTGGGTTGAACTGCAGTGAGTGAGGCGGAAAGTAGGAGATGGAA
TAGTCAGTCAGATCATGTGGAGCCCTGAAGGCCATTATACAGACTCTGGTTTTTACTCTGAGTGAGATGGGAAAGCAATGGAGGGTTTTGAGGAAAGGAG
TGACATGACCTGACTTGTGTTTGAAAAAGGATCACTCCACCTCCTTTGGTAGAGCAAAAGTAGAAACAGGGATTCAAATCAAGGTTATAGCAAGGATATA
AAAAAAATGATAGAGGCTTGGGCCAGGGAGGTAGCAGCGGAGGAGGTGAAAAGTGGTTGGATTCTGCATATATTTTTAAGTAGAGCTCATGGGATTCTTC
GATGGATTGAATATGAGTTTGGGAGAAAGCAGCAAGAAGAGYGGAGTTGCCATTAACTAAGCTGGGGAAGAACACAGGTAAAGTATGTTGGGAGGAAGAG
GAGAATTGAGTTTGGATGTGTTAAATTTGCCATGCTCATTTGATACAGTAGTATAGGGAAGGGGGTGAATAAATGAGTTCATGGTAGAAGGCTTGGCTGG
AGAAATAAATTTGGGAGTTTTCAGTGTATAGATGGTAAAGTATTGAGACTGGCCAAAACCACCAAGGAAGTGAATATAGACAGGGAAGAGAGGAGATTCC
AGGACTGAGTTCTGATGTTAAGGTGAAGAGGAAAACGGTTATCAGCAAAGAAGACTGAGAAGGAGCAGTAGGGAGGTGAGAGGAAAATTAGAAACCTGGT
GTCCTGGGGCCAAGTGAAGAGCGCGCTGCAGAGGGATAAAGTAGAGGATGATCAAGTCAGTTCTCTGAAGAAGTGTTTTTCCTATCATATGATTATTCAG
TTAAAAAAGGTTATTACTAGAGTATCTTGCAAATAATTTCTTGGTCATTTGTATAAATTCATCCACAGATTCTCTTGAATTCACATTCATATTTACTCTT
TCAAAAACTCTTATCTATATGCTTTGCTCATTTGAATCAAATGCTTCAGATGGGTCAAGGAAGGTGAGGGCTAAGAACCACTGAATGCCAGGAGCAGTTT
GAGTGGAGTAGGAAGGATTTCAGAGAGCAATGGAAACAGCGTGGAAGAAATACCACTTACATGCTGATGGGAATGATCCATTTGAGATAAAAATTATTGT
TGATGAAGGAGAGGGAGGAGAATTGGTGGAGTGATTTCCTTGAACAGGTGTGTGTGTGTGGTGTGGGGAGGTCTAGACCACAGATGTAGGGATTGGCTTA
GATAGGAGCTCTAATCATCCATTCATAGTACTAGGAGTAGAGGAAGAACAAGTGGCTGCAAAGGCTGGTACGTGGGTAGATGTGGTGTTGGAATCTTGTA
GAAATTCTCTTCCTATTGCTTCTATTTTCTCAATGAAAGAGGAAGTAAGGTCATCAGCAGAGGGTGGAAGGAGGAAAATGTTGAAAGTTTGAGAAGGTAT
AACATAGTTTTCCAGAAGACTGAGGGAGTAAGTGGAGTAGGAAATGCATTGGGTTGCTGGGCAGCTTTATGGACTCACTTGGAGTTAGTTGTGATGAAGT
TCAAGTGAGACCAGTGAGCCTGGTGTGTTTTCCTCTGGTCACATTCAGCCACTGAATATGGGAAGTAGGTGGAGATTTGGCTTTTATGAGAATAGTTTTG
CCAGTTGAGCACAATAAAATGAGAGAAGATCAAGAGAGTGACTATAACATAGCCATGGAATTTGAGCTGGATAAAGAGCAAAGAGGTGGCGGAGAAACCG
TGAAAAGGGAGGAGAGAACGTGGATTATAGACCGTTTTTRAAATGTGACTCTTAGGGCCGGGCGCGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAG
GCCGAGGCGGGCGGATCACTAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATATAAAAAAATAGCCGGGCGCA
GTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGRGAATGGTGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATAGCGCCACTG
CAGTCCGGCCTGGGTGAAAGAGCGAGACTCCGTCTCAAGRAAAAAAGAAAGAAAGAAAGAAAGAAATGTACTCTTGAATCTGCTGGACAAATTCAGTCTG
TGGAGTAAGTTGAGAAACCTGTCTCACTGCATAGAAGTAGGGAGTGGGTTTTGAAACCAAATGTTCTGATTTCTAATTTGATGCTCGCACTGCCCCCAGT
GGAAGGAGAGTGAGTGTGTGCATGTGCCGCACATGTGCAGAGTAAGCTGTGACTCTGGGCGCCGGCGCACCGCTGGGCCCTCTGTGGCACCACTCCCAGG
GTGTCTGGTCCTGTTTCAGCTCAATTCAGAATGTGAACTTGGGGAACATTTGGGGACTGAAACCCACCAGGCCCGCCCACCTACCTCACTAGCATTGTAC
TCTGTCATCTTGGTTTCCTCCTCAGAGTGTCTGTCTCTTTTTTTAAACACACTTAACGTTGCAGCTTATGATGCTGACTTTGGCAGCCTGTTCTGTTAAT
ACTTGTCCTCTCTAAACCCTACAGTGCCTTCTTCTTGGCCCCTGTCTGCTGGGCTGGGAGCCTGTGGTCCACAGCCTTCTCCCCACCGCTCCCTCCCTGG
GAAGAAACCGGCGTTTTCTTTCTTTCTCACACTTAACTATTTTCCCATCCATAGCAGTCTCCACCCTGAAGTTATTCCTACTCATTGCATTTCTGTCTTG
GTTTGTCAAACCAGGATGCCATCATGTTTGGGATTTATTCCAAATGTGCTAAGTGTGCCTCCTGATCTGGTGCCTGAATTTCACACCACGAACCAGGCCA
GTCTCCTAGTCTTTTGTCTGTGCATAGCCATTAGGCTGGCTCAGGGCTCCTTTCCTTTTTGTTTCATTTACTCTAATATGCGGTTTAATTTCTAATCCAT
GGCCAAAGGCCTCAGGTGCCTGATGTGTCARGCAGCTTTGGGCTATGATCTTCCTGTTCTCAGGCAACACCAGGCCTTAGGACTGAGGGGCAGAAATTAG
CTGGAGGTGGTGCGTTGGTGACTCAATGGCTGTTTCAGGTACTTTTCACTCTGGAATCCAAATGCTGACAGAATCTCAGCCAGGTGGGGATGGCACAGTG
CCAGTATATGGCACACTAGGAAAGCCAAGAAGTCTTTATTCACTGTTCCTCAATTCATTATTCACTCGAAGACTTATGAGCAATTTTTTTCATGCCCTTC
AGAGTGTGGTCCATCTTGGAATCATCCAGGGGTAATTATTGTAATTGCAGATTCCCGGGCCCTGCCCCAGATCTGGTGGGCCAGCATCTCTAGAGGTAGG
AGGAAGGAATCTGTATTTTCAGCAAGCTCCCATGTGATTCTGAGGCCACGCTGAAGTTTGAGAACCACTGTTCTACATCAATGTAATTGCCAGGCAGTAA
GAGGGTGACATGGCACATAAATGGGAGAGTACTGAAGAAAAAGGCACACTTCTGCCTTCAGGCTGCAAGCCTACTATGTGAATTTCCATGAGGTCATGCG
TTATTCAATGTTTGCCTAACATAAAGTGATTGACACACAGTGGGCTCTCAGGAAGTAGTTAATTTATGGACTTAGGTCAAGAAGGGGCAATAAGTCAGGT
GCATGGGTACATACATATACTTGTAACAATAGGGCAAACTAAATATAGCGAATAATTGGGAGATATACAAGCAGAGATCTCTGGGAGGATTGAGGAGAGA
GTGGATAATTTAAAGTGAACTGCTGAGCCTGGCTTGGTGGCTCACACCTGTAGTCCCAGCTACCTGGAAGGCTGAGGCAGGAGGATCTCTTGAGTCCAGG
AGTTCAAGGCTGCAGTGTGCTATGATTGACCTATGAATCATAGGTCAGCCTGGGCAACATAGTGAGACTCCATCTCTAAAAAGAAAATAAAATAAAGTGA
GCTTCTGGACAGCCCATGTAGAAATGTGAAAGCTGGTGAACTCAAGGGGAGCCCATGATACTGGATTGTAGCCTGTTGGACAAAGATGTCAGAGCTCTTG
ATAACACATCAAAGGCATCATTTACCCACTGGGTGCTTAGATGCTACTTTATATTTTTACCTTCCTTTAGGGACAAGGCTCAGAAACTGACTTGAAAGTT
AGTTTGCCCAACCCTTTTGGTGGGAGGGAAGGGTTGGATGTACTAACTTTCCCTTAACCATCCTCTCCTTAGCTGGTCCTCATTCCATGCCTGTTGAAAA
CAATATGCGTAGATTTACAGACCTTTGCCTGCCTCCAGTTCCCTATGTTGCAGTTAGATGTCAGCTGTTTGGCCACAGCGAAGCTTCAGCTGCAGCTTTC
CCTGTTGATTGACATGTGTGCCCTCAATTACACCTCAGTTCCCTCCCAAAGAGAGGGAAGGATTGAACAGGATCTTTTCTCCTTTAAGGTGCCAGGTACT
AGGGGCCCCATTTACACTTCTGGAGAGCTCTTTTAAAAGGGATTCCTGAGAACCTCCACTCTTCACTGCCTTCCACCTTGAGCCCCATTGTCTGTCCACA
AGAGGAAACAGGATTTTGTGCACTGATGAGGCAGCAGAGTAGTGGAGTCAATTACAAAAAAAAAAAAAAAATATATATATATATATATATTGTATTTGAC
TGATGAGTACAGCTTTGGTTTATCATCTGCACTGGAATATCTTTGATGTTTTGGGAAATCACAACACTCAAATCAGATAAAGAAGCCACAGTGACAGGAC
CAATGCCAGAGGACCTGGGATATCTTCTGACTTTTGTCCCCTCAGCTTCTCCTAGTGCCCCTTTTCTTGAGAAGCAGTGACCCAAGGCGGGGCCCTTCCT
TGCAGTGTGCAGTCTTCCTCACCCCAGGAGCTGGTGGGTGGGTCACAGCACCTGTGATAGTCAGAGAGGACCACTTGAATTTCTGTTCTCCTGAGGGTGC
CTTGCAGGTGCTCCCACCCCTCCCTCCCACTCTCCCCACTCACCATCCCCAAGCCATGGCCTTCACTCCGAACCCAGGACTTGTCAGCTGGTATCTGTGG
ATGGGCTTTGATGGCATCCATAAATTTTGTTGCAAGTTTTGTTTTTAAAATATATCTTTTAACTACCACATTTTCTTGAATCTAAGATGCCATTGATTAT
ATACTCTATCAAAAATTGAATAATTCTGTTATTAAATTTAAGCATTATTAAATGTTGGGGGAAAAGCYACTGCTTTCTATGCATTATGTATTCATATATT
CTGAGTTACAAAACCTTCCACTGTAAAGAAAGGTATATTGTAGAATTGAGGAAATAGAAAATGAAGGAATAAAACTGATTTTAAAAGCCACATGTAATCC
ATGTGTTATACAAATTTTCACACTTGAAGACCACCCACAGTCACACTGGCTTAATTCTTTTCTTTGTGGAGACCTTGGAGTCAATCTCCCTTTGCTATCT
CTGCATTTATTTGAGCTTTGTGTAAATGTGGTATTGATTAGAAAGCTTCTAGTTCTGTGTTAGTCTTTTTAAAAGAATCAGGCCCCAGCTTGTTTGCTTT
TATAAAGTGATGTAAGTGATCACACTATTACCTTTCTGTATGATTCAAGATTTTCTCAATACTGTGAAACTAAAATAAAATACAAAAATAAGCTGGATGC
CAAAGCTGATTCAAGACTGCAATAGTCATCTATAACCCTGGTTTCAAATTTTTATCTTCCAGAAAACAACCTCATGTTTTGAGTGATATTGAATAAATGT
TCTTTATTATGAATATATTTATATTAAATATATACAATATATTTATGCCAGAAGATGTCTCATTTTTGTAAGTTTTATGCATGGATGTTCTGATAAAAGT
TTTATTTGAAAAAAGTGATTTCTGATGCCAAAGGTACTATAACATAGTGGTTAGGAATCCTGGTCTTACTTTACTATCTATGTGACTTTGGCAACTTACT
TAATCTCTGTGCCTTTATTTTTCTATCAGTAATGTGAGGATAATTATGGTACCCACCTCACTGAGTTGTAGTAAGAAGTAAGGTAACATGGATAAAGCCT
TTGACACATGTCTGGCACATAGCACTCATGTGAGAAATTATTAGTTAAAAAGTTTTGAAAACCATCTAGGATAGACAAAGCATCTTCTTCCATTGGCCCA
CTGTATAAACCTGCTCCTCTCAGACTGGTCCTTCCTGTCTCTCAGTCTAGCCACTTTACACTTTCCATTTGCATCATTGCCAACCTTGAGTGTACACTCT
TGGAATTACCTCCAAAACTCTGATGTCGCCTTCTCCACAGAGCCTTCTCTGACTATCCCTGAGAAATTCAAAAGAGAGGAGATGCTTCCCTGAGCCTTCT
CCCCCAGACCTAAATGTTATTAGCACTCCTTCCCAGATTCTCCTGTATCATTCATCGTCTTCTAGGTGTTTACATCCCTTTTCCTTATTAAATGTTCTGT
CTCCTGGCATCAACCCCAGTCCCCTAGACATGGCTAAGTATTCGGTAAATATCCACTGATGGATTGATTTCACAGAGTGGCTGTCGGAACCCACCAAAGA
TGCCATGGCTTCCAGACTGCCAGGCTGTCGGGAGATGCAGCACAGGTTCTGCTCTCAGAGTGAGCTGCTGTCCGCAGGGACTATGGCTGCTGCAGCCTCT
GCTTGTCCTGCCTCACTACAGCTCAGCTCCCTCCTCCAGTGACCGGTGGGGGGTGGGGGGTGGGGAAACAATGAAAAGTAGGGGAAAGGTAATTTATTTC
AGTGTTTACAGAGGGTTTGCGTGTAATTAGCAGTTTATTTCTGTGACACAGCTGGCCTCCTCAGCTTGGAACYTGACTTTGAAATGCTCTTAAAGAGACC
YATACCTAGGCAATCTGAGGGGTGCTGGGGACTTGGGAAGAGAGTGAAGAAAAATGTCATGCCCTGTCTTTGGTGATGATGCTTGACCAAGGACAGCCAC
TAAAGTGAAGACTCCCTTGTTCCTTCTTTCCCCAACTCTCCCATGCATGCACACACACACACACAAACACACTTTTGTTTCTTGAGTCATATTCTGTTAG
TGAATCCACCTTCGACTTAGACCTTTTACAAGGTACATTTTTTTTAACCTTTTGTTCACATCAAAGCTTGGGCTTTGATATCTTCACTGGGGATAGGGGA
ACAGTCACTTGATCCCCTCCTGCCATAAGCCCCATGATTGCAGGCAAAACACTGTTCTCCTCTTTGTAAGTATTGAATAGATGAATAAATAAATGTGCAT
CAGTCTTTTCATCAGTAATATGGGGGTAATGCTGCCTGCTGTTTCTACCTTGAAAGTTTTATAGCAATTACATGAGAAAAAGTATACGAAAGTGCTTTGA
AAAAGACGTTCAGCCCTCACTATATGAGTGTACTATTTTTATGACTTTTTGCTGCTGTGAGCTGTGGACTTACAAACTCAATTTTGCTAAGTTAGCAGTT
TTTTTGTGCTTATGCAGAGTGGGTGTCTGGTTGCTTCGGGAGCATGTAAGACAAATTATCCTAACATATTTTCTGTCTCTTAGCATCAGTTTGCTGTGTT
TGTTCTGTGTTGTGAGCGTGCTCAGGTCCTGTGATCTTGGTTAGAAATACAGTATTTATATTTTGTACATATTGAAAAACATACCTATATTTGGTGCAAA
AGTGGCACTTTAATAGTTCTTGCTAACTTGCATAAACTGTGAATAACTGGTGAAACCTATGTTGCAGTTGCTTCCAAATTCAAACATGTTTCAGAACTTT
TTTTCTTTTTGAGGTGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGTTCACTGCAACCTCCTCCGCTCGGGTTCAAGCGATTC
TTCTGCCTCAGCCTTCTGAGTAGCTGGGACTACAGGCACCCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGC
CAGGCTGGTTTCGAACTCCTGACCTCGTGATCCCCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTACCATGCCTGGCCAAGGACATCT
TAACCTTTGCAAGTGTTAGGGTAGACCTGACATTCATCTGTGGCAGTGTTCCTGAATGAGCTGGGGCTGAGCCCATGAGAGAGTCTATACCAGAATAGCA
TAATGGAAAAATAATGGCAATGTAGTTTTTCATGAAACTAAATTTGTTCAACTTGAAACTGGATTTAAACATTGAAAATGTTAGTGTCCTTTCCTGGCAA
AATAAAAAGTTAAGAACATCATTGCGAGCATAGATATTTTTGTCTTTGTTTTGTGAAAATTTTGTGATCTGTGAAGGCTAAAAATCTATGCTGATATATA
TTTTATCTATGTAATAGATATAATAGGTAAATATATTAATATAATTATATAATTTACTTGCAAATGCATAATATTGCTATTAGCAGGTTGAGTTTTCTTT
TCCATTCTAGTGATACTGAGATTTTTATATTAATTTTAAGAGAAACTGGTAGTCATTTATGTAACCTGTCATTGAAGAATGAGTATTTTAGAAAACCACA
TAGGCTGGTATAGTGAATGCCATTTCTAAGAATAAAGTAGTATCAGGCATTGGGTTATATTCAGAAGACCTGTATTTGGGCCAAGTGTTTCACCTAGGCT
GGAGTGCAGTGGCGTGATCTTGGCTTACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTTGTGCCTTAGCCTCCTGAGTAGCTAGGATCACAGGCCCC
TGCTACCATGCCAGACTAATTTTTGTATTTTAATAGAGACGGGGTTTCGCCATGTTGGCCAGACTGGTCTTGAACTCCTGACTGCAAGTGATCCACCTGC
CATGGCCTCCCAAAGTGCTGGGATTACAGACATGAGCCACCGCACCTGGCTGCAAGTTTTGTTTCTTATCCATTCTTCCTGACTCTGCCATGGTATTAGG
CAAGTCACGTGACCTCAGTGAGACTCATTTTCAACTTCTATTAATTAGGAACACCAATTCAGTACTTAGTGCATACAATGGCTGTAAGAATTAAAGAAAA
ATGTATGTGTGAGAGTGCTTTGTGCATCAAGATGTGCCTTACGAATTTAAGGTATTATAAAAATCCTTTAAAGTTATGAACATTCATGTTAGGAAGATTT
CTATTAYTGAGATTTACAATACAGGTTTTTCACGTATCATTTTTAAACATGTTTTGACAGATACAGTCAATGGTATCCCTCAGAAGAAAGGTAGAACGTA
TATTCAAAATATTGTTAGGATATTTCTCTTTCCTTTGTGCTCAAAGCATCCTGATATCATGACCTTTTCAAGTGTTTTCTTGATATGAAACAAAGCTGCC
ACTGCCTGAGTAGTTTGTATAAAAACATCAGATTTCTAGGTGAAGCAGAAAAGAAAGGGAGTGTGGAGCTTGATTCCTTCCCCAGGGGTCTCTATGATGC
CATCCTTGAATGAATGATCAAGGCGTGTCCCCCACTGCCTCTGAAGGTACTTCTCGTGGCTGCCACCAGCTGCCTTAACAATTTGGAAGGAAAGGCAGGC
CCAAAGGGCAGCAGGCACATGCACACCCAGGTGATCACACCTCCCTCGTCCCCTGCACACATTTAAGCTCTTGGCAGCACATGTTCCCCAGGCACAGGCG
GGGCTGGCGTAGTCAGCAAGGCTGCCACATCTCTGTCACAAGCTTCCCTTTCTCCTAGTGTTTTCAGCAGGCCTGTATCTCTCCACCATCCTCCCCTTCC
CGGGTCTCCCACTCTCCTCTCTCTGTGACAGGTTCTTTTTCCTTGGCAGATTGCACTGGAATGGTGTGACAGTCCCTCAGGGATCATGCCACCTGCCCAA
GCTGGGGAGGAATAGCAGAGAGGCATCCGTGGCTGGCCAGGTCACCAAGATAACACTCCCCACAGGCGAGGGTATCCAGGGCTCCTGGGACTGCAGATTC
CATTGCCTCATTGAGCCAGGAGCCTTGGTCTACGCTGTAGGACCTCAGTCCACCCAGGAACACTAAACTTGCCTGCCTGCCACTTGGCGCTACTATAGGC
AGCTGTACCTATCAGCACACCATGCCTGGGAAGGTGACCACAGAGAGTAATTGCCAGTGTTTAGTCTGTGTGTGCATGTGGGTGACAGAGCGAAAAGGAA
GGTATGGACCTCTCTTTTATATCCAGGTTATTTATTGCATTTGTCTTACGACTTCCATTTAGAGCTAAATAAACTGCAAAGTAGGTTATTTAAACTGGAT
CTTGGGTGCTTTAGCAAGTGGAGAAGTGGGCGGTGAGGAGGGAGAAAGATGGGAGATTGGGCCGGGGAGATTGAGAGAAAGAGGCCAAAAGAAACACAAC
GTGGCTTATTTTCCTCCCCTTGGTAGTGGAAGGCATGGTGTGCTGTGGCTCACAGACAGAGATCCCCTTTGCTGGGGGATCTTGAAGAGCTTTCTGTCTC
AGGCTTTTGGGAAGCAGCCTCCTGTGGACATATCTTGCTTTTACAATTTATAAATAAAAAACTAAGGCACAGCCTAGGAGTGCAGATTGCACAAAGCCTA
CAGTTACCTACCGCACCTGGAAGGGTAGCTCCCCACTTCTTTGCCTGCTTGTCACGGTCACGTGCCCCCTCCACCTGCGTCGGACTTGTGCAGCCTAATA
GAGGGCAGGTGTACAAGGAAGAACGTCGTTGGGGCATTTTATCGTCACCCTGTCCAAATGAGGTTTCAGGGAGTCTCATCTCCAGAGAGTAGTCTTCCAC
CCACCATGTACGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTACACACACATATTTAAGCTCAGATGCCCTGCAGGCCCAGGGAGCTCTTT
GCCAAGAGACTCTTGGTCCATCCAGATCACTCGTGAATTCTCTTTTGTACAGACTTGATAAAGGGTGTTTCTTGAGTACCAGAAGTACTGTAGTACTGTA
CATAATTCATAACACGAAGCAAGATAAAGTAGAAAGAACAAGAAAAGATAATAACTGGGGAATTAAAAGTTTCCAACATTGTTAGAAGCTGGGAGAGTGA
GTCAGCAGTACATATGTCCTTAGGGAGAGCTTTGCACAGGGCTGGTTTTGGGGTAGGGGCCTAGGTGTCCAAAAAAGGAGGAAGGAGATGCTCAGGAGGA
GCAGAAATAGGGATGTGGAGGAGAAGGGGCTGAGGGCAGGGAGAATGGGTGCAGATTGCAAGTGGGGGTGAATTCTAGCTCTGCCCTGCCTCCTCCCCTC
CCTTTGAAGGAAAGAGATATCATGGGGCCTTAATCATCTCCTTATCTCTCATTCCTTTCCTGGTTTAATTAAATTTCTGTTCTAATTTGGAAGAGCTTGC
ATGTTCTCGACTGCTGTGGCAACCAATCTCTTTTATGAGACCCACCCTGGCACTCAGAGGAGTTTATCACCTCCATGGGACTTGGACCCTCTGTAGCTTT
TGCCATCATGGTCAGTTCTGTAGTGAGCAGAGGTGGATTTGAGAGGAGAAAGGGGCTCCCTTATTATTGTCAAAGTCATCTTGTTTACAATGGCTTCAGT
CTGCCCCTTCCTCTTCTTCACCAGGGAGTGAAGCCTCTTCTATCCATGTATATTTTTTGTGTTTCGCATTGTGTTACCTCTCCTCTCCCAGGACAAAACA
CACTTCGTTGGGATCTCTTTGAATGTTAAATAATACCGAAAATACAGATGAAAGACAGGAAACGTGGATAAACGTACCATCAGCATTCCTCTTACACCTA
CTGTGTGCCCAGGCACAGTGCTGGGCACTCTACACGTGTGACTGCCTCGAAGGTGATGGATCGGTCCTCATTTGATAAATGAGGCACTGTATTAGTCCGT
TTTCATGCTGCTATAAAGACATACCTGAGACTGGGCAATTTACAAATGGAAGAGGTTTAATTTGACTTACAGTTCCACATGGCTGGGGAGGCCTCACAAT
CATGGCGGAAGGCATGGAGGAGCAAGTCACATTTTATGCAGATGGCAGCAGGCAAAATAAGAGCTTGTACAGAAAAACTCCCATTTTTTAAGTAATCAGA
TCTTGTGAGACTCATTCACTGTCACGAGAACAGCCCAGGAAAGACCTGCCCCCATAATTCAATCACCTCCCACCGGCTTCCTCCCACGACACGTGGGAAC
TGTGGGAGTTACAATTCAAGATGAGATTTGGGTGGGGACACAGCCAAACTATATCAGGCGCTTAAGGCTTACAGAGGTTAAAGGATCCTCCCAAGGTCAT
ACAGCTGTTAAGGTAGAAAGCCCAACTGGAACCTTGTCTTGTGAGCTAGAAAAGCCCAGGCTGTCCCCACTACTCCCTGTTAGAGGAGGACGTGAGAGGA
GATGGATGAATGATTTCGGCAATTCACTTCAACTTAACGGACATACCAAACATTGGAGTGCCGACCGATTACCAGGGCCCGTGTTAGGCATTGGATGGTG
GAAGAGCTTTTGCTCCTGCCCTCAGGGAGACAAGACATGCTTGTGTTCAGTGGATGCCTTGAGGAAGTGTTATGGTCCCTTTGAGCATTATGGACCCATT
GCTGTGKGGTATAAAGGCAGTGGCGGTGTTCTCTCTGAGGTAGCCAAGAAAGGCTTCATAGAGAAACCTTGTAGACATAGAATTTCACCAGGGGGAGAAG
GAGATCAGGACCTGGGCAGAAGCGTGGTGGAGGTATGACATTTGTGTGCCGTGTTGAGGAAGTGGCCACAATAAAGGAGTTGGGGTGGAAAATGCCTGGA
GATGAGACTGGGGAAGAGATTGGGGGTGAGTGATAAAGGACTGAGTGTCCATTAATGACTACAGAGTTCCTTCTATCAGGGAAATCATCTCATTACTTGA
AATTATCAATGACTTATCTGTACATCTTTTTGTCTGACACTGTCCTTGTTCAGTGCCCCCAGGGCTCAAATGTGGGAATTAGTCTAATGAACTAGAGTTC
ATCCCTTTCATGCCTCCTTTGGTCTTTTACTGTGGCCCACATAGCCCTGATAATCTGTCCCTGGACTGCTCTTCTGTCTTACTTCACGCCCTTGCCTCCT
CCATTGACTGTGTTCCCTTCACCATGACTGCTAGCCGTCTAGGCTCTTTCCTGCTTCCTGGCTGTGGCCACACTGTTTCTGCCATTTTTTTTTTTTTAAA
TTTCTAAATTTTGTTTTAAGTTCAGGGGTATATGTGCAGGATGTGCATGCAGGTTTGTTACATAGGTAAACGTATGCCATGGTGATTTGCTACACAGTTC
ATCCCATCACCCAGATACCAAGCCCAGCATCCACTAGCTATTCTTCCTGAGCCTCTCCCCCCTCCCCACTCTTGCCCTCCGATAGGCCCCAGTGTGTGTT
GTTCCCCCCTCCCATGTGTCCATGTGTTCTCATCATTTAGCTCCCACTTATAAGTGAGAACATGGGGCATTTGGTTTTCCGTTCTTGTGTTAGTTTGCTA
AGGATAACAGCCTCCAGCTCCATCCATGTCTCTGCAAAGGACATGATCTCATTCCTTTTTATGGCTGCAGAGTATTCCATGGTGTATATGTACCACATTT
GCTTTATCCAGTCTATCATTGACGGGCATTTAGGTTGATTCCATGTCTTTGTATTCTTCATCTGGCCAATGCCTACTGATCCCTCAAGCTTCATCTTAAT
TGTTACTTCCTTAGAGAGCACTCTCCTAATCCTAATATAAATTGAGTGCTTTTGGTATAATTTTTTAAATCACAATCTTATTTCCTTCATAGCACTTATC
ACCTCTTGTGTGTGTATTTGTGTGACCATTTATTAAGTTTCTGCTCTGTTAACTACACTGTAAACTCTGTAGGTGCAGGGATGTCTATTATTTCATGACT
ATTGCCAGAACCTTGCATATCGTGTGGCATGTAGTAGGTGCTTAGTAAAAAATCTGGTGATTTACTGGATGGATGGAGTAATAAATTAGTGAATGATATA
GGATCAAGCTATCAGCAGGGAATATTCTTATGCTCAGTGAAAACACAAAGCCTATGTTAAATGAGGCAAATTTGTTGGTATTTCCAATTGCATTTTTTTA
ATTCAACAAATATTTGTTGAGCACCGATTATAGCTAGGCATTGTGCTAGGAGTCAGGGATATAGTGAAGAACAAGCAAAATCAGTCCACCTGGAATTCGT
ATTATAGTGTGATGATATCTATTAAACAATTTAAAAAATAAGTGTATACTGTCAGGTAGTGATGAGTCATATGAAGACAAAGCAAAGGAAGGGGCAGAGA
GTGTTGCAGGGAGGCAGTATGCTTCAGATGAGGTGGTCTGGGAAGGAGGTGGTATCTGAGCAGAAATCTGCAGAAGTGGGAGGGAAAGCCCTGGGATATC
TGTGGAAGAGCATTCCAGATGGAGAGCCAGCAAGTGCAGGGACCCAAAGTGGTTGCTTGGCAGGTTCAGGGAGTGTCCAACAGGCCAGGGAGGCTTGAGC
ACTCTGAGGGGCAAGAGGTCAGAGAGAGGGTCAGGGCCAGATCAGGTTGGGCCTCGTTGACTGTGATTAGGAGTTTGGATTTTACTCCGAGTGTGATGGG
AAGTCTTTGAGGTGCTTTGAACAGATGAGGTAGAAGATCTGATATATGCTGAAAGATCACTCTACCTGCTGTATGGAGAACTGGCCATGGCAGGGCAAGA
GTGGAGGCGGGCAGCTGGCAGTGGTGGTGCAGCCTGGAATGGCTCTGCTGGTGGGGCTGAGCAGTGATTAGATTGGGATGTGTTTTGAAGGTGGAGCTGG
CAGGACTTGTTAATGGGTTGAATGTGGGGTAGGAGAGATGGGAAGATCAAGGAGGGCTCTTCAGCTACATTAATCTGTTAATAGCRGTGCCATCTACCAA
GATAGGGGAGCCGAGAGAAGGGGCAGGATGGTTGAGCAAGGTCAAGAGTTGAGCTGGAGGCATGTTAAATTGGAGTGGCCTAATTGATGTCTATGAGATA
GCCCAGTTMGAGATGTCATAAGAAGTAAGTAGCTGGACATCTGAGTCTGGAGCTGGGTCAGAGCAAGAGATATACACTTGAGAAACATTAATTTATTAAT
GGTGTTTTGAATCATGAGATGGACTGATGTCCCTTAGTCTTGAAGAAGGCATAGMCAGAGAAGAGGACCAACGACTTAGCTCTGAGAAACTACAACTTAA
TGTCTATTAGCACTGCAGTAGGTCTATTACTAAGGCCCTGAGAACTTGATCATCTTCTCTTGGGGCTATTTCTTCTGGAATTGAGCCCAAATTTAGTGTT
GTTGCTCCTTTTAGGAAGTTATTATGACAGGGGCTACTTTGCCATAGGGGATGAAAATAGGAATTCCCACTACCACCCCATGGGCTAGCTGAAGGTGCAG
GGCAGGTAGAGATTCGGGTGTGGAGGGAGCTCTTCAGTCTGAGTCTGTTCTGTTTTGGTTCATTTTCCTTTTGTCTGCTGTTCTTCTCCTGTGAAAATTG
TTTTCCCTCAAGCTGATGTTTTTAAAGCTTAATTTTTATTTCTGTAACTGTACTCCTTTTCATTCTACAAACCTTTATTGAGGGCCTGCCATGTGCTAGA
CACTGCTCAGAACTGCTAAGTGCTGGGATGCTCCCTTTCCAAACACACGGCTCCTCCCCGTGATTCTTTTCCTGCTCAAAGCCATCTGCTCTCTCCCACC
TGGTCCTCATTTTATTGATGGCTATTACATCATCTACCTGTCCATCATTTTTCATACCTCTTATATCATTATTAGATGTTCTAGCTACCAAGTCTTGGAA
CCAGTCTTCCCATTTTGTCTTACACCCCACATTTAACTCATCAGTAGCTCCTTTGGCTCTATATTCAACATTTATCCAGAATCTGCCTACCAATCCTGAC
CTCCAGCGCTGCACCCTGGTCTAAGCCACCACCATCTCTTGCCTGAGTTAGTGCAGTCTCTCCCTGATTGCATCATTACCCCACTTCAGAACATCCTTAT
GATCCTGGCAGTGTAAATCAGACCATGTCCCCGCTCTGCACAGAACCCTCCAGTAGCTCCTCTTCCCTTGCTGAGTAAAAGCCAGAGCCCTTGCAAGGGT
CTACAGGGCCCTCCATGATCTGCTCTTCCACTCCCTTCTGCTTCTTGCCTTAATCTGCTCCAGCACAGTAGCCCTCTTGCTGCAGATGACATGTTGGGCA
TGCTTCTGCCTTGGATGGAACCTTGCTAACATGGGTCTTGCTGGAACATTCTTCCCAGTTATCAGGGTGGGCTCACTCTTTCCCGTCCTCTGGTCTTTAC
TCGGTGAGTTCTTTCCTGACCATCGTATTTAAAATCAAACCTCCTCCTTCCCAGTACTCTCTTAACTCCCTTTCAGATGTATTTCTCTCCAGAGAGCTTA
TCACTAGCGACCACAGTATATACTTTGCCTGTTTATTTTGTCTATTGGCTAAGTGATCCCACTAGAGTACAAGCTTCATGAGGGCAGGACTTTTGTCTCA
CACACTGCTGCAAACAGTTGATGCTCAGGTTAGTACCTGGCAGAAGGTAAGTACAGATTGAGTTACTTTTCATTGGAAATGCTTGGGACAAGAAGTGTTT
CAGATTTAGGATTTTTTCAGATTTTGGAATATTTGTATTATATTGGTTGAGCATCCCAAATCCAAAAATGTGAAATCTGAAATGCTCCAATGAGCATTTC
TTGGGCCATCATGTTGGTTCTCAAAAAGTTTTGGATTTTGAAAGATTTCAGATTTCAGATTTTTGGATTTGGGATGCTCAACCTGTATTTAATAAATATT
TGCTGAATGAATAAATGACAGAACATGAGTTCATGGGATGGGAGGGTGGTCAATGCACTGTATTTGTTCTAGTTACTGTTACTCTCATAGTCTTTGCACT
AGGCCCTTTGGTGACAAGTGGGCTGCATTTGTGAGATGGTTGGATGCCATTAGGGACCTAAGCTGTGTTCTCAGAATAGCATTGCCACACTAGAAGCCAG
TTGGCCTTAGCAAGTTGAACCATTTGCTGGGATGTCCTTAGTATTATTAGGCAAACTGATCATCCAAGGTTTAGGGTTAGATGAATCCACAAAAGAGCTC
ATTGAGGTTGTATTAATAAAAACAACCATTCATTGAGTCCACAAGATCCATACTTACGCATGAAAATTACTCTAGGATCTCTTGCTGGGGGATAGGTGGG
GGATCAGAATTGCCAAGGGTGTCCTCATGAGGAGGCCTCCATCCAGCCTCAACAAGCCTTAAACACCTCATTCAGGTGCCGTARSAAGCCTTAAACACCT
CTGGGTAGGGTTTGAATCTGTAAATGAATCAGAGGTAAATGAATCTTAAAACCTACTGGCCTTAAGAATTGGAAGGCCCCTTGCTTATATCCTTGGGGAT
ATTTACTGTGGTGAAAGGATGAGGGTAAGGAATGATAGCAAACATTCACAGAGCACATATTATATGCCAGGCGCTGTTCTAAGAGCGCTCTGTGGATATA
AACCCAGTTAATTTTCCCAATAGCCCTTTGAGGTAGAAAGATTATATTCCCATTTTACAGTTGAGAAAACCAAGGCTGCCTGTCTGCAGGGTCTTTGCTC
TTGTTGATTATGTTACAACCATCTCAAAAGAAGTGTTGTTCTAGGGCCATTTAGGATGATACACTGATGTTTAATACACTTATGTGTTACATTTTGATGT
GTGGTATTGTTGTGGGGAGTAGCTAGCTGTGTGTGGAAACGGACTTTTCATGAGGCATGCATGTGTGAACACTGTAATTAGTATTTCCAAGAGAGAAAAG
CAACCCCCTCCCCCGCCCCCGCCAACACCCCAACACTGYACCTACCCGGAGACTTTGCTCGTGACACATTTTTTTTTCCCCATAGGAGAGAATGTTAAAG
TAGGGCCATCTCTTAGATGAAAGTCCTAGAGGCTTTGGGACATATGAAGACTGGTCAGATGCTATTGAGCATTTCTCACCTTTGATCCTCTGTTCTGAGG
AATTCTTGATAGCCTAGGACTAATCTATAGTTCTCAGAGGGGCCAGTTGTCTTGTTGCCTCCTGTTCTCGCCTCYGCCTGCCTGTCTCCCTGGCTCTGAG
TCTCTGGTGATATGTACTGGCTCACCGTCAGGTGTTGGGGGATGGGGAGGCGGCTGTGCAGCTGCCGCCGAGCTGCTCACTTGGTAGGAGAAGTGTGCCA
CTAAGTGAAAATGAGGCTTGGCGACTGCCCTGTGACCCACTGCCCTCTGTACCTTGCCCTTCCCTGTGGGTGGCAGAGCTAGACAGCCATTCTCATCCTG
GAAACGCTGGTTTTAAGGGAGAGGCCAGTCTTCTTGTGTTTGCTGCACCCATCCTGACTTGGAAGGAAGGTCTTTGKTGACTCCATGAATGGCACCCAGG
GGTCCAGTCTTCAAGTTCCATTGCTTTCTCTGGCCTGTGGCTCATGACTAATTCCACCCCAACCTTGTCTCAGACTGGGGTCCCACTCACCACCAGGGCG
TGAGCTTTTGGGGAACCCTCCCTGCTTGTCAGCCCTTCTTTTGGAGGAGTAACCAGGACCCCCAGACCCCACTTTTAGATATCCGGGTTCAATATAACAC
ATAGAACTTTCCCCTCTTCTTCTGGGCAAGCTTGAGATGGTGTTTTTCATGAAAAGGGCCAGCTGAGGGATCGTTTCAGAGAAGCCCAGGTTGGCTACAC
TTTCCTTAGGATGAGACTGGGACATGGAAAGTGGGAGGAGAAGGAGCAGTTGGGTTTGGCCCTTGCAGGCAGTATTTTCCTCTGGACTAGGAGATCCTCT
GCACAGTGCCAGGCCTCACACTGCATGTAATTAGGCTTCTAATGCCATTTTCTATTGACAAGGGCAAGCTGCTGCCAAGTCACTTGAGATGAAATTGGGT
CACCTGTCACAATTCCTGTGGGACTGAGGTAGAACTGTGCTTACTACACACTTTGCCCTATTTTAACCTCTGACTGGATCTGATCCCATATCTTAGCTGG
AGGAGGAGATGAGGGAGGAGCGGGGGCCTCTCAGAGCCACTCTGATCCTCATAGGGTGGGAACTTGGCCCGGGGATGCCTTGCTTAACCTAGCGGGGAGT
TTCTTAACAGAGGTCAGAGTGAATCTTTTATCCCTTTCTAAGTCCAATTTGTAGGACATGGGGAAGACAGTGACCCCAAATTCCCAGTGTGGGAGACATG
AGAGAGGCCTCATTTGTCACTCTGAGTCAGGAGGAGGAACGGGCAGTTATTTGTCTTCTCTCAGAAAGCCACGCTGTCTAGTTGATAGCTCTTCTCTGAG
AATGGAAATAAGGAGAGCTGTCCAGAGATTGAGTGAGGGAGGAGAGGGAGAGAAAAGAAAGTGCTTTTGAGTGTGTGCATGCATGCTCATACATTCACGT
GCTTAACTTAGGAGGCAATTTCGGAGGAAACAGAGAGAAAGAAATTAGAACAAGCAGGAAGAGTTCCAAGATGGGGGAGAAAGGGGCATAACATGGACAA
AAGCCTGCCTAAAGAAGCAGTGAATGGACCACATGCAATTGGGGAGACAGAAGCAGAAGAAAAAGGGGAGGGTGGGGTGGGGGAGAAAGCAGGTGGGGGC
TGGGAAGTTCTGCCTATGTGCATTGTCTTCCAGGTGCTTTTGTAAGCCTGAGCCATGCCCAAGGCAGCACTGGCAGCTCAAGCTCAGGCCAAACACACAC
GAGAAGAGTATCGTATTGTGTTTCCTTTTCTTCGTGTTTTTGAAACAGGAATAAAAACTACCAAAAGAGAAACACAGGAAAAAAAAATAGAAAGGGAAAA
AAATCTATTCAAGGAGGCATGAAGATTTAATCAACACCCAGTGTTCTTAGCAGGTCGGGAGCAAGCACAAATCGTATTGTCTATGCAGCTATTTCTGACA
CCCCCCAGCAGCCCTCAGAGCAACCTCTGCCACTGCCCAGAGTCTGGGAGGCAGTTCCTGGGTTCCAGTGTCCTGGGCTATTTTGGGTGGGAAGAATTGC
TGAGCCAGTCAAGGGAATGGGGTACAGGGTGTGTCATCTTCTTGAGGAGCTTCTCAGCATATAGAGATTTCCGGCTTTACATGGTAGGTATTTGTCCAGA
TGGAGATTTTGGCATTGACATTTATCCTAATGTGCTGGATATAAACTTGGGGGTAATTCGGGAATTTAAAACTCAGCCATGTTACCTTCAGTACAGTATA
TGGATCAATCTCTTCTGCTTTATCTCTCAGTGGCATTCAACACGGTTGCTTTCTCTCTCTTTAAAATTCATGACTTTGGTGCCATTACACCGTCCTGTTT
CCATCCGTCTTTCTGGTTGCTTCTTCTCCTTTGGGGCTCTCATTTATTCTCACTCCCTCTCCTTCTAGGAGATCTTTTTGAAGTCTCTTGACTATACACC
AATGAGTTGAATTTCTATTTCCAGCCCAGAACTCTCTTCTGAGCTCCAGACTCATATCTAATCAGCTACTGTTAGCACCGTTCTAAATACCTGAGACTAC
CAAGCCTTCAACTGAGGGCTTGATCCCTCTGTTGTTCTCTTTCCCACCTGCCTGTCCTAGTAAAACAGCTCTACCACCTACGGAGTTGCCCAAGCCAAAA
ACCTCACATTGTCCTTCTTTTTCCCTACTCCTTCACCCTCTTGTTTTCTGTCTGCCATCAAACAGCAGGTCGTATGGATGCTACCTCCAAAATATATCCC
CGGCTGCGCCCAGTCCTCCCTCCCCATTACATCTACCCTGACCTGGCCACCATCTTCTTTGCCCCTGATGACTGCAGCAGCCTCTTGACTGTCTTTCCAG
CTTTCTTCCTTATTTCTCTTCAATCCATTCTCTACTCCATGGCCAGAAGGATTTTTAAACAATGCAAATGTCCTATGTCACTTCCCTTTTTATAAAACCC
TTTACTGGATTCATTTGAAATACAGACCCAAAGCTAACATGATCCATAAGACGAGTGGCCTCTGCCAGCCTTTCCAGCCTTGCCCTTGTTTTACCCATGC
TGGCTTGTGTCAGAATCAGCCCCCAACCCGACTCCATCAACCTCAGAACCTTTGGACATGCTGTCCTGCATGCATGAGGGTTTCTTCCTTCGGCGGCCCC
TCCCATTTGGGCTAATTCCTACTTATTGTTTCCATCTCAGTGTAAAGGACATATCCTCTGGAAAATCCACTCTGATCATTGACCCTAAACAAAGTCAGTC
CCTCTCAGAAATCACACTCATGACCCTTTCAATTTTTCTTTGGAATACTTACCACCATTGTAACACTCCAGTTGTTTTTGGAATGTTTAATACCATTCTA
CCTACTAAACCTAAGCTCCATGAGAGCAGGGCCATGTCTGTCCTGTTCACTGTGGTGTCTCCAGGATATGGCACCCTGGATGGTCCATCGTAGAGGTTGA
ATAAATGAGTGAATCTATCTCGAACACTTTTGTGCCTAGGGCTTTGATTCAAGCACAAGGTGAGAGTGGAGCAGGGTGGGATGTTCTAAAAGACAGAATA
AAGAATTCTTGTCCTTAAGGCCCCTCCTACCTAGTCCTGTTCTGTTTTGTGTTATGATTATCAGCTATGTGTATATAAACTTTCACCAAATAAAGATTGT
TGCTTTTTGAGGATTACGTCTTAAATTTTGTTGTCACACTCACTAGGTTTCATTTCCTTGGATGTTTTATAGACATGTATGTACCTTTCAGTCCCTGTCT
AGGTGGATGCACCTTCCTCCCCTTCCCACTGGTCTGTATCCTTGCGATCCCAGCGTGTGCGGTAGCCTGAACTGCTTGAGTTATGACAGCCTAAGAGCTG
GGCGTTCCTGGCCATGGCTCTTATTCTCTAGAAGCTTCAGCCTTTCTGCAAAATGCGAATGAGATTATTAATGGTAATAATACCTTGTCTATCTTTCAGG
GTTGTTGTGAGGAAAAGATGAGTTCATTTATGTCAAATACTTTGAAAACTACAAAGCTCCATGAGAGTGTTGGAATTAAGTAAGGATGCTGGGGAGTGAC
GAGAGATGAGCAATTGCTCTTAACTACAGAGAAGAAAGTTTCCTGCAGGAGGTGGAGATTAGGAATGAGGCTGGAAAGATGGTGTTTCAGGCAGCATCCT
GGCAGGAAATGGAAGGCAACTTCAGCTGGGTTTTGAAGAGGGTTTAGTAATGGTACCATTTCAGGGATGTGGACAGGAATATGGGACTGAGAAGCCATAC
TTAGACCCTGGGGATTAGCTATTGTGGGATGTCATTTCTAGTCCTGGGCCTGAAGGAGCAAGGTGAGGAAATGAGGTTGTTAGAGCCTGGTGAGGAAGGA
AGAGGGGCTGCCTGACCGTGACCACAGAGGGACCTCAACCTGCCTGAATTGCCACACTGATGCTTCTGGTGCCACCTCTTAGAAACTAGAGGGCTAGGGA
GCTGGGTGATGCAGTTTGTAGGGCCTCACATCTCAGGGMACAGAGAAGGGTGGAAAGTAGGTGAGGGAGGGGCAGGTAAGTGGAGAATAACCAGTGTGGA
TGGGTATTATTTGGGAAGACAGGGAGGAGCGAGGAACGATGAGGATATCCAGGTAAGGATAGTGATGGGAGAAAAAGCAGAAAGGCTGGAGAATACCTAT
GGAGCAGTTGAAGAAATTAGTGGGAAATAGGATTTAAGAAGTTGGCAGGAATGACCAAACCATGATTGTCAGGCTTGGAAGACTGGGCTTTATCCTGCAG
ACAAGGGGGGCTACAGCAGTTGTTTCCACAGAGGAGATCCATTATGAAAASTGTCTGGAGAAATGGTTTGGGCAGAGGTATGTGAGTAGAGGGAGGCAAG
GAATGACCAGAACACTGTTGTGACCACCGGTGAGAATGGAGAGCGCTGGGTGAACACAAGAACCATTGGGAATGGATGAGACTGAATGCAAGGGCATGTC
TACAGGAGACCCCAGGGCACAGAGAAGCCCCAAGCCTGGCATTTCTGAGCAGGATTGCTTTGCTCGATGCCACCTTCTCCCTCTCCTCTATTCTAGTCAT
GTGCCAGGGCTTTGTGACCCGTGCTTTTCTGTTCTTTTCCTTGGGACATCTCTGCTACTGTCACTGCTGCCTCTTCCCTTATTTCTGAAGGTTTCTTCCA
CATTTCTCCTTATTGATTGTATATTATTACTGCAACTCATGAATGACCGTCAGAGGTTTCTGAGCCTACAGGGCTGGGGCAGGGGTGTCTCCTGACCATT
TCAATCTTCTGCCACAGCCTGGRCCWCACAGACAGCTTTAGCATCAGAAGAGATGGCCACACCCAGAGCTGGGCCCCCAGTATCCACAAAGGAAAGTTCA
GCTTAGGAAGAAGAAATGGGGAGAGAACATTTTTCTTCCTTAGCACCTGAATGAATGCTTTGCCCAGCAGGGCTACCTCCCGCCAGTCTCTACCTTTGTT
GTAATGCCAATTCTTATTTAATGTCTGCCAAACACAAAAGGTCCATCAGGATCACGTGGAAAGAAAGTGAAATGCTGGCGGTGCCCCCTGGGTGTAGGCC
TGAAATAAGATGAACAGGAAATAAAACATAACTGCAGGGAAGGCGGGCCCTAGACAAAGAATGGCAGTGGGCTTGCTTGTTCCTCCTCTTTGCTCCCTTC
CTTTCAAGCCTCTTGCTTTGAGAGGGAGAGGCTTGTGTGTGTTTTGTATGGGTTGGTAGTGTGAGAAGGAAGTCAAGATGTTTGGGAAGGATGAATTTTG
AGGGAGGATGTTAAACAGAAGAACAGCCAAGTATGGGGAAGGATTGGGAATAATGGCCCTAAATGTGGCAGAGTAGAAAGAGAAGGAAAAGAACAGAGTG
AAAAGGCACACCGGTTTCAGTGTGGCAGAAGGAGCTCAAACACAGGGTGGGGAGTTGATGAGGGCTTTGCTTGGCTATTTGTGTGCAAGTTATGAGAAAA
TTGCTAATAAACCAATGCAAATCATCATTTATTCATGTCATTAAGCACTATGTTTAGCTCCTTCGTGCATTATCTTATTCTCACAGCAGTTGTGTGAGCT
AGAACTCTATTTTCTATGATTTGCCTAGATTTGTAGATGACTAAACTAAGGCTGAACATGAGTAACTTGCCCATACAGCTGACAAGCAGTACGCTGGATC
TGAAACTCAAGTGGGCAAAACCAGGATGGTCAAGGGAGTGTTCCTTCTGGACATAGCTCCTAGGCATTAACTCCCAGCATATTGGCTGGAGTTAGAGAAG
TATTGCCAGGACAGAGCACATCTCCATCTTCCTCTGTCTCCCCATCCCATGTCTTGTTATCCAGTTTTGTGGCCCCTGGACACCAACACAGTATTCATTG
GATGGTGAAGAACGGTGGGAAAAGCCTGGTCCATTTGGTGTGCACAAARCATCTTCCTGACCTCTTACTGTAAAAGCCATGACAGTTTGCTCCCTATGTT
GTACAAGAGAAAGGATAAAAGCCTTTTGCCTCCAGTGTTACAGAGAGAGTCTGTAGACTGGGCATACTTCCTGAAGGCAAGTCTTTTCACAGTCCCTGCA
CATAAGTACCAATTAGATAATTTTTCCAGCCATTTCCTCATTCCCATCCCAATAATAAACCAATAATCTAAACATACTAAGGTTGAGAACGCTCCTCCCA
AATATCTTGGGTAATTGGATGATCTACAGAACGTATATGAGGACTTGTTGGGTGATGCCCAAGTGCTATGTCTTTGTCTGCAGCACTTTCTACTTTGCGT
GGTCTRTAAAAGACAGCTACAGAATACAGTGTGGTCTGTCTTTGGCTTTGAAGTTGGACATGCTGAATATTATTAATTATTCCTTGCAATACAGCAAAAA
GTTCTGATCCAAACATTGTTTCTTATGCTTAAGTTTGTTGAAAAATTTGAAATCAGGCCTTGTGAATTTGATCATCTAAGGTCTTATTTGCAGAGACATG
TACTTACTCAGGTAGTAATGTCAATAGAGATGTCCTGAGGCTCAAGAAATCCCTGTTTGCATTGTGGTGAGCTCCTCAGCCACATTGGAGCATCTTGGGT
GGTTCCAATGAGGACTTTTGAGGACCAGCTCAGCCCCATGCACAACAGCATGCAGTTTTGCTCTAATATAAATAAAAACAATGGAAGTAGCTATTTTTAT
TGGACTTTTACTATTATAATATGTGCTAGGCACTATGTAGAGGGCTTAAGTTCATTATTTCCAACTCTTACAACTTTGCAATCTAACATTACTACAATTT
TTTTTTCTTAAGATGGGGAAACAGAAGAGTTAATAACTCACCAAAGTCACAGCTCAGTCCATGATCTTAGCCTCTACCAGTTCTGAAAGACATGCCTCCT
GCTGTGTAGTAGTTCCAACAGGGCATGGTTCTGATACTAATCCATTTCCATGATTATGAACAAGCAAGGCCTTGGCAAAATTGTGAGATAGTAAGGCATG
CCTTCTAGCTGCCAGCCCTTTTGTCCTTTCCCTTAGAACCTTTCGTAAAATTCTCCACCCCCATCACCACCATCAACACACTTCTACCTCTCACTGTCTC
CACTAGCAAATTCTTTTCCCCATTGATTCCTTCATTCATTTCGTCAACTGATCTTTATTGCATGCTGACTATGTGCTAGGTACCATGGTGGGCACTGCTC
TAAGGAAAGATTCTAATTTCAGTTACTTCCATTTTTGCTTGATTTTTAAGTCAGTGTTTTTTTTTTTTTCTCAGAAGCAATTCATTCTGAGTGCTTACCT
CTAATCAGAGAATGAAAAACCTTGTCAATTATCAAAAGAATGTGAGACATTAGCAGGCAGATGGTGGGTTTTGGGCAGGTGCACCTCTACTGTCAAGACA
GTTGCCATTCTTCCTCAAGGATAAGATAGACCTGAGGTACACAGAAGTGAGTTCATGCATGATGTGGATCTACCTCCAGAGGCCCTATCCCACTAGATAA
TTTGTAGATTCAATAGGGGAAGGGTGCTTCCTGACTTAGAAAGCAGATCTCAGCCTCTGACCCTATCCTTGCACTGTGGCTGAGTTATGTTTACTGCCAT
AGTTACTATAGTGTATTTAAAGCTATAATATTGAAAGACCCTATGGTTGGCAGATTTCTTCTTGGGCAACAGGCTTATGTTACAGTTCTTAGATAAAGAC
CACTTGTATATGATCATTCTAGTATGCAACCAACTCTCTGTGATCATCTCTGATGAAATTCTAGTTGAGAATAAACTTTTCCCTTGATACATACAGAAGG
CAAAAAAGATATTCTCTAAAAAAACACGCAAGAGAAGATTTCCATCTGAAGGCCAATGCACCAATGCACCTAAGAGCAGAGACTGTCAAGTCACCCTACA
GAGTCTTCCTGTCCCAGGAGAAAACACGACACTTGAGATTACCATACCCAAAAAAGGATGACCCTCTCATGGCCTGGCCACCTATGGAAGCAAGGGAAAG
AGCACCAGAGGAAAGAATAGGTAGGACCCATCCCAACATCTGTAGGGAAGAGGGAGCTCCGTCCAAGGGCTGGACTTTCAGGTCTCTCTGGAGGGGAGCA
GGCTGAACCATGCTACTGCAGCCTAATGCCACTGACTATCTCAGTCACGTGATGCACTCTCCTTGCTCTGATCCATCTTCCAATCACAAATTGACTTCCC
AGGAGGCTTGCCTGTGAGAGGGTGATGGGTTTACCTGAGCTCATGTGGGCCCTGGTCTTTGCAAGGTTTTATTTTTCATTGGAATGCTCAGGTGTAGTGA
GTTCGACCTGAGAAACAATCAACTGTCAGGGCTGATCAATCAGGTTTGTGAGCAACTGACATTGAGGGCTGGACTCTGGAGTAGATAGAGTTTACTCAGG
AAAGCCTCTCACTAGAGGCTTCCYGGGAGAATGCTGTCTGGCCTGTAGGCAATAGTCCTTGATGCCATTCCTTTTCCAGTTTGGTGATACTTGACTCTGA
GTTTTCTTTAAGGCAGCTGGGACAGTTCCATGGAGGGTAGACTCATGCACAGAGATATCATATTCATAACGGCTCTTTGCTATACAGCTACTGCAATCTA
CAATCCCACACAAGATACCCCCTCCTTCAGTTTTTGAGTACACATATAACTGTCAGGTTGACTGAATAAGTTTGCCTATCCTGAGGTCATAAAGACAGTC
TCCTGTTTTATTTTCTAGAAGTTTTATTGGTTTATTTTTCACATTTAGTTTCCAATCCACCTGGAATTGATTTTTATGTGTGTTGTGAGCAGGAGTTAAG
ATTTATTTTTTTATGTGGACATCCAATTGACCTAGCACTATTTATTACAAGTTTTTATTTTCTCTGTTACTGTCTGTCACCTTTATCATAACCATATCCT
GACCACGTGTGTATGAGTTTGCTTCCGGACTCTGTTCTATTCCATTGTATCTCTTTGTATCAAATACCACACAGTTTCTTAATAACTGTAGCTTTATAAT
AAAAGTCATGTGGTGATGTAATTTTTCTAAATTTGTTCTCTATTTTCAGGTTTGTCTTGGTTATTTTKTTTTCTTCTCAGCATTTATGTATACATTTAGC
CTTTAAAAAACATGAGGGCTAGGAGTGCTGACCACCTCCTGGGCAAAAATCCACATATAACTTTTGAGACCCCCCAAACTTAACTACTAATAGCCTACTA
TGGGCTGGAAGCGTTACTGATAACGTAAGCTGTCCATTAATACATATTTTATATAATATATGTGTTATATACTGTATTCTTAAGATAGCTAGAGAAAAGA
AAATCATAAGGAAGAGAACATATTTACTATGATTAAGCCTAAGTGGATCATCATAAAAGTCTTCATTCTCTTCATTTTCACATTGAGTAGGCTGAGGAGG
AGGAGGTTCTTGTTGTCCAGGCCTTCTTATTGTACAACCAAAAGACTGGCAGCTGGTGTTTATCTTTTCCCTTCAAGGCTTGGGGGTTAGCAACTTTATG
GGTACTTTATCAGGAAGGTCCTGATCATAAACCTAACTGCATTTGCACAAAACAGTAGAGTTAGCCTATTCCTTCCAGCCTTAAATCCTGGTGCTCACTT
CTCTCCCTTACTAATAAATGTCCTTTGTGGCATATTTTTTTCCCAAAATAGGGCACTTTGTCTGCATTAAAACCACTTAAGGTAGACATCTTTCCTCCTC
GATGATGTTTTTTCACTGGTGCCTGGGAACTCCTCTGCTGCCTCTTGGTTGGTAGCAGCTGCTTCTCCTGTTAGCTTGACATTTTTTTAAGCCAAATATC
TTTCTAAAATTATCAAACCATCCTTTGCTGGCATTAAAGTCTCCAGCTTTAGATAATTCACATTCCTTTTCCTTTGTCATATAATGACTTCAATTTTTTT
CAAATCAAATTAGTCTATAGGTATGCCTTGCTTATAGCAATCCTGCACCCATGTAAAAGCTGCATTTTTAATATGAGATAAAAAGATATTTCACAAAAAG
TATAATGTTTTTGTACCTGCTGACGTAGCTGCTACAACTACTTCGCAATTTTCTTTTCTTTTCTTTTTTTTCTTTTTTACAATGATCCACATGTTGGATT
CATTTGTCTTGAAATAGCAGGTAGCCACAGCTGTAGGCCTCAATTTATGGCAAATATCAAGCAATTTAACTTTTTCTTATACTGTCATGACCTTTCTCTA
CTTCTTGGGAACACTTCCAGCATCACTAGTAGTGACATTTCTTATGGGCCCCATGATGTTATTCAAGGTTTACAGTATTGCTCTAAACACAGTGAAAACT
ATGCAAGAACCATGAGAGATCACTTTTTACTACAGCATGCAATTTACTGGAGACAATTGCTCACTCAGAGATGATTATTGTCACATGGTGTTTGAAGCAG
ATACTTGCAACACTTGAGCTCATTGCAATAGCAACAGGAGGTGGCTACAAAAATATAGGCAGTAGTACAGTTACACATGCAGTTAATTTTATGCAGTTAT
GCTTTATACTGCATCTCTACATTTGTTTACATTTCTCTTAACTAAATGGTATCATGTACAGTCTGTAAATGTGTGGATAAGTTTTGATACATTTTAACTT
TTTATAATCTGTATATTTTATGGTAGTAAATGATATAGATTAATATCTACATATATTTTGTGCATTCATGACATACCTAACTTTGATATTTCTAGGTTAC
ACAGTTCTGTAAGTTTTTTCAAATTGTTGCAAAYGTCCAAATTTTTTTTCCAATATATTTATTGAAAATAATCTGCATATAAGTGGACCCATGCAGTTCA
AACATGTGTTGTTCAAGGATCAGTTGTATGTACTTTAGAATTATCCTGTCAATTTTTACTAAAAAAACTCTTGCTAGGGTTTTGATTGGGACTGCATTGA
ATCTATAGAATATTGGGGAGAATTGACATCTTTATAATAATATTGAGTTTTCTCATTCATGCAGGTAATATAGTCATCCATTCATTATATACTTTTTCTC
ATTAAAGTTTTATACTATTTTGTGTAGAGGTCTGATATATCTTTTATTTTATTCTATTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCA
GTGGTGCGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCGAGCAATTCTCTGTCTCAGCCTCTGGAGTAGCTGGGATTACAGGCACCTGCCACCAC
GCCTGGCTAATTTTTGTATTTTTAGTCGAGATGTGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGAGCTCATGATCTGCTCGCCTCGGCCTCC
TAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCTGGCTGATATATCTTTTATTAAACTCATTTTGATGCTATCATAATTGGCATTATTTTTAAAGTT
CTGTTTTCTAGTTTTTGTTGCCAGTATATAAATATACACATTAATTTAGCCATATTCAGCTATCTTGATAAATTCACTTACCAATTTTAGTAGTGTATCT
GAAGATTCTTTTGGATTTTCTATATATATAATCCTGTCATCTGTGAATAATGGTAGTTTAATTTTTCATTTTCAATTCTTATTCCCTTTTTATTTCTCTT
ATCTTATTATACTGGCTAGGACCTTGTTATAAATTAAATAGAAGTGGCAATAATGGAATTCTTATCTCATTCACAGTCTCAATGGAAAAGTTTCACTGTT
TTCTCATTAAACATGATCTTTGCTGTAGGTTTTTTATAGACACCCTTTTTAGGACTAAGAAAGTTTCCTTCTATTCCTAATTTGTTAGGTGTTTTTAATA
AACACAAGTTGAACTTTACTAAATTTTTTTTCTGCAGCTATTGCACTGATCATGATTTTCCTCCTATATTCTTTTAATATAGTGAATCACATTGATTTTT
CATTGCAACCTTGGAGTGACATCACCTTTGTTGTGATATGTTTTTTCTATATCATTGGGTTTGATTTTTTACGATTGCATTATCTGTTTTCACAATAGAA
ACTGGCCTATAATTTGCTTTTCTTGCAATGCTCTTGTGAAGTTTTGATATTAAGGTTAGGTTTCCTTAATGAAACAAGCTAGATATGCTGTCTTTTTCTA
CTCTTTGGAAGATTTTGTAAGATTGAAGTATTTTCTTCCTTAGAGTTCACCCATGGAGATATCTGGGCTTGGAGGTTTTTTGTTTGTTTGTTTGTTTTGT
TTTGTTTTTTTTGTTTTTTATTGTGGTTTCTACCAAGTTGTAATTTAACACAGTGGAGAATCAATCTGTTATTTACCATGTTGAAAGAATAGGCTGGGGA
CAGTGGCTCACTCCTATAATCCCAGCACTTTGGGAGCCCAAGGTGGGTGGATCATGAGGTCGAGATTGAGACCATCCTGGCCAACATGGTGAAACCCCAT
CTCTACTAAAAAAATTACGAAAATTAGCTGGGTGTGGTGGTGCACACCCGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCCTGAACYGGGG
AGGCAGAGGTTGCAGTGAGCTGAGATCGCACCACTGCTCTCCAGCCTGGTGACAGAGCAAGACTCCATCTCAAAAAAACAAAACAAAACAAACAAACAAA
AAAAAAGGAGGTGGGGGGAATCATGGAATCAATGCAGAAAAAAATTTAATGAGGTTCAAACTTTCTTTGTTTTGTCTTTTTTATGTCTCTTATAAGTTAC
AGATTTAATTTCTTTGAAAGAGAACCATTAAGCTTTTCTACTTCTTGTGTCAATTACTGTAAGTTATTTTTTGAAGTAATTTATCCATTGCATTCTTATT
TTCAAATTTAGTTGCATAAAGCTCATAATGTCTCCTTATTATCTTTTAAAACATTCATAGGATCTGTAGTGATGTCCTTTTTTCATTCCTGATGGTGATA
ATCTCTGCTTTCTCCCTCTTATTTATTTATATCTATTAGTCTTGCTAGAAGTTTATCAAATTCATTAGTCTTCTCAAAGAACCAATTTTTGGTTTTGTTG
ATTTTTCTGGATTGTAAATTTATTTTTGTTTTTATTTATGTTCTTTATTTCCTTCTAAATTTGAGGGGTTTAATATGCTGTTCTGTTTCAAACTTTTCCA
TGCATATCTTTATATTTAAGGTGTATTTCTTATGAGCAGCATTTTTTTTTTTTCCTAGTGGGAGTTGTTAGTGTGTGTTTTGCTCATCATGGTATTTTGT
ACCTGGAATAGTAGCTGGAACATCCTAAGTCTTCCGCCAGAAAATATTGAATGAACGAGAGAATGAGCACTGAGGTCTTTGTCAAGGGTGGAAGGTGGGA
CAGAGATCATCAGGAATCTGAGTTTGTCCTGCAACAAGTGAATCGGTGCAACTCCCTTGAGGACTTTTGTTCTCTGTGTATTCCCTATCTGACGATGATT
TAGCCAGTCTTCATGCTTATCTGTTTCATGCCAATCCCCCTATCAAGAACTTCTGCTTTCCTTCTTCCCACCTCCATCACTCACAATTATAGCAGTGAGG
GGTGCCACAAGCTTAAGTATATAGCATGTTCTTTGCCAACATTCCCAACAACCCCTCCTTTTCAATGTTCTCTCACAGAAAGATTGCCTCCCACACCTCT
CTTCATTACAAAAGAGCCCAAATGACTCCTGGTATTTTAAGGGGCGCAAAGTTATGACAGTGACAGAGCGATGTGGTATTAGCAAAATGACTCCGTTGGA
TGTGCCATTAGGGCTTTGCATGTCATCTGGGTGACTGCTGTTTTGTCCACATTTAGCTGGGTGAGCCCCAGAGCTGAAGGAGTTTATTTTCGGTGTAGGA
AGAAAAGCTTTTTGGATTTGCCTGTCRGTTCCTTTTATTTTTTTCAAAGACTCCAAAGTTGATATGGCTTTTTCCCCCTGCCTTGCTTCAGAGGCCCAAA
GATGTAGACAATGAGTCTCTGCATGACATTTAATTCGCCTACGGTGCTGTTTTGAATGTTACAGATGAACCAACTATGAATTGGCTGTATGTCTGTATTT
RTATGAATATGTGAGACAAGGGGACTAGATGAACTAGAGAGAAGCATTCTTGGGAAGAATAAGAAGACACCAGCGAAGAGATGGTGGTGGGCATGGCAGA
TGAGAGTCACAGTGGTAGAGGGGACTTCAAGAGATCATCTGGGCTGGGCGTGGTGACTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGG
ATCACTTGAGGTCAGGAGTGTGAGACCAGCCTGGCCAACATGGTGAAAGCTTGTCTCTACTAAAAAATACAAAATTAGCTGGGCATGGTGGTGCATGCCT
GTAATCCTGGTCACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGRAGGTGGAGGTTTCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGG
GTGACAGAGCAAGACTCCATCTCAAAAAGAAAGAAAAAAGAAACCATCTGGTTGAGTCCTTTGTCCTTCAGTAGAYGAAGTGTCCTCATCCATATTTTAT
AGACAATACAATTGAAATCCAGAGATGTTTCATTATTTGAAGAAGAAGTTGGAATCTGATTCTGCTAGCCTGTGAATTTCAAAGGTCAAAGACTATATTG
ACGTTGATCACTGTTGTATTCCCAGCACCTAATTCAGTGAGTAGTACAGGGTAGGTGCTCAATAAATATTTGCTGAGTAAACACCAAATATATACCTACA
GCTGCTGAAAATTCATTTATGTTACACTTTAAGTTGTTCTCCAGAGCATCTGGTTAATCTGGCYCTAAAGTACTACAAAAATTATCAGTTTTTAAATTCA
TAGATACATGATAACAAGTAAAATAAATGGATTTCAGTTTATTAGATGAGGGTTCATTCATATAACAAATTTTTGTTGAGTATCAATATTATATACAAAG
CACTGGTCTAAATACTGGGGATACATCAGGGAACAAAACAATCCAAATCCCTGCCCTCATGGAACTTACATTGTTTACAGTGTAAAAATAAAAYAGATAA
ATCATATACATAGTGCATTAGATGGTGATACAGTACAAGGGGACGGGGTCGGTTTTGGTAGGAGGGCCTGATGGTGTACTTTTATATGGGGTAGTTAGGA
AAGGCCTCACAGAGAAGTTGACTTTTGAATAAAGACCTGAAGAAAGCTAGGGATTAAGCCATATGGACATCTGGGGAACAAGCATTTTGAGAAAGAACAG
CAAGTGTGAAGGCCCTGAGGAAGGAGGGTGTCTAGAGAGGTCAGGGAGGAGCTAGGAGAACCATATGGATGGAGCTTATCAACTAGGGGAGCCAGGTCAG
GTAGAATCCTGTAGGTCATGATGAGACTTTGACTTTAACTTGGGGTGAGTTAGGAAGCCTTTGGAGAGCTTCAAAGAGGTCAGTGACATGATTCAGCTTA
CATTTGAATAGGGTCACCCTAGCTGCTTTGTTGGGAATGGACTGAAAGGGGGCAAAGATGGAAGTAAGGAGACCAGTTAGGAGGCAATTGCAATAATATG
AGTGAGAGATGATGGTGGCTTAGCCCAGAGGGTAGCAGTATGAATGGTGAGGAGGAGTGAAATTCTGGATAGGTTTTGAAGGAAGGAAAGGCTGATGGAT
TTATTGATGAACCTGACATGGGATATGCGAGACAAAGGGGGAGGGTCATGATTATTTGAAGGCTTTTGGCTTGAGCAGCTGGTAGGATGGCATTGTAATT
AACTAAGCTGTGGAGAATGGTGAGAAGAGCAGGTCTGTGTTTTATTRGGGAGGGGGGAAGGATCAGGAACTCAGGTTTAAACGTGAAGTTGGAGGTGGCT
ACTAGACATCCATAGAGGATCTTTTGTAGGCAGGTAGAAAAATGACTTGAATTCAGAGAAGTTTGTGGTGAAAAAATACATATATATCTGCATTATTGTA
GTATATAGTTTTTAAGACCATGAGAATTAGGTGTGAATAAAGCTGATGTCATGAGTTTTATTAGTATATGGCCAAGATAGGGTTTTCTATTATATTCTGG
GGGTCAACTGATTAGCTTCAGGGCTACTAATCCAAGATAGCCATGTAGAGCAAGTATGTGTTAACTCTACAGGTGAGCTGGTGAGGGAAGGGGGTGGATC
AGCTTAAGCCAGCCTCACTGCCAGGAAAGCAGCCTTGGGTGTTGAGTCAGCTCTGCTATCATCCTTTCTGTGAAGGGGAAGACATCCTGATTGCTATTAT
AGATATGAAGATAAACTCACCTGGATAATGTCATTTCACCATGTAGGCACTCCTCATCCACATGTTGAGACATGGGCATACACGTGCAATTGAATTCATT
TCTTGTTTTTCTTGTGATACATTCACCTCAAGGTGAGACTTAGGTAGAGTTGACCAATGGGCTGGAGATCATGTGCTGAGGAAACCCTGAGAACACAGCT
GCTCTCAACTTGTCATAAGGTGTTTCTTTCCAAGGAGCCCCAAATGGATTGTGCTATACTCATGGCATTATGGTTGGTAATGGAGGTGCAAAGAAGTAGA
AGACTTGGAGAGTTCCCTTAAGGAACTTATCTGGTGGACTTACATGAAAATTCAAATAGTAATGCAAGATGGAAGGTGCCAGACAACAGAGGCATGAAAT
AGTTCATATGAGTCATGAGAAATTCTGAGTGAAATCCTAGGTGCCATAAAGTCAGGAAAGGCTCATTCACATAGGAGATTGGGCTTGAGCTGACCTTTGA
GGAGTGGGAAGACTTAAATAAGTAAAGAGGAAGAGGGCTTCCTAGTGTGGTTGTGCAGGTTGTACATAAACAACTCTAAACAGCACCATAAATGTCAYAM
TCCATGTGTATGGCCCCAAGATGGAAAGACACTCCAGGAGGGAAAAAAAGCATGGAAAAAAACAAGGAGATAGAGTTACATAATACATGGAAAGTTTATT
TGGCTGATGCTAGTCAAATATCCATCTASTTATTTAGGAAATATTTATCGTCTGGCATCATTGAGATCACACTGAACAGAGTGGAAGATTCATTTAGGAA
AGCAGTGACAAAAATGTGTGGGCTGTTGCTATTCAATGTGAGGCCTTGAATGTCAAACCAAGGACTTAGGACTTTGCCCCATGGGCAATCAGGAGGTATA
GAAGGTTTTGGATGAGAGGTTGATGTTTTAAAAATAGTGTTCTAGAAGGATATCTTGGCAACAATGTGCCAGATGGCTTGGGTTATGGGGTGACTTGTGG
TGGGGAAGTGAAGGAAAACCATAAACCAGGAAAAGAGTGGAGAGTGTTAAAGGTAATTCAGTATGGGTTAACAGAAAGACATGGAGTCATTTTCAAACAT
ACAGAGTCGACTGTACATTCACCAATTAGGTGCTTGGTAAATGCTTACTATGTCCGTGGTTCTCTAATACATGTAAAAGGGAGACAGAAAAAAATTCAAC
AGTAATAATCCCAGGTATATCTGTGAATATAAAACACATATCCACATTGCAAGTCAGCCTGTCAATAAGGGAGGACAGAACATAGATAAGCAGAATGAGA
TATAGTGAATAAATTTAATAACTGCCAACTAGTTAGCATTTATGGAGCTCCTTAATGGCTTAAAGCATGACTGTATCACAYGAGTTTTTTTTACTACAAC
CCTATGAAATTAGTGTTATCAGCCATCTTTCAATTTCAATGAGGAAACCAAGATGCCGAGAGACTGAGTGACCTATTGTGCTACCTAGCCTTGCACTGTG
CCAAGCTCAGTATCTCTACAATACATAGGTAGGGGAACCTCTAGTTACTGAGCCAGCTTTGTCAGCTGTGGCGAGGGTCATACCTGATGCAGCCATGAGT
GCATCCCTTCCTCAAGGGGCATACAAGACCCTGCCGAGCTAAGACATCCAGTATGGGGTCTTTGTCACTGCCAAGAATGCCCCTGGCCATAATAACTGTC
CTTGAGTAGCAAGAATAGCAGAGTCCCTACTCCCTGCTCCTGGATGAGTTAGGTCAACAGGGACTCCACCAACTCTCCATGGCACTGGTCCATCAGAGCT
GCCTCATGCCTATTTCCATGCCTAGGTTATGCTGTAGGAAGCATTGGCATATCCAAGGCTAGATCTTTCATTTCCTTCCCCTGCGAGTCTTCTGTAATTG
CTTGGAACTCTGGGAAGTCCAGCTTTTGGCTTAGTAGAGGGCTGTTCTTTCACTGAGTCAGGGCCCTTTCATGATGGAACCTCTTCTGATTATGAAGGTA
ATGTTAGAGTAGTTGGTGGGTATATTTGCTAGGGCTGCCATAACAAAACACCACAGACTACTGGCTTAAACAGAAATTTACTTTCTCATAGTTCTGGAGG
CTGGGAGTCCTAGAGCCAAGGTGTTGGCAGGTTTGTTTTGTCCTGAGCCTCTCTCCTTGGCTTGCAGATGGCCCCCTTCTTGCTGTGTCCTCCCATGTTC
TTTTTCTGTGTGCATGCATCTTTTGTGTACAAGTTTACTTTTCTTGTAATAATACCAGTAAGGTTGGATTAGGGCCCACCCTATTGACCTGATTTTTAAA
CCACATCACCTCTTTAAAAGGCCCTGTCTCCAAATATAGTGGGAGTTATGGCCTTGGGGTGAATTTTGGTGGGAGACACAATTCCGATCATAATCCTGGG
GAAGCTCTTCCCACTCCACATTTCATTGTCCTGTTGTCCTTGCTCTCCTAATTCTACTTCCCTTCCCTCACCTTTTCTGGAAGTCTATTTGAGCCTGGAT
CCAGAAGATGCAAGGGAGAGATCTGAAGTGTTGCTTAAAAAAACCGCGACAGCCCACTTATGCTTAGGAGCTTTTTCTGGGCACCTTTCAGCAGCAACAC
ACCCTCACAGTTGGACTTCCTGTGGTGAAGGAAATTTTCTAATTTCTTTTATTAGGCTAATTAGGAAAAGAAAAACAATCATTTTTTCTCAAATCAGATA
CTATAACTGGGACACAATGATTATTAATCATCATCAGCTGCAATTGAAGTCCATTTGGTCATTCAACAAACATTCCCCAACCCCATTCCCACCTTTCCAA
TTATGCAACCCCTCAGTTAAAATCGCCATCTCCAGAAGGCTCTCCCTAACTAATTTGGCCCACAATGGTAAACCCCTTTTCAAAATTTGTGTAACATTTG
ACATCTGTATTACTTATTTGGTATGTATTATAGTGTACCTTAAAATCTTTAATGTACACATATACATAACAAAATAAGTTCCTTAAGGACAAAAGACCAC
ACTTTATATAATTTTTGTTTGCTGGAATTTAACAGAGAGTAGGCACAGAAAAAGTTCTCAAATGTTTGCTGAATGATTAAATGATTAAATAATTTGAGGA
TGGGTATTTTTTGGGCCCATAAATTTAGAAATTACTGTTAAATAACATTATATAGATTTCGTAGATTACAAATTTTGAAAAAATTGAACAGCAATAAAAT
ACATTTTAAATTCAAACAAYATATGGRCATACCTTGGAGATATTGCAGGTTTGATTTCAGACCACTGCAATAAAGTGAATGACAATAAAGTAAATCACAC
AAATTTTTGTTTCCCAGTGCATATAAAAGTTATGTTTACACTATATTGTAGTCTATTAAGTGTGCAATAACATCGTGTCAAAAAAACATATCTACATACC
TTAAATAAGAAATATATTGCTAACAATCATCTGAGCCTTCAGAAAGTCTTAATCTTTAGCTAGTGGAGGGTCTTGCCTCAATGTTGATGGCTGTTGACTG
ATCTGAGTAGTGGTTGCTGAAGGTTGGGATGACTGTGGCAGTGTCTTAAAACGTCTTAGTGTGTTTTTCTTGCTATAAAAGAATACCTGAGGCTGGATAT
TTTATAAAGAAAAGCTTTTTATTTGCCATACAGTTCTGCAATCTATACAAGAAGCATGGCATTGGCGTCTGCCTCTGGTGAGGGCGTCAAGCTGCTCCCA
CTCATGGTGGAAGGCGAAGGGGAGCCTGCCACATGGTGAGAGCAGGAAGCAAGAGAGTGGGGAGGGAGGTACCAGGCTCTTAAAAATTCTAGACAGAACT
AATAGAGCAAGAATGGAGAACTCRTCATCATTAGGATGGCACCAGGCATCAAGCTATTCATGGGAGATCCACTCCCATGACCCAGACACCTCCCATTAGG
CCCCACCTTCAACCCTAGAGATCCAATTTCAACATGAGATTTGGAGGGTCAAATTTCCAAACTATAGCAATAAGAGAAGAATGATGCTTGCTGCAGCCAT
TGACTCTTTCGTGAAAGATTTCTCTATAGCATGTAATGCTGTTTGGTAGCATTTTACCAACAGTAGAACTTTTTTTGAAACTGAAGTCAATCCTCTCAAA
CCCTGCTGCTCTTCTATCAACTAAGTTTATGTAATTTTCTAAATTTTTTGTTGTCATTTCAACAACATTCACAGCATCTTTACAGGAGTAGATTTCATCT
CAAAAAGTAAAAAGCAACTCCTCATCAATGAAAATTTTATCATGAGATTGCAGCAATTCAGTCACATCTTCAGGCTTTATTTCTATTTTTAGTTCTCTTG
CTGTTTTCACCCCATCTGCAGTTACTTCCTCCACTGAAGTCTTGAACCCCCTCAAAGTCATTCATGAGGGTTGGAGTCAACTTTGTTCAAATGTCTGTTA
ATATTGATATTTTTACCACTTCCCATGAATCATGAATGTTCTTAATGGCATCTAGAATGGTGAATCCTATTCAGAAAGTTTTCTGTTTACTTTGCCTAGA
TCCATTAGAGGAATCACTATGGCAGCTATAGCCTTATGAAGTACATTTCTTAAGTAATAAGACTTGAAAGTTGAAATTGCTCCTTAATCCATGGGCTACA
GAATGGATGYTGTGTTATCAGGCATGAAAACAACATTAATTTCCTTGTGCATGTTCATGAGAGCTCTTGGATGACCAAGTGCATTATCAGTATTTTGAAA
GGAATCTTTTTTTTTTTTTTTTTTTGAGAAGCAGATCTCAACAGTGGGCTTAAAATATTAAGGAAACCATGCTGTAAACAGATGTTCTGTCATCCAGGCT
TTGTTGTTTCATTTATAGAGCACAAGCAGAGTAGATTTARCATAACTCCTAAGGGCCCTAGGATTTTTGGAATGGCCAATGAACATTGGCTTTAACTTAA
AGTCACCAGTTGCATTAACCTCCTAACAAGAGAGTTAGCCTGTTCTTTGAGTCTTTGAAGCCAAACGTCGTCTTCTCTACTTACRATTTTCTCGTCTCTA
GTTATGAAAGTCCTAGATGGCAGCTTCTTGCAATATGAAGCTGTTTCATCTACATTGAAAATCTGTTGTTTAGTGTACCCGTCTTTATCAATTATCTTAA
TCTTCTGGAAACCTTGCTGTAACTTCTGTATCTGCACTTGCTACTTCACCTTGCACTTTCATGTATGGAAACGGCTTCTTTCCTTCAACCTCGTGGACCA
AGCTCTGCTAGTTTCCAACTTCTGCAGCTTTCTCACCTTTATTAGCCTTCACAGAATTGAGGAGACTTAGGTTCTTGCTCTGGATTAGGCTTTGGCTTAA
AGGGATGTTGTGACTGGTTTGATCTTCCATCCAGACCACTCAGACGTTCTCTGTATCAGCAAAAGGTTATTTAGCTTTCTTATTCATGTGTTCACTGGAG
TTGCACTTTTAATTTCCTTCGACAACTTTTTCTTGCACTCACAATTTGGCCATTTGGTGTAAGAGGCTTAGTTTTTAGTCTATCTCAGCCTTCGCCATGC
CTTCCTCACTAAGCTTAATCATTTCTAGCTTTTGATTTAAAGTCAGAGAAGTGTGACTCTTCCTTTCACTTGAACACTTAGAGGCCATTTTAGGGTTATT
AACTGGCCCAATTTCAATATTGTTGTGTCTCAGGGGATAGGGAGGCCAAAAAAGAGGGACAGAAATGGGGGAATGAATGGCAGGTCAATGGTGCAGTCAT
AACACACAACATTTATCAATTAAGCATACCAACTTACATAAACATGACTTATGGTACCCCACAACAATTATAATAGTAACGTCAAAGATTGCTGATCACA
AATCACCATGACAGATATAATAATAATGAAAAATTTTGAAATATTGCAAGAATTATCAAAATGTGACACAGAAACACGAAGCGAGCATGTGCTGTTGGAA
AAATAGCATCCATAGTCTTATTAGACTCAGGGTTGTAAAAAATGCAACATTTGTGAAGTGCAGTAAAGTACAATAAAACGAAGTGCAGTAAAGTACAGTA
AAATGAGGTATGCCTGTAGAACTAATCTCGTGTCTTAGATGTGTGAAAAAAAGAAAAGAACACTAAAGCCAGGTTAGAGANTTCTGCTTTCTGCTGTGCC
TTTCATGGACTTTTGAACCTTGGGAAGTTACTCAGCCTCTCTCAGGGCCTTTCACCATTTACAAGGTGAGGCCATGGACTCTCAGATGACAACTAGATTT
ACCTTGCATGCAGTTTTCAGTGTATGGACATGGTTTACTGGAGAAAGATTCTGAGACCATGTCCAAACCCATCTATGAAAAGTACCTGGAATTGTTAGTC
ATGTCAGCAAATGCAGAGGAGGAAGTATAGGTAGTGTAAGTATAGACGTTCTCTGAGGTCCCTCCGAGCAGTAAAGCTCTATGAATTTATGATTCACTTT
CTCTTTCATGAAGAGAAAGCACTTCAGAAACTTATGGGGCTCTGTAGTCATCACCAAGAACATTTGCTTTCATTGTACTGTTAAGTAGGAGTGCTCATYA
GCAGAGATTCTGGTCAACCAAATGCTGGGTTAGTGTAGAGTATGCTACTTGATCTAAATTCAGGAAAACATGCCCAGGGCGTAGGACTTCCATACTACAC
AAATTTTCTTAATTGCATTGGTGTAAAATGTGCAATTAAAAGGGTAATGAGAGTGGTTATCTCTAGGTAATGATTGTGGGTAATTTTTGTTTTCCCGTTT
ATGCTTTTCTGTACTTCTAAATGTTCATATATAACTTTTATAGTTAGAAGAAACAAATCCTATAAAAAAGAATGATAGATACTCTAGCAAGATGAAAGAA
CAAGGAAGAATTTCAAAATTCAGTTCATTTCAGTGAACATTTATCCATTTCATTCAATAAATATTTATTTACCACTTACAATGTTACAGGTACTGCAGGG
GTTACCAGTAACTGATTCAAGAAGGAGAGCTGTTCACAGAGCAAGATGTTTCACAGAAGRGAAAGCTATTGAACTAGGTCTTAYAGGAAGAGTTATCAAT
TGACAGAATATGAAAATGGGGCATCTTGGGAAGAGGAAATGGTACCTGTATCTGGAAAATGTAATGCATTATCAAAGGACCGTGAATGTTTCTGAGAGGG
ATCCTCCTTAGGAGTGGGGGGAGATAAGGCTCGGTAAATGGATGAGGCCCAGACTGTTGTGTCATGGTGTCTAACTAGTGGGCAAAGTAGAGCCACTGCA
GGGTTCTAAGCAGAGGAAGGCCACCATGAGAACAGTGTGTTGGGAACACTGATGTTGGCTTCAGGAGGGTCAGAGGGAATTCACTGGGCAGCACAGTGGT
TCAGGGTAAGGGAATGCTGTATAAGCACCAGGCTTCTTCCCAGGTGTTCTTAATTATTACAAATTAGGAAGATTAAGGTTTAAATTGTGTCACTAACATG
CTTATTCAGTGGGTGAGGCTACAGGTTGCTAAACTTGTTAGAATTGTGATACAATAATCTCATTGTTTTAGTGTCATGTCTTTTCCACCCACCTCTGCTT
TCTCTTTCTAACCGTCTCCCACCCCATGTTATTGGCATTTAGTTCATATTCATTTTAGTATTAAAGKGAAGTAATTATTTCTGTATTGTGAAATTGGCAT
TTGAGATCATTGGAAATATTCTTTAATGCTGTAAGCTAGAGTTTTAAAAAATAGGATTAGTTAAGTCATATTTTTTAAAAGCGAAAAAAATYACCCAGAA
GCTATTGAAGATGATGAGATAAYGAGATGAAGAAGTTGAGATGGACTGTGTGTCTCTTGAGTCAATGTCGATAACCTTTGGAACCTGTCCTAAGTGAGAA
CCTCGATTGCCCTACTGCAAATGCACGTGTTCAGCTGCTGATTCAGGACTGATCACTGGGGGTGCCTCAGAACTTTCCATTTTCTTAGATTCGTCAGCAA
ACTCACACTCAGGGACCTTATGAGACCAAGTCAGAGTAAATGTCCAGGGTTTACAGAGTGGATACAGTGGCTCTGTTTCTCAAGAAGGACTCTGTATAAT
TAAATTATCATTCTTCTATTAAAAAATTGAAATTCTTTCTCCCAGGAGCTCATTGCCAGTGCCTTCTCTGTAGTCTTATAGTCAATTCAAAAATATATCA
CTTCTGGAAGATGTGAGCTTGAAGTGTGAATGCTATCACATGAATCTTCTTTTTATCATAGAAAAGGCTTTTAGGTGGGGTGTTGATGTCAAGATTAACT
CAGAGAAAATTGGCTGCAGTTAGGGCTGAATGATAGTGATCATTCCAAAACTCATTAGGAGTCTAAAAAGTGAATATTTAGACTTTGACCAAAACCCATT
TGTCCTAGAGTGAAATATGGTAGCGAGAGAAAGACAGCCCTGCAACCCCGAAGTGTAGGCGGGCCTTTCTTTAGGAACCAGGCATGTTCTTGAAATCTTG
TGTGTCAATCAGCTTTTTGTAAATGGAATCCTTTTTTCTCCTTCATTAACTTTCCCTGTAATTTCAGCAGTGTTTAACATTCATTACTGATTGATCTTGA
GTTGGCAGTTAACTGCTAACATTCAGATTTGGATTTTAGTGCTTCTTTCTTGATTTTCTTGCCTTTTTTTCTTTGCTCACTTTCTTTCAGCAACTACTTA
AGGAGTAAATACTATGTCTCAGGCCCAGTGATAGGGACTGGGAATATAAGTAAGAATGACAGGTAAACAATTACCGTAGGAAATGGTAAATGCAAATCCT
AGGAGTACAGAGAAGCTGTGGTAGCACGGAGTCCCTSTGTCTGGGGAGGGCTTCCCAGGGCAGGGGTTACTGAAGGATCTGAAGATGTGAGGAGGTGCTT
GCTTGGGTGATGCCCATCCAAGGAAGACCAGGATCAGAGGCAGGTTTGGGATTAACTAACTGGAAGGACTTTGGTGTTGAGGAGTTTCAGTCTCAGGACA
AGCAGTGAAGCAGCTGATGMTCTTTGCTTAGCCTTCTACATGGAGTGAGTTGTGGGGAAAAGTTGTTTGCAACATGTATTTYTCTAATGGCCAGGGAGGG
GTTATTTCACTATTATTTCTCTCCARCTTTTCTATCAAATACACTTGTGGAGTTTCTGTAGTGTGAATTGTCTTACTTCAATCTGTAAGTTCAATCTATA
TTCATGAAGTAGGAGGGCACCCCTAAATAAGATTGAGAGGGAAAAAACATGAATATTTTCAGTTTTAGTGGGAACTCTCATATTTGACTTAGTAACATTA
AAAATGATTATATATAAATTACAAATTTTTTATGGTAAAGGACACCATAAGTAATGTCAACAAATGATTAATACACTGAGAAAAATGACACGTRAAAAAA
ATTCTAATATAAGTATATATAAAGAGCCTCTATAMATTTATAAGAAAAAGACAACATATAGAAATATGGACAAAGGAAGAGAGTAAGCGATTCAAAGGAA
AGGCAAACCATATGGCCAATAAACACCTGAAATGATGCTAAAACTCAGAAAAATGCAAATTAAAGCAATAAATYGGACCAATTCTTTATCCATCAGATTG
GCTAACATGAGTAGGAAGATTAGTGGAATGTTGCCTACCTGTGGTTCTGTGCRTCTGTGTGGGTCTACTTTAATGAGTTTAGATCTAGGTGCTTGTCCTG
GAGGCACATTCACAGTGTGTTTTTTAAATAAGAAAAGCAAGTTACAGAGTAATGTGTATAGTATGATCCCATTCAAAAAAATAGCAAAATGCTATGTGTA
AGTTTGAATGTGCATGAAGATAGGTGGGAAGAAAACACATCGGGCCATAAGCACTTACCACAGCAGGATGGGAATGGGGGRAGGGTGGGGGCAAGTAACT
TTTTCTATATACATCTTTGTATGCAGTTGTATACATATTGCCTTTGTAATTTAATGTACAAAGACAAAATAAGTACCTAGAAATTAAGAACAGATTAGTA
CACTTTTTCTGCTACTGTCTTGCCATAGTGTTGTTCAAACCAGCTAGAAAACAATTCTGTGGTGCCAGGTGAGATGAACTCTCCACCTCTTCCTGAGGGC
TTTGTCTTCATGCATGGGACAAAGCAGTGTAATTAACATGCCCCCCCMCCCCGCCTTAAAACCTAATATTCATTCATCTCTTACTTTGGTTATTATTTAA
AAAGAAAACATTTGTCAATTACTTCACACTGACAAGCACCATCCCACTGAGGGGGCAGGCAGGAGGTCCATCTCACCACCCAGCTGTATTGCAACAACGC
CCTCTCCATCTGGGAATACGGCCCAGGCACTCCTCTGGAATCCTRAACACACTCCAGGCACCTCTCTTCTTACTGAACACCACCTATGCTTGGAGCACCA
TGTGAGAGGACACCTCTGGTATCAGGCAGCTTCAGATGTATTCAGAGAGATTGAAAACTGCAAGGATTCAAGGCATAACAAATGATACACAGACAAGAAA
AAAAGACATTTAGAGTGGGGGATAGGGCCTGAAGGCTTGAATGGTCCTACAAGACTTTCTCAAAAGTCGTCACCCTGGGACCTGAAACATTAGAGCTCTT
TCCAGAGTAAGTCTATTCTCRGCCAGAGGTCTCCAACAGAGGCTGTCCATGTGTACTGGTTTCAAGTTCTGCTTACCTCCCAAGTGTTGTTTTTTCTGAC
CCTGACCTAATTCCTCCCAGGCCAGGCTGGCCAGCACCTTCTKAAATTGCTCTCAGGCAGCTGGAAGGCCTGGCTGGCAGGAGCCCTGGGTTTTTCACCC
TCAGCCCCAGGGCTCTTTGAAGGCCTACTCTCCAAGAACAAACAAACCTGGCCTGACGCTGCATAGCTGCAGAATAGGGGAGCTTTCTCGGCCTGGTGCC
CAGGGTGGCCGAGCTGCCAGCCAGGTGCATGATCCTCAGTTAATTAGGTAACTATAGGTAGTCCTGCAGCCCAGGCTGTGTGCTGATTAGTCTGGGCTGT
TGTTGGAGACCTCTGAGAATAGACTTACTCTGGAAAGAGCTCTGATGTTTCAGGTCCAGGGTGATGACTTTTGAGAAAGTCTTGTAGGACCATTCAAACC
TTCAGGCTCTATCCCCCTCTCTAAATGTCTTTTTTCTTGCCTGTATACATCTGCTATGCCTTGAATCCTTGCAGTTTTCAGTCTCTCTGAATATATCTTA
AGTTGCCTGATACCAGAGGTGTCCTCTCACAGTGTGCTCCCCCAGCATCGTGCTCTGAGCATAGGTGGTGTTCAGYAAGAAGARAGGTGCCTGGAGTGTG
TTYAGGATTCCAGAGGAGTGCCTGGGCCGTATTCCCAGAAGGAGAGGGRGTTGTTGCAGTATGGCTGGGTGGTGAGATAGGCCTCCTGCCTGCCCCCTCA
GTGGGATGGTGCTTGTCAGTGTGAAGTAAACCCTGGAGCACCTGAGGGAGGAAGAGGAGGAGATAGATCTTCAGCTTCCAGGGATTAGACTGAAAGCTCA
ACTGGCAAAATGCCCATTTTATTCCCTCATTGCAAGCTGAAAGTAGAGAGCTGAGGAACCCCGGGCTTGACCACTTTTTTGCATTGACAGATCCTTTGTG
GGAGACACATGATCCACATGGGCATTCCTAGATCCCTTTGAAGACTCCATAAGCCCAGGGAGATCAGATTTACCTCAGGTTTCAAGTAGATCTCAAGATC
CCACTGGAACTCAGATTTTCAGGGGAGTTCAGAATTAGGGCACGAAGTGCAGGAGATGGTATCAACAGCAACAAATCTGTCTGATATTCTAAAAGAGTTC
ATCCCAGTGTAGCCCCAAAGACTTCAGACTGAACCAGATTCACCTTGAATTGAATAAGCTGATGCAATATTGGCAGCTACACATTCTTCATATGACACCT
CTTTTCTCAACTTCTCTTCACCCTGTAGTCTCCACAGAGATATTCCTGAGGGATAGCAAGAGTGGGGAGCTAACCTGTTTCTTTGCACTGAATGAGCAAT
GCTTGTGCCTTTCCTCTTTTCTTGTATCYGTACATTTCCAGAGGAGCCAGTTTATAGAGGGTATAGAGTAACCCAAGAATACAGGTTTGGGAGTAAGGGA
GCTGGCTTTTATTCCAAGTGCTGCCACTGGCTCTCTGTGTCATCCTGGTCAAGGCATGGGGTGGGAGCAGGTGTTGAAAGGAGCCTGCTGCTGGGGATTG
GCTGGCCCCCAAGGAGCTTATGCCCCTCTTGCTAGGATGCTGGGGATCAGGTCAGTAACACCTGTATTTACAGATGTGGGCTTTGTTACATATTTAATAT
TTAATTTAAAAAGAATTAATGACAGTCATAGCCCATATATAACCCACTTCCTGATGTGATTTGTTTGGCCCAGTTTTACAAAGTTGTCCTGTCAGAGGAA
TTTCATTTATAAAGTTCCTTATTGCTGAGCCTCTGTGTGTTCCAGTTATGAGTCACATGTGTCAACACCGTGGAAATGAAATTTGTACCCCCTGGACCCA
TGCAGATTGATTTGATTCTGGGCTAAATGGAAATAGAACCTGTACAAGTCAAATGTTTCTGGAGCATCTGCCATCTACAGGGCACTTGGAGGAAACATAA
AGACATTCAAGACACAATCCRTGTATTCAAAGAATGCACAGTCCAGCCAACAATGTTTTAAAGCTTCCAGTAGTTTCCTAAAAAATACCATAGTCTTTTT
GAGTTTGGAGAATATTATTACTGTTGTCAATTACTTTTTATTAGCACCCTGTATGATATAGGTACTATCTTAGGTKGGTTTCCCTGGAAGTCAGCTCTGC
AAAAGAGAATTGCAAGCAGAACGTCTTTCGAAGTGTGCTTTGGGAAGATACACCTGAGGATGCAAAAAAGCCAAAGTTCAACAGAGGAAAGGCTGACTCG
CACCACCAGAACTGGATGTCCCTTCAGAGGTGTCTCTAATCGAGGCAAGGGGCAGTTTCCAAGGAAGGGTGCAGCAGCTGGGGAATAAGAGTGTCTGCCC
TGAAAGCAGAACCTGAGTATAATATCATGGTATCCACTCCAGGCATTCAAATTCATTCTTATCACCATAGCTAATACTTACCGAATGCTTTCTGCTTGCC
ATAGCTTGAGCGAGTGTTTTAGCTGCACTGTTTCCGATTCATGCAATGTAGAGATGAGGCAGTTAAGGGGCAGAGAAGTGAACTGCACAATGAATACCAT
GGTAGGCAGAGAGGTGGAGAGGGGAATTATTAATAACTGTCAGACTACACTTTTTTATTTTTTTGAGATGGAATCTTGCTCTGTCACCCAGGCTGGAGTG
CAGTGCCACCATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTGAAGCGATTCTCATGCTTTAGCCTCCTGAGTAGCTGGGAATATAGGCGCCTGCCAC
CACGCCCGGCTCAGTTTTGTATTTTTGGTAGAGACAGGGTTTCACCAAGTTGGCCATACTGGTTTTGAAATCCTGACCTCAAGTAATCTGCCTGCCTTGG
CCTCCCAAAGTGTTGGGATTACAGGCATGAGTCATTGTGCCTGGCCTCAAACTGTACTTCACATGTAATTTTCAAAGCGCTATCCCATGATAGGAATTAT
CATTCCCATTGTACAAATTGAGAAACTAAAGCATGGAGAGGTTAAGGGATTTACCCGATGTCACAGAACAAAGAAGAAAGAGGTAAGGCCAGGGTTTTCC
TATTAGCCTATGATGTCTCACAGAGATAACCTGTCCAGKTAGATACCCAGTTTTGGCTGGAGAAGGCATCACAGACCTTGGGTAATTGATGGCCCACCAG
TTTGCACCCCTTTCCATTAATGTGGACCGATCATGCCCTTTGTTGTGGGTCAGTGAGCGTGGTCTTTGAAGTTAGGCAGATGTGGGTTTGAATTCTAGCT
CTCATTTTATGACTTACGTGTCAGTTCACACCTCTAAGCTCACTTTGCTCTTCTTTAAAATGGGGGTGATAATGATGACTTCATTGGGTCATTATGAGGA
TTAAAAGAAATCAGGTATGAGAAATCTCTCAGCACATTCTCCCCTCCCTGGCAAAAGGGTTCAAGGCTGCACAAAGATTATCTAAGGGCAGATACTCTGA
ACATAGCCATAGTTTATTGATTCAGCGTTTTGTCATTTGCTTCCCTCTCTCAAGAGGCAAGAGAGAAAGCGAGACTGTCTTCCATGCAGTTTGCTCAGAA
TTCTAACACTAGCCTGTTAGTCTAATCATAACACATTTCTTCTTGGAAACAAACATAGCAACAGCAATTATATCTTACTTTTAATGTCTAATTGGCTGTA
AACTTGCTTTTACTAAGTTATTTCCATCGAACATGTAGAGCATTGTGCAGTTTGCTTATCTTGATGTCCTCCTCTTGCAGTCCCCATCTTGGCTTTATTC
GGGAGGCCAATTATGTGTATGCTAGCCTTGTGGGTGCCCTAGAAACTCCAGCAAAGGCCAGTGACAGTGTTGTGAGCCTTCTGCYCCTCATTATCCACAG
AGGCAGGAGCCTATCAGAGCCTCCAACCTTGAATTTTTGTGTGAGTTCTGCTTCTGTTCTCCTACTCCAGGTATGTCCCCTCACCTGGCTTCTGGAGTAA
CCCATCCCTGCTCTCTGAACCCCCACTTCGCTGTGCCTTCCTCTGCTTCTAACCCTGCCTCTACGATGGGCTCTCTCTCCTTTTCCTCATAAGCCGATCA
TTCTTTTCCTGCAAGAAGTCCCACAGGGAAGCCATGCCATCCTAGCCAGACTTGGTTATGGTATGACCTGGCGTTCAGAGGACACACCCCAGCACCTCTA
CACTGGCTTTCAGCCAGATATGTCTTCACCGCTTGTTGAGACAGAACAGCTTTCTTCTACCTTTATGCTATGAAGCAGCCTTTCCAGGAGCCCTACTGGG
GCCAGAGCCCAAGTGGGAAGATCCTCCCTTAAGCTTTCCCCTCTGTTTTTCCAACTCCTGAAACTTACATCCTTCTGCAGGCTTCAGGACTCAGTGTAGG
TGTGTCTGATGCCCRGTCATCCTAGAGAAGGGGTTGTGGGAGGGGCTGTACCTGTTGCTATGGCAGCAACCAGTTGAGATCATGAACCCATTTGATTCAG
AGGCAATTGCAAGGTGAATCAATCTCCTTGTCACCCACTCCTCTTCTCCTCCCTCTCCATCTCTCCCCACAGCCTTCTGTCATCTTTCCTCCTCCCCACT
CAACCTCAAGCTTTCTCCTTCCCCAGTTCTCTCTCTCTCTCTTTTTTTACTCCTAGTTATGATACATCAATGTAGCAGCTAAAGCTACTCATGGTAGACT
TCTTATTTATATTATACTTTAGCAAGCATCACCTAAAGGGCTTATTAAAACACAGATTGCTGAGCTTCCTCTAGAGTTCTGATCTGGACTCTGCACCAGG
ACCCAAGAAAGTGCATTTCTGACAAGGTCCCAAATGATGCTGACACTGCAGGTCCAGGGGCCACACTCTGAGAACAACTGCGCTAGACTATGTTTACCCA
GTTTGATTTGGTTGTGGCTGGAATATTCCTCTGCATTTTGATTCTAAAGTATTTGATTAGCTCATTCATCCATTCATAGAACAGATGTTTATTGAGCATC
TATTCAGTGTGAAACACTGTACTAGGTACTAGCTACCTAGAGAAACATAAAACCTTGCCCTCTAAGAGTTCACAGATCTGTACAAAAGACACAGTAAATA
AGTAATTATTATATGGGGTGATAAGTATTGTAATAACCTGCAAATAATAAGAGATTTAAAAGTATACAACCAACTCCTTGCTCRTGGCAAGTAAAATATT
TAGATGATAGGAATATAAATAATAATGACCTATTCATTTATTTTTCTTTCTTTGCCAAGAATTGCCTGAAGGGAACTGAGCTTAACCTATTTAAATAATA
ATATTAACATCTAATGTTTGTGGAGCATTTACTATGTTTCAGATACTGTACCACATACAAGGCATATTGGTTAAGAGTGCTGCGGTCAGACTGCTAGGGA
TATAGTCCTGACTTGTCATTATCTGTGCAACCTCAGGCAAGTTACTTAACCACTCTGTGCCTCAGTTTCCTCATCAGAGGAAAAGGTTATAGTACTAGTT
TCTGCTTCAGCAGATTACTGAGAAGATGAAATGTGATAATGTAGTCAAAACATATATAGTAATTACTCCAAAACACGTTGACTCTTATTACCAACATATT
TTGACCTGAGGCTGAATATCACAGAATTGGCCTAGAGAAATTGATATCTTCCAGACTAAATAAATCTCCAGGATTTTGTCAAGAGAATGGATGGGGGCTG
GACCTCAATGTGGGGATTAGAGAATTCCAAAACAGGCCTGAAAACTCCTTGGAGCACCAGTCAGAGGAAGCAGCCCTACTTGGCTGTCGGAGAATCAGTG
CACCCCAATGGAATATAAGAAAGGCCCTGATGGATGGCCAGGATTTGGACCATGAAACTTGTTTTGGAGGAGGGAGGGGGATTGTCAGGACTGAGGCTTT
ACAGTCTCTGGTTGACACAGCTGAGGAAGGCAGAACCCTCAGGCTGGGGTGTGAGAGTTTCAAGCTTAGCCTTGACCAGTCTTKCCATCTAGAGAACCAG
GGTCACTTTCAGGCCCAAATGCCACGGGGCTGGTGCTGTCAGCATTATCAGAGCGTTTCCTAGCAATGCCCATCAGCAAAGAGGCTGTGTTTTCTGAACC
TTCTCCAAAGAGGCTGCCCTCTCCCCTCTTCRATATGCACCCCCATCCCTGAGAGAAGTGATTTCCTCTTGTTATTTGGAAATCAGGGAGAGAGTTTCCC
AATCTTTGTCTGGGGCTCTACAGGGACCACAGTCCACATTCATGTTGAGTCAGGTCTCTCTTTTCTGTCTCTTAGACCCAGCTTCACAGCTGAGACTGTA
GCTATATGAGAAAGCAGAATCTACCAGTTTTGTTTTAATCCTTTCCTGAGCTCATCAGAGATAAGAGTGATAGAAACTTTCTTCTTACAGAGAGGATTAG
AAGTTCTTTGTGGCAAGATATACCTGGGAAGGGGTTATTAAGTGATCATCCCTGATAAAGCCCCTCTAATCATCTACTAGTTTTGCTATTTTAGTGGTGG
GAAAAAAAACACAAAACCCTAGGCACTTAACTCACTCTTGGGGAAATCTTTCTAATCCCTTCCTCCCTCCCTCCCTCCTTCCCTCCTTCCCTCCCTCCCT
CCCTCCCTCCCTTCCTCCTTTCCTTCCTGCCTTCCTTCCTTCCTTTCTGTGTGTCTTTGTGTCTTTCTGTCTTTCATCCTTTCTGCTTGTCTCAGATTTA
ATCGGAGCCATACATTCCGCTTATTCACTTATTTGTTTGTTCATTCAACAAACACTTGCTGAGCACCTACTGAGAGCTAAGTTGGGTTCTGGGCCAGAAA
CAGACAAAGCAAACCTGCTTCTTGTTCTTGAGGGTGTCAAATATTGTAGAAGTGAACAACATACCAGCCCACAATGATTATGTTGCAGTTAAGTGGTATG
GTGGAATTCAGTGYAGGGCATAAGGGAGTGACTGACTCTGGGAAGGTTTTTTAGTGAAGGTAACATTCAGTCAGGGATTGAGTGGAGGCTTTTCAGGTGG
AAAAGGTAGGAAAGGCATTATAGGCAGTGGGGACAACATGAGCAATAGTGTAGACATAGGAAAGAATGTGGCATAGAATTGCAAGAAGCTGGATGTGGCT
GTGTGACTTGGTATACAGGTAGGCAGATGCTGTGAGAGACAGATGAGCTAGAGAGGSTAGGTTGGGTCAGTCATGGTAGGGGATTGGCATGGGCAAATTC
CCATTTCAAGGTATTAAGCAGGGGAGAGACAGGGCAAGATGTGTTGGTTAGAAATGACAACTCTTCCCTGCTCTGAAGAATGAAACCAGCTGTGCCTGGG
AATCACTTGCCCSACTTTACAAGATCTCCCTGGCAACAGAATGGCTGTTGTACAACTAGCCAGGGAATTTGCTGTGACAGTCTTCCAACCTTATCTGACA
TCCAGAGCAGGGAAGGAATTGCCAAGTTAGGGTATAGATATCAAAGGAATTGAAGCAACACAACATTGGAATAGTATTACAATATGAAATTAGAAACTAT
TTTCTCTGCTGGCATTGTTGTAAATACCAGCATCCATCACTCCCTTCTCAAATATATTGTAAGTTAAAACATTGCTATTTTTATCTCTAACCCCCTTGCC
CTCTAACCCAGGCAATACAATATAGCTTCTTGAGGAGAGGCCCAAGCTGGGTGTGGATTCCGAATCTTCACCCAGCTTCACATGCTTATTGTGGGAGCTT
GGGCACATCCCCTGTGCCTTCTGAGCCTGGGTTGTGTTGTTATTGTTGCTTGTTGGTTTGTGATATGGTTTGGCTGTGTCCCCGCCCAAAATCTCATCTT
GAGTTGTAATCCCTATAATCCTCACAATCTCCATGTGTCAAGGGAGAGACCACGTAGAGGTGATTGACTCATGGGGGCAGTTTCCCCCATGCTGTTCTCA
TGATAGTGAGTGAATTCTCACAAGATCTGGTGGTTTTATAAGTGTTTGGTAGTTCCTCCTGCATTCATTCTCCATCCTCCCTCCTTGTGAAGAAGGTGCC
TTGCTTCCCCTTCTACCATGATTGTAAGTTTCCTGAGGCTTCCCCAGCCATGCTGAACTGTGAGTCAGTTAAACCTCTTTCCTTATAAATTGCCTAGCCT
TGGGCAGTTCTTTATAGCAGTGTGAAAACAAACCAATACAGTTTGTTACATGTACAATTGCAATAGCACCTCTCTTGCATGTGGTTGTGAAGATTAATGT
ATGCTATGCACCTGGTCCAATGTCCAGCTTAGAGTAGAGTAGATGCCTTTTTTTTTTTTTGAGATGGAGTCTCGCTATGTCTCCCAGGCTGGAGTGCATT
GGCATGATCTTGGCTCACTGCAAGCTCCGCTGACCAGGTTCACGCCATTCTCCTGCGTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCTGCCACCATG
CCCGGCTAATTTTTTCGTATTTTCAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCACCTTGGCCTA
CCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCAGCCGAGTAGATGCTTAACAAGTGGAAACCATTATTATTTTTCTCCCCTTCGATACATGGAG
CCTTAGGGTCTAAGTGACAGGAAAATGTTCAGATAAAGATGTTTTAATTATGTCTTCTTAGTACTTCCAGAAAGAGGTCTGCATGGGTTTAGGTCAGCTC
TGCCTTCCGACAGCTTACGTGCATTCTTGTGTTGCTCTCCCATCTTCACTGCTCTTCCTACATTCCACCCTAATGAACGGCAGAGAGAGCTATGCAAAGT
GGTCAAAGTAAAAAGGGATTCTTTCCGATGTTTCCCAGATTGGAGAAACAATGAACATGATTACTTTATTATCTCTGTTTTGTTTTAATCTTGTTGTGCC
CCAAACTAATGGGGATGCTCATTTGGAATGAGCTTTGTGTATCTTTGGGCAAAGAGGAAAACCAAGATGAATTTCTAGGAGGGCAGCAGGAGAGTGAATA
AGAGAGTACAAATCATCACAAATCAAGAGATGAGTAAAGAGAAGGGGGTTGGGAATGGCAGAATTGGAACCTGAGAGTTAGAGTCCATGAGAGAGAGGAG
AAGCAAAATGAGAAATATGGAGTCTGAGTGGGAAGGAACCCCACATCTGTYGTCTGATACAGGCACCTACTCAAGGGAGGAATTCGGCATCAGTRTCCCT
CACAGATGGTTGCCTGACACAGTGATTTCTATAAATAACAATTATATGGCACTACGGGAAGTGGATGAGGCTACTTACAAATGGAGCTGACCAGCCTGGG
GACTGACTGTCCCCAAGGTCTGTCAAAGAGGTGATGGGAAGATATTTTGTGCACATCTGTAGCTCAGTGTGCTATGAGAAACTGACCTCATAGGGCCATC
TTGGAGTGACTCACCCATGTACCTTCAGGCCTTCAGGTGATTAATAGGCATGTAGGACTGACGTTTCATTATCACTGCATCAACGCTGATGTAGACTTAT
TGAGCATGTCTTCCATTGATGCTGTCTTGGGTTCTGGAGATACAAAGACTTACAAGCCATGGTTCCTTGCTTTCAACCTGTTTTTRTTAAGGAATAGGAG
TGTTTCCTGTGGCCACAGAATAAACGAAACTAACTGTCCTGGGGCTTCTTCAGGAAACCAGTGGGGCTAACCAGACTTACATAGTGTTTGATACACAATC
ATTAATTAAAACAGAGATGTTCAATGATAAATTAATTCGCCTTCTGCTCAGAATTCATTGAGGAGGGAAGAATGGAAGCCAAGAAAAATGATTATCTGAA
GCTTTTTTCTTGAGCGTCTGCCCTTGTAGGCTGTGCTGAATATTTGAGTGAGCTAAGTGTACTTGCTGTATGTCAACAGAGATGACATTTTACAGGTGAT
ATATTTATTTCCAGAGAAGGAAACTTATATAGGCTTGTGAAGCAGAAGAATGCCAGCAGGTTTCTAATCTCCTATTAGTAAACAACATTATCGAGAATCT
CCTGTTTGTGGAGTAATATTCTAGGCATTTGTAGAGTGAACACAGAAATAAAGATGCAGTTCTGTCTTTAAGAAACATTCAGCCCTAATGGGAATGGAGG
ACCAATATGTAAAAGAGACAGAACACATATAAAGAAGGTCCATAAATAAGTGCAAATAAATGCCTGAGTGCAGCACTTAATGTTCTGTTTTCTATTATAG
GTATTTGTACTCACGACTTAGCCTTCTTATGGATACCAAAGCCCTTGAGAACTGTTTTCCTTTCTCATTCATCTTGTGCAGAGTACACACTCAAAAGTGT
TGAATGAATATGTATGCTACTGTGAGGTGTGCCTAATTGCTGGGGGAATTCTGGAGTGAAGTAGAATGACATGTTTAGGGGAAACCTTATAGCGGCTTAG
CAGTGTTTTCAAGTATGAGAGGACTTGTAATTGGTGGAGTAAGGGGACAGGAGGGAGAAGAAAGAAGGAAGAGTTCACGGGGACTGAGCAAATCCAAACA
ATTTATGCCACCATTCAGGGTCCTCCATGATCTGATCCTTCAGGTCTTACCTTGCCTTGCTTGCTGCCACCAAAGGCAGCCCACTGTGGCCTTAGCATTC
CCACCTCTTTCTCTCTCCTTGGAATGTCTTCCTCTGTTGATTGGCCATCTGAATCCACCTTCCACTTCATGTCTGGGTGAAAGTAGAGTCTCAGGAAGCC
TTACATGACATCTCTATCCTTGCTCCTATCTTCATTAAATGGCAGTGTTTGCAGGTCTGATTTCAGTGGTCTTAACCTTCAGAGGAAACGAGAGACAATC
ATGGTCTTCAACCTCGGGTAGCTTTCAAATGAGATCATGAGGCAACACTAATTTTTTGTTTTTTTTTTTTTGTTTTTTTTTTTTTTTTGAGACAGAGTCT
CGCTCTGTCACCCAGGCTGGAGTGTAGTGGTGTGATCTCGGCTTACTGCAACCTCCGTCTCCTGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCTGAGTA
GCTGGGACTACAGGCATGCGTCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGA
CCTTGTGATCCGCTTGCCTCTGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCTGGGGCAACACTAATTATATACAAAATAATAA
GAGGGAGCAGGGCTGTATATAATTAGGTGCTAAACAGAGTAGACAGAACAGAAGAACTGTGCAGAGTTGATTGGAGGTCAGAAGTCCTGCATTCTGGTTC
TACTTCCRTACCCAATAAGTGGAGTACCTTTTGGCAGTCACTTGGCTTTTGAACCTTGGTTCTTCTGTAAAATGAGGGGTTTGTGCAAGATGCTGTGATT
YCTTCCAGCTCTAGAATCTGCAAGATGATAAAGGTTAGAGTACTCATATTAGACTGAGTGGGAAATAGTGATTTGTTAGTAAGAGGGGAGAGGGGAACAT
CAGGAAAAGCAATAAATGATGGCGACCAGAAGGAYTGATTCCTGACAACCATAGGACAAAGTGGAGAATCAGAGAGGGACTGGTTGAAGAGCGGTTACCT
TGGTATTATCCAGCATGTTCTTTCTGGAATAGGATGGGCACTGCACAAAACGTTCACAATAGAGGATATATGAAGCCTCCTGTACTCTTTTGCGTTTCTG
ATACTCACCTCCCCTCTTGTTTTCAGAGCCCTTTCTGGTGCTTGCCACTCTTTAAAGAATACAAATCTCTCATCAGCAAGCCCTGTAGAAGGGGCAAAGG
GGTGATGYRCTTTAGCTCATCACCACTGGGCACGTTCTCTTTAATCYTCTCTTAAATTCACCTGCTTTGGCTGATCTGCATACAGTGGGAGTGGTGTCAG
ATCAACACACTGGCCTTTTCCCAAAGCAAAGCGGGATCCCAGCCTGGATGGCCCAGCACAGGGTCAGCTGCCTCCATCCTGGCCCCCCAGAGCATCTGCC
TCCCCAGCACCCTGGGCTGCAGTTGCAGAGGGCCTTCTTTTTAATGTTTTTCTAATAATCAYTTTTTTCAAACCCTAAAACAACACTTTGTTATTGCATG
ATAGTTGCAAAAATATAAAAATAATTTTTAAGAATAACTCATTTCTACCCCCTCACTCCCCCCACAGGTTATCATCACTATTATTAATAACATTTTTCAC
TGTTTTGACTAAAAAAGGTTTTCTTTTAAAATTCACCCATGACCCAGAACTATTTAAATAAACTAATTTTATTTTGGAGAAAGACCCTAAAACTTTTATT
ATAGAGATTTTCAGTCATGCACAAAAGTAGAGAGAATAAAATATTAAACCCTATGTAACCCACATCAGCCCCAGCAGTTACAAGAAGACCTTAAAGTCTT
TAGAGGATCYGGCATCTCCCTGTTGGGCTTCTGTGTCAGAGTTCAGAAAGGGAGAGGGGAGGGACAGGATAAATATCACATGACATCAATGTTGGAATTA
CTAGGATTTAAGCAGAGGGATTTTAAGCACAGCAGGACCCTGAGCCCTGCCCATATTGGAGGTGCCCACTTTTGCAGACCCTGCCACGGCAGCCTTCGTA
GTCCTATGTGGCACCGCTCTTTGCTCTTGAATTGTCCTCCCAAGAGCGTGGATGGGTTTTCACTGACACACGGGTACCTGCCTGCCCAGTGCCAGTGGTG
AGGACTGCCCACATCTGGGGTGGGCCATGCCAGCCCTTGCAGCTGACCGGCCAGAGCTCCTGACCCTGGTCTCGGTAGCATCGTGTGGCTGCTTGTAGGT
TGGGTGGAGGAGTGTTTCTTTCTGTGCTCCTCCTCTTTGCCAAACACTCTGCTGCATTTTCCCACTGGCAAAAGAAGGGGAAGAATAGGTGGTGAAATGT
GGTTCTGGACTGAGGCACTGCTTCATCCTCAGTGACAATCACTGACATTCTTGGCAGCGGGGAGATGGTGGCTGCATCAAGTCCAGAGGATTCTGAATGA
CCWGAATGTGTGGGAAGCCTTGCTTACTCATAACGGCCCCTGGCTAAGYCAGATGCTGCCTCCAGAGATTGTTTGTGTGGGGAGACTTAGTATGTTTATT
AAATATACTCAGGGCTCCAAGTTACAGTGAAACGCCCTGCTCCTGGGCCTGACAGGCTCAGCCTCCTGGCTGGGTGGCAGCAGGTGCCTATGTTTCACTT
GGAGCTCTAGGTCCTCATTCTTTCCCCTGCTCCCCAACCTTTGCCTCTTGCCTGGGKGCTGAGAAGACAGCTTTCATTTTTCTGGCTGTAAGATCCTAGT
GGTGACTGTCCTATCTGTCTTTTGTTCTGCCCTAGAAGGTAGTAATAGTATGGGTAGGATTGCTTTTAAGAGTTCTGGAACTAAAGCAGACATGAAGAGT
CAAGGGTTTGCAAGAAGTTGACCCATTTTGGTTCTAGATTGTGGCCCCAGATCTGCCGATAAGTTGCTTGGATCCTCAGGGAAGTCGCTTTGCTTCCTTG
GGGCTCAGTTTCCTCTCCTATGGAATGATGAGTTGGATGACTTGTTCTCATCATCCTCTTCCAAGAGTATGACTGGATTTCCTAGTCTGCAGGAAACCCG
TTATAGGCATTTAATTGCCCAGTGATGTGTGGGKTATGCTGTACATTGTATCCTTTTCCTAAAATGTGGGTGTGGTCAGAGGAATCATACCTTGGCTTTG
AGGTAGAAACACCATCCAACTGGTGTGACTCAGGGGAGGGGTGTTGCCAGCTTTGTATGGTGGGTCAAAACCCTGATAGAATGCCTTAAATCAAATTCCC
TAGAAACTGATTGTGAAACTGAGCTTCTTGTGGCAGTGTTTTAATGAGGGACTGCTCTTAGGAGTTACCTAAAGGTATGTGAGGGAAGCAGGATAGGTCA
AGGGAAAAACTAGGCAAAGCCTCAGCCTGGTTCCATGGGCAGCCCAAAGTGTGAATTCCACCACAGCAATTGTCTTACCCAGTGGCAAAAGGGCCGGGCC
ATTGATAACTCCTACATTAGGTAGTTATCTGTTACAGCCCCCCATCATCACCAGCAGGGGCAGGAATAACATTCCAGGTGAAGCTGGTCTGTCAGGCAAG
GGCAAGCATCTGAAAAGCGTACAGGAGCAAGGCAGGTGTGAGTTATTAGCAGCCAACAGTTACRTAGCAGCTGGGGGATGAGACATGGGCCAGAATGCCA
CAGAGCCTGCCACGTCCTTACTGGTGACAGCCGCGCAGGGAGGAAGGCAGGAGTAGGGTGGGAGAGGGCTGTCCTGGGTGGCTGATTCCTGTGGATGGCT
CAGCACATGCAGGAAAGTGTTCAGATGGGATTTCCAATTAGGTCAATCTAAGTGATTGTTCTAAAAGTTGGGATGATGTTACATTTGGGGTGGGGGATAG
TGTGCCTAGGAAGGGACGTGAGGAAGACCTTAAGGTTATCTAGAGGCTGGTTGTCCAGTGATATATATTTTGACAAAATCCGGGGTACCTTTATGACTTG
CATTTCAGCATAACATCCACACAGAGCTCCAGGGCGCTGCTACTGCAAGGTAGTAGCAGTTCATTCTGAGAGGGCGTTCCCCACCCTCTTTTTTCTTCTT
ATAGGTCCCCCACTTCTTGGCATGTCTTCATCTTAATCTTTTTCTCCATCTTTCTTCTACCTCCATAATTAATCTTTTCACTGCCTTTCTGGCTTCTGCT
GTCTCAGCGAAGGTAGTTTCTTAGACTCCCGTGTTATTGTTTTCCCTGAAAACTTCAGCACATCCTTTTCTGACTTCCCGGACCCATGCAGGCCCACCTG
CCCCAGTTCCCTGTGCTCCCTTCATAGCACTGACCACACTCCAGAGTTAAAGTTACATTTGTGTGCTCACTTGCTTCATGGGTGTTTCCCCCATTAGATC
ACAAGTTTCAAAGAGCTGGGACTGAGACTGTCTTGCTCATCATCCTTAACACACAGAAAATTATCTGTCACATAGTAGGTGGCCCATGAATGTGTTGAAT
AAAAAATATGGCATTTCAGCTCCAAGACATGGAATCCAAGTCCCTCGGGGTGGGACAGGAGCTGTCATACTTGGTGCTGGAGGAAATGGGAGCCTAGGGG
AGGGTGTGCTGGCCTGTGAGGTGCAGGAGGCCAGGTATGTGTCTGTGAGGGAAGGTGTGAAGTAGTTGAATCAGTCCCTGGCCTCTTTCCTTCCCCACTC
ACTGCTCTGTGAATTTTCCTTTCCCTAGGAGTGGTCAGCAGAGGCTTTGGACAGATGCTTCTGCAGAGATGAATGGCCTGGCTTTTTTGYTAGCCTATGT
TGGCTGCTCCAACCCTCTCCTGGCCTGAGCCGAAGATCTCTCCTCGAGATGGAGCCTTGAGTCCAGCAGTTCTTAATCAAAAGTAATCTTGTCCCCCAGA
ACATTTGGCAATTTTTGATTGTTGCATCTGGAGAAGTACTAGTGGCCTCTAATGGGTAGAGGMCAGGAATGCTGCTAAGGCACACACAGGAGAGCCCCCA
CCAAACAGAACTGTCTCTCCACAGGTGCTGGCAGTGCTGCAGTGGARGAAGCCCTGCCTAGGCCAGCCCTGATCTAACCAGCAGGTGCTGCTGACAGCCT
CTGGAGCAGGTGTTCCCCAGAGACCCTTTGCTTCTGAAAGGACCATGGAATCAGCATCTGCCTTACTCCCAGCCCCAACACACTCAGCCTCCCCACTCAG
TCATAGGCAATTCAGCCTCCCAGGTTACAGCTGCTCTGTGAAGAGGGTGCACAGACAGGGAGAATGTTTTCCATGGAGCCCTGGGGAACCCTGTTAGAGA
CCTGTCTCTGGGGCTGGGGGCTGGGCCCTGCCTGCATAGCTTCAGCTCAGGGGACCCATGGGGCCCCTTTCCTCCTGCTTGCTCTATCCCCATCTTTCTC
TCCAATCCTCCTCCCACCCCACCTTGCAGCATCTCCCCCAGTCCCCTGGAGATTAATGTGATAATTACCATGTGTGCCTGTTTACGCAGGGAGTGGGTGA
GCTCACCACCCCCATCAGTCAGGTTCCCAAAGGAACACATTCCCACAATGTCAGGACTGGTACCCGCTGAGCACTCCTGTGCAGGTGGGCTGCCGCCCCC
GAACTGCTTTCTCTGTCATCACCCTCGTCGTGCACACGTGTGCATGTGTGTGTCACTCAGGGGATCGGCAGGTGAGGAAGATGGAGAGCAGCCAGTGTGC
CAGTCTAGGGAAGGGCTGGGTGGGGAGGGTGTTGGGAGATGGGAGGAGCATCAGTGCYCCATGTAAGAGGACACTGACCAAAGAGAAGCACTCTCCTATG
ATGCCTGACTGATAGTAGGTGTTGCATGAGTGGTGTGGGATGGAGGGGCTGGCGTCTTCTGGGCAGCATTCTTTGCAGGGAGGGCCCTGGTTTCCCTTAG
CTGCTCCACAGTAGAGGTCTSGGCTGTGAAGGTTCTCCTGGGGCCAGAATCTTGATTGGAGTACTTAGCATGGCTGTCCCGTGTTCCTGAAGGAAGAGTC
TCTGGGGAAAATAGAGTGCAAGTCTTACATGAAAGGAGCTTGCGAGAACTGCCACTCTGTCACAGAAGYTGGGGGGGATGCTGTAGAGAGAGAATGAGTG
ATTCTCCCTCTCACAGGCAACCCTCCTCTCTTGCACCTCCTGCTGAGACAGACACGTGCACACCACGAGAGAGAAAACAGTCACAACTCTGTGGTTGAAC
TGGCAGCTTCACCCCGACTTCCACTTCACGTGCTTTCTGGGTACTTGCTGCCTTGAGTTGTCGGTTGCTGCTGCTTTTTTAATCTCAAAGGACGCTTGAG
TCATTGTCTCTCCTACACTGGACAATTTTGTTTTAATAATGATGAATCAGAAGGAGATTGAAGCCCCAACTGGCATCAGAAAGAACCATGCCATTTTGAA
AAAGGGAAGCATGCATTCCTTTGCTAGCCTGCTTCCTGCCGAGGTGTGTCCCTTTGTCCTACCGGGTGTGTCACTGACCCGTGGACAAACATGCAAGGGG
AGTGGAAGCCAGTTGGCCAGGAAGAATGAAACAGGAGGGAGAGGAGCAAGGTGTGGAGAAGGGTGGGGCAAGCCTATTAAAAGGTGTGTGAATAACCTAC
AGGAGCTGTCAAGCTGCTTTCTCCAGAAGAACCTTTTAAGCTGTCAGTCATCTTCAAGAACCCCCAGGGCCTTGCTGGTGCTGGTGTCTTCCCAGCTATG
CTTTTCTCCTTCTAGTTCCCATCCTCCTCTTTTTTCATCCAGCAGGCCCCACTGTGGTGGATAATGTTTGCGGCAATTCAGAGAAATCTCCACAGATTGA
GAGGGGGCTATGAGAATGAATTGTATCAGTGTATTTTTAACAGGAGAATCTTCATATTAGAATTGTGGACGTTTTTTGATTAGTCGACCATCTATGCATG
CCAAACCCTTTGTTAGGTGCCAGATACAGAAATGAGCAGACAGTTAAGGTTTCTGCCTGAATATAGGTTGAAGCAACACCAAAACATACTCACAAAATGC
TGAATCAAAAGACACTGCTCGTCATTGGTTTTTTATAGAATTGAGAAACACATTCCAGATTCTGACCCACTGTAGTTCCTACATTTCAAAGGCTATGTTC
TTCGATGTGTTACTAGATTTTCTCTGAAAATGAGGGTTTCACTATGATCAAAAGTGTTTATGAAATGGTGGAATAAACAAGGTAAATAATGTTCTTTTTT
TGTGGATCTTCTCACGGGCTCAGAAGAAAATATAATCTGCTGTTTCCCAAATTTCTTTGGTTACAGAAGCCCCTTTTCCACAAAATACACTAACTTCTTA
CAGATCTCTAGCAATGAGAACAATGTAATTTTGGACATCCTCATTACAGCATCCCTGGCAAGTAGTCACCCAAGTGAAATTGCTCTGAGCCACCCTCAAA
CTGTAGCTCAATTATTTAAGAACAAAATTATCTTAAAAGTCACAATTTCATCATTGCTATTGCTGATACCTGCTAATGTTTGTTGGCAACAAAGTCCTAT
CTGGGTGCTGGGTGTAGACTCAGTTTTTGTTGCCAAGGAATGTTGGGGTGCTGGGGGGTTTGGCCACTGGCTAAGCCATAGAGTGAATAAACCCTGTTAA
TCTGGAGCTTTACTGGTGAACSATCAGAGCTAGCCAGCCTTACAGAAGGACTGATTTGTAATCACAAATAAACACAGAGCTAGCTATACAAATATCATTG
CAATTCACTTTTCAGCTCATAGGGAAGGTCCATGTCTTAACGATCTCAGAGAAAACGGCTTCCTACCTCCCTTAAAACCCTCAACAACTCTTGGCATCTA
GTTCCTTTGGATCTTTCTACTAATATTCAGGAACAGTTTTCTCTGAGGTCTGGCCCACATCTTCCCTGATTGTATTTAACTGACCAGACCTGATTGAACC
AAAGAGCTCCATCTTACACACTGAAATTGGCAGGTCCCTGCATCTGTCCCTTCCCATTCAGAAAGTGTTTTCTTGTTTACTTTTAACTTTTATTCTGCTT
CAATTGCAATTATCTCTCTCTGAATAGTGTAGGGGCAAAAAAAAAAAGACACAAGTGTGGTGAAAGGAGATTGCCTTAGAAGCTGTTTTAGTGGGGTGAT
TCCTCAAATACCCCAAAACAGAACTAGCATTCAACCCAGCAATCCCATTACTGGGTTTGCTTACAACCCAAAGGAATATAAATCATTCGGTTATAAAAAC
ACATGCATGCATATGCTCATTGCAGCACTATTCATGATAGCAAAGACATGGAATCAACCTAAATGCCCATCAATGACAGAATGGTTAAAGAATATGCAAT
ACATATACACCATGGAATACTATGTAGCCTTAAAAAAAATGAGAACATGTTCTTTGCAGGAACATGGATGGAGCTGGAGGCCATTATCCTCAGCAAACCA
ACACAGGAACAGACGACCAAATACTGCATGTTCTCACTTATAGGTGGGGGMTAAATGATGAGAACACATGGACATATAGAGAGGAACAACACACTGGAGT
CTTTTGGAGGGTGAAGGGTGGGGGAAGGAAGAGGACCAAGAAAAAAGCAGCTATTGGGTACTAGGCTTAATACCTGGGTGATGAAATAATCTGTACAACA
AACCCCTCTGACATGAATTTACCTATATAACAAACCTGCACATGTACCCTTGAACTTAAWATAAAAGTTAAGCTGTTGTTAATGGATGAATCAACTATAC
AGTGATAGCTTCCATGACTGATAAGAGGCTATATTCTGTGGACTGGAATATTTGAATGGGAGACAGAAATGAGATAATTTGGAAGAAAACAAGAGAATGT
CACAGAAGTCCACAGGAAGCATGGGGACAATGAATCAAAATATGTTTTCAGAATTTAGTAGTGAGAGGGGGAAAAGGTAAATTGGAGGGACAAGAAATAC
TTTGCTATAGAAATTCTGAGTTCTGGTCTTAATTTTACTAATTTAGCTTGTGAGTTTTAGGCATGGCATTTGACTTTGGCCTTGTTTTTCCAGTGAAGTA
GAGATAAAATATCTGTTGTAAGTTTCAAATGGGTCTTAGAGTTTGTGTGTGAGAGAGTGGAGTGGGGGTCGAAGGGATTTCAAAGCCCTGCATATGTGAA
ATGCAATTCAGAAAGACTATTTGGAAAGACTTCGAGGTGCTGTCAGGGGAGGAAGAGTCAAAGGGAAGACTGAGAACCCTTAGTTGAGTGGTACAGCTTT
TAGAGAGACTCCCAAGCTCTATTTCAAGGTTCTAATAAGATATCCTGCTAAGAATTGCTTCTTTGTTTAAGTCATGAGATATAATTCTTCCTCAATCCCT
GACCATTCAAGGGTCTTGCATCTGATTCATGATTCGAGAATCCGGAATATGGATTTGCAGGCATTTTTTAATTCACTGAGTGTTAACATTAGAGTGCAAG
TGATCACTCTTCAAATCTAGATTTATTCCTTGTTCTGGCCAGAGCCTTGCTGGGGCCAAGCCTGGGCCAGCTCTGTGCTATTGTACTATGATGGAAGAAA
GCAAGCTGAGCGTGGGTCAAGGGCTGAGCAAGACGCAGAGGACCCTAAAATGTCTTCCAAATAACCCTGTCAAGGCCTTTGCTAGCATCCATGGAATAGA
TTGGGCACAGCCTGCCTTTGTCTTTTTGAGAATTTGCCCAATTTTGTGTGCAGAGGCTTAGAACCCACATTACCAAATGCTATAAAACCAGTGGTTGTTT
GCGTGACCTTGGAAAAGTATCTGACCTTTCTGTAYTGTCTTCTCATGTGCTAAGCAAGAGTGTGAGAATATTCCAACTCAGTATATTATGGTGAGGCTGA
TGCTGTGTTCTTCATTACGTACATGGGAGATTTTGAGCTAACTCACGGTAATACCAAATTGGGAATGGAGTAAGGCAATATTTAACTGTATTGCATTGTG
GTTTTTACATCACCCTCTGTGCAGCTGCAAGAATGTAAGCTTTACTTATGGAAGATGGCTTTAAGTATTAAGGAACCATTTTTCTTTCTTTCAGACCAAT
GATGCCTTAGGAGCCACCTGGAATTGGCTGTACTTCATCCCCCTCATCATCATTGGATCCTTCTTTGTTCTCAACCTAGTCCTGGGAGTGCTTTCCGGGT
GAGCCAGATGTTTCTCTCTTCTTAACTCATTTGCTGACTGCTAACTGTAAACTAATGCCTCCTGACTCATGGCAGATTCATTCATTTAACCTTCATTTAG
AAGACACTTACCTAGCAGTTCCTCTGTGCCAAATGCTTTCTAGATGCTGGGAATGCAGTAGTGAACCATCATTCTAATAATCTTGATTATTCTCAGGAAT
TAAAAAGTCTTGATGTCAGGCACAACACTGAACACAGTATGTAGTGAGAGTTCATTTATTCATCCATGCTTTCATTCAGTAACTCAGCAGTCAGAGACCT
ATGTCAAACACGGTGCTGGTTGTTAGGGAAATAAAATTGAACTAGACACAGGCTGTGCCTCAAAAGTTTCTTACTCTGTAGTGTTTTGGGGATCAAGTCT
CATATTTGTGGCTTGAATTAGTTTATACAAATCTGCAACTATTTGGGGTCCAATACCATGGTAAGCATCGCCAGGAGCACACAAAGTATAAGGTGTGGTT
CCTCTCCTTAGGAAACATGTTTTGCCAAGAAGATGATACACATGAAACAGAGAATAGGAGTTCTTTTACTGACTTATACAAGGTATAATCATTTGTTTTG
GGGAAAGGACAAATCTATGTAATCTGAAGTCATCAGGGATAGTTTCATCAAGGATTGAGATTTTGCTTGGATTATGAAATATGTAGTAGGATTACATAGA
CTATATGGGAGTGAACATTTCAGGAAGGGGAACATCACACCATAAGCAAAGATGAAAAAATGGGACTTGTCATGGAGTGTGAAGAAATTATAATGTAACA
TCTTAGGAGAGCTGAGACGGGGATATATTTTAGAGATTCTTATATTTTTCTAAGCAAAACTGAACTTAATTTTTTGTCAGAGTGGCATACGTTCTTCAAA
TGAAAATTTATAAGGTGGCACTTCTGTTTAAACATGGCAGATTGAACTAAGTTGGTCATTTCTTGAAACTCCACTAACACAGAAAATAAATTTTAAGAAG
GGCACTAGGACAAAGAGAACAAGAGGAATGACAAGAGATGAAAGATGTCAACAACATTTTTGAACATAGAAAAAATTGGCAACAGACAGTGATAGGAAAG
CTGAAGTTTAATTGTTTAGGGAATGCCAGTAAAAAAGCAAACTGATTGTTCTTCGGAGCCCTAGAAAGGCTCAGGAATTGGAGACACCAGGTAGGTCTGA
GAGCTGGGGTAGGCGTGGTGCTAAAAACAAAAGGACTGATGCAAAGTCCTTGTAAGGAACATTAGAATCCCTGCCCCACCCCACTATAACCTCCAGGCAA
TGCTGACAGATATCTGCTTCACCCAACTCCCATCCTAGCAAAAGTTAGGAGACTTAATCTCTGTAGATGTGGAATCAGAGAAGCTTGGAATTGTACCATC
AGATACACCTGAGGGTAGTGTTGATATGTTGTACTGAAAACAGGAGGGCTAAATGAAAGTCTACAAACTGAATGTGCGTAGTCCAGCCCACTTCTGCTTG
ACTCTTAAAAACATAGCAGTCTGGTAGGAGTTGAGAGGATTCCTCTTTTGGGGAACTGTCTGAAGAGAAGGGACAAATTTATACTGATATTTGGGAGAGA
CCAGAGAAACAGGTTCCTACCTCATCACCTTTGGTGAGACTCACTGTATTAATTACCTATGGCTGCTTTCAACTAATTACCATAGCTCCGCGGCTTAAAA
CTGTGAGAGAAACTTCATTTTCTTATAGTTCTGAAGGGTACAGGCCCAAAATCTGGTAGGGCCATTGATATAGTTTGGCTGTGTCCCCACCCAAATCTCA
TCTTGAATTGTAGCTCCCACAATTCCCAGGTGTTGTGGGAGGGACCTGGTGGGAGGTAATTGAATCATGGAGGTGGGTCTTTCCTGTGCTGTTCTCATGA
TTGTCACGAGACCTGATGATTTTGTAAAAGGGAGTTTCCCTGTACAAGCTCTCTTCTCTTGTCTGCTGCCAAGTGAGATGTGCCTTTCACCTTCTGCCAT
GATTGTGAGGCCTCCCCAGCCACGTGGAACTGTGAGTCCATGAAACGTCTTTCTTTTGTAAATGCCTCAGTCTTGCGTATGTCTTTATTAGCAGCACGAA
AATGGACTAATACAGCTGTGCTCCCTCCAAGGGCTCTAAAGGAGAATTGATTTTCTTCCTCTTCCAGCTTCTGGCAGCCCCAGGCATTCCTTGGCTTATA
GCCACGTCACTGTAATCTCTGCCTCTGTGATCATATTGCCTCTTYTTCAATGTCTGTGCAGTTTTATAAGGCCACTTGTCATTGGATTTAGGGTCATTCT
GATAAGCCAGGATGATCTCTTATTTGAACATCCTTAACTTAATAATCTGCAAAGATTATTTTTCCAAATAAAGTAACATTCACATGTTCCAGGACTTAGG
ATGTGAACAAATCTTTTGGGGGGCTCCCAGTCATCCCATTACATTCACCATTCTACAAGCTCCAAGCTTGCATACAGAGTTGCCAATGAGGCTTTTGTGC
CGTGCTTTTAAATATGAACACACAGCTAGGGATCATCAGCATTTGAGGAAAATGMCCAACACAWAAGAACAAAAAACAAAATCATGAATTATAAAAAGGT
AATTGAGGGAATATGAACAATGCAGGGAGTAGAAGACAAATTTAAAAGCTGTATCTGCTATTAGAGATAGAAGAGAAACCATTTCATTTACAGAATAACA
GGCCAATAAATTAAAAAAAAAAACATTTAGAGGTTAAGGGCTCTTGGAAATTAATGTAAAATGTACATTCATTTTACAAAGTAATATATATATACTTATA
TATATTTACATTAAATATAAAAATGAAATAATGTAAAAATATAAGAATGTAATAAAATATAAAGGTAATACATATTTGGAATATAAAATTGATGAAATTA
CCTACAAAACAGAACAGCAAAATAGGATTGATCCAGCTTTTAACTATAATAGGAGTTCTATAAAAAGAACAGAGACATGGAAAGGAAGAAATTAACAAAA
ATCTAAGAAATGTTCCCAGAGCCAAAAGACTCACATTGCCAGATTAAAAGATGTGTTGAGGCAGATGCAAGGATGTTCTTTCCAGCATTATTTCATGGTA
GTGGGGAGTTGGAGGCAACGTGGATGTCCATAACTGGGAGATTATATAGGTAAAATATTGGATGTATACCATGGCACAGTATGTAGCAGTATGTACTGTG
GCATCCTATGTAGCACAGAGCAACAAATACTGTGTACACATGAAACATAAGATATCTTGGGCGGGGCGCGCTGGCTCACGCCTGTAATCCCAGCACTTTG
GGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGG
CGAGGTGGCGGGCGCCTGTAGTCCCAGCTACGCGAGAGGCTGAGGCAGGAGAATGGCGTGAACCCCAGGGGGCGGAGCCTGCAGTGAGCCAAGATCACGC
CACTGCACTCCAGCCTGGGCGACAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAGAAACATAAGATATCTTAAGAACATAGATTTTAGTGAAAA
CAAGAATCACTGTGATATGATACCATTTACATAAAACTACATGCACACAAAATATACAGTTTGTGAAAATACATTCAAATCAAAGGCACATTTTGAATGT
ATTATAATTTTTTTAAATTTTTATTTTACTTTAATGATAATTTTTATAGCAGGGTGATATAAGGTAGGTATGGAGGTAAAAGAGAACAAATGAGTTTAAT
TAATAATGAAATACACACTGAAAACTCAGCATGACTAATGGAAAGTGAGAACCCCAAGGTGAATCATCATGAAATTTCAGAATATCAGATTAAAAAATAT
TCTGAAAGTGCCTGGTAATTAGGAAGGAGATAGAATTTATCTACAAAGAAATAGGAATCAGGATAGCTTTGGGCTTCTCAATGGCAACACTGAAAGTTAG
TAACAAATAGATAAGTTCTTAAAACTTTCATAAGGAAAATAATTTTCAAGATAGAATTCTATACCTAGCTCGAATACCAATTGTTTTTTAGGATGGGATC
ACAATATTTTTGATATCCATTTTGAAAAAGTTACTGGTGAATGTGAGTCACTAAAAATAAGGAAGTAATTGAAGAAAGAGAAGAAYGTGATACTCATGGA
AACAAGGGATTCGATGGAGGAGAGAAAGAAGAGGAATTGATTCCCAGGGCGATGAACGGAAGTCTAGGATGACAGAAGCCTAGAGAGTATCAAGCAGTAT
CAAGATTTGAGTAGGGTGACAGAGGCCTCTAAAAATGCTATCTGTAAGAAAAAATAAAACTAATGTATTCCCCAATGTGTGTTATTATTTTCAAAAGAGC
TCATGGTTTTGCCAAAACTATATACAGTCATGTGCCACATAATGACATTTCASTCAATGACTGATGTATATGCAACAGTGGTCCCACAGGATTTAGTGGA
GCTGAAAAATTCCTGTGGCTTAGTGATGTCATAGTCATCTTAACATCATAGTGCAATGCATTACTCACATGGTTGTGGTGACGCTGGTGTAAAAAAACCC
TGAATTGTCCATCATATAACAGTAGAACATATACAATTATGTACAGTATATAGTATTCGACAGTAAATGACTATGTTACTGATTTGGCATTTACTTTCAA
TTGTTATTTTACAATTTATTCCTACTTATTTTTAAAAAAGTTATCTGTAAAACAGTCTGAGGCAGGTTCCTCAGGAGGTATTCCAGAGGAAGGCATTGTC
ATCATAGGAGATGACAGCTCCCTGTGTGTTATTGCTCCTGAAGACCTTCCAGTGGGACAAGATATGGAGGTGGAAGACAGTGATATTGATGGTTCTGACC
CTGTGCMGGCCTAGGCTAGTGTGTGTGTTTGTGTCTTCGCTTTTAACAAAAGATTTTAAAAAGTAAAAAAGTAAAAAGTAAGAATAAAAAAAGCTTATAG
AATAAGGATGTAAGGAAAGAAAATATATTTGTACAGCTGTACAATGTGTGTTTTAAGCTAAGCATTATTGCCAAAGAGTCTAAGTTAAATTTTTTCTAAG
TTTATAAGGTAAAGTTACAGTAYGTGAAGATTAATTTATTGAAATAAAAATGTTTTTAATAAATTCAGTGTAGCTTAAGTGTCCAGTGTTGATAAAGTCT
ACAGTGCCATACAGTAATGTCCTAGGCCTTCACATTCACTCACCACTCACTTTCTGACTCACCCAGAGCAACTTCCTGCAAGCTCCATTCATGGTAAGTG
CTCTACGGTGTACCATTTTTTAAAATCTTTTATACCATATTTTTACTATCCCTTTTCTATGTTTAGATATATTTAGATGTACAAATACTTAATGATGTGT
TATAATTTCCTACAGTATTTAGTATAGTAACATGCTGTATAGGTTTACAGCCTAGGAGCAATAGGTTACAGCATATAGCCTAGGTATGTAGTAGGCTATA
CCATCTAGGTCTGTGTAAGTACACATTCTGGTGTTCACACAACAACAACATTGCCTAGCAATGCATTTCTCAGAATGTACCCCTTTTGTTAAGCCATACA
TGACTGTATGAATATATGTATGTATTTGTATATACACACATACACAAAAAAACACTCTAAGCATTTAATTCCATGAAATATGAAATTGTTACCAGTAAGA
AATATAAGCATAGTAAGTAGGTCCTCTATTCAGCTCAGTTGTCAACCAAATTTATGTTGCTGATGCYGAATTTTGATATAGCCCCTTACAGTGCTGTGAT
TACCTTAAGTGGATGGAGGAGGCTGAATATGAGGAGGGGAAAGGGAGGGGGAGATTTCAGTCAAAGACTGAAATCTTAGGTTCCACAGTAAGGAAGTATT
TAGGCAATATCTAAAATGGAAAGATAAAGACATTTCAGTTTTTAAGTATAATATTTAGAAATTTGGAAATGAATACCAGAAGAAACAGGTAAAAGAGTTG
AAAGTGGTTGCCTCTGGGGAGTGAAATTCAGGGGTTAGGAGAGGTAAAGCAGAGGGCTGCCAGTTTTTCATTAGAAGTCTTTCAAAATTATTTGACTTTT
TAAATTCTACATGTGTTACTTTGAAAAAATAGAAATTAAATTTTAAAGTAAAAATATTGCACACACACAAAAGTGTAGGACGAAAGGCGTATATAAGAAT
ATTCATCTAACATCCGTGGGGGAAGGATTGGCATGGAGAGAGACCAGATTCAGTAGGATTAAGCAGGAAACAACCATAGTAATCCAACGACGTGGTACTA
AGAGCCTGTGGTGGTAATTTGTGAAAAACTGAAGACATCGTAAAGAAGAACTTTAATAATGTTTATTTTGAGTGGAGAGTCTTAAGACATAAGAGATTTC
TTCTATATTTACTCATTCAGTGAGTGTTTGTTGGCATTCTTTGTTCGTGCCCAAGCACTGCTAGACGTTACTGTCTCCAGCCAGCCAGTACCTACAACTC
CAATGTGCACCTTCCATAACTCTGGCCCCCAGAGAAGCCTGACCACAGGCTCTCCTCTTGTATTTCTACTGAGAGGATAATGTCATGTTTGTGTAATCTT
ATCTGATATTCTTTGTCCTAAGTGTGTATATATTTTAGTTTGGAAAATTTAAGACAGATTCTTACTATATATTTGGGGAGAAAAGTAGATGTGGTGCCAA
CAAAAGCCACTGGTGTTCTGGATGAGGCTCCAGCATAGGTTTGAGTTGTGTCTTAACAGAGCTGGAAATGGAACAGAACACTACCATACTGGACAGTGCC
TTGTGTCTGACCACATGGACTCTCTCTGGTTTGGAATCACATCTTTTCATTCTCTTACGTCTTTCTCTGCATGGGAAACAGTTGTACATTGGAAGAGGCA
TGGGCTTTAGCATCTGACATTCATGGGTGAGAAGCCTAACCCTGTAAGAAACCACTTATTAGCATTGCGAATTTGGATAAGTTACTCTGAGCCTGCTTCC
TCCTCTGYAAAATGGGATAGCAATAGCTCTCTCATATACAAAACCCTAGCCCAGGGTCTGGCATGGAGTAGCCCTTAGCTCTTATTAGCTGCCTATATCC
TTCGATAATATTAACATACATTTTCTCAGCCTCTTAGGTCCAGGTGGCATCACCTGCTTAACGGCCTGTGGATGTTCGATTGATCCAGCTGTCGGGCCAT
GGGCTCCTCTGGGAGATGGTCTGCACAGATTAGATGTCATGGAACTGGGATGGCAGATGCCTTCTTAGCACTTCTGGAGAAGCCTAGGAAGTGACAGTGG
CAGCTGGGAACAGCTGATATGAATAAATTTTGACATTTTAAGGAGTGTTCACAATAGGGGCCTTATAGGCTGGGACTGAAATCATTCTGACCTGGTTTCT
TTTTCTCATTCTGAAGCTCAGCACAGTTTGGGGTGGGCTTTATTGGTGTCTGCAGGGGGTTCAGCAGCAGCCAGTCCTGTGTACAGGAGGGGCCGTGGGT
TCTCTCTTCTGCTTGGTTGTCTCTCACATGCCTTTGGAAAGATTGTGAGCTTTCTCCTTAGAGTGGGGGTTTAGTTGGGATTTAATTCAGAAGCAGCCTG
GGAAATAGCTTGGAAACCTAGGGAGCAGGTTTCTTGTGACCTGCAGGCAGCTGAATGTTATGTACCAAGGCTGTTCCCAGAGCAGAGAGAGACAGAAATT
AAAGGGGGAACACACATGGCTCCTAGGTTGGGCAAGTGAGGGAGAGAGTCCATGTGAGAGGGGGCAGGCCACATCCACTGGTGCTCAGGGACCCCTGGAT
GCCAAGTGTGGAAATGACTGAGGCACCTGCCTCTGGGGCACAGGCATTGGTGGGAGGAAGGCTGTGAGGCATGTTTGTCGGCTCAGATTTAAAGAGGAAG
TATGGATGGAAGCATTGTAGCATTTTTACTTGTCTCAAAGGAAATGGGATTTGATGAAAACCATTAGCTTAGGCATGAAGAGAAGCAGAGCTTCCTGTCT
CCATGGAAACAAAGCAGGGCTGCATAAGCACATCCTGAAATGCCATCAGGGGCTACAGGGCAGCGGCTAACACAAACAGAAATGACCATGAGCCATCCCA
CTGTCTCCATCCATTGTTGCCTGGGCTTCTGGACAGGGAAAGGTAAATATGGGGAAGCAGTTGAGCTGTCTCAAAACCAGAGCAGGGACAGTCAGACCAG
AGACTGCTTCCATATACGTGTGGGGAGCAATGTGAGCTCTCTTGTGTAAAGCATGCCATAGTTTTCAAAGCACCTTTGCTTTTGTGATCATATTTGTTCT
TTGCAATGACTCCATGCAGTATGTGGACAGTATCTTTATTTGGAAATGAGAAGAGGGAGGTTTAGTTAATCTCCAACTAGTTACTGGCAGAGGTGGGGCC
AGAGGTTACAATTTCTCAACTTCTAGTTAGTGCTTATTTTAGTGTACACTACGTAGCTTCTATTCAGGGATACTGACACCTGAGGTGGCATACCCAGAGA
TATGCCGCCAGTGGTAAGCCTGGAATATCATCTTGACCATATAGATTTGGTGCAAGTTTTAATGTGTATGTGCATTGATGTACACACTAATTCACACACA
CTGATGTTCACGTATACAATGTGACCCGGTATGTGTACAGGGCAGAAGATGCCAAGACCCACTGTCAAGGTCCTGCTGCCCTAAGACTAATGGGAAGTAG
TGAAGTGTCCATAGTAGAGGAGGAATTCTTCTGGTTGCATCTCATGAATGCATAGAGTGGCTCCCACGACAAGCCAAACTACAGCTGTCTGCCTTGCTAG
CAACTCATGTGCAAGCTGATTCTGTGCAATTCAGCAAGTGTTTATTGAGTGTCTGCTATGCAAAAGATACCTGGCTAGACATTTAGAATACAAAGATGGG
TAAAATGAGGAGATTGTAGACTAATTATGGAAATATTTCAAAAATACATGTAATGGGACTCTAAGTTCAAATAGTCCAGAAGGCTAGTCCCTCCCCAAAG
CTAATTTTTTTTTGAGATTCATATATGCAGGTCACTAATGTTGGGTTCCTACTATCTTGCAAGGCATTGTTGAGGATAAAAAGATGAATAAGACCTAGGT
CTTGGCCACAATGGGCATATTAACAACTATAACTTCAGTGTTAAACCTTGCATCTCCTGTTGGGTGTGCCATTGCATCTTAGGAGGTGGTTCCTGAGTGT
TTCCCATGCCTGACCTGAGACAGGAATGGCTGCTGGTCTTAAGAAGGAAATTATTCATGCCCAGCTCAGTGTTCCAGATGAGATCTCTGAGGGGAGTTGG
TGGGTATTAGTTTGACGTATATCTGCTCCTCCCAAGGCTGGCTGACATTGAAGGTGACTGGCTAACATAAGGGAGAGTAATTCTGCTGGGATTCTAACAC
TGGAATCAACCAGTAGAAAGTCAATGACTGACTCACGCAAGAGTTACTAAGTACTTGTTGTATGTGACTCACTGCTAGGGGCTAGGGATACCAGGTCAAA
CAAGGACAGAGAGCTGCTACCCCTCAACGGGTTTGAGTCTAGGAAGAGATAGCAACAGGGGAGCATTTAAATTAGAAGGGGCAAGGATCAGGTAAGGCCA
ACTGAGGCAGGTGACAGTGGTGTGTGCCTTTGAAGAGCCAGCGATAGTTTGCGAGCACAAGGGAGAAGCACATTCTAGCACAGAGGCACAGGCAGAGGCT
CATCGAGAAGGGCTTCTTGGGCTAAGCTGGTAAGTTTAAGCTTGATTCCAGAAGCTTGTGGGAGGTTTTAGATTGTTAGATAAGGAGATGGCTAGATTTG
CATTTGAAGATGATCACCCTGGAGAAGGTACATAGAGAAGCAAGACTGGAAGCAAACAGAGAGGAGCAGCAGTTCAGGGGAGAAGCAGAGAAGCAGCGGG
GCTGAAGTACAGCGGTGGGGACGGAAAGGACAGGACAGCTCCAGGAGGTGTTGGGGGCCAGGTGTCGGATCTGCAGGACTCGGGACTGTGTGGGTATGTC
TGAGTGGGTTTGGTGTGGAAATCAGAGGGAAGTCTTCTGGATTGCTTTTAGGTTTCTGAATTGAGACTGTAGGTGGCTGGGGGAGAACACAGGCCAAAGG
GTAGGTCTTAAGGGAAAGAGGGCAGGTTTTGGACCTGTTGAGTATGAGAAAGCGTAACACACTTCATGACTTTTGGCCAGTTCACAGGAGTAGAGTAGGG
TTTGTTTTAAGTTGTTTTTCTTGTAAGCTATAATTTTTTGAGACTGTGCTACCCATCAAGCATTGTGCCAATCACATGACACATATTGTCTCATTTAATC
CTCACAGTGACCATATGAGGAAGTACTAACTTCCTTTTATAAATAGAGATACTGTGGGATGCTTGGTAATTTGCCAAAGTAAACAAAGCTCATGAGCAGT
AGATTCAGAATTTGGACTGAGATCTACTAGGCACAAACACCTATGCTTTTAAGCAGATCCTCCAGATAGTTTAAATGTCCTTTATGGAAGGAAATTATCT
GTCATCTAGTACAGCAGAACTTGATGAAAATGAACAGGTCCTCCATGACGGCCATGGCACATGTAACTTCCCAGTCCTGTGGACAGAAATTTCCTGTATG
ATACCCTGCTATGATGACCAGAGTGGGGTGTTCATAATTCCTACACTGATGAGAAGGACTTTTCCTGGGTGAGTTGTGTGACCATGGGGGTCACATAAAA
AGCTTATGGGAGCTTGCTGAGAGAATCTGCATTTCCCCAAGACACTGCTTAGTGTATCAGTTGTGAAAATTGTATCTTAGGGTGAGATAAAAATTATTTG
AGGAAGACAAGACTCTAAGTGTCGTTTGTGCCTGCCTCCTTGTTACAGTGGAGGAAACTCGGCTGGAGAGTGAAATGACTTGCTCAGTTTGTAGACAGCT
ATTTAGTGTTAGACCTTGGCTAGAAGCTAGCTGCCCTGGCTCCCTGTCTGGGGTGCTTTTTCCTCCATGCCCTATGTATAGCCTAGTAGTAAAATACAGA
CTCTAGACAGTCTAGCTGGGTTTGAGTTCTGTTCCTATCACTTGCCAGCTATGACAATGATGTTAGGTAAATTATTTCACTTTTCTATACCTTCAGTTAC
CCAATTGTGAATAAGGATATTGGTGTTTGTCATATAAGATTACCGGGGAAATGAAATCAGATAATACATGTTAAGTGTTTAATACCTGGGTGATAGTAAT
TACTTAATAAATGTTAGCTGTTAGTAGCAGATTTCTTTCTCAAGAGCCTGGTTTACACTCAGTAGGTGGGGCTGGGAAAGAGCCATTCTTACCTACCAAG
TACTCCCATTGAGTCAATTAGCATGAGCTCAGATGTTTTCAGATACCACTGGTAGAGCTGACCATCCATGGCACCCTACAGGGAACAGCAAAGACAGACT
GTGCCCTTGGGCCCCACATGAGGCCATCAGCTTAGACACTCCACCATTTGAAGTTCCTTGGAGTACCTGGGCCTTTCTATTCTCTGCTCATGTGGTCTGG
AGTAAGCCTCTAATTTTCTTTGTTAAATTCCTGCTCATCCCTCTCAGCTTGTTTTAACTTTGGCTTCTTTCACAAGATCTTTCCAGGTCTATACCCCCCA
ATCTCATTTTACAATTAGTATTAAAATCTTTCTCCCACATGTTCCCATAGCACTATATGCCTGTTTGTTATAGAATCTGTCACTCATAGTAATATCATGG
AATTGTTATATAATTTAATACTACTAAAGATAAGATGTAATATTTATTGAAACCTTGTCATCTGCCCGATACCATGGTAAATGCTTTATATACATTATTT
CAATTAATTTTTGTAACAGCCTTATGAGGCAGGTACTGCTGTTAACCCCATTTTATAATTGAGGAAATGGAGACTGAGAGTGGCTAAGAGTCTTGCCTAA
GGGTGCACAGTCTAATGAGAGGCAGAGCTCTCCTCCCTTCTCCTGGATGCACTATCTTCCTGTGCTTTGGAGTCACAGATGTCTCTGTCACCCATTAAGT
TTTGTTTCTTCTGCTGAGGATGTCTTTCCATGTATTTGGATCGCTCCTGATATCTTAGTGCCTTGTTTTTGTGTTCAAGAAATGATTGATGAATTGAAGG
GAAACCGAGTAACATCAGGACCCTCTTAGGGAATGCCATGCCCCCCTATGACCTCCTGGAGGATAGTATTGCAGAGAACTGAGGAAGAGGCTGGCATCTT
AAAAGTCAGGAKCATAATCACTGGTACTGGAGATCCTCGAAAAACCTGCAGAGAAGCTGTTTGCTTTCTGGAATGTTGATCCCAGCTTACAAGCATTACA
GACAAGTAATTATGATAGGTTGGACATTTTTACACTTGGCCATTGCTAATATTTTTTTCTTTGAGTTAATTCCTTATACCATTTGCCCATTTTCCCATAA
ATTGGCATATTTATCTTTTTCATATGAACTTAGATTATTTGCATAGTAAGGATATTAACCTTTTATATCATATGTGGTGCATGTTTTCAGAATAATCACT
TCTAAAGGATTGTTAAAGCTGTTATCCTATAGGCAATTGTGGGCAAATAAGGCTGTTGGAAGCAGAAAAAGACAAAACAGTTATTCTTTTTTATTTTAGA
GCATTTGGTTTATAAAGCATTTCATGTGTTTGATTCCCACAATAATCCTAAGAAGTATATTAGTATTTTACAAACAAGGAGATTGCAGCTCGAAGTGGGC
AAGTGACATGCCCTAAATGACAAATGTAAGTGTGATTTTAGGACTCCCAGTCCAGTGCTCTTGTTCCACAAAGGAGTGCTTCCCCTATGGAGTGGGCATT
TGCAATGGGACCTTTGCTGCTCAGCTTCTACTCACAACAGAGATGTGATTTACACACATGCCCCAGCACAACAACAAAGTGCTCTTTTGAGTTGATTAAT
TCAACAGATAGTGCCAAACACTGTTCTCTAGATGCTGGGGATTCAAAAATCCCTGCCTCCATGGAGCTTATATTTTTCTGTTGCACATGTAATCTATATT
TTATGTAATATTACCCCCATTTTAGGACTTTATTATTAGGAAGAAGTACAATCAGCACCAACACCCTGAAATTGCCCTGTATTGATAACGCTATGGGCTG
TGAAATGTGAATGTGAAATGTAATGCAGCTGCTTTTGGGGGGAAAAAGGCTCTGATTTTCTTGTATTAATTAAAATTCTGTCTCCTTTCAAAAATTAATC
TCTAGTGTCTCTTGCTGTTATCTACCTTGAGAAGCAGAGGCAGTGTCAGGATAGGTGGTTCTGGGGGCTCAGCCAAGGTGAGAGCATCCTTGGCTGCAGA
GGTATGGCGGGGGTGGAGAGGTGAAGTCATAGCTGGGAGAAGCCAAGAATCCTATCCAGAAAGGTTGCATGTGAGAGGCAGGGTGAAGGTGTTGAGGGAA
AAGGAATAGAGAAATCAGTAAGTAGAACTATCAACATAAATAATCAAAACAAGGTACTGTTTTACAAGCATTTATCCTTTTTAAAGCGAACTGTTGACAA
TTAGATTGGGACTTCATTAGGTGCCTTTTTGGATATGAAGACAATAACCAAATATAAAAATGCCTCCATTCTCTGTTCAAGTTTTCACACATGAAATTTC
TGGTTGACCAAGTTCTTAGGTAACTGAAACATCCTTGTAGCTCCTCAGCCATGCTCTAACTTAGTATAGGTAAATCTTCTAACACTCTGATACCTGTATA
CCTATATACCTATACACACACACACACACACACACACATATACATCTATACATATGTACATATCTGTGTATATATACACCCATATATGCATACATACACA
CACATTTTCACACATGTATATGATGTTTTCTATTCATGTGCAAACTGCAATTCATATACTCCAGGATTTGTCCCTTCATTTAGTACTTAAGGAACCCAGT
AGATGATTGTGCCATTCTCTGAATTTGCCTTGCAGAGTGACTACATTTAAACTTATTTCAAGAATGTTCCATTTTAAAATCTAGTTTTATTTGTTTTTTA
GAGGAGGAGATAACTTCTACTTAGTAAAATATAACATGAAGTAATGTTTAAAAAGATGGCTTTTTAGATAGGTGAAATAAGTTCTGGTGTTCTATTGCAC
AGTAGGTGATGATGGTTAACAGTAAGGCATTATATATTACAAAGTAGCTTGAAGAGAGGCTTTTAATTGTTCTCACCACAAAGAAATGATACATGCATGA
AGTGATGGATATGCTAAATACCCTGATTTAATCATTAAACAACATATTTATGTATCGAAACATCAGATTGTACCCCATAAATATGTACAATTACAATGTG
CCAATTAAAAAATAAAAACAAATGAAAAAAATTTAAAAAGATGGCTTTGCTAAGAGACAGACCTGGATTTAATGTTCCAGTCTGCTACTAAGCTCCGAAG
TGTACATATTCACTTAGATATCCCTTAGGTGTCTTAAGCTTAGGATGCCCCAAACAGAATTCATTSTTTAACTTCTTTTCCTCATCACTAAACACACTCT
CTATTCTTTCTATATTCTCTGGTTTTCTTTTACTCTTTCTGTGATTCTTTTATCACATTTGTTATCCAAGATAGAAACCTGAGTTAATCCTGGTATCTTC
TCCTCACTTATTCTCTGGGCCTAATTGCTCATCAAGACCTACTGATTAAGTTTCATAAAACTATGTCCTGGACTATAGCAATTGTCTTTTTAAATGTTCT
CCCTGCTGTAATGCAGCCTGCTATTCATGAGAAAACAGTCTTTACAAACCAGACATTTAATTATAGAATTTGTATACCTTAGTTATTTATAATGGGATCC
CATTGCCTAAACGATAGAATCACTTATGTATTCACTTAACCAGTTTTCAATAGATGTTGAGCTTCTGTGTGCCAGGCAGTATTCTAGATGTTAGGAATAC
AGCAGGGAACAAAACAAAAATCCCTGCCCTCATAAAAGTTGCTTTCCAGTATGGGGAGAGTCTAAGGACATATATTCTGATTTAGGTAAATGAAAAGACA
AACCCTGCTCTTGAAAAGGAATACTTCAAATTACAAAGATGTCTGCTTTCTCCACTTTAGTCTTTAATGTGATATTGATAAATGTAAACAATGTTTTTAC
TAAATTATATTAAAATTTATCTGAAAATGTAAATGTATAAGAGTAGCCAAGACATTTCCTTAAAGAACAATGAGGAACAGGAACTTTTTATATAGGGAGT
AAAATATATTCTAAAGCTACAATAATTGAAATGATGTGATATAATATAGGAATACAGGAACCAAATATATATATATATACACACACACACACGACATATA
TTGTGTATGTGTGTGTATATATATGAATTTACAGTATATATAAGTGTAAAGTGTCATTTCAAATCATTGAAAACRAATCATTCAGTGAATTGTGTGACTG
GCTAGTTACTTGGCAGGACAAAAATTGAGTTGGAGCCCCATCTTATATCTTATATCAAAATAAATTGCAGGTGGAGCTAGTACATGCATTTTAAAAATTA
AATCATAAAAGGATTCAAAGAAAACACAGACAATTTAAAAACTTCAAGGGAGAAGACCTTTCTAAGCATTATGCAAATCAATAAGCCATAAAGGAAATAA
TTGATATGTTTGAATTTGTAAAAATAAAAATACACTGACCACTATAATTTATTAATAACTTCCAAAAACAAATGAGTTAGTTTTAAATTTTAGATTGATT
ATATAGAGGATTCAGGAAGGTGATAAAAAGATGATTGATAAGTAATAAGATTGTAATAAAGCTCTAGTTCCAGACAGAAAATGAGGATTTCAAGCACTGA
TGGCTGAAATGTAAGGTGAAAACCAGCTGAAGATTTTAAGTGGTAAAATAGTCAGGAGATGATGAATGACTGGCTGTAAGCAGTAGGGAAGATCACCTAG
TATATGATCCCAAGATTCAGTTGCAAATGTTTTGGAGAACTTTGGTTCCATTTACTGACATGAATAATAGAAGAAGAAAAAAGCTCTTATTCTGAGAGAA
AGGTTTGTTTAATTTTAGRCTTAGAAAGTTTGAAGTTCAAGAGGCCTGGACAAGTAGATAGGATCATCCAATATCTGTGTCTTAAGAAAAGAGGGAGGAA
AGATATGATACACTATCAGAACACAATAGAGAAAATGGTACAAATACATAAGGTTATCCATGGAGGGGAGGTAGAGAAGAAAAAACAGCCACAGATAGAG
GTTTCTAGAAACACCATTTAAGAGAATATTAAGATTTTCAAAAAGACATACCAGAAACATCACATCATAGAGGATGAAGAAGTACAGGGTTTCAAAAAGG
AATGAGAAGACCCCAAGTGCTGAATGAGTCATAGAGATCCAATACACAGTTGACTAAAAAATAGCTGTTGAAGCTGGCAATGTGGAGGACGTGTCTGTCT
TTTTTTTTTTTAACTTTTTTTTTGAAATAATTATAGAATCAACAGGAAGTTGTAAAAAATTACAGGGAGGTCCTATGTATTCTTCTCCCAGTTTCCCCCA
GTGGTAACATCTTGCATAACTGTAGCACAATACCAAAACCAGAAAATTGACACTGGTGCAATCCATAGAGCTTCAGATTTCACCAGTTTCACATACACTC
ATTTGTGTGTGTAGTTCCATGTAATTTTATCACGTGTAAATTTGCATAACCACTGCCACAATCAAGATACAGAACTGTCCTATCACCATAAGACCCCTTG
TGCTACCCTTTATAGCCACATCTACTATCCTCTACCCTTGCCAACACATTCTTCTAATTTTGTCATTTCAAGAATGTTAAATAAATGGAATCATAGGATA
GAAAACTTTTTGAAATTGACCTTTCTTCACTTAGCATAATTGCCTTGAAGTCTATCCAGGTTTTCCATGTATCAGTTGTTCATTCCTTTTTATTTCTGAA
TAGTATTCCATGGTATGGATATACCACGGTTTGTTTCCATGCACTCCTTGGAGGACATGTGAATTTTTTTCAGTTTGGGTTACTACAAGTAAGGCTGCTA
TGAAGAACATTTGTGTACAGGTTTTTGTGTGAACATAAATTTTCCTTTCTCTGGGAAAAAATGCTCAAGAGTGCAGTCGCTGGGCCATATGGTAAGTGCA
TGTTTAGTTTTATAAGAAACTGCCTACCTGTCTTCCAGAGTGGCTGTTCCATTTTACATTCTTGCTAGCAATGCATGAGACTTCTGGTTTTTCCATATTC
TTACCTGTGGGCTTAGAAAATTAAATAATATACAATGAACATTAATAAGTATCTTATTAATTAACAAATTTATCTCGAAGTTATAAGACAATAATGTAGA
CCCAGGCTGGGCATGGTGACTCATGCCTGTAATCCCAGCACTTTGAGAGGTTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTGAGACTAGCCTGGGCA
ACAACGCGAGACTCAGTCTCTTTTAAAAAAAAAAATTAGCTGGGTGTGGTGGCATGTGCCTGTAGTCCCAGCTATTCAGGAGGCTGAAGCAGGAGGATCA
CTTGAACCCAGGAGGTCGAGGCTGCAGTGAGCTGTGTTTGTGCCACTACATTCCAGCCTGGGCAACAAAGTGAGACCCTGTCTCAAAAAAAATTATAATA
AGGTAGACCAATAATTATTAAATCATGTTTTTAAAATTATGGACCAGTAAGTTCTCAGGAAAAAAATAAACAACAAAACTAACATTGGTTGGGTAGAAAA
GTTGAATACAGAGTTAATAACTTTTAATTTTAGCAGTTAAAGACTTTAAAACAAATAGATTAATCACAAAAACTCAACTGCTAGCTTCACTCACCATCAA
TTCATTAAAGAAAAGGTCCAAATTAATGTTCTTTGTTTTGCAAGACCTCTCAAAGCTTTGCTGCAACCTACTTTTCTAGCCTCAATTCAACGATTCCTCT
GCCTTAGCCTGGCCACACGGCTCACTGTTCCYGGATTTCCCAGGTAATCACTTCTTTGGCTAGAAATAACCAACCCCCACAGCCACTTCCACCCACTGCT
GTATTTGACTGGGGAACTCTGACTCATCCTTCCAGGTCAAGTTTCTTCATCTGGGTTCCCATTGCACTATATATACTCCTCTATTAGAGCACTCGTTACG
TTATTTTATAGTTATTTGTGGAGGTCTTTGTCCCTTTCACAGGATTACGAAGAAGGGCATCATGGTGAGTTCACTTTCTTTTCCCCAGCATTTAGCAAGC
ATAATTAACAAGCACACAGTAAGCTCCCAGTAAATGGCCTCAAGTGAACAAATCAAAGGCCAACTTCCTGTTTGTGATGTCTGTATTCATCAGAAATTTT
CCTGAGATTTTGAGCATTGTTTTCAGTGTGCATAATTCCCCTGAAACCCAAGTTTAATATTAGCTGAAGAGCAGAGCACAAGGCACTTGTAGTAGGACTC
CAAGAAGTGTGCCACTCCAAGAACGTCTCCATTACATCGAGAAAGAGGGAATATTTGTTATCAGCATGATGGACATGATCCCAGTGTAATTGTTGCTGTT
GTGAAGGCCTTTTGAATGGTTTTCCCTCTCCCCATGATAATTTATCTCCTACATTCACTTCACTATAGCTTTGATACCAAAATCTTGGGCTTTTCCAGAT
TAGAAAAAAATATGTTTTTGTTTAAACTTGTCTCTTTTTCTGGTCTATAGAACCTCATAATAATTGGCTTTGCCACATGGAAATTTGTAATAACATTAGA
GCCCCACATCATTCTGAGGTTATAGTCCATAGTCGAGGCCCTATAATTAGACATGTTTTCTGTGCACTTGCAGACACGTATACACTGAGGTGGCTGAAAT
AATACCTCCCAATTTCCCCGGCTGATAATCAGAGTCTTTACAATTTGGTTATATACTGGGTGCTTGGCATTTCTAGCTGTTAAGTTGAGAAGCTGTTAGA
GTTGTAGTTGAATTAAAAGTTATTTTCCCCTTGGTGTCAAGTGTATCACTACATTCTCAACACTTAATTATCGTTGTGTCCCAAAATATTCTTCATTTAG
CAAAATATTGAAATTACTCTTTCCTGTTGAAGAAGCTAACTCTACTATGCAAGAGAGCACTGAGATGCCGTGTTCCACAGAGAACCCAGGAAATGAATGG
CATTTGAGGGCATTTGGGGCAACTGGAGGAGCCCCAAAACCTGTTAAAGGGGCCACATATTCTTACCTATATTAGACTCAACTTGATAGCTAATCTTTTT
AGCAGCTGACACGTCCTCAGGCTGAAGCTGACCAGACCAAAAGAGGCCTCCCCACCCTCGGCAGAGTTGACTGAAATGGCATTAAAGTAGGACATGACTT
CCCTTCCCCATGCCCCCACCCCACTACCTTTTGTGCTGTTCACAGAGAAGTTTCTCCTCCATCCTCTTGTCCCTGTGTTTTCACATTGTATGTTCTATTT
AGATCAAGGTACCCAGTGACCAAATATAATATGAGGAAGGGATGATCTAATTATGAGCAATTAATACCTTAGTGAGCAAGAGCTGAAGGAGGAAGGTACA
GACTAATTTTTTAAAGTAAAAGGTGGTAAGGGGGAGAAATACTTCTTTGATCACTTACTAAAATATCTAATCACAAACATTTATTCATTTATTATTATTG
TTATTATTGAGACACGGTCTTGCTCTGTCACCCATGCTGGAGTGCAGCGGTGCAGTCATAGCTCACTGTAGCCTCGACCTCCCAGGTTTAAGGGATTCTC
CCACCTCAACCTTCCCAGTAGCTGGGACTACAGGTGCATATCACCACACCTGGCTAATTTTTTGTAGAGGTGGGATCTCACTTTGTTGCCCAGGCTGGTC
TCAAACTCCTCAGCTCAAGCAATCTTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGATCTACTGCGTCCAGCCACCAAACATTTGTTAAGC
ACCAATATGTCAGGCACTCTGAGTTTGATAGTGAACAAGAAGATGCAGTCCCTTGCTCTTATGAACTTTATTTTTCTCATGGCTGAGACAGAAAACAAGC
AAGCAAATAACACAAATAATGGGAAATGTTATGAAGAAAATGAGCAGGCTTTGGATAGCAACTTTGATTCCTGTCTTAGAAAGAAAAAACAATCAGACTT
GAGAGAATTGCTGCCAGACTTCTACAGCCTGCATTGATCTGACCCCGTGTGATTCTATGGATATGCTTCCCTCACCTGACATAACGGCTCCCACACTATT
TCCCTACAGGAGAAATGATGCTTGTGTTTCTCTAGTGGCCAGTGTCAGTTACTCTGAAGATGTGATTTACCAACCAACTGGGCTAAACAAACAAACAAAC
AAACAAAAACCGGAGCAATAGGACCTTGAATGCATAATTAACTTGTGTGGAAGGCTTCATTCTTCACTCAGGGGTGTTAAAAAGGATGCCTTTGTGAGCT
AAAAGCAGAACTACCATTTGACCCAGCATTCCCATTACTGGGTATATACCTAGAGGAATATAAATCATTCTACTGTAAAGACACATGCATGTGAATGTTC
ACCGCAGCACTATTTACAATAGCAAAGACATGGAATCAACTTAAATGCTCATCAGTGACAGATTGGATAAAGAAAATGTGGTACATATACTCATGGAATA
TTATGCAGCCATAAAAAAGAACAAGATTATGTCATTTACAATAACATGGATGAAGCTGGAGGCCGTTATCCTTAGCAAACTAACGCAGGAAGAGAAAACC
AAATACCTCAAGTTCTCAGTTATAAGTGGGAGCTAAATGATGAGAATTCATGAGCACAAAGAGGAGAACAACAGACAGTGGGGTCTACTTGAGTGTGGAG
GGTGGGAGGAGGGAGAGGAGCAAAAAACATAACTATTGGGTACTAAGTTTAATACCTGGGTGATGAAATAATCTGTACAACAAATGCCTGTGACATGAGT
TAACCTGTACATGTACCCCAAACCTAAAATAAAGTAACTTTTGAAAAAAAGGATGTCTTTGCATTAACTAGTGGGGAAAGTTGCCCTAGTGGATTAAGTA
ACTTAATATTTCTTCCAAAGGTAATGATCTGGAAACCAAGACTGTGCTTTTATTGATATCTTCACCTTCTAAATTCCCTCTGTAAACACCTATGAATAGG
AGGGAAGAAAGGACCTAAAGTGGTCAGAGGGAACCTCGAGGCCAAGGCCAAGTTGTATCCCAGACTGTCTGGCTCCAGAGAGGAAGGTCTTCCTTCAGTC
ATTCATTTCTGGCCCCCTTTCCTCTGCACTACCCTCAGAAACAGTAGCAGATACCTATTGCAAGGTTGCGCTGTGCTGGTCATGTTCACAGACAATGCAA
ACATTTTCCCTGCTTTCTAGGCATTTCTTATCCATATAGTCTTTCAAACCTGGTCAAGGTTTTCTCCTGGCAAAATTTGAGAAGTTGGTGGCATTTGTAT
TTGAGATCATGCACCTTTGCTGTCCCTTAGTTTAATGTTCCCCTTTTCTCTTCCCTGTCCTTCGGTCAGGGAGGAGTTATTTGTTGGACTTAACTAGCTC
ACGTATGGGGTTTTGGCCTGGGTTCCCTGAAAGACGACCCCAAGAAAAGAATTGGCTGCAAAAGGGAGCAAGTGAGAAAATTGAGGCAGAGAAGGGGAAA
AAGCCAAAGAGTTATGTGTTAATTGAGAGGGTTGTCAGTATGAACTGCTGAGGCTTAATCCACTGGGAACCCTAGAAGGAACCATGTAGAACGTACCTCA
GCCCTGCTCCACCAAGCAACTGGGAAACTGGGACATAGATACATGTATCTGTATGTTTATGTATGTATGTATATGAGTATGTGTGTGTGTGTGTGTGTGT
ATTTTTCCCCCATCCATCAATCCCTGTCCATCCTTGAGTGATGACACTTTGGGGCTGCCCTGTTTGTGGACTTAACAGTGCCTGGAGAAATTCCGTAGGT
GGAGAAGCAGGAAGATGTAAGCACTCAAAGTGGGCACTGTCACATACCTGTGTGAGTGTTTAAGTCCTGTCCACTGCAGCTGCAGAACCCAGAGGTGGCC
CGAGGGGATATGGGGTGGCATCCAGAGCATATGCTCTTGCTCCACATTCAAGGAGTAGATCATTCATTCAACATTTGTGGAGCACCTACTATGTGCCAGG
AACAGCTTTTCCAAGGTGAGTGAGTTAGAAGAAGCAGAGTGACAACAGAATTCAGGACTAGAGTGAGCCGGAGAGCAGATGGTCCACTGCCCAGAAAGAG
GACATCCCTTATAGGGCCAGCGGATGGAAGCCATGGGCTGGGCAGGACATTCCTGTCCCAACCCACATGGCAGCTAGAGTCCTGGAAATTACAGTCGACA
TGACCCCACCCCTCTCCTGAAACACAGTTTCCTCCTCCCAACCCCACCCAGCAGTGCACACCCCAACACCCGCTCTGCCAGCTCTCGTTCGTTGCCTCTT
TCTCCTCAATATAACCACCATTTTATTTTATCCCAGCTCCCAGCGTGCATTTGTCCTGCACAGCCTTGCTGCCCTTCACCCTGCTCCTCAGTGTAGAGTA
CCATGTTCCCGTTATTATTGTTCAGTTCCCCAGCCACACAGCTAATCCTGTTAGGGCCAATTTAGGCAATACAAGAGTCTGGAGCTTTTATGACCTAAGC
AGTTGGGGCTCTCCTTATGCTACCAATGATAAATGATAGAATAAGTAAGCAGAGGGCTGGGCGCGGTGGCTCATGCCTATAATCCTAGCACCTTGAGAGG
CCAAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTAAAACCCCGTCTCTACTAAAAATACAAAAAAAAAAAAAAAAAAAA
TTAGCCAGGCATGGCAGCGTGCGCCTCTAGTCCCAGCTGCTGGGGAGGCTGAGGCAGCAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGA
GATCGCGCCACTGTGCACTCCAGTGTGGGTGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAGAATAAGCAGAGTCTCAATTAAAA
TACTCATTGATCATGTCTGATGTCACAGAGTTTAATCTTAAATTCAGTAGACCCATAAATTAAAAATACTGGATCTCAGTAGCCAGAGGGTCATTCTGTC
TTAGAGCCCCTGGACACAGTCCCCCTAATAYGGACCAGGCCTCATCTGAATGTTCCATGCCCCCTCAGCTGCGAATTCCCATGTTTTCTGGGCCAGTTAT
CTGACCTCTTCCTGCGAGGGCAGTGCAGCAGGGGTGTGGGCTCTCAGGGGGACAGAGGGACTCTGCCACAGGCTTGACCTGACCATCTCTCTCAAGTCTC
TCTCTACACCCCAGCACAGAGAGAGCAGAGGTCTGCAGAGTGCCACCCCTCTAGCAGCTCTGTGGACCAAACAAGCATTTCACCTGCAGGTGCCAGCTCA
GCGTGCCAGGGCATGAGTGTCCCCCAGGTGGCAGGGTGACTGCCTTTCTTAGGTGGCTTATGTTCAGTGTGGAAGTTCAGGCTCTCTCATTCCTGTTTCG
ATTCCTTTTCCCTCTCTGTCTCACCTGGTCTTTGATAGCAAAGGTTAGTGTTATAATTAAACAATCAATTTAGCAAATTTTCTTTGGGGATTTCCTTTCC
TTTTGTTTTGCCAACTGTAATTCCTCCAGTCTCCAGAGAGATCCCCTGTGAAGTGCATCTGAGGTGTTTTCACTTTCCCTCATCCACAGTTGTTGTTGTT
TTCAGGGACTAACAAATGACAAATAAGACACAGCATGTTCGTGGTTTATATAAGCAGGAAGGAATATATCTGCTTCTCTCTGCAGGAAGAGAGGAGGAGG
AAAAGAGGAGGAGGCACAGCTGATGGCTGCTACCCAAGGCCTTGCTCCGAAACATCATGGGTGAYTGGGAGTCTAAGAATATTAATTGGAGACAGTGGGA
ACAGGGGTAATTTCACGTACCCAGTAGGGACATGCTGTGCTAAGAGCGTGTGAGAAAATAGCGTGTGAGAAAAAATTTACCTGATGGTGCTGCTATAGGT
CTTATTTTCTTCCATGTTTTGTTTCTTATGCAAAACGTATATGTGTTAAGAGAAGGGGATGGGGAAGGAGAGTTCATGGAGGAGAGAAGAGGAGGAGAAA
TAAACTTTGAAAATTCTAGTTGCCATGACAACATAATGAGCTCCAAAAGTGGCATCTCTGAACCAGTTTTGCATGGGAAGGCAGAGAAGCTCAAAAGGGA
AAGAATTAAAATAATAAAAATAATAAAACAGTGATCATGAAGCAAAGGATACATCTGAAGAGGCTGTKAGCCCTTCTTGTCACCCTCTGTGTGTTGGGAG
TGTCAAAGCTGCTTGCTCCTGGCTGACCTGGGCAGAGCCTGCGGGATTGCCGTCAGGGGTTGGAATGCCTTTGCAGCCTCCCGGGCTCTGGACAATGCGC
AGCTAAGGGATTTTGACAAAAAAGACCTCATGCATTGTGTGTGAAGTGCATTGTGCTTGAGAACCCATTGCAAGCCAGGCTGTCTTCCTGCTCCGTTTCT
CCTCCCTTTCCTCCCTCCCACCCGCCCTTTCTTATAGCTCAGCTTTACYCTTTTCAATGAATTTCACTGTAGCCCAAGCGACAGTGTGTGCTGTGTCACT
CTTACCACCATGGTATAGAATGTAAAATCCCCATTATTGGGCACTCRTTAGAACTATAAGGCTCTTCTCCCCAGCAAAGTGTCCCAGAGCTGTGCGAGGC
TTATACAAAAGAAGGAAGCATTGAGAAGTGCAGAATGTGAAAGCCAAGAAGGATTTGTAGGTAATGATGTTTTTGCCCACCATACTCAAATTGGAAATGC
ACCCACAGCATCTTAGAATTATTTATTATTAAAAGTGTATTTTAATGAAGATATCCCTTGGTATCCCTTGTCCTGGTTCAAGTCGTGTTCATGTTTTCCT
CATTATAATGGCCAGGACGTTGCACTACATATGTTTCCATAATATAATCGGTGTTTAACAGCATCTGAGCCAATCCATCAGTTAAGGCACTTGTTCTGAG
AACTGGTTGAATGTGGGGATCCTGCTGCCCCCTTGTGCTTGTTTGATATTGTTGCCCACGAGACTATCTAGGGTGTACATTATGATGTCTCTACCACCAA
GCTCTGTGTCTGGCACACAGTAATTAATATATGTTGAATGAATGAGTGCTTAGTTCCAGCTGAAGCATGAAGCCCTCCTTAGTATATATGTGCTCCGGCT
AGACTCCAACGAATAGCTGTTTGGCAATACATGTCAAGTTGAGTGGATGATGTATAAGTGAACTAATATCCCCTATGGAGGACAGCAATTCTCAGTGAAA
TAAGCAAATCATTGTGTGAGTTCTGTGTATCAGCAAAGATTAAATCTATTAAGTTTTTAGCTTCTTTCAGATGTTAACCACTTAAGTAGTTAATATTTGC
ATAATGCTTCCTATAGTTTAGAACCATTAGTCAGTGAGGGGAACCTCCTTTTCTCTGTTATATTTCTTGGTGGAAGAACTTCCTCCAGAAAACACTTTTT
AGGCCTTTGTCATCATCCTTTGCTCATTCCTCCTGAACTGTAATAGATGGATTTAGAAGAACTGGCTGTGCTCCTCTCAGCTTCTTCCTCCTCTTTAGAA
CTGGCCGGCCCTCCAGGAACGTATCTTCTCTACTCCCTTTTGCTTGTAGCTTCTGGGACAGTGCCCTGTAATAGGGTAGGACTGGGCTTCTGTGGTTGTT
CCTATGACTGGATGGTTCAAAATTCTGGGGTATACACTCAGGATAGATCTAGAAGATAGATGATAGATCTAAAGTCATGTTCTCCAACTTGCTTTATCAG
AAATGAAACTGATTATTTTTTGTCTTTATTTATCTAACTCCAGTATGTCCCGTGTCTCAGCTGGTTTCATAATCAGGAGGGGAATAAAAGGAAAATTGTA
TACTGATCCCCACAGCACTGCTATACATGATTAGAAAGTCTTTTCCCCCTTTAAACATGTAATTTTAAATGATACAATACAATCTCAGATGTGATTTTTG
TCACCTTCAAGACATCCAGCAATTCTAGCACCTTAGATATTTATATCGCAGGTCAGTTGGAAAAGAGTAGTCACAAAACACAAATTATGTTCATAGTACA
CTTGGCTAGTGTGCAATTTCCTGATCACCAAACACAGGAGAATTCAAAAGAAGTATGAAACCTGGTCCTTTGTCTTGGGGGCTTATTTCCTCCCACAGAA
AGCTGAAACCTGCCACATCTTTTCATATGGGTGATCCCTGAAATAGGCATTCTGGGCTGGAGATACCACTGTGGTTTCTATCATGTAAGAGCAGTTTTGT
AGAAGAGGTGAGATTTGAACAGGGCTTTGAAAGGTAGCTGGAACTTATATAAGCCCAGGGGTGTCATAGAGTGGGTTTTGGGGGAGAAGTTTTAGGAATA
RCAGGATGATCCCCAACTTTGAGGCAGGCCCTAATTTATTTGTGGGATAAAAASGATATTGAATATGAGAGTGGTGGGAACATCATTGGTTTAGTTAGGT
CTGGTTAGATCATGGAGGACCTCACAGCAGAGGGAATTAAGGCAGGAGAGTTACTGTGGGTGCTGGATGGAGGGGGCAGGATGACCATGCGGGACATAGT
ATTTGGGGAAGATTAGCTTGCAGGCCTGTTCTGTGGATGAGGACACTTGCTTGTCTGGGTTCTCTGCTGCCTCTTCAACTTTAATCTTCTAGGAACTCTG
AGTGGCCCCAGCATGAGGGCTCTAGTGGTGCCCCTCTGCCAGCCACTCTGAACTGTGGCAGACTTGCCCAGCACAGAAGTTAGGATAGGCTGTCTCTAAA
AGAGGACTGAGAGAGTGTTTATTCTACCCAGACCATGGCTTTGAGATTGGATATCAGGATGCATGTTATTTTTTTAAAAGAGCTTTTTTGTTGTTATCTT
CTAGATAAATGAGAAATCAGAAACAAAGTCACCATTCACCTGAAAAGGCACCACTGTCTGGGAGCAGTAGCAATGGGCTATATATAATAACAATAATGAT
AATAAAACAGGTACTGTTTATAAAGTGTTAACCGCCTGTTAGAACTTTTCTTATTGTATTGCTGCACATCTATCTAACATGTATGTATCTAACAAGGACA
TACTGAACTAACAAGGACACACTGAATACTGGTATTAGGATTTGAAAAGGCTGGGGTAAATACAGACATACAAAAACAACCCTGATTTGAAGGTTTTGGA
AGGACCTCTTAGGAAAAGAGGGAGGCAATTTAGCATTGTTTTGGATTACGGGGCTCAAATCCTCATTCTTCATTTAATTAGCTGTGTCACCTTGGGCACA
TTTTCTAACCTTTCTCAGACTTAGTTTCTCCACCTGGAAAGTGGGGATCATAATATTTCATGGAGTTTTTGTTGATTAAATGATGTAATGAATACAAAGA
ACTTAGCACAGTGCCTGGCACATAAGAGATGTTCAGTAACACATAACTATTAAGAACCTCTTAAACTAGCCTCCTGTGAAACATGAATTTTCTATTATTC
ATTTTTATCTTTGAGTTAAGGCTTTTTAAGAGCCTCTAGATAACTACAAATATGATATCTGGTGAAAGTTCCACATTTTCTTCCTCATGGTCTTTCACAC
CTTTGCATGACGCACTTACTGGCACCTAAGGATGACAGAGTCCCAGGAGAGAGGTACTCAGACAGGACAGAGTCATTTTAATAGATAGGGAGTAGAGTTG
TAAACGATGAAGAAATCTGGAAAAGAATAGCCGGAAAGTTAACAAAATGTATTGGATAACTACAATGTGCTAGGTTTTGTATATTATCTCTTCCTTACAA
CAATTCAGTATGACAGGCTGTGTTTCTCCATATTACCCATGGTGGAATGTGAACTGCAGGAGCCTTGCATACTTCCCCAAGGATCCCCAGTTAGTAAATT
GGGGACTAGGATTTTTCACTTGGGTCTCTCTTAATCCAAAGCTCACGTGCTTTGTCCTACACTCTGCTGCCCCTCGGAAAATGCACAGAGCAAAGGTCCT
ATTAGAAGAAGGCAAACTCGGGCCAGRGCTCCTGGGCAGCCAGGGGGCAGATAAGGACATAATGCCAGGGAGCTCCATGTAAACACGTGAAAGAGGGAAA
TGGGCCACAAGGTATCCTTTCACAAACGGTTACTTCCAGTGTCCTTAGAGCTGGCTTGGTCTCAGGAGGACAGAGAGGCCACACTCACAAGGCATATTAC
CCATCAGGATGGCACTGCAGTGATGGGATTCTGAGATCTTTGTCCTCCTCCTGTCAGTGGCTGGGCTAACAGCAGGCCAGGCTGGACAGTGGCCTGGGAA
CATAGGGCAGGCAGGCAACCTGTTACTTGCCATAGAAGTGTGCAGAATTGACAAATCCATGTTCAGAAGGGCATCAAAGTCCGGGTGAGGCTGATCTTCT
AAAGTTAAGTCCACCTGTAATTCCAGTGCTTTGGGAGGCTGAGCGGGGAGAATCACTTGAGCAGACTGGGCAACATTGTGGAACCTCATTTTGACAACAA
ACTTTAAAAATAAAAAATATTAGCAGAGCATGGTGGTGTGTACCTATAGTCCTAGCTACTCGGGAGGCTGAGACAGGCAGGTTGCTTGAGCCCAGGAGTT
CAAGGCTGCAGTGGTTGCATCACTGAAGTCCAGCCTGCATGACAGAGTGAGACCTTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGTCCCCAA
TCTCAGCAGCTAGACAGAGAGCAAGAGTCAAGACCCAGGAGAAACCAGTGGGTGGAAGGGAAGCAGTGAATGAGGGGAATCAAAATGGGCATTTGGGAGA
TGTCACTAGAGGTATTCCCTGGGCAGAGAATGGGCTGTTAGTGTGGTTCCTATGTCCTTCTTGTGACAGTGGCTAGGCACTTTCAAGGAGCCAGGTCTGA
CGTGCTATGATGCATGAGCCTCCAACCATTAGGGTGAAGGATGTGATCTGGGGTGAGAGCACAAGCCAATGATGTGACAACCACATGGGCCTGAGTGAGT
GAAAACTGCCACAGTGAGCAGCGTGTAGGCTGCCAACCCACAGGGCCGGGAAAGTCAAGAACTGTGTGTTCCACCCGCACATGTTCTCTCATGCACATGC
CGACCAGCCCAGCCCACCCTGCTTCTCACACGCCCTGCCTCCGGAAACGAAGAGCCAAAAAGGGAAAACCTCCCGAGAGTGCTTTTTACATCTTGCCAGA
CATCGGTCCACGCAGCAGCACACTTCACCACACCCCATCCCTGTCCTCAGTTATCCTCTGTGTTCCCAGTCAGTGGTCTCTCAGCCTTGAAGCTCTTTCA
CCTCCTTGGGGCGCTTGAAAACGTTGGCCAGTTCCTTGAGACCTTCCTTCTCCCCTAGATTTCTCATTTCTCACTTCCTATGTGTCTGACCACTCCCTCC
CAGCATCAGTAGGAGAAACCTTCAGCCCTGTTGCCATAGGTGCTAGGTCAGAGTTGCTTCCCAGGTGTCACACAGGGACTCAGGCTGAGGAAYACTCCAT
TGTCTGCCAATGCTACCTTTTCAACAAGTACCCGTGCAGTCGCCCTGGAAGAAGGGAAAGGCTGCAGAGGGAGCACTGTCAGTTAAATGCTTTAGGGCGG
TGTGTGACAGTTCTACTGACGTTTCATTAGGAAATGAGTCACGTGGCCGTGCCTCCCCTCAAGGGTGAAGAACAGTTGAGGAGAACTGGATGTGTTCTTT
TTCTCTGGGTTCTGGGTGGTTCTCCACAGGGAGCTGTTCTGAGCGTGATTGCCTACCACTGCTCTAAGCCTTCTGTGTCCTTGTGACCCTCAGATCCATG
TCCCCAACTTCTGCCTCTCCTGTGCTGCAAAGCCGTATTTTCAACTGTGTGGTAGATTCAAATGAAGTACTTCAAGCTTAGCATCCCACAAACCAAATTA
ATTTCCCCTACCAAAAACCCACTTGGCCATCTTGGGGGGCCTCTGGAATTCCTGGAGCATCCTTATCTGGTCTGCAAATTCCCTTTTATTCTGTGAAATG
TCTGTTGCTCTCCCCATCCTCCTGTTTATTTCCAGTATCCTTGATCCTGTCACACCCAGGTTTCTGCCATAGCCTACCAAATGGTGTCCCTTCCTCCTCT
TTAGTTTTTGGCAAAAACATAGCTATTTTCCTAAAAATAGACCTAATCATGTTACTCCCTTATGTAAAAACCTTAGACTATTTCCTACAACCCACAGAAT
GAAGTAAATCACATCAAGTCATTGGGGGAATGGGGTTGTATTTGAACAGAACCAGACAAGGATCTGAATGCTGGTCTACCACCTACCAGCTGTGAGTAAG
TTATTTAACTTCATTGACTCTGTTTTTCAATCTATAAAAGGGAGATAATGATACCTACCTCACAGGGTTGCCTTTATTTTTTGCTGTGTTCTGTGCCTAT
CATCTGGTTGGCTGGGGGCTTTGGGCAAGTCATTTTCTTCCTCTACAACCARGGATGGGGAAGCAGCTTCTCTCTGACCTCATCACTTCCTACTCTCTTG
CCTACTTCTCTTCAGCCACACTTTCTATAACTGTGAAAGGGGAAAGAGAAGCTCTGGAGGTCCTTACCCTGGCAATGCAATATTTGCCCTTAAATGTATT
TGCCAGAACTGGTCATGTGGCCACATCCAATGTTGGGGGCCAAGAAGGCTGGGAGCCAAAAGTATTATGTGAGCAGCGTTAATGACTATCCGATTAACGA
TGACCCCATAGTGGGTATAGACCCTTGCCCTTTGGAGTGCCTCTTGCCTGGTCAAGGTCTGACACTGGGACCCCGTGTGACCATAGTTCAGTTGACTTTG
TCAGATTTTTCTTAGCTTCCTTCCAAAGAGGATGGGATACACAATACTTTTAAGTACATTTAGGACTTGATGATAAAAACTGACCCTCCAAGATGCTCTA
ACTAGAAGGAATGCTGACTATCTTCTTGTCAGTTTTGCTTATCACAGGTGAGGAAACCGGAGGACCAAGAAGGGTGAGACATTCCCGCCAAGCTGGTTGC
TGGCATCTCAGACTCAGTATGGCCACCTCTGAACTCTCATTGTCCCTCCCAGCAAATCCCACCCTCCAGCCTATATTTCCTCAATGGCTGGTTGTATTAG
TCTGTTCTCACATTGCTATAAAAAAATACCCGAGACTGGGTAGTTTATGTAGAAAAGAGGTTTAATTGGCATATGGTTCCGCAGACTGTGCAGTAAGCAT
GATTCTGGTATCTGCTGAACTTCTGGGGAGGCCTCAAGAAACTTACAATTGTGGCAGAAGTTAAAGCAGGAGCTGGCACGTCTTACATGGCAGGAGCAGT
AGGAAGAGAGTGAGTGAGTGGGGAGGTGCTACACACTTTTAAACAACCAGATCTCATGAGAACTTACTATCACAAGAGCAGCACCGAGGGGATGCTGCTA
AATCATTCATGAGAAGTACCTCCATGATCCGGTCACCTTCCACCAGGCCCCACCTCCAGTGTTGGGGATTACAGCTTGACATGAGATTTGGGCGGGAACA
CAGATCCAAACCATATCACTGGTGTTGCCATTGATCTCTACTTGTCCTTTAACATGCAGTGTCCTCTTCCATGAATACCTTCCCCAGTTCCTTCCATAGA
ATTGGAGCCCCTCCCCTCCCTATGTTATCCATGTCCCATTTATGGCATATGACGTTTTATATTGGTTTACTTGTCTGGCTCCTTGGTAGATAAGATTGAC
TTGAGTACAGCAAGGGCATCTTATGCATCTTATGCATCTTTGCATTTTCCAGTCTAGCAAGTGGCACTTTATGCAATGGCACTGGATAGAATTCTTGTCT
GAATTATTGGAAAAGAACCAGTTCCCACAGGTTCAACAACAGGCAGTGGAAGAGTTGGAACTTCTGATTTTTGTTCTCAGTCACTTACTACTGAATTGCA
TTTAGCTTACAGTTTTTCAGTCTCCTGCAGCATTGTGTTCCATGCTCTTATGCTTGGGTTTAAGAGACTTTTTTAAGATCAGATTTTATTTCTTTCTTCT
TTTATTTTAGGTTCAAGGAGGTACGTGTGCAAGTTTGTTACATAGGTAAATTGCATGTCACTGAGGTTTGGTGTACAAATGATTTCATCACCCAGATAGT
GACCATAGTACCCAATAGGGAGTTTATCATTCCTCACTCTCCTCTGATCTTCATCCTCAAGTTGGCCCTGATATCTATTGTTAACCTATTTCTGTCCATG
TGTACTCAATGTTTAGTTCCCTCTTATAAATGAGAACATGCAGTATTTGGTTTTCTGTTTCTGCATGAAGTCACTTAGGATAATGTCCTCCAACTGCAAC
ATGTTGCTGCAAAGGACATGATTTCATTCTTTTTTGTGTCTGCATACTATTCCATGGTGTATATGCACCACAATTTCTTTATGCAGTCCACTGTTGATGG
GCATCTAGGTTGATTTCATGTCTTTCCTGTTGTAAATAGTGCTGCAATGAACATATGTATGCCTGTGTTTTTATCGTAGAACAATTTATATTCCTTTGGG
TATATATACAGATTGCTCCTTCAGGCCAGGYTCTAGGGGAAATATGACAATGACTTGATCAGGTTTGCTAGGTCAAATGGTAGTTCTGTTTTAAATTCTT
TGAGAAATCTCCAAACTGCTTTCCACAGTGGCTGAACTGATTTACATTCTCATCAACAGTGTATACGCGTTCCCTTTTCTCTGCAACTTTGTCAAATCTC
TTATTTTTTGACTTTTAATAATGGCCATTATGACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCGTTTCTCTAATGATTAGTGATGTTGAACA
TTTTTTCATATGCTTTGTTGGCCATGTGTATGTCTTCTTTTGAGGAGTGCTTGTTCATGTCTTTTGTCCATTTTTAAAGGGCTTGTTTGGTTTTCACTGT
TGATTTAAGTTTCTTATAGATTCTGGATATTAGATCTTTGTTGGATACATAGATTGCAAATATTTTCTCCCACTCTGTAGGTTGTCTGTTTATTCTTTTG
TTAGTTTCTTTTGCTGTGCAGAAGCTCTTTCATTTAATTAGGTCCTACTTGTCAATTTTTGTTTTTGTTGCAATTGCTTTTAGAGTCTACATCATGAAAT
CTTTGCCAAGGCCAATGTCCAGAATGGTATTTCCTAGGTTTTCTCCTAGGGTTTTCATAGTTTTAAGTTTTTCATTTAAGTCTTTAATCCATTTTGAGTT
GTTTTTTGTGTATGGTGAAAGGAAGGGGTCCAGTTTCAATCTTTTGCATATGGCTAACCAGCTATCCCAGCACCGTTTATTGAATATGGAGTCTTTCCCT
ATTGCTTCTTATTGTCAACTTTCTCTCTTGTCTTCATTTGGTTTGCTGATTTGCTTTGTTTCATGTTTGGTGATAATGCCATATTCCCATTCAAGATGGA
TGTTCTTCCTAAATAAAGGATTTTTTAAATCCTTTTTTTTTTTTTTTGCCTTGTTAGTGACATGCTACAGAAAATAAACAGGGTAATTCTGATTTGTGAT
TGGACAGCCTTTGAATTAAAGGAGTACATATGGCTTTGGGGGGCTTAATATATTGTAAAGACTGAGTTACTCTTGAGATTCTCTGTAAGTTTTTCAAACT
GTAAAGTGGCTGACATTTGAAAGTATTATATGTAACATCCAGCATCATGTCTGCTGCATAGTATATACTAATTAGGAGAATTTGATGAACAAATGGAGAA
GTTTTCCTCCCAGGAGCATGCTTACAAAGGAAACATTTTTTTTTTTTTTTTTGCCTTGCCTAGGTAGCACATAGCCCACCTTTAAGTTTTTTTTTTTTTT
TTTTTGAGACGGAATTAAGTTTTTAAATGATTTTTATATGTGTTATTTCATGTCCTCATAACAAGTTGTTGTGCAACCATATATATTATAMCTCTCAAGT
CAAGTATTATGTTATGAATGCCTTGTACAAGTGTTGAGGGAACCGAGTTGGAATGTGAATAACTAACCCAGTGTGGTCTATCTTCTGCCAGTAACAGTTT
CATTGCACAATCTTCCTTACTGGAGGTCAGTCACCTTACCCCACTGACTTGGCCCCTCTTGGAGTATCTCCTTTTTACTTTTGGAAGGTTCTCAGAACTT
TCTCAATAATATTTCAAATTGCCATGTTTTGGCCAGGTGTTTTCAGTTGTGTAAATCTTAAACCCATTTCTGGAAGATGTTCTCAGTCCTGGTCTCACCT
ATTCAATAAACTTAAAGTTTCTGCTATGAGTTAAGTGCTCTGTTAATTTTGGTGGGGAAAGCACAAACAGACCTRTTGTTAAGGCACACTCTCAAACTTT
GTCTGGAAGACCTTTTGGAATACTTCACCTATATCTCATAGTTTTATTATTTCTGGTTTCTCAATACTTACTCATTTGTACCCCACTTGTTTCCTATGTT
GTATATAAAATGACCCTGTCCTTTATATTTTTTATCTCCTGCATCCTAGTTCTCTAAGTTTTACTTCCTGAAAGCAATCAAATGCAACTAACATTGGGTT
TCATTTGAGTTAGACCTGTAGAGTGCTTGGGCTAGAAAGGCTCTCAGGGAGCACTTTGCAGTTAAAATGAAGCCACCCCCACCCGCCCCCACTCTCTGCC
TCCCCAGGGTAGTCTTGACCAAGACCTAGAGACAGTGAGGGGTAGATTAGGGCCAGAATCCAGGCCCCTGACTCCTAGTCAGTACCCTATGTCTACCTAT
CCTTGTCCGGTGAACCTTTTGATATTTGATTTCCATCCTTGTTATCCCTTTTTCTTTATTTGATGCTAAGCTATTGTCATCATTCCTCATTAGATCCAAT
TACAGAGGCTTGGAGGCCAGTAAGAACCAAGTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAAT
GATGCGATCTTGGCTCACTGCAACCTCTACTTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCATG
CCTGGCTAATTTTGTGTTTTTAGTAGAGATGGGGTTTCTCCATGTTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTGCAGCAGCCTC
CCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCCAGAGCCAAGTTTTTTAAGGGATGGCTTCAYGTCTGAGTTTTGGCCTTTCACACTGACT
TGCTATGGCTGGTAGCAAGGTGATGAGGCTCTTTTAATCTTCATAGATATCCAGATAATACAGCTTGGATCACTGATAGTAGGAATTACAAGGCCCTCCT
AATCCAGTGAGGACATGGTGTTCAGAGGCCAAGACATGGTGGGGATGCTTGCAGCACCTTCATGTGAAGAGTTTCCCTGCATGGAGGTGTTTGGAAAACA
GGCTTGTGGGTGAGGGGCAAAGAGAGTTCTAAAAAGACTGCATTGACCTTTTGGATTTTTCTGTAGCTCACCTCAAAGACAGGCAGAGATCCTGGGTGAC
ATGTGGTGCCAATTTTTATTGTATTCCTACTGGCTCTGTAGATATTGTCTTTTGTTATGTCCTTGGCAAGAGAAATGTGATTGATGTGATTGGGAACATG
AGACTGGTGGGGTGGGGGTGGTTCTCAAGCTCCCCATAATTCACAGATTTCAAGAGAGGAGCACAGAAGGACTTCATTTGAAGGGAGGAATGAACCATCT
AACCTCCAGTGGCAGATGGGAGCCGAGACCCTGGAGTCATTGGGGCAGCAGTTGCCTGAGCAAGGGGAATAACAGCAGTTTCCCACCAAAAGTCTTCTAT
TGGGATTTTCATGTTTTCTGTCCTGCCTTTTAATGTTTTTTAATGAACAATAGGATCTATGACTCTTTATGCCTTGGGGAGTCACTCAGGACAAGTTTCA
TACCCCCACTTGGAGTTGGGATTATTATTTACTGATTTAGACAGCTTGGGGGGCTGTCACCACACTTCTTCTGTCTTGTCCAGTTCACCCCTCAGCTGGC
TAAGTCTGAGAAGGTGTTACACGCACAGCTCAGGAAGAAGGCATGCCTAAGTTTCTAACTAAGTGAATGCAAGGCAGCTGGGTCTGAGAGCCCCAGAGGC
TCACCTCTGCACATGGTGAGGGAAAAATAAAGATGGCTTCTGAGTGATTTTATGACTTTTGAAAGAAGGGGCATTGGGACAAATAAAAGGATACAGCCAA
TGGACACGCAGTTCTTTGGACTGGAAGAAAAATTATAACCTGTTTGCTTTTAGGGTCATTGTATTCATCTACAATAGTATATGGTTTGTTACAGATTCCA
GGGCATTTTCCRTATATATATTTTATTTTTTTTCCTACTATAACTTTAAAAGACATTATTTCCCCCATTATTTCAATTAATAAACAAAGGCTTATTGATG
ATTTAACTAGAATCACATAGAATATGCCAGAGTCAGAACTTGAAACCACCTTTATTCCTTCTGGCTCAGTGTTTTTTCTCTTATTATTCAATATAACTCA
ATTCCCTCATAACCATGAAGCATTGTGTTTTYGTGACTTATGGTTCATTGACTTCCAAACATCATTTTGTCTGAAATATTTCATATACACAAAAGAATAT
ATATATATTACATATGGTTTGTTCCATATATGTGGGACAAATGAAAATGAAATGAGTATCTGGGCACTAACAATAAAGCTTAAGTGATAGAACATTACTG
ATGCCAGGGAAACCCAATTGCCTTTCCTGCAACTCTCGCCCTCCCACTCAAGGGTAGTATTTATTATCCCTTTGCTTATCATTTAGTTTTACCACTTGTG
TATATTTCCCTATGCAATATATCGCTAAATGTTATATGAATTGTAAAATACAGTGTATGTTTTTATAGAGGTTGGTTCATTCACTTCACTTTCGCTGCTG
WGCAGAATTCTACACAGCAGAAGTGTAAGTGTATTGCAAGTTATCCCCTCTCCACTTCTAGAATTTTGCTAATGCAAGTGACATTGCTATGAAGATTCTG
GAAATTTTCTGGGGCTATAGGACATTTGCATGCTTAACTCTGCAAGATAATGCCCAATTGCTCTTTTCCCCTATCCTTTTTAAGTTATAATTGACAAAAT
TTTTACATATTTACAAGGTACAAAGTGATGTTTTGATATATGTATATATTGTGAAATGTTTAAATCAAGCTAATTAGTCTATCACCTCAAATACTTATCA
TTTATTTGTGGTAAGAACATTTGCTATCTACTCTCAGTAATTGTCAAATATACAATACATTGATATTAATTAGTCACCATSCTATATAATAGACCTCCAG
AATTTATCCTGTTTAACTGCAATTTTTACCATTTGGCTAACATCTCTCCATTTCCCCTTCCCACTCCAGCACCTGGTAACCAGCAGGTGCTGCTGGTCTA
CTCCTTGCTTCTATGAGTTCTACTTTTTTAGATTCCACATATAAATGAGATAATGCAATATTTGTCTTCTTGTGCTTAGCTTATTCTATTTAGCATAATG
TCTTTGAGGTTCACTTATGTTGTCATGAATGACAGAATTTTGATTTTTTTAACTTTAAGTTCTGAGATACATGTGCAGAATGTGTAGGTTTGTTACATAG
GTATACACATGACATGGTGGTTTGCTGCGCCCATCAACCCATCATCTACATTAGGTATTTCTCCTAATGCTATCCCTCCCCTACCCGCCCCCTGATTCCT
TGACAGGCCCCGGTGTGTGATGTTCCCCTCCCTGTATCCATGTGTTCTCATTGTTCAACTCCCACTTAGGAGTGAGAACATGCAGTGTTTGGTTTTCTGT
TCTTGTGTTAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTGCAAAGGACATGAACTCATCCTTTTTTGTGGCCACATAGTATTCCACGA
TGTATATGTGCCACATTTTCTTTATCCAGTCTATCATTGATGGGCATTTGAGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAGTAAACATGTG
TGCATATATCTTTATAGTAGAATGATTTATAATCCTTTGGGTATATACCCAGTAATGAGATTGCTGGGTCAAATGGTATTTCTGGTTCTAGATCCTTGAG
GAATTGCCACACTGTCTTCCACAAGAATTGAACTAATTGACAGTTCCACCAACACTGTAAAAGCATTCCTGTTCCTCCACATCCTCTCCAGCACCTGTTG
TTTCCTGACTTTAATAATTGCCATTCTAACTGGCATGAGATGGTATCTAATTGTGGTTTTGATTTGTATTTATCTAATGACTAGTGATGATGAGCTTTTT
TTCATATGTTTCTTGGTCATATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGGTCATTTTTTTATGGGGTTGTTTTTTTTCTTGTAAATTT
GTTTAAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAAATGGATAGATTGCCAAAGTTTTCTCCTATTCTGTAAGTTGCCTGTTCACTCTGATGAT
AGTTTCTTTTGCTGTGCAGGAACTCTTTAGTTTGATTAGATCACGTTGGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGTCGTGAAGTCT
TTGCTCATGCCTGTGTCCTGAATGGTATTGCCYAGGTTTTCTTATGGGGTTTTTATGGTTTGGGGTCTTACGTTTAAGTCTTTCATCCATCTTGAGTTAA
TTTTTGTATAAGGTGTAAGGAAGGGGTCCAGTTTCAGTTTTCTGCATATGACTAGCCAGTTTTCCCAACATCATTTATTAAATAGGGAATCCTTTCCCCA
TTGCTTGTTTTTGTCAGATTTGTCAAAGATCAGATGGTTGTAGATGTGTGGCATTATTTCTGAGGCCTCTGTTCTGTTCCATTGGTCTATATATCTGTTT
TGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTATAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCTAGCTTTGTTCTTTTTGTTTAGAATTG
TCTTGGCTATAAGGGCTCTTTTTTGGTTCCATATGTAATTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCAATGGTAGCTTGATGGGGATAGCATT
GAATCTGTAAATTATTTTGGGCAGTATGGCCATTTTCATGATACTGATTCTTCCCATCCAAGAGCATGGAATATTTTTCCATTTGTTTGTGTCCTCTCTT
ATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTATTTTTGTAGTAATTGTGA
ATGGGAGGTCACTCATGATTTGGCTCTCTGTCTATTATTGGTGTATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGTTCTAG
TTTTTTTTAATCAAGTATTTTGGATTTTCTACATAGACGACTTCTTTAAATTTCTTAGGCTTCTTTAAAGACTTTATCTTGGTGTTATGGAGTTTACTCT
AATGGTGCTAGTTATGGGTTTCCTTTTAGCTATCCTGCTTTTATATGCATTGTGCTCACTGCATCTATGTATCTGAATATTTCATTCTTGAAAAATCAAA
TATTATCTTTTCAAATATTTTCTCTCATCATTTGTCTCTTCTCATTTTATGAAACTCTGACTTGACTTATTTAAGATCTTCAACCTAACATTTCTATTAG
CCTCACTTTCAGTTTTCTCATCTCTTTATTTCTATGCACTGCATTAAAAATATATATGTGTATATATATATTTATTTAGTTCTTTGATTTTATTTATCAG
AGTTTTGTAGTTTTCCTTATGTAGATATTGTACATATTTGGTCAGATTTTTACTTATTTAATTTTTTTAGGTACTACATTTTACATACATTTTCTGTTCT
GCTATCTGCTCTGTCCTGTAACCTATCTTTGAAATTTAAATTTTAAAGAAAAAACAACACAAATGATCAAAATCTGGAATGAAAAGGGTGGCATCACTAT
AGATCCTACAGAAATCAGATAATTAAGGTTATATTATGAATAATGTTGTGCCAGTAAATTCAATAACTTGGATAAAATGGCAAGTTTCTTGAAAACCAAA
ATACCAAAACATTGCCAAAAAACCATATGATCATCTTAATAGATACAGAAAAAGCCTTTGATAAAATCCAACATTGCTTTATAATAAAAACCCTCAACAA
ACTAGACATCAAAGAAACATACCTCAAAATAATAAGAGCCAGCTGTGACAAACTCACAGCCAACATCATACTGAATGGGCAAAAGCTGGAAGCATTCCTC
TTGAGAACTGATACAAGACAAGGATGCCCACTCTCACCACTTCTACTGAACATACTRCTGGAAGTCCTACCTGGAATAATCAGGTAAGAGAAAGAAATGA
AAGGTATTCAAATAGGAAAAGAAGTCAAACTATCTCTCTTTGCTAACAATAACAATTCTACATCTAGAAAACTCTAAAGACTTCACGAAAAGTTTCCTGG
AACTGATGAACAACTTCAGTGAAGTTTCAGGATACAAAATCMATATAAAATTCAGTAGCATTTCTATACATCAGTAGTGTTCAAACTGAGAGCCAAATCR
AGAACACAATCCCCTTTACAATGGCCACAAAAAATAAATACCTAGSAATACATCTGCCAAGGAGATGAAAGATCTCTACCAACAAGAAAAACTATAAAAC
ACTGCTGAAAGAAATCATAGATGACACAAAAAACTGGAAAAATATTTTATGCTCATGAATTGGAAGAGTCAGTATTGTTAAAATGGCCATACTGCCCAAA
GCAACACTATTTCAATCAAACTACAAATGTCACTTTTCACAGAATTAGAAAAAACTATTCTAAAATTTACATGGAGCTAAAAAAGGGCCCAAATAGCCAA
AGCAATCCTAAGTAGCAGGAACAAAGCCAGTGACATCACACTACCTGATTTCAAACTATATTATAAGACTACAGTAACCCAAACAGCATGGTCTTGGTAC
AGAAACAGAAACATAGACCAATGAAACAGAATAGGGAACCCAGGCATAAGGCTGCAAACCTACAGCCATCTGATCTTCAACAAAGTTGACAGAATTAAGC
AATGGGGAAAGGAATCCCTGCTCAATAAACAATGCTGGGATAGCTGGTTAGCTAGATGCAGAAAAATGAAACTGGACCCTTACCTCTCAATATATGCAAA
CATTAAGATGAATTAAAAATTTGAATATAAGACCTCAAACTATGAGAATCCAAGAAATACACCTAGGAAACACCATTTTGGACATCAGCCTTGAGAAGGA
TTTATGACTAAGTCCTCAAAAGCAATTGCAATAAAAAACAATTGACAAGTGGGACCTAATTAAACTAAAGAGCTCTGTATGGCAAAAGAAGTTATCAACA
GAGTAAACAGACAACCTACAGAATGAGAATGCAAAATATTTGCAAACTATGCATCCAACAAAGGTCTAATATCCAGAATCTCTAGGAACATAAACAATTC
AACAAGCAAAAAACAAACAACCCCATTAAAAAATGGGCAAAGGACATGAAAAGCACTTTTTAAAAGATACACAAGCAACCAACAAATGTGAAAAAAATGC
TCAACATTGCTAATTATTGGAGAAATACGAATCAAAACCGCAATGAGATACCATCTCACACCAGTCAGAATGGCTATCTAAAGCAAAAAAAAAAAAAAAA
AAAAAACAACAGATGCTAGCAAGGCTGCAGAGAGAAGGGAATGCTTATACTCTGTTGGTGGTAATGTAAATTAGTTCAGCCCCTGTGGAAAGCAGTTTGG
AGATTTCTCAAAGAATTTAAAACAAAACTAGCATTCGACCCAGCAATCCCATTACTGGGTATATAATTCCAAAGAAAATAAATTGTTCTACCCAAATGAC
ACATGCACTTATATGTTCATTGCAGCACTATTTACAACAGCAAAGACATGGAGTCAATCTAGATGCCCATCAATGGTGGATTGGATAAAGAAAATGTGGT
ACATATACACCATGGAATACTATATATCCATAAAAAGGAATGACATCATCTCCTTTGGAGCAACATGAATGCAGCTGGAGGCCATTAACTTAAGTGAATT
AATGCAGGAACAGAAAACCAAATATCAAATGTTCTCACTTATAAGTGGGAGCTAAATAATTGGGCACTCATGGACATAAAGATGGCAACAATAGACACTG
GGTACTACTGGAGGTGGTAGAGGGTTGAAAAACTGTTGGGCACTATAGTCACTACCTGGGCAASAGGATCATTCATATCCCACACTTCAGCATCACACAA
TATACTCATGTAACAAATCTGCACATGTACCCTCTGAATCTAAAATAAAAGTTGAAATAAAGAAAATTACCAAAACTAAGAGAAGAAATTTAAAATCTAA
ATAAACACAGATCTGTTAAAGGAATTTAATTCATATTCTAAAACTTCCCACAAAGAAAACTGTAGGCCACATTGTTTTACCAGTCAATTCTACCAAACGT
TAAGGAAGAAATAATGCTGATCCTTCACAAACCCCTTTAGGATATGAGGCAAGGGGAAAAACACTTCTCAACTCATTTGATGTGATCAGCATAACCCCAT
TACTTAAACCTGACAAATATGTAATGAGAAAATAACAATGTCCATTGTGAATGTAAATGCAAATTTCCTTGAAAATATTATTAAATCTGGCAAAATATAA
AGGATAATATGTCATTACCACGTGATGTTTAATTCGTGAATGCAATGTTGATTTAGCATTTGAAAATCAGTCAAGTTAATGTACTACATTAGCAGTAAAA
GAGGGAGAAAGCATACAGCACCTTAATATGTGCAAAAATAACTTAAAACTTACTAGTCCTTTATAATAAAGACTTGCAGTAAATTAATAATAGAAAAGAA
CTTTCTCAGTCTGATGAAATGGCATTGCTATTGTTTGAATGTGTTTTCCAAAGTTTATGTGTTATAATCCCCAGTGCAACAGAGTTGAGAGGTGGGACCC
TTAAGAGGTGATTAGGTCATGACAGCTCTGCCCTCGTGAATGGATTAATGCCATTATWGTGGGAGTGGGTTCTTGATAAAAGGATGAATTCATCCCACTT
TCCCATGCTCTGTTGCATAGGCTTTGCCATTACACCCTTCTGCCATGAGATGATGCAGCAAGAAGGCCCTTGCAAGATACAACCCGTTGATCTTGGACTT
CTCAGCCACCAGAACAATGAGCCATGTTAATTTTGGTTTATTGTAAATTACCCAGTCTCAAGTATTCTGTTATAGTGGCACAAAATAGCTTGGGACAGGC
ATCTATAAAAAACCTACAGCCAGCATCATACTTAATGAAATATTAATCCCTCTTCCCTGTAATCTGGAAATGGGCAAGGACTTTCACTTTTACCACTTGT
CTTTAATGTTGTTATGTAAATCTGAGCCATATTAATAAGGAAAGGAAAGAAAATAAAGGGTACATAAATTGGAAAGGAAAAAATAAAAACCAATTTTTTC
ACAGATAACATGATTATGTATTTTGAAAATCTAACAGTAGACTCTAAACTACAAGAGCTAATTAAGTGAATTCAGCCAGGTCACAGGATACAAGGTCAAC
ATACAAAAATTAATTGGGTTATATATGCTTGCAATGACCAAGTTAAATTTAAATTTAAATTAACTAAAAATGGATGTTAAATATTTAAGGAATAACAAAA
AAATCAAATATCTAGAAATAAATCTGACAAAAGATGTCAAGACCTTTCTACTGAAAACTACAGAACATTGCTGAAGTAAATTAGTCTTTTGAAAAATGGA
GAGACATGGTATCTTTATGGATTGAAAAACTTAATATTATTAAGATATCCATTATCTCTAAATCAATATGGAGATTAAATAAAATCCCCATCAAAATTCT
AGCAGGTTAATTTGAAGAACTAGACAGATGATTCAAAACTTGATATGGAAAGGCAAAGGCTTTAGAGAACCCAGAACAATTCTAAAAAGAGAACAAAATT
GTAGGACTTATTACACTACTTGATTTTAAGATCCACTGTAAAGCTACTGTAATCAAGACAATATGGTATTGCTGTCAACAGACAAATAGACCACTGGAAC
AGATTAGAGAGCCCCTCATGTATATTGGTGGTTGATTTGTGGCAAAGATGCAAGTTCAATTTAGAGGGGGAAAGGAAAGTCTTTTAATAAATTTTGCTAT
ATCCACTGTATATTCATATWAAAAAAGTGAATCTACAGCTGGGTGTGGTGGCTCATGCCTGTAATCCCACTTTGGGAGGCTGAGGTGGGCGAATCACTTG
AGGTCAGGAGTTCGAGACCAGCCAACATGGCGAAACCCCATCTCTACAAAAAATACAAAAATAACCCAGGTGTGGTGGTGTCTGCCTGTAGTCCCAGCTA
CTCGGGAGGCTGAGACATGACAATTGCTTGAATCCAGGAGGCGGAGGTTGCAGTGAGTTGAGATTGCGCCACTGCACTCCAGCTTGGGCATCAGAGCTAG
ACCCTGTCTCTAATAAATAAATTAATAAATAAGAATCTAGACCTTCCTCTCTCTGTGTAGATTAAAATTAATTTGAGAATATCTTTGCRAATTCAGGCGA
GACAAATGTTTCTTGGACAGAATACAATATAAAAAGCATAAACAATGAAATCAAAACAATTAATAAGTTGGGCTTTGTCAAAATAAACAATTTCTGTTTA
TCAAAAGATGCCATTAAGAAAATGAATATAAACAAGACACAGACTAGGAGACAATATTTACGTAACATATATCTTTTTTTTTTTTTGACCTTGGAGATTT
CCATCACTTTTTTGTAAGCTTAGGAATGCATTAATTATCATGCTTGTCAATCTAGCACTTGGGTGTTTTGTGTAAAAGTTATTTCAGAACACTGGTGTTT
TATTCTGCCAGAGTAGAAGTCAGTTCTTTGACTTTTCAGATTCTCTGCAAAATATAACATTTTTCTGAGCAGCATTAGGTAGAAATATACTATAGTATCA
TGTGATTACCTTATTTCACACAAACAGAATTATATAACCAAATTCTCTATAGTTACCCCTTCAGAAGTAAAGCCTATACTTACTAGTTTCCCAGGGAGGA
GTCGTTATTGCAAAGGAGTAGATTAAACCTGTGGGGAAAAAATGTTGGCCTGGTGTATCTTTTTAGGCATCAGCCTTCCTGTAAGTGGAGCTGTGACCAG
GTGTATGTATGCACATGTGTATGCATGTACATTTTCATGACTGCAGATGTAGACACGTGTATGCACAGATAATGTTTGCAGATAAGATGTATTTTCAGAT
AAGAATGGAGTAATATTTTAACTTGGGTTCATTGTAATGTTTGGATATAAGATATCTAAAAAAAGATCAGTGTTTATTGGTAGAGCGTGATTACTTGCAA
AAGAATTTGACTATTTTATTTATGCTAGTGACAACTAGTGTTTTTCATAGGAATCCATTTCTAGTAATTACTGTTTGATAATATAAGGGTAATGTGAATT
TCCTGCTTCCTGCACATAATAAGAATGTGAATTTAATGCCTTCTTTATAGCCTCATTTCTCCACTCCATAGAGCAGGATGAGGAAGAGATACTCTGTAGT
GGAGTTCAGGGGCTTTTCTGACCTCGGGTCCTATCCTTTCATCTGAGTACATCCTCAGAGACAAGAGGCAGAAGAGAATACAGAAGGGGAAAAATAGGAT
GAAAAAGAATAACAAAAGCAGGGGAGGAAACACACAGGAAGAAAGAAGAGGAAAATACACTGAAAAGCTGTGGTGAAATGTTGCTGATGTAATCCTAAGG
GCCTCAGGTGGCACAGGTCCCCTGGCTTCTATTTGCCTCTCTAGACCTATCTGTGGTCAGAAGAACCTTGTTCTGTCAGTACTTAGATGTATGATCTTGA
ACAGATTCTTAAACATCCTTTGGCTTCATTTAAAAAGTGAGCTAGTATCAGGTATTTTGTAGTTTTGTGAAAATCAAAGCAGATAGTGCTTACAAACTTC
AGCAGAGCATCTGGTACATCATAAACACAAAATAAGTGGTCATTAGTATGATGATATCAATACCACATCTTCCAGCTGCAAAAAATGGTTTTGCTCCAGA
CAGTGCTTTTCAAACTATCCGTGTCGAAGAATTGCTTCTAAACATTACCAGTCTACTGTGTGTTTATACTTTTGTAAAATGCATTTGTTTATAAAAAGAA
TTACCTGAAAACTGAAATGAAAAATATAAACAGATATAAAATACAGCCATCAATTTTTATTCTTACATTTGGTAGACATCAAATATCTGTAAAATTATTG
TAGAAGTTACTAGTGCTTTTAATTTCTGAATTTATCTTATGGACTGGAAATAGTTTGCAGATAGGCATTGGTCCATGGTTCACACTTTGACCGATACTTC
ATACACTGCTCTGTGAAGAGCAGATCTACTGTTGCCTATAAATACATAAGGGTGGACTTTGCTAAGGCAAGGGACTTAGGAGTATTTAGAAGTCTATGCT
GGGGTGGGGGTTATGGTCCAAGCTGGAAGCTTCCACCCTCGTGCATGTCTCTGATGGCTCCAAACTCTGGAGAGTCTGCTTTGAAGGAAATCTTCACATA
AAAGGTCCTATGTAAAAATGTCTTCTCCTGAAGGTGGTAGAGTTATTTAGAATCTATGAGGYGAACAGCTAGAGTTCAGAAGTTGTCTAACAGTCTACAC
GTRTTCAGTAACATAGACTTTATCAAAAGATGCACTCTCCTCCTCTCTAAACCTCACCAGTATTCCTTCCCTTCCAGTGTTGATTTGTATTATCCTTGAT
GCAAATGTCTGATTTGAGTTAATATTTCAAGGTCACAAAGTAATAAGAGTTGTCAACTGACAGTACTTTGTACTTTAAGAGAGCAGCTCCTTAGGAATTT
CAGAGTCCACTCTTATCTGTTGAAGATCTACCATACTAGGCGCCATGACTGGTGCCTTGGTTCACATGGGCTTGCTGATGCAGCAGCTCAGTGAAGTTGC
AGTTTTTATCAATGCCATTTATTAGGAAATTGAACTTCAGAAAGCTTCAATAACTTGCCTGTGGTCTGATTCAAAGATAGGTGTAATGAGTCCCAATACA
GTTTTTATTTTTACAATACCACAGGTTTAATCGTCTTTCATGGCATTTTGTCACTGTCATTGTATATGTATTGTACGAATCCTCATGGAAAAGTGCATAG
CCTACCACAGCCCTAGGCACTGGAGTCCATGACAGGCCAGCCATCTAGTAAGAAAATGTCTTTGCTTGTATGTCACCAGCTTTTGTTTCATTTATCTCTA
ATAGATAAGGATATTTTCAATAAGGTAACAATTAATTGCATTTTAATGAAGAACTTAGGTTAACTGTAAGACAGGCTTAAAGAAGTTGGTGATTTATTAA
ATATCCTCAATTTAAGAAAGACTTCTAAGTAAGGGATGATAACGGTCAACTTAAATGATACTGAGACTACAGAGGGACAAAGTCTCAATTGCAGCAGAAA
ATATTTAAGCTGAATATAGTGAAGAATTTCCTGCCATGATGTTGCTTTACAGCTTTGGAATAGTCTTGAAAGTTCATATAGAGTGTCAAAGAATAGGTGT
ACAGCTTGTTTTCAGAAGGTCCTGGTAGAGAATTCTTAGATTGACTACATTACCAGTAGATATGATCTGCAGTGGTTGTGACTCATAGAGGTAACCTCCA
GAAGAAAGAATATGTACTTCTGAACGTTCTGATGCCTTTATCCATTCATGCAACAAATATTGCTTGAATTCCTTCTAGGCACCAGGCATTGTTCTGAGGA
TATGATGGTGAACATGGCAGAAGAGATCCTTTTATTGTGTAGCTTATATTCTTGAGCAAAGACAAAAAACCAAATAGCTGAACAAGGTAGCTTTTAGGGA
CAGATGTTATTAATGAAATAAACAGGTTAATGTGGTAGAGTGCAGCAGGTAATGGGGCCATTAATTTTAATTTTGTGATCAGGAAAGTTCTCCCATCCCA
CGCCAGTGGTCGGGAAGAGAGACAGAGCAGATCTATGGAGGGTCTCATAGGCCACAATAAAGGGTTTGTATTTTAACAATGAGAAGCCAGCAGAAAGTCT
TAAACAGAAGGATAGCATGATGTATTTTGAATTCACAAGTCACCCTGTTTTCCTGCTATGAAGGAAATAGGGGGATTGGGACAAAGATGGAAATGTGAAG
TCAGTAAGGGAGGCTACTGCGCTCTTGCAGCCAACTGAAGGCAAGAAGCATCCAGGCAGGAGACAGCAGTAGCCTGGACTAGGGTGACAGCAGTGGGTTT
GGAGAAAAGGGGTAAGACTGCCAGGAATTGCTTATGGATTGGGCTGAGGTTGGGATGAGAAAGGAAGAAGGGAAAATGACCCCTAACTTGGGTGGTTTTG
TTTACTGAGGTGGGAGAGACTAGAGGAGGAGAAGTTTGGGGAGAAATCACTTGGCCATGTTACATCCGAGATGCCTATTTGACATCCAAGTAGCTGATGT
CAAGTTGACAGTTACATAACTGGGTTTCAAGCTCAGTGGTGAATTTGGGCTGGAGACAAAAATTCGGTAGCTTTCAGCATAGAGATGATGTTGGAAGTCT
CCATGGGCCTGTGCAACGTCACCTGGAGGGAGAATGTTTTAGAAGAGAGGACCTATGCCTGGGCCCTGGGGCACTCCAATGTCTAGAGGAGGAGTGAAGG
AGATTGAGAAGAATCAAACAAAAGAGTGGGTGTCATGGAAGCCCAAGAGAAGAGGCCTCTCCTGGAAGGATAAGCTGAAGTCTAAAGATCCACTGAGCCC
CAAACCCCTGTTGAGTCCACAGACCCTGGACCCACACAGCTTCAGGACTGACCTGGAATTGAGCTAACCTCAGTTGTTTTAGGTCAAGGCACAGGGTGTG
TGCCCCCTCCACTCCATTCTCTCCTGTTGTTCCCAAATCTGAACTGCTTCTTGTCTGGTGGCTGCCCGTAGTGTGTGGTGCACTTATTCATGATGTAAAC
AGTTGCCAGACAGCCTGTCTGTGCTGGGACTTCAGGCATAACCATGAACAAGAGCAATCTACACAGTTTCTGCCCTTGCAGAGCTTACAGCATCATAGGG
TCACCAACGAGAAATGAGACAATTCCAAGAAATGGAAATAGTTGAGGTACAGCTGCTTCTAGTACAGACTGTGTGATATGGGTAAGTCAAGTTGCTGTTC
TAAGCCTGGATTTTCCTGCCTGAAAAATAGAACTAAGTCTGAGAGACTTTCTAAGATACCCTGAAGATGTGAATTAATGACTGTGTGAATCAAAACTCCT
ATACATCCCATCCCATTTTAATTGCATCCCTGGAAAGGACAGCGAGTGGAAAGGCCAGGCTAGTCCTTCTGTGTATTGAGTCACGTTTGGTGCGTTAGCC
CACGCYGAGCCTCTAAACTTCCTTCCGCTCACTTCGAGTCTCTCCTCAGGAGCTCCCCCTGSTCCATTTTCCCTCATATTTTGGCTCTTCTTTCCCATCT
CCACCATCCCATTTCTGTGAGCTTTGGGCCTTCTCCTTGGTTCCACTTGACCGTCCCAAAGCATATAAAAGGACTTGTTTTCATAAGGAAGAACCTTTTG
GTGATGAACCATGACATTTTGCCTTCCTGAGAGGAATCTTTGATGTTTAAATTATCTGGGGATGTTTAACAAAGGAATGTGGGAAATGCAAAACTTTTTA
CAARGGGGAAAGATGCCCACACAGGGTGAAGTGTACAAAGCTTCAACCTGGTAATAAACTCTCAATTTCTTCCTTGAACACAGCTGCACCTCTCCTCAGA
CACCTCCAAAGCTTTTGGGGAGGGAGCTGGTTGCTGTGCCTTCTCAGAGGAGTGCGAAATGTGTCTCTGAGAAGAACACAGCCATTTGTTCTGTTAGGAT
GCTTCTTTCAGACTGTAATTAGAGTGCTGTGKGGGGTGTAGATGGAGGAGAAAGAAGAATATGAAATGCTCTTACTTCCCTGTGGCTCATTCTTCCTGCA
CCACGGGGCTTTGAACCCACTGAAATATTGTGACTGAAACATACASTGTTATATGCAGAGACAGAGAGAAAGCAGCATGTACACCTCTGAGTTCATGCCT
TGATAGTATCTGTGTGCTACAATGAGGTGGCGCAGACTGGCGGAGAATTAAACAGAGTAGGTCTGAATTCTGCTGTGTAACTCTTTGTCTTTCAACACTC
TTGAAAGCCTTTATTTTTCCAAACTGCGAAACAGAGATGAAAGTGTGGTCCCCTAGCCCTTTTCTTAAAAGGTTTTAAGGACCACCATGTGAGAACTCAT
AACTTTTCAATATTCATAGTACATGCTATTCTGTGATCATCCCACTTATGGGAGGGATTCATGAAGCAGTTATAATGAAATAGTGTAGCATCCAAGAATA
TTTGTGGGTTTTTTGGTTTTGTTTTAAACTTTATTTGCAGCAATATCAACAACAATTTATTGATGATGTTTTACTGAATTATCAGTTAACATCTTTCTAG
CATGTGCCAGCAGAGGGGAAGGAGGGTGGCAGAGAAAGAGCATCTAGGATGGTTCTGTTTCATTCACAGCAGANAATCCTTGAAGCAGCTGGCACATATT
GTGTGGATGACAGAGAATTTGGTGCTATTGAGCTTAATGATCTTTAATATAAACATGTCAGGATATCCAGCTGACTTATATACACAGCTGAATTCCTGAT
CCTCCCTCTTCCCAAACCTGCTCCATTATCTTTTCCATCCTGGTTTGTTTAACTCCATTCTTCTGGTTGCTGTAGCTTAAAACTTTGGGGTCATCTTGGA
TGCATGTCTCTCTTACACTCCTCGTCCACCAGCCAGCAAGTCCTCCTAGCTGTGTCTTCACAGTCTATCCAGAGCCCCACTGTTTCTCATGAGCTATACT
TTACCACTCTCGCCAAGGCCACCATCATCTGGATACAACCTGGAAGATCTCCCTGCTTCCACMCTTAATCCCCTTCAGTCTCTTTTCAACAGGACAACCA
GAGACATTCTTTGCAAACTTAAGTTGTGGGACTCCTCTGCTGCAACTGACCAATCGTTTCCCAATSACACCAAGTAAAACTCAAATCTTTATAGGGTATC
TATGGCCCTACATGATGGCCCTCCACTTCCCCACTGCCTGCTACCACTCTGACCTTTTTTCCATGTATTCAGTCCACTCTAGTCACATTGGCTCTTTTCT
GTTCTTCAAAAGCTCCTGCAAGATGCTTCTGCCCCACAGCTTTGCCCTGGTCATCACCTCTGCCTGGAATCCTCCTCCCCGGATGTCTGCATGGCTCACT
TCCTCACATCTCTCATGTCATTCCTCAAGCCACCTCAGTGAGGCCCTCCCTGGCCACTCAACCAAATATTCCAGCTCCCCGACACCCAATACTTACTATA
CTTCTCTGCTTTATTTTTCCCTGAGGAATTATCAGTTTATAACATTCTGTTTATTATGCTTATTTATCTTGTTTATTGTTTTTCTCCTGCAGTATAATGT
AAGCTCTGTTGAGGACAAAGATTTGCTTCTTTTTTTGAGAAGGGGGTCTTATTCTCTGGCCCAGGCTGGTCTTGAACTCTTGACCTCAAGCCATCCTCCT
TCCTCTGCCTCTCAAGTATCTGAGATTACAGGTGCATACCAGCATGCCCAATTATACTTGCTGCTATATCCTCATATTCTAAAACAGTACCTACCATGTA
GTAGGCACTCAATAAATTGTATTTTGGAGGTGGAATGAATATATAAAATAAAGGCCTTGATAATAGGTTATCTGTATTATGATACATTCTCAGAAAAGTC
AGTAATATAACAGCTACTTGGARCACCTACTATACCTTGCACATTCTATCATTTAATCCTCACAACAACCTTTTGAGATAGGTATGATCATTATTCCTAA
TTTTATGAATGAGGAAACTAAGATTTAGTTTAAGAACTTGCCCCAGATCACACCACGATGGAGCTAGGATTCAAACCCAGGTCTGTACAACTTCAGAGCT
TTTAATCATTATACTTTAACATTCTGGATTCCACCAACTTCAAGGTTAAAAACCGAAACAGGAAACATATTCCAGTTCCTTCATTATCTCCCTTACATTA
AKTGTCATGCTTTTCTTCCCCTGTGTCTACTCAAACAAATAAATGAGATCTCAATATTGAGAAGAGAAAGAAAAAAGACCAGTCATTCCCTGAGCTCCTA
AAAGAATAATCTTCTTTGAGTTCTCATAACTGAAATGTCATGAAGCTGTGGAATAGCACTGGCTTTGGAACGTGATGCTCTAGGTCTGCCGCCACCGCCC
TAATCCTTGGAAATGGCAAGTCATCTGACCTCTCTCTATGCCTTAGTTTCCCTGCTTATGGAAAGCCGGTCTTGGACAGGTGATCTGTCAGGTTCCCCTC
GCCTGATATCCTGGTCTGTGAGACTCCTGGTCTGTCTTCCATTGCCGTGGACATAAGGTGGTGGAGTAGGAGTGGGATATAGCACTTCATGTAATGCCAT
TTATTTGCCTTAACCACTTTAGGGAAGGATTTCTGCTCATAGGAGGAGCCTTCTGAAAGCTCCAGATTCTAAGGAAGAATGACCCCATATGATGTCGTCG
AGCATTTGCATCACCCATCCTGCTTATTAGAGTCAATAATGGATAGGATTTAGAGGGCTAGCTTCTGTTTTGGCCTTTATTGACAACCTAAGTCTCCTTA
AATCCTTTCTGGAACAAGTCAAGGGATAAAGCATAAAYAACTTTAATACTGCTGAACTCTATGACCTTCAGKAAGGTGTTTACCTTCTCTGGGGCTGTGT
TTGCTTCTCTGAAAAATGGGAGAAATGGTTCCCCAGGCTCGTAAGAACACTGAAAATATAGAAACATTGAAGAGGCTCACCCTAACCCCAACCCATTTTC
CAATGGCACTGAAATGAAACCACTGCCAACACAGAATTGCCAATCTTGCTTCCAATTTCTCTGTTAGTTTCAGAACATTTAGGGTTGAAGAGGTTTTTCT
TGATGTCTAACYCAAATTCCTCCTTCCTAAAGCAAAGACTTTACAGGAACCTTGGCAAGGTTTCCCTATGGGTAGCAAAGCTCTCTGAAACATGGACTCT
GAAGATTAATAGGAATATGACCATGTGGCCATTTGTGTGCTTGGCAGAGTGTGTGTACGTATGCTGCTTGTGCCAGGATGAGTGTGTGTTTCCATGCCAA
TGTGTGTGATGAAGCATGCAAGTGTGTACAGTAGTGTGGATAAACAGATCTTTGAGTCACACAGGCCAGCCCATCCTGGCACTTTGTCTTCCTTTTGGTT
GTCATGACAGCAGCGAGGGGCTGTGCATCAGTAAACAAAGCTCCCTGCATGGAGCCGGGAGGAGAGGTCTGGAGCGAGAGGCTAAAACATGAGTCAAGCA
GTCCTCCAACCGAGGCTTTCTTACCCCAGCCGACCTACCAGAACATCTTCATCGCTAGACAAGCATCGAGATACCAGTCCAGGTGCCCTGTGACTGACTC
TGGGGTCACATAACATGGGCAGACATTTCAGGCTGGAGCTAGGCTTTCATCAACCTCACTTCTAATCCCCAAGAGTTAGCAACAGCATAATCAAGTCTAG
AAATGTGAATGACCGAAGACCCTCCTAGTATCAGCCTATGGGCTAAAACCAGTTACTTCATTAAGGCAGAAATTAGCCACTTTGTGATTTGTCTGTAGCA
GTGGCTCCTTATAGGTTCATACATTCATAAAATGCTAATTTTAATAATAACCTAAAATGATTTCAAAGAAGTCTCTGTCTTCTCTCCCCTCATCCCTCCA
GGCACACATGATAAATGTTTTGGGCATTCTACCTTGTATGAGATTATGTAATTCTTCCACTTCATCTTAATGATTAATTATATAGAATTAGCTGTGTATG
AATAGTTGAGTTTTACAATTTATATTTCTCATGTAAACTGCTGCAGAAAAAAAGCAGTCACAAATACAAATGTAGTAACCAGGATAAAAGAAAACTGTGC
TCAACCATGCAGGGCAAAGAGATCCACCTTGTTCTTAGTTTCCATGACTGAAATTTAGAAACCCAAACCTTGCATACATATGTAGCATCTAGAGTAGAGG
CTCATCCATGCTTAACTCCAATTCACCTTACTTCCCTGTATGCAAGAGCNGTATGTGAGGGGACCTACAGGTTATCCTCCCTCAGAGGAGCCAGGTTTGG
GGCTGGAGGAGCAAYCTAAAATTAAGGATGACAGAATTGGGTAAGGAGAAGTATCGGGAATGAAACACGACTTGGATTTGTGTCACTGTACAATCTCTTA
TGGGAATCTANTCAGGACTCTCAGAGTCAACCAGATCTATCCCTGCCTCTGGTTATGAGCCTAGGGTTTATGTGGGTCCTAATGTCAACTCTTACTGATG
AAGAAATTGAGACAGCAAGGTGACTGTCCAGTTTGTAAGCAGCAGAGGATACCTAGATCCCCAGCTCTGAAAATAGAATGGTGGTGTTTCTGCTGCATCA
CATGGGGATTTGTTTTTGTTCCCCTTGTTTGGAATTCTGAAATCTAGATGCATCCCTTCTTGATTTCTGTTGCATCTCTCGGTGTAGAAACCCTGGATAG
AACAAATGAAAAGGAGCCAATTACCTATCCTCTTACCTTAGGCCACAGGCTGTTGCCAAGGGGCCTTAGGGAATATGAACACTCTTCTTCTATAGGCCAG
ATTCCCCCTTTTACATTTTCTATGCCTTGCTCCAAGGGAACTGGATAAATTAAGATATTCATAGTGCCCTGCTATGAGCTGCCTTTCAGTGGGGGAATTC
AGCAGTCATCTGGTAAACTAAATAACCGTAATATGCATCATCATCCGAATCACCCCAGGATCCTCTGTGAAGAGGACAGGGTACTCAGATCCTCAGAGGA
GAGAGGGACCAGTTAAAGGAGTATGCTTTGTTTCGCAGGTCTGGCCACATATATACCCATGAGCCTGATGGGCATGTTAAATCTAAGGTTTATGAAGCTG
AATCTTATTTGCTCCTGTTCTCTCCAGAATGCAATATGTGTATGAATAAATGGACACAAAATCAAGCAGTATATCACTAGCTTGACTAACGCTATGAATT
TTATTCTAGGTCTTTAATAACCCAACACAGAGCAATGGATTTTTATGCTACTGTCTCAATGAAAAGGATAGTCCCTTAAAGAAAAACAAAACCCATCTGT
TTTAATATCCTTATTTTCCTCAACCTTGGGCTGAAATGAAATCCCTCTTGTAGATTTTAAATGTTGACTTCTAGATAGCAGGGAAGACAGCTAAGGCATT
GTGGAAACAGCACATAACCTGGAAGAAGACATTAGTTTGAATTTTGTCTCTGCCTCTTGCTAATTGGATTATCTTGGGCAAGTAATCTTTTTGAATCTCG
CAGGGCTTTTGAAACTATAAATGAAATAATTTACATGAAAATGATTTGTAAATTTAACAAGTTTAAATGTGTTACATGAACATTAGCTGTTCTTGATATT
TTATTTCTATAATCTATGGAATCTATCATACCAGACACTGGGTTAAGCTTCGCTGACCCTTGTTGGAATGTGATACTTGACCTCATGAAGGCTTTACTTG
ACCTCATGAAGCCTGCAGACTAGTCAGGGAGACAGGCCATGGGTACTAACAATTACAGCAGCGAGGGCAGAGGGGCTGTAAGAGTTAGGAAAGACACAGG
TGCTGGACTTGCTACCCAGGTTCCCAATGAAAGAACAAAACAGAAAAGGCTGCTTGATAAAGCATCATAAAGAAGGTCCCCCACATCCTCCATTAAGGTG
CTGGAGCTGCTTAGGAGGTACTCCCAGTGGTGCACATTCGTTGCTTTACTTCTTTTAGCCAAGAGGCTTGGCCAAATTGGTTGGGCTCTGGGACTGTGAG
TTCCAGCTAGGATGCCAGGTGGGAGGGTGGGAGGAAAGGGAGCCTACAATGGCGAAGAAGAGCAGGGAACCCAGCGAGTGAGACCTGGATCCAGGAAACT
TCCAAACACAAGGAGGCATGTGGAAACAGCGCTTAACCTGGAACCGGAAGAGGTTAGATAAAGGGAGGTTAGACGGGGGTTTGTTGGCCTATCCTACCAG
AAATCAAGCTACATCGTCATTCTGGGGGCCTTATARAGATGACATACCCCATTCTTCATAGTCTAATTTACACTGATTATAGTGGAGTCAAATGAAGAGA
AACTGGTGGCAGTGTGCAGGAGTTGCTCCTAGTTCACCTGCTCCCTTTGAGTCAGTGCAGAGATGGAGTACTCCTCCTTTTAAGCCTCTGGGAGTCAGGG
AAGAACTATGACTTCTCCTAGTTAGCCTGGATATTTGTCATTAAAAAAAATCTACTGAACATATACTATGTGGTAGGCCTATTCTAGTCTAGGAAGATAG
AAAGTTGAGTAAGGCACAGAATGTTTTTGCAAAAAGCTCACATAGAAGGAGAGACATACAGCTGACCATAGTAAAGGTCTGACTGCAAGATGAGCTCTAA
AGGGATGGGGAAGAGGTAGACTGGAGGCCAGAAGGTTGGGGTGCAGTGATGGTGGGACCCAAAGAGAAGAGGCAACATTTCAGCCTGGCCTTGAAGAAGG
ATTTTGACTCAGGCAGATAAGCATTGTGCACTAGCCTTGAACGCCCATCCTGCCTTTTCAGTAAGTGTGGGAAATGTGCTGTAGTTGAAGTGTGGCTGTG
GTGGGCTGTAGGCAGGCAGGGGGTGGATAGGGATGGCAGGAGGAGATAAGGCTTGAAGAGAAAGGTTTGGCTACAACTGTGTAAGACTTTGAACGTCACG
CTTGAAGGCTTCATCCTCTTCATTGAGCAGAGGGTGATGGAAGCCATAGAAGAGGGGCTAATAGAGTAGAAAGAGATGAAATTTAGAAGATCTGAGAGTT
GTGGTTCCTCTGAGGGGCTATGTGTCCTTGGACACTTGCCCTCTCAAAGGGCCACTTAAGTCACTTTAGATTCAGTTTTCTGAGCTGGAAAATGGATATG
TTGGTCATAATGCTTATCCTAGATGCTCAAGGATGATCATGTTCCTCCGGTCGTAGCCTGCTTCAATTCTCCTCTTTCAAGGTCTTGCTCAAAATATCAC
CTTCTTATTAAACCTCCCTGGATTCCCCCAGGGTTGAGAAATCAAGACACAGACCTATGAAAAGGTAAAGTAACATATAAAAATGCCATTTGGCTAGGCA
AATATGTGGTGCATGAAGGACTTGGGCTCTTACAAGAGAAAGGCCTGGGTTCTAATCTTGGCTCTGTTTCTTACTTAAACTCCATCAAGTTGCATAACTT
TTAAGTTAAGGATGAAAATACCTATTCTACCTTCTTCTCAGAATGGTTGTAAAGATTAAATGAGCAAAATATATGAAGGTGCTTGGTAAATTAAGATGTG
CTCTACACATGTTACTTGCCATGGTTAGTACTGGAGGTTTGGAAGTGGTAAGATCCAGTGAATGACCTTTTAAAAAGATAACGTTGATAGTGTGAGATGG
GTGAAAGGAGGAGAAAGAGACAGGAGGTTGAGAGACCAGCCGGGTGCTATTGCAGTGGTCCAGGCAGGGAAGGATGAGATCATGGATCAAGATAGTGAGG
ATGGAGAGGCAGGGTGAATTCAAGTGCTTTTATGAAGGTAGAACCAACAGGACAATGGTACTAACTGGACAGGAGGGATTGAAAGAAGCAAAAATCCAAA
GGTAAGAATTTTGGTGGATGGTGATGTCATGAACCAAGCCAGCCCCTTGTTACTTTCAAATTTCTGAAATTCAGAAAGTAGAAAGGAGGCATCCCAGGGC
TYGAATTCAGTTATCCTGGCCCTCACTGGCCCTGGTCRCTCTTCATTTTGACTCTTTCCTTCCCTTCCCCCATAGCACCTTTAGTAGAACCCAATGAACC
TGAAGCCAAGCACAGGAGAATTTGTCCTTCCRGTGTGCCTTTCCCTACACCTTCTGCCTGATTGTAAGCAGGTGGCTGTACCCAAGGACACCAGCTCTAT
TTTGGCAGGAGGGCCAGGTGTGACACGAACAGGTGTCTGTTGGCATTATGGTAGACTGGCGTCTTCCCTTTCCCTGCACTGTAGCTGGGGCCCATCCCCC
AGCCCCTCATTCATTTCTTCTTTCCTAGACATGACAGAGAAACTGGCAGGACTTACAGTGGGTGCTGGACTCCCTCAGATTCAGTCTGCAGCTCTATTTT
TTTTTAAACGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCACAGCTCACTGTAACCTCGAATTCCTGGGCTCAAACAGTCCTTCCACCTC
AGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCTGCAGCTCTTTATGGGGATCACATTTAATAAGTAGAACAGCTTCCCAGGTAG
TAGGAGAACACCTGAGCCATGGCTGGGAGGCACTGCACTGGTAAGGGCATCCTAGCCTGGAAGGGTGTTTGGTGATGAGAGAGGCATTGCTAGAGGTGGC
TTCTGGAGGAACCTGTTAGCAAACTGTGATTTATTTATCCCCATTCTTTCACCCAATAAATTTGATCCTCCTCTTCTCTATCAGGGAGCCCTTAGTCCTC
TTCTCTTCTCTTTCTCCCATGGAGCTGTAGCCTTCTCATTCCTGTTGTCACACGGAGTGGCATTGGCCCCCTGAGCCCATCTTGGGCTCTATCTTCTTCC
TGACCCTGACCTTCACCTGAGTGTTCCCTCTGCCTCATGATCTCCCCTCCACCCCACCCCCACCACCTTCCCACTGGCTTTATGGGAGTCAGGTGTCCTT
CTCACGTCCCTTCCTTTCTTATTTAACTGACATCAGTCACCTTCGAATAGCATTTTAGCCTTTGAAGTCATCAGGCTCATTGATCTTCAGTGGCAGCTTT
TATTGAGCACTAGAGTACAGGACAGCAGAGGCAACACAGCATTGTGGTTAGGGTTCAAATCCCAGCAAGGCATTTCACCTCAAGAAACCTTGGCTTCCCC
ATCTGTTAAATGGGAATTTTAATAGTATTAATACTTCATAGGATGGTCGTGAGGATGAAATGAGTTAATGGGTGTAAAAACCTTGATACAGGGCCAACAC
ATCATAATTGGTCAATATACGTTAATCACTATTGTTATCAAAAGGAGAAAGAGTAGCTGTGCCCTTCAGAGGGTTAAGGGTTTTTGTTGTAGCTGAAGAG
GTGGAACATGGCATTTTGAAACCTAGTTTCTCACATGGCTAAGAACATACCTTTCAAAACAGAGCAAGCAATCAGTTGGTCCTGACTGGAATGCAGCTAG
TCTGGGAAGGCTTCCTTTGTGAGGCTGAATGAGGTGTGTTTCTGTGTAACATTGTAAGGAGGTCATATTTGCAGCCTGGGTCAGGGGAAAGGGTACATGG
GCTTAATAGAGGTACTTGCTCAGATGCTCTCTCTCTGTTGCTTGATTCACTCTTTCCCYTAGTCATGGCCCTGTCCAAACCCAGTGAATCTTATCCTTCT
TRTCCACAGGGAATTTGCCAAAGAGAGAGAGAGAGTGGAGAACCGAAGGGCTTTCATGAAGCTGCGGCGCCAGCAGCAGATTGAGCGTGAGCTGAATGGC
TACCGTGCCTGGATAGACAAAGCAGGTAGGCCTGGGGGGCTGCAGGAGGCTGGTGAGTGGGCTGCAGAGACATCAGGGCCGGCCCCTCACTCCCAATGCT
CCCATTCAAGGGGCAGCCTAGACAAGACAAGAGAGACACTCTGGATGCTTGGTTGGCTCTTAAGGTTCCCTGCTCATCCGACTTTCTTCCTCTGGGGTCT
AACTGTCCTGTCTATCAAACTGTCCCAACACCTTAAGGCAGGCATCTTAGCAAGGTGAACTGAGTAAAAGTAACATAACCCAATCCTGGAGCTGAGACTG
GGCTGATGGCGTTTTGTAATACCGTTCCTGGTGCTCACAGCAGTCCATTCATTCAGCAAATATTTATTGAGTGCCTACTTTGTGCCAGACCCTGTTCTAA
GCACTTGGGATATGGCAGTGAGCCAAACAGTCAACCAGCTCACCAAAGCTCTTCTCTTGTAAAGCTCTCTAGTTGGCTAAGGCARCGATAAACAAAATAA
TAAATGAGTAACTTATAAGACAATGATAAGGTGGTAAATATGATGGGAAAACTGATCAAGTTAGGGGTATGGGATATAGAATGTGCCACAGTTTTAAATA
GGAGGTCAGGGTGGGCCCATTGGTGTGTAGACTTGAAGAAATGAAGGAGTGAGCCAGAAGAAGTTCTGGGAGAGGAGTATTTCAGCGCCAAGTACCTAAC
ATGGGAGTGAGCTGGGGTGCCCAAGGAGCAGAAGGGGGAAGGAATAGGGAGGAGGAACAGGAGACAGAGTGACAGCTGTCATGGGGGAAGTGGGCAGCAA
TCGTGTTTGACCTTATGGGGCCTTGTAAGGGCTATGGGCTTCACTCTGAGTGACACAAGAACCATGGGAGGGTTTTGAGCAGAGGACTGACGTGCTGGCC
GCATTGAGAATARACCATAGAAGGATAAGGCTGGAAGCAGAGGGACTAGTAGTGCCGCCATCTAGGGAGGAGATAATGGTGAGAACAGGTGTTTTCCTAA
GCCTTGAGCTGTCATCAGTTCTTACCCTGTGACTCAACATTAGGAATAGTTCTCAGCTGCCTGTGAGAATAGGTCCAAACCTATCATGATTTCATTAACC
CACAGAGCCACCAGATTCAAGTTTGGCTGTGGCTCAGATGCTTATGAAGGGCATCAATCACCCCCATATTTGTCAATAAAAGGGACGGGTTTGCTTTCTT
TATTATTTTAAAGGTTGGTTTGCATTAGTATTATATATCTTCATTTTCTTCCAGAGGAACAAGTGATTTCTTAAATAAAAACTACACGTATGACAGTATC
TTTTCTCTATTCCTAATAGAAAACATAGCACAAAAGYGAGGTCACAGAGGAAAAATTTGGAGTWTGATTTAGTGCTTAGTTGCTTGAGCCTTATTCTTCT
GTAGGAGCTTTGGAATGACACTATAACACTTACTGTGACTGCCAACACACAAAAACCCTCTCTAAGCTCTGCAGTCAACTTTTGGTGACCTCCAAGGGTT
GAGAGGGTACCTGTATGATTGCGATCTGCACTCCCTTGTAGCCTCTGGAAACATGAGCAATGTGTGTTGACTATACTTGCATTTCGCCCTTTCTCCTCCA
AGGCTGTTGTGTAGGGATGAAGTGGACACAAATATCCCCTACCGCTTCCCAGAATGGTAACTCAGGCTTACCATGGGAGGTCAAGCAGATTTGCCTCTAG
GCCAGGAAGGCAGCTTGATGGTCCCAGCTGTCCTTGGCTTTCTCGGCGGAGGAGCCATCTGACAGACCACTAAGAGAGCTGGCAGCAGACCCAGGAAGGA
GCCCGCCCAGCCTTGGCCACCCCACACAGGTCAGGTGGCAGGGTATGCTGCTCGCTGGGGCTCTGCTTTTCAAATACTTGCAGAATTCCAAGSCTTCCCT
TTCTTCCAGTTGGCAAAGCCAGCTCTCTCCTCCTTCTAAGAAAAAAGACGCACTGCGACGTCAAAGTGTGCTTCCTGGCCCTTCCCTTTACAAATGGAGC
GCCAGTGAATCAGAGACAGATGGGTTACATTTCCCTGGAAAGACACTCAAGTTCTAAAGCGAACTTGGCAAAAGGCATGGGGTGAGGAGGAAGGGGGATG
GCTTCAGCAAATCCAGAGCCCTTGAGTGCTTCCCAGAGATCTCGGCAGCACCACACACCTTCCATCTGTCCTGGGGGGTCCCCAGATCTGCTCACCCCAA
AGCCCAGACACTGTGCACAGCAAAAGTGACTTGACTGTCTGGCTRAGATAATTAAAGTTGCTATGAGGTATTTTAACAAGTTCCTAATTTTTAAATGATG
CCCTCCAAACACGTGCTATAAAATGACTTAAAAACCCTTTATGTCTGCAGGAAGGAGTGCCCCACCAATAACACTTAACCTGTTAATTTAGCGTTTTGCC
AGAGGCTATACTTAAAAAAGAAAGCAAACATTTATGACTTTGTAATAATGGCCATCCGGTGAGTACCATCCCAGCCTTAAAATGTTCCCCTCCCTAGGAA
ATACATTATGTACTCTCAGTTTTATCTGTAGCTGGAATTACGGTAATGACTTTAACCTCTCCTACTGTCCTTTTACTTGTTAAAAGTGTTTAAATTAAAC
CATTGTTTAGTAGGGTCTGAAGCTAGCTTTCCCCCAGCAGCTGGGATCTTAGGGAATGTTTAACGAGGCCTCTGGCTCCCTGGCCTATGGRTTGAGCTCA
AACTCATCCCGTTACTCCTCATAGGGCATGCAGGATCCCACCAGACTTGGGAGAGAAGGGCTATTTTGTTGATGCACTTGGAGGGATGCTAGTGAGGTTT
GGTCTAAAAGTCTTAGTAGAAAATATTCCCCTTCAGATGATGACACCTCAGTAGAGTATGGGACTGCTCCTGGGGACACCAAGTGGGAAGAGTACAGGGG
ACTGTCTGGTGTCATTTTAGAACTCCAACAAGCAAATATATTATTTCATCATCAACCAGTCCTTCAGTTCTCTAACACCAACTAGGTGTTCAACAATCAG
TTAAATTCTAACACGAAATACTACCTCAAATTAGCATAGACCCCACAGGTTAAAGGCTCGGTTCCACAGGACTGCCCCCACTTTAGATGGCAGCCAAAAG
TGGGATCTCCAGGCAACCAACATATCTGCCTGGCTGACTACAAATCTGGGGTTCCCACAACCATCACCCCACTCCCCACTGGTTCAGTAATTTGTTAGAA
TGACTCACAGAACTTTGGCAAAACCATACKGTATTATAAAGGATACAACTCAGGAACAGCCCAATGGAAGAGGTATATAGGGCAGGGTATGGTGGTGGGG
AGCACAGAGCTTCATGTCCTCTCTGGGAACACCACCCTCCCAGCTCACTGATGTGTTTACCAACCCAGATGCCTCCTGAACCCCAACATGCTGAACCCCA
ACATTTAGCATGCCCATCATTACATAGGCATGCTYGATTAAACCATCGGCCATTGGCAATTAAACTAATCTCTAGTGCCCCTCCTCCCTAGAAGTGGGAG
TAGGGGGAGGCTGAAAGTTCTAGCCTCCAGTCCTGTGGCTGTTTGTTCTGGCTACAAGCTACCTCCTCTAACCTATCCAGGGCCCCTCTCTCCTCCATGA
GTCATTTCATTAGCATATGAAAGACTGCCAGGAACCAGAGACAAAAACCAAATACTTTTTAAATTTTATCTTAGGGACAAATTCATGATTGGCCCAAGCC
TCTTTGGCTCAGGCTCTGGTCAACCAACAAAGGATGGAAGCCATGGGGACAGGAGGAAACCCACAAGCCCCCCTCCTGTCTCCAAGGACCTTTGGGCATC
TTCCTCTGACTCCTCCTCAGAGACATAGAATAAAGCCCAAAACATGGGCTCAGCTCCTGAATGAGGGTGTAGATGTTATAACCCATGGCCACTGGCAAGA
GAAGCTAAGGAAGCTGTTGCTGCTAGAAGTTCAAGGAGTTAGGAAAGACAGGAAGCTGGGTGGAATTAAAAACAGAAATGGAAATTTTTCATTCCTATCA
AGGATTTTAGCTTCTTCCTCTCTTCTCACAGGTATCCTCCTGAACAGGAGTATCAGACACAGAGCCGATTGTTACCCCAAACACCCCCTCCCCGAGGCTT
CCTTTCTGTTCTCAGGAGCTCTCTGTGCACCCTCTGTGACACTTGCTTTCTTTCTGATGCTGGTGCCTGTGACAGGCTCTGAACTCTGCTCTCTCTCTGT
TGCCCTGAGCTGAAGTTGTCCCTGAGGGATTTTMATCTTGCAGAATAATTTGGCATTTACAGATAATTTACCAAACCATTTGTTTCCATATAGAGGAAGT
CATGCTCGCTGAAGAAAATAAAAATGCTGGAACATCMGCCTTAGAAGGTAAGGAAATGTTCTGATGCCTTATTCCAGTTGCATTTGCCCCTCTTAGGCGA
TGGCAATCTCTGTTATTCAAAAGGRGAGAAAGAAATGAAAGATGGTGTTCTGGGATTGGAAATGAGAGTCTTTCTGTCATAAAATCCCTCATGCTTTAAA
ATGAAGGGAATTGAGTCACAGATTTAAATGCCTTTTAAAGTGATGAAAATGAAACCCAAGAGTTGCTTTGTTCCAGGGCATGTGATTGATACTGAGCAAG
GAAAAGGCSATCCTACAACCAATGCTATCTAAAGGGACCTTCTCTTAAAATGTGTGGGGATCACCTTGAGACCACTTTCATTACCAGKAAGTGGCATTGT
AGATGAWGAGCCAGGACAGATGGATACGGAGTGCCTGTTTACCTCCTGCATTTAGATAGGCTCTAGCATGGCTTCCAGAGCTCTTGTGTTGCAGGAAGGT
GCTGGTGAGCACAGCATTTGCGGTCCGGTAGACATCCGTGATTTCTGTTACCCTGGCTCAGGTATTAAAGGCAGATAGATGCCTGTGTTACAGGGGCCTC
ACACAAGGCATCTTGCCTGCATTCCTCAAAATTTTGTCCAGAATGGTCTGGGTGTACTTGTGGCCTCTCACTGGTCTTCCCTTTCCCTGATGCAGTGCTT
CGAAGGGCAACCATCAAGAGGAGCCGGACAGAGGCCATGACTCGAGACTCCAGTGATGAGCACTGTGTTGATATCTCCTCTGTGGGTGAGTGGATCCAGT
TAGATCTTTTACTGCTCTGAATCTCCCACGAAAAGGAAGATCCTGTCTTTTGAGAAGCACCACAAGGAGGGAAAGAATCCAAAGGGTCCAGAATTTAGGA
ATGTAATTAAGGAAAAGGGTGGAAATCGAATCTAGATTACAATGATTTATTTAAAAAAAAAAAAAAAAGGACCTGGGGATGCTATTTATTCACAYGAAAC
ATGGGATTTAGGGCTAAGAATCCAACCCAAGTTTTTCAGGTGTGGCAGATGTATTCCATTTGCAGAAGTATCCACCCTCTCCTGGGAGTGATGATGAGAA
CCCACTATGGGACATTGTTCAAAGGATCCTGAGGACCTGTTGCTTCCAGGGACACGGATGTGAGATCTTGAAGCCATTTGCTTAACAACAGTAGCCCCCA
CCTACTTCCATCATGTGAAATTTAAACTAATTCTGATTGGCAATTATTTAACATTATGTGTTCCATCTCAGGTGCTCCTAGAGATTCTGGCTGATGGCAG
GTTTTTCCTCCCCAGAAAAAGGGAAAGGTCTTGTTCCATCCTCAAAAGCAGAAGAGACTTACAAAGCTCATTGCTGTTTTGTGCCACCAGTGGTAGAAAT
ATCACCAGTGTAGCAGAAGAATTCCAGTGCTTGAAGCTATTTTAAAAGGAAAGGGCAGAAAGAAGCCCAATCTGTTAAAAACATAAACACGATCCTATTA
AGATTCAAGACACTGGTGTCCTGTCTGGGGAATCTTTCCATTTCTTAGGACTGAGAGTGCCCAGAGAGGAAAAACAGGGTCACTGCCTATAGAAACTACT
GAGCCCGTAAGATGGGGATTCCCCACACCTGCAATGTGGCAGTCACCTTGCCCTGGGACTAGAGCAGCCCATCTTGCCCTTCGAATGCTCCCTGGCCCRG
ACCACAGGATATTTTGCAGTCTCATTCTTCCTTACYTCTCCCTCTTAGGCACACCTCTGGCCCGAGCCAGTATCAAAAGTKCAAAGGTAGACGGGGTCTC
TTATTTCCGGCACAAGGAAAGGCTTCTGCGCATCTCCATTCGCCACATGGTTAAATCCCAGGTGTTTTACTGGATTGTGCTGAGCCTTGTGGCACTCAAC
ACTGCCTGTGTGGCCATTGTCCATCACAACCAGCCCCAGTGGCTCACCCACCTCCTCTGTAAGTAAAGCCTCTCTCTAAAGCCTCCTCTGCTGGTCCCCA
TGTGGGGCAGCTTGATGTGTGTGTGAACGCAAGACAGCAAAGCACCCTGCTAGGAAAGGTTCTACCTCTTCACGCTGTGAGGGAGGCCACATCGTCCTCA
AGGGGGCTGGAGTATCTCATGACTGTTTCCAGCTTTCATTCTTTAGGTAAACAGATCATTGTTGATGAATCAACAAGATAGCATAACGTTATACCTTTGG
GTACCATAAAGCYTTCACTTCCTTTCTTAAGGAGGCTCAATGATCAGGAGTTTTGATCATTGAAATCCYGGGCAGGAAGTTCTCAGGGCAATGGAGACCT
CAAATAGACCAGAAGAAGAGCTTATAGGTCAGCTCCAGATTAGACTGCCACTGGGTGTGAGTGAGGGTCAGGGGCCTGTCCCTGCCAGGCATGTAGGGAG
GAATCCAGCTCTTTGATCAAAGCCATAGTAAGTCCTCTCTTTCCCCCTGAGGGCCCTCTACCATATAAAGACCAGTGACAGGCCTACCTATTGAAAGAGA
GCAATGCTGATCTCTTGAGTGCACCTGGGACTCGGCCTGGGTCAGAGGGTACTCGGACATCATTAGGCTCTGTCCAGCCCTGGCCTGATGTGGCCACCGA
ATGTCCTGACGTGTGTTGTTGTGAGATCCTCTGTAGGTGGGTGTGTTAGCTGAGAAGTGCATGAGCCCACCCCACATGTGGAACCAATGCTCTACTTTTA
ATACTTCCAGACTATGCAGAATTTCTGTTTCTGGGACTCTTCCTCTTGGAGATGTCCCTGAAGATGTATGGCATGGGGCCTCGCCTTTATTTTCACTCTT
CATTCAACTGCTTTGATTTTGGGGTAAGTCCTCGGAAGCCTGCCTCTGCTCCTGCTTCGTGTTGATATGCCCTGGTTTTAGATAAGCAGCTTGCTCCTTA
CTCAGCATGAGGCACTGAAATCAGAATATGTAAAAGCGGAATAGATAAGATTAGCTAAAGGGAATTCAGAAGCGAGTGAATCCTTCCCATGCAGGGTTTG
TTTGTTTTTCTGAGCTCTTTGATTTTCAATATTTTTATTAAAATGTAACACATACATTATAGAGGGTACACTTAAGTGTATAGCTCCGTGAGAGTTTACA
AAGCTACCCATAGCCAGAGTTTTGAACCACTTATTATCTTGGGGGAAGCCTGAAAAGGACAAAGGACTTGATTTTAGAGGTGGTTCCATAGGAAAGAGAA
GCTTATATATTTGTTTTTCTACTTCAGTTTAAAATTGGGATAATTATCTAGATAGACCCTCATTCAAAMACACACACACACACACACACACACACACACA
CACACACACACACACACACACACCCTTATATTAGCAAGTCCTCACAGAGAATATCTCAGTCAGCTGTTTACTTTCTACATAGCATGGATATCTAAATGTA
TACATTGTGCTAACACTTCAAGGTGCTTTCACGTATCTTTTATTTTTGTCCCCTGCCGCTTACAGGAGTCCTATGAACTACATTACATTTCAGGAGTTAG
CCTTCCCATTTACACAAGAATAAATAGAAGCTACCGTGCCCAAGTTCATATACCCAGTTAGCAGCAGAACTGGGTCGCAGAACTTTGGGCTCCTGAACCA
CTTCTCTTTCTGTCAATCCCACTACTTTTTCTGCCAAAGCTTCAGTTAGGTGCTAAAGATTTTGAACACTTGCTAATCTACATTTTAACTTGGAACATAT
GGTTCTGAGTACGGGCAATTTTCAGGCATAACAGCTAGTGAGAGATCACTTTAACCTCAGTTTCTTTGTGTCCGTACCTTTCGGCATTGCTGTCAGGATT
AATAGTTGTTGTTTCTCCTAGCACAATATCTAGAACATAGTGGACATTCAATAAATATATAATTAAAATAAAAGAAATAGAAATGTTCATCTGAAATTGC
TGCATCTTGCAGCAATCAGATCCTACATCACCATGAACTGTCACATTGCGGGATGCAAGACCTCCATGACTGAAAGATATTTATTATATCAAGGACCAAA
ACRTTCTTGTTAGCACTAAATTTTAGGATGATGAGAGAATGTAGACCTTCTCTGAGATTTCTGTATTGAGAAGCAACTTGTACTAATCAGTTTCCTTGGT
TTGAGTACCACTCCTTTGTCAGAGCAGCAGAAGCAGCAACTGGCTGTTGTAGTTTTCACCAAGGACAGGAGTCAGTAAGCCAATCTACAGTGTGAAGGAT
TAAAGTTAGGAAGGGGATTGGAGAGCAATGGGAGAGAGGTGGCAGCTTCCCACATAGGTAGTTCTACTGAAGGTAGGGCTGGTGGGAGAGGAGAGTTTTT
ATTTCCCCATCCCCCACTGAGAGCTGTTGATGGTGTGCTGGGCGCTAGAATGCCCCCTCTTCTCCTCTTCCTCCTCCTCTCACTGTGRCTGGCATTGCCT
CTCTAGGTCACAGTGGGCAGTATCTTTGAAGTGGTCTGGGCAATCTTCAGACCTGGTACGTCTTTTGGAATCAGTGTCTTGCGAGCCCTCCGGCTTCTAA
GAATATTTAAAATAACCAAGTAAGTGATCAGAATTTGGACTTTTCCCAATGTCTTTGAGAGTAGAACCTTTTTTCTGCCTTATATTTTCTTCCATCTTCT
CTTTCCCCCTTAGGGGGAAAGTATCCCTTCCCTGCCCCACCCCTTTTCTATTCTTTAGCTCTTCCTTTTTCTCCAAAGATTAAACCAAAAATATCTATGG
TGCCACATTCCCAAGGGGAGCAATAGGTTTCTGCCCTCTTTACTTCCTACAAATATACAAATGCAGCTTATTTCATAGACTACCAGGCATATGCTGAGCT
GGGCTTGGTGGGTGACTTGGTATGCAGTGTTCACAGCTGTCACATTGTCTGGGTTTTGTAGGTATTGGGCTTCCCTACGGAATTTGGTGGTCTCCTTGAT
GAGCTCAATGAAGTCTATCATCAGTTTGCTTTTCCTCCTCTTCCTCTTCATCGTTGTCTTTGCTCTCCTAGGAATGCAGTTATTTGGAGGCAGGTAAGTG
CCCAGAAGCTTTCCATCCAAAGGAGGCTCAAAACCCAGTCGTAGCCTGTGTTGGGCTAGGGTCATTAACTCAATCACCATGTTACTATCCTGTCTGCCTT
TGCCCATGGCCTGAATTAACCACTGAGTGAGTTCATATGTGGAGTAAACGTCTCTGCTTTTATTCCTTTCATGCTGTACAGGGTTCTCATTCCGGGGACC
CATCTCTTTGGTGCTGTCCCTGAAATGTGCAGCGTGGGCACATTCTTCAAAGTGCATAGTTTATCAGTAGTAGTCACTGTTACAGTCTTTGTAAGTTATG
TGGAATGGGGAAAAAGTAGGGAAGAGGGGGGTTGTAGAAGAAAGGAGAAAAGAAGTGATGAAAGCTGTGATCTTGGGGAATGGAAAACTTGGTATGTGAG
ATTTTCATTTCATTATTTTCTCTAATTTTGTTTTTCAGGTTTAACTTTAATGATGGGACTCCTTCGGCAAATTTTGATACCTTCCCTGCAGCCATCATGA
CTGTGTTCCAGGTATGAGGCCAGCTGACGGTTCACAAGTGCTGCATGGGGTCCCTTGGACTGCACACTGCAAGACAAGGATGAGTTTCAGGATAATTCTG
CTTTTCCTTTCCAGGCTCCTCCCAGGGGATTGAGGCACTCTTTCTAGTTGAGCGGTCATTACTACAATAATCCCTAGAACTTCTGTGGCTTTGTTCTTAC
CAATAGTAAGAGAGCTCTGTTGGGACCATCTCACTGTCCTTCTCTCACACCTGTGAGTTTGCAGGAGACACTGAGTCTGAGGCATTCAGCCAAGAATCAC
ATCTATGGTTTTCTGAAATCTAGGGGCATCTTCTAACCCATTTAATGAGGTATCCATTAAATGGTGTTTATTTAACAAGGTCTCTTTTCCATCCCTACTC
CCCCCAAAACTCAACCGTTTAAATCATGGGGAAAACTCAAAATCAATAGTGTCTTAGGCCTAAAGAAAAATACTGTTTGGCCAGAATCTGAGGTTGGACC
ACAACCCGTTTCCTGAACTGCAGCCCACAAGGCTCTTTCCAATCATGCTGCTGTTCCAGACCCTGTATCTGGGCAGCTCTGAGGACAGTTAGGTAATGAC
CAGACCACCTGATCTGTGTCATTTCCACAAGGACCTTGCAAAACTGGAGGTGGGAGACACTCTGTAGTTGGAGGAACAGAATCTTTCCCTTTGATGCTCT
CCTTCCATTTTCAATGCCTAAAATTCTTTTCCATACGAAAAAAAAGTTTAGGATTATTTATGGAAATGACTTTTTTTTTTTTTAACTCCCTGGCAAGATT
GTCAAGCAAGGGGGTAGATGCAAAAGACCCAGGCCCAGAATTTGCCCTTGGCATTGGCCCCATTTTCTCCTCCAGCCCAGGTTTCTGATGYGCCTGTCAT
TTGCTTTTTGTAGATCCTGACGGGTGAGGACTGGAATGAGGTGATGTACAATGGGATCCGCTCCCAGGGTGGGGTCAGCTCAGGCATGTGGTCTGCCATC
TACTTCATTGTGCTCACCTTGTTTGGCAACTGTATCCTTTTTAAGATGCACCTCCTCAAGCTGCCTGCCTTCCTGGACCAGCATTTGAGGAGGCATTGGT
GGTGGTGGTGCTAGAGCTTGGGTTGGTGGGACAGGGGCGTGGACATTGTTTGGTGTACTAAAGTAAATAAGGATCCTGATCTGAAGGACTTTATGTACTA
GTTGGGTAAAGAATACAAACGTAAACAAGATAGAGTATTATCCAAATCTGTAGTGTATGCAAAGAATAACATAGGAGGCTGTTACATTGAATGGTTGGAG
GTACTATGAGCTGGGGAACATTAGACAAAGCAGAGATCACTGTAGGCTGAAAGAGGCACATTATACCACTAATGAATTAATTACATGCTAATGTNGAACA
GAGCCTGCCACATAGTAAGATCCCAAAAAATTAGTGTTAGGATTAATGCTATTACTGCTAATTATAGCAAATATGTATTGTATTTGGGCTATACGTGAGA
CCTTAAACTAAGTGCTTCATAGGCACTATTTCATCTAATCCTTACAAGACAGAGAAAAAAATATCTCGAGTAAAATAACTACTAAATTGTAAAGGGAAAC
TAAAGTCCAGTTCCATCTAACTCCAGTGCCCTATCCAATCACAAGATCTAGAACAGGAAATTTAGGTTTTAATCCCAGCAACTCTGTGTATCAGCTGTGT
GGCCTTGGGAAAGTTACTTAATGACTCCAAGCTTCTATTTTTTACAACTGAAAGGAGAATAATAATATTTATCTCCTTTGTTCGTGGTGAATACTAAATG
AGATAATTTATTTGCATGTGATTTATAATTACAAACTTCTATACAACTGTTAGATGCTTTTGGGGAGTTGGGTTGGCCGTGAATTGGGATTAGTAGAACA
GAAAGGCAGAACCATGGGACGCAGGTGTATTTTTGCATTTTCCATAGTTTCATAGAGAAGACATGCTGTTTTACGTTTTCTRCCCTGAAAACATCTAGAG
GTTGGGACAGACTAGAAGCTCAATATGAGAAACTCATGAAAAGAACACTAGGCAGTAAGTCACAGACATGGAAGCTCCATGTGTCCCAATGGCACCATCA
TTTTCCTGATATTCTGGGGGTAGTCAGAGCTGGGCTTTGATGCTAGAACAGTTCTATGTTCCACAACACATAGGCTTTGAAGAGAGTTGGAAATTGAGAC
TTCAGGCACTAGAGTATGGCATAGGAATAGATTTCATAGTGAATCATGTCTGCTGTGTCACATTTTGTTAAATGAAATGTGGAACCCTTCAGGACCCTCA
CAAGAAGAATGGGAGAAGTTAGCATCTCATTATTGGGAGATGCTCAGTAACAGGGGCTCTGGAATCTCATTCTTTTTGTCGTTAAGGACAGAATGGTGTG
ACGCCCATTGGTCTAGGTAGGATTCAATTCCAGCCTCCCAGAATGGGGAGATGAGCTCCCATACTGAGCTCCCTACACATCTCGTTCAGTGATTCTCTTA
GTTGTTATTGCTATGGGTAGAGGCCACAGCTGTCTAAAGACCTTTTGAATGTGGCTGAACAAACTCAAAGTGCTTTTTCTGTTCCCTTACTCATCAACAA
TTAATGCAGAAGACTTCTGTAACCAAATGCGTGGGTTTTTTTACTCACCAACAAGCAAGCAATCCGGCAGTGGATACTAATTGGTGTCCTCTAATTCAAT
TCTGACGCTATCTACCTGGAGATAGCATCAGATCCCACAGGTCGATGGCTCAATCCCCAAGACTGCCCCTGCCTTACGATGACGATTGCATGCCTCAGGT
TACTTTACCTGTGTTTTGAAGGCTATAATTCGGGGTTCCCACAACCCCCTTCCTGGGTTTGGTTAATTTGCTAGAATGGCTCACAGAACTCAGGAAAACA
CATTTACTGGTTTATTATAAAGGATATTACAAAGGATGCAGTTGAAGAGGGGCAGAGGGAAAGGCATGGGGATGGGCACAGAACATTCATATCCTCTCCG
GGAGTGCCAGTCTCCAGGAACCTCCACATGTTCAGCTATCCAGAAGCTCTCCGAACCCTGTCCTTTTGGATTGTTATGGAGTCTTCATTACWTAGGCATG
ATTGATTAAGCCATTGGTCATTGGTGATCAACTTAACCTTCAGCCCCTCACCCCTCCCCAGGGGTTGTGGGGGTAGGGCTGAAAGTTCCAACTCTCTAAT
CATGCCTTGGTTTGGTGACCAGCCCCCATCCAGAAGCTACCTAGGGGCTACCAGATAACACTTTGGAGTTTCTAAGGATTTAAAGAGTTGTATGCCAGGA
AACACAGTTAAAGACCAAATAATAATTTTTCACAGTATCGTAATTTTCCTCACCCCATCTGGCCCCCAGATGGTTTGATTCAAGTATTTCTTTATCCTGG
GTAAAGAGATGATATGCAGAAGGAGGGAAGAAATATCCTCTTTCTCCTTTCAACAGAGTTGTACAACATCTCCCTCTCTGTTCTCACAGCCCCTGCTTAA
GTGACTCTTCAGGGTAGCTTCTGTTCCTGTTAATGTCCCAGGCAGGAAAGATTATCAGGTGGCCTCTCAGCCTTGCTGAAGACTTTTGCTTTTCTTATTT
GCCCATCCTTAATTCATCACCCCAGACACGCTACTGAATGTGTTCTTGGCTATCGCTGTGGATAATCTCGCCAACGCCCAGGAACTGACCAAGGTAAGCA
TTGTTTTCTGGGGATCTGATGTTTCTCTAGTGCCATTGGGTACCCTTTGGCCTTTGGAACTCTCTCCCAAAGTCTACATTGTCTGACTCAGGCCTGCCAG
GAAGGCCCTTTCTGGAAACTTCTGGACAGTTGGAGAGCCACAYACCCATGACGGAAGGCTGGTTCACTTTTATTGAGTTTGGTGAGCCTCAACCTAGCCC
AGGGGGCCTCAAGGAACACAGAAAATAACATCTTAATTTCTATGAGCCCTCAAAGGAGTCCTTTCCAGGATCATCATGGAGAGTCAAGAAAATTCTAAAG
CCCTGGTTTTAAGTTCCACCTCTGCTACTGCAACCTGCGGCTGTGTGACCTGAATCACATGACTTAACCCTTTTGGGTTTTGGTGGGAGAGAGATCAGGG
CCATCACAGTTCCTGGGCTATGGCTGTTGGGATATTCCAGTAGGCAAAGGTCATTTTGGGGAAATTTCAATGAAGCCAGATACTAAATTTCTCACAGAAC
TGTTCCCTTCTTTTCTCTGATTAATTTCCCCAGTGTGGGGAGGTAATATTAACAGCAGTGGGATGGTCTACAGAGATGAGTAAAAACCCTTCTCTTCACA
GAGGGTGCCAATTTGGTTTTGGGCAGAGGTGCATAGCATCCTGCTGACATTTCTGAGCTTCTTCCATGCATTCTCTGATGATCTTTCTACATCCTTGAGG
GTCTTCTTATCTGCATATATGGTAGGAAAAATATCAGCTTTAGTAGCTGAGAAACTGGGTCTGAGTCCCACACCTGCCATTGGCTGTGTTGGCTTTGCTT
GGACTCCTGATCTCTATTAGCATTGGTTTCTTCATGCATGAGACAGGAATGCCATATCTGCATTGTGTACCTTACAGGATTACTGTGAGGATCAAGTAAA
ATAACGTCTGTGAAAACCATAGCATGCTCTGAAGATGTATGTGCTCTTATTAGCTCTAGTCATTTTACCTGAGCTGGTTTTCCTTGGGTTCATCACATAG
AGGGGACACTTGCAGGAATGCTGCTGAAGGGATGAGATCTTGGCCTAAGCACCCACTTAGCTGTGCAAAGAAGACACTACAATGGGGCACTCAGCCTCAG
CACTTTACTTGGCGGGGTCCTTGCCTGGAAGGCCCCTGCTCCATCACTTCCAGACACTGTAGGACATCTGGGAAGTGTCAGCTCCTGCCACTGACCTCCA
CAGCCATAGCCAGCTCCACTGAGGGCTAGGGGTTGGGGTAGACTTCTCCTGGTTCTCATGAGCAACCTGTGGATGGCTCCAGGATGGAGACAGGGATTGC
TGGCCACGCTATAGCTGTGAGACTACTGACTCCCAAGGGGCCTGGCCTCTGGCCATCAGAAGTCTCTGAGCCAACCTAACATCTCGCTGTCTTGTTTATC
CTCTTCCKGTGTCTTCCTCACTTCACTTGGTATTCAGAACTCCTCCTTAGGAGAGCAGCCAAGGGAAGCTACTCTCCTTCCTGGGGATCCCAGGCAAAGC
CATCTCTGCTTTGTGTCTAGGATGAACAGGAGGAAGAAGAGGCCTTCAACCAGAAACATGCACTGCAGAAGGCCAAGGAGGTCAGCCCGATGTCTGCACC
CAACATGCCTTCGATCGAGTGAGTCAGCTGCCCCCTTCACTGATCCCTGAGCTCCTGTGCTAACAGCCAATTCATCAACTCACAGAACTATTGGTTATAG
GAGTGTACCTACTACATGCTGGGAACTGTTCCTGAGAATACAGCAGTGAGCCAGACAGAGTCTGTTTTCATGGAAGTGTTATTTCAGTGAGTGAGATAGA
TAATAAACATGCACATCATTTCAGATAGTGACAGGTGCTATAAGTAAATGAAACAGGGTCCTATGGTGGAGAAGTACAGGAGCTGGGTGGGAGCAGCTTA
TGTCAAGCCAGAAGGGATTCTCTGAAGGGGAGCTGTTTAAGCCAAGACCTAAGTGTGTAGATGACAGTCATGTGACATTTTGAAGGAAGAGTGTTCCCCA
GCAAGGTTCAGTGTGACTGGTGTGTAATTAATGAGGGGAAATAGAGAAAGGGCCAGGGAGGGGGCAGGGGCCAACTCGGAGGTCCTTAAAGTCCAGGTGG
AAGAGTTTAGCTTTTATTCTAGCTGAAATCACAAGAGGACTTCAAGTGGAAGGATGAATAGGATATGATTTACACTTTTAAAAAGGTCACTCTGTTCTAT
GGAGCATAATGGACTGTAGGGGCCAGAGTGGAGGCAGGGAAAGAGTCTGCTCTCAGAGTAAAGTAGGTGAGAGGTAATGGGGGTTTAGACTAGGGTGGGG
GAAGTSAAGGAGATGAGTAATCCCATTCAGTCGGTAGTTTGGAGAGAGAGCCAATAGGATGAGCTCATGGATTAAATGTGGCAGGGGTGAGGATGAATAA
AAGGGAAGAAACAAAAATCGATCCCAGGTTTTAAGGTTTTGTGGACTAAGCAACGGGTTGGGGAGTGGTGGTAGTTACTGTATCCCTGGAAACTGTTGGA
AATCTAAAGTTCATTTTGAGATACTTCTAAGGCATCCAAGTATTGAACTGGCTATTGGTTACCTGCATCTGGAGCTCAGAAAAGTCAGAATTAAAACAAT
GATTGGGGAAGGTTGTTCGCATTTAGATGGCATTTAAGTCATTAGTATGGGTCAGATGACCCAGAGACCCAGCTGCTGAGGACAGAGGCTGACAGCGCTC
CTCCTGCTTAAGAGGAGAAATCAGCTAAGGAGACCAAGGGAGTGCAGCCGGGAGGCAAGAGAAAGAACAGGAGGTATAGTGTGCTGGAAACCTGTGAAGG
AAAACTGCAGGAAGGAGGAGTGGGTGCCGGTGCTACATACTGTAGAAAAATCACATACAATGAGGAACAGAAAAGGGACCACTGCATATGGCAAAATGAA
AGCTGTTAGTGACCTTACAAGAGCCATTTTCGTGGCCAGGTTGGAACAGAACCCAGTTGAAGTGGACTAGGGAGAGAACAGGATGTGATAAAGGAGAGTG
GTGAGTCCACTGCTTCAGGGATCTAGCCTGGACCTGTGGTAGAGCTACAGGTAGTCGGCCTGGGCCCTGCGTGGCCTGGTCTCTGCGTGGTGACACAGAG
GGGTGTTGGAGAAGAGGCTGGGAAGTGACCATAGAACCACATAACTCCTGTTGTTGCATCGGGGCCTGCATGAGGACTGTGTGAGTGGTGAGTGGTGCTG
GGGCATCTGTGGGAGGGTCCGAGACCCCCAAGGGGGTAGAAGTCTATCCTGGCAATGACCCTGTCATTGTTACTTGAAGCTAGTAAGGGAAGAGCCCTTG
GTTGGCTAGAGTTCCAGTGAAGGGCTCCCAGGCAGCCTCTTCCTTGCCTTGTGGGGTGTGCCAGGGTTGTGTGTTGAAGCRGGGGACCTCCCTCCTGCAC
GGCCATCATGTTGCCTTTGCCTTTCGTAACAAATGCCTGGCCCCTGGATCCCTCTTCTGTGAGTGAAAGAGAAAAATTCCCTTCCAAATCGTTAAAGGTT
GATAGGGAAATGCCAAAGATTGATAGGGAATATTCCTCTCTGGAATATTCTCTGGGCCTTGAGTAATTTCTACTCCACCTTCCCTGAACTCATGAGTTTG
GGTTAAAAACACATACACACAGGTATCCAAAAATGTGGATGGGTAGGACTGGCTGTCACTTAGGAGTGGGTGGTTCTATTTACTGAGATGAGGAAGCCTG
GGGGAGAAGTGGGTTTAGAGAGATGTGAGTTGGGACAACGCTTGGCCCAGAGTAGAAACTCACTATTTCTGGAATGAAAGAATGAATGAAATGTGGGTAG
GCACAGGCAGGGCCGTGGGAATTGAGCAGAGTGTGCATCAGGGCACAGTGAGGTGGAAGGACGTGCTGCAAACATCCAAGACCAGCAGAGACCCGGGCTT
TGGTGCTGTACATGTGCTGTGAGGTTGGCGTTGCTGGTGTGAGCCACCTCCGGGTGTGTGTGCCCCGCTCAGCTGTGTACACTCTGCTCAGGTATGTACC
CTGCACAGATGTGTGTGCCCTGCAAAGACGTGTGCACCCTGCTCGTGTGCGTACTCTGCCCAGGTGTATGTGCCCTGCACAGGTGTGTCTACATTGCTTA
GGTGTGTGTGTCCTACATAGGTGTGTGTCCTCTGCCCAGGTGTGTGTGCCCTACACAGGTGTGTGTGCTCTGCACAGGTATGTGTACAATGCTCAGGTGT
GTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTATGTGTGCCCTGCACAGATGTGTGAACATCGCTCAGGTGTATGTACCCTGCTCACGTGTGTG
TACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGAACATYGCTCAGGTGTRTGTRC
CCTGCTCASRTGTGTGTACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCWCAGATGTGTGAACATT
GCTCAGGTGTGTGTGCCCTGCTCAGGTGTGTGTACACTGCTCRGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCA
CAGATGTGTGAACATTGCTCAGGTGTGTGTGCACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAG
ATGTGTGTACACTGCTCAGGTGTATGTGCCCTGCTAAGGTGTGTGTGCTCTGCACAGGTGTGTGTGCCCTGCACCAGTGTGCGTACATTGCTTAGGTGTG
TGTGCTCTGCTCAGTTGTATATGCCTTGCTCAGGTGTTCATGCCCTGCTTGGGTGTTAAGGCGAAACTGCTGATTTCCGACTACACTTTAAGTGCAAACA
TGGCTATCCATGAAGAAACACAGAAGAAGCACTGTTAAAAAGCAAAGTGCCTGAGTGCTAGTTATATTTGTSTCACTAATATACCCTGTGACCTCAGAGA
GAAAACCACTCCRATCTCAGAACCTCTATTTCCTCATCTTTGAAATGAGAAGAATGCCACCTGCCCTTCCTATCCCACAAGGGCTATTGTGAGGCGTACA
CAAGGTCTCATTCATATGAGTTGGAGACATGTGGATGCTTCTCTGTATGATTTTAGGTATGAATGTAAGTTTGAATCTGTGCATATGTGAGTAGAGAGAA
TGCTCATGCTTGTGTGTGTGAGAGAATCCTTCCACGTACGTACACTCTTACACACATGCTTCTGGATAGCTGGTATTTGAATATTTGAGAATTTGCAAAT
AGATGGTGTGATGTGCTTTTCCTAGCAGATGTGCATGCTGCCTGTCTAAAGCGTACGCTTCTACTTCTGTATCTACCCATGCTTCTTGGCTCTCCCGCCC
CCACCTGTGCCTTGTTGCATTGCAGGTCACTGATGCTGAGGGTTGTATTCAGTTGAGGAGCTCACAGGCTTCTCCACAATGATGTCTGCATCAGTGGGTG
CTCCTGGGTGGCCACACACATGTGCACTGTGCATCTTCCAGACACCCAGAGTGGGCCTCAGACCAACTGCCTCTGCTCCCTCAGTCCCACCCTTGTGTGG
GGCTCTTCTGCAGACATGTGAAAGATGGCAGTTGAGGGGGATTAATTTGCCTAGCATGTTCTCCGTGGGTGGGCATCAGCTTTATCAGGAAAGGATCAGC
ATTTGCCAACATCCCAGGTCCAAGCAGGGCCCACTGGGCTGGACTGAGTTCATCAGGCCAGTAACTGGGGCAGGCTCACTGCAAGGATAGCCCAGATGTG
TTGTCCTCTAGCTGAGCATTGAACCTGTGCTGACAGCTTATTTACCAGGCATCCTGTCTGTTTTTGCGGGAACAGTTCATACGTTGCCATTCTAACCTTG
TGTTTGTAAGGACACAACATGCATATGGAAGAGAGTTTTCTCTGTACAAGGCTAAGAAGGTCAATACTCTGCTCTGCCCAGGTGAACATAGAACAGGGTC
TATGGCCAGGGCCTCTGCGTTGCTCAAAGGCAGAGGTCACTGCTCACATCCTGGAGTACATGGATGGTGGCCTACGGAAAGATGGTGCTGCCTCTGACCA
TGGACCACTTSGTAGCCTTGACATCGTGCATGGCAGAGCACTTGCTCCGCTGCATGTTTTGTGAAGCTGGGTCAGGTTCTGCTATGGGAGTCATGAGCTG
GGGAGCCACACCCAATGAATGTGCTATGCTAGCCCTAGAAATGACTCGGGGGAGGGGAAGAAAACTACTCAGCAACATCTACAGGATTTCCAAAATAGGA
ATCTGAAGGATGTGTAGGTGGAAGTTTGCGTGCCTGTGAGGCATGGTGTTTGAGCATCTGGAGCTGTGGATCATGTGAAATGGCATAACCTGTGTGCCTC
TGCATGTGTGCTTCAAAAACTAGATCCATGTATTTGCACATAGCAAGGAATCGAAAGTCACTCCATTGGAGAATCGAATGTGGGGAGTCTACAGAAGGCA
AGCAGGCACATGGAGACCTGATGGCCACACAGAGGACTCCCTGTCTCCCTCTGGAAATCTGCTGGTGGCTGTGGGGCTTGAGGTTCCTAGAGGTTGGGGT
GAACTGAACCTGTCCATTTTTCTTCCCCAGAAGAGACAGAAGGAGAAGACACCACATGTCGATGTGGGAGCCACGCAGCAGCCACCTGTATGTGTGTACC
AGTTTGCGTGTTTGTGAGTGGTTAYGTGTGGGCGTGGGACAATGTGTCATTGTCCTTGCCATAGACAAAGTGGCACTGGGTGTGCATGTCAGTGTGTGGC
TTGGTGTGYGTGTGTGTGTTCCGTTCACATGATCTGTGGATATGCCCTCTGCACCTCTCAACATTTGCTTATATCAGCGTGTGTCTACCTTTGTGAACTG
TGTGTTTTTCGCTCTTCAGTCTGGCCTGTGAGTGGGTATATGTTGTGTTAGTGTTGGTGGGTATACCTCTCACGTAGGTAGTTGTGTACAGCTATGTGTG
GGCCTCAGCGAGGATGCGTGTGGGTACATGCGCGTGTCCCCTTCACAGTTTGTAGGTGTGCGCCCACAGGCACAGGCTCAGGGAGGAGGTAACTTCCCCT
CCGCCCAGCGAGCCCTCTCCCATGTGCTCTCCTGCACTTGTCATGTTCATGATTTCCYGCTGCCCCATGAATGCTCCTCTAGGCCCCTGGGCTGAAATGC
TCGATCGCAGTTTTGAGTATGAGCTGCTGGTGGTCTCTGCACTTAGCCTTCTCTGGCTTTTATTAGCTATTGTGGAAGAGACTCCTAGCACTCTTACTTT
TGAGGGTGATATCAAGACTTTTTGTAATAAGTCTGCCTGGCACTCTTCTTACCCTTCAATGGTATCTGACCATTTCAGCCCTCATTATCCCGGGCTGTAA
CCTGAGAGGGAAGGGAGATGAGGGGGAGAGGAGGAGGAAAGACCTTTGACCTTGAATCAAGGGCCGTTGAGTGTGTWCAAGCAGATGCCCCGAAAGCAAG
GAGAGCAGGGGAGTGAAGACGTGGTAAGCCTGTGGATGGCTGCCCCAGCAGGCCCTGGGGACTTGGAACTCCTCCCAGGGTTGATGCCTACCCAGCCCTC
AGCTACTACAAAGCAGGGATTGGAGCAGAAAGTACCTGGGCTGGGAGGCACCTGCCTGATGAGCTCCTCACGTGTGGCCCGCCTGCTCCTCGCATCTTTC
TGTGCTTCCTGTCTGCAGGTCCTGGGCACTCCCATTTGCCCCYACCATGTGTCCTGCCCTCTCACATGGCCCCTGTGGCCACCCTCCCTGCCTGCAGCTT
CTGGGCTCTGACCGCGGCCCTGCCCTTTCCCCTTGGCAGGAGGGAGCGGAGGCGCCGGCACCACATGTCCGTGTGGGAGCAGCGTACCAGCCAGCTGAGG
AAGCACATGCAGATGTCCAGCCAGGAGGCCCTCAACAGAGAGGAGGCGCCGACCATGAACCCGCTCAACCCCCTCAACCCGCTCAGCTCCCTCAACCCGC
TCAATGCCCACCCCAGCCTTTATCGGCGACCCAGGGCCATTGAGGGCCTGGCCCTGGGCCTGGCCCTGGAGAAGTTCGAGGAGGAGCGCATCAGCCGTGG
GGGGTCCCTCAAGGGGGAWGGAGGGGACCGATCCAGTGCCCTGGACAACCAGAGGACCCCTTTGTCCCTGGGCCAGCGGGAGCCACCATGGCTGGCCAGG
CCCTGTCATGGAAACTGTGACCCGACTCAGCAGGAGGCAGGGGGAGGAGAGGCTGTGGTGACCTTTGAGGACCGGGCCAGGCACAGGCAGAGCCAACGGC
GCAGCCGGCATCGCCGCGTCAGGACAGAAGGCAAGGAGTCCTCTTCAGCCTCCCGGAGCAGGTCTGCCAGCCAGGAACGCAGTCTGGATGAAGCCATGCC
CACTGAAGGGGAGAAGGACCATGAGCTCAGGGGCAACCATGGTGCCAAGGAGCCAACGATCCAAGAAGAGAGAGCCCAGGATTTAAGGAGGTGAGTGAGT
CACAGGGCTCCCAGATGGATGGCACACAGGCTGCTGTTAGGTGTTCCTCAATATAAGCCTTTCTGAGCTCCAGTTTCTTCTCCTATTATAAAATGGAAAT
GATGCTGACACACACTTTGTGAGGTATGAATAAATATAACAGGCAGTGGGCTCTGTCCCCCCAAAAACGAGGGCCTGTTGGAAGTGGGTCGTGGATAGAA
GGATGGGAATAAGGCAGTGGCCATGGCTTGTGGGTCTTAGCACCTCTCTGCCTGTCTGGTTGGGGTGGAAGGCAGTGGTGGCCTTGTACCTTCCAGGCTG
CCTGAGCTTCCCCGCCTTCCCCTTGTGCCAGGCACACCTGCCATTTGGGGACAGCGTCTGAGCACCAGCTCTCTCTTCCTCTCTCTTCACAGGACCAACA
GTCTGATGGTGTCCAGAGGCTCCGGGCTGGCAGGAGGCCTTGATGAGGCTGACACCCCCCTAGTCCTGCCCCATCCTGAGCTGGAAGTGGGGAAGCACGT
GGTGCTGACGGAGCAGGAGCCAGAAGGCAGCAGTGAGCAGGCCCTGCTGGGGAATGTGCAGCTAGACATGGGCCGGGTCATCAGCCAGAGCGAGCCTGAC
CTCTCCTGCATCACGGCCAACACGGACAAGGCCACCACCGAGAGCACCAGCGTCACCGTCGCCATCCCCGACGTGGACCCCTTGGTGGACTCAACCGTGG
TGCACAGTGAGAGCACAGTCCCTGTTCCCCTCCACCCCCAACTCCTATCCCATCTGGGGCTGGGGCCATGACAATAAAGCCACATGGAAAGCACCACCAG
GAGGAGTAAATCATCCTTCAAGAAGTAAAAATGAGTGGCGGTTTTCTCCCAGTGTGCAGAACAAAAATAAGCTAGCGTTCTCTTCATCTTAAATTTTTCC
CATAAAATTTCCCCAGGCTTGTTCCTGTGACCACCCTCAAGTCTTCAGAGTGATCACTTGTGACTTTGTGCCCAGTTAGATATTCAGCTGTTTGCTTTGG
TGCATGAATATTTGATGGTGTTGTCTGGGGTCTCCCAGGTGCTCTGCTGCCCTGGCAAGTTAGGGAGCCTCTGATGGAGTGGACCATGGCTCTGCKCACT
GAGTGATCTTGGAAAAATCTCTGCATCTCTTGAGGCCTCAGTTTGTCATCTGTAAAGTGAGAGCATTGTACTAGATGATCTCTGAGGCCTTTCCCTGTAC
TAACATTTTATATGATTCTATTGCTCTTATCAACTCTTTTTCTCCTAGGAGCTTTTAGCCACAAGTTCTCCCCATCACAGTTCCCTTAGGCAACAAATGT
TAATCAATGGTGTCCTAAAGGGAAACACAGCCAAAAAAAAAAGCACTTCCCCACCCCTGCCCTGACCCTACATCCCATCCCTGTATTCATCCTACCCCTT
ATCCTTGCCCTGACCCCATACCCCATCCCTGCCCTGACCCCACAGCTCATCCCTGCATTATGAATTCCACACCTTATCCTTGCCCTGACCCCATACCCCA
TCCCTGCCCTGACCCCACACCTCATCCCTGCATTATGAATTCTACACCCTATCCTTGCCCTGACCCCACACCCCATCCCTGCGCTGACCCCACACCTCAT
CCCTGCATTATGAATTCCACACCCTACCCTTGCCCTGACCCCATACCCGATCCCTGCCCTGACCCCACACCTCATCCCTGCATTATGAATTCCACACCCT
ATCCTTGCCCTGACCCCATACCCCATCCCTGCCCTGACCCCACACCTCATCCCTGCATTATGAATTCCACACCCTATCCTTGCCCTGACCCCACACCCCA
TCCCTGCGCTGACCCCACACCTCATCCCTGCATTATGAATTCCACACCCTATCCTTGCCCTGACCCCATACCCCATCCCTGCTCTGGCCTCATGATCTCT
GTGCATTAATCCCACCTGCTGCCCCGTGATCACTGAATTGTGACCACAGGATTCCAGCCTTGCTGTTTTCCTCTACTTTTTCTGTATTTACTCTTTCACA
TGAAAATCTTTTCCCTCCCTGTTTTTCTTTCTTCCATGGCTCCCTCTCCATTTCCGCATCTTCTCTATAGTCAACGTGCCACTGCTACTTCAGAAAGTGC
AATCTCCCATGTCCAGTGCATGCTTCAGTTGACTTGGGCATGTCTCAGGATCCCAGACCCACAGCTCTTTTGGTGTTTGTTTGCTTTAATACATAAGAAG
TGTTTTGGGCCTTCTTTTATGAGAAAGAACATAAAGCTTTACTCTCCCTCTGTTGTAATTCCAGAGCTAGTCTTTGGTCTTGGTCATAGGTAAAAGCATG
TGATAGGAAGGCTTTTGGATACTTCTTATGACTTACTCTTTAGGAGGCCTGGGCATGGGCCAGGACCACCGAGGTCCACTGCTGACACAGGGTTCCAGGG
TGGAGTCATTCAATGAGCAGGGAGCAGTGGGCGAGGGTGACTGGGGCCCTTTCCCCACTGTGACAGCTTCAGCCTCCTGCCAGTTTAACCTACACCGTGT
CTTGAGTATGGAAACAGAGCAGCAGCTGAGAGCTCCCCTCGACCTCTGGCTCCTTCGTCCTCCCAATCCTTGGATGCAGTCATGGACCTATACTCACATG
AATATTGCATTCTCATTTCTACATTAACCATGGCCGAGAAAAGCACAGCCAGAAAGCCTGCTGCAAACAGAATCATGATTTCTTGAAATCTTCCATTGCA
GGGTGATTCAATGAAAGGCTATAGGATTTTGAATTGGGAACCCATACTAGCTGTATGACCTTAGGAATGGTACTTAAATTGCTAGAACTTTAGTTTTCCC
ATCTGTATCATGGGAGTAATAATACATGCCACTGAGGGTATACCCCTCAGTGGGAAAATTCAGTAAGTGAGCATGTACAAAGAATCCAGAGTTTAGATAT
AAAATCTAAACCTTGTGAATTTTATAACAGAAACATCATGTTGTTTATCAGACTGTAAAAGTTCAACCTTAAAAGTGGAAACATGATCATGGTCATTTAT
ATGACATAAAAGGTTATTTCTCATAACATTTGGGGAGGGTAAAAATAAGAAGAGAAGAGGAGTTTAACTCAGTGTCAGGTAGTAAATACCCCCAGTGCCT
GCAGGGCACCTTGTTAGGGACATCCCTGGAGCCCTTTCTCCTCCTCTCCTTTCATCCCCAACTAAACACAAATGGTGCCATTTTCACATGCCTCATGATT
TCTGAAGATTTCAACRTGTTCCTCTTGCAGTTAGCAACAAGACGGATGGGGAAGCCAGTCCCTTGAAGGAGGCAGAGATCAGAGAGGATGAGGAGGAGGT
GGAGAAGAAGAAGCAGAAGAAGGAGAAGCGTGAGACAGGCAAAGCCATGGTGCCCCACAGCTCAATGTTCATCTTCAGCACCACCAACCCGTAAGCCACC
CTCGCGTTGCTCCCTCTTTAGTGCTAGGGTAAACGGCCAGGTGTGAGGCAGGGCAGGGTGAAGGGGAGAGGAAGGATGGGGGCCCAGCCATCTTCTTAAG
CCTTCCTGGTGGAGCATGGCCAGACATTGAGCATCTGGGGTGCCCCCTAAGTGAGGTGGGTTGGTAAGTTAGTCAGCCTCTGAACTCTGTGCCCATAGCT
GWAAGAGTAACATCGACAGGAGAACATGAGAAATGTCATTGGAAAGGAACTCTTTACCAGTCTTTGGTCAGTAGGTAGTGTGGAGGGAGGAAGGAAATCT
ACTTGAGATTTTGCCACCAAATATTCCAGAAGTGGATAGAGCCAAGAATGTGGAGCCTAGAATGACCAGATCACCTGTTGGAGTTGAGAATTTTGGTCAC
ACTGCTCTACATGTGGAGTTTTGAAATGGTCTGCTCTGAGCATGCTACTCAGAGCAGAGGCAGGGACATGAAGTGGGGGTGACAGAGCGGAGTCTGGAAG
GTTAGATTCAGGAAAGATGGAATTTGGGAAGAGCGTTCCAGCAGGGCTCTGGGAAGGGAGCAACCTGAGTTAAGGCATGTGAGCCATCCATGGCTAGAAT
GCAGAATATAGAATACAGTTRCTTTAACCAGAATAACCTGGGGCTCATGAAAACTCATTACTGCTTTCGTCAGGAATTTTAGAATCAAGATCTCTTTTTA
TGTTTTTTGGTTCTTTGTAATTTCCTTGGGATGTCCCAGTTTCCTTTCAGTGGGAGAGTAGACATCGAGATACAGCAGAGGGTGCTATGCAGCTGCCCTG
AGTTGGTAGGCTGATGCTGGCTGCTCCCCATGGCTCAGACGTGTCTGTGGATAATGTATCTTGGCTTGCGTGCTGCAGCCTCTAACCAATCTGATTACCT
TCCTCCACTGGGGCTTTAAATCAAGGGTGGTGGCTGAGAAATTAAATTGCTCTCCCTGGCGGCTTCCTTTGRCAAGGGCCTGGCTGTCTGGAAGGGGCCA
ATATGTGTATGTGGGAGTGAGGAGTAAGGGCATGGGCGTGGTGGGGAGTGGGCCAGCTCAGCCATGCCCACTGCCCGCAGGATCCGGAGGGCCTGCCACT
ACATYGTGAACCTGCGCTACTTTGAGATGTGCATCCTCCTGGTGATTGCAGCCAGCAGCATCGCCCTGGCGGCAGAGGACCCCGTCCTGACCAACTCGGA
GCGCAACAAAGTGGGTACACAGGGGCCATGTGCCAGCCTCTGTAGTGCTCTGGTGCTCACCCCATCCCAGCACTGGAGGTGAACCGAGATGRTAGCAAGG
TTTCTGGGGAATGAGCAAGGGTTGGAAATTGTCCACTCCTGTTCCTCAGGGCGAAGTATGAACCATTCCCAGACAAGCCCCTTCTTAGCCCAACATACTA
CAAGGCTCTGCCCCAAACCGGCCAGGGCTCTGCAGGGCTCTGCAGCCACCCATGGGCTTGGATGTGGGTCTAATATAGGGTCATGGATGGTGTGTGTGAA
GCTGGCAGCTGCAGCTCCACCACAGGGGGCCAAGGCCTCTCCTGGGGTCCCACGGGTATGTGTCAGGAGACATGAGGGACGCGAGGAGGACAGGAGCTGA
CAAGGATTTCAGGTCCCGAGCCTGAACTAAGGGACAGGTATGTGGGCAATTCAGACCCAAAATGCTAAGTTCTGGCCAACGAGAGGGAGCAGCCAAGGAG
TGGCCACTGGGTCACATGGCTCCAGCAGGGCCCATGCCCCTCCTTCTGGCATTTCTCTCTCAGTCCAGCTAGTGGCTCTAATTCCAAGCCTTTGTTCTGA
GGGTGCAGTGGGTGAGGGCCAGGGTGGGCRTGCACGAGTGCATGTGTCCTGGCAGGTGGGAGCTCATGTAGTAGCCTGTTGGCCACACATGGTCATTTCC
TTCCACCATATGTGTCTTTCAGGTCCTGAGGTATTTTGACTATGTGTTCACGGGCGTGTTCACCTTTGAGATGGTTATAAAGGTAAAAACTTCTAGAGAA
AACCTGGGCTCTTGGGTTTAGATGGGTCACCTGTCTGCTCCTTAGGCTAGAGCCCTTCCTCAGTGTTACCACCTACCAGCCAATGGCAGCCCTCAGTAGA
GCTTCTGCCGCCCCTTCTCTGGCCTCAGAATCCTGAAGAAATCTGTCTCAGCAAGACACGGCTGCGTGGATGTGTTTGTACTGCTGCAGGCCTGTGGACA
TGGCCCAAGTAGGAGGCAGGCAACAGATGTGCAGACAGGGTTGGGGCCTGCACTCCCCTCCCCAGTGCTTGTCTTGGCTGAGCCTGGGTGTGTGCCAAGG
CAAAGGGCTAGGTAGAGATGAGTCTTCCTGGGCTTCATCTAGTCCCAGCCACCACAACACTCCATAGTCTGTCTTGTTCCCAGCCTCATCCATCCAGGAT
TTTACCCATCTGTGCATATGTGGCAATGCCCAGTGCTCTGAGCCATAAATGAAAGGAGGAATGTGTCAGGGTTCTGTGACAACCAAGGAGTCTAGTGAAC
CCTGGGTGACTATGAGATGGGGGCCTCAGGACTCAGTTATGTGGAGAAAGCCTGCTGGACCTAACCTCTCATTCTCCAGGTCCTAGCATAGGGTTGGTTG
TGGAGACAGTGGCAGTGGGGGCACTGCCATGATGAACAGAGCTCAGGTCAAGTGTTGCCCACACTTTCTTGGCTCACTGTGGCTGTTCATATCCTTCTGC
AGATGATAGACCAAGGCTTGATCCTGCAGGATGGGTCCTACTTCCGAGACTTGTGGAACATCCTGGACTTTGTGGTGGTCGTTGGCGCATTGGTGGCCTT
TGCTCTGGCGTAAGTGACTCTTTTCATATTTGATTCCCTTCCTTCCCCTCTTCCTGGAGACTCCAGTTGATTTGAAGCCCTTTCCAGAAATGCAACATGC
AGGGTGATGCCAAAGAATGCCCCCGCTGGAAATCTGCTCCCCAGTCGCCCCSAGCAGAGCTCCTGAGCGCCTTGCAGCTCCAGCTCACGTGACCTGAGTG
GCAGAACGGGGGAAGCAGGAGTAGGGAGCGTCAGGAGGGAGAAGTCAGAGGCCCTAGGAATTCCTTTCCTAGAGATGAGTAAGCATGGGCAGGCACTCAC
AGTGTGGACAGTGTTTCCATGCATTCAGCAATGGACCCAGGAACAGCTTATGGGCCCTTTCTTTCTTGAGTGTGTCAATCAAGGAAGCAGCTTGAAAGAA
AGATGCAGAGGGTAGAGCAAAGTTGAGGATCACGGAATCCTAGGCATGGTGAGGTTTTCTATTCATAGCAGGTGTAAACGAGAGCTCTTCCAGGGATGCC
AGAACCATGCTTTTGCACAAACCTAATAATATGTGTAATCTCCAAAAGGAAAGGCTTTCCAAACTTTCCTTGATAACATACCTAGGAAAACAGTCTTAAA
CCATTCAGGCAACAAAATCATGTTCATAATATTTGTGGGATTTTTTTCCCCCCTGCACATGGATCCAGCTCTAGCCAGTTTTCAATCACATTCTGACATT
TCCTGTGGAATCTAGCCAAGGAAAGGGCTCTTCTAGCCCTCCTGGGATTAACTAGGAAATGGGATGCTTTCAGGGCCTTTTTCCTAACCCGGTGTATAGA
GTGTCCCAGTAGGATGAATGACAGCCTCAGGGCTCTGTCTGTACCTTGTTCRCCCTGAGCAGCTTCAGCCTCTTCCAGGAGGCACAACAGAATTCTCAGA
GCCATCCCTCAAGTCTCTCTGAGTACAAGTGGAAGCCTCATCTTTAGGCTAAGCAAGGCTAGCTACACTGTGTAGTGAGGCAGGAGAGCTTTCAGGAGCT
TCTGTCATTGATGGCAGCTGCAAAAGGAACACAGTATCTTCATACGTTTACCCTTCTGAGTGGTTTTCCCTCCAAGGGTTTGCCCTTCCAAGTGTTTAGA
AAGAGATCACCCTTGGAAGGGTTTGCCCTTCTAAATGTTTAGAAACACAGGGAAGCTGACAGTGCTTCTCCCCAAGCTTCTCTTCAAGCACTGTCAGCTG
CTGTCTCTTATCCTTTCTGGCAGAAAAACAGGTGGGATAAAAATTACCAGATGTTTCTCAAGTGGCCTGGTGGGGGTGGGGATAGTGGAGGGCTCTCTCT
CTCTTAAGGAGAGGTACAAGATACACTCCCAGCTGTGCTAGGAGTGTAGGATCTCCCAGACCCTGGAACTGGACTGTGTCCACTGCTTCCTCAGCCATGA
GAGACCCTTCAAAAGAAAACCACATTGAGCATAGTTTGTGACTCTAAAATGGGCTGGTGATCAAGGTAATTCCAGTGTCCCTTGTCCCCTTGTGCACATG
TTAATTCCATTGTGTGCAGTCACCTTTGTCCCCCACAAAAAGAAAGCTTTCTGTCACATGTGGCTGGACTGTTCTTGAGGAAATTTTACAGAAGCATGGG
GTATTTTCTCAAGCATCTGGGCCCTGTCTGGATTCTCATGGTGCAATGAAAGGAAAGGCAGCTCTGGCTCCAAAAGAGGGACTTCCAGCTCCTCTTCCGT
CTTCTTGGAAAGAAGGATTAAAGTCTGCCTTTGCCCTAAGGAGACCCACCTTTTTTGTTAGAGATAAATATTATCCTTAGGTTTTTAAAAGGTCAAGTTC
CCTTTCATTTTACTAATTCATTTGCATAGATTATTCACTGTATCATTCTTCTTATTTTGATCTCTAAAAATCATGTGTCTCTCTTTGAAGTATAAAGGAC
AAAGAGATAGAAGCATATAGGAAAGAACCCAYCCCATCTTTAGGAAGAACAGAGCCCACTGGCATAACAGGACAGAGTGGCAAGAAAGGTTGGGCTGTGG
AACCAGACGGGCTCTTGTTTGAATCCCAGCCCCTCTACTTTCCAGCTTTGTGTCCTTGAGCCACACAGCAAAATATTAACCCTCCTAACCTCAGTTCTCA
TCTCTGAAATGCAGATAAAATAATGTGTGTAAAGTGCTTAGGACGGGGCCTGATGTAGTGTGAACAGTCAATACATGTTGATTCCCCTCCTCATCCTTCC
ATTCTCTTATCACATCATGAAATCCAAATATAGGAGSAAGTACATATTGATGCACAATGTATACAGATAGATGTGTGCAGGCTGGCCCAAGACCTAGTTG
TTTTATACAGACACACCCCCCTTGCCTATGCCCGTGTGCCTGGTAACCAGGCTGGTGTGTTGGTGCCAGTGTGGGAGGAGGTGTGTTTTAGAGGGAGCTC
CTGCATGCCTGCCCATTGTCCACAGTCCAGACATCTCTCCTGAGACCCAGAGCAGTGATGATGTGCAGTAGAGCTGTCATCTGTCTTGTTCTTTCTTTGT
GCCCTTTGAAACATGGCGGTGGTGGCTTTGGCGCTGGTGGCAGGGGAAGCCTTAACRGCCCCGGAGCTGAAGCCTCTCTGTTGGTCCTCAGACCAGGTAC
AGTGCAGGGGCCCCCAGGAACCCCCTCGTTCTGGGGTCCACACTTATGTGATGTATTGAGAGTTATGATCCATCACTTGCTTTTAGTCATGTTACTTCTT
GAACTCTCTCTTCATTTTCTCTGAAACATAGATGATACTTGCTCACCCTTCTCCATCCATTTTCTCTTTTGCCTTCAACTTCCCAAGCTTGCCATGCCCA
TTCCCTCTCCCCTTTCTCCGCTCATGGAGCAGGTTCCCACTCCCCCTCCTTTGGCCTTCGTCACATTTGCTGAGGGAGGTCCAGGTAATGCTTTCTCTCA
CTCATGCACCCATGCTTTCTAACTCTGCCCTGTTCCTTTCCTCATTAATCGTACCAGAGAATTCAGCTCTCCCATCACTTTGATGGGGTTAGCCAGAGTC
CCACCTGCCAGCAGAGAGAGGGCCTGGCCTGGGGCAGAGAGTGAAAGAAGTCACTGAGCCTATATTCCTCATGGTCAGGGGCTCAGGCCAGCAGAAAGCC
AAATGTGGGGTTGTCTGCAGGCTTGTCAAGTATCTCTCTCCTTGTGTTTACAACTTTCGTTATCATATCCCATATATTTGCCCCATAATGTCCACCATTC
AAATAACCTTAWTCCTGTCCCAGTCTCTTTCTGCCCTTCTTGAAATTGAACCATGACTTAGTGAGGAGGCTTCTGTGAAGCCTATTGCTTAATAAACTTG
AGCTATGGTGGTTGCCATGGTAGCATCTTTCTGTGGCTCCTCAGAAACCAGGGCTGACATGGCATTCCTTCCACCACCCAGCCAGAGCCTTCTCAGACCC
TGGCCCAACTCCCAGGAGCAAAGCCCCTCACCGAGTSGGGGGAGTGACCTCTAGCTGAATTCTCAAACAAAGCTGTGGTGTCCCCTGAGCCCTCCTGCCG
AGGCGTGTGCCTGCCACCATGTATGTTTTCTACAAGCATATATGTTGTTTATGCAGTGGCTGAAGAGAAGACTGTTCTCCACAGCTGCATACATCAAGTT
AAGGGAACGTTTATAATGTAAASCTGGAAAATTCCATTAGGGAACTTTATTGACTTTTGAGGAGGAAGGGAAGGGGATTTTTTCATTKGTTTATTTTTCT
TCTTGGATTTATTTTAAGTGTGGGCAGAGCAGTGGATAAAAAAAATAAATGGAAAGATACCCACATTGCAACTTTTCTGTTCTTTCCAATTCACTTTTAC
GTTATAAGGCATTTATAAGAACACTCAGGTCTCCTTCCTTAAGCCCACCGTCCCTGCAGGGAGGTGGGCAGAGTTTTGGCAAAGGTTGGGTTCAGGGCTT
CGTTATTCCRCTGCCCTGACAACACCCGCTTTCTGGGCCACATGGAGACAGAGTGTTTGCTGACTATAAATGTCCAGAGCTGTGCCTTCTGTACTYTGAG
GTCTCAAGAAAAGTCTGGTGAGTGGCTGGATCTATGAAACCTTCCTCTTTTATCTTTTTCTTTCCAATGAAGAGGGATTCTTTTGTGTGATTTCATGTGA
AAGGACCAGAAACCGCTTTGTCTAGTTTCCACACACCCTGTTGCCATCGCTGCTGCTTCCCAGACTCCTGCATGGAAGGCAAAGATGGTTACAGCCTTGG
CATTTCTGGGGATCTGCACATGAGGCACATTCCCCTGCTTTGGGGGACCCTGCTCCCCAACCAAAGTCAGCTGCCTTGTAGGGAGGTCACRTAACCACTA
CACAGATTACATTCATGAACCTCACAGAACCCTCATRTTTCATGTGTTTCATGTCTAGTGAAGTGACTTGGGCAAACAGGTGGGCAGGGACAGCATCTCT
GGAGAAATGTAGGAGAGGACCAGGACACCTGTGCGTGTGTGTCTTTCTGTGTGTGACACCTGCACTCCAACCCAGGACTCTCACCCTCTCCATTTCCACT
GCYCTRCAGCACGTTACTTGACTAGCTCGATTCACATGAGCAGGTGAGCGCTCCTGGATTGGATTCTAAGTAGTCATCTCACAGCTTATAATTGATCGTC
AGCACAGATGGTTTAATAGAAAAATAACTAGCAATTCTGCTCCCATCTCCTCCCCCACCTCRGAATTTACCATGGCCCGTGCATCAGTCAGTTACACAGG
CTCTCTGGCGGCTGACGCCAAAGCTTCCCATTGCCATTTGCTGTTGTAGCAGGGCATGGGGTGAGGTCAGGACTCCCTGGCACTCAGGAGATTTGGCTCA
CAGCCGCACTTGGCCTTTCATTATTCAGTCCTTAGCCAGAAACGAAAAACATGAGTCAATCTGCCTCTTGATGCCAGAAGGAACTGGAGTTCCCACATTA
GCTTTTATTACATTCTTTTCATTGAAGTATGTCACTTTCCTGACACTTGACACTCTGCCCTAGTCACTGAGATGGATAAGGTCCATTGAATGCATTCAGC
AGTAGCTGTAGCAGCAGAGTTATATACACAGGCATGGACAATTTTAGATTTGGAAGGATCCTAAGGAGCCACATAATATGTTCCTCTGGGAGCTGGGCGT
GGTGGCTCATGCCTGTAACCCCAACGAGTCGGGAGGCTGAGGTGGGAGGATTGTTTAAGGCTGGGAGTTTGAGAATATGGTCCTCTGGTTCCGGATTTGC
TTGTGGGATTTTGTGTTTTAGAAGGTGAGAATGTGCACATGTAAGAAAGAGGTGGCTATTCAGCACCAAAATGCTCGTACACACTCACGCTCAGCACAGC
ATAGAAACAACAGACAAACATTTCACCCTAAACCTGGCTGTTTCTTTCTCCTATTCTTCACTACCTGCCTGTGTCTGAGGCAGTCCCCTCAAACCTCCAG
CGTTGCCTATGGGTCTTCTTTCTTGACAGAACTTCCCTCTTTTCAAACTGAAAGGGGAGTCTTCCAAAGGAAGCAGTGACTGCACATTAATCTTGGAGGC
AAAAAAAGTGGACGAAGTCCTGCTTCATGCAAAGAAGACCCATTTACCACTGAGCCAGACAGGYCATCCAGTGCCCCTGTTCTGTGGAAGAGAACGAAGG
ATTAAAATTAAATTTAGCCGTCAAGTAGCCCATTAACTGTGGATTTAGGAGGCCAGCTGAAAAGGAATTGGAAATTTCCAACTGTAAGCAGATAGGAGGA
TTTTGTTTCCTGACACTCCAGTTTAAAAGTCACCTCAAGAATGACTACATCTGATTTTTGTGCCCAGACAAGGACACTAAGGATGATCAATRCCCATGGA
CTTTTGAGGTGCCTACTACTATATCATAGCTGCCTTGAAAATGGAGTTTGGGAGGGAGTAAGGAGGGACAGAGTGGCAGCCACATGGAGGGAGTGAGTGT
CTGAAAGGAGATAAGTCCTCAGTCTACCTACTCTTGGCATTAAGTCTCAGCATGCATATTTTTTAGTGAACGCTGGAAAATGTGTTGTCTGCTGCATGTG
ACATTGGTACTGCTGAGGAACTGCCTGTAGAATATTCACTTTGAGACCTTTATCTTATGGAGGCAATGGGTGTGAACACCCAAGTATTTTTTTTTTTTTT
AATTAACAGCATGAAATTGGGAGATGGTTGGTTGTAAATGGGATCTCAGCCCGTGGCCACAGACCCAAGCAAAATGAAATGATCCAATCAGGGAACACTG
CCCCATCCACACGGTAACCAACAACCAACTAGACCCAGATATAAAATGCACCCTGTGAGCCTTCACAACCATGGGAAGAGCCCAGTACTGCTGGATTAGT
GGAAACTCCTCATAGTGCCCTCCAGATTTAAAAGTAGATTTTAGAGTAACTTGAGTCGGAAGACTTCATAATGGGACTTGGGGACCATCAACACAGATCA
TGCCAGCCACCTTCCTAATCCACATGCACAGGGGCACAGCCTAGCATTTCAAATTAGTCTTCAGTGGGACAAGTGTATTGGGTGGACTTCCACCAGCTCC
AAGGCCTTCTTAGAAAGATCAGCAGATGAGGTGTCTTTGGGTATGTTTAGAATAAGACAAAAGAGACAACTAAATCCACTGTTCACCAGATTGAATAATA
AAACTGCTAGGAGACAGTTAGATGCTCTGCTCTCTCCTGCTGCTTCTCAGTGTTTGGACAAAAACACCTGCCAGTTGGAGTATGGTGCTGTGTATAGCAA
AGGAGAAAGCTTGCAAAAGGCTCTCRGGAGTGTGTGTGAGGAGCTCGTTGAGGTCCATGTGCAAGRGGGAAAGGATTATGCACCACTTAGCATAGAGCTA
GTGCTCTGGTCACATGACAAAGAAAGATGGCAGAATAACAATGGATTGAGGGTTCGAGGGTGACCCCAAGAAATGCTGAGGCATGGACCACGAGGAAAAA
TAAACCCCAAATGGTAGCCGCTAAGCAGTGACAACGTCAAAGTGGTAAATTTAAAATTTTCACAGAAGCAGATGAACATATCCTTATCTGCAGATCCTAG
AGAGACAGGCACTGCCAGTGCAAAAGGGGAAACTTCCCCATGGGGTCTTTAGAATTTTTAAAGTGCTTTCACACTCTTTATTTTATTTATCACCGAACAG
TCCTGTTTTACAGTTGAGAAGTGGATTGCCTGAGGTTTGACTAGTCTGACTCATTTGACTAGTAAATAGCAAAGCCAGTTCTTGAGCAACCTTGGTGTTC
TGATTTGAAGTTCAGTGTTGTCTCCATTATGTTAAGCGCCCTTCTACACATCATGTTCTAGTTAGCTCCAAGCAATTAACCCCTGTAAGCTAAGAGCAGT
GGCTTGGTATAGATCTCTCCTCAACCTACAGATCCTTCTGTCTCTACCTGGTGACAGACAAGACCTATGGGTAGATGGAGAAGGTCATCCCTGAACTTGT
CCATCTTGTTGTTTCATCTGTAACTTTTTTTTTCCTAGGAACCCTCATAGACCCTAAACTGATTACAGGGAGGGGAGTGTGATAGCTTAGTATTTGAGAT
CAGGAAGTACTTGGTCTTTTACTGTTTCCTTCTTTGGTTAAAACGCTCCAGTGGTTCCCATTTGAAAGGCACTCTAACATCACAAATAAGAGCATAGATT
TCAGAGTCAGGCACATTTAGGCCTGAATCCCAGCACTATTATTAACCGCCTTAACTTTGAACCTCTGCTTCTTCATCTGTAAATGGGGATTCAAAATAAT
ATTTTGGTCCTATAAGCATTAAATAAGGTAAAATGTATTTAATGTCTGCTATAGTGCCAAGGACTTAGTAATTGTATAATAAATGATAGTTATTATTTCC
TACCAAATAATAGTCCAGACACATTAGTGAGACACTCGAGGCTCCTCACAGCATGACCCCTCCATCTACCTTTCACTCCTGCGAGCCTGGCCATTCCCTG
AGGCAAGAGATTCCTTCAGATCCCTGAGCTATTCCCCGCTCATGGGGTAGGGCAGAAGGCCATGGCACTTAAAGGACAGAAGGGTTCTTTAGAACCTGAT
GTCCCTGCTCTGCCCTCATGGGAGGAGAATCAGTTCCTGGCAGAAATCAACTTGAGAGCATGTCCTTTGAGAAGAGGGGGCTGGGAGGTGAAGAGCGGGA
TTACATTGAATGATGAGTAATTACACATGAAAGATCTGGAGGGCAGCTTGACAATTGAGCTGGAAAATTCTCGTCTTTTACTGATGAAACAAGAAAAATC
TGTCATTTTTTTTTTTTTTTTTTTACTGGAGAGCAGCCAGGAACTTACCAAATAAATAGAAAATAAATGGTAAAATRTGTGGCCCAATTGAGTCCCAATT
AAAGTGAGACCAGTGCATCCTAGTGTGTGGAATTGTCCTTAGATTTTAACATTAGAGTCAATTTTTGAACCTGATAGAAATTTTATTAATGAGGCAGTGT
AAAAATATCTGATTATAATTTAGTATCAGAGACTAGCAAAGTGTTATCAAACAGTTACATTTAAATGATTTGTAAAATGCACGTGAATTATTTCCTAAAC
AATGTGCCTCAATTAAGGTACTTGAAGAGCTCATCCTTTTAGTTTGGTGAAATGTCTTCCTTGCAATCTTGTTGGCTTTGATAATGGCTTAAATCACTCT
TGTATGTATGGATTTGGGAGCAGTACTTTGGCCTAGTCCATGTGTAAATTATATTTTAACTAATGRGGACTAAAGTGTTGAGGCGTTTCTTGACTCCAGG
GCTTTGTTATTCAGTACTCTTTTCATTTCAAATGGCAATTTTAAAATCAGTTAAATCTTGCCCCTGTTAACAAAACTGAGGATGAAAGCATATTTTTCTG
CAGCTATTCCAATTCATAGCTTTTCAATGGCTCCTCTGCAGTAAGAGACCTGATGAAAGATGCGTAGAGCAATGACTAATTTTATTTTTTTTTATTTTAC
TTTTGGCCTGTGTCTGATTGCTATCCTTGGCTCAGACCTGTGGGAGTTAGGATGTGACAAATAGCCCCCCCAGTGGTTTGGCAGCCACGTTCAGCTGTTA
AGATTAGAGTGTACCATTAAGGAACCCTGTTTTCCAAAACAAGAGACAATGGTGAGTTTGCATTATAACATGCCTTATATGGTATATGTGGTAATACAAT
GAATTATACCATGATGCTTTACTAGGATTCTGGGGGGAAATTAATTCAAGAGAGCAAATTATATCCTTTATCCAGGTGTGTGGGAGGAGCAGGAAATATT
GGGCCCTCCCGCAGAAGAYGCATGTCTATGAGCATGACCTCTGAGAACCTTTTCAGATGCTACAGGATAGAAAGGTCTCCGAGATAAGGACTTGAGCTAA
GCAGAAGGCAGAAGCTTGGGGTGTGTGATCCTAGATCACCTGCCCATATATTGATCTCCCACCCTATTCTTACATCTTAGAGATATGAAAGATTATCCCT
TAGTTCTTCCTTAAGACAAATGTAGCCTGGGGAAAGGGAAACCTTTGTGGTTATTTTGGTAAATTTTTTAATTGATTTCATTTTTMCTATGGCAGCTTGC
AGTTATACTTTTATTAATGTGCTTGTTTACTTGAGGTCTATCTTCCCTACTAGACTAGGTAAGTTTCAAAAGGTTGGCAACCTCATTTGTTCACAACTGT
ATATCCAGTATGCAGAACAGTGCCTGACATATATTAAGGACTCCACAGATGCTTGGTATATGGATGAATAAAGATGTGTTTGGCTGACCTACCATATGCC
CTGTCTTATATGTGAGAAGATGCTGGGGAAGATATTTCTGTCCTCTGAACATTTAGAGGTTATCACATTAAGGATTTAAGGTTTATAAGGCCTTGGGTCT
AATTCCCAAGTCATGATTCATTTGGCATTTATAGTGAAAATTAATTTAATTTTGAATATGGGATCATTTGTTGAGTAAAATAACCATTAGAAGTCTTTGC
TTGTGACATACAGTAGTGGAACATAGGTTTGCCATACGTTGGCAAAAAATAAGAAAGGAAAGAAAAAAAGTAACCTTCATCACAATGTCCAACTAAGAAC
CAAAGCCTGAATTATGAGCACTTCTTCTTAGCAGCAGGCCAGGATAGGGAATCATGAGATGCAGGTTCACCTATGTTTCTAAACTCACTCAGTGAATGAT
CTTAGGCAAGGCACTTCCTCCTGGGGCCTCAGTTTCCTGTGCAGTTGGGTGGATTTCAGGGATCTCTTCCAGCTCAGAAATTCACTGTGCTGTTTGACAG
AACCTTGAACTAAAACCTGCTGATGCAGAGCCTTAGTGGTTAAGAGCAAGAGCTTTGATCATCATACATGCTTGGGTTCATGTCCCAGCTCTGCCAGCTG
ATGTCGGGCACTCAACCTCTCTGAATCTCTTCTGTGAAATGGGGATAGTGATTCCTATGTGCTAAAGTTAGGAGGTTTAAATAAAGATTTGCACTAAAAT
TGCTTAGCACAGAGTCTGGCCCAGAATAAATAAATATTCAAAAAATTTAGAAGTTGTCATTATTTCTATCTTGAAGATATTTATGCCCTGACTTATTTTA
AATGCCTCACCAGTAGAACTGGGATGATTTTTCACCTTCAAGCTGCACAGTATGCTCACAATGGACTGGCGGTCATTTAATTTATCAAAAGGCAAACTTT
GGTGTGACATCATGATCTTGACAGACAAATGCCTCCCTCCCTTATTTCAAGTTGGTTTAATGGTGTTGCTCCTCTGAGCTTCTAAGAGACATCAGTGAGT
CTCTCTCTGAGTGGTTGCGTGTCCCTCTTTAGATGAAACCCTTTATAAGCATAACTGTGCCAGTGTGTGAGAGAATTTCTGGCCCAGAGTGGGCATAGTT
CCTGCAGCCTGGTTTCTTATAAATTCACTGGAAACAGAGTTTGTCTGAAGACTGCATAGGAAATGAAAGTAAACGCCTGCACTTAGAAAACTGCAGTTAA
ACCAGACTCCATGGAAATAACACACAATACCCAGAAGTCTATGTAGAATTGTCCCTTGTGCTGGCAGAGGGCCTTCGCCCCTGCAGGCTGGGACAGTGGC
AATGGAGCAAATGGTGTGCTGGCCCTTCCTTTCACAAAGGTGTGGACACTCTAAGTGCCAAGGCTGTGGGTGGGGTCCCCTGGGCCTGTGCTGCTCTGAT
TCCCTATCATTGTAGGGTTCTCTTTTCTCCCTGAAGTGTTCTGACTGTCTTTCTTCTCTCTACCCCAACCCCATTTTTTTGTTTTGTTTTATTTTGATTT
TCTACTGCTCTCTGATTGGATCCTCCATAGGAACGCTTTGGGGTAAATATGTTCGATTATCTTTGAAGTAAACGATACAAGGAATGAGTTGGAGGAGYGA
GAAAGTATGGTTGGGAGGGGAGGGGCTCACGCACTGAGAAAAGAGTGGTCAGTTTTTATTTATATCCAAGGGATCAAAATTAGGAGTCACCAAGCCTTCT
TGGGAAATGGTCATTCTTATTGGTTTGGATATGTATTCGGCTCATATGTTGCCTCTTTTAGGTATGTAGACAGATGAGCCTAATGCAGTGAAATCGTTTG
TAAAACATGCCAAAGTCTCTGGATGCTAAAGACCACATCAGTGCAAGGCTTTTGGATTATTTATATTCAGATCTGGGATTGAATAAAAGTGACTTGTAGG
TCATGGCCTATAATCATTAAGAGAGTCTTAAAATAAACATTCTGGGCAAAGTCAGCATTCCTTCAATTCGATTAAATATCTTTTGGCCTCGTTTTCTGTG
AAAGAATGGATGGACTTTTATCTCCCTGTCAGGGGGGTGGGGTAGGGGGGTAGGTATCGCAGGAAGGTCAGGGGGAAAGCAGCCGGAAGCCTTGCAGTTC
CCACCTGATGTTCTGGACCCCATTTCCTCAGATTGTTGGTGTAAGAGTAATCTGGGTCAACATGAAGAAAGAGACAGAGCCTGACTCCACTATTTAGAGT
CTTGTTTTCCACCATTTGTGTGTTTTATAAATGACAACTATTTGAATTGAATGCAAATATCTCAGGGGATSAACAGAGAAGAAAGAGAAATGCAAATGTA
TTTGTTCATTTTATTCCTAAAAATAAAAAGAGAAACATACTGTCACTATTAGGAGTAAACATTTCCAAGAGGCTGACTAGGGAGGATCAATAGCTGTAGG
GCCAGGATAAAGGTAGGCTGGGCCTGCAGTTTGGGCCTCCTCCAGTTGAGTGGCTCTCTGCAGCCTGTGCTAGGTGCACACCATCTGCAATGGAAGGGAC
TGCGGGAACAGCCAGCCACACAGAGGTACTGGGGTGTGAGCCAAGGTCCTAGCTAGAAGCCTGCATGACATGCTTTCTCTGGAACACGTGGCCCAGTGAG
AGTGTCATGTCTGCCACCCTGCCTCACCTTGCTGTCTCCTGAACTAATGAACTGTGCAGCGGTGACAAACCCAGATTAAGTCTAGTGCCCTGATGAGACT
TGCTCTCAACTGTGGGTTCATCAATTCAGCGAATATCATTTGAGAACCTATCATTTGACAAGCACTGGATTAGGCACAGTAGGGATCTGAAGTGGGCTAC
TGCTCACGTTCCCTAGTTGATGTGTCTTCCGTTTTCATTGTGCCAGTGTGGTAATCAGCAGCATTAGACTGGTAGTTAGGGAAGGAAGTGTTTATTAACA
TATGTGCATGGATGCCTCTGTGTGCCTGTATGTTCCTCTGTGTGTGTATATATGAGTGTGTACGTGCATGTGGATGTGTGTTCATGCGTGCACACTGGGA
AGTGATTTGAGAATATTCCTGAAGCATTTTTCGCAGGATGTCCCTGGAGTCAAATCTGACTCAGTTTCTGGCTTCTTGCCTCCATCTCTCCCATACRTCT
CTCCCCTTTTAGCCTGTTGTTACTAATGCCATARTTTGAATGTCATTTTTATTTCTCCCCCATTCCATATGATTCCCTGGGGGYCTCTCCCCTGCAGAAC
CAACAAAGGACGGGACATCAAGACCATCAAGTCTCTGCGGGTGCTCCGAGTTCTAAGGCCACTGAAAACCATCAAGCGCTTGCCCAAGCTCAAGGTAGTG
TTTACAGAGTTTGTTCCCATCAAATCCCCTTCTCCCATCTTCTCTCTTTAGCCATGGCTGGCCTGCCTTTGGAGAATTTGTTCTGGGAATATTCCTTTTT
CTCACACGGATATCGAAGTTCTTTTCATCTGCCKGAGCTAAAGGTCTTAGTTTCAAAGGAAAATAACCAACATCCCAAGAAATCTATAAGAAAGCTTTTT
CTTTTAAGTTCAGACCCAGATGGTGTCTTCTCTCCGGTGTGATATGTCATCCMAGAGGGAATCCTGTGTGGCTTTGTCCTGGGGCCTCCTATGTCTATGT
CCCCAGTGCAGACCCAGAACACCAGAATGGAAGCAACGGGATCCCTCTGTGTGTTCTGGTCTGCATATTTTTTAAGGCCGAGTATCCTGGGACATTTTCT
TTTTCTTATAACTCAAGAGGAGAAGAGGCTCTTCTAGCCCTACCCTTCATAATTTTGAGGCACAGATAGGTCAGTAACTTGTCCAAGGACATGCAGTCCA
TTTTTGGCAGAGGCAGAGAAGAAATGGGAAGTGAGCTGACATGAATTAAGTTCTTCCTATTGCCAGGACCTTTAYTAGGTATCTTACCCAGATTTCTCCT
TGTCTAATATGCTCCCTCCTCAACTCCCCTGGGGTTCCACCTTCCACGAGTCTCCCTGCCTCTCAGGAAAGCTTCCTGCACTCTATCACACAATTCTGCT
AGACTGTTGAACCCACCTGCCCCACCCCGCATACTTTGCTGTTAGTGGAAGCTGAGGCTCCATGGGAGGAAAGTTCTTTCTCTCTGAATTCCTGTGAATG
ACAGCAAGGCACTGCCAGGGAGAGGACCAGAGCTCCTGGTTTCCAGCCCCAAAGTCTTTCTGCTGCTCAGGCCACATAGCCAGTCAAGCCCCATCTTCAG
GGGCTACACCAGAATACTTCCCAGCAAGCAGACTCAATTCCCTAACTTCAGCATCACATGGAATCATGCAGTGCTTCTCAAGGTGTGGGTCATAGGCCAC
CTGCATCAGGATCACCTGGGTACTTCTTAAAATCCAGATTGCTGACAACCGCAACACAACAGAGCCAGACTCCCTGTGGGAGGGGCTTGGAGTGCGCCTC
CTAAACGGGCTTCCCAGGTGACTCTTAGAATATAGTGTAGTTTGAGAACCCCTGTCAATATTAAAAAGAACCCACTTGAGTGCGAGGCTCAGCTCTAGGA
CTTAGAAGCTATATGACCCAGGGCAAATTACTTATTCTTTGACTTTCTTTCACATGGGAAATGAGGACACATTGTAACTCATACATCTGTGGTGTGGAGA
AAATGAACTGACGTGAGTGGTCCCTGTTAGAAAACTCAACAGTTCCTCTGGAATGCCTGGGCCTGCTCTCCCAAGCCTGCCACRGAGGACACAGCTTGGG
GAGGGCTCTTGTGCACTTGGCTCTCCCTTGCTTCTCAATTCCCACTTCCTATTGAATTCTCATCACCTCTGATACTCTTTGCCCACGCCTACCCCAGACC
TCCTTCAGGCCTCATAGCACTGCTTCCCTTTCAGCCATTTAGCTCTGCAGAGAGGAGGCAAAACTAACTAGGTTTGTGAAACAGAAGAAAAGTCACTTCT
GAGAGGCCCCGATGTGACTGAAACCTGGCTACCTTTCAGAGCCCAGGGCCCTGGCCCACCGCGTGGGTTCCCAGAGAGAGACACCCATGCTCCCAAGGAA
GTGGCCTGGCCGACTGCTGTCCTCCCTGGCTACCCCGCCTTCCCCCCTGGAGGAAGCACTTCTCACAATGTCAGCTGTTTCTTACCACCTTCCTGCCCAT
AAATGCTCATTGGGTTCTGCCTCACACACAGAGCGTGGCCAGGCTGCCTTGGGCCCTGACCCTTATCAGTATTGTCAGTGATCCTGCAGGGCAGGATTCA
GTGGGCCTCAAGGAGAGTGCAGACAAGCTTGATGAGATTCGTTAATAGGCCAGAGAAAGCACCCTGCAACCTGGCTTAATTCTGTTAAATTAGAAAGGGC
TAGTTCCTCGCTCTGCAGCTCCATAACCTGAGAGAGACGTAGGTGGCTCTGATGATTCCACAAGGGWRYCWRTCACTTACATTCCCTGCAGTGTTGAACT
AATTAAACCAGCAGTGCTTCACCCAGTGCTGCAAAGAAGCAACTGCACAAATGCAGCACCACCGTGGGGCTAGATTGTCCTGTGAGCTAAACCTAAAAAC
CTAGAAAATAACCTGAAAATGCCCTGCAATGTATTGAATTCCCATGTAACTCCTCACAGCTTAGGGCCTAGAGTGGAGGTCTCTGGAGGTCTGTTGCCTT
TTAACTGAAGTGTAAGTCCCTAGTTCTATCTACCCAGCCTCGCCATCTCTAAGAGAAGGTGTCTATTGGTCTTTCCCACATTACTTCTATTGGTCTTCAT
CCCAAATGCAGCCACCTTCACTAGAGAACATTTACATGAAGTGCTGAATATAATCATAAATGTATGAACTTGCCTATGAAATATTAGTGAAATGAACAAA
GATGATAGTGTATTATTACCTGATCCTTTTAGAAAGGTAAGGAGAAAACAATACATAATCAGTATATAAATCGAATCTAAGAACGTCACCAAATAAAGCA
CAAGCTATTTAAAGACTAAAATTGGCTAAATGATCTCAAATATTCCTTCCAGCTATACACTTCTATGCTTCACACTAAGTGGAGTACCCGTACCAGGATC
ACACAGAGGACCGCATTCCTTGCTTGATATCATCTGATTTCTACTGCGTTGGGTCTACATTCAGTTTCAGAACATGTGTTCCCATCCCAGGTGGTAGGTC
CTTGCAGTCATAACCAGCTTAGAAGCCRGCCCTTAATCTCATGAGCACCACCTCACCTCTTAGCAGGAAATTCTCTCCTGGGACAACTTCTTGGTGGGGC
TGGGTAGTGGTGGTATGGCCCAGCTCGGCTCTAGGCAAGTATGCAGACCATCACAGGGTTCACACAGCAGGGCTGTTTGCTCTGTCCACAGGCCGTCTTC
GACTGCGTAGTGACCTCCTTGAAGAATGTCTTCAACATACTCATTGTGTACAAGCTCTTCATGTTCATCTTTGCTGTCATCGCAGTTCAGCTCTTCAAGG
GAAAGTTCTTTTATTGCACGGACAGTTCCAAGGACACAGAGAAGGAGTGCATGTAAGTGCCACCAGCGCATTCCACTTGATTTTGCTGAAGCATGTCCTG
ATGATCCCACTCCACCACCACAGGTCCACCCTCCCTCCTTTCTATCTTACCCATCTCTGCTCTTCTTTCAGCAAAAAGACAAAATGGAATCAATAAACTT
TTTACTGAGTGCCTCTTTTGTGTCAGACACGAAAACTTGAGTGTAAAATATCTCGTACCATGACATTTTACACTCGAGTTTTCATTTCAAACCCCTATAA
CCAGCTATTGAAATAAGTTTTATTTGCTTATTATACAAGTGGAAGCTAAGACTCAGAAAGTTTAAGCAAGTTGCTCAAGGTTACACAGCCAGTAGTGAAA
GGGTTAGGATTTACTCCTGTATCTGTTGGGCACCAAATCCCATTTTTGCTCCATGGTAAAAATACCTTCCTTTAATAGAATTCCTTTTGCCTTACACATG
TATGGTGATCATTATTACCCCCACATTATTGCGGCCTGTAGAATGTGCTGACTCTTCTGTAGAATGAGCTATAGTGAGGAGGCTCTCTTTCATTTCTGCT
CTGGTTTTAGAGGCAACTATGTAGATCAYGAGAAAAACAAGATGGAGGTGAAGGGCCGGGAATGGAAGCGCCATGAATTCCACTACGACAACATTATCTG
GGCCCTGCTGACCCTCTTCACCGTCTCCACAGGGGAAGGATGGCCTCAGTGAGTGATTGAGTTGTCATGCTTGTCTGTGGCTGTGATAGGACCCCTGGTT
GCCTTGAGAAGCTGACTCAAGATGAACAAGGCTCACGCTTTGTTATTGTATCAGGGAAAGTAAGGGGTTTTGAGAAGGTGACACAGGCAGAAAAGAGGAA
GAATGAAAATTCTTCAGGCAAAAATAGAGAAGTGGGTGAGCAAATCAGGAAAATATTTGAAACTCTTAATGTTTTAGCCAATTATTGAGGAGTCAAGTGG
AGCCATCTGACTTCTATGGAACAAATGAGTTTTGAACAGCCCTGTACCCATAAGGAGAATTCCTGAGAGCTGTTATAGACAGATTTATCCTCCAGGGGGG
CCCAGCACCTGAAAGCCTGAGGATTGAGGGTTAAGAATGAGTTGGCAAAACCCAAAGGCACCTCCTGTGATCATGAGGAAGACCACAGAATGCAGGTCTT
ATGCTGCCCGTAGTTGAAAGCTAATTTCTCAGAGACTTAGCAATGACTAAGACACCACTCTCTAGTGGCAACAGGTTCTACTTGGCAGCAAAATGTTAAA
TGGGAATCTGGGAGTCTCTTTGTATTGAACATGACAACCTAAACTATGAAATGGTGTCCCTCTGTTGCTTAGGAGTTGAGTGCGTGATGGAACAGAGGCT
AGAAAGAGAAGTGGATTGTTGATAGCAGGATATGACAACTTGGGTTTGGACTCAAAAAAAATTAATGGAGGATCTGCAAAGTCAAAGAAGTCAGATAAAA
AATTATAATAGGTGGCACATTTCCTAACGAAGCCAAGACTGTCATCCACCATCTGTGCCCTCTTGTTCTGTCCCCATAGAGTTCTGCAGCACTCTGTAGA
TGTGACAGAGGAAGACCGAGGCCCAAGCCGCAGCAACCGCATGGAGATGTCTATCTTTTATGTRGTCTACTTTGTGGTCTTCCCCTTCTTCTTTGTCAAT
ATCTTTGTGGCTCTCATCATCATCACCTTCCAGGAGCAAGGGGATAAGATGATGGAGGAGTGCAGCCTGGAGAAGAATGAGGTAATGACAATTGRTCTAA
AGTGGGGAGCAGCAGAGGCTCCAGAAAGGATTCTTGGGCCAGCAATGTAAGAAAGGAGGACTGCATTTTCTTAACTTGATTAAGAATTATAGAGAGAAGA
TGGGAAAAGTAACTATTCAGCCATTAAATAARCATTTTCCAAGCACTGTTTAAGGCCCACGTATGAGGCACGGAGATCTGGAAGATATGTAAGATGTTTA
ACATGCAGTCTTTACCTTTGTGTGCACATAGTCTAGAAAACAATGATAACTTCAGATATCTGCTTATCTGACTGTGACCTTCCATGCCATGTACTTGCTG
TAAGGGCAGGGAATGTGTCTTATCGCAGCTTTTCCAGCAACAAGCATAGTTCTGGCACATTGTAAGGTTTCAAAAGCTGTTTTTGAAATTTCTTTATTTT
ATTTTATTTTTTCGATGGAACTGAACTAGAAACTGTTAGGGACTGTAAGAGAAATGCGACATAAAGTGCTGTAGAAATACATAGGTAGGTAGATCTTTAC
TTCTGACTAAGGACATCAAGGAAGGATTCCTGCCTAAACAGCTCAGCCACATGCTGTGTAAAGGACTTTTTTAATAACCATGAAGTCCCTACTCCATGTG
GCAACACCTCCAGTTTTGTGTACTCCTTTAAGGTGACGCCTTGTCTGTAGTTTTGTCCAAGTGACCCCAGTTGCCATCTTTACTTGCCCAGCCCTGCCCT
TTTTCCCATTCACCGTCCTCCTCTTCTGAGCATGGAACAGAGCCTGCCWTGGTAGATCTAGGGGATTTGAATTTGTGCTAATAACCATGACTTTCTTGCA
GAGGGCGTGCATCGACTTCGCCATCAGCGCCAAACCTCTCACCCGCTACATGCCGCAGAACAGACACACCTTCCAGTACCGCGTGTGGCACTTTGTGGTG
TCTCCGTCCTTTGAGTACACCATTATGGCCATGATCGCCTTGAATACTGTTGTGCTGATGATGAAGGTGAGAGGAGAGAGGCACAAGAGCCRACTGAGCC
CCAGCGATGGTTCCCTCCCAGGGCAAGTGGGAAGACACCCCAACATCCCAGCCCATCACTGCTTTACCTACTTTTCCATCATTGAATCCTTTTGTGATCT
TATTTTGTTCAATAACCCAACCTCTGGGGCTTTGGGGGTCCACTGAGCAAAATGCAGTGCAGACTATAGTAGCCATCCAGGGGCTCCCAAGACCTGAGAT
GGCAATGGGAGGCAGCTTCAGACAAGGGTGGAAAAATCAGGAGACAGAGATCCATCATCACGGGGTCTAAAGGAGCCTTGGAGTATTCAGAGAGGCTCAT
CCTATTTAATAYTAAATGACTAACTCCAGTAACTAACTCTAGAAAATGTTTCTTCCCTGCCCACCCTCATCTCTAGGAAGACTGGCTGTTTTGCTATTAA
GTCTGGTGGGGCGTGGGTCTGTGTTTTCCTTTGTTTTGTTGGGTAGAATATGTGGTTCTCCTCTCCAGCACTCGAAGTCCATCTCTCCTCCTGTACCACA
CACCAGAGTGTCCCACAGGGCAGGAATGAGAGATGGCCAACCTCAGTGACATGTATTCCCCCTCTTACCTTAAGGCTGTGATTCTTTCTCTCTTCTTTTT
TCTTCCTGGCAGTATTATTCTGCTCCCTGTACCTATGAGCTGGCCCTGAAGTACCTGAATATCGCCTTCACCATGGTGTTTTCCCTGGAATGTGTCCTGA
AGGTCATCGCTTTTGGCTTTTTGGTATGTTGCTGMATCCTTCCCAGCACTGGGCTTGTCTCTTTCTGTTGGGTGCCTTCCCAGTCTTTGTTGAAGGGGAG
GTGGTTACTGCTATTCCAGAAATCACCCACCTAGATGTGGGCTCGTTTTGACTGCTCAGTAAACTGCCGTAGAGACAAGATGATGTGTGAGGAAGCTGGG
AGAAAGGGCAAAGGAAGCCACAGCCATCAGCCTGGTCCTGTGAAATTCTGTCAGCAGTCCAGAGGCGGCCATCATTGAGTTTCACTAGAACTGCAATTTA
TGTGTAGATGAAGGAGGAAGCCAAAGATTGGACTAATAAACTTCGAGTGCTTATTTACTGGTAAAAGGTATAACAGTTTTATAACACAAATGGGAAAATA
ACTATCTCTCTTAGCCTCAAACATAGCAAATAATAGATTTTTACCTATTAGTCCTTCTGCCATTAGTAACATGAAGAGTAATTTCTGCCAAAGAAAATAG
GTGTTTATTACTTATGCCTATAAAGGCTAATGACCTTTAAGGGGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGGAGTGCAAGGGGAAGG
ATTCTGGAATTAAGTTTGAGGAGGTTTGGGGATGATGAATTTTTCTGCCATGAGCCCTCTTTTTTCTTCTCCTCAACTACTATTAATAATTATAATTGTT
GGGCAAATTCTTGCATCTGTCCTCAAGAGTGTTAAGAAAATCCAGCCCTTGGCTTCAGTGCCCTATAAACAAGATAATCCCCTTGGCCACCCTCCCCCCA
ACCTGCTTCATTGTGTGCAGCAAGTTCAGTGGGATGCAAGCCCATGTGACAGCTGTTTCACACTTACTTAGGACGTGAGCTACCATTTCAAATTACATGT
GTGTATGGCTTTCCCTGCAAGGAGGAGAACTTTGCTCATTATCTGAATAAGTGTTTGTCTGGTAGCAGCTTTAACAGAGACTCTGGGCTGGGTTCGATAA
TTGTGAGTGTTGATTACRGGGGCTGCTTTTGGTCTCCCAGCGGTTCTTTGAAAAACCATTAATTTGATCATTTTGGGTGGAGAGTTTAAGGGAACCAMTT
GCAGTTGGCTGCATTGTGTTTGCCTGGCTCCCTTTTGAGTGTTTTGAGACTTGGGGAAATAAAAAAGTAAAAGAAACTACTACCAACAAAGATGCCTTTA
TAATACAGTCTAGCCCTGAGCAGGGGGAGCTGAGAGAGAGGGAGACGCAAGCACCACAACAGGGAAATTTTTTCTATGCATGTTGATTACTTGTATGTGG
TATTGACATTGTCTGTGACTTAAGTCCCATTATGTGTCTAATTATGGTGAGTGCTGAATATATACTCACAGCCTTAACTAGATTCGGCCCTTGAAGCCTG
CCTCCTTCCCACCCTACCCCCATGTTTTCATTCAAGGTCTAGAGGGATTTTCACTCTGTAAAAGGTACCACTAATTCTGATAAGTCTTTACATTGTTAAG
GCACTCTAAGCTTTCAGAATATTGTAATATATACTATTTCGTTAGATCTTCTCAGTGACTCTGAAATAGGCATGGCAGATGTCACTATCATAATTGCCAT
TATTGTTGTTGTTATTTTAAATGAGGAAATTGAAGTTCAGAAAAATTGTATAGCTTCTTAAAGATTACACAATGAAAGGCAATAGAATTGCAAGGCTAAA
TGGGAATAAAAAGGGAAGGGAAAAAGAAAAAGAGGGAAAGATGTAACAACAATTGGTTGGCTATTAAGTACCAAATGCTTTACATATTGCTTTTCTCTCC
ATAACAATATATTAAATAAGCATTCTTATTTTCTCCTTTTTATGGATGAGCTGGAGCTCAGAAAGGTTGAATACTTTGGCCAAGATTAGTAAGAGGTAGG
GCCAGGATTCAGACCCTGTTCTATCTGACTTCAAAGCTCACAATAATCTAGTCTACACTGCACTGTACTATTCTATACCATATACCAGTGTTCTAGTCTA
TACCACAGCATGCTATTCTGTATTGTAAAGCATTGTTAACTGGAATCCAGAGCTTCTGGTCCTCTGAGACCTAGATCCATGCACCAAGGTTTAGAAAGAA
TTAAAACCAAGAATTAGGAAGTTCACCCCAGGTTGGACAATAGGAGAGCCCTGAGAATTGAGGAATTCGGAGACTTAATTTAGCTCCACCACTGATAGAC
TAAATATTCTAATGGAAAGTGAATTTATGAAACTGTGTGATTCARTCTGTCCATATGCCCCATAGGTACATGTGGCTTTGTAATAAGGCCTCTTTCAGCC
TCATTTTCTCATACATAAAATGAGGATAATAGTAGCTACCTTATGGCCTTAGCTACTTTGTTGTATGTATCCAATTAAGTGATGTTCATAACCTTCTGAG
TGGGTGTTCATTAAATGTAACTTCTCTCTCTCCACATTCCTTTTCTTTCTTTATTGGGTATTTTCCCCCAACTCCTCTTGCCAACTCTTCCATTCAGGAC
TTTATGAACATGGGATATTTTTCAATCCCTGCCTCTAGGATCCATGAGAAGAATAAATGAGTTGAAAGAATGCCAAAGGCCTGGCCTAGTGTCTGGCTCA
TGTAGRAATTCAATGATGCTAGTTGTGAGGCTGGGTTGGAGTATACTTCTGCAGTGCTCTGAGAGTCTCTTGTGTTTTATTCCAAGGATAGAATAAAATA
ATCCATTGTCCTGTGATGTTGCTGAGGATATCAATTACAGGTGTTTGAAATTTTCTCCTCCTGGTACTTTCTCTGTCTCCTCTGAATTTCTTTATTCTGT
TGATTTAAATCTCTGTTTTCTGTGTTACAGACTGCCCTTTAAATGTCCCAGGGGCAGGCAAGTGAATTGTTTTTGAGATTCAAGTGTCCTTTTTGTTTGT
TTTTAAAGGAACATAGTCTAAGGTCTGTGTTCATCTGAGCCTAGGAGATGGATGCATAGTCCACCCTCTCCTGTTAAATGGAGTGTTATCTGGTTGGTGG
ATTTTCCAGGCTCTTTATATCTCCTTCAGCCCACTCATTGTATTACTGCTTCCTTGTACTTAGTTACATCTCCTCAAAAGATGTAACAGCAGAGAAAGAG
TGGAAAGATGAAGTCTATTTATCCTATTACCAATCAGTAGTTGGTTTGAAAAGGCTCAAYGGAGTTAGGAGGAGATTTTTGGCACATCTGTAACCTTCAG
TCACTTATGACTTGTGTGACTTTTGTTGATAGTTGAAAGTCAGACTGTATTTTATAGGGCACTTGACGCAATAGAGATAATTTAAAAGTTATAGCTGTAT
GACCATGGCAATGGTTTCACAGGTACAAACGTTTCCCCAAACCCATCAAGATATAGCCATTAAATATGGATAGCTTTTTATTTGTCAATCATGCCTCCAT
AGAGGTTTTTAAATACATAAATATTTGTTAAAAATAAAAATTGAAAAAAACTTTTTTTACATATGAGCTTTTGGTGACAGTTTTCAAAGATAAAGTCTTC
AAATAGTGATAGAACTGCTTTCCAAATGAGAAATTTCCAGATTAGTAAAGGAGAAATGGCATCTCTGGTTAGAAATGGGAAACTGAAGCCAAAGTAAGAG
TGAACTTATGCATTAATTGACAAGTTTTATTTCCAAGGGACAAACAAAGTTATATAATGAAAGATGTCTTTTCTCCTTTTTTTTTTCTTTCCTTTTCTGA
TGTTCCTATGACTGAATTCATTTGGCAGAACTATTTCCGAGACACCTGGAATATCTTTGACTTCATCACCGTGATTGGCAGTATCACAGAAATTATCCTG
ACAGACAGCAAGGTGAATGGCTTATAAGATCCATGTCTGTAAGCTTGGCCCTGGAGTAGCATTTTTAAAACTCCTCTGTATATTCAGTCCATTTTTAACC
CACCAAAGCAAATGCGTACCCCTCTAAGTGTTGGGAATTTACTCCCTTGCTGCTTGGCATCAGCCAGGGAATGCAAACTTGGGAGTGGCACTGGATCTCC
AGGAAGGCTTTGTTGATTTGCCTGACTCAGGCAGCAGACCTCTAATGGGGTAGGTGGGATAGACGGTGTCAGAAGAGAGCTAGTATGCATAGCGTTGCAC
TAGAGTCTCAAAGGAGGCACAGTATCTTTGCCCTCAAAGTTCACAGACCTGTATTTTTTCCATAAACTTGTTCCTTCTAAAGATGACTTGGAGAGCTCAG
GGTAACTCTCTTTGAATATTAGAGGGCCAGCGTGTGCTAGAGGGGTTCCTAGATCTGCTCTTTTTGGCATTTAAGTGCAGACTTCAGGCCACTCAGTAGA
AGACTAGGGAGGCTGGTTTTGTGTGCAGGGTACCCTTCTCCAGTACATCCTTTACCCTTCTACCTGGGGATAGAGAGCAGGCATGGGAAGGCTTAGGAGA
TGGGCCTCACTGGCCAGCCCATCAGCTGGAATTGGGGTTAACAAAGACAGAGACTGTGTCCCATTTATCGGAATGAGGGATAAATACACAAATACTAGTG
CTTAGATTTTTCTAAATCACCATAATGTTCCTAATTATATGTTTCCTTTTGGTCCACCAGCTGGTGAACACCAGTGGCTTCAATATGAGCTTTCTGAAGC
TCTTCCGAGCTGCCCGCCTCATAAAGCTCCTGCGTCAGGGCTATACCATACGCATTTTGCTGTGGACCTTTGTGCAGTCCTTTAAGGTAAGAGGTACCAG
CAAATCCTCTCTGRGGGTTGTCATATCAGACAGTACAGCCAGGCAACACTGGCATCATTACCCAAGTCCCTTCACCTCTGGGAAGCTGAAGCTAGTAGAA
CGGGTGTTTGTTAGAAGCATTCAGTAAATACTGCAATTCTTAGTTACAGCACAGCTTGGCTTGACTGGGATCAGCTTATGTCTACTGGATAGAATCTTAT
TTTAGAAAAACACCTTGACTTTGTGACTCAGGCATCCTCTCTGTCTGCTGAGGCRGGGGACACATTTTATAAGATGTGCTTCATCCATAGAGATTCCAGA
CAGTCCTGAGTAACCCCATCCATGTAAAGAGCCAGCCATCTGTAGTCAGATGTCCTCTGCATTTTCAGGGACTTTGGGTGTTTGTTTTTATTTCACATGA
AAGTTTTTCAAAGGACTCATTGAGTTGTGTTTCATAGAGAGATGATTCATACTTAGCCCCACCTTTGTCTTCATCAGTGTTTATTTCCTGAGCCACTGAA
CACAGGGTATACTAATGGCCACCTCTGTGTCCTACAAATAAATAGGGACATCTGGGCAGGTTAATATGATGTGTTTCCYCTGCACAGTCTCGTGGAGCTG
TACAGAGGTGTACATAYGATAAATATAAGTAAAAAATTGACAGCTGAGACCCAGACTTTGAGTAAAAGTTTCTTAAACATACTGAAATATCTTTGGACTC
TAGCAAATATCATAAATTAGTTGTTTTTAAGCTTTGGGGGGCCTAAATGTTGTTCAAATGCCTGTTCTTACCAAAATGAGTTTTTCAGTGAATGTGTTTA
AAAATAAATTTGATGGAATTAAGTGATTCAAAGATGAGAAATTATGAATTCACCAAATTGACTTTCTTATTTTAATTATTTATAGTTTAATTAAAAATTA
AGCTAAAGAAGGCAAGCCAGTGAATTCATGGTTTCTCATCACTTGGAAAAGGATTTCTCCCCACATCCATCATTACTGATTTACTTCTTCATCGAGGACC
TGGGATTTTGAGATGTGAGATCAATTTTAAGGATGTTCTGGCTCCTAGGAGCGACSTTGACACTTTTTATCATATCCAGAGAAAGTGTTTGGCGTAATGA
CTCCCACGAGGCCTCACTTCAATGAAAACTATTTTTCTAAAGTTAGATATGGAGGATAMATCTAAAACCTTAGTGAGAATTTTCTGAGTCTCAGGTGATT
TTGGATTTAGAATTGGAAACACAACATGCTTTTAAAACCTTTTTTTTTTAGAGGATTGCCCAACAAACTTCAGTGGTTAGTCTTTTAAGAAATATGTGTC
ATCCTGTCATATTATCACAATCACCAAGTCTCTGAGAAACCATACACTATTGAGGGCAAAGAAAATATTGTCAAAAAWTGATGGCCAAATGGTTGGCTTA
TTCCAGCAAATACTACAGAGAACAGGGAAGACAGGTGAATTTGCCTCCAGGTGACACTGTGTTATAGATAGATGTTCCCTTTTCAGAACAGTTCTGTGAC
ACAGTATAGAAGTTTGATTTTTAAAAGTCAGATTAACAAAGACTACCTCTGCAAATAGAAAGCAGAGAGCCACACGATATAAAGAGCATCGCCATTGCCT
ATACCTCCCCCACCCTCCCTAAACAGCATCCAGTTTTCTACCTCTGACCCCTACTCTAGAGTTCTTCCCTCTTTTCCCTTATTTTGTGTTAGAATGTATA
AACATGACAAGAAAGGAAAACAGAATGAATCTTTGCTTTTCTCCCTACATTGGGAGTAGGGAGAGATAAACTAGGGACTAGAGTGGAGACAGTAGAATAA
GGGCAGAAGGTAAAGATGAAAGGTAGCAGCACTGCAGGCACAAGAAACCCTGTCCTTCCTTCTGGCTTTCTGTAGAGGAGGTCCACATTGCCCATCAAAG
TGTAGTCAACCCCCATCAYAGAGCCTAGGAATCAACACTTCATTGGAGAGGGAATTCTCCCACCCACTTTCAGTTGCATTTTAATTTTAGCCTCTCTTCA
AGTTGTAAATAGTCTCATAGGGCTCTTCATTTTGTTAGTGCTGTTGAAAAGCTCTGCCCTGCTCATGCAGTCTGAAAGCCTCAATTGATCTCCTGGGATT
CATGATGTGCACAATCAAGACAGGGTGGAGACTCCTCGTAGCACTGTCTGCCAGGGAGCTTAGTGGATGGTAAAGAAGAGGGACTTCTCTGGCAGCGCTG
AGATCAACGCAAAATTACAGTGTCCCACTCTGGCCCCAAATCCAAACTGTCCTATGTCTGCATCYTCCTCCAGTACCAAGGCCAGWTCSCTGCCTCATAT
CTCCTTGCCTTGACCCTCACCTCTAAAACTGAAATGTTATCCCAAAGTGGCRATAAGCATGCRCAGTATGGAATTTTGTGCCACATGGCTTCATGGCAGA
GTTTTTTGGTGGCTAACTTACCAGGCTTTTGCATGAAACATAATAAAACRCCAGGAGGCTTAAATACTGGGAAATGACATTTCATCAGAAAATGAATGAC
CTTTCTAGGAACTTACAAACAAGTGAGACCCCAATCATTTCACTTTGATTCCAGATTCTTCATTATGGGTGCCACTTTGGGTATGGGAGTGGGAGGGGGT
AATACAGGGATTTGGAAGCCAAAGCTAGGTGCTTCATATTTAATTTGCATCACAATTGCTAGGTTATTAATTTTCTGCATGGCAAGTGGGATGAACCCCA
AGCCCAGGAAGTTTTCCCAGCTTTCCTTCTAGATATGGGCTACATTTATGGGTGAGTGAATCTCCCTGATAGAGGTAAATTTTAAGCCTCCCTTTGGCCA
ACTGTTTACCTATCTGTCAGAGGACAAGGATGCCTGAGAAAGTACTACACCTCAAAACAGAACAACCCCAGGGAATAGGGAGTCCCAGTCTGTGTTTGCA
TTAGCCTCCAGGCAAGATCCTGTACTGCCGGTGACTGCAGGTTGTTGAGCTTGGGTGCTGCTTTTCTTTGATTAACGTCTTATCTCTGCTTTCCTTCCAG
GCCCTCCCTTATGTCTGCCTTTTAATTGCCATGCTTTTCTTCATTTATGCCATCATTGGGATGCAGGTGAGCTGGTAAATCAAGGGCCCGGTGGGGGACA
GCTGTTACCCAGATAATCTCTGGCTTAGCAACCTAAGCATGCAAGACCTGAAGATGCTTTGAACCCCTTCTTGCCTAAGGGTGCTCCCCTGAGGTCTTGT
CACAGTGTGACCTTGGGAATTTCACATGTGCAGTGGCTCCCCATTTTAGCTTGCCTAAGTATTCAGGGTAGTCTGGTACAGGGGCTTCATCTCAGGTTGT
CAGATCATGGTGCTAATTCATAAGCAGCTGGGCTTCTGTGGTGACAGCCATAGAACTAAAGCAAAGATGACACCATTGTTCTTAGCCAGAAAGATCCCCC
AGGAGACTAAGGATCTATTTCTCAGGATCTCTGGTATTTTGACTTGGCCTAAAAGAAGGTCAGATGTTAGTTCTTCCTGTATATGGTGACACCAAATCAC
CACATATRGTCATGGCTGTCTTATAGAGTCTTATACTTACACAGTCTTGACTGGCTGAGATTTATGCCCTAAGATACATCACTGTGAACAACTCATGGAG
TTCCTGGCAGCCCGTTCATTCCTAGGGAGACTCAAGGGCCACATTCCAGCTAATTAGGCCATGCAACTTCCTGGACAGTTCCCTTGTTTTCCCATCCCAG
GTATTTATGCAGGTAGCCAGAGGCCTACTAAGCAGAAGAAGCCAAAGGATCTTTCAAAGATGATGGTGGTTCTTGGTGGGTGAATTCCTACTGTAAATAA
CCAGCAGCACATCCCATGAACCTATCTGGTTGGAGACACAGGCTTTCTGCTTGTCTCCAGAGGGCTAACTTTCTGACTTGGAGATATTGTGACTAGATCC
CAGCATAGAACTTCGGCTATGTGACAGCCTCCTGCAGTCAGGCAGTCTGGCTGCCTTGGGCCTGCYGGCTGCCTTCCCAACTGTGTTGCCACCTGGAGCT
GCTGCTGGAGTGTCCCAGCCTTGCTGTGTCTGCAGCCTTTTCCAGACCCTTTCTGAAATGTCTCTTCCTTTCACTCTTCTCTCTTGCCTGTACTTCTTGG
TTTCATTCTTTAACTCTATTACTGGAGAATTTTGTTCTCTAAAAATACAATAGAATGTCAAGTGTCAAAATGTGTGAGACTTGGTTGAGAAGTAGTGGGT
TCTCCTTCACTGAGGATATTTCAGTAGGAATTTAATGATCATGTTGGCAGTGTTGGAAATAGAATTCCTGCTGAAGTTTCATATTGGCTTTGTAACGTTC
ATGAAGTCCTGTCTAACTCCAATATATTTGATTCTGGAATTAAAATATTCTTGAAGAGCCAAATGAAAGCTTGATTTAAATTATTTTTTCAAAATTGATT
TTTTATTGATGTATAATTGTAGATATTTTTGGGGTACATGTGATAATTTGATGCTCGTATACAATGTGTAATGATCAAATCAGGGTAATTGGTTTATCCA
TCACCTCAAACATTTATATCTTATTTATGTTGGAAACATTATAATTCTTCTCATCTGGTTATCATGAAGTTCCTTTTGCCTATGCTCAAAATAGTTCTTA
CCCCTTTTCATCTTCAAATAAAATAAACTAGAATAACACCATCTCCAGTACTGATCTGGTATGAATATTGTTGATTCTGATAATGGTGATAATGCTGTTT
ATCATTATTTAAATTCCTTGGTGTACAAGACGCTGTACTAAATGTATGCATAGAGAGAGAGTGAGGGGGGAGAAAGGGAGGGAGTGAAAGGAAGAGAGAG
TGAGCATGTCCAGGCAAGACATATGACTAATGTTTCTGAGTAATGTGAAAACGTTTATAGGTGAGTTTCATTGTCTCCATTGATGCTTAGCATAGTTAAG
TAACTTATAACATGCTCAAGTTCTCAGACAGTAAGTGAAAGAGGTGAGTTGTAAGATCAGCTCTGTCTGCTCCCTAGCCCATGTTCATAACTCTATACTG
TGTCTCATCCCACCAGACAAGCAGACACAAGTATTTATTTTTACCCTCTAGTTGGAGGTAGAAGTTGTTCAATTATGAAATTGTAGTCTTCACAATAACT
GTATGGTCTAACATCTTATTCCCCTCAGATTTCTTTCCAAAGGATAATAGCACCATGTCCATTCCACAGAGACATGAATGACATTTCTGCTATGACTTGC
TTTGAGCTGGCCATCCCCATCCTGGTCTATGACAGAGACACAGCACCAAGCACAAAGCAGACACCTGAGCTTGTTGCTAGAGAGACTGTTTCTAATATAG
TCACAACAAAACTGAGGGATCTGTACAAATAATAAACGCAAGGGCAGAGACAAGCTTTTGGAAAAATATTAATAGCAACAAGGTATGTYTATGAGAAAAA
CCATTATTATTCCAAACTTTCAAAGGCGCCTTGGAAAAAGGGACCTTTGCAGAAGAATCGGAAGTTCGAAAGGAGGAGTAACTTGCTGGGGATGAGAAAG
AGCCCTGTGGCTACGTGGTGTCAGGAAGTGGGATTGTCAGCCTCAGCTCCTTCACTGAACAACTGTGTGAACTTGGTGAAGTCACTGTATCTCTCTTCAC
CTTAACTCCCTCACCAGTACAGTGGAGGTGTTGGTTAGAGACCTTCACAAGTCTCTTCTAGTTCTAAAGTTCTGTAATCCCAACTGAAATGGATTTAAAT
CTATACTCTCATGAGATTTTTCTATGAGGCCTCAGCATCCCTTCTTTCTCTTCCATACCCTGTTGATGGAGGTTTAAGTTAGTGACAAGGACTAAGTGAA
AAGTTGAAAAAAAAAAAAAGTACAAAAAATTTAAGAACATCTTCACAATAAATATGTGTTTTTGACTTAAATTATGTTTGTTTTGTTCTGCTTTTTGGTT
TTTTTTTTTTGTAAAGATGAGGTCTCACTGTGTTGCCCAGGCTTGTCTTGAACTCCTGGGCTCAAGCAGTCCTCTCACCTCAGCCCCACAAAGTGCTGGG
ATTACAGGTGTGAGCCACCATGCCCSGCTTGACTTGACTTAAATTATCTTAGATTCAAAATAAATAGTTTTGGTTTCTTGGACTATTACACACATACTTT
GTGCAAAATCGCAGTGTGCTCTGCAGTTAGTTTGTGATTGGATGAGGTGTTTGAGAAAATCATAATGAATTCAACTCATGATACCTCCAGAAGTGTCATA
GGGAAAAAAGACACTGTAAGTTGTATGTCTGTGGTGAATCAGGGATAAATCATGAATTCCAAACCAAGAGGGAAGAAGAGGGCAGGAAATGTGAACAGGG
CAAGGATAAATGTCAGTGCCCTCCTGGGGTATCCAGAGTTAATTAGATTTGACTGCTTGGGTGGGATTTTTTAAATGCTACTATTTGTCTCTTTGGGGCC
CTCTAGCTKCTTCTTCTCTTTCCATTCTTCTCTGCTGCTGCCTCACTTGCCACCTCCATTCTCCCTGAGAGACAAGTAGTATTTGGGTTTTGAAAAACAG
CATTGAGAACAAATTCCCAGAGCAGGTGTCAGTGGGAGTTACTTGAGCAAAATAGCTGGGGGCAGAGATTGTTCCTCAATTGCACATTCTAAAAACTGTG
AGGGGGAAAATGTGTTCCATTTAGCATACATTGGATAAACTGAAGCATGTTCAATGCAGGCTGAAAATTGTCTCAAATGACTGGAAAAGTAACCCAGTAA
GTCCGCGATTGTCTCAACATTGACTTGTGAGAATAGGTCCTGATACCCAAAATGTGGTTGGGGAAGGAGGGTGCATGTGAAAGCCTCCTTTTCATCTGAA
GAGTGGAGGGGTTGACCTTGGMTCCAGGCAGTGCTGTGTCTGGGAGTTCATCATTACTCAGTCTCTGTGGATAAAGATCTCTGAGTGTTCCCTCTTTTGA
ATGTTCACAGTGATTACATTCTAAGCTCAGTAGCCAGCAGCAGATCAGCAAATCTCATTCTGTCACCCAGAATCTGCCCAAAGCCATTTTCTGTTTTCCT
TTTCAAAGTGCCCAGTTGGCCCGACTTTCTCCATCCTATTGGCCTGGACTTCATTTTAGCTCCTGCATAAATGTTTCCTTTTGGATGGGATTTGGGTCTG
TTGGATGATACATGTGGAYATATATAAATATATGCATGTGGATATATGTGTGTTCAATCTCATAGATTCTACATTAATGACATACAGACCTTCTAAGATG
TGACTCAATGGATAGAAACATATCTAAGGAAGATAGAGATGCCACTCTCTAACCTGATCTGCTTGTAAATTGCAGGGTGGCATCTGCCCAAGCCATAAAT
GATGTCTTCTTGCAAATCTGAATGCTCCCATCATGACTACCTGAGACAGGAAGAGAGGGGTAGCTCCTTCTGTGCACTCCTGCTGTGAGATAATGTCTTT
GACAGACGCTTGAGTACCATGGTGACAGGTACCATGGAACTAAAAGACCAGATTAGGTGTAGGAGGAACTATGTACAGGCAGAATGACTTCAAAAGAGCT
TGCGTTCTACGTTATGCTYGGACCTTGCTGCATGGGTCCCCTTTGCTGCACTAGAGCAGTGGAGGATAATTATTCTTGCATATCAGCCCAAAAGCACAGT
ATCCAGCAGCTCTCTGGGTCTGAGTTGTCTGCTTCAGGGGTAGGTCATCGGGAAGAGCCATGCAAGTGGCTTTGCCAACCCTCATGTGCTGGACACATCA
CACAGCTTGGTAATGCTCACTGTTTTCTGTTGTTTCTCTCCTCAAGGTATTTGGAAACATAAAATTAGACGAGGAGAGTCACATCAACCGGCACAACAAC
TTCCGGAGTTTCTTTGGGTCCCTAATGCTACTCTTCAGGTACCTGGATGCGTAACTGTCATAGCTGGGGTTCTCCTGATGGAGGGAGAGAGAGTTTGTCT
GCCTCTTCCTCCCATTTCCCTTTGTATCTTTATTCCACTTCCTTTGCTCCTGTCAGTAGAAAGGGGAACAGGCAWTGTCTTTGCCAAACTGCCCCTATAA
CATTAGACAGTTTTGTCTTGTCTACAGCCATACCACCATGAATGTGCCTGATCTTGTCTGRTCTTGGAAGCTAAGCAGGGTTGGGTCTGCTAAATACTTG
GGTGGGAGAAAATTTCATCAATGTCTTTGGCTCAGCAGTTAATTTGCAAATTTTAACTTCAACATGGCCTGCAAGGGTTTGGGAGGGGGGAATGTCAGGA
CAGTGTTTGCAGACCAAATTCCACTTAAGGGCTGAAACCTTRGATAGCCAGGTTTATGCTGGGTCTTAGAGAATCCCATGACTAGTAGCAGAGACCCCAT
AAAAGATGGAGACGCAGTGGATGGGGTAGCAGAACCCAAAACAGACCTCAGTGGGACTCTTTATCTCTGCATGGAAAGCACTAGAAGGGGTCAACTGGGT
AAAAAGAGAGCCTGTTGGGCCCAGACAAGAGCGAGGATGGGGAAATTGGGAAAGAGGACCAAGAATATGATAGGATCTGCAGAGCTGCTCCTGCTAACCA
AAATGTCTCTTGGGCTCAGGAGTGCCACAGGTGAGGCCTGGCAGGAGATTATGCTGTCATGCCTTGGGGAGAAGGGCTGTGAGCCTGACACCACCGCACC
ATCAGGGCAGAACGAGAAYGAACGCTGCGGCACCGATCTGGCCTACGTGTACTTTGTCTCCTTCATCTTCTTCTGCTCCTTCTTGGTGAGCAACATTGTG
CTTTTGCCTTGCTATGTGGCCCATCCCATCCTACCCCTAACCCTCTGATACATAGACCGGAGATGTTTGCTTCAGTGTATGTTTGTGCCTCCCTCCCCTC
CTCTCTCCACACCCCCACCATGCACACACTCACACTCACGTCCACACCCAGGTTAAGAACTAGATCATCCTCTGGAGAACTCTTGGAGATTAGAGTGCCT
GTCAGACTCCTGGATGGGTGACTTTCAATGATTGAGAAAAGTCTTTGTTGGTTCTAGGGAAAGATTGTTGTGAAAAGGGAAGGTGAGCATATTTAAGTGC
ATTGAGCTTCATATCRAATCTATGGACACTCAGAGTAATCCTTTGTCATACCTCAGGTATTTTATCTTATAAGTACGTCTATGGATATCTTCGCTTTGGG
AGATTTTTGAACTGCTTGAGAAAAGGTAMCTTGAAAATGCAAGGTTATGGCATTGATAAGAGTAGAATGATGATAATGGAATAAATGTGGTTCTCTCTTG
ACTTGTAATGTTATTACATTTGATGATAATTGACCAGCTGATAGATGAGAAAGAATGAGATTGCTTGATTGCTTTGGGTGTTAGTAAATATTGAGTAGTA
TATGTGGAGCATACCCACCTATAAAGTGGTGGGAAGCCCTACGTGCCTCTGAAGTCTCTTTTGGAGAAAGCATGACTCAGCACACCCACTTCCAGAAACT
TCTACCCTGCATATCAGACAAGCAGTGATAAATAGAATAATAAAAGGGCCAGTTTAGTGTTTCTGGTCACTCTGAAATTCCTCAGCTCAACTACACTGCT
AATGCCACTGGCTGTACAAAAACCTAAAACTAAGACAGTGATGCCACTGAAAAGTGGTCAATTTCATGGCCATGCATCAAAAAGTGAATTAATTGTCTTA
TGTCCAGGCATTGCTACCTTGCAAGTGATCCCAAGGGGACTGAAACTTCCCACATGTCCAGCTCTCCAGTGAGGGGGGTGGGCTACAGAAAGACCATTAA
GTGTTGCCTGTAGGTCAGTGTGGCAGGGAGGGAGCTAATGGGAGATGTGGGCAGCCCACGCAGTAGTCTTGGCTTTGTTCCTCTGCTAGCCTGGGCCAAG
ACACTTTCCCTTTTATAGCATCTATAAAATGGGAGAAAAAAATGACTTAATAATAGGAACATTTTATACACAATGAACTGATCCATGTGTTTTAATACAC
TTCCTTCTTATGTATGTGAAAGGTTTTTCAGTAAAAAGAAAAGAATATACAACAGTATCTTATTTACAAATATGGAAGTATAATGTATAAAGAAAAAACC
CCCTGAAATTTAGAATAATGCTATTGATGGGAGTTTTCCATTTATTCACATCTTCAGCACATTTTTATTGAGTGGCCATTGTGAKGTTCACTCTCAGCAA
GGCCCATCCCTCAGTCACCAGTAGTCAAGGGGTGAAACCAGCTCACAGCTTCCAGGAATCGGTGCTCACTGCTAGGGTGAAATGGAGCAGATAGAAGCGC
ATGTGGACATCTTACTTTTATCTTATATGGTTTAAGTGTTTCATAATAAATATTTAAAAGAAACCAAAGATATAACTGGAAATTAATTAGGGACCTTAAA
GGTACTTTTGGAATTTTGAGACAGAGGGTGCTGCATAATTCACATTACTGTTATTTTTAATGAGGCTATATTCAGCACGAGATGATCTGCTTTCAGATCT
ATATGAGACTGACTGTGACCTTGGACAAGTCACACAGCTTCTCAACTCAAACCAGCCACTCTACAGAGATTTACTGATGCCTCTACGATGTGCCCGAGGC
CTTGTGCTGGAAGCTAAGAACAAAAAATGTGAATCCAAAGCAATTCTGTCCTTGAAGGGTGATGGTAATTAAACCTGCCTCACAAAGAGTTGGAGCAAGC
GTAACAACAAGTAATAGGTGTGACTGCACACGCTACACTCTTAATGACTGTTCAAATGAAAGGCAGTAACAGTGCTAACAGTTTTCATTGACATTAATAA
TAGGTACCCCGAAAAGTATACAAAAGAAATGTCTGGATACATGGAAAACCCTTTCTGTCTCTTGTAAGTGAAAGGGTCCTGCCTGATAGGTAGTAGTTGA
ACAAGTTCACTGTGGCTCCAACCTCAGAGGCAGAAAGACAGGCCCATGTTGGGATTAGGTTCGCCTGCATGAGACAGAAATCTCCAGATAACAGTGGCTT
AACCAGGAGGGATGCTGATTTCCCTTCCACATCAGTGAAGTCTGGAGGAAGGCAGGCAGTCTGTTTATGGTGGCTCCAAAGGGGTGTTGGGGCCCCAGAC
CTACTCCTGCTTTCTGCTCCATCACCTCTGTGGTGTGTCCCTCATCCTCATGGAAGAGAAGACACCTAGACCTCCAGCCATCCATCTCTACTCTAGGCAG
CAGGAGAAAAGAAGGAAGAGAAGAGTCTGGCTGTTAGGTATGACCAGCAGTCTCTGTGTTGTAGAAAGACTCCAACCATGTCCTTCCTCCACACTGTCTC
CTTATCCTGTACACCCTGTCTGCATATCTGGCACCTCTGTGCACCTGGCCACTTGGCCTGGGGGTCCACAATAGAGACTCCAGTTTTCCCACCAGTTGTT
ATCTATCAGGCAGGACCCTTTCACTTACAAGAGACAGAAAGCCCAGCTAAATCTGCTTCAGTAAAGTGGGATTTTATAGGCTCCTGTAAATGAGGAGTCC
TGGGGCAGAGCAGGCTTGATATGGGGCTCAGATGATATCACCAGGTCCAGGTTTCTCTCTATTTACAGATCTCTGCCTCCACCTTGCTCCATCCTTGTGA
GTGCAAATATCAACATCTCAAGATGGCTGTAGTGGCAGCTCTAGACCGCACATTTTCACACATTTAAGAGCAACAGGAAGAACTATTTTGCCCAGAAGAT
TCAATACCATTTTATTGGTTTTGATGGGATCACCAACCACTGTGCCCAGGGAAATGGGGTTTAATGACTAGTTGAGGCCTGGGTCACAGGAGGGCATCCC
ACTGAATCTCACTAACTTGGAACAGCCAAGAACCTGGGCCAGAAATACAGTGAATGGGTGAGCAGGGCAGCCAGGAAACAAGGAAACAGTGCTGTTGAAC
ATCAAGTCCTGTCGATTCCACCTTTGTTAACTCTCTACTCTGGTCTGTGCTGTCGTCCTGCCCCTGGTAGATTCAGGAGTACTGCAACATCCTCCCTTGR
TTTCCCACCCACCCTACATGCTGCTACCAAGAGTTCTTTCTGAATGCAAATGTCACTTTATCTCTCTCCTCTCTAAACCCCTTTAGTAGTTCCTGTTGCT
TACAGAACAATCTAGATCAGTGGTTGGCAAACTATAGCCCTTGGGACAAATCAGGTTTACCACCTGTTTTTGTATAGCCCATGAAATAATGGCTTCTATG
TTCTTAAATGGTTGAGGAAAGAAAACAAAAGATGAATGATGTTTCATGACGTGGAATTACATGGAATTCAAATTTCAGCGTCCATAAACAAAGCTTAACC
AGAACCATCGTGTTCATTTGTATACAAATGGTCTGTCTGGTGCTACAACAGCAAAACTGAATAGTTACAGCAGAGACCACACAGCCTGCAGAGCCTAAAA
TATTTGCTATCTGACCAGTTCACCGATCCTGGTCTACACTCTTTAGCTCAGTGTATGAGATGCTTCTGTGATCCGGCACTTGGATCCAGCTGCTCCGCCC
TCCTTGCAGATCCCTGACTATTCCCTGTCCCTGCATACCTCTGTTCTGGCTCGTTTGCTAAAACACCCTCCTCCATGCCCTGAAGCCTGTTCTTCTGCTT
CCTGAGCTCTGCTTTAGGTTTCCCCTAACCCCTCTTCTTCCCCTTGCCCTTCAGATGCTCAACCTGTTTGTGGCCGTCATCATGGACAACTTTGAGTACC
TGACTCGGGACTCCTCCATCCTGGGGCCTCACCACTTGGACGAGTTTGTCCGCGTCTGGGCAGAATATGACCGAGCAGCATGGTGCGTAGGCCCCTCGGC
CGCCCCAGCGGGGCCCAGAGCAAAGGTCTCTGGAGTTCCCAGGGAAGAGGCTGGAATTGGAGCCACCCAAATGCCTGCCTGTTACAGAAGGAAAGGAGAT
TCCTCTTGATTGTGGCCCATAGAAGAGGCTCTGGTATCAAGCCAGTCACCAAGGACTTCTGTATCCTCCTTTCCCCTCTCTTTCCTTCTGTGACAGGRTT
TTCCCTTTGTGGGCTGGTCTCATCATCCAGTCCTCACCTCAGATTATTTGGGCTCAGTCCCAAGAGAACTTTCCAATAATCTTTTTCTGCCAATGGTTAG
TGGACTCCTTTGAGTTATCAGGGGGTTTGACAAGGGTTTTTGGCCAGCTGGACATCTGGCCACCATGATCAGTGACTGTGTTTTCTCTTTCTCGTTCCTC
TCAACAGATACAGTTGGATATAACTCTGAAATTATTTTTTAAAAACCAAACAAGTTGTTCTTCCAACTGTTCCCTTAAATATTTGTGGATTTTTATTACA
TGGAACTAAATTAAATGGTAGGAATTGGTGAAGATAACTTCTTTACTGTCTCTTTTGCTGTTTAGTAGTTCTGAAGTGATAGCGTGCCTTCTAGGCTCTA
GAGCAGGGATTGGCAAACTACATCCCATGGGCAAAATTCAGCCCATTGTCTGTTTTTGCAAATAAAGTTTTATTGAAAGACAGCTCAACCATTCGTTTAC
GTATTGTCTCTGGCTGCTTACATACTACAAGGAAGAGGTGAGTGATTGTGACAGAGATGGTATGGTCCTCAAATTTGAAAGTATTTACTACAGAAATATT
AGGTTGGAGCAAAAGTAATTGTGGGCCATTTTTGCAACAACCTATATATTTTACTGTCAAAAAATTTACTGCCAGAAACATTTGCTAATCCCTGCTTTGG
AGTATAAAGGCAGCATTTTGGCCCTCATGGCTGAGGACAAGGTGAGAGTTCTATGAATGCTTACTCCAAAGGAACTGTTCTGTTCCAGGTCATTTTAGCT
TTTGGGTCTTAACTCACCAATCCTCTATCCATTCTGGTCCCCCTCTGAAAAATACTACAAGAAATGTTATCCTTTACAGGCATGGACCAAGTTGCTTCCA
CCTGGAACCCCCTTCATAATCAGAGACTTTTCCCAAAAATCTATCCTCTGGTGAGGCTGTTGAACTTGGGTCACTGTTTTACAGACTAGAAGGGTGAATC
AGAATTCTTTCCTTCATTAATTATTAATGACTTAGGGTACAGAGTTATCTAAATCCATTCCTATTACAATGGCTGAGCAACAGCTTTTTCTTTCTGGTCT
TACTTTCTAATAAATAGATCTTAGAAAGCAATGGGCAGTGTGTTAGAGGAGAAGGCAGCCAGGCCTGCGTGTCTTCAGCTCCATGGCCTTGGACAAGTCA
CGTAACCACTCTGGGCTTCTTTACCTGTAAAATGGTGATCGTGATACCTACATAACTTGCAAGGTGTTTGTGAGGATGATATTAAATCATGTGTAACTGT
TATTATAATCAACAATAACCACACGGGAATGCTAATTGGAATGTCTAGAAAATCAGCCTCTGTTACCATGGATATCTATGGGATTGGGAGCCTAAGAAGG
GACCTCTTCACTCACCCAAGAGGAGAAACCAACTGTGAGCAAAAAAGTCCATTGTTCATCTGGGCTCACTCAGGTATCCTTGGCTTCCAGAAACCCCAGC
TTCTTGTGGTTTCACTTATCTTGGGATCCAAATGCTGTGTGTATAAAACATGCTCCTCCCTACTTATTCCAGTTGCTGGGAAGAAATGATTCCATGAGGA
TGAATCATGAGACTCAGACGTGTGGACTGGGAAAGAGCATAAAGACAAAGAAGAATTTCTTCTGTGTGCTTTGTAATTCACAGTGTAATTCATTCTAGTT
AGTTAGAGTTTGGTTGGCTTTCTTTATAAGGTGGGTGAGGAAGACTAACAAAAGTAATGTGAGCCARTGTCTTCAAAAGGGGGGCTGAAACCAGTTGCAA
AAAATGTCAGTCTATAGCCACTCCCAACCCACCTACTTCCCAATCTCACTAAGGCAAAATGAAAGGACAACTGGCTAAATTACCTCCTCTCAAGAGTTGA
GAGACTTGGAGGTACTGATGAGCTGCTATCTGGAAGAATAGGAGGAATCAACCCTCAAATTTCAAAAAGCCTAGAAAGAGTAAAGCTGGGCTGAAGCAAT
AGTCTCCAGACAGTTGCAAGCAAGGACTGAATGCACAGAGGTGGAGATGTTGTGCTTATAATTTCCAGCGGAAACCCTGGTCTGTTCCAGGGTGTATACA
GACCTGCAGATCCCTGGGTGTTGCTTCTTTTTCTGGACGCTGACAGAGAAGATGCTGTAGCCACTGAAAATTAATCAATCATTAATTCTATCCCTTCCAT
AGGAAGCTGGTACTCTCTAATGGGCTCCTGGGAAAAGGGTTGGTAAGATAGCTAGAATTCTGGCTGGCTCCAGCCAAGCTGCTGTTGGCTGAGTGGCAGA
AAGAGGGCTGCGGGGAGAGTGTCCATGGCTTCCTCCCTGGCTGCTCTCTGAACACAGACCTCAGCAGGCTCCTACTGAGTAAAGAAGACTTGCCCAAGCT
GAACGCAGAAAAATCTGTCACAAAGAGAAACAAAGCCCTTTGTGATTTCCCTCATGCCAACTGTGCTCCTTGCTAATTAGCCTAATGGGAAATTTGTCTC
TTCCAGACTGCAGAAAGCCGCTGACTTCCCACTGCCCCTGAAAAGTGGGTCTGAGTAACTGACTGTAATCAGTGTCTGTGAAAAGCAAACAGTTCTGCAG
TCCACTTCAAGGCAGCCTGACATCTGCTCTGGACAGCGGTCTGAGTCATTTGTGAATTGGCAGGCTTTGTTCCTAGAAGCCTAGCTAGAGCCAGGGCTGT
GTCTGCATCTGGCCAGGTATGGTCCAGATAGGTATAATGGGGTGCTCTTGGTCATTAGGCAGTTCCCTTTGGCATTGACCAGGCTCTGATTTCCTTAGAA
AATTGCAGCAGTGCAGTTTGGCAAGGTAATGGTTCTCTGGTGCTTACTGTTTTCAGTCTCTCCTGGTCTGGCTTTGCCAGGCCCAAGGAAAGAAGCTGCT
CTGACCTCTTTCAGCCATCCTCTTCATGGCTAAGCTGTCATTTCTTTTCTACCCTTCTCTGAGTGTCCTATTAACCCACCTGTGCTTCCTTTACAGCGGC
AGGATCCCGTATAAGGATATGTACAAATTAGTGCGGGTGATCTCGCCTCCTCTGGGCCTGGGAGAGAACTGCCCCTACAGGGTGGCTTGCAAGGTTTGCC
TCCCAGTCCCCAGCCATGATCTGCCGTGGGATGCAACATCTAACCCCTCCTCTCTGTCCTCTGCTCCACCACCACTGCGCCACATGAGGGAACCTTCATG
TTGCTTTCCTTTGAGTTTAAAGAGGTCCAAACCCTTCCAGAACCAGCAGCTGTTACATAAAGATAAGGGCATACTTGGGGAAAAGGCAGAAGAGTTAAGA
ACTTCATGTGAAGACCAGTGTGATCGCTCTCTTCACATGCACACACTCATGTATGTGTGTATATGCACATGTACACACACACACACACACACACACACAC
ACACAGGTCCMCCTTAGTCTGTATAGTTAATCAGAGGGACCTCTCCTTTCTCTATAGAATGCAGAAATATTTTTAACCCAGCAAAAGAATTCTGGCTTCT
TTTCACTGGAGATGGAGAAGCCTCATTTTAGCAAAAGAGCCTCATCGTCCCATATGTAATGTATGGAGTATGATCCTAGTGATCCYACCCTCCCAGCTCC
TGGATGGTCTGGTCAGAATGACTATGAAAGCTATAGGACAGAAGGGGTGAGAAACAAGGAATTAGGGCAAGAGGTGAGAGTAGGTAAAAGAGGCATGGAT
TTGGTGCTGTGTGGAAGAAGGTAGTAATAGCTCAGAGAGTCTGGGAAGATCACAGTGAATGAAGCACTACTGAGAGAGTCCCTACCTTAGGGTCCTGCCA
TGGGTTGCTGTGAGGGATCTGAGGGAGCTGTCATAATTTCCAAGTCACTTCTTGTCAGTTACACCAAGGATATTGTTCAGGGGTGAGTAGGACCTCCCTG
CTCAAATCTGCCATACCCAGGGAATTCTCTATATCCCAATGGCTCTACTAAGCCCCTATGTGAGGCCAAGCCTGCTAGGTAAGGAACCCTCTCCTGGTGC
AAGTGGAGGGAAGCATGGGCTCCCTGGGGCATAGCACTGCCCAGGCAGCTGGAAGAYGACCTARGCTCAGGAAGGATGCCAGCCTGGACAATGGGATAGA
GCTGGCCTGGGATGGTGACACGGTGATTCCATACTCAGGAGGCTGGACAGCTGCCTCTGCTGAGACTCTTTAAACTCCACCCTGGTGAAACCCGCAGCCG
CATGTGGGAGAGCTGGGGAGGGTAGCATGGCATGCAAGATGCTCTTCCTCCTCCTGTTTTTGTTTCTTCTGTCCCCAGCATGCCATTGACCTGGCACATG
CTGGGGAATAAAGAGCAGTCTTGTCCACAGAGCCAGGTGGAAGCAACGGGGCCAACTCTTTGAGCAGCAAGCACAGCCCACCACCTTCAGTGCAAGACGC
CGCCTCCTGCTGCACACACACACCAGAGGGGGGATACACGACGTTCTGCCTGTGGGTTCAGTGGAGAACAGCCTGACTTCCAGGCCAGCGCCCCAGCCGG
GGTCAGAAACTCCAACCCATGGCTGGAGCACCGTCTATCCGGTTTATACCACTCACACACAGCCCTGGGAATTGAAAATAAGCTGTGTTGTATTGGGGAG
GGATGAAGTGAACAGGGAAGTCAGGGGAATGCTAATCGAGGAGAAAATGAGACCCCGTGACTGTTCCCATGGAGAGTCATAGGGACTGAAGGTTGCCACC
AGTTTTCCCGGGTCTGTGTGGGGCGTGATATAAACCGCACCAGGATGGAGTCATGTCTACGATTTGCCTTGATTAACAGGTTTCCTATTCTTTTCCCGTT
TGTCCATTTTGTTTTGTTTTTCTTCTCCTGTTTTCTGTATTTTGTTYGTTTTTGCTCTCTGGGAATGCCTATTCTCCTCTCCTATCTKTCTGCATCCTTC
TCCCCACTTCCTTCTCCTTTCCCTGCCACCCCACTGCCCCGCTAACCCACCCCATCCCAACTCACCACCCTCCATGAGCAGTGGCCGCATCCATTACACT
GAGATGTATGAAATGCTGACTCTCATGTCACCTCCGCTAGGCCTCGGCAAGAGATGTCCCTCCAAAGTGGCATATAAGGTAGACCACCCCTTCCTTTGCT
CTGGGCTACAGACCAACAGGAAATGGGATCTAGTTGTGGGGAGGCCAGAACATGGGGAGGAAGCCAGGCTGGGGAGGTGGAGGAGGGAACTAAGGAGGAA
AGGCACGATGAGACTGAAGAGTCAGGAAGGTTCCCAGGAGGACGAACTCATGAGACAATACAAGGAATGGTTTTTAATACTGTTCAACATGGTTTTTTAT
GTGATATTTTGTGTTTCTACAACTGTGTGGCTTCTTGTGAGTGAGTTACCYGACAAGCAGTGTTAAGTGGTGTGTTTCCTTTTAGAGGAGGCAGAGTGGT
GGCCTGTGGGATGGCATATATGGGCAAGAAGGAAGCCTACAGCAAAACAGCTATCAGTGCTCATATGCAAAGAAATATCTTCAATCAGATAAGGAAATCA
TGCAGAAATTCCTTTAAACRTGGAATTGTTAGGAGAAAGGAAAATTCCTTTAAACAAGAAATTTTTAGGAGAGAGRAAAACTCATAACAAATGTTTTCAC
CCATGACATAGGAAGAATGGCATAGGTTCCTTCTAGGTGTAAGAAGAAAAGAGGAACCTGTCTTCCATCCTGTGATAGACTGAGGAATGCAGCTCTATTC
CACTAGCCCAGCTACCCAATTCTCTTGGAAATACTCAAAAGGAAGGGAAATAATGGGCACAAGTTGTATTCAGCATTAAATTTGACTTACTGGCATAACA
TAGTTATGGGGCCTGGCCCCAGAGTTATGGGTGGATTCCCCTATGGCTTGCTGTTTAGAGATTATTGTACACTGGGAGTCACTTGCCCTTGGGGTGCTCA
TAGCTTTTGGACATGAGTTGTTTTGCCACCCATTAGTAATAGTTACTGTTAGTTCCCCTTTGCTATTTAGACTGACCCAGAACTCTGGAGCTCTTTCATT
CACCTAGGAACACATCATAGTAATGTTTCCACTTCTCTAGATGTTTAAAGAAGTGGGAGAGAGATGGAACTCAAATCCAAACAAGAAACTGGCTTTCCAC
TCTAAGACACCATGTGGCATCAGCTTTAGGCAGGATGCTGCAATGGAACATTAGAGACCCTTCTTTGGGAAGAGGTACTTCCCTCTCTGCCAGGCTGGTG
GTTCTGCCAGAGGACGTTCTCCTGCTGCTACCTCACATTGTATGGCCCCAGATAGCATCTCACTGGAACATGGCCATTAGGGACCCTCATTCCCCCCAGT
ACATGGCTCCTCGTGCACAGCTTAGGGGCTGGCATCCTTTTTGCTCACGATGGCCACATCCAAAAGTACCAGGTGGTAGAATGTGGCCTTGAATTTGTAC
CTCTGGGATGAAGCTTGGTGGGAGAAGGGGAGCGGGGATTGGAGGAAAAGTTAAAGAGCTCCAAAAGCAAAATACTCTCTGGAAAGTGGATTTGGCCATT
TCAGTGTGATCCCTTTCTTTGGGTAAGGGGAACAAGGCCTGCCCACTCTGCTCCTGCCTGRGCCACCCTTCCTCGTTCTGTCTCCTCCGCTCTCCCCATC
CTCCTACCCCAGAGCCTGTTTGCACTCTCCCCCTTGTCCATCCTGCTCCACCTCATCCTTTAGACAAGTTGGACTTATGCATGTTCAATCATGTGCGGGC
AAATTTCATCTATTAAAGACTCAAAAAGGGGGCACCAGGATACATCTTTCAAGTTAGATAAGCAAAGCAAAATCTCATTTCTCACTGTATTTCCATATGA
GTTTCAGGGGGTATTCATGGGACAAGTGGAAATATGGAGCAGCCTTGAACAGGAAATGGAGCCACCTCCCCGAGCTGACTCCTTTCCTTGAGCCACTTCT
TTTAGAAATCACTTCCCATCCCTAACAAAGACATTCTTAGGACTCCAAGGGGGGGCCTTACTGAATGATTAGGGAAGCCCCTTCCCTTTGGAATTTGGCA
TCATTCCCTTGGTGGAGAAAAAACAAACAAACTACAACAACAACAACAACAAAACAGCAGCAAATGAGCCTTAAGTGAGAAGCAGGGAGAGAAGGACTGG
GGCAGGGGATGGGGATCCTTGCCCTTCTTTTTCGTCTGTGCATTTGACCTCTACCCTTTTCTTCCTTTCTCACTGAGATGTCTTTCAATTTTTTTTTTTT
TTKGCCTGCTGTTTCTTTTTTCTCTTTCACACAGAGGTTGGTCCTGATGAACATGCCAGTAGCTGAGGACATGACGGTCCACTTCACCTCCACACTTATG
GCTCTGATCCGGACAGCTCTGGACATTAAAATTGCCAAAGGTAAGCTTAGGAAGGGAGGTGGGAAGGAGGAATTCTGGAACAACTCATGCAGGTGGCACA
GGATGGAGATATTTGAACTGTCATCTATCCAGTTAAGGACACAAYAATGCAGTCATCTGAACATCAAGTATCTGACTCAATAACTAATAATTGCCCTTTC
CTTCTGGTACAGTGAATGGTTTGATAATCTCTAGGGCTTCTTTCAGCTTTAAAAGTATATGATCTTCAGTGTCTGGCTCACAATAGGTATTCTAGAAATA
TTTATTGACCAGAGGTTAATTTTGTCCTTTTTTTCTGTATATGGTTTATTTTCTCTGAAGTCTTGAGAGGCTTCTGTGGCAGAAGGTGCTGTCATAGAGG
CCATGGTAGTGTTTTATTCCTCTTGATTTCTAATGATTGATTTAGGAGAGAACAGGCTTACTACTACTTCCAGGTGGACCTTTAGCCTTTCTGCTTTTGT
GCAATCTAAATCCTTTTTAAAATCAGGTCACTCAGACTATGGAGTTAGGGTTGCTGGAGGGATTGATGTATGGATAAGAAGGCAGAGGAACGTACTTGCG
GCTATTGTTATTTTCTCCTCTGATGTATTGAGCACCTGGGAGGCTTTTAGAACGAATGAGGAAGTTGCTCTTAGTCTGAGGGCCTCAGATCTCTTGGCAG
GATATCCCTGAGTCACTGAAAAAGGGAGCCAAAATGTGTTCTGCTTCTTCAGCAGAAAGACCTGGTATTGCAAGATCCACTGTCACTCAGTGCCAAGATT
TCCTCTTAAAATATGAGGTGCCCTGCTGATTCAGCTCCTACCTTCACCTCCTCCCTCAGTCCTGGTTATTTCTGGGTCTATTCTATTTATTAGTAATTTA
TCTTATTCTAGGTGGTGCAGACAGGCAGCAGCTAGACTCAGAGCTACAAAAGGAGACCCTAGCCATCTGGCCTCACCTATCCCAGAAGATGCTGGATCTG
CTTGTGCCCATGCCCAAAGGTTTGGGTCTTCTCCTGGGTATCCTTGTCACTGTGGGCCCAGCATGTGAAGACTACGTCTTTGGGGGGAACCCAGAGTGAT
CAAAGAGATAAGGAAAGTTTGCCCTTTTCAATTAATAAGGACAAAAGGGACTTAAGGATAAAACRTGTTCTTTMAGATAGGTCACTGTGGTTGTGGATGA
GACTTCCTGGGTGTATAGCTCTCTCCCTCCATATAATACTGCTCAGCAAACCTTCATGGGAGAAAGGATGTTGTCACTTAGCTATAGAGATTTAGAATGG
TAGGCGTGATGCTTACTCATGTACTGCTTATCCTCAGTATCGTCACCATCACTAGGTGGGCATGCAAGCCCCCTGAGGACAGATCAGGGGATCTATGCAC
TCTGCATCCTCAGATCCTGGCACCATGGSGGCCCTCAATATACATTGGATGAATGGGTGACTGATAGCACAGACCTGTTCCAGAGAGTGGGTAACAAAGC
TTAGAGGTTCCTCACTCTCTCCCATTATCTACTCCCTGTTCACCATCATGCCACATTTGTGTTTCTAGCCTCTGACCTGACTGTGGGCAAAATCTATGCA
GCAATGATGATCATGGACTACTATAAGCAGAGTAAGGTGAAGAAGCAGAGGCAGCAGCTGGAGGAACAGGTGAAAGTCAATGCCAGCATGCTAAGTGGGT
GGGCCATGAGGAGTTGCAGGAGGGAATAGGCCTGTGCCTCCCTGGGGCATAGTGCCCGGCAAGGACTTAGAAGCAGCAGTAATGGGTGCGGGGCCCAAGA
ACTTTCTAGTGACGTGGAATTAGAAACCCAGTGGATCGAAGGTTAAAATGGTCAAACAAGGGATAAGTTATGTGCCTGTATTATCCATGTTAATTTTATT
TTCCCCACAGCAAACTCYGTAGTCATTGGAATTCTTTCCTTCTTCTTCCCTCTTTTTACCCAGAAAAATGCCCCCATGTTCCAGCGCATGGAGCCTTCAT
CTCTGCCTCAGGAGATCATTGCTAATGCCAAAGCCCTGCCTTACCTCCAGCAGGACCCCGTTTCAGGCCTGTGAGTAGCACCAAAACATCCCTGGCATGG
CTGTTTGCAATCTGTCACCCATGCTGTTGTGCAGACCCCAAAACTCACTGCTCAGAAGGGCCCAAGAACAAATACTCTGAGCTTGAGTGATCCTTTTTCT
GAAGTTGAATATCTTAAAGTGATTTTCAGCAGGAGTAAGAGAAAAGCAGACTAAGCATACTTAGCACTGTGGTCAACGTCGGTGATCACTTTGAATGAAC
AATAGAAGAAGGGAGTTTGACTTCTTTTAATATACTTGGGTCTTATAGAGGAGATTATTTTTCTTCACAACAGAACTACAACTAATTCTTGATTATCGCT
TCCCCGTGGATCTAGTGTCCTGCTGGAAGATAGAGCCTCCCTCACAGGTGCCATGCTGGCTGAGTGTAAGAGGGGAATAAAACCAGCAGTTACTGCTTTC
CCTGAGGTTGACACTTATAGAGACACTATTTGCAGAATCTCACTTGATTCCCACTCTAGCAGCCTACTATACCCTGGAGGTATATATTAATATCACCACT
TTACACATGAAGAAACTGGAGACTAACTGAGGTTAACTACGTTGCCTAAAGTCCTGGGTAGTAGAATGTGGAACTGGAATTTAAGTTCCTTATTTCTGAC
CCCAGAGTGTTTTCACTATACCATGTTTTCTTTAATGAACAAAAGGGACCTTATTCAGAAAGGGAACTTACTTTTTCTATAATAGGAGTAAAAATAAAAC
ACAAATTAAGGAATTTTCCCATCCTTCTGAGTGATAAGCCTTTGCCCCAATTAATCTACTATAGCATATGTATCTCATAACATTATATTTCGATCATCAG
CAAGCATTTAGTGCATACCTAAAGAACACAAGTATTTCTACTCAATGTAAATGAGCTTTTGTGATTGGGTTTAACAAAGTCCCAGTTCTTACAAAACCAG
GAATCACCAAATCGCTTATGTTAATTACTAAGAGAGTGATACTTAGGGCTTGGGAATGAGACTTCTGTCGGAGTCATTTGGAATTGCTCAGATCATTGAT
TTCTTTCTGCCTGTGGGGCTGGACTGTTTTTGAAAAGCACTGTTTTCAGAGATCAAAGTCCAACATCTTTGGAAGAGAAGAAAAGGATGAGAGTCATGAC
CAAGGTCATTTTTTTTTTAAATAATTTGATGTTATGAAGTACAGTGTGTGAATTCTCCTGTCCACAGAAAACAAGTCAGTGTTTATCTTCTGCTTGTGTA
GGAGGGAGGGAGGGAAAGAAGTATGATTGGAAGAGTGGGACCTCTTCACTGGAAGGGTTTACACTGTTTTTTGTTTGTTTGTTTTTTTGAGACGGAGTCT
CGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTGACTGCAAACTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTA
GCTGGGACTACAGGCACCCGCCACTATGCCCAGCTAATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGCCCTCATGA
TCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGTTGTTTTTGTTTTGGCAGTCCTTGGCTTAGAAATGGGGGATACCACCCCCTAAAT
TGCAATCTCTGTTTATCTACAATTTGCTTTACAAATTAACCCACCACCATAGGATCACTCTGTCTTTTCTCCATGTATTTATTGATCCATTTACTCATTG
ATTTTTACCAATATTTATTAAGAGCCAATATGTCCCCAGAGCTGACTTAGGCACTGGGGCTATGGCAAAGAACACGTCCCCATGGAGACAAATCTGGAAG
AAGAAATTACAAGAGCAATACAGGCAAACGATGCTGAAGGGTGGGCTGTTGTGATGTCATGGAAACAGCTCACTCAGTTTGAGGGTTTAGAGAGTCCTTC
CTGAGGAAGTAACATTTGAGTGAGACTTGAAGACAAGCTCTTCAAGAGTGGTAAGAGAAAGTATGGTAAGTTTAAGGAACCTAAAAACTGTCATGATGGT
TGGAGCATGGAGAGCTCAGGGGATGTGTTAAGTTATGGATTTGGAGAGATACACAGGGGCTAGTACTTTGGGGGCATTATAAGCAGGATAAAGAAATTGG
ATTTTGTCTTTGGATAATGGGGTTTTATGCATCAGAATCATGTGATCAGATGTGTGCTTTCTTGAATTCAGTGTAGGCTAAATGGATTGGAGGGAAGCAT
TTCTAGAGGCAGGAACACCATTTCGTAGGTTACTGCAGTTGTGTAAATTATCAGTGATAGTAGCTTGGACTAGCAGGATAGAGATGGAGACAGATGGTCA
GATGTGAGAAATTTGGTAGATAAGACTGGRTAGGATTTGGTGATTGATTTGCTACTTGGACTAAAGGGGAAGGAGGAAGCAAAGGATTCTGGGTGAAGCC
TTTGGGTGCATGTTGGTACATTTCCTGACATTGGGACACTGGTGGAACAGCAGGCTGGTTCCTCAGAACCATCTGTGTTTCTAGAGCCATGCATTGTTCA
GTAGAGGTTGATCTAGGGGTATAGTGGTAGACATAACAGATAGGGTCGCTCCCTCAAATATGGTGGAAAACCAGACATTAAACAGAGGATTATTGGAAAG
AAGAAAAGTTGCATTTTCAGTGATTTACTTACAGTTCTGATAAGTGCTAGAAAGAGTTTACAGAGTGGTAGGGGAGTTGGAGAGAAGTGTTCTGCACTCT
TAGAGTGGCCTCTACTAAAATCTCGAGGCAGAAACAAGCCTAGCCTATCCAATGAACTAAAAAAGGCCGCCATGTCTGGAGTTCAGGGAGCAAAGGGGAA
AGTGGTACAAGAGGAGGCTAGTGACGTAGGGACCAGATCATGAGGGAGGCTGTGTTCAGAATTCTGGACTTTATGCCCCGGCTTGACAAGGTTTTCAAAG
TAGGAGATCACTCTGGGTTCCAGTTATTTAACTCTGTGAGATTATTAAGTGATTCCAAGGGTCCTCTCCCTCTAGTGAGGATTCTATAATTATTTACTCT
CTGTAGGACAAAAAGGAACCCATTTCTTTCTTTCTGAGACATGATCTCATTCTGTTGCCCAGGCTGGAGTACAGTGGCACAACTGGCTCACTTTAGCCTC
GACTTTCTAGGCTCAAGTGAACCTCCTGCCTCAGCCTCCTGTGCAGCTGGGACCACCCCAGGCACGTGCTATCACTGCTGGCTAATTTTTTTGTAGAGAC
AGGTCTTGCTTTGTTGCCCAGGTTGGTCTCAGATTCCTGAGCTCAAGCTATCTTCCCGGTTCGGCCTTCCAAAGTGCCGAGAGTACAGGTGTGAAACACA
GTGCAAAGCCGAGAACTCACTCATTCTTATACTAGCTGTGCTCAATCTTGTTCCCAGTGGTTCTCAGGAGATGCCACAAGTGGGGAAGWTGACTGACATT
TAGGCAGGTCATTTAAATACTGTAAAAACTCTGTAGCAGCTGTGAAAACTCAGCAAAAGCTCTCATTGGAAGCAAGGGGACAGATTAGGTGATTCTCTGC
TCTTCATATCTTCTCCTGTAATCTAAAAAAACATTCCTATGGATTGTTTTTAAGTAATTGGCAATCCTTGCTCATGCCTTGAGTTTTCCATTGGATGCAG
AGTCATCAGCAGTAGACTTAAAAGAGATGGTGTCCCATCTCTCCCTCCTAACTCCGCCACCAAGAGAGCTGCTGCCCAGCCACTGACCCCAGTCCTTCCT
CCCATAATCTGGAAGCTCACTCTGCATTCTTGAGCAGGTCAGATGGTAGCTATTACCATACTGGTGGCAGTCAGCCAATAATTTGGCAACAGGCACCTCA
TTCTCCAGAAAGCTTGGCTGCTTCTTTCTCTCCTAACAAGCCCAGTGGATCCCGTCAGGTTAAGAGTATCTGGAAGTACTAGACAGTGGTTTAATAACAA
GCCTACTGTGCCAGTTCTGCATTCTTTTCCCTTGGAKGCCTCTAAACAACTGGGCAGACTTTGTCTCCATCCTCTTTTCTCACCACCATTTAAACCTCTT
CCTACATTGCCATCAACCAAGAGGTTTTCAACTCCTCACCACCACCTCTGAAATCCTTCTCAGTTCATGAACCAACAGACTTAATGTATGGTACAAAGTA
GTCCTTCAATAAATGGCAATGGAATTGGACTTAATTGTTTAGTTTGGCCAGGGATGTTGGCGAAATAAGACCATATTCTTACTGCGAGTAGGGAAAATTT
TTAAAAAGTCCATGGCTGCTTAATATTTAAACAAACTGTTCACTGTGTAAACTAGGGTGTTTTTCYGCCAAATGGGGAAACTGAGCAGAAATAGGTTTAC
AATCTAGTGTTGCTCTTCCATATGGCTGAATGTGACAAATGATGTCATTTGTCATAGACATGCTAGCCCCCGGCAGAATAATGAATGGTTTCAAAGGCAG
GATGCAGGTTGAAAACATCAGTTTCTGTCTSTTCTAGTGCTTTTTTTTTTTTTTTTTTAATTTCAGGACTAGCCACATGTAAGTTACWAGGTTTACAAAA
GCCAGCCAAGGCTAAAGGGTGTTGCCCTGCTGGGGTGGGAATTGCTAGTGGCATGACTGTCCCTCATTACCTCTGGATTTGACATTGCTTTTCAGGAGTG
GCCGGAGTGGATACCCTTCGATGAGTCCMCTCTCTCCCCAGGATATATTCCARTTGGCTTGTATGGACCCCRCCGATGACGGACAGTTCCAAGAACGGCA
GTCTCTGGTGAATGCATGAGTTATATGACCTCAAAACTACTTCCTTGGTTTCCTGATCCCTCTCACTAATTTTATTACATAGTCATGGTCCGTCAGGAAA
ATCCATTCTAGTAGTTTAGCCAGTTGCCCTGGAGGTGTCCTGCCTTAGCCCTTTTCTAGCCCAGTTTCTCATGTGCTCTGACAATGTTCCCTCTTCAGGT
TTTACAGTCCCAGAGGTCCCTTCCCTGCAGCAGGAACTTAAATTGCTTTAGGCCAAGCCCTCTTAGTTTATGCCCGAATATCAAGTGTAAGACCGGAAGT
CACTTATAAAATCTTGCCTTTGATGGGGAGCTTGAAGATGCATCACCAGAGAATGAGTGACACCAACCCTGCCTCTTAGTGTAGTTAGGTACTGCTTGTG
GGACACACAAATGCCCCATGCCATTCCTTAGTGATGCCCACCTCCTCTAGAACCTAGCAGCAGCATGTGCCACAGTGATGAGCTGCCTGCCAGGAGGCAC
AGAAGACTGTCTTACCTCTGCTCTGTGTGGGTTCAGGCACATTGTCCCTTTTGGTCACAATTCAAAGACATTCTAACAGGCCACTAAAGTCACTTCCCTG
ACCCCAAAATGAGTTTATTAGCATAAATGGTGAAATTCCTGGCTGGGTGCRGTGGCTCACGCCTGTAATCCCAGTACTTTGGGAGGCCAAGGCGGGCAGA
TCATGAGGTCAGGAGATCGAGACCATCCTGGGTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTATCCAGGCTTGGTGGCAGGCACCT
GTGGTTCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGCGGAGCTTGCAATGAGCCGAGATGGCGCTGCTGCACTCCAGCCTGG
GTGACAGAGCAAGACTCCGTCTCAAAAACAAACAAAAAAGCAATTCCTGAGAGACCTATTGAGTCAAGTGAAAGCCTGAAGAAGAGAGGAGAGATTCAAG
TTTTGGCTTAGCTAATACAAAGCTAAAATATGGTTCCTAAACATCATTGACTTTACCATTATTCCTAGTTCAGGAGCCATGAGCTCAAGGTCCCCCACCC
CGACCTTAGCTTAGAATTGAAGCCCAAGCAGTCACTGGACTGAAGAGAAAAAAAGACAAAACCCAACCATTGCAAAAGTCTGTACAGACAGCTTGTACTA
AGTGAGTTCCATATCATTTAAATTCTGATTCATCTGTGGCTCTTCTCTCCCCTTCATTTCTCTCCTGATCCCTCCCCGCTGCTACTGTGTACCTCAGAGC
CACCCTGAATGATGTGTGATGGAATGGGCACCCCCACAGAGGGCGAAAAACACTCAGTAGCTCAAACAAATGCGTGCTTCTATCTCCTGCGAGTGCTGAG
ACAGAGAATCGTGCATGGTTGTGTGGGGGAGACAGTTAGTCCAGACGCCCCCAGGGCTGAGCAATTGACTGCCTGAGGGTGTTCTTGATGAGGCAGGTAG
GAACTAGTAGAGTCATTCTCTGCCCTCCCCTCTGAGGAACTTAGCACCAAGACCTGTGGAATAATAAACTATAGATAGTTTGATTCTTAAAAAGACCTCG
CAGCATTTTGCCTGCCTGGCGATGTGTCTAGTGGGAAAAAAATCTCAATAATGTGTCCTTTCTTTCACAGGGAGACTTTATGACATCATTTCTGCGGGTT
CCCCAGGGCTGAGCCGTAGTGCCAGGACTTTTTGGATATGTGTTCATCTCATTGTCAGTACCAGTGTCTGTAATTCAATTTAGGTGTCAGCCTGTGCTAC
ACACTCAACACTGTGTACTTCTGCCCATCCCTCGGGGCTGCTGCTCCATGTCCCCAGGCGTGGCCATGATTGTGTGTGTGCATATGGAGTGTGTGTCTCA
CACCACCTCTGATACCTGTAGACTGCAGTGTTGTTACCACGTCTGTCTGGAGTCAGAACTGTGTGCTATACAAAGCATGTACTACAAACAAACACTATAA
CTCCCTCAAGTGCACCATAGCACATGTCTTGGGAAAGTACCCCTGCCATACACACCAGAAACCGCTCAGCCAAATGGTCACATAGGCTAAGGTGGGGGTC
CCAGACACTCTTTCCTTTGGGCAATGCCCTACCTGTTTTTAGGGTGTCATTTCCTAAATATAAAATAGCTTTTTCTGGTACGATCTCCATCTGCCCAAGA
TGTTCTTAGGTCTTTTTGTTAGGTAGCCCACGTAAACATCTCTCATACAGCTCTTTATGCAATGATACTAGCTATCTGTATAGCGCATGCACAGCTGCCA
AACAAGAATGACAGAACCTTAGAGATTTCCAGTCCAACCTGATAACACTGTAGGCTGGCACAGTCCAAAACAATAGCTCTTAGCCACATGTGGCTAGTCC
AAATAAAATATAAACTATCTAATTTTTATATTGATTACATGTTGACATGCTACTATTTGGATATATTCAGCTAAATTAAATGTTATTAAATTTCACCTTT
TACAACATGGTTAACAACATGGTTACTTGGACATTTAAAATTCTGCAAGTGGCTTGCATCATCCTTCCATGGGACTGTGTCACTCAGGGCATCCCTGACA
GCCACCCACCACATCTTTGGATGGTTTCAATCAGAAGAAAACTCTTAACGTCACGTGTCTTAAGGCTTGAGAAGACGTATTTGACATCAGAAATTGTTGA
CTTCCCTTAGAAAACTGGTTTCTATTTAATTGATAAAAGGCTTCTTCAGATTAAAAGAATAAATCCAATGCTATCACTTCTTAGAAAGCGAACTTCACAT
ATCTGAAAAGTATTATACCAAACAGTGTTTGTTGCAGAAAACAATAAAATCTGAATCATTGCTTAGTGATGAAAAAGAGGAATCTACACCAGAAAAATAG
GTGACCTTCAGCACTCAATCCCAGCTAGAGCTTCCTGTCCGGAACATATAGCACATAGGTGCACATAAACACACACACACATATACATACAACTGAGACC
TTAAAGCTGCAAGTCTCTCTTTTGAAAGCCATTCTTGAGGAGGCTGAATTGTCCACTGGACGTGAGAAGCAATGAGATRGAACCAAGTCCCACAAGCTTG
GCTGTGTGTTTATTTCCAGGAGCCAGAGGTTAGTGAATTAAAAAGCGTGCAGCCCTCTAACCATGGCATCTACCTTCCTTCGGACACCCAGGAGCATGCG
GGATCTGGGAGGGCATCTTCTATGCCACGTCTGACTGTGGATCCCCAGGTAAAAAGCAACCACCTACATTAATGCAGTGGCATCCGGGCTGTATTAGCTG
GGTTATGGAATAATATCTGATATTTGCAGGTGAGCCGTTGACTTGCCCGCACCCCTTCCCTATAAATAAAACCTGGCTCATGGGTCGTCTCTAATAGAGC
CTGCTTCTCCGGTGTTTTCAATGACCCCCCCTAACCACAACAGCCCAGCGAACAAAATTGCATACTTCACTCCGGACGGGTTAAACATTCTCAAGATTCA
ACCAGCCATGCAAGAAATATTTTCCAGGATTTTCTCTGTGTACTTCTCCATCCTTTTTTTGTTTCCTGACTCCTCCAGCACATATGCAGTTACTTACACA
CACAGGTCTGTGTCAGGACTGTCTGTCCTAACCAGTGCAGGCCACATCTCATTTCTTTGTCTGTTTTCCTGGCTTCTTTTTCCTGTCTGTCGGTCTTACA
TCAGGTTTTGACAGAGACAAGAAGTTTTTGTAGATTTGTTTTAATATCTGTGGCAAATCAAAATGCCAGAATTTAAAACGGGGCTAGGTGGGATTGATGG
CAGCAGAGGGAGAGTGATACATTCTTAGCACTTGTTAAATTGCAAGCTCTCCTAGGCTCTAGTGCTGCAGGGCAGGGCCTTCTCTGGCAAGGGCGTTTAA
AAAAAAAAAAGCAAAGCCATGCTTCTTTCATGAATGGGGTGGCCTCTTAGACAATTGCCCTCACATGTTTCAAAGCAGCACAGTATTTGCTGCAGCCTGG
CTGCGCCCCATGGTAGAGGGCTCTATGGGAGCTTGCACAGTTCCTGCCTGCATTCCGCATGGCTTTGCCTTGGTACACTCAGCTACAGAAGAAAAGATCC
TGGACCATTTCCAGTGACTATATTAACATAATGTAAGGATGCTTTCTTGAACAGTTTCCACCAGCTAAGGTTTGAGCAAGAGAGATTCAAGGGAAGTTAC
CATTTCCAGGGGTTACAATTTGCCTTCCTTAACGTCTCAGTCTTGCTGCTTCTGTCCTTTTAGATCTTTTCAATCGTTAATCCATACCTTGTGTTTCTCT
GGGGGCTTGTATTTCCAGGTGGTGACAGACCCTAGCTCCATGAGACGTTCATTTTCCACTATTCGGGATAAGCGTTCAAATTCCTCGTGGTTGGAGGAAT
TCTCCATGGAGCGAAGCAGTGAAAATACCTACAAGTCCCGTCGCCGGAGTTACCACTCCTCCTTGCGGCTGTCAGCCCACCGCCTGAACTCTGATTCAGG
TGAGGAGGTCTTCAGTGTCCAGCTCTTTCATCAGGCAGTGGGCTCCTGCCCTGATGSACTTACTCTCCAAGGACTGTAGATAACCAGAAAAGAATTCAGA
GACAAGGGCTGAAGAAAGTGAAGGATGCTCCTTACCAAAGGGAATTCCTGTATCTGACTTACATCCTGAAACAGGCCAAAGCCCTCCTCTGTGTTCACCG
GAAAAGCTGTTGCAATCCCTTCCTTCTGGAGCAGGGCTATACAAATCATTAGAATTGAGGGAGCTTTTCAAATAGCCTTCTACAAAACCACTGGGGCTTT
TTAGGATTGTATTAGAGACCCACTGTAAGGACTGAACTTTAACCACCAGTTCCACTTCAACCTAAACAGTGCTACCTGGAGTTATTTCCTGTGTTTGAAT
TTTTTTTTTTTTGAGACAGAGTTTCACTCTGCAGCACAGGCTAGAGTGCAGTGGTGTGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACACCAT
TCTCCTGCCTCAGCCTCCTGAATAGCTGGGACTACAGGCGCCCGCCACCGTGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTT
AGCCAGGATGGTCTCAATCTCCTGACCTCATGATCCGCCCGYGTAGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCGCTGCACCTGGCCTGAATTT
CTTTTAAGCTTTTTGCTATATATATATATATATATATATATATATTAGTCTGGCTCAACTATTTTGTTTTATTGGATAAAGGAATCAAAGTTGAAAAAGC
AGTGACTTGTCCCATGTCATAGGGCCATTAAGTGGCAGAACTGGGACTAGCACTGGGATCCTTTCATTTCAATCCTGGACTTCTCACCATAGCATTATGT
TAGGTGTGTTATTATTTAGTTCATAGAAATTTCTTAATTCCCTTCTGCTGGTGCCACCTTCCCCCCAAAAAGTTATGCAGCCATATTTATGATAGAGTTC
CTGAGCCATATTGTTAACCAAGATCCTATATTSTGTGTAGCATAAATAGAAACAGAATAGATTGCATTGTTTGACATATGTGTCTCTAGTGGCACCTTGC
AAACTTACCTGCTTACAAAATAGGTAATTTGCTAGCCTGCCTTTCTCCCCTGCTTCCCTTTCAGATCATCTTTTGACATACCTGGAGAAGCCAGGATTCT
TTTAGGGGCCTATCTTTTTTCAGGCTGCTACAACAAATTACCACAGACTGGGTAGATTCAATAACATGTATTTGTCATGGTTCTGTAGGCTGGGAAATCC
AAGACCAAGGTACCAGCAGATCCCTGTCTTCTTTCTATTCTCACATGATGGAGAGCAGAGAGACAGGAAGCAAGCACTCTCAGGCCTCTTCTTATCAGGG
CACTAATCTCATCATGGAGGCCCCACCCTCATGCCCTGCCTCCTAATACCATACCATCAGGAACAAATTAGGCCTCAACATTTGAATTTGGGGGGGGACA
CAAACATGTGGTTCCTCTGAGGGCCCAACCCCAGGCTGTGATGTGATACTTGGAGAGAAGTCCCTTCATCATCATTGGTCAGAGTGGACAGAGTTATAAC
CAAGTGCTTTTGTCACCTCTCACAGGCCACAAGTCTGACACTCACCGCTCAGGGGGCAGGGAGCGGGGACGATCAAAAGAGCGAAAGCATCTTCTCTCTC
CTGATGTCTCCCGCTGCAATTCAGAAGAGCGAGGGACCCAGGCTGACTGGGAGTCCCCAGAGCGCCGTCAATCCAGGTCACCCAGTGAGGGCAGGTCACA
GACGCCCAACAGACAGGTGAGCGCAGAGAGGAAGCCAGTCTACAGCAGAAGGACAGGGGAGGGTGGGCTGTATCATTAGATGCAAGTCGTGAGCATTTCG
CAAACGCATTCAAGTACCCACAAAGACTGGAATTTCACAGGAAGCTATACCTATAGTGCATAGAGGTTAGCTGCTCAATGCTTGTGTACTCAGAGATGAT
CTGAATTCACAGAAAACCAGATTTCCCCCAAAAAGATGGTGTCTAGAGGTCATTCCATTCCAGCCTTCAGAAACCAGAGATATAAATAGGTTGACAGCCA
GATTTTGGAGGAGAGGATGGTCCTTTAGCCAGAAAGTTTCCTTTGGCCATCTTGTGATCCTCAGTATTTGTGAGAATTGTGATTCATCTCTCAGCCCAGG
ATTCACAAGTCAGAGCAGTTCACCCTCATTTACCTAGCTTGCAGCCGTCCCAGCAAGANCATGCCTTTTGCTGAACCACCAGCTTGGTGCCTAAGGAATA
ACTATCAGATCTGTATGAAAACATTCATAGACTCTGTTTTACTCCTTACTAYAGCCCTATCTCTAGTCATGGCATTTTGACCCATAATAGGAGACCCCCT
CAACAGAAACGATCAGCGGAGAAAAGGCAGGGCTGCTAATGCAAACCTTTAGAGACACAGCAGTCGAGAGGTTTCCCTTCTAGAACAACAGTTTTCAAAT
TTTAGTGCAGAACAGCATTAACCCATGAGGTTTACTAGCACTGCACATTCCTGGTGCCTGAAGGACCCAGGAGTCTGCCTTTGAAAAGACCCCTCTGTAG
GATTCTCAGCAGGAGGTTCGTAGGTCACACATACCTTAAGAAATGCTCTCCTGGAGGTTTACTTCCCAAAACCTGGGCTCAGTTTCCCTTGGGAATAGGT
GAGGGCAAGTATGGCCTGAGCCAACAACTGAGTGTATCAGGTACAGAAGCTGAGTTCAGCAAACCACAGAAGACATGGGCAGGAATAAGGGTTTCCCAGC
CAGAGCAACTCCAGCATTTGTTCACCTTCCACAGAGTTGTCTTTCTCAAGTTTAAAGTCTCTCTTTTAGTGTGCCCCTTGTTACATATGTAGAGCTTCCT
TAGTAGTCCAAGTGCTTGTTCCACAGACCTGCCACCCCTAGCATCACCTGGAAGCTTGTTAGAAATGCAAAATCTCAGTCCTTGCCCCAGATCTTCTGAG
CCTGCATCTGCAGTTTAACCAGATCCCCAGAGGTTTGTATGCACAAAGTCTGAGATGTCCTGGTCTAAATGTTCTTGACTCCTTAATCTCTTCAATCCCT
TTTTCCCTGAGTGGATGTGAATACTACAGGGAGCTCCAGCTCAGGCCTCTCCCTGACAGAATTCAGATTCCAAGGACTCTCTTAACAGAGTTGCAAGTAG
GGATCATGCCAAGCCCAATCTAACATGCCATGTCTCTCCTGCTATACAGGGCACAGGTTCCCTAAGTGAGAGCTCCATCCCCTCTGTCTCTGACACCAGC
ACCCCAAGAAGAAGTCGTCRGCAGCTCCCACCCGTCCCGCCAAAGCCCCGGCCCCTCCTTTCCTACAGCTCCCTGATTCGACACGCGGGCAGCATCTCTC
CACCTGCTGATGGAAGYGAGGAGGGCTCCCCGCTGACCTCCCAAGCTCTGGAGAGCAACAATGCTTGCCTGACCGAGTCTTCCAACTCTCCGCACCCCCA
GCAGAGCCAACATGCCTCCCCACAGCGCTACATCTCCGAGCCCTACTTGGCCCTGCACGAAGACTCCCACGCCTCAGACTGTGGTGAGGAGGAGACGCTC
ACTTTYGAAGCAGCCGTGGCTACTAGCCTGGGCCGTTCCAACACCATCGGCTCAGCCCCACCCCTGCGGCATAGCTGGCAGATGCCCAACGGGCACTATC
GGCGGCGGAGGCGCGGGGGGCCTGGGCCAGGCATGATGTGTGGGGCTGTCAACAACCTGCTAAGTGACACGGAAGAAGATGACAAATGCTAGAGGCTGCT
CCCCCCTCCGATGCATGCTCTTCTCTCACATGGAGAAAACCAAGACAGAATTGGGAAGCCAGTGCGGCCCGGGGGGGAGGAAGAGGGAAAAGGAAGATGG
AAGGACACCATGCATTATCAGAGAAGAGGAAGTAAAGGACAATCAGAACACCAGTCAAACCCACCAAATTGCTTTATTCCCCTTTGCAAGATGGGCACTG
CCATAGTYCTGCCTCTTTGCTGGGGAAAGAAACCAGGAACGTGGAGGGTTATTACTGCGGGAGAAGGGACACGAGGATGGCTTTGCTTCCCCTTGCCCCT
TCCCACTTTTCTAAAAGCTGTGGAGGGATCTAGCTGGCCTATGTCTACACTCAGTGCCCTGAGAAGCCTGGAAGACTTTCTGGCTCTTAACTGGGGAGTA
GTGGAGACCATAGGAGAGGACTCTCCTCCCTCACCAGCTCTTACGCCTCAGCCAGCACCACTGCCACCAGGGCAACTGCAGCAGCATCTCATGCATAACC
CTGTGGCTTGCTTCCCCCAGGGCAGCACAGGCTAAGTCAGGAACATCGGATGCCAGGGAGGGAGGAGAAAGCCGAAGCGAAAGGGGTCAGGGTGCTGAGG
CAACAGCAGCAAGGGCTGGTCTGGACAAGAAAAGCCATAGCCCGGCAGCCCCTACCATGAGGGAGACAGAGAAACAGAACTGGTGGTGCTGGGGGGTATA
GCCCCCCATCCTTGAGGCCTGTCACCCACACAGTAGGTGCTGAGAGTTAGGACAGGTCAGGAAGTCCCCCAGGGTCCACAAAGGTGCCTGAGGCTCTGGT
AAGGGTGAAGATAAAAGTATTTAACAACCGCTATGGCATCAATGTAAGTGGAGTTTGGTCCTAGTGCCGGAGCCCATGCTATTCCAGGCATTGGCTCTTT
AGATGCCAGTCATGGGGGAACCCTGAGGGTGTGGGTAGAGTAGCAGGGGCCACCTAAGAGATTAAAAACAGAGTCTGTTTTCCAACCAGTGTGGAAGCAA
TTAAATATRCGTAACAGTGCTACGGCCACACCAGCACCTCCTGGCTGAAGGTCAGCCCACACTCTGGTCCATGAGGCAGCAAGGCCAGTGCTGTGCCAAG
CCCGGTAAGGCCAAGTGCCGAGGCCCAGCCTTCCCTGCCACTCCTCTGAGAGGGCAGAACACACATATCCAAGTAGGCTACCCACCACTGGGTAGGGATT
TCTGTAAAGATGGGAAAGGCTGATAGATTGAAATAAGCTTCTGTGAAAGTCTGGATTTACTGAGGACCTCCCCTGAGGAGGGACCGTTGGGACCGCAGAT
TCTGCAGCTGGTGTGGGGTTCAGGTCAGTTTGTCAGGATGCTTTAAGGTGATTAGTAAATATACCTCAGCTTAGACTTGGGCTGCTCCTTCTAGCAAAGC
AGGCTCCAGTGGGGCCTCATCATACAGGATGACAAGACTGGGGCCCTGTTCACCTTGAACATGCCCCTGGGCCAAGATGGGGCTTCACCCCTCCCCAGAG
TAAGAGCTGGGGCTGACAGTCCCACCCTGTCATTCCTAATAGCCCAAACGCAGAAGCACTGAGCAAGAGAGCCCTTTCTTGCCAAGCCAGTGCTCTTTTG
GTATATGGCATACAGCTCCATTGGAGGGGACACATCACTGGCTTTATCTGGTGGAAATGTACCTTTCCCTTAAGTTCCTCCTTAGTGCCATCACAGCAGG
TGAATGGGTGCCCTACGGGGCCCTCCTTCCCCCACCAGGAACAGATGGAACCTGCCACCCAGGATCCTGATCTGCCCTGCACTGAGCACTCAGTGGATAA
ACACTCCTCCAGCCCAGACACACTCCTCCTCTTGGGCAGGAGCAATCCAGAGTTGTTATTTTTCTTAGAAGGAGCCTCTTTTCCCTCTATTTTTTAAATT
GAAATATAATAGCTGCATCAGCCCTGAAAAGCCAAATTCAACCACATGGCTGGAGAATCATTTGTCATGGCCCCGCCTTCTCTTCTGATACTAATGGAGC
TTCATGACCCACGGTCAGCCCCCAAACCAAAGTTGTCCCAACAGAGGAGGCCAGTGAGGCAGAGACAGAGCTCTCCCACTCTCAGACCCTCTTTTGTCTT
CATTTTCCTCTCCCACTTAGCACATGTGTGCTTGAGGGTGGCTGGGAATGTGATATACAGCACCCTGATCCTAACAGGTGTGATTGTTACGTAAGACGCT
GATACTGGGCCTTGTATTGCTTTTAAAGTTTCCTCTGCTCAGCATCATTTCATGCCAAAGTGCTGCTATGGGCTGCTTTGTGTGCACAAAATTGCTTTTT
CCACCTCGGAAATGCAGCTTTCCCTAGGGGGAGGCCTACAACAGGACGACCATTCTGAGCCAGTGAGTCTATTGCATGGTGTTTTGAGAAAGGGAATTTT
AGTGACACCTTATGCCATTTCAAGAGGAGAAATGCAGGCTGGCAGAGCAATTTCCAGAAATGGAATTTGCCTGCAAATAGTATAAACAACACTAAATTTA
CTGTGCCAGGAAATCTTCCTGAACTCCTTGAACTCATACACACAGGTATTTGAGTCCTGAATAAAGTGTTGGAAAGCACTGCAGATGCGGTCACCTGACT
GACCACCTGGGTTTTCTATTACCAGTGAATTTCTTTTATTCACCTTCCCTTGACCAAGAAATTGGGTTTCTTTTCCCTCAGCCTGCACTTACTCTTCTAT
TAAGACCAGAAAATAAAATAATTTTCCGTTGAGTCAMAAACTCATCATCTTGTTTGGTGTTCTGCTGCCTCTGAACAAAAGTGAATGCCAGCCTTCCCTT
GCTGGGTGTCAGAGTCTGCCTCCCTTGAAAAGAGGCCCCTGTAGACCCCAACACCTATTCTTTTCTCTGGTTAATTACAGCAGCATCTGAGAAATTCCAT
GCAAAAGAAGACTACAACCAGTGTTTCAGATATACCACAAGATCAAATTTGGGCACTGGTGGTCCACCTCAGAAGACTCTTGAGTCATATATTCAGTTTC
TCTTGCTAATATATGACTCGTCTTCACCATCTCCTCAAAACAAGAGCAAAGCCAAGATAGAGGAAGGTAAAAGGAGGAGGAAAGGAAACCAAGGCAGGGA
GATGTTCTAAGTAGGTTTGCATTTAGTTACCCCTCATTTCACTTAAGGCTCCAGACAGACTCCAGGTAGGGAATGCATGCTGTCTCTTTCTCTGTGTCTG
TCTCCCCATCTCCTAGAGGACAGAGTGCCAGCGACCTCTGGACAGGGGYAGGGCTCCAGCCAAGGTGCCCCTGAGCCAGGGTCAACATAGAATTTCCTGC
CCCGTGAAGGGCTGGCACCAGCTAGCATCCCCTTGGCTCCACATGAGTCATGAACACAATTGTCAGTGGGGGTCTCTGCTGCTCTTCTGGCTGAAGAATC
TGTTTTTCTTCTGGGCTTCACTTGTAGTTCCTATTCAATGTCTCCATAGGGCACTGAGATCACCAAGAACATTACCCAGAAGCTGAAGTCCAAATGTTCT
AGATTTTGACCTCTCTTGACTCTGGGGCCACAAAGAGAAGGCCCCATAATCCACCTCTCAGCCAGTATCTCCCTTCTTTGCACAGATTCCTCCCAACCCC
ATAGAGCCTATGTGGTGAGCATGAGGGTCGTCTTCCCTCTGTTCTCCCATCCCAGCCTCTGTTTTGCTGCATGTTAGCGCTGATCCAGCTCCTGAGATGG
TTAATTCCACCCAATCCAAGCTTATTTGCTTGCCTGACTGACTCCACCACTCTCTCAGCTATGGGGGAATATTGCATTCTAATGAAATAGGGTTTGGAAC
TCACCTGGTGCTCCTCGCAAGACAACTGACACAAGGTGTAGGGTGTGGGGGTGGACACAATGCCCACCTACTGGATAAAAGCTCACTGCAGGAAAATGAG
GTCTCCTGGCATAATGCAACAAAAATCTCATATAATTTTGATTTTTAAAAAGTTGTTCTCAATTTTTCATTACATCCTACTTCTCAGCCCTCTGGATGTT
TCATTTTTTTGGACAAAGTGTTTCTTTAGTGGTTGGGGCCAGGGACAGGTTGAGGGATATTTCTCGGCTCATTTATAAGATATAAATATTATGAGGTTGT
ATGTAAAGAAAGGGCAAACGTACAGCAGAAGGGGAGCAAATAGCTACCTTTCAAGGATTTTGAGATTTGAAGGTTAAGGAATTTTTACTGCTATTTTTGT
TCATCAGTTTCATGTCTGTTATGTTTTGAGATCCTCAGAGGCCTAGGGTTAGCGTATACCAAGAATCCTGGTGAGAGGCGTTGCCATGCCTTGGGGTGAA
TTCTTCCCCACTAGCTCTCTCACYCAGCCTACAAGTCCTTCTCTCATAGATCCCAGAGCAATGGGCACCGTCCAGGAGGTACAGGAGAGGACTTTATGAT
GCAGGAAAGAAGGAAGAAGTGGGTCCCTTGCAAGTGGCCAGACAGGGAATGATGGTTTGACTCCAGAAATCAGGAATCAGGTTCAGGTTTGGATAACTTC
TCTTTAAAATATCTCCACATTGAGACTCTTATTTTAACAAAATCCAAACAAAATTAACTCAGGGCTTGTGACCTAACCTTTGTAAGAAGGTGATCAAAGA
GATCCTACATTAATAAGCACTGCCTGTAGCACCAGCTTTGTCTTTTTGTCTTTTGTTGTTTCTTTCCTGAACCACCCTGTACATCATAGCCAGGTCTACC
CCAAATAGAGCAGCAGCTGATGGCTTCTCTGCTGTCTGTGGAGGGAGGGCTCGGCTGCAGACCTATGGTGTTTTGTCAGCTGTTAGGTGCTACAGCCCAC
CCAGTCAGAGTACATAGACATAGCGCTTTAAGGGACAAAGGACAAACAGAACTATCTTTGCTTTCCGGAGGCCATCTTTTTCTTTCCTTGAATCCTTTCT
GCTTTAAACTTCTGAGGTTTATGCATCCCAGAGAGGTCACACCAAGCCAAAGAGAAAAAATTCATAGATTGTCCCAGCCTACCCAAAGGGCCTGAAAAGC
CTCTCTAAACAAAACTCAAGATAGCTGAGAAGTATGAATGGGGTTCACAGCAAAGTCCAATTGATGGCTTTTGAGGCTGGGACACCCCCAAACTGCCCTT
CTGTTTTTGTAGTTTTGCTTTCTTCCACCCACCCTCTCTCCGCATGCTGTAAGTTAGGGGAGTTAGTATCTTGAACTTCTAAATGCAAAAGGAGATTTTA
TAATAAGCCATGCTACCTGTAAATACATTATTGAGGTTTGCATTTTTATTTTTGGAGGTATGAAAGAGTTGAGTAGACCAAGTCAAAAGAGGTGTGGGGA
TTTATGTTTATTTTTATTTGTTTGGGGTTGTTTGGTTGGTGGCTGGGTTTCTTGTAACAGACCTATTCTGGAATAGCAAAGAAGGATACCTTGGTGATCT
GCAATGTTTCTGAATCTGTTTCTCTTTAGGAAGTGATTGCCATCAAATTTAGTGATATGATATTTGAGTCAAAAATCTGAGGTTATAGTACCAGCTGTCT
TTTCTCTCTGGTCTCCTTTTTGTCGTCTTTCTCTTTCTGTCTAAATTGGCCTCTGTCTTTTCCTAAGGACTTAAAATATAACCCAAATTAATGAAGAACT
GCCCCAAAACTTCAGTGAAAGCCAAGGAGGTACAGAATTTTTTCAGGACATCTTTAACCAATACAAAATTTATGTCTTAAGAAGATAATTTTTACAATAG
TGTAGTAATCTGATAAATGAAAACTATTGGAAGTCAATAGTTTTTTATATTCCAGCTTTCTGTATTCAAACTTGTGCCTTCAGCAAGCATCTCTTCACTT
TCTTTCCCTTGTCAATTGAAACATGAATGTTTGGCTAACTCATGATGTAAAGTGTCTGTTAAGTTAATAATACATAATTTAAAGCACTTAGTCTCCACAA
AGCAATTTAGAAAAATCTTCACTTGTTAGATCCCATGAAGTACCTATGAAATTCTCAGCATTGCTATAAGCATTTGATTTTTTTTAAGGAAACTTCCTGT
TTAATGGAATCTGAATCCAAGATTTGCTTTAATTTCACTCTATTCTTCCCATTTTCCCTTATTCTTCTTGTTGTCTCTCTAATTAAAAAAAAAAAAAACC
TAGGCTTTTTTTTTTCTATCCAGAAAGTTGGGTTTTCATGATCTGAGCTTCCTTATGTCTCCTTCTCTTTGTGCAAACTTAAACCAGTCATAGATTGTCA
CCCAGACATATTCTCCAACCCAGCATTGGAAATCTGAACGAATCTTTTCTCTTTTTGTCCTACAAGTTTGTCAGAGATGAGAATGGATTGCTGTGTACAT
TCTACAACCAGACCCTAGACTTTATACCAGGCTGTGCCACTTCCTCTTCACTTCACTCAGAGGATGGCCCCAAAACTGAAAAGGAAATGAAATCATCAAA
TATACCAAATCCGAATTTGACTTTATTTGATGACTCAATATTTTCCTTCCAGTACTCTAATTTTTTTTTATGGCAATGGCCTATATGGCACAAGAACCAC
CACTTAAAGCAAATCTGTTGAACATTTTTATAAGGGATGAGCAAGAAAAACACACTCCAAAATTTTAAAGTGCCATTAATCAATTTTTAAGAATAAAGGT
AATATGAAATGAGGGCTAAACAATGTAATATAACTGCCAGTTAAGGTAGACAGTAGTTGTGGTCTTAGTTACATTTGATATGGAGTTGTGTAATATTAAG
CAGATCCCAGTGGAGTTAGTAAAAACATAGGTATTGAGTTTTAATGGCTACCAATTGGGATATATACTTAGCCTGCAGGCTGAACTTTAGTCAGTGTTTT
TCTATCATGTTGTTTTGTGAACAAGTCAAAATTTATACAAAGCTACCCTAAGTGCTGCAATTGCAGAGGAACTTGCCTCTTCGTGATATTAGAGGGCAGT
CCAACTCCGCTCAAACTGAGTCCAAGATTTGAATTCATCCAGAAAAACAAATGGAGGAGAAAAGCCTAATGCACCACATGTGTTTGGCATTTCATGGCTG
GGACAATGGAGTAGAGGGTAGGAAGACAAGCTGTAGAACAAAAGCAAAGTGAGGTAGAAAGTAACAGGTCCCAGAAGAGGACAGACTTAGAGATGTGTAA
CCTTGGATCCTCTTTTTCACTTAGAATATGGGTAAACTTCTTAGCACAAGACTGGATTAAGAGAAGTTCTTTCTGTTAAACTCACCTAGGGTAGTGGCTT
TGAAGGCCTCAGAGGATTAATAGATTCCCAAAATTTTCTTCCAGACCTGGGAGATGGAGAGAAAGAGGTTCTTGCTTTAAAGCGGCTCGAAGACAATCTT
TATGACTTCAGCAACTCTTCAACATAGTAGCACCAATAAAGGAGAGATTATGTTAACTTCCTAGTGGTGAGAATACCATGGGATGGGAGAAGGGCCAGTG
AGTGGGATGGGAATGAGCTTCATCAGGAACAGATTTCAGACTCTGCAGGGTGCACCGGTTCTAGCCTCAAATAACAACATTGCAAGGAGGTGGACTACAG
GGTCCACACCCTCTGTCCTTCGGGGCCCATGGTCAGGCCATTCCCTCTTTGTTTTGCTCCTAGAGGATGAGCATGTAAGATGAGATCAGGAGGGAAATTG
GGTGCTCTGCCTCAGGCTGTTAAAATGCTGCTACCTGCATTCTAAAACGTGCAAGTCATGCCCCACAAGACACCTCCTTAGGGCAGCATCCACTGTGGTG
TGCCAGCCTGACACCCCTGCAGTCACGGTGTTTGAATGGCAGCTGATGCTGGCCCACCCAGAGTATCGGTGCATCTCTCCTAAAGCCACAGTTCAGCACT
GCATGTTGACCAGGCGGATATCCTATAATATAGATGCTCGTTTGGATCCAAAAGGAAAACCATTAAAAATAAAAGAAAGATGAAAAACTTTAATGTTTTG
GGGGGGATAAAAGAAAAGAATAAATAAAACCTTGTTGTAAAGAATGCATCGGCCTGATTTCCCTCACTTGATGTGTTTCTTTGCTGCTACCAGAAAGGGA
AATCATGGGAGTGAAGCCTGCCAGGACCCTCAGGGTAAGCTGGCAGCAGGCTCTGCAGCTGCACTTAGTTGGGGTCTGCTCAGACCAGTCAGGAGGAATT
CAGGAGGCTTTCAAAGTCCCAAGGACATCCTGGCTCTGAAAGGTTTTCTTTTGTTAAAAAATGCACTTTGTGCTGTGTGTGGTAGCTCGTATGTGTTACC
CCAGCTATTCAGGAAGCTAGGGCAGAAGGATTGCTTGAGGCTAGGAATTCAAGACTGGCCTGGATGACAGAGTGAAACCCTCATCTCTTAAAAAAAAAAA
AAAGGAATAAAAATGTTCTCTGCCTTGGATAACATTTTTTTTTAAAGATTCCATACAAACTCATTCCCTGAAAGAGAAAAACAGATTTTCTAATCAGGAC
ATTGTCCTGATCTGCAAGCGAGGAGTTTAACAAGGTAGGCAGAGAACTTCCTTATGGAACAACAGGGCTCTGTGACCAGAAAAACTATGACCAGCCTCCT
CTGAAAAAAGGTGGGGGGATTATAGGGCACCAGCTCAGCCGCCAAGTTCAGGAAGCAGCTGATTCCCAAGACTCTTAGGAGATACTGTCCATTCTTCCTC
CTGTCCACATCACTCCCCATTTAACTGCAATTGCTCCCTTGCCACAGGGAAAGCAGCAAGCCCCAGGCCCAGGCCTCCATTTGATTTGCCACTCCGAGAA
CTGTCTGCTTCATTCTGCTTGAGGAGATATCTTCACCT


SNP Information

Context             (SEQ ID NO:19710):
GGCTCACCCCTTTCCTGCATTCTTTATGCCTGACAGTTTCTCAAGTCGTGCCTGTCCTTTTAAATCAAGCGATCTGTTCTTCCCTTTGATGTCGTCCTCC
Y
GGCCACCAGCCTACATCCTCATTACCTGATAACTTAGATGATTTAAAGCCTCACTGGTTGGCTTCTTGCCGTCATTTTCTCCCCAGCTTCAGTCTGTTAA
Celera SNP ID:            hCV1792303
SNP Position Genomic:     139809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19711):
GGCCACCAGCCTACATCCTCATTACCTGATAACTTAGATGATTTAAAGCCTCACTGGTTGGCTTCTTGCCGTCATTTTCTCCCCAGCTTCAGTCTGTTAA
Y
GGCCATGAAAATCTCACTAAAGCCCTTCTACAGCAAGGCACATGCCTAAATGGGAACCCAAAACATCTCCCTCTTTCCCATTGCCCCCTCTGCCCTGTTC
Celera SNP ID:            hCV1792304
SNP Position Genomic:     139910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19712):
CCTACATCCTCATTACCTGATAACTTAGATGATTTAAAGCCTCACTGGTTGGCTTCTTGCCGTCATTTTCTCCCCAGCTTCAGTCTGTTAACGGCCATGA
R
AATCTCACTAAAGCCCTTCTACAGCAAGGCACATGCCTAAATGGGAACCCAAAACATCTCCCTCTTTCCCATTGCCCCCTCTGCCCTGTTCTCTGTGGCT
Celera SNP ID:            hCV1792305
SNP Position Genomic:     139919
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19713):
GGGAGGCACCTGCCTGATGAGCTCCTCACGTGTGGCCCGCCTGCTCCTCGCATCTTTCTGTGCTTCCTGTCTGCAGGTCCTGGGCACTCCCATTTGCCCC
Y
ACCATGTGTCCTGCCCTCTCACATGGCCCCTGTGGCCACCCTCCCTGCCTGCAGCTTCTGGGCTCTGACCGCGGCCCTGCCCTTTCCCCTTGGCAGGAGG
Celera SNP ID:            hCV3270250
SNP Position Genomic:     325143
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19714):
GTGTGAAACACAGTGCAAAGCCGAGAACTCACTCATTCTTATACTAGCTGTGCTCAATCTTGTTCCCAGTGGTTCTCAGGAGATGCCACAAGTGGGGAAG
W
TGACTGACATTTAGGCAGGTCATTTAAATACTGTAAAAACTCTGTAGCAGCTGTGAAAACTCAGCAAAAGCTCTCATTGGAAGCAAGGGGACAGATTAGG
Celera SNP ID:            hCV677940
SNP Position Genomic:     382089
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19715):
GCTTCAGTCTGTTAACGGCCATGAAAATCTCACTAAAGCCCTTCTACAGCAAGGCACATGCCTAAATGGGAACCCAAAACATCTCCCTCTTTCCCATTGC
M
CCCTCTGCCCTGTTCTCTGTGGCTTTTGAAGCCTTCCTCAGCACTGATGCCACCTGAACTCCAGCAGTGCTCATGCCTGCCCCCGACTCTGGCCACCGAT
Celera SNP ID:            hCV1792306
SNP Position Genomic:     139995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19716):
TTTGGTGCATGAATATTTGATGGTGTTGTCTGGGGTCTCCCAGGTGCTCTGCTGCCCTGGCAAGTTAGGGAGCCTCTGATGGAGTGGACCATGGCTCTGC
K
CACTGAGTGATCTTGGAAAAATCTCTGCATCTCTTGAGGCCTCAGTTTGTCATCTGTAAAGTGAGAGCATTGTACTAGATGATCTCTGAGGCCTTTCCCT
Celera SNP ID:            hCV3270251
SNP Position Genomic:     326996
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,7)   total(G,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19717):
TGTGACAAATGATGTCATTTGTCATAGACATGCTAGCCCCCGGCAGAATAATGAATGGTTTCAAAGGCAGGATGCAGGTTGAAAACATCAGTTTCTGTCT
S
TTCTAGTGCTTTTTTTTTTTTTTTTTTAATTTCAGGACTAGCCACATGTAAGTTACTAGGTTTACAAAAGCCAGCCAAGGCTAAAGGGTGTTGCCCTGCT
Celera SNP ID:            hCV677941
SNP Position Genomic:     383131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19718):
CTTCCTGGTGGAGCATGGCCAGACATTGAGCATCTGGGGTGCCCCCTAAGTGAGGTGGGTTGGTAAGTTAGTCAGCCTCTGAACTCTGTGCCCATAGCTG
W
AAGAGTAACATCGACAGGAGAACATGAGAAATGTCATTGGAAAGGAACTCTTTACCAGTCTTTGGTCAGTAGGTAGTGTGGAGGGAGGAAGGAAATCTAC
Celera SNP ID:            hCV3270252
SNP Position Genomic:     329502
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|A,14)      total(A,14|T,1) ;no_pop(A,-|T,-)   ;JBIC-allele(T,702|A,793)   total(A,793|T,702)
SNP Type:                 INTRON


Context             (SEQ ID NO:19719):
GTCATGGGGGAACCCTGAGGGTGTGGGTAGAGTAGCAGGGGCCACCTAAGAGATTAAAAACAGAGTCTGTTTTCCAACCAGTGTGGAAGCAATTAAATAT
R
CGTAACAGTGCTACGGCCACACCAGCACCTCCTGGCTGAAGGTCAGCCCACACTCTGGTCCATGAGGCAGCAAGGCCAGTGCTGTGCCAAGCCCGGTAAG
Celera SNP ID:            hCV677943
SNP Position Genomic:     392709
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:19720):
TGCGTTGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCGTGCCCAGCCTCCATAACACTTTATTAGTATCTTTATTGTTGCTCATGTCATATGG
R
TAATTATGAACAGACTCCTGCCTCCTCCTGTGTTTCTGGGGACAATAAGAAGTCTTTCTTTGTATGGCCCGTAGGCTGCTTTGTCCACACAATGTCTTGC
Celera SNP ID:            hCV1792308
SNP Position Genomic:     141325
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19721):
GCTGCAGCCTCTAACCAATCTGATTACCTTCCTCCACTGGGGCTTTAAATCAAGGGTGGTGGCTGAGAAATTAAATTGCTCTCCCTGGCGGCTTCCTTTG
R
CAAGGGCCTGGCTGTCTGGAAGGGGCCAATATGTGTATGTGGGAGTGAGGAGTAAGGGCATGGGCGTGGTGGGGAGTGGGCCAGCTCAGCCATGCCCACT
Celera SNP ID:            hCV3270253
SNP Position Genomic:     330272
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,21)   caucasian(A,16|G,22)   total(A,21|G,43)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,13)      total(G,13|A,2) ;no_pop(A,-|G,-)   ;JBIC-allele(A,450|G,1039)   total(G,1039|A,450)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19722):
AGATGTGAGCCACCGTGCCCAGCCTCCATAACACTTTATTAGTATCTTTATTGTTGCTCATGTCATATGGATAATTATGAACAGACTCCTGCCTCCTCCT
R
TGTTTCTGGGGACAATAAGAAGTCTTTCTTTGTATGGCCCGTAGGCTGCTTTGTCCACACAATGTCTTGCACATGGTTGTGCTCATACATGGTTGTTGAA
Celera SNP ID:            hCV1792309
SNP Position Genomic:     141355
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19723):
ATGTCTTGTTATCCAGTTTTGTGGCCCCTGGACACCAACACAGTATTCATTGGATGGTGAAGAACGGTGGGAAAAGCCTGGTCCATTTGGTGTGCACAAA
R
CATCTTCCTGACCTCTTACTGTAAAAGCCATGACAGTTTGCTCCCTATGTTGTACAAGAGAAAGGATAAAAGCCTTTTGCCTCCAGTGTTACAGAGAGAG
Celera SNP ID:            hCV3270181
SNP Position Genomic:     202949
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(A,-|G,-)   ;TSC_42_A(A,11|G,72)   TSC_42_C(A,25|G,58)   TSC_42_AA(A,23|G,60)   total(G,190|A,59)   (G,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19724):
GCCCATGCCCCTCCTTCTGGCATTTCTCTCTCAGTCCAGCTAGTGGCTCTAATTCCAAGCCTTTGTTCTGAGGGTGCAGTGGGTGAGGGCCAGGGTGGGC
R
TGCACGAGTGCATGTGTCCTGGCAGGTGGGAGCTCATGTAGTAGCCTGTTGGCCACACATGGTCATTTCCTTCCACCATATGTGTCTTTCAGGTCCTGAG
Celera SNP ID:            hCV3270254
SNP Position Genomic:     331130
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,38)   total(A,3|G,71)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19725):
TACAAAGCACTGGTCTAAATACTGGGGATACATCAGGGAACAAAACAATCCAAATCCCTGCCCTCATGGAACTTACATTGTTTACAGTGTAAAAATAAAA
Y
AGATAAATCATATACATAGTGCATTAGATGGTGATACAGTACAAGGGGACGGGGTCGGTTTTGGTAGGAGGGCCTGATGGTGTACTTTTATATGGGGTAG
Celera SNP ID:            hCV3270182
SNP Position Genomic:     211994
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,7|T,7)      total(C,7|T,7) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19726):
CTAGGAAATGGGATGCTTTCAGGGCCTTTTTCCTAACCCGGTGTATAGAGTGTCCCAGTAGGATGAATGACAGCCTCAGGGCTCTGTCTGTACCTTGTTC
R
CCCTGAGCAGCTTCAGCCTCTTCCAGGAGGCACAACAGAATTCTCAGAGCCATCCCTCAAGTCTCTCTGAGTACAAGTGGAAGCCTCATCTTTAGGCTAA
Celera SNP ID:            hCV3270255
SNP Position Genomic:     332952
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19727):
CATGATTATTTGAAGGCTTTTGGCTTGAGCAGCTGGTAGGATGGCATTGTAATTAACTAAGCTGTGGAGAATGGTGAGAAGAGCAGGTCTGTGTTTTATT
R
GGGAGGGGGGAAGGATCAGGAACTCAGGTTTAAACGTGAAGTTGGAGGTGGCTACTAGACATCCATAGAGGATCTTTTGTAGGCAGGTAGAAAAATGACT
Celera SNP ID:            hCV3270183
SNP Position Genomic:     212747
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19728):
TATTCACTGTATCATTCTTCTTATTTTGATCTCTAAAAATCATGTGTCTCTCTTTGAAGTATAAAGGACAAAGAGATAGAAGCATATAGGAAAGAACCCA
Y
CCCATCTTTAGGAAGAACAGAGCCCACTGGCATAACAGGACAGAGTGGCAAGAAAGGTTGGGCTGTGGAACCAGACGGGCTCTTGTTTGAATCCCAGCCC
Celera SNP ID:            hCV3270256
SNP Position Genomic:     334032
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,15)   total(C,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19729):
TGAGGAGTGGGAAGACTTAAATAAGTAAAGAGGAAGAGGGCTTCCTAGTGTGGTTGTGCAGGTTGTACATAAACAACTCTAAACAGCACCATAAATGTCA
Y
AATCCATGTGTATGGCCCCAAGATGGAAAGACACTCCAGGAGGGAAAAAAAGCATGGAAAAAAACAAGGAGATAGAGTTACATAATACATGGAAAGTTTA
Celera SNP ID:            hCV3270184
SNP Position Genomic:     213798
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19730):
CTTAGGACGGGGCCTGATGTAGTGTGAACAGTCAATACATGTTGATTCCCCTCCTCATCCTTCCATTCTCTTATCACATCATGAAATCCAAATATAGGAG
S
AAGTACATATTGATGCACAATGTATACAGATAGATGTGTGCAGGCTGGCCCAAGACCTAGTTGTTTTATACAGACACACCCCCCTTGCCTATGCCCGTGT
Celera SNP ID:            hCV3270257
SNP Position Genomic:     334337
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,8)      total(G,8|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19731):
AGGAGTGGGAAGACTTAAATAAGTAAAGAGGAAGAGGGCTTCCTAGTGTGGTTGTGCAGGTTGTACATAAACAACTCTAAACAGCACCATAAATGTCACA
M
TCCATGTGTATGGCCCCAAGATGGAAAGACACTCCAGGAGGGAAAAAAAGCATGGAAAAAAACAAGGAGATAGAGTTACATAATACATGGAAAGTTTATT
Celera SNP ID:            hCV3270185
SNP Position Genomic:     213800
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19732):
GATGATGTGCAGTAGAGCTGTCATCTGTCTTGTTCTTTCTTTGTGCCCTTTGAAACATGGCGGTGGTGGCTTTGGCGCTGGTGGCAGGGGAAGCCTTAAC
R
GCCCCGGAGCTGAAGCCTCTCTGTTGGTCCTCAGACCAGGTACAGTGCAGGGGCCCCCAGGAACCCCCTCGTTCTGGGGTCCACACTTATGTGATGTATT
Celera SNP ID:            hCV3270258
SNP Position Genomic:     334657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;(A,-|G,-)   JBIC-allele(G,292|A,1193)   total(G,292|A,1193)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19733):
ACACTCCAGGAGGGAAAAAAAGCATGGAAAAAAACAAGGAGATAGAGTTACATAATACATGGAAAGTTTATTTGGCTGATGCTAGTCAAATATCCATCTA
S
TTATTTAGGAAATATTTATCGTCTGGCATCATTGAGATCACACTGAACAGAGTGGAAGATTCATTTAGGAAAGCAGTGACAAAAATGTGTGGGCTGTTGC
Celera SNP ID:            hCV3270186
SNP Position Genomic:     213929
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19734):
ATGTTTTCTACAAGCATATATGTTGTTTATGCAGTGGCTGAAGAGAAGACTGTTCTCCACAGCTGCATACATCAAGTTAAGGGAACGTTTATAATGTAAA
S
CTGGAAAATTCCATTAGGGAACTTTATTGACTTTTGAGGAGGAAGGGAAGGGGATTTTTTCATTTGTTTATTTTTCTTCTTGGATTTATTTTAAGTGTGG
Celera SNP ID:            hCV3270259
SNP Position Genomic:     335723
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,11)   total(G,11|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19735):
AATATTTATTTACCACTTACAATGTTACAGGTACTGCAGGGGTTACCAGTAACTGATTCAAGAAGGAGAGCTGTTCACAGAGCAAGATGTTTCACAGAAG
R
GAAAGCTATTGAACTAGGTCTTATAGGAAGAGTTATCAATTGACAGAATATGAAAATGGGGCATCTTGGGAAGAGGAAATGGTACCTGTATCTGGAAAAT
Celera SNP ID:            hCV3270187
SNP Position Genomic:     220160
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19736):
TTACAGGTACTGCAGGGGTTACCAGTAACTGATTCAAGAAGGAGAGCTGTTCACAGAGCAAGATGTTTCACAGAAGAGAAAGCTATTGAACTAGGTCTTA
Y
AGGAAGAGTTATCAATTGACAGAATATGAAAATGGGGCATCTTGGGAAGAGGAAATGGTACCTGTATCTGGAAAATGTAATGCATTATCAAAGGACCGTG
Celera SNP ID:            hCV3270188
SNP Position Genomic:     220184
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19737):
TTTAGTGTCATGTCTTTTCCACCCACCTCTGCTTTCTCTTTCTAACCGTCTCCCACCCCATGTTATTGGCATTTAGTTCATATTCATTTTAGTATTAAAG
K
GAAGTAATTATTTCTGTATTGTGAAATTGGCATTTGAGATCATTGGAAATATTCTTTAATGCTGTAAGCTAGAGTTTTAAAAAATAGGATTAGTTAAGTC
Celera SNP ID:            hCV3270189
SNP Position Genomic:     220767
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|T,8)      total(G,5|T,8) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19738):
CTTAATAGAGGTACTTGCTCAGATGCTCTCTCTCTGTTGCTTGATTCACTCTTTCCCTTAGTCATGGCCCTGTCCAAACCCAGTGAATCTTATCCTTCTT
R
TCCACAGGGAATTTGCCAAAGAGAGAGAGAGAGTGGAGAACCGAAGGGCTTTCATGAAGCTGCGGCGCCAGCAGCAGATTGAGCGTGAGCTGAATGGCTA
Celera SNP ID:            hCV25592186
SNP Position Genomic:     303802
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,5|G,35)   total(A,6|G,70)
SNP Type:                 INTRON;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:19739):
TGGCAAGATTGTCAAGCAAGGGGGTAGATGCAAAAGACCCAGGCCCAGAATTTGCCCTTGGCATTGGCCCCATTTTCTCCTCCAGCCCAGGTTTCTGATG
Y
GCCTGTCATTTGCTTTTTGTAGATCCTGACGGGTGAGGACTGGAATGAGGTGATGTACAATGGGATCCGCTCCCAGGGTGGGGTCAGCTCAGGCATGTGG
Celera SNP ID:            hCV25592187
SNP Position Genomic:     314591
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:19740):
CAGCCAGAGGGTGAGGAGGGAGGGGGAGTGGAGGAGGCTTTCCAGTGAGTCATCCCTCCTGCATGTTAGGAGTTTTGGTTAAAAGATTTACAGAGAGAGA
K
AGTGAGAGAGAGAGAGTGAGAGAGAGAGAGCGTGAGAGAAAGAAAGAGAGCAAGAAAGCGAGAGAGAGAGCACGAGAGCACACAAGTGAGCGTGAGCGAG
Celera SNP ID:            hCV7538951
SNP Position Genomic:     62895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19741):
CCGCCTCATAAAGCTCCTGCGTCAGGGCTATACCATACGCATTTTGCTGTGGACCTTTGTGCAGTCCTTTAAGGTAAGAGGTACCAGCAAATCCTCTCTG
R
GGGTTGTCATATCAGACAGTACAGCCAGGCAACACTGGCATCATTACCCAAGTCCCTTCACCTCTGGGAAGCTGAAGCTAGTAGAACGGGTGTTTGTTAG
Celera SNP ID:            hCV25592188
SNP Position Genomic:     356414
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,8)   caucasian(A,26|G,10)   total(A,44|G,18)
SNP Type:                 INTRON


Context             (SEQ ID NO:19742):
TATAGATTAATATCTACATATATTTTGTGCATTCATGACATACCTAACTTTGATATTTCTAGGTTACACAGTTCTGTAAGTTTTTTCAAATTGTTGCAAA
Y
GTCCAAATTTTTTTTCCAATATATTTATTGAAAATAATCTGCATATAAGTGGACCCATGCAGTTCAAACATGTGTTGTTCAAGGATCAGTTGTATGTACT
Celera SNP ID:            hCV1097700
SNP Position Genomic:     207734
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19743):
CTGGGTGACTGCTGTTTTGTCCACATTTAGCTGGGTGAGCCCCAGAGCTGAAGGAGTTTATTTTCGGTGTAGGAAGAAAAGCTTTTTGGATTTGCCTGTC
R
GTTCCTTTTATTTTTTTCAAAGACTCCAAAGTTGATATGGCTTTTTCCCCCTGCCTTGCTTCAGAGGCCCAAAGATGTAGACAATGAGTCTCTGCATGAC
Celera SNP ID:            hCV1097702
SNP Position Genomic:     210827
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19744):
GATGTAGACAATGAGTCTCTGCATGACATTTAATTCGCCTACGGTGCTGTTTTGAATGTTACAGATGAACCAACTATGAATTGGCTGTATGTCTGTATTT
R
TATGAATATGTGAGACAAGGGGACTAGATGAACTAGAGAGAAGCATTCTTGGGAAGAATAAGAAGACACCAGCGAAGAGATGGTGGTGGGCATGGCAGAT
Celera SNP ID:            hCV1097703
SNP Position Genomic:     211001
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19745):
ATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAAAGAAAGAAAAAAGAAACCATCTGGTTGAGTCCTTTGTCCTTCAGTAGA
Y
GAAGTGTCCTCATCCATATTTTATAGACAATACAATTGAAATCCAGAGATGTTTCATTATTTGAAGAAGAAGTTGGAATCTGATTCTGCTAGCCTGTGAA
Celera SNP ID:            hCV1097704
SNP Position Genomic:     211476
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19746):
AAATATTTGCTGAGTAAACACCAAATATATACCTACAGCTGCTGAAAATTCATTTATGTTACACTTTAAGTTGTTCTCCAGAGCATCTGGTTAATCTGGC
Y
CTAAAGTACTACAAAAATTATCAGTTTTTAAATTCATAGATACATGATAACAAGTAAAATAAATGGATTTCAGTTTATTAGATGAGGGTTCATTCATATA
Celera SNP ID:            hCV1097705
SNP Position Genomic:     211764
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19747):
CATAGATAAGCAGAATGAGATATAGTGAATAAATTTAATAACTGCCAACTAGTTAGCATTTATGGAGCTCCTTAATGGCTTAAAGCATGACTGTATCACA
Y
GAGTTTTTTTTACTACAACCCTATGAAATTAGTGTTATCAGCCATCTTTCAATTTCAATGAGGAAACCAAGATGCCGAGAGACTGAGTGACCTATTGTGC
Celera SNP ID:            hCV1097706
SNP Position Genomic:     214581
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19748):
GTTTATTTCCTGAGCCACTGAACACAGGGTATACTAATGGCCACCTCTGTGTCCTACAAATAAATAGGGACATCTGGGCAGGTTAATATGATGTGTTTCC
Y
CTGCACAGTCTCGTGGAGCTGTACAGAGGTGTACATATGATAAATATAAGTAAAAAATTGACAGCTGAGACCCAGACTTTGAGTAAAAGTTTCTTAAACA
Celera SNP ID:            hCV15982702
SNP Position Genomic:     356979
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,13)      total(C,1|T,13) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19749):
GGTGCTGTCAGCATTATCAGAGCGTTTCCTAGCAATGCCCATCAGCAAAGAGGCTGTGTTTTCTGAACCTTCTCCAAAGAGGCTGCCCTCTCCCCTCTTC
R
ATATGCACCCCCATCCCTGAGAGAAGTGATTTCCTCTTGTTATTTGGAAATCAGGGAGAGAGTTTCCCAATCTTTGTCTGGGGCTCTACAGGGACCACAG
Celera SNP ID:            hCV16112951
SNP Position Genomic:     229832
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19750):
AAGTGCAGTAAAGTACAGTAAAATGAGGTATGCCTGTAGAACTAATCTCGTGTCTTAGATGTGTGAAAAAAAGAAAAGAACACTAAAGCCAGGTTAGAGA
N
TTCTGCTTTCTGCTGTGCCTTTCATGGACTTTTGAACCTTGGGAAGTTACTCAGCCTCTCTCAGGGCCTTTCACCATTTACAAGGTGAGGCCATGGACTC
Celera SNP ID:            hCV1097709
SNP Position Genomic:     219281
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(C,-|T,-)   no_pop(A,-|C,-|G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19751):
CTTTCCCTTATAATGATGATGCTGCCTCCAGTTTTTAGAACTTTCTGGAAACTTCTGAGAAGTGACTGTCTAAAGGGGGATGATGGGAGAAGGGGAGTTG
Y
CCATGGGTTCCCATCGTGCTTGCTGGAGCAATGGGTGTTGGCAGATTTCTTCAGAAGGAGTTTGTCAGCAGTGGGGTGGGGCTGGGAAGAAAGCCACAGT
Celera SNP ID:            hCV1792310
SNP Position Genomic:     142498
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19752):
ACAGTCATCTTTGGGCAGTTTGTACTGAGAGGGAGGGGAGGCCGAGTGTAAAGGATCGGTGCCTTAATTTTAGCAAGGCTCTGAGCCCCTTGGAAGGCAA
R
CTTTATTTCTACATAGATTGAAAGTATTATTATTATTACATCCTTACGCTGTATCAGCGCCAAACACTGGAGTCCTCAATACTGTATTTATTTCTCTGGG
Celera SNP ID:            hCV1792311
SNP Position Genomic:     143771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19753):
CTTGGGATTAAAGATGTGAGCCACTGCGCCCAGCCTGAATTTAGTTGTTATTCAGTAATCCATATAATTTGGGAATGATTGTTCAAATGGCACAGACTCT
S
ACAGGGGTTCAATCTACCATTGTGTCAGTGTAGCAGATGAGATTTTTGTCAAGGGGCTTGCTGAAATCCAGGGTACCATATCTTTAGCATTTTCCTAGTC
Celera SNP ID:            hCV1792312
SNP Position Genomic:     147232
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19754):
CATTTGCTGAGTCCCAGCCTGTGCCAGGCACTGAGCTAAGCTTGTCCCATGCACTGTTTGATCATCCTGCTTTCTCGTTGCTCACACACTGTGTACTGAC
S
TACGGCTGAATTCTCCTGGGATTGACAATGAGCTTACTGGTTATCACTGTAGAGTCTTCTGTTTGGAATCAAGACATTTGCTCAGGTTTTAAGGCCTCTG
Celera SNP ID:            hCV1792313
SNP Position Genomic:     147557
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19755):
GGGAAAACCAAGGTATGAAGGAATAGGTTAGGACTTAATGGTGCATAAACTCAGAGCCAGCAGTCATTCTTCCATCCCTGGTCTTGGCATTTGGAAGATG
W
GATCCACTATGTTGTAAGCTCTAAGGGGCAGGAAATACAAGATGATGTATTTATGTAAATATAATGTACTATGTTGTAATCATATGTGCATGCAGGAATG
Celera SNP ID:            hCV1792314
SNP Position Genomic:     148556
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,5)   total(A,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19756):
TTGCATCATGGCAGCAACACCCCTGGTCCCTCTGGGGTGGATGGGGTGCAGCACACCTTGGTGAGGGGTTTACACTAAATACTGCTGACCCCAGGACAGC
R
ATTTCTCATACATTTTTATTCCAAAGTATTCCTGAAAGGTACTTTTGCTTCCTCATGTTTCCACAACAACCCCCTCTAGAGCAAGGATATAAATAAGAAA
Celera SNP ID:            hCV1792315
SNP Position Genomic:     149167
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19757):
CATTTATAAGAACACTCAGGTCTCCTTCCTTAAGCCCACCGTCCCTGCAGGGAGGTGGGCAGAGTTTTGGCAAAGGTTGGGTTCAGGGCTTCGTTATTCC
R
CTGCCCTGACAACACCCGCTTTCTGGGCCACATGGAGACAGAGTGTTTGCTGACTATAAATGTCCAGAGCTGTGCCTTCTGTACTTTGAGGTCTCAAGAA
Celera SNP ID:            hCV3270260
SNP Position Genomic:     336010
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;(A,-|G,-)   JBIC-allele(A,537|G,963)   total(G,963|A,537)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19758):
TGGGATCAACATTCCCACCACCTTCCTCCCTGTCACCTGGGTGCTGGCTTCTGGAAGGCTCAGCCCTGCAGGTCCATAGCAGGACTTTCCTGGCTGTGCC
R
TACAAAGTACCTGACGATGAGATTGCTTGGAAGGGCATGGGGAGGAGCCAGTGACAGATGTGGTGGGATCCATAGAAAGGGCTGCTGTGGAGCCTCTGCG
Celera SNP ID:            hCV1792316
SNP Position Genomic:     150071
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19759):
GGCTTCGTTATTCCGCTGCCCTGACAACACCCGCTTTCTGGGCCACATGGAGACAGAGTGTTTGCTGACTATAAATGTCCAGAGCTGTGCCTTCTGTACT
Y
TGAGGTCTCAAGAAAAGTCTGGTGAGTGGCTGGATCTATGAAACCTTCCTCTTTTATCTTTTTCTTTCCAATGAAGAGGGATTCTTTTGTGTGATTTCAT
Celera SNP ID:            hCV3270261
SNP Position Genomic:     336096
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;JBIC-allele(T,202|C,1095)   total(C,1095|T,202)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19760):
ACAGCCTTGGCATTTCTGGGGATCTGCACATGAGGCACATTCCCCTGCTTTGGGGGACCCTGCTCCCCAACCAAAGTCAGCTGCCTTGTAGGGAGGTCAC
R
TAACCACTACACAGATTACATTCATGAACCTCACAGAACCCTCATGTTTCATGTGTTTCATGTCTAGTGAAGTGACTTGGGCAAACAGGTGGGCAGGGAC
Celera SNP ID:            hCV3270262
SNP Position Genomic:     336391
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;(A,-|G,-)   JBIC-allele(A,237|G,1240)   total(G,1240|A,237)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19761):
GCCTCTTTCTAGTTAATCTTTTCTCTTCATCCTCAGCCTCTAGTAACTGCTGATTTTTTGTTCTTATAGTTTTGCCTTTTCTAGAATGTCATAAATGGGA
W
GAGGAGTCTACAGCCTTTTTGGCTTCTTGCACTTTGCATAATGCTTTTGAGATTCATCCATGTTGCTGCATATATCTGTAGTTCATTTCTCTTTATTTCT
Celera SNP ID:            hCV1792318
SNP Position Genomic:     154391
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19762):
AATTGGCATTTGAGATCATTGGAAATATTCTTTAATGCTGTAAGCTAGAGTTTTAAAAAATAGGATTAGTTAAGTCATATTTTTTAAAAGCGAAAAAAAT
Y
ACCCAGAAGCTATTGAAGATGATGAGATAATGAGATGAAGAAGTTGAGATGGACTGTGTGTCTCTTGAGTCAATGTCGATAACCTTTGGAACCTGTCCTA
Celera SNP ID:            hCV3270190
SNP Position Genomic:     220892
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19763):
GATTCTAAGTAGTCATCTCACAGCTTATAATTGATCGTCAGCACAGATGGTTTAATAGAAAAATAACTAGCAATTCTGCTCCCATCTCCTCCCCCACCTC
R
GAATTTACCATGGCCCGTGCATCAGTCAGTTACACAGGCTCTCTGGCGGCTGACGCCAAAGCTTCCCATTGCCATTTGCTGTTGTAGCAGGGCATGGGGT
Celera SNP ID:            hCV3270263
SNP Position Genomic:     336762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19764):
TCATTTTGATGCTCGACAGACAGCTGATATTTTATAAAACTTTATGATTGCCTCTTCATCAAGCACTGTAATTGTAGGTTTGTCTTCTTTGCAAGTATGG
R
GAACTGGGTATTTTCTTTTAAATACTTGTCATCCTAGGAGGCGGATTGCCTATGCCTGTCATGCAAATCAACTTTTCAGGCATCATAGGCAGAACTAGGA
Celera SNP ID:            hCV1792319
SNP Position Genomic:     156050
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19765):
TTAATGCTGTAAGCTAGAGTTTTAAAAAATAGGATTAGTTAAGTCATATTTTTTAAAAGCGAAAAAAATTACCCAGAAGCTATTGAAGATGATGAGATAA
Y
GAGATGAAGAAGTTGAGATGGACTGTGTGTCTCTTGAGTCAATGTCGATAACCTTTGGAACCTGTCCTAAGTGAGAACCTCGATTGCCCTACTGCAAATG
Celera SNP ID:            hCV3270191
SNP Position Genomic:     220923
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,11)   total(C,3|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19766):
ATAGGAGGATTTTGTTTCCTGACACTCCAGTTTAAAAGTCACCTCAAGAATGACTACATCTGATTTTTGTGCCCAGACAAGGACACTAAGGATGATCAAT
R
CCCATGGACTTTTGAGGTGCCTACTACTATATCATAGCTGCCTTGAAAATGGAGTTTGGGAGGGAGTAAGGAGGGACAGAGTGGCAGCCACATGGAGGGA
Celera SNP ID:            hCV3270265
SNP Position Genomic:     337892
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,6|G,9)      total(G,9|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19767):
TTACTAGGATTCTGGGGGGAAATTAATTCAAGAGAGCAAATTATATCCTTTATCCAGGTGTGTGGGAGGAGCAGGAAATATTGGGCCCTCCCGCAGAAGA
Y
GCATGTCTATGAGCATGACCTCTGAGAACCTTTTCAGATGCTACAGGATAGAAAGGTCTCCGAGATAAGGACTTGAGCTAAGCAGAAGGCAGAAGCTTGG
Celera SNP ID:            hCV3270266
SNP Position Genomic:     341319
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19768):
TCCTAAAAAATACCATAGTCTTTTTGAGTTTGGAGAATATTATTACTGTTGTCAATTACTTTTTATTAGCACCCTGTATGATATAGGTACTATCTTAGGT
K
GGTTTCCCTGGAAGTCAGCTCTGCAAAAGAGAATTGCAAGCAGAACGTCTTTCGAAGTGTGCTTTGGGAAGATACACCTGAGGATGCAAAAAAGCCAAAG
Celera SNP ID:            hCV3270194
SNP Position Genomic:     225876
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,13)   total(G,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19769):
TGAAAGATTATCCCTTAGTTCTTCCTTAAGACAAATGTAGCCTGGGGAAAGGGAAACCTTTGTGGTTATTTTGGTAAATTTTTTAATTGATTTCATTTTT
M
CTATGGCAGCTTGCAGTTATACTTTTATTAATGTGCTTGTTTACTTGAGGTCTATCTTCCCTACTAGACTAGGTAAGTTTCAAAAGGTTGGCAACCTCAT
Celera SNP ID:            hCV3270267
SNP Position Genomic:     341586
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,11)   total(A,3|C,11) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19770):
AGGTTAAGGGATTTACCCGATGTCACAGAACAAAGAAGAAAGAGGTAAGGCCAGGGTTTTCCTATTAGCCTATGATGTCTCACAGAGATAACCTGTCCAG
K
TAGATACCCAGTTTTGGCTGGAGAAGGCATCACAGACCTTGGGTAATTGATGGCCCACCAGTTTGCACCCCTTTCCATTAATGTGGACCGATCATGCCCT
Celera SNP ID:            hCV3270195
SNP Position Genomic:     226839
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|T,6)      total(G,6|T,6) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19771):
CTTCTAAGAGACATCAGTGAGTCTCTCTCTGAGTGGTTGCGTGTCCCTCTTTAGATGAAACCCTTTATAAGCATAACTGTGCCAGTGTGTGAGAGAATTT
C
TGGCCCAGAGTGGGCATAGTTCCTGCAGCCTGGTTTCTTATAAATTCACTGGAAACAGAGTTTGTCTGAAGACTGCATAGGAAATGAAAGTAAACGCCTG
Celera SNP ID:            hCV3270268
SNP Position Genomic:     342879
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,11)   total(C,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19772):
GGGAAGATCCTCCCTTAAGCTTTCCCCTCTGTTTTTCCAACTCCTGAAACTTACATCCTTCTGCAGGCTTCAGGACTCAGTGTAGGTGTGTCTGATGCCC
R
GTCATCCTAGAGAAGGGGTTGTGGGAGGGGCTGTACCTGTTGCTATGGCAGCAACCAGTTGAGATCATGAACCCATTTGATTCAGAGGCAATTGCAAGGT
Celera SNP ID:            hCV3270196
SNP Position Genomic:     228115
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19773):
TTTTCTACTGCTCTCTGATTGGATCCTCCATAGGAACGCTTTGGGGTAAATATGTTCGATTATCTTTGAAGTAAACGATACAAGGAATGAGTTGGAGGAG
Y
GAGAAAGTATGGTTGGGAGGGGAGGGGCTCACGCACTGAGAAAAGAGTGGTCAGTTTTTATTTATATCCAAGGGATCAAAATTAGGAGTCACCAAGCCTT
Celera SNP ID:            hCV3270269
SNP Position Genomic:     343398
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;no_pop(C,-|T,-)   ;TSC_42_A(C,25|T,58)   TSC_42_C(C,31|T,52)   TSC_42_AA(C,39|T,44)   total(C,95|T,154)   JBIC-allele(C,322|T,1157)   total(C,322|T,1157)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19774):
GCCACCAAAGGCAGCCCACTGTGGCCTTAGCATTCCCACCTCTTTCTCTCTCCTTGGAATGTCTTCCTCTGTTGATTGGCCATCTGAATCCACCTTCCAC
T
TCATGTCTGGGTGAAAGTAGAGTCTCAGGAAGCCTTACATGACATCTCTATCCTTGCTCCTATCTTCATTAAATGGCAGTGTTTGCAGGTCTGATTTCAG
Celera SNP ID:            hCV3270197
SNP Position Genomic:     234366
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19775):
TACTTCCATACCCAATAAGTGGAGTACCTTTTGGCAGTCACTTGGCTTTTGAACCTTGGTTCTTCTGTAAAATGAGGGGTTTGTGCAAGATGCTGTGATT
Y
CTTCCAGCTCTAGAATCTGCAAGATGATAAAGGTTAGAGTACTCATATTAGACTGAGTGGGAAATAGTGATTTGTTAGTAAGAGGGGAGAGGGGAACATC
Celera SNP ID:            hCV3270198
SNP Position Genomic:     235101
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19776):
CCTCCCCTCTTGTTTTCAGAGCCCTTTCTGGTGCTTGCCACTCTTTAAAGAATACAAATCTCTCATCAGCAAGCCCTGTAGAAGGGGCAAAGGGGTGATG
Y
ACTTTAGCTCATCACCACTGGGCACGTTCTCTTTAATCCTCTCTTAAATTCACCTGCTTTGGCTGATCTGCATACAGTGGGAGTGGTGTCAGATCAACAC
Celera SNP ID:            hCV3270199
SNP Position Genomic:     235508
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19777):
GACAGACCCATGGGTGCCCTACAGGTGAGAGCAGTAAGAGGAAGAGAAGGAAACGGTGAGAAACTGGGAGATGTGGTGGCTGGGATGCCAAGAACGATGA
S
CTCTGAGGAGAGGGGGAGGTCAGTGGTGTCAAATGCTGCAGAGTGGTCAAGTAGGAGGGTAAAAAAAGGGACCATCAGGGGTTCAGTGGTAGTCTTAGAG
Celera SNP ID:            hCV7538961
SNP Position Genomic:     68922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19778):
GGAGTCATGTCTACGATTTGCCTTGATTAACAGGTTTCCTATTCTTTTCCCGTTTGTCCATTTTGTTTTGTTTTTCTTCTCCTGTTTTCTGTATTTTGTT
Y
GTTTTTGCTCTCTGGGAATGCCTATTCTCCTCTCCTATCTTTCTGCATCCTTCTCCCCACTTCCTTCTCCTTTCCCTGCCACCCCACTGCCCCGCTAACC
Celera SNP ID:            hCV25592198
SNP Position Genomic:     374147
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19779):
TTCTCTTTCATGAAGAGAAAGCACTTCAGAAACTTATGGGGCTCTGTAGTCATCACCAAGAACATTTGCTTTCATTGTACTGTTAAGTAGGAGTGCTCAT
Y
AGCAGAGATTCTGGTCAACCAAATGCTGGGTTAGTGTAGAGTATGCTACTTGATCTAAATTCAGGAAAACATGCCCAGGGCGTAGGACTTCCATACTACA
Celera SNP ID:            hCV1097710
SNP Position Genomic:     219699
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19780):
TGCCCAATTTTGTGTGCAGAGGCTTAGAACCCACATTACCAAATGCTATAAAACCAGTGGTTGTTTGCGTGACCTTGGAAAAGTATCTGACCTTTCTGTA
Y
TGTCTTCTCATGTGCTAAGCAAGAGTGTGAGAATATTCCAACTCAGTATATTATGGTGAGGCTGATGCTGTGTTCTTCATTACGTACATGGGAGATTTTG
Celera SNP ID:            hCV25592199
SNP Position Genomic:     243935
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(T,38)   total(C,4|T,72)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19781):
AAGGAAGACCAGGATCAGAGGCAGGTTTGGGATTAACTAACTGGAAGGACTTTGGTGTTGAGGAGTTTCAGTCTCAGGACAAGCAGTGAAGCAGCTGATG
M
TCTTTGCTTAGCCTTCTACATGGAGTGAGTTGTGGGGAAAAGTTGTTTGCAACATGTATTTCTCTAATGGCCAGGGAGGGGTTATTTCACTATTATTTCT
Celera SNP ID:            hCV1097711
SNP Position Genomic:     222120
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19782):
GAGTTTCAGTCTCAGGACAAGCAGTGAAGCAGCTGATGATCTTTGCTTAGCCTTCTACATGGAGTGAGTTGTGGGGAAAAGTTGTTTGCAACATGTATTT
Y
TCTAATGGCCAGGGAGGGGTTATTTCACTATTATTTCTCTCCAACTTTTCTATCAAATACACTTGTGGAGTTTCTGTAGTGTGAATTGTCTTACTTCAAT
Celera SNP ID:            hCV1097712
SNP Position Genomic:     222182
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19783):
GCTTAGCCTTCTACATGGAGTGAGTTGTGGGGAAAAGTTGTTTGCAACATGTATTTCTCTAATGGCCAGGGAGGGGTTATTTCACTATTATTTCTCTCCA
R
CTTTTCTATCAAATACACTTGTGGAGTTTCTGTAGTGTGAATTGTCTTACTTCAATCTGTAAGTTCAATCTATATTCATGAAGTAGGAGGGCACCCCTAA
Celera SNP ID:            hCV1097713
SNP Position Genomic:     222226
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19784):
AACATTAAAAATGATTATATATAAATTACAAATTTTTTATGGTAAAGGACACCATAAGTAATGTCAACAAATGATTAATACACTGAGAAAAATGACACGT
R
AAAAAAATTCTAATATAAGTATATATAAAGAGCCTCTATAAATTTATAAGAAAAAGACAACATATAGAAATATGGACAAAGGAAGAGAGTAAGCGATTCA
Celera SNP ID:            hCV1097714
SNP Position Genomic:     222494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19785):
TATGCTTTCCGCATCTGTTGTGACTACTTAAGATGCTCCAAGCTGCTATGGTGGAAGGGGTTTTATGGACTTCATTGGCTTTTGGCAAGAAGAGGCAACT
K
AAAGTCTGGATGCTTTCTGAGAGTCTTCCCAACTCCTCAGAAATCTTTTGGTCTATAAACAATGACTGTGGCTGTCTTTTAAGTTGCCTTTTCACAGCTG
Celera SNP ID:            hCV8859120
SNP Position Genomic:     177293
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19786):
GTAAAGGACACCATAAGTAATGTCAACAAATGATTAATACACTGAGAAAAATGACACGTAAAAAAAATTCTAATATAAGTATATATAAAGAGCCTCTATA
M
ATTTATAAGAAAAAGACAACATATAGAAATATGGACAAAGGAAGAGAGTAAGCGATTCAAAGGAAAGGCAAACCATATGGCCAATAAACACCTGAAATGA
Celera SNP ID:            hCV1097715
SNP Position Genomic:     222535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19787):
GAAAAGTAGGGGAAAGGTAATTTATTTCAGTGTTTACAGAGGGTTTGCGTGTAATTAGCAGTTTATTTCTGTGACACAGCTGGCCTCCTCAGCTTGGAAC
Y
TGACTTTGAAATGCTCTTAAAGAGACCCATACCTAGGCAATCTGAGGGGTGCTGGGGACTTGGGAAGAGAGTGAAGAAAAATGTCATGCCCTGTCTTTGG
Celera SNP ID:            hCV8859121
SNP Position Genomic:     185473
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19788):
AGGAAGAGAGTAAGCGATTCAAAGGAAAGGCAAACCATATGGCCAATAAACACCTGAAATGATGCTAAAACTCAGAAAAATGCAAATTAAAGCAATAAAT
Y
GGACCAATTCTTTATCCATCAGATTGGCTAACATGAGTAGGAAGATTAGTGGAATGTTGCCTACCTGTGGTTCTGTGCATCTGTGTGGGTCTACTTTAAT
Celera SNP ID:            hCV1097716
SNP Position Genomic:     222674
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19789):
ATGCAAATTAAAGCAATAAATCGGACCAATTCTTTATCCATCAGATTGGCTAACATGAGTAGGAAGATTAGTGGAATGTTGCCTACCTGTGGTTCTGTGC
R
TCTGTGTGGGTCTACTTTAATGAGTTTAGATCTAGGTGCTTGTCCTGGAGGCACATTCACAGTGTGTTTTTTAAATAAGAAAAGCAAGTTACAGAGTAAT
Celera SNP ID:            hCV1097717
SNP Position Genomic:     222753
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19790):
TCTCTGAATATATCTTAAGTTGCCTGATACCAGAGGTGTCCTCTCACAGTGTGCTCCCCCAGCATCGTGCTCTGAGCATAGGTGGTGTTCAGCAAGAAGA
R
AGGTGCCTGGAGTGTGTTTAGGATTCCAGAGGAGTGCCTGGGCCGTATTCCCAGAAGGAGAGGGCGTTGTTGCAGTATGGCTGGGTGGTGAGATAGGCCT
Celera SNP ID:            hCV1097719
SNP Position Genomic:     224384
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19791):
GCCTGTCTCCCTGGGTAGCACATCCCCAAAGAATCCTCTGAGCATTGATCTTTGATTGTGCCCCTTCCGTGCTACCCAGCAGGACCTTCTCCCCTAAAGA
R
GGGTCACTTTGTATTGAGGATCTCCTTCTTATATTGCATTTGCTTAGAGGGTGCATGGCCTCAGACCACATTTTGGGGCTGATGGGAAGAAGTTGGGGCA
Celera SNP ID:            hCV15982573
SNP Position Genomic:     149472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19792):
CCATCAGTGCTCTTGGTACACTGTCAATGAGCTGTAATATTTTGAAAGGAATCTTTTTTTTTTTTTCTGAGCAGGTCTCAACAGTGGGCTTAAAATATTC
R
GGAAACCATGCTGTAAAGAGATGTGCTGTCACATAGGCTTTGCTGTTCCATTTATAGAGCACAGGCAGAGTAGATTTAGCATAATTTTTAAGGGCCCTAG
Celera SNP ID:            hCV1792321
SNP Position Genomic:     157789
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19793):
TAATATTTTGAAAGGAATCTTTTTTTTTTTTTCTGAGCAGGTCTCAACAGTGGGCTTAAAATATTCAGGAAACCATGCTGTAAAGAGATGTGCTGTCACA
Y
AGGCTTTGCTGTTCCATTTATAGAGCACAGGCAGAGTAGATTTAGCATAATTTTTAAGGGCCCTAGGATTTTTGGAATGGTCAGTGAGCATTGGTGTCAC
Celera SNP ID:            hCV1792322
SNP Position Genomic:     157823
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19794):
GAATAGGCAAGTGGGTTATTGTGAGTGACAGAAACCTAACTTGGACTAGTTTGAGCAAGGAGGTACTTTTCAGGGAAATGATGTTTCACAAAACTGCCAC
R
CTGCAGGCAGAATTAGAAAATAGGCCTTGGGAATTGCAGAAATAGGGCTCCAGGTCCACCAGAATTATTTCCTCTTTTCATTCCCTCTTGGCCCTGTAAG
Celera SNP ID:            hCV1792323
SNP Position Genomic:     158153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19795):
TAACTTGGACTAGTTTGAGCAAGGAGGTACTTTTCAGGGAAATGATGTTTCACAAAACTGCCACACTGCAGGCAGAATTAGAAAATAGGCCTTGGGAATT
R
CAGAAATAGGGCTCCAGGTCCACCAGAATTATTTCCTCTTTTCATTCCCTCTTGGCCCTGTAAGATTGGCTTTATTTTTCTCTCTCACTGTAGCCAGTTT
Celera SNP ID:            hCV1792324
SNP Position Genomic:     158189
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19796):
TTATTTCTGTATTCTTCGTCTGGCATCCTTTGGGGAACCTCTTCTTGAGGTTAAGGTGAGATGAAGGCTTCCTTTGGAGACACGTTCAGGCCAAGCTTCA
Y
GCTCTGAGGAGTTGTTTCAGGAAGAAAGAGAGAGGAGCTATGTGTATGTTCTCCCAGTGTGAATAGGGACTAATGTGAAACATATGCCATTGCCTTTAAT
Celera SNP ID:            hCV1792325
SNP Position Genomic:     159517
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19797):
TCTTATCTGTTATATATTGTCTGTGGTCTTAGAAGAAAGTCTGTGCTCCAGTTTGGCCATAAATTAACTCAGAGCCATATGTATTGAGCAATATACCCCA
Y
CAAGCTGTAAAACAAATGAACAAATGGAAAACAACAAAAGAAACTCCAAACCAACCAACCAATCAGAAACAGGTCACTGCCCCATGACAGTTTTGAAGTG
Celera SNP ID:            hCV1792326
SNP Position Genomic:     160295
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19798):
AAACAGGTCACTGCCCCATGACAGTTTTGAAGTGTGTGTGAAAGAGGAGAAAGAGCTTTAAGACTGTCCATTCTGGAGGGCAGCAAGATGTTGTTGCTTC
R
GGTAGCATAAGAGGGAACAGATTCTCTTCTACAATGCCATGTTTGTGGTTCTTGGAAAAGCACAGCAAAACCTTTCAAGGCAAACTGTTTCATCATTCTG
Celera SNP ID:            hCV1792327
SNP Position Genomic:     160462
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19799):
ATTTTCTTACAGTTCTGGAAGTCAGAAGTCTAAAATCACTTTCACTAGGCTAAAATCCAGGGTTGTGCTTCCCATCTCTCCTCCCCAGAGGCTTTAGTTC
R
TTTCTTTGCCTCTCCCAGCTTCTAGAGCTACATTCTTGTGTTCTTTGGCCCTTGGGCCCTTCCTCTATCTTCAGAGTCAGATGCAGAATAACTTGCTTCT
Celera SNP ID:            hCV1792328
SNP Position Genomic:     163466
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19800):
TTTTCTTACAGTTCTGGAAGTCAGAAGTCTAAAATCACTTTCACTAGGCTAAAATCCAGGGTTGTGCTTCCCATCTCTCCTCCCCAGAGGCTTTAGTTCG
K
TTCTTTGCCTCTCCCAGCTTCTAGAGCTACATTCTTGTGTTCTTTGGCCCTTGGGCCCTTCCTCTATCTTCAGAGTCAGATGCAGAATAACTTGCTTCTG
Celera SNP ID:            hCV1792329
SNP Position Genomic:     163467
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19801):
CCCTCTCCCCCTTTGCATTTCTTCGGGTGAAGGGGGGTACCTAGCATGGAATGTATCCCCCACCCCTTCCTGGTGCCAATTTGCCCCTTTGCTGAAGCAC
M
CTCTTCGGTGCATCTAAGGGGCAAGCTTGGTGCCGTGGAGACCCGTTTGGGCACTAGTGTTTTTCAAGGTAAGACTTTTGGTTTTTTATTTTTCCTATGT
Celera SNP ID:            hCV25763075
SNP Position Genomic:     76980
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,40)   total(A,77|C,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19802):
TATCATCTGATTTCTACTGCGTTGGGTCTACATTCAGTTTCAGAACATGTGTTCCCATCCCAGGTGGTAGGTCCTTGCAGTCATAACCAGCTTAGAAGCC
R
GCCCTTAATCTCATGAGCACCACCTCACCTCTTAGCAGGAAATTCTCTCCTGGGACAACTTCTTGGTGGGGCTGGGTAGTGGTGGTATGGCCCAGCTCGG
Celera SNP ID:            hCV3270277
SNP Position Genomic:     347928
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,10)      total(G,5|A,10) ;no_pop(A,-|G,-)   ;(A,-|G,-)   TSC_42_A(G,16|A,67)   TSC_42_C(G,34|A,49)   TSC_42_AA(G,10|A,73)   total(G,60|A,189)   JBIC-allele(G,528|A,959)   total(G,528|A,959)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19803):
TCTTGGGCCAGCAATGTAAGAAAGGAGGACTGCATTTTCTTAACTTGATTAAGAATTATAGAGAGAAGATGGGAAAAGTAACTATTCAGCCATTAAATAA
R
CATTTTCCAAGCACTGTTTAAGGCCCACGTATGAGGCACGGAGATCTGGAAGATATGTAAGATGTTTAACATGCAGTCTTTACCTTTGTGTGCACATAGT
Celera SNP ID:            hCV3270278
SNP Position Genomic:     350132
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,9|G,10)      total(G,10|A,9) ;no_pop(A,-|G,-)   ;(A,-|G,-)   TSC_42_A(G,15|A,68)   TSC_42_C(G,22|A,61)   TSC_42_AA(G,8|A,75)   total(G,45|A,204)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19804):
GCAGCTTCAGACAAGGGTGGAAAAATCAGGAGACAGAGATCCATCATCACGGGGTCTAAAGGAGCCTTGGAGTATTCAGAGAGGCTCATCCTATTTAATA
Y
TAAATGACTAACTCCAGTAACTAACTCTAGAAAATGTTTCTTCCCTGCCCACCCTCATCTCTAGGAAGACTGGCTGTTTTGCTATTAAGTCTGGTGGGGC
Celera SNP ID:            hCV3270279
SNP Position Genomic:     351312
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(C,-|T,-)   ;(C,-|T,-)   JBIC-allele(T,239|C,1258)   total(C,1258|T,239)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19805):
TTGCCTGATACCAGAGGTGTCCTCTCACAGTGTGCTCCCCCAGCATCGTGCTCTGAGCATAGGTGGTGTTCAGCAAGAAGAAAGGTGCCTGGAGTGTGTT
Y
AGGATTCCAGAGGAGTGCCTGGGCCGTATTCCCAGAAGGAGAGGGCGTTGTTGCAGTATGGCTGGGTGGTGAGATAGGCCTCCTGCCTGCCCCCTCAGTG
Celera SNP ID:            hCV1097720
SNP Position Genomic:     224403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19806):
TCTCCACAGAGATATTCCTGAGGGATAGCAAGAGTGGGGAGCTAACCTGTTTCTTTGCACTGAATGAGCAATGCTTGTGCCTTTCCTCTTTTCTTGTATC
Y
GTACATTTCCAGAGGAGCCAGTTTATAGAGGGTATAGAGTAACCCAAGAATACAGGTTTGGGAGTAAGGGAGCTGGCTTTTATTCCAAGTGCTGCCACTG
Celera SNP ID:            hCV1097721
SNP Position Genomic:     225129
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19807):
GGTGTGTGGTGAGAATGGTGGCCATACTCCCTTGGGGTGCTGTCACCAGGACCAGTCTTGAGCCCAGTTCAGCCCTCCTTGTTTAGTAGCATATGTCTCA
R
AACATGATATGCACGGCCACTTCCACCCACTGCTTTCACTTCCGGCCCCTTTTCTTAGGAGTTTTGGTCTCATAATGGCTCTAGAAGCAGAGGAACTGAA
Celera SNP ID:            hCV26752101
SNP Position Genomic:     31041
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19808):
GGCTAAATGGAAATAGAACCTGTACAAGTCAAATGTTTCTGGAGCATCTGCCATCTACAGGGCACTTGGAGGAAACATAAAGACATTCAAGACACAATCC
R
TGTATTCAAAGAATGCACAGTCCAGCCAACAATGTTTTAAAGCTTCCAGTAGTTTCCTAAAAAATACCATAGTCTTTTTGAGTTTGGAGAATATTATTAC
Celera SNP ID:            hCV1097722
SNP Position Genomic:     225721
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19809):
GGAGGTCGAGGCTGCAGTGAGCCATGGTCATGCCATTGCACTCCAGCCTGGGTGAGAGAGCGAGACGACCTTGTTTCAAAAAAAAAAAAAAAAAAAAAAA
R
AAAAAAAAAAAGCGCCCAGCTCTTCCCAAAGTCTGGAAAAGCAGGCTTCCTGGCCCCTAGGGGCTATGTCAAATCTGTGTTCCACAGTGGATGGCAAGGC
Celera SNP ID:            hCV26752102
SNP Position Genomic:     33849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19810):
CATCTTGGCTTTATTCGGGAGGCCAATTATGTGTATGCTAGCCTTGTGGGTGCCCTAGAAACTCCAGCAAAGGCCAGTGACAGTGTTGTGAGCCTTCTGC
Y
CCTCATTATCCACAGAGGCAGGAGCCTATCAGAGCCTCCAACCTTGAATTTTTGTGTGAGTTCTGCTTCTGTTCTCCTACTCCAGGTATGTCCCCTCACC
Celera SNP ID:            hCV1097723
SNP Position Genomic:     227585
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19811):
GAGGTCGAGGCTGCAGTGAGCCATGGTCATGCCATTGCACTCCAGCCTGGGTGAGAGAGCGAGACGACCTTGTTTCAAAAAAAAAAAAAAAAAAAAAAAA
M
AAAAAAAAAAGCGCCCAGCTCTTCCCAAAGTCTGGAAAAGCAGGCTTCCTGGCCCCTAGGGGCTATGTCAAATCTGTGTTCCACAGTGGATGGCAAGGCT
Celera SNP ID:            hCV26752103
SNP Position Genomic:     33850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19812):
AAAAGACACAGTAAATAAGTAATTATTATATGGGGTGATAAGTATTGTAATAACCTGCAAATAATAAGAGATTTAAAAGTATACAACCAACTCCTTGCTC
R
TGGCAAGTAAAATATTTAGATGATAGGAATATAAATAATAATGACCTATTCATTTATTTTTCTTTCTTTGCCAAGAATTGCCTGAAGGGAACTGAGCTTA
Celera SNP ID:            hCV1097724
SNP Position Genomic:     228884
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19813):
AGGTCGAGGCTGCAGTGAGCCATGGTCATGCCATTGCACTCCAGCCTGGGTGAGAGAGCGAGACGACCTTGTTTCAAAAAAAAAAAAAAAAAAAAAAAAA
W
AAAAAAAAAGCGCCCAGCTCTTCCCAAAGTCTGGAAAAGCAGGCTTCCTGGCCCCTAGGGGCTATGTCAAATCTGTGTTCCACAGTGGATGGCAAGGCTT
Celera SNP ID:            hCV26752104
SNP Position Genomic:     33851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19814):
GTCAGGACTGAGGCTTTACAGTCTCTGGTTGACACAGCTGAGGAAGGCAGAACCCTCAGGCTGGGGTGTGAGAGTTTCAAGCTTAGCCTTGACCAGTCTT
K
CCATCTAGAGAACCAGGGTCACTTTCAGGCCCAAATGCCACGGGGCTGGTGCTGTCAGCATTATCAGAGCGTTTCCTAGCAATGCCCATCAGCAAAGAGG
Celera SNP ID:            hCV1097725
SNP Position Genomic:     229684
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19815):
GGTCGAGGCTGCAGTGAGCCATGGTCATGCCATTGCACTCCAGCCTGGGTGAGAGAGCGAGACGACCTTGTTTCAAAAAAAAAAAAAAAAAAAAAAAAAA
M
AAAAAAAAGCGCCCAGCTCTTCCCAAAGTCTGGAAAAGCAGGCTTCCTGGCCCCTAGGGGCTATGTCAAATCTGTGTTCCACAGTGGATGGCAAGGCTTC
Celera SNP ID:            hCV26752105
SNP Position Genomic:     33852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19816):
CCTGCTTCTTGTTCTTGAGGGTGTCAAATATTGTAGAAGTGAACAACATACCAGCCCACAATGATTATGTTGCAGTTAAGTGGTATGGTGGAATTCAGTG
Y
AGGGCATAAGGGAGTGACTGACTCTGGGAAGGTTTTTTAGTGAAGGTAACATTCAGTCAGGGATTGAGTGGAGGCTTTTCAGGTGGAAAAGGTAGGAAAG
Celera SNP ID:            hCV1097726
SNP Position Genomic:     230614
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19817):
TGAGCATCTGGGTTATTCTGGCATGTCCCCAGGTGGGGCTGACCAAAGCATTCACTCAACAGAGTAGGTGTCCTCCAAGGCTAAGGTGGACTGTGCTATT
A
AAAAAAAAAAAAGATTTTTCTTTATATTGTGTGATGTGGGAGAGATGGAGAAGGAGAGGTAAAAGAGAGGGTGTAAGGTACTGGAACTGCTATGGGGGGA
Celera SNP ID:            hCV26752106
SNP Position Genomic:     37170
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,15)   total(A,1|-,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19818):
TAGGAAAGAATGTGGCATAGAATTGCAAGAAGCTGGATGTGGCTGTGTGACTTGGTATACAGGTAGGCAGATGCTGTGAGAGACAGATGAGCTAGAGAGG
S
TAGGTTGGGTCAGTCATGGTAGGGGATTGGCATGGGCAAATTCCCATTTCAAGGTATTAAGCAGGGGAGAGACAGGGCAAGATGTGTTGGTTAGAAATGA
Celera SNP ID:            hCV1097727
SNP Position Genomic:     230857
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19819):
ATTAAGCAGGGGAGAGACAGGGCAAGATGTGTTGGTTAGAAATGACAACTCTTCCCTGCTCTGAAGAATGAAACCAGCTGTGCCTGGGAATCACTTGCCC
S
ACTTTACAAGATCTCCCTGGCAACAGAATGGCTGTTGTACAACTAGCCAGGGAATTTGCTGTGACAGTCTTCCAACCTTATCTGACATCCAGAGCAGGGA
Celera SNP ID:            hCV1097728
SNP Position Genomic:     231013
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;(C,-|G,-)   TSC_42_A(C,15|G,68)   TSC_42_C(C,29|G,54)   TSC_42_AA(C,41|G,42)   total(G,164|C,85)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19820):
GGGAATGGCAGAATTGGAACCTGAGAGTTAGAGTCCATGAGAGAGAGGAGAAGCAAAATGAGAAATATGGAGTCTGAGTGGGAAGGAACCCCACATCTGT
Y
GTCTGATACAGGCACCTACTCAAGGGAGGAATTCGGCATCAGTGTCCCTCACAGATGGTTGCCTGACACAGTGATTTCTATAAATAACAATTATATGGCA
Celera SNP ID:            hCV1097729
SNP Position Genomic:     232851
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;TSC_42_A(C,3|T,80)   TSC_42_C(C,5|T,78)   TSC_42_AA(C,5|T,78)   total(C,13|T,236)   (T,-|C,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19821):
TGAGTTAGAGATTAAAGACAAAGGGCCCAGGGGCAAAGGAAATAATTTTGTTTCCTAATCATACAGTGACATTACAAGTTAGCATTTCTGTAGTTTCCCT
K
GCTGAGAACTGCCTAGAATTTAGTGATAATTTCCTGACTCACAAATTGTGAAACCTAGGCCTAAGCCTTTCTCCTCTTCTTAAATATTTATTGAGCACCT
Celera SNP ID:            hCV26752109
SNP Position Genomic:     46138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(G,2|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19822):
AGTGTAACTGATAGATTTAGCAAATGAAAATATAAGACATCCAGTTAAATTTGAATTTTAGGTTTCAGATAAACAATGAATATTCCATGCATTGTACAAA
Y
ATTGCACTAAAAATTATTTATCTGAAATTCAAACTTAACTGGGTGTCCTGCATTTTGGCTGGCAACCCTGAACCTATGACCACTGTTTCAGGGTATTTTC
Celera SNP ID:            hCV1792330
SNP Position Genomic:     164878
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19823):
TATTTTCAGGCATAGACTTGTACAGTGAATGTGCCTGTGAAAAGATATTATAGACCTGGATTGACAAGGAGGCTAGGAAAGAACCCCAAGTTCAAAGGGA
R
TGCAAGGTTGGAGAATTCTTTGGGCGACTAACTTGGGGAGAGATGATTTGGTTCTCATTGCCCAGAGCATTGCCTCTGTCTTCTGTTCTGCTGTGCCACT
Celera SNP ID:            hCV1792331
SNP Position Genomic:     165072
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19824):
AATTCTTTGGGCGACTAACTTGGGGAGAGATGATTTGGTTCTCATTGCCCAGAGCATTGCCTCTGTCTTCTGTTCTGCTGTGCCACTGTGCTATGGCCAC
R
ATGAGAAAGACTTGTGCTGCATCATCAGGATTGTATCAATCTCCATTCTCTTCCTATTTGCTGACACCTAAAAGTAAAAACATTCAAGGTAGGGTTGAGC
Celera SNP ID:            hCV1792332
SNP Position Genomic:     165186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19825):
AGGATGTGGTTAGGGCAGTGATGGAGGTGGACACGTTATGGGAGCACAGAATAGGGCTATTTTCCTTTATTGTCTTTTTCCTCTAAGAATTCCATTGTTG
R
CCAGGTATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGTTCGAGACCAGCCTGGACAGCATGGTG
Celera SNP ID:            hCV1792333
SNP Position Genomic:     167601
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19826):
AGATCGTGCCATTGCACTCCAGCCTGGATGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAGAATCCCATTGTCCCTGCTTACTTTCTAACAGGTGAA
Y
GGGGAGCCGGCTGTCATTCCTGCCTCAAGGAGTATTGGAACTGTGGGAGTTAGGAAGCTGCCAGTGGCCAATGTGCATCAATTAAAGACCCAGTTGGTAG
Celera SNP ID:            hCV1792334
SNP Position Genomic:     167930
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19827):
CATTCCTGCCTCAAGGAGTATTGGAACTGTGGGAGTTAGGAAGCTGCCAGTGGCCAATGTGCATCAATTAAAGACCCAGTTGGTAGCCCTCCTGCACTGG
R
GGACAGAAAAGAACACTTGGAGGCCCAGGACAGCACAAGGCCACAGGCTGCATGGCCCTGGCTGCAGTGTGGTTGGGAGAATTTGGGGAGCAGGTAGTTT
Celera SNP ID:            hCV1792335
SNP Position Genomic:     168045
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19828):
TTCTCTTTATCTCGCTCTTTCTCTTTTTCTATTTCTGTCATATTTTTCAGTTCTATTTTCTATGTTGCTTCTCGTTCTTTTTTCTCTTTAGTCCTTCCCT
R
CTTATTAGAAATTATATGACCCCCTCCTTAATGTCTTTCCTTGGCCTTGGAAGATAGAGTCAAAAGGAGTGTGGAAGACTCCACTGCCCCAAGTCCCCCC
Celera SNP ID:            hCV1792337
SNP Position Genomic:     168843
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19829):
TTCTTTATGAGTAGGATTTCTTTCTGCTTCTTATTTTTAGGTAGTATGAACGTAGACTCAGAGAATCTTAAAGTTGACAGGAATCTCTATTGGTTGTTTA
R
ATAACCTTTACCCCATGTAGGATCCCTCTTTACTTCCTAATGATGCTCTACAGGTAGCTCCCGGATACTTGGAGTTTTGGGAAGGGTGCCAGCACATGAA
Celera SNP ID:            hCV1792338
SNP Position Genomic:     169118
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19830):
ATAACCTTTACCCCATGTAGGATCCCTCTTTACTTCCTAATGATGCTCTACAGGTAGCTCCCGGATACTTGGAGTTTTGGGAAGGGTGCCAGCACATGAA
K
CCGTCCGCTTGGCTGTTGGCAGCACTAATTGTGTCAGTTACCGCTTGCGATTCTGTTGTCCTGGTCTGTATGATTTGTACCTAATGATTGTATATCTGCT
Celera SNP ID:            hCV1792339
SNP Position Genomic:     169219
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19831):
AGATGTTCTCAGTCCTGGTCTCACCTATTCAATAAACTTAAAGTTTCTGCTATGAGTTAAGTGCTCTGTTAATTTTGGTGGGGAAAGCACAAACAGACCT
R
TTGTTAAGGCACACTCTCAAACTTTGTCTGGAAGACCTTTTGGAATACTTCACCTATATCTCATAGTTTTATTATTTCTGGTTTCTCAATACTTACTCAT
Celera SNP ID:            hCV27498280
SNP Position Genomic:     278575
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,42|A,1451)   total(G,42|A,1451) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19832):
ATGAACCATGACATTTTGCCTTCCTGAGAGGAATCTTTGATGTTTAAATTATCTGGGGATGTTTAACAAAGGAATGTGGGAAATGCAAAACTTTTTACAA
R
GGGGAAAGATGCCCACACAGGGTGAAGTGTACAAAGCTTCAACCTGGTAATAAACTCTCAATTTCTTCCTTGAACACAGCTGCACCTCTCCTCAGACACC
Celera SNP ID:            hCV27498281
SNP Position Genomic:     294004
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,40|A,1459)   total(G,40|A,1459) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19833):
TGCTGTGCCTTCTCAGAGGAGTGCGAAATGTGTCTCTGAGAAGAACACAGCCATTTGTTCTGTTAGGATGCTTCTTTCAGACTGTAATTAGAGTGCTGTG
K
GGGGTGTAGATGGAGGAGAAAGAAGAATATGAAATGCTCTTACTTCCCTGTGGCTCATTCTTCCTGCACCACGGGGCTTTGAACCCACTGAAATATTGTG
Celera SNP ID:            hCV27498282
SNP Position Genomic:     294232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19834):
AGGAGAAAGAAGAATATGAAATGCTCTTACTTCCCTGTGGCTCATTCTTCCTGCACCACGGGGCTTTGAACCCACTGAAATATTGTGACTGAAACATACA
S
TGTTATATGCAGAGACAGAGAGAAAGCAGCATGTACACCTCTGAGTTCATGCCTTGATAGTATCTGTGTGCTACAATGAGGTGGCGCAGACTGGCGGAGA
Celera SNP ID:            hCV27498283
SNP Position Genomic:     294346
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,15|C,1478)   total(G,15|C,1478) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19835):
ATCTTCATTTTCTTCCAGAGGAACAAGTGATTTCTTAAATAAAAACTACACGTATGACAGTATCTTTTCTCTATTCCTAATAGAAAACATAGCACAAAAG
Y
GAGGTCACAGAGGAAAAATTTGGAGTTTGATTTAGTGCTTAGTTGCTTGAGCCTTATTCTTCTGTAGGAGCTTTGGAATGACACTATAACACTTACTGTG
Celera SNP ID:            hCV27498284
SNP Position Genomic:     305237
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,8|T,1483)   total(C,8|T,1483) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19836):
ATCTTGTTGGCTTTGATAATGGCTTAAATCACTCTTGTATGTATGGATTTGGGAGCAGTACTTTGGCCTAGTCCATGTGTAAATTATATTTTAACTAATG
R
GGACTAAAGTGTTGAGGCGTTTCTTGACTCCAGGGCTTTGTTATTCAGTACTCTTTTCATTTCAAATGGCAATTTTAAAATCAGTTAAATCTTGCCCCTG
Celera SNP ID:            hCV27498285
SNP Position Genomic:     340766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19837):
TAGTCTTTTAAGAAATATGTGTCATCCTGTCATATTATCACAATCACCAAGTCTCTGAGAAACCATACACTATTGAGGGCAAAGAAAATATTGTCAAAAA
W
TGATGGCCAAATGGTTGGCTTATTCCAGCAAATACTACAGAGAACAGGGAAGACAGGTGAATTTGCCTCCAGGTGACACTGTGTTATAGATAGATGTTCC
Celera SNP ID:            hCV27498286
SNP Position Genomic:     357778
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,224|T,1269)   total(A,224|T,1269) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19838):
CTCAGTTTTCTTGCAGGCTATGGTGAAATAGCAGGAGCCGCCTGGGTGTCTTGAAATTTAGCCTGAGAGAATGGGGTGATTAATTCTTATGTGTCACTGC
R
TTGACAAAGCCATTCACCTGTGGCTGCTTCCGACACACCTCCAGCTGCACAGGTAACAGCCTTCTGTGATGAGGGGGATGGACCAGACATCCTGAATGCA
Celera SNP ID:            hCV7538980
SNP Position Genomic:     92845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19839):
GAGGAGAAGCAAAATGAGAAATATGGAGTCTGAGTGGGAAGGAACCCCACATCTGTTGTCTGATACAGGCACCTACTCAAGGGAGGAATTCGGCATCAGT
R
TCCCTCACAGATGGTTGCCTGACACAGTGATTTCTATAAATAACAATTATATGGCACTACGGGAAGTGGATGAGGCTACTTACAAATGGAGCTGACCAGC
Celera SNP ID:            hCV1097730
SNP Position Genomic:     232895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19840):
AGTTAGCATTTCTGTAGTTTCCCTTGCTGAGAACTGCCTAGAATTTAGTGATAATTTCCTGACTCACAAATTGTGAAACCTAGGCCTAAGCCTTTCTCCT
Y
TTCTTAAATATTTATTGAGCACCTACAGTATAGGTGCAAAGCTTAGCTCTAGGCTCTGTAAAGGATACAGATTTTAACAAACAGTTTCTGCCTTCAAGGG
Celera SNP ID:            hCV26752110
SNP Position Genomic:     46214
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19841):
CTGATGTAGACTTATTGAGCATGTCTTCCATTGATGCTGTCTTGGGTTCTGGAGATACAAAGACTTACAAGCCATGGTTCCTTGCTTTCAACCTGTTTTT
R
TTAAGGAATAGGAGTGTTTCCTGTGGCCACAGAATAAACGAAACTAACTGTCCTGGGGCTTCTTCAGGAAACCAGTGGGGCTAACCAGACTTACATAGTG
Celera SNP ID:            hCV1097731
SNP Position Genomic:     233286
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19842):
TGAGGAGTGGAGTGCTCAGGGAGAGCTCCAAGGACAAGGACAAACACTGATAAGGAATTGAAGGATGAGAGGATTCAATAATGTGGAGAGGTTTGGGGAG
R
CTTCCTCTTGAGAGGATAACGTGAGAAGAGCCTTGGGAGCAAGTGTGGAGGGTCTGTTCAGGGCAATAGGGAGAAAAGTTTGGATGCCTTGTCTTTTTAC
Celera SNP ID:            hCV26752111
SNP Position Genomic:     48236
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19843):
ACACTGCATTATTGTTTGCCTTTCTATCTTTCACTTTGGTTTCTATCACATTTGATGGCTACTTTTCACATGATACATTTTAAATCATTTATTTACCCAT
C
CATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCACCCATCCATTTATTCAACAAATATTCAAGAAATAACCATTGATTACATACTATATATT
Celera SNP ID:            hCV26752112
SNP Position Genomic:     51668
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,8)   total(C,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19844):
CAGGGCTGTATATAATTAGGTGCTAAACAGAGTAGACAGAACAGAAGAACTGTGCAGAGTTGATTGGAGGTCAGAAGTCCTGCATTCTGGTTCTACTTCC
R
TACCCAATAAGTGGAGTACCTTTTGGCAGTCACTTGGCTTTTGAACCTTGGTTCTTCTGTAAAATGAGGGGTTTGTGCAAGATGCTGTGATTCCTTCCAG
Celera SNP ID:            hCV1097733
SNP Position Genomic:     235008
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(G,6|A,77)   TSC_42_C(G,21|A,63)   TSC_42_AA(G,23|A,60)   total(G,50|A,200)   no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19845):
CACTGCATTATTGTTTGCCTTTCTATCTTTCACTTTGGTTTCTATCACATTTGATGGCTACTTTTCACATGATACATTTTAAATCATTTATTTACCCATC
C
ATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCACCCATCCATTTATTCAACAAATATTCAAGAAATAACCATTGATTACATACTATATATTA
Celera SNP ID:            hCV26752113
SNP Position Genomic:     51669
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,8)   total(C,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19846):
TTAGAGTACTCATATTAGACTGAGTGGGAAATAGTGATTTGTTAGTAAGAGGGGAGAGGGGAACATCAGGAAAAGCAATAAATGATGGCGACCAGAAGGA
Y
TGATTCCTGACAACCATAGGACAAAGTGGAGAATCAGAGAGGGACTGGTTGAAGAGCGGTTACCTTGGTATTATCCAGCATGTTCTTTCTGGAATAGGAT
Celera SNP ID:            hCV1097734
SNP Position Genomic:     235235
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;(T,-|C,-)   TSC_42_A(C,0|T,84)   TSC_42_C(C,0|T,84)   TSC_42_AA(C,0|T,84)   total(T,252)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19847):
ACTGCATTATTGTTTGCCTTTCTATCTTTCACTTTGGTTTCTATCACATTTGATGGCTACTTTTCACATGATACATTTTAAATCATTTATTTACCCATCC
A
TCCATCCATCCATCCATCCATCCATCCATCCATCCATCCACCCATCCATTTATTCAACAAATATTCAAGAAATAACCATTGATTACATACTATATATTAT
Celera SNP ID:            hCV26752114
SNP Position Genomic:     51670
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,8)   total(A,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19848):
TTCAGTCATGCACAAAAGTAGAGAGAATAAAATATTAAACCCTATGTAACCCACATCAGCCCCAGCAGTTACAAGAAGACCTTAAAGTCTTTAGAGGATC
Y
GGCATCTCCCTGTTGGGCTTCTGTGTCAGAGTTCAGAAAGGGAGAGGGGAGGGACAGGATAAATATCACATGACATCAATGTTGGAATTACTAGGATTTA
Celera SNP ID:            hCV1097735
SNP Position Genomic:     236110
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;(T,-|C,-)   no_pop(T,-|C,-)   TSC_42_C(C,7|T,76)   TSC_42_AA(C,13|T,70)   total(C,20|T,146)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19849):
CTGCATTATTGTTTGCCTTTCTATCTTTCACTTTGGTTTCTATCACATTTGATGGCTACTTTTCACATGATACATTTTAAATCATTTATTTACCCATCCA
T
CCATCCATCCATCCATCCATCCATCCATCCATCCATCCACCCATCCATTTATTCAACAAATATTCAAGAAATAACCATTGATTACATACTATATATTATG
Celera SNP ID:            hCV26752115
SNP Position Genomic:     51671
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,8)   total(T,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19850):
TTCTGGACTGAGGCACTGCTTCATCCTCAGTGACAATCACTGACATTCTTGGCAGCGGGGAGATGGTGGCTGCATCAAGTCCAGAGGATTCTGAATGACC
W
GAATGTGTGGGAAGCCTTGCTTACTCATAACGGCCCCTGGCTAAGTCAGATGCTGCCTCCAGAGATTGTTTGTGTGGGGAGACTTAGTATGTTTATTAAA
Celera SNP ID:            hCV1097736
SNP Position Genomic:     236703
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;(A,-|T,-)   TSC_42_A(A,5|T,78)   TSC_42_C(A,29|T,54)   TSC_42_AA(A,26|T,57)   total(A,60|T,189)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19851):
TCTTGGCAGCGGGGAGATGGTGGCTGCATCAAGTCCAGAGGATTCTGAATGACCTGAATGTGTGGGAAGCCTTGCTTACTCATAACGGCCCCTGGCTAAG
Y
CAGATGCTGCCTCCAGAGATTGTTTGTGTGGGGAGACTTAGTATGTTTATTAAATATACTCAGGGCTCCAAGTTACAGTGAAACGCCCTGCTCCTGGGCC
Celera SNP ID:            hCV1097737
SNP Position Genomic:     236749
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19852):
CCAGCAGTTCTTAATCAAAAGTAATCTTGTCCCCCAGAACATTTGGCAATTTTTGATTGTTGCATCTGGAGAAGTACTAGTGGCCTCTAATGGGTAGAGG
M
CAGGAATGCTGCTAAGGCACACACAGGAGAGCCCCCACCAAACAGAACTGTCTCTCCACAGGTGCTGGCAGTGCTGCAGTGGAGGAAGCCCTGCCTAGGC
Celera SNP ID:            hCV1097738
SNP Position Genomic:     239163
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19853):
CTTCAGGAAAGGTTGTGCTAATTCCAACCTCACCCACAGTGAATGAGATTGCACTCATCTTTGCCAACTCTGGGTATTTCAGTTAGTAAGAATGTCTCTT
K
AACTTCTCCTAAACACAGTTTAATTATGATATATTTCGAACATTTGTATAGAAAACAAGAGACACCCACGTACCCACTACCAAGATTAAATACATAATAA
Celera SNP ID:            hCV26752117
SNP Position Genomic:     55279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19854):
CAGGGGATCGGCAGGTGAGGAAGATGGAGAGCAGCCAGTGTGCCAGTCTAGGGAAGGGCTGGGTGGGGAGGGTGTTGGGAGATGGGAGGAGCATCAGTGC
Y
CCATGTAAGAGGACACTGACCAAAGAGAAGCACTCTCCTATGATGCCTGACTGATAGTAGGTGTTGCATGAGTGGTGTGGGATGGAGGGGCTGGCGTCTT
Celera SNP ID:            hCV1097739
SNP Position Genomic:     239958
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19855):
AGTTTAGGAATACACATTTCCAACTTTTATTAGGTACAGTAGTTCCCCCTTATCTGCAGGGGATAAGACCCCCAGTGGATGCCTCAAACTGTGGATAGTA
Y
CAAATCTTATAAATGCTATATTTTTCCTACACATACATACCTATGATAAAGTTTAATTTATAAATTAGACACAGGAAGAGATGAATAATAACTATTAATA
Celera SNP ID:            hCV26752118
SNP Position Genomic:     55967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19856):
CATGAAGCCGTCCGCTTGGCTGTTGGCAGCACTAATTGTGTCAGTTACCGCTTGCGATTCTGTTGTCCTGGTCTGTATGATTTGTACCTAATGATTGTAT
R
TCTGCTTCCGAGGGCCATAGGGCATGCACTTTCCATACAGTTCTTTTTCTGAGATTGAAGACACGTCAAATAGTGAAGGAAGTTCAGGTACCTTCTTTAA
Celera SNP ID:            hCV1792340
SNP Position Genomic:     169313
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19857):
GTAAGAATTTTGGTGGATGGTGATGTCATGAACCAAGCCAGCCCCTTGTTACTTTCAAATTTCTGAAATTCAGAAAGTAGAAAGGAGGCATCCCAGGGCT
Y
GAATTCAGTTATCCTGGCCCTCACTGGCCCTGGTCACTCTTCATTTTGACTCTTTCCTTCCCTTCCCCCATAGCACCTTTAGTAGAACCCAATGAACCTG
Celera SNP ID:            hCV15982738
SNP Position Genomic:     302102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19858):
CCATGGTACCTCTTCTGCAGATTGGCCTTCTGCTCTTCTTTGCCATCCTGATGTTTGCTATCATTGGTTTGGAGTTCTACAGTGGCAAGTTACATCGAGC
R
TGCTTCATGAACAATTCAGGTAGGGTCGTTCTTTTCTGTCTTCTCCTTTTCCCTTCTCCCCTCTGTTAACTGGGGTAATTTCAGGGCACTTGGAGGCTCA
Celera SNP ID:            hCV1792341
SNP Position Genomic:     172060
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,39|G,1)   total(A,76|G,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19859):
GAAGAAGTCCCAAGGACCAGCTTACACCCAGCAAGCCCAGGGATGAAGTGTGACCCAGAAAGCCCTGGAGGACACTCTGCAGTTCTCACCAGCTGTGGGA
R
GCAGCAGGAAGGAGGGGAGGGAGGCAAGGTTGATGAGTGCAGTCACTCCTCATTTGAGATGTAAAGGTTGTCTTGAGGCCATGCCACTCAAATTAGCCAG
Celera SNP ID:            hCV1792343
SNP Position Genomic:     175154
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19860):
CATGCCACTCAAATTAGCCAGGCACCTCTAGGAATTGCAGCACTGGCCCTGCAGTGGCTGGTGTCACATGGAGGGCTTTGAGAGTGATGCATTTCAATTA
W
ATGTGTAGACTCACCTAAGTGATGTGATAAATGCATTGAAAGCCTGAAAGGAGAAGTGTTGCATTTGAGGATACAGGCGTGATTGTTGGTCCTCTTTAGC
Celera SNP ID:            hCV1792344
SNP Position Genomic:     175334
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19861):
AGCTATGATAACTTCTTTTTAATTGGCAGAACACCTTGCTTGTCAGGCTTTTCATGGAGAGGAGAGAGTAGAGGGAGAGGGAAACTATTTCCTGAACTCA
Y
AGTAAAGGCTTTTCCCCTCTGTTTACATTCATACATAAGTATAGATTCATTCACTAACTCATTCATTCACCAAATAATTTTTAAGTGGCTACTATGTGCC
Celera SNP ID:            hCV1792346
SNP Position Genomic:     178178
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19862):
GGAGGTGAAAAGTGGTTGGATTCTGCATATATTTTTAAGTAGAGCTCATGGGATTCTTCGATGGATTGAATATGAGTTTGGGAGAAAGCAGCAAGAAGAG
Y
GGAGTTGCCATTAACTAAGCTGGGGAAGAACACAGGTAAAGTATGTTGGGAGGAAGAGGAGAATTGAGTTTGGATGTGTTAAATTTGCCATGCTCATTTG
Celera SNP ID:            hCV1792347
SNP Position Genomic:     179042
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19863):
GACTATAACATAGCCATGGAATTTGAGCTGGATAAAGAGCAAAGAGGTGGCGGAGAAACCGTGAAAAGGGAGGAGAGAACGTGGATTATAGACCGTTTTT
R
AAATGTGACTCTTAGGGCCGGGCGCGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACTAGGTCAGGAGATCGAGACCA
Celera SNP ID:            hCV1792348
SNP Position Genomic:     180440
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19864):
CCAGAGGGAGTGAAGAAAGCTTCGAAATCCCTGGGTGGTTTGGTTTGGGACTTTATTTGTCTCCTGGCATTGCATTCACTCAGGGTGATACAGGGAAAGA
M
ATTATGGCAAGGTGCTTTCTAAGTCAGACCGTTCTCCTGGGCCTGGAGCTCTCATTTGAAGGCAGTTAAACTCGTGCATTCTTGTGCTTGTGCATGAGTG
Celera SNP ID:            hCV7538990
SNP Position Genomic:     111848
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,7)      total(A,7|C,2) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19865):
CATACATCAAGTTAAGGGAACGTTTATAATGTAAAGCTGGAAAATTCCATTAGGGAACTTTATTGACTTTTGAGGAGGAAGGGAAGGGGATTTTTTCATT
K
GTTTATTTTTCTTCTTGGATTTATTTTAAGTGTGGGCAGAGCAGTGGATAAAAAAAATAAATGGAAAGATACCCACATTGCAACTTTTCTGTTCTTTCCA
Celera SNP ID:            hCV27511841
SNP Position Genomic:     335788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19866):
AGAAATGTAGGAGAGGACCAGGACACCTGTGCGTGTGTGTCTTTCTGTGTGTGACACCTGCACTCCAACCCAGGACTCTCACCCTCTCCATTTCCACTGC
Y
CTACAGCACGTTACTTGACTAGCTCGATTCACATGAGCAGGTGAGCGCTCCTGGATTGGATTCTAAGTAGTCATCTCACAGCTTATAATTGATCGTCAGC
Celera SNP ID:            hCV27511842
SNP Position Genomic:     336603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19867):
GTTGCATGAGTGGTGTGGGATGGAGGGGCTGGCGTCTTCTGGGCAGCATTCTTTGCAGGGAGGGCCCTGGTTTCCCTTAGCTGCTCCACAGTAGAGGTCT
S
GGCTGTGAAGGTTCTCCTGGGGCCAGAATCTTGATTGGAGTACTTAGCATGGCTGTCCCGTGTTCCTGAAGGAAGAGTCTCTGGGGAAAATAGAGTGCAA
Celera SNP ID:            hCV1097740
SNP Position Genomic:     240121
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19868):
CATGGCTGTCCCGTGTTCCTGAAGGAAGAGTCTCTGGGGAAAATAGAGTGCAAGTCTTACATGAAAGGAGCTTGCGAGAACTGCCACTCTGTCACAGAAG
Y
TGGGGGGGATGCTGTAGAGAGAGAATGAGTGATTCTCCCTCTCACAGGCAACCCTCCTCTCTTGCACCTCCTGCTGAGACAGACACGTGCACACCACGAG
Celera SNP ID:            hCV1097741
SNP Position Genomic:     240269
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;SC_12_TT(T,1|C,22)   total(C,22|T,1)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19869):
AATGTAGGAGAGGACCAGGACACCTGTGCGTGTGTGTCTTTCTGTGTGTGACACCTGCACTCCAACCCAGGACTCTCACCCTCTCCATTTCCACTGCTCT
R
CAGCACGTTACTTGACTAGCTCGATTCACATGAGCAGGTGAGCGCTCCTGGATTGGATTCTAAGTAGTCATCTCACAGCTTATAATTGATCGTCAGCACA
Celera SNP ID:            hCV27511843
SNP Position Genomic:     336606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19870):
ACCTGCCAGTTGGAGTATGGTGCTGTGTATAGCAAAGGAGAAAGCTTGCAAAAGGCTCTCGGGAGTGTGTGTGAGGAGCTCGTTGAGGTCCATGTGCAAG
R
GGGAAAGGATTATGCACCACTTAGCATAGAGCTAGTGCTCTGGTCACATGACAAAGAAAGATGGCAGAATAACAATGGATTGAGGGTTCGAGGGTGACCC
Celera SNP ID:            hCV27511844
SNP Position Genomic:     338866
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   no_pop(A,-|G,-)   JBIC-allele(A,276|G,1217)   total(G,1217|A,276)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19871):
ACAAGCTCCAAGCTTGCATACAGAGTTGCCAATGAGGCTTTTGTGCCGTGCTTTTAAATATGAACACACAGCTAGGGATCATCAGCATTTGAGGAAAATG
M
CCAACACAAAAGAACAAAAAACAAAATCATGAATTATAAAAAGGTAATTGAGGGAATATGAACAATGCAGGGAGTAGAAGACAAATTTAAAAGCTGTATC
Celera SNP ID:            hCV1097743
SNP Position Genomic:     246855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19872):
AAGCTTGCATACAGAGTTGCCAATGAGGCTTTTGTGCCGTGCTTTTAAATATGAACACACAGCTAGGGATCATCAGCATTTGAGGAAAATGCCCAACACA
W
AAGAACAAAAAACAAAATCATGAATTATAAAAAGGTAATTGAGGGAATATGAACAATGCAGGGAGTAGAAGACAAATTTAAAAGCTGTATCTGCTATTAG
Celera SNP ID:            hCV1097744
SNP Position Genomic:     246864
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19873):
TTTGCATGGGAAGGCAGAGAAGCTCAAAAGGGAAAGAATTAAAATAATAAAAATAATAAAACAGTGATCATGAAGCAAAGGATACATCTGAAGAGGCTGT
K
AGCCCTTCTTGTCACCCTCTGTGTGTTGGGAGTGTCAAAGCTGCTTGCTCCTGGCTGACCTGGGCAGAGCCTGCGGGATTGCCGTCAGGGGTTGGAATGC
Celera SNP ID:            hCV1097745
SNP Position Genomic:     268568
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19874):
CTGAATTATCAGTTAACATCTTTCTAGCATGTGCCAGCAGAGGGGAAGGAGGGTGGCAGAGAAAGAGCATCTAGGATGGTTCTGTTTCATTCACAGCAGA
N
AATCCTTGAAGCAGCTGGCACATATTGTGTGGATGACAGAGAATTTGGTGCTATTGAGCTTAATGATCTTTAATATAAACATGTCAGGATATCCAGCTGA
Celera SNP ID:            hCV1097747
SNP Position Genomic:     294874
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,16)      total(C,16|T,1) ;no_pop(C,-|T,-)   ;no_pop(A,-|C,-|G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19875):
GCCAGCCCCTTGTTACTTTCAAATTTCTGAAATTCAGAAAGTAGAAAGGAGGCATCCCAGGGCTTGAATTCAGTTATCCTGGCCCTCACTGGCCCTGGTC
R
CTCTTCATTTTGACTCTTTCCTTCCCTTCCCCCATAGCACCTTTAGTAGAACCCAATGAACCTGAAGCCAAGCACAGGAGAATTTGTCCTTCCGGTGTGC
Celera SNP ID:            hCV1097748
SNP Position Genomic:     302138
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,15)      total(G,1|A,15) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19876):
GGCCACCTCTGTGTCCTACAAATAAATAGGGACATCTGGGCAGGTTAATATGATGTGTTTCCTCTGCACAGTCTCGTGGAGCTGTACAGAGGTGTACATA
Y
GATAAATATAAGTAAAAAATTGACAGCTGAGACCCAGACTTTGAGTAAAAGTTTCTTAAACATACTGAAATATCTTTGGACTCTAGCAAATATCATAAAT
Celera SNP ID:            hCV1432807
SNP Position Genomic:     357017
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,13)      total(C,1|T,13) ;JBIC-allele(C,223|T,1270)   total(C,223|T,1270)
SNP Type:                 INTRON


Context             (SEQ ID NO:19877):
CTGGTCACTCTTCATTTTGACTCTTTCCTTCCCTTCCCCCATAGCACCTTTAGTAGAACCCAATGAACCTGAAGCCAAGCACAGGAGAATTTGTCCTTCC
R
GTGTGCCTTTCCCTACACCTTCTGCCTGATTGTAAGCAGGTGGCTGTACCCAAGGACACCAGCTCTATTTTGGCAGGAGGGCCAGGTGTGACACGAACAG
Celera SNP ID:            hCV1097749
SNP Position Genomic:     302232
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,15)      total(G,15|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19878):
TTAATTATTTATAGTTTAATTAAAAATTAAGCTAAAGAAGGCAAGCCAGTGAATTCATGGTTTCTCATCACTTGGAAAAGGATTTCTCCCCACATCCATC
A
TTACTGATTTACTTCTTCATCGAGGACCTGGGATTTTGAGATGTGAGATCAATTTTAAGGATGTTCTGGCTCCTAGGAGCGACCTTGACACTTTTTATCA
Celera SNP ID:            hCV1432808
SNP Position Genomic:     357372
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,11)   total(A,1|-,11) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19879):
GCTGGCAGATATAAAGACCCAAGTCTTCGCGGTGGAATTTCTTAGATGGACTTGCAGGGGCTGGCGTTATAAAGCATGTCATCGTAACCCCGTCCTCGTC
T
TTGTTTATTTTTTTTTAAAGTTCTTTTGTTTTCATTTTCCCCTCCTTCCCACCCCTTCCCCCAACCAATAAATCACCAAACTGTTACCTAGCGGGCCGGT
Celera SNP ID:            hCV26752128
SNP Position Genomic:     76057
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19880):
GGATGGTAAAGAAGAGGGACTTCTCTGGCAGCGCTGAGATCAACGCAAAATTACAGTGTCCCACTCTGGCCCCAAATCCAAACTGTCCTATGTCTGCATC
Y
TCCTCCAGTACCAAGGCCAGTTCCCTGCCTCATATCTCCTTGCCTTGACCCTCACCTCTAAAACTGAAATGTTATCCCAAAGTGGCAATAAGCATGCGCA
Celera SNP ID:            hCV1432809
SNP Position Genomic:     358665
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19881):
CTGGCAGATATAAAGACCCAAGTCTTCGCGGTGGAATTTCTTAGATGGACTTGCAGGGGCTGGCGTTATAAAGCATGTCATCGTAACCCCGTCCTCGTCT
T
TGTTTATTTTTTTTTAAAGTTCTTTTGTTTTCATTTTCCCCTCCTTCCCACCCCTTCCCCCAACCAATAAATCACCAAACTGTTACCTAGCGGGCCGGTG
Celera SNP ID:            hCV26752129
SNP Position Genomic:     76058
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19882):
GTGGTTGCCATGAAGGGTGATGGTCTTTGAGGCCGTGGCGACTCGGAGCTCCCTTTGACCTTTCTAAGTCATGTCTTTGTCCAGTCTGCCAGGTTGAGGG
K
CACTAGCTTGACTGGTGGGTGGGTGTTATTTGCCGTCTAGGCTCTTCACTTTGGGGATGTAGCAGAGCCATTGCTTTGGGGTGTGAAGTTTTGCTGTCGG
Celera SNP ID:            hCV27527421
SNP Position Genomic:     99089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19883):
AGTGTTTACAGAGGGTTTGCGTGTAATTAGCAGTTTATTTCTGTGACACAGCTGGCCTCCTCAGCTTGGAACCTGACTTTGAAATGCTCTTAAAGAGACC
Y
ATACCTAGGCAATCTGAGGGGTGCTGGGGACTTGGGAAGAGAGTGAAGAAAAATGTCATGCCCTGTCTTTGGTGATGATGCTTGACCAAGGACAGCCACT
Celera SNP ID:            hCV1792350
SNP Position Genomic:     185501
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19884):
GTGTGAGAGTGCTTTGTGCATCAAGATGTGCCTTACGAATTTAAGGTATTATAAAAATCCTTTAAAGTTATGAACATTCATGTTAGGAAGATTTCTATTA
Y
TGAGATTTACAATACAGGTTTTTCACGTATCATTTTTAAACATGTTTTGACAGATACAGTCAATGGTATCCCTCAGAAGAAAGGTAGAACGTATATTCAA
Celera SNP ID:            hCV1792351
SNP Position Genomic:     187807
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19885):
TGGATGTGAGGGGATGGGTGAAGACACGTGCAGAAAAGGAAGTGCTCATTGTGGAGGAGGTGAACATAATTGGAGGAATTCGCTTTGGCCTTTTTGGCTG
A
AAAAAATATTTATGAAATTGCTGTACACCCCCGCTCCCCCCCCCGACCCCAAGCAGAGTTAGACACCTATAGAATTCCAGGCACCGATGAAAAGACCTTT
Celera SNP ID:            hCV2029871
SNP Position Genomic:     18338
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19886):
TAACTTGTCCAAGGACATGCAGTCCATTTTTGGCAGAGGCAGAGAAGAAATGGGAAGTGAGCTGACATGAATTAAGTTCTTCCTATTGCCAGGACCTTTA
Y
TAGGTATCTTACCCAGATTTCTCCTTGTCTAATATGCTCCCTCCTCAACTCCCCTGGGGTTCCACCTTCCACGAGTCTCCCTGCCTCTCAGGAAAGCTTC
Celera SNP ID:            hCV28016561
SNP Position Genomic:     345675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19887):
CCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCCCAATTCACTGCTTTTAACATTTGTTGATGCCAAGAAAGTGCTACTGGAAGGCTG
H
TATAGGTTTAAGAACACAATGATTGGTCATTCTTTTTCTTTCCTACCCAGATTGGAAATTCCAAGTTTGCTCTGTCATCACATCTGGTTAATGCAGACAC
Celera SNP ID:            hCV2029872
SNP Position Genomic:     34345
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|T,1|-,11)   total(A,1|C,1|-,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19888):
TTCTAAAACAAAGCCTGCTGCTGAGGAAAACTACAAAGGGTGGTACAGATTTAAAAGGAGGCAGATAGCCTGCTGCAGGCAGGACCACAGTCTTATCACC
Y
CACTACACAGCTATAAAGACACACAGGTTCTGAGGTGGCATGTCCTGCAGCAACTGTGTAAGGCAGGGCTTCTTATCCCTGTTTTACAGATAAGGTAATA
Celera SNP ID:            hCV1673400
SNP Position Genomic:     36444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19889):
GGTAAGAAATTGGAGGGAGGTGAAGGGAGGATGAGGAGAAGGACCAGGTCCATTTGGAGTCATGGTCAAGGTCTTCTGGAGAGAGACTGCATCATTGCTG
M
TGGTACCAGTGAGTGAGGAGGAAACTGAAAAGAGTTCAGCCTCACAGGAAGGCTGGAAATTAGTGCAGGAGGGATGGGCAGGTGAGTAGGAGGCTGGGGA
Celera SNP ID:            hCV2029876
SNP Position Genomic:     49016
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,10)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19890):
GTAAGAAATTGGAGGGAGGTGAAGGGAGGATGAGGAGAAGGACCAGGTCCATTTGGAGTCATGGTCAAGGTCTTCTGGAGAGAGACTGCATCATTGCTGA
W
GGTACCAGTGAGTGAGGAGGAAACTGAAAAGAGTTCAGCCTCACAGGAAGGCTGGAAATTAGTGCAGGAGGGATGGGCAGGTGAGTAGGAGGCTGGGGAG
Celera SNP ID:            hCV2029877
SNP Position Genomic:     49017
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19891):
AGTGAGTGAGGAGGAAACTGAAAAGAGTTCAGCCTCACAGGAAGGCTGGAAATTAGTGCAGGAGGGATGGGCAGGTGAGTAGGAGGCTGGGGAGGTCACA
S
AGGACAAGATGAGAGAGTCCATTAACCTAGAGAACATACCATTTGTGTCTGTAGGGGGTACTCCTGTGTTCTGGACTAGGAGGAGTTGTGTTTCACTATG
Celera SNP ID:            hCV2029878
SNP Position Genomic:     49124
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19892):
CGAAGAATGGAAACTTTCCCATCCCTGGGAGTAAAACCTTACATCAGTGATACCCAATCCTGCTTATTGATGCCCCAGGGGTGTCTTGAAATTCTTCAAA
K
GAAATTAATTGTAATTCACTTCAATTTTTAAAATCCACAGATATGCTGCATAGCACAATGCTTCTGGGCAGGGTGGCCCAGGGGAGGTGGACTGAAAGTT
Celera SNP ID:            hCV1673404
SNP Position Genomic:     33192
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19893):
AAATGTCAGCCAAGGAATACTGTCATACTGTTCCTTACAAGTGGAGTGACTCCCGCGTTGGTGACAAGAGGGCATGGATGACAGAGTCTGAGACATTACT
R
TGACTGGTCTTACTTGGTGCTGGTCAGCTCGGACAACTTCTGCAGGGGGAGCCTAGCAGATTTCATGTGCTAGGCACAACAAGCAGGGCTGGCAGCCATA
Celera SNP ID:            hCV2029879
SNP Position Genomic:     50373
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19894):
GTGTGCGGGGGAAAGAGGCAATTGTCGTATGCTTCCATAGAAGGAGATGAAGGAGCGAAGAATGGAAACTTTCCCATCCCTGGGAGTAAAACCTTACATC
R
GTGATACCCAATCCTGCTTATTGATGCCCCAGGGGTGTCTTGAAATTCTTCAAAGGAAATTAATTGTAATTCACTTCAATTTTTAAAATCCACAGATATG
Celera SNP ID:            hCV1673405
SNP Position Genomic:     33137
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19895):
TGTGGTAGCATGCTGTTCTAGTTTTCCTATTTCACTGGCTGTCCCATTCCAGTCTCTGTTGCTGGTTCTTGCTCCTCTGCTATACCCCTGATGTAGGTGT
K
CCCCAGGGCTGGCTTCTGGGCCCTCTTCTCTTCTCTGTCTATGCTCACTCCCAGGATCTCACCCATTTTTGTAGGTTTACATAAATCCACATGTAAATGA
Celera SNP ID:            hCV1673406
SNP Position Genomic:     30601
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,9)      total(G,9|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19896):
CTTCCCCACTCACTGCTCTGTGAATTTTCCTTTCCCTAGGAGTGGTCAGCAGAGGCTTTGGACAGATGCTTCTGCAGAGATGAATGGCCTGGCTTTTTTG
Y
TAGCCTATGTTGGCTGCTCCAACCCTCTCCTGGCCTGAGCCGAAGATCTCTCCTCGAGATGGAGCCTTGAGTCCAGCAGTTCTTAATCAAAAGTAATCTT
Celera SNP ID:            hCV26752200
SNP Position Genomic:     238990
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19897):
CTAAAGTCAAAAGATCATAAGTCAAACCATCATAAGCCCAGGACTGTCTATATTTATAACACAGGAGTTTATAGCAGATGCTACTCTTCCCCTAGAGAGC
Y
AGTTGTTAAATGTTTACCAGCACACCACTGGAACAAACTAATCTAGGTTTTAAAAAATTCTCTTTGCCTATGCTCTGTGAAGAATGAATTACAGGGAGGC
Celera SNP ID:            hCV1673408
SNP Position Genomic:     28024
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19898):
TCTTTGCAGGAACATGGATGGAGCTGGAGGCCATTATCCTCAGCAAACCAACACAGGAACAGACGACCAAATACTGCATGTTCTCACTTATAGGTGGGGG
M
TAAATGATGAGAACACATGGACATATAGAGAGGAACAACACACTGGAGTCTTTTGGAGGGTGAAGGGTGGGGGAAGGAAGAGGACCAAGAAAAAAGCAGC
Celera SNP ID:            hCV26752201
SNP Position Genomic:     242651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19899):
TTTATCAGGACACAATCTGATCAACCCATTGTAAGTGAAAAATATCATCAGTCAAAACTGCATTTAACACCATCTAAACCCTTCCTAAAGTCAAAAGATC
R
TAAGTCAAACCATCATAAGCCCAGGACTGTCTATATTTATAACACAGGAGTTTATAGCAGATGCTACTCTTCCCCTAGAGAGCTAGTTGTTAAATGTTTA
Celera SNP ID:            hCV1673409
SNP Position Genomic:     27940
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19900):
TGGCAGATATAAAGACCCAAGTCTTCGCGGTGGAATTTCTTAGATGGACTTGCAGGGGCTGGCGTTATAAAGCATGTCATCGTAACCCCGTCCTCGTCTT
T
GTTTATTTTTTTTTAAAGTTCTTTTGTTTTCATTTTCCCCTCCTTCCCACCCCTTCCCCCAACCAATAAATCACCAAACTGTTACCTAGCGGGCCGGTGC
Celera SNP ID:            hCV26752130
SNP Position Genomic:     76059
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19901):
ATATATTTGTACAGCTGTACAATGTGTGTTTTAAGCTAAGCATTATTGCCAAAGAGTCTAAGTTAAATTTTTTCTAAGTTTATAAGGTAAAGTTACAGTA
Y
GTGAAGATTAATTTATTGAAATAAAAATGTTTTTAATAAATTCAGTGTAGCTTAAGTGTCCAGTGTTGATAAAGTCTACAGTGCCATACAGTAATGTCCT
Celera SNP ID:            hCV26752203
SNP Position Genomic:     249423
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,16)      total(C,16|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19902):
GGTGAGGAAGCTGGGGTCCTGAGAGCCTGGGTGACTGCTGGTGCTTTATGTGAAGGTCAGTGGACTGTGGTGAGTGACAAGGTAGGAGGAACCAGTCCTG
S
AAGTCCCACCCACTTCTGTCTCATGTGCCCTGCAGCTATGCTGACTTAGTAGGGGTGATCACATTCAAACAACAGTCTCACCGGCATTCACACCGCATTC
Celera SNP ID:            hCV11886063
SNP Position Genomic:     16323
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19903):
GGCAGATATAAAGACCCAAGTCTTCGCGGTGGAATTTCTTAGATGGACTTGCAGGGGCTGGCGTTATAAAGCATGTCATCGTAACCCCGTCCTCGTCTTT
R
TTTATTTTTTTTTAAAGTTCTTTTGTTTTCATTTTCCCCTCCTTCCCACCCCTTCCCCCAACCAATAAATCACCAAACTGTTACCTAGCGGGCCGGTGCC
Celera SNP ID:            hCV26752131
SNP Position Genomic:     76060
SNP Source:               Applera
Population(Allele,Count): african american(G,12)   caucasian(A,1|G,21)   total(A,1|G,33)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19904):
AATGTCAGTGCCCTCCTGGGGTATCCAGAGTTAATTAGATTTGACTGCTTGGGTGGGATTTTTTAAATGCTACTATTTGTCTCTTTGGGGCCCTCTAGCT
K
CTTCTTCTCTTTCCATTCTTCTCTGCTGCTGCCTCACTTGCCACCTCCATTCTCCCTGAGAGACAAGTAGTATTTGGGTTTTGAAAAACAGCATTGAGAA
Celera SNP ID:            hCV1432812
SNP Position Genomic:     362809
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|T,6)      total(G,6|T,6) ;no_pop(G,-|T,-)   ;(G,-|T,-)   JBIC-allele(G,245|T,1226)   total(G,245|T,1226)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19905):
GGGTGACTTTCAATGATTGAGAAAAGTCTTTGTTGGTTCTAGGGAAAGATTGTTGTGAAAAGGGAAGGTGAGCATATTTAAGTGCATTGAGCTTCATATC
R
AATCTATGGACACTCAGAGTAATCCTTTGTCATACCTCAGGTATTTTATCTTATAAGTACGTCTATGGATATCTTCGCTTTGGGAGATTTTTGAACTGCT
Celera SNP ID:            hCV1432813
SNP Position Genomic:     365416
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(A,-|G,-)   ;(A,-|G,-)   JBIC-allele(G,330|A,1163)   total(G,330|A,1163)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19906):
GGGTGGGGCTTGGGAATGCTATGCCCAGCTAGGCTCCAGCCACGCTCCAGCCACGTGAGGCTTCAGAGAGAGGCCCTGCCTGGCACCTGTGCCAAGCATG
T
TTTTTTTTTTTTTTTTTTTGCCTGTGGGTGGTTGATTTGAATCACTGTTGCAACTCTGCATAATCTTGAGGCTATATTTTTGTGTGTGTGCTGCATTTTG
Celera SNP ID:            hCV26752134
SNP Position Genomic:     83388
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19907):
TGTCTGCAGGCTTGTCAAGTATCTCTCTCCTTGTGTTTACAACTTTCGTTATCATATCCCATATATTTGCCCCATAATGTCCACCATTCAAATAACCTTA
W
TCCTGTCCCAGTCTCTTTCTGCCCTTCTTGAAATTGAACCATGACTTAGTGAGGAGGCTTCTGTGAAGCCTATTGCTTAATAAACTTGAGCTATGGTGGT
Celera SNP ID:            hCV1097755
SNP Position Genomic:     335312
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19908):
GTATAAAGAAAAAACCCCCTGAAATTTAGAATAATGCTATTGATGGGAGTTTTCCATTTATTCACATCTTCAGCACATTTTTATTGAGTGGCCATTGTGA
K
GTTCACTCTCAGCAAGGCCCATCCCTCAGTCACCAGTAGTCAAGGGGTGAAACCAGCTCACAGCTTCCAGGAATCGGTGCTCACTGCTAGGGTGAAATGG
Celera SNP ID:            hCV1432814
SNP Position Genomic:     366485
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|G,7)      total(G,7|T,4) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   JBIC-allele(T,88|G,1399)   total(G,1399|T,88)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19909):
CTCCCTCCCAGCATCAGTAGGAGAAACCTTCAGCCCTGTTGCCATAGGTGCTAGGTCAGAGTTGCTTCCCAGGTGTCACACAGGGACTCAGGCTGAGGAA
Y
ACTCCATTGTCTGCCAATGCTACCTTTTCAACAAGTACCCGTGCAGTCGCCCTGGAAGAAGGGAAAGGCTGCAGAGGGAGCACTGTCAGTTAAATGCTTT
Celera SNP ID:            hCV27477259
SNP Position Genomic:     273793
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,19|T,728)   total(C,19|T,728) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19910):
CTCCTCAGAAACCAGGGCTGACATGGCATTCCTTCCACCACCCAGCCAGAGCCTTCTCAGACCCTGGCCCAACTCCCAGGAGCAAAGCCCCTCACCGAGT
S
GGGGGAGTGACCTCTAGCTGAATTCTCAAACAAAGCTGTGGTGTCCCCTGAGCCCTCCTGCCGAGGCGTGTGCCTGCCACCATGTATGTTTTCTACAAGC
Celera SNP ID:            hCV1097756
SNP Position Genomic:     335537
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,15)      total(G,1|C,15) ;no_pop(C,-|G,-)   ;JBIC-allele(G,400|C,505)   total(G,400|C,505)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19911):
TTCTTTTCCCGTTTGTCCATTTTGTTTTGTTTTTCTTCTCCTGTTTTCTGTATTTTGTTCGTTTTTGCTCTCTGGGAATGCCTATTCTCCTCTCCTATCT
K
TCTGCATCCTTCTCCCCACTTCCTTCTCCTTTCCCTGCCACCCCACTGCCCCGCTAACCCACCCCATCCCAACTCACCACCCTCCATGAGCAGTGGCCGC
Celera SNP ID:            hCV1432815
SNP Position Genomic:     374188
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,5)   caucasian(G,19|T,19)   total(G,48|T,24)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|T,10)      total(G,6|T,10) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   JBIC-allele(T,687|G,798)   total(G,798|T,687)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19912):
GGTGGGGCTTGGGAATGCTATGCCCAGCTAGGCTCCAGCCACGCTCCAGCCACGTGAGGCTTCAGAGAGAGGCCCTGCCTGGCACCTGTGCCAAGCATGT
T
TTTTTTTTTTTTTTTTTTGCCTGTGGGTGGTTGATTTGAATCACTGTTGCAACTCTGCATAATCTTGAGGCTATATTTTTGTGTGTGTGCTGCATTTTGT
Celera SNP ID:            hCV26752135
SNP Position Genomic:     83389
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19913):
TCTTAGGTAACTGAAACATCCTTGTAGCTCCTCAGCCATGCTCTAACTTAGTATAGGTAAATCTTCTAACACTCTGATACCTGTATACCTATATACCTAT
A
CACACACACACACACACACACACATATACATCTATACATATGTACATATCTGTGTATATATACACCCATATATGCATACATACACACACATTTTCACACA
Celera SNP ID:            hCV26752208
SNP Position Genomic:     258014
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19914):
AGAGCCCTGAGAATTGAGGAATTCGGAGACTTAATTTAGCTCCACCACTGATAGACTAAATATTCTAATGGAAAGTGAATTTATGAAACTGTGTGATTCA
R
TCTGTCCATATGCCCCATAGGTACATGTGGCTTTGTAATAAGGCCTCTTTCAGCCTCATTTTCTCATACATAAAATGAGGATAATAGTAGCTACCTTATG
Celera SNP ID:            hCV1097757
SNP Position Genomic:     353945
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,9|G,9)      total(G,9|A,9) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(A,-|C,-|G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19915):
TGAGACAATACAAGGAATGGTTTTTAATACTGTTCAACATGGTTTTTTATGTGATATTTTGTGTTTCTACAACTGTGTGGCTTCTTGTGAGTGAGTTACC
Y
GACAAGCAGTGTTAAGTGGTGTGTTTCCTTTTAGAGGAGGCAGAGTGGTGGCCTGTGGGATGGCATATATGGGCAAGAAGGAAGCCTACAGCAAAACAGC
Celera SNP ID:            hCV1432816
SNP Position Genomic:     374651
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,11)      total(C,3|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19916):
CTTAGGTAACTGAAACATCCTTGTAGCTCCTCAGCCATGCTCTAACTTAGTATAGGTAAATCTTCTAACACTCTGATACCTGTATACCTATATACCTATA
C
ACACACACACACACACACACACATATACATCTATACATATGTACATATCTGTGTATATATACACCCATATATGCATACATACACACACATTTTCACACAT
Celera SNP ID:            hCV26752209
SNP Position Genomic:     258015
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19917):
ATGGGCAAGAAGGAAGCCTACAGCAAAACAGCTATCAGTGCTCATATGCAAAGAAATATCTTCAATCAGATAAGGAAATCATGCAGAAATTCCTTTAAAC
R
TGGAATTGTTAGGAGAAAGGAAAATTCCTTTAAACAAGAAATTTTTAGGAGAGAGGAAAACTCATAACAAATGTTTTCACCCATGACATAGGAAGAATGG
Celera SNP ID:            hCV1432817
SNP Position Genomic:     374820
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;JBIC-allele(A,690|G,789)   total(G,789|A,690)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19918):
GAATCACCTGGAGGGCTTGTTAAAATACAGATTACTACCCCCCACTCCCAGAGTTTCTGGTTCAGTAGGTCTGAAGTAGGGCTGGAGAATTTTTGTTGGT
Y
ACAATTTCCCAGGTGATATTCATGCTGCTGGTCTTGGACATCATGCTTTGAGAACCATTGCTGTACATGGTTTTGTTATCTGCCTGGCAATGCCTTTCTA
Celera SNP ID:            hCV26752137
SNP Position Genomic:     84270
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19919):
CAAGCCCAGTGGATCCCGTCAGGTTAAGAGTATCTGGAAGTACTAGACAGTGGTTTAATAACAAGCCTACTGTGCCAGTTCTGCATTCTTTTCCCTTGGA
K
GCCTCTAAACAACTGGGCAGACTTTGTCTCCATCCTCTTTTCTCACCACCATTTAAACCTCTTCCTACATTGCCATCAACCAAGAGGTTTTCAACTCCTC
Celera SNP ID:            hCV1432818
SNP Position Genomic:     382637
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19920):
TAAGACCATATTCTTACTGCGAGTAGGGAAAATTTTTAAAAAGTCCATGGCTGCTTAATATTTAAACAAACTGTTCACTGTGTAAACTAGGGTGTTTTTC
Y
GCCAAATGGGGAAACTGAGCAGAAATAGGTTTACAATCTAGTGTTGCTCTTCCATATGGCTGAATGTGACAAATGATGTCATTTGTCATAGACATGCTAG
Celera SNP ID:            hCV1432819
SNP Position Genomic:     382966
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19921):
GATAGGCATTCTTGTTTTCTGTCTTTCATAGTTAGAAGGATTAAGGTGTGGAGAGGTTAACTCATTTCCCTGAGATCGCACAGTAAGAGCTGGAGGCCTG
R
ATCAGAACTCGTGCTCTTAATCACTGAAGCTAAATAGTCTTTCCATAAGACTTTTTTTCTTCCTTCTCAAAGTTATTGGGTTTACACTTTTAAAAATAAA
Celera SNP ID:            hCV26752139
SNP Position Genomic:     88883
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19922):
GTCCTGACTTAATAGCAATTGAAACAAATGTAACAGATTAAACTTATTTTTTAAAAGTCAGAGGCCCTGTGACTTTATTTAATTTTTTGATCTTATGTTT
M
AATGACTAAGCTAAGTAAAATGACACTAGAAAATTGAAAATAGAGGAGGTGGCAAAAGGTGTTCTAGACAAATGCCAACCAAAAGTAAGTGAACATAACA
Celera SNP ID:            hCV1792290
SNP Position Genomic:     127754
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,8)   total(A,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19923):
GGAGGTGGCAAAAGGTGTTCTAGACAAATGCCAACCAAAAGTAAGTGAACATAACATTAAAAAAATTCAAGGTGAAAATATCAAAGGAAACAATAGTGAC
Y
ATTTCACTGTGATAAAAAGAAAATAATTGAAGGACATTTAAAACTTATGCACCGTCAGAATAAATGTCTGTTAAAAACGTAAAGGTAACTATTAGGTAAG
Celera SNP ID:            hCV1792291
SNP Position Genomic:     127899
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19924):
TGAAGGACATTTAAAACTTATGCACCGTCAGAATAAATGTCTGTTAAAAACGTAAAGGTAACTATTAGGTAAGGAGATTTCCAACTGGTTTTGAACAAAA
Y
GCAACAAAAATTTAGGGGTCTTCATAAAAAAGTTCAGTATCATTTTGGGCACTTAGGTTGATTTACAAAGCAGGTCCTCAGAGGCTTAAACATTTATAAA
Celera SNP ID:            hCV1792292
SNP Position Genomic:     128027
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19925):
CCCAGTGGCCACCCTCTGTAGGTGGGAGCACTTGTGGTGACATGCCTACATTTAGAGTGGTCATATTCTCTTCTGAGGGCTGGGGGCCGTGGTTTCTTTT
Y
CTTTTCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCCTCCACCT
Celera SNP ID:            hCV1792293
SNP Position Genomic:     129933
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19926):
GTAAATTGGAATGCAAATCTGTGCCTTCCTGGGACCCATAGTCTAGTGGAAGAGAGTGACAAGAAGCAATTGCAATACATCACCGCACTAATGCTCTGTT
K
AATGTATTCTGGGAGTATGGAAGAAGGAGAAGGTGACTGTGTTTGGGAAAAAAAAATCACAGAGAGGTGATATTTATTTAAGCTGGATGTTGAAGGTGGG
Celera SNP ID:            hCV1792295
SNP Position Genomic:     131462
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19927):
TCCCTCTGAGCCCACTGCCTGGTGCTGACTCAGCCCAAGTGCTTACCTGCTCACCAGTCAGGAGTTGAACATATAGATGAAGTTGAACGAATGTCTGAGG
Y
CAGGAATAGGAAAAATGTCTCAGCTCAATGTGGTTTGCGCATGACAAAAAGAGTAACTGGTGATATTTCTAAGACCTTGGTACATTCCCACTATGGGACA
Celera SNP ID:            hCV2029880
SNP Position Genomic:     50613
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19928):
TGCATGCTGTAACACCAACCCTGCCATCCCTCTGGCTGGTATCTATTCAGCTAAGTGACTATTCCCTGACTGTGCTTCCTCCCCATTTCCTTCTATTTTC
Y
GTTACTCGTTGACTAGGCTCACCCTAAACTTCACTCACCCAGTTGACATTAGTATCTCCTCCACTACATAGCTTCTCACCAAGGGCTTGAAGGCAGGGGT
Celera SNP ID:            hCV1792296
SNP Position Genomic:     132034
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19929):
CTTGCTGGCAGGCCACGGAGGCAGAAGAAGATATGGGTGACTTCAGGCTGGTGCTTCGGGGACTCCTGGTGTTACAGACCACCACCTGGCTCCCCATTCC
Y
ACCCCTCTGCATTTCCCACAGTTTCCTATGCCCACCAGAAGGCAAAAACAGAGGAGGAAATAAGTGTAATATTTGCCTTTGTTACGGCCATTTCAGAAAA
Celera SNP ID:            hCV2029881
SNP Position Genomic:     51158
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19930):
GGGGTTTAGAATATGCTCCCCAAAATATGTCACCTTGGCGTACTCAATGTTTTAAGCTAAAGGAATTTGAAAAACAACGTGTGCAGGAAAGACTCTCTGG
Y
CTTCCCCTGAAAGAGCTCATAGAACGCTCATGTGAGAGGTGCCCTCCCATCCCTGGAGGAAAGGAGCATCGTGATCCCTGAAGACAGAGGGACACTGACA
Celera SNP ID:            hCV1792297
SNP Position Genomic:     133426
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19931):
TCCCCTGAAAGAGCTCATAGAACGCTCATGTGAGAGGTGCCCTCCCATCCCTGGAGGAAAGGAGCATCGTGATCCCTGAAGACAGAGGGACACTGACAGG
K
ATATGAACAAATGGACCTCGCAAAGTCTCCCCTAGTTTACTGTACTTAGCCCACACCATTTTGTCTTATTGTATTTTTCCATAATTTTCCACTCTTCATC
Celera SNP ID:            hCV1792298
SNP Position Genomic:     133529
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19932):
GACAAGAAAATACAGGATAGTAAAGAGTGGAAGATTAACCTGGGGTGATGTCACAGACTGTGACTGGGTGGATGGTCCAGGAAGGCTCTGCAAAGGTAGC
R
TGTGAGCTGAGATCTGAAAGCCAGGAAGCAACCACTATGGGAGGATGGGGAAGAACATTCCTAGTACAGGGAACAACATTCCCAGTACAGGGAACAACTA
Celera SNP ID:            hCV2029883
SNP Position Genomic:     51967
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19933):
GCAGCAAAACAGAAGTAAATTGATGCTCATCTCCCAGATTAGTTGAGAACGGCCTAATTAGCTAATGAACAGTTCCAGTCCTATGTTCTGAAAGGCTCTG
Y
TTCTGGGCAAGCCGCAGTGCTTAGCAGCAGCTGCTAAACCATGTGGACATGCTAACACCAAGCAGAGGAGCACATGTTATGTTTTGACCTGCAAAGACTC
Celera SNP ID:            hCV1792299
SNP Position Genomic:     134447
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19934):
TTAACCTGGGGTGATGTCACAGACTGTGACTGGGTGGATGGTCCAGGAAGGCTCTGCAAAGGTAGCATGTGAGCTGAGATCTGAAAGCCAGGAAGCAACC
R
CTATGGGAGGATGGGGAAGAACATTCCTAGTACAGGGAACAACATTCCCAGTACAGGGAACAACTAGCTTAATGCCCTAAGGCAGAAGCAAGATTGGTAT
Celera SNP ID:            hCV2029884
SNP Position Genomic:     52001
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19935):
GTTTGGTGTGGTGGGAGGAGCTACGGGAGGTGGGCAGGAGCCACCTGGTCAGGGAACACTTCGGAGCTCAGGGTGAGGACTGTGGACTTCATTGCAAGGT
R
TGAGACATGCACTGGAGGCTTCCGTGCAGCGGAGGGATGCCTACTCAGTGGTGTGCTGGAGCGGGCTCATGGGAGCTTCTGAGAGCCTCTTGGCACGTCT
Celera SNP ID:            hCV1673410
SNP Position Genomic:     27660
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19936):
GTTTCTGGGACTTTTGGCTGCTTGTTCAGGTTCCAGTTGTCACTGCAGTGACTGACCAACTCCATGCATGTAAAACCCGACAGCACTTCACCTCATGAAG
K
TGTACCTCCCACCTCTTACCCTGGAGCTTCCCTATTGACACCAACTCACGAGATGCACAGGACTCTCCTGGGCAACTGGAAGGTGGAGAGGAAATTAACT
Celera SNP ID:            hCV2029885
SNP Position Genomic:     52588
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19937):
CCCTGGAAATGGCTGAGTTTCCCTGTGGCTTGGAGCAGAGGGAAAAAGTGGAAATGATACCTGTGTTAAGTAACATCAAGCACCCAGGTCCACTGGCATG
Y
CTGTTAATAAAAAAATTTTTTAATGTTTTCATTCATGTATCGTTTCAACTGAATCACATGTACCCTAAAACTTAAAGTATAATAAAAATAAATAAATAAA
Celera SNP ID:            hCV1673411
SNP Position Genomic:     25200
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:19938):
ACCAAGGACCTTCATCACCTGTTGAACATAGAGAGACTTCAGCTGGGGAGAACTGAAGACCTTTACAGAAACCTCAGGACATTTTTATTCAAACCCATCC
R
TGGAGTTCCCTCAGGAGGAAGGAGCTTGGGTTCAGCTCCTAGTTGAATCAAGTAACTCTCCGCCTTCATCTGTTTAATTCATTTACACTTAGAGTAGTAT
Celera SNP ID:            hCV2029886
SNP Position Genomic:     53457
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19939):
TGCAGCTGCAGCCTGAGTTTTCCCCAGGCTGCTCTATTTGTGCCTGTAGCTTGATTTTTCAGGCTGTCTTTCATTTTGAAAGAATTTTACCAAAGACAAG
Y
TTTAGCTGTCTGCCCAACTAGTTTTTCCTTTTCTCCTCCCTCAACTGGATCATAACTTATGACTCTGAGGCTGAGTCCTGGGATAGTTGGATGTAGAGGG
Celera SNP ID:            hCV1673412
SNP Position Genomic:     23586
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,13)      total(C,13|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19940):
AGCCCACTGTGTACATGCCCGAAAAGAGGAGGAAACCTTTCTGTGGGAGCCCACTGATTACACCAAGAACAAAGGCTGCTATGTTGGGCCTTACTTGCTT
R
TCTGTGCAGCTGCAGCCTGAGTTTTCCCCAGGCTGCTCTATTTGTGCCTGTAGCTTGATTTTTCAGGCTGTCTTTCATTTTGAAAGAATTTTACCAAAGA
Celera SNP ID:            hCV1673413
SNP Position Genomic:     23481
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,13)      total(G,13|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19941):
CAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCC
S
TCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGACCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATCAACTTGGGA
Celera SNP ID:            hCV2029887
SNP Position Genomic:     54208
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19942):
CTTAGGCAAGCACAAAGCACAGCTTCTCTTGTTCGGGTTACTGTGGTTATGTTTTGGGTAGGTCCCCCACCTCCCTGTGCAAGTTCCCATGGAGCCCACT
R
TGTACATGCCCGAAAAGAGGAGGAAACCTTTCTGTGGGAGCCCACTGATTACACCAAGAACAAAGGCTGCTATGTTGGGCCTTACTTGCTTGTCTGTGCA
Celera SNP ID:            hCV1673414
SNP Position Genomic:     23389
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,13)      total(G,13|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19943):
GCACTTTGCCTTGGCTGAGCAGCAAGGTTGGGCCCTGAGGGTGGGAAGGGAGGTAGACAGTGATGGGCATGGGATCCTTTGCTGTCTGGGGCTAAACTCC
S
AACCTCCAAATCAACTTTCCCAATAAAGCTTAATATCTATTAGGGTAAGCATATTTTTGGCTTTTCTCTGGGCTGAAAGGTGACCTCATCTTATGGGAAA
Celera SNP ID:            hCV2029888
SNP Position Genomic:     69788
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19944):
TTTGTGTAATTCCCCTTATCTGTGCAGCTGCGGGCATGTCCTTAGGCAAGCACAAAGCACAGCTTCTCTTGTTCGGGTTACTGTGGTTATGTTTTGGGTA
R
GTCCCCCACCTCCCTGTGCAAGTTCCCATGGAGCCCACTGTGTACATGCCCGAAAAGAGGAGGAAACCTTTCTGTGGGAGCCCACTGATTACACCAAGAA
Celera SNP ID:            hCV1673415
SNP Position Genomic:     23349
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,13)      total(G,13|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19945):
TCAGGCTGTGGCTTCAGAGGGTGGAAGCCCCAAGTCTTGGCAGCTTCCACATGGTGTTGAGTCTGAGGTGCACAGAAGTCAAGAATTGAGGTTTGGGAAC
Y
TCCACCTAGATTTCAGAAGTTGTATGGAAATGCCTGGATTCCCAGGCAGAAGTTTGCTGCAGGGGCAGGGCCCTCATGGAGAACCTCTGCTAGGGCAGTG
Celera SNP ID:            hCV2029889
SNP Position Genomic:     122128
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19946):
AAATGAAACCACTGCCAACACAGAATTGCCAATCTTGCTTCCAATTTCTCTGTTAGTTTCAGAACATTTAGGGTTGAAGAGGTTTTTCTTGATGTCTAAC
Y
CAAATTCCTCCTTCCTAAAGCAAAGACTTTACAGGAACCTTGGCAAGGTTTCCCTATGGGTAGCAAAGCTCTCTGAAACATGGACTCTGAAGATTAATAG
Celera SNP ID:            hCV27477260
SNP Position Genomic:     297312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19947):
GAAACTCCCCTCATCTCTGTAGCTGTTTGTGTAATTCCCCTTATCTGTGCAGCTGCGGGCATGTCCTTAGGCAAGCACAAAGCACAGCTTCTCTTGTTCG
K
GTTACTGTGGTTATGTTTTGGGTAGGTCCCCCACCTCCCTGTGCAAGTTCCCATGGAGCCCACTGTGTACATGCCCGAAAAGAGGAGGAAACCTTTCTGT
Celera SNP ID:            hCV1673416
SNP Position Genomic:     23324
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,13)      total(G,13|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19948):
TCCAGGTGGTGGTGATGGTTGGTGTGTGCTGCTCTTGGGCCCCAGTGGTGGGTTTGTGATTCTGGTTCTGCTGCAGGACAGTGACACTCACCAAGCTGTG
Y
TGGGTGTAGTTGTCTCAGGGAGGTGCCTGCTTTCAAACCAAAGTTCCTTTGATGGGGAGGACTGACCCCAGGAAGACTGATTGCGTATCAATATTACTCT
Celera SNP ID:            hCV1673417
SNP Position Genomic:     21527
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19949):
TACCTACCTCACAGGGTTGCCTTTATTTTTTGCTGTGTTCTGTGCCTATCATCTGGTTGGCTGGGGGCTTTGGGCAAGTCATTTTCTTCCTCTACAACCA
R
GGATGGGGAAGCAGCTTCTCTCTGACCTCATCACTTCCTACTCTCTTGCCTACTTCTCTTCAGCCACACTTTCTATAACTGTGAAAGGGGAAAGAGAAGC
Celera SNP ID:            hCV26752210
SNP Position Genomic:     274752
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19950):
CAGCAGGAAACAGAGAGATGGAGTTATTAATTGTCAGTCCATGAGCCCACCCTCTCAAGGTCCTAATTAGCATGCTGACAGCTTCGGTTTTATCCAGAGC
Y
AGGGCAAGGCTCTGGGGACACTGTGGCTCAGCTAGGGGCATCCGGCACAGAGTGGAGAGCCCTGGTGCCTTTCTGGGTGGGGTGGAGGGGCGCTTGCAAG
Celera SNP ID:            hCV1673418
SNP Position Genomic:     21223
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19951):
CATCCAGCATCATGTCTGCTGCATAGTATATACTAATTAGGAGAATTTGATGAACAAATGGAGAAGTTTTCCTCCCAGGAGCATGCTTACAAAGGAAACA
T
TTTTTTTTTTTTTTTTGCCTTGCCTAGGTAGCACATAGCCCACCTTTAAGTTTTTTTTTTTTTTTTTTTGAGACGGAATTAAGTTTTTAAATGATTTTTA
Celera SNP ID:            hCV26752211
SNP Position Genomic:     278036
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19952):
TATTCCAGCAACCCTATCAATGGATGTTCCCAGTTGCTTTGCAGTTACCAGCTGTGCTGTAGTAAGCCTCCCCTACATGCCTTTAGGATGTGCACTTTCA
Y
TTCTGTAGGGTCAAGTCCTAGAAGTGGGACTGTGGACAAGTCTTTCCCACGCTATGCCCTCACTCTCCGGAGGACTGGCACTTCTCTCAACACCCCTCCT
Celera SNP ID:            hCV1673419
SNP Position Genomic:     20930
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19953):
TGATTAGATCACGTTGGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGTCGTGAAGTCTTTGCTCATGCCTGTGTCCTGAATGGTATTGCC
Y
AGGTTTTCTTATGGGGTTTTTATGGTTTGGGGTCTTACGTTTAAGTCTTTCATCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGGGTCCAGTT
Celera SNP ID:            hCV26752212
SNP Position Genomic:     282933
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19954):
CTGCCCTGAGAGGTAGCTCTTTGAGAACAATTGAGTACTCCTGGGAAGGAGGAAGCAGCTCAAATAAAAAGATCTTTAGATCCCTTTCTTTTAGAATTCT
Y
TATTGGAGCTAAGAGACCAGGGAATTTTATTTGATTATTCTGATAATAGTTTTCCCAAGCTTTTCAGGGTGTAGGGCTGAGAGTACAGAGAGGTTTCTAG
Celera SNP ID:            hCV26752140
SNP Position Genomic:     92199
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19955):
GCTAACAATAACAATTCTACATCTAGAAAACTCTAAAGACTTCACGAAAAGTTTCCTGGAACTGATGAACAACTTCAGTGAAGTTTCAGGATACAAAATC
M
ATATAAAATTCAGTAGCATTTCTATACATCAGTAGTGTTCAAACTGAGAGCCAAATCAAGAACACAATCCCCTTTACAATGGCCACAAAAAATAAATACC
Celera SNP ID:            hCV26752213
SNP Position Genomic:     284842
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19956):
TAAAATTCAGTAGCATTTCTATACATCAGTAGTGTTCAAACTGAGAGCCAAATCAAGAACACAATCCCCTTTACAATGGCCACAAAAAATAAATACCTAG
S
AATACATCTGCCAAGGAGATGAAAGATCTCTACCAACAAGAAAAACTATAAAACACTGCTGAAAGAAATCATAGATGACACAAAAAACTGGAAAAATATT
Celera SNP ID:            hCV26752214
SNP Position Genomic:     284946
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19957):
GTTTCAAAGGCAGGATGCAGGTTGAAAACATCAGTTTCTGTCTCTTCTAGTGCTTTTTTTTTTTTTTTTTTAATTTCAGGACTAGCCACATGTAAGTTAC
W
AGGTTTACAAAAGCCAGCCAAGGCTAAAGGGTGTTGCCCTGCTGGGGTGGGAATTGCTAGTGGCATGACTGTCCCTCATTACCTCTGGATTTGACATTGC
Celera SNP ID:            hCV1432821
SNP Position Genomic:     383188
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,6)      total(A,5|T,6) ;no_pop(A,-|T,-)   SC_12_C(A,6|T,17)   SC_12_AA(A,3|T,14)   SC_95_C(A,40|T,143)   total(A,49|T,174)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19958):
TCTGGATTTGACATTGCTTTTCAGGAGTGGCCGGAGTGGATACCCTTCGATGAGTCCACTCTCTCCCCAGGATATATTCCAGTTGGCTTGTATGGACCCC
R
CCGATGACGGACAGTTCCAAGAACGGCAGTCTCTGGTGAATGCATGAGTTATATGACCTCAAAACTACTTCCTTGGTTTCCTGATCCCTCTCACTAATTT
Celera SNP ID:            hCV1432822
SNP Position Genomic:     383372
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,23)   caucasian(A,17|G,17)   total(A,20|G,40)
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   ;(G,-|A,-)   no_pop(G,-|A,-)   JBIG-allele(A,338|G,395)   total(G,395|A,338)    
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:19959):
ACTCCAATTCACCTTACTTCCCTGTATGCAAGAGCCGTATGTGAGGGGACCTACAGGTTATCCTCCCTCAGAGGAGCCAGGTTTGGGGCTGGAGGAGCAA
Y
CTAAAATTAAGGATGACAGAATTGGGTAAGGAGAAGTATCGGGAATGAAACACGACTTGGATTTGTGTCACTGTACAATCTCTTATGGGAATCTAGTCAG
Celera SNP ID:            hCV26752215
SNP Position Genomic:     298515
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19960):
CCCCAGCCCCTCATTCATTTCTTCTTTCCTAGACATGACAGAGAAACTGGCAGGACTTACAGTGGGTGCTGGACTCCCTCAGATTCAGTCTGCAGCTCTA
T
TTTTTTTTAAACGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCACAGCTCACTGTAACCTCGAATTCCTGGGCTCAAACAGTCCTTCCAC
Celera SNP ID:            hCV26752216
SNP Position Genomic:     302497
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,18)   total(-,18|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19961):
TACACATGGGCAGGCCCAGCACAGACATCCAGGAAGGGCCAGGCTGTGCTTTTGCCTGTGTCTCATAAAGCACAGTCCTCTTCTCACTGGTGCTTCTGCT
Y
CTCATCCCCACAGGAGAAGACAGAACCTTATTTCATTGGGATCTTTTGCTTTGAAGCTGGGATCAAAATTGTGGCCCTGGGGTTCATCTTCCATAAGGGC
Celera SNP ID:            hCV26752144
SNP Position Genomic:     104203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19962):
TGATTTTAGAGGTGGTTCCATAGGAAAGAGAAGCTTATATATTTGTTTTTCTACTTCAGTTTAAAATTGGGATAATTATCTAGATAGACCCTCATTCAAA
M
ACACACACACACACACACACACACACACACACACACACACACACACACACACACCCTTATATTAGCAAGTCCTCACAGAGAATATCTCAGTCAGCTGTTT
Celera SNP ID:            hCV26752217
SNP Position Genomic:     311469
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4|-,11)   total(A,4|C,4|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19963):
TTTAGGATTGTATTAGAGACCCACTGTAAGGACTGAACTTTAACCACCAGTTCCACTTCAACCTAAACAGTGCTACCTGGAGTTATTTCCTGTGTTTGAA
T
TTTTTTTTTTTTGAGACAGAGTTTCACTCTGCAGCACAGGCTAGAGTGCAGTGGTGTGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACACCAT
Celera SNP ID:            hCV1432825
SNP Position Genomic:     388300
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19964):
TCTTTTGCTTTGAAGCTGGGATCAAAATTGTGGCCCTGGGGTTCATCTTCCATAAGGGCTCTTACCTCCGCAATGGCTGGAATGTCATGGACTTCATCGT
S
GTCCTCAGTGGGTAAGTCCATTTTCTCTCTCTGTCTGTGTGTGTGTATGAAGGGGGTTGGTATCATGAGGTGGCTGGGGGCAGGGAACCTGGGGTGGAAA
Celera SNP ID:            hCV26752145
SNP Position Genomic:     104345
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,11)      total(G,11|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:19965):
TACTTCAGTTTAAAATTGGGATAATTATCTAGATAGACCCTCATTCAAACACACACACACACACACACACACACACACACACACACACACACACACACAC
A
CACCCTTATATTAGCAAGTCCTCACAGAGAATATCTCAGTCAGCTGTTTACTTTCTACATAGCATGGATATCTAAATGTATACATTGTGCTAACACTTCA
Celera SNP ID:            hCV26752218
SNP Position Genomic:     311520
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|A,9)   total(A,9|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19966):
CTTAATTCCCTTCTGCTGGTGCCACCTTCCCCCCAAAAAGTTATGCAGCCATATTTATGATAGAGTTCCTGAGCCATATTGTTAACCAAGATCCTATATT
S
TGTGTAGCATAAATAGAAACAGAATAGATTGCATTGTTTGACATATGTGTCTCTAGTGGCACCTTGCAAACTTACCTGCTTACAAAATAGGTAATTTGCT
Celera SNP ID:            hCV1432826
SNP Position Genomic:     388933
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19967):
CGTTCTCCTGGGCCTGGAGCTCTCATTTGAAGGCAGTTAAACTCGTGCATTCTTGTGCTTGTGCATGAGTGTATGTGGAAGAGGGAGGTGGGGTGAAAAT
Y
CCCAGGTATGTTTTCAAAGCAGAGGTGGATATGGCATAAATGCGAACTCTATAGATTTACAAGAATTGAGAATTAAAGGAACTGTTTACATTTCCATTCT
Celera SNP ID:            hCV26752146
SNP Position Genomic:     111978
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19968):
CTTCAGTTTAAAATTGGGATAATTATCTAGATAGACCCTCATTCAAACACACACACACACACACACACACACACACACACACACACACACACACACACAC
A
CCCTTATATTAGCAAGTCCTCACAGAGAATATCTCAGTCAGCTGTTTACTTTCTACATAGCATGGATATCTAAATGTATACATTGTGCTAACACTTCAAG
Celera SNP ID:            hCV26752219
SNP Position Genomic:     311522
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,14)   total(A,14|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19969):
CTCCAGACAGACTCCAGGTAGGGAATGCATGCTGTCTCTTTCTCTGTGTCTGTCTCCCCATCTCCTAGAGGACAGAGTGCCAGCGACCTCTGGACAGGGG
Y
AGGGCTCCAGCCAAGGTGCCCCTGAGCCAGGGTCAACATAGAATTTCCTGCCCCGTGAAGGGCTGGCACCAGCTAGCATCCCCTTGGCTCCACATGAGTC
Celera SNP ID:            hCV1432827
SNP Position Genomic:     394949
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:19970):
TCCTGCCCACTTCCATCCCACATCCCCTCTTCAGATGAGTGCAGCCAGCTCTTTAACGTGTTAGCTTCTTCCTCCCTGCTCTTCTGTTGTCCTTTTCTTA
G
TCTCCCTAATCCTTCCCTGTTTTCATTTTACATTCTGTTCTGAAATACAAGACTTGGGGAGTTTGAGGTAGATGCCACAGAGGGTAGTACGTGGTGTTGT
Celera SNP ID:            hCV26752147
SNP Position Genomic:     115796
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19971):
AGCTAGACAGCCATTCTCATCCTGGAAACGCTGGTTTTAAGGGAGAGGCCAGTCTTCTTGTGTTTGCTGCACCCATCCTGACTTGGAAGGAAGGTCTTTG
K
TGACTCCATGAATGGCACCCAGGGGTCCAGTCTTCAAGTTCCATTGCTTTCTCTGGCCTGTGGCTCATGACTAATTCCACCCCAACCTTGTCTCAGACTG
Celera SNP ID:            hCV1097696
SNP Position Genomic:     196977
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;(G,-|T,-)   TSC_42_C(T,19|G,64)   TSC_42_AA(T,38|G,45)   total(G,109|T,57)   (T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19972):
TTTTGAGATCCTCAGAGGCCTAGGGTTAGCGTATACCAAGAATCCTGGTGAGAGGCGTTGCCATGCCTTGGGGTGAATTCTTCCCCACTAGCTCTCTCAC
Y
CAGCCTACAAGTCCTTCTCTCATAGATCCCAGAGCAATGGGCACCGTCCAGGAGGTACAGGAGAGGACTTTATGATGCAGGAAAGAAGGAAGAAGTGGGT
Celera SNP ID:            hCV1432828
SNP Position Genomic:     396024
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:19973):
CAGAGGGTAGTACGTGGTGTTGTGGTTGTGGTGTGTATGAGAGACTCATTCTGACCAAGACCTTCTTAGAACTTTGTCTATTAGACTCTGACCTCCAGTC
C
TTCTTCTCCAATAAGCAAATTCAAGTTTGGGGTGGGATCTCCCTACTGGGAATCTGATCAGGTCAAAGTTTGACTAGCTAGTACTGCAAATAAAGGAGGA
Celera SNP ID:            hCV26752148
SNP Position Genomic:     115974
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,7)   total(C,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19974):
CCTGCCTGAATTGCCACACTGATGCTTCTGGTGCCACCTCTTAGAAACTAGAGGGCTAGGGAGCTGGGTGATGCAGTTTGTAGGGCCTCACATCTCAGGG
M
ACAGAGAAGGGTGGAAAGTAGGTGAGGGAGGGGCAGGTAAGTGGAGAATAACCAGTGTGGATGGGTATTATTTGGGAAGACAGGGAGGAGCGAGGAACGA
Celera SNP ID:            hCV1097697
SNP Position Genomic:     201039
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19975):
AGAGGGTAGTACGTGGTGTTGTGGTTGTGGTGTGTATGAGAGACTCATTCTGACCAAGACCTTCTTAGAACTTTGTCTATTAGACTCTGACCTCCAGTCC
T
TCTTCTCCAATAAGCAAATTCAAGTTTGGGGTGGGATCTCCCTACTGGGAATCTGATCAGGTCAAAGTTTGACTAGCTAGTACTGCAAATAAAGGAGGAG
Celera SNP ID:            hCV26752149
SNP Position Genomic:     115975
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19976):
ATGACCAAACCATGATTGTCAGGCTTGGAAGACTGGGCTTTATCCTGCAGACAAGGGGGGCTACAGCAGTTGTTTCCACAGAGGAGATCCATTATGAAAA
S
TGTCTGGAGAAATGGTTTGGGCAGAGGTATGTGAGTAGAGGGAGGCAAGGAATGACCAGAACACTGTTGTGACCACCGGTGAGAATGGAGAGCGCTGGGT
Celera SNP ID:            hCV1097698
SNP Position Genomic:     201351
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;(C,-|G,-)   TSC_42_AA(G,25|C,58)   total(G,25|C,58)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19977):
ATTATTACTGCAACTCATGAATGACCGTCAGAGGTTTCTGAGCCTACAGGGCTGGGGCAGGGGTGTCTCCTGACCATTTCAATCTTCTGCCACAGCCTGG
R
CCACACAGACAGCTTTAGCATCAGAAGAGATGGCCACACCCAGAGCTGGGCCCCCAGTATCCACAAAGGAAAGTTCAGCTTAGGAAGAAGAAATGGGGAG
Celera SNP ID:            hCV1097699
SNP Position Genomic:     201823
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;TSC_42_A(G,0|A,84)   TSC_42_C(G,0|A,84)   TSC_42_AA(G,25|A,58)   total(G,25|A,226)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19978):
CTTGGTATGCAGGGCTTCTCATGAGCCACTCTGCACATTGCGCCAGCTTTCCTTGACCACTGTAATCACTGTCTCTCCAGCTGCTTCAGTGGCTGCTGAT
S
CCTGAAGGCACCATCCTCTTCCAGGCCTCCGTGCCTTTGCACTTGCTGCTTTTCCACCTAGAATGAGTCTGGCTTTAAGATTGTACTCAGAGGTCACTTC
Celera SNP ID:            hCV16189491
SNP Position Genomic:     86826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19979):
TGTGCATCTTTCTTTGGCCATTTCTGGAAAGATGTCCATAACATCTCTTTCACGCTGCAGAGTATTCCTCAGCATGACTGAACCACAGTTTATTCCAGCA
R
CCCTATCAATGGATGTTCCCAGTTGCTTTGCAGTTACCAGCTGTGCTGTAGTAAGCCTCCCCTACATGCCTTTAGGATGTGCACTTTCATTTCTGTAGGG
Celera SNP ID:            hCV1673420
SNP Position Genomic:     20840
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19980):
GCCATGTAATAGGCTGCAAAAAGTAGCAGCTCTGCTTCCCATCTCACTTGGGGCATGGGGAGAGGAGGATTGGGTTTAGGGAGGAAGGGTACAGGTGTGA
R
GGGCACAGGTATGAGGTGCATAGGTATGAGAGACTCAAGTGTGGGGGGCACAGGTATGGGGGCATAAGTATGAGGGACACAGGTGTGAAGGGCACAGGTA
Celera SNP ID:            hCV16189498
SNP Position Genomic:     35004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19981):
AGCCAAAGGCGTTTTCCTCTTGGATGTGAGGGGATGGGTGAAGACACGTGCAGAAAAGGAAGTGCTCATTGTGGAGGAGGTGAACATAATTGGAGGAATT
Y
GCTTTGGCCTTTTTGGCTGAAAAAAATATTTATGAAATTGCTGTACACCCCCGCTCCCCCCCCCGACCCCAAGCAGAGTTAGACACCTATAGAATTCCAG
Celera SNP ID:            hCV1673423
SNP Position Genomic:     18318
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19982):
GATTGTGAGAGTAGCCTAATAGAGTAGTTTTGTTTGGTTTTCTTACTTGACCCAGGGGTGTTATTTTCTTGGCCTAAGTGTTCCTGAATCCCGCTGAACA
D
GTAAATTCAGCCCATAAATCCATGTCACACACAATCCTGAGTTTTGATTTCTCAGGGTTTTGCTTTTTCTCATTCACTCAGAGACAGAAGCTTCCTTGTT
Celera SNP ID:            hCV3194700
SNP Position Genomic:     58836
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2|T,2|-,8)   total(G,2|A,2|-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19983):
AGGGAGGAAGGGTACAGGTGTGAAGGGCACAGGTATGAGGTGCATAGGTATGAGAGACTCAAGTGTGGGGGGCACAGGTATGGGGGCATAAGTATGAGGG
R
CACAGGTGTGAAGGGCACAGGTATGAGGGACACAGGTATGAGGGTCAGGGCATGAGGGAGACAGGTGTGAGGGGCCAGGTGTGATGGGCACAGGTATGAG
Celera SNP ID:            hCV16189499
SNP Position Genomic:     35081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19984):
TAGCGCCAGCTGCTCAATTTGTTTTCCCTCTTTTTCAGAAGAGATATTTTTTCTTCTTTTATGGTGCCCCCAAGTGGTTGTTTCTGTGTATTGCAGCCGC
R
GTCTCACTGGGATGCTTTCCGCTGTGTAGCTGGAGGGGCTGGGGCAGCCTGGTGGTCAGCACTCACATCACAAGAAAGGAAAGCGAAGCCAGGAGGAGAA
Celera SNP ID:            hCV1673424
SNP Position Genomic:     17993
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,11)   total(G,2|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19985):
CTTAGTGCTTCAGCCAGAGGGTGAGGAGGGAGGGGGAGTGGAGGAGGCTTTCCAGTGAGTCATCCCTCCTGCATGTTAGGAGTTTTGGTTAAAAGATTTA
S
AGAGAGAGAGAGTGAGAGAGAGAGAGTGAGAGAGAGAGAGCGTGAGAGAAAGAAAGAGAGCAAGAAAGCGAGAGAGAGAGCACGAGAGCACACAAGTGAG
Celera SNP ID:            hCV3194701
SNP Position Genomic:     62885
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19986):
ACAGTGCTGGGAGCAAGGGCTGGGGGAGATCTGTTGTCCCAGTTCTTCCCTTCTAAGGCAGGCCTTGGGGGAGGACTCTCCCCCAAGACTCTGCAGCCTG
K
TGCTCAAGCCGGATCGGCCCGTTCTGTGCTTCCTTTTGTGGCACCATCAGAGTCTCCTCCCTGTTTGGAGGCTCAGGTGAATCAGTCCCCTCTCTCCCAC
Celera SNP ID:            hCV1673425
SNP Position Genomic:     17649
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19987):
ACTTTTCTTTGTAATTATTCTTTATTTGTTTGATCCATGTCCATTTTTCTTTTTTTTACAGCTCCAGAATTTGCAATATGAAAATAGAGATTATTTAAAC
A
AAGGAAAGTAGCATAACTGGAAACTTTGAATTATTCTATTAATACTTGACTACATATGGAAGAATATTATTGAAAAATATGATCCAGTGATGGGGTGGTT
Celera SNP ID:            hCV3194702
SNP Position Genomic:     66987
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,13)   total(A,1|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19988):
GGAAGAATATTTTTGGGGCAGTGTGAAGCAGGCGCTGTGAGCAGGGCTTTGAGGCAGGAATGGGCATGACACGTTTGTTTATGTACCTCATACTATGGTA
Y
GTGAGGAGATAGTGTTGGAAAGATAGGTTGAATTCTGATTGCCTTGAATTGTCAGGCTAAGGTGTCTGGCCATTTTATAGGCAGTGGGGAGCCACCGAAG
Celera SNP ID:            hCV3194703
SNP Position Genomic:     68450
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,14)      total(C,14|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:19989):
TATTGTGTACTAAGTTTTATAACTTTAGCAAGTGGGCATGTCACAATGTTTTACTAATACTTTAATATAGTTCTCTCCAGCTTAAAACATTTTTCATACA
Y
ATGATCTCATCTGAGCCTCACAATGACCTCATGAATTAGCTGTTATTATTTATAATTTACAGGAGAGAAAAATGAGCTCCGAAGTTAGAGGTGGTACTAG
Celera SNP ID:            hCV1673427
SNP Position Genomic:     13344
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19990):
ATCCTCCTGGATATTGAGGGCATGGTGCCAGGAACACTTGGCCTCTGATCAAATTCAATTTGAGGATGGTAAGCATAGCATTTCCATAGGCTTAGTGTCA
Y
TGTATAGTTTCTTCTCTTGATAAACAATTTAGAATTACCCTATTGCTGTCCTGAAGGGCAGCATGGGTTTTAGAAAGAGCCGCAGATTGGAAGTCAGATG
Celera SNP ID:            hCV3194704
SNP Position Genomic:     72545
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:19991):
GTATGCCGCCAGCCTGCTGAGGCAGAACCACAAAGGAAAGGGGTGAGGTGACAGCATGAGAGTGAAGTTCATGAAGCTTTCTGGCCTGCAAGGTTATACA
R
TCTAGTATAATCTAGTGTAAAAAGCTACATGATTTATGTCATCACCCATCTTGTTCATTATAGTATCCTCAGTGCCTAAAACAGTGCCTGGCACCTGGAA
Celera SNP ID:            hCV3194705
SNP Position Genomic:     73636
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19992):
CTCTGCCCCACTTCAGGGCTGCCCAGGATCTGCATGCACTTTGTAGAGATGGAAATTTTTCCTCCCTTCTGTCTCCTGCCTTTCAGCTTCTCCTGACTTA
Y
GTTCTTTAGACAGGATCCCTTTGGCTCTAGGACAGGGGCAGCCTGGTCCTTTCCCAGGGCTTGGATTTACTGTAGTGGGAAATCAGGCAGGGTTCTCTGT
Celera SNP ID:            hCV1673428
SNP Position Genomic:     12798
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19993):
CCCTGCTCACGTGTGTGTACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGAACAT
Y
GCTCAGGTGTGTGTGCCCTGCTCAGGTGTGTGTACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCA
Celera SNP ID:            hCV26752221
SNP Position Genomic:     321784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19994):
CATTTTTCTTGGAAGCTACATCTGCATAGGGAGATAATTTTATTTTCTTATGGCACTTTCCTCTGCAGTGGATACCATACTCTTTTTAAAAATGCTAATG
Y
GATTTAAAATGTGATGTTACATTCTATACGATTCCTCGTTTTCATTTTCTTTTTTGCTCATCTAATAGATCTTCTCTGGCAGTTGGCTGTTCTGAGTGCC
Celera SNP ID:            hCV3194706
SNP Position Genomic:     80408
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:19995):
ACGGACACACAAACACACACACATACATACAAGCACAGATATTTTGCACTGGAGTGCAAGCTTCTTGAAAGCAGGGCCTTTGTCTTACCTTCAGGGTCCA
R
AACAGTGCCTAGTGTGCAGTTGACTCACAATAAGTGTTTGCTGAAAGAATGATGAAGTAAACATATTGAGGGGAATTGATATCCATTCTAATCAGCTAAG
Celera SNP ID:            hCV1673429
SNP Position Genomic:     12487
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19996):
TGTGTGTACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGAACATTGCTCAGGTGT
R
TGTGCCCTGCTCAGGTGTGTGTACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGA
Celera SNP ID:            hCV26752222
SNP Position Genomic:     321795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:19997):
GAGGGTAGTACGTGGTGTTGTGGTTGTGGTGTGTATGAGAGACTCATTCTGACCAAGACCTTCTTAGAACTTTGTCTATTAGACTCTGACCTCCAGTCCT
T
CTTCTCCAATAAGCAAATTCAAGTTTGGGGTGGGATCTCCCTACTGGGAATCTGATCAGGTCAAAGTTTGACTAGCTAGTACTGCAAATAAAGGAGGAGG
Celera SNP ID:            hCV26752150
SNP Position Genomic:     115976
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:19998):
CCTGTTGGCTTTGCTTTTGATATGAAGTGTGGGTAATGTTTCATGTGGAAACCAGGCCATGACTTGTTGTGGGGACCATTTATAATTGGGATGAAGCCTG
R
AAAATGAGTTGGAGTGAAGGAATTTGACAGAAATGAAATGACTTGAGGATAGAGACAAAAATATCCTCAATGTGATAGTTTTGTCTGTTGGTTTGCATGT
Celera SNP ID:            hCV3194707
SNP Position Genomic:     81447
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:19999):
TGTACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGAACATTGCTCAGGTGTGTGT
R
CCCTGCTCAGGTGTGTGTACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGAACAT
Celera SNP ID:            hCV26752223
SNP Position Genomic:     321799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20000):
AATGTATTGGTATAGAACTGATACACATTACTTCTAGTCACATCCCATTGACAAGGAACAGCCATGTGGCTCAGCCTAGTTGCAGGTGAGACTGGGAGAT
Y
TAATCCCTAATTGGGCAGCTGCCTTCTAGCAACAACCTTGCCCTGTGGGAAGGAGAGCATCAATTTTGGAGGACAGTAATGATCTCTTCATTATCTATGT
Celera SNP ID:            hCV26752151
SNP Position Genomic:     117656
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20001):
GCTAATGCGACTGAGAACTAAATTTTAAATTTTACTGACTTAATTTTAGTTAAGTTTAAATAGCCACATATGGCTAGTGGCTACTGTACAGGATGGCACA
R
GCAGAGGGAATACATGATGAGTCAGAAAGCTTAAGCTCCCCTTTGGTTCTGTCATTTGTTAGCCTTGTAACTGGGCAGGGTCTCCTTGGCTTGGTATGCA
Celera SNP ID:            hCV3194708
SNP Position Genomic:     86636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20002):
TCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGAACATTGCTCAGGTGTGTGTGCCCTGCTCA
S
GTGTGTGTACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGAACATTGCTCAGGTG
Celera SNP ID:            hCV26752224
SNP Position Genomic:     321809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20003):
TTTTACTCCCCATCTTTCCACTTCTGATATGGTTTGGTTGTGTCCCTACCCAAATCTCAACTTGTTGTATCTCCCACAATTCCCACATGTTGTGGGAGGG
R
CCCGGGGTGGGGGGGGCAGTAATTGAATCATGGGGGCTGGACTTTCCCATGCTATTCTCATGATAGTGAATAAGTCTCATGAGATCTGCTGGGTTTATCA
Celera SNP ID:            hCV26752152
SNP Position Genomic:     120982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20004):
TGCTCAGGTGTGTGTGCCCTGCTCAGGTGTGTGTACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGC
W
CAGATGTGTGAACATTGCTCAGGTGTGTGTGCCCTGCTCAGGTGTGTGTACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAG
Celera SNP ID:            hCV26752225
SNP Position Genomic:     321884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20005):
TGTGGGAGGGGCCCGGGGTGGGGGGGGCAGTAATTGAATCATGGGGGCTGGACTTTCCCATGCTATTCTCATGATAGTGAATAAGTCTCATGAGATCTGC
Y
GGGTTTATCAGGGGTTTCCACTTTTGCTTCTTCCTCATTTTTCTCTTCCTGCTGCCATGTAAGAAGTATGTTTCACCTCCTGCCATTATTCTGAGGCCTC
Celera SNP ID:            hCV26752153
SNP Position Genomic:     121072
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20006):
CAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGAACATTGCTCAGGTGTGTGTGCCCTGCTCAG
R
TGTGTGTACACTGCTCAGGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGAACATTGCTCAGGTGT
Celera SNP ID:            hCV26752226
SNP Position Genomic:     321810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20007):
TTCCAGCTGTGGCTGAAAGGAGCCAATGTACAGCTCAGGCTGTGGCTTCAGAGGGTGGAAGCCCCAAGTCTTGGCAGCTTCCACATGGTGTTGAGTCTGA
G
GTGCACAGAAGTCAAGAATTGAGGTTTGGGAACCTCCACCTAGATTTCAGAAGTTGTATGGAAATGCCTGGATTCCCAGGCAGAAGTTTGCTGCAGGGGC
Celera SNP ID:            hCV26752154
SNP Position Genomic:     122094
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|-,8)   total(G,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20008):
TGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGAACATTGCTCAGGTGTGTGTGCCCTGCTCAGGTGTGTGTACACTGCTC
R
GGTGTGTGTGCATTTTGCTCGGGTGTGTGTGCCCTGCTCAGCTGTGTGTGCCCTGCACAGATGTGTGAACATTGCTCAGGTGTGTGTGCACTGCTCAGGT
Celera SNP ID:            hCV26752227
SNP Position Genomic:     321943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20009):
GCTTAGGAAGGGAGGTGGGAAGGAGGAATTCTGGAACAACTCATGCAGGTGGCACAGGATGGAGATATTTGAACTGTCATCTATCCAGTTAAGGACACAA
Y
AATGCAGTCATCTGAACATCAAGTATCTGACTCAATAACTAATAATTGCCCTTTCCTTCTGGTACAGTGAATGGTTTGATAATCTCTAGGGCTTCTTTCA
Celera SNP ID:            hCV1097776
SNP Position Genomic:     376745
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,11)   caucasian(C,30)   total(C,43|T,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20010):
GCAACACCTTTGTTTTGGCCAATTTTTCCCATTTGGAATGGCTGTATTCCCCCAATACCTGTACCTCCATTGTATCTGGGAAGTAACTAGCTTGATTTTG
R
TTTTACAGGCTCATAGGTGGAAGGGACTTGCCTTGCCTCAGATAAGACTTTGGACTGTGGACTTTTGGGTTAATGCTGAAATGAACTAAGACTTTGGGGG
Celera SNP ID:            hCV26752155
SNP Position Genomic:     122674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20011):
AAATCTCACAAGATCTGATGGGTTTATCGGGGTTTCCACTTTTGCTTCTTCCTTATTTTTCTCTTGCCGCCGCCATGTTAAGAAGTGCCTTTCACCTCCC
R
TCATGATTCTGAGGCCTCCCCAGCCATGTGGAACTGTAAGTCTAATTAAACCTCTTTTTGTTTCCAGTTTCAGGTATGTCTTTATCAGCAGCATGAAAAT
Celera SNP ID:            hCV26752156
SNP Position Genomic:     123085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20012):
GCTTTGGGGGACCCTGCTCCCCAACCAAAGTCAGCTGCCTTGTAGGGAGGTCACATAACCACTACACAGATTACATTCATGAACCTCACAGAACCCTCAT
R
TTTCATGTGTTTCATGTCTAGTGAAGTGACTTGGGCAAACAGGTGGGCAGGGACAGCATCTCTGGAGAAATGTAGGAGAGGACCAGGACACCTGTGCGTG
Celera SNP ID:            hCV26752229
SNP Position Genomic:     336437
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20013):
ATAAAACTTTTTGATAACTGATAGTGCCAATCTTCCCCTCCATTTGTCTTTAAAACTGGCTAATCTTAGCCATTATAATTTCATATGAATTAGAACTAAC
T
TGTCAAAATCTTCAGGTTTTGTTTGGAAATGCAGTGGATTTATTGACTACTTTTGGGGAAAATTAACATTTTCACAATGTTGAATCTTACCAATATTTCT
Celera SNP ID:            hCV26752158
SNP Position Genomic:     126456
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20014):
TAAAACTTTTTGATAACTGATAGTGCCAATCTTCCCCTCCATTTGTCTTTAAAACTGGCTAATCTTAGCCATTATAATTTCATATGAATTAGAACTAACT
T
GTCAAAATCTTCAGGTTTTGTTTGGAAATGCAGTGGATTTATTGACTACTTTTGGGGAAAATTAACATTTTCACAATGTTGAATCTTACCAATATTTCTC
Celera SNP ID:            hCV26752159
SNP Position Genomic:     126457
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20015):
ATTCTAGGTACTTTATAAATATTAATTAATTTATCCATGTAATAATTGATTGAAGCTGGTACCATTATTACCATTATTGTCCCCATTTTTGCACTTGGGG
K
ATAGAGAGTTTAAGTCACTTGCCCAAGATCATAATGTCAACCACCTCTTAATGAGCCTCCCTGCCTCTGCCCCTCCCTGCTAGACTCTGTTTCCCCAACT
Celera SNP ID:            hCV1673430
SNP Position Genomic:     11816
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20016):
TGCACCCTGACCTCTTGGTTCCTTAGCCCCTTCTGTTTGGTGACTTTGCCTTCTTGCTTCCTGCTGACAGCTCACCTCCATGGTCTGCCTGGACATTGTC
R
TAACTGCATTACTCCATAATCTCGGTTTCAAGCATCCCACTGTGTGATCACCCCCTCTTTTCTCTCCACTCCCTCTAGTGCTCAGTTCCCAAGATTCTTT
Celera SNP ID:            hCV1673431
SNP Position Genomic:     9891
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,16)      total(G,16|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20017):
GTTGCCACCATCTACAAACTCCCAAGTCACTTGCTTCATTCCAGGAAGAATGGGTTAGCCCTGGGTTTACTGCCTCTCTTCCCCACGTCTTCAGCTGCTG
K
CAGTTCTTAGTGATTTCAGTATCCATGTAGATGACCCTTCCTGCACCCTGACCTCTTGGTTCCTTAGCCCCTTCTGTTTGGTGACTTTGCCTTCTTGCTT
Celera SNP ID:            hCV1673432
SNP Position Genomic:     9749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,13)      total(G,13|T,1) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20018):
CAAAGTGGTTTCATGGTCATTTCCTCATTTTGGCCAGGTCCCTTCATTCTCTTGCATTTAATCCTCTCCGAAGTCTTTTTCTGATTTCTCTGGCCATCGC
R
TTCCTCCTCACTCTCAGGTTGGGATGGGTTTTTGTGTTGATTTGTTCTTTTCAGGATACATATAGCTTTAATTGATTTTGTAGTGATAAATGAACACATG
Celera SNP ID:            hCV3194710
SNP Position Genomic:     97988
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20019):
ATTAATATAGCCATACGACATTGGGGCTGACCCAGTGTCACAGCAGCATATATGATGGCAGTACATTTAGTTAAATATTTGATAAATCATTCTTTTGGAA
R
TGAATATAGTATGAGGAAGCTGGGTTGACCCAGTGCCCTTGGCAGCAAATGTGTTGGCCTTGGGAATGGTGTGACGGGCAGGCCTTCCTGGGCTTTTGTG
Celera SNP ID:            hCV3194711
SNP Position Genomic:     105019
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20020):
GTATGAGAATCTGAATCATTTAGAAATGTTATGATTCTATCTAGAAGAAAAGTGTTGTATAAGTCACTACAGAAGAACAACAAAAAAAGAAAAGTATTGT
R
ATGTGTATATAATAAGTTTGTGTAAATTCTTGGTCCTGCTCAGCTCTATATGTGGCAGAATCCATTTGAAATTTCTTGTCTAGTCCATTTATTTTTGTTT
Celera SNP ID:            hCV3194712
SNP Position Genomic:     105905
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20021):
AAACTTTAGTGTTCTTTGGCCTATAAGTTGAGGGTGTGCATGGTTTAGAAAGCGCATTTATGTACATTGCTTCATCTTGTCCTCATAATGCCATAGAAAA
S
ACCTTGCTAGCCTCATTTTACAGATGAAGAAACCGAGGATCAGAGAGGGCACATGAATTGCTAGCAGGCACTAGATCCAGGACTTGAGACCACATCTCCT
Celera SNP ID:            hCV3194713
SNP Position Genomic:     107789
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20022):
TGAATGACTATGATAGTACCCCTGTGAGATAGTTTAAAAGAAGTGTTGGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
Y
GGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCCTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGG
Celera SNP ID:            hCV11886161
SNP Position Genomic:     54151
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20023):
GGTAAAGAAGGCATGTCACTTTAACTGTCAGCATAGCATGGTTTGATGTGTAGAGAGTGGATCAGAGTTCCAGCTGATTTCTTCCTTAAATGGCTTGTTT
K
TTCACTCATTCACTCACCAATTCATTAATTCAGTGAAACTAGTATTGTGTTGGTGAAGGCAGAAGGCAATGCTGGGACCGAGAAATGTGGACGTTATTAT
Celera SNP ID:            hCV3194714
SNP Position Genomic:     108253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,10)      total(G,10|T,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20024):
GACTATGATAGTACCCCTGTGAGATAGTTTAAAAGAAGTGTTGGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGC
R
GATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCCTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCT
Celera SNP ID:            hCV11886162
SNP Position Genomic:     54156
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20025):
TGTAACCCATCTCAGCTTGGCTTTCCTTTATGAAACTTCATTTATGAAGTGAAGGTAAAACCTGCTGTAGCTACCTCCACCAGGTTTCATGACAAGCAAA
K
AGGATAGTGATGATGTTGATAATGACAGCTCCCATTTAACCAGGAGCTCATGTCTTATTTTAAATGCAGAAGGCTTCATATTCTATATTGGCACTTGCAC
Celera SNP ID:            hCV3194715
SNP Position Genomic:     112875
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,8)      total(G,3|T,8) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20026):
GGCGTGGTGGCGGGCGCCTGTAGACCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATCAACTTGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCA
Y
CACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGTGTTGTTCAATCCATTTTATAGATGATAGTTTCTAA
Celera SNP ID:            hCV11886163
SNP Position Genomic:     54338
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20027):
TTATTTTAAATGCAGAAGGCTTCATATTCTATATTGGCACTTGCACATATTATTTTAAATATAGAAATGTAAGGCAATAGTGATATTATCTCCATTTTAC
R
GATGAGGAAACCAAAACTTAAAGAGGCAAAGTCACTTGCTCAAGGTCAAATAGTTACTAAGGGGAGAGATTGGCCCTTTAATTCTATTATCAACAATTCT
Celera SNP ID:            hCV3194716
SNP Position Genomic:     113030
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20028):
TCAAAGGAAAATAACCAACATCCCAAGAAATCTATAAGAAAGCTTTTTCTTTTAAGTTCAGACCCAGATGGTGTCTTCTCTCCGGTGTGATATGTCATCC
M
AGAGGGAATCCTGTGTGGCTTTGTCCTGGGGCCTCCTATGTCTATGTCCCCAGTGCAGACCCAGAACACCAGAATGGAAGCAACGGGATCCCTCTGTGTG
Celera SNP ID:            hCV26752232
SNP Position Genomic:     345353
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20029):
GAAACCTATTGCAAATTTTAAAACTATGGTAAATTTAAAATTTTCCATTAGTTATAATTTTGCCTCAAGAGAGAAGTTTACTACATATCGCACATAGGAT
R
TATCTTATTTCCTATCAGCAGCATATCTAATTTTATCAAAATTAGTCAAATCCTGCTACAGTCATTACCCATAAGAACAACAAAGAAGTTCCAAGAGTAA
Celera SNP ID:            hCV3194717
SNP Position Genomic:     113510
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20030):
AGTGGACATTAAAACTTACCCATTAGGCTGGGCATGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGCTGGTGGATCACTTGAAGCCAGG
W
GTTTGAGAACAGCCTGGCCAACATGGCAAAACCATATTTCTACTTAAAAAAAAAAAAAAATTAAGCCTTGTGTGGGTGGCGTGTGCCTGTGGTCCCAGCT
Celera SNP ID:            hCV11886165
SNP Position Genomic:     59175
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20031):
GCCACCCTCTGTAGGTGGGAGCACTTGTGGTGACATGCCTACATTTAGAGTGGTCATATTCTCTTCTGAGGGCTGGGGGCCGTGGTTTCTTTTTCTTTTC
T
TTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCCTCCACCTCCAAGAT
Celera SNP ID:            hCV26752161
SNP Position Genomic:     129940
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20032):
TTCTCTCTTGCTCCTTGAACAGGCCAGTGTGTCCTGAACAGTGCTCCTGGCTTCCCTCCACTTGGTGAGGTAGAGACCCAGGCTCCTTCTATCTGGTAGC
Y
CTGCTGTCCTCTATGATCTCGTGGTTTATGTCCCTTCAAGAGAAGTGGAAAGAGAGAGTAAGAATAAGGCATACTCCTTAAATGTATTGGTATAGAACTG
Celera SNP ID:            hCV3194719
SNP Position Genomic:     117475
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20033):
CCTATAATCCCAGCACTTTGGGAGGCCAAGGCTGGTGGATCACTTGAAGCCAGGAGTTTGAGAACAGCCTGGCCAACATGGCAAAACCATATTTCTACTT
A
AAAAAAAAAAAAAATTAAGCCTTGTGTGGGTGGCGTGTGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGACATGAGAATCGCTTGAGTTTGGGAGGTGGT
Celera SNP ID:            hCV11886168
SNP Position Genomic:     59221
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20034):
CCACCCTCTGTAGGTGGGAGCACTTGTGGTGACATGCCTACATTTAGAGTGGTCATATTCTCTTCTGAGGGCTGGGGGCCGTGGTTTCTTTTTCTTTTCT
T
TTTTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCCTCCACCTCCAAGATT
Celera SNP ID:            hCV26752162
SNP Position Genomic:     129941
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20035):
CACTGTGTTGCCCAGGCTTGTCTTGAACTCCTGGGCTCAAGCAGTCCTCTCACCTCAGCCCCACAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCC
S
GCTTGACTTGACTTAAATTATCTTAGATTCAAAATAAATAGTTTTGGTTTCTTGGACTATTACACACATACTTTGTGCAAAATCGCAGTGTGCTCTGCAG
Celera SNP ID:            hCV26752235
SNP Position Genomic:     362426
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,8)      total(G,8|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20036):
TGGCCAGGCTGGTCTTGAACTCCTAACCTCAGGCGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACACCTGGCCTGTG
R
TTTCTTTTTAAAAATCAGATTGTAGCTACTTTCTGTCCAGAGGGGATTCATCACAACATCTAGCCTAGTGAGGGTTTGTTTCTCTTTTTTCTGTCCAGTG
Celera SNP ID:            hCV26752163
SNP Position Genomic:     130247
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20037):
TGCATTTCTAATAAGATCCCTGCTGATGCTGATGCTGCTGATGGGTGCGTGTGTCGGGAGGGGACCACACTTTGGGAACCACTGTTCACTAGGGTTTCAG
K
TTCCTGAGTAAGAGCTTAAAGAATGAACATGCAAATGGCCAATAAGCACAGGAACTGATGTTCATCTGCTATGGACTGAATGTTCCTGTCCACAAATTCA
Celera SNP ID:            hCV26752165
SNP Position Genomic:     136161
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20038):
TCACAGGAGGGCATCCCACTGAATCTCACTAACTTGGAACAGCCAAGAACCTGGGCCAGAAATACAGTGAATGGGTGAGCAGGGCAGCCAGGAAACAAGG
A
AACAGTGCTGTTGAACATCAAGTCCTGTCGATTCCACCTTTGTTAACTCTCTACTCTGGTCTGTGCTGTCGTCCTGCCCCTGGTAGATTCAGGAGTACTG
Celera SNP ID:            hCV26752238
SNP Position Genomic:     368184
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,11)   total(A,2|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20039):
CATCAAGTCCTGTCGATTCCACCTTTGTTAACTCTCTACTCTGGTCTGTGCTGTCGTCCTGCCCCTGGTAGATTCAGGAGTACTGCAACATCCTCCCTTG
R
TTTCCCACCCACCCTACATGCTGCTACCAAGAGTTCTTTCTGAATGCAAATGTCACTTTATCTCTCTCCTCTCTAAACCCCTTTAGTAGTTCCTGTTGCT
Celera SNP ID:            hCV26752239
SNP Position Genomic:     368300
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20040):
GTACAGCAACCTTTTTGAATTGTTATGAAGGAAAAACAGCATGTAAAGTACTTAGTCCGATGCTTGGTTGTTTTTCTCCTTGATGTCTGGTTCCTCACCT
W
CAGGAGCCTGTCACTTGCTATCACTTATAGTTTAACCAAAACATTAGATTGTGAATCTAACAATAGAAGCCTGCAACTTCTTGTCTACCGAGAAAGTGTA
Celera SNP ID:            hCV26752094
SNP Position Genomic:     15601
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,8)      total(A,1|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20041):
TTTGCCTTAATTTTCTATCTGAGGCTTCTTAGAGCCTCCTGGTTAGAGGTAGGTATACTTTCCCCTCTGTTCCCATAACACTTTTTTTTTCTTTTTTTTC
T
TTTTTTTTTTTTGAGTCAGGGTCTCATTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACCGCAACCTCTGCCTCCCGGGCTCAAGCGAT
Celera SNP ID:            hCV26752167
SNP Position Genomic:     140983
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20042):
TGTCTGGTTCCTCACCTTCAGGAGCCTGTCACTTGCTATCACTTATAGTTTAACCAAAACATTAGATTGTGAATCTAACAATAGAAGCCTGCAACTTCTT
R
TCTACCGAGAAAGTGTACAAGAACTGCTAACTCATGCCCCCATGCCTAGCAACATGGCTTTCTCAACTTTGAAAGGATTAGAGTCATCCGTTGGTCTTAG
Celera SNP ID:            hCV26752095
SNP Position Genomic:     15684
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20043):
CCATTTTTACGATATTGATTCTTCCTATCCATGAAGATGGAATGTTTTTTCCATTTGTTCGTGTACTTTCTTATTTCCTTGAGCAGTGGTTTGTAGTTCT
C
CTTGAAGAGGTCCTTCACATCCCTTGTTAGCTGTATTCCTAGGTATCTTATTCTTTTTGTAGCGATTGTGAATTGGGAGTTCATTCATGATTCGGCTCTC
Celera SNP ID:            hCV26752168
SNP Position Genomic:     146051
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,6)   total(C,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20044):
TCATTGTGGAGGAGGTGAACATAATTGGAGGAATTCGCTTTGGCCTTTTTGGCTGAAAAAAATATTTATGAAATTGCTGTACACCCCCGCTCCCCCCCCC
S
ACCCCAAGCAGAGTTAGACACCTATAGAATTCCAGGCACCGATGAAAAGACCTTTAAAATTAATCGCACATAACTTCTCATTGAAGGTGCAGGTGAGAAG
Celera SNP ID:            hCV26752096
SNP Position Genomic:     18383
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20045):
GTCAGGTGGTCAGGTCTAACTGCATCCCCCTCCTGTCACTCCATCTCAACAATTCCCCAACCCAGTCCTACCCCATCTCAACCCTTCCTCAACCCAACCT
S
TCTCCATCTCAAGTCCTCCCCATTTCAGCCACTATCCGTCTCAAGCCCTTCCTATGTCAACCCTTATCAATTAAACTCCTCCTCATCTGAACCCTTCCCT
Celera SNP ID:            hCV26752097
SNP Position Genomic:     19092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20046):
ATTCAAACCCATCCATGGAGTTCCCTCAGGAGGAAGGAGCTTGGGTTCAGCTCCTAGTTGAATCAAGTAACTCTCCGCCTTCATCTGTTTAATTCATTTA
Y
ACTTAGAGTAGTATTTCTTTTGCAGAAAGGGATGCATGGCTAAAAATGTACTACTGCTTCCATTAATGAAAATTAATTTAGCTTAATAAGATGAGTCTGA
Celera SNP ID:            hCV27535486
SNP Position Genomic:     53543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20047):
AGAGGGGATGAGGGTGGCTCTGGCTTTGGCGGTTGGGTGTGTCTTTTGGACTGGGTGTGGTGCCCTATAGAAAGGCTGGAGCTTGGGACAGGTCTGTGTG
R
ACACCTCGATTCATCACTGCATGGTTGGTAGTTGAAACCATAGACATGGGTCAGATTGTCCCAGTGAAATGGCAGAGAAGAGGGCAAGGACAGACTCCAA
Celera SNP ID:            hCV234887
SNP Position Genomic:     143238
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20048):
GGAAAATATGGAGGGCCTGGGATGGAGGCTGAGAGGGAGCTGGCAGGAGGGGTGGGGGCAGATTGGTTGAGACCATTAGCAGGGAAATGAGGGAGAAAGA
R
TTTCCAGAAGGGAATGGTTACCAGGTTCAAATGTGAGGGAGGAATTCACTGCTGGCATTTGTTTGAGAAGCCCTGACCTTTTTCTGTTCCCTTGCTAGAA
Celera SNP ID:            hCV234888
SNP Position Genomic:     143462
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20049):
TAAATTTAGAAATTACTGTTAAATAACATTATATAGATTTCGTAGATTACAAATTTTGAAAAAATTGAACAGCAATAAAATACATTTTAAATTCAAACAA
Y
ATATGGACATACCTTGGAGATATTGCAGGTTTGATTTCAGACCACTGCAATAAAGTGAATGACAATAAAGTAAATCACACAAATTTTTGTTTCCCAGTGC
Celera SNP ID:            hCV7539116
SNP Position Genomic:     216420
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20050):
AGAAATTACTGTTAAATAACATTATATAGATTTCGTAGATTACAAATTTTGAAAAAATTGAACAGCAATAAAATACATTTTAAATTCAAACAACATATGG
R
CATACCTTGGAGATATTGCAGGTTTGATTTCAGACCACTGCAATAAAGTGAATGACAATAAAGTAAATCACACAAATTTTTGTTTCCCAGTGCATATAAA
Celera SNP ID:            hCV7539117
SNP Position Genomic:     216427
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20051):
AGAGAACAATAGATTATTGGTTTTTCTATATCATTTTGATCTTGAAATCAATTTAGAAATATTGTCCATTTAGCCTGTTAACAATAGGTTAGAGTTATAA
Y
ACAGGACAGCCTGGCAAGATGCAAGGAACAAAGGCTCTGGCATGACATAGTTCTGTATTTGAAGTCTGCTTCTGGCTTTGTGACACTGAGCAAGTTATTT
Celera SNP ID:            hCV3194720
SNP Position Genomic:     119508
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20052):
CAGATTCAGTGCCTGGCAAAGGCCCCTTTCCTGGCTGCTGGACAGCTGTCTGTGTCCTCACATGGTAGAAGGGGTGAGGGAGCTCTCTGGTGTCTCTTTT
R
TAAGGACACTAATCCCATATAAGAGCAGAGTCCTCATGACCTAATACCTTCTAAAGGCTGAACCTCCAAATATCACATTGGGGATTAGGTTTCAACATAT
Celera SNP ID:            hCV3194721
SNP Position Genomic:     120149
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20053):
GGCTGTGAACAAAATGCTGGCTGATATATATGGTCTTCTTTTTCTCTCTGTATTCTTTTTTGAATTCTCATTCCAGTTCTGGTTTTAAATGTACCTTCAG
Y
AAATAGATCCTCTTTATTTCCCTTCTAGTTCATTACTTACTTCCCATGCCTTCCTACTTATATAATCAAAATCTCATGATAGTTCTATGTTGTTTTTGTT
Celera SNP ID:            hCV3194722
SNP Position Genomic:     120534
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20054):
CTCAGAAGAAGAAAGGAAAATGTGAGAAAGTTTGGAATCTCTTAGAGACTTGTTGAATGGCTTTGACAAAAATGCTGATAGTGATAGGAACAATAAGGTC
Y
AGGCTGTGGTTGTCTCAGGTGGAGATGAGGAACTTGTTGGGAACTGGAGCAGAGGTGGCTCTTGTTATGTTTTTGCAAAGAGACTGGTGGCCTATTGCCC
Celera SNP ID:            hCV3194723
SNP Position Genomic:     121468
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20055):
CTGATAGTGATAGGAACAATAAGGTCCAGGCTGTGGTTGTCTCAGGTGGAGATGAGGAACTTGTTGGGAACTGGAGCAGAGGTGGCTCTTGTTATGTTTT
Y
GCAAAGAGACTGGTGGCCTATTGCCCCTGCCCTAGAGATTTGTGGAACTTTGAACTTGAGAGAGATGATTTAGGGTGTCTGGTGGAGGAAATTTCTTAGC
Celera SNP ID:            hCV3194724
SNP Position Genomic:     121542
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20056):
CAGTGGTTGGCAAACTATAGCCCTTGGGACAAATCAGGTTTACCACCTGTTTTTGTATAGCCCATGAAATAATGGCTTCTATGTTCTTAAATGGTTGAGG
A
AAGAAAACAAAAGATGAATGATGTTTCATGACGTGGAATTACATGGAATTCAAATTTCAGCGTCCATAAACAAAGCTTAACCAGAACCATCGTGTTCATT
Celera SNP ID:            hCV26752240
SNP Position Genomic:     368518
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20057):
CCTAGAGATTTGTGGAACTTTGAACTTGAGAGAGATGATTTAGGGTGTCTGGTGGAGGAAATTTCTTAGCAGCAAAGCATTCAAAAGGTGAGTTGGGTGC
Y
GTTAAAAGCATTCTATTTTAAAAGGGAAACAGAGCATAAAAGTTCAGAAAATTGGCAACCTGACAATGCAGTAGAGAAGAAAAACCCATTTTTTGAGGAG
Celera SNP ID:            hCV3194725
SNP Position Genomic:     121673
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20058):
CCAAATTTCAGGCTCTACTTCAAACAAGTGTATTATCCACATTTTAAATATGGGGAAGCTGAAGCTAAAGAAGATTAAATCACTTGCCCAAGGTCACCAC
M
GGTGAGCTTGAACAAGTGGTCCGAATCCAAAGTTTAAGTGATTTCTACACCGCACTGTCTATGGACTTTGCTGTTTCATGAGTGAGCTCCCCACCCTAAG
Celera SNP ID:            hCV11886173
SNP Position Genomic:     87525
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20059):
GGCCAAGCCTGCTAGGTAAGGAACCCTCTCCTGGTGCAAGTGGAGGGAAGCATGGGCTCCCTGGGGCATAGCACTGCCCAGGCAGCTGGAAGATGACCTA
R
GCTCAGGAAGGATGCCAGCCTGGACAATGGGATAGAGCTGGCCTGGGATGGTGACACGGTGATTCCATACTCAGGAGGCTGGACAGCTGCCTCTGCTGAG
Celera SNP ID:            hCV26752241
SNP Position Genomic:     373364
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,15)   total(G,15|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20060):
GGTGTTTCCTTTGCAGCTTGCTTGCTTTATGAATGATTTTGTTGAAAGAATTTAAAAGCCTTTTCCTTCCTTTGGAGAAACCATAACTTATTTGGATAAA
Y
TGCTCCAGAATGGGATTCCCCTGTCTTTTCTGTTTGTATCTTTTCTGCCTTTTACCAATCCATGCCATGATGTTCTGTTGTGTGGGAACCAGTCTAAGAC
Celera SNP ID:            hCV3194726
SNP Position Genomic:     124031
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20061):
AATGGATGGTCATAACCCTTCATTGACTCTTGAGTACTGTGTTGGGACAGCTTTTGCAGTCGGAGGCCTGGCTCTGGTTTCCTTTACCAAGCTACATTTT
Y
TCCATTGCATTCCAGGTCTTGAAGAAGATTCTGAAGTTACACGGAAGGCTTGGATAGCTGTATTTCATTCCTGTTCATATGTAAAATGTCTATTTGGTGT
Celera SNP ID:            hCV11886174
SNP Position Genomic:     96730
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,11)      total(C,3|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20062):
CATGCTAGCCCCCGGCAGAATAATGAATGGTTTCAAAGGCAGGATGCAGGTTGAAAACATCAGTTTCTGTCTCTTCTAGTGCTTTTTTTTTTTTTTTTTT
A
ATTTCAGGACTAGCCACATGTAAGTTACTAGGTTTACAAAAGCCAGCCAAGGCTAAAGGGTGTTGCCCTGCTGGGGTGGGAATTGCTAGTGGCATGACTG
Celera SNP ID:            hCV26752242
SNP Position Genomic:     383159
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,6)   total(A,5|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20063):
GATGGAGAACACCTGGTTACCATTCGCTTTATAGGTCTCCCTTGTCTTTGAAGACTATTATTACATACTTGCTTGCATGAGGCAATGGGACTGTTGCCTA
R
CTTGTGGAAGAGTGGCATTCCCTATCTACAAAACCTCTCAGTATTTGAGACTTCTTAATGTGTCCTGGTCTTTAGAAGCTGAGTTAGGAAAAATAAGTTG
Celera SNP ID:            hCV3194727
SNP Position Genomic:     125810
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20064):
CAATGATTAATGACTATATTTTTATAAAACTTTTTGATAACTGATAGTGCCAATCTTCCCCTCCATTTGTCTTTAAAACTGGCTAATCTTAGCCATTATA
R
TTTCATATGAATTAGAACTAACTTGTCAAAATCTTCAGGTTTTGTTTGGAAATGCAGTGGATTTATTGACTACTTTTGGGGAAAATTAACATTTTCACAA
Celera SNP ID:            hCV3194728
SNP Position Genomic:     126433
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20065):
TTGGTCACAATTCAAAGACATTCTAACAGGCCACTAAAGTCACTTCCCTGACCCCAAAATGAGTTTATTAGCATAAATGGTGAAATTCCTGGCTGGGTGC
R
GTGGCTCACGCCTGTAATCCCAGTACTTTGGGAGGCCAAGGCGGGCAGATCATGAGGTCAGGAGATCGAGACCATCCTGGGTAACACGGTGAAACCCCGT
Celera SNP ID:            hCV26752243
SNP Position Genomic:     384051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20066):
TATAAAACTTTTTGATAACTGATAGTGCCAATCTTCCCCTCCATTTGTCTTTAAAACTGGCTAATCTTAGCCATTATAATTTCATATGAATTAGAACTAA
Y
TTGTCAAAATCTTCAGGTTTTGTTTGGAAATGCAGTGGATTTATTGACTACTTTTGGGGAAAATTAACATTTTCACAATGTTGAATCTTACCAATATTTC
Celera SNP ID:            hCV3194729
SNP Position Genomic:     126455
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20067):
GTGGAAATGCCCAGCAGGGTACCAGGTATGCAAGGAGAGAGGTCTGTCCTGGAGATAAAGACTGGGAGTCATTTGCATCCAAGTGATAGTTGGGCACTTC
R
TTTCAGTAAGGCCTTTTAGGGAGTGAGTGTGGATTGAAAATAAAAGTGGGGAAAGGCAAGTATGAAACTTTAGGAAATGTGGCTTTTAAAGGGAAGTGGA
Celera SNP ID:            hCV26752171
SNP Position Genomic:     152272
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20068):
CTTGGGAAAGTACCCCTGCCATACACACCAGAAACCGCTCAGCCAAATGGTCACATAGGCTAAGGTGGGGGTCCCAGACACTCTTTCCTTTGGGCAATGC
C
CTACCTGTTTTTAGGGTGTCATTTCCTAAATATAAAATAGCTTTTTCTGGTACGATCTCCATCTGCCCAAGATGTTCTTAGGTCTTTTTGTTAGGTAGCC
Celera SNP ID:            hCV26752244
SNP Position Genomic:     385528
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20069):
ACTTGCTAACATGATATCAAGAAAAAAGCTTGCACACTCTCCAATTGGTATACTGGCTCCATGCCAGTTACATAGTTTTGGGTTTTTCCTTGTTTTTCAT
G
TACAAGGATACCTCAGAGAATGGTTGTTTGGCTCCAGACCACTGCAGTGAAACAAATATCTCAAGAAAGTCACATAAATTCTTTGGTTTTCCAGTGCATA
Celera SNP ID:            hCV26752172
SNP Position Genomic:     156635
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,10)   total(G,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20070):
TTGGGAAAGTACCCCTGCCATACACACCAGAAACCGCTCAGCCAAATGGTCACATAGGCTAAGGTGGGGGTCCCAGACACTCTTTCCTTTGGGCAATGCC
C
TACCTGTTTTTAGGGTGTCATTTCCTAAATATAAAATAGCTTTTTCTGGTACGATCTCCATCTGCCCAAGATGTTCTTAGGTCTTTTTGTTAGGTAGCCC
Celera SNP ID:            hCV26752245
SNP Position Genomic:     385529
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20071):
AGTGGATGTTGTGTTAGCAGGTATGAAAACCACATTAATCTTTGTTTCCATCAGTGCTCTTGGTACACTGTCAATGAGCTGTAATATTTTGAAAGGAATC
T
TTTTTTTTTTTTCTGAGCAGGTCTCAACAGTGGGCTTAAAATATTCAGGAAACCATGCTGTAAAGAGATGTGCTGTCACATAGGCTTTGCTGTTCCATTT
Celera SNP ID:            hCV26752173
SNP Position Genomic:     157742
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20072):
TGGGAAAGTACCCCTGCCATACACACCAGAAACCGCTCAGCCAAATGGTCACATAGGCTAAGGTGGGGGTCCCAGACACTCTTTCCTTTGGGCAATGCCC
T
ACCTGTTTTTAGGGTGTCATTTCCTAAATATAAAATAGCTTTTTCTGGTACGATCTCCATCTGCCCAAGATGTTCTTAGGTCTTTTTGTTAGGTAGCCCA
Celera SNP ID:            hCV26752246
SNP Position Genomic:     385530
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20073):
GGGAAAGTACCCCTGCCATACACACCAGAAACCGCTCAGCCAAATGGTCACATAGGCTAAGGTGGGGGTCCCAGACACTCTTTCCTTTGGGCAATGCCCT
A
CCTGTTTTTAGGGTGTCATTTCCTAAATATAAAATAGCTTTTTCTGGTACGATCTCCATCTGCCCAAGATGTTCTTAGGTCTTTTTGTTAGGTAGCCCAC
Celera SNP ID:            hCV26752247
SNP Position Genomic:     385531
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20074):
TCCTTTATTGTCTTTTTCCTCTAAGAATTCCATTGTTGACCAGGTATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCA
Y
GAGGTCAGGAGTTCGAGACCAGCCTGGACAGCATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATCAGCCAGGTTTGGTGGCATATGCCTGTAATCC
Celera SNP ID:            hCV26752175
SNP Position Genomic:     167663
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20075):
TGAGGCAAGAGAATCGCTTGAACTCAGGAAGCGGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGATGACAGAGCAAGACTCTGTCTC
A
AAAAAAAAAAAAGAATCCCATTGTCCCTGCTTACTTTCTAACAGGTGAACGGGGAGCCGGCTGTCATTCCTGCCTCAAGGAGTATTGGAACTGTGGGAGT
Celera SNP ID:            hCV26752176
SNP Position Genomic:     167880
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,7)   total(A,5|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20076):
CCGCCACCGTGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCCTGACCTCATGATCCGCCCG
Y
GTAGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCGCTGCACCTGGCCTGAATTTCTTTTAAGCTTTTTGCTATATATATATATATATATATATATA
Celera SNP ID:            hCV26752249
SNP Position Genomic:     388542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20077):
TGTGCACCTTACCTTTATTACAAGAACCAGCCAAACAATGATTCCTTCTTTTTTGTGGTTCTCTATCTCCACACCTATCCTTGAAGTTTCTCTTTATCTC
K
CTCTTTCTCTTTTTCTATTTCTGTCATATTTTTCAGTTCTATTTTCTATGTTGCTTCTCGTTCTTTTTTCTCTTTAGTCCTTCCCTACTTATTAGAAATT
Celera SNP ID:            hCV26752177
SNP Position Genomic:     168756
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20078):
CTTCCCCAACAGAGACTGAGAACTGGGTCTGAGATAGAGTGAATGGGAAGATGAACTTTATCCCAGCTCTTGAAGGATTTACAGCCTAGCAGAGCTGGGC
Y
TAATTTCCTTTAGGAAAGGAGCACATTCTAATAAATTTAATCTATCAGAGGCAGACGGCAGCATGGATGAAACCAATGAGGGAATGAAACTAATCCTCCC
Celera SNP ID:            hCV26752179
SNP Position Genomic:     171770
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20079):
CTGTGACACTTGCTTTCTTTCTGATGCTGGTGCCTGTGACAGGCTCTGAACTCTGCTCTCTCTCTGTTGCCCTGAGCTGAAGTTGTCCCTGAGGGATTTT
M
ATCTTGCAGAATAATTTGGCATTTACAGATAATTTACCAAACCATTTGTTTCCATATAGAGGAAGTCATGCTCGCTGAAGAAAATAAAAATGCTGGAACA
Celera SNP ID:            hCV25763295
SNP Position Genomic:     308134
SNP Source:               Applera
Population(Allele,Count): african american(A,23|C,1)   caucasian(A,6)   total(A,29|C,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20080):
GGAATCACTATGGCAGCTATAGCCTTATGAAGTACATTTCTTAAGTAATAAGACTTGAAAGTTGAAATTGCTCCTTAATCCATGGGCTACAGAATGGATG
Y
TGTGTTATCAGGCATGAAAACAACATTAATTTCCTTGTGCATGTTCATGAGAGCTCTTGGATGACCAAGTGCATTATCAGTATTTTGAAAGGAATCTTTT
Celera SNP ID:            hCV7539124
SNP Position Genomic:     217810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20081):
AACAGTGGGCTTAAAATATTAAGGAAACCATGCTGTAAACAGATGTTCTGTCATCCAGGCTTTGTTGTTTCATTTATAGAGCACAAGCAGAGTAGATTTA
R
CATAACTCCTAAGGGCCCTAGGATTTTTGGAATGGCCAATGAACATTGGCTTTAACTTAAAGTCACCAGTTGCATTAACCTCCTAACAAGAGAGTTAGCC
Celera SNP ID:            hCV7539125
SNP Position Genomic:     218040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20082):
ATTGGCTTTAACTTAAAGTCACCAGTTGCATTAACCTCCTAACAAGAGAGTTAGCCTGTTCTTTGAGTCTTTGAAGCCAAACGTCGTCTTCTCTACTTAC
R
ATTTTCTCGTCTCTAGTTATGAAAGTCCTAGATGGCAGCTTCTTGCAATATGAAGCTGTTTCATCTACATTGAAAATCTGTTGTTTAGTGTACCCGTCTT
Celera SNP ID:            hCV7539126
SNP Position Genomic:     218185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20083):
TCAATAATAGCTCAATATTTTCATCTAATTCATAAACTCAAAGGTTTTGGAAGTTCATTCTGTAGAAGATTAAACATTGACATTATTGTGGGTGCTATTG
R
AAACTGAGTTAAAAGTTTAGTACTAGCAATAAGCTTATTTTTGGAGTGATAATATACATACAATTTTGATGAAACATGATGTTATTGTATAAACAAAGTT
Celera SNP ID:            hCV3194730
SNP Position Genomic:     127167
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20084):
ATAAGAAAAGAAGTAGTAGGCAAATAGAATGAGTAAAAAAGAAAAAGTAACAAGAAAATTTAGCAAGTTCATCAAAAAGCAAGAAAGCAGAGAAAGGAAG
Y
GATTTTAAAGTGAGGCAAGCAGAATGTGTGAAAGTAGAAGTAAGTCCTGACTTAATAGCAATTGAAACAAATGTAACAGATTAAACTTATTTTTTAAAAG
Celera SNP ID:            hCV3194731
SNP Position Genomic:     127610
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20085):
CTCATGTGACAGCTGCTTTCCCTTCCACGCTGCCTTGGACCCTGGAGTCTAGAGAAGCAATTTGCTCCTCACTATTGCTTCCAGACCATTACTCCCCTCT
Y
CTGTCCTAAAAATGCCAGCTGTGGCGTGCATGTCATCAGATAATACCACCTACTACCCCTCGTTGCCACCATCTACAAACTCCCAAGTCACTTGCTTCAT
Celera SNP ID:            hCV802600
SNP Position Genomic:     9587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20086):
TATTCACCTTCCCTTGACCAAGAAATTGGGTTTCTTTTCCCTCAGCCTGCACTTACTCTTCTATTAAGACCAGAAAATAAAATAATTTTCCGTTGAGTCA
M
AAACTCATCATCTTGTTTGGTGTTCTGCTGCCTCTGAACAAAAGTGAATGCCAGCCTTCCCTTGCTGGGTGTCAGAGTCTGCCTCCCTTGAAAAGAGGCC
Celera SNP ID:            hCV27466950
SNP Position Genomic:     394437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:20087):
TGGAAAAACCTACTCTATGCTGTCTTCAAGGCTATCTCTAGGTAGGCCTGTCCCTAAACCCTCCTCCGAAGTTGGTGTGAATTCCTGTGCTTAACCACAT
R
CAAGATCTAGCAAAACACTTCTTCTTTTCTAACCCTAACTCTTCAGCTCCAGCTCCAGCCTATTCCCTCTGGATCTTGTTCTAGGTTGTCTGGTGGTTCT
Celera SNP ID:            hCV1673385
SNP Position Genomic:     45583
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20088):
ATCCATGCCTTTAACCATGATGGCACAGTGCCTTTCATTCTAACTCTCAAAGTACTTCTCTCAACAACCTATTGAGATGCCATGGTAAGAGCACTGGTGT
K
GGGGTTTGGAGACTTGGGTCTAATTCCCAGGGTGACCTAATTAGTGGTGTGACCTTGAGTAAGTCACCTCATCATGACTTCGAAAGACAAGTAGGAGGGA
Celera SNP ID:            hCV802601
SNP Position Genomic:     7784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20089):
TAAATAAATGGTTGTCACGAGTCTTTGGAGAAGGATTTATTATTGTGGCCATAGATTGGAGTGGTCCTTGAGGATGTTAATTATGTTGCTGCTTGTTGCA
R
TTTATGACATGGCTTCTATGTGGGGTAATTGGATCTAGGGGAGCTATCCTTTTCCATGGAAAAAGGCCAGTTTGGTCTCAGGTTTATAGCCCTAAGGAAA
Celera SNP ID:            hCV11886184
SNP Position Genomic:     118692
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20090):
GGAAGGTTTCCCCCAAGGAAGCATTTCCCAATGTGGAAAAACCTACTCTATGCTGTCTTCAAGGCTATCTCTAGGTAGGCCTGTCCCTAAACCCTCCTCC
R
AAGTTGGTGTGAATTCCTGTGCTTAACCACATACAAGATCTAGCAAAACACTTCTTCTTTTCTAACCCTAACTCTTCAGCTCCAGCTCCAGCCTATTCCC
Celera SNP ID:            hCV1673386
SNP Position Genomic:     45550
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,11)   total(G,11|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20091):
CAGGATTCCAATGAGGAAGCCTGACTCCAGAGCTTAGGTTTCTGACCGTGATGCTACACTGCCTTCCTAATTTATGTATCTAGTGGCTGCATGGTCTGAA
T
TTTTTTTTTTTTTTTACTCCTGATGCATCTTAATTAACAAAAGTGAAAGGGTGTATCTGTTGGTCTGGATGTCAAAATCCATCCAAGGGAATATAAAACT
Celera SNP ID:            hCV11886185
SNP Position Genomic:     119257
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20092):
AATAGAAGAGGCTGCTCCTTGGGTGAGAAGACAAATAGACTTTTGAGTTCCCTTTAAAGGCTAGACACTTGGATAACTAGGAAGGGTTCTTAGTAAAAGC
R
AATGCCTTTTATGAGACTGTGCAGTTTACAAAGCCCTTTGATGTCTGCTACCTCATTTCATTCTTTTAACAAGTAAGTTAGAGGACATTGCAGAGATAAG
Celera SNP ID:            hCV1673387
SNP Position Genomic:     45084
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20093):
TGAGTGCATGAAAGTCTTCAGGAAGAGTGTAGCAAGAAGGAAGACAGGGCCCAGGGCTAAGGAATTTGGACTTTACCCTACGAGAAGTGGGGAGCCAATA
W
TGTATTTTAAGCAGGGGCATGAGGCAACTGGTGAGGCCTGCAGGACTAAAGGGAGTGCCAGAGATGTCTGACAAGGTTGCTGCCCTCAATGAACTAATTG
Celera SNP ID:            hCV1673388
SNP Position Genomic:     44704
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,7)      total(A,7|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20094):
GCTACTCCCTGGAGGCTTAGGCAAGAGGATTGTTGAAGCCCAGGAGTTTGAGGCCAGCCTGGACAACTAGTGTCTCTCTGTCCCTATCTCTCTGTCTACA
R
AAAAAAAAAGTGCAACCTCTCTGAATATCTGAATCAATACCCCTTTACTCTTTGTACAGCAGCCTCTGACTGAATAAATAAGTACTTTTTGTATAGTGGC
Celera SNP ID:            hCV26752180
SNP Position Genomic:     172507
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20095):
AAACTCAGTCTCAAAAAACAAAGAAAAACAAAAAAAATAAAGTCATAGCTAGCAATGTTTTATTTGAGAGTCACCACCTAAAGGGTAAAGCCTTTGAGTG
S
ATGAAAGTCTTCAGGAAGAGTGTAGCAAGAAGGAAGACAGGGCCCAGGGCTAAGGAATTTGGACTTTACCCTACGAGAAGTGGGGAGCCAATAATGTATT
Celera SNP ID:            hCV1673389
SNP Position Genomic:     44610
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20096):
AGATTGCAGAGGTTCCCAGTCCCTGTCTGCAGTTACTCACATCTTTGCTCCTGAAGTCTAGTATGTTTCATTTGTATTTCTGTAGTTGGAGTTATTTCTC
K
TCTTACTTACTGTTGATAAACTCATGTAGAGGCAGAAATTTCTTGGAGGTGTACTGTTTCTGCAGCTTTGCAGGTATGCTTTCCGCATCTGTTGTGACTA
Celera SNP ID:            hCV26752182
SNP Position Genomic:     177118
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,8)      total(G,1|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20097):
TTGTCTCTACTAAAAAATACAAAATTAGCTGGGCATGGTGGTGCATGCCTGTAATCCTGGTCACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGG
R
AGGTGGAGGTTTCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAAAGAAAGAAAAAAGAAACCATCTGG
Celera SNP ID:            hCV27538044
SNP Position Genomic:     211351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20098):
GCTAACACGGTGAAACCCCGTCTCTACTAAAAATATAAAAAAATAGCCGGGCGCAGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGG
R
GAATGGTGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATAGCGCCACTGCAGTCCGGCCTGGGTGAAAGAGCGAGACTCCGTCTCAAGAAAAAAA
Celera SNP ID:            hCV26752183
SNP Position Genomic:     180646
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20099):
GGCAGGAGAATGGTGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATAGCGCCACTGCAGTCCGGCCTGGGTGAAAGAGCGAGACTCCGTCTCAAG
R
AAAAAAGAAAGAAAGAAAGAAAGAAATGTACTCTTGAATCTGCTGGACAAATTCAGTCTGTGGAGTAAGTTGAGAAACCTGTCTCACTGCATAGAAGTAG
Celera SNP ID:            hCV26752184
SNP Position Genomic:     180740
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20100):
CCACTCTTCACTGCCTTCCACCTTGAGCCCCATTGTCTGTCCACAAGAGGAAACAGGATTTTGTGCACTGATGAGGCAGCAGAGTAGTGGAGTCAATTAC
A
AAAAAAAAAAAAAAATATATATATATATATATATTGTATTTGACTGATGAGTACAGCTTTGGTTTATCATCTGCACTGGAATATCTTTGATGTTTTGGGA
Celera SNP ID:            hCV26752185
SNP Position Genomic:     183256
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20101):
TCCACCTTGAGCCCCATTGTCTGTCCACAAGAGGAAACAGGATTTTGTGCACTGATGAGGCAGCAGAGTAGTGGAGTCAATTACAAAAAAAAAAAAAAAA
T
ATATATATATATATATATTGTATTTGACTGATGAGTACAGCTTTGGTTTATCATCTGCACTGGAATATCTTTGATGTTTTGGGAAATCACAACACTCAAA
Celera SNP ID:            hCV26752186
SNP Position Genomic:     183272
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20102):
AATTGAGTCACAGATTTAAATGCCTTTTAAAGTGATGAAAATGAAACCCAAGAGTTGCTTTGTTCCAGGGCATGTGATTGATACTGAGCAAGGAAAAGGC
S
ATCCTACAACCAATGCTATCTAAAGGGACCTTCTCTTAAAATGTGTGGGGATCACCTTGAGACCACTTTCATTACCAGGAAGTGGCATTGTAGATGAAGA
Celera SNP ID:            hCV16234908
SNP Position Genomic:     308509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20103):
ACGGACTTTTCATGAGGCATGCATGTGTGAACACTGTAATTAGTATTTCCAAGAGAGAAAAGCAACCCCCTCCCCCGCCCCCGCCAACACCCCAACACTG
Y
ACCTACCCGGAGACTTTGCTCGTGACACATTTTTTTTTCCCCATAGGAGAGAATGTTAAAGTAGGGCCATCTCTTAGATGAAAGTCCTAGAGGCTTTGGG
Celera SNP ID:            hCV26752189
SNP Position Genomic:     196439
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20104):
CAGTTCTTAGTGATTTCAGTATCCATGTAGATGACCCTTCCTGCACCCTGACCTCTTGGTTCCTTAGCCCCTTCTGTTTGGTGACTTTGCCTTCTTGCTT
Y
CTGCTGACAGCTCACCTCCATGGTCTGCCTGGACATTGTCGTAACTGCATTACTCCATAATCTCGGTTTCAAGCATCCCACTGTGTGATCACCCCCTCTT
Celera SNP ID:            hCV29222646
SNP Position Genomic:     9850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20105):
TTGATGCCAAGAAAGTGCTACTGGAAGGCTGCTATAGGTTTAAGAACACAATGATTGGTCATTCTTTTTCTTTCCTACCCAGATTGGAAATTCCAAGTTT
K
CTCTGTCATCACATCTGGTTAATGCAGACACTCGAATCACTGTGTGTTCTAGTACTCAGAACTTAAAAGTCATCATATCGGATATGGGAGACTCACTGAC
Celera SNP ID:            hCV29222647
SNP Position Genomic:     34414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20106):
CCTCAATGAACTGGGTGGATCAGCCTGACACAGAGGCAGCAGTTGGGGAGCATTCTAAGTTAAGAGTTAAAAATTGTAGCTCTTGACAGATCTGGTCTCA
R
GCTCACCTGACTTGCTAAATTAGTGATTCATGCAGTAAGATCATTCAGATTCCAAAAAGGGAGGCATCAGTATGGGGAGAGCATCTTTTCACCTTTGCAC
Celera SNP ID:            hCV29222648
SNP Position Genomic:     38597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20107):
ACTGGGAATATAAGTAAGAATGACAGGTAAACAATTACCGTAGGAAATGGTAAATGCAAATCCTAGGAGTACAGAGAAGCTGTGGTAGCACGGAGTCCCT
S
TGTCTGGGGAGGGCTTCCCAGGGCAGGGGTTACTGAAGGATCTGAAGATGTGAGGAGGTGCTTGCTTGGGTGATGCCCATCCAAGGAAGACCAGGATCAG
Celera SNP ID:            hCV7539138
SNP Position Genomic:     221937
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20108):
GTGTTGGCTTCTTTCTGTTTGTATCCAGGAGGGTGGGAGGCCCCAGGAGAGCAGACATCTGGGGCTTCTTTCTGTTGCACTGCCAATGCCTATCCACAGA
Y
GACCTTATGTGAAGGTGCTAGGCTGTGAATTCCTTTGTTTTATTTCAGGAAACATTGATTAAACATCTATTTTGGATATTCAAAGACAAAAAATGACCAA
Celera SNP ID:            hCV29222649
SNP Position Genomic:     42559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20109):
TATAGAAATACTTCTGTGCTGTTGACGAATAGTCAGCCCTTAGCAGGCACTCATATATTTTCTTCCACTGCCTCGCTCACCCTAACTAACCCAGTACCTA
K
GGCATTCTCAAGATCTAGAAATGGAACAGTTACTGTGTGACATAGCAGGAGGTCTCCTGTTCTGACTGGTTAGTGCCCTTGCCATACCAGATCAATATTT
Celera SNP ID:            hCV1673390
SNP Position Genomic:     44048
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20110):
GTGTATGTGTGTGTGTGTGTTTGTGTGTAGAAGGGGTTCAAGAAGAAGGAAAGACAAGTTCTAGGCAGAATAGATGGCATGGGAAAACACCCAGAGGCCA
R
AGATAATTTGGCAATTGAGAGAATTAGAAACCGAGATTATGGGTGGTTTTTAGAGCGCAGTAATATCATGGATGGAGGTATGGGGAGAGATTAGATTAGC
Celera SNP ID:            hCV1673392
SNP Position Genomic:     43381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20111):
ACTTACAATCATGGTGGAAAGTGAAGGAGAAGCCAGCATGTCTTATGTGGCTGCAACAGGAGGAAGAGAGAGAGCAAAGGGGGAAGGGCTACACACTTTC
R
AACAACCAGATTTCATGAGAATTCACTATCACAAGAATAGCAAGGGGGAAGTCTGCCCCCATGGTCCAACCTTCTCCCACCAGGTGCCCTCCCCCAACAT
Celera SNP ID:            hCV1673393
SNP Position Genomic:     42996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20112):
TGGCAGGGCCACATCTGGAGGCCTCCCATTCTGTGAAACACCCCAGCAGTGTGTTAATTGATTTATTTTGAGTGCAGTTTGTTTGGATGTGGGTAGACTA
T
TGATGCTGTGGCACTTTGGAAGCTCACGTTTCCAAGCCAGAGATACTTCATTTGTGTCTGAATGAGAAAAATCTCAAGATACATGCCGTTCCATCCCTGA
Celera SNP ID:            hCV1673395
SNP Position Genomic:     42023
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,13)   total(T,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20113):
TCAGTAGCCCCATGCGATTCAGAGGGCAGGTACTACTTTTGCCATTTTTGCATGTAAGGATATAAACCCAACCAGGACTGAGGTGCAAGCCTCCTGGTGT
Y
GTTTCCACCCTGATAACTCATTTATTCTGAGGCCCTTCGGCACCATCTGTAGAGTCTGGATATATTCTTGCCTCTTGGAACTGTAGAATCATCATGAAAT
Celera SNP ID:            hCV27998253
SNP Position Genomic:     66472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20114):
CCTGACAACTTGCTTTCCAGGTAAAATAGCATCATTTTTCTAGGCTGGCTTCTTCTATGCTCACTAGCAGGGCTGACCTCAGATGTCTGGGGCAGTCTTA
R
GTACCTTACCAGACTGTGGTGTTCTTTGGGGGGACTTCCAGGACTGGGAGAGGATGTGGCAGGGGCCATTGTTCTGGAGTCTCCCAATATCTGTGAGGTC
Celera SNP ID:            hCV1673397
SNP Position Genomic:     38978
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20115):
ATGGCATTCATGTTTTCCAGTACTAGTTTTAGATATGTTCCTAAACAAAACACAACAAAATGGAGGAAAAGAAAGAGAGATACGTACTGAGCCTACTTTC
K
TGATCAACACTTCTATACTTATTTGTTTTCATGTCTCATTCCCCTTCATGACTTTGAATTTCTTAAGGGCAGGAATCCCTTTCTTTCTGAGCACTAACCA
Celera SNP ID:            hCV1673398
SNP Position Genomic:     37933
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20116):
CGTGCTCTGAGCATAGGTGGTGTTCAGCAAGAAGAAAGGTGCCTGGAGTGTGTTTAGGATTCCAGAGGAGTGCCTGGGCCGTATTCCCAGAAGGAGAGGG
R
GTTGTTGCAGTATGGCTGGGTGGTGAGATAGGCCTCCTGCCTGCCCCCTCAGTGGGATGGTGCTTGTCAGTGTGAAGTAAACCCTGGAGCACCTGAGGGA
Celera SNP ID:            hCV27998256
SNP Position Genomic:     224449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20117):
CCTTTATTTTAAATTTTTCTAACAAGGAAAATGTTACATTTTCTAGATTTCCATTTTTTTGGTCTTCCCTTTCTTTGTCTTCTATCCTCCCCACTTCTCA
Y
AAAACATACACAGGCCAGAGGGGTCAGCCCCTGTCCGCCCACATCTGGATGTGACCCAGGAAGGCTGACAATGCCCTCTCTCCTCCAGGAAGAATGTCCA
Celera SNP ID:            hCV2950574
SNP Position Genomic:     113726
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,14)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20118):
TCTTTATATTGTGTGATGTGGGAGAGATGGAGAAGGAGAGGTAAAAGAGAGGGTGTAAGGTACTGGAACTGCTATGGGGGGAAAGGGAGGAGGGAATTGA
Y
AGGGGACATTAAAATTTGAATTACAGGACTTGGTGATTATCTGGAGAAGTAGAGAAAGGAAAGAGAAGGGAGGACTCCCAGGTACTTGACTACAGCAGCA
Celera SNP ID:            hCV1673399
SNP Position Genomic:     37289
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,15)      total(C,15|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20119):
CACACAGTTTCTTAATAACTGTAGCTTTATAATAAAAGTCATGTGGTGATGTAATTTTTCTAAATTTGTTCTCTATTTTCAGGTTTGTCTTGGTTATTTT
K
TTTTCTTCTCAGCATTTATGTATACATTTAGCCTTTAAAAAACATGAGGGCTAGGAGTGCTGACCACCTCCTGGGCAAAAATCCACATATAACTTTTGAG
Celera SNP ID:            hCV26752191
SNP Position Genomic:     206068
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20120):
CCCATCTCTACTAAAAAAATTACGAAAATTAGCTGGGTGTGGTGGTGCACACCCGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCCTGAAC
Y
GGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCACCACTGCTCTCCAGCCTGGTGACAGAGCAAGACTCCATCTCAAAAAAACAAAACAAAACAAACAAA
Celera SNP ID:            hCV26752192
SNP Position Genomic:     209496
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20121):
GCCTGCCACATGGTGAGAGCAGGAAGCAAGAGAGTGGGGAGGGAGGTACCAGGCTCTTAAAAATTCTAGACAGAACTAATAGAGCAAGAATGGAGAACTC
R
TCATCATTAGGATGGCACCAGGCATCAAGCTATTCATGGGAGATCCACTCCCATGACCCAGACACCTCCCATTAGGCCCCACCTTCAACCCTAGAGATCC
Celera SNP ID:            hCV26752194
SNP Position Genomic:     217024
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20122):
AAAACAATTCTGTGGTGCCAGGTGAGATGAACTCTCCACCTCTTCCTGAGGGCTTTGTCTTCATGCATGGGACAAAGCAGTGTAATTAACATGCCCCCCC
M
CCCCGCCTTAAAACCTAATATTCATTCATCTCTTACTTTGGTTATTATTTAAAAAGAAAACATTTGTCAATTACTTCACACTGACAAGCACCATCCCACT
Celera SNP ID:            hCV26752196
SNP Position Genomic:     223248
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,12)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20123):
CACTGAGGGGGCAGGCAGGAGGTCCATCTCACCACCCAGCTGTATTGCAACAACGCCCTCTCCATCTGGGAATACGGCCCAGGCACTCCTCTGGAATCCT
R
AACACACTCCAGGCACCTCTCTTCTTACTGAACACCACCTATGCTTGGAGCACCATGTGAGAGGACACCTCTGGTATCAGGCAGCTTCAGATGTATTCAG
Celera SNP ID:            hCV26752197
SNP Position Genomic:     223445
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20124):
GATAGGGCCTGAAGGCTTGAATGGTCCTACAAGACTTTCTCAAAAGTCGTCACCCTGGGACCTGAAACATTAGAGCTCTTTCCAGAGTAAGTCTATTCTC
R
GCCAGAGGTCTCCAACAGAGGCTGTCCATGTGTACTGGTTTCAAGTTCTGCTTACCTCCCAAGTGTTGTTTTTTCTGACCCTGACCTAATTCCTCCCAGG
Celera SNP ID:            hCV26752198
SNP Position Genomic:     223721
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20125):
CAGAGGAATTTCATTTATAAAGTTCCTTATTGCTGAGCCTCTGTGTGTTCCAGTTATGAGTCACATGTGTCAACACCGTGGAAATGAAATTTGTACCCCC
T
GGACCCATGCAGATTGATTTGATTCTGGGCTAAATGGAAATAGAACCTGTACAAGTCAAATGTTTCTGGAGCATCTGCCATCTACAGGGCACTTGGAGGA
Celera SNP ID:            hCV26752199
SNP Position Genomic:     225593
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,13)   total(T,13|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20126):
TTTACAGAAACCTCAGGACATTTTTATTCAAACCCATCCATGGAGTTCCCTCAGGAGGAAGGAGCTTGGGTTCAGCTCCTAGTTGAATCAAGTAACTCTC
Y
GCCTTCATCTGTTTAATTCATTTACACTTAGAGTAGTATTTCTTTTGCAGAAAGGGATGCATGGCTAAAAATGTACTACTGCTTCCATTAATGAAAATTA
Celera SNP ID:            hCV29222650
SNP Position Genomic:     53518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20127):
TATTTTTGGACTCTGGTTGACTGAGGGTAATGGAAAGTGAAACTGTGGATAAGGTGGGGACTACTGTATTATCTAACACATTGCTTTTCAGAGTGAATGT
R
TCATTTCCACTCTGCATATCATATGCAGCACTCCCATTTCTATATATCTTCAACATCACTTGAGATGTTCAGAATTATTAAAGTGTGCCAATCTGATGGG
Celera SNP ID:            hCV29222651
SNP Position Genomic:     56254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20128):
AATTCCATGAAATATGAAATTGTTACCAGTAAGAAATATAAGCATAGTAAGTAGGTCCTCTATTCAGCTCAGTTGTCAACCAAATTTATGTTGCTGATGC
Y
GAATTTTGATATAGCCCCTTACAGTGCTGTGATTACCTTAAGTGGATGGAGGAGGCTGAATATGAGGAGGGGAAAGGGAGGGGGAGATTTCAGTCAAAGA
Celera SNP ID:            hCV7539213
SNP Position Genomic:     250067
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20129):
ATGGAAAGTGAAACTGTGGATAAGGTGGGGACTACTGTATTATCTAACACATTGCTTTTCAGAGTGAATGTGTCATTTCCACTCTGCATATCATATGCAG
M
ACTCCCATTTCTATATATCTTCAACATCACTTGAGATGTTCAGAATTATTAAAGTGTGCCAATCTGATGGGTGTGAAATGGAATCCAATTATTGCATTAA
Celera SNP ID:            hCV29222652
SNP Position Genomic:     56283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20130):
ACATCAGGACCCTCTTAGGGAATGCCATGCCCCCCTATGACCTCCTGGAGGATAGTATTGCAGAGAACTGAGGAAGAGGCTGGCATCTTAAAAGTCAGGA
K
CATAATCACTGGTACTGGAGATCCTCGAAAAACCTGCAGAGAAGCTGTTTGCTTTCTGGAATGTTGATCCCAGCTTACAAGCATTACAGACAAGTAATTA
Celera SNP ID:            hCV7539214
SNP Position Genomic:     256512
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20131):
GTGGCAAGTCAACAGCCTACTCTGAATGTGTTTCATTTTTCTTGGAAGCTACATCTGCATAGGGAGATAATTTTATTTTCTTATGGCACTTTCCTCTGCA
R
TGGATACCATACTCTTTTTAAAAATGCTAATGTGATTTAAAATGTGATGTTACATTCTATACGATTCCTCGTTTTCATTTTCTTTTTTGCTCATCTAATA
Celera SNP ID:            hCV29222655
SNP Position Genomic:     80375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20132):
TTCTTTGGACTGGAAGAAAAATTATAACCTGTTTGCTTTTAGGGTCATTGTATTCATCTACAATAGTATATGGTTTGTTACAGATTCCAGGGCATTTTCC
R
TATATATATTTTATTTTTTTTCCTACTATAACTTTAAAAGACATTATTTCCCCCATTATTTCAATTAATAAACAAAGGCTTATTGATGATTTAACTAGAA
Celera SNP ID:            hCV7539218
SNP Position Genomic:     280612
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20133):
AGGGGGTGTTCAAGAGTCAGTGCAGGTGCTGAGCTTGGCTGAGTCAGTTGTCCTCTCTGTGCTCTCTTTCCCATCCCTCACATCTTCCCTTCTTAGTGGC
W
CTTCAGATGTCCCTGGCTTTGTGAATTGCCTTCACAGGCCCCTGATTTCCATATGAACTCACAGGACTTTGCTCCTGCTCCTCCTCCAGACCTGCTGCTT
Celera SNP ID:            hCV29222656
SNP Position Genomic:     106736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20134):
GTATATTGGTGGTTGATTTGTGGCAAAGATGCAAGTTCAATTTAGAGGGGGAAAGGAAAGTCTTTTAATAAATTTTGCTATATCCACTGTATATTCATAT
W
AAAAAAGTGAATCTACAGCTGGGTGTGGTGGCTCATGCCTGTAATCCCACTTTGGGAGGCTGAGGTGGGCGAATCACTTGAGGTCAGGAGTTCGAGACCA
Celera SNP ID:            hCV7539219
SNP Position Genomic:     288520
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,10)      total(A,10|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20135):
GCTCATGTCTTATTTTAAATGCAGAAGGCTTCATATTCTATATTGGCACTTGCACATATTATTTTAAATATAGAAATGTAAGGCAATAGTGATATTATCT
Y
CATTTTACAGATGAGGAAACCAAAACTTAAAGAGGCAAAGTCACTTGCTCAAGGTCAAATAGTTACTAAGGGGAGAGATTGGCCCTTTAATTCTATTATC
Celera SNP ID:            hCV29222657
SNP Position Genomic:     113021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20136):
CATTTGAAACAGTGCTCTGCACATAGTAGATTTTCAACAATAGTACCTGCTACTATTTTATAGTTTATTGATGAGGAAAGGGAAGCATATAATGAACAAA
Y
ATATTCTCTGGGTTACTCTAGCCCCCACAAAAAACTTGCCCTAGCTGGGATGAAGTTGTTGTCCTTGTATTTTCAATCTGTTGCTACTTGTGCTGGATTA
Celera SNP ID:            hCV29222658
SNP Position Genomic:     119802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20137):
CTCTCAGGCATGGAAAGGCATGAGAGCACTTCCCCATCTTTCTCACCCAACTTTCATGCCCATTGCCCCTGCTTGTGGGCAGATTTTCCTTTTTGCTGCC
Y
GGTCTGAGGGATAAGGTGGGTTAAGGAGGAGGGTTAAAGTGAGTGCTTGATCTTCCTGCTACTGTATTCAAACCATCACCCTGTTGGTCACCTGGATCCC
Celera SNP ID:            hCV29222659
SNP Position Genomic:     129725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20138):
AGGTCCTATGTAAAAATGTCTTCTCCTGAAGGTGGTAGAGTTATTTAGAATCTATGAGGTGAACAGCTAGAGTTCAGAAGTTGTCTAACAGTCTACACGT
R
TTCAGTAACATAGACTTTATCAAAAGATGCACTCTCCTCCTCTCTAAACCTCACCAGTATTCCTTCCCTTCCAGTGTTGATTTGTATTATCCTTGATGCA
Celera SNP ID:            hCV7539221
SNP Position Genomic:     291003
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,20)      total(G,2|A,20) ;no_pop(A,-|G,-)   ;(A,-|G,-)   SC_12_C(G,1|A,22)   SC_12_AA(G,3|A,21)   SC_95_C(G,11|A,178)   total(G,15|A,221)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20139):
GACAAGAAGCAATTGCAATACATCACCGCACTAATGCTCTGTTGAATGTATTCTGGGAGTATGGAAGAAGGAGAAGGTGACTGTGTTTGGGAAAAAAAAA
W
CACAGAGAGGTGATATTTATTTAAGCTGGATGTTGAAGGTGGGTAGGAGATTGCCAAGGAGAACATGGGAAAGGGCATTCAGTCAGGGAAAGTGGAGGAA
Celera SNP ID:            hCV29222660
SNP Position Genomic:     131519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20140):
GAAATTTAGAAACCCAAACCTTGCATACATATGTAGCATCTAGAGTAGAGGCTCATCCATGCTTAACTCCAATTCACCTTACTTCCCTGTATGCAAGAGC
N
GTATGTGAGGGGACCTACAGGTTATCCTCCCTCAGAGGAGCCAGGTTTGGGGCTGGAGGAGCAACCTAAAATTAAGGATGACAGAATTGGGTAAGGAGAA
Celera SNP ID:            hCV7539222
SNP Position Genomic:     298450
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(A,-|C,-|G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20141):
GAAAGTGTCTTACTTCCCCTTTGCCATGATTCTAAGTTTCCTGAGGCCTCCCCAGCCACGCTGAACTGTGAGTCAGTTAAAACTCTTTCCCTTATAAATT
W
CCCAGTCCCGAGCAGTTCTTTATAGCAGTATGAAATCGGACTAATACAGTGGCATGCCTTTTAATTTCTTGATTTATGGAATACCTTTAAAGTAATGTTA
Celera SNP ID:            hCV29222661
SNP Position Genomic:     135567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20142):
GAACCTCAATATCGCTCTCCCCACCTCCCTCCCTCTTTCTCCAACCTTTGGATGCGTCTCTGCTGGCAGATATAAAGACCCAAGTCTTCGCGGTGGAATT
Y
CTTAGATGGACTTGCAGGGGCTGGCGTTATAAAGCATGTCATCGTAACCCCGTCCTCGTCTTTGTTTATTTTTTTTTAAAGTTCTTTTGTTTTCATTTTC
Celera SNP ID:            hCV27832853
SNP Position Genomic:     75996
SNP Source:               Applera
Population(Allele,Count): african american(T,14)   caucasian(C,1|T,35)   total(C,1|T,49)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20143):
GAGGGCTGTGACCTGGGCTGTGTCAGTGGGACCAGAGGAGGGGACAGATACAAAAAATACTTAGGGGTCTTTAAACTTGGGGGATGAGAGGGAAGAATCC
M
AGATGAATCCCAAGTGTAGGGGAGGGTGGCTTTTTTCACCCTGGATGAGGAGCAGTCTGGTATGGAGAGGGGATGAGGGTGGCTCTGGCTTTGGCGGTTG
Celera SNP ID:            hCV29222662
SNP Position Genomic:     143072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20144):
AGTCCCATTTTTAAATTCAGCTCTGGCTAGACTGCCTCTGCAGTGTTTTTGAAATGGGTGCTACCTTAGAAGAGCAAAAAGGAGTAGTCTCAGATACAAT
Y
GTCCAGAATAACTAGGGTTTAATCTAAAGAGTGAGTTACCAGGAAATGAGAGAAGGAGTGAGGACATAGGCCTGGAGAAGCGAATAATTCCAGAAGCAAG
Celera SNP ID:            hCV29222663
SNP Position Genomic:     150860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20145):
GCAACCTAAAATTAAGGATGACAGAATTGGGTAAGGAGAAGTATCGGGAATGAAACACGACTTGGATTTGTGTCACTGTACAATCTCTTATGGGAATCTA
N
TCAGGACTCTCAGAGTCAACCAGATCTATCCCTGCCTCTGGTTATGAGCCTAGGGTTTATGTGGGTCCTAATGTCAACTCTTACTGATGAAGAAATTGAG
Celera SNP ID:            hCV7539226
SNP Position Genomic:     298611
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   no_pop(A,-|C,-|G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20146):
TGGGCTGTTACTGCAAGTGTAATGAGAAGCTAGGGAGCTATAAGCAAATTGGTCTGACTTACACCCTAGAAATTTCACTCCACTGTGTAAAGAATGGATT
R
CACAGAATATGTGCAGGCTGGAGGCCTTGTAGGGAGCTGTTGGAGAGTGGAAATGCCCAGCAGGGTACCAGGTATGCAAGGAGAGAGGTCTGTCCTGGAG
Celera SNP ID:            hCV29222664
SNP Position Genomic:     152125
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20147):
TGGATCTGTGACTTGCCTGAAAGAGTTATTTGAGAAGGTTTTTATAAACTCAAACAGATCCTTTAAACTAGATATTTCCCAGACTGCCCAAAAAAGGGCC
S
CTGTCCCCCAATACCACACAACACTATGAGAAAGTAGAATTTTATTGCTTGGGTTTTTCTTTTCCTCATACTTTGAAAGATCTCTTTGGCCAGCTTTCCA
Celera SNP ID:            hCV29222665
SNP Position Genomic:     156293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20148):
CTGTCCATGTGTACTGGTTTCAAGTTCTGCTTACCTCCCAAGTGTTGTTTTTTCTGACCCTGACCTAATTCCTCCCAGGCCAGGCTGGCCAGCACCTTCT
K
AAATTGCTCTCAGGCAGCTGGAAGGCCTGGCTGGCAGGAGCCCTGGGTTTTTCACCCTCAGCCCCAGGGCTCTTTGAAGGCCTACTCTCCAAGAACAAAC
Celera SNP ID:            hCV7539155
SNP Position Genomic:     223843
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20149):
CTTTTGCTCCTGCCCTCAGGGAGACAAGACATGCTTGTGTTCAGTGGATGCCTTGAGGAAGTGTTATGGTCCCTTTGAGCATTATGGACCCATTGCTGTG
K
GGTATAAAGGCAGTGGCGGTGTTCTCTCTGAGGTAGCCAAGAAAGGCTTCATAGAGAAACCTTGTAGACATAGAATTTCACCAGGGGGAGAAGGAGATCA
Celera SNP ID:            hCV29222666
SNP Position Genomic:     191207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20150):
TTTCAGTCTCTCTGAATATATCTTAAGTTGCCTGATACCAGAGGTGTCCTCTCACAGTGTGCTCCCCCAGCATCGTGCTCTGAGCATAGGTGGTGTTCAG
Y
AAGAAGAAAGGTGCCTGGAGTGTGTTTAGGATTCCAGAGGAGTGCCTGGGCCGTATTCCCAGAAGGAGAGGGCGTTGTTGCAGTATGGCTGGGTGGTGAG
Celera SNP ID:            hCV7539156
SNP Position Genomic:     224376
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20151):
ATTACTGCAACTCATGAATGACCGTCAGAGGTTTCTGAGCCTACAGGGCTGGGGCAGGGGTGTCTCCTGACCATTTCAATCTTCTGCCACAGCCTGGACC
W
CACAGACAGCTTTAGCATCAGAAGAGATGGCCACACCCAGAGCTGGGCCCCCAGTATCCACAAAGGAAAGTTCAGCTTAGGAAGAAGAAATGGGGAGAGA
Celera SNP ID:            hCV29222667
SNP Position Genomic:     201826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20152):
CTTGGGTAATTGGATGATCTACAGAACGTATATGAGGACTTGTTGGGTGATGCCCAAGTGCTATGTCTTTGTCTGCAGCACTTTCTACTTTGCGTGGTCT
R
TAAAAGACAGCTACAGAATACAGTGTGGTCTGTCTTTGGCTTTGAAGTTGGACATGCTGAATATTATTAATTATTCCTTGCAATACAGCAAAAAGTTCTG
Celera SNP ID:            hCV29222668
SNP Position Genomic:     203306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20153):
TGTCAGGGCTGATCAATCAGGTTTGTGAGCAACTGACATTGAGGGCTGGACTCTGGAGTAGATAGAGTTTACTCAGGAAAGCCTCTCACTAGAGGCTTCC
Y
GGGAGAATGCTGTCTGGCCTGTAGGCAATAGTCCTTGATGCCATTCCTTTTCCAGTTTGGTGATACTTGACTCTGAGTTTTCTTTAAGGCAGCTGGGACA
Celera SNP ID:            hCV29222669
SNP Position Genomic:     205424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20154):
CTAACATGCCATGTCTCTCCTGCTATACAGGGCACAGGTTCCCTAAGTGAGAGCTCCATCCCCTCTGTCTCTGACACCAGCACCCCAAGAAGAAGTCGTC
R
GCAGCTCCCACCCGTCCCGCCAAAGCCCCGGCCCCTCCTTTCCTACAGCTCCCTGATTCGACACGCGGGCAGCATCTCTCCACCTGCTGATGGAAGCGAG
Celera SNP ID:            hCV16246083
SNP Position Genomic:     391220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:20155):
GGCTTTTTTTTTTTTTTTGTAGGCAACTCTTATATTTTGGATGCAGGCAGCATCACCTGTGAATAATGATAACTTTGTTTTTTCCTTTATAATCCATATG
S
CTTTTCTTTCTTTTTCTTTACTTATTACATTAACCAGTACTTCAAGTCCAATACTGAATAGAAAGAGTTTCAGTGGGTGTCCTAGACTGATACTTCACTT
Celera SNP ID:            hCV3194698
SNP Position Genomic:     57537
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20156):
CAGTTTATTTCAGGGTTCCAAATGAGAACATTAGTATTATGCTAAGTAACTTCTCTTTTATATCCTGCTCCAGAAGTGTAGGGGTTGGTGGCAGAATCCC
R
CAGTGGACAGAGGCCCAGAAGCCAACTGGACAGAAGGTCTAGCAAGGAGAGCTGACCCTGATAAATCTAGTCCCAGCTGCTGGTGTGGTTGATGATAGAG
Celera SNP ID:            hCV27539889
SNP Position Genomic:     46511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20157):
GAAGGAAGACAGGGCCCAGGGCTAAGGAATTTGGACTTTACCCTACGAGAAGTGGGGAGCCAATAATGTATTTTAAGCAGGGGCATGAGGCAACTGGTGA
R
GCCTGCAGGACTAAAGGGAGTGCCAGAGATGTCTGACAAGGTTGCTGCCCTCAATGAACTAATTGGGGTAGGCGAGATAAATGTCTCTTGGAAAGTAATG
Celera SNP ID:            hCV802568
SNP Position Genomic:     44739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20158):
GAAAGCTCTTCTGGTGGCTGGTGGGGCTGTGGCACCTACTAGATCACTGTGTTATTTCCAGATCCTGTGTTTGGTGTAAATGGTACCTGGTTTGTTTCCT
R
TCTTTAAATTACAGTATTCTTAGGAGTGCTGTTCTTTTGAACTGCACCTGTTGGACTCTTCTTAATTCCCGAAGAATCTGGGCCATTGTTTTTTAAGCTT
Celera SNP ID:            hCV802569
SNP Position Genomic:     39729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20159):
TTTTCCAGCTGCCTCCAGTGGGAGGGGATGGCTCCCTGCTCTGTTGTCTCCCAGTACTCTCCTGTGGTGCACTCCACATCCCGCCTTGTATTCGAGCCCT
Y
TGTGGGTATGTTTTCCCTTCTCCTCTTTTGAACTGTAAGTTTTTAGAGGCTATGACTGTGTCTAATTTATCTCTGAGCCCCAGAATCCCTGAGAACAATG
Celera SNP ID:            hCV27933169
SNP Position Genomic:     70198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20160):
TTGGAGGTACTATGAGCTGGGGAACATTAGACAAAGCAGAGATCACTGTAGGCTGAAAGAGGCACATTATACCACTAATGAATTAATTACATGCTAATGT
N
GAACAGAGCCTGCCACATAGTAAGATCCCAAAAAATTAGTGTTAGGATTAATGCTATTACTGCTAATTATAGCAAATATGTATTGTATTTGGGCTATACG
Celera SNP ID:            hCV7539231
SNP Position Genomic:     315095
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|C,-|G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20161):
TAATCCCCTTCAGTCTCTTTTCAACAGGACAACCAGAGACATTCTTTGCAAACTTAAGTTGTGGGACTCCTCTGCTGCAACTGACCAATCGTTTCCCAAT
S
ACACCAAGTAAAACTCAAATCTTTATAGGGTATCTATGGCCCTACATGATGGCCCTCCACTTCCCCACTGCCTGCTACCACTCTGACCTTTTTTCCATGT
Celera SNP ID:            hCV29222670
SNP Position Genomic:     295366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20162):
ATAATGGACTGTAGGGGCCAGAGTGGAGGCAGGGAAAGAGTCTGCTCTCAGAGTAAAGTAGGTGAGAGGTAATGGGGGTTTAGACTAGGGTGGGGGAAGT
S
AAGGAGATGAGTAATCCCATTCAGTCGGTAGTTTGGAGAGAGAGCCAATAGGATGAGCTCATGGATTAAATGTGGCAGGGGTGAGGATGAATAAAAGGGA
Celera SNP ID:            hCV7539232
SNP Position Genomic:     319706
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20163):
TAGTAAGGGAAGAGCCCTTGGTTGGCTAGAGTTCCAGTGAAGGGCTCCCAGGCAGCCTCTTCCTTGCCTTGTGGGGTGTGCCAGGGTTGTGTGTTGAAGC
R
GGGGACCTCCCTCCTGCACGGCCATCATGTTGCCTTTGCCTTTCGTAACAAATGCCTGGCCCCTGGATCCCTCTTCTGTGAGTGAAAGAGAAAAATTCCC
Celera SNP ID:            hCV7539233
SNP Position Genomic:     320781
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20164):
CATCTGTGGTGTGGAGAAAATGAACTGACGTGAGTGGTCCCTGTTAGAAAACTCAACAGTTCCTCTGGAATGCCTGGGCCTGCTCTCCCAAGCCTGCCAC
R
GAGGACACAGCTTGGGGAGGGCTCTTGTGCACTTGGCTCTCCCTTGCTTCTCAATTCCCACTTCCTATTGAATTCTCATCACCTCTGATACTCTTTGCCC
Celera SNP ID:            hCV29222671
SNP Position Genomic:     346484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20165):
TTTCTAATATAGTCACAACAAAACTGAGGGATCTGTACAAATAATAAACGCAAGGGCAGAGACAAGCTTTTGGAAAAATATTAATAGCAACAAGGTATGT
Y
TATGAGAAAAACCATTATTATTCCAAACTTTCAAAGGCGCCTTGGAAAAAGGGACCTTTGCAGAAGAATCGGAAGTTCGAAAGGAGGAGTAACTTGCTGG
Celera SNP ID:            hCV29222672
SNP Position Genomic:     361789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20166):
TTATTATTATTACATCCTTACGCTGTATCAGCGCCAAACACTGGAGTCCTCAATACTGTATTTATTTCTCTGGGCTTTTGGAGGGGTGGGGAAGAAACGG
S
ACATTTAGGTTGCTAAGTGATTGTGCTTGCTTCTAAAAATAATGAGATTCCCCAGTGGCTCGTTCTCCTGTGTTTTGCTTAGAGTTAGAGGATGCCAAGG
Celera SNP ID:            hCV7539091
SNP Position Genomic:     143898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20167):
CCTCCCACCTGCATCCCCTTAGGGCCCACTACTTTGGGAAATTGCAGGAAAAACTGGGCCTCCCCCTGCTTGGATTGAAGAGCCTCGCCTAGGCAGTCAG
M
CTCAGTGGTTGCCATGGTGATGGTGGGTGGTTGGTGGGGTGGTGATGCAGCGTTTGGCCTGTGCAGCTGAGGTCCTCAATGCAGGCTGCTTGGAGCCCAG
Celera SNP ID:            hCV7539092
SNP Position Genomic:     144184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20168):
TTTTTTTTTTTTTTTGAGACGGAATTAAGTTTTTAAATGATTTTTATATGTGTTATTTCATGTCCTCATAACAAGTTGTTGTGCAACCATATATATTATA
M
CTCTCAAGTCAAGTATTATGTTATGAATGCCTTGTACAAGTGTTGAGGGAACCGAGTTGGAATGTGAATAACTAACCCAGTGTGGTCTATCTTCTGCCAG
Celera SNP ID:            hCV27513681
SNP Position Genomic:     278191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20169):
TAAATTAAACCATTGTTTAGTAGGGTCTGAAGCTAGCTTTCCCCCAGCAGCTGGGATCTTAGGGAATGTTTAACGAGGCCTCTGGCTCCCTGGCCTATGG
R
TTGAGCTCAAACTCATCCCGTTACTCCTCATAGGGCATGCAGGATCCCACCAGACTTGGGAGAGAAGGGCTATTTTGTTGATGCACTTGGAGGGATGCTA
Celera SNP ID:            hCV27513682
SNP Position Genomic:     306591
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,318|A,1171)   total(G,318|A,1171)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20170):
GAGACAGAGCCTGACTCCACTATTTAGAGTCTTGTTTTCCACCATTTGTGTGTTTTATAAATGACAACTATTTGAATTGAATGCAAATATCTCAGGGGAT
S
AACAGAGAAGAAAGAGAAATGCAAATGTATTTGTTCATTTTATTCCTAAAAATAAAAAGAGAAACATACTGTCACTATTAGGAGTAAACATTTCCAAGAG
Celera SNP ID:            hCV27513683
SNP Position Genomic:     344071
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,18|G,1287)   total(G,1287|C,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20171):
TCTCCCCACATCCATCATTACTGATTTACTTCTTCATCGAGGACCTGGGATTTTGAGATGTGAGATCAATTTTAAGGATGTTCTGGCTCCTAGGAGCGAC
S
TTGACACTTTTTATCATATCCAGAGAAAGTGTTTGGCGTAATGACTCCCACGAGGCCTCACTTCAATGAAAACTATTTTTCTAAAGTTAGATATGGAGGA
Celera SNP ID:            hCV27513684
SNP Position Genomic:     357456
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,180|C,1311)   total(G,180|C,1311) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20172):
TATCTTCAATCAGATAAGGAAATCATGCAGAAATTCCTTTAAACGTGGAATTGTTAGGAGAAAGGAAAATTCCTTTAAACAAGAAATTTTTAGGAGAGAG
R
AAAACTCATAACAAATGTTTTCACCCATGACATAGGAAGAATGGCATAGGTTCCTTCTAGGTGTAAGAAGAAAAGAGGAACCTGTCTTCCATCCTGTGAT
Celera SNP ID:            hCV27513685
SNP Position Genomic:     374876
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,38|G,1457)   total(G,1457|A,38) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20173):
CTCACCTTTGATCCTCTGTTCTGAGGAATTCTTGATAGCCTAGGACTAATCTATAGTTCTCAGAGGGGCCAGTTGTCTTGTTGCCTCCTGTTCTCGCCTC
Y
GCCTGCCTGTCTCCCTGGCTCTGAGTCTCTGGTGATATGTACTGGCTCACCGTCAGGTGTTGGGGGATGGGGAGGCGGCTGTGCAGCTGCCGCCGAGCTG
Celera SNP ID:            hCV7539097
SNP Position Genomic:     196675
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20174):
ACCTTTGCACATGGCTCCAGAATTTCCACTGGTTCAAAAGAATCCCCAGCAACCCCAGTCTCAGGAGATAATTGCTCTTAACAGCGCACCACACTGGGCA
Y
CCCAGCACTTATGGACAGCAGAGGAATGTAAGGGTGAATGCATGTTTTTTTTTCTGCAAATGACTGTCACTCATTCATCTTGGAGCCCACCTGACAACTT
Celera SNP ID:            hCV802570
SNP Position Genomic:     38788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20175):
GTCAACACAATCACAGTATTTTATAGCCCACACGGACCTTGGACTCTGGCATGCCATGTAATAGGCTGCAAAAAGTAGCAGCTCTGCTTCCCATCTCACT
K
GGGGCATGGGGAGAGGAGGATTGGGTTTAGGGAGGAAGGGTACAGGTGTGAAGGGCACAGGTATGAGGTGCATAGGTATGAGAGACTCAAGTGTGGGGGG
Celera SNP ID:            hCV802572
SNP Position Genomic:     34952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20176):
TTAGAAAAGCCTTAATTCATTTCATCTGACAGCTCAGAGCCAGAAGTTGCCAGGTCTACTCATTTGCAGGTTGTGTTGTCAACACAATCACAGTATTTTA
Y
AGCCCACACGGACCTTGGACTCTGGCATGCCATGTAATAGGCTGCAAAAAGTAGCAGCTCTGCTTCCCATCTCACTTGGGGCATGGGGAGAGGAGGATTG
Celera SNP ID:            hCV802573
SNP Position Genomic:     34875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20177):
ATGCGAGAGGTCTGCAGCTTGAACGAGAAAGTACTTGTGCCCAGTCCTACCTTCCAGGGCAGGCACTGGGCTTCTTGGATCTGCTGAGCAGGTGTCTGAA
W
TTGCATGAGACGTTTCCAGCTGTGAGGAGTGACCAGGTGAGCCCCACACTGTTGTGAACACTTTTGTTAGGAACCAGGACAGGGGATGACATGGAAGAGG
Celera SNP ID:            hCV27933170
SNP Position Genomic:     100703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20178):
TTCAGATAACCTGGGGTAGGGCTTGAAAATTTGCATTTCTAATAAGATCCCTGCTGATGCTGATGCTGCTGATGGGTGCGTGTGTCGGGAGGGGACCACA
Y
TTTGGGAACCACTGTTCACTAGGGTTTCAGGTTCCTGAGTAAGAGCTTAAAGAATGAACATGCAAATGGCCAATAAGCACAGGAACTGATGTTCATCTGC
Celera SNP ID:            hCV27933171
SNP Position Genomic:     136130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20179):
GGGTCAGAGCAAGAGATATACACTTGAGAAACATTAATTTATTAATGGTGTTTTGAATCATGAGATGGACTGATGTCCCTTAGTCTTGAAGAAGGCATAG
M
CAGAGAAGAGGACCAACGACTTAGCTCTGAGAAACTACAACTTAATGTCTATTAGCACTGCAGTAGGTCTATTACTAAGGCCCTGAGAACTTGATCATCT
Celera SNP ID:            hCV27933172
SNP Position Genomic:     193755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20180):
AGATAGAATTCGTGAGTTGTCAGTATCTTCTCCCCCACATGACTTGTCTTTTTCACTTTGTTTATGGTGCTTTTTGTCATACAGAGTTATTAATTTTAGT
R
TGGTAAAATGTATCTGCATTTTTTTGATGATTTTTGTTCATCTTCTCTCATTAAAAAATTCCTTCCACATACTGAGATAAAAAAGAAGTCATTTATATTT
Celera SNP ID:            hCV1007943
SNP Position Genomic:     56645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20181):
AAGGGCAAGCCTCTCCCACAGATACAGTATAATACTAACTTCCAAGAACATAACATGTCATATGGTCACAGGTATAAAAACATAAAATGGATTTTCCCGA
R
TGATGGCCAAATTTATCCCCACAGGGAGGCAGCATCTTTTCTACTTAAGAAGTACCTTTCGGAAGTGCTTTTCAAGTTAATCCAATCGCAAAAACATTGA
Celera SNP ID:            hCV802577
SNP Position Genomic:     32631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20182):
ATAGCAAAATGCTATGTGTAAGTTTGAATGTGCATGAAGATAGGTGGGAAGAAAACACATCGGGCCATAAGCACTTACCACAGCAGGATGGGAATGGGGG
R
AGGGTGGGGGCAAGTAACTTTTTCTATATACATCTTTGTATGCAGTTGTATACATATTGCCTTTGTAATTTAATGTACAAAGACAAAATAAGTACCTAGA
Celera SNP ID:            hCV27933173
SNP Position Genomic:     222981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20183):
TCTTATTCTGCCATCTTTCTAGTACTGAATCCTTGAATGACTTTTACAAAGAGAATAAAATAGGAAAGCATAAAATAGTCCCTGGGAAATACACACAGTC
Y
TCTAAGACTTGAAACTAGATGTTCCTAATGGAGAGGTTAGTAAGAGTGCCGGACACAGCACAGGGGAAGATTTGAGGAAGGAAGTGGGTGAGAAACAGCA
Celera SNP ID:            hCV1007944
SNP Position Genomic:     59762
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20184):
GTAGCATCTGGAGTCAATTCAGACATAGAGAATAATAATATGTCTAAAATTAAAGACAGAGATTTCAAATTTGAGATATTTTCCCTGTAAATTTTAGAAG
R
TTAGAGTTTCCCAAATTTAGATTTTTTTTTTTTTTTAAAGAACTGCCTTTAAACCAAGTTTCATGCCCTGCTTGAGTAGGCCATGACTTTGTCTATGGCA
Celera SNP ID:            hCV802578
SNP Position Genomic:     32154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20185):
GTTTGGAAACATTTTTGATTGTCACAGCTGAGTGGGGGAAGTATATCTGGTGTCTAGTGGCTACAGGCCAGGGATGCTGCTGAATATCCTACAGTGCAAG
S
GCATCCCCTATGACAAAGAATTATGTGACTCAGAAATGCCAATAATGCTGAGCTTAAGACACCCTTCTCTACATGTCTTTTCTTATCTGCAACATGGAGG
Celera SNP ID:            hCV1007945
SNP Position Genomic:     60804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20186):
GTCTAGTGGCTACAGGCCAGGGATGCTGCTGAATATCCTACAGTGCAAGGGCATCCCCTATGACAAAGAATTATGTGACTCAGAAATGCCAATAATGCTG
M
GCTTAAGACACCCTTCTCTACATGTCTTTTCTTATCTGCAACATGGAGGGGTTAGAAGAAGAGGTTGATGTGTGTGGCTAGATTAGGTTATTACCCATCT
Celera SNP ID:            hCV1007946
SNP Position Genomic:     60855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20187):
TATCAATGGGTTAATGGATTAAGAAAATATGGTGTGTATACACAATGAAATACTTTCAGCCTTAGAAAGAAGAAAATTGTCATTTGTGACAACATGGGTG
W
ACCTGGAGCATATTATGCTAAGTGAAATAAACAGGCACCGAAATGCCAATATCATATGAGCTCACTTATATGTGGAACCCAAGAAAGTTGAACTCAGACA
Celera SNP ID:            hCV802579
SNP Position Genomic:     29411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20188):
CCAGGCTGATCTCAAACTCCTGGCTTTGGGTGATCCTCCCATCTCGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAACTGCCACATCTGGCCTTGATTT
R
TTTTCTAATAGGTTCCTAGGGCACTGTGGCAACAATGCCTTTTCCCCTGAGAGGTATATAACCAAGGAGAGGACATTTGGGGACCTTCTATGATTGATTT
Celera SNP ID:            hCV1007947
SNP Position Genomic:     63373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20189):
ATCTCTACCATCTCAACATCATTCTGTGAGCTGGGTCTTTCAGCCCCAGTGAGCTGGTGACTGTCTTCAGGTTTTAGATGCACGCGTGCGTGTGTGTGCG
S
GCGCACTTGAGGTATTGCTTCTTTTAACACAAAAAGCTGAAGTTTCAAAGCAGGTGGGGTGTGGGTTAAACACCGTTCTAAATGGCAGGCCTGCTGTTCA
Celera SNP ID:            hCV1007948
SNP Position Genomic:     65578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20190):
AAACTCTGGAGAGTCTGCTTTGAAGGAAATCTTCACATAAAAGGTCCTATGTAAAAATGTCTTCTCCTGAAGGTGGTAGAGTTATTTAGAATCTATGAGG
Y
GAACAGCTAGAGTTCAGAAGTTGTCTAACAGTCTACACGTATTCAGTAACATAGACTTTATCAAAAGATGCACTCTCCTCCTCTCTAAACCTCACCAGTA
Celera SNP ID:            hCV11888110
SNP Position Genomic:     290962
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,20)      total(C,1|T,20) ;(C,-|T,-)   JBIC-allele(C,325|T,1174)   total(C,325|T,1174)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20191):
TAGCTAACTGAGGCTGGCCTACCAGGGAGCTCAGGGTTGGGACATTTTGGATAGACTTAGCCATTCATTGAAAAACAAGTAAATGGTGTAAAACCATGCT
M
ATTATGCATAAATTATGGGCAATAGCATACCCTTTGAATTTTGAGAGTTTTGAAGGGTTGAAATAATTTTTGAATTAGCACTCAGTTCTTGATCTGACTC
Celera SNP ID:            hCV1007949
SNP Position Genomic:     66184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20192):
GCCTCTGCGTTGCTCAAAGGCAGAGGTCACTGCTCACATCCTGGAGTACATGGATGGTGGCCTACGGAAAGATGGTGCTGCCTCTGACCATGGACCACTT
S
GTAGCCTTGACATCGTGCATGGCAGAGCACTTGCTCCGCTGCATGTTTTGTGAAGCTGGGTCAGGTTCTGCTATGGGAGTCATGAGCTGGGGAGCCACAC
Celera SNP ID:            hCV7539247
SNP Position Genomic:     323511
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20193):
TTGACTCAGCTTTGAGTGTCTTGGCCTCTCTTTCCATCCCCCAACCTGGGGCTTCTCTTCAGGCATGGGGTGAAGGGATCAAAACCCTGAGGGCCACCCC
S
ACTCCATGATTTCTTTCTGCACTGTCTGCTCTCTGTCCTGTGCTTTCCTGATTTGGAATCACTTCCCTCGCTTTTTCTCAGGCTGAGATCCCTCCCAGCT
Celera SNP ID:            hCV802580
SNP Position Genomic:     26105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20194):
AAAAAGCAAAAGGAAACAAGTAAAATCAATATATTTTATTTAATCCAATGCACCAAAAATATTATCATTTCAACACAAAACAAAATTATTGAGAAAGTAT
Y
TTACATTTTTTTGCACTAAGTCTTTGAATGCTGTGTATAATTTACCCTTCCAGCACATCTCAGTTTGGACTGGCACAGTGTCAGGCGCTCAGCAGCTGCA
Celera SNP ID:            hCV802581
SNP Position Genomic:     25811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20195):
TAACAAAGGACATTGAGAAAAAAAATCCTTTGGTTGTTCCAAGTGTACAGAACATCAGATAAAAATAACATCAATTTTCCACAGAGAAACCAAATATGTC
R
TTTAAATGCTTCCAGAATTAAACATTTGATGTGTATGTTGGGTGAGGAGGCAACAGGATTGGATAGGGTGGTGGGAAGTCTGAGTTTTGGTCTCCCCTCT
Celera SNP ID:            hCV802582
SNP Position Genomic:     25444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20196):
ATTAGAGGTGGTCCTTATTTTGGTTTGCTCCATACTGGGCAGCCAGAACCATCTAGAACACCAGCCAGGACTTGCTCCCCAAGGGTGCTCCTCTGTTGCG
N
TGCCTGCCTCTCTGCCCAATCTCTCTCCACACAGTGGAGGCTCTGAGTCTTTCCTACTTTGAGCCCTCATCTCCACCAGCATCTATGCGTAGCTCTGCTG
Celera SNP ID:            hCV802583
SNP Position Genomic:     22226
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;no_pop(A,-|C,-|G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20197):
CCTCCATCTCAACCCCTCCCCAACTTCAACCCCTCCCCCACCTCAACTCCTCTCCAACTTCAACCCTTCCCCCACCTCAACTCCTCTACCATTGCAACTC
Y
TCCCCCATCTCAACTCCTCCTCCATCTCAACCCCTCCCCCACCTCAACCTCTCCCCATCTCAACTCCTCTCTCATCTCAGCCCCTCCCCCAGCTGCCATC
Celera SNP ID:            hCV802584
SNP Position Genomic:     20470
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20198):
AAAGTGGCTAAGATAATGGGTTTTGAAGTCAGGGTGACCTAGGATTGATCTTTTGCTATGTCACCCACCACCTATGTGACCATCAGGGAAGTTACTTAGT
Y
CCTTTCAGTCTTGCTTCTCTTCCTGTAAAATGGGGTTTATAATAGCACTTGCCACATGGGCTTATTTTGAGAAATAAGGAAAGTGAATCTGGTTAGCATG
Celera SNP ID:            hCV1007950
SNP Position Genomic:     66722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20199):
TTCCCCATCTCAACTGCTCTCTACCTCAACTCCTCCTCCATCTCAACCCCTCCCCAACTTCAACCCCTCCCCCACCTCAACTCCTCTCCAACTTCAACCC
Y
TCCCCCACCTCAACTCCTCTACCATTGCAACTCCTCCCCCATCTCAACTCCTCCTCCATCTCAACCCCTCCCCCACCTCAACCTCTCCCCATCTCAACTC
Celera SNP ID:            hCV802585
SNP Position Genomic:     20436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20200):
TTTGAGAAATAAGGAAAGTGAATCTGGTTAGCATGGAGCCTTGCACATTGTAAGTATTTAATACCTAGGACAAATAATATTATAAACAGCATCACCTATA
Y
TTTTCTTTGTAATTATTCTTTATTTGTTTGATCCATGTCCATTTTTCTTTTTTTTACAGCTCCAGAATTTGCAATATGAAAATAGAGATTATTTAAACAA
Celera SNP ID:            hCV1007951
SNP Position Genomic:     66888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20201):
TTTAACCATCTTTCTCTTCCTCTTTTTCTCTCGAAGCCTGTAGCAGGGAGGGAATGAAGGCATGCAGGGTTGGCGTGTGAGTGAGGAAGAGGGCTTGTCC
N
CCTTTCCCCTCTGTCCCTGCCCCCGCCTCTCCTGGGGACCTCCTTGCAGACCCTCTGCAGCTGTGCTCACATCCCACTACTCAGCCTCACTGCTGTTCTA
Celera SNP ID:            hCV802586
SNP Position Genomic:     18696
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,15)      total(C,15|T,3) ;no_pop(A,-|C,-|G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20202):
ACATTGAAAGAAAATAAAAATGCTGATTTACTAATTAACTCCATGCATCTTGTGTACTGCCCCCCTCCCCACCCCCCAAAACATCCTAAACATTCATGCT
S
CAGGCTGCTGCTCCATGCCTCCAATAAACTAGCTCTTCAAAGAGATCTCTTTTGTATTCTTCCCTTTTCCAGCTGCCTCCAGTGGGAGGGGATGGCTCCC
Celera SNP ID:            hCV1007952
SNP Position Genomic:     70033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20203):
TGTCCTCCTTCTCTTCTCTTCTGCTTTTAGCTCCTTTAACCATCTTTCTCTTCCTCTTTTTCTCTCGAAGCCTGTAGCAGGGAGGGAATGAAGGCATGCA
S
GGTTGGCGTGTGAGTGAGGAAGAGGGCTTGTCCCCCTTTCCCCTCTGTCCCTGCCCCCGCCTCTCCTGGGGACCTCCTTGCAGACCCTCTGCAGCTGTGC
Celera SNP ID:            hCV802587
SNP Position Genomic:     18662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20204):
TCTGACAACAGGAAAATACAGTTACTGTCCCTCTGAGACTGGAAAGGGATTTTCAGATGGTCTTCAGACTGGTTTCCAATCAGAGTTATGACTAATTGCT
R
ATTTTCCACATTTCCATTTGTGGATCCTTAATAGGACAGTGGAACTCGGGGCACTGGAAGGAGAATGCCCACCAAATTCCCATATGAAGAAATTCCCATA
Celera SNP ID:            hCV1007953
SNP Position Genomic:     72288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20205):
CACATTTCCATTTGTGGATCCTTAATAGGACAGTGGAACTCGGGGCACTGGAAGGAGAATGCCCACCAAATTCCCATATGAAGAAATTCCCATATGAAGT
M
ATGCAATACCGCATGACTACAGTATTCTGGTCATGAACTTTTTCTGAGGATCCTCCTGGATATTGAGGGCATGGTGCCAGGAACACTTGGCCTCTGATCA
Celera SNP ID:            hCV1007954
SNP Position Genomic:     72395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20206):
TTCTTCCCTTCTAAGGCAGGCCTTGGGGGAGGACTCTCCCCCAAGACTCTGCAGCCTGGTGCTCAAGCCGGATCGGCCCGTTCTGTGCTTCCTTTTGTGG
Y
ACCATCAGAGTCTCCTCCCTGTTTGGAGGCTCAGGTGAATCAGTCCCCTCTCTCCCACCCTGCCCTTGCGCTGGGCTGCCTCCACTCTGCTCCCATGGCC
Celera SNP ID:            hCV802588
SNP Position Genomic:     17691
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20207):
ATGAGAGTCTGTCTTCCTGCTAGCACTGCTGCCCTTAGGCCAAGTCTCTTCACAAAGCCATTTATGCCATTATGTTTGCCCCTTTCCTTTTTGGCTGCAC
Y
CTCCAAGAATTATCCCTTTTAACTCACATAGGTGCTGAAACTCCCTAAGGTATTCCACATTAATTCCCAACCTATGCATTTATGATTCCTGTCTCCTTGG
Celera SNP ID:            hCV1007956
SNP Position Genomic:     73193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20208):
GTTTTAGCCCATAACTCACCATGGAGGGCCCTTCCAGGAGACGTCGGGCAGGGCTTTCCTACAGCGGAACCGGGAGGCCGCCCCGTGAGGGCAGAAGCTC
Y
CGCCAGGAGCCAGCACCACCAGCAGAGTGTGGAACCCCCAGAGGTCCTAGCCTCCTCCACGGGGCCTCCCAGGTGCTAAGTGGGGAGATGGGGAGAGGGT
Celera SNP ID:            hCV1007957
SNP Position Genomic:     74892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20209):
CCCTCTACTTGGAAATGCCTGGCCGTGTTCGTGGAGCCTGGGAGGTGCGGAGGAGCGGCGACGCGGCCATGGCGCTAGGCGCGCAAAGGCCCCGACACCT
Y
ACTAGGGCGGCGGCGGGCCCGTGGCACCGCTCCCGGCACCGAACAGGGCACAGCACTGGGGACACCTCTCTGCAGGGACCCAAGACGCGCGTGCGTGTGC
Celera SNP ID:            hCV1007958
SNP Position Genomic:     75097
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20210):
TTCGCTTGGATCGACTTCTTATTTTGAGATTTTGGGCATTGCGGTTTACGCAGGAACCTCAATATCGCTCTCCCCACCTCCCTCCCTCTTTCTCCAACCT
Y
TGGATGCGTCTCTGCTGGCAGATATAAAGACCCAAGTCTTCGCGGTGGAATTTCTTAGATGGACTTGCAGGGGCTGGCGTTATAAAGCATGTCATCGTAA
Celera SNP ID:            hCV1007959
SNP Position Genomic:     75943
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20211):
AGCCCTCATTATCCCGGGCTGTAACCTGAGAGGGAAGGGAGATGAGGGGGAGAGGAGGAGGAAAGACCTTTGACCTTGAATCAAGGGCCGTTGAGTGTGT
W
CAAGCAGATGCCCCGAAAGCAAGGAGAGCAGGGGAGTGAAGACGTGGTAAGCCTGTGGATGGCTGCCCCAGCAGGCCCTGGGGACTTGGAACTCCTCCCA
Celera SNP ID:            hCV7539251
SNP Position Genomic:     324877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20212):
ATCTCTCCCATACATCTCTCCCCTTTTAGCCTGTTGTTACTAATGCCATAGTTTGAATGTCATTTTTATTTCTCCCCCATTCCATATGATTCCCTGGGGG
Y
CTCTCCCCTGCAGAACCAACAAAGGACGGGACATCAAGACCATCAAGTCTCTGCGGGTGCTCCGAGTTCTAAGGCCACTGAAAACCATCAAGCGCTTGCC
Celera SNP ID:            hCV16185724
SNP Position Genomic:     344984
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(T,113|C,632)   total(C,632|T,113)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20213):
AATTTGGGAAGAGCGTTCCAGCAGGGCTCTGGGAAGGGAGCAACCTGAGTTAAGGCATGTGAGCCATCCATGGCTAGAATGCAGAATATAGAATACAGTT
R
CTTTAACCAGAATAACCTGGGGCTCATGAAAACTCATTACTGCTTTCGTCAGGAATTTTAGAATCAAGATCTCTTTTTATGTTTTTTGGTTCTTTGTAAT
Celera SNP ID:            hCV7539252
SNP Position Genomic:     329921
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20214):
CCCATCTTCTCTCTTTAGCCATGGCTGGCCTGCCTTTGGAGAATTTGTTCTGGGAATATTCCTTTTTCTCACACGGATATCGAAGTTCTTTTCATCTGCC
K
GAGCTAAAGGTCTTAGTTTCAAAGGAAAATAACCAACATCCCAAGAAATCTATAAGAAAGCTTTTTCTTTTAAGTTCAGACCCAGATGGTGTCTTCTCTC
Celera SNP ID:            hCV16185725
SNP Position Genomic:     345234
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;JBIC-allele(G,46|T,1441)   total(G,46|T,1441)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20215):
CATCTTGCAGCAATCAGATCCTACATCACCATGAACTGTCACATTGCGGGATGCAAGACCTCCATGACTGAAAGATATTTATTATATCAAGGACCAAAAC
R
TTCTTGTTAGCACTAAATTTTAGGATGATGAGAGAATGTAGACCTTCTCTGAGATTTCTGTATTGAGAAGCAACTTGTACTAATCAGTTTCCTTGGTTTG
Celera SNP ID:            hCV11888127
SNP Position Genomic:     312203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20216):
CTTGGCTTGACTGGGATCAGCTTATGTCTACTGGATAGAATCTTATTTTAGAAAAACACCTTGACTTTGTGACTCAGGCATCCTCTCTGTCTGCTGAGGC
R
GGGGACACATTTTATAAGATGTGCTTCATCCATAGAGATTCCAGACAGTCCTGAGTAACCCCATCCATGTAAAGAGCCAGCCATCTGTAGTCAGATGTCC
Celera SNP ID:            hCV27490345
SNP Position Genomic:     356655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20217):
TAGCTGCCTGTCAGGGATGTTGGGGATTCCTGCATGGGGACAGAAGGTAGGGTGATCATGAAGTCTCTTCCATCTTCCAGAGTCTAATTTTAATAAGTTA
K
CAAAGGCTTGGTGCAGACTCTATGCTCAAAAATGAGAGTGACTTGAGGTATGTGGTTTGATGTACATGGATCCTAGGTGGGTAAAGCAGTTTGGGCAGGT
Celera SNP ID:            hCV244864
SNP Position Genomic:     174502
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20218):
GTGCCTTCATCATCAGCCTCATCCCTACAACAATGTTTATATGTACAGATCAAGAAGTCATTATCTCAAACTGACAGGCATCAGAGGTTTGCCGAAGCCC
R
AGGTGCAGAGGTTGTAGTTAGGCTTGGGATCAGCTGTATACATCAACGGACCACAGCAGCATGTGGGAGACTACAGGAGGGAATGCACAGTGCCTGGCAC
Celera SNP ID:            hCV802590
SNP Position Genomic:     16045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20219):
CTGTGGTACTTCAGGTGAGGGTAGAGGATGAAGCTTGCAGAGAGCAGGGGACTATGTGGAGGAGAGGCTCCATTTTTCAGGAGACTGGGAAACATTGGAT
K
GAACACATGATATGTGAGCTGGGAGGTGCAGAGAGGCCAGGGAGGAGAGGGAGCCTGAGACAAAAAAGGGCAGGCCTCTTTCCGTGGGGGAATGGAATTG
Celera SNP ID:            hCV244865
SNP Position Genomic:     173266
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20220):
GAGAGGCTGTCCTTCATCACACAGTCTAAAATAGACACCTGGTCACTGTGCCATATCACCTATGCAGTTGACCACCAACCCCCACAAGAATGTTGGTGCC
Y
TGAGATCAGTGATTTGACTGCCTCGTTCACTCCATATCCCCAGTGCTGAGGGCAATGCTGACATATGGGCCCTCAGTAATTATTTGTGAATGAATATTTA
Celera SNP ID:            hCV802592
SNP Position Genomic:     15083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20221):
ATCTCCCAAACATATCCCAAGTCCAAACACTTCTCCATCCCCACTGCTACCAATCTCTTCCAAGCCACTATCCTTTGGACCATTGCAATGGCCTGCTAAC
Y
TGTCTTTGCATCTTTGTTTCCCTAGAATAAGAGAATGTGATCTATTGACACAACAGGCAGGGACAATATGAACTCTTTTTGCTGGCTCATAAAGCCCTAT
Celera SNP ID:            hCV802593
SNP Position Genomic:     14681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20222):
AATGGCACCACTATTTCTCCAGTTGTCCGAGCCAAATATTCTCATTATCTTTTATTTCTCTCCATTTTTCCTCACTTCTGATCAGTGGTAAGCCCTGTCA
Y
TAACATCTCCCAAACATATCCCAAGTCCAAACACTTCTCCATCCCCACTGCTACCAATCTCTTCCAAGCCACTATCCTTTGGACCATTGCAATGGCCTGC
Celera SNP ID:            hCV802594
SNP Position Genomic:     14576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20223):
GGCTGGGCTTTGTCTGATTCCCAGCCCCCTCCCCACCCCTACTCCCTTCACATGCCGCCCTCTACATAGATTGGGTTGCCCCAATGCTTCCTTTCATAAT
Y
AATTCTCATTTTCCTTTCTTTAAGCCAGCCACTCTGCCCGTATCCCCACCAACCAGGAGACACCGCACTGTCTTCCTGTAGGGAAGTCAAGGCTCCATGA
Celera SNP ID:            hCV1007960
SNP Position Genomic:     77217
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20224):
CTTTATTTTGCTTTATTTTTCATCATAGCCCTTATTGTTTCCCCAACGGACACACAAACACACACACATACATACAAGCACAGATATTTTGCACTGGAGT
R
CAAGCTTCTTGAAAGCAGGGCCTTTGTCTTACCTTCAGGGTCCAAAACAGTGCCTAGTGTGCAGTTGACTCACAATAAGTGTTTGCTGAAAGAATGATGA
Celera SNP ID:            hCV802595
SNP Position Genomic:     12442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20225):
TGCCGCCCTCTACATAGATTGGGTTGCCCCAATGCTTCCTTTCATAATTAATTCTCATTTTCCTTTCTTTAAGCCAGCCACTCTGCCCGTATCCCCACCA
R
CCAGGAGACACCGCACTGTCTTCCTGTAGGGAAGTCAAGGCTCCATGAGGGGATTTATCAGTTCAGAAGTTCCCAGGGCCAAAACCCTGTGTACAGATAG
Celera SNP ID:            hCV1007961
SNP Position Genomic:     77269
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20226):
GAGAACTTCCTGATCACCCTATTTAAATAGCATTCCCCCATTGTCACTCTCTTTCCCTCTTTATTTTGCTTTATTTTTCATCATAGCCCTTATTGTTTCC
Y
CAACGGACACACAAACACACACACATACATACAAGCACAGATATTTTGCACTGGAGTGCAAGCTTCTTGAAAGCAGGGCCTTTGTCTTACCTTCAGGGTC
Celera SNP ID:            hCV802596
SNP Position Genomic:     12384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20227):
CAGCACCCCCTCATTAGAAACGAAGGAGCATCTCTAAGCAGATATTCTTCCTGCTGCTGTTCGCATCCTCCCACAGCAACCCCGGCTGGGCTTCTCCCTC
K
CTCCTCTCTGCATCCCGCTCCCCTGCTCCACTCTCACAGAGTGATCCCAGGCCATCCATTGCCTGAGTTGAACGTATCTAGCTAGGGTGGAGGTTTCGGG
Celera SNP ID:            hCV1007962
SNP Position Genomic:     78355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20228):
GGCAAGAAGTAGTGTGTCTGGCTTGGAGACTCTATGCCAGAGTTGGGCAATAGGATATTCCCCCCACACCTCCATCGCCTTGGTTGTCTCAGCAGGGGAG
M
ACATGCTTCGTGTGGAAATGAATATGGCTTACAGTAGGAAGGTCAAATATGTTTGCAGCCCTGAGATAATGAAGCTCATCACAATGAACCTGTGGACATT
Celera SNP ID:            hCV1007963
SNP Position Genomic:     80753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20229):
GCAATCAGGAGAGGCATGTACAGGCTCCATCCACTGCACTGACCGCCTGCTGCATCTGGTCCCTGGTACCAGGCCTTTACCTTCTGTTACTGTGGACTGA
Y
CACCCCTCAAGTTCCATGTGGAGTCTGTTGCCCATGTAGAGAAAAATGAGCCCCTTTGTTTATTCTGTCTCCATTTTTTTTTCTTACAATTTTCTCTGGA
Celera SNP ID:            hCV802597
SNP Position Genomic:     10735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20230):
CTCATCTCTGGAAAGCAGGGAGCAGCTAGAAGATGTGTTCTTATAAGGTGAAGATGGGCCAGATTAAGGGGAACAGCAATGAATGACTTTAAAATGTGTC
R
GTTATCCAAGAGATCCTCCCTGCCACCTCCCAGAGCAGTGGGTACTTCTTAGGAGCTTCCTTTATTGTATCTTGAGCTCCAAATTTGTAGGACTAGATAG
Celera SNP ID:            hCV1007964
SNP Position Genomic:     83096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20231):
TTTACACTTTTAAAAATAAAATTTAAAATATCTACATCAAAACCTGTTTCCTTTATATGTTTCTAATGCTGATTTTATACCAGTATTGTACCTAAGGACA
Y
ATTTGGATTTACAATCAGAAAAAATATCTTCAGGAGCAATAATGATGCAGAATTTTCCCAGAAAGCTTTTGATAAAAACAGATAGGATACTTAAAATGAT
Celera SNP ID:            hCV1007965
SNP Position Genomic:     89064
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20232):
CATCATTATAATCTCCTTATTTTCACCCTCAACTTTGTTGTCCCTCTGCTGCTTTGTTATACCTTGTCTGGCAAGACTTCAGCCCTGCTAAATCCCACTT
K
CCCCTATTCTTCATGTACATATGGGCAGGTGACCATAGCTATAGAAAAAGTCACAACCACGCCGATTGACCTCACTGTGAATTGATGACTGCCACCTCCA
Celera SNP ID:            hCV802598
SNP Position Genomic:     10357
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|T,18)      total(G,7|T,18) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20233):
GGTGAAGGTCCTCTGCTAGGGATATTAGGGGCATTTTACCTGTGGGAAATGTTTACTGGTGTGGACGAGAATGGAGAATTAGGATGCACCACTTGGCTTC
Y
GGAAACCAGACAGAGCACTCAAAAGAAATTAAGGAGTGGGCCTAAAAAGTTAAAGGAACTGCCTCTCCTTTCTGCTAACTTTGGATTGTTTTTGCATGGA
Celera SNP ID:            hCV1007966
SNP Position Genomic:     89601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20234):
TCACTTGCTTCATTCCAGGAAGAATGGGTTAGCCCTGGGTTTACTGCCTCTCTTCCCCACGTCTTCAGCTGCTGGCAGTTCTTAGTGATTTCAGTATCCA
Y
GTAGATGACCCTTCCTGCACCCTGACCTCTTGGTTCCTTAGCCCCTTCTGTTTGGTGACTTTGCCTTCTTGCTTCCTGCTGACAGCTCACCTCCATGGTC
Celera SNP ID:            hCV802599
SNP Position Genomic:     9775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20235):
AACTTCTAACAGCTTTCTATACTTCCACTGTGAAAAAGGCTGGGTGCAGAACAACCTGCATAATCATATGCCTTACCATTTCTCTTTTTATCTTACCTTC
R
TGTCTTTTTATCATATAATTTTACCACCATTCTATAAGGACCTCCCTCCAGGCCTGGAGAGCTTTCTGTTCCTCAATATGCATCCCTGAGAATGGATGGA
Celera SNP ID:            hCV1007967
SNP Position Genomic:     90260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20236):
TCTCTTCTGGGGCTTCCTCATCCTTAGCAAGTATATGTTTTTGGTGTTTGGGGCATAGGAGGCTGGATATAAGGATCATGACTAATAAGAAAGGACTTAC
R
TAAGAAAAAATAGGAATGGATAAGAGAAAGATATTCATAGAGGTGAAGCCAACCAGCAGAGATCCAGTGAGAATTGGTAACAGTGACTCAGAAAAATGGT
Celera SNP ID:            hCV1007968
SNP Position Genomic:     91794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20237):
GATTTCCGACTACACTTTAAGTGCAAACATGGCTATCCATGAAGAAACACAGAAGAAGCACTGTTAAAAAGCAAAGTGCCTGAGTGCTAGTTATATTTGT
S
TCACTAATATACCCTGTGACCTCAGAGAGAAAACCACTCCGATCTCAGAACCTCTATTTCCTCATCTTTGAAATGAGAAGAATGCCACCTGCCCTTCCTA
Celera SNP ID:            hCV11888130
SNP Position Genomic:     322372
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,7)      total(G,2|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20238):
TCCCCTGGGGATGTGGAACTCACAATAAGTGCTGTGCTGAAACTGGCTTGTCCCAGCTCTTGAGTGTCCTCTCTGTATGTCTCTTCTAGACTCCATGTTC
R
GTGATATCAAGATGGTAGCTTGAAATTGGCCATGGAGAGAGTATTTATACCCCAGAAATTTGCAAATGCTACACATTGGGGCTTTTCCCCCGAAGTTAAA
Celera SNP ID:            hCV1007969
SNP Position Genomic:     93233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20239):
TTTGTGGTGTCTCCGTCCTTTGAGTACACCATTATGGCCATGATCGCCTTGAATACTGTTGTGCTGATGATGAAGGTGAGAGGAGAGAGGCACAAGAGCC
R
ACTGAGCCCCAGCGATGGTTCCCTCCCAGGGCAAGTGGGAAGACACCCCAACATCCCAGCCCATCACTGCTTTACCTACTTTTCCATCATTGAATCCTTT
Celera SNP ID:            hCV7539261
SNP Position Genomic:     350992
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,28)   caucasian(A,14|G,22)   total(A,22|G,50)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   ;(A,-|G,-)   TSC_42_A(A,27|G,56)   TSC_42_C(A,34|G,49)   TSC_42_AA(A,24|G,59)   total(G,164|A,85)   JBIC-allele(A,689|G,790)   total(G,790|A,689)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20240):
GTGAAGACTACGTCTTTGGGGGGAACCCAGAGTGATCAAAGAGATAAGGAAAGTTTGCCCTTTTCAATTAATAAGGACAAAAGGGACTTAAGGATAAAAC
R
TGTTCTTTAAGATAGGTCACTGTGGTTGTGGATGAGACTTCCTGGGTGTATAGCTCTCTCCCTCCATATAATACTGCTCAGCAAACCTTCATGGGAGAAA
Celera SNP ID:            hCV16185736
SNP Position Genomic:     377765
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20241):
CCAAAGGAAGCAGTGACTGCACATTAATCTTGGAGGCAAAAAAAGTGGACGAAGTCCTGCTTCATGCAAAGAAGACCCATTTACCACTGAGCCAGACAGG
Y
CATCCAGTGCCCCTGTTCTGTGGAAGAGAACGAAGGATTAAAATTAAATTTAGCCGTCAAGTAGCCCATTAACTGTGGATTTAGGAGGCCAGCTGAAAAG
Celera SNP ID:            hCV11888138
SNP Position Genomic:     337664
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|T,8)      total(C,6|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20242):
GCTATAGCTGTGAGACTACTGACTCCCAAGGGGCCTGGCCTCTGGCCATCAGAAGTCTCTGAGCCAACCTAACATCTCGCTGTCTTGTTTATCCTCTTCC
K
GTGTCTTCCTCACTTCACTTGGTATTCAGAACTCCTCCTTAGGAGAGCAGCCAAGGGAAGCTACTCTCCTTCCTGGGGATCCCAGGCAAAGCCATCTCTG
Celera SNP ID:            hCV25763655
SNP Position Genomic:     318808
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,28)   caucasian(T,38)   total(G,2|T,66)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20243):
ACAGCGTTTTGAGTCCAGGATCCAGTCACACGCAAAACAAATGAATTTGTTAAGACTTATCCAGCTGTCTGTAACTGCAAGGGGCATGGCAGTGGGAGGA
R
GGAGGGAGACAGTACTGTCTTATTTTCTCAGAACCAGCACTTCCCATCCTTTGGGAATCAGGGCCCAGATGAGTCTGGAACTGACCTCAGTGTTGGTTCA
Celera SNP ID:            hCV1007970
SNP Position Genomic:     94127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20244):
TGGAAAGACATGCATGAAGGTGTCCATGCCATCCTCTGAGGCTGTTACATCTCTTGGATTTAGACATCCAAAAACATGAGACTGAAGGGAGAAAAGGAGA
Y
AGGTCTTCCTGTAGGGTCTGGGGTGAGGGGTGGAAATGGGTAAAGGAGGCTGAGGAATGCCTCCCCTCAGACTGTGGACTCTTCTATACCCCCCCAGGAG
Celera SNP ID:            hCV1007971
SNP Position Genomic:     97036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20245):
GAAGTTGGCTTTCAGAAACAGAGTCTGTAGACATGCAGTGTTTCCAGTGTGTTACCGTGGTCACAGCTACTGAAGGTGAAATGTACATAACAAGTACTTA
Y
GTAGCACATACTTATTGTGTGCAAGGTACTGATCTAAGAGCTTTATGCATATAAACTAACTTAATTTTCACAACAGCCCAGTGGAGCAGAATGGTATTAT
Celera SNP ID:            hCV27976533
SNP Position Genomic:     70643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20246):
AAGGAAATGAACAAATGGCAGGTGTGCAGGCCACGTCGTGCTGCTCAAATTAGCCATGTTGCTAAGGAAACAAGTCAACCATTCAAAGGAAGGAGCATTG
R
GTAAAGGAGATAAATCAATAAGTGAACCTATTTTTATCATTTCCCTAATGATTGTCTTGAAACTGCTAGACTAGAAAGAGAGTTGGAGCAACACAGGTCC
Celera SNP ID:            hCV1007972
SNP Position Genomic:     97648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20247):
TGAAAAGGCTTCTGTTGAATTTTGAAAAAGATCATGCAGAAGATGATAAGCATGGTTTCACAAAATGTAATATAATTCTGCAATTCTTTGCCTAAAGGCT
Y
TCAGTGGTTTGCTGTTTTCTGCAGCAGAATACAAGATCCCTCCTGACCTGACCACATGCAGCCTGCCCTCCAGCTATACTGGACTACTTGTGGTTCCTTG
Celera SNP ID:            hCV27976534
SNP Position Genomic:     131788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20248):
ATGAACACATGCTCATTTGAACACTCAGAAAATGGTTAGAGGAGTAAAGAAGAAAGTGAAAATAACCCTGCTACCGAGAGAAGACTCATCATCCTTCCAG
Y
AAGACAGAATTTTTTCTTGTTCTCTCCCTTCTCTTTTTTTTTGTTTTTGTTTTTTTTGAGACGGAGTCTTGCTGTGTTGCCCAGGCTGGAATGCAGTCGC
Celera SNP ID:            hCV1007973
SNP Position Genomic:     98178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20249):
CACGATGACACGGGCTGGTGCATTTGCATTCAGATCCTCTGTTCACTAGAAATGGAAGGGACCTTGGAGGTCCTTGAGTCCAGCTTCTTTCCAGAGTCCC
Y
GCAAGGGGCAGTAACTTGCCACTGACTACACACTAGGTTATTCCAGGACCAGACCTCTCACTCCTAGTCCAGCGCTCCTTCCACCACACCATGCTGCCCA
Celera SNP ID:            hCV27976535
SNP Position Genomic:     140369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20250):
GTTCCTATAGCACCAGTATTTCATGGCCTGCATCTTAGGAATACCACTCTCAACGCTCTCAACTTCTGTTGTCTTTTGTCAGTGACTTGTATGCGTGTTG
Y
CAGTTCTCTTTCTGGATCCATCGCCCAAGCATGTTTTCAGGAAAGGGTATGGATTCCTTGGCCACCATTGCTGCTGGGTTCCCATCTTTAATTTGCAGGA
Celera SNP ID:            hCV1007974
SNP Position Genomic:     101235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20251):
TTAGGCTGGCTCAGGGCTCCTTTCCTTTTTGTTTCATTTACTCTAATATGCGGTTTAATTTCTAATCCATGGCCAAAGGCCTCAGGTGCCTGATGTGTCA
R
GCAGCTTTGGGCTATGATCTTCCTGTTCTCAGGCAACACCAGGCCTTAGGACTGAGGGGCAGAAATTAGCTGGAGGTGGTGCGTTGGTGACTCAATGGCT
Celera SNP ID:            hCV27976536
SNP Position Genomic:     181631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20252):
TTGCTGGGGGACAAGCTAATGACAGACCCCATGGGGATTCACACGGAAAAGAAGAGATTACAAACACTGTGTCTGTGCTGCGTGGCAGCCAGGGAAGAAG
R
AAGGGCAGGCACAGGCCCATTTTCTTCCCTCCTCTTTCCTAAGGGACTTCTGATACGAGAGGAAGAGGTGGGGAGTAGAGGGGAGAGGATGAAGGATGCT
Celera SNP ID:            hCV1007975
SNP Position Genomic:     103646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20253):
CACCTGCACCCACAGCAGTCCCTGCTGACAGCTCTTCCTTCCCACCTCATCTCCAGGTGTCACCTCCCATTTTCCCCTCTGCACAGGAGGAATGACAGGT
R
CTGGAGCATGACACAGTGCCTCAGGGCTGAGGCTGCACAACTTCTCAGCTCTCGGTGCTGACAGGAGGGAAGTGGGTGCTGAGGTGTCAGTCAGCTGGCT
Celera SNP ID:            hCV1007976
SNP Position Genomic:     107496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20254):
TGAATGATTTAATTTTTTTATTTCTAATAGAATGTTGCTAATGTATAGGAATGTTAGTTTTTATTCGTTGATGTTATATCCAGCAATCGTGTAAAAGTTT
R
TTAGTTAAAATCATGTTGGTAGATTTTTTTTTAGATTATATAGGTAGAAAACTGTATTAACTACAAACAAGTGTTATTGTATTTGTTTCTTTCTAATTCA
Celera SNP ID:            hCV11993333
SNP Position Genomic:     126773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20255):
GACCTCTGACCTCCTAAACTTTAGTGTTCTTTGGCCTATAAGTTGAGGGTGTGCATGGTTTAGAAAGCGCATTTATGTACATTGCTTCATCTTGTCCTCA
W
AATGCCATAGAAAAGACCTTGCTAGCCTCATTTTACAGATGAAGAAACCGAGGATCAGAGAGGGCACATGAATTGCTAGCAGGCACTAGATCCAGGACTT
Celera SNP ID:            hCV1007977
SNP Position Genomic:     107774
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,8)      total(A,2|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20256):
CATTCACTCAGGGTGATACAGGGAAAGAAATTATGGCAAGGTGCTTTCTAAGTCAGACCGTTCTCCTGGGCCTGGAGCTCTCATTTGAAGGCAGTTAAAC
K
CGTGCATTCTTGTGCTTGTGCATGAGTGTATGTGGAAGAGGGAGGTGGGGTGAAAATCCCCAGGTATGTTTTCAAAGCAGAGGTGGATATGGCATAAATG
Celera SNP ID:            hCV1007978
SNP Position Genomic:     111920
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20257):
CTTCCAGGAAAATGTTGGGTAATGACAGTAATAGAAGGCTGTCTTATTTTGTTCCTTATTTAAAGTTTAACAATGAAGACAGATGTTCCTTATAATGTTA
Y
GGTGAATACTCTTTATAAAGGAAGTAAAGAATGATTGTTAAACTAATGTCAATAATAGCTCAATATTTTCATCTAATTCATAAACTCAAAGGTTTTGGAA
Celera SNP ID:            hCV11993335
SNP Position Genomic:     127018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20258):
GGGAGATCTAATCCCTAATTGGGCAGCTGCCTTCTAGCAACAACCTTGCCCTGTGGGAAGGAGAGCATCAATTTTGGAGGACAGTAATGATCTCTTCATT
R
TCTATGTGAGTATAAATTGTCAGATGCATAGGAGATATATAATAAATGTTTTCTTCTAATTATTAGTAACATCCATTGAGTCAAGAAATATTTGCTATGT
Celera SNP ID:            hCV1007979
SNP Position Genomic:     117749
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,13)      total(G,1|A,13) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20259):
ATTTTTAAAGTCAAATGTCACATATTAAAATATTAGAGAATACTCTGTAAGAAATGTTGTCTTATAACACTGATTCTCAGACTTATGCCTACATCAGAAT
Y
GTCTGGAAAGCTTAAAACGAGATTGTTGGGCCCCACTCCCTGTGTTTCTAATTCAGATAACCTGGGGTAGGGCTTGAAAATTTGCATTTCTAATAAGATC
Celera SNP ID:            hCV11993336
SNP Position Genomic:     135978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20260):
CTGCAACCTGGCTTAATTCTGTTAAATTAGAAAGGGCTAGTTCCTCGCTCTGCAGCTCCATAACCTGAGAGAGACGTAGGTGGCTCTGATGATTCCACAA
G
GGTGCCTGTCACTTACATTCCCTGCAGTGTTGAACTAATTAAACCAGCAGTGCTTCACCCAGTGCTGCAAAGAAGCAACTGCACAAATGCAGCACCACCG
Celera SNP ID:            hCV11888143
SNP Position Genomic:     347164
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,10)   total(G,10|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20261):
CAACCTGGCTTAATTCTGTTAAATTAGAAAGGGCTAGTTCCTCGCTCTGCAGCTCCATAACCTGAGAGAGACGTAGGTGGCTCTGATGATTCCACAAGGG
W
GCCTGTCACTTACATTCCCTGCAGTGTTGAACTAATTAAACCAGCAGTGCTTCACCCAGTGCTGCAAAGAAGCAACTGCACAAATGCAGCACCACCGTGG
Celera SNP ID:            hCV11888144
SNP Position Genomic:     347167
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,10)   total(A,2|T,10) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20262):
AACCTGGCTTAATTCTGTTAAATTAGAAAGGGCTAGTTCCTCGCTCTGCAGCTCCATAACCTGAGAGAGACGTAGGTGGCTCTGATGATTCCACAAGGGT
R
CCTGTCACTTACATTCCCTGCAGTGTTGAACTAATTAAACCAGCAGTGCTTCACCCAGTGCTGCAAAGAAGCAACTGCACAAATGCAGCACCACCGTGGG
Celera SNP ID:            hCV11888145
SNP Position Genomic:     347168
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20263):
ACCTGGCTTAATTCTGTTAAATTAGAAAGGGCTAGTTCCTCGCTCTGCAGCTCCATAACCTGAGAGAGACGTAGGTGGCTCTGATGATTCCACAAGGGTG
Y
CTGTCACTTACATTCCCTGCAGTGTTGAACTAATTAAACCAGCAGTGCTTCACCCAGTGCTGCAAAGAAGCAACTGCACAAATGCAGCACCACCGTGGGG
Celera SNP ID:            hCV11888147
SNP Position Genomic:     347169
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20264):
CTGGCTTAATTCTGTTAAATTAGAAAGGGCTAGTTCCTCGCTCTGCAGCTCCATAACCTGAGAGAGACGTAGGTGGCTCTGATGATTCCACAAGGGTGCC
W
GTCACTTACATTCCCTGCAGTGTTGAACTAATTAAACCAGCAGTGCTTCACCCAGTGCTGCAAAGAAGCAACTGCACAAATGCAGCACCACCGTGGGGCT
Celera SNP ID:            hCV11888148
SNP Position Genomic:     347171
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,10)   total(A,2|T,10) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20265):
TGGCTTAATTCTGTTAAATTAGAAAGGGCTAGTTCCTCGCTCTGCAGCTCCATAACCTGAGAGAGACGTAGGTGGCTCTGATGATTCCACAAGGGTGCCT
R
TCACTTACATTCCCTGCAGTGTTGAACTAATTAAACCAGCAGTGCTTCACCCAGTGCTGCAAAGAAGCAACTGCACAAATGCAGCACCACCGTGGGGCTA
Celera SNP ID:            hCV11888149
SNP Position Genomic:     347172
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20266):
TGAGCTTGACAACATTTGATCAGAAGAAAAAACTGGGAATAAATGTGCTCTACTCTGTGCAATCAGCTTTCTATCTGTCCATCTATCCTCCTTTCATTGA
R
TGGGTCCCATGTGTAAGGCCTAGCGGTGAGCAGTAGGAGGGACAGCAGTAGAGTTAAATAGGGAAGAGATGGAAGATCACTGGGAATGTGGTTTCACTTT
Celera SNP ID:            hCV1007980
SNP Position Genomic:     118066
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20267):
ATCTATCCTCCTTTCATTGAATGGGTCCCATGTGTAAGGCCTAGCGGTGAGCAGTAGGAGGGACAGCAGTAGAGTTAAATAGGGAAGAGATGGAAGATCA
Y
TGGGAATGTGGTTTCACTTTGCCCTAATGCAGCAGCTGTTGACACACTACATGCTGGTGTAACTAGCCATTGAACTGTTGTTGCCACCTCTCTTGATCAA
Celera SNP ID:            hCV1007981
SNP Position Genomic:     118146
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20268):
TGGAAGATCACTGGGAATGTGGTTTCACTTTGCCCTAATGCAGCAGCTGTTGACACACTACATGCTGGTGTAACTAGCCATTGAACTGTTGTTGCCACCT
S
TCTTGATCAAGCTTTGAAGATAAGCATGAGAAACAATTAGTGTATTTCATATTTTTTTTATTTTTGTTGTCATGCTTATTTTTGTCCTCTTCAAGATAGC
Celera SNP ID:            hCV1007982
SNP Position Genomic:     118236
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20269):
GGTAGTCAGCCAGCTGAGGCTATTTATAAAATGTCCATGTTGGCCTGGATATCACTACTGGTTAACATTTGTCAAACTCTAAACTCTGTAGTCTAGTAAA
R
CAGAGGATCAGGAGCCAGTTTCAGAGGGAAAACCAACCTTTCCATTTACTAATTTCTTTTCTATCCTTAGCCTGCACAAAGAAGGTTGAGAAGTCAGAAT
Celera SNP ID:            hCV1007983
SNP Position Genomic:     118447
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20270):
CTGTAGTCTAGTAAAACAGAGGATCAGGAGCCAGTTTCAGAGGGAAAACCAACCTTTCCATTTACTAATTTCTTTTCTATCCTTAGCCTGCACAAAGAAG
R
TTGAGAAGTCAGAATTTTAGTTATGAACTGTGTGCAACTACAACAAATAGAGTCAGTAGTAAATAAATGGTTGTCACGAGTCTTTGGAGAAGGATTTATT
Celera SNP ID:            hCV1007984
SNP Position Genomic:     118532
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20271):
TTTCAGAGGGAAAACCAACCTTTCCATTTACTAATTTCTTTTCTATCCTTAGCCTGCACAAAGAAGGTTGAGAAGTCAGAATTTTAGTTATGAACTGTGT
R
CAACTACAACAAATAGAGTCAGTAGTAAATAAATGGTTGTCACGAGTCTTTGGAGAAGGATTTATTATTGTGGCCATAGATTGGAGTGGTCCTTGAGGAT
Celera SNP ID:            hCV1007985
SNP Position Genomic:     118566
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20272):
CAACTCGGAGCGCAACAAAGTGGGTACACAGGGGCCATGTGCCAGCCTCTGTAGTGCTCTGGTGCTCACCCCATCCCAGCACTGGAGGTGAACCGAGATG
R
TAGCAAGGTTTCTGGGGAATGAGCAAGGGTTGGAAATTGTCCACTCCTGTTCCTCAGGGCGAAGTATGAACCATTCCCAGACAAGCCCCTTCTTAGCCCA
Celera SNP ID:            hCV15874567
SNP Position Genomic:     330592
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;JBIC-allele(A,6|G,1453)   total(G,1453|A,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:20273):
TAGGTGGTTCAGTAATTCCCCCATATCATGCTGCTAATAGTTAGTTGGTGGGGTCAGGATTCCAATGAGGAAGCCTGACTCCAGAGCTTAGGTTTCTGAC
Y
GTGATGCTACACTGCCTTCCTAATTTATGTATCTAGTGGCTGCATGGTCTGAATTTTTTTTTTTTTTTTACTCCTGATGCATCTTAATTAACAAAAGTGA
Celera SNP ID:            hCV1007986
SNP Position Genomic:     119203
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20274):
GGTGGCTTATAAACAACAGAAATTTATTTCTCAACATTCTGGAGACTGGGAAGTCCATGATCAAAGCAGATTCAGTGCCTGGCAAAGGCCCCTTTCCTGG
Y
TGCTGGACAGCTGTCTGTGTCCTCACATGGTAGAAGGGGTGAGGGAGCTCTCTGGTGTCTCTTTTGTAAGGACACTAATCCCATATAAGAGCAGAGTCCT
Celera SNP ID:            hCV1007987
SNP Position Genomic:     120083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20275):
CAGGGGATGGGGATCCTTGCCCTTCTTTTTCGTCTGTGCATTTGACCTCTACCCTTTTCTTCCTTTCTCACTGAGATGTCTTTCAATTTTTTTTTTTTTT
K
GCCTGCTGTTTCTTTTTTCTCTTTCACACAGAGGTTGGTCCTGATGAACATGCCAGTAGCTGAGGACATGACGGTCCACTTCACCTCCACACTTATGGCT
Celera SNP ID:            hCV7539280
SNP Position Genomic:     376503
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,10)   caucasian(G,2|T,2)   total(G,4|T,12)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20276):
GGCTTAATTCTGTTAAATTAGAAAGGGCTAGTTCCTCGCTCTGCAGCTCCATAACCTGAGAGAGACGTAGGTGGCTCTGATGATTCCACAAGGGTGCCTG
T
CACTTACATTCCCTGCAGTGTTGAACTAATTAAACCAGCAGTGCTTCACCCAGTGCTGCAAAGAAGCAACTGCACAAATGCAGCACCACCGTGGGGCTAG
Celera SNP ID:            hCV11888155
SNP Position Genomic:     347173
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20277):
CCTCAGTATTTGTGAGAATTGTGATTCATCTCTCAGCCCAGGATTCACAAGTCAGAGCAGTTCACCCTCATTTACCTAGCTTGCAGCCGTCCCAGCAAGA
N
CATGCCTTTTGCTGAACCACCAGCTTGGTGCCTAAGGAATAACTATCAGATCTGTATGAAAACATTCATAGACTCTGTTTTACTCCTTACTACAGCCCTA
Celera SNP ID:            hCV7539287
SNP Position Genomic:     390159
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(A,-|G,-)   no_pop(A,-|C,-|G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20278):
AGTTTTGTCCAAGTGACCCCAGTTGCCATCTTTACTTGCCCAGCCCTGCCCTTTTTCCCATTCACCGTCCTCCTCTTCTGAGCATGGAACAGAGCCTGCC
W
TGGTAGATCTAGGGGATTTGAATTTGTGCTAATAACCATGACTTTCTTGCAGAGGGCGTGCATCGACTTCGCCATCAGCGCCAAACCTCTCACCCGCTAC
Celera SNP ID:            hCV11888159
SNP Position Genomic:     350749
SNP Source:               Applera
Population(Allele,Count): african american(A,24|T,12)   caucasian(A,25|T,11)   total(A,49|T,23)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20279):
AGCAAGATCATGCCTTTTGCTGAACCACCAGCTTGGTGCCTAAGGAATAACTATCAGATCTGTATGAAAACATTCATAGACTCTGTTTTACTCCTTACTA
Y
AGCCCTATCTCTAGTCATGGCATTTTGACCCATAATAGGAGACCCCCTCAACAGAAACGATCAGCGGAGAAAAGGCAGGGCTGCTAATGCAAACCTTTAG
Celera SNP ID:            hCV7539288
SNP Position Genomic:     390252
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   ;JBIC-allele(T,215|C,522)   total(C,522|T,215)   SC_12_A(C,12|T,12)   SC_12_C(T,1|C,20)   SC_12_AA(T,0|C,23)   SC_95_C(T,12|C,149)   total(C,204|T,25)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20280):
TTAGACCCACAATAGATGCCCAACAAATGCAAGATGAGTGAGAGGTGAAAAGCAGGGTTCTGTGCAAACCTGTCCATGGAGCTGGGCAGGGCGGGAGGTA
Y
GGAAATCATGAGCCCAGCTTACGCCTTATCGTCCATGTTCACTCATACTTTGCCCAGGGTGTGTTTACTGCTCCTGAGCCCAGGTAGCAGGTGTAAAAAT
Celera SNP ID:            hCV1007990
SNP Position Genomic:     124420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20281):
ACATTTTCTTGAATCTAAGATGCCATTGATTATATACTCTATCAAAAATTGAATAATTCTGTTATTAAATTTAAGCATTATTAAATGTTGGGGGAAAAGC
Y
ACTGCTTTCTATGCATTATGTATTCATATATTCTGAGTTACAAAACCTTCCACTGTAAAGAAAGGTATATTGTAGAATTGAGGAAATAGAAAATGAAGGA
Celera SNP ID:            hCV3083024
SNP Position Genomic:     183868
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20282):
GAAGCTTTGTGAATGATTCATGGCCCATATGCTGGGGCAGCATGATGTGGTGTATGGGTGTGTGGCAGCAGCACCTCATTACAAAGGTCAAGCTTCTCCC
R
AGCTTGGTGCAGGGGCTGTGCAGGCCACCTCCAGGGGCAGAGCACGTTGCACCTGATCTTTCTCTCATGTTCTCTCAAAGAGAGAGTGTTGGAGCTTCTT
Celera SNP ID:            hCV1007991
SNP Position Genomic:     125313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20283):
TCTGGGATGTTCTTCCCACATTGTTTCCTCTGACCTACTCCAGCTTCACTTTTTAGCTCATCTGCCACTTCCACAGTGAAGCTTCCTTCCCTGACCTTTC
R
CTTATCATAATTGAGACCTATTTAATGTATGTCTCTTTCATTAAGTATCGCAAGGACAGCCATGATCACCATCTTCTCTACTGTAATGCCAGGGCCTGCT
Celera SNP ID:            hCV3083025
SNP Position Genomic:     161991
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20284):
ATGGGTGTGTGGCAGCAGCACCTCATTACAAAGGTCAAGCTTCTCCCAAGCTTGGTGCAGGGGCTGTGCAGGCCACCTCCAGGGGCAGAGCACGTTGCAC
S
TGATCTTTCTCTCATGTTCTCTCAAAGAGAGAGTGTTGGAGCTTCTTCCAGAAAAGCAAGGTTCTCTATGGGTGTATGACTTCCAGACCAGTGATTCTGG
Celera SNP ID:            hCV1007992
SNP Position Genomic:     125366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20285):
CATTCATTCATTTATTTTTGAGACAGAGTCTTTCTCTGCTGCCCAGACTGGAGTGCAGTGGCATGATCGTGATTCACTGCAGCCTCTATCTCCTGGGGTT
R
TGATTCTCCCACCTCAGCCTCCCAAGTAGCAGGGACTACAGACACATGCCACCATGCCCAGCTTATTTTTATTTATTTTCATAGAGATTCGTAGAGATAG
Celera SNP ID:            hCV3083026
SNP Position Genomic:     161550
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20286):
AATTGATTTTCTTCCTCTTCCAGCTTCTGGCAGCCCCAGGCATTCCTTGGCTTATAGCCACGTCACTGTAATCTCTGCCTCTGTGATCATATTGCCTCTT
Y
TTCAATGTCTGTGCAGTTTTATAAGGCCACTTGTCATTGGATTTAGGGTCATTCTGATAAGCCAGGATGATCTCTTATTTGAACATCCTTAACTTAATAA
Celera SNP ID:            hCV27533191
SNP Position Genomic:     246545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20287):
CTCAGAGTAATCCTTTGTCATACCTCAGGTATTTTATCTTATAAGTACGTCTATGGATATCTTCGCTTTGGGAGATTTTTGAACTGCTTGAGAAAAGGTA
M
CTTGAAAATGCAAGGTTATGGCATTGATAAGAGTAGAATGATGATAATGGAATAAATGTGGTTCTCTCTTGACTTGTAATGTTATTACATTTGATGATAA
Celera SNP ID:            hCV15874577
SNP Position Genomic:     365529
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;JBIC-allele(A,217|C,1286)   total(A,217|C,1286)
SNP Type:                 INTRON


Context             (SEQ ID NO:20288):
CCATGCATTATCAGAGAAGAGGAAGTAAAGGACAATCAGAACACCAGTCAAACCCACCAAATTGCTTTATTCCCCTTTGCAAGATGGGCACTGCCATAGT
Y
CTGCCTCTTTGCTGGGGAAAGAAACCAGGAACGTGGAGGGTTATTACTGCGGGAGAAGGGACACGAGGATGGCTTTGCTTCCCCTTGCCCCTTCCCACTT
Celera SNP ID:            hCV15874578
SNP Position Genomic:     391908
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(C,389|T,850)   total(C,389|T,850)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:20289):
AAAAGGATTTTCTGGAGGTTAGTTTTCTAAAAGAAAATTCTACTACATTTTAAATATGAATTAGTATATGAAGATATAGTTTTTACATAGTATTACAGAA
S
TATATTGGGTAATGTTGCAAATGTCCCTAAAATAAATAATATGTGCTGTATTAGAAGAGGCCTGTATGAGAATCTGAATCATTTAGAAATGTTATGATTC
Celera SNP ID:            hCV16186708
SNP Position Genomic:     105741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20290):
GCAGTGAGCCATGGTCATGCCATTGCACTCCAGCCTGGGTGAGAGAGCGAGACGACCTTGTTTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAG
Y
GCCCAGCTCTTCCCAAAGTCTGGAAAAGCAGGCTTCCTGGCCCCTAGGGGCTATGTCAAATCTGTGTTCCACAGTGGATGGCAAGGCTTCATTTTATCCT
Celera SNP ID:            hCV11993282
SNP Position Genomic:     33862
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20291):
GTGAGCCATGGTCATGCCATTGCACTCCAGCCTGGGTGAGAGAGCGAGACGACCTTGTTTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCGC
Y
CAGCTCTTCCCAAAGTCTGGAAAAGCAGGCTTCCTGGCCCCTAGGGGCTATGTCAAATCTGTGTTCCACAGTGGATGGCAAGGCTTCATTTTATCCTTAT
Celera SNP ID:            hCV11993283
SNP Position Genomic:     33865
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20292):
TAAGGATCTATTTCTCAGGATCTCTGGTATTTTGACTTGGCCTAAAAGAAGGTCAGATGTTAGTTCTTCCTGTATATGGTGACACCAAATCACCACATAT
R
GTCATGGCTGTCTTATAGAGTCTTATACTTACACAGTCTTGACTGGCTGAGATTTATGCCCTAAGATACATCACTGTGAACAACTCATGGAGTTCCTGGC
Celera SNP ID:            hCV11888166
SNP Position Genomic:     359908
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   JBIC-allele(A,546|G,949)   total(G,949|A,546)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20293):
GCTGCAGTGAGCCATGGTCATGCCATTGCACTCCAGCCTGGGTGAGAGAGCGAGACGACCTTGTTTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
K
AGCGCCCAGCTCTTCCCAAAGTCTGGAAAAGCAGGCTTCCTGGCCCCTAGGGGCTATGTCAAATCTGTGTTCCACAGTGGATGGCAAGGCTTCATTTTAT
Celera SNP ID:            hCV15982245
SNP Position Genomic:     33859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20294):
TATGAAGATATAGTTTTTACATAGTATTACAGAACTATATTGGGTAATGTTGCAAATGTCCCTAAAATAAATAATATGTGCTGTATTAGAAGAGGCCTGT
W
TGAGAATCTGAATCATTTAGAAATGTTATGATTCTATCTAGAAGAAAAGTGTTGTATAAGTCACTACAGAAGAACAACAAAAAAAGAAAAGTATTGTAAT
Celera SNP ID:            hCV16186718
SNP Position Genomic:     105807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20295):
GGGTGTAAGGTACTGGAACTGCTATGGGGGGAAAGGGAGGAGGGAATTGACAGGGGACATTAAAATTTGAATTACAGGACTTGGTGATTATCTGGAGAAG
K
AGAGAAAGGAAAGAGAAGGGAGGACTCCCAGGTACTTGACTACAGCAGCAGGGTAGAGTAAGATGGAGAATTCTGGAAGAAAAATGGATTTGAGATGGGT
Celera SNP ID:            hCV11993291
SNP Position Genomic:     37339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20296):
TCACATTTTATGAGACATTTTACAAGGTTGAAGAAGTACTTCTGGAGGAGTATACGGCTGTTCTGGTGTGGGGTCTGGGAACTAATGGCTGAGAGGAGGT
R
GAGAAACTGGTCTGTTTGACTGCATGAGAGAAGACTTCCAGTAGATGTTAATCTCTCTGCAAATAAGGGTTGCTACATGGTTGTTGAAGAAGCAGATTCA
Celera SNP ID:            hCV16186719
SNP Position Genomic:     106468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20297):
GATGTCATTTGTCATAGACATGCTAGCCCCCGGCAGAATAATGAATGGTTTCAAAGGCAGGATGCAGGTTGAAAACATCAGTTTCTGTCTCTTCTAGTGC
T
TTTTTTTTTTTTTTTTTAATTTCAGGACTAGCCACATGTAAGTTACTAGGTTTACAAAAGCCAGCCAAGGCTAAAGGGTGTTGCCCTGCTGGGGTGGGAA
Celera SNP ID:            hCV11888174
SNP Position Genomic:     383141
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20298):
TTTACTGATGAAACAAGAAAAATCTGTCATTTTTTTTTTTTTTTTTTTACTGGAGAGCAGCCAGGAACTTACCAAATAAATAGAAAATAAATGGTAAAAT
R
TGTGGCCCAATTGAGTCCCAATTAAAGTGAGACCAGTGCATCCTAGTGTGTGGAATTGTCCTTAGATTTTAACATTAGAGTCAATTTTTGAACCTGATAG
Celera SNP ID:            hCV27478497
SNP Position Genomic:     340377
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,326|A,1161)   total(G,326|A,1161) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20299):
CCAAAAGCAAAATACTCTCTGGAAAGTGGATTTGGCCATTTCAGTGTGATCCCTTTCTTTGGGTAAGGGGAACAAGGCCTGCCCACTCTGCTCCTGCCTG
R
GCCACCCTTCCTCGTTCTGTCTCCTCCGCTCTCCCCATCCTCCTACCCCAGAGCCTGTTTGCACTCTCCCCCTTGTCCATCCTGCTCCACCTCATCCTTT
Celera SNP ID:            hCV27478498
SNP Position Genomic:     375861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20300):
ACCTGTTCACTTCTTTTGGCCATTTTTTAATTAGGTTGCTTGTTTTATTATTTAGTTGTAGATGATTTTTAAATTTTTTGCTATTATAGATAATGCTTCA
R
TGAACAACATTGTATGTGAAAATATTGCCCTCACTTTGGGTCTATACTTATAATAATTTCCTAAAGCTACTAAATCAAAGAGAGTGAACATCTTCACCAT
Celera SNP ID:            hCV11455731
SNP Position Genomic:     155006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20301):
CATCCATGTTGCTGCATATATCTGTAGTTCATTTCTCTTTATTTCTGCCTAGTATTCAGTTGTATGGATGATCACAATTTGTTTATTCACCAATCGAGGG
W
CATTTCAGTTGTTTTCAGTTTGGGGCAATTATGAATGTAGCTGTGATAAATAACTATTCATTGCTGGGTCAAATGGTAAGTATATGTATAACTCTGTAAG
Celera SNP ID:            hCV11455732
SNP Position Genomic:     154546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,6)      total(A,6|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20302):
AAGTCAGGAGGAGGCAGCCTGGGCCTGGTGGGGCACTTCTCTGATGTCAACAGGGTCTGCCCACCCTGCCATCTTTAGTGTGGCTTCCTGCATCGCCGAT
Y
GACCAAGTGGCAGACCTGAGGGCAAAAGGAAGCCTGATATTGGAGTCAGCCCCCTTTGGAAGAACTTTCCCTACAGCCCACCTAGTAACTTCTGATGATA
Celera SNP ID:            hCV25743513
SNP Position Genomic:     24859
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,32)   total(C,62|T,2)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:20303):
ATAATGTGGCTAGAACAAAACTCCTGATCCTCTTCTGATCCTGTCTGGCCCCTCATTTTTCCTTATCTCAGTAAATGGCACCACTATTTCTCCAGTTGTC
Y
GAGCCAAATATTCTCATTATCTTTTATTTCTCTCCATTTTTCCTCACTTCTGATCAGTGGTAAGCCCTGTCAATAACATCTCCCAAACATATCCCAAGTC
Celera SNP ID:            hCV7538724
SNP Position Genomic:     14503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20304):
TTGCTTCATCCCTCTCCCATTTTCAAATAAATACAATGTTACAGATGCATTTTGTATGCTCATTCTTTGTTCCTTGCTCCGGAAGTCATCACTCCTCTGA
R
ATTGATATTTCATTACCATGTGCATTTTTGTAATTTTACTACATGTGCATTTATGAAAAAGCATGTATATGAATTTTTTGAGTTTTAAAGTTTTATTTAC
Celera SNP ID:            hCV16186729
SNP Position Genomic:     55492
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20305):
TTTGTTTTGCAAGACCTCTCAAAGCTTTGCTGCAACCTACTTTTCTAGCCTCAATTCAACGATTCCTCTGCCTTAGCCTGGCCACACGGCTCACTGTTCC
Y
GGATTTCCCAGGTAATCACTTCTTTGGCTAGAAATAACCAACCCCCACAGCCACTTCCACCCACTGCTGTATTTGACTGGGGAACTCTGACTCATCCTTC
Celera SNP ID:            hCV27494683
SNP Position Genomic:     262232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20306):
TAGCATCTGACATTCATGGGTGAGAAGCCTAACCCTGTAAGAAACCACTTATTAGCATTGCGAATTTGGATAAGTTACTCTGAGCCTGCTTCCTCCTCTG
Y
AAAATGGGATAGCAATAGCTCTCTCATATACAAAACCCTAGCCCAGGGTCTGGCATGGAGTAGCCCTTAGCTCTTATTAGCTGCCTATATCCTTCGATAA
Celera SNP ID:            hCV27480920
SNP Position Genomic:     251308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20307):
AGAAGAGGTGAGATTTGAACAGGGCTTTGAAAGGTAGCTGGAACTTATATAAGCCCAGGGGTGTCATAGAGTGGGTTTTGGGGGAGAAGTTTTAGGAATA
R
CAGGATGATCCCCAACTTTGAGGCAGGCCCTAATTTATTTGTGGGATAAAAACGATATTGAATATGAGAGTGGTGGGAACATCATTGGTTTAGTTAGGTC
Celera SNP ID:            hCV27480921
SNP Position Genomic:     270701
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,47|A,1454)   total(G,47|A,1454) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20308):
TGATTTCTTAAATAAAAACTACACGTATGACAGTATCTTTTCTCTATTCCTAATAGAAAACATAGCACAAAAGTGAGGTCACAGAGGAAAAATTTGGAGT
W
TGATTTAGTGCTTAGTTGCTTGAGCCTTATTCTTCTGTAGGAGCTTTGGAATGACACTATAACACTTACTGTGACTGCCAACACACAAAAACCCTCTCTA
Celera SNP ID:            hCV27480922
SNP Position Genomic:     305264
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,270|T,1217)   total(A,270|T,1217)no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20309):
GCAATAAGCATGCGCAGTATGGAATTTTGTGCCACATGGCTTCATGGCAGAGTTTTTTGGTGGCTAACTTACCAGGCTTTTGCATGAAACATAATAAAAC
R
CCAGGAGGCTTAAATACTGGGAAATGACATTTCATCAGAAAATGAATGACCTTTCTAGGAACTTACAAACAAGTGAGACCCCAATCATTTCACTTTGATT
Celera SNP ID:            hCV27480923
SNP Position Genomic:     358850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20310):
GGGAAGTGATTTGAGAATATTCCTGAAGCATTTTTCGCAGGATGTCCCTGGAGTCAAATCTGACTCAGTTTCTGGCTTCTTGCCTCCATCTCTCCCATAC
R
TCTCTCCCCTTTTAGCCTGTTGTTACTAATGCCATAGTTTGAATGTCATTTTTATTTCTCCCCCATTCCATATGATTCCCTGGGGGCCTCTCCCCTGCAG
Celera SNP ID:            hCV25592100
SNP Position Genomic:     344897
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:20311):
TGTTCTGTCCCCATAGAGTTCTGCAGCACTCTGTAGATGTGACAGAGGAAGACCGAGGCCCAAGCCGCAGCAACCGCATGGAGATGTCTATCTTTTATGT
R
GTCTACTTTGTGGTCTTCCCCTTCTTCTTTGTCAATATCTTTGTGGCTCTCATCATCATCACCTTCCAGGAGCAAGGGGATAAGATGATGGAGGAGTGCA
Celera SNP ID:            hCV25592101
SNP Position Genomic:     349864
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:20312):
GTCAATATCTTTGTGGCTCTCATCATCATCACCTTCCAGGAGCAAGGGGATAAGATGATGGAGGAGTGCAGCCTGGAGAAGAATGAGGTAATGACAATTG
R
TCTAAAGTGGGGAGCAGCAGAGGCTCCAGAAAGGATTCTTGGGCCAGCAATGTAAGAAAGGAGGACTGCATTTTCTTAACTTGATTAAGAATTATAGAGA
Celera SNP ID:            hCV25592102
SNP Position Genomic:     349995
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:20313):
CCCCAGAAGAGACAGAAGGAGAAGACACCACATGTCGATGTGGGAGCCACGCAGCAGCCACCTGTATGTGTGTACCAGTTTGCGTGTTTGTGAGTGGTTA
Y
GTGTGGGCGTGGGACAATGTGTCATTGTCCTTGCCATAGACAAAGTGGCACTGGGTGTGCATGTCAGTGTGTGGCTTGGTGTGTGTGTGTGTGTTCCGTT
Celera SNP ID:            hCV25763918
SNP Position Genomic:     324125
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,38)   total(C,65|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20314):
CATTTTGTATGCTCATTCTTTGTTCCTTGCTCCGGAAGTCATCACTCCTCTGAGATTGATATTTCATTACCATGTGCATTTTTGTAATTTTACTACATGT
R
CATTTATGAAAAAGCATGTATATGAATTTTTTGAGTTTTAAAGTTTTATTTACGTGATACATAGAATGTGTCCTTTTGCAGCAAAATGAACATTTGTTTT
Celera SNP ID:            hCV16186730
SNP Position Genomic:     55539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20315):
TGAAGGTGGAGCTGGCAGGACTTGTTAATGGGTTGAATGTGGGGTAGGAGAGATGGGAAGATCAAGGAGGGCTCTTCAGCTACATTAATCTGTTAATAGC
R
GTGCCATCTACCAAGATAGGGGAGCCGAGAGAAGGGGCAGGATGGTTGAGCAAGGTCAAGAGTTGAGCTGGAGGCATGTTAAATTGGAGTGGCCTAATTG
Celera SNP ID:            hCV1598688
SNP Position Genomic:     193486
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20316):
TTGTGTCTCCACCCAAATCTCATCTTGAATTGTAATCTCCACAGTCCCCACATGTCAAGGGGGAGATCAGGTGGAGGTAATTGAATCATGGGGGTGGTTT
M
CCCCATGCTGTTCTCATGATAGTGAGTGAGTTCTCACGAGATCTGATGGTTTTATAAGGGGCTCTTCCCCATTGGCTCAGCACTTCTCCTTCCTGCTGCC
Celera SNP ID:            hCV343911
SNP Position Genomic:     135359
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20317):
GCTCCCCCCCCCGACCCCAAGCAGAGTTAGACACCTATAGAATTCCAGGCACCGATGAAAAGACCTTTAAAATTAATCGCACATAACTTCTCATTGAAGG
N
GCAGGTGAGAAGGCTGAGGCGCAGAGAAGGAGGTGGGCGTGGGGCACCCTTCTGAGGACCCCACCTCAGCCGCTCATACCCCAGCCACACTGTCCTCCTT
Celera SNP ID:            hCV7538736
SNP Position Genomic:     18471
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,12)      total(C,2|T,12) ;no_pop(C,-|T,-)   no_pop(A,-|C,-|G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20318):
CACTGTAATTGTGACTGGTATTGTAGATACTGTAAGTGTTACTGTAATTGTAATTGGTATCCAGGATCACTCATGCTCTGGAATAAACTGGTCCCCCCCC
Y
GCCTCAAACAACCCCATCTGGACTGCCCTGTTCTTATGTCCTTGCATGAGTCTGGGATCCTGTAATATAGGTGATGCTTGGAATTGGATACTAGTATCTG
Celera SNP ID:            hCV15982341
SNP Position Genomic:     177875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20319):
TCTCTGGCAGCGCTGAGATCAACGCAAAATTACAGTGTCCCACTCTGGCCCCAAATCCAAACTGTCCTATGTCTGCATCCTCCTCCAGTACCAAGGCCAG
W
TCCCTGCCTCATATCTCCTTGCCTTGACCCTCACCTCTAAAACTGAAATGTTATCCCAAAGTGGCAATAAGCATGCGCAGTATGGAATTTTGTGCCACAT
Celera SNP ID:            hCV16154111
SNP Position Genomic:     358686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20320):
ATCTAGTATAATCTAGTGTAAAAAGCTACATGATTTATGTCATCACCCATCTTGTTCATTATAGTATCCTCAGTGCCTAAAACAGTGCCTGGCACCTGGA
R
GGGACTCAAAGATACTTCTCTAATGATTTGAATGAATTTTGTGCTATGGATTATGGTACTGTCTGAAAGGAGCGACATACACTTAATAATTTCTGAAAGC
Celera SNP ID:            hCV16186741
SNP Position Genomic:     73736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20321):
GGAGATGACAGCTCCCTGTGTGTTATTGCTCCTGAAGACCTTCCAGTGGGACAAGATATGGAGGTGGAAGACAGTGATATTGATGGTTCTGACCCTGTGC
M
GGCCTAGGCTAGTGTGTGTGTTTGTGTCTTCGCTTTTAACAAAAGATTTTAAAAAGTAAAAAAGTAAAAAGTAAGAATAAAAAAAGCTTATAGAATAAGG
Celera SNP ID:            hCV2202630
SNP Position Genomic:     249207
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,11)   total(A,11|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20322):
TTTAATCTTAAATTCAGTAGACCCATAAATTAAAAATACTGGATCTCAGTAGCCAGAGGGTCATTCTGTCTTAGAGCCCCTGGACACAGTCCCCCTAATA
Y
GGACCAGGCCTCATCTGAATGTTCCATGCCCCCTCAGCTGCGAATTCCCATGTTTTCTGGGCCAGTTATCTGACCTCTTCCTGCGAGGGCAGTGCAGCAG
Celera SNP ID:            hCV2202631
SNP Position Genomic:     267431
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;JBIC-allele(T,306|C,1179)   total(C,1179|T,306)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20323):
AATGAAATGGTGGGATCTAGTTTAATTTTTATCAAGAGACCTTCCTGAAGCCAAGGGCCCTGGAAATGGCTGAGTTTCCCTGTGGCTTGGAGCAGAGGGA
R
AAAGTGGAAATGATACCTGTGTTAAGTAACATCAAGCACCCAGGTCCACTGGCATGTCTGTTAATAAAAAAATTTTTTAATGTTTTCATTCATGTATCGT
Celera SNP ID:            hCV7538750
SNP Position Genomic:     25143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:20324):
CTCCCCTCTTGTTTTCAGAGCCCTTTCTGGTGCTTGCCACTCTTTAAAGAATACAAATCTCTCATCAGCAAGCCCTGTAGAAGGGGCAAAGGGGTGATGC
R
CTTTAGCTCATCACCACTGGGCACGTTCTCTTTAATCCTCTCTTAAATTCACCTGCTTTGGCTGATCTGCATACAGTGGGAGTGGTGTCAGATCAACACA
Celera SNP ID:            hCV3270200
SNP Position Genomic:     235509
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20325):
ACTCTTTAAAGAATACAAATCTCTCATCAGCAAGCCCTGTAGAAGGGGCAAAGGGGTGATGCACTTTAGCTCATCACCACTGGGCACGTTCTCTTTAATC
Y
TCTCTTAAATTCACCTGCTTTGGCTGATCTGCATACAGTGGGAGTGGTGTCAGATCAACACACTGGCCTTTTCCCAAAGCAAAGCGGGATCCCAGCCTGG
Celera SNP ID:            hCV3270201
SNP Position Genomic:     235547
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20326):
GGTCAGCTGCCTCCATCCTGGCCCCCCAGAGCATCTGCCTCCCCAGCACCCTGGGCTGCAGTTGCAGAGGGCCTTCTTTTTAATGTTTTTCTAATAATCA
Y
TTTTTTCAAACCCTAAAACAACACTTTGTTATTGCATGATAGTTGCAAAAATATAAAAATAATTTTTAAGAATAACTCATTTCTACCCCCTCACTCCCCC
Celera SNP ID:            hCV3270202
SNP Position Genomic:     235762
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,12)      total(C,12|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   (T,-|C,-)   TSC_42_A(C,-|T,-)   TSC_42_C(C,-|T,-)   TSC_42_AA(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20327):
CTCTTCTTGCTTTAGATTGTTGACTTGCTAGATGTCATCAAGTACAAAGAGATTAGTCACAGATGTATTTTGATGGTGGTGGTCGTGGTGGGATTTACCT
M
CTTGGTTTCAGTGAATGTTCTGGATGATACAAGTAGGGGTAAATGAGCTGATCTCTGTTTCATAAGGATGTTAATGTTTGTTAGTTCGCTCATTCATTCA
Celera SNP ID:            hCV28019801
SNP Position Genomic:     7242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20328):
TGCCTCCCCAGCACCCTGGGCTGCAGTTGCAGAGGGCCTTCTTTTTAATGTTTTTCTAATAATCACTTTTTTCAAACCCTAAAACAACACTTTGTTATTG
C
ATGATAGTTGCAAAAATATAAAAATAATTTTTAAGAATAACTCATTTCTACCCCCTCACTCCCCCCACAGGTTATCATCACTATTATTAATAACATTTTT
Celera SNP ID:            hCV3270203
SNP Position Genomic:     235797
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,14)   total(C,14|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20329):
GAGGAGAGTTTTTATTTCCCCATCCCCCACTGAGAGCTGTTGATGGTGTGCTGGGCGCTAGAATGCCCCCTCTTCTCCTCTTCCTCCTCCTCTCACTGTG
R
CTGGCATTGCCTCTCTAGGTCACAGTGGGCAGTATCTTTGAAGTGGTCTGGGCAATCTTCAGACCTGGTACGTCTTTTGGAATCAGTGTCTTGCGAGCCC
Celera SNP ID:            hCV28019802
SNP Position Genomic:     312588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20330):
GAATAACATTCCAGGTGAAGCTGGTCTGTCAGGCAAGGGCAAGCATCTGAAAAGCGTACAGGAGCAAGGCAGGTGTGAGTTATTAGCAGCCAACAGTTAC
R
TAGCAGCTGGGGGATGAGACATGGGCCAGAATGCCACAGAGCCTGCCACGTCCTTACTGGTGACAGCCGCGCAGGGAGGAAGGCAGGAGTAGGGTGGGAG
Celera SNP ID:            hCV3270204
SNP Position Genomic:     237864
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,15)      total(G,1|A,15) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20331):
TCTCCCTTGCCCTGTGCACTCCTGAGTCACAGACAGCCTGCAAGGGTCCCTTAGCACCCTTGCTTCCCACCTACACATGGGCAGGCCCAGCACAGACATC
Y
AGGAAGGGCCAGGCTGTGCTTTTGCCTGTGTCTCATAAAGCACAGTCCTCTTCTCACTGGTGCTTCTGCTCCTCATCCCCACAGGAGAAGACAGAACCTT
Celera SNP ID:            hCV25592200
SNP Position Genomic:     104132
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,40)   total(C,65|T,7)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20332):
CTCTAATGGGTAGAGGACAGGAATGCTGCTAAGGCACACACAGGAGAGCCCCCACCAAACAGAACTGTCTCTCCACAGGTGCTGGCAGTGCTGCAGTGGA
R
GAAGCCCTGCCTAGGCCAGCCCTGATCTAACCAGCAGGTGCTGCTGACAGCCTCTGGAGCAGGTGTTCCCCAGAGACCCTTTGCTTCTGAAAGGACCATG
Celera SNP ID:            hCV3270205
SNP Position Genomic:     239247
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20333):
AGTTTTTGTTGCCAAGGAATGTTGGGGTGCTGGGGGGTTTGGCCACTGGCTAAGCCATAGAGTGAATAAACCCTGTTAATCTGGAGCTTTACTGGTGAAC
S
ATCAGAGCTAGCCAGCCTTACAGAAGGACTGATTTGTAATCACAAATAAACACAGAGCTAGCTATACAAATATCATTGCAATTCACTTTTCAGCTCATAG
Celera SNP ID:            hCV3270206
SNP Position Genomic:     241822
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,8)   total(G,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20334):
CAAGGAGGAGAACTTTGCTCATTATCTGAATAAGTGTTTGTCTGGTAGCAGCTTTAACAGAGACTCTGGGCTGGGTTCGATAATTGTGAGTGTTGATTAC
R
GGGGCTGCTTTTGGTCTCCCAGCGGTTCTTTGAAAAACCATTAATTTGATCATTTTGGGTGGAGAGTTTAAGGGAACCAATTGCAGTTGGCTGCATTGTG
Celera SNP ID:            hCV28019804
SNP Position Genomic:     352718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20335):
ACTAGGCTTAATACCTGGGTGATGAAATAATCTGTACAACAAACCCCTCTGACATGAATTTACCTATATAACAAACCTGCACATGTACCCTTGAACTTAA
W
ATAAAAGTTAAGCTGTTGTTAATGGATGAATCAACTATACAGTGATAGCTTCCATGACTGATAAGAGGCTATATTCTGTGGACTGGAATATTTGAATGGG
Celera SNP ID:            hCV3270207
SNP Position Genomic:     242860
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,6)      total(A,6|T,3) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20336):
TTTTAGGATGGGATCACAATATTTTTGATATCCATTTTGAAAAAGTTACTGGTGAATGTGAGTCACTAAAAATAAGGAAGTAATTGAAGAAAGAGAAGAA
Y
GTGATACTCATGGAAACAAGGGATTCGATGGAGGAGAGAAAGAAGAGGAATTGATTCCCAGGGCGATGAACGGAAGTCTAGGATGACAGAAGCCTAGAGA
Celera SNP ID:            hCV3270208
SNP Position Genomic:     248486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20337):
AATAAAACTAATGTATTCCCCAATGTGTGTTATTATTTTCAAAAGAGCTCATGGTTTTGCCAAAACTATATACAGTCATGTGCCACATAATGACATTTCA
S
TCAATGACTGATGTATATGCAACAGTGGTCCCACAGGATTTAGTGGAGCTGAAAAATTCCTGTGGCTTAGTGATGTCATAGTCATCTTAACATCATAGTG
Celera SNP ID:            hCV3270209
SNP Position Genomic:     248753
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20338):
TGGTTAACAGCTATTCACTTTCTGTCTCATTGAGATTTTGCTTTATGTTCCTCTATGAGCATGGTGAGGCATAACATCCATCTCGCAGTTGATGAAAAAC
Y
ACCATTCTCTTTATGAAGTTCCTCTCATTTTGTGGTATCTACAGAGAATGCTTTGGGTTCTGAGATCCATGAGACTAGGGAATGTGGCTTCCATCTTTGC
Celera SNP ID:            hCV16154065
SNP Position Genomic:     177516
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20339):
GATTTAATGTTCCAGTCTGCTACTAAGCTCCGAAGTGTACATATTCACTTAGATATCCCTTAGGTGTCTTAAGCTTAGGATGCCCCAAACAGAATTCATT
S
TTTAACTTCTTTTCCTCATCACTAAACACACTCTCTATTCTTTCTATATTCTCTGGTTTTCTTTTACTCTTTCTGTGATTCTTTTATCACATTTGTTATC
Celera SNP ID:            hCV3270211
SNP Position Genomic:     258766
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20340):
ATATACACACACACACACGACATATATTGTGTATGTGTGTGTATATATATGAATTTACAGTATATATAAGTGTAAAGTGTCATTTCAAATCATTGAAAAC
R
AATCATTCAGTGAATTGTGTGACTGGCTAGTTACTTGGCAGGACAAAAATTGAGTTGGAGCCCCATCTTATATCTTATATCAAAATAAATTGCAGGTGGA
Celera SNP ID:            hCV3270212
SNP Position Genomic:     259675
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,7|G,9)      total(G,9|A,7) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20341):
AGTTGCAAATGTTTTGGAGAACTTTGGTTCCATTTACTGACATGAATAATAGAAGAAGAAAAAAGCTCTTATTCTGAGAGAAAGGTTTGTTTAATTTTAG
R
CTTAGAAAGTTTGAAGTTCAAGAGGCCTGGACAAGTAGATAGGATCATCCAATATCTGTGTCTTAAGAAAAGAGGGAGGAAAGATATGATACACTATCAG
Celera SNP ID:            hCV3270213
SNP Position Genomic:     260319
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20342):
TATATCTGCTTCTCTCTGCAGGAAGAGAGGAGGAGGAAAAGAGGAGGAGGCACAGCTGATGGCTGCTACCCAAGGCCTTGCTCCGAAACATCATGGGTGA
Y
TGGGAGTCTAAGAATATTAATTGGAGACAGTGGGAACAGGGGTAATTTCACGTACCCAGTAGGGACATGCTGTGCTAAGAGCGTGTGAGAAAATAGCGTG
Celera SNP ID:            hCV3270214
SNP Position Genomic:     268165
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   JBIC-allele(C,309|T,1182)   total(C,309|T,1182) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20343):
CTTGCAGAATAATTTGGCATTTACAGATAATTTACCAAACCATTTGTTTCCATATAGAGGAAGTCATGCTCGCTGAAGAAAATAAAAATGCTGGAACATC
M
GCCTTAGAAGGTAAGGAAATGTTCTGATGCCTTATTCCAGTTGCATTTGCCCCTCTTAGGCGATGGCAATCTCTGTTATTCAAAAGGAGAGAAAGAAATG
Celera SNP ID:            hCV25592210
SNP Position Genomic:     308237
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(A,2|C,38)   total(A,2|C,74)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:20344):
CATTGTGCTTGAGAACCCATTGCAAGCCAGGCTGTCTTCCTGCTCCGTTTCTCCTCCCTTTCCTCCCTCCCACCCGCCCTTTCTTATAGCTCAGCTTTAC
Y
CTTTTCAATGAATTTCACTGTAGCCCAAGCGACAGTGTGTGCTGTGTCACTCTTACCACCATGGTATAGAATGTAAAATCCCCATTATTGGGCACTCGTT
Celera SNP ID:            hCV3270215
SNP Position Genomic:     268849
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;JBIC-allele(T,308|C,1161)   total(C,1161|T,308)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20345):
ACTCTTTTCAATGAATTTCACTGTAGCCCAAGCGACAGTGTGTGCTGTGTCACTCTTACCACCATGGTATAGAATGTAAAATCCCCATTATTGGGCACTC
R
TTAGAACTATAAGGCTCTTCTCCCCAGCAAAGTGTCCCAGAGCTGTGCGAGGCTTATACAAAAGAAGGAAGCATTGAGAAGTGCAGAATGTGAAAGCCAA
Celera SNP ID:            hCV3270216
SNP Position Genomic:     268947
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   ;(A,-|G,-)   JBIC-allele(G,268|A,1231)   total(G,268|A,1231)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20346):
CAGCGGAACCGGGAGGCCGCCCCGTGAGGGCAGAAGCTCCCGCCAGGAGCCAGCACCACCAGCAGAGTGTGGAACCCCCAGAGGTCCTAGCCTCCTCCAC
R
GGGCCTCCCAGGTGCTAAGTGGGGAGATGGGGAGAGGGTTCTGCCCTCTACTTGGAAATGCCTGGCCGTGTTCGTGGAGCCTGGGAGGTGCGGAGGAGCG
Celera SNP ID:            hCV16154071
SNP Position Genomic:     74953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20347):
CCCAGGGGTGTCATAGAGTGGGTTTTGGGGGAGAAGTTTTAGGAATAACAGGATGATCCCCAACTTTGAGGCAGGCCCTAATTTATTTGTGGGATAAAAA
S
GATATTGAATATGAGAGTGGTGGGAACATCATTGGTTTAGTTAGGTCTGGTTAGATCATGGAGGACCTCACAGCAGAGGGAATTAAGGCAGGAGAGTTAC
Celera SNP ID:            hCV3270217
SNP Position Genomic:     270754
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,7)      total(G,5|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20348):
TCTCTTAATCCAAAGCTCACGTGCTTTGTCCTACACTCTGCTGCCCCTCGGAAAATGCACAGAGCAAAGGTCCTATTAGAAGAAGGCAAACTCGGGCCAG
R
GCTCCTGGGCAGCCAGGGGGCAGATAAGGACATAATGCCAGGGAGCTCCATGTAAACACGTGAAAGAGGGAAATGGGCCACAAGGTATCCTTTCACAAAC
Celera SNP ID:            hCV3270218
SNP Position Genomic:     272327
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20349):
TGTAAATAGTGCTGCAATGAACATATGTATGCCTGTGTTTTTATCGTAGAACAATTTATATTCCTTTGGGTATATATACAGATTGCTCCTTCAGGCCAGG
Y
TCTAGGGGAAATATGACAATGACTTGATCAGGTTTGCTAGGTCAAATGGTAGTTCTGTTTTAAATTCTTTGAGAAATCTCCAAACTGCTTTCCACAGTGG
Celera SNP ID:            hCV3270219
SNP Position Genomic:     276831
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,10)   total(C,10|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20350):
ATGAGCTGGCCCTGAAGTACCTGAATATCGCCTTCACCATGGTGTTTTCCCTGGAATGTGTCCTGAAGGTCATCGCTTTTGGCTTTTTGGTATGTTGCTG
M
ATCCTTCCCAGCACTGGGCTTGTCTCTTTCTGTTGGGTGCCTTCCCAGTCTTTGTTGAAGGGGAGGTGGTTACTGCTATTCCAGAAATCACCCACCTAGA
Celera SNP ID:            hCV25592147
SNP Position Genomic:     351735
SNP Source:               Applera
Population(Allele,Count): african american(A,34|C,2)   caucasian(A,38)   total(A,72|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:20351):
CTGATGGAGGGAGAGAGAGTTTGTCTGCCTCTTCCTCCCATTTCCCTTTGTATCTTTATTCCACTTCCTTTGCTCCTGTCAGTAGAAAGGGGAACAGGCA
W
TGTCTTTGCCAAACTGCCCCTATAACATTAGACAGTTTTGTCTTGTCTACAGCCATACCACCATGAATGTGCCTGATCTTGTCTGATCTTGGAAGCTAAG
Celera SNP ID:            hCV25592148
SNP Position Genomic:     364375
SNP Source:               Applera
Population(Allele,Count): african american(A,29|T,1)   caucasian(A,40)   total(A,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:20352):
ATGACTGTCCCTCATTACCTCTGGATTTGACATTGCTTTTCAGGAGTGGCCGGAGTGGATACCCTTCGATGAGTCCACTCTCTCCCCAGGATATATTCCA
R
TTGGCTTGTATGGACCCCGCCGATGACGGACAGTTCCAAGAACGGCAGTCTCTGGTGAATGCATGAGTTATATGACCTCAAAACTACTTCCTTGGTTTCC
Celera SNP ID:            hCV25592149
SNP Position Genomic:     383353
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,38)   total(A,1|G,65)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:20353):
GAGAAGATGCTTTGTGTTCAGAGACCAGGCACAAATGTTTTTGGTTTCACAAAACCAAAAGTGGATGCTAAGGACCATCCACTGTCTTGCCTGCCTGCCT
R
TTTACAAATAAAAATCATGCAAACTGCACAGACACAATGCGGGTTGATAGAGTTGTGTGTTTATGGGCACGGCCATCTTGGAGGCTGTGTCCCTCTCTGG
Celera SNP ID:            hCV25592077
SNP Position Genomic:     103192
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,34)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:20354):
TTAGGAATGTAATTAAGGAAAAGGGTGGAAATCGAATCTAGATTACAATGATTTATTTAAAAAAAAAAAAAAAAGGACCTGGGGATGCTATTTATTCACA
Y
GAAACATGGGATTTAGGGCTAAGAATCCAACCCAAGTTTTTCAGGTGTGGCAGATGTATTCCATTTGCAGAAGTATCCACCCTCTCCTGGGAGTGATGAT
Celera SNP ID:            hCV25592078
SNP Position Genomic:     309195
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,34)   total(C,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:20355):
TCGAATGCTCCCTGGCCCGGACCACAGGATATTTTGCAGTCTCATTCTTCCTTACTTCTCCCTCTTAGGCACACCTCTGGCCCGAGCCAGTATCAAAAGT
K
CAAAGGTAGACGGGGTCTCTTATTTCCGGCACAAGGAAAGGCTTCTGCGCATCTCCATTCGCCACATGGTTAAATCCCAGGTGTTTTACTGGATTGTGCT
Celera SNP ID:            hCV25592079
SNP Position Genomic:     309981
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:20356):
TACATAAATCCACATGTAAATGACTCCCACATTTATAGATTCAGCCTTCATCTCTCCTCTGAGCTCCTGAGGCTGAAATCCAGCTGTTCCCTTGACATCT
Y
AACTCAGGTGTCTAATGAGAGTCTTCAACTGAACAGGTCCAAGGAACTTTTGACTTATGCCATCCTCCAGTCTATTCCTCCTCATGTCTTCCTTTCCCCA
Celera SNP ID:            hCV16122531
SNP Position Genomic:     30779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20357):
CAAACAATGAATGTTGGTGAAAATGTAGAGAGAAGGAAATTCTTATGTATTGTTGGTAGAATGTAAATTGATACAGCCATTATGGAAAATAGTATGGCGG
K
TCTTTAAAAGCTAAAAACAGGACTACCATATGATCCAGTAGTCCCACTTCTGGGTATATATCCAAAGGAGATGAATCAATATTTTGAAGAGATATCCACA
Celera SNP ID:            hCV7538844
SNP Position Genomic:     29150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20358):
GTCAGAACTTGAAACCACCTTTATTCCTTCTGGCTCAGTGTTTTTTCTCTTATTATTCAATATAACTCAATTCCCTCATAACCATGAAGCATTGTGTTTT
Y
GTGACTTATGGTTCATTGACTTCCAAACATCATTTTGTCTGAAATATTTCATATACACAAAAGAATATATATATATTACATATGGTTTGTTCCATATATG
Celera SNP ID:            hCV3270220
SNP Position Genomic:     280832
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20359):
TATATTTCCCTATGCAATATATCGCTAAATGTTATATGAATTGTAAAATACAGTGTATGTTTTTATAGAGGTTGGTTCATTCACTTCACTTTCGCTGCTG
W
GCAGAATTCTACACAGCAGAAGTGTAAGTGTATTGCAAGTTATCCCCTCTCCACTTCTAGAATTTTGCTAATGCAAGTGACATTGCTATGAAGATTCTGG
Celera SNP ID:            hCV3270221
SNP Position Genomic:     281201
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|A,8)      total(A,8|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20360):
CAGCCAACATCATACTGAATGGGCAAAAGCTGGAAGCATTCCTCTTGAGAACTGATACAAGACAAGGATGCCCACTCTCACCACTTCTACTGAACATACT
R
CTGGAAGTCCTACCTGGAATAATCAGGTAAGAGAAAGAAATGAAAGGTATTCAAATAGGAAAAGAAGTCAAACTATCTCTCTTTGCTAACAATAACAATT
Celera SNP ID:            hCV3270223
SNP Position Genomic:     284657
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20361):
GCACTCATGGACATAAAGATGGCAACAATAGACACTGGGTACTACTGGAGGTGGTAGAGGGTTGAAAAACTGTTGGGCACTATAGTCACTACCTGGGCAA
S
AGGATCATTCATATCCCACACTTCAGCATCACACAATATACTCATGTAACAAATCTGCACATGTACCCTCTGAATCTAAAATAAAAGTTGAAATAAAGAA
Celera SNP ID:            hCV3270224
SNP Position Genomic:     286564
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20362):
CATCAGAGCTAGACCCTGTCTCTAATAAATAAATTAATAAATAAGAATCTAGACCTTCCTCTCTCTGTGTAGATTAAAATTAATTTGAGAATATCTTTGC
R
AATTCAGGCGAGACAAATGTTTCTTGGACAGAATACAATATAAAAAGCATAAACAATGAAATCAAAACAATTAATAAGTTGGGCTTTGTCAAAATAAACA
Celera SNP ID:            hCV3270225
SNP Position Genomic:     288889
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20363):
TCCCATCCCATTTTAATTGCATCCCTGGAAAGGACAGCGAGTGGAAAGGCCAGGCTAGTCCTTCTGTGTATTGAGTCACGTTTGGTGCGTTAGCCCACGC
Y
GAGCCTCTAAACTTCCTTCCGCTCACTTCGAGTCTCTCCTCAGGAGCTCCCCCTGCTCCATTTTCCCTCATATTTTGGCTCTTCTTTCCCATCTCCACCA
Celera SNP ID:            hCV3270226
SNP Position Genomic:     293706
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;(C,-|T,-)   JBIC-allele(C,313|T,1168)   total(C,313|T,1168)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20364):
AGTCCTTCTGTGTATTGAGTCACGTTTGGTGCGTTAGCCCACGCCGAGCCTCTAAACTTCCTTCCGCTCACTTCGAGTCTCTCCTCAGGAGCTCCCCCTG
S
TCCATTTTCCCTCATATTTTGGCTCTTCTTTCCCATCTCCACCATCCCATTTCTGTGAGCTTTGGGCCTTCTCCTTGGTTCCACTTGACCGTCCCAAAGC
Celera SNP ID:            hCV3270227
SNP Position Genomic:     293762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;(C,-|G,-)   JBIC-allele(C,232|G,1267)   total(G,1267|C,232)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20365):
TTTGGAGGTGGAATGAATATATAAAATAAAGGCCTTGATAATAGGTTATCTGTATTATGATACATTCTCAGAAAAGTCAGTAATATAACAGCTACTTGGA
R
CACCTACTATACCTTGCACATTCTATCATTTAATCCTCACAACAACCTTTTGAGATAGGTATGATCATTATTCCTAATTTTATGAATGAGGAAACTAAGA
Celera SNP ID:            hCV3270228
SNP Position Genomic:     296123
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20366):
GAGATTTCCTCCTCCCACGTGAGGGTGTGGTCTTGACTACTCCTGGCTCCACACAGGCTGTCCCTTAGGGCAGGGGGCAGGAGCTCAAGAAGCTGGAGGA
Y
AGAATTTCTCCCCTGAGAACAGGAAAGAGAGGAGGCACGAGGAAACCACAGTCTGTCTGCTTTACCCTGATGGACTTCTGTTCAGGGAGTTTGGGTGAAT
Celera SNP ID:            hCV16137243
SNP Position Genomic:     138465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20367):
TTAGTTACATCTCCTCAAAAGATGTAACAGCAGAGAAAGAGTGGAAAGATGAAGTCTATTTATCCTATTACCAATCAGTAGTTGGTTTGAAAAGGCTCAA
Y
GGAGTTAGGAGGAGATTTTTGGCACATCTGTAACCTTCAGTCACTTATGACTTGTGTGACTTTTGTTGATAGTTGAAAGTCAGACTGTATTTTATAGGGC
Celera SNP ID:            hCV677918
SNP Position Genomic:     354860
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20368):
TTAATCATTATACTTTAACATTCTGGATTCCACCAACTTCAAGGTTAAAAACCGAAACAGGAAACATATTCCAGTTCCTTCATTATCTCCCTTACATTAA
K
TGTCATGCTTTTCTTCCCCTGTGTCTACTCAAACAAATAAATGAGATCTCAATATTGAGAAGAGAAAGAAAAAAGACCAGTCATTCCCTGAGCTCCTAAA
Celera SNP ID:            hCV3270229
SNP Position Genomic:     296402
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20369):
GACACTTTTTATCATATCCAGAGAAAGTGTTTGGCGTAATGACTCCCACGAGGCCTCACTTCAATGAAAACTATTTTTCTAAAGTTAGATATGGAGGATA
M
ATCTAAAACCTTAGTGAGAATTTTCTGAGTCTCAGGTGATTTTGGATTTAGAATTGGAAACACAACATGCTTTTAAAACCTTTTTTTTTTAGAGGATTGC
Celera SNP ID:            hCV677919
SNP Position Genomic:     357559
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20370):
CTGAGCCCGTAAGATGGGGATTCCCCACACCTGCAATGTGGCAGTCACCTTGCCCTGGGACTAGAGCAGCCCATCTTGCCCTTCGAATGCTCCCTGGCCC
R
GACCACAGGATATTTTGCAGTCTCATTCTTCCTTACTTCTCCCTCTTAGGCACACCTCTGGCCCGAGCCAGTATCAAAAGTGCAAAGGTAGACGGGGTCT
Celera SNP ID:            hCV25592083
SNP Position Genomic:     309899
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:20371):
CCCTTTGGCCTTTGGAACTCTCTCCCAAAGTCTACATTGTCTGACTCAGGCCTGCCAGGAAGGCCCTTTCTGGAAACTTCTGGACAGTTGGAGAGCCACA
Y
ACCCATGACGGAAGGCTGGTTCACTTTTATTGAGTTTGGTGAGCCTCAACCTAGCCCAGGGGGCCTCAAGGAACACAGAAAATAACATCTTAATTTCTAT
Celera SNP ID:            hCV25592084
SNP Position Genomic:     317543
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,33|T,1)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:20372):
TTTATCGGCGACCCAGGGCCATTGAGGGCCTGGCCCTGGGCCTGGCCCTGGAGAAGTTCGAGGAGGAGCGCATCAGCCGTGGGGGGTCCCTCAAGGGGGA
W
GGAGGGGACCGATCCAGTGCCCTGGACAACCAGAGGACCCCTTTGTCCCTGGGCCAGCGGGAGCCACCATGGCTGGCCAGGCCCTGTCATGGAAACTGTG
Celera SNP ID:            hCV25592085
SNP Position Genomic:     325519
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,22)   caucasian(A,5|T,33)   total(A,11|T,55)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:20373):
ACGAGGGGGGTGGATGAGAAAGGGGTGAGGTTGTTCAAAGGGTACAACATTTTAGTTAGACAGGAGGAATGTGTTTTAGAGATCTGTTGCACAGCATGTT
R
CTATAGTTAATAATAGCAGATTGCGTATTTCAAAATTGCGAAAACAGTAGATTTTAAATGTTCTCACCACAAATAGGTATATGAGGTGATGGATATGTTA
Celera SNP ID:            hCV7538854
SNP Position Genomic:     29645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20374):
ATCTCTGTTCTTCCTAATGCTTGTTTCTCAGCTCTACTTCCAGGATTGGTTCATCTATTTTTTCTCACTCTTTTGCTTTGATCCCTTGGTATCTCCTCCA
K
TGTTCCAAGTAATTCATTTCCCTCCCGCAGCATAGGCAGGGTGGCCGAGAAAAAGCCCTGCAGTTAGTTGAGCTGCCTTCCTTTGATAGCAATCCAGTGA
Celera SNP ID:            hCV7538928
SNP Position Genomic:     36972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20375):
GCCATACTCCCTTGGGGTGCTGTCACCAGGACCAGTCTTGAGCCCAGTTCAGCCCTCCTTGTTTAGTAGCATATGTCTCAGAACATGATATGCACGGCCA
S
TTCCACCCACTGCTTTCACTTCCGGCCCCTTTTCTTAGGAGTTTTGGTCTCATAATGGCTCTAGAAGCAGAGGAACTGAAGGCTAGAGTGGGCAAAAGTA
Celera SNP ID:            hCV7538855
SNP Position Genomic:     31061
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,9)      total(G,1|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20376):
GTTGAGTAAAAAACAATAGGAACTGGATGAGATTTATAACATATTATGACTTATATGTTAAGTTAAAAACATACCTACCAAACTTTTCCTATTTGATTTG
R
ATATTTGAATATTTAAGTTTGTATGTTAAATATGTCAGAGATGGTACCCATGCTAGGCAGGGGGTTGAAGGGGGAAAAAGCCCTGTAGCATCTGGAGTCA
Celera SNP ID:            hCV7538856
SNP Position Genomic:     31969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20377):
TCAAGTGCCATGCTGAATTCATGTTTACAGCTTCTTGGCTTGGGCTCTTGAAATCTAGAAGTCTTTGGGACTGAAAGCGAAGAATTTGTCTTGGTTCAAA
Y
GCTGTCTGCTCAATCCCATTATTGCCTTCCAGCACGTGCCCTTGGACACTCTCGTATCTTGTTGTCTGGTTGTAGAGCAGATTTTCACATGCTGGGAGAC
Celera SNP ID:            hCV27874669
SNP Position Genomic:     39499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20378):
AATGGATAGGATTTAGAGGGCTAGCTTCTGTTTTGGCCTTTATTGACAACCTAAGTCTCCTTAAATCCTTTCTGGAACAAGTCAAGGGATAAAGCATAAA
Y
AACTTTAATACTGCTGAACTCTATGACCTTCAGGAAGGTGTTTACCTTCTCTGGGGCTGTGTTTGCTTCTCTGAAAAATGGGAGAAATGGTTCCCCAGGC
Celera SNP ID:            hCV3270230
SNP Position Genomic:     297038
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20379):
AAAGGTAGCAGCACTGCAGGCACAAGAAACCCTGTCCTTCCTTCTGGCTTTCTGTAGAGGAGGTCCACATTGCCCATCAAAGTGTAGTCAACCCCCATCA
Y
AGAGCCTAGGAATCAACACTTCATTGGAGAGGGAATTCTCCCACCCACTTTCAGTTGCATTTTAATTTTAGCCTCTCTTCAAGTTGTAAATAGTCTCATA
Celera SNP ID:            hCV677920
SNP Position Genomic:     358319
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20380):
GGCCTTTATTGACAACCTAAGTCTCCTTAAATCCTTTCTGGAACAAGTCAAGGGATAAAGCATAAACAACTTTAATACTGCTGAACTCTATGACCTTCAG
K
AAGGTGTTTACCTTCTCTGGGGCTGTGTTTGCTTCTCTGAAAAATGGGAGAAATGGTTCCCCAGGCTCGTAAGAACACTGAAAATATAGAAACATTGAAG
Celera SNP ID:            hCV3270231
SNP Position Genomic:     297072
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,8)      total(G,8|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20381):
CTGGCAGCGCTGAGATCAACGCAAAATTACAGTGTCCCACTCTGGCCCCAAATCCAAACTGTCCTATGTCTGCATCCTCCTCCAGTACCAAGGCCAGTTC
S
CTGCCTCATATCTCCTTGCCTTGACCCTCACCTCTAAAACTGAAATGTTATCCCAAAGTGGCAATAAGCATGCGCAGTATGGAATTTTGTGCCACATGGC
Celera SNP ID:            hCV677921
SNP Position Genomic:     358689
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   JBIC-allele(G,52|C,1443)   total(G,52|C,1443)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20382):
CCAGACCCTGTTCTAAGCACTTGGGATATGGCAGTGAGCCAAACAGTCAACCAGCTCACCAAAGCTCTTCTCTTGTAAAGCTCTCTAGTTGGCTAAGGCA
R
CGATAAACAAAATAATAAATGAGTAACTTATAAGACAATGATAAGGTGGTAAATATGATGGGAAAACTGATCAAGTTAGGGGTATGGGATATAGAATGTG
Celera SNP ID:            hCV3270232
SNP Position Genomic:     304385
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20383):
CTATGTCTGCATCCTCCTCCAGTACCAAGGCCAGTTCCCTGCCTCATATCTCCTTGCCTTGACCCTCACCTCTAAAACTGAAATGTTATCCCAAAGTGGC
R
ATAAGCATGCGCAGTATGGAATTTTGTGCCACATGGCTTCATGGCAGAGTTTTTTGGTGGCTAACTTACCAGGCTTTTGCATGAAACATAATAAAACGCC
Celera SNP ID:            hCV677922
SNP Position Genomic:     358752
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20384):
TTATGGGGCCTTGTAAGGGCTATGGGCTTCACTCTGAGTGACACAAGAACCATGGGAGGGTTTTGAGCAGAGGACTGACGTGCTGGCCGCATTGAGAATA
R
ACCATAGAAGGATAAGGCTGGAAGCAGAGGGACTAGTAGTGCCGCCATCTAGGGAGGAGATAATGGTGAGAACAGGTGTTTTCCTAAGCCTTGAGCTGTC
Celera SNP ID:            hCV3270233
SNP Position Genomic:     304813
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,14)   total(G,14|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20385):
TCCTCCTCCAGTACCAAGGCCAGTTCCCTGCCTCATATCTCCTTGCCTTGACCCTCACCTCTAAAACTGAAATGTTATCCCAAAGTGGCAATAAGCATGC
R
CAGTATGGAATTTTGTGCCACATGGCTTCATGGCAGAGTTTTTTGGTGGCTAACTTACCAGGCTTTTGCATGAAACATAATAAAACGCCAGGAGGCTTAA
Celera SNP ID:            hCV677923
SNP Position Genomic:     358763
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20386):
AGGAAGGAGCCCGCCCAGCCTTGGCCACCCCACACAGGTCAGGTGGCAGGGTATGCTGCTCGCTGGGGCTCTGCTTTTCAAATACTTGCAGAATTCCAAG
S
CTTCCCTTTCTTCCAGTTGGCAAAGCCAGCTCTCTCCTCCTTCTAAGAAAAAAGACGCACTGCGACGTCAAAGTGTGCTTCCTGGCCCTTCCCTTTACAA
Celera SNP ID:            hCV3270234
SNP Position Genomic:     305793
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|G,13)      total(G,13|C,6) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   JBIC-allele(G,320|C,1163)   total(G,320|C,1163)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20387):
TAACTTTCTGACTTGGAGATATTGTGACTAGATCCCAGCATAGAACTTCGGCTATGTGACAGCCTCCTGCAGTCAGGCAGTCTGGCTGCCTTGGGCCTGC
Y
GGCTGCCTTCCCAACTGTGTTGCCACCTGGAGCTGCTGCTGGAGTGTCCCAGCCTTGCTGTGTCTGCAGCCTTTTCCAGACCCTTTCTGAAATGTCTCTT
Celera SNP ID:            hCV677924
SNP Position Genomic:     360366
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,16)      total(C,4|T,16) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   SC_12_C(C,4|T,19)   SC_12_AA(C,5|T,16)   SC_95_C(C,36|T,137)   total(C,45|T,172)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20388):
GCAGCACCACACACCTTCCATCTGTCCTGGGGGGTCCCCAGATCTGCTCACCCCAAAGCCCAGACACTGTGCACAGCAAAAGTGACTTGACTGTCTGGCT
R
AGATAATTAAAGTTGCTATGAGGTATTTTAACAAGTTCCTAATTTTTAAATGATGCCCTCCAAACACGTGCTATAAAATGACTTAAAAACCCTTTATGTC
Celera SNP ID:            hCV3270235
SNP Position Genomic:     306145
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;no_pop(A,-|G,-)   ;(A,-|G,-)   JBIC-allele(A,314|G,1159)   total(G,1159|A,314)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20389):
CCCCTGAGAACAGGAAAGAGAGGAGGCACGAGGAAACCACAGTCTGTCTGCTTTACCCTGATGGACTTCTGTTCAGGGAGTTTGGGTGAATTCCACATTT
K
GATCACAATAGTTGTCGCCTGCCTTTCTTTTCCCTCATAGCTTTCAAGACCCCTTTCATGTCCCTCTGTCTCCAGGAAAGATGATTTATTTTTTTCTTGG
Celera SNP ID:            hCV16137250
SNP Position Genomic:     138575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20390):
GACTTGTGAGAATAGGTCCTGATACCCAAAATGTGGTTGGGGAAGGAGGGTGCATGTGAAAGCCTCCTTTTCATCTGAAGAGTGGAGGGGTTGACCTTGG
M
TCCAGGCAGTGCTGTGTCTGGGAGTTCATCATTACTCAGTCTCTGTGGATAAAGATCTCTGAGTGTTCCCTCTTTTGAATGTTCACAGTGATTACATTCT
Celera SNP ID:            hCV677925
SNP Position Genomic:     363222
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;(A,-|C,-)   JBIC-allele(A,88|C,1401)   total(A,88|C,1401)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20391):
CTGGCTGACTACAAATCTGGGGTTCCCACAACCATCACCCCACTCCCCACTGGTTCAGTAATTTGTTAGAATGACTCACAGAACTTTGGCAAAACCATAC
K
GTATTATAAAGGATACAACTCAGGAACAGCCCAATGGAAGAGGTATATAGGGCAGGGTATGGTGGTGGGGAGCACAGAGCTTCATGTCCTCTCTGGGAAC
Celera SNP ID:            hCV3270236
SNP Position Genomic:     307130
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,10)   total(G,4|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20392):
GGAATAGGTTAGGACTTAATGGTGCATAAACTCAGAGCCAGCAGTCATTCTTCCATCCCTGGTCTTGGCATTTGGAAGATGAGATCCACTATGTTGTAAG
S
TCTAAGGGGCAGGAAATACAAGATGATGTATTTATGTAAATATAATGTACTATGTTGTAATCATATGTGCATGCAGGAATGAATGACTGAATAAGTGAAG
Celera SNP ID:            hCV16137251
SNP Position Genomic:     148575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20393):
GCCCGACTTTCTCCATCCTATTGGCCTGGACTTCATTTTAGCTCCTGCATAAATGTTTCCTTTTGGATGGGATTTGGGTCTGTTGGATGATACATGTGGA
Y
ATATATAAATATATGCATGTGGATATATGTGTGTTCAATCTCATAGATTCTACATTAATGACATACAGACCTTCTAAGATGTGACTCAATGGATAGAAAC
Celera SNP ID:            hCV677926
SNP Position Genomic:     363519
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,10)      total(C,10|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20394):
CCCTCCCAGCTCACTGATGTGTTTACCAACCCAGATGCCTCCTGAACCCCAACATGCTGAACCCCAACATTTAGCATGCCCATCATTACATAGGCATGCT
Y
GATTAAACCATCGGCCATTGGCAATTAAACTAATCTCTAGTGCCCCTCCTCCCTAGAAGTGGGAGTAGGGGGAGGCTGAAAGTTCTAGCCTCCAGTCCTG
Celera SNP ID:            hCV3270237
SNP Position Genomic:     307335
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,9)   total(C,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20395):
GCTGGGGTGGGAATTGCTAGTGGCATGACTGTCCCTCATTACCTCTGGATTTGACATTGCTTTTCAGGAGTGGCCGGAGTGGATACCCTTCGATGAGTCC
M
CTCTCTCCCCAGGATATATTCCAGTTGGCTTGTATGGACCCCGCCGATGACGGACAGTTCCAAGAACGGCAGTCTCTGGTGAATGCATGAGTTATATGAC
Celera SNP ID:            hCV25592160
SNP Position Genomic:     383329
SNP Source:               Applera
Population(Allele,Count): african american(A,24)   caucasian(A,34|C,2)   total(A,58|C,2)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:20396):
ATGGTGACAGGTACCATGGAACTAAAAGACCAGATTAGGTGTAGGAGGAACTATGTACAGGCAGAATGACTTCAAAAGAGCTTGCGTTCTACGTTATGCT
Y
GGACCTTGCTGCATGGGTCCCCTTTGCTGCACTAGAGCAGTGGAGGATAATTATTCTTGCATATCAGCCCAAAAGCACAGTATCCAGCAGCTCTCTGGGT
Celera SNP ID:            hCV677927
SNP Position Genomic:     363919
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   JBIC-allele(T,236|C,1257)   total(C,1257|T,236)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20397):
TGCTGGAACATCCGCCTTAGAAGGTAAGGAAATGTTCTGATGCCTTATTCCAGTTGCATTTGCCCCTCTTAGGCGATGGCAATCTCTGTTATTCAAAAGG
R
GAGAAAGAAATGAAAGATGGTGTTCTGGGATTGGAAATGAGAGTCTTTCTGTCATAAAATCCCTCATGCTTTAAAATGAAGGGAATTGAGTCACAGATTT
Celera SNP ID:            hCV3270238
SNP Position Genomic:     308325
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(A,2|G,38)   total(A,6|G,68)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20398):
AAGGGGAACAGGCAATGTCTTTGCCAAACTGCCCCTATAACATTAGACAGTTTTGTCTTGTCTACAGCCATACCACCATGAATGTGCCTGATCTTGTCTG
R
TCTTGGAAGCTAAGCAGGGTTGGGTCTGCTAAATACTTGGGTGGGAGAAAATTTCATCAATGTCTTTGGCTCAGCAGTTAATTTGCAAATTTTAACTTCA
Celera SNP ID:            hCV677928
SNP Position Genomic:     364461
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,2)   caucasian(A,22|G,2)   total(A,42|G,4)
SNP Type:                 INTRON;TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20399):
GCCATCCTACAACCAATGCTATCTAAAGGGACCTTCTCTTAAAATGTGTGGGGATCACCTTGAGACCACTTTCATTACCAGGAAGTGGCATTGTAGATGA
W
GAGCCAGGACAGATGGATACGGAGTGCCTGTTTACCTCCTGCATTTAGATAGGCTCTAGCATGGCTTCCAGAGCTCTTGTGTTGCAGGAAGGTGCTGGTG
Celera SNP ID:            hCV3270239
SNP Position Genomic:     308607
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|A,9)      total(A,9|T,2) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   JBIC-allele(A,317|T,1162)   total(A,317|T,1162)SC_12_C(A,6|T,18)   SC_12_AA(T,6|A,18)   SC_95_C(A,66|T,123)   total(A,90|T,147)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20400):
ATTTGCAAATTTTAACTTCAACATGGCCTGCAAGGGTTTGGGAGGGGGGAATGTCAGGACAGTGTTTGCAGACCAAATTCCACTTAAGGGCTGAAACCTT
R
GATAGCCAGGTTTATGCTGGGTCTTAGAGAATCCCATGACTAGTAGCAGAGACCCCATAAAAGATGGAGACGCAGTGGATGGGGTAGCAGAACCCAAAAC
Celera SNP ID:            hCV677929
SNP Position Genomic:     364642
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20401):
ACATATACATACAACTGAGACCTTAAAGCTGCAAGTCTCTCTTTTGAAAGCCATTCTTGAGGAGGCTGAATTGTCCACTGGACGTGAGAAGCAATGAGAT
R
GAACCAAGTCCCACAAGCTTGGCTGTGTGTTTATTTCCAGGAGCCAGAGGTTAGTGAATTAAAAAGCGTGCAGCCCTCTAACCATGGCATCTACCTTCCT
Celera SNP ID:            hCV25592161
SNP Position Genomic:     386479
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20402):
TCCTCCTTGCGGCTGTCAGCCCACCGCCTGAACTCTGATTCAGGTGAGGAGGTCTTCAGTGTCCAGCTCTTTCATCAGGCAGTGGGCTCCTGCCCTGATG
S
ACTTACTCTCCAAGGACTGTAGATAACCAGAAAAGAATTCAGAGACAAGGGCTGAAGAAAGTGAAGGATGCTCCTTACCAAAGGGAATTCCTGTATCTGA
Celera SNP ID:            hCV25592162
SNP Position Genomic:     387957
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,3)   caucasian(C,40)   total(C,69|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:20403):
AGGGACATCCCTGGAGCCCTTTCTCCTCCTCTCCTTTCATCCCCAACTAAACACAAATGGTGCCATTTTCACATGCCTCATGATTTCTGAAGATTTCAAC
R
TGTTCCTCTTGCAGTTAGCAACAAGACGGATGGGGAAGCCAGTCCCTTGAAGGAGGCAGAGATCAGAGAGGATGAGGAGGAGGTGGAGAAGAAGAAGCAG
Celera SNP ID:            hCV25592090
SNP Position Genomic:     329116
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,27)   caucasian(G,36)   total(A,7|G,63)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20404):
GTGTATGTGGGAGTGAGGAGTAAGGGCATGGGCGTGGTGGGGAGTGGGCCAGCTCAGCCATGCCCACTGCCCGCAGGATCCGGAGGGCCTGCCACTACAT
Y
GTGAACCTGCGCTACTTTGAGATGTGCATCCTCCTGGTGATTGCAGCCAGCAGCATCGCCCTGGCGGCAGAGGACCCCGTCCTGACCAACTCGGAGCGCA
Celera SNP ID:            hCV25592091
SNP Position Genomic:     330405
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,5)   caucasian(C,34|T,4)   total(C,55|T,9)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:20405):
TCCTGGAGACTCCAGTTGATTTGAAGCCCTTTCCAGAAATGCAACATGCAGGGTGATGCCAAAGAATGCCCCCGCTGGAAATCTGCTCCCCAGTCGCCCC
S
AGCAGAGCTCCTGAGCGCCTTGCAGCTCCAGCTCACGTGACCTGAGTGGCAGAACGGGGGAAGCAGGAGTAGGGAGCGTCAGGAGGGAGAAGTCAGAGGC
Celera SNP ID:            hCV25592092
SNP Position Genomic:     332252
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,1)   caucasian(C,38)   total(C,67|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:20406):
CAGGATGTCCCTGGAGTCAAATCTGACTCAGTTTCTGGCTTCTTGCCTCCATCTCTCCCATACATCTCTCCCCTTTTAGCCTGTTGTTACTAATGCCATA
R
TTTGAATGTCATTTTTATTTCTCCCCCATTCCATATGATTCCCTGGGGGCCTCTCCCCTGCAGAACCAACAAAGGACGGGACATCAAGACCATCAAGTCT
Celera SNP ID:            hCV25592099
SNP Position Genomic:     344934
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20407):
GGATTAGTCTCAGGGTTCAAATATCCAGAATATCAAGGTTTCTCTTAGGAATAGTTAACTGAGTAAAAGAAAACCTGCTTGTTATTCTATTTTGGGATTT
Y
CCCCCCCTATAAAAATAGAACTGTATTTAAAAGTTAAATCTAGACTGGGCATGGTGGCTCATGCCTTCATTCCCAGAGCTTTGGGAGGCCAAGGTGGGAG
Celera SNP ID:            hCV7538938
SNP Position Genomic:     40043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20408):
TGGATATTCAAAGACAAAAAATGACCAACTTATTTCTCAATTAAAATGGCAAATGCAATATAGTGTTATCATTGCTATGGGGAGTGGTTGGGAAATATAA
K
GTATTATAGGGGCACAGGGGCACATAGGAGGGTGCCTATATTAGTCTGTTTTCACACTGCTATAAAGACATACTGAGAATGGGTAATTTATGAAGAAAAG
Celera SNP ID:            hCV27874670
SNP Position Genomic:     42732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20409):
TCAGGAAACATTGATTAAACATCTATTTTGGATATTCAAAGACAAAAAATGACCAACTTATTTCTCAATTAAAATGGCAAATGCAATATAGTGTTATCAT
K
GCTATGGGGAGTGGTTGGGAAATATAAGGTATTATAGGGGCACAGGGGCACATAGGAGGGTGCCTATATTAGTCTGTTTTCACACTGCTATAAAGACATA
Celera SNP ID:            hCV7538939
SNP Position Genomic:     42704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20410):
TGCCTATGATCCTACTCAGGAAGCTGAGGTGGAAGGATCGCTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGCCATGGTCATGCCATTGCACTCCAGCCTG
R
GTGAGAGAGCGAGACGACCTTGTTTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCGCCCAGCTCTTCCCAAAGTCTGGAAAAGCAGGCTTCC
Celera SNP ID:            hCV7538866
SNP Position Genomic:     33799
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20411):
TTTCAAAGTGGTTTCATGGTCATTTCCTCATTTTGGCCAGGTCCCTTCATTCTCTTGCATTTAATCCTCTCCGAAGTCTTTTTCTGATTTCTCTGGCCAT
Y
GCATTCCTCCTCACTCTCAGGTTGGGATGGGTTTTTGTGTTGATTTGTTCTTTTCAGGATACATATAGCTTTAATTGATTTTGTAGTGATAAATGAACAC
Celera SNP ID:            hCV27874671
SNP Position Genomic:     97985
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20412):
TCTAGACTTTAGGGCCTTGGGTAGCACCAGCCATCAAGACCTCATGAATTCTCAGCCACCCAGATACCTGGCCAGTCACTGGGAGTTTGACTCATCAGCA
Y
CTGGGCCAAGAGCCATTCCGCTGCCTGGAGCATCTTCCGGTGGTGTTGGCTACACCTTCCTGAGCTAGCCTGTGTCCCCACAAACCTCACATATCTGCCC
Celera SNP ID:            hCV27874672
SNP Position Genomic:     100140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20413):
GAGAGAGCACTTCCTGTTCCTCTCAGGCATGGAAAGGCATGAGAGCACTTCCCCATCTTTCTCACCCAACTTTCATGCCCATTGCCCCTGCTTGTGGGCA
K
ATTTTCCTTTTTGCTGCCTGGTCTGAGGGATAAGGTGGGTTAAGGAGGAGGGTTAAAGTGAGTGCTTGATCTTCCTGCTACTGTATTCAAACCATCACCC
Celera SNP ID:            hCV27874673
SNP Position Genomic:     129706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20414):
GCTGGGGGATAGGTGGGGGATCAGAATTGCCAAGGGTGTCCTCATGAGGAGGCCTCCATCCAGCCTCAACAAGCCTTAAACACCTCATTCAGGTGCCGTA
R
CAAGCCTTAAACACCTCTGGGTAGGGTTTGAATCTGTAAATGAATCAGAGGTAAATGAATCTTAAAACCTACTGGCCTTAAGAATTGGAAGGCCCCTTGC
Celera SNP ID:            hCV27874674
SNP Position Genomic:     195884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20415):
CTGGGGGATAGGTGGGGGATCAGAATTGCCAAGGGTGTCCTCATGAGGAGGCCTCCATCCAGCCTCAACAAGCCTTAAACACCTCATTCAGGTGCCGTAG
S
AAGCCTTAAACACCTCTGGGTAGGGTTTGAATCTGTAAATGAATCAGAGGTAAATGAATCTTAAAACCTACTGGCCTTAAGAATTGGAAGGCCCCTTGCT
Celera SNP ID:            hCV27874675
SNP Position Genomic:     195885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20416):
CTCAGCCTCCTGGCTGGGTGGCAGCAGGTGCCTATGTTTCACTTGGAGCTCTAGGTCCTCATTCTTTCCCCTGCTCCCCAACCTTTGCCTCTTGCCTGGG
K
GCTGAGAAGACAGCTTTCATTTTTCTGGCTGTAAGATCCTAGTGGTGACTGTCCTATCTGTCTTTTGTTCTGCCCTAGAAGGTAGTAATAGTATGGGTAG
Celera SNP ID:            hCV27874676
SNP Position Genomic:     236957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20417):
TGGATGACTTGTTCTCATCATCCTCTTCCAAGAGTATGACTGGATTTCCTAGTCTGCAGGAAACCCGTTATAGGCATTTAATTGCCCAGTGATGTGTGGG
K
TATGCTGTACATTGTATCCTTTTCCTAAAATGTGGGTGTGGTCAGAGGAATCATACCTTGGCTTTGAGGTAGAAACACCATCCAACTGGTGTGACTCAGG
Celera SNP ID:            hCV27874677
SNP Position Genomic:     237334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20418):
ATCACCTCAAATACTTATCATTTATTTGTGGTAAGAACATTTGCTATCTACTCTCAGTAATTGTCAAATATACAATACATTGATATTAATTAGTCACCAT
S
CTATATAATAGACCTCCAGAATTTATCCTGTTTAACTGCAATTTTTACCATTTGGCTAACATCTCTCCATTTCCCCTTCCCACTCCAGCACCTGGTAACC
Celera SNP ID:            hCV27874678
SNP Position Genomic:     281581
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20419):
GAACTGATGAACAACTTCAGTGAAGTTTCAGGATACAAAATCCATATAAAATTCAGTAGCATTTCTATACATCAGTAGTGTTCAAACTGAGAGCCAAATC
R
AGAACACAATCCCCTTTACAATGGCCACAAAAAATAAATACCTAGCAATACATCTGCCAAGGAGATGAAAGATCTCTACCAACAAGAAAAACTATAAAAC
Celera SNP ID:            hCV27874679
SNP Position Genomic:     284900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20420):
TCTCAGGTGCTCCTAGAGATTCTGGCTGATGGCAGGTTTTTCCTCCCCAGAAAAAGGGAAAGGTCTTGTTCCATCCTCAAAAGCAGAAGAGACTTACAAA
G
CTCATTGCTGTTTTGTGCCACCAGTGGTAGAAATATCACCAGTGTAGCAGAAGAATTCCAGTGCTTGAAGCTATTTTAAAAGGAAAGGGCAGAAAGAAGC
Celera SNP ID:            hCV3270240
SNP Position Genomic:     309566
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,8)   total(G,1|-,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20421):
GGAGTGCCACAGGTGAGGCCTGGCAGGAGATTATGCTGTCATGCCTTGGGGAGAAGGGCTGTGAGCCTGACACCACCGCACCATCAGGGCAGAACGAGAA
Y
GAACGCTGCGGCACCGATCTGGCCTACGTGTACTTTGTCTCCTTCATCTTCTTCTGCTCCTTCTTGGTGAGCAACATTGTGCTTTTGCCTTGCTATGTGG
Celera SNP ID:            hCV677930
SNP Position Genomic:     365019
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,8)   caucasian(C,28|T,10)   total(C,50|T,18)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   SC_12_C(T,3|C,21)   SC_12_AA(T,6|C,18)   total(C,39|T,9)    
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:20422):
GTGGCAGTCACCTTGCCCTGGGACTAGAGCAGCCCATCTTGCCCTTCGAATGCTCCCTGGCCCGGACCACAGGATATTTTGCAGTCTCATTCTTCCTTAC
Y
TCTCCCTCTTAGGCACACCTCTGGCCCGAGCCAGTATCAAAAGTGCAAAGGTAGACGGGGTCTCTTATTTCCGGCACAAGGAAAGGCTTCTGCGCATCTC
Celera SNP ID:            hCV3270241
SNP Position Genomic:     309936
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,29)   caucasian(C,30|T,10)   total(C,37|T,39)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20423):
GATTCCTCTTGATTGTGGCCCATAGAAGAGGCTCTGGTATCAAGCCAGTCACCAAGGACTTCTGTATCCTCCTTTCCCCTCTCTTTCCTTCTGTGACAGG
R
TTTTCCCTTTGTGGGCTGGTCTCATCATCCAGTCCTCACCTCAGATTATTTGGGCTCAGTCCCAAGAGAACTTTCCAATAATCTTTTTCTGCCAATGGTT
Celera SNP ID:            hCV677931
SNP Position Genomic:     369298
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   SC_12_A(A,1|G,12)   SC_12_C(A,3|G,21)   total(G,33|A,4)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20424):
TATCTCATGACTGTTTCCAGCTTTCATTCTTTAGGTAAACAGATCATTGTTGATGAATCAACAAGATAGCATAACGTTATACCTTTGGGTACCATAAAGC
Y
TTCACTTCCTTTCTTAAGGAGGCTCAATGATCAGGAGTTTTGATCATTGAAATCCTGGGCAGGAAGTTCTCAGGGCAATGGAGACCTCAAATAGACCAGA
Celera SNP ID:            hCV3270242
SNP Position Genomic:     310413
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(C,-|T,-)   ;JBIC-allele(C,317|T,1174)   total(C,317|T,1174)
SNP Type:                 INTRON


Context             (SEQ ID NO:20425):
TGCTTTGTAATTCACAGTGTAATTCATTCTAGTTAGTTAGAGTTTGGTTGGCTTTCTTTATAAGGTGGGTGAGGAAGACTAACAAAAGTAATGTGAGCCA
R
TGTCTTCAAAAGGGGGGCTGAAACCAGTTGCAAAAAATGTCAGTCTATAGCCACTCCCAACCCACCTACTTCCCAATCTCACTAAGGCAAAATGAAAGGA
Celera SNP ID:            hCV677932
SNP Position Genomic:     371067
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(A,-|G,-)   JBIC-allele(A,73|G,1228)   total(G,1228|A,73)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20426):
ATCAACAAGATAGCATAACGTTATACCTTTGGGTACCATAAAGCCTTCACTTCCTTTCTTAAGGAGGCTCAATGATCAGGAGTTTTGATCATTGAAATCC
Y
GGGCAGGAAGTTCTCAGGGCAATGGAGACCTCAAATAGACCAGAAGAAGAGCTTATAGGTCAGCTCCAGATTAGACTGCCACTGGGTGTGAGTGAGGGTC
Celera SNP ID:            hCV3270243
SNP Position Genomic:     310469
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20427):
AAGACCAGTGTGATCGCTCTCTTCACATGCACACACTCATGTATGTGTGTATATGCACATGTACACACACACACACACACACACACACACACACAGGTCC
M
CCTTAGTCTGTATAGTTAATCAGAGGGACCTCTCCTTTCTCTATAGAATGCAGAAATATTTTTAACCCAGCAAAAGAATTCTGGCTTCTTTTCACTGGAG
Celera SNP ID:            hCV677933
SNP Position Genomic:     372711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20428):
AGAATTCTGGCTTCTTTTCACTGGAGATGGAGAAGCCTCATTTTAGCAAAAGAGCCTCATCGTCCCATATGTAATGTATGGAGTATGATCCTAGTGATCC
Y
ACCCTCCCAGCTCCTGGATGGTCTGGTCAGAATGACTATGAAAGCTATAGGACAGAAGGGGTGAGAAACAAGGAATTAGGGCAAGAGGTGAGAGTAGGTA
Celera SNP ID:            hCV677934
SNP Position Genomic:     372886
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   JBIC-allele(T,291|C,1190)   total(C,1190|T,291)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20429):
AATTGGGATTAGTAGAACAGAAAGGCAGAACCATGGGACGCAGGTGTATTTTTGCATTTTCCATAGTTTCATAGAGAAGACATGCTGTTTTACGTTTTCT
R
CCCTGAAAACATCTAGAGGTTGGGACAGACTAGAAGCTCAATATGAGAAACTCATGAAAAGAACACTAGGCAGTAAGTCACAGACATGGAAGCTCCATGT
Celera SNP ID:            hCV3270245
SNP Position Genomic:     315682
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   ;(A,-|G,-)   SC_12_C(A,1|G,20)   SC_95_C(A,16|G,147)   total(G,167|A,17)   JBIC-allele(A,238|G,1259)   total(G,1259|A,238)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20430):
TATGTGAGGCCAAGCCTGCTAGGTAAGGAACCCTCTCCTGGTGCAAGTGGAGGGAAGCATGGGCTCCCTGGGGCATAGCACTGCCCAGGCAGCTGGAAGA
Y
GACCTAGGCTCAGGAAGGATGCCAGCCTGGACAATGGGATAGAGCTGGCCTGGGATGGTGACACGGTGATTCCATACTCAGGAGGCTGGACAGCTGCCTC
Celera SNP ID:            hCV677935
SNP Position Genomic:     373357
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,13)      total(C,3|T,13) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20431):
TTACAATTCTGTAAAGCAGAGACCTGGTATGGGCCTCCCCAGGCTAAAATTAAGGTGTGGGCAGACTGTGTTCCTTTCTGGAGGCTCTCAGGGAGAACGT
R
TTTCCTGCTCCTTCTGGCTGTTGGCAGAAGTCAAGTCTTGTGGCTGTAGGGTCGCAGTTTCCTTCCCTTGCTGGCTGTAACCTAAGGGCTCTTTCATGCT
Celera SNP ID:            hCV9772399
SNP Position Genomic:     40596
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,12)   total(G,2|A,12) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20432):
TCCTCTCCGGGAGTGCCAGTCTCCAGGAACCTCCACATGTTCAGCTATCCAGAAGCTCTCCGAACCCTGTCCTTTTGGATTGTTATGGAGTCTTCATTAC
W
TAGGCATGATTGATTAAGCCATTGGTCATTGGTGATCAACTTAACCTTCAGCCCCTCACCCCTCCCCAGGGGTTGTGGGGGTAGGGCTGAAAGTTCCAAC
Celera SNP ID:            hCV3270246
SNP Position Genomic:     316792
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,15)   total(A,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20433):
ACGTCTTTGGGGGGAACCCAGAGTGATCAAAGAGATAAGGAAAGTTTGCCCTTTTCAATTAATAAGGACAAAAGGGACTTAAGGATAAAACATGTTCTTT
M
AGATAGGTCACTGTGGTTGTGGATGAGACTTCCTGGGTGTATAGCTCTCTCCCTCCATATAATACTGCTCAGCAAACCTTCATGGGAGAAAGGATGTTGT
Celera SNP ID:            hCV677936
SNP Position Genomic:     377774
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,7)   caucasian(A,2|C,2)   total(A,7|C,9)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20434):
TATCCTCAGTATCGTCACCATCACTAGGTGGGCATGCAAGCCCCCTGAGGACAGATCAGGGGATCTATGCACTCTGCATCCTCAGATCCTGGCACCATGG
S
GGCCCTCAATATACATTGGATGAATGGGTGACTGATAGCACAGACCTGTTCCAGAGAGTGGGTAACAAAGCTTAGAGGTTCCTCACTCTCTCCCATTATC
Celera SNP ID:            hCV677937
SNP Position Genomic:     378029
SNP Source:               Applera
Population(Allele,Count): african american(C,11|G,23)   caucasian(C,12|G,28)   total(C,23|G,51)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|G,9)      total(G,9|C,6) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20435):
TGTTTGTGAGTGGTTACGTGTGGGCGTGGGACAATGTGTCATTGTCCTTGCCATAGACAAAGTGGCACTGGGTGTGCATGTCAGTGTGTGGCTTGGTGTG
Y
GTGTGTGTGTTCCGTTCACATGATCTGTGGATATGCCCTCTGCACCTCTCAACATTTGCTTATATCAGCGTGTGTCTACCTTTGTGAACTGTGTGTTTTT
Celera SNP ID:            hCV3270248
SNP Position Genomic:     324209
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,38)   total(C,1|T,71)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20436):
AATTAGAAACCCAGTGGATCGAAGGTTAAAATGGTCAAACAAGGGATAAGTTATGTGCCTGTATTATCCATGTTAATTTTATTTTCCCCACAGCAAACTC
Y
GTAGTCATTGGAATTCTTTCCTTCTTCTTCCCTCTTTTTACCCAGAAAAATGCCCCCATGTTCCAGCGCATGGAGCCTTCATCTCTGCCTCAGGAGATCA
Celera SNP ID:            hCV677938
SNP Position Genomic:     378518
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,7)   caucasian(C,28|T,12)   total(C,45|T,19)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(T,303|C,1132)   total(C,1132|T,303)   SC_12_A(T,9|C,11)   SC_12_C(T,5|C,16)   SC_12_AA(T,1|C,16)   SC_95_C(T,32|C,123)   total(C,166|T,47)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20437):
GTGCGCCCACAGGCACAGGCTCAGGGAGGAGGTAACTTCCCCTCCGCCCAGCGAGCCCTCTCCCATGTGCTCTCCTGCACTTGTCATGTTCATGATTTCC
Y
GCTGCCCCATGAATGCTCCTCTAGGCCCCTGGGCTGAAATGCTCGATCGCAGTTTTGAGTATGAGCTGCTGGTGGTCTCTGCACTTAGCCTTCTCTGGCT
Celera SNP ID:            hCV3270249
SNP Position Genomic:     324558
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20438):
TTACTGCAGTTGTGTAAATTATCAGTGATAGTAGCTTGGACTAGCAGGATAGAGATGGAGACAGATGGTCAGATGTGAGAAATTTGGTAGATAAGACTGG
R
TAGGATTTGGTGATTGATTTGCTACTTGGACTAAAGGGGAAGGAGGAAGCAAAGGATTCTGGGTGAAGCCTTTGGGTGCATGTTGGTACATTTCCTGACA
Celera SNP ID:            hCV677939
SNP Position Genomic:     381030
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20439):
GTCGGCAGCTCCCACCCGTCCCGCCAAAGCCCCGGCCCCTCCTTTCCTACAGCTCCCTGATTCGACACGCGGGCAGCATCTCTCCACCTGCTGATGGAAG
Y
GAGGAGGGCTCCCCGCTGACCTCCCAAGCTCTGGAGAGCAACAATGCTTGCCTGACCGAGTCTTCCAACTCTCCGCACCCCCAGCAGAGCCAACATGCCT
Celera SNP ID:            hCV25592173
SNP Position Genomic:     391317
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,39|T,1)   total(C,69|T,3)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:20440):
ACCTCAGGTGATCTGCCTGCAGCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCCAGAGCCAAGTTTTTTAAGGGATGGCTTCA
Y
GTCTGAGTTTTGGCCTTTCACACTGACTTGCTATGGCTGGTAGCAAGGTGATGAGGCTCTTTTAATCTTCATAGATATCCAGATAATACAGCTTGGATCA
Celera SNP ID:            hCV27533573
SNP Position Genomic:     279472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20441):
GCCAACATGCCTCCCCACAGCGCTACATCTCCGAGCCCTACTTGGCCCTGCACGAAGACTCCCACGCCTCAGACTGTGGTGAGGAGGAGACGCTCACTTT
Y
GAAGCAGCCGTGGCTACTAGCCTGGGCCGTTCCAACACCATCGGCTCAGCCCCACCCCTGCGGCATAGCTGGCAGATGCCCAACGGGCACTATCGGCGGC
Celera SNP ID:            hCV25592174
SNP Position Genomic:     391506
SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(C,36|T,2)   total(C,62|T,2)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:20442):
GAGGTCATATTTGCAGCCTGGGTCAGGGGAAAGGGTACATGGGCTTAATAGAGGTACTTGCTCAGATGCTCTCTCTCTGTTGCTTGATTCACTCTTTCCC
Y
TAGTCATGGCCCTGTCCAAACCCAGTGAATCTTATCCTTCTTGTCCACAGGGAATTTGCCAAAGAGAGAGAGAGAGTGGAGAACCGAAGGGCTTTCATGA
Celera SNP ID:            hCV25592175
SNP Position Genomic:     303759
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(T,40)   total(C,2|T,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:20443):
AGCCGAGAGAAGGGGCAGGATGGTTGAGCAAGGTCAAGAGTTGAGCTGGAGGCATGTTAAATTGGAGTGGCCTAATTGATGTCTATGAGATAGCCCAGTT
M
GAGATGTCATAAGAAGTAAGTAGCTGGACATCTGAGTCTGGAGCTGGGTCAGAGCAAGAGATATACACTTGAGAAACATTAATTTATTAATGGTGTTTTG
Celera SNP ID:            hCV27954940
SNP Position Genomic:     193609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20444):
TCTGCTCTCTCCTGCTGCTTCTCAGTGTTTGGACAAAAACACCTGCCAGTTGGAGTATGGTGCTGTGTATAGCAAAGGAGAAAGCTTGCAAAAGGCTCTC
R
GGAGTGTGTGTGAGGAGCTCGTTGAGGTCCATGTGCAAGAGGGAAAGGATTATGCACCACTTAGCATAGAGCTAGTGCTCTGGTCACATGACAAAGAAAG
Celera SNP ID:            hCV27954941
SNP Position Genomic:     338826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20445):
TTGCGGCCTGTAGAATGTGCTGACTCTTCTGTAGAATGAGCTATAGTGAGGAGGCTCTCTTTCATTTCTGCTCTGGTTTTAGAGGCAACTATGTAGATCA
Y
GAGAAAAACAAGATGGAGGTGAAGGGCCGGGAATGGAAGCGCCATGAATTCCACTACGACAACATTATCTGGGCCCTGCTGACCCTCTTCACCGTCTCCA
Celera SNP ID:            hCV27954942
SNP Position Genomic:     348829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:20446):
TGTGTTATAATCCCCAGTGCAACAGAGTTGAGAGGTGGGACCCTTAAGAGGTGATTAGGTCATGACAGCTCTGCCCTCGTGAATGGATTAATGCCATTAT
W
GTGGGAGTGGGTTCTTGATAAAAGGATGAATTCATCCCACTTTCCCATGCTCTGTTGCATAGGCTTTGCCATTACACCCTTCTGCCATGAGATGATGCAG
Celera SNP ID:            hCV27874680
SNP Position Genomic:     287358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20447):
TAAGGTGGTGGACAGAACTGTACAGCCTCAGGCTTCTCAACCAAAGATCCAGGTCCATTCTGCTGTCTGCCTCCAGTAGATGTTTGACACGAACTCCATA
R
TCTCAATTTCAACCTCATACTTCATGGTTTCTTTGTCTCTTCCCTGGGTTTTCCCCATGGCGATAAGAGATCAGAAAATGTGCTCTCTCTTTGTGTCTGA
Celera SNP ID:            hCV7538876
SNP Position Genomic:     36192
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20448):
GTCTATCCAGAGCCCCACTGTTTCTCATGAGCTATACTTTACCACTCTCGCCAAGGCCACCATCATCTGGATACAACCTGGAAGATCTCCCTGCTTCCAC
M
CTTAATCCCCTTCAGTCTCTTTTCAACAGGACAACCAGAGACATTCTTTGCAAACTTAAGTTGTGGGACTCCTCTGCTGCAACTGACCAATCGTTTCCCA
Celera SNP ID:            hCV27874681
SNP Position Genomic:     295263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20449):
CGGGGGCACTGCCTAGTGGAATTTTGAGAAGAGGGCCACTGTCCTCCAGACCCCAGAATGGTAGATCCATTGGCAGCTTGCACTGTGCACCTGGAAAAGC
Y
GCAGACACTCAACACCAGCCCATGAAAGCAGCCAGGAGGAAGGCTGTACTTCACAAAGCCACAGGGGTGGGGCTGCCCAAGACCATGGGAACCTACCTTT
Celera SNP ID:            hCV9772613
SNP Position Genomic:     122372
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20450):
ACCTGGAACCGGAAGAGGTTAGATAAAGGGAGGTTAGACGGGGGTTTGTTGGCCTATCCTACCAGAAATCAAGCTACATCGTCATTCTGGGGGCCTTATA
R
AGATGACATACCCCATTCTTCATAGTCTAATTTACACTGATTATAGTGGAGTCAAATGAAGAGAAACTGGTGGCAGTGTGCAGGAGTTGCTCCTAGTTCA
Celera SNP ID:            hCV27874682
SNP Position Genomic:     300436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20451):
TAATTGTGAGTGTTGATTACGGGGGCTGCTTTTGGTCTCCCAGCGGTTCTTTGAAAAACCATTAATTTGATCATTTTGGGTGGAGAGTTTAAGGGAACCA
M
TTGCAGTTGGCTGCATTGTGTTTGCCTGGCTCCCTTTTGAGTGTTTTGAGACTTGGGGAAATAAAAAAGTAAAAGAAACTACTACCAACAAAGATGCCTT
Celera SNP ID:            hCV27474651
SNP Position Genomic:     352798
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   JBIC-allele(C,86|A,1407)   total(A,1407|C,86)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20452):
GATACTGAGCAAGGAAAAGGCCATCCTACAACCAATGCTATCTAAAGGGACCTTCTCTTAAAATGTGTGGGGATCACCTTGAGACCACTTTCATTACCAG
K
AAGTGGCATTGTAGATGAAGAGCCAGGACAGATGGATACGGAGTGCCTGTTTACCTCCTGCATTTAGATAGGCTCTAGCATGGCTTCCAGAGCTCTTGTG
Celera SNP ID:            hCV27874683
SNP Position Genomic:     308588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20453):
AAGAAACACAGAAGAAGCACTGTTAAAAAGCAAAGTGCCTGAGTGCTAGTTATATTTGTCTCACTAATATACCCTGTGACCTCAGAGAGAAAACCACTCC
R
ATCTCAGAACCTCTATTTCCTCATCTTTGAAATGAGAAGAATGCCACCTGCCCTTCCTATCCCACAAGGGCTATTGTGAGGCGTACACAAGGTCTCATTC
Celera SNP ID:            hCV27874684
SNP Position Genomic:     322413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20454):
ATGTAGCTGGCGTTTTAGCACCCTTCTCCCCCTCCTTCATTCCCGTGCAGATAATAAATGTTTATTGTTGTTCTATTGTGGCCCCAAGTGAGCTGTGGAC
R
TGGTGGGGAAGCAGCAGGCTGACCCCGGAGGGTTTGCTAATCAGAGAGAGTGTAAAACCTGTTTCAGAATCTGTCATTTACATGGGGCAGCAAATGACAG
Celera SNP ID:            hCV1792300
SNP Position Genomic:     137575
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20455):
TTGTATCTTTTGCCTTATTTTTTGACTATTTGAAATGCAGTATCTCAAAGTATTTTGTCATACTTGGCATTTTAGATGTTCGTCCATTCCAGGGACTCAG
Y
GCACTGAGGCAGGGAAGACAGTGGTCCAGTTGGTGGGCTCCCTGTGTCCTGCAGGGCTGTGGGGGGATGGCAGTGCTCCCAGCTTGGAATCCCCCCACAC
Celera SNP ID:            hCV1792301
SNP Position Genomic:     138256
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20456):
GAACATGGGATATTTTTCAATCCCTGCCTCTAGGATCCATGAGAAGAATAAATGAGTTGAAAGAATGCCAAAGGCCTGGCCTAGTGTCTGGCTCATGTAG
R
AATTCAATGATGCTAGTTGTGAGGCTGGGTTGGAGTATACTTCTGCAGTGCTCTGAGAGTCTCTTGTGTTTTATTCCAAGGATAGAATAAAATAATCCAT
Celera SNP ID:            hCV27874687
SNP Position Genomic:     354306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20457):
GATGGACTTCTGTTCAGGGAGTTTGGGTGAATTCCACATTTGGATCACAATAGTTGTCGCCTGCCTTTCTTTTCCCTCATAGCTTTCAAGACCCCTTTCA
W
GTCCCTCTGTCTCCAGGAAAGATGATTTATTTTTTTCTTGGCCCAAGGCTCCCCCAGGGGCCCCAAGTCCAAACACTTTCTTTGCTGTTCCTTCAGGAGT
Celera SNP ID:            hCV1792302
SNP Position Genomic:     138634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,4)      total(A,2|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 70
Celera Gene:                 hCG1811572 - 84000314047455
Gene Symbol:                 CENTG2
Protein Name:                centaurin, gamma 2;AGAP1;GGAP1;KIAA1099
Celera Genomic Axis:         GA_x5YUV32VWPT(41024437..41667687)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12230):
TCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTGTCTGTTGTCTGTCTGTCTGTCTTTCCTTCTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTC
GCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCTCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACT
ACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTCAGCTGGGATGGTCTCGATCTCCTGACCTCGTGA
TCCGCCCGCCTCGGCCTCCCAAAGTGTCCTTCTTTTTTAAGACAGAATCTCACTCTGCCACCCAGGCTGGAGAGCAGTGGTGCAATCTTGGCTCACTGCA
ACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGACTACAGGCATGCACAACCATGCCCAGCTGATTTTTTTTTTTTT
TTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCTCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCTCGGGTTCACGCC
ATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTT
TCAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTGATT
TTTGTATTTTTAGTAGAGACAGGGTTTCACCACGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGACGATCCACCCACCTCGCCCTCCCAAAGTGCTG
GGATTATAGGTGCGAGCCACCGTGCCTGGCCTCTCACTTATTCTTTGTTTGCAGTCTCAGATTGGATTCAGAAATTGAACGCTAGAAGCAGTGTTTCTTC
AAGAGATAATCCCCTGGAATGCAAGCTCACTAAAGGCAAGCTTCATCTTTCACCTCTGTATCCCTAGAACATATCACCCTGCCTAGGATACAGTAGATGA
TCAATACAGATTTGTTGAATGAATAAATAAGTGACAGAATAAATGAACAAATGAATGGGCTGATCATTCAAACCATCTTTGATATTTCTGGGACAGAAGA
CGTTCACTACTTTAAGGCTTGGCTTGCTCTCACAGTGGAGTTTTCACTCAGAGCTTATAAGTGCCTGGAAGGACCGTCTCACACACACACACACACACAC
ACACACACACACACACGGCTAGAATTCTTGGCTCTATTCACAGAAGATAAATCTGCAGCACATTCCTGGTAAATGTCACTGGGTCCCATGTTGCTGGAGA
AACTTCCATTTTAATTCAGCAAATCTTTATTAGTCACCTACTATGTGCCTGGCATGATGAGAGAACAGCTCTTACCATAGGAGAGATATTGTTGATTAAT
TAATTTATTGAACGTTTGTTGCATTATAATGCTCCAAGCCCTGTGCAAGAGAAATATGGTCCTTGTCTTCATGACAATTATAATTTAATGGGGAAGCTGT
TTGTTTGCCAAACATTTATTGGGTAGCTACTATGTGTCAGCTACTGTTATAGACACTGGAATAGAATGGGGAGCAAAACAGACAAAAATTAATCCTGGCC
CTTGTGGAGCTTATGTTTTAATGGGGGACACAAACCATACACAAGATAAATAACTAAAGTATATGGTGAGTTAGACGGGAATAAGTGCTAAGAAAAACAT
AAAGCAAGTGCATTAATCTCCCATTGCTGCTATAACAAATTAGCACAGATTTAGTGGCTTAAATGACAAAAATTTATTATCTTATAGTTCTGGAGGTCAG
AAGTCCAAAAATGGGTCAATAGGGATGTGATCCTTCTGGAATCTCTAGGAGAGAATCTGTTTTCTTCCATTTTCCAGTTTGTAGAGGCAGCCCACATTCC
CTGGCTGGTGGCCCCCTCCTGCATCTTCAAAGTCAGCCCAGCGGCATCTTCCAATCTCTCTCTCTCCCTTGCCTTCCTCTCCTCTCTCTCTCTCTTACAC
CTGTCATCATATCTCCTCTGATTCTGACCCTCCTGCCTTCCTCGTATAAGGCCTCCTGTGATTACACTGGGCCCACTCAGATAATCTGGGATAATATCTT
CATCTCAAGGTCCTTAATTTAATCAGACCTGTAAAGTCCTTTGCCACTTAGACTAACATATCTACTTGTTTCAGGGATTAGGATGTGGGCATCTTAGGGG
ACCATTATTCTTTCTACTGTGGCAAGGAAGGGGGACATGAAGTGTTGGGGAACAGGGATGCCATTTTAGAGAAGATGTTAGGGAAAGTCGCATTGAGAAG
GTGGCTTTGGAGCAAATACATAAGGAAACAAAAGTCCTGGTGAAGGGGTCAGGGAGACAGAGAAGCAGATGACAAGGGTGGGGGTGTGATGGGTATATTT
AGGGGGCAACAAGGAGGCCAGTGTGGCCGAAGAGGAGAGAACAGGCTAGAAGTAGAGATGCTGTGGCGAGAGAGACAGTCATAGGCTGAATTATGTCCCC
AAAATTCATATATTAAAGTCCTAACTCCCAGTACCCCAGAATATGACTATATTCAGAAATTGGACCTTGAAAGAGATGACTAAGCTAAGACGATGTCATT
AGGAAGGGGTCTAATCCAATATGAATGGAGTTCTTCTAAGAAGGGGAGATGGGGACACAGACACACAGAGGAAAGACCCTGTGAGAACACAGTGAGAAGG
CAGCATCCACAAGCCAAGGGGAAACCAACCCTGCAACAGCTTGATCTTGGCTCTTTGAGCCTCCTGCATTGTGAGAAAATGGATTTCTGTTAAAGCCATG
CAGCCTGTGGAAGTTTTTTTTGTGTGTTTGTTTTGTTTTGTTTTTTTGAGAAGGAGTCTCCCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGG
CTCACTGCAAGCTCCACCTCCACCTCTCGGGTTCACGCCATTCTCCTGCCTCAGCCTACCGAGTAGCTGGGACTACAGGCACCCGCCACTGCACCCGGCT
GATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGATCTCGATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCGAAGT
GCTGGGATTACAGGCGTAAGACACCACGCCTGGCCTTTTTTTTTTTGAGATGGTCTTGCTCTGTCCTCCAGGCTAGAGTGCCGTGGTATGATCACAGCTT
ACTGCAACCTTGACCTCCTGGGCTCAAGCCATCCTCCCTGCACAGCCTCCGGAGTAGCTGGGACTAGAGGCTCACACCACTGTGCCTGGCTAATTGTTGT
ATTTTTTGTAGAGATGGGGTTTCACCATGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGCAATCCTCCCAAAGTGTTGGATTATAGGCATGAGGCA
TCATGCCAGGCCTGTGGAAGGTTTTTATGGCAGCCCTTGCTGGGTAACACAGGTACACAGGTAGAGACACCAGGCGCCTTTGCTCTGGACTATATTCTCA
AGGATGTTTGCAGAGCAAACAGCCTTGGAAGACAGAGATAATGTTTTCTGCCACAGTCAAGGGTAGACATGCTTACTGTCCATGATAAAAACAGTGTCTC
CCTCTGGAGTGAAGGGCAGACACACTTACTGCCCGTATGAAAGATCTGAGCTCTCTAAGCTAAGGGTTAAAAACTTATAAAACTCGTATAGGGCAGCTGA
CTCCAAGTACAGGCTTCACCTGGGCCTCATGTTGCCCGTGGGAATTGGGTCTCAGTAAACTGGTGCATGAAAATGCTGATATTCCAGCTAATGCTACTAT
TATGAATAACAAAGTCCTTTGTTTCTGATCTGGGAGTCTCATGTCTTCTGCCAGCATCCATGAATTGTGGCAGGCTAACTTGTTAGCTTACAAGTAGGGG
AATAGCTCAGCCCCTGAGCAGCTCTTGATAAGAGCTCATGCCTGTGGGGGGAGGCCAGATGGGAGTCATTGGAGGGTTTTGAGAAAAGGCATGACAAGTC
CAGACGTAGGTTTTGTAAGTTTCACCAGGTAGGAAGCAGTGAGCTATTACAATTGTTAGATCTAGTGATGGTCCAGCTAGATGATCCTGACTTCAGCCGA
GTGGTGAGAAGTCGTGGGATTCTGGATCCTCTGAAGGTGGAGCTGACACCATTTGGGATATGAGAGAATGATAAGCAAAAAGGACAGCACTGAATTTTTC
GCCTAAGCAAATGGTGGCCTGGAGTTGCCGATGACTGGGATGGAGAAGATTTTTAGGAGATGTAGCCGGAAGGGATGGCAGGAGTTCAGCTGGCGACATG
CTGGACTTAAACACCAGCTAGGCTTCAGGAAATGTTGAGGATGCAGGTGGATGTGAATTTGTTATTCAGGGGTGAGGTCACRGCTGGAGATACATATGAG
CTTCATTAACCTGTGTATGATATTCAAAGCCATAAGACAGGGGCGATCACAGCAAATAGCAAAGAAAAGAGGCCTAACCATAAGCCCTGGGGCCCTCCAT
ATTTAGAGGTTAGGGGAGTAGAAGAAAACCACAAAAGGGACAGTGAAGCCAGAAACACAGCAGGAAGCCCTGGTGAGCACTGGGAGAAGGGGTTTCCAGG
AGCGCAAGTGATCAGCTGCTGCTGATAGGTCAGGTTTGGTGAGGCCACATGCCTGCCTCTTGGTTACTAGAGTTACTTATGCGTGGACAGCCCGAGGCAT
GGAGTGATGACCTGTGCCTAAGTGTCAAGGAGAAGACAAGCAGGTCCGGAATGGTAAAAATGTCAGCACATCTTTGGGAAGTTGTGGAGCCCAGCCAGTA
AGCCAACACGGCTGGATACCAGGGTGCTTAGGCCATAGCAAACTGCATGTGAGCCGGTGAAGGCTCAGCAGGCTTTAAACGGGGATGCCGGCCCGGCTGG
CTGAGTTTCAGAAAGACCACGCCGATGGCTGGGGGCAGGGACTCAGCCAGTGTCCTCAATCCAGGACCTTGTGGGACCGCCCGGCAGCCAGTGCTTCCGC
AAATCTGAAGGGTCCCATTTGCCTCAAAGCGGCGAGACGAGCCTTCCAAGCGCTGCTGCAGTGCGGTCCCAGCTCCGCGGGGGGTCCCCGGGGATGACCT
AAATCGGGGATTGCGGTGGGACAGACGGTCCAGGGGCTAAGGAACCCCGTGGAGCAGGCAGCGGCGCTCAGGAGGCAGCAGCTTGAGATCCACGGCTCGA
TTTTTAAAAATTGTAAGGGAGAAGGATGCCTCGAAAGCCTCTGTGGTATTTTGTCGCATCTCGCACCCCTGTCTAAACTTCAGTCCACTCGTGGAGTGTG
GACCCCCACGCCGCATGGGCTCAGGAGGCGCTTCGCCTTTGGAAAGAAATCGCATGTATTAAGGGAAAGCACGTGTGCTACTTTGAGAAAGGAGGCAGAA
AGTTACCAAACGCGGGAAGGGGAGGCTCGCCAACCAAGCGAGGCCGTGGGACACTGGCGAGTCGCAGAGGCTCCTGGAGCCAGCCGCTTGGAAACAAACA
ACAACGCGGCGGGCGAACTCCCGGGCAGCCTCCCCCGTGCCGGGGCGCGGGGGCCGCCGCGAGAACCCGGGCAGGAGCTGGCAGGCGCGGGGCCTGGCCG
GCGGGAGGGTCCCGCACCCCGGCCCAGTGTGAACACCCCGCGCACCCCCCTGGCCCGGCCCGCCGGGGGCGCGGACTACAAGTCCCAGGAAGCCCAGAGG
CAGGCGCGGGGCGGGGCCTGGCGCAATTCCCCGGGATCCGGCGCGCTGGGAAGCGCCGAGGAGGACGCAGCGCCGGCGGCCGGAGGGCGGCAAGCGCGCG
GGCAGGCGGGGCGCGGGCGCGGGCGCGGGCGAGGGCGAAGGCGGGGGCGGGGCCGACGTGGGCCGGAGCCCTGCGTGCCAGGGAGGGGGCCGGCCGGGCA
GGCGGCGGGCGGCGCTCGGAGCGGGCTCCGCGGCTTGCAAGGCGCCTGCGACTCGGTCCCAGGTCGGCGGGCGGCGCACGGCGGGCTCGCGCGGGGGCCC
CGGCGCGCCGGGCGGCGCAGTACGCAGCGCGCGGACCCACGCCACGGCCAGGAGCCCAGAGCAGCGCGGCCACACTGCCCAGGGGTCGGCCCTCGGCCCC
GGCGCTCGGAGCGCGGCGGCTGCCTGGGCTTTAATGGCTGCTCCGCGGAGCAGCGCCTAGGGCTGGAAGGCGGCTGCGGCTCAGGAAGTCACCCGAGCAA
GCCTCCTTCGGGGCCGGCCGCACCCGCCGCGGCGCGCTCCATGGGGGCGCGCTCCCCCCGGGCGGCCCGCTGACCCGGGACGCCGGGGCCCGCTCGCTCG
CCGGCCGCGCGTCCCGGCCATGAACTGAGCCCGCGGGCCAGCCCCGCGCCTGCTCCGCCCGCGCCTTTCTTCTCGCGCCTCCTCCGCCCGCCGCCGGCGG
GCCCGGCTCCCCGGGGGCTGCGGCGCCCCGGGCTCGGCGGCCCGCGGGCCCCGGGGCGCGGGGCGGCGGCGGCGGGGGGCGCGCGGCTCCGGGCGCGGCG
CCTGCACCATGAACTACCAGCAGCAGCTGGCCAACTCGGCTGCCATCCGGGCCGAGATCCAGCGCTTCGAGTCGGTCCACCCCAACATCTACTCCATCTA
CGAGCTGCTGGAGCGCGTGGAGGAGCCGGTGCTGCAGAACCAGATCCGGGAGCACGTCATCGCCATCGAAGGTGAGGGCCGGGCCGCCTTGGGGCCTCGG
GAAGGCACGGACGCCCGCGGCGCGGCGGGGGTGTGCGCTGTGTGCGTGCGGGTGTCCACACACGCCGGCCGGGGCACGCGGCTGMTCCGCCGAGGGAGCA
CTGCGGCGCTGCTTGTCTTGCAAGGCCGGGCGAGCGTCGCCTGCGCCCCGCCGCGCCGCGAGCTCCGCCAGGAAGATAGATCGTCAGCGTTAATTTGATC
GTGGACAATAGAGTCTCTCCTGCGGGAAAGTGGCTCGGTGCCTCCGCGTCCTGGGCTGCCGGAGCGTCCCGGCCCAGCAGACGCCTGGGGGCAGCCGGCG
GGGTCGGCGCCACCCGACCCCTGACAGGTTACCAGGCCAGGCCTGGGCGTCTTGCTGGACGTTGAAGACGTGTTCTGAGAAGTGCTGCCGCTGGGGGCGA
GGCCCGGGCCGGCGTGTTTGGGCGGTGCAGGGCTGCCCTCCTTAGTGTGTTTGCTTAATTCAGGGGTGCAGTTGAACTTAGTGGATGCCGAGAGCCAGCC
CTAGCCGCGGGAGCATCGTGTCCAGGTGCCCCTGTGCAAACGCTGGAACCGGTAGTGTGCTTTGTACCAACCAAAAGTCCGGGGTTGGATTAGAGGAAGA
ACCCTACCAGGAGGGCAGGGCGTCCTCCAGCGGAAGGGTCTCGCTTTCATATGTCTGCAGTTGGAGGCCACTGAAGTGGAGGGTGCTGTGGTTTTAAGAG
GGGCAGGATGCTTGGGCAGAATCCCCACCCGCTTCCCTCTGCATGTCAGGCAGGGCCATGGCCTTCCAGGAGAGCTACAGCAGCAGTCTGCCTTCCGGGG
CTGTGCCCTCTGGATTTCTGGTGGCTCTCATTTCTCTGTTTCCAGGCTGCTGATTTATTTTCTTGCTTCATCCCTTTGGTCCGGCCAAGACTCACCTGGG
GCACCAGGTGGCATGTGCGTGGRCAGTGTGGAGTCATATCTTAGCCACAGTTGATCAGCACTTTCTCCCTTCTCAGCGCTGTTGGCCAGTGATGGTAAAA
AGCCTGCAGAGTGGCTTGTCCATAATACAGACTGGCCGGTAAGACCTCTATTGAGGAACATTGAGAATGGCCCAAAGCCGGCAGGAATGTGCCTGAAAGC
CTGGTGCTGGCGTTGCCCAGCCTCCTCCCTCTGTGAGGGAGAGGGTATCAGCCCACAGAGAGGCTTTGCCTTGGCACTATGTAGTCTGAACTACTAACCC
CGAAGTGCTTTGGTTTGAAACTTGGCCAGTTAGGTGGAGAAAGTGGATGTTGTGTTGCTGAGCCCTTGGCATTTGGCAGCCCTGTAGACTTGAACCATGT
CCCAGCCAGGCTGGATGACTGGCAGACTATACCCTTGGGGGACTTGTTAATTCCAGGGGAGGATCCGGGTGGAGCTCCAGCCTTATGGGGTCCTAGCCCT
TTGTGTGTATCTGTCTCCCATGAGGTCACCTGGCTGCCTTGTTGGTGACTTAAGATGCTCTGTGGATTCCTCAAGAGATGGGCTCTGTCTGCCTCTGCAT
GACTCGTGATGAGTGGCGGTGGGACCTGGACCCATCTGCTGATGATCAGGTGGTGTTGCAGCAAGGTTCCTCCAGAGCTCCAGCTCTGCGTCTGTTACGG
GAGCTGTGAAGGCTGCACGGTGCTCATTTCAGATGGTTCTTCCTGGCTCTCTGGCTGCATCCACAGAAGTCTGATGAAACACTGTGAAAGCCGGCGTCAG
GTATTGAAGGCACCTGGCTGAGAGCCTCTTTTGCTGCATGAAGACCTCTGGCTGAGTGGGGTTCACAACACCTCGTTTTTATTTCCCATTCTTGAAGCTG
AGCTCTGGGGCTCAAGCACTTCCAGCAAAGCAGTTTGACTTTCTAGCAAGAGGATGTGGTTGCATTTTCCTTTYTCCCTTAAAAGAAAAAAAAAATGCGT
CGTTCCTAGATGATGGTTTTTTTTGACAGCACGATGCCTACCTTTGCGATTTGAGATTTTAGGCCCCTTCTTGGCCGGGATCCTTGTCATTTTTAATAAG
GCTTAGAATCATTGGGTGAATCCTGTTTGGGACTGGGGTGATGCTGTTATTTTTCTCTTAGAAATAGGGATGTCTACATTATGTGGAGCTGTAGTTAATT
TAGTGAGGCTTAAGAACCACTCAGACATGCTGCTGTTCTTTGCATGTTCTTCTGTTATCAATAATGATACCACTTTTCATTTCTGTAGAACTTTAACAGA
AATATTTTTGCATGTATAGTCTCATTGTGTGGCTTCACCAACCCTGTGAGGGWGGGTGGGTAGCTTCCTCATCCTCATTTTATGGAGGAGCGGGTGGAGG
TTCAGGGAGGGATAATGACCTCCTTAACATTTGACTGAGGTGGTTTGAAGTCTGATCTGAACCAAGGGATCATTTGAATGGAGTTTCTGTCTCCACACTG
CATGTGGATGGCAGGAACCCAGTGCTGGCAACTAAGCCTGCGCTGGAACATCACAGTAACTGCAGAGGGCTCCCTGCAGGGGCAGAGAGCTGCCCCTGCC
TGTGCGTGCACCTTGGAGGTTTTAAAGTCTAACTGTTTCCAATCAGGACAGCAGGTGCACATCATAACAAATGGCTCAAAAAGTCACTTGTCCCACCAAA
TAGAAAGCTGGCCACATTTTAGAAGATTTCCAGCTAGGGATTTTTTCCCCTTCCTCTGTATGTGCATACACAGAATTGGGGTCTGACTTCCCAAGCTTCT
GGACTACCGTGATGTGGGCACTTCTTTTTTTGTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGCGGCGCAATCTCGRCTCACTGCAGG
CTCCGCCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCTCGCCTGGCTAATTTTTTCTGTTTTTTTA
GTAGAGACGGGGTTTCATTGTGTTAGCCGGTATGGTCTCCGTCTCCTAACCTCGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTG
AGCCACCGTGCCCGGCCGGGCACTTCTTAACGTTATGAAGAGCTTTTGAAGATAGGGTTTCTCTTGTTGGCACAAAATTCCCACATTTGGCTGCACCCTA
CTCAAAACTTCACTGTTTTCTGGCATCTTCAGGAATTTTTGCTGTTGGAGTGAGGTGCAGCCTTGTCCAGGGGAAGGATGTTTTGGCTAATGCTTATTTC
AGAGCGCGTGGAGGTGGGTCTGGGTTGTAAAATCTCTTAACGATGGACTAAACATATTTTAGTTGAAAGGCCCACCAAGGCTCCCAAATAAAAACASATC
CGTAATCCTGTTTGTAGGCATGGGATACAGGTGATTTTGCCCTCAGTCTTGTTTTAAAACACTAGCTTGTCAGAAGAGAACAGTTTTTTTYCCCCAATTT
TTGTTTTGTACATTGAGAGGTTTATTCCCCCCTCCCTTCACCCCCAAATCACTAGAGTTTAAGGAAGCATTGCTGATTGTTCCAGATTTATCTGATCAGG
TTTCTGGGATGTCCTATGGGGCATGGCATGCTGTGAAATGTAGCCACACAGCTGTGTCGTCTCTGGAGCCTCCGCAGCCACCATGCCCAGAAATGAGCCT
GAGAGCCATCTCGCCTCCAGTCTGAACAGCGTGTGTTAGTTTCCCCTCTGGTTCTCCTTAGAAAAGTCCATCGGGGGTTGATGGCATTGAGGTAGATGAA
TTAACTGCCTTTCTTGTTCAATAAAGCTTGTTCTTCTTTCAAGGATAAAGCCTCTCTTAGCAGTCACACATCGTAATTCAGCTTGCCAGCAGCAGGACCG
TGATGTGAGTGATAGCCCAGCCAGCTCATTCAGCCAGGCGGCCCGATTCCCAGGTTCCCACGCATCGCCGGGAAGGTTGGCCTTCCTCTGAGGTTGAGCC
CTCAKCCAGCCCACAAGCCTCCATCCCCACCAGGTGGCCGATGAGAGGAAACCCAGGCTCTCCACTGGCCTGGCACTTGGCAGGAGAACCCTGCCCTGCA
CTTCTTAAGGGCATTTCCACAGGGAGATTCCAGGACCCCTTAGTAGTATCTCAGCCCCAGTGTTTGGGGGASCTGGGAAGATGGGTCAGGGTTCCCCACT
TTGTCCCATGATACAGCTGCTCTGTTGAGCATGTGTGTCCCACAGAGTGCGGAGTGTCTGAGGTGCATCATCTCAGTTCGTCCTGCAGCGATCYTGTACA
CAGACGCACTGCTGAGGCCAGAAAGCTTAGGACACTTGTGCGAGAGCGGTGAGCTGGGCCCGTCCGACCTCACCTCTGGCCCTCTGTCGCCGTGTGAGAT
TGCGGAGCCCCTGTTATTCATACTTCCCATAGGCCGTGYGTGCAAAGCATCCCAAGCTTGTTTCCGCCACCCAAGGCAAGAGGGTTTGAGAAGGCCCCAA
AGAACCTAAAGTATTCTGTTCTCTGTAAAGCAGCTGACTGTGGCAAAACTTCCAGAAGCATTTGTTTTCATGTGGAAATGTATTTAGTCCGGTTGATGCA
GGTGTGCATGTTTAGGGAAACAAACATTTTCTTCCTGCTGTGGATAAGTGTCATGTTTCTTTGTCACCATTGGCCATGTTCATAATCCTTCAAGTTGAAT
GAAAGGTGGCAGGTTTGCAGTCCCCTCCTTAAAAATAACACTCAGTTGGCTTTTAGTTGCTTCCAGGTGAGCTCTCGTACCTTGCCGGCACCCGRGRCCT
CCACAATGMGGGCGTTCCTTGTGAGTSCAGCTTACTCATGCYTCTCAGTTGTGGTGCAGGTGCTCTTTGAGATGCCGCCTTCTCTGCCTGTTGCTCACCC
TGCGAGGCTCGGTCTCTGTTGGTGTCACTCATGACCAGCCTTGCCTCGCCAGAATTAAGGCCCTCCTGGTCTCTGCCCACCGTGTTTGGCTCATCTACTT
AATCAGCTGGGAGGTCTGGAAGCTGGTTGAGGGCAGAAATCAGGGCTTGTTTATTGCTGTATCCTCAGTGGTTTGATAGATCACGTCTGGCCCTTGAAGG
ATGCCCAGGGGTTTGTTGGCTGGCTGACTTGCCAGAGGGTCCTTTCCAAAGCTCCTTCTTGGTAGGATAAACAATGTTTATACGCTGCAGAAGTGAGGAC
AATTTGAAACGTCCCCAGAGCACAGAAGTTAGGGTTAGACACCTTTTGGATTTGGTGGGCTGGCTTGGTGGGAACTCAGTGTCATGTGGTGTTTGGGATG
GAAGTGAAATTTTCTTTACTGTAGGTAGGGGAAGCAAAAGATTTGCTTGCTAAATCTTGGCAGCTTTTTCAGATCAGCTGTCTACAACAGGTTGGTGTTT
ATGTTGGGTGTAAGTGAATTTCAGACATAGAATCAATATTAAGAGGACAAATGGGTGACAGCCTGTGTCACTGCCATGATATAGTATCTTTGGCGTCACA
CCGAGAGCAAACGTGAGYGTGTGTCAGGTCACATTGAGGGCTGATGGAAACAGATTGCCGGCCCCTCCCATACCTCCCGAGTTTCTAGTTCTGTGGGTTT
GGAGCAGGACGCACGAATGTGCCTCTCTAAGAAGTGTCCTGAGGATGCGGATGCCCTGGTCCAGGGACCGCACTTCTGGAAGCATAGCTGTAAAGGAAAG
GCAGCTCCAGTTGACTTGGTATCATCTCTGGGCCGTTGTTTCTTCTTCCTTGCTGTGCTTGTAGCCAGCTGAGAAGGTTTCCTATCAGCCTGCCCTGCAG
GTTTCAGGTGAAGACACCTAAGGCCAGCTGCTCAGGGAGTTGCTTGTGGTCACGCAGGCTAAGTGTGGTGGACGAGGGACTTAAACCAGATCTGAATGGT
TTCAAGCTGGTGTTCATGTGATCTTCATGATGCTGTTTGAAAAGCAGCTGAATGCTGGGTGAGGGGCCTGTCGTGCCAGACCCCTTTAAATTTCATTAGG
GATGGCACCGGGTTCAAGAGACTGGAGAGGAGACCTAGAGCCAGCAAACAAAAGACAGAGGGTTTATTAGGGGAATTTATTTACAGAGTGGTCCCATGGC
GGCCTGGGCAGGAGAAGCGCTGCTGCTTGCTTTCAGAAAGCGTGCAGTTTATATAGCATTTTCGCTTAACACCCTCCCCCAAACAACCACCACCCAGCAA
CCTTAACACCAATCAAAGAGCCTCARTACCCTGTATGGCCTGCTTTCCATGGGACAGGCTGGGGGTTTAGATGTTCCTCATAGATAAGGAATGAATCTCT
GGGTTGGCCACTCCCGGATTCCTTAGCTCAGAACCCCGAACATACATTCAGGTGCACCTGCCATGTGGGGCCATTCTCAGTTATTGCTGTCAGGGGCATC
TGTCAGTGGGCTGCGTTTCTGCGACACGGTGGCATGTCGGATGGACATTGCCAAGAGAATCTGGTTAGGAGGTAGAGGCAGCTGATGTCCATTTCCTTCT
AGACTCATTCTGTGGTTTTGCGGATTTTCCTTCTTGTCTTTCGGAGATTGTTGCTTTTTAATGTAGTCTTATGTATATTTAGATTGGGTTCTTCAGTATT
CACTTATTATATGATAATTTGGCAGATGACACATTTTGTTACCAATATTTCCAAGCTGAAAGCGCGTTTCTGTAAAAGACAGGAGCTAGATGTTACTAGT
AGCTTAAAAGAGCTGTTGGAGGAGCCTGAAGGAAGTGACTCATAAGGGAGAGAAGCAGTGGGGGCAGCTGCAGGAACCTTCAAAACAAAACCTGCAGCCC
TGTTGCTACCACCTCTTGTTTTTTGCCTAAACCAGGCGTTTTATTTTGTTAAGACGAAAATCCCTTATTTTGCATCCGTTTTTCCCCCTGTATACCCTGC
AGGTGTTTATAGTTTGTGAGTCTCACTCTGGCTTGTTTTAACCACTGATTTCGTTTCGTCTTATGTTTCTCTACACTCTAGCAAACCTGTGTCCCCCTCC
CCGCCCCCATCCCAATCCTCCAGCCTTCACGTCCTTAGCTTAAGTGATTGAGTCTGGCAAAGCGGATGAGGCTTAGCTATTTTTAAAATCCAGGGTTTGA
GGTTCTGATCTGGTGCTTAGCTACATAATTCCTTCCCTTTGTTAAGTACCTTTCTCCGAGAAACAAAATGCACTCTACAGATGTTAATCTCTAATCTTTG
CAGCATCTGTTATTTTTATTCAGGGGTACAAGTGCTTTGTGTGTGCTGCGGTGAGCCCTGGCCTTCTGGAAGCTCTGTGCTTCTGAGGGGCTGAGGGGGA
TTTGGGGGTCCCTTTTCATAGTGTGGGCTGTCTTTCCCAAGATGCAGTGATGACCCRTCAGAGGCAGGGTTGGTATTGTCCGTGGGGTCCAGTCCCTCTA
TCTTCCAGGGCTTTTCTGGTCACAAGAGACCATGGCCAGAAGTGGGTATCGTGCTTGTGTCTGGGGCCTGGGGAGGGAAGGAAAACAAATACCACCCCCT
GCAGAAGAGATCGTTAATGGATTCTTTGARTAACCAGCCAGATAGCTTGTTTGTGTGCGAGGTTGGGACATTTTCCGTAAAGAGCAGACTAAATATAGGC
TCGAGGGTGGGGACCAGGGCCCGAGAGGGGGCTGCCACTGCTTGCTCCAGTATTGTTTCTTCCATTGGTAACCAGAACTTGCCACCAGTCCCAAACAGGT
GGCCACCCTGAGCTCTCTGGGAACAGATTGGTGTTTTTGTTTAACCAGGGGCTCATTTGCAAATTTCACACTTCTCCCGCTGTTTGATGGGGATTGTCTT
TTTTTGGGCTGCAGTGTTGGAGTATTTGTACAGTGTTTCTACACAAGCAACTGTCTAATCTTTAAAACTGCTCATGCCGTCTGGTTGTCATTAGCATCAT
GGTTAGAAGCTTTTTATTTGCCTTTTTTTTTTTTTTTTTTTTTAAGGGTGGGAAAACACTTTTCATGGTTCTGGGAGAAGAATTTCAAATAATGTCCATG
TTCACAAATGATTTATGTTTGGTCTTGGAGAAATGTCAGCATTCAACAGGCTCTAGTAAATACAACCATGTTGATTTCCAGCTTAGGACGAAGCTACTGT
TACCCTGTTCTCACTCAGATAATAGTCTGAAAGGCAGAACCGTACCTTTAGAAAGTACATTTAGCTTCAATTCAATAAGTTTTAGTTTTAGCCAATAGTG
ACTTGTAGTATGGAGGATACTTGAAAGAAAGAAGTTAAACATTTTTTAAAAAATTTATGAACACCTGCAACAAATAGCCACAAGACCTACCCTTTTTTCA
GGAAAGAGTTTTCACTTCTTAAATGTCACCTTGGGGGCATGCCCACTGTGTGATGGTACCCTTCAGCAGGATTGGTATTGTCGGAAGTGCTGGCTAGCTT
ATGTAATGAAAAAGAAATTGATTTGGAAAGAGCTGATTGCCCTGAATTTCCATCCTGTTTGTGCGTTGAGCTGCCCTTTTCAGTGGGGGAGAATCCAGCA
TATTTTCCAGGGAGGGCGTTTCCGGAAGCCTGTCTGCACCCCCTTTGTTGTTGTTTTCGAAGGTCTGGGGTGCTGCTGTGAGCCGGGATCGCGTATCTGC
TCCTGTTCTGACGAGACTGCTCCTGCTGGAAGTTCAGCCTGGTGAACCTGATTTGGGAGGGGATGGTGTGATTGGYGGGGAACAGCATTGTGTTAATTTT
AGCTTCAACAATCAAGCCTGGGTCTCTGAGTGTCCATGTAGTACTTGAAGTTTGGGTTTGGAATTGGTGGGATTGAGACCACTTCAAACTCTTTTATTTC
TTGGAACTTGTTAGTATTTATTTATTTATTTTTTGAGACAGGGTCTCACTCTGTTGCTTAGGCTGAAGTGCAGTGGCACTATTGGGGCTCATTTGTAGCC
TCAACCTCCCAGACTCAAGTAATCCTCCCACCTCAGCCCCCGCCAAGTAGCTGGGACTCCAGATGTGCACCATGCCTGGCTAATTCATTGGATTTTCAGT
AGAGACGGGGTTTCACCATGTTGCCTGGGCTGGTCTTGACATTCTGGACTCAAGCAATCCACCTGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGCATG
AGCCACTGTGCCTGGCCTAGTTTTTAATTTTTGAGACAGTCTCTGTCAATCAGGCTGAAGTACAGTGGCACGATCGTGGCTCACTGAAGCCTTGCTTTCC
TGAAGCGATCCTCCTGCCTTGGCCTCCCAAATAGCTGGGACCACAGGCACGCACCACCATGCCCGACTAATTTTTTAATTTTTTTTGTAGAGATGGGGTC
TCGCTATGTTGCCTTGGCCTCCCTAAGTCTTAGGTTTACAGGCTTGAGCCACCACGCCCAGCCTCGAACTCTCTTTTTTTTTTGACACATAACAGAGAAA
GGTGCCCAAGTCATAAAGGAGAAAGTTTTCACAAACTGATCACATGTGGGACCAGCATCCAGTTCAGTGGCCAGCACAGACTCATCTGTCGTGAGGGTCG
TTAGAAATTGTAGCCCCCATTTATTGGTCTCTTCTGCCTGTGATATGTGCBTGAGKGGTTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGT
TTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCBGTCAGTGTKTGAGTGGYTGCCT
GTTTCGGGGGCTGTCAGTGTGTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGC
CTGTTTTGGGGCTGTCATGAATAGCACCACTGTGCAGATTCTCACTTGCCTTTTGGTGCCCATATGGCCTCATTTCTGTCGGGTGTGTGCTGGGCTGTGT
CTTTCTCTCTGTGGGTTGGACGTAGCTGCTCGTGAAGCCGCTCCTGCAGCCCAGCAGCCCCTATCTGGGAAACCTTTCAGTGCTTTCAAGGTTCATTTTA
TGACACTCAGGATGGCCGTTTGTCTCCTTTTGCTGATTTTCATTCTTTCAGTTGTTTGTTCATAAACAAATGTTTGCATGGCTAATGCATTTCCAGCACT
TAGAGATTAGGTTTTTAAACTTTTGGATTGTCTGCAGGCTATTAATTCCTTGTTAGTTGAATAATGACGGCTGTGTGCATGGAGCTGTGTGAGCGAAATC
CCTCACCAGGAAGAGGGCGCAGTTCCTCTGGGACTGGAACAGGGGCCCCTTTGGCTCTCCTTGGCTCCTGGCAGAAGTCAGTTGTCAACTGGGGGACTCT
TTCTGGCTGAGCCCCAAGCAGCCTCAATCCATCTCTGTGCTGGGTTTTAGATAACCCACTGGATCTGTGTTGGTCTTTGAAAGGGAATTCACTCTGTATG
TTTGGCCTAAACTGTGTTATGGCCTTCATAGTTACGTATTAGCATTATTCAGTTTTTGTTGTTTGTAGCARTTATGCTGAAGACACAAAAGAAGAAAAAA
AGCTAAGTGTTGCCAACTCAAGGAGTAATTTTCTTTGTTCCAGCGCTGTGTCCTGGGAGCTGCCCATCCCCCTCCACAAAGGCCAGTGCTAAACAAGGCC
AGAGCCAGGAAGGACACGCGGGGCCATGGATTGAGTGAGGGCAGTGTGTGCGTGTGTGGATTTCTSTGGTGGCTTTGCAATGGCAAATATTTATTTTGAG
GGATGGTGGTGGGAGGACCAAGTTTATACTCACTTTGTTTAGTAGGGGAAGTGGCTAATGTGAGAATCAATAGACAAGATTTTATCAAGCCTCTGCACTG
GGCAGAGCGCAGTTTTTGAAGCTGGGAGAACAGGCAGATGTGTGGGACACTCAGGGCCCTTCAGATCTCCCCCAGGAGCCACTGATACAGGTAGAGATCG
CAGCCACACAAGGCTGTGTGGGAGGGGCCTGGGAGATGGGGCGGAGTCCAGGGAGAGATCCTGGAAGCCAGGTAGCAGTCAGGAGGGCTTTCCAGGCTAG
TGGGTACTAGGATTGGAGCATCCAGAACAGAGTCACTTCAGCCTGGGAAGAGCGGGGTAGGCGGCCGAATGATAAGTGATCCTTGACAGCCCCCGAGAGC
AGGCTGGGAGACCTTTTGTTGGACGGTCTACTACTGATTATGGATCCTGCTTGGAGAGGGGAGTGCTTTTTTTAAAATTCTTTTCTTTTTTTTTTTTTTT
TTTTAAGACGGAATCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATCTYAGCTCACTGCAGCCTTTGCCTCCCAGGTTCAAGTGATTCGCCTGC
CTCAGCCTCCTGAGTAGCGGGGACTACAGGCATGCACCACCACACCCAACTAATTTTTATGTTTTTAGTAGAGATAGGGTTTCACCACGTTGGCCAGGCC
GGTCTCAAACTCCTGACCTCAGGTGATCTACCCGCCTYGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCGGCCCTRTTTTATTTATT
TATTTATTTAGCTCGGGTTTCAATATTTTAAAAAATTTGAAGCCAGGTGCGGTGGCTAATGCTTGTAATCTCAGCGCTTCGGGAGGCCGAAGTGGGAGGA
TTGCTTGAGGCCAGGAGTTTGAGACCAGCCTAGGCACAGTGGCAAGTGCCTTTAGTCCTAGCTACTTGAGTGGCTGAGGCAGGAGGATCACTTGAGCCAA
GGAGTTGCAGGCTGCAGTGAGCTATGATTGCATCACTGCGCTCCACCCTGGGTGCCAGAGTGAGATCTTGTCTCAAAAAAAAAAAAAATTGAACTGTGAT
GACTATGATATTGTCTTTTGGGGGGTTTTCTGGACATAAAATTCAGAATTTTACATAGAAACTTGAATTTATTTGTCCAAGAGTTTCTTGTTTTGAAAAT
AGGATGCCACTGGGAACATTCTTGGTTAGGAGCCACCGGAAGCCGGGTCTRTATGGGCAGGGCCAGTGAGATGCAAAGCCACACACGAAAGCTAAGCACA
CACTCTTGTTTTCCTCACTCACATCCATGTTCATCCTCTTTCCTGTGCTGACGGTTTGCAAAGCTGGGAGAGAATGAGGGCGGRGCCTCGGGAAGTGAAT
GGCAGAGCAGGTGGCATAGACACCTCAGCCGTCTGCCCACAGGGTATGGGCAAGGTTTGTTTTGGTGACTTTTTCTTCCAGTCTTGTGTACATTATCGTC
TCTCACAGGACTTGAGCTTGGAGGGAGCTGGAGTGGCCGCTTGCTGAGTCTTTCTCCCTGGAGCYCGTGGGCAGCTGGTTACCTCGCGCTGGGGCGACCC
TGACTTAGGACCTCCTGCCGTTTCTCTGGGTGACTGCTCTGTAGTCGTGAGTCGTCTCTTTAATGCTGAGCATCAGTACCTGCACAGCCCTGAATGGAGC
AGCTGCCCAGAATCTGTCTTGTCATCGATAGATGGACAGTTGCCGAGTGTCCTGCGTGCCGACTGACTAAGGAGTTTTTGTCTCTGTCACCCTGTCCCCT
GTGGTTTTATGAAGACGTTAGTTATGAATCYGTGTTTAGGATGAGAAGATGTAAACAGTGAGGAGGATAAGTGAGAAGCTAGCAAGAGTCTGGATGGTGA
TGGCGGGGGAGCGCTGGTGGAGGAGTCGGGGGCGTCCCGCTGGACTGGGGCACAGCTCTGCAGCAGCAGCCGGTGCGGTTTTGCCTTGTAAGTGACACCG
TTGCCTGCAGGCATCTCTGACAGCTGCTCCTGCTCCAGATTCCAGAAATTTCTATGGAACATTTCCTGAACCATCCTCCTGGTTTCTTCCCTTCCCCTCA
CTGAATAAAATCCGTAATAGCACCTGCCGCTTGAGTGTTTGTCTCTGCAGGACGCCRTGTTCAGGGCTGGGTGCCCTTTGTGTCATTTTGTTATCCTGGT
CACTGCCAGACAGAGGTGGTAGGACCCTCATTTGTCAGGTCAGGAGCCTGCAGCCTGGAGAGTTTAAAGCCTTGCCTGAATCCACCCACTTCTGAAGGTG
GCAGAGTCAGGATTCGAACTCGGGACCCGTGGACACCAGCCACCTATGGGCCTTTATTTTTATATTTTTAAAAACTTTTAGTTTCAGGGGTACACATGCA
GGTGTGTTATATAGGTAAGTTGGGTGTCATGGTGGTCTGGTGTACAGATTATTACAACGCATAGTAAGTACAGTACCTGATAGGTAGTTTTTCAGTCCTT
TCCCTCCCACCCTCCACCCTCAAGCAGGCCTTGGTGGCCGTTGTTCCATTCTTTGTGTCAATGTTGAGCTCAAGTGAGACCATGAGATATTTGGTTTTCT
GTTCCTCCGCTGGTTCGCTTATGATATTGGCCTCCAGCTCCATCCATTTTGCTGCACAGGGCGTGATCTCATTCTTTTTATTATGGCTGCATAGTACTCC
ACAGTGTACATGTACCACATTTTCTTTATTCAGCCCATCGATGGGCATTTTGGTTGATTCCATGTCTTTGCTATTGTGAATAGTGCCACAGTGAACACAC
AACTAACTGCGTGTGTCTTTATATAGACACAATAGAACAATTATATTCCTTCAGGTGTGTACCAAGTAATGYCACCTACAGTTTTGATGTTTTAGTAAAG
TAGAAAAGGAAACTTCAGAAATCAGCCCATAAGTCTGCAGAAGTACTTGGGGAATTCTCTCCGCAGTTCGCAGCTCTCCTGCAGATCTCGGTTTGTGATT
TGAAACTCACATTCACGCTCGGTTTTTTACTCATCAAGGTTATAAAGAAAATAACAGCTGTTGGTTCACTTTTATTCCCTCGCTGAGAGTTGGTGGCGGC
TGGGATGCTGACTGACGGTTTTGATTACATGAGGAGGAGGCACGGAGGCAAGCTGACTGCCTGCGATTACAGGTCCCGAAGTCCGGGAGGAGGGAGGATT
TCCAAACGGCATGCCTTTGAAAATTCACCTGCGTTTAGGAAATCTGCAGCACCTTTAATCCTGGCTAGCTGAAAATACAGCTTACATTTAAGCCACACAA
ATTCTGTGACATTTTAATAATGGAGATGTTAGTGGGCAGTTAACTTTTTATACATGTAAATAGAAGTTACTTTCCCCCTGTGCTGTAATTAGCAAAAGAG
GGAGAAAGGGATGCTCTGTGCATCAAAGCGATTTGCCCAGGGTTACACAGAGGAAGGTGGCAGAGCCGGAAGTGGCAGAATCCAGTGCACGGGCGGGATG
CCGAGTGTGTCGCCAAACTCCACCACTTTAGTCGGGGGCGTGGTGGTKGCTGCGCTATCTGCTTCCCACTCACTGGCATCCTAGCCGTGTGGGGTGTGTG
CTCACCTGCAGCCACCCTCACCTGCTTGAACCAGATTTACCTAGAGGGTGGTGTGAACTCATGTGATGTGAACGATTACTTATAGTTACCGTGAAAATTA
ATGGTGGGTTTTATAGTTGGAATGCTTTTTCTACACTTAYTTGATTTTTGTCTATCTGTTTAGAGAAGTGTTTTTTCTGTTGTTGTTGTTTTTTAAACTT
GAGATGGAGTCTGGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGYGATCTCTGCTCACTGTAACCTCTGCCTCCCAGGTTCCTGGGTTCAAGCAATTCTC
CTTCCTCAGCCTCTTGAGTAACTGGGATTACAGACATCCACAACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGTTTCACCATGTTGGCCAGG
CTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCTCCTCAGCCTCCCAAAATGTTGGGATTACAGGTGTGAGCCACCACGCCCGGCCAGAGGTGTGGTT
TACATAAAGTAAACTCCAACTCTTGAAAGTTTACCATTTGATGAGTTTTGACCCCTGTAGCTACAACTGAGGTATGGAAGGCAACCATTCCCCGACCCCA
ACACTTCCTCATGCCCGTTTGCAACCTGCATCACCTCTGTCCGTCTGCTTGCACCCATCTGCTGTCTGTCACTGTGGATTAGTTTGCATTTTCCAGAATA
AAATAGAAATAAGATCATGCATTAAAAAGGGGGTCCCCAGCCTCTGGGCCATGGACCAGTACTGGGCCTATTAGGAACCAGGCCACACAGCAGGAGGTGA
GTGACGGGCCAGCAAGTGAAGCTTCATCTGTATTTACAGCCACTCCCTTTGCCTTGTGTTACCCCCTGAGCTCCACTTCCTGTCAGATCAGCGGCGGCAT
TAGATTCTCATAAGCGCACAAACCCTGCTGTGAACAGCACATATGAGGGATCTAGATTTGGCGCTCCTTATGAGACTCTAATGCCTGATGATCTGTCACT
GTCTCCTGTCCCCCCCAGCTGGGACCCTCTAGTTGCAGGAAAACAAGCTCAGGGCTCCCACTGATTCTACGTTATGGTGAGTTGTAGAATTTTTTTCATT
ATATATTACAATGCAGTAATGATAGAAATAAGGTGCACAATAAATGTAATGCATTTGAATCATCATGAAACCATCCCCCTGCCTCCCTTCAGTGGGAAAA
TTGTCTTYCACGAAACCGGTCCCTGATGCCAAGAAGGTTAGGGACCACTGCAGTAAAGGACCCCTTCTTTGACTGGCTTCATTCAGTCAGCATGATGATT
TTTAGGGTCATTCAAGTTGTTACATATATCCATAGCTTTTTCTTTTTCATTGCTGAGTAATGTTCCATTGTATGGATTTACTACAGTGTTTTTATCCTGT
GGATGGATATTGATGGAGTTGTTTCCAGTTCTTGGCTTTTACAAATAGAGGTGCTGTGAACATTCACGTGCAAGTCTTCATATGGGCAYGTGCTTTCATT
TCTCTTGGGTAGATACSTAGGAGTGGAGTGGCTGGGAGATGTGCTGGGTATATAATTAACTTTTATGTAAACTGCCTGCTGTTTTCCAAATTGGTTGATT
TTACTCTCCCGCCGGCAGTGTGAGAGTGTCCACTTTGGGCTTAAGTTCAGCAGGCTTCTGGCAGTGATGGGATAGCAGCTGTCCTTAAGAAAGAGCATTT
GCCCTCTGTGTCTCTTGGGCTGTGAAGTGTCTTGTACTGATGAGGGGGGTGGGAGGCTATAGGAGTGAGGCTGAGGAGGGAAAGGAGAAGCCTCAGAAAG
AGGTGCAGACTGAAGACCACCTTAGAAGGTCGCAAAATCCAAGGGAGCAGAGCCAGTGTGCCTCTCCTTGTGACCTCTGGCCTCAGTTTCCCTGTCTGTA
AATCCGGATGTTTGGCCAAGATCAGTTTTCAACAAGGTGCTGGGTGGGGGGGCGGGGGGCGGCGGTGTATGGCGTGCAAGCATTGTAGCCCCCAAGAGGA
CATTTGGCCATGTCTGGGGCAATTTTCGGTTTGTTACAACTTTGGGGTGTCATGGTTGTTACTGGCACGTGGCAGGTGGAGGTGAGGGATGCTGCCCAAG
ATCCCGCAATGCCTGGGGCAGCCCTGAGTCTTCGTCATCCCGAGACTGAGAGCCCCAGGTCAGATGAGCTCTGTGACCCCCTCAGCCTCTGATCCACACT
CACCAAGGATTACTCTGGTGCACGATTCTGTTTCGGTGGGAGCTGGTGTAATTATCTAGAGGTGTGTCTACCTGTGTGCCCAGAGGGGCCCGCCCTCTCG
GTGAGCAAGGACACCTGGTTCCCTGGGGTCTGAGCCAGGCCCTCAGGGAGGGGGGCAGCCAGGAGCCGCAGGGGGCTCAGCCAGCTCCTGGCCCTCAAGT
GTTCTAGGAAACCGGCTTCTCTGTGGGGATGTGACTCTCCCTCACTCCTCCCATTGCCTGAGTAGGCAAATTCCACCTAGCTCTTTATGACTAACTGCCT
GGCAGCCTGAGCTCAGGGCAGTTCCTAACGAACTTCTTTGATTATTAACCTATGCTGGGCCCAGGGAAATTACTCACTTGTTTTCTGGCCAAGAGAAAAT
CTCCTGGAAACTTCTATATATAAATCTTTTTGACAATTCCGCATTCAAGAGAGTTCCCCTGGCAGTTCTTCTATTTGTAGGGTGGGGAGAAAAACCCATG
TAATTTCCCCAAACTGTGGATTTTGTTCCTATAGAACATGCTTGTGAGATTCAGTGTGCGTATTTGTGTGAGTGTGTGTGAATGTGTGTGTGAATGTATG
AGTGTGGATGTGTGTGAATGTGTGTGTGTATGTGGATGTGTGTGAATGTGTGTGTGAATGTGAGTGTGAATGAGTATGTGGATGTGTGTGAATGTGTGAA
TGTGTATGTGTGGGTGTGAATGTGTGTGTAAAGGTGATTGTGAGTGTGTGAATGCGTGTGTGAATGCGTGWGTGWSTGWSTGAATGTGTGAGGTGTGAAT
GTGTGTGTGAATGGATGTGTGTGTGAATGCGTATGTGTGAATGTGAATGCGTGTGTGAAKGTGTGTGTGAGTATGTGTGTGAATGTGTGTGTGTGTGGTG
ATGGTCATTGTCCACATTGGTGGTCTTGTCACTCACTTCTTGATCTGTTGCTGCATCAGCAGAATGCTGGGCAGATGGCTGCATCTTGTTTGGGAGTTTG
GGAGTTTTCTTTGAGTATCTGTTTTTTAACTTTCAGGRGAGAATACCAAGGTTGGGAAACACTGGTTTTGCTGACATAAGAATAAGAAAATTGGCCAGGT
GCATTGGCTCACACCTGTGATCCCAACACTTTGGGAGACCGAAGTGGGAGGATTGCTTGAAGCTAGGAGTTCAAGACCAGCCTGGGTAACATAGGGAGAC
CCCCATCTCTACGAAAAAACAAAACACCCAGGTGTGTTGGTGCTGCCTATGGTCCCAGCTGCTCAGGAGGCTGAGGTGAGAGGATTGCTTGAGCCTAGGA
GGTTGAGGCTGCAGTGAGCCATGATTGCACCACTACCCTCCAACCTGGGCAACAGAGTGAGACCCTATCATTAAAAATCAGTCAATCAATCAATCAGTCA
ATCCATGCGYGTCCTCCCCCATTCCTGCCTTGATTTCCCTGTTAGGATTTGCCATGGGGTGGGCAGCTGGGCAAAGGCATCTGAGCTGGAGGTAGGTGAT
AAGCTCCCTGGGCCTCCCACCCTGCCTGCCTCTGCTCAGTGGCTCCTGGGTCCCTCCTGACCATGTAACCTTTGCGCCAGCCAGAGAATCTGCCCTTTGC
CTTCCTCTCCAGGAAGTTGTTGAGATACATGAGTGAAAATATTATTCTTTTAAGTGCTTTGGATGTTATAAAAAATACACTGTGCCATTAATGCTCGTGC
AGGGCTCCCGGCCGGCCTAGGCCCTCTGCACTTGAGATTCCTCTGKCAGCATCTGTTTAGAASTGGGCACTCCTGGTTCTGGTCAAGTTTATCCTGACCA
GTTCATTTCATGGCAGTTCTGGTCATTTTTGAGAAAATCTAGTTTGCACTTTCATTGGGCCCCTTTGTGTTTTCTAGTTCAGATGTGGCTTCTCTAGCTT
TTTCTTGCTGCTAAATGGTCTTAAAGGTTTGAGATCAGTGTCTCAGAMTTTAGCCTGYGTCAGGATCACCTCAGGTCACGTTTTAACTGAGGGTGGGTTA
AAATGCAGATCACTGTGCCGGGCGCGGGTGGCKCATGCCTGTAATCCCAACACTTTGGGAGGCTGAGGCGGGCAGATTGCTTGAAGTCAGGAGTTAGAGA
CCAGCATGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGTAGTGGTGGCAGGCGCCTATAATCCCAGCTATTTGGGAGGTTG
AGGCAGGAGAATCCCTTGAACCCAGGAGGCAGAGGTCGCAGCGAACTGAGATCGCGCCACTGCACTCCAGCCTGGGCRGCAGAGCAAGACTCCGTCTCAG
AAAAAAAAAAAAAAAAAAAAAAAAGAAATGCAGATCACTGGGCTCCACCCCCAGAAGTTCTGATTCAGTGGGTGGCGGGTGAGGCCTGGGAACTTCATGA
CGAGCCCCCTGGCAAGGCTGCTGCTGCCATTTTGGTGCCACACTTTGGGTACTATGGCTTTGGGCACTCCCAATCCAGGTGCCATGGCATGGGGAGCAGT
GGGTGAACCAAATCCTGGAGCCTGGACTGTTCCATTGGGTGCATTYCTGGCTGGCAGATAGAGGACCACCCAGCTGTGCTTGATGGGGTCTAGAAGCATT
GAAACTGGTTTGCCGTTATGATGTCCATGAGGTTGGAGTMCTTTCTTAGTTAAAAAATCTGAAGACCCAACAACACACAGCACCCCCACGCTGAACCCTC
CCGAGAATSATTGAGCTCTTCCAAATAAAGGGCGATTTTGTAGCTTTTCAAGTTTTAACAGTTTGATAACTCCCAGGCTCCTGTTGAGATGCTTTGTGAT
GAGGTTGTGCGTTCCCCTGTATCTTTCCTGTGGGTGTTTATGTGTACAGAACACATGTATCTGTATTTACGTGACTGAGCACAGGCGATTTCCCCGAGTC
TCACCTTGGTGTGTGCCAGTGCATGCGCGTGCGCGCGCGCACRCACACACACACACACACATACCTCCTCTCAGAGAATGTTGATGTGGCAATTCATGTT
TGACAGCTGGGTTAACCCATAAATAGATCCCAAAATATAAATTTACCCAGACCTCAACCTGCTTAAGCCTTTAAATAGCTCACTAGGGCTTTTAGAATGA
AGTTGAAATTCCTTGGCCTCACCCTTAAGCCTTTTTAGAAGGAGTCATGGAGGAAGTAAAGAAATGGAAATGGAGTTGCCTCGCTGGGCTCCCAGGCCCT
TTGCCGTGGCCCTGCCTGCTCTCCAGCCTGGTCTCACCCCACCTGTGGCACCTTCGCTGTGGAGGATACCGTCAGCCAGGCTCACAGTTCCTGGCAGGCC
ACTTCCTCTGTCTGGGGCCCTGCCTGGGGGTTTGGATCACCTGAGTCCTGCCCCTTGGCAAGCCTCTTTTAACCCACCTGATGCCTTCACAACCCAGCTC
AGGAGTCCTGCTTCCCCAAGGCCATTCCGATGGCTCCTGCTGGCGATTCCAGGGCCTGCCACCTGGTGGCCTGTGCACTTTGCTGTGACGTGGGCTGCAC
GTCTCTCCCCAGCATGGGCTCAAGGTGCTCAGGAACCAAACCCCGGTGTCTCATCCAGGMCTGGACACGTGGTGAGAGCTCCATGGAGCTTAACTGCATG
AGGGAGGCGGGATGGACTCTGGCTTGTAGGGCACAGTCTGTGTAGCAACAAGGAACATACCTGGTGTTTAGATCAGATGTTCAATGACTCATGTCCCAGA
GAAGGGGCCTGCAGCCGTATTGGTCAGTTGGGGAGCTTGTATACTCAGGCCATTGAGGTTGCCATGGCCACCATTTTGGGAATCTTTTCTTTGGGAGTTG
CCATCAGAATTTAGGGCATTAAAAAAGTCCTTAAATTTAGGTAATGTTTGCCTTAAGCAGATGGTCTTTGCCTTTTAGAACTGTCAGAACTTGTTTACCC
TTCAAGCTGGGCACTGTGGTAAGTTGACTCTTTGGGTCCTTGGTTGGAAACATGAGAATCCCATTCTGGCTGACTCAAGCAGACATGGATTTTATTCGAA
GGATGTGGGGGTGGCTTTGAGCATAGAGGCGTTGGGATGGACTGAACCATGGGCCCAGGGGACAGGCACAGGCTGCCTGKGTATTTAGGGCACTGCTTGG
GTTGCCTGGAGAGTGGTTTATTGGCCCAGATTCTGCCACTTCTTGGCCAGGGGAGGCCTTTCATGGACAGCCTCATCAGAGTGGCAGCAGAGAGAAGAGC
AGGGCAGGTCCTCAAAGGAACACTGAAAAGGTTCTCTGAAAGACAGGGGCGTAGATACTGAGCTGGCAATAACAGCGCTGATCCACTGGAATGGGGAAGG
GCCTCGAGCTGTTCTGTCAACACGGAGTTGTTTGTCAGGCGTCATGGGTATCATTTTGTGCATCTGCCCTTGTTCAGTGTTTCCTTGTAATTTTGCGGAA
AAAAGTCTGCTTAGTGTTGAACCAGACATTCTGCAGCCYTTRAAAGAGAATGGAAATGGAGAGATTGTRATGTGTTCATTGGTGACTTTTGACACGGATG
CTAACCTGTAAGATRTGCAGATATATCATGTGCAAACTGTTAAGATGCTGTCAACATTTTGAATGACTTCTTGCAAATAGTAAGGAAATTAAACACGCAC
AGAGCTGGGCAAATGCTAGAGGATGGTGTTGCCTTTTGCATCTTGGTGGGAAAGAGATATTTAAGGGGGTGAGGGGAGCTCAGCAACAGCGACTTAAGGG
CCTGCTAGGAGCGGGGAGAAGTTGGTTGCTGGGGTGTGCGGCCTCTGTAGCCCAGTCCTCCGAGTATCGTGACAGGTGGCTGGGTGCCTCAGTGCTCAGG
TATGGGCTCCTGTTCCTGCCGCATGGGCTCCTCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGGCCCGCCAGTTCCCATGGACTCTCCCTCA
CCTGTGCTTCCTTCTGCTCCCCGACTTCATGGTTGGAACGTGCTGTCTTCCCATCCCTCTGGGCACGTGGCTCCTCTTTTACATGCATGCCTGGCGAATA
GTATATCCCCAGTAAATGCTTGCAGAATGAATGTCTTTCCTGAATGTTCTGCTCTGCTCCCCAGCCCCCAGAAATAAAACAGAAATGCTGTACTCCTTCC
CTGTCTCAGGCCCAGGAGCATTATTATTATTTTTTTTAAATCTCTTGTGGCACTTTTCTACTTTCTCCTCCACAGKACAGCTGCTTGTTGAGAGGCAGTA
TATGTCATGTCTAAGAAGAGTCCTCAAGTGAAGTCTGGTGCAGCTTCTTTCTAGCTGTGTGCTTTCAGGAAAGCCTTTTGAATTTGGAGCCTCTGTTTCC
TCTAGCTTTACTCCAAAGGAAACAAGTGTAAGTGCTTGGCACCTGCAGCCTGAGCGTAGTTCATGCCGCCCGTATTCCTGGCCAGCCTCCGTTCTCTGGG
ACCCGGCAGGAATGTGTTTGTCGCCTCTGGCCCTGTGCACCCTGGCTTCCCATCATACCTGGAGACCCTGGGACAAATGCCTGTGGAGTGGATGAGTGAG
TGCATGCGGGTCCACTCAGCTCCCCGGCAGGCTTCAGAATCTTCCCTGTATTCTGGAAGTAAGTGGCGTCGCTGCCCAGTTTAGGAGAGTGCCATGTGGG
ACTCTGTTCCATCAGCTGGGTTGGTGCAGTGGGACTGAACTTTCTTCTTTGGTTGCCCTCTGCAAACAGCCATGCAGATGTTATTGATGGGCAGTTGCAG
GTAGAAGCATTTTTGGCCCTACAGGGTAGATCTGCCAGCATGGCAGGCTGATCAGCCACGGGTGCCACGTGGCTCTGGAGGGGCTTGGCGCCTACGTTAG
TCAGCTCGGGCTGCCACGACAAAATACCACAGACTGGGAGGCCCAAACGTRTTTTCTCACAGTTCTGGAGGTTGAGAGTCCATGATCAAGGCACTGGCAG
GTTTGGCTTCTTCCCATTCTGTGCCTCACCTGGTCTTTTCCGTGTGTGTGGTCTTCAGTGTTTTTCCGTTSTCAGGAGGACACCAGTCTTGTTGGATGAG
GGTCCCACCCTTAAGCTGCCATATTACCATGATTGCCTCCTTAAAGACCTTATCTCCAGCGACAGTCACCWTGGGGTGTGAGCCTCTGCAGAGGAATTTG
GGGGATACTGCGCAGTCCGTACAGCATCCCTCCCTCCCTGGTGGTTTCTGAGGATTTGTCACTGATGTAGTAGCATCACGAGTGTTTCGTCACTTAACCC
AGAGCAGGGCTTTGACGACATAGCTGTGCCCAACGTAGATCTTTATGGTAATTTTATTTTAATTGAGGTCGCAGGGACTAATTTTTACTGGAAAGAAGTA
GCAGCCATGAGGCAGGAGATCCTCTTTACTTTGTAAAAAAATGTAAAAGAACTTGTTTAGATCAAAGTCATGTTTTTAAAATATAAACTAGATTATGAAA
AAAATTAAAACTTGATTTAAAAAGAAGCCTGGGCCAGATGCAGTGGCTCACACCTGTAATCCCAGCACTCTGGGAGGCCGAGGCAGACAGATCACTTGAG
GTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTTTCTACTAAAAATACAAAAATTAGTCAGACATGGTGGCGTGTGCCTGTAACCCCAG
CTACACGGGAGGCTGAGGCAGGAGAATCTCTTGAACCCGGGAAGTGTTGGAGTGAGCCAAGATTGTGCCTCTGCACTCCAGCCTGGGTGACAGAGTGAGA
CTCCGTTTCAAAAAAAAAAAAAAAGAAAGAAAAAAAAAAGGTAGAACTCGTAGTTGCCATTGAGGTCTGAGTCCCGGCTTGCCTCAGTTGGGGTTCTTGC
CCCCATTTGCAGGTGAGAGGTGGAAGCTCAGGCAGGCCCAGCCTCCGAAGGTGCAGCGCAGGGACCCTAACCTGAGAGCTGGAAATGCTTTCTTAGAGAA
AGTGCATAAGGGCTGTGCCCATCTCTCCTTTGCCCGAAGACGACTGTTCTGCTGCATTGGTTTCACTGTGTTGTTTCTGTAACTCTGGTGTTTAATCCAC
GTGAAGACAGTGGAGCTGTTTACACTGTTTGATTGATTGGATGCTTATCAGGAATCTCAAAACCCAGCTTTGGGCAACCAGATGCCTTTGACTTCTCTTT
CTCCTCCACTGACAGTGATCTCTGAATGCTTTTATAAAGGTTTTTCATAAAGAATATAAAAAGTGACAGAAATAAAATTGGCAATCAACCAAATTCCTTA
CCTCTCAAATTGCCTCTTCTGAGACTTTTTGTGATGATGCGTGTGCCCCACCCTGCAATTGGTTTCATAGAAATTCCTTGGATTTCCTCTGTTTCTGACA
AAGAGCCAGGGCGGAAGCTGCAGGTCACTGGGTGCCAGCTGTTTCCCACCGTCAGCCTTGGGAGGGGCACGGAGCTTTGCAAATGTCTCTTCAGCTGGTG
TTTTCTGCCATAGGACAAAGAGAAAGGAGAGTGACATGGTGTTTTGAATATTTTAGTAAGAAAACAGTCTCCACCTGCACACAAACAAAAAAAATTAATG
CTTGGATATAACTTTTTTAATCCTCAAAGTAATAATAACTTTCTATCTCATAAGCCAGAGGGATGGTGGCATAGCTAACAGCAGCTGCATGTCCTCAGGT
TAAACTTCACATCTTGACTGGCAGGCTTGCCTCGCGGGTGCACTTCGTGAATGCCCGCTGCTCCTGCAGCGGAAGAGTCTCCTGTCCTTGGGCCTCAGTG
GCAGGGGCAGCAACAGGAGGCTGCGGCCAGTTGGCTTCACACTGTTTGGGAACAGCAGAAGGGTCAGAGCAGACCTCAACATTATCTGAAACGAGTACTA
TTCACAACAGCAATTTGCAGGTTATGTGACAAGAATCATATCATTTGGTGTGTGTGTATGTGTTTATTTATGAGACAGGGTCTCACTCTGTTGCCCAGGG
TGGAGTACAGTGCCRCAATCGTAGCTCACCATAACCTCAAACTCCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCCCAGGTAGCTAGGACTACAGGCGC
ACACCACCACACCTGGCTAATTCTTTATTATTTTTGTAGAGACAGGCAGGGTCTTGCTGTGTTGCCCAGGCTGGTCTTGAATGCCTCAAGTGATCCTCCC
ACTATGGCCTCCCGAGTTGCTGGGGTTACAGTCATGAGCCACCGCACATGGCCCTAGTTTATATTTATTAATTGGTTTAATCCTCCCAGGAATTTGAAGA
TATAATTCCTGATATATAGGTGTCAGAATTTGAGACTAAGAGTATTGAGTGATAATTCATTTCTCACCTCTCTGGAAGAAGGTGTAATAAGCATAGAAAA
TACAGAATTTTCTATATACTSATATAACACATATTTTCTTGTGTGTATGTGTATATGTGTTGTGTGTGCATAGTGAACAAAGGCAGAAGAAACATTTAGG
CTTGAATTTTTTGAGCTAAGTATTATTTTCTAGAGCTTACCAAAAAATCCAAACACACATATATGTATGTAGAATAAGCGTAATGATCTCCTGTGTACCC
TCAACCAGCTTCAGTAATTAGTTCATCCTGTATATACCCTGCCACCTACCAATATTATTATTATCATTATTTATTTTTTTGAGACGGAGTCTTGCTCTTG
TGGCCCAGGCTCGAGTGCAATGGCATGATCTCAGTTCACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGA
TTACAGGTGCCCACCACCACACCTGGCTAATTTTTTTGTATTTTTAATAGGGATGGGGTTTCACCATGTCCAGGCTGGTTTCGAACTACTGACCTCAGGT
GATTCGCCTGCCTCGGCCTCCCAATGTGCTGGGATTATAGGCATGAGCCACCAGGCCCGGCCTCAATATTATTTTGAAGTGAATTCCAGACACCCTGCCA
TTTCATCCGTAAATACTTCAGTATCTATCTCTAAAAGATGAAAACTTAAAGCACACATGACCACATTACCACACTTTAGAAAATGAACAGTTCCTTAATA
TGGTCAAATATCCAGTCTGTGCCCACATTTCCAGTTGTCTCATGATTACCATAACTTTTCCCTTCAGTTTGCCTGTTGGAATCAGGATCAAATACTGTGT
GCAYGTTGCAGTTGGTGGAGACTTCTTCTGAAACTCCTCCAATGAGTAGGTTCCATGACCGTCTTTCTCTCCTTCCCGGGGCCTGTGTTTGTTTCGAATG
CCTCCCCTTGGAGTCAGTYAGCGTGCTCCTTTGTCTCCTGTATTTTCCTATAAATTAGTGGGTGTTTGGAGGCTTGTTTAGGTTTTTAGCTTTTGTTTGG
TTTGGTTGGACTCCTTTCTGGGCGGGTCTGTGTGGTTCATCAGGAGGATCCCACCTTCTATTTGTCCTTTTGCCCACGTTAGCAGTCGGGACCAGTTAGC
TCGTCAGAGGTTGCAAAATGATGATTTTATAATTCTCTCATTATTTTTTTTGCTGTTATTTGTTTAAGATGAGATAATTCTATGAAGAGTACCTTTCGGG
TCATGTAGGAAAGGCAAGATAACCCTCTTTATTTACTAATCGTAAAAATAACAAGTTTTGGTTTAGTAGACTCCGTTTAAAATTGACTAATTAGTTTTAG
ATCATTGTGAACTCTCTGGATTAAATGTACATGGTGCATTGCGGTGRAAGCTGTTAYGGATGCTCCAGTGATCCCATCTTCTGCGTGTGGAAGCATTTCA
GGAAGCCTTCTGTGTTCTCTTGACATGACATTGACCACTTCCTGGATTTCTGATGTCACAGGAAAGATAAAGATGGACAGATGCCCCAGGCTCATGTGGT
ACATTGGTCATCTCTCTAGCAGTCACGGTTCTCAGGGACACGAACATAATTCCTCATTTGCTTTGGGCTTCCCCATACAATTCTCAGAAGACAGCTCCAG
CAGAGCTTCCAACAGTGTGACCACCAGAACGAGTTCAACGTGCTGCAAATTGCTTTTCCTCTTTAGGGTGTATCTCACTTTCGGTGATAAACTCCAGTTA
TTGTGTTTTAAATCACATGGAATTGGTCTTCTCTGTGACTCTTCTATCCTGGTGGAGGTGTACTTAGATACATTTCTTTATTTTCAATTTTTAGGGAAAT
AGTTATATAACTAGTTAACATATTTGTGTGGAACCAATGTCACATCATCAAAATAAATTCTAAGAGTCCTGGCTTTGATTCTTAAAGATAAATTCAAAGA
CTCTCTCTGTCACTTTTTCACCTTGTCGTCTTCTCTTCACCTATAACTATTTTTTAATAAGTATTGTTTATACTTGTCTCTTTTAAATATAAGCAAATAC
ATGCGAATGGGTACTTATATAACCTCCTGCTTGGATACAGGTAGCTTCCCATGCACTGTTTTTCGTTTGCCTTTTTAACTTAGGAACATGTTCTGGAAAC
CACTCCATAGTGTGGGCTCCAGAACAGGCCTCATTGTGAAACTGTTCCCAATTTATTAACAGGTCTCTTATTAATAGACGTTGGGATCGATCCAGTTTCT
TGTTTTTGTTTGTTTTATGTATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGCTATTGAAAAATAGTGCTGTATAGTCTACGTCTA
TCTTTTTCTTATTTCTTGTCAATGTATTTTTGGGATAGATGCCTAGAAAGGAGGATTGCTAAGTCAAAAGGGTAATGTGCATGTAGTTTCGCTAAAGGTT
GCCAAATTCCCATCCATAATAAGTGTGCCACCAGCAATATACGTGAGTGCCTCTTTCCCAACAGGGTGTTGTCAAACTATTGGATGTTTGCCAGAGAGGC
ACAGCTTGGTTTTTGAATACATCGGATGTAATCAGGATGTGCAGTCTTTTTGGTTCCTAGAGGCTGACTGGGCTCTGAGAAGCATAGAACATTTCCTCAA
GAGGCTTAGAGTCTGTTTAGGGGTGATGAGGCTTCCTGGCAGTTCCTTAAACGTCAGTAAACATTGTTCGTGTGCCCGACCTGGTCCAGGCTCTGTTAGA
AGCTGGAGCTGTGGACAGGGAGTCCAGATGGACTGGTGAGAATGTCACATCGGTTGAGGATTTGAATAGGCCACTGGTTTTGGTAAAAAGGTGGTAAGGA
GTGGGCACATTGGACTTAGACCTCCTGGGCTTCTGTCTGTACCAGCTCTGAGGTACCTCTCCTCCGTAAGACGCTCAGCCTCTCTGTATCTGTGGGGTCT
TGATAATACCAATCTCATGGTTCATAGGAGGCGTGATGGTGGTGATGGTGGAAGTGAGGAAGGAGAGGACGCAAGAGAATGGGAGACACCCTGGAGAAGC
CAAGCTGGGGAGGGAAGGAAGACGGCTCATGAGGAAGGCCAGGTTTTTGGTTGGGAGAGACTTGAGCTTGATGAGTGTTTGGACAATACTGGCCCTGATG
AGGSAGCGATTGCAGGGACGGGGTGATGCCGATGAAGAGGCTGGCCACAAGGCAGAGGGGAGGCTGAAAGTTGTGTGAAGATGGCTGAGTGGGAAAGACA
AGCAAGATGGGAGTAAGGGAGGATGTCTTGGCCTTTGTGCCTGAGCCTGTTTTCTCTGCAAGGCTGGAAAGCTGACCTTTATGGTGATATCTGTTTGGTA
CTGTTAGAGCGATTTGTCCTGCATTTCTGGGCAACCTGTGGGCAGAAGAGGAGAAGGATAGATCCTTCTGATATCTCCTGGGTTTGGCAGTTGGCATGGT
GGATGTCATGTGGGTGACATGCCACCAGGATGTCTTAGCTGGGGCTACTGTAGCAAAACACCTAAGACTGAGTGGCTTCAACAATAGTCGTTTATGTCTC
GCAGTTCTGGCGGTTGGGAGTCCAAGATGAGGGAGCCAGTGAGGGCAGGCTCCGGTGAGGGCTCTCTTCCTGGCTTACACACGGCTGCCTTCTCGCTGTG
GCCTCTCATGGTGGAGAGAGAGAGAGAAAGGCTGSTCTCTTCCTCTTCCTGTAAGGACACTGATCCCATCATGCTCCTCACGGCCATGACCTCATCTAAA
CCTGATCACCTCCCAGAGGCCCCACTTCCTCATGACATCACAGTGGGGTTTAGGGCTTCAGCATACAGATTCAGGGGGACACATGCATTCAGCCCATAAC
AGGGTGAGGGTGCAGTTCTTCAGCTGGAGCCCCAGGAGGCTCTTGGGGAGAAAATGTTTCCTTCCCTGTGGGGATCTAGGCTTTGCTCACCTGTGCTGCA
TGGTGATTGTTGTGAATTTTGAAAGGGACTGCTTCCCATCGGTGCCTGAGTCAAGGCCTAGGACTTGAYGGATGGTGCCTGGCAGGGTCAGCTGCTTGGT
GCAGGTTCCTGTGCCCATGTCATGGTACGTGCTGTCCGCTAAGCTCCCTCCCAGCCCTTAGTGGTCCTCACTGTGAAAAGCTGATTTTGAGTAAGGCTTT
ATCCCACCCAGGGATGAAATGGCAGGTGTTACCAGTCAGGGAGTGGGGTGGAAATGGGTGTCTGCAGGGGAGGCTGCACAGACATGGCGGGGGGTGGTGG
CCAGTGGTCAGGTGGCCTTGGGTCGAAAGGCCGACTGACCACCGTGTGACCTGGCCAGGGTGTGGGATTGCATCTGCTTCCCTGCCCTTCCAGTGGGAGT
GACCCTGCTTGGACGTAGCAGGGGGACGGTGGTCTTGGATTGAATGGCTCACTCACCACCCTGTGACCTGACCAGGGTATGGGATTGCAGCGTGCCTCCT
CATCCCTCCAGTAGGGATGACCCTGCACGGATGAGGCCGGGGGCGGTGGCCTTGGGTTGAATGGCCCACTCACCACCCTGTGACCTGGCCAGGGTGTGGG
ATTGTGCCCGGCTTCCCCATCCTTCCAGTGGGGATGAYGACAGGCATTTGCTGAGTTCCATGGGACTGTGGAAAGGGCTGTGTCACTRTAGACGCTCCAT
CGGAAATGCTGATGTGTATTCTTACCACGGGCGTCCGTGGGCCACCATTGTCTCCTGGCATCTGGCTGTCCTTGGAACCCAGCAACACCCAGGGACTTGG
GCTGTGATCAGAAGTCCTGCCCAGAGCGAGTAGGGTCACGCCAGAGTGAGGCTGGGGACAGCATGGTCCACTGTGGCCCAGATGTAACTTTTAGTCCTGC
CTTCTTATCCGGTTTGGCAGGAACAGGACAGGGTGGTTAGCAGGCCACAGTGTGGTGGGAGTGAAAGTGTACTGTCCTGTGTGATATTTTTGCACAGCCT
GACAGTGGGGGCAAGTTTAGAGCCTTTGAGCTGAGAATCTGGAGAGAGCAGTGGATGCGATGGGCAGTTGCTTGTCCTTGCTGTGAGAAGACAGGCCACG
GGGCTGCACCCAGCCCCCATGGGTAAGTATAACCCCCACCCCACTACTGCCCGCCCACCATGCCTTCCCCACATGGATGAGTTGCTCCCTCCTATAAAGT
AGGAAAACATGCTTACCGCTGGAGAGGATGCCTAACAACAGCTCCTGCTGCCCAGCGAGGAAGGGACCCYGTGTCCAAGAGAAAACCTGATGGCAGGTAA
CACATCACCCCTCTCTTTTAGGGACCTCATCCCTTTCTTTTAGGGAACTCATTGGCTTGTCTTGGACCCAAACATAATTAGTGGGGGTAGGGGTGAGGAG
AGAAACTCTTCAGTGAACAGATGTCTTCTTGGGCCGATTGTTGGATATTGCTCACCAGCTAGTTATTAAATTCTAGAAAAACTAATTCTTTGTGCAGATT
CTARGTAAAATGTCTCTGTTGCAAAATAGGATTTTTCAATTAAGAAAAGCTTTAAAATATATCATGTGTTCCTCCTTAGTCTGCAGAATCTGAATGTCAC
CTTAAAATGTCAGGGTTAAATTTCTTACGGTTAGTACATGAGGCAGGCGTGAAATTTACAACAGAAAATTGAGATTGATTACTTTCATTTACTTTCTCTT
TTTTGGGGCAGTAACTGTTTAATGTTAAATTTGTATTGTATGTCGGTGCCTCTTTTGAAACTGGAGATATTGATATGATCTTAAGCAAATGTCTCCAATA
CGAGAAAAAGAGGACTGATTTATAAAGTGGAGGACTGAYACATAATGTGGAGGACTGATACATAATGTGGAGGACTGATACATAATGTGGAGGACTGATA
CATAATGTGGAGGACTGATTTATAAAGTAGAGGACTGACACATAATGTGGAGGACTGATTTATAAAGTAGAGGACTGATTTATAAAGTAGAGGACTGACA
CATAATGTGGAGGACTGATTTATAAAGTAGAGGACTGATGCATAATGTGGAGGACTGATACATAATGTGGAGGACTGATACATAATGTGGAGGACTGATA
CATAATGTGGAGGACTGATTTATAAAGTAGAGGACTGATTTATAAAGTAGAGGACTGACACATAATGTGGAGGACTGATTTATAAAGTAGAGGACTGATG
CATAATGTGGAGGACTGATACATAATGTGGAGGACTGATTTATAAAGTAGAGGACTGATTTATAATGTGGAGGACTGAGAGGCAGTTGGATCTGGATGGC
TATTTTTCAAAGTCAAGGCCACTCAGCCAGATGAATCCAGAGGCATATCTAGGTTCTCTTGATTGACAGGAACCTGCAGACCAGCTGTGCTCTTGGTCCT
GTGGCCTTCCATGGGAGAGGGTATGGGAAGGGCTTTGGTGCACCACAGATGTCTTGGYCTGTCTCTTCCGATGACTTCCCTTTGCTTATAACTCACACCT
GTTTACTTGGAGACTGTGAATTAGATTTTTAGTTTTGCAGCAGGAAAATCATTTGAAATTATAGACTATCCCTCTTGAAATCTCATTACATAAAAAGATT
TAACAAGCCTCTTGTGAATAAGTTAGGGTGACAAGGAATGAATTATTTGGAGAAGTAAAAAAACCTTAAAAATTAAAAAAAGTTTTTACAAGTAATAAGA
ACTTTACAAAATTACTGTGTGTGTATTAATATCAAAGGGAGATACTGATGAGGACCTGAACAACATGGGTGATGGGTAAAAGGTCATTGCCACCCTGAGT
TTGGAAATTTGAGGTGCTCGTTGCTACTTTGGGTTCAGAATAGTTATGATTTATGATAAACCTAAAAATTAAAAGTACCACAGTTTTCTCTCAAATCGTA
TGTGGGTGGGTTGTGTCCAGAAACAAATAGGAAAGCTTCCACAGATGGAATGAAATAGTGGAACAGATATGGTGRTTTTGTTTTGGAAAGGATTTGTCTC
CAAAGTTTTGGGGTGGAGGCATTCTAGTCTTGTTTTTCTTCTGAGATGGAAACACTGGCAAACTTGGAGTCTTCTGCAAAACTGTATCAAGCAAAAGTGA
AACAGTAGTTGCTGTGTGACAAGTTAGTATTTTGTCCATGACATGYAGCAATCAGTAGAAATAGATAAAGGATGGGATATTGGAAAATCCCCTGGAGATG
AGAAAYGGTGGGTGACATCTGATGAGAGGAGGAGGATTCAGGGAGCAGAATGAAGACATTGGCCAGGCAAGCATCTCAGTGTGGAGGTGGGGCTGCTTAG
ACATTTAAATTGACCTAAATCAAGCAGTTATTAATAAGTGGGCAAAACACCRGAAAAATTGCACTCCATTCCTGTGCCTGTCAGGGCTGTTCTATTATTT
GGAAACAGACTTTACTTACTTACCTTATTGATTGAGACAGGGTCTCACTCTGTTGCTTAGGCTAGAGTGCAGTGGCACGATCATGGCTCTCTGTAGCCTC
GACCTCCTAGGTTCAGGTGATMCCCCCACCATAGCCTCCTGAATAGCTGGGACTACAGGTGTGCACCATCATGCCTGGCCAATTTTTATTTTATTTTATT
TTTTGCGTTTTTTTGTAGAGACGAGGTCTCGCTCTGTTGTCAGGCTGGTTTTGAACTCTTTTGCCCAAACCATCTGCCTATCTTAGCGTCCCGAAGTGCT
GGAATTACCGTAGTGAKCTGCCGCTCCTGGCCTACTTTAAACATCTATAATTTGTGTTCGTTGTAGGATTATTCACGGTAGAAACAGGGTGGAAAAAAAT
GCCCACAGCCTAGCATTTCAAGGTGCAGTGTTTTAGTTCTTGTGTCTGTCATTACAGATGTGCTTTACCTGCTCCCATTCACACCTTAGAACAGAGAGGC
TCCTGTGTATAAAGGTATCYGTAAAGCCTCATGCCCTGCATTTCACATCTAGCAAYATCATAAGTAGAGCATCTTCACCAAATTCTGTCTGTATCATCTT
GAGTACACAGATGTGTCATAACTAGCCACACTTCTTTGGACATGTAAGTYGCTTCTCAGTTTTCACTATTCTCAGCAATGCAGTGAGGATATTTTCATGA
TAACCTCATTAGGCTCTTTGTGATGTTGTCCTGGATCTGTCAAAAATTGGTCTGTCAGAAATTTGTTTTTAACAATAATAGCTATWTTGTTGCATTAACT
CCAGAAAGTTTTACCAATTTACCCTCTAAGGAGAATAGACCTCCTTCCCCATCCCCCCCACATTCAGGACTTTGCATCTGAGGGGGAACCTGGCCACGTG
GTTGGCATTCCTGAGCCATGCCAGGCTGMTGGAGCGCACAAATTCTTTCACCCCAGCAAGCCCGGCTCCATCCACCATCTGTGCACTCAGGCCCCCTCCC
CCTCCCCCGCCCCCTCCCCTCCCACTGGCGGTTTCATTTTTATTTCTTAGGCTTTATAAGGATATTGATTATGGACTTTTGGCTGATTTCAGATCTAGAA
TTACAGAGTGAGATGGAAAAATGACAGAAATGCAGGGAAAAGTCGAAGCACAGTGTGTGGGAGTTGCATATGGCGAGATGCTCGAGAGATTGTCATTTTC
CTTAAGTCAGTGAAAGATTGTCTTCTCAATAAATGATGTTTGCTCCGCTTGTTTCATATAGTAGCTGTAGGAGACCATACCTCTCCAGCCTTCTCTTGTG
TGCATTTGTATGTGGGGTTAATTTTTTGTTTGTTTTGAGAAGACGGAGTTTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGA
AACCTCCGCCTCCCGGGTTGCAAGCAATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGATTACAGTCATGTGCCACCATGCCCGGCTAATCTTGTATTTT
TAGTACAGATGGGATTTTACTGTGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCAGCTCACCTCGGCTTCCCAAAGTGCTGGGATTACATG
CATGAGCCACTGCGCCCAGCCAGTGGGGTTAATTTTTGTGATCRTTGTCTGGCTGTTGATTATTACTTGATTCTCCTGCTGTGTGTCTTCTCTCTTTCTG
AGAGCCACAAAACACCACGTCCCCTTGCCTGAGTCTCTAGCTAGCTCTGTGGCCCCTAGGCCACACCTCTGCTGCCTGGTAACTTTCCTTGCTGCGTTGT
GACAGAGCCCCTGTGGCCAGGCAAGTGTTGCCTTGGCGCTGGTCCTTTCTGTGAATATGGTGGAAAGTTGATCTCAGTCCTTCCAGGGAACTAGTCTTAC
AGTATATGCTGGAGGCTACTTTGTGCTGATGGTTGTAATAGCCACAATTTAGTGGACAGCCACTGTTGCCAAGTATCTTATGTACATTGGTGACCTCTTA
TAATAATTTACAAAATCCATGCTGTCATTGCCATTGTAAGGATTAAAGTGGCAAATAGTGAATCCAGGTTTGGTGTCCAGGGGTGCCTGATCTTAGAGCC
TGTGTGTGGGGATTGAACTGGCAGGAGGTGCAGATCTCTCAAGCAGGTGGGGTGTCTGTGGGACAGGGGACAGCTGTGCAGTCAGCATCAGACTCCAGTT
AATACAGAATGCTTGACAGCTCACGCTCCCCACATCACAAAATCCAGGACCTGGAAGGGAGCAGTGAGCACCCACATTGAGGTTATTTCATGACTGTATT
CACCTGACCCCCACTGATGACCTCCCATGTGAGGTGCACACATTTGTCTACATGTGAATCCTCAGCTCTGGACTGTTGGGAATTTTGGAAGTAGTGGCTG
GGCAGCCGAGGAAAGAAGTGAAGCTGGGTGGGCAGAAATCGAGGCCCCAGGCCCATCAGCCTGAGTGGTTGGGAGGAGAGCTTGGAGCTGGGGTTGTACG
AGAATTGGGCTGGGCAAAGGCAGTGTCCACCTTGTTGGGTGATGAGGATGGGATTCAACAACTACCTGTCCTCTGGAGATTGAAAGGTTAAAATAAGGCT
TGTTGGAGCCTTTGCCATCTGAAGCTTCTGTATGGTTTTGGGGTCAAAGTAGGTTTGGGGAGGCAAAAATGAGCCCCCAGACACTAAGAAGAGAAGGCAC
AGGACAGGCCACCATCCATCCCCTGCTGTCCCAAAACTGACAAGTCTCGTACCTCTGACAGTAAAACTCCCCGTARGACTACAAGACGTGGGTCTTGGAG
CTGCAGTTGGCCTCAAATGCAGGTTCACGAACTGACCAGAGCCAGCTGCTGCAGAGGCTGAGCTCATTCGCAGTCTTGGTGTATCTGAACTCATGATTGA
AAGATTTTGATGTACAGTCGACTTGCCATATGCCTAATGTGATATCCCGTTAGACTGTGCTTCCGCTTTAGATAGGTAGTAGTTACAAGGGCTTTCACGG
GAGCCCTTGTGCCTTAGTCCCTGTGTCCGTTTCCCATTGCAGCTGTACAAGGTTACCCCAGATGCAGTGGCTTCAAACAACACACATTTATTCTGTTATA
GTTCTGGAGGTCAGATCCTAATATCAAGGTGTTGGCAGGGCCGCGTTCCTTCTGCAGGCTCTAGGGAAGAATTTGTTTCCTTGCTTTTTCCAGCTTCTAG
AGGCTGCCCACACTCCTTGGCTCATGGCCCCTTCCTCTGTCTTCAAAACCAGCTGTGTAGCATCTTCCGATCTCTTCTTCCATTCCACTCCATCCTGACG
TCCCCTTCTCCGGCTCCTCTGCTTTCTTTTTTCATTTGATAAGGACCCTTGTGATTACGTTGGACCCATCTGGATAATCTTGAATGATTTCCCTGTCTTA
AAATCCTTGACTTAATCACAGCGACAGTGCCTCTTTATCATGTAAAGTCACAGTTGCAGGTTCTGGGGATTAGGACTTGGGCATCTTTGGGGAGGGTGGT
GTCTGCCCACCTCAGTGTCCTTCCTCTGTGTTTCTCCTGAGGGCTGACTCTTCCCTCACTGTGGGAGACCCTGCACACCTGCTGTCATTGGGGCTGAGCC
AGTCAACACCGGTTGAGGGTAGGGGGACACTGGCCAACCCAAAGGCTCTTGGCGGTCTCCACAGACTTCCACTTCAGTTTAGAAAGTACAGTGAGAAAAC
CAGTAGCTGAATAAAGATTTAGGGTATTTGGCACAGATCTGCTAATGCACGTGTCCGCAAATCTAGACTCAGCACAAGGAGTCTTAGTTTGGGATCACAA
CTGATTCTCCTGGTCCAGTGATACCTCTGGGCTCTTGTTCATTGGCTGGAGCTCTCCTTTTTGCTGGGAGGCAGTGCTTCATCTTGCAGTTCATGAGATG
ACTGGCACTTTTGCAGCCGGCCTCACACTGCTGGTTATGTGCATGGAAGAGGTCTCATCTCACTCCTTCCTATGGCTTTTCTAGCTGGGCAGACTCTGGT
TCCTGTATTCTCCCCCTCAACTGTAGTGTTGAATGTTCACTGCCCATCCTTTCTGCCCTGCTCTGTGGCTGCCTGTCCTCATCTCTGCATCGGTCTTCTC
TTTTCATGTCCTGTAGCTCATGAGTGACCCGCTCCCATGTCACCTGCCATTTTGGCCTTGAAATTTGGTAATGATTCATACATGTGTCCTCGCTTGTGCC
ATATCCAGTGGGACAAGGGAATTGGGACACCTTTGGTTCTCTGGTAGCTTTGCCTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTGTGGCACCCAGGC
TGGAGTGCAGTGGCGCGATCTCGGCTCAATGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCCGTCTCAGCCTCCCAGAGTAGCTGGGATTACAGGCG
CCTGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGGTTTCACTGTGTTGGTCAGGCTGGTCTCGAACTCCTGACCTTCGTTGATCC
ATGTGCCTTGGCCTCCCAAAATGCTGGGATTACAGACGTGAACCCCTGCACCCGGCCTAGCTTTGCTTTTAAATTGCAAGCTGGGACTCCAGCCCTGTGA
AGTGGCTGTCCGCATTAGATCGGACACCTGGCAGACACTTGTTTAAGTTTTAGAATTTTAAAAAGGAAAATACAGGAGAAAAAGTAGAGTTGATCACAAA
AAGTAGATTTTGCAGGAAATAGTTTAACTTTTAAAAAAGTTATCAATGTGTTATATGCAAATATGGAAAACTATAAAGAAGAAGAAAACAGTTGCCTATA
ATTCTTCTAGCTGGAGGTACCTGCTGTTACTCTTGGGGATGCTTTTTGTTTTTCTACCTTTGTAGCTTTTTAGTTTTTTTCTAAGACAAAGTCTCTCTCT
TGCCCAGGCTGCAGTGCAACGGTGTGATCTCAGCTCACTGCAACCTCTGCCYGCCCAGCTCAAGTGATCCTCTCACCTCCACCTCCCAAATACCTGGGAC
TGCAGGCCCACGCCATCACACCTAGCTAATTTTTGTATTTTTGTAGAGATGGGGTTTCACCCAGAATGGTGTCAGACTTGGGTTTAAGCGATCCTCCTGC
CTCGGGCTCCCAGAATGCTAGGATTACAGGTGTGAGCCACTGCACCTGCCCTACCTTTGTGTTTTACGAGGGTTGTATATGTATCACATATGCAGTGGTT
TGTCCAGCTTTTCTCCTACAGTGACATTTTTCTTTGTCCTCGCCTTTTCATAAACTGTCTTTTTAAATGTTTGCTTGATATTTAATCATGGATGTATTGA
GATGGACTCATCTCAAACTATATTAAAAACACTCTGGATGCTTTAAATAAAAAATGGCAAAAGTTAATGTTGTAAGAGAAGTGAAAAGAAAACCAAGAGC
TCCTACCTGCCTCAGCTTACCCTTTGTTTGGTGCGTGGGTGCAGTGGGCAGTGAGCCGTGCCATTCCCTCCTGGCAGCYGGTGCATGGCTGGCCATGGTC
CTTAGCAGTGACTGTGAACAGCCGTGGGCTACTTTGTTACCCACCCAGTGCTGCTTTTGTATGTTGGCAAATGGGGCTTTCGCTTTCCTTGRTTTGATTC
TGTCATTGATGCTTCAGACTAGTCATGCTTTTGTTTGAAGGGAAAAAAAAATCAATCAATCAATATCAGTAACTTGCTATAGATTTTTATAAAGGAAAAA
ACCCCACCACATGTATGGTGGGGAGTGAGTTGATGTGGAATCAGTCATGACCGCGTTGAGTTAGGAGCATCGCGGATGTGGAGTTACAGCTCTGCTGTGG
ATGTTTTTGTTTTAAGAAAACATCTTTTAAAAATCTAATAATGGTTCATTAAAAACCAGAAATGGTCAAGCTCACTAGAAACCGTCATCAGCCACATTCT
GATGAAAGAGGTTTTGACTTTCTTTTTTAAAAAATTAATGAAGATACATCCAAATATTTGTGGCAGGCAGGAAATCAAGCGGATTTTAATGGGAAATTAT
GTAAGAAAGCTTAATGACTAATTTTTCTGGATCAGACAAGTGGAGAACGGTCTTAGGGAAATGTGTACATCCATTACTCATTAGTTTGCTGTATTATAAT
TACTGTTGTATAGGAAGAAGCATGTCAGATAATTAGGAACTGGGTGGCATTTTATGCTAAGGATCAAAACAAAGATTTTGCTTGGAATGTTGAGCAAAAT
TATACTCTGGCTGAGATTAAACACATGGCAAGCATCCTACTCCAGTATTTAAAATCATCAGGCAGGCTTTATTCTATTTTTTTGGGTCTTTGTTCTTTCA
TGTTTTCCTCTAATGAAAAGGAATGCTTAGAAAATAGCACTGGGAGGCCAGCAAGAAATCAGTGTTGGGATTTTCTCATGTGTGAGGAGCTGTTACTGCT
CCTGTCGCCTGGTTTCACCCCTCGGTTCTGCTCCCAGGAGCTGGACCCCTCCCCGCTGGCCCCTCTGTGCTGCAAGCATCCATTTTGGGCTTGGGGATAA
TGGTCAAGAGAGTTGGTTGGTTTGGGCTGTGGGCTGGACAAGCGCTTGCTGCTTAAACCATGTTGATTGTGGCTTAACTGCTGAACCAAACCAATACTTC
ATCCAAAGAACTTCTCCAGGGAGGGAGTGGGCTTCAGGGGAGCCACATGGGAAGCCCCCTAACCAACATTTCTGTAGCACTTGATTGGAGCCTCCAAACA
CCGTCGCTGTCGATGCTACAGCAGTCCTGTGGGCCGCAGAAGGAGTACTCACTGTGTGTTCTCCATGCCCTTCTGTCTCTGAGAAGCAGCGTGGCGTGTT
CGGATTGTGCCCTCCTGCCGACCCCGGTGGCTCAGGCAAAGGGCTTGCCAGATGGTCGGTGTTCTTTGCCAAATGGGACCGATAGCGTGCGCATGGTGGG
GATGAGGGGAGGACTAGGGAAGTAAATACAGTGCCTGCTGCCACGTCACCTTCACACAGTCCATGTTTAATAAGAGGTCGCTGCTGTGATGATAGGGGGT
CGGCCAGACATGTCCACTGTTTAAAAAGCAGCATCCATCTGAGGACTCATTGGATTAAATGTACACCTAAAAAAAATACAGTGGCACCTGCATGCAGTGC
CCGAGGATGGGTGTGCTGTTTTACTAGATCTGGTGTTTTTTGGAGGTGCACATTTGGTAGTTCATTGTTGGGTTGGTATTTGTCTCCATAACCTGTTTCA
GCCTCAAGGTCATTTACCTTTGATCAGTGCTTSAAGCTTAGCGGTTTGTTTATATACATGTTCATGTATAAATTATATTACTCAGTCTGATCATAATATA
TGCCCAGTGCAAATCATTTCATTAAAGCCTCAGGGATACACGGTGCCACCGTTTCCTCATTCAGGGACACGRGGATAGTGGTAGTGTGTCTTCAGCACGA
CATGGGGAAATTCAAAGGCAGCCATCCGTGGAAGAGCCAACGGCAGCCCGTGCAGGCGTCAGCGCCTGGGGAATAGTAGCAGTCTACATCTTTAGCTGTC
AGGGTATCTCGTTGTAGCCTCATCCTGCCCTCTTTAGGGGTCCTTGGATGAGTTATCAGTTGYAGTATTGACATTTTCTGTAAATAGTGTCACTCAAGCG
AGTGACAGTGGGAAGCAGACACCAGCCCTTAGGGAGCAGCCCAGGATGCTTTTTTCCTCCAAATGCCTCTCACCTATTCCCAGATACTCGCTGGAGTTGG
AGCACACATGTCWGCAGATGTAAAACGACCTGCTCCCCCAGGTGAATGGATTCTCGCCAGGGCCAATACTTATCCGCAGGGGTGTGTGCCAGGCAGCCCA
GGTCAGCCTCCCTCCACCGGGCCACCCGCACCAGGTTGCCTCCCATCGTTTGCAGGAGCGGAAGACCCGATGGAGCAGGTTTCACAGTGCCCTCGCTGCT
GCCTCCCGTTTCATCTGCACGTCTCTTTCAATGCGGGCGTGCGAACTTCCAGGTAGAGCCGAGTTCAAGAAAATGAAGTACTGCATGCGACGAGCAAGTT
TATTGAAGAGGGTGTGAGGTCGCGGCGCCTGACCCTCATTATGTCAGTTACTACTAAATGAAATTAGAACTTCACTGCCCTTTTTCTTTTTCCCATCGAG
GTGCAGGAGGAATTGATCTTAGGGTAGTATTTTGGATTTAAAAAAAAAAAAACATGAAATGAAATCCGTGTCCTCTTTATCCTCCCCTCTCTCTGTTCTG
CGCGGCAGGTAGCAAGGAACGGTGGCGGGGCCAAAGGTTTCCTCAAAGACCCTGGGGGCCGGGCGGGGCTGTGCCAGGCACCCGCGTCGCGCTCCAGCTC
CAGCCCTTTAATGCTCTTTGCCATTCAAGCCACTCACTTTCATTTTCTATAGAAAAGCCTTTCTGCCGCCTTTCACAAAACTTGTATTTTCATGCCTAAT
AAGTGAGCGTGTGACATGCAGTGGGCTCAGTCTCTGCATAGCCCGGCAGGCAGCGGCTCTGCTTTCCAGAACCTTCTGGGAGTGGCAGACACACATTAGG
AGTCCACGCGCAGGTAGCCTGGCCTTTGAAGCTCTCCAGGCTCTGGCCACAGTGGCTTTCCTGCCCTCCTTGGCTGGTGGACGTAAGGCCCCTCGCCCCA
TCTGCTTCCTGCTCTCCCAGAGCCGGCCTCACCTTCGAGACTCATGCTACTAAGTTGTCTTTCAGTTCCCCTGGTGGTGCCTCCTCTAGACCCCTGAGGA
GATGGAGGGGGCTGCCTTCTTTGCGGCTTTCTCACGATTTCCTCACAGTACACACAGCAGGACCCCGGGGTTTGTGTGTGGCATCCTACACACACACACA
CACACACACACACACACACACACAGCAGGACCCCGGGGTTTGTGTGTGGCATCCTACACACACACACAGCAGGACCCTGGGGTTTGTGTGTGGCATCCTA
CACACACACACACACACACACAGCAGGACCCCGGGGTTTGTGTGTGGCATCCTACACACACACACAGCAGGACCCTGGGGTTTGTGTGTGGCATCCTACA
CACACACACACACACACACAGCAGGACCCCGGGGTTTGTGTGTGGCATCCTACACACACACACACACACACACACACACACAGCAGGACCCTGGGGTTTG
TTTGTGGCATCCTACACACACACACACACACACACACACAGAGCAGGACTCTGGGGTTTGTGTGTGGCATCCTACACACATACACATACAGCAGGACCCC
CGGGTTTGTGTGTGGCATCCTGCACACACACACATACACAGCAGGACCCCTGGGTTTGTGTGTCGCATCCTTCACACACACACACACACACACACACACA
CACACACACACACACACACACACCCCTTGCTTATGTCCTCCACCCGTCCCTGAAAACATGAGGTCTGCGAAGACGTCTTTGAGTCTGTTTGGCATCCCCA
AGTGCAGCGGTGAACCAGAGAGAGAGGGAGCATTCACTTGATTCTTCACGCGTCAGTGTTTTTAATCTCTGTGGCTGGAGGACAGTGTGTGTCACCTTTT
CTTAGTTTCCAGGGACTGCGGCTTCCTTCCACCTCTCCCTTCCCTCTGTAGTTGGACAGGCCATGGCTCCCCAGTTCTCTGCTGTGGGCAGGTGCAGGAG
CCTGACCAACTCCTCCGTGAGTCCATCTATCTGTGCGTGCATTTATTCATTCCTCCCTAGTGAGGCAGGTCCCTGATGAGCAGCTCCTCTGCGCCTGCCC
AGGTCCAGCGTTGGGCATGCAGTGGTGAACAAAACAGACTCAAACGCATCTTCACAGAGCTCATGTTTTGGTGGACAAGTGGAGGATATAAACAATAAGC
ACAATTTAGTAAAACATACGGTACCACAGCTAGCAAAGGTGGCAAGGAAAACAATGAGAGCGGGGGTGGTGTGAATGTGTGTGGGTGCAGGGGCACCTCG
GGAGCCTGGCCGGGAAGGTGGCATCCGCTGCAGGCCCAGGTGGGGAGATGGTGGGTGCTGCTTCCAGGCCCAAGGAAGAGAAAGGCAGAGGCCCTGAGGA
AGCACAGAGCTTGAGGGAGAGGGCTGGCGTCAGCTCAGGGAAGCAGGGAGGCCAGGCGGGGAGGCCAGGTGGTGTGGGGCCTCATGGAGGCTGGGGAGTC
ATGAGGATGTGGGAGGATGGGGGAGCTCTGGTTGCTCAGGCAGTGGGGAGAGGACAGCACCATGGTAACATGCACTTGTGTTCATGTCTTGGCTGCCCCA
TTGCTGGGCACGTGTAAAATAGGAGAAATCTTAAAGCTTGCAGCTCTCCATGTGAAAATGATCTGTTTGTTTCTTCTTATTACTATCAATATTAATATTG
ATCCTGTAGTGCTTTCACACTTAAATTGTTGAGTTCCMAGTCTTGTCTAATAATTATCTCAGCAATTGCGATACCATTGGCTGAGGTTCATGGAGGTTTT
CAGGCTRATGTCACTGAATGATCGGAAGGACTCACTGCTGGCAGTCACTTGTGTGTTTTGTGTTTTTTTTTCCTCTGTCTCTCGCCCTCCATTTTTCTGC
ACGGCATTAAGTCAGCCACATTTTAGATTGTGTGCTTCTGTCATCAGAATATCTGGCATGCTTTCCCCTGAATAGCAGGCTTGACATCTTTTTCTGATAT
TTTGTACCAACCGTACTAAGAGGCTTCTTGTTAGCTGTTAATTCATATTTTCTGAGGCTGCTAATATGCGTGGTAGAGCCATTACTGTTGCATGTTCAAG
ATAAAAGCCAAATCTCAGCTTATACCCTGTTCTCCCAGGATAAATTCAGAGAACCACTATGAAGTCTAATCCATACTGTGATGTTGCTGAAAAGAAAATA
GGGTTATAGGCTTATTTGGAGCCTTTCACTGTTTATGGTTGTACAAGTTGGGTGTTACTGACTTATAATGTAAAATCTGAATTTCCAGGGCAGGGACAAG
ATTCGTTTTTGGCTAAGGCATATTGTGTCTGTGGGGCTGCTGAAGGAAAAAGAGCATCTTATTTTTATGTGATTAGCATTATTCAATCACAAAATGCATT
GSATTCTACTCAGACTGTCGGAGAATATGCTTGCTCCTCTCCTAGGCTCTGGAGGAAGAACCTCAGCCACTATGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGYGCATGCTTGTACGCCTGTGCACAGAGGGTGGGAAGAGGGCTTGCACCTAAGTCCTAGGGTCCTGTTCTCTGCACAGTTCTCTG
CATAGGTTTCCGCACGCCTTGCTGTCTCCTCCTTGTTGCAGGCATGGAGCAAATTATCACCTGGTGGTAACTCCAGTCTCCGCCACGGAGACTGCTTACC
CTCTTCCTCTTTGGTTCAGGCTGAACCATCCTCACTCATCTTGTAGAGCCTCCCGTTCCCATCTCCKCATCAGAGTTTCCTACTTTCCTTGAACTTTCCT
TTTTGAGGAGATTTGAGAAGTGTGTTGTCCAAGATAGGATTTAGTATCCTGGAGCCAGGCTTGGAATTCTAGTGTGGGAAAGCTTACTTACTATTACTTT
ATTATGGCATTTTAAAAGTTTTTAAAAGTAAGTGGAAAAAGGATTTTTGAACCTGTTATTACTTTCTTATAGCATTTTAAAGCCATTTTTTTTCCTAGTG
GGAGGCAGAAGGAAAAACTCGGTCATGTTTCACTCACTCCTTTCTTAAAGGGAGAGTTTTATATTGTACCTTCTTGTTCACAGCCAGGTGGCAGCTACAT
TGCTAATTGCAAGCTTTCAGGGTGAGAAAGAGAACCCGTGCCTACCTGCCTTTTCCTGATTTGAAATGGTGATCTGCGTTGGTCTCAAGACCTTGTGCAG
CCTCGCAGAGATTGCTCTGCACACATGTGATTGCATCTAATCAGGACTTTTTCTGAAACTGCTGCCAGGAAAATGTGTGCTAGGAAGGTTACCTTCTGCA
GCTGGACTTTTATGATGCACTGGATTATCATGGCCTTAGATATACCATCAGGGCATGGAGTGGCAACAGTGCTTTGCTGTCTTGACGCATCTCAGGTAGA
GGATCTCTTAGGGAGCTTTCTGATTGAATCCCACGCCCATTTTGAGGGAAGGGAATGGGCCATGGGTCTCATCCCTGCCTAGCGCTGCCTTGTGAGGGGT
GCTGGCCTGTCACCTCCAGTTCTTGCTCCTTTTTAGGAAGCCATGCTGCCTCCTTCCTTGTTGTGCGATTATTTTTTGGGTTGTGTCTATTTTGGTATTT
TTTTCTCTTTCACCTCCTCTCCCATATTTCCCCTCTAGGGTGGGAGGAAGGAGACCCAGGTGTGAGGTGGTGCAGGTGGCTGCAGTGTCCTCAGAGATAC
TGAGCTGTGGGGTAGAGGTAGCTGGAATCTAGATCAACTCACCTCTCTTTTATCAGCCATTTGTTCTGAGAAGAGAGGCTTCGAGGAGAGACGCTTCGGT
AAGGGGTTGCTGTGGGTCCTGGGGTCACGGGTGTTAGTTCTGGGTGCCACTGGGGGACACGAGAGACAGAAAGGATAGGAATGAAAATGAAGAGCAACTA
AGGGATGTGAAGATTTCTCTTGCACTTGTTTTCGGGATAGGAAAACAAGCCCTTTTAGTCTGGGGCAAGGAAGTGTCTAGTGCCTCCACCTGGTCATCCA
CCGCGGTCCTCCTGGTCTCCGTTCAGGCCCACAGGACTCTGGACCGCCCCATCCCTCCCAGGGAACTGTCCCATGTCCTGCTCAGGAAGGTGGTGGGGAA
GGGGTAGGCAGGATGGACAGATGGACAGTGGCAGGTGGGGACACCTCCATCTCATTTTGTTCCTCTCAATCCGTTTGTTTTTTTCTCTCCCTCCCTCTCT
CCTCTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAGTCTCAGCTCACTGCAACCTCTGCCTCCTG
AGTTCAGGCAATTCTCGTGCCTCAGCTTCCCAAGTAGCTGGGATTACAGGCACACGCCACCAACGCCTGGCTAATTTTTGTATTTTTAGTCAAGACGGGG
TTTTGCCATTGTTGACCAGGCTGGTCTCAAACTCCTGATCTCAGGTGATCCAACTGCCTCGGCCTCCCAAAATGTTGGGATTACAGGCGTGAGCCATCGT
ACCCAACCTCAATCCATTTCTTTATCCTAATTGAGAGAATTTGAAAAGAAATTAATAGAATCAAAAAAGAGAAAAGGGCCTGGTTATCAGAGATGCAAAA
TAAATGATGATTTTAAAGATGCTAGAAAGCTGTGCTCCCTCCCTGGGTGCTTTCTCTTTGGAGGGGAATGCTGGAGAAAATCTCTACAAAATCTTCCCCT
TGCAGTGCTGGGAGAGAGTAATGGTGAGCAAATCCTTGTAGAATTAAAATGGGATGAAGAGACCCTTATGAAGGGAGAAAGCAGGTGAAGATGGTGGGGA
TAGGGGCGGGACRTGCASCCCCTTCACTTTCCATGCCGGGCAGTATAAAAAGTGAGAAGAAACACTTCAGGGCTGGTGTGTAAACTTCATGTTGGATAAA
TACGTGACTTCTGGTATTTTGGGGGCATGGAATCAAAAAGTTGCAGATTTGGAGGGATGTTTGCAGCCACTTTTTACCCAACATGGCTCTCTATGTGGTC
ATTCAGTTGCTTAAACAAAGTCTGGGTAGASTTACAATTTTTTTTTAATACAAGTAATATTTGCTTATAGTTTTAAAAAAGGGAGTATAACCATCAAAAG
TAACTCTAGCGAATGATTTTGGAATATTCCAGAAATTTTCTATCCTTATATAAGCTCTAAAACAGTTAAACGCAGTAGCTCTATTTAATAATCACCATTG
GGCACGTGGACTTTCATCAGTACACATAGATTTGCCTCACACAAACAAGAATGAACTTGAATGTACAGATTAAGGGATAATAAAAATGCCAGCCTGGCTG
CCATCTGGCTGAGGAGACGTTTTACAAGAACCTTTGAAGCATCTTGTGGGCCTCTTCTCCATTTACTTTGCTTCCACTCCCAACCCCCTTCCTAAATCTT
CTGTCCATTATTTCCTTTTTCCATTCTTATTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGAAGTCTCACTCTCTCGCCCAGGCTGGAGTGCAG
TGGCGCGATCTCGGCTCACTGCAAGCTCCACCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCGT
GCCCGGCTAATTTTTTGTATTATTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCCGCC
TCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGTGCCCGGCCTCCATTCTTAATTTTATCACTTAACATATTTGTATCTATATCTGAATCTCTATCTC
ATTATGTATATAATGTCCCTAAAGTATATATTGCTCAATTTTACCTGTTTCTATAAACTTTATATAGATGTAATTTACCTGTATGTGGTTCTGTGACTTG
CTTTGTTGGCTAAACATGATTTCTGGTAATGAGTCATGATAATGCACGTCGCTATAGTTCATCCATTTTCACTGCTGTATAATATTCTACTTAATGAATT
GCATGGTATGACCTCCATTGGTTCTTCTAACGGCTGCATTATTTATTTTTTTCTGCCCACACTGGATATTATCTTGACATATTAAATGGGTAAGGACCTA
AGTTGTGAATGATCAGGTTGTTCCAGGATGGAAGTTGTTATCCTTTGTGCAAACAGGGTTATTGCTCTCAAGGCTAGAACTGTTTGTGTGCTTTGTATTT
TCACTTTCATTTTTTGCAGCTGGACTTCAGAGCAAGACCTAGGAAGCAAAGTGCAGTTCAGACAGTGGGTCCCGGGGGAGGGGSCAGTTGTCAGAGAGCC
CGGAGTTAGGTGTTTGAAGCCTAGTGAGCAGAGACCCATCCTGAGCATAAGGGCCAGGGCCAGGGACTTGGCCTTGGCCTTCAGGGAGCCCGCCCTTGTG
TGGATAAGCGGGATTGAATCCTCAGATGAAAAGGAAGCAATCAATGGAGCTGTTTGCTCCTGCAGCTTCAGACAGCGCCATCTCTACCGGATCAAAAGAG
CTCATCAACTCCCAGCCTCCATCACCGAAAAAGAAAGTCTCATCTCTGTCTGATAATACCTATTCATTGTTAAAAAGGAAAAATCCCAAATCCGTACATC
CTCCTGACCCATGTGATACTGATACATACCTTTGATGTGTCCATTCAGATTAAAAATTCTTAACAAAATGATACATATTTTACATGTACAATCATTTCAA
AATATAGACTGTTCTGAGAATTGTTTGCAAATATGATCATAAAAAGTTGATTTTCTTGGAGACTTTAAAAAACTAGTTTGTTGTATTTGCTTTGTCAATC
TCTATGTAAGTAATATATGTGTATTTTTGTGCCAAGCCATTTGAGATGSCCTGCAGGCCCCATGGTGCTTCAGCCTCCAGCACTGCTCCCTGTGTTTCTC
AGACCGAGGCCCCTCCTGTAAAAGGCTCTGAATCTCGCTTTCACCTGTGTGAATTGCACCACCCAAGGGGAGGGGTCCAGTTGCATTGGGCTTTTGTCCT
TCGTTTTCCTGACCTGGGGACGGTCTCCTGGAAGCCTGACTTCCTGTTTGCTGAGGGTGGACTTTTCTTTGGGACCTGTTTGTCGAGTTGAGCCGGGAGC
CACAGTCATTCCCTCCCTGGGTATTGTGCGACCCTGCTCCCGCCTCCTCCCCCTCCCCCCCCCCCGCCCCCTGCCCCTCGTTGGGTGTTGGGTGTTGGGT
GTTGGGTGTTGGGTGTTGAGTAGCCCAGGGCTTCTCYTTCCTGGCTGGGATGCAGGCAGTAGTCATATCATCACAGTCATCAACAGCCAAAGTGACTCAG
TGTCGCCCACAGGTTCTGAGTGGGGGCTTGACTGAGCCAGGCAGCATCAGTGAGAAATGCCTAGTCGGAAGGTACCCGTTGTTCAGGATGAAGTTAGTGG
CTTCCCTGCCATTCGGTTTCCACTCCAGGAGAGAGTTGAATCAGAGCCTGGAATTCTGGCTGATGGGCTGTGTCCCCGTGTACGGGGAGAACTGCTGGTT
TCAGTCTTAACCAGGGGACGAAGGACATGGCAGAGCATCCAGAGAAGAAGCTGGGGCTCGGCCTGGTCTACCTGGCTGGGAAGAACCGTGCTGGATTGAG
CTCTGCAGCAAGGGCTGTGGCTGGCCGGGGKTGTTTCCCCGGCCTCTCCCCAGCCTGGAGCTGTGGCGCAGGTGCCTGATTACAGTGCTTGGGAGAGCAG
TGAGGGCAGGTGGGGGGTTGACCTCACTCTCCAAGGATCTGTGTTTCCTGGAGCCCTTCTTCCCTGCAGGCCTAGGAGGCTGGGCTGAAACCACCTCGGG
CCTGTGCATCTGTAGGAACAGCACRAGAGCTCCTTGGAGTGGTAGTGTCAGGGCGGTAGCCATCTGAGCTCACACTGGCCCTAGGGGCTGTACTTTGGGG
TATCCAGGGGCAACACGTGCCCTCTAAAAGCATAGACCTGTCAGGGAATCACGGGATGGTTCCAGGGTAATATCTGGTCAAGGGCTTGCGGCAGATAGGA
AGAGTTCTCTCTCTGCCGCCTGTGCCCAGGCCACTGCTGTGGCCTAGATCGGGTTGGCTCTGGCYGTGCCCCATTCCTCATGTGCTGGCTATTGAGTCAC
CCCCTGCCCCCACTTTAAACAAGCATGTTTGAATGCAGAGCGATTCGTGGTGACAGTTTCATAAGGCTAACGTTGAATATGCTCAAATGCTTAAAAGGCA
TTTCATTTGTGAATGGCAGCATGTCTTTATGRGGGGTGACAGATTGCTCAGATATGACTTTCCCTGGTTTTCAGGAGGGGTCTCTYCCTGTCCAGTGGTC
CAGGGCTGGTCAGGCGGTGTGGCAGGAACGGAGCCAGCRGACTCCCTCTTGGTAAAATTGTGCAAGAAACGCACCACCTAGGTTTGTGCCTCCTGCCGTT
GCTTACGAGGTTCTGAGTCCCGCAGGGACTGGCTTTCTTCCTCTGTAGGAGTTTCCTACCATGTAAGTTTTAGAAGGAAAGGATACTCTTTGGGGCCTCA
GCGGTCCCCTTAGGCTGAGCATCTGAACCTTCCCGTGGTCCGTGTGGCTGGAAGGAGGCTTCCATCGCTGGAAATCCATTTCTCAAGGCGAGGAGCCAGC
CGGGCCGACCACGGAGCCCCTTCCTCTATTATGCACGAAGTCATCCAGGTGTCATCCCATCAGTGGTCCACCAAGGTGGGACAGTGCAGCTTGGGCCGGG
CAGAGGTGGGGAGGCCTGCTGGGTACCCCTGCTGGATTGTAGATGGCCCCCAAAACCAATGCTGCCTCTCACAGGAAGCCCTTCGCCTGAGGCTCTCCCA
CACTGCAACTGTCAAACTCGAATTTCCAGTTGATGTAAAATCTGTCTTCCTACTGGAATGTTGACTTGAGGGGACCTTTCATCTCAGATTTCAGACTTGC
TTTGTTTCTGTTGGGTCACGTTGCTGTCTTCTCAATACTCGAGTATTCTTGGTGTGGTGGGGAAGTTTTTGAGTTAAATTTGAATAGTTTTAAAATTTAG
GTTTGAGTTTAGCAGTATTCTAACGGGGTAAGGCGTCACTTGACATACTGATAAATCTTTTACATTCTATATAGTGGAATTAGACAATTTTCTGAACCTT
CCGTCCCAACCTTCCATCCCTTACCCTGGTTCTTGCTACTTTGTTGTTTAGATCATGGTCTGTTAGCGGAAATATGACTCCATGTGGTCCATGATATGGG
CACCTTACAAGTTATTCTAAATAATGGCACTTAGGTTCAAAGGGCTTGTTAATAATAGTGCCATTGAGGAAAATCATTTGGGCCATCACCCCCTTCTCAT
GTTGAAAATAGCGTTAAGTGTTCAAGAGTGTGATCGGTGAAACACAGCTTAATTCAGCTCTACAGGTGTGAGTATTTAGCCCTGGAAAGGAAGGAATGAT
TATTGCAGGGTTAGAAGGTTCAGGAGAACAGTGCCTCCCTCCTAGTCACAGTTCTGCAGGGCTGGCGTGTGAGCCCTTACTTAGAGGTTTACTTATAGGA
AGTTTGAGACTGAGCCAGAACCTTTCTGGGTCTCTTGCACCTGCGGGGGAAGTAGTAGCAGCTGGGGTTTTCTGCTTTAGCACATTGTTAGTTTTACTCC
GACTCCGTTGCTGTTTCCCAGAGTCATTTGCTCTTTCTGAAGACACTGGCCCGTGGGCRTCACTGCCCTTAGTGGAGTTCCTTCCTGGAGGCTCTCCCTG
CAGATTCTGCCTCTGGAAATCAACACGTATTGCCCCTGTGCTCCCCCGGATTACTTGGCTGGAGTCCTCTTTCCCTCCTGTCACCTGCAGTGGCATTCTT
CTTCCAGCCTGTGGGATGTTGCTTTATGCTGGACAGAGCTGGATTCTGTCTTGGCTCTGCTGGTGCTGAAAGTTCCCCAGGCCCAGGACCACCATCCACA
CACCTCCGATATCTGGTGAAGCACCAGGCATCGTAGGCATTGCTGAGTATTTGGGYGACTGACTTCTGAGCATGAAGGCAGGGAGGGTCCCCTCTGTCTG
GATGGTACCCCACCCTTCGCCCCTAGGCACCTTGGCCAGACCCTCCTCATTCTTCAAGATTCAGCAGCCCTTGCCTTCTGTGAGGAGTGAGTTAGGTTYC
ATCTGTGCCCAGCTGTGCTGTGTGCTTTGCAAATGAACTGGAACAGTCTGTCTGTGAAGGGGATGTCAGAAATTCAAGGATGGGGGACAGCTGTCATCAA
AGCAGGCCACACCAATCTGGGCTGTTCTGCTAGAATTCAGTTGATTTCTTATTTTGTGTGACTGTTGTTCATCCGAGCCCAAGGTAGAGCTGCAGGAACC
CCATGTCTGAGTGTCCAGCAGGCCCGCAGGCCCTCGGGTGCCACCTGATGGGGCCATCCTGCCTTTTCAGGTCCTTGATTATATCCCACAAAGAGAAATA
GATGGCTTAAAAGTCTTTTTCAGAGGCAGAAGGGACAAGAAAAGTGGAAGTGTAGTCTGGAAGTAGCCAGGTTTTAAGTTAACCAGGTTACACTCTTGGT
GGTTCCTGGCGTCCTATCAAGAGAAGGAATTATGGCCCCAGAGCTGTGCCTGGGACCCGCATGTCTGTCACAGATCTCTGCTGGGAAGCCAGGCTGTGGC
CCTTCCAAGGTGAATGGTGGTTTCCATCCAGGGTTCAGGTTTCTTAGCAGCTAGTGGTGACGGTCAGGGTGTGAGTGTGGGGACGTGGCTGGCGTGGTGA
CGGGTGTGTGGGGGCATCATTGGGAGTGATGGCGATGGCTTGTCTTCTCACCRGCCGGTTTGGAGTCCAGAACCACATGAATGACCTCAGGGTGGGTCAG
AACAAGGAGCTGTCAGTCTGAGACCTCTCAGTGTGCTCTTTCTTGGCTAGCAAGTTACTTTACCTTGGTAGTCATTAGTTTCTTCTTTGACTAAATGAAA
AGGTTTTTATCTAGATGCTGCTGTGCATCTTGAAGCATGTTAAAAGAAGGTTAAGGAAAACCAGTTTGTGGAAGCTGACTGAGCAGGCGGCTCACTGGCC
GTATTCAGCTCTCCACCCGTAGGGACCTGCTGTGGCAGCCATAAAACTGTGCAGAGGTGAACCACTTCAGCAGAAAGATGCTTCCCCACAGAGATCTGGG
AGCCTTTGACTGTTGAACAGGGAAAAATTCCCCATGCTTTTAGGATCGTGGTGTAAGACCCCACTGTGGAGAGATGCTTTCTATGCTGCAACACAGACCA
GGGAGGTGACGGGCAGTGGCTTTGGGACACCATCAACTCCAAGGAGATGGCCTAGCTGCTTGAGGCCCACGTCCAGAGTTACACACTTTATTCTTCTGAT
TCTTGAAGGCTTTAAGAAATCTCTTTAGCAAGTCTCTACTTCTTTTTAAATTTTACTCTTTCCTCCTATCACCTGAATAAAACTCCAGGCAGTAATATGC
TGCTTACATTGACTTTTTTTTTTTTTTTTTTCTGAGATGGAGTCTCGCTCTGTCACCCAGACTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAACCTC
TGCCTCCCGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCAGAGTAGCTGGGATTACAGACATGCACCACCACGCCTGGCTAATTTTTGTATTTTTAGTAA
AGATGGGGTTTCACCATATTGGCCAGATTGGTCTCAAACTCCTGACCTCTGGTGATCTGCCTGCCTCGGCCTCCCAAAATACTGGGATTACAGGCACATA
CCACCACGCTCAACTAATTTTTGTATTTTAGTAGAGACGGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAATGGTCTGCCCTCCT
CAGCCTCCCACAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCGGCCATGAGTCCTTTCTACTGTGGGGTTGGTCTTATTTCCCCTTGCTCCCGTGAG
AAGCTGAATTTGCAAATGCCAGGGTGAACTTGGTAATGGAGGCAACAGGCAGATGCTTGGTGTCTGTGCGTTGAACAGAAAAGAGCCCGGTGAAATTCCA
CGMCTGTTTGTGTTTAGCACACGGTTCCTGAATTATTTCATGAGAATGCAGGTATAGCGGTGACAGCTACAATATTTGTTAGCCAAGCTGYGGACAGAGG
GTTGGCCTCAGGCTGCTGTTTCTGCCCCAGGGTCGTGAGAAATAGCTGTGTCCATTTTAAAGCAAGAAAACAAATGGCACGATTGCTCTGCTGTTCCTGT
CCTAGGGCAGAGAGCTAAGTCAAGCACTCAGTGGACTGCGTCTCGTCTCCCTTGGACTGGTAGTGACAGGGCTGCCCTGCACGCCACACTGCTCTCCTGT
TCCTGTAGTGTCGCTCATGTAAAATGCACTGCAGGCTGGTGCTGCTGAATCGGCTCACTTTCTCCCATTTCCTTCTCCTCCACTTTCAGATTTCTTTCAG
CACTCTCCAACTTACCTTCAGAAATGCAACAATGGGCCAGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGTGGGTGGATCACCTGAGGTC
AGGAGTTCGAGGCCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAGAATTAGCCAGGCGTGGTGGCATGCACCTGTAATCCTAGCTCC
TCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATTGCGCCATTGCACTCCAGCCTGGGCAAAAAGTGCGAA
ACTCCGTCTTCAAAAAAAAAAAAAAAAATGCCACGATGTATGAAGACCTGCAGCCCCTTATCTGGAATTCAAAAACCCCAAAGCACTGATTTTTGCAGCC
CACTCATTTGGCAGCAGAACCTGAGTTATCTGCTCATGTGAGAGTGCACCTTTCATTACAAAAGTACCCATGCGTTTGACTAGGGGTGCTCTGGGACGTG
GGTTAGCCAACTCAGGCCACTGCCCCRTTTTTGAACATAAAGGGTTATTGGAACACAGCCATAGCCTTTCGCTTATATTGCCTTTGGCTGTGTTTGTACC
TGGTCCTTACAGAAAAAGCATCTGTACCCCTGCTCTGGAGCGGACCTGCCCTGCTTTGCTTGCAAGGTGGTCCGAGCCTGGGTGGAAAGCACTGCAGGGC
AGCTTGTGCAGAAACTGGGACCTGCTCTCCTTGTAGAGACACAACCCCAGGGTACTTGGAGCTCATGCTAATGACTAAATCATTCAAGCCTTCTTCTTCC
TGGATTTTATACCTCCTAGTTCTTTGAGGACAGTTTGCCACGTTCAGCAGGATTTTCCAGACCTTTTATTTCTAAGGAATACAAACTAGAAGGGCCTGGT
TYCTGTAGGTGACAAAGCTGGGGGGAACGTGGAGGACAGGGATGACTGGAGAGAGCTGGCGAGTGCAGCCTGCTGGGATGCCAGCTCTCACCTGGGAAGG
TCAGCGTGCAGGGTTGCAGACTGCTTAAGCCTCCTCCTGTCAGAGGACCCCAGAGAGCTCCCCCAGCTACTTGGAGAGATGCTGTTGAGGTTGGGAGGCA
ATGCAGGGTGTTCATCAGCCAGCATGAGACCCTCGCTTCCAGCCTGTGCCTTTAGCCCAGCCTTGCTGTTCTAGATGGTGTTGGCAGCCTTTTTCACGTA
CAGAGTTGCATTGCTCSTCCGTCTTCCGCGTGCCTGTGGGCAGCTTTTGTTCCTTTGGATTACTTTTGTTTCTTTAAAACTCCTTGGCACCATCTAATTT
TTTAAAAATGAGCCTAATACTGTTCACGTTTTAGCACCTGGCAAATGTATTGATACTTTACGAGCATTCACATGCRTTTAAGAGTGCYCTTAGCAGTTCG
CGTTCTATATAGAACTGTTTACACCTCTCAGGATTCTTACTCTAACAAACAGGTATAGACAACATCCTAGTTGCATCTCACCGCGGCCTAACATCCCCGG
GAGCATGGGGATTAGTGGAGTGAGTGGGAGGACTYGCCCTGCGCAGGTGGAGGGTGATGAGAGGCTGGGGACGTTTTCGGATGACCACAGGTGTGAAGCT
GTCTTCAGTGGTGGGGGAACCACCTGGGCCTTGGGCCTTGGCTCTGGTAGTCTCACATAACTCTTTGGTGTCTGCAGCTGTATAATATGATGGATGTCCT
TGTATTGTACATTTTTAGGAAGGACGGGTAGGGTTGCTGCTTCAGAGATCAAGTGGCATGTCCACATCTGGAGTAGACCCTGAGTGGGGCAGAACCATCA
TCCTGCGTGCAGCCTGCACACTCCCAGCACCCGTGGCAGTCTYAGCAGGTGGATTATCACCGAGCACACAGGCAGCCCGAGGCACCTCCTCGTCACAGTG
TTCTCCGCAGCCCTGACTGGCGAGGAGGGCACGTCCCCACGTTCATGCCCTGTACTAGGGTCCCCTCTGGCACTCTTTCTCTGGGGCTCTGTGTTCCCTT
TGCCTTTTGAGCTCTTCATAAAATCACTGCCAGTGACTTCTCATAGCTGTTCGTCATTGGGAGTCACTGAGCATGCACACGGGCTGTCAGGTCCTGGTCC
CAGCTCTGCCTTCCTCTCCTCAAATGCCATTCACAGCAGTGTCAGTGCCTGCCCAGAGTGTGCTAGAATGCCAGTTCTTGGGCCCCACCCCACACCTGCG
ACTCCAGACTCAGAGTTGATGAGGGTCTGCAGGCGTCGGTCTGGGAGCCACAGACAGGTGTGTTTGCCGCAGAGGTGCCGAGGGCCCAGCAGGACTGTAG
CACAGGATCAGCACCATCCACACCTGAGGCGTGGGGATCTCCGGGCATGATGCGGAATGTAGTGACGATCGCAAATCCTTCCTGTGGCCAAAGAGTGAGC
TCTTTGATGCTGATGAGATAGTGTTTATTTATTTTTATCTTATTTTTTTTGAGATAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACTGTCT
CGGCTCACTACAACCTCCACCTCCTGGGTCCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGTGCACCACCACACCCAGCTAAT
TTTTGTATTTTAGTAGAAATGGGGTTTCACCATGTTGGGCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCACCCACCTCGGCCTCTGAAAGTGCTG
GGATTACAGGCGTGAGCCACCGCGCTCGGCCATAGATAGTGTTTCTTAAGAGTGAGTTTGCTTCTGAGGAAGAGAAGTGGGGGGTCGGGGGCATCCCACC
TCCCTGGCCACCTCCAGTGGTGTGAGTTGGTTGCTTGATGTCATCTGAGGTGGGGCCACCCGGGAAAGGTCTTCATGTCTCACTTGTATGCCTTCTTGGA
TCAGGATTTCCAGGCCTCTGCATCTCTTGAGTTGATTCTGAAAGGGTGAGGAGAGAGGGGCTAGACAGATTTTTTTTTTTGAGACAAGGTCTCACTCTGT
CACTCAGGTTGGAGTGCAGTGGCTTGATCATAGCTCACTGCAGCCTCAACCTCCCCAGGCTCAGGTCGTCCTCCCAGCTCAGCCTCCCAAGTAGCTGGGA
CTACAGGTGCGCAGCACCACACCTGGCTGATTTTTTTTGTAGAGACGGGTCGTCCAGTGATACTCAGATTGGTCTCTAACTCCTGGGCTCAAGGGATACA
CCTACCTCAGCCTCCCAAAGTGCTGGGATTATAGGCATCAACTACCATTGCCAGCCTGAGCTGCATGCATTCTAAGGACACTTTGTGAGACTAATTAAAA
CGTTTTTCTTTCCAAGGCACGTGGCAGGTGGGTGCTGTTTCTTTCCTGCAGGATGTTTGCTGAGCATTTGTGAGTGGAGCATCTTTAGGGAAAGCAGGAC
AAACCCTAAAAGACTTTCTCTGAATGTTACCTTTGCTCTTCACCTTGACTGGTAGATCCTGAAGGCGTAGAAAGAGGGTCCTCTGGAGAACACAAACTGA
GCGTTGCTGGGCCTCAGGAGCTTCTAGTGATGCTGGAGGCGGCCACTGCTGTCTTTCAGCTGTGAGGAGCCAGGAGGGCGATCCCAGCTTTCTCCTGGTT
AATTTTACCGTCTTYTAAAAAGGAAGTTCACAAGATTTCTTGAAAGAACTCTAGTTGGAGTTGTAGAGCTAATGTTTTTTTCTCTGGTCCCTGCCACCTG
CTGGAAGGAGCCTGCAGGGAACTGTTTGTTGTGTGCTTGGCTGTTCAGTGCCCCATAACTGGCCGCGGTACTGCCACCCGCTGGAAGGGGCCTGCAGGGA
AGTGTTTGTTGTGTGCTTGGTGTTCATTGCCCCGTAACTCTGGCCGCGGTAGTCTGGACAGGGCTTCTGAGAACCACCTGCAGTTCTGCTTATTGCTGGT
GTTGAGAAATACAGTTTCTGCAGGAAAGAGAGAGACATTGGTGCCAAGAAATCCTATCGGGGACATTTAATAACTGGAAGTAGCTTAGGAAGCCAGGTTT
GGAGTGCTGCCTTGGTGTCGTTATAATGCAAGTGGGATTTCATTATGTGTTTAAGGCTTGGCATTGTTGGAGGTCAGGAAGACCAACTAAGTCAAGTAGA
GCCATTGGCTGCTTGAGTGCAGTGCAGAGCACTGGGAAATGGACTTCCTGGGAAGTGTGGGATTTTTTCTGCTACTCCTTCATTCACACCTGGATTCAGT
TGCCCTCATGAGCTCACCCGCAATGTGTGTAGGGGGATGCTGCTCCCATTGGCCAGGCACTGGGGATGCGGCGTATGGGCAGGTGCACACACACCTGGCA
GAGGTTTGGAGCTGGGTTGTGGGTGAGGGATGCAGAGAGGCTTAACCCAGAGAATGGAGGAAAAGGAGACCAGGAGAGTTCAGAGAGGTGAAGAGTKAGG
AGAGAGCAGTGGCCAAAGTGGAGAGAGTTGAGTTTCAGAAAGCCAGCTGCAGAATGCAGTGCCTGACAGAGTGTGATGGGCCCCATCTCTCTCTGCTGAG
CCGGGTTCTGACTCTGCAGAGCATTGGAGGCCTTGTTGTGGGCTCAAGGAGTGCAGAGAGGCAGCGCCTGCCTTGGTCGTAACTTCTCACACACATACAT
CCACACATGTGCATCTGATTGTGTGTGTGACACAGTGAAGGGTATGGGGACAGCCACATCTGGGTTTCAGTTTTCAGTCAGCTCCCTAGCTGGGTGGTTC
CTCTGAGCCTCTGCTTTATTTCATCTGCAAGTAGCATTAATACTATAACTGAATATACAGTCAGCTACTCACCACTCGAAAGCCAGACTTGAGAGACAAG
GGTTGGTGGGAGAAACAGCAGGTATATTTGAAAACCAAGAAGATGGTGAACTAACATTCTCAAGTACTGTCTTAAGTCAGTACAGATTTTAGGCTTTTTA
TATTAAGGGCTGGGGGAAGAGGAGGGGGTTGAGATCAAGAGATGACCAACGACTGGACATCTGGGAGGCAGTGGGGGTCAGAGGAAGTTGGGTTTTTTTT
TGTCTTGGTCAGGTCACGATGTTCCTKTGAATTTTTAATAAAACATAGTTGTTTACATACTTCTCCTTTAATCCCACAGCTAGTTTTAAAAACTACATGA
TTGTGTTGCTAGGATTAGTTAAGAACTGATTTGAGGTCACTAGCACATGGTGAGTAGTTAGTAAACAATTGCTTCTGCTAGAATCATCATTGTCAATATT
AAGAAGGCGAGTCCACGCATCTCTCTGGCCTGTTGGCTCACATTTGGGGGTGTGGCATTTGTGCGTGAAGTGGAGCCTGGTCCCTGGTGACCCAGGTACA
GTTTACGTCTGGAGCCAGCATTTGGAAAGTTGCCTCCAGGGCCCTGGATTTGGAGGGAGCCAACTGCCAGAGTCTCAAGCAGGTGAGGGTGGGGTGCAGG
AGAGGAGCGTTCAGGGCACCTCTGAGCACATGTGACATTCGTAAGTGGCACTCCTCATGCTGAGCAACTGACGTCGTATTTCCACCCGACAATGGCTTGA
TTCACTTGATAAGTGAAAGGAACTTCCACGTAAGGATCCCGAAGCACGGTTGCCTCCGCCTCCCACCCCACCCCGTGGTGCGGCGTGTGCCAAGACCAGC
CCTCTGAGGTCAGCCCTCCTGGACCCCTTACTGGGTGGACAAAGGTTTTCTGTGTGACTCACCTCTGGCCAGAAATTTAGGGAAGCTTATTTGTAACTAA
TACCACCCAGTCACTGCAGGAGACCTGCCGAAGGGCTCTGGGGAAAGTGATCTTCAAAAATAGAAAGGTTGAGTGAAGGTAGGACTTTTGGGAGAAGCAG
AAGGAGCCTATAAGACAGCACATTAATTTGGCAGGTAATTAGGAACTCTGATCTTGAGCATCTCATTTTAATTAGCGTGGTCCAGCCTGCCTTACGGTGC
TCACGCTGAAGCAGAGAGTGGCCTGCTTAGCTGCTCCGCACCATTTATTTGGGTTTCTTATTTGGGAAGTTTGCATGTGACTGGGCCAAGTGACATTTGT
TTTGAGGTCCCTCCCAGGGCYCAGGGGTGAGCTCTTGACAACCCCAGAGTAGAGATGGGGCACCTGTGCCCGGGCATTGATTTCCTGGGAAGGAAAGAAA
ACGCCAGGCCATGCTGCTGTGTTACAGCCCTTTAATCAGAAGCCCCTGCTGCATGTGGGCCTGCTGTTCCCAGTGCCTTTCAGGAAACCACCAGAAGGGC
TCCAGCTTTAGGGAGGATGGTCCATTTACACGCCTGTGGTTGGAGGTTCCAAGTGCCTTGAAAAATGCCTTGATGCCACTYGGAGCTGTTTCTTTCTTCT
CTTTCCTTTCCCTTTTAAAATCACGGAACCATTTCTTTCTTTCTTTCTTTTTTTAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCGCA
GTCTTGGCTCACTGCCTCCCAGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCCGTGTAGCTGGGATTACAGGCGCCTGCCACCRTGYCTGACTAATTTTTG
TGTTTTTAGTGGAGACAAGGTTTCACCATGTTGGCCAGGTTGGTCTCAAACTCCTGACCTTAGGTGATTCGCCTGCCTTGGCCTCCCAAATTGCCAGGAT
TACAGGTGTGAGCCACGGTGCCTGGCCAGAATTGTTTCTTGAGTTTTTCAAACAATGCTTTCTCTCCAGCCAGTTCAATTGTAGAGGGTCCTGGAGAGGA
GGTGGAGCAGTTGCCTTCTCAGCATCGTGGGGTGGGGCTGGGATGAGGAGAGCGCGGCCGCCAGGGTCAGCCTGGATGCTCCTAGGCAGAGGCACAGGGG
TTGCTGATTCTTCTTTCCAGATGGATGTTTCTAAAGTCTTTCTTAAAGGAGCCAGAGGCTTGCCCGCCCTGCAGTGCCATCCTTCTTGCCGCTCCCACCC
ACTTCTGTGATGCACAGAACCTGCCGCCCTGCCCTGTCTCTTTGTGTTCGTTGGTCTCCATTTCTAGTGTCTGAGTAAAGGCAGTCCCCAGTCCAGTCTG
CAAAGCCTGGCCACTTGCACAGGAAGATGCTCATAGATGGCTGGTTCCTGCCAGTGACACACGTGGACCTCAAGCAGGTGGATGGGTGGAGCTCAGGGAA
YAGGCATGTGGGGCACACTCTCCAGGCACATCCAGGGCTGGACTGGGGCCGGCATGGGGGTCACTGGCTGCAAGCGAAGGCAGCTTATGTCATGTTCCCT
CTGCCACCGCCAGCTGTCCTGCAGCAGGAAGAGGTAGTCATGTTTRGAGGCCGGGCTGTGCATGAGCTATGCAGGCCTTGGGGTCTTTTCATCAGATTCC
TTTTGGCAGAATATAAGGAAGTTGGCCCAAACCACATTTTTGAACTTCTGCTTTGGCCTTGTCAGTCTCCTTCTGTGATTCAGACCGTAGTGAAGCCCTG
GTTGGCTGAAGTGCTCAGGAGAGGAGACTTTGGGGGTCATCACTCATTTCTGAGTTACAGAAGTTAAATAGTGACTTGGTTCGGGGTCATGCCATGTGTG
TGAGGCCTGAGTTTGCAGGTTTGTGCAGGGCATTGATTGGTTGGTTGGTTGATTGGCTGAGGAATATTTGGGGCACCTGCTCTGGGCCATGTACACAATG
AGGCAAAGCAATACTTAGACCTCAAAAACAAAGCGATGTAGACCTATCTGCTGTGTCCTTGTGTTTCTGCCTGTGGGGCACGTGGGACATGTGAGGGAGA
AACAGCATCCTGCAGGAGAGCAATGCCTCCAGCTTGGCTTCTGGAAGCCTCCAGAAGGATGGACGGGGGCACTGAGACCTGAAGAAGGGTTGTGCATGTG
GGAGGGAGCCAGCCTGGTGGACCGTGGCCTGCACACCTGCAGCAGCTCCTCAGAGCTGCCCCCTCATGCCTTGGCCRATCACAGAGCACCCTTTCTGTCC
AGGCCACTGATCAGCCCCCAGGTCCAGGTCCAAGAACAAGCCTGTGACCCCCTGGGTCCCCTTTGTCCTTGGCCTATACCTGCCTTCTGCATTCTGGGGC
TACCCTTTGCTCCAGTGGCTACAGAAGAGAGAGGAGGGACACTGACCCCAAGGCCCAGGCCAGTCTCGTCCAGGCTGCCCACACCTAGGTCTTCAGGATG
GGACAAGGCAGTCTTGGGGGACTTTGGGGTGACACAAACCAGAGAAGGGCTTCAGCAGAGGGCCATGAGTGCCTAACCGTTTACCTGTTTTCTGCTCTGA
CCAGGCACCTTGGGGGAGGGAAGGCATCAGGAGCCTTCTGCTGAGTTCAGTGGAAGGTGGTCTTCCTTTCCAATACTCTGGTTCCCTCTCTCCCCTATGT
GCAAGTAAATAACATGCTACTATATGTAAATTAACACAAATGAATGTAAGATAGTTATATGTGTCTACTGCCTTAGAAAGTACAGTAAGATGAATATTAA
ACTTTTCAGACTGTAAGATCGTGAATCTGAAAGTCGTTGCTTATTGTATATTTGAGAAGTGGCACTTATTTACCCTGGAGTGAATGTGTTACTGGAAGTG
TCTTGGCTAAATTCCTGACCTAAGCTTGTGTGGTCTTTTGCTCTTCATTGGCAATGTAGAAGTCAAGTTTGAACTGAGGGCTGTCTTATTTTAAATCCAG
GTTTGATCATTTTCTGAGGATATAGCGTTTAGTGCACACCTCTTTTGTGCAACTCAGGGCTTTCTGGAGGTTGGGGGGCGGATCCCGAAGGCAGACTTGG
CCTTCCCAGCTGGCGCGGGACTGGGGACTTAGGGGACTGGGTCCTGGGGTGAGCTCTGGAGCCCGTGGGTCTGGTTGTCTTGCTGACCTGGTCTGCCTCC
TGCTTGCTTCCATAGCAGAGCCTGTGGGACGTGAACCACCATTCATGATCCTGGGAGGTGAAGCCCTGGGAACTGCCACTTGGAATGAGAGGGGAAGGCT
GGAACTGAGCTGGGCTGGCCATGGGGATGCTCAGAGCCCGGCTCTTTCATGGGATCACAGTTTGTTCACCTTGGAAGCTGTTGCTCACCGCGTGTTGATT
TTATTTAAGACTGGAAAGGCTTGTCCATGTATCGCCGTTGGGAAGGGAAATCACTCCGAAGACGGTGRTGCTGGGTACAGGCTCTGGAGTCATCTTGATT
TGGTAAAAGGCATGAAGTCTGAGTTCATTCCGAAGATTCTGGCTTTTGAGAACTTATATAAAGAGAACTTATAAAAAATGGAAAATGAGAAACGATGATG
TCAGTGAACATTTATTGGCCTTTTTTTCTGTGCCAATAACTCTCAGTGCTTAACCTGAAGAAGCCCACTTAATCCTTCCAGCATCCTGTCCTAGAACTTT
CCCTGCTGTCTGGATAAGGAAACTGAGGCACAGAGGGTCGAGGAACTTGCTGTGGTACACCCAGACAGCCTGACCCCAGAGTGGGCACTTCAGGTCCCGC
TCCATGGCCGTGTGCACCTTCATGGTACGTGCTGGGGTTGTGCCTTATGAAAACAACGGACTTGGCTACATTTCGACAAGGGGAAGTTAGACACTTTAGA
TTCACAGTTAACTGTTGATGCTTAAATGACATTTGAGGAACCTATTGGTGCTTTCTTGAGCCCTGCGCCATGTGAGTGAGGTTTTGTGGTCCTGGACAGG
TGAGCTCCCCTCCAGAGGCTGCCTGTTTGTAAAATAATAGGTTTAGATGAACAAAGTGGTCTTTAGAGGCAGATACACCTGGGGCAGAGTCCATCTGTGA
GTGGGAAGAGTACCAGGCACGGGCTGTGGAGAAGCGGGATGGCGAGTAGGAGGCTGGCGGCCTTCCCTGTGTGGAAGGGGCCTTGCTGTGTGCCTGGCCC
CGCAGGGTATGCAGTACACACGCACATTTATGGGGATTACTCGGTTCCGCATGGGCTGTGTGTAGAGGTGGGTGGGATGCTCAGTGGAGATGGACCAGGC
TCTCCTCCTTGAGTACTGTCACCTCTTCCTTTTCTATTCTGTCACCTCCTTCTCATCACCTCTGTTGTCTGTCCCTGACAGGCTTCTGTGCTTTGGAGAC
CTCTGTGTGTCTTTCTTGGTTTTGGTTTCCCTGTCTCCCAGCATCTCTGGGAGATATGTGTATGATTGATTCCAAGAATAAAGTGTGACCAGGAAAACCA
TGTTTTGAAATCTGACCTCTCAAGCCCTTGAAAATACTCAGAGCTTTTCCAGAATGTTCTCATGTCTCCATCCACTTCCTTTCCCTTTCTGCTTTAACCC
CGCTACCCTCCAGTCGTAGCCTTCAGGAGAAATAAAAAGACCCCAGAGAGGCCAGCCTACTTTCCCCCACACTGAGTTCCAGGAAGCTGAGTCTGGTTTT
CCCATAGGAACAATGTTATGGGATGGGGACTGCATTCCTCACAAAGGACTCTGCCTCGAAATGTGCGATTAGAAAGATGCACCCGCTTTCAGCCGCAGCA
ACTTACAATAATGCCGTTATGCCCTCAGCCATAAACACATTGTGCAAATTGATTTCTTGAGGAGCCCCAAGGTACTGTGGGTAGAAGGAGAGCACATACA
CATGTGAGTGCTGTGAAATCATTACCATAGCCTCAGACATGTCTGTTCTTAATAAGGAAAAAAAAAGTTCATTACACGTCATTGAAGATTTTTTTTTTTA
GATAGGGTCTCGCTGTGTGTCCTAGGCCGGAGTACGGTGGTGTGATCTCTGCTCACTGCAGCCTTCGCCTCCCAGGCTCAAGAAATTCTCCCACCTCAGC
CTCCTAGGTAGCTGAGACTACAGGCATGCGCCACTACACCCGACTAATATTTTGTATTCGTGTGTGTGTAGGTGGGGTCTTGCCATGTTGCCCAGGCTGG
TCTTGAACTCCTGGGCTTAAGTGATCCTCGCACCTCAGCTTCCCAAAGTGCTGGGATTATAGGCCTGAGCTGCCACCACAGTTGGCTTGAAGATTTTTTA
GAAACTTGCCAGCTTAGTCTTTATAAAAATACGATGAAGGGGTGATTTGGGTGTCCCAAGACTGTTTGGAAGGTTGTTCTGACAAGCAAGTGCTGATGTT
TTGTACTTGATCGGCTTCTCTGTGGCAAGCCAGAGGCGTCTGTGATGAGCGCCTGCAGACGCTGGTGGGTGCTTGCCGTGTGCCAGTGATTGATTGACGT
TAGTGTCGGTATCTCTCATTGCGAACATTCTTCTCTAAGGTTGAAAATCAGTTTTTCATTATGTAAATAATGTGTACTCAGTGTAGAAAAAATTAGCACA
GGAAATAGAAAGCTAAAGGATATCCCTCATGATCCCTCATCCAGATCCCCAGACGTGACCACTGTTATGTGGTTATATGTTACGTTATAGCCTCCCAGAA
ATTTTCTATACCCCTGAAATTTAACATTTTGGTGGGTATGATGTGGTATCTCAACTGTGGTTTTGATTTGCATTTCCCTGGTGACTAATGGTGTTGACCT
TTTTTTTTTTAAATATGCTTATCTTAAAGCATATTTATATATTTGTATATCTTAGGAGAAATACCTATTCAAATCTTTTGACTGTTTTTAAATTGAGTCT
TTTTATTGTTGAGTGGTTGGAGTTATTTATGGATTCTGGATACTAGACACTTATTAGATATATGATTTGCAAATATATTCTTTTTTTCTGTGGTTTGTCC
ATTAATGTTCTTGATATTCTTTGAGGTACTAAAGCTTTTAATTTTAATGAAATCTAATTTACCTGTTTTTTCTTTGATTATTTGGACTTTGGTGTCATAT
TTAAGAAATCGCTGCCTAATCCAAGGTCATGAGGATATACTCCTTGTGTTTTCTTCTAAGAGTTTTCTGATGGTTTCTTTTACGTTTAGGTCTTTGATTT
TGAGTTACTTTCTGTATATGGTGTAAGATGGGRTAATTGTCAATTTTTTAAAAGGAAAATGAAATTCTATTAATATTGTTGTACAAGTTGGTTTTCCCCT
CCACGGCATGTTTGGCTGTCTTCATATCAGCATGCTTAGATCATTTGATTGATTTTCTCTTCTTTCTTTCTCTCTTTCTGCTTCCTTTCCCTTCCCGTCT
CCATCCCTCCCTCCTCACCTCCCCATGCCTCCCTCCATCCCTTCCCCTACTGTGGTAGACAGAAAAATGGCCCCGAGATGCCTGTCCCCTAATCCCCAGA
ACTTGCGATGATGTTACCTCACATGGCAAAAGGGACTTTACGGATGTGATTAAGAACTTTGAGATGGATGATCTTGTGGGCTCAAGGTAATTATGAGAGT
ACTTAAAAGTAGAAGAGGGAAGTGAAAGAGGAGAGTCGGGGACTGTGGAAGGAGGGCGAGAGAGTTGCAGCACTGTTGGCTTTGATGATGGAGGGAGGCT
ACCAGCCAAAGAATGTGGATGGCATCTAAAATTTCGGAAAAGATGAGGAAACTTGGAGCCTCCTGAAGGGCATACAGCCCTGCTGACACCTAAGCCTGGT
GAGACCCACATTGGACTTGTGACCCTCAGAACTGTCAGACAGTGAAATCACGTCGTTCTAAACCAGTCAGCTGAGTGGTCACGGCGGCAGTAGATGAGTG
CACCTCCCCTTTCCAACCTTCTAAACCTCAGGTGTTGCCTTCTCCACTAGGCCAAGCGATGCTCCAGGAAACCTCAGGTCACAGCCAGATGCTCCACCCT
CCATCAGTTTCTCATGTGTCCTTGAAAAGTCATAAAAAATGTTGACCAGAATGTCAGCACAGACAGTAGAGGTGGGAGTGTTTCTTTGGAGTGGGTGCCG
CTGCCTGGTTGTTTGGGCCATGCACAGAAGGCTTGTGGCAGGAGCCTAGGGTGTCCATTTAGCCTTCTCTGTTGTGTTGGCTTCCATAGGGTCACTGCCT
CCTCGCCTGTGCTCTCTATGTGAACACAGAGTTTCTGCTTCACTGTGGGATGAGGAGGCTTCAGTGAATTGTCCACAGACCTAGTCGCTGTTTCCAATGT
TATTTCCTTAGGGAAGAGTATCTCCAATTTTAAACTGCCCACAAACAAATGACGTTTAGGAAACCTTGTAGGTCAGGAGCTGCTGGGGTCTGCGGGTAAG
AACAGGAGGGCTTCCTAAGCTCTTCCACTGATTTAGGGGGCGAGGTTGGGAGGGGTTTCCTGACATGGTAGAATTTTTCTTTATTCCTACTCGTTGGTTC
AGGTGTGTAATTATTAACAGTTACACCCTTTATCTCCTGCTTCCTCTGGCTGCTGACTTGGAGGGATGCTGGGAGAAGGGGAGGGCTGAAGAGTTGGGGA
TGGGTGTGCCTGGCTTCCTTCTAAGGTTTAGGGCTGACCCTGGACAGTCCCAGCCCCAGGCAAGTGTTCTTGAGGCTTATTGCTGTCTGCCTAGCTGGGG
AGGATGTTGAGAGGATTACTTAGCTAATTCAGTATTTGGAAAAAGTATCTGTAAACTTAAATAGAGGCCCATTACATACCTTTTGTGGATTAGAACTGTA
ATTGACTTAGTGTTTAAGGCAGAAACTAAGGCCTTTGATTTAAAAACTGTTGACAGATCGGAGCCTAAGCCGCTTCTGTTTGCAGAGGAGAGCCATGACT
TCCAGTCAAGTTGAAACATAGCTTTCTTTATACCCTTCCCAGTTGGACTTCTGTCATATTTTACAAAATTCAAGGCTTTTMATTTAACTTAGATTTATGG
CTTTTCCATGGACTATCTTGAGGTTTTTCTCCAAAGCAAACCAGCTCATACCTTGACATTGTCAAAATAGCAAAAACACACATCTTAACAAATGATGGCA
AAATATTTGAGCTGAGAGATTGGGGTATGTGTAGTGTTACACCTTTGCATGTAAAAGATTATGTCAAGCAATCTTCTAAAGGAAATCAGTTTTTAGTTAA
CTTTTAAGGCTATTCACCATGATTTAAAGTGATTCCTTGATTCCTCTGTTACATTAAGTGTGATTGAAACTGTACMTTTATTTTCTCATGCCTTGATAAG
CAGTGTAGTCAAATCATAACATATTATGACTGCAATCAAGTGATTATAGCACGTGATTATACTTTTTGTCTCTGTGGCGTGAGGAGTGGAAAGGTGTCTT
TTTTTGCACCACTTGGCACTAACGGTGGGGAGAGATGGTTCCCCGAAGCCCCCTCCCTCTTGTGTGTTTTGGGGCAGAGCGCCCTGTTCCTGAATAGCAC
GGATTGCACGTGTTTCTGAGCATGGTGTGTGAGACTGCTTTCCCTTCCTGCAGTCAACTCGCCARGGTGCCTCCCCAGCCCCAGCAGTCCGGCTTCTCTC
CTTTCCGCTGCCCCATGCTTTCTGGTGGCCTGGCAGACTCAGGACTATCTCTGAGTCCTTCACAAAACCCTCCTCCACATGCCTTCTTTTGTGAAAACCC
TCAGTCCTCTTTAAGAGCAGGGCCCCTGGAGCCAGACAGCTCTGGTTCAGTCCTGGCTCCGGTCCTCTGCAGCTGGGTGACCCTGGGCAAGTCACCATGG
CTCTGTGTTTTTCATCTTTAAAATGGGGATGCTGGCTGGTGTCGCGGCTCATGCCTGTAATCTCAGAATTTTGGGAGACTGAGGTGGGAGGATTGATTGA
GCCCAGGAGGTTAAGACCAGCCTGGACAACATGGGGAGATCCCCATCTCTTTTAAAAAATACAAAAAAATTAGCCCGGCCGGTGGTGTGCGCCTGTAGTC
CCAGCTACTCCGGAGGCTGAGGCAGGAGAATCCTTTGAGCCCAGGAAGTCAAGGTTGCAGTGAGCCGCTGCACACCAGCCTGGGGCAACAGAACAAGACC
CTATCTCAAAAAATAATTAAAATAAAATAAAATAAGTACAGTCGCTTTGCCCTGGGGCTGCTGTGGGGAGTCTGCAAACAGGACCTGCCTTGTGCTGAAT
GCAGCATCTCTGTTGTACTTGGGAGGTGTGCAGCCCCAGCATCTCATGCCTCGCACCCTCCGAGCTGCCTGGCCTTGGCTGTGCCCCCCTGCCCTGGCCC
ACTCGGCGTCCCCAGCACTTCATTTCTTTCCGTCCTGCCCCCCTTTGCTGTGTCTGGTCCTTTTATCACTGCTCTTGTGTCTGCCTCTGTGCCCTCCTGT
CCTGGCCACGGCTTGAGATCACACTGCCGTGCCTCTTGCCCAGGTGACCCCCTGAGAAGCTACCTGAGCTCTGCTAATCAGCCCCACTTTCCTCTGCCCA
GGCAGAAACTAAGATGCCTCGGCTCCTTCTGTGGAGGAAAGTAATGTGTTAATTGGATCCAGGGTCCTCAGCACACACTGGGCTATTTTTACAGTCAGAC
AGGAAGTTGTCGTTTTATAACTTTATCCTGTGTAAATTATAGCCCGGGCGGGGGGTGGGGGGACTTGGATTGTTAAGAAAGTGATCATCCTGTTCTTGGA
TAGGGTGATTTTGGCTGTCTGGGTAAGTTCTAGGAATTTGCTGTATTCTCTTGATTCTAATGAACTTTGCTATGGCTTGGGAAGGGGCCTCTGCATGGAG
AGAGAGAAGGAAGCTAGCGTTTCTTGAGGGTCTGGTATATGCTAGGCACTGTGCTGGCTGCTGAATTGGACTGTTTGATTTAATCCTTGTCACAACCCCT
TTGAAGTGGTCTTGTTACCCTCTTTTACAAATGGGGACATTGTGGCTCCAGCAGGTTAAGAAGCTTGCTCCAGGTTACATGGCTATCAGTGGGAAGCTGG
GTGGGGGGTGTGGACAGGTCTGTGATTCCCAGACCCATCCTCAGATGCCTCCTGGAGCCTCTTTGTGGGAGAGTGCATGTGTCATGGCGAGTATGTGGCT
CTGCGATTGGAGGAAATGTCACCGGACCAGTCAATAGGTCTTCCTCTTTACAATTAGCTTTTGTCAATGTACGTTTTTTCTTTAGTCCACACAACCTTTT
AAAATTTATTTATGATCGTAGCCCTGGCCTTTATCCATCGAATCCTAAAGTGATCTGGCTGCTCATGACCAGGGGTGACAGCCAGGATGCTTTTCTTGGA
CCAAGAAACCTGGCTTAAATGACAGCCTTGAGCCTTGCTTTGGAGCAGTCAGACTCTCTGGGGATACTGTTACTATTACTGAGCATTATTTGCTGCAGAA
ATTGATTCCTTCTGCCGTACAGTAGGCCAGGGAGGCCTCCAGGTGCCTTCGGTGGGGGAAGGATTTTAGTTGCTCAGGCCAAATAACCGAGACTAGCTCC
CTGCAAATTCCATGGAGCCATCTATACTTCTGAGTATATCTTCAAGTGCTACTCCTAAATTTAAGGTTCTTCCACTTTTCATCCAGTTCACATGTAGTTG
AGGGCCTGCCTGCCTTGAGCCTGACACAGGGCCAGTTGTGAGCCTGGACCAGCACCCACAGCCAGGTGTGAGCCTGGACCACCACCCAGGGCCAGGTGTG
AGCCTGGACCACCACCCAGGGCCAGGTGTGAGCCTGGACCACCACCCAGGGTCAGGTGTGAGCCTGGACCACCACCCAGGGCCAGGTGTGAGCCTGGACC
AGCACCCAGGGCCAGGTGTGAGCCTGGACCAGCACCCACGGCCAGGTGTGAGCCTGGACCAGCACCCACGGCCAGGTGTGAGCCTGGACCAGCACCCACG
GCCAGGTGTGAGCCTGGACCACCACCCAGGGCCAGGTGTGAGCCTGGACCAGCACCCAGAGCCAAGGTATGAGCCTGAACCACCACTCACGGCCAGCTGT
GGGTCTAGACCACCACCCATGGCCAGGTGTGAGCCAGGATCATCCTCCCAGGGCCAGGTGTAAGCCAGGGTCATCCTCACAGGGTCATGTGTGAGCCTGG
ACCACCACCCAGGGCCAGGTGTGAGCCTGGACCACCACCCACGGTCAGCTGTGAATTTGAACCACCACCCATGGCCAGGTGTGAGCCTGGACCAGCACTC
ACAGCCAGGTGTGAGCCTGGACCACCACCCACGGCCAGGTGTGAGCCAGGAGCATCCTCCCAGGGCCAGGTGTGAGCCAGGAGCATCCTCCCAGGGCCAG
GTGTGAGCCAGGAGCATCTTCGCAGGGCCAGGTATGAGCCAGGAGCAGCCTGGCATTGGCCCCATGCCACATGACACTCTTTGTCCCTTGTCAGCATTTT
AAACCAAGGTGAAGAGGTCCCACTTAGCTTTGTGGTATCTGTTTTATAGGAATGAAGGGGGTACTTTAACAAGTTCATCTTAGGGTTCTCATCTGCATTG
TTGCCTGTGCAGTTACACCACTCATGCCTACCCAGCATAATTAACAGTGTGACCTACGAAAGGTGGGGCGGGGCTCACAGGAACTAACCAGGGATTCCTG
TGTGTGAATGTTATTATGAAGGTGCTTTACCTCATTAGTTATTTGTGATGAAAATACTCTTAAAAGACCTGCTATAAAGTGTCAATACCAAAAGCTTCTC
ATGTCATTGACATTAAAAGACTTTTTGTATTTTTTTTGAGACAGGGTCGGCTCTGTCACCCGGGGTGGAGTGTAGTGGCATGATTTCTGCTCACTGCAAC
CTCTGCCTCCCAGGCTCAAACCACTCTCCCACCTCAGCCGCCTGAGTAGTTGGAACTACAGGTGCACGCCACCACGCCAGGCTCATTTTTTATTTTGATA
GAGACAGGGTTTTACCATGTTGCCCAGGCTGGTGGGCAATTTGTCCACCTCAATCTCCCAAGATATTAAGAAACTGTTAAAGAATGTTTTGCCACTAAAC
TATTGTTTTACAACATTTCATTATGAAAAATTTCATACAGAAAAGTGGAAATAATTTTATAGTGAGTACTTGTACACTGATTGCCAAGATTCTGTAAACA
ATATTTCCCTCTGCTTGTGTCATCTTTCATTTGTCCATTCCTYGATTTATTATTATTATTATTATTTGAGGTGGAGTTTCACTCTGTCGCCCAGGCTAGA
GTGCAGTGGCGCAACCTCGGCTCACTGCAACCTCTGCCTCCCGGATTCAAGTGATTCTGCTCCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGC
CACCACGCCTGGCTAATTTTGTATTTTTAGTACAGACGGAGTTTCTCCATGTTTGTCAGGCTGGTCTCGAACTGCCTTGGCCTCCTAAAGTGTTGGGATT
ACAGATATAAGCCATCACGCCCGGCCTTGTATTATTTTTCAATGCATTGCAAAGTCAACGGCAGACTGAAGGACTGCCGCATGCATAGCTGCTATTATTA
ACTCGAGATCAATATTGATTTACTGTTTTGTTTTTTTATTTCCAGATAAGCATTCATAAACAGTGAAAAGCACAAATCATCAGTGCGCCGTACGTTTTGG
CCAGCACTTTATTTTATGGAACAGAGGACTAGATGACCAGTGCTGTGAGTGGGCAGGTCTGTCTCCTGCCTCTCTTATTTATGTTGTATGCCTGACACCT
TCCTCATGCCGCAGGACCAGCCGGGACCGGGGAGAGGCTGTTCGAGGAACACAGGATGCATATTCAGGCAGGAAGTTGTTGGGGTTAACATGAGTGGACC
CTAGATTTCCCTGCCTGAAGGGGGCCCCGTGTTAGTTTCCTGTRGCTGCYGTAACAGCCACAAACTAGGTGGCTTAAAACAACAGAACATCATTCTTTTA
CAGTTCTGGAGGCCTGAAGCCCAGGATCAAGGTGTGCCCAGAGCTGTGCTCCCTCCAGAGGATAGAGCAGGATTCCTCCTAGCCTTTTCCGGCCTCTGGT
GGCCCCTGGCAATCCTTGGTGTCCCATCCAGCTGCATCACTCCAGTCTCTGCTTCTGTTATCACGTGCCCTCTTCCCGGCATGTGTCTTCTGGGTGGGTG
TGAATTTTGGGAGGACACTATTCACCCCAGTACAAGCTTGAGCCTGGTTGCGGGGACTGTGTGGACCTCTCCCACAGGTCTGTCCCCCTAAAGGGAGCAC
ACTGGCAGTGTGCCCACCCCCAGGCCAGCGGGCAGCCCTTGGCAGAGGGTGTGCCTAGAGCTTGGATGTGCGGGTCGGATGTCTTTGCCTCTCTTCTTTC
CTGTCCTGGTTTCAGCTGGAAGGATGTTCAGATATGAGAATGGGAAAAGGCGGAGCGGTGTTTGTTCATGAGAGAGGACTGCTCTGCCCTCAGCTGGCCC
ATGGCCTTCCCTTCCAGAGCCCCAAAGGGCCCTGCCCTCAGCTGGGAGATGGGCCCTGGGCGTCATTTAGCTTGAGCACCTGCCTGGTCATCCTCTGCAA
GCCCCAGTCACTGTCCCTGGGAGAGGTTCTACAGCTCCCTACCCACACCTGCAGCCTTGCTTCTCCCCGTGTCTGTTCTTGCGCTGTCCATCTGTATGGG
AGCTGTCTTTTCATGGGTCTCAGGTCTGTGCCAGTATGCAGCTGGGGAGCTGTGAACCCAGGTGTGTTTTCAACCTGCTTCCCAGCCGGTCGCATACTGT
GGGACTGGTGGACTATTTAGAGGTCTAGGGAGTGGTGGGGAGAAGGGGCTGCAGGGGAAGAGCATCTGATGGTGGTGGCCAGGAGGAACGTGGCACTGGG
GGGTGGGCAGGGTGGGAATTGTCCACTGTGGGGGGCGGCTGAGGAAGCCAAGGGGTCTGGGCCTGTAGGGGAAGTGGGAGAGGAGAGAGGAAAGGACAAA
GATGAAGGTGGAAAGRGGGAAGGTGACAGTGGCCTCTCAATATGCGGAGGGGCTTGAAAACAGGAGGGCTGTGCACTAGAGGATGCACTGGCGCAGAACT
GAGACATTTCTGGAAGGTGGCTTTGGAGCCAGCATCCTTGCTGGTATGTAAGAAATGCCAGGTATATGCCCTCTGGGAGGTTGTGTGGGCTGGGTGACAC
TGCCAGTTCCCTTCAGTCTCTGGGGCTCTGACTCAGTGGGGATTCCCACACTGACCTCGTGATGTCTCTAGTGCCCTCAGGGACCCTGGACAGCATCCTG
AGCTGCAGCCTCCATGAAAGGAGGCCCCTGAAGGTGGCAGGTTGTCAGATCGAGGCCCACATGGAGGTCATTCCTTACTGGGCTTGGTGATGCCCCGCCA
GCTAACTTGAGGGCAAAGGCGTGCTTGCAGGTTGATGAGCAGCTCTGTGGGATCCGAGCTGCTGCTGTTCGTGGGCTGCCTGCTGTGGGCCAGGCACTTT
GCGGAGCATGGACGCCCGTTCTCTTACTCTGTTGATGCAACAACCTGTTGAACCAGAGTTTTTCTCCGTTTTATGGAGAAAGAAACTGAAGCTCCTTGAT
GAAGTGAAGCCATGTCCTAAAGCCGCTAGCACTTAGCATGTGGCGGGCACCTGGCATGCATGCGTGGGATGGACATGGACTCGTGGCAGAACCGAGACCC
AGATGGCAGGAAGGAGAAGCTGTGTATGTGTTGGAGGAGGATGTGGATCGCTGCTGGCTCAGTGCCGGTTGTAAAAGGAAGCAATTGCAGTTATTTCTTG
CTGCTGCTGTAACAGATTACAACATACTTAGTGGTGAAAAACAGCACACGTCATTCTCTTTGAGGTCAGAAGTCCTTAAATGCATCCACAAAGCTGTGTT
CTTTCTAGAGGGTGCAGGGAGAATCCATTTCCTTCCCTTTTCTAGCATCCAGAAGCCACCTGCAGTCCTTGGCTTGTGGGCCCATCCTTCATCCTGAAAG
GCAGCAGCGGATGGAGCATCTTCTGACCTCTCACCTCTGCTCTATCATCATGTTGTCCCCTAGCTTTACTGCTTTTTCTTAGAAGCCTGTGATTACATTG
AACCCACCTGGATAGTTCAAGACACCCTCACCTCAATGCCATTAATTTAATCACAYCAGCAAAGTTCCTTTTGCCATATAAGGATATGGCAGCGTATTCA
TAGGTTCTGGGTGTTGGGACATGGACATTTTGGGGGACCCATGATTCAGTTTCCCTCACGTTGTCAGAGACCATCCTGGCCAACATGGCGGAAACCCGTC
TCTATTAAAAGTATAAAAATTAGCTGGGTGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGC
GGAGGTTGTAGTGACCCAAGATCACGCCATTGCACTCCAGCCTGGGCGACAGAGCGAGACACCATCTCAAAAAAAAGGATCTTGGAGGAAGTACATGACC
CCGAGTGGGTGCCTCTCCTGGCCAGGTGTCCCCTTGTGTATGTTATCCTTGAATCTTCCTAGCAGCCTTCCAAAGTAGGCTTCGGGATTCAGTTTTACAG
ATAGGGAAACTTAGGCACAGAGAGACTTTTGGTGGCTCTATAGGCAGTAAAGGGCAAAATGGAAAGCAAACCTGGCCTCTTGTACCTCTGAGCCCCGAAT
TYTGCCCTCTGCCCATGTGAGCATGGTCTGTGAGCAAACCTTCCTGTGGATAGGTTTGGAGGATTCGAAGGACATCCCTGGAGGGGCTGTGCCCAGGTAG
GGTGTGTTCACTGTGCCCCTGTGTGAGGGTTTGTAGTCTTACACCTTTGCCAAACCCTTTCTGGGTTTTGCCCCTCACAGGAGATGCAGGTCTTTCTRTG
GAACCTGTAGGTTCTGAGACCGAGCCTTGGGTAGTTTTTATTTCTTAGGCTCTCTGGAGTTCTCCCAAATCCCCATTGCCAATCAGTAGCTGAAAGTGGA
TGCTATTGTTTTTCCGATTGCTGGTCTCTTTACTTGTTTAGTGAAAACAGCAAAAATTTAGAATGTTTATAGAATTGAACACGAAAACCAGAGTTGTATA
TCTAAGGAAAACATGGTGTGACTGGCCCGGGATCCAAATTATTTGCAGCGCCTGTCGTCTTTGTTRACTCTTCTCAGTTCTCTTTTTCTTTCCTTCTCTC
TGYTTCTTTCAGTTTTGGTTTTTCTTTTTGAAGACGGAATCAAAGGGAAATTATTTTCATTTTCTTCACAGGGAGTTCCCAGGCTTCCCCCTAGCCTTTG
CTTTACTTGCTGTGCCCAGTTCCATGAGAAGGAGTTGTTACATTTCTTCTTCCTAAAGCAGTGATCGGTGCTTCTGCCCTGGTGGAGAAGGCTTGAGCAG
TCCCCGGCTAGYGGCTGTTGCCACCTACAAGCCCCYGCCTCCATTAGGAAGCCATTTATTTATGGGGCCTAGGTAGGGGCAGGAGGTTCCTTTCAAGAAA
ACAACAGATTGCTTAATGCTGGTCTCCCTCTTGCTGGCCAAAAGGAATGTTAAAGCCAGATCATTATCTTGTTATAATGTGTGAGAGAGTCCTGCTTAAA
AAGAGGACAAAGACTTATCACACAAATATGCTTGGGTCCCTTTTAATGTGGGAAGCACATTCCATGTAAAGGCAGCCTCCCGTTCCTGTCTTTCTTTGCA
GAGACTTTCAGAAGAAGCAGGTGCCCTCATCGAGCATTCCTTTGATCACTTGCTAGGTGTGTTTGGTGGTGGTTTCAGTGCTGCTCTTTGGCCTCGGCAT
TAGAGACTAGTTTTTTAAAATTAAGTTTCTCTGGGTGTCCCAAGATTCTTTTAAATCCAAAGACCATTTAGGTTCCAGCTTCCTTGAGCCTCGGTTTCTT
CCTCTATGAAGTGGAGATAATGGCAAACATCTGAAAACATTTTATCAGGATTTGGTGTGACACTACGTGTAGGTGATTAGGCCGGTGCCTGGCAAGTACT
GCTGCTCGAGGAATCTCAGGTATCTGCATTCAACTGTTCTCACACGGCTATAAAGGAATACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAACTG
GCTCACAGTTCTGCAGGCTGTACAGGAAGCGTGGCACCATTTGCTCAGCTTCAGGGTGGCCTCAGGGAACTTACAATCATGGCGGAAGGCAAAGGGGAAG
CCCACGTTTCACATGGTTGGAGTAGGAGTAAGAGAGGGGTTGCAGGGGGCTGTGCCACACACTTGTAAACAACCAAATCTCGTGAGAACTCCTTATCACA
GGAACAGCACCAAGGGGACGGTGCTCAGCCRTTCATGAAGGATCCACCCCATGATCCAGTCACCTCCCACCAGGCCCCACCTCCAACACTGGGGGTTACC
GTTCGACATGAGGTTTGGGATGGGGACAAGGATTCACACCATATCAGTGTCTTATGCATAGTAAAACATTTTATGAATGATTGTCTCTATGTGCTGTAGC
TGTATATCCTCCAGTATGGTAGCCACAGGCCACTTGTGGCTAAATTTAAGTGAAATGAAAGATTCAGTTCCTTGGGCACACTAGCCACGTTTTCCAGGCC
TGACAGCCATGTGCTGCTGATGGCTGCCTTATTGGACCACACAGATAGTGAAAGGTTTCTGTCACGGCTGAGAGGTTCTGTTGGCCAGTGCTTGTTCAGC
TAAGGTTAAAATATTAACCACCTACACTTCCTTTGTATCTAAACCCATTTCCTTGGTTCTTTTCCAATACTTATTTCCTGGGTAGCCCTTTGTGTTACAG
GGAAATTGTGAATTTTCATATTAAAGGCAACTCACCTGGGATATGGCTTGCTGAAAGGGAAGAGGCAGACGCTGTAGTATATAGTCAGTGCTCAATGAAG
GGAAAGGGGCTTCACTTCCCCAACAGAGTGGCCCTCCAAAAGGGTCTCACTTTGTAGCCCAGGCTGGTCTCAAACTCCTAGGCTCAAATGGTCCTCCAAT
CTTGGCCTCCCAAAGTGCTGGGACTACAGGCGTTTGCCACCACATCCAGCTGCTGCTCCATCTTTAAAGTTGTCTTGCCCACACTTTGTGTGTGTGTGTG
TGTGTGTGTGTGTATACATATATATGTATACACACACACACACACACACACACACACTTTTTTTTTTTTTTTTTGAAGCAGCTCGTCTTTATTGAAACTT
CTTAAAACATCCAACCTGATTTTCAAAGCTCACAGCTCTGCTCCTGGCTTTGGGGGCTTAGCCTCTAATTTGGGTCTGAACTTTATTGAGCTTTGCTTGG
CAAATGCAATGAAGAAAGTGTTACCAGGTGGCATTACTGAGAGCCCTTGAGGGTGGGGGGAGATTGCGTGCCGTGCCCTGTGTGTGTGTCAGCTGACTCT
TGACCCCCGCTTGCAGCTCAGCATGGCTGTGTGACTTAGGACTTTCTAGATGCACATAATTTCAGGAGTGGTATTTGAGTGCATTTGGCACCAGGCATGG
GGTGGCTGAGCCCCATCAGTGGCACCTCACTGTTGCTGTGCACTGGTGGGGTAGTTCTTCAGGCAGTGGGGGTGATATCCATCAGCAGGTTCCACCACTG
GGCACCACCACCCTTCCCCCGCAGGTGCTCCTCTGTCCTCTAGATGTCCTGCCTCCTGCGTCCTTTGCACCATACCCCACAGGTCCTGCCACCCCTGCTC
ATCATCTCTCTTGCTGTTTTCATCTCTGAAGTCCCTCCTATAGGGGCTTCCTGCCCACTTCTCTGCACCTGGGCTTCTGCCCCAGCTAAAATCTCACCTC
TCCAGAAAATAGTGGCCAACTTCCCCATCACCTTGGCTAGAAGTCACCCCTCCATTTGGAATGCCACAGCAGCTGCCCTTAGAGTCTTCCTGCTCTGGCA
GGCCGTTGTGTGCATCACACTGACTTCAGCCCCACAAAGGAGGACCTACTGTGTGCTCAGCGTGTGCCCAGCTCTGAGTGAGGCTACACATGTGAACAGG
ACCAGCTCGGCTGCGGGAGCTCCTGGTGTTGGGGGCAGGCAAGCAGACATTCTGCCTGAGACTCCTTTTAGAACGTGAATGAGAAGCAGCACGAGAGTTG
CTGTCAGACTCCCCGATTGCTCCATCTTTTTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCT
TCTTCTTCTTCTTCTTTCTTCTTTCTTCTTTCTTCTTTCTTCTTTCTTCTTCTTCTTCCTTTTTTTTTTTTTTAAAGATAGAATCTCACTCTGTTACCCA
GGCTGCATTGCAGTGGCACAGACAGCTCCCTGCACCCTGGATCTCCTGGGCTCAAGTGCTCCTAGAGTAGCTGGGCCACAGGCATGTACCACCATGCCTG
GTTACTTTTTTACTTCTTTGTAGAGACAGGGTTTTACTTTGTTGCCTAGGCTGGTCTCAAATTCTTGGGCTGAAGTGATCCTTAGCCCCTCAAAGTGCTG
GGATTACAGGTGTGTGTCCCTGCACCCGGCTGCTGCTCCATCTTTAAAATTGTCTTACCCACACGTACTTACATTTTTTGTTTTTTAAAGCAGCTTGTTT
CATTGAGACTTACCAAAACATTCAACTTAATTTTCATAGGAAAAAGTCCTCTTATTTAAATTCTTATTTAGTCAGTGTGTATAATGTTTAATCAAATGAT
GTCATTATAGTTACTATTATTAAAACTCCCATTTCATCGATTTGTGTGATATTTAAGTGATGTGATAATAGTTAGAAGGAAGCGTATGGAAGAAAGTGTG
GCAACAACACTGCTGACACTGGAGGACAGAATTCTGGTCTCTGCAAACGGCATGAGTGCGCCCCATGAGTGCGCCCCATCACCAGCAGGTGGGCTTGGCA
GGTGTGCCCCGGCTCATCTGGAGAGTCAGGTCAGGGGTGGCTGGTCAGGATAGCTGTTACCACATGGAATGTGCATTCCTAAATCCAAATGCTTGCCTCA
CCCCAGTGCTGAGCCTGGCCAGCTGAGAGGCTGGAGACCCCGTGTATTCATGGCTGGGGCTGGCTCCTGGCAGAGCCTCCCAGCGGGTTGGCATTCTGTT
CAGCTTTCCCCTGCTGTCGCACAACCTTTTTATTGACCCCTCCCTTCCTGTGTTGGCCAGGAGCCCACTGGCTTCACCAGACCCTGACTGTTAGCTGGTC
AGGGAGGCAGGGCCTGGGTGCCTTGGGGCCTGTCCTATCTGAGGTCCACAGCCTGCAGGGACATCACCTAAAAGTTGTCATCAGCTTCATTAGCAGCACT
CAGGCCCAGCTGGGCATTCAGCTGTGACTGCATTCTGGCACCTGAAGCATCTGGGCCTGGACGGACTCTTTCAGGTTGTTTGGATAATCATCCTAAAAAC
GCCTCTGAGATCCACCCCCACTCCTGCCATCAGGCATTAAAATCTTCCGAACAGAAAAGCTGAAAATGTTCCCTTACCTTAAGGGAAAGGCCTCAATGGA
TTGATTTAATTGTATGTGTGAAGCATTTTTTCTTCTTTGCTAAATGCATAAACTGTATAACGAAATGTAATTAGTGAAGGTGCATTATCTGATAAAGTAA
ATCTCAGCCACTGGGAAGAGCCCTTTTTGGCAGTGTAGTTTCTCTTTTAATAGCTGTGATCAGATTATACCTTTAAATCTCTTTAAACACTTCCCACCAC
TGAAGTCTTTGGTTTCCTTGATTTGATAGTTTTTACCAGGCTGTTCAAAAAGTCAAGCAGTGTTCTTTTAGGTCCTTTTTGGTTCTGTGCGACAGTTAAT
GAATAGTCATGTGCATTTGACCCCTAAAAGGAAGGTCTTTTGCTTTTTAAAGAGACTGTATTAAGAGGAATAATGGACCAAGTACACCAGGAGGGAATGA
ACGAGAAAAATAAAAGAAAGAAAATCACACAAGACCAAATAACTAATTTTGAATATTTTCTGAGACCTTTGGTTTAGAATCTAAACTTTGTTGAGGCTGG
GCGCAGTGGAGCACGCGTGTAATTCTAGCACTTAGGGAGGCCGAGGCAAATGGATCACTTGAGCTCAGGAGTTCGACACCAGCCTAGGCAACATGGCAAA
GCCCTGACTCTTCCAAACATACAAAAATCAGCGAGGCATGGAGGCAGACACCTATGGTCCCAGGTACATGGGAGGCTGAGGTGGGATGATCGCTGGAGCT
TGGGAAGTTGAGGGTGCAGTGAGCCACGATYGTACCACTGCACTCCAGCCTGGGTGACAGAGTGAGATCCTGTCTCGAAAAAACAAAAACAACAAACCAA
AAAAAAGGTGACATTGAGAATAAAGAGATGGTGGTTGGATTTGTGGCTATTTTTCCAGCTGCTCAATAGTTGTACAAAATGTAGCTTGATATGATGAGTG
TTTCCAAAATTCCTAAATTACATGTCRTGTTTGTTGATTATTTGTATATGTTTTAATGTGTATTAAAAAGACACCAAAGGTGTGAGTTCATAAATATTAA
TACTTAGGATAAACTTAAGATTTGAAAGAATTTAAAGTTGAAGAGAGTTGAAGTAGGTGATAGTTTAGGTGGTCTTTGAATGTGGCAGAAGCCACAAAGG
TGGTGCATGAAGTTTGGGAAAAGCTGAGCCGAGGAAACTGGAAGGCTTTCTCCTTTAAGGACCAGTGTGATTCTAGGCTGTTGAATGATATCTTCAGATA
CCCGTTTGTCCTGTTGCTCTGCCTCCTCCGTGAGCTGTGCTCACGGGTGGCCAGGTGTTTGACACTAGTATCCAGAGACAAACTCAGACATGCGCCCTGG
GCTCTACTCCTGGAACCTGGGAGAAAGGGCTGCCGTAGGGAAAGGTGTGAACGCACAGGTTTGCATGCCTAAAATTATAACACTTTTTTATTGCAAAGGT
TCTTTTCAGCTTTTTTCTTTTCAAGTAAATGGAGATGTGTCTTTCTTCTGTTTCTGKTGTCCTTTTTCTTTCCGTAAAATAACCACCTCTTTACTGAGAT
TGGGGAGGGAAGTCTGTCTCCATTGAATTGTCTGCTGTCGACATCAGATAAGACATTCCCTTCTGTTCTGTTTTCAAAAGAAGATGATGTGAAAAAAAAG
TGGCATTTTTATGAGACGTGTTGTCCCCTCACATAACTTCTTGGATACCTTTCCCTTGTCCTAGGGACCTAAGCCTCTCTGGGTGTCACTGTCCGTGCAC
AGCCTGTGATAAGCCGCTGTGTGGCAGAGACCAACTGTGGGTGATTTGTCGCTCCCCAGAGCCCGGTTGCAACAGGAGGAGCCACCAGGCTGGGAGGGCA
CCAGGCAGGAGGCTGGGTCCATACCTGGCGCAACCCTGGGCCTCAGGTTCCCCAGTGGCAAAGGTAGGATAGGGGCTTTGGTCGCCTCTGTGCTATGAGT
CTTTGTCCAGTTTGTCAGTCACCATATTCRTTTTACTCTCCAGTCTTTTCTATAAAAGTGTTTGGGGGCCAGAAGTTGTTAACCTGGTTCACTAGAAGCT
AATGCATTGATTATTTTTGTGTGTGTTGTACTCAGCACGTGCTTCTCAGTGCGCTGTGTCCTCATTTGCTGTTTCCCCTGAAGTTTGACGAGTATGGTAT
ATTCTGGTCACCAGGCAGGTGGTGCTTGGGKAATATCTCCTCTCCGTGTGCTGGAAGCATTGCCTGATTTTAATGAGGTGACTCACTGCAGCTGGTTTTA
AGAACTTTGTTGCAGGTATTGGTTGACTGCAGTGTTCCCAAGTGGTCGTGCTGTGCCCTAAAGGCTGCTAGAACCTCAGGGGCCGTTGAGGGCAGGTTCG
AGTCCCGCAGGCAAGAAGGTGGAACTCTRGAGAGGAGGGGGATGCCTTGGCCTGGGCCCCCTCTGAGGGAGGACTGTCGCCCCTGCTGCTGGGAGCATCA
TTAGCTGCAGCTCCTCATGGAGAGATGCCCAGCGTAAGGGTACATCCTGTCAGACCCTCTTCCCGTGACTGTTCTTCCAGGGTGTGAAGGGCAGAAAGGT
GGGGCCATCTGGACCCATCATGGGACAATTCTAATGGCCTCTCCATTGCTCCCTGTTGGGTTGGCGAGATGGCCTCAGGTTTGCCTGGCAGTTCAGCCTC
TCTCTGGCCAGTTCTGCTTCTTCCCCTCCTTCCACAGGTATCCATCTTCCCTCCATACCCCAAATGCCAAACTCTACCTCTGCATCTTCACCAAGAAAAG
CATTTCTGTTGTCCTGAAATATCAGGCCTTCCTGAACCCCCTTGTACCTCTGTCCAGTGGAAGTAGAATGCCAGCCACATACGTCATTTAAAGTTTTCTA
CTAGCTACATTAGAAAAAATAAAAGAAACAGATGAAATTAATTTTAATAAACTGTTTAATCCAACATATCCAAAATATTATCCTTTCATTGCAATTATCT
GGAATTTGTGGACGAGGTTTGCTATAATCCTGTTTGGTACTGATGCTTTGGGTGGTGCTGTGTAATGTTCATTCATCGCACATTTCAATTCGGCCACATT
TTAGTGCTCAGTAGCACCTGTGGCTGGAGCTACTGTATTGGGCACCACGGCCTTAGGGTTTTGATTAAAACCCCATTCTCTTGACCTTCTGCCCAAAGCC
TTTGCCAGATGAGACACTGCCTCTCGCTGAATGCCTGCTTGGAGCAGAGTCCTGTGTTTGTTTGGAAATGATCGGAAGCTCCTGTGTCCCTGGTCGCTTG
CTGGAGTCGGTGGGAGCTGAGAGTCCCTTGCTGCCCGGAGCATGGCTGTGTGGCTGCCTGACTACATGGTTCTTCCCCCGGTTATTTTTGTTTGGGCAGT
TAACTCTGAGCATTCGGAACATTCGCCGAGTGGAACGTGTGTGTCGTCATCCCCTCGAAGGCTTGGCTGATTGAGCCAGTAAACAAAAAGTGCATTCAAC
ACAGGCTTGTCTGCTGGCCTCCCCCGGGAGAGAGAGTAGGTTTGCTATTCCTGAAATGTAATCCCTCCTTCAGCGCTGCACAAAAGGCCCATGTCTGCTC
GCTGGGACCTGATAGTTCGCCTTTGTACGGATGAAAAAAACCAAACACTGAGCCTGGTCTGAGCGGGGCTGTTTGTTGAGGCTCCTGATGCAGASAAGGG
AGCAGTGTCTGCACAGGGGGTCTGGATYGCACCCGACACCATCCAGGTGCCTGCGTGTGCTGGTCCCGCCRTCAGGACTTCCCCTCGTGAGGAGCTGGGT
ACCACTGTTATCCTGCCTGCTGGTCTGAGGGTCCGAGCGTGATTGGGRGCAGAGACAAGAGTTCCAGGGCGAGCCTCAGTTCTGGGACCACCATTGACCA
GTAGAGCTATAAAGGACTTGGCCACCAAGGTTGGAGCTGAGCCCCCCATGTCATGAAACTGCCACTGTCAGAGCCAGCCTGAGCTCCACGGTGCCCGTCT
CCTACCTGCACTGTGCCCCCACACCTTTGTTGACAAGGACCTGACCTCTCCTCAAACTACAACCTAAGAACCACAATGCCTGTTCCCCTTACCTGCCCCC
AGGTGTCCTGGGAGAAGTCAGTGACATGATTAAGACCTTTAAAAATGATGGTAAGCATGTGCCAGTGTGAATGTACTTAGTGCCACTGAGCTGCACACTT
AAAAGTGGGTAGAATGATGCATTTTGTGTGTATTTTGCCACAGTTTAAAAAATTACAGACTGGACGCAGTGGCTTATGCCACCCCAGCACTTTGGGAGGC
TGAGGCAGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAACCTCGTCTCTACTAAAAATACAAAAAAATTAGCTGGATGT
GGTGGTGTGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGYTGCAGTAAGCCGACATTGTGCCACT
GCACTCCAGCCTGGGCAATACAGCGAGACTCAGTCTCAAAAAAAAAAAAAAAAATTTTTTTTTTTTTACAATAAGCTATTTAAATAAACATTTGTGTATA
GCCCAATAGTTTTTCACTGTTGAGGGTCAAAATTTTACCTTTGTCTACCTATCTGCCTGTCCCTCTAGCTGTCAGTCACACAGACGGATATAGATATGTA
ATTTGAATTACTTCTGTTTCTTTCTCTTTGCTAGTCTAAGTCTTAGAAGAATTAAGGGTTTTCTTATTACTGGCTAAAGTTAAAAGGTACCCAGTTGAAT
CATCTTGGAAAGAAAACCAGGAAACCAAATTATCACCATGAAGCAGCCTTCCCCAGCTTGTGTCACAGTGGAGCGCTCATTTTTGTGGCTGGTTTACTGT
CGTAAAACTTTCGTATAAGGGCGCACTGTGTCAGCCCCTGCCCACTGAGGGCTTCAGAAATGAAAGGCAGTTCTATTTATGCCCAGCTGGCTTCTGCAGA
GCCGAGCTCAGTTTACCAGGCGACACTTTTGCTTTAATCCTTCCTGGTGTGACGTAACCTTTCACTGTCCTTCCCATGCCCTGAGGTCTCCAGCCTTTTT
GTTAAAACAAAACAAACCTTATTTGGGCATGATCAATACAGCTGTGGGTTGCAATCCCAGGGGGCGACTTGGCTCTTTTGTTGTTGTCGTTAAAAAATAT
TGAGGCAAAATTTACATAACATAAAGTTAAGCATTTAAAAGTGAACACTTGGCCAGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCTA
GGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAGAAATTAGCCGGGCGTGGTGG
TGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGACACAGGAGAATGGCRTGAACCCAGGAGGAGGAGCTTGCAGTGAGTGGAGATGGCACCACTGCACT
CCAGCCTGGGCAACAGAGYGAGACTCCATCTCAAAAAAAAAAAAAAAGTGAACACTTACTTAGCGTATGCACCACATGGTGTAACCACCCACCCGTCTAG
TTCCAAAACAATTTCATCACCCCCGCCCAGGGGAAACCCCATGTTCTTCAGCAGTCATTGCCCATTTCCCCCTCTCCCTAGCACCTGACGACCGCCAGTC
TTCTGTTTCTGTGGGTTTGCCCATTCTGGACATTTCATATAAACAGAACCATACAACATGTGGCCTTCTGTGACTGGGTTCTTTCCCTTAATATAATGTT
TTTGAGATTCATCGAGGGTGGTAGCATGCATTGGTGCCTCATTTCTTTCTACAGCTGAATGATATTTCATTGTATGGAGGGACCACATTTTGTTTATTCA
TTCATCTGTTGATGGGCGTTTGTGTCCATCTTTTGGYTACAGGGAACCATGCAGCTATGAACGTGCGTGTACAGGGATTTGCTTGAGTTGCCATTTTCAC
CTCTTTGGAGTATATCCTTAGGAGCTGAGTGGTTGCTTGGAAAGGTAATTGTATTTGACTTTGAGAAGAACCGCCATACTGTTCTCCCCATCATTAGTGG
TGAGAATGAAGACGTGCCGGCCGCTTACATTTTGTCGGGTTGATTTCTTCATTTTCTTGCATCTCCTTCACAGTGGCAGTGCTGGCTTTTCCCTCGGTGC
TTGTTGGAGGCAGTGGGGGAGGGAGGGTTGGGGAGGGTGCGCTTTCTACTCCACCATTCTAGTGTCTTCTAGAGGTAGAGTCGAGTGTATCTGAGAGTGC
TTCTCTCTTAGAATAAATGACATTAACATATGAAAAAACAGCTACTTGTGCCTGACTATGGGCATTTTCATGTACAGGAGTTCTTGAAGCTGAGTTTATT
GAGAATGGTTTTGTTACCTGCTGATAGCTATCTTTTTGTGTTTAGTTCTTTTTGACTTCTTTGGCCTCTAATGTTTTGACAGTGGCACTTAGATGACAGT
CAGCAATTGCAACAGTGAATGAAATCACACAGCTTGAGTTCAAGGTGGAAAGAGAAAAAAATCTAGAGAGGATGTTATCTGACCTGGCATGAGAGGTGAT
CATCCTGTCTCTGAGCAGTGGGTTCTTGCTCTCGACCTTAGGGTGTAATGTGGCCCTGCTCCTTGTATGGTGAATAACTTGTGACTGCTGTGTTTACCAC
ATGGCTTGACAGTTTACAAAGCACTTTTGTGTATATTATTGCACACTCTGATCCTTACAGTAATCCCGTGAGGTGTGGAGTGGAGGCTTTTTAAGAAACA
GAGACTGCTTTGGGAGGCATAGGTCGGTGGATCACCTGAGGTCAGGAGTTCGAGACTAGCCTGGCCAACATGGTGAAACCCCATCTCAAGCAAAAAAAAA
AAAAAAAAAAAAAAAATGCCGGGCATGGTGGTAGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGG
TTACAGTGAGCTGAGATCATGCCATTGCTCTCTAGCCTGGGTGACAAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAGATGGAGGGTGAAAGAGATGGAG
ACTTGGAGGTTGCACACTGTTCAGTGGAGGTGCAGGACTTCCAGCTTGGTCTTTGTCCCCAGCTTTTTAAGAATTCAATCATGAAGAAGATTGTTTATAT
TGTTCTTTTTTTTTTTTTTTTAATGGATTGAGTGTGAAACTGGTGGAAATATATTCCAGGAGGCCATTTAAAAAGAAAATAGGCTGGGTACAGTGGCTCA
TGCCTGTAATCCCACACTTTGGGAGGCCAAAGCAGGCAGATTGCCTGAACTCAGGAGTTCAAGACCAGCCTGGGCAACGTGGTGAAATTCCGTCTCTGCT
AAAATACAAAAAATTAGCCGGGTGTAGTGGTGCATGCCTGTAATCCCAGCTACTCAAGAGGCTGAGGCAGAGAATTGCTTGAACCCGGAAAGTGGAGGTT
GCAGTGAGCCGAGATCGTGCTACTGCACTCCAGCCTGGGCAACAGAGCGAGATTCCATCTTCAAAAAAAAAGAAAGAAAGAAAATAACAAGGTTACCATG
GAGATCCTGCAGTCACGGGGACATTCTCAAACATCACAATGATTGGTGTCAAAAATTGAAACCTGGAAGAAGAAAACTGGACTATGATTGTTGAATTAGC
ACCCGGGGAGGTTTTATTATTCTGTGTTCACCCCAGGAAATTCTTAAGGCCTGAGTGTTGATGTCCTTCAGCAACCCAACATATTAACGCAGTCTTTAGG
AGACATGAAATGTTCCTTCCATCCAGGGAAGACGTGATTGCAGCAGGCAGGAGTTGATAGTGATGCTATGGGGCTGTCTGCTCTATACGAGGAGCAGAGA
CCCCTGGATCCTAGTGGTGGCCCCTGGTCACCAGATGTGAGCCCTGGAGCGCATGATTGTGGTTTTGACCCATTCTTGCCCCAGCTTGAGCCTGACCTTT
GGCAGGTCCAGGAGTGTGCTGAGTCTTTCTACCCCGCTGCGTGGTGCTGCCTGCCGAGGTGGTGTGGCTCTTTGTGCTGGCAYTTAGGGTGTCACTAAAG
CCCAAGACCAGGATTGCTTGTCCTTTGCAGTGTGCTGGACAGGAGCCACACAGTGTAGAAGCGACTTGCCCTAAATGCCTCATTGAGAAGCATGGGTGTC
CCCTTAGACATCATGGGAGCTCATTGCATTGATGAAGCCCTCTTGAGTCAGATCGTGGGGTTGGTTGGTCATGCGTGTAATTATGTGTTGAGGTTTGGTG
CCTTGAGATTAAAGGGATGCCACATTTTGAGCTTCTCAGATATAAAAGAAGGATTCTTTGGGGGAGGACCTATAAATATTTCTTAAAAGTGTTTTACAAC
AAAAGCACGGAGTGTACTTCAGAAGGAAGGATTTAGCTGCTGGAGTGATGGCCGAAGGAGCCTGGGAGAAGTCAGAGAGAGGGGGCTCGTGGTCCTTCTT
GGGCTCTCATTGCTGTTAGCAGGAGTTGGCACTTGAGTCCCACGTCCTAGCCTCCCGGSATCACAGCCTTATGCTGCATTTCCTAAAGTGCTTTCTAGCA
CTGACCGACTCCAGGAGGCAGCACTGGCAAGGATTTTGGTGAGCCTTTGATGGAGTGTGTTCCGGAATCGGGAGGAAGCTTGTAAGGCTGCTTTCCACTC
ATTTTATGTTGTTGGGATTTGGCTCGGAACCTGCCAAGGACCCCTGTGTGTTAAAGTTGAAATAGTTCCCTAGTAAACTGGCCACTTTCAGACCAGCTGC
ATTTTCTAGAATAAACYTCATTTGTCCTTGACTCATAAAGGGAAAAGCCAGAAGCCAGGGGCTCTGGGGCACCTCCAAGTGGGCCAGGGTCAGGTGTGGG
TCCTCTGCCTGGGTTTTAATGTAAACTCAGGGTTTTAATGTAAGAACCTGTTTTGTTTGCTTTTGTTTTTAGACCAAGTCTCACTCTGTTACCCAGGCCA
GAGTGCAGCAGCCATAAACATGTCTTACTGCGGCCTTGAACCTTGGTCTTAAATGATCCTCTTACTCAGCCTCTCATGTAACTCTGGGGTAACTCCAAGT
GGGCCAGGGTCAGGTGCGGGTCCCCTGCCTGCGTTGGTCTCACTGCCATAGAACCCCAGCCATGGTGATCTTACCAGAGAAACTCATTTGAACCTATGCG
GCTGCTTCAGGCCGGTGGTTGTTGGCCTGATAGGAAGAGAGCATACTCAGCCTCATACTCAGCCTCTCGTGTAACTGGGACCACAAGCATGCACCACCAT
ACCTGGCTAATTTTTTTTTTTTTTTTTTTTTGGTAAAGATAGGGTCTCAGAGGTTTGGTGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTG
AGGCAGGTGGATCAGTTGAGGCCAGGAGTTCGAGACCAGTCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAACTAGCTGGGTGTGGTG
GTGTGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGAATTGCCTGAACTCAGGAGGCAGAGGTTGCAGTGAGCCAAGATTGTACCACTGCACTCC
AGCCTGGGTGATAAAATGAGATCATGTCTTAAAAAAAAAAAAAAAAAGATGGGGTCTCACTTTGCTGCCCAGGCTGGTCTTTGAACTCCTGGACTTAAAT
GATCCTCCTGCCTCGGCCCCCCAGAGTGCTGGGATTATGGGCATGAGCCACCACACCTGGCCAGGGCCTGTTTTTAATTGTTGAATTGCCCACATTGCAT
TATCAGGATTGAAAACATAGTAGTGGCACAGCCTCCTGGAGAGTGCAGATGTAGCTCATGGTACGCTTGGGGTTTCTGCAGAGCATGACATCAGGCTGTC
TTCCAGCCTTGCCTCACTAAGAACTTGAAGCATGACCCTCAATAARCCACTTTTTTTTTTTTTTTTGCATGGAAATCTGTGAAGAAAGAAGGCCTTGGGA
AAGCCTGTGTCCTGGCCTGTCATTGAACGTAATAATTACATTAACAAGTGAATGATTTAAGTTCTGCACTCTTTGTTCTTATAGGAACAAGGTTAAGGGA
YGACTGTGTTGTGGGTTGAAATGTGTCCCCCAAAATAGTATGTTCAAGTCCTAACCTTGGTAGCTGTGTGTGTGGCCATACTTGGAGATGGTCTTTGGCT
GATGTAATTAGTTAAGATGAGGTCATACTAGATTGGAGTGGGTCCTGATCCAGTGATCGGTGTTCATCTGAGAAGAGGGAGGTTGTGACAGCAACACGCA
GGAAGGGCCATGTCACGATGGAGGCAAAGGTCGGAGCAAGCTGTGCTAGGAAGAGGCAAGGAGGGATCCCCTCCCCCAGCCTTCATAAGGAGCACGGCCC
TGCAGACACCTTGATTTTTGAACTTCTGGCTTCCAGAACTGYGAGGGAATACATTTCTGCTGTTTGAGCCACCTGGTTTGTGGTACTTGATTACAGCAGT
GCTAACCTCCCCACAGTTACCCACAACCTCTGAGTACCTGTTTGCCGCTCACTCCTCCCTCTCCCATTGCCACGTGGTCTCTGCTTTTATTCGTTTTCTC
AGCGGAAACTTGGAGGCCATTGGCTATTGTGTATCGTGTATCGTGGCTAAGTCATTACCTTTTTTTTTTTTTTTTTTTTTTTTTAAAGAAAACCCAAAAC
CAAAAAACTCCTTTTAGGCGTCACCCCCCTACCCACTTAGGTACAGTGCTGCTGCTGCTGCCCCCGGCTTCTTGAAACCTTCTTTCTGACTCTCTGAGAG
AGACTCTTGTGGATATCTTGTAGCTCTGGCCTTTTTCTTTAGCTCTGGTCTTTCCCTCTCTTGGCTGTGGATTCATTTCTTATCGCTGTTGTAACAAATT
ACCACACACTAAGTGGCTTAAAACAGCATAGATTTATTACAGTTCGGAAGCTCAGAAGCTCCAAATGGGTCTTACGGGCCTAAAATCAAAGGCTGTGCTC
CTTTTGGAGGCTGTGGGGTAGACTCGATTTCCTTGCTTTTTCCAGCCTCAATGGCTGCTGCATTCCTGGCCTTAGCTCTGTATCCCTCTGGCCTCTGCCG
TGGTAGCTGCGTGGCCTGCTCTGACCCTGACCTCCTGGAAGGACCCTGTGATTACATTGGACCCACCTGTGTAATCCAGAATCCTTGCAAAACCCCCATC
TCAAAATCTTTCACCTCTTCACATGCACACAGTGGCTTTGCCCCGTGGAGCCACATGCTCTCAGGTTCCAGGAATGRGTCTGTGGGCATCTCTGGGGGCC
ACTGTTCAGCCTGAATGTGTTCTGAGGCTTAGTATTTTGTCTCTTTGAGTTCTACATTCATTTTGATCCTTACATCATCATCTGCAGGGGATAGGTGATT
CTCAATCTAGGTTTGGGAAGAGGAACTTAAGGCTCCACAGAAATTTGAGTCCATTTTTACTTAAATGTACTTTTTACCTTTAGAAAAACTTGTAGGTAAA
AACCAACAGGTRCATTCAAACCAATCACACGCCAACTTTTACCACCCACCACCGTCTTACCTTCTGCTGCTGTGTTGGCTCATTATTTTGCGCGGACCCG
AAATGAAGGCTGTCTCGTCCTTTCTGTTTAATTGGAGCGCCTGGAGAGCACAGGTGAGTTGTTAAAAACCCGGTGAATCCTGCATGGATTTGCAAACCAA
ACTACATGGAGAAATCAGTTAAATTCTCAGGTTTCAGGGTTGCAGCTGCCACTGAGAAGTGTATTTAGGCAGGTTCTGGCAACAGACTTGGTGTTGGGCT
TGAGTGGGAAGGGGATTTAGGAGCTTCATGAGCGAGTCAAATGCAAGTTGGGGAAGTGGCTGAAAAAAATGCCTCCTGGAAAAAGCAGTAAATGTAAGGA
TTTAGGTCGGCCATTGTCTCCGTGTAAGTCAACACTACCTTGTGTGTGTGCGCATACACACAAAGAGGGTGAGCCCTCAGCCCGCCATAYGGGCATGTTA
TCCAGAAGAGAGGAGAGAGAAGCCCGCTGCACTCTCCACTGACCAGACCACCCACTTTGCCCTCTGCACGCTCACTCCACGAAGGATGCAGGTGGGCACA
CTGCTACAACCCCCTGGGTGTGTGTGGAGTTGGGAAAGAGACGGATGTTGAGCCTGAAGAGGCTGTGACCTCCCCAAATACTCGGACTCCCCTGTGGAAG
GCAAGGTGGAGGCAGCTGTTATGTGGTGTGTTGGATTCACAGCAGTCAAGGCTGCCACGAGCAAGTATTTTGAGTGCTCCTTATGTCCATGCAGAGGCTG
ACTCCAGAGGATGCTGTGCACAGGCCTGTGTGACCTGAAGGCCCTTGCAGGCTGAGGTCTCTTGGTGATAATCCACACACTGTCCTGRGCCTTGGTTTTG
CAGCATTTCCAACTTGGGTTGTCAGAGTGAGACTGTGCAGGACTGCCCYGTACAGTACGGCTTCTATGTGTGAACAACACAGACCACTAAGAGATGTGAC
AAAGCTGTTCCATCAGAGGAAACATAGTCTGGGGGACAAATCCTCCCATTCCTGATAGGACAGGAGGGAGCGGTTGGCTGGGGAAGACCTGAGTGAGGGA
GCTTTCTTGAGGACGGGTTTTGTCGGAGTGTAGTTCATATACCATGCACAGCCTGTCAGCATACAGCTTGAATGAACTCACRTGTGTAACCAGATCAAGA
GGCAGAATATTACTAGGGTGGCAGTTTTGAGTCCCATGAAAACAAACACATTTACTCTGTCTAGCTCCATCTCTAGTTAATTCTAGTGCAGTTTAAATGC
TCACAAAATCCTTATTTGAATGGATGAGTCAGTGGTTTGAATTGAATAGTTTTTGAGCCATTTGTATGGAGAAGGTATTACCCAAACAGAAACATGGTGG
TGATAATAGACTCACGTTGATTTCACTTGTTAACTGAGCAAACACCTCTTGTCTCCTCATTCTGTGCAGAGCATTCTGGGTGGAAAAGTCGGACCAAGTT
TCTGAGGGGAGGACGGAGGAGTCCTGTCTTTTAAGCAGATGGAGCTGCAAACAGCCAGAGAGTGACAGAGATTGAGAGGCAGCAGCTGTCTTTTCAGTTG
CGCATCCTCCTTGTAGTAACCATAGGTGGGAGGCTGGGATTCCGAGCTCAGGGCAGCGGGATGCTCACCATGTGCTGGGTGCTGTTTGAAGGACCGGAAA
TGCATCATTTTGTTTAAGTCTCCCAACAGGCCGGGTGCGGTGGCTCATGCCTGTAATTCCAGAACTTTGGGAGGCTGAGGTGGGCGGATCACTTGAGGTC
AGGAGTTTGCAACTAGCCTGGCCAACATGGTGAAACCCCATCTCTACTGAAAATACTTAAAAAATTAGCCGGGCATTGTGGCAGGCACCTGTAATCCCAG
CTACTCTGGAGGCTGAGGCAGGAGAATTGCTTGAACACTGGAGGTGGAGGTTGCAGTGAGCTGAGATAGCCCCATTTCACTCCAGTCTGGGCAACAAGAG
CAAAACTCCGCCTTAAAAAAAAAAAAGTCACAACAACCTGTTTCACTTAAGTACGGGCTTAAGAGGCCAGTGTGAGGGTCAGGAGCTAACACTCAGCCCC
ACAGGGGTCTCCAGGTCCTGCTGCTCCTTCCACGCCTGCCCGGTCCCTGCAGCTTCCCATGAACGGAAGGGAAGTCATCTGGCAGCCTTAGAAATGCTCA
TTTGTGGCCGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGACATGCGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTTACC
AAGATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATCAGTCGGGCATGGTGGCACATGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCGGGAGAA
TTGCTTGAACCCGAGAGGTGGAGGTTGCAGTGAACCGAGATTGTACCACTGCACTCAGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAA
AATGCACATTTGCATCAGTGATTTCATTCTGCCAGTGTTAAATGAAAATTGTTACAGGGAAGTTAGTTCTCAGGATCCATTGGGGATAAAATACCAGAAC
AAAGGGAAGGCTAGGGTTTCTTCTCCTCCACTTCTCTACACTCAACCACCCTTCCCATTTCTTTAATGCCAACGCACCGTCACCTTCCTCACCCTTGATG
CTGAGACATTCRAGACCCCTTAGAACCCAGGACTCCCGGTGGCTGCTACACCCTGGTCATATCTGGCCTCTCACACTTAACCCCTCCAAATAGTAAAATC
TGGATAAAAAAAAATTGGGTTTTCAAAGAGCTGTTAACAGTCTTCTGTAGCTGAGTTTTTAAGAAATTATACCATATTCATTTTGACTCCTAATTCCTTT
TTGGAAAAATTTCTGAATTTTGTTAAATTCACGGAGTAACACAAATGGTTATCTTTCTGTTCCTTTAAAATCTATCTTTGATTTGGAGATTACTAGGGTA
AATTATAGATCAAGAATATCATACATGTCATTATTCACTGAAATTTGCAGTCAGCTCTGTAGACACCATTCTGCCTCCTTTACCCAGCACGTTGGGGATT
GTGATTACTGACGAGACCTTTAAAGAATCTTCCGGCTGGGAAAGGTCCCGAGTGGCCTGCTTTCCTGGCTTATTTGAGAATTTTGCCTGGCCCCTAGGTT
TCTCAGCAGTCTGTATTTCCCACTGTTCGTTGTGCTCGTGCTGAGTTGTTTTCCTATCGAAATACAACTGTGTTTTATTGACCTTGAATAGCTCTGCCAG
ATTTCACAGGTGCTCCTTGCTCTGGGAGGCCCTGAAATGCCCTTTCTGGTCCCTCTTGGGTTCAGCGCTCAGGGCCTCTGGAAGGTTTCAGGAGCCCCGA
TGCTGGTAGAAAAGGAGATTTTGAGAACTACCAGTTAATAGCTTATTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCGTTCTTG
TTGTCTAGGCTGGAGTGCAATGGCGCGGTCTTGGCTCACTGCAATCCCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTACCTGGGA
TTACAGGCGCCTGCCACCATGCCCGGCTAACATTTTGTATGTTTAGTAGAGATGGAGTGTCACCATTTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAG
GTGATCCGCCCACCTTGGCATCCCAAAGTGTTGGGATTACAGGCATGAGCCACCGCGCCAGTGCTGGTCCCAGTTAATGGCTTATTTCTGAATTTCCCAT
CCAACCGAACTTTTCAAGTGTAACTCCTGGTTCTTCATGGGCAGGAGGACCATGTCCGCTCTAGGTGGCTTGTCCTCTTTGGGAAGGCTCTCTTTGCATT
TTAAAATTATTCTGGATGACAGAATGAAACCCTGTCTCAAAAAAATATAGATAGATAGATAGATAGAGATATAGAATGGAGATAATTGGAGGAAGCAGTG
GTCATTTTAGTGTTTGTGTAGCCAGGAGAGCACGGCCAGGACTCACTCTGAGTTGGGGTAGCCAGAATTCAGAGCATCTRGAGAGAGAGAGAGAGAGGCT
CACCTCTTAGGAAAGGGTTTGGGAATGAGTAGGAAGTTATTTTCCTTTTTTTTTTTGAGATGGTATCTCGTTCTGTCGCCCAGGCTGGAGTGCAGTGGTG
CAATCTCAGCTCATGGCAGCCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCTGGTAGCTGGGATTACAGGTGAGTGCCACCACATCTG
GCTAATTTTTGTGTTTTTAGTAGAAAGGGGGTTTCACCATGTTGAGCAGGCTGGTCTCGAACTCCTGACTTCAAGTGATCTGCCCGCCTCGGCCTCCCAA
AGTGCTGGGATTCCAGGCGTGAGCCACCGCGCCCGGCCCTTTCTTTTCTCTCACTGTTACTGTCTCCCTGAGTTTTTACTCGGTGTTAACGTTTAAAAGC
TCCAGCTTCAAAAAGTAGTTTTTAGTCTTTCTTAAAATACAGATGTAAGCACCCATCAGCTCTCTGCCCAAAGATAAATATTCTTAACCTTTAGGTGCCT
ATCCTTTTATGCCAGATGCCAAGTTGACCAGGGAGTGTCTGCACAGATTCCCGGTGTCTGCACCTCCTAGGGATATGGAAGGAGGCCTGAGCTCCGCGAG
GCTGGATGTTGAAGCTGTTGATCAACAGGTGTGGGCAGGAAGGGACGGGAGGCTGGAAACCGTGACCATGCCCAGAGACAGGGCTTCTGGGGGTCACCAG
CAATGCCTTTCACTGCCCTCTCCACCACAACCTGCTTTTCGAATTTAAAGATAACAGAACCTGCCAGGATAGGCCACTCATTTTTGTTTTTGTTTCTGTT
TTTTTTGTTTTGTTTTGTTTTAATGTGTGTGTGTGTGTGTGTGCGTGTGYGTGTGTGTGTGTGTGTGTGTGCATTTTTTTTTTTTTTTTTTTTTTTGAGG
CGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAAGCTCTACCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCT
CCCAAGTAGCTGGGACTACAGGCACCTGCCACTACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTC
GATCTCCTGACCTCGTGATCCGCCTGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCCCGGCCTATATTTTTAATTTTTTGAGACAG
TCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGGGCGATCTCGGTTCACTGCAACCTCTGCCTTCCGGGTTCAAGCAATTTTCGTGCCTCAGCCTCCCGA
GTAGCTGGGATTACAGGCACCCACCAGCATGCCCAGCTAATTTTTGCATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCC
TGGACTCAGGTGATGCATCCGCCTCAGCCTCCCAAACTGTTGGGACTGCAGGCGTGAGCCACTGCGCCCAGCCCTGTTTTTTAAGTTATGTAAACAGCAA
CGGGAATGAATTGACTGAACGAGGGGGAGTGGAGTGGGAAGCAATGTGCTGCCCGGGTCTTGGTGTGAAACGCAGTGGCCCTGGGCAGAATGCACAACAA
AGGCGCACGGATTTGGGTTTAGAGGCTTAATCCCTCCTTCTCTTGGTGTGATGTTGACTCCACAGAGGCAAATGTGCCCCAGGCTGCAGTCAACTGTTTG
ACCTCGAGTTTGGGATAAGCATACGGCCTCTTCAGCCTGATGTCACTGATGTGGTTTGGATGATTTTCTCCTCCAAATCTCACTTCGAAATGTGATCCCC
AGTGTTGGAAGCGAGGCCTAGTGCAGGTGCTTGGGTCATGGGGGTGAATCCTTCATGAATGTCTAGCACCATCCCCTTGGCGATGAGTGAATTCTTGCTC
TGATAGTTCATGAGAGGTCTGTTTTGTTTTGTTTTTRATTTTCCTTTACACAACAGTATACAGTATTAGGTGCCAAGAGACCTGGTTGTTTAAAAGAGCC
TGCCCCCACCCCCACCCCCCACCACTTCTCTCTTGCTCCTCTCTTGCCATGTGACATGCCTGCTCCCCCTTCGTCTTCCCACATGATTGGAAGTTCTGGG
AGGCCCTTAGCAAGAGCAGATGCTGCTACCAGCTTCCTGTATAGCCTTCAGGACCATGAGCCAAAATAAACCTCTTTTCTTTATAAATTACCCAGCCTCA
GGCATTCCTTTATAGCAACGCAAGAACAGACTCACACAGTCATACATTGAAGTGGCGCTGGTTCCCAGGGGCCCAGGCTTGCCTGGACAGCGCCCTGTGG
CCAGGAAGACCTGGGGAGGGAGGGTGGCTGGAGGCCAGGAGCTGTGCTAGGTATCCCTGCTCTGCAGCCAAGGAGGCTCCTCCTCCACTGCCCTGGCCAC
CTGGATGCTGCATTTAATTCTGGGCACCACGCGCCAGAAGGAGGAGTAGATGAGCCATGTTCTGGGGGGCRGTGAGCAGGATGGTGAAGGAGGAGTAGAT
GAGCCATGTTCTGGGGGGCAGTGAGCAGGATGGTGAAGGAGGAGTAGATGAGCCATGTTCTGGGGGGCAGTGAGCAGGATGGTGAAGGAGCTTAGAACCA
CGAGAGGACCCCGCTTTTCCAGGGTTTTGGAGGGCAGGGCTCCAGGAGAGGCTCATTTAGGGCTGACTCCGGGCTTGCGGCTTGTGGCATGAGCTCTTGG
AGGTTCTCCCTAAGGAGTCAGCCAATCAGGCCTTCCTTTCTTGTGGTTTTGAGCAGATTCCAAGCTGGCTTCACGGGAGGGGTGTTGAACAGGAGTAGCT
ATATCAGAGTCAAGGCAGGGAGGGGAGACCTCAGTACTGCTGGATGTCGCACATGGAGATATGGGCGCATCTTAGTTATGGTGTCAGTCCCAAAGCCTGT
ATCTGGCCGAGGTTGCTTGGGGACGTGATGGCTAAAGCTGTGCCCTTGCAGGGTGAGAGTGCGGGGTGGCTGCTCGTCTGGAGAAGAGAGCACCCCTTGG
GAAATGGAAGATGGAGGTGGGGATCAGCTGCTGCACAGTTTCCAGGAACACTGGTGTCTCAGGGAGACACCTGGCATCTCAAAATAAGGAGAGGCTGTCT
GACAGCTTCAGTTAAGGATGATCGGTGGCTGGGACGGTGGCCGGGAGGGCTGCTGAGCTTCTGAAATGAGCGTTAGGTGACCCTGACCTGCTGAAGGCCC
CTGTTCACCTGACCAGGTGAGAGATGGCTCGGAAGTGAGGGAGAGGGGAGAGGGRTGCAGGTTGTGGGCCTGTAATCCTTATTGATATCAGCCACCCTCA
ACCTGAGATGTAAATTGGAATCACCTGTGGCTCTCAAGCTGGCATTCAGACGGGCAGCTTTTCCTGAGCCCTCAAGGAGATTCTGTCTTGCAGCACGTGG
GTAACAAGTGGATTGGGTAAATAGGCTCTTCCCTGGAGGGATGGTGTTAACGCAGAGACCCGAGACTGAGCTTAGGAAACAAAAGTGGAACAGAACAACC
TCCTGATTTCAAAAGCAAAGGCTTAAAATTTATTTCAGAATGAGTTACAGTGATATTAGTATGTTTTTTTGGGTGGGGAGGACAGAATCTAATTTTAGTT
GTTTTAGATTATGGTACTTTTTCCTGCTTGATTTACATGTTAAATGTTTCTGATGAACTGTTAAAATCTTCGAGGTTTTTGCTTCATTTAAACAAATGAT
GCCTGCCAACTCTACAACTTAAATATGTTTTCCGTGTATATAGATATATACTTAAATATATCTACTGTGTGTTTTGGCTTTGAGGTTTTCAAAAATGTGT
ATTCAAATCGTGTAGCGCTACAGCTAATTCAGTAATAAGGACTAGGCTTAGTGGCTCCTTTCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGGAC
TGTATGAGGCCAGGAGTTCAAGACCAGCCCGGGCAACATAGTGAGACCCACATCTCTAAAAACAAAAAATACAAAAATTAGCTGGGCATGATGGTGAGCA
TCTGTAGTCCCAGCTGCTTGGGAGGCTGAGGTAGGAGGATCACTTGAGCCCCGGAGTTCAAGGCTACAGTGAGCCATGATTGTGTCACTGAACTCCAGCC
TGGGGGACAGAGCAAGCAAGACCCTGTCTCAAAAGGAAAAAGAAGAGAAGGAAAAAAAATCAATCAAATTCTAAGGTGAATTTGAGAGTATACATAAGTT
TAATGAAGATTTTTATTTAGTAATAATCATAGGTGCACATGTAGTAAGGATAGTTTTCAAGCGGTGTTAAGGAAGTGGAGATTGAGATGTTAAATAGCAT
CTGATAGGCGTTTGCTTTTCAAATAGACTTAGTACTTCAGCTTCTTACTCTAGAGACAGAATACAGTTCTTACATGGCTTTTAAGATGCTGCCCCCTTCT
GGTGACTAGGAAGATTATAATATCTGTAGCAAATAGGCATTCTGGGGTTTTTTTTTTTTCATATTTAAATATTAGTTTTATTACTGAACCTGAAAAACAA
AATGAGGATCAGAGGTAGCGTCTCCTCCTCTGTACTCTCCTTTCTTCCTTGAGAGGAGGAATAACTTTCTGTCTCTTGCTGTTCTTTGTAAATGAGTTTC
CTTTTGGCTTKCTTTCTTCTGTCCTTCCTTCCTCTGATGGGTAGAGCATCTCTGTGGGCCAGGTACTGTGTTCAGCATTTCATGAGATTTATCAATTTTA
AAGAAGAATTGACAATATGATGCGGAGTTTTCCAGATTGCTGTTTGTTTTGAGAGGGAGTCTTGCTCTGTTACCCAGGCTGGTGTGCAGTGATGTGATCT
CGGCTCGCTGCAACCTCCATCTTCCGGGTTCAAGCAATTCTGCCTTGGCGTCCCAAGTAGCAGGGATTACAGATGCATGCCACCACACCCAGCTAAATTT
TTTGTATTTTTAGTAGGGATGGGGTCTCACCATGTTGACCAGGCTGGTCTTGGACTCCTGGCCTCAAGTGATCCACCTGCCTCGGCCTCCCAGAGTGCTG
GGATTACAGGCGTGAGCCACTGCGCCCGGCCCAGATTGCTGTTTTTTTTTTTTTTTTTTTTTTTATGATGTAAAAGTATCAACATATTTTTTAAAGAAAG
TTTCATCTGCTGCTATCTAGAGGAGGTAGCTGGAACCAGAGCACCAGGCTGGCACTGGCAAGGAGGAGAGGGCACCTCCCGGCATGTGGACGGAATGACC
CAGGTGAGGCGGGTGTGGCGCCAGAGGGGCCTGTTGCAGACCTGAAGAACTCCAGTGTGTTTTGCAGAAAGGGAGTTTCAGAGAATAAGGGGCAGCCTTG
ACTCAGACGGCTTGGGAGAGGAGTAAGTGCAGCCCAGCCTCCAGGGGAAGGGGAGGAAAACTGAAGGTTTGTAAGGGATCTGGCCAGCATGGTCTTGATG
CCTGGAAACAGCTCCTGGGCTTCTCACCAGTATTGGGAGCTGACTCTTAGAAAGGCAGCCTTCCTGGGGAGCACACCCTCGAGGGGCCGGAAACCGTGAA
ACTGACCAGAAGCACATAGGTCCAGTGGGCACTGAAATACATTCTCAGGAAGGAAGTGTAGCTGAAGTCCAGAACTCAGCTTACTCTCACTCCTGGGCCT
GCTGCTGCCTTAATGTGCCTGCTCCTGTGTTTTTGTTCTGATAAACACGTATAGCACTTTCAATTATGCTGTTACTTACAGCTAAGTAAAGCAGTACTAG
GTGGATTTGTCAGTGCCACTTCCTACAAAGTGAAGGCTGGATTTTTGGGGGACTCATTTCCAGCAGCCACCAGCAGGTGGAGGGAGTGAGATGCGTAAAC
AAACTGTCCCTCATGCTTGGTGTTTGGGCAGATGYATYGCTAAAGCGTGCTCACTAATAAATCCCCTGCTGATATGGCACAAATATTTATAGCCGATGAT
TGATGTGAAATTAACAAAAACTAGCAGTTGACAGCGATATGASGTGGCAAAGGCTATTTGGGAAAGTTTCCGTTGTCTTTGAAAATTAAGAAAAATTATA
CGTTTACTTGCCTTGCTAAGAACTGTTTAAGAATAAATCAACATAAACTAGGGCAGCTTCTTAAACTATGATGGAGAAGCACAAGGTCAAAGTGTTTYGT
CTCAGAATGAAGCAGTAATGTATTACTTTGCRTACTGTGTACAGGGGCCGGCAGATGTTTCTGATGTTATGAAGCTATGCTCCTGGAAGTGGTTGTGAAA
ATCGCAGCCCTGTGAATTGTGTGCCCTAAGAGCCAGCTGTGCTCCTAACAGTGATGCCGTCTTTCCATGGAAATCACCCATAAGCACAGCCTTCARTCTA
ACTTCATGTCAAGTCTAAGTGGCACAGCTATCCATGAACACTGTAAACATTCCCAGCTCCATCTAAGGTGATTAAACGGAGTCAGAACCCGGCCATGGAT
GTGTATTCACTGTTATTTAACAGATGCTCAAACTAGACAGGTGGGACTGTCCAGATGCCTGTGGGGCACTACAGAGTTTTGAGGAAATAGAGTCTCAGAC
TGGAGCCCCAAGGACCTTGAGGACAGGAGTCTACCTGGGGAGGGGCATCCCAGAGACTTACTCCAGCTGCTTAACTCCGGTGTGCCTGGAGTCACCTTGG
GACCTTGTTACCTGCAGATTTGGATTCAGCAAGGCAAGGTGGACCTGAGAGTCTGTGTTTCTGGTGAGCCACAGGTAGCACCCCGGCTGCTGGTCCCTGG
TCTGGGGAAAGGCAGGCAGAGTTGGAGAGACCCTTCCCGGGTTCCTGGTTGCAGGTGCTGTGTCATCGTATGGCTGTATTTGAGGGGATTGTGTAAGAAG
ATGTTGTTAAATTTATTTTTAGAATAATAGACTTTTAGATAGAAGAGAAACCTCGGAGGTCAATCAGCTTTCACTCTTCCTCTCTTGTGCCCCAGTCCTA
GTGATGAGAAAAGCAATGATGTTTCCCAAGGCCGGGGCTGTCGACTGAATTGTGTCCCTGCAACCCCGTGTGATGGTATTAGGAGGTGGGTCTGTGGGAG
GTATCAGGTCATGGGAGTGGACCCCTTGTGGTGGCACGAATGCCCCTCAGGAGCGCTTGCTCTGTACCCTATGAGGACATCATGAGGAGATATGGCTTCT
GCAGGAAGAGGCCTCACCAGGAACCAAATTGACCAGTACCTTGAACTTGGACTTCCAGCTGCCAGAACTGTGAGAGSTAAACGTGTGTTGTTGAAGTGCC
TCTGCCGGTGGTCTTTGTGATAGCAGCCCCAGCCGACTCATCACAGCCAGATTAAGGGAGATCAAAAGAGTTAAGGTTCCAGACTCCAGCTCCTGAGTTC
TTCTATGTGGAAAGATGCCCCTTCAACCACCAAGGCCAGGGATGCCCTGTGGTTCAGCGTTGTCACCCTTGTTGCCCGCCTCCAGGGCAGAGCTGGGGGC
ACTGGAGGTGCTCAGGACGTGTGGAGCAGAATTGGGAGTGAATGTTGTGTGCTCAGGGCCACCTCCACTCTGCAAGCACAGCTCCCAGAGATGAGGACGG
GGCTTGCTTTGTCCTCTGCCACACACAGCCCTTCATGCAAGGCCTTGGCCCCTCCAGGGCCACACACCTTGGCCACCCAGCAAGCACCCCTTGCTTGGCC
AGTCTTTCCGTCACTTCCTTTCCTTTTTCCCTGTCTCCTGAGCTTCAGACTAGTTGACCCTAAGGGGTGTCTCCAGCTGTAAATAACTGTCCAGACTGCT
TGTAAAGGAAAACATTGCAACCACCTTACTGCACAATTGATACTATTATTATTTTAGGGTTACCCAAAAATGTGCAGCACGCCCTCGAATGACATGGATT
TGTTCTAACGTTGGTGATGAAAAAAATGGATTCCCGCKGGGGCCCTGTCTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTGTGTGTGGAGCGTGCACG
CGCTCCCGTGTTTCCTKTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTTTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTTTGTGTGGAGCGTGCA
CGCGCTCCCGTGTTTCCTTTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTTTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTGTGTGGAGCGTGCA
CGCGCTCCCGTTTCCTTTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTTTGTGTGGAGCGTGCACG
CGCTCCCGTGTTTCCTTTGGGTGGAGCGTGCACGCGCTCCCGTGTTTCCTTTGTGTGGAGCGTGCACGCCCTCCCATGTTTCCTTTGGGTCTTCCGGTTT
CCGTCGACGTCCCAAAGCTGTGCACATTAGGTGACTGGCGTGTCTACAGCATCCCAGTCTGAGTGAGTTTGGGCATGTGTGAGTGGCCCCGCGATGGAAC
AGCGCCCTGGTTCCTGCCTGCCCCCACTGAGCTGCTGGGACAGGCTCCCACCACCCTGAACTGGAATAATTGGGTAAATAATTATCTTACTTATTTTTAC
ATGTATGTAAGCTCACGTTTATTGCAGTGTTTAATATTAGAAGGGCTTTGGTCTTTATTTAGAAGTTTGGTGATGTTTTTGTGACCAGAAATAAGCCATA
GGAGCTTAACTCTTGTTTATATCAAATTACCCTATGGGAAACTTGGTTGCATTGTATGTCGTTTCGTTTAAAGTTGCTGTTTCCAGGAACCTATTGGTGA
TGTGAAGTGAGGACTTACTGGATGACGTGAAACTAATTTTAACTTTCTTTTACTCATCATCCTGGGATTATTCAAGTATAAACTCAGAATTGCCAAATTA
AATGCAAAGATATGAAAAGGAGCCGCTTATGCTAAATGTACAGATGATGCGTTTTTGCTGTAACGGAGTCGTCCCTCCGGGTGCTGACTGTGCCACTCAG
CATGGTGGCCCAGGGCTGTGTGTTTGGTGCACAGTGGGACGTCTTAGTCCCACTACCTCAGCCAGACTCCTGGCAAAGTCTTTATTTTTTAWGATAATTT
ATTTTTAGATTTTATTCAAAATGAAAACCCATTTAAAAAGCACATGAGAAATGAGTTCTTTATTCACTCATCTAAATATTTAGGGCTGTGGATGGGCTCA
GCTGCTTTAAATATTTGGCTGGGCAGATGAGTGGGAGCCTGTCTTCCTCTTGTTGACATTTGCGTCTGTGGTGGTGTACACAGATGAGCTCACTGCTGTC
CTCGGAGCAGGTAGGAATGTATTTATTTACTCGCATGCCTTCAGATGCTTGCAGTAAGTCCATTTGAGATGCTGCTTCTATTTTTCCTTGTGGAGAACTT
ACTTGACGCCAACAAAGAAATTTCTAGCTGCTTGTAGAAGACACCCCAGGGTACGCAGCCAGTCCCTTCCACGAATGCTGCGAGAACCCACACAGCTGTT
CATTTCGGTGGCCGAGGGCCTGTGGGCTGCAGTACGTTTACACTGTGTGTTGGGGGGGTGGCAGTGTGCTTTCTTCCTGCCCCAATTTTGCCCAGGAGGA
GTCTGGTGATGGAGAAGGTGTGGCGGGCAGCAAGGAGGCTGGGGAAGTGGATGCTGCAGGGTGAGCTCTGGGCGACCCAGGAGGAAGTATTTGCATGAAT
TAGCCACACGCAGAGGGCAGTTATGTGTGATGTGGGAAATGACTGCAAAGCTRTCTTACTCTTTATTCCATAGCCACAAAAATAAGTTTATAAAAAGCCC
CCACCAAGTCAGGATTTGTCCAGAATGGTCACTCTGCTTTGGAGAACTGCGGATCCCCTGCCATGGCCCATGTGGCTCCGGAAGTTCCYGGGAGTGGCTC
GTAGAGCCTGTTTTCATCCTTCAGAGGAATCCTGCAGTCCACTTGCCCAGCGTYACTTCCTCCAGTGCCCTTTCTGGGTCCCACGTGATTCTACCTGATC
GCTGGCTCTCTAGGGCTTTTCCCCTCCAGGTTCAGAGAGAGCGCCTGCCCCAGGGCTGGGAAGATGAGCAGGGATCCTGGGATGTGATGGCACGGTCAGT
CGCCCCTGGTGGAGGCAATGCTGGTACCCACGACGTGGAGCCCTGAAGGATGAGGAAAATAATTTCTGAGAAACTGACTCAGGGAAGTGCCTGTGTTCAG
GGCGGAGGTTCCACTGTGATTTGAAAACAGGCGATTCTTCCAGACAACTTTAAAGATGAGTAGGTGCAAACTGCAGCCACAGTAAACTTCAGGGTGTCAA
CTTCAGGGGAATATAAACAGCCTCCAGGGAGCCCCTCTCTCCATCCCARCCTTTCTTCCTCTCTCGTAACTGTTATTTACTCAGTAATTACAGGTTCAAG
TCCCTTGTCCAAAATCCAAAAAGCCGACACTGGAAATATTCTGTAGCTCATCTGGCAGCAGGGCCAGAGCTGATGATCTAATTCGGATGATTTATGGCCT
CTGTTTACCCCACAGACGATCAGTGTGCCTGCTTCCAGGGGGCTGCTCCTAAGGGAGGTGCTGGCACTACCTTTTCAGCCTGCATGGACTGTGCTGGAAA
CACTCAGTAGCAACTCAGGCTCAGGGAGCCCTCACCTGAAGCCCTCCTCTTACCCACCCTCTGCCCTATAGACCCCCATACTCCTGTAGATACCCCCTCA
TTACAGACCCCCACCATCCCCGCTGGATTAGGGTTCTCTAGAGGGATGGAACCAATAGGCCAGATATGTAATAAAGGGGAGTTTATTAAGGAGTATTAAC
TCACAGGATCACAAGGTCCCACAATAGGCTGGCTGCAAGCTGAGGAGCAAGGAAGCCAGTCCCAGGCCGAAAGCTGAAGAACTTGGAGCCTGATGTTCGA
GGGCAGGAAGCATCCAGCACAGGACAAAGATACAGGCTGGGAGGCTAAGCCAGTCTTGCCTGTTCATGTTTTTCTGCCTGCTTTATATTTGCTGGCAGCT
GATTAAATGATGCCCACCCAGATTGAGGGTGGGTCTGCCTTCCCCAGCCCGTTGACTCAAATGTTAATCTCCTTTGGCAGCGCCCTCACAGACACACCCA
GGATCAATACTTTGCATCTTTCAATCCAGTCAGGTTGACACTCAGTATTAACCAGCATACCCACCATTGTTTCACCTGCAGCCTCCCCCATCTCAGCTGG
TGCTCACTTTATTTTTACTGCTTGTTGTTCTGGCCCCAGATCTCAGAGTCCTGGTAACGCCTCTCCTCTTCTCACTGCCTTCAGTATCCAGCCAAGCTGG
GAAACGCCACTGCCMCAGTACCTGCAGGGTCCAGCCAGCTCCCCACCTCCACTGGATGCCACTGTGTTAGCTTGGGCTGCCACGACAGAGACCACAGAGT
GGGTGGCTTAACAGAAGTGTATTTGCTCAGTTTGTAGAAGTTGAAAGTCCAAGGTCAAGGTGGCGTTTCTGGTGGGGCCCCTCTTTCTGGCTTGCAGATA
GTTCCTCCTTACTGTGTCCTCTCTGTGCTTGGGGGTGGGGAGAGAGGCGAGAAGGGAAGGAGAAAGAGATGGAGACAGGTTTGCTGTCTCTTCCTCTTGT
TATAAGAACACCAGTTGTATTAGTCTGTTGTCGTGCTGCTAATAAGCACATACCTGAGACTGGGTAATTTATAAAGGAAAGAAGTTTAACGGACTCACAG
TTCTACATGGCTGGGGAGGCCTCACAGTCATGGCGGAAGGTGAATGAGGAGCAAAGTTACATCTAACATGGGGGCAGGCAAGAGAGCTTGCTCAGGSGAA
CTCCCGTTTATAAAACCATCAGATCTTGTGAGACTTATTTTCTACCACAGAACAGAATAGGGGAACCCACCCCCAAGATTCAGTAACCTCCCACTGGGTC
CCTGGGAGCCACAATTCAAGATGAGATTTGGGTGGGGACACAGCCAAACCATATCACCAGTCCGTGGAGCCAGGTGTGGTGGCTCACACTTGTAATCTCA
GTGCTGAGGCGGGAGGATCACTGGAGGCCAGGAGTTTAAGACCAGCCTGGGCAACCTCTTTTAAAGTTAATTACTTCCCAGCAGGCCCTGTTTTTCTGGT
ACAGTCACACTGGAGGTTCAACACAATCCAGCCACCACATCACCCAGGTCACTGCAGTAACCTCTTAGCGGGCCTCCGTGCCCCATCCCAAAAGGTCCAT
TCTCAAAGGAGACTCCAGGGTGACCCCTAAAACCCAAGTCCAATCACATTACTCCTGGGCCTCACACCTGCAGCAGCTCTCCAAAATTCTCAGGATAAAC
ACCGATGTCCTTACTATGACCTCCAGGGCCGCAGAGCAGGCACTGGCAAACTGCTGCCACCTGCTTCTGTATGGCTTTCTAGCTCAGCACAGTTTCTGTG
GTTTTAAGTAGTTGGGGGAAAAAATCAAAAGCATAACTTGTGGTGCATGACAATGATATGAAATTCATATTTCAGCGAGCACAAATAAAGCCGTGTTGGG
TCATAGCCATGCCTGTTTGCTCAAATGTTATCTGTGGCTGCTTTCATGTGACATCAGCAGAATTCACTGGTTGTGACAGAGATCTACATAATTCCCTCGA
TTTTGTCTCTTGGCCCACAAAACCTAAACTATCTACTCCCTGGCCCGTGGCAGTGGAACTTTGTTAACCCCTGCTTGGCCTTCTTTCCTCACTACCTCTT
TGCCCGCCAGGCTCACCCTCACTCCCTCCGCTCCAGCCACACTCAGTCCCTGCTGTTCCTCTAGCACGCCAGCCCCAGGGCCTTTGCATTAGCCGTGCCC
TCTGCCTGAGTGCCCTTCCGCTTCCTGCATTTTGCCCTTCCTTCAAGCCTTTGCTCAGTGTGGCCATCCCATTCAGCCTAATGGTGCATGTTTCCTCCAC
CTCCACAGTTCCTCTTATCCTGTTTCCATTTTCCTTAGCAGTTATCCGCATCAGACACATTTCTTTTTCTTTTTTTTGAGAAGGAATCTCGCTGTGTCAC
CCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAATGATTCTTGTGCCTCAGCCTCCCGAACAGCTGGGATTAC
AAGCACTTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGAAGGGGTTTTACCATATTGGTCAGGCAGGTCTTGAACTCCTGACCTCAGGTGAT
CCTCCTGCATCGGCCTCCCAAAGTGCTGGGATTGCAGGCGTGAGCCACCGTGCCTGGCCCATCGGACACACTTCTTACTGATATGGTTTGGCTGTGTCCC
CACCCAAATCTCATCTTGAATTATAGCTCCCATAATTCCCACGTGTTGTGGGAGGGACCCAGTGGGGGATAATTGAATCATGAGGGTGGTTTCCCCCATA
CTGTTCTGATGGTAGTGAATAAGCCTCCTGAGAGCTGGTGGTTTCATAAGGGGAAACCCCTTTTGCTYGGCTCTCGTYTCTCTCTTGYCTGCCGCCATGT
AAGATGTGCCTTTCACCTTCTGCCATGATTGTGAGGCCTCCCCAGCCACTTGGAACTGTGAGTCCATTAAACCTCTTTTTGTTTATAAATTACCCAGCCT
AGGGTATGCCTTTATCAGCAGCATGAAAAACGAACTAAGGCACCTACTGTATTTGTTTTCTTGTCTGTGCACCACTGCGGAACTGTGAGCTCCCAGAGTG
CACAGATATGTGCCAGACACCAAGATCAGAATGGGTGCTTCGCAGTGCTCAATACATTATTTATTGAATGACTTAATGTAGAATGACTAGTTACACAGTT
CAGGTGCTAGGAGGCAGTATAAAAGTCAGAGAGCAAATGCTTTAAGAAACTGTAGTATACACCAGGAAATGCAATTCTTTAGTTAGATACCTTCTCCTTT
CAGTAAAATTATGTTCAGTGCTGTAAATAGGCAACTTTCAGTGATTTGTTTTTCAAACAAGTGGCTTTTTATCTTTTCCTCTTGACAGTGAGTGTCTCTC
CATGTGTGAAGTATTTTCTCCTCTCATATCTGTGAAGTCCTGCTTGTAAGTGTTTCGGTTATGCAACATTTCATGGGGAATTTGAGCACTGGAATTCTTG
GTCGCTAGTTAGGTGGGTCTTACCGCATTTGTCAGAAAGGAATGCGTCCATCAGGTTGGTTGACGGGTTGGTTGACGGTCTGCAAGTTGCAGTCTTGGCA
CAGGCACCCATCAAAATGACACACGGTGACTCTGGTTTCTTCCAGCATCCCCGAGATGAAGATGAAAAACTGTTGCATAGCAGGTGGATCTTGCTAGAAG
CTCTCCAGCCATGTGATTAGTTTATTTGCTCATTTTTTTTTTTCCTTTTAATATAAATATATCAGAATTCAGGCTGGTTTCAGAACCTGGCATCAGGAAT
GGAATTTWAAAAAAAAATTGGTTCAGATGTATCATTCCTCCAATTGGCATATATAAAAAGAATAGTGTGGCTCTTGCCTGGTAATACTGGCACTTTGGGA
AGCCAAGGTGGGAAGATTGCTTTACTCCAGGGATTTGAGACCAGGCTGGGCAGCATAGTGAGACCCCGCCTATACAACAGATTTTTTTTAATTAGCTGAA
CATGGTGGTGTGCACCTGTAGTGCCAGCTACTCGGGAAGCTGAGGCAGGAAGATCCTTTGAGCCCGGGAGGTTGAGGCTGTAGAAAACCACGATTGTGCC
AGTGCACTTCAGCCTGGGCAACAGAGCGAGACCCTGTATCAAAATAAAAAAAAAAAAAAGTGCTTGTTACTGTCCTCTTTATGCCAGTTCCTTTAGGTTG
CACATTCGTGTTTCTTTTTTATTTTTATTATCTCTTTTTTTNNNNNNNNNNNNNNNNNNNNTGCATTAGCCGTGCCCTCTGCCTGAGTGCCCTTCTGCTT
CCTGCATTTTGCCCTTCCTTCAAGCCTTTGCTCAGTGTGGCCATCCCATTCAGCCTAATGGTGCATGTTTCCTCCACCTCCACAGTTCCTCTTATCCTGT
TTCCATTTTCCTTAGCAGTTATCCGCATCAGACACATTTCTTTTTCTTTTTTTTGAGAAGGAATCTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGCACG
ATCTTGGCTCACTGCAAGCTCCACCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCTACCACGCCTGGC
TAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCTTCCTCCCAAAGT
GCTGGGATTACAGGCGTGAGCCATCGCGCCCAGCCTATTACCATTTTTTTTTGAGACGGAGTCTCTCTCTGTCCCCCGGGCTGGAGGGCAGTGGCGCGAT
CCTGGCTCACTGCAACTTCTGTCTCCCAGGTTTAAGCGATTCTCGTGCCTCAGCCTCCCAAGTAGCTGGCCACAGGCGTGCATCACCATGCCTGGCTAAT
TTTTGTATTTTTAGTAGAGATGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGCGATCCGCCTGCCTCTGCCTCCGAAAGTGCTG
GGACTACAGGCATGAGCCACTGTGCCCAGCCTCATGTTTCTTTTGACAGATAACATTTAATAGTAATAAATAAGTGGTAATAAGTAATAAATAATAATTG
AGTGCTTTTCACATTCCAGGTGCTGAGCTGTTTTGCATTTCACGCCCCTCATCTTCATTTATATTGTTGTTCTTAATTATCCCCATTTTACCGATGAGGA
AAGGGAGATTGTAACCACCCCGAGGCTGCACAGCTAATACCCAGAGAGCAGAATTTCGCCACATGCGAAGATTCTAGCTAATCCTAAAATCTGTTTTTCA
CCAGACGACGCCGGCCCTTCCGGCTTGTCGTGCAGCACGGCATTATCTGGTACCCACCATTTGTATCCCGGCATCATTTATCTTCTCCCTACCTTGTTGC
CAAGGCACGTGTGGGTCCCTAACGGCTGGAAACACCAATTATTCAAGACACCCTAAGGGAGACCAGAAGGAAAGCGATATTTAAGAAATGCAGGCACAGA
AAAATTTAAGCATTTTAGACTCATTCTCCATCAGAAACAGGGAGGTCTTTGAAGAGGCTGCTTTTGTAAAAATTGCCAGCTGTACCCGGTCAGCACATTT
TTGTTGTCTAACATTTGTTCTCAACCAGCAATTAGTCAATGACTCTAGAATTTCAGCGCAGATCCGATGAGTATAGAGGACGCGGTGTACGCCCTGTGTT
GCCATGGCAACGCAGGCATGCACATCCTCCTCCCTTGGCTGCAGTGTGGTGGTGAACAGCACTCCGGTTGCTTAAGTGCTGTCTGCAGACACAAAGATGT
GTTTGCCTGGTGAAATTACAGAGCTTTTCTTTCTACTTTTTAAGAATTTTCTACACTTTCTCCAATAAGTATGTGTTTTATAAGGAAAACAACAAAACAA
GCAAACATGTTTATAGGTCTGCAGAGAAGAAGAGTTCTTGTAAACAGTGTTGAATATTCATGGTTCCCAAGATCGGCCRTTTCCCCGGCCTTTCACCGGT
GAGAAGTAAGGCATCTGCTCTGGCCAGTGGCTTGCGTTCCATTGGTCACCCTTGGCATTGCTTCACATATGTTTGCGGCTGCCCTTTTTTAACCCCTTGG
TGAATGTGATGTAGGAGGCAGAAGAAAGGCCTTCTGTTCTCCACAACAGCAGACCGCTGAGAGCCGATCATGTATCTGTTTTTAAGGAAAGCAAAACCTG
TTTGCCAGAGATGAACATCCTTCACCCTGGAGCCAGCATCTGGTAGATTTGGGGGTTTGGGGATGGCAGGAATGAGTTACTCGATTCAGAGACCAAGAAC
TACTTCTGTGAAAGCATCATCTGGGTTTATGTTTGGAATGTCTAGTATCACATCCATAATGAACCTTTTTTTAAAAAAGTGGGCATCAGAATGAATCTTG
CATGTCACCAAATCGAAAGCCAATCCTGAGTCATAGAAGCATTGACTGGTGCCAGAACTTCAAAGAAAGAAGGAACACTGCTTACCTTAAATTTTAATTG
TTTACAGTTGTTTGCAAACCTTTTGGCTTGGTGGCTCACGCCTTTAATCCCAGCACTTTGGGAGGCTGAGACGGGCAGATCACCTGAGGGTCAGGGGATC
GAGACCAGTGTGGCCAACATGGTGAAACCCCGTCTCTACTAAAATACAAAAAATTAGCCTGGCATGGTGGCGCACGCCTGCAGTCCCAGCTACTGAGGAG
GCTGAGGCAGGGGGATCGCTTGAGGCGGAGGCTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGATGACAGAGCAAAGCAAGACTGCCTCTTGA
AAAAAAAAAAAAAAAAAAAAAAGCACTGCTTACCTTAAATTATAATTGTTTACGAACCTGTTTCACACATATTATCTCATCTGGCCCATGAGACTGGCAG
GTGAGAAAAATGGGTATTAAATTATTGTTTACATCCCACTGACAAAAATAAACAGGGTCAGCTGGGTAAGGGACGTTTCCCGGATTCGTTAAGGGGCAGA
AGTGGGACCACGGTGAGTTCGTTTGTTTCCAAATCCAGAGCCCCCCCTTCCCTGCCCAGACCCAGGGCTGCCCCTAGACCATGCAGGGGAATGCTAGGTG
GGAAATAGGACATTTTGTTGAAGCCCGATGCATGATTTAGCCCACCAGTACTTGGGTTCTAATATTCCATTGTGTGCTAAAAACAATGTACTTGGATCAA
ACTTTACCTTATATTCATGCAATCTCACAGTTATGTGGAAATCTAGCTATTATACAGAATTATTAGTCTACCTTTAGGGCTCCCCACAGCAACAAGCAAA
CTCACAGAGCCCAGGGCAGGAGGAGCTGTTCTGACTKCAGGCGGCCTTGCCAGGAGCCCGTTGGCCTGGGTGGAGCCCGTTGGCCTGGGTGTCCACTGTC
AGAGGATGGAGATTGATCTGGGGTTACCTTTTTCAGCCTTTGCTTTGTTTGTCACCTGAAGGGGCTGGATCCYGAGCCCTGTAAGGCCCCCTTCGGCTGG
TGCACACAAGAGGACAGCTTTGAGCCTCCACCAAGGTCTCTGGATTCCACTTTAAGTGCGGGCTTGGGTGTGGGAAGCTGCAGGCCAGCCTCGAGGGCAG
CCTCCTGGAGGTGGAAGGGCAGCGGGGCGCGAGACTGCTGCGCTGGTGGGATGCTTGGATTCCCAGGCCCCAAGTCACTATCGGGGAACRTTCTTTGAGG
TTTAATAGTATTTTAGGATTTTTTAAAGGATAGATAATATCTAGATGTTGTGTTCTACCAAAACAAATATTGTTCTTTTGGAAATATGTTAGACCAAAAA
AATGCATCTAGATCTTCGAGTTTTGACTTGGAAGTGCCTCAAGTGAGCGAGTGCCTGCTGTCTCAGACATGAGGTGGATGCTGAAGAGATTACCCCTGAC
TTCATAGTCTGCCTGTCTCAGAGCGTGGGCGGGTTGGCATCGTCTGCACGTTGACCGGGTCGTTTTTAGCTTTGCCCACTTTTCATTTTTGGCTTCACAG
AGTGATGCCTCTGGAGCATCCCCTTGCGGAGCCTCAGCATCTCTTCTCTGCTTGGCCCACGTCTAGCAGTTCTTCTTCATCTTGCAGGGAAAGTGTGTTG
GCAAACATGCTGGATACTGTCAGAATCAGAGCAGGCTGGATCCATGGCCGTATTCTGTAAAATTCCATTGTGTCTTTTTTTCCCCCAAGTAATCTGGCTC
TGGGAGGAAACTCGCTGATTGGAGACTAGCTGAGAGGGCTTGGCTGGGATTCTGTGGGATGGGGCCTTCAGGAGGTGGAGCCGCCCCAGGCCATGGAGAC
CTGGAGATGCTCAGGGAAGGGGGTGGTCAGGCCCTGGGTCCCATGTTGGCAGCCTCCCTGGCCCAGCGTTGGGCTGGGACCMTCTGCCTCTCCCAGTGAG
ACCAACCCTGCCCTCTGGACGGATGGAAGGACACTGGGGAGCCGATGATGCCCAGAGTGTCTGGGGGACGCATCCAGGGTCCCAGGCCCAGAAAACARTG
GAGCCAAGAGAGGAACGAGGTCTCTGGATTCCGGACGCCCTGCTGCTACTTGGCCTCCAACCAAAAAATTGTTCTTCTCCTTCCTTTTTTAGTAGGGGAG
AGAGGAGCAATTTTCCATGGAATATATCTGATGGCAGGTCTTGAGGTCAGTCTGTCAGAGGCCTGGGAGATCAGGGGACAAGGGTGAAATTCGAATAGAT
TGTACGAAGGTTTGAGAGCTGGCATGACCCACTTTTGACCGTAAAACCTTTCAGCTTGTTCTTGACTTCCCCCCCATCCCTAATACCCCCAACTATGCAA
ATGATAGTACTAGGAATAATAGTAGTAGAAGTAGTAATAATAATTACAGAAGAGCAAATTTAAGAAGCTAAGGAGGGAGGAAGGAGGCAGTGGTAAGTTC
TGCATAGAAATGATTTTTGCACAGAGCTTTGTCATTGGGAAGGATGCTTATCACAGGGGGCTGATGAATTTGTTTCCTTCTTGCCTTATTTTTGGCAGTT
TTCTTTCTTGATGGTGGGGAGGGTTTGTGACCAGGTCCTAGTGAGGCAGCTTTCTGAGCACTTTTTCTTGATCACTGATGATGACCGTAAACAAGCTGTG
GGAACATAAGGAAAAGCAGATGTGGCCACTGGTGCTTGGAAGAGAACACAATGAAATTGAGTCCCTAGCAGGAGAAGTCCCTGTTAAAATGGCCAGAGGA
CATGGGGACATGGGGCAGGGAGAGCTTCAGAATGAGCGGGAAGCCTCCACAACAGGTGGAGAAAATAGCAAGGGCTGCTGGGCACGATCATTCGAGATTC
CAAGASGTAAGAACTGGGGGCTGGGCTGTGGAAGAAGTGCGAGAGGGAGTGGGGAAGGCAGGCTGGGCGTGCTGTGGTTATAGGCAGCCTACATGTCTTG
AGTTTTCAGTAGAGAAGGCCTGCTCCTCACTTTGACCCCGGACCTGCATGCGCGCTGAGGATGGCAGAGGGGCTCCTGCCTGTCTCAGTGCTCTGGRGTC
CCGTGCTGAGGGAGCATCCTTATGGTAAACGTCCCTGGTTCTGTACCGGAGGAACAGGAGCTCTGGAGGTCTTCTGTTTGCTGTTGTATGCTGTGGCTCA
GAAGTTATGTGGCCACTTTCACTCCCAACTCACAGGCCAGAAAGTGTAGTGGGAGGCTGTGGGCATATTTGGCGCTTGGCAGGATTGAAGGCGCAACTCT
TGGCTTCGTGTTTCAGAGGTTGGTAAATGGAGTCTTGCTCGCCAGGTGCATGAGGTGAAGTCACTGGGCTGGGTGCAGGGAGTGAGTGGCCAACCACCTG
AGAATACCTGGTGTTTCCTTCCTCAGGGACGGTTTGGCACTGGGCAACAGCTCCATTTAGCTAGGGTAGGATAATGGTAAAGTTGCCAGCAGCAATGCTT
TTCCTGCATTTGCCCCAACTCTGTGCAGGGCCAGCACTTTTAGCTCCTAGTCACAGATATGGTGACAGGCTTGTCTCCACCATTGGAGTAAGCTCCAGCC
CAGCTCCTGGCTTCTGATCTGTGTTGACTGCTACCCGATAGAGCCACAGTCATCCTGTGTGCCTGCTTGAGTCTGCACCGAACATGGCTCTAGCTTCTTC
GTTGGCCAGACAGGATCTGCTGTATCCTTATGATACCTCGTCATCTTGGAGTCCACCGTGCACTTGTCCGCTTGGGCTGCCATAACAAAATACCAGAYGC
TGGGTGCCTTAAACCACAGAAATGCATTTTCTCACAGTTCTAGAGGCTGGAAGTCCAAGATCAGGGTGCTGGCATGGTTGGACTCTGGAGAGACTCTTGT
CCTGACTTCTAGATGTCTGCCTTCTTGCTATCCTCACGTGGTGCAGAGCATGCCAGCTCTCTGCTGTCTCTTTTTCTAAGGGTGCTAATTCCATCATGAG
GGCCCCATCCTTATGACCTTGTCCAACCCTAATTACCTTCCAAAGATCCCACCTCAGATACCATCGCATTGGGGGTTGAGCTTTAAATACAAATTTCAGG
AGAGCTCAATACAGCCCATAGCACAGCGCTTCCGCACACATCCACATTGCAGACCCGCCATCCTCAAACGCACTGTGCTCCCGTGAGCTCCCTGCCCTGG
AGTGGAAACCCTGGGCTGGGGAGGAGGTGCGCTAAGACTGGGCCACAGGTGTGCTCTGGTTCAGAAAACTCTTGCAGGTCCTACTTCCTGCCTTGACACC
ACCCCCTGCCCACAGCCTTCTCATTCTTGTCCTGTAGCCCAGTTTCGTTTCACCTGTCCTCTGCYTGTAATCCTTTTCAGCCCCTCTGAAGAGCGGCCCA
GTAGGATGGTTGACTGACGTTAGCTTGGCTTTCTTCCTAAGGCACCGTCTTCCTCATTGAAACTGTGCCCATGACCTCCGGAAGCCTGCCAGCCGCCTGC
CTGCAACCCCATAGCCGAGTCAGCTCCCTGGATGGGCTAGTGTGTTGACCTTCCACTGCCCCGAGGGGAGGACTCTGCCCTASTGGATCCTCCACCTCTC
ACTTCATTTTGCCAGTTGAAATGTTCCCCTGCCTAGTGTAGGGACTGCCACTTCATGCTGTCTTGCCAGAGCACCTTCCCAGGCAGCTGCAAAGGTGGTC
TTGGTTTGACTCCCTTGTGGCCCACACAACACTTTCGTTGGAGATGAAGAGTCTCCCTTTCAGACTGCAAGCCCCTTGAGGTCAGGATGCTGCAACGAAT
ATAATAGAAAATGATGTTAATATTCAAGGTCATGGCCATCCTCAATGCAGCCTTCATATTTTCATAATGAATAGTTATTGTGAAGGAGCTGATTTTTGGA
GGAGTGGTTTGTCTGCWGTTGCACACATCTGTGATAACATGGGGTGGGTGGTTCTGATTCCTGTTTTGAGGTGGTGATTTATGATGCCTGTGTACTTCCC
TGTGGTGCCCAGGCCTGCAGATTACAGACGCTGTGTAATTAGAGAATCCCTCTCCACRTGTGTTCTCTGAACAGGGAGCCCAGGGAGGCTTGGATCTTTA
GATTGATAAGCAGGATAGTAAACCAGTTGTGAGGAACATTGTATAGAGAAAAAACAACCTTGAGTTTCTGTTGAAATCTAGATTTGGTATAACTGTCTTC
ATTTCTTTAAAGAGCATTCATCAATGATATTAATGATTTTCATTTCCTACCTTTGTAGTTTTCATATAAATTAGATTTACATAGGAGACAAAGAAATCCT
TCCCTCCCTGTTCCAGTTGTGGAACATATGGTCACCGTTCTGTGACTGGGAGCATTGCTGTTTGGCRTGCTTGTGGGCACGGTTTAAGGGTTGAGACCAC
ATCCTAGGTGGCGGTCACAAACCCGGCCCAGCGGCCTCCCTGCTAGGCAGTCCTCCATCAATACTGATGTTAATAATTATGTAAAATCATTCCTGTCCGC
AGCCTAGAGTCTCACTGGAGAACAATCAGACATGCTTTATTTTCTACTTGTAATCGTAATCTGAGTGCAATTTCAGGACTTTGTTTTCCAGATGGCTTAT
TGTTTCACACGTTTTCTTTTCTCAGTGAAGCCCAGGTAACCTGCTGCTTGGGTGTACGCTGGGCGGGTTCGCAGTGCTGGAAGAGAGAGTGGACAGATTT
TACACCAGCACCTTTCATCTCAGGGGTGCTTGTGAATTGATTGCACCYCTCCTGTGGCGTGGAGGCGGTGCCTGGTTAAAGTGGGGMTCAGATGCCCCTT
GGTTGCATTTAATGTGTGTGCATAATCAGAGGGCAAGGACAGCAGTAAATAATTTATGTCAGCTGGAGCCCTTGGCCCTGGTAATGAGATCTCAGGGGCA
GCGCCTAGAGTGCTGGGCCCTTCCAGATGATCTATGAATTGGTCTTTGCCTTTGTACTTATTCAAACTGACAAATACTTACTTAATAGCTGATTGTATTC
AGGTGCTAAGGGAAAAGAACGTGACTGTGTGGGGGTCTCCCTGACTCCTTAGAACCTGCAAATGCATGAAACTCATGTTAAGAACAGTTGTGGTTCACGT
GTACCAAACTTGGGAAATCCTGACCAGCGCATCCAGGGTYGCTTGGGCACAGTGGTCCTTTTGCATGGGGTGGCCGGVCAGGTGTGCTGAGTGCCACCTG
GGCTTGCATGCCGGACGCATACCTGGCACCTGCTTCCAGGTTGGCCTGCCAGCCGATGTTGTGATCTTGTGGAGGGAATGACCCCACGTCTCTGGATTCT
GGCTTCTGCTTCCAGTGAGACTCCGCCCAGGTTATGTTTGTGGCCTTTTATCTCTCCAATGTGAGGCATCTCTGATGATGCCTAAGGATGTCCTTCTAAT
TTGGAGTTAACCTCTCTTTCCCAGGTGAGGTTAGCAAATACGTATAGATTGTAACAAGAGAATTTTGCATTTCAGTTTTGTTTTTTTTTTTTTTTTGAGA
TGGAGCTCACGCTGTCGCCCAGGCTGGATAGAGTGCAGTGGTACGATCTCGGCTCAGTGTAACCTCTGCCTCCTGAGTAGCTGGGATTACAGGCAGGCAC
CACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACTGGATTTCGCCATTTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTCATCTGCCTGCCT
CGGCTTCCAAAAGTGCTGGGATTACAGGCCTGTGCCACTGCACCCGGCCACATTTAATATTATTTACCTGAGATTTTTGAGGCAAGCAGCCCTGGGGATG
TAAGCACCTTTTAATTTGGCAGCTTATTTGATAAGCAAATGGGTTCTATCTTAAAATCCAAAGTTGTTTACACTTAWTGCATATTTTGAGAGCTGTTACC
CAAACCTTTTTCCTTCCTTCAATGAGAAGACTTATATCTTTTTGAGCAGAAACTGTGGATTCAGAAACCARCAGAACTCTTCATTCTCCTTAAGGAGATA
GAGGCCAGGGAAAGTGTTTTTAGGTAAATAATAACGCCTTCTTGCCTCTCTCCCTTTATCTCCCCATTCTCCCTGAAAAAACTACAAGAAATGGTAAGGA
AGAGAATAAAAGAGGAAAATAAATCACAGATAACTAGAACCACTTTATTGCTATTATTCCAGGTGATCTACTGATAAATTAAAAGAAAGATGAATATAAG
CTGGTAATTACTTTAAAATATTCCTTTGTGAATGTGCCTAATTGGCGCGGGCCTCCCTGTAGAATGAGGCTCCTCCTGCAGTTCGAGGAGAGGCTGTAAT
TAACAGTGAATTAGCATATAGTGGCGCCGYGTGGCCCGCAGGGTGGCCTTGTCCATCTGCTGTGTAGGGGACTTAGGTGACACCTGGCTAGTGGTAGTCT
GCAAGAACCCTTTGTTAATGGGAATATTGTGCATGAGTCAGAATTCAGAATCTTTGGTATGGTTTTTTTTTTTTCCCCCTTTTGTGTGTTTTGGCCAAAT
ACTCAAAAGCACTAAGTTTTCTTGCGTGGTATCTGTTCATATATTGATTCACCAAATATTGATTGTACATCTGCGAATGTGCTAGATACCCTACTGGTGC
TGGTGAGCAGAAACAGGCAAGGTCTTTGGCCTCAGGGGGTCCTTGGAGTCTAGAAGGGATGGTGACATTGGCCAGAGTCACCCCATAATCATACAGTTAG
CAGTGTGGCCAGCGTCACTTAAAGYGGGGAGGTGGCTGGTGCTGGAGCGTGTATAACAAAAGTGGGATCCGGAAAGGGCTGCTGGCGAGTGGGAGTTTTC
TAGGGAGCCGCTGCTCTTGCTTCAGGTCTCAGATGGCATAGGAGTGTGTGTCATCCCAGAGGAGCAGCAGCAAACGGCCTGTGATGGGCTGGATGTATTT
GGGGAGGGAAGAAGGCAGTTGTAGCTCAAGGGAGAGAAAAGGCAAGGAGAAACATGGCGAGGGGTGGGGGCTTTGCTCTTTAGCCCGTGAGCAGTGGAAA
GTCATTGAATGCTGTCTGGTGTAAAATCTGTTAGCAGTTTCACTTCCATCTGGAGCACCCAGGCCTGCAGGAGTGTGGGTTGGCTCTCTACCCCCGTTGC
AGATTGGCTTGTGGTTTGGGGTGTGCCAGGCTCAGGGGCAGGGCCCTTTTTCCACACGCTTAGGGAAGATACGAGACTGGCTAACTCAGTATTCACCGTG
AATTCTTTTGTGGGAAATAGAACACAGCGTTGGGTACCAAGAGGGTGCTGTCTTTTCCTGTTTTCTTGGCCTCCTAGGGAATCAGTTTGATTCTGTGGCT
ATTAAATTAATGGTTTAGCTGAGATGTTTTCTCTACTCAGGGCCCAATGCCGTATGTGATATTTTACAACAAATTTGGTTCACTGGGGCCGACTTGAAAA
TAGTCAAAGTCCAAGTAAACTTCTGCCTGTGTGTGGTGCGCTCAAATAAAGGAGGCTGTTCAAGGTGAGTGGTTTTCCTGGCGGTGTGGTTTTTTAAAAT
TTCTAATAAAATGCAAATGATTACAGCCCCTTCCATGAAGAGTGCAAGTACGCCTGACTCCTCCGCGCAGGGAATGAGCAGCCTCTGCTCCTTCATTTGA
TTGCTATGACAACCCACAGAGGTGGGTGTTGTCACTTCCACTGCCAGCCAGCTTGCACGGTCCAGGGACGTCCCCACCCTCGGTTGGGTTGTCCAGGGTC
ACATGGTTGGGAGTCAGAACCAGACTTCAAAGGGCATGTGACTACAGCATCCATCCTCCCTGCTCTGCCTCGCACTGCCTTCTAATGGGTCCCACTGAGG
AGCTTGCCAGTATTGTTACAATTGGAGTGATCTCATATGACCAAAAGTTGGAATGATCCCATTCTTTACTCACAGCCTGAGCTATTTTTTTTCAAAGCAT
TATCTCTCTACTGTTTGTAGGCAGAGAATTTATTAAATCTTGCCTAAATTTATCCGTAAGCATGGATCAAATGCACATTTGGCATGATTCTCATCTCTGA
GCCATTGCAACCTATTTTTTAATGCCAAGAGAAAGTATTTTAAGGAAGTGGGGTCAGCTTTCCTCTGCTCCCCTGACTTCACAGGATAGCTATGCATTTT
GCCTCTTGGGGAGCTGGGTTATTGTGAAMCTAGGTCAAATTATTGTTTTTTCTCTTTATGCTCATAGCCATTCCAAAGACAGAATCCTTTCCTCAAAAAA
TGAATTTTTGAGTGTTCCTATATTCTTGGGGATGAACTTCAAGGGCAGAAAATAAATGAAAGGGGATTACTTTGACAGCATCTGAACAACAGAACACCTT
CTGAACAGCACAAACACTTGTAGCAAAATTAAAAGACCAACAAAAATATGTATTACATATAGAGCATTGTCTTCTATATGTAAAGAGTTCTTATAAAACA
ATAAGAAAAATATTTCCTAACTAAAGGAAATGGACACAAAATTCATAAAAGAAGAAACAAAGGAGCAATTAAGATATAAATATATTTGGCTTTGTTGATT
AAAGAGTAACAATTAAAATGACAGGTGACTTCTGGGCCGGATGCAGTGGCTCAAGCCTGTAATCCTAGCACTTTGGGAGGTAGAGGCAGGCATATCACAA
GGTGAAGAGATCAAGACCATCCTGGCCAACATGGTGAAACCCTATCTCTACTAAAAATACAGAAATTAGCTGGGTGTGGTGACGTGCACCTGTAGTCCCA
GCTACTGGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGAGTGCGCCACTCTACTCCAGCCTGGTGACAGAGT
GAGACTCCATCTCAAAAAAAAAAAAAAGGTGACCTCTTTCTTTTCATCTGGTTAAGTTCAGTGTTAAAAACAAAGGCCCAGTGTTGGTGAAGGTGATGGA
AAATAGTTCCCCTTTTACATTTTAGTGGGAAAAATGTAAATTGAGATAGCCATCTGGAGAGAAATTTGTCAAACAGTAATAAAAACCCTAACAATGTATT
TGACCTCTGACCTGGCAATTTCATTTCTGCCTATCTTCTTTTAACCCTAGATTGATTAAACTCGTTAAATAAAACACATTTGTGGGTATAGAAAACTTCA
TAGGTTTCTGGCTTCCTGCCCCACCTGTGGTTTCATTCTGCCCAGTTGTGTTCAACTTGAAAACGCTTGGTGCCTAGCACAGAGTAGACCCTTAATAAAT
GTTTCTGTCCTGAACAGATTTAAAAACAAATAGTGAAAACAAAATTCTGAACGTATGATTTTAAAAATCATTTTGTAGCCTAACACTTAGGAAACGTACT
TTTTTGTTGCTTCGCTGAAGTGAGGAGGGGTGTATCTTGTAATTTTTAAATGCCATTATTAACTTCCCTAGGGATGCTTGTAAAATGAACAAACGTGCAT
CTTTAAATTTTTTTTATTTTTTTTTTTTAAGCTTGGAAAGAGTTGAAAAGTCAAAGTCACATCAGCTCTCTAGGGATTGGGCTGGGCTCACATTTTATGA
ATTTGCTGTAAAGAAGGGAAACATTTGCTTTCACTTTTGGCATGCTGAAGTGGCTTTACCAGGGAATTGTGACTTTAATTTTAAGAATTAATCGTAATGT
AGGGGGAAAAATGTTCTTAAAACACAAAACAAACAYGTGTGAATAGATGAGGAACAGCAGTTAAAATAATAACTTTCAAAAACTAGGTTAAAATGTCCAG
AGAATTAGATTTTGTTAATGTTCAAAGCACAGCTAAGTTACTTTTTCTACAAACAATTCTTGAAAACGTTTTTGATTTTTAAGAGGAAATTAGAATAGTG
GTTGAAATCATGAGGCCCCAAATCAGCAGTGTGCTTGCTGTTAATTTTGTTGTTGTAAAGAACATTTGTTTTTGGCCAGGTGCGGTGGCTCACACCTGTA
ATCCGAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCCAGACTAGCCTGGCCAACATGGTGAAACTCTGTCTCTACTAAAAATA
CAAAAATTAGCCAAGTATGTTGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGCCGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTG
AGCCGAGATCCCGCCACTGCACTCCAGCCTTGGCGACAGACTGAGATTCCATCTCAAACAAACAAAAGAACATTTGTTTTTGAGTTATAATCTCTGTTTC
TGCGGCCTGGCTAATAGTTTGGATAGAAACATGTCTTGCATACATGAGTATTTGTTTTTTGTTTTTAAAAACACTCCAAATTCAGATTTCTTTTATTAAG
TAAGTGGATGCAGTGCATAGTTTTGGGATATGCATGCATGCACTTTTGAATTTAAATACATACTAAGATGGCAGTTGGGGGACCTGAGTCTCCCTTGTGG
TGCTGTGGGTTTGTAGGGGCCGGCGAGTTAACTGAACTGAGTTGAGTAGCTCACATCTCGTGGAGCATCAACCAAGAGGATGCAACTTGTGTAACTGTGA
GAAGCTCAGACTTGGAAGATCTGCGTCTGTATGTGATCGCACACATTTTGGAGGGTGGGATGTGCTCGGTCTTGGGCGCGTGCAGTTTTTGCTCCCTTTT
ACTGTTACTGCGTTGATGATGTGTAACCCATGATATCCATGAGTTACTGTGATTTCTTTGTTTATTTTGACTCAGAGCTCCAAATACATGGGATGCTAGC
AATTTCTGTGTTATCATTACTAAACCACAAGAGCTGGAAAATTCCAGTAGGTTTTTGTAGGTGATTTTTCGGGAGCAGTTGGTTTTCCTTGGCCTTCATC
CTACTCTACAGAGTGAATGTGACTAGGTTCTGTTGTCATGGGGCACCTGGTCTATCTTGCAAGTTGAAGCCCCTATCTGTCCAGTTTAATTGACCTCCTG
CAGGTCTGGTCTTTCTTAGTTTTTTTCTAACCTTCACTTTCTGGTAGACCCATTTCACATTAGTGCAAAAATTTTCAGTCTCAATTCAGGCATAAAGCTT
CAAGTTAAGGATTTATAGATGAAAAGGCTTTAGTTATTTTATCTTTTTATTAAGGTCCATTTTTAAGCTTATATTTAAATAATGTACCATAAAAGCTTAA
AATTACAAGACTTAAAATTTTAATAGTGGCTGTTAATAATTATTATTACTGAGCTCTTGTTATGTGGTATGTATAATCTTATTTAACCCTCAAAACAAAA
GCAGAAATCAAAACCTGGGTGGGTAGATGTGGTAGACGTAATAACGGCCCCCAAAGATGTCCCAAGTCCTAATCCCTGAAACCTGTGAATGTGTGACCTT
CTGTTGGCAAAAGAAATTAAGTTAAGGACCTTGCGTTGGGAGATTATTCTGGGCTATCTGGGTGGATCTGTCATAATCACAGGGGTCTCTATAAAAGGAG
GCAGTAAGAATGATCTTTTGGGTCAGAGTCACAGAAGGAGATGTGAATATGAAAGCAGAGGCTGGAGTGATGGAGCCATGAGCCAAGGAATGGGGGAGAG
CGCTAGGAGCCGGAAAAGGCAAGGAAATGGACTCTACCCCAGAACCTCCAGGATCACAGCCCTAAGTCACCTTGATTTTAGCCCATGTCGATTTTAGACC
TTGGATGTAAGGTAAGAAATGTGTGTTGTGTCAAGCAAGCCACCAAGTTTGTGGTTTGTTACAGTGGTAATAGGGAACTCACGCAGTAAGGACAGGGCGA
TCCCCACTTTACCATGAAGGAAACCAACACTCAGAGAAGTTGAATGATTTGCCCGAGTTCACATCATGAAGTGGGGGAGCTGGGATTCAAACCTGGGGCT
GAAGTGGGGGAGCTGGGATTCAATCCTGGGGCTGAAGTGGGGGAGCTGGGATTCAATCCTGGGGCTGAAGTAGGGGAGCTGGGATTCAATCCTGGGGCTG
AAGTGGGGGAGCTGGGATTCAAACCTGGGGCTGAAGTAGGRGAGCTGGGATTCAATCCTGGGGCTGAAGTGGGGGAGCTGGGATTCAAACCTGGGGCTGA
AGTGGGGGAGCTGGTCAATCCTGGGGCTGCTGGAGCCTAGGATCTAGAGTGCAGTCTCTGGCCTGGAGGAGAGAAGAGGCTCCCTGCAGATGCAGCTCTT
TTCCCCATGTCCACCCCTTTAATTTCATGAGCATCCTGGGCTGGCTGCACTAGAAGGGGACAAGATTGCCAAGAGGCGGCCAGCTGCTGGAGATCAGCAA
CACCAGCTTCGGCGCCCGAATTGCTGCACATTGTCCCAGCAGCTCAAGTGTCTACCTCCTCTGATAGCACAGGTGTCTGGGCAATTCTGCATTGCAACAA
GGGCCCTGTTCTACTTTTTTCTGCAAGGTTTGTCCAGAGTGCGCAGCCAGACTATATGCTGGGCTTGGTTTTCCTGAGCCTTGGCCACTGCTGGCGCCCC
GATCCCGGGCCAGTTGTTCTTGGTGGCATGGCTGTCCCAAGGAGACACATGTTACTGTCTCTGTAGCTGCCTGTGCCTCCAGGTGTGGTGCTGCCTTCCT
GGGCCTCTGCAGCACCTGCCCTCGGCCCCCAGGGACCTTCTTTGTCACAGCTGAAGCCCTCGCATGCTGGAGACTTGTCATTCTTCTCCTGCCGGGCATG
GATGCTGACAATAGAACTACTTTCCAGAAATCAGCAAATGCTGGGCTGTGCCTTCAAAGTATATCCAGGATGCAGTGGCTTCCTGAGCCACCTCAGCCAT
TAGCACCCTGGTCCCGGGCAGCAGCGTTGCTTGGCGGATTACTGCTCWCCTCTTCAAGCCGATGCTGCTACTCTCCTGGACAGTCCACTTGCCCAGCAGC
CAGGGGCATCCCTGAGAAGCCGGGTCAGAGTGTGATGCCCTCTGCCAAAACCTCCTCCTGGCCCTCGCCTTCTGCCACTCTCCCCTTGCTCATGGCTCTG
CTGATCCTTCAACCAAATGCATGCTCCTGACCCTTACATGTCTGCACTGCTTCCTCTTTTTGGAAAACCTTCCTGGGGGCCCTTGCAGCTTGGCCCTCGC
ATCCTTCAGCCTCACCTCCAGTGTCATTGAGGACCCTCCGTGGCACCTGGCCTTCCTCCCAGCCACAGCCCCTCCTCCTCACCTCCTCACCTGCTTCCTA
TTTCCCCATAAACCCCAGCTCCCTGACATGTCTGGTGTCTCTCTCTCCCCACTGGATGGAATATAAGGGCTTGTGTTTGCCGTTTCCCCAGCACCTAGAC
AGGACCTAGCCAATGCTAGGCCCTTTGTCGATGTTCGTTAGGCATGCAGGTGAACAAGTGAATGAGTGATCCTGAGTTTGCTCTGGTTTCCTTCTAGTTG
TGGGAAGTAATTCCTGAATTGCAGCCCTACAGCTTTTATTGGTGACAAGTTCTTGACTCCCCATCACCTCTGATGGAGGGGGCTGGGGTCTGTTGTGAGT
TCAGGAGCCAGGGGGCTGCATCTGCGTGTTGGCTCTGCTGCTGAAGTGGCTGGATGGCCTTGGAGATCTAGTTAATTTTTTTCCTTTTTTTGGAGACCCA
GTCTCGCTCTTGTCTCCCAGGCTGGAGTACAATGGCACAATCTTGGCTCACTGCAAACTCCACCTCCTAGGTTCAAGCAATTCTCCTGCCTTGGCCTCCG
GAGGAGCTGAGACTACAGGCGCCCGCCACCACACCCGGCTATTTTTTGTATTTTTAGTACAGATAGGGATTCACCGTGTTGGCCAGGGTGGTCTTGAACT
CCTGACCTCTGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCACGCCCAGCCGATCTATTTAATTTCATTGTGCCTT
GGTTTCTTCATATGTTTCAATAAAATGGGTATGTTAACAGTCTCTACCTCCCAGAGTGGTTGGGGTTACGTGAAGTAAGCTTAGACACGGCCGAATGAGC
CAGAGCCTCTGCTGCTGCCATTGGCGTTGGCACCATTCTTACCTCCTATACCTACGAGGCTGTCATGTGAATGTGTCAAGGGCCCTGTCACGTCTCTGAG
CCGGCTTCTCTGGGCACTGGCTGGGCTGACCCCAATGGCCCCTGCCCATCATGCATTTAGGGGCTCCTCTGACTCCAGATGTCAGTGACCCTTYTGGTCT
CTCCAACACAAGGGTTGGTCATTCCCTGTGCCCATTGTTCATGCATTGGAACTTGGAGTGCCTGCTCTCTGCCCTGGGTTTATGTCCTAAGGATTTGAAG
ATAGAAGAGGCACAGCAGTCACTTGGGAGCTATTCCCAGTCTAACAGGAGAGGGCACATGGCAGTAACCCCCTGGGAGCGGCTGCTGATGTTCTGGCTCT
CTGCAGTTGGGTAGGAGTGGAGGAGGGGTGCGATCGGAAGGGAGTGCCGCGCAGACCCCCCCCACCCCCTCAGAACAGCGGCCACTGTGTGGATGTTTCT
GACGGCCTCTTACAGACTCTGTCCTTTTTGTTGTAGCTGATGGAGCAGAATTTTAAATGCATTCCTCTAACTAGTGGTCAGCTTGCTACTGYCCAACCTA
AGCTCATATTCAACACTTTAGAATGCCTTAATCTTTTCTTGTTGTGTTTTGAATAGGTTACATGCAGACATCCAAAATAAACTTTTTTTTTTCTGTACAA
AATTAGATTTAGCTAAAGTAGCTTAGGTTTTATAAAAGCTGATGTTCTTCATGCTCTTCCCAATTTTGGGAAAGGAGCCTTCGTCTTTGCTTCCTAGGAA
TGGTCATAGTCACACCAGCCCTCCTGCTGGCTTTGTAGAATGCTCACAGTGGAATAGACTGTCAGCAGGTCCTGAGATGTGACTCTGGACAGCCAGTGGT
CTGTAGCATTCTCATCCTTCAGAGCTCCCTGAGCTTCTTCACGGCCACGCTGCTCTCCTGCATGTCCGCCCATCTCACTGGGGTGATGAATGGATCTAGA
CCTGGTGCCTGGACTCAATCTGCAGAGACAGGTGTCTGGGATCTGAAGACAGCAGTTGGGGAGGACAGTGTTGGCTGCTGCTGTGCTTCCTTTAACTGAA
CCCCGGTGGCCCAGTTGCTCCTCTTGGTGGACTCACTAAGTCAACTTTGAYGCTTCAGCCAACGTCGGTTTYGAGAATGCGACCTATGAAATTGGGAGCC
CTGGCTGGATCAGAAGCACATGGTTCAGTGGACACTGTCAGAGGTGCTGTGGATCACTTGGACCACGGTAGCTAATGTTTGTAGCGCGCTCACRTATGCC
AGACTCTTCTTAGCGCTAAGCCATTTTCCCAGGCCGGGTTATGCAGTGAGACTTCAGGGCAGGCACACATGTCGCTTCCTGCACCCACACTGGACAGTCA
TTGTAGAAAGTAAGATGTGATGTTAATAGTCTCTTCTTGGAGTCAGCACTGCTTCACGGTCCTATTGGCATGAGAACCACGTCCCCAGCTATTCCCACCT
GCACACTGGAGGGAAGCAGGAGGGGAACAAAGTCAACAGCAATGACTGTCGCTGAATCTTAAGTTTATTCTGGATTGAGAAAAGTGGAAGAGGTTAGAAG
CTAACTTGGACATTCTTTTTGGGGGAATAGATGTCTCTCATGCAGCTCATTTTCCAGTGGATTGCCTGATGTTCTCCAGGCTGCTACAGCTATGATATTT
TAAAATCAATGGGCCTTTCCTTTCATTTCGAACTTTCAATACAGCTGCAGAAACAATGCATCTGAACGGATGGACTGTTTTGGAGATTTATGCGTGTTCT
GCAGGCTGACCTCTGCTTGTTGATCGTATTACAGCATGTTGGGCATGTCAAATGAATCTGGGCGTTAGCCTACAAATCAAGATTTGCTTTGCCTCGTTGT
GTAAATATCGGCAAACCATGTTTTGGGGATGGAAAATTAGTTAATTTGGAGATGGTGGGTTATTAGACTTCACTTGGTCTGCACGTGGTGGCTTTGGGAT
TTGCTGCTTCAAGGTTTCAGGATGACACAAGCCATCGGGTTGAGTGTGTTTGTTTCAGCCCCTCTTGCTGAGCACTTCTCTCTTCCTGTTCCTGTGCTGC
TGGGCCTTCACAGCATGGTGCTCCCAAGCTAGTTGCTGAAGCTGTGGGCCATTGAGCCAGCCTGGAGATGCATGGTAGGTTAGGGTGCTGTGTTGCAGGT
CTGTGATGCAGTTGCCATRTATTTTTTGACTTTTGGATCTTCACTCCTCCCCTCATTTTGGACATTTTCTCAGAATGAATGATACATCTCTGCTTTCAGC
CTCCCTAAGCCATTAATTTACAYGTCAGATTTTTTTGAGTATTGTAGTTTTTTTCAATATTTATGGAATGCTTAGTATTTGTAATGCAACAAAAGGTCAG
AATTAATAAGGTGTAGTGCCCAAGAGGAATATTTTGTTTCCATTTTCAAGATGATTCCAATTTGAGCTGTCTCCTGGAGAAGTTGGATCCATTTGTGTTT
CTGAGTGTGCTTGTAAGCAGTCTTAGGGGATCTGTCACTGCTTACTACTAACAGAAGAACACCAAAATAAGGCCAACCTGCTCCCAGGCTGAATCCAGGA
GAGCCAGTGGCCAAATATCAGCTCTGCAGCCACCGTTGCAAGTGAGACTTTGTGAAAGGAAACTTCTCACCATTAAATGTACATTTTATCTTAACCGTTG
AATGTACAGGATGGTTCAAATACTAAAAACTGGAGAAAAGACCATGATGGATGTCATTTCTCCCTGATGGGACATTTTACCATATTTGCTTTCTCTGTAT
GTTGTGCGTGTTGGTGTTTATGGAAGAAACACCTACAGATACAGTGGAAGTCCCCTTGCCCCCTTCTCTGTTCTGTTGAAGATGGTCTGTCTTTCCCATC
TGGATCTCTTTCCTCCGCTACTTCTGTGTCCTTAGACAGTAGATGGTGCTCTGTGTGCATGAGGGGAAGCACCTACAGTGGTCGCCTGCTGAAGATGTCC
TTCAGTGGTTRGAATGGAAAAACAATTGTTCTGCTACATGTTGCTCTGGTTCTTTCATTTTACCTGCTCTAGAATATTCCATTTAGAACTTAAAATATTT
CATTACTTAAATATTGCTTTTTCTGTTCTGTGTGCTGTAAAGTGTATGTGCGTGTGTGCTGGCATTGTAATGTTTGTGCTTGTGGGGAGGATGGAGGAGA
TTCTGATTTTGCCAGGGGTCTCAGCTACAGCCCCTCAGATCATTGCAGGTGATATGGTTTGGAAGTTTGTCCCCTTCAAATCTCTTGTGGAAATGTGATT
CCCAGTGTTGGAAGTGGGGCATGGTGGGAGGTGATTGGATCATGGGGGCAGATCCCTCATGAATGGTTCAGCACCATCCCCTTGGTGATGAGCGAGTTCT
TGCTCAGTTAGTTCATGCAAATTCAATTTAAAGGAGTATGCCCCTTCCCCACTCCCCGACCCCTCTACTCATGCTCTTGCCATGTGATGTCCTGCTCCTC
CTTCACCTTCTGCCATGATTGGAAGCTTCCTGAGGCCTCACCAAAACAGATGCTGATGCCATGCTTTCTATACACTCTGCAGAACCGTGTGCCAATTAAA
CTTCTTTTATTAATTACCCAGCCTCAGATATTCCTTTAGAGTAATGCAAGAATGGACTAACACAGCAGGTGTGATCATTGGATGAGGAAGGCTCTCGGAA
TCATTCCAGGTGCCTGCTCTAGACTCTTGGTGTTGCTCTTCTTTCCTTCATGACCTTGAACTCTCTGACTCCAGCAGTCCCCTCTGCACATGCCTGAACT
GCTTCAGGGCACCCTACAGGTCACTCAGGCCTCCAACTCTGGGGTGATGCCTTTAGCAGCATTGAGTATAAGGTGACCTGGAGGAGGTGTGAAGACCTGC
GCATGTGGACAGTTTGAAAGCCTAGCTGAGGCAGCTGGAAGAAATTCATGGGAGTCCTGCATCGCTGAGGTCAGGGGAGGTTCTGTAAATCTGGGAGAAA
GGTGCCTTTCCTTTGGAGGGATGGTGGGTTTCAATGGTTTGAAAGAGAAAACCATGCTTTGCATGTGTCTTTTTACCAACCCAATGAGATTGCTGATTTT
GCAAGTACAAGTCACCAGATTTTAGTTGTTTATAAACTTCAGCTTAAAAGGTGGGGTTAATAGGGAACAACATAAATGAGGGCAGGTGTGTGTTTCAGGG
ATCTTTGTGCAACTTTTCTAAATACAGAGTTGGTTGTGACATATTCAGCTGGGGGAAAATAGTCGTCTGAAATATATTATGGTTTGTTTGTAGCTTCAGC
TAGTACTTTTCATTGTAATCATGGCTCAGGTTTCTAAGAGAAAATTAAAATAATTTAGGATGTTGCCCCACACTATTGGGAGGTGTAGATGTTGCTACTG
CATCTGGAAAGCATTGTGACAACATGTGACCAAGTATTAAAAATGTTCTCACATTTATTCTTGAAATTCCACACAGAGAAAGGTGTTTCGGGGAAGTAGA
ATATTAGCAGAGCTATTTGTAAAAATAATGCACAGGCATTTGCTGCTGTATCCTATGAGCGAAAAATTGGGAAGTGTGATATCTGTGTCTGCCTCCATAC
TGTACAGAAATCACTGAATATAGGCCAGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACTTGAGGTCAGCAGTC
TAGACCAGCCTGGCCAACATGACGAAACCCCATCTCTACTAAAAATACAAAAAAAAAAAAAAATTAGCCGGTTATGGTGGTGCATACCTGTAATCCCAGC
TACGCAGGAGGCTGAGGCAGGAGAATAGTTTGAACCCGAGAGGCAGAGGTTGCAGTGAGCCAAGATCACGCCACTGTACTCCAGCCTGGGCGACAGAGTG
AGACTGTCTCAAGCCAAAAACGAACTGAATATGGCTGACACTCTCTCCCTCATAAGCTTGCTTGTTCCATTAATGGGGAGACCCATGTAAGGTCTGGGTG
CAGTGCATGGCACATGGGAAGTGTGTGTGACAGTTAATGGTGGCGTTTTTTAAAAGTACATATGTCTATAGCAGTCTGGAAAGGCATACGCCAGAATGTT
TGTGGCAGTGACAGTGGATTTTATAAGTGATTTTTTTCCCTTTACATTTTTTCTTAAATATGCATTTCTCTTTTCCTCAATGAACACGCTAATTATGTGA
ACAGTTATTTAAGAAGAAGTAACCTGAGTAATACTAAAAATGTATTTTCTGAGGGGCGAAAGTATAGTTGAAGTAAAAAGTTTTAGTGCACTTTCCAGAA
TGGGCYGGATGGTGACTATTTTAGGTTTTGAGGATGGTACCGWCTCTGGCAACTCCTCAACTCTTGTAGGGAGAGGTACAGACACAAATTGGCATGGCGT
GTTTCAATAAAACTTTATTTACAAAAACACATGGTGGGCTGGATTTGGCCTGTGGCCCATGGCCTGATCTCTGTTCTAATATGTCCCATTAAGGACTTTT
GTTTTTGAAATCCACTGATAGTGGGTCATTCCAGCGCATAGATATGTTGGGTTTATTTTCACTGTTCACATAACGTAAGTTTGAAACCCAACTGTCTTAA
GTTGAAAAGTAAGACATAGCGTGGATATTGTTTTGTTCTTTAATTTTACACTGCAGAATCCTTTTAAGAAAACAATTCAGTCTATCTTATAAAGGGGAGT
GGCATTGTCCCCTGCTTTTCCTGTGCTGGCCCCAGGCTGTTTTGAGGTTTTTTTTTTTTTTTTTTTTTTTTGATAGGGTCTCTGTTGCCCAGGCTGGAGT
GCAGTGGCGYGATCTTGGTTCACTTCAACCTCCACCTCCCGGGTTTAAGCAATTCTGCAACCTCTACCTCCCGAGTTTAAGCAATTCTCCTGCCTCGGCC
TCCTGAGTAGCTGGGATCACAGGTGTGCACCACCACACCCAGCTAATTTTTGTATTCTTAGTAGAGACAGGATTTCGTCATGTTGGCCCTGCTGGTCTCG
AACTCCTGATCTCAAGTGATCCGTCCACCTTGGCCTCCCAAGGTGCTGGGATTACAGGCGTGAGCCACGGCGCCCGGCTATTTTGAGTTCTTTATGTTGG
GCATGCTGATCCCCCAGCCTCAGCGTCTGATCGTCTTGGTACCAAGTCCACTGCCCGTGGGGCTTATTTTGTGGTGTGAGGTGAAGCAGCAGCATCTGTT
GATTTTGGGGTCTGTGTCCCCCAGATTGCCCAGGATAGTAATAGTAAAATGCCTCGTCCCCGGCTCAGCCCTTAGTCTCCCATTGCAATACTCCTGTTTG
AGATTATTCACAGTTGGGGCTCATGTCTATTGCTGAGAAAGAGAAATGGTTTTTCTTGGTGATTTTTCTCAGTGCTTTGAATGTTATTTTTGAGTTCTGG
CCAAACAGAGATGGGACAAGGTCAGAACTAGAAAAATATGTCCTATAATCTTCTCAATGGGAGGGAGGAAGAGGTTCCCTTAGGAGCATGAACTTAGGAA
AGGAAATGGTGCGTTTGGTGGAAAAGAAGGGGGGCATAGGCTGAATTGGGACAGTGCCCTTGACTGACACAGGGAGAGGGTCTGAGCCCCCCATGCACTT
ACTGGGCAGGCTTCCCCCYGAAGCAAGGTGGACCTGCTTCCAGTGGGAGGAGAAGGGGGAGCACTAGAGCCCTCCGTGAGACCATTGACTGCACTGGGGT
AGTTCAGTGGTGAGCGGATGGGGAGAAGGCAGGGCCAGCCCCCAGCACACGTCAGGCACTGTCTGGGCACCTGTGCATTGCTGCCTACAGTCCTTTCAGA
GACTCGGCAACTCAGCGAGAGTCCCTCACTTGCCTGTGAGCTGCTCCACTTGGTGGAGGAGCTGCTGGGGCAGAGGATACTGAGCCTGACCACTGCCCTG
TGCTTGTTCCTGTCCCCATGGAGGAGCACTGGACTTGTCCAGGGGCACCTAGCAGGGAKCCAGGGACCCAGGCAGGGCCGGAAAGGGGATGTTCTTTGCA
TGGATTTCTGGGAATGTACTTGGCAGAAGGGAAGCCTGGGAGTGAGCTCCAGGCAGAAGAACAAGCAGGTGGAAGTGCCCGGTTCTGGAAGAGCCCAGGG
TATCTTTGGGGGAAGATGGAGACAAGATTTGGTGGGTCCTTGAATGCTCTGGAAAGAAGGGGGAGCCATTGCCCACCTCTTTTTTTTTTCCATAGGTTAT
TGGGGAACAGGTGGTGTTTGGTTACATGAATAAGTTCTTTAGTGATGACTTGTAGAGATTCTGGTGCACCCATCACCCAAGCAGTGTACACTGCACCCTA
TTTGTAGTCTTTTATCCCCTGCTTCCCCTCCCATCCTTCCCCCCAAGTCCCCGAAGTCCATGTATCATTCTTTTTTTGTTTGTTTGTTTGTTTTTTGACT
CCGTTACCCAGGCTGGAGTGCAGTGCTGTGATCTTGGCTCACTGCAACCTCTGCCTCTCGGGTTCAAGCAATTCTCCTGCCTTAGCCTCCCGAGTAGCTG
GGATTACAGGCGCCTGCCACCACATCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTCAAACTCCTGACCTC
ATGATCCAGCCGCCTTGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCATTGTATCATTCTTATGCCTTTGTGTCCTCATACCTTAGCTCCCACCTA
TCCGTGAGAACAACAATGTTTGGTTTTCCATTCCTGAGTTACTCAGAATAATCGTCTCCAATCTCATCCAGGTCACTGCAAATGCCGTTAATTCATTCCT
TCTTAAGGCTGAGTAGTAGTCATTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGTATACACCACAGTTTCTTTATCCACTTGTTGAT
TGATGCCACTGCCCATCTCTTGAGATGCAACAGGATCAGACTTGTTGGGGAGCAAGGAGGAAAGTGGGTGGTGGGAGGCTCTGGCCCTAGTCAGACACCG
TAGACCAAGAAAAGGAGAACAGGACAGAGACATGAAAATCAGCAGGTGAGTATCGAGTGTCCAGCACAGGGGCCAGGTGTCCAGCATGGGGACTTCATGA
GGTATTTTAAGAGTAAGAAGTCATTGAGGGGCCGGGCGCAGTGGCTCATACCTGTAATCCCAGCACTTTGGAAGGCCAGGGCAGGGGGATTGCTTGAGCC
CAAGAGTTTAAGACCAGCCCTGGCAACATAGTAAGACCCTATCTCTACAATAAATGTAAAAAAAAAAAAAATAGCTGGACGTGGTGGCGTGTACTTGTAG
TCCCAGCCCCTCTGGAGGATCCCTTGAGCCAGGAGGTCAAGACTGCAGTGAGCCATGATCATACTACTGCACTCCAGCCTGGGTGACTGAGGGAGACCCT
GTCTCAAAAAAAAAAAAAAAAAAAAGAAAGAAMAGAAATCACCATTGATAATGTGGCATGAATAGACTTCATGACAGACATTACTCCAGAGATTTTTATG
ATGCTTTATTAATTAAAGTATCATCTTCAAAGCAGATGTTAACCACTTCATCACTGTATACAAAATGTCTGATTACATTTAATTTTTTTTTCCAGCAGGA
TGGAAATGCATTAAGATGAAACTTTAAAAATATAGGACTGTAGAAAGATTTTGTGCCAAATTAAACATATACTGAAACAAATAAGTTGTTTTTTGAAAAC
CCAGGGAGSTATCACACGATTGTTAATATTTTAGTGGAATTCCTCCTAAACGTCTTTCTGTACTTTTTTTTTTGAGACAAAGTCTTGCTCTGTTGCCCAG
GCTGGAGTGCAATGGCACTATCTCAGCTCACTGCAACCTCTGCTTCCCGGGTTCATCCAATTCTGCCTCAACCTCCCGAGTAGTTGGGATTACAGGTGTG
CACCACCAAGCCCAGCTAATTTTTGTATTTTTAATAGAGACAGGGTTTCACCATGTTGATCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTG
CCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCGGCCCCTGTACATTGTTTTTTTAAAGATGTTTGAGATAGGGTTTGTAGCCTT
ATTAACACATTAGCATTTTTCCGTGTCGTGTTGTAATATTGCACATCCATGTTACTGGTAAGCTGTATTTGAGAAAGAATTAGGGGGTTAGTTTGGGGAG
CAGCRGCTGATGTGTGCCTCAGTTCTCAAGTTAATTGGTCCTGCTCCTTCTCTGCCCTGGTGTGCCCCTCGGCTCGCCACTGGCTTAGGTGCAGGTACAT
TTGTCCTTCATCGGAACARGACCACCCTCCCTTGGCTGCCACCATGGCAACGCTCAGCCCCGCTGCCTCCGTTTGTCATTTCTCCTCCTAATGATTTGAA
CTGAGGTCTGTGTGCTGGCCCAGCCCGTTGCGGGTCTGCATAATGTATGAACACGAGTGACAGCCAGCCGCAGCCCGATCAAAACAAAGAGCCGCTGCAC
GAGAGGGGCAGATTGCGGAAGCATATTGTGAACACATTCTCTGGTAACTGTGAATCGTGTCGTAAAACGCGTCTTTGGCCTGTCAAAAATATTTTGACAG
GGCCCACAGTCTAGCTCCTTCATATGCAAATGCACTGGTAATGCCTGGATACCAGGGTTACACACTCAGGGAAAATCCACAGGACGAGGGCTGATGTTAG
CAGGGTTCATTACTTCTGCAAATAAACACGTTGAAGAGCCTCCTTCCAGTGGGTAAATGGCAAACTCGATAACTGGAATGCTGTCAGATCCCAGGGTAAC
AAAAGGGTGGTGTCCCCTAAAGGCTTGGAAGGATTGAGTTAGGAGAGTTCAACTGAAAAGTCAAGCATGGCGCAAGGAAGGACGATGGATTAGCCAACCA
TGACCGGCCAGGCTGTGCGAGCTAGCCAAGGAGAGGCCACGAGGCGGGAGAGCCAAGGAGGACAGCCTCCRGGTGGGCCATCACTGCTGGTAGAGAGGGT
TTCTGGGTCCCAGGACCGGACTGCGTGGTCCTGGTTATACCTGCTGGTCAAAGGTCAGTCTGCCAAGGCCCCTCCTTGTGAAGATGGACACTGAGGGCAC
CCTTCCTAGAGGACCTATTTCCTCTTGGTGCTCTTCTGCTTTTTGCTTCTTCCCTGGGCTTGCTTTCCGTGTGATTCTGGGCAAGTTGGTTAACCTCTCT
GTGCTTAGGTGACCTTCGATGGCACGGGGGATAGCAGTATCTGCTTCACATGGTCAGAAAATTCTGTGAGGTGACACACGGAGCCTTGGAGCTGCCTGTG
GCAGGTGGCGGTGCTAATTAAGTTCCGGCTGTTGTGACGGTCTCCTCGGCTGGGTGGCCCTTCCTGCTGTCAGGTGTGGCCACTCTCGTGAGATGCAACT
GGAGGTGTTTTGTGGCAGCTTCTGGAAGGCCTGCCTTTGACCCTTCCTTTCTGCTTTTTCCATCTGTTACCTGCATGCATATATGATGGCTGGCCACCAT
CTGAGACTGGGACAGCAAGGGTCATGTTGGCATTGGAAGGGGTCTGGGTTTATGGGGTCACCAGCCTCAAGGGACAGCCCACCTGGAGATTTTGTTAAGG
GGTAAGAGAAATATTCTTCTGTCTTGTATAAGCCACTGTTATTTGGGGTTTTCAGACATATGTGGCCAAGTGATTCTAATTAGCATACAAGGTGAGAATG
TGTTATCTGCAAGATCCAGAGCTTAGCCGCCCTGGCAGTTCAGTGACTTAAGGGGAGTTAATGAACTGGTTTTCTGACTTCATCTCCCACCACCAGAGCA
GTGTTCGCATGAACTGCCCAGCCAGCTGTCCCCAGGAGCTAAAGAAGTCAGTTTCTGAGCTTCAGAGCCTTTGGCTATCCTCGGGGTGCCTCAGAGTAGT
GAGGGCAGCTCTGGGGGACTGGGACCTCTCAGCCTCCCCTCTGCCTGTGTGTTCCTCCATGGAGCCCCTGTTTCGCCACGTCCATTACGCTTGCAGTAGT
CAGCAACTGCCTGGTGAGCTTTACATGCCTGATGGGCTTTGGTGAGCTGGCAAGTCTGAAACACACCTGGGGTCATCTGTGACCATCTGCTGATGGCCAA
GTTTGATAGGGTTTATTTTTCCTTTCTTTGCTGAAATCGGGCTGGGGTCTTGGCAGCAATTGGGAAACTTTGATTGCTTCAGTTGCTTCAGTTTTTCTAG
CTCCACCTGGCCTCCCTCTGGGGACCACGGTTCTGTCACCTCTCCTGCTATTTAGGTGGCCGTGTTTCCCATGCTAAACAGTGCCCGCTGATTTAATCAA
GAGACTTGATAGCCGGCCATTGCACGTTCATCAGCCCGGTTTTCCTCTTGTGGCACCTGGTGGTGTGCTGGTGTGTGGTTTATAAAACATGCTCTGCCRC
TTTGATTTCCCTGCTTAGATTTACATAATTGTTTTWGAAGAAGGTTCAGGTGCTTTGCTGGCAGAAAAAGGAAGACGACCTCTTGCAAAGTGGGGTTAGC
CCTAGCCTTGCAGGAAGGGGTCTCGGCTTCCTTCCAAACCAGAAGCCCGTGGTGCAGCCTCTGAACCCCCGACTCTTGGTGGGCTTTTGAGTTCTGCTTT
TGCTTGAACTTCTAGCGGCAGAAAGGGGGTGATCCCTTTCTTCTCCATCATAAGGGTCATGGCCCACATCCCTGTAACAAAAGACAGGTTAACGAGAGAA
AAGCATTATACATTTACTTGATCCTGGTTTTACGGCATGCGGGAGCCTACGGAATGAAGACCCGAAGATTCAGGGGAGGTCGTCTGTGTGCCTTGGTTCC
ATGACTTGGGGGCAGCCAAGTAGAAGTGGAATTGGACAAATAGGGCATGAGCGGGCCGGGCGTGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGC
CAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGTCTGGTCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGG
TGGCGGGCTCCTGTAATTCCAGCTACTCGGGGGCTAAAGCAGGAGAATCCCTCGAACCCAGGAGGAGGAGGTTGCAGTGAGTCAAGATCGCACCATTGCA
CTCCAGCCTGGGTGACAAGAGCAAGACTCTGTCTTAAAAATAAAAGAGCTTGAGTGAATTGTCATAGATGGAGTGGGGAGACCTACAAGGCCTGTCTGTT
CAGATTCCTCTTGGCCTCTGTGTAACATTTCTTCCTCTCGGGTATGGGATGGGACCCCTCTGGAATGAGGGTCTTAATTACCTTATGACAGCTTTACCTA
AAAAGATGGGGGAAGGTTACAGTAATATTTTTAGGCTTATGGCTAGCTTTGGGGAAAAGGGGTTTTGGTTTCTATGACCTGTCTTAGGGAAGAAGAATTC
TAGTTCCTGTGGCTCAGGGGAGAATGAGGGGCAAGAGATCAGGAGAGCAGGAGAAGCTCAGAGAGAAACTTGGCTGCATCTGAGGGTGGCCTTTACTTTG
GGGTATCAGTTTTCCGAGCCCCAGCAAGCCCCTCCCTGCAAAGTTGCAGCCCCCAGCAAGCCCCCCGCCGCAGAGTTGCAGCCTGGTGCCCTGATTTTCT
AAAGATCTTGGGTGGGCGGGGCCCACAGGCATGGGGGAAGCGGTAGCTGAGGCTTTACGGCAAGTTGTGGGGCTTCTCACTTGATTTTCCCACAATTAAT
CTTGTCTGTCTCCTGAATTTCTTCAAGTCCTGATGATAAATTATGGCATATATTCCAGAATACATGTTTGAGTTTGCATTGGTGCATTGCTAGAGGAAAG
CACCCAGTTCACTGTGTATCTCTGTGTACCTGTGTATTTCATCGACACATCCTTTGGAGTCTTAAACACAGCAGCAGCACTGTTGTGGTGATAATTACGC
ACCCTGCATATGGTACTGTTTAAGCAACAAAGAGCTGAGACTTCGGAAGGTTCCCAAGGGCATCCCTGAGATGGGACTCGGTCCTGTCACAAGCAGCTGT
GGGAGCTGGAGCTTAGAAGCTGTCCATCAAAAAACCAAGTTTTTGTGTCAAAATGGAGTCTCTCAGGCTGTGAAGCAAGCCCATCTCTAATCAGTTCAGC
CACCTGTATTGCAGACTAATTGTGACCAAGACACTGCGAATCATCAGAGAAAGCTGAGCCTTGTAGGGAATCTGGGGACAGCCGTAAGTTCTTCCTCCAC
ATTCCATTTTAGAGAGGCTTGTGTTCCACATTTTTGTGGCTTTTTCCTCATCAGATTTCTCTGTGTTCTTGCTTTAGTTTGAAACTGAGAACACTAATTT
TTTTTATTTTGATCAAAATAAAACCATCTTTTCAAAATGTCAAAATGTTTAATTTTCAGAGAGAATTGAGTTTACGTACCACGAAGGAGGCTCTGTTTTG
TTCCGGCACACGCTTTGGCTGGTTATTGGTGTTAGGATGTGTTTGTTCCATGTACGAGTGGATGGAGCAGACAGTGCCTGGTCCACCCCCACCTCCTCAC
CCTCAGCCTCCCCCCCGCTGTAGACAGTGGCCAACCGTGTGTCCTCAGATCTGCATGGAATTTCCTGTGGCGCTTTCTCAATTCTGGGACCAGTTTTCCC
TCTGAAGCGTGAATGTTTCCTCTCCAGTTGGGAATCTCCTGCCTCAGGACCTGGTGGTCTAGAGGTACTGTGGTATAAGTAGAAAGAGCAGCTGGACTTA
GAGACAGGCGTCCTGAGTGTTGATGCCAGCCTTACCCTGACCCTGTGTGTGGCAGCAGTGGGTCGGTCAAACCTTTCCAAGCCTCCGYGTCCTCATCTGA
AAATGGGAATGAGGATGCCTATCCGAGGTGACTTAGCAGAGGATGAAGCACTCCCGTGAGTGAGCTGCGCACAGTCTCCTTGTACAAGCAGGACATTTCT
CCGTTTCTCCTTTTCTCTGCCCGTAGGATTGACTTTCATCTTGCCTGGTAATAAGCCCTCCTAGGAAAACAAATTACTCTGAAAATTTGTCATTTTGGTG
TGGTGAATTCGTTCTTTTATTCATCATCCAAAAAGTTCCATTGTTTGAGATGATTCAACATGATTTGGAAACCATGGGGTAAGTCTCTGAGGAACAAGAA
GACAGAAGAAAGAACGCACTTTGGTTTTCTTTTGGAAACCTAGAGCAACCTACTAGATCAATGAGTTTTCTAGGGAGGCATCAGAGTTAGCCATGGCACC
TTCTCCAAAGCTGCCTCGCTCCTGCACTGATGCTGTGCTATGAGGAGCCACGTTGCCCGGAAGTCTGATGCGTGAGGCGGGAAGGTTAAAACTTGTTGGC
TTTGGAGGTTTACTGATAGGTCGTTCTGAGTAGGACAAATGTTTTCCTTTCCGTGCTTTAAAAGTCTCATCTTAGACCRGGCACAGTGACTCATGCCTGT
AATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCTTGAGGTCAGGAGTTCAACACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAACTAC
AAAAATGAGCTGGGCATGGGGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATAGCTTGAACCCGGAAGGTGGAGGTTGCAGTGA
GCCGAGATCGTGCCAGTGAACTCCAGCCTGGGCAACAAGAGCGAGACTCTGTCTCAGWAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAGTC
TCATCTTATGGAGCAAAAGATTCTAAAGAGAAAGGCTGGTCCTGAATTTCATCCAGCTTGGTTCTGGTTTCTTCTCCTTTCTTCAGCGAGTGCAGGGCCT
TTATCCTTGGGGCACCTTTCTGGGACTTTATCTGGCTGTGTGCAGACAGACAGGAAAGTGTCCCCTGCCCCCAATTTTTGGGATGACCACYAAAAAATGA
ACACACCCACTCAGGGAGCGTTTGTGGGATCACTGAAGTCAAATAATTTACACCCAGGAGAAAGCCCTTCGCTGTGGATGTGTTCATGCCTGTGGAAAGG
GAAGTTGGCTATCTGGTCTCGAACCCTCAGTCACTGTCAGGGACGGCAGAGAACTCATCCAGAAACCAAGTGTTGATGTGAAGCCTCCCCTTCCAGAGGC
CCCCCAGCGTCCACTCCCCTAGGCATCCCTCACTTCTGGACCCTCCACATCAGCATCCCATGACATTGGGCTAGACTCACTGTTCCAGGACTCCGCTGGC
CCAGAGGTGAGTCGGCCTGACCAAGTCGTCGTGTCATCACTTGTTGGGGGTTGAAGTCCTAACGCCCGGTGCCTATGAATGTGATCGTCTCTCAGAATGG
AAATAAGGTCGTCGCAGATKTAATTATTTAGGATGAGGTCATGCCAGAGTGGGGTGGGCCCCTCATCTAATATGATGGATGTCCTTCTGAGAAGGGAAAT
TTGGACGCAGATGCACAGAGGGAGAACATCATGTCAAGGCTGCGGTAATGCTTCTACAAGCCAAAAAGAATGCCAAGGATAACCAGACAGCCGCCAGAAG
CCAGGACAGAGGCTCGCAGCAGACCCTCCCTCACCGCCCCTAAAGGAACCCGCCCTGCTGACGCTTTGATCTTGGACTTCTGGCCTCCAGAACTGTGAGA
CAATGTATGTCTGTTTCTGAAGCCACTCAGATTGTGGCACTTTGTTAGAGCAGCCCCAGGAAACTAAAACGTCACCTGACTCACTGTGGGATTCAGCATC
TTGTACGAGGCAGGTGCCACTGGTCTCAGTTTCTTTGTCTGTAAAATGAGGCTAAGACCTGCTTTATACAGTGGTAGTGACAGTTTGCCCAGCACCTCCT
AGGACCTCAAAATGTGACTTTTTTTAAAAGACAGAGCCTTACTCTGTCACCCAGGCTGGGCTGGAGTACAGTGGCGCGGTCATAGCTCACTGCAGCCTYG
ACCTCCTGGGTTCAAGTGATCCTTCCACCTCAGCCCCGCAAGTGACTAGGACCACAGGTGCATGCCACCATGCCTAGCTAATTGTATTATTATTTTTTTT
TTTTTGTAGAGACAGGGTCTCACTATGTTGCCAGGTTGGTCTTGAACTCCTGGACTCAAGCTATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACA
GGTATGAGCCACCGTGCTCGGCCTTCATTATTATTTTTAGGACAAAAGTGAAGGTGGAAAGTTCGGACCAGTGGGCTGTATGTTTCAGAACTTTACACAT
AGGAAGAGGAAGTATTGTGTATGGAAGAAAGTGAGTGTTGCATTATTCAGGGTTCTCAGAGAAGCAGAACCATATGGAAGAGGAGGTCTGTTAGGGGAAT
TGGTTCGTGAGATTATGGAGGTCCAGAAGCCTCATGATCTGTCTGCACACTGGAGAACTGGGAAGACTGGTGGCATCCTTCAGCCCGAGAACCAGGAGCT
CTGATGTCCGAGTGCAGGAAGAGACAGATGTTCCAGCTCCAACAGAGAGAGTGAGTTTGCCCTTCCTCCACCTTTTTGCCCTCTTTGGGTCCTCAGTGGA
TTGGGTGATGCCCTCTGCATGGGTGAGGCAGATCATCTTTACTCGTTCTACTGATCGAGCTGTTATCTCTTCCAGGAACACCCTCATAGACACACCCACA
AATAATATCTTACCGGCTGTTGGGGCGTTCCTTGGCCCAGTGAAATGCCCAGTCAAACTGACACGTAACATTAACCATAACAGGTGTGGGTAGACAGTCA
GGAGAGCAAGACTCTAGTTGGTTCTGTCACACAGCAGAGCTGCGTGGCCTGGGTATACTCCTCCCATCTGCCTGGGCTGCTGTATCCTGGGCTATAAGGT
AGGAGGTTCGATCAGATTACCCTGAGATGTGCTGTGAGAGGTGAGTGTGGCCCCCTCACAGTTGCAGCTCTTCAAACGGGAGCCTGGAGACTCCAGGCCT
ATGTCTTGGGAGGTGCACTGCACAGGGTGSCTGCTCTGTAAACCTTGACTGAAGTCGTGGGGAAAACTGCAGTGTGCTCCAAGAACAAATTGTGAATAGA
GACTAGTTAAAATAAACATCACAATGGCGATGGAAAATGTTATTTCACTTTATTAAGTTAAAAACAAGTTATAAAATAGTAGGTCACATAYAAGCTCAGT
TTTGTATTTAAAAACCCTCAAAACTGTATATATGCCCAGAAAAAAGACAGGAAAGAAAGATACCACAGTATGAATGGTGGTTCCCAATTAGTAGGAGAAC
TAGGAGCCATCATTGTCTTTGCTTTCCAGAGAATAATAGCGTGGTGTCCTGGAGTCACATGGCTGCTCTGGCTTGCCAGTGGAGAACAGGCTGAGGCCGG
AGGAGGAGGGAGCAGCCAGGAAGCTGGTTACAACCCAGGCGGAGGGCTGGCGTGGGCCTCAGGGGTCTTCAGCCTCAGCACTATTGACATTTTRTGCCGG
ATAATTATTTGTCCTGTGCATGTCAGGATGTTCAGGAGCATCTCTGGCCTCTACCTACTAGATGCCAGTARCATYTCTTCCAGTTGCGGTGACCAAAAAT
GTCTTCAGGCAATCCAGATCAAATGTCCACTGGGGGGCAGAATCACCTGCTGAGACCCACTGGTTAAAATAGTGTCAGTAGGGGTGGAGAGAAGGGGACA
AAAGAGTCTTAGAGCCATTTGAGAGGGAGCTTCTAGAGGACTTGATGGATGGAATTTGGTCAAGGCAGGAATGAGGGTGGATGTGGGGCATGGGGAATTG
GACGGATGATAGTGGCCCACAGGTTGAGAGAGGGGATGGGTTCAGCTTTGGCCATGCTGTTGTGAGTCTGTGGTTCCCAGGGAGCAGCTGAGTAGGCTGT
TGGGTGAGTGGTTCTCAAGCTCAGAGCTGAGCTGGGGGCATCCATTTGAAGGTTATGGGAAGATGGAAAGCACGCCCTGGAGGTGGGTGGGTGAGCTCAC
CCAGGACCACGGTGTGGCCTGAGAAGTCGGCCTGCGATAGAACCCGGGGAATCCCAGTGTTTCCAGGGTGGGCAGAGGAAGAGGAGGCTGGGAAGGGAAT
TTGTTTCTCTGGCCAGAGCTGTTGCTCAGCGACTGTTGGCTGGTGAGGATGAGGCTCATGAACAGATGTGGAAACATCGTGGGATGATCTCATGGTGGGT
GGGACTTGTCGCCGTCATGCACTCAGCACTCTCTGGCCTTTATTGGTCAAGCTGCCTGCTGTGTTTCTGGTGCCCAAATGTTCTGGGCACACTGTTGTTT
GGGGAAGAATCGCAGGGACTCTCCTTCACTCTTAGATAGTGGCAGCGCTTGCCTCGCTGCATCTCGTGTTCTCAAAATCAGCACATGCCATCCCACATTC
TAGACCATCCAGTTTTGCTTCTCAGGCTCTGAAAAACACTTTTAAGAGCAGGTTAAACTGTTCTCGGACTTCTTTTTGGATTATTTGCAACGTCTTGAGG
GGTCCACGGATTGATAGAGTCAGCAGGGATGGACAGTTTCCCCTTCAGCACCTTTATAGTTGTAATTTGCCCATGATGGGGTTAGAGACCCACAGTTGCT
CAAAAGCAGTTTTTGTTTTTCTTGATAGCTGGATTTGGGTTATCTCTCAGGAAGCGGTTAGCAGTCTTTAGGGCAACCTAATTGCATTTCTTTGTTTACA
AGCACTTAACTTCATCCCTCTCAGGCGCACACCAGCACTGTCTATCACTAATACTGGCAGTTCTAGGGTGAGGTGKACAGTTGCTCTTAGTCAGAAACTC
AMTTTGCTGTTTTCCACTAGATTCCCAGATAGAGAAGGACAGTTGTTTCAGGCAAGCTTAAGACCCTGTAACATTTCTTGCCCTTTTTGATTTGAACTCC
CATCTCCCTAGCTCTGGCTTGTTTTACCCTGCAGTTAAAAGAGAAAATGATCTCTACTGGCTATATGGCCTCAGGCCAGGAGAAAAGGTGCTGTTCCTTC
CAGCAGAAATTCAAGGGTCCAGGGAGGCTGGCCCAACCCAGGTCAGAAGGATAATCTCAGAAAAAGAAGGAAGCATGCATTACCCATCTCAGAACTTAGG
AACAAGAAAATCCTAAAACTCCAAAGGACCATTTTTCCCCACTGACAGGCCCAGCTTAATTAGAGACCAGCTAGGAGTTGCATTTCCTGGTTGTTTACTG
ACTGTTCTCTTCGGTAAACAGCTTCAGCCTGTAATTAAGCTGTCTAATTGGCAATGACTGCAGGAAAAACCATGAATGGGGCTGGCCTCCCTCTCTAGCC
CCTGTGTCTGCTGTCTGTTACCTACCACCATTTTTATTCCCCTGTCTTCTATTAAAAATGTCGTGGGGGCAAATTCTAAAGAATAGTCTAGGCAGGCAAA
CCCTTTSAACTTCACTTTGCAAACCTGCCTGAGAGWGAGTCTGAGAGGCAAATTCTTTTTCTTTCCACTTGAAGAAGTGTCAGAAATTTGGTGGATTGGA
AAAGATGGGAGAGAAAAGTCCAGGAGTCCTGACTGCTTTCACTCATTTAGGTGGGCTGGCAAGCAGTGCTGGCTGCTCCACCTGTTTTCCTGCCTAATAA
CAGTGTCTTTTATAGTTGTCTGATAACAATGTCTTTTATAATGTCTCATAACTCTGCCTTTTTGTAATGACCGGCCTAATACCTTTGCCTACAATAGTTC
TTTTTTCCTCTGGGAGTTTAACTCAGGTTGTGATTAGAGAGTATTTCCCATAAATCACGCAAAGCACATGTCCTGCCCACCAGCCAATTACAGAAATGGA
GTTGGTCAGACCTACACTTTATCTGAAACAATGCATAATGGGAGTTTTGAACTAAAAAAATTACCCTCTAATGTTACAAATATGATTCAGGCAAATAAAA
CTGCAGATGTATGTGTAGGTCCTCAGTACTGCGATTCTTTCTTTCTCTCTCTCTTTCTCTTTCTCTCTCTTTCTCCTCCCTCCCTCCCTCTCTTCCTTCC
TTCCTTTTTTTTTTTTTTTAAGTGTCCTGGTTGTGTTAGGGTAATTTGTGATTTAAAAAGAAATGCCTCTCCTCTCCCCGACCCGATTTTTTTTTTTCTT
TTTTGGTAGGATGCCTCCCTTTGCATTCCAAGGCAGCACTTCAAGCAGCACTTTGGTAAATGTCAAAAAGTTGGAGAGGCTGAGTGGGTTGCGTGGCCCG
TCTGTGCCTGTGGGCTCCTCTCCCGCCCACGCGGCTGTGCCTCTYACTCAGAACCCTGCCTCTCTTGTGTTTGTCCCAAGGCTTTACTTTCCCCCCCACA
TACRTTCAGTGGCATTATTTGTTACATTTTTAAAAATACATATTTTATTTATTTCACAAACAATGTTACTGGCATAATGTTACCACACTATAGGATATAA
TGGTTGAAGAATGATTTCCCATAATCTAATTTCAACACATTACCTGATTCAGTATTCTGTGTCCTCTCCAGCCTTGCTTTTCTCTGTGCACAGGTATGAC
CTGATTCCAGTGCTTTTTAAGAATTATTAGCATTTTCTGCATTGCTCCTTGGCCTTCACAGTTATCATTTGAACAGTGGCACAAGATTCTCTGAAACTGC
TCCTCTGTCTTCATTCCCATTTTGTGAGCATTTAAGCCGTTTACTGTTGATTGTCCATTTCTTCAGGTATCTTCTTACATCATCTTGCTTCTTTACTCAG
CATAAAGCCTCRTAGTAGATTCTCAGGTCCCAGGGGTGCACATGCCTGTGTTTTTACCTTACTTCCCCAGGGGCCCTCCAGAGGGTGCCCATCCACGGAG
TGCGGCGCCTGCTCGACTTGGCCTTCTGGCACTGGGGATTCCTCTCCCAAGTCTTGCTAGCTCGTGGCATGTGCAATGGGATCTCTTTCCTGAGTGCGCA
TTTCTTTCCTCACATTTGGGGGCATTCAGTGGGGGAGGATTTACAAAGAAACTTGAGGTGAGGGGCCCTCTGCACTCAACCTCCTGGGACCTGGGGCTGC
ACCCACTGGCATTGATTAGAAGAGAGCTTGTGACTGAGGAAAACCTGGCTTAGGGATTTATCTGCAGGGACTGTCCCCAGTAGGTCTATGAGAGCCCACC
ACAGCAGCAGCCCTCTGGATGGGGATTTGGGTCTTGGTTTTGCYAGCACTCCCAGTGGACAGTCAKGCCTGGACTTGTCTTCTCCACCTTCCACTTGTCC
TAACAGCTGTCGGGACCATCATCCACCAGGGGCCAGCTGTCCAGAGGCAGACCCACCCTGGAAGGCAGGCCAGCCTCCGCTCTCCACACCAGCTTGGGGA
TGAATCAGCGGGTGCTCTGACCACTACTTTCCCAAGGCTACTTTGCTTCAGGAAGTTACAGCAGCCATAGAGGACTCTGCTTATGTGAGATGTGCAGACA
TAATTCTTGCTTTTAGAAGGAGGGGGGAAAATAGAGAAGTAGTTATCTCATTGTCTTGGAATAAAATTATTTTGCTTTGCAAAGATTAGGCAAATCCCAG
GTTGCTGAGTCTTGGCAGATTTCTCGTGGCCTAGACTGTGGTGTTTGGGGCCGCCTGTCTGTAATGTGCTGCCATGACAAGGCACGGTGGTGGTGGGGAC
CTGGCAAGGTACCGAACGGTGGAGGTGACTGTAGGATTAGCCCCGGCTTTGCAGCAGGTTTTCTTGGGAGGAGAAAATACACAGTTGGGACAGACTCCAG
GGACCAGCTCCTTCCCCCTTTTTTCTATTGCAGAGGGGGAAACTGAGGCTCAGAGAGGGGGACTGGCTGTGCATACATGGATTCTTTGAAATTTTAAAGG
ATGGCCAGGTGCAGTGGCTCGCACGTGTAATACCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGTTCCAGACCAGCCTGGCCAACAT
GGTGAAACTCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCGGGCACCTGTAGTCCCAGCTCCTCGGGAGACTGAGGCAGGAGAATTGCT
TGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGAGAGACTGGGTCTCAAAAAAAAAAAAAAAAA
AAAAAARAAAGAAAGAAAGTTTAAAGGATGTTAAAAATTTTCCACACATTATCTTTTAATGTGTTGTCAAGGAGCAATGATCATCATAATGGCACTGGGG
AAATGGAAAAAACTGGAAAACTCTCTTGGTTTGACAGAAAGGGATAGATCTAACTGTTTAGTGTTGCCAAGTGAGCCCCCAAACATCTCCCCTGGAAAAG
TCATTAGGAATTTACCATCTCYATCTGCAGGGGCCAAGTGAGATAACCGTATCTAGTATATCCATCTGAGCAAAACCCTGTTTCTCTTCCCTTGAATAGG
AAGCCAGAAACTGCTGCAGCGCACTGTTGAAACATAGCTTAGAAATAGATACTTTGTGGGGGGAAAACAACCTACTTATCTTTCCCATTATGCTATCTCT
TAATAGGGCCCCTGGTATCTGAGCCAGCATACACATTTGGTTCTTCYGTGTCCTGTGATCTTCCTCTGAGTGAAAACTGATTATCTACTCAAAGGAAGCA
GATGACAGAGCCCCCGTGATGTGTGCTGCCTTTGCTCTGTGCCTCTGTAGTAAGGGAGGCCTGGAATGAGCAGAAAGATGGCTCCCCTGGCCACAAAGGG
GGGTCAGTCTATTGCAAAGCAGCCTTCACGTTCTGGAAGCAGGGAGCAGTGGGAGCCCGGGAAGGTCAGCCTTGCAGACTTGTASATGTCATAGGATTAT
TTGAGCTGCTTCCGCTGCAGGTGGTTGGGAAGTACTGGATGGAATCCTTGGAGGCGAGATGAGAGGATGGGAGAAGAAAGTCTGGAAGAACAGTTAGATT
TCTTCCTGATTAGATAATACTGAGTGAGAGTGGGAAGAACGGAGCAGAGCCTGTTGCCAGCGCGATCTCTGTCCCGTTCACTGTCATGTGGCCTCTTCAC
GGATGTGTGTGTGTCTGCAGGGACTCCTGAGAGCTCTTGTTGATGTTTAGCCCTTGGACCTGCTGGTGCTTACACATACGTTTCCATGGAGTCTGTACCA
AAACCACAGAGGATCGCCCCCGTTTATCTGAGAGTAGCTCATCATCATTCTCTGCTTGGGTGTAAATAGCTCACTGAAGAATCTTAATCCCCAGAACTGG
AGACCAACCATTTTCTCTGCACTTGGAGGGAACCATTCAAACATCCCTGTTGGGCTAGCATGAGGAAAAGCCAAGTCAGGCGCTTGGCCACCAGGGGATC
TTGGCAAGAGAGGCCGTGGGATTTGAGAGTTAGAACTGATATGCAGCACAGTGCACCTTGGTGCCAGAGTTCTGACCAGTAGTGTTGCGTCCATTGGTCC
ACTATGATCCATGGATTGGGAACCCCTGTTACTGATGTGTTGACGCTATAGCAATATTATGGTGTGTCAGCTTCGCTGTCTTTCAAGGATGACTTGCGTA
GATTGCATTTAAGTATAGTGGAGCAACAGCAATCAAGGTGTAAGACTTTTTTTTTTTTTTGGAGACAAGAGTTTTACTCTTGTCACCCAGACTGGAGTGC
AATGGCGCGATCTGGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGGGATTCTCCTGCCTCAGCCTGCTGAGTAGCTGGGATTACAGGTGCCTGCCACC
ATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTAGAATTCCTGACCTCAGGTGATCTGCCCACCTCAGC
CTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCACCCGGCCAAGGTGTAAGAGTTCTAATCTTAGGCCTTCATTCTGCCATATGACAAACAAAGTA
GAATTACAGTTGAAAACTAATTAACTCTACATAAAACAAAAATGAAGAGGTGGGCTCACATACCTATCTCAAAGTTGCTCTGGAAGATGGATTTAGCCCA
TTTAAAGGAAGCTAAGGGATAGAATTCATGAGAAGTGAGGTCTCCGGCTTTGTATTTATTAGGGCACTATTATTAGATGGCAACAGATAGATCCCAAATT
CTCAATGACTAACCAAAGGGATGTTTATTGCCCTTTCACATTAGGTTGGAAAGAGATGCTTCTGCTTAGTAACGCTCCTTTAGTGACTGGGCTCAGCCAT
CCAGGGCCACCGTGAAAGAAGAAGAGTTCAGAGAATGGGTCATTGCAGGGGTTTACGCCCCAGGCCTGGCAGGGGCACACAGCATTGCACATCCCCCTTC
CATGGGTCAGCACGCAGTCAGATGACCACCCCTTCCTGCAGAGGGAGGTGGGGAGACAAGGTCGGCCTGAGTGTCCAGGGGAAGGAGAAAACCGGCACAG
AAACAACTAGCCAGTCTCTGCTACCTGTTTCTTGTGTTAAATCAGAATTTATAGGAAGGTGATTTTTTAAACAGTTTAGAGAGCTTTTCTAATTTTTGAG
CGAGGGTCTTGTCTGAGAATTATAGCTTGAGATAAGGACTTCAGAATCTAACAATTCTTTGCTCCATTGCTACAATTTCCCCAACCCAGAAGTGGTGAAA
CCAAGTCTATCAAGCTTCTTGGTTGACATCAAGAAGGTTGTTCTGGGCGGGCGCAGTGGTTCACACTTGTAATCCCAGCACTTTAGGAGTCCCAGATGGG
CAGATCATGAGGTCAGAAGTTCGAGACCAGCCTGGCCAACACAGTGAAATCTAGTCTGTACTGAAAATACAAAAATTAGCTGGGCGTGGTGGTGGGTGCC
TGTAATCTGAGCTCCTCGGGAAGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGATTGCGCCATTGCACTCCAGCCTGGGYAA
CAGATCTAGACTCTGTCTCCAAAAAAAAAAAAAAAAAAGGTTGTTTTGTTTGGTAAACAGAAAAGGAGCCATCTTAAGATAATGCATCTTTATTTAACAG
TTATGAATAGAATCTCTCAAGGTCCAAAATGAATCTTTTGAAAGAACTAGAAATTCTTGCCTGTACCAACCATATTAGCAAGACTTGAAATGCAACATTC
TAAGATGTGCCTCAGGAATAATTTTATTGACCAAAACCAGACGTCAGCTTGCAGCCTTGTGAAGCCTCCTCTCCATGTAGGAACGGGGGGCATTTTGGTT
AGCTGGGTTAGGCTTGCTGAATTTTAACATGACATGCTTGCTTTTCCTGTGTTSGTGTGTCGCTTCTCTCCCTTGGGCCCCCGCCCCTAACTTTTCCACC
TGATCTCTGACTTCTCCATCTTTCTAACCCCTGAACAACAACTAGAGATAAGTTCAAGGTCACTGCTGGAACTGACCTTTGGGTGCTTGGGCCACCCTTA
GGCCTTGAGAGGCACAGGCTGAGGCCTTCTGTACAACCTCCTGGCCAGTGTGGAGGGGCYGGGCTCCAAGCAAGCTTGTCCATATCACAGAAAGTCAAGA
GTCTTGCCGYGTGCGGTGGCTCACGCCTGTAATCTCAGTACTTTGAGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATGGAGACCATCCTGGCTAAC
ATGGTGAAACCCCGTCTCCACTAAAAAATACAAAAAATTAGCTGGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAAT
GGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAACCRAGATYGYGCCACTGCACCAMCCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAAAAGTCAAGA
GTCTTCACAATGAATGTTGACAGTAATACAAGGTCAGCTTTTTGTTTGCTTTTTAAAGGTTCCAGTCTGGTCACAACTGCATGCAACTGAGTTTTGTAAT
TATCATCTTAACAATGTGATCACAGTCTGCCCTGCCATTAAAGTATTTACTTGAGGGTACCCATGTAGCATGACTGTCTCAGATCAGATTGAAGCCTTCG
AACTTGCTTTATAGAGGTTTTTAGAGTTGAGCAATCACATTTCTTTTTTCTTTTCTGAGACAATGTCTTGCTCTGTCACCCGGGCCGGAGTGCAGTGGTG
CAGTCATAGCTCACTGCAGCCTCAGACTCCCAGGCTCAAGCGATCCTCTCACCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCACACCACCACAGCCA
GCTAATTTTTATACTTTTTGTAGAGATGGACTCTTGCAGTGTTGCCTGGGTTGGTCTTGAACTCCTGAACTCAAATGATCCTCCTCCCTTGCCCTCCCAA
AATGCTGAGATTATGGGCATGAGCCACCATGCCTGGCTGAGGAATCACATTTTAATAGCCTCACAAAGAAATCCTAGTGTTGACAATATAGGTTTTTAGG
TCTGGAATGAACTTCCATTCTAGTCTAATTTCATCCTGATTTTACTGTCCAGGCTCTTGGCTGACCAGTGTGTGGAGACCCTGGTGGCAGCCTAGGGATC
CCCTCCAGGTCTCTTCCTTGTCCTTACTGTAGACCATCACACCRCCACTAATTTCCCCCCTCTGGCCAGGTGAGAGCAGATTGTCACCATTTCAGAGAAA
TTTGAACCAATCAGAAAGAGAGCTCAGGAGTACTGGGGTGACTGAGATGAGCACATGTGGCTTCTTGARGACCTTCCAACCCCCAAGTTATTCTTAGAAA
GCTGCACACAAGCCAGGCAGCTGTAGGCTGGCGTTGAAAAGTTTTTAGCTTTAGCTAATTACATTGTGGGAGAGACTGACTGGGGGGTGTCCATCCCGTG
TGTGCCATGCTGCCTCCATCTCTTTCTCCCTCTCTTCTGAGACCTTCTGGTTATCCCCAGCTACCTGCCCCTCCACCTCCTGTGCCCTCAGGGTGGGCAG
TTTGGGTTTCTTTCCTTTTTCTTTTGTCTGCTGTTGTTTAGGATTGTGAAAGTGCAGCAGTGCACTCTGTCCCTGCAACAGGCTCTGCGGTGGGCTAGCT
CCAGTGTTGCATTCTCCCTTCATCAGTGGAGAAATGCACTCTTGGAACCATGAAGAGTCTGCASATGACAGCTCTGCACTCACTAACATTCAAGCACCTT
GATTCAGAGTTTCACGAGACTAAGGTGAGGTTACCTTTCCCTCTCTGTTGTTCTTCCCGTGGAAAGAGGGTTTTCTATTCACACTGTACATTCAGCCACA
GCTGGAAACCTCATCTTCCTCTTCCAGTTAAGACAGTCATGTGGCCGGGCGCGGTGGCTCATGCCTGTCATCCCAGCACTTTGGGAAGCCGAGGCAGGCA
GATCACTAGGTCAGGAGATTGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACAAAAAAAAAAAAMAAAAAAAAAAAAACATTAGCTGGGCATG
GTGGCATGCGCCTGTAGCCCCAGCTACTCGGGAGGCTGAGGCAGTAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGCGCCGAGATCGCACCACTG
CACTCCAGTCTAAGTGACAAAGCGAGACTGTCTCAAAAAAAAAAAAAAGTCATGTAATTGTGACCTCAGTTCGCAGGACTTCGGAAGCAGGGACCCCTCC
CCTGTACCCCCGCCAAAGCCACCATGGTAGCTCCTCCTAATTGGATCTTGGGGGACTCGGAACAGGGTTTAGCCTGAGAATGTGACTTGTGAGAACCCCA
GATGAGAGTAGTTASACTTTTCTGGAAGGCTTATTTAAAACCCCAGAACATTCTTGCATTGGAATTGAGTTGCATTGCTCTCTGGGATGGGCAGTGGGCT
CTTGGAAGAGGTAAGTGAAGTCACTGAGTGGGACGCTCCTCGGGGGAGGATTTTGTGGGGCAGTGGGAACATCAGTCTTTCCTAGGCTCAGGAGTGAGTC
TAGAGGCCATGTTTATGCACAGGAAGCATCTGGAAGCTTATTAACACAGATTCCTGGGCCCTGCCCAAGAGATTTCAATTCCGTGGGGCCAAGCAGGCCT
TGAGACTATGCAGTTTTAATTTATTGTTTTACTTTTATTTAAAGACAGATTCTCACTCTACTGCTCAGGCTGGGGTGTAGTGGTATGACTGTAGCTCACT
GCAACCTCAACCCCCTGGGCATAAGCGATCCTCCCACCCCAGCCTTCCGAATAACTGAGACTACAGGTGCGCATCTCTACACTCAGCACATTTTCTTATT
TTGTAGAGATGGGGTCTTGCTATGTTGCCCAGGCTGGCCTCAGACTCGTGGACTCAAGCAACCTTCCTGCCTCAGCCTCCCAGAGTGCTAGGAATACAGA
TGTGAGCCACAGTGGCTGGCCGAGATTSTGCTTTTCTAGCRCCTCCCAGGTGGCTGTGCTGATGCTGCTTGTCTGGRACCTTGCCCTGAGGAGCACTACG
CTGTAGGTTCTATCACGGTAACGATACTGTAATGTACAGTGCATCAGATGTCACTAATTTAAAGATCTAGGCTGATGAAAATGAAACCAATTGAAGTACT
TCAGCTCCTCCATGCAAGCATGGGCTGGCTTCCCTTATTTTACTGTGGAGTGCCTTTTATACCAGAGTAGTGGCTTTCTAATGTCTGACTCAGGTTAATT
GATGAGATTCCAAGGCAACACAATTCAGTAAATCAAACTGGATGAACATCCTCTGCCATCAGAAAAATATCTTTATGATTAGATGGTGATCTTTGGATGG
AAAATATTAAAATAAGAATTGATTAAACCAGCTAGGGATGGTGGCTCACGCCTGAAATCCCAGCAGTTTRGGAGGCCAAGGTGGGTGGATCACCGGAGGT
CAGGAGTTCGAGACCAGCCTGCCCAACATGAAGAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGCACGCTTGTAATCCCAGCTA
CTCCAGAGGCTGAGACAGGAAAAATCACTTGAACTCGGGAGGTGGAGGTTGCAATGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGTCACAGAGTGA
GTTCTGGGAGTTGGGTTTGTTCATTCATTTGTTTATTCATCTATCCATCTGTCCTTACGTCCTTCCATCCTTCCACCCACCTAGACATCCATGTCTTCCT
CCTCTTCTCCCTCTGCCCACTCACCCATCCATCCATTATATGTTAGTTGAGCATGCTCTGTTTCAGTTCTGGGCACTGGGGATATGGCAAAGAAGTAAAC
ATAGAAAACATAAAACTCTGCAGTCTCATGCTGTGGCAAGTGGTGCCTTCTGAGGTCCTGAGTGTTCCTGGAAATTAGCTTGCTCTTTACCCTGCTCTGC
TGAAGAAAACCTTGGCAAATAGGGCACAGAAAACTCAATGTCAAAAACGTACCAATTTTCAGAGTAGGAAAAAGTGTGTTTTTTGCAGATTGCAAATCTG
TGAGCTTAGCTTCAAGTAAAACTCTAGAAAGACTTATTAAAGAAATGTCCTATAAAAAGAGCTAGTATGTGCTCTGAAGACCTGGGTCTGGCAGAGCAGC
CTCTGACATGTGTGGCACCATTAGGAGACAGCCAAGATAGAGACCCTGGCCAGGCGTGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAAGCTGAGGC
AGACAGATCACTTGAGGTCAGGAGTTCAAGACTAGCCTGGACAACATGGTGAAACCCGGTCTCTCTTAAAAATATAAAAAATTAGCCAGGCATGGTGGCA
TGCTCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGACAATCAGTTGAACCCGAGAGGCAGAGGTTGCAGTGAGTCAAGATCGTGCCAGCCAGTGCG
CTCCAGCCAGAGTGACAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGACACCCTTGCAGGCAGTGGTCACAGGCCGA
GGAACCTGGTGGACAAGKTGGGGAACGACTCAATGGATGATGATAAACAGGAAGTTCTMGTACCACTGAGAAAACGATCTGCCAGATATCTCCATCAGCA
ATGTTCTTAACATGTTTTGTTTTTGACATACTCCAGTCCTCATTTTGACAAGCTTAAGGGAAACATATTTGCAGTGAATGTTGCAGACAAATGGTTATTC
CTGATGTTTAAACAGCCCATACAAATAGATTGGAAAAACATGAAGATTCCCATAGGCAAATAGACAAAAACCAATTAATCTGAAACGCTCTTATTGAACA
AATCAGCAAAGACTAAAAACAGTGATGTCGACGACATAGACAGATTCAGCCCTCTAGTCATGTTGTGGCTGTTGGCAGATTAAGCCTGTGTGCTGGTGGG
TGGGCTGGGAGTGAGCAACGTTGAGCCCCCCGAAATAATGATGGTGGGAAGGGAAACCTTTTTATAAACTTGTTTGGAAATGTGAATGTATGAAATGCTG
GCTTCCTTTGACTCAGGAATTGTGCTTCTAGGAATCTAAGCTAAAGAGATTTTCATAGTAATTGACAGGTTGATTTATATTTATACTCGTATCTTGTTCC
AGAAAGGATAAAGCGGTCCACGGGGAGGGACAGGCATATAAAGGCAGCAGGGCACCCAGAAGACAGCTTGTCTTGATGAGAAGGAGAAGGAGCCCTGTTT
TACAGCAAGTGTCTTTTGGTATGAAATTCTTAGGGTTTGGGGCACCCCTTTTGTTTTTTGAACGCTCGACTTTTTTGATGGTTATAATTGAGAAATACAG
GATATTGCAAACCCTAGACCATATCGAAGGGGGCAAACTTAATTTCATTTGAAAGACACCTGGAGTGGGCAGGAGACATGCTGATCAGCTTTCCAGGTGG
CAGAGGCAGCTTTTATAGTGACTTCCCTGACTGGTCAACTGGAAGCTTGATTGAATGTCCTGTGTCCCTCTGGGAGCAGCCCACCTGTCACTCTGTGGCC
CTGCAACAGGGCCCTGCTTGTCAGGAGATGGCCATCTTAGTTATCTGACCACTTTCCAGCCTTCAGCCACGCAGCCCTCAGACCCCCCCTACCCCCCAGG
CCACTGTGTCCCTGGAGACCCCTGTCCYCTGCATGCTTCCTACTCCTTAGAGGCCCATCAGCCTCCAAGAGCCACCCTAAGCAAGTCACCTGTCTGTGGG
TGACAGCATTGAGTCCATGTTAAGAGAGCAGCCTCTATCTGTCTGGGGGTGGAGAGCCCATGTGATTCAGGAGACACCACATCATCATTTCAGAGCCATC
ACTGAACATCAGGGAAGAGAACTCAAGGGTAGAGTTGAACAGAAACATAAGTGATCCTAGGCCGGGTGCGGTGGCTCACACCCGTAATCCCAGAACTTTG
GGAGGCCCAGGCGGGTGGATCACGTGAGGTCGGGAGTTCAAGACCAGCCCAGCCAACATGGTGAAACCCCATCTCCCTTAAAAACACAAAAATTAGCCAG
TTGTGGTGGCGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGTTTGATCAGGGGCAGGGAGCAGGGTRGGCAGAGGTTGCAATGA
GTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAATGGGGCAGGGTGTAGAGGTTGCAGTGAGCCAAGTTTGTGCCACTGCACACTCTAGCCTGG
GGGACAGAGCCAGACTCTGTCTCGAAAAACAAGAACGATACCAGTAGGTGTTCTTTGACCCATCAACAGGTGTGGGGAGGCAGCACTGCACCGGGAAGGA
TAAGAGGGTAGGCTTTGCTGTCTGGCCTTGGGCAAGACACTTGACCTCTCAAAGCCCATTTGCTGCATTGTAAAGAGGAAATCATACCCTACAGCAGCTA
ACCCTCTTACCTTGCTACTTAAGGGCACATTCCGGCCGGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAG
GTCAGGAGATCGAGACCATCCTGGCTAWCACGGTGAAACMCCGTCTCTMCTAAAAATAAAAAAATTAGCCGGGTGTGGTGGCGGGCACCTGTGGTCCCAG
CTACTCGGGAGGCTGAGGCAGGAGAATGGCRTGAAACCGGGAGGCAGAGCTTGCAGTGAGCCGAGATAGCGCCACTGCATTCCAGCCTGGGCGAAAGAGC
GAAGCCTCCATCTCAAAAATAAATAAAATAAAATAAAATAAAATAWAATATAACATAACATAACATAACATAAAATAAAATAATAAATAAAAAAGTGCAG
ACTCCCTGGCCATCAGCCTCATCTCTTCTACCTGAGTGGATTAAGTAGTAAAGGGGGAGCTATCCAAGACAGATTTTAAAATGGTCAGTTTGAGTAAACC
AAGAGATAGGTTTAAAAAACAATGTATGTTTCACTCAGAGCATAAACAAAATTGTTGAAGAGCCAGCCTACATGCAAGTTTAAAAATTAAAAATGGCCTT
AYGTATTAAAAACAATCCAGGCTGGGCACAGTGGCTCACGCCTATAATCACAACACTTTGGATGGCCGAGGCAGGCGGATTATTTGAGGTCGGGAGTTCA
AGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGGAGTGGTGGCAGGCGCCTGTAATCCCAGCTACTTGGGAGGC
TGAGGCAGGAGAATCACTTAAACCCGGGAGGCGGAGATTGCAGTGAGCTGAGATTGCACCACTGTGCTCCAGCCTGGGTGACAGAGTGAGAGTCCGTCTC
AACAAAACAAAAACAATCCATGTTAATTTTAGAAAGTACAAATACAGAAGCAGAAGAAGAATCTGACAGTTATCTAGAGGAGATTTTAATCAGTGTCCTT
TAGGTTCATTCGTTGCTTATTTCAATCTGGATTGGGACAGGATGACAAAGGCCCATGAAGGGATTTTATATATAACTGTGTGCTTAGTGTAGCGTGGGTG
TYTGTGTTTTATCGCCTGGCCTCTTTGTGGCATGTGACATCTTTGACAGGAACACCAATTGATTCCTCTGTGCTCAATAATGTCTTCACTGCCATGGTAT
TTCCTGCACAGCTGGGGATGCTTAACTGTGTAACTACAATAGCAAGATAAGGGAAACAGATTTTCCAATTGGATATTTTAATAAATGATGGCTTCAGAAG
GGGCACAATATTCTACGCCACTGATTGAATGATGACAAGAAATATTTTAATRGGTGCATTGCTGTCGCAGTGTAGTAAAAAGTAAAGAATGGTTCACCAA
GTCAGAGGTCATCCTCAGATGTCCCTATGTGTCTGTTAGTGGAGATAAAGTGATCTCAAGACGGTGACACATTTAAAGTGAYGTGAACTAGTTTATTAGT
AGTCAGTGGTCCCCCCGGCCACTTCTAAAGATGACATGCTTCTAATCATACCCACAGGATTTCTAAGATCCTTTTTTTTTCTCTTATCAAATGACAGTGC
TTGATGATAATTTCATCAGAAAGGTCTCCATCACTAGTCTCTGCTTTATTTTCACGTAGGCAAGTGGTCTCAAGAAAATTGGAATAAAAATATTCAAAAT
AATTTCTCCCAGCTATATCTGGAGCAAGATTAAACAATTATAAGGAGTAGGCAGTATGTTTTCAATCCCTGTGTTGTCTTTGTCACCATGATTTGCATTC
ATATCAGAAGGCCAGCAAACTCGGAAAGAAAATGACTTTCTGATTGAATCATATCATTTTAAACAAAGCTCTTTCATGAATAAAGAATATTAATTACTAT
ATCCAGAATGATCCTCTTTTTTTTTTTTTTGAGTTGTGTGTTAACAGAAACCTTTGTGCATTTGACACAAGGTCAGCATAGATTTAACAGGAGACATAAG
CTTTGAAAATTTATTCATGCTGGAATTGAACATGGAATTAATTAAATGTACAGAAGCTGGAAGGTAGACAGGTCGTTGTCTCCATTTTTGTTCTTTAAAG
CACTTTATTCCATTGGGATATCACAATTTCGTAGCCTGGTATATGCATTCCTTGTGGTGTGTATTAATAAATTGAGTAGGTGAAAAAGACAATAGATGGA
AAGCTGGAAAGTGATGTGGCCTGAATTCCTTTCTAGGTAATTTCAATGTTGGTCATGCCCAGGGATCTCCTTAAGTGTTGCAGAATCACACCTGGACAAC
CCAGGTGCCCAGTCCTTCATTGCCTCATGGGCTCTCTAGTCTTACTTTTGATCCCTTTTCCTGTATTTCACCAGTATAATACTCCCCACTCCTAGTTGGG
AATATCTAACCTGTGTTGAGTACCTGTATCTGATGAGTTAGTAGCTGTGAAAACGTTTCTCTAGCAAGGCTGCCTGTGAGTGGGATCCCAGGCCAAGCAG
TTAACTGCGTTCCAGCGAAGCAGGTGCCCCGTGTGTTGCTCTGCAAGTCCACATGGAGCAGGATTCCTTATTTTGTGAAGAAAGGATCTTTAGTGCCACG
TGTGTATTTTTAACACATTTCCAAAAGCATGATTTATTCAGGATTAAGTTTATTCAGTAGAAATTTCCAAGGTATTTTTTTAAGTGAGGCACCATCCTGG
ATGCTGGGGAAGAATCTTTGTTGGAATATGACCCTGGGTTTTGTATGGAAAAGGGAGGGGSCAGTGCAGGATGTGGCAAGGCAGTTGTTGGAGCTCCGAT
ACTTCCAATAAGTAACTAGCAGGGCTGTACACACTCTACCAGGAAAGACAAAGAAATGCAGAGTCCAGGGAAGCAGTCCATCGCACGTTTCTTCCTTCCC
TGCAAGGGCACTGGAGTTCTCCTTCACCAGGAAGACTGCAGCCCCCATTCTGATTGGCCTCAGGGGGCCGCTCCTGCTGATGATGGCTAATGAGGACAAG
CAGTAGAGAATATTGCTTTCATTTATCTTGGTGCTTTGTACCTTGATGGAGACAGATATTCGGGTTTCAAGAAGACAACTTTTTTTGCAGGGCAGGCATT
GTTTGCTTGTTTTAAGGCTACGTTCAGAAGCACGAGAACAAACAACAGTTTCAAGCCTAACACTTGGGTTTACATGAAGCTAATTGTTAGATATGAGTTC
TAAATTTCTTTTCAAAGAATCAGTATGTCAGTATGTTCAGTTCTTTGCCTTCTACTTCTAAACTTAACTTTCTCATAAAGCAACATTTTTCGATTACCTG
CTCCACCCTGACTCATTTCAATCACCTGCTCCACCCTGACTCATTCCGATTACCTGCTACCTGCTCTGCCCTGACTCATTCTCCACCCTGCATAACCATT
TTTCCCRCCGAACCACTCACCGGGTCACTCTCTTTAAATTAGCCAATYGGAATTAGTTTAGCCTGTGCGGTCTAACCCTAGCCAACAGGGGAACGACACA
GCAGCAGGGGCCACGTGAGTCAGGGATAAGAACCCCTTCCCTCCCTTGTCCAAGTGTGCGCTCACCATTGCTCCATCTGTAAGGGCGCACCCTTCTRTAG
AAGTAACTTGCCTTGCTGAGAATTAAAAAGAAAATTTTATATTTGAGTGCTATTTCTTTTGTGGCACTGAAACTTTATATATAACATAATGTTGCAGTCC
TTTAACATAACAGAAAGGAAAAGGAGAGGCATCCTATTCGGTTTTGCACTAGGGGTCCCCACTGAAATTGCTGACCACAATCACATGGATTATGATTTAA
TATTTCAGCAAGACATGCATGATTTTAAATGAATCCAATTAATATTCCATTGAAAAGTGGAAACCAGAGTCTAGATAAGCTGACCCAGCTCTCATGCATG
TGCTGTTAACTTTCCTACTTTCCCCAGGAGTATCACAGTGAAATTGAGCCATGAGGGACTCTCTGCTTCTTACAGTTGGAAGCCTCTGGACTTCCTCCTC
AGAGACGGGAGATCTTGTCTCTCTCAATCCTGAGTTAGTCTCCACTTTATAGCTGTTACTTCAGTTGTAGGGCACTGRGTAGCCCTGGAGTTGAGTTGTT
CAATGCATGACCTTGTTTATGTCGCTATTTGAGTTTTTACTGAGAAAAAGGCCTTCTGTGAATCCAAATGTGACTATTACACACTGAATCTTCCCATTAC
TTTAAGAATAAGTGATGTTGTTGTTGTTGTTATTATTATTTGAGGTGGAGTTTCCCTGTTGTCTCCTGGCTGGAGTGTAATGGCGCCACCTCGGCTCACT
GCAACCTCTGCCTCTCGGGTTCAGGCAATTCTTCTGCCTCAGCCTCTGGGGTAGCTGGGATTACAGGCGCCCGCCACCACATCCAGCTAATTTTTTATAT
TTTTTAGTAGAGATGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCATCCGCCTCGGCCTCCCAAAGTGCTGGGATT
ACAGGCGTGAGCCACCGCGCCCAGCCCAGTGGTGTGATTATTCCATRACCATGGTGGTGATTCCTGTGGGCTAAACTGTGCCTCCCAGAATGTGTGTGTT
TTAAGTCCTAACCCCCAGTGCCTCATAATGCGATTCTATTTGGAGACAGGTTCTTTAAAGAGGTGATTGAGTCAAAATGAGGTCAGTAGAGTGGGCCCTA
ATCCAGTAAGACTGTGTCCTTATAAGAAGAGGAGATTAAGACGCAGACACACAGAGGAAAGACCATGTGAGGACAMAGGGGGAAGACGGCATGTCCAAGC
CGAGAGACCTCAAAAGAGACCAGCCCTGTCCACACTGTGCTGATCTCGGCCTTCTAGGCTCCAGAACTAGGATAACTAGGTGTCTGTTGTTTAAACCACA
CAGCCCGTGGTACTTTGTTAGGTCAAGGCTGGTAAACTCGTACAGTGATGGCTTCAAATGTTATGAACATTAAAATCTTTCTATTGCTAGGGAAGGTCAT
TAAAACCTTGGTGGCCAATTAAATATTTATGGATTTTTTTTCCTTTACACTTTTGCAAAGCGTTTTTTCTAGTTTGTGCATACCTTCTTCTATTAGCAAA
ATGTCTTCTATTACCAGCTTTAGAAATAACGGTGCTGCTATTTTCCTTGGAGGGGTCTGGGTTGACAGACCTGCGAAAGGTCTGGATGTGTTCAGAGAAA
TAAGCGATTTTTCCAAGGCCCAGGCCTTTGTACTGCTCTAATTCTATCCAGAATGCTTCGGACGGGAAGAATTTATGGCTTTATAAGTGAGTATTTCCGT
ATTAGCAAAGAGACATCTACACTTGAAAGACTTTCCTGCAGCCTCCCGGGGGTCGAGGTCARGAGTCTGGGAGGAGGTGTGGAGCAGAGTGTCCGGGTGA
GAGGGTGCTGGGGGCACGTGCCCAGCAGGGGTGGAGGGGTGGACAGGCTCAAAAGAGAGACCTGGGCAGTGGACAGGGCTGGGCTTCCCTGGAGCTGTTG
GCGGGGCAGAGCCAGCTCAAGGAACAGCTACCCAGCCTTTCCAGGAACTCTGGAAGGAAACGGGGACTTCCCTGGTGAGGGTGGGATTTGGGAGATAATC
CTAATCACTGGGCTGTTCTTTGTCCTTTGACATTCAAATGAAATGGGAGCCTGTTTTACCCCAATCAGCCTTGAGTTTTCAGCACCCTCCCCCTCGGAAT
ACCCGTGAGGGACCTTCTGTTTTTGTTGTTGGTGTTTTACTACCATTTCTGAGTACTTTCTCCGAAAGCTCTTTTAGCACGTTGCTTTTCTCTCTGCCCT
CCCTCCTCCTCTTTCCTCCCTTCTGCTCTCACTCTGAAGCAGCCCAGCAGCATGTACAGCACTTGCTTTCCTTTGAGAGGCCCTCCATTGTTCCCGCCCT
GCCAACTTCCACGCCAGCCTCCTTTTGCAARTCCACCTGCCGTTCTGGGCTTGCCCTGGGGAAGGCCCTGGAGCTGGATTCCCACACCCTGCCGAGTTTG
TGCGTTTCTGTGAATCTGATGAGTGGGTTGTGGACTTCAATCCAGCCCCACCCTTTACAGTGAGATCCAGGGACCTTTTTAACCTGTGACTGACTTTTTA
TGTCTTTCTATGTCTGTAAAATCGGGATAATAATAGTACCTACCTCTCTGTGGCACTTTGGGGGTAGAATGGATGAACTGAATTAACGTCTGAAGTGCCA
CAGTGTTGTATCTGAGTGAGTAGYGTCCTCCTTAAGCATTGGCTTTGGTGCACTGGGAAGGGGCGTCAGCTGGGCAGGCTGAGCCTGTCACCTTTTTCAA
AATTTCCAACAACTGTGGCTTCTTGGGAAATCCTTTGGCAGTCAGGGTGCTATATGAACACATGTTTTGTGGGTCACTTGCCAGGCGTCAGTGCCCTGCT
CGGGGTCCCTTTGCAGCTCCCCTGAACGTGCCATTTGAAGCATAGCAACCATTACTTTGAGAACCTGTGCAGGTCCAKGTGCCGAGGGCTGTCAGATCCC
TGCATCAACTCTGGGGATGGGTTCAATTATTATCCTCTCTGTAAACAGTTCTCAGTTATTCCAAGTATTCTATTTCTTAATGGATCTTCTAAGCCCTGGA
TCAATAGTGTATATTTCTTTGTCTCTCAGTTGGGGCCCTGGCCTCTGCAGATAAGCCCTCGGATGCGAAATCTGGGGAACCAGCCAGCCACCTCTGGTCC
TGGGAGGGTCAGGGACTCGTGAATCAACATCTGGCTCTTTGTGCACAATGGGCCTGGCATGGGCCCAGGCTGGTGGGGTGGGCAGGGAAGGAACAGGCCC
ATAGGCACCCCTCCATGGGCCCCTCAAGGCTGTAGACCCCTCTGTCTGACCAGCATCCCATTCCCTGAAGTGAAGCAGCTSSCACCAGGCTGGCTTTTCC
CAGGCAGTCACACTCTGGGATGCCCCCACCCCTCAGCACACACAGTGACTGTGTTTTCATGTTTTCCACCAAGGGAGGGAGGGACAGGCTTTCTCAGGGG
GGCGGCCACCCAAGATCAGCTGCGGCTGAGGATTTTTGTGGCTAGGGGAAGAAGTGAATCACCCTCTTCTCTGTGTCTTTCCCTAACCACTGGAGACTTC
ATAGATAAACTTGCGGGGTCACGGTGAGGGAGGCACTGTGTGGAAGGGTAAATGGGCTTCCTGGGGGTTTAGTACAAGTTGACCAACCTTCTTGTTGGTA
ACATGACTGAGGCATTACCTGCACTGATTAAGTCAACCATCAAGCAGCATTTATTAAGTAGAACATTGATAAGGGCTTGAGGGTGAGAGAAGTTGTCCTT
AACTGAAGGAGGGGGTTCTATAAATGGAAGTGTCAGAGCAGGGTGACAGATGCCAAGGAAGAGTGCCCAGGTGTGCACAGGTGTGCCCAGGTATGAGGGG
AGAAGAAGGGGTCAGGGCCAGCAGGGAAAGAGCTTGGGGACTCCTGAGTCCAGCTCCCAGTGATGTGTAGAGTTGAGCTCCATCCTGCTGATCCCAGCAG
GAGATAGTGGCGAGACTGGGTATGGTGTGGTTGGGAACTAGAAAGGACACTGGTGTGTTTAGATGGGGAATCTTGGGATGCAATAGAAACAACCTCTGTT
GGTTTTCAGCATTGGAGCAGATGCTCCCCATACATCATCACATCTTATTGTCGCAGCTACCGTATTGTTCTTGTCCCGTTTTTGCAGAAATGAAAACCTG
ATGCAGAGCCTCAAGGTCACTTTCCCAAGGTCACATGTGGTTTGCATCATTCTGGCCTTGGAGCCCAGCCTCTTAGCCACTCAGTGCAACTGTGGAGACT
GGAGGGTGTCGGGGCGTTGAATACTGGTTAAGGAAACGGACGCTTTATTCTGCAGGTGACAGGGACTCACTGAGGGCTCCGAACAGAATTGTACCCTCAG
ACTCTGATTGCAGGAGTAAGGATGGTTTACTGAGAGTAGGCTACGTCTGGGGGTGGGTCAGCAAGGACGTGTGTGCTGTGGGAATCCTGAGACAGATGAA
GAGGCTGTGAACAGTAGAGGGAGAGTGGACTCTTCGGGTAGTTCAGACAGATACGCAGGTGGGGAGAGATTGGCAGGCGGAGGAGAGGCTTTTGTTGAGG
GCTGGAGGGAGGGAGGAGAGGCAGGCTGTTTCTGTTTTCTGTTAAGTGGGACGTAATCGAGTGTTTTCCTCTGCCGCCTGAAGGAAAGGCGGTGATTGTG
ATTGAGGGTACAGGGTCCATTTGCCAACTCTGAGCGGGAGAGTTGGGTGTGGGCGGGAGGCAGGACATTGAGGGAGCTCTGAAGTCATGGCTGGAGGCCA
TCCTACTGAGGGGATGGGGCAGTGATAGTTTCAAGGAATCCTAGGAATGGGAAAGGGGGCTGGCCAGGGCTGTGGGGGTGGGGGGGCTGTAGGATGCTGG
AAGCAGCCCCAGCACATGTGCATCTGCAGCGGGACTTGGTGATGTGGACTTGGGGCTTCCGATGCTCGTGCTAGCCTGAATCTCCGGGAGACRTGGAGCA
TCTCAGGGTGGGGTCAGGTTCCCAGGTGAAGCCCCTGCTGCTGATCTGTAGACCGTGCTTGGAGAACACTGGTCCAGTGCACTGGAGTTCGTACAGATCC
GCCTTTGGGGCATGCCCAGGGGGGTCTTACAGGAGCCAGGGACAGGTGGGGCCATGTCTGGAGTAGACAGTGATACAGTGATGTCCCTTGGCCTCTGCTG
GACAGAGAAGGAGGCGCCAGGAGGCAGCTCTGAGTTGGGATGGAAAGGATGCATGACAGTCAGCTTCCCTACAGCTGGAGGGGAAGTTCCAGAAAGAAAG
GATGGCCAACCTGGGACTTGTGGGCAGGGAAAGGGCTTTTGGAGGCCAAGATTGTAGGGCAGTGTTATCCTGGGTGAGTTGGGGTATGGCCATAGGAGGG
GGCTCCAGGAATTCAGGGAAGGAAAAGACCATGGCGCTGAGGAGGCGGCAMSGSCTGGCCCTCCACCTCCAAGCTGACCACCCTACTCAGCTCCTTTAGG
GTGGAGTGGCTGTAAGGCCGTGACCAGGAAAAAAGGGACCCAGGGTGGTGGCACATGAATCCCAGCTTTGTGTATCCACTCAGTTGCATGCCAGGTAGTC
ACATCTTAACTTGTGGCGCGGCTTTAGAGAGTGTCTGTGCAGGCTGCCTCTGATCCCTCAGTCAGTGTGCAGAGCTGAGCTGATGAGGAAAGTCTTGGTA
TGTAACCAACCAGGTCTCACCTTCAGCCACACTCCTAGGGACAGAGTGCGTCCATGGAGGGGAGGACTCACAGCAGTTTTGAAGTAATGTAGATTGTGTG
GCCATCCCAATTTAGTTTATCATTCCCCTACTTGGTCTGTCTGCCTTCATGGAAGTTGGTGATTTTTTTTTTTTTTTTTTGGCTCTGTTGCCCAGGCTGG
ATTGCAGTGGTGGCATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTTTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTGTG
CCACCACACCTGGCCGAAGTTGGTGATTTTGAACAGAGGAAAGATAGCACAGTGTCATAACTCAGCAAAGGTGCTCAGCAGCTGCAGGAGTTGGGGTTTT
CTGGGCTCACACCCAGCCTGTGTCCCTCATCCCCTTGCTCCGCTGCAAGAACCCCTCACCCTGCTCAGTGCTCCTGGCCACTGCTGACTGGTGCATGGCG
AGCAGAGGTTTTATTCCATCTTACTGTGTCAGATGTGATTCCGGGGACGCAGTTCTTTCTTAAGAGCTCTGATGCATGTTCTAACTAGGAGGGCAGGTRG
CTGCCGCTCCCAGCAGCCCCTGATGTGTTTTCCTTCAAGCCTGGGGAACACCGAGCTAGGGACACGCTGGCTAATAGAGGAAGGAGAGCTGGGTATGGTG
GCTCACACCTGTAATCCCAGCACTTTGGGAGGCCRAGGCGGGTGGATCATCTGAGGTCAGCCTGACCAACAAGGTGAAACCCTGTCTCTACTAAAAATAA
AAATTAGCTGGGCATGGTGGTGGGCGCCTGTGATCCCATCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGACAGAGGTTGCAGTGAGC
CAAGATTGCACCATTGCACTCCAGCCTGGGCAACAAGAAGGAAACTCTGTCTCAAAAAAAAAGAAGGGGAGCGATCACGTGCATCCCTCTGCTGAGATGG
GAGCAGCAGCGTGGGGTTGGGCTTTGAACTGGCATCGTAGGCATTTTGTTTTCTACATTTAGAGGAAAAATATACATCAAATATTCAAGTCCCCTGGGCA
CAGATAAAAGAGTTTTCAGATATCTCTGCAGCCAAATCCCAAATGGGATGCAGAAGGGAGAACTGTGTAAAATCACGCTCTTCCAGAAGCTGGGCTTTGT
AATGGGGCTGGCAAAAATTCCCAGGGCATCGTTTGTGGCCTCAATGTGATTTTCATGTAAGTCATGGATTTTCTAAATCTTTGAGGTTAGTGGATCTAAA
GAAAAGCTTGGTAAACATCCAGATGTTGTCAAACATATTTAGGTCATTGTTCTCTGACAGTTCGTGATATTCGTTCCTACTCCAGGAAGCTCTTAGGAGA
ATCCAAATCCGACTTCCCTGTGCTTTGAGAAGGAATGTCTGCATGAAGACCATCGTACAGATGGCGATATTAGAAGAGTTCCCTCCCGTGAATCCTGTAG
AGGAAAATGTTACCAAATAGGCCTGTTCCCCTGTGCACCCAATACTAGGAAGATTAGATAATGTGTAGGGATTTCTTGGTTTTTCTGCACAAAAGCTCCA
GGGCTGCTTTGAGGCTGTCTGATAGACAGCTGCAGTGTTGTGTGTTACCCTTGACCGCATCCCTCCTGTCCCTGAGCTCGAAGGCTGAATGGTCGATGGG
AGCTCCTTTGGTGACTCCGTAGCTGTGGCCAGTGCCTGGCAGCTAGCGAGTGGCCAGAACTGGGAGCTGCTGTGTGTGACGTGGCTGTTCAGTGTTGTTT
GTGTTGGCTCTGTAAAACGATGCTTAATAGATTGGATTTTAATATATAGTTTGTTTTTTTGTTTTTTTTTTCGAGACGGAGTTTCACTATTGTTGCCCAG
GCTAGAGTGCAGTGGCATGATCTCAGCTCCCTGCAACCTCTGCCTCCTGGGTTCAAGCGATTTCCCTACCTCAGCCCCCCAGGTAGCTGGGATTACAGGT
GCACACCACCACGCCCAGCTAATTTTTTTTGTATTTTTATAAATATAAAAAAGATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGATCTCAGGTG
ATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCACACTTGGCCTGATTTAATATCTTAAGTCACCTTTGCCTGACACTTAGC
AAGAAAAACTACCAAGAAATATCTAATATTTTCCTTTTGTTTGGGAATAAGAATCTACTCACAATGGACACTTGCTGGCTTGTTTTAAAACCAAGCTTGC
TTCTCACTGGCCTGTTTAAGTGGAAATGAAGTCTCAGTGTGGGGTCCGATGCTTCCTATGGCTGCATGGAGGAAAGGAGTCTGGGCCTGAATCTCCCGTG
TTCCTCATGCATGGGTAGAACTAAAGCCTCTTCTTCTGTAATGTGGCAGTTCCCATTCTCAGAGGATAAAGTACGTGTGAGTGATGCCACCTCAACCCTT
AGCCAGGTGCAGGCGTAACAAGGGAGACCCACCTGTGCAATATAGTGAGACCCCCATCTTTACCATAAATGAAAAAAACRTTAGCCAAGCATGGTGGCTC
ACGCCTGTAATCCCAGCACTTTAGGAGGCCAAGATGGGAGAATCATCTGAGGTGAGGCGTTCGAGACCAGCCTGGGCAACATGGCAAGACCCTCCTCTCT
ACAAAAAAATTTAAAAATTAGCCAGGGGTGGTGACATGTGCCTGTGGTCCCAGCTATTCAGGAGGCAGGAGGATCACTTGAGCCCAGGAGTTCAAGGCTG
TAGTGAGCTATGATCTTGCCACTGCACTCTAGCCTGTCTGTGTGGTGGTGTGTTCATACACAATAGACATCGCCAGTGTTCTGTTGGCAGGAATTGCTAT
CGTTGGTCCTTAAGGAAAAACACAGGAAGGATGCAGGTGCTCAGAGGACCTTCTGGGGTCTTTTTTCCTGCCAGATCAATGTTCCTGCCCTACAGACAGA
CCATACTTGTCCTTCCTCCACTAGCAGATAAGGGTCAAGTCCTCATCTCTTTTACAGTTCCACGTTTAACCTTCAGCTTTTAAAACGAGAGAAATAGGGT
CCCCAGTGAGTTCAGCTGGAGTGTCCCAGGCAAAGGGATGCGTGCAGAATTTTCAGTTCCTAGAAGCTGAGCATCATGGCAAATCTTAGCTTAGAAACCA
TTCTACCATGACATTCTCAGATGAGAATTTGAGTCTTATGCTAAAAATATAAAAGTATTAATAAGACGTTACTGTCTTGGTAATTGCTTCTTCTTACATG
TATCTGTCAGTCAACTGGCTACCAGAAAATAGCCTTTGATGTACCCACGGAGGGGCTCTTGGTGGGCTCCCGGGGTGGGCATGCTCAGGCCTGGGCAGTA
CCAGTGGTTGGCCAGTTTCTACCATCAGCAGACGCGGTTCTGCTAAGATACTGCAAACGTGATTACTGGCTGTCAGGTTCTGTTATTTGGAAAGCCAGCC
TGTGTAGCAGATGGCTCTGCTGACTGGCTACCAGAAGTTTCCTTTAAATAAGGCTTATCAGCTCTAGCAACACTTGGAAATACTATTCTCCAGGAGAATG
TTTGATTTATAGGTAGCTAGAAATGACCCGGGACAGAGGAGTCGTGAGACGGTGGCCAAAGCATCTCATAAACTTGGAACTAAGGGAGCGAAGCCAGCTG
CTGAGGGTGATGAATGGGGGTTAGCTAGGGCTGGCACCTTTCCTGAACTCTCCTCTGCAGTCTTCCTCTCTCGCGCAGCATTAGTCCCTGCAGCACGGAG
GCATTACCCGGCTGCTGTTTGGTTTTGAGGTAGCAGTGAAATCAACTACATGCTTTAAAAAAAAAAAAATGGTGATATGCTCCATGGCATGAAAAAATTC
AAGAAATGGCAGTCTAGTGTTTAAAAAGCCACAGGAAAATAAAGCATAATGCCACCTGAACATATATAGTATTGTGATTTTTTTTTCCTCTTCAAAAAAG
GCTGGTCTGGCTTTGTAGAAGGGGATTTAGATTTTGGAGTGACATGTCGGGAGCATGTGTCTTCTTTGCATCGGGAGAGCCCATCTCTCTAAGGCAGTGG
GGAAAGGCAATTCTCTGTGACCAGGTTTTTCAGCACCCACAGTTGCACTTGACATGGCATCATTATGACTGGTGTGGAAAATAAGTGCTTCCTTCTGAGG
TGGAAATGCTGAAAGATCACAAACACACTGGCTATGGCTGGAAGAGGTTCCCTGGAAGAGTCAGTGTCATCTAAGGTGGATGGAATGGATTCTTCTACTC
CGCAGCCCGCATCTCRTATGGCAAAGTGCAAAACCTGGGATGGATTCTCRACAAAGGTACAGTAATTGGGAGACACAAACAGTCCAGTGTTTTAGCCCTG
AAGGAATACTACCTTATTTTTTACTTTGGGCTCTATGAATGCTTCAGATAACAAGCCAGATAGATTTACATACCTTAATTATGGACAAGCTACTTTCATA
TTAAAGTTCATCTCAGTATGTGAACATTGCCCTGGTCTCAAACAGTGAGAATTGACCTCCCCCTCCCACACCTGGCTAAGTTAGGAGCCCAGGGTTCTGG
TCCCACCCTTGACAGTAGCAGAGATCTCTATCTTTCCACGTTGCTGTTTGTTTCTCAGCTTACAGACCTGGGTGACCTTTAAGTCTGTACAGCTGCAGTG
ATAAAATTTTAGACTTTTGCCATATTTTAGTGGTGTTCATCATTAAAGAGGCGGGATGGCCCTGTAGCTGTCTCTGGGATTATCGCGAAGCTTTTCTCTC
CCTCGCTGTCTTTCTGTGGTAAAATCACGTAGCCTTAGCATTTTTCGGGAGTTGGGTCAATTCTTTGAGGACAGAACCCCTGCGTTGTCACTGTGTAGCA
TTGCAGTAGGTACTCAATATATATTCGATGAATAAATGAACCAATAGAAAACCGAGTAAGTCTGTGAAAGTTTGCTAAAAATGCTACCTGGAAATGTCAA
GGTAACATTTACATTTGATTTGTGTGGAGTTCAGTAATATTCACATGTTTACTTTGGTCTTTGTTATCAACAAAGCAGAATGCTGATGCTTACTAAGACA
AAAAAAAAATGAGCACAGGCAGTGTGACCCCCAAACCCCAGATTTCACCCTTACTGAGGAGCTGTGTAGCCCTGGGGAGGTGCCCTCTGTCTCCGAGCCT
CTGCATCTCCCTAACCAGATGGGCGCTAGGCTGTCATTCTGAACCATTCTGACAGATGAATCCCGCCTGGCTGCTACTCTAGAAGTTGGGGGTTCTTGGT
TCTTATCAAAGAGGGCTTCTTTAGCCTGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTCTGGGAGGCTGAGGTGGGCAGATCATGAGGTCAGGAGTTC
GAGACCAGCATGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGACTGGTGGCGCGCACCTGTAATCCCAGCTACTCAGGAG
GCTGAGACAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGGAGCCGAGATCGTGCCATTGAGCTCCYGACTGGGCAAGAGCGAGTGAGCCTCTGT
CTCAAAAAAAAAAAAAAAAAAAAAAARWSTTCTTTATTGAAACTCAAAAGGTAAAATGATTCTGTCTTGGAGACCCCTCCTTACAATGAGGATGTAATCA
GAGGTACCACATCCAGAGCCCTTARAGTTTGAGTAGCAGGTAGGCTGAGGTATGACCCTGTGATGGTGAAAATCATGTTAAGGTCGAGGCCACAGAGGGT
GCTCAGGTGTATTTTAAAGTATCCTTTCAAGATAAATAAAGTGAATCACCTAGCAGTCACTCTGACTTATTTCATTAAATCTGAATATTAAATTTAATGC
TGTCATAAAATCTAGATTTCCTAGGCTATAACTTCTATAACTTCCTTCAAAAGAGAGCTTGCCCAATTCAGTTTTATGCCACTTCCAGTGTCGTGAACAC
AATAGGTACCCCCACAATAAGATTAAAGTAGGGAAAGCTGGCACCTGACAATCCCTGCCTGCAAATAGCAAATCCCAAAGTAATGCTTCCACCTGGCCTG
GCCGCCAGCACCTTGCCCAGAAACAGCCTGTAGCAAGCTGTGGCATTTCTAGGCCTGGAGAAGGTCGTGTAAGCATGTGGTGTGATTAGGGGACATTGTA
TTTTTCCTTCTGAAACTTTTCATCAAGGAAACTCTGAAACAATACATCTGTGTTTAAGACAGCTTGAGGAACTGATAAGTTGATCATCTATGTCTAAATA
TTGTGGCCTCCGATAACATCCTAGACCAGTATCTATCAGCCCACCAGGTAGGAAATCGRGGATTTGATGGAAGAGAAGTTCAGTTTTCATTATTAATGGT
GAATATTTAGCATGTACACAGAATGCCTGGCACATAGGATTTTAACCAATTTAATCTTCACAGGAATGCTCAAAGTTTAGGAGCTTTTATTGGCACCCCT
GTTTTACAGGTGGAAAAGCAAGTGGTTTGTCAGTGAATAAGCCTGGCTTGCGGGCAGGCACGTCTGTCTGCTTGCTCTTAACCGCAGTATTCTCCTGTCT
GTTGTCATGGRGAGCAAGTGCTTACCTGTAAGGAATCCTTCCCCACACATTGGTAAAATAACCCTACAAGATTATTTTAGAAGTTTTGCACAGAGGCAGT
ATCGTAGCCATGGAGGTTTATCTGGGGTGAGGTTATTGATAATTGAAAATGAAAACAATAAAGACAGAATTATGTTAGGAGACAGACTGTGGCCCTTCAT
TGGGATGGCATTGGTGTACACAGCACCCTCACAGTCACATCTCTTTGTTCTTGTCTTCCTGGAAGCCCACTTGTTCCTAGGTGAGGTTGGCGGTAACAGG
TACCAAAGACTGTTTTTTAAACAAGTCACATGAGTTGCATCTTCGAGGCTGCATGGTTAGGAAAGATGCCTCATTTAAACGCGCAGCAGGTGAGACATGC
CCCTCGTTTTGTTCTTGCAGGCCAAGCCCCAGAGTGGGCGTGGTTTTAGGGTGCAGGCTGGTGCTGGGCTGGGCCCCTCGGAGGCTCCGGTCCGCGCTGC
GTCGATCCATCCCGGCGCTTGGGCCTGCACGCCGCCGCGCTCGCCGCCGCCGCCGCCGCCGCGCTCCCGGGACTCGGCCAGCCCGGCTGGGCGCGCGGCC
CGCGGTCCCTTGCACGTCGGCCCCCGTCGCCCGCCCCGCCCCGGCGCGCGTTTCCATTTTAAACCGCCGCCCGCCGCCCGCCACCCGCCACTCCTTCGGC
CGCGGGTTTGCATGCTGTCCGCGCGTCCCGGAGCCCATGGAGCGGCGGAGGCTGCGGAAGCGCCGAGTGTGCAGCCGGAGCGGGAGGANNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGCACGGGCCGGCGGGTGCCAGGGGCGCCG
TCCCCGCAGCCTGAGTGCGGCCCTCGCGGTCAGCGGGGGGCGTGGGCCACACTCCCGGCCCGCCTGCCCTCCCCGCTTGGCCCGGCGCCCTCCCGGCCCG
CGGGCTCGCTGGATGCGGCGGGGCCCCAGCGCGCGGGCGACATGTACTTGTTGGACGGCAGTGGCGAGCCCGCGTCGCCACCCGCGGACGCGATGCCGCG
CGGGACGCCCCCCAGAAAGACTGTCTACCGCATCTCCGTGACCATGGTCAGGAAGGAGCAGCTGGCCGCGCCGGGCTCCGGCGGCCCGGACCCACGCCCG
GTTCGGCGGCCCCGGCCCGCGCGCTCCCCGGACGCGCCCGGGAGGCTTGAGGAGGAGGCCGAGGAGGCGGAGGGCGCCGAGGAACCGGANNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTG
GAGCCCGCGACCGCCACGCAGCCCGCCTCGGAGAAGCGCAACACCCTGGACGTGGGCGAGGTGCTCAGCAAGAACGACGCGCTCTCGGACCTGGAGCGTT
GGGAACGCAGTAAGAGCAAGAACCGCACGCTGGACAACAGCGACCTGCAGCGGCTGGAGCGCGCGCGTCGCGGCGCCGGGCGGCCACATCGGTAGCACCG
GCTGCTGCGCTTCTTCAGCGGCATCTTCGCGCGCAGGGACGCGGCGGGCGGCGGGCCCTCGCCACGGAGCGGAGCCTCGCGGCCACGCGGCTACTTCAGC
CTGCGGCGGGCCCCGGCCGAAGCGCACTCGTCCAGCGCCGAGAGCATCGACGGCTCCCCGCGCAGAGGTGGGCAGCGTGGCCGGGGGTCCCGGGACGGGA
AGGGGCGTGGTGGGGACTTGCCGGTTCCGCAGCGGCTATGGGACCCGCCCTCCCGGGTCGGGAGCCTGCACGTGGCCTCGAGGGATGCGAACTCGGGTAC
TGCGGTTTTCCCCAGCAGGGCGCAGCGGTCCTGGGTTTTCTGGCTGCCCCTGCGCCTGGCTGTGCGTGCTGGTGCCCCTCGGAGTCCACCACCTTCATCA
AGGAGAGCTTGACCCGGGAGAGGTCGCCTTGCCAGCCGGCGCCGACCTCCTTCGCGTGCTCGCTGGGTCTTCTGCGGGAGCGGGCCCTGAGCTGGCTGCC
CGCGACACCTGTGGGGCCGCCCCAGGGAGCCGAGGCTCGCCGGTCGCCGCCGCACAGGTGCSGCTGCCTGGATGGGAGAAGCCGGCATTCATCCTGGCGC
CCCTCCCTGCCTCGAGTCGTCTCCCTGTTAGTGCTACCATCTGTCAGTGTTGTGATGTGGACTCAGCTGACTCCGTGGCCCTCGGTATTGAGCTGGCTGT
AAGGACACCTCACTACAGTGGTGGGGCCTGGGGTGGGACGGAGGCCCCTCTCTCCACAGCTTTCCTGCCAGGTGGCATCTTAATGAGGAGAGCGAGTCTG
GGACTGGATTCTGTTTCCTCATAATGTAGGCTAGCAAAAGGGCAGGAAAACCGCAGCCCTGCAGCCTGTTCTGAAACCTCAGGTCTGTGTTCCCTTAAGT
CCTCAGACAGGGACTTTGCATGGAGGGATCTCCAGCCAGATATGTTATTCTCTGCAGGAATCAGTTAACCTTTTGGTAGCATTTCGGGGTCAGAGCCTCC
AGAAACCTCAAAACACAGACTCCATCAACTGCGCATCACCCTGAGGGGGATTCTGGGGGTGGAAGTGGTGCTAGATTGCTACACCTTATTCTCCTGGGAG
GGGGTTGTATGCCTGAAGATATTGTGGCCACAGACAAGAGGCCATGCATTTTTACCACCAAAAAAAAAAATATTATTCATCCTCTTATCTGAATTCTTTA
ACTTGGCTGGTACAGATAAAGGTAGTTGGAGAGTGGGCTTTTGATTTGCAGTTCAGACTGCTGTGTAACCCACCTCTGGAGAGGGTATTCATCCCAAGTG
GACTTAACAGGTCAGCTGACTGCCCCTAGGGTTTATGTTAAAACCAACTCATGCAAATAAATGACTGTCCTTATGGAAATATTTTTAAGGTAAAGTGAAG
ATAAAATGGTCATGTTCTAATATGCTCCTAATGATCCTCAGAATGTGCTAGAGGATGGTTGAAACCAAGCAGTGGCATGTGCGGTAATGTTAAAATCTGA
CCTGTTTCACTAGTGAGGCTACACTGTTGCCACACTTATGTTTAGCTTGTCATGGCACATCTAGTTTTAACCTCCCTTGGAGCACTTACTTTAGAAGGCA
CTGTATTTAACTCCAACCATTATCCCATCCCTTCATGTATTCTCTTAAAATATGAGAACATGATGCGTGTTATTTTGTTAAAAGAATTGGTTTGCACGAA
GTTGCTCCTGTCATCATTGGCTTTCAGAGGAAGTTAAGACCTGAAGGTCTCAGTTCTCTAATAGCAGGCTTGCATCTTTGCTCTGTGGACTTGGAAGAAA
ACAGTAATTAGCTGCCTCGGTTCCAGACAAGTTTGTATCAGAGAGAGAAAGAAAAACGCACAGACATGATTTAGAGAGAATGCATTTCATTGTGGTCCCT
CTTGATACAAGTTAAAAGCATTTGGAGTTTGGATAGTTCCTCTCTGGTCAAATGGATTGATAGTAGATTTGGAGTAGTAAGGGTGTGAAGTGTGTTGGAA
TGTTTATAGTAATGCTCAGTTTGTTCCTTGTGGTCAGTCCTTCTCTGGGCGGAATTACTTTGGTCTGAGACATGATATTACCAGCATTGTGGGTTGTATA
GAAAAACGGAAATTTAATGAACTACATTATAGCCATATGGTCAGAACTCTAGGGCCTCACTTTTTTCTGAAGTTCTAAGTAATCACATGCTCAAAAAAGC
TACATCTTTCACCTGGATAAATTCTTTGCCTTTGGCTAAAATGTCTGACATGTCAATATTCTTAGGATTTTGGTGATGCCAGTGTCTGTTACAGGTAAAA
GGTGTAGCCCCCATAGGTGTCACAACTTCTCATTTTATTACATTTTTCCAGTCTTTACATATTTGCTTCCTGTGACATAAATTATTCAGAATTTAGGTGC
TGTTTAAGATTTTGAATTTAGGTGAGAATCTCTAAGGTAACAGTCAGATACAGTAGAGCCCAAGCTCAGTTTCCCTGTAAATGTCCATAGGATGCAAGTC
CCCAAACCACTGGGGACAGGTGGGTTTGTAGGACTCGGAAATTTTGGATCTGAGGAAGGTAAAATGGTGTGTGTTATATAGAACGCTGCTTGTGAGATCG
GGTGGCGCCCTTTAGTAACACACTAGTATTTTGCAGCAAAGCCTGAAATATCCATACTCAGTGAAATAAATAGTGATTAAAAATAGCCTCGTGCCAGTTA
GAGTCTGGTTTTGCCACCAAAGTAATTTGCCAGCCATTTATGAAAAGAAGTTCCATTCTCAGACCTTTTTGGATTTCAGATTGACAGCTAAACTATCGTA
GACCTGCAACGTGATAAGCATCATGAGAAGCACCACTGGCTTTCTGTACATTTTGGCCATAATGTTTTAAAATTTGGAGTCCTTGAAAATATAAAGGAAA
TTAGAAGTGACCTCAGCTGGTACAGGTTTTTCTTCCGTTAGAATCTTTTCATATTCTTTAAAAGAGCTAGTAAATTTTTGAATTGGCTACAGAAATCTAA
AGACTAAGTAATTATTGCATTAGTCTATTTGGCTTAGAGTTAATTGCTTAGGCAAGGTATTTCCATTAGCACAGGGAAGCAAGATGGCTGGAGTCTTATT
TTAAAGCACAYACAGGCTCCTACATACGTGTACCTTTGGTTTGCCTGTATTCTGAACTGAAGGCATTAAGGATGAAAGGATTGGAGCACCTACCTTTTGT
AGGAKGATTCTCTTGTACTGTCTGGTCCTTGTTGGAACTTGTCTATTTAGGCTCTTCCTAGTTCTTCCCTCTAATGCAGAACAGTTGCCTCGGTGAGTTC
AGGGCTGCTCCCTCTGTGTAAGGCTTGCAACTGATAGCAGCAAGCCAGCAGACATTCCAGAAAGACCCTGTGTCAGATCAAGGGCAGTTTCGTGTTAACT
GATACACATGTGTTAGGGCAGAGTCCGTTGACTCAAGTATAATTTAATACAAGGAAAGATCAAATAATAAATGATAAATGACATTGTAGGGKGTCCCCTT
GCAGCGCATGCTCTCTGCATCCCAGTGGATGCCGTCTGGGCCRGCCCTGGAACCAGCTGTGCTGTGAGTGAAGCCCACACTGGCTATGCCCATCCAGAAC
ATTCGGTGTCTTTAGAGTGTTCTCTTGCTGTCTGGGAGGATTGATTACAGTAATAAAGTGATTCATTGATACCTCTTACTGAGGTTAGCTTTTAAAATTA
GTAATTTACAACTGATTTTTGACAGCACATTTTATGAGTGGCTTTGTTCTTTAATTTCTGATTCCCTTGATTTGTATCAGTCAATTACTGTAGGGTGATA
GACTTTTTTTTTTTTTTTTTGATGGAGTCTCACTCTGTTGCCAGGCTGGAGTGCAGTGAGCGATCTCAGCTCACTGCAACCTCCCCCTCCCAGGTTCAAG
CAATTCTCCTCCCTCAGCCTCCCCAGTAGCTGGGACTAGAGGCGCATGCCACCGCACCCAGCTAATTTTTGTGTTTTTAGTAGAGAGAGGGTTTCACCAT
GTTGGCCAGGATGGTCTCCATCTCTTGACCTCTTGATCCACCCSCCTCGGTCTGGGATTACAGGCATGAGCCACCACACCTGTGGTTTTTTTATTTTATT
ATTTTATTATTTTTATTTTTTAAACCATTTATATTTTTATTTTTTAAACCATTTAAAACAAACAGCCTTCAGTGGAGAACGTGAGGACACAGCAATTAAA
TGAAATAAAATTACTGAAACAATTTGATAAAGTTTGATTTTTAAATTTGATTTGTTACTGAAAAGGACACTTTTTGTTGGTTGGTTGGTTGGTTGGTTGG
TTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCATG
CCATGCTCCTGCCTCAGCCTCTCCGAATAGCTGGGACTACAGGTGCCCGCCACCACGCCCGGCTAATTTATTTGTATTTTTAGTAGAGACGGGGTTTCAC
TGTGGTCTCAATCTCCTGACCTCGTGATACACCCGCCTCAGCCTCCCAAGGTGCTGGGATTACAAGCCTGAGCGACCGCGCCTGGCCTGAAAAGGACACT
AGTAAGGAAACTATGTAATTCAGTGTTTCTCATTTGAAACATTTTGAACTGATTAGTCTTTTGTTATTAGAATTGATTATCTACAGTGTTTTGTTGTTAC
AATTGAACATTCCTAGAGTTTGCTTGCTTTTTGTAAATTACTCCAGATAGCAATTTAGGAAACTCCTCATTATTTTTGTTTAGGGCTAAAATGATTCTCC
TGGAGACAGAGCAGTTGTACTTGGGGTACAAGGAAGAGCTGTGCTGAACGTCAGCCAGGGAACCTTCTAAGTCACCGCTGTGGGCTGTGTCCTGCTGTTT
ATTTCCTTAGGTTGGAGCCCAAGTTTCAGCATAGGTCACCTGTTAACATCTTTCTCTTTGATAAGTCATCAAAGAGACTTGGGCTGGAATATCCTGCCAC
CAGGGGGAATGTTCAAAAGTACATCTGCTCCAGAGGTCCTCCAGTGTTGACAGGCACATTGTAGCAAATTATTGGGTTATACAGTTAACAAATACCTTTT
GTTTGGAGCTGTAAGACCCAATTATAAAGCACTAGTAGTTTTTGTCTTTTTAATGCATTAACAAACATATATTGCATGTTTATGGTGTGTTCTGCATTCA
CTAGGCAGTGGAAGCTGGAGCTAACTAGAGCACAGTTCCTGTCTTCAGAGGTCAGTAGCATACTGGAGGAGATGGAAAAGATTGAATGAATCACAGCCTC
ATGGGGTACTTGAGGGATGATATGACTATTTCTCTGCATAGCATATCTCCATTAGAGCACTAGTCCACTGTGTAACAATAACCTTGCATACATGCCTGCC
ACTTCTAACTAGTGAGTCCTTCCTGGGCATGAAGCACGTATCATTCCTCTGTGTACTGCAGAGTTGTAGACACTGTGCTTGACACATAGATTTTAGTAAA
TGTTTATGGGTGGAACTAATGAGAGAACTAGAAGAGGGAGTGAATTGAATGTTCTTGAGTTAATGGGAAGGAGTTAATGAAGGCCTCACAGAGGGGCAAA
TGAGCTGGATCTTGTAGGATCTGTAGGAGTTTACCAGGTAGAGAAGAGTGACTCCACCAGCAAGGTGTTTGGGATTTCTATAGTTAATTGTTAAGAATTT
ATTCCTGTTCCCCAGATCCTTATGACTAATGCCAACACTAAACATAAAACAGGATGTTACTCTTTCTACAATGAGCTTTGGTGTTTTTGTTTTTGAAAAA
KATTTTCGGTATATGGTTTTTGTTTCTGATAGGAATTCTCCTTTAGGCTATTGTCAATTTGTTTTCCTGTAATGATTTGAAACAATTATATTAACTTAAA
ATGATGTCACAATGAGTGAAATAATGAAAAAAAGTTATAGTTATTGAGGGTAGTCTCATGATGAGATAAAGTGCATACAGCTGCACTCATGTCGCCAGGT
GATTAAGAACAGAATTGGTATTAAGGTCAACGGATTAGCAAAAAGGGAGGAGATTATTGTCTTTTCATTATTTTGAAAGAAGTACCATCTGCCCTTGATT
GTTTTGGTTTAGGTTTTATTCAGCCCAAATTAGAATCCGCTGTGGTGTTGATTGTTCCTTGTTGGTGATAGCCCTAGAACTGTGTTTCCCATCGTTGATA
CTTGCATTCACGTTTGCTAGTTCTCTCTTCTCCTRTGAAGACATGAACGTAGCTGCTCCTTTAATTACATTTAGCTAGTTTTAATTCAGAGATGGCTATT
GGCCCTTTGTTTTCTTACCATCTTTTATTGTGTTCATTTTCCTAGTTGATTTTTAATGGTGACATCACTAACAGCTCTAAAGACTCAAAGCTTACCAGAC
AGCACGCTTCCCTGGGTCAGAAGATGAGAGTCCTCTCCTCTCTCATTCAGTACCAGGGTGTACCAGTGAGAGGCTTGTGAAGGGATTGTTTCGGCGACTC
CTTATCTAAGAAATGAAGATAATTTTTATGAGGTGCATTTTGGTCTGTGGGAGTGGAAGGGAAAATGACGGTTTCTTTCCTATACTGTCCTTTGTTTGGA
ATGGTGAAAATGTTTTGAATCTGTTTCTGGTGTGATCGTTAGGTCCAAGATTTCACGTGACGTTGTGTGCCGGGTGTTGTGGTCAACACACRGGAATGCT
CCTTTATTCTCTGTACGGCCTTTGGGTGCATCATTTGAGTGGATGTTCATTTGCTTGAGACGATTGTCAGAGGGAATCTTGTGTGCCCTTTGCTCTCTGT
GCCTGTCATTGCGAGGGTTTCTTTGAGCCGGTCTGCTGACCGTCAGGCACTTGAGATTGACTCGGTGAACAATGCCGCCAGCCTTTCTGATGCGGCTCCT
GCCCTCTCTGACTCCTACACAGGATCAGAATCACTCAGATATCACTTCTGTTGGTGGAGGCGAGAGAAGAATATTTATCCAGTTTCTGCCTTTCTGCCCC
CATTAGCTCTTTACCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCAAAACCAGTTATTCTGTGAAAATATGCAAAGC
AGAGTTTTGGCCTTGAGGATGCGTATTTGTGACTTGCTTTCCTGTACAGTAAGTGCTGCCGCCTCAGGAGCGGGCGCAGTCGCTTATGGTGCCGGTGAGC
CTGCGCGGCGCTGGCTTTTGCTCCTCTGGTGCCAATGCAGCTCGTTGACAGCTCCAAGATATTTGGATATCTCACTCTTCCGGCTATTTCAGYTGCCARA
CTAGAATCCCAACCTTCTGAGAGTCTGTTCTCTTTTGGATTTGTTCATAGATGTCTATTCTCTCCTGATCTGGTTCATGAACACTCTGGAAGCCAAGTTC
ATTGAAGACACTCTGGATGTGTAATTTGGAAGAGGAGACTGGAGCATGGAGGCTTTGTTCCTAGTATTAGAGAAACACATAGAAAGGACACAGTGTCTAG
CGCTGGTTAAGGAAACTTAAAGGAAAAAGATTGGGGCTCAGAATTAGGAAGTAATTTCTCACAAGCATAGCCATTCTGCTTTGGAAGAAGCTGGCTTCTC
CTATCACTGGAGGCACCCAGACTCGGGCTGGCGAGGGATTGTTAGGACGGGGGCTGTGTGTGTTGTTGCTGGTAGAATTGATGGACTTCAAGTCCCATCC
TAGTTTTCAAGGTCTAGAGTCCTTTCAGGATCTAGGATTTGATTTTTGTACCTGGTCTTCTCTCAGGGGGTAGTTTTCTCCCAGGCTTAAAGGAAGATAT
TTGTCTGGAGTTTCTTTGGACTGTCCTCCTGCCTGCCTGCCTCCCTCCCGCCCCCACCTTGGGATCCTGGTATATTCTGCCGGCTCACCTGAGACGTAGT
AAGAGTTCTGCCTGTCAGCTGCAAGGTGCTGGGTGGAAGGTCCCTGCTTCCCACTCCCGCTCTCCTGCCTGCCAGCCCCACAGTAGTGCTGCCTGGGCTT
GTGTTTCGCCATGTAGCCCCTCTCGATACCGATGCCATTTGTCTTCTGGGCATCCAGATGGTGAGTGGTGGCTGGGCATGATCTTAATCGGATTCTCCCT
GTGCACAGCCAGCCTTGACTCGAAAACTGATTTCAGGTGTGTGGATAATACAATGATGGCGGCAAGAAAGAAAGAATGCTTTTCTGTTGGTTGTTGGAAC
ACATTTAAATTGCCACATGGAGAAARCACAGTGTCTTGATTTGGTGGAGTGGATTTAGTCTTGACAACAATACTTCGGTTAGTAAGGTGATTCTGCCTAG
TTATCTACATCCCTGAGCTCTGTCTACCTTGTGCCAGTAAACAGATATGTCACTGTGCAGCCCAGCACCATATCTTTGCTTTACTTTATTTAGCTGTAAT
ACGGGTTTTGCAAAAGACCTAAAAATAGAAATATTGCATATGTGGCTGTGTTTGCATTTATAGTTACTATGAGATATACATTTGCCCAGGTGGATTTCTT
ATATCCCGAAGCTCCAAGTATAAGCCAACCTTGTATTTTGCTTTCACTGTTTTCCCCTGTATTTTCTCATGATCTTCAATTTAACTACTTCCTTTAAAAT
TATTGACCACTGTTACCTTAAAATTATAAATGGGGAGAATAGAGTTCTCTTTTTTTCCTTTGGCTTAATCCCCTTCCCACTCCTCTTATTCGGAGGAGTA
GCGATTACTTGGCAGCATATGGATTCGTCTCATTCCTGGTACAAGCCAAATATGTGTTTATTTTGGACAGCTAGTCTGAGTGCTGCGTCCCAACATCACC
TTTCCTAATCCCTGCTGTGCCTTCTCCTGGAGGGCTGGCACCAGAGAGCATTGCCTGGAAAGCAGAGTAATCTGTGCTCTTGAGATTTTAGAGAATAAGG
ATGGATATTCCTTGTTGGGCGTGACTTTCAGTCTTCAGAGTAAGAAAGCACTGACACAGTATATTGATCAGGTTTGTTCAGTGGAGTGTAGTAAAGGTCA
TTTGGTGAATTCCGTATTTTCAAATATTTAGGTTTCTAATATGATGCGAATGGTGTTACGTGGATCTGTGTTGTACTGACGCTGACATTTTGACTGTCGT
TTCTAAGTAACGTACTACTACTTTGGATAAAAAGCACCGTGGCTTAACCATTGAAGATAATGTTACAAACTTAGATAGTGGTTGAGCTAGCAAGTAACTA
GTGAGAGGAACTTTAGCTCTATATGCAGGAGATCAGAGCACAGGGAGCTGGCCCCCTGGCTGACMTTCCTTGTGGGCTACCCACGCCTTGCAACTGAAGA
GCGGTAATTAAATATATATTCATAGAAGAGTGGTAAAATCTGCTTTGTCCGTGGAAATGAGCTAAAATATTAAGAATTCAAGGATGTTGGGCCAGGATTT
GGGCTTTAATTTGGCGCGGGAGAAGTGTTGGGCCTGAGCCCTTGTAGGGGTGGGACAGGGCAGGGGTTTGAGTGTGAATGCTGGTGTCCAGAGGGGTCAG
GGGCCCTGCAGCCCCCTCTAGAAGCTGTGACTTGGGAAGCACCCTCGTGTCCATTTGGACYCGTCTCAGGTGACTTGATGTGTGTGATCCCCCCATCTCT
GTTCTGTGGCTCTCTATGGGCCTGGGGAAGGGGTCCCAGGCATCCTCTTGAAGCCATGTGGGGAGGCACCGAGAGCAGGAGGCTGGCTTCTCCTGGTGTC
TTGTCCTTGGCAGGGAGCAAGTGACATCCATTTTGACTGGTGCTGACAGGGTGAATGTACTAGCATAGGTGTGTGCAGCTGGGGCTGTACCTGCCAGGAG
CATCCTGGCGCGGGTCTCCTGCCTGAGCTTCTCCTTGTTGGGAATGCTGTCCTTAGGCAGATCCTCATTTTCAGGCCTCACCAGAATTGCCTGGCCTGGT
GGGAAGAGAGTGGCTGCGGGCTCCCAGAGGTTCAGCTCAGAGTTCTACTCCACACTTCCTGGGCCAGCTTCCGCCTCTGAACACCTGAGCTGACACTGGG
ACTGTGAACCCAGATAAGATGATCATGCTCACAGCTGCAGCTCAGGATGCAGCCAGCTGTGTTTTTCCTACTTCCTCTCAGCTGGGCAGTTTGCTGGCCT
CTGAAAATTCTAGCCCCCCCTCCCCCTTTTCTTTTTAGGCAGAGTGTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCCATCTCGGCTCACTGCAAGC
TCCGCCTCCCAGGTTCACACCGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGAATACAGGTGCCCACCACCATGCYCAGCTAATTTTTTTGTATTTTTA
GTAGAGACGGGGCTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATCTCATGATCTGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTG
AGCCACCATGCCCRGCAATTTTAGCCCTTTTGACACACTYTATGACCCTTCTTACGCGCCTCCCGAGGAGGAAGCATGCACTAGAGCGTGACTACAAACC
TGGTGCCATGCTAGAGCGGGAGAGGAGTGACTGCAAACCTAGGCCTCTGTCCTGTCACCTTTCCTCCAGCTGGTGAACCACCTTGTCTACTCCCTTGCCC
CAACACAGCCGACAGGTGGACAGCCAGACACATGCAGAGCCATTGTTTTTTCAAAGACCTGTTAAAGTTTAAAGGCTTTGTTCACTCATTCTTGAGACTA
ACAGTTCAAGTTCACAAGAATAAATGTGGAATACAGTATGCACCTAAAAATATAATACAGTTTTAATTTTCATCTGTACTGTTAGCATTAACCAGCACTT
ACTGAATAATGTCCTCTTAGGACTCTGTGTTAATTGACTTTTTAAGGTTGATTGTTAATAGAGCAGTAGGTTGGGAATTACAGTATTGGTGAAATTTAAC
TGTTTTTCACGTGTGTATACCTAAGTCCTATAAAGGGTCTAATTTAGTTTGCTTTTTTTTTTTTTTTTTTTTTTTTTGAKACAGAGTCTCACTCCGTCAC
GCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCACCCTCTGCCTCCCAGGTTCAAGCAATTCTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACA
GGCATCCGCCACCACGCCCAGCTAATTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGAT
CCACGCATCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCTTGGCCTCGGTTTGCATATTTTATACTGTGTTATGAAACAGTATCAG
CACTGTTTTTTTTGTTTGTTTTAATATAGAAATAATATGTACGTTGTGGACTCCTCCTTTCAAGCTGGGCATATTTCATTTTCACTCTGAACTAGCTTGG
TGGCCAAGAATGAGGCGTCTGGAACCAGGATCCTGTTTTGTGGGGGTTTTGTTTTGTTTTGTTTTGTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTG
GAGTGCAGTGGTGCACTCTCGGCTCACTGCAGCCTCTGCCTCCCGGGTTCAAGAGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGATTACAGGTGTCT
GCCACCATGCCTGGTTAATTTTTTTTTAATTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTGCTGACCTCAAATGATCCTCGC
ACCTTAGCCTCCCAAAGTGCTGGGATTATAGGCCTGATCCACCATGCCTGGCACAGAACCCTGATTTTGCTTCTAGATTTGTGACCTTTAGCAAGTTATT
TAACTTGTTTGTGCCTCAGTTTTCTCACCCGAAAAACTAGGACTGACAATGGCATTTAACCTGCTGGGCACTGGTGAGTGAACTCGATGTGTGGGTGTGT
GCACACGTGTGTGTGTGTGTGTGTGTGTTTTCAGGCAGCACGAGCACGGAATTCATGTTCCGGTCTGTTGCCAGCTGCTGTAGTTCTTTTGTTGATGGAC
TCATCTCACCCCCTCCAACACAGGGAATGTTCTGGAAGGAAGTGTGGCTACCCTGCCATGGTTCTGTGTCTATGGGAAATCTTATTCTCCTGGAAAACGC
AAAGTAAATTCTTCCCTTTAAGACAGAACTGAGGGCCGGTGCGGTGGCTTAATTCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACTTG
AGGCCAGGAGTTCGAGACCACCTGGTCAACATGGTGAAACCCCCCATCTCTACTAAAAATATAAAAATTAGCTGGACATGGTGGCACACACTTGTAATCC
CAGCTACTGGGGGGCTGAGGCAGGAGAATCACCTGAATTCGGGAGGCAGATGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCAACAGA
GTGAGACTCCATCTCAAACAACAACAAAAAAGACAGAATTGGTAAAAATACTGATCCCTTGGAAAGAAGTAACTATTTTAGATACCATTGTTTTATTAAA
AATGTACTTGCCTCCCTCATATACACATATTGATATAATGCCATCTACATTTGTATAATTTATAAATATTATACAATACTTAATACATATTATATTTAAT
ATTAATAAATTATACAAATAAAACTTATAGATTATAAAATAAGTTTAGTTATTTTAATATTTAAATGTGCTAAATGTAAGTTTGTAAAATTTAGGAATAA
CTTGTTAGAAAGGTGAAGAAGCTCTGGATTGAAAGGTATGTGCTGAGGTCAGGAGTCCAGCTYGCTCTCCTTTGAGGAGATGGCCTTGTTTTTTCTTTCT
CTCTCTCTCTTTTTTTTTTTATTATATTTTAAGTTCTAGGGTTACAGGTGCACAACATGTAGGTTTGTTACATAGGTATACATGTGCCATGTTGGCTTGC
TGCACCCATCAACTCGTCATTTACATTAGGTAATTCTCCTAATGCCATCCCTCCCAAGCCCCCCGCCCCCCGCCYGGCCCCAGTGTGTGATGTTCCCCGC
CCTGTGTCCATGTCTTCTCATTTTTCACCTCCCACCTATGAGTGAGAACACATGGTGTGTTTGGTTTTCTGTCCTTGTGATAGTTTTGCTGAGAATGATG
GTTTCCAGCTTCATCCACGTCCCTGCAGAGGACATGAACTCATCCTTTTTTTGTTTGTTTGTTTGTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTG
GAATGCAGTCGCACGATCTCGGCTCACTGCAAGCTCCGCTTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGACTACAGGTGGCC
GCCACCACGCCTGGCTAATTTTTTGTATTTTGTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCC
GCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAACCACCGCACCTGGCCACAGCCTTTCTTAAGGCAATCACGAGACCCAGCCCATCGTGGCCTGG
TGAAGGAGCAAGCCCTAGGCTTCATTCTCAGTTTGGAAAAAACCGTCATTGCCCAGAATGTCCCATTTACACATTAATTCCTAAATGGAATGATGGGAGC
GCTGGGTGCTCAGAGGCTTCCTTTTGAGGATTTGCCAGCTGCTTCTGGACTGTAACTTTTGCAGCAACTTCTGCACTCATTCATCAGGTGCAGAGCAGTG
TCTTAGAAATGAGTGAGTCTTAGTGATTTCTTGGAGTGTGGATCCATACACACTTACCTCTTTTCTGAACTATAGATGGGAAGCTGCTGCAAAAAAGCAA
GGTGCAGCCCCTTTCTTGTATGAGGGAAGCTACTGTTTACCATCCATGGCTGCTTGAGTTTTTAGAGCTGCGTCAGATGAATAACTTGTTGGTATCACTC
GTCAATCTTAGAGGCACTTTCAGAGATTAGGAATTGTGACCAACAGGAGAGACTATCTGGCATTAGGAACACCAGGGCCTATTTTGGATCATGCTGTACT
GCTTACGGTCATGCCCTGTCCAATCTGGGATGACTGTGGCATACAAGTCACCATGGCCATTGTGAAGCCCTTGTTCTTGGAGACCCTGTGCTCCAGGTGT
GGCTGGTTGGTTCCCTGTGGCAGGACCCCCAGAGGCCCCAGGGGTTGTGAGAGTCAGGGGTGTGCAGGTTCTGAGGGCTTTGCTGGGTGGGCCGAGGTTG
AGTGGGCTGGTTGCAGAATCCTGGTGCCCAGAGGGTTCTTCTTTGCCTGTTGCTGGGGACTCACGCCTTGTGAGGGGACCTTTCTTTATTACCCTGATGA
GGACAGAAGAGTTCCTGAGAGGAAGCCACAAGCCGCCTCCCTGACCTGGCAGCTGCCTGTGTGCCCTGGTGTGTGGGTTCCTCCCTTCCTGGGTTCATGC
AGCAGACTCTTGGCAGTGCAGGCCTCCTTCCAGGGGCTCTCAGGGCTCAGTTCTCATCTCTCTGGGTCACACTGAGCCCTGCTGATCCCCCTCCTGTGTG
GCTGCCTCTCTGATGCCTGAAACACCTTCAGCTGTTAGTCCCACGGCCTCTCATCACCTCGATATCCTTTTCTGCTTGCTTTCTGGTTTTCAGTGGCTGC
CAGCAGAGGCTGTAATGCTCCCCTGGGACCTGACCAGTAGAGAACAAATGCTATGAAGACCAGAGGCCCCTCACTGCTCCACGCGTATACAGGGTGCGTC
TGTCTGGACAGCCGAAGGCCCATGGGTGGTTTTGTTTTCAAAACACAATGAAAAATGACTAGTCATGCCATATTGTTAGCACCTTTCGATTTTTTTTACT
GTAAAAATCAAAACAGAAATATTTGGCTCCAGAGCTCTGTGAACCCCGAAAATTTGAGACGGGTCTCAGTTAATCTTGAAAGTTTACTTTGCCAAGGTTG
AGGATGTGCGCTCATTAACACAGCCTCAGGAGATCTAACAACATGTGCCCGAGGTGGCCTGAGCACAGCTTGGTACGTTTTAGGGAGACATGAGACACCA
ATCAATACATGTAAAATAAACATTGGTTAGGTCCAGAAAGGCAGGACCACTCAAAGTGGGGAGGGGGCTTCTGACATTCTTTTGAGTTTCTGATGAGCCT
TTCCAAAGGAGGCAATCAGATATGCACTTAGTGAGCAGGGCGATGACTTTGAATAGAGTGGGAGGCAGGTTTGTCCTGAGCATTTTCCAGCTTGAATTTT
CCCTTTAGCTTAGTGATTTTGGGGGCCTAAGATTTTTGTTTTCCACAGGTCTTTTTAGGAATTTTAAAGATGTATCTCATCCAGTAAAGCTGAAGTCCCC
CCAAGTGGTAGCTGACCATAGACTAAGCCTCCTGCTGTACGGGGCACCCGCTGGGAGGGAAGAGGTGCTGGCCAAGGTGAATAGATGGTCAGATGGGCGA
TAGGAATGAACACTTTGCCATGGTGGATGTGCTTTAGTGATAGAATTTGTTCAGGAGATTATCTTTGTTCCTGGTTTGGGAAGGCAGAGCTTCTATATTG
GAATTCTTTGTCTCCCAGAATAAAAACTCTAACATCACCTGTATTATATTGTGGGGATTAAAATCATGCACTTGTAGCCAAACCTAGGTATGAGTGTGAG
CGTACACTGCTGACAGATTGAAATTTGACGTCCGAATTCTGGTTCCCAGGAAGGAGATATACACACACACACACACACACACGTGTGTGTGTATATATAT
ACGTGGAGATATATATATATATATATATATATATATATATATATWTWTTTTTTTTTTTTTTTTAGACAGAGTCTTGCTCTGAAGCCCAGGATGGAGCGCA
GTGGCGTGATCATGGTTCACAACAGCCATGGGCTTAAGCAGTCTTCCCACCTTAGCCACCCAAGTAGCTGAGACTACAGACACATGCCATCATGCCCAGC
TAATTAAAATAATTTTTTTTTTTTTTTGTAGAGATGAGGTCTTACTGTGCTGCCCAGGCTGGTCTCAGACCCTTGAGCTTAAGTGAACCTCCTGTCTCTG
CCTCCCAAATGTTGGGATTATGGGCCTGAGCCACTGGGCTTGGCTTAGGAAGGCTTTTTGAATAATTATCTTCCTCACTCTTCTTTCCACCCACTCTCCA
TTCAACCYTGATGAACCCTGCTGGACTTCATTACATTTCTGCTCACTTGACATGCAGATTGCAGATCAGGTGGGCGGGAGCTGATAACATTCTCACTTGG
CCTCAGTTTCCTCGTATGTCCAATGAAGGGATGCACCCTAGCTCTAAAAGTAAACATTGTTCTCAACAGAAGAATCTGGGCATTTGCTATCAAACAGATT
CCCATTCTTCAGGCAGTTAATTTTCCACACCACAGGAGATGTTTGTGACATTTCCCATTTCTTTGAAGTCTAAGGTAGATATTGATCCTTTGGAAGGAGA
TTAAGTTCTCCGGTTCCATCAGGTGTAATGATTTCAGTTTTAGTGTTCCTAGGTGGGGAGTGCTAACCCAAACCTTTCATATGTAGGAATGTCATCCCTC
TGCAGACCTTTGAGTCCAGATTTCATTTGTAGTTGACCTTTGGGGGTGACAGTCCGATATGTGTAAATCGTAATAGCCCTTCATCGTAGATACCAGTTTA
AAATTCATTTTAGGTGAGTTTCCAAACAGATATATTGGATGTATATCAGTTTAATTTGATAAACATGCAGATAAAAACTTATTACATGAGGACCAGTGTT
TGAAAGATGGCTTACATGACCTGATGAGTTTTCATTTTGTCCGTTTCCAAAATACACAGGAATGCAGGAATGCCACCTTCATTCAGATCAGACTTATCTT
CTTCGCAGGATGTGGCCAGAGATTTATTTAAGACATTAGCTGTGATGAGGAAGGTCAGATAATTTAAGCAGGGGCAAAGTACACATTACTGAGGATTCAG
CGCTCTTTGGTAGAAGGATGTGTTCCTGGATTTTTTTTTTCTTTTTTTTTTGGATTTTTCTTCTTAATCGCCGCTCTCTGACTTTTTTTTTTTTTTTTTT
TTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCCATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCACGCCATTCTCCCGC
CTCAGCCTCCAGAGTAGCTGGGATTACAGGCACGCACCACCATACCCAGCTAATTTTTGTATTTTCAGTAGAGACGGGGTTTCACCATGCTGGCCAGGCT
GGTCTCAAAGTCCCAACCTTGATCAAGTGATCTGCCCACCTCGGTCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCAGCCTTGCCCTCGG
ATCTTGAACCTCCTGTCTACTCTTGCTGGGCTGTAGATGGACAGAGGTGTCAGTATTTTAGGAGTGTGATCTCTCCTTTTGCTCATTGGTGTTTGAGGTC
TGTGGTGTCTGTTTGGGGAGCAGGTGTGTGCAGGAAGGAATCTGCACTCTCCACTTTTGCTTTCCCAACATTGTTTTTTTCATTCTCTCTGGAAGGTCAT
GACGGTCCCCTCCACTCACTCACCTCTCACATTTCCAGCCCCTCTACTTCAGACAGACTTCCGAAACTTTCTGCCTCTCTTGGGGTACTTTAGTATGCCC
TGCAGATGTAAGCTGCTTTCAGAAAAAGCCAGATCCWGCCACATGAGACTGCAGGCCCTACTAGAATCTGTTCTATCCCACATCTCCAGTTATAGGTGGG
TGGGAAGTGGGAATTGGAATTTTTTCCTTTTGTTCAGATTTTCGTCATGACCACGTGTGTACCCGTTAAGACTAGACAAGGGAGTCACCGCTGCTGAAAG
AAAAGTCATTGTGTATTCATTTTGCATTGGAGGAAATGAGCATTGGGGTGCTTTGGTGACAGCTTGGAGGAGCAGGGGAGTCAGTGGCATGRCTAGGCCT
GGGTCCCCTCATCCCGCCCCTCATTCACCCGCTAGTGCTGTTTGAGGGCCAGAACCAACTGTGCCTGTGTTTAGACTGGGTTTGTTGCTGTGTCACAGTA
ACGCAATTGCAGCAGCAGCAGCCGCACCCGTGTAACGTTCGCCAAGCTGGGTACTGTTGGAAGCACTTTGCTTGCATTTGTGCAGCGATTCCAGCAACAA
CCCTGTGCGGTAGATTATTGTCCCATAAATCTATAAGATTGATTGATTGGTTATCTGTAGGAGACATCTAYGTATACGTATTTATAGAGCAATGAAGAAA
TAAGCCCAAGGCTATCCCATGAGTTAGGGGCTTCAGGGCTTCTGCGCTTTGCTGGCCCTTGTGCTGCCTTCGGTAGATGGCCCCGGCCCTGCCTATGCCT
TGGACACTCTTCATTCGCTAGCACCGAGATGGTTCAGGGCACTTTGGAGCTAGAGCAAGAGCAATGGAGAGAGTGAGGTTGCCGTGTCCACAAGTCACTG
CACAGCTCACCACGCGGGCCTGGAGTGAGCCTGCTGCTGTTCATCGGCCCGTAGGGTCTCCAGCACAATACCGGGTTAGTGAGCAGAAAGTAGTGCACTG
ATTATGTTTCCATTACACCATAGAACATAACAATTTTGACTGCAGAGAGGCAGGCAGAATAGCTTGTCCAGGAAAATAATAGTGCGTTTGTAAGCCAGAG
AAAGATGGTACTGTGTGGTGGGGAATTCTGAAAGTCTTAAGTCTGTTTCTCAACTCCCCTCTTGTTTTCATTGTTTCAGGCAAATAATTTCTGATGGACA
CCAAATTGGCAGGTCACCATAGGGACCTCCCCTAACCTCAAATCTGTGTAATGAAGTATCTGCAACATTTCCACTCATTTGAGAGTTCCACTTTTCAGGA
CAGTCATAGAGCTGCACTGTTGGTAAACTGTCCTGCATGTGTGTACGTGCACACTTGTGTGACGTGTCAGCTCGTGCCTGCAGAGACTCTGCCAGCAGGG
CTGAGGCTGCTGCCAGGAGAGCATCTGGGGTGGTGTCCTACACCTCCTTTCCAGGAGTTTCTGTGTGCATGATGCACTTCAGAACCTATAGTGTCATTTG
TGGTATTTTTTTTTTTAAATACTGCTTTTGTTTATTTTCCCTGGTCTAATTTTTTCAGATGGTAAATAGATCGCGTTGTTGCATGCGTTTGATGAAAGTG
ATATCACAGCAAATGCAAAGGTGACTGGGAGTTCTAAGCCCCTGGGTGTCTCTCCCTCGGGGTTTTCATGCAGTATTGACACTCTCTTCTCCCCAGGTGC
TGAGTCCCCAGGTTCCCCTCTCCCCCTACCTGAGGTACTGAGGGATCTCACTTGCTACCTGCTTGGAGCCAGTCCAGTGGCTTCACTTTTACCACTCAGA
GAACTTTAGTACACAGTCTTAAACAACCCTGGAATGTTGAGCTAAAAGGGACTCTGACCCTCCCTCCGCACCCCACCCTTTAAAGGTGAAAGCAGCAGGT
GGGGTGGACTCCTGGGGCTGGGGAGGCCGTGCCCCTGGGGGCAGGTGCAGGAGGGAGCCTGGCTYTTCAGGTTAAATTGTGTTTCAAAGGCAGAGCTCAC
ATTGGAGCACTTGATATTATGCATTTGAAACATTGAGACACAGCTTCTAGTTTAAAATAAAGGTGATAGCCAAGGAGGAAAGCATGGTTTATTCCTAGCT
TCCGGTAGAGGAGGCTGGCCAACTCAGACACCTAAGCAGCCACATCAGACCCAGAGTCCGAGGTAGAATGGATATTGCTAAAGCTGAGAGCTACAGCAGA
GCGTCTGCTTGAGGAGCTCTGACGGGCTGGGCAGCCAGTGCTCCTGGCCCTGAATGTGTTTGAAGGAGCTCTTTGGAAAGAGGTGCAGGCTTCCGGCTAT
TGGTAGACACCTGTCTGCTTGGGGCAGGTATACTGACTTTTTGTTGCTTTTACGGTTATCTTCGGGTAAAGTCATTGTGTTTCTTCTTGATTTATTTATT
TTTTTCTCCAGTCTAGTCATAGTATTGGTTTCGAGAAGTCAAAATCAATGTTTTATTTTCAGAGTTCTAAATCCAGCCATATAAATACTTCGGATCTGGC
CTGAGGGTTTGGCAGGGATTCGTGGCTGCTATTTTAGATATGCCAGGAGCCTTCTTGGAAGTCGCTCACCACCTGGTTTTCTCCAATTAGGCTATGAGCC
TGTATCTTAGAACACTCAGATTAGTGTGCCTAGAGTGCCAAGGTGGGGGTTGTAGACAAGATTCTACCCCCTCCTCCAGACTCTGCTCCCTAGGCCGAGG
TGAGGCCAGCAAGGAGTCTGCCCCATGCGATTCTGAGGCCTTGGTCCCTTCTGAGAGACCCCAGCCCCGAGAGGCTCTGGGCTGCTGGATGCTGGTGCCT
TTTCCCACCGTCAATCAAGCACATGCGCATAGGGCTCTGTGCCTGGCCCCAGGACTGTCATATCCAGGGAAAGGTCACTCTCTGGCAGTGGATGCTACCC
TGTTGGTGGCAAGTTAGAAAGGCACACGTTGGTAATGGCCAATGGTTGCCAGTGCCTTACTTTTGGAGACAGGAATTGTTACACGTCTCCGTTGCGAGAA
GCAAAAGTAGATTTAACACATCTTTAAAATCCGCTGAAGACTGTAAAGATACTCATTTGAGATGTGCCAACATTTAGTCGGATTCTGTGACTGGTCGTGA
GTCCCTCTTCCTCCACACAGCAACACTGGTTCTAAAACAGTCGGATAGCCGTGGTCATTTGTGGATGTGAGCACAGCCAGGTCCCATGTTGACAAGTGCT
GGACAGTGGACACCAGCGGGAGACTCAGTACAAATCATGTTGCTTTGGGCTTATGCACATCTGCAGAAGGCTGCAAGCTGGGGAACTGAGGGGCCTCTTG
GTCTGGGGACCACGCCTCCCTTCCCTTCCTTCCCTGTCCTGAGTGTGACCTCCGTCATGTTGACCCCTGCACTCCTGCCCGCCCCCCATTCACCCACTAG
GAGAAAGTACTGGATAGGGATGAGCTTGGGGACAATGGCCAGTGACATCCAGGAGAGGGAACTTAGAGGCAAGGCAGGGATGCAAAATCGGAGTTCCTAG
TAGAAACAGACATGCAGCATATTGTGAAATGTTTCAGAGAAATAACAGCATCACGATAGCACATTCTCTAGTTGCTGGTTATCTAGTTACTAGTGGTAAG
ACAGAGCCAGTTAACAAAGACTATAAAGTTTTCTCAAGAGGATGTAAACCAAGTAAACAAAATAAATTCAGACCCCAAGTGCGCATATTGAGTTTGAATA
TTCATCTAAGAAGCTTTTGTACATGCGTTATGTATCCATAAGCCAAAGCCGGGGGCTCCCTGGCAGATGCCCCTACCTGGCCAGGTCTCGTCGTGTCTAG
GTGGTGACAGCCATGTAGATATGCCCGCTGCCTTGCACCTGTTCCTCTGGCCTCGCCTCTGTAACAGAACGTGGCCCCTGCCTTCCATCTTCCCCAGGGT
GCCAGTGGGGACCTTGCCTTCTCCAGCACTGGGCCGTCCACTTTGCTCCTTTGTGCCTGCACTGCCAGGTGCACATCGAGCCTAATCTGGCTTAGGAAAC
AGGAGGGGCACCAGCTAGAAAATGTGACCCATGTTGCCAACTCCCAAAAGCCACCAGGTGACTTCCACTGCCGTTAGAATGAAACCCAAACTCTGCACTC
CAGCCCCAGCATCAAACCATACTTCGCCCTGCTGCCCCTATGCTCTCCCCCCTTGCCCTCCCCCCTTGCCTTCCTGGGCCATCCTTTTCTGACTCAGCCT
CAGTGCCTAGCCAGTGGGTTCCCCTCGCTGACCCTCAGCCCTCAGGCCCAGCACCTCAGAGAAGCCGATGACTGACGTGCACCCCGCCAGCCTCCCTGCT
TATCCTTCCCTGCCGCCTCGTGTGTCCTGCATGGCATTTGTTACAGCCCGCAGTCACAGGTCTTGCGGTGGACTTGCTGGTCGGCTGCTCTGCTGATTCT
CGAAGGCGGAGTCAGGGTGTGCTTGGTGTGCGTATCTCCCTTGATGTGGCACTGCCTGGCTCCGGAGATAGCGAGGGAGGGAGGGAGGCAGTGAGCAGGA
CCTGTTGCTGTCGGTGGTGGCATCAGTGGAGTTGGCAGGTACTGTGCATGGGAGAGGGAGTGTGGCCTGCAGGCCAGTGGCTGAGGCCCAGTGTGGACTG
TAGAGTGTCAGATTCCACTTGCTGGCCTAGGGGCCTTCCTGATGTGGGCTGCGGCAGTCACCACTGGGGAAGGCCATGCAGAGGCTGACTCCTTGGGAAG
GAGGCTCTGGAAGGAGAGCATGTGCAGAATGTTTCCTGCAGTGCCTCTTGAGCTCCCGCCTGAGGGTTTGCTCAGCCGGCAGGCCTAGAGGAGGGGGCTT
TGGGGCTGCAGTGCAGTCTTTGCAAAGGGTTCAAGGGTCCTGAAGGTGGTGGCACTGTGGCCTTAGGAGCTGGGGTAGTACTCAAAGCTATCCCCAAGTA
GGCACGGGGGCTGGGCCTTTATGCCTGTCACCAGTCTATGATTGGACGTGTTCTGCCCTCCAGGGGTCATATCCTTGGGCCACACCACTCACTTCTCTGC
CCAAGTGCAGTCTCTGGCATGGGGACTCAGCCTAGAGTGATCAGCCACCTGCACTCCCAGCAGCCAGGTACTGAAGGCTTTACCCCTGAACAGAGGGACA
GGCTGGTGCCCACCACAGTCATGCGAAGGCATTGCGGAAAGCTCTCATTAAAAGAGCATTAAGCCAGGCCTGGTGGCTCACGGCTGTAGTCCTAGGTACT
CGAAGCTGCGGCGGGAGGATCACGAGCTCAGGAGTTCGAGTGCAGCCTGGGCAACATAGTGAGGCCTCGTCTCCAAAAAACCCCACAAAACATTAGAAGT
AGTAGTACTTGCTATTCTCATAGGAGGATGTAGAAATTAGATAAGAGTTAACTGAGAATAGATTTGAATTAGCTTTTATTCCCACTGAAAAAATCAGAAA
TAAACTTGATTTCCTCTGGCATAAGTGTGGGTCCTGTGAGTTGATCCTCAGCCCTTACTTGGGGGTTAATGACGTTCCCATTTGAAAAACATGGCAGTTT
CAATGTCTGTTAATGTTGCAAAGCATACCAGGAACATTTTATAAAAAGTAACAGAAACTACCATGTGATTCTGGAAGCTGCATAGTTAACTGTCCATTTA
TCTTGAAGTCTAGTGATTCAAAGCATGAGGAATAAGATCGGGAAGCTGGCCAGATGTGGTGGCTTACACCTGTAATCCTAGCACTTTGGGAGGCTGAGGT
GGGYGGATCATCTGAGGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGCCTCTACTAAAAATACAAAAATTTGGCCAGGCRTGGTGGCT
CACACTTGTAATCCCAGCACTTTAGGAGGCCGAGGCGGGCGGATCATGGGGTCAGGAGATCGAGACCATCCTGGCTATCATGGTGAAACCCCGTCTCTAC
TAAAAATACAAAAAGTTAGCTGGGCGTGGTGGCGGGCGCATGTATTCCCAGCTACTTGGGAGGCTGAGGCAGAAGAATGGCGTGAACACGGGAGGCAGAG
CTTGCAGATAGCCGAGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAATTAGCTGGGCATGGTG
GCAGTGCCCTGTAATCACAGCTCCTCGGGAGGCTGAGGCAAGAGAATTGCTTTAACCTGGGAGGTGGAGGTTGCAGTCAGCCGAGATCGCGCCACTGCAC
TCCAGCCTCTGCAATAGAACGAGACTCCGCCTCAGGGAGAAAAAAAAAAAGAAAAAAAGGAAGCTGCTACCTTCCCAAGGACACTTGCTCCTCCTCGTCT
TGCTCAGGCATCTCCTGGGCACCTTTCGGGGCAAGTCCTGCTGTCACTGCACAGCTCACCTTGTATATGTGGGGTGCTCTTCTCCTCTCCTGAGGAGTTA
TGGGTGATTAGGAAGCAAACGCKTCTCAGACTTGGAGATCAAATGAAGAGAGGCTGTGTAAGCACCAGGATGCATGGGGGGTTCCGGCTTCTTCGCAGTT
TCACCTGGTTTAACCCAAAGGCAAGCAACAGGGATGCCCAGGGCGGGTGAGAGGTGCTGAGCGGAGCTCCATAGTTGGAGAATGTAAGTATTTAAAAATT
CTTGTGTCTATTTTACTATTAAATAGACTGTATAACCTCAAAACCAGTTAAGAATCTTTGACATTCATGGTGTGAAGGATGAGAAGCTGGGAAATAACAA
GGACCTTTTCCTCGTGTTTCCTCCTTAATTATGCTTGCCAGTGTTTTAAGCATCGAGGCTGACCTTCGCAGGCTTCAGGGTTTCAGCTTGATCACCATGT
GGATGTGGATGAGTCAGTTCACTCCATAATAGCTCTTAGAGGTGTAGAAAGGAACTACTTCTTTCCATGAGTGCACCTTTATTGCCCTATCTTATAGAAA
TAGTAGATGCTCATCGTAAAGACTTACAACAGGATTGAAATTGGTAAAGAGAAAAAGGCAATCCCCTACCCCCGTCCCTCAGAGATAGCTGCTGTTGTCA
GATCAGTTGGATATTCTTGAAGACAGCTTCCTTCACGGGTGTTTATATGTCGTCTCTGTCAGTCAGTTACATGGTGAACAGACAGCGGCTCAGGTTACAG
ACGATCTGTAGCCCAGTGTTTGTGCTCAGTATATTACACTTGATCTGTCGTGGAACTTTTTTCAAGAACAGACAGCTTTTGTTCTGGACACAGTATTTGG
TGGGGCCTAGGTCTGCCTGTAAGCATACATATTGGCAGAGCAGTGTCTCTTCCACATCTGAGCTGGTCAGGCAGAGGGCCGGGCGCAGTGGGGGCACTTT
GCTGGGTGAAAGAGGTAAGAGGTAAGTCAGCAGGGGCACAAAGAAACCATGCGTATTCACAGGAGCATCTGAGCTCCAAGCCCAGGGAGCTGAGAGGGGT
CACTGTCCTTCACAAGGAGGTGGCTTCTTTTCTGGACATCAGACAGCATTGTTGCAGGAGATACTGAATAACCAACCCCTCTGTGATGTAGTCTTCAAGT
TTTATTCCCTTGGGTGCACCAGCGGAAGGTCTGTGCTGAGAACAGAGGAGGGCCGAGGAGACACTTGCATGGGGTTGTCGACAGAGGGGCACCAGGATGG
GTATTGCCCAGAGGGAACCTGCATGATTGTTTTGTTTACCATTTTTCTTGAGACGGAGTTTCACTGTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTC
AGCTCACTGCAACCTCCGCCTCTCGATTTCAAGCGATTCTCCTGCCTCAGCCTCCAAAGTAGCTAGGATTACAGGCGTGCACCCCCATGCCCAGCTAATT
TTTGTACTTCTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCGGGTGATCCACCTGCCTCGGCCTCCCAAAATGTTG
GGATTACAGGCGTGAGCCACGGCCCCCAGCCTGTTTACCAATTTTTAAACCATGGCTTATGACCCTTACCCTGAGCATCAGTGACAGGGGAACCAAGAGT
CGTGTGAGGTCCCAGGGTGCACAGTGGACATTTCAGTGTGAAGGGCRGGTCGGGTGCCCCAGCTTCCACGCTTTCCAGCCTGGATTGTGGCATCTTGGAT
GTGAGGCCACAGACCAAGCTCACAGGGATGAGAGATGGTCCGTGTGGGTCAGCCGGCTCAACAGACCTTCTCCCAGGAGGCTGATKAGATTTGCTGAGCA
TTACAACCTGATGGGCAGGATTTGTTTTAATCATGTAACACAATCACAAAATTAGTAGTGGCACCATGCTRTCGCTGCCCCTTTCCCATGCATGTGCTGC
AGACTTATCTGTGGGGGAAAAATTATCCATGCCACCTCTCAGAATGAGCCCCGTCCCCACCTTATACGAGACCATCCCAGCCAACACAGTGAAACCCCGT
CTCTACTAAAAATACAGAAATTAGCTGGGTGTGGTGGCACACGTCTGTAATCCTAGCTACTCGGGAGGCTGAGGCTGGAGAATCTCTTGAACCAGGGAGT
CAGAGGTTGCAGTGAACCAAGATGGCACCACTGCACTCCAGCCTGGCGACAGAGCCTGGAGACTCGATCTCAAAAAAAAAAAGAGAAGTATCCTAACTTT
TGTTTCATTCGATTTGCCATTAAGTCCGGTTATTTTAGCTGAACCTTCCCCTTAGGTCAGTGCCAGCCCATTAACCTGAGAGAAGCTGGGACAGCCCCAG
GCACCAGCCAGCTTTAGGTCTGCGTGGAAAGGGTGTTCTTACTAAGAGCAGATTCTGGGAGGTGAGAGCTGGAAGAACCGGAGGCAGCCCTCCCATTTCA
CAGATGAAGAGATTAAGGCCCCAAGAGGCTAAGTGACTCGCAGAAAAGCTGCCCAGGCGTTCCATGTAGAGCATGGATTTGAACCAGCATTGCCGCATCG
GGATGGGGAGGTGCTGGTTTGCTTGTTAGCTGTGTTGGGTGTACATGTTGTTCGTCTTCATGTGAGGTTGTTAGAAGTAGTTTAGCCACATTAAGTGCCC
AGTGCCCCCACTTCCCCCTGCAATCCCCGATGAAGCAATGCTTCTCTGTGAGTGACATGGCAGGGGGGACCAATACCTAGTGGACTGTCTGTGTCTGTCA
CCCCTGTGCCTGGGAGGGGTGACCCTTGGCTTCACAGACTGTGCTCCCTTCACCTTGCCCCAYGGACCCTCCCCCAACCAATTTCTTAGTCTGCTCTTGT
GGCGAAAATTCAGCAACAGTAAGGAGTGAGTTAATTCTGATTGCTCTTTCTGTGGTAATCTTCTGGATTTATTTGTGTCTATTATTGAGCCATCCCTTAT
TATAAACATTAATTTCACCATGAATTAAACAGTATGACTGACTGAGTTTATAATTCTTTCTGGAATGAAAACTGTCAGGCCCAATTATATCCAGCCCAGG
ACTGACAGAAACTCAGCATATGAATTGTAAATATCTTGTCTCCTGCGTTCTTTATTTTAACCAGGGAAAATGTTCTCGTGTCTATCAACTTGTCTTAACT
TCAGCAAATACAGTGGCTCTTGCATACTACCAGCATCTAAGCTGCAGTCGAAATTATCTTTTAATACAGCAGTCTCCAAGCTTTTTTGGCACCAGTGACT
GGTTTTGTGGAAGACAGTTTTTCCAGGGACCCAGGGGTCGAGGGAGGGGGGATGGTTTGGGATGAAACTGTTCCAGCTCAGATCATCAGGCATTAGATTC
TCATAAAGAGCACACATCCTAGATCCCTCACAGGTGTGGTTCACAGTGGAGCTTGCACTCCTGTGAGACTCTAATGCCGCCGCTGATATGACAGGAGGCG
GGGCTCAGGAGGTGGTGTGAGCTTATGGGGAGCAGCTGTAAATACAGATGAAGCTTCBCTTTGCTTGCTCACACGCTGCTCACCTCCAGCTGTGTGGCCC
TGTTCCCAGCCAGCCACGGATGAGTACCAGTCCACGTCCCTGCGGTTGGGGACCCCTGTTTTAATATACATCTCCACCCAAACTGCAGTAAGACAAATAG
CTGTCTACTCTTACATCTCAKGAAAAAAAAATGGCTGTGAATTTAACCTACGGATTTTGTTTTTTCTTGCAGTTTCTGACTTGTACCTTTTCATAAAATA
TCCCTATTCAACATTTTCACTTTCAAGGACTCAGCAGTTTCATTTTAGGTGTTAAAATGTTTTAAAGCATTCTCGAGATCTGTTCAAAATTCTACGTCTT
ATATGAAATGTAGGATTCTGGCTTTGGTCTAAGGTGACAATGTTCTACCGCTTCTTAGGGGTGCCAGGAACCCCTGGCGGGAGGCCGTGTCTCCCTAGTG
TGACAGCTGGCGTTCTGGTGGTGGCGCTCAGTGTGTTCCTACAGTCATTTTCTCAGGTTCTTGTTATTGTAGCAGCTTGATGGTTGCATAATTATTCATC
ATACCTATCACAATTTTTAAATTTTTATTGCTCTTCCCACTTTAGATAGAAGCTCAGTTACTCAGAGGCTCAACAATAAATTGAACATGTAGTCAGCATG
TGAAAACCCCAGGGTGGGTTTTTAGCAAGCTCCTGAAGGCAGGTGTCTGGAGATTAGAGAGGAGAGGAGCACAGGGGAGCCCCGTGCCCATACCTGTGGC
TGGTTGGTGGTGTAGGCAGGAGATGGTGGCCTGGACCACCACGGGCATCAGACATCCCCCCCCCCACCCCACCTAGGCTCGCACAGGAGGGACGGGGAGG
CAGGAGGGAAAGAACTGGTCGGGCAGGACGTCCCTACATGCCCCCTCCCTTCCCCTCCAGCTTTTCTCCTACTTTGGTGGGGTGTTACTGCTGGGGCATG
GGAACAGCGGATGAGCTGGGTCAGGGGGATGGGGGTCTAGGGCTTGGGGAGACCTCCTGTAGATRCAGGCAGTGTCTTTGGTTGCGTTGTCTTGCTACAG
AGAGCCTGATGTATTTGTAAGAAGACTAAGAAGGTTTTGGATGATGGTGATCAGGTGCTTGTTCCCTTTAGCAGGGGAAATTGGGGCTGACTTTTTATAA
CATTGGAGCTCACTATATACTAGAAGTTGAATTGTACTTTTTTCCCCTGGAGTTCTGTGACTCCTTTGAATTCTCACGGGTTAAATGGGATCCTGGATAC
TCCCTCCCTCTTTGTAAAACCCCTGGAGCATTTTGTGGCTGAAATTTACTTCTTAGAGCCATGAAATGCCCTCCAAAAAGTGAAGCACCACATCCAAATT
GCATTCCATGCCCAAAGTGGTTAACATCCCTCAGAGATGCAAACTCAGAAGCATTTTTGGTTTTGAGAGCCACAGTGCTTTACCCATAGGATGGGCAGGC
CATTCCTTCTGCTGACTGCGTCAGCAGTCCGGGCTCCAGGAGAACCAGCATTCGCAGTGGGGGTGTCTGCACTCTCTACCAAGCTGTCCAGGTTCAGGAA
TTAAAGATGGAAGTGAGAGCCTGTGAAACAAGGAAGCTATGAGGTGTGGGGCTTTGCCAGAAGTGCCAGGGAGGCTGTAAAATGTGTTTTGGAGGCAACC
TCAGGCTGGTTCTTCTGGGGACCTCGGTGTTGGGGGRACGGCCTGTTTCTGTAGCTTGGGATGAACTTCTTCCCTGCATCTGTGAACAAGCTTGTACTCA
GCCTGTAGGTTAACAAGCTGGGGYCAGAAGGCTGTACTGCACTGGACCCAAAACCTGCCCTAGGAAGATGCTTGCAACAAAACTTGTTATCACCTTGGTT
TATAACAGTGAGATGGAAACGGGATGGAATTGGGGCATGGGTTTCAGGACTATGAAGTTATTATTTATGCATTAAATATTCCGAAGCAGCCTCAGCTAAT
GGAACACAGTTCTTCTGAAGGAAATGCGGAAGATAATCCCAGCAGTGCAGGAGAGCTGTGCTCCACTCCTCAAGGCTGTAGGTGGGCCTCTGTTTTCACA
TTTTAAGAAGGAAAGGGCAATTTTCTTCCTTGCCGTTTTGACTTTCAAATCCTCACGCCCTCTGCTTTGATTCTCTCAGACGTGAATCCTTTAAGCAGTG
CTTTACACACCCACGACAAGGGCGTTCTTGGGGAACACCGTGATTCTGGAGGGGTATTATGAGGCACTCAGGAATGCTTTTGAAGAAACTGTAATGAAAA
TGAGGGCCGGGTGTGTTGGCTCACACTTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCATTTGAAGTCAGGAGTTCCAGACCAGCCTGGGGA
ACATGGCGAAACCCCGTCTCTACTGAAAATACAAAAATTAGCCAGGCATGGTAGCGCGTGCCTGTAGTCCCAGCTACTCAAGAGACTGAGGCGGGAGAAT
CACTTGAACCCTGGAGGCATAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGGCTGGGCGACAAAGCGAGAATCTGTCTCTGTCTCTCTCTCTC
TCTCTCTGTGTATATATAGTATATATTATATATGTATATATTGTATACTCTACATAGTATATATTTATAATATATGTATATAATGTATAATATATGCATA
TATTATGTATTACACATGCTAGCATATTTGTAATATATATATTATGTATTATGTATATATTATATATGTATATATTATATATGCTATAATATAGTTATAT
GTATATATTATATATGCTATAATATAGTTATATGTATATATTATATATGCTATAATATAGTTATATGTATATATTATATACTCTATAATATAGTTATATG
TACATATTATATATTATGTATATATGATATGCTCTATTTAGTGTATATTTTATATATTTATATATATGGGGGGGTGGAAATCACTATCCTCTAAGAAGTT
ACAAACCTGCAAATCCTCTAGAGCCCATTTGGGCCGGCAAACTTTTGCCTTGGGATTTCCTTAGAGGAGAAGAGAGAGGACCCAGTCAAATGCTGACGTT
GTTGTGACAGATTCTAAGTCGCCTCAGGGCTCAGGGGAAAGAGCCTTGGAATTGCAGGCAGTGGCGTGGATGTACCTGCAGGGGTGGGCATGGTGGCATC
TTGGTGGCCAGGTGTTCGTCACCCTGCACTGAGAGGGCCTGGTGAATGGCAAGGTCAGGGGATGCTGTCSGGACATGTCAGGATGGGAAACTGTCTTGTC
TGTGGATCTTTGAGGCTGCTGAAAAGGATCTTTGAGCCTGAACTTCCAGGGAAGCCTGAAACCAATCTGGTATCCCCAGGGTTTATGTTTTATTTCATTT
ATTATAGGGATTCAAGGATTTCCAAATAAGAAATTAAATCCTACCATTGAAACTGTGCTGGTGAACTTCTGCTAAGTCCTACATTTGAAAGTCATCAGCG
GATTATGTCTGATCCAGTTTGCAGCGGGCTCTTTTCCGGCTGCGWTGAAATGGATTTCTTTATTCTATTTAAGACTCCACTTCCTTCCTCGGCACAGAAC
TGACAGGCTGTGGCAGCCACAGCCTCCTCCGATGCTCCTCTCCTCTGTGGATGTACCATCTTTCTTCCATTGTTGTTTTGTTTTATATTTGGGGGCTTTA
CGGCTGCTTTAAACTAAAAATAAATGCTCCTCCCCTTTTCTGTGCTAAAAATAATAGTTAAAATCCTTGTGACGTTTAAGGTTTTCAAAGAAAATTCCCA
ATTTCTGAGATAATATGTTGTTTTTAAAATGTCACCTGCAATTTCAGGTTCCTTTTTTTAGCCTTGTGTATAATTTCACGAGTTTTGTCTGGAATGCGTA
TTTGTGGTTCCTGGAGCCAAACAGAATTGGGGGCTGGGCTGGGGGTGAACGTGACACGGGAGACCATCAAGTCATTCTAATATTGGCTGCATGCTGTGCT
TCTAGTTGATAATTTGGAGGAGAAAATTAGAGTCCATAGCTCTGCTGGGGAATGAGCCCACCTGCCAGACGATGGCTGTCTTAATGAAGATGAGGTCCTG
GCTCCCTTGTCTAATGAAGAATGTGGGGGAGCCTTTAGCAGAAGGCTCTGAAATCCCGAGGAAGGACGCAGTGGAGGCACCRCTGGACAGGAGCTGCCTT
CCCTGGTCCTTGCAGCCAGGCTCCTGCAGCCTGGGAAGGTGGGGCTTCCTCATCTCAGGTCCAGAATCCTCTGAAAGTTCTCTTCCTTGACCATAGTSCT
TGGGCCCTGTTCCCTTGTTGGTGTTGTTTGCTGAGGTAGAATGCTAAGATAGGCCAACTGGAGTCATTTCCAGGATTACTTCCCATTCTAGAATTTTTGG
TATATRTTGGTAGTCATATCACATGGATGACTTTTTTCATRCACGTTTATGTGCTGTAGGTTGAACCCCACTGTGAAATTGCCACTATTCMAMCATATTT
GACCATATTTGTGCCTCCAGCACAGCAGCGAGTACAAGTAGCACATGTGCCTGTCTCCAAGCAGGAACATCTCCTCCTGGCTGTGGTCAGATTGATCTGG
CAATTTTATGTGGTTTGATGGAATATAAATTGACCTGGGATGAAAACTGACTCCAGTAAAGCCTTCTAGTTTGTTTTACTCCATGTGGAGTTAGTGGTCA
CTGTGAGCCAGTTTTCTTGGTTTTTTTTTTTTTTTTTTTTTTTTTGGACAGAGTCTGGCTCTGTCACTCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTC
ACTGCCACCTCCACCTCCCGGGTTTAAGCAATTCTCCTGCCCCAGCCTCCTGAGTAGCTGGGATTACAGGCGCACACCACCTCACTTGGCTAGTTTTTAT
ATTTTTAGTGGAGACTGGGTGTCACCATGTTGGCCAGGCTGGTCTCAAATTCCTGACCTCAAGTGATCCGCCTGCCTCAGCCTCACAAAGTGCTGGGATT
ACAGGCGTGAGTCACCACGCCCGGCCCGAGCCACGGTTTTCCATCCCTGGTGTGGTTGCTTCATCAGGACTTGGCAGGCCATGTGTTACTCCAGGCTCAC
TTGTGCCTCCAGCGCAGCAGTGAGTTCAGGTAGCATGTGTGCCTGTCTCTGAGCGGGAGCATCCTCCCCCGGCTGTGGCACCTGGGCAACGGGACATCAA
TTCCTGCTCTTTAATCCTACCCCCAAAGGTAATAGGAGAGCTTCCTCTGTGGGTAGTTGGGCCCTTTCCCAGGCATCCTGCCACCTCCTTGGCAGCATCT
CCTTGGAACCTTACAGAAGCCTTAGGAAAGAATTGCTCCCCTCTTCTSCCCTCCCCCTCCTTCCCCTCCCGCCGCTTCCCTCCCCTCCCCCGCCCATCCT
CCAGGCTGGAGTGCAGCCTTCCCTCCCTCGCTCTATCCCCCAGGCTGGAGTGCGGTGGCACAATCTCGGCTTACCACAACCTCCGCCTCCTGGGTCAAGC
AATTCTCCTGCCTTAGCCTCCAAGTACCTGGGATTACAGGCACCTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTTGCCATGT
TGACGAGGCTAGTCTGGAACTCCTGACCTCAGGTGATCCACCTGCAGGCTAATCTCAAACTCCTGACCTCAGGTGATCTGCCTGCAGGCTAGTCTTGAAC
TCCTGATCTCAGGTGATCCACGCCCCTTGGCCTCCAAGTACTGGGATTACAGGSGTGAGCCACCTCGCGCCCGACCAGAAATGCTTCTATTTTATGGTGA
GGAAATTGAGAGACCAGAAAGTTAACCGAGGTCACTGTCAAACCCATGGCTCCTGGCTCCCTGACCCCTCACACCCATTTCCCTCTGCGTCCTCTTGATC
TCCCATGGACACTGGGATGGRCAGGGCCAGGTGGGAGAAGCAGGGCTCATCTCTGAGGGCTGCGTTATGGGGTAGGAGTTTAGCCTCAGTAACTGCAGCA
CTTTCTGCYCATGGCAACCTGTGCTGTTTTCACATTTCTCAGAAATTCCCGCTCTTGGAGTTTTACACTTGTAACATCTGCTTAGCAAATTTTGAAAAAT
TGAAGATGAAGAGTAATAAAGTGTGGACAAAGCTCTGCASGGAGCTTGTTAGAAATGCTGATTTGAGGCCGGGCGTGGTGGCTCATGCCTATATTCCCAG
CACTTGGGAGGCCGAGGCCAGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAC
CCAGATGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATCTCTTGAACTCGGGAGGTGGAGGTTGCAGTGAGCCAAGATC
GCGCCACTACACTCCAGCCTGGCAACAGAGCGAGACTCCGTCTCAAAAAAGAAATGCCGATTTGAAGGTTCTGATTTCCAGAGTCCCGGCTGATGCTCAC
CTGTTGCTGGCTTTGCTAAGCGTCCCAGGTTAGTCTAGGGCGAGCAGGCTCTGAGCAACACAGCAGATAATGAGGGAGGGATTTAGAATCTGGCATTGCC
AAGGAGGTCAAGGGGGACTTTCCCAAGTGTCCCGCTGTGTCCAGAGGCAGCAGCAGGGAGAACCTGTCCTGAAGGGCTGCAGTGGTCGGCGAGCCCGGCA
CCTGTCTAGTTCTTGGGAAGGATCATTACTATCACCAACGTCGATTGTAAAATACAAGATGCTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGCGA
CAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAATGGTGGGATCTCGGCTCGCTGCAACCTCTACCTYCCGGGTTCAAGCACTTCTCCTGCCTCAGCCT
CCMGAGCAGCTGGGATTACAATCATGTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGAGGTTTCGCCATGTTGGCCAGGCTGGTCTTGA
ACTCCTGACCTCAGGTGATCTGCGCGCCTCGGCCTCCTAAAGTGTTGGGATTACAGGCGTGAGCCACCAYGCCTGGCCCAGACACTTCTGAGAACGAGCT
ACATCCTCTGTGCCACTGGATTCTGGCTGGTCCAGGAACACAGGTGTGCACACATCCGGATGTGCATCCACACACTCATGCGCATATGCCCAGCTGTGTT
TCCCTGAAGCATATTTATCCTTCCAGTGTTCCTGCACCTTGGAAGGAAGCAGGACAGCTGGCCTGGACCCTGCCCCACCCTTCCTCGACCCCACCTACTG
AGTGATGAACAATTCCACGCCAGCACAGTGTCCAGCCCACAGATAGGTCCCTGTAGTGGAGTAGGAGGAAGGACTATTTTGGTATGCATGGCTTTCGCGA
ATGTTTTGTTAATTTTCGTTTAGCTTTGTATGAGGCAGCATTCCATTTTGACTGGGCGGTAACAGAGTTGATGAAAGTTTTTAAAATAAATACTTTTTAA
TGGGAGATGAAGAGTTTTGGCCAATTGAGTCAAGCATTTATTTTATTACTCTTATTGCCACAAACACAAATATGTTCCATTCAAGTGAGGATGTATTTGC
AAGTAAAAAGATGCTTCACATTGTTCCAATGTTTATATAATCATGCATCTTTGTTTAATGGAGCACTGCTTAATTTATAATGAATATTTTATATTGTTAG
AAAGTTAATCTTATGGTGGTATGTGTTGAAAAATCAGCAGTGCATTGATGAATAGAGCTCATTTTAATTCACAGTTTACCCTCTTTGTTTTACTATTAAA
GTTCATTTTTAAAACTTCACGATTTAATTTCTTATGTGCCAAATGGAATAAACCTTAAAAGGTGCCAGAAGGTAACAATGAAAGGAAAATCATCTCATCA
CCCTTGACTTCAGCCATCTAGTTCCTAACCCTAAATCAGCACCTGTTAAGTTGGAAATTTTACCAGAAATAGTCTCAGCCTTGACARGCATATGCATATT
TATTTTGTTTTGTTTTGTTTGTTTGTTTGTTTTTTAAATAACGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAGTCTCGGCTCAC
TGCAACCTCCGCCTCCTGGGTTGATGCCATTCTCCTGCCTCAGGCTCCCGAGTAACTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTTTT
GTATTTTTCAGTAGAGTTGGGGTTTCACCATGTTAGCCAGGATGATCTTGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAATTACAGGCCT
GAGCCACCGCGCCCGGCCAAGCGTATACATATTTTGCACCCCTCACCCCCGATACACTTTTTAGAAATGCATTTGTGAGGATCCTATCCATCTCTGTATC
GCACCTGGCTGTCATCACTTGATAGTAGCCTGGGGAMTTGGGGAATCCCCACTGCAGTATGTTGAGCTTCAGTTACTGGTTTTACTATTCCATGATGTGG
CTATATCCACAGTTACTTAACCAGGGTGTGGTTTGTTACAGTGCAGCAACAGAGTGACGTTCTGAGAAGCCAGACACTATTGGGGCCTGCATTTTGGAGT
CATCATCATTGACCTTTCAGTTTTCCCTGGACCATTAGGGTCACTTTGCAGATCCTCTAAGGCCACATTCCCATTTTTCTGCAAGAGTAGTCGATAACAG
AAAGAAGTGTTTTCCAAATTAATTGGTAATGCTGTTCACTGATGGTATTAAGACACAATTAGTTACCMCTGACTGAGYGCTTGCTGGGTGTCAGGCCCAC
GCTAGTGCGTTCCTCGCATCATCTGTCCACGGGTAATGTTTGTCTGCAGCATGTTGGGGTGGTGTTTGGGTGCACAATTATGCAAAATTTTGCGCCCCCG
ATATTTAGCTCCCAATGTGTCCGTGTCAGTGGGAGGAGAGTAGAGGGGCAGTGACTGGAAGTCTTTGCGGGCAGTGCAGGGAGAAGTCCGCCTCCCAGGC
ATCTTCTTCCTCAGGGCTCTTGGGCTTTCCTCCTGAGCTCCTGCAGATGGGCCTCTGCCGGTCTGCTCTGCCAGCTGGACAGGCATGTTGTGCCCCGAAA
GTCTCTGCCCTCTAGAGATCACTCAGATCTCCTCCTGATCTACCCAGCTGTCCTTTCCTGGAGCAGGGAGTGTTCCTCTGACGGGATGTCTCACTCGGCA
TCGGGAGACCCTTGACGCTGTCATTGCAGGGCCCGTGGCATCTGGTTTGCTGCACAGTTGCCCTCCCCATGACCCCCCCCCCCCGCCCAGAACACACTGG
GCAGATGTGCCCCCCACTCTGTGACCTGGTGGGTTGTGCTCCCCCGGCGTGTGACCTGGTGGGACGTGCTCCCCAGCATGTGACATGATGGGTTGTGCTC
CCCCGGCGTGTGACTTGGTGGGACGTGCTCCCCAGCCTGTGACATGGTGGGTTGTGCTCCCCCAGGGTGTGAGATGGTAGGACGTGCTCCCCAGTGTGTG
ACATGGTGGGATGTGCTCCCTCCCCAGCGTGTGACCTGGTGGGACATGCTCCTCATTTGTGTGACCTGATGGGTTATGCTCCCCCAGTGTGTGACATGGT
AGGACATGCTCCCCAGCATGTGACCTGGTGAGATGCACTCCCCAGCCTGTGACCTGGTGGGTTGTGCTTCCCAATCATGTGACCTGGTGGGACGTGCTCC
CCATCGTGTGACCTGGTGGGTTGTGCTCCCCAGGGTGTGCCTGGCCTCCTTCAGATGCTGGTTTTGCCCTCCTGTGTCACACCCATGGTGTGGTTAGCCC
CTTGGCTTCCAGCCCTGCATCCATGCGGTCCTCATATCACACAGTTCTGTGAAGGTGATGGTGTTTCTTAACTTTTAGGCATCTTATGAATCAGGTCACT
TCTTAGACATAATGTAGAGTGAGTAAGTTTCAGCATTGGAGGACAATATATTGGAAGTAAATCCCATGTGGAAAGAGCTATTTTTCTATCAGTGGGATGC
ACCTCCTCCCTCTGGTCCAGCCCACTCGKCATGTGTTGCCCGAGCTGCCATGTGATCACCAGGACAAATGATGACTACTATCATGGGGTCTCATTTATGA
TAAGAAATGGCATGTGGTGGGTGTGGAAAACTGGGTTGCAGGTAAAGCCATGGTCGTTTGGGTCATCTGTATCGGGTGGGTGCACTGTGCACAGGCAGTC
AGGGGAGGCGGGGGAGAGTGCACCTGCAGAGGGCTGGGCTCTGTAGACCACCCCATGGAGCTTAGGAGTCCTCCATCTTTCTGACATAGTCTAAACCATC
CTGGCTGGGTCTTCAGTGTTTAATATCTTTGTGAGGGTCAAAACTCTAGCACCAGATCTTTCTTCTGAGCTGTAACCTGTTACTTACAAACACTGAAGTG
TTAACTTACACTGTGAGCATTCAAATCTTCAAATTCAATCATACTTTTTGCTGTGTGTGTGGGATTTCAGAAAAATGACTATTGTASTAGACAAGCAAAA
GACCAAATGTGGACCGACRGGCTATAACAGAATCACTCCTCGGAAAGCTAGGTGTGTCCTCAAATATCTCCACACTTGCCAACAGGCACAGTCAGGAGGG
TCTGAAGATACACGCTCCACTGAAGGGCTGTGGCTTTAGCAGGGGAAAAATGGAAAGTTCGATTTTCAGTAACTTTYGAAGTCRTTGGAYAGAGCATGTG
TTACCGACCACAGACTTGGACCTGGAACTCCCCACTGGCATCTAGCTGAGTGTCGTGAACTGGGACAAACTGATCTTTCTGGGGTGAGAGTGACACAGGG
AGGCTTGTCTGCACCATCTTCAGTGACCTTYGGATGTGAAAATGGCCCATTGGAGGCATTTTGACTTGGCCTTTACGTGAGTTATGGTGTCTGACTTTGT
GTCCTCCTCTTTTTCAGATGCCTTCGTGAACAGCCAGGAATGGACGCTGAGTCGATCTGTCCCGGAGCTCAAAGTGGTGAGTGGTTCCCTCTGGCCCTGG
CACCTGTGGGAAGGGAGGGGCTCTGTGCACACCCAAGCCTGCATTCCCAGGCAACTGGTCATCGCCTGGGGCCCAGAGTGGAAGTGTGACTCTGGGTGTG
TTCCTGGGAAGGGCCAGGTATAGTTGATAGCTTGGGACTAGAGTCCAAGTTCCTGAGTGCCCCTGGGACAGCTATGACAGCCATGACTGCCACTCAGCCA
GGGCGGTGTCTCATGTGCAGGGCAGAGGCCATCATCATCCTCTCTCTCACATCTCGTGGGTGTGTGTGTGTCCACACACACACACCCCCATGGGTTGATT
TGTCCTTTGCAGGATGTCACGGAAGGCTCCACACACACACACCCCCATGGATTGATTTGTTCTTTGCAGGATGTCACGGAAGGCTTCTGTCATGAGTCAC
CAAGCTTTGGTATCCATCATTTTTGAAATGTGACTATTTACCCTGTGACCAAGTATTGGCATGAAATTAAAATTTTTGTCTTKTACGAACYTTACCCTTT
CGGTGAAATTATGTAGAGCYTCAAATTGGCACGTGTAAAAAGTGGTCCATCGCAGCCACCCTTTCCAGCCGCTCCCCTCTACCGTAGGWTGGAAGGAAGG
GGCAAGTCTAACTTTGAAACAACCAGGTTCTTTGTCGTGAAATATGTGGCATTTGTGTGTATGGTTATGTATCTGTGTATGTATGTATATATGTGTATAT
ATGTCTAATTTCCGTGTGTATGTTTATATTTATGTAKGTATCTATGTATGTATGTATATATGTCTAATTTCTGTATGTGTGTGTATGTATTTTCTAATTT
GACCGTGAAAGCAAAGCAGATGAGCTCTTGCTGTTCTGCAGACTCCGGCATGGGCCTGCCTAGTGTGTCTGTCCTCTGCATTTCTATTGATAGCACCAGA
TCCCCTGCGGCCCGTGGACTCCTCCCCACTGACCCYAACCTCATTGCATGCTTGGAGGACAGGACAAGGGCCAGGAGACAGGATCCTTCCGGTCCTTCAT
GTCTGAGATGAGGAGATAGAGCAACAAAGAACTTCTAGGTCTTTGAAGAGACTTTTGTCACCAGGAAAAGTATTTGTTTTTAAACTTAGGAAATGAAGTA
CAATGAGTGGGAGGTGCCCTGAGGTGGGAAGGCCCTGTGGTCACTGTGCSGTCTCTCTCATTGGTGTCTGACACACCCATCCCCACCGCAACCGCGGGGT
GTCATCAGCTGGGCCCATCTCCTTCCCGGTGTCTGCCCCCCGCCCCATTCCTCCCTGAAGKTCTCTGGGCTGTCTCTGCAGCACTTGCCCGTGGGAGACA
AAGCGTCTCTCAGTCCTAGTGCTGTCTCAGAAGCCTGGGGTTCCGCAAGACTGGCCTGGAAAGAGCCGCCTCTTTCTGTCTTTTGTGTGCTTTGTCACCG
CGGCACTGGCAGGGTGTCTTAAGCCTATTGAAGCCGTCCAGGAAATGTGCGTTGAATGAATGGCACAGGCTTGGCAATGYTGTTACCAGGAGATTCTCAG
AACAATCCCGCAGTTTCCGTTACTTCCTGTTAAGACAGCCGCTGCCACTCGGGTGCTGTGATGGGCACGGAACAGTAGTCACGGTGGTTTACTGGTGGTG
ATGGTGTGGATACAGCGCTGGCTCTGTGCGGGTCGTGTTCTAAGTGCTTTACAAAATTACTTAATCCTGACAAGTGCCCCATGGGGAGGGATAGGTACGG
TTATCCCCATTTCACAGATGAGGAAACTGAGGCTCAGAGACATGAAGAACCTGCCCAAGGAGCCACAGTGAGTAAGTGGGGGAGCTGAGGTGTGAGCCTG
GAGCTGGTGCTTCCACCACCGCACTGCCTGACAGAACTTTCTCGACGGTAAAAACCTCCTGCGTCTGCACTGCCCAGTGCCGTCACGGCTGGCGCCATGT
GGCTGTTGAGTGATTGAAACGTGGCCAGTCAGTGCCATCAAGGAGCTGCATTTTAAGTTTGATTCTAGTTCATTTAAATTGAAATAGCCACACAGGGCCA
GCGGCCACCCTACTGCCAGCATTACAGACTAACTGATCGTCAAGTATTGAACCACCTGACTTGGCAGTTCAAGGTGTTACAGGTTCAGAGAGGGCCCACA
TGATCATACCAGCCCATAATCGAGGATGCTTACCACCAAAAACTTGTGCTCTGCCGGTATTTTGAAAGCATATGATTTTCTGGAATATCTGCCCAGAGCT
GTAGGAGACAGTTGCGTTTGAGGCAGCATGGGCTCCTCATTCTGAAACGGACTGTCTTAAGGCTTGCTTCAATTTGCTGACACCGTGGGCTTCGATGCTG
TTGGTTCTACAGTTCTCAGAACGGTCCTGTCCCTGGCCTGAGTGTGGATGGACGAGATCCTGGCAGGCCCACCAGCTCTGCTCTAGCCCAAGTGCCTTCT
TGTTGTGGCATCAGCGGGCACTCGTCCTCATCGGCACCCCCAGCAGATCCCTTGTGTGCTGAGGAGTGCTCAGGGACTGAAGAAAGCGCTGCTTTGTTCC
CTAGGCAGCCTCCAAGTGCCTATAGGGCTGCAATTGTTTCCCTCCTAGCGCAGCCCCCCCAGGACAGGTGGCACTTTAGGTCAGCGTCTCAGGAACCCAG
CCCCTGCTTCACAAACGCAGCAGTGACATGATGTCATGGCAAGCCTCCAATAGGCCCTTTATGTAACATTTTGCAATAAATCTTTTGAAATCTGTCAGAG
AAAAAAATTCAATGTTCGCTTTCTTCTCAAGAGTGGTAGTACCATGCCTTATGTTTTATTTTCTTTCTTTCTTTTTTTTTTGTTACGGGGTCTCACTCTG
TCACCCAGGCTGGAGTGCAGTGGCGCCATCTCGGCTCACTGCAACCTGCCTCCTGGGTTCAAGTGATTCTCGTGCCTCAGCCTCCCAAGTAGCTGGGATG
ACAGGCACCCACCACCACATCTGGCTAATTTTTTATTTTTAGTAGACAAGATTTTACCATGTTGGCCAGGCTATGCTCAAACTCCTGACCTCGTCATCCG
CCTGCCTTGGCCTCCCAAAGTGCTGGGATGACAGGCCTGAGCCACTGCGCCCGGCCTGATGTTTTCTGAAGTTGTGCTGTGGTCAGATCGTCCATGACCA
GTTGCTTTTGGTGCTGCACAGGAGCCAACCGCTGCTGGCTGCAGATGTGTGCCCAACAGCAAAAGCTTGATGCTTCTGTCAGAGGGGAAGGCACATAGGC
TCTGGACATCTTGCCTGTGTAGGGGACCTCAGTCCCCAGCTCCTCACATCCTATTTGTGTGTTTTCATTGAACTCCAACTGGAATTTTTACTAAAAGCCT
TGATTTCCTTTTCAGCAAACCTCAGGGTTAGTGTGGGGCTCTGGAGAAATCAGTTTAGGAAGACATTGCATTCCCTTTGGCCTTGTGATGTGAAGGGCCG
AGTATGGGTTCCAACGCACTTCATGTGCCTGCACAGACGGTGACCCCTGCACAGAGGTTGACAGTGGCAACCTCTTCCTGCCTTAAGTACGTAGTTCTGT
GATTTTCAAGACACCTCATTCCTCCTCATGTAGCTCTTTGGCTCGCTCTGGATTGATTTCCTCCGTCTTGGTTTACTTCCAGCAGTCGCTCCGACAGCTT
CACGGGTGGCGTGACACACTTGAAACGGCATTTTGACCCCTTATTTTATTTTCCTTTCACCATCAACTGTTAATTTCCACCAGCGTTTCAAATTAAAATG
ATGCCATCGTGTGTGACTGAGGTGGTCTGTGAGATGGCTGTTCCAGCCAAACCAAACCCCTTCCCACTCCACTCCAAGATTGATTGCCCTAAGGGAGAAC
TTAGGGGAGAGCTTAATCTTTGCCCATCTTGTTAGGTGGAAGAAGGCAGGAACGTTGCTATGCAGAGAAGGCACAGACCAAAGGATGTTTGGTTTTGGAG
CATTTTCTTCCTCGAGAAAGAGAAACTGATCTTAATTAAAAATTTAATTCTGTGGCATACTGTTTTGGATTTTCCCAGCATGAAGCTGACATGAAGCGGG
TGCCCTTGAGCAAAAGAATAATTAGTAGGTAGAAATTCTCCGATTATAGAGGCCCAGGGTAAAAAAAGATGTACGTCGGATTAGGAGGGGAAACAGCTTT
ATTTAGAATCTGTCCACACAGCCTGGCTTGAGCCTGGCTCTGAGCCTTAGTAATAAGCATCTCATTCACTCACCAGCAGTGCAGTCATGCATGTACTCAT
CCGTTCTTTTACTCGGCCCGTGCTCTTGAGCGTCTGCCTTGGGCTCTGCATTACGCAGGGATTCAGAGAACAAGGCAAATGAGACAAGGTGCCTGTCCTT
GAGGAATTGTCAGTATTGGAGGAAGCCAGATCAACACACTGATGTTTCCAAAATAATGTGTTCCCTTGTGAGATATCCTTGGGGCAGAGACCTAAGGGAG
CTTTGAGGAAAGGCACCCAGTTGAGGCTGTGGCATCAGGAAGGTGTCTTCGTCTCTTCTGGCTCCTGTAACAAAATATCATACACTGAGCAGCTGATAAA
CAACAGAAATATATAGCTCACAGTTCTGGAGGCCAGGAAGTCCAAGATCAAGGCACCTGCAGATTTGATGCCTGAGGACCTGCTTGCTGGTTCGTAGGTG
GCATCTTCTTGCTGTGTCCTCACGTGGAGGAAGACGCGAGAGGTCTTTCTCAGGCCTCTTCTACAAGGGCGCTAATCTGCTCCCACAACTGCCACACCTC
GTAATACAATCACCTTGGGGATTAGGTTTCTTTGTTTAAAATTTTATTTATTATTTTGTTTTTATTTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCT
GGAGTGCGGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATG
CACCACCACAGCTGGCTAATTTTTATATTTTTTTAGTTGAGACAGGGTTTCACCATGTTGGCCAGTCTGGTCTTGAACTCCTGACCTCAGGTGATCCACC
TGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCAGCCAGGGGTTAGGTTTCAACATATGAGTTTGGCTGGGAGTGTGGGGGTA
GGACGGGGAAGCACAAACATTCCTACCATATAGTTGAAGGCTTGTCAGAGGAGGTGACATCTGAACTGATAGTAAGAGTAGGTTTCGGGGAATGATTGAT
ATGGAAAGCTTTAGTTGCCTGGAGACAGCAAGGCCTGTTAGGATGGGGCTTGGTAGCTGATTGACTAGAAGGCCAAGCAGGGAGCGGGCAGATGAGAGGC
GGGAGGGTTGTAACTGGGGTGTAAGAGGACAGGACCGAGCATAGGTTTTAGAAAGGCCACTCTGGCTGATGAGTAGAGAGTGGGAGCGGCCAGGACTGGG
TGACAGAGAACATTTGGATCCATGAGCCATCACTCAGACAGCAGACCACGGTGGCCTGTAAATCACTGAGAACCTTTTTTCCACACTGTCATGCCAAATT
TGTTCTCTTATATGTTTGTTTGTTTTCTTTTTTGTTGTTGTTTTTGTTTTGTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTCCAGTGGTGT
ATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAGGCGATTCTCCTGCCTYAGCCTCCTGAGTAGCTGGGACTACAGGCGTGTGCCACCACGCCTTGT
TATTTTTTTGTAGTTTTAGTAGAGATGGGATTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACTTCATGATCTGCCCGCTTCGGCCCCCCAAAGT
GCCGGGATTACAGGCGTGAGCCACCGTGCCCAGCCCTGTGTTTGTTCTTAATAGCTATTGGCTTCATCATCTACTTAACCAACGTTCCTTCCTCCCTCCT
GTCTCTCCTCCTCTCCCCTTTATTTCCATCTCTCCTCCCTCCCATCCTTCTTCCTTGTCATCCATCTATCCATCGACCCATCTTGTGTTTACCAGGACTT
TGTTGGAGCCAGGGACTATGACAAGTGTACAGATTCGGAGCTGGTGTCTTGGCCCGTATCCAGAGACAGAGATCTTGGCCCTCGGGGTCCTAAGTGTAGT
GGGAGGTGGAGCCCAGGGCCTCACCAGCCACTGTCAAGGCTGTCTGGGGGTGAGGGGAAAGCAGGGAAGCTTTCCCAAGAGAAAGTGAAGCCCTCCTCAG
GTGAAAGGGGAGGGGTGCTCAGGTGACAGGAGCAGTGAAGTGTTCTTGYGGCAAGTTCATGGACCTGCTGGGCCTGTTAGCTGCCAGCAAAGTTGTGTGC
GAGGATTTGGAAGGAGACAGTTTGTTCCTAAAATGTTTGGAGTTGGGCCTCCAGGCAGCAGGAGTCTCCCACGGCTTATGAAATGAAGGAGTGCCACTTT
CTCATGGTCACTTTGTTTCTAGGAACCTCTCTGGTGTTCTCGGGTTGAAAAGCAGGTGCTTGCAGGCAGAGAGAGGCCCTAGAGGCTGCTTCCTTGATCC
GTGCACACTGGAGAGTCCACACTGAGGTGGCAGCAAGGTGCCCAGGAGGGAGCGGACTCCCTGACTTCCAGCCACTGGGAGTCGGGGATGGCCTCCAGCT
TTCTGGCTTGAGAGGCTGGGTGTGATGTGGCCTCAGAAGCTGATGAGGAGACTGGGAGAGAGAGGCAAGGTGTGGACCCATCGAGGCGTGAATACCGCAT
AGGTGGCGTACGGATGTATATAAAGTCCTGGTGGGAGCTAAGTAGGGGCGCCTGGAGCTGGGGTGGACGGCGGCCAGGGGATGCGATTTGGGAATAGGCA
GCTTTTTTTTCCCCCCACATCCAACCTTCTATCAATGAGTTATGATTCCAGAGTCTGCAGGGTGTCTCCTGTTAAATGGAATCGCAGCTCATTGAGAGAA
GGTTGGATGTGGACAGGCGCATGTTGGGACATTAGAGTGGAGGATCAGCTGGAGATGTGAGGATGGAGCCCTGRCGAGTCCCAGTATGTCCCTGCAGATG
GAGGAAGAACCCACAGGGCTGGGAGGGAGGTAGAGGCGGAAGCCAGTGTGAGAGTTGGAAGAGAGTGTCTTAACAGCAGCTGCTGGTGATGGGGCCAGGT
CAGAGCGAGACAGGCTAGTGGCTTTGAAATGGAAGTTGCGGGTGACCTAGTGGGCAGTTTCCTGGTAGCAACAGGGCCAGAGCTTCAGATAATTTGAGTG
GAGGCAGGAGGGAGGTCAACAAGTGGAACCGAGAGCAAGCGGGGTGAGTCCCAGCTCAGGGAATGGCAGGTGGCCTTAATGAGCACCTGTGCCTGGGGAT
GGGTGCCTTGTGATGTTTTGGGCTTTTTAAGGAATCGATTAGATCATGCTTAAATTTGATCACTAGCGATGTTCTAGTGGGGGAGGAAAAGGTTAAAATG
CAGGAGATTTTTGATGAGCAGCTTCCCAGAGAAGGCGGCATGGGGGGTATCCAGCTCCCAAGCACAGGGAAAGGGAGGCTCCCTGTAGGATCGGCCACTT
GGAGGCTGGGAGGCCAGGTGTGTCTCCTGTGTCAACAGGGAGGCTTCCTGTGAAGAATCCCCTGGAAAGTCAGCCTTGCCGCCAGGTTACTGCTAGGACA
GAGGCCCTCATGTCACCCTCCCTCCTGAGGGTCGCCTTCTAATCCAGCACAAACGAGCACCTTTGCCGTCTCTCCCAGCAGCCCTGGCACTGTCCCCTTT
TTCTCGGAGATGCCTTGGTGGGTCCTGTGTCTGGGAGGCAGGTGTGTGCCCTCCTCGCCTGTGTGGCCGGCCCCTGCCTTGCTCCTCCACCCCCAGGTCT
CCCCACACTGCCCTTTTCTGCTCCTGTTGTCCTGCCCCCAAGTCTACCCTAGACTCATCCCCTAAAGATGCTACCATGCATGGGTCCTCGCCACTCTCCC
CACGTCACTCACCTCTGCCCTCGGGTGCCACCTCACCTGCTGCTTTTCCCAGTCTCTGGAGGGTGCACAGTAGATGCCGGCGGGCTAACTCAAGGAACAC
AGCCCTGATGTAAACAATGTGCTTGTTTTCTGGAAGAATGCCAAACCAGTGTTTATACCAGCATTGCTGATGCCGTTGCAGCTGTTGAGGCTGAYGAGAA
CGTGAGATGTTAATTAAGAGTGTTGGACTCCCTTTTACTCCAATGGAAGTATTGAATGAGCTTGTTTTTGGCCATCCAGCCAGTGCTTGGTTATGTTTGT
GTTTAGGCCTCCTGTCTATTTTAGCCTCTTAGTATTTGCRAAATGCYAAATAGAGTGATTTGATGATGCTTAACGGTTGTCCGTTTCTGTTTCAGGGAAT
TGTGGGTAACTTGGCCAGCGGCAAGTCTGCCCTGGTGCACCGGTACCTGACGGGCACATATGTCCAGGAGGAGTCTCCGGAAGGTATGCTGTTTGGCAGG
CAGTTGCAAACTTAAGAATGTAGTTTTTTAAAATTTTTCCTTAGCATATTATAAATCATGACTTTGATGTATCACAGGTCAAGAAAGCAATAAAACATAC
CAAGCGGTAAAAACCCTTAAGTATGTGGTTTCTTCTGTAGTATTTTTAGCAAACCCGTTATATTCACTTTGATATCTGGAATAGCGCAGTAGAACCATGA
AATACTATTGAATTTATTTCTTATCTAATTGTTCTGTCCTTTCAAATGTCCTTTTTAATCCAGTGTCCTTCTTATCCATTGTTGCTCCTTTAAATATTGA
CTGGACATTCCTGTGATCTGGATATTGAATTTATACATAATTTGTATGTAATGTTACTTAGTCATAGATAAGAGCCTTCCGGGATAAGACGTTCAGATTA
CCACCACCATATGTTTGAGTATGTTTCCCCCCTTATATTATAAACATTTAATAATCATTTTGCATGAGAGTAAGATTTTTTTTTTTGCCATTAGGCATTT
GCTTCTTCAGTTAACATGTCCATATTTTATTTTTTGCCTTAAATAAAATTATGATAATGGTAGGAAGCATTTAGCTCCCGTGTCCCCTAACGAAGGGGTG
TAGTTGACAAGCAGTTTTCTAAATGAAATTTTCTCTCCGTGTAACTTTGTTAAATCCAACTCTGAGACACTGAATTTCTGGTTCCTTCTTTTTCTTACTG
GCTGTTCCATTCTTTGCAGATATGGATGCAGGTAACTATTCATTTTCTTCATGGCAGCGCTTGTCTTGTTTTGGAGAGAGAGGAAAGGCACCACTTTGTA
CTGTAGCGTTCCCTTCCCTCCTTGTTCTGTGTACCATCCTGTTTTGTTTCATTTTATCTTTTTCTTCAGTTGAACATTCCACCCTGTTTTGTCCCTTAGT
TGTCTTTTTAGCAGTAGTCCCAAGCAGCTTCACCTGTTCCCTGTAACACCTGTCCTAGCATTTAACTCTTGTCCTGAATACTGCGGAACCGTTCGGAGAA
GTATAAAAGTGGCTTGAGGCTCTGCCACCGTTTTGCAGAATTGTGTAGTCATGTCATGAACACCTCATGCATCAGGAAGAGACCTTCCATACTGAAATGA
TGATCTAGGAAGATTAGAGGTGATAATGAAGGCTTGTATGTAGGGGTCAATAGGAGAAAGCTTGCCTGTTCACTGAGAAATGCATACAGATGCCAGAAAA
TGGCATGATTTGGAGAAATGAGCAAAGGCCACATTTTGYCAGGGCTCTGTCCCTGGGTTTTGACGGCTTTTATTTGCTCCTTTGTGTCGGAATATGAATT
TTAGCCACGGCCAGCTGGTGACACCTTTTAGAGAATCTTTTAGAGATTTTTCCTTTGGGTTTTCCACTTATTTTCAAGGGCTAGCTATTGTAGAGGTTAT
ACAGAGGTTAACTCACCTGCAAATGAAATGACCACCTTTTCTAAGTAAATCTACTTTCAGGGCCCTGCAACTCTGTGGATTTCAAGCTGGGACCACAGGA
AGTTACATGAGTCGGGCCTGGTTTTGTTGCTGTTGCTCTGGCAGTCTCTGGCCCTGGGGTTCAGGTGTCTGGTGGGGCAGCGCTGGRGGCCCTGGGTTTC
TGGAGTAAGAACAAGGACCACGACTCACTCATGGTGGCCTTTCTGCTATATGGCTATTTGGTCATTTTTGTGGCTTTTCGCTGTTTTCCCTTTGGGCATT
CACAGTGTGTTCCATTGTATTTGGGCCCAGCTGGGATGTCTTTTGCAGTGCATAATTGACCCTTACATGTTGACTCACACCAAAGCATTTCTCTTGAACG
WTTATACATCAAAAGGAAGGATTGTGGGGTGACCTAAACTGATCACTAACATCCCTGCTTCTTTGATTTTTCAAGTAATGCATTTTACTGCACTGAAATT
TCATAGTATTGTGTATGGTTTTTAAAAATACATTATTTTTAAGAGTAGGAGCGTGGGTGAGTACMTTCCTTTCTTCATCTGCAAAGTGGAAGTAGCTCAT
CCCCTCCATGGGGCCCCATGCCCAAGGCTTCCTGGGTCAGGGGAAAGATCATGATCCCTGACCTTTTCTCATGCCCTGCAGCAGCCCTCCCTGGGCATGT
GGCCTCTCACCTTTTGACTCGAGGTCCCAGGKATTGTTCTGTGGGAGTGTGAGGAGCTGACAGCAGCAGACACCCAGGTGCACCCCAGTGGGTGTGTGTC
TAGGGCCCCTGGGTGCTGAAAGAATTATGAATACATGGCTCCTTGTGCCTGGAAGCYTCTTAGTCCTGCTGAATTCATGCTTCTCATGGCTGAGCCACCT
TTCCCGTGTAGAACCAAGCAGGTGGCCACTGTCTTTGCCCCTCTTAATGAGACCAGGGAATGGACTTCTACTTCCTGTTCATGTGACTGTGTGCCTCATG
ACAGTGGCAGGAGGGAGCCATAACTTGTTGTAATGTCACTTGTAATGAAGGGAGCCATACTTGTTGTTTGGGAAAGAAAACAAATGAGAAGCCGTGTTTC
TTTCATACCACGGTCTTGCCATCCTGAAATTCCCTCTCATGCTCAGGGAGCCTGTACCTGGAAAGTGATTTCAATTTTTGTCCAGTGAGTTAGTGTTGAT
CAATTACCCATGCTTTGCTTAATTGAGAAGCTTTAGGTATAGAGTGTTGTGGGTTTGGGATATAATTTACTGTGTTGTCACCTGGGTGTGTGGAGACTAT
CAAAGGGATGTGTTGTCCTCKGGGAGTGCTGGAGGCTGACAAAGCTGATGATGGCCCAGCCTCACCTGTGGTTACTTACCCACACAAAGGTGAGGGCACT
CCCACAGTGGTGGGAGTGGTTGGCGCCCGGTTGAGGGATTGGATTTTGAGTGAGCTCTGTGGCCTTCCCATTTCTTGGTGTACTGCTGCCTTCTCATCAG
ACCTCCTTTCCTCTTACAACTGCTAGAGCGATCAACTGGGCAGCTACTTTGAATGAAAGGCATTTTGCTGTGTATCTGCCTGTCCAGATAGTTCCTTGGA
TTCTCCCTGCGCTTCTTAATGKCTGKGCCCTGTTCTTCTGATTTAATTAGTGCGTGAGTATCCTTTATGTCATAATCCTGACCCGTGGCTGGGATATGTA
GACTGCTGGGAGGGGTGAGGGTGAGGGCCTTCCTGTCTTCAGGGGAGAGCTCTCTCGTGGTAGAAACATTTCTGGTGCAGAGCCGTCTCCAGATCCAAGC
CTGCTTTTCCTCAGATACATCAGATGCATTTTAGCTCCATCCCAGAGGGTAATATCTGCTGTCTTTTCGTTGTATGATGCATTTTGGTTGATATTTTATT
CTTGTAGTGAAGAGAGCCAACTCACAAGATTTAGATTATTTTATTTTATTTATTTATTTATTTTGAGATGGAGTCTTACTCTGTCACCCAGACTGGAGTG
CAGTGGCGTGATCTCAGCTCACTCCAACCTCTGCCTCCAGGATTCAAGTGATCCTCCTGCCGCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCCCCAC
CGCGCCCGGATAATTTTTGTATTTTTGGTAGAGGCAGGGTTTCACCATGTTGGCCAGACTGGTCTTGAACTCCTGACCTTAAGTGATCCACCTGCCTGGG
CCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGTCCAGCCAAGACTTAGATAATTTTAAAGATGCAGTTCAAATGAGGGAAGGATATAAATATT
CTGTTTTTCAATTAGTGAATTAACAACACAAAAGTGGGTAACACCGTAGGGAACTTGTGATTCCATGAAATCAGTCAAAGAGTAAACCTCTTGGATTGAC
AGATTCCTTAATATTATGTGTGTGTGTGTGTGTGTGTGTGTGTACACCTAGGTGTGTAATATATGTATGTGTACTTCAGTCCTAGCACTGTAGTAACGAA
CTGCCACACACAGTGTGGCTTAAAACAGAAATGTATTCTCATAGTTCTCAGAAGTCTGAAATCAAGGTGTTGACGGGGTTGGTTCCTTCTGCAGCTTAGA
GGTTGAATCTGTTCTATGTCTGTGCGGTTCTGATTTAATTAGTGTGTGCATATCCTTTATATTCTAATCCTGACCCATGGCTGGGATATGTAGATTGCTG
GGAGGGGTGAGGTGGTGAGGGCCTTCCTGTCTTCAGGGGAGAGCTCTCTTGTGGTAGAAACATTTCTGGTGCAGAGCCGTCTCCAGATCCAGGCCTCCTT
TTCAGCAGATACATCAGATGCATTTTAGCTCCATCCCAGAGGGTAACATCTGCTGTCTTAATTGTGTGATGCATTTTGGTTGATATTTTATTGTTACAGT
GAAGAGAGCCAACTCACAGATTTAGATGATTTTAAAGATGCAGTTCAAATGAGGGAAGGATGTAAATACTGTTTTTCAATTAGTGAATTAACAGTGCAAA
AGTGGGTTACTCCATAGAGAGCTTGTGATTTCATGAAAGCCATCAAAGAGTAAACCTCTTGTATAGACAGATTCCTTAATTGGGTGTGCGTGCTCACACG
TGTGTGTGCACATCTGGGTGTGTAATATATGTATGTGTACCTCAGTCCTAGGGCTGTGGTAACAAAGTACCACAAACTGGCTTAAAACAGAAATGTATTC
TCACAAGTCGGAAATCAAGGTGTTGACGGGGTTGGTCCTTCTGCAGACTTTGAGGTTGAATCTGTTGCATGTCTGTGCACAGTTGTTCTGATTTAATTAG
TGCRTGAATATACTTTATCCTAATCATGACCTGTRGCTGGTATACGTAGATGGCTGGGTTATGTAGATGGCTGGGAGGGTTAAGGTGGTGAGGGCCTTCC
TGTCTTCAGGGGAGAGCTTCTGGTGGCTGTCAGCAATCCATGCTGTTTCTTGGCTCATAGACTCCTAACCCCAGTCTCTGCCTCTGTCATCACAGTGTTT
TCCTGGCTATCTGTGACTGTCCAAACTTTTTCTTATAAGGACACCAGCCATTGGATTTAGGGCCCATCCTCCTCCAGCATGACATCATCTTTACTTGATC
CCATCTGCAAAGACCCTCTATCCAGGTGAGGTCACACCATAGGTCCCAGGGGTTAGGGCTTGAACGTATCTTCTAGGGGATACAATTCAACCCACAGCAG
TGTGTGTTATATACCTGTGATGTTCTCCAGGGATGTCCAATCTTTTGGCTTTGCTGGGCTACATTGGAAGAGGAAGAATTGTCTTGGGCCACACATAAAA
TACACTAACACTAACAATAGCAAATGAGCTAAAAAAAAAAAAAATTATACACACACTAAAAACTCATGTGTTAAGAAAGTTTACAAATTAGCGTTGGGCC
GCATCCAAAGCTGTCCTGGTTGGCAGGTTAGAGAAGCTTGGTTTAGACGGTCGCTGCACTTAGAACTGTTGGAGTTGGCCCCATCACTTGGTGGTGGTCA
TGGTTCTGCCAGTGATGCTTTTGCAAGCTCTGCTGGTGTTCTAGAACCTCACAAGGACTCATCGGCTGGCAGTGACCTTCACACCTCTGAGGACAATTTC
ACAGCTGCCGTTCACTTCCTATAAAGAGAATGAGATGAAAATTAGTTATTTGCCAATTGAGCCCTATTAATGGCTGCTGATTAGAATCGTGTGACATTTT
GGGTGTGTAATGTGACTTCCCTCGTGGTGTGTTTATGTGCTTAATATTCAGCGTCCCCCAACACAGACCCCACATGATGCCACTCAGCTTTTAACTCTCC
TTTCAAAAGAGAAAAAGTCAAAGGAAACAAAGCTAGGATGTCCAGTATTATGTGGACATTAGATAGGAAATGTGGACCTGCCCAAGACACTTCACCCCCT
GCAGGTGGGGAGAGTGTGGCGTCCTCCTGAGATCTTTTCAGGTTGCAGAACTGAGTCATTGCTCTGAGACCCGTTCCCCAGGACAACTCTCTCTGTGTCA
CCCATGGCATCACAGGCACCCTGGGSCATGGGCCCTCCCGAGCTGTGCAGGTTAGCTTGTGTGCCAGAAGGACCTGAGGACCAGAAAAGCTGAAAGCCAG
CACCACGCTGAGATCGTGGCACACCTGAGGAGGGCAGAAAGGTGGCCCCACAAGCTTCCCAAGATGAAACTAAACTGTATATGGATTGAGTGGGAGCTTT
TATCGTTGKTTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTCGATCGACAGAGACTTAAGAATGTTCATAGACCAACTCCAAGCTGCAAAATGAA
AGTACCGAGAGGAAGGTGGGCCATCTGAGAGCCGCCTTTATCCCAGATCTGGAAGAAACCCACATCTAGGTGTGAAAGTGGCAAAAGGAGGGCCGGGGCC
TGCCTGCCACTGAGGCCCAGCGGCTGCCTGCGAGGGTCAGTGGTGTCGTAGCCTGCTGCCGCCACACAGAGGGATTTGCAGGGAAGGGCCTTAGCCAGGC
ATGATGTGGGAGCGTTGGCCCTGGCATTCCCGGGTCTTCATGAGCTTAATTCAGCAGGGGCTCCTTCCTTCAGTGATGGAAWCTGGAGTTTCTGACTGAT
TCTTAACCAACTCAAAATTTTAGGCAGAAAGCTAGCTCCAAGGCTGAGGCAGCCCTGAATGTGCCTAGGCCAACAGCCAGCGAGCTCCTGGCCRGGAGCC
TGGTAATGGGGATGGCTGGTAAAGGCTGTGCCGGCCCTGCCTCCCTCCCAGAAGGGCGACCCTCCAGCCCCATGTCCAGGCTCTCCCATCTTCCCAGCTC
SGGCCACACATAGGCAGCAGCTGCCCCCATGCTCTGTCCCAGAGACGGAACACACTGGTCACTGGGAGATTAGCCTCCCTCATTCATTTTCCCGATAGAA
TATGATAGCTGAGGTAGCTGGAAGAGTATGGTCAAGGAGCTCAAGGCAGCTCTTTCACTCAGGAGCCTGCCAGCGTAGGGCAGGGGAAGTCAGTGCCCTC
CCAGATGGAAAAGGTACCTGCGGTGGTGGGGGGAGGGGGAGTTCCCTATGTAAAGAAGAGTCCAAAACAGATAAGGGAGACTGAAGAAACCTGAACATCC
AGTGCTCATGAGGAAAAGCTTTAAGAGAAAATACCAGGTGCTAAGAGTAATTATAACTACCAGGTAAGGACCAGTGAGAAACAGTGGGTGAGATTAGGCT
CGACAGTTCCCTAACTCAGGAAAGTCGAGTTTCTGAGCATAAGTCATAGGAAATTCTCAAACATACTTTTGCTTTGTGCCTGGGAAGCAGGAAAGTACAC
CAGACCCACCTCATTTCTTACATCTCTCCAAGAGAAGCCTTTCGCTTGTCTGTTTGGTTTATTTGGTTCACATCAGAGTTTGCTAAAGGCTTGGAGGTTC
TGTAGGAAGGAATGAGCCGCTTCACCTCCTGGAGAAAGGACGTCTCGTTTCCAGCATGTCGGGGGTCAGGCTGTGCTGCACTGAGGCTGAAGGGTTCTGG
GATTTTCCACTGTGTGTTTGGTTTCTGTTGCTTGTTCCAAGCTGCTGACGCGGTGTGCTGGATGAGAGTTCTACTGGCCACTGGCTTCTGGCCTCCAGGG
CCAGCTGGCTGTACAGCCACCTGCAAGTCTTTGTTCCCGGGGTTAGCCTTGCCACCCTCCTTCAGGACTGCCTAGAATTGTTTCCTGTCATCGGGGTAGT
AAATGTGTTCTCAGGAGCACGTGTATCTTAAATATGTTTTAACGAATGTTTACTTAGTTTCTTAGAAACAAAACGTGGTAAACACCCAGTCTTATTTTCT
GGGACACATGAAGTGTGTTTAAGCTGTCAGCTCCAAAAACCCTTTCCAAGTCAAATAACTTAAAAAAAAAGGTTGTCAGCTACCACTGCATCCCAGATGT
TAGAGTTTATTTCTAAAGCTGTTCTTGGGTGCTGTTTAATGTTCCAGTGGAAAAAAAAAAAAAACACCTGTAATACTCCAGTAACATTTGACTAGTCGTG
AAATCTAGCCATTTAGATTTTTCAACCTCAATTTGACCGTTAGTTGCAACCAAGTGATTATAAACACATGATAATTTTTTAATGAGAATTATCTGTAAAC
GTTGAGATGATGAGCCTGCTGCTATGTTGGTTTAATAGATAAAGCAGAAGTCAGTTCAGCCATCTTCACTGATGATTTTCAGAATTAACCTGATCACTCA
CCATGGAAATACCATTCCCCTTTGTTCTTGTCTTCCTATGTGTGTGACAGTCCCTAACTTGACCCCTGGCATGGAAGCCATCAGTGAGGATCAGGTGATA
TTGTCTAAAAATAGGTAAAGGATGCTAACATTATTATTAGATGTTCAAAAAAATAATAAAAGGGAAGCATGTTCTGTTTCATTTTGAGCAAGAAAAAAAG
CCGTAAAATCAGAATAAGGAGATAGTCATGTTTTTGGCATTGATGAAATTGGCAGGACRAAGTGTGTTTTTGAGTTGGCTGTATGGAACTCAGAATGTAT
TGTCCCATATTGTTATAATTAATTTGACAAGAAATCCAGGGCTTACCAAAAGCCATACTGGGCCTGCATTGGAGCCTGTGTTCCAGAGAAAATACCTTTC
TGAATAAGTAACTGTGATGCAGGGCTGGGACTTACACCCGGTCTGGGAGCGCCCTAAAGAGGACAAGCCCGCTGGCTTCTGTGGGGAGTCACTGTCTCCT
GAGGGCAGCGCACAGAGGCTCATGTGTGTCCCTTCACTCACAGAGCCCAACAACAGCACAGCACATGCTGTTGACACAACTGTTGCTTTCCTAAGAAACC
TCACGGCATCAGATATTTTAACAAAACCGTTCTTTAAGAGGAAAATGGAGACTAGAGCCTAGAAAGTTTCACGTATGTAATTACAAATCATTTTTCCTAG
AGAAATTTTACCCCMAAAGTGTTCTGAGGCTGTGGGTGCATTTACCTGTTTATTGCGGATTAACAGAGCCATTGAATCTATCCCAATGGAACCACCATCA
CACACTTTCACCTGTGTTCACTGCTCCTCCCGTCTGCCCATGTCTTTGGCCTTGATCACGCCATCTCTCTGGAAGCCCAGCTCCAGGTCCAGGAAACCAG
ATTATAGCAGACCACTGTGCCCCTGGCCAGGGAACCGCCTGCTCTGGTCTGGAAGCCCCGGGGCCATGCTCGMTGTGTTAGTCAATGCTCTTTTGGTTGC
ATGAGATAGTTGACCAACTTAGGTTAGCTAAAATAGAAAGGCAGGGAGGGGGTGGGCCAGTGGTGAATTATTAACTTCTTAACTTGCATCTCTGGAGCTG
CCAAGGGGATGGATTTAGTTTTAGAAAGACCCTAATCTCCTGATGCACTGAAGTTCTTGAGGAGCCCTCTCCCCCATTTCTTGCCTGTGTTGGGTGGGCA
TCATGCCCAGCAAGGTCTCCCCACTTGGTAGCAAGCCCTTCATGGTGGTTTCGGTCCTTAGTGCTCAGATGTGGTGAGGAGGGAAAGGTGAGGATTTTTG
TCAATAGCTACAGCAAAAGACTCTAAGTCAGTTCCATGTGGCCTCATTTGAGTCAGGTGCTTTTCCCTAAAACAATCAGTATCACAGGTTGGAGGGGATG
TTTTGATTGTTCTGTCCCTTCGGGTGGGGAGATGAGGTCAGCCTAATTGAGCTGAGTGGCTTGAGCAGGAGTATGATAGACTAGGGCTGGGCAGAAGGTG
GACTCCAGAAAAGGCCGGGAGGCAAGTCCCAACCCTGTGTCTTCAGGGTTTGTCCGTTTTAAACATTTTAGCCAGGGTGGGGCTGGGGGGAGGGGGTGTT
GTGCAATGCAGTTCTCTTTCCTAATTCACAGATCACGTTACACCCAGCTTGCACGGTTTGAACTTGGGTGCTAAAGGAGAAGCACCTGGGGTATGTTTGA
ATTCACCCCAAAGCTACCTCTGGTAAGTGTCTCCTTGTGACTTTTACAGTCTCACTTGGGCTGTGGACCTCTGACATTTTCAGGCAAGTTTTTGCTTCTT
AATCTCCAATGCTGAAAGCTTAGTCTTTGGAATGTTATACATTGTTTGGATCTTAAAAATGTCAGCTCACAAAATAATGTTTTTACATCCTTCCTCCAAC
ATCATCAACCGCATTAGCTCACCACCACTCCTCCTCTCCGCTTCTCCCCCAACCTGTKTTATCGGTGTCAGGAAAGGRGAGCGATCAGTCTCTCAGGAGG
TACCCATATTGATCATAATATAGCCTTTCTTAGGCGTAGCAGTCCAGCAATCAGGGTTCAATGGTTTCCTCTGGAAGGTAGCATACTGAAAAAGACGAAG
TGCAGAGAAAAGACAGGGTGGGGGTGCAGCATGTCTAGTTTGGGGGCCTGGCTGTGGGTCAGAATGGAGAGATTGACACTTCAGAGAAGGCCGGGAATGA
AATTGAATGTGCAGAGCACACGTTCCACTCAGCACCGATTAGAGCTGGGATTGCCTCTCGCAACTCCCCAAAGAAAATGCTGCGTCCTTGTAAGACCGTG
TCTGCCCAGTGGGGGCCTGGACACTAAGTGCCACTTCTCTGCCCATGGCAAATTCCAAGGGCCAGGACGATGGAGACAAGGGAAGTAGAAGTTGAAAGAA
ACTCCCAACGGCAAATTAGGTCGAGTGCCAGAAAGAATTACATCAGGAGAATCTGAGATGTAGTGAAAGTGCCCCCAAGCTCCCCGCTCCATTTCATGTG
CTACTGGCTGGCTGTGAGATCTGAAAAGGACTGGGCCCAGACTCTGTGTGTGTGTGTGTGTGTGTGTGTGCGTGCTCTTAAATCARTGTAAATTAGGCTA
TATACAGCTGCCAATAATCTGCAAAAGATGACAGTTTCATATGATTCCAATGGCTTAAACTAACAAATTCATGAATGATTGACCCAGACCAGAAATGGAA
ACCTGATTCAACTCACAGTGTAGTCCTTTATCCATGCTTGTTGGCTTCTGGAACGCACAGTGTTCAGGAGGATTCTGAGGCAGGGTCTGTGTGCAGGAGG
AGTGCTAGTGTGAGAGCTGCTGGTGCCTGCCCTGGGTCCGAAAGCTGGTGGTGGTCTGTTCTTGTTGTATGAGGGCAGCCCATGTCGCCAGCATTTATTT
TCTGAGCCCCATTTCTTAATGTTGTATATTTTTTTAAAAATTAACACCACCATAAGCAAGAAGGAAAAAATCAACACTTGCTCTTTGAAGGCCAAATACA
TTGAAATGAAAGCGTGCCTAGTGGAGCAAGAGCGGGGCGGGGAGGAGGGGAAGCCAGCCTGCAGCATTGCCCTCTAGACACTAAGAAGAAGGGAGTAGGT
TTAGGTTGGATGAAGAAGGGAGGTTTGGAGCCTGGACGAGAGCAGGGGTTGTGGAGGAATGGTCAAAACCCAGGCGTGATGTGACCACACCATCTGGCAG
GGGACCAGGCCAGCTGCTGTGTGGGTCTTCCATGTCCCAGGGACGGAGAGAGGAGAAGTGGGGTTGGCCAGGCAGAGGCATGATAAGAGTCAGAGTGGCT
GGGCTCCAGGGCTCCAGCCAGGCTATTAGCAGGAGCACTGGCTTTGGAGGGGGACCTAAGAGGACAGATAGGGGAATCCCCAGGCCACCTCTGGACCTTG
ACATTGACTAATGGGATGAGCTGCTGGAACCCATCACCATGAAGCCCCCTGCACTAACTAGGGCGTGTGCCCCTTGAGGAGCCGCATCCGCTTATTGGGC
CTAAGAAAAACTGATTCCCAGGTGTGTTTGGGCYGTCTAGAACCATGTGACCTGGCAGCCACTTCAACTTGGGCAGCATCTCGGCTGGGAGCCCCAGGGA
GCCTGGCAGTACCTCAGTGGCAGATGCAGCTCGTTCCAAGATGTTCCAGAGGCAGGAGGTTCCTGGAAGAACCACTGGGCCTTGCAGGGTCAGCTCAGCC
TGAGAGCCAGTGACCCCCTCCCCCAGGAGGATGCTGTAGGGGCAGTCTCACGGCGGTCTCACCTCTGCCACCTGTGGATGAGAGGCTGGACCGGGTCTTG
GTGCTTTCCAGCTCAGGGCGTTGGTCCACTTGGTTATTCTTGGGGACCAAAATCCAAGCTAGGATGGGGACAGAGGCCTGGAGACAACCTGCTGGCCTCC
TTCCATTAAAGCCATTACAGTGTCACCACAGGATTGTAAGAATTACAAATGCGTTTTCCAGAGTCCCCAGAGAAAAAGGAGTCTGGCAGTTAGAAGAGTA
AAGTGCATCTGTCAACAAAAGAAATACCAAAGATGAGACTACAGCAGCGACTTGTCACCTCTTCCGTGTTGCTACTGCCTGAGAACAGAGGTTTTTAGTT
TCTTTAAAGGGTTGTAAACATAAAAACAAAGAAGGATACAACATGCAAGGCCTAAAATGTTTACTTTCTGGCCTTTTACACAGGCAGTTCGCCAGCCCCC
TACCCTACAGTATGGAAAAAAGGCATAGAACAGTCAAATCACGTAGGATTTCTTRGTTTCTCCATGCAGGCTCATCGAATAGCAACCAYCCTTTCTTAGT
TTCTTGAAACAAGTACCTTATTTACATTCAGAGAATTATATGTGGACAAACAGCTCATAAGCCCGTACTTTTACATACTCACTTCCTGAATTGCATATTG
AAAAAGAGAGTTCATGTAAAGCCGATTATTATTTAATCTAAAGTTATGTTCACATAGGAAGCACTAGTGTAGAGAAATAGGGTCTGAGGGACAAGGAGCC
TGTGTGCCCGTGTCGGCAGCCGAGTAACTGCCAAGGGTCCCCTGCTTGGCACTCTGCTGTCCCACTTGCTTCCTGCCCTCTCTGGATTCTAACACTTGTG
CCATTGTGCATCCGTCTCAGGTCATGGTGCTGTTACTTGGTGAGAAAGCATTATTTAAATACCCCAGATGAGGAGTTAGGCACTTTCTCCAGTTTTGCAA
TGCTCTTTTGTTTACCTTTTAAAAAAAAAAAAAAAAAAAAAACGAGACAAGGTCTCACTCTGTCACCTGGGCTGGAGTGCAGTGGTGCCATCATAGCCCA
CTATACCTTGAACTCCTGGGTTCAAGCGATCTTCTTGACTTGGCCTCCCAAAGTGCTGGTATTACAGGTGTGAGCTACCATGCCATTTACCTTTTTTATG
CTTAAAATAAATGTATAAAATATTAAAAATCATTTTCCTCCCAAGAACCAAACGTGTATTACTAAATATGTTTAGTTGACCATGCAGGCTATTTGAGAGA
CAGTGGGAGATGCTGAAATATTCAAGCACCACTGTTTTGGTGGGTATCGGAAGATTTTCAATCAATAGTTTACTTATTTGGTTATGTATTAGGTTGTATT
GGGTGGGGCCAATCATTATGTGACTATTTTTTTCTTCAGAGTGGTGATTGAAAAGCAGCCCCCAACCGTTTTCTCCGAGAGGTGCATGCTGAGCCTGCCT
GCAGCTTACCCCCAACCCCCAGCCCCTAGCCCGGCTCTCCTTGTCTTACATGAGTCAGTTTCCTTCTGCTGCTATTCTGGACAAAAACCTCTATCAGGAC
AGAGACCTTGTCTTGTTCACCCTATTCCTGGCATCAAGGCTGTGTCTGACATGTAATGGGGATGGCTGTTTGTTTGGTGGTGGTTGAGATGACCAAGATG
TTCTTGACCTGTGTAGGGTGGTAGTGGAGAAACAGGCACAGGCCCTTGTGGTGTAGTTGCGAAAAAGGAGCTCACACTAATGGGAACCAGATTGTATCAT
TGGCTGAGTATACAGCAGATGCGTTCCCCTTTGTTATTTTATCACTTGCTTACCTGGAAGCTCTGGTCTGACTTTAGGAACATGCCACACACTTGGATAA
ACATGGACTCCTTTACTAGAGATTTATAGAATCTTTTTCCTAGAGCCATTTGAGAAGCACTTGTCCAAGACGTGCTATTTTATAGGCTATTTTGATGTAA
GGGAAAAGACGTATCCTGGATCTTCCAGAAAGCATGGAATTATGGCTGCGTATTAGGAAGAGGCCTGGCTTTCCTGTGGGAATTGAACAGAAGACAGGCA
TCTCTCATGTTCTGGTTGTTGCAGTTTTGCTTCTTCTGTTCATTGAATTAGCGTTTCAGAGCTCTCCATGTGTGAGTTTCCATTTGGAAATGGTATAGTC
ATCATCGTAATGTAGCAGTCATTCGTTAATTTTTATGAGCCACTTGTGACGTTTCAGGAAGCTGACAGCCGACATGGATTAGCTCATTTATACCTAGGGA
AACAGAGGCACCAGAGGCCACAAAAGCTATTCAGGGTCACACAGCCTATGTGTGAGGTTTACATAATAAACSTCAAAAAACGCAGGCTCTAAGGAACAAA
AAGGAAGATTTGAGCTGGGTGGAGGCTCCTTATCTCTCCTACAACCTGAGCCAACAACACCCCATCACTTCACCCCAAAGTGCGCAGGGAAGAAATGGAA
GGGGCAGCCGTGGCCTCATCTTTTGTGCTGTTTTTCTCCAGCACAAAAACCTGTGTGCTGTTTTTCTGCAGACCTTGGTTTTCTCATCTTGAAAGTTGTG
AATCTGTGTCACATTTTCCTGGTGTATCGCGTGCACTTTTGATCTGCGGATTCAGATCTTTCTGCGTCTCAGGAACATTCCTTTGTCTTTTATCTTCGAA
TAGTCTTTGAGTTCTTTTGTTGTGGATGTGTTGTCAGAGATACCATTTATCCTTTTGTTTAGGTCCGTTTGTCAATGAACTTCTCTCTTAAATACTTTAC
CTCTGTCTTTTTAATCTCATTGACTGTGTCTGTTTCAAGCCATTCCTCTGTGTCAGAAACTCAGCTTTCAGCCTTGTCTCTTCTGCTCCTTACTTTTTCT
AATTTTATTCATCAGTTCCCCAAATGCCGTTTTGATCCTCAGATCTGGACGTTTCCATTTTATCTCATATTGTTTCAAATTCTCATACTGGAGGTTCTCG
TCTCCTGGAATGGCTGTTCTTTCTTAAGTCACACTGGAGTGGGAAGCGGTTGTAAGGGACTTCCTTCTGCTTTTTGAGCTTTGTTTTCTTCTCCATTGTT
GCTTTGTTTCTCTTCTGTTCCCTTCCCTCCTTCCTCTCCCCAAGCCTCTCCCGCCTTCCCATTTTCCCTGCTGGGGAGCCTTTGCATAATGTCCCCAGCC
CTGCTCTTCAGCCTTCTTGGCTTGGACCTCTCTTCCCAGACATTGTCTTTCCCTGAGACCGATGCTGACCRCTGGGAAGACTTCTCCCTCATTCTGAGTC
AAATCTAGGCTGTTGGGAGCCCGTGACCGCCCTGCTTCCTGTGGTGGGAGAAGGTGAGGGAGAGGAGATGCTCTCATCYTGAGTGTCCTGGACGAGATGG
GCCAGACCATTCTACCCACACTCCCATTTGCCRGACCTCAGCCACCTCCCCCAGCCAGCCCCAGGGGTGTTGGGGGCATCTTTCGAGTCTCACTGCCCAC
GCTGTGGGAGCTGAGACTGGATGCTGTTCTGGAGATCCCAGGATTTACTGAGCATCCATGCTCTGCCATCCGTCTAGTTGGAGGGAGCTGCCTCCCGTTG
AAAGAGTCTGCCCTTCTTTAGGGACCAGGGCTCTGCTCTTCCTGGGAATTTACCACATCCTCTTCCAGGTTCCCTTCACCCATCCTGCGGGGTGGGAGGA
ATATATCATTGTTCCCCTTGAGGTGCCCCCCTGCGTGGGTCACTTCTCCCGCTCACCAGGCAACACGGGCATCTTCTTTGCCTCCGGAGAGCCTTTGCCG
GCCATTCACTTCCAAGGCTTTCTTATTTCCATTCCTCAGTCAGGAGACGAAAAAGATGAGGCCACGGCTGCCCCTTCTGTTTCTTCCCTGCGCACTTTGG
GGTGAAGTGATGGGGTGTTGTTGGCTCAGGTTGTAGGAGAGATRAGGAGCCTCCRCCCAGCTCAAATCTTCCTTTTTGTTCCTTAGAGCCTGCGTTTTTT
GAGGTTTATTATGTAAAGCCGTGCCCCTTTTCMTGTTGGATGGTGAAGTTCCTTCCTTCTGGCTTTAATGTTTCCCCCTTGTTTTATTAGGAAAGGAGGA
AAGGAAATTCAGTTATAGTGAAGTTCTAATCTGCCATCTTAACCTGGAGTTTGGCTTTTTTCTTGTTCTGTGTTCCTTTTGTACCTTACTTAGATCTCGG
TTAAATGAAACCATGAGAGACCGTGGCCTGCCCAAGGAAATCGTGTTAAGTGCTCACTTCACTGCGGGTCAGAACCCCGGAGTGTTTCACCCATGGAAAT
AGTCAGCAGTCGCCACATGCRGGGTCCTCACTCACTGCTGGTACCTTTGTGTAGTAGTTACTTTGTATTTTACAATGTAAATTAAAAAAAAAAGTTGGGA
GAGGAAGTGAAATCTGATTTGGCTAAATTTTGTAAACAAAGATGTTACCAATAAAACCTTTTTCCCAGTGTATAAATAATATGTGGTCCAAAATTCCTTT
TAAATGTCACAATACAAAACTTTTCCAAAACCCCAACATTAGTGACTGACTTCAGTATTTTTATCAAAGTTAAATGAGCCAAACTTATTTTTTACAAATT
TCTGGCGCATTCATGATTGAAATTTTAAATATTCTCCTAGGGAAAAACGAGGGCTGATTGTCCTTTTCAAGGTATCCATCTCATCCCACTTGTTAAAAAT
AATTAGGGAATAATACAGTTTGCAGATTTTCTCCCGATGTCATCATGGCACTCAGTAACAAGGAATATTGTAGATGAATTTTGAAAATGTTTTTCCTGGA
AGAGAATCCCAAACGTGTGGCCGAAAGGGACCCAGGACCTGCCAGCCATGCTCCTCCTGTCTTTCTCCCTTCCAGTCTGAACCCCACAGCGCTGGGCGGT
TGACGAGGTGTGGCCAGCTTGCATCTGCTGAAAGAACCGGGGTGGCCCCACTGCATCTTGATCAGACACTGCCATGARGTCCCTCCCCTCTCTGATGGCA
AAGGGAAACAGTGGGCTCTACACATGGAGCTTTGAAGTCAAGAGTCATTTTCATCCTTAGCTCAGGCATGAAAAAAAAAAAAAGAATAGTAAAAATTAAA
AACCCTTTAAAAAGATAAAAATCAACAGTAAAAAATGAAAGTTACAGACAGGTGTCTGTCTTTTTAGTTTCCTAAGCACAGTGATGATTATTGGAGCTAA
AGACAGAGGCCACCCTTCCCAAGTGTGAGTGGAGTAAGGATAAGATAGTCCCGCCTCTCTGCCTGTTTGATGTTGGCCCTGTGGATGCTGCAAAACGCAG
CAAACACGGAGGCTGCCGGCTTTGTTTCTGTAGGGCTTGTCTTAGCAGAAGTTCACATGGAAGAGAGGAGGCGTAAGAAGCAGTCAGAACGTCTGGATTG
GAGTCTTGGTCCTGCCGCGTGCTGGCYGTGGAGCTCTTGCTCTGTGTCTGAACTCCTTTTCCTCCTGAGTGGATTTGGGTGTTGCCAGTGATGTTTGCGT
CATAAGATGGGGTGAGGGCTAACGGAGATGATGTGGGAAAACAAGTGCTTTGTATCCTGCCGCGCACTGGCCGTGGAGCTCTTGCTCTGTGTCTGAACTC
CTTTTCCTCCTGAGTGGATTTGGGTGTTGCCAATGATGTTTGCGTCATAAGATGGGGTGCGGGCTAACAGAGATGATGTGGGAAAACAAGTGCTTTGTAG
ACGATGGCGTTGGAAGGCACACTGTCGTTGCCATAGCTGTCGCTTGGAGGACTGTTAATGATACGTTGATAGCTTTCAGTTCAATTAGCCAAAATGACAG
AAATGCCAAACATCTGTTGCAATGTTGACTCCCAAAAGGGCCCTTTTTTTGGAATGGGAAAATTCAGTTTTCTCTTTATTTTCTTTTTCTTAAAGCAGAA
ATGACAGCATAGATGATCTCCCTCTCCGACTTGTCTCTGTGTAGACTGCACTTGTGTTCAAGAGGCTCCGCTGTAGCTCAACCTCGCGTGAGTGCAGAAA
CTTGAAGGAACCCAGTTGTTTTACTTCCCCCAGCACCCCAAATTTAAAACTGGCTCTCACATTGTGAGACAGCATTCAGAATAGTAATCGTGAAAGGCTA
TGAGGACTTAGAAAAAGGTATTTAAAAAACGAAAGAGTGTAGCTGTATCCTTTTCTTCCTGGTGCGCTGTTCATTCACGGTGAACGCACCCACTTCAGCA
TCTTGGTGGAAATAACTCAGTTCCACCTTCCATATACTTTTCTCTCTGCAGTGTGGGATTTAGGGAGAAATTAAGACCTCGACTCGCTTATGAATACAAG
CTCAAGGGCAAACTAAGGCACCCAGCGCAGTTTCCACATGTTCTGGGAACCCTGAACACTTGCCTTGGGGTGAACCAGAAACCTAATACATTGCACATTG
CACTTGAAGTTGAGTTCAGACAAGAAGATGGGACCGCTGTATCCCCAAGTAGCTCGGGCGAGGTGAGAGCACTCCATTCTGCTTCAAACTCAGTGCAGAA
AGCCAAGCCCAGAAGGGATGCGGGTTCCGTTCTCACCTCCCTCTGCTCTAAGCTGAGGATTCCAGGTGATGCTGTTTACCTCCTGTGATATCCTTGTGTC
CTGGGGAAGCACAGATTTCAGTGAGACTGGGACTCTGTTTTCCCCTCTCACTGAGATGCRGTCACAGCTGCCCAGCGACCTGGTTCCACCTTAGGGTCAG
GCAGCTGCGACCGATCTGTCTGGTTCCTCACCCTGGGGGTGCCCGCCGTTGGGAGGTGCTRTGGTTCCAGGGTGGGCGCTGGTCCCTKCCCAYGGAGCTC
GCCTAGCACCTGTTCACAGGTGTGCCTGGGCCAGATGCATGTCTGACAGGGACATCAGGTTTGGGGAGACTGAAAACCATTTTTGAAAATGAAGTTATGC
TGATGTCATTTAATVGTACGTCATCATAATTGGCAGCAGAGAAGGTTGCACATCACTCATGGCAGATCCATTACMTGGGCCATGGGCCAAGCTGTGCACC
AGGTGCTGGGAGGATACCGGTGGGCGAACCAGACCTGCAGGAAAATACATGGAAATGGGGACAAAACAGGCATTTCAGAAGCTACATTCAGCTTGAAACT
GGATGTAAAATTTGATGGTATCCTCTAAAATTCTGGTGGAAAAAAGATCTCCCTTTGGGAGGCTGAGGCAGGTAGACCGCTTGAGCCCAGGAGTTCGAGA
CCAGCCTGGGCAACACAATGAGGCCCCATCTCATCTATCCAGGTGTGGCGGCACATGTCCGTGGTCCCAGCTACTCAGGGAGGCTGAGGTGGGAGGATCT
TTTGAGCCTAGGCAGTCGAGGCTGCAGTGAGTCATGTCCGTGCCACCGCACTCCAGCCTAGGCAACAGAGTGAGACTGTGTCTCAAAAAACAAAACAAAA
CACAACACAACAACAATGAAAAATCTAATGACTGGGATGAGATCTGATGAAATGGTAGGTTGAATTTAAAATGGTGCAAGTGGTGGTGCCTGCAGAGTAC
CAGCTTGTTGCCAACGATGCTGTCATCCTAAGGCTCTCCTTCTGTGGTTAAAGTGGTTCAAGTGTAGAAAATGAATTTTAAAGTGTTACCTACCTGCCAG
CCCAGACTTCTCAAGGCCCAGTGGTCCTATTGAGCTGAACCTGCTCCCATCAGTAGTGCCCTGCGGGACCTTTTGAAAATCTCCCCAGTAAAGACATTCT
TGCTTTCATACAACCTGGCTGCTGGAGCACCTGGCTGAATTTTATCTTATTATTCACCTTTGAGTTCGTGGCAAATACTTAGCAGTATTTAATTTTTGCT
TTCTGATTTAAGTGTAATACGAAAAAAAATCATGCAAATCAATTACCAGTATCTGGTGTTTGAAATTGTAAGATGCTGAAAAGAACTGTTAATTATACTC
TGTATCTGCSRGGGGAATGTAAACTGACTTTAGGATTCGAAGAGACCTTGCTGATGAGAGAAGGAATCACTGCTCCTTTTAGAGGCAATGAAAGTTGGGC
CTGGAGTCCTTTGCTTGAGATCACAAAGCCAGAGACTTCAGGAGAGCAGAAATGAGAAGGCTCAGTGCCCTCCTAGGGAACCTTTCGTAACTTGAATATT
GTGATTCAGCCACCTGGAAGCTTCACTTGTGAACGTGACTCTGCAAAAACATGTTAGAGGAAGCAAAGGAGAGGATGGACGTGAAATCCGTCCTATGCRT
GCTCACCTGACATGCAACAGGGAGGKTCATCTGCCAGGGCGTCACGGTCATTCCACGAGAGCTGGGTGGTGACGCTCCCCAAGTTCCCACTCCTGGAGAG
GTAGGCAGCGAGGGACACTGGCGTTGCAGGGCCCCTGGGACAGGCTCCACTCCTCCCTTCTTGCTCTGGAGGTGACACAGTCTAGKGATCTAGTGAGGAA
TGGGACCTGGGGCCAGCGTGCTTGGACAAGACGAAGCCTCATCAAAGTTGAACCTTAGGGTTCATCAAGCAGGGAGGGCTTCCACATACCCTTGTATCTG
GGGCAACCATCAGAGGGCAGGGCTGGAGCTGGGGCCCTGTAGGGCACTCAGCGTCCGGAGGGCACAGAGGAGCACATGTGGGGCTCAGGACACAGGGTCG
GGACGGTGTGGCGGCGAGGTCCCTCTGGCTGTGATATATGTTAGGGGAAGGAGGGACTGAGGCCGGGAGTGGGCACGGGCAGGCAGGAAACTTGTGCAGA
AACCTAGCAAAGAAGTGTGGGTGATTTCAATGAATGTGAGGGGTAGGGAAGGGAGAGCAGAGGGAGATTAAAAACACTTGGGGGTGAGATAAATGGGGCA
GGGATGGTGAGGATCCCTGTTTGCTGAGCTCCTCTGTCCCAAGCAGGGTTCTAAGAGCTTTTCATGCATTAACTCATTAAGGAAGGCTCTGTTTACCCTC
ATTTCACAGGTGAGGAAACTGAGGCATCGAGCAGTTGAGTTACGTGCTGGAGGTCACTCAGCCAGGGAGGGCTCGGCAGGGATTTGAACCTGGTGGGCTG
GTGCCTGGGGCCACACACAGAACAGGGTATGAAGGAGAAGATTCTTCTCCAAAGAAAGAGGAACAGATTTCCTTTTCAAATGTTATTTTTCTTTCTTTCT
TTCTTTCTTTTTTTTTTTTGAGACACAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCCCTGCAACCTCCACCTCCCAGGTTC
AAGCAATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGGCCCCCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCAC
CGTGTTGGTCATGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCACCGCGCCCAGC
CTTAAATGTTATTTTTCTTAAAACAGTCAAATTCAATTCACATCACCAAGATACAGCAGGTTTCCAGCATCTCTTTTTAAAAAGTTTTTTTAAAGGGAAA
TAATACTACTATCACTGTTGCAGACTTTTCTGTCGTAAGCAGGCTTATTCAATGTTAAATACGACTTTTATTAAAGCAGGTTAAAAGAACCTTGGCAGAA
ATTTCAAATAAGACTGGGTCGGGTACTGTTCAGGGTGCTTTGTGTCAACTTATTACTCCTCGCCTGCTAGGACATCATCCCCTTTGCATCTGGGGACACT
GAGATGGGGCGAGGTGGGGCAAGACTACACAGCTGTATGTGGCAGAGCCAGGGTTCAGGCAGAGCTAGGCCAGTATCGGGGTCTGGGGGCGACCGTCTGC
AGCACCGTCACATACGTGGGGACGTCCACCTGTGTCAGATGTTTCCCAGCTTGTTTCATGATGACAACAGCTCTGCTAGAAAAGCATTTCTTTTTTGCCT
ACGAGGACTCTCGATTCAGGGACCCTGAGTCTTTGGGACCCTCGTGCAGCTGGGGCTCACCCTGTCTGGACCCAGCGGCCTGACTGGCCTGGATGTGTCC
CCTGCTAACGGGCCTCAGCCTGACCATTTCCAGTGGGCCCTACCGTCTTGTTTCAGTGACTGGGGGGACAGCAAAATGAGAGTTTATCTGCTTTAACATC
AAAAGGTTTTCTTCATTGTTGTGTTATTGAATGAACTGAACAGCAGATTTATTTGCTTTAGCAAATGCGGCTGCCTGTGATGGTGGCRTAGGTGTTGAGT
GTGAGCACACGAGCATGGCAGGAGCTCGCGGGAACGGGCCAACGCCCCACTGCCCCAGTCAGCCCTCTGTGGCCTCAGAGGGTAGCTGCCCGTCTGGAGG
GCCTCGGACACTTTCAGGCTGGGATGGGGACTCTGATTTTTTGCTTCTCAGGCACTGATGTGGTTCAGACCCAGGATTCTAGGAGGGAAGGTTCCCGTCG
CAGGGGAGGGAATCAGACGTCGCTCTGGGCGGCAGTGGAGCTGGCAGGCAGCCTCTGGGCTCTGGCAGCATTGTCCTCTGGGTCCAGCGATTTGGGGTTT
AGACAGGGTTTCTGGACGGCATCTGCACAGAGGAGCGGAAGACAAGAGCTGGGAACCGATGCGTGCCTTCCCTCTTTAAAACAAGAGTTTCGAATCCCCA
TGAGGGTTCCCTAGCGTGGTCTCAGAGCCCAGGATCTGGAGGGGGACGTCTGTCATTGGAGAAGGCAGAGGAGCCAGGGTGGAATCCTTCCCGCTGCCCA
GCAGGAGCAGGGCTGGCCTAGCGGGCCGGGCTGGGCACTGCAGCAACCTTGTACCATCCCCTCCTGAGAGCATCAGGGGCCGGGACGTCCAAGGTAGCAC
CAGGCCCCTCATGCCCGCACCCCCTCCTCATGGTCACCTCTGTTCCTGCAGGGTCCCGGTGGTCTCCCGCTAACCCCGCGTGGTCTCTAACGCCTCCTGT
CAGCCGCTGCTCTGCTGTCTCCACCCGTGCGGAGGTCCCATCCAGTAGTTTCTGTCTAACCCATGTGTAGTAGTGAAGCGTCCCTCCCTAATTGTGGCCT
GTGACTCTGGAAACACCATTCTCATGATGTTCTATGTCTCCCTTTCAAGAACTGGGTTTCTCTTGAGGAGAATACAGGTTCTCGGCCCTGTAATTTACCA
AGAGGTTGCAGATCAGGCACCTGTTAAGCATGAAAAATTTGTTTCAGTTTTGTGAACCCAACAAGAGAATGACAATTTTAATGTTCTCTGTTTCCCAGTG
AGTGAGAATTCCTGAATTTACATAGAAAGCCCACATGAGAAGTCCACACTAATTGGCCACGAGTGTCTGGCATTGCGAAGGAAGCTGTGCCTTCCAACTG
GAAACGCACAGGGGTTCTTAAAGACAAACATTTAAATCTGAGTTCGGCTCTGTTAAAATTCAGCATTTGCTGGCAACATCCTAAATACTCAGTTGCCTCC
AGGGCGACAGCCTAGGGTGTATTTTTCCACAAGCGAAGCCCACGTCTGTCTGCCCTCCTCACTCTCTGTTGTTCTCGTGTAACGAGATGTTTTGTGTGTG
TGGCAGGTGGCAGGTTCAAGAAAGAGATTGTCGTTGATGGACAGAGCTATCTGCTGCTGATCAGAGATGAAGGGGGCCCCCCGGAGGCGCAGGTGAGTAT
ACATGCATGCCCCAAGCCTGCTTTTTTTCCCTTTGTTTTCTAAGGTTTGATTCAAGAAGTGCTTCTAGAAATCGGTGACTTGGTTTCCAAAAAAGTGGAA
ACCCCATAAAAAATGTTTCCTCTCACTGCATTTTTTTCTCATCTCTAAGAAGCTAATTCTTTTTTTATTTTTTTCCCAGACTAAATCCTGCAGGGAAGTT
GGGTTTATGTGATGGCTTTTCACTTTCTGTGTTTTTAAAAAGGCAGGAAACGCACACTCTGCCCTGGTTGGGGAGCCCAGTTGAAATGACATCTGGAAAT
TTCTGTCGTTTGKTTTGTTTTTTGGCCTTTTCCTTTGAGTGGTTTGATCTCTAGAGCAGTGAGAGTTAGAGAGCTTGCTGGGTGCAATTGGGAGTCCCAC
CTTCTCTCTGTCTCTGGTAACTACAGGCATTGGCCCCTCTGTGCCGCCCTGGCCTTGGCCCAAGCAAGGCAGTCTCCACCGAAAGCCGGTATGAAGCATA
TTATGATTTCTTTGGAAGTTCCTGGAAAGATGGTCATTCTGGAAATAACAAAACATGAGTGTGGAAGATCTCTTTTTTTGGTTTATTTAACCTGCTTTGT
TTTACTTACAGCATAATTTACCAGTTAAGCACTTTATTATTATTGTTATTATTATTATTGTTGTTGTTGTTATTATTATTATTGTTATTTTTTATTATTT
ATTTATTTTTTTTTTTTGAGACAGTCTCGCTCTGTTACCCAGGCTGGAGTGCAGTGACGTGATCTCGGCTCACTACAAGCTCCACCTCCCAGGTTCAGGC
CATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACGGGCGCCTGCTACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGAGTTTCACCAT
GTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACTCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGACCCATT
TAAACACTTCAAAGGAGCCGAGAGCTGGTAACGGCTAGTGACCTCAAATGCAAACGGAATGTCAGACATTTTCTTGGCATTATTTCCTGGACTTAACCTT
TTTGTGAACGGGCAGCATAGGATTGTAAGATGGAGAAAGTGAAAGATACTGAATACAGGACTTCTTAGGCCTCAGGTCTAGTACTCCACAGGTTGGAGGG
CTGTGCGGTTATACAGAAGATGCCACAGATTTGCCATGTTGCATTGACTCTGACCATTGACAGTGACCATTAAGATGTACCAGTATTCGAAAGAAGGATG
CTGCCAATTAAACTATGAAACAGCCGCAATAATTAGGTGCATTCTGATTTCAAAGCTGTTAAAGTGTGTAACATTTTGTTTCTTAGCATTAACGATACCA
TGAACTTGATCATAACAAGGAAAGACCTTGAAGACGTGTTAAAAGTGAAAACTTAGTTACAAAGCAGTTTGAGCCCATGTTCAGTGACCGTCTGGTAGTT
TATAGTATGGCAGGGCAAAGTTAGAGGTCTGATAGGATCCTATCAGTCAGATGCTGATAAAAGTCAGCTCTTTCTTAGTCCCACTGAATGTATAGGACCG
TGTTTGTTCTGCTACAAAGGAACTCTTGGAGGCAAGGTCCCTCCTGTGGCTGGTGATAGGAGAAAGAAGTAGGTAACATTTAGAATCACCTGAGTTGATT
TTCCGTTTTCCCCAGCACATAAATGTTTTGAGTGACTGGAAACAAGCTTTTTTCTCCACAACTGAAGAGCAAGTCTTACCAGTATATGAAGCACAAAAGC
TTAAATATAGAGAAAAATCTACAGAAGAGGCTAGGTGCAGCGGCTCACACCTGTAATCCCAGCACTTTGGGAAGCTGAGGCAGGCAGATCACCTGAGGTC
GGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATTTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACGTGCCTGTAATCCTAGCTG
TTTGGGAGGCTGAGGCAGCAGAATCCCTTAAACCCAGAAGGAGGTGGTTGCAGTGAGCTGAGATCTCACCACTGCACTCCAGCCTGGGCGATGGAGCGAG
ACTTTGTCTCAAAAAACAAACCCCAAAGCATAGTTTCAGTTTTCTGATGGTGAACATGTTAGATTGGGGGGTTATTTATTGGGTGCCCCCCACACAAGTT
GCTGGGGAAGTCAGAATGCACCCTTAGGAGATGAGAGCCACAGTTCACGTTTCCTCCGGGTGGATGCTCAGATGGGCTTCAGCTCCCGGCTCGGGAACTG
AGGTCTGGTTCCGGGTCAGCCAGTACTCTTTATGGGCGCAGTGGGAGTCTGCTCCTCCTGCTTTCTTAGAAGAGACAGGAAGAGCCTTTCTCAAGGCAGA
GAAGAGGAAAAGGAGATGCCTTCCGTCAGCCTTGGTCCTGGCACTCTCTGTGGGAGCTGCTATCACGATCTTCCCAGGTCTCTCCCGGCCTTCTTTGTTT
TCAAGTCCTCATTCTCATTTAATTTTGTATTTATCACTAGAACTTTGGGTTAAGTTTTACCATGTACATGTTTTACATATAAMTGAATGCACTTTTCACT
TACATGCAGAAGTCAGAGTTTAACCTGTTAAAAACTTAGACCAAATGTATTAGAGGTGATAACCTTGGCCATAAAAACCTATCTAGGAACTACAGCTTCT
TTTAGGGAAAGCAGACGGGATGGATTTCGGTTTTGTTTTTCAAATTTGCACTTGGAAAGAGAAGGATCTTTGTTGCCAGATAGAGCTGATGTCAGATGTG
CTGCGCTGGTTGCAGTGAGTGTGGGAAGTCTCTGCCCTGCAGGCAGCCTCCACTCACTCAGCTCCAGTTTTCCAAGATGGCTGTTGGTACTAAATGAGGT
ACTAGTATATGCCTGACAGTGTGGGTATCTGTCAAAAGAGGATGTGATGTAGGTTCAACTGGCAAGACAAGAATAAAATGAATACGGCAAAGCAAGAACA
AAATGGCGAGAGTGAGGCTATTGTGAAGTTTTCTTCCCTAAGTTTTGTTAATTTCCCTGAAAATAAGTAGTCATTTCTTTGCAGAGGTGCAGCAGGAGTT
CAGCCAAGGATGAGCCTGGGTTGAATCTTTACCCTTCAACAGAGTAGGCCAGCCGCTGCGGTAGCGAGTGGGAAGGACTGAGGGGTGGGGAGGTTCTGAG
CAGGCATGAGGGGTCCAGCAAGGCTTCCTTAAGAGGTTGAGAGTACAGTGGAAAGCCTTAGGGCTTGAGGGGCTCTGGCAGGAGGTGGGTCTGGCCTTCT
GTCTGCGGGGCCGCCTTGGCAGGTCGGGGCAGCGGGCGGACAGGCCAGGAGCATGAGGACCGCGGGGACACTGTGTGGTTTGTGTCCTCTGAAGACAGAG
TGGCTTGGGTGGGAACAGGATGAAGGGCCCATTCCCAAGGGGAACACCAGGCATGGTGTGCTCAGGAGGAGGACGTGGATGCCGTGACAGTGTGTAAAAG
TGACAGTCAAAAGTCAAGCACCCAGTGTGTGACCGAGGGGATTCCTGCAGCCCCCTGCTGCCTGCCGCCATGCAGACATCTCTGTTCTTAATCAAGCCTG
CTCACTCAGCTCCTGCTCTCCTCCCCTTCTTCTCTCCCTAGTTTGCCATGTGGGTGGACGCTGTTATATTTGTCTTCAGCTTGGAGGATGAAATAAGTTT
CCAGACCGTTTACCACTACTACAGTCGAATGGCCAACTATCGGAACACGAGCGAGATTCCTCTGGTTCTGGTGGGAACCCAGGGTGAGTGATGTTCGTGT
GCAGATTGTTTTGAAAGGRWTCTAACAGTTACATATTTTCAGTATGGAGGAGTTTAAAAAATGCTTTAAAGAAGGAAAAATTGCCTACTGAACGCTCACT
TTTTTGGGAAAAATTATGGAACTGAAATGATCACATTTCCTGATTTGATTCTATGGTGAAACCACTCATTTAACAACCTGAAAACAACACACACACACAT
ATCCCAGGTGCTTTATGAAAAATAAAATCTATTTTCCCTTGTTTTCTGGAAAAAAAATATATATGTGTGTGTGTATATGTTTTGTATATATATAGTCAAA
TACATATATATATTTTCTGCTATATTTTAATTCTCTGTTCTATAAAATGATTTATAAACAATCTATTAAAGCTTATCTTTCAGTGCACCTTGAAAATAGT
GCTGATTTTGAACATAGAGCAGTTCTGTTTATTAAGTTCTGTTTGTCACCGTCTTATGATCTGTATCTTATTTTTAATCTGACAGGCCCCTCAGACAGAG
AATCCAACTGGGCACATTTCTTGTTTTCTCTGAGGGTCACTTCGAACTTGGTCTCTTAGTGGAGTGGCCGTCACATGGCCTGAGACACAATGTCCTCGCT
CTTGATCACAGACCTATGGTTGTGCTGGGTCTGCCACTAGGGTCTAAGATGTCACRTAGGATGTTTGTAAAAGTCAGATGGAGGTTAGCTTTACAACTGC
TTTGTCAGAAATATGGGTAACATACAAATAATCCTATCAGGAAAAATTGTATATCCCTTCATTTTTGTTGTGGCTATGAATAGACTGTTTTGCGAATTCT
TTTAGAATGAGCCTATCTGACATGCCCATCCATGCTCTGATGTGAGACGCTTCTCTTTAGGACGTCAGCTGTACATACTGCACTAGGTGTGGTCTAAGTA
GGAGGTTGCCCAGGCAGATGATTGGCTGCTTGATCACGAACCTACAAAAGCCCAGATAAATAGTGTGGCATAAACCACAAACATTTTCCAGCCAGACGTG
GTGGCTCACGCCTGTAATTCCAGCACTTTGGGAGGCCCAGGCAGGTGGGATCAGTTGAAGTCAGGAGTTGACCAGCCTGGCCCACATGGTGAAACCCTGT
CTGTACTAAAAATAGAAAAATTAGCCAGGCATGGTGGTGCATGCCTGTAATACCAGCTGCTCAGGAGGCTGAGGCAGGAGGATCACTTGAACCCAGGAAG
CAGAGGTTGCAGTGAGCTGAGATCACGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGATTCTGTCTCAAAAAAATAAAAAGCCGGGCATGTTGGCGGG
TGTCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCTTTTGAATCTGGGGAGATGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCA
GCCTGGTAGACAGAGGGAGACTCCATCTCAAGGGAAAAAAAAAACAAAACTATAAGTATCTTTTCAGTGTGCTAGATGAGAGATGTTAGAGTTGGGCTTC
CTGGAGAGCACCTCCCCCAACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAAAGCGTACGTGGTCGCTCTCACTCCTGAAACCTTCAGAGCCAGA
GCTCTGTTTAATCCTAACACAGAAGGGAGGAGGGATTCTTAGGCCTAATGCRCCCTCTAGTGTTCACCAGGAGACAAGGCCGCACCACCCAAAAGTCCTT
GGTTCTTGTGAGAATGCAGAGTTGCCGTATTTGAGGTGGCATCTTGAAAATGCCTAATCGTGTTTTAAAGTGGATGCTCATCCACAGCAGATTCTGCTTA
AAGCTGCCTTGAAGTCGAATAGAGAAATTCCGAATAAGCTCCCCTTCCTGCAGGCCCGACCGTGGCATTTTTGAGCAGGGTCCTTCGGGGCTGTGTGTGC
AGACACCACTCACAGGCTGCTGGAGCTCAGGAGGTTTGACTTTAGGACTCAGAATGGGCTTTTGCTTAGACTCACTGTGAAAAGTGACAGTGAAGTTCCC
AGCCTGGAAAGATCCCCTGCGATCARGTTCTGTTCTCTGAGTTCTGAGTACACATCCATGTTCCATCAGTAGGAAGGGAGTGTCTGAGATCCCGGGAGTT
GGGACCACACACACCTGCGTGTGACTGGCTGCTGGCTGGGTGACCTTGACACCTGGGACTTTGGTGGGGTTCAACAGGAATTCCCAGAAGACACTCAGTG
CATCCGTGGGTATGTGATAGGCATCTTAACAATGGCTGCTTTTGTTCCTCATATTTCAATCTGCGACCAGTGTTCCAGGGTCCTGCCTGGAATCCTGAAC
CCCACCCCCCACTGTCCCTGCCCCTGGAGGCAGCGTATCCCTCTGAGTCTCCTGCCTGAGCCAAGGGGCACATCGAGCCTCCTGCCAGGGTGGCTGCTTA
GATTCTCGAGAAACCCTGATGAAGTTGAAGTCCTTGAGTAAAAGAAAGTACCCCCATTTATTCCCATGAATTCCATGAACATCCGTTGATCGGATGTGGA
AAGATGCCCAGGAAGGCCCCAGGGGAGTGTGTGCGTGTGCGAGGGTGGCCTCTGGGGTTGGGAGGTAAGTCAGCCCCACACCCTCCCGGGGTGAACAGGT
AAGCTGGCCCCACGCCCTCCCGGGGTGAGCAGGTAAGCGGGCCCCATGCCCTCCCTGCAGGACTCCTCTTAGCTGGGCCACCCCCAGATGAACCAGAACG
AAAAGTTGCAATCAGGGCTGTATTCCTCACCTGCGGGATTCTCTTGGTCCTTCCCTAGACTTCAGGGAGCACCCCAGAAAGCCTGATGGCAGGAAGCTGG
CATGCACGTGGGCTCTGAGGGTCCCTGCCGCGACGCTTGCTTCCTGCGTGCAGACTTGCTCTCCGTGAAGCCCGTGCTCGGCTGCTCTTTCAGGGGTTTG
GCTTCCTGGGATGCCAGAGACAAAAGAGGGATCAGGTTGTCTAGGAAGGCACCTGGCATTTCTCTTCCTGCTGCTTTGGGGTAGGCAGCGTTAGAGGTCA
GAGCATATGGGATGGGAAAGAACGGAAGAGGAATTAGGTTCATTGCCAAAGGATTCCTGGGCTGGGGTGAGGCCTCCRCCCGCTGGCGGGAGGGGCAGCT
CTGCCAGCAGGAGCTCTTTCTGGGCAGTAGCCAAGGACTGCACGAATGTTCATAATTGGGCAAGATGGGAATGAATGAGGTAATCATTTAATGTTTGTTA
AACAAGTTCTGTTTTAAAGACTTGCAAATTAAATTGATTTGAGGGAGAAGCACGATCTGTAAAAAGCTACGGAGTTAAAAGTGGAATGAAAATGAGACAG
GTATAGAACCGAAATGCGAGTGCAGAAGCCCGTTTTGGTGCAGTGGCAGAGATTCCCGTGGTGCACCTTTGAAGCCGAAATTTGACAGAAACCAAGCGAG
CATGCCGCTGAGGACGGAGGGGCTGCGGGATTGCTCGGCCGCAGGTCAGGGTCTCATGGAAGCTGGGTGGATGCTATGTGGCCTGTGTTTTCAAAATTAT
CCTAGAGCATTGAAACATCATGGACTTGTAACTTCTTTTTACAATTAAAAAGAAATGTTTATACTTAAAAAAAAAACTTTCTTTTCTTAAATGTTGTGAA
ATGCAAGTCAGATTTACTAATCAGCAAGACAAGAAGGCAGGACGAGGTGCCCTTTGACCGTATCCCTGGAACGGGGGTGCAGCCTATGGAGGCTGTAGTG
GTGATTGTCAGAGAAGAAACCCTTAACTGCAGAGTTCACTTGCCTTCCAGTAACGRGGAAACGTCAGCCCAACCCTATTTCATAGGGCTAAGAAAATAAC
ATGAGAAAAGAGAAAAGAAAAAACTGAATAAATTCCTCAGGACATCACTTTTTAAATATACTTCAAAAAATGAAGTTCTCAAATGCCCTTTCTCCACAAA
AATAAAATGTCAAAGGTGGTCGCTCTGTTGTATAACTTTGCTGCTATTTCTTTGACTGGTGGAGAAATCCTGTTGGTGGATTTTTGTTTAAAGAGTTGTT
TATTGTTTTCTTTGGCATAAGAGCCTTCAAGCCCTATGAAAAAGATTCAGGTTAGGAAACTGTCTCTGAAGGCTGGGCGCAGTGGCTCACGCCTGTAATC
CCAACACTTTGGGAGGCCCAGGCGGGTGGATCACTTGAGGCCAGGAGTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTGTCGACTAAAAATACAAA
AAATTAGCTGGGCATGGTGGTGAGTACCTGTAATCCCAGCTACTTGGGAGCCTGAGGCAGGAGAATCATTTGAAACCAGGAGGCAGAGGTTGCAGTGAGC
CASSTCACGCCACTGTACTCCAGCCTGGGCGACACAGTGAGACTCCATCTCATTAAAAAAAAAGAAAAAAAAAGCTGTCTGTGAAAAGTCCTCTCTCCTC
CCTAAGCCCTGTGGCTGTTCACATTCCAGCTCCTCATTTCTCTGTTCCACGTGCCACTGTAACTCAATAGTAATGGAATGGATGGGGCAGGGCTGGGGGT
GGGGAATCCTGGCAGCTGAGCTTAAAAAAAAAAAAAGCTCAGTTTCTTTTTTAGGAARCTGGTGCCGACATCCCTGTGCAGCTGCTCAAACGCCCCCGTG
TGCACACATGACTTAGATTGGGGGGATCCAGGTCACCTGTGACCCTGAGGGGGTCCATCAAAACCTCAGGGGACTCGCTGCTCCCCTCTCCACACACCTC
CCTCCCACCCCTCTAGGCCTCACCCCTACATCTCCCTCATATACACCAGCTGTCCTGCTGCCCTCTGCCTCAGGCGTTCTGCCCCAGGCAGTGCCTACTG
CGCCCCACCTGCTGCAGGTGAGGGTTCCCTGACCTCTTGCTCTAAAACCCAGAGTCACCCAAGCCTCCTGACCTCCTTCCCGGCATCAGTTAACAGTGTG
GCCATCTTACATTCAGAACCATTCATCACATTCATCTTTCTTTTCTGCTTGCCTCTCTGGCCAACTAGAATGTCTGTTTCATGAGAGTGCAGATTGTGTC
TGTTTCAACAATTCACTGGGGTATCCCTGTGCATAGAACAGAAACAAACCCCAAATGGGGGCTCAGTGAGCATTTATTAAGTGCGTCATTGGACAAGTGA
CCACACCTAGAAGAAGAATGCCAGTGTAGGGAGTATGCTTAGCCACCTGCGTGGTGCACAGAAGGGGGCCTGCACATAGGGACTGTGTGTGTGGTTTTTC
CTCCTTTCTAAAGTATGTATCCTCTAGACCCATATTTAAGTCTTTTTCCTTCTTTCTGAACATTTTAAAATTGCAGTTTCAGAAGCGCTCCTGTAAAACA
AATATCTACGAATGAATAACTTTCTCTTGTGTTTGAGTCTCTTAGTTGGGAGGCAAACGATGCTCTACAATTCCAGATTCATAAACTAATTACATTTCTG
CTGAGTAAGGTACTGGTTTTCCGTGTTGTGGGGAGTGTAGGAAGTATTTAGAGCTGTCATTGTCACTGTGCCGTTACTTTTTGGTCTTCTGTTCCAGATG
CCATAAGTTCTGCTAACCCGAGGGTCATCGATGACGCCAGGGCGAGGAAGCTCTCCAACGACCTGAAACGGTGCACGTACTACGAGACGTGTGCTACATA
CGGGCTGAATGTGGAGAGGGTCTTCCAGGACGGTAAATGCGCGTGGCTGGGAGTTTAATTTCAGTTCATGATAGACGGGAGGCACTTCAAGAAGTCAGTC
CTGCCTGCACTTGTGCATGTGGGTGGTGGAAATATGTCGTTGATGGGTGGGCATTAGTATCGAGAGCAGTCCATTCCAGAGGCAATTCTCAGGTATGTTT
CATATAAACAGTGCTGTGTTCAGAAGAGACAACAAGGCATGGCTTGAGAACAGCCTGGTGTTGGGTCTGTGTGTCTCCTATGGGGCCTTTTTGTGTACAG
GATAGAACATTTCTTGAGCTGTTACTCATCCATGTGCTCTGTAAAACTTGTTTGTGAGCATTTCTTTATTGTAATTGCCCATTCTTAATCCAGTCCCGTC
CTTTAAAGCAGTTTAAATATTTGATATTAGGCTTTGAGAAGAGAACTGAAAGGAGGAGAGAGAGAGTCAAGTTTGGACCTCCCCCCACCAAAAAAATAAT
AAAATGACACGATACCACTCACAGCAGAGGGTGAGGACCAGCCTTTTGGAATTGTTTTTAGGTTATTTTATTCATTATTGATCACCTACCTTCAGGAACA
GCCACAAATCAGACAGAAAATTCTCCTAGGAGAGCATGAGGTTCTGCAAGAGGGTCACATACTTGTGGATGATCATAGCGCCAGACGTCGTCTATGAGAG
AGGAGCCTGTGCAGATGCGTGGGGTGGGCGGGAGAGGTGGCGTCACCCTGGGGATAGGAGGGTCTGGGGTAAATAAGGACTGATACTTCTAAAGCCAGTC
TTTTCAAGTTGGAAGCTTGGGAGAGGCATGGTTCTGGCAGAGGGTCCCCTTGCTGGTGGGAGTGGTGGAAGTCACTTGTAGGGTCCTCTCCCCTTCTGGT
TTAAATCCATGGGGGCAGAGCCACCTGTCCCCCTGCTCTGGTGCCCAGGGGGTTGTCGGGGGCAGAGCAGGGCAGCCACACTCGGGCTCTCCAGAGAGTG
CTGGAGCCGCTTCAAGGTGATGGAGGACTCGCCGCGCTCTGACCTTGAAGACCCACGGTGAAAGCAGTGGCTGCAGGACTGTTCCCGGGACTTCCTCCAA
ATGGGGCAATTTTCTATTACATGTTTAAATTAGTCTTCAGATGAAATTGTAGGGATTCTGTACATTCACTGTTCAACTCAGTTTCAAAGATGACATCAGT
TCTCAAACTTCACATTTTCTTTCCTGGAGCAGTGAGGTTCCTTTCTAAGCCTGCCGTCTCTTCCCGCGCATCTCTGCCTCTCAGATACTTACCTGTTTTT
CAGCACGTTGGTCCTAGTTACTGCTTCATGGCTTAGGTTTCTTCTCGCCTTATCCAGTGCCAATGCTGAAGAAGCGCAGGGTCCCCTGAGGATCAGCACA
AAGTCGCTGGGGTCCCACAGCCCCTTCTTCCCTCCACTAACGTATATCTCGGGCACCTCCTGCTGCCTCTGTCGGGAGAATGTCCTGTGGGGAGTAAACC
TCATTTCAAGCCGTGCTGGTGAACATGAGTGAGATGTTAGTGAGACTTGGAAGAACTGTGCAGGGAGGCCCTTAGAGCTCTTCTGAGAGGTGCACCCTAA
TGGAGCAAGGTCACTGTCGGCCGCTGCGCTGCCGAGGCCCCTGTGAATGTTGAAGTAAAGCGTCGTAGATGAAGGGTCCCCAGGCCCGTGCATGAGGCCA
GCTGCCTGTTTTCATAAATAGACTTTTCTTCTTTTTTTTGGAGACAGAGTCTAGCTCTTTGCCCAGGCTGGAGTGCARTGGCGTGATGGCAGCTCACTGC
AACCTCTGCCTCCCAGGTTCAGGCAAATCTTGTGCCTCAGCCTCCCCAGTAGCTGGAATTACAGGTACACGCTGCCACACCTGGCTAATTTTTTGCATTT
TAGTAGAGATGGGATTTTCACCATGTTGCCCAAGTTGGTCTCAAACTCCTGAGCCCAGGCAATCTGCCCACCTTGGCCTCCCAAAGTGCTAGGATTATAG
GCATGAGCCACCGCGCCTGGCTGTAAATAGACTTTTCATGACRCAGAGCCACGCTTTGTGTCGATGGGCTGCAGCGGGTTTGGGCCCCTCTCCAGCTGTG
ACAGCAGAGATGAGGGTCTTTGCGGCCTGAGAAGCCCAGAATATTCACTCTCTGGCCCCGTGCAGAGAGCTTGCCGGTCCCCGATGCAGGATATCAGGGA
CTCAGTTGTCTGGATAAGTTTAGTTTCCACAGTGACTCCTTTGCTTTTGTATTTATCACGGTTAACATACATGAGTTTTCCATAAATTGATGAGTGCTTC
TTATAAAAATAATGTTGTCAATTAATGAATACTGGGGGTTGTCAGGATGATGCTGCCTTCCTGCCAAACAGCCTTTGTACGTTCTGGCTGCTCTAACAAG
ACCCAGTGGCTTATACAACAGACTTTTACTTGTCCTACTTACGGAGGATGGGAGTCCAGGGCCAGGTGCTGGTGGGTGTGGTGTCTGCTGAGGGCCATCC
TCCTAGTGGGATATGTGTTTGCATAGTGGAGAACAGAGGACACAAGCCCTCGCCAGTCCCTTCCCATAAAGGCACTTAACCCATCACAGGGTTCCACCCT
TGTGATCAGTCACCTGGCAGAGGCCCCACCTCTTATTCCCCTGGGGGTCAGGATTTCAGTATAAGAATTTGGGTTGAGTTCCATACCACACCCAGCACGT
TCAAGGCAGAGGACAGGCAGCCACCCACCTCTGTGTTGGAAGCATTTCGTTTTCTTCAGGTTGGGGGTGGCAAGAGGAGAATAAGGACTGATATTTCTAA
ATATTAGTTTAAAATATTCAGAAAAAGCGTTTCCGTTACTGTGACAGCTCATGTCGCACCTCCCCAGGTGATGCTGTGATGAGTGTCCGTTTTCATGGGC
ACAGGAGATTTCCGTTCCAGTTTCGTATTATAGAAATAATACACTCTCATTATGTATTCGGATTTTGGCTGGGCGCAGTGGCTCAGGCCTGTAATCCCAA
CACTTTGGGAGGCTGAGGAGGGCAGATCACCTGAGGTCCATAGTTCGAGACCAGCCTGGCCACCATGGCGAAATCCCATCTCTACTAAAATTGCAAAAAA
TTAGCCGGGCATGGTGGCAGGCACCTGTAATCCCAGCTACTCAGGAAGCCAAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTCAGCTGA
GATTGCACAATTGCGCTCCATCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAGTAGGATTTTATGGAATTTGAAAAGCAAATACCTGTG
AAGCTACAACTTCCGTGACTATTGCGATTTTTTTGTCCTTAAAATATTTTCATATGAAGATAACATTTTTAAAATAAAATCAGTTACTTTGTATATTTTA
TATCATAGTTATATGGTATATGGTTTCTTATTTGTATATGTATTTTCATGTAAATCACAAACACTCTCATTGTTAGTGAGAAAAGTAGTTGCTGAGTAGG
AGCTTTATTCAGTACTTAGCAATCCTTAATAACAAAGTAAAAATCCTCAAGGAAAGTTAAACATTGTAAGGTTTATATAAAGTTGAAGAAATTGAGGCTC
AGAGAAATGACATAGCTTGACCCAAAGGGACACAGCCTGGACTGGATCCCCCATCTTGGGACCTGAGAGCCTCGACTTAACCACAGCACCGGGACATTTT
GTCATTAAAATGGAAGCAAATCAGGTCCTGGGGCCTTAAGAACACACCAGCTTTGCCCACAGGTCTGGGGAGGGCCTTGCAGGGGATGCACCCAGCCAGC
AGGGCCCCTGCCTGCTCGCCGACTCAGTTTATTCACATTTCTTGATAACTCTCTGGCTTCTTTTTTGCCCTAGGGCTTACTTTGTTTATTTACTTTTTAT
ACCTGTATATGGTAGAAAGAAAACATAAAGGAAAAGCGTGTAATTTCTACATAATGTTTGGCTTGTAAATAAAAAAAAAAAAAAAATCCAGCTGCTTCCA
TTGCCCTGCGGAGGCCATGTTCCTGATTGGCTCTGTACCGAGGTTCATTTAAAAGGCCAGGGACCTCATTCTTTCTTCTCCAACATTTGACTTCTTAGTG
TCTTGTAACAAAAGGACATTGTAAAAATGAATGGAGAAACCTTGCATTCACTTTTTGTTCGCTTGTGTGGTCCTGTTTACTTTGCTTTCATGGAGTTTCC
AGATGGCTACTGGCAAGTGGCTGTAGGTGTTGGGAAGCAGCCTAGCAGGCTGGTTCATCCACCCAGTCACTCGTTCATCTGAGCACCAGCTTCCCACACA
CTGTGCGTCTGGTCAGGGGCTAGAGGCAGATTGGGAAGCGCAGGCAGGGTCCCTTCCTCCGTGAAGTTAAGGTCCACTAGGGAGGGTAAACATCAAACGG
TCACCCAGAAACATGACCTTGTGTCTTGCTCAGGGGTGGAAAAGAAGTGTGGCAGCCCAGGCTGCTTTCTGGGGGTGGAGCGTTCKCGCTCCTGCTCACA
GGCGAGTTTGTGTGGCTTGCGGGGCTGGGTGAGCTGGTTCCACAAGATGGTTTCTGCTTGACCTGGGCAGCTGAGCCGGACGTGGGCTGTGGGTACCCAA
CCGTTTGGATTCTCAGCAGAGCCCTGGGGAAGGGAGGCACTGGGGGCTGGGGCGGGCTGGATGTGCGGACTTGGCAGCTGGGGGCTGCAGGTCCGTCTGC
AGGGACTGCACAGGGCTCTCGTTCCTAGATTGCTTMACAGCCAGCGGCTCTGTGCCTGTCAGATTCTGCATGGCTCTGTTTGCCTCTTCCTGCAACTGGG
AAATAACCTATATACAAGTTTTTCTATTTTTAAAGTTAAAATGGTGATTTCAGTGTTTGGCATTAAATTTTTCAAAAGTCCCTGTTGATTTGTTCTCCTA
GGGCCTGGATACATGAACATGAAGGATTACAGAAAAATAAAGTTCATTCCATGTAGACATTGTTCCTCTGGTCCTACGATCCCTCCCCTTCCCCTTCCCT
TTTTTCGAGGCAGGGTCTCTGTCACCCAGGTTGGAGTGCAGTGGCACGATCTAGACTCACTACAGCCTCTACCTCCCGGGTTCAAGCAGTTCTCCTGCCT
CTGCCTCCTGAGTAGCTGGGATTACAGGTGTGCGCCATCATGCCCAGCTACTTTTTGGCTATTTAGTAGAGACTGGTTTTTGCCATGTTGGCTAGGCTGG
TCTTGAAATCCTGGCCTCAAGTGATCCTCTGGCCTCGGCCTTCCAAAGTGCTGGGATTGCAGGCATGACACACTGCACCCAGCTTGCGATTCTTCTTTAA
AGAGACATTTTTCCCACTTCATATGAAGAAGCAGCTTTCTGAGTGGCAGCAAGCAGCTCTTCTGGACAGACAGAGTGTGTGTCTGACATGGGACTGTAGT
CAGGTCTCCGGAAGGTCAGGAAGGGTATAGTTTTGGTGATGGGATTTTTCAGCCTACATGCTGAAAGGTCACCTAAAATAGTTATAACTTAGTGACAAAA
ATAAATCCTCCCTTCAGAAGGCCAAGTCATGTTCAAGGTGGTAGCAAGCTGTGTATAGGTAGCRACAGGGCCCCTTTGAGCATTACACGTGCACCTTGGG
AGGAAGAGAGTGGAGAGCGGRCTCTGCCTGTATATTCTTGGAGATGGTGCATTCAGCACTGTCGTTCCCTGCAGTTAGGTTTTGGAGAGTGTAAATTTTA
GCCTGTCTTCAAATGCTTTGAGTTTCTCGTCTTCCTGAGTAGCGTGTTCGGAGCTTTCTCTGCTGCGGGTGGYGGTGCCACAGAGGAACACAGGGGCCTG
TGTTGTGGCATCTGTTCAATCGGGGAGACAGGATCAGGGTTTTTTTGTTGGTTTTGACATTCTTGAGCCAATGCACCCTAACTTTTATTGGGCATAGTTT
ATGATTGTTAAATTATGGTGTCTTTGTGGTAGCTGTATGGCATGTGGGATTTTAAAGGCCCCTGATTCCTAAAGAAAGAGGGGTTTCCCTTTCATAGGCA
ATCAGGAGTACAACCTGATAGTGGTACAAAGAATTGTTTTCATTTCTTCTCCAAGCAGCTCGATGCCCTTTCTCTCTTCACTCCCCCTCTCCTAGAATGA
GCTGATAAAGATGTACGTGAGTGGTCCACAGTGTGGTTTTATGCATGGATTGTTTATTTGCATCCCAGCAYGTTTTGTATACAGCAGGGGTCCCCAGTCA
GGCTGCACAGGAGGTGAGCAGCTTGCAAGTGAGCATTACTCCCCGAGCTCCGCCTCCTGTCGGATCAGCAGCAGCCTTAGATTCTCCTAGGAGCACGAGC
CCTGTTGTGAACTGTGCATGCGTGAGATCTAGGTTACGCATTCCTTAGGAGACTCTAATGCCTGACGAGCTGAGGTGGAACCGTTTCATCCCAAAACCAT
CCCCATCCCCCACCTGCCCCCCAACCCCTGATCCTCAGAAAAATTGTCTTCCATGAAACCAGTCCTTGGTGCCAAAAAGGTTGGGGACTGCTGCTATATA
GAATTTAATATTCTTGCATGCATTTTCTGAACCTTCTAGTCACTTGTTAAATCCCAGTTCAGAACATCACATTAGATATATGATCTGCACTGTGCTAGGA
CGTGCTCCCCACCAAAACGTCAGCGTCTTAAGCTTGTATTCATATGACCATAGGAAAACCTACATGCAGAACTTTGATAGTAGTTGTTAGACCAGGTCAA
GATCCATGTCAAAGAGATAAATTACAAATTATCATCTCTCTGCTTAACGGTCTCCAGGGCCAGTTTGGTGATCTCACATAGACTTCTGTCCTAGAACAGA
TCTGCATTATTGTGGAGGGAGAGACAGTAGGTTCTAGGTGTATGGGAAAGCTGGGCAGTGGCACTGGAAGGGCGCTGTGTGCCAGGTGCTAGCGCTCCCG
GGCCCTGTGTGCCAGGTGCTAGTGCTCCCGGGCTCTGTGTGCCAGGTGCTAGTGTGGCCACAGCCTTGTGGCTTATTAGGGCTTCCTCTGTTCACACGCT
GTGTACATCGTCCTGGTGGATGGGTGTTTATCTGGTAGAGTAGTTCCTGGTCTAGGCAGATCCATGTCAGTCCTTTGACCTCATTGCCCCTGGCTTTTTA
TGTTTGTGCTGCAGTTAACATTCTGGAAAGCACTTTTATAGAAGCCATTCCATTTGTCTTTTGTCCCTTCCCAGTAACGGCTCACCTGGGCCTATCTAAC
CCATGCCGAGAGCCCGAGCTGGGAGAGGTTGCATGATTTTTACCAAGGTTGTGCGGGAAGTCAGGGAGCCTCGGTGTGCTCTTGATGCTTTGCTTCCAGA
GATTGAAATCCTGGTGTGTGCAAAGAACCCCATCTCACATTAAATGGCTGCAGCTGCCTGGTCCTAATTACAGGAGTGTCCAGAACCAGGGGAGCTATGT
TAATGAGTCCGTTTGTGCAACCTAATTGCACGCACTAGAGCATCTGTGAATGTAAGCAGTCTTCTGGGCCTCTTCTCCTGGGTCCTGCATCATCTTGGAC
CATTTTGTTTTGCTCACACCACAGTCCTTGTGCTGTTAAAGGATGTATCAGTTAAGCCTATTCCATTCTTTCCTGAAATCAGCTTAATTTTCATTGTCGG
GGTGGCCTGTTTTATGATTTGTTTTTGTTGCTATTTTTTTCTCCTTTATTACAGATTAGATTGGAACTAGTGTGTGTGTGCATGCGTGCRKGTGTGTGTG
TATATGTGTGTTAGCGAGGGAATACTTCAAAAAATAAGATTTTTTACACTTGAAAGCAAGCCATGTATATGTGTACATTAGGCACTTGATATATGTTGAA
AAGGTGGATTAATGGGTCATTAATTGTCCATTTTTTAATCACTTGTAGTAATGACTAATAATTATGCAACAATTTAACGGCTTATGATGTAGGATAGTGG
ATCTTATTAGGCCCAGTTTACAGCTGGGACTACATTGTTGGAAATGCTGCCTTCCCAGAGGTACATGGTGCAGCTGGTGTCAGGCGAGGCCATCATTTCC
CGTTTCTACCTGTGGTCTTGGCTGTGCACCTGTACTCATCACTGTCCCCGTCTCTACACCCTCACCCCCTCCACACATTGAAAGTCTTATTTCTAAGACT
TCCTGGGACAGATGGGTGGTAGATGTGTATTGGGACAGTATGAAAGAGGTTCAGCTGCTTAAATTACACTTCATTAAGGGGGTTCATATTTGAACATTTT
CTGAGAACAAAGATGACATGAAGAAAGTGACCTCTGTAAGGCTCTGGCAGCACTTATGCGGTACCAATACAAATGGGGGTTGGGGGCTGAGCAGAAAACA
TTCTTCAAGAGTTAAATGATCAAGTCACGTAAGGCGTGTTGTTTTTGTTTTGTTTTGAGACAATGTCTCACTGTCACACAAGCTGGAGTGCAGTGACACA
ATCTTGGTTCACTGCAACCTCTGCCTTCTGGGCTCAAGCCGTCCTCCCGCCCCAGCCTCCCAAGTTGCTGGGATTACAGGTGCGTGCCAGCACACCCAGC
TAGTTTTTGTATTTTTAGTAGAAATGGGGTTTTGCCATGTTGCCCAGCCTAGTCTCGAACTCCTGAGCTCAAAGCGATCCGACCGCCTCAGCCTCCCAAA
GTGCTGGGATTACAGGCATGAGCCATGGCACCCGGTCATATAAGGGGGTTTGATGCTGGTTTGGGAGACATTCTGGTGTCGTTAGCCCTAGGGTTGTTGA
TGTCATTCTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGGCTGGACTGCAGTGGTGTGATCTCAGCTCACTGCAAGCTCCAC
CTCCTGGGTTCACACCATTCTCCTGCTTCAGCCTCCCMAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGA
GACGGGSTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
CCGCGCCCGGCCCTGGCAGCTTCACATGTAGGGCCATCCAGTGCATGTGAGAATCTGCAGATGGTCTCCAGAAGAGCCACATCTGACCTGCCTAGTAGCT
TATCTCCCAGCGAATGGGAGAGGTGCAGACCTGCTGTTGACTGTAAGGAGACTTGATTCAGCCTGTTGGTGGGGGCGCACATGTGAGGAAGAAGCCTTGG
TGGGTTTGTGTGGGTCTTTCTCTTATGCCATATCCCTGGTTTATATTTGGATGGGAAAATACATAAATGTTTGATGGTGATCATTTTTATGAAACATGAC
ATTGTCAACTCCTTTCTTCATATGCATTTTCGAATTCAGTTCTTAACCAAAGAAGCTCTTTCTACAACAGGGTTAAATTATAAACTGAAATAGCAAATTA
ATACCAAAACTAAAATAAAGCTTTTTGTATAGTAAACCATACATTCAGAGGTTTAAAAAAATCCAACAAAATGAAAAATACTTTTGAGTTACTATTTTTA
GAAAAAAATTAGTTTGGGTTGAAAAATTCTTACCCTCRTGAAGCTATAAAAGCACATGTTTTACTGATGAGAGAAGCTTCTGGCACATCAACTGAGACAA
AAATCTTCCATATTCACTCRGTAAATACAAATACAGAAGATGGGCTGGGCGCAGAGGTTCACAGCTGTAATCTAAGCACTTTGGGAGGCTGAGGCAGGCG
AATTACCTGAGGTCAAGAGTTTGAGACCAGCCTGGCCAACATGCCGAAACCCCCCTCTCTAAAAATACAAAAATTAGCCAGGCATGGTGGCGTGTGCCTG
TAGTCCCGGCTACTCGGGAGGCTGAGGAGGGAGAATCTCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGG
CGACAGAGCGAGACTCCGTCTCAAAAAACAAAACCAAAAACAAAATAAATACRAATGTGTAAGATAGAATTCGTTATGAAGCTACACCAGACATTTTCAG
GASTAATTTGAGAATGTGCTTGAGGTGATTATCCTTAAATCATCCAAGTGTTTTTGAATATTATTTCAATTATTTCATCTTAGAARTATGAAATCAGCTT
GTTTCTTGTTTRGAGTTGCCCTTTCTTTTTATTATTATTTCTTAATTGAGACAGGATCTCGATCTGTCACACAGGCTGGAGTACAGTGATGCCATCATAG
CTCACTGCAGTTTCAGACTCTTGGGCTCAAGCCATCCTCCTACCTCAGTCTCCTGAGTAGCTAGCGCTACTGGTGCATGCCACCATGCCCAGGTCATTTT
TCAAAATTTTTGTAGAGATGAGGGTCTCGATGTATTGCCAAATCCAGTCTCCAGCTCCTGGTCTCAAGTGATCCTCCTGTCTCAGCCTTCCAAAGTGTGA
TGGGATTATAGGCGTTAGCCACCACTCCCAGCAGCCCRACTTTTAAAGGATTCTCTCTCAGTCTATCGCTTGATTTGCTTAACACCAGCCATTTAATATG
AAAATGTTTAGGTGGGGGAGGGAATATCTTAATTATCATTGTGCTCCATACGCTACAGATGGCACCTGCTGGCCTTAGCAATATGGGGTCAAGTATGAAA
CATGATAGAGTGACACCCAAGGAACCTATAAGGAAAGGAATTTTGATTCTTTCAGAAATAACAGGAAGAAATTATCTTAAAATCTTAAGGTTGATGYTGC
AAACAACCAGAGACAATAAATAAATTGTTATTTAGTGATGTTGCAGAATATTGTGTTAATAGAGCCTGTGATCTCTTCTGGCAATTTCTTACCCTAAGTC
TGGGATTTTTCCTGCTGTGCTTCTCTTACTAGAAACGTTAAGTGTGCACAGATGCTCATACGTGTGCAGAGAAATGCCTGAATTAACTCTCACACTGCCA
ACATTAGATCATTAAACACACTATTAGTAARTGTTCTCTATTTTGATTTTCATGTTAAGACTCATCTCTTTTGCTCATAGAATTAATTTTATCAATGACA
TAGAAAATGGTTATTTTAATACTTCTCTGCACTGCGGTATCATAGCTGTGTTTTGCCCCAGGACTTCTCTCTAATGACTTGAGCCAGCTTGAATTAGCGT
GATGTATCATTAATGCATACAAATGGCTTTTATTTTTGTTCATAATCTGTTCATAATGCCACGGCATTCTGCTCTTTCTAATGTTTTTAAAATGATTAAG
TAGTGATGTACTTTTTGACCTAGTTAACCCTCCATGGAATCGATGATCAAAAGAATAAGAGAATATTACTTAACTAGGATAGTCAGAAGTTGTTAYAATC
TGTAGCTGATGTTTTCCAGTTATTTTGAAGTTTTTTATAATTTTTTTTTCCTTAGGGAATATGGACATAGGCCGGGCGCACAGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCGGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAGCAAA
AAATTAGCCGGGTGTAATGGTGCATGCCTGTAATCCCACCTACTCGGGAGGCTGAGGCAGGAGAATCGATTGAACCCAGGAGCCGGAAGTTCCAGTGAGC
CGAGATTGTGCCGTTGCATTCCAGCCTGGGGGGATAAGAGGAAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAATTGCAGAGAATATGGACATAGCCATG
TGGTCCTTTTTTCTAAGTAAACTTCACTCATCGAGGAGCTACCCACAAACCACTGGGTTAGCAGCACTGAATTTGTTCACTTGATGAAAGATGAGGAATA
GTAATCCTTTTTAAGTTGTGAAGTTCTTTAACCTCAGAAAGGGTGGCTTTGTCTCATGGACTTTGATATTTTTTGCATAGTCCTTGTAGGKTGAGCCTGG
CCAGACACTGGCTCCAAGAGGATGTGAGGAATTCAGGCTCCGAGCAGATCAGGGGCATCCCTAAAGGTTGGGTTCTGGAATCGGGTGAGTTTGTGTATTG
AATGCAGAGCCTCATCGAAGCGTTGTGACGAGGAGAGCGATGCACTGACGGCCTTAGGAGTCTCCCTGATATAAGCAAAAGTCAGCTGGRAAGAGTGGAT
TTCAACTTTGTTTTCCTAAGAGAAAAATAGGCCAGATGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGYTGAGGCAGGTGGATCCCYTGAGGT
CAGGAGTTCAAGACCAGACCGGCCAACATGGCGAAACCCTGTCTCTACTGAAAATACAAAAAAGAACTTAGCTGAGCATAGTGGTGGGCACCTGTAATCC
CAGCTGCTCAGGAGGCTAAGGCAGGAGAATTGCTTGGACCCAGGAGGCAGAGGTTGTGGTGAGCTGAGATCGTGGCACTGCACTCCAGCCTGGGAGACAG
AGTGAGACTCCATCTCAAAAAAACAGGAAAGAAAGATAGATTGTAAAACCTTCAGTGAGTACGTTGGATGTTGTGAAATTTGCCAAAGAGAAGAAAGATG
ATTTTTAAAGGATATAAAATATGGAAATAAAAACCACTSACAACACTGCCACCCGGGGGCAATGATTGTTAAGGCTCGGGTGTGTGTGTGTGTGTRTGTG
TGCGCGCGCGCGCACACGTGCACCTGCCGTGTTTGAAAAAAATGGACTGTCATGCATTGTGAGACTTTATAGCATACTCTTTCACATACACRTGGAGCAT
CCCTAATCTGAAAATCCAAATCTTAAACTGGAAATGCTCCAAAATCCGAAATGTTTTGAGTGCAGACATGGCACACAAGTGCTCACGCAGAATTTCGGAT
TCCAGGTTTTCAGTTTAGGGATGCTCAGCCTGCAAATATTCCACAAAAAAAAAAAAATTAAAACACCCTGGTTTCCAAGCATTTTGGACAAGAGATCCGC
GACCGTGAAACTTTTCCCACCCTGTGGTTATTGATTTTTGCACGGCATTTCCTTGAGCAAACAGAACAGCTTTTGGACCCAGTCTCCAATTAGACATTTG
GTTGGRTTTTTATCCCTCTGTATTTGATTTAGATGAGTGCTTCCGTGCATGGTTTTCTTTACTGAAAGCTGTGTCTCTGTCCTTCCTAATTTCCCGAGGA
TCCATCTCTGGAAGTGAGACTGTGTGTCCACATCCTKCAGAATGTTAAGGCTTTGAATCCTYGGTGTTGACTGGCCTTCCAGGAGACCTGTCCTAATTCA
GCGTTCTCCAGCAGCTGCCCTTTTTCTGCACCTGGCCACACTGGGTATATTCATTTTGAAAACCTCTATCAGTTTATACACAGAAGTATTATTTCATGTA
AGTCACCCCCAAATATGAAAATAAGTCCACGTCCTGTAATCTGTTTTGTTATCTGATTTCCCACCTGTCCTAGGTAGGAAAGGTGTACTCCTGAGGATGA
CACGTGGGACCCAGGCAGTCCTTGCTGCTCTTACAGATGCGCGCTTTTGGGGTCATCAGGCGGTTGCAAAGGTGGGAGCAGCCGTGCTCCCCAGAATGCT
GACAGCACAGAGCACTGGTCTGAAGATCTGTGTGYRGCTGTGATCCGTGCGTGGCTGTGACCCGTGCGTGGCTTTGGCCCGTGCGTGGCTCCGGCCCGTG
TGTGGCGGTTGCCCRTGTGTGGCTGTGACAYGTGGAGGCGAACTTCCACGGCAGAAGTGCCATGCTTCCGTAAGCTCTTCCGACTGGTTGGTAGGCGCTT
TTATCGGCACATRAGCACCTTACAGACAAATATCTGAAGTACACTTCAAAGGAGGCAAAGAAAAAGCAAAACTGCCAGTTCCTTGAGCATGGCTGTGTGT
CGTTGGTGCTCTGAAGGGCTTGAGAATCTCTCTCTACCCTTCATTTTCATGCACAGAAACYGAKTTTCAGGGAAGAGCTGTGGCCCACCACGGTCGCTTC
AGCCCCTCCCCGTTGCCCATGTTTATTCCTTTTCTGCCTTTCCTCATTGTCCATCTGGACTGGGGATCTTGGTCACGTAGATCCATGTTTYCCAGGCACC
TAAAGCACATCCCCCCCACTTTGGTGATCGTAAAAATCTGTTATTCCATGTTTGAAATATCAGGATTTCAGAACTCAGTSACTGACAGGTCACTGCCACA
ACAGCTAAAGAATTAAAACCCAAACATGTCTCCTTATCTCTGCTGCGTCCTGAGTCGGCTCGGCTGCCTGCATGTTCCCACCCCTGATGGGGGCACCTGG
GAGCGCCCGTGGGRTGGGGGCAYCTGGGAGCGCCCGTGGGGTGGGGGCATCTGGGAGCGCCCGTGGGGTGGGGGCATCTGGGAGCGCCCGTGGGGTGGGG
GCATCTGGGAGCGCCCGTGGGGTTGGGGGCATCTGGGAGCGTCCGTGGGGTTGGGGGCATCTGGGAGCATCCGTGGGGTGGGGGTATCTGGGAGCGTCCG
TGGGGTTGGGGGCATCTGGGAGCGTCCGTGGGGTGGGGGTATCTGGGAGCGTCCGTGGGGTTGGGGGCATCTGGGAGCGTCCGTGGGGTTGGGGGCATCT
GGGAGCATCCGTGGGGTGGGGGTATCTGGGAGCGTCCGTGGGGTTGGGGGTATCTGGGAGCGTCCGTGGGGTGGGCGTATCTGGGAGCGTCCGTGGGGTG
GGGGTATCTGGGAGCGTCCGTGGGGTTGGGGGTATCTGGGAGCGTCCGTGGGGTGGGCGTATCTGGGAGCGTCCGTGGGGTGGGGGTATCTGGGAGCGTC
CGTGGGGTTGGGGGTATCTGGGAGCGTCCGTGGGGTGGGCGTATCTGGGAGCGTCCGTGGGGTTGGGGGTATCTGGGAGCGTCCGTGGGGTGGGGGCATC
TGGGAGCGTCCGTGGGGGTGGGGGTATCTGGGAGCGTCTGTGGGGTGGGCGTATCTGGGAGTGTCTGTGGGATGGGGGCACCTGCGAGCGCCCGTGGCAG
CTGCTTTGCTTTCCCCATGGGTGGTAGTCTCACGCTGCCCCCACAGGCCCGGCCCCTCCAGTGGGAACATGTGCCTGCACTTTTTAGTCGAACATGTAAA
TTAATCAGCAGCAGTCCAGCCTAAAAAGAGAAGCTGAACACTGTTCGTTTGGGGGCTCATCGGCTCACTGCCGCGTGGTCAGTCCTGGTGCCGTGAGCAC
AGCCAACCGGACTGTACCACATGTTCCCTTCTCCCTGGGCTGAGCAATCGCTTCCCCGCTAAATGTTCGGCAGCACTTTGCCTTGTACGTGTCTACGTCT
GCAGGAGGGGCTGTGACTCATCCCCAGCCAACTGTATTCCAAGCACAGCCATAGTTCAGAGTGAATCTTTATGGTCTGTGAATTCTGGAGTTTCAGAAAA
CTCYCTCATTCAACGTTGTGAGTAAACCGTAAGAAAAAATATTGAACACCAACATAGTCATCTGGGTACTGGGAAATACTCCCATGCCCGCACCAAGATT
TCATTATTCAATGAAAAGTCCAAGGTAGTGCTTACATTTCTGGCCTGACCTCTAGATGTGTAGAATTTCAGAGCTGGAAGGACAGAGACCCCACCTAGCT
CGACCCTTCCCTTCACAGGTGGACAGGACCGGTCTTGTCAGATAGAGTGTTTAGTAGCAAGGCAGGTGCTAGAAATTAGGTCTGTATCTTTTGGCTGCAC
AGTTCGATTCTTGTTTTATGAATGTCGTACTTAGAAGCCATTGGCTACATTAAAAAACTTGGTAGTGAGCTAAAATAAAATGCTCCTTTAAGTTATAATT
GTTTTTAGTAAAATTTAAGCCATTTTAACACAGGGTGCTTGGATTAAATGCAGTACGATAACACATCGATTATTTTTATAAGCTAACTAATAAAAATTCA
CAGAGCGTTTTCTGCATGCAACAGAATATGTGGGTAAYAGGACATTGGGTCTGTGACAAGGTCTGAGCTAGAAGGACCGTATGGCCCATGAAGCACAGTG
TATGCAAGTGCTGTTGTAATTTAGTAAACCRCCACTAGGGGGCATTGAAAGCGCGTCTAAGGATTATTCTCCTGCGCAAATKTTTTCCTTTTGCTGTCAC
CATGGAGAATACAGATATAATAAAACACACTGGTTTAAGAGACCATTTAGACCTGTAATAAGATACACTCCGTAAAGCGTGTGAAGTTACTGGATCAGCA
GCACACAAATGCAGAAGTAAAAAAGTTTCATTCATTGGAATGAGGAGGAGAACACAATTAAAAAGATGAAATGTTATATTCTGTGGTTAAAGAATTCTAC
ATTCTGTGGTTATATATTCTGTGATTTTGCCCTGCATGTAACTTTACAGAAGAATCAAAGAAAAGTTGGCCAAAGATACAAAGTTTTTCTTTTGTATTTT
TTTGAGAAGGAGTCTGGCTCTGTCGCCCARGCTAGAGTGCAGTGGTAAGATCTCGGCTCACTGCTACCTCCACTTCCTGGGTTCAAGCAATTTTCATGCC
TCAGCCTCCCGAGTAGCTGGGATTATATGTGCGTGCCACCACACCGGCTAATTTTTTTTTTTTTTTTTTTTTTGTGAGATGTAGTTTTGCTCTTTTGCCC
AGGCTGGAGTTCAGTGGTATGATCTTGGCTCACTGCAACCTCTGCCTTCCAGATTCAAGCAATTCTCCTGATTCAGCCTCCCAAGTATCTAGGATTACAG
CCCGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAAATGGGATTTCGACATCTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCC
CACCTTGGCCTCCCAAAGTGCTGGGATTGCAGGTGTGAGTCACTGCACCCTGGCCTGATACTTCTTTATAGAGTATAATAAATGGACTTATTATTTAGCC
CATCATTCTCTCTTAACAGAATGCACCAAGAGTTTCTCTGGCTTGAGTGATTGGCCAGGCACCTCACGTTAGCGTCTGCAGCCTTGAATCGGGAGGCAGG
TTGGGCGCAGGCTTCTCGTGYGCACCAGCGAGCACCCGGGCCAAGCGTGGAGGCTCTGCGGGCTGGGGGTCCGGCCCACACCATCAGCCTCTGYGCAGCC
GTTGCTTYTTCCGTTGACCAAAGCCATGACCTTACCTTTATGCAGTCGTGTTCAGAGAGAGATGAAGCCTCAAAGGCAAARTCAGACTGACACTCCTGGG
AGCATGACGGGAGTTGATCATTTTTTGGAAATGTAGATATTCCGTTTACAAATCTAAGCACCGTTACCAAGAGTGGTAAGTTTCTGCAGGCAGTAGGACC
TTTCCAGAGGATTAGCAGSTGCTGTGTTCCCTGTGGGSTTGGCAGTGGGCTGGGGGCACAGCACGGATGGGATTGTAATGTATACCATTTATCTTGGTAT
AGAATCTTSCAGTTTCTTGTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACACAGTCTCGCTCTGTCGCCCGGGCTGGAGTACAGTGGCGTGATTTGGAC
TCACTGCAACCTCCGCCTCCGAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACCCACGCCATCATGCCCGGCTAATTT
CTGTATTTTTAGTAGAGACAGGGTTACACCATGTTGGCCAGGCTGGTTTCGAACTYCTGGCCTCAGCCATTCCACTCGCCTCTGCCTCCCACCGTKCTAG
AATTACAGGTGTGAGCCAACATCCCTGGCCAGAGTCTTCTAGTTTTTGAAGGTTTTTTTCTTTTCCCTCTTAGTTTTTCTTACCCTAAGATAGAGGGCTT
CTCCCTACCAGTTTTTCGTTTGTTTATTGTTTTCACCCTTTATTTTCTCTCACTACACAAGGTTCATTAGAATTTGAGAAATTGTAGCATCTCATATTAG
AACACTTTCAATTTCTATATTTGTAAAATGGGACTAATTGTATTTTCAGTACCTCAAATGAGAAATAGATCCAATCACAAACTCAGTATTCTTCAAACAT
TTTCTCTATCAGAATATGTACAAATTGAATGTCTAGAATTTATAAAGATTTTGGAGAATTTTACTACTTTCAGTATATAGAGTAGTGAAAATTTGGCAGA
AAGTCATGAGAAAAGAAGTTAAGTAAAAGTGGGTATTTCATCAGAGCGGAGAGCCACATTCCCCTTAGGAGGGTAGCTTTCTCAAAGTAGTCTTTTAGTG
CCAAAGGACAATGTTTTACCATCCTCTAAGATGTAGGGCATTCTGTGGGGAGCCAATGGGTAGAGCTGGGGCCCAAGGTTCAGGTGTTGCAGTCGAATCA
GTAAACTCCGGCGGCATCCAGGGATGTGCACGGTGCCGGGGCACATTSACAGAACCTACCTGCAGGTGGGCACGGCTTTGTAGAGAGGGTAGGCACAGCC
GCCGTGGGATGAAGCCTGCTCCCAGCACTGTTAGCGGTTGACAGTGTTGTCGGGGATCTGGGCAGCCATGTGGGCCAGGCCCCRGTTTGGCCAGCGCTGC
AGCTTCCTCTCTCTGATTCATCGAGTTCCCAGATCTGTTTCTTACAGAAGAAGAAACACCTGCTGCCGAAATACAGTTTGAAAAACCCTGATCTCAGAAA
TAGGATTCCTGATGACAGACCTTAGCAAATATTCCAATAATTATACCAACTGTACTAAAGATCCCAGTACTCGAGTAATTCACCATAAATGAGTGAAAAT
TATTCAACTGGATTAGAAATTGCCAGCCTTGGATCCTTTTCTCAGATATTTTGTTTTCCTGGGTATTTTCCCTCTTCTGGGTTCTTAGTGCCCGTCCCCC
GTAGCTCYGTCACACAGTCCTGTTGCTGCTRCCTTGGGGCCCAGGCGTGTCTTTTGTCCCCCAGTGCCTGGCACGGTGCCCTCCAGGAGTACTCCTGGGA
TTGGTGGCAGGTCATGCAGTCATTGCTCACCAGAGCCAGGACATGCCTGGGCTGCTGAGTGGGGCGTGCCCAACTCTTTCTGCTTTGAGTTTTCTTTTTC
CTCCAGTGGCAAGGTTTGCGTGGTCTTCACTCTTTTGCAGAAAATTGTTGGCATTGCATCATTGGCTTATGCTACTAAATAATGTTTTAAGGAATTGGAG
TTTTGCGAGGAGATGGTGACAAGCCTCACTCAGGTCTTTGGTTTCTGTCCTCCTTCCTGGGCAGGCCCTTTGCCCAAATGGTTGTTAAAGAAATGCAAAC
AGTTAGTTGTTCCGTTCATGCTGTTGCGTGAGATAAGTTAGGATGCTCTTGAAGAAGTTTAGTGACATTCAGAGGAAATCCTTCCAACACAATATACAAT
TAATTGCTGTAAAATATCGTGGTCAAAATCTCGGGGAGGCAGTGAAAAAAAAACGAAAGCAGTGACTAAAGGGCATCTCCAGGTGCCGCCTCTCACCTGG
TCCTGGATCATGGGGGAGGCACAGGCGACGCTCCGAGGCAGCCTGGCTTGTGTTAGCTGAGTTCTGCTTTGGCACAGGGGAGGGAGGACATGGCCCTCRG
CTGCCAAGGAGCATCCAGTCCTTTCCAAGGACTTTGGTTTTCCAGAGTTACACTTCACATGTATTTCTATTAAGATACACACTTATGTATGTTTCATATA
TTAGCAAGTGTATCTCATATCTTCTGAATACACACATTTAAACATGTTTTTGTGATTAAAATAACTTGTTTGTAAAAATACAGGAAACTGTAAGACAGCA
AGTAAAAATCACCTATAATCCCACCTCCTAGTAATAACACATATATAYACACACACATTTTTTTCTTTCTTTGTTTCTTTTTTTTTTTTGAGACGGAGTC
TCACTGTATCGCCCAGGCTGGAATGCAGTGGTGGGATCTCCGCCCACTGTAAGCTCCGCTCCCCGGGTTCATGCCATGCCATTCTCCTGCCTCAGCCTCC
CCAGTAGCTGGGACTACAGACGCACGCCACCCCACGCCTGGCTAATTTTTTTTGTATTTTTAGTAGAGACGGGTTTCACAGTGTTTGCCAGGATGGTCTC
GATCTCCTGACCTCATGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCTGGCCTCTTTCTTTTTGAGACAGAGTC
TCACTCTGTCACCCAGGCCGGAGTGCAGTGGTGCCATCTCGGCTCACTGCAACTGCCGCCTCCTAGGTTCAAGTGATTCTCAAGTGGGGGCTCCGGAGGG
TTCCTGCATTGCCCATGATGGATATTCACGCAATCATAAAATCTCCTAAAGTAGAAGATTTAAATAGAAGCTTAAACTGAAGGACAAGGCTTAGAACACT
CAGAATCATTTCAGACTTTTATTTAAACTGCTTAGAAAAGCTGGTGGATTTTGAGAAAAAAATTGCCTTTCATGGATTATCACAGTCAGTGCTAGGATAA
TTAAGCTCAAAGTGGCAGATTCCAATGCTTCAGGAATGTCTGAYCCCTGTACCGAGATGGTGTGGTRAGCAGGAAGATGGGGTCCCAAAAGATACTCAAG
TTCTAATCCCTGGAATTGACGAATATTATATTTTGTGTCCAAAATATAAAGGGTCTTTGCAGATGTGGTTAAGAATCTTGAATACMTTCTGATTGGGCCC
TGAAAGCAATTGCATGTATCCTTATAATAGGGAGGGAGAAGGGTCCACGTGGAGCAGAGGAGTTTGAAGATGCTGCCTGGATGTTGGGACTAACATGGCC
CAGGAGTGCKGCCGCCGCAGGTGCTGGGAGGCCCACAGATAACTGCTCACCTGTAGTCTCTGGGTCCGGCATGGCCCCCAGCACCTTGTCAGCCAAGTGA
TGGCGATTTTGGACTTTGGCGTCCAGAACTTTGAGAAAATTAAGTTTCTGTTGGGCCACTGGGTTCATGGGAACTTGTTAGAGCAGCTGCAGGAAGCTAA
GGCAGATGGTCAGAGGCAGGCCGCCTCCAGAGGGCTTCTGCTGGGGAGCACGGTCTCCAGGCTGCGCCATAGGTGCAGAAGGTTCAGGTGCACCTGAGGA
GCCTTGGGGCCACTCTGGGGCTCCCACCACACGTGGGCACAGCTGGGAGCAGGGCACCCCCAGGAACCCACGGACCTGCCACASGATGCAGCCAGGGTGA
CCTAAGGCATGTGGGCGTGCAAAGAYGACGGGCGTGGCTTTTCAACTGGAGACATGCCGGTCTCTGCCCTGTGGAACTGGTGGCCGTGTGTTCACGTGAC
TTGAGAGCTCCATCTGCCCTGTCTGGTCTTCCCCGAAGAGTGATCCCCRCCTGGAGAGGCTTAGAGCCCAGGAAGCTGAAGCGAGGAGAGGCTGTGTGAC
TCCGGCCGTTGTGGTGGGTGCTCATCTGCGTCAGTTACATCTTGTGCAGTCAGGGGCTCCCTCCTTCCTTCTTCCAACTCACTCCTTACCTCCCCCTCTT
CCCAGCACTCCTGTCTCTCCCCAGTGTTAGAAATGAGTTCTGAATTTCTCTTCAAAGAATCAGTATGTCGTTTTAACCTTACAATATTTCATATTTTAAT
CATTCATCCTTTTTACTTGTTTCGAGGCCTGTGACAAAAAATTCAGATGGAATTACATAACTGTTCTGTTTAGAAAATAGAAGTAAATGCAATGTTCCGG
AGCTGACATGTTTCTTGTTTCTTTTTTTTTTTCTTTTCTTATCTTTTTTTTTTTTTTGAGTTGGAGTCTCACTCTGTTGCCCAGGCTGGAACGCAGTGGT
GCGATCTTGGCTTACTGCAACCTCCGCCTCCGAGTTCAAGTGATTCTCTTGCCTCAGCCTCCCAAGTAGCTGAGATTACATTAATTAACCAGCCACCATG
CCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGATGTCGGCCAGGCTGGTCTCGAATCCTGACCTCAGGTGATCCGCCTGCGTCAGCCTCCCAAAGT
GCTGGGATTACGTGTGTGAGCCACCACACCCAACCCCAGATATTTCTTATAATCCYGCTAATGACAAGACAAGCAGAGCTGATGCTTTATGACAGACCAC
ACTGAGAAACTCTGATTTCTCTTGACGAACTTCCCTAAAGACAGCTGTTGACAAATAGCTCCTCACCAGCAGGCGCATGTATTCCAGCCCCATCAGATCT
CCATCTTAGCTGTTCCTCAGTCAGCTACCAAGAAGCCAGCACTTGTAGGTTATGGCTTGTGGATGGATAAACTCTGGGCTGGACCACAGAGTCCTCCCAT
TCATGGTGCTTCAGCATCTCACTTAGTCAGTTGACCCAGCTGTGAAATGGATCTGCCTTTTCTTGATTATCTTCTTCTGGGAATGCCTYTCATAGCTGAA
ATGTGTCTGTAGCTTGGGCCTAAGAAGGTGGGTGACACTGAACACAAGGCAGAGAGTTCATTGTCACAGGACTGAGCACAGCTGAGCGGCTGTGACCAGC
CTTCACATRGAACCAGCCGCGAGTAGACAGGCAGAGGCCGCCCTCGGAGCCTGGGATGCAAGCGGGTCTCTCTCTGACCTTCAGGAGGTCACTGAGTCCT
TGTGGGCCCTGCATTCTTTATGTGCCCAGTAAAGCTGTCGGGATGGCTCTGTTTGATTTTGTTGGGATATGGAGTGAAAAGCACCAAGCTGTCTGTAGCC
ACTTTTTCTCCCCTCTGTGTTTTGGAAGCAGATCAACTTACTATTGTTCCTGGTGGAGGGGGTCCAGGTTTTTGGCCTTTTGAGCAAAGAATTGAACAAA
ATGCACAAACAAAGCAAGGAAAGAATGAAGCAACAAAAGCAGAGATTTATTGAAAACAAAAGTACACTCCACAGGGTGGGAGCAGCCGGAGCATAGGGGC
TCAAGAACCCAGTAACAGAATTTTCTGGGGTTTAAATATCCTCTAGAGGTTTCCCATTGKCCATTTGGTGTACACCCCATGCAAATGAAGTCATGGCCCC
CAGTCAGTCTGATTTGTTGCAGAAAGCAACCAATCCAAGGTGGAAGTGAGGTTACAAAGGTTACACTTCTATGCAAATGAAGATTTGGCCTACGGTCAGT
CTGATTGGTTGTGGAAAGCAACCAATCAAAGGCTGAAGCAAAGTTACAAAGTTACACTCCTATGCAAATGTCTGATTGATTGGTTGCAGAAAGCAACCAG
GTGGAGGCACTTTCAGTTTTCCATCTGCCTTGCAGAAAAGGCAGGGAGGGGGTTGCAAAGGGAGCAGCCTCAGGTCCTTTTGTTACTTAGGTGTGGAAAG
TTGGGGTTTTCGTTCGATTTAGTTCTAGGAAGTCAGCGTGAATCGGCCTTAGGTTCCCTGCCCCCATACTCTGTTCTACTACCTCACTATAGATTCTGAT
CCTTTTAAATAATAGCGCCAGTTCATTCATTAGAAACAGTGGTTGGACCTGGGAATGGACTGGTGAGTCATGTCCTCTCCTATGGAAGTTTCCTGAGATG
GGGGCTGGTTTTCTTCGGAGAATCACAGTTTATCTTCTAATTARTTGAGTGCCCTTTGTTTTCCTTTACTGTCCTTGCACCAAAAAAAGAAAAAAATCTC
GAAAATATTGCCAACATTTATTGAAGAGACTTTTTTCTTCTTTTCTTGCTTGAGATATTTTACGTTTGAAGACAATCAACTCTTCATCTCACCTGCTGGT
CCATTCAGCCAACTTTTTTTCCCCCTCTAAGATTTTTAACAAAAATAAAACAGGACCAAGAGATAGCAATTACTACTACTATTATGACTACGATGAACAA
AAGTTAAATTTCTTAATCTCAGATTGTTTTACTGCCTTGCAATTAAATATCCAGATCTAGGAGAAAACTATTTGTAGAAGTCTTGAAAATTCAACTCATA
AATAAATGCCCTTATTCTTGATATTATAGACATTTCTTCTGTAAAGTATGGCACAYCTATAAACTAAAAATGCACATCTGGAAAATCCGTAAGGCAGAAA
TTCCAGCCTCCCCYATCCACAGCCATCAGAGGAGTCCCTCACACACCTGTCGCCAGCCCAGGGCTGGGAAGATAGAGGTGCTGCTGCAGAGGGAGTTCCA
TGACTCACCCCTGCTTCCAGTTTTTAAAAAGGGCTGAGTCTGTCGGGTTGAGTACTTCCCTTCCATCACGGCAGGCAGTCACTTTTCCCAAGTCAGCGTG
GACTTGGGCAAGACCAGTAGGCTAATGGGAAAATAAGATTCCAAACCTTTAAGTGTAGTAGCCTAAAAATTGCTGATAGGAAAGCGATCAAGGACTGAAA
ACTGTCGCATTTAAAATGGAAATGAAGCCAGGGCTCTGAAGTAGAGCTGGGCCTAAATGCAGTGATTAAAATAGTCGTTAGGCTGCTCGCAATTACCCTA
GATGCAGCAGGCTGCCTGCATCTTTATGGCGGTACTTTGATTCCAATCAGAGATTTCACATGAACTTATTTTGGTCTTTTCAATGAMGTCTCAGAGTAGA
AAACAGATGCAGTCCTAAAGTAATTACTAACCTTTTTATCTTGTGAAAGAGAATTCAGATGAGCGAGATCTCTGCGGTGGGTTGATCTGAGTGATTGGCG
CCTGCATTCACTCGCCCATTCATTCACCTCCTGTGCTTGTCACCAGGCTACAAAAACGAAGCCACCACCCCTCTCTGGTGCCARAATGTCAGTTTGGGGA
AAGCTGGAGCTCCCTTCTGAGAGCCAAATTTATTTTTTTTTATGGAAGAGATTCCCCTGTAAATTCTGGGAAAGTTTGAGAGAAAGCTCCAGGAGTAGTG
ACRAAGCAAAAGGACTGGGTGAACAGAAGGGGCATCGGAGATTGTCCTGTCTGCCTGCAGCCAGCTGGGGAACAGAGAAGGTGAGTGGGGACAGAGCCCA
CAGGTCCTGCAGGTGTCCAGGAACCAACCAGTGATGAGCAGTAACCAATTTGGGATTCCTGTCCCAGACTGTAGCACACTCTTTGGCACAGGATTTTGTC
ATGGGGTGTGTCACCCTCAACGAAAGGAGGTTTGCATCGGTATAGCCTGTGTTTGGTGCCCTGATGACTGAAAGAATTCCTGTGAGATCATTTTGTGCCA
GCCAAAAGTGAGTTGTATTAGCGGAAGCATAAAAAGCTGTCCTCTTAAATCATAGGTGTAATGACGTCCTTTCCAGGACGAGTTACCATAGAAAGCTTTT
TAAACAACATTTATTTTCCTACCTTCTGAACCTATTTCTTAAAGACAAAAAAGAAAAATAAATGTACTTTGCTCTGTTATTGTCAGCCTAGATTTCTCTG
TCTGCCAGGAGATAAAGCCTTAATAATTCACGGCCACTGAGAAGTGTCATAGTCCTTCCTCCCACCCCGCCCCGAGTTAAGTGTTAACCCCAGTACATAC
CTGGTCACGCTCTAATTTAGTAATGATGATACTTTGCTGTTATAAATTTTCTCTGGGGACTTGCGGGGATGGAAGAGCCTTTACTTTGTCTTAAATTCTA
TGTACGTGTAATTAATCAAAACATTGATTAATACCCCTGGAAGTATTTCAAAGATAGAAAAACATTGGAAACACATTTTAGGAATTTCTGAYATAAGTTT
TCAAGGAGGTTGTGCAGAATTGGTAAAGAGAATTGAGTATGAAGAYGGCCTGTTGATTCCTTTTAAGCGTTTAAGTTTTTCCGTGCCTGGGATTGCCTTA
TGTGCAACCGCCAGCTTCTGTCSTTTGAAGGTTTTCCTAAGATATTTTCCTAGTTTAATAGGAAGTGTGGACATGGGACATTGTACGGCTTAGGAGACTG
CGTTGTGTTTGGTTTTKAATATATATTAGATGCGTGACCCTCCCTCTTAAGAACTGATTTTGCTTTGAGAAGATCTACAAGGGCCAAAAGTGGACCTGTT
TCAAAATTCTGGTCACAGTGTCTAGGATGTGGTGAATTCTCCATCAGTGTGGCTTAATGAATGAGAGTGACAAGGGAGGAGGGTGGGGCTCCAAGGCCTC
GCAGGGGTGGTCAGGACTGGTGTTGCCTCCTCCCTCAGCCTCTCTCCCCCTACCTACTGCCCATTCGGAAGTCCAGGCCTCCTCCTCAGTCACTGAGACT
GCTTTGTCAGCCTCCYSCTTCTGTATCCAGGCAGATGACCCCACACTGAATCTTTGCTGTGCTGGCCTCTGCTCTTGCCTGTGACAGAGCTCAGATAGGA
TTCTTTCCTGTTCGAAAGCCTTTGATGCCTCCCTAGCACCTACCATAGTGGTTTCCAAACTTGTTTTTGGCTGTGAACCCCTCTTGTCGAGGGTCTCCTA
AGTTGAAGGCCAGTGTGTAAGGCAGTGGGCAGTGCAGGGCGCCAGTATTTCCGCCCTCTGAATGTGGCACCACCTGTCCCAGTGGGCGTCACTCGCTCAT
GAGCAGCTATTCCCAGAGAGCCTCCTGTGTTGCAGGTGCTATGCCCTGCAGGGAGCGGAGGGCCCTCCCCCTTCCCCTTGCACACCTTGTACTCCAGGCA
CTGCAAGCTCGCACCCTTTCCTTAGCCTCAAAGCCTTGCTCTGAGCGAAAACCTGCCCGTCCCTCAGGCATCGGCACCAACTCGGAGCCCCTTTTCCAAA
ATCTCGAGGCTCTCCTAGCCCTTTCTTGGCTGCAACCTCTCTGGCTTTTCCGCCAAACTGGAATCAGCCTCGGAGCAGGAAAAGCTGGGGCCGTGCTCAC
CTTTGCTTCCCTTTGCTGAGTACATGGTGAGTTCCCAGCACGTTTTATCATGTGAGCGTCTGCTCTTGAGAGGCCAGGCTGGATCCTGCAGAGAAACGAG
GAAGTATTAGACAGAAGTGATGCTGGGCGCGGTGGCTCATGCCTGTAATTCCAGCACTTTGAGAGGCCAAGGCGGGTGGATCACGAGGTCAGGAGATCGA
GACCATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGCGCCTGTAATCCCAGCTACTCGGGAGTCTGAGGCA
GGAGAATCACTTGAGCCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTTCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAA
AAGACAAAAGTGATTTCCTGAGCTGCTCCGAGCTGGAGACAGAACCAGCAGACATGGGACAGAAGAAGAATTACAGGTGTGAAGCGCCCGTGTGGGGCTG
ATTCCCACCTGCCTCCTCGTTATCAGCAGGCAGCCTTGCGTCTGCCTCTGGGAGCAGAAACCGTTGTTTCACCAGCAAATTACGCTGGCTGTACTCGCCA
TGTCCTGTTGCCATAGAGGACGAGTCACAGCTGTCTCACCTGCACCCCTCCAATCGCCTTCTCAGAATCCGACGCTGGTCCTAAGTGCCTTCAGCTGTCA
CCTGAGCACGTTCAAGCCTCCTGCCCAGCACCTTCCTAGAGCACCGCCATTGGCATAAGGACTAGGTAGGCAGATGTCCTGATAAAGGTGCACGCTCAAG
TGTTTGAGACGTTAACGAATGATGGCTGTGATGTAATTGACTCAGTTGACACATACAGAGATAGAACAAATATGGCAAAGGACTTGTATTTATTGGATAT
TAGTGGGTTTATGGGGTTTATCTGTTGTATGTTACATTTTCTGTACCTTTGAAATGTTTGTAGTGGTTGGAAGGAGGGGACTTCCTTGGCCCCTCCTGGC
TCTGCCCTGAGCCCGCTGCCCTCACCCTCTGCCTCAGACCTGGGCGATCTCATATCTGTGTGTTTCACCGAGGCACTCACATTTCTGGCCACTGAGACCC
TTTCTCTGAGCTTGAGACTTAAATATCAGCTGTGTCCTTGACATCACACCTGGGCCCCAGCTGGGTGGCCCCTCTGTCCCTGGCTCAGGTTAGACCCCTG
GGCCACTCTGACTCCCCTCCCTTCCTCCCTGTGGCTGCTTGAGCACCAGGTTGTATTGGTTCATGTACCTTGTACGACCCTTGCCATCAGAGCCCTGGCC
CCAGCCACCATCGCCCCGCCTGGGTTTCCTTCTGCACTTTCCACTTTGGGTATCCACCCATTTCCCCCAGTTCTTTGACCAGTGCAGCCAGCAGGGAATT
TTATTTCACGTCTAATCAGACAGCATCTCTTTAGTGTCTTTCTCAGACCACCACTGTGCTGTGGGTCCTGAGAGCCAGAAGGTTCTTCGAGGTTCTTAAG
AGTCCCTGTCCTCATGCTTCCTGCTCCGTGCTCTTCCTCCTGCCCCAGGCCCCTCACTCACTCGCTCCTTATCTGTGAGCATAGAGCTCCAGCTTCTGGC
TTCCCAGGGAGTGTTTCTTCCCCCTCTCCTCCCTAGTTCAGTTCTGAGGTCGGAATTCCCGGCTACCATGTGGCTCCCCTGACTGGAGACGCAGTGCCAG
GGTCCTCATCTGGGAAACTGGTGATGATAGAGGYCCTGCCAGTGCTTGGAGCAGGGCCCCACACAAGGTAGGACTCAGCATGGCCTGGAGATGACGGTGG
CCTCTGATGGCTGTGTTCTTGGTCTAGACTGTAAACCCCATGGGATCAGGAACAACCACATCTAGACCCTCATATTAGGGATGCCAGCCCGGGCACCACA
TCTTTGTCACCTGCATCTCTRTGGCCTCTCCAGCCCCGTGGCAGTCCTCACTGCAGGAGGCTGGCACCCTCTCTGTGCCTCACATGGATCAACTGACTTC
CCTCACCAACCCCAAGAAGCATATCCTGTGTGTATGTTTTACAGATAAGGAAACTGAGCCACAAAAGGGCCAGGTAACTTGGTAAAGATCATGCAGGTCA
TAAATTGCCTCACTGAGCTGGGAACCCAGGCAGTCAGCTTCGGCGCTCCCCACCYCTGTTAGGCAACCTATGAACATTTACCAAGAACACAGACTCATCT
GCAAGGAAGCCTCAGTAACTTGATGAGGAGCAGCTAGAAGACTCGAGGGAGAAAAATCCTTGTAGACACATCAGTGGATTCAGGTGACTTGTGTTATTTT
TAAAATACAGCCTCGCCAAGATACAATTCACACAGTCTCCAACCTAACGATTTAGCTCTGCTTTTAAGACTGTGTTGGGTTTGACTTTTTTTGAGGGGCC
TCGGCCACTCTTGGGTTGTTTGTAATCTAAAAATAATTGGGGATGAATATTGGTTACATTTCATCCCGTAGGACCTTAGTCTGTCTGGTCACCACTTACC
CCTCCAGGCTCTTCGAATGCCATATTTGGCTATGTGAGAATTTGTCAGAGCTCAGCTCAGCACTCAGAACCCGCTGGCTCTCCGGGTTCTGCCCTTCAGC
TCTGCGAGTCCAGAGCCCAAGCTGCTCCTTGGAAAAGCGGAGGCCACTAGATGGCAGTACCGCCCTGGCTAGAGGTGCCCTTGGGGCTGAGGCTCAGACA
TCCCTGCCCCTGGTTTCCTTCAGGTGAGATCATCAGTAACCTACAGGCTTTGCAGACTGAAGGTGAAAACCAGTTAATGTGCTACATCCATTTTAATTTG
AAAGATACAATGAATTAAATTAGGCATAAAGTGAATGTGATAGGAAACTGGAAGCTCATGGCTGAAGCCTGGACCGCTGTCAGAACTGTGCAGCCTAAAG
CCGGGACCCCTGGTAGCTGCTTTGTAAAGGGCAGCAGCAGCAAAATCCTCACCACTCGTGCTTGGAATGTACGCTGCAAAGTTTGTACTTAACAGCAAAT
GGCATAAATAGCCTCTATTCCATTAAAGAATTGGACTGCACAATCTCCTTAGAGAAAATTTGATGAAGCGGTTCATGCAAGACCTGGAGTGATGGTATCA
CCACGTTAGCCTAAAAGAGTGTTTGAAATAGGAGGTGACATTCCTGGGGGGGGCTGCCCCTCCCACCTCCACCCCTACCTCCTGTTTTCACCATTTCTTG
ATACAGTGGTGCCTAATTTTATTTCAAGAAGAAGATAGTTTGTTGCTTTTTTTCTTTTTTTACAGCTTTAAAAAATAAGTTGAGGAATTTAGGTTTAAGA
AAATTAATAGCTACAGGTAACTGCAAAAGATATCATTGGCAGATGCAGCAAAATATATATATATGTATTTCCACAGAAAATTGGATTCTGCCCATAAAAC
TTAGTAATACTAATAAAGACAGGTCATTACCAGTTTTAAGCCAARTAAGCAAACTCAAAGAGATCTTCTGTCAGTGTGATTCKTGGTGGTTTTTTATTTT
TTTGGAGAAGTGTAAATCAGCTTTAGTGCAGCAAGCACACCACAGATTTGCTGAAATCATTCCTGCCCCTTCTGACGGTGGGTAGAGTTGCTCGGCCAAG
TAATTTACAGTGCTGTGGCAAGGTATGTTTATATTTAAGCTGTGCAACGGTGTAGCTAATGAGAAAGATAAGAAATTTATAGTCCTTGGTGATTGATAGG
ATTACTGCCTAGGCATTAATTGAAATCTGAGGGATCACAGCTGTGGGTTTAAGTTGGGGGAAAAATTACTTCAAGTAAAGGAAAACTTTTAGATTTGCTT
CTGAACATTTTGAAGATAGTTCTCCCGCTGACAGTCTGGTTGGTGGTAGAAACAGTTGATCCTGGCCGAGGCTGGGGTAATTATACTGAGATAATGATGG
TATCTGCTGTGTAGCCTCTTCAAGGTAGGTGGTTTATAAGTGTGGGAAAAAAAATTAAATACTRTGGGGTTTTTAAATGGCTTTAAAATTTTACATGTAT
AAGAATAAAATTCTCTGCAGCCACTCTTTGCTAAATATTSTCTGGACAATKATTTAAGACATTTTAAAAAAAGAAACCCAAACTAATAATGACAGAGGCA
AACCTGTGATATTAGTCATTGCCTTAAAATTTCCACTGATTATATTTAATCTGGGTATGTCTAAAGTAATCTTACAGACCTTTCCCTACCTGTCATTTTT
TAAATGTACCATTCTTGTTGAAGCTCAGTCTTGTGAAAATGTCTAAATTTTCCCATTAAGTGCTTAAAAAGTAATAAAACTAAAGTCATTAGACTTCACT
CATCAGAGCTATATTGGGAGAAATATTCTTTGGTGCAATAAATCTGTCCAGGGGTTCGACATTCATATCCCTTGGATTCATTCCCTGGAAATGGACGTTT
GAAGGTAAATTGCTTAAGTAGGGCAGTTTAAATTTTTAATACAATCTTATTGTAACTGTTATCACATGATTAAAGTGCAAAGGGGCCTTAGATGTTTTGT
AAGATTTATAATAAATGCTCTATGATGCCTTTTCTGTGCTGAATTATGGATGTTATGACAGTTAAATGCTTATAAAGGCCAGAAAGGCACAAATGAAGAG
TTGGGTCTTTATTGGAGACTAAATCACACTTATTGAATGCAGACAGTTTTTCACTGGACACGTGTTCATTCCTAGATTCACAGTCTCGGAGGCACCTAGA
AGCCTTCGTAAGCCAAACAGTATCCAGTGCCTCTCTTTTCTAATGCAGTGGGCTCTGGAAGGGTAAGGCCTGAGCCAATGGAAGCTGTTTTGAAAAATAC
CCAAATAGCAAATTATTGTTCCCATCACCAGTTGGCTTTTTTGGGGGGAGGAGGGACTTTTTTTTTTATGTAAATAATCTCATCAGAGGCCTGATTCTCT
AATGGATGCCGCTAGTGTATACGGAGTTTCCGCATTCCTTTTGTAGAATCAAGGAAGCTTGAAGCTACGTCTTCATGCATCATGGGAGCTGTGATGCCCT
TTAACTTTCTAGACCCAGTGACACAATGTGGTTCCTTTCATGTTCACTGTTTGGCCATAGTTGATTGGAATTGTTGTTTTAAGGCCTAGTTTAACTGGAC
AGCAGGACTAACTCTTCATTTCAGAAGGAAGGCCTGCAGCCCAGGAGATGGAGCTGGGCAGGTGCCCTCCTCACGAGAGGCTACAGGCCAGACGCAGGGC
ACCAAGAGCATGGCATTTGATTCAAAGCCATGGTTGAGTGGATTTTCAATCTATTTGAAGGATAACTTTGGCTACTATATAGTATTTACACTCCTGCCCA
TTTTTTTTTTTTGTATTTTTTCCATCAAAAGAGAAATCTGTTTTGAAAACAGAGGTAATGTCTTTACCATCTTTCTCATGTATATTATTTTTTGGAGGAA
GGAAATAGCCAGTTTTCTATACTTTGACAATGTCACCATTTGCCATCTAAAATTTCACAAGCTGTAATTTGCCTTTTACTTACATATCTCATCCACAGAT
GTATTTGAGTGTCCACAGTGAAATGGTTGCATTACTTTCAGATTACTTCCTTTAATTCTTTAGATGGGTGCTAATGGTTTGGGTTATTAACTGGCACAGA
TCTGAGTTCTTTTTGTCTATGCTTGTTGTTTTTTTCCCCCTTCAAAATGAATTTGCAAAAGCATCACTAGAAAAGCTTATGTGTAAACATTTATGCTAGT
AATAGATAAAAGGTGCTGTGTAGCAGTACCAGTGGGAGAACGCTGAAGCCCAGAAGGAAAGTCTACCTTCTTTGGAATAACTGAATAGGAGTCCCAGTCA
CCTATTCCCACTTTCTCTTTAACTATCACCCTTGGATGGTATTGAGGAAACCGTATTGCATGCCTAATTTTCACAGCGTTCAGTATTAAGGTAAACCTAC
TGATTGTGTTTAAGTTGAAGTATACCTTTTCCAAGTAGCTGTGTAACTGGCAGTGACAGAATAGGTGTTGTATGGGAGGCAGCATTTTCAGCTGTAAGTG
CAATAAATTGTGGTTTGTTTATTTTAGTTTTTAACCTTTTAGACTACTTTGTGATCGGCAGGAGATTGTGTGTGTGTGTGTGTGTGTGTGTGTGTSTAGG
TTGCAGAGTGAGGATCTGGTCAGTGATTGACACTTGTTTTCAAAGTGTTCACCATGAATTTTTTTTCTTAAATACCATTTTTCTCAGTGAGCTTTGAACC
ATGATGTCACCAAAGACAAAGTGTTTCTCAGGCTTTTCTTAGTGAAAGATACTTTCCWAAGGTAGTTTATAGCAAGATTTGGGGATTAAAAAAAAGAGTT
GAATTTATGGCCTGAAGAGTCATTATAACCTTTTACCTATAGCTAACATTTACATACCTCAGGTCAAATAAATTTAGATGTRTGCTTAATGTTCTAAAAG
CTCTTTGTTCCTTGCTCATCCTTGGCCGGACCAGAGAAGTTATTGATAATCAGGTGTTGCTTTCTTTGTGGTAGGACATCACCATGTTCTCATAGAGTCC
TGTTAGGAAGCAGAGGACGGACTGCTGTGTGTCACTGTGGAGAGAAAAAGACCTTGTGACGTCCCTGTCATCACAGGATTCTAGTATCTTGTTATGCCAG
AGATGTGGTTTGAAAACTTGTTTTTATGGACGTACCCRCAAAACATTATGCTCTGTGGAAAGAGGCACGCACAGAAAAGAATGATTCCATTTATATGAAG
TTCTACAACGGGCAAACTGATTGGTGATGAAAGAAATCGGAAGAATGGTTGCCAGGAAGTGAGAAGGAGGGATTGGTTGGGGTTGGGGGTGGCCCAGAGG
AACTCCTCAGGGGGATATTTTCATCGTGGCTTGGGTTACACGGCATCTGTCAACATTCATGGACCGGTACAACTAAGATGTTTTGCATTTCACAGTATGT
ACATTTAATCTCAAAAAAAGAACCTAATAGTTAATCACGTGCATGTTGAAATGTGTGGGAGTGAACTGATGCCTGCACCGTAGTTGAATTGCATCAGAAA
ATGAAATGGACGGACGGACGGACGGATGGACGGACGGATGGATGGGTGGATAGATATATAATAAAGCAAGTATGTAGCAACATGTTACAATTATAAAATG
TAGCCGGAGTGGAAGGAGGTGTTCGCTTTCAAATTTTTTTTGTATGCTTAAAAAATGTGTTAATAAAATATAGGGGGAAATCAAAAAAATTGTTACTACA
TTAAAAATGTCATTGTAGGTCTCGTACATTAAGATGGGTCCAGATAAACCTAATTTAATGTGATGTGCTTTCTCACAAGTAGAAGTGTACAGTATAATGA
GGAGCCACAATTTTTACAAAAATGAATCCTGCCAGAATTAAAAGGCATACATGATTCTTTGAAGAATTTCACTAATGCATAGAAACTGCGGTAACAGAAA
AGAATACTTTGACTTCCTCACTATTCCTAAATCACAGCAGATTACAGATTCAAAATCAATCAGTATTCTCTGCTGAACTCTAATTAACACTTAACATTAT
TAGTCACAAATGTGAAATCTTGATCGGAGATGGCCTCAGGTATTCTAAATGTAAATAAAATTAGGTTTAGATCCCTTTTAATTACCTGAGGTGCTGTGAG
CGATTACAATGGCAATTGATAAACTTAATTTCTTATTAAAGCAAAAAAAAAAAAAAAAAACCATGAAAAGTTTCTCTCTGCTATATACTTAACTCTTCAG
TAGCCATGGCCTATGCAAAAAAAATTTACCTGGTTTATATGTTAATCATATAGAATTTAGATCGTTTTAAAAATGTTTATGTGGACCCTCAAATTCATCA
TGCATCTCCTAAGTTTGTGGGTAATGTTACTATAACATCACAAAGGGCAAAACTTCCCCAGAGGAACTTCACGTATCAGAAAAGGTAGGTTTCTGGGAGG
TAATGCTGGTTAAGTAATAATAATGGATGGGTGCTGGGGAGAGTATTACAATGACTTAATGCACAAAGCCCTGTTGAAGACCAAGTGGAAATCTGTTTTG
TCATCTCATCCTTCTTCCTAATTGCATCACAATACATTGTATAATTCAACCTGTGTGTCACTGTCACTTCTTCCCGTGCACAGGGCCACCGCTGCTGGCT
CATTATTAACAGAGCAGGGAGGAGACGAATAATTCTCTCAGGTTCCAACCAAGACATCTTCTCTCCCCCACTTTAAGAAGAAAATGTCTTTTTTATGTAG
ATTGTTGTAAGGATAATTATTTCTGGAAATAGGAAAACAGCTTCAGTTGTGGTAGATACATCCATTTTTCTTAAAAGTGAGAAGCTATCCGAAGGAGAGT
GTGCCTGTGAGAAATGGAAAGATTACAGAAGTTTCTAAACTCCTTCTTCTGTTGGTGTTCATATCTAAAAATAGGAAGCAAATTAGACCTGATAAGTTGT
TAAGCCTATATTAATCAAACTGTGTTAATTTTTTAAAAAGAAAACCAATTATTGCACTTAACTGGATCTGTCTCAAGGTTCCTGATTTCAAAATCGACTT
TTGGCCTTTACGTCTTACATTTTCCCTTCTTTAGAACTCTTGCGTCTCCTGTTCCTCATTTATCTTGATCTTCTCATCTTTTTTTCTTTATAATTTTGTG
TAGTTTCTTACCTGGAATAATTTAGCATAATCTATTTTTCTTTAAAATTTTGTATAGTTTCTTTAGCTGGAATAATTTAGCATAATCCATTTTTCTTTAA
AATTTTGTGTAGTTTCTTTAGCTGGAATAATTTGGCATAATCAGTCTGGCACGCTATCATGTTGTTGGTGGTACCTTTTTCTCTTTGTATGTTTTAAAAT
CCTTTGCCAGTCACTTTTTCTGTATTCTGTCTTCATAGTTTATCGTATTCCTTTGATACCACCATGTTTATCTGCACTTATCTTAGGTCTTTCTTTCATT
CCACTGACAAATTGTGTTAGTTTACTTTGTAACCCCAAATTTGGGCCTTTTAAAAAAAACGTGGATGGAAGAGGGAAGTCCCGTAGCTTTGCCTGGCGTG
GAAGAGTGTTGAGGAGCCTCACGTGCAGATTGAAGAATTGCCGGGTGAGCCTTCACCTTCAGGGGRTGGCAGAAACATTTCTGCTCCAGGATCATCAACT
TTCTCTGCGAGACAGCTTGATGAGTTGAGAAGAAGTGACAGGTTCATCTTTCCCTTCTTTGTTTAAGTCATTTATCTTTGAGATCCTTGCCTGCCATCTA
AATTGTATTGCCAATTTACTGGGATATTCACTTGCCTCGTCTTGGAAGACGCTGATTTGCATCCAGCTTGAGAATAAGTGAGAGAGAAAGTTAATCATCT
CCTGGCCTTTTGAACAGATTTGTACTGTGTTTAATTGTAGCATTTGAAATGTTACATATTTTCTAATGAGAGTCTATATTCAACTCTTGTGTTAACCTGT
ATCATGAGGAGAATAGCACAGTGACCTAGTCTAGAAAGCTCTGCTCTTCGGAAGATCTTTAATTTATGCTTTTTGCATATCTTTCTCCATTTCAGATTAA
TCTAAGCTATGTTAGCTGCTTTTAAATTCTGCCTACTTGTTTTTGATGATGATTTATTCAATTAAGTGGAATAATTAATAATGAATTATAGTTGGGCATG
GAGGGAAATGGTACACTCAGCTCTCTAAGAGATTCTGAAATTTTTATCGAGATTGTTGTAGGGGTAATTATTTTTGGAAATAGGAAAACAGCTTCAGTTG
TAATAAGTCCATTTTTCTGGAAAATGAAAAGCTATCTGAAGGAGAATGTGCCTGTGACAAGATCTCGTCTAGTTTCTTGTGCCCTGTGACGAGAAGAGCA
CAGCTCTCTTACTCTGAGCAGGTGAGGTCTTGAAGAAGCACCTCATTAATAAGGTCCTGAAGAATAAGTTCATTTGTTTATAGGGTTCAGGAGACCCCTA
GAGTTCCAGTGAGAAAGCGTGAGCTCCGTCCATTGGTCCTCCTGGCCCTGCCACTCTCTTCCCCGCTTGTTCTGGCTCCCGTATTCTTGACACCTTTTCC
CAGCATATGCTAGTTTTGTTTCCATCAGGCTTCCTTGAGGGAGCTGTCGCCCCCCAAATCAGGGTCTTGACACCAGCTCCTGCCACTCTGACACATACTT
AGGCAGTGCTCAGAGTCGAGCTGGCCTGGGGCCGTGGCCCCACAGGCTTGTGATCAGTGGGCTCCGGTTCTCACTTCTTGTCTTTGAGTTCTCAGGCTTC
TCCCCTCTCCTGTTGTAAGAGTTGAGCTAGCAGGGKCCGCCTCTACCCTTGGCTGCTGCTTCCAAACCATGTGGGTTTCCTATGTCATGAAAGCTTTTCT
TCATCACGTGCTAATGACTTCCTGTTCCACAGGCGTAACACTTTCTAATGTTTCATTCATCTATCTGAGTTTTTCCTGCTTTAAGTGCCTCTTCTATGTC
TGTGCAACATTCATTAATTTCTCAGTATTTCCCCCTTGCAGATTATTCCTTCTTTGTCTGCATCATAGACACACGCCTCTCTTTATAGCACTTTCTATAT
CCCACATGCTGCCACTTATCTAACACATTGGGAGAGAAAGGTGCAGACAAGGTGTGCAGGAGGTGGATGTGATGTTGTGGTTGGTTGGTTGACATTTTCT
AGATGATGCAGCTGGCAGATTTGTCTGGATTTCACAATCTCCCACATCTAGCAAATTGCCTGGCATATACTAGTTGCTCAATAAAAACAGTCAGTAAATG
GGATGAGTGAGGGATGCTATAAAGCATAGTAAAGAAACCTTCCTTGACACATTAAAGGGAAAAGCAGCCAACTCCACATATTAAAGAATGGGCAGCAACT
TGCTTGGTTTCTGTGAGGACTTGCTTAATTCTGCATTGACCAAGAGCAAGCTGAAGAGCATTCTGGGATCAAGAAGATGACCAAGTACATTGTGGGACCA
AGAGCAAGATCAAGAGCGTTCTAGACCATGAGCATTCTGGGACCAAGAGCCATGACCATGAGCATTCCGGGACCAAGAGCAAGCAAGGCCAAGAGCATTG
TAAGACCAAGAGCATGACCATGAACATTCTGGGACCAAGAGTTTGACCAAGTATTATACATTCTGGGACCTTCCTAGGCCATTGGCATCAACGCTGCAGC
CTCTGAGTCATGCATGCCTCATGGGGTCATCCTGACTTAACCTGATGGGTAGGACTTACTTGAGTAGGGCAGGAGGTTTTGAAAGGACATGATCATACAC
AGTACTTAGCTCAAGTGCACAGAGAAGCAGAGTGCCATACTGGGACCCTACGGTACAGCCAGCCGGAGACACAGGGTTCCAGACACAGCTTAATTCCTTC
ACGCTGGAGTATGACTTGGATGTACAAACTCCTAATCCCTAAGGATAGGAAAAGACCTAGAAGATTTGAGGATTTTAATTCAGGAAAGTCCACCAAAAGG
ATAAACMGCTAGGAGCCCACTAGTAAGCCAGGATGGTGTGGTGCGGATCTTGGATGAGGTTAGCTGAGTTTGAAAACTGGAGAAGGCATGGATGAGAGCA
ATGCTGAGGGAAGGTGAGGCAGGGTGGGGAGAGGAGTGGGAGGGTAGGTGAGGCGGGGTGAGGAGAGGATTGGGAGGCAAGGTGGGGCGAGGAGAAGAGC
GGGAGGGTAGGTGAGGCCGGGCAAGGAGAGGAGTGGGAGGGTCCATCGGTGTCGTCAGTGCACATCCCGGTGCTTGGAACTGACTGGTGGGCGTCCTGTT
GGTGCATGGGGCAGACTGAAGCCTGAGACATGACCCCCGAGGGTTCTCCAGACAGGATCATTTGGAGCCCCTTCTTTCCCAAATGGTGGGGAGAAGTGCT
GGCGGAAGCAGAATGGAGCCCTCAGAAGCGCGCATTCAGACCGGCAGTAGACAAAACCAGCTGCGGGGCCACACCACGTTAGGGTGCTTTTCGGCATCTC
TCAGTGGGGTGAACGTTTGCATGTTGGTGCTTCTGAACACAGGATCCCTGGTCCTCCTGAGGCCTGGAGCCTGGCAGTTGGTCAGCTCCCTGGCCCCTGC
TGCCCTCTAGCCCAGGGTGACTATGGGAACAGACATTCCTGATTTTTGGCAGCTCGACTTTGGGATTAAATGTTAAGGAACTATTGTGCTTTGAAGGAGT
GCATGGAAGAGGAAGGGATGTGTGTTTCCTGCAGCGTGATTTGAAGTCCCCTTTACCACAAATAACTACTTTATACCAGAATTGGATACACATATTAAAA
ATGTCAAATACACCATATTTGTTTCAGCACAGGGTTTTTGTTTTTGTTTTTAATTATGTTCTTTCCCCTTTTCTCTGAAAGGAAAAGGGAAATCCCGCTG
CCCTAGACATGGTAGAAATTTCCCCTSATTCTAAAATTCTGAAATTAAYGTCAGCAGCCTTGACTTTGCTCTGTCCTGAAGGTAACTGTTTATTACAGTC
GGCATTTAAATCCCCCGATTAATAGGAGCAATTAAACAATAGCTTCATTTCCAGCAAATTAACAACCCTAATAGGTAATTGCGACATAAATGAAGATAAA
TTTGTTTTAATACAACGAGATAAAAAGAATACAGACAAGAACTGAATTTCAGATTAAGAATTCAGACTTCAGTACTTCAGGAAAAACTTAAAAGCTTCAC
TAGAAGAAATTWAAGCAAGCTTGGCTTTTTAACCACAGCCTATTTTAGATTAGAGGGTTGTTTGCTCAAAAAAAAAATACATATATATAGTCATATTTTG
TGCTTCGATACTCAGAAGGTAAGGCATCAAAGGATTACTTTGATATACGCAAGGTAAGTCAACAAAGGATTACCACCCACCGAACCCTTTCTCCTGCTGG
CTTGCTTGGGGCATGGCATGTCCTAATGACTTACTCGAGCAGTTGAATCTTGGCCACAGCTTCTCATTAGGCTTTCAGTGACAAGGAACCAAAAAGCAAA
TGCATAGAAGAGCATTTCCTATTTACACACCCCTAAGTTAAATTTATGACCTGTTTAGTTGCAGGATGTCTTACCTTCCTTGTTAGTATTTGTTCTGATT
GGAAAATTACTCTGATGGTTTAGAATTTGTCCTGTTGAAATGTGGAAGTAGCTGGACCAGACTTGTTCATAAATGCAGCATCCATGTGAAGGATGGGTGG
GAATCGGTAGATTTGGGGTGAATAGCTAAGTGCTGATTTTAAAGGTAGTGGCAAAAAAAATGATGAAAGCCTCTTCTAGAACAAGGATAATGAATTTCTC
CTTGTGGGGTCGCCGTGCTTATGGGAAGATGGAACGTACATTAAAGAAATTTTCGGAGTTTAGCTAAAACTGTATCACTGAGCTTGTATCACCTTATCAG
AACTCATTTTGGTAGCTTAGAATCATCAGATGACACATAATTAGCCTAGAATTCTGTGTGCTGCCAAAATACTAATCCAGTAAAAGGGTAGAGGGACAGT
TTTAGATATGGGAGTCTCAAAACAAAATATATGTGTGCTTCTCGGGAAACCGCTGGAACCAGGCTGCTGAGTTCAGCCCCTGAGGCTCTTTCCCAGCCCC
TCCGCTCCCCACACCCCTGCACACTCCCTTTCTTGAGTGTCCAGGTAGAAATGACCTGTATCTTCTAACCACCCCAGGTATCTTTCCAAAGCATAGATCT
CTTCACTTCTCTATTCAATTTGAATAACCCCCCATTGCCTTAAGGAYAACTTCACACTTGCCACTCTTCTCTGCATATCAGGTCCTTAGAAATGCATTTC
TAGTTGCCTGTTTCAGCATCTTCTCCCACTACCTTCTTATAACCTTCCCACCCCAGCCCCACTGTTGACTCATCCATTCATTCATCCAGTTGKTGTGTGC
CCACTGRGTGTCAGGCAGGCCCTGGCCCCGGGAAGTTAAATACAGCATGGCCTCAAGCATTTCCAGAAGAGGTCCCAGCTCGGTGGAATTGGCCCATTGT
CTTGGAACATGGGCTGACTGTACTCTTTAGTAGACGGCACAGTTTGGCAGGATCTCCGCAGGTGTGTAAGTGCCAGGCTATGCCATGGGTCCCATGGTTC
ACTGATTGTCATTAAGGAACATACTGTAGCCAGAAAACCCAAGAGACCATCATGGATGTGTGTGCTTCCTCACATGGCTATGATTTGACTTAGCTTTTCT
TTATCGCTGAAAACACAGATCATATGAAAACACATTTAGGAGATGGGCTTGAATTATCAACAATATAGAGTACACCTTCTTTAACATTTAACTTTGAGAT
TTTCATGGTGAGAAAAATTCTACATATTTCTTTTCACTCCGAAGTCACACATTCTGAACTATATAGATAATTTGGTAATTAATTTCTTCTTAATAAGATA
GTTTAATGATCACTTTACTGTGATTTAAAATGGAGTTGAGACGTTAGGGGATCTTTTATTTGTTACTGGAAGATTACAGCCGGTAGTGGCTTTCATTATT
TATGGGAGGGTCTCCAGGTAAGCCCCCTATGGTTCGAATGGAAGATTCTTTCTTTTTCTTTTCTTTTCTTTTTTTTGTAGGGGCGGGGGATGGATTAGGG
ACAAACTGTCCCTGATATGCTGATATGCCCTGTCCAAACTCCTGACGCACAGAATCGTGATAAACAATAAGATGGCACGTTGATTTGATTTGATTTTTTT
TTTGAGACGGATTCTTGCTCTTTGGCCAGACTGGAGTACAGTGGCATGATCTTGGCTCACGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCT
CCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGCACACGCCACAATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAAGGTTTCACCATGTTGACC
AGGCTGGTCCAAACTCCTGACCTCAGGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCAGCTCACCCAGCCGGGAAGAGCC
TTTCAATGAAATGTGAAGTAAGTGTCACCTTTGGGTGGAGACACCAAAGACAGAGACAAGACATGCAGTGCCCTCAGCTGCATAAATTTTGCTTTTAAAA
TATTTTYGTGGAGTAAAATTAGTGTTTAGTCTCATGTGAATTTCATCAGTGTGTCTATGGTGAGCATTTAAAATACGGTTTTATTGGAGGTGTGGTTCGT
ACTTTATAATCCCTACCTAACAGTGCTTACTCGGAATTGCTCCCCCGCCTCCCAAGTTACTGGCCTCACTGTGCTCCAGCTTTCCCAGTAGCAGAGGAAC
CCTCTTCCCAAACGTGGGCTYGATTTACACCGAGTCATTAGTTGTCATCTAATGGTGGCTCTTCAGTGTCACTGCAATCTATACGCTTTCTCTGTGTCTT
CCTTAGTTCTCTGCCCCCACTTTTCCCCACCCTTCACGTGTCATCTGGTCCCCCACAAAGCTTTTGCATGGGGTTCATCTGCCTATTCCAGGAGAGACTA
TGGTCCTTATCCAGTAGTACTAATGTGSGGAAATACCAGGAGTGGACAAGCCACCTTCCCCAAACATGAAAGAGCCCAGTTTTGCTAAGGAGCTGTTGAA
AAACTGGAAATAGAACAGCGCYGTGGTAAGATTTGCCTTTGAGGTCGCCCTGTGGTGTGTTAGGGGCATTTAGGGGACAGTCAGGGAGACTCATTTGGAA
GTTGCTTTGGTCACCAGCTGTGGAAGGATAAGTCTTAGACCAAGGCAGTGGCAGTGAAGACGAATTTCTGAGAAACTCTGGTGGTTGAACCAATCATCTG
TTAGGTCTGTTCTGTCCATGGTGAAGAGCGGGTTGTGCCATCGACTGAGCTAGAAAACAGACGAGAGGCAGGTCTGAGAGAGGCTAGGAGGCCCAGGCTG
GGCGGCGCGGACTTGAAGGCGCCTCTAGCAGATCCAAGGGGAGATGCCGAGTTGGTCATTGGCTACACAACTCTAGAAGGCAGGATGTGAGGCAGAGCTC
TTCGTGGCAGTGGCGATCCTGGGAGCTCCTGGCACTGAGGTGGTGACCGAGACATTCGCGAGGAGGTTGCCCAGGCAGAGGGCATGGGAAAAAGGACACC
AGGAGGATGCCAGGGAAGCACCCGCACTTCAGGAGCCAGCAAGGGAGGATGAGAAAGAGAAGTTCCAGCCGGAGGAGGAAAACCAGGGACGTCAGGGTTC
ATGGAAGCCCGAGGAGGATGCAGAAGAGGAAAGGAGGGAATGACGAGGAACGCCACATGCTGCTCAGAGGTCCAGGAAGGTGCGACCTAGCCTCTGGACC
ACTCCCAGTGACCATGGCAATGGCAGGCCCAGCCTAGGGATTGCAGAGAGCAGGAGAGGCAGAGTCGAGCAGCATCCCCGGGCTTTCCAGAAGGCCTGGC
TGGGAATGGGGCGTGGCACACGGTGTAATCCGGGCAGCCTTGGCGAGCACCTCCTGTGTGCCAGTCACCACACTCAGTCCTTTTCAGCATTTTGTTTAGT
TACCCAATCCATTTCATTTAGTCACCCAAGTAGAAGTTAGAAATTGATGACAAACTGAGGGTGCAGGGCAAAAGAACACATGATTCGTGCTGTGGAACCA
GGACAGTCTGTTGGGGTGCTGGCAGGGTGTTCGATTGCCACATGGTGGTGTCATGAGCAGTCCCAGAGCCGTCGGATTGCTCTGGTGCACTTGCTGCCTG
GTTTTTCTCACCTGCAAAATGAAAGAGCTGACAGGATGAAATGAGTTAATAGATGGGAAGYGTGGGCCGCCTAGCCCTGCTCAGCCTTTGAGCAGCAAAA
AGGAGGAAGGGGGAGGAGGAGGAGCTGTCCTCTGGTTATAGAGGGCGTGAGGTTGGCCCGGAGGCTCCTAGTGTGACCAAGGGCTATTCCTTGCCTCATT
TTGTGTGATTTAGAAACAAGATGGAAGTAGAAATTGGGCATTATGTCAGGATTTAATGAAGTCTTGTTTGGGAGCTGTTGTCTTATTTTTAACCACTAAT
TAAAGGGTGCTATTTCCCTCTATAGAATAGAACATTTACAGTTTGTGGATAAAGTAAATGTATACCTCACTTTTTTTGTTAAGTTCTTAAACTTTTTTTT
TATTATTGAAGAATGGAAACATACATGAAAGTGTATTTGGGCTTAAAAAGTTGTCACAAAATTATCCTCAGGTCAAGGAGGGCCTATTTCTAGACCCCAG
AAACCCCTGTGTCCTGTCCCAGGCACCTGCCTGCTCTGCTCCCTGAAGATGGGCACAATTCTCCCTTCTGACCCCATGGTGAGGCCAGCTTGGTTTTCAC
CTTTATACAATGTACACACACACACGCACACTTGCACAGTTGAAGGGGCTAGTTAGAGGTATCTTTTATCTGTTAACCCAAATAAAATTTTAAAATTATA
GAGGAAGTGACTTTTAAAAGAACACTGAGCATTACTCTTGGGAGTCTCAGGAGGGTAATTAAATTGGTAGTGTCAGTAGTAAGCGCAAATGTTTTCAGTA
CCCGTTGACACCGTTTTAGATTTGGGAGTAGCTCATGTGACAGAGTCATAGGGAAGTGTGCTGCCCAATTTGAGAAAAGATCAAATCTCAGTGACAAAGC
TTCCAGATTTTTTTTAAATTAAATTTAATTTTTTTGCGATAGTCTGACTCTGTTACCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCGACCTC
TGCCTCCCCGGTTCAAGTGATTCTCGTGCCTCAGCCTCCCAAGTAGTTGGGATTACAGGCATGCGCCACCACATCCGGCTAATTTTTGTATTTTTAGTAG
AGACGGGATTTCACCATGTTGGCCAGGCTGGACTCGAACTCCTGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAGAGTGCTGGGATTACAGGTATGAG
CCACCGCGCCCAGCCGCTTCCAGATTTTTTTTAAGTAAATCCACGTGATTGTGTTTCTGATCTATGCACCAACACACATTTACATTGAACATATTTATGT
CTATGCACCCACACACATTTACATTGAACATACGTATTTATATGAAACAACACATTTATTTCTTGGATAATCAAATATAGACAAAAACTCAATGGTTATA
AAAAGCTTCCCAGACAGCACAGTCTGGGGTAATATTCACATGTTAAACCTATTAACATTTAAATGTTCTAAATAGTATGAGTAATTAACGATTACAGCCA
CAGAAGAGCAGCTCCCTCCCGTGACATTCCATCCATTTTCTTTGAGTTGTTTTTTTGGGGTGGGAATGGAGGGGGGTTCCTCCACTCACATAGACACACC
AAGCTTTTCCCTCTAGGAGATTACCCAGCCTGCTGCTGGGTTGTGTGGGGAAGGACTGCGGATGTCTTGGATGGCAGTTGTCATACTAGTTTTTTGCTTC
CCCAAACAATTCATTTAGGGATGTCTTTAAGTGAGGCGCCCAGAGATTCCACCCCGTCCCTGGGACATCAAGCAAATAGCAGCAACAGCCGTTGGCAAAT
TTGTGGCTATTTGCAGCATTGACTCTGTAGTCAGTTTGCATTTTCAAGATGGGGGAGACATGGGCAGACATTACAAAGGAGTCCTTTCCCCTTCCTATTC
CTCATGCTCCCGCTCCTCCTCCTGAAGTCAGATACTTTTTGTTCTTCATTAAAGTTTTCCCTTATTCGTATGGGTTACCCTGTAGTTTTAAAGCATTCAA
GCAGTCCGTATATTTTAGAACAATATATTTATAAATCATTTTCTTTCCTTGATTTGTGTATGGAAGCAGGAAGGACATAACAGGTAGAGGGGAAATAGGA
CAAATATGAAAAAAAAATAGTAGAGTTTAAAAACTACTACCAGTTACCGGATGTTGTGACTTCATTTTATTTTTTAATTAATGTGGTAGAATAGTAATTA
AATGGACAGAAGAATTTTAGCAGTTAACAATGCTAAATACTCATACTTTGTACATCCTGTCTGTAGTTTGATGAGAGGCTTTGTTGTAGAAATATTCTCT
TTACTCATGAACTGACTCTTCCTAGACTCCATAGAAAGGWTAGAACATTCATTTGCATTTGAAGTTTCATACAACAGTCGTTTCCATAACATATTTGACT
TRTCTTAGGAAGTTTCTCGCATCTTCCCTTAGTTTCTACAAATGAAAATGTCTGCAAAGCTCTCAAAGCATGCATCCTAGTCCTATTTAATTCTGACATC
TGCMCATTTCTTACGAATGTAAAGTCAGTGTGGCCATCCAGCTGAATAGTAACTCTGAAGCTGGGAGTAAAATCAGATTTCAGTGTAATTGATAATCAAA
GCCCCTTATTGSTATTTTTCAAAAACAAAGTAGCAATACTTTAGCACTCACCCAGGCAATTATGATTTTTGGCTAATTTACTTTTGGTTTTTGCAATTTC
AAGATACCTAGACAACACATTTTGCATCTGTTGAAATCTTAGATTTTATTTTTGAGTTCACATAATGACTTTAAAATATTCTAATAAATGTCTTCAAAGA
CCCCAGATCAATATGCCAATGGTTCTGAGATGACAGAGTGCTGCGATATTCCTCTGTAATTTAAACATGATTAGCTGATGAAGGTTATGTGATATCAATA
CACTACCGGAAGATAAATTAATTGATATCATCCTTTSAGGATGATAAGAGGCCTATTGGAGGTGGGATGTAACTAATGAAGCTGCTTCTTCCTCTCTGTG
AGCCATTTTTTATATATTGCATTTTCACTTAATCATATTTATACTATCATTCATTTACATGAAACCCATAGGCTGTGGACAAACCAGTTTCTTATTAAAA
TTGTATTCATTTGGAAAAGAAATTATCTGCAAACACTATATGGGCCCCGTCTACGTTATAACCTATTGCTGGGGAGAGATGACAAGTTCCTTTCCGTGGA
CATCTTCGAAAATAGCAACTATCTAGGCAAAGTCAAGGATTGAATATCATTGAACTTAATTACTGCTAGTCCCCAAAGACACACATCTATTCAAATCAAA
AGTGTAGTTATTCTGCGGCAGTGACACCATTGGTGTAGGAAGAGTTTTCTAATCGTTGACTTCCTTTCCAATTACATTCAGTATGCTTTATCAGCGAGCC
TATTTGCCAAGAGAAGTTATGGCTGGTTGAATTTAGATTTGTATTGATTAAGATAAACTTACAATGTGTGCAGTCATATATTTAAATAAAAAAGGTCTTT
GATATAATTACATCTCCTTGAATATAATTCTCTATGATAGCTTGTAGAGTGAAGAGGATTTCTTTAGGCTTTGGGGGAAAAAAAAAGATTTTTGTCTTTC
CAAGGGGTTTGGTTAAATTGCCCTGCCTTATTTAGGATTATTTTTGTTCCAAGTAACTGGAAAAAAAGATGATTTTATGAGAATAACTTAAATGAGATAG
GTGTGTATTTTTTTGCTTTACATTCCTCTGAGGTGGTCTGTGCAGGGCTGCTGAGGCCTTCTGTGGAGTTGGGGGACCGGCTCTATCTGTCTCCCATGTG
GCTCCTGTTCCCAGTGTCGCCTCGTGTTCCACAGTGCTGCTGAGGCCATGTAACGTTTGTGCATTTCAGGCAACAAGTAGGAAAAACATACGAGAATTTA
GGCAAAGGGAGGCTCTCCAGGAAGATCCTTAAAAGCTGCCCTGTGATCCTTCTGCTCTCATCCTGCTGGCCAGAGCTTGTGTACCTGGCCATGTTCRGCT
GATGCGGGGGTGGGRGGACGGGAGGAGGCTCTGGCAAATGTCATGTTTATTCTGGTTGTCATTTGCCCACCTAAGAACCAGGAATGCTATTACTGCGAAA
GAAGGAAATAACAGATTTCGACAACAGACTGATGATCTCTGCTCTGTTCCTGAATTTGGAAATTGATTGACATGGATTTCTTTTTGTCTGTGTGTCCACC
AGTTGCCCAGAAGATTGTTGCCACAAGGAAGAAGCAGCAGCTGTCCATAGGACCCTGCAAGTCGCTACCTAATTCTCCCAGCCATTCCTCCGTCTGTTCC
GCGCAGGTGTCTGCCGTGCACATCAGCCAGGTACGTTAGGTGACATGAGAAGTCAGACTCTTAGAACCAAAGACAATATGCAAATAGTGTTCCCAGCCAA
TGCTAAGGTTGATTTTTTTTTTCTTTTCAACTTTATAAGTAACAGCATGTTGTAATTGACTTCACATTTTCTTCAGAAACTGCTGTGGCCAAGTGATTTT
TATGGGAATCATTCTTTTATGTTTTCTGTCTTCATGCTGCCTGTGTTATGAGGCATGCTGGCCCGGGTGGTGATRGGAGGTGTGTGCTGCAGTCCTCGCT
GGTGATTTAAACCACCCTTCTCTGGTCTTGGTCCTAGTCTGCTTATAGGTTGAACAGTTGTGAGTAAATCTTAATGGCCAATCTCGCTTTATACTTAAAT
TTGGTAGTGGCATTCAATTATAATTACCATCTCCCTTAGGTCCCATAGAAACTGCTATCTTTCCATAACAACATTTTGCAAAAGTATTTACTTGGAAGCA
AATGAAATAATGGTCACTTTGAAGAACTCAACCAACAACCTCCTAAGGAAACAGTTGACTTTGTTTTTGTCTGTGCTTGTTTTTTGATTACGTTTCTTGG
GCAGGTATTCTATTGGCACTGTTTTTTTAAGGACATGGTGGAAGGGTTCGGTGTCGTACTTTCAGTTTGCTTGGGAAGCCAGTAAGTTATGGCATGTATT
GTCAGAGCCTGTCAAGGTACAGTCATGAATGTTCATGCTGGCTGGGCTGAGTGGCAGTTGCCTGTAATCCCAGCACTTTGGGAGCTCAAGGCAGGTGGAT
CGCTTGAGCTCAGTAGTTCAAGACCAGCCTGGGCAACGTGGCAGAACCACACCTCTGTATCTACAAAAAAGAGAAAAATTAGCTGGGCGTGGTGGCTTGT
GCCTTGGGAGGCTGAGGTGGGGGGATCACCTCTGCCCAGCRGAAGAGCTAGGCTGCAGTGAGTGTGATTGTGCCACTGCATTCCAGCCTGGGTGACAGAG
TGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAATGTCTTCACTTGCTGTGTTTAATTTTCTGTGAATCTTGAAATACTTTTCAAAAACACTT
AGATTTTCCAGGTGTCATTTTCATAATGTTGGCTGTGGTTCTGCTGATCTAGAGCAGTGGAGGGACCATAGAATCCCTTTAGTTTAACCAACCCCTTTCA
TTTTCAGAGGAAAGAGAAAATAATCAAATTTGAACTCTCAGAAATCTTTTAAGTTAAATGAAAGAGACTTCTTTGTCTTCAGTCACTTTTCTCAGGGGAT
GCCACTGAGTGAGATGATTGGCATGTTCCAGGATGAGACTCTGTAGACATGACACTAATACACCTGGCAAAGCCATAGACGCAAGTCAGCCATTCYCATG
CATCCCTTCCATGGGGCTCATGCTCACTTGTTGGTTATGACCTTGCCTAAGTGGAGGTCTTGGGTTCCTGAGTATGTCGTTAATGAAACCTTGGATTTTA
ATCATTTCAGACAAGTAATGGAGGTGGGAGTTTAAGCGACTATTCCTCCTCCGTTCCATCGACTCCCAGCACCAGCCAGAAGGAACTTCGGATCGATGTT
CCTCCCACTGCCAACACGCCCACGCCCGTTCGCAAGCAGTCTAAGCGCCGGTCCAACCTGTTCACYGTGAGTGTCAACCCTGGGTGGAGATTTGAATGCG
ATTCYGAAGCGTTCCCATTAACGTAAACCTGGTTGCCACATGGTTCAGTGGTATTTGTAGAATCTCAACTATATTAAAGTGAATAACATTGATTTCTGTG
GAGGACTAAGAAAATTAAGAGAAGCAAAGATTTGGATGTTGAGTAGAATGGGAATTTCTTCATGTAGACATTCCTGACTTCGTGTGTCTGAAATGAAGAG
CTGGGGGTGTGTATAAAGGCACTTGTTATCCTGTGGCTCCAGCTAAAGATGTGTCACAGTGGATACAAGGAGATGACAAAACTCTAAGATTCCCAGATGT
GTGTCTCTAACCGTTCAGATGATATATAAGCTATTACTGTCCACAGGCCCTCTTCTTCTTCTGCTGGGGTGCCTGGCGCTGCCCTCGGGGTGGAGGTGGG
GGACTGGGAGGTGCTTCCTGGAGGCTCATTGCCATGAGGCTCTCCACTTGGGTTTTTTGCTGTAGAGCATGTTGAAAGCAGAGATGAGCTATCTGGGTTC
AGGTTTATAAATTCACAATCTGGGTGCACTCGGGCATGCATTGTTCCTTTTTTTTTTTTTTTTCTTTTGAGACAGGGTCTCACTCTGTTGCCCAGGCTGG
AGTGCAGTGGCTCAGTCATGGCTCACTGCAGCCTCAACCTCCTGAAATCCTCCCACTTCAGCCTTCTAAGTAGCTGGGACCATAGGCACTCACCACTACG
TGTGGCTAATTTTTTTTTTTTTTTTAAAGAAATGGGGTCTTACTGTGTTGCCTAGGGTGGTCTTGAACTCCTGGGCTCAAGCCACCCTCCCACCTTGTCC
TCCTGAAGTGCTGGGATTACAGGCATGAGCCATAGTGCACAGCCAGCATGTGAAGTGCTTGAAAACTCCCTGGGTGATTGAGATGCAGAGAATCTCTGAG
CTACAGAGGTGGCAAAAATGCTRCCAGCCTGTCCCTTCCCTGTGCATAGCAGACATTACCAATCAATCTGGATTCTACACAGTTGAGCCGCAAACTCCAG
GCACAGCTGCTGTCAGGTGACTGAAGCATTTGGACTTGAGAAGAACGCTTTTCCTCCCTGGATCACGCATTACAAGTACATGCTTTTGAAACAGTGCTTC
TGAACCAGGGTGGTTTTGCTCTCCAAGGACATTTGGCAACTTCTGGAGAAACTTTGGGCTCTCACAACAGGAGTATGGGAGTGGGAAGGTAAAGGTTCTG
CAGACGTCTAGTCGTGGGTAGCAACCAGGGGTGCTGCAAAGCATCCCACAGTGCATAGGTCAGCCCCTCACAGCAGGGAATTATCCAGCCCCACATGTTA
GTGGTGCCCTGTTTTAAACCATCTGACTTCCATTTTGGTTGATTACTGCTGACCCAGATGCAAAGCTCTAGAGGGGTGGCTGGGAGTCAGATTTGCTGCC
CCTTTGTGAATCTGATCTTGATGTTACATTGCGATTCCTGCCAAGTCTGGGAGATCCCCCGCCCCTCTGCCACATGTCTGGGGCAGTCTCTCATTGGATG
CTCATGACTGCGGAGGCGGTTGCCAGCTGCACACACCCCCTCGTCCCCAGCCTCCCCTTGCTTTTGCTAGTTGCCTTGCGCCACATCAGCTCCCACAGAG
GCCACTGCTGGGCAGCAGGGTGAGGACTGATCAGACAGACCAAGCTCCCATCCCGGCCTCCGCTGCTGACGGATGTTTGACCTTAGGCAAATTACTTGAC
CTCTCTGGGCTGGAAACCATAGTACTTCTGCAGTGGGGCTTCCGGGAAGACTTCCTGGAGGAGGCAGAAGAGATCTGGTGGCATTGCTTCCATGGTTTTC
TCACTCCATTGATGCTATAAAATGATTTCTGATCGTGTTAAGCATATGTGATAGATTAGGAGGTGGGTATTTAGGTTTCTGTAAAATACAGGTGAGTATC
TCACATGCTTAAATTAGTGCATGGATAACATGTTTTATTGGGCAGTTTCTTCACACACACCGAGAACAGCAGCAGTCACCTAAATAGCTGCTTCCCAGCT
CCGTCTAACACCTGGAGCAGCCCCTGTCTACCCCCAGGCTGGGGGGCTTTGGGTTGAAGTGTTTCCTGCTAGAACAGGCTGCACAGTGACTCGGTGGCTT
GAGAAACCAATAGCCAAAGATGCAGCTGGATTGAGAGAAGGTGGGCTGTGGGCAGGCGGCCTGTGCCCCGGGAGGAGGGGCGGGCTTGTCATCGTGGTGG
TCGAGAACACCTTCTGTGTCTTTGTTAAGGGAGTGGAAGGGGGAGAGCACTCATTCTCAGACGCCTTCTGAGGGCCACATTTTCTGCTTGTTGACTTTGC
TTTCTCTTTTAAGGAGAGAAATTTTAAAACCACAAAGTATCTTTAAAAATGAGACTATTTATAAGGAGAATACCAGCACCTTCCCATCCCCTCCCTTTAT
AAGCTCTGGAACTGCAGTGTGCCAGAAAGTAGTATCCCACTGGGTACCTGACAACCCAGGTGACTTAGGGAGGAGAACACTTGAAGGCAGAGAGAATCAA
AATAACAGCCCATTTAATAAATATTGACTTAACATCTGCTCTGTGCACAGCCCTGGTTTTGCTCAGTGTCTAGGAGGAAGACTCACTGCCAGAGTCAACC
CATGTTCAAGGGAAAGCGATTTAGGGTGAAGGAGAAGGGGCTCTGCACACTAGGAGGAGAGACCCTGTTGCTGCGGATTCACCCTGCAGACACACAGGTG
CACTTACAGGCATCCATGAAGAGGCCGGGCAGGGCAGGTGCAGAAGCCAGTAAAAACTCATTGTTACAGTGACCAAAAATCACCATTAATTATTTCACCA
TTAATGTGTCACATAATATAATGGTCTGCCTATGGATCTAAGGGTGACCAGTGTTTGTTATCTTTCTCCTTAATCTTGGAAAATAAATTTGAGATCAGAT
CAGAAATTGAATCCAGCTGTCCCATGGCATTAGTGGGAATAGAAATTTGGAGTCATAAAAGAAGCTACCACTGCAATAGGTTTGCATTGTGGCATTTAAG
GAAAAGACAGTGAAAGTTCTGGGCAGGGATCCATATGTTGGTCCTCAGTGGGTTTGACACTGAACAAAATGATGGTGGTGATGATGGTTGTGGTGATGAT
GATGGTTGTGGTTGTGGTGATGATGGTTGTGGTGGTGATGATGGTTGTGATAATGATGGTTGTGGTTGTGATGGTGATGGTTGTGATGGTGGTGGTGATG
GTTGTGGTTGTGATGATGGTTGTGGTTGTGATGGTGATGATGGTTGTGGTGGTGGTGGTGATGTTGTGGTTGTGATGATGGTTATGGTTGTGATGATGGT
TGTGATGGTGATGATGCTGCTTGTGGTTGTGATGGTGATGATGGTTGTGATGGTGTGATGGTTGTGGTTGTGGTTATGATGGTTGTAATGGTGGTGATGA
TGGTTGTGATGATGGTTGTGGTTGTGATGGTTGTGATGGTGGTGATGGTTGTGGTTGTGATGGTGGTGATGGTTGTGATGGTGATGATGGTTGTGGTGAT
GGTGGTGATAGTTGTGATGGTGATGATGGTTGTGGTGATGGTGATGATGGTTGTGATGGTGATGATGATGGTTGTGGTGATGGTGATGGTCATGATGGTG
ATGATGGTTGTGGTTGTGGTGATGGTGATGATGGTTGTGGTGGTAGTGGTGGTGGTGGTGATGATGCATGCGGTGTAGTCTTAAGTTGAAGTTCCTGGAA
ATAGTAACTCCACTAGATGTCAGTGTCATCCAAGGAACAAAAAGAAGGCAAATTAATTGTGAAATCATAGCAATTAAGATATTAAATTTTTATCATGACC
AGTTTTCTTCTATTTTTAAATATGTAAAATTGAATAGACTCTTCATCCCTGGCAGTTGTTGGTGATTATAGGCATAAACTGTCAAAATGTGTATTTATTT
GGAAGTGTCTAGTCAGAGGACAGATGCATGATATGCAGACAATCTTAGTGAATAAAAATTCGTGCAGACTGGGATTGTAACACCCAGCTGGAGGGGCACT
ATCCACCTTATTTATTAGAACATCATAAAGAGGCCATAGTTAATTAAGTAATGCATGTATCATTTTTTCCAATACCATTTTACACATTTTATAAAGTACA
CTGTAATGCACTGCTCTGGGCTAACATTTTGTGCTCCCAGATGTTTGTTTGCATATATTCATATACAATTTTTAAACAAAAATAAATGACTTTTTTATAA
AATAGTACAAATAAAATCTCTGTATTAGTCCAAATTATATGTTACATTTGCAGTAGGAATTCTACTTTACTAATCAAACACTGAGTTATATTTTATTTCA
CTTATTTCTTTGGAAAAAAAACAAACATTAAAAGACTGTATCCATTTAATCCCTAGTTTGGTAATATGGGTTCTTAGAGCAATTAATTTAGTTTAGCGGC
CCTAGTTTACACGTGGTTAAAGTGTTTTATTAGAAAAATTTTTCAAACATACAGAAATAAACACGTGTGTACTCACCACACGCTTSATCAAATACAAGCC
CTTTTCTGCTACGCTGCTACTGCAAGAAATAAGCAAATCCTAAGTAAAAGTTGCAGCTCCTTCCATGTGCCTCCAGAACACGTTTCTCCTGCCTGTCTGC
CTAGGGATCAGCATTAACCTGAATTTGGTCTATATTATCTGTGTCCATGCTGTAAACTTGTTCTAGTGTGAGTCTTGAAATTATACATTACATGGCCTTG
TCCATTTTCAAGCTTTATAATAACGATGTTATTTATGTGATATTTTTAAAAAGCTTACCATATAATGTTGATACCATTAAACAGAGCCAAGTGCACCCAG
GAACCAAAGATTGTGAATATACATTGCCCAGCTCAGAAACTTGCCATAAAAAAATAAGGCAGCAAAATTCATAGTGCGAAGAGAACTGTTTCAATGGCAT
TTATTTGTTTTTGCAGAGGAGCTCCTGGGTACCTCCCCTAGTGTGTTCCAGCAGCCGTTGACTTAGCCACTGGTTGAAAGGGGGTAAACGGGCTTCTCTT
TGATACAGAGGGCTCTTGGCAATGATGCGCTTGTTCCTGTAGGCAGGTAGTTAGTTGATGGGAGTGTCCTCCATGGCTTCTCTCACCACGGCAGGGGAAG
TTAAACATTTTTGTAAAGAAGCAGGTGATAATTGGATTACCTTAACCTTTCTTTCCTCTGCATCGAGTGTTTGTTGGAGGCTAAGCAGTTACTATGGTGG
CTTGCTGTGCGTTGACTTAAAATCTGCAGCCCTTCTGGGTGTGATCTGCTGCTGTTCCATTTCTGGCAGTGTGCAGCAGGCTGTATGCAGGGCAGGGTCA
CTCCTGGCAGACGCYGTGGGTGCTGAGGGCTGCCTTGTGTCTGATGATTCCTCGGATCCATTCCAGCATCACGGAAGGATGTGCCATTAGTGATGAGGTC
TCCCAAGTTAGCAGAGAAAGGAAACCTTACTGGGAATTTGTATATGCTGGGGTGTCTATGTCCATTGGATTTGATTTAGTCTGGTTGTTGGATTTAAATT
TTATGGATACAGCCTGATGTAGACAAACTAATTGTGGGGCTGAGGTACAGCAAACTCTTTTGCCTAACATCTTGCCACTGTTCYTTCCCGAAATTTTAGT
TTTTTGACTGTCTCCGGCAAATTGTTAAAGTTGTCAGGAAATTTTTGTTTTATTTTTGCAATGAAGTCTTACCGAAGTTTCAGTCTCTTTTATCTCAGAG
TGTGTGATCAGATATTGAGTTTGGTGGTTCACAGTTCATGTTCTAAGGTGTTTACAGCAGGGCAATGAGCTATTTCTTCCCATTTCAAGTGGAATCTGAA
ATTCTGCTCTGAGAATGGATTGGCTGGGGGGACAGATGAGCTGCCTTGTTACAGGAAGATGTTAATTTTTTTAAAGTTTGTTTTGTTAATTATTCTGGTT
TAATTAACCAGAATAATGAAGATGGATTTCCAAATTTAGAAATTTAGAATTTGTAAAATTCCCAAAGTACTCTTAAATATTTTTTGTTAATTAAAAAAAA
ATTTTTTTAATGTTATCACTGTGTGCTTTGAAATTCATTTTAAAACTAGGAACCTCAGGAGCCAGCTTTTCTCATCAACTGTGATGTGGAGAAAAGAATT
TAAGGCTATTGTGTAGCTCTTACTATACAGTATTAAGAATTAATTAAAAAGAAAAATGAGCCCTTGACAAAGAATTGATAAATATCTCTATTTTCCTTCT
AGCCCAAAGGGTTAACCTTACGTTTTATATTCTTCTGCAACTTCATATTTGTTGCTTGATTTATTCCCTGTCATCTCATTCTAGGCATCCACCAACCTAA
GGGGGAAACAAGTGCACAGTGCTTGGCACGTAGTAGGTGTTCAATAAGCATCAGCTCTTATCACCATCTGAGAAGCATGTTTCCTAATGAGCACAGCTGC
CCAGGAGAGTAGCACCCTTTGAAGTGCTAGATCTGAGTTTCCATCATGGGAACTGTTCTCCTTGTCCTCCTCCTTAATTTGGTAGCAGCCTCTTCTGGAA
TCCTAAATGCGTCCCATCAGCCCTTGTTTGTATTATGACCCATGACATTGCCCCTTTAATATGTATGTTTTTTAAATCAGCTGTTCCAGCTCACATCCCT
TTGAACCTGGATTCCATTAGCTTTTCATTGTAGCAGTGGACACCACAAAGTCTGTTCATTTCATATATCATCTCAGATTTGAAAAGCACGTGAAAATGTT
TCTCCATTTTCAATATTGTGTGAGTAATGTTCCCATTGAAAAGTAATGGAGTGAAGTTGTCACTTGTCAGCACAGTTATTAAGGAGGACGAGTCTCCAAT
CTTTCTCTCATAATAAAATAAATCTGTCAGAAAATCATTGTGCTCACACTTTCTCATGCCATCGAGAGAGGAGACTGAGACGATGGAGCTCCTTCAGTTT
TACCCAAGTCAAGGTGCGCTTTTGGTTGGGGCTTCCCTGGGTTAAAGGTCACCACCCTTCCTGCCCGGTGGYAGCCACTCGYCGTCCGCAGCACGTCAGC
AGTGCATCGGAGATAATTGACTCAGGACCTTGTCAAATAAAGCTGTTCATTATTTCCCAAATACTGACCTTTCGTCCAAAGGCGATTATCAGGGGTTTTT
TTTCCCCTTCATTATTTTTTGTGGTATTGTCCACTAGCTTAACTTCGAATTTGCCATTTTCCAACCATCCAGAAGCAAAAACGGAAAATGTTAACAGCAC
CTTGATACTAATCAAGAGTGTGCCGTTAAATCGCACAGCTGACTAGTCAACAGAATTTTAAAATCATTCAAACATTAATTAAATACATATGTTGATGTAG
TAGATTTTCCAAATAAACATTGAGCAGCCCCTTTTTTCCTCGGCTGTGTGAACTGCAGCTTTCAAGTGTTTTTCTGTTGGGCGTTACTTTCCCATATGGC
CCATTGGTTTCTAGTAGTTGAATTTTGAACTTTTTAAAAAAGAATTAAAAGATAATTCTGTGGTGGAAAAGTCAGGGGGAAAGTTTAGATGATTCTCTTT
AAAAATGATGAGTCAGTGGAGATGAACTACTGAGCTGTCTGCTCGTCGGACGTGTCTGTGCGCACACATAGATCGCGCATGTTTTCTAAATGTGTATTGG
CAGGAATTCTGCAAACAGGGGCAGAGCCCCGTCTGTGAACCACAGCCCTTACCCAGATGCCAACTTTCCTTTTGCTTTGCAGTCTCGGAAAGGGAGCGAC
CCAGACAAAGAGAAGAAAGGCCTGGAGAGTCGTGCGGACAGCATTGGGAGCGGCCGAGCCATCCCAATTAAACAGGTGAGCAGCCTCCCCATCCTTCCCT
CCCTGWCGCCGGAGATACACCTCAGGTCTTCCTGGAGATGATGCTGGCTCTCGCACCAAGGTCTGTCTGATGTGCTCTGTTGATGAATGTAGAAGTCTCT
CACTTGACATCAATTAGCAGAGTTCCTGTGTGTATTCAAATGGGATCATTAGAATGAGAAGAGGGAACGGAGACAACAGACCTAATGAAGTGCGGGCTGC
CCGCCTGCATATGGAGTGCGTTTCCAGGCTGAGAGCTTTCAAAGGCTGCCTTTGTAGCACGGCTTTGATTGGGCCGCGGGCCGCCGGGCAACAGGGGTAA
CTCAGATCGCCTACAAGAGCCCCTTGTGATCACAGGAACAGCCCGACGTGGCCCTAATTTGCTCTCACAGACGGACATCTGAACACTGTTTCAGGCTGGT
TTGTAACAACGAGGCAATTAGTTGTGATAATCATAGCCGGTGTGTCAGCTGTGCGCTCTTGTTTGTAATTTGCTAATGAAGGAATTGTAACTTTGATTAG
GTTCGGTTTCATTTAGACCTTATTATATAAAGGAACATTTACAGCTGTAATGTGGGGCCTTAATTAAACTTTCTCATTACACAACAGGACTTGAATTCAA
CCATTTGTTTTGGCCTATGTTGCTAGCCTGGAACAGGGTTTCATTAGCCCAGAAACCAGATTCYAAATCACTTTATATCTCCAATAAGAAAAAAAAAAAA
CCCTGGAGTCCACGTGTGACGTAGATTGTGGTTTGATTTCCAAGGAGAATAAAAATAGAGTTCAACCCCACACAGTGGCTTCTGAAATGTCATCTTTTGG
TTTGTTAAAGAAAGCCAATTGATTTAGAGTGCATCCTTCTTGRGCAGAAGCCTCTGTGGGCAGGAGAATGGCTCCGCCTCTCAGGCACAGGGCTTGTGAC
CGGTGTGCACCTCCGGTCCAGCTCACTGCTTTGCTCTCCTCTCTCYTGCGGGCACCTACACAGCATCGGTAATCCCTTAGGAACTGTGTAGGCACTGGCT
KCCCTTAAAAAGGGGAGAGTCTTTCCACACATRGAGTTGGATTATTCTGGTGGTKCAGGTTTCGTCCATTTGAAGCAAATAGGAACGCAGCCTTAGAGAG
GGGCCAGCCAGTGTCAGCGTGAAGATGTGGGAGAGGAAGGGGTTAAATAGGGCCACAGCATCTTGGGTGAGACCAGAGGAGGGAGTCCACAGAGTTTCCC
AAGGAGCCCAGGAACTACTGCAAAAACCACACCTCTGCCCACAGCGTAACCGACCCTGCCCGGGAGCAAGCTTTCTCCTTCCGTGCTCACAGGGCACGCC
TTTGCCAGGCAGAGAAGAAGGAGGCCTGCAGGTCATCACCAAGGCCCTCAGGCATCTATGTAAGATACATGATCATCTACTGGGCCGCAAATATATGGAT
TGGCCCGGGGCACCTTTAGGAGAAATTCTCTTCCCTCCATATATTCAAAGACAACAACAACAGAACTTTCCACTTTGATGATGGGTGGTGTTTTCACTAT
AAAACACTTCAGAGGTCCGTGCACATAGTTGCTTATTCTTTCTTGGTGCCTTTATTTATAACCTAACTCTGCATAAGCTAATGTTACTGTGTAATTTTTA
TGCCACTGATACCTTTTTCAACTGGAATTATAAAAATCAGTTATAAAAATAATTCTTTTTCATAAACTGGTACCAGGACATTTCCTTTGGGGAATATTAA
AACTTAATAATAGACTGTTTTCTTAATGCCTGTCTGTGGTTGATTTGGGTGATTTGGGTGGGAGCGCTCACCAGCCTGGCGGGAGTCCCTCTGTGCGAGC
CAGGTGGGCCCCCGGTATAATTGGAACCTTCATTCAATTTGTACCTGCTCATCTGTGGAGGGGGCTAGCTTTGCAGGCTAGCTTTTCAATATGTGTGCAG
ATTGGAACTGACCATCAAGCGTAAAATGAGTATTATCCAGTCCTTGGATGCCTTTCGATTGTGAATGTTCAAAGGAATCTCGTTGAAATCTAAATCATGG
TCTGATTTCCCGGTGACTCCTGGGCACAGGGAGCTCCTTGTCCCTCCTAATTGTCCCCCTCTTGCAGCCACAGACAGCTCCCTCCTCACATCCACACCTG
TCCCAGCAAAGTGCCCCCGTGGCCAGCTCTCCAGGCCTCGGGTGCCTCGTCTGTAAAATGGGGAACTGGATGATGTCTGAAGCCCTTGAAGCAGTTAGAT
GTGGAGGTTCCACAGAGAATTTTTAAATGTTAGCAAAACTGGATTTTTAAATCGGGGCACCCTTGTCAAAGCCTCTCTGTGCATCGGACGGATTGATGTG
GGTTTGCAGACGGTTGTATCGATCTATCTCACATCCCTGTGTGTACCCTTGTTTCTAAAGGAACATAGATCACTTCAGGTAGCCTGAATTCCTGACCTTC
CTGGTGTGATGACTTCAGTGTGGAAATGAAATGAGAGGATTGCAGGGGATGGAGCCTGATGGCCATATTCTAGAAACTCAACCAAATTATTTGTTGAATA
AATGAACAATTAAATGAGTGCTTATTATGTAAGTGCTGTTCATACAAGATCCCACTTAATCCTCGACATTGCCACAGTTATGGTAGCTGTGTTCTCCTTA
TTTTAAACACAGAGATAGGGAGGGCCCTATACCAGGCAGCTAGGAAGTAGGTCCAAGGATTCGGACCAGGCCTCTCTGCCCCTATGTCTGCGCTCTCTCC
ACTGCCCATTGATGAAAAGCCTTCAGAAAGCTTAGGAAGCAAAGTTACATGTTTTAAATTAAGTAAGTGAACCACGACCTGAGACAAAAATATCTTACGA
CTGTATAAAGAAACTTCTGAGACTGCCTGCAGCAACATATTTCTCCAGGGATAACACAGCCCTGCTCAGCCATTCTCCGGGTGGGAGGCGTCATTCCATT
CCCATCCTTACCGTGTTTGCCGCAAACATGTTCTCTGCTCTTGTCACTTGCTGCAGAGAACTGTGTCTTAATGCTCAGCCCATGTGAAAGACTCGGGTCT
GCATGATCGAAGCCTCACACACCAGCTAATGGACCTTTGCCTAATGGCAGAGGAGTCGTTTTAGAACCCCAGCAACCTGCGTGGAGTTGCTAATGCAGAC
TCTTCTTTCCCCCAGCAGGAGTCTTGTAATGGATGGTTTAGGATCCAGGCAAGGCAGCCTTCAACACTCTCTGCAATCTAACCCCAGAGTTTACAGATAG
TACGTGTCGCAGTGGCTTATGTTAACCCCCTTTCACTTCCATCTGATACCTCGTTCGCTGTAAGCATCCAGGCTCCCCCCACCTCAGTGTGGGAGCTTGC
CGAATCATGATGGTCAATGACGTTGTCTCTTTCTTCTTTCTCCCGATTAAAGATTCCCCATCAAGAATATGACTTATTTTCTGGACTATAACTTCATTTC
TTGTGGACCTGGGTCTACTTCTCCTTTGGTGTCCTTTCTGGGGTCTTGGAGGAGGTTGGTTCAGAGAATTCGGTTTCTTTTTTTTTTTTTTTTTTTTTAC
TAATAAGGTCTATTCGAGTAAAAATTAAGAAGCAAAGCAAGAAAAAGCCAGAGGCCCGGCTCAGCGGCAAGTGGGTTTGTCACGTATTAATTTTTCATTG
CTGTGGAGAGTTGTACATACATAATCACTTGATTGCAGTGGGAGTTAGGGAGCTCCTATGGTGCCATTTGCATAAATCTTGTTAAGTCAATGGCAGTTAA
TGAAGTACAAATGAGCCCGGAGAAGGTGACATGCAAATCGTGGGTGGCAGATGGGAGGTCTGTTTGGGGGACAGCAGCTGTGTGCTCTCCTTTCTTTCTT
TCTCTTTAGCATTTTTTAATCTCTATATTTGAGTACAGATACACAGYCATACGCCTTGGCCTCCTCCGTGCCCTTCGCAGAGCCCCGGCCAGAGAACCTG
TCCATCCCCTCCTGCCTCTGATGTCCAGGCTGCATAAACCGTTCAAGACTTGCCTTGTACTTGGTAGCGTACGCTAGAAGGATTTGAATTTTTTGAAAAT
CRTGCTCAGTTTATCTCATYGTGCTTACGCAATTGAAAGCGTATCATTTTTACTTGGTGGGGACACACAGAACCTCCTCACTACATCTTTTGAGACGTTG
TGTTGTCTCCTGAGGTTTCAGAGAATAAAAAAGAATAGAAGATACCATCTTTGCCTTATCATGCTTCCATTTGGGAGTCTTTTCTTCCTTTTTCAGACAG
GCCAACTGTATTTACTGATTATTCCCCGTCCCTGGTTCGTGGTTGGACCATCAGGGGATTGGCATTCCTAGGGTTAGTCAGGAATGARAAATACAGAAAG
TGTGCGGGGCATGCTCTGTACCTCAGGCCATGGGGACGACCGCTCCCTGTCATGCAGACCCCTCAGAGGGGCCGCCCCCGGCCCGGCCCAGCTCTGGCCA
GGGTGTCTCACGCTCTTGGTTTTGTGTTTAAGGATTTAAGTGCTAGCAGGACTCACAGAGAGCTCTTAGAGATTCATGGGAAAAACATTGCCTACGACTT
TCAGAAGTTTTGTGTTTATTTGATCACCTGGCTGATGTTTTGAGAGAACCAGGTCTCTGCTTGCCTTGAAGAAAGGTAGGCAAAGACGTGTGCATCAGGA
GGCAACAGCCCTGTTGACAGCTGCGGTGGTCACATGCTGGGGATCCTTTTCTTGCAGGCCACCCACTCTGGTCCGTCCTCTGCGATGCCCGCCAAGGTGC
TGTTTCTCAGTTCTTTGGGCTGCAGGGCGCTGCGGGGGACCCTCCATCAGGCACGCTCCCTTTTGTGATGCTCGGTGGATGCACCAAAGGAGCAACATCC
CTCAAAAAAACTTTTTTTTTTTAAGTCTTCATTTTGACCTTGAACCCTGATGTCATGGCCACCTCCAGGGAGTCAGCTGTGAGAGCAGTCATTTCCCAGC
AGCCATCTGAAGCCGTGGGAAAAGCCTTCCCAAGCTGTCAGAGGAAGAGCCGGCCTGCCCGGGGCAAGCCCGCCGCACCCGCCATCGGGCCTGTGAACTG
TTTTGAAGCTGTGCGTGTTTTGATTCTCAGTTGAGTAGAAAGAGGCAATTGTCAATTAAGTGAAAGGAACCTCTGGAGTTAATCCCCTCGTCCAGCCTGC
CGCAGGCCACCGACCTGTGTTGTCTGGTACCTGGGATCAACACGAGGGGTGTATTGTGTGGCATGGGCAGAATGAAAGCAGCCTAATGACGCCAGCGTTA
ACAGCTCCTGAAACTTTGACACTGCTCACAGCGAGTTGGTTGACTGCTTCACCGGCGTGTGCTGCTTTCATGGAGGAAACAAATGTGAAGACCACGCTGA
AACTTGATAGAGATCGGAGGAGATGGAGAGGAATGGCAGTGCCCTTCCTTCAGGGGCATGGAGAGAGGAGCTCCACAGGCCTGCGGCCTCTCTGCGTAGG
CAGAGGTTTACAGGAGGACGGCTCACGTTTATTAAGCCCCACCATTGAGGAACCAAGGTGAGCGAGAGGCCCGCCGAGCGTACGATGTCCACCCACGTGG
CAAATCAGCTCTGCCTGGGCGTAGGGGCCCGTTTTGCTCCCCAGAAGCAGATAATTTACAGAGTGAACTGCCGTGCCCTGCAAGCTAATTGACCTCACTT
GGGTGAACAACTCCCTGAGAGTCTTATATTCAGCCCGGTTCACAACAGACCCAGCCCAGTTACGATGATTAATGTAATAGCCAGGCAGGTGTATCAGTGC
TTTTACTTTGACTCCTCAAATCTCATACTGTCATTGCCAGAACAGTCCAGAATATCTGGAGGCCTACACGTGAAATGACAGTCATCCGTCTTTGAGTATA
TCGGGCACACCCTCCCCTACATCCCCGCCCTTTTGGCAATGTTGGTGGGTGACAATATGTTCCTCACAAGATGTGCAGAATGTTTATTTGGAATTACTTT
ACCCAAAGCACAAAATCCATCATTTATATGCAAATCTGCAAAGCAATCGAAAAGAATACTTCCCTTGGCCGTGAGGGTTGCATGAGGGTGACAGGAAGTA
GTGTAGCCCTAGGTGCATCATACACGACCAACTGCCATGCTAACAGAATGGCGTTTCCAAGAACGGAAGTTCGTTTTAAGACTCAGTGTGTCCTCTGTGT
ATCCATTGTCCAGAGCTGGTGAAACAGGAAAAGTTCCTTTATCTCCCTCGCAGGGCATGTGATGGGCTGTGGCTCACTTCTTCGGTGTCCCGCAGCTCAG
ACCCCTAGGGGGGCGGGCAGGCAGTCAGGCGGGTTGTGGGGAGCATGGGCTCCGATCCCACAGCATGGTCTAGGGCTGGGCGTTGACAGCTCCTGAAGCC
CCAGTGGGCGTGTGTTACAGTGTGCTTTTCGGTTTGGCTGTCCACAGGCAGCCTGTGACCATCAGCTCAGTTAGTCCCTCTGCCTTATTGCAAGGACAGA
GGGTTTCTGTATCCCAGGGTTCTTGCCTTAGTGTACTGGAAGAATTGGATCACACGTCAGCTTGGAGAATGAGTGCAACGTTTAATGAGTGGTGCCAGTA
GTTCTCAGCAGATGGATGGTAGCCAGAAGGGCGATGGAGTGGGAAGGTGGTCTTACCCTGGAGTCGGGCCACTCAGTGGCCGGACTCTCCTCCTACCGCC
CCCGGGTGAATTCCACGTCACCCACATCGTTCTGCCATTGGTGGCCTGCCAGAGTCTGTTGGTGTGTTCTTCTGCCGGTGTGCTTCTCTCGACGCCCAGC
CGCCTGTGTGTGTGCCCACTAGGGTCTCGGGGTTTTTATAGGCACAGGATGGGGGGAGTGGCAGGCCAGGGTGGTCTTGGAAAATGCAGTGTTTGGGCGC
AAGAACTGGAATGCCTGTCCTCGCCTATGTCTGTGGGCACAGGCCCAAGGGCGGAGCTCTTGCCAGGGAGCCTGCCCTTCTCTACCCAGCACTTCCCTGC
CTGCCTCCCATTTCACCGGGATAATATCTAAGTGATTTGTTTCAGCAAAATAGTGCTTATTTTCTTTAAAAGTTGAACAGTGGTGGTGAAATCCARTTCC
CCTTGAGCTCAGAAATACAAGCTCTCCTACAAGTAGAGGAAAGATTCTCAAAGTTAATGTTGCCAGAACTTGTTTTTGTCTTGATGAATCAAAAAGATAC
TTATTTCTGGAATTATTTCTTATCAGATTTGATCAACTAGTAACAATTGTTCACTGGTCCTTGTGTGACATGCCCTGGGTCCTCTGCTACGGCTGGAGGA
GGCAGAAAGTGTCTGCAGCCCCCAGGCTCAGCTCAGGTGTGTACTGACGATCCCATCCCATGACCCCCAATGCAAGTGGACGGGTGTCACGCCAAGGAGT
GGTGAATTCTACTGAGTTAGACAGGAGAGGGTGAGGGAAGGACAGGGAAATGGAGGTGGGGACAATCCCACTGGACTGGGACATACAAGTAGGTGGTGGC
AGAACAGGAGGGAGGCAGACAGCAGAGCTGCGGATGGAGGGGTTCAGGAGGAAGTGGGGAGGAGGGTCCTAAAGGCCCAGGGTATCTGCTTGCCAAGGAC
TCTGGCTGCTCTGCAGAGAAGGGTTGATTTCCCCATATTATTTGTAGGAGCAGTGGTGTTGGGGGTTTAGAGACTCATGGCCGCACGGAGTGGATCTCCC
TCCCCTTCTTACTCTGTCCCCATAGGGTTTGAGATGATGGGGGTTCTGATGTACCAGAGTCTTGGCGGTAACCAGCGTTTATTGACCACTTTTCCGAGTG
CCCTGTCCTAGAGCTTTCCACTGCTGTCCCCCTTACCTAGGAAGTGCCACGCTCCCCTTTCCCATATGAGAACATTAAGGCTTGGGGAGACAGTGGGGCG
TGCCCAGCAGCCCCACACAGCGCATGAGTCCCCAGGGCTGCCCTAATGAAATCCTGCAGCCTGGGCGGCTTAAACAGCACAAGTTGATCTCTCGGTTCTA
GAGGCTGGAGGTCCAAGACAAGGCCCAGCAGAGCCTGTTTCTGGAGAGCCCTCTCCTTGGCTTGAGCCTGTTGCCTTCTTGCTGTGTCCTCCCGTGGCCT
GGACTCCATGTGCACACGCCTGGTGTCTCTTTTTCTTATAATGATGCCAGTCCCATTGAATCAGGGTCCCATCTGTACGTCATTTAACCTTGTCTCCAAA
TACAGTCCCACTGCGGGTGAGGGCTTCAACATGCAAATTTTGGGGGGACGTATTTCATCCTGTAACACACAGCTGGGTAGTAGCAGAGCTGGGACGGGAG
CTGAGCTCTGTGTGACCGAGAGCCATCTGCCATGTTCTTTCCATCTGGAATGTCCTAGCTTAGGCCTTCCTGGTCATATAAGGTAAGGCCACTTGATTTC
TAACCAACATATTTGAGAATAAAAAAGAAAAACTTACTTGAAGAGGCCGCATGCGTTAGATAGGAAGCATACGAGACTCAAAGTACTCCGACTTGGGGGT
TTCCATTGAAACTTTCCTAAGTTGTGGTAAACTGTTGTCATTTGAAATAAGACTGTTGCTGGAACGAATCCTTATACCAGGTGCGTAGCTCTCACTCTGT
GCAGTGCGTTTTACAGCTGTTGAGGCCTTTCAGTCCCGTCCATGGGAGACCTCCTTCAGGCTGGTTTTGAAAACCAAAGCTCCCTTCCCTTGCGGAGGCA
GCTCCTCAGGGCCGCGGGTAAATGTTGGGCCTGTAGCTGGGGATGTTCAGGAAGAGCCTGTGGATTGGGCAGGTGCTCACTGTCCRTCAGTTGTGTCACT
GGTTGCTTTGACAGTGGCTGTGGTGTTTTGTGTTTTGGTTAATTTCTCCCAGGTATAAAAGATAGCTATATACTCACTTCATTACTGAAAGAAAGATACA
GCTGGGCATAGTGGCTCACGCCGGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCGCGAGGTCAGGAGATCGAGACCATCCTGACTAACATGGT
AAAACCCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGCCTGAGGCAGGAGAATCGCAT
GAACCCGGGAGGCGGAGGTTGCAGCGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGTGGCAGAGCGAGACTCYGTCTCAAAAAAAAAAAAAAAAAAA
AGGAAAGAAAGAGCAGGAGTGCAGAGACTCCAGGTCAGACTTAGGAGGCCTTTCACCTTAAAGGTTAAAATCCCCACACGTGACAAGTAGCTCTGACTAC
TTCCCACAGTCTTTGGCCATTTGCAAACACTACATAGAAACAGATGTCTACCAGCTGGGTGTGGTGGCTCACGCCTGTCATGTCAGCACTTTGGGAGACC
GAGGTGAGTGGATCACCTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATAGCAAAAACCCATCTCTACTAAAAATACAAAAATTAGCTACACATGGT
GGTGTGCACCTGTAATCCCACCTACCTGGGAAGCCGAGGCATGAGAATCGCTTGAACCCAGGAGACGGAGGTTGCAGTGAGCCGAGATCATGCTACTGGA
CTCCTTTTTTGATCTCTGTCTCAAAAAGAAGAAAAAAAAAAAGATATCTACCAAGACCAAGACTCCTAAGGAAATTGTATCATTAAAGTCTTATTTCAGT
TCTGCAGTATTTATTTAACAGTTCCTGACAGCAGACTCAGTTTCTCCTCGTGTAGGAACTTGGACTGTGGAATAGGACTTCTCCCAAGCTGAGTTTTGTC
CTTTGTGAATAGAGGCTTTGACAACCAAACAAGCACCTCTCCTGGCAGAGAGAAATCACTGGCTGCCAGAATTTCATGTTTTGTTTAGAAACAGCAACCG
TGGAACTTATGGCACTTGGCATGGCTCTTAGACCAGACACATTTTCCCAGAAATGGTCAGGAAGGCCCAGACTGTGCACTCTGTCCCAAGACTGTCGCTG
TGGTTCTCCCTCACACACCCCTATGACATGGTTCTGCTTGTTGCCTACTCCAGAGCCTTTGGCTCCACAAGTTCTAAAGAAGGTGGCGGCTTAATAAGTC
TTCACAGTCCCCTTTTGAGGCTTTTCAGGAAAGTCATCAGACAATGACATTTTTATCAGATAGTTTTGAGTAGCAAAAACACTTTTTCCTCTCCTACATC
TAAAAGTAAAAGAATTTACTTTTAACTGACTCACTGAAGGCCATGTTTTGAAACCAAAACACTCTTTCCTTGGTACCAAAGCTGACAGCTATAAGTAAAT
ATATAGGAATGTAAATATTATAAAGTAGGCATAGAAGAGTTTGTTAGTTTTAGGTTGGGTGCGGTGCGTCATGCCTGTAATCCCAGCACTTTGGGAGGCC
GAGGCAGGCAGATCAGTTGTGGCCAGGAGTTCAAAACCAGCCTGGCCAACATGGCGAAACCCCATCTCTACCAAAAAGACAAAAAGTAGCCGGGCACGGT
GGCGCATGCCTGTAATTCCAACTACTCGGGAGCCTGAGGCAGGAGAATCGCTTGAACCCGGGACGGGGAGGTTGCAGTGGGCTGCGATCGCACCACTGCA
CTCCAGCCTGGGCAACAGAGTGAGACTCTGTCTCAAAAAAAAGAAGAGTTTGTTAGTTTGGGAAATATGTTCCTAGTTAGACATTGTCCATAAATTACCT
AATACTATAGTTAATGTTTGCAGACTGGTGAAAACAGAAACATTTCAAAATACTATTAACATCTTAGGGCCGTCCCAAGTCTAGTCCTCCTGGTTCAATC
CGATCTGCTCCCTGCAATATTTACTCCCTAACCTTTCCTTCTGCTTAAAAACTCATCAGAATCAACCACATTATTATCGTGTGAGACTTGTAATAAGAAT
GCTGGCAGTTACATGCCGAGTACATATTGTACATTACGTTGGTTGCTTCATCACAGGACCTCATTTAATTCTCCACCAACCTAAGATACAACTTGCTACT
CTGTTCTAGACGAAGAGTTTGAGGTTCAGGGATGTTAAGGTATGAGACCGATGTTATATAGCTCCACGTGAGTGGAAGAGCTGGGATTCAAATCCAGGAG
TCCTCTCTGAAACATTCTAGAAAAGCCTATGCTGTTGCATCCCCTTCCCGCCCCATGCCATCTGTGCTCACCATGACCGTCTTTTTTTTGTTTGTTTGTT
TGTTTTGAGACAGTCTTGCTCTGTCACCCAGGCTAGAGTGCAATGGCATGATCTCAGCTCACTGCAACCTCTGTCACCCAGATTCAAGCTATTCTTCTGC
CTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGGGCCACCATGCCCAGCTACGTTTTGTATTTTTAGTAGTGGCAGGGTTTCACCATGTTAGTCAGGCT
GGTCTCGAACTCCTGACCTCAAGCAATTCTCCTGCCTCATCCTCCTAAGTAGCTGGGATTACAGGCACATGCCACCATGCCCGACTAAGGTTTGTATTTT
TAGTAGAGATGGGGTTTCACCATGTTAGGCTGTTCTCGAACTCCTGACCTTAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTG
AGCCACCATGCCCGGCCCATGGCCATCTTTTCTGTGCAAGATCAAGCATCAAGTACACAGTGTACTTTCCTGGTGGGGCACCAGCAAGGCAGGCTGTTTT
ACGCAGGGCTGTCCTGGAAAGTCTGTGCTGTCTGGCACCTGGATCAAGATCAGATGAGGTCCTTGAGCTCCAGTGTTCATCGGAGTCCCTGTGGGCCCAG
AGGTTGCCTGAGTAGGTCAGAATCGAGTATCGGGAAATTGTATTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTGGAGACAGAGTCTACTCTGACACCC
AGGCTGAAATAAAATGGTGCAATATCTTGGCTCACTGTAACCTCTGCCTCCCGTGTTGAATTGATCCTCATAACAGCCTCCCAAGTAGTTGGGACTACAA
GCACACACCACGATACCTGGCTAATTTTTTGTATTTTTAATAGAGATAGGGTTTTGCCATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAGGCAATC
CACCCACCTCCACCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCAGGAGATTGTATTTCTGTGTTCTCAAGTGATGCTGATGCTGCT
AATCCAGGAGCCAYACTTTGAGATCCCCTTTCTAGGCACATGGAGTCACTTAGGGCTTCTTTCCTTTCCCGCCTCACAAATAGATGACTCTTTGATTCGT
ACCAGCCCCTTTAATCTGTGCTCGTGAAAATTTTCCTAGCCGTGAGGCCCGTGTCAGATGCCTTCTGTTCCAGGTAAACCAATGAGATGTGTGCTCTTTC
CTTTTCTTTCCTCCGATGCCCGTCCGATCTTGGGATCTTGCTCTCTATCTTCCCTGTTTATAGCTATGTGCATCATTCACGCCTCCTTTCCCACGTGTTT
CCGGATGGTGCACACTCCGAGACATGTTCTTTCTCCTGCGTTGTGTACACAGCAGGGAGGGTATTTGGTAGGCAGGTTGCTGGTGGTAGTAGCACTAGGT
AGCATAGGTTAATTGTGTAAAATGGCTTTTTTTTTTCTTYTTTCTTTCTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGT
GCAATGGTGCGATCTCAGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTTTTGCCTCAGCCTCCCGGCTAGCTGAGATTACAGGCATTCACCA
CCATGCCCAGCTAATTTTCTATTTTTCATAGAGATGGGGTTTCTCCATGTTCAGGCCGGTCTTCAAGTCCCAACCTCAGGTGATCTGCCTGCCTCGGCCT
CCCAAAGTACTGGGAGTACAGCCACCATGCGTGGCTAAAATGTCTTTTCTTCACCAAAACAGATTTTGTTTGTTTAAAAGAATATGTTATATTGGAGAAG
TTACAGTATTCATTAAATTGTATTTTCAGGAACATTATAATTTTTAAGTCAACATTCTTTAACTTTTATGTATCTAAGATAGTATGTTTAGGTTACACAG
AAGTGGTCACATTTTTTTAATCTGCAAAGAAGAAAGCTTTTGCCAGTGACCCAAAATAATTTCAGAAAACTGGTTTCTTGTACAACTTTTCTACTTTTGA
GTATTTATCCAGAAGAAGATTTGTTTAAATAAATGTCTTCACATACAAAATTTTGTTTATAAGGAATTCTTCAAGATTAAACCCACAAATTTTAGTAACA
CCGGACTGTTTTTGTAATTGCCAAGTTTTTACCATATTGTTCAGTCTCTATCAGCCACAGCCTCTGTGATTTCATTCATGCTAAAAACAAGAATGTTTAT
ATTTTTAGTGTACATAAAAATTAATTTTATACAAATATATAAAACAGCTACACAGAAATACTAGTGGAGAGACGAGTAATGTGCCAAGTAATGATTAGGC
AATGAGGAACCACGAGAAGCAGATAGCTCTGGTTGGGTGTGTTGGCCTTCCTTTGCTCATATCTAAAGTATTGGAGATTTAAGACAATATGAAATCATTG
TATACTAAAATGTATCATTAACAAAGAATGATAAAATCCTACTCTAAGAAAAATAAGGAAGAGCAGAGTTGTGGAAATGCACTGCTATAGTCCTGAAACT
TGACCCAGTCTTCTTGAAGGGCAATCTAACAGTCATACATGATGGACATAAGAAATTTGATTCACTTTGTCCCAGTGATCTGTCTTCTAGAAGTTTATCC
TCAAGGGAATAATTCACTAGGAGAAAGGGAAAAAGACCTTTAGTGTAAAACAGTGTGTATAGCAGTTATTTATAATATTAAAATTCTGGGAGCTACAAAT
TTTCAACAAGCAAGAAGTTAAATTAGTAATTGCTAACTGAATAGTACCAGGATGTACAGCCATTAAAATGGCCAATTTGAATACCCTTTAGAGATAAGTG
AAAGCATAAAACATAAAACTGTGTATAATAATTGGARCATGAAAATATGTATACATGTGGCTTTAAATTGGATGAATAGGAACGCAGTAACAAGTGAACT
GGGGTAGGTTTAAAGCAGAACTTCAATTTTTTTTTTTTTTTTTTTGAGACGGGGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCT
CACTGCAAGCTCTGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCCGGGACTACAGGGAACTTTAAAAATTTTAACTTCATGTTTT
GAAATAATTTTAGATTTGAAAGAAATTTGCAAAAAATAATACAAAGACTCCATATACCCTTCACCCAGCTTCCTTCACTGTGGACATTTTTATATAACTA
GTACAGCTATAAAAACCAGGAAATTAGTATTGGTAAGGTACTAGTAACTTATCTATAGGCCTTCTTCACATTTTACCAGTTTTTCCTGAAATGTTCTTTT
TAATCTCAGGATCCAATCCAGGATCCCTCCTTTCACTTAATTGCTTTATTTATTTTGCCACTTCCACCCTGAGAAAATTCCTCAAGTCTTATGTCCATGA
CCTTGACACTATTTTAGGAATATTGATCAGTTACTTTGTAGAAAGCTCTTTAATTTGGATTGCCTGATGTCATCTCCTGAATAGATAGAAGATCTACATT
TCTGGCAGGAAAACCACAGAAGCCTTGCACCCTTCCTGGTGCTCTGTACCAGAGGCACCTGACAGCCACCTGTCTTATTCCTGGGAACATTGACCTTGGT
CACTTGGACAAGGCGAGACCTATTGGATTTCTCCCTTGAGTTCTTATTTTTCCATTTGATAAAGTTAGGGATGAATGTCTTCGGGGAGATACTTTGAGGC
TGTGCTGATCATTTTTAGTGATAGACGTTGTACTCAATAATAAGTAGGTTTTATAAAATGAAAACTATTTTCTTCTGATAAATGTGTACAGTCTTAAATA
AAATTTAAAGTGCTTTTTTAACTCTTCCTGTATTGGAGGGAAGGAGTAAATGAGGATGATTTTGAAACTTGTTGGTTACTTAAAGAAGACCTGGGGAAAC
CTAGAGGTGAGGAGGAACTGGAGAAGCCCAGGAGCGAGGAGGAGCTGGAGAAGCCCAGGGGTGAGGGGGAGATGGAGAAACTCAAGGGTGAGGAAGAGCT
GGAGAAGCTCAAGGGTGAGGAAGAGCTGGAGAAGCTCAAGAATGAAGAGAAGCTGGAGCAGCTCAAGAATGAAGAGAAGCTGAAGAAGCTCAAGGGTGAG
GAGGAGCTGGAGAAGCCCAAGGGTGAAGAGAAGCTGGAGAAGCTTGGGAATGGGGAGAAGCTGAAGAAGCTCAGTGGTGAAGAGGAGCTGGAGAAGCCCA
AGGGTGAGGAGGAGCTGGAGAAGCTTGGGAATGGGAAGAAGCTGAAGAAGCTCAGTGGTGAAGAGGAGCTGGAGAAGCCCTGAGTGAGCCCGAGCTGGGA
GTGGTGAGTGTGAGTGGACCTTCCCAGATAGATCTGGTGAGAATGGGGTGGCAGTTCTAGAACTGAACAAGAGGGGCTTCCTGGTCGTGGACCCCGACGG
GTGGGCATGCGGTAGATACCCAGCACATCCGAGGGAAGGATGGATGGYTATTGATTTCCCTTCAGGCCATGCCAATATGTTTGTCAAGCAACAGATGCAA
TTCAAGTGCTACTGTGATCCAGGYGTGGCTCGCTGTTTAGGTAAAGAAGCTTCACAAAGGCGCTGCCACAAACCAACATGTGTTCTTTGGGTTTCATCTC
GTAATTTCATTCATGAAGGTTGGGAATTCTGTTACTCAGAATCTTACCTATTTTTTCCAAGTAGTTTCTCTCAGAGAACAAAAACTATGTATAGTATGTG
TGTACATATGTAAATTTATGTAACATATTAACATGTTATTATGATATGTAACATATCATTATGTATTATGTTAACAATTATAATCTATAATTCTATAGAT
TAACCCTAAGATTTATTTTTCCCTACCATCTTCCCATTGTTGCCCAAATAACTGAGTGCTGTCTTTCCCCACCTCCCCGTATCACCCAGGCTGGTCTCGA
GCTCCTGGCCTCAAGCAAACCTCCTGCCTTATCCTCTCCGAGTAGCTGGGACTATGGGTGCGAGCCACCACGCCCAGCTCTAGAGTGCTTTTCCCTGTGC
TCGCACCAGAATTACAGTGAACTGCCCAACAAACATGCTGTTTTTAAAGCTAGAAGGGACCCTCATCTTATACCTAGGGAAACTGAGTCCCAGGAAGGGT
AAAGAGCTTGCTCAAGGTCCTTCCAGATGCTCTTCCAGTACCATTTCCACCACTGACACCAGCATTTTCTTATTCCTTGTGCACTTCTCAAAAAAATAGA
AATAACAAGTAGTGGTTGTTTACTGTTTTGACCCAGATATTTTTATTGTATTGCGACTGGTCAGCTTTTTCTAAGTTGAATCTTTAAGCTTCATGCTGTT
TTATCTGTTTTTTTAAATATGCAAGGGAATAGATAAAAAGCATTACCTTTGAAAGCATGTGGTTACTAAGAGACAACATGACCATCCTTTGTGTGTTTAT
GTATCTAGCAGGCTCATTGATTCCCAGCAGTCCTGTGAGGCTAGGTGGCATTCATTCCTCTGCACATTTTATAGATGAGAAAGCTGAGGCTCGCCTTGCA
TGATTTCCTAGAGCCTGGAAGAGGCAAAGATAAGATTCAAACCCAGGTCTGCCTATCCTAAAACCAGTGGTCTTCACATTGAAGGGCCTTATGTAGCACC
GAGCTCCCAGTATGTAACTTAACTTATATATAACTTAACATTCTGTTTATGTTAAAAATTCAGGCACAGGACTACACCCAGGGACTACTGCAGAAACGTT
TTYTAAATAGCGCCAACGCTGAGGGGTCTTCGATTGGTGGCACCCGTGTTCCACGGTACAGCTAGGCCTTCTGTGAGATCCCTTTCCCCTTAATACAGAA
ATCCTCTAAGTGTATTCGAAAGCAGTTGTTTGTAATTGGAGTATCTGGGATTGACAGTGGCTTTAATTAGTTGATTACTAGTTCTTTAAAATGTACTGTA
CTCACTGTGGGTCTTGCAAATTGGTAACTGGTAGCTACCAGTGTAATTAAATATTTCAGAGCACTTGGCTACAGTAGCATTGAACTGTGAAGAAATAATG
TTGTACAGCCAATCAAAAAGAGATACTTGTAAACTCATTTACAGCGTCAGTGTGTGTTAGGACCATCATTGAGATGCTTATTGCAGGAGAAATTAAAGAT
ACAATTTTGTGCTAAGAGGCAATGTAGAAATTAGTTCCCGAATTACTTGTTAATTGATTTGGTGATTCCCTCGGGTCTGCATGCTCCTTTTCCCCCTTTT
TGTTGTTGCATTCAGTTAACAGTGACTATTCCCAGAGCAATAAAAATATATTCCACATGTAGATGAGATGTGCCCTTATATGAGACGGCCTGCATTCTTT
CGCGGTACCAAGAAATGCTCAACCTAAAACACAACTGTGTTTTTCTCAGGCATATTGTTGTTTTATGTATACCCATCAAGGTAACCGGTGCATTCACGGG
TTTGGATAATTTCAGGAAAAGGAAAGCATGTTTTTATGTCTCACGTTTACAGGCGCTTTTCTGATTTTTCTTTCCCCCTAATGGAAACCTTCCTTTTTTT
ATCAACAGTGGAGGAGATTCAGGAGACTTGATTTATGGAAGCTTTTTCTTATTTGCAATTCAGCAAGAATAACCATATGAAAGACCATTTGTAGAAAAGT
GCAAATTGCTACTGAAAATGATATTGAAAGAAAATGAGACCTGTTTCTCCTTGTTGAAATTGAGTGTGGATAGAAGGAGAGACAGCCATCGTGGGTCAGA
GGGAGCCTCCCAGGCTTCCTGGATGCAGGCTCCCGTCTCCAGACCCCTTCCTTCTTGACCGAGGGGAGAGGACACTGAAATGATGCACATATTGGTGCTG
CTAATGTGAAAGATGCAGAAACCGTTATCCTTTTGAATTTCCAGTGGAAGATCCAACGACCCTTTGAACAGCTGCCACCATGGTGGCTGTGGCTTCATTT
TGAGGAAAACATTTTTAATATCTTGTTGGCCGTGCTTATGGCCTGAAAAGCAGCATTAACGAGTTTTTGAAAACTATTATTATTCATTTTAGGCCAGTCC
GTTATTTTTTTCTATTGCCCTTCCCGTGATCACTTATGCATATAAATATCATTATGCTTTTGCTTAACTGGGGCAAAAATCATGTGCATTATTTCAGTGT
CTGCTTTTAAAARTAGATGGTAGTATTTTATTTTCAGTTAGGTGAAGCAGAAAAATGTATCCAGCAAAGTCTTCATTAAAAAGCTTAAGATGGCTAGAAC
TAAATATACATTGAACACAATTACTAATTTATCAAATATGTTTGCATGTTGGTCAGTATATACAATAAAAAATAGTGTTTAATTTGAAATGTTAAAACCC
TCTCTAGGTCCAAAAAATAGAATGGATGAGACCTACTATTTGATAGCACAGCAGGGTGACTTTAGTCAGTAATAACTATACATTTAAAAATAACTTAAAA
GAGTGTCATTGGATTGTTTGTAACCCAATGGATAAATGAGAGGATGGAGACCTTATTCTCCACAGTGTGCTGCTTTCACATTGCATGCCTGTATCAAAAC
ATCTCATGTGCCTCATAAATATATACACCTACTATGTACTCAAAAAATTAAAAACAGAAAAAAAAAAATAGAAACCCTCTCAATTGTTGCTGCACCCAGC
GTGGAAGAGGAGGTGTGCGAAACCATGCTAACGTGGCGCCATGCCCTGTGATGAAAGAGCCACCTGCTTAGTTGTTGGCTCCAGTAGAAGGAGAAGGAAC
ACACCGTTTGCTTACTGGATGGCAGAGCGTTGGCATGCTCTTTATCCCTCATAGATTCCTTTCAGGTTACCCCCAAATAGGGTGACCTAGTTTTCCTCAT
GAGCATGGCTTATTAAGGGCCCCAAAAGTCTAACCTCTGCCAACTCAGAGATGCTGCTTGGGCAGATACAGGGCCTGAGCAGGGATAAGGAAAGGTAACC
ATCAGCTGCATAACCATGCATTTGCAGGTTCATTCTTTCTACTTTCGTCTCCGTTGCTCCGTTTCACATATCTTTTTTTTTCTTCCCCCACCCCCACTCC
TTTTTTTGAGACAAGAGTCTTGCTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATT
CTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTTACCATGTTGG
CCAGGGTGGGCTCGAACTCCTACCACCCGCCTCAGCCTCCCAAAGTGCTGGAATTACAGGTGTGAGCCACTGCACACGGCTTGCTTCCCCATATCTTTTT
AAAAATGTTTTTTTGCAACATTAGCCACCCTGAGAGTTTCTTCACGAAGTTCCTGTGGAGGTGGCTGGCTGTCTTCGTCACTTTTCTCCACAGAATGTTT
CTAAAACACACAAATTTGGCCAAACAGCCTCCAAAGCAATGATTTCATATCTCCTTCCTCCTATTGTTCACTAACTTTGATTAAGTTAGAGAAAAGTACC
TGCACTTTTCAGATACGGTGGCTCCGCGTGTTGGAGAATTCAGTACCAGATCCATGGCTCATCCTAAGCAGGGCAAGGAGGAGGGGAGCTCTTCACCCCT
GGGCGGGTTTGTAGTGCGGCTTGTGCGTCTCCCCAGATTGCAGAGGAGAGGAAATACATCCCCTTCAAGATGAGAGGACACAGCTGCAACGTCTTATTTT
AAAAATATGTGTGACTTTTACTTTCTGCTTCATACATGCATCACGTGTTTGAATATACTTTCTATTATTTGTGAGTTAACATTGCTGTTTTTCTCCAAGT
GTTTGAGTGAAATTGATTCTCCACGCAGACTCTCCTTGCTCACCCTGAGGTTTCAGGGCTTTGACCTGAGGGCTGAGACCACAGGGCACAGCTCCTGACC
CACGTGGCTGAAGGGCTTGGAGCAGGAGGTAAGGGGGCTGCCGGCGTAGCTCCAAGGTGATGAATATTTCTACTTGATATTTCTCCTGGTATTTCTGCAC
TTTAATGACTATTTCTACTAATACTTGTACTAATAATTTTTAATGGTTCACATTGAGTAGGTGACATTTTGATACATTAATGAGCCTTATCAATGACTTT
TAAAAGTTCCTTAGTGTGCCAGGATACTTTGCTGCAGCCCTTGGAAGGAAGGGGAGAGGGTGTGGCTGTGGCCCCCATTCTACCCTCTGAGCATGAGTCA
CAGGTGGCACGCCTAAGAGTAACATCCACGGCTGAATCGTCACCGGCATTGAATTACACTTCCAAGGTTAGTCAGGGAGGCTTTCCTTTAACATAGCTTG
CCCGTACTAAAAGCTGTCAGAATACTGGAGAAATGTAGGCCTTGAAGATAGAGGGGTGTTTTCAGGGGTGGCCGCCTTCACTCTGGAATGCTTTGCGCCT
GCTGGGATGTTGCTAGCATGCCTGTGGGGAGAGGCCCGGAGGGCTGGGCTGCGAGGGAGGCTGCACTGGCTTCTGGGAAGCGCTGGTTTCTGGAGCAGGC
CAGCCTGCGGGACTCCAGGACTGAGGCTTGCCCAGCCACTGTGGGTCCTGACGGTGCAGTAGGGGCTGCATTTTGACAGACTTACAACAAGTATCCCAGA
GAAAGATGAGAGCAGATGGGGATCCTGAATTTTGGTTTCCTGGGGACAAATGTTTTCTGGCTTGTTCTCATGTTTCTGGGAAATAATGGGATTAAATTCG
AGTATCTTTCTTGGCTACAGGAATTGATGGAAGAGGAAGTATTTTGAACTCAGTGAAATGAGCATTCCTCTGCACTAGGCCGACCCCTTTCTGTGGCAGC
CCACTGGAACATAAGCACCCCATGTTGGGAATTTCTTTTTTTGGTCACCAGTGTATCCCAGACCCCTAGAGTAGCTCTCAGTAAATATTTATGTAATGAA
AAATCTCAATTCTCACAACCACCTTAGGAGGGATAATAGCATAATCCCCATTTCACAGACAGAATGAATGCTCAGAGAAGTTGAGCCACTTACTCAATGT
CACTCAGCCTGGGAGTGGTAAACTAACACTTAYGCATTGTATGGAACTGCCCACGAGTCACGTTTGTTCTATGAGAAGGCAGAAAATACCTGGGGAGGTC
TTGCCCAGGGGTGTGTATGTCTTAATTGATAAACCTCTGGAATTGGAAACGTAGAGGGTAGTCCAGGGTAGAATTTAGGCTCAAGCTTACTTTGAGAGCA
TGTTGCCCTAAGAGTGGAATGTCATGGAGCAAATTCCAGAAGCTTTCGCTCACCCAGCCTTTTCAAAGTCCATCCCAAGACTGTTGGGTCCACATGTTGC
TCGGATGTCATGAGATGTCCCTGGTTGACACGTTGAGGACACGCTAAACCACACGAAGATAATGGGTGTCATTTTGCATGACTCACAGCCCTTACCATTT
GAACGTGCAATGGATGCTCCGAGAAAGAACAGACCTTGAGTCCTCGTTTGTAAGACACAGCTCTCAGACGCAGCCTGTCCAGAGTTCTGAGCCTCAGTTT
TGGGGGTCAGGTGTCATTGTCTTAAGATGCAGTTTTGTGGACTGGTACAGAGTTCAGTCTAAGGCAGATGTCTCTCTTTTATTCCTGTTGTCTTTCAACA
TTTGGGCTACTGGGTAGATGGGCACCAGTGACTGGGCAGATTGGCACCAGGACTTTGTCTACAACCTGCGTTTCCCTGTTTGTTCTGCCATGGGGCATGA
GGCAGCGCCTGGCTGACCTTGGACTTGCAGGCAGCCTCTGTGCATCCCCTGGCCCCTGGCCTYGTTGTTAGATGGTGCATTTCGTTTTCTGGAGAGAGAG
AGAGAGCTGGACCACTGTGGCCGTTGTCAGAATTCCACTTTCGTCATCAAGGATTCATTTTCTTTATGTCCGTAATGTGATGGGGCAGCATTAGCAGTCG
GTCACCTGTGTTTCCAAAGGGAGAAGTATTTTCAGGATGTAGAGACTGTGGCCATGTTAATAACCAGGTTCTAACTTTCCTAAGAACCCTGAGACCTTGT
GAGCAAGAAAGGGCACAGCATTTGACATCTGAGTCAATCCTGGCCAAATGCATACTGAATTGCCACTAGAGAATTCACCACCACTCCTGATGAAGCCAGT
TGGGTAGTTTTCCTTCACTTGTGAAAAATTAATCATGATGTTAGCTTGTTATATATTGCGAAGAGATTTTTTATAAGTTGGTGATAGATGATTTTTAATT
TTTTGGACTCTCTGTATTTCTACATCTTCTTTGTGGGAAATTCTTCAAACTCCATGGGGGCTTGGTGACCCAGCCTGATGGTATCGTCCATCCTTGCAGC
AGTGGGTGGCCCCTCTGTGCTGGGCTCTGTGGAAGGCGCAGATAGACAGGAGGCTGCTTGGCCCTGGGGAGTTTGCCGTGCAGGGGGTGGTCAAGGACCA
GAGAAGGTGGTGTGAAGAACTGGCAATAGAGAGTGGGTGTCAGTGGGCCGGGACAGGCAGAGCTTCAGGAAGTGACAAGTAGTCTCTGGGGACCGGCACA
TCTGGACATGGACAGTCAAAGGAAGACTGGGGGCACATGGGGACCAGGACACCTGGACATACACAGTCAGAAGGAAGACTGGGGGTCGGGGTGGGACAGC
ATGATGCAGAGCTTTGGCGGCTGGCTGATGGAGTCGTTCTCATTTGTGAAGACACTGTCCAGGGCTAAGGCAGTACTTGCCAAGGCAAGGCCACCGTGAT
CCGAGACTGGGAGGCCCAGAAAAGATGCAGACAAGGTAGGAGTCGGCTCTGTGTGACTTCCCCATGACACCAGTGGGCCAGGCTACAGTCACCGTTTGAG
TGCCCGTGGAGGATTGGTTTACTTAGTAAATTCGTTGTATTTTAAAAGTCAGATGGAATTTGTCTTCATATTTTGCTCATGTCAGTGAGGAGATAGATGT
GTGCTGTCACTTAGCAGTGTCCACTGTCTTTCTTCAAATCAAGGCCAGTGAATTTTCTGATTGCAGGCACTTCAAAGCCGTCAGTTCCATTCATTGTTTT
TCAAAGTATTCATTTCATTAAACATCCCATCAGAAAGCCTCTGATAGAGGGTGCCCTCTCATCAGGTCCGTGTGCACCAGGAAGTTTACAGTTCAGAAGT
GTTGCATGCTGAGCACTCTTTGTGAGATACTTTGGGGGCTCAGGGGGCTTGGAGTTTATTTGTTGGGGGAAGCAATGTTGGTAGGGGGTGGGGGTTGCAC
CTTGAGGTTTCTAGGCCAGCCCAGGACGGTGTGCGGCCCCAAGCCACTAACACAGCACTCCTAGTGTTCCTCACAGCAGGTGGAAAATGCATTTATAAGA
TATTTCTTCCTCGGAATTTTTAAGTGATTTTACTTCTATTGGATGCTGTTGATAGCCTCATTCTTCTCAGGTCCACCTGTCGGTAGGCCCAGTAGTCAAC
TCCTAACTAATAGAGTAGTTATTAGCTGGTTAGTTGTCTGCAGCTAAGCAGGAATGGGACTGGATGGTGGGGACTCCTGTGAGAATGCTGATGGGTGCCG
CCTCCTCACCTGTGTGTCGCAGGTGTAGGCGATACCTGGGAAGCCGTTGTACGGGGCTGGCATTTGCTASTTTTATAAGATGTCACAAGCATGACCCAGG
AGCACACCCCATGAGAGTCACAGTGGTACCAGCACCTGCTGGCTGCTCTCTGCACTGATGACAGCTGTTAGGGAATCACATTCGAGACTTTAACTAGATT
GGTCCAGAGTGCTTCACTCTTCTTCTTTAAAAAAAAAAAAAAAAACAGTAAACGTTCTTTTTTAGAGCAGTTTTAGGTCACGGCAAAGTTGAGCAGAAGG
ACACCCACAGCCTCCGCCATTGTCCCCCACAGTCTGTTGCAGCCGATGAGCCTGCACTGACAGCACTGTCACCCTCAGTCCATCTGTACTTTAGGGTTCA
CTGTTGGAGTGTGTTCTGTGAATCTGGACAAATGTATAATGAGCTGTATCCACCACTGCGGTGTATAGGATCATAAGAAACAGTTTCACTRCCCTAAAAA
TCCTGTGGTCCACCTCTTCATTTCCCCCACCGCCTGAAATCACAGATCTTTTTACTGCCTCTATAGTTTTTCCTTTGCCAGGATGCCATAGAGTTGGAAT
GATAGAGGTGTAACCTTTTCAGATTGGCTTATATCACTAATATGCATTTAAGCTTTCTCCATGTCTTTCCATGGCTCAGTAGCTCATTTCTTTCCAGTGC
TGAGTAATATTCCATTGCCTGGATGTACCATGGTGTGTTTATCCATTCACCTATTGAAAGACATCTTGGGTGCTTCCAACTTTTTGCAATTATGATTAAT
GCTGCTAATACACATTTGGGTGCAGGTTTTTGTGTGGACCTAAGTTTTCAGCTCATTTGTGTAAATACCAAAGAACATGATTGCTAGATTGTATGGTAAG
AATGTTTTCAGTTTTGCAGGAAACTGCCAAACAGTCTTCCAGAGTAGCTGTACCACTTTTTATTTCCACCAGCAATGGATGAGAGTTTCTGTTTCTCCAC
ATCCTGTCAGCACTTGGTGTTGTCAGTGTTAGACTTTGGCCATTCTAATGTGTGTATAGTGGTATCCCCTGGTCATTTTCATTTGCAGTTACCTAATGAC
ATATAATGTGGAGCATCTTTTCATGTGTTTATTTGCCATCTGTAGGTCGTCTTTGGTGAGGTTTCTGTTCAGATCTTCTGCTCATTTTTTAATTGAGTTG
TTCACTTTCTTATTGTTGATTTTAAGGGTTCTTTGTATGTTTTGGATAATATTCCTTTTCAGATGTGTTTTTTATAGATATTTTCTCCCAGTCTGTAGCT
TGTCTTCTCGTTTTCTTGATCTTTCTTCTTTTCCCTCCTAATAATTGTTCTCCTTCAAGGTTCTCCAGCTTATTGATATGTTGTTTAGGTAGGTCTTGGG
CTTCATTTTGCCTGTAACATATCATTAGCATTTTCCTTACAGTTTGATAAAATTAATTTCAACAATTTCTACACTGTGAAACCTTCTGAGTGAGCACATC
CTCAAAATCATCAACTCTTCCGATGAGATAATTGCTTAGGAGCATATACAGTTCTTAAAAGCACTTTTATACATTGTATGAAATGTAGAATGGGTGACAT
TTTATAAGTTATATATTGTAGACATTCTAGACTTCATTGCAGCTAATAAGCATCCAGGAATCTGTGAAGTTCTTATGAATGATAATTCTCCCCATCCTGT
GTCAGTGCTAATAACATCTGTAATTAACAGCTAGGGAAGTCGTTGCCTGTTGGCAGCTGTGCTTATTGGCTGAAGTGACCACGTGCAAACCAAGCCTGGC
TGAGCCTTGGGAGTGAAGGGATGTTCAAACCCACAGACTAGAAGGCAGGTGGGCAGCTGGCACCCAGATCCCATGGATCAATACCATGTGTGTGAGAGAG
AGGGTGGGAGAGCCTAGCTGCCAGAAGGAGGCTGGTCTCTCCCCTGCTTCATGAGTGTACAACAGGAGACTGGCAGCCCCAAAGCAGCTAGTATCCTCTG
CCACTGCCCTGACCGAGGACCAGGGCCTTTGGCTCTGAGACTGTGTGACATCTGATGGCCAGGGCATGTACATCATCACAAGGAAACAAGACCTGGAGGG
GGCCGGTGAGCCAGGGAGCATGGTAGAAGAGACAAGCCGGAGAGCAGCTGGCTCTGGAGGGGCACTGGCAGGACCCGAGGGTGCAGGCAGCAAGCAGGCT
GTTGGGTGCTGCAGGCGCTCTCCATTGGAGCAGTGCTGTGGAAGCACCGTCGGCCTGCCGCCGTGCTGAGTGATGCCAGGGCCACGRCAGAGGCTGGCGT
AGGCACGGGAGCGGGACCACACGTGGCCAAATGAGCAGGAAGGAAGGGACAGGGCAGGATTATTTTAGAAACTTAGAAAAATCATACCTGCTTGCTGTAG
CAAAATTAGAAGATGTACATGGACAAAAACGTAGAAGTCACCCCTTAATGCCAGTACTCCAGGATGAAAGTGGTTATCCCCATAGTTTGCACCCCTGTTC
AAGTTCACTCTCTCTGAAACACCTAAACCACCCACCCCCACTCTCCAAGGCCCTCATGCTCACCTTGACTCTCCTCATCRCCCCGCCCCCTCCTCAGAGT
GCTTGCTAATGTCACTCTGGATCCCACCTATCCTGGCTTCCATGTGGGTAGAAATCTTGACTTTTCGTTACAGTGAATGTCATAAAAGGTGCTCAAGAAA
TATATCCCGAATGAATGAATGGAACAATAACTGGTAAACCTTTAAAGATATTTATCAAATGGGATCCCACTACAAATATGGTTATAAAATGGGATCACAC
ACTTATATGTGTGCATGTTTATGAATACATGTGTATAACTGAAACAAATGTTCTATGAAATGATCCTAAGTGCATCTCACTCCAATCCTCCAATCTGGTT
TTTTTTTTTTTTTTTTTTAAAGCTCTGGTTGCAGCTCACTAAAGTAATTTCATGACCCACTAATTATCTCACATATTTTGTAAAACTCACATTTTTTTTG
TAAAAAAAAAAAAAGCCAGTAGCAGCACTGGCTCTTTGTCCAGTATTGACATGTTAACTGTCATCCTAGTTGAGCCAGCCCCCTCCATGTAGGCCAGTCT
GGCGAAATCCAGTGCTGTGTCTCTATGCAGTCCACGGGCACACTGAGTTCTCATTTGCCCGGTTGGAACAGCTGATGGTTAGTTCTCAGCGTGATCACCG
TGGTCAGATGGGCGCCCCATRTGGTGCCTTGTGGGAGAAAAGTTCCAGGTTTTCTTTAGCTACTTCCACAGGTACACAGAGGTGTGCTGGCCATGGGGTT
TGTGTCTCTGCATGTTCTTCCGCATAGTATGAGGTGCAGGCTTTTATTTCATAGGGACACACCAGTGTCAGACAGAACATGGGGACAAGATCACACTGCA
GATTCAGATATGCCTTCTGTCCTTTCAAAGGGTGTATCCTGGTTCATCCTCTGTCCCTGCCTGCTGGAATAACTGCTTCCCCCGCTGCGTCCTGTCCTCG
TGCACCCACCCAGGCCACAGAGCCCGGTCTGTGAGCAGCAGGAGGGCAGAGCCCTGTCCTCCTCTGCAGCATAACCCATAATTATGGCTCTTAATTTACA
TATTCCATGCCTGCCTTGAGAAAATATTTTACCTGGAATGTCAGTTTTTTGGGTACCATCCACTGGAGTTCACATTCATTTTCACCAGTTGTTCACTTAG
CAGACCATTAGAAAGGAGGTCCCTGCGAGGTCCCCGTGAGAGGATAGGAAAATGCCATTTAAATAAAAGGTCAGCAAGAGCGAGAGTCTCCGAAGTTAGA
CAGGCATCCGGAGAAAGGTGGATGTGGAAAGTGAGGTTGACTTCTGGGCGCATGTGTGGAATATCCAGKCCCTTAGAGGCTCGGGTCKAGTGGTGGAGGA
TGAGGCCCCTCTGCCATAGGGAGAGCCTGTCTTAATCACGCCACGCAGGTGGAACAGACTCTATGCAGAAAACTTGCGGAAGCATTTTGCTAACATCACG
AGAACATGTGATTCGTTAGTTGGAGTGGACAGGAATGACTTCAGAAACCAGAGCAGGGAGTCTCGCTTAAAGTCTTGGCATCCTCGCCCCTCGGCCTCAC
ACCTCCCCCGTTCCCGATTCTCTACTTTTGCTCTCCCCGATTGCACAGTAGCCTCACTGGATGGACAGGTGCCCTCAGTGTGTTCCCCGGGCATGCGTTT
CCCACGCTGAGCTCAGAGGTAGCTTTCAGTAAGTGCCAGCTGGATTTTGTCACTCCTTCAGTTGCAATCTTCAGTGGCTCCCCATGGCCTGCACCAAAAT
GTTTATAACCCTTGGAAGGTGTCAGAGCCTGTACACCCCAACCCTGGTCTGGTCTCAGATAGTCTCCCCAGAGCTCCCAGCCATCAACTTTCTTGGTTTT
CAAATACACAGTGTATCTTGTGCTGCCACACCTGGCAGAGAGGCTCCTCAGCTTGGAGCGTTTTTCTTCCTTCATCTACGTCTGTGTTTTGTAAACTTGT
CATCTTTTCAGATGTTGCTCATGTAGCCCCTCTCTTGTGTAACCATTCTTATTCATCTGAGGTGTAAGTTGCCCACTGCCCCACCCTGTGGGCCTCTTAG
CACTTTGTCCATTACTTTGTTAAAGTAGCTGGCACGTTGTGTAAGCTTTTCCGAGGAGGACAAGGGGTTCATATCTGGCTCTCCATGGACACTGAGTTCC
TGGAGATGGCTGGGACTTTGGTGCTTAGCCCTGTGCTGGGCACTTTACAACAAAATCGTGTCTCCATTGCAAAAAGTTTGTATCATGTTAAGCTTTGCTC
GTGTAGTTTACTAATAAGTGTGTATCAAAGATTAAGGTAGAAAGTAATGATTTTGATACTGCTTCTTAGACAAAGAAGGCGGCTAACAAGAGCCAACCAC
TGACTGGAGAGGCTCCGGCTGTCACCGTGATTATTAATACATTGTAATGACATTTTGGGGATTCCGCCATATTTTGTATGGTTGYCAGCAAAATGTTGAC
AGTTGTATTGTGGTTAATAAATTCAWTWAGATTTATAAGCATTGTTTACAGAACCTGTTCGCCTGCTGAAACTCTAACAGCATCTGTTCCTTCTTACTAA
TTAACTGCTAATTACAAATGAGCTTTGTGTGTTTGTCAGTATAACTGGCTCATGCATTTTGTAAGGAACATTAACAAATTGATTTACATAGTGGAAAAGC
AATCAAAAGAGTAAACTGAACAGCACAGGTCTAAAGCCCTTTAGCCGGCTTTTGAATGAAGCAAACTTTTGATGGCTATAAATATTGCCATAAATTTTCC
ATTACCTTAATTCTTTGGTAAAGGTACAGCGATCAAAAGCAATATTGAGTGAGTAATACTCAAATTAGAGCACTGCAGCAGGTGGCCGGGAGTGCTGGTG
ATGGCCCTGCAGAATCCTTTGGGGGCCGATAGAGGAGAAACACCAACAAGTGGTCCTGTAGGAAATGCATCCACTCCCTTGTGGGAATGCTGCTGACTTT
TGAAAGCTGCACTCGTGACTGGGGTTGCTTCAGAACCCAGTCACTTAAGTACAGGTTCACACTGTGATATCGAAGTCAGTGTCTCAGCCAGCCTGCTGCA
AGGCGCTTAGCCGGGAAGTGGAAATCTGGTGTCTGTCACACTTTTTCTCCTCTTGGGTTCTCAGATTTCAAACCGTGTTGATCTGTGTCATGCTTCAGGG
GGCAGGCATTTAAAGTTAACCAGTTTAAGTGGGTGATTCCAAAAGTCCAGGGCTCCTTCATCCACTCTTCTCAAGGAGCGGGAGAAGATGGAGACAGCCC
TGAAGAATCAAGTTCCTGGTATGTTTTCTAAAGCTCCCTCCTCGAGATAGAGAACTATGACCCAGGCCAGAGCCACAGGGGCACAGACAGAACAGGAGGA
ACGGGTTACACTGGTGCCATTTACATTCACAGTTAACTTTCTAGGTGATTCACAATGCAGGTGTAAAACTGGAGATCACAACTCAGGCAGCTGGATGGAG
AGTTCAAGGGTTTTTTGTTGGGTTGGGGGGGTTGTGGGAGAGGGTTGAGACGGAGTTTTGCTCTTGTTGCCCGGTCTGGAGTGCAGTGGCGCAATCTCAG
CTTACCGCAACCTCCGCCTCCGGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCAACACCACGCCTGGCTAATTTT
GTATTTTTAGTAGAGACAGGCTTTCTCTATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGA
TTATAGGCATGAGCCACTGCACCCAGCCTTCAAGGGTTTTTTTTTGAAAGGTTTAGGCTAAATATGATTAACAGCGGTTACATTAAAGTAATACTGAGTA
CTTTCCTGAGAGGGAACGTTTACTCTAAAGGATCCAGATACACAGTTGTTGGCCTGAGCCCTGACACTGATGTTCAGGGTCAGAACAGCTGGGAAGGTGG
GGAGGGCTGCTAGGTCCAGGGCCCTAAGCCATGGAAGGAGACCCTACTTGCCAGCTGTGAGCCTCAGGCAAACCCCTAGACCTCTTGAACCTCAGTTAAC
TCAGGTGCAGAATGAGGATGATAGAACAACCCTCTTCCCCAGGGTTGTTGGTGGATTAATAAGATGATGGAGTCTACCAGTAAAGGAGGTGGCATATAAC
AACAGCTCACTAAATAAGTTACTATTGTCATGATCTCTGTATTCCTGTGAAAGTAACCACATGTAAACACTAGACATTAAACCTTATTAGGTCATAGTAA
CTCCATATGGGAGGAGAGTCTCTTTTCTCATCAATAAATTTATTACTGTTAATTCCAGATAAATGTTAGAAAAAAATTAAGCTTAAAAATAGAATAGATA
AGGGAGTACAGGCTCCCTTAATAAAGGCTAAGAGGGAATGTCAGAGCCGGGGGTGGTGGCTCACACCTGTAGTCCCAGCACTTTGGGAGGCTGAGGTGGG
TAGATCACCTGAGGTCAGGAGTATGAGACCAGCCTGGCCACCATGGTGAAACCCCATCTTTACTAAAAACACAAAAAAACTTAGCTGGGCGTCGTGGTGT
GCACATGTAGTCCCAGCTACTTGGGACACTGAAGCAAGAGAATCACGTGAACCCAAGAGGCGGAGGTTGCAGCGAGCAGAGATTGTGCCACTGCACTCCA
GCCTGGGTGGCAGAGTGAGACTGTGTCCCCCCACCCCCCCAAAAAAAGAAAAGAGGGAATGCCAGGGTTACTTTACAAAGCTGTAGTTTGTTTAACACAT
TTAATTGACAATCAAGCCATCTCACAAATGTAAGTAAATGGCACTATTGATAAATAACAGGCTTGCCATTGGTGAATATTTTGCCTCCAAAGTGATTTTG
CTAAAAGTATGTGTATATACAGTTTCTGTAACATTTCATATGGTAGGAGGAAGAAGAGGCACTGTGCTTTCTGAAGCATTTATTCCTCCTTAGAATTTTT
CCCAGGGGTAAGTGTTCAGAAAATCTGAWGAATTCAAAATAATTTGCTCCAAAATATTATGATGTGATTAACTACGTATTGTACCAGCCAGCATTTACTG
ACCATATGTATGTATTAGCCACCATCAGTAGTTATAAAAAGGAAATTGATTTAGTGAGATACAGTCTACACTTTTAAAAACTCACAACCTAGCAAGAAAG
TCAGGCTTGTCTCAGTAACTGCTGTGCAGATCTGACTGTACTAGGTATGCACTAGAATGTGCCAGGGGAACCCCGAAGGGATCATTTGCTTCGCTTTCCA
TGTGTTACATCCATCCCCAACCTTCTAGTATTTTCTACAGATGACATTTAGTGAACAGAAAGCCTCTCTCTCTGACCCTAATTGATTAAAGACTTTTTTT
TTTTAAGAAGCATAAATTAGAAGTGAACACAACTTTTTGGACTTACAAGTGAAAAATCCAGTGCCTAAGACTTTCTGGTGAAATGTTGCCGCTCGGGAAT
TTCAGTTGGAAACATAAAGCCATTCATTAAGCTAACGCGGRTGTACGTGAGGTTTATTCAAGAGATAAATTGCTGGTGTGTTGGTGTTTAGAACATCAAC
TCTGTCGGATATTTCATGTGACCGAGGTCTGAGCATCAGAATCCATGCCCATGCCACTGCTCTCCCCAGGGGCCTGAGTCTGCATTTACTGTGAAGCAAT
CTTTTATGGAAAAAACTTGCAAAAAATAGAATGAGTTTGAAATAGAAAGTCTGAGAACACAAACCTGTGCTTTTCCATTTAAATATGGCACAAGGAGATC
CCAAAGCTGTTGGACCAGTGATTTTCAACCCTGGATATGCCCACGGGTGTGGGCGTGCAGGCACACATACACACGCACACACTCCGTCCACGGAGGGTCA
GAGTCACACTCATTGGGCCTGGGTGGGGCCCGGGCATCTATTCTCTAGTGTTTCCCATTTAAAGGTGTTCATCAGAATCACCTGGAGAGCTTAAAAAAGC
AAAAAGCAAGCCGGGCACAGTAGCTCATGCCTCTAATCTCAGCACTTCGGGAGGCCAGGAGCTCAAGGCTGCAGTGAGCTATGATCGCACTGCTGCACTC
CAGCCTGGGCGACAGAGCAAGACCCCATCTTAAAAACAAAACGTGATGTTGGAGGAGCCAGACTCCAGGCTTTGGGAAGGGGCTTTCCTGGGGAGGGCAG
ATTTGTTGAGAATCCATTTTCCCAGCGAGTTCGTTTCCACCCCCTTAAGAACAACCACTTTAGAAGAACATTAGGCAGAGGAAAGGGGCTCCTACGTGTA
CCTCCTTTCCAGGAGATGTGGGAACAGGAGGAGTACTTGCCTTTTCATACATGAAATGGTTTTTTATTTGCAGATTATCATTTGAAAGACATTTTGGTAG
CCTGATTTCCACTCAGAAATAGATGTCACCAACACAGGATGAGAGACTCTTATAAAGAATTACGAACTTCTGTTAAAATGAGAAAGTCAATGAAGGGAGG
CAGCATACCCAGAAAAGGGGAAAATTAAAATCTGAAATAATTTATGAGGAAAATAATTTTCCATCTAAGAGTGTATTAGCTGTTTATTCAAAACCCTTGA
TGGGAATGTTTGTAATCAGGTCATATTGTGATCTTCCCACAGCCTGTGGTTTCTGTTTTTCCCCTCCTGGCCTTACAGTTAGGGGAGTTAGGGCAGGTTC
CCTCCAGAGGTGACACCTGTTGACAACCAGTCTTTCATGACAGCAAGCTGCTGTCCATTCTGATGGCTTCAGCCTCTGTGCATTCTGATGGCTTCAGCCG
CTGTCCATTCTGATGGCTTCAGCCGCTGTCCATTCTGATGGCTTCAGTGGACATTGCAGTGACCATTAAAGTAAAGTGGCTTAGAGACATAACACGGCGA
CATTTATGTAGGGGCAGAGAAGACAAGGCTGTTCCTCTCCTTGTTCTCACCTTTGCCCAGAAAGTGTTAGAAACAGCCTCTTCCTTAGCCTCCTTTTCTA
TACTTCTCCCTTTAGAAGCCATGCACTGTGGTGGGTCAGATCTCAATACTCGTGGGTCCGTGTTGTCCTAGCGGTACCATGTTGTACTTCAGAAGGGCCA
TGCTGGCTGCAGAATGGAGGCTGTTGGAGGGCAGGAGCCCAGGCAGGAGGTGGTCGGTAGAGCAGCATTCCCAGRGAGAGCCTGGTGGGCTCTCAGAGTT
GGGGGCTGCAGGAATGGAAAGGAGAAGACATATCTGGAGGCTTTCGGAAAGTAGAATAGATAGGACCGATGGACAGGTTGATTCGATGTGGAGGATGAAG
GAGAAAGAAGAGTTTTTTTTTTTTTTTATAAATGAGGGACACTTGTGCTGAAGGTATGTATTTGGGAATCATACAGAAATAGCCATTGAAGACATGAGAG
AGTGTGAGATCCAGGAATTTGGTGCAATGAGAGCTAAGGACCACTGGTGGTCTTAGGAGGGACAAAGGCAGAATCCCCAGAAAGCAAACAGGACCAGAGA
AGCGGGAAAGAAACTTGAGAGACTGTTCTCCTAGGAGAACAAAAAAGAACTTGCCTTTTGAAAGAGGGAGATAAAGTAGGAAAAGGACTACAGCATGTCC
ATTGGCTTGTGGGATGGAGGGGTCTTTGATGACATCAGGGAAATGATGGAGCAGAAGCGGCGGCAGGGCTATGAACGATGAGCAGGAGGGAGCCACAGCA
CAGCAAGTGTAGACACCGCCTAGGAGAGGCCCAACTGTGATGCTAAAGGGAGGAACAGGTCTAGAAGTTATCGATTCGCTTGGAATAATAAATGATACAG
TGGCGAACTGTTCCAGAAAGAAGTTACCAACAGTCGCCGCTCACTAGGAAACCCTAGAGTAGACGTACATTTGATTTAAGTTAGTAGCTTACGGGCCTGA
TGCGGTGGCTCACGACTAATCCCCGCACTGTAGGAGGCCAAGGCGAGTGGATCCCTTGACCCCAGGAGTTCTATACCAGCCTGGGCAACATAGTGAGGCC
CCATCTGTACAACAAATAAACAGATTAGCCAGGCATGGTGGTGTGCAYCTGTGGTCCCAGCTACTCTGGAGGCTGAGGTAGAAGGATCACCTGAGCCTAG
GGAGGTTGAGGCTGCAGTGAACTGTGATCTCGCCACTGCACTCCAGTGTGAGCTGTGAGAGAGCAAGACCATGTCTGAAAAAAGAAAAATTGTAGCTTAT
CATTTAGCAATTCATAAATAATTACCTGTATTTGTCAAACACTTCGTACATGTTAGGCATTGTAATTTGGCTTTATGTTATGAATGCATTTAATTTTCAC
CAAGGGACGATTCCTTCCAGACAGCTCTGAGTTTCTGTTTTCCTTGGTTGTTGCTGAGAGCATAAGTTATATTCCTGCCTATAGGCTCATCCAGGCCGCA
TTTCCTCCTGATTTCCTGTTTCCTCACCCGTATCCYGCTGCTCTCTCTCTTCCCCTGAAGCTCTGGGAAGTCTTCCCTACACGCTCATTAGTGAGTTAAG
GAACTTTGATGTGTCTCCGTGTTTAGAAGAAATCTTGCCGTCACCACTCCATGCAGACGCTGGGATACTAAGGTTTTCACCTGCTGCTTCCTGCGGGATG
TCGCTCATGTGGAGGAGGGCCTCTCGTTGGAAGCCCAGGCTCACTCCATGGCTGCCCCTCTCCCCAGCCTGCTGGCGTTGGGCTTCCTCCGCTCCTGGTT
TCTTAGTTCTGGAGCACAGACTCCGTGCTCTGGAGCAAGAGTTCTTCACTGTGGTTCTGTAGATAGAATTCAGGGGTCCGCGAATGTGGCTGGGGGGAAA
TTCATTCGTATTTCCACTGACTTCGACTGAAAGTTAACGTTTCCTTCAGATATGAATGTAGGCAACGATCCACAGTGGTGTTTTGTTAGCAGAACCTGTG
ACTTTGCCACCCTCAAAATCACAGACATGTTCACAGCGCATTGCCGTTGTCCCAGATAATTGAATAGGTTGTTTTCTCTGGTCACCGTTTGGCAATGGAA
GGTACTAGGTCTGCCACTGGGTCTCAGTGCATTAATAAAGCAGTGTGCTTATTACCCAGCCACAGGCGTTGCTTATATTTTGGTGACTGTATTTTGATAT
GATTGGTTCTTTTGTAATCCTATGAATTTAAACCTAATACTTTGAGAAGGGATCCTTTGGGACGTGCCAAAAAAGACCCACCTGTAGCAAGCCTCCATGT
GGATTTGAGTTTCTTACCCTATGAATTCTATAAACTGAAGTTTTCATCCCATGTGTCAGGTTTGTTTTTTTTGTTTTGTTTTGTTTTTTTGAGATGGAGT
CTCACTCTGTCACCCAGGCCCGAGTGCAGTGGCACGGTCTTGGTTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTTCTGCCTCAGCCTCCCGAC
TAGCTGGGATTATAGGCATGTGCCACCATGCCCAGCTAATTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTAGGCAGGATGGTCTTGAACTCCTG
ACCTCAGGTGATCGGCCCGCCTCGGCCTCCCAAAGTGCTGGAGTTACAGGCGTTAGCTGCCGTGCCCGGCCCGTGTGAGATTTGATGTGAAGTTGAGGAC
ACGGGTCTTCATAATGAAACAGAAGTGCTCATTGTCCTGTTGCCACCCTTGTCGGTTTTTCACCCTGCAGCCCTTTGAGACCAAATCTGCCTGTGAAGTC
GCTGTTCATCCCTGCAGGCTCCCTGTACCCCCAGCTCCCAGAACCCATCACCAGCCCTCCTTCTTAGAAGAGTGGTCTTCGGGAGGACCTGAGCTTCGGC
TGCGGCCTTCCAGCCCCCTGGGTCTCACTGCTTGCTGCCTCCCCTTTCTCACCCACACAATTCTTTCCTTCCCTCCCTCTGTCCCACGCTGTGTCCCTTT
CTCTTCCTTTCTTTGAGTTCATTTCAGAATTCCTCCTCGGTGTCTGCTTATTGCATGGCACGGTCTGGTTGGGCCCCACTTTCTTCCTGGAAAGGTATTT
TCTGGGGCCAGGGAGCAATGTTACCATTTCCAGAAAAGCAGTCCAGCTCCTCCTGCACAGCACTCTTTCTGCTGTGGGATGCCTCCGCCTCCCTTCGTTC
CCCATTTGCAGCCTCTAGGTGCCCTGTCTTGGCCAGCAGCACTTGCCTTCTCTTCCCCATCATCTGTGGTCTTTCTGCACCTGGGCTCCCCTCCGCCCTG
CATCTGAGATCTCTGTTTTAAGGCCAGCTCTCCCTAGATGTGTAGCCACTGGGATCTTTTTCATCTCATCAGCCTAGCTCCCGGCAGGACCTCCCCACTG
GACTTTTCCAAGATGTCAGTGGACAGCATAGAGCTGGGGTGCCAGTGGCCACCATCGGGAGTCACTGCCACATTTTCTTTTCCTTTTGTGTCCACACTTG
GCACAGAATCTTCTTCCAGGCAGCCTCCTGGGCCGCCAGTGGTGTGGAGCTGGCCGAGAAAGGAGCCTGCTTCCCAGCATGGCCTCACATTGTSATCAGT
GTCACTCAGGACCTTGCCCGCTGCCCCAGCTCAGAGCTTGAACCTCTCCCTCTTGGAATCTGGCAGGAGTCCCCAAAGGACCACCCAGGCTCAGTCTTGG
CCCCATTGAGTCTGTCCTCCCCACTGCTAATGAAGTCTTTCCTGCTGAAAGCCTTCTGGGCCATCCATTGTCTGCCTGTGAGAGTCCTCGGCTTGCCCCC
ACAGGCCTCCCCTGCCGGTCTGGAGCTCAGCTAGTGGCTCTCATCTCCACTCCCTGTCCATCTTGAATGTTCTAAACAACGAATTAAAATGTTTAACTTG
AATGCAGGAGCCAGGCAGGTACTTGTCATGAGTGGGTTTGGAGGGGGCAAGGGTCTGGGTGAACAGGGAGGGCAGCTCCCACCCACAGGGGCAGCCGTCC
CTCACTTGCGCCCTCCTCAGCCTCAGTGGCCTCGTGTTCCCGGATGGTCCTGGTGTTGAAGGAAAGCCAGGAATTTGGATTTGCATATAAAATTTTATCA
TTTTTAAATGTTGGCAACTGATTCCAAAAATCTATTATGCACTTTTGGGGGCTGATGAAAATGCTTCTGCAGACTAGAAATAGTCCCCAAGTCACCAAGA
TGGCATCTCTGCATTAAACCCACCCCCTGACCTTCCCACGAAGCTCCTGCAGCTTGGCACGGCATTTAAGGCTCCCCCTGACCGATGTCTGCCTCCCTGT
CCCAGCTTCTGTCTCATCCACTCCCAACACCCAAGTCCCTAGGCATCTGAGTGGCCTCCTCTCCGAACCTGGGCACACAGTGTTCTTCCATCCATCACTC
ATCCACCTGGCTGGTCCTGCTGGTCCAAGACATAGCGTTGGTGCTGTCGCCCCCTCAGAAGTCTTCCTGGCTTTCCTCTCCCTGGCCCGAGGGGGTGCCT
CTTTTCTGTGCCTCATCCCTTCATTCCCAAGATGGCCTTCTGTAAGACAAACATTGTAGCACCCATCACACTGGGTAATGATAATTTATTACCTTTGCCG
CCTCCCCCACTAGACTCTGATTTTTGTATGAGCAGCAATTATAGTTTGCTGTTCCTTGTCCCCAGGACCTATTGGGGTCCCGGCCCAGCAGTGGGGCTCC
ACATGGCTGAATTGAACAGTCAACAAGGCAGCCTCCTAACAAGTCCTGTGTCATCCTGTTTAGCCGTTCGCTCAAACAGAGAACTGTAGATGGGGCTGAA
GCTTAGTCCCAAGAGCCACACATGTCAAGGAAATCTGGGAGCAGCAGCCCAGCCATCCCAGGATCTCACAAAGGCCCAGCAGCAAGTACAGGGGAGACAG
CCAGACCCCTGCACAGGAGTCTAGAGGCTGAGTCTGTAACTAATCCAGCTCAGACCACATGTATGGTGTGCTCAGGGGACCCCCAGAGCAAAATCCAACA
CCATGCTGGCTTCTGGGAGTGCAGATTTTGCAGACATGGAAGCAGAAAATCATATGATACCCTGAGTTCCTGAGTCAGCAAACGGAATGGGGGAATGAGC
ATTGTTCAGCCAGCTGGGCGAACCCTGGGCTTCCTGAGGACACCCCATTCTTAGCTGTGGGGTCACCACTATCCACCGACAGCCCAGCCGGTCGACAGCA
GACCTTTCCTTCCAGTTATTCCTTTCCTTCCAGTTATTCCTTTCCTGACCCCCCCCGATCTGCTTTTTAATTTCTCAGTGTATGTTTTCTGGTATAATCT
GCTTGTCTTTGCCTCTCGGTGACATCCACGGAGTCACCCAAGTCACCAGCCGGGACTATTCCTGATGTCATCTATTAACCTTCTCCAGCTGCTCCGAGAT
GGTCACCAAGTCCTTCTTCCCTTTCTTCCTGAGCATCTGTCCCGTCGTGCCCTCCGAAGGAGTCATGCATGTGGTTTGGGGCCTGGATGTGTGTTTGGGC
CTCCTCACTGGTTTCCAACCTTCAGTCTGTAGCCCTCAGATATGCCCTCCTTCCTGCACCCCCAGAGTGGCCCCTCCACTCACCCTTCAGCTGCAGCCAC
AGGGTTGAAATCTTTCCCAGGCCCTCCAGACCTCCTGGATGAGGCTTAAATTTTAAAAATACTAAATTAAAAAAAAATTTTAATTTCACTATATTCTCAA
ACTTCTCACCATTGCAGTTACCATATTTTACTGAGATTGTATATTTAGATGTCTTTTTCTCCATAAGTCATTGAGTTTGAAAGAGACATCCTTGTAAATC
ATTTACTGGACTGTTGGAAATTTCGATCTAGGACTCAGAAGTTACAGAAGATTTTAAAGAAAGTCATTTGTAAATTCTTACCCTGAGGTTTATAGACCCT
TGTGAAATGCAAAATGGAATGTAAGAGTTTGCATGTACATCTTCTCAGAAGAGGTTCTATGGGTTATTTATTTATTATTTATTTATTGACAGAATCTCAC
TCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATGATCTCAGCTGACTGCGACCTCCACCTCCCCAGTTCAAGCGATTATTCTGCCTCAGCCTCCTGAGTA
GCTGGGATTACAAGCAGGCACCGTGATGCCTGGCTAATTTTTGGTTTTTTTTTTTTAGTAGAGACGGGGTTTTACCATTTTGGCCAGGCTGGTCTCAAAC
TCCTGACCTCAAGTGATCATCCCACCTCAGCCTGTAAAAGTACTAGTATTACAGGCGTGACCCACTGTGCCCARCCTATTTATTTATTAAATAATTTTTT
GTTGTTGTTTTTAGAGACAAAGCCCAGGCTGGAGTGCAGTGGCATAATCACAGCTCACTGCAGCCTCTAACTCCTGGGCTCAAGTGATCCTCTAACCCCA
GCCTCCCCAGTAGCTAGGACTACAAGCATACTCCACCATGCCTGGCTTTTTTTGTAGAGAACAGGGTCTCACTATGTGTCCCAGGCTGGTCTGGAACTCC
TGGTCTCAAGCAGTCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATGACAGGCATGAGCCACTGCGCCTGGTCTGGTTCCACAGTTTTGAAGAGGGCCTG
TGGCCTCCCCCTCTTCCCCATCCTAAGAGGTTAAGAGCTGTGGATTGCTTGACATGTCCCAGGTTCGACATGTTGAGCAAAATGCTAGGAGGGTGGTGCA
GAGGCCACCGTGGCAGTCACACAGGTAGACCAGCAAGCACTCCAAGACTCAGCGACTTTTTGAATATAGAGGCTTAAAGGTAGAACATCTCATGAGACTT
TAGGTTTYGAGAATGGGTGCCTGTAAGAATGGTGGTTTCATTAACAGAATAGCAAACYAAGGAAGAAAAGATGGTTTGGTTCAGAAAAAATACTGCTTTA
GAAAGGAAACTGGGACTGAAAAACGGCCATCTTTTTCATGTATGGCCATTCTGGCTTTTGACTCTATCCCAAAATACAGAATGCTCTTTCTACTCACTGA
CTCTTGCTTTCAATTTTGTCTAAAAGAAAAATGATTCACAATGAAAATGATGTTGTTACACAGTGTACATACTCAATATTAAATTCATAAGTAATGTGAA
CCACTTCATAAATTATTTAGGTTGAAGTTCATTTTGTATAGAAAATTACATCTTTGAAAAGATATGACAGGGTTAAAATGAATCAAGTTTATCGTAAAAC
TGTTCTAGCCATAGTAAATTAATCTGAGTCATTTTATCAAATAAGAAACATTTTTAATATTTTGACTATTCATCACTCAAGCAGTACAGCTGGTGTTACT
GAAGAGATCATTTCTATTTCAGTACCGTCTGTAGATCCTGAAACGGGCGCCTTTCTGTGCTTGTTTGCCACGACAGTGGCTCTCGTACACGACGCCTRAC
GTGTATCTCATGTGAAGGTGCAGCCCAAGCCAAGCTCCCTGGGGCTCCGTTTTCCGTTTCTTGACCAAGGATGGCAGAATCCCCAGGAAGTGCTCCTGTT
CCTGGCTTGTGTTTTACATGATGGATCTTACCAGGCGGCCTTGGAAGCCACTTCTCACACCAGGGTTATAAAGTCCTATGTTTTCACAGTCTGGTTAATA
CAATGRGGAAGAATTAAAACCTTTGGCATAACAAAGCTTTTGGTCAGTTCTATAAGCAAATGCCATTCACAGCCTCCTGAGTGATACCTKTTTCTAGGCA
CTGCTTGGTTTCTGGGTGCCCTAGACAGGGAGTATCCCACCGGTTACACTCTCTGTCACTCGCCATCATCCTGAGGATGCTGTTTCCATAAGCCATGGCT
CATACAGCCGTCCCCACTCCAGGTTAAGGTCCCTTGCCTGGCTCCTCACAGTGCCCTGGGCATGGTCCTATCTTGGCCTAGCTTTCACTAAACTGCATCT
GTCCGTCCACCTATTAGAGCCACCTGCCAGTGTTGAGCCTCTTTAGGGATTGGCCTGTGCCCTCATCACTCCACCCACACCCAGCACAGTACCTGGGATA
GAGTCCATGCAAGGTAAATGAATAAGGAACAAGGTCCTACTCAGAGGCAAATCTCTTCTTTCTAACACTGGGAGCTATTCAGCTGCCTGTACCATATCAG
AACATGCTTAAGAAAAAGAGGGAAATAATTATTGTCTCAACAAAGATTTGGGTTTAGCAAAAACTGGAAATAATTCACAGTGAAACTAATAATCCATTGA
TTGTGATGTCCATGGTGAGATCATTACTCTCGAGAATAATACTGGTAATTTAGTTTGCTCGGAAGGTACTATTTTCAGAGTACTTTTACATTTTCCAAAC
CCTGCTGTGTGTGTTGAAATGTAAATCACACAGCACCCAGATAACCAGATGATTTTCCTCGTCCTTTTAACAGAAAGATCAGGTGAGAACACACAGTTGC
ACCTTGATCATTTAGTGCTTTAACTTTTCCCCCCAGCTAGTAAGTATTTGAGGAGTTTCTCTCATTTGGGCTCTGAATGCTTTTCTGATAGTGGGGAAGG
TTTTAGGAATTGTATTCGGGGCTGCTTTGTTGTTGCTCCTTCCTGCCCATCTCAGTGTTAAGGGTTGTCAGTATCCCAAGACTGATTTCCCTGTCCGTCC
GTGTGCTTTGGAGGTATCCTGGCCATGTTGTTCCTTAAAGCTCTAAGTAGAAATGACTTTGTTCCTTGGCACTATGTTAAATTGGCTGGTTAATTCTGGT
GTTATTTACCCTGTAATTCATTAGTTTCACCCCACCATTGGCAGCTGACAGGCTGTAATTTCACGCCTTGCAATAAAAGATGTCTCATAATCTGCTTCAT
TTAGCAGCAAGAGAATTTAATGAAATTAACTGCAGTCCTAATTATGCCAGTGAATACTAAAGACCGCCATCAAGTTTTCTCAGAAAAGGACGAGGTCCAA
CTCGTGAAGGATTTAGAATATAATTTCCTGGGAAAAGTTGCAAGTGTCTTCCTTCTATTGGCCAACGAGGGCCAATTATGAGTACACATATTACTATAAT
TAACTGGTTTTTTTGTGAATGTCTCTCCAAGTATTCATTGTTCGAAATCAAATGTAAAAGTGATTTCTCTATCGGAGTGGTGTAGATGATAGAAACAAGC
TAATGTTAAGTTTTCAGGCAGTGACCTCTCCTCCTGCAGTGGAGGACAGGTTTGCAAAACATCACAGTTTGAGAGCAGGTTTTCATGTGTGACTCTGGAG
GGTTTCTGGAGTGAGCAGAAGCCCGGGCCCCCTTATGCCTGTACGCTCAGAGCTCAGCCTCTGCAGCCACGACTTCTCCATGCTGCGGGGATGCTAGGCC
TRAAGGGTTGCCACCTGCTGGGCATGGAGTGTCCAGCCTCACCCAGCCCCTCGCCTGGCCCTTCTCCCTTCCTCATGGCCGCTAGGGCAAGCCCTCACTT
CTCCAGGACAGATGGCCTTTCCCYGCTCCACCGTCCACTCTGCTTCCCGCCCCTGGAGGGGAGGAAGACGAGCATGGTCTGGGCGCCCAGTGCTCCTGTC
CCCATCTCACACATGTGTGGAACAAGCCACTCACACCCTGACRTGCTCCCCTCTCCCTCTCACCACGACTCTTTCTTGGTCCTGCCTTTCTCACTTTTCC
CTCTCAGCCTTCTTCATAGCCTCTTCCTCTTCCATGGAGGACAGGGCAGAGGAAAGGTAGGGAGGAGCATTGATGCCTCCTGAGCAGGTCTGGCCTGGCA
CCTGCCTTTCCCACCCACCCCACGGTGTCCTGGCCCCAGGGCTCTGCAGCCCACAGCACCTCTTAACAGTGCTGTGGACAAATTCCGGCAAACCGTGGGT
TAGTAACCGGACGACGTTAGCAAACACAGAGGCTGCAGTTGAGCCAAAGGAATGGAGATTCTGGAAGGAAGATGTGCGTGTTCCAACTCTGCAGAAAAGC
AGCTGAAGCAGTGGGAGGTGGTCTGTTATATCTAAATGCAATGGAAATCTCCATAGCCACAAGTGACTGGCCTCTACCTCTCTTCCAATCTTGCTCTACT
AATGCGTGGCCTTTCTGTAGTTCTGAAAGGAGCCATCTCCCCTGGGGCAGTGCCTGATGTGGTCTCCTTGGTCCCCTTGGTCCTAGCACCTCTGCATTAT
GCACCCTGGCAGGACATCAGCCGGCTGGCTCTGCCACCCCGCATTAGTGTCCATGCACCTTGGTGGAGAAGTCRCTCTGAGCAGCTCTGATTTCAGAGGC
CTCACTTGGGAAATGAGGGTGCGGTGTTGCTTCTTGGTTTCCTAAGGCTGCTGGCAGGTAGGGCTTTACAAAGAAGTACTTTAGGACATTTTGGAATGAG
CTGTTGTGTATTCTCACAAAAATAGCTGCTTTTGCAAAAAGTTTTCCTGTTTCTAGTCACCCTTCGTCTTTATGCCATCCCATCATTGGGGGTGGTGACT
TCACACACATTTGAGATTTGAAAGCATGATGACTGTACTTCAAAGTTGGGGAATTCCATGGCCCACCCCACAACCCACTCATGTCAAGTGCATTCCAGGG
AGCAATGGGTTTCCAGGTCCAAGTCCATCTGGGGGATTGTGGTCTGTGGTGGGCAGGGGCTGACTAACCTGCCCAAGGGGTTTAGCAAGGGAATGGCTGT
TCCGGGACCTGGCCCAGCATCCTCCCACTGTACACAGCCTCCCTGCACAACCTACAGAGGGGGCTCCCAGGCAGGCTGTTCATGGGGTTGGTGTTCACAG
GACTCTCCCACAGGAAGGGCGCTGAGCTGCAAAGGATCCAGGAGACCTGGTTTCTAGGCACAGCCCAGTGTTAGCCTTGGACACAGCAGCCAGTGTTACC
AGGACCTCTGAGCTCACAGCCTGGCCTAGAGTGCAAGGAGCCAGTGGACCTGAGAGGGCCCTGTCCAGGCTGTCAGTGCTGAATATAGACCATCGGTGCC
CACCTGGCGCTCCTGCTGCTCGGTCGGAGCTGGGAGGGAAACGTGGCTCCACTACAGACATGGGGTTTGGGCTGGGAGGCCATGGAATGGTGAAGATGCT
AAGCAAGGCCATCTCCTGGGAAGGGCAGAAGCAGCTTGGCCCCAGGTGTCCGCATGTCACCCCCTTTCCCTAAACTTCACCCGTCCGCCAACGCACCATG
TGCCGCAGGCGAGTGATGGGAAAATGGCCCTCGTTTCAGAGAATTTTTTTTTTAAAGCAAAGTGTATTGTGTGTTCTTGCAGTTACTTGCTACCAATGTC
CCTTGGGTATCTCCCCCCTTGGAGTGTTTGCAGCCGGCGAGCGCCAGGATGCCCGCGGCAGCATACTCTAGGCTTATCTCCGTGTGTGTGGCCCTGAACC
CAGAACACCCGGAAATACAAGTGCAAGTGCAAGGAGCCCATGAACAGAAAGAAGAAGAAGGGGACGGGGAAGCGCCTCTTGACTGCTCGCCATAAAAATA
ATTGAGCTGAAATTAAATCTGGGGGCTTTGGTAGCCTCCTGTTAGGAAAAGAAATAAAACCCAGTGTTTTGATGCACACCTCGCACGTCTCATCTGCAGT
ACGCCAGAGGTAATTTTGGCGACAAGCAGTAAGGAAACCTGAAGTATTTCTCTCCCAGACCCTCCCAGCTTATTAAAAGAACTTATAGACATGAAAATAC
ATTAAAGTGGGCAAAGCGGAGAGAGGGTGAAAGAGATTAACAACCTCCGCTGAATAGAGCCCATTGATGAAACAGGCCTGTGAGCTGCTGCCGACTCTGA
AACAAGGTGCCAGGAACTGAAAAGAAGGTCAGGCCTGTCCAGAATTTAGGGGGGAAATGGAAATGTATATTTAAAACTAATATATGCCTGAGTGCTCATT
TTTCCCCCGTTTCTGATTGGGAAGATTTACTCGGGAAGAGGAAAAACGGTTCTGTAGCCGATTACCCAATTTGAGCACCCAAATTAAAAGATTCACTTAA
AATGCAGCAGAGACAAGCGAGGCAGCGGAGAAGGGCCCGGGCGTGCATAATGCCTATTGTCTGCGTCTGCGTTTGCTTTTTAATGCCAGCGCCCAGCGAG
GGAGCAGGGCCCTCCTAGCGTGCGCGGAGGGGGCTTGGGGTGGAAAGGGGGGGGAACCCCGAAACAGGCCGCCTTTTGACAGGCGCCTGACAGGTATGGG
TGCCTTTGGAGATCTTTTTAGGAAATTGGGTGTTTGCGAGTACAAATTGAAGCAAGCATGCTGTGTGTGTATGTGTGCGAGAGAAAGTTAGCCGTCAGTC
AAGTTTTATCTCTTAATGAATAGAGACTGCTGAAGTAAGGGTTAGGTAATTGAGTTTATAATTAATTAGCCATAACCCTCATCAGATAAAGCAGTTGTGA
AGAATTTTTTTTATCTCCTTTCTCTCCCCAGGGCCTGCCCTTCTTTGTCCTTGCACTGACAGCCAGCACTTATCTCAGGCCTGCTGGAGCCCGTGCCYGT
CAGTCCTCCCCCTGGCCVGGGCCGAGGGGTGGTCAGACCAGCCCGCATTGTGCTGAAGGCCCACAATCAGCCCAGCTGTCCGGGGCCATGATGAATTAGC
GGTGGGAGTTAACATAGAGGTGAACTCCAGATCGGCCGATAGCTTGCAGGCCGCTGCTGTTTGTCCTGACTTCAGCGCATCTCTGATAGACCTTTGACAC
CTTCCAACAAAGAGGTTACAGGAGGGAGAGCTGGAGAAATGGAGCGCTCCTCCAGAAAGTTCGGCAACTCACAAAAGACCCCTTAATTTCTATAGCGGGC
AATTCAGTCCACAAAGGAAGGAAATCAATGAGCGTTTACGCTCTTTCTTTGAGGAACCTTTTTTTAAAGAAAAAAACATTTACTGGCGCTTTGCATGTTT
TGGGTACAAGCAGTGGTAGAAACATAAAACATTAAAATCCAAGATTGAGCGGATCTGTCTTGACTGCGTTTTATAGACTGGATGAGAGAAAAACGGGGTA
AAATGGCTCCCCCTACTCTGCTTCAAGATTTGAAATATCTGACTCAGGCAGGTTGAGTGAGGAATTGTTTTAGGAACAGGGAATGTTGTGACTTTCTTAG
TACTGAGTTGGAAATAATGTCAACTTCCTTGTGATTTTAGTTGTTCCTTTCTAATTAACCCCCAGGCAGGTACAGATAAATCTCTCAATACCCTAGGGAT
GCGGCAGATAGGAAGATGTGAGCCTTTCTTTTCCTCTTCTACAGTCAGTGTTTTATAATAGATAGATTAAATGGAAGTTTTGTTTCTTCTTTGTTAGCAA
GACTAGATACCACTTTTCCAGACCACCCTATGGTAATTATTTGGGGACTTAAGGCCAGAATGTTTTATCAGACAATATGACTGAACAGTGATTTTGGATG
TTAATRAAAATTTAATCAGATGAATATATTATTCAGCCTCATTTAGGGAGTAAAGTATGATAAGTGCATCTACAAGTGCTGAAATTTGTAGAACAAATGA
GGTCATTTTTGTGAAGTAGGCTGAGAACAGACTGGTGTGTGTGGATGGGGGAAAGGATGGTCGCTAGCTTGTTTTGGTTTTAAGTGTAGGCTATACCTTG
AATTAACTTGGGAAGTACTGTTACTAGCGACAGTCCCTAGTCATTCATTGCAGACTTGTTGTCAGCCTCCCATGTGGAGATACTAGATGCCATAATTGAG
CCATACCTAACAATTCCAAGTTTTTAATGAAGCAAATATGGTAAATATGTCCGTTCCAGGCTTTCTTTGAGTGTAGAAAAAGGAAGTTGATGCGTAGGCT
CATGGGATGACCCCGCCTTATATGACTGGATAAAATCCAAATACTCAGCTAGAGAGAGTGGAGCCGCTGTGTTGAGACAGGCACTCCCCCTCAGCCTCCC
CTTGTCTTCCCGGGCTYGTGGGGTCACCTCCAGCAAACCCAATTTGAAAACCRGTGATCAAGTGTTGACAACTCCTGTCACAGCTGAGAAACTTAGGCCT
TGTTCAAGGTCACATGGAGAAAGAATATTGCATGGAGTAGACCCCGCTCCTCCCCCGCATCCAACTGAACGTGGGCTGTGGTCCTGTTGGCTCCCTATGG
GCCTGCTCTCCTTCCCTCTTTTTCTCCCCGATAGATGGGACCTGTGAGGCCTGTCTCTAGCTCAGCTTGGCATGAGATGGGCCACTCCTGCCAGCTCACC
TCCCTGCTGGCTATTTGCCCTTCATCACAGAGGTGGGGGAGGATGGCTGCCTCATTCCAGCCTCAGCTGCTATTGTGGCTACAAAGGCAAAGCCAGCTCT
ACAGCAGGCCCATTTCAGCGCATTATAGGAAACCAGAGGCTTTAAACCCAGACCAGCTTGGAGCCTGGGGCTGCCGCGTCCGCTTACCAGTGGTGGACTT
GGGGATGTTTCTTACTCTCCGAGCTTGACTTGCTTTATCTGTTAAGTGGCAGTTGCTGATGGCAGTGAATTGTGGAGTGATAGGTACTGTCATGGCACGA
GCTCAAAAGTGGCTGTTTCCCCTGGTTTCGCTTGTTTATTATTAGTATTATTTTCATAGAGGAGTTAATGGAGCAAATGAGAAACAATTCTTTATTCATT
CTTAGTTTTGGAGTCTGCATCCTGTACAGTGTCCTCAGAAGTGTAGATCGTTTCTGCTGCAGGAGCCCAGGACGTTTGGTCAGCTCTGACTTCGTCACGT
AGACTTTGTGAGAGGGAGGGTGCTTCAGAGGAGGGCCCGCCATGAGGTCTGCCTCCTTGTATTTGTTACTTCTGAAATCTTAATGCCAGTTATTTTAAAC
TAGGGTGACTAATGGACCCTTATTTCGTGAAGGAACAGAAAAGTAGAAAAGGTTTAAAGGCAAAAAAAGCTGAAGGTATTTGTCTGTGATGTTCAACAAA
CCAGCCTCATCAGGCCCCAGGTGGAAAATCGGCGTGGTGACGCATGTGCTGCCATCCCTTGGGGTGGCGCACGGAAATGGAAGCGTGAGGTCATCCCTGT
GATCAGTAACAAAAGTCTACCTGGAAAATGGTTACTTTGATTTTCCAGGGAGTGAGTAGTGTGACAGGCATGTCAAAATTAATCATCAGTAGATTTATTC
AAAGCTAAAAGTCAACTGAAATTCTAAGCTCTCTTTGCTATACTACATTTAAAGATAATTGCTAAAGTTTCTTTAGATGTCCTTATTCATTCAGTTACAG
ATTTATCATTTTTCAAACCAAATTCTAAACTGTGTTACGTTCAGTATGTTTTTGAAGTCATAAAAGTTGAGTTATAGTAAATTTAAAATCGAGCAATTTC
TGCTTTAAATATAGGGTATCATTCTTTCCTTTAGATTCGTTGCCCTGAACTTTTGATTTTGATATTATAAATACACAGCTACTCATCTCATTCTCTTATC
TCCACTGTGCTGGGAAGACCGAGAGGCTGAGCAGCAGCTCCACTGAATTCAAGTCAGAGGATATTTGTTTGAATTGGAGACTGGGTGTTGGTAAATGGGT
GACAGTGACAAGTGGGTGATTGGGGACACGTCCTTGAGGCTCATGCCTTAGAGGAAATGCCTTGTTTACCCTATGAGGTCTCTAGATGCACGGAGGCTAC
TGCATTCCCAGGGGGTCAGCCTTGTCTCAGAAGTACTGAGAATATTATTATTATCATTATTATTATTATTTTCTTTTGAGATGGAGTCTCGCTCTGTCAC
CCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACTTCTGCCTCCTGGGTTCAAGTGATTCTCCTACCTCGGCCTCTCGAGTAGCTGGAACTGC
AAGCATCTACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGGCGGGGTTTCATCATATTGGCCAGGCTGGTCCTGAACTCCTGACCTTGTGAGCC
ACTCGCCTCGGCCTCCCAAATTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCGAGAATATTTTTAAATGTTCATCTCAAGTTAGCATCACTGAAG
CTATAGCTTCCTCTCTTTAGTTTGTTCTTGTACCCAGTGATTCACCCAGAATTGTTTGGGTTTTCCATATAAGAAAATGTGATTCGCTTGGTGTCAGTAA
GGAAGGGATTCTCTGACTCATAGAAGCAGGGGTGTCACCCCAAACAGCACCATGAGGAGGATAGCCTGAGTCCGATCCCTCTGGGTTGGGGCTGCCATCA
GGATCTGTACATTCTCATGACCTGTGTGCTTAAACTTGGGCCCTTGAGGTTCCTGTCCTTTCCACATCTAAGCCAGCAGTAGACTCAAACCGAAGGTCCG
TTAATGTCCTCATCAGTCGTGAGCAGCTCTGTGTGGACCATCTGCCTGTCCAGTACTGAACCAGTTCCTGTGACTGGGGCTCATTGCCTTGGCCTAGGCC
ACATGTTGACCCAGAGTACACAGGCCAGGATGGGAAAGGGTCACCTGCCCATGCAGAGTCACAGGTCCTGGCCATGAGCACAGGAGTTGGATGTAGGACA
ACCACCATAAATGTCCCTTGCCCAAGTTGTCATGAAATTTCAAAACTTCAGCCAGTGTTCCCTGCTTGACACTCAGACCTGAAGGCCTCCTGCAAGTGCC
AGCCACTGTCGTGAGCTCAGGTGTCTGAGAGCACGCTTGGTTCCCACGCTGCGGTCCGGTTGGACGTGGTAGATGTGAGACCAGTGCCTGAAAGAATGCC
GCTGTAGGGAAACATGAAGACACACACACTCAGCCACACTGTATTTAATGGGCCGGGATTTGTGTAAGTGATCTCCATGGAGACGCAGGTGGTGAGCCTG
AGATGCTACACTTTAGAGCAGGAGTCATCCACTCCCRGATGGCAGCCTGGTACCAGTCTGTGGCCTGTTAGGAACCGGGCCACACAGCAAGAGGTGAGCG
GCGAGTGAGTGAGCATTACTGCCTGAGCGCTGCCTCCCGTCAGATCAGCGGAGGCATTAGATTCTCACAGAAGTGCGAACCCTATTGAGAACGGCACATG
CAAGGGATCTAGGACGCACACTCCTTATGAGAATCTAGTGCCCGATGATCTAAGGTGGAACAGTTTCACCCTGAAAACCATCCCTCCTCCCTATCCGTGG
AAAAATTGTCTTCCAGGAAACTGGTCCCTGGTGCCAAAAAGGTTGGGGGCCGCTGTCGTAGATCCTTTGACGAGCGTCCCCAAGGAGACCTCAGACACAG
GTTCCTGCCTTGCAGGGTCCTGACCCCGACCCTCCCGTTGCTCACAGTGTGWGTGCATGTCCGTTGAGCAGCTTCCCACCCTGATTGCAGCTGTTCCTTT
TTAAACAGAACCTGCAGAAGTGGATACACCAAGAACATGGATGCATTGCRTGTCACATGTATACATTGTCTGTTTCTCCACATATACACCATAACAGAAA
TGACACAGAAGAGCACCTCCTCGGTTTGCCAACTAGCTTTTGTATAGCAGCAAATTCAAAGTCAACTAGTGATGAGGAAAGACTGGAAGCAGCTAATAAT
AAGCATTCTTATGTAACTGATTTGCAAGAATGTAGTACAGTCGTCATTTGGGAATTGACTGGGTATAAAGAGTTTTCCAGTAAAAGCGCTGGAAGAACCA
GAGCCTGCAGAAGCAGGCCTATCGCCCTGTGCCATGTTTTTTGCCACACTGTCTGCCCATGTTGGGAGTGTGAGGCTTATACCCAGGGCTGCTTCCTGGG
TGATCTTGGGGGATTTTCATTTTTCTGGTACAGGACTGGAGAGTTTAYGAGATACACCATGACGGTACAGCATTTAATTTAGTATCACCACTTCGGGAGA
ATGTGTATCTTAATTGCTAAAATCTCTAACTTTGTATAAATTCAAATTGAACATAATCCAGACTATATAGCAATCTTTAATGAATTCCATCATCAACATT
ACCACATAAAGGAAGTTAAGTTGGGCRTATAAAATCGTAATTCAGTAAATTTTTCTTTAGTTAGTAAGCAGATTAGTATTCATTGCTAAGATGCATTTTA
TCAACGGTTTTGGTAGCGTTAGTTAAAAAATGTAAGAATAATGCTATAGAACATGAACATAACATTTTTAGAGAAGTATATTTATCAAACTTTTTAGTTG
CACAGTTTCTAAGGGCTGCTTACTGATTAAAAACATTTTTACTTATAAAAAGTCAGCCTGTTTTATTTAAGATAAGACATTGAGCTTTCAAGTTGGCAAA
TTGATGGGCAGAACGTATATATCCTGTTTGTACATGTTTGAGTTTAAGATGCAGTAGGTTAGGGGGAAAATGTTTTAAAACCATACAGAATTTAGGAAAC
AGACCTTTTAACTAATAACTGTTACTGAGAGATGATAAAAAAAAATATGAACTAGTTCACAATGAATTATATTTTGTATGCATGATTGTCTGTGATTATT
AATTGATGTGTACTTCCTCTTTGTCAAAAGTTATAATGTATCCRTCTACCATGAAAGGTCCCTAGAACATGAAAGGTGGTTTCTCTACATGCCTGTGAAA
TTGATGAGCAGGGAGAGGCTTACTCATATTTTAATGCCAGCAGTAACAGTGCTCACACCCAGAGATCAGGGGCATCAAAGTTGGTGGTAGCAAGGAGTAT
TTGCCACTGTAATTGACAAATAATACCCCTCATAAATACTGCCAGTCTTTTCAATTAGTTTTCATCTAAAATTCTGGCTACAAAATGATGGCCTGTCAAC
TGACAATGAATGGCAAAAATTAATAAATTGTCTTCTAAATAGAATGGACACTTAAGAAAAATTGGGCAGCCAATTTAGCACAGCATGAAGCAAGGGGAAC
CCTTTGTACTGGTGCCGGGCACTAATGTTGTCTCGATCTTTATTAATGGTGCTCGGCGGCTGCTGACAGTTTTGTTGCTACTGGCAACTTTCTTCATTAA
AATTAAAGCCAGCATCAAATTCCATTAGCCGTACTCTGGGCACCTTGCATTTTTTTTTTAATACATATTGTTTCTTTTGTTAACTCCCTCTCCACCCATA
AGAAGTTGTCAGAGAAGTTAAATGGAAGGAATTGTTTGCTAAGGCCAGAGAACCATTCACTGTTGTTGTGGGGAAATGGCCATTACTGGCCCGGTGAGAA
CCCCCATCCTGAAATCTGCAACTCTCCCCCCACAACCTCCCCCCCCCCCCCCGCCTTTTGTTCCATCCCCTTTCAAAATGGGAGCATATTACCTCTAAAA
ACGACACACTATTTTGGATCTGCAGCTTTCAGATAGGAACGACTAATTGGTATGAGGCCTTCTAGTTTCTTATTTTTTCTGAGCAGTTTTTTTTTTTTTT
AAAGTTCCTGCTTCCCTTTTCTAACTGTATTTCCATAGCTGACTATACCTTAACACAATAGTAACTCAATGCTCAGAGAGACTCGCATTTGTCCGGAAGG
CCTTAGAGTTATTTTCCCGAAGGCATTACTTTTATCTGTAGAACAAATTTCAACCTTTGAAGGAAAAAATCGAGCTTTGCTGAATAAGTTCTGAACTATT
GTCTGAAAAGCCGTTGCCTGCCCTTCACAGCACTGTGTACAGTTCAAAAGGCTCTGAAATGCCTCCGCCCTGGAGCTGCTCCTCTTTCGCCAGCAAGAGG
CAACAAACAGCTCTGATTCTAGGACAACTCAGTTCTTGGCTGTGCGCAGCGCCTTCCACCAGCAAGCAGAGGTTGTATGGCCACTGCGAATGTCTCTTGT
AAAGGAACTAGGCTGGGATCACCATCCCCATGGGTTACCTTCCCCTCCCAGCCCAGTCTCATAATTGCTTTCTTCTGTCCTCAGTAATGCTAAGTTTAGG
GGCTAAACCTTCATCTCAGTTTGTTTTCTTCTTCTCCTCCTCCTCCTCCTTTTAACTTGTATCTTACACTGAAAGAAACACAAATACTCATTAAAACAGT
GAAAAGATAGTTGTCAAGCAACAAAGGAAAGGGCATACCAGAAAACATACACTGAGAAATAAAAAATATAACTTTATCTCTGAGCATCCTAGCACTCAAG
GCAAAAAGGAAGATAATAATGCTGAGCTCTGCTGGAAGTCATTACGTAAGTGCGTTCGGTATTTCCTTTAACTGTTCTAACTTGAAACCATAATTATAAT
TACCTTTTTTTTTTGCCTCAAGGAGATGGCTTATGGATTGAATATGAGGATTACCTTTTTCTAACTGCGCAGCTTTCTAGTCACCACTGTCTCCCCATAC
CTTCCAGTCTCACATCACAGATACGTATTTTATTAATGGTATCTAGGATAGTGTTAACAGGAGTCTAACAAATCCAGTATTGTCCTTGTGAATCTTATTC
TCATTTGTGGAATTTCTCAAAAATACAGCAACTGACTGAGATTCCAAACRGCTCACAATTAAAGACAGTACAATGTTTTGCTTTACAGAGAAGTRGCAGT
AGTACAGATTCTGTTTTTTTGTAATAAATGTTTCTGACATTTTAATAGTGAAGTAAATTAATCAAATAATTGCAGGAAGATTCTGCTATTCAGCCGTTCT
TTTTTGAGTAATCTTAAATAATTAAAGGAAGAACAACATGCCAAATGATGGTTCAATTARCATGTATAAAAATAAATATTTACCAAGACTGCATTATTTG
CCAAAACGGAGATGTGCAATTATTTAATATTGTTGATGGGGCCCATAAAACAAATAGTACCAAATCTCTCCCTGTGTACGGCCGTCAGCCTCCAAGGGCT
GTTCTCCCACTGCAGACACCCCTCCTCTTACCACCACAATATCTGAACCAGGCAAGGAGACAATTGTTACTTGATGACTGAGCCCACTAATATGTTACAG
GAAATGGGGCATGAAATGCAATACTTTATATATAGTATGTACTGTGTGAGTCTTCCATTGAAACAAGGCCATTTTTAGCTTGCTGATACAATATTTGCAG
TGGTTCATCATTCGATTGTCCTGATTAACAATCAACTTCTATAGGGGACCATTTGAGTAGTTTTTTTAAATGTGATGAATCAGAGGATTTGTTCAACATC
ACTTCATCCTCTTCTTTAAATGGTAATTGGCACTTGGGAACTTGGGAGTGAAATAAGGTGTGGTCTGTTCTATGTGGTCATTTCCAGAAGTGCCGTTTTG
ACCACTGCTGTGCCTTTCATCCAGATTTTTGCAACTGGTAAAGGTGTCACAGGCACCATTGAAATCTACTCCCTCRTCAGGGAACACACTCTTGTTGATA
GCAACAGCATGCAATCTCTGTTACAGCCTCTAAGTTGGAACAGAGAAGGCTTTCSTAGAGGACATTTGGTGKAAATGAAACACATCCAAGCTGTCCCACG
TTAACTGTCACCTCTGTCACCCACATGCACTACCTATGTTTAGCAGGGCAGCCTCTGCCTGTGATTTGCAGGGAGCGCATGCTGACAGCTCTCTTCCCTC
TCCTTAGTTCCAGGAAGGTCCAGGCAGTTGAACTGACTGCTTGTCTGTAGAAAGACCCACTGTGTCCCTGGGGGACTGGTAGGTACCCTGATTCCTGCTT
ATCAGGGGATTGATTCTGGGCATGACCCTTCACCTTCTCTGTGCATATCTGTATCTTACCTCCATCTGGTCACTAGTTCCAGTAACTTGGCATTTCCTTA
AATGAAACATTAACATCTGTAGAAAAGATCTCTCTGACATGTTAGATGTAACATGAGTTAAAAAGTCCCATTTGGGAGGAAGAGAACCATTGGGGACCCT
GCCCCGTGGGGTTCCTGAGTGTCCTGGGCACCTTTGCTTGAGCTCATTCTTTTCGTCAGAGATCAAAACCAGGAGTGCCTCCTTCAGCTTGTACTACCGG
ATGGCTTAGCACCTGGCGAGTGAGTGTCTCAGAAAGRAAACTGCAGGAGTGCATTAGACCACTCAGGGGCCCTGCTGTCCTGGGTGTTCATCCATGGCTC
CATTCATCCATGGCTCCGTGCACGTGCAGCCCGGGACCATGACTCTGATTCGATGCACTTTGTTTTCCAGAAGCACAGTTTGTCTTCTAACTTCTAATCA
GTTCGGGATGGTATTCAAATTTCCAAGAAATTAAATTATTTGTAGTAAGGAGTTATTGCCAGTAGCAGTGGTAGCGGTCCTTGTCATCGTCATCAAAGTG
GCGGTGGTAGTAATAGCAGTATAAGGAAATATTTGTGCTGCTCGTAATGAAACGTGCACATGGAATGTTTCTGGAGATCAGGGCCAGATGTAGGGTGCAT
TTTCCATGCCCGTTCTCATCCGTAGCAGAGACTGCGTGGAGTGCTGTGTTGAGAAGGCTTCGGAGGCTCAGGTGTTGCAGATGCCATCTGCCATCACCAT
GGGGTAGGGCAGTGCAAACTGCAAACTGTCCCAGGTACCTTTTAGCCATTCTTGGTTTAAGTCTTTAAGACTAAAATTGACACATGGCTGTTTGTCTGCA
TAAACCTTTTTCTTTCTTTAATCAGGAGGAAAGTGAGTAATCCTTTTCATTTCTCCAGTAGAACCTCTAGTCCATGTCTGAATTGCCTTCACAGACCATA
TGCACCTCTGAACTTCCGTAATAGATGTCAGGATCCTGAGGGCAGCCCTGGGTTGTTCTTTATGCCTCTTCACATCCAGGGTGGTGCTGTCCACTCACCG
TGCGTGCATTGAGACTGTTTGGGTTGCTTTGCTCTCTGGTGAGATCTCTGTGTGCATGCTTTTTCTAATCTCCTCTGCTCTGTGTAGGGCAGGGCATATG
TATGTAGTTATCATAATGGGATTTGGAGCCCACAGACAATGTGGCTTCCCCTTTACTGCTCACTGGTTATATTACCTTGCCCAATTACTTAACCTCCATG
AAACTTTTTACCATTCATGAGATTTGTTAGAATCATTCAGTAATTCATTCATCAAATACTTTTTGAACATTTGATATTTGCCAGGTTATGGGCAAGACGG
GAGTGGTCCCTACTGTCCATAAGCTCATGATGTAGCAACTAAGGAGCCAGATGGCAGGGGCATCCCACGTGGTCTGGGAAGCCCTGTCAAATGGAAACAC
AGTGCCAACCACAATGTGATTTCCATTTTGCAGGGGCAGGTACATGAGAAAAAGTAAGAAGAAATAAGTGAATCTGAAGTTTATTTTAATATGCTTTATT
TAACCTAGTATATCCAGTGTTTGATCATTTTAGCATATAATCAATACAAGAAGTTACCTTGCGCCCTACAGAACCTTCAAAATCTGGTGTGTAGTTCACC
TATATAGCACCTCTCGGCTGGGACTGGCCTCCCGTCGAGTCCTCAGTTGGCACATGTGGCTGAGGGTGGCCCTGTGGGATGGTACAGGTACAGCCTCCTC
TTTGAGCTAGGGATGATTTCAGCTGACCAGGGGACAGACGCTGGCTGGGGTTAGGGAGGCAGTGTGAGGTGGGCCTCCTGGGCCCGAGGTCATCGAAGGC
CCCGGTGGGGAGAGCACATGGCTAACTACGGGTCGCTGGCCAATGCAAGGCAGCAGCATGGGAGAAAGCCCTGGTGTGAGGCGGGACACCTGGTTTGCAG
GCTGAGGATGTGCCACCTGTGGGACACCAGGTAGTGATGTCTGCAGCTGTGGATGAGACCTTCTAGGGGAAGAGTTAACTCGGAAAGAAAGGAACTCTGA
GCATTGAAGAGTCAGGTGGATGAAAAGTTGCCAGGAATGGAAAAGAGAAACTAGAGGGAACAAGGGAAGTGTGTCATTCAGGAACTTTCTGTATTTAAAA
GTGTGTGTTGGAGAGAAAGGACAAATCTTTTATGCGGAGGACTTGTAAATATTTTCCATAGATATAAAAGTCGACTTCATAGCTTGCCTGGTGTGCTCGG
TTTTGACTCTATAGATCTGACTTGAATGCGCAAGCGGGCCGTTCCCACGTGATTTAATAAACAGTTGCTGTAGCATGTGTAATCTTTGCAGTGACAACAA
TTTAGGGATCATTCGCTAGAATAAAGCAGGAGCAGCAGGTTCTGATTGTTCCTTTTTCAGGAATTCCTCCCTGCCATATCCATGTGCCACTGTGTAGTCC
CGTGAACTCTGCATTTTCGCAGAATGCCCCCATCATGTGAAGGGGTTCGGCTCACTCTGTGGCCGGCCTGGAGGCCTGGGTGTGCTTCCTAGGCAGGCAG
TTGGATTCTGTTTAATTTTCTTTAGCTATGGGAGAAATGGAGTCCATTTCCAGACCATGGTAAGTGCCCGTTGGTTTTGTTTGCGGTTCTGGCCTCCAGG
GCGGTCTGGGTGGGAGGAGGAGGTGGGCGGCCGGAAGGTGGTTGAGCGTTTCCGCTCCACTGCGCGGCCCCGGAGCCCCCAAACGCAGGTCAGCATGGAG
GGGCAGCCTGCAGAGGTGTCACCAGCAGCCATTAAGTGCAGATACTGTCGTCCCTGGTGTCGTCCCTGAAAATCTTGTGACAGGGAGAGACAGAGTGAAA
GGAAAGAAAAACGAGGCGATCAAGAGATAATATTAACTAGAAAAATCAAGAGGGGATCTGTCAGTCCTGGTGGGAAAAAAAAACATTTTGTTTTTCTTAG
TTTCCTTTTCCTTTTCTTTTCTTTCCTTTGGATGGAGGAGGTTTGGTTTGGTCTTAGTACCCCAGCATACAGTAGCTTCATTGGCTTTTTTTCTGCCCAT
ATTCAAAATTCCTTTGATTAGCATTTGGTTCTGGTTGGGACTTAATAATGCTAGCCAGACCTAATGTGAACCATACATCTCGTCGGCATTACTCATCGTC
AACATGGGTTTTTAAAAGGGAAGGAGAGAAACACAACAAACTTTTTATTTCTTTCCCTGTCATTGTTCTTGGTCTTGTTATTCAGTGGACGCTGTATTAA
ATTGGATTCTGTGTCCATCATTATTAAAATGTGAAGTGTGTCGGTCACAAAGCATACATTTCGGGGCAGTTAGCTGAATAATTCTTTTCTTTATTATCCC
AAATTACTGCTGAGCTCTGGAGAGGGGAGCAGTTTAGCCAATTATTGCCATTTGAGCTGGATTTGTGGGTGATTAGCTCCTGGCCGAATCCAGTCCCGGC
CGGCGCTTTGAAGCCTGTGCTGTGCGATTTTCTCAGCAGTGAGGTAGGAATAGACGCGGCTAATGACAGGAAGGTCGCGCGGGTGAGCTGACCTGTGTGT
GGCGCAGCCTTGGGTTCCGCAAATAGGGCACCCACAGTAACACGTGTGGCGCCGACCCCGCCGTGCGCAATCGGGGCTTTATACGATTGCTGGAGATGCT
GACAGCTCAATTAAAGTGTAACCCTTTGTGCCCTGCAACCTGGCACAACGACAGAAATATTACTCGCCGGAAAGGGGAGGGGGTCTTTGGGGAGCTGGTT
AAAGATCCAGAATCGGCCCCTCGCCCCTTTGCCCCTCCCCCAACTCCCTCCACTGTACAGAAGGAGCTGCAGAAAAGCCTCCATTTGTAAAATAATAGGT
GCTCTGGAGGAGGGGCAGGGCGGGAAATATTACTATTTTAAAAAGCTCAGTTAAGGGGGGATTCCTGCTGTTCCTATGGAAACACTTTAAACTAGAGAGA
AAGTTAAAAAGATTTAGTAGCGGCAGAGCTTGTGTCTGCTGGTCACATTTTCTAGTCATCTCCTTTTACCAAAATTTACCTCCCAGCATCGTGGATGTGA
ATTTGCCAGAAGTTTTCCGTTTGTGGAGGACTGGGGAAAGCCAGTTAATTGGGATGTGTTTTTGCACACAACGAATGATTTCTATGTTATCGATTTACTT
CTTTCACTTAACGGCATTTTCTGCAGCTTGAATGAAAGCTGTCTCGATCCATGTATGTCTGTGTATCTGCGGTCTGGTCATTTTTGCCACACTTGATTTT
TTTCTGCTAAACCCTACGTCTTGCAGTATATGGGTCACTCATCCAGATTTACTTGATGCTGTTTTAGTTAGGCAGCAGCATGCGATGCCCTGTGCGCATC
TTTATTTTTGGTTTTAGATTTTTGGTGGACTGCTTTGATGTTTTATTTTCTGAGACTAGGAGTATCTATAACTTGGTGTGGTTATTCTTGCAGGTTGAGC
CGGGTGCTAGCTACTGATGTGGGAATCTGGGAGCCCGAGCCGACTCAGACAGTCCTGACTCCCCAGAATTCCCACCGAGGGAGACAATCCGTGTGTGTGA
TCGGGGTGTTCTGGACTTGAGGTACCTGGTAGATACTCGGGGGAGTGTGTCCAGTACGGAATGGGAATTGAGACTCCAGCAAGTGGGGAAGAGACAGCGG
AAGTCCCCAGTGTGACACCAGGGCCTGTGGGGCGTATTTGGTGAGACTGGTGAGGTCAGCATTGGACCACCTCCCATGCTGGGTGCCATCAGTGTGCTGG
AGGGGGAAGGGGGAGACAGCATTTCTCTGTCCTAGAGCAGTGCACAGCCTGTTCATGCACCTGTGTGTGTGAGTCAGCTCAAACTGCCATAACAGAAGAC
CACAGACTTTGTCTTAAACAGCAAACATTTATTGTCTCCCAATTCTGGAGGCTGGAAGTCTTGGATCAAGGCCTCAGTGGGATTGGCTTCTCCTGAAGCC
TCTCTCCTTGGCTTGCAGACAGCCATCTTCTCCCTGTGTCTTCACGTGGTCTTTCTCCGTGAGTGTCTGTGTCCTGATCTTTTCTAATAAGGACAACAGT
CATATTGGATTAGGGCCCATCCTAACAGCCTTATTTTAACATAATTTGCTCTGTAAAGGCCCTGACTCCAAATAGAGTCACATCGTGAGTGCTGGGCGTT
AGGATCTCAATATCTGAATTAGGGAGTGGAGCACAATGCAGCCCATAATAGTCATCGTCTAAGGGATGGGCGTCGGGGGGTGCTTGCTTATGCGGAGCCT
GTGACCCTGCAGCTCAGCATGGGAGGCTAAAGGGGCGCTCACCAGGATGGCCAGAGGAAGGGGCAGGATGCAAGAAGGACATTTCAGGGGAAAAGAATTG
AATTTGCCAATTTACATTAAAGTTTCTGGCCTCTGATTGGGTCTGCATGGTTTCCTGTCCTGTAGCAGTCTTCTATAAAAGGCTGGAGAGGAGGTATGTT
AGGCTTCATGGGTCGTGTGGTTTCTCCTGAACTACCTACCTCTCCCAGTTCAGGGCAAATGCAGCCATTCCAACCAATGAACTTGACTGTGTTCCGATAA
AACTTTATTTACAGAAAGAGGCAGAGGATCAGATTTGGCCGACATGTGGGAGCTTGCCGGCCCCAGTCCCGTAGGATCCCCAACGCTAATAGTCTGGATG
AGGGTGCACAGGCTGTGAGAGTTCCTGTTAGGCGGGAAGGCTCTGGCCCCTCGGGATCATACACCTTATGCTGGTGCTGCAGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGCAAGTGAGGGAGGGTGACCCCCACACCAAGCACACAGGGCCATGGATTTTCACTGTCTTGGGTCCAGGCCTATTTCTAGC
TAAGTGTTATCTGCAGGGTATAGCTTAGCATAATGAGAGGGCAAAAGCAAGATGACTAAGTGTTCGTTACGGAAAAGTGGGATGTCAGGGGAGCCTCAGC
AGGGGCATCACCTGGATGTACCATTTTCCGCATGGAGCTGGTGCCGTGGGGGAAGAATAGGTCACAGCTTGTATGACCCGTGTGCTTCTCCAGTTTCCAA
TGATGACATTCCATCCACCCACCACCCACCCAGATGCGCTTCTCTAGTTTTATTGAGGTCAGTTTGGTTCCTGTCAGCCACAGTTTTAATACATGTTTAT
AGGGGGAAAAATCTTAATTAGAATAATTAGAATAAAATTATTAAATGCAAATGTGTGATTGGTACTCACACTCTTTGGATCTCAGTTAAAGGTGCCAGCT
TTTCTTTGACCTATTTTAGAACTTCATAGAAACCTTTAACAAGAACCTGTTCCAAAGTGTAATGAATGCAAATCATAAGACACTAAATGAGCTATTAACA
ATATTCACTGTAAAACCACCGAAGTACTCAAACATCACTTTTTTTTTTTTTAGAAGTAGAAACATTTTTGAACTTGCATGGATGTTTTTAAGCCAGAAAA
AACTTTTTTTAAAAAACTTGGTAATTAGGAAACTATTAGTGCTCCTGCAGCAGCAAGAGGATTCATTTGATCTCATTGCGAAATCACACGTGCACCGTCC
TTTACATTCAGTCAGATGCATGCACGGCCCCCGGTGTCTGTTAAAGCCGATGAGGAATGCTGCCCGCAGAGCAAAGGCGAGTGGTTGTGGACGTGCCTGT
TGATAATCTGATCTTGACATGGCGCCGCCTGCGTTGAGACTGTTGCTCCATCACCCCGTAGGAGCTTAGCCATGAAATGTTCCCTCTGTGTAACGATGAT
CCCTGTGCGAGCAGAGGCCGGCACCATTTGGTCCCTGAGACTCAAAACAAAGACTGATTTGCCTGGTTAAGACCCCCAGTCTCTAATGCAGTCRATAAAT
CTTTGTTGGTAAATAATTGCTATCGAGCAGAGTTTTAATATAAATTTATGAGTGGTGTTTTATCACAGCTTGGGGCTGCAGCAAACACTGAGTGATGGGT
TTCAGATAGCACTTACATTCATGACATTAACTTTGTAAGTTATTTAAAGCTTGTACACTTAACATTGCTTTTGGCTTTCAATGACCTCTTGGGACTAGAC
AAAGAATACACATGACGAATAAAGGGATTGCAGCCAAAAGACAATTCTACTCTTTGCTCCACTGTAGAAAAGGTTCCTTGGGCTTAAAGCAAGATGTGCC
TGCCTGGAATCCTGATATTTTGGTTRTAGGTCATTAAAATCAGTCTTTCTGATATGTCAGTAAATTAGGTGGTAGGAATTAGATCAACATTTGCCATTTC
CAAGTAACATAAGAAGAATAATTTGAGGTGTCACAAAACATTTGAAATTTCTTGCTTTACAAACAAGTTAAAATTTGTCTGGTGGGTGAAATGGTTTGCA
GGGAGGCAGCATAGCAGCGGGGTAACAAGTATAAACCCTTGGTTTGTACCTCGAATCTTGCGCCTGTTTCTTCCCCTTACTGCYGTTTGGGTTATCTATT
GCTGGGTAATGAGCCCAAATTATAGTGGCTTAAAACAGTACCATTTTGGCCAGGTATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAGGCCGAGGC
AGGTGGATCACAAGGTCAGGAGATTGAGACCATCCTGACCAACATGGTGAAACTCCATCTCTACTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTAG
CCGGGCGTGACGGCAGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATC
GCGCCACTGCACTCCAGCCTGAGCGACAGAGCGAGACTCCGTCTCAAAAATAAAAAATAAAAGTGCCACCTTATTGTTTATCATGATTCTGTGGGTCAGG
AGTTTGGGCAGGGCATATTGGGGACAGTTTGTCCATGCTCCACAAGATACTTTCTTAGGGCTACAGCGTCCAAGATCATTTCTTTACTGATGTATCTGAT
GCCTCAGCAAAAGTGGCACAGCTGGCTGGAGGCTGACGTGAAAAGGTCACTGGCAGTCATCTATCTGAGACCTCAGTTCTTCCTCAAATAGTCTCAGGGT
GTCTCCTCTTTACTTGGTCTCCCCAGTAGGATAGTCTGACCTCTTAACAAGGCTGCGCAGGCTTCCCAGGGGCGTAAAGCAGGAGTTTCCAGGCCTCCTT
CAGGCTTTGGCCAGGAGTGGCACAGCATAATTTCCACCACATTCTGTTGGTTCAATTGAGTCAGAGGACAGAGTGATCACACAGGATATGAGCACCACGG
GGGATGAGGGGGCTGGTTTTTGTGTGCCATCTTCGGACACTAGCTACTTCACTCTACCCTCCTTCCTGCAAAGTACCCACAGCCTGTCCCCAGCTACCCA
AAGTCTCAAGCCATTATGGCATCCAGCCCAGGCTTGAAGTTCATGGCCTTGTCGTCTACACCAGGTACACGTGGATGAGGTTCCTTGCATGTGGTCCTCC
CCATCGGAAGACCACGATACGCAGGGGACAAGTTATCTCACACACCATGCAGTGGTGACTCAGGAACAGGAGAACTGCAACAGATACCCTTATTCTAAAA
AGGTGGAGAGGCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTCAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATGGCGAAACCCT
GTCTCTACTAAAAATACAAAATTAGCCAGGCATGGTGGCACATGTGTGTAATCCCATCTACTTCGGAGGCTGAGGCAGGAGAATCACTTGAACCTGAGAG
GTGGAGGTTGTGGTGAGCTGAGGTTGCACCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTGGAAAAAAAAAAAAATGATGGAGAGGGACA
AGAGACATGGAATAGTCACTGGGCCATAACAATTCTGAAATCCAGCCAGCACATGATGCTGATTCACCCTGCTCTGGGCATAAGAACTGTATATTCTCCC
CAGGAGGCATCCTCCTTGGCCCTTGGCTCTGCCCTCTGCCTTTCCCATAAGAACTGACCCATGTTTGCTACTATGCAGCTTTCTCAGCCTGCTTCCTGCT
GTACTTAAAGTTGAGGGCCCAGAGACCACTTTTCTTTCTGAACTTTCTCTGTGCATTTTAATCCAAGATGGTATAATTCCTTTAAAAATCTTGTGGGTAT
CCTTTGTGTCAAATCATAATCTGTTCCATTAAACAAAAGCTAATGCACAGATTTCTCTCTCTAATCCATGGATCTCTAATCAGAAGGGTCTGTGAGGCAT
TGCCTTAAAATATTTGAGTTCTCAAGGAAAGGGTCTGACTGCCACACCATTGAAGGGGTCCTCATTCTGAGATCACAGCTACTGGCATCCCCAGGATTTG
ATCTTAGTTCTGATGCCAGTTCTTACTCAAGGGTTTTCTGCTGTCAGGAGAAGCTGGGAATGAGAAACTGTTTTGTGATCAGTCCAGCAAGGTTTACAGT
TGAAATATTTTTTCTAATTGTGCTGGAAAATTCCCTGGACCTCCTCTCTCTCCTCCCGTATTTAACAGAGCCAGGAGCACTTCCAGCATCTGGCATGGCA
ATCTGGTAGCTAGGTGTGCAGGCTCACGAGGCACTCTTGCTATGCTACCCATCCCCCTGCGTGGGGTGGCCGGGAGGGGGCAGGTTGCTAATTGCCCTGC
TGGTACCTGTTCTGCCGGCCCCATTTCCATCCTAAGGTAGCATTTTCCTCACTGTCCTCACAACTTCCACTCATGCTTCTTACATCTCTGCCAGCCTCAG
CCAACTGCCTAGTTCCAAAGCCACTGCCATGTGTTTTTGATTTTTGTTACAGCAGTACAGGATGCTAATTCTGTTTTTCTTACCTGTTGCTGCATAAGGA
TCCACCCTGAAACTTCAGGGTTTAAGAAAATGATCATTTGACTGTTTCTTATAACACTGTGGCTGAGACCTGTGGACAGAGCCCAGCAGGGCTGAYTTAT
CTGTCAGAGCTTCCCAAGGCACCAGGTGCTGCTAGGCTTTCTCGAGAATTAAACCCARTGGAGATAGTGTTATTCCCACTGATGCTGTTAGCTAAAGTGA
GTCTCGGGCAGCCCAGGGTCAGTGTGGGAGGATTTATTTATACAGGGACACCAGTGCCACGAAGTGTGGTTCAATGGGAGCCGTCTTTGGAGAACAGATA
CCACGCTGGCTGTGCATGTTGGGCAAGTTACATAAGCAGTCTGTTTCAGTGTCCTTATCCATGAAATGAGAATCGTCGTGGATATCAGTTGTGATTGCAG
TTGATGAAATATGCAGTTGTGAATACTGAGAGATTGGTATTCATACTCTTTGGAACCCAGTTAAAGGTGTCATATCAATTCCTGTCCATGAAATGAGGAT
AATCAATGACCATCTGGTTGTCATGCACTTTCAGTGGGTTAACAGTTGCAAGGCACTTAGAGCAGCAGCATCTGGTTCAGAGTGAGCCCAATATTGCATA
GAAATAAAAAAAAAAAGTTCTAAATAAATGCCGAAGCCACATAGGAGTCAAAGAAAGCGTTAACTGTAATTGATGTCTTCACTGTGACAGCTGGACAGCA
AGAAAGAATCTTAAGCAGAGATGGTTTTCACATGTACAAAAGTGGCATCTGAAAGATGGACAAAGTATGCATGGTGACATGCCACCATGCCGCTGGCCCT
GGGTTATGCAGAATCAAAAAGACTTAGGATCACAGGGGCCATTGGCACTCACTGACAGGAACTCTCTTCCTGAGCATCTCAGGCAGAGCCTTCCGGCCTC
TGTCATCTTCTGGCCAGTAGGATCACGGCTTCATGTCCTCTAAAAGTTTCAAATGAACTATTTTTAGGGTTTTCCATTTTCTTGGTCCTTAGAGTAGGAA
GTGTGAAAGTTCGGACTGATTGAACATAGAGGAGGCTGTCTGCGCGCTCAGCCCAGACCAGTGGGGGCCACCTTAGTACCACTTCCTCCCTAAGGAAAGC
GACGGGCCCCCTGTCTTCCCCGATTGGTTTCCATTTAGCTGCTGCACATGGGGGATGCTGAGTGTGTTCAGAGGGGCGTCCCATGGTCGAACTGGAACTT
GCTTTGGGAAGAGTGTGGACTAAGAAGGGGCTTGGCTTGTGTTGCCACATGTGAGAAGACCTCTCAATGGGGCTTTTGTGGTGGCTCCACGGTCCCTGAA
AGTCCCCACTGGCTCAGTGCAGCTCTGGAATTAGGAACCAGCCGTGCCCCAGGAGGGCAGAGGACCCTGGCTCTTTCCAAGGGAGATCATCCAGGCAGCT
CTCACTGCTGAGACCTATGGACCCCTGTCCCCAGGGTGCTTATGCAGAGACTGCGGGACCCCAGGTGGGGATCATGCAAAACATTTTTGTAGCAGATTCA
GGGCTGAATGGTTTAACTTCTGGGGTCGCTCTAGACTGAAATTCTCTGATTCCCACTTGGTACAAACACTCTTCAAAAATCAGTGTTCAGAATTAATTTA
AGCCAAGAAAGAAAAAGCATGTTTTTAATCCACAAAAGCTATTTCCCGAGTCTGCTCATTTGTAGTCCAATTGAACCTCTGATTATGACTGCTCCTCTGG
CCTCCTGCTTCTGAAGCCCCAGCCAACGTCTTCACTCATCAGAGAGCTTCTGTCTCATCGTACTTTTGAGGAACAGCCTTTTAAAATTATTTAAGGAGAG
ACAATAGAGAGTTTTGTAGTTTTTCCTATTGTTTTGGCAAACTTTTTTTTTTTTAAAGGTTTACATGTATAAATGCAGACATGGACTCTCTGACGTCAAA
GATCTGTGGGCATTAAATCCACAGCTGGGGAGTCCGGGCTTTCCCAGGATTGGGGCCCTTCAAGGAAGAGCAAGCCTGTGTAATAATTTGGAGGCCTAAG
TTACCCGACTGTGGGAAGGCCAGTGCCGCTGTCCAGTCCATGTGGAAGGACCTTGATGTCAGTCCAGAACCACATTTTCGTTTTGTTTTTGAGACGAGGT
CTTACTTTGTCACCCAGACTGGAGTGCAGTGGCACAATCACGACTCACTGCAGCCTCGACCTCCTGAGCTCAGGCAGTTCTCTCACCTCAGCTTCCCGGG
TAGCTGGGACTACAGGTGCACACCCCCACACCCGGCTAATTTGTGTATTTTTTTGTAGAGACGGGGTTTCAACTTGTTGCCCAGGCTGGTCTCAAACTCC
TGGACTCACACAGTCCCCTCGCCTCCATCTCCCAAAGTGCTGGGGTCACAGGCGTGAGCCATCACGCCCAGCCCAGAACCGCATTCTGTTTTTTGTTTTG
TTTTGTTTTTGTTTTTGTTTTGAGACAGGGTCTTGCTCTGTCGCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCTCCCTCCAACCAA
TTGCCCTACCTCAGCCTCCCAAGTAGCTAGGTCTACAGGCGCACACCACCATGCCCAGCTAATTTTTTGCATTTTACTAGAGACGGGGTTTCACCATGTT
TACCGGGATGGTCTCGATCTCCTGACCTTGTGATCTGCCGGCCTCGGCCTCCCAAAGTGCTGGGGTTACAGATGTRAGCCACTGTGCCCGGCCCAGAACC
ACATTCTTGAGCTGAGCTCCCGAGGGTACCTGGTGATGTAGAAGGAAGTTGGCTTAACTGGGGGCGCTGCAGCAGCTTCTCAGACATGGCTGCCCTCATG
CCTCCTTGGGGCCAGGGCTGTGGTTATAGTTGCTGTCCATCACTCTAGGTGCTTTCACCTAGGCAGAGCAACCGAAGTGCACTTTGCAGGGAGCTAAGAG
GCTCGGCTGCTAACRGCAGACGGGTTTGGGTGGGACTGGAGTGAGCTCAAGATTCTGTGCAGGCCTCACTTGGATCAGCTGCTCCTGTCCTTAGGGGTCA
GGACAGGACTTCGTCATGTTTCTGGCTTTGCCTTCATCTATTCTGGAAATTTCAAGAGAACCTGGACATGTGAATGTGAAAGAGAAGGCACTCATGTATA
GAACTCATTACAAAGATAGCATTACTCCTAGAACCAAGATACCATGAGTGTGTGTGTGCATGTGTGTGTGCGTGTGCTCTTGCACACGCTCATGGATCAA
GGCAGAGGATGAGTTTAAAAACTGGTACTAAAATACCCTCTTATCAGAGAAATTGTCAATATCATGGCCCCACATTTCCATTAGATAGGCAGTAACCTCT
TGTGAAGCGGAAGCAAACTAGAAACAGCTCTCCCAAACGTGGGCAAAAAAAGAAACTAGAACTGGTTGAAGACTGAGTTTTGGGAGAAGAACCCTGGAGG
CCAAAGGCAGTATTCCTGGGGTCCTGGGATGGAGAGAGCCCTGTCACCCCCTCTCCCCCATCTGCCCTTGCTGCAAGGAGGAGGTCAGCCTTGTTTTATA
AATGAGGTCACTTTTCAACCTTACTGGTCCATGGCCCTGTCCTGTTTCTGTATCTGCCAACCAGAGAGCAACTCCCGTTGTTTGTTTTCACCTTTTAGAA
TTCCTGGGACTAACAACAATTGTAATAAAATCGATGGTATTTTAAATTGTTGGGATGAACAAGCACTTTGGGTTCCTGAGATCTTAGGATAAAAGCCCAC
CGAGGTGCGAGTCTCACCATCGTGCTGTCTGCTGAGAGATCTGATTCCCAGCGGACCGGCCTTCCTCACTCGATGATTGTCAGGGCTGAGAACCCAGCAC
AGGTCTGTGATGCCCACGAGGCTGTGCGGCTCAGGGCCAGGTCGGTTTTGAGTCACGTGCTTACTGTGTGTCGGAACACTTGTGCTTTGAAGGCTGCGAT
TGGACACGTGATTCCCAGCACGTTTCCTGAGGTTCCGCCTGCAGCCCGGGCCTGTGGTGGAGTAGAGCTTCTCTCCCCAGCTTTCCCGGGAGTGTGTGGT
CTCCTGTTTCCCATCTGCATTTGCTTATGGGSCGCCATGACACCAACACATGGAGCCACTTGGAGACTTGTGTGTTAGTTGTGCACAGATACCTACACTT
CCCACTGCCCGACAGTACGTGCAGTGATTTTGATGGCTGTTTATCCGGACTAATCAGACAAAAACATCTTCCAAAATACATTATAATTGCACTAGGGACT
TCTAAATTTTTATTCAATGGGTAAATGTCTTTTTATTTCATTTTAAAAACTCAATGCATTGTTTGTTTATATTTAACATGGATTCATTTAATGAGAGTTA
AGTTTGACCATATAATGGAACAAATGTTAATTTCCTCAAAAAGTAGTTGTTCTATGTCAGACCCATGACCAAGATCTCCTTGCTATAATTAGATGACTTG
TTTCCAGGGTAAGGGGCTCACCTGCAGATAATTTTCTCATCTCCAATAGAGGTGTGCATTGCCTTCTGTATCTTTACTTCATTGTTCTCTAGCTTCCTCA
TTTGAAATTGCAAATACTTGTATCTGTTGTTTTCCTAAGGTGAACATGATGCTTTTTACTATCAATTTATGTACTTTTAGAAATATTTAAAATAATTTAT
TTTTAAAGGAGAATGAACTAGTCAACCTATTAAATGATTACGTCATGATTTTAATGATTCTCAGGAAAAATTGTGCTGACCCTTAGATGATAATTCTTCA
AAATGGGATTCTGATTCTGTGTTGGCCAAGCAGATTATAACCCGGCCCTTGCGTGCTAAACCTTAAGTGTCACCATATTCACCCCTAGGCTTCTTCCTCT
CTCATGGCTCCTCCCCAGCCACCCTCCGTCTCCCGGACTTCCTCCTTGAACGTGGAACCTCAACGGCTGGCCTGGCCGCCTTGCCTGCCTGGGGCACCAG
CCCCCCAKTGCTGTGTGGCTGATACCAAAGTCTTCTTTTCCCTCCTGGTCACCAGCTCCTGTACTCTCTGGCTCAGTGAATGACCCCACTGGGCCACGAC
AACTAAAGCCTGACTTTGTGCTGGCCCCGCCCCACCTCACCCAGCACCTTGTCCCGATTTTACCTCCAGCGTGTTTCTTGCATCTGCGTTCTCCTTGCCT
GCCTTCCTTCTCCTCTCTTGCCCCCAGGCGCATCCCTGATCGTTGCTGCCATTCTAGACCAGTCTTTCCCACATTTGAGTGGTGTGGAACCTTTTTTTTT
TTTTTTTTGAGACAGAGTTTCACTCTTGTTGCCCAGTCTGGAGTGCAATGGCGCAATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCT
TCTGCCTCAGCYTCCCAAGTAGCTGGGATTACAGGCATGCACCACCATGCTCGGCTAATTTTTGTATTTTTAGTAGAGTTGGGGCTTCACCATTTGGTCA
GGCTGGTCTCAAACTCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGAATTACAGGCATGAGCCACCACGCCCTGCCAGAGCCATTTAA
AAGAACAAAAATCTCATGAATCCTTCAACATTGATTTAACTGTTTTGATAATAATTATGCAGTTAGGTACAAGCAGAAAACTAAGATTCAGCTCCTTGTC
TTTATAGCTTTTAAATAGATATAAAAGTTATATTTATTAAACATTTAAATTAATACCATTAATTTACTGTGCATTTAATGTTAAGGATGATGATGTTTTG
CTGAAACAAAATGAYGGCCATCCGTGCCAGGGGTTAGGGATGACGGTTGCAGGGCAGGCTCCTTTGGTGTCAGCTGCCTCGTGACYGTATCACGTGGTGA
CCCCAGTCTCTTCCTTTCCTGCTTTCATACTGAGAAATCGTTTCGTGTACAGCATGCGGTGCCTTCCCCGGGGGTTAACTTGTTCTCAGAGTGAGTGATT
TACATGTTGCGTCTCCCTCAGCGCTGTCCCCCTTAGCACCACTCATGACCTAGGAAGTCGGAGATGCCAACTCGGGCAGTGGAATCCAGTGGTGGTTTTG
GATCACTTTTTAGATAGTGATTAAAATACACTCAAAAATTTAAAAATTCTCTTGGAGAAATTATGGTTCCAGAGAAAATGACAGGTTTCCCTTGCATCTC
AAATTTGCTCAGACCGTCTGGGGATCTTGTTACATTTGGATTGATCCCTCCCCCTCTTGGGTACACCCAACCACTGGTCTAAAGTGGGCCACACTTTGAG
CTGGAAAGTGCTTCCGTCTTTTGCCAACTTAAAATTTGTCCTCGCCAGGGGAATCTTTCCTAATGCAAATCAGATAACCCCTTCCTCCCTCCACCCTGCA
CACCTATGGCAGGGCCCAGACATTCAGGCACCTCCAGGGCCAGGCAGGAAGTGGGGCTGAGGGCAGCCCGCTGATTTGAGAGAAGGGCCCACGGTGCCCG
TGGAAACCCGAGAGTGTGGCCTCTGCACACTGCTGCCCCTCAGGGCCATATTCCCATGTCAGATGGAGAGTATGGGTGCTGCGGCTGCTGGATCCTAAGA
TCCATAGGAGGGCAGGGGGACTCCATCCAACCCCAGTGACTCTTGGCCAGAAGTCACAAACACCGCGTGCACGTGCAGCTGGCCTGCAGCAGGTTCAGTG
TAACCAGCGTTCAATGCAAAAATGTATACCTGTGGCCAGTATTTTAACATAAGAAGCCATCACACACAAGTCCAGTGTTTCTCCTTCTCTTTGATAATCA
GGAAATCTGGCCACGTGGGACCCTCCAGCCCTGCAGGGTCGCTGTGTTGCACAACCCCAGGGGCTTGTTGGTGGCAGCATGTTGGCCCAGTCACGTTCTG
GGCTAAAGTACTCCTCCCTGCCAAGCAGGTCTGATCTCTAGTTTCCAGCAGCCCTGGGCACCCCGTTCCTGGAATTTGCTAGTCGGGTTGAGATTTCTTG
TCCTGTTCTCCTTTCCTTGAAGACACTCAGGGTTGAGGCCTTCTCAGGCTGCTCCTGGATTTAGCAAACAGAAACCGCTTCCTCTGGAGCCATGTGCACT
CTCAGTTAAGGGAAATATTTGCTCATCTGCTCTCACTCCAAGCTCACATTATATTTCAGTGGGAATTTGGGAGTGAAGCGGAGCCCCTGTCCGCTCATGT
TCCTTGACTGAATCAGAATGTCTTGGGAATTGGGGATACCCTCTGTAAACTGTGGGGTGCAGCGGGAAGATAAAATGCGAGTTGTCATGAAGTCTCACTT
CTCTCCCTGCAAGGGACTCAGGTGACAGAGGTGCCTGCCAGAGGGATCCTGAGCAGCCGCCCCTTGGTGGTTGTGCTTTGGAAGGGGGAGCTGAAGTTCA
AGACCAAAAGTGTTGGGCTGGGCAGTGGCTGGGACACCCAGAGGTTCTGCGTGGGGAGCAGGTCACCGCCCATCAGTAGGAACAGGAGACTTTGGCAGCC
CAGCAGCCCAGTGTCCTGGCAGGAGTGAAGACGGCAGGAGAGCTGGCCCTGCCACATTCCGTTAGCTAACAAGACACTTCCCCTGTGTAACTCAGTCCTG
GCTTTCAGGGAGCCATGGCTTCCATAACTTCGCTGCCCCTGACTTGTTCCTTTGGGGAGCAGGGGACATGACTGCACAGCCGGGCTGAGCATGGGGTAGT
GCTCCAGCCACTGAAAGAAAAGTGCACCTGCCCCAGCCCAGCTAGACCACAGCCATGACATGGCAAGCGGGGCAGCCAAGTGGCTCTTGGTCGCCACAGC
AATTCTTGGGGGGGTCAGATAATAAACCCAACTGGGGCCAAGGCTGGAAGGCAGAAATATGACTCCTAAGAGGCCAGGGTATTCTGTAGTCCTGCCACTT
ACGCAGCATTTGAATAGTGCCTATAATCCAAGATTATCCCCCCTGGCAAGACGTAGAGTTTAAGTTAAGTTTACTTATTTAATAAGATCTTAAGTTTATT
GAGAGTTTTCCTAGGATCAAAAGAAAATCAGCGTAGGCCTGGCACAGTGGCTCACTCCCTGTCATCCAGCACTTTCTAAAGACCTAAGCGAGGCATGGTG
GCTCACTCCCCTGTTACCCCAGCACTTCTGGGAAGCCATGGTGGGAGGATTGCTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAAGATGATGAGACCCT
GTCTCTACAAAAAATAAAATAAAAAATTAGACAGACATGGTGGCATGTGTGTGTAGTCCTAGCTACTCGGAGGAGGCTGGCGCAGGAGAACTGCTTGAGC
TGGAAAGTTCAAGGTTGCAGTGAGCTGTAATTGCATCAGTACACTGCACTCCAACCTGGGCAACAGAGCGAGACCTTATCTCTACAAAAAACAGAAATAA
AAAAATTAGCCGAACAGGATGGCACACGCCTGTAGTCCCAAGCTACTCAGGAGGAAGGAGGGAGGATCACTTGAGCCCAAGAGTTCAAGGCCACAAGGAG
CTATGATAGCATCACTGCACTCYGGCCTTTTTTTTTTTTTTTTTTTAAAGTTTTAATTCAGCCTAATTTAGTTCCTCAGAAAGCTATAAAATGATGTCTT
CACATGCCTCCCGATTAGACTGTTTCCCCCTTTTTCCTTAACAAATAAGTCCTCKTAGCCTTCACTGGGGGCAGGACAATTTTGAGGATGTGATTTCCTC
ACGAAAGTACCTCCCACACGCCAGCCAGAAGAGTGGTGCAAATCCATCCGCATGGAGCCCCGAGGGTGTGCGCCGTGGCCAGCATTTGTCTGAGTGGGAA
GGGATGAAGCTTTCTGAATGAAGCCTGGAGCATCTGTAATCTCCTGGTGACACCAGAGACCGTGGCCCTGGCATTGTTGAAATTCCATCTGAAATGAATG
ACGGAAAAATGGGAGCCCACTGGAGAACTTGAGTGAGGGCGAGGTGGGTGGATCACCTGAGGTCAGCAGTTCAAGACCAGCCTGGCTAACATGGTGAAAC
CCCATTTCTACTAAAAATACAAAAAAAAAAAAAAATTAGCCAGGCATGGTGGCATTTGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATCA
CTTGAACCTGGGAGGCGGAGCTTGCAGTGAGCTGAGATCACGCCACTGCACTGCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAACA
AAAAAAGAACTTGAGTGAGGCTTTGTTATGCTAAGTTTTAAAATCCACGGGAATCCCACTGAAGAGGGGTCTCTCATGAGTTGAAGCAATTGCTTGTTTA
TTACCGCATCGCTGATGGTGACTGCCCTTCTCTAATTCCTGCCATGCAAGGAAGCCCTTATTGTCTTGGTTTGCAACTTAGTAGCATTTTCCTGTGGGCT
TCATTGGGTTGATTGGTCTCAGTTCCATATTTGGTGTATAGCGATTTAGATTCCAAGAAATCAAGGTATGCCACATTTTGCCACGTTTCCGTTAATAAGA
ACTTGCAAAGAAATCGTCTTCTAAAGTCGTTTCAAACTCAAATATTTTCCCTTAAGCAACAATGTCTAATGGTGATTGCAGCCCCAAGCTGGCTCATACT
TTATTAAGTTTGTGAAACTTGGTTACGATCTAGTAAATAAAAAACAGTATTGTCACAGTATTGGTAATTAATTGGACTTGAACTCAATTATATCCCATAA
TAATTATTCATTCTTATGTTGTAATTCTTGAAAGATAGCAGAATTTAGGAGGTCGATGGAGGCTGGGAAAAGTTCTGAAGGTGACTCGTGGGGCATCTCG
GCTTTCTCAAAGCGTCTTCTTGTATTTCAAAACTCATAACTTTCCTTCTGCCTCAGTCCAGGTGAATTAACTAGCCTGAGTCTTACGCTCTCTCAGTCAT
ATTAAGGTTACATAAGTTTATAAAAGGGTAGGAGAAGAGGAAGTAAAGAGATTGTTCCATTTTTCTTGGTTAACATGGGCCAGAGTTAGATGAGAAGGGA
GGAAGACAGAGACAGAGACTCCCGATGTGAACGCTGCCATTGAAAGGGACTGAGCTGGACAGGCATGGAGCCCAGGCTGAGCAGGAGAGAATCCCAGCTC
AAGGTGTGGGGCCTGCCCAAGCTCAGTGTTGGCCGTCAGCTTCCTTAACAAAGGGAAACCTGTCAAGGTAGAGCAAGGTTTGCTGGGAATTGGTGTTAAA
ACAAGAAGAAATTCTSAACCACCATTTAAGAAGACTGGATTAAACATGACTTCAAAAATGTGTTGGTTTCAAATTCTGAGTGGTTTTCAAGGAGGCTTAA
TATGATTTCATTAAAAATGAATTAGAGTAAATTACATGGGATTCATCTATTAAATACTGTTACTGAAATTTGCCAGTGGAATTTTGGTTTTAATAAAAAA
TCTGAAATGAAGGAAACTGTAAAAAAATTCTTCTTTACAAATATAAGGTGAGAATACAGTTAATGCAGTTTGGGTTTTTCTGGGGTTTTTTTGTGGTTTT
TGTTTTGTTTTGTTTTGGTGGGTTTTTTTGTGTTTGGTTGTTTTTGTTTTTGTTCTTTTTGGCTACAAGGTGTGTTTTATTTTCATTATTCATAGAAATA
ATTTTCTATAATGTCCTGGGGCAAACCAGAGAATTTGGCAATCTGATTGGGGGTGGTCCTTCAGAGACCCACAGGCCAGTGGCATCGGTGCAGAGTGCCC
AGGTTCACAATGCAGCTTGTGGCTTGTGTCCATCTTGCAGGTCGCTCTTCCTCCACATCACAACTGGGGTCTTAAGGATGACGAGGGCAGGAAATCCTCC
GGGCTCTTAGGAAATTTCACTCCGCTTCTGCCCAGTGGTCTCTTTGGTCGGCAGGGTGTTCTTCTCCTGCGTCTCCGTTTTCTTCAGCTTGGCCCTATTG
AAGCTGGCGATTCCCCCCACGTCTGGTTTGTCTGCCATTTTCTTAAAACAATCGGTACCATCCGTGGCGGGCTCTTAGCTCACTGCAACACTCTGCCTCC
TGGGTTCAAGCAATTCCCCTGCTCAGCCTCCCCGAGTAGCTGGGATTATAGGTGCCCACCACTGCGTCCAGCTAATTTTTGTATTTTTAGTAGAGACAGG
GTTTCACCAATATTGGCCATGGTTGGCCAGGCTGGCCTCAAACTCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTKCTGGGATTACAGGMG
TGAGCCACCGTGCCCGGCCTGGTTAATGCAGTTTTTTTAGTTTGTTCTTTCTTTTTCTCTTTGTCTCTCCTCTCTCTTTCTTTCACTCGCTTTGTCACCC
AGGCTGGAGTACGGTGGTACAATCATAGCTCACTGCCACCTCAACCTCCTGGGCTCAAGAGATCCTCCCACCTCAACCCCCCACGTAACTGGGATTACAG
AAGCACACCACCGTGCCCAGCTAATTTTATTTATTTATTTATTTTTTTAGAGATGGGGGTGTCAGCATCTTACCCAGGCTGGTCTCGAACTCTTGGGCTC
AAACGATCCTTACACCGTGCCCAGCCTGGGGTTTCTTTCTTTAAAACATTATACCTTTAGGTGTTTCCTGTGTGTTTAGCAGTTAATTATCCAAAAGATC
TAGTGTAGCACGTCTCAATGTGTTTGTGTCGTATTTGTTGAACTAATGGCATATCTTTTAGCATTCGCCAGTATCACAGAGTGAAGTTCTGCACACACAC
AGAACTTGAATGTATATGTTGCCTGTGTACCTGCCTTTTCTTTTTTTTATTTACATTAGAATTTCTRTTTGGCTCTTTTTCCCTTGTAGGGCATGCTGTT
GAAGCGAAGTGGCAAATCGTTGAATAAAGAGTGGAAAAAGAAATATGTCACCCTGTGTGACAATGGCGTGCTGACCTATCATCCCAGTTTACATGTGAGT
ATAGCCCCCTCGGAGCAATTAACAGCTGCAGACCTCAACTAAACACTGTGGGGAAGGGGAACCTACCAGCAGCCCAGCCTCTTGTCTCTGTTTGAAGTGA
AAGTCGTATTTGGTCTCCTGCTCAACTGTGAGATAAATAACCCTGTTCCTCACACTCCACTAGACCATATGTCTTTCTCTCTCTTCCCCTCCCTACCAGT
CAATCTGTGGCTTTCCAATTCTACAAAGAATTACAATAAAAGGCACAGATGAAGTAAAATTTTAGATGAGAGTAAAAAGACAGGGGCAAGGAGAAAAGAG
AAAGGAGAGAAGAGTGGTCTATCTGAAAATCGAGAATGAAGGAAACAATTACATTTGAACCCAGGATTTAGCTTTGAAAAGCTGTGAACAATAATCAGAA
GTCAAATGCAATTCATGACTCAGCTTTTATTGTCAGATAACACATTCCAGTGCATTAGGCAAAAGAAACTCTCCTCTTTGTGTTATATGTAAGTTTRTGT
TACATATAAGTTTGTTATATCCGTGGTGTATAAGATAGATGTATAAACAAAATTAACTTTATTCTTGGGGAAGAAATGCAGACGTTCTACCCATTGATAA
AATATAAAAAAATGCAGACATTCTACCCTTGATAAAATTTAAAGTTGGGGTGTTCTAGTTTCATAGCAACACATTCCATAACTCTTACTTGATGCAGAGA
ARTGTGTAGATTAGAATATATGGTGGAAGTCAGTCATTYGATTCCATTGTCCCTCAGTATCTATGGGGGATGGATTCTGGGATCTGCCTTGTATACCAAA
ATCCATGGTGGTCGAGTCCCTTATATTAAATGGCATAGTATCTGCATATAACCTGAGAGTATCATCCTCTATACTTTTAAGTCATCTCTAGATTACTTAT
AATATGTAATAGAATGTAAATTCTCTGTAAATAGTTGCTATACTATTGTTTTTTATTTGTATAATTTTTCACTGTTGTATTAGGTTATTTTTCACTGTTT
TTTTTTTTTTTTTTGAGAGGAGTCTCACTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCGATCCTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAGGCAA
TTCTCCTGCCTTGGCCTCCCAAATAGCTGGAATTACAGGTGCCTGCCACCATGCCCAGCTAAATTTTTTTGTGTTTTTAGTAGAGACGTGGTTTCACCAT
GTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGAAATCCGCCTGCCTCGGCCTCCCAAAATGCTGGGATTACAGGTTTGAGCCACCGCRCCTGGCCTT
CTTTTGAATATTTTTAATCCATAGTTGATTGAATCTGCACATTCAGAATCCACAGATAACAAAAGGCAACTTTATATCACTGTGTCAGGCTAGTAGTAAT
AGTCACAGCAGCAGCAGCAGCAGCAGCAVTATTTTTTGGTAGAGACTGGGTCTCCCTCTGTTGCCCAGGCTAGTTTTGAATTCCTGGCCTCAAGCAATCT
GCCTAACCTCGCCTTCCCAATGTGCTAGGATTACAGTCATGAGCCATGACACCCAGCCAAGCTATTAATTTTTAAAATTTTGAAATGCTTTGTAAAATGG
CACAGTTATTGATGAGAAGTTAGAAATAGCATATTGAAGAAAATTAATATCATTCCTAAAATACCACCTAGGGAACCTGACTTCACATTTTAGGGTGCAT
ACTCCCGGCTATTTCTATGTATATTTCTCTTTTCCTTCCACAAGCACATGGTCACTGTGTATACRCTGCCCACAGCCTGCCTTCCTCACTCATAGTAGAT
ATTTTCATGTCAAGAAATATACTTGTACACCACCATTTTTAATGATTATATAATATTCCACTGTGTGGATGTGCCTTCATTGATCCCACGGTATCTGAAA
AATGAACCTTGGCAGATAAATTTACTTTCAGTTTTTTCACTGTCATAAAGAACTCTAATCAACGTTCCTCTGTTTATCTCTCTGTCCCCTTGTCCAATTT
GCCTAGGATACATTCCTAGCRATTGGCTTCCTGCGTTGAAGAGTCGCATGTGCTTTCATGGTTTTTGCTGTATTTTGTCAAATTCCCAGAAAGGTTGTAT
CAGTTTATCTCATCTGGCAGTGTATAAGAGAGCCTTTTCTCTGCCCTCTCAAGAACATTTACCTTCAGAAAGAAGAGCTTTTCCTAATATGATAGGTAGC
ACATGGGAACCTTGATGCTGAGTTCGCTTGCTGGCGTCTTGAGTTGCCCTTGTCTCCTTGTCTTTTAGCGTAGCTATACCTTTCAGAACCACGCAGCAAA
GCAGGTCTTCCGTCGGCATCTCTCACTGGTTTCTGTTGTTACTGAAAGCACCTCCCATGCGTTACTATTCAGTGGGATTCGAGATGCAGATATGGATAGA
TTCTTACATAGATATTCTTTATTGYAGTAAGGAAATTCCTTTGTGCTCAGTGTCCTGCTAGTTTAGTTTTGGAATATAGTCAGACTGGTTCTCCAGGGGG
CCTTCAGATCGAAGAGATGTAATACCCATTCCATGACGCCCACCTGGGACCAGGTTGGCATCTCTCCAGGACTGCCCCATGTAGGTCTCCAGTTCTGCAG
CCCTCTCCACACCCAGCTTCCATCCATCAGAACAACAGCGAGGCACCAGGTCTTCCCTGGATTCTCTCTGCAAAGTTGCTCCATCAGCAGTGGCCGGGCT
GCCCTGTTACTGGCTTAGCTCCTCCTATGGACCCTGTCAGAGAGCAGAGGTCTAACTATTGAACCAGTCGCTTTATGTAAGTTAGAGAAGTGCAATCAAA
ATATCATTCTTGGTAAGACTCACTGACCAGTAAAAAGTGAGAGCTGATGGATGATACATTTCCAGTCAACATATGCTCACTGCTGAGCTCAGGCTCAGTC
GAAGGGATGTTTGCTGCTTCTTGCCAAGGGGCAGATATGGTAACAACGATATGTATCAGAAGATTCCCTTAGGAGGCCTAAAGCCTGTTTGCTTTTCATC
CAATCCCTTGAGTATATAATCACAACCAGTTCTTCAAAAATTCTCCTATCCACAGGCTTTTTTTTGTGATGTCCCTCAGTGTTTGCCAATTCCATCCTTT
CTCCTTCATTCATAAGTATGCATGAATCTTACTGGAGTACGGAAGAGGGGCGCAATGGGGCTTTGTTGTATAATTGTATAGCAAGCAAGAGCCAATGTCA
TTTTCAAATGCAATCCTTTTAATGCCAGTCTCCTTGGAACTGAMATTTTTGATGCAGGTACGTAGTTCCCTATGGAAGGGGCTTAATCCAGGAATGGATT
TGAATCACTAGAGCCTGAAGAGATGGCATGACCTTCCACGTAATCCTTCATGGGTTTCATTTTCACAGCCAAGCATTGGATAAAAGTGTGGAGAGGCAGT
GACTTCCAGGTGTATTCTCTGACAGGTGCATACGAGTCCGTTCTGTTGTGACTTGTTAGGGGAAGTGCTGACCCACACCAGCTGAGTTAGTCTGGTGGTC
TTGGTTCAMAATGGGAAGAGGCATTCAATGGGACACCCACGAGCCGAATCCAGATTTTCCTTCATAAGAAACTTGAGAATGTGCAAATGTGTTGCTAGTT
CAGGTCCCAAAATTTTACACCGTGAGAGTGACCCAGTTATCTCAGTCTGGAAAATTTCAAAAGATCGTAGAACCAGATGATCTCAGTTAAACACGGACCA
TRCTGTGACACCCACATCCTTGGCTATCTCCAGGATGTATTACGGCAGAAGGACCACTGAGAGTCATTGGCCACATGCAGTGGTGGCATAAGTGGTCAAG
TGTTGGGAAAGCTGCCAGGATTGCTGGTGTTTGGGTTTCAGAGTCATTATTGTTGCTCCTAACTCTATTACTGACCACAGCGTGAAGTGGGGCCTCTCCC
TGGTAACACCCTATTGTCTGAACATGGGAACCTGCCTCCTTTTCTCTCCTCTGGGATTCAGGCCCATGTCCAGCCTCTGTAGACCTATATCAAGTCATTA
AAAGTAGATGTTAACCTGTCAGTGGACCAGAATAACTCCCTGTTTTACACTAGAGGAAAATGTTATCTGGTTTCTGAGAACACTATTCTCATCCACCTTT
TCTCTCAAAGGCAGATGGGGCCCAGGTTCCAACACAAGAGCCCCCGGAGCAGGGGCCTGCATTGATCTCATATAGCATAGCCTACAGCCCGTTCTTTTCC
ACAGAGCCCAGGAAAAAAAATCCCGGCCAAACCATCAGATATTTTTAGTTTTCTACAAAGATGTAAACGGGTATCAATAGTGAGGTTGCTGCACCGATTC
CTGGTGTATACCACTAATTTAAGAAGCCCAGGTAATTAGTGGACTAAAAAGGAAACTAGCATGCTTTTGGGGAGACGGGATTCTAATCAGCTAATACTTC
TATTATGGGGTGCTGACTTGAGAGCGCCAGGCTTGCAGTTGTATTAAAYGTGGAAGATTCAGACAGAGATGAGATAGGGCCGTGCGGCAGCCCATCACCG
SCAGCGCTTGCTCGTGGTGGTGAGGCCTCTCCCTTCCGGCACAGACATTTATCTTCTGTCCACGTGTGTGCCGCTCACAGTCCACGTAAGGCTGCGCCCT
GGTGCCACCACCAGCCTCCTTCCATTTGCTTATCATGTTAAATTCAGGGAGCTGGGGAGAGGGTCTTGCACACAAGGAACATTGGAGCAAGAGTAAACAA
CTGAGTCAAGTTTAAACGGAATAGGCCAATGTGGTTATGGGCAGGGGGCGGGGGAGCGGGTAGTTCAGGAGGATCTCAGGATTATTTGTTCTTTAGGATC
AAACCGAGAAGGTGGAATCGAGGGTCTTTACCACCCTTGTCTTTCTCCCTCTGTGACACAGGGATGTTCAGGCATAGTAGCTGATGTCAGAGGATTGCCT
GTGTGGGATAGGAGGGTCTAGAAGGCTCGACTCCCCTCCTAGGGCTGCTCCACACAGCTCCTGCATTAGTCAACCAAATTAAATTCCCAGGCGAGCTCCC
CAACCAGTCCTCCCTAGACAAGACAGGCAAGCAAGGGCCGAGTTGATAGACCTGCCTGGGCAACATGGAGAGACCCCATCTCTACAACAAATAAAAAAGT
GAGCCAGGTGTGGTGGAGCACACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGGATCACTTGAGCCAGGAGGTCAGGGCTTCACAGTGAGCTAT
GATCGTGCCACTGCACTCCAGCTTGGGCGACCATGCAAGACCCTGTCTTTAAAAAAAAAAAAAAAGTTGATAGAGGCAGGTACAGCATTTGTTGCTGTCG
GGTAGAGCGGCCACCCACTGCCCCAGCCTTCCCTGTGGCCACTTCAGCTCCTGCGTGCTCCCAGCAGTGCCAGCATCCTCATACCTTTGTTTGGGAAAGA
CACCCCAGCAGTGGGGAGCTCTGGCTTTCAGTTCCTTTGCACACTGTGGAAGCAGGAGACTGACCATTTCCTAACCTTGCCAAAAACTCTGGGTGAGGGT
TTTTCAATGTCTTCATTAGATGCCCTTAGGAAAAGATCTCCCTGAAGAGGTCATTTCTGTTCCTGAGGTATCTGAACACAGTTTGCTTATTGCACAAGTG
TCCACGGAAGTGTTTGTGTGAAAGATCGATCACCTTTGGACACGAACTTCAAGTATCAGTCCCAGACAGATGTTTTCCACACATCGGTGTGTTCGAAAAT
AAACCCAGCTCTTGGCCAAACAAACAGTCGGTATGTGGCCGTGCTGTGCACCGAGCTCGTGGAATCCCAGCAGGATGACCTGCTCTKTGAAACTGTGGCT
TCAGAACAAAGCAGCCAGTCATGAAACTGGGGRMACCTGACATTGCAGGACACCGTGGGGCTGRTGTGAGGCTGAAAATGTACCTAGAATGGGTCGGCTG
CCTGGGAACCTCACGAATACTGATCCCCAGGGACTGCGTGTCTCCCTCAGAACTGGGGCAGCTTTCTACTTGCAGAAGATCATGACAAGGGACTTCAGCT
GGGTGGTGGCCCTGGGATGTCACTTTCCTTCCCACTTAATTGCTTTGGATTTCTCTTTCCTTTCTYGTCATCCCCCAAAAGTGTCTTWGCCTTTTTTTTT
TTTTTTTAGCCCTGAGCCCCAAGCTCAGTCCTTACATAGATTGTTTAGGAGACCAGTAATCCCTAGTTCCTTTGACTTGCAGCTCAGCCTCACTCTGTCC
TTTACTTAGGACATAAGCTAAATCTACATACCCTTCCTACACCACAGATRGAAGATATGGAGGGAAACCTTTTTCTCCAGGTCTGTTTCATGTTGTTGAA
AACCTCAAACCTTTTTCTTAGGAGAGAACCTCTGTTTCTAAGCAGTGGAATAGAATTGCTTATGGAATAGCCAGGTCATAGGATGTGATAATTTCCCTGG
AAATCAGAGGGGAAAAGAAGCAAAACATGGAGCCAACTCAGACTAAGAAAGCTCCATGAAAGTTTATGCCAGTGATAACCTCCAGGCCCCAGATCTGCTC
AGCTTGGGTTCTGTGAAGTCTTGACCCCAGCCATCACCCACAGCCACATCTCCCAGCCTCCTTCAGCTCTTCCCCAAAGGCTTAGGAGGTGTTAGCACTG
GCTGCCTCAGGATGATGGGGTCCCTGCACTTCCATGCTGTGTAGGTTGAGAGAAGGAGGTATGGGCACAGGAGGAAGTGATGGTAGATTTCCACTGTAGT
TATTCCCTTTTTTTTTTTTTTTTTTTTTAAGACAGTCTTACTCTGTCCCCCAGGCTRGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGGGTTC
AAGTGATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCATGCACCACCACGCCTGGCTAATTTTTTGTTTTAGTAGAGATGGGATTTCACCA
TGTTGCCCAAGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACTCTGCCCAGCTG
TGGTTATTCCTAAAGGCCAGTGGTGGGGCAGGATAACAAGGACAGCACCAGAGTGGGGAGGGGTGAATGAACCTACAGCGTCCACATCATTGCTTCCCTC
ACAGAGTATGTTCAGCCACCAGTTGACAGTGGGCGGGGGCTGCCCAGCCTGTCCAGGAGCTGGAGCACACCTGCATAGCTTTCAGATCACACAGAGGTGC
CCTGCTGCAGACGCTCAGGCTACATCCGTTCTAGTGGGTGTGTTTGAAGGTAGACATTGGGAAACTGGCTGGAAGGTGTCCGTTTTAGAAACATGGAGAA
CGAATTCTTTCACTGGGTAGGAAGTTTGATGACATTGTCTTCTAGGTCACTTCAGACTCTGAAGAATGTGAGCTCTAAAACTTTCACCAAAAACTCTCAG
CAAACTCAAGCTAATGGAGTTAGTTGGATTTCTAAGGAAAACGCTGTCCTGAAGTTGAAGCTACTGGGTGTAAGACTAAAACTGAGGCTCAAAAAAAAAA
AAAAAAAAAAAAAACACCTCAGTTAATTCATCTTTCTTTCTCAAGATGCTATTATTAAATGAAACCAAAACCCAGTTGAGATAACAGATAGAAAACTCAA
CCAAATAATGAATGAAACTGCCTTAATGGAGTGGCCAACTGCCCTGGTTTTCTGCAGGACTGAGGGGTTCCCAGGGTGCAGGACTTTCATAGCTAACATC
AGGGAAGTCCCAGGCAATCTGGGACCTGGCCGCACTTGCTGCAGTACTGACCGCCCTAACAGCTCCTTTATCTCCACTTCGCATTTTGCAATGATAACCC
TAAACATTTAAATAAGACTGACACGGTCAAAGCAAGCACGCTGGCTGATGCTGCTGCTCTGCGGTCTACATTTTTGTGTCTTTGAAAAATTGTATGTCTC
CAAGACCTTTAAAAAGCCCTAACTGCTTAACTTTCTTGGGGGAAATATATATGAGTGTCTCATGGTTTTCAGACACTTTGCTGGATCACAGTTCAGGTGG
ATCGAGGGCAGCCTGTTCTAAGACCCTGAGAGTCCCTTTCTGTGGACTTAAATGTGAGCCTTAGGGAGCACCTTGATAGWAAAATGGAGGCATAATGAGA
AAGAACTTGGACCTCAGGGCTTCACAGTTCAGCGTGGCCACCTATTCATCTTCCATGTCGCAAGCACGGCCGTCGAGTGCAAGGCTGCAATTCCCTGCTG
ACAAAGATGTGTGCAGTGAGATTCCTAAGTGGACCTGGAAGGATGAGCTGAGTGGCCTCACGGTCAAGCCAAGGACTTCAAGGTGCCCCTGTCTAGGAAA
GCTCACCWGTGTTSCGGTCCTGGCTCTCTGGGCTTCCTCAGGAGGTCGTTTGGCAGCTGTGAAACTCCTCCCCTCCGGGCCATACCTGGCAGACGTGCAT
GAACTGCTCAGACTTTTAAAAAACCTCCTTCTGGCCAGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGATGGATCACCTGA
GGTCAGGAGTTCAAGACYAGCCTGGCCAATATGGTGAAACCCCATCTCTASTAAAAATATAAAAACTAACCAGGTGTGCTGGTGGGTGCCTGTAATCCCA
GCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGACGGAGGTTGCAGTGAGCCGACGTGGTGCCACTGCACTCCAGCCTCGGCAACAGTG
AGACTCCCATCTCAAAAAAAAAAAAAAGTCCTTCTTAGATTCCTTTCCATTSTGCATGTGCCCACATTAAAACAGCTGTGGCTCTGTCATTTCTCCCTGA
CCTGCAATACTGGAATTTTCCTTCTTAAATTTTCCTCCTTTAAAATTGTTAAAGAGCTTTTCTTCTTTTCATTACTAGGCAGGTTAATTTCTATCTGAGT
GGCTTGGACTCTCCTGCAACACATAAACCCTTTGATTCTGTGTGTCGTCAAAGTTTGGTTTTGTTCTTTCAAAGCCAGGGCAGCCAAACTTGGACTCTCT
AAAATTATCATCAGAATGCAGATTTCAGAAAGTTTCTAGTTTCAAAATCAGACAGAAGACCCACTTCTTTACTGATGTAAAGACAACAAAAAGATCTGTG
ATGATTCCTAAGTAGGTATTTTCCTCAAAAGAAATCATTCAAGAAAAAAAAAAAAAGATTGCTATGAGAATAGCAGCTCGTGGCTGTGCTCAGTGCCTGT
AACTGCCTTTGTAAATACACGAATTCCTCACATAGGACTGCAACATTTTACTTGAGGATTGAAGATTCACGAAGAATCTGTGATCCATCTCTTCACCCAC
CTTCACTGTCTGCTAGGATGGACCTCAGACTTCTTGAGGTCGTGAACATTCATTTACACTCAGAGAAACTTTTCACTGGTTTCCCCAGAACATTGAAACA
GTCAGAATAACTCCTGTGCAGGCTACTGGACTGACAAATGTGAAGGCCAGATTTTCAGATGTGAAGCTGGGAAGACCAAAAAGACAGACCTCCCTTTCTT
ACTGAGAAGAGCGTAGTCAGACATGTCAAGTCTGGCACGCTGCTGCAGAAGGCGTGATTCATCTTAAGATCAAAAATTATTTCATCTTGCTTTCTTGGTC
ATAAGCTAAGGTGCTTGGAGCTGTCCTTTGGCCTTTCATGTGCTGTGTCTGTGGTGCGGGTGTGCTGTGTCCTCATAAGGGTGYGCCATGTCTGTGGCGT
AGTGTGCACCGTGTCCATCATAAGGGAGCGCTGTGTCTTTGGCGCGGGTGTGGCGTGGGTGTGCCATGTCCATCATAATGAAGCACCGTGTCTGTAGCGC
GGGTGTGCCATGTCCATCATAAGGAAGCGCCGTGTCTGTAGCGTGGGTGTAGCGTGTCTGTGGCGCAGGTGTGCCGTGTCTGTGGCATGGGTGTGGCTTG
TCTGTGGTGTGGGTGTGCCGTGTCCATCATAGGGGTGTGCTGTGTCTGTGGCGTGGGTGTAGCGTGTCTTTGGTGTGGGTGTGCCGTGTCCATCATAAGG
AAGAGCTGTGTCTGTGGTGCGGGTGCACCATGTCCATCATAAGGGTGAGCCATGTTTGTGGCGTGGGTGTGGCATGTCCACGAGGGTGCACCATGTCTGT
GGTGCGGGTGTGCCGTGTCCATCATGAGGGTGCGCCGTGTCCGTCATGCAGATGTGCCTTCATGGCCCTCCCTGATTCCCAGGCCCCATCTAGTGTACAT
CATTGCCTCGGGTGAGAATGTCCCTTTCTGCCCCATCTAGTGTATGTCATTGAGGAGGAGGGCTGTGTTCCCCACAGTCTGCCCAGGGGCTGTCATGTGA
GTGGCACATAGGTATTGCTTAGTACACACCGGTCACAGTGACTTGAGTGCCACCACAATGAAGTTTCCAATCGTGTGACTCCTTCAGCATCTTTGCTCCT
GAACTTCCTGGACTCCAGCCCTCAACATTGACAATCCTGGCTGTGCTCTACAGATTGTGGTATGATTGAGACTAACAGTACTCACCATGTCTTACAACAT
GACCTCCCTAAACTGACATAGGGTTGGGTGAACACACACACACACACGTAATCACTGCCTCACGTGGCATTATTACAAATGCTGCAAAATCTAAACACAT
CACTGGAATCCAAAAAGCAATCCATTTAGAGGCATATGAGGAGATTGTACAGATATTAAAGAACAAAGATCTGGAACTATGGCAACAAACCAACGTTGCT
GTTCTAGCCTGAGCTGCCTGTTTTAGGCAAATGGGAATGCTTTTGGAAACAATATGAACCGCAACGGGTATTTCTGCAAGTTTCTAAGACTGGCAGGAGT
CAGCTCGGGGGAAGCAGGAAGAATCCCCAGTTGGTTGGCTATTCTYGGGACCGAAGAGATAATCCCCATTGAACAGAGCCTACACTCACATCCTTGAGTC
CGTGATGTTCTTCGCTTCCCTGGGAACAGCCAGAGTCCAGCTTTCCGTGTGGATTGCTTTCACAGGGATATCTGGCCCTTCAAGCCAGTGGTGTGAATGT
CACCCCAAGAACCTTGACGTGTAGATACTGCCTACTTCAAGTCATACTGCAGCTCTGCCTCTTCCCAAGATAGGATTTGAAGCAGCTTCCAACAGAAAAT
GGATGTGAAAATGTATTGTGAACACATGCATAGGACCATACATACATCATACACACACACATACACACACACTTAAACATACACATACACATGCACATRT
ACACACACATACMCAYACACAGCTATGGGCACAACTTCATTTCAACTTGTAGATTGTGAAGTAAAGGCATTGGAACTTTGTGGCTTGCAAATCTAAATTA
CCTCCTTCCATCTTAAGATCTCTTCCCTCCTTTATTCTAAAGTGTGATTCGGCTCCTCTCTTAGCTGATCCTTCTGGTGTGCAGGTCAAAGAACACTGAG
CTGGGAATCAGTTGTGGTTTCCGATTCTGCCGTTGCCCCACCCGCTTCCATGTTGGTTCCAACGTGGCTTTGTGGAGTCCTGGGACTCAGGCACAGTGTG
AGAATCACTGAGCCTCTCAAGGTCAATTATGCAGTGATTGCTTGGTAGCTCTTCTTCCTCCACCCACAGCCTCGGCCTCGGCCTCCGTTTTCTCTTCCTC
CTGGGAATTCATCCAGAATGACGCCAGAAGTCACACAGAGGTGATCTTGCAGACCATACTCCCCTGAGTGTGCAGGCCTGCATTTTTGCTCAGTTCAGCT
AGCGCAGTGGCCTGCTCATAAAGTTTYCCAAAACCTGTAGGCTGTATGAAGAATAGCGGTTACTCCTAAGCTGCTTTTAACTTTCACCTTGTGATTCTCA
TCATATTTTTGTTGATTTCCCTCCTTTGAGTTCTTTTATGTATTTCCATGATGGAGAAGATCCCCTCTCCCGCTTGGTTGATGTCCGTGCCCCTGCTCTT
GCCCCAGCTTGCCTCCTCAGACTGGCCTCTCACCTGCTTCCTGCTCTATCGCTGTCTTTGTTTTCTTTTAGTTTCTCATACTTGCCATGTTATCTGGCCT
CCGGGTCTTCACAAATGCAGTTGCCTCTGTTGAGAATGTTCTTTTCTGCCCCATCTCTTTGCCTCACTAACTCCTCTTTCCAATCCTGGCTTAAATGCTA
CTTCCTCTTGGGAGTTTCCCCRCACTCGGCCTATTTGGGCACCCATGCTGTGTGTGCTCTCACGTTACTCTATTGGGCCATCTCTCTGATTCTCCCACAA
GACTGGAAGCTCCTTGAGGCAAGGATGTATATGTCACCAATGTATCTCTAACATCTGGAACACTGGCTTGTTGGATGGATGGATGGATGGATGGATGGAT
GGATGGATGGATGGAGGCACAATTAGCCCATATGCTTAACCTTTCCTTAAATGTGTCGGACTAGAGTTCCTAAAACCTCGTGGAAGGAATCCACCATGCA
ACACTTTTAGGAAGCAGAAATATGTCTCAGCCATATTCTGGCTCCATTTGCTGCAACTTAAAGAAGGATCTTGATGGGAGAAAAGCTTCAGGATTTTGTT
TGTTGCTTTTTTCATTTTAATTGTAAAATACATACAACATTTGCCACCTTAATCATTTTAAGTATACTGTTCAGTAGTATCATATACGTTCACGTTGTTG
GGCAGTCAACCTCCAGAACTTTTTCATCTTACAAAACAAACTCTACGCATAAACACAAATTCCTATCCCCCCTCCACTCAGCCCCTGGCAACCAGCATTC
CAGTTTCTGTCTCTATGAATTTGTCTGCTCTAGGAACCTCATATAAATGAAGTCATATGCTGTTTGTCTTTTTATGACTGGCTTGTTGCATTTAACATTA
TGTCCTCAAGATTCTTCCAGTTGTAGTGTGTGTCAGAATTTCCTTCCTGTTTGAGGCTGAGTAATATTCCGTCAYATGTACACACCACATTTTGTTTGTC
CATGGATGGACACTTGCTTTCACCTCTTGGCCACTGTGGACAATGCTGCTAGGAATGTGAGCATACAGATAACTCTTCAGAGCTTGGGTTTTAAATGTAA
AAACTGTAACATGGGAAAGCTACAGAGTATGGCTGAATATTAAACCTGCCTAACCTTACCAGCACTCTGGTCATGGTACATTTGCTGGGCCCAGTCCTGA
CCACAGTGAACTGTGCAGGCTTCATAACATGCATGGTGGTCTGGAAGCCATGTGATAAGAAGAAGAAAACCACCCAGCAATGACATGGTCACATGGGCTC
TCCTGGAGTTTGCTAAGCACCTGGGTGACCTGGGAAAGAACTTTGTCATTCATGTGACCTGTTTGAAAGAATGTGATCAGTTGTTTCTCCCATGTGTCAA
CAGTTCCAAAGCCAAGGAATTAGGCCGCCATAAAAGTAGAAATGTTTTCAGGGCATAGTGACAACTTTTGTTGGAAATGGAGCCTACTAAAAACTCACTG
GTGTTACACCAACACAGAAAAGGACTCTGTATCAAAGTCTATTTCTGTCTATGTAATTCTTTCTTTGTTTTATATACCCYCAGGGTTTGGAAATGTTTGG
GATTTAAAAATAAAAGGGCCGAAAGCTATCCTCACGACATTTCATTATTGATGTTGTTGACACACAGTGAATGGAAGCAGGGTGAGACTGGACAAAATAA
AGTCCTCTTATTTCTTTTTTTGTTTGTTTTTTGTTTTATTTGGTTTTATTTGTTTTTTTGGAGACAAAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCTGT
GGCGTGATCTCAGCTCGCTGCAACCTCTGTCTCCAGGGTTCAAGCAATTCCACCATGCCCGGCTAATTTTTATATTGTTGGTAGGGACAGGGTTYTGCTA
TGTTGGCCAGGCTGGTCTCAAATTCCTGACCTCAACTGATCCGCCCACCTCGGCCTCCCAACCTGCTGGGATTACAGGCGTGAACCACCACGCCTGACCA
AGTCCTCATGTTTCTAAAAATTATACCACTAAATAGTGTAGATCCTACCTAACCTATTTTCAACATTGAAAAATTCTGCCTTCTTGCATTTCTAGTTAAA
ATGAAAAAATAGAATATATGTGTGTTTCTATAAATAGCAGATTTAACAGTGTGGCTGGAGGGTTTGAGTCTCTAAGCTTCCAGTGGAATCCAAGGGACAT
CGTCCTACCAGTATGCCGCGTGATATGTCAGATCGTCTCTGGCCGTCCTTTGTACCCAATTGATAACATTTTGTTTTCCATTTTTGGCCTTTTCGTGTTA
CTCATTGAGGCCAAAAATTCTTACACAAGGTAAATAAATCAAATCCCTCTGGTTTCCTCAGCAACAGTAAGTCACAGCCGAGGACTCAGTAGGAGAGGAT
GACTGKGGGGGGTCATGAGGAATGTTCTTTTACTTCTACTAAGAAATTGAATTTCATTATTATATTTTATAAATATTTTCTTCTTTGGCTTATAACCTGA
TTGCGGGCTTGTTGCTGAGGTCTTGGAAGGTAGGTAGGGAGGGGCAGGGCTGGAGAGGCCTGTTTCTTCTCAGGTGTGCCTGTGGCCCCAGATGGAAACC
AATCAAGGTGCGATTTATGTTCATTAAGTGCTTGTCAAAACTGAAAAATTTTCTAATCAACAGCAATCTAGCTGCAGCCCCCTCGATGGCTGGGAGGGCC
RCCTCTGCCRCATCGGCTATTTGCCTGTTACAACTCTAGGCTAAAAATCCGCTGATGATTACATTAGGCTAAGCTGCGAAGTAAATGAACCATGTCTTAT
TTAGGTGCCACTAGCTTCAGAGTAGTCCTGCCCCGCAGGGCACTTGATAGCATTTTATGGCTTTAAAATTAGTGTAGCTTCCCATTTGCTGCAGGGTGCT
ACATGTTCTGCCTTTGAACTCAATAAGCAAAGGGAACGGGGCCTTTTGTTTTTCCCCCTTCTTTTTTTCCCCTTGCATTTTAGCAATTTTGTTTTGCATC
TTTTCCAGACGGCATTTTGCAATAAAAATGTCTGACTACCATATACATGCCTCCCCCATTTAAAAAAAAAAAAGGTGGGGGAAGAGAAGGAGGAAAAAGC
AGAAAATGTCATGCGTTTGCAGAGGACAGGTTCCCCCCCCACCCCCACCCCCGCCTGTGCTACAAAGTGAAAAATGGCTTTGCAGGTCAACCCTAATGAC
TTATCATGTCAGAATTGCTACCTCAAGTGGGAACAACACCTTTAGCCCAAGAAATTGCCACATAAAGTCAAAGGGAAAATAGTTCAGTATTTTTATTGGA
CAAGAGTGGTGAGAGCTAACATTTATGGAGGGCTTTGGCGCTCTGTTAAGCACTTGAGTATTATCTCAGTGAACCCTCGCAACAGTATCATGAAGCTAGA
ACTGTTTTTAAAGATGTGGACRTGGGGACCCTGAGTGACTGAATGACAGGCCCCCAGTGTGCAACTCGGAGGAGAGTGGAGGCACTCTGATTTCGAGGCT
TATTCCCTGACCAAGAGAAAGTCAACTTTTGTCTTCCAAAGACTTCTTTAGGAAATCAGAAAAGTGTGGTTATCAGTGAATTATCTGATTCATTTGAATG
GAATCTAATACAAGGTGCTGTGAACTCCCTTGGCAGGCATTATGTTTAGGAAAACAAGAGTAGTTCCTGTAAAAGCAATGCATGGGAAAAATACGTATAG
AAGACTTCTAAATAGGCCTAGGTGGAAAGTTTAAAAATTAGAAGTACTGACCCTTTGTCAAGGGGAAAAACTGAAGTGGGAGTTTGTCCGTGTTACCTTA
GGTCTCATGGCAGAAGACATGATGTAGCAATCGATATTCACCTCAGAGGACAGATGTATATGCTCTGCTGTCTTAAAACTCTACTGTTTGGCCGGGCGCG
GTGGCTCRCACCTGTAATTCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACTTGAGATCAGGCGTTCAAGGCCAGCCTGGCCAACATGGTGAAATGCC
ATTTCTACTAAAAATACAAAAATTAGCCAGGCATGGTTGCAGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGA
GGCGGAGGTTGCAGTGAACCAAGATCATGCCACTGCACTCCAGCCTGGGCAACAAGAGCGAAACTGTGTCTTAAAAATATATATATACTGTTTGTTTTAG
CGCTGCACATTTTAGCAAATTCGTCCAAAGAAATCTGAAGTTTTAAAGAGACCCAGACAGGCAGTATCACCATGGTGAACATTTCCTTATAAGTCAAAAT
TTCTAGGATCTAACTATTGATCCAGTTGTTTCAAGCCATATTCAAATATTAAAATACTAGGACAGCAAAGGAATTGTGTTGGCTCCTTGAAGTTCATTGT
AATGAGAGGCCTACAGTGACTGTGTAGAGACAAGCAGCTGTTTTCATATCCGAGGCATGCATCGTACAGGCTAGGTTTGAGCAGGCATGGGTTACAACTG
CGTAATACTCAATTTAACCTAGAATGAGAAAAATCTTTCAGGCAGTGTAAACCTCAATACAGTAGGTCAGTCAAGACAGATACAGTCAAGAAGCAAAAGG
TGTATTCATAATTCGATTTAGAATTTTCTGCTTTTTGATTTGTAGTAGAATAACTTAACCCTTTGGACTGGTGGACTTGAGCCCACGCATGTTGGACACT
GGCCTCCGCAGCACATGAAGCAGAGAAGTCTGCTTTTGCCATCATGTAGGGACTCTCCACTGTACATGAAGCTGCCACCACTGGTCCCCAACAAGGCCTC
ACCAGCCTTCTCGTTTACCACGTGTAGCATAATGACCCAGACCCAATAAAGCATTTACTAAGTCAAGAATATTCCACACATACTCTTCCTTACCTCCATG
ATGGAGTAGTAGACTGATTTCATCTTGATAGTCTGGGTCAGTCACTCCAGCCAACACTGTAACTTCCTTCTTAGCCTGTTGACTTTGAGGTAGGAGGAGC
CCAAAGTGGCCAGGTGACAATCTTACAGTTTAATGGAATTGTTGTTGTGTCTCGGTGGCAGCATTTCTCCCTCTGGAACTAAGACCCCTAGGCCAGCAGA
ACGTAATGTTGTGGGAACAGGAAGCAAAAATTTTGCTAGTGGGTCACTAGGGGTGATGGTGAGTGGTGCCACTTCCATTTCTGCCCCTTGATTCCTGGAC
CTGTGAATCCTGGCAATGGGAAAAACAATACCATATATTGGACACTGATTCAGAGCATACACAGCCTTCTGGAGAACTTTGCCTCAGCCCTGCAAAGTAT
TGTCACCTAGTTGGCATTGTAATTGTGACTTCAAAAGGCCATTCCACCATTCTATTAATCCAGCTGCTTCAGGATGATGGGGAACATGGTAAGACCAGTG
AATTCCATAAGCATGAGCTGTTTGCCTCTGTGCATGCTACACATCTGATTGGCCAGGTGCCTTCCTCCTGCCATGGCTGCTGGTCACTGTCATGCACTTA
CAAGCATGGGTCAGGTAGTCTTCAGGAACGCAGTTCTGAAAGTGAAACACTGGAATGCTTTTGGCTGTCTTGGGAAACAAAGTTATTTCTCATGGGATTT
TTCCCTTTGAAGCTGCCTCCTACCTTGCTATTGTGACTATGATCCTTTGGGGAGAAGAGTAATTGTCTTCTTGAGTTCTGTGATCTGAAGGGATGTGGCC
AGAAGATTTTTCATAGTTTTACAATATTTTCACAGTATTTTTAGGAGCATGACTTTGGTCTGCACCTGTGACTACGTACAAGGCCATTGTTTATTATTCA
TAAATGTGGGATGTGAACGTTTGCTTGATCTTTTTGAATGGGTGGTCCTATATATGTCTTTATGATTAGTTTCCTTTGAATATAATATTAAATGGAGTTT
GGGAATAGTAGTGAACTTTACAATGGCTTCTCTTACATACTTTTTTTTTTTTGAGCCCAGAAGTGAGGCTTTTTAAAAATAGAACTTCACAAATTACTGC
TTCCTTTTGATACTGGATATTCATGAAGTGCAGTGAAAATAGGGAATAATGAGTCATTCTTTTCCTCCAGGAGAAGGAGGAACAAACAAATGTGAAAACA
TTTACAATATCTTTCCACAGTCCAACCCTTTGCTCCTCCCCGGTTGTGTACATAAAAGCATACACATGGAGCCAATGGCTGCTTTGCAGACATGAAGCTA
GACTAGTGGTTCTCAAGACTTTGGGCTCAGGACCCCTTTATCTTTTTAAAAATTATGGGCCAGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGG
AGGCCAAGGCGGGTGGGTCACCTGAAGTCAGAAGTTGGAGACTAGTCTGGCCAACATGGTGAAACCCCATCTCTACTAAAACTACAGAAATTAGGTGAGC
ATAGGAACGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGTAGAATCACTTGAACCCAGGAGACAGAAATTGCAGTGAGCCGAGATCACACCACT
GTACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCTCGGAAAAAAAAAAAAAATTATGGAGGGACCCCAAAGAGCTTTTGTTCATATGGATTTTGTCTAT
TGATATTCATCATGTTAGAAATTCAAACAAAGAAAATATGTAATCCATTTAAAATAACAATAAACCACCCATTACATGTTAGTATAAATAATATTTTTGT
GAAAAGTATAATTTTCAAAATAAAAAATCATGAGAAGGGTTGCATTGTTTTATATTTTTTTAGGTCTCTTTGATACCCAGTTTGGTGTAAGACAGCTGGA
TTCTCGTATCTGCTTCAGTCTGTTGTGATAGGTTGTTTTGGTTAGTCTTTGAGTATCTCACGTTACACAGATGTGTGGTTGGAAGAGGGAGGAATATTTC
AACCCTCATTTCAGATAATTGTGGATATTCCTCTTGCACACTTCACCAAAACTCAACATGTGATAGTTTCTTAAAGCTTAGTAATGCAATGTGAAATCAC
TATTTTTTTTCCTCCTCTACTACCTTAAAATCCATCCAACTGACTTGCCCTTTGAATGATCTTTTACGTGTGTTTTATCCATGCAGGCATATCCACATGC
ATCCATGCATGTGATGTCATACCCCGGTCATTTCAAGAAAAACTATTTTTGAAATGAAGTATGCAGATTTCTAAATAGTGATAGTTTTCATCATATAACA
TCAAAAATTTTCATTTGTATCACCGCCAATCTTGTCAGAAAAGTTGCTAAGTCTTTGGAAGGTGTCAAGCTCATAGTTAGAGATACAAGTTTGCCACATA
CATAGAACTGAAAACCAGAGTCAGTCAATGTCTGGCACAGTCATTCTTTCAGGTAAAAATCTTGTCCCACCAAAAAAGTGGCTGGTTCAGCTTGCAACTC
CAACAGCTGCAGAAGTGCGTTTCTGCAAGACAACCATCACCCTCCGGTAGCCAGCAAAAATGCTTTATGCATGCTTTTTCCATGTCATACCTGAGAAAAT
GAAGACATGGACTCAAAGGTCGAAATGTTTAAAAATCGGTAGCACTTCTTTTTTTAAGTGTATTCAGAGCATCTGTGAGACTTTTTTGTTTGTACTTAAA
GAGCATGCCAGTGAATAATGTGATGATGACTAGTACAGTTTGGGGCTACTACTTTGATTCATGTTAATCACCAGCATGTTTGCACCATCAAAACAAATTT
CAACACAGCAATAAAAAGGCAAGTACTGTATCTGAATTGTTTTGAAAATCTTATTGATTTGTCTGAAAAGTGATCTATCTTTTCAGTATTATATATTAAT
ATAAAATATTATATTTCTCAACATACATGTACAGTTATAAACTAGAACTTAATGGAGAAAACGAATTGGAACAGATTGCCACTATTTTCCATTATTTTTT
TCCATCATTTAACTATGTAAATTTAAAGTCTTAATACTTTTTTGAAGTATACGTAAAAATGGAGTATGCTGATTACATTTTCTATCCTTGAAGAAAGTTG
AGCTTAAGCACTGTCAGATTTTCAAAGCCATATGGTTATTTCTGATCTAATGTTGAGATGCCAATCATATAGTGTATGCATTTCAGTTTAGCTTTAAGAT
CTTGTTAACTGCTTTTAGTACCCCTGTGAACACATCAGCAAACCATCTTTTCACCAGACAGCCAAAGGTAACCTCCGGATGTGAGGCAGTGAGAATCAAT
ATAGTAAGGGTATTTTTAGGGACTGTTGATGGATTGCTGTATTTTGAGCTTAACTTCAAGTGCCAAAGGCCCCAGAGCTGACTAAGATGAACTCACCATT
TACTGAGGACGGGAGAGGCCATCAGGCACATAGTGGGATCTGGGATTGCCAAGACAAGATGTACACACCTTTCCCTTTGTAGTTTTGGGGAGAATTCTTG
TATATTTTTTAGTAGCCTAATACGGTATTTTGATGAGGACTTTGTACCACCCTCCTTGCTGGAGCCAAGTGTTACTCATTTGGTAACCTCCCGGTCCTGG
GAACACATAACTGTGAAATTCTAGGACAACGTGATACAGCAGCGAATCAATTAATTCTCTGTATCAGGAGGGATCTGGTACACCGAGATACTAATGACTC
CGCGTCCTTCTCCAAAGGCAGCCCCACAGAAGGCSGGCGCCACGTTAAGCTGTGCTGCTGTCAGCAASCTGAAAGCTATGGGTCTCTGACACGGCTCTCA
ATTGCTAGCAGGTTTCTCTCATTGCACCTCATTTGCATCTGGGACATCAATTAGCATGTTTGTTGAGGCTAATTGAATGAAACTCAATCATAGCTCTTAA
TTGCTTGACTATGTGAAAAGAAATCACATTAATGCAGCTAATTAAGTGTACGGCAATAGATGCAACATAATTAGGAGCGAAATGTAAAAAACAAGGGATG
GCAAAGGTGCCGGAGCAGGGTTGCAGGGGGACAGCGAGGCACAGTTACCGAGCAATTGGCGGGTTCGGAAACAGGTCCCTTTGCTCTGGCGCCTGCTTGG
AAAAAATAAGCCGCATGATGATCATGGACAACTTGAGAAGGAAAATGCAAATAGGTTTGCAATTACTACTTTTTCAARCTGTTGAGGGGCAGGAGATGGC
ACCTCTGGGGGGCCTGGCTCTTGAGTGGGCCCCAGGGACTTGTTAAGTGCTGTTTAAAAGTACTTGGCTTTGAATTACCCTCACGCCTTGTTAAAGGGTT
TTTCCTCTTTTATCTTCGATCAGCATTTTCAACAAGGAACATGGAGAAGGGTAGTATCTGTAACATTTGCATATCAAAATCAAGCTTCCTGTCTTAATTT
TACCGAGGTCCCTAACTCAGACCCGTGAAGGGTCTGCACAGCCCCTTGACTTCTACGGAGGACATTGTTTAGTGGTTGTAGCTTTAATTCCTCAAGTACC
AAGCTGGGGAGAGATGAAAAGGATCAGTTCTTTCAAAACCAGAAAGCTCAGTGTCGTTTCTCTTGGGAGGAACTTGAAGCCACAGATACATGTGTCTTTA
TCTCCCACCTGTGTGTGAAGCGCTGAGTCGGAGGGCTTTTATTGAGTAGGAAATGCATTTTGTAAARTTTYTAAAAATGTKCAGTGCCTTGAAATATAAG
AATTGGCTATTTTAAATACCGATTTTATTTATTTTTTTTTTTTAGAGCTAGTTCTTCTGAGGTTGTAAYGCCTAACTCAGGCAAGAAAACAGATCCCTTA
GCCCATGCTGAGCTAAAGATAAATGGGTTCCCTTGCCGCTTTCGAATCTGGAGAGCAGACACTTGGTACATTTCTATAATAATTTTAAATAAAATATCGT
GGTTATTGTATGTTAAAACATGCCTATTAAAAGAGCCCATGCTGAGGCTTAGTCACTATCTGATTAGCCTCATTTTAGAGCCCATAAGCAATAAATGCTC
AATTACACTCCTGTTATTGTATTTTAATTTGTTAAGAATTGGCATTAAGGAAGAAAGTTATAGCAAGTTGATATTTTTAAAGGAGTAACTGTGCAAGAAG
GAATTCATTATTTACAAGCATTAACTTTGGTTTGGAAAGTTGGGTTTGCATATTTTCAGTGGATATTAATGGAAGTAAACTAAAGATGCTTGAGAAAAAC
CTTTTTTAGGAAGTGACCAACACTCACCACTCTACGGTGTGCTTTTCCTTTCTTTTCTCTTTTCTTTTCTTTTTGAGACAGAGTTTCCCTCTTGTCGCTT
AGGCTGGAGTGCAATGGCATGATCTCTGCTCCCTGCAATCTCTGTCTCCCAGGTTCAAGCGATTCTCCTGCCTTAGCCTCCCAAGTAGCTGGGATTACAA
GCACACGCCACCACACCTGGCTAATTTTGTATTTTTAGTAGAGCAGGCATTTCACCGTGTTGGCTAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCA
CTCTCCTCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCCGCCTGATGTGCTTTTCATTTGTCACCCTCAACACAGCGCAGTCCTGA
GAATTCCTGTGCCGCTTCCAGCTCTAGCTTTCCTTCCATCTAGTTTAACAGAGTTAATTCAATAGTAACTTTCTTTCTGTCTTTGGTCTACATCCTCTCA
AAGTTGATTATGTTTTGTGGAGTCCAGCATCTCAACTTCCAAGTGGAATCCCTTTCGGGGGCTGGTGAAGTCAGATTTGTTGTTCCCAGCCCAGATACCA
CCCTCCCGTTACCCGAACCCACCATGACAGCTTTCCTCCAAGGGGGCTGTGGCTGACTCCAGCCAGCCTGCCCTGAGAGTCAGGCCATCCTCCCTGAGCC
ACCCTGTAAAATGAAATGGCCAGTCACCAGCCTCGGGTGGCCGGGCACCTCTGCTCCCGGCCTCTGGGCTGATGTGAGATGCACGCGTGCCAGGGTTTTC
TGCCTGGATAGCCTGTCTGTCCTTTGCCGGGGAAKGCCCGGCCTTGCCCCTGCCTCTGAATTTGCCCCACTGTAGCACAGTTTCTGATCCTTTCTCCAGT
GGTCTTCAGCCCATTGTTCTTCCTCCTGGTTCTGACCCTGGTGTTTTGAGCTTTCTGTCTGCACCAAGACTTCCGTCCTCAGGGGTCACCAGGGACCCTG
AAACATCTTGTCCCTCTGGGGCTGATGTAGGGGAGCCTGCTGGGGTTCTGTATTTATCTGCCAGAGTGTCCCCCGCCAGTGTGGCTGTGCCCTCATGTAA
AGAGGTTCTCCTCCCGCCCGTCCTGCCGTTGAGAATTCCTGCACCCTTTTCCCTTGAGTCTGGTTTGACTCCATGTGGCAGCCTGTAAGTCATGTTGGTT
GCGGGAAGGTCTACATTGTCACACCCCAGGCTCACCCACCTGACCATGGTTGGGCAGGGAGAAAACAGCTCTTCTCATCCTCTGCCCTGAGGACCCACAG
TTTCATTCCTTTCCCCTGAACTGGAATTGTGTACTTTGTGGCTTTTGTTGTGCCTTTTCTTCTATCAGCAAACATCTACTTGTTGATAAACCCGTGACTC
CTTCACAAGTGTGGGTGTTGCCCTGCAATTAAAAGGTGGACTGCTTGCCTGTCATCCCAGCTACTCGGGAGACTGAGGCAGGAGAATCTCTTGAATCCGG
AAGGCAGAGGTTACAGTGAGCTGAGTTCATGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCTTGTCTCAAAAAACAAAACAAAACAAAAAGGTA
GACAGCCCGTTTCCTGGAAGCCACTGGGATCTCGCTTTGGCCTCTCTGCTACCCTACCCTGTGTCCCAGCAGCTTCCTCAATACACTTGGCCAAGTTTCC
TTGTCCCTGAGACAGAGGCTTCCGACCCTTGCATAGTGATTCTAGAACTTGATCCAACTATCTCTCTGCATCGGGTAACTGCCATTGGGCAGTTAAAAGA
CAGCAGCCCACTTCTCCACCCTGCCTCGGTCCCTTGCATCCAGCATGTGAGTTTATTTGGCAGTTCTTCTAAAATTACGTTGGCTGAGCACGGTGGCTTG
TGCCTGTAACCCCAGTGCTTTGRGAGGCTGAGGTGGGAGGGTGACTTGAGACTAGGAGTTGGATACCAGCCTGGGCAACCTAGCAAGACCTCATCTCTAA
AAAAATTAATAAATGAAATGGAATTATGGTCACCTGAACTTAATTACTTTTAACAAAGACAAATTTATTGGTTTTCACATCTAAAGGGAATTCACCAAGA
TGCTGCCAAAGAAAGAGCATATTTATTCCCACTTCCTGCATAGTCTTAAAACACTTGAAATGTTGTTTTTCCAAGAGTAATTTTCAAATACAGTCATTTC
TCTGTATTCATGGGGGATTGGCTCCAGGACCCTCCAGAATACCAAGATCCTCAGATGCTCAAGTTCCTTATATAATACAGCATAGTATTTATATATAACC
TGCACACATTCTCCCGTATACCTTAAATCATCCCTAGATTACTTATACCTCATGCAATGTAAATGCAATATTTTCTTATTTGTATTTTTTTTAATTGTTA
TATTGTTACAGAGGGCTGAGTGTATATTCTTTCTTAACGTGTGATATCAAGTAATATGTGTCCAGAATGCTTAAGATACTGTGTTTGCAGACAGGGAGTC
TCATTACCAGAAATAATAATAATAACAATAATAATAATGAGTGATGATGATGCTGCACTAAAGGATCAGTAACTCACTGGCCAGCAGGCCCATCCCCCGG
CTCTCAGTTGCTTGTTCACCTTCCCCGTTCCCTGCCCAYCAGCCAGTTTCCAGGTAGTGTTTGACTCCACAGTGAGTTAAGTGAGCTGCCAGAGAGCAGT
CACTGTCCACCGAGGCTTCCCTGTAGTTCTCTGATTGCTGCTGGTCATTTGCTTCCAAGGCCTAGAAAGCCAGATACCCCTTGGACATCTTCCTGGTTCT
TAGCACAACAGTTGACCTTTTTACTTCCAGTTTTCACCTGATTTTTCACCAGAGAGCTTCAGTCTTATCTAGATTTTAATGATATTCCCATCTGAGACAG
AAAGGTTATTACAAAATGGTTTCCTACTCCATGGAATTTTACTTGGAATTTATAGGAGGAGCCTAATGTACCCTCTGATAAGCAAGAGTTCAAAAAATCA
GATTTTGTGTGTAGACTTACTTCCTAATGACCCTTGAAGGAGGCACCTGCTGTGTCTCTCCTTACATCTCTAGGTCCTGGATTAGTTCAGGACACAGAAG
CAAAACTCTGATTTAAATATAATAATGATGTTACCAGTACTCTATAGATAAAAATCTCATGATTTTTAAAGTACTTTCCACAGTGGAAGGGTCATAGGGT
TTTAACTCATGACGTCTGATAGACCCTTTTGTTCTAGGTTGTAAAAGGTCTTTTTTTTTTTTTATCTCTCTTGGATGTTTAACATTTTCAACAGGATTAC
ATGCAGAATGTTCATGGTAAGGAGATTGACCTTCTGAGAACCACTGTGAAAGTCCCAGGGAAGAGGCCACCCCGAGCCACGTCAGCCTGCGCACCCATCT
CCAGCCCTAAAACCAATGGCCTATCCAAGGACATGAGCAGTTTACACATCTCACCCAATTCAGGTAAGCTTACAGCAAATGCACTAACAAATCAAGTTCA
ACAGCAACAGGTGGTCCAGGCTCGAGGATAATGTTGGACTCYTAGGTTAAGTGGAGACAGTAACTATCACATTACAGATTAAGGTTTAGAAACCTGATCA
CTTCTGTGGCTGATCATTTCCTTTAAACTTTCAGTTCCGCAAATGCCAGCGAGCAAATGGTGCTTTGAGTCACAGCTGCAAAAACCATGCATCTAGGCCT
TTCCAGGGCTGCATAGTGGAAAGTGAAGTTAACATGTGAACTGGGTTTTTAAGATCCTTCTGAAAAACGTGAATTAACGTTAAAGTGTCAAAGATTAACT
CATTTCTGATAACTGTATGTATGAAAGTGGAAAAACCATTCGGAGCAAGATTCAGAGGAAACCATTTGACCTATATAAAATGTAAATTCTGTGTTGTTAT
ATTTTAATTATCTGCCATTCTTTAATGCAACTTTAGTTCTCTGTATTCTCTTTTAAAGGAGATTTTTTTTCATTCAGGATCAGAGAAAGCTGTATTTTCT
CAAATGTTGATGTGTTTAGAAATTCCTGGCCTCTGTGCCCAGTTGCAAGCCATCCAAAATGACATTGTTCATTTTATTTACGTTTTTGCAAATAATTGCC
CTGTGTCATGAACCTTCCCATGTCTGCTCATCAGAGATAAGGAGAAGATCCTCTTGAGCCCTCCCATAAACACACACACASAGTCAGGCTCCTTCAACAT
GGGGACATCCCTTCAAGAATTTGCATTTTCTCCTGCAGAAAGTCCAGAACTTTCTTCTCTCCCACCTACATCCAGTCTTCTTAAAACAGATTTCTGGCTA
GGCGCAGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCGCCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACCTGGTGA
AACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTAGCAGGTGCCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAAY
CCAGGAGGCAGAGGTTGCAGTGAGCCATGATTGCGCCACTGCACTCCAGCCTGGGTGACAGCGAGACTCTATCTCAAAAAAAAAACAGATTTCTCTCCTA
TGAGAGTTTCTGGTCTTTGATGCTGCACTTTCCTCTTCTGAAACATCAAGTGCTTTTAAAGAGGGATGGTGCTGACTGCCTGGTTCTGAGGCATGAACGA
CACTGGTAGGTGAGAGCAAGATGGTACAGAGGAGTTCAAATTTGGGTCCACCATCCTGGGCTCCGCTGCATAGTGTTAGGCAGTCACTGAGCTGGTTCCT
TCCCACCACATTGGGGTGCTCTTGCCTGGCCTGCCTGTGTTAGGCAGGGGGGCGGTGTCAGAGGAGACAACATGAAAGTGCTGGGAAAGCTGGATACAAA
CACAAGCTGTTGTTTCTAATCAAAGTTAAAACTGGCTTTATGCTAAAGGAGTCTTTAGTGCCTCCCAAAAAAGTGAGAACAGTATTTTTCCAGGGGCTTC
TATGACCTGCTGACCTTTCTTCCAAGACATCCGTGAGATTTTTCTTATTAGAGCGGTGTGCTAACTATGGGGTGGGAAGAGAGAAAAGAAGGGCACAAGA
AAGAAAAARCAATCCGTAGTGAGTAAAATGCTGAAGGCTTTATTACATTAGTACRTTACATAAACTCATGCATTTATTCAAAAAATATCTATAGGCCAGG
TGCAGTGGCTCACGCCTGTAACCCCAGCACTTTGGGAGGCCAAAATGGGTGAATCACCTGAGGTCAGAAGTTCAAGACCAGCCTGTCCAACATGGTGAAA
CCCCATCTCTACTAAAAATACAAAATTAGCTGGGTGTGGAGATGTGCGCCTGTAATTCCAGCTACTCAGGAGGCTAAGGCAGGGGAATCGCTTAAACCCA
GGAGGTGGAGTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGCGCGACAGAGTGATGAGACTCCGTCTCAAAAAAAAAAAAATCTATCAAGCAC
CTATTTTGTGCCAGAAGTTGTGCGCACTGCAGATATGGAGTCCCTAACCTCTAGAATTCTTCCATTTCCACCTCCCTTCTGACCATCACATCTAGTCATC
TAGTTACATAAGTAAAAGCATTTATTGAGTTTCATTTTTATAATTTTAAATTGATAAAAATGTATTAAATAGAATTAATTTAACTTAAATAAAAATTTAT
TGATCTTTGTAACATGGTGTTTTGAATTATGTATACATTGTGGAATGGCTAAATCATGCCATTTGTGGAGTTTCTAACGTGTGCCTGAGACACAGTTCCC
GCCTTCAGGAATCTCCCCTGTTGTTGGGGAGAAAGACAAGTAGATGGAGGCCACACGGAGCCACAGGCCCCAGGAGGGCTGTGTAAAGGGCAGGGCTTGG
AGACCCAGTGATGCTGCGGTCGGCTCCCCAGGAGGTAGGCCAGGCTTCAAGGRATGGGGGCTACCTGCTGAGTTTGAATAAAGGATAGGAATTTGCCAGG
CACACAGATATGAAGGAAGGGCACCAATTCTGTGAAGAAGCGTTCACTATGTAAAAGTAGGATTTTGAACTTCCTAATCTTGAGATTTATGTTCCTTGGA
GCCAAATGCCACTGTTGTCCTAAGGGAAACACTAATGTGTGATTTTAAGTAGATAATACAAAGGCCCTATAAACCGTACCATATCTGATGGAGTCGGCTG
TGGCATGGGCCTTTCTCTTTGAGGGAGTGAGTTGTGTGTCCTTGGAAGGCATTTCCCATTGCCCAGTTTCATTCTCTTTAAGAGCCCCTGTTGGGCAAAT
GGGAGGGTTGCGACAAGATTGAAATCCCTTTTCCATGGTCACAGCCCTCAGTGTGTAACAGGACATCTCCGCAACCCTCAAACAGGTTAATCCCACACAG
GGGCCTGGCTGACTTTCCCTCTTCTCTGGATTCCAACTAGGGATAGAGAAGTGGAGGTATGACCTTAGCACAGAGGCGTTGCCACTTTGGGAAGAAGAAA
GTGCCTCACGGCCACAGCAGTGCTAAGGGAAGTGGCACCCTGACCAAGCATGCGGGTGAAGTCATCAGCTGGTGTGCGGCRGGAGGGCGCAGATCTCAGA
TAGCAGCTCCCTGTTKATTGCTCAGCTTCATTCTTGGGTTCTGAGAATAAGCCATGGGCGGAGGCACTTCTGTAAGAGGAAGCAGCTTCATTAAAATCTT
GGGAAATTTTAATTTGCATTCACCTTCTCTAAACATGAACATGAATCTGTAAAGTGATACRTTCTTTCTTGCTTAAGAAATTAAAGCRTTTGGGGATTTG
AGTTTTTATACTCTTTGAAAATTGAGTTTCTTGTGCTAAAATCATCATTCACAAAATGTCCTCTCACCTGAGGAATTCCAACACAGCAAATTCARTCTGA
AATAAATTGAGGCTACATTTAAGAGACGGGACTTCCAGCTAAAAATAGGTATTAGAGAGCTGTTTTTGCCAAAAAATTGAATACTTAACCTTATTCTTCA
CTCTTGACTCATTTGTTTTGTCTCAGTTCTGGGTGAACTGGAGGGTTTTCTTTCTTTGTATTTTCATTTTTGTATTCATTTTCTTAATGCGATTGAATTA
GATCAACATTTTATGCCTTCTCTTCCCGTAACTTGCATTCACATAGACCTGATATATGTATGAGCCTAAATCTTTGTGGTTAACACTTATTATTGCTTTG
GAATAACTGTCCATATATGGAATGATTCATTCGGTTGGTATAACCATTTACAGGGTTCTTGATACACATTTCCAAATTAACTTCTAAAAGGTTTTACATG
AAAACTCTTCCCATCCATAGCCATCACCAGTTTCACCTCACACACTTGCTAATGCTATTAATATTATTGTTAGAATTTATGCTAATCTGATGAGCGATAA
AAATGCCTCATGTTTTGTTTATTTGGATTTCTTTAATCGGTAATGAAGTTGAACAGCTCACATGTATTAGGTGTATGTGTTTCTTACGTTGTAATTAATT
GTTTAGGTGTATCCTTTGCCCATTTTTGCACTAGGTTCTTTTTCTTATTGATATCTGAGAACTCYTTGTATATTTAGGATATGAATATATTTTGCAGGTA
TTTCCCCAGTTTATTATTTGCCTTTTAAATTTTATGGTCTTCTTTACATAAAAAGGTTTTCCCTCTTTTTTATTTATAATCAGATTATCTTTTACTGTTG
TGATTTCTACTTTAAGCTATTTAGAAARCCTTTCATAATCTTGAAACCAGATCACAGTTTACATATATATACTTCTAAGTTTTAATTTTATTGTTTTTTT
CCCTTAAAAAATATATGTATGTGTTTATGTGTGTGAATATATGTATATGCATATATATCTGTGTGTATGTGTGTGTATACATGTATATGCATGTATTTAG
CCCCTAATCCACCTTTAATTTGTTTGTGTCTATTGTGTGTGATAGAAATCTAATTGAATTTTTTATTCAAATAAATAATCAACTGTCGTTTTTCTCTTTG
TTGAATTTTTTTTCTTTCCCTATTAATTCCATATGTTGCCTTTGTTGTAGAACTCAATCACTTCATCAAATGGGCTGTGTTTCTGGCCTCTCAGATGTGT
TCCGAGACCTGGTGTCCCTGCATTGTCTTACCTTATGTAGATTTACCACAGTGTCTTAGATGTATGACTCCGTTTGTATCTGGTAGTATAACACAGTTGA
ATATTTCTCTTTTATCTTCCAGTTTTTCTTGGCTACTGCTRCCTGCTTATTTTTCCTCAAATGAACTAAASAGTAACTTGAAACCTTCTCCTCCTTGATA
AAAATAATCCCCTCATTGGTGCACATGACATCAGGACCTCCCGAGGCTGTGATACGGGCACGTAAATAAAATAATAAAAATAATTCTATCATGGCTTTTA
ACTGGCATTGCTTTTAAGCTATGAATTGTGGAGGAAGTGGCATCTTTACTGTGTGGAGTTCCTTATCGTGGAACACTGTTCTTTCSCAGTTTATTCAAAT
TTGTATTATAGCCTCCAGCAAAGTTCAGCATTTTTTTTTTTTATTTAGCTGCTGGACATGTCTTGTTAATCTATTCTGTTTATAATTTTTGGTGCATTGT
GAAGCTAATCYTTTTTAGAGAGGCGGGGTCTATTATGTCATCTAATTGGTCAGAAATAAAACTCCTAATTTTTGTGTTTTCTATTATTCAGCCATCTTGC
TGAACTCTTGTTAGTTGGAATAGCTACTGGATGTTTCTGTTGATTCTCTAGCACACAGTCATAATGCATTCCATATTTCAAATACTATAATGCCTAACTG
TGTGCCACCAGTTTACTGATACAGAGACTGGATTGTGTTGCCTCCTGTGCCATTCGTCTCCATTGTTACTGAGTCTGCTGTATGCCCACCCTTGATTAAT
GCTCTGGATATTGGGGTGGGGGGAGGACAAGACGTCTCTCCAGGAGCCTTACACTCAAGTGGGGGTGGAGGAGTCCAAAGATAAACACACAAGTAAGATC
ATTGTAAGGAATGATAAGTGCTGAAGGGCCATATGGGGCAATTGAATAGAAAATACCTGGAGGGGCTCGGGRGTGGGGTATTCCTAGCATTTGGGAAGTG
ATTTGCCTGTATTGAAATAGTGACTACATTTCACACTTTAAAATGCTGGAAATGTGGTCATCTTCATGTCAGTTTTTGCCATGGGCTTGGGAGAGAGGAA
GAAACACGCACTGTCAGAGCAGCTGCCTTGTGCACTGCTGATGACTGGGCTCAGGCCACCCTCTGGGGCTCATGCATTGAGGAGAGCAGAGGAGCTGCAA
TGGTGATGGGGTGGCTCTGGGTTCCTTGTGGCGGTCGTGGAGTTCAGGAGTGGGCTGGGGCACAGCAGCAGGCTGTGCGACGAAAGCAAGGAGAGCTGGC
CAGTGTTGTCCCTGCCACCAACACCCCCAGGAGAGCATGCATCGGAACAGGCAGCATGCCTAGGGAGAGCAGAACCTTTTGATGTGGATGCTGGTGCTCA
AAAAAGGGAAACAGAGATGATTGTGAAACTCAAACATCCTCAGTCTCAGAAGAAGAGAAAGAAATGGAGAGGCAAGGCAGCCCTGACCGTAGGTGGTATG
AAGTGCACCGGCCAGCTCACAGCCCCCCACACRGTAGGTCTAAATGAAACCCGCCAGTCAKYATGGGCCATACACCTGCTCAGAGCCCACAACCAGCCTT
CTGGTTGGCCAAGGCTGCAGAGAAAACCCCTTCATCTGCCTCATCAACCCACATGCTCTTATTCRTAGATAATGGACAACGAAGGTGTTTGTGGGAACCA
ACAGTAAAATGTGAAGGATAACTGATCTTAGTAAGAGTGACATTTTAGTGAAAGGGAATTTAAAAGGAAATTATAACTCCTATCAACAGAAGGATTTAAT
AYGTTAGTTATTAATGATACTCATAAAATGAGGCAAACAGAGAGCACGTGTTTGGCCCRGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGGC
TGAGGCAGGCAGATCCCCTGAGCCCAAGAGTTCAAGACCYATCTAGGCAACATGGTGAAACCCTGTCTTTACAAAAAATGCAAAAATTTAGCTGGGCATA
GTGGCGAGTGCCTGTGGTCCCAGGGGAGACTGAGGTGGGAGAATAGCTTGAGCCCAAGAGGTCAAGGCTGCAGTGAGCCATGATCATGCCACTGTACTCC
AGCCTGGGCAACAGAGTRAGGCCTRTGTCAAAAAAATAAAGAGTATGTGAAAATACTATAGGAGAAAAAGTTTTATGAATAAAGATTGTGAAAATAAAAA
ATTCATTAGATAAATACTGTAAAGAACGTGGCTAAAGACATGTTGGTAGTCAAAGATGTAACAGAAGAATATATGCTAGAAGCAAGTAAGGATATCTGAA
GAGTCAAGTATCAAGTTGGATGGGAGAGGAGGCTCTGCAAAAATACAAATAAAATCTTAAAACACACCAAAAATAGGAGAACAACAAGGTTACCTACAAA
AGAAGAGAAATCTGACTSTAGACTTCTCAAGAGCAACATGCATTCTTAAATATAATGGAAATATTCCCTCCTAAGGACAAATAATTCTGAACCTAGAAGC
CTATGCAAAGAYGACTACTAATCAAATGAAGATAGAAAAAAAAGACATCTTTAGACAACCTACAGGGTTATACAACATCTCTGTCTTAAAGGGTTTTGAA
AAAATTACTKAAGGGTCTACTCCAGAAAAAAAAGAAGAATCCAAAAGATATTCAGGCCTGGTTAAACCTTCCCTTCCTCATTCAAGGTCACTGGCTTCTC
AAGATGTGCATGGCCATTATCCACTTCCATTCTTTTGGCCTGGAACTTACATAGTCTTAAGTTGCCATTCTAATGAGGATCCACCAGAAGCCACATTTTG
GAGAATCTTCCCAACTTGAATTTCAGGTATAGGTCCAGAGAAGGAGGTAAAACGTCAAGGTATTTTCTGACATGAATGTTTGGCCAGCCTAGTTTGGTGA
AGCTGTATCCACATGTAACAATGCAGAGTTGTATTARCTTCCACAGTTATTTTCACATTTAAGTAGAGAGCAGGAAAACATAATGTCCAAGAGCAAGGGT
TTCRGAGTCCAAATCACTGAATAGAATCCCATTTCTCCTGTCTCAGACCCTTCTGAAGTTGTCTCACTAAACCCCAGCTTCCTTGTTTTTAAAATGGGGA
AATGATGTCCACCTCTGTTCTATGGAGAAGAACACACGGCATTCCTTTGAAAAGCTTGGCCGATGCTGACTTCACAGAATTACATCATTAATTCATCATC
ATGGTTATGCCAAAAGCAAGGAAGAGGGGAAAGAAATTATGTTCTTGAATTAATTTTTCAAATACAATAAAGCATTGACATAGCCTTTGAGTGGACATAA
TGGACATAGGGCTTAGACTTCACAAACCCATGCTCCCCAACAGACAGCATCCCACTATCATGGCAGCAAGGGGGCAGACAGAAGAAATGCTCTTCTGGAC
TTTCATGGATGTCCATGGAGCTGTCTGCTCCAGTTCTGTGTCCTGTGGTCACTTTATTCTGTAACTCCTGGTTGTGACATTTTTGTTCTAGGATGACAGA
TACCTTCTTGTCTCTAAAGTGTGTCTTTGTTGGGTTTTTGCAACTATGGATATGTTTTTATCCTAACCAGATTGATGCTTAGACCTTTGTCAAAGGAAAC
CTTTCCCCTTCTCCTCTACATCCCCCCCTTCCCTACTTGAGGCCCCCAGCGGTTTCGAAATATTAAAGCCTTCGGGAGGGTTGAAGCTGATTTTCCAGGG
GAGGTGGGGGAGGCGGGGACAGCAAATGTGTTTTGAGTATTGAACTGCCGTTGACATCTAAAGTCTCAACCATGCTGTTTTCTCCACACTTCAGCAATCA
GGACATCCAGCAAACCCATAAAAAACCAAACTAATAGCATGAATATTCAGTGACCTAGAATACTAATTATTGTCATGAATATTAATGTGATCGGACTTGC
TCTTTCCTCTCCTCTTTCTCTCTCGTCCTCTTTCTCCCTCTCTCCCTCTCTTTTTTTCCACTTAGCCGGCTCTAAAGATGGGTCATAATGAGAGCATTTA
AGAGGGAGCGCTCTCCGCCGTGACAGGGACCGGGGTAATAAGGAGAGCTTGATTAACGTGGTGCACTTGGGGGAGAGATGAGAGGCTTCACGTGGTCCTG
TTCGGGGGAGGCAATGAGGCACCGGCGGCTCTGTTGCTGCTCCCGGAGATTAATGAGGCCTAAGAGTGCATTAGGAACAGTGACAAAGGTTTGATCTAAT
GGGCTCAGTCATTTTTCCTTTGAGTGACAGACGCACAGAAGTAATTGGCTGTGCAGAATGGCAGCTCATTGGCGGTACTTAAGGATACATTATCCCCGTT
GTGTGGCCCGCAGAGGCTGTTTATCAAAACTGCTCACACTGCAGACGCGGAGTCGCGAAGCTGCTGTTTCAGTGGTAATAGCTATTAAAAAAAAATAACG
TGACATCAAAACTAGACCCGTTGTTGTCTCATGGAAAGAAAGTTTTTCTTTGTTTAGTTTCAAACGGTCTAGAAAACATTATAATAACTCTGGAGTCCGG
AGTCTGTTGTGGGCCCTGGATGAGCAGTGTCAGTCCACACCTGTCCCCTGCCGGCATGCGGTGTGGCCAAGGCTTGGTGGAACACAGATCCTTGCTTCCC
ACTCATGTCGACCAAGGTCACTCGGGAGTTTTCCACACATTGGATCTTGGTTACAACATATAAATTGGAAGCTTCTGCTAAGTACCCTTCTAGCACCTTG
GTAGACCATTTGCAAATGGAAGCCTTACTGGTCGAGAATTATTTTTCTGAAATAAAACCTCAATATCAGTAGCATGTGATATCTGCTTTCATAAACCAGG
TTTTGTTGGAATTGGTTTTAATGTCTATTTGACAATTTTTAGGGAAAATGTTAATGTTTTGTGAGGCTTCTCAGACATCAGAAAGTTAGCTAAATCTGAC
ATYAGAGGACACTAAAGTTCATCTTAGTTCTTTTTAAGAATTGCAGCATCTTCAGCTTTTATGAGCAATGCGTTCTCACTATTAGTTGTTTCCGTGTTTA
TACATTGCTCCCACTGAGGTTTAGGCAAATTCGTGTGGTATTGTTTCCATCATTAAATTGTAAACTCTTTGAGRYATACACTGTTACTTCTCTTTCTTTG
TTATCCTCTCTTAGTTTTGTGACCTAGCAATTATTTTCTCATTAGGTATATATTCCTGCATGTTACCCATCATGTTAAATRTAAGTGATGGATGTTGAGG
AGATTAGTTGCTTTCCTGCAGATAATGTTCCCCTGTAGTAGCTCTCTGTGGTCCTGAGCATTGGTGTGTAATTCAGAAGTAAGTATTGTACTTCCTAAAT
TAAGGATAGCTTCAATTATTTGAACTCTAAGTGGAGTGTTCTTTTCTGAAAGAACCAACTAAAGCAACTTGATTCCTGATGATTTCAGCTGAGACATATC
AGGGGATGGCCAGGACCTTGAGTTGGATGTGGTAACAGGTGTGCCTACAAGTAAATAAAAGGTGCTTCAAACACTTTTTTTCTCTCAAAAATGTGTGTGG
GCAGGGAGGAATAGTGTTTCAGCTGCTGAACTGATGCTTCCGAGACCAGCGAAGTGGTCTGCAGGGTCAGCTGTGGGAAAGAGGAGGTGCCCGGAAGAGC
CTCTGTGAATTACCCGCGCCCCCTCCACCAGGGAGCCAGCTGCCAGCCCCGGGGGCCAGTGAGAACCGAGGCCTTGGGAAAGGGCTTCTGGTTCTTCCAG
GCTAGAGTTGAGTCCGTGGCTTCCCTGCTTCCTGCAGTCCTTTCCCACACTGGCAGAGGAGAGTTTTTCGAAGTAATCGTGACATTTTTCCATCTCGAAA
CCTTGTGGCCCATTGTTTTGAGTTACCACTCATATAGTGAACGTTTGCGTTTCTGGAGTATTTCTAGGGAGTGGTCAAACCCCGTAACATCCCAACCAGC
AAACCTGTAAAACCCGCCTCATGTTATCAGACTTGTGAGCCCGGGGTACTCCTTGGTGCTTTGTCTTCCCTGTGTCATTGCTGGATTCAGTTGTGAGATC
ATTTTGTAAGAACTGGAAAGCAGAGAAAGAAGTAGTAGTGAATACTTCTCAGGATAGAGCTGTGGGGCCACCTGCTCCTGGAAGGGGACTGTAAAATTCA
GAGATGACCGGGGAACGCTCCCCTCAAAACAGTGTTGTCAAATGAAAATGAATTTCATGTTAAAAACACACASACACACACCTGTTGCATTTATCATATA
AAGGAGAAAGAATATTGTAAAGATGGAACCGTTATTCATGGCAAAGGAAGACACCAAACAAAGAAAAATTCTTTTCTTCTCCGTCTTCACAATGCTTACA
CCCCTCATCCTCGCTGTTGCATCAGCTTGTCCATATAACCCATACCAGGAGATGGATTGTGGCCAAGACAAGCCGTACGATGGCGCTCTCCATAAACACT
GTCGGAATCTGGAGCAGCACGTGTTCCTTCAGCAGATAAAAATGGCAAAATGAGAATGGCACACATTGTTTTGCAAAGGTCGGAATAAGACTCCACGTTT
TAGGAAGTGACGACGAACCGTCTAATTCTAGGATGTTGAATTCTGCTTGGCCACGTTGATGTATTTAGTAGTCGTTAMATTTGTCATTGCAACTGGGTCT
GGATTCTGTATATTCTTTTTTCTGTTATGTAGAACTGTGTGGCTGGAGAAAGCAACTTTGTCTTTAGAATAAATACTTACACTTATTTCTAAATATAATT
ACTTAAATGAGAACTTAGCGTCTGACATGGTAAATATTTTGTCTTAAATTGTACCAAYTGCCACATGATATCCACTCCCAACATGGAGCAGTAACCCAGG
GATGGGAGGGAAGGGATGACTCTGGCGCTCCAGCTCACTGTCACCTGCTGTCAGGCCATGTCCTTCATCCGCTGCATGCGCATGGTGCCCCAAGCGCAGG
GTTGTTGTTTTTTTTCTCTCCTTCCTTTCTTTTGTAAACTGTACCTCTGACAACATTGGCATCGCTCTGATCATCAGACCTTTGGGATGCTGGAAGATGG
GGGGTGCCGTGGAGTTCTCCACAGCACCAAGCACTTCACTAGTTGATGGTGGGTGTTCAGTAAGTACTCACAGAGGGAATGAATGAGCTCAAGCAAAGTG
ATGCCAACTACAGCACTAAAGCAAACAGGAGGCAGATGGCATGCACAGTTCATACATGAAGAGACACCATTACAAGGGAAACATAAGGAAAATATTCAGA
CATTTTAGATTTTAAAGACAAACAAGATTAGCAACATCACCATTTTAAGCTTTTGCTAAAAAACTGTAGAGATAGGAAAACCCACTGTTGATGAGATTAA
TAACTGATATCTGCAGAGGTTTTACAGTTTACAGAGTGCTTTACATAATTTGATCATTATATTAACCACATGGGGCATACTGTTATCATTATCACCATTT
CTTCATTATTATTATTATCCACTTAGAAATTATGGACTAAATTGCTTTAAAGATGCCCAGGTTCCATCTTCTTTTAGTTACTGGTCATTAAGAAAATTAA
TTAGCAACATATATCATGAATCAGAAAGATATATTATGCTGTTTGTTCCAGTAATAACGCTGCTGAGAATTTCTTCTAAGGAAAATTCAAAAGTAGAAGA
TGTCCTTTGCAGTGTTGTTTATAGCCAGAAATTGGAAACAACCAAAACTATCCAGAAGTAGAAAAATGGTGATATAAATTATCTACATTAAATCAATAAT
GTTACATATCTAAAATTATGAAGATTACATAACAACATGGGGAAAATGGTTAGGAAATCATATTAAAGAAGTGTATAAAGTTATATCTTTTCTGTGGCCA
TAACCAAGAACAATGTATGCATATGTTCAATAAAAAATTGATCTGTTAGACGAGATTTTGGTGGATTTAGTTTACATTATTTGTATATCTGTACTTTTGC
CAAGTAAATTTTAACAGTACAACAAAATAGGCCCCCATTATTTTTTTCCTTGACATCATAATTTAGAACAGGGAGAAAGCAGCATACAATGAGCTGTTTC
TACGTTGTAGGAAAGAGCTGTGTAATTCCAGGATGTGGAATCCTAAGCCTGGCCACGTTGCTGTATTTAGTAGTAATTACATCTGTCATTGTGACTAGGT
CTGAACTCTGTACTCTGTCTTGATAAACATAACATGGAAAATCTCTTAACTAAACAAAAGGTATCAAGAAACACCAGATTTGTGTCTTCCTAGTAGATAT
GTTGAATTGTACTCTTTTACAAAACAAGTATCACAGGATGCAGAGTCCCGAATGCCTACATCTTATAAGATACTGAATGTGTCCTTGGAAAAAAAATCCT
CTCAGCCTGAAATTCCACTTGCCAAAAGCAAGGCAGATCTCCAATGCAAATACAGGAGCGAATGGGCCCCATTCACAGGCCTTAAATCGTGTGTCTCACT
TTTTATGGTAGTGTTGTGAATTCTGTTCTTTTTGGGTTTGTAATTAGAGGACAGAACAGATGGCGAAGGCCTAGTTTGAAGTGATGTGACTGTTAACGTC
GCCTCCTTCATCCAGTTGTGATTCCAGGGAACCCGGTTTTCCCACACATGCGCACAACGGGCGTGGTGCAGCTGTAGGGTTTGCAAGGTAGCCGCTCACG
CTGAGTTTTTACAGCATTTGAAGCTGCCTGTGAATGAGATTGGACCGAAGAAAGCCGTCCCTGGATGTTTCTAAGGGTGAAGGCTCCATAGGGGAAGGGT
GAATTCTTGTCAATCATATTCCTGTAATTAGGATTTGTTAAAATAGAAGGTATACAATTCTGCAGTGGGAATAAACGTCTGTTTTACACTCAAGTGCTCA
TAGAATCCTTTTTGGCTTTTTCCCCGCCCTCTTTCTATGTACATGAAAGTTCCTATCGCCATCACCAAGAGTTGCTCCTCTTTTCAGGCTTACTTAACCA
ATAAGTCAAATGCCAGCTATTATTTTCCTAGTTAAATGCTTTGGTGAAGTTAAGTCCTATTTGTAAAGACAGACCAAAATTGGAAGGCGCAGGGAATGAA
CTTTTGTATTTTGTTATTGTTATTGTAAAGATTTGTTGATGAATCTTTATTTGAATGCTATGAAAAGCCATCATTTCAGAGTATATTTTTAAAAATCAGA
ACAGGCTATTTTTAATGTAATAAGCTAATAGCTTAAAAGAGGGATTCTGTCTTTGATGTCATTTGGTGGATGAAAACATTCTTGTTCAATAGAAAACCAG
CATCTTTTTCATGCTCATTTGAGATCAGTTCAGGCAACATACTGATATTCATTCAGATATAAATGCCATATTCACTTTGAAATGCAAATTGTGTAAAGAA
AAATAGCATATGGTGGAGGTAAGTACCTTTTCAAATCAACTCTTCCACTTTAGGGATATAAGTACAGCTAAAATTATTCTTTGGAAAGAATCTGGCGCTT
TTGACACATGGAAGCTTGCACTAATCAAGGCAGCTCAGTAAGCACACACACATATCCATATCAAGGAAGTGGCGCAGCGAGGACATGGATTAGCATGGTA
ATGCAGTCACCCCCTGCTAATCGGGGCGAGTACCAGCTGATCCGTAGATGGGGTATTTGAGGAAACACTCTTTCTGAGTTCAGAATGGGCCATGTCGTCA
GTCATGTATTTCATGGTAACGCAAATAATATTTGGGGGACGATGCCGAAAAGGTCCTTTTATGACTGCCTTCCTGTGGAAGCCAGCATCCTATACTGTTT
GGGGCTGGGCCACTTTTTAAGGACTTATTGCTGGTACAGCTGTTTCCTTGTACAACCCTGTTCTGTCTCTTACACTTCCTGACCTGACCTCTGCATTCAC
AAGCCATTCCAATGACATTTTCTAGGTTTTTGGATAAGTGTTAYTGGTACAACATACACATAAGACGCACAGAATCATAAGTCATRGCCACGTTTACAGG
GGCCGCCRCTCACATCCAGAAGCAGCAGGTAGCCAGCCCTCATGGACCCCTTCCTGTCCCGTGCACCCCCACCCCACCCCACCCCACTCACAAGGGTGAC
CACCRTCTGATTTCTCACTCCGTAGATGGGTTTCGCCTGTCCTTGGACGGGATCCTAACAGTTGGCACTCTCGTGCTTGTCTCCGGCTCTGTGTTCTGTG
TGTGATGTCACCGCAGTTGTGGCCCGTGTCAGTAGTTCCTTGTTGTCATTGGGTAATGTTCCGTTGTGCCGTGATGTACCTACAGTGATGGACAGTGCCG
TCATTCCCAGCGTGGGGCTGTTATGAGCAGTGCTGCTCTGAACATTCTAGCACCTACTTTTTGGTGGCCATGTTTATGTGCATCTGTATGATTTAAATCT
GAAAGATGTGAAAGGAGAAGAGAAATCTTAAAGGAGGAAAAAAAAAGAAGTGGACTTGAAATGTTTTATGAAAGCTTTGCATCCRGTAAGTCAATTAGAA
GAGTGGTGTAGGTYGTCCTGGGACAGCCCCGAGCTTAGGAAACCCCCGTGTTTAATAAGAGCACGTAAGCAAGCCTGTCCAAAGTTTGCCGTGGAGAGTG
ACATTTACTGTCCCAGACAGCAAACAGATGTGCCCCCCTCGCTGGGAGTAGACACTACCCCTGTCTCACCAGTCTGTTCATTCTGTCAACATCCCTTGCA
AGATACTACCTTAAGTCTAAGGTAGTATCTTAAGGTAGTATCTTAGGTAGACTTAAGGYAGTATCTCCCCTTTYCATCTATTCTTTATCTAGATGGGCCT
AATTCCAAAGTCTAAAAGCTGCAGTGTCCCCTGGAGCCTCTCCTGTACCTTCCAGCAGCGGTGGGCTCCCTGACCCTCATACTTTCTGGCTGCTCTTGTG
TTACTCTGCCTTGCGTTTGRGCCACATGTGGATCTGCTGTATACCTTCTACTAGACTAGATTGTAGGTTCCCTAAGACAGGGACTCCTTCCTTCATTGTG
CCCAATGCAGTAGGGGCTCAGTTCCATGCGGCTGCTCGGCCCGCTAGAAGGTCAATGTTAGAATAGGCGGCAGCTTCTGCATACCGGGTCCCATCTTCCC
CTACTCGCGAGTTAGCAGGTTAGCCTGCCCTAGGTTCCTGGGTGATGAGACTCCTGGATCAAAATGAATGACAGTCTCTTGCAGCAATAGCAATAGTGAG
AGTATCAGCATTGTCATGCACTGGCTTCCCAAGCCTCAGTTCCCACAGGGTGACACCAGCACACACAGTRACTCATGTTGTAAGAGGAACCCCAAGCTTA
GGAAACCCCATGTGTTTAATAAGAGCACGTAAGCAAGCCTGTCCAAAGTTTGCTGTGGAGAGCGACATTTACTGTCCCAGACAGCAAACAGATGTGCTCC
CTCTTAAAGTAGACATTACCCCTGTTGTACCAGTCTGTTTACTCTGTCCACATCCCCTGCAAAATAACACAGAGCAGAGAGCACCTGCCCGTGTCCACAC
CCAGAGGAAGAAGAAACTGAGGCCCGTGGAGAGCTGGCTGCCAGCAACAGTGGGGTGGGATGTGCTGGTAGCAGCAGGGAGAGTGGAAGTCAGGGAAGGA
TGGAAGGGAAGGGAAGAATGGAGAGTACTCACCCCCCAAAGTAGGCCACATCCTTGTACTTATCCCCGAGTATAAGTGTACCCTCGGCTTCCGGGGTAGA
AGCTTCCTTTAAGACCCTTGTATTTGYGCGTGACTTGAGGTTGGTGAATTAGGACCACTTGTTAGACTCACCTCGTCTACTCCAGGAAGGAGGGCATTCT
AATCTGGCTTTTACAATCTCCTCCTTCTAGGGAAATACAGACATGCCTGCAAAGAACATTTCCAACGATGGTGCGCAGAGTTTTCCCACATCTAAACGAC
CCCAGCTTCATATCTTACTCCTTAGACACGGGAATGAAATTCTGTAGCAAAACGGCTGTGTGTTGAGGTGGTCCCTGATGGAGACAATCCAGAGGCTCTC
TTTCCTGGGCATTACTGGGGCTGAGGGTTGGGGCGTGGCTTCCTGCAGACCCCACGCACCTTGCAATCCTCRTGGCATTTCTGAATGTAGCTCTATTTCT
ATTAGCCTTCCTGAACTGGCAACTTTAATGCCTGGGTAGCAAGCACTTGGGCGTTTCCTTAAACTCACCGTCTTAGCTATCAGGTCTAGGTGTGAAAATG
TGATTTAACTAATCAACACAGTAGCAGCAGAGCTTGGTGTCTTTGTTGACTGTYGGCGGCCACGTGGGTTTAGGTCCCCTGCCCTTCAGCCTGGTTGCTG
GGTATGAGGCCTCCACCTCGGCAGGACTGCTTCGAGCTGACCTGGACTGTGTTTAGAACAGTGTTTGGTGCACTTGTATCCTAGCTKGTCTTGATGTCAG
GATCCTTACCCCTCAAGCAATCAAAAAAGTTATCCAGCTTGTTTCACAAATGAGAACTTCAGACCTTCAGCCTTAATTAATAACTCATTAACGTGAAATG
AATTCCAGTGAGTGAAAACAGTTGCCCTCGAGTACTTTGAGTGAGAATACAGTGATTTTAAACAGAGGCTTTTTTTATGCTTAAAGATATTTCCAAAAGT
GTTCAAAACTCCTGTGTGGTAACACATAGGGCAGGTATTGCTTGATGCTTACATAACAAAACTGGATGCCAGGACAGCATTAGTAGGTCAATTARTTAAT
GACATTCATTCAAGAACAGAAATGAGATTACATATTAGACTCTGTATGCATATCTGTATCAAAAAATGCATGAGAAAGTATGACACTATAATTGGATATG
GAATGTGCATGATTATTAAAAAGATTCACTCCACATTTGGGGGTGGTTCGTTTCTTTGACGGGTGGATTTACTGAAAGTAAGTGGAAATGCCTCAAAACT
GTGGCCACTGGCCTGGGACTGCTGACACATGGCACGAGATGCTCCATGGGCGTGTTAACCCAGCATGGCAGCTTCCACAGTGTCGTGGCTCAGGTCGTGG
ACCACTGGTTTGCCTCAGAGTTTAAGCAGATGTCTTCATGCATTTACGTTGAAAGGCAGGTACTGTGTTTGGATCCCAGAAACAATRTTTCTGACCCTGT
RTAATTTTTTTTAGTCAAATATGTTTCTGCATTATCACACAAAATACTTTTGTTTTCTTTTGTTGGTTTTTCTGAAAGAAAATTTAAGTGATCTCAAATA
TAGTGAATGGGTATATTTTGAAACAGAGATTTACTCCCTTAAGAGAAAATCGGAAATGTTTTGCTTATGGAATGAGCCTCCTCCTCCGCATATTTTTGGA
AGGTCCTGACCAGAGGTCAAGAGTGAGGTGGGTTGAGTGCAGTGGGGTGKGGGGAGGCAGGTGTGAGCCTGGGCAACCCCGGAACCCACTCAGATCCTTC
AGACAGATCCAGAGAGAGAGGCTGTCAGCTCTTTGTTCATAAACACAGGCCCACAGCTCCCAGATGCTTTCATTTTCTAAGTGATGCCAGAAACCACCAA
TTTTTAAATGAAATCTCCCAATTTAATTCTACTTTGAAAAAAATGATCAACTAAGTAAAAATGTCTCTRTGAGCTCAGCCTGGACGTCAGGCGATAGTCT
GTGGATCTGATTGAAAGTTTCACCTTTATCACGGTTTGTCCATGTATACACCTTGATGTGGCCCAAATTCAGTCATGCTGTTTCAGTGTAGTCCCGCAGT
GGGAAGTGGGTGTGGCTGGGGCTGGGGGRCCTTCACGAGCTATAGGGCTCTAAGAGTCTGCCGTCAGAAGGATTGTGGATAGCTGGTCTGGTGTCTTCCA
TCTGGACACCAGGAGCATGTGGTCTTGCCAGGAGGTTCGTCACCCCAGAGGTTCCAGGTTGGTTCCTTGGGGACTCTCTCAGGAGGCAGAAGGTGGGCTC
TGAGCCACACCCTCAGAGCTGCTGCACCAGCATCTCAGTGGATTGGACTTGTCCTTGTATTTTGATGGACAGACAGAAGTTTGAAAACCAGTACATTCAC
AGCAGCATTCACAGCAGAGTCCTGTTGTTKCCTAGTGTGTAGGCTTGAAGGAATCTCTCCCTTCCTTTTTGGCAGTGTGATGTTTGGCCATGAGATGAAG
AACTCATAAACCTAAGATGAGTTCTTGATCAGCAACCTCCATTGGAACATTTCGTGGTCCCTTGTCTGGGGTTGAGATTGACTTGGCTCTCCTTACTGTG
TGTTGATACTTACTTCTGGAGCTTTATTGCAAGTAGTCAGTGATGGATGCACTGAAATACTGTCCTCTGCCTTTTAAAGGAAATTGTTCTGGAAGGTTTC
TAGGCCTGGTTGTCATCGGAGAACCACTCTCCAGGGAGAAGGAGCAAGAGAAGCGGTGCTCTATTGAGTGCCATGTTGTCATCGTTGTYCCAWAGATGGA
GGGACAGACAGACACAGTGAAATTCCTTTTTGTTTTTCAGGTATTTGGACCTTGTGTGCCTAAAGCTGGTATAAAATGAGGTCTGTGGACAGATGGCATG
CTTAATAATGACTTGACAGGGGTCTGATTGGGCATTGCAGTGTGGAAGGAATTACCTCCTTATCATCTTACCTACACAGCAGGTGTCCCTGCAGGTAGAG
CAGGCCCAGAAGTGCCTGGCACAGCAGTCAGGGTCCCAGCAAGGGAGGTGCCCCCCCAATCGCACCCCCAGCTGCTTGCAGGCATCTTGTCATTGTCCTT
TTCCACCTTTGCGGAGTCCTTTCGCCCACCATAACAGTGTCAGCAGTGTCTGGAAGCCTTTTGTCTGCTCAGAATTCACGTGATGAAAGCGGAACCAGGC
CAGGGAAGCCCSGGCAGCCACTCTTGGGAGGCGCCTCCTCCCCAAACGCACCTTCGATGGGTGGATGTGTGGGATTGAGAGAGAGAAGGGGAAGAGAAGC
ACACAGGACAGTGCAGGCACCAGGGCTGGCAGAAATGCACCAGGACAACCCATGGGCCCCAAGGGCCAAGGAGAGAGGGGGTCACCCAGCAAGACAACTG
CTCGGGGAACGAGCCCTGGAGTCAGCACCCACCCTCACCCTCCTCTCTCCTTTAGATTCCTGCCATGCTCACCATTGGTTGAGCCCAGTGAGAAGCTAGA
AGGTGCTGGAGCCAACAGGTGCAGCCCATATGGGTGCCTTCCCAGGAGGAGAGCAGGGCGGAGAAGGGATGTGAAGGGATGTAGCAGGAACATGGTGGGC
ACGGGCTCCAGGAGGGGRTCCCGAGATGGGAGTATCTCCTCTGCTCCTCAGGGATGCTGCCTTCTGTGGGGTCTGAATGCCCTATTGTAATAGGGATCTG
GCTAAGRCACACAATACCCAGAGGACAGCCACAGGGTGGCTTCGATGGTGGCACGTGGAAAATACAGGGAGGAGCATGAGTGCTCCCCTTAGTGCCATGT
CGCCAGCTCTGGGCTGCTCCTCCACGTCTCTTAAGATGCCACATGCCTGGCCYACCTCCCCCGGCTGCTGTGAGGCCTGGTGCAAGAGCAAGCATGGGAG
CACCACATGGCACTGTCATTCAAGATGTGGGCTCCAAATGACGCTGTGTGTTTCTAGGGCGTTAGGGCACGCCCATGCCCTGAGATGGAGCTCTCAGAAC
ATCAGGGCTTGGGGGCATGAGAAACGGCCTCAAGACCCTACATGTAAGCAGGGGAGCCCAGACCCGAGGCTTCCGAGCCACTGCCCTCGCTCCTCCCACC
TGAGCCCCTTGGATGCCAGTGGTCTGCCGTGGTGGAGTTTTGATTGTGATTTTTTGTTTTATGGTGGTGACTTTCTGGCTGGAGTGGTTTTTTTAATTAA
TGTGCACACAGATYGCCTGGGATCTTACTAAGAGGCAGGTGGCAGGTGGGGCCTGGGATTCTGCATTTCTCGAATGCCTCTTGGCGATGCTGCTTCTGTA
GGTCCGAAGACCACAACCTCTGTGGCTTTCCGATCCTTCCTTCCCTGGGGCATCACTGTGGGCTTTTTTCTGGAATCAAGCAGACCTGCCTATGAATAAT
TTCCCTTATGACGTTCAGAATGTACTCAGTTCAGACAACAGCATAAAATAGGTATCTTTTCTTTTTTTTTAAGGCAGAACTCTATTCTTCAAAGCCAAAC
GCCTCGTCGTTTGTTAATCGCTGATTGGGTGTAGGGCTCGTACACTACGCTTCAGCTCGTGGTTCCGTGGCTTCCCAGTGCTGCACGGGATCGCAGTGAG
GCCGCTTGTTTGAGGGGAGACCTGGTTCYTGCCTCTGGCTTCTCATCCAYATCACCGGAGTGCTTTTGAAAATGCATCTTTTCCCAAGCCCCATTCCCAG
AGCTTCTGAATCAAAATCTGTATTTTTTGAAGCCACTAGTTCTAAAAAGCTCCACAGGAAATTCTGGTAATTGGCCAGATTTAAGAACTGCTAATATGGG
CTGCGTATTTATTATAAAATCCTGCACTGTGAAAAACTTATGTTGAGACAGCTTAGAACTTAGCTGGTTCTGAACTAAAACAATTGGAAGAAAATTTTTT
TTAAAAAAGCCCCAGTACCTCCGAAGATCTGCAAATAGACCTAACAGACTAATTCGCTGGCAGCAGGGTATGATTGGCTGAGCTTTAGAGAAAGGCACTT
AATTATGTTTTTGAGTCTAAAATTGGTATGACCAGATAATAATTCATTTTGATGTTGAGCAACTGATTCAAATCATTAAGTATACAATGGAATCATTTTT
CATCACAGCCCCTGTGCTCTATGAAGTCACGCAGGTTGTTTTTCCTCTGCTTAGTCTTTTCAAGGTTAAGAGTAAACTTATCTGGTTGAAGAGCCTGCAT
TTCCTCCGTGTCGTGTCTAGGGACTTTGATTTGTGTTGATCATAAAGTATGGCTTCCCCATGAAAATAATCCTCTGGCACCAGACAGTTGACTCTCAATG
GGTGATCATTTTCTGTTCCATTGGTAGGGTGACATGGCCGGGCTCCTGGAGCCCCCATCTTGCCGGCCTGCCGGATCGCGGTGTCTCTGCTAAGACTCGC
TGGGTCTTTTGTCTTCACTTCCACTCGATGTTGCGGTTGCGGTTGGGTTGCGTCTTTGTATAGGGTTGTTCGGTGCGAGCCATCTGTGGCATCGGGTCCC
TTCACATTGCTTTGTCAGGCACCATCAAGATTGGCGTCCCCCTTTTATTCCTCCCGAATAGTTTCTGTCTGGCGCTTCCGTTTGCCATGCAGGCAGGACA
GGGGCTGCTCTCGGTGGTAAGGTGCACTATGTGCCAGCGTGTGGGTCCCATAGACTAACTCGCGCTGGTTTCTGTGGTCTGCAGTCCGCGGTGGTGTTCA
CCTGACTTGTTTATTCCTAGGGAATGTCACTAGTGCATCTGGGTCTCAGATGGCAAGCGGCATCAGCCTGGTCTCCTTCAACAGCCGACCCGACGGCATG
CACCAGCGCTCCTACTCAGTCTCCAGTGCCGACCAGTGGAGTGAGGCTACGGTCATTGCAAACTCGGCCATCAGCAGTGGTAAGAGGGGGCTCAGCCCCA
CGGACCCGCAGCCACCTCAAGGTCCTTCGTTGTAAGCCAGGGGCTGGACAGGACGCCCTAAGCTCTCATGCTCCTCTGGGAGCGCAGCACCCTGTGGGGC
GGCTGCATCAGAGACTCACATCTTGCCTTTCATCTGTGGAACRTTTTGTCCTTGCTAGGCTGTCTTGCCCCTGTCATCTCATCTGTTCCTCTTTGGCACA
GGGAGGAGSTAGTCATCCCATTTGGTCAGTTTGGAAACTGAGGCGGCAGACAGGGCAACTGGCTTACCCAGGGTCACGTGACAGAAGTGGCAGCGCTGAG
AAATAAGATCTGATTTTATCTCCCCAATCACACTGCCCTACGTGGCGTGGCCCACACTCTTCCACCACTAGTGCACATTTTATATCATTAGGGTGAATTC
AGTCTCCTTGTCTGTTTTCCAGAATTCCTGGTGTACCCTCTAAATTCTGGAGTCCCCTTTGTAATCCTTCAGTTTTCAAATTCCTTTGGCATTATTATTA
TTATTATTATTTTGACAAGTGTATCCAGCTTTTTGGGGAATAAGCATGCACGTTGGAAACGATCTCGCCGTCTGTGTGGAGCGTGAATGACGCAGCACCG
AGGGCACCCTGGTGGCTGCAGCAGGGTTTGCCTGTGGCGTTTTGTCTCTGGCCTGTTCACCGGTATTTAAAGGAATTCCCACTGTTGTATGTAATCTATC
AGACGGGGTTTTAGAGTAATCTTAGCATAATTTGTTCTAATTAAAAGATTCAGCATCAGGTCTTCCCTGTAGACCCACCAGCTGCTGCAGCAGGACGTTT
GCTTTGGGTAAACATCATCCTTATTTCTAGTGGCTCCGCAGACGCCACCAAGCAGAAGCCTTAAAGGAAGACATCTCCAAACCAAGCCGGGAGACGCGGA
GTCAGCGAGGTAGCTCCACACCATAGCGGTGCGGGTCTGGAAGAGCCTTGTGACTTGGAGCAGACACACACAGCGTCACGCGGCTGCCCCGGCTGGCCCA
TTCCCATCCCAGCGCCAGGGCTTGCTCCTTCCCTCAAAAGAAGGTGCTTTGTTAGATAGCAAAGATCTGCCTGCAGCTTCTTCAAGGGCTCTCTAAGGCT
CTCTGCCTCATCTGGAATCACGATGATAACCCTGAAAACCCCAAACAAGGAGGTTTGAAGTTATGATAAATTAACCGTCTACAGTTTACTCTCTTTGTAA
CCACTGCATGCCCCAGCGGGCCTGGTAGTCAGCCTTTCATCAGCCCTGTGTGTGCTGCAGCTGAAGCCCCGCCACCTGCCAGCCAGGCAGCCTAGGATGA
GCCTCCGTACCTCCATGAGCCTCCGTTTTCTTATCTGTTCAATGGACACGTTCTCCCCTCCCTTACGTAGAAGTTAGGCATGTGCCACAACACAGGACAG
TAGGCTCTTCGTGACTGAAGAACCACTGTTAATCATGGTTCCTTTAGGAGGAGCAGAGAGTTCACATACTCGTTTCATTATCAAATACTTTAAAATATGT
ATTATCAATTAGTATTACTATTTGATAAGGTTTCATTCTGTGGCCGCCATCTCGTGAAGGTGTTCTTGCATAGGGCCACGTTTGAGGGCGTGGGGAGATG
CACGCTGGGCCTTCTGGAGCCAGGTGCACAGGTGACACGGACAAGGCCTTGCCTTACCAAGCAGCCTCTGCTGAGTGAGAGTAGTCTAGGTGCCAATAAT
ACAGGTGTTTAAGTATTCATCTAAAATTCATCCTATACAGATTTTCCTTTTGCACACTTACCTGTTTGATAAAAACTCACTAGGTAACTTTCCCTCTACT
GAATAGCTCTTTCTGTTGAGCTGTACGTATGTGCAGTGGGCGTTTCCACACCGCCACATCGTGAGACACTGCTTTCCAGAGCCTCCGTTTGGTTGGAAGT
CTCTTTCCATGGAAGTGGGCTGCATTGTCTGCACGCATGCATTTGTACAGTACCCATGTGAGACTAAAGTCGCCTACGTTTGAATGCCAGTTTTTTATTC
ACAAAGCAATTTCTATAATATTAACACACGTGGGTGTCCATTAAAGACCAGTATGCTCCCTGACCTCGTAAATCTTGAACCCTGAACATAGAAGATAAGA
AACAAGCAAGCGGATGCCCCAGGTGTCAGCCTGCTGAGGGACATGGAAGGAGAGCTGTAGGGAGAGCCCAGGGCTGAAATTGTGCAGGTCGTTTAAGGAT
TGATAGAGTTGATCAAGGAAAGCTTCCCAAAGAAAATCAAACTTGAGAAATGCTTAAAGAACCAGATGGATTTTTTTGTRCAAAACAGCAGGAGGAAGTT
ATTATAAGCATTGGGGCACTTCGGACAAAGACCCAGAGAGGAGGAAAAGGGAAGATGGAATAGCCACGAGCCGCAGTGAAGTGAAAGGTGATAGTTGGGG
TGCAGAAAAATGAGGAGAGACCAGAAGAGATGAGTGTTGAGARCCCAGCACTGCCAAATTAGCATCTGATTTTCAGACTTGGGAGCTGACATTTTACAGA
GCAAAGATCCAGAAAGACAGCAGAATGGTGCACAGAAGTCTGATTCCTACAGCTTTATGGGGGTCTTGGTTGATTCCTGTATTTTCTAAGGATTTTTTTT
TTTTTTTTGAGATGGAGTCTTGCTCTATTGGCAGGCTGGAGTGCAGTGGCGCGACCCCGGCTCACTGCAACCTCCGCCTCCCGGACTCAAGCAGTTCTCC
TGCCTCAGGCTCCCGAGTAGCTGGGACTGCAGGCACGCGCCACCGTGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCGG
GATGGTCTCAATCTCTTGACCTCATGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCTTTCTAAGGATTA
ATAGTATGTCATACCGGAAATATTTTGAAAAGGGAGACAATAATCGTAATAATAAGAGCTACAGTTTATTGAGGGCTTTATGTAGATAATCTCATTTGAT
CCTCACAGAGTAGATCCTGTTGTTACCTGCCTTCTACAGGGGCTGCCTTTGGTACAGAAGGATTAAATGTCACTTGCTCAAAGTCACATCCTGTGAGGGG
CCAGGATTCAAACTCAGGTGGCCCGATTCAGCTCTCCATCACTGCATGTCAAGGTGTGCCTCCAGGAGCAGCAGCAGCAGCAGCCCCTGGGAACTGCTTA
GAAATGTTGATCTCAGGCCCTGTCTCAGTCCCACTGAATCCAGTCCTCAGGGGATGGGACCAGGCAACCTGTGTATAGCAAGCCCTCTGGGATCACATGG
CATGCTGAAGCTTGGGAACCACTGCTGTAAGTCCTCACTTCCCAAAGCCTGGTCCACGGACCAAGTGGCATTTGACAGCTCCGGGGATTTGGCTGGTGAT
GCAGAATTCAGGCTCCACCCAGGCCTGCTGGACGCATCCTTGTCTGTCTGCGCCGAGGGTACCATCCCGGCGTCCCTCTGGTTCGCGTCATTCCCCCCTT
TAGTGTGCTGCTTCGTCAAGTGGCCAGACCCCAGCAATGTTTAGTGAACACCAGGGCACAGGATCTGATGGACAACTTCCAGAAAACGTGTTTATGAATG
GATTTCAAGACTCAGCCTTGGCATAAACATTCCCTGCAGGGCTTAGAAAATAATCACAGAAGAAACAAACATGATTAAGAGCTTTCTGTCATGCTCTTTC
TTCTTAAGTTGCCGGTGATATAAGTCCCCCCTGCCCCCACTTCCTTTTCGAATGTATCTGCCCCCATCCCTAGTCTTTGGTTTGGATTTCAGAGTCGCTT
ACTCTGTGCTGGCAGCAGGAATGAATGGGGAGAGCCTAAGCAGCTTTGGAATACAGACGCCCGTGTTGGCAAGTGTGCCTTCCCATTGTTGTGCACTCTT
ACTCTAAAACATAATAATCACGGCAACATTGGGATTCACTGTTTCTCCGCCCCCCGTCCACCCTAAATTAAGACTTTGGCTCTGGAGAACTTTTCAAAGT
CTCCTCTCTAGACACACCGGTCCCCCCGGGGTTTCTTCCTTTAAAGCAGCTGTGAGAAACTCCTAATTAGATAGATTCCTTTGTAGGGGCAACCTACAAA
ACAGGAGGTGCTGCTTAAATTAAGGGAAGAAGAAAAGAATCCATTTCGTGAAATGGAATGCCCACTGCTTTATGACTATTACTGTTGTAAGGTTTCACAT
TTAAGTACCTGAGGTTTAAAATTAAATGTCTAATATAATTTGGCGTTGCTAACATGAGACCTGCATCTGCCCTTAGAGAAAATGCAGACAGCTCGGTTGA
GGGTTTCAAATTGCCGTCTGCCGGCTTGCAAGCCGCACGGAGGATTGGATCCCTCCTCTGCTGAGTACCACATGCTGCTGAGCGTAATTTTTTAAATGCA
GAAACATATTCATCTTGAGCCTCTGCATTGAAAAAGGCCGTTCCAGGAGTACATGAAAAATTAATTTTTTTACATTTTTTCCCACTCTTCTAAGTGTTTG
ACAGAAGTAATTTTTGCAGCAAGAGAGAATAAAAACTGGTGGCTGTAAATTCCTGTCCTGCAACCTCTTGTGTAGATTCTTTATGGACCCAGAATTGATC
TACATGTCAGATCCTGTTGTGGTTTAAACTGTTTATCACTGTAATGGCAGTAGTGAGCCCKTGACCACCAACTTATAATCCTGGGTGAAAGAAATTGGTG
TTTGCAGTCAATGAAGAGGCAGCTTTGCTTTATTGATAGATTCAGAACAATTATCTCTGCAACAACTATTGGCTGAGGGTTCTCTTGAATCTTATTGGAA
GCCTGTAATTTTTTTTGATTAATCATTTCCTCCATAGGTAATTTCCTCTAGAAGCGTTAGCCACGAGTCAGCATCACTGTGGGTAGCAGGGGCCCTGGGG
GGTCGTATGTGGCATACTTGGCCGTCCTGTCTTACTTCAAGACAAGATGCACGTTGAGATGCGTCACACCTGTCCTCAGGGCCAGAGTGCTCACCTGCCT
GCCTGCCTCCTGAGTACCTGGGTGAGCCTGGCCCGGCCCTCCCCGCTGGCTCCTGCCTGGGCCAGCCTCGTCGGGTGGTCTCAGCTAATGCTGTTGCCAT
GGCAGCCTCGCTCCCCCAGCCCTGGACTGTCAGGTTCTTCTGATAGCTCCACCCCATCCCCGATTGCTTCAGTCCAACAGTTTATCTTCTGCCACGCTGA
CTGGCCATCACTGTTAATACTGCATTTCTTCACGTGACTCTTCCATGTGGCTCTTGAGCCTCACTTCCCTCGGCCTCCCCCAGGCCACCACGCAGCCTCG
TCACCATCGAGCACAAACACCATGTCCATCTTCCACATGGAAGGAGTGTATCACRTGTGTGTGTGTACGGGTGTATGCTCTGGTCCCTGTTTCCTTCTGG
CCACGTAATCATTATATCTTTCCAGTAGACTCTGTGGTTATAAAGCAGCCGATCCTCAATGGAAAGCATTTGAGTTTTTGCCAGCTTTTAAATGTCTTTT
CTCATTATAAAAATGTTTTGCACGTCGATTTTGATGATGGGGGTTCGAAACATGAGTTTCAGCTTCGGAAGCTGTCTGTCCCACACTTACTTTCGGAGCC
AATGCATTTGAACCACACTTTCCAGCAAGCATGTCCACACCATTCATCAATTTTAATCATTATAGTTGGAGCATTTTTTTTCTCTTCTTGGATATTATAC
TGACAATTTTAGTGTATGACCAGCAGGCGGCGGTAATGTGATACTGCCGGTCTCTGACCTGGAAGCTTCTTTGATGGGAGGGTATCAGTGAAGCGTGGTG
GGGAGGAAATACATGTGTTGACAGCCTCCGCTGTTGTGACCTTCATGCCTAACACTCGTTTCCCTGGGGATCATCATCTCTGATAACTGAGCTTCCAAAA
GGCTGAGAAACCAAGACCATACTTATCATTATTAGCCAAAATTCAAACCCAGATCTTTCTGATTTCAAAGCTTGTAATCATTCCCCTCTGCTTTTTTTTT
TTTAAGGAGAAACGCATGCTTAGTACTAAAACATTGTATCATAAAAATTGTTTGTCTTTTGATAGCGCTTGCTTTTCAAGGAAATATGTTCTAAGATGGA
TAGACATTTTGTCTTCTCTCACTGATGCTGAAGTTTCCTTTATCAATTCTTCCCAAATCTTGGCTGGCATTCAAAAGCGTTCCCTGGGGGTTGTCATCAA
CCTTCAGCTTAGCTCAGTGTTAAAGGCCCCTGGGCTCTCATCTCTCAAAGCTGGGCACTCCCTGCCTCACCGCCGGGAGGGCTGCTCGGCTCGCCAGGCT
GGCCGGCCTAATTAAAAGGCTGACCCCGCTCCCTTCTGTGCTCGGAGCCTGCTTTCCTGTCTCTGCATGTGGCCGAGGAGCAGGCAGAAGCGTCCTGGGG
TAACTGGACACAGGGGGTGAAAGGTGGATTTTTTTTCCTCCCAATCAGAATGTTKTAACTTTGTACTTTGTCTCCTTAGTTCCTTCCTATCAGCTATTTT
CAGCAGTAGCTGCTGACCAGGGGAAACAGAGGACAGTGAAATGCTGCCCCATGATCAAAACCGAACAGGGGCAGCACATTTCATTCCCGAAGACCAGAAA
TCTTCATGTTGTTGCAAGGCAAAAAAAATCTAGAAATGCTTGTAAACAGGGAGTAGAGAAGGATATTGTTGCTAGTTGCTGTAGTGCCCGGACCAGACCT
CTTGGCCCTCTGGCCCTCGGCGTGTCTTCACCTATTCCAGGGGCTCGCAGCCAGGGGTGATTTTGTCTCCTTGGGACAGTTCGTGATGTCCGGAGGCATT
TTTGGTTGTCACATAGGGGAGGGTGATGCTACTGGAAGCTAGTGGGTAGAAGCCACCAGGGTGCTGCTGAGTGTGCCACGGGGCAGAGACCAGCCCCCCA
CAGCCAAGAGTTATTCAGCCCAAAACACCAGCGGTGCCACGGTCAGGAAGCCCCGATCTGGACAATGAAAGTTTCGCTTCCTTGGCCCCTTCCAGCTGCG
GTTGCTKCRTTGCACAGTAATTCAGTAAGAATCCTTCCCAAAGAAAGGAAAGCCRGTTTCTGGTTTGCAAGAGGGTCACTGCAGCCAACCCAGAGCAGTG
CCTGATCCTCAGGGTGCTTTCCACACAGCTTCTCAGAGCATCCGCCTGGCGGCACGGCCGGTTCAGCGGCAGTCCTGCTGCCACCAGCGTAGATGTGATG
TAACATTCATGGAACTCACTGCTTGCCAGGCACAGGCCCCCAGGAGATGAGTGCCAGAGCCTTCCCTGCTTCAGATGAGGAGATGAGTGCCAGAGCCTTA
CCCGCTTCAGATGAGGAAGCAGGGGCAGAAGGCAGTTGGGCCTATCGCAGCAGCAGGTCGGTGGTCAAGGCTAGATTCAAACAGCCTGTGTCATAATTGT
CACTAAGCTGTTCTCCTGCCCACCCGACCGCCTCCAAGAACGCTGGGTGCGCAGCGTGTCCCCCTGCTGCGCGTATGAAGACAGGGAGGGTGAGGCCATC
AGATGTGTGGATGCCACAAGCTGAGACATAATCTACATTGAAATCTCCAGATTTAGAGACTACAAAATGGGTTGAAACTAACAAATTGAAACAGAGATAA
AATCTTGAATTCAGGCTCAACAAACCAACAGTACAGATAATGGAACAGGAGTACCGGACCTGGTGGGGAAGGCTTGGGTGTGGTTTGTCTGCAGAAACGC
TGTCAAGACTTACATTCTGCACTAAGAGGAYGAGAGAGGTTCTGAATGTCTCACTGGGCTCCGAGGATCCTTTCGGGGGCCACATTTTGAGAAAGACATC
GGCACACTGGGAAGCACATGAAGCGGAGGGCCGAGATGGGGAGAGGGGCCTGAAACCCACAACACCTAGCGTGGCTGAAAACCTGGGAGGGCCGGAGGAC
CCTCTCAGGAAGGCGTCGTCCAATGGCTGCCCATTATATTCTTGGGGGCGATTTTTAAAAATACTTGTTCCTGGGGCCAGCCGCTAGAGATCTAGTCCAT
TTGGCCTGGGATGGAACCCAAGCAGTGGAATGTCCCCCAGGGGKTTCAGATGCGCAGCCAGGGTTGAGAAGCTCTTTCAGAGGGACCTGAATGATGTGTG
TGAATGGTGGTTATAGGACAAAATCTGATCCTGATTCTGTATAAACCCAGAGAATTGAACTGGGAGCAATGGGTAGGATTTGCAGGAAAGACAACTTTGA
CACCAAGTAGTATGATGCAGTGAGACAGGTCCCAGCGACTGTTTCCAGCCTTCTCCTCTGGCATCTCTGCCTTCCTCTCCCTTGCCTGAAGGCCCTCTGC
ATCCTTTCCCGATGAAACTGGGGAACGTSCCCACTTCTCTCCCATGCCAAAACCCATGCCTCTCCAGCCTCTGGAGCTTCCATGTATGATCTGTTCCTGC
TTGGACATGGGGTAGGGCATCCCTTCCACCTCTGAACTCATCACCTCTCATCTTCCAAGGGACTCTGCTTCCGCGGACACCCTCTCTCCTGTCCCAGCGG
TTTCTCCCAGGTATTGGATCACTCCCTTCAGCTTACATACCTGCTCGGCCATCGCTCAGCCCAACACCATGGCCCTCTGCAGTTTCCACCTCTCCTTCTA
TTCTCCTTCTCACCRCACGTTCCAGGACACTCGTCTGTCCTCAGCTACCACCCACATTCTCTTCAACCCTCTCCCATGTGTCATCAGCCCAGCACCCTCC
AACACTGCTCTCATCCACTTCAGTCCCAGGAGCACCCCTTGGTTCCCGTGGTAATCTTCATAGTGGGAGACCTGCTGACTCCACATCTTGCTTGAAACCC
TCTCTCCTCTGGGCTTCTCTGAAGACACACACAGGTTTTTCCTGCTGCTCTCTGGCTGCCCCCTGTGTCATCCTCCTTTACCAGCAGACCTCAGACGATA
SATGTGGCCCAGAACTCAGCTCTCTCCTGTCCTCCCTGCACTCCTCTTGAAATAGGCCTGACCATTCCTCTAGACTCAGAAGATACCCAAATTCACATCC
CCAGCCATGACTCCTCTCTCCTCATTGAACGCAGGTAAGCAGCTACCTGCTCGGAGGGGAGTTGGGCGGCTCATGCTCAGCATATTTGAAGAACTCCAGC
TTTCATCCAGAGCGTCTGTTTCTCACCCACCTTTTCACCATCTATCCTCCCAGTAGTTCAAAACACACCCAAAGCATCACTTGCACACCCTCCCTCGGCC
TCACCTCACAGTCTGTTCATTTGCTTGGTTCCCTCCACTTGACCTCCAAGAATACCAGCTGGGTTTGTCCTGTACCTCCACCTCCTCTGTGTTCCCCTGG
TCCTTCTGCTGCGTCGGTSCTAACTCATCTCTGGCCTGTCATTCTTACTTCCCAAAAGTCCTCTCTCTCTGCAGCCAAATTCACCTTTTAAAAAAACAAA
ACATGAGCCAGATTGCCACTCCCCACACCCACTCCAGTGGCTTCCCACTGCCAGTGGAATAGATTCCCAATTCTTGATTTCTGGCTGACAAGGCCCCAGC
TGGTCTGACCCCTGTTTTTTGACCGCCTCTCCATGGCTCCAGCCGGCGGCTTTGCTGAGATCTGGGATGAGTCATCCACCAGATAGTTCAGGCTTCCGCC
CAGACGTCAGCTCCAGCGTGTGTACATCACTGCAGACAGCCACTCTCCATCCCATTCTTTGCGGTTACCCAGACTTCTTGTTTTTCTCAGCATGTATTGT
GGCCTGACTTACTCTGGACACATTCTTGTTCGACTCCTACCCAGTCACAAGTGGTCATCCTGCCCCTGGCATCTTGAATTGTTTTCCTAGCATCTGTCAC
TATCTGAAATGATCCTGTTTGCTTATGTGTCTTCTGCAGTAATTCTAACTCCACCACAGAGAGGGGCTTCAGGGTCTTGTCTGTCTCCACTTTCTTGACT
ACCTGGAGCTGTGTCCATCCCATCATCACAATGTCATTGCACGGTAATATGCTGAGTTAGTGAATGAGCACACTTGGATAGCATCCCCAAATAGGAATAG
TCCAAGTGGTGGCAGGGGTGGGGTGGCTTGGTGTATTTCGTTMGATTTGCAAAATGAGCTCCAAGGATTCTGCCAGTTTTATATGATATAATCTTCTGAA
TTTTTAAGTATCTTAATGCTTTGCATATTGCTTTAGAAACTGGTTCTTAACAGAGAACCAGTGCTGGTGCCCCTTAAGACAGAGCATGTTGGTCACAGTG
TATACAGTTTATGGCAGAAAACACTGGCAGCAGTCTCAGCAACAGGTTCTTAAATTAGTATAAGTAGTTAGAGTTGAAACTGGTTTTCCTCCCTCGGATC
ATCTTAGCCTGTTCCTGAATCATAAGTAAAGTCAGTGGTGTAAATTAATAGGGATTATGTAGATTAGATACATTTCACAACAATTTAATTTCTTATGTAA
CTTCATTTAGTCCACAAGTATTTATTGACCACTTACTGTGGCCACCCACTGCCCTGGCCCTGGGAGTGGAGCAGGAATCCAAAYGGAGTTCCCAGGTCTC
TCTAGGTACAAAAGAAGAATCGACGGATAATCACTAAGGAAACAAATTGAAATGTGCTTTGTCAGGTGGTGAAAAGTAAAATGAGGGTGAGCAGGTGCAA
GGCATACGTTCGCATTCTGAAGTCAAGTCGTGCATGCATGAGTGTGCGAATTMCTAAGCATGTTTTCAACTGAGACCATCACAGCAATGTATCTGTTCAT
CATTCATTCCATTCACTTGACAAATATATAACTAGCGCTTTATCGTATGCAGTGGTGTCCCAGGGTACATTGGGAAGTGACCCCAGAGAAGATGGRCACA
TCAGTTGATCCAATCCAATCAAATGCTGCCAAGAACTCAGTAGGCTAAAGGGAGTGTGGGATCCATGCGAAGGGAAGGGTGTGTGCGGCTATGGAGCTTT
GTTGTTGGGGGGGTAAGAAGGGCGGACACTGAAGGCGAAGCACAGAGGAAGGAAGGAGCGTTCCAGCCCGGTATGGAAGAGTGAGGAAAAGCATTCTAAA
AAGGTTTGCCCGTGATCCTGAGCCAGCAGAATGCCCTGATGGATGTGGCCCAGAACTCAGCTCTCTCCCATCCTCCCTGCACTCCTCTTGAAATAGGCCT
GAGCATTCCTCTAGACTCAAGATACCCAAGCTCATATCCCCAGCCATGACTGCTCTCATCATTTCCTAGGGAAGAGAGGAATGTGATTTGAAAAGATCCC
TCTTGAGTCAGCCTGGGTTATCATCTGCTGTGTAGACAGCTCATGCCAGGCTGCGTTAATCGAGAGCAGAGTGGGCTCACTGCAGACAACCCGCGATTCC
CCTGGTTCCAGGAGTCCAGTAGCCACGGGTAGAGCCGTCACTGAAATTTGCATCTCGTTCTTTGGTTCCTTTCTCATTTGCTTGGCCCAGTTTTTAATCA
GGTCACTTCTCATGGGCCTCAAGGCAACAATGTGTCATTAACTTACATTTTAGGCTGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCC
GAGACGGGCGGATCACCTGAGGTTGGGAGTTTGAGATCAGCCTGACCAACATGGAGATACCCCGTCTCTGCTAAAAATACAAAAGTAGCCAGGCATGGTG
GAACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCACAGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAG
CCTGGGTAACAAGAGCGAAACTCTGTCTAAAAAAAAAAAAAACTTACATTTTAAAAATTTCCTAGCATACAGAAGTCTAAAATTTTGTAAAATTATTTAG
CATTTTATTAATTTTTTAGTCCCCATGTTTGCAGCTGCAAATTTTCAATTTCAGGGGGACTTTTTTAAAGATAGAAAGCATCTTGACTATCCTAGCTTCA
AATTAGGAATAGGTAGTACAGTATAAAAAGATTTGTCAATTTGAGACCAACCTGGGCAACATGGAGAGACCCTATCTCTACTAAAAAAAAAWTTCATTTA
ATTAGCTGGGCCTAGTGGTGTGCGTCTATAGTCCCAGCTACCCAAGAGGCACATATATTTGAAGATTTGTCAAATATATGTGCTGCTTCTCCAACTGGAA
ATAAAACTTTGTGATGTTTTGTGTTCTCAACATTAGAACGTCTGATTTTATAATGTACATTTTGAAGCAATACAGGACTTTTTTTCCACATGACTTTATA
CAACTCTTGGGACAGGAAAATATTCACTTTGTATTTCTGTGGTTTGCTCAGTTCCACAACCTAGGAACCCAACAGGTTAAGAACCGTCAATCATACTGCC
TCCCTGGTGACTTTGTCAACTGTTAGAATAACATTGGTCAAATCTTTTTCATTTCCTCCCTCACTTCCTTTTGTAGATTTTATAAACACATGCAAAAAGG
CAAAGACCTAAAGGACTTAATTTTTTTTTTTTTTTTTTTTTTTTGACACAGAGTTTCACTCGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCA
CTCTGAGGTTCAAGTAATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGATTACAGCCGCATGCCACTATGCCTGGCTAATTTTTGTATTTTTAGTAGAGA
CGGGGTTTCGCCATGTTGGCCAGGCTGGTCCCGAACTCCTGACCTMAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGTCA
CCATGCCTGGCCACTTAAAATTTTGGGGGGTATCGAGAAGAAAGAAAGGCATGGAAGAAATGAGTGTTGGAGAAGAGTGGTGTTTAAAATGAACAAGTTG
TTACAAGATGGTTATAACATGGCTAGGTCGAGAGACAGCCAGAGATGGGTGACAGAGGGTGGGGTGTGGCTGAGCAAGCCCACTGTCCAGCTTCTCCGTT
AGGATTTGTATGTTACTTTGGTTTTGCATTCTTAAACTTCTTTCAATGAATATATCATGTTACATCTTGGCTTTATTATGTGACAGATAAGGTTATTAAC
AGAAAGTGATATTAATATTAATTATACAATGATACTAAAAATTTTATATCACACAGAAGCAGATGGTTATTTTTAATGACTTAAAATTTTACTCTTTTAT
ATGAGAAGAAACATTTTAAACATATTTAGTTATAAATGCTATTTTAATTGCTACATTATTTCTGCAGCGGGATTTTTAAAATCTTACTATAGTTGCAGGG
AAATATTTCTATGTATATTTCAGATCCTCTTAAATTATATACTTATTTACAGGAAACAATTATAATTACATTGAGAAAACAGAATGGGGGGCTTCAAATT
ATCGATAAATACATCACACTATTCTCACACATGATCATTCCATCTGGTCATAGTTCAAGAATTCAGCTCTAGTAGGAGGCTTACTCTCTGAGCATTCATC
AAGTTAACAACCTTACCAGTTATCTTTTTAGGTACTCTATTTTTGTAATGTTTGTAGATAAATAGTCCTTTGCTGGATTTTTAAATCATAACTGGGTAAG
CATACGACTTAAGAATTATTTCCTATGCAAAATAGAATCAGAAAATTCCATCTACTTACAAATTCTTTATGTACTTCCACATTTTAAGCTTTCCAAGTTG
GGAAACTCAACTTCAAACCAGCTGTTGACCCATCCTTTGTTCTATATCAAGCTTTGCATTAATGCAGAAACTGAAATAAGTATCTCCACTCCCCAAAGTG
ATACATCTGAAGTCATCTGGCTGACTGTGTGTCCAGAGGCACCACGTCAGTGTCTCTTTGCCAGAGCCTTTATGGGGGTGGTACGAGGGGAACTGGAGTC
TGGGGGCACGTCAGGCCTTCATCAATCAGAAGGCAGTGGCAGCGACAGCAAGACAGGCGGGTCAGGCCCCCAGATGAGATTTGTGAGGCTGCGGCATCGA
TTCTGACCACAYATTCTGGAAAAATTATCATCCTACACCACCTTCTGAAGCAGTCAAGGTTTGGGTTATTACCTGGACCAGCACCCGGCTTTTACATAGG
ACCTTCTCCTGGGGGACGGTGGTATCGTTGTAAACCAAAAGGTTATTGATCAAATCTTGCTAATCCAAGTTCCTGACAATTAATTTTTTAAAAAAGAAAT
TATTTGTCCTTTTAAAGAACTTTTCTCTTTTCCTAAAATTATGTGAAGCTTTTCATTTTTAAAATTCTTTTTTGTTTTTTTGAGACGGAGTCTCGCTCTT
TTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCAATGCAAGCTCCGTCTCCCAGGTTCCCGCCATTCTCCTGCCTCAGCCTCCTGAGTATCTGGGG
CTACAGGTGCCCGCCACCGCGCCCGGCTAATTTTTTGTATTTTTAGTAGAGTTGGGGGGGGGTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACC
TCGTGATCCACCCACCTTGGCCTCCCAATAAAATTATTTCATTACAGAAGCATGGTTAACGCGTGCGCTAGCAGAAAAGTCCCACCATTAAATGGAGGCC
ACAGTGCATGGCTGGAGAACAGCAGGATGTTGGTATCTGTTGCACATGTTTCAGCCTGTTTCTACAAATCTGCCTTTTTCTTCTAACATATGGGTTAACT
RCCATTTCTCTTTGCTAATTTTACAATAATATCTTTGCATTTTCCCCTAATAAAAAAATTAAATTTTAGAAACATTTAAAATGCAGTTAAGCTTTTTGGT
TTCTAAAAAACTCAGTCCTACACAAAGCTCTTAGATTCGGGAGTGGGTACCTGTATGAATCCGTTCTCACACTGCTATAAATAAACACCTGAGACTGGGT
AATTTATAAAGAAAAGAGGTTTTGTTGTCTCACTGTTCCACAAGCTGTACAGGAAATGTGATGCTGGCRTCTGCTTGGCTTCCGGGGGGGTGCCTCGGGA
AACTTACCATCATGGCAGAAGGCAGAGGGGGAGCCGGCACTTCACATGGCTGGCGGTGGTGGTGGGGGCGATATGGGGGGACTTGCCGCACACTTTTAAG
TGACCAGATCTCATGAGACCAACACCAAGAGGGAGCTCTGCCCCCATGATCCAGTCACCTCCCACCAAGCCCCACCGCCAGCATTGGGGATGACAATTCA
ACATGAGACCTGGGTGGAGACACAGATCCAGGCGGAGACACAGATCCAAATTATGCATTTTTCCCCTAATTAAAAAAAAAAATACATTGTAGAAACATTT
AAAATGCAGATAAGCTCTTTGGTTTCTAAAAAACTCAGTCCTACACAAAGCTGTTAATTTTGGGGGTGTATACCCTTCCAGTTTGTGTGTGTGTGGTTAT
GTGTTTATTCCCCCAAAGTGGATTGGATCATAATAGGCTTTTTTTCCTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGTTCTGTCAGCCACGCTGGGG
TGCAGTGGTGTGATCTCAGCTCACTGCAGCCTCTTCCTCCCAGGTTCAAGCAATACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGAGCT
GGGGATTCCAGGCTTGAGCCACTGTGCCCGGCCAGGCCTTTTCCACTTAAACATRTAATATGTCCACTAAAATTTTCCATGTCTTAGAATATTTTCATGT
ACTTAACAGCATTTAAAAGAAAATAAGTATAAATAGATAAAATTTCGACACTCTCAGTGTGGAAACTAGAAACAATCTCAGTTCAGAAACTAGAAACAAT
CTCTGTGTCCAGAAGTAGGGGACTGGGGGCCCCTCCAAGGAGAGGCTGGGCAGCCATTCAAGTGCTGCTTTCTATGTAGTAGCTTGGAAAGCTGGCCATT
GAAATCGCCAGGCGTCATTGTTCTAAGAACCAGCAGGGAGGCAGCACTGTGTGGTCCCGCCCCTCTGCCCAGCCAGGCATATCCCTGCCACCCCAGTGCC
TTTTCACCTGCTGTGCCTGGGAACCCCTCCCCACCCTTGTGTCCACCAAATACCACCTTCACCGTGAGGCCTTTCTGACCCCAGTTTAAACGTGCCCATG
TCCTTCTTCCCCACCTTACTTCTGCGTGCCACCAGTCACCTTCTGACAGCCTTTGTCATCTACTCCTTCCTTTCCTTTTTTAAAAATTATATATAGATAT
TTTACTTAACTGGTTGAAATGTGATTCCTTTTTTCTGGTTTTTATTTTGATTTCAGTAGTTTTTTGGGGAACAAGTGGTTTTTGGTTACATGGATCAGTT
CTTTAGCGCTGATTTCTGAGGTTTTGGTGCACCCATCACCCGAGCAGTKTACACTGTACCCAACGTGTAGTCTTTTATCCCTCGCCACCGCCCACCCTTT
CACCTGAGTCCCAAAGTCCATTGTATCACTCTTAYGCCTTTGCATCCTCATAGCTTAGCTCCCACTTATGAGTCAGAGCATACCATGTTTGGTTTTCCAT
TCCTGAGTTACTTCACTTAGAATAATGGTCTCCAAATCTGCCCAGGTTGCTGTAAATGCCATTATTTTGTTCCTTTTTATGGCTGACTAGTATTCCATAA
TTATATATACATATATAACATTTTCTTCGTCCACTCGTTGATTGATGGGCATTTGGGCTGGTTCCGTATTTTTGCAATTGCAAATTATGCTGCTATAAAC
ATGCATGTGCAAGTGTCTTTTTGTATAATGACTTATTTTCCTCTGGGTAGATACCCAGTAGTGGGACTGCTGGATCAATGTTCTGATCTGTCATCTCCCC
CCGACCAGAATTTAAGCTTCCTAAAGGGAGGGACTGTCTTGTTTGCCTCTATTCTCAAAGCCTAGAACAGTGTCTCCATCAGTAGGGGCACAGTCAGCCT
CTGTTGAGTGAATTTTCCAGGTATCAGGTGGTAGAATGAGCAGTTGAACGTTACTGTTTGCCAGTGTCTAAGCCCTGGATTAAATGCTTTATAGGTACTA
TTTGTTAAGTCTACGCTGAAGTTCTCTGAGGTGGTACTATTATCCTCATTTTTAAATGATTAAACTGAGTCCTAAATAATTTGAATAACTTGTGCAAGAG
TGTGCAGGTGATGAGGATCCAGCGTGCAATGTACGGATCAAAGCCTGAGCGTTGGGCTAGGCCGGCTAGGCCAGGCTCCCTGTGTGCCCACCTGAATGCA
GGTGTCCGCATGAAGGCCGTGTGAATGAAGAGGGCAGGGGACTCATGGGAAGGTTTACCTGTTTTACCTGTTCCATTTCAGCTTTTAGTAATGAGGACAT
ACTCATCTAAAAGTGTGCCAGGTTTTCTGGGGTTTTTTTTGTTTGTTTGTTTGTTTTGTCTTAGAGACAGGGTCTCACTGTGTCAYCCAGGCTGGAGTGC
AGTGGCAYGATCTCAGCTCACTGCAGACTCTGCCTCCTGGGCTCAAGGGATCCTCCCACCTCAGCCTCCGGAGAACCTGGGACCACAGGCAYGCGCCACC
ATGCCCAGCTAATTTTTTGTATGTTTGGTAGAAATGGGGGTTTCACCATCGTGCCCTGGCTGGTCTTGAACTCCTGAGCTTCTGTGTTMCCCCCACCTCC
ATCTCCCAAAGTCTCCTGGCATTATAGACGTGAGCCACTGCGCCTGGCCTAAAAATGTTTTAAATAAAGTTATTTTAAAATACGAATTTCATAACGAGAA
CACAAATTGAGAGGTGAACATTTGAGAATTTCCATGGCCGCTTTGGCAGTAGGGATGTTTAGTTTGAAACTTTAATTTAAAAAGTGAGTGCAGTGAGTCT
GTCTTTGTAGCGCTAGAGATGGGTCCTCAGCTGGCCATGATAGAGAAGGRTGGGCAGAGGCGGGTGTTTGAGACTTGGAGGGGACAGTGGGGGCACAGCA
SCCAGGCAGAGGCATGTGTCAGGGCAGAGTGAGAATGCTAGGATCCTGGCCCCCATCCTCCCACTTGCCACACAGTCAAGAAAATGACAGGTGTACGGGA
AGACCCAATTCAATACAGAGCAGCCAGGTATCAAATCACAGTGCTGCTCTGCAGAGCCTATCCCGTGTCCAGTAAAGCAGACAGCATTCCAGTGTTATCT
GGAATTATTTACAAACGCAGTGTCCACAATACGATGAATCACAACTTACARTTTAGTTAGATTAAGCGAATTATAATTTTTAATAGTCAGTGAATATTTT
CACCTGCCTAGATGGGGAGCAAGGCTCTGAATCCTCTCTTGCCCCAGCCCCTTCTCCCTGGGTGAGGCAAGCATGGCATGAGCAGATTGGTTTTTGTAAA
GTGCCTGATGTGCAGTCAAATACAGGAAGGCCCCTTCTTTCATACATGCACGTTGAGYTCCCTAAACCCAAAATCCAAAATCCGAAGGGCTCCATTGAGC
ATTGCCTTTTAGCGTCATGTCGGCACTCAAAAATTTTCAGATTTCAGAACATTTCGGATTTTTGGATTAGGGATACTCAACCTGTAATTTCCATGATAAT
TTTTTTTCTGGAAACACCTATGAAGTTGAATTGGTAAGAAGTGCTGCCATACCACTTCAAAAGAGGGCGGTGGCCAGGGGGTGCTCTTCCCAAGGAGCTG
AAAAATACCATGAAATTCCTGATTATGCCACCTCTCCGCCTGTTCTTCTGCACCGTGTCTCCGGATCATCATCTTAGTCTCTTTCTTCACAACTGAACAG
ATCTGCTTAAATCCCTCGAACACCCAAGGCTGTGTAGATTTGCCGCTTTGGGCATGCCTAGCGAATTCCATTTTTGTGCTCTTTTGTGCCTCTTTTGCRT
AGTAAGCTTATGAGCGCCATGCTCTTTTTGCTAATATCAGTTAAAATCTTTCCATTTTCCACTTATCCTCGTAAAACAAAAGCAAAACATGAGTTGGTCC
AGCTGCATAAACAGCCTTGGGGCTGAGCTACCCCAGCCACGCCGCACCCCCGAGCACGTGGACCCTGTGCTCGTCTCTGATCACCACAGTACCAAAGGCC
AGAGTCACAGCTCATGCAGAATGGAAAGTTCTGCCAGGAAAAATAGACTCCCTCGCCTAGGCAAAAGTATCATGGATCTAGAACTAGAAAACTAACTGGA
ATTTCGTGGAAGAAACTGCACCTGTTTCTTCCTTTTCTGTAGCCAGCGCTGGGAAGTCTGGGAAGACACCAAAAATAGCAATGAAGCAGCTCCCTGGAGG
GTTGCTGGGAGATGCTTGGRCACAGAGAGTGAGGTGTTTGCTGGGAAAAGCCATTTGGGATGGGTGAAGGTCCATGCTGGAGTTGGAGAGCGCAGAAAAT
GGGGTGAGTGTRAAAGTCTAGCCTGGGTTACGGCCCCAGTGATCCTGGACAAATTTGGAGTAAGAAACTCCCGCCAGTCTCATGGCCAGAGTGCCCAGGG
AAAGTCTTCTCTCCCAGTGGTGACTCCGGGTTTCCCYAGCCCAGCACAAGGACTTGGGCTGGTGAGCTACAGAATTGCAAAGAAGAGCAGGAGCCAGCCA
GCCAGACCTGGCCATGGCTGTGCCATAGGATATCACAGGGTGTGTGGGCAGGAGCAAATGCCGGGAGTATATGCAAGAGAAAATTATGGCTGGTGGGAAC
CTGCAGGAGTTGCAGGAGGAGCAAAGGGATGTACTCCTGAGGTTTGGGGGCTGGCAGCGCTGGGAAGGGAGGGAGGGACCCTGATTCTGGATGAGAGGTG
GGTGGATAGTCACTGACGATTTTAACCTCACCCCAGGGGATGAAGGCTGCTGTAGGGAAGAATGACCAGAGCTTTCTCTGCTGAATAGCCAGCCAGCCAG
GATTCTGCTTCCTGCCGCATCCACCCCTGACCCTTCCAGCAGCCACAGGAGGTCAGGGTTTTGCTTAAAGAAAGAGAGGAAAATGTCAATTATTACATTT
TGGAGCACAATCTTACCTTTCAGTTTATTTTAAAGCAATTTTCCCTAAAGATCAACCACAGTATGTGACTGAACTGTATTAACGAAATTTTAGCTTGATA
AAGGAAATGCTTTAAACTCACAGCAAATGTAACTCGGGATCTCCAAGCACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGCTGGACAGCCCAAATT
CCAAGACACTAGTAAAAATAATATGATAAAACTTTGGTGGTGCAAACAAAGTCAGTTCTTTTTTACAAAAAGAATATTCTAATAGTATCTAATAGTAATG
GTGAATTACTCATAGTTTTCTGCTGGAAGTAAATTTAATTCTAGTTTTTAAATATCATTAATTCTGGAGGTTGCACTCTGAATGATTTCTTATTTTGTGG
AAAATACGAAATAAAGAAGACACATTTGGCCACTGTGATGGAGCTGCTTTGAAAGGCTGTGCTTTAGAAGACACTTCCGACTTTGATCTGCAGTTGCGGA
TGAAGATGCTCACGAGTGGAGGTGTTGGTGGAGATAGTTATCCCAAGTAGAATACTCGATCGATGTCCACAGCACATTCAAATTATCTTTCATGTTACAA
ACTTTTCCAGCAGTTACCAGCCCCAGGTACGATTATGGACAATGCTGTCAGTCATCGTGAGACAGAGTAGCATGGAACTGAAAAATGTGTAGCAGGTTTT
CAAACCTCTTACTTGCCCAAAGCTTAGTCAAAATTATKAGATTTCCTCTGAACTTTGTTCTTCTCGTTATTTTTGGAATGATTGCAGGGTTGGTTTAAGA
TTGCCATGACCACATATTAATAGTTGCACTGAGAAACAGGCGTAAACAGAGGTTGTCCCGGRAAAGGCAGAATGAATGTCAYCCACCCTGGGGAAGGTGG
CTCGTGTCACTACCCTTTGCTACAGCTGTTGTTTCTCACTGATTCATTCTCGGGAATCGCTTGTTGTCTGTTGGTACAAAATAAACATTTCCTCCTATCC
TGGATGACTGGAGCCTTGGGCTGCAGATGAGTTACACCACACCAGTCTCCCAGTCCCATCACACACAGGCAGTTTTTACACCAGCCAAACTTAGAGCTTC
ATAAATGCAGGAAACTGTCAGGTTCCTTTCAAGAGGAAGTCTTAGCTACAGATTTTTGGTGGAAACAAATGGTCCACCCTGATCTACTCATTTACCATCT
GGTTTGGGGAACCTTCTGTCATCCTACCTGCTRTGTATTTGTGACCTGATATATTATTTTTAAATACAGTTGTTTAATAGTGTAGTCAAAAATGAAAGGT
CATAAGCCTCATCTTCTCATTAACACCACACCAGATTGATTCCAGTATTCAGTGCACAGATAACCTCATGTTTCAGCTTCCTTATTGAYGTGAATGTGCT
GAGCAGAGCTCACCTGCCTCTTGTCAGAGACATGAATGGGCTGATAATATCTAGTTTTCAAGCAGAGGAAGTTAGAGGTGAACCGCAGCCTCAGAATCTA
CATAAAATATGCAGCACAGTCATTAGTCATTTGCAGTGGCCCAGCAAAATCCTAAAACAGCAGGAGAGAAAAATATTTTCTTTTCAGTGTCTGTCAAAGA
AGTTATAACATAGGTTTTAAAAAAAAAAATTTCATCAGCCAAATCCTTAAAATTTAAATATGCAGACTTTTTTCCTGTATTTTTATCAAAAATGTTTATA
CTGTTAAAAGGTTATCCAGGTACCAGATAGGTGCCCCAGGCAGCTCATGATGCAAATGTAGACAAATATATGTTGAGTGCCCCTGTGTCTGTAAGTCAGT
CTGTATCAGTATAGAATTAGGATTGGATTAGTGTGAAGTGTTTGCACTGTAAATTTTATCTGTGTTTTTTTTTAAAAAAAACTGGAAATATTCTGTTTYG
TTCCACTACTATTTCCCCAGGGCCTTAAACAGTGCCTCCCCCTGAGTGGCCCTGGGTAGTTGTTGATCATATCTGTAAATATCTGGAGTTTCCGCACACA
CAGACTTCGAGTGTGCCATCAAGATGGTGTCCCTCGGTGCTGAGCCTCACCATCCTGGTGGTCCTGAGCAGTTGCATCCCCTCCTTCAGCTCAGCCCCAG
GGCCTTCTGTTCAGGGTCACTGTGGATAAATTACCAGTGGAACCCAAGCCCTCAAAGCTGCCCTATGGGCTGGGCGGCTCCAAGAGCCAGAGTATTGCTC
TGTGACCTCCAGCCGGTTGACTGGGGCAATTGTTAGAGCCAGGTGTGGCGGAAGGACCCATACAGCCTCTTTCAAGTGGCTGGGCCTTCTGTACGAGGCA
CCTGACACCACGATGCTATCACCATCCTCGCTGACTGGGACATGCCACCCACCTCCAATAAAGGCTTGGGAGTCGCAAGGATCCCTTTTCATAATGAAAC
TTCCTGTCCACAGTTTAGGAGAGAGTCTTGAAATCACCTGGAACAAGAAGTTTTTCAAATATTTTAGGTGTTTACAAAATATTTCTATGAGGACAGATAA
GGGGGAATGAATTTTGCAAATTAGCATTTGATTTAACCCCCAAAAAAGTACCCCGATGGTTCCCACAGTTGCCTTCTAACATAACAAAAGGTTACATGTG
ATGGCCAAGGGAAAAGAAAACGTAATTTATCGTTATAAGATGTTAATTTTTTATTCTCCAAAATGTTCAGACTGCAAGGATATTTCATACAGATTTGTTA
GCTGGTATTTAAATAATATTCAACACTCCTAAGCCTTAAATAGGCAATTAGAAGTATRCTGCATTTTTTTCCCTCCAGCATTTCAAAGACATTACTCAAA
TTTTGTTTGTTCTTTGTGCTGCAGTGGTCTTACTTGGCAACTCCCTGTCTTGACAGACTTGATTACGGAGCACCTATTTTGTGCATGGTGCTTGCTGGCC
ACTGAGCATCTGTAAAGAAAATTTTTTCCACGCCTGTAATCTCAGTGCTTTGGGAGGCCAAAGCAGAAGGATCACTCAAGCTAGGAGTTTGAGACCAGCC
TGGGAGGTATAGTGAGACCCCATCTCTACAAAGAAATTATCAGGGCATGGTGGGTCATACCTGTGGTCCACGCTCCTTGGGAGGCTGAGGCAGGAGGATC
GCTGGAGCCCCAGGAGTTCAAGGCTGCAGTGAGCTTTGATCATGCCACTGCACTCCAGCCTGGTGAGGGTGAGACATTGTCTGAAAAAGAAAATGTACTT
TTAAAAATCAGGCCAGGCACAGTGGCTTATGCCTGTAATGCCAACATTTTGGGAGGCTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCC
TGACCAACATGGAGAAACCTTGTTTCTTCTATTCTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGG
CTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAAGTTGCGGTGAGCCGAGGTCACGCCATTGCACCCAGTGTGTGTGATAAGAGTGAAACTCTGCCT
CCAAAAAAAAAAAAAAAATCAGAGGGACACAGCCACATAAAGGAGACATCCACAGAAGCAATCATAGCACACTAAGGGCCATGAAAGGGGTGCAGTGTCC
AAGGGAGCTGGGAAGAGAGGCTGCCTCCTGTGCCACTGAAGGGCAGGCTTCAGCCCTCCAAGCGCTGCTCATAGGCACGGTGGTTTGTGCAGCTTTCATT
GTGGCAGGTCTAACTGTATTTCCCAACATCCTCTCTCATCGTTCTCTAACTTTCTCCTTACAATGCCTCATCTTTTGGCGGAAGTGACTTGCATCTCGTA
TGTTACGGTTCTGTGTTGAGGTCCTGCGTTTTAACTGTGTGAATGATAATTGTCTGGAAAAGCTGGGGGCCCTCGACAGCCATGTTTGCACGTTCTTTAG
GAACAAGGGGAGCTTCAGCACACCAGCAGCCTCCACACCCCGCCTCTACCTGCCAACCCCTTGTGAGTCCTTCAGGTTTGTCCACAGCCCTTGTCATCCC
TCCTCGTGGTCAATATGCACACATATATATGCTTATTAACTCTCTCCGTTTGCTGGAACCTAAGCTCTTTAGGGCAGGAGCTTTGTTTATTTACTGCTAT
TATCGCAGCTCCTAGGAGACAGCCTGACCAGGGCATGGGTCTCTCTGTCCCTCCATGTGTCTGGATGTTGTCTAGCCCCACACCAAGCACATGGTAGATG
GGCCACATGGCACTGCCTCCCCTTGGTTTGGCGTGGAGGGTAGAGTTGCCTTAGTCAGTCTTTAACTGGCTCTTGGCCATCTTAGTTGACCAAGATGGAG
AAGAGAGCAAGAGTAGGGTGAGGCCGGTTGAGGGTAGAGGTTCAGGGGTGCTATTTTGTTCATTTCCTGTGTGAAGAAATTGAGGCTAAAAGAAATGACA
TGCCCAGGGTCACGTGGCCAGGTGGCTAGGCTGGGGCTGGAGCTGCCTTCGAGTCTGTGCGGTTCCAGTTCATGGAGCACTGTGCAGTTTTCTCCCTGAC
CTCCATCTGCTTCCTTCTTGTACCCTGGGTGCGGGCCATCCTGAGGAGCGGGGACCTCTCCATCAGCACGTGGGCAGGGTGGGAGCTGAAGTGTAACAGG
CATGTCGGCTCCAGCGACACACAGCTTGGACATCCTTACACACCGTTGGTGGGAGCAGCACAGAACTTCGGCTCMGCAGCATGTATCCAGAGCCCCACGA
ATGCTCATGTTCATGAGCCTGTGTCTCAAAAGCTGCCCCAAAGTCATAATCCTAATTACTGAAAACACACAGAAGTACTGATTTATGGTCATAAATTTGG
AATCCTTCTAAGCAGCTGGGAACTGACTAAGCAAACCAAAGCATATTCTGCTCTTTATGATGTTAAAGAAGAAAAGAATCCTATTACTTATCTTCTATGA
CATATAACACTCAACCCATGGGATGATATCTCACAACCAAATTGCCTCTTTTTTAAGGCTGGGCTTCTGCATATCAGGTTTTCCCATAGCTGAGGACACC
AACACACTTTTTCTAACCACATAATGTCAGTAGATAAGAGCAGGGATGTACTTCGAAGCAGCGGCCTGAGTTTGGTGTATTGCTGTACCTTGAGCGGAGT
GAAGTGGCCAGGTGCATTCAGGACCCTGGACAAAGCCCCTCGCTGTACTGGCCTAAGGAGCCCACCTTCCCCACTCAGATAGGACACTTTCCTGTGCAGC
AGTGGGTCATTTGACTGCATGTGACTTTTCATAGAAACAGCTAAGTTTCTAAAGATGAGAAATGTATGTGATCAAAGAGGGCTCCTACATCTAATTACCT
TCCTGATTTAATTGAGTTTTCTGCAAGACGCATTCAGTCTCTCCCCAGCCTGCTCACCCTCACACGTGAAACAGAATCTCTTTTCAATTTAGCAGATCTG
AGCACCCAACTTGAGAAATGGTAGTGGCTGATTATGTAAAAAGGGAAGAGGCTGGGGAGAAGCGGGAATCTCTCAAAATGATTTCATTTCCACCTAACAG
CGCTGCGCATCGTGCCTTCCCATTTATCGGAGTTCACCGTATTAATTTAAACTTTGTGCTGCTTGCATTCAGCTAAAAATCAGCTAGAGAACAATTTGAT
TTTTGAGCCTTAACTATAAATTCCTGATATGCATTGCATTCCCAAGCATGCTCCCTTCTGTCACACTCCCCACGGCTTCCCCAGGCTTTCTGCCTCACTT
GGCCACTCTGTGTTCCTTCTGTCATCCCTTCAAACTGGATGATGCCATTCGGCACCAGCTGGCCCTCTGGCATGAAAAAAAAAAACTGTTGTAGTGGACA
AGAAAGGAGAGATACCAGGAAACGGATGGGGTGCAAAGAAAGTGACAGGAACCAAGAGGAGAGAGCAGAGGAGTATGACCTGGGAGGCGAGAACACAGAG
AAGCTTGAGAAGCCCAGGGCTGTCCCACCTGTGGTCAGGAGGAGGCTGGGGGACACCCCTTCAGGGTAGGGCCCCATGAGCAGCTCAAGACTGGGACCTC
CTGTGGGTCAGCTGTGTAGAGCCAGATCCTGGTAGGTGGCTGGAGGCCAGACAGCCACGTCCATTTGTTCATCCAGACTCAGCTCATGGCCCAAGTCTCA
TGATGGCCTTTAGCTTCAGTTTCTGGGGGAACCCAGCCACCCTCCTGTCCCCTCTGACCCTCTCCCCCGTCTCACTAGACCGTATAGTGGACGTTTTAAA
ATCTTCCTTATTTAATTGCTTTGTAGCATTTAATACAACGACCTCTCCCATTTTTTTTAAACAGCTTTATTCAGATAAAAATCACATAACACACTTCTCC
CATTTAACAGGTGCAATGCAGTAGTTTTTAGTATCTCACAGATACCTGCAACCATCACCACAGTCAATCTCAGAACATTTTCATCGTCTCAAAAARGAAA
CTCTGTTCTTGAATTGGTGGTCAGAATATGTACTTTTTTCTTTGTAAGGCTTTATAAACATATTTCAGTAATCAAGGTCCTCATCTCAATGGAAGATCAA
ATTTCCTAAATTCCTACTGACTAGGCTTAATTTAGAGAGATCTCTGGGCGTAATTGAAAATGGCCCAAGTAGGCAATTCTTCTCTCCTGTGTGTTCTCTT
GGTTCTGGCTCCTCCTATTGTATTCCTTTCCTCCCCGTTTTTATAACTCAGTCTAACACTGTGTTGTCTTTTCCTTTCGCCAACACCTGTCATCTTCCTG
GGCCCCCTGCCGTGTCCCCGCTGCCCCTCTGACATTGTGTACCTCTGTGTGAGCGGCAAAGGGAAAGGGACAATAATGCCAGTCTCTGAAACATCTTCAG
AGATGGGGAATTCAAGTCAACCTCCTCCCGCTGAAAGCTCCCGTCAAAAGGACTATGCGAAGGGGTGAGGTTTTGAACCTCACTTCACACTCACCTTTTA
ACAGAGACCCAGGATGTTGTGATTTCCTTGGATGGCAAAGGTGGCCTGTTCTTTATTTACCGGCCTACACATCTCTGTAAGCTTCAGAAAGAACAGAGCC
CTTATTAAAGATCCAAATTAGCTTTATATCGTTGGCCGTGTATCAAAGGAAGTGCGTTTTAATTTACRAGTTCCTACAACGACTTCATCTTGAGTTCACA
GGGGGCTTCAGCCCTCAACTGATTTCCTCTCCTGGCACCTACAAATGGGCCTGTCTTTGATAATTTTAAATTATTTTAATACCAAGCAAAAAAGGATTTT
TAGTCATGTACCTGACACTGCCAAATAGGTAAATTAAGGTGTGGGTGGAAGTCAGCAGGGGCAGGGGGCCGATACATACGTGCTTAGCATTTTCCTCTCT
CTTTTCTTTTGTCTKTCTTTTCCTTTTTTTCCATATAGATGCATGCTTCTTATGAACATGTTTTAAAGCATTTTGTATCTTTAATCAACATGTAGAAAAT
GAACAGCCAACCCTTCGGGAACCATTGCAGCTCTCCCAGAGTGAGTGTTGCCTGCTCCTAGCAAATTCGTGGCGTGCCCCTCATCAAACTACGTCCCCTG
AGGGAGAGTGGTTGGAGGTGTTTCTGGAGGGCCCTGTACTCCCTGAAATCCAGGCTCCAGGGTCAGGGAAGATCTGACCCGGGAGAGGATTAGGGCCCTG
CTAACGGCAGCAGTAACAGCGGGAGTCCTTGCAGCAGGGAGGCTTGCAGAGATCAAGTGCACCTACGCCCAGCACCTCCCCCAGCGGACACATTTAGAGA
CCCTCGGGAGCGCGAGGGAYATGAGAATCACAAGCACAGAGASTCATCTCTTGAATATCACCCGGGATATCAAAAACCTATCAGCACACCTGGCGAGGAC
CCTCACCAAGGCGAGCTCCCTGCAATGGTTCATCAAAAATTGCCCAGCTAATGATCGGCTGGGCAGATAATCGGAGGAGAGTTAATTGTAAGGTTCGATA
TGGCATCTTGTCAGCAGAGATAAGTTGTCACGTTTTCCACTTGAGCTGAAACTAAATGATTGTAAAATAAGTTATGAGTGTCCTTGGGCCTGTCTGCCGG
AATGATAGCTAAGAATACATTCCTGGCCCATCAGTCTCAAGCAGGCTGCTTGATATTTATGCGGAYGGAATGTTATTTTATTCCCCCTCTAGTCATGCTT
GTCAGCTCTCCGAGTGAAAAGTGAAACTGCTTCTTTGACTCATACTTCACGTTCCGAAGCTCGGAGAGACTGCAGATTGTGATCATTATTGCTCGTATTA
TATATTTTTTGGGGTGTGCGTTGAACATTGATGCCCGATTGGGAAGAACTAATGGCTGACATTGAATGTGCGGGATGGTGCCGGCCCATCCCGGCTCAGC
GCCGCGCAGCTCGGGACCCCAGTCCCTCCGTCAGAGCCGGTTTAGATGTGGAGTAATGAGGCRCTCGCTTTTTTAATTTGGCATGGCTTTTTTCTCTTAG
CCTCTCCCCTCCCATACTTAACRCCGTCGACAGTAGTCGTCTGTCCCGGTGCCCGGTAATTGATACAAAATAAAATGCATTCTTTGTATGCAGCCAGGAG
GAGCGGATGGCGCTCCGTGGGCCGGCTGGAGCTCATTTACAGTGTCTCAGGCGGGGCTTTCGGGGCCTCTTCAATTTGAGGAATACCTTGTCAGGCGAGG
GGAGTAGTTGGAATGGAAAAGCACAGCGTGGAAGCCTAGTGCGTTGTGATTGCTCATATTTTAAACCAGGGGAATGTTAAACAACTCCTTGAAAGCGAGC
TCTCGACACCTAGAAGCCAGGGGCATTCATATTCCCGTGGCCGAGCTCAGCGCCCAGTGGACGGGAACCCGGTCCTTCTTGCCATGAGAACACCCAGCCC
AGGAGAGGTCAGGGCCTGGCCTCCAGGTGGGTCCTCTCTGGTCGCTCCTCACTGGTCTTGAGTCCCAGGTGACACTTCCTGCCCGACTTCTGTCTCCTGC
CACGGCCCCCCTCAATTCACATCCTAATTCACCCCGCCATCACCTTCTCAGCACCATGRTGGCCACTCCCTCGTGTAGCCGGTTCCCCTGCTGCTGCAGC
CGGGCCCTCCCACAGGCAAGCATCTGGAACTAGCACCAGAGCTTCCTCCTGTCAAAGCTGTGCCACTTTCCCCACTGGCTGCCTGTCCGCTCCTGCCAAA
CCTGCTCCCACCCGCCCCAGCCCAGAGCATGTGGCTTCTCTAAGGGCTTGAGTGCCTCCCTTTTGGGCCACCGTAGACACCCCACCTCTGAGTGGTCAGG
CGCCACTGGTTGTCTCCTTCCAGCAAGAAAGTTGGAGTAAAATGTCCAGGGCCTGGGCTATGGAGTGTTGGAGCATTGCCGTGGCAGGAGAACGCAGTGG
GCAGAGACGCACCCTGCCCTGCCTGCAGCATGGCCTGGAAAGTCACTGCCTCAACTCCATGCCTCCAAATGGGGGCGGGGAGGGTGCTTGCGGACCCACC
CTGGAGGACCTCGGCCCTGTAAGCAGCAGATCAGAGCGTGGGCTGGTGCTGCTTCCAGGATCACAGGTGCTTTGCACACGTCAGTTACTCGAGTCATAGC
CTCCTGAGGACGACTGCAAGGAGCTCATGAATGCTGGCCTGGCTTTCTGTTTCCATTCTTGAGATTGCAGTTGTTTTTATCCCATGACAACCCTGTGTCC
TCTGAAAAGCTTGCCTCCTTCTCCCCGCAGTGGCCAGGACAAGGCTCACATTTTTCTGTTCTCTGTCTCCCCAGCCCTCTCCTGGGCTTTCTCCCGGTGC
AATGACACCTTCATCTCCCTGTTGGTCCCATTCTCTGGGGTGGCTGGAGGTGGCCTGGGTATGCTCGGTCCAGTGCAGGTGGGCGTGCGGACTCTTCCGT
ACCTCACTTCTCCCTGCACCTGTGGCCCCTGCTATCGGCGTGCTTACTGGAGATGCGATTCCCCTCTTCCTTCTTTGTTCAGGTAGCAGGGCCCAAGAAA
AATCGTCTTTTATGGAAGGCATCAAGCAAGAAATTTGATAGGCATTCTCTTCACTCTAGAAATCAGCCCCGTGGGACAGGGGTCTTGCCCTTTATTCTCT
GACAGCGGCCAGCTCCTAGGGCACGCTTGGTGCGTGGGGACACTCAACAGGGAGATGCTTTCTCTGTGTCAATAGACTTCACTCATGGACTCAGTCGTTC
GCCTAAAAATAGATTCCAAATGGTTGGAAACTCATAGGACAGTGGTTTGGCACAAAAGCGTGCTTGTGGCTGGTTTTAAAACTAAGTCGCGAAATTGATA
CACTGCTGTGTGATACACCAGAAAGTGGTCCGTTCCATCCACCCGCGCAAGTGTCTGTCACACAGAGGTTAGTTCTTTCATAAAACTTTATTACGTATCG
AACCCCATTACTCATCCTGAATCTGTTTCAGGAAGGATGTGTGCTGGTGAAGAGGATGAGCGAAGGCCTGCCTTCCTGAAGCTCGAGCGCTCATAGGGAA
GATGTTCCGTAAACAAAGAAACACGCATGGAGCATGTCATGTCCCCATGTGGAGAGAGCCACGGAGCACAGGGGGCCGGGAGGGGCTGGATGCGCCAGTG
GCCAGCTTGGGGAAGGCCTCTCTTGGGGCTTCCTCCTTTGGCTCCTGGAGTCTAAAACTTCCTGGTGTCCCTTCTGCCTGCCTAGCAGAACCCCTCCACA
CGGCTCCCCGTCTAAGGCGGCAGGGATGAGCTGTGTGGATGCTGCTGAGACTGGTGTGACTGCTTTGAGCCTTGTCCACTGATGCAGCACCTGCAGGGTG
CCGCCGGCCCCAGCAAGGACACACCAGTGGTTGGTGGGATGTGAGCGGGACTGGAGTGAGGCCAGCCGTGGACAGCAGTGCAGAGGGACAGGCCCTAGGG
AGTTGTGCTTTAAAGAAGGGCAGGAGTCAAATGTCCAGGGTGGAGGTGTGCGGCCAAGGGAGAGTTGTGTTAAAAATGTGAGATGACAGGGCCGGGCGTG
GTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGCGGATGGATCATGAGGTCAAGAGATCGAGACCATCCTGGCCAACATGTTGAAACCCGTC
TCTACTAAAAATACGAAAATTAGCTGGGCGTGGTGCAGGAGAATCTCTTGAACCCAGGAGGCAGAGGTGGCAGTGAGCCGAGATCACGCCACTGCACTAC
AGCCTGGTGACAGAGCAAGACTTCGTCACACACACGCACAAAAAAGTGAGATGACAGCTCATGTTTAGTGCCGGGTGCTGGGTGAGCGAGGGTGGGTGAG
CATCCATTTCCCAGGGGAGGGGCCCCGCGCCCATGGAGACTGCTGGGGACAGGCTGGGGCAGGGCGGGGTGGAGGGTGTCCTCTTCTGATGGATGCTTTT
GGTTTTTGGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTCAGTGAAGTGAAAAGTGAGGTCATCGTGAGGATGGTGTGGGGCGTGGGGTGTT
TGAAGCGGGAGGAGAAGCTTTGAAATAGCCCCTTGGAGAGTGGGAAGTGGGTTACTACAGAAGTGAGGTAGGATTGAAGGGCAGGCCAGAGGCCACTGAG
GGGTACACTGACCACACAGAGGAGGCCGGTGTGCATGGCACCACCCTCTCCCAGCCCTGGCCCATGACGGTGCTGAGCAGGTGGAGGGCTGGAAGTCAGT
GAAGTTGGGGCTTCCTACTCAGGAGAGATGGTGGGAGAAGGGAAACTTACAAGGGTGAGTTTCAAGTCGTGTGCGATGCTGCCCGGCTGTATAAGAAAAA
CCGTGGGATGTGAGCGGGTTGGACGTCAGATGGCATGGAACTCAGGGCATAGAGGAGCCACGGGAGTGAAGGCCTAGTGAGCTGGGGAGGCAGGGGTGGG
GGTGGCAGTTAGACCCTAGAAACTGTGGTTCTTGCTGGTAGCAAGCCTGGGTGAGACCATGAGAGAGGGTGTCTGAGGTCCAGGGCAGAAGAGATTCATG
AGGGTGGAGTGGCACAGAGGCCAGGGTGCTGGAGAGGACACCCAGGAGGCTGAGATGCAGACAGACCAAAATTCCAAAGGAGGTGTGTGCGAGAGGTTGA
AAACTAGAAGCTCTGGTTGAAATTCCATGGGGTTTCTCGCTATTGATATTTTAGGTATTTGAGACTGTTCTTTGTGGCAGGGGCTGTCCTGTGCATTGTA
GGGCATTTTTCAGCACCTCTGGCTTCTACCATCTGATGCCTGTAGCACCTCCACTCCACCCAGTTTGATACCCAGAAACGTCTCCAGCCATTGCCAGAGG
TCCTGGGTGGGGGTTCCTGGAGAACCGGTGGATCTGTGGGAATCCAGAGTCCCATGGGGCTAGAAGTGCTCGTGTGGAAGGACACAAAAGGAAAACGTGG
ATGTGGAGGAAATGCTGATGGGTTGGCTGTGGTGGTCTCTTAGAGGAAGGTGGGTGGTGGTATTTCCAAGTGCTGTCTCCTTCCCAAGACTGCCACTTAG
CTGCTTCCTCCAGGTGAGTCCGGGATTTCTCGGACTCACCAAGAGAATTATAAATATTGCAAGATATGGAGAAAGCTTAGAAATGAGAGGGCCCTGTCCC
TGTCAACTGTTTTGCAAAAAGTTTTCTACAGCTAAAAGTGGGAAGGGGCCTAGAAACAGACGTGCCATTTTGATTTCCAGAAACGTGAATTCTGAGCTAG
ATGCCAGTGAGTCAGGTCACAACCAGGTGGGATTCTGAATTCAGTTGTTAAAGGGCTGCTTTGTGTGCACATAGAAAAGGAAACAGATGTATTTGAACAG
AGGTAGTTTATTAAAGAGAATGRATAGACATCAAATAGATGKCCCTTTATCGTTTTCAGTTGTCAAAAATACGTGTGAGTTGGGTACCATATAGCCCTCA
GCAGAGTATTTGACAAGATTTTTCCTTGGTTTCCTCATAGGCAAGTTGAAAGATATGTGAGCTGAACACAAAGACAGTGTAATTTATCTAGGCTCAGTGG
TCACTCTTAGAATCTTCCAGGAGCGGATGGTGCATGTTAAGGTGGGAAGCTCTATCTTGACTCCACCCTGTTCACCATCTTTTTCATTGATGTGGATGGA
TATATGGGAGTATATGCTCAGAACGGTCAAGCATAACTAAGGCGATAGTGAAGAGTAACAACRCATAGGCTTAGAACACAGAGACATAGAGTGGTGGCCT
GGAATAGAGAGCCTAGCGGTAGACCTACCACGCCCCTGTGGAAGCCTGTCGTGTGGACGGCATAGCTAATGTGTGTGTTCTGAGTGTCTTCGAAATAGCG
GTGTACACTCATAAAAACAACCGCTGGATAACRGAAGAGAGTTTATGATATAATGCACCTACTGTAGGCTCAGCATTGCACAAGTCACCACAGGGGAGGC
GAGCACTGGTGGTTGCCCTGGGCACAGGCATGCTAGTTAGATTGAGATAAGCGACTGGCAGCCTCGTGCAGAAGGTCCTAACTGTGGGCTCCGTGGGAGT
GTAGAGATGAGAAATGTTAGTTTGGGAGAGAGTGTTACAAACACAGAGTGACAGAGGGAAGGACGCACAGTTGGGGATGAACATGGCCTGTCGAAATGAG
AGGACACCCAAGGGACAGAGTAAAATAATATGATTTTAATATAATAATATTACTTAATAGCGGCCCCTGGCAGCCGAGGAGAGTTGCGTTTGCCTGTTCT
GCTTATCTCCCTGCAGGACTAGGGTTGAGCTCTCTGAGGGCAAAGACAGTCACAGTGACCATTGTTTCCCATGGCCTGGCACCATACCTGGCAAAGTGGG
CTCCTAACACTGAATAGAGAGGATGGGATGGTAAAGACTTGGGAACCCTGGGCAGAAAATATTTAAAATGAGCAAAAAGATTGCCTGCCTGGTTTGAGCA
TTGAATAACACAGAGAAGGGTTGCTTTAGAATCAGGTAATGATCTTGGGGTCTCTGGATGCCCCACCCCCTGAACGTTATGAGGCTTCTGAACACTGTTA
AATCATAAATAAAAATTAATTAGGCTCGCCCTTTTTTTTCCAAGATATCTATAGCTTTTATCTGATATTCAGTGGAATCTAGTATTTCAGAAATACATAT
AAGAACCACTACTTTAGAAATATCAGTATTGTAAAATCATGGGACAGCTTAAAAGGTGAAAGTCTGGGAGGAGAAGGACCTCGTGGAGCTGGCCGCACAG
TCTAGGCTTGGGGGTAAGGTAAGAACTGGACCAGGGGTACGTGGTGCTTAAATGGAGAGCAGGCAGTCATGGAGCGGCTTTGTGAAAACAGGCTGAGCTC
GAGGTCCCAGGCTGCTCAAGGCAAGGGAAGTGTCTTATTTAAACCTGCCCGCTCCCACCTCTGCAGTTCCACCACAACCAAACTGTCATAGTGCAGGCTC
AGGGGGTCTCAGGACTGCTGGCTACACCTCGGGTACAGTTAACCAAGGAGGTTTACCAGATGTCCACCGTGGAAAGCAAGTGTTGGGCAGAAGTGGCAGG
GAAGTGGCAGTTTCAAGGGTGAAGCCCAAGGTGATAGCAGAGAAAGCTGCCCGGAATGCAAAGGTCAGAGTGAGTGCTGTTTCTTGGGAGCCGGCTGCCG
GGAAGAGAGGGTCAGGTAGAGCCAAGCCTGGAACTGGTGTTGGTGTCATGCACATGGAGAATGCCCCTGTGGACGTAGGGAGGAGAGGCAGGAAAACATG
GCATCTTGGGCCAGCACAGTTAGCATGATAAGGGAAAGGAAGTCTTACGGGGGCGAAGGAAGGCACAGTGAAACAGTGTGCCGTTTTGAAGAAGCAATGG
TGAAGGAAGCCAGACTTCAAGGAGTCAGGAAGAAACACAGTGGATTTAAACCCTCTATCTGGATAGGAACCTTGTCTGGAGAGGTCTGCAGCGGTTTTGA
GCAGACCTGACCGAGCTCTGTGACTTCAGCAAGTTACTTAACCTTCCCCTGTGCCTTGGTTTTCTAATCTGTAAAGTGGAGGTGGTAGGGATACCACGTG
CCTCAGCGGATTGCTTAAGAGTCCTGAACGCATTGCTGAAGGTAGAGCCTGGAATAGCCCCTGTTGGGTAGTAACTTTGGATGAGTGTTTGCTGTTGAGA
CTGTGGCTTCAAGGGTTAAGGAAATAACCCTTTAAGGAATAATGGGGTTTAGGAAAGTGGGCATGAAAGATCTTGGGACCTCTGAGGACAGAAGTGACGC
AGTGGAGAGGGAGGAATGAGTGGAAGTGACCTGGCCAAGACACCTGAGGATGAAAGATGGGACCAGGACAAGCTAGGAATGTTCATTTAGCAAGAGAGGG
GAGCCCATTCCTCTAGGGATGGAGAGAGGGGAGTCCGTTCCTCTGGGGATGGAGAGAGGGAGCCCTTTCCTCTGGGGATGGAGGAGAGGGGAGCCTTTTC
CTCTGGGGATGGAGGAGAGGGGAGCCCGTTCCTCTGGGGATGGAGGAGAGGGGAGCCCGTTCCTCTGGGGATGGAGGAGAGGGGAGCCCTTTCCTCTGGG
GATGGAGGAGAGGGGAGCTCGTTCCTCTGGGGATGGAGGAGAGGGGAGTCTGTTCCTCTAAGGATGGAGGAGAGGGGAGCCCATTTCTCTAGGGATGGAG
AGAGGGGAGTCCGTTCCTCTGGGGATGGAGGAGAGGGGGGCCTGTTCCTCTGGGGATGGAGAAGAGGGGGGCCTGTTCCTCTGGGGATGGAGAGAGGGGA
GCCTGTTCCTCTAAGGATGGAGGAGAGGGCGAGAAGGCCAGTAGAGGAGCCGTGATGGTGGAGTCACAACAGAGGCACCCCAGGAAGCTGACAGCCAGAT
TTCTGCCATTGATGTTACCTCTCACCTACCACCAGGGGACAGTGACCTGTCCGTGTGCCTCTGCATCTAAGGATGTGCGTCCATAGGAAGCACCTCCTGC
CTGGTAGAGGGAAAGTTGCTGAGACACCGAATTGCCACATTTCTCGCAACTCCTTAAAGTGGTGAAGGGAACTTCCGCCTTTTGTGAGTGAGTGACCACC
CACAAGGAGTGCACATGGTTGACACAGTCTCAGGTGTCTCATGGTGTCCAGTGCTGCCTGGGCTGCCCTGCAGGAGCCCTGGGGTGGCCCTTCACCCTCT
TCGCAGGAGGAGCTCCCCACAGCCCTCTTCTTCCATGTGTAAAGGGTGCATGCAATGAAGGGTGACGCTTCCGACTGTGCAGAGAGGGGCGAGGGGTCTC
TGCCTTAGGGCGGCCAGGAACGTACATCAGGGTGTTCTTGGGACCGTATGTATTTCTCAGATACCTTAAATTGTGTGTTTGTACATTTCTCAACATATGA
TAAAATTTCCTAGAACTTCACAAAATAAAAATATTTTCAATTCATTTTGATTTCCATTATCTTTGTATTTGAAATCATGTCACTGTTCTGCTCAGAACCC
TGCATGGCTCCCCATTCCCCCCAAAGCACAGGCGAGGGTCCTCACGGTGGCCCGCAAGCCCCCTCCTCTCCAGTGCCACCTTCCGCAGGCCTCTCCCACC
CACACCGGCCACCGCCACTCGGGCCCCCTCTCCGTTTCTGGAACACACCAGGCTCCCTCCTTGGAGCCAGGCTCTGACTGTTTCTCTGCTCTCATTACCT
TCTCACTCCTCTGCCATTTTCAAGTCTTGATTCAGTGTCCCGTGCTCAGCGAGACCTACCCCAGCTACCCTATTTTAAATGACACCCCCCATCACTGCCG
CCTCTCCCCAGCCTCCCAGCCTTGATGCCCCGCGTTCCTATTCGGTCTTTCCCATAACTCTTACCAGCTTCTGATGGACTCCAGGTTCTGGCCCGGCTGC
CATGTCACTGCCACTCCACTTTACAGAGTCCCCATTGGGGCAGGAATGTTTATCTGTTTCTCCTCGATCAATGATGGCTGCCAAGCATCTTGAAAAGCCG
CTGGCTCACAGTCAGTGCTCAAAAAATACCAGCTGAATGAGTGCGGTGTGCTGTACAGAACTCTGACTTTGGACTTAAAGATGCTGAATCGTGAAATAAA
AACTTTTCAAGACGCCGTAGGCATGCACCACCTGTTTTTCCTGCACGTTTTCAGTGGGCTTTTTTCCACCCGGCTTGAATTATATGCGCGTTCTGGTCAT
GTAGTACCGCTTTGGCCTTCTCTTTGATAAAGATACAAATGGACATAATACATTGAGAGTTTCACTTATAGTGAATAATCACGTGTGCACTGGTTTTGAA
ACTGTTCTAAGTAGCTTCAATGAATCAAAAATTGGCAGGCCTACTATATCGACTTCCAAACACTGTCACTGGACATTGGTGAGAGAGAGAAAAAAATGGC
ATAGAATTTTTCACTGATAATAAAACAAGATGAAGTTATAGTCATCTGTAATATTGAGGCCGGAAGAAAGGATCAGGAATCCCTTATCCTGTGCACCCAC
AGGAGTCAAACCCACTTAAGATGATATTTCCAAATGTATTCTTAAATGCATCGTTTTCATTTCTAATATATCAAGGTAATTTTAAGAAGAGAAAGATAAC
TAAAAAGCATAAACTCACCCCTTTCCTTTTGCAGAGCTCCAGTCATGCAGAGGAGAGAAGGAGAATGCATCCATAGCATGCTGCTGATAGAAAAAGAAAT
GCTTGTGTTTTAATAGCGGGAGGCACAGTAGAGCAAGGGGGACTGAGCCCATCTCATACCAGAGGCTCTAGGCCTCCAACTCAGCAATACAGTAATGGGA
TGTTATTTGCAGGGCCTGTGTGGTATGAGAGGAGCGTGGCTGTGCTGTTTCTGCGCATTCTGCTTTGTAAGTGCTCACTCTGCATTTTTTTTTTTTTTTT
TGCCTTTTCCGGTCCAATGGCAGACACAGGGCTGGGTGACTCCGTATGCTCCAGCCCCAGTATCTCCAGCACCACCAGCCCCAAGCTCGACCCGCCCCCC
TCYCCTCACGCCAACAGAAAGAAGCACCGAAGGAAGAAAAGCACTAGCAACTTCAAAGCCGACGGCCTGTCCGGCACTGCTGAAGGTAAGGGTTCCGCGG
TGCCCCGGGAGAGAGTCTCCACTGCGGAAAATTCTCTGTTATTTTTCAAATGCGTGAAATTAGACACCCTTAGCACAACAAATGCACAGTAATGCTGGTC
ACCGTATGTGCTTTCTGTTTGCAAGGTGGCACGAGAGGGCCCTTGGGACCTTTTCATCACTGTCTGATTCTCATATTACGCAACCAAATCTGCTGTCATC
ACTCTTGGCCGCCGTYGCTGGTAGCGGGTAGGAGTGCTGGTCTCCCAGCCACCAGCCTGATCCAGTTCTGAGGTCTCGCCCCACCCTGGCAGCCTGGGCG
AGTGTCCTCTCCAGCCAAGGTGGGCCATGCTGCGTGACTCTGCTGGGGACAGTGCCCACTTCTAGTTTAGGAATCATCTCTGATATTGGTTACTCTTAAC
TAACCAGACACCTGCCTTGATTTCAGCTTTTAGCAACGTGTTATGATAAACACTTCTTCTGTTAATGTCCATCAGCTCTTTCTGGTATGTGGGCTCTATT
AATATTCCAGTTGTCACAGCTCATTGTGAGTCTCCTTTCACCTGAGTGCTTCCTTAGTTTTTATTGCCACTGATGGCTGGATGTCAGCTTCCTGAAGTGG
CTCCTTCAAATGAATTCCCTTTTTTTTTTTAATTCATAGATGCAAGTAGAGATAGGTAAGCGCATGCGTACACACACACATACACACACACCCCCCACAT
TATGAGAGGTAAAATTAATGCAGTTGTAACAAAGGAATACTTAAAAGGAAAAATTAAAGTTTGAGAACCTTGTTGTTAGAACATGAATTATTACCTGTGA
GACCGACAATGGTGAGAGAGTGTGGTTACCTGTGAGACCGACATGGTAAAAGCGTGTCTTCAGTGAGGGTCTCATGCCCAGGGGCAACATTTATGGCTTC
CATCCTTTCTCTTTCTCTATGGCTGCCATGCTTTTTCCAGATACTCTACTTGATCGAGGGTTCAAACCTGCGAGCTGTCAGACAGTGGCTACATTAGAGG
GAGTGGCCCATCCCGTCCACATATCCAGAGCGGAGCACGCAAACCCACGGTGCGTGTGTTAGCAGGGAAGGGGCAGAGTGTGGGGTGTGCTGTGTGTTTC
CATAACACCGGAGGCAGGGAGCATCATTTCTTTCATCATCAGGAAGCTGAAGTTCGGAGCTCTGAGTAGCCCGCCAGCCTCCGCAGAAGGGTTAGAAGCC
TTTCTCCTTCACCACGTTTCTTCCTGTTTTGCCTCCTGTAAGCTTCCTGCTAACATATTTAGCCAATAAAAACTGATTTTTCGTCGGGCACGGTGGCTCA
CGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAAGATCACCTGACGTCAGGAGTTTGAGACCAGCCTGGCCAACATGATGAAACTCTGTCTCTAC
TAAAAATACAAAAATTAGCTGGATGTGGTGGCACATGCCTGTAATCCCAGCTACCTGAGAGGCTGAGGCAGGAGCATTGATTGAACCCAGGAGGTGGAGG
TTGCAGTGAACCGAGACCATGCCACTGCACTCCAGCCTGGGCGGGCGACAGAGTGAGACTCTGTCTTTAAAAAAAAAAAAAAAAAAAAAAGACGATTTTT
CTCATGTTGTGGGGAGTGAGGATAATCCCATTAAGTCAGCGATGGTGGAAAATAATGGTTATGGGTCAGAGCAGCCACAGATGCCACTGACCTTCCCACT
GAAAACAGTATCAGCCGCAGGCGCTCTGTGTTGGTAAGACTCCTTCAGACAACCGTTGGGCAAAAATCACCCTGCCAAGCACGTGCAGCCACCCCTCCCT
GATTGGGAAGAAGGTTAGCCTCCCCCAGGGTGGGCAGCCTGTACCCTCCACGCCCCTAAGGTGCACACACAGGGGCGGGCGCCAGATTCCCTTTAAGGAC
AGGCCTTGTTCTCACTTTCACAGGCACGYGTCTTCTTGCATTTGTTGTGTGTTTCCAACCGAGGTCTGTGGTTTTTTCTTATGCACAACCTGGTGGGAAC
TGACCGTTGCCACTTAGATACACGTTCATTATCCCACCCACGTGTTGACCGCTGTGTAAATGAGTGAATAAATCAGTAGCGTTTCTGCACATTTRATGGA
GCAGCTGGCACCACCCAGTGTTCCATTCAGCACCGGTGAGTTTGAAGGAAGTTTGACAAGTGACCGTGACCACGTTGGACGCCTGATGTTTCAGGTCCAC
TTGCTGAGTGAGTGGGATGGTATGTGYGTGCGAGGCAATAGTGGATACCCAGGCTGAGACACGGGCTCTGTCCAAGCAGCAAATGGGGGCCCCTTTCCTT
AAAGGGTCTTACTGCTGAGGTGGTAACACCAGCAGAAAGATTTCAGGCACCATGGAAACTCCAATATTAGGAAATCACAGGTGTCTCAAACATGGATGTG
TAAGCGGGTGACGTGTGTTTGGAAGTCCAAGGCAGAGGTTCCAAGGGAGCCACCTCACTCTCTAATTAGGAGAGTCTGGTCTCTACGTCAGCGGCTATGA
CATCTTTCCAATAGCAAATAAGTCATAAGTTATTTATAAAAAGAAAATGTATCATTTTTCCCTAGGAAAAGTTACTTATCAGACTACAAATGAGTCACTT
TTGTGAAAAAGTCTATATTTCATTTTTTCAAAGCCACATTTTCCCCCCAAATTGTAACATATCTGAAGTCAGAACATATCATTGTAGATTCAGTGATATA
TGATATTTTTGATAGTTTTATTTACTGTTAATTCCTTGAAAGTACATTGTGTAAAACACCCAAATTAAACATTCTGTTCTGGCCGGGCACAGTGGCTCAC
GCCTGTTATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAATGAAACCCCGTCTCTACTAA
AAATACAAAAATTAGCTGGGCATGGTGGCAGGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGTGGAGCTTGCAGTGAGCC
GGGATGGCGCCACTGCGCTCCAGCCTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAATCTGTTCTTGAAACTAAAGCTAGTTATATATGTTT
TATTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTGTATTTTTTGAGACAGGTCCTCGCTCTGTCACCCAGGCTGGGGTGTAGTGG
TGCAGTCACGGCTCACTGCAGCCTCGAACTCCCAGGTTCAAGTGATCTTCCCACCTCAGCCTCCCAAGTAGCTGGGACCACAGGCAGGCACCACGACACC
TGGCTAATTTTTTGTATTTTTGTAGAAATGGAGTTTCACTCTTTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCCC
AGTGCTGGGACTACAGGCGTGAGCCACCACACCCGGCCTATATTTTATGTTTTGAGAATACTATTCTATTATAAAAAACCATTTCTGCCTCTCTTTCCTG
CAAGGCTCTGTGACTGGTTACTACTAGTGTATTCTCTATCGCCTGACCAAGTGCTGAAAAGATGGAATTACAGATATAAAACTTCTATAGAAGATTTGTG
TAAAGTAGTTGAATTTTATGGTTTTTAATATACCCTATTGGAACAAATAACTAGGTTCAAATCTCTTTAGAGTATAAGAAAAATAGAATTCCATTGAAGT
AAGCAAATTTATCAGGGTCCTTTGAATCCATTGGTCAGTAGAATCCATTAAACTCAGCTGATGAATCTGGAATGGGATGGGGCTCCCCGGCTGGTTCGCC
GAGGAGTCTTCCTGGGCCTGTCTGCAGAGATGYGGGGAGAAAGTGGGTTTGGTGTAGAACCCGGGGTGTAACGGGGTGAGGAGAGGGCAACTATTTGGGA
AAGCTTCCAGCTAGGAGCTGTGGCCTTCAAGAAAGAGACCTGTCCGGCTGTGGTGACCGGGAAGGTGAGGGTGWCCTCACTCTTCTCCCTCCCACTGGTC
TCCAGTGGCCCCTCCTTGGCCAAATCCAACCAGAGGCCAAAAGCCCTGAGAGCCCACGATGCCAGTCACACAGTTGGCTCCCAGGACCAAGACAAAACCA
ACAGAAGCCGTAGAGTGTTCRTGCCTTTCACAGCACCTCCTACAAGCCCCTGAAGCCCGTGCCATGCCACTCTGTTGGTGGTCCACAAACACAGGAAACG
AAGCTCTAGAGGGCAGGGGTATGTGCTCCCCTCCATCATCCCCCAGGGTCTGGCTTTAGCCTGGCCCAGGGAGCCCTCGCGGCTTCCTGAACAGACCTCA
GTGCCCTTCCCCAGCTGTGTGCGACAAGGACCCTGCGAGAAGGTCTTCCTAGACTCCCAGCTAAGCACAGAGGTTCTCACTCTGGCCGTTTCTTACCTCT
GTGGCGCACTTATTCAGAAAGTAAAGGCTAATAGTAGGAATCATCAGTACCTGCTGCTGCAAACCCAGAAACACTGTGTCTACACGGGGCTGTCAGGGTG
ACCRATGGAAATTGGGCCGTTCCTGCCCTGGAGTTTCTCCCTGCGCAGGTGCTCGCTGTGCTCTTTTTGCTGAAGAACAGCCACTTTGTTCTGCACCAGA
TGGCAGAGGGTGTCAGACCCCAGCCCAGGGAGAGCATTTATTTTCTTAGGTTTACCATTTAAAATGAATCGGAGGAATCTGGAAAGTTACAGAAGCAGGG
ACGGTGACTGGAGAATCCCTYATCTTTTTGTGTATATTTTGGGTTCTGAGGATTACCAGGAGATGTRTGGATGACAGAGCCCGTCGCTAGGCTCTTATGT
CACAGATGGGCTGCTGTGCTGCGTGGTCATTGAGACCAATGGAAGGAAATTGAGATGTGACTGGGCAGGATGGTGACAGGGCCTGAAGCCTATGCATGGA
GGGAACGTGCAGTGACCAGAGAGAAGGGTGGTGATGAGGATGAGGGCCATGAGGCATGGTGACTGTGACCAGCTGATGGAAGGTTTGCAAAGAAGGGCGT
CCCAACTTGTCCTGGATGGCCCAGGTGGTAACCATGGGACCTGATGGGTGGAAGCCTCAAGGAGGTGGATTTTGATTCTGATATTAAAAGCTCTAGAAAA
AGCTCTACGAACCAGGGCCACCTGAGAGGGAGTGACCCCGACCCTGCATGGGGTCGGCATGGGTTGGACCAGGGCAGAGGAACCTGGGCTCTAGAAGGTG
ATTGCACCACGGCCCTGGATTCCCAACCAGGTCCAAGTTCAAGGGTATGTGCCAGGGAAAAGCGCCTGGGCAGTGGGATTTTGCAGATCTTTAATGGCTT
GTCAGCTCTTGGCATTGTCTTTGAATTACAGTACTTTCTGGGCATCTTCATATCTCGGGTCCAGTAGTGAGGTTGTCATTGCTAAAATGAACGGTCTCTG
CAGTCCCATTCTGTGGCCCCGAACCTGGTGGTTCTCGTTAGTTTTATAACATTCATGCAAGTTTGCATTAAGTGCTAATTTCCCTGTTTCCCCAGTGAAA
AGGCTGAAGTAGAGAGAGGTTAAGTGGCTTTCTTGTCCAGGGTCAGGTTGCTGGTAGGTGACAGAACTGTCTCTTGATTCTCTGCCTCAAACTCTTTCCA
CCAGGCAAAAAGCAAGTCTTTGAGGTATGTGGAGCTGCTTTTGAATCTGGGAGTGGGGCACACTGAATAGCTTCCTTGATATTTCTCAGATTCCATGTAA
AGACACTGACTTTTATATGGCTCATAACATCTAGAAGTTGTGTAGCAAAGATCTTTCTTTAAAAATGCAGGACCAGACTGGATTTACCCAATCTTATTAT
ACAAGAGGGTATGCAGAAATCCTGGTGTTATCCCCCCCTTGGGTTCACAGCGCTTTGTTCTGAAGGTCTCAGAAGGGAATTTATTTTATCCTTCTCATCT
TGTTCCTTTGGTTGTTCATTCTGGTCTTTATCGCACCATTGTGTGGTTGATCCTGGATGGATATTGAAAGATTCTCCTGTAGAGGGTAAGTCACAAACGG
GCCTCTCACTGTTATGGTAGAAAATGAATTGCTCATCACAGCTGCACTCACTGAGCAATGAAATGTTGACAAATTTCATTAACTCCAGAGTTGCAGAGGT
CACCCAGGACTTAGTTTCCCTTCACTCTTTCAAAGGAGAACCTGAAATTGTAGATCATTTTATTCTTTCATCAAATATGAAGCAACCACCACAGGGAAAG
CACTGTGTGCTTGCCTCCATGGGAGACGTTGAGAAATAAAACTCGGTTCCTCTCTCTCTCCAAGGAGTTTAGAGCCTGATTATGGAGATAAGACATGCAA
GAAACTGTAACGAGGATGTCAGGCAGAATATTCGAGAAAGGCATGGGAATTCAGAAGAAGCACAAATACACACTGAGTTGTAAAAGTTAGGGAAGGCTAA
CCTGTTGTAGAGCTTAATTTTTATTGTGCAGATTTAGCACATAATGGTTATCTTATTTAATAAAACTGCAGAAATCATTACTTTTTCATTAAATGTTGCC
TACTTACAACTTTAAACACCAGTGGTGGTGATTTAATTAGTCACAAAATGGAGTTTTGTTTTTACTTAGATGCTAAGAAACAGATGTTGCTATTGATCAG
TTACCTTTTACCTGAGGACTTTTTTTTATTATTATTAATTAGTTGATGTCTTGGAAGGCACTTTGGAGAGAAATTAAAGAATCGTGCATGCATATCGTAC
AGTGTTGTTTTTTTTCTTGCAGGAAAGCAATACGTGGGTGCGTGGAAGCTCTCAGTTAATCTGTAACCATCCGGTTAGATGGACTATCATGCAGCTTGAG
CCATTGCTGGGTAGTTTGGGGATTTTGCATGCCGTGATTGGGAGGGCAGTGTGCTTGTTTTGTTATTTAGAATATAACAAGGTTGTAAGAGTCTTATTAG
CACAAGGCTCTCATCTTTTCTCACTCCTGGGGTGCAATTAGTGTGCACATGACGGTGAGCACATGACTGGCAAGGAGTCAGGGCCCAGAAACTGTTACCT
TCCAGGTTTATATCCAGTCTACAGGGGCTTTCACATTGAATTCTGTGTTATTTGGAGGTGGCTGGAGGGGAGATCCAGTTGCACAAGTGTTACTGTCATT
CTTCCCTCAGGTTTTCTCCTTTTCTTCTCCATGAACATTCCACCGGCACCTCCCGTGTCTGCTCCTTGTTTAACATTGGCAGCTACCCAGGAAAGGGAAC
GAGAAGTCTCCACAATCAGCTCCCTAAAAACTGCATAATCAACAGTAATTTTTGATACAATAAGGACTTATTAATTAAACTTCCTTATTAGCAAACCACT
GGTTAGTGCATCTGAACAGTTGAGTTGAACAGTTCATTATAGCGAATGTGGAAAACCAAGAATGAGAACATCTTCCTGGGAGATACACTGGAAATGCAGT
AGCGAATGTGGAAAACCAAGAATCAGAACATCTTCCTGGGAGATACGCTGGAAATGCAGTCACTTCACTCTGCTAAGGATATCAGGAGACTGGCTGGGTT
TCATCACCCTTGGGCTGTCAGTGATGGGAGCCACCATGCATCCCGACGGACTTGCCTCCTCCCCACAAACTAGATGACTTTTCCAAAGACAGTTTGCTCT
CAGGTTGTAACTCCAGCTTCCAAGAGAATGAACTTGCTGAAATTGAGTAGATCATCTGGGTTTACTCTAGACATTGACATTGTAGATTGGGCACAGTTGA
CTCAAAAGCCATCCTGCAGGGTACAGTCCGGCCGCCACAAACACACACAAGCAGTAAGCGCTCTCAGATCCTTTGTGGAAGCCAGCAGGTCGGAAATAAA
CAAAGATGAGTCGATCACAGCAGGGGCAGCCAGAACGGAAGATTCCCATCGTGATGAACCGACGCACAGAAGGATGTTTGTAGTGTGGTTTTTGTTTGTT
TGTTTGTTTTAATTTTTTTAACCACACACAAACTTAAAGGGGTTAGATTCAGGTCCAAAAATGTTCATTGAGCACCTACTGCACGCAAGAGTTTTGTCTG
ATGCTGGATGGGACATCAACTGAAGCGGCCCAGCCATCAGGACACACATAGACCAGTGGAGAAAGCAGAAACACGCCGGGGAACTTGGTTATGCAGGAGC
ACAGGGCACCCCCAGCTGCCTGGAGGACCTCAGGGAGGTTCCCCAAAGGGGAGTAGACACTCACACACGTTGTATAGACAACGAAATATCTGCTATTCCA
AGGAGGAAAAAAGGAAAAAATCTGAAAAGTCAAAACAAACTAAATCTTGTAAAKAGGTGGCTTGGAGCTCCTGGGGGTACCTAGGCAACTCCTGACGCCA
CAGACAAGCATTTGAGCTCCTTAGCCTGCTACACAGAAGCATAAACTCACCTTTGAAAAATGCTGACTACTCACAAGGTCCCTTTCTAAGATACAGAAAT
GTGACGGACCTCAACTCCTTTTTTTTAGCTAGACTTAGAGATTCTCTTCTGCGAGTGGGGCTCGGTTAGCACAAGCTGCTCACAGGCTCCGGCGTCCATC
AGCAGAGAACTCGGGGCACCGTGTTTTCCTGTGTGCACCCTGGGATTGGAATTCGGGCTAGCTTGGGAGACCCTGCATTGGTCGACTTTCATTAGAATCT
AGGATCTGTCTTGAAGTCATTTTCTTGATGGTCTCAAAATGTTTGAGCTCTGAGGCKTTTCGGATGTCATTTAAGTCTCGGTGAAATTATGGTCCACTTG
GACCAAGGTCCTGAAGCCAGAAGAGGGGCTGGTTCTAGCGGCCAGTGCTGTTCAACTTGTGTCTTCCTTACTATTCTAAATCCTCATCTACTCTTTCTAC
TTTCCTCAGCTGCATGTATTTTACACACAAAGTACAGGGATACAGATTGAAATGTTCAGCAGCAAGGTATGAGAGGTCCGCATCTCATGCACGAGGGTGT
TTTTCTCGGCCTCWGCAGCCCTCAGATGTTCCCACGCTCTGTTAGACACATGCGGCCTGGGCTTCAGGAAGTAGAGATGCCCGGGGGTTATATTTTCAGA
TGTTCTAGCTGAGCTCGCTTTGTCTTTCCTCCCAGGCCTGGCAATAATGAAACTAGGCAGTGTTTTATCTCACAGGCAGTGGCGACTTCATTCCTCTTTC
TAAAGATGTAAAACAAAAGGGGATATTGACTAATGCAAAACTTAGTCTGTGTGGAAGCAACTTGGCAAATGGGGAGGATGAAATAAAATTGCACCTACCG
TTTGTCTTAGCTCAGCCTGCCATATCAAAATGCCACAGACTGGGGGCTTAACCAGCAGAAACTCATTTATCATGGTTCTGAAGGCTGCAAAGTCCAAGAT
CACGGCACCAGCTGATTCTCTTCCTAGGGAGAGCTCTCTTCCTGGCTTGCAGGTGGCCCTTTTCTTGCTGTGTCCTCATGTGGCCCTTCTGTGGTGTGCA
CACACACACAGAGAGAGAAGCTCTTCTTTTTCTTATAAGAACACCCCTCCCATCATGAAGGCCCAGCCCTCATGGCCTCATCTAACCCTCATCACCTCCC
AAAGGCCCAGTCTCCAAATACCAGCACATTGGTGGGGTGAGGAATTAGAGCTACAACATGTGAATTTTGGAGGGAGACAAACATTCAGTCTGTAGGACCA
TTCTACTTTCTATTCCTGGCTGTGGGATTAATGTCCCTGTGGCCCCCACCCACCCACTCACCCACGCACCATATGCCATTTAAGGATTTCATGGACTGTC
TCAGGTCAGAAACTGCTTGGACAGATCACAGCTGTCCTTTCCCCTTCACTCTTCCCTCCCAAGTCTTGGATTTGTTGTCAGGAGACATCATCCAGTGCAA
AGGAAGAACACCATGGATTTACTGCCTGCTTGTGCGCTACCTCATTGCATCCTTAAAACAACCCTGTGTGGTGTTGGCAGGTGGGTGGTGGCATTTCTGT
TGTCACAAATGAGGAAGAGGGTTGAATAAAGTTGAGTAATTTGCCCAAGGCCAGTAGATGAGTGGCCTCTGGGACTTGGAAGTCTGTATTTTGCTTTGCA
TTTCATCTGTTAACCTGGAAAAGGCTTCAGGGGGTTGGAGTGGGAGGAGAGCCTTCTGCAGGCCTCTTACTCTCAATCCTGTGGCTCTCAGAGTTGCTTC
TCCCTCTGTGCATGTCCATTTCTGCAGCACAGCAGGGCCATGCCCACGGCTCCCCACCACTGCCCTTGAGAACTGGGAAGCAGTCATTCCTTTGCTGGTT
TTCTCAGGAGGCCTGTTGTGTTGTGGTATGGCTTCCTTGCAAACAAGTGCATGCACACTCTGATACGTTTTTAAAAAAAAAAGATGCAAATCACTGCTTC
AGCTGCTTTGCAGACAGTTAGAACCTACAGGATTAGATGGGCTCTGTTATAAGGGGACATCTCTCTTGAAATTTTTTTGGACTTACGGACATTTAATTCA
GATGCAGTGAACCCAGTTTTTCTGTTCATTTTAAGATTGATATGCTTTTTYTTTTTTTGGATGACAGAAGTGTATTTGTGGGGTTTTTTTGTTGTTGTTT
TTGTTTTTTTTTTTTTGGGATATGATCTCACTGTGTTGTCCGGGCTAGTCTCAAATCCCTGGTCTCAAGAGATCCTCCCATGTCAGCTTCCTGAGTTGCT
GGGATTTACAAGCATGTATCACCACAGCCAGCTAGAGTGCACATTTTTAAGGGCAGTTTGAGGTTGGAGGGAGGAGGGTGGTGATTGATTAAGCCCCCCT
GTCGTTCATTTGAATCCTGCATCGCTGATTTAAGTGTTAATCAAATGCCTGTCTCGCCTGGCTGCGGGGTCCGATCATAGTTACTGACTCGCGCTCATTT
TATCAAGATGTATTAATGCTTTGGAGAAGGTGTAGTTGAGATAAACTTTGTGTGTTTATTTAGTAATCTTTGCTAATACCCTCCTGGCTTTCCACTCCAC
CCCTTTCTCATCTCAGACATACCATAGGCACCAAGGTGTGGAGCCAGTGAAAGAACAGGCGCAGCGAACGTTCCGGCAGGCATTGCCGTGCACGGACACA
CAACTTCACAAGGGCCTCTTGTGCACGTGGGACATGGAGAAAATTGGCCATTTGTCTGTGGGGTAATGGGCTTTGCTGCAATATGAAAATCTATCAAATG
GGTAAAATCAATGACATTGTATCAGAGTTCATGAAAAGTGCCTACTGCACACAGTTTAATTCTATTTAATTTTTTTAAGTGGAAAAAAGCAAAGGAAAAA
TGTTTTAGTTTTCTCTTAAGCTGATTTCGCTCTGCTTTTTCTTAAAAGTGCCTTTCTAGTTGCCACACAGTGATGTGATCATTATCTGCCACCTCGTCGC
CTTGCTGCCTCTGCATGCAGTAAAATACAAAAAAAAGAGAGATAGAGAAAGCAGGGGAGCTTGTGAAGTATGACTCCCTATCCCAAGACTCATTGCCTGC
GATTCGTACCGCTTGACAGTAATGATCTTATTACAGTACTGTGGACCYTGAAGAGATTTCATGAGGAGAGTGAAAGGACGACCCTCCGTGTAATCAAGTG
GCGCTGAATATTCCACGCGTTTTTGATCACACACTGATTGGGCACAGTTTTAGCCCATCTTCTAGTCAATTATGCATGGCCCCTGTGCTCCTCGAATAGT
CGGAAACATTGATGGCTGTTGTCTGGGTTTTGGCAGGCAGCCAGGGGTTTGAAGTGCCTTGTACATCGTCATCCCAGGATAAGTGCTTTTTAGTTGGAAT
TGATTACCTTTCTTTGGGTTTTGCTTAATAGCAAAACTGCATTTGGAGAGGGCTTCAGGTGAAAAATGGACATATTAGCCATTGAGAGCATCCGAACTCC
TAGTCAATTTTTAGGCTTCCCTTGTTTCCGTCTAATTTCTGTTTAATGATACAGTGTTTGATAATATTTAAGATATCTCACCGCATTTGCCGCTGAGCAC
ACATGTTGAGCGTCGAGGACAGGTTCAATTATGTGGCCACTGTGTTCAGGTTCCCGGATTGATCCRGGGGAGGCTCTAAGCTTTGAGGAGATCTGGCGGT
TAGTTTCCATCTTGGCATAAAAGCATTAATTATCTAAAGATCTTTTCATCTGCAGGAAAATAGGCAGAGAATTCTTCCTACTGTTGAGTGGTCGCTCCGT
GTGACCGTGGAGCTCATGTCAGCATTGCTAGGTTTGGGCTCAGCCTGCTACCCTGTGCCCAAAAGACTTTCTCCCATTGTTTCCTCCCTCCCCTCGCTAT
TGAGCTTGAAGTCTGGGGACATTTGAAAGGATGGGATTGTTTCTTACCAAAATGAGGCATGATGTTGCCTCTTAAGAAAATCAGACAATTAAACCAATGT
TACTATGTAGAAGTGAAAACTGGTATAAACCAAGATTTTTTGCCTCCTCCTGTTATGCTCTTAATTCTGATTCTTGTCTTACGGATTGTCTTAGAATGAT
TAGGAAAACTTCTAAGGTGTTTTATTTTTTTGTTTTAACATTTTGTGCAAGGCTAAGGAATTAGACACCCCAGAGTATGTGATCACTGTGAGATGTTTCT
CAAAGTCTGTCTTGAACTTGCCAACACATGCTGCCTCGGGGCCTGTGGTCACTAAGCTTATATGAGGGACGAGAGCCGTAGCATTGCTCCAGCAGGTATT
TCAATAACTTGATTTGACTCTTCTTAATTAAATAAATAGGTAGCTTTGTTCTTTGGCTTGATTATTCATTTGGGTCTTTCTTGCTTTCTTCAGGTAGGAA
TGATTTTCCCCTTCAGTTGGTTTTCTGCAGAAGCCATGATATACTGTAGGCATGGTTACCAGAACACCCCTAAGAGAGCTGACCAGAATTTCTAAGTTCA
TGTTCCATGCGTMCACACACACACACACACACACACGGTGTTATTTTTTTTCTTTCTGAATTTCATGAAAATAAAATATTTTCTACCAGAATACACATTT
AGTGATGCCTCTTTCAAAGAGGAAATCAATCACGAAACAGAAACTCAGAGTTGACAATCTATTAGCAATAATATCACTATCAATTATTGACCACTGCCAT
GTGTCAGGCACTGGGCTTAAGTGCTTTACACGCAGCGTCTCATAACCCTCACAAGAACCTGGGAGGTGGGTGCCGTTATCCGCATTTTTATAACTGAGGA
AACCGAGGGTCATAAAGTTTAAGTAACTTGCTCAAGGCCATAGACGTAGAAAGCAGCGATAGGGCCACCGATCCAGGCGAGGGCAGCAGTGCTCGCCGCC
TCTAACACATCTCCACGGTGACCTTCCCTTCCCTTGGAAGGGGGCGCTTGTCTTTTCAGCGGTCTTGCCTCCGAATCTTGGCTTGTCTAGGATTCTTCCT
ACAGAAGAAGTTCATATAAAATAAGGGGTTTTATTATGGGTTATCTGAAGAGTGTTTCTTAATTTTAATAAGTTAATATTCCAACCATAAAAACTTCTGA
CATTTTACCCGAGGCTGTGCTTCAGCAGATYGACAGAATGCATTTTTACAGCACTTAGAAAATACCAGATCCACGAAGAACAAATGATCAAAGTTTCAAA
GGCTGTAATTTTGGAAAGCTGGCATATATAATGATGATCTCTTCGCAGCCTGGTAATTTTACCTGGACAAGTAAATCCATTTCTCACATTTAAAGAGAAT
CAAAGAGTCAGTAAACATGCAGAAACACTTTTAGCTGTGAATGCAGAGTAACTCTTACAATTAACATATAATTACCTCAACGGGCCAATTAATTAAGCAA
TTTAAGATCTATAACTATTTTCATGATTTTCCCCCAAAATATTACTTTATTCTGCACACCGTGGGGACATCAGCTGGGAGGGTCATAGCTAGGAGGTCAG
AAGGAAGGGGGGACGATTCATGCAATGAGGCACTGCTGTTGTGGGGTGTTGGTTTGAAGAACTCATAAATGGTAAAAGTAACCTGTATTATCATTGGTTC
TAGGGGACTACTGAAGATAAGAATTTTCAACCTTCCTCTTCGTTGTCTGCTCTCCCAGGCTCATTGAAGGAACATAGAGAAGGTTTAGGCCCTGTTTCTT
TTCGAGCAGCACAGAAATACTTGCCCAGTCCGTTCGTGGAAGGAAAGAACCGAAGCCAGCCCTTGGCTGCCATTCTTTCCAGACTTCCACCATTGTGCCC
TGAGTGGTTCCAGAATGTCATTGATGGGAAATTGGTTTTCTTTCCTTCTGGACATTCAAAGATTAATATGTTACTGTCATCAGTGACTTGTTACCTTCTG
TTTCTGATTGCCAGCTCATCAGCTTAGTTTGCCCAGGAGAGCCACTTTTTCCCACGTTCTTTTACTTGAGTTCTGAGACAAGATTTGATACCCATTCATT
TATAGGCCAAATCCAGTTCTTATTTTAATTTTTTTTCCCAACCCCTAAAAAGCATTTGCAAACACTCCTCCACACTGTTCAGATGAGCGATGTGTGAGCA
TGAGGAGACATTCCTTAAGCCAGCCTGGTCTGTGGAGGTGTGCTCACTGCTGCAGGGCCATTTGCTGAGCAGGAAGCTGGCCTCAGGGGTCTCCCAGGAT
GCTGGGGCTGGTGGACGACCCCAGAGAAGGGACAGGATGGGGGGTTATGGAAGTGCCCAGCAAGGGGAGCTGCAGGAGGGTCTCTTTACAGGTGTGCAAA
GGACCAGCGCTGCTGCAGGGAACATGGCTGGGAGGGCATCCACCGGGGCAGGGGTCTGGGCAAGGGGCTTCTCCCCTTGCTAGGCCCCCTCCTTTTGTTC
AGCTCCTCCTCTCCAGCACCAACCTCCCATCACTTTMTACATTCTGGCCCCTTTTTCTCCTTTCCTTCTTTCTCTTCCATTCTCCTTTTTCCTGTAAGAC
TGTCCTTGCTTCTCTTGTTTAATTTCTTTTTTCTTCTTTTCCCATCCATAACCTCATCATTGTCTTTTTCTCCCTTTCTTATTCTCTTTTTTCTTTGAAC
TTTTTTTTATTGTGGCAAAATACAGTCATGCATCACATTACAACATTTTGTTCAATGATGGACCAAGTAATGTGATGGTGGTCCCATGAGATTATAATAC
CGTGTCCTTACTGTGCCTTTTCTATGGTTAGATGTTTAAATACACACTTCCCRTTGTGTTGCCACTGCCTACAGTTTTTGATACAGTCACATACTGTATG
GGTTTATGCCCTGGGAGCAATAGGCTCTGCACATAGCCTGAGTGTGTGGTAGCCACACCATCTAGGCTTATGTATGGACTCTGTGATGGTCACACAATGA
CAAAATCGCCTAACGACACATTTCTCAGAATGCATCACTTAACGATGGGGATACATGGCTGTATGTAACATAAAATTTGCCATTTTAATTGTTTTTAAGT
GTTCAATTCAGTGCCGTTGAATTATATTTTCACATTCACAGTGCTGGACAACCATGACCGCCATTCCCAAAACATTTTCTTCACTCCAAACAGAAATCTG
CTAACCATTAAGCAACAACTCCCCAGCCCCTACTTCTCCCAGCCCCTGTGACCTCCAGCCTGCTTTCTGTCTGTGAATTTGCCTCATCTGGATATTTCAT
ATCAAAAGAATCATATGATAGTTGAATATGGATCCTTTTGTGTCTGGCATCTTATATTTGGCATAATGTTCCATGTTGTAGCATGTGTCTGTACACCATT
CTTTTTAAAGGATGGATAATATTCCATAGTGTGGATTTACAACATTTTGTTTGTTGACAGACACTTGGATTGTTTCCGCCTTTTGGCTGTTATGAAGGAT
GCTGCGTGAACATTGTCACACAAGTATCTGTTTGAGTCCCTGTTTTCAGTTTTTCCTAGGGTATAAACCTAGGAGTGGAATTGCTGGGTCATATGGTAAC
TCTGTTCAACTTTTCAAGGAACCACCAAATTCTTTTTTTTTTTCCTTTATTTCTTAAAAAAAAAAAAAAATAGATGCGCAGATTGTGCAGGTTTGTTACA
TAGGTATACATATGCCATGGTGGTTTGCGGCACCTATTGACCCATTTCTAAGTTCCTTCCCCTCACCCCCGACCCCCAAACAGGCCCTGGTGTGTATTGT
TCCCCGCTCTGTGTCCATGTGTTCTCGATGTTCAATTCCCACTTATGAGTGAGAACCTATGGTGTTTGACTTTCTGTTCCTGTGTTAGTTCGCCGAGGAA
GATGGCTTCCAGCTTCATCCATGTCCTTGCAAAGGACATGATCTCATTCCTTTTTATGGCTGCATAGTATTCCATGGTGTATATTTAGCACATTTTATTT
ATCTAGTCTGTCATTGTTGGACATTTGGGTTTGTTCCATGTCTTTGCTATTGTAAATAGTGCTGCAATAAACATATGTGTGAATGTGTTTTTATAGCAGA
ATGATTTATATTCCTTTGGGTATATACCTAGTAATAGGATTGCTGGGTCAAATGGTATTTCTGGCTCTAGATCCTTGAGGAATCGCCATACTGTCTTCCG
CAATGGTTGAACTAATTTACATTCCCACCAACAGTGTAAAAGCATTCCTATTTCTCCGTAGCCTCACCAGCATCTTTTGTTTCCTGACTTTTTAATAATC
ACCATTCTAACTGGCATGAGATGGTATCTCACTGTGGTTTTGATTTGCATTTCTCTGATGATCAGTGAGTTGAGCTTCTTTTTCATATGTTTATTGGCTG
CATAAATGTCTTCTTTTGAGAAATGTCTGTTCATATCCTTTGCCCACTTTTTGATGGGGTTGTTTGTTTCTTGTAAATTTGTTTAAGTTCTTTGTGGATT
CTGGGTATTAGCCCTTTGTCAGATGGATAGACTGCAAAATTTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGATAGTTTCTTTTGCTTTGCAGA
AGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCAATTGCTTTTGGCATTTTTGTCATGAAGTCTTTGCCCATGTCTATGTCCTG
AATGGTATTGGCTAGGTTTTCTTCTAGAGTTTTTATGGTTTGGGTTTTCATTTAACTCTTTAATTAATCTTGGGTTAATTTTTGTAAAAGGTGTAAGGAA
GGGGTCCAGTTTCAGTTTTCTGCATATGGCTAGCCAGTTTTCCGCATATGACTAGCCAGTTTTCCCAGCACCATTTACTGAATAGGAAATCCTTTCCCCA
TTGCTTGTTTTTGTCAGGTTTGTCAAAGATCAGTTGGTTATATATGTGTGGTGGTATTTCTGAGGTCTCTGTTCTGCTCCATTGGTCTATATGCCTGTTT
TGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTATATAGTTTGAAGTCATGTAGTGTGATGCCTCCAGATTTGTTCTTTTTGCTTAGGATTGT
TTTGGCTATACAGGGTCTTCTTTGATTCCATATGAAATTTAAAATAGTTTTTTCCAATTCTGTGATGACTGTCAATGGTAGTTTCATAGGAATAGCATTG
AATCTATAAATTACTTTGGGCAGTATGGCCATTTTCATGATATTGATTCTTCCTATCCATGAGGATGGAGTTTTTTTCCATATTTTTGTGTCCTCTCTTA
TTTCCTTGAGCAGTGGTTTGTCGTTCTCCTTGCACACGTCCTTCACATCCCTTGTTAGTTGTATTCCCAGGTATTTTATTGTCTTTGTAGAGATTGTGAA
TGAGAGTTGATTCATGATTTGGCTCTCTGCTTGCTTATTGTTGGTGTAAAGGAATGCTTGTGATTTTTGCACATTTATTTTGTATATCCTGAGACTTTGC
TGAAGTTGCTTATCAGTTCAAGGAGTTTTTAGGCTGAGATGATGGGGTTTTCTCAATATAAAATCATGTTGTCTGCAAACAGAGACAATTTGATTTCCTC
TCTTCCTATCTGCATACCCTTTATTTTCTTCTCTTGCCTGATCGTCCTGACCAGAAATTCCATTACTATGTTGAATGGGAGTGGTGAGAGAGAGCATCCT
TGTCTTGTACCAGTTTTCAGAAGGAATGCTTCCAGCTTTTGCACATTAAATATGATATTGCCTGTGGGTTTGTCATAAATAGCTCTTACTGTTTTGAGAT
ACATTCCATGAATACCTAGTTTATTGAAAGTTTTTAATATGAAGAGATGTTGAATTTTATTGAAGGCCTTTTCTGCATCTATTGATATAATGATGTGGTT
TTTATCTTTGGTTCTGTTTATGTGATGATTTATGTTTATTGATTTGTGTATGTTGAACCAGCCTTGCATCCCAGGGATGAAGCCGACTTGATCATGGTGG
ATAAGTGTTTTGATGTGCTGCTGGACTCTTTTTGCCAGTATTTTGTTGAGGATTTTTGCATTGATGTTCATCAGGGATATTTGCCTGAAGTTTTCTTTTT
TTGTTGTGTCTCTTCCTGGTTTTGGTATCAGGATGATACTGGCTTCATAAAATGAGTTAGGGAGGAATGTCTCCTTTTCAATTGTTTGGAATAGTTTCAA
AAGGAATGATACCAGCCCTTTGTATTTCTGGTAGAATTCAGCTGTGAATCTGGTCCTGGGCTTTTTATTGWTATTTATTTATTTATTTATTTATTTATTT
ATTGGTTGGTAGGCTATTAATTACTGCCTCAGTTTCAGAATTTGTTATTTGTCTATTCAGGGATTTGACTTCTTCCTGGTTTAGTCTTGGTAGGATGTAT
GTGTCTAGAAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCATAGAGGTATTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGGTCAG
TGGTGATATCCCTTTTATCATTTTTTATTATGTCTGTTTGATTTTTCTCTCTTCTTCTTTATTAGTTTAGCTAATGGTCTATCTATTTTGTTAATTTTTT
TCAAAAAAACAGCTACTGGATTCATTGATTTTTTTYCCCCCMAAAAAACCAGCTACTGGATTCATTGATTTTTTTTTTTTTTTTTTGGAGGGTTTTCCTG
TCTCTACTCTATCAATTCTTCTCTGATCTTAGTTATTTCTTGTCTTCTGCTAGCTTTTGGATTAGTTCGTTGTTGCCTCTCTAGCTCTTTCCAATGTGGG
CATTTAGTGCTATAAATTTCCCTCTGAACACTGTTTTAGCGGTATCCCAGAGATTCTGGTAAGTTATCTCTTTGTTCTCATTGGTTTCAAATAACTTCTT
GATTTCTGTCTTAATTTCAGTATTTACCCAAGAGTCATTTAGGAGCAGGTTGTTCAATTTCCATGTAACTGTGTGAGAACCGCCAAATTCTTCTCTTACA
TCATTCTGTGACTTCACCTTGTCCTCATCCGTTCATGCRTAATACGGAATTAAAGAAGCTCCTGTAATTAGGCTCCCTCCTAATTACAAAAATAGGTGAT
ATAAACATGTTAAAAATATTGTTGCTTTTTCCAGAAAATCAAACCGAAAGTATGCAGAATGTTGGTAGTTAAAACTCCTTTTGTTATTTTGTGTTYGTTC
GTTTGTTCTGTTTTGTTTTTTGAAACAAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGTGGTGGCATGATCTCGGCTCACTGMAGCCTCCACCTCCAAAG
TTCAAGTGATTCTCCTGCTTCAGCCTCCCGAGTAGATGGGGTTAAAGGTGCCCACCACCACGCCCAGCTAATTTTTGTGTTTTTAGTAGAGACAGGGCTT
CACCCTGTTGGCCAGGCTGGTCTTGAACTCCTGACTTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGGTAGGATTACAGGCGTGAGCCACCGTGCCT
GGCCTAAAACTCCTTTTGATTGGTGCGTGGGTGACAATGGATTCCCTGTCCCTGCTGCCATGAATCAGTCGCACCTGCTTCAGATACTACTCAGAATTTC
TTGTCCTTAAATGCCACCCCCAACCCCCGCCCCGAAGTCAGGAAGTGATTTCTGAACTTTAGCGTAAGTGTTCTCTGGCAGGTATGGCTGTTTTTCTGAG
CAGTAGGTACTTAGTCAAGGCATGCAGGCGTTTCTCCTTGTTTTAGTTCATCTGCAGAGGTCAGCTTTTTCCATTGTCTCTGAAACACTTGCATTTTTCC
TGTAACTTTCCAGTAATGAGGGGGCCCAGTGGGTAAATGGAATCTTAAAGACGAGAAATGATTATTTTTTTCCCGCCGACTCCACTCTGGCCAAGACGAG
CTCTCAGATTGCACTTCAGAATCGGTGATGCGCACTCATTCCCCTGCACCCACCCTTTTTTCTGTGGTCAGCATGTGTTTCCCAGACTGGGCGTCACTGT
CGCCTCCTTGACTCTCATCACTCACATGGTCCCCCAGCAGGTAACTTGCTTCAGCGCCACTTTGCCTGGGTGCTGGTGATCCTCCAGTTCTCACACACCT
GCACCTTGGGGTCGYTGAGTTTTAGTTTAGGTCTTCCGAGGAATGCACAGACCACACGTTGTCAGGCTTCCCTTGGCCAATAATGTGGAGTCTTTTGGTT
TTTCTGTTCTTCAGAGTTTGCATCCCCTGAGAATTCCTCTCCTGTGTCCTTCAAATAATAATGTGAGATGAAGATGATGATGATGGTTGTTGTTATTTAA
AACTGCAAGACGTAGGCAATACCAGGTCTTAACAGCTTGTTGTCTGTGGTGTCTTCCTTCTTCCCTGGAATTAGATATTTTTCGTTCAAGCTGCTGACAG
GTATTTATTGACCAGGTACTGTGTAGAGGTCGCTGCTGCGTGTGGCTTCACCCAGCTCCTCTGCCCATCTGGTGACTTTGCAAGCTCACAATGTCCTGAA
TGAAAACCTAGTTCCTAAGCCCTTCCCCCAACTGGAACCATGGAGGGAGGAAGAACAGACCAGGTGAAAACATCAGGAGGAGGGTCCGCAGCTCGATGGT
GATGAGTGTAGGGGAGAGGTGGGTGCTGGGACAGGATGAGCTGGGCTGGAGGAGGGTTTGCCCTAGGGAGGCAGCCCCAGGCAGGGCCTGGGCACACTGG
TGGCGTAGCTGAGGGGCTGCCTGCGTGCAAGGAGGACATGAGGCCACATACAAAGCTTAGGGCCACCCAGGAAGATGTGGGAGAAACTAGAGGGGATTAG
GAGAGTTCGGGCTGCACCAGCTCCTGGGTGTTGGTTGGAGAAAGAGTCATGAATCAAGGAGCCCAGGAGGACGGGGAATCCCTGGAGGAGGTGGGTCAGT
GGGAGGAGGACTGAAGACATTGGCAAGCATCAGTCCGTGCGGGAGACGTGCATGGAGTGGAACGGTCACAGCAGCAGCTCACAGGGAGGGACAGCCTCGG
AAGAGGAAATCCATGCGTCTTCCTTTTGCCCACAGGAGAAGAGATGAAAGAGAGGGGAGGGGCTGGCCAGTCAGCAATCTGGACAGTTTAGATCATTCAA
ATGCGTAGCCGGGGTTGGGAACCAGTGGTTTAGGTTAAGATCAGCTAGATCTGTGTGAAGGACCAGTGTCTCACGGAGATTCAGACTCATAAAAATGTGG
GCCACACCCCAGGACCCACAGCCACACAAGCCGTTCTTATGTTGTCCCAAGTGCTCTACCGTTAGGATTCCTGTTAAAACCTTTTTTAATGTTTTTCCTA
CCCTGTCTTATTGGTTTAAATCAAATTGCAGAAAAATAAAAGCTCAAATATTATCTGTTATGTCAAAGTTACTATTTGAGCTGTAGATGCTGTTTTCAAA
ACAGATCATCCTCCTTAAAGYACCCATCTCTCTCCACTGACATGTGCCCCTGYGTCCAGCCGCACCTTCCAGCAGAGTTCCCTGCAAAGACGCTTCCCTG
CAGCCTCTGTGGGTCAGGAATTAGAATGGGTGCAGCTAGGAAGGCCTGTGTCTGCCTCGTGATGTTTGGGGCCTCACCTGGAAGACTCAGAAGCCAGGAC
TGGCAACATCCCGAATCCCAGTCACTCGTGTGTTTGATGGTTGATGCTGCCTGTTGGGTGGGACCTAAGCTGGGGCTGTCAGCCAGAACACCTACACATG
ACCTCTGCAAGTGGCCTGGGCTTCCTTCCAACATGGTGGCTGGGTTCCAAGGGCAGGCATCACATGAGAGAGGTACATGGCTGGGCAGAAGTCTTGTTTC
CTCTGTGACCTTGCCTCAGAGGACACAGAGTGTCAATTTTACTCCATCTGTAGTCAACACAGTCAGAGTCCCACTTAGGGTCTAGGGTAGCAGAAATAGA
CTCTGCCTCTGGATAGAGAGTGGCAAGGTTCTAGAAGAGCATGTGGACTAAAATATGACCATGGCCATTTTTGGAAAATGTAATTTGCAACAGTAAATAA
GTGAATGTGTATTATGTCAGATTGTGATCAACACAATGGAACAAGATAGAGTAAGAGGAATTGGGACCACCAGGGGTGGGGCAAGGTTCTTTTCTGCAAA
GGCAGCCAAGCAGGGCTCACCGAGGAGACCACATAGCACAGCCCAGCAAAGGTGAGGCTGTCGCCAGGTGGCCCTCTGTGGTCGGCATCTTCCTGGCCAG
GGAATTGTGTTTGCACTGTTGTGGTGGCCACCTTAAACTGAGTACTTGTTTGTAGTTAACATCACGTGCTATATGCTTATGTTCTACTGTATTGTGTAAA
ACAAGCTGAATTTTACCTAGATTTTTGTGTTGTACTTATTCTCTGGTAATATGACTGGAGAAGTATTTTATGTCTCAAGAATTATTATGCATTTCTTATT
TCTCTGTCCTTTAATTTTGAAGGGTCAGTWTAAAAATACTTTATTCRGTATATTCTAGCTCATTCTCCACATACAATTATATTCCAATATTTGTAGGGTT
TATTCTCTCCAAGCAGCATGATCAATCAGAAAATTGGACAGTTTTAAAAAGTGGTCCAGAGAACCAGCAAATATGAAGGCAGGCTAATAAAAATGCATAT
CACTCTAACAGTTTCAAGGCAGTTTCCTCGGGAGACTGAGGTGGGAAGGTCGCTTGAGCCCAGGAGTTCAAGTCCTGCCTGGGCATCCCAGTGAGACCCC
ACCTCTTAAAAAAGGAAAGAAAATGGTTTTTTAAATCATTTCATTTCGTATAAGATTATTTTSCGAGGTTGGTGCATGACATTGGAGTTGCCCAGCAATT
GGAAAAAGACATGAGCGTTTAATACTGGGCGTTCTTTCTAAGGCTCTTAAAGTGAAGGCAATCACATAAGGCTATCTTGCTTCATGGGTAATTAAGGCAT
TTCCTTCTGCAGTTCCCAAATCTAATGAAGAAGAAGGAATTTCTCTTTTGCTGAAATATTTCTTGTAAGGTTTTCATTTCTTCTCATTGCTCCGACTTTG
GAAAAATGTTCTTTTTACCTCTGATTTTCTCTTGTAATGTCTTCTTGAATTGTGAGTCGGGGAAAAAAGTAAAAGATTCGCTACAGATTCAGACTKGCAA
AAAAACGCTTAGAATCTTGCTGTCCGTAAAACTGAAACATCCAGCCTCACRAATGTCCACATTTCTCTCTCATCTGTGAAGGCCCGTTGAGACTGCTCAG
TTGGTGTCTCCTCTGTCCACAGGACATGGCCGTAGCCGTGTGTGGAGAAGGGTTGTGATGGTGGCCATCACGAGACCCAGATAACAGGAGTGGTTAGAAG
CGCAGCGGAGGAGCCTGTCTTCCTGGGTCCGAGTTGCGTGGTTAGGAGCGCAGCGGAGGAGCCGGTCTTCCTGGGTCCATGTTGCGTGGTTAGGAGCGCA
GCGGAGGAGCCGGTCTTCCTGGGTTTGAGTTGCAGCTCCACCTCTTCCTGGCGGGTGGCCTGGGCGAGTGCCTCACGCTCCCGTCAGTGCTCTCAGCTGT
AAAATGGGAACGATCAGGTTGTCTACCTCCAAGACTGTTGTCAGGATTCACTCAATGAACTCCTGTGCTTTGAGTGTCTGGCGTTCAGTGGCAGGGGACC
CTCCATGTGGGGACAGAGACTGCCACCCATTCCTTTCTGAGGATTCAGTTCTTATAGACTACAGTATTACTCGTGGGAGCCAAATTATGTGCAGTGTATT
TTCAGATTTTATTGACTCACCTAAGAAAGGCTCGGGGACACTGTTGTGTTCTGATGTAAGAGATCACTTGTTATATTATGCTTTTTAAATGTTGAAGGCA
ATACTCATCAGAGTATGCATTAAGTAGCATTGAACCACATTTTTAAGGTGACTCTTCAACTCACCAAGAATATCGTGGCCGCTGAGGTCCTGCACACCTG
GGGATGCGTCGTGGGCGCCGAGGAGAGCGTAGCCTCCTGTTAACGTAGCCTCCTGCTGCTCTTTGGGGTAGACCAGCCGTTTCCACGCACAGGCTGCACA
TTGTTTCATGGCCTTTGCAGTTGAGCTTGTGTTGGCCTCTTTCCGTCGTGAACCATGGACGTCTCTCCTTGACCTCCTCCCTACCTGGGAGAACCTGGCT
GGCCACATAGTGGAACTGGAAATGCCTCCATGCTGACGTGTCTGCCTTTCATGAAAGATAGTAGCAAAAGTTATTGTTATACGTTACAAAAAACCAGTTT
AAGACATGGACTTTTTTCATATGTACATCTGAAAATGACTTTAGCAGAGATTCTAGCTAATACATGGAGTTGTGCTTCCTAAGTATTGATAGCGGCGTAT
ATATAGGATTCCCACAATTTGCAGTTGTACAGTTCAAACACCAAACTGTTTGTGGGGAGGAGGGTGATTTGCAGTGATCTTTTCCTCAACTCAGGCCAGT
CTATACAATACTATTGATATTTACTGCCTTGGAGCAGCCTTGGCAGCCTTGTATTCTGAGCTGCTGTCAGTGGTTTAAACATTTCACTTGGGTTAGCCTT
GTCCCTTCGACTAGGCTGGAAGCCCAAGAAGGCAGGAGACTCGTCTCAGATATTTCCTGGTGTCCCTGAAAGTCCAGCACAGTGTGTGCACGTGGTATGT
CCCTGATGGAAACTGCTTCTCAAAGTGGAAGACAGGGAGCACCTCTGCAGGCCTATAGGGAGGTAGTAATTGGATTTGCGATGTATTTCTTTTCTGCAAG
TATGGTTTTGTGTGATAGAAACCAATGCTTCCCAAAGTTCACATTGTGGAAACTGAAGCCAGCAAGATACTGTGAAGGAAAATGCTTGGAGAATGTTGCA
GCCTGTGTCCCTGTTGGAGTTTTTGCTGCCCAATACCAAATTAAGGGCTCTGAGGAACGCTTCCTTTGAAAATACCCTAGTTTAACTTAAACTCTTTCTT
ACCAAACCAGCTATGCCACGCCCTTCTGCTTTGGCTGTGTAGATGCTGTTCCAGTCCTGGGGAGCACAGGTGTGTCCTCACGTGCGCTTGGAGAAAGTGG
AGTTTTAATTACTTACCCAGCAACATTCAGGACGTCCTGAGACCTCGTCACTTCTGATTTGGGAAAAGTCTGTGAGCAAATGGGATTTTACTAATATGAA
AACCCAGAACATTCCAGATGTCCTAGGAACACAGGTCCTAGGTGTTTTTTTTTAGCTTGGGAAAGTTACGATGACCCATAAGCCTGCTCCACAGSATGGC
TGTAGCACAGACACCTTCCCCTGGGACCCCCATTGGCTGTGTGTCCCCCAGCTTCTAATTCCTCTAGAATATCATGCCCAGGTTAGGCACTCTTTCTGTA
TTCCCCAAAGCTTCATAACATGGTTCCATATGTGTCCTTTTTAAGAGTCTTGTCGTTTCATACTCTCATTTTGGCAAGACACCTTCGTCTTAGAGTGCCT
ACATCCATTTCTGTTGAAACTGGTCATAGTTAGCATTTCTCCATGTCTGTGCTTTTATGCCCTCCTGAAAGCTGGTTCCATTTAGGGGTGTTCCCTGTCA
TTTTCGTGCTGTGCAATAGTTGATGAAGATAACATAGTTTATAACGCACACCTCAAAATTCATTTCTTCTCACGTAACAACTTTCTTAGTGCTTGTACTT
GTGTGCCTCTYGGAGTTACTTGTTGATAGGACAGCGTTAAGGGGGTCGTTTCTTTCTGGTTTGAAAGTTGAGAAGTAGGTCATCACTGTCATCGTCATAG
TGGGGACACACTGAGAGGTTACTTTCTACCAAACTGTTTCCTAATTGCACTCCCTGCATTGTCTTATTCAGTCCCGACTTTCCCAAYGCCTCGCAGCCCG
ATGATACAGAGACGGGGCAGCAGTGGAGAGCTCGGCTCAAAGTGCGAAGTTGTTTAGATTTCCACGTTACACAAACACACAAGCTTCTCAGGGGAAGAGC
ATGATGAATTTCTTTCTTTTTTTTTTTTTAAACTAAAATTAGAATAGGCCGGGCCCAATGGCTCACACCTGTAATCCTAGCACTTTGGGAGGCCGAGGCG
GGCGGATCACGAGGTCAGGAGTTTGAGACCAGCCTGGACAAAATAGTGAAACCCCATCTGTACTAAAAATACAAAAACATTAGCCAAGCGTGGTGGTAGG
CGCCTGTAATCGCAGCTACTTGGGAGGCTGAGGCAAGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGCCTTGCACTCCAAC
CAGGGAGACAGTACAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAGAATAAGATACAACAGTATCTTATTCTGTACCACAGTAGTAA
ATATGTTATTTGGAATATAGCTTATAAATAAAATATTTAATTTACTTAAAGCTGTCATGCCCACCACCCTCCCATAGTGAAAAACCAAAGAAAAGGCTAG
GCCCAGTGGCTCATGCCTGTAATCCCAACACTTTGGGGAGCCGAGGTGGGCAGATCACTTGAGATCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAA
ACCTGTTTCTACTAAAAATACAAAAATTAGCCAAGCTTGGTGGTGCGCACCTATAATCCTAGCTCCTCGGGAGGCTGAAGCAGGAGGATTGCTTGAACCT
GAGAGGCAGAGTTTGCAGTGAGCCGAGATAGTGCCACTGCACTTAAGCCTTGGTGACAGGGCAAGACTGTGACTCAAAAAAACAAACAAAAGAAAGAAAA
AATTCTACTTAAAGAAGAAAGACCCTCTGTGCATCATAGATGGCAGGCACATTCACCGTGCACGGCAGCCCCACAACAATGTGTGGTAGACAACCTTAGC
AGGGCAGCTTGACACTGCGGGTCCGATTCTGCCATCAAGAAAGCTGCACAGACCTCATCAGAAGCCACTGATGCTTTGGTCCTATTGAGGATTCCATCTC
TCTGTCTCGGAGCCATACTCTAGATGCATCACTGCAAGCTGTGGCCTGAGTGTGGTGATGGTGAGGATGACCCTGTGGTGGTATTCCTTTCTTTCTTGCC
TCTGGCTCTTCTCTCCCTCACTTTCCCTCACCCATTGCCAAAAATGGGTTTGGAGGTCATTGTGCAGTGGGTTTGGAGGTCACTGTGCAGTAGGTCTGGA
GGTCAGCCTCAATAAAAGACCAGTTTTCAGCCCTCACAGCCTCCCTGCAGTGTTATTAGCTGTTCCTGATTTGGATGTGTAAGCCCAAGCCGCCACGTGG
GCTCGGAGGGGTACAGAGATTAACTGGAGGCTTGCCAACCRTTTGTCACACAAATAGCAGTGCCAGTTAACTGAGATACGATAAATCATTTTTCTCAAGA
TTGAAACCTTTTATCAGTTGTGTCAGTTTCATTATTCGATAAGCAATTAGTAGCAGCCATTGTCATTTAGTTATCTGTAGTTAACAACTCAAAGCTGCTG
CCAGCAGGGCACCCGCTTGACACCTGCACCCAGGTGGAAACCCGTCCACTGCCCACCTCTCCAGCAGAAATTAGGCCAAACTCGCCTCCTACTGCCCCTT
GGCCGATTGGAGATTCGTATCTGACAGGTGTCTTCTAATTTTTTTAACTTACGCTCTGACACATAGTTAAGTTGTGCTGTAGTTAAGAGAATAGTAAACA
GGTGAGCATTATTCTATTACCACCTACTGATCCTTTTATGAAAATATTCTTGCCTTTTAATTTAAATGCCAACCATCTTGATTAGAGAAATAGTGTTATT
CCTTCCTGCACCCAAGCCCTGACGTCAGYATGACCTGGCGGTAGAGCCAGCCCCTGCCAGCTGGCTGCCCCCGGGGACCTTCTGTTCACCATCAAGCGGC
AGTTCATCTGGAGTAAGGAGAGAGGMTGGAGCACAGCTCCCAGCCTGCAGGAACAGACCTCTGGAGATGCCAAGGGCCTGAAATCTGTGTGTAGGTTTAT
GTAGACAGAAGTAACCATATATTGAAATTGTGGTTAATGGAAAGCAAAGTCGTTTTAGAATGTTGCCAAATTGTGCTCATCAAAAGACGCCTGCATACTT
TTTAAAAATTGGGAACCACTGAAAGAGATTAATCCTTGCCAATTTTTTCACTTTTTCACTCAAGTCTAATTTATCAGAAAAAATAATTCCACCACTAGCT
AAGTGTAGGAGAAGAAAAAAATCACTGAATGTATGTATCATTGAGACCTATTTAATTATTCTACCAGTGTTCTGGCTTTACCCATAATGAAGACAGGAGT
GTGTGTGCATGCATAGGTACATAGATACATGCATATTGCCTTTAATGAAGATCTTTTTTGTTGTTGTTGTTACGGAGTTTCACTCTTGTTGCCCAGACTG
TAGTGCCACGGCGCAATCTSGGCTCACTGCAACTTCTGCCTCCCAGGTTCAAGTGATTCTCCTGACTCAGCCTCCCGAGCAACTGGGATTACAGGCGTGC
ACCACCACGCCTAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCACC
TCGGCCTCCCAAAGTGGGGATTACAGGCATGAGCCACCGTGCCCRGCCTAATGAAGATCTTTTAAAATATAACTCATAATTTAAGACGTCATTCTAAATT
GCATTTCTAATGCTTTCCAGCACCTTTCTCTACTACCTTAAGGTTAGTGTTTGGTATTTTTGTAGCGCGGCCATACATTTTTGTGAGGCCTGGAGCCCTG
TCTTGTGCCTTCCACGCCCGCAGCATCTACACTGACTGTGTGGTAACTGCCCACTGTATGTGGGGACTGCATATGTTGATCCTTGTGAAAGCTTTTGGTT
TATTGTTTAAGAAGAAGCGGTTTTGAGAGCTTCTCAGCCACTCCAGCTCCCCAGCGCAGTCCGTCTCCAGAATCACCAATAAAAACTTTTTTTTTTCCTA
ACTAAAAAATCTGAAGACCATTCAAATGGAAGGTTCTGGTCTGCCCTCTTAATTGTATAGTAGCTCAGTCCCTTCTGTAGGGATTGTATTTTTAAGAGGA
CTTCCCAGTACATTTGTTTATGGGGTATTCTTTGAAACCACGAGCCACAGTCGTCTTCCACGTAGCATTTCGGGGTCTCGGAGGCTGGTGTTACACATGA
AGGGCCCACAGTTTGGATGCAGTTAGGTCACTGTTATCTGCTGTTTTACTCTGAAAGTGGACCCCAGGCATTTTTAATTTCAGTGATTAACAAAATCATG
TCAGTAAACTGAGAGACTAACAAAGGATTGACCAACTTTGAGTTTTGCCAAGCAAGGATATTTAAAACAATAACCACCGTGGACTGCCACCATCATTTCA
TAGAAGAAGACTGCATAAGTGCCCACAGGAGAGAGCAAGCGTTAAGCTCTGGCCGAGGTACAATTAACTGACTTACCCTGATGCTGCTCAGAGCCTCTTT
TTCTAATTTTATTGCAGATGGGAGAAAAACATTTTGTATTAGTGTTTAGGAAGCTCTGCTCAGTTACCACCTAGTGGAGAAATCTAGGAGAAAGGGCTAA
AGATGACCTGAGACATATGTCAGGTTTCCTTGACTCCAGGAACAGGAGTGAGAAGATGGATGCCTTGGAGGTGAGCCAGCAGGCTCCAGGGTCCCTCTAA
CTGAGCCCCTATCTTACCCCTGAAAGCTGTGGGGCTTCAACCTAGTTCTTACACCTCTGGAATGGAGATAGATTAGTACTTCACTCATGGAAAGGCTGGG
AAAATGGAATGAGATAATACTTTAAGGCCAACTTTCTAAATATAAGTCTATGGTAAGTGCTCAGCATGGTACCTGGCTCAGCAAAAGTTAGGGATGGTGA
CGGTGATGATGGTGAGAGGTGGTGGTGGTGGTGGTGGTGACGATGGTGGTGGTGGTAGCAGTGATGATGATAGTGGTGATGATGATGGTGATGGTATGAT
GATTAATATGGTACAGTGGTGATGATGGTGAGAGGTTATGAAGGGGGTTGTGACAGTGGTGGTAATGATTGTGACCTTGGTGAGAGTTGGTGATGGTGGT
GGTTGTGAGTGTGGTGACCATGGTGAGAGTTGGTGGTGGTGGTGGTGGTGGTGGTAGTGGTGACGGCAATGACGATGATAGTATGATGATCAATATGGTA
TGGTGGTGATGATGGTGAGAGGTTATAGGGCTGGTGGTGACGGGGTAGTGGTGGTGATTGTGGTGACAGTGGTGAGAGTTAATGGTGGTGGTGGTACTGG
TGATGGCAAGAATGATAATGATGGTATGGTGACCAATATGGTATGGTGGTGATGATGGTGAGAGGTGGTGGTGGTGGTGACAATGATAGTGATTGTGGTG
ACGATGGTGAGAGGTGGTGGTGGTGATGATGATGATAATGGTGATGGTGATGATGGCAGTGTGATGACCAATATGGTATGGTGGTGATGATGGTGAGAGG
TTATAGTGGTGGTGACAATGATAGTAGTGATTGTGGTGACGATGCTGAGAGGTGGTGGTGGTGATGGTGATGGTGGTGGTGGTGGTGGTGGTGATGATGA
TAGTGGTGATGGTGATGATGGTAGCATGATGACCAATATGGTATGGTGGTGATGATGGTGAGAGGTGGTGGTGGTGGTGATGATGGTGAGAGGTGGTGGT
AGTTATAGTGGTGGTGACAATGGTAGTAGTGATTGTGGTGACGATGGTGAGAGGTGGTGGTGGTAGTGGTGATGGTGGTGGTGGTGGTGATGATGATGAT
AGTGGTGATGGTGATGTTGGTAGCATGATGACCAATATGATATGGTGGTGATGATGGTGAGAGGTGGTGGTGGTGGTGATGATGGTGGTAGTGATTGTGG
TGACGATGGTGAGAGGTGGTGGTGGTGATGATGGTGGTGGTGGTGGTCGTGGTGGTGATGATAGTGGTAATGGCGACGATGGCAGTTTGATGACCAATAT
GGTATGGTGGTGATGATGCTGATTATGATGTTGTTGGGAGCAGGAGATGAGGAACCTGTATCTTGATGCTTCCCTGAATGTTGGGGGTCAGGTCTGAGAT
GTGTCAAGCGGGGCAGTGTTCTGACTTCCATTCATTAAACTTGTAAGTCACGATTTGTGGGTGCTCCTGATGTGTGCCCATAACAAACCTGCTACACCAA
GAACGTAGTTTTATAGTCATGAGTTCCGAATAGTCTCATAGACCATTGATCCTGCTTCTAATGACTGTCAGAAAGAATACGTGAAGGCCAGCTTCTAGAC
CAGTGTCCTCACGTGCAGGCGTCCTCGAAGGTTTGTTTGTTAGTAGCCATAACCGTGCAGCATCCATCGGGAGGACACACACCCCTGCAGGCCAGCTTTT
GTCTCAACATCACTGGAGAGCTGCATATTACGTTGTTATTTTTGTCTTTCCAATTACACTAACTCCTCACTCAATGTCATTCATCAATAGGTTCTTAAAA
CTTCGACTTGAAGCGAAAGGACTTATAATGAAGCCAGTTTTTTTCCTTATCAGCATCATAATGAAACAACGTGGGAGGAAACAAAGTTATTTGAGGACCT
GCTGTACACAGTTTTGCTTAAAGTCACACATTTCCAAGAACCTGTCAATGGCATTGAGGACTTTCTGTACAAAAATCACTACGCGTGACAGCTCAAATAA
TAAACAGTTGTTCAGAGACAGTGGTACTGCGTCCCCCTCCTCCAGTCCAGTCCCCCACCCTGAGCGTTGATGGTGGGGTGTGCATCCCCCACCCCCCAAG
CCTGTTCCTAGAAGGCCATGGCGCACCTGCTCTGTGCAGAGGCTGGGCGAACACCAGCCCGAGCCTGACTTAAGCAGGATGGGCATGGACATCGTTGGCA
CTCACTTCCCTGCAGGGAGGTGCACAGTGAAGAATAAAACACAGGTGATTTCAGATAGTGGCACATGCCTGAGGCAATCAGCCCCGATGGTGTGGCGGGG
CAGGTACTAGAGATTGTGTTTGCAGTGAGGGCCACTAAGGGGGGCGGAGAAGACCCCTGACAGCAAGAAGGAGCCCCACTTGTGCTGTTCTGTAAGGAGG
GTCTTCCAGGCACAGAGAGTGGCTGATGAGAAAGGGCCTGTGTGGAAGGAACCAGGGCCAAGCGAGGGAGGCAGATGCCGCGTGGCGTGAGGAGGGTGAG
AGTCCATGCCATAAAGGACTGTCATCCATCTGTCATTGGCTGAATTGTGACCTCCAGAAAGAGATGAGTTGTCCTAACCCCCACTACCTCAGAATGTGGC
CTCATATGGAACTAGGGTCATGGCAGATGTCATTAGCTATACAGGAGGGGAGGGGATGGACCCTCAGAGGCGAGACGGACGTACAGGAAACACCACATGG
AGACTCTGGCGGTGGCTGGGGCAGCGCGGCTGTGGGGCAGAGAATGCTGAGATAAACGCCACCATCAGAAACCAAGAGAAAGGAAAGGGACAGGTCCTCC
GGGGAGCCTTCATGGGGAGCCCTGGCATGGCCTTCAGGCCTCCGAGGAACCCAGAGGAGGAAACGCATTTTTGTGGTTTCACGCCACCCAGCGTGCGGTG
CATTGTGGCAGGTGCAGGCCGCTAGTGCCCCCCACCCAGTCTCTGTGTCCTCTGCACAGTAGGGAGCTGGGGAAGGTGTGTGGCTACTAACGTGAGCCTG
TTAACGTTGAAAATTTCCCTCTGGCGGCTGGGCAGAGTGGGCTGCAGGGGCTGAAGTAGGCAGTGGTGACAGTGGCTTCCCCAGGCATCAGCGCCACAGG
AGGAGAGACACAGACTGTGGCTTGCAAGCAGAGCTGGCAGGACTTGCTGAAAGAGTTAATATGGGAAGTGAGAGGACACAGAGGCCAGGGCCGGGAGACC
AGGAGGCCGAGAGCGGTAGAACGTCACATCCTGGAGGGGCGGGGATTTCCCCTTTTGTTTTGTTTCTGTATAAGATCATACCATGTATATTCTGGAATTT
TACTTTTCTAATTTAACACCCCGTGGGTCTCCAGTTCTTCCACAAGCTGTTTGAAAGGCCACAGGGCACTGCGTGGAATGCGTGGTCTCTAATAGGTTAT
GCCAGCCCCTCTCGTTGGGCATTGAAATTGCCTCAGCAGTTTTTTTAACAATTACCAGTAATACTTCCCTGAACATCATTGCACATACATTCTGAAGCGC
TCACGCTTTGTTCCTGTGGACATCTCTGCCTGATTGGAAGCTTGCGTTGCACATTCAGCCCACGCCTCCATGGCTGGTCCTGGACTGGGTGAGGACACCA
TGAGAAACAGCTAGACTTGGGATGTCTGTGTTGACAGGGCCATGGGTGAGAACAGAGAGTTTCTCAAGCGACATGCCAGGAAGAGCTGGCTTCCCCGCAC
AAGCAGTGCTACCAAGGGTCCATTTGTTACTGAGTCATTCATTCAGCAGACTCGTTGAGAACATGTGTGGTAGGCACGTGCTGGGCACTGAAAATAAACA
GACAAACACAACATGACCCACGCACCCAGCCTGAGCCCAGGAGGCTCCTGGTCCCGTCCTGGAACAGCCGGTGACTCAAAGCTCAAATATCATCCCCACC
TGGACAGTCTGCAAATGACTTTCCTTCTTCCCTCATCCCCTTTCCCATCCTCACTCTCTTCCAAGTATCTGATTGCACGCATGTGCACATGTGTGAGTAG
GGGAGAGGCTGTGTGTTTTCATAAGCGAATCCTGATTTTCTGACAAAAGAGACATGAAACAAATATGTTAACAAGTAATGTTGCTCCCTCTCATGAGGGG
GTCACTGGCTGCCCTTATAGAAGGCCTTGGAAAGAATTACTTCATGCATTCCTGTTCATTGGCGGTCTTTGGCCTTTGAGAGTGGAACTCTGCATCTTCT
TGTCCCTCCTGGATGAATACAGGACACTTAAACATTTAAAGGGGGGACACAGAGATGGGCAGGACTGTGAGAGTCCCCCTGAAAAGCGAGATTTCATAGA
AGTATTGAATTTTACCAAAAGTTTCAGAAGTCCAATTCATTATTAGATTTCTATAAATATAAATATTTATATGATATTTCTTGYGTTGAATTCAGTATGT
GCTCAAGTTAAGTGTGATTTGAAAAATGACCAAGTCTCCTAAGGTGAAGTTTGTGTGTGAACAGGAGGGCCGGGGTCGCTGGGTTCCAGGCGCAGCCATG
AGACACCTGCTCTGCACCCAGCTCTTCTTTTGTTTTGCTCACCGAGAAAAAGAAGACTCGGGAACCACAGAACTAACACAGAAGTAAGTTAGAAAATTAC
TCACGTATTCGCCCACTGTGTGCCAACAGAGTCTTGATCTATTGCCCAGGCTGGAGTGCAGTGGCACGGTCTCAGCTCTTACTGCAGCCTCTGCCTCCCA
GGTTCAAGCAGTTCTTGTGCCTCAACCCCCCAAGTAGCTGGGACTACAGGCACATGCCGCCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGT
TTTGCCATGTTGCCCAGGCTGGTCTCGAACTCCTGGCCTCAGGTGATCTGCCTGCCTCAGCCTCCCAGAGTGCCAGGATTACAAGAGTGAGCCACCACGC
CCAGCCCAGGATGCTTTCTTTTCATGGGTCTTTGTCCTTTGGAGGGCCTTGACCTCACGCAGCAGGGGAGGATGCTGGCCCACACCAAGGCACCAAGATT
TTACCCACCTCTGTGTGTGGTCGCACGTCCTCCTCATGGCCACGCTGGGATGGAGGTGGACTCTGAGCACAGACAAGGGACCCATGGCCCAGAGCCCAGA
GTCACCCGCAGCCCCCCTGCGCTGCTGCTGCCCGCATGGGGTACYCTTAAGTCCCACATCCAAGCTCCCTCCACCCCACACTCTCCCTTGGATTTGCGCC
TGTTCTTTCTCTGGCTGTGCACCTGGCAGTGCTGAGAGGAGAGCCTGGTGGGCACTTCCACCCTGATCAAATTCAGTCATTAACCCCACTGAAACCTGAC
AAGGCCTGTGTGCAGCTCACTGTGGAGGGGTCACTGCTGTCCTACCACTTTTTTTTTTTTCTGGAAGTTTGCATGTCCTACACTATCTATAAATATGTAA
CTTTTTTTCCAAAGAACTTAAAATGAAAGAATATGAGAAAACCCCTAAATAATACATACATGGTATAGATTGATGCATAAAACAGTCAGCCCCTGGACTC
CATGGCTCTGTGGAATGGGCGGTTTAGTATTCCTTTTTCTGGCAACTCACTTAGGGCTTTTACAGGTGCAATGAGCTTTGGTGAAAATAGCCAATGGGCA
CCTCGTATCTTGTGCCCCAAATATTCCTATTTAGCACAGTGTATTCTGGATGCCTGAGTGACTGCAAACCCTCCTCCTGTGTAACTTTGTTACTGTTTTT
CCTGTCTCAGGAAAGATGCTCATTTTGTCTCCTGACTGTGGCAGTTGGGGGTCTTGAGACCATTCCTGAGTTTAGACCTTCCCAGGGGAGATCAGTGACC
ACAGATGTGCCTCGGTGAATTTCACAAACCCAGCTTAGCGTGACCCAAGTYTCCAGCTTTACCGAACTTTGTCATTGTTATTAAAAAGATGATTTTAGTG
TGCTGATTAGAAACTGGGATCCACATTCAACATAAGCACAAACTTTTTTTCCCAGTGGGCCAAAGCTCATTTCTGATCATTAAAAGCTAATCCTGAAAAT
TAGCTGGAGCATGGTTCAAGCATACGTTGTAATCTGTTAAAAGCAAAAATAATAATTTCAAGCAGTGTTCTGCGTCTGTGTGGAAACAGCTGGTCTACCC
CAAAGAGCATCAGGAGGCTATACCCTCCTCCCACAATTCCAAATAAAATATATGGAGACAGCACAGCATCCGGAAGAACTGGCATTGGTAAATTATTGCC
TCCAAAGAATATTAGTTAGCAAACATACTTTGAAAGCCATCTTCACAATCATAAATTCAATAGTACTTCTTTCAGTCACAACTGAATGCCAGTTGGGGCA
GCCTTTCGAGTTGTTAAGCAGTTTAGTAGCAAATGTGACATATAGTGTGTGTGCCACAGTAAGATTTCAAATTGTCATTAATTTGTAAAATTTAGGAGAA
GAAATGATATATTGTGACGAGATAATAGTTTTCTCTGTATGTACTCCAAGCTATCAAATACTTCTAGCCTTTAACTTGGCAGTGTTACTCTTGGCATTTT
ATTCTATGGAAACAACTGAAATGAATGGAAGAAAAAATAATATTCCTGTTCAAGATGCTTATTAGAGTGTATTTGATAGACTTTGTTTTCTAGGAAAGCT
TTAGACTTTTAGAAAAATTGAGGAGATATTATAGGTTATTCCCATAGGCTTCCCACCACTTCCCCCTGACAAGTTTCCCATGTTTTTTGTGTGTGTGTGT
GTTTTGGTTTTTGTTTGTTTGTTTTTGTGACAGGGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGTGCAATCTTGGCTCTTGCAACCTCCGCCTCCC
AGACTCAAGCGATTCTTGCCCCTCAGCCTCCCAAATAGCTGGGACTACAGGAGTGTGCCACCGGCTAATTTTTTTTATTTTTGGTAGAAACGTTGTTTCA
CCATGTTGCCCAGGCTGGTCTCAAACTCCTGACCTCAAATGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCAC
CCTCTCCCCTGTTAATTTACCTCTTTCATTAGTRTGGTACATTTCTTAGAGTTCATGAGTCAATAYTGATATGTTTTTATTAAAGTCCACACTTTATTTG
CATCTCTTTAGCTTTAACCTCATGCCGTGTCTCTGTTCCAGGATCCAAATCCTATTCCATTGTCATGCCTCCTTAGCCTTCTCTTGGCTGGGACATTTTC
TCAGACTTTTCCTGTCTTTGATGACCTTGAAGGTCTTGAGGCATGCTGGGCCAGGTGTATGATAGGAATCCCTCTACTGGAATTTGTGCAATGCTTTTCT
CAGGTTTCATCTTGAGTTACAAGTTTTGTGGAGAAGGACCACAGGGTGAAGTGCTATTTCCATCCTATCCTGTCAAGGGTATATACCATCAACTTTATTT
ATGGCTGCTGATGTTGACCTTGATCCTTTGACTTGAGGTAGTGTCTGTCAAGTTATTCTGCTGTAAAGTCATTGTGCCCCTCCACAGCCCATACTGAACT
TTTGGAAGGAAGTCACTGTGCACTTAAGGAGTTGGGCGTTAGACCCCCTGTCCTTGAGGGTGGGGTGTCTATGTAAATTTTTTAGAATTCTTTTGCAGGG
GAGATCTGTTTCTCTCCCCCATTTATGACTATATTCAGTTGTCTATTTGTATTCATGTGGACTTGTGAATATTTATTTTGTATTCTAGGCTGCTATCCAA
TACTGCTGTGGCCCAGATTATTCCACCCGTGGCTCCTGGGGGCTCCTCTGGCTGCTCCCACACCCTTTGCCCTACACCCCATCTCTGTGGGGTTTCTTTT
GTTTGAGCACTTTCCTTCCTTTCTGTCAGTACAAGGTGCATTTTGTATCTTTCCTGCCACAATCTTAGAATCGGCTGTTTCCCAAAGAGCTCTGGTTCCT
TTTACTGGAGAATGGTATTAGAAACCAGTGTCTTGGAGCTAGGCGTGCTCGTTGCTTCTGGGGTGCCATTTCTTGGTTCTCTTGGCCAACAGAGTAAAGA
ACGAAATGTGTGTATACTAACCTGCATATGCATATATATCTACAAATATTTCTATATGTAACCATCTGTATCTATATTTAACAGATTTCATATTCTTACT
GGCATAAAATTGGAAATAACTAAGTGTTTTAACATGAGGAATGGCTACAACTATGTTAATACYACCTCCATGATGCAACTGTTATAAGGGACAGGTTGGA
AAACTGTGGAAACATAATACTTTACATTAAAAAGTAGTATTTTTTATTGTAGAGTCTCCAACAAAGGTCTCTGTTGGAGTTACGCTTACAATGTGATAGT
TGTGTGTGTGTACGGATATGAACTTTAAAGGAAAAATGGAAAAGGTAGATAAGCCATGGCTTATTCATATTAAACTAACATAAAATTAACTTTGCTTCTG
CCATAATGTTAGTCTTCCAGTGAGTTCTTGCTGAAACCTGAATGAAGTTGATGTATTTAATTTTAAATGAAAGAAATGAGACACTTTTTATTCCGTTGTT
GTGTTAGCCCTGCAGTGCTTTTTCAGGCCCTCCCAGATTAATAATGACCTTGTTTACTCATTSACAGTAACCAAAGAGCCTGCTAAAAAAGTTGTGAAGT
TAAGGTCAAAGCAGTTTTATGGGAGGAAATCTGTGAGTGTTTAAAGGAAGGTATTTCCATAATAGCAAGAAGAGCCCAAAGTTGGGAATTCTTCTTTTGC
TTTTCCACTCTGATCTTTGTATTAATGCTTGATTGACTGAATAAATGCCATGTATCTTATGGTTTTCATGATGATTTCTCAAGCCACACGTCAGGATACT
TTTGGGAATTTCCAGAGAAGTCCTTAAATGGAAAAGCTAAAATTATCTCTAGTAGATATTTTCACCAGTCTTCAGTTCAGATGGCTTACATATAAGAGGA
GCATGATTGACTGGATAACCCTGAAGTGTATCATTTCACCCGCTGTAGTTGTCAGAACTCAACTACAAAGATGGCAGATCAAATACTTCAAGAAGGGTGG
TTGTTTGCCATTGTGGAGGCTGGTGGTCCAGCGATCACAGCCCCTCAATTACGGCCCTGCGTGAGAGCACAAGCAGCAGTCATTACATAATTATACCTCT
GATTAGTTGGTTGAACTGGCCATTGCCTTTGAAATATGATAACACAATTTGGAGTTTTATTAAAAAACAATTTTTTTGGAATTTTTGAAAAAGATTTTGT
GTTTAAGAAAAAAGAACCAAAGGGCCTGCAATATATTCTGTTAGAGGAGATTAAAAAGAAGAAAGGGATGAGGGAAAAAAAGAGATGAATGTTTCCCATT
ATCACTCATTTCTGTCTCAGGAGGGCTAAGGTGGCCCCTGCTCACCAGCCTTCCCCTCTCGGCATCACCAGCCCCCAGCCTGCTATCCGCTTCACAGAGC
AGCGAGCCAGTCCTTGGAGAGGGGACGTGAGAAGGGGCAGAAGTCAGGGGACCTGAGGCTGCTCCCCRGCACCAGTGCTGCTCAACACACACAATTGTGT
GACCACCACTGAACAAATCTCACAAGAAAGAGGTGCATTTTACTCCACACGTCATTTGGTTTTGAAAAACTAATTTGAACCTCATTTTTTTCTAAGTGAG
AATTTGGTTTGCTGTGTGTGTGTTTTCAATTTGGATTGCCAAGTATTCAGTCCTAACATATGTTATGGTTGGAGTGCATATAACACTGTGCAGCCGAATA
ACTAGACCTAGAAAATAAAACTGATCACGGTAAAGTTATTTTCCAGGCAGGGGATGCCTCATGATACTGGCTGGGGCCCAACCACACCCAAGGCCTCGTC
GGTTTCTGTTCTCATGCTGTTGTCATATACCCAGAAGTAGGGGAAGCCCAGGAGCCATGGAGCCTCAGTGTCAGTTCCCTGACAAGCCATCCTCCAAAAA
AGCCTTTCCTTTGCAAAATGAACAGGTACTCCGTGAAAACAGGGAGAGAAATTTCTGTTTTTCACCGATGCATTTCTCACGTTCATCTGACAATGTGCAA
AACAAAAAGTCTACATTAGAAATTTATCATGAAGTTATACTCTACTTCAACTCACTTCTTTTCAGTCCCTGTGAAAACTTAATACTCTTGGTGTTGTACT
GAAATACCCAGTGGATTTGGGGTGCACCTGTACCCTTGATCTCCACTTCTGCGTGTTTCTAGGCCAAAGGGAAAACCAACTCTCTACCTAATTGGAACTT
CTGGTTTTATTGCATATCCTGGAGGTCTTGCTTCGTTTTTATTTTCCCGGGTTGATGGTCTTTCCCATGTGCACCTACGTTAGCCCACTATGTAGAACGC
CTTGGCAGTTTTCACAGAGTAAGAGGTTGAAGGAAGCCACCAATGTGAAAATCATATTTGCTGTAAAGAAAGAACCATTGTGAGTTGTTGGAAACCAGAT
TAAAATTCCATAATTGGAGATTGATGACTTTTATTTCATGAGTTTTACTTAGTTAGGTGTTTTATCTTCTGTGTTTTGTGGCTCCAAATTACGAAGACTG
TTGGCCTTGCAAGAAACTGATCACGGCAAAGTTATTTTCCTTACTGAACACGTGTCCTATATATTTGCTTGGCCTCGGGTTTTGTTTAATCCCTTCAAAG
GCCCTTTGAACTGATGTTTCAACATGACTCCTTCTCTGTGAGCTCTCCGCTAGGAAGCGGCCATCATGTCAAGCCCCTTCACAGCTAAAGTAGTGAGTTC
ACATAGTCGAAGAATCTTCTGGGTTGCATCTTATGAAAAAAAGAAATCCACTGCCTTTTTATAAGAGAACAGAACATTTACACCGTCTTGTTGAGCAAAT
GAACGTTCAAATGGCCAGCACAAAAGAAATCCCCAATCTCTAACCTCACAATGAAATCGCCACGGACAAAAGATCACGGGATACCGGGAGCACTAAACTG
GAAGTGACACAAAACCACAGCAGAATCCGCTCACACCTGCCGAGGTTCCTGGGGGATGATCTTTGTGTAAAGGATCCTGGTGCCGCAGTCAGCCTGAAAC
ACTCCAAGGAGCAGAGACGCTCCCCTCTGCAACAGTGACATTTATACTGATGGCGTCTTTTTAAATAAATTAATACATGTCTGATGTGGACAGAGTAGTG
CTGTCTGACAAGGTGATCATTTGACTTTTCTTAGAGGTACAAATTTACGCTCCCTTCTATGAATAGAGAGGGCTATTTGTTTCATTCAAAGACAAGACAT
TGTTAGAAATGAGTGGCACACCTCTTCAACCCATCCCCTTCCTCCATGGAGGTAAAAAGATCCTATTAGTTCTCATAATTGATTCTGAGGGCTGCAGCGT
GCCTCATTTAGCCGTCCCTGCTCGGTTCACGCCAAGGATGTAATTCATGCACACTTGGACGTCCAACATGGCTGACGCGCCTTGGACACACAGCCTCGGC
GCTGCATCATTTTTTAATCAGCTATCTGAGGAATATTTATCTGATCAACAARGAGTGYTGTCAGGAGGAGACCAGAGGTGACATTAATAAGCCTGTGGTT
TCCTGGTACAATGATGGAGGAAGAGTTTGGAATAAAACCCTGCTCGTTTGAGCATGCCAGCAGACTAAAGAATATTTTTATTCTGCTTAYAAAGAGCCAG
TCAAAAGAGTCTCAGTTTGAAGTGTTCAGTTAAGTTTAAGTCTCAGTGATAAGTTTTCAGGCATTCACATGTGTTAGTAAAAAAAAAAAAAACAAAAAAC
TTTTAGAGAAACAAATTAACAAATTTTATTTCAAAATAAAAATTTAAGTTCCTCATGTCGCAGGAACCCAGATGAAAAGCTGTAGCTTCTAAAAATAGGG
AGAGGTGTAATAATTGGGAGCTGTTAACGCTAAATGATTCCAGCTACTCTAACTTAGTAGAAAGACGTAGTAAGCTGCACACTTTCCCCTTCTGTCTGTC
TTTGAAAAGATCGTGACTGTCTGTTAGTAATTACAAGGAGCTGAGTATATTATGCCAGGCCTCGTTTGGTCATCCAGACACAAGATTTGCTGTTTATAAC
GATCAGATGCCTTAAGAAATGTTCTGTGAATTAAAGTTTCTATCACACTTTCTTTTCTAAGTGCATCACTGTTTGTGCACCACATGAGACCCTCATGAGT
GGAGTGACACCCATCCCATCTGCCAACCTGAAGACGCAGAAAGTCCATACATAGCCAGTGTAGACATCAGCACACTTTGTCCACGTTAGGATCGTGGTAC
CAGAAGGTGCCACAGTGATCTCTCTTTGTAATTCAAAGACTGCCTCATGAATTCAGTTTGCTAACGCCTTCGGTGTTCCTCAACAGGAGGGCTCTGTGTG
TGTTTTCCGGAAAATTAATACCATTGTTATATTACACAAGGATAAATAAACATTTTGTCTTAGAGTTTGGGAGTGAGTCTCTCTGCATTGTCTTAACCTG
AGTTTTTCAAAGTTTTGATCCTTTTAATCCTTAGAAAATACACTAAAAAAGTACAAAAAATTAGTCGGGCGTGGTGGYGGGCACTCGTGGTCCCAGCTAC
TCGGGCGGCTGAGGCAGGAGAATGGCTTGAACCTGGGAGGTGGAGCTTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGGCTAACAGTGCAAG
ACTCCATCTCAAAAAAATGAAAAAAGAAAATACATTCCAGCCAGCATGATGATGAGTTTTCCATGTGTGTTTTAAATTCCCAGCAGTCGGTGGTGATTCC
CTTGTTTGACCTCTTGCTGTGATACCCGCATGTAGCACCCTTGTGTTTCACCTGAGTTCACGGTTCACGTTTTGGCACCATTGTGGGGACAGTGCTGTCC
TCCCACGAGTGGCATTCTCTCCCAGGCCCACTGACTGTTCTGCCTACCCAGATTAGAGCTCAGAAAGTTSCATTTAATTTGCAGACTAAAGTGAGAAGAG
ATCAGTCTCGYTGTCTACACTGGAGCTGACAGTCAGTTTGTACCACATCTGAAATTATACTTGTGGGATTTCATGTCCATTGAGATTCGCGTATGTGTTT
TTAAACATGTAAGACAGTGCTGAGACATCCTGCCGCATACATAGCTATGGGAGGCATTGTGAAACTCTGTTTACSAAAGAGACTTTTGCTTAYGCAGCAA
GCAAAATAGCAGAATGGAAAACACTAACGGAATGCTCACACCCTGCTGCCTTTTTGTTTAATAACAGGTGAAATTTTGATACTAGAATAATAGATTTTGT
GAGAAATAACATTAGTAACAAAATCAAAATAAGTTAGCCTGTGTTTAAGAGGAAGAAACTGTATTCCTGAAAGTAGAACAGGAATTTTACTAAAAATTTT
AATTAAAATAAAGACCCGGAAAGTTTTAGTCTATTGCTAGTCCCCCTGAAGTCCCCGAGARTCGCCTTTTATTCCAAAGGCCTGAGACCAGAGGGAGGCT
GCCAGTGGTGGGCAGTGGCTGGGTGGCACCAAACATCAGCTCGGAGCCTCCTGGTTCCATTTGGCACAGTGTCTCCGTAGCCCCTCAAAGTGATTCCAGG
CAGCAGCATCCGACATAACCCAAGGTGTTATTGATGATAATAGGATTGTATTTTCTYGTTGAGAAGCTTCTAAACAAGGGAACTTAGAGCARTCAATGCC
CCCGGAGACCGATGCACATATCAGGACCTTGRTATCAGCTAGAAAACATYCATTTGTTTAAGGGGAAGAAACAGGCACGACATTTTGCACATTAAAATGG
ATTATTTCATCAATAGGTTAATAGAAAGCCGGGCTGCAAGTTCACTTCCTGCTTATACATCCTGTGGTAATGGGAGAGCAGAGTGTGAAAAATGGAAGGC
ATAAAGCGGGCGAGGAAAGAGGCTTTCTGCACTCGGGCACCCCTCCCCTCCCGAGGGGTGCCCAGCCTCCATTCTGCCTATTTATATGTAAATATTGCTG
CAAGAGGTAAGTTGTACTCTTGAGGAGTGCAGCCTTCTCATGGCTACCTCTTTCTGGAACTTGCGAAATACTGTCCCAGACACCAGAGCTGCAGCAGTTA
AAAATTAAGCCCATGCCTAATTCTGCATCATCATGCCTGGGGCCCCTGGTACATACCCATCAAGCATTTCTAAAGCAAACATTTGAGACCCGGGACAGAT
TTGGTTTCCTTCGTTCCTCATGCATGGTATTTGTACCGGTGGGTACCTGAAGATCCTTTTCCCAGGTTTGGAGTTACCTGAGACAGATACTTAGGTAGGA
CCTTATAGATAGTGAAGAAACCTGAAGGTATAGACATAAAGAAGTCTTCACTTGTGAAAAATTAAATGTAGACCCGTATCCTTTAACACCGCAGATGCCT
GCTAGTTTAGAGGTTGTTTCTTACTAAAWTATTATTATTATTATTATTATTATTCTCTTGAGATGGAATCTCTCACTGTCGCCCAGGCTGGAGTGCAGTG
GTACGATCTCAGCTCACTGCAACCTCCGCCTCCAGAGTAGCTGGGATTATAGGCGTGCCCCACCATGCACAGCTAATTTTTGTATTTTTAGTAGAGACGG
TGTTTTGCCATGTTGGCCAGGCTGGTYTCGAACTTCTGTCCTCAAGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGACGTGAGGACCTG
GCCTATTTGTTGATTTTCACRCTGCAAAGGAATTGTTAGATGTGTTTAGTTATAACAAGTTAATATCACTTTAAATCAAGAAGCAACTAAATCACAGCTA
GTTTTTACTTGTGAATAATGTAAAATTTGCATCCTAAATATACAGTGCTTTATCGCAGAATTGTATTTGCTTCCTTAAAGGCTCAGGTTTCTCGCGTATG
TTTTGTGTTGTCTCTACAAAGAAATCCAGTGTAGTTAGAAGCACTTGAGATTCATTTCTGCAACATAACTCATCCCAGGCRCCTAGTCATCACCCTGGGT
CATTTTCTGGCCACCAGAACTTGGTGCACACGCCRAACCTACAACCACAGCCTCAGCTGTAGTGTTCGAAATGGAGAATTTTGGCTCAAACACTACAGCA
GGCAAGAAGAGTTAACCTGTCGTAAGTCAGGAACACGTTGGGGTTGATTAGGGAGCTGACCGTTGGCCARCTCATGCTTTGGGAACCRGAGGGCCAGCCT
GGCTGCCTGCTTTGCGGGCTTAAGACCTGCCTCTGGAAGGGTAAGGGCCTGCCCGTCCAGATAAGTGCTGCTCACCTGCATTAAACAAACGGCCACACAG
AGCCCAGTGGGAGCCTGCACTGGTTTCTCTTCCTGCCTGTGGMAGTTGAGAGAGACAGACGGTCCTGTGAGACCCCTTCTTCAGAAGGTGAATGACAGTG
ACCGCCACTAAACATTCCATTCCACCTGCCTGCACGGCAGTCCAAGCCCTCTAGCCCTGTGACCTGGGGCTGTGCCTTTGCTTGCATTTGCCTGAAGAGT
TGAGCCACCCTGTTTAACTCTTGGGTTTTTATAAAATGTCTCCTGAAGGGCGGAGAGAAYGCCTCAAGTCGATGTCTTCCCTGCCACAGATGTCAGCATT
TCTGAGTTGATAGTTGGGAGGGTAAGGGCCTGGTGGGGTGGAGAATGTGTCTCTGGAGGGTGGGGGCCCCATCTCAGTGAGCCAGCCAGGCACTGCACAC
AGCCTGAGTGGTGGGCCTGCTGCGCCCTTGTTAAATTGGTTCTCTTCCGAACCCARCGTCCCACTGTCGGTGACTTGGCGTTTTGTCCTTTCTCCTGAGA
ACCTGAGGTGGCATTTGCTCTTCTGGTTCCTAGGAGCTCCATTTAGAGCCGTAACTCCCCCGAGTGTCAAAGAGAATAGACTCCTCCCTCCAGGACAGCA
GAATGGCACTAGGGGGTTTTGCTGCTGTAGGTATTGCCTGAATCAAAATCTGTCTCGGGAAGACAACTTCACTTTTAACAGCTCTTGGTTTTAAAACCTA
CCTTCTCCAACACATAGGCATGAACTGCTCATAACCAGGGTCTCTTGATTTGACATGCTCCTAATATTTGGCCGAATCAAAGGGCTTGTGGCGACTGGCA
TCATAGCTCCTTCAAAGGGTGTCATCATTTCCCAAGGCAGAGGCCAGTTTTTGTGCTGTTTTGAGTAGCCACGTGTGAAACCCAGCAGGGCGAAGCAGAC
TTCTGYGCGTGGGTAGTTCTTTGACGTTAGATGCAATCCTGATGACCCTGCTCCACCTCTGCCCTTCCTGAGTTCCTCTGTTCACCGCAGGGGAGTTGGA
GGGCTCAGCCCAGGGAGCTCCATGGCACCCACCCGCTTCGCGCAGACAGCTCGGAGGCAACGTCACGTGCTACTTTGACCTTTTTTTTTCTCCCCTTTTC
ATTTGTTTTCTTTTCCTTTTTGTTTTCTCTCTTTTTCCCCTCTCCCCTTTCTGCTCTCGGGATGCAGCCAAACGCAAAGCATGGAAACTAAACCGTGTTG
GTAGCCTGCGAAATATATACAGCAGCAGCACCAACACTGAAGGTAACGCCTCCGCACCTCCACCCGCCCACACCTCCACCTGCCTCTTCCCCTCTCATCC
CCTGCCCGCCCCTTCCTTTCCAACACAGGCATGGAAATGCAATTTGCCCAAAGCCGCATGCTCCCTTATTGTGTTTGCAGAGTCATTCCTGTGGTCTTTT
CATCTTTTTGTTTGTGTGTTTTATTTTACCATTCRTGTTCCTTTCAGCTTACTTAAATTTTGACCTTTCCCTTCAGTCGTAGAGTAGTGATGTTTAAATT
ACTTCAGAAACCTATTTTCTCCTCTTTTTTCTTTTCCTTTATACATGTGGGCACTCAGTGTAATATTTCCCAAGTTATTACAGTTTTTAAAAGTGTTAGT
ATCAGGTGTAATGATCTGTAGCCAAATACAATAGTGTGCCGTGACATTTAAGTAACAGTCTTAATTTGTTTTGTGGAAGCATTCTCCATAATGCTCTCTG
CAGCTCTAATCCACAGGCAGGCAGGCCCGGGCCATTTGCATGGGCTGCTATTTGCTTGTAAAGTCRGTATTTTGTTGTGTTTCTAAAGGTCGTCTGGTGC
CAAAGTTCACAAATTGACTTGCGTTGCTTTTTTCACCGAAGACAGCCGTCATTGCTTTTGTATAATAGCAGATTGAATTTTTCCCCCACCTTCATTTGAA
CAACATAATTATAAATTGCCTTTTTTTTTATGATTACAAATGTCAAGGGTCGGAATTACTTTGATGCCAGGCAAGGGAAAACCACCACCATCAGCCCAAG
CGCACATAAGGGAGGCGGGGGYATCGGRCGTGTGATGCAAAGCAGGTCACAATCCAGCGATCTTGGTATAATAGGGGGACATTTTTTTTCACTTAAGTGC
AAGCCAAATGGGTCAAGTAATCGCAAGCTCGTGCCCTAACACTAATTGACTTATTTGGGGATTATTATAACTGTAATATTTTTCTTAATGTCACTGTTTT
CTGGGCTGTTGATTTTAGCGATTGCCAAGCAATGGCATTAAATCTCTTGTAAATTTTAAATTGCACGTTATTTCTGTAAACAAGTCCCTCTCTTCACATC
CTGGTCATTAACCTTTGCCGATTTATATCACCATCCTCTTTTTTTCTTTCTTTCACAATTACTCCTGTCTTGCCGCTGAACGCCCTGCTCTCAGCCAGGA
AAAAAAAGAAAAAGAAAGAAATCTGGAAAACAAATCTACATTTTCACTATGGCTTGTTAAAGAGCCATTTTTTAATCATAATTTTTTTTTTCATTTCTCA
AGGGAAAATTGTTGTCTGTTAAGATACCAGTGGAGCTTGGCCTCATTGGTATCTTCTTTCAAAGCACTCAAGAAATAACCAAATGAAAGAGGGAAAAGAA
TAGAAGTTAAGAAACGGTCATTCATTATCATTTTTGTTGCATTTTAAAGGGTATTAGTATACTCTTTTCACCGTTTTTTAAATGTTTTTCAACTTAGCGT
GCATATCATTTCTCCTCCCTGTGTCCTTATCAAATATGTTGGGTTTGCTTTTTTTTTTTTTTTTTTTGTATGCATGTGGGTTTGTCGCAACAAATTTGTT
TATTGACTTCCAGCCTTTAAAAAAAAATTGTGAGGTCTGGTTTCAAATGCAGTGTATAGAAAATTGGGGGACAGCAAGGGGACATACCTCCTTAGCCTTG
AGGGCAAATGGTTCCCTGAGACTTGCTGATGGGCCTTCCTGGAGACACTGGTGGGTGACACGGGACCCAGTAGAACCAGGARTGAGGATTTGCAGCAGTG
CGAACTTCTCAGCCTTAGCTTCTCAGGTAATACACAGCATCTGCTCTGCCCAGCACCTCGGAGGGGTGGAGAGCGTGAATTCCTCTCTGAAATCTGTCAG
TACTGGATAGCACTGCAAACATGGGGTCCCTCTGTCAGTAGCTATGAAAGGCATTCCTGGGGATACTAAATAGTGACTGCATATCCAATTGTCCCTCACA
ATTTCTTTCATTTTTCTCAGTTATASTAAGTTTCTGTTTGGTGTTCAAGGTCATGTATGAATTTTCAATTAAAAGACAGCATTCTTCATTTACTTTGGGT
TTATTTTAAGATTAACATGTGTACACATACAATCTCATTTCATACGGTTTTTAATAATGTATTACAGAATTCAGGCCAGACGCAGTGGCTCATACCTGTA
ATCCCAGCACTTTGAGAGGCTGAGACGGGTGGGTCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACACGGTGAAACCCCATCTCTACTAAAAATA
AAAAAAAAAATTACCCGAGCATAGTGGCGAGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGC
AGTGAGCCAAGATCACTCCACTGCACTGCAGCCTGGACGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAATACATTACAGAATTTATAAAATTAT
ATAAAATAATTGTCAAATTCCTTTCTGATTTACAGCCTTTTGATGTATGAAGTTATCACATATTCACTGTCTATAAAGTGACCCTTCATGAAAATTTGTA
TCCTGAACATTTTAACTTTTGTTTTAACCTCACGTCGTGAGTGTTACACTAAATATATCCATCCCCAAGTGGAGTATCTTTTAAAGTGGTCCACTTGAGT
GATTTACTCAAAGGCACCCAAAAAACACCACCCAAGTAAGGTGGACACTGGAGTTTCCTGTGTCTAGAGGGAGAACTTGAGCTTCAGGAATAAGAGGAGA
CCACCCACTAGGAGCTGGGAGTGGACTCAGCTGTTCTGGGACTTTCCTCAGGATCCTGGTTTAGGAGAGACAGRCAGAGCCAAGGTTTGAGTCTAAGGAT
CTCTCTGAAGCCCTTTTTCTTTTATGTCCTCTCTCTTCCGGCCTCTGGACCACATTATCTCATTTAATCTTCACACTCCCCCTGCCAGGTAGGTATCATG
TTATGGATGGAAAATTGGGATTCTGATAACTCAAGTGATTTTCTGCAGAACAAGCTAGCATGTTCCAGAGGCAGGACGTGTGCCCAGATCTCTTGACTGT
GGGACCTGCTCACAGATCCACGTGGAAGGAGTTTGTGGATGGAAGTCAGGAGTGGATAAAAACAAACAAAACTTACAAGGGAAACGCACAGACAAGATTA
AAAAACAAAAATATTTTATCTTTTGTCTGTCCATTGTGGCTAACACTGAAACTGAGATAGAAACTTTGGATATATATGATTGCACTAATGTACAAACTTT
TGTTGCTTTTTAACAATTAACTTTCTCAAGATGGGTGAAATTGAGTTTTCTTCAGCCAGAATGCAGCTGTAACTTTAACATCTCAGGAACCTGTGAATGG
AAGGGTGTCTTAATGGTATGATCCTCCAATTAACAGCTGTCTCCCAACCCAAGGGAGAATAAGATCTAAATACCAGATGACTGAGGCTAGACTCACCAAT
GTTCAACTGAAAGTAAATGTATTGGAGAAAGAACAAAGAGGACCAAGTGGCAGAAGAGTGGACGTTGTGCAGGAGGAAACTCGGGAGGGAGGCCTCTTCG
CTGCACCGCAGGGCAGAATTGCACAACACCTGGACCCATCTCCAGGCCTCACCTGCCCCATGCAGCTAAACAGATGACATTATCATCCGCTGTGAGTTGG
GTGAACACATGGGCTCTTTCAAGAGCATTTAAGCTCTCTGTTTTTGCAGAAGAAAAGTACTTCCAGTACCTAAATAGATAAAGGAGAGAGGTGTTAGGAA
ACAAGGGGGCATTTCTTGGGATGCCAAGCCCATTCCCTGGCAGCAGAATGAATACTTAAGATAGGCCTCTTCAAATAGGTGATGACACTTGCATCCAGGT
GTTAGCCAGATTCAGTACTGGCCTAAAGTCCCAATTCGAGCCCGTCTATGAGGGCCCGTTTCTGTGGATTTAGAGCTCGCCCCAGCAACAGGCCTGGGAA
ACCTCTGCTTTGGGTACTTCCGTTCACCACAGTGGGCCAGATCGCTGGAACCCAGTCTCCCCGACACTGCGATTCCAAGCATAGGCATTGCCATGGGGAA
ACAGCAAACCTCCTCTTGGAAATTTCATCACAGATACAGCTTCGCGCCTCAGGCCTGCAGTCAGACCCGCACCTGCCTTCTCCACTGAACAGCCCAGATG
GTCACTGTTCCTCTGAGCAGATGTGAGCAGGCCTAACTTGTTGGCCATTCCCTCCAACACTCGTTTTCTTGRTCACAGTTCTGAGACTTCCAACTCATTC
ACAGTTAAACAAATTACAGGCCCACATCTGAGAATGATGGTCTTGCTGAGTGTGAGGTAGGCCTGCCTCCTTGTTCCCGACTCTCAGGTCCCTGCTGGGA
TGCGCCATTGCCTGYGCTGGGTGCTGGGGCAATGGAGAGGGTAAGGGTGCACCCGCCCACTGCCCTCAGGGAGCTTACTGTCAGTCTAGGAGGCTGCACA
AAGGATCTCATGCAGAAGGAGGGAAGAGGCCCTGGATGCTCTRGGGGCTTTGTGGAGAGCAGAACTACATTTGATTTAGGGGTCAGGACAGGTATCATGG
CCTGCGGGATGTGACAGGAACCACAGTGACCGCATCCTCAGTGCTGAGAAATTTCCAACATCCTGTCGTGCACCCCTAGCAGAGGGAGATCTTTTCCTCC
TTGTTTTATAAAAGAAGAAACCGAGCCTGGGAGAAGGGCAGGCRTCAGCCCCAGGAGCTCTCAGGAAGACGGGGCTGGAATTCCAGGTGGAGGCAGCAGC
CTGCACCTGGACGGGGCTTAGTACAGAGCCTGCAGCGCCCTTAGGCTTGAGTGTGAGGTGTGTGCCGAGGATTCTTTTGGGACCAGTACCAGTGGAGGGG
ACTAGATGATCCACAGATCTGCAGACAGCTGTCATCATCATCTCCAGCAGAGGAAGAAGGCAGCCCTGCCTGACAATCTGTGACCCATTGTGTTGTGTGT
TTCCTGAAGGACTCACTGCAGTGTCTGATCAAGGCCCCCGCCAAATGCCCCGGCAGTCTCCCCAGTGCCCCGTGTGGGTCCCCACTGTGAGAGGCTGCCT
TCCAGAACCTGCTCTCTGCAGTGAGCATTCTCCAGGCTCAGATGGGTTCTCTTTCACACTGAATCACTGCTCTTGTTTGTATGAGGCAGGCATGGGCGCC
AGACTCAAGCCCAGATCTTAACTCAGGTGGTCTTGKTTCAGTCCCACATCCCCACTTCATAGCTCTAACCTTGGGTTCTTGATGTGTCTTCTCTGTACCT
CAGTTTCCCCACCTATAAACTGGGGTGATGACACCCACTGCACAGGGTTGTGGGGAGGAGTCAGCAAGCTAACATACCTAGAGATGTGGAACATGGCCCC
TGCATTGCTCCTTGCCTAGGACCAGTAAGCCCCAGTACTCAAGCACCCAGATTCTCTCTGTTTTCAAAGAAAATTGCAGTGTTTGAACGTTGTTTATGTA
GCCAGGAACAGAGATTTGAAAAGACGTGTTGCCCATGAAGCATAGGGGGGAATTTAGAAATGAAACTTAACCTGTTATCTAGACTTTTAAACCTACCCTC
CTGCTTCCATTTGCTGTCATCTGAGAAGAATCGTCAGTTGTAGAAATTTGGCTAAAAGCGTGAGCTGTGGAGTCACACACGCCTGGGTCTCATCCCCTCT
CTGCCACTTCCCAGCTGTGTGGCTTGGGATGCTTTCCTGGGTCTGTCCTTCCTCTCTGTTCTTTTCTTCCTCGCATGCAGACAATAAAACCTACCTTGAA
GGGTAATTGAAGAAGAAATGAAGTGAAGCCTGTGAAGTGCTTCCCACAGAGCTGGGCACATAGGGAAGCTGGCCGCCGTGGCTGCTATTAAATTGCTATA
CAGACTTATTTAATAGAAAAATGACCCAAAGACTCCATGGAGAATATCTGTGGACTATTCAGTAGGCCTTTTTAATGTATCGGTACAGAGCAGAKCTGGC
CAAAGCCACCCCTCCTCAGTGATGAGCAGCACCAACTAAGAACTAATGCAGGTAGGCCGGGCACAGTGGCTCACACCTATAATCCCAGCACTTTGGGAGG
TCAAGGTGGGTGGATCACTTGAGGTCAGACATTCGAGACCAGCCTGGTCAACGTGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATG
GTGGTGCGTGCCTGTAATCCCAGCTACTTCAGAGGCTGACACACAAGAATCTCTTGAACCAGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCACTA
CACTCCAACCTGGGCGACAGAGCAAGATTCTGTCTCAAAAAAAAAAAAAAAAAAACTAATACAGATAACTTCAGATTTAGGAAACCCTTGCATGGGGAAT
AACTAGAATTGACGTTTTGGGAAGAGAAGATTGCTCATTTTTCTAGCCCCCTCCTTTTGAAAGGATGACAGTCTTGGGTATCAATCACCTCAGCGCTGAG
CAGCACCTAGGAGAGGAAGCCCTCACCGTGGACAGTGGAGGGTGCCGCTGAAGATTCCTGGTAAGCCCGGGTCTCCTGATGGCCATGCTGGACTCTTGCA
GAGGAACCCGCCCTAGGCCTGCCCAACATGGCCGTGCTCACTTATTCCTATAATTAGGAGTCCGAGGGGACCTCTGCAAAGTGGGGAGTGTGTCAGGATG
AGTAACAAACAGTTACCGCTTAGTAACAAGATAAATCACCGCACGTGCCTATCGTTGCTTTGTCTTTCTAAACTGAATGTTTGGGCCTGGAGCTTTCACA
GGGTATCTGGGACAGAGAAAGTACAAGGGAGATAGCAACACTCACCCCTGCTGTATCGCAAGATGTTTTCAATTTGCGGTCAGATAACTATTTTTTTTTC
CCCAAGAGCTTTGTTTTGGAGTCTTTTCTTAATTTAAGACAGGCACGGGCCAGACATGGTGACTCACACCTCTAATCCCATCACTTTGGGAGGCTGAGGT
GGGCAGGTTGCGTGAGTTAAGGAGTTCGAGACCAGCCTGGGCAATATGGTGAAACCCCTTCTCTACAAAAAATACAAAAATTAGCCAGGTGTGGTGGCGC
ATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGAAGCGCTTGAGCCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATGAAGCCACTGCACTCCA
GTCTGGGCGACAGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGGCACATATGGCACCCTACAGCTCTGGAAGCCAAAGCTTTCAAATGGAGTT
TCTTTACACGTGGTCCTTGAACTGCTATCCCAGCTCTTTATAATGTGTTTGAAAAATAAAAATGTCCTTTGTATGTCATGAGAACCTTCCCGTGGTAATA
TTTAGTAGTTAAACATTCCTAAGCTCGTAATTGACCTGTGGGGATTTGCTTCTTCACAGAATTAATCACACTGTTCTAAATTAAGCCACAGGACAACACC
TCTGTTGGACTCTCTTGGCTAGACAAAGATGTTGACCAAATTCAGAGTTTCCAAAAATAATTAGCTGAGAACCGTGAACTGCGTGTGTTTATAATGATCT
TTTGTTTTTGTTTAAAATTAATAACTTCTCAAGTATACTAAGTATATCCATAGGTTTCTTGGTTCTGTACAACCCTGGTCCATATTCTCCAGGCTTGCCT
ACAGTCTTTGTCTTTTATTTTTGGACAGAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAGTCTCCGCTCACTGCAGCCTCCACCTCCAGG
GTTCAAGTGATTTTCATGCCTCGGCCTCCTGAGTAGCTGGGATTATAGGCACCCGCCACCACGCCCAACTGCTTTTTGTATTTTTGGTAGAGATGGAATT
TTGCCATGTTGCGCAGGCTGCTCCCGAACTCCTCACCTCAAGGGATCCGCCCCCACCCCAGGCCTCTGAAACTGTTAGGATTACAGGCTTGAGCTACCGC
ACCCGGTCAGCAGGCTTTCTTTCACATCAGTCTTTTCCTACAAAAATGGGAGAAAATTTGAAAATAAAAACTGACTTTCTAATACTGTGTTTTGGCTGAC
ATCTTAGTGTGTGAGCTTTTTGTCATAATTGGGTAAAATATCTAAGCCACACGCCTATTTAATAGATGSTTTTAAAACAGAAATATTGGAGGATTTTACA
AAGTGTATGAGGAAAAATAGCATTAAAGCCCGGGTGTGTGCGTGACATTGCCACACATTGCCTCTTAGGGTCATGGTAGAGGGAGAAAGACCACAAGGTA
GCGAGTATATTCCGTCTGAGTTTCCGACCCCGTTGCATTGACAGTGGCTACCTGGAGAACTGTGTGAAGAGGAATTCTGGGGCTGCACCAGCCTCTTCAG
GAACAGTTAGGAATGTCTGTTTTTAAAAGAAAAGGAGAGAGAGCTTCCCTTTGTCATCCCGGGTCCAGCCTGGCACCTCCCTTGCAGATAAAGCTGAGAT
CAGAAAGATGAAGTGGGCTGCTCATGGGCACCAGTCCGTCGATGGCAGGATGGGAAGTAGGTTCCAGGAGAGAGAACCCCAAAGTTGGAGCTCCAGTTCA
GACAGAAACTGGGAGAACCCATAGCGAAAACTCACTTGTTAATAGGGGAAAAAGAAAAAGGGCTTGGCGGAAGGTAAGCATCGGTGGTAATGTGTTCACC
ACGGCTTTGTGGTGTGTCCTAAAACAGAAGTCCCAACTCTTTCACCAAGGTCAGGAGTGGAGAAGATGGTTATTTTCTGCCCAGGCCTTGGCTGTTGTAT
TGTCCCGTCTTTTCGGTGGTGCTGTCTGGAGGCCTCTGGGCTTGGTAGATCCTGCACTCTTTGTACAGCAAACATGCCCGTCCCCCAGGCTGAGCATGTC
ATCTCTGCACCGTTGCGATATCCCATTTCATTTTCATCACAGGTTGCTCATTAAATGTGTCACAAAGGATGCTTAGCCTTGTGGACAGAACACTGGATGG
GCCTCAGGAGCCTGGATTTCAGGCTATAGGGCACCCTGGGAGAACCTCCTCTCTCCCCAGGACCCAGATTCTCATCCGGTCATTGAAGAACTTGGAGTAA
GTGACTTCTGCATCCTCCTTGAGCCCTTTTCTATTCAGAAGAGAAACATCTCGGCATTGCACCTGCACCCATCAGTAGTTTGTGGTTGGTTGTTTTTTTT
TTTTGTTTTTTTTTTTTTTTGGAGACAGTCTCACTTTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTACAACCTCCGCCTCCCGGGTTC
AAGCAGTTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACACACCACCACGCCCAGCTAATTTTTTTAATTTATATTTTAGTAGAGATGGGG
TTTCACCATGTTGCCCAGGCTGGTCTCAAACTCTTGAGCTCAGGCAATCCACCCACCTTGGCCTCCCAAAGTGTTAGGATTATAGGCATKAGCCACTGCG
CCCGGCCCCATCAACAGCTTTGAGCCATTTCTCATCGTAGCTCGGGGCACAGATCCAGGTCCTCTTGGCCTTTGCAAGAGCACAGTGCAGTTGTCCTTTT
CCCCAGACCCTTTCCCTGAGACCTGTGTGTGCCTCTGTGCCTCCCTCCTTCCCTCCCCTCGCACCCACTTCTCCCCCATGCATCCTTGTCAGATGCCTCC
TGTTGAAAGCAACTTCCAAATGTGAAACGGTTTTCAGCTGCTTTTAGCCCTTTAACCCTTTGTCTGCTAGAATTCCGCAAAAAAATAATTGATGACGGAT
TGGCCCATTAACCTTTAAGAAAAAAAAAGTTTGACAGCCCGGATTCATGTAATGAGGAGGGATTCCTTGTGAAATCAGTCTGATGGCTGAGTTTCTTGCC
CCTAAGGAGGCAAAATTAGCCCCATGGGGCCTTGTCTGCATAGAAACTGGACACAATTAGTGTAATATCCGGTGTTATTAATGTCGTTTGGAATAATTGG
GCAGGTTGATTTCGACAGGTTCATGGTGCTAAAATACTATTATAGTGGACCTTTCCACAGCTAACTGTTAAACACAGAAAACTGTTTAAATCCCTGTGAG
CCCAATCACAAAACTTTATTAAACAGCTAAGCCCTGGAATGTCACACTGGGAAACAGTACACCGTCTGTTACTTCAGGCTTTGGGGTGTGGTGGCATCTT
GATTTTTCAGGAACAGGGGGATTAATTTTGCTGTCTGTGTGTGTATCTGAAACTTCAACATGCTTTTAATAGATATACCATCAGGAGCTTCTACAACCTG
AAATCTGTTTTTACAGTGAATGAAATAGAAGCCACTGCAATTGTCACAAATAGGTAGTTTGTATTAGTGAAATGACACCACTAAAAGTGAAAGCTCCGAA
CAGGGCATCCTCACAGGCACATGCTCGTTCTGCACGTTTGAAGTGAGGGTGGCAGTGGAGAGTAATGCTCGGCTCTGTCTCTGACTGATGGGCCTCACGC
TGCCAATTACTGTTTTGATCATTTTTAATCTAGTTGCTCATAAGTAAAATGTCATCACCGTGTCACTTCGTAATGTGCTGCAGCCCTTCGGGGCCATCGG
TGATTTGAATAAGGCTCTATCATCTGCTAAAAATTCTTCTTTGAACCTTAGGAGGAGCATGTTCCTGTTCTCTCCACACAGAAGAAGGGAAATTGGGTCC
AAAAATCTATTCACTSTTTACATAATGAGCGTAAATGGTCACTGCAATGCCACCGAAGTGTAAACACGGATTAAACACGGATTAAATCTTGAGATTTGCT
AGGTGTTGACCTAATAAAGTCACCAGAGCAGCACATAGGAGATCACCACCAGGATAGATCTTCTCTACTGGATTAGTCAGAACTAGGTTTAGTAACACCA
GAAATCCAGTTTTAAAAAAAGGAGACGCTGGGCGTGGTGGCTCACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCCGG
AGGCAGAGGTTGCAGTGAGCTGAGATGGTGCCACTGCACTCCAGCCTGAGCGACAGAGGGAGACTCCTTCTCGGGTGGGTGGATGGATGGATGGATGGAT
GGATGGATGGATGGATGTCTTATGTAACGAACTGTAGGACAGGCAGGAGCTTCAGGGACCTCAGAGGCACCAGGCTCCCTGCCACCTCCCATCCCTGGCT
TCACTCTGCTGGGCAGCAGCATTCATACCTGTCCACAGGGAGTGGCCTGATAACAGAAGTTTTCCTTCCCATGGAGAGGGCAGAGGCACCTGCACCTGCA
CCTGTGGGCCATGTCCTGACAGGTCCCAGATAAGAGGGGAAGGCACTCTATGGACACAACTCAGATGTGAAACCCTGGAAGACACTTGATCATGTGCCCC
CACCAGGACTGATCAGAGTGGCCAGGGACATCACGTGCTCCAGTTGGCCAACATAGATGGGGCCATCCCTGCTCCCTGTGCTGGCCAGGGAGCCAGACAC
CCGGCAGGTGGCACGTGGAAGGCCCAGAGGACCACCACCTCTGTGTACCATGTCCCCCAGCATTTACCAGACTGACCTGATTGTGTGACTGGACATCAGT
TAGAAAGAAGTATGACACGCCGGGCACGGTTGCTCATGCCTGTAATCCCCGCACTTTGGGAGGCTGAGGCAGGCACATCACCTGAGGCCAGAAGTTCGAG
ACCAGCCTGGCCAACATGGCGAAACCTCAGCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCAGGCGCCTGCAATCCCAGCTACTCTGGAGGCT
GAGGCAGGAGAATCACTTGAACCTGGGAGGGGGAGGTTGCAGTGAGCTGAGATCATGCCATTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCATCTCA
GAAAAAAATAAAAATTAAAAGAAGGACAGTAAGACAAACTGTTGAGGGATTTCTGGGGAAGCTAGTTTCAAAAGGCCCAACCATCTTGTTCTCTTGGCAT
GAGGAATAGGAGAAGATAACGGAAAGCCACTAGGAGACCCTTCCAGCCCCTATGCCGTCTTTGATTCCCAAGGAGAGCTCCTTTTTTTAAATGTTAATTT
GTTTTTAGGAAATGGAGGAAGAGTACTGCCACTTTAAGAGAGGAAAATGATTACAAGCAAAAATGGCTGTAAAGTCCTGGCGTTGTGCCTGACAGAATTT
GGAGCCCAGTGGTATTATTTTCTATGTTTATTACTCCATGCAGTAGATTTGTTATGGATAAACAGATTTCTTCCTGGAAGTTGTAACATGACTATGCAGT
TGCTCTATAATCCTTGTGCTTATTTTTTTTAATCTTGGGAGGCAGAGAAAAGTCATATGGCAGATATAAATTAGATCTGAAACTCTACGTGTGGGTATTC
ACCTATTACCCTCCCTCAAAATAAAAAATGAAGCCACCTAAAGACAGGATCCTGGGAAACACATGGGCCTAGCATAGCTGGATTCCACTCGGCAGTGTTG
GTGTAGAGTGGCCTTAATTAGGCTCTGTGCTCAGATGTTAATCCTTCCTCAGGAAGCAAGGTCCAGCTGCTCGGACCCTTGTCGTAAATTTCAGGGCCTG
AAAATCCAAAAGAAGACACAGGGTAGTCCTCCCGCCGGTGCCCACCTCTGCGCTGAGCATGTAGGGTTCCATCTCCCGCCTCTGCCCTGCCTCCCCCAGG
GCAGACTGAGCCTCTCCCCTCCAGGTGTCCCAGATGTTTGCATCACAGTTCAGCCCCGGTCCCCATCAGCACAGCCTGCCTGGGAGAGGCCAGCCCAGGG
TCAGCAGCGCCATTGCCTCTTGATTTGGGAGCTGATGCTGGACCCCGCATTGACGAGACAGAGGGGGCCATCTTGTGCTTCTCCAGGGCTAGGATGAACC
ATCCGGTCAAAACAGAACAGAAACCCCAAAGAGCTGTTCATCGGCGTCTCACTACATGGTGAACTGCTACTCACAGGGAAAAGCGTGGCGTTTAGACCTG
CCCTGTGATCACAGGGCCTTTGTGCATGCTACATACACGTCAGAGACAGACCATACCCAAGGATCACAGAGATGGCACAGCTTCCTGCCCACCACACTAT
CACAGAGCTGTTGGTCCCGGGGATTGCGATTCGTGTCTTTATTTCTTCATTATTTGTATAGTCCTGTGCTTTTCCAGGTTTAGAGTTATTGCACGGGACT
CCCCCTCAAGAAAAGAATATCTTAAGTGAGTCTGGGGTTGCAGTTGGTCCTTAGGATGTGAAGCTTAGCTGTGCTTTCCWCGGTCAGCAGGGTCTGTCAT
GGGGCTGACCTTCCCAATCCATGCCTTTACCTGAAGCTGGTGCCCATCAGCCTGGGTCACAGGGTGTCTTGCATCTGTTTCCTCTTTACTCTGTTGGGCC
TTGTTGGTGTTTCATGGTAATTAGCCAATTAGCCTGGGTTTCATTCTCCGGGAGAGGAGACCTGAACCTGAGCAGGCCACCCTCAGGCTCTGGTTAATCC
GTCACCTCCAGGCAAAGTGTAAAGCCTTCTCTTTGCCACCTCTTCTGAGTGGCTGCGGATACCAAGTGGTCCTTTATGTTCTTACTTTTAGGGAAGTATT
TAGCTCATTCACAAGTCTTTGTATCTCTACTTTGCTACCTCAGAGATAGAAATATATGTCTATTATTTGTGAAGGCATGCTTAAATACGATTTTTGTTTG
CTAGTGTACATTTTGCAATTAATATTTTTGTATTCATCTTATATCTTGCCCATTTGCCAACTGCTGTTATGATTTTTAATAATTTGTAGGTGATTTGGGG
TTTTCTATGAAGACAGTCATATACCATGTGAATGTCTTTATCTTCCTTTCCAATCTCTCGGTCTTTCATTCCCTTATTTTTGACTTAATACACTGGGTAG
CAGGGATGGAAAAAAGCAGTTACAGTGGGTGTCCTTGTCTTGAGCATCCTGTAACTGAGTGTTCAAAGGTATGTTTCTGACATCTCACCCTTAGGATTAG
TGACATTGTGGGGTTTAGGGATAGATTATCTCTGTCCAAGGTAATGGAGTCCTCTTCTATTCCTCGTTGGCTAAGGAGTTTTAATCATGCTTCTTTCTCT
TATTRATTTTTTTTCTTTCTTCTGGTTGAGAAATTGGACATTCTACTTATTTTCTTGCAGAGGTTTACCACATGGACTTAATTTACTTACCAACATGTGA
AGTGAGTCCTTACCTCTCCCAGTAGAGCAGTACAAGGCCCTATGACATCGTAACTCCCATGTCCTCACCGCTACTCTCACGTTCTCCAGCATTTTGACCT
TTCCCATGGTAGACATTGTCATTAGCAGTCATAGTCGGTATTGTTTTTATTTAGTTTTTTTTTTTTGTTTACATATTTATCAGTTCATTTGCTCACCAAC
CTGTCTTTCACAAACCTGCCTTCTAGGATCTTCCTGAAATACATCCTTTTTTCTTTTTTTTTTTGAGATGAAGTCTTTCCTTGTCACCCAGGCTGGAGTG
CAGTGGCGTGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGTATTACAGGTGCGTGCCAC
CACACCCAGCCATTTTTTTTTTTTTTTCGGTATTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCAGGTCTTGAACTCCTGACCTCAGATGATCCA
CCTGCCTCGGCCTCCCAAAGTGTTGGGATCACAGGTGTGAGCCACTGTGCCTGGCCCTGAAGTATATCATTTAGTAATTTCCCTAGTGGACGTCTATTGG
TAATAAGCACTTTTGGGTGTTTTTGCAGAAAAATATATTTTGTTCTTTCCTTCTTTTTCTTTTTCTTTTCTCTTTCCCTTTCTTTTCTCTTCCTTTCTTT
TCTTCTCTGCTCTTTTCTGTTTTTTCTTTCATAGGGTCTCACTCTTTCACCCAGGCTAGAGTACATTGGTGTGGTCACAGCTCACTGCAGCCTCCATCTC
CCAGGCTCAAGTGAGCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCAAGCCACCATGCCTGGCTAATTTTCAAATTTTTTGTAGAGATGA
GGTCTCACTGTGTTGCCCAGACCAGTCTTGAACTCCTGGGCTCAAGTGATTCTGCCACCTCACATCCCAAAGTGCTGAGTTGGCAGACATGATCCCTTGC
ACCTGGCCTGTGTTTCACTCTTGTTCTTGAGAGAGAGTTTATCTGAATCTCAAGTCTACACTGTTATTTTCTCTTGAGGATATCATTCCACTATCTGGCG
ACTCTCACTGTTACTCTTAAGAAGTCTGTGATCGTCTTGATATTTGTTTAAGAGCAATCTGTCTCTAGAGACGGGGTCTCACCATGTTGACCAGGCTGGT
CTTGAACTCCTGACACCTTAGGTGACCCACCAGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCAGCCTGTATCAGTAATACT
TTGGATCTAAATCTGCTGTCTTGTTTGCAGTGTGTTGGGTGATCTCTGGTTTTGAGTTCAGATGTAGTTGGTCTCCGTCCATGGGAAGCTTTCCTGTAGA
GAAGATACCAGAAGCCAAGGGAGCTCTGAGACCTGGGGCCTCCCGGCTCCTTTCCTTGCAGGATTGCCAGGTGCTGGACCCTGGGTTTATGTTTCCTATC
TTAGGACCTTATCTGTTGTGCTACCAAAGGTGTTTGCCCCTCAGGGTAGCCTTCACTTTTGCAGGTTTTTAGCACTTTAGGCTCACAATTCTAGTTTCAC
CTCGTGTATTTGATTTGGGGAAGGAGAAGGAGGGTCCTCTTGAGATCATGCCTCACTGTGGACTGCTGTGTTGTGATGCAGTCAGCTTGGAGGGGAAGCC
AGGCCCCAGGAACAAGGGAGAAATGCTTAAGTGTTGGARAGGAGAGCGACAGCACAAACTTCTTACACAGTAAACTCAGCGAAGTGTTAAAGGTGGGCCA
GAACCAATTTCACAGTCAGGCAAGGGCTGAAAGTAGAAGGAAGTGGAAGGGTACAGATTGGCAGATATTGCTAAGCAGGGCTGTGACTGATGAGATGAAA
GTGGGAAGAGGGAGAGGGAGGAATCCAGGTGATTTTGAGATTTTATGATTAGAATAGCATTGTAATCATTAACAGAAATACAGAACCCCAAGAGGAGCAT
TTGAAAATGCTAGCAAATCTATGTGATGCATGTTAAATTTGATATGAGGACAAAGTTTTTGAGAAACATCCACAGGCATTTTAAAATCCAAAACTGATTA
GATATATGAATTGGAGATATATGTATGAGAACTGTACATGTCTGTAGGAAGTGACTCTCTAAGCTTCGGAAGGAAAGGAACCCCTAAGAAGGAGGGAGGA
GGAAGGAGGAACATTAACTAAACTTGAAGTTTGCCTTCACTAAAGGCCACATGCAGAGGAACCAGGGAGGAGAAAGAGAAGCAGTGATCAGAAAGCTCGA
AAGAGAACTATAGTTGCACAGTGAGAAGATGGCAGGCACGCCACGGGCACCCCTCCTTGCCCTGGGGTAGACATTGCTAGCTGATCGCAGATCCTTCTCC
AGGAGCCTGGAGCCAGCCTTGGAGATCTCAACACAGGATTCTCTGCAGCTGCTCAAAGCTGCCTTCATTGAGAACACAAATGCAAGATAGTTCTCAGCTA
TCTTGCATCACTCCCATAGGATCTCAGAGTTGCAAGGGCCCTCCCAATCATGTGTGAGACGCTGAATTCCCACCAGTCTCCTCTGAAAGGGCCACATTCA
AGGGCCTGAAACCCCCAGGGAGCAGAACCCACAAGCCCCATCTMTGGATAGTTGTGAGGGGGACAGAATCTTCCACTTGCAGGGTCTCCATCATTTTTTT
CTGTCCTGGGTTGACTCCAGGGCACCCRGAACAGGTGTCATCCCTCTTCCATCAGACAGAAGTTCCCTGTGCTCAGAGTCCCCAGTGAGCAGTCCCTGGC
ATTGGGYTCTCTCTGTGGTGCCTGCTGGCCACCACCCTGAGTGATAGAGACAGGACCACCTCCCCACCATTGTGGGTGACACACTCACAGCCTTCACTTT
CACTGGGAGCCTCGTTCTGGGCCTGCCGTTCACTGCAGTCCTTCAGCCTTTTCATATTTGTAGTTGGGAAGCAAAATCTTCTCCCAAACCTCACCTGCTG
TTGGGGTCCAAGAGAAGGAATTCTARTCATGCATTTGACCATTTGAGTTGTCAGTTCAGCTAAGAGATCCTCCTCTTTTTAGACCTTGGGGATGGGGATA
AAACCCTAGTTTATCTGCTATCCCCCAAAACTCTTTGCTTTCACAATTTGGTAAGCAGACTTTATATGTCTTTATCCAAGTCATTGATAAAACATTGAAT
ATTGAATGAGGCAAGACAGAGGTAATAGTTCCATGGTTGACCACTGCAGACCTTCTGCTAGTTTATGCTGCTTAGTACCCCTTAGCTGTGAATCCATATA
ACTCTATTCACATCTCTTTCATTCACCCTGATAAAAGCCTTGCTCACATCTGGGTGAGTCTTCAGGGTGATCAAGCATCTCAGAAGACTAAGGGGGAAAA
TAYTGCAAGATGGTGGTGCCCATCAGCAACGTCAGGTGCTCCAGAAAGAGGGGGGTCAGTGAGAMAGAAGACTAAGCACAGCCCATGGCCCCTGGCTGTT
CCTTGATCTGTAATCTTACAGAGTGAGGTTTCAATCAGGTGGATGATGGGGAAGCATTATTAGAAAAGAGAGGGTGGTAAAGAGCTGGATGCACGCGTGC
ACGTGTCTGCTTTGCAGATTGTGTGAGTGAAGGATGAAGAAAAGAGGTGATGATCTCTCTCAAGGATGGAGTGAGATCAGGAAGTGAGTGCAGGAGGTCT
GTAGAAGGGGGACATGAAGTTTGCAAGAGAGTGAGGAAACCATGCCAAATCCAGGTCCGCAAGAAGGTATGAGGGGACCAGGTAAAGGATGCAGAGAGAC
GGGAGGAAAGGACCAGGAGCTGAAAGGAGAGACAGAAATGTTGAGTGACATAGAAGATACTAGACAAGGGAACTTTCTTCTGTCCAGTATACGGAGAAGA
CAGGTGGTGGGATAGATTTTTAAAGTGAGTGATCGGCCAGGTGCAGTGACTTATGCCTGTAATCCCAGCATTTGGGGAGGCCAASGTGGGCGGATCACCT
GAGGTCRGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCCACTAAAAATACAAAATTAGCCGGATATGGTGGCACATACCTGTAATCCC
ATCTTCTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACTTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCATGCCATTGCACTCCAGCCTGGACGACAGG
AGCGAAACTCTGTCTCAAAAAATAAATAAATAGAGTGAGTGATGAAGCCATAGAACAGCCACTGTAGGGAGCACATTTAGAAATTAGCTCGAAATGGGTT
CTGATGTTCCTGTGAACACTTACATGTATTTGTTCCCCTAAGTAGAGTTTGCATGCATAGGTAAAATTTGTTTACATAATTAATCGGGCAGAGCCAAACT
GCGCTTTAGCAATTTAATTTGCAAGTTTTGTCTTTGCATGAGATACTGAGAGTATTACAGTGCAAGATACCAGATAGCAGCTACTGCGTTGGGATGAGGC
AAAAAATAGAGACGTTCCCTTGGAGCTTCATTCAGATTTCCATTGTTTTTATCACTTTGTGTTCAGTCATCTGCCTGAGTGTGTGCCCGTCCTCACCACG
TAGACACGTTTAGAGGGCACAGGCTTCTCCTGCATGCTGGAATCCCTTCCACCCAGCCCAGTGCCTAGCACGTTGGGGAGGGCAGCTGAGGACCACAGTG
ACCGAGCCCTGCACCCATACAGTGTAATACAAGCTCAGCTCTTAGCCTTAGTTCCAGTGACTGTAGCTCATGACTGGCTAGAGCCAGACATTTGAGCAGG
AAAGCTTTACAGGGGACCAGTTGTGCAGAAATTTAACCGGGAAGCTAATGGTTGTAATTTTTTTCACTAGAAGATCCAATAAATGCTGATCAGAGGGAGC
TTTGATACATGCATTTGAATTTCACAGATTAAACAAAGTGTGAGCCTGTCGAGTTGATCTCATAATGAAAAATTGTCACATCCCACCTATGAATTACCAA
GTTTTCCTTATGATCTAACTGTGAGTTATGTAGTTTTTTCATACCTTACCTATCTGTTCACTAGGAGAGTTTTGCATAAAATACATGAATTGGGGCACTA
TCCTATGAGAATCTGTATGGAAAAGGTTGTAAATCATAGTACTAGGACTTAAAAGCCCATGGATCAAGAAGCTGGACCAAGACCCACAGATGCAATGGCT
CAGCCAGTACTTGCACGATATCATTGTAAGTCAGCCATGGTGAAACCTATGTGAAAGTTACAGTTACAATGATTTTTTTTTTTTTTAATGAAATCTCCAA
GTCCCTGAGTGTTTAAGGTCGTTGTTGAAGGCATGACCTGCAGACACCCTGACCCCCACCTTCCTCCCCCACCCCTCTTTCCACAGCAGGTGGAGTGTTT
CATTCTGCATAAATACACAGGTGGCGGGGGTGGGGTGGTCATTTGTTCTCCAAATTCAAGAGCCCAGTAGATTGGGATAAAATTCCTGAGCAACCAGACC
CTCCCATCCTGACCTCTTGTCACCAGCTCTCCAGAAATCGGGAACCAGGGTGACTGAGAGCACAAAGGACACCCCCATACCGTGTGGGCCAGCTGAGGGC
TTCCTCCAAAGACTCTTCTCTCCCCTCCCACTCCAGCCCGTATCGGTCCCTTTCAAGGACAGGGTGGGTCTCAGTGCCGACACCCCAAGCGGRGCTAACC
AGCCAGGGCCTCAGGCCCGACCTCCACTCAGCACGTGCATCACAGCACTTTCCTGCAGCCCCCAGAATATGCCCAGGGCACAGTGGCTGTCAGCACCTAG
GGAGTCACAGACCACTGAGGGGCTGGTGGAGGCCATGGGCCCTCTCTGGCTGGGTGCTGTCCCCACACCCCTGGGAGTGGGGCTTGGGAGCATCACTGGG
CTGCTCAGGTGGAAGGGATCTCTCAGCCACAAAGAGGGCTGCATATCCACCCAGCCAGAAAGGAGTGGGGAAAGGGTGAGTGGGGTGGCACGTCCTCAYG
TCCCAGGCTGCAGGCGCATTGTGAGGAAGGGCCTGGGAGAGCCAGTCTAGGTGAGGTCAGTAAGCCGTGCTTGGAAGCTGGGCTAGAGGGACCAAGAGTC
TGGAAGATCAGAGGTCCGTGCAGTAGACATGAGCCAGCCCAATGGCCACGGGCTGGTGACAGAGATAAGTAAAGTGGTTGGCAGGCAGGTAGGTGAAAGT
CAGTACTAATAATAGTTGCTCGCCAGGGGATTATAATGCAGCTAGTTCACAGGCCAGGGCCCGGAAACATTGAGTCAAATGAGATGTTGTGTCTGAAAAC
CTAGTTGAAGATTTCTTAATGAGGGTCTGGTGCAGTGGCTCACACTTGTCACTCAGCACTTTGGGAGGCCAAGGAGTGAGGATCACTTGAGATCAGGAGT
TTGAGACCAGCCTAGGGAGACACCATCTCTACAAAAAATGTCTAACAATTGGCCAGGTGTGATGGTACACACCTGTAGTCCGAGCTACTCAGGAGGCGAA
GGCAGGCTCGCTTGAGCCTGGGAGGTGGAAGATATAATGAGCTGTGATTGCACCATGGCACTCCAGCTTGGACAACAAAGTGGGACTCCATCTCAAAAAC
AGTTCTTCGTGGTTGTATGCAATTAGTTATGCTTTTTGCCAGTGGTGCCTCCTCCTTTGGCGGGGACTTGGGGGCCGGGAGTAGGGACAGGAATAATGAA
CAGAGGCCGACGTGGATCTGTGGAGTGTCTCCTATGGACCAGGTCCCAAGTCCGCATGGGTCTGTACACTTCATGGAACTAGCAGAAAAGCATTAGACAG
TCGGTGCCCTTTTCCTTCATTTTATGGGTTAGAAAAAATGAACCTCAGGGGAGTCCAGGAACTTGCCCAAAGACTTAGATGTGGCAGGTGGGGTCGCAGG
GTATACCCCCAAGTTCCTCTCTTCCCATTGCAGACATGGCCCCAGAGTAGCTACCAAGTCTGGGGCCTGTCTCAGCTGAGATCCTCCTAAGGCACGCGGG
ATCCCATGCACTCTCCCTGTCTGAAAACGTGGGAATTGATGCCTCTSCCACGGTAACAGGTCCTCTGCCATAAAAGAACAGAACCTTCCCGCGTTCCTCT
ATCCATGGAGTGTCTGTGGATCTACGCRAGTGCTTAGATAGAAATTAACCCTGCAGCCGGAGATTAGCGGCCCTAACTTAATTTTCRTCCCACAGATAAG
GATGGTCAGCCATGAGTTACATGGTTATTCTCCTAAGTTGCTTTGTGTGTGCACCACACAGAGACGCTGACATCACTCGTTGATTTCATCTGGCCTTGTG
CCCTGAGCCTTGATTGAAACCTGGCTAAGTCATGCTGGCCTTAGGAACCACATCTGGACTGTTGGGAGGTGCATGGATTCAAATCTCCGCCGCCGTGGTT
GTCCAGTGCCGTGCGCCTCACCGGTCCATGCAGGGGCAGCTGAACCCAGAGGCGCTTCTGTGACAGAGGGCCCGCAGGGGGACTGCTGTCTCATAAAAGC
TAAACTCTTCATCCCACACTCTGTGTTTCAGAACAAGAAGAAAATTTTGAGTTTATCATTGTGTCCCTCACTGGCCAAACATGGCACTTTGAAGCCACGA
CGTATGAGGAGCGGGACGCCTGGGTCCAAGCCATCGAGAGCCAGATCCTGGCCAGCCTGCAGTCGTGCGAGAGCAGCAAGAACAAGGTGAGGCCCCTGGC
TGCCCAAAACCAAGGCTGGGGCTGCTCAGGGGGAGTGCGGGCCCCAAGTAATGCCCCAGGGAGGAGAAAATAGAGGACCAGTGTGAATGACAGGACCTAG
CTATTCTTTATGAGCAGAAAGCTCAATAACTAAAACGATCAGAAGCACTTTGTGTCTATACCATCATACATGAGTATTCCAGCCTGACCRTGCTTCCCTG
GCAGGAGAGCCAAGGTTAAATCTTCAGTCTGTCAGCCAATCCCAGAGGGAATCTTTTGGACTCTTGTGGCTTCTGGGTCCACATTTATTTTTGTTTTGGA
CAGAATACACTCAGAAAAAAAGAGAGACGGACTTAAAAGATGCACTGTTCAAGTAAATGCCCAGAATTCAAATCGACATCAAGTTGGAAAACCGTCTCTT
GTTAGGGACATAAATGAAAAGTAGATGGGTCTGTATGAGCGTGCAGGGAGTTTGGGAAGATAAAGTTTCTATTATCTAAACTGATAAAGCCTGGTATGTG
TTTTATTCAATAATTAGAGGTGGTGGTGCAGCTCTTTTAGAATTTGTCCAGCAGGTTTTCTGGTTCTCACCAGAAAACGCCACCCCCAAATGTTTCTATA
TTAAAAAAATAATGAGAGGCAATTTGTTTTTTGTAGTTACTTAGCTAGAAAAGGAAAAATATTTTAACCTGTATTTTTTTTTCCTTTGGAGAGAGTCTAT
CTCTGTCACCTAGGCTGGAGTACAGTGGCACAATCTTAGCTCACTGCAACCTCCAAGCTCAAGCAATCCTCCCACCTCAGCCTCCTGAGTTGCTGGGACT
ACAGGCCTGGCTTGCTTGCTTATTTATTTGTATATTTATTTATGTAATATATATTATTTGTGGAGGTGGGGTTTCATCACGTTGCCCAGGCTGGTCTCAA
ACTCTTGGGCTCAAGCGATCCACCTGCCTCAGACACCCAGAGTCCTGGGATTACAGGCATGAGCTACCACGCCTGGCTTAACCTGTGTTCTCTAGGCTAC
TGCCCAGTGATGTTCCTTCTACAAAAGTCCTTTTTCCCATCAAGGATTGCTTCAGTTTCATTATTTTAATGTTTGTTTGTCTTTAACCTCTTTGCTGGGA
CGTCTTAGACTTTTGGAGAGCATTTTGATATTTCAGACTATGATCAACTAGAAACTAAGAGAAAGGATGTTACCCACCRACCTGCAGTTTCATTTGTAAC
CATTTAAAGAAATTTCTGCCTATGATTTATGTGCAGCTTTGTCACTAAAAAGAGAGTCTGTCTTTCAGAAAGATGAAGTGTCTTATTTTATTACCCTCTT
TAACCAGGGTAAACCAGACCACAGTCATTATTATTATAATGTAATTTGCTTCCCTTTTTAAAAGATGTTTTATACTCAAGGTGGGGAGAACCACTGCCTT
TCATTCCATACACCCTGGCTTTACTGGGTCACGTCCACATGCATCCATGATGTGCCTCCTGAAACGAGCACAGGGTGCTTTGGGGCCACCTCAATGGGAA
GCAACAGCACACAGCATCCTCCAAGCGTGGGCAGCTCATTCTGAGAAGGAAGGCAGGGAGGCAGGCTGTGTTACCGAACAGAGAGGCACAGGTTCCTGCC
TTCATGGAGAAATCACAGTCTTTCACGGCAGACTCTGAGCCCCTGCCACCTCGACCTAATTCAGGAAGATCTGGGATGGTGGCAGCCTTTCCCATTCCAC
ACCTTGCCAGGCTCCTCCTGACTCGTGTCTCAGCTCATGCACACACCAGCCTTAGAATGCTGCCCTCGGCCCTCACTAGGCGCCTGTTCTCCAGGGAATT
GCTCCCTTGGGAGGAGGACGCGTTGAGCAACCAAAGGTGGCCGACTCAGAGCTGGTCATCGTGGGCATTGGTTGAACAGGTGTGAGGGCATAAAACATGG
AAATRCTGTCCACAAGGAGTAGCGGGAGGCAAAAATACAGGCCCAGTTGACCACCAGCTTTATAGTATTTTACCTGCCAGTGGATAATTGAGAGCTGATA
CAGGTATAGGCATAGCTAGACAGACAGACAAACCAACCAACCACAGAAATGATACAGGTACACAGAGAGACAGAGGCACATCCCTTTGTATGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGATCACACACTTGCATTCCAGATGCCAGTGTAAACTGTTTAAACATATTTTGAATACTTGGGTATCTAACCAAAGGGAATT
AAAATTCAATAACGCATGATGCTAATTAGACAGTAGTGATTAATACATTATAATTTATTATGTAGCAAGTAATATATTATTTCACATCAATTTGATGAGA
TGTTTCAATTTATGAAGAATTCTTACGCAAAAATCAAGCTTATTGTAACTGTCCTCTGAAATTGATCAATTKTTGCTTTAACCATAATATTAAATGCATA
CTTAATAAATAAGCCTCAAAAACACTACATATCAGCCAGACACGATGGTTCACGCCTGTACTCCTAGTGCTTTGGGAGGCTAAGGTGGGAGGATCACTTG
AGGCAAGGAGTTYGAGACCAGCCTGGCCAACATAGGGAGACCATTGTCTCTACAAAAAAATTTTTAAATAGCCAGGTGCATGGTTCACACCTGTAGTTCC
AGCTACTCAGGAGGCTGAGGTGGGAGGACCACTTGAGCCCAGGAGATGGAGGCTGCAGTGAGCTATGATTGCACTACTCCAGCCTGGGCAACAGAGCAAG
ACCCTCTCTCTAGGTGGGGAAAAAGGTACATATCCAGTACATATCCTTTCACTTAGAACTTCTACTTCCAGGAATCTATTCTTAGTAAATAATCATGAGT
GTGTACCAAGACTTAGCAATCATATGTTCTTACAGCATCGTTTATGATAGAGAAAAATTGGAAGCAACTTAAATGTCCATCAAAGAGAACTTGATAAGTA
GGTCTTCACTAAGTGGAATGCTATGCAGCCATTTAAAATGATGATGTCAGAGAGTATGTGACAGCAGTGAGCAATGAACAAGTTTCGTTAGGCTGGAAAG
GGCAGGTTTCTATGCAGCAATATGTATTACGCTGGCTTTTTAAAGTACATATGTGTATGTAGATGTGCTTAAACAACAGGCTAAAAGAACAGACATCAAA
ATGTTAATAATGCTTAACTATGGATGGCCGTATGATTGTTTATTAATTTTATGTTCTTTTTCCCCTCTCTGTATTTTCTAAACTTGCTTCAATGAGCATG
TATGTTTTTAAATCCTTTTTAAAGAAGACCATAGAGCCAGGTGTGGTGGCTCACACCTGTAATCTCAACACTATAGGAGGCTAAGGCAGGAGGATCACTT
GAGCCCACGAGTTCAAGGCTGCAGTGAGCTATGATCACACCACTGCACCCCAGCCTCAGCCACAGAGCGAGACACTGGCTCAAAAAATAATAATAATAAA
TAAATAAATAAAAATAAAGCAAGCCATCAAGTGTAAGGTTAAGAATCAGCACTCCCAGCTATACTCGTGTTTCTCCCTGCCCCCACCCTGGCGAGTGGCT
TTGTCACTGTGGCAACCGAGGGTCTTCAGATGACATGTGCATCTCCCAGGGTGACGTGTGGTATGAATGGGGTTTTCTGACAAGGAACCATGAGATATGT
CTTACATTGCTGATGAAGCCCTAACCCTGGGCTTATAAACGGATTATTTCTTTCTCATTCTTCTTACCAAGTAGACATGTGGCTACTGCCCAGAAGGTTA
CCCATTTACCTTCTCCAGGTTACCATGGTCCATGCGTATTCACAGRTGATCCAGAACTCTCCTCTTTGCTCATTTCTGGCAGAGTCCGTCTCAGCTGATG
AGTTAAAATGTGACATTTCCTCCCTCCCCCCGCCCCATGCATGATGATTTCTTCTTCAGTTATGCTCTTTCCCAAAGACATCAAAACAAGAGTGATTGTT
TAGAAATTACCCTCGTCCTACATTTGCTCCCAATCTGTTTGATCTTTCCCTGATGTTATCAGTGATGTGCGTTTCTCCCGGGGTGCTTACGCCTTGTATT
TGTGTCTTCCTCCGTGCCCAGTCCCGGCTGACGAGCCAGAGCGAGGCCATGGCCCTGCAGTCGATCCGGAACATGCGCGGGAACTCCCACTGTGTGGACT
GCGAGACCCAGAGTAAGTGTGTGCGGTGGTAGCAGGGGCTGGCGCTGTGTAGCTGGAGACCACATGGTCCCACTAGGCCCGGGTTGCAGGGGACYCACAT
CTGTCCTGTTTGGCAGATAAGAGTTAACTGCTTTTAGGAAATTGAGATATTTTGTTTGGATTTTACCTTAACAGAGTGCCTTCCACACAAGCCTCACCCC
TGGCTGCAGGGTGCGTTTCTGTGAGTCTTTCCTTGCCTTAGGCATCCGATGAGCAGCAGTCATACCTGAGGTGCAAAGGATTCAACCCCACACCCACAGC
CTGTGCCAAATCTAGGAAGCCCAGGAATTCAAGACGAGCCTGGGCAACACAGGGAGAACCCGTCTCTACAGAAAATTAAAAATTAACTAGGCGTGGCAGC
TGGCTTACTTTTTGCTTAATCAGTGATCACTTGTTGATTTTTTTTTTTTTTCATAAAAATAGAATATAATTGGTTCATTCCTGCCTAGAGATTCTTGGGT
ATTGTTTTTTTAAATTCACAATCATATGTTCTGGGTTTTGCCATCAAATGATGTCTTGTTTTTTTTTGGTCTTAAATCCATTACCCACTAAAGCCTCTGA
TTGAACTGATAGAAGTTGTAATTACTGCTTTGTGCCATCGAGTACCCCAGTTTTATTTCATGATTTCCGTTGTCTAATCCATACTATTACTTTCCCTTTG
AAAAAGTCATTTTGTTGTTCATAATCTTGAGAGTAGGGACTTATTTTCATGGTTGCAGTCCCAGCCCAGAGACAGTATTGGAGACATTCAGTAAATTTCT
TCCCTTCAGATTTTTTTTGTTAAGTAGTGTTTTGAAGAGAAGGAAGTTCAGTTCAAACAAGGTAAGAGGTGCTGGTACCAGGCTGGGTGCTGCCCAGGAG
TCAAACGTGCATGGCGTGGTGGGTCCTGCCATCCTGAAGCCTGAAATGCACTGGACAAGGCACCAACCTGCTGACCATGGAGCTAAGCGCTGGGGAGAGC
CATCGGGGGCATGCGGCGGTCTTGCCACCCATGCAGGAGCTGTCGTGTCAGCAGGGCTCTGGAGATGGGCAGGGTTTGTACAGGGAAGGGGCCGAAGGAA
TCACTGTGAGCAAAGGGAGTGGCTTGAGGAGAGCTTCTCTGGGTGGTTGTAGGATTAGAGRTGCTTTTTGGGCTGGAAAACCAGTAGAAGCTAGTTGGAG
TGTGAGTGCCAAGTGAAACTTTTTCCAGCTTTGTTCTTCATTTGTAAGCAGAGRGACATCATTGGAGTTTTAGAGCAGGAAGGAGATGGACCCTGAGCTC
CACTTGGGGAGATGGATCTGGCCAGACCATTTTGAACATACTGGAATAGAGGCAAAGCAGGGAGGAGGCCAGCCAGGGTCGGCTTGGCCGGGAAGGGAGA
CAGGAGCCCAGGACTGYTCCAGACAAAAGGGAAAGGAAGCGCCCCCTCCAAGAGTCCACTCAGCAGCATAGCAGGCAGGGGAGAGATCAAAAGTCTGTCT
GCGGCCTCTCTGGAAGCCTGTCCTGCGGGTGAGGGAAGGGGTTCTTCTCCAGGTATCTTGAGGTTCTTCTTTAAAGTACCTCCTTATGTTTGAATGTTTA
AGTTTTACTTTCAAATGTGTGGTGAAATGAAGTTCGAAGAGAGAAGCAGTTATTTGAAGTGTGTTTCTATCAAAAAGTTTTAAAAGTAAGAGCTTTTTTA
AAAGCACGAATCTGAGAAATATTAGAACATCCATTAAGGAAAATGCCTGCAGTTGTTTCCACCGTGCGTCTGAAGGTCGCTTTAAAAGGAAAGCCATCCG
TGGCTTGCGGGGACCATGATACCTGGCAAATCRGAGGTCGCAGGTCCTGTCTGAGATGAGCTTGTGCATGTGAGTGCGGATGGGGGGTGGGAAAGGGAGG
CCAGTGCAGGGGAGGTGTGGGCCAGTTTGTTCTGAGCAAGACCACCTGAGCAGATGGACAGGGACAAAGGGAAAAGGCAGAGTTTGACAATTCAGGAGAA
AGAGGCGATACCAAGCACGCATTTGCTAAATGTGTGGTCTGTGTCAGCCCGGTGCCAAACCCTCMCATGCGCTGTCTTTTCATTCTGCAACCCTAGTAGT
TGGTGCCCCTGTGGGCCCCACTTAAAGGGGAGGAATTGAGGAGCCTGAAGGGTCAAGTCATTTGTCTGAGGTCACAGAAATAGCAAGTCCCAAAGCAGGA
TTCAAACCCATCTGTTGTCCAGCCTGCTGTATTTTCTCAAGAATGGAAAGGCTCAGAAGATGTAGCACATTGGCAAGGATTTGTTAAGTAAAAATACCCA
ATTTTGGTTAAAGTACCGGGATAGGTACAGTGCCCACACTGATGATGAACTGTAAACACCTCCATGGGGCCTTTCGACAATGTATATAAAAAGCTTTTGA
AGAGTGGATGCCCTTGACTCCAGCTGTATACTCCAGGAACTAAACCAATGGGATTGAGTAAGGCGGGTGCAGAGATCTGTCTTTCCAGATGTTCATCACA
GTGCTTTATATGGCAAAAAATCAGAAGCATCCCAAATGTCTAACAATTGAAGAGCAGTTCATGGTGATGTCTTGTCTTTGCTACCTTTAAAAATCATGGA
AAAAGACTTAATTGAGCCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGAC
CAGCCTGGCCAGCGTGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCATATGCCTGTAATCCCGGCTACTTGGGAGGCTGA
GGCAGGACTTGAACTCGAGAGGCGGAGTTTGCAGTGAGCCAAGATCACGTCATTGCACTCCATCCTGGGCGACAGAGTGAGATTTCGTCTCAAGGGAAAA
AAAAAAAGTGGGGGGGGTGCTTAATTGAGATAAAGAAACTTCATAATGTGTTGTAAAATGAAAAAGGGGTATGACAATGAGTCTAGATGAACCTAACGAG
TATTTACAGGTATTTAGAGGGGAAAGATCTGTAAGGCTGCACTCTGGAAGGTTAGCACCAGTTGTGTCTGAGTGGTAGGGTCTTTTGAGGCTTGGGGATT
TTCATGCAGCGTGGAATTTGRAATTGTGGTAACAGCTCCCTGACCCCCAGTTCTTGCAGAGAATGCTCTAGACCGCCAGGAGCCCCCTCTGTCTGCTCAC
TGGGCACATCCCAGAGCACTGTTTCCAGAGTGGACGCTGAGCCTCTGGAGCTTTGGGGGTGCCTGTCTATAAAGGGATTCTGAGAGCCAGTGAATYTGGG
AAACTCTTAACAACGTCCGACTCCCAGGAAGTTGCAGCCTTCRGACACCTGTGCTTCCGGGGAGTACTGCTCTGAAGCTACCTGTTCAGCATGGCCCAAC
CCAGCATGTCCCAGGCCCATCGGACAGTGGGGCCTTTGTTTAGGGTGCCTGTTGCCTGCCTTCTGCCAGGAACATGCCAAGGAAAGTCCACACCTGAGGG
CCCCTGAGAATCCTAGGGCTTGGGACCCTCAGTGGCTCTCACCAGCAGGTCTGACCTTCATGGACAGGCCCTGAGAGGCAGCTCACCGTTTCTGCTGCTT
TCTCTCTGCCCATCCATGTCGCCCATGAAGCCCTGGTTGGAGCTGACCGTGCGCTGGTCCCTCCCACCCTGCTGCGTGGACCTCACAGGTGCCCCTCTCT
CCTGGGCCTTTCTCATGTCTAGAATCCTGCCTTATTTCCCTTTGTGAACCCCAGGCCTGCACACAAGAGGGGACTGGCACCCACCACTACCACCAGATAG
CTCACCACAACCTACAGTAGGAGCACATCCAGGCTCTCATCTTTAGCTTGGCCCACAAATAGAACCTCCGGTCCCGCAACGTCGGGTCTCCTTCCCATTG
TCGCCTCTTAGTCCTTCCCTGACCTCCAGGTTTGAAATCACACACACACACACACACACATCCCTACTCCCTGCTGTTCTGCCCTGGGGGCTTCCTGGCT
CTGGTGTATCCTAGAATTTTCTTAGCTCTTTTCTGGTTTGGGCGGGGGCAGGGGCGGGTTGAGATGGGGTCTCGCCCTATAGCCCAGGATGGAGTGCAGC
AGAAAGGGTAGGCTGCCTCTCGGGGCCTGTCCATGATTGCAGCAGTGCAATCATGGCTCACTGCAGCCTTGAACTCTTAGGCTCCAGCAATCCTCCCACC
TCAGACTCCTGAGCAGCTGTGACTACATGTGCGTGCCACCACGCCGACCTGATTTTTTAAATTTTTTGTAGAGAGGTAGTCTCACTATGCTGCCCAGGCT
GGTCTTAAACTCCTGGCCTTCGGCGATCCTCCCCCATTGACCTCCCAAAGTGCTGGGATTATAGGCAGGAGCCACTGTGCTGGGCCTAGTTTTTTTTATT
TTTTCCTGCTTGGTCTGTCCTCATAGAATCTACGTCCTGCATTTCTGTGGGCAGGGATTTTTCTCCGTTTTGTTCACTGCTGTATCCCCAGAAGCCAGTG
TGTTAATATTGGTTGAATACGTGAAGGAACAGATGTAATTACAGCCAACACCTAACACTGTACTTCCCGTGGGGCAGTCACTGCTCTAAGTGCCTCGTAG
CTTTTAATCCTTCTGACAGCCCCTTGAGGATGGGAATTATTAGCCTCATTTCTCTGGAGGGGAGCTGAGGCCCGGAGAGCAAGAGGCTTGCAGAGGACAA
AGGTGGAAAGGCAGTGCTAGCAGGTGGCACGCACACAGGTGTGAGGGCCTGGAGAGCAGGCAGGGCCRCCCTGGGGCTGTGGGACCAGCGGGGCCTGAAG
CCAGGTGGAGGGGCAGGAGACAGTGCAGAGGTCTGAGTCCGTGCCAGGAGGCTGGGATCAGCCACAGGCCGAGGTTCTCCACCCAGGCCGAGACACAGCG
AAGTGTCCCAGTTGGGCCTTAAGGCATCTTTCAAGGAAATTGCAGTGGTGATGCTTAGATACCAACCCTTGCCGATGAGTCATTCTCTGCTGGAGCRGAG
GCAAGGTTCTCCCCTCAGTCAGCCCCAGCCTTACCTGTCTCTAAGCAGAGGGTGGTGAGCWTGGGGCCCTGGAACACTGTGCCCCCRCCCCCTGCAACAT
TTTGGGTTTCAGAGAATTCGGAGTCCGGCACAGGAATGTGTCCCACGCATGAATGTCGTCCTTCAGATCTGGACCTGACAGCCTGGGAGCTGCTGGGGGG
AGGTAGGAGGGGGTGCACCACGGTCTGAACGAGGGGCCAGCATGAGTGGCTTCTGTATCTGCAACCCACAGCGGCATGGAGGGCGGTGGGGTGGGCATAG
GAACCAAATCGGAGGTTCTGGTAAGAGCTTAGGCAAGTGGCTATGGGGATCCAGATGTGAGTGGAGACAGTGTGTCAGAGCACTCCCCACAGCACTCGGT
GATGGGCTGGATGCTGGGACATAAGGGAGCAGGAGAGGTGCTAGGTTTTGAGCGGTGGTGTGACATGATCAGAGATGCCGTGTTCAGTGGGGCCCTGGCT
GCTGTGTGAAGAGGTCTGCAGGGAAGTGACGGGCAAGGCCGCAGACAGGAGCCCCTTGCACCCCAGTTGCGATGCTGGTGAGGACGCCCATGGGAGCATA
AGTTCGAGAAGAAAGCGTTGGACTTATGAGAGGTTGAGAACCTTGTGATTGGCTGTGGGAATGATGGAAGAATTAAGGTGGACCCCTGGGGTCCCAGCTT
GAATAGCTGGGACAGGAGGGACCTGGCAGAAGAATGCATTTGCAGAGTGGATGTTGACTAGGAGATTCTCCCAACTGAAATGTACGTGGTCGTTGCGTAT
ATAATAATTCAGGAGCCAGGAAGAGGTGTTAGTGCCTGAGTGGTGATTGAAGTGTGGGTTGGGTTGGCCTGAATAAGACTACACAGTCAGAAGAGATGAC
CCCACAGGAGCCCTGAGGTCAGGGAGGAAGAGCTGGGAAAGAGATCACAACGGAGCAACCAGGAAAGTGGGGAAAAAATCCAGAGAGGTCGTTGACCAAA
AAGGTATCAGAAGTTAGCACTGGCCCAGCACAGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCCAGGCAGGAGGATTGCTTGAGCCCAGTGGTT
GAAGCCTGGGCAACATAGCAAGACCCCATCTGTGCAAAAAATGTAAGAAGTTAGCCAGGCATGGTGATGTGCACCTGTAGTCCCAGCTACTCGAGAAGCT
GAGGCAGGAGGATCACTGGAGCCTAGGAGTTTGAGGCTGCAGTGAGCAGTGATTGTGCCACCACAAGAGACCCTATCTCAAAAAAAGAGTAGTACTCAGT
GTTGTGAGGAGGGGTGGGGCAGTGGCCAGCCCACAAGAGGCCGAGTGAAACGTTGGCCACAGGGGTCTTTTGGGTTTCGCCCTGGAACAGGCTAGTGACT
TTGGTTGTGCTGCGTCCATGGTCAGGAGGTAGAGGCCTGGTTGTCAGTGATCCGGAGGTGCAGAAGCAGAGGGAGCCAGTGGGGAGGTGGGCTGTGCAGA
CACAAAGGGAGAGGCACAGGCGAGGAGGGGTCCACGCCAGCTGTGTGCCATGCCTCCACCCTCCACAGCCCCAGGCCAGGGCCTCCTCTGTGTCCCCGCT
GCCCTCTTCCTTCTCRTGCCACCTGTGCATTGGTTCTGACTGCGCTTTTCAGCGTTGAGTCTCTGCATTTCTCTGTTCTCTTCTGCTTGGGTTTTTTTCA
TTTGATGCATAGGTTTCCCCTTCCCAGTCAGAACCTCTCTGAGGTCACAGACCTCTCTTCTCACATTTCTTTTTTTTTTTTTTTTTTTTTTGAGGAGTCT
CGTTCTGTCACCCAGGCTGGAGTGCAGTGGCAGGATCTCCACTCACTGCAACCTCTGCCTCCTGAGTTCAAGCGATTCTCCAGCCTCAGCCTCTCAAGGA
GCTGGGATTACAGGTGCCCTCCACCATACCCAACTAATTTTTTTGTAATKTTAGTAGAGACAGGGTTTCACCATGTTGGTCATGCTGGTCTCGAACTCCT
GACCTCAGGTGATCCTCCCATCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACCGCACCCAGCCTCTTCTCACATTTCTTGKGGTATCT
ATCACTGCCTTCTTGCATATGTAGTAGATGTTAAATAAAGGACTGGCTTTCTGATTTCTGATCAACTGGCGTAAGGCTATTGCTGGTTACTTGCCATTTA
TAAAACAAAGGATGTCTCCCCAGTGAGTCAAATGTGACCTAAGCTACTTGGTCTTTTGTTGACTCTTCAGGTGTGYCCAGAGTAAGCATTGCCTATTCCC
AGGTGAGTAAGCCGTATTTACTTAACAGTGGTGAAAGCCAGTGACTATCAAGGTCAACCCTATCTCTGCACATCAGCTGTAGATTCTAGCGTGAAGTCAA
CCCGGGCCTGAGTTCTTGGTCTTCTGATGATGCCAGCCAGTTTCACGCAGTGAGTGCTCCAGTTCTGGGGTCCCAGTGCTGCTGTCTRAATCCATTTCTT
GTCCTGCACAATCCTTGCACTAGTCSTTGGTCTAGTTTCACAGCCCAAAGCCTGTCACCATTCATTCTGCAAGTCAGCGTTGGTTGCGCTGCGTGATAAC
CTCACCAAAGGGCCCTGCCCACCAACTTGCCTGCAGTGCAGTTGCTTCAGTAGCTATAGTTAAATAAGATCACTGAAAACGATATTTCTTCACTGTAGTG
TACCTCTCTCTCATCTTTGAAATTTGCAAGCATGCCCGTTGTGTACCTACTGGAAACTTTGATGTGCCAGTGGCTGCAGAGGTAGCAATGAAGGAATGAC
CAGAGTCACGGTGTCACCCAGCTGCCCCTCAGCACCACTTCTCCTTCCCTCTCAGCAGCAGCTGTCCACAGTGGATGCCGAGTCACACGTGCTTTTTCCC
ACACAGGTCAGCCCTCTCAAGGTGAATGCTGCTGTGACATATGGGAAAGTGCATCTTTTCTATCCAAACCAAYGCTGTCAATTATTTATTGTGCGGGAAA
TTCCAAGGCTTTGGCTTCAGCCAAATGTGTTCTGAAGCTACTACCAACGGCCAGTCATTTGGGACACCTGAAACAGGACTGAGCACTGGCTAGGGAGCAT
TTTTTCTCRCCATGGATGTGGTTCTGTCGTTGTGAAGTTTGACTGATTCRTCGCCTTGTGTTTCTAAGAACGGTTGGAATGATGCATGATGGTCTGATTG
CRTTTAGCGTTCTGTTCCTCTTCCCGTAGATCCCAACTGGGCCAGTTTGAACTTGGGAGCCCTCATGTGCATCGAATGCTCAGGGATCCACCGGAATCTT
GGCACCCACCTTTCCCGAGTCCGATCTCTGGACCTGGATGACTGGCCARTCGAGCTCATCAAGGTGATGTCATCCATCGGGAACGAGCTAGCCAACAGCG
TCTGGGAAGAGAGCAGCCAGGGGCGGACGAAACCATCGGTAGACTCCACAAGGTAGGAACTTTGGAAGATGCCTGGCTCCCGACACGTTTGCCAACAGTT
AGGCAACTGGAAGTGATCATAATGACAGCCACRGTTGGGAAGGCCCTGATAACCTGTAGGAATTCGGGAATTCCGATTCATCCGGCATAGGAATGTCTGT
GTTTAAAGTYGGTCTTGAGCAGACGTGGATAATTCACACTCCTTAATTTTTTATGTTTGTTTTTAGGCCTGGGGATTTCTCTYCCCCCTCTTAGAAATGT
ATTAAGCTTCTAACCTTATGAATATATTACTTTAATTAATACATTTCTAATAGGCATAAGCTGTGCCGTTAACACTAATTATGAATTTTTGATCCTTTAA
TTTTGTTATTCTTATAGCTTGGATAAGCATCTGCTCTGTCGATCCCCCCCCCGCACCATCACACAAAAGTTATTTTTATGGTAACAAAATCTATTTTATT
TTCTAAAATATATCTCAACACATTTAGTCAACCAAGTTCAGCATAATGTATGATGTAACTCCTCATTAATGTTAATTGTTATCCAGTGTAAAAAACGCAT
TTATTTTGAGGCCATTTAGTTTCTCATTTTTCATTTACAGCTATTATAAACYGTTTTTGAGTACACATGCATATTTAATGTTCCTAAGGGGTGATAAAAT
GGAGTGTCTTCTGAGAAGGCGTATGGCATGGAGGCAGAATAGAGCATTTCATCTCCGTACTTGTCTAAAGCAAGTGGCTTCCAGGGTTGCTCATTTTCAC
CCACAATAGGAAGTRGGAGGTTGAGGTTTGCTGTCCGTGTTTGCCTCTCAGGTGTCTGAAGAGATGAAGGGAGAGGAGAGGTCTCCCATCACTGGTACTT
TTTAGGTTCCTCTGATTTGTTTTGCTGCTGATCAGATAAAATGAAAGTTCAAGTGGTAATCTGTGGTTACGCCACAGAAACCGGTTTCTACTGCAGAGCA
GTAAGAACGTGAGAAGCGTTCGTGGACTTCAGTTCATTAACACTGAAAAATGAATTTGTGGTGCCACCTTTGGCTCACTGGAGAGAATGAAGCTGGTGTG
TTACTCATCTGGCTCTCCGTATGAGGGATTCTTTGGTAGTGGGGAGGACAGGAAAGGTGCAAAGAACATATTTGTTTAAAATTGCATGGTTTTGATACGC
GACCTCTTTATGAGTTATGCTCTATAGTGTAGACAGGGGTAAGTTTCTTACAAACCGAAGAAATTATGCACTTTAAAAAGTATTTATCTTGATTTGTTTA
ATGCTACCATAGAAATCAGCTGGGTCATCAACTGTGAACAAGCTTAAAAGATGAATTCATGTTTTAATATCTATTTTTTCACAGATAATGATAACATTGG
AGGAAACTTGGGTCTGAAAATGAAAAATGATTGGAAATTAGATTGAGCTTAATATATGAATGCAGAAAACATTGAAATAAGCTGGAAAAATCTATGCATC
TTACTGTTTATATGTAAAAGAAGCACATTCACTATTTTTAATATCATGAATTATTAGAAAAGTTTGTTTATCCATCCATTAAAATTTAGAAACCATTTGG
AATTATTYGAAGCAAAGATACGGGTTCATGTTTTACCTGATAAATGTTTTATAATTTCATCTTCATTCATAAATGAAGATTGTGTGTGCACAGGTATTTT
GTAGTTCTAATTTGCATCCTTGAATTAAGTTCTTGAGTGCAGAGCCCTGTCTTTTTTCCAGTGTTACATACATCACATCATTATATTTTAGAGACCTATT
GCAGAGACTTGCTTACTCCCAAGTGCAGTGGTTGCAGTTAAGTCCCATCTTTTCTTTAGTCACACTGGCTTTCCTAAAGAGCAGGCCGAGTTGTAATTCC
TCTCCAAGACTGTGGTGTTGGTGATGTGGTTCTGTGCTGTTGCTGAAGGTAACTGTGGAATTTCTAAGTTCCCTTTGCACCTAAGAAGATAAACACATAC
GAGAACTGAATATTTCTTTGTGCCTGTAGTAATTTTCCTGGGGAGTTTTGTTTTCAGTGAAAATCAGCAAATAATCATTGCACACTTTCTCGTAGAAAAG
CAACGGTGAGTGATGATTGCAGTTCCCTGGTGATTGGTGAAGGCTCTCAGGGCTGCCTGAGGATGCCAGGGCTCGGGAGGGTGCATTCTGGGAGGTGTCA
CTGGAGAAATGGCATCTGAGCTGGACTCTGAAATAGGGGGTGATTCCCAGGGCCAGGGCCAGGGGACCAGGTGGGAAGGCGGGCTGGAGGGTGGGAGTGG
CCTCGGTGGATGCAGGCTCGGCCSGGCCTGTGGGGAGGTGTGCCTGTCGGCGAGTACAGCACCGTGGACGGGAGCCTCCCATGAATGAGGAGGAGCAGGA
ATGGGGGAGGCCCAAAGAGCAGAAGCAGGAAGGGCCTCTGAGCCAGGGCTGGCACCTTAAAAGCGACCCTGGGGGCAGGGGAGAGGGGAAGGGTTTGTCT
ATTCATGGGTTCTGTCTGTCCCACCTGTTCCCAAGAGGACTAAAGGCAGCCAGCAAGGTCTGTGTCCCTTCCCGCTGGAAGGCCAGGGTCCTGGTGGAGC
ATGCGGGAAGCCTTAACTACACTGTCCAAAGCAAAACACACCCAGCCCGATAACAGAGTAGAAATTCAGACTCCCACCACCTTCACCACCTCCTGCACRT
CCCCTCAATAGAAAATGGAAAAGTGAAAGTCGGGGCTGGAATCTCCGCAAGCCGGTCTGTCCATGACGTGAGAAGATTCTGCCTTTYGAAGCCACCCCCG
CTCCCTCTGCCCCACTCCGCCCCTCCTGGTCTCTCTGCAGAACCTACGATTGTTAGTAGAAACAGCTGGAAGGTTCTTTTAATGTGGCCCTGAGGTAATA
CCAAAAAGAAATATTTTAATAAATTTTTCTCTCTATCAAAGGAAAAGCCAAGTGCAATATATTTGGTGTAATTCTTTGAAAAAGGGCCCAGCTGTTTTCC
CAAGGAGCTCTGGTCCATTCCATCTTGTGCAGAAGATTCATTCTGACAGTGGAATATAATTAGAAATGCGTCGTTCAGCCTGCCCCCACCCCCAAACACA
CAAACACACAYAGATTCAAGACCATGGGGAAGTAGAACACAGCAGATCTTCCTCCAAAGAGACCGCCGCACACTGGAGTCACCTATTCGTGCGGCCAGTT
AGGACAGCAGGCGCCCTGGACAGCCGGCCTCTGCTGTGTCCCTGCACCCCTGATTAGGGCAGCTTCGGACGGCTTATAATTGGTTCCAGTTAATCTCTGC
CGCCCTGAGAACTGCCGTTCAAACTTGAGCAGCATCATGATCAATGGAAGCTGACGGCGGCTGAAGCAGTATTGACTTCCCATTCCTAAACAGGGGAATC
ATTAGTCAAGAAAAGCATCTTTTAATTACTCCCAGGAAGAAAAAAAAAATCTTTTTGGATGGATTCTGCAACAACTGCCATTTTTTCCCAGTGCATTCGA
TATTAAATTTATTGTCGCAGGAGGGGAGAGGATGCCCTTTGTCCCCCTCTGTAATGGGGGTTTAATTTGGAAAAAGAAGCACGTTAGAAAACAGAGCAAT
GCTACAACAATTAACTACATCTGGGGTAGCATCAGAATTCCCCTCTCTAATTGCTATTGATACCATTTAAGCACACACTTAAAATATCGATTTTAAGTGG
GGATGTTGAAGTGGTGGTGAAGTAGTAACAGTGGACAGAACTAACTAGGTTTTAGGGGTTTAAGAAGGGAGCCGTCAGCTGTGTGTAGGACAGGACTTCG
TAACACCCGGCTTGTGCGTGTGTGCRGTACCATAACGTAGCRTGTTGTAGGGCGTCGAGCAGCTGGGCCGGGGGCCRCCAGCCAGGCGGGGCTCTGGGTT
CCAGTGTTAGAGGTACATGGTGTTACTGTAAGGAGAAGTTGCCAAGCTCCTTGGTGACCCTTTCAAAGGCAAGAGTAATAAGCTCAGAGGTGAAGATGTT
AAAACAGTCGTGCGAACGTCTCCTGCATGAATGAATGATTGAACGAGTAAATGAGTGAAAGCGGGAACTCGTCATCATGGAACACATGTCAGGTGCTCTT
GCTACTTCGGGGCCTTGGAATTCCTCATGTGAGTGAAACCGGGGCTTTGACGTTTGCAGCACCAGCAAAGCCGTCTCAGTAAACCCKTCCACGCACATCC
TCTCTCCCTCGCGGTACAGCAGTGTTTCCGGGGCTGCACGGCAGCGCCCTGGCCCGTTGTTCTTTATTGTTGTCCCCATTGCACTTAAAAACATTTGGGA
TTGGCTGCAGTGCAAGTGATTTCCTAGCAGGACGGAGCAGAGCCCTCTGGCGCCACATTCCTCTTGGCWGAAGCCTCGCTCTGCGTGGCACTGCATCTCC
CCATCTTTGTGTCCTGGTGTCAAAGCATTTGGCCCCCAAGGCCCTGCAGGGACTCGCTGCTATTTGCATTTCAGTGCAGGTAGCCTGTTTACTTGGCGGC
TTAGGAGCCTGCTGATTTGGGCCAGGAAATCAAAGGAACCTGGAAGTGGAGAATAGTGTTTTCAATTCCGTGAAAGAGCTCTTGAGAGGCGCTTTAAGCG
CAACTGAAATCACCCATTACCTCTTTGATGCCACTTGGAAGGGAACCGAGTTTGCTGATTTAGTACGTATTCTTTTCCCTTTTTTAGCATCCTTTTTCTT
TTTCTTCCCCCCATTATTTGTAAGTTCACCTCTGTGCCTAAACTCCCTTCTTGTCTTTAACCTATAAAAAGATGTCGCCTTCGATAGGAAGATTTGGGGC
CAGACATCAGAAATCCACGTGGGAGAGACTGGCCGTACACTTCCAGATGGAACAAGTCTGCCCAGTGATGTGAGTTCCATCTCTTTTTGATTCTGGAACT
CCACTTTCATCTTATTTATGCACATGGAGATATTGATAAAGGGGAAATGTATCCAAACTGAAAATAATTGGATCCCTACAGCTAACTCTGAGATATTAAA
AGCAGTACCACTTGGCTGTGTCTTTGTCTTGTTAGGTTTGATCATAAGATCACAATGTAGTAATCTCGGGCTCAAATTTCTGGCATAAAGATGCACTGTT
CCAAATGTGGCCTCAGGGAACACGACTGCCCACACAGCCCCAGGATTGTCTCATCTTATTATTTTTCAACAGTTCTTGGCCTGCTGAGGTCAATGTTTTG
TCTCTTTTGAGTGTTCCTCTATGCTTGACACCTTTTCCTATTTTCTTTCTTAAAAAAAAAAAAAAAAAAAGGGAGGGGGAGAAAGGAGAAAAAAAATAAA
AAAAGGACTTTGCCGCGATGACCAGAGTCCATCTGCAGTTGGGTGGCATCTGCTCCCCACATGTCACTTTCCTCATTAACAAGCAATTGAATTAATTAAA
TGCTACTCAGAACACGCATAACAAGCTACCGGCAGTGTCCAAATTAGCACTGATAATCAAGGATGATTTCCTTTATTATCCTGCTAAGTGGTGTGCAGAC
TCTGATCTCCCTGTCTGCCCTCATCTATTTACATACCCCCAGCTCCTGCCTTTGGAAGCGGAGGTTATCTTACCTAGTTAATTTGCCACGATCACCGAGC
ATGGCGGATTGATGCCCTGCCCCTGCCGCCACTGCCGGGCCCGGGCCCCCTCCCCGGCTGCCCTCCCCCAGCCCCAGCCTTTGTATCTCAAGCTCACTGA
TAAATTAAAGGCCACCCCTGTGGTCTCTCAAGTGAGTAATAGAGGCAGAAATTTCATTTTGCAACTGGCTGATTTAATGATCCAAAGGGTAATTAATGGC
CTGATTATCTTAATGTTAAATATGTCCGGCAGCAATTACTGTGACCTCCCGCTTGTCAAGGTCCGGGCTGTGCTCTTCTTTCAATTAAGTTCTCTGGGGC
TTAATGGTATGAATAAACTCCTCTGATTCTATCATCCCGGATGCAGAGGGTTCAGGGAGCTGGGGGCTCGTTTGGAGTTTTAATCAGCCTGTCTTCTACT
CCGGCGATCAGAGTTAACAATTATAGCAAGGACAGTTTAACTTTCTTCTTCGCCGTGCAGACCCCCCTACATGTACACACATGCACACTTTTGTGTGTGG
CTTTATGTGCCTTGTTTTCATGTGTTTCTTTCAGTGCTCTCAGGGAGAATTCTGTTTGTGGAGGAAGCTGCTGTGCTCTGTGAGCCTCGTCTCTTCCAAT
ATAAATTATCATGTGAACGCTGTGGTTTTTCTATTTGACAGGCTTAATTAATTGGCAGGAGCCCCCGAAAATGACAGTACCACTAATTGCAACTCAAAGT
GAATTTCTGTCACCGCGGCGTGCTTGTCAGTGGGCCTGCCCTGGCCCCAGCCGCAGAGCGGGTCCACCCTCCCAGTTTCCCCGTCCAGGCAGGGACTGTG
CCCTGCTCAAGCCACGACAGTGGCAGCCTTCTCCGAGGAGCCGTGGGTTTGCAGGCACACCGTCTGCTGGCAGGAGTGACATTTACTACCAATAAAGTTT
ATACATCCTCGGCTATGCAAACGCAACAGCTGCTCAGGGACCTCAGCCCTTACTTAAGATATTTTAGCAACTTCTCTTAGCAAGCCAACTTGGAATCAGA
CTGAGAGAACCATAACTCACTTAGCCACCCTTCATGACTGGATGGTCCTCATTAGCACACTGCTAAATATGCTTCAGYTTACTAGAGCTCAGGGCCCGGA
TCAGAAATATTCTGCTATAAATATTAAGCCAATTAGGAAAATGTACAAATGAGAAGTACGTTAACACTGCCTTTAAAATAATACCTACAGATTACAGTTG
ACAACAGATAGAGCAATGCATCTAGTGAACCTCCACCAGGGAGCTTGGTGGGAATCCAGGCAAGCTCTCCATAAAGACTGGCTCTAATTATAAGAAAGGT
GATTCTAAGAAGATTCTCCATGAGGTTAAGTATAATGGGATCTGCTTTTTCAAGGATAACTATACTTGCATTTGCCTTTGAACCAGACAGACAGAATGGT
GCTCTCGGTTTATCATGCCGCCTGCCACACAGGAACCCCAGTTATTTGTTTGATCCTGCAAGAAACCAGTGTGTGCTTGGAGCCGGCTTTGCTACCGCAG
AGCTGTCTAGGGTTGAAAATCCTTATCATTTACGTTCTGAAATACGGCCGTCGTGACAATTAAGGAGTTTCTGATGCTTAAGAATTTTTACTGCCCCTGG
CAGATGAGAAGGCAAGTCATCAGCAGGCAGCAACTGGCTTCCAGGTGCCCTGACCACGTTCAAGCCTGTGTCTACTTGTGGGAGTGTATGAAGGAATGGA
ATGGGAAGATTAACCTTTTTAGGCTTGAATTATATAACATGGGCCAATAAATATGGCCTCTATTTTGATTCCTCCAGCAGTCAAGCATTTTCCAAAGGGC
CCTGTCTTTCAGTCGTGTTTTGCTTATTTTGCACCAGAGACTCTCTGTCTTCTAGTGAACTTTTCTCTTTCTTCTTCTTAATGAAGAGGAGGGAGACAAA
AACATGGCCGGAGCACACAGCGCCCTGTGTGCTTGGATTATCCCCATTCCCAGACGTGTGCCAGGGTCACATGGGAGCGCAGGTCAGACTGCAGGCACCA
AGATCTGACTCCAGATGCCGCTCTGCAGTCCTGCTGCTGCTCCTGTTCCTTTTCTGCCAAATCCACGTCAGTAGCGGCATTGGGAGAACCGCCATGTTTA
GCAGCACCACTCCCACTCGCCCCTGGTCAGTTTCTATCTCAGTAGCCATCGTGTGTCAAACTTACTAAATGAGTAGTGCAAACATATTATGTAACTACAG
TGTCTTTCCACTTCACAGCAGCTTCACTTATAGTAATATAAGTAATCATAAAGCCTCTTCCATTTTAGTTTACATTCATTTAGCTGACCTGACTTTTTTG
GTGGCGTCTCTCTCTGTCGCCCAGGCTAGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCTGTCTCCTAGGTTCAAGTGATTCTCCTACCTCAACC
TCCCAGGTATCTGGGATTACAGGCACGTGCCAACACACCCAATTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCAACGTGTTAGCCAGGCTGGTCTCA
AACTCCTGACCTCAGGTGATTTGCCTGCCTTGGCCCCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCAAAACTCGACCTTACAAGTCA
CACAGCCATGATTCTAAAGTCTTAATTCTCTTCCATCAGTGCTAATCCTAAGAGCTTCCACAGAAAACAGCACTGAGAACTGTAAAATGTTGAGATCCAC
CCACACAAGTGCAGGGTTAGAGCCCCCCCCTCAACCCCCGTGTTTCACGTAACCACATCCTGCTCATGTCCCTGACCCAACACTGCGTTTTGGGAATATA
AAGCCTGTATTGCAGAGACCTCACAATCATATTTATTATCTGCATGGTACAATATGGAGCCATGTCTCAGGCCATAGAGTTCCTGGTTCTGGTTTCATGG
CCAGCATCTTCTGCCATTTTAATTTTAAAAACAGGGTAATTCCTCATTTCTAAGAAGAGACTAGTCATTTTTCCACCCACTTAATTATGTAGAGTTAGTG
CTAAAAGAAAATAATATTTATGAAGTTTCCTGGGCTTCCTTTTTATCCAGAAGATACAATCAGCTTTGAGGCCTGGGTCATGCATACTAGCAGTGAGAGG
GACAGGTGGTCCATGCCCTCCCCGGGGGTTGTGGAGGGCCTGCTGATATAGAAGATGTGGCCCATGTTTATTTTGCTTTGTATGTATATAATGGTTTATT
GCAGCATCAGTATCACATGGAAAGGTATATTCTTGAGCCCCACCCAAGCCTACCCAGTCAGCATCCCTAGGGGGTAGGGTCCAGTGGTGTGTTTTAACTC
TCTAGGTAATTCTTATGCACATTAAAGTTTGAGACACTCTGGTCTGCMCTAAGTAGTAAAAATAAAAGTCCACAATCTTGCCTGTGAACTCACTGTGTTA
ATCCAAGTCCCTGGACTTCATTCCTCACTTCTTTAGACCCAGGTCTTCTGTTTTCTTCCTTTACCAGACTGTTGTCTGGCTTAGCATATCCAGTATATCC
CAGCAGATRTTACAGCCAGAGAGCATCTACAAGAGGATTAGACTCTGTGATCAGGTGGCACTGAATGCAAGGAAGGCAAGGTTGGTTCGACACGCAAAAA
TCAATCAATGTGATATACCACATTAATACAGTAAAGAGAGAAGAAAACATAATCTTTTCAAGGGATRCAGAAAATACATTTGACAAAACCMCGTGCCCTT
TCATGGTAACAAACACTCAGCAAACTAGAAATAAAAGGAAACTTGCTGAACCTGATAAAGGACATCTCTAAAAAACCCACAGCTAACATTGTACTTTATG
GTGAAATACTGCAGGCTTTTCCCCTAAGATCACAAACAAGACAAGAATGTCACCAGATCTGTTCAGCATTATACTGGAGGTTCAAGCCAGGGAATTAGGC
AAGAAGAAGAAACCAAAAGCATCCAGATTTGAAAAGAAGTAAAACTACCTCCATTTCCAGATGACATAATCTTTTATGTGGAAAATCCTAAGGAACCCAT
AAGAAACATGTTAAGCAAAATTGAAGGATACAAGATCAATGTGCAAAACTCTTAGCTGGCCATGGTGGCACAGTTCTGTAGTCCCAGCTACTCAAGAGGC
TCAGGCAGGAGGATTGCTTGAGCCCAGGATTTCAAGGCTGCAGTGGGCCACAATCGCACCACCACTTTCCAGCCTGGGGAACAGAGCAAGACTCTGACTC
TTAAAAAATCAAAAAGGCCAGGTGCAGTGGCTCATACCTTAAATCCCAATGTTTTGGGAGGCTGAGGCTGGAGGATTACTTGAAGCTAGGAGTTCAAGAC
CAGCCTGGGCAAAATAACAAGACCGTATCTTTAAAAAAAAAAAAAATTCTATTGTATTTCTTTCTGTACACTAGCARTGGACAATCAAAATAAAATTAAG
GACAGTTCCATTTACAAATAGCATCAAAAAGAGTAATATACTTAGAAATAAATTACCTGTACACTGAAAACTACAAAGCATCATCGAAAGAAATTAAAGA
AGACCTAAGTAAATGAAAAGACATCATGTTCAYGGATTGGAATATGGCAGTACTCTTCAAATCGATGTACAGAGTCGGCAAAATCACTTTCAGAATCTCA
GCTGCCTGTTTTTTTCCCAGAAATTTGACAGCTAATCCTAAAATTCATATGGCACAGTAAGAGACCGTCAAATATCAAAACGGTCTTGAAAAAAGAATGA
AGAAGTTGGAGATCTCACACTTTCTGATTTCAGAATTTACTGCAAAAGCATGGTGATCCAAGCCTGTGTGATATTGGTGTAAAAATAGACACACACGTCA
ATGAAGCGGAATCGAGAGTCCAGAAATGAGCCCCTTCATCGGTGGGCAGTTGATTTCCAAAAAAGATGCCAAGACATCTTCCCCATCAATGGGGAAGGAA
TAGTCTTTTTAGGAAGTGGTGCTGGGACAACTGGATATCCACTTGTGAAAGAATGAAGTTAGACTCTTATCTAATGCTATATATAAAAATTAACTCCAAC
ACCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGGTGGACACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTCCTA
AAAATAGAAAAATTAGCTGGGCATGGTGGCATGCACCTGTAACGCCAGCTACTTGGGAGGCTGAGGTAGAATAATCACTTGAACCCAAGAGTTGGAGGTT
GCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTTCGTCTCAAAACACACACACACACACAAATTAATTCCAGATTGATC
AAAGCCTTGAGTGCAAAAACTGAAACTATAAAACTTTTAGAAGAAAATACGGGGTAAATCTTTGTGACTTTAGATTAGGCAGTGGTTTCTTAGATATGAT
ACCTAAAGTGCAAGCAATAAAAGAAAAAATAGATAAATTGAATATTAGCCAAATTAAAAATTTTAGTGCTTCAAAGGGCAGTGTCAGAAAAGTAAAAATG
CACAGAATGGGTGAAAACATTTGAAAATTAAATATCCAGTAGGGATCTGGTATCCAGAATATATAAAGAACGGTTACAGGTGGGCATGATGGCTCATGCC
TGTAACCCTAGCACTTTGGGAGGCCAAGGTGGGAGGATCACTGGAGCCCAGGAGTTTGACACCAGTCTGGACAGCATAGGGATACCCCATCTCTATAAAA
AATAAAAAACATTAGCCAGGTATGGTGACGTGCACCTGTGGTCATAGGTAAGCTACTCAGGCGGCTGAGGCAGGAGGATTGCTTGAGCCTAGGAGGTCAA
GGCTGCAGTGAGCCGTGATCGCACCACTGCACTCCAGCCTGGGCCGCAGAGTGAGACCCCATCTCAAAAAAATAAAAATTTAAATTAAAAAAAAGAATAC
TTAAAACTCAACAATAGAAGGTAGATTGTCCAATTTAAACATGGGCAAAGAGCTGGGCATGGAGGCTCATGCCCGTAATCCCAGCATGTGGGGAGGCTGA
GGCAGGAGGATCACTTGAGGCCAGCATCTCAAGACCTGCCTGATCAACATAGTGAGACCCCACCTCTACAAAAACTTTTAAAAATTAGCTGGGCACAGTG
GGGCACACCTGTAGTCCCAGCTACCTGGGAGGCTGAGGTGGGAGGACCTCTTGAGCCCAGGAGTTTGAGGTTGCAGTGAGCCGTTATCACGTCACTCCAC
TCTAGCCTGGATAACAGAACAAGACCTCGTCTGAAAAATAAAATAAGTAAAAAATAAAAATGGGCTAAGACTCTAAATAGACATTTCTCCAGAAAATATA
AAAATGGCCAGTAAATACATGAAAAGATGCCTAATGTCATTACTTTTTAGGGAAATGCAGATCACCCTTGAGCCCCCACCGCACGTGCTCTTGGACGGTC
GTGGCAAGTGTTGGTGAGGAACGTGGAGACACTGGTGCAGCCACTTGGGAAGATAGTCTGGCACTTCCTCGAAAAGTTAAACCTAGAGTTACCGTATGAC
CCAGCCATTCCTCCCCCAGGTCTATACCTAAGATAAATGAAAACACTTGTCCACACAAAAATGTACACCTGAGTGTTCACAGCAACATCATTCATAATAG
CCAAAAAGTGAAAGTAACCCAGGTGTCCCTCTGTGGATGAATGGGTGAACAAAACATGGTCTGTCCGTACACCAGAACGTGATTCTGCCATGGGAAGGAG
TGAAGTGTGGATACAGGTTGTAACGTGGGTGAACCTCGAAGACATGATGCTAAAGGAAAGGAAGCAGGCACAGAAGGCCACACCGTGTACCATTCCATCT
GTCTGATGGCSAAAACAGGCACCTCCATAGTAATGCAAAGTAGATTCCTGCTTGCCAGGTGCAGGGGAGGGAGGGGCAGTGGCGTATASGGAGTGATTGC
CTAATGAGTACGAAACTTCTTTTGGAGACAACGAAAATGATCTGGATTTACATAGTAGTGATGGTTGTACATCCTTGCAAATATACTAAAAACCACTGAG
TTGTACACTTTTAAAGTGTGAATTTTATGGTATATAAATTATGTCAATTTTGAAAAAAAAAAAAAAGGAATTTCCAAAGGAAAACAGATGAGCCAGGGCG
TTCCACAAAGAGCAGCTGGAGCAAAGGTGCAGGCRTACAGGAACGCATGCTGGGTGGCGGGGGCCTGGGTGCGGGCCGAGGGCTGGCGTGGCTGCCCCTC
CTCAGGCCTGGGGAGTAGAGCTCTGAGCAGGATGTGCACTGCAGCCAAATTCCTGCCCTGCGGACGGCCCACAGGGGAGCGAGAGCAGGTGGAAGGTGGT
GCCTATGTCCAGGGGAGCAAGTGAGCCTGAATCAGCKATCATCACCACCAGATACTGGGAGTCCCTGGGAGAGATCAGGCACTTGACAAGCCCTGCCTCT
TGGAATCCGCACAGCAAACCAATGCCATTCTTTCCTTTTCCTGGGCTAGGAAACTCAGGCCTGTGTCTCCCTGAGCCTGTGAATGCAGGACGGGCCAGAA
CCCACCCCAGATCTGACCTCCCTAGAGGAAGCCATGGCCAGAGGGGAGGGGAGGGAGGCAGAGCCAGGCTGGTATGGGATTCTAGGAGCATACTCAGGAC
TCGTATTTTGTTGTTGTTGTTGTTGTTGTTGTTACTTTTCATTTATTTTCATGTATTTTTTTTAGAAACAGAATCTCACTCTATCACACAGGCTTGAATG
CAGTGGCATGATCATAGCTTACTGCAACCCCAGACTCCCAGGCTCAAGCAATCCTACCTAGTCAGCCTCCCAAGTAGCTGGGACTACAGCCACATGCCTC
CACACTCAGCTATTTTGTTTGTTTGTTTGTTTGTTTTTGTTTGTTTGTTTGAGATGGAATCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGAGCAATCT
TGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAAATTCTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCTCCCGCCACCTTACCCAGCTAAT
GTTTGTATTTTTAGTAGAGATGGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCATGATCCACCCACCTTGGCCTCCCAGAGTGCTGG
GATTACAAGTATGAGCCACCGTGCCTGGCCATCAGCTATTTTTTTAAGAGATGGGGGTCTCACTATGTTGCCCAGGCAGGGATCCTGGCCTCCAGTGATC
CTCCTGCCTTGGCCTCCCAAAGCGCTGGGATTACAGGGGTGAGGCACTGCGCCCCGCTGTACTCAGGACTTTTATTTTTTTTGAGCCAGAGTCTTGCTCT
TTTGCCCAGGCTACAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCACCTGGGATTA
CAGGTACCCGCCACCATTAATGGCTAATTTTTGTATATTTAGTAGAGACGGGGTTTCACCATGTTGGCCAAGCTGGTCTTGAACTTCTGACCCCCAAGTG
ATCCACTGGCCTCGACCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCAGGAATGGTGGCTCTTAACCAAAGTGAATGTGGGGTGTGGGAAAGACAA
GCATCCATGTTGATGTTTAGTTTTCTTTCTTGGGCCATTGGGAGGATGATGAGGCCTTTAAACAACAAGCAAAACACACAAAAGGTAATTCCAGTTGTAA
AATCTTGACGAGATTATTTTCATGTTAAGAAAGGTAAAAGTTGCACACATTTGTGCTGGTGATTTCGACAAGATTAATTGATTGATTTCTAGGCTGGCCA
CCCAGTGTAGCAGAGGCCCAGCCTCACCTTTGCAGTCTTGGCTTTGTGACTGGGTCACTGGGCTTTAGAGGCAAACTGTCCGAGGCCAGTGGGACAAAGC
AAGCCACTCCTGGCTGCAGAGATCTGACTTCACAGAATTACTTGAGGCCCAGAAAGGGAGAACAGCAGTGACAATACCATTAAAGCTTCAAATAATTAAA
TGTCATTTATAACTGATACAAAATTTCATCAACCAGGGGTCTGGAAGATGAACATTATCTGGAGCACACATCACTCAATTTTAGGGACCCACTCATATAA
AAAGCATCTCTGATGTACGTGATCTAATACAAATGACCCTGGAGGATACATACATAATCATRATGACTTACCTATAAGTCTCTCCTCAAGGACCTCGAAG
AGCTGCCACAATGTCTTCATGCTGATCCTTGCCATCTTAATGAAATTAGGAGATAACTGTTTAAAATCAGAGAAGATGACACCCAGACAGGAAAAGTGAC
TTGCCTATAATTAACCCAGTGACTTGGACCAAGCCAGAATTAGCCTGTGAACCYGTCACCCAGAGACTCCTGAGAGAAGCCAACAGCGTGGCTTAGGAGC
ATGGAGTTATGGCTGCAAATGCCTCTAGTAGCTTTCAGCCTCAAATGCTAAAGCCCAGGACACTCCTACACGTGAAAATTTGCTCTGCCGTGGCTCGCGC
CTGTAATCCCAGCACTTTGGGGAGGCCGAGGTGGGTGGATCACTTGAGGTTGGGAGTTTGAGACCTGCCTGGCCAACATGTTGAAATCCTGTCTGTACTA
AAAAAAAAATACAAAAATTGGCCAGGCATAGTGGCACACATCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGACTCACTTGAACTYGGGAGGCGG
AGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTGCATTCTGGACAACAGAGCGGGACTCCGTCTTAAAACTAAATAAATAACAAAATGCCAGTAGCACT
CCTGCTGAGGAGCATGGAAAGAGCCCTCCAAAAATTAAACCCACACTGCTGCAGAGGGACCCAGGATCAGCTCCCACCAGCTGATTGCTGGTATCCTTTW
AACAGCACGTGAAAAGACCTGGAAGAGCCTCGCACCCTTCCTSGGAGAATTCTTTGGGGGTGTGGAAGGAATGAACTGAGAAAGAGGAATATGTTTTCAT
TCTAAATTGCCAAACTATACCTTTCTAAACACATAAAATGAAAACAAGAATAATCACCTGTTCTGTAATATTCCAGAGGAGCCATAGTAGATACTCAATA
AATATTTGAGAGATTGTGTTACTTTTTCATTGKTTTCTTYCCAAAAACTAAAGTTAGGGTCATGATATATGACTGATAAAAAAAGGAAGTGGAAGTAAGT
GGCCAGGCAAAGGCTCCATGGAGCATCAGCCTGACTGATACTGCTGGAGAGGTGAGGCASATACAGACAGACAGCAGCTTATCGGAGGCCGGAAGGCTTA
CGTGCTGCCTTCATCACGGGCTTCGTCAAAACCTCTGGGTTTCAACACAGCATTGGAAAAGGCTCTGTTCCTGACGTTCCCACTTGTGGTTTTGAAATTG
CCAAGCCAAGGGAAGTTCAATAACTTATTCGCACACAGGGGCACGTCCATTGGCTTTGAGTTAGGAGTGTCGGTGGTGGTGTCTTCAGCTCCTCGGGCCC
CTATTGTTGCTGCCTGCTTGTGACTCTGCATTCGACTGGATGCATTTTATTTCTGAAATACACTCGCCCCGTGGGCGGTTTTCATCTGGCTGTGAAGCAG
CCATCAAAGAAAGCTCCCCTAAATGTTCTGTTCGCAGGCAGCCTAGAAACCTTTTCTGACATGTTGCTAACACTCCATCAGGCTCTCTCTGGAATAGGAA
CAGTGTTCGGCCAGCCTGTGGACAGTTGGGTGATTATCGAAAGGGAGGCCCACAGGGGCTGCAGAGCTTAGAAAAAGGAACGCTTTTAAATGTGCATATT
TACAACAAAATCCTGCTTCCTAAGGCAAGCGAGTGGGGTCCCATTGTTGCCGGAACACATCATCTCCATCATCCTTTTAAAAATGGGGCTCTTCTGACAG
CTGCCTCCTGCTGGGTTGTGGAGCTCTGTGGCACCCAGTTGGGCTTCAGGGCAAATGAAGCCTTAGGACCCACCATCTAGCACTGCTTTCAGCAAAGCCT
TCCAGAGTCCTTCCTTCTGTCCAGCAGCTTCCTTATCAGATGGGAAAATCCTTGCATCATTAAACGTGACAAGTCACTGTGCTTGTCCCCAGCTGTTGTG
CTGAGATTCTAGGGAGTAGCTGTCTGATGGCCAGGGTGGCACTGTGGTCGGCATGTGTCAGCAACATCAGAGTCACTACTCGTGGCCCTCAGTGGGATGT
GCCCTCAGTAATGGCTTGCCCATGTGTCCTGAAAACCCTTCTTCCATTGCTTGTCCCACTAGGGCCACCCTGCCCAAGCTCTGGAGGGGACACTCACTGT
GCAAATCCGTTTACTGACACATGGGCCTCAGGAAGCCCTGATTTGCAGGCTGCAGTGAATGCACAAATTACTAGAATTTTGGTTTTTGTTTTTTATTGTT
TTTGTTTTTGTTTTTTGAGACAGAGTCTCACTCTGTCGCCCTAGCTGGTGCAGTGGCACAATCTCAGTTCACTGCAACCTCTGCCTCCTGGACTCAAGTG
ATTCTCCTGCCTCAGCCTCCTGAGTAGTTGGGACTACAGACACCTGCCACCACGCCCAGTTCATTTTCGTATTTTTAGTAGAGATGGGGTTTCGCCATGT
TGGCCAGACTGGTGTCAAATTCCTGAGCTCAATTGATCCACCCGCGTCGGCCTCCCAAAGTGCTGGGATTACAGGCGCGGGACACTGTGCCCAGCCAAAT
TACTAGAATTTTGAATACCTCATTCTTAAGGTCCCAGTATCATGCCATTCTTTTGAGATTGTTGAGATAAATCATGAACTCTTAAAATGGTTGGATTATC
CAGAGCAAGTGGTATATTATTCTTTTAGCTTTTTAAAAAATTTATATTGGGGTATAATTTGCATACTGCATTACACACATTTTGAGTATACAATCAATTC
AGTTGGTTTTGATAACTGCATAGGTCTATCAATAATATTCCTATCACCCCAGGAACTTCCCCTGTCCCCCCTCCTGTTTATTCTCCCTGTTCAGAAGCAG
CCATGAATCTGACATCTGTCAGGATAGGTTAGTTTTGCCTCTTAGAAAATTCATGGAAATGGAATTATATGGTATATACGTTTTTGTGCCTGGCTACTAT
CACTCAAAAATGTAATTGAAAAGAATTGTTTATCTACCAATGATACATTTTCCCCATGTAAGGGAATATCTGAAAATGTCTTCTTCACCAACCAATTTTT
TTTTTTTTTATCACTGAGACCTAAGAGTTTACTGTAAGTCAGATGTACTCTGTGTAGATCTGCTTCTGGAGTTGGGGTTCAGAGTTCCAACTCAGGTCAG
ACTGGCAGCATCCAACCTGGTCTTTACCACTGGCTTGCTGTGTGACCCGGGCTGGATGTTCACCCTCACTGTGCCTCAGTTTCCCATTCTGCCAAGTGAG
GGGTAAGTGTAGTACCTGCCTCATCAGGATGATTTCAAGAATTAAATGAACAATATATATAACACAATGCTGAACACCTAATCTTCTCAATAGAGGGCTA
AGTTCTAAATAGAAGTCATCTATTAGTTTTTTTAAGGAAAAATCACTACGCTTTTAAAGGAGAAAAACTTGTAAGAGTGAGACACTCTGAGCAAGTTCAG
AAACATCGTTAAAAATTATAATGAAAAATACTRTGTCTACCTGTCATATTTGCTATAATGCTAAATCAGGTGGGCAGGACAAGTCTTCAGTATCTACAGA
AATGCCTAGTATTGAGCTAGCCCATTTGAGAAAGTAAAGATGTTTCTGGAAAGACAATCTGATTATTTTCTTAGGAAGTAGTGTGAAATAATCTATGTTA
CTATGCGCTAGATGATGTGGCCAAGACTGGGAGTAACACGTATTGGAAGAAGAGAATGGGGTCCTGTCTTTTCTCTGTTCTGGGGAAGAAACCTCATCTC
TTAACAGACGTTCCGCACATCCTTTCCAGTATGCCGTGTTCACGTGAGGTGAGACGAGGAAGAGCGAGTGTTTTTCACAAGAGTCTCATGGAATCCAAAG
AGTAATGACCGTTCCTGGATGTTTTGCATCATGTTCCAAATCATAGCCACCGGGCTGTCAGGGTCAGCCATCCGTCCTGTGCTATCTCATCTGGCAAAGA
GAAGGACATGTTGTGTATGTTCCTGTAAGACAGAGTGGCTCTTACTAAAATCAAATAATTGGCTGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTT
GGGAAGCCAAGGCAGGCAGATTGCCTGAAGTCAGAAGTTTGAGACCAGCCCGGCCAACATGGTGAAACCCCATCTCTGCTAAAAATACGAAATTTAGCTG
GGCGTYGTGGCATGTGCCTGTAATCCCAGCTACTCGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAGGCAGAGGTTGTAGTGAGCCAAGATCACGC
CACTACACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCAAAAAAACAAAAAATCAAATAGCTAGCGCAGATCACTGTGAAACATCTGATGGTAAAAA
ACAAAGGTCGTTTTGTTCCATAATATAATAACCCTTCCTGTTGGCCAACTCCCTCTCCTCTCCTCTGGCACTGCTGGTAAGAGTGAAAGTTGGGGAAACC
TTCCTGGAAGGAACTTGGCAATATGTGTCAATAGCCTTTAAAATGATATGCTTTTTGACCTAGCAGTTCTTCTCTTAACATTTATCCTAGGCCGGGCGCG
GTGGCTCACGCCTGTAATCCCAGCACTTTCGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGT
CTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGAGAG
GCAGAGCTTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAATTTATCCT
AAAAACTGAAGGATGTAGGCTAGGCATGGTGGTTCACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGCGGATCATGAGGTCAGGAGATCGAGAC
CATCCTGGTCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGCATGCCTGTAATCCAAACTGCTCGGGAGGCTGA
GGCAGAAGAATCACTTGAACCCGCGAGGTGAAGGTTGCAGTGAGCCGAGATCACGCTAGTGCGCTCCAGCCTGGGCAACAGCGTGAGACTCCATCTTAAA
AAAAAAAAAAGAAAGAAATTTTAAATAAAGCAAAAATTCAAAATAGGCAATTAAATAAATTATTACTTTAGTATGCAAGTAATGCATATAGTTACATTAT
ATAAAATACATGATTTTGTCGTGTACACGTGACAATGCAATGTAAATATACATACGTTATGATGTATAATTGAATATATATCATAAAATCTTACATTTCA
TATAATGTAATGAATTATATATAATGTATAAATTTTACATGGTAAGTATATGCATTATTTATACATATGAGCATAGCACATGATATAAACAGTGCAACTT
TGTTTTTCTTTCGATACAGAGGCTCCCTCTGTCACCCAGTCTGGAGTGCAGTGGCACAACCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGAT
TCTCCTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGCACACGCCACCACGCCTGGCTAACTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTG
GCCAGGCTGGTCTTGAACGCCTGACCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACCGGAGTGAGCCACTGCACCTGGAAATGTGA
TGATGCAGGTGAAAATGTGATTACATGGGGAGATAGTTATGGTATTCTGTTAAAATATTGTGTACCCCAAATTGTTAATTGTGACACTTTCTCTAGGGGA
TAGGGTTCTGATTTATTCTTATTTATTGCTTATCTTTATTTTCTAATTTTCTGCCATTTTAAAAATTTGGTTAGATTTTTAATAAGCTATCTATGACATC
AGAGCCGTAGAGGGCCGGGAATGTGTCATTGACATGAATGGCATGGCTTGCCTTTCACCCAGTGTGACAGTGGTGGCTGACGCCACCCAAGGGCACACTG
GTCCACTGTCAGTGGCGCCTAGAGCCCTGGCATCTGCTGGCTGTGGCGCTGTATGAGAGCATTCGTGTTAGGAGTACCACTGGGGTGTGACCCCCACATT
GCTCCCGAAAGCTGTGCAGCCATGACCCGCACCCTCCCCAGACTCAGTTTCCTCCTCTGGAAGTGGACCTGCTAGTTCTCCTTTTGTTCCCAGTTTGCTC
TTGGTTTGGATTTGGCATCAGGGCGAGTGGTTAGGGGCAGCGTCCGGACACCATGCTCACCTACCCAGATGAATGAGAAAGAGCAGCATTGAAATCCTCA
GGCTAATTCTGAAGGACTCTTAGCAGCTGAGGAGCATCTATAAAGTTATGAGTTCCTCTGAAGTTTTAGTGAAATTACGGGGCTACTCTGTGGCCTACCA
CTTCCACCCCTAGGCGTATCCACAAGAGAAATGAAACCTGCGTTCACACAGAAACTTGCACATAAATGTTCATGGCAGCATCGTTCCTATTAGCTACACA
GTGGAAACAAACTAAAATGTCTATCCACCAATGAATGCATAAACAAAATATGGTGTATCCACACAATGGAATATTGTTCAGCCACAGAAAAGACTAAAGC
ATTGATGTATACTACAACGTAAATGCACCTTCAACATTATGAAGCCAGTCACAAAAGACTTCATACCGTGTAATTACATGAAATGGCCAGAATAGGCCAA
TCCATACGGACAGAAAGTGGATTGGGGTGGCCCTGGGCCGGGGCAGGGGCGGGGAGGCATCAGGGGGATGGGCAGTGCTTGCTCATGGGAGTGGGACTTC
TTTTTGGGGTGATCAAAATGTCCCCAAATTGGTTGTCATGGTGGTTCCATGACTCTGAAAAATGCTAAAACCATTGAAYGGTGCATTTGGAGATGAGTGA
ATCGTAGGGTATGTGAATTACATCTCAGCAAAGCTGTTAGAAAAAAGAAAAGATATGCCACATTTTAAGTGGTGGGAAAAATCAAAGAGAGCATGTTCTG
AGTTTTAAACAAAGCTAGAGGAGATCATGTTTCTGAGACCGTTAAGGAAGCCCACGGCTTTGCCGGCATGGAGTGAGAAGATGGGAACCACCTGCCCAGT
CGGGCTTGGAGGGCAGCGCTGGTTCATTTCTTTGACATCAGTGGCCTTAGCCCCGAATAATCCTTTTTAGAAAATCAAAGAAGCACTCAGGCTAAATATG
CAGGATTTTTGAAGTGTCCAACAGATTTTATTTGAGACCATAAAAGGGGTTTGTGAACTGTCTGGGACAGTCATGGACCAAGTCTGAGCCCACCTGGCCT
GCAGATGGCTTCCTGCTGAGCACCTCGGTGGTCCCAGCCACTCCTGGAAGGATTGGTTCTAGCACAGAGAACAGAGCCCACCCAAGGGACTGTGAGGRCC
TGGCTTGGGGTGGCAGGGCCTGACCCCAAGGATACATACAATCTGGAACATTTATTTGTTCAACAGCCACTCTCCCAGAACCACACTGGGGCCATGCGAT
CTACAGACCCTTATGTGTGCTGTGTGTGCAGAGGGGACTCACGGTAAACAGTTCAGCCAGTGTTTGTGAATCTGCAGTGCGATGCAGGAAGACCTGCCTG
ATCTGCGGTGGACTGGCCAGGACCAGCCTAGGAAAGCCATTTGGGCTGATCTGTCTGAAAGAGCTGAATTAAAAGTGAGAGTTTTAATAACAGAAATGAA
GAAGGAAAAAAATGGCCAGCAGCATAGGAGTGCTCCCCAGTGTTGCTGGGGAGTTTCGCTGCTGCTCAGCCCCTGTTCAGGGTCTTCTGGAAGCTSCCAG
CAGCCTCCTGAGACAGACAGGTTGGAGCACCACAGCTGCCTGCGGCTGGCACACAGAGTCGTAATTTTTCTTGGTTTYAAAAACCAATCCAGATCTTGGA
ATTATCCACCGTTGTGGTAAACTTAAAATTGTCCAAAGACACCGGATGACTCTCCTTCAAATGGTGTCCCTGGCCCATCTCTAGGAGAGAACTAAACTTT
TTTTAAAAAAACTCACATATCCTGTGGTTTTTCAATTCTCAAAAAAAGCTTTTGTCTCTCCTGTCTGTTCTCTCCAAAAGTAGTCTTCGTTGTGGGTTTT
TTTTTTTTTTTTTTTTTTTAGAGATAAGGTCACCGGGCACAGTGGCTCACGCCTATAATCCCAGGACTTTGGGAGGCCAAGGCAGACAGATCACAAGGCC
AAGAGATCGAGACCATCTTGGCCAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCGCGGTGGTGCGCGCCTGTAGTCCCAGCT
ACTCTGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGCTTGCAGTGAGTGAGCCAAGATCGCACCGCTGCACTCCAGCCCGGCGACAGAG
CAAGACTCTGTCTCAAAAAAAAAAAAAGAGATAGGGTCTCACCCTCTTGCCCAGAGTGGAGTACAGTGGTGTGATCATGGCTCACTGCAGCCTTAAACTC
CTGGGCTCAAGGGCTCCTCCTGCCTCAGCTGCCTGAGTAGTCAGGACTACAGGTATGAGCTACCATGCCCAGCTAAATTTAATTTAATTTATTTATTTAT
GTAGGTAGGTGAGTATAGACAGGATCTCACTTTGTTAGCCAGGTTGGCTCAAATTCCTGACTTCAAGTGATCCTGCCGCCTTGGCCTCCCAAAGTGCTAG
GATTACAGGAGTGAGGCACTGCATCTAGCCCAAAAATAGTCTTTTCTTACATTTTCCCCTCTAATGTCTTACCTGCCATACCACTGTCTGCTGTCCAGCT
GAACTATACCAGGAGCCATATGTGTTGTTTTAAATTTTCTAGTAGCTGCATGTTAAAAAGTCAAAAGAACCTGATGGAAGTAATTTTAATAATGTAGTTA
ACCCAGTGTATGTAACATGTCAATTCAGCATAGCAAGCAATGTAAAAAAGCATTCAGGAGATATTTATATTCTTTTTTTTTTTTTCCTAGACAGTCTCGC
TGTGTCTCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACTTCCGCCTCCCAGATTCGAGCGATTCTCCTGCCTTGGTCCCCCGAGTAGCTG
GGATTACAGGCGCACGCCACCACGCCTGGCTAATTTTTGTATTTTTTAGTAGAGACGGGGTTTCTCCATATTGGCCAGGCTGGTCTCGAACTCCTGACCT
CGTGAACCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCGTGCCTGGCCTATATTCTTCTTTTATTCTGAGCCTTTGACACATC
AGTAGGTTATTTCACACAGCACATCTCCATTAGGACTAGCCACGTTTCAAGCATCTGATGGCCACATGTGGCCCATGTTTGGCARTCATGGGTCTAGATA
GCTTATCAGGACAGGAGTTACATTTGCCCTATCAGCTTGCAAAACATGCTGCAAAACAGCTTGCAAAACAGCTGGGGACTGGAGATATTGGATTATACCA
TCTTGGTGTTGCGCCAGTCAGGAGTAATTGTTGTAAGTTAGGCTTTGACAAGGACCTTGTAATGATGCTCACATAGAAGATAATTTATAAATACCTATAA
CATAACCTGAGAATGGCGATTAAGTAACCTGGTCTTAACTCCAGGGCCCACCACAGCAACTTTGAGCTTAGATGCCACTTAACCTTTTGTAACTTGTAAC
TTCATTGGTGGTGGGGGTACAGGCAGGTCAGCTTGTTCACATGGGCTGCAAACATGGCTTTACCCCACCGTCTCCCGTGGCCTTCTCAACACACTTTAGA
ATCTGCAGGAGACCTGCAGCCCCCCACCAGACCCCCAGAATCACACTATGCTGGTTGGCCTGGGCATGCCCCTCCCCCCAAGCATTTCCGCTGCACATCC
CAGCTCAAGAACCACCCTCTGGGTGCCAAGGTCTCCTCCAGGAGCACAGGTTCTCACCTGGGGCTGATCTGCCCCCTGGGGACATTTGGAAATGCCTGGA
GACATCCTGGATTGTCCCAGCGTGGTGGGGGGCTGGGGAGCCCCTGCTAGCTGTAGAGATCCAGTGACAGTTTGCATGAGAGGTTTCTCCATTGCATACC
AGCTGACTCTGAGGAGCAGCTTGACGCGGTAGGGGCCCTAGTGAGAAACCTTGCCTTCCTGGACCATTTGGGCCACAAGTCAGCATAAGTGACTTCTCCT
AACATCAGTACCCTCTGCAAGGGAGAGGCTAAACAAGAAGACCCCCGGGGAGCCCCTGCTAGCTTGGGAAGTGTGTGATTCTCTCCACTCCCTCCCCATA
GAATCAACTGTAAAAGCTTTAGCCATTTCTTTGGGACGACTTTGGATCAGCATATAAAGATACTGGGTGTTCTGTGCACACTCTGCACTCTGGGAAGTTA
ATGAGCAGTTTTTATCTGGCATGGCACAGGCTGTTCTTAATTTTTACAAGCTTAAGCTCAGCAATTTCAAGTTCATTCTAAACATTGAAAGAGTCCATTT
GCTCTTACGAGATAATAGTCTCCATAAAACCTAACATCTACATACAGTAGGTATTTCTGAACCACACTCAACCAAAATAAATGTGTAAAAATGTTACGAA
ACATTTATTGAATTAGACAATGACCAAAAATTTCTTCAGTGCAAAGCACACTCAGATTTGGTTTTTATTTCCATTTCCTGTTTTCTTTTACTTAAAAGTC
TATAGAATTAACATAAAGGTTGAGTTCTCAGTGAAAGAAACCAGGCTGGGCATGGTGGCTCATGCCTGTAATTCCAGCAATTTGAGAGGCTGAAGCATGC
GCATCAGTTGAGCTCATGAGTTCAAGACCAGCCTGGACCGCATGGCAAAACCCCATCTCTACAAAAAATACAGAAATTAGCCAGGCATGGTTGCACGCGT
GTAGTCCTAGCTACTCAGGAGGCTGAGGTGGAAGGGTGGTTTGAGCCCGAGAGGTGGAGGTTGCAGTGAGCCAAGATMACTCCACTGCACTCCAGCTTAG
ACGATAGAGMCAGACCTTCTCTCAAAAAGAAAAAAGCGAGACACAAAAGATCTATAAGTGATTGATTCGGTTTACATGGCGTCTCAGAAAAGGCCAGTCT
GTAGAGATAGAAGGAGAAGCGGTTGCGTCGGTGTGGAAAGGAAAATTTCAGGTGGGCATGAGGAATCTTTCAGGGGTGGCAGAAACGTTCTAAACCAGAT
TCTGGTGATGGTTGCGCGCTGGGTTTTTTTTACTAGAAATCACTGAAGTGTATCCCTAAAAACAGGTAGATTTTATGATATGTAAATTATACCTTAATAC
AGCTGTTGGGGAAAAAAGAAGACTTGGTACTGCCCATCCCCACCCCCAAGGGCTCCCAGTTTATTAAGAAAACTAAGGAAAACATAAGACAGATGAATGG
GGGATGAAGCCGCAAAGGGTCCCCGCTGCTGCCCCCTTGGACWTCGTAATAGTGAACTGTGTTCTGGCCTTGGGTGAGGATSAAGGAAGCTGGGCCCAGA
TCTTTTTCCTTGGTTTTCAAAGCCTTCCAGGTAAATATGGGACCTGCCAGGGTCTTTCAGCACTGGAAATAGCCGACATGCCCCTCAGTGGCCTCCAGGG
GAAGCCCCCCAGGAGCTTTGAGGAGCTGCTTTCTCCTCCGCTGCTTTGAGGAGCTTATAGCCCCTTCAAGCTCTTCCCAAACCTCACAGGCCTTTCTGCG
TCCCTGACAGAGGTCTCAAGAGGAGCCTTTGACAAACAGCAGTGAGAGCTGATTGCTGCCCAGTGTCATCAASATGCCGCCATTGATTCTAGCTTTGGAA
TCTGTGGCCAAATAGGTGACTCAATCTGAAATTTATTTGGAGAAGGCAGACAAACATTCAGAGGAAGCAGCAGAAGTTCCATTAGAGCAAACCTCCGCAG
GGAGTGAGAGCAGGGGCCATGCTGCAGAGGAGGCCGGGGCAGCGTGGGTCACCCAGGCGGAGGCGGTGCCGCCCCCTCACATGGACCAGGGGTCTGGGGG
CAGCTCTGCTCCTCACCAAGGCCCAAGACCCGTGCTGTCATAACAGTCCTCCTTCAGAGACACCCCTCAATCAGATCTAGGAATTGAAAGTCAGATTGGT
TTCACAAGAGAATATTGTGGAGTTTTTTAAAGTCTTGAGGCGGGGCGCCGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGGCCAAAGTGGGTGGATC
ACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAACCCCCATCTACTACAAATACAAAAATTAGCCAGGCATGGTGGCATGAGCCCATAAT
CCCAGCTACTTGGGAGGCTGAGGCAGAATTGCTTGAACCCTGGAGGCAGAGGTTACAGTGAGTCGAGACCACACCATTGTACTCCAGCCTGGGTGACAGA
GTGAGACTCCATCTCAAAAAAAAATAAAGTCTTGAGAATGTTCACTTCCTGACGGCTTTGCACATGGCCCATAACAAGCTGTCCTGACCTTCTCAGTGTG
TGACCCAGGACACCGTGGAATCTGGGAAAGCCATGATTTCCACAGTATACTCCTAGAAATTTTAATCTCAGAGAATGATGATAGATGTTTCTGGAAAATG
AGTTGTGTTTGAGAACTGGATTAAACAAAATTACAGAGGCTTCTTTGTGGCACTTAATAATTTCCCAAACCACTAAAGAGGGAAGCCCCAGCGCTATGAG
CATACCTGGCAACAGACCACTTCCTAGAGAAATGCCTCCAGTGAGCCAGGGCTACATTTTGGGAAGTGACTGTATCCTACAGAGTAGAAAAATAGTCCCA
GCACAGGGTCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATTGCTTGAGCCTAGGAGTTCAAGACCAGCCAGGGCAACATGGCAAA
ACCCTGTCACTACAGAAAATACCCAAAAAAAAAAAGCCAGGCATGGTGGTGCATGTCTGTGTCCCAGCTACTCCAGAGGCTGAGGCGGGAGGATCGCTTG
AGTCTGGGAGGAGGAGGTTGCAGTAAGCTATGATTGTGCCCCTGCACTCCAGCCTGGGCAACATAGTGAGACCCTGTCTCAAAGAAAAAAAGAGTAGAAA
AAAAAAAAAAAAAATATATATATATATATATTCATATTCCAACCCCCGAGAGATAATCAGTTAATGTTTGACATATTACATGTAGTCTTCCTCTGCAACA
TTTGTGAAAAGAAACAGTGCTTTAAAGAATTTAAGAGCCTTTTTTGGGCTAAAACTATATCATGAACATCTTCTCATGTCCTTATGTATGTCTCTTTTTT
TTTTTTTTTGAGACAGTTTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCGCCTCCCATGTTCAAGTGATTGTCC
TGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCGTGCCACCACGGCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATATTGGTCAG
GCTTGTCTCAAATTCCTAACCTCAGGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACCCCCAGCCATGTATGTCTT
TTAAAGCGTTATTTTTAGTGGTGTCACAATAATCCGTCCATGGTTGAGCCGTCATTACATAGTCATCCCCCTTGGACATGGGTTTGCAATGAAATATTGA
AATACCGCTGGGTTGAGCACATTTGTGAATACAGCTTATGGGGCTTATGATTAATTCATTTCTAAGGATGAGTTTCTAGAAGGAGCCAAATGAGGTCAAA
GGCTGTGGACTTTTTCAGGTATTGATCCAACATCACTGTGCTGCTCTCCAGAAGGGTGGTGCCCTCTGTGTACATCTGTTCTTTCTCACCTTGCGTCTCC
CCTGGGTCACTGCCAGCCTCACAGCGATAGGGCTCTGCTTCAATTGGGTCTTTGCTCTGCTCACAGCCATGCTGTATCCATCAGGGTTCTCCAGAGAAAC
AACCAATTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAATCTGAAGTGTGTAGGGCAGGCCAGCTGGTGTGTGTGTGCATGTGTGTAATCT
GAAGTGTGTAGGGCAGGCCAGCCGGGGGTGTGTGTGTGTGTGTGTGTATATGTATGTGTGTGTGTCACATCTGAAGTGTGTAGTGCAGGCCGGCGTTCTG
GAAACTCGGGCAGAAGTTAATGCTGCATGCTTGATGTAGGATTTCATCATCACGAAACCTGTTTTTTGCTCTTTGGGCTCTCACCTGATGGGATGAGGCC
CACCTGCTTTCTCAAGGATAATTGCCTTTGTTTGGAGTCCATGGACTATAAGTGACATCTACAAAAGGCCTTCACAGCAATGCATAGGTTGTGTGTGATG
AAATCACTGGCCGCCGTGGCCTGGCCAGGTTGACATGTGAAACTGATCATGAGTCATCCTGCTATGACTTTAATTGCCTGGAGAATTCCTTCCCAGCAAA
AGCCGCACGCTGCTTCTCCCAGAGGGGTGGGGTGCATTTTATTGGGCACTTTTGCCTTTGAAAACGTAATCTCCCTAGATAAGTATTACCACTGAACCAC
CTGCTGAGCAGCGTGCTAGCATTTCTTGACTCCAGATGGGTTTCACACACGTCTGTCCCCTACCTGGCTCCTGTGGCTGGGTGCTAGATGGGACCATGGG
ACCCAAGTCCACCCTCTGGCCCCTTCTCCCTGTAGGATTCCTAAGCTTGAGCCAGACTGGTCGTTCTGCCAGGTTGGTTGCCCACCCTCCTACCCCTGCA
GCGGCCCCATCCCACGTGGTTAAGTGGGTGGCCACACCCACTGCCTTTCCTTTCTCACTTCCAGCTCTGTTCTTCATTCCAGCAGAAGGTCCAGCCTCAC
ACAGTGACCCAGTGGGCTTGAACAGTGAGGTTCCAGTCCCGTCCCTTTAGCCTCATCCCTCATGGGGGAAGATACCTGATGCCGGGGCTGGGGTGTAGGA
GGTGGTTGAAACAGCCTGATCTACACCCCTGCCTGGTGGGTTAGGGCTCCGATGCCACACCAGGCCTGGCATCTAGACAGAGAGTTCCACAGAGTCCCCT
CTGCCTGCTATGTGCCAGGCACTGTACTAGCACCACACCTGCCCTCAGGAAACTCACAGCATGAAGGAGAGAGAGACACCAAAAATTGCTTGATACTGTG
ACCCATGCTGGCCAGGCACGGTGGCTTACACCTGTAATCCCAGCACTTTGGGAGGCCAAGCGGGAGAGTTTCTTGAGGCCAGGAGTTCGAGACCAGCCTA
GGCAGCATAGTGAGACTCTGTCTCTACAAAAAAAGAAAATTTAAAAAAAAAAAAAAAAAAACAGGCATGGTGGCATGTGCCTGTGGTCCCAGCTACTCAG
AAGGCTGAGTTGGGAGGATCGCTTGAGCCCAGGAATTTAAGGCTGCAGTGAGCTGTGATCGTGCCACTGCATTCCAGCCTGGGTGACAGAGACCTCGTCT
CAAAAAAAAAAAATTATATATATATACACACACACACACACATACATACACACACACATATACATATACATACATACATATRTATATAGTGATCCATGCA
AAATCTGCAGCAGGRKTAGGCAGACAGGAGGAAGTGGGTTGCAGGGTCAAGGCAAGCCTCAGAGAAAAAAACCTGAGACTGAGTGGCCCTGACAGGCAGT
TGGTGGGACAGGGAAGGGGGTGGTACAGACGGAGGGAACCMCCATGCAAAGGTATAAAAGAGGACCCCCCARTATGCTAACATGTATTCCACTGTTGCTG
AAGACTAACACTCAAGGCACTGGTTACCAGGGAATGAGAACTTGTGTTGAGTTTGAGATTTTACTTACCTGGCAAGTTGGCCTTCCAGTTTCACGGAGCT
GGTCTAAGATATGAGACWTCAGGGTCAGAGACAAAGAAAAATCCGTTATTCACAGCAATAGCAGTAGCCAGAGTATTAGCATTTGGGTCATTTCCCAGGT
CCCAGTGCCCATAGCTGTGATGTAGTCAGGGCCCCATGGCATCCGCACACATCAAGGGCTGCATTGCAGGAGAGGAACCCTAAGCTTAGGAACCAAATCT
TCTACAGTGGGCACAAAGCACATTTGCCCTGTGCTCTGGAGGGAGATGCTATCTCCATCATCCAAGGCTGTTTCCTGTGCATGTTCTTGGAAAGATAGTT
GGGAAAAAAGGCAGGCAGAGCCTCTGCTGGMAAGACACAGGGAAAGGAGAGAGAAGAATTGTTACCCGGCAAAGATCAGACTGCCTCCTCCACCAAGTCT
CTGGTCTAGATTCTGTGAGTCCAGAAACCTCCATCTCAGTCTAGGAGGGACAGCTAGGAGGAAATAAGGACGTCAGTTTGCAACCAGACAAGTTTAGAGG
CCTGTGGAATTCCCAGGCCAAGGGAAGAGTTGTTACGGAGACTCTATGGCCAAGAGGGACAGATCACACTAGACATCAAGCTCAATGGATGCCACCAAGG
GCAGCCACCTGCTGTATCTTGTACACGTTTCATCCATCCAGCTTTTAGCCTCTCAATCCTTCTCTTCCTAATAGGGTAGGTATAAGATTCCCATTGCTGC
TGTAACAAATTACCACCCACTTAGTGGTTTAAAGTAACACGGAAGTATTCCATTACAGTTCTGGAGGTCAGAAGTCCAAGCTGGGTCTGCATGGTTTCAT
TCCTTCTAGAGGCTGTGAGAGAGTCCATGCCCCTGTCTGTTCCAGCTTCTAGAAGCTGCTACTCATCTTGGTGGCCTTGCATCCCCTCTGACCTGTTTCT
GTCCTCACATCTTCTGACTCTGATTCTCCTATTTATATGACCCTCTTATAAGGACCCTTGTATATTGGGCCCACCTGGATAATCCAAGATACTCTCCCCT
CTCAAGGGCCTTGTCTTAACCGTATCTGCAGTTAGGTTGCCATGTAAGGTCACATAGTCACAGGTCCTGGGGATTAGGACGTTGACATCTTTGGGAGCCA
TTTCCCTTCTACCACATTATTCTGACCTCTGTAGATACTGTGGCCCATGTCATCAAACCCCCATGACAGTCACAGCCCTGCCTRTTTCTTTCCATCCAGA
CAGGTGGTGCCTGTGGGTACATCTCAGCGTAGGGTGCAGACAGAGTTGTCTGTTGGAAGGAAAACCACATCGAATCGGGAAGGGAGGGTCCTGGCTAGAG
TAAGGACAGTGGGCAGGAGGCCGGGGTCCTGTCCTGCCACAACACTGACCACCTAGAACCTCAACTTTCTTCTTTAAAAATAAAAAGAGAGTAACTACAC
TTGCCATACTGACCCCCCAGGTTGTATGGAAGCTCAGTGGAGAAAATGGCCGGGGTGCGTGTCTGAACCGCGCTGCATTTGGACRGACACTTTGTGTGTC
ACATGTTAGTAGCTGCAGTGTGTCCTCCACCYGACTGAGAGTCTGTGTATCAAGATAGGGGTAAATCCTTTCTGACCACTTGCAGACAGAAGTCACGCCT
CGTGGTCCAAAGCCACCAAGTCATTACTTTTCAAAGCTTTTCCAGTAGAGACACATGACTCCTTCCTTAAAACAACTTACAGTGAAAATATGTGGATGGT
TGAAAAAGTAATGTTTCCAGTCTGCTGAAAGTTCTGTGGGTTTTTTTTTTTTTTTTGCAGGGCAATTATCTGTATAAAATACTTTTTTTCTTTTAAGTAG
AATCCTATTGCTAATGAAACCATATTTTGAACATGAAAATTGTTACAAAGAAGAAAAAATGTCATTATCCAGAAAAGCTGCAATAGCTCATGCATTTGAT
GGTCTAAATAGAACATTTTTCTTCTCAGGGGGATGAAAGCGGTCCCCTCCTATTAGCCTATGAAATTATTTTAGAATTGGGTTTTAATCCCTGGAACGAG
AAAGGGGGATGGAACCCTAACATAGGTTCCATGCATGGGAAGTCAAACCTGAAATTTAGAGACAGGAAATATAGCACGCCTAGTCACTAATCCAAAAGGA
ATGTGAAAAAAGAGTTGTTTTAATGTTGGAAAAAGGCAGCATGAAAGGTAAGGCTTCCTTCCTGCCGTTTCCTCTGGTGCCCTTTTCTTTCCCCCGATCA
CATTTGCTAGATGTCCATTTCTGTAAGTTTTCCCTCTAGAACAAACCTATCATTTTTCACCACRGGATATTTACAGCTTCAATCAGTGCCAAATTCAATT
GGCTTCTGATCTCATCGCTGGAAGTTATAGATGCAGATATTATTTGCACTGCGGTTAATTATGGAGCAATCAAACCTTGGCTTTTCCACTGTAATTTCCT
CTGCCAGCTAATTTAATTAATCACCCCCAGCTCAGCTCTTCCAGCTGCGACCAGCAGGGTCATTAATTAGGCATGTGGTGGGAGCTCACCCACCAGGTCC
TGCTACGGGGCCGCTGCCCATTTGATCTCTCAGGGAGGGAGAGCTTTTCCTAAGCATCGATCCCCTCCAGAAAGGAAGATGGTTCCCAAAAGGCCTATCA
GGGGCAAACAGCTCACCTGCAGTGGTGATTGGTTTACAAAATTCACCTAGTTAAAGAAAAGAGGGCCAGGTGCAACGGCTCACGCCTGTAATCCCAACAC
TTTGGGAGGCCAAGACGGGTGGATCACCTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTACTAAAAATACAAAAATTAG
CCTGGCGCGGTGGCAGGCACCTATGATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAAACCTGGAGGTGGAGGTTGCAGTGAGCCGAGATT
GCACCCATTGCACTCCAGCCTGGAGGACAAGAGCAAAACTCCATCAGCCGGGCACAATGGCTCACGCCTGTAATCCCAGCACTCTGGGAGGCCGAGGTGG
CCGGATCACCTGAGGTCAGGAATTCAAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGGCAGGCGTGGTGGTGCACG
CCTGTAATCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCATAGGTTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCC
TAGGCAACGAGCGAAATTCCATCTCAAAAAAAAAGAAAAAGAAAAGAGGCCTCGCCTTCCATTTAGACTGGCTCATGAACTTGCCAAAGAAAGGGCTGTT
GTCAGTCGCCGAGGCTTCGGTCTCAGGTTTTTCAGGTCAGTGTGTGCCTAATAATGCAGATGTCATGTGATGAGCTCGGTTTGTTGCAAGGAAGCGTCGT
CCTCCTCACGGGCTCTTTACGTTGACATTGTGGCTTTGGAGGCTGATATTTTCTCTAAAGGAAAGATTAAAGGATTGTTTTCATTTTATTATAAGGAAGA
GACATTTTTGGTATAAGCCCATCAAAGTTGGTGCCTAAATGCTGCAACTGATTCTTCTATTATTTTGAAGAGCCTGTTTATTTTCCAGCAGTTACCAGCT
TAACTAAGACATTGTCACTGGAATTCCGTATAAATGTGTGCATGCTCACACCCATGCCTACATTAGAAAGAGAAGTACCCCAAATTTGGGAGGCTTTCTT
ATGATCATTCTTAAATAGTTTATTGTCTTATAATAATGTGGGCTTTTTTGTTTTACTTAATATATAGGAAGATTTTTTTTTAATRCCTTAAAAATACTGC
ACATTAAGTCTGTTTTTTTACAGAAGGATAAATGGATGAACAGGTGTTTTAGGAGCCACAATAAACCATCGCAGAGCAAGGAGTGCCTCTTCTGAGATCC
CATTCGATGCTCTGCCCTCAATTAAATGAATCCGAGATAAATGGGMATGTGCGTGTGTATGCACACACACGTGCACACATACACACACAGGCACACATAT
GCACACACCAAGGTTCTAGATGAGAAGGAACAGAGGGATCCAGCTCAGTAATTAAAGGAATAATAAGGACTCATTGTGTGGCAGGTGGAAGAAAAGGTGC
AGGAGGAAGACTCACAAAGTCTGGAGGATTGGCGCTCTCTGTTCAGCCGGGCAGGAAGGCAGGAAGCACCCCTGTCATAAAACCCCTACAGCCTGTAAAC
ACCAAAGTTCCCTCCTGTCTTGGAGTGGGGCTGGGAGGCCCCGGTGGGGAACAGCTGTAATGATGGTTCGCTTTAGTTGTGCCTTCCTGAAGGGCGGGGG
GGGGTCTCTGCGGCCACCTTAAACTTAAACAAGTGTATTCAGTCTTGACGGCCAGCCCCGTGACCTGCCAGCATATTAACATTTAAATGCACAGTACATT
CATTCATTTCATGCTGTAAGGATCATTCTGGAACGAATGATAAGTAGTGGTTTTTCCCTGACATTCRTACTCTACTTTTGGAAGTGTGGGAGATTGTTGA
GCATTTTTAAATAGCCATAATGCAAGGGGCTTCTGTGTATTTCTAGTTCTTAAAGAAAATGCAGGATGCAAACAAAAAATTAATTTTCAGACATTTTCTT
TCAGGAAAACCTCTGTTTGGATATAAATCATTGAAACCTTGAAACAAATCTGTCATTCTATTCACAACTCAAATATCAATTTTAAGAATTTTTGCCGGGC
ACGGTAGCTCATGCCTGTAATCCCAGGACTTTGGGAGGCTGAAGCAGGCAGATCATTTGAGGTCAGGAGTTCAAAACCAGCCTGGCCAACATGGTGAAAC
CACGTCTCTGCTAATAATACAAAAAATTAGCCAGGCATGGTGGTGGGCGCCTGTAGTCCCAGCTATTCGGGAGGCTGAGGTGGGAGAATCACTTGAACCC
GGGAGGCAGAGGTTGCGTTGAGCCAAGATCATGCCATTGCACTGTAATCTGGGCAAAAGAGCGAGACTCCATCTCAAAAAAATAAAATAAAATAAGATTT
TTTAGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGATGGATCACAAGCTCAGGAGTTCAAGACCAGCCTGGCCAAC
ATAGTGAAACCCTGTCTCTACTAAAAATACACAAAAAATTAGCCGGGTGTGGTGGTGTGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAA
TCACGTGAACCCGGGAGRCGGAGGTCGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCCGTCTCAAAAAAAAAAAAA
AAAAAAAAAAAATTTTTATTTACCCAATTCTGTGACTGCCTGAACTGGCCAGGACAAATAGAGAAGGGGTGGTAGGGGGGCAGTGTTAGATTCTTTCTGG
AGCACTAGGGTGCAAATCAGAAGYGTCCTTTGTTGCTGCAGCTCTCCCCAGCCGCCTGGAGGATCTGTTTGGGAGGGGAGCACTCTCTAAGGCTAGTTTT
GTTCTTGCTCAGATGATCAAATCTCTAATGCATCTCTAGTACCAACCTCACTTCCCAGCCTGAGTTTCCATTTGTCCCCAGTTTCCCCACACAAAGAGCA
ACAAACACTGTTCCAGCTGGTAGGACCAGCCCATGGATCCCAGAGGCCCAGCATGCTCAGGGCTCCTTCTTTTTTCTCATTTCTCTCCTCCCCATCTCCA
GACAGCCTTTACYGTTCATAAAAAGAAATGCAGGCCTAAAGAGGACTGGGGGCTGGAAGAGGGTTAGGCTGAGTCCCATTGCCCAGGGCATGACCAGGGA
CCATGTGGTGGCCCCCAGGGGCATCATGTGGTTTTCCAGGCCAAGGAGCTGCCTGGCTCCATGGGCCGCCTCAGGATGTGGCCCAGCCGGCTTCCTTTGT
GAAGGCAAGCCCCACACAAGGAGCAGGACTCCTGGAGGGGACAATGGCTGTCCATCAGTGATAGCAAATTCCAGCGTCCAGGCCGTGGGTTCATCTGGCT
GCCAGGCTGGGCTGATGGCAGCAACGCTGACCACACTCGTCATTTCTCTGCTGTTATCACAGCCTGGGAGCGGGACAGGATCTGTTCCATTGACTGCATT
TTTAAAGCTGCCCTGATCTTCCTTTTTGCCCTAATCTTCCTTTTCCTACTGCCCTTTTCCCCCCTCCTCCTGCTTAGAGATACCAGCTCTGACAGTCCGA
ATGTAAGAAATAATTGGATTCTAAATTCTAATTCATCTGTAAAGTATTCGGTGATTAAATTAGCCTAATAGATATTATTTCTTACATGACTGCGTAATTT
TATCCTGATTGGATCTCAGTGGTACTAACGTGCCCCCCAATTTACTATTGACTTGAAATTCTCAGAAGGCGAGACATAACTCTCTGTCTTCTTCAGTCTG
TTTTCCCAGGTTAAAAGTTAAACTGATTTATGCTAAAGGAAGATCACCTTACTGCTCAAGTGTAGTTGCACASTGTATATTGTTCTTTAAGAAGAGCAGT
ACAAGGAAAATATTATTTTATGTAATTTTAAATCCTCTTTTTCCTCTTTTTCTATTCAGAAACTAAAAGAAATACTGCCCATTTAAAGTCTTTGGACAGC
AATTTGATTGCAGGTAACATAGTTTCTCTTTTAAATAGCTGRAAGTCTCATCCAAACAAAACTAACCGTCACTCAGCATAGAGCTGATAAGTGTTGTGGA
TACATTCCAAAAAATTTTCAACATTCTTAGGATAAAATTTTAGCTGGGCGTCTTTAGCCATTTTTAATAGAGCYGCTTAAATTCTTGGTCAGGAATGAGA
TAGAAAGGGAACGAAGTCATGGACCCCAGAGATACACAGGAGGGCACTGGCCAGCACTTATTCATCGGCCTTATTTCTTTCTTTCTTTGCATAAATTTAA
TTTCTTCAAGTATGTGCCTCTCCCCTCCCCCACCCCCCTGCCCTACCTCCCTCCCTCCAAAAATCTGCAAATAAAATTCCCCGCTCCCTCCCTGGTTGAG
TAGCTGGAAGCAGCTGGTGGGTTTTGTGTGGCTACTGAACAGTGGGGGAAAAAAGTTTTGGCAAACACTCGGGAAACCCAGGACAGAGGAGGTAGGTAAA
CTCAGGAAACTGTTTTCATGAGTAAATGAAGGAAACAAAGGCCTCGCAGCAGGAGCAGAAGGGACACACACTCCCTCTGAATAGCTCCCTAAAAACAGAG
CTGAAAAGGAAGAAGGCCCATTTGCTTCTGGGAATCCAATAAATTGTTTCAGGAAGTGAAAGTCTGTCCAGGCTAATGGAGCTGTGATTGACAGGCCTTC
TCATTATGGAGCCCATCAGGGGACAGGGCATTCCAGTGTTATTTAGGGGKCGAGGTGGGAATGAGAGGAAGCCAGAGCCCGGGGTGGGGGCGGGAGCGGG
GGCTAGCTGTGGGTGTTCATTGAAAGAGTCCAGGTCCCCGACAGCCCTGCTCCAAGGACAGACAACCTCGTCTTGCAGGATCATTTACCTTTTATATTAT
GACCTAGCCACTTCTCATGGCTCTACCACACCATCTTCCCGAGAGAGCCTGTGCCYGCCCCACAGTCCCGGCTGAAATGGCAAATGCGGTGTAGGACTGT
GGTGCACACTGCCCATGACGGGCTACTTGGACRGCTCATGCCCACCTCTGACTAGTTTGATGTTCTGAATCAGGCCCCTTGGTTAAGCGTGATAACATGA
TCACCTGGTGTTTTAAAGCTTTTCTCTGTTTCCATGTGGTGCCGTGAATAGTCTCATAAGCCATGTAAGTGGCCTTATTGGTTAAGTGACAACCGGGGAC
ATACCCATTTTCTTTGTCCATGAAGCACCAAATAAGAAGTTGGCGTCCATTAAACTAGATTGATTATTTAATATCACAAGGCTTTTGAATGGGCTATGGG
GAGGAATAGACCAGAGGTCTTTGCCAGGAGGAGACGTTACAGCAGGTCCTCTCTGGTTGGGACCTGCTTAAAGATGTGTAAAGACCTTGAACATCAGCAT
CTGGCACAGCCAGGGGAGGGACAGGGAGGACGAGAGACCTGCTTGGTATCCTTGGCCCCGGGGTCCAGGTTATTCAGTTTGTTGATGGCTATCTGGCAGG
ACTCCCTCCTGAGCAAGAAAGACCCTCAGTCTCCACGATGGTTATTTCCAGAAAAGTGGGGACCTTCACCAATGTGCCTTTCATTGTGAACCTTACCCAG
CTGGGCTCCAGGACACCTAGGCACATCCCCGTCTCTGGGTCCCCAGCCTTATCATGTGTCTGAGTGTCCTCAGACAGTGGAATCCTTCCTTCACCTTACT
GAGAGAGGCCAGCGCTGTTTTCATTTTGGAATTGGCAAAAGGCAAGTTTTCTCCTACAATGCTTTGAAAGGGTTTAATGCACACTGAAGAAACAGCCAGA
TAGCTCCAGCTCTGCTGGAAAGGGCAAAGACCCATTAAGCATCTGGAGTTTGGGTCCTGGGTTGTCACACTCTGTAATGACCATCTTGGAGGGTAAGACA
CTTGGCAGTGGGCATGTGAATTGGCTGGCATTTCCAGAGTCATCCTTACTGTTGGGCTATTGGGTGATAGCTAGTGGGTGATAGCTATTACATGAAGAAG
ATGCCTCTGTGAACTTAAATGTTGGTTCAGTGACTCACAGGCTCCAGGCAGATTCATAGATGCTTTCATGTTTACTGATGCATTTTGTATTCTTAAGCTT
CAGGAAGTAGTGTTAATTATTTATCTGGGTTTAACTACACTTTAATTTTTGTAAACTAAGTCCAGAGCGGTCTACATAGTAAAACCATAGATTCTCTTTT
GTTTGATTTCTGTGAATTGCAGCAGTTTATGCCACAATTGTAGCCCTGTCCCCATTGTCACGAATCTATGTATCCTTCTGCTTCTATTCACTGTGTTCCA
GAACCTATCACGGTGCACTGCAATACCTCATTCCTCACGAGTGCTCAGTTGGTATTTCTTGAAAGAATAGTTGCTTAACAGGGCATTCGATCATGATGGT
GATCGTCATAAAGACACACGGGGCTGAAATCAAATTCAAAGAACTCACTTCTACCAAAAGAGAAAGAACTGGTTTGTATAATATGTTTCAAAGTACAGAA
GGTAGAAGGTACATCACCACCRTCCATCACGTGAAGGAGTAGAAAAAGTGGGATGCCACAGTTGCGGCAGAGAATATCCAAAAGGAAAGGGTCCAAGTCA
GACCGCTCACGTGGGTGGCAGCGTCCAAGTCCAGTTTGTACATTTCTGCATGGATGAGGTCTTTTCAAAGCACATACAGTTGTGTGATTTTTATTTCCCC
AAGAAAAAATAAAAAGTTAAAGTCAGTCTAGTCAATTGCTTTAACACAAAGAGCAAACTGACACACAGTTTCCCTGGGCATTGCTACRTATTCCTTGCTC
TTCCGTAAAGGACACATGTGTCTCTGTGCCTCTCAGTCTCCCAGTTGCAAAGATGCCATCCCAGGTCAAGCTGAGGTCCTTGCAAATGAACTGCATGCTG
GAGATAAAGCGCCTACTAGGCTGCCGGGTACTGGCAGAAGAGAGTGAGCGTAGCAACTGGGAGGTGGCCTGATGGCCTGCGCCTGTTGCCGTTGATGAGA
CCCAAAGTCTGGAACGAATCTGGTTCCATRTAGAGTTCATGCTCACCCCGAAGTCCTTCTTTGGCACTGGAGAACAAAGAAGAGTTTGCACAGAAGAAAA
GGGAGGTTGTTTAACCAGAAAGGCCCTCTGCAAATTTCTGATTCCTGTACAGTCAGCATTAATATGCTGCTTTTCAGACATCCAAATGGGGGATTGAACT
GTGAGAGTGCAGGCAATAAAGAGTGCATTTGTGGAATGATAACCTGACTGGCATCCCTGCCTCTTGAATGGCTGACGAGGTCTAATTGGCATGTAACGCC
CTATAAATTTATTAGCATGCCTCATTTCTCATTGGTGGACTTTCTACTGTTAACCACCAAGAAATGACCAATTTTCAGGAGTTAGTCACTCAAGTCGTAC
TTATAACTAGGTTGGAAAAAAAAAAACTCACACTGCTCCTATTATAAATCAACCTTATGCCTGTACAGCAGCTCCCTGGCTGCAAATGAATCCATCGGAT
ACAGAAGTTTTGAGGTGAGTGGAGTTGCAGGGAGGAGCACGTGTTTACCAGGAAACCCACTGCTCTCCTCACCTTGCCCTGCGCGCCTGAGCCCTTCACA
GAGACCGGCCGTGTCCTCACCCCTCTGTCACCATTGTGGGCTCCAGCTGCACAGGCTGGGGATGGGCTGGGTAGAAATGGCAGTTTTGTGGTCGTTCGCA
CCCAGGACTTTGATGTTCCTACTGATATATTCAACCCTCAGGCGTACCATGCAAAGAGGACATAGCCACCCTCTTATTTCAAGAGCATGATAGAAATATT
CAGAAGCAGACATAATTATTTCAATTACTTCTCTCTGGTTTTTGAGACGCACACTCAAGAGTCACAAATTAGAAAATAATATTCACATRTTTCTTCTAAT
TGGTAACAGATTAGAGGCATTTTATCTTTTTAAATAATTTCCAAATGTGCCCCAAAGAGACTGTGAAGGGAGGGAACAGAGGCATGGAAAAGCAAACGGG
CTTTGCCAAGCGAGTGAGAGGCGGGGGTCGGAGGGAGGCCTTCCTCCTGCAGCGTGTTTCCAGTTGTTCGGATTTTTGTGTTATTTTCATCACTTTTGGA
TATTGAAAGCTAGCAGGGAGGGGGTCTTCCTGGTTATACGGCCCAGCTTGCAAACATAATCCTTCCTTGTTTTTCTTTTGTTGGTGGTGGTTGTGTTTGT
TTTGTTTTTTGTTTTGTTTTGTTTTTTTGAGACAGAGTTTGGTTCTTGTTGCCCAGCCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCCCCGCC
TCCCAGGTTCAAGCGATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCATACCCGGCTAATTTTGCATTTTTAGTAGGGATG
AGGTTTCACCATGTTGGCCAGGCTGGTGTCGACCTCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCGAAGTGCTGGGTTGACAGGCGTGTGCCACC
GCACCGGCCGTAATCGTTCCTGGTAAGCACATTTCTGAACACATCAATCCGCTGCCTGCATGCCCTGTCCTTGGCCACGTGTTTTCTACACACGTGCATG
CGTGTTTGCATATCTGCACGCATTTTTATGTCCAGTGTACTTCCAAAAACAGATTTGAGTCATCTATGCCTGTCTCTCTGTGCAGCAACTTTGGAGGGGT
GAAGACGGAGGTCGCTGCTAGTCCAGGTCGCCTGGGGCCCTGCCCTCTGACACAGGGTATTTCAAGTTCCTCTAAATCCTGAGGGTCTCAACTGTTCCTT
TTTCATAATGGAATTTGGTTTTATCAAATACTGTTTTTAACATTTAGTTGCCTCTGCTCTGGAAAACAGTTTTACAGTTTCTTATAAAACTAAACGTGCA
CCTTCCTTATGACCCAGCAGGTGCACTATTAGGCACTTATCCTAGAGAAAGAAAAACCTAGGCCGGGCGCGGTGGCTCACTCCTGTAATCCCAGCACTTT
GGGAGGCTGAGGCAGGCAGATAGCTTGAGCCACGAGAGTTCAAGACCTGCCTGGGCAACATAGCAAGATTCCGTCTCTACAAAAAAATACAAAAATTAGC
CGAGTGTGGTGGCGTGCACCTTAGTCCCAGCTACTCAGGAGACTGAGGCAGGAGGATGGCTTGAGCCTGGGAGGCAGAGGTTACAGTAAGCTGGGATCAT
GCCACTGAACTCCAGCCTGGGCAACAGAGCAAGGCTCTGCATAAATAAGTAAATAATAAAACTTAGGTTTACACAAAAACCTGTATGTGAATGTTCTTAG
TGGCGTTGTTCGTAAGAGCCCAAAACCAGAAACAACCCAGATGCCCTTCAGTGGGTGAAAAAGTAAACAAGCTGTAGACCATCCACACTGTGGAAAACTA
CTTGGCAGTGAAAAGGAATGAATTCTTAATACACAACAACAACTTAGGCGAATCTACAGGGAATTACATTGAGTGAAAAAAAGCCTGTCCCAAAAGATTA
CGTGCTGTAGGATTCCATTTATGTATCACTGTTGATATTACAGAATTACGGAGCTAGAGAACAGGTTAGTGGTTGTCCAGGGTTAGGGATGGAGAGGGTG
GGTGAGGTTTTAGAAAGGCAACAAGAGAGACCCTTGACTGGTGCTAGATACAGGAACGTACATGTGACCAAATTGCATTGAACCAATTCCATGGACACAT
AAATACAAATGACCACAAGGAAAATCGGAAATGTGGACAAGCCAGGTGGGTTGTATCCATATCCTATGGTGATAACATACTACAGTTTTTCAAGATACTG
CCTTTGAGGGGAAACCAGGTAAGGGGTACATGAGATCTCTCTGTATTATTTCTTTTTCTTTTTTGTTTGTTTTGTTTTGTTTGTGACAGAGTCTCGCTCT
GTCACCCAGGCTGGAGTGTAGTGGTGCAGTCTCGTCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAAGCTGG
GATTACAGGTGTCCGCCACCGTGCCCAGCTAATTTTTGTATTTTTATTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCA
TGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCGTATTATTTCTTTAAACTCCATGTGAATACACAATTA
TTTCAAAAAAGCTTACTAAAAAGTTTAAAACAATCAAGCAAAATAAAAGGTGGCTTCCCTTAAAAGAATCAGGGCTCCTTGGAGAAATGGCTCATTCCAG
ATCTGGTTGAGAAGTAGGGAATGGCCCTGGAGCATCCTGCTGTGCCAGAAAGAAAGCACAGAGCTACCAGGGACCAGGGCAGATGCCGCAGACAGAAACA
GGAGCGGCTCCAGGCCTCCCACTGGCCAAATCTGGAACAATTGAAGCATCTAAAAGAATAGTGTTGGTGGCAGTTTATGTGACACATTTAATTTTTAAAC
ATGGGTCCACGACGATACTCCAGAAAGGCAGTGGGGGAGAAGCTCTTCTTTATAAAAAATGCCAACCAGTAAACAGAGAGGATGAGGGAACTGGAAAATC
TCTATCCCGCAACCAAAAACGTGATATTTTAATTGGTTCAGTCAAGGATCATCAACTGAAGCTGCACCCCTGGGGGAGAGGAACAAAATATTCCGCCTCA
AGGTGTCAGCCCAGGGAAACTGAAGCTGCACCCCTGGGAGGGGAGGAACAAGATATTCCACCTCAAGGTGTCAGCCCAGGGATCACTTGGTCATTGTAAA
GGGGGAAGGGACCTGGACAGAGACCTGGTGGCTCCTGCTTTAGCCACAGACTCAGACAGACTCGGTAGTGGAACAACTCACAGTCTGTGCCTCCTGCTGG
TGATGCAAGGGAGACGTGGCACCTCTGTAGTAATATTTTGACCCAAATGGAATCGGACAAACACAATTGGGGGCATTTTCCAATAGAAATAGCTTGAAAT
CCTCAAAATACCAATGTAAAGAAAGACCAAAAAGAAGAGTAGGGTTTGGAAGGGACTCTCACATGGGAGGAGGTATAAGAGGATGACCAAAGGCAACATA
TATCCTGGATTGGGAGAGAAATTCAGCCCTAGAACGTATTTTTGGATAATTTGGTGAAAACTGAATATGGACCACATATCAGTGGCTGCCTGCCAGTCAT
AATCATGAAAAACACAATCCCAAACACCATAATCCCAAGTATTGAAATCTCTCAAGTCTGAAATCCCCAAAATCACAATCCCAAAAAATCAAAATCCCAA
AAATATAATCCTGGAAAAGATCATTTGAAAAATTACTTAAAAGGTATTTTTTGACATTTTTAAAGGGGGTTTCTCTGAGAAACATATAAAAACACAACAG
AACACTTTTTAGAGCACTTTTCACAAATAGGCAATGATAACCTATATTTTTGCAAGCATAAACCCCAGGTGTACTAACAACAGTCATATGGCTGTAACAG
GTACAAGCAGACTGTATTCATAGGTCAGAAATATATAAATGCATGTCMCTGTGGTTGCTAATTATGGGCACTCAGCTGTATAACACCTGAAATACAGTGA
CGAACAACTTCAGTCTTTTGACAAGACTGATCAAAAGCTGTGATGGAGCCAGTGTGTGGCACACAACCATAGTCCCAGCTACTCAGAAGGCCACGTCAGG
AGGATTGCTCGAGCCCAGGATTTCCAGGTCAGCCTGGGCAACATAATGAGACTCTATATCTTTAAAAAAAAAAAAAAATTGCAAATACGATGGGTCACCA
TGGCCTATGAAGTTGCCAAAAGAGCTGAGAATTTTTTTTTTTTTTTTAGACAGGGTCTCTGTGGCTCAGGCTGGAGTGCATGGCTCAATCACGGCCCACT
GCAACCTCCACCTCCCGGGATCAAGCGATCCTCCCACTTCAGCCTCCTGAGTAGCTGCAAATACAGGCACAGACTACCACGACCATCTAGTTTTTGTATT
TTTTGTAGAGACCAGGCTTCACCGTGTTGTTCAGGCTGGTCTTGATCTCCTGGATTCAAGCGATCCTCCCATCTTGACCTCCCAAAGCGCTGGAATTACA
GGCATGAGCACTGCGCCCAGTGAGAGCTGGAGAAATTTTATCTTTCACAAACGCAGATGTTCATTTATTGAAGAAATTTCATGAAATTTGTGGACTGTAT
GTAAGTGCATACAGAATGAATTTCCACATACCCAAAACAATGAAAAAGCCTGGCACAGAAGATGGGAAAATTGATCTGGGCAACAGTGGCTCATGCCTGT
AATCCTAAAACTTTCAGAGGCCAAGGCAGGTGGATCACTTGAGTCCAGGAGTTCGAGACCAGCCTAGGCATCACAGCAAGAGACCCCATCTCTACAAAAA
AAAAAAAAAAAAAAAAAAAAATTAGCCTGGTGCAGCGGCGCATGCCTGTGGTCCCAGCTACTCTTGAGGATGAGATGGGAGGATCACTTGAGCCCGGGAG
GTCCAGGCTGCAGTGAGCCCTGATCAAGCCATTGTACTTTAGCCTTGGTGAGAGTGAGACACTGTCTCAAAAAAGTTGTGGGGGCAGGGCAGGCGTGGTG
GTTGACGCCTGTAATTCCAACACTTCGGGAGGCCAAGGCGGGTGGATTGCTTGAGCTCAGGAGTTCGAGACCAGCCTGGGAACTGTGGTGAAACCCCGTC
TCTACAAAAAAGTTAAAAATTAGCCAGGCGTGGTTGCATGCACCTGTGGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGGATCACTGGAGCCCAGGAAGT
CAAGGCTGCAGTGAGCCATGATCATGCCACTGCATTCCAGCCTGGTTGACAGAGTTAGACCTTGTCTTGGCTGGGCACAGTGGCTCACGTGTGTAATCCC
AGCACTTTTGGAGGCTGAGGCTGGAGGATCACTTGAGCACAGGAGTTTGAGACCAGCGTGGGCAACATAGTGAGATGCCATCTCTATAAAATAAAAAAAG
ATTAAAAAATAGGAAAAAAAGACTCTCTAAAAAAATACAAGAAAAAGGGAAAATCTAACAGGAAATTCTCATGTTGGTAGATATTGACATAGGCAGTGCT
TACAGTGTTGTGGTAATGTACTTTGATGGAGTCAAGTTTGCAAAAAATGCATAAAACTAATTAGAATAATGCTGACAATGTAAAATTGTGGGAAAAAACT
TTTAAAAATTTTGACATATGAAGAAGTATATTAGTTCAGGGCTAGATTATGGATAGTTGCACAGAGATAGTCCCTAAGAGCTGGCCAACTTCCACGATCA
TTATATTTTTGAGTTTTGCATCATGGCGCATAGCTGCTTTTTTCCTTTTAGGATGTGCCTCTCCATAGAGAAGAAGTTCACATTCCTTTTCTGTGTGACG
CTGCTCTTTTAGAAATTCTTCCGTGATTCAGGGTTCGCCAACATGAGTTATTTCCCATTAAATTTCCCCAGCTTCTGTGCCATGCTTCTTTATTGTTTTG
GGTACTTGGAAATCCATTCTGCATTCGCTCAGGTACAGACCTCAGATTTGGTGGAAGCAATACTGATGATGGAACCGCAGTACTATGTATCTTACCCTAC
CATGTGCATAGCTGTTTTTCATCCAGTAGGTAACTTCACTGGCTTCTTCACACAAATGTGGCTCTTCTCATTAAAAGCTCCTGGAATGTCAGCCAGGCAC
AGTGGCTCACGCCTGTAATCCCAGCACTTCGGGAGGCCAAGGCGGGGGAATCCCTGAGGTTAGAAGTTCGAGACCAGCCTGGCCAACATAGTGAAACACC
CATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGTGCACCCATAATCCCAACTACTTGGGAAGCTGAGGCAAGAGAATCCCTTGAACCTGAG
AGGCAGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTTGGGGACAGAGTGAGCCTCCATCTCAAAAAAAAAAAAGCTTCTGGAATGTCAT
CAGTTAGATGGAATGCCAGTGCAGACAAATGATGCAGTTTTATTTTTTATTTATTTTTTATTTTTTTGGGACAGAGTCTCGCTCTTGTCACCCAGGCTGG
AGTGCAGTGGCATGATCTCATCTCACTGCAACCTCTGCCTCCCCGGTTCAAGTGATTCTTCTGCCTCGGCCTCCTGAGTAGCTGGGATTACAGGTGCCCA
CCACCACACCCAGCTAATTTTTTGTATTTTATTTTAGTAGAAATGGAGTTTCACCGTGTTGGCCAGGCTGGTCTCGAGCTCCCAACCTCAAGTGATTCAC
CCCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCCTGCCGGGCCAAATGATGCACTTTTAAACTGAAGTTTCATCCTTGCCGTATCACGTGGC
CAATCCATTCATCTGACTTTTTTACCAAATGCATTGAGCTGAATGGAAAAAACAAACTTTATTGGTAATATCCTGAAATTCACTTTCAGAAGCCTTGATG
GCACCAATTCCAAATCTGTCCTTATGGTTTGGGATTCAAGTGAAACCTATTTCCTCCTGCAAAGTCCATCAAATCTTAAATAAGTTTTTATAGTAAAGTG
CTTTACTTTTTTCAGCATTTGGGATTATGGTGTTTGGAATTGTGTCTTTCAGGATTATGATCCAAACCCATGATAGGTAAAAATGTATTAATTTTAAGTT
CTTTGGCTATAATAATGTGGGTCTTCAAAATGTGGGCTTGCAACTTGAGAGACTCACACAGTGGCGTCTGTCTGAGGGAGCAAAGGAGCACCAGATTCTG
GATTTTTTAACTGTCATGAAATATACATAATATAAAATTTGTCATCCTAATCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTC
TGTCGCCAGGCTGGAGTGCAGTGGCGCGACCTTGGCTCACTGCAACCTTTGCCTCCTGGGTTCAAGTGATTCCCCTACCTCAGCCTACTGAGTAGCTGGA
ACTACAGGCATGTGCCACCACACCCAGCTAAGTTTTTGTATTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAGCCAGGCGCAGTGTC
TCACGCCTGTAATGCTGGCACTTTGGGAGGCCAAGGTGGGTGGATCACGTGGTCAGGACATCTTAGCCAATTTTAAGTGGGCTGTTCAGTGGTGCTCAGT
ACATTGACATTGCTGCGCAACCATCACGACCATCCATCTCCAGAACTTTTCCATTACCCCAAACTGAAACTTTTTACCTATTAAATACAAACTCCCACTT
CCCCTGGCCCCCACCATTCTACTCTCCTTCTCTATGAAATGACGACTCCCGACTCCCGGCACCTCATGTGAGTGGAATCTTATAGTATGTGTCTTTTGTG
CCTGACTTACTTCACTAGCAGAGTGTCCTCAAGGCTCATCATGTCGTAGCAGATATTAGAATTTCTGTCCCTGAATATTAGAATATGCAGCCTTTAAGAA
GGCTGAGTACTATTCCATCGTGTGGATAGAGCACATTTTGCTTATCTAAACTTTTGTCAATGAACACTTCTGTTTCTTCCACATTTTAGCTATTGTGAAT
AATGCTGCTGTGAACGTGGACATACAAATGTCTATTTCAGTCCCTGCTTTCGATTCTTTTGGGTATATACCTAGAAGTGGGATTGCTGGACTATACACTA
ATTCCACGCTGAACCGTCATACCGGTTTTTCAGATTCTGAACGTTTTATTCATTTAAAATATTGTTGGGCCAGGTGCAGGGGCTCACACCTGTAATCCCA
GCACTTTGGGAGGCTGACAGGGAACACATGAGGTCAGTTCAAGACCAGCCTGAGCAACATGATGAAACTTCATCTTTGCTAAAAATAAAAAATCAGCCGG
GCATGGTGGTGCACGCCTGTAATCCCAGCTACCAGGGAGGCAGAGACACGAGAATCACTTCAACCCAGGAGGCAGAGGTCCCAGTGAGCCAAGATTGCAC
CACTGCAATCCAGCCTGGGTGACACAGCAACACTCTATAGCAAAAATAAATTAAATTAAAATGTTGGCTGACTTGATGAAATCTTTTTTTCCTTTTTTTT
TTTTTTTTTTAGAGAAACAGGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGCCACAAACATAGGTCACTGCCGCTTCCCGCTGCTGGGCTCAAGCGA
TCCCCCTGCGTCAGCCTCCCCAGTAGCTGGGACTACAGGCGTGCACCACCATACCCAGCTAATTTTTTTTAATTTTTATAGAAACAGGGTCTCATATTGA
CCAGGCTGATTTCAAACTCTTGGCTTCGAGTGATCTTGCCGTCTTAGCCTCCCCAAGTGCTGGGATGACAGGTGTGAGCCCACCTGGCCCTAAAAGCCCT
TTCTAAAGGCCTCCAAACATCCTAGTGCGTAAGGACTAGATCCTTACTTCCTAGWGATGTAAGGACTAGAGGAAGGAGGCTAGTCCTAGGAGCAGACTAG
CCCCACCTCCCCAGCGGGGGAGCCAGCAGGTAGGCTGCTGGGCAAGGACTTCACTGCAAGGAGGGACAGGGTGGGSCGGGGGGACTTCCCAGTTATGTCA
GGTTTCAAAATATATTTGGGGAATAAAAATAGGGTGCTTGGGGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGGAGGCGG
ATCATGAGGTCAGGAGATTGAGACTATCCTGACTAACAGGGTGAAACCCCATCTCTACTAAAAAAATACAAAAAAATTAGCTGGGCGTGGTGGCGAGCGC
CTGTAGTCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGAGGAGGTTGCGGTGAGCCGAGATCACACCACTGCACTCCAGCCT
GGGCGACAGAGCGAGACTCCGCCTCAAAAAAAAAAAGAAAAGAAATATGGTGCTTGGTTCTTAATTTTGCAGCATTCAGGACATTAAATAAGTCATTTGC
TGTCACCATCCTTTCAAAAAAAGGACATTTTATCATAGGGAGGCCGTAACATCAGAATTGCCCTACAGATTCAAAACTGGCTTTCTGAGAACCTCACTAT
ATGGTTTTTTATTGTTTCTCAGAGGATTTGGTGATATCTTTGCCACCAAGTGACACTTGAAAGCAGCTGGGCTCTCCAGGATCAGCTAGAGAATTTGAGG
CCCATTTCAATTTTTATCAAGAATTTGAGGCTGGGCGCAGTGGCTCACACCTGTAAGCCCAGCACTGTGGGAGGCTGAGACAGGTGGATCACCTGAGGTC
AGGAGTTCGAGACCAGCTTAACCAATATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTACCCAAGCATGGTGGCATGTGCCTGTAATCCCAGCTA
CCCAGGAGGCTAAGACAGGAGAATTGGTTGAACCCGGGAGGCAGAGGTTCCAGTGAGCCGAGATCAGGCCACTGCACTCCAGCCTGAGCAATAGAGCAAG
ACTCCATCTCAAAAAACAATAAAAAAGAATCTCAAGATGGTAAGAGCAGAACCGAGCATGGGCCCCTTCTGAGCACTGGGCCTTTGCAACCGTAGAGATC
CACACCCATGCAGCCAGCGTTGGACTAGGAGACCCCTGAGGCCCCCTCCGTGCCCCTCTTCTAAGGTTCCTTTCTCACCAAGAAGCTCAGCAGAGAGTTT
TGATTTTGCATTATCAAAGTCAGTGACATTGAGCAAGTTAAACTCTGTGTCGATGGTAGAAAATAAAACATCTGACCAGTTTCTGCCTCCTGATCCCATT
AGTGATAGGTTTGGTGATTTTAATGAAAGAATTTCACTTAGCTTGTTAAATAATAATGCTTTCCTTACTCTGGAGAATTAATTTATGTATTCATGATGAA
TCATTCTCATCAGCTTCCCAGCTACACAGCCAAACTTAGGGGGGAAAAACACCTAGTGGGTGTATAGATTTGACTCTGATATTTTTATTGTTTTTCAGGT
TAAGATTAGTTGAGGCCGGATGCAGTGGCTCACACCTGCAATCCCAGCACTTTGGGTGGCCGAGGTGGGCAGATCAGTTGAGATCAGGAGTTCAAGATCA
GCCTGCCCAACATGGTGAAACCTCGTCTCTACTAAAAATACAAAAAAGATTAGCCAGACGTGGTGTGGTGCACACCCATTGTCCCAACTACTTGGGAGGC
TGAGGCAGGAGAATCGCTTAAGCCCAGGAAGCGGAGGCTGCAGTGAGCCGAGATCGTGTCACTGCACTCCACCCTGGGCAACACAGTAAGATTCCCTCTC
AAGAAAAAAAAAAAAAAAAATTAGTTGAGAAAGAAAACCCAACTGTTGTGCATTTGTTGGATTTTCTCTGGAAACGCCATCCAGTCTGTAATAAAATTTC
AGTTGTCATTACCCTGGATGGAATTCATCTTGGCTGGAGTGAGTGGCTTCATGCAGGGCAACCCCACTGCAAAGAATGTGAGCATCAGCTAGGCTGACAC
AGGGGTCCGCAGACCCAGGCCCCTCATTCCATCAGTTTCTTTCAGCATGTTTCCATGTTTTCATATTTTGAAAAAAGTCAAAATCCAAATTGATTTTCAA
TGTGTTTCCCTTTGGTTATTCCCCACTCCCATGCCTGTCCTCTCTTAAAATCTCTGTTGTTGGTACTGTTTGTTTTTGGCTGTTGGAACTGYTGTGATCC
CCCACCACAAGCAGATTAAAAGGTATACCACATTAAGAAGACTCCTTATTGTTCCAAAGCAATGGTCCTATGTCTTTAAACAATAATATTACCACAGGCC
GCAGTTCTTAAAGCCACTTGGCAGTTTTTATTGGAAGCCTACTTGGAGTTCTCTGCAGCTTTTTCTGAATGTGTCGCCGTGTCATAGCCTGCGACCTTCT
CTTTCTCAGGTTTGACAGCCACTTAGCCAGCAAATCCCTGAGAAGCCACCGGCCTGAACTGGGCCCTCTGCAGTCACTCCGGCCTGTCCCCGCCTCTTCC
GTGTGAGAAGAGCCTTGGCTGTTCCTCTCCCTGGTGTTTAAAGGGCGTCGGTGCACGTACAGCGAGGGCTTACATCCACTTTACGGGATCCGGAGCGGAG
GAAAAGGGCCATTTCTCTTCCCTTATCTGTTTATGATGCGATATGTTCCAAAGCCGATCACATCAGCCGCTGTTATGGTGAACGGAATTCACTGTGATGG
CGGCTGCACCAGCAGAGCCGCCGTGGGCTTCATGCCACGTTACGCGGAGTCTAGGACGGCCTCACCCCGCTGGCTCGGGCTCCCTCTCACTGGGTACACA
TTTATCGGGATTTATGCTTTAAAACAGTAGTTCACATTTTTTCTAATGGTGAAGTACAGAAACTTCCATTCTGTGTGTGACTAGCATGGCTTAGCTATGT
TTCTGTGCAAACATACTCACACACAGTTTCCAAATGAAKTCACAAACTTCCCTTATAAAACTTCCTTTGAGGCTGGGCCCGGTGGCTCATGCCTATAATC
CCAGCAATTTGGGAGGCTGAGGCAGGCAGATCTCTTGAGGCCAGGATTTCGTGACYAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAA
AAATTAGGCCGGGCRCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTA
ACACGGTGAAACCCTGTTTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTGGTCCGAGCCACTCAGGAGGCAGAGGCAAGGAGA
ATGGCGTGAACCCGGGAGGCAGAGCTTGCATTGAGGCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAA
AAAAAAAAGTTAGCTGGGTGTGGTGGCTCATGCCTGTAATCCCAGCTACTCAGGAGACTGAGGCAGGAGAATCACTTGAACCCGGGATGCAGAGGTTGCA
GTGAGCTGAGATCGCGTCATTGCACTCCAGCCTGGGCGACAGAGTGAGAGACTGTTAAAAAAAAAAAAAAAAGAAAGAAAGAAAGAAAACTTCCTTTGAG
CAGAATAATAAAGGTGCCTGTGTTAAATGCCGAGTGGGTAAAACACGTCTGCAAGTGGAGAATGGCAGGAAGGGGCTCAGAGACACAATGAGACTTTGTG
AGTTAAGGGGGTGTCACTGGCGATTTTTCCTGTAAACGTCCCGTGTTTTGTTGTGTTGTTTTACAACAGATTAGAAAATGGTGGGGAAATACTAAAAATA
AAAATATGTCCGGCTGCTTCTGGAACATTCTGGATGTTTTGCCTTTCGCTAATAGTGTAACTTTTTTTTCAAAAGTCATTGTCTTAAAAGACTTCAAAAT
TGCTTTCTGTTCTCCCACCGCAAGCCCCCGCCCCACCTCTTGGCTCTGCCTATCCCCTCCCCTCCGGGGTTTCTGCCCACCCCCCACCCCCAGGCCTGGC
CTCCTGGGTGCCACATCTCCAGGGCCCGACCCATTAATGGCCTGCATTCTGACCGTGACTCCCAGAAGACTCAGCCCCCTGCACAGCGCCTCCTCCCTGC
TCCAGACAGCACATGTGTCGTGGAGGGGTCTCCCTCACCAAAACCAGCACCTCTGTCCCGTTCCATCCTCCGGCCTCACCTCCGCCCACTGCCTCCCAGA
AAAAGGAAAAATCTCTACACCGAGGTCACTGGTCAGTCACCCCGGGTGCCAAGCTCTGCTGTTTCTAAAGGCATGGTCCCACCCATTGGTCACAAGCCCT
GAGCACCCAGTTTGGGGCATGTTAGCCCCCAAGGGGGCAGCTGGGCTGGCTGGTCCTCATTTTGTTCACAGCCTGTGCAGTCTGACCCTGCTGGGCCACT
CCCCGCCCCCCACCTCAGCACAGGCTCCATCTTTTTCTCCTGGGCCCCTTGTTTGTTTGTCTTTCTTTTTTCTTTTCTTTTCTTTTCTTTTTTTTCTTTC
TTTTCTCTTTTTCCTTTCTTTCCTTTCTTTCTTTCTTTTCTTCTTTTTTTTCCCCCTGAGACAGAGTCTTGCTGTGTTGTCCAGAGCCGGAGTGCAATGG
CGTGGTCTCGGCTCACAGTAACCTCCACCTCCTGGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTATAGGCACCCACCACCACACC
TGGCTAAATTTTTGTATTTAGTAGAGTTGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCGTGGTCTGCCAACCTCGGCCTCCCAAA
GTGCTGAGATTACAGGCGTGAGCGACATGCCCAGCCTCTCCTGGGCCCCTTCTAGGCACCCCGCCATCCTGTCTGGCTCCTGTCCCCACCCTGCCCTGTG
CGTTTACCAAGGGCTGACCCAGGCATTGAGCCACATGCACAACCGCCTTACGTCCTTACTATGTCCCTGAGATGTGGAGGGTTTTATCCCCTTTTTGCGG
GTAGGGAAATTGAATATTCAAACCCAGGCCTGCAGCAATGTGAAACCTTAGGTACTTCCCACTTGCATTTAGGTGGGGGGCCTTGGGCAGTGGGTCTGCC
CCAGGAGCCCCGCAAGGCGGGAGGCCTGTGTAAAGGCCTGCAGGAAGAGGCTGAGGGCCCGCTCCAGCAGCCGGGGCGCTGGTAGGGCCAGGCCTGTTGG
CTGCTGTGAGAGATACGCCACCAGGCCAGGCTGACATGGGCAGTTCCAGTTTCCCAAGGCAGTCCAGCCTCCAGCACTCCATCCTGTTCCATCCCCAGTG
CCCTCTGACTGCACGGGGCTGAGAAGTCCCCCAGCGGTGCTCCTAGACAGGTGGAGACCTCAATCCTGCAGCCTCATCAAATGACTCCCCAACAGGGGTG
GATCCTGCCCCTCGACCAGCACCTGTGCTGTCTGCCCCTCACAAAATCCTTGTCCCTTCTCAGATTCCTTGGGGGCACAGGGCTGTGAGGGTCAGGACCA
CCATCAGAATCCCTTACAAAGCCACAGCCCTCTGGCCTCTTAGAGAATCCAACTTGGGTTACAAAGACAAGCGTGCACAGGCCAGGCGCGGTGGCTCATG
CCTGTAATGCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACAAGGGCAGGAGGTCAAGTCTAGCCTGGCCAACATGGTGAAACCCCGTCTCTACCAAA
AATACAAAAATTAGCTGGGCATGGTGATGCGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGCAGGAGAATCGCTTGAACCGGGACCCGGGAGG
CGGAGGTAGCAGTGAGCCCAAGTTCATGCCACTGCACTGCAGCCTGGGCTACAGAGCGAGACTCTGTCTCAAGGAAAAAAAAAAGGACTAGCGTGCACAG
AGCCCTCGAGGTACCAGAGCAGAGCTGTGGATGCCCGTCTAAGCCTGTGCCCATAGCTCTGACTGGATTTCACCAACTCCACTCTGGCAGGTTAGCATCA
GGAGAGACACTGTCCTGGCTGCTGGGTGGGAAGATAAAGCTGAGTTCCTTCTGTCTGTCTCGGTGAGAGAAGGCACGGCCCTCACCCAGGGCAGCAGAGA
TCAGGGCTGACTTTCCAAGCCAGCAAGACATGCATTCAGGCTACCTACAAGGAAAAGCAGTTAGATTCGAGCAAAGTGGTGAATTGGTCTGAATGGAAAA
ATCCAAAACATCCCACTTTAAGAACCCTGCATGCACACAGTCTTGCGTCAACTTCAGTTTTAACACGATAGCCAGGTAAGGGGGAAAGATGGGCGGAGCG
GGGGACCAAGGACAGAGAGGAAGACAAAGGCTCTGTGAGCTGTGCCTGCTGTAACAAAATACACAACAGAAAGTATTCCTCACACTTCTGAGGAATGGGA
AGTCCAAGGTCAAGGTGTTGGCTGATTCATTTCTGGTGAGGGGCCTCTTCCTGGCTTATAGACAGATGCCTCTTGCAGTGTCCTCATGTGGAGGAGAGAG
GAGAGGGGCATCTCTCGTGTCTTTTTTTTTTTTTTTTTTTTTTTGAGACACAGTCTCGCTCTGTCACCCAGGCTGCAGTGCAGTGGCGTGAACTCGGCTC
ACTGCAACCTCCGCCTCCCGGGTTCACACCATTCTCCCGCGTTCACGCCATTCTCCCGCGTTCACGCCATTCTCCCACCTCAGCCTCCCGAGTAGCTGGG
ACTACAGGCGCCCGCCACCATGCCCGGCTGATTTTGTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGGTGGTCTCGATCTCCTGAC
CTCATGATCCACCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATCGTGCCCGGCCCCTCTTGTGCCTCTTCTTATAAGAGTGAGAATC
CCATTCATGGGAGTCTACTCTCCTGACCTAATCACCTCCCAGAGGTCCTGTCACCAAACACCATCACACAGGGGGTTAGGGCTTCAGCGACTGACTTTCC
GGAGCACACACACACCAGTGCTCCTGTTGCCCCTCCCAGGGACACCTTGCATTGCAGCAAATCACTGTTTTCTGGCTGCCCTTGGCTGGCTGGCTGGCAG
CCTTTGGGGCCCTAGGCATCAGGATGTCTGCTCTGTTTGTTTGCCAATTTCAAAGCACATACCGGAATCAGTGTGGCTGGAGCTGGAGAGGACCTTGGTT
TTAGAACTTTGATTGAAGCCTAAGGACCGTTGGTCCATCTGCAGAGCAGCAGTGACCAAGCCTCTCTTGGCCTTTCCTAGCATGTCATCCAAGCCTGAGT
GGGAAGCGGATGTCCATATGCAGCTCACCAGAGCCGGCCTAAGGAGGGTTGATGTGCAGGCACTGCGGCAGCGCACAGGGCTCAGGACCCCTGGGCGGGC
ACCTGTGTGCCACCCGGGCTGTCGTGTGCGTGACTCGGCTAGCCCCTGCCCTCTGTGTGATGGGCACCACACTTCTTCCAGCCTTGTGGCATCCCAAGTA
GGCAGTGAAAAGCTTCGAGAAGGGTGGGCTCTGGGGGCCATGCTGGGATTCCAGGAACCCGAGAATTCACGTAAGCCAATTCTTTCATTCTGGGCTCCCA
TGAATGCATTTGGAGAAGGTGGCTGGAGTCACGCACAGCCAGCTGGTGGGCAGGGCTCTCTKCAGGCCATGGGCTCATTTTCCCACCTGCGTAAGTCACG
GTGCTGGTGGTAGCAGGATGGGGTCTGCAGGTCTCGCAGGAGTAGGTCAAGAGGACCAGGCAAGGTCTGGCTTCCTGATGGGGACCCAGGAGAGAGAAGC
CAAGAACCCCTGCTGCCTCCTTACCCAACTGCATATCACAGAGTGTGCTGGGCCCCGTGGAGGTGGCTGCAGTCTACAAGGGGGTGGCTGCCCTGGCCTA
TGGTGCATTTTACAGATGTGTCAACGTGGGAAGCTGGGCCAAGGCCATCCTGTGCGGAGGCTCAATGAGAGAGCACCCTGGGTAGGGTCTGGACCTGCTG
TGTGGGCCTCTTGCTGGCAGGCAGCTCTCTGTTCCCGAGGTTGCAGCAGCTGCTTTCTGTCCTCTCTTTACCCGTTCCCCCCCGCCCCACCCCCGCCAGC
GGATTCTCCTGCGGAACCTCAAACTTCAGAGGCAGCAGGCCTTGAATCATTGAGCCTCCAGAGGGAAAACTGAAGCCTGGGAGAGGGTGGCTGYCCAGGG
CCCCACAGCCAACCATGTCCTTGCCCAGAGAGGCCTGGGTCCCTCCTCCTCTGTGCTGGGTGCTTCCTGAGTGCTTGGCACATCTAGACACCAAACAGAC
CCTTGGGTCTGAGCTGACTGGGTTCACTAGCTAGCCTCACGCATCCTCCCTGCCGGGCTGCTGTGGGCTGCTGTCCTGGTCCCACATCTCCTTTTTGCGC
GCTTTCATGATTCYTCAGACAGTCTCCATAGGTTGCCTCAAGACTCTGGAAGAATGAGGTTGCATATGCACTGTGACTTGTATCCAGGAATATTATCCTA
CTCAGGCTGGTCAGGTACTCAACAGGCAGGGAGCGCTAGTGGCAGCAAAGCCACGAGTGCCCCAAGTCTCAACCCGAACCTCAGGCGAAGGTTTGGGGAC
AAGACTAAGCTCAGCTCCCAGTAACTGGCCCTCCCCTTGCCTCAATCCCTTCTGGAACAACACAGGCTGTGCCAGCCTGMACAGGGCAGTGCAGAATCAG
GAAAACCTGGCTGGGGCCAGAGTACCCGGGCACATCCTCGCTCTCCTGGGCCGCCTGGGGCCTGCACCTGCCGGGGGATCTGCCAGCCCCCATACCTGCG
GCYGGGCACATTTAACTGTGACTTGCAGAAGTAATAAGCCTAATATGGTTGACTTTATTTAATTAATAATGATCCTCTTCTGTTCCTCTGCGCTCATAAA
ACACCCTGCAGGTTGGCAAAAACACTCATAATATTGATCAGAAGTCAGGCGGGATATTTATTTTGTCTTTGCCCCACTAGCATAAATYCTTGTCCACTGC
CTCCTSCTCCCCGCATGCGGGATTTACAGTGGCCAGCTTCTTAAAAGCATTCAGTAATTAAGGAATAAATATCCATTGGCCTTTGTGGGCTGTGCTCCGT
CCCTCCGCCTGACCCCCTAGCAACGCAGCTCAGGGAGAAGGCATGCATGCAAGGGGGAGGCAGCTGTCAGCGCCCGCTCGCAGTGGGCCGGGGTCTTCCC
CTACCGAGAAAGGAAGCCCCTCTCTCTTCCTCACGTATTGTTCCAGCCCCCTCTTCCATGCCTCCCCTCCCAGTTCCTGTTTTGCTTGAGGCAGGAAGCA
CTCTGGAAATTCCTTGCTGCTAGCCCTCTTTTCTCTCCTTCCTCTGCCCTTCCTCTCCTCCTTGTCAGTTTCAACACCAGGCGGGCGGGTCCCCTCCAGT
GTCTGCTCCTCACCCTGAGGGTGTTCCTCCACGCCAGCCCGCTCTGCTACAGAATCTCCTTGAAAATCACTGCCAAACTCCTCTCCCACCTGTTGGCGGG
GGCAGGGCAGCTGTTTCCAAAGGAAAGACTGTGACAAGTGGCGGGCACACAGACGCAAATTCTTCTTTTGGCCTTTTCGCACTGGAAGAGAGAGGGGGTT
CCAATAAAAATGAGCACATTAGACTTGACCTGGAGTGCACTTTCGGRAAGRGGTGTTGCTCAGTGTTTTGTAGACGTGCTCAGAAAGCCACATTTGTGAG
ATTTGAAGGCTGAGGATGAAACCACCAAGAGACTGCTTTACAGCCCCCCAGAGCGCCCCAGCCCTGCCACACACAGCGGCCCCTGTGAGGACTGAGGTGG
ACRTCTGGCTGCCCGCTCTCTTGTCTGTGTCCCRTTCATCTCCCAGACCCCGCCACAAGACAGTGCTGAAAGGCAGTCAGAAGCTTTGTGGTTATTTGCT
TAAAACTTTCTTTTCTGGGAATCCAACCCATTAACCTTATTACCCCTTGACAATGTGCTGACCCTTCCCTGCCAGGACCAAAACACAGCTGATGGTGGCT
GTGTGAGACCTCATCTTTGCAGCTCTCAAATGCATGAGGAACAGAGAATGGGGCATTGCAGGAAGACAGCATTTCTCTCTGAAGGTAGTTGTGTGTAGGT
GTGACTCTCCCCGCGCTCTCCAGGTGTCCCCAGAGGTCTTGGTCTATGCTTTGCTCATCACTGACAAGGATTTGCCAGTGCATAGATGACAGTGCCACCA
GCAGTGACCAAGCTCACCTCTGGGACTCAGCTGCCTGGTCAGCCTGACCCCGCCCTGCCGAGCACCTCATTCCCGGGCAGCACTTCTGTTTTGGGTACTG
GTATCTATATGACTTGCCTTTTCCTTTTAGTGATCTCCTTTCTCTTCATTCTAAAATTCCATGAATTATTATTCATCTTTGTAATTATTATAAATATTTA
TAATAATAAATTATAGATAGTTTTGATAGGGAAGAAGAGGAGGAAGGAAAAACTGAGATGATCTAGATCCGTGCATCCTCTGTAATGGCAGAAGTGTTCT
CGATCAGCAGCCTTGGAAATGTCCTAGTCAGCGGCAGCGTCGGTGCTCTGGACCGGCAGCCATGGGAATGTCCTAGTCGGCAGCAGTGTCGGTGTTCTAG
ACCGGCAGCCGTGGGAACGTCCTAGTCGGCGGCAGCGTCGGTGCTCTGGACCGGCAGCCGTGGAAACGTTCTGGATCCGAGCATCCCAGGGTAGCAGCTG
CCAACCACATACTTATGTAAAGCACTGGAAATGTGTCTAAAGGAACTGTGTTTTTAATGTTATTTTGTTTCAATTCACGTCAACACCCACGGGCAGCTTA
CAGCTGCCCCATTGGGGGGCACACCTCTAGATTCTTYCTCTGAAGCAAACCCTACCTAACCCTTCGTCAGAGACCAGAACCAAGTGTTAAGATGGCCAAA
GGGAGAGCATGAGAAAATGATGCTGTGGATCCACCTAGACTCTCAAAGCCCAGAGAGTCTGGTTGTACAGATGGGAAGATGTTTCCTAATTTGGGAGGCA
TCAGATCCCTGAGCAAGAGGTCAGACAGTGCCAGGGCAGCCAGTCTGTCGGGTGTCCCAGCTGGGGACCCTGGGCAGTGTTCTGTATCACTGACCTTCTC
CTCTAAGATGGGGGTAAGAATAGGACCTTCCTCACTAGGTGTTGTTAGAATTAAACCAGGTAATTGTGTAAAAGGTTCAGCCTGGGCTGGGTGCAGTGAC
TCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGGATTGCTTGAGGCCAGGAGTTCAAGACCAACCTGGGCAAACTGGTGAASCCACTGCAC
TCCAACCTGGGCAACAGAGAAAGACCCTGTCTCTAAAAGAAAAGAAAAAGACCCCCTTCTCTACAAAAAAAAAAAAATTGAAAATTAGCTGGGCGTGGTG
ATGTGCACCTGTAGTTCCACCTACTTGGGAGGCTGAGGCAGGAGGATGACTTGAGCCCGGGAGTTCCAGACTGCAGTGAGCTATGATTGCGCCACTGCAC
TCTAGTCTGGGTGATAAAGCCAGACCCTGTCTCAAAAAATAAAAAAGCCTCAAGTCAGTGGTTGGCACATTGCAAATACTTGRTAAGCATTGGCTGTGAA
CATTACTGATACTTTTCCTAGTCTGCATAACAGAGTTTGTCTAATAGTGACTCTACATTTATATAAATATATGTCCATGATCAATCACCTAAAACCCACC
ATTTGGCTCATGTAGCATTGTAAATAAAGATGGAGAAATTATGCAGAAAGGCCTTTGTTTATTATTGTCTTAGTCCTCTGGGGCTGCTATAACAAAATAC
CTTAAATGGGGTAATTTATAAACAAAAGAAGTGTCTTGCTCACGGTTCTGGAGGCTGGAAAGTCCAAGATAGAGGCACCGGCAGATTCGGTGTCTGGTTA
GGGTTCGGTCTCTGCTTCATGGAGAATACCTCATTGCTACGTCCTCACGTGATAGAAGAGGCAAACCAGCCCCCTCGGGCCTCTTTTATAAGAGCACTAA
ATCCCATTTATGAGGGCAGGGCCATCATCACCTAGTCACCTCCCAAAGGCTCTACCTCTTAATAACATCACCTTGGGGAGTTAGGATTTCAGCAAATGGA
TTTGGGGTGACACAAACACACAGCAGTGATAAAAGAGCAGACTTTGTTGATAAATCCGTGCAGGGAAGGCACCCTCACTGCAGTGTTTCCAGTCACTGGG
ATGAGAAAGGGCCGATCCCAGCTGAGCGTGGTAGTGCATGCCTATAGGCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATTGCTTGAATCCCAACCTGGA
CAATATGGCAAGACCCCTATCTCTACAAAAAAAAAAATTATGCAGGCATGGTGGCACACGCCTGTAGTTGCAACTGCTCAAGGGGCTGAGGTAGGAGGAT
CACTTGAGCCCAAAGCAATCCAGCCTGCTCAAACCCAGCCTGGGCAGTATAGCAAGACCCTGTCTTAAAAAAAAAAAGAGAGAGAAGAAGACTGGGCACT
GTGTCTCAACACTTGTAATCCCAGCACAAAGCAGGTGGATCACTTGAGTCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGCAACCCCGTCTCTACAA
AAAGTACAAAAAATTAGCCAAGCATGGTGGTATACACCTGTATTCCAAGCTACTTGGGAGGCTGAGTTGAGAGGACTGCTTGAGCCCAGGAGTTCGAGGC
TGCAGTGAGCCCTGGTCAAGCCACTGCGCTCCAGCCTAGGCAACAGTGCGACTCTATCTCAAAAAAAAAAAAAAAAGAAAGGGTCCATCCCGGTATCAGG
CAATGTGAAGTGCTGGGAACACACAGACCTGCCCATGGCATCCCCCAGTCACTTGAGGACAGATAAACCATCACAGTTGGTTGTTGCCTTTTGATTGGAG
TCATCGGCAGTGTTGTCACGCGACTGGTCTTGCTCAGGTGCATTCTCCAGTGGGCACTGCAGTGACGGCTCCCACGTGGTCTTCCCTCGGGCTTTTACCC
CAGGACCTGTAACACCAAGACAGAGCCCGGTGCAGCCTGCATGTGATGATTCGCCCCCACCCTGGGTCCTTGCCACAGAGATTGAAATAAAAGCTCTCTG
GAGGCCAGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGACAGATCACCTGAGGTCCATAGTTTGAGACCAGCCTGGCCAAC
ATGGCAAAAGCCCATCTCTACTAAAAATACAAAAATTAGCCGGACRTGGTGGCACGTGCCTGTAATCCCAGCTATTCAGGAGGCTGAGGCAGGAGAATCG
CTTGAACCCAGGAAGTGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCACCCTGGGTGGCACAGCGACATTCCATCTCRAAAAAAAAAAAGGAA
AACGAAAGAAAAGCTCTCTCTCCCCACAACCCTGACTTGCACATTTTCTTCTGTAAACATAAATGCTTCTCTCCATCCCCCGTTCCCTCCCTCCTGATCT
GTTCTTCACTCTGCCTTGGTTCTGTCGTCGCTGGGTTGGCTGTCTTGCTGTCTGTGCAGCACCTGCTTTCTGTTCACAGGTGCTGGGAGTTGTATGACGC
TGGGCAAACTGGGAGCAGCGTGGGCATCCCGGCCCAAGCTCAGGGGCTCAGGAGGCAGGAGGCGGCACTCRCATTCACACGCACACGCACAGAACGCTCT
CCCKCTCTCTCAGTCTGGTCCCTGGGCAGGTTGAAGGCAGCTCAGCATCCATCTTTTTCCAGAGAAGAGAACTTTGGCCCTGCTAGGTTGCTGGCCGGCC
ACCTTATGGCCCCAGGCCTGTCCTGAAGGCGGGGGCCAGATTGGGAGCCCCCCTGCTTCCGCTCTGCAGCCCTGTCTGGCTGAATGGTGTAAAATTCCCT
AAGTCTTTCCTTCCTTCTTGCTGTGTTTCAAAGAAGGAAAAGCCGGGTCTGTCAGTTCTAGGCTCTCCACTGTTTTTCCCCTTTTGAAACTTGCAATAAA
ATCTACCTGTCTCTTCTTTCCTGCAGCCTTTCTTTTTTCCCACGATTTCCCAAAATACGGCCACCACTCTGCCGTCACGTGTGCATCTTGTTCCACATTA
GATATGGAGTTTGTTTTGTTTGTTTTTGAGACGGAGTCTCGCTCTTTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCAACTCACTGCAACCTCCGCCTC
CCGGGTTCAAGCAATTCTCTGCCTCAGCCCCCCCGAGTAGCTGGGATTACAGGCATCCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGG
GGTTTTACCATGTTGGCCAGGCTGGTGTCGAACTCCTGACCTCGTGATCCACCCACTTCGGCCTCCCAAAGTGCTGGGATTACAGTCATGAGCCACCATG
CCCGGCTGGAGTTTGTTTTTTAAAATGTGTACATGCTTGAGGGTGTTACCAGGAATGATCAATAAAGTCAGTTACTGTCATCCTTAMSCCCACACTAAGT
GCTCCGGTTACATGGAGATTACACCTTGCCAGCTGAGTCATGCAGTGGATTTGGCATGGCAGGCACTAAGTATGCGGGTAGCAGGTGGGGAGTGTCCAAG
AGAATTGTCTTTGGGATGGACACAGGGAAGCCACCTTGGCCAAGTCACCACCCCTCAAGGTCAGGTGCGGCAAAGCCCGTCAGGCAGCAATGCTAGAGTG
TCTGTCTCCGAGCTGGCAGACCCCGAAAAATCCAGAGGGTTCACGGCTCCTGCAACCTACCCAGTGATTCCTATGTCCTGTGCTCAGTGCCTGGCTGTCC
CTGTGGATGGCTTCCTGTCATGGCCCAGAGAGAGGTAAAGAGCCACCTTTACCTCTTCTTTTAGGCAGGAAGAGAAGCAAATATAAAATACGATGGCGCC
TGAAATGTACCTTTTCTTTTTATTTTGGGGATTGGGTCAGTGCCTTTCTTCTGATGAGTCGCCCATTCCCTCATTTTCCCTCACTCTCCTGCGGCTGATT
TATTTAAAGGTGTGTCAGCACCACATCAAATGAGGAACTGGGCCCCCTCCTTTCTGCTGACGGCCGGCCGCGCCAATAATTCATTTTTTAGCTCATTAGC
TAACGGAGGCTGTGARCGGTGATCCTCCCGGGGATTGGAATGAGGGGAGGTGATCTACTGCCGGCTGCCTGCTCTTGAACTGGCCTTCCTTGGGGAAAAT
GAAAGGCTCAGCCAAGACAAGCCAGGGATCCCAGAAGTAGAATTGCGGCCTCCGAGTGACCATTTGAGTCTGTGTGCTTTGACATCATGGCTTCTTAGGG
CAAATGCCTCTAGACGGAATAGTCTCATCGAGAAKAAGCCATTGTCAGCGTGTCCCTTGGTCATATGTGACTTGCGTATGGAGACGCTAGTGAGAAAGAT
GAAGGATGCTATCCAGAGTATGTGTCAGCTCASGCTGCCAAAATAAAGTATTACACKTGGGTGGCTTAAGTGCRGGACATTCACGTCTCACAGTTCTGGA
GGCTGGAAGTCTGGAGTCAGGGTGCCCGCAGGGTTGGTTCTGGTGAGACCTCTCTCCCTGGCTGACAGATGGTGCCTTCTCCCTGTGTCCTGCCTTTCCT
CCGGGTGYGCTCAGAGGGAGAGAGACATCACCAGTGTCTCGTCCTCTTATACGGGCACCTGGCTTATTGAATTAGGGCTCTATCTTTATAGCATCATTTA
ACCTTAATTCTCTTCCTGAAGACCCCATCTCCACATACAGCAACATTGAGGGTTAAAGCTTCAGCATGTGAATTTTATGGGATACGACTCAGCCTCTAAC
ATCCAAGAAGCCCTTAAACATCTCAAGGCTATGGGCAGGAGCCAACCAGATGTTGCTCCTGCAACTCTGACAGCTATGAGGTCATTTAAACCAGCCAGAC
TCCTTCTTACCCCAGAGTCTCAGGATCCTCTGCACCCTCGGGGGAGCTCACAAGATGCCAGCAGGCTTGGCAAGACCTCTGGCCAAGAGCATCCCCCCTA
CCATGCTGAGCATGAGGAGTTGCGTGAAGCTCGTATGTACACACAGCCGTGATTTAGAAGCCTCCCGTGCCCAGCAGGCCTTCGGTACCCGCGGCCCCGT
GCCACCAGCACTTCCCCCACACGTGCCGCTTCCACGGGTGAGCTCCTGTGTGCTCACATAACATTGAATTATCAGAGAGGTTGTTTTCTTCAGTCGTGAC
AGCCGCTGTTTGCAGGGGAACCACTGTGGCCATGGTGTCATCCAAATGCGTGATCCCAAATCCCAAAACAGCCCTGCCTTGTGTAGATGTCACTGTCCTC
ATTTGACAGATGAGGAAAAGAGGGTCCAAGAAGTTATTAGAAAGGCGAACGTCTACACCACTAAGTCGAGAAAAGGCACATAAGCCACAGTCTCTCTAAT
GCTTAAGAGTGCAGCCTGTGAGCTTAGTGTTGGTGGGGAGATTGGCTTTTCCCTGCCTTTGGGCATTGCAGAAAGTACAGGGAGCTAAGCTTTCCCCCTG
GTATCTGGATGGGAGCATCCACAGGAGGTGGCCTTCAAGTCACAGCAGGTGGCTGACATGCATTAGTTTGCTGAAGTAGCACCAAAAAACCCAGTGCCCT
TGTCTGAGTCCTGTTTTCRTACTAGTGAAATTTCAGCTGCTAACAAGAATCACGTCTGATGCAGACACAAAGCCCAGTGGCTGCCCYAACTCCCTGGCCA
CCTCCTACTGTCCRAGAAAACACTGAAATATAGCAGTCCCAAAGGACTCAGAAGTCAGCATTGAAAGCTTCTGTTTTTGTTTTGTTTTGTTTAGACAGAG
TCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAACCTCTGCCTGCTGGATCCAAGCGATTCTCCTGCCTCAGCCTCCTGA
GTAGCTAGGACTACAGGTGTGTGCCACCATGCCAGGCTGATTTTTGTATTTTTAGTAGAGACGGGTTTTCACTATGTTGGCCAGGCTGGTCTCAAACTCC
AGACCTCAGGTGGCCCGCCCAGCCTCGGCCTCCCGGAGTGTGAGGATTACAGGCATGAGCCACTGCACCTGGCTGCAAACTTTTGTTTTTTTGTTTGTGA
AATGGAGTTTCACTCTTGTTACCCAGGCTGGAGTGCAATGGYGCAATCTTGGCTCACTGCATCCTCCACCCTCCACAAGGTTCAAGCAATTCTCCTATCT
CAGCCTCCCTTTTGTGGGTTTCGGGCCCACAAAACCTGGACCTACCTTTTATTACATAGTTTAAACAATGCTGATTTTTTTTCCATAAGTTATTGGGGTA
CAGGTGGTATTTGGTTAATTAAGTTCTTTTTTTTTTGAGAGAGAGTTTTGCTCTGTCGCCCACGCTGGAGTGCAGTGACGCAGTCTTGGCTCACTGCAAC
CTCTGCCTCCTGGATTCAAGCAATTCTCCTGCATCAGCCTCCTGAGTAGCTGGGATTACAGGCACCTGCCACCACACCGGCTAATTTTTGTATTTTTAGT
AGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGAGAACCACCCACCACGGCCTCCCAAAGTGCTGAGATTACAGGCATA
AGCCACCACGGCCAGCCATGAGTAAATTCTTTAGTGGTGATTTGTGAGATCTTGGTGCACCCATCACCCGAGCACTATATACTGCACCCTATTTGTAGTC
TTTTATCCCTCGCCCCCCTCCCACTCTTCCCCCCAAGTCCCCAAAGTCCGTTGTATCATTCTTACACCTTTTATGTCCCCATAGCTTAGCTCCCACGTAT
CAGTGAGAACATGCGATGTTTGGCTTTCCATTCTTGAGTTACTTTCCTTAGAATAATAGTCTCCAGTCTCATTGGAGGTCCCTGCAAATGCTGTTAACCC
ATTCCTTTTTATGGCTGTGTTGTATTCCGTCGTATATGTATATACACCACAGTTTCTTTATCCACTTGTTGATTGATGGCCATTGGGGTAGGTTCCACAA
TTTTGCAGTTGTGAATTGTGCTGCTATAAACGTGTGTGTAAGTATCTTTTTCAAATAATGACTTCTTTTCCTCTGAGTGGGTACAGTAGTGTGATTGCTG
GATCAAATGGCAGTTCTACTTTCAGTTCTTTAAGGAATCTCCACACTGTTTTCCATAGCGGCTGTACTAGTTTACATTCCCACCAGCAGCGTAGAAGTGT
TCCCTGTACACCACATCCACGCCAACATCTACCGTTTTTAGATTTTTTGATTATGGCCATTCTTGAAGGATGAAGGTGGTATCAACAATGCTGATTTTTA
AAAGTAAAGAACAGCTCATTCAAATGTGTATCAGCTTGTCAGTTCGGATGAGGTTGCCTATGAGGTGAGATGTGAGGACAGAGAATCACTCCAGCAGTTC
CCGGGGAGAACATACTGACACAGYGAAGGGTTCAGGAGCCGCAGGTTCGTACTCATTCTTTGGCTGGGGTGTGGGAATATTAAAAAGAAATTGAATACTT
GCAGTTAGCACTGTAGCTACTAGTTCAGTTATGTGGTTTATCCCTGGGTGATTTGGCAATGACTATTAAAGTCAATCGGAGCGGAATCAAATAGTYGTGG
GATTTTAATGTCTACCAAAAAATGAGAGTTAGCAAATTGGAACTGGAAAATCTGGACGCATCCTTCACCGTCATCCCTTTTCATTTAATTGACGTTTTGC
TCCTTCTCTTTTGTGATTTATGAAATGCATCAACAAACGTTTAATACATTTTAAATAAGGCCTTTAAAATAGTATCAGAACTGCTTCTTTTTGTCTGTCT
CCTGAACCCGTATTTCCCAGACATTGTCAGTGCTTTTGTGCTTGTGTTTTTGCCCGAGTGGGGTGCAGGGGCTGCCTCCGCTGCATTTGTSGGGGCCGGT
GTCAGTTCTCAGCTGTAGCCAAGTGTTTGTCCTGGAAATCTCCAAATGAAAAGAGTCGGGGGTCACTCTGGGGTCACTCACATGTACCAGGAAGTGAAGC
AAAACTAATCCAGATTTACTCCTGGAAGAATTTGTTTGCCTTAGTATTTAAAAACAGATTAGGGCTAACCCGACACTAGATCACTAGGTGCAATGTAAAC
ACGGGTAAAAGGTGTAAACAAGGCCTTTCCTCTGTACTTCGGAAGCAGAAATGTCATGGGTAATGAGTTTTCTTTCTAGACTTTCGCGGAAGCCCTGAGT
GATTTCTCCGTGTCATTTGTAACTGTGTACTCTGATTATTCCCCTGGAGAAACCTGAATTTTGGAGAGGGCGATTGTGAATCAGTGCGTTATTAAAGTCT
CTATGGGTAACTGCAGTCCCTTCTTACATGTAGGGCTTTTCTTTCTTTTCTTTTTCTTTTTTTTTTTTTTTTTTTCGAGATGGAGTCTCATTCTGTTACC
CAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCCATTCTCCTACCTCGGCTTCCCGAGTAGCTGGGATTACA
GGCGCCTGCCACCACACCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAAGCTGGTCTCGAACTCCTGACCTCAGGTGATCC
ACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCAGCCTCTTTTCTTTGTCATCCTCATCAAAAAGGCAGGCAGGGAGCAC
TTCCCTGGCTGGGCTTGGCTCCTGGGATCCTTGTAAAATTTCAAGAGCTACTTGTAAAATCTCACACTGTTCTTTGTAAATTTCTTGTCCCCCACCACCC
TACCTTTTTTTTTCCCCTCTAGCGGTGCTGCAGAGTCTTGAGTTTTCAGTATCTGTCACGCTCTTTTTTGAGAAACCAGAAACCATCATCAGTAGCCACA
AAGTACAGGAGCTGCTCRCCTGGGGTCCTTCCTTTGGGTCAACATAAACATGCCTTACTGTTGGTTTCCTCTTCTATTTGTTAAGCTTCTCATCTCATCC
TGTCCTCTCCTTCTTAGCCCTCCCCACAGATGTGTAGCAGGGTCCCCATCCTCTGTAGACCCCCCAGGAGGAGACCATGTATTACACTGGCCAGGTCGGG
CAGCCCCATCTCAGCCAGGTTGTGATGCTGGGGCCGGGGCGGGCAGGCATCAGCATCATCCRCTCTCCACACCTCCGACCCCATCCACCCCCTCCCCAGC
TTTGTCCTCTCCTCTGCCTCTGGGCTCAGCTCTGGCTTCTGGGAGCTACCTGCCTGTTTCCCAGGCCCTGGAACAGTTTCCCCCAAAAAACTCAGCCATT
CCTGACATTCTGTCCTTTCCACTTAAGCCTTCCCCAAGTATCTGGAGATTCCAAAAGCTGCATCTCCCTGCTAAACCTCCTCATTGGAGTCTCCACCCTC
TCCTGCGTGAGTCTGTTGCCRTGTTTTCCTCAGCTGAAAGGGTTTGGAGACCCTGGGGAGTCCACACACACCCCCTATTTCGGAGTTTGARGCTAAAAGC
ACATGGTCACCCCCAGGTGTGGGGAGCGCACYGGCTGTCCCTTCCCCCCACCCCCGGCCCAGCTCCAGCCAAGTGTCCTATAGCCCTCACTTACAGTCCT
GCTTACAGTAAAGCAACTCTCGGCCCCAGAGACCATGCTTCCATCGTGCGGTCCGTGCTCTCGGCCCCGGAGACCGTGCTTCCATCGTGCTGGTCCCAGG
CAGTAGGGTGGTTTCCCCTGTGCATCGGTGTGTGAGAGCCACTGATCCAAGGCCATGGCCTTGAGCCCTCACTTGGTAGTTTTCTTTCCAAGGACAGCTT
CTACACTAAAAGTGACAGAAGCAGCACCAAGGCAGTGTATGAGCCTGAGATCAGCGGCTCTCACACCTTGGGCCTATTGGAATCCCCTGCAGGGCTTCTT
AAAACACCCCGAGAGGTTTGGATTCAGGGGGTCTGGGGCGTGACCTGAGAATCTGCATTTCTGGGCTGATGCTGCTGGTGAGGATACTGTTTTGTGAAGG
TGGATAAACGTTTCCCCCAGGGGGCTTTGTGCCGAGTGAAGACCTTTGCTTTCTGTTATTTCACTTCCCTCTCGGCTTCTCCCGACCACACTGGGCAGGG
GCTGGCAGCCTGTGTTCTCGGGCCTGATCGTGACTGCACCTGTCTGGTGGCTCTTTGCAGGGAAGAGAAGGAACGGTGGATCCGTGCCAAGTACGAGCAG
AAGCTCTTCCTGGCCCCGCTGCCCTGCACGGAGCTGTCCCTGGGCCAGCACCTGCTGCGGGCCACCGCCGACGAGGACCTGCGGACGGCCATCCTGCTGC
TGGCACACGGCTCCCGGGAYGAGGTGAACGAGACCTGCGGGGAGGGAGACGGCCGCACGGCGCTGCATCTGGCCTGCCGCAAGGGGAATGTGGTCCTGGC
GCAGCTCCTGATCTGGGTAGGTGGTCGGYACGCCTGGCAGAGGACGGGGCCACAGGAGGCACTCTCTGCTTTGTTCTGCTTCCGTGGRCATCTTTCTGGC
AGAAGGCTGTTGTTCTCGATCTGCAAGTGGAAACAGTTCCTAATGGGAAACTCTGATTGAAGAGCAGAGGGCCTTACGGAGAGACAGCCGGTCCTCCTTG
TACAGTACTTGCTAGAGTTTCTGAAAATTGCAACTTTGTGATTGCCCCTTATCAAGCAGGGTTGGTGCTATCCCTCTTTTTTCATTTCCATCATCTTCTG
GAGAGAAGGCGGTGTATTAACGGGATGGCTTGTAGGGTTTCCCCATTTCCAAACCTTTGGTGTTTTTATTCACTTAACACAGAAATACTGGACCCTAAAC
TTTGAGGTCTGATGTGGCAGGAGTTTGTCAAAGGACTTCTTTCGAACCATTCTGATTAATTTCTACTGGGGAAAAGTATTATTTACATTCCTATTGAAGC
ATGTGTCACAATGCTTGAAGGAGTGAAAGAGAAGGATAAAGTGGTTGTGCAGAGAGGCCCTGCCTGTGCCACCCAGGAGCTAYGTCTGAGAAGCCACGCC
CACTTAGGGGCTGCCTGTGGACCCCTGGGGCTTCTGCTGAGGCAGGTTCCCACCAGAGGCAGGCAGAAAGCTGCCGGCAGGGAGGCTCCCCAGATAGGGA
AGGCAAGTGTGTGCCCAGAAGTGGAGACAGCACCCAGAGGTGGGACACCCAGCTGGAGGCTCTTCTGTCTCCACCCGCAAGGCAGGATGGGTCAGTCCAG
CACAGCAGCACGTTCTACAGCAGCATGGGTAGAGTGCAGCAGGTTTCTGCATGTTTTTGATCTGACTTTTTTGTTTTTTGTTTTTTTGAGACAGAGTCTC
GCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAGGAAG
CTGGGATTACAGGTGCGCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGCTTCACCATGTTGGTCAGTCTGGTCTCGAGCTCCTGAC
CTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGAGTACAGGCATGACCCACCACGCCCAGCCTTGATCTGACTTTTTTGATGGGTGCAGTTGGTG
AATGAGTGAGATATAGACACTACACCAAAATCACACAGATACTCCCTTTTGCTCATGAGTCATACATGTGATGTAATGCACATTAAATAAGAGTTGTGTG
TAGTGTGCTAGGGCTGCCATAACAAAATACCACAGACAGGGGTGCTTCAACAACAGACATTTATTTTTTCACAGTTCTGGAGGCTGGAAGTACAAGATCA
AAGGGCCAGCRGGAATGGTTCCTGGCGAGGCCTCTCTCACGGCTGGTAGACGGCCGCCCTCTCCCTATGTTCTCACAGGGCCTTTCCTCTGCACTCGCTC
CTGGTAGCTCTCTCCTTTCCCCCCACCCCCTTCTTTTTGGGACAAAGTCTTGCTCTGTCGTCCAGGCTGGAGTGCAGTGGCACAATCATAGCCCACTGTA
ACCTCRAACTCCTGGGCTCAAGCAATCCCCCCACCCTAGCCTCCCAAGTAATTGGGACCACAGGCATGCCACCCCCATGAATGGCAGTTTTTAAAAAATT
TTGTAGASTTACGTTCTTACCATATTGCCCATGGGTTTTGAACTCCTGCCTTTAAGCAGTCCTCTCACCTCGGCCTCCCAAGGTGTTGAGATTACAGGTA
TCAGCCTCCCAGCCCAGCCTTTTCCTCTTCTCATATAGATACTAACCCTATTGTGACCTCATTTAAGCTAATACACCACCATAAAGGCTCTGTCTCCAAA
TACAGTCACATTCTAAAGTACTGGGTGTCAGGACTTAAACATGTGAATTGTTGGTGGGAGCGGGGGACACAGTTATAAATTACAGGCCATCTTTGCTTCT
CCAATTGAGCAAAAATTCCTTTGATGGCGCTGGTTCCATGCTGTTGAGTGGCCTCAGACTCCCACACATTGTGAGTTGGCAGAAGTGGAAGTGAATTCAC
TCTTTTTCATGAGCAAAAAGCTTAAAAACGTTGTGTACTTTAACCTCATATTTTCCCCCTTCTGATCATCACTCTAATAATCAATCACAGATCCTAAGAA
AGATTCTATGTGAGGACATACATCCGGGCACTGTTTCTTCCAGTGACAATTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCTCCCGGGCTG
GAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGACACTAGCTGGGATTACAAGCGT
ACACCACCATGCCCAGATAATTTCTGTATTTTTAGTAGAGACGAGGTTTCACCATGTTGGTCAGTCTGGTCTCAAACTCCTGACCTTGTGATCCGCCCTC
CTCGGCCTCCCAAAGTGCTGGGATTCCAGGCATGAGCCACCGTGTCCGGCTCCAGTGACAATTTTTACAAAGTGTGCACAGTTGAGGGGAGAGTTCTGAA
TTCTGTTCATGTGGTGGAATACTGTATGACTTGCATATGTCATGCTTTTTGAGGGGTGGGGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGT
GGTGTGATGTCGGCCCACGGCAGCCTCTGCCTCCTAGGCTCAAGCGATCCTCCCACCTCAGCCTCCTGCATAGCTGGGACCACAGGCATATGCCACRTGC
CCAGCTAATTTTTTTAAAATGTGTTTTTTTCTAGAGACAGGGTCTCCCAGTATTGCTCAGGCTAGTCTTGAACTCCTGGGCTGAAGTGAACCACCGCACC
CAGCTTGTGTTGTGCTTCTGAGTAATTTTTAATGATGTAAGAAAATGATCACAGTATAGTAATCAATAAAAAATGAAAAAAATACAAATTATTTGTACAG
TCTTATCTCAATTATGTACATATACATGTAGATTCAAAGAAAACTCATTGAAAGGAAATACACTAATTCACAAAGGTTATCTCTAAGTAGTAAGATTATG
GGTGATTTTTTTTCTTCTTGAGCTGTTATGTGTTATTTRTGTATTTCCTAYAATGAAAATTCTGAGATCAAAACAATGATTTTCTTTGTGCAATTGGAAA
GTCAAAATAGAAACAGCAAAACTAAAGTTATCTTTGATTCCTTAATGTTGCACAAAGGAGGGGCTTTCAGTTGAAAAAAAAAGACATGTTCTTTCCTTAA
AAGAATCCGCTGGCCACGGGTGCAGGCTGTGCCACCAGCACTGGATGGTCCTGGCACCCCAGCCAGTTGTGTAGCTGGCCCCGCTGTCCAAGCACAAGCC
ACATGCAAGGGCTGAGAGAAAGCTTCCCTGCCCCCTCCCTCCATCACRTCCCCCATGATACTAATGTGGGCTCCCTTACCTCCGCAGTACGGAGTGGACG
TCACGGCCCGAGATGCCCACGGGAACACAGCKCTGGCCTACGCCCGGCAGGCCTCCAGCCAGGAGTGCATCGACGTGCTGCTGCAGTACGGCTGCCCCGA
CGAGCGCTTCGTGCTCATGGCCACCCCYAACCTGTCCAGGAGAAACAATAACCGGAACAACAGCAGTGGGAGGGTGCCCACCATCATCTGAGGAACAGCC
GTGCCCGCCTGCTCGCCGCACCTGGGACGCGGCAGCCTCGCCGCATTCTCGCTCAGAAGTCRCAGCACGTGAGTCCCGTCGCATCCCCTCCCTCTTCCTG
GTGGCCACCTCCCTCCCGCCCACCCACTCTCACCCCAAACAAAATCACAAAACCTGGACATCCTCAAGGGGCGAAGAGGCGGCCGGGAGACTGCAGAAGT
GGCTCCTTTTCATAAACTCCCCTAAACCACACACAGGAGAGAGCGACGGGCCTCGGCCCTTTGATGATAGCACATGGCGCAGGACCCTTGTCCTGGKGGC
TCAAGGGATGGGGACGCGAGGGGGAGGGGAGGCGAGGAACAAGGAGAAGGGGCAACTTTCCTTAACTGGCAGTTGAGCACATAGTACATTTCCCCTCTAC
CAAACGGAACACTTGGATTCCATCTCTTCTCTGAGGAGCTCGACGGCATAAATCAGAAGCAAGCACAGAGTTTGTCAGGTTTGAAGCCCCTATGATGGTG
TGTGTCAAATCAGTTGTAGCTAATCTGTCCAGGGAGAATACTGGCTTCATTACACTTGTACAGCCGAGTTCTTCCCGCATTACTGCTGTTTAATAGAACG
TGATTAGTCATCGCCGAGAAGAAAGCATATTAGCCGAGGAGGTAGTCACGCGGCACGCGCCGGTGATTGCCACGATGTGATTGCAATACTCTTAGAAGCA
CCATATTATCCCAGACATGTTCTTTCAAGCCCTTGGAGCCCTCTCTAAATTCACTGTCATCATTTAGTATCTGTTTAATTTTTCAGTCCAAAGAGAGGAA
ATCAGTCGCTGAGTATTATTTGACTCCGGTCTCCTTGGTGCAAAAACAAAATGGGAAAAATAAATAAGAATAACTCAGAAACTCAAAAGGAAACCACAAA
TTCAGCTAATAATAGCATTTCGAGTATATTTCGTAAACTAAGGAAATACACAAAAGGCTGTTTTTTCCGACTGTAAGAGATATTTGATGTCCTTTTGCCG
AGGTGGATGTGTTAGTCTCAGGCCCTCCTGGACCACGTTGCCCAAGTCACACAGGCTTCTGTGTTATGTATTTAGATAAGATGTGTGAAAATATATTTGA
ATAAAAGAAGTTCATAAATATGCATTGATTTTTGTACAGACAAATGGCACCTCTCTTAATTTATAAATTGAACTGGATGTGAACTAATAATGTGCAACTA
GTTGAGATAAGAGGGTTACAGATCATTGTACATGGAAAATATTCCCAGCAGTAAACACTTCCATTAATGTGATCTACGGCTTTTRAAAAGGAGCATCTCA
GAATAAGATGGTGGTACAATTTGCTTATTAAAATTGAGAAAGAAAAAAAAAGACACACTGGAGTATATTAGAAAGGAAAAAGAAGGAATGTGGTCTCTCA
TGATTGAAAGCATGATTTAGATCGGATACGGCTTTTGCTAACCAAGGACCAAGGGACTCTGGCAAGATGGGGTGGTTTTCCGAATGCCAGACCGAGGTGC
CTTACGAAGGCAGCTGCCAATGGTTCTGTGGCACAGACTGGCTCCTGAGAACCCAGACGACCTTGACCTGGCAGCCCGGCCCTCCACGCTAGTACCTCGC
CTGATTTTCCATCGTTGCGGTATCCAGCCGCTTCAGACGTCCGCCGCCTTCAGTGGTGGTAGTCAAATGTAGTCAACCAAACCACAGCATCCCTTAGGTT
AAAAGCAAACGGGGCAGCTTTGCCTAGAGCTCATTGACAGTGTGATGGGGGGAGAAGGGTTGTCACAATGGAAGATGAGGACACTAGACTCATGTAGCAC
AGAAACATGAAGCCACACGCACCGGCAGCCTCCGGGGTGTTCCTCGCTCTCTCGTATGTTAAACCTTATATTTTATAAGAGTTTTTCCTCTTATTTCACT
TTTTAAAAAAAATTAAAGTAGGTGGGGAAAAAAATAAAGCTTTACACAGAATTTATATGTGGGTAAGTGTTTCATGGAAATTTCTAATCTTAACGAAGCT
AAGTGGAGCTCACTCGTATCCAAAAGTATAACAGGTGCAGAAGCCACAAGTCTGAGAACCTTGACGACAGTTCCATCGTCCTGCCATTTGATTTTTCAGT
CTGCGTTTCATCACTGTGTAGCTATTGTAAATGTGAATAGAAAAAAACAGGTCATTGCCTATTTTTGAAGAACGCGTTGGTGTTCGAGTCCACTAGACAC
ACTCGCTCCACACAGCCTTCACCGTAGACTCTGTAGTGGACACAGATATAGCATAAATGAAATTGTTAAATTATTTCATTGTAGTTAATTCCCACTATAG
GAATGCTTTATCATAGTGAAGTTTCTTTTGAGAAGAAACGGAACTCCTTGAGGCTTCTCTTTGGGATGTATATGAGCGTGTACATATTATTCTATGTGTT
TATAATATAATATTTTCCCAAATGACTTCTTGTTTCACTTTGCCTTCCACAACCTGAATGCCAGATTGGTTTTTTCCCTTCCTGGCCCCCAGCACAAGCT
GCCATGACTCCCCCTCAGAAAACACAGCCCCTCCTCTACCATTCTCAGTGATGTCCATCTGCTCCACTCCGCAGCCACTTTCTAGGGCCCAAGTTTTGGT
AGCAGAAGGAAAGGCAGTTTTTGAGGGTCTTTCGAAAAAAAGAAGACGGGGCAGCTTTGCCCAGAGCTCGTTGGCAGTCTGTTTGTATTTCAGTGTCTAA
CCAGAAGTCCTTTCTTTGCGGACCGCACTCTCGTTCCCACTTTCAAGCTAATTACCACCAAGGCTGGGAGAGGCAAGGACTGGGGGCGGAGCTAGGAATA
ACTCGTTTGAGAAGGGGGTGGAGTTTTCGTTGTTCATTTCCATGTTCAGTTCTGTGACGTGACGATGACAGATCACCACTGCAGGATCCCCCTCACCTTT
CCTGTTCAGAATTAAAACTCTCCCTTGATGAGAAACAGCCAGCTGAGGGAGGCCCACGAGCGGCCTGTGTAACCCCATGGGTGATCTGGACACATCTGCA
CCCCCGCGTTCAGCTTCGCGGAGACTGAACTTGGCGGGGAGTGGAGGGGTGTGGTGCAGACCTGGCTGCAGCAGAAACACCCCGCAGGGACAGTACTCTG
TGATTCTGACCTCAGGTGCTGGGACGGGCAGATGGTTTGCCCCGCCCAGCACCCCAGTCCTGGTCCCTGGTCCCTCTCTCTGTTTCATCCCAGGAAATGA
GCAGCTCGAGGGTGAGCAAGTGACAAGTTCCTGAGTCACTGGCCCCAAAACCAGGTGCAGTGTCCTGTCTCCCAAGTGTGTGCACAATGTATATATGCAC
TGGAAAGGAGGGAGAAGGCAGCGGGTCACTCGCCAATCGCAGGGTTCTCAGACACAGGAGAGAGCGGGATCTTAATGAATTGCATTTCCTGCAGAGCCTC
TAGTGCACAGGCCAGTTCTCGGCAGTGGCTTTTCAGCACAAGGGCCTTGCATTGAAGCTCCCTCTTCTGAGATTTCACCCAGCCTGATGAGGCCTGCATG
GTTCCGGCCTCGTCATCCAGTGTAGATACCAGTCTTCCTATTTTTGTGACATCTGCACATTTGGGGTCATTCCCTATATCTGCATAGGAGCTATTGCTAA
CCTTGTTAGGGAGAAACATGGTCTAATGAGAAAGACAGACCCCTAGGCTCAGCTGGCCCTGCCATCCTTCCAGAGGATTCCTCTGCAACTCTAGGCAAGC
ACCCAGCTTCCTGGGCTCTTTTTCCTCATCTGTGAAACTTGCAGGGTGCAGTGAGGTTTCAAACCAGTGTGATAAGTGTTGGCCTCACACCTGGCCCAGG
GGATGCTGGGAGAACAGGAGCACTTGTTAATAACAGAAACACTGATGGGACCGAAGCCAGTGCACACACCAGGAAACCTGCCCGTGGCTGACACTGTCCT
CCAGCCTGCATTCTGGGGAGGCTGTGATGGGCACGTTTGCCAACCCCCCCCCCCCAGTAGAGCCCAGGACCCTCCTCTCTCAGCTTGCCAGTGCCCTGCC
CTCCACATGGCGGGGAACAGCATCAATGAGGTCCTTGCTCCCTGAGAGCCTCTCTGGAACCTGCCCACTTTTCTCAACATGTATATTCTGCTTTGTAGTC
TGAGGTTGATTTTCTAGAGGCGAGGAAGGGGCTGAGTTCTGCCCTCGTGCTGTTCGCTGGTGCTGATCAGGGCCAAGACGACCCTTCCCTCTCCCCCACA
GCCTGTTGAGGTGCCGTTGACGTGGACAGCGCCCCTCCCTTAAGATGCCCCCTTGCCGTTGCCATGAGCCGCTGTGACTCACGCGTGCACTGGGCCTTGC
TTGGTGCTCCCCTCCTCCTCCTGTCTGAGATCGGAGCTTGCTGGAGAGCACCCCAGGTCGCCGTGCTTGGCTGCAGGCCCGTCCCTCTCTCCCCATCCTC
GGGTTCCCAGCGTGTTTTGTGCTTGAACTTGGTGGACTCATCTTACCCCACAAGAGTGGCCTGCTCAACCTGCAGCCTCCAATGTGCCGTAGGCGCTCCA
GGTCCCCGTGGCGCCCAGGACACCAACTCTCCCTCCCTGCACTTAGGATGTTCTGGAAATGAGGGGAAATCCACATTCCTGCCCCAGGAGGTGGGAAGCC
TGGCAACGATGTAGCTTCCCCTGAGATGCGGTATGATCAGGCCTCAGCAACTACTCAGGAGGCAAAGGTGTTTGGAAAGCAAACCCCAAACCTCCCGGCA
CGGCATGTGCTCTGCTTCCGTCCCTCACCGCCTGCACAAGGTCGTTGAGACTTTTCTAGAACTCCCCGGGGTTGTATTTATGGCCTTCAAGCAAACAAAT
TGAAAAGCAGTCAAGGAGGAGTTCAGATAGAAAAGTGCTGGAGATACACATCTTTCCTTCAAAGGAAATGTAATTTATTTCCAACCGCTGCCTCAGACGG
GGGTTTCACATGTTGTGAAGTCACATCTTGAATGACTGTCACCCTCATCCTTCCCCAAAAAGCTAAATAAGGGCCTTTGGCATCAATGCGTGCATTCTCC
ACCTTTCCGCGGCTTGCGCTTGGATTTCTGAGTGGCTTTCTTCAGGGAGCCCTTGTGGTCATGTGTCTTTAATGCTGCTCCCCATGCCCCCAGGCCAGGC
CAGCACGCTCAGGTGATAGCGAGTGGGGCCAGGAGACCCCCCTGCCCTGCCCAGTGGACAGATCTGCCCCAGCCCTGCTGTGGGGACGGGCCCTCTATCA
TTTAACCACATACATTAGGTTGCTTTTCAGCAAAATGTCAGCTTTCCTCCCATTATGCAGGAGAGAGAAGGGGCGCAGGTGTATCTCCTTAGAGTACACC
TTGGAGCTGGATCACTAAGAAACAGTCCTCAGACTGGTCCTTCCGACACAGGCAGAGAGTGAACTGGATCGCTGGCCCCTGGGATGCTGCGCTGTCTGTG
ATTAGAGAGAAGTGGCCAGTGTCCCGTCTGTGATTAGACAGAAACCCCTGTGGCAGACTCCTCCCCTCTCCATGAAGAAAGAAATATTTACTTAGATATT
ACTGTTTCAAAACACAAACTTTATTCCCCTTAGAGAAGAAATACTGCCCTTAAATAGACTGTTGAAATATTAATGGCCCCCCCATTTAATCAGTGTGTCT
GCGGCTTTCTTCGCGTCACATGTCCGCATTGGCAGGTGATTCTGGAAAGGGATTCTGGGAAACCAACAAGTCTTTTTTAAATCTTTGAGTTGTATGAGAA
AGTATTTAAGTTCACCAGTGTAGTAAACACCCACCCCAGAGCAGCGGTAAGCAAACCTAAATCTGAAAACCCATTCTTACTGTCTTTCACCATGAGATGC
TGGTTTTGGTGTAAAATGACAGCACTTGGTTTGGGGTTTTGCACCTGTTGGGTAGAACTGTTCTTGTCTGAGGTCCTCACCCTCTACAGATGGGCCTCAG
GGCCTGGAGGTGGGCAGATGGGGCCAGAGTGGCCAGCAGAGACTTGCATGGGCTCTGAAAGCCCCAGAGCTCAGGCCTAAGGCTGCTAGGTGAGACCAGC
AGGCAGCTGTGGCATCCGACCTTGGGACGCCCAAGCTGGGCAGCCGCTCCATGTGCCCCAAACAGGATATCCTCATGAATGTGAGGAGAGGCTGGCTCAG
GGCTTGGTTTTCATTTTGGCCTGGCACAGGGTACCTGTAGGGAGCACTCCCCCAACCTGAGGATGGTGAAACCATATGATAGAGACTCCTTGTCGAAGTC
CACATCGGACTGATCTAGAATGCCCCGTGGGGGGATTGCATGGCCTTTGCCTTGAGATGCAGGTGAAAGAAAGGAACCAAACAAGGCATGAGTGTGTTGG
GGAATCTTCCCAGTGGAGCAAACCCCCTTAACACACCAGCTGTTGGGAACAGCTGCCCCTAAATCCAATTAAACCCTCATCTCCCTGGTGCTGAACAGTC
TACACTGGCCCAGGAAGCTAACGTCTGAGCCGCTTGGAGAGCTTTGGTAAACAGAAGACACTGGAAGCCCACTCGGTCAGCAGCTGGGCATGAGGATGTC
AGGGGCCTTTGGACTTGAGGAAGGACAGTCCAGGTGCATGGAATCCTAATGGGCCTCATGCAGACACTGGAAGCAGCCCAGCCCCCTGCCCAATACCACA
GCCCTGGGGTGTCCCCTGACATTCCTGGAGGTCCCTGGGCAAATGCATTTCCTGCCTGGGTTCTCAGGGTAGGAGAACAGAGAAGGCTCCAAGGGTGTTG
GGAGTGAGCCAGGGGCTGGTCTGGGGAGTGGGTCTCACGCACTGCTCAGGTTGGCACGAGGGACCTCCCCCATCCCAACCCAGCCCCAAGGGTCCCAGCA
GGGCTCTCAGCATGGCTGTTTTGAGGGTACACAGGTGGCTGGAGAGGGGTGGGGCAGTTGCATGGTGGGTGGCAAAGTGTGCATTTAGAAGCTGCTTCGT
GGCGTTAAGAACGGGGGGAGAGGGACCAGCACTGTAACGTTAGAAATAATTCCTTCTTGCAGACTTGAAAAGCATCAGTTTCCCTCCCACGGCTGGGTTT
TTGTGTCTGAAATACATCTAATTCTCCAGACTGCAGCCCCTCTCAGCCCCGAGCACCTGAGCGCTGGGGAGGCCCTTATTGAGCTCAGCCTGGAGAGGGG
AGGGTCGCACGGGTCCCGGGGGCAGGTCTCCTGCACTGGCTCTTCCCTTCTGCCAGCTTGGAATTTGGTTCTCATCTTGCCACAGGGGTGCGTTTCCTAA
AGGGCAGCCGGAGCAGCTCAAAGGTGACAACTGAGATGCATTTCTAGGCA


SNP Information

Context             (SEQ ID NO:20458):
TGTATGATTTAAATCTGAAAGATGTGAAAGGAGAAGAGAAATCTTAAAGGAGGAAAAAAAAAGAAGTGGACTTGAAATGTTTTATGAAAGCTTTGCATCC
R
GTAAGTCAATTAGAAGAGTGGTGTAGGTTGTCCTGGGACAGCCCCGAGCTTAGGAAACCCCCGTGTTTAATAAGAGCACGTAAGCAAGCCTGTCCAAAGT
Celera SNP ID:            hCV29368420
SNP Position Genomic:     435785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20459):
GGAGAAGAGAAATCTTAAAGGAGGAAAAAAAAAGAAGTGGACTTGAAATGTTTTATGAAAGCTTTGCATCCAGTAAGTCAATTAGAAGAGTGGTGTAGGT
Y
GTCCTGGGACAGCCCCGAGCTTAGGAAACCCCCGTGTTTAATAAGAGCACGTAAGCAAGCCTGTCCAAAGTTTGCCGTGGAGAGTGACATTTACTGTCCC
Celera SNP ID:            hCV29368421
SNP Position Genomic:     435814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20460):
CCCTGTCTCACCAGTCTGTTCATTCTGTCAACATCCCTTGCAAGATACTACCTTAAGTCTAAGGTAGTATCTTAAGGTAGTATCTTAGGTAGACTTAAGG
Y
AGTATCTCCCCTTTCCATCTATTCTTTATCTAGATGGGCCTAATTCCAAAGTCTAAAAGCTGCAGTGTCCCCTGGAGCCTCTCCTGTACCTTCCAGCAGC
Celera SNP ID:            hCV29368422
SNP Position Genomic:     436059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20461):
TGCAGTGTCCCCTGGAGCCTCTCCTGTACCTTCCAGCAGCGGTGGGCTCCCTGACCCTCATACTTTCTGGCTGCTCTTGTGTTACTCTGCCTTGCGTTTG
R
GCCACATGTGGATCTGCTGTATACCTTCTACTAGACTAGATTGTAGGTTCCCTAAGACAGGGACTCCTTCCTTCATTGTGCCCAATGCAGTAGGGGCTCA
Celera SNP ID:            hCV29368423
SNP Position Genomic:     436220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20462):
AAAAGTGTTCAAAACTCCTGTGTGGTAACACATAGGGCAGGTATTGCTTGATGCTTACATAACAAAACTGGATGCCAGGACAGCATTAGTAGGTCAATTA
R
TTAATGACATTCATTCAAGAACAGAAATGAGATTACATATTAGACTCTGTATGCATATCTGTATCAAAAAATGCATGAGAAAGTATGACACTATAATTGG
Celera SNP ID:            hCV29368424
SNP Position Genomic:     437995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20463):
GGCTCAGGTCGTGGACCACTGGTTTGCCTCAGAGTTTAAGCAGATGTCTTCATGCATTTACGTTGAAAGGCAGGTACTGTGTTTGGATCCCAGAAACAAT
R
TTTCTGACCCTGTGTAATTTTTTTTAGTCAAATATGTTTCTGCATTATCACACAAAATACTTTTGTTTTCTTTTGTTGGTTTTTCTGAAAGAAAATTTAA
Celera SNP ID:            hCV29368425
SNP Position Genomic:     438387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20464):
ACCACTGGTTTGCCTCAGAGTTTAAGCAGATGTCTTCATGCATTTACGTTGAAAGGCAGGTACTGTGTTTGGATCCCAGAAACAATATTTCTGACCCTGT
R
TAATTTTTTTTAGTCAAATATGTTTCTGCATTATCACACAAAATACTTTTGTTTTCTTTTGTTGGTTTTTCTGAAAGAAAATTTAAGTGATCTCAAATAT
Celera SNP ID:            hCV29368426
SNP Position Genomic:     438401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20465):
TCGGAAATGTTTTGCTTATGGAATGAGCCTCCTCCTCCGCATATTTTTGGAAGGTCCTGACCAGAGGTCAAGAGTGAGGTGGGTTGAGTGCAGTGGGGTG
K
GGGGAGGCAGGTGTGAGCCTGGGCAACCCCGGAACCCACTCAGATCCTTCAGACAGATCCAGAGAGAGAGGCTGTCAGCTCTTTGTTCATAAACACAGGC
Celera SNP ID:            hCV29368427
SNP Position Genomic:     438650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20466):
AAGTCTTCTTTATTGAAACTCAAAAGGTAAAATGATTCTGTCTTGGAGACCCCTCCTTACAATGAGGATGTAATCAGAGGTACCACATCCAGAGCCCTTA
R
AGTTTGAGTAGCAGGTAGGCTGAGGTATGACCCTGTGATGGTGAAAATCATGTTAAGGTCGAGGCCACAGAGGGTGCTCAGGTGTATTTTAAAGTATCCT
Celera SNP ID:            hCV11936117
SNP Position Genomic:     179725
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20467):
TTCATTTTCTAAGTGATGCCAGAAACCACCAATTTTTAAATGAAATCTCCCAATTTAATTCTACTTTGAAAAAAATGATCAACTAAGTAAAAATGTCTCT
R
TGAGCTCAGCCTGGACGTCAGGCGATAGTCTGTGGATCTGATTGAAAGTTTCACCTTTATCACGGTTTGTCCATGTATACACCTTGATGTGGCCCAAATT
Celera SNP ID:            hCV29368428
SNP Position Genomic:     438869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20468):
GCATCTCAGTGGATTGGACTTGTCCTTGTATTTTGATGGACAGACAGAAGTTTGAAAACCAGTACATTCACAGCAGCATTCACAGCAGAGTCCTGTTGTT
K
CCTAGTGTGTAGGCTTGAAGGAATCTCTCCCTTCCTTTTTGGCAGTGTGATGTTTGGCCATGAGATGAAGAACTCATAAACCTAAGATGAGTTCTTGATC
Celera SNP ID:            hCV29368429
SNP Position Genomic:     439330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20469):
CGGAGTCCTTTCGCCCACCATAACAGTGTCAGCAGTGTCTGGAAGCCTTTTGTCTGCTCAGAATTCACGTGATGAAAGCGGAACCAGGCCAGGGAAGCCC
S
GGCAGCCACTCTTGGGAGGCGCCTCCTCCCCAAACGCACCTTCGATGGGTGGATGTGTGGGATTGAGAGAGAGAAGGGGAAGAGAAGCACACAGGACAGT
Celera SNP ID:            hCV9078812
SNP Position Genomic:     440112
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20470):
CTCTATGCAGTCCACGGGCACACTGAGTTCTCATTTGCCCGGTTGGAACAGCTGATGGTTAGTTCTCAGCGTGATCACCGTGGTCAGATGGGCGCCCCAT
R
TGGTGCCTTGTGGGAGAAAAGTTCCAGGTTTTCTTTAGCTACTTCCACAGGTACACAGAGGTGTGCTGGCCATGGGGTTTGTGTCTCTGCATGTTCTTCC
Celera SNP ID:            hCV27516670
SNP Position Genomic:     346021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20471):
CAGTGGTGTGATGTCGGCCCACGGCAGCCTCTGCCTCCTAGGCTCAAGCGATCCTCCCACCTCAGCCTCCTGCATAGCTGGGACCACAGGCATATGCCAC
R
TGCCCAGCTAATTTTTTTAAAATGTGTTTTTTTCTAGAGACAGGGTCTCCCAGTATTGCTCAGGCTAGTCTTGAACTCCTGGGCTGAAGTGAACCACCGC
Celera SNP ID:            hCV9087490
SNP Position Genomic:     635097
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20472):
GAAAACTCATTGAAAGGAAATACACTAATTCACAAAGGTTATCTCTAAGTAGTAAGATTATGGGTGATTTTTTTTCTTCTTGAGCTGTTATGTGTTATTT
R
TGTATTTCCTATAATGAAAATTCTGAGATCAAAACAATGATTTTCTTTGTGCAATTGGAAAGTCAAAATAGAAACAGCAAAACTAAAGTTATCTTTGATT
Celera SNP ID:            hCV9087491
SNP Position Genomic:     635439
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20473):
AAAGGAAATACACTAATTCACAAAGGTTATCTCTAAGTAGTAAGATTATGGGTGATTTTTTTTCTTCTTGAGCTGTTATGTGTTATTTGTGTATTTCCTA
Y
AATGAAAATTCTGAGATCAAAACAATGATTTTCTTTGTGCAATTGGAAAGTCAAAATAGAAACAGCAAAACTAAAGTTATCTTTGATTCCTTAATGTTGC
Celera SNP ID:            hCV9087495
SNP Position Genomic:     635451
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20474):
GTCCTGGCACCCCAGCCAGTTGTGTAGCTGGCCCCGCTGTCCAAGCACAAGCCACATGCAAGGGCTGAGAGAAAGCTTCCCTGCCCCCTCCCTCCATCAC
R
TCCCCCATGATACTAATGTGGGCTCCCTTACCTCCGCAGTACGGAGTGGACGTCACGGCCCGAGATGCCCACGGGAACACAGCTCTGGCCTACGCCCGGC
Celera SNP ID:            hCV9087497
SNP Position Genomic:     635748
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,27|G,9)   total(A,37|G,35)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20475):
CCCCACTTTGTCCCATGATACAGCTGCTCTGTTGAGCATGTGTGTCCCACAGAGTGCGGAGTGTCTGAGGTGCATCATCTCAGTTCGTCCTGCAGCGATC
Y
TGTACACAGACGCACTGCTGAGGCCAGAAAGCTTAGGACACTTGTGCGAGAGCGGTGAGCTGGGCCCGTCCGACCTCACCTCTGGCCCTCTGTCGCCGTG
Celera SNP ID:            hCV16191708
SNP Position Genomic:     10994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20476):
TGCATTCCTGGCTGGCAGATAGAGGACCACCCAGCTGTGCTTGATGGGGTCTAGAAGCATTGAAACTGGTTTGCCGTTATGATGTCCATGAGGTTGGAGT
M
CTTTCTTAGTTAAAAAATCTGAAGACCCAACAACACACAGCACCCCCACGCTGAACCCTCCCGAGAATGATTGAGCTCTTCCAAATAAAGGGCGATTTTG
Celera SNP ID:            hCV11530060
SNP Position Genomic:     25840
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20477):
CCTAGAGGGTGGTGTGAACTCATGTGATGTGAACGATTACTTATAGTTACCGTGAAAATTAATGGTGGGTTTTATAGTTGGAATGCTTTTTCTACACTTA
Y
TTGATTTTTGTCTATCTGTTTAGAGAAGTGTTTTTTCTGTTGTTGTTGTTTTTTAAACTTGAGATGGAGTCTGGCTCTGTCACCCAGGCTGGAGTGCAGT
Celera SNP ID:            hCV16191709
SNP Position Genomic:     21140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20478):
TGTCAGAATTTGAGACTAAGAGTATTGAGTGATAATTCATTTCTCACCTCTCTGGAAGAAGGTGTAATAAGCATAGAAAATACAGAATTTTCTATATACT
S
ATATAACACATATTTTCTTGTGTGTATGTGTATATGTGTTGTGTGTGCATAGTGAACAAAGGCAGAAGAAACATTTAGGCTTGAATTTTTTGAGCTAAGT
Celera SNP ID:            hCV11530064
SNP Position Genomic:     31521
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,10)   total(G,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20479):
TTTATGGAGGGCTTTGGCGCTCTGTTAAGCACTTGAGTATTATCTCAGTGAACCCTCGCAACAGTATCATGAAGCTAGAACTGTTTTTAAAGATGTGGAC
R
TGGGGACCCTGAGTGACTGAATGACAGGCCCCCAGTGTGCAACTCGGAGGAGAGTGGAGGCACTCTGATTTCGAGGCTTATTCCCTGACCAAGAGAAAGT
Celera SNP ID:            hCV175667
SNP Position Genomic:     410622
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20480):
AAACCATGGCTTATGACCCTTACCCTGAGCATCAGTGACAGGGGAACCAAGAGTCGTGTGAGGTCCCAGGGTGCACAGTGGACATTTCAGTGTGAAGGGC
R
GGTCGGGTGCCCCAGCTTCCACGCTTTCCAGCCTGGATTGTGGCATCTTGGATGTGAGGCCACAGACCAAGCTCACAGGGATGAGAGATGGTCCGTGTGG
Celera SNP ID:            hCV29368430
SNP Position Genomic:     208347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20481):
TGTGGCATCTTGGATGTGAGGCCACAGACCAAGCTCACAGGGATGAGAGATGGTCCGTGTGGGTCAGCCGGCTCAACAGACCTTCTCCCAGGAGGCTGAT
K
AGATTTGCTGAGCATTACAACCTGATGGGCAGGATTTGTTTTAATCATGTAACACAATCACAAAATTAGTAGTGGCACCATGCTATCGCTGCCCCTTTCC
Celera SNP ID:            hCV29368431
SNP Position Genomic:     208486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20482):
ACTCTGAAGCAGCCCAGCAGCATGTACAGCACTTGCTTTCCTTTGAGAGGCCCTCCATTGTTCCCGCCCTGCCAACTTCCACGCCAGCCTCCTTTTGCAA
R
TCCACCTGCCGTTCTGGGCTTGCCCTGGGGAAGGCCCTGGAGCTGGATTCCCACACCCTGCCGAGTTTGTGCGTTTCTGTGAATCTGATGAGTGGGTTGT
Celera SNP ID:            hCV11936120
SNP Position Genomic:     170731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20483):
GGGGGGACCAATACCTAGTGGACTGTCTGTGTCTGTCACCCCTGTGCCTGGGAGGGGTGACCCTTGGCTTCACAGACTGTGCTCCCTTCACCTTGCCCCA
Y
GGACCCTCCCCCAACCAATTTCTTAGTCTGCTCTTGTGGCGAAAATTCAGCAACAGTAAGGAGTGAGTTAATTCTGATTGCTCTTTCTGTGGTAATCTTC
Celera SNP ID:            hCV29368432
SNP Position Genomic:     209463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20484):
GGAAGCCTCTGGACTTCCTCCTCAGAGACGGGAGATCTTGTCTCTCTCAATCCTGAGTTAGTCTCCACTTTATAGCTGTTACTTCAGTTGTAGGGCACTG
R
GTAGCCCTGGAGTTGAGTTGTTCAATGCATGACCTTGTTTATGTCGCTATTTGAGTTTTTACTGAGAAAAAGGCCTTCTGTGAATCCAAATGTGACTATT
Celera SNP ID:            hCV11936121
SNP Position Genomic:     168878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20485):
TCTCTCCTCTGGGCTTCTCTGAAGACACACACAGGTTTTTCCTGCTGCTCTCTGGCTGCCCCCTGTGTCATCCTCCTTTACCAGCAGACCTCAGACGATA
S
ATGTGGCCCAGAACTCAGCTCTCTCCTGTCCTCCCTGCACTCCTCTTGAAATAGGCCTGACCATTCCTCTAGACTCAGAAGATACCCAAATTCACATCCC
Celera SNP ID:            hCV29368433
SNP Position Genomic:     451701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20486):
TGAGTACCAGTCCACGTCCCTGCGGTTGGGGACCCCTGTTTTAATATACATCTCCACCCAAACTGCAGTAAGACAAATAGCTGTCTACTCTTACATCTCA
K
GAAAAAAAAATGGCTGTGAATTTAACCTACGGATTTTGTTTTTTCTTGCAGTTTCTGACTTGTACCTTTTCATAAAATATCCCTATTCAACATTTTCACT
Celera SNP ID:            hCV29368434
SNP Position Genomic:     210321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20487):
GTCTTTGTAGCGCTAGAGATGGGTCCTCAGCTGGCCATGATAGAGAAGGATGGGCAGAGGCGGGTGTTTGAGACTTGGAGGGGACAGTGGGGGCACAGCA
S
CCAGGCAGAGGCATGTGTCAGGGCAGAGTGAGAATGCTAGGATCCTGGCCCCCATCCTCCCACTTGCCACACAGTCAAGAAAATGACAGGTGTACGGGAA
Celera SNP ID:            hCV29368435
SNP Position Genomic:     460601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20488):
TTGCAGGGTTGGTTTAAGATTGCCATGACCACATATTAATAGTTGCACTGAGAAACAGGCGTAAACAGAGGTTGTCCCGGGAAAGGCAGAATGAATGTCA
Y
CCACCCTGGGGAAGGTGGCTCGTGTCACTACCCTTTGCTACAGCTGTTGTTTCTCACTGATTCATTCTCGGGAATCGCTTGTTGTCTGTTGGTACAAAAT
Celera SNP ID:            hCV29368436
SNP Position Genomic:     463482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20489):
TCTCCCATTTAACAGGTGCAATGCAGTAGTTTTTAGTATCTCACAGATACCTGCAACCATCACCACAGTCAATCTCAGAACATTTTCATCGTCTCAAAAA
R
GAAACTCTGTTCTTGAATTGGTGGTCAGAATATGTACTTTTTTCTTTGTAAGGCTTTATAAACATATTTCAGTAATCAAGGTCCTCATCTCAATGGAAGA
Celera SNP ID:            hCV29368437
SNP Position Genomic:     468996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20490):
TGAATGTGCGGGATGGTGCCGGCCCATCCCGGCTCAGCGCCGCGCAGCTCGGGACCCCAGTCCCTCCGTCAGAGCCGGTTTAGATGTGGAGTAATGAGGC
R
CTCGCTTTTTTAATTTGGCATGGCTTTTTTCTCTTAGCCTCTCCCCTCCCATACTTAACGCCGTCGACAGTAGTCGTCTGTCCCGGTGCCCGGTAATTGA
Celera SNP ID:            hCV29368438
SNP Position Genomic:     470963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20491):
CCAGGTGGGATTCTGAATTCAGTTGTTAAAGGGCTGCTTTGTGTGCACATAGAAAAGGAAACAGATGTATTTGAACAGAGGTAGTTTATTAAAGAGAATG
R
ATAGACATCAAATAGATGGCCCTTTATCGTTTTCAGTTGTCAAAAATACGTGTGAGTTGGGTACCATATAGCCCTCAGCAGAGTATTTGACAAGATTTTT
Celera SNP ID:            hCV29368439
SNP Position Genomic:     475323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20492):
TGCTTCCTGTGGTGGGAGAAGGTGAGGGAGAGGAGATGCTCTCATCCTGAGTGTCCTGGACGAGATGGGCCAGACCATTCTACCCACACTCCCATTTGCC
R
GACCTCAGCCACCTCCCCCAGCCAGCCCCAGGGGTGTTGGGGGCATCTTTCGAGTCTCACTGCCCACGCTGTGGGAGCTGAGACTGGATGCTGTTCTGGA
Celera SNP ID:            hCV27521500
SNP Position Genomic:     244733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20493):
GAGACATGCCGGTCTCTGCCCTGTGGAACTGGTGGCCGTGTGTTCACGTGACTTGAGAGCTCCATCTGCCCTGTCTGGTCTTCCCCGAAGAGTGATCCCC
R
CCTGGAGAGGCTTAGAGCCCAGGAAGCTGAAGCGAGGAGAGGCTGTGTGACTCCGGCCGTTGTGGTGGGTGCTCATCTGCGTCAGTTACATCTTGTGCAG
Celera SNP ID:            hCV16272701
SNP Position Genomic:     283449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20494):
GTGTAGGGCTCGTACACTACGCTTCAGCTCGTGGTTCCGTGGCTTCCCAGTGCTGCACGGGATCGCAGTGAGGCCGCTTGTTTGAGGGGAGACCTGGTTC
Y
TGCCTCTGGCTTCTCATCCATATCACCGGAGTGCTTTTGAAAATGCATCTTTTCCCAAGCCCCATTCCCAGAGCTTCTGAATCAAAATCTGTATTTTTTG
Celera SNP ID:            hCV9078823
SNP Position Genomic:     441529
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20495):
CTTGTTCAGTGTTTCCTTGTAATTTTGCGGAAAAAAGTCTGCTTAGTGTTGAACCAGACATTCTGCAGCCTTTAAAAGAGAATGGAAATGGAGAGATTGT
R
ATGTGTTCATTGGTGACTTTTGACACGGATGCTAACCTGTAAGATGTGCAGATATATCATGTGCAAACTGTTAAGATGCTGTCAACATTTTGAATGACTT
Celera SNP ID:            hCV16191710
SNP Position Genomic:     27669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20496):
CTTCAGCTCGTGGTTCCGTGGCTTCCCAGTGCTGCACGGGATCGCAGTGAGGCCGCTTGTTTGAGGGGAGACCTGGTTCCTGCCTCTGGCTTCTCATCCA
Y
ATCACCGGAGTGCTTTTGAAAATGCATCTTTTCCCAAGCCCCATTCCCAGAGCTTCTGAATCAAAATCTGTATTTTTTGAAGCCACTAGTTCTAAAAAGC
Celera SNP ID:            hCV9078824
SNP Position Genomic:     441550
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20497):
TCTATCATCTGCTAAAAATTCTTCTTTGAACCTTAGGAGGAGCATGTTCCTGTTCTCTCCACACAGAAGAAGGGAAATTGGGTCCAAAAATCTATTCACT
S
TTTACATAATGAGCGTAAATGGTCACTGCAATGCCACCGAAGTGTAAACACGGATTAAACACGGATTAAATCTTGAGATTTGCTAGGTGTTGACCTAATA
Celera SNP ID:            hCV11533553
SNP Position Genomic:     537416
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20498):
ACCACACGTGGGCACAGCTGGGAGCAGGGCACCCCCAGGAACCCACGGACCTGCCACAGGATGCAGCCAGGGTGACCTAAGGCATGTGGGCGTGCAAAGA
Y
GACGGGCGTGGCTTTTCAACTGGAGACATGCCGGTCTCTGCCCTGTGGAACTGGTGGCCGTGTGTTCACGTGACTTGAGAGCTCCATCTGCCCTGTCTGG
Celera SNP ID:            hCV16272708
SNP Position Genomic:     283326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20499):
TCAGGTGCACCTGAGGAGCCTTGGGGCCACTCTGGGGCTCCCACCACACGTGGGCACAGCTGGGAGCAGGGCACCCCCAGGAACCCACGGACCTGCCACA
S
GATGCAGCCAGGGTGACCTAAGGCATGTGGGCGTGCAAAGATGACGGGCGTGGCTTTTCAACTGGAGACATGCCGGTCTCTGCCCTGTGGAACTGGTGGC
Celera SNP ID:            hCV16272709
SNP Position Genomic:     283284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20500):
GCTCAGATGGGTTCTCTTTCACACTGAATCACTGCTCTTGTTTGTATGAGGCAGGCATGGGCGCCAGACTCAAGCCCAGATCTTAACTCAGGTGGTCTTG
K
TTCAGTCCCACATCCCCACTTCATAGCTCTAACCTTGGGTTCTTGATGTGTCTTCTCTGTACCTCAGTTTCCCCACCTATAAACTGGGGTGATGACACCC
Celera SNP ID:            hCV11533557
SNP Position Genomic:     531936
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20501):
GGTGAGAGCAGATTGTCACCATTTCAGAGAAATTTGAACCAATCAGAAAGAGAGCTCAGGAGTACTGGGGTGACTGAGATGAGCACATGTGGCTTCTTGA
R
GACCTTCCAACCCCCAAGTTATTCTTAGAAAGCTGCACACAAGCCAGGCAGCTGTAGGCTGGCGTTGAAAAGTTTTTAGCTTTAGCTAATTACATTGTGG
Celera SNP ID:            hCV27965386
SNP Position Genomic:     159669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20502):
TCTTTTAAGTGCTTTGGATGTTATAAAAAATACACTGTGCCATTAATGCTCGTGCAGGGCTCCCGGCCGGCCTAGGCCCTCTGCACTTGAGATTCCTCTG
K
CAGCATCTGTTTAGAACTGGGCACTCCTGGTTCTGGTCAAGTTTATCCTGACCAGTTCATTTCATGGCAGTTCTGGTCATTTTTGAGAAAATCTAGTTTG
Celera SNP ID:            hCV1035006
SNP Position Genomic:     24946
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,9)      total(G,9|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20503):
CAGTTGTTAAAGGGCTGCTTTGTGTGCACATAGAAAAGGAAACAGATGTATTTGAACAGAGGTAGTTTATTAAAGAGAATGAATAGACATCAAATAGATG
K
CCCTTTATCGTTTTCAGTTGTCAAAAATACGTGTGAGTTGGGTACCATATAGCCCTCAGCAGAGTATTTGACAAGATTTTTCCTTGGTTTCCTCATAGGC
Celera SNP ID:            hCV29368440
SNP Position Genomic:     475342
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20504):
CCACCCTGTTCACCATCTTTTTCATTGATGTGGATGGATATATGGGAGTATATGCTCAGAACGGTCAAGCATAACTAAGGCGATAGTGAAGAGTAACAAC
R
CATAGGCTTAGAACACAGAGACATAGAGTGGTGGCCTGGAATAGAGAGCCTAGCGGTAGACCTACCACGCCCCTGTGGAAGCCTGTCGTGTGGACGGCAT
Celera SNP ID:            hCV29368441
SNP Position Genomic:     475663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20505):
CCCCTGTGGAAGCCTGTCGTGTGGACGGCATAGCTAATGTGTGTGTTCTGAGTGTCTTCGAAATAGCGGTGTACACTCATAAAAACAACCGCTGGATAAC
R
GAAGAGAGTTTATGATATAATGCACCTACTGTAGGCTCAGCATTGCACAAGTCACCACAGGGGAGGCGAGCACTGGTGGTTGCCCTGGGCACAGGCATGC
Celera SNP ID:            hCV29368442
SNP Position Genomic:     475833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20506):
TCGGTGTTGGGGGAACGGCCTGTTTCTGTAGCTTGGGATGAACTTCTTCCCTGCATCTGTGAACAAGCTTGTACTCAGCCTGTAGGTTAACAAGCTGGGG
Y
CAGAAGGCTGTACTGCACTGGACCCAAAACCTGCCCTAGGAAGATGCTTGCAACAAAACTTGTTATCACCTTGGTTTATAACAGTGAGATGGAAACGGGA
Celera SNP ID:            hCV29368443
SNP Position Genomic:     211924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20507):
GGTGGGCAGCCTGTACCCTCCACGCCCCTAAGGTGCACACACAGGGGCGGGCGCCAGATTCCCTTTAAGGACAGGCCTTGTTCTCACTTTCACAGGCACG
Y
GTCTTCTTGCATTTGTTGTGTGTTTCCAACCGAGGTCTGTGGTTTTTTCTTATGCACAACCTGGTGGGAACTGACCGTTGCCACTTAGATACACGTTCAT
Celera SNP ID:            hCV29368444
SNP Position Genomic:     482429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20508):
GGGAACTGACCGTTGCCACTTAGATACACGTTCATTATCCCACCCACGTGTTGACCGCTGTGTAAATGAGTGAATAAATCAGTAGCGTTTCTGCACATTT
R
ATGGAGCAGCTGGCACCACCCAGTGTTCCATTCAGCACCGGTGAGTTTGAAGGAAGTTTGACAAGTGACCGTGACCACGTTGGACGCCTGATGTTTCAGG
Celera SNP ID:            hCV29368445
SNP Position Genomic:     482595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20509):
TCAGCACCGGTGAGTTTGAAGGAAGTTTGACAAGTGACCGTGACCACGTTGGACGCCTGATGTTTCAGGTCCACTTGCTGAGTGAGTGGGATGGTATGTG
Y
GTGCGAGGCAATAGTGGATACCCAGGCTGAGACACGGGCTCTGTCCAAGCAGCAAATGGGGGCCCCTTTCCTTAAAGGGTCTTACTGCTGAGGTGGTAAC
Celera SNP ID:            hCV29368446
SNP Position Genomic:     482727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20510):
GGTCAGTAGAATCCATTAAACTCAGCTGATGAATCTGGAATGGGATGGGGCTCCCCGGCTGGTTCGCCGAGGAGTCTTCCTGGGCCTGTCTGCAGAGATG
Y
GGGGAGAAAGTGGGTTTGGTGTAGAACCCGGGGTGTAACGGGGTGAGGAGAGGGCAACTATTTGGGAAAGCTTCCAGCTAGGAGCTGTGGCCTTCAAGAA
Celera SNP ID:            hCV29368447
SNP Position Genomic:     484333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20511):
GGGTGAGGAGAGGGCAACTATTTGGGAAAGCTTCCAGCTAGGAGCTGTGGCCTTCAAGAAAGAGACCTGTCCGGCTGTGGTGACCGGGAAGGTGAGGGTG
W
CCTCACTCTTCTCCCTCCCACTGGTCTCCAGTGGCCCCTCCTTGGCCAAATCCAACCAGAGGCCAAAAGCCCTGAGAGCCCACGATGCCAGTCACACAGT
Celera SNP ID:            hCV29368448
SNP Position Genomic:     484474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20512):
CAAATCCAACCAGAGGCCAAAAGCCCTGAGAGCCCACGATGCCAGTCACACAGTTGGCTCCCAGGACCAAGACAAAACCAACAGAAGCCGTAGAGTGTTC
R
TGCCTTTCACAGCACCTCCTACAAGCCCCTGAAGCCCGTGCCATGCCACTCTGTTGGTGGTCCACAAACACAGGAAACGAAGCTCTAGAGGGCAGGGGTA
Celera SNP ID:            hCV29368449
SNP Position Genomic:     484621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20513):
GGATCCTTTTCTCAGATATTTTGTTTTCCTGGGTATTTTCCCTCTTCTGGGTTCTTAGTGCCCGTCCCCCGTAGCTCCGTCACACAGTCCTGTTGCTGCT
R
CCTTGGGGCCCAGGCGTGTCTTTTGTCCCCCAGTGCCTGGCACGGTGCCCTCCAGGAGTACTCCTGGGATTGGTGGCAGGTCATGCAGTCATTGCTCACC
Celera SNP ID:            hCV16272710
SNP Position Genomic:     281031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20514):
CAGCTCTGGCCTACGCCCGGCAGGCCTCCAGCCAGGAGTGCATCGACGTGCTGCTGCAGTACGGCTGCCCCGACGAGCGCTTCGTGCTCATGGCCACCCC
Y
AACCTGTCCAGGAGAAACAATAACCGGAACAACAGCAGTGGGAGGGTGCCCACCATCATCTGAGGAACAGCCGTGCCCGCCTGCTCGCCGCACCTGGGAC
Celera SNP ID:            hCV25963303
SNP Position Genomic:     635928
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,12)   caucasian(C,10|T,26)   total(C,36|T,38)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:20515):
CAGAGGAAGGTGGCAGAGCCGGAAGTGGCAGAATCCAGTGCACGGGCGGGATGCCGAGTGTGTCGCCAAACTCCACCACTTTAGTCGGGGGCGTGGTGGT
K
GCTGCGCTATCTGCTTCCCACTCACTGGCATCCTAGCCGTGTGGGGTGTGTGCTCACCTGCAGCCACCCTCACCTGCTTGAACCAGATTTACCTAGAGGG
Celera SNP ID:            hCV3224221
SNP Position Genomic:     20948
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20516):
CACGAAAGCTAAGCACACACTCTTGTTTTCCTCACTCACATCCATGTTCATCCTCTTTCCTGTGCTGACGGTTTGCAAAGCTGGGAGAGAATGAGGGCGG
R
GCCTCGGGAAGTGAATGGCAGAGCAGGTGGCATAGACACCTCAGCCGTCTGCCCACAGGGTATGGGCAAGGTTTGTTTTGGTGACTTTTTCTTCCAGTCT
Celera SNP ID:            hCV3224222
SNP Position Genomic:     18784
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20517):
CACCACACCCAACTAATTTTTATGTTTTTAGTAGAGATAGGGTTTCACCACGTTGGCCAGGCCGGTCTCAAACTCCTGACCTCAGGTGATCTACCCGCCT
Y
GGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCGGCCCTGTTTTATTTATTTATTTATTTAGCTCGGGTTTCAATATTTTAAAAAATTT
Celera SNP ID:            hCV3224224
SNP Position Genomic:     18138
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20518):
CAGGCTTCTCGTGCGCACCAGCGAGCACCCGGGCCAAGCGTGGAGGCTCTGCGGGCTGGGGGTCCGGCCCACACCATCAGCCTCTGTGCAGCCGTTGCTT
Y
TTCCGTTGACCAAAGCCATGACCTTACCTTTATGCAGTCGTGTTCAGAGAGAGATGAAGCCTCAAAGGCAAAGTCAGACTGACACTCCTGGGAGCATGAC
Celera SNP ID:            hCV16272718
SNP Position Genomic:     279308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20519):
ATGCACCAAGAGTTTCTCTGGCTTGAGTGATTGGCCAGGCACCTCACGTTAGCGTCTGCAGCCTTGAATCGGGAGGCAGGTTGGGCGCAGGCTTCTCGTG
Y
GCACCAGCGAGCACCCGGGCCAAGCGTGGAGGCTCTGCGGGCTGGGGGTCCGGCCCACACCATCAGCCTCTGTGCAGCCGTTGCTTTTTCCGTTGACCAA
Celera SNP ID:            hCV16272719
SNP Position Genomic:     279221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20520):
TGGGACCAGCATCCAGTTCAGTGGCCAGCACAGACTCATCTGTCGTGAGGGTCGTTAGAAATTGTAGCCCCCATTTATTGGTCTCTTCTGCCTGTGATAT
G
TGCTTGAGTGGTTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTC
Celera SNP ID:            hCV27155710
SNP Position Genomic:     16247
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,8)   total(G,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20521):
AAGGTGCAGTGTTTTAGTTCTTGTGTCTGTCATTACAGATGTGCTTTACCTGCTCCCATTCACACCTTAGAACAGAGAGGCTCCTGTGTATAAAGGTATC
Y
GTAAAGCCTCATGCCCTGCATTTCACATCTAGCAATATCATAAGTAGAGCATCTTCACCAAATTCTGTCTGTATCATCTTGAGTACACAGATGTGTCATA
Celera SNP ID:            hCV11530080
SNP Position Genomic:     39320
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20522):
GGGACCAGCATCCAGTTCAGTGGCCAGCACAGACTCATCTGTCGTGAGGGTCGTTAGAAATTGTAGCCCCCATTTATTGGTCTCTTCTGCCTGTGATATG
T
GCTTGAGTGGTTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCA
Celera SNP ID:            hCV27155711
SNP Position Genomic:     16248
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,8)   total(-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20523):
ACCAGCATCCAGTTCAGTGGCCAGCACAGACTCATCTGTCGTGAGGGTCGTTAGAAATTGTAGCCCCCATTTATTGGTCTCTTCTGCCTGTGATATGTGC
B
TGAGTGGTTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTG
Celera SNP ID:            hCV27155712
SNP Position Genomic:     16251
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2|T,2|-,8)   total(G,2|C,2|-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20524):
TTGAAGGCTGAGGATGAAACCACCAAGAGACTGCTTTACAGCCCCCCAGAGCGCCCCAGCCCTGCCACACACAGCGGCCCCTGTGAGGACTGAGGTGGAC
R
TCTGGCTGCCCGCTCTCTTGTCTGTGTCCCGTTCATCTCCCAGACCCCGCCACAAGACAGTGCTGAAAGGCAGTCAGAAGCTTTGTGGTTATTTGCTTAA
Celera SNP ID:            hCV27474752
SNP Position Genomic:     620703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20525):
CATCCAGTTCAGTGGCCAGCACAGACTCATCTGTCGTGAGGGTCGTTAGAAATTGTAGCCCCCATTTATTGGTCTCTTCTGCCTGTGATATGTGCTTGAG
K
GGTTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGA
Celera SNP ID:            hCV27155713
SNP Position Genomic:     16256
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,8)   total(G,2|-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20526):
TGTCAGGTGCTCTTGCTACTTCGGGGCCTTGGAATTCCTCATGTGAGTGAAACCGGGGCTTTGACGTTTGCAGCACCAGCAAAGCCGTCTCAGTAAACCC
K
TCCACGCACATCCTCTCTCCCTCGCGGTACAGCAGTGTTTCCGGGGCTGCACGGCAGCGCCCTGGCCCGTTGTTCTTTATTGTTGTCCCCATTGCACTTA
Celera SNP ID:            hCV27474753
SNP Position Genomic:     565287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20527):
TCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGC
B
GTCAGTGTGTGAGTGGTTGCCTGTTTCGGGGGCTGTCAGTGTGTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGG
Celera SNP ID:            hCV27155714
SNP Position Genomic:     16378
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1|T,1|-,12)   total(G,1|C,1|-,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20528):
ATTAGAGATGCTTTTTGGGCTGGAAAACCAGTAGAAGCTAGTTGGAGTGTGAGTGCCAAGTGAAACTTTTTCCAGCTTTGTTCTTCATTTGTAAGCAGAG
R
GACATCATTGGAGTTTTAGAGCAGGAAGGAGATGGACCCTGAGCTCCACTTGGGGAGATGGATCTGGCCAGACCATTTTGAACATACTGGAATAGAGGCA
Celera SNP ID:            hCV27474754
SNP Position Genomic:     553954
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,218|A,1273)   total(G,218|A,1273) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20529):
GAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGT
K
TGAGTGGTTGCCTGTTTCGGGGGCTGTCAGTGTGTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTG
Celera SNP ID:            hCV27155715
SNP Position Genomic:     16387
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,9)   total(G,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20530):
TTCTACCTTTGTAGCTTTTTAGTTTTTTTCTAAGACAAAGTCTCTCTCTTGCCCAGGCTGCAGTGCAACGGTGTGATCTCAGCTCACTGCAACCTCTGCC
Y
GCCCAGCTCAAGTGATCCTCTCACCTCCACCTCCCAAATACCTGGGACTGCAGGCCCACGCCATCACACCTAGCTAATTTTTGTATTTTTGTAGAGATGG
Celera SNP ID:            hCV11530085
SNP Position Genomic:     43752
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20531):
GGAGATGGGCAGGGTTTGTACAGGGAAGGGGCCGAAGGAATCACTGTGAGCAAAGGGAGTGGCTTGAGGAGAGCTTCTCTGGGTGGTTGTAGGATTAGAG
R
TGCTTTTTGGGCTGGAAAACCAGTAGAAGCTAGTTGGAGTGTGAGTGCCAAGTGAAACTTTTTCCAGCTTTGTTCTTCATTTGTAAGCAGAGAGACATCA
Celera SNP ID:            hCV27474755
SNP Position Genomic:     553861
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,688|A,811)   total(G,688|A,811) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20532):
GCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTGTGAGTGG
Y
TGCCTGTTTCGGGGGCTGTCAGTGTGTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTG
Celera SNP ID:            hCV27155716
SNP Position Genomic:     16395
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20533):
ACCTTAGGGTCAGGCAGCTGCGACCGATCTGTCTGGTTCCTCACCCTGGGGGTGCCCGCCGTTGGGAGGTGCTGTGGTTCCAGGGTGGGCGCTGGTCCCT
K
CCCACGGAGCTCGCCTAGCACCTGTTCACAGGTGTGCCTGGGCCAGATGCATGTCTGACAGGGACATCAGGTTTGGGGAGACTGAAAACCATTTTTGAAA
Celera SNP ID:            hCV27474756
SNP Position Genomic:     248088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20534):
TGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTGTGAGTGGTTGCCTGTTTCGGGGGCTGTCAGTG
T
GTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTTGGGGCTGTCATGA
Celera SNP ID:            hCV27155717
SNP Position Genomic:     16420
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,7)   total(-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20535):
GTCACAGCTGCCCAGCGACCTGGTTCCACCTTAGGGTCAGGCAGCTGCGACCGATCTGTCTGGTTCCTCACCCTGGGGGTGCCCGCCGTTGGGAGGTGCT
R
TGGTTCCAGGGTGGGCGCTGGTCCCTTCCCACGGAGCTCGCCTAGCACCTGTTCACAGGTGTGCCTGGGCCAGATGCATGTCTGACAGGGACATCAGGTT
Celera SNP ID:            hCV27474757
SNP Position Genomic:     248061
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,23|G,1468)   total(G,1468|A,23) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20536):
GAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTGTGAGTGGTTGCCTGTTTCGGGGGCTGTCAGTGT
G
TGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTCGGGGGCTGTCAGTGTTTGAGTGGCTGCCTGTTTTGGGGCTGTCATGAA
Celera SNP ID:            hCV27155718
SNP Position Genomic:     16421
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,6)   total(G,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20537):
AAATGGAATCGCAGCTCATTGAGAGAAGGTTGGATGTGGACAGGCGCATGTTGGGACATTAGAGTGGAGGATCAGCTGGAGATGTGAGGATGGAGCCCTG
R
CGAGTCCCAGTATGTCCCTGCAGATGGAGGAAGAACCCACAGGGCTGGGAGGGAGGTAGAGGCGGAAGCCAGTGTGAGAGTTGGAAGAGAGTGTCTTAAC
Celera SNP ID:            hCV27474758
SNP Position Genomic:     228074
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,53|G,1446)   total(G,1446|A,53) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20538):
GTTGGCCAGGCCGGTCTCAAACTCCTGACCTCAGGTGATCTACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCGGCCCT
R
TTTTATTTATTTATTTATTTAGCTCGGGTTTCAATATTTTAAAAAATTTGAAGCCAGGTGCGGTGGCTAATGCTTGTAATCTCAGCGCTTCGGGAGGCCG
Celera SNP ID:            hCV27155719
SNP Position Genomic:     18189
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20539):
GCGCACTTATTCAGAAAGTAAAGGCTAATAGTAGGAATCATCAGTACCTGCTGCTGCAAACCCAGAAACACTGTGTCTACACGGGGCTGTCAGGGTGACC
R
ATGGAAATTGGGCCGTTCCTGCCCTGGAGTTTCTCCCTGCGCAGGTGCTCGCTGTGCTCTTTTTGCTGAAGAACAGCCACTTTGTTCTGCACCAGATGGC
Celera SNP ID:            hCV29368450
SNP Position Genomic:     485004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20540):
AATCGGAGGAATCTGGAAAGTTACAGAAGCAGGGACGGTGACTGGAGAATCCCTTATCTTTTTGTGTATATTTTGGGTTCTGAGGATTACCAGGAGATGT
R
TGGATGACAGAGCCCGTCGCTAGGCTCTTATGTCACAGATGGGCTGCTGTGCTGCGTGGTCATTGAGACCAATGGAAGGAAATTGAGATGTGACTGGGCA
Celera SNP ID:            hCV29368451
SNP Position Genomic:     485267
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20541):
ATGTATTTTACACACAAAGTACAGGGATACAGATTGAAATGTTCAGCAGCAAGGTATGAGAGGTCCGCATCTCATGCACGAGGGTGTTTTTCTCGGCCTC
W
GCAGCCCTCAGATGTTCCCACGCTCTGTTAGACACATGCGGCCTGGGCTTCAGGAAGTAGAGATGCCCGGGGGTTATATTTTCAGATGTTCTAGCTGAGC
Celera SNP ID:            hCV29368452
SNP Position Genomic:     489414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20542):
ATTTAAGATATCTCACCGCATTTGCCGCTGAGCACACATGTTGAGCGTCGAGGACAGGTTCAATTATGTGGCCACTGTGTTCAGGTTCCCGGATTGATCC
R
GGGGAGGCTCTAAGCTTTGAGGAGATCTGGCGGTTAGTTTCCATCTTGGCATAAAAGCATTAATTATCTAAAGATCTTTTCATCTGCAGGAAAATAGGCA
Celera SNP ID:            hCV29368453
SNP Position Genomic:     492466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20543):
ATGCTAAGATAGGCCAACTGGAGTCATTTCCAGGATTACTTCCCATTCTAGAATTTTTGGTATATGTTGGTAGTCATATCACATGGATGACTTTTTTCAT
R
CACGTTTATGTGCTGTAGGTTGAACCCCACTGTGAAATTGCCACTATTCAAACATATTTGACCATATTTGTGCCTCCAGCACAGCAGCGAGTACAAGTAG
Celera SNP ID:            hCV29368454
SNP Position Genomic:     214541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20544):
GAATTTTTGGTATATGTTGGTAGTCATATCACATGGATGACTTTTTTCATACACGTTTATGTGCTGTAGGTTGAACCCCACTGTGAAATTGCCACTATTC
M
AACATATTTGACCATATTTGTGCCTCCAGCACAGCAGCGAGTACAAGTAGCACATGTGCCTGTCTCCAAGCAGGAACATCTCCTCCTGGCTGTGGTCAGA
Celera SNP ID:            hCV29368455
SNP Position Genomic:     214591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20545):
TAATATGACTGGAGAAGTATTTTATGTCTCAAGAATTATTATGCATTTCTTATTTCTCTGTCCTTTAATTTTGAAGGGTCAGTATAAAAATACTTTATTC
R
GTATATTCTAGCTCATTCTCCACATACAATTATATTCCAATATTTGTAGGGTTTATTCTCTCCAAGCAGCATGATCAATCAGAAAATTGGACAGTTTTAA
Celera SNP ID:            hCV29368456
SNP Position Genomic:     503147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20546):
GGGAAGGTTAAAACTTGTTGGCTTTGGAGGTTTACTGATAGGTCGTTCTGAGTAGGACAAATGTTTTCCTTTCCGTGCTTTAAAAGTCTCATCTTAGACC
R
GGCACAGTGACTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCTTGAGGTCAGGAGTTCAACACCAGCCTGGCCAACATGGTGAAA
Celera SNP ID:            hCV11535312
SNP Position Genomic:     147479
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20547):
CTTTGGAAAAATGTTCTTTTTACCTCTGATTTTCTCTTGTAATGTCTTCTTGAATTGTGAGTCGGGGAAAAAAGTAAAAGATTCGCTACAGATTCAGACT
K
GCAAAAAAACGCTTAGAATCTTGCTGTCCGTAAAACTGAAACATCCAGCCTCACAAATGTCCACATTTCTCTCTCATCTGTGAAGGCCCGTTGAGACTGC
Celera SNP ID:            hCV29368457
SNP Position Genomic:     503796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20548):
GGCAGGAGAATAGCTTGAACCCGGAAGGTGGAGGTTGCAGTGAGCCGAGATCGTGCCAGTGAACTCCAGCCTGGGCAACAAGAGCGAGACTCTGTCTCAG
W
AAATAAATAAATAAATAAATAAATAAATAAATAAATAAAGTCTCATCTTATGGAGCAAAAGATTCTAAAGAGAAAGGCTGGTCCTGAATTTCATCCAGCT
Celera SNP ID:            hCV11535313
SNP Position Genomic:     147758
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,6)   total(A,3|-,6|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20549):
GTCTTGAGACCATTCCTGAGTTTAGACCTTCCCAGGGGAGATCAGTGACCACAGATGTGCCTCGGTGAATTTCACAAACCCAGCTTAGCGTGACCCAAGT
Y
TCCAGCTTTACCGAACTTTGTCATTGTTATTAAAAAGATGATTTTAGTGTGCTGATTAGAAACTGGGATCCACATTCAACATAAGCACAAACTTTTTTTC
Celera SNP ID:            hCV29368458
SNP Position Genomic:     516151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20550):
TTTAGGCAAAGGGAGGCTCTCCAGGAAGATCCTTAAAAGCTGCCCTGTGATCCTTCTGCTCTCATCCTGCTGGCCAGAGCTTGTGTACCTGGCCATGTTC
R
GCTGATGCGGGGGTGGGGGGACGGGAGGAGGCTCTGGCAAATGTCATGTTTATTCTGGTTGTCATTTGCCCACCTAAGAACCAGGAATGCTATTACTGCG
Celera SNP ID:            hCV25973870
SNP Position Genomic:     309397
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,3)   caucasian(A,20)   total(A,49|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:20551):
CAGAAATTCCCGCTCTTGGAGTTTTACACTTGTAACATCTGCTTAGCAAATTTTGAAAAATTGAAGATGAAGAGTAATAAAGTGTGGACAAAGCTCTGCA
S
GGAGCTTGTTAGAAATGCTGATTTGAGGCCGGGCGTGGTGGCTCATGCCTATATTCCCAGCACTTGGGAGGCCGAGGCCAGCGGATCACGAGGTCAGGAG
Celera SNP ID:            hCV29368459
SNP Position Genomic:     216240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20552):
TGCAGGGCCTTTATCCTTGGGGCACCTTTCTGGGACTTTATCTGGCTGTGTGCAGACAGACAGGAAAGTGTCCCCTGCCCCCAATTTTTGGGATGACCAC
Y
AAAAAATGAACACACCCACTCAGGGAGCGTTTGTGGGATCACTGAAGTCAAATAATTTACACCCAGGAGAAAGCCCTTCGCTGTGGATGTGTTCATGCCT
Celera SNP ID:            hCV11535315
SNP Position Genomic:     147991
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20553):
AGTTGTTTCCAGTTCTTGGCTTTTACAAATAGAGGTGCTGTGAACATTCACGTGCAAGTCTTCATATGGGCACGTGCTTTCATTTCTCTTGGGTAGATAC
S
TAGGAGTGGAGTGGCTGGGAGATGTGCTGGGTATATAATTAACTTTTATGTAAACTGCCTGCTGTTTTCCAAATTGGTTGATTTTACTCTCCCGCCGGCA
Celera SNP ID:            hCV3224232
SNP Position Genomic:     22517
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20554):
ACCTTATTGATTGAGACAGGGTCTCACTCTGTTGCTTAGGCTAGAGTGCAGTGGCACGATCATGGCTCTCTGTAGCCTCGACCTCCTAGGTTCAGGTGAT
M
CCCCCACCATAGCCTCCTGAATAGCTGGGACTACAGGTGTGCACCATCATGCCTGGCCAATTTTTATTTTATTTTATTTTTTGCGTTTTTTTGTAGAGAC
Celera SNP ID:            hCV3224233
SNP Position Genomic:     38922
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|C,7)   total(A,7|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20555):
AGAGACGAGGTCTCGCTCTGTTGTCAGGCTGGTTTTGAACTCTTTTGCCCAAACCATCTGCCTATCTTAGCGTCCCGAAGTGCTGGAATTACCGTAGTGA
K
CTGCCGCTCCTGGCCTACTTTAAACATCTATAATTTGTGTTCGTTGTAGGATTATTCACGGTAGAAACAGGGTGGAAAAAAATGCCCACAGCCTAGCATT
Celera SNP ID:            hCV3224234
SNP Position Genomic:     39117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,8)   total(G,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20556):
CTTGGATTAAATGCAGTACGATAACACATCGATTATTTTTATAAGCTAACTAATAAAAATTCACAGAGCGTTTTCTGCATGCAACAGAATATGTGGGTAA
Y
AGGACATTGGGTCTGTGACAAGGTCTGAGCTAGAAGGACCGTATGGCCCATGAAGCACAGTGTATGCAAGTGCTGTTGTAATTTAGTAAACCGCCACTAG
Celera SNP ID:            hCV16272726
SNP Position Genomic:     278138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20557):
TAGCAATATCATAAGTAGAGCATCTTCACCAAATTCTGTCTGTATCATCTTGAGTACACAGATGTGTCATAACTAGCCACACTTCTTTGGACATGTAAGT
Y
GCTTCTCAGTTTTCACTATTCTCAGCAATGCAGTGAGGATATTTTCATGATAACCTCATTAGGCTCTTTGTGATGTTGTCCTGGATCTGTCAAAAATTGG
Celera SNP ID:            hCV3224235
SNP Position Genomic:     39450
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20558):
CGGTCGCTTCAGCCCCTCCCCGTTGCCCATGTTTATTCCTTTTCTGCCTTTCCTCATTGTCCATCTGGACTGGGGATCTTGGTCACGTAGATCCATGTTT
Y
CCAGGCACCTAAAGCACATCCCCCCCACTTTGGTGATCGTAAAAATCTGTTATTCCATGTTTGAAATATCAGGATTTCAGAACTCAGTCACTGACAGGTC
Celera SNP ID:            hCV16272727
SNP Position Genomic:     276291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20559):
AGGATATTTTCATGATAACCTCATTAGGCTCTTTGTGATGTTGTCCTGGATCTGTCAAAAATTGGTCTGTCAGAAATTTGTTTTTAACAATAATAGCTAT
W
TTGTTGCATTAACTCCAGAAAGTTTTACCAATTTACCCTCTAAGGAGAATAGACCTCCTTCCCCATCCCCCCCACATTCAGGACTTTGCATCTGAGGGGG
Celera SNP ID:            hCV3224236
SNP Position Genomic:     39586
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20560):
AGGAGAATAGACCTCCTTCCCCATCCCCCCCACATTCAGGACTTTGCATCTGAGGGGGAACCTGGCCACGTGGTTGGCATTCCTGAGCCATGCCAGGCTG
M
TGGAGCGCACAAATTCTTTCACCCCAGCAAGCCCGGCTCCATCCACCATCTGTGCACTCAGGCCCCCTCCCCCTCCCCCGCCCCCTCCCCTCCCACTGGC
Celera SNP ID:            hCV3224237
SNP Position Genomic:     39729
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20561):
TGAGTATGTGGATGTGTGTGAATGTGTGAATGTGTATGTGTGGGTGTGAATGTGTGTGTAAAGGTGATTGTGAGTGTGTGAATGCGTGTGTGAATGCGTG
W
GTGACTGTGTGAATGTGTGAGGTGTGAATGTGTGTGTGAATGGATGTGTGTGTGAATGCGTATGTGTGAATGTGAATGCGTGTGTGAATGTGTGTGTGAG
Celera SNP ID:            hCV27155720
SNP Position Genomic:     23971
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20562):
AAGCAGACACCAGCCCTTAGGGAGCAGCCCAGGATGCTTTTTTCCTCCAAATGCCTCTCACCTATTCCCAGATACTCGCTGGAGTTGGAGCACACATGTC
W
GCAGATGTAAAACGACCTGCTCCCCCAGGTGAATGGATTCTCGCCAGGGCCAATACTTATCCGCAGGGGTGTGTGCCAGGCAGCCCAGGTCAGCCTCCCT
Celera SNP ID:            hCV3224238
SNP Position Genomic:     46513
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,9)   total(A,9|T,4) 
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:20563):
TATGTGGATGTGTGTGAATGTGTGAATGTGTATGTGTGGGTGTGAATGTGTGTGTAAAGGTGATTGTGAGTGTGTGAATGCGTGTGTGAATGCGTGTGTG
W
CTGTGTGAATGTGTGAGGTGTGAATGTGTGTGTGAATGGATGTGTGTGTGAATGCGTATGTGTGAATGTGAATGCGTGTGTGAATGTGTGTGTGAGTATG
Celera SNP ID:            hCV27155721
SNP Position Genomic:     23975
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20564):
AGAGAGTAATGGTGAGCAAATCCTTGTAGAATTAAAATGGGATGAAGAGACCCTTATGAAGGGAGAAAGCAGGTGAAGATGGTGGGGATAGGGGCGGGAC
R
TGCACCCCCTTCACTTTCCATGCCGGGCAGTATAAAAAGTGAGAAGAAACACTTCAGGGCTGGTGTGTAAACTTCATGTTGGATAAATACGTGACTTCTG
Celera SNP ID:            hCV11530090
SNP Position Genomic:     52213
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20565):
CAGAGCATCCAGAGAAGAAGCTGGGGCTCGGCCTGGTCTACCTGGCTGGGAAGAACCGTGCTGGATTGAGCTCTGCAGCAAGGGCTGTGGCTGGCCGGGG
K
TGTTTCCCCGGCCTCTCCCCAGCCTGGAGCTGTGGCGCAGGTGCCTGATTACAGTGCTTGGGAGAGCAGTGAGGGCAGGTGGGGGGTTGACCTCACTCTC
Celera SNP ID:            hCV3224239
SNP Position Genomic:     55031
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20566):
CGCCTCCAGAGTAGCTGGGATTATAGGCGTGCCCCACCATGCACAGCTAATTTTTGTATTTTTAGTAGAGACGGTGTTTTGCCATGTTGGCCAGGCTGGT
Y
TCGAACTTCTGTCCTCAAGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGACGTGAGGACCTGGCCTATTTGTTGATTTTCACACTGCAA
Celera SNP ID:            hCV11533578
SNP Position Genomic:     524827
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20567):
GATTTTCTTGGAGACTTTAAAAAACTAGTTTGTTGTATTTGCTTTGTCAATCTCTATGTAAGTAATATATGTGTATTTTTGTGCCAAGCCATTTGAGATG
S
CCTGCAGGCCCCATGGTGCTTCAGCCTCCAGCACTGCTCCCTGTGTTTCTCAGACCGAGGCCCCTCCTGTAAAAGGCTCTGAATCTCGCTTTCACCTGTG
Celera SNP ID:            hCV11530091
SNP Position Genomic:     54249
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20568):
ATTTTCTTGTTGAGAAGCTTCTAAACAAGGGAACTTAGAGCAATCAATGCCCCCGGAGACCGATGCACATATCAGGACCTTGGTATCAGCTAGAAAACAT
Y
CATTTGTTTAAGGGGAAGAAACAGGCACGACATTTTGCACATTAAAATGGATTATTTCATCAATAGGTTAATAGAAAGCCGGGCTGCAAGTTCACTTCCT
Celera SNP ID:            hCV11533579
SNP Position Genomic:     523950
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20569):
ATGTGGATGTGTGTGAATGTGTGAATGTGTATGTGTGGGTGTGAATGTGTGTGTAAAGGTGATTGTGAGTGTGTGAATGCGTGTGTGAATGCGTGTGTGA
S
TGTGTGAATGTGTGAGGTGTGAATGTGTGTGTGAATGGATGTGTGTGTGAATGCGTATGTGTGAATGTGAATGCGTGTGTGAATGTGTGTGTGAGTATGT
Celera SNP ID:            hCV27155722
SNP Position Genomic:     23976
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20570):
TGGATGTGTGTGAATGTGTGAATGTGTATGTGTGGGTGTGAATGTGTGTGTAAAGGTGATTGTGAGTGTGTGAATGCGTGTGTGAATGCGTGTGTGACTG
W
GTGAATGTGTGAGGTGTGAATGTGTGTGTGAATGGATGTGTGTGTGAATGCGTATGTGTGAATGTGAATGCGTGTGTGAATGTGTGTGTGAGTATGTGTG
Celera SNP ID:            hCV27155723
SNP Position Genomic:     23979
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20571):
GGATGTGTGTGAATGTGTGAATGTGTATGTGTGGGTGTGAATGTGTGTGTAAAGGTGATTGTGAGTGTGTGAATGCGTGTGTGAATGCGTGTGTGACTGT
S
TGAATGTGTGAGGTGTGAATGTGTGTGTGAATGGATGTGTGTGTGAATGCGTATGTGTGAATGTGAATGCGTGTGTGAATGTGTGTGTGAGTATGTGTGT
Celera SNP ID:            hCV27155724
SNP Position Genomic:     23980
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20572):
CTTGTGAACGTGACTCTGCAAAAACATGTTAGAGGAAGCAAAGGAGAGGATGGACGTGAAATCCGTCCTATGCATGCTCACCTGACATGCAACAGGGAGG
K
TCATCTGCCAGGGCGTCACGGTCATTCCACGAGAGCTGGGTGGTGACGCTCCCCAAGTTCCCACTCCTGGAGAGGTAGGCAGCGAGGGACACTGGCGTTG
Celera SNP ID:            hCV29368601
SNP Position Genomic:     249526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20573):
ATCACCCGAGCAGTTTACACTGTACCCAACGTGTAGTCTTTTATCCCTCGCCACCGCCCACCCTTTCACCTGAGTCCCAAAGTCCATTGTATCACTCTTA
Y
GCCTTTGCATCCTCATAGCTTAGCTCCCACTTATGAGTCAGAGCATACCATGTTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAATGGTCTCCAA
Celera SNP ID:            hCV56615
SNP Position Genomic:     459135
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20574):
GTGAATGCGTGTGTGACTGTGTGAATGTGTGAGGTGTGAATGTGTGTGTGAATGGATGTGTGTGTGAATGCGTATGTGTGAATGTGAATGCGTGTGTGAA
K
GTGTGTGTGAGTATGTGTGTGAATGTGTGTGTGTGTGGTGATGGTCATTGTCCACATTGGTGGTCTTGTCACTCACTTCTTGATCTGTTGCTGCATCAGC
Celera SNP ID:            hCV27155725
SNP Position Genomic:     24060
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,3)   total(G,1|-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20575):
CCCACTCCTGGAGAGGTAGGCAGCGAGGGACACTGGCGTTGCAGGGCCCCTGGGACAGGCTCCACTCCTCCCTTCTTGCTCTGGAGGTGACACAGTCTAG
K
GATCTAGTGAGGAATGGGACCTGGGGCCAGCGTGCTTGGACAAGACGAAGCCTCATCAAAGTTGAACCTTAGGGTTCATCAAGCAGGGAGGGCTTCCACA
Celera SNP ID:            hCV29368602
SNP Position Genomic:     249686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20576):
GATTTCAGTAGTTTTTTGGGGAACAAGTGGTTTTTGGTTACATGGATCAGTTCTTTAGCGCTGATTTCTGAGGTTTTGGTGCACCCATCACCCGAGCAGT
K
TACACTGTACCCAACGTGTAGTCTTTTATCCCTCGCCACCGCCCACCCTTTCACCTGAGTCCCAAAGTCCATTGTATCACTCTTACGCCTTTGCATCCTC
Celera SNP ID:            hCV56616
SNP Position Genomic:     459049
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,5)   total(G,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20577):
ATGTGTGAGGTGTGAATGTGTGTGTGAATGGATGTGTGTGTGAATGCGTATGTGTGAATGTGAATGCGTGTGTGAATGTGTGTGTGAGTATGTGTGTGAA
T
GTGTGTGTGTGTGGTGATGGTCATTGTCCACATTGGTGGTCTTGTCACTCACTTCTTGATCTGTTGCTGCATCAGCAGAATGCTGGGCAGATGGCTGCAT
Celera SNP ID:            hCV27155726
SNP Position Genomic:     24084
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20578):
TGTGTGAGGTGTGAATGTGTGTGTGAATGGATGTGTGTGTGAATGCGTATGTGTGAATGTGAATGCGTGTGTGAATGTGTGTGTGAGTATGTGTGTGAAT
G
TGTGTGTGTGTGGTGATGGTCATTGTCCACATTGGTGGTCTTGTCACTCACTTCTTGATCTGTTGCTGCATCAGCAGAATGCTGGGCAGATGGCTGCATC
Celera SNP ID:            hCV27155727
SNP Position Genomic:     24085
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,4)   total(G,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20579):
TGTACAGAACACATGTATCTGTATTTACGTGACTGAGCACAGGCGATTTCCCCGAGTCTCACCTTGGTGTGTGCCAGTGCATGCGCGTGCGCGCGCGCAC
R
CACACACACACACACACATACCTCCTCTCAGAGAATGTTGATGTGGCAATTCATGTTTGACAGCTGGGTTAACCCATAAATAGATCCCAAAATATAAATT
Celera SNP ID:            hCV27155728
SNP Position Genomic:     26143
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20580):
GTTGAGAGTCCATGATCAAGGCACTGGCAGGTTTGGCTTCTTCCCATTCTGTGCCTCACCTGGTCTTTTCCGTGTGTGTGGTCTTCAGTGTTTTTCCGTT
S
TCAGGAGGACACCAGTCTTGTTGGATGAGGGTCCCACCCTTAAGCTGCCATATTACCATGATTGCCTCCTTAAAGACCTTATCTCCAGCGACAGTCACCA
Celera SNP ID:            hCV27155729
SNP Position Genomic:     29171
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20581):
GGCATTCTCTCCCAGGCCCACTGACTGTTCTGCCTACCCAGATTAGAGCTCAGAAAGTTCCATTTAATTTGCAGACTAAAGTGAGAAGAGATCAGTCTCG
Y
TGTCTACACTGGAGCTGACAGTCAGTTTGTACCACATCTGAAATTATACTTGTGGGATTTCATGTCCATTGAGATTCGCGTATGTGTTTTTAAACATGTA
Celera SNP ID:            hCV29368460
SNP Position Genomic:     523211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20582):
GCTCAGGTTTCTCGCGTATGTTTTGTGTTGTCTCTACAAAGAAATCCAGTGTAGTTAGAAGCACTTGAGATTCATTTCTGCAACATAACTCATCCCAGGC
R
CCTAGTCATCACCCTGGGTCATTTTCTGGCCACCAGAACTTGGTGCACACGCCGAACCTACAACCACAGCCTCAGCTGTAGTGTTCGAAATGGAGAATTT
Celera SNP ID:            hCV29368461
SNP Position Genomic:     525181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20583):
CTTGAGATCATGCCTCACTGTGGACTGCTGTGTTGTGATGCAGTCAGCTTGGAGGGGAAGCCAGGCCCCAGGAACAAGGGAGAAATGCTTAAGTGTTGGA
R
AGGAGAGCGACAGCACAAACTTCTTACACAGTAAACTCAGCGAAGTGTTAAAGGTGGGCCAGAACCAATTTCACAGTCAGGCAAGGGCTGAAAGTAGAAG
Celera SNP ID:            hCV29368462
SNP Position Genomic:     542639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20584):
CCCACAAGCCCCATCTATGGATAGTTGTGAGGGGGACAGAATCTTCCACTTGCAGGGTCTCCATCATTTTTTTCTGTCCTGGGTTGACTCCAGGGCACCC
R
GAACAGGTGTCATCCCTCTTCCATCAGACAGAAGTTCCCTGTGCTCAGAGTCCCCAGTGAGCAGTCCCTGGCATTGGGCTCTCTCTGTGGTGCCTGCTGG
Celera SNP ID:            hCV29368463
SNP Position Genomic:     543628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20585):
TCTATTCACATCTCTTTCATTCACCCTGATAAAAGCCTTGCTCACATCTGGGTGAGTCTTCAGGGTGATCAAGCATCTCAGAAGACTAAGGGGGAAAATA
Y
TGCAAGATGGTGGTGCCCATCAGCAACGTCAGGTGCTCCAGAAAGAGGGGGGTCAGTGAGAAAGAAGACTAAGCACAGCCCATGGCCCCTGGCTGTTCCT
Celera SNP ID:            hCV29368464
SNP Position Genomic:     544303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20586):
ACAGGACCTAGCTATTCTTTATGAGCAGAAAGCTCAATAACTAAAACGATCAGAAGCACTTTGTGTCTATACCATCATACATGAGTATTCCAGCCTGACC
R
TGCTTCCCTGGCAGGAGAGCCAAGGTTAAATCTTCAGTCTGTCAGCCAATCCCAGAGGGAATCTTTTGGACTCTTGTGGCTTCTGGGTCCACATTTATTT
Celera SNP ID:            hCV29368465
SNP Position Genomic:     548790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20587):
GCACTTAACTTCATCCCTCTCAGGCGCACACCAGCACTGTCTATCACTAATACTGGCAGTTCTAGGGTGAGGTGGACAGTTGCTCTTAGTCAGAAACTCA
M
TTTGCTGTTTTCCACTAGATTCCCAGATAGAGAAGGACAGTTGTTTCAGGCAAGCTTAAGACCCTGTAACATTTCTTGCCCTTTTTGATTTGAACTCCCA
Celera SNP ID:            hCV11535321
SNP Position Genomic:     151802
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20588):
ATTTCTTTCTCATTCTTCTTACCAAGTAGACATGTGGCTACTGCCCAGAAGGTTACCCATTTACCTTCTCCAGGTTACCATGGTCCATGCGTATTCACAG
R
TGATCCAGAACTCTCCTCTTTGCTCATTTCTGGCAGAGTCCGTCTCAGCTGATGAGTTAAAATGTGACATTTCCTCCCTCCCCCCGCCCCATGCATGATG
Celera SNP ID:            hCV29368466
SNP Position Genomic:     552346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20589):
GCAGCACTTTGGTAAATGTCAAAAAGTTGGAGAGGCTGAGTGGGTTGCGTGGCCCGTCTGTGCCTGTGGGCTCCTCTCCCGCCCACGCGGCTGTGCCTCT
Y
ACTCAGAACCCTGCCTCTCTTGTGTTTGTCCCAAGGCTTTACTTTCCCCCCCACATACATTCAGTGGCATTATTTGTTACATTTTTAAAAATACATATTT
Celera SNP ID:            hCV11535322
SNP Position Genomic:     153245
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20590):
AGGCCCGGAGAGCAAGAGGCTTGCAGAGGACAAAGGTGGAAAGGCAGTGCTAGCAGGTGGCACGCACACAGGTGTGAGGGCCTGGAGAGCAGGCAGGGCC
R
CCCTGGGGCTGTGGGACCAGCGGGGCCTGAAGCCAGGTGGAGGGGCAGGAGACAGTGCAGAGGTCTGAGTCCGTGCCAGGAGGCTGGGATCAGCCACAGG
Celera SNP ID:            hCV29368467
SNP Position Genomic:     557468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20591):
GTGCCTGTGGGCTCCTCTCCCGCCCACGCGGCTGTGCCTCTTACTCAGAACCCTGCCTCTCTTGTGTTTGTCCCAAGGCTTTACTTTCCCCCCCACATAC
R
TTCAGTGGCATTATTTGTTACATTTTTAAAAATACATATTTTATTTATTTCACAAACAATGTTACTGGCATAATGTTACCACACTATAGGATATAATGGT
Celera SNP ID:            hCV11535323
SNP Position Genomic:     153304
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20592):
TTCAGCATTGGAGGACAATATATTGGAAGTAAATCCCATGTGGAAAGAGCTATTTTTCTATCAGTGGGATGCACCTCCTCCCTCTGGTCCAGCCCACTCG
K
CATGTGTTGCCCGAGCTGCCATGTGATCACCAGGACAAATGATGACTACTATCATGGGGTCTCATTTATGATAAGAAATGGCATGTGGTGGGTGTGGAAA
Celera SNP ID:            hCV29368468
SNP Position Genomic:     220129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20593):
GAAGTGATCATAATGACAGCCACGGTTGGGAAGGCCCTGATAACCTGTAGGAATTCGGGAATTCCGATTCATCCGGCATAGGAATGTCTGTGTTTAAAGT
Y
GGTCTTGAGCAGACGTGGATAATTCACACTCCTTAATTTTTTATGTTTGTTTTTAGGCCTGGGGATTTCTCTCCCCCCTCTTAGAAATGTATTAAGCTTC
Celera SNP ID:            hCV29368469
SNP Position Genomic:     561310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20594):
CATTCCCATTTTGTGAGCATTTAAGCCGTTTACTGTTGATTGTCCATTTCTTCAGGTATCTTCTTACATCATCTTGCTTCTTTACTCAGCATAAAGCCTC
R
TAGTAGATTCTCAGGTCCCAGGGGTGCACATGCCTGTGTTTTTACCTTACTTCCCCAGGGGCCCTCCAGAGGGTGCCCATCCACGGAGTGCGGCGCCTGC
Celera SNP ID:            hCV11535326
SNP Position Genomic:     153712
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,10)   Caucasian(G,18|A,42)   Chinese(G,4|A,16)   Japanese(G,9|A,31)   African(G,24|A,36)      total(G,55|A,125) ;(A,-|G,-)   CEL_african_american(G,24|A,36)   CEL_asian(G,13|A,46)   CEL_caucasian(G,18|A,42)   total(G,55|A,124)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20595):
TTGGTGTCTGACACACCCATCCCCACCGCAACCGCGGGGTGTCATCAGCTGGGCCCATCTCCTTCCCGGTGTCTGCCCCCCGCCCCATTCCTCCCTGAAG
K
TCTCTGGGCTGTCTCTGCAGCACTTGCCCGTGGGAGACAAAGCGTCTCTCAGTCCTAGTGCTGTCTCAGAAGCCTGGGGTTCCGCAAGACTGGCCTGGAA
Celera SNP ID:            hCV16134119
SNP Position Genomic:     222361
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;JBIG-allele(T,58|G,1435)   total(T,58|G,1435)no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20596):
GAGTTCAGCTGGCGACATGCTGGACTTAAACACCAGCTAGGCTTCAGGAAATGTTGAGGATGCAGGTGGATGTGAATTTGTTATTCAGGGGTGAGGTCAC
R
GCTGGAGATACATATGAGCTTCATTAACCTGTGTATGATATTCAAAGCCATAAGACAGGGGCGATCACAGCAAATAGCAAAGAAAAGAGGCCTAACCATA
Celera SNP ID:            hCV27958336
SNP Position Genomic:     4482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:20597):
GGATTTTATACCTCCTAGTTCTTTGAGGACAGTTTGCCACGTTCAGCAGGATTTTCCAGACCTTTTATTTCTAAGGAATACAAACTAGAAGGGCCTGGTT
Y
CTGTAGGTGACAAAGCTGGGGGGAACGTGGAGGACAGGGATGACTGGAGAGAGCTGGCGAGTGCAGCCTGCTGGGATGCCAGCTCTCACCTGGGAAGGTC
Celera SNP ID:            hCV3224240
SNP Position Genomic:     60702
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20598):
AGACTTCTTCTGAAACTCCTCCAATGAGTAGGTTCCATGACCGTCTTTCTCTCCTTCCCGGGGCCTGTGTTTGTTTCGAATGCCTCCCCTTGGAGTCAGT
Y
AGCGTGCTCCTTTGTCTCCTGTATTTTCCTATAAATTAGTGGGTGTTTGGAGGCTTGTTTAGGTTTTTAGCTTTTGTTTGGTTTGGTTGGACTCCTTTCT
Celera SNP ID:            hCV27958337
SNP Position Genomic:     32419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20599):
AGCCAGCATGAGACCCTCGCTTCCAGCCTGTGCCTTTAGCCCAGCCTTGCTGTTCTAGATGGTGTTGGCAGCCTTTTTCACGTACAGAGTTGCATTGCTC
S
TCCGTCTTCCGCGTGCCTGTGGGCAGCTTTTGTTCCTTTGGATTACTTTTGTTTCTTTAAAACTCCTTGGCACCATCTAATTTTTTAAAAATGAGCCTAA
Celera SNP ID:            hCV3224241
SNP Position Genomic:     61017
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,9)   total(G,5|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20600):
TGATGATAATAGGATTGTATTTTCTTGTTGAGAAGCTTCTAAACAAGGGAACTTAGAGCAATCAATGCCCCCGGAGACCGATGCACATATCAGGACCTTG
R
TATCAGCTAGAAAACATCCATTTGTTTAAGGGGAAGAAACAGGCACGACATTTTGCACATTAAAATGGATTATTTCATCAATAGGTTAATAGAAAGCCGG
Celera SNP ID:            hCV11533581
SNP Position Genomic:     523932
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20601):
GAACATTTCCTGAACCATCCTCCTGGTTTCTTCCCTTCCCCTCACTGAATAAAATCCGTAATAGCACCTGCCGCTTGAGTGTTTGTCTCTGCAGGACGCC
R
TGTTCAGGGCTGGGTGCCCTTTGTGTCATTTTGTTATCCTGGTCACTGCCAGACAGAGGTGGTAGGACCCTCATTTGTCAGGTCAGGAGCCTGCAGCCTG
Celera SNP ID:            hCV8739256
SNP Position Genomic:     19557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20602):
CACCATCTAATTTTTTAAAAATGAGCCTAATACTGTTCACGTTTTAGCACCTGGCAAATGTATTGATACTTTACGAGCATTCACATGCGTTTAAGAGTGC
Y
CTTAGCAGTTCGCGTTCTATATAGAACTGTTTACACCTCTCAGGATTCTTACTCTAACAAACAGGTATAGACAACATCCTAGTTGCATCTCACCGCGGCC
Celera SNP ID:            hCV3224242
SNP Position Genomic:     61188
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20603):
GATTCCAGGCAGCAGCATCCGACATAACCCAAGGTGTTATTGATGATAATAGGATTGTATTTTCTTGTTGAGAAGCTTCTAAACAAGGGAACTTAGAGCA
R
TCAATGCCCCCGGAGACCGATGCACATATCAGGACCTTGGTATCAGCTAGAAAACATCCATTTGTTTAAGGGGAAGAAACAGGCACGACATTTTGCACAT
Celera SNP ID:            hCV11533582
SNP Position Genomic:     523892
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20604):
CTGGTCTGAAGATCTGTGTGTGGCTGTGATCCGTGCGTGGCTGTGACCCGTGCGTGGCTTTGGCCCGTGCGTGGCTCCGGCCCGTGTGTGGCGGTTGCCC
R
TGTGTGGCTGTGACATGTGGAGGCGAACTTCCACGGCAGAAGTGCCATGCTTCCGTAAGCTCTTCCGACTGGTTGGTAGGCGCTTTTATCGGCACATGAG
Celera SNP ID:            hCV16272734
SNP Position Genomic:     275915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20605):
CTCAGGAGGACACCAGTCTTGTTGGATGAGGGTCCCACCCTTAAGCTGCCATATTACCATGATTGCCTCCTTAAAGACCTTATCTCCAGCGACAGTCACC
W
TGGGGTGTGAGCCTCTGCAGAGGAATTTGGGGGATACTGCGCAGTCCGTACAGCATCCCTCCCTCCCTGGTGGTTTCTGAGGATTTGTCACTGATGTAGT
Celera SNP ID:            hCV16191743
SNP Position Genomic:     29271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20606):
TCTTACTCTAACAAACAGGTATAGACAACATCCTAGTTGCATCTCACCGCGGCCTAACATCCCCGGGAGCATGGGGATTAGTGGAGTGAGTGGGAGGACT
Y
GCCCTGCGCAGGTGGAGGGTGATGAGAGGCTGGGGACGTTTTCGGATGACCACAGGTGTGAAGCTGTCTTCAGTGGTGGGGGAACCACCTGGGCCTTGGG
Celera SNP ID:            hCV3224243
SNP Position Genomic:     61335
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20607):
CCATTTGGCACAGTGTCTCCGTAGCCCCTCAAAGTGATTCCAGGCAGCAGCATCCGACATAACCCAAGGTGTTATTGATGATAATAGGATTGTATTTTCT
Y
GTTGAGAAGCTTCTAAACAAGGGAACTTAGAGCAATCAATGCCCCCGGAGACCGATGCACATATCAGGACCTTGGTATCAGCTAGAAAACATCCATTTGT
Celera SNP ID:            hCV11533583
SNP Position Genomic:     523857
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20608):
GATGCGCGCTTTTGGGGTCATCAGGCGGTTGCAAAGGTGGGAGCAGCCGTGCTCCCCAGAATGCTGACAGCACAGAGCACTGGTCTGAAGATCTGTGTGT
R
GCTGTGATCCGTGCGTGGCTGTGACCCGTGCGTGGCTTTGGCCCGTGCGTGGCTCCGGCCCGTGTGTGGCGGTTGCCCATGTGTGGCTGTGACATGTGGA
Celera SNP ID:            hCV16272735
SNP Position Genomic:     275836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20609):
CAGGAGCTTCTAGTGATGCTGGAGGCGGCCACTGCTGTCTTTCAGCTGTGAGGAGCCAGGAGGGCGATCCCAGCTTTCTCCTGGTTAATTTTACCGTCTT
Y
TAAAAAGGAAGTTCACAAGATTTCTTGAAAGAACTCTAGTTGGAGTTGTAGAGCTAATGTTTTTTTCTCTGGTCCCTGCCACCTGCTGGAAGGAGCCTGC
Celera SNP ID:            hCV3224244
SNP Position Genomic:     63415
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20610):
GTCCTTCTGCAGACTTTGAGGTTGAATCTGTTGCATGTCTGTGCACAGTTGTTCTGATTTAATTAGTGCGTGAATATACTTTATCCTAATCATGACCTGT
R
GCTGGTATACGTAGATGGCTGGGTTATGTAGATGGCTGGGAGGGTTAAGGTGGTGAGGGCCTTCCTGTCTTCAGGGGAGAGCTTCTGGTGGCTGTCAGCA
Celera SNP ID:            hCV16272736
SNP Position Genomic:     234235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20611):
GGATATACTCCTTGTGTTTTCTTCTAAGAGTTTTCTGATGGTTTCTTTTACGTTTAGGTCTTTGATTTTGAGTTACTTTCTGTATATGGTGTAAGATGGG
R
TAATTGTCAATTTTTTAAAAGGAAAATGAAATTCTATTAATATTGTTGTACAAGTTGGTTTTCCCCTCCACGGCATGTTTGGCTGTCTTCATATCAGCAT
Celera SNP ID:            hCV3224245
SNP Position Genomic:     71633
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20612):
GTTGGGAGTCCAAGATGAGGGAGCCAGTGAGGGCAGGCTCCGGTGAGGGCTCTCTTCCTGGCTTACACACGGCTGCCTTCTCGCTGTGGCCTCTCATGGT
G
GAGAGAGAGAGAGAAAGGCTGGTCTCTTCCTCTTCCTGTAAGGACACTGATCCCATCATGCTCCTCACGGCCATGACCTCATCTAAACCTGATCACCTCC
Celera SNP ID:            hCV27155730
SNP Position Genomic:     35113
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,12)   total(G,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20613):
GTATTCCTGAAAGTAGAACAGGAATTTTACTAAAAATTTTAATTAAAATAAAGACCCGGAAAGTTTTAGTCTATTGCTAGTCCCCCTGAAGTCCCCGAGA
R
TCGCCTTTTATTCCAAAGGCCTGAGACCAGAGGGAGGCTGCCAGTGGTGGGCAGTGGCTGGGTGGCACCAAACATCAGCTCGGAGCCTCCTGGTTCCATT
Celera SNP ID:            hCV11533587
SNP Position Genomic:     523661
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20614):
TGGGAGTCCAAGATGAGGGAGCCAGTGAGGGCAGGCTCCGGTGAGGGCTCTCTTCCTGGCTTACACACGGCTGCCTTCTCGCTGTGGCCTCTCATGGTGG
A
GAGAGAGAGAGAAAGGCTGGTCTCTTCCTCTTCCTGTAAGGACACTGATCCCATCATGCTCCTCACGGCCATGACCTCATCTAAACCTGATCACCTCCCA
Celera SNP ID:            hCV27155731
SNP Position Genomic:     35115
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20615):
AACTCTTCAGTGAACAGATGTCTTCTTGGGCCGATTGTTGGATATTGCTCACCAGCTAGTTATTAAATTCTAGAAAAACTAATTCTTTGTGCAGATTCTA
R
GTAAAATGTCTCTGTTGCAAAATAGGATTTTTCAATTAAGAAAAGCTTTAAAATATATCATGTGTTCCTCCTTAGTCTGCAGAATCTGAATGTCACCTTA
Celera SNP ID:            hCV27155732
SNP Position Genomic:     36904
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20616):
TATGTCGGTGCCTCTTTTGAAACTGGAGATATTGATATGATCTTAAGCAAATGTCTCCAATACGAGAAAAAGAGGACTGATTTATAAAGTGGAGGACTGA
Y
ACATAATGTGGAGGACTGATACATAATGTGGAGGACTGATACATAATGTGGAGGACTGATACATAATGTGGAGGACTGATTTATAAAGTAGAGGACTGAC
Celera SNP ID:            hCV27155733
SNP Position Genomic:     37239
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20617):
TCAATCACAAAATGCATTGGATTCTACTCAGACTGTCGGAGAATATGCTTGCTCCTCTCCTAGGCTCTGGAGGAAGAACCTCAGCCACTATGTGTGTGTG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCATGCTTGTACGCCTGTGCACAGAGGGTGGGAAGAGGGCTTGCACCTAAGTCCTAGGGTCCTGTT
Celera SNP ID:            hCV27155734
SNP Position Genomic:     49883
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20618):
CAATCACAAAATGCATTGGATTCTACTCAGACTGTCGGAGAATATGCTTGCTCCTCTCCTAGGCTCTGGAGGAAGAACCTCAGCCACTATGTGTGTGTGT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCATGCTTGTACGCCTGTGCACAGAGGGTGGGAAGAGGGCTTGCACCTAAGTCCTAGGGTCCTGTTC
Celera SNP ID:            hCV27155735
SNP Position Genomic:     49884
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,6)   total(G,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20619):
GTCGGAGAATATGCTTGCTCCTCTCCTAGGCTCTGGAGGAAGAACCTCAGCCACTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
Y
GCATGCTTGTACGCCTGTGCACAGAGGGTGGGAAGAGGGCTTGCACCTAAGTCCTAGGGTCCTGTTCTCTGCACAGTTCTCTGCATAGGTTTCCGCACGC
Celera SNP ID:            hCV27155736
SNP Position Genomic:     49917
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20620):
ACTGTTTGTGTGCTTTGTATTTTCACTTTCATTTTTTGCAGCTGGACTTCAGAGCAAGACCTAGGAAGCAAAGTGCAGTTCAGACAGTGGGTCCCGGGGG
A
GGGGGCAGTTGTCAGAGAGCCCGGAGTTAGGTGTTTGAAGCCTAGTGAGCAGAGACCCATCCTGAGCATAAGGGCCAGGGCCAGGGACTTGGCCTTGGCC
Celera SNP ID:            hCV27155739
SNP Position Genomic:     53679
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20621):
GAAGGCGTATGGCATGGAGGCAGAATAGAGCATTTCATCTCCGTACTTGTCTAAAGCAAGTGGCTTCCAGGGTTGCTCATTTTCACCCACAATAGGAAGT
R
GGAGGTTGAGGTTTGCTGTCCGTGTTTGCCTCTCAGGTGTCTGAAGAGATGAAGGGAGAGGAGAGGTCTCCCATCACTGGTACTTTTTAGGTTCCTCTGA
Celera SNP ID:            hCV29368470
SNP Position Genomic:     561915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20622):
CAAACACTGAAGTGTTAACTTACACTGTGAGCATTCAAATCTTCAAATTCAATCATACTTTTTGCTGTGTGTGTGGGATTTCAGAAAAATGACTATTGTA
S
TAGACAAGCAAAAGACCAAATGTGGACCGACAGGCTATAACAGAATCACTCCTCGGAAAGCTAGGTGTGTCCTCAAATATCTCCACACTTGCCAACAGGC
Celera SNP ID:            hCV29368471
SNP Position Genomic:     220587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20623):
TTATATGTAAAAGAAGCACATTCACTATTTTTAATATCATGAATTATTAGAAAAGTTTGTTTATCCATCCATTAAAATTTAGAAACCATTTGGAATTATT
Y
GAAGCAAAGATACGGGTTCATGTTTTACCTGATAAATGTTTTATAATTTCATCTTCATTCATAAATGAAGATTGTGTGTGCACAGGTATTTTGTAGTTCT
Celera SNP ID:            hCV29368472
SNP Position Genomic:     562708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20624):
ATTCAAATCTTCAAATTCAATCATACTTTTTGCTGTGTGTGTGGGATTTCAGAAAAATGACTATTGTAGTAGACAAGCAAAAGACCAAATGTGGACCGAC
R
GGCTATAACAGAATCACTCCTCGGAAAGCTAGGTGTGTCCTCAAATATCTCCACACTTGCCAACAGGCACAGTCAGGAGGGTCTGAAGATACACGCTCCA
Celera SNP ID:            hCV29368473
SNP Position Genomic:     220619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20625):
TTAGGGTTCACTGTTGGAGTGTGTTCTGTGAATCTGGACAAATGTATAATGAGCTGTATCCACCACTGCGGTGTATAGGATCATAAGAAACAGTTTCACT
R
CCCTAAAAATCCTGTGGTCCACCTCTTCATTTCCCCCACCGCCTGAAATCACAGATCTTTTTACTGCCTCTATAGTTTTTCCTTTGCCAGGATGCCATAG
Celera SNP ID:            hCV16134120
SNP Position Genomic:     343291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20626):
AGGCACAGTCAGGAGGGTCTGAAGATACACGCTCCACTGAAGGGCTGTGGCTTTAGCAGGGGAAAAATGGAAAGTTCGATTTTCAGTAACTTTTGAAGTC
R
TTGGATAGAGCATGTGTTACCGACCACAGACTTGGACCTGGAACTCCCCACTGGCATCTAGCTGAGTGTCGTGAACTGGGACAAACTGATCTTTCTGGGG
Celera SNP ID:            hCV29368474
SNP Position Genomic:     220784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20627):
AAGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGATTGCGCCATTGCACTCCAGCCTGGGCAACAGATCTAGACTCTGTCTCC
A
AAAAAAAAAAAAAAAAAGGTTGTTTTGTTTGGTAAACAGAAAAGGAGCCATCTTAAGATAATGCATCTTTATTTAACAGTTATGAATAGAATCTCTCAAG
Celera SNP ID:            hCV11535330
SNP Position Genomic:     157921
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|A,9)   total(A,9|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20628):
GCTCCCAGTATGTAACTTAACTTATATATAACTTAACATTCTGTTTATGTTAAAAATTCAGGCACAGGACTACACCCAGGGACTACTGCAGAAACGTTTT
Y
TAAATAGCGCCAACGCTGAGGGGTCTTCGATTGGTGGCACCCGTGTTCCACGGTACAGCTAGGCCTTCTGTGAGATCCCTTTCCCCTTAATACAGAAATC
Celera SNP ID:            hCV16134121
SNP Position Genomic:     336003
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20629):
TAGCAAGCCAACTTGGAATCAGACTGAGAGAACCATAACTCACTTAGCCACCCTTCATGACTGGATGGTCCTCATTAGCACACTGCTAAATATGCTTCAG
Y
TTACTAGAGCTCAGGGCCCGGATCAGAAATATTCTGCTATAAATATTAAGCCAATTAGGAAAATGTACAAATGAGAAGTACGTTAACACTGCCTTTAAAA
Celera SNP ID:            hCV29368475
SNP Position Genomic:     567778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20630):
GTGGCAGTTCTAGAACTGAACAAGAGGGGCTTCCTGGTCGTGGACCCCGACGGGTGGGCATGCGGTAGATACCCAGCACATCCGAGGGAAGGATGGATGG
Y
TATTGATTTCCCTTCAGGCCATGCCAATATGTTTGTCAAGCAACAGATGCAATTCAAGTGCTACTGTGATCCAGGTGTGGCTCGCTGTTTAGGTAAAGAA
Celera SNP ID:            hCV16134122
SNP Position Genomic:     334748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20631):
TACTTGAAGCTAGGAGTTCAAGACCAGCCTGGGCAAAATAACAAGACCGTATCTTTAAAAAAAAAAAAAATTCTATTGTATTTCTTTCTGTACACTAGCA
R
TGGACAATCAAAATAAAATTAAGGACAGTTCCATTTACAAATAGCATCAAAAAGAGTAATATACTTAGAAATAAATTACCTGTACACTGAAAACTACAAA
Celera SNP ID:            hCV15811642
SNP Position Genomic:     571077
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20632):
CACTGCAGCCAAATTCCTGCCCTGCGGACGGCCCACAGGGGAGCGAGAGCAGGTGGAAGGTGGTGCCTATGTCCAGGGGAGCAAGTGAGCCTGAATCAGC
K
ATCATCACCACCAGATACTGGGAGTCCCTGGGAGAGATCAGGCACTTGACAAGCCCTGCCTCTTGGAATCCGCACAGCAAACCAATGCCATTCTTTCCTT
Celera SNP ID:            hCV29368476
SNP Position Genomic:     574037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20633):
TCCTGCTGAGGAGCATGGAAAGAGCCCTCCAAAAATTAAACCCACACTGCTGCAGAGGGACCCAGGATCAGCTCCCACCAGCTGATTGCTGGTATCCTTT
W
AACAGCACGTGAAAAGACCTGGAAGAGCCTCGCACCCTTCCTCGGAGAATTCTTTGGGGGTGTGGAAGGAATGAACTGAGAAAGAGGAATATGTTTTCAT
Celera SNP ID:            hCV29368477
SNP Position Genomic:     576600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20634):
ACACTGCTGCAGAGGGACCCAGGATCAGCTCCCACCAGCTGATTGCTGGTATCCTTTAAACAGCACGTGAAAAGACCTGGAAGAGCCTCGCACCCTTCCT
S
GGAGAATTCTTTGGGGGTGTGGAAGGAATGAACTGAGAAAGAGGAATATGTTTTCATTCTAAATTGCCAAACTATACCTTTCTAAACACATAAAATGAAA
Celera SNP ID:            hCV29368478
SNP Position Genomic:     576643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20635):
TAAGGAAAAATCACTACGCTTTTAAAGGAGAAAAACTTGTAAGAGTGAGACACTCTGAGCAAGTTCAGAAACATCGTTAAAAATTATAATGAAAAATACT
R
TGTCTACCTGTCATATTTGCTATAATGCTAAATCAGGTGGGCAGGACAAGTCTTCAGTATCTACAGAAATGCCTAGTATTGAGCTAGCCCATTTGAGAAA
Celera SNP ID:            hCV29368479
SNP Position Genomic:     579333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20636):
AATGTGGGGAAATACCAGGAGTGGACAAGCCACCTTCCCCAAACATGAAAGAGCCCAGTTTTGCTAAGGAGCTGTTGAAAAACTGGAAATAGAACAGCGC
Y
GTGGTAAGATTTGCCTTTGAGGTCGCCCTGTGGTGTGTTAGGGGCATTTAGGGGACAGTCAGGGAGACTCATTTGGAAGTTGCTTTGGTCACCAGCTGTG
Celera SNP ID:            hCV11527316
SNP Position Genomic:     304322
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20637):
CAAGTCGGAAATCAAGGTGTTGACGGGGTTGGTCCTTCTGCAGACTTTGAGGTTGAATCTGTTGCATGTCTGTGCACAGTTGTTCTGATTTAATTAGTGC
R
TGAATATACTTTATCCTAATCATGACCTGTGGCTGGTATACGTAGATGGCTGGGTTATGTAGATGGCTGGGAGGGTTAAGGTGGTGAGGGCCTTCCTGTC
Celera SNP ID:            hCV16272743
SNP Position Genomic:     234204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20638):
CCCAGACACTAAGAAGAGAAGGCACAGGACAGGCCACCATCCATCCCCTGCTGTCCCAAAACTGACAAGTCTCGTACCTCTGACAGTAAAACTCCCCGTA
R
GACTACAAGACGTGGGTCTTGGAGCTGCAGTTGGCCTCAAATGCAGGTTCACGAACTGACCAGAGCCAGCTGCTGCAGAGGCTGAGCTCATTCGCAGTCT
Celera SNP ID:            hCV16191753
SNP Position Genomic:     41576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20639):
TTGTGTGCTTTGTATTTTCACTTTCATTTTTTGCAGCTGGACTTCAGAGCAAGACCTAGGAAGCAAAGTGCAGTTCAGACAGTGGGTCCCGGGGGAGGGG
S
CAGTTGTCAGAGAGCCCGGAGTTAGGTGTTTGAAGCCTAGTGAGCAGAGACCCATCCTGAGCATAAGGGCCAGGGCCAGGGACTTGGCCTTGGCCTTCAG
Celera SNP ID:            hCV27155740
SNP Position Genomic:     53684
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20640):
GGCAGAGGTTTGGAGCTGGGTTGTGGGTGAGGGATGCAGAGAGGCTTAACCCAGAGAATGGAGGAAAAGGAGACCAGGAGAGTTCAGAGAGGTGAAGAGT
K
AGGAGAGAGCAGTGGCCAAAGTGGAGAGAGTTGAGTTTCAGAAAGCCAGCTGCAGAATGCAGTGCCTGACAGAGTGTGATGGGCCCCATCTCTCTCTGCT
Celera SNP ID:            hCV27155741
SNP Position Genomic:     64197
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20641):
GAGTCCTCCCATTCATGGTGCTTCAGCATCTCACTTAGTCAGTTGACCCAGCTGTGAAATGGATCTGCCTTTTCTTGATTATCTTCTTCTGGGAATGCCT
Y
TCATAGCTGAAATGTGTCTGTAGCTTGGGCCTAAGAAGGTGGGTGACACTGAACACAAGGCAGAGAGTTCATTGTCACAGGACTGAGCACAGCTGAGCGG
Celera SNP ID:            hCV27456203
SNP Position Genomic:     284489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20642):
GCATGGTGTGTGAGACTGCTTTCCCTTCCTGCAGTCAACTCGCCAAGGTGCCTCCCCAGCCCCAGCAGTCCGGCTTCTCTCCTTTCCGCTGCCCCATGCT
T
TCTGGTGGCCTGGCAGACTCAGGACTATCTCTGAGTCCTTCACAAAACCCTCCTCCACATGCCTTCTTTTGTGAAAACCCTCAGTCCTCTTTAAGAGCAG
Celera SNP ID:            hCV27155742
SNP Position Genomic:     74020
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20643):
CATGGTGTGTGAGACTGCTTTCCCTTCCTGCAGTCAACTCGCCAAGGTGCCTCCCCAGCCCCAGCAGTCCGGCTTCTCTCCTTTCCGCTGCCCCATGCTT
T
CTGGTGGCCTGGCAGACTCAGGACTATCTCTGAGTCCTTCACAAAACCCTCCTCCACATGCCTTCTTTTGTGAAAACCCTCAGTCCTCTTTAAGAGCAGG
Celera SNP ID:            hCV27155743
SNP Position Genomic:     74021
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20644):
ATGGTGTGTGAGACTGCTTTCCCTTCCTGCAGTCAACTCGCCAAGGTGCCTCCCCAGCCCCAGCAGTCCGGCTTCTCTCCTTTCCGCTGCCCCATGCTTT
C
TGGTGGCCTGGCAGACTCAGGACTATCTCTGAGTCCTTCACAAAACCCTCCTCCACATGCCTTCTTTTGTGAAAACCCTCAGTCCTCTTTAAGAGCAGGG
Celera SNP ID:            hCV27155744
SNP Position Genomic:     74022
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,5)   total(C,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20645):
GAATTGTCCACTGTGGGGGGCGGCTGAGGAAGCCAAGGGGTCTGGGCCTGTAGGGGAAGTGGGAGAGGAGAGAGGAAAGGACAAAGATGAAGGTGGAAAG
R
GGGAAGGTGACAGTGGCCTCTCAATATGCGGAGGGGCTTGAAAACAGGAGGGCTGTGCACTAGAGGATGCACTGGCGCAGAACTGAGACATTTCTGGAAG
Celera SNP ID:            hCV27155745
SNP Position Genomic:     79316
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20646):
TAGGGAAACTTAGGCACAGAGAGACTTTTGGTGGCTCTATAGGCAGTAAAGGGCAAAATGGAAAGCAAACCTGGCCTCTTGTACCTCTGAGCCCCGAATT
Y
TGCCCTCTGCCCATGTGAGCATGGTCTGTGAGCAAACCTTCCTGTGGATAGGTTTGGAGGATTCGAAGGACATCCCTGGAGGGGCTGTGCCCAGGTAGGG
Celera SNP ID:            hCV27155746
SNP Position Genomic:     81002
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20647):
TTTATAGAATTGAACACGAAAACCAGAGTTGTATATCTAAGGAAAACATGGTGTGACTGGCCCGGGATCCAAATTATTTGCAGCGCCTGTCGTCTTTGTT
R
ACTCTTCTCAGTTCTCTTTTTCTTTCCTTCTCTCTGTTTCTTTCAGTTTTGGTTTTTCTTTTTGAAGACGGAATCAAAGGGAAATTATTTTCATTTTCTT
Celera SNP ID:            hCV27155747
SNP Position Genomic:     81466
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20648):
GTGCCCAGTTCCATGAGAAGGAGTTGTTACATTTCTTCTTCCTAAAGCAGTGATCGGTGCTTCTGCCCTGGTGGAGAAGGCTTGAGCAGTCCCCGGCTAG
Y
GGCTGTTGCCACCTACAAGCCCCCGCCTCCATTAGGAAGCCATTTATTTATGGGGCCTAGGTAGGGGCAGGAGGTTCCTTTCAAGAAAACAACAGATTGC
Celera SNP ID:            hCV27155748
SNP Position Genomic:     81712
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20649):
AAAACATTCAACTTAATTTTCATAGGAAAAAGTCCTCTTATTTAAATTCTTATTTAGTCAGTGTGTATAATGTTTAATCAAATGATGTCATTATAGTTAC
T
ATTATTAAAACTCCCATTTCATCGATTTGTGTGATATTTAAGTGATGTGATAATAGTTAGAAGGAAGCGTATGGAAGAAAGTGTGGCAACAACACTGCTG
Celera SNP ID:            hCV27155749
SNP Position Genomic:     85015
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,11)   total(T,11|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20650):
GACATCTTTGGGAGCCATTTCCCTTCTACCACATTATTCTGACCTCTGTAGATACTGTGGCCCATGTCATCAAACCCCCATGACAGTCACAGCCCTGCCT
R
TTTCTTTCCATCCAGACAGGTGGTGCCTGTGGGTACATCTCAGCGTAGGGTGCAGACAGAGTTGTCTGTTGGAAGGAAAACCACATCGAATCGGGAAGGG
Celera SNP ID:            hCV29368480
SNP Position Genomic:     592984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20651):
GCTCAGTGGAGAAAATGGCCGGGGTGCGTGTCTGAACCGCGCTGCATTTGGACGGACACTTTGTGTGTCACATGTTAGTAGCTGCAGTGTGTCCTCCACC
Y
GACTGAGAGTCTGTGTATCAAGATAGGGGTAAATCCTTTCTGACCACTTGCAGACAGAAGTCACGCCTCGTGGTCCAAAGCCACCAAGTCATTACTTTTC
Celera SNP ID:            hCV29368481
SNP Position Genomic:     593332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20652):
ACTGGCAGAAGAGAGTGAGCGTAGCAACTGGGAGGTGGCCTGATGGCCTGCGCCTGTTGCCGTTGATGAGACCCAAAGTCTGGAACGAATCTGGTTCCAT
R
TAGAGTTCATGCTCACCCCGAAGTCCTTCTTTGGCACTGGAGAACAAAGAAGAGTTTGCACAGAAGAAAAGGGAGGTTGTTTAACCAGAAAGGCCCTCTG
Celera SNP ID:            hCV29368482
SNP Position Genomic:     601430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20653):
GATAGAAATATTCAGAAGCAGACATAATTATTTCAATTACTTCTCTCTGGTTTTTGAGACGCACACTCAAGAGTCACAAATTAGAAAATAATATTCACAT
R
TTTCTTCTAATTGGTAACAGATTAGAGGCATTTTATCTTTTTAAATAATTTCCAAATGTGCCCCAAAGAGACTGTGAAGGGAGGGAACAGAGGCATGGAA
Celera SNP ID:            hCV29368483
SNP Position Genomic:     602289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20654):
AAACCTGGCTGGGGCCAGAGTACCCGGGCACATCCTCGCTCTCCTGGGCCGCCTGGGGCCTGCACCTGCCGGGGGATCTGCCAGCCCCCATACCTGCGGC
Y
GGGCACATTTAACTGTGACTTGCAGAAGTAATAAGCCTAATATGGTTGACTTTATTTAATTAATAATGATCCTCTTCTGTTCCTCTGCGCTCATAAAACA
Celera SNP ID:            hCV29368484
SNP Position Genomic:     619703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20655):
AGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAACCGAGATTGCGCCACTGCACCA
M
CCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAAAAGTCAAGAGTCTTCACAATGAATGTTGACAGTAATACAAGGTCAGCTTTTTGTTTGCTTTTTAA
Celera SNP ID:            hCV11535340
SNP Position Genomic:     158756
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20656):
TGAAATGTGAAGTAAGTGTCACCTTTGGGTGGAGACACCAAAGACAGAGACAAGACATGCAGTGCCCTCAGCTGCATAAATTTTGCTTTTAAAATATTTT
Y
GTGGAGTAAAATTAGTGTTTAGTCTCATGTGAATTTCATCAGTGTGTCTATGGTGAGCATTTAAAATACGGTTTTATTGGAGGTGTGGTTCGTACTTTAT
Celera SNP ID:            hCV11527321
SNP Position Genomic:     303807
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20657):
CTGCAGGTTGGCAAAAACACTCATAATATTGATCAGAAGTCAGGCGGGATATTTATTTTGTCTTTGCCCCACTAGCATAAATCCTTGTCCACTGCCTCCT
S
CTCCCCGCATGCGGGATTTACAGTGGCCAGCTTCTTAAAAGCATTCAGTAATTAAGGAATAAATATCCATTGGCCTTTGTGGGCTGTGCTCCGTCCCTCC
Celera SNP ID:            hCV29368485
SNP Position Genomic:     619906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20658):
ACACAGACGCAAATTCTTCTTTTGGCCTTTTCGCACTGGAAGAGAGAGGGGGTTCCAATAAAAATGAGCACATTAGACTTGACCTGGAGTGCACTTTCGG
R
AAGGGGTGTTGCTCAGTGTTTTGTAGACGTGCTCAGAAAGCCACATTTGTGAGATTTGAAGGCTGAGGATGAAACCACCAAGAGACTGCTTTACAGCCCC
Celera SNP ID:            hCV29368486
SNP Position Genomic:     620547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20659):
TGAGGCAGGAGAATCGCTTGAACCCAGGAAGTGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCACCCTGGGTGGCACAGCGACATTCCATCTC
R
AAAAAAAAAAAGGAAAACGAAAGAAAAGCTCTCTCTCCCCACAACCCTGACTTGCACATTTTCTTCTGTAAACATAAATGCTTCTCTCCATCCCCCGTTC
Celera SNP ID:            hCV29368487
SNP Position Genomic:     624285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20660):
AAAGCCACCATGGTAGCTCCTCCTAATTGGATCTTGGGGGACTCGGAACAGGGTTTAGCCTGAGAATGTGACTTGTGAGAACCCCAGATGAGAGTAGTTA
S
ACTTTTCTGGAAGGCTTATTTAAAACCCCAGAACATTCTTGCATTGGAATTGAGTTGCATTGCTCTCTGGGATGGGCAGTGGGCTCTTGGAAGAGGTAAG
Celera SNP ID:            hCV11535343
SNP Position Genomic:     160715
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20661):
AAGTAGAATTGCGGCCTCCGAGTGACCATTTGAGTCTGTGTGCTTTGACATCATGGCTTCTTAGGGCAAATGCCTCTAGACGGAATAGTCTCATCGAGAA
K
AAGCCATTGTCAGCGTGTCCCTTGGTCATATGTGACTTGCGTATGGAGACGCTAGTGAGAAAGATGAAGGATGCTATCCAGAGTATGTGTCAGCTCAGGC
Celera SNP ID:            hCV29368488
SNP Position Genomic:     626235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20662):
GGACTGGATTCTGTTTCCTCATAATGTAGGCTAGCAAAAGGGCAGGAAAACCGCAGCCCTGCAGCCTGTTCTGAAACCTCAGGTCTGTGTTCCCTTAAGT
C
CTCAGACAGGGACTTTGCATGGAGGGATCTCCAGCCAGATATGTTATTCTCTGCAGGAATCAGTTAACCTTTTGGTAGCATTTCGGGGTCAGAGCCTCCA
Celera SNP ID:            hCV11535344
SNP Position Genomic:     183701
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,8)   total(C,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20663):
GGTGAGGGGAAAGCAGGGAAGCTTTCCCAAGAGAAAGTGAAGCCCTCCTCAGGTGAAAGGGGAGGGGTGCTCAGGTGACAGGAGCAGTGAAGTGTTCTTG
Y
GGCAAGTTCATGGACCTGCTGGGCCTGTTAGCTGCCAGCAAAGTTGTGTGCGAGGATTTGGAAGGAGACAGTTTGTTCCTAAAATGTTTGGAGTTGGGCC
Celera SNP ID:            hCV29368489
SNP Position Genomic:     227349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20664):
TGGAAGAGGGAAGTCCCGTAGCTTTGCCTGGCGTGGAAGAGTGTTGAGGAGCCTCACGTGCAGATTGAAGAATTGCCGGGTGAGCCTTCACCTTCAGGGG
R
TGGCAGAAACATTTCTGCTCCAGGATCATCAACTTTCTCTGCGAGACAGCTTGATGAGTTGAGAAGAAGTGACAGGTTCATCTTTCCCTTCTTTGTTTAA
Celera SNP ID:            hCV11527327
SNP Position Genomic:     297866
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20665):
CTACAGTCGAATGGCCAACTATCGGAACACGAGCGAGATTCCTCTGGTTCTGGTGGGAACCCAGGGTGAGTGATGTTCGTGTGCAGATTGTTTTGAAAGG
R
TTCTAACAGTTACATATTTTCAGTATGGAGGAGTTTAAAAAATGCTTTAAAGAAGGAAAAATTGCCTACTGAACGCTCACTTTTTTGGGAAAAATTATGG
Celera SNP ID:            hCV25962540
SNP Position Genomic:     256719
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,36)   total(A,1|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:20666):
CCAAATCCAGTCTCCAGCTCCTGGTCTCAAGTGATCCTCCTGTCTCAGCCTTCCAAAGTGTGATGGGATTATAGGCGTTAGCCACCACTCCCAGCAGCCC
R
ACTTTTAAAGGATTCTCTCTCAGTCTATCGCTTGATTTGCTTAACACCAGCCATTTAATATGAAAATGTTTAGGTGGGGGAGGGAATATCTTAATTATCA
Celera SNP ID:            hCV16272752
SNP Position Genomic:     272738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20667):
CTGCTTTAACATCAAAAGGTTTTCTTCATTGTTGTGTTATTGAATGAACTGAACAGCAGATTTATTTGCTTTAGCAAATGCGGCTGCCTGTGATGGTGGC
R
TAGGTGTTGAGTGTGAGCACACGAGCATGGCAGGAGCTCGCGGGAACGGGCCAACGCCCCACTGCCCCAGTCAGCCCTCTGTGGCCTCAGAGGGTAGCTG
Celera SNP ID:            hCV16272753
SNP Position Genomic:     251488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20668):
GACTTCTCCCTCATTCTGAGTCAAATCTAGGCTGTTGGGAGCCCGTGACCGCCCTGCTTCCTGTGGTGGGAGAAGGTGAGGGAGAGGAGATGCTCTCATC
Y
TGAGTGTCCTGGACGAGATGGGCCAGACCATTCTACCCACACTCCCATTTGCCAGACCTCAGCCACCTCCCCCAGCCAGCCCCAGGGGTGTTGGGGGCAT
Celera SNP ID:            hCV16272754
SNP Position Genomic:     244679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(T,565|C,866)   total(C,866|T,565) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20669):
CATTAAGATGAAACTTTAAAAATATAGGACTGTAGAAAGATTTTGTGCCAAATTAAACATATACTGAAACAAATAAGTTGTTTTTTGAAAACCCAGGGAG
S
TATCACACGATTGTTAATATTTTAGTGGAATTCCTCCTAAACGTCTTTCTGTACTTTTTTTTTTGAGACAAAGTCTTGCTCTGTTGCCCAGGCTGGAGTG
Celera SNP ID:            hCV491560
SNP Position Genomic:     141809
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20670):
TGCCCTGCACGGAGCTGTCCCTGGGCCAGCACCTGCTGCGGGCCACCGCCGACGAGGACCTGCGGACGGCCATCCTGCTGCTGGCACACGGCTCCCGGGA
Y
GAGGTGAACGAGACCTGCGGGGAGGGAGACGGCCGCACGGCGCTGCATCTGGCCTGCCGCAAGGGGAATGTGGTCCTGGCGCAGCTCCTGATCTGGGTAG
Celera SNP ID:            hCV25962549
SNP Position Genomic:     632220
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:20671):
AAACATTCAACTTAATTTTCATAGGAAAAAGTCCTCTTATTTAAATTCTTATTTAGTCAGTGTGTATAATGTTTAATCAAATGATGTCATTATAGTTACT
A
TTATTAAAACTCCCATTTCATCGATTTGTGTGATATTTAAGTGATGTGATAATAGTTAGAAGGAAGCGTATGGAAGAAAGTGTGGCAACAACACTGCTGA
Celera SNP ID:            hCV27155750
SNP Position Genomic:     85016
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,11)   total(A,11|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20672):
AACATTCAACTTAATTTTCATAGGAAAAAGTCCTCTTATTTAAATTCTTATTTAGTCAGTGTGTATAATGTTTAATCAAATGATGTCATTATAGTTACTA
T
TATTAAAACTCCCATTTCATCGATTTGTGTGATATTTAAGTGATGTGATAATAGTTAGAAGGAAGCGTATGGAAGAAAGTGTGGCAACAACACTGCTGAC
Celera SNP ID:            hCV27155751
SNP Position Genomic:     85017
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,11)   total(T,11|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20673):
AACTGGAAGGCTTTCTCCTTTAAGGACCAGTGTGATTCTAGGCTGTTGAATGATATCTTCAGATACCCGTTTGTCCTGTTGCTCTGCCTCCTCCGTGAGC
T
GTGCTCACGGGTGGCCAGGTGTTTGACACTAGTATCCAGAGACAAACTCAGACATGCGCCCTGGGCTCTACTCCTGGAACCTGGGAGAAAGGGCTGCCGT
Celera SNP ID:            hCV27155752
SNP Position Genomic:     87036
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20674):
ACTGGAAGGCTTTCTCCTTTAAGGACCAGTGTGATTCTAGGCTGTTGAATGATATCTTCAGATACCCGTTTGTCCTGTTGCTCTGCCTCCTCCGTGAGCT
G
TGCTCACGGGTGGCCAGGTGTTTGACACTAGTATCCAGAGACAAACTCAGACATGCGCCCTGGGCTCTACTCCTGGAACCTGGGAGAAAGGGCTGCCGTA
Celera SNP ID:            hCV27155753
SNP Position Genomic:     87037
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20675):
GTGAAACCCCGTCTCTACTAAAAATACAAAGAAATTAGCCGGGCGTGGTGGTGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGACACAGGAGAATGGC
R
TGAACCCAGGAGGAGGAGCTTGCAGTGAGTGGAGATGGCACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAGTG
Celera SNP ID:            hCV27155754
SNP Position Genomic:     91150
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20676):
GCTACTCGGGAGGCTGACACAGGAGAATGGCGTGAACCCAGGAGGAGGAGCTTGCAGTGAGTGGAGATGGCACCACTGCACTCCAGCCTGGGCAACAGAG
Y
GAGACTCCATCTCAAAAAAAAAAAAAAAGTGAACACTTACTTAGCGTATGCACCACATGGTGTAACCACCCACCCGTCTAGTTCCAAAACAATTTCATCA
Celera SNP ID:            hCV27155755
SNP Position Genomic:     91219
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20677):
CCTCATTTCTTTCTACAGCTGAATGATATTTCATTGTATGGAGGGACCACATTTTGTTTATTCATTCATCTGTTGATGGGCGTTTGTGTCCATCTTTTGG
Y
TACAGGGAACCATGCAGCTATGAACGTGCGTGTACAGGGATTTGCTTGAGTTGCCATTTTCACCTCTTTGGAGTATATCCTTAGGAGCTGAGTGGTTGCT
Celera SNP ID:            hCV27155756
SNP Position Genomic:     91637
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20678):
CTGAGGCGGGAGAATTGCTTGAACCCGAGAGGTGGAGGTTGCAGTGAACCGAGATTGTACCACTGCACTCAGCCTGGGTGACAGAGTGAGACTCCGTCTC
A
AAAAAAAAAAAAAAATGCACATTTGCATCAGTGATTTCATTCTGCCAGTGTTAAATGAAAATTGTTACAGGGAAGTTAGTTCTCAGGATCCATTGGGGAT
Celera SNP ID:            hCV27155757
SNP Position Genomic:     99687
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5)   total(A,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20679):
AGATAATTGGAGGAAGCAGTGGTCATTTTAGTGTTTGTGTAGCCAGGAGAGCACGGCCAGGACTCACTCTGAGTTGGGGTAGCCAGAATTCAGAGCATCT
R
GAGAGAGAGAGAGAGAGGCTCACCTCTTAGGAAAGGGTTTGGGAATGAGTAGGAAGTTATTTTCCTTTTTTTTTTTGAGATGGTATCTCGTTCTGTCGCC
Celera SNP ID:            hCV27155759
SNP Position Genomic:     101280
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|-,7)   total(G,1|A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20680):
AATTCAGCCTAATTTAGTTCCTCAGAAAGCTATAAAATGATGTCTTCACATGCCTCCCGATTAGACTGTTTCCCCCTTTTTCCTTAACAAATAAGTCCTC
K
TAGCCTTCACTGGGGGCAGGACAATTTTGAGGATGTGATTTCCTCACGAAAGTACCTCCCACACGCCAGCCAGAAGAGTGGTGCAAATCCATCCGCATGG
Celera SNP ID:            hCV1543900
SNP Position Genomic:     392055
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20681):
CTCCACCCTCTCCTGCGTGAGTCTGTTGCCATGTTTTCCTCAGCTGAAAGGGTTTGGAGACCCTGGGGAGTCCACACACACCCCCTATTTCGGAGTTTGA
R
GCTAAAAGCACATGGTCACCCCCAGGTGTGGGGAGCGCACCGGCTGTCCCTTCCCCCCACCCCCGGCCCAGCTCCAGCCAAGTGTCCTATAGCCCTCACT
Celera SNP ID:            hCV29368490
SNP Position Genomic:     631391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20682):
TTACATTCCTATTGAAGCATGTGTCACAATGCTTGAAGGAGTGAAAGAGAAGGATAAAGTGGTTGTGCAGAGAGGCCCTGCCTGTGCCACCCAGGAGCTA
Y
GTCTGAGAAGCCACGCCCACTTAGGGGCTGCCTGTGGACCCCTGGGGCTTCTGCTGAGGCAGGTTCCCACCAGAGGCAGGCAGAAAGCTGCCGGCAGGGA
Celera SNP ID:            hCV29368491
SNP Position Genomic:     632883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20683):
CACACGCCTGTAGTCCCAAGCTACTCAGGAGGAAGGAGGGAGGATCACTTGAGCCCAAGAGTTCAAGGCCACAAGGAGCTATGATAGCATCACTGCACTC
Y
GGCCTTTTTTTTTTTTTTTTTTTAAAGTTTTAATTCAGCCTAATTTAGTTCCTCAGAAAGCTATAAAATGATGTCTTCACATGCCTCCCGATTAGACTGT
Celera SNP ID:            hCV1543902
SNP Position Genomic:     391923
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20684):
GGGCTGTGGTTATAGTTGCTGTCCATCACTCTAGGTGCTTTCACCTAGGCAGAGCAACCGAAGTGCACTTTGCAGGGAGCTAAGAGGCTCGGCTGCTAAC
R
GCAGACGGGTTTGGGTGGGACTGGAGTGAGCTCAAGATTCTGTGCAGGCCTCACTTGGATCAGCTGCTCCTGTCCTTAGGGGTCAGGACAGGACTTCGTC
Celera SNP ID:            hCV1543904
SNP Position Genomic:     386415
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20685):
GGCCGAGGCTGGGGTAATTATACTGAGATAATGATGGTATCTGCTGTGTAGCCTCTTCAAGGTAGGTGGTTTATAAGTGTGGGAAAAAAAATTAAATACT
R
TGGGGTTTTTAAATGGCTTTAAAATTTTACATGTATAAGAATAAAATTCTCTGCAGCCACTCTTTGCTAAATATTCTCTGGACAATTATTTAAGACATTT
Celera SNP ID:            hCV11527332
SNP Position Genomic:     292764
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20686):
AAGGATCCACCCTGAAACTTCAGGGTTTAAGAAAATGATCATTTGACTGTTTCTTATAACACTGTGGCTGAGACCTGTGGACAGAGCCCAGCAGGGCTGA
Y
TTATCTGTCAGAGCTTCCCAAGGCACCAGGTGCTGCTAGGCTTTCTCGAGAATTAAACCCAGTGGAGATAGTGTTATTCCCACTGATGCTGTTAGCTAAA
Celera SNP ID:            hCV1543906
SNP Position Genomic:     383596
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20687):
ATCCGCTGTGGTGTTGATTGTTCCTTGTTGGTGATAGCCCTAGAACTGTGTTTCCCATCGTTGATACTTGCATTCACGTTTGCTAGTTCTCTCTTCTCCT
R
TGAAGACATGAACGTAGCTGCTCCTTTAATTACATTTAGCTAGTTTTAATTCAGAGATGGCTATTGGCCCTTTGTTTTCTTACCATCTTTTATTGTGTTC
Celera SNP ID:            hCV11535351
SNP Position Genomic:     189035
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20688):
TGAGCCACAAAAGGGCCAGGTAACTTGGTAAAGATCATGCAGGTCATAAATTGCCTCACTGAGCTGGGAACCCAGGCAGTCAGCTTCGGCGCTCCCCACC
Y
CTGTTAGGCAACCTATGAACATTTACCAAGAACACAGACTCATCTGCAAGGAAGCCTCAGTAACTTGATGAGGAGCAGCTAGAAGACTCGAGGGAGAAAA
Celera SNP ID:            hCV11527333
SNP Position Genomic:     290955
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20689):
GGGTGAAATGGTTTGCAGGGAGGCAGCATAGCAGCGGGGTAACAAGTATAAACCCTTGGTTTGTACCTCGAATCTTGCGCCTGTTTCTTCCCCTTACTGC
Y
GTTTGGGTTATCTATTGCTGGGTAATGAGCCCAAATTATAGTGGCTTAAAACAGTACCATTTTGGCCAGGTATGGTGGCTCACGCCTGTAATCCCAGCAC
Celera SNP ID:            hCV1543907
SNP Position Genomic:     381084
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20690):
TTGTTTGGAATGGTGAAAATGTTTTGAATCTGTTTCTGGTGTGATCGTTAGGTCCAAGATTTCACGTGACGTTGTGTGCCGGGTGTTGTGGTCAACACAC
R
GGAATGCTCCTTTATTCTCTGTACGGCCTTTGGGTGCATCATTTGAGTGGATGTTCATTTGCTTGAGACGATTGTCAGAGGGAATCTTGTGTGCCCTTTG
Celera SNP ID:            hCV11535352
SNP Position Genomic:     189492
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20691):
GATTGCAGCCAAAAGACAATTCTACTCTTTGCTCCACTGTAGAAAAGGTTCCTTGGGCTTAAAGCAAGATGTGCCTGCCTGGAATCCTGATATTTTGGTT
R
TAGGTCATTAAAATCAGTCTTTCTGATATGTCAGTAAATTAGGTGGTAGGAATTAGATCAACATTTGCCATTTCCAAGTAACATAAGAAGAATAATTTGA
Celera SNP ID:            hCV1543908
SNP Position Genomic:     380826
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20692):
TCTAGGAGAAAACTATTTGTAGAAGTCTTGAAAATTCAACTCATAAATAAATGCCCTTATTCTTGATATTATAGACATTTCTTCTGTAAAGTATGGCACA
Y
CTATAAACTAAAAATGCACATCTGGAAAATCCGTAAGGCAGAAATTCCAGCCTCCCCTATCCACAGCCATCAGAGGAGTCCCTCACACACCTGTCGCCAG
Celera SNP ID:            hCV11527335
SNP Position Genomic:     286056
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20693):
CAAAAGATACTCAAGTTCTAATCCCTGGAATTGACGAATATTATATTTTGTGTCCAAAATATAAAGGGTCTTTGCAGATGTGGTTAAGAATCTTGAATAC
M
TTCTGATTGGGCCCTGAAAGCAATTGCATGTATCCTTATAATAGGGAGGGAGAAGGGTCCACGTGGAGCAGAGGAGTTTGAAGATGCTGCCTGGATGTTG
Celera SNP ID:            hCV11527338
SNP Position Genomic:     282786
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,9)      total(A,3|C,9) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20694):
CCTTTTCCGGTCCAATGGCAGACACAGGGCTGGGTGACTCCGTATGCTCCAGCCCCAGTATCTCCAGCACCACCAGCCCCAAGCTCGACCCGCCCCCCTC
Y
CCTCACGCCAACAGAAAGAAGCACCGAAGGAAGAAAAGCACTAGCAACTTCAAAGCCGACGGCCTGTCCGGCACTGCTGAAGGTAAGGGTTCCGCGGTGC
Celera SNP ID:            hCV27469184
SNP Position Genomic:     480403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:20695):
GATAACAGAACCTGCCAGGATAGGCCACTCATTTTTGTTTTTGTTTCTGTTTTTTTTGTTTTGTTTTGTTTTAATGTGTGTGTGTGTGTGTGTGCGTGTG
Y
GTGTGTGTGTGTGTGTGTGTGCATTTTTTTTTTTTTTTTTTTTTTTGAGGCGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATCTCGGC
Celera SNP ID:            hCV27155760
SNP Position Genomic:     102150
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20696):
CATGGGGGTGAATCCTTCATGAATGTCTAGCACCATCCCCTTGGCGATGAGTGAATTCTTGCTCTGATAGTTCATGAGAGGTCTGTTTTGTTTTGTTTTT
R
ATTTTCCTTTACACAACAGTATACAGTATTAGGTGCCAAGAGACCTGGTTGTTTAAAAGAGCCTGCCCCCACCCCCACCCCCCACCACTTCTCTCTTGCT
Celera SNP ID:            hCV27155761
SNP Position Genomic:     103237
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20697):
GCCACTCAGCATGGTGGCCCAGGGCTGTGTGTTTGGTGCACAGTGGGACGTCTTAGTCCCACTACCTCAGCCAGACTCCTGGCAAAGTCTTTATTTTTTA
W
GATAATTTATTTTTAGATTTTATTCAAAATGAAAACCCATTTAAAAAGCACATGAGAAATGAGTTCTTTATTCACTCATCTAAATATTTAGGGCTGTGGA
Celera SNP ID:            hCV27155763
SNP Position Genomic:     110292
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,7)   total(A,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20698):
ACAGTTCTACATGGCTGGGGAGGCCTCACAGTCATGGCGGAAGGTGAATGAGGAGCAAAGTTACATCTAACATGGGGGCAGGCAAGAGAGCTTGCTCAGG
S
GAACTCCCGTTTATAAAACCATCAGATCTTGTGAGACTTATTTTCTACCACAGAACAGAATAGGGGAACCCACCCCCAAGATTCAGTAACCTCCCACTGG
Celera SNP ID:            hCV27155765
SNP Position Genomic:     112997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20699):
AAAGGTCACCTAAAATAGTTATAACTTAGTGACAAAAATAAATCCTCCCTTCAGAAGGCCAAGTCATGTTCAAGGTGGTAGCAAGCTGTGTATAGGTAGC
R
ACAGGGCCCCTTTGAGCATTACACGTGCACCTTGGGAGGAAGAGAGTGGAGAGCGGGCTCTGCCTGTATATTCTTGGAGATGGTGCATTCAGCACTGTCG
Celera SNP ID:            hCV29368642
SNP Position Genomic:     267864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20700):
GATAATTGAATCATGAGGGTGGTTTCCCCCATACTGTTCTGATGGTAGTGAATAAGCCTCCTGAGAGCTGGTGGTTTCATAAGGGGAAACCCCTTTTGCT
Y
GGCTCTCGTCTCTCTCTTGCCTGCCGCCATGTAAGATGTGCCTTTCACCTTCTGCCATGATTGTGAGGCCTCCCCAGCCACTTGGAACTGTGAGTCCATT
Celera SNP ID:            hCV27155766
SNP Position Genomic:     114668
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20701):
GCCAAGTCATGTTCAAGGTGGTAGCAAGCTGTGTATAGGTAGCAACAGGGCCCCTTTGAGCATTACACGTGCACCTTGGGAGGAAGAGAGTGGAGAGCGG
R
CTCTGCCTGTATATTCTTGGAGATGGTGCATTCAGCACTGTCGTTCCCTGCAGTTAGGTTTTGGAGAGTGTAAATTTTAGCCTGTCTTCAAATGCTTTGA
Celera SNP ID:            hCV29368643
SNP Position Genomic:     267921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20702):
TCATGAGGGTGGTTTCCCCCATACTGTTCTGATGGTAGTGAATAAGCCTCCTGAGAGCTGGTGGTTTCATAAGGGGAAACCCCTTTTGCTCGGCTCTCGT
Y
TCTCTCTTGCCTGCCGCCATGTAAGATGTGCCTTTCACCTTCTGCCATGATTGTGAGGCCTCCCCAGCCACTTGGAACTGTGAGTCCATTAAACCTCTTT
Celera SNP ID:            hCV27155767
SNP Position Genomic:     114678
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20703):
AGTTAGGTTTTGGAGAGTGTAAATTTTAGCCTGTCTTCAAATGCTTTGAGTTTCTCGTCTTCCTGAGTAGCGTGTTCGGAGCTTTCTCTGCTGCGGGTGG
Y
GGTGCCACAGAGGAACACAGGGGCCTGTGTTGTGGCATCTGTTCAATCGGGGAGACAGGATCAGGGTTTTTTTGTTGGTTTTGACATTCTTGAGCCAATG
Celera SNP ID:            hCV29368644
SNP Position Genomic:     268073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20704):
GGTTTCCCCCATACTGTTCTGATGGTAGTGAATAAGCCTCCTGAGAGCTGGTGGTTTCATAAGGGGAAACCCCTTTTGCTCGGCTCTCGTCTCTCTCTTG
Y
CTGCCGCCATGTAAGATGTGCCTTTCACCTTCTGCCATGATTGTGAGGCCTCCCCAGCCACTTGGAACTGTGAGTCCATTAAACCTCTTTTTGTTTATAA
Celera SNP ID:            hCV27155768
SNP Position Genomic:     114688
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20705):
TGGTTTCTTCCAGCATCCCCGAGATGAAGATGAAAAACTGTTGCATAGCAGGTGGATCTTGCTAGAAGCTCTCCAGCCATGTGATTAGTTTATTTGCTCA
T
TTTTTTTTTTCCTTTTAATATAAATATATCAGAATTCAGGCTGGTTTCAGAACCTGGCATCAGGAATGGAATTTAAAAAAAAAATTGGTTCAGATGTATC
Celera SNP ID:            hCV27155769
SNP Position Genomic:     115533
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,11)   total(T,11|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20706):
CCTCGTCAGGGAACACACTCTTGTTGATAGCAACAGCATGCAATCTCTGTTACAGCCTCTAAGTTGGAACAGAGAAGGCTTTCGTAGAGGACATTTGGTG
K
AAATGAAACACATCCAAGCTGTCCCACGTTAACTGTCACCTCTGTCACCCACATGCACTACCTATGTTTAGCAGGGCAGCCTCTGCCTGTGATTTGCAGG
Celera SNP ID:            hCV1543910
SNP Position Genomic:     373372
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20707):
ACCATTGAAATCTACTCCCTCGTCAGGGAACACACTCTTGTTGATAGCAACAGCATGCAATCTCTGTTACAGCCTCTAAGTTGGAACAGAGAAGGCTTTC
S
TAGAGGACATTTGGTGGAAATGAAACACATCCAAGCTGTCCCACGTTAACTGTCACCTCTGTCACCCACATGCACTACCTATGTTTAGCAGGGCAGCCTC
Celera SNP ID:            hCV1543911
SNP Position Genomic:     373355
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20708):
AATCAAATAATTGCAGGAAGATTCTGCTATTCAGCCGTTCTTTTTTGAGTAATCTTAAATAATTAAAGGAAGAACAACATGCCAAATGATGGTTCAATTA
R
CATGTATAAAAATAAATATTTACCAAGACTGCATTATTTGCCAAAACGGAGATGTGCAATTATTTAATATTGTTGATGGGGCCCATAAAACAAATAGTAC
Celera SNP ID:            hCV1543912
SNP Position Genomic:     372660
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20709):
TTATTCTCATTTGTGGAATTTCTCAAAAATACAGCAACTGACTGAGATTCCAAACAGCTCACAATTAAAGACAGTACAATGTTTTGCTTTACAGAGAAGT
R
GCAGTAGTACAGATTCTGTTTTTTTGTAATAAATGTTTCTGACATTTTAATAGTGAAGTAAATTAATCAAATAATTGCAGGAAGATTCTGCTATTCAGCC
Celera SNP ID:            hCV1543913
SNP Position Genomic:     372495
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20710):
TAACTTTGTATAAATTCAAATTGAACATAATCCAGACTATATAGCAATCTTTAATGAATTCCATCATCAACATTACCACATAAAGGAAGTTAAGTTGGGC
R
TATAAAATCGTAATTCAGTAAATTTTTCTTTAGTTAGTAAGCAGATTAGTATTCATTGCTAAGATGCATTTTATCAACGGTTTTGGTAGCGTTAGTTAAA
Celera SNP ID:            hCV1543914
SNP Position Genomic:     370027
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,9)   total(G,5|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20711):
ACTGTCTGCCCATGTTGGGAGTGTGAGGCTTATACCCAGGGCTGCTTCCTGGGTGATCTTGGGGGATTTTCATTTTTCTGGTACAGGACTGGAGAGTTTA
Y
GAGATACACCATGACGGTACAGCATTTAATTTAGTATCACCACTTCGGGAGAATGTGTATCTTAATTGCTAAAATCTCTAACTTTGTATAAATTCAAATT
Celera SNP ID:            hCV1543915
SNP Position Genomic:     369848
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20712):
CTTTCATGGATTATCACAGTCAGTGCTAGGATAATTAAGCTCAAAGTGGCAGATTCCAATGCTTCAGGAATGTCTGACCCCTGTACCGAGATGGTGTGGT
R
AGCAGGAAGATGGGGTCCCAAAAGATACTCAAGTTCTAATCCCTGGAATTGACGAATATTATATTTTGTGTCCAAAATATAAAGGGTCTTTGCAGATGTG
Celera SNP ID:            hCV11527341
SNP Position Genomic:     282667
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20713):
TGAGTGCATGTCCGTTGAGCAGCTTCCCACCCTGATTGCAGCTGTTCCTTTTTAAACAGAACCTGCAGAAGTGGATACACCAAGAACATGGATGCATTGC
R
TGTCACATGTATACATTGTCTGTTTCTCCACATATACACCATAACAGAAATGACACAGAAGAGCACCTCCTCGGTTTGCCAACTAGCTTTTGTATAGCAG
Celera SNP ID:            hCV1543916
SNP Position Genomic:     369450
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20714):
GCTGTCGTAGATCCTTTGACGAGCGTCCCCAAGGAGACCTCAGACACAGGTTCCTGCCTTGCAGGGTCCTGACCCCGACCCTCCCGTTGCTCACAGTGTG
W
GTGCATGTCCGTTGAGCAGCTTCCCACCCTGATTGCAGCTGTTCCTTTTTAAACAGAACCTGCAGAAGTGGATACACCAAGAACATGGATGCATTGCGTG
Celera SNP ID:            hCV1543917
SNP Position Genomic:     369352
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20715):
CACTGTATTTAATGGGCCGGGATTTGTGTAAGTGATCTCCATGGAGACGCAGGTGGTGAGCCTGAGATGCTACACTTTAGAGCAGGAGTCATCCACTCCC
R
GATGGCAGCCTGGTACCAGTCTGTGGCCTGTTAGGAACCGGGCCACACAGCAAGAGGTGAGCGGCGAGTGAGTGAGCATTACTGCCTGAGCGCTGCCTCC
Celera SNP ID:            hCV1543918
SNP Position Genomic:     368937
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20716):
CTATGAGGTGTGGGGCTTTGCCAGAAGTGCCAGGGAGGCTGTAAAATGTGTTTTGGAGGCAACCTCAGGCTGGTTCTTCTGGGGACCTCGGTGTTGGGGG
R
ACGGCCTGTTTCTGTAGCTTGGGATGAACTTCTTCCCTGCATCTGTGAACAAGCTTGTACTCAGCCTGTAGGTTAACAAGCTGGGGCCAGAAGGCTGTAC
Celera SNP ID:            hCV1543774
SNP Position Genomic:     211837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20717):
CATTGAAACTGTGCTGGTGAACTTCTGCTAAGTCCTACATTTGAAAGTCATCAGCGGATTATGTCTGATCCAGTTTGCAGCGGGCTCTTTTCCGGCTGCG
W
TGAAATGGATTTCTTTATTCTATTTAAGACTCCACTTCCTTCCTCGGCACAGAACTGACAGGCTGTGGCAGCCACAGCCTCCTCCGATGCTCCTCTCCTC
Celera SNP ID:            hCV1543775
SNP Position Genomic:     213645
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20718):
TAATGAAGATGAGGTCCTGGCTCCCTTGTCTAATGAAGAATGTGGGGGAGCCTTTAGCAGAAGGCTCTGAAATCCCGAGGAAGGACGCAGTGGAGGCACC
R
CTGGACAGGAGCTGCCTTCCCTGGTCCTTGCAGCCAGGCTCCTGCAGCCTGGGAAGGTGGGGCTTCCTCATCTCAGGTCCAGAATCCTCTGAAAGTTCTC
Celera SNP ID:            hCV1543776
SNP Position Genomic:     214282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20719):
CTTCCCTGGTCCTTGCAGCCAGGCTCCTGCAGCCTGGGAAGGTGGGGCTTCCTCATCTCAGGTCCAGAATCCTCTGAAAGTTCTCTTCCTTGACCATAGT
S
CTTGGGCCCTGTTCCCTTGTTGGTGTTGTTTGCTGAGGTAGAATGCTAAGATAGGCCAACTGGAGTCATTTCCAGGATTACTTCCCATTCTAGAATTTTT
Celera SNP ID:            hCV1543777
SNP Position Genomic:     214398
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20720):
CCTGTTCCCTTGTTGGTGTTGTTTGCTGAGGTAGAATGCTAAGATAGGCCAACTGGAGTCATTTCCAGGATTACTTCCCATTCTAGAATTTTTGGTATAT
R
TTGGTAGTCATATCACATGGATGACTTTTTTCATACACGTTTATGTGCTGTAGGTTGAACCCCACTGTGAAATTGCCACTATTCAAACATATTTGACCAT
Celera SNP ID:            hCV1543778
SNP Position Genomic:     214506
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20721):
GGGACTCCTGTGAGAATGCTGATGGGTGCCGCCTCCTCACCTGTGTGTCGCAGGTGTAGGCGATACCTGGGAAGCCGTTGTACGGGGCTGGCATTTGCTA
S
TTTTATAAGATGTCACAAGCATGACCCAGGAGCACACCCCATGAGAGTCACAGTGGTACCAGCACCTGCTGGCTGCTCTCTGCACTGATGACAGCTGTTA
Celera SNP ID:            hCV27517699
SNP Position Genomic:     342870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20722):
ATTTTTGGTATATGTTGGTAGTCATATCACATGGATGACTTTTTTCATACACGTTTATGTGCTGTAGGTTGAACCCCACTGTGAAATTGCCACTATTCAA
M
CATATTTGACCATATTTGTGCCTCCAGCACAGCAGCGAGTACAAGTAGCACATGTGCCTGTCTCCAAGCAGGAACATCTCCTCCTGGCTGTGGTCAGATT
Celera SNP ID:            hCV1543779
SNP Position Genomic:     214593
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20723):
AGCTGTGTGTAGGACAGGACTTCGTAACACCCGGCTTGTGCGTGTGTGCGGTACCATAACGTAGCGTGTTGTAGGGCGTCGAGCAGCTGGGCCGGGGGCC
R
CCAGCCAGGCGGGGCTCTGGGTTCCAGTGTTAGAGGTACATGGTGTTACTGTAAGGAGAAGTTGCCAAGCTCCTTGGTGACCCTTTCAAAGGCAAGAGTA
Celera SNP ID:            hCV27511956
SNP Position Genomic:     564977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20724):
AACCATTTTTGAAAATGAAGTTATGCTGATGTCATTTAATGGTACGTCATCATAATTGGCAGCAGAGAAGGTTGCACATCACTCATGGCAGATCCATTAC
M
TGGGCCATGGGCCAAGCTGTGCACCAGGTGCTGGGAGGATACCGGTGGGCGAACCAGACCTGCAGGAAAATACATGGAAATGGGGACAAAACAGGCATTT
Celera SNP ID:            hCV27511957
SNP Position Genomic:     248275
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,28|A,1457)   total(A,1457|C,28) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20725):
GCCATGTGATTAGTTTATTTGCTCATTTTTTTTTTTCCTTTTAATATAAATATATCAGAATTCAGGCTGGTTTCAGAACCTGGCATCAGGAATGGAATTT
W
AAAAAAAAATTGGTTCAGATGTATCATTCCTCCAATTGGCATATATAAAAAGAATAGTGTGGCTCTTGCCTGGTAATACTGGCACTTTGGGAAGCCAAGG
Celera SNP ID:            hCV27155770
SNP Position Genomic:     115608
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,10)   total(A,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20726):
TCTCGTTATTTTTGGAATGATTGCAGGGTTGGTTTAAGATTGCCATGACCACATATTAATAGTTGCACTGAGAAACAGGCGTAAACAGAGGTTGTCCCGG
R
AAAGGCAGAATGAATGTCACCCACCCTGGGGAAGGTGGCTCGTGTCACTACCCTTTGCTACAGCTGTTGTTTCTCACTGATTCATTCTCGGGAATCGCTT
Celera SNP ID:            hCV144200
SNP Position Genomic:     463462
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20727):
GACAATGCTGTCAGTCATCGTGAGACAGAGTAGCATGGAACTGAAAAATGTGTAGCAGGTTTTCAAACCTCTTACTTGCCCAAAGCTTAGTCAAAATTAT
K
AGATTTCCTCTGAACTTTGTTCTTCTCGTTATTTTTGGAATGATTGCAGGGTTGGTTTAAGATTGCCATGACCACATATTAATAGTTGCACTGAGAAACA
Celera SNP ID:            hCV144201
SNP Position Genomic:     463338
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20728):
CCCTTGGTCCTAGCACCTCTGCATTATGCACCCTGGCAGGACATCAGCCGGCTGGCTCTGCCACCCCGCATTAGTGTCCATGCACCTTGGTGGAGAAGTC
R
CTCTGAGCAGCTCTGATTTCAGAGGCCTCACTTGGGAAATGAGGGTGCGGTGTTGCTTCTTGGTTTCCTAAGGCTGCTGGCAGGTAGGGCTTTACAAAGA
Celera SNP ID:            hCV1543920
SNP Position Genomic:     362374
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20729):
CTTCCCGCCCCTGGAGGGGAGGAAGACGAGCATGGTCTGGGCGCCCAGTGCTCCTGTCCCCATCTCACACATGTGTGGAACAAGCCACTCACACCCTGAC
R
TGCTCCCCTCTCCCTCTCACCACGACTCTTTCTTGGTCCTGCCTTTCTCACTTTTCCCTCTCAGCCTTCTTCATAGCCTCTTCCTCTTCCATGGAGGACA
Celera SNP ID:            hCV1543921
SNP Position Genomic:     361743
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20730):
ATGGAGTGTCCAGCCTCACCCAGCCCCTCGCCTGGCCCTTCTCCCTTCCTCATGGCCGCTAGGGCAAGCCCTCACTTCTCCAGGACAGATGGCCTTTCCC
Y
GCTCCACCGTCCACTCTGCTTCCCGCCCCTGGAGGGGAGGAAGACGAGCATGGTCTGGGCGCCCAGTGCTCCTGTCCCCATCTCACACATGTGTGGAACA
Celera SNP ID:            hCV1543922
SNP Position Genomic:     361624
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20731):
ACACTTGGCACAGAATCTTCTTCCAGGCAGCCTCCTGGGCCGCCAGTGGTGTGGAGCTGGCCGAGAAAGGAGCCTGCTTCCCAGCATGGCCTCACATTGT
S
ATCAGTGTCACTCAGGACCTTGCCCGCTGCCCCAGCTCAGAGCTTGAACCTCTCCCTCTTGGAATCTGGCAGGAGTCCCCAAAGGACCACCCAGGCTCAG
Celera SNP ID:            hCV1543924
SNP Position Genomic:     355794
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,7)      total(G,7|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20732):
TACCATGTTGTACTTCAGAAGGGCCATGCTGGCTGCAGAATGGAGGCTGTTGGAGGGCAGGAGCCCAGGCAGGAGGTGGTCGGTAGAGCAGCATTCCCAG
R
GAGAGCCTGGTGGGCTCTCAGAGTTGGGGGCTGCAGGAATGGAAAGGAGAAGACATATCTGGAGGCTTTCGGAAAGTAGAATAGATAGGACCGATGGACA
Celera SNP ID:            hCV1543926
SNP Position Genomic:     352475
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20733):
ACTTACAAGTGAAAAATCCAGTGCCTAAGACTTTCTGGTGAAATGTTGCCGCTCGGGAATTTCAGTTGGAAACATAAAGCCATTCATTAAGCTAACGCGG
R
TGTACGTGAGGTTTATTCAAGAGATAAATTGCTGGTGTGTTGGTGTTTAGAACATCAACTCTGTCGGATATTTCATGTGACCGAGGTCTGAGCATCAGAA
Celera SNP ID:            hCV1543927
SNP Position Genomic:     350841
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20734):
GACAGTCTCTTGCAGCAATAGCAATAGTGAGAGTATCAGCATTGTCATGCACTGGCTTCCCAAGCCTCAGTTCCCACAGGGTGACACCAGCACACACAGT
R
ACTCATGTTGTAAGAGGAACCCCAAGCTTAGGAAACCCCATGTGTTTAATAAGAGCACGTAAGCAAGCCTGTCCAAAGTTTGCTGTGGAGAGCGACATTT
Celera SNP ID:            hCV11534717
SNP Position Genomic:     436570
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20735):
GGTCAGCAAGAGCGAGAGTCTCCGAAGTTAGACAGGCATCCGGAGAAAGGTGGATGTGGAAAGTGAGGTTGACTTCTGGGCGCATGTGTGGAATATCCAG
K
CCCTTAGAGGCTCGGGTCGAGTGGTGGAGGATGAGGCCCCTCTGCCATAGGGAGAGCCTGTCTTAATCACGCCACGCAGGTGGAACAGACTCTATGCAGA
Celera SNP ID:            hCV1543929
SNP Position Genomic:     346669
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,9)      total(G,4|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20736):
CACCCCTCACCCCCGATACACTTTTTAGAAATGCATTTGTGAGGATCCTATCCATCTCTGTATCGCACCTGGCTGTCATCACTTGATAGTAGCCTGGGGA
M
TTGGGGAATCCCCACTGCAGTATGTTGAGCTTCAGTTACTGGTTTTACTATTCCATGATGTGGCTATATCCACAGTTACTTAACCAGGGTGTGGTTTGTT
Celera SNP ID:            hCV1543783
SNP Position Genomic:     218537
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20737):
TCTGCAAGAGTAGTCGATAACAGAAAGAAGTGTTTTCCAAATTAATTGGTAATGCTGTTCACTGATGGTATTAAGACACAATTAGTTACCACTGACTGAG
Y
GCTTGCTGGGTGTCAGGCCCACGCTAGTGCGTTCCTCGCATCATCTGTCCACGGGTAATGTTTGTCTGCAGCATGTTGGGGTGGTGTTTGGGTGCACAAT
Celera SNP ID:            hCV1543784
SNP Position Genomic:     218878
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,22|C,36)   Chinese(T,3|C,17)   Japanese(T,6|C,32)   African(T,9|C,49)      total(C,134|T,40)no_pop(T,3|C,4)    ;(T,-|C,-)   CEL_caucasian_CEPH(T,132|C,183)   CEL_african_american(T,9|C,49)   CEL_asian(T,9|C,49)   CEL_caucasian(T,22|C,35)   total(C,316|T,172) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20738):
CCCACTGGCATCTAGCTGAGTGTCGTGAACTGGGACAAACTGATCTTTCTGGGGTGAGAGTGACACAGGGAGGCTTGTCTGCACCATCTTCAGTGACCTT
Y
GGATGTGAAAATGGCCCATTGGAGGCATTTTGACTTGGCCTTTACGTGAGTTATGGTGTCTGACTTTGTGTCCTCCTCTTTTTCAGATGCCTTCGTGAAC
Celera SNP ID:            hCV1543785
SNP Position Genomic:     220931
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20739):
GCTTCTGTCATGAGTCACCAAGCTTTGGTATCCATCATTTTTGAAATGTGACTATTTACCCTGTGACCAAGTATTGGCATGAAATTAAAATTTTTGTCTT
K
TACGAACCTTACCCTTTCGGTGAAATTATGTAGAGCTTCAAATTGGCACGTGTAAAAAGTGGTCCATCGCAGCCACCCTTTCCAGCCGCTCCCCTCTACC
Celera SNP ID:            hCV1543786
SNP Position Genomic:     221583
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20740):
TCTGGTTAATACAATGGGGAAGAATTAAAACCTTTGGCATAACAAAGCTTTTGGTCAGTTCTATAAGCAAATGCCATTCACAGCCTCCTGAGTGATACCT
K
TTTCTAGGCACTGCTTGGTTTCTGGGTGCCCTAGACAGGGAGTATCCCACCGGTTACACTCTCTGTCACTCGCCATCATCCTGAGGATGCTGTTTCCATA
Celera SNP ID:            hCV27939003
SNP Position Genomic:     359890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20741):
CATGAGTCACCAAGCTTTGGTATCCATCATTTTTGAAATGTGACTATTTACCCTGTGACCAAGTATTGGCATGAAATTAAAATTTTTGTCTTTTACGAAC
Y
TTACCCTTTCGGTGAAATTATGTAGAGCTTCAAATTGGCACGTGTAAAAAGTGGTCCATCGCAGCCACCCTTTCCAGCCGCTCCCCTCTACCGTAGGATG
Celera SNP ID:            hCV1543787
SNP Position Genomic:     221591
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20742):
GGTGTGCTAACTATGGGGTGGGAAGAGAGAAAAGAAGGGCACAAGAAAGAAAAAACAATCCGTAGTGAGTAAAATGCTGAAGGCTTTATTACATTAGTAC
R
TTACATAAACTCATGCATTTATTCAAAAAATATCTATAGGCCAGGTGCAGTGGCTCACGCCTGTAACCCCAGCACTTTGGGAGGCCAAAATGGGTGAATC
Celera SNP ID:            hCV27939004
SNP Position Genomic:     422455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20743):
TGTCATCGTCATAGTGGGGACACACTGAGAGGTTACTTTCTACCAAACTGTTTCCTAATTGCACTCCCTGCATTGTCTTATTCAGTCCCGACTTTCCCAA
Y
GCCTCGCAGCCCGATGATACAGAGACGGGGCAGCAGTGGAGAGCTCGGCTCAAAGTGCGAAGTTGTTTAGATTTCCACGTTACACAAACACACAAGCTTC
Celera SNP ID:            hCV16193393
SNP Position Genomic:     506487
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20744):
TTTTTGAAATGTGACTATTTACCCTGTGACCAAGTATTGGCATGAAATTAAAATTTTTGTCTTTTACGAACCTTACCCTTTCGGTGAAATTATGTAGAGC
Y
TCAAATTGGCACGTGTAAAAAGTGGTCCATCGCAGCCACCCTTTCCAGCCGCTCCCCTCTACCGTAGGATGGAAGGAAGGGGCAAGTCTAACTTTGAAAC
Celera SNP ID:            hCV1543788
SNP Position Genomic:     221620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20745):
CTGTTCATTCTGTCAACATCCCTTGCAAGATACTACCTTAAGTCTAAGGTAGTATCTTAAGGTAGTATCTTAGGTAGACTTAAGGCAGTATCTCCCCTTT
Y
CATCTATTCTTTATCTAGATGGGCCTAATTCCAAAGTCTAAAAGCTGCAGTGTCCCCTGGAGCCTCTCCTGTACCTTCCAGCAGCGGTGGGCTCCCTGAC
Celera SNP ID:            hCV27939005
SNP Position Genomic:     436074
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20746):
ACCTTACCCTTTCGGTGAAATTATGTAGAGCTTCAAATTGGCACGTGTAAAAAGTGGTCCATCGCAGCCACCCTTTCCAGCCGCTCCCCTCTACCGTAGG
W
TGGAAGGAAGGGGCAAGTCTAACTTTGAAACAACCAGGTTCTTTGTCGTGAAATATGTGGCATTTGTGTGTATGGTTATGTATCTGTGTATGTATGTATA
Celera SNP ID:            hCV1543789
SNP Position Genomic:     221689
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20747):
GGACAGACAACCTCGTCTTGCAGGATCATTTACCTTTTATATTATGACCTAGCCACTTCTCATGGCTCTACCACACCATCTTCCCGAGAGAGCCTGTGCC
Y
GCCCCACAGTCCCGGCTGAAATGGCAAATGCGGTGTAGGACTGTGGTGCACACTGCCCATGACGGGCTACTTGGACGGCTCATGCCCACCTCTGACTAGT
Celera SNP ID:            hCV16193394
SNP Position Genomic:     599356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20748):
AAACACTACAGCAGGCAAGAAGAGTTAACCTGTCGTAAGTCAGGAACACGTTGGGGTTGATTAGGGAGCTGACCGTTGGCCAGCTCATGCTTTGGGAACC
R
GAGGGCCAGCCTGGCTGCCTGCTTTGCGGGCTTAAGACCTGCCTCTGGAAGGGTAAGGGCCTGCCCGTCCAGATAAGTGCTGCTCACCTGCATTAAACAA
Celera SNP ID:            hCV16193395
SNP Position Genomic:     525388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20749):
TACTTGCAGTTAGCACTGTAGCTACTAGTTCAGTTATGTGGTTTATCCCTGGGTGATTTGGCAATGACTATTAAAGTCAATCGGAGCGGAATCAAATAGT
Y
GTGGGATTTTAATGTCTACCAAAAAATGAGAGTTAGCAAATTGGAACTGGAAAATCTGGACGCATCCTTCACCGTCATCCCTTTTCATTTAATTGACGTT
Celera SNP ID:            hCV27477366
SNP Position Genomic:     629496
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   JBIC-allele(C,329|T,1160)   total(C,329|T,1160)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20750):
ATGTGTATCAGCTTGTCAGTTCGGATGAGGTTGCCTATGAGGTGAGATGTGAGGACAGAGAATCACTCCAGCAGTTCCCGGGGAGAACATACTGACACAG
Y
GAAGGGTTCAGGAGCCGCAGGTTCGTACTCATTCTTTGGCTGGGGTGTGGGAATATTAAAAAGAAATTGAATACTTGCAGTTAGCACTGTAGCTACTAGT
Celera SNP ID:            hCV27477367
SNP Position Genomic:     629324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20751):
TAACTAGGTTTTAGGGGTTTAAGAAGGGAGCCGTCAGCTGTGTGTAGGACAGGACTTCGTAACACCCGGCTTGTGCGTGTGTGCGGTACCATAACGTAGC
R
TGTTGTAGGGCGTCGAGCAGCTGGGCCGGGGGCCGCCAGCCAGGCGGGGCTCTGGGTTCCAGTGTTAGAGGTACATGGTGTTACTGTAAGGAGAAGTTGC
Celera SNP ID:            hCV27477368
SNP Position Genomic:     564942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20752):
TGGTCCATTCCATCTTGTGCAGAAGATTCATTCTGACAGTGGAATATAATTAGAAATGCGTCGTTCAGCCTGCCCCCACCCCCAAACACACAAACACACA
Y
AGATTCAAGACCATGGGGAAGTAGAACACAGCAGATCTTCCTCCAAAGAGACCGCCGCACACTGGAGTCACCTATTCGTGCGGCCAGTTAGGACAGCAGG
Celera SNP ID:            hCV27477369
SNP Position Genomic:     564211
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,16|C,1467)   total(C,1467|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20753):
ACAGTGCATGGCTGGAGAACAGCAGGATGTTGGTATCTGTTGCACATGTTTCAGCCTGTTTCTACAAATCTGCCTTTTTCTTCTAACATATGGGTTAACT
R
CCATTTCTCTTTGCTAATTTTACAATAATATCTTTGCATTTTCCCCTAATAAAAAAATTAAATTTTAGAAACATTTAAAATGCAGTTAAGCTTTTTGGTT
Celera SNP ID:            hCV97321
SNP Position Genomic:     457401
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20754):
AACCTGCGTTTCCCTGTTTGTTCTGCCATGGGGCATGAGGCAGCGCCTGGCTGACCTTGGACTTGCAGGCAGCCTCTGTGCATCCCCTGGCCCCTGGCCT
Y
GTTGTTAGATGGTGCATTTCGTTTTCTGGAGAGAGAGAGAGAGCTGGACCACTGTGGCCGTTGTCAGAATTCCACTTTCGTCATCAAGGATTCATTTTCT
Celera SNP ID:            hCV1543930
SNP Position Genomic:     341063
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20755):
ATAATAGCATAATCCCCATTTCACAGACAGAATGAATGCTCAGAGAAGTTGAGCCACTTACTCAATGTCACTCAGCCTGGGAGTGGTAAACTAACACTTA
Y
GCATTGTATGGAACTGCCCACGAGTCACGTTTGTTCTATGAGAAGGCAGAAAATACCTGGGGAGGTCTTGCCCAGGGGTGTGTATGTCTTAATTGATAAA
Celera SNP ID:            hCV1543931
SNP Position Genomic:     340333
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20756):
TATTGCCCTTCCCGTGATCACTTATGCATATAAATATCATTATGCTTTTGCTTAACTGGGGCAAAAATCATGTGCATTATTTCAGTGTCTGCTTTTAAAA
R
TAGATGGTAGTATTTTATTTTCAGTTAGGTGAAGCAGAAAAATGTATCCAGCAAAGTCTTCATTAAAAAGCTTAAGATGGCTAGAACTAAATATACATTG
Celera SNP ID:            hCV1543932
SNP Position Genomic:     337413
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,10)      total(G,10|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20757):
CTGAATAGTACCAGGATGTACAGCCATTAAAATGGCCAATTTGAATACCCTTTAGAGATAAGTGAAAGCATAAAACATAAAACTGTGTATAATAATTGGA
R
CATGAAAATATGTATACATGTGGCTTTAAATTGGATGAATAGGAACGCAGTAACAAGTGAACTGGGGTAGGTTTAAAGCAGAACTTCAATTTTTTTTTTT
Celera SNP ID:            hCV1543933
SNP Position Genomic:     333137
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20758):
CTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCAGGAGATTGTATTTCTGTGTTCTCAAGTGATGCTGATGCTGCTAATCCAGGAGCCA
Y
ACTTTGAGATCCCCTTTCTAGGCACATGGAGTCACTTAGGGCTTCTTTCCTTTCCCGCCTCACAAATAGATGACTCTTTGATTCGTACCAGCCCCTTTAA
Celera SNP ID:            hCV1543935
SNP Position Genomic:     331314
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20759):
CTTTTGTGTGCTTTGTCACCGCGGCACTGGCAGGGTGTCTTAAGCCTATTGAAGCCGTCCAGGAAATGTGCGTTGAATGAATGGCACAGGCTTGGCAATG
Y
TGTTACCAGGAGATTCTCAGAACAATCCCGCAGTTTCCGTTACTTCCTGTTAAGACAGCCGCTGCCACTCGGGTGCTGTGATGGGCACGGAACAGTAGTC
Celera SNP ID:            hCV1543790
SNP Position Genomic:     222580
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20760):
TCCCTTGCGGAGGCAGCTCCTCAGGGCCGCGGGTAAATGTTGGGCCTGTAGCTGGGGATGTTCAGGAAGAGCCTGTGGATTGGGCAGGTGCTCACTGTCC
R
TCAGTTGTGTCACTGGTTGCTTTGACAGTGGCTGTGGTGTTTTGTGTTTTGGTTAATTTCTCCCAGGTATAAAAGATAGCTATATACTCACTTCATTACT
Celera SNP ID:            hCV1543937
SNP Position Genomic:     327886
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20761):
CCAATGGAAGTATTGAATGAGCTTGTTTTTGGCCATCCAGCCAGTGCTTGGTTATGTTTGTGTTTAGGCCTCCTGTCTATTTTAGCCTCTTAGTATTTGC
R
AAATGCCAAATAGAGTGATTTGATGATGCTTAACGGTTGTCCGTTTCTGTTTCAGGGAATTGTGGGTAACTTGGCCAGCGGCAAGTCTGCCCTGGTGCAC
Celera SNP ID:            hCV1543791
SNP Position Genomic:     229340
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,3)   caucasian(A,10)   total(A,35|G,3)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20762):
GATGGAGCTCCTTCAGTTTTACCCAAGTCAAGGTGCGCTTTTGGTTGGGGCTTCCCTGGGTTAAAGGTCACCACCCTTCCTGCCCGGTGGCAGCCACTCG
Y
CGTCCGCAGCACGTCAGCAGTGCATCGGAGATAATTGACTCAGGACCTTGTCAAATAAAGCTGTTCATTATTTCCCAAATACTGACCTTTCGTCCAAAGG
Celera SNP ID:            hCV1543938
SNP Position Genomic:     318382
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20763):
TGTAGGGGTCAATAGGAGAAAGCTTGCCTGTTCACTGAGAAATGCATACAGATGCCAGAAAATGGCATGATTTGGAGAAATGAGCAAAGGCCACATTTTG
Y
CAGGGCTCTGTCCCTGGGTTTTGACGGCTTTTATTTGCTCCTTTGTGTCGGAATATGAATTTTAGCCACGGCCAGCTGGTGACACCTTTTAGAGAATCTT
Celera SNP ID:            hCV1543792
SNP Position Genomic:     230739
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20764):
AGACTGAGACGATGGAGCTCCTTCAGTTTTACCCAAGTCAAGGTGCGCTTTTGGTTGGGGCTTCCCTGGGTTAAAGGTCACCACCCTTCCTGCCCGGTGG
Y
AGCCACTCGTCGTCCGCAGCACGTCAGCAGTGCATCGGAGATAATTGACTCAGGACCTTGTCAAATAAAGCTGTTCATTATTTCCCAAATACTGACCTTT
Celera SNP ID:            hCV1543939
SNP Position Genomic:     318372
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20765):
AATTGAGAAGCTTTAGGTATAGAGTGTTGTGGGTTTGGGATATAATTTACTGTGTTGTCACCTGGGTGTGTGGAGACTATCAAAGGGATGTGTTGTCCTC
K
GGGAGTGCTGGAGGCTGACAAAGCTGATGATGGCCCAGCCTCACCTGTGGTTACTTACCCACACAAAGGTGAGGGCACTCCCACAGTGGTGGGAGTGGTT
Celera SNP ID:            hCV1543793
SNP Position Genomic:     232221
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20766):
GAGGATTACAGGCATGAGCCACTGCACCTGGCTGCAAACTTTTGTTTTTTTGTTTGTGAAATGGAGTTTCACTCTTGTTACCCAGGCTGGAGTGCAATGG
Y
GCAATCTTGGCTCACTGCATCCTCCACCCTCCACAAGGTTCAAGCAATTCTCCTATCTCAGCCTCCCTTTTGTGGGTTTCGGGCCCACAAAACCTGGACC
Celera SNP ID:            hCV9503783
SNP Position Genomic:     628042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20767):
TTTTCATACTAGTGAAATTTCAGCTGCTAACAAGAATCACGTCTGATGCAGACACAAAGCCCAGTGGCTGCCCCAACTCCCTGGCCACCTCCTACTGTCC
R
AGAAAACACTGAAATATAGCAGTCCCAAAGGACTCAGAAGTCAGCATTGAAAGCTTCTGTTTTTGTTTTGTTTTGTTTAGACAGAGTCTCGCTCTGTCAC
Celera SNP ID:            hCV9503784
SNP Position Genomic:     627614
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,15)      total(G,15|A,1) ;(A,-|G,-)   Caucasian(G,82)   African-American(A,1|G,79)   Asians(A,2|G,80)   total(G,241|A,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:20768):
AGGGTCAGGCAGCTGCGACCGATCTGTCTGGTTCCTCACCCTGGGGGTGCCCGCCGTTGGGAGGTGCTGTGGTTCCAGGGTGGGCGCTGGTCCCTTCCCA
Y
GGAGCTCGCCTAGCACCTGTTCACAGGTGTGCCTGGGCCAGATGCATGTCTGACAGGGACATCAGGTTTGGGGAGACTGAAAACCATTTTTGAAAATGAA
Celera SNP ID:            hCV27477370
SNP Position Genomic:     248093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20769):
AAGCCCAGCTCCAGGTCCAGGAAACCAGATTATAGCAGACCACTGTGCCCCTGGCCAGGGAACCGCCTGCTCTGGTCTGGAAGCCCCGGGGCCATGCTCG
M
TGTGTTAGTCAATGCTCTTTTGGTTGCATGAGATAGTTGACCAACTTAGGTTAGCTAAAATAGAAAGGCAGGGAGGGGGTGGGCCAGTGGTGAATTATTA
Celera SNP ID:            hCV1543797
SNP Position Genomic:     238573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,8)      total(A,5|C,8) ;no_pop(A,-|C,-)   JBIC-allele(A,573|C,904)   total(C,904|A,573) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20770):
AGTCAGGAGGGTCTGAAGATACACGCTCCACTGAAGGGCTGTGGCTTTAGCAGGGGAAAAATGGAAAGTTCGATTTTCAGTAACTTTTGAAGTCATTGGA
Y
AGAGCATGTGTTACCGACCACAGACTTGGACCTGGAACTCCCCACTGGCATCTAGCTGAGTGTCGTGAACTGGGACAAACTGATCTTTCTGGGGTGAGAG
Celera SNP ID:            hCV27477371
SNP Position Genomic:     220790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20771):
GAGCGATCAACTGGGCAGCTACTTTGAATGAAAGGCATTTTGCTGTGTATCTGCCTGTCCAGATAGTTCCTTGGATTCTCCCTGCGCTTCTTAATGTCTG
K
GCCCTGTTCTTCTGATTTAATTAGTGCGTGAGTATCCTTTATGTCATAATCCTGACCCGTGGCTGGGATATGTAGACTGCTGGGAGGGGTGAGGGTGAGG
Celera SNP ID:            hCV11527369
SNP Position Genomic:     232526
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,13)   total(G,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20772):
AAATGTTTACTTTCTGGCCTTTTACACAGGCAGTTCGCCAGCCCCCTACCCTACAGTATGGAAAAAAGGCATAGAACAGTCAAATCACGTAGGATTTCTT
R
GTTTCTCCATGCAGGCTCATCGAATAGCAACCATCCTTTCTTAGTTTCTTGAAACAAGTACCTTATTTACATTCAGAGAATTATATGTGGACAAACAGCT
Celera SNP ID:            hCV1543798
SNP Position Genomic:     241855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20773):
TGCCAACAGGCACAGTCAGGAGGGTCTGAAGATACACGCTCCACTGAAGGGCTGTGGCTTTAGCAGGGGAAAAATGGAAAGTTCGATTTTCAGTAACTTT
Y
GAAGTCATTGGATAGAGCATGTGTTACCGACCACAGACTTGGACCTGGAACTCCCCACTGGCATCTAGCTGAGTGTCGTGAACTGGGACAAACTGATCTT
Celera SNP ID:            hCV27477372
SNP Position Genomic:     220777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20774):
GATGGACAGTTGCCGAGTGTCCTGCGTGCCGACTGACTAAGGAGTTTTTGTCTCTGTCACCCTGTCCCCTGTGGTTTTATGAAGACGTTAGTTATGAATC
Y
GTGTTTAGGATGAGAAGATGTAAACAGTGAGGAGGATAAGTGAGAAGCTAGCAAGAGTCTGGATGGTGATGGCGGGGGAGCGCTGGTGGAGGAGTCGGGG
Celera SNP ID:            hCV15969166
SNP Position Genomic:     19231
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,630|C,793)   total(C,793|T,630) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20775):
GAGGTCAAGACTGCAGTGAGCCATGATCATACTACTGCACTCCAGCCTGGGTGACTGAGGGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAGAAAGAA
M
AGAAATCACCATTGATAATGTGGCATGAATAGACTTCATGACAGACATTACTCCAGAGATTTTTATGATGCTTTATTAATTAAAGTATCATCTTCAAAGC
Celera SNP ID:            hCV448020
SNP Position Genomic:     141533
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20776):
AAGTGGCTCCTTTTCATAAACTCCCCTAAACCACACACAGGAGAGAGCGACGGGCCTCGGCCCTTTGATGATAGCACATGGCGCAGGACCCTTGTCCTGG
K
GGCTCAAGGGATGGGGACGCGAGGGGGAGGGGAGGCGAGGAACAAGGAGAAGGGGCAACTTTCCTTAACTGGCAGTTGAGCACATAGTACATTTCCCCTC
Celera SNP ID:            hCV8739601
SNP Position Genomic:     636297
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:20777):
GTTGTTGGATTTAAATTTTATGGATACAGCCTGATGTAGACAAACTAATTGTGGGGCTGAGGTACAGCAAACTCTTTTGCCTAACATCTTGCCACTGTTC
Y
TTCCCGAAATTTTAGTTTTTTGACTGTCTCCGGCAAATTGTTAAAGTTGTCAGGAAATTTTTGTTTTATTTTTGCAATGAAGTCTTACCGAAGTTTCAGT
Celera SNP ID:            hCV1543940
SNP Position Genomic:     316984
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20778):
GAACACAGCCCTGATGTAAACAATGTGCTTGTTTTCTGGAAGAATGCCAAACCAGTGTTTATACCAGCATTGCTGATGCCGTTGCAGCTGTTGAGGCTGA
Y
GAGAACGTGAGATGTTAATTAAGAGTGTTGGACTCCCTTTTACTCCAATGGAAGTATTGAATGAGCTTGTTTTTGGCCATCCAGCCAGTGCTTGGTTATG
Celera SNP ID:            hCV25973150
SNP Position Genomic:     229195
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,25)   caucasian(T,2)   total(C,3|T,27)
SNP Type:                 INTRON


Context             (SEQ ID NO:20779):
CCTGGCTTAGGGATTTATCTGCAGGGACTGTCCCCAGTAGGTCTATGAGAGCCCACCACAGCAGCAGCCCTCTGGATGGGGATTTGGGTCTTGGTTTTGC
Y
AGCACTCCCAGTGGACAGTCATGCCTGGACTTGTCTTCTCCACCTTCCACTTGTCCTAACAGCTGTCGGGACCATCATCCACCAGGGGCCAGCTGTCCAG
Celera SNP ID:            hCV15813447
SNP Position Genomic:     154144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20780):
AAATGTGCTAAATGTAAGTTTGTAAAATTTAGGAATAACTTGTTAGAAAGGTGAAGAAGCTCTGGATTGAAAGGTATGTGCTGAGGTCAGGAGTCCAGCT
Y
GCTCTCCTTTGAGGAGATGGCCTTGTTTTTTCTTTCTCTCTCTCTCTTTTTTTTTTTATTATATTTTAAGTTCTAGGGTTACAGGTGCACAACATGTAGG
Celera SNP ID:            hCV314087
SNP Position Genomic:     195563
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20781):
GGTATACATGTGCCATGTTGGCTTGCTGCACCCATCAACTCGTCATTTACATTAGGTAATTCTCCTAATGCCATCCCTCCCAAGCCCCCCGCCCCCCGCC
Y
GGCCCCAGTGTGTGATGTTCCCCGCCCTGTGTCCATGTCTTCTCATTTTTCACCTCCCACCTATGAGTGAGAACACATGGTGTGTTTGGTTTTCTGTCCT
Celera SNP ID:            hCV314088
SNP Position Genomic:     195775
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20782):
GCTAGAGCGATCAACTGGGCAGCTACTTTGAATGAAAGGCATTTTGCTGTGTATCTGCCTGTCCAGATAGTTCCTTGGATTCTCCCTGCGCTTCTTAATG
K
CTGTGCCCTGTTCTTCTGATTTAATTAGTGCGTGAGTATCCTTTATGTCATAATCCTGACCCGTGGCTGGGATATGTAGACTGCTGGGAGGGGTGAGGGT
Celera SNP ID:            hCV11527370
SNP Position Genomic:     232522
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,13)   total(G,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20783):
ACTTTCATTGGGCCCCTTTGTGTTTTCTAGTTCAGATGTGGCTTCTCTAGCTTTTTCTTGCTGCTAAATGGTCTTAAAGGTTTGAGATCAGTGTCTCAGA
M
TTTAGCCTGCGTCAGGATCACCTCAGGTCACGTTTTAACTGAGGGTGGGTTAAAATGCAGATCACTGTGCCGGGCGCGGGTGGCTCATGCCTGTAATCCC
Celera SNP ID:            hCV9503939
SNP Position Genomic:     25148
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,11)      total(A,1|C,11) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20784):
TTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTCCAGTGGTGTATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAGGCGATTCTCCTGCCT
Y
AGCCTCCTGAGTAGCTGGGACTACAGGCGTGTGCCACCACGCCTTGTTATTTTTTTGTAGTTTTAGTAGAGATGGGATTTCACCGTGTTAGCCAGGATGG
Celera SNP ID:            hCV11527376
SNP Position Genomic:     226753
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20785):
GACTTTTGTCACCAGGAAAAGTATTTGTTTTTAAACTTAGGAAATGAAGTACAATGAGTGGGAGGTGCCCTGAGGTGGGAAGGCCCTGTGGTCACTGTGC
S
GTCTCTCTCATTGGTGTCTGACACACCCATCCCCACCGCAACCGCGGGGTGTCATCAGCTGGGCCCATCTCCTTCCCGGTGTCTGCCCCCCGCCCCATTC
Celera SNP ID:            hCV11527377
SNP Position Genomic:     222250
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,5)      total(G,5|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20786):
TGGTAATGGGGATGGCTGGTAAAGGCTGTGCCGGCCCTGCCTCCCTCCCAGAAGGGCGACCCTCCAGCCCCATGTCCAGGCTCTCCCATCTTCCCAGCTC
S
GGCCACACATAGGCAGCAGCTGCCCCCATGCTCTGTCCCAGAGACGGAACACACTGGTCACTGGGAGATTAGCCTCCCTCATTCATTTTCCCGATAGAAT
Celera SNP ID:            hCV8740000
SNP Position Genomic:     236201
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,12)      total(G,12|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20787):
ATTTTAACAAAACCGTTCTTTAAGAGGAAAATGGAGACTAGAGCCTAGAAAGTTTCACGTATGTAATTACAAATCATTTTTCCTAGAGAAATTTTACCCC
M
AAAGTGTTCTGAGGCTGTGGGTGCATTTACCTGTTTATTGCGGATTAACAGAGCCATTGAATCTATCCCAATGGAACCACCATCACACACTTTCACCTGT
Celera SNP ID:            hCV8740001
SNP Position Genomic:     238315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20788):
AGTGTAATACGAAAAAAAATCATGCAAATCAATTACCAGTATCTGGTGTTTGAAATTGTAAGATGCTGAAAAGAACTGTTAATTATACTCTGTATCTGCC
R
GGGGAATGTAAACTGACTTTAGGATTCGAAGAGACCTTGCTGATGAGAGAAGGAATCACTGCTCCTTTTAGAGGCAATGAAAGTTGGGCCTGGAGTCCTT
Celera SNP ID:            hCV8740002
SNP Position Genomic:     249211
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20789):
TGTAACTCAATAGTAATGGAATGGATGGGGCAGGGCTGGGGGTGGGGAATCCTGGCAGCTGAGCTTAAAAAAAAAAAAAGCTCAGTTTCTTTTTTAGGAA
R
CTGGTGCCGACATCCCTGTGCAGCTGCTCAAACGCCCCCGTGTGCACACATGACTTAGATTGGGGGGATCCAGGTCACCTGTGACCCTGAGGGGGTCCAT
Celera SNP ID:            hCV8740009
SNP Position Genomic:     261258
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20790):
TACTCATGAACTGACTCTTCCTAGACTCCATAGAAAGGATAGAACATTCATTTGCATTTGAAGTTTCATACAACAGTCGTTTCCATAACATATTTGACTT
R
TCTTAGGAAGTTTCTCGCATCTTCCCTTAGTTTCTACAAATGAAAATGTCTGCAAAGCTCTCAAAGCATGCATCCTAGTCCTATTTAATTCTGACATCTG
Celera SNP ID:            hCV27155946
SNP Position Genomic:     307802
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20791):
TACGAATGTAAAGTCAGTGTGGCCATCCAGCTGAATAGTAACTCTGAAGCTGGGAGTAAAATCAGATTTCAGTGTAATTGATAATCAAAGCCCCTTATTG
S
TATTTTTCAAAAACAAAGTAGCAATACTTTAGCACTCACCCAGGCAATTATGATTTTTGGCTAATTTACTTTTGGTTTTTGCAATTTCAAGATACCTAGA
Celera SNP ID:            hCV27155947
SNP Position Genomic:     308012
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,8)      total(G,1|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20792):
GCCAGTATCACAGAGTGAAGTTCTGCACACACACAGAACTTGAATGTATATGTTGCCTGTGTACCTGCCTTTTCTTTTTTTTATTTACATTAGAATTTCT
R
TTTGGCTCTTTTTCCCTTGTAGGGCATGCTGTTGAAGCGAAGTGGCAAATCGTTGAATAAAGAGTGGAAAAAGAAATATGTCACCCTGTGTGACAATGGC
Celera SNP ID:            hCV25969424
SNP Position Genomic:     395167
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:20793):
GAGACGAAAAAGATGAGGCCACGGCTGCCCCTTCTGTTTCTTCCCTGCGCACTTTGGGGTGAAGTGATGGGGTGTTGTTGGCTCAGGTTGTAGGAGAGAT
R
AGGAGCCTCCGCCCAGCTCAAATCTTCCTTTTTGTTCCTTAGAGCCTGCGTTTTTTGAGGTTTATTATGTAAAGCCGTGCCCCTTTTCCTGTTGGATGGT
Celera SNP ID:            hCV16061501
SNP Position Genomic:     245244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20794):
AAATCATCTCATCACCCTTGACTTCAGCCATCTAGTTCCTAACCCTAAATCAGCACCTGTTAAGTTGGAAATTTTACCAGAAATAGTCTCAGCCTTGACA
R
GCATATGCATATTTATTTTGTTTTGTTTTGTTTGTTTGTTTGTTTTTTAAATAACGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCAC
Celera SNP ID:            hCV16061502
SNP Position Genomic:     218087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20795):
ATGAGGAATAGTAATCCTTTTTAAGTTGTGAAGTTCTTTAACCTCAGAAAGGGTGGCTTTGTCTCATGGACTTTGATATTTTTTGCATAGTCCTTGTAGG
K
TGAGCCTGGCCAGACACTGGCTCCAAGAGGATGTGAGGAATTCAGGCTCCGAGCAGATCAGGGGCATCCCTAAAGGTTGGGTTCTGGAATCGGGTGAGTT
Celera SNP ID:            hCV29368683
SNP Position Genomic:     274191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20796):
AAGTACACTCCACAGGGTGGGAGCAGCCGGAGCATAGGGGCTCAAGAACCCAGTAACAGAATTTTCTGGGGTTTAAATATCCTCTAGAGGTTTCCCATTG
K
CCATTTGGTGTACACCCCATGCAAATGAAGTCATGGCCCCCAGTCAGTCTGATTTGTTGCAGAAAGCAACCAATCCAAGGTGGAAGTGAGGTTACAAAGG
Celera SNP ID:            hCV16061503
SNP Position Genomic:     285060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20797):
TTAATATTCAAGGTCATGGCCATCCTCAATGCAGCCTTCATATTTTCATAATGAATAGTTATTGTGAAGGAGCTGATTTTTGGAGGAGTGGTTTGTCTGC
W
GTTGCACACATCTGTGATAACATGGGGTGGGTGGTTCTGATTCCTGTTTTGAGGTGGTGATTTATGATGCCTGTGTACTTCCCTGTGGTGCCCAGGCCTG
Celera SNP ID:            hCV27906542
SNP Position Genomic:     123117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20798):
GTAATATACTTAGAAATAAATTACCTGTACACTGAAAACTACAAAGCATCATCGAAAGAAATTAAAGAAGACCTAAGTAAATGAAAAGACATCATGTTCA
Y
GGATTGGAATATGGCAGTACTCTTCAAATCGATGTACAGAGTCGGCAAAATCACTTTCAGAATCTCAGCTGCCTGTTTTTTTCCCAGAAATTTGACAGCT
Celera SNP ID:            hCV16119894
SNP Position Genomic:     571233
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20799):
TCTCTCTTCACTCCCCCTCTCCTAGAATGAGCTGATAAAGATGTACGTGAGTGGTCCACAGTGTGGTTTTATGCATGGATTGTTTATTTGCATCCCAGCA
Y
GTTTTGTATACAGCAGGGGTCCCCAGTCAGGCTGCACAGGAGGTGAGCAGCTTGCAAGTGAGCATTACTCCCCGAGCTCCGCCTCCTGTCGGATCAGCAG
Celera SNP ID:            hCV8740010
SNP Position Genomic:     268471
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20800):
GATTGTAAAACCTTCAGTGAGTACGTTGGATGTTGTGAAATTTGCCAAAGAGAAGAAAGATGATTTTTAAAGGATATAAAATATGGAAATAAAAACCACT
S
ACAACACTGCCACCCGGGGGCAATGATTGTTAAGGCTCGGGTGTGTGTGTGTGTGTATGTGTGCGCGCGCGCGCACACGTGCACCTGCCGTGTTTGAAAA
Celera SNP ID:            hCV8740019
SNP Position Genomic:     274839
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(C,23|G,37)   Chinese(C,9|G,11)   Japanese(C,14|G,26)   African(C,13|G,47)      total(G,121|C,59) ;(C,-|G,-)   (C,-|G,-)   Caucasian(C,1|G,23|C,37|G,43)   Caucasian, from CEPH families(G,84|C,238)   African-American(G,13|C,21|C,47|G,59)   Asians(G,23|C,37|G,60)   total(G,305|C,381)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20801):
TTATGATTACAAATGTCAAGGGTCGGAATTACTTTGATGCCAGGCAAGGGAAAACCACCACCATCAGCCCAAGCGCACATAAGGGAGGCGGGGGCATCGG
R
CGTGTGATGCAAAGCAGGTCACAATCCAGCGATCTTGGTATAATAGGGGGACATTTTTTTTCACTTAAGTGCAAGCCAAATGGGTCAAGTAATCGCAAGC
Celera SNP ID:            hCV9087102
SNP Position Genomic:     527528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20802):
ACATACCTCCTTAGCCTTGAGGGCAAATGGTTCCCTGAGACTTGCTGATGGGCCTTCCTGGAGACACTGGTGGGTGACACGGGACCCAGTAGAACCAGGA
R
TGAGGATTTGCAGCAGTGCGAACTTCTCAGCCTTAGCTTCTCAGGTAATACACAGCATCTGCTCTGCCCAGCACCTCGGAGGGGTGGAGAGCGTGAATTC
Celera SNP ID:            hCV9087103
SNP Position Genomic:     528482
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20803):
GTCCCTCTGTCAGTAGCTATGAAAGGCATTCCTGGGGATACTAAATAGTGACTGCATATCCAATTGTCCCTCACAATTTCTTTCATTTTTCTCAGTTATA
S
TAAGTTTCTGTTTGGTGTTCAAGGTCATGTATGAATTTTCAATTAAAAGACAGCATTCTTCATTTACTTTGGGTTTATTTTAAGATTAACATGTGTACAC
Celera SNP ID:            hCV9087104
SNP Position Genomic:     528726
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20804):
CCATGTGTGGCTGTGACATGTGGAGGCGAACTTCCACGGCAGAAGTGCCATGCTTCCGTAAGCTCTTCCGACTGGTTGGTAGGCGCTTTTATCGGCACAT
R
AGCACCTTACAGACAAATATCTGAAGTACACTTCAAAGGAGGCAAAGAAAAAGCAAAACTGCCAGTTCCTTGAGCATGGCTGTGTGTCGTTGGTGCTCTG
Celera SNP ID:            hCV16061513
SNP Position Genomic:     276013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20805):
TGTGTGGCTGTGATCCGTGCGTGGCTGTGACCCGTGCGTGGCTTTGGCCCGTGCGTGGCTCCGGCCCGTGTGTGGCGGTTGCCCATGTGTGGCTGTGACA
Y
GTGGAGGCGAACTTCCACGGCAGAAGTGCCATGCTTCCGTAAGCTCTTCCGACTGGTTGGTAGGCGCTTTTATCGGCACATGAGCACCTTACAGACAAAT
Celera SNP ID:            hCV16061514
SNP Position Genomic:     275931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20806):
AGATGCGCGCTTTTGGGGTCATCAGGCGGTTGCAAAGGTGGGAGCAGCCGTGCTCCCCAGAATGCTGACAGCACAGAGCACTGGTCTGAAGATCTGTGTG
Y
GGCTGTGATCCGTGCGTGGCTGTGACCCGTGCGTGGCTTTGGCCCGTGCGTGGCTCCGGCCCGTGTGTGGCGGTTGCCCATGTGTGGCTGTGACATGTGG
Celera SNP ID:            hCV16061515
SNP Position Genomic:     275835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20807):
GGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCGCGCCTCGGCCTCCTAAAGTGTTGGGATTACAGGCGTGAGCCACCA
Y
GCCTGGCCCAGACACTTCTGAGAACGAGCTACATCCTCTGTGCCACTGGATTCTGGCTGGTCCAGGAACACAGGTGTGCACACATCCGGATGTGCATCCA
Celera SNP ID:            hCV9089649
SNP Position Genomic:     217170
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20808):
GGCTGAGGTGGGCGGATCATCTGAGGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGCCTCTACTAAAAATACAAAAATTTGGCCAGGC
R
TGGTGGCTCACACTTGTAATCCCAGCACTTTAGGAGGCCGAGGCGGGCGGATCATGGGGTCAGGAGATCGAGACCATCCTGGCTATCATGGTGAAACCCC
Celera SNP ID:            hCV11527396
SNP Position Genomic:     206092
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20809):
AGATGATTTTTAAAGGATATAAAATATGGAAATAAAAACCACTGACAACACTGCCACCCGGGGGCAATGATTGTTAAGGCTCGGGTGTGTGTGTGTGTGT
R
TGTGTGCGCGCGCGCGCACACGTGCACCTGCCGTGTTTGAAAAAAATGGACTGTCATGCATTGTGAGACTTTATAGCATACTCTTTCACATACACGTGGA
Celera SNP ID:            hCV8740020
SNP Position Genomic:     274896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20810):
TGAAACTTTTCCCACCCTGTGGTTATTGATTTTTGCACGGCATTTCCTTGAGCAAACAGAACAGCTTTTGGACCCAGTCTCCAATTAGACATTTGGTTGG
R
TTTTTATCCCTCTGTATTTGATTTAGATGAGTGCTTCCGTGCATGGTTTTCTTTACTGAAAGCTGTGTCTCTGTCCTTCCTAATTTCCCGAGGATCCATC
Celera SNP ID:            hCV8740025
SNP Position Genomic:     275306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20811):
GTGCTTCCGTGCATGGTTTTCTTTACTGAAAGCTGTGTCTCTGTCCTTCCTAATTTCCCGAGGATCCATCTCTGGAAGTGAGACTGTGTGTCCACATCCT
K
CAGAATGTTAAGGCTTTGAATCCTTGGTGTTGACTGGCCTTCCAGGAGACCTGTCCTAATTCAGCGTTCTCCAGCAGCTGCCCTTTTTCTGCACCTGGCC
Celera SNP ID:            hCV8740026
SNP Position Genomic:     275437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20812):
CTGAAAGCTGTGTCTCTGTCCTTCCTAATTTCCCGAGGATCCATCTCTGGAAGTGAGACTGTGTGTCCACATCCTTCAGAATGTTAAGGCTTTGAATCCT
Y
GGTGTTGACTGGCCTTCCAGGAGACCTGTCCTAATTCAGCGTTCTCCAGCAGCTGCCCTTTTTCTGCACCTGGCCACACTGGGTATATTCATTTTGAAAA
Celera SNP ID:            hCV8740027
SNP Position Genomic:     275462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20813):
TATTGTGAATAGTGCCACAGTGAACACACAACTAACTGCGTGTGTCTTTATATAGACACAATAGAACAATTATATTCCTTCAGGTGTGTACCAAGTAATG
Y
CACCTACAGTTTTGATGTTTTAGTAAAGTAGAAAAGGAAACTTCAGAAATCAGCCCATAAGTCTGCAGAAGTACTTGGGGAATTCTCTCCGCAGTTCGCA
Celera SNP ID:            hCV2951469
SNP Position Genomic:     20272
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20814):
GCTCCATTTCATGTGCTACTGGCTGGCTGTGAGATCTGAAAAGGACTGGGCCCAGACTCTGTGTGTGTGTGTGTGTGTGTGTGTGCGTGCTCTTAAATCA
R
TGTAAATTAGGCTATATACAGCTGCCAATAATCTGCAAAAGATGACAGTTTCATATGATTCCAATGGCTTAAACTAACAAATTCATGAATGATTGACCCA
Celera SNP ID:            hCV16061525
SNP Position Genomic:     240186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20815):
AATGTCAGCTCACAAAATAATGTTTTTACATCCTTCCTCCAACATCATCAACCGCATTAGCTCACCACCACTCCTCCTCTCCGCTTCTCCCCCAACCTGT
K
TTATCGGTGTCAGGAAAGGGGAGCGATCAGTCTCTCAGGAGGTACCCATATTGATCATAATATAGCCTTTCTTAGGCGTAGCAGTCCAGCAATCAGGGTT
Celera SNP ID:            hCV16061526
SNP Position Genomic:     239558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20816):
CCTGAGATCTTTTCAGGTTGCAGAACTGAGTCATTGCTCTGAGACCCGTTCCCCAGGACAACTCTCTCTGTGTCACCCATGGCATCACAGGCACCCTGGG
S
CATGGGCCCTCCCGAGCTGTGCAGGTTAGCTTGTGTGCCAGAAGGACCTGAGGACCAGAAAAGCTGAAAGCCAGCACCACGCTGAGATCGTGGCACACCT
Celera SNP ID:            hCV16061527
SNP Position Genomic:     235426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20817):
AGAGGGGCGCAATGGGGCTTTGTTGTATAATTGTATAGCAAGCAAGAGCCAATGTCATTTTCAAATGCAATCCTTTTAATGCCAGTCTCCTTGGAACTGA
M
ATTTTTGATGCAGGTACGTAGTTCCCTATGGAAGGGGCTTAATCCAGGAATGGATTTGAATCACTAGAGCCTGAAGAGATGGCATGACCTTCCACGTAAT
Celera SNP ID:            hCV11534764
SNP Position Genomic:     398544
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20818):
GTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGAAATCCGCCTGCCTCGGCCTCCCAAAATGCTGGGATTACAGGTTTGAGCCACCGC
R
CCTGGCCTTCTTTTGAATATTTTTAATCCATAGTTGATTGAATCTGCACATTCAGAATCCACAGATAACAAAAGGCAACTTTATATCACTGTGTCAGGCT
Celera SNP ID:            hCV11534767
SNP Position Genomic:     396591
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20819):
GGGTTTCACCAATATTGGCCATGGTTGGCCAGGCTGGCCTCAAACTCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTTCTGGGATTACAGG
M
GTGAGCCACCGTGCCCGGCCTGGTTAATGCAGTTTTTTTAGTTTGTTCTTTCTTTTTCTCTTTGTCTCTCCTCTCTCTTTCTTTCACTCGCTTTGTCACC
Celera SNP ID:            hCV11534769
SNP Position Genomic:     394599
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20820):
TTTTGTGATTAAAATAACTTGTTTGTAAAAATACAGGAAACTGTAAGACAGCAAGTAAAAATCACCTATAATCCCACCTCCTAGTAATAACACATATATA
Y
ACACACACATTTTTTTCTTTCTTTGTTTCTTTTTTTTTTTTGAGACGGAGTCTCACTGTATCGCCCAGGCTGGAATGCAGTGGTGGGATCTCCGCCCACT
Celera SNP ID:            hCV8740035
SNP Position Genomic:     281948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20821):
AACTTGAGCTTCAGGAATAAGAGGAGACCACCCACTAGGAGCTGGGAGTGGACTCAGCTGTTCTGGGACTTTCCTCAGGATCCTGGTTTAGGAGAGACAG
R
CAGAGCCAAGGTTTGAGTCTAAGGATCTCTCTGAAGCCCTTTTTCTTTTATGTCCTCTCTCTTCCGGCCTCTGGACCACATTATCTCATTTAATCTTCAC
Celera SNP ID:            hCV9087121
SNP Position Genomic:     529574
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20822):
TACAGGCCCACATCTGAGAATGATGGTCTTGCTGAGTGTGAGGTAGGCCTGCCTCCTTGTTCCCGACTCTCAGGTCCCTGCTGGGATGCGCCATTGCCTG
Y
GCTGGGTGCTGGGGCAATGGAGAGGGTAAGGGTGCACCCGCCCACTGCCCTCAGGGAGCTTACTGTCAGTCTAGGAGGCTGCACAAAGGATCTCATGCAG
Celera SNP ID:            hCV9087122
SNP Position Genomic:     531115
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20823):
CTGCAGACTCCGGCATGGGCCTGCCTAGTGTGTCTGTCCTCTGCATTTCTATTGATAGCACCAGATCCCCTGCGGCCCGTGGACTCCTCCCCACTGACCC
Y
AACCTCATTGCATGCTTGGAGGACAGGACAAGGGCCAGGAGACAGGATCCTTCCGGTCCTTCATGTCTGAGATGAGGAGATAGAGCAACAAAGAACTTCT
Celera SNP ID:            hCV16061537
SNP Position Genomic:     222036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20824):
CTGAGAAATTTCCAACATCCTGTCGTGCACCCCTAGCAGAGGGAGATCTTTTCCTCCTTGTTTTATAAAAGAAGAAACCGAGCCTGGGAGAAGGGCAGGC
R
TCAGCCCCAGGAGCTCTCAGGAAGACGGGGCTGGAATTCCAGGTGGAGGCAGCAGCCTGCACCTGGACGGGGCTTAGTACAGAGCCTGCAGCGCCCTTAG
Celera SNP ID:            hCV9087129
SNP Position Genomic:     531444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20825):
TGTGGGTAGTTGGGCCCTTTCCCAGGCATCCTGCCACCTCCTTGGCAGCATCTCCTTGGAACCTTACAGAAGCCTTAGGAAAGAATTGCTCCCCTCTTCT
S
CCCTCCCCCTCCTTCCCCTCCCGCCGCTTCCCTCCCCTCCCCCGCCCATCCTCCAGGCTGGAGTGCAGCCTTCCCTCCCTCGCTCTATCCCCCAGGCTGG
Celera SNP ID:            hCV16061538
SNP Position Genomic:     215448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20826):
ACAGAGTTTCACTCTTGTTGCCCAGTCTGGAGTGCAATGGCGCAATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTTCTGCCTCAGC
Y
TCCCAAGTAGCTGGGATTACAGGCATGCACCACCATGCTCGGCTAATTTTTGTATTTTTAGTAGAGTTGGGGCTTCACCATTTGGTCAGGCTGGTCTCAA
Celera SNP ID:            hCV11534772
SNP Position Genomic:     388812
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20827):
CTCCTCCCCAGCCACCCTCCGTCTCCCGGACTTCCTCCTTGAACGTGGAACCTCAACGGCTGGCCTGGCCGCCTTGCCTGCCTGGGGCACCAGCCCCCCA
K
TGCTGTGTGGCTGATACCAAAGTCTTCTTTTCCCTCCTGGTCACCAGCTCCTGTACTCTCTGGCTCAGTGAATGACCCCACTGGGCCACGACAACTAAAG
Celera SNP ID:            hCV11534773
SNP Position Genomic:     388408
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20828):
GTGGATTTTGAGAAAAAAATTGCCTTTCATGGATTATCACAGTCAGTGCTAGGATAATTAAGCTCAAAGTGGCAGATTCCAATGCTTCAGGAATGTCTGA
Y
CCCTGTACCGAGATGGTGTGGTGAGCAGGAAGATGGGGTCCCAAAAGATACTCAAGTTCTAATCCCTGGAATTGACGAATATTATATTTTGTGTCCAAAA
Celera SNP ID:            hCV8740044
SNP Position Genomic:     282644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20829):
GATCTGAGTGATTGGCGCCTGCATTCACTCGCCCATTCATTCACCTCCTGTGCTTGTCACCAGGCTACAAAAACGAAGCCACCACCCCTCTCTGGTGCCA
R
AATGTCAGTTTGGGGAAAGCTGGAGCTCCCTTCTGAGAGCCAAATTTATTTTTTTTTATGGAAGAGATTCCCCTGTAAATTCTGGGAAAGTTTGAGAGAA
Celera SNP ID:            hCV8740045
SNP Position Genomic:     286784
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(G,21|A,39)   Chinese(G,6|A,12)   Japanese(G,14|A,26)   African(G,1|A,59)      total(G,42|A,136)no_pop(G,4|A,15)    ;(G,-|A,-)   (A,-|G,-)   Caucasian(G,21|A,39)   African-American(G,1|A,59)   Asians(G,20|A,38)   total(G,42|A,136)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20830):
ATGTTATAAAAAATACACTGTGCCATTAATGCTCGTGCAGGGCTCCCGGCCGGCCTAGGCCCTCTGCACTTGAGATTCCTCTGGCAGCATCTGTTTAGAA
S
TGGGCACTCCTGGTTCTGGTCAAGTTTATCCTGACCAGTTCATTTCATGGCAGTTCTGGTCATTTTTGAGAAAATCTAGTTTGCACTTTCATTGGGCCCC
Celera SNP ID:            hCV27979854
SNP Position Genomic:     24963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20831):
AACTGACTTTCTAATACTGTGTTTTGGCTGACATCTTAGTGTGTGAGCTTTTTGTCATAATTGGGTAAAATATCTAAGCCACACGCCTATTTAATAGATG
S
TTTTAAAACAGAAATATTGGAGGATTTTACAAAGTGTATGAGGAAAAATAGCATTAAAGCCCGGGTGTGTGCGTGACATTGCCACACATTGCCTCTTAGG
Celera SNP ID:            hCV9087131
SNP Position Genomic:     534869
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20832):
TAGAGATGGGGTTTCACCATGTTGCCCAGGCTGGTCTCAAACTCTTGAGCTCAGGCAATCCACCCACCTTGGCCTCCCAAAGTGTTAGGATTATAGGCAT
K
AGCCACTGCGCCCGGCCCCATCAACAGCTTTGAGCCATTTCTCATCGTAGCTCGGGGCACAGATCCAGGTCCTCTTGGCCTTTGCAAGAGCACAGTGCAG
Celera SNP ID:            hCV9087138
SNP Position Genomic:     536190
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20833):
CTTTCTCTCCCCAGGGCCTGCCCTTCTTTGTCCTTGCACTGACAGCCAGCACTTATCTCAGGCCTGCTGGAGCCCGTGCCTGTCAGTCCTCCCCCTGGCC
V
GGGCCGAGGGGTGGTCAGACCAGCCCGCATTGTGCTGAAGGCCCACAATCAGCCCAGCTGTCCGGGGCCATGATGAATTAGCGGTGGGAGTTAACATAGA
Celera SNP ID:            hCV11534783
SNP Position Genomic:     364618
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|G,1|-,8)   total(G,1|A,1|C,1|-,8) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20834):
TGAAGAATTTTTTTTATCTCCTTTCTCTCCCCAGGGCCTGCCCTTCTTTGTCCTTGCACTGACAGCCAGCACTTATCTCAGGCCTGCTGGAGCCCGTGCC
Y
GTCAGTCCTCCCCCTGGCCAGGGCCGAGGGGTGGTCAGACCAGCCCGCATTGTGCTGAAGGCCCACAATCAGCCCAGCTGTCCGGGGCCATGATGAATTA
Celera SNP ID:            hCV11534784
SNP Position Genomic:     364598
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20835):
ACTGAAGAGATCATTTCTATTTCAGTACCGTCTGTAGATCCTGAAACGGGCGCCTTTCTGTGCTTGTTTGCCACGACAGTGGCTCTCGTACACGACGCCT
R
ACGTGTATCTCATGTGAAGGTGCAGCCCAAGCCAAGCTCCCTGGGGCTCCGTTTTCCGTTTCTTGACCAAGGATGGCAGAATCCCCAGGAAGTGCTCCTG
Celera SNP ID:            hCV11534786
SNP Position Genomic:     359598
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,9)      total(G,9|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20836):
AAGTGCAATAAATTGTGGTTTGTTTATTTTAGTTTTTAACCTTTTAGACTACTTTGTGATCGGCAGGAGATTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
S
TAGGTTGCAGAGTGAGGATCTGGTCAGTGATTGACACTTGTTTTCAAAGTGTTCACCATGAATTTTTTTTCTTAAATACCATTTTTCTCAGTGAGCTTTG
Celera SNP ID:            hCV8740052
SNP Position Genomic:     294896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20837):
GAGTATGACTTGGATGTACAAACTCCTAATCCCTAAGGATAGGAAAAGACCTAGAAGATTTGAGGATTTTAATTCAGGAAAGTCCACCAAAAGGATAAAC
M
GCTAGGAGCCCACTAGTAAGCCAGGATGGTGTGGTGCGGATCTTGGATGAGGTTAGCTGAGTTTGAAAACTGGAGAAGGCATGGATGAGAGCAATGCTGA
Celera SNP ID:            hCV8740053
SNP Position Genomic:     300207
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,8)      total(A,8|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20838):
TCTCCTACTTTGGTGGGGTGTTACTGCTGGGGCATGGGAACAGCGGATGAGCTGGGTCAGGGGGATGGGGGTCTAGGGCTTGGGGAGACCTCCTGTAGAT
R
CAGGCAGTGTCTTTGGTTGCGTTGTCTTGCTACAGAGAGCCTGATGTATTTGTAAGAAGACTAAGAAGGTTTTGGATGATGGTGATCAGGTGCTTGTTCC
Celera SNP ID:            hCV11935901
SNP Position Genomic:     211165
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(A,22|G,36)   Chinese(A,3|G,17)   Japanese(A,7|G,33)   African(A,3|G,53)      total(G,139|A,35) ;(G,-|A,-)   (A,-|G,-)   Caucasian(A,22|G,36)   African-American(A,3|G,53)   Asians(A,10|G,50)   total(G,139|A,35)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20839):
GAGTGGACAGATTTTACACCAGCACCTTTCATCTCAGGGGTGCTTGTGAATTGATTGCACCCCTCCTGTGGCGTGGAGGCGGTGCCTGGTTAAAGTGGGG
M
TCAGATGCCCCTTGGTTGCATTTAATGTGTGTGCATAATCAGAGGGCAAGGACAGCAGTAAATAATTTATGTCAGCTGGAGCCCTTGGCCCTGGTAATGA
Celera SNP ID:            hCV11935902
SNP Position Genomic:     123987
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20840):
GAGCTTCTGAAATGAGCGTTAGGTGACCCTGACCTGCTGAAGGCCCCTGTTCACCTGACCAGGTGAGAGATGGCTCGGAAGTGAGGGAGAGGGGAGAGGG
R
TGCAGGTTGTGGGCCTGTAATCCTTATTGATATCAGCCACCCTCAACCTGAGATGTAAATTGGAATCACCTGTGGCTCTCAAGCTGGCATTCAGACGGGC
Celera SNP ID:            hCV11935906
SNP Position Genomic:     104555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20841):
CTCAGCACGTGCTTCTCAGTGCGCTGTGTCCTCATTTGCTGTTTCCCCTGAAGTTTGACGAGTATGGTATATTCTGGTCACCAGGCAGGTGGTGCTTGGG
K
AATATCTCCTCTCCGTGTGCTGGAAGCATTGCCTGATTTTAATGAGGTGACTCACTGCAGCTGGTTTTAAGAACTTTGTTGCAGGTATTGGTTGACTGCA
Celera SNP ID:            hCV11935907
SNP Position Genomic:     87931
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,10)      total(G,10|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20842):
TTAGAGTTATTGCACGGGACTCCCCCTCAAGAAAAGAATATCTTAAGTGAGTCTGGGGTTGCAGTTGGTCCTTAGGATGTGAAGCTTAGCTGTGCTTTCC
W
CGGTCAGCAGGGTCTGTCATGGGGCTGACCTTCCCAATCCATGCCTTTACCTGAAGCTGGTGCCCATCAGCCTGGGTCACAGGGTGTCTTGCATCTGTTT
Celera SNP ID:            hCV9087140
SNP Position Genomic:     539980
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20843):
GCAACCCTGGGCCTCAGGTTCCCCAGTGGCAAAGGTAGGATAGGGGCTTTGGTCGCCTCTGTGCTATGAGTCTTTGTCCAGTTTGTCAGTCACCATATTC
R
TTTTACTCTCCAGTCTTTTCTATAAAAGTGTTTGGGGGCCAGAAGTTGTTAACCTGGTTCACTAGAAGCTAATGCATTGATTATTTTTGTGTGTGTTGTA
Celera SNP ID:            hCV11935908
SNP Position Genomic:     87730
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20844):
ATTGTGGGGTTTAGGGATAGATTATCTCTGTCCAAGGTAATGGAGTCCTCTTCTATTCCTCGTTGGCTAAGGAGTTTTAATCATGCTTCTTTCTCTTATT
R
ATTTTTTTTCTTTCTTCTGGTTGAGAAATTGGACATTCTACTTATTTTCTTGCAGAGGTTTACCACATGGACTTAATTTACTTACCAACATGTGAAGTGA
Celera SNP ID:            hCV9087148
SNP Position Genomic:     540805
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20845):
CCCCAGGAGGAGACCATGTATTACACTGGCCAGGTCGGGCAGCCCCATCTCAGCCAGGTTGTGATGCTGGGGCCGGGGCGGGCAGGCATCAGCATCATCC
R
CTCTCCACACCTCCGACCCCATCCACCCCCTCCCCAGCTTTGTCCTCTCCTCTGCCTCTGGGCTCAGCTCTGGCTTCTGGGAGCTACCTGCCTGTTTCCC
Celera SNP ID:            hCV27513926
SNP Position Genomic:     631062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(G,257|A,858)   total(G,257|A,858) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20846):
CCGTTCACTGCAGTCCTTCAGCCTTTTCATATTTGTAGTTGGGAAGCAAAATCTTCTCCCAAACCTCACCTGCTGTTGGGGTCCAAGAGAAGGAATTCTA
R
TCATGCATTTGACCATTTGAGTTGTCAGTTCAGCTAAGAGATCCTCCTCTTTTTAGACCTTGGGGATGGGGATAAAACCCTAGTTTATCTGCTATCCCCC
Celera SNP ID:            hCV16089362
SNP Position Genomic:     543926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20847):
AAGAAGCCATTGTCAGCGTGTCCCTTGGTCATATGTGACTTGCGTATGGAGACGCTAGTGAGAAAGATGAAGGATGCTATCCAGAGTATGTGTCAGCTCA
S
GCTGCCAAAATAAAGTATTACACTTGGGTGGCTTAAGTGCGGGACATTCACGTCTCACAGTTCTGGAGGCTGGAAGTCTGGAGTCAGGGTGCCCGCAGGG
Celera SNP ID:            hCV27513927
SNP Position Genomic:     626333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20848):
ATGAAGAAGGAAAAAAATGGCCAGCAGCATAGGAGTGCTCCCCAGTGTTGCTGGGGAGTTTCGCTGCTGCTCAGCCCCTGTTCAGGGTCTTCTGGAAGCT
S
CCAGCAGCCTCCTGAGACAGACAGGTTGGAGCACCACAGCTGCCTGCGGCTGGCACACAGAGTCGTAATTTTTCTTGGTTTTAAAAACCAATCCAGATCT
Celera SNP ID:            hCV27513928
SNP Position Genomic:     583696
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,269|C,1226)   total(G,269|C,1226) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20849):
GAGCACACATCACTCAATTTTAGGGACCCACTCATATAAAAAGCATCTCTGATGTACGTGATCTAATACAAATGACCCTGGAGGATACATACATAATCAT
R
ATGACTTACCTATAAGTCTCTCCTCAAGGACCTCGAAGAGCTGCCACAATGTCTTCATGCTGATCCTTGCCATCTTAATGAAATTAGGAGATAACTGTTT
Celera SNP ID:            hCV27513929
SNP Position Genomic:     575862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20850):
TATAAGGAAAACAACAAAACAAGCAAACATGTTTATAGGTCTGCAGAGAAGAAGAGTTCTTGTAAACAGTGTTGAATATTCATGGTTCCCAAGATCGGCC
R
TTTCCCCGGCCTTTCACCGGTGAGAAGTAAGGCATCTGCTCTGGCCAGTGGCTTGCGTTCCATTGGTCACCCTTGGCATTGCTTCACATATGTTTGCGGC
Celera SNP ID:            hCV475773
SNP Position Genomic:     117779
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20851):
CCAATCATGTGTGAGACGCTGAATTCCCACCAGTCTCCTCTGAAAGGGCCACATTCAAGGGCCTGAAACCCCCAGGGAGCAGAACCCACAAGCCCCATCT
M
TGGATAGTTGTGAGGGGGACAGAATCTTCCACTTGCAGGGTCTCCATCATTTTTTTCTGTCCTGGGTTGACTCCAGGGCACCCAGAACAGGTGTCATCCC
Celera SNP ID:            hCV9087150
SNP Position Genomic:     543544
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20852):
GCTATTGCTGGTTACTTGCCATTTATAAAACAAAGGATGTCTCCCCAGTGAGTCAAATGTGACCTAAGCTACTTGGTCTTTTGTTGACTCTTCAGGTGTG
Y
CCAGAGTAAGCATTGCCTATTCCCAGGTGAGTAAGCCGTATTTACTTAACAGTGGTGAAAGCCAGTGACTATCAAGGTCAACCCTATCTCTGCACATCAG
Celera SNP ID:            hCV27513930
SNP Position Genomic:     559976
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,385|T,1114)   total(C,385|T,1114) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20853):
TTAGTGGAGTGGCCGTCACATGGCCTGAGACACAATGTCCTCGCTCTTGATCACAGACCTATGGTTGTGCTGGGTCTGCCACTAGGGTCTAAGATGTCAC
R
TAGGATGTTTGTAAAAGTCAGATGGAGGTTAGCTTTACAACTGCTTTGTCAGAAATATGGGTAACATACAAATAATCCTATCAGGAAAAATTGTATATCC
Celera SNP ID:            hCV27513931
SNP Position Genomic:     257356
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,22|G,1289)   total(G,1289|A,22) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20854):
TGTTTTTACATCCTTCCTCCAACATCATCAACCGCATTAGCTCACCACCACTCCTCCTCTCCGCTTCTCCCCCAACCTGTTTTATCGGTGTCAGGAAAGG
R
GAGCGATCAGTCTCTCAGGAGGTACCCATATTGATCATAATATAGCCTTTCTTAGGCGTAGCAGTCCAGCAATCAGGGTTCAATGGTTTCCTCTGGAAGG
Celera SNP ID:            hCV27513932
SNP Position Genomic:     239578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20855):
GTGACTTTTTCTTCCAGTCTTGTGTACATTATCGTCTCTCACAGGACTTGAGCTTGGAGGGAGCTGGAGTGGCCGCTTGCTGAGTCTTTCTCCCTGGAGC
Y
CGTGGGCAGCTGGTTACCTCGCGCTGGGGCGACCCTGACTTAGGACCTCCTGCCGTTTCTCTGGGTGACTGCTCTGTAGTCGTGAGTCGTCTCTTTAATG
Celera SNP ID:            hCV2089448
SNP Position Genomic:     18965
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20856):
AGAGGGGAGTGCTTTTTTTAAAATTCTTTTCTTTTTTTTTTTTTTTTTTTAAGACGGAATCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATCT
Y
AGCTCACTGCAGCCTTTGCCTCCCAGGTTCAAGTGATTCGCCTGCCTCAGCCTCCTGAGTAGCGGGGACTACAGGCATGCACCACCACACCCAACTAATT
Celera SNP ID:            hCV2089449
SNP Position Genomic:     17955
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20857):
CTGAGGGCTTCCTCCAAAGACTCTTCTCTCCCCTCCCACTCCAGCCCGTATCGGTCCCTTTCAAGGACAGGGTGGGTCTCAGTGCCGACACCCCAAGCGG
R
GCTAACCAGCCAGGGCCTCAGGCCCGACCTCCACTCAGCACGTGCATCACAGCACTTTCCTGCAGCCCCCAGAATATGCCCAGGGCACAGTGGCTGTCAG
Celera SNP ID:            hCV9087159
SNP Position Genomic:     546593
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20858):
CAGGGGTTTGAGTGTGAATGCTGGTGTCCAGAGGGGTCAGGGGCCCTGCAGCCCCCTCTAGAAGCTGTGACTTGGGAAGCACCCTCGTGTCCATTTGGAC
Y
CGTCTCAGGTGACTTGATGTGTGTGATCCCCCCATCTCTGTTCTGTGGCTCTCTATGGGCCTGGGGAAGGGGTCCCAGGCATCCTCTTGAAGCCATGTGG
Celera SNP ID:            hCV174528
SNP Position Genomic:     192361
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20859):
GGAGCCTGAGGCAGGAGAATCGCATGAACCCGGGAGGCGGAGGTTGCAGCGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGTGGCAGAGCGAGACTC
Y
GTCTCAAAAAAAAAAAAAAAAAAAAGGAAAGAAAGAGCAGGAGTGCAGAGACTCCAGGTCAGACTTAGGAGGCCTTTCACCTTAAAGGTTAAAATCCCCA
Celera SNP ID:            hCV27156015
SNP Position Genomic:     328276
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20860):
ACAAACTTAGATAGTGGTTGAGCTAGCAAGTAACTAGTGAGAGGAACTTTAGCTCTATATGCAGGAGATCAGAGCACAGGGAGCTGGCCCCCTGGCTGAC
M
TTCCTTGTGGGCTACCCACGCCTTGCAACTGAAGAGCGGTAATTAAATATATATTCATAGAAGAGTGGTAAAATCTGCTTTGTCCGTGGAAATGAGCTAA
Celera SNP ID:            hCV174529
SNP Position Genomic:     192065
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,7)   total(A,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20861):
TGAGGCAGGAGAATCGCATGAACCCGGGAGGCGGAGGTTGCAGCGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGTGGCAGAGCGAGACTCCGTCTC
A
AAAAAAAAAAAAAAAAAAAGGAAAGAAAGAGCAGGAGTGCAGAGACTCCAGGTCAGACTTAGGAGGCCTTTCACCTTAAAGGTTAAAATCCCCACACGTG
Celera SNP ID:            hCV27156016
SNP Position Genomic:     328282
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20862):
GAGGCAGGAGAATCGCATGAACCCGGGAGGCGGAGGTTGCAGCGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGTGGCAGAGCGAGACTCCGTCTCA
A
AAAAAAAAAAAAAAAAAAGGAAAGAAAGAGCAGGAGTGCAGAGACTCCAGGTCAGACTTAGGAGGCCTTTCACCTTAAAGGTTAAAATCCCCACACGTGA
Celera SNP ID:            hCV27156017
SNP Position Genomic:     328283
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20863):
GTTGTGTACACAGCAGGGAGGGTATTTGGTAGGCAGGTTGCTGGTGGTAGTAGCACTAGGTAGCATAGGTTAATTGTGTAAAATGGCTTTTTTTTTTCTT
Y
TTTCTTTCTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCACCGCAACCTCCGCCTCCC
Celera SNP ID:            hCV27156018
SNP Position Genomic:     331740
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20864):
AATAATTGGAGCATGAAAATATGTATACATGTGGCTTTAAATTGGATGAATAGGAACGCAGTAACAAGTGAACTGGGGTAGGTTTAAAGCAGAACTTCAA
T
TTTTTTTTTTTTTTTTTTGAGACGGGGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAAGCTCTGCCTCCCGGGTTCA
Celera SNP ID:            hCV27156019
SNP Position Genomic:     333227
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20865):
TTTTGCAAGCATAAACCCCAGGTGTACTAACAACAGTCATATGGCTGTAACAGGTACAAGCAGACTGTATTCATAGGTCAGAAATATATAAATGCATGTC
M
CTGTGGTTGCTAATTATGGGCACTCAGCTGTATAACACCTGAAATACAGTGACGAACAACTTCAGTCTTTTGACAAGACTGATCAAAAGCTGTGATGGAG
Celera SNP ID:            hCV9087303
SNP Position Genomic:     605948
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20866):
ATCCCCCTCCACAAAGGCCAGTGCTAAACAAGGCCAGAGCCAGGAAGGACACGCGGGGCCATGGATTGAGTGAGGGCAGTGTGTGCGTGTGTGGATTTCT
S
TGGTGGCTTTGCAATGGCAAATATTTATTTTGAGGGATGGTGGTGGGAGGACCAAGTTTATACTCACTTTGTTTAGTAGGGGAAGTGGCTAATGTGAGAA
Celera SNP ID:            hCV2089450
SNP Position Genomic:     17366
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20867):
TGGTCTTTGAAAGGGAATTCACTCTGTATGTTTGGCCTAAACTGTGTTATGGCCTTCATAGTTACGTATTAGCATTATTCAGTTTTTGTTGTTTGTAGCA
R
TTATGCTGAAGACACAAAAGAAGAAAAAAAGCTAAGTGTTGCCAACTCAAGGAGTAATTTTCTTTGTTCCAGCGCTGTGTCCTGGGAGCTGCCCATCCCC
Celera SNP ID:            hCV2089451
SNP Position Genomic:     17171
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20868):
GGCTGCTCAGGTGGAAGGGATCTCTCAGCCACAAAGAGGGCTGCATATCCACCCAGCCAGAAAGGAGTGGGGAAAGGGTGAGTGGGGTGGCACGTCCTCA
Y
GTCCCAGGCTGCAGGCGCATTGTGAGGAAGGGCCTGGGAGAGCCAGTCTAGGTGAGGTCAGTAAGCCGTGCTTGGAAGCTGGGCTAGAGGGACCAAGAGT
Celera SNP ID:            hCV9087160
SNP Position Genomic:     546899
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;(C,-|T,-)   Caucasian(C,32|T,52)   total(C,32|T,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:20869):
GTCTTTAACCTCTTTGCTGGGACGTCTTAGACTTTTGGAGAGCATTTTGATATTTCAGACTATGATCAACTAGAAACTAAGAGAAAGGATGTTACCCACC
R
ACCTGCAGTTTCATTTGTAACCATTTAAAGAAATTTCTGCCTATGATTTATGTGCAGCTTTGTCACTAAAAAGAGAGTCTGTCTTTCAGAAAGATGAAGT
Celera SNP ID:            hCV9087161
SNP Position Genomic:     549779
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:20870):
ACACTGCTATAAATAAACACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTTGTTGTCTCACTGTTCCACAAGCTGTACAGGAAATGTGATGCTGGC
R
TCTGCTTGGCTTCCGGGGGGGTGCCTCGGGAAACTTACCATCATGGCAGAAGGCAGAGGGGGAGCCGGCACTTCACATGGCTGGCGGTGGTGGTGGGGGC
Celera SNP ID:            hCV9086506
SNP Position Genomic:     457669
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20871):
AAGTGCTGGGATGACAGGTGTGAGCCCACCTGGCCCTAAAAGCCCTTTCTAAAGGCCTCCAAACATCCTAGTGCGTAAGGACTAGATCCTTACTTCCTAG
W
GATGTAAGGACTAGAGGAAGGAGGCTAGTCCTAGGAGCAGACTAGCCCCACCTCCCCAGCGGGGGAGCCAGCAGGTAGGCTGCTGGGCAAGGACTTCACT
Celera SNP ID:            hCV9087309
SNP Position Genomic:     610855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20872):
CTGTGAGCCGGGATCGCGTATCTGCTCCTGTTCTGACGAGACTGCTCCTGCTGGAAGTTCAGCCTGGTGAACCTGATTTGGGAGGGGATGGTGTGATTGG
Y
GGGGAACAGCATTGTGTTAATTTTAGCTTCAACAATCAAGCCTGGGTCTCTGAGTGTCCATGTAGTACTTGAAGTTTGGGTTTGGAATTGGTGGGATTGA
Celera SNP ID:            hCV2089455
SNP Position Genomic:     15376
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20873):
CCTGGCCTTCTGGAAGCTCTGTGCTTCTGAGGGGCTGAGGGGGATTTGGGGGTCCCTTTTCATAGTGTGGGCTGTCTTTCCCAAGATGCAGTGATGACCC
R
TCAGAGGCAGGGTTGGTATTGTCCGTGGGGTCCAGTCCCTCTATCTTCCAGGGCTTTTCTGGTCACAAGAGACCATGGCCAGAAGTGGGTATCGTGCTTG
Celera SNP ID:            hCV2089456
SNP Position Genomic:     14057
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20874):
TTTTTGTCTATCTGTTTAGAGAAGTGTTTTTTCTGTTGTTGTTGTTTTTTAAACTTGAGATGGAGTCTGGCTCTGTCACCCAGGCTGGAGTGCAGTGGTG
Y
GATCTCTGCTCACTGTAACCTCTGCCTCCCAGGTTCCTGGGTTCAAGCAATTCTCCTTCCTCAGCCTCTTGAGTAACTGGGATTACAGACATCCACAACC
Celera SNP ID:            hCV1147194
SNP Position Genomic:     21245
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20875):
CTTGCTTTCAGAAAGCGTGCAGTTTATATAGCATTTTCGCTTAACACCCTCCCCCAAACAACCACCACCCAGCAACCTTAACACCAATCAAAGAGCCTCA
R
TACCCTGTATGGCCTGCTTTCCATGGGACAGGCTGGGGGTTTAGATGTTCCTCATAGATAAGGAATGAATCTCTGGGTTGGCCACTCCCGGATTCCTTAG
Celera SNP ID:            hCV2089457
SNP Position Genomic:     12926
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20876):
TGCGAGAGCGGTGAGCTGGGCCCGTCCGACCTCACCTCTGGCCCTCTGTCGCCGTGTGAGATTGCGGAGCCCCTGTTATTCATACTTCCCATAGGCCGTG
Y
GTGCAAAGCATCCCAAGCTTGTTTCCGCCACCCAAGGCAAGAGGGTTTGAGAAGGCCCCAAAGAACCTAAAGTATTCTGTTCTCTGTAAAGCAGCTGACT
Celera SNP ID:            hCV2089459
SNP Position Genomic:     11139
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20877):
ACTGATTTCAGGTGTGTGGATAATACAATGATGGCGGCAAGAAAGAAAGAATGCTTTTCTGTTGGTTGTTGGAACACATTTAAATTGCCACATGGAGAAA
R
CACAGTGTCTTGATTTGGTGGAGTGGATTTAGTCTTGACAACAATACTTCGGTTAGTAAGGTGATTCTGCCTAGTTATCTACATCCCTGAGCTCTGTCTA
Celera SNP ID:            hCV174530
SNP Position Genomic:     191026
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20878):
GCCTGCGCGGCGCTGGCTTTTGCTCCTCTGGTGCCAATGCAGCTCGTTGACAGCTCCAAGATATTTGGATATCTCACTCTTCCGGCTATTTCAGCTGCCA
R
ACTAGAATCCCAACCTTCTGAGAGTCTGTTCTCTTTTGGATTTGTTCATAGATGTCTATTCTCTCCTGATCTGGTTCATGAACACTCTGGAAGCCAAGTT
Celera SNP ID:            hCV174531
SNP Position Genomic:     190099
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20879):
CGGTGAGCCTGCGCGGCGCTGGCTTTTGCTCCTCTGGTGCCAATGCAGCTCGTTGACAGCTCCAAGATATTTGGATATCTCACTCTTCCGGCTATTTCAG
Y
TGCCAAACTAGAATCCCAACCTTCTGAGAGTCTGTTCTCTTTTGGATTTGTTCATAGATGTCTATTCTCTCCTGATCTGGTTCATGAACACTCTGGAAGC
Celera SNP ID:            hCV174532
SNP Position Genomic:     190093
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20880):
TCCCAGGAAGGAGATATACACACACACACACACACACACGTGTGTGTGTATATATATACGTGGAGATATATATATATATATATATATATATATATATATA
T
TTTTTTTTTTTTTTTTTTTAGACAGAGTCTTGCTCTGAAGCCCAGGATGGAGCGCAGTGGCGTGATCATGGTTCACAACAGCCATGGGCTTAAGCAGTCT
Celera SNP ID:            hCV27156020
SNP Position Genomic:     198544
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20881):
CCCAGGAAGGAGATATACACACACACACACACACACACGTGTGTGTGTATATATATACGTGGAGATATATATATATATATATATATATATATATATATAT
W
TTTTTTTTTTTTTTTTTTAGACAGAGTCTTGCTCTGAAGCCCAGGATGGAGCGCAGTGGCGTGATCATGGTTCACAACAGCCATGGGCTTAAGCAGTCTT
Celera SNP ID:            hCV27156021
SNP Position Genomic:     198545
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20882):
CAGGAAGGAGATATACACACACACACACACACACACGTGTGTGTGTATATATATACGTGGAGATATATATATATATATATATATATATATATATATATTT
W
TTTTTTTTTTTTTTTTAGACAGAGTCTTGCTCTGAAGCCCAGGATGGAGCGCAGTGGCGTGATCATGGTTCACAACAGCCATGGGCTTAAGCAGTCTTCC
Celera SNP ID:            hCV27156022
SNP Position Genomic:     198547
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20883):
GCATGCCACCGCACCCAGCTAATTTTTGTGTTTTTAGTAGAGAGAGGGTTTCACCATGTTGGCCAGGATGGTCTCCATCTCTTGACCTCTTGATCCACCC
S
CCTCGGTCTGGGATTACAGGCATGAGCCACCACACCTGTGGTTTTTTTATTTTATTATTTTATTATTTTTATTTTTTAAACCATTTATATTTTTATTTTT
Celera SNP ID:            hCV174536
SNP Position Genomic:     186844
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20884):
CCAGCACCTGCTGGCTGCTCTCTGCACTGATGACAGCTGTTAGGGAATCACATTCGAGACTTTAACTAGATTGGTCCAGAGTGCTTCACTCTTCTTCTTT
A
AAAAAAAAAAAAAAAACAGTAAACGTTCTTTTTTAGAGCAGTTTTAGGTCACGGCAAAGTTGAGCAGAAGGACACCCACAGCCTCCGCCATTGTCCCCCA
Celera SNP ID:            hCV27156023
SNP Position Genomic:     343029
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,9)   total(A,4|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20885):
TTTAATACAAGGAAAGATCAAATAATAAATGATAAATGACATTGTAGGGGGTCCCCTTGCAGCGCATGCTCTCTGCATCCCAGTGGATGCCGTCTGGGCC
R
GCCCTGGAACCAGCTGTGCTGTGAGTGAAGCCCACACTGGCTATGCCCATCCAGAACATTCGGTGTCTTTAGAGTGTTCTCTTGCTGTCTGGGAGGATTG
Celera SNP ID:            hCV174537
SNP Position Genomic:     186343
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20886):
AATGTTGGGATTATGGGCCTGAGCCACTGGGCTTGGCTTAGGAAGGCTTTTTGAATAATTATCTTCCTCACTCTTCTTTCCACCCACTCTCCATTCAACC
Y
TGATGAACCCTGCTGGACTTCATTACATTTCTGCTCACTTGACATGCAGATTGCAGATCAGGTGGGCGGGAGCTGATAACATTCTCACTTGGCCTCAGTT
Celera SNP ID:            hCV27156024
SNP Position Genomic:     198908
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20887):
GTGTTAACTGATACACATGTGTTAGGGCAGAGTCCGTTGACTCAAGTATAATTTAATACAAGGAAAGATCAAATAATAAATGATAAATGACATTGTAGGG
K
GTCCCCTTGCAGCGCATGCTCTCTGCATCCCAGTGGATGCCGTCTGGGCCGGCCCTGGAACCAGCTGTGCTGTGAGTGAAGCCCACACTGGCTATGCCCA
Celera SNP ID:            hCV174538
SNP Position Genomic:     186292
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20888):
AATGGAAAGGAGAAGACATATCTGGAGGCTTTCGGAAAGTAGAATAGATAGGACCGATGGACAGGTTGATTCGATGTGGAGGATGAAGGAGAAAGAAGAG
T
TTTTTTTTTTTTTTATAAATGAGGGACACTTGTGCTGAAGGTATGTATTTGGGAATCATACAGAAATAGCCATTGAAGACATGAGAGAGTGTGAGATCCA
Celera SNP ID:            hCV27156025
SNP Position Genomic:     352613
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20889):
CCATCGGTAGACTCCACAAGGTAGGAACTTTGGAAGATGCCTGGCTCCCGACACGTTTGCCAACAGTTAGGCAACTGGAAGTGATCATAATGACAGCCAC
R
GTTGGGAAGGCCCTGATAACCTGTAGGAATTCGGGAATTCCGATTCATCCGGCATAGGAATGTCTGTGTTTAAAGTTGGTCTTGAGCAGACGTGGATAAT
Celera SNP ID:            hCV27474409
SNP Position Genomic:     561233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20890):
AGCACACACAGGCTCCTACATACGTGTACCTTTGGTTTGCCTGTATTCTGAACTGAAGGCATTAAGGATGAAAGGATTGGAGCACCTACCTTTTGTAGGA
K
GATTCTCTTGTACTGTCTGGTCCTTGTTGGAACTTGTCTATTTAGGCTCTTCCTAGTTCTTCCCTCTAATGCAGAACAGTTGCCTCGGTGAGTTCAGGGC
Celera SNP ID:            hCV174539
SNP Position Genomic:     186005
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20891):
TGGATCCCTTGACCCCAGGAGTTCTATACCAGCCTGGGCAACATAGTGAGGCCCCATCTGTACAACAAATAAACAGATTAGCCAGGCATGGTGGTGTGCA
Y
CTGTGGTCCCAGCTACTCTGGAGGCTGAGGTAGAAGGATCACCTGAGCCTAGGGAGGTTGAGGCTGCAGTGAACTGTGATCTCGCCACTGCACTCCAGTG
Celera SNP ID:            hCV27156026
SNP Position Genomic:     353348
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20892):
ACTGCGACCTCCACCTCCCCAGTTCAAGCGATTATTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAAGCAGGCACCGTGATGCCTGGCTAATTTTTGG
T
TTTTTTTTTTTAGTAGAGACGGGGTTTTACCATTTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCATCCCACCTCAGCCTGTAAAAGTACTA
Celera SNP ID:            hCV27156027
SNP Position Genomic:     358345
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20893):
GAGTGATGATGATGCTGCACTAAAGGATCAGTAACTCACTGGCCAGCAGGCCCATCCCCCGGCTCTCAGTTGCTTGTTCACCTTCCCCGTTCCCTGCCCA
Y
CAGCCAGTTTCCAGGTAGTGTTTGACTCCACAGTGAGTTAAGTGAGCTGCCAGAGAGCAGTCACTGTCCACCGAGGCTTCCCTGTAGTTCTCTGATTGCT
Celera SNP ID:            hCV155952
SNP Position Genomic:     419939
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20894):
CTGCGACCTCCACCTCCCCAGTTCAAGCGATTATTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAAGCAGGCACCGTGATGCCTGGCTAATTTTTGGT
T
TTTTTTTTTTAGTAGAGACGGGGTTTTACCATTTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCATCCCACCTCAGCCTGTAAAAGTACTAG
Celera SNP ID:            hCV27156028
SNP Position Genomic:     358346
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20895):
GCCTCGGTCCCTTGCATCCAGCATGTGAGTTTATTTGGCAGTTCTTCTAAAATTACGTTGGCTGAGCACGGTGGCTTGTGCCTGTAACCCCAGTGCTTTG
R
GAGGCTGAGGTGGGAGGGTGACTTGAGACTAGGAGTTGGATACCAGCCTGGGCAACCTAGCAAGACCTCATCTCTAAAAAAATTAATAAATGAAATGGAA
Celera SNP ID:            hCV155953
SNP Position Genomic:     419223
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20896):
GTTTCTGGAGTGAGCAGAAGCCCGGGCCCCCTTATGCCTGTACGCTCAGAGCTCAGCCTCTGCAGCCACGACTTCTCCATGCTGCGGGGATGCTAGGCCT
R
AAGGGTTGCCACCTGCTGGGCATGGAGTGTCCAGCCTCACCCAGCCCCTCGCCTGGCCCTTCTCCCTTCCTCATGGCCGCTAGGGCAAGCCCTCACTTCT
Celera SNP ID:            hCV27156029
SNP Position Genomic:     361502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20897):
GCTATACAGACTTATTTAATAGAAAAATGACCCAAAGACTCCATGGAGAATATCTGTGGACTATTCAGTAGGCCTTTTTAATGTATCGGTACAGAGCAGA
K
CTGGCCAAAGCCACCCCTCCTCAGTGATGAGCAGCACCAACTAAGAACTAATGCAGGTAGGCCGGGCACAGTGGCTCACACCTATAATCCCAGCACTTTG
Celera SNP ID:            hCV15841077
SNP Position Genomic:     532695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20898):
GATTTTCAATGTGTTTCCCTTTGGTTATTCCCCACTCCCATGCCTGTCCTCTCTTAAAATCTCTGTTGTTGGTACTGTTTGTTTTTGGCTGTTGGAACTG
Y
TGTGATCCCCCACCACAAGCAGATTAAAAGGTATACCACATTAAGAAGACTCCTTATTGTTCCAAAGCAATGGTCCTATGTCTTTAAACAATAATATTAC
Celera SNP ID:            hCV9087310
SNP Position Genomic:     613092
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20899):
TCCCAAGCTTCTGGACTACCGTGATGTGGGCACTTCTTTTTTTGTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGCGGCGCAATCTCG
R
CTCACTGCAGGCTCCGCCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCTCGCCTGGCTAATTTTTT
Celera SNP ID:            hCV2089460
SNP Position Genomic:     9589
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20900):
CTGACTGGGTTCACTAGCTAGCCTCACGCATCCTCCCTGCCGGGCTGCTGTGGGCTGCTGTCCTGGTCCCACATCTCCTTTTTGCGCGCTTTCATGATTC
Y
TCAGACAGTCTCCATAGGTTGCCTCAAGACTCTGGAAGAATGAGGTTGCATATGCACTGTGACTTGTATCCAGGAATATTATCCTACTCAGGCTGGTCAG
Celera SNP ID:            hCV9087316
SNP Position Genomic:     619314
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20901):
CTCAGGCGAAGGTTTGGGGACAAGACTAAGCTCAGCTCCCAGTAACTGGCCCTCCCCTTGCCTCAATCCCTTCTGGAACAACACAGGCTGTGCCAGCCTG
M
ACAGGGCAGTGCAGAATCAGGAAAACCTGGCTGGGGCCAGAGTACCCGGGCACATCCTCGCTCTCCTGGGCCGCCTGGGGCCTGCACCTGCCGGGGGATC
Celera SNP ID:            hCV9087317
SNP Position Genomic:     619580
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|C,7)   total(A,6|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20902):
ACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGAGCTGGGGATTCCAGGCTTGAGCCACTGTGCCCGGCCAGGCCTTTTCCACTTAAACAT
R
TAATATGTCCACTAAAATTTTCCATGTCTTAGAATATTTTCATGTACTTAACAGCATTTAAAAGAAAATAAGTATAAATAGATAAAATTTCGACACTCTC
Celera SNP ID:            hCV9086515
SNP Position Genomic:     458355
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20903):
GGCCCCTTTGTGTTTTCTAGTTCAGATGTGGCTTCTCTAGCTTTTTCTTGCTGCTAAATGGTCTTAAAGGTTTGAGATCAGTGTCTCAGACTTTAGCCTG
Y
GTCAGGATCACCTCAGGTCACGTTTTAACTGAGGGTGGGTTAAAATGCAGATCACTGTGCCGGGCGCGGGTGGCTCATGCCTGTAATCCCAACACTTTGG
Celera SNP ID:            hCV9504025
SNP Position Genomic:     25158
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20904):
ATTATTGCATTAGTCTATTTGGCTTAGAGTTAATTGCTTAGGCAAGGTATTTCCATTAGCACAGGGAAGCAAGATGGCTGGAGTCTTATTTTAAAGCACA
Y
ACAGGCTCCTACATACGTGTACCTTTGGTTTGCCTGTATTCTGAACTGAAGGCATTAAGGATGAAAGGATTGGAGCACCTACCTTTTGTAGGATGATTCT
Celera SNP ID:            hCV174540
SNP Position Genomic:     185911
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20905):
AGAAATGGAGCGCTCCTCCAGAAAGTTCGGCAACTCACAAAAGACCCCTTAATTTCTATAGCGGGCAATTCAGTCCACAAAGGAAGGAAATCAATGAGCG
T
TTACGCTCTTTCTTTGAGGAACCTTTTTTTAAAGAAAAAAACATTTACTGGCGCTTTGCATGTTTTGGGTACAAGCAGTGGTAGAAACATAAAACATTAA
Celera SNP ID:            hCV27156030
SNP Position Genomic:     364935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20906):
GTTCGCCAAGCTGGGTACTGTTGGAAGCACTTTGCTTGCATTTGTGCAGCGATTCCAGCAACAACCCTGTGCGGTAGATTATTGTCCCATAAATCTATAA
G
ATTGATTGATTGGTTATCTGTAGGAGACATCTACGTATACGTATTTATAGAGCAATGAAGAAATAAGCCCAAGGCTATCCCATGAGTTAGGGGCTTCAGG
Celera SNP ID:            hCV27156031
SNP Position Genomic:     200937
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,5)   total(G,5|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20907):
TTCGCCAAGCTGGGTACTGTTGGAAGCACTTTGCTTGCATTTGTGCAGCGATTCCAGCAACAACCCTGTGCGGTAGATTATTGTCCCATAAATCTATAAG
A
TTGATTGATTGGTTATCTGTAGGAGACATCTACGTATACGTATTTATAGAGCAATGAAGAAATAAGCCCAAGGCTATCCCATGAGTTAGGGGCTTCAGGG
Celera SNP ID:            hCV27156032
SNP Position Genomic:     200938
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5)   total(A,5|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20908):
CTTATATGACTGGATAAAATCCAAATACTCAGCTAGAGAGAGTGGAGCCGCTGTGTTGAGACAGGCACTCCCCCTCAGCCTCCCCTTGTCTTCCCGGGCT
Y
GTGGGGTCACCTCCAGCAAACCCAATTTGAAAACCGGTGATCAAGTGTTGACAACTCCTGTCACAGCTGAGAAACTTAGGCCTTGTTCAAGGTCACATGG
Celera SNP ID:            hCV27156033
SNP Position Genomic:     366017
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20909):
TCGCCAAGCTGGGTACTGTTGGAAGCACTTTGCTTGCATTTGTGCAGCGATTCCAGCAACAACCCTGTGCGGTAGATTATTGTCCCATAAATCTATAAGA
T
TGATTGATTGGTTATCTGTAGGAGACATCTACGTATACGTATTTATAGAGCAATGAAGAAATAAGCCCAAGGCTATCCCATGAGTTAGGGGCTTCAGGGC
Celera SNP ID:            hCV27156034
SNP Position Genomic:     200939
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20910):
GGGATTACAGCCGCATGCCACTATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGGTCCCGAACTCCTGACCT
M
AGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGTCACCATGCCTGGCCACTTAAAATTTTGGGGGGTATCGAGAAGAAAGAA
Celera SNP ID:            hCV65880
SNP Position Genomic:     455446
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20911):
CGCCAAGCTGGGTACTGTTGGAAGCACTTTGCTTGCATTTGTGCAGCGATTCCAGCAACAACCCTGTGCGGTAGATTATTGTCCCATAAATCTATAAGAT
T
GATTGATTGGTTATCTGTAGGAGACATCTACGTATACGTATTTATAGAGCAATGAAGAAATAAGCCCAAGGCTATCCCATGAGTTAGGGGCTTCAGGGCT
Celera SNP ID:            hCV27156035
SNP Position Genomic:     200940
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20912):
CAGGCCTTCATCAATCAGAAGGCAGTGGCAGCGACAGCAAGACAGGCGGGTCAGGCCCCCAGATGAGATTTGTGAGGCTGCGGCATCGATTCTGACCACA
Y
ATTCTGGAAAAATTATCATCCTACACCACCTTCTGAAGCAGTCAAGGTTTGGGTTATTACCTGGACCAGCACCCGGCTTTTACATAGGACCTTCTCCTGG
Celera SNP ID:            hCV65881
SNP Position Genomic:     456712
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20913):
AGAGAGTGGAGCCGCTGTGTTGAGACAGGCACTCCCCCTCAGCCTCCCCTTGTCTTCCCGGGCTCGTGGGGTCACCTCCAGCAAACCCAATTTGAAAACC
R
GTGATCAAGTGTTGACAACTCCTGTCACAGCTGAGAAACTTAGGCCTTGTTCAAGGTCACATGGAGAAAGAATATTGCATGGAGTAGACCCCGCTCCTCC
Celera SNP ID:            hCV27156036
SNP Position Genomic:     366053
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20914):
ACTAGAGACGGGGTTTCACCATGTTTACCGGGATGGTCTCGATCTCCTGACCTTGTGATCTGCCGGCCTCGGCCTCCCAAAGTGCTGGGGTTACAGATGT
R
AGCCACTGTGCCCGGCCCAGAACCACATTCTTGAGCTGAGCTCCCGAGGGTACCTGGTGATGTAGAAGGAAGTTGGCTTAACTGGGGGCGCTGCAGCAGC
Celera SNP ID:            hCV27156037
SNP Position Genomic:     386176
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20915):
TCCTTGCCTGCCTTCCTTCTCCTCTCTTGCCCCCAGGCGCATCCCTGATCGTTGCTGCCATTCTAGACCAGTCTTTCCCACATTTGAGTGGTGTGGAACC
T
TTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTGCCCAGTCTGGAGTGCAATGGCGCAATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAA
Celera SNP ID:            hCV27156038
SNP Position Genomic:     388692
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,9)   total(-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20916):
ATAGATATAAAAGTTATATTTATTAAACATTTAAATTAATACCATTAATTTACTGTGCATTTAATGTTAAGGATGATGATGTTTTGCTGAAACAAAATGA
Y
GGCCATCCGTGCCAGGGGTTAGGGATGACGGTTGCAGGGCAGGCTCCTTTGGTGTCAGCTGCCTCGTGACTGTATCACGTGGTGACCCCAGTCTCTTCCT
Celera SNP ID:            hCV27156039
SNP Position Genomic:     389215
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20917):
CTCCAGGAAGATCCTTAAAAGCTGCCCTGTGATCCTTCTGCTCTCATCCTGCTGGCCAGAGCTTGTGTACCTGGCCATGTTCAGCTGATGCGGGGGTGGG
R
GGACGGGAGGAGGCTCTGGCAAATGTCATGTTTATTCTGGTTGTCATTTGCCCACCTAAGAACCAGGAATGCTATTACTGCGAAAGAAGGAAATAACAGA
Celera SNP ID:            hCV25973390
SNP Position Genomic:     309415
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,35)   total(A,1|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:20918):
GCCTCAAAAACACTACATATCAGCCAGACACGATGGTTCACGCCTGTACTCCTAGTGCTTTGGGAGGCTAAGGTGGGAGGATCACTTGAGGCAAGGAGTT
Y
GAGACCAGCCTGGCCAACATAGGGAGACCATTGTCTCTACAAAAAAATTTTTAAATAGCCAGGTGCATGGTTCACACCTGTAGTTCCAGCTACTCAGGAG
Celera SNP ID:            hCV9087180
SNP Position Genomic:     551113
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20919):
TCTGGCCAGACCATTTTGAACATACTGGAATAGAGGCAAAGCAGGGAGGAGGCCAGCCAGGGTCGGCTTGGCCGGGAAGGGAGACAGGAGCCCAGGACTG
Y
TCCAGACAAAAGGGAAAGGAAGCGCCCCCTCCAAGAGTCCACTCAGCAGCATAGCAGGCAGGGGAGAGATCAAAAGTCTGTCTGCGGCCTCTCTGGAAGC
Celera SNP ID:            hCV9087181
SNP Position Genomic:     554117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20920):
CAAAGGGAAAAGGCAGAGTTTGACAATTCAGGAGAAAGAGGCGATACCAAGCACGCATTTGCTAAATGTGTGGTCTGTGTCAGCCCGGTGCCAAACCCTC
M
CATGCGCTGTCTTTTCATTCTGCAACCCTAGTAGTTGGTGCCCCTGTGGGCCCCACTTAAAGGGGAGGAATTGAGGAGCCTGAAGGGTCAAGTCATTTGT
Celera SNP ID:            hCV9087188
SNP Position Genomic:     554765
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,8)   total(A,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20921):
GCCTGTAGTCCCAAGCTACTCAGGAGGAAGGAGGGAGGATCACTTGAGCCCAAGAGTTCAAGGCCACAAGGAGCTATGATAGCATCACTGCACTCCGGCC
T
TTTTTTTTTTTTTTTTTTAAAGTTTTAATTCAGCCTAATTTAGTTCCTCAGAAAGCTATAAAATGATGTCTTCACATGCCTCCCGATTAGACTGTTTCCC
Celera SNP ID:            hCV27156040
SNP Position Genomic:     391928
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20922):
TTGAATCTGCACATTCAGAATCCACAGATAACAAAAGGCAACTTTATATCACTGTGTCAGGCTAGTAGTAATAGTCACAGCAGCAGCAGCAGCAGCAGCA
V
TATTTTTTGGTAGAGACTGGGTCTCCCTCTGTTGCCCAGGCTAGTTTTGAATTCCTGGCCTCAAGCAATCTGCCTAACCTCGCCTTCCCAATGTGCTAGG
Celera SNP ID:            hCV27156041
SNP Position Genomic:     396729
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|G,2|-,4)   total(G,2|A,2|C,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20923):
ACTTCAGCTGGGTGGTGGCCCTGGGATGTCACTTTCCTTCCCACTTAATTGCTTTGGATTTCTCTTTCCTTTCTCGTCATCCCCCAAAAGTGTCTTTGCC
T
TTTTTTTTTTTTTTTAGCCCTGAGCCCCAAGCTCAGTCCTTACATAGATTGTTTAGGAGACCAGTAATCCCTAGTTCCTTTGACTTGCAGCTCAGCCTCA
Celera SNP ID:            hCV27156042
SNP Position Genomic:     401392
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20924):
CTTCAGCTGGGTGGTGGCCCTGGGATGTCACTTTCCTTCCCACTTAATTGCTTTGGATTTCTCTTTCCTTTCTCGTCATCCCCCAAAAGTGTCTTTGCCT
T
TTTTTTTTTTTTTTAGCCCTGAGCCCCAAGCTCAGTCCTTACATAGATTGTTTAGGAGACCAGTAATCCCTAGTTCCTTTGACTTGCAGCTCAGCCTCAC
Celera SNP ID:            hCV27156043
SNP Position Genomic:     401393
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20925):
CAGGATGATGGGGTCCCTGCACTTCCATGCTGTGTAGGTTGAGAGAAGGAGGTATGGGCACAGGAGGAAGTGATGGTAGATTTCCACTGTAGTTATTCCC
T
TTTTTTTTTTTTTTTTTTTTAAGACAGTCTTACTCTGTCCCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGGGTTCAAGTGATT
Celera SNP ID:            hCV27156044
SNP Position Genomic:     402008
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20926):
AGGATGATGGGGTCCCTGCACTTCCATGCTGTGTAGGTTGAGAGAAGGAGGTATGGGCACAGGAGGAAGTGATGGTAGATTTCCACTGTAGTTATTCCCT
T
TTTTTTTTTTTTTTTTTTTAAGACAGTCTTACTCTGTCCCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGGGTTCAAGTGATTC
Celera SNP ID:            hCV27156045
SNP Position Genomic:     402009
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20927):
GGATGATGGGGTCCCTGCACTTCCATGCTGTGTAGGTTGAGAGAAGGAGGTATGGGCACAGGAGGAAGTGATGGTAGATTTCCACTGTAGTTATTCCCTT
T
TTTTTTTTTTTTTTTTTTAAGACAGTCTTACTCTGTCCCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGGGTTCAAGTGATTCT
Celera SNP ID:            hCV27156046
SNP Position Genomic:     402010
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20928):
CAAACTCAAGCTAATGGAGTTAGTTGGATTTCTAAGGAAAACGCTGTCCTGAAGTTGAAGCTACTGGGTGTAAGACTAAAACTGAGGCTCAAAAAAAAAA
A
AAAAAAAAAAAAACACCTCAGTTAATTCATCTTTCTTTCTCAAGATGCTATTATTAAATGAAACCAAAACCCAGTTGAGATAACAGATAGAAAACTCAAC
Celera SNP ID:            hCV27156047
SNP Position Genomic:     402801
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20929):
AAACTCAAGCTAATGGAGTTAGTTGGATTTCTAAGGAAAACGCTGTCCTGAAGTTGAAGCTACTGGGTGTAAGACTAAAACTGAGGCTCAAAAAAAAAAA
A
AAAAAAAAAAAACACCTCAGTTAATTCATCTTTCTTTCTCAAGATGCTATTATTAAATGAAACCAAAACCCAGTTGAGATAACAGATAGAAAACTCAACC
Celera SNP ID:            hCV27156048
SNP Position Genomic:     402802
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5)   total(A,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20930):
AACTCAAGCTAATGGAGTTAGTTGGATTTCTAAGGAAAACGCTGTCCTGAAGTTGAAGCTACTGGGTGTAAGACTAAAACTGAGGCTCAAAAAAAAAAAA
A
AAAAAAAAAAACACCTCAGTTAATTCATCTTTCTTTCTCAAGATGCTATTATTAAATGAAACCAAAACCCAGTTGAGATAACAGATAGAAAACTCAACCA
Celera SNP ID:            hCV27156049
SNP Position Genomic:     402803
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5)   total(A,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20931):
ACAATGCAGTAATGATAGAAATAAGGTGCACAATAAATGTAATGCATTTGAATCATCATGAAACCATCCCCCTGCCTCCCTTCAGTGGGAAAATTGTCTT
Y
CACGAAACCGGTCCCTGATGCCAAGAAGGTTAGGGACCACTGCAGTAAAGGACCCCTTCTTTGACTGGCTTCATTCAGTCAGCATGATGATTTTTAGGGT
Celera SNP ID:            hCV2089480
SNP Position Genomic:     22208
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20932):
GCCTGTAATCTGAGCTCCTCGGGAAGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGATTGCGCCATTGCACTCCAGCCTGGG
Y
AACAGATCTAGACTCTGTCTCCAAAAAAAAAAAAAAAAAAGGTTGTTTTGTTTGGTAAACAGAAAAGGAGCCATCTTAAGATAATGCATCTTTATTTAAC
Celera SNP ID:            hCV453896
SNP Position Genomic:     157898
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20933):
GCCTTGTGAAGCCTCCTCTCCATGTAGGAACGGGGGGCATTTTGGTTAGCTGGGTTAGGCTTGCTGAATTTTAACATGACATGCTTGCTTTTCCTGTGTT
S
GTGTGTCGCTTCTCTCCCTTGGGCCCCCGCCCCTAACTTTTCCACCTGATCTCTGACTTCTCCATCTTTCTAACCCCTGAACAACAACTAGAGATAAGTT
Celera SNP ID:            hCV453898
SNP Position Genomic:     158254
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20934):
GATCAGTGTCTCAGACTTTAGCCTGCGTCAGGATCACCTCAGGTCACGTTTTAACTGAGGGTGGGTTAAAATGCAGATCACTGTGCCGGGCGCGGGTGGC
K
CATGCCTGTAATCCCAACACTTTGGGAGGCTGAGGCGGGCAGATTGCTTGAAGTCAGGAGTTAGAGACCAGCATGGCCAACATGGTGAAACCCCGTCTCT
Celera SNP ID:            hCV2089487
SNP Position Genomic:     25233
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20935):
AATTTTAACATGACATGCTTGCTTTTCCTGTGTTCGTGTGTCGCTTCTCTCCCTTGGGCCCCCGCCCCTAACTTTTCCACCTGATCTCTGACTTCTCCAT
C
TTTCTAACCCCTGAACAACAACTAGAGATAAGTTCAAGGTCACTGCTGGAACTGACCTTTGGGTGCTTGGGCCACCCTTAGGCCTTGAGAGGCACAGGCT
Celera SNP ID:            hCV453899
SNP Position Genomic:     158320
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,5)   total(C,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20936):
AATCCCAGCTATTTGGGAGGTTGAGGCAGGAGAATCCCTTGAACCCAGGAGGCAGAGGTCGCAGCGAACTGAGATCGCGCCACTGCACTCCAGCCTGGGC
R
GCAGAGCAAGACTCCGTCTCAGAAAAAAAAAAAAAAAAAAAAAAAAGAAATGCAGATCACTGGGCTCCACCCCCAGAAGTTCTGATTCAGTGGGTGGCGG
Celera SNP ID:            hCV2089488
SNP Position Genomic:     25478
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20937):
CACCTGGTGGCCTGTGCACTTTGCTGTGACGTGGGCTGCACGTCTCTCCCCAGCATGGGCTCAAGGTGCTCAGGAACCAAACCCCGGTGTCTCATCCAGG
M
CTGGACACGTGGTGAGAGCTCCATGGAGCTTAACTGCATGAGGGAGGCGGGATGGACTCTGGCTTGTAGGGCACAGTCTGTGTAGCAACAAGGAACATAC
Celera SNP ID:            hCV2089489
SNP Position Genomic:     26760
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20938):
TGGAGTTAGTTGGATTTCTAAGGAAAACGCTGTCCTGAAGTTGAAGCTACTGGGTGTAAGACTAAAACTGAGGCTCAAAAAAAAAAAAAAAAAAAAAAAA
C
ACCTCAGTTAATTCATCTTTCTTTCTCAAGATGCTATTATTAAATGAAACCAAAACCCAGTTGAGATAACAGATAGAAAACTCAACCAAATAATGAATGA
Celera SNP ID:            hCV27156050
SNP Position Genomic:     402815
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20939):
AAAATCAGACAGAAGACCCACTTCTTTACTGATGTAAAGACAACAAAAAGATCTGTGATGATTCCTAAGTAGGTATTTTCCTCAAAAGAAATCATTCAAG
A
AAAAAAAAAAAAGATTGCTATGAGAATAGCAGCTCGTGGCTGTGCTCAGTGCCTGTAACTGCCTTTGTAAATACACGAATTCCTCACATAGGACTGCAAC
Celera SNP ID:            hCV27156051
SNP Position Genomic:     404444
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20940):
GTATTGTGAACACATGCATAGGACCATACATACATCATACACACACACATACACACACACTTAAACATACACATACACATGCACATGTACACACACATAC
M
CACACACAGCTATGGGCACAACTTCATTTCAACTTGTAGATTGTGAAGTAAAGGCATTGGAACTTTGTGGCTTGCAAATCTAAATTACCTCCTTCCATCT
Celera SNP ID:            hCV27156052
SNP Position Genomic:     406513
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|-,3)   total(A,1|C,1|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20941):
GCGATTTATGTTCATTAAGTGCTTGTCAAAACTGAAAAATTTTCTAATCAACAGCAATCTAGCTGCAGCCCCCTCGATGGCTGGGAGGGCCGCCTCTGCC
R
CATCGGCTATTTGCCTGTTACAACTCTAGGCTAAAAATCCGCTGATGATTACATTAGGCTAAGCTGCGAAGTAAATGAACCATGTCTTATTTAGGTGCCA
Celera SNP ID:            hCV27156053
SNP Position Genomic:     409910
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20942):
TGACTACCATATACATGCCTCCCCCATTTAAAAAAAAAAAAGGTGGGGGAAGAGAAGGAGGAAAAAGCAGAAAATGTCATGCGTTTGCAGAGGACAGGTT
C
CCCCCCCACCCCCACCCCCGCCTGTGCTACAAAGTGAAAAATGGCTTTGCAGGTCAACCCTAATGACTTATCATGTCAGAATTGCTACCTCAAGTGGGAA
Celera SNP ID:            hCV27156054
SNP Position Genomic:     410333
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,4)   total(C,3|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20943):
GAGAGCACGTGTTTGGCCCGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCAGGCAGATCCCCTGAGCCCAAGAGTTCAAGACC
Y
ATCTAGGCAACATGGTGAAACCCTGTCTTTACAAAAAATGCAAAAATTTAGCTGGGCATAGTGGCGAGTGCCTGTGGTCCCAGGGGAGACTGAGGTGGGA
Celera SNP ID:            hCV27156055
SNP Position Genomic:     427340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20944):
TCCGTGGCTTCCCAGTGCTGCACGGGATCGCAGTGAGGCCGCTTGTTTGAGGGGAGACCTGGTTCCTGCCTCTGGCTTCTCATCCATATCACCGGAGTGC
T
TTTGAAAATGCATCTTTTCCCAAGCCCCATTCCCAGAGCTTCTGAATCAAAATCTGTATTTTTTGAAGCCACTAGTTCTAAAAAGCTCCACAGGAAATTC
Celera SNP ID:            hCV27156056
SNP Position Genomic:     441564
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20945):
GATCTGGACAATGAAAGTTTCGCTTCCTTGGCCCCTTCCAGCTGCGGTTGCTGCGTTGCACAGTAATTCAGTAAGAATCCTTCCCAAAGAAAGGAAAGCC
R
GTTTCTGGTTTGCAAGAGGGTCACTGCAGCCAACCCAGAGCAGTGCCTGATCCTCAGGGTGCTTTCCACACAGCTTCTCAGAGCATCCGCCTGGCGGCAC
Celera SNP ID:            hCV27156057
SNP Position Genomic:     449855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20946):
CTAGCTTCAAATTAGGAATAGGTAGTACAGTATAAAAAGATTTGTCAATTTGAGACCAACCTGGGCAACATGGAGAGACCCTATCTCTACTAAAAAAAAA
W
TTCATTTAATTAGCTGGGCCTAGTGGTGTGCGTCTATAGTCCCAGCTACCCAAGAGGCACATATATTTGAAGATTTGTCAAATATATGTGCTGCTTCTCC
Celera SNP ID:            hCV27156058
SNP Position Genomic:     454792
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20947):
TGTTAGAATAACATTGGTCAAATCTTTTTCATTTCCTCCCTCACTTCCTTTTGTAGATTTTATAAACACATGCAAAAAGGCAAAGACCTAAAGGACTTAA
T
TTTTTTTTTTTTTTTTTTTTTTTGACACAGAGTTTCACTCGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTCTGAGGTTCAAGTAATTCT
Celera SNP ID:            hCV27156059
SNP Position Genomic:     455221
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20948):
GGCTCTCATTTCTCTGTTTCCAGGCTGCTGATTTATTTTCTTGCTTCATCCCTTTGGTCCGGCCAAGACTCACCTGGGGCACCAGGTGGCATGTGCGTGG
R
CAGTGTGGAGTCATATCTTAGCCACAGTTGATCAGCACTTTCTCCCTTCTCAGCGCTGTTGGCCAGTGATGGTAAAAAGCCTGCAGAGTGGCTTGTCCAT
Celera SNP ID:            hCV29368139
SNP Position Genomic:     7723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20949):
CAGACATGGATTTTATTCGAAGGATGTGGGGGTGGCTTTGAGCATAGAGGCGTTGGGATGGACTGAACCATGGGCCCAGGGGACAGGCACAGGCTGCCTG
K
GTATTTAGGGCACTGCTTGGGTTGCCTGGAGAGTGGTTTATTGGCCCAGATTCTGCCACTTCTTGGCCAGGGGAGGCCTTTCATGGACAGCCTCATCAGA
Celera SNP ID:            hCV2089490
SNP Position Genomic:     27280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,6)      total(G,5|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20950):
GCGTCATGGGTATCATTTTGTGCATCTGCCCTTGTTCAGTGTTTCCTTGTAATTTTGCGGAAAAAAGTCTGCTTAGTGTTGAACCAGACATTCTGCAGCC
Y
TTAAAAGAGAATGGAAATGGAGAGATTGTGATGTGTTCATTGGTGACTTTTGACACGGATGCTAACCTGTAAGATGTGCAGATATATCATGTGCAAACTG
Celera SNP ID:            hCV2089491
SNP Position Genomic:     27639
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20951):
TTACACATCTCACCCAATTCAGGTAAGCTTACAGCAAATGCACTAACAAATCAAGTTCAACAGCAACAGGTGGTCCAGGCTCGAGGATAATGTTGGACTC
Y
TAGGTTAAGTGGAGACAGTAACTATCACATTACAGATTAAGGTTTAGAAACCTGATCACTTCTGTGGCTGATCATTTCCTTTAAACTTTCAGTTCCGCAA
Celera SNP ID:            hCV25964735
SNP Position Genomic:     420842
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,26)   caucasian(C,4|T,14)   total(C,12|T,40)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20952):
TAGGGATGTTTAGTTTGAAACTTTAATTTAAAAAGTGAGTGCAGTGAGTCTGTCTTTGTAGCGCTAGAGATGGGTCCTCAGCTGGCCATGATAGAGAAGG
R
TGGGCAGAGGCGGGTGTTTGAGACTTGGAGGGGACAGTGGGGGCACAGCAGCCAGGCAGAGGCATGTGTCAGGGCAGAGTGAGAATGCTAGGATCCTGGC
Celera SNP ID:            hCV9086544
SNP Position Genomic:     460550
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20953):
TCATGGGTATCATTTTGTGCATCTGCCCTTGTTCAGTGTTTCCTTGTAATTTTGCGGAAAAAAGTCTGCTTAGTGTTGAACCAGACATTCTGCAGCCTTT
R
AAAGAGAATGGAAATGGAGAGATTGTGATGTGTTCATTGGTGACTTTTGACACGGATGCTAACCTGTAAGATGTGCAGATATATCATGTGCAAACTGTTA
Celera SNP ID:            hCV2089492
SNP Position Genomic:     27642
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20954):
GCAGAGCCTATCCCGTGTCCAGTAAAGCAGACAGCATTCCAGTGTTATCTGGAATTATTTACAAACGCAGTGTCCACAATACGATGAATCACAACTTACA
R
TTTAGTTAGATTAAGCGAATTATAATTTTTAATAGTCAGTGAATATTTTCACCTGCCTAGATGGGGAGCAAGGCTCTGAATCCTCTCTTGCCCCAGCCCC
Celera SNP ID:            hCV9086545
SNP Position Genomic:     460851
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20955):
TTGCAGGTTATGTGACAAGAATCATATCATTTGGTGTGTGTGTATGTGTTTATTTATGAGACAGGGTCTCACTCTGTTGCCCAGGGTGGAGTACAGTGCC
R
CAATCGTAGCTCACCATAACCTCAAACTCCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCCCAGGTAGCTAGGACTACAGGCGCACACCACCACACCTG
Celera SNP ID:            hCV2089493
SNP Position Genomic:     31115
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,11)   total(G,6|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20956):
CTGGGTGAGGCAAGCATGGCATGAGCAGATTGGTTTTTGTAAAGTGCCTGATGTGCAGTCAAATACAGGAAGGCCCCTTCTTTCATACATGCACGTTGAG
Y
TCCCTAAACCCAAAATCCAAAATCCGAAGGGCTCCATTGAGCATTGCCTTTTAGCGTCATGTCGGCACTCAAAAATTTTCAGATTTCAGAACATTTCGGA
Celera SNP ID:            hCV9086546
SNP Position Genomic:     461058
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20957):
TCAAATATCCAGTCTGTGCCCACATTTCCAGTTGTCTCATGATTACCATAACTTTTCCCTTCAGTTTGCCTGTTGGAATCAGGATCAAATACTGTGTGCA
Y
GTTGCAGTTGGTGGAGACTTCTTCTGAAACTCCTCCAATGAGTAGGTTCCATGACCGTCTTTCTCTCCTTCCCGGGGCCTGTGTTTGTTTCGAATGCCTC
Celera SNP ID:            hCV2089495
SNP Position Genomic:     32304
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20958):
TTTGGTTTAGTAGACTCCGTTTAAAATTGACTAATTAGTTTTAGATCATTGTGAACTCTCTGGATTAAATGTACATGGTGCATTGCGGTGGAAGCTGTTA
Y
GGATGCTCCAGTGATCCCATCTTCTGCGTGTGGAAGCATTTCAGGAAGCCTTCTGTGTTCTCTTGACATGACATTGACCACTTCCTGGATTTCTGATGTC
Celera SNP ID:            hCV2089496
SNP Position Genomic:     32857
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20959):
TGGGGATCTAGGCTTTGCTCACCTGTGCTGCATGGTGATTGTTGTGAATTTTGAAAGGGACTGCTTCCCATCGGTGCCTGAGTCAAGGCCTAGGACTTGA
Y
GGATGGTGCCTGGCAGGGTCAGCTGCTTGGTGCAGGTTCCTGTGCCCATGTCATGGTACGTGCTGTCCGCTAAGCTCCCTCCCAGCCCTTAGTGGTCCTC
Celera SNP ID:            hCV2089497
SNP Position Genomic:     35469
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20960):
GCCAGGGTGTGGGATTGTGCCCGGCTTCCCCATCCTTCCAGTGGGGATGACGACAGGCATTTGCTGAGTTCCATGGGACTGTGGAAAGGGCTGTGTCACT
R
TAGACGCTCCATCGGAAATGCTGATGTGTATTCTTACCACGGGCGTCCGTGGGCCACCATTGTCTCCTGGCATCTGGCTGTCCTTGGAACCCAGCAACAC
Celera SNP ID:            hCV2089498
SNP Position Genomic:     36088
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20961):
CACATGGATGAGTTGCTCCCTCCTATAAAGTAGGAAAACATGCTTACCGCTGGAGAGGATGCCTAACAACAGCTCCTGCTGCCCAGCGAGGAAGGGACCC
Y
GTGTCCAAGAGAAAACCTGATGGCAGGTAACACATCACCCCTCTCTTTTAGGGACCTCATCCCTTTCTTTTAGGGAACTCATTGGCTTGTCTTGGACCCA
Celera SNP ID:            hCV2089499
SNP Position Genomic:     36670
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20962):
GTTAGAATAACATTGGTCAAATCTTTTTCATTTCCTCCCTCACTTCCTTTTGTAGATTTTATAAACACATGCAAAAAGGCAAAGACCTAAAGGACTTAAT
T
TTTTTTTTTTTTTTTTTTTTTTGACACAGAGTTTCACTCGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTCTGAGGTTCAAGTAATTCTC
Celera SNP ID:            hCV27156060
SNP Position Genomic:     455222
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20963):
TTAGAATAACATTGGTCAAATCTTTTTCATTTCCTCCCTCACTTCCTTTTGTAGATTTTATAAACACATGCAAAAAGGCAAAGACCTAAAGGACTTAATT
T
TTTTTTTTTTTTTTTTTTTTTGACACAGAGTTTCACTCGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTCTGAGGTTCAAGTAATTCTCC
Celera SNP ID:            hCV27156061
SNP Position Genomic:     455223
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20964):
TAGAATAACATTGGTCAAATCTTTTTCATTTCCTCCCTCACTTCCTTTTGTAGATTTTATAAACACATGCAAAAAGGCAAAGACCTAAAGGACTTAATTT
T
TTTTTTTTTTTTTTTTTTTTGACACAGAGTTTCACTCGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTCTGAGGTTCAAGTAATTCTCCT
Celera SNP ID:            hCV27156062
SNP Position Genomic:     455224
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20965):
AGAATAACATTGGTCAAATCTTTTTCATTTCCTCCCTCACTTCCTTTTGTAGATTTTATAAACACATGCAAAAAGGCAAAGACCTAAAGGACTTAATTTT
T
TTTTTTTTTTTTTTTTTTTGACACAGAGTTTCACTCGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTCTGAGGTTCAAGTAATTCTCCTG
Celera SNP ID:            hCV27156063
SNP Position Genomic:     455225
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20966):
GAATAACATTGGTCAAATCTTTTTCATTTCCTCCCTCACTTCCTTTTGTAGATTTTATAAACACATGCAAAAAGGCAAAGACCTAAAGGACTTAATTTTT
T
TTTTTTTTTTTTTTTTTTGACACAGAGTTTCACTCGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTCTGAGGTTCAAGTAATTCTCCTGC
Celera SNP ID:            hCV27156064
SNP Position Genomic:     455226
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20967):
CAGCCTGTTTCTACAAATCTGCCTTTTTCTTCTAACATATGGGTTAACTACCATTTCTCTTTGCTAATTTTACAATAATATCTTTGCATTTTCCCCTAAT
A
AAAAAATTAAATTTTAGAAACATTTAAAATGCAGTTAAGCTTTTTGGTTTCTAAAAAACTCAGTCCTACACAAAGCTCTTAGATTCGGGAGTGGGTACCT
Celera SNP ID:            hCV27156065
SNP Position Genomic:     457452
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20968):
CTCCTGTGAGACTCTAATGCCGCCGCTGATATGACAGGAGGCGGGGCTCAGGAGGTGGTGTGAGCTTATGGGGAGCAGCTGTAAATACAGATGAAGCTTC
B
CTTTGCTTGCTCACACGCTGCTCACCTCCAGCTGTGTGGCCCTGTTCCCAGCCAGCCACGGATGAGTACCAGTCCACGTCCCTGCGGTTGGGGACCCCTG
Celera SNP ID:            hCV27156066
SNP Position Genomic:     210158
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2|T,2|-,6)   total(G,2|C,2|-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20969):
CGTTTTTATTTCCCATTCTTGAAGCTGAGCTCTGGGGCTCAAGCACTTCCAGCAAAGCAGTTTGACTTTCTAGCAAGAGGATGTGGTTGCATTTTCCTTT
Y
TCCCTTAAAAGAAAAAAAAAATGCGTCGTTCCTAGATGATGGTTTTTTTTGACAGCACGATGCCTACCTTTGCGATTTGAGATTTTAGGCCCCTTCTTGG
Celera SNP ID:            hCV29368141
SNP Position Genomic:     8674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20970):
CAGGGTGGGAGCTGAAGTGTAACAGGCATGTCGGCTCCAGCGACACACAGCTTGGACATCCTTACACACCGTTGGTGGGAGCAGCACAGAACTTCGGCTC
M
GCAGCATGTATCCAGAGCCCCACGAATGCTCATGTTCATGAGCCTGTGTCTCAAAAGCTGCCCCAAAGTCATAATCCTAATTACTGAAAACACACAGAAG
Celera SNP ID:            hCV27156067
SNP Position Genomic:     467275
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,7)      total(A,7|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:20971):
TGTTATCAATAATGATACCACTTTTCATTTCTGTAGAACTTTAACAGAAATATTTTTGCATGTATAGTCTCATTGTGTGGCTTCACCAACCCTGTGAGGG
W
GGGTGGGTAGCTTCCTCATCCTCATTTTATGGAGGAGCGGGTGGAGGTTCAGGGAGGGATAATGACCTCCTTAACATTTGACTGAGGTGGTTTGAAGTCT
Celera SNP ID:            hCV29368142
SNP Position Genomic:     9053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20972):
ACACTGCCAAATAGGTAAATTAAGGTGTGGGTGGAAGTCAGCAGGGGCAGGGGGCCGATACATACGTGCTTAGCATTTTCCTCTCTCTTTTCTTTTGTCT
K
TCTTTTCCTTTTTTTCCATATAGATGCATGCTTCTTATGAACATGTTTTAAAGCATTTTGTATCTTTAATCAACATGTAGAAAATGAACAGCCAACCCTT
Celera SNP ID:            hCV27156068
SNP Position Genomic:     469915
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20973):
TTTCAGAGCGCGTGGAGGTGGGTCTGGGTTGTAAAATCTCTTAACGATGGACTAAACATATTTTAGTTGAAAGGCCCACCAAGGCTCCCAAATAAAAACA
S
ATCCGTAATCCTGTTTGTAGGCATGGGATACAGGTGATTTTGCCCTCAGTCTTGTTTTAAAACACTAGCTTGTCAGAAGAGAACAGTTTTTTTTCCCCAA
Celera SNP ID:            hCV29368143
SNP Position Genomic:     10097
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20974):
AATAAGTTATGAGTGTCCTTGGGCCTGTCTGCCGGAATGATAGCTAAGAATACATTCCTGGCCCATCAGTCTCAAGCAGGCTGCTTGATATTTATGCGGA
Y
GGAATGTTATTTTATTCCCCCTCTAGTCATGCTTGTCAGCTCTCCGAGTGAAAAGTGAAACTGCTTCTTTGACTCATACTTCACGTTCCGAAGCTCGGAG
Celera SNP ID:            hCV27156069
SNP Position Genomic:     470666
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20975):
AAAACAGATCCGTAATCCTGTTTGTAGGCATGGGATACAGGTGATTTTGCCCTCAGTCTTGTTTTAAAACACTAGCTTGTCAGAAGAGAACAGTTTTTTT
Y
CCCCAATTTTTGTTTTGTACATTGAGAGGTTTATTCCCCCCTCCCTTCACCCCCAAATCACTAGAGTTTAAGGAAGCATTGCTGATTGTTCCAGATTTAT
Celera SNP ID:            hCV29368144
SNP Position Genomic:     10191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20976):
GGCACTTGGCAGGAGAACCCTGCCCTGCACTTCTTAAGGGCATTTCCACAGGGAGATTCCAGGACCCCTTAGTAGTATCTCAGCCCCAGTGTTTGGGGGA
S
CTGGGAAGATGGGTCAGGGTTCCCCACTTTGTCCCATGATACAGCTGCTCTGTTGAGCATGTGTGTCCCACAGAGTGCGGAGTGTCTGAGGTGCATCATC
Celera SNP ID:            hCV29368145
SNP Position Genomic:     10872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20977):
TTGAATGAAAGGTGGCAGGTTTGCAGTCCCCTCCTTAAAAATAACACTCAGTTGGCTTTTAGTTGCTTCCAGGTGAGCTCTCGTACCTTGCCGGCACCCG
R
GACCTCCACAATGCGGGCGTTCCTTGTGAGTCCAGCTTACTCATGCTTCTCAGTTGTGGTGCAGGTGCTCTTTGAGATGCCGCCTTCTCTGCCTGTTGCT
Celera SNP ID:            hCV29368146
SNP Position Genomic:     11495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20978):
GAATGAAAGGTGGCAGGTTTGCAGTCCCCTCCTTAAAAATAACACTCAGTTGGCTTTTAGTTGCTTCCAGGTGAGCTCTCGTACCTTGCCGGCACCCGGG
R
CCTCCACAATGCGGGCGTTCCTTGTGAGTCCAGCTTACTCATGCTTCTCAGTTGTGGTGCAGGTGCTCTTTGAGATGCCGCCTTCTCTGCCTGTTGCTCA
Celera SNP ID:            hCV29368147
SNP Position Genomic:     11497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20979):
GCAGGTTTGCAGTCCCCTCCTTAAAAATAACACTCAGTTGGCTTTTAGTTGCTTCCAGGTGAGCTCTCGTACCTTGCCGGCACCCGGGACCTCCACAATG
M
GGGCGTTCCTTGTGAGTCCAGCTTACTCATGCTTCTCAGTTGTGGTGCAGGTGCTCTTTGAGATGCCGCCTTCTCTGCCTGTTGCTCACCCTGCGAGGCT
Celera SNP ID:            hCV29368148
SNP Position Genomic:     11509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:20980):
CCTTAAAAATAACACTCAGTTGGCTTTTAGTTGCTTCCAGGTGAGCTCTCGTACCTTGCCGGCACCCGGGACCTCCACAATGCGGGCGTTCCTTGTGAGT
S
CAGCTTACTCATGCTTCTCAGTTGTGGTGCAGGTGCTCTTTGAGATGCCGCCTTCTCTGCCTGTTGCTCACCCTGCGAGGCTCGGTCTCTGTTGGTGTCA
Celera SNP ID:            hCV29368149
SNP Position Genomic:     11527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20981):
CAATACAGTAATGGGATGTTATTTGCAGGGCCTGTGTGGTATGAGAGGAGCGTGGCTGTGCTGTTTCTGCGCATTCTGCTTTGTAAGTGCTCACTCTGCA
T
TTTTTTTTTTTTTTTTGCCTTTTCCGGTCCAATGGCAGACACAGGGCTGGGTGACTCCGTATGCTCCAGCCCCAGTATCTCCAGCACCACCAGCCCCAAG
Celera SNP ID:            hCV27156070
SNP Position Genomic:     480285
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20982):
AATACAGTAATGGGATGTTATTTGCAGGGCCTGTGTGGTATGAGAGGAGCGTGGCTGTGCTGTTTCTGCGCATTCTGCTTTGTAAGTGCTCACTCTGCAT
T
TTTTTTTTTTTTTTTGCCTTTTCCGGTCCAATGGCAGACACAGGGCTGGGTGACTCCGTATGCTCCAGCCCCAGTATCTCCAGCACCACCAGCCCCAAGC
Celera SNP ID:            hCV27156071
SNP Position Genomic:     480286
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20983):
AAGGGGACATCTCTCTTGAAATTTTTTTGGACTTACGGACATTTAATTCAGATGCAGTGAACCCAGTTTTTCTGTTCATTTTAAGATTGATATGCTTTTT
Y
TTTTTTTGGATGACAGAAGTGTATTTGTGGGGTTTTTTTGTTGTTGTTTTTGTTTTTTTTTTTTTGGGATATGATCTCACTGTGTTGTCCGGGCTAGTCT
Celera SNP ID:            hCV27156072
SNP Position Genomic:     490951
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20984):
TCAGTTGGTTTTCTGCAGAAGCCATGATATACTGTAGGCATGGTTACCAGAACACCCCTAAGAGAGCTGACCAGAATTTCTAAGTTCATGTTCCATGCGT
M
CACACACACACACACACACACACGGTGTTATTTTTTTTCTTTCTGAATTTCATGAAAATAAAATATTTTCTACCAGAATACACATTTAGTGATGCCTCTT
Celera SNP ID:            hCV27156073
SNP Position Genomic:     493313
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,8|A,8)   total(A,8|C,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20985):
TGTGGCTGAGACCTGTGGACAGAGCCCAGCAGGGCTGACTTATCTGTCAGAGCTTCCCAAGGCACCAGGTGCTGCTAGGCTTTCTCGAGAATTAAACCCA
R
TGGAGATAGTGTTATTCCCACTGATGCTGTTAGCTAAAGTGAGTCTCGGGCAGCCCAGGGTCAGTGTGGGAGGATTTATTTATACAGGGACACCAGTGCC
Celera SNP ID:            hCV27490495
SNP Position Genomic:     383658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(A,573|G,908)   total(G,908|A,573)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20986):
CAGTTGGTTTTCTGCAGAAGCCATGATATACTGTAGGCATGGTTACCAGAACACCCCTAAGAGAGCTGACCAGAATTTCTAAGTTCATGTTCCATGCGTA
C
ACACACACACACACACACACACGGTGTTATTTTTTTTCTTTCTGAATTTCATGAAAATAAAATATTTTCTACCAGAATACACATTTAGTGATGCCTCTTT
Celera SNP ID:            hCV27156074
SNP Position Genomic:     493314
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20987):
CTAGGGTATAAACCTAGGAGTGGAATTGCTGGGTCATATGGTAACTCTGTTCAACTTTTCAAGGAACCACCAAATTCTTTTTTTTTTTCCTTTATTTCTT
A
AAAAAAAAAAAAAATAGATGCGCAGATTGTGCAGGTTTGTTACATAGGTATACATATGCCATGGTGGTTTGCGGCACCTATTGACCCATTTCTAAGTTCC
Celera SNP ID:            hCV27156075
SNP Position Genomic:     496356
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,6)   total(A,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20988):
CTCCTTTTCAATTGTTTGGAATAGTTTCAAAAGGAATGATACCAGCCCTTTGTATTTCTGGTAGAATTCAGCTGTGAATCTGGTCCTGGGCTTTTTATTG
W
TATTTATTTATTTATTTATTTATTTATTTATTGGTTGGTAGGCTATTAATTACTGCCTCAGTTTCAGAATTTGTTATTTGTCTATTCAGGGATTTGACTT
Celera SNP ID:            hCV27156076
SNP Position Genomic:     498971
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,5)   total(A,3|-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:20989):
TCAGTTGGCTTTTAGTTGCTTCCAGGTGAGCTCTCGTACCTTGCCGGCACCCGGGACCTCCACAATGCGGGCGTTCCTTGTGAGTCCAGCTTACTCATGC
Y
TCTCAGTTGTGGTGCAGGTGCTCTTTGAGATGCCGCCTTCTCTGCCTGTTGCTCACCCTGCGAGGCTCGGTCTCTGTTGGTGTCACTCATGACCAGCCTT
Celera SNP ID:            hCV29368150
SNP Position Genomic:     11542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20990):
GTTTGATTTTTCTCTCTTCTTCTTTATTAGTTTAGCTAATGGTCTATCTATTTTGTTAATTTTTTTCAAAAAAACAGCTACTGGATTCATTGATTTTTTT
Y
CCCCCCAAAAAACCAGCTACTGGATTCATTGATTTTTTTTTTTTTTTTTTGGAGGGTTTTCCTGTCTCTACTCTATCAATTCTTCTCTGATCTTAGTTAT
Celera SNP ID:            hCV27156077
SNP Position Genomic:     499336
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20991):
CCATGGCCAGAAGTGGGTATCGTGCTTGTGTCTGGGGCCTGGGGAGGGAAGGAAAACAAATACCACCCCCTGCAGAAGAGATCGTTAATGGATTCTTTGA
R
TAACCAGCCAGATAGCTTGTTTGTGTGCGAGGTTGGGACATTTTCCGTAAAGAGCAGACTAAATATAGGCTCGAGGGTGGGGACCAGGGCCCGAGAGGGG
Celera SNP ID:            hCV29368151
SNP Position Genomic:     14230
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:20992):
TTTTTCTCTCTTCTTCTTTATTAGTTTAGCTAATGGTCTATCTATTTTGTTAATTTTTTTCAAAAAAACAGCTACTGGATTCATTGATTTTTTTCCCCCC
M
AAAAAACCAGCTACTGGATTCATTGATTTTTTTTTTTTTTTTTTGGAGGGTTTTCCTGTCTCTACTCTATCAATTCTTCTCTGATCTTAGTTATTTCTTG
Celera SNP ID:            hCV27156078
SNP Position Genomic:     499342
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20993):
TTTGCCGTTATGATGTCCATGAGGTTGGAGTCCTTTCTTAGTTAAAAAATCTGAAGACCCAACAACACACAGCACCCCCACGCTGAACCCTCCCGAGAAT
S
ATTGAGCTCTTCCAAATAAAGGGCGATTTTGTAGCTTTTCAAGTTTTAACAGTTTGATAACTCCCAGGCTCCTGTTGAGATGCTTTGTGATGAGGTTGTG
Celera SNP ID:            hCV29368152
SNP Position Genomic:     25909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20994):
GTTATTTTGTGTTCGTTCGTTTGTTCTGTTTTGTTTTTTGAAACAAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGTGGTGGCATGATCTCGGCTCACTG
M
AGCCTCCACCTCCAAAGTTCAAGTGATTCTCCTGCTTCAGCCTCCCGAGTAGATGGGGTTAAAGGTGCCCACCACCACGCCCAGCTAATTTTTGTGTTTT
Celera SNP ID:            hCV27156079
SNP Position Genomic:     499983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20995):
AAAACAGAAATGCTGTACTCCTTCCCTGTCTCAGGCCCAGGAGCATTATTATTATTTTTTTTAAATCTCTTGTGGCACTTTTCTACTTTCTCCTCCACAG
K
ACAGCTGCTTGTTGAGAGGCAGTATATGTCATGTCTAAGAAGAGTCCTCAAGTGAAGTCTGGTGCAGCTTCTTTCTAGCTGTGTGCTTTCAGGAAAGCCT
Celera SNP ID:            hCV29368153
SNP Position Genomic:     28376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20996):
CCCCTCCCTCCATCACATCCCCCATGATACTAATGTGGGCTCCCTTACCTCCGCAGTACGGAGTGGACGTCACGGCCCGAGATGCCCACGGGAACACAGC
K
CTGGCCTACGCCCGGCAGGCCTCCAGCCAGGAGTGCATCGACGTGCTGCTGCAGTACGGCTGCCCCGACGAGCGCTTCGTGCTCATGGCCACCCCTAACC
Celera SNP ID:            hCV9087501
SNP Position Genomic:     635832
SNP Source:               Applera
Population(Allele,Count): african american(G,22|T,12)   caucasian(G,9|T,25)   total(G,31|T,37)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:20997):
ATCAGCCACGGGTGCCACGTGGCTCTGGAGGGGCTTGGCGCCTACGTTAGTCAGCTCGGGCTGCCACGACAAAATACCACAGACTGGGAGGCCCAAACGT
R
TTTTCTCACAGTTCTGGAGGTTGAGAGTCCATGATCAAGGCACTGGCAGGTTTGGCTTCTTCCCATTCTGTGCCTCACCTGGTCTTTTCCGTGTGTGTGG
Celera SNP ID:            hCV29368154
SNP Position Genomic:     29051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:20998):
AGCAGTGGGAGGGTGCCCACCATCATCTGAGGAACAGCCGTGCCCGCCTGCTCGCCGCACCTGGGACGCGGCAGCCTCGCCGCATTCTCGCTCAGAAGTC
R
CAGCACGTGAGTCCCGTCGCATCCCCTCCCTCTTCCTGGTGGCCACCTCCCTCCCGCCCACCCACTCTCACCCCAAACAAAATCACAAAACCTGGACATC
Celera SNP ID:            hCV9087502
SNP Position Genomic:     636062
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,15)   caucasian(A,9|G,25)   total(A,32|G,40)
SNP Type:                 UTR 3;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:20999):
GCTGGGGAGGGAAGGAAGACGGCTCATGAGGAAGGCCAGGTTTTTGGTTGGGAGAGACTTGAGCTTGATGAGTGTTTGGACAATACTGGCCCTGATGAGG
S
AGCGATTGCAGGGACGGGGTGATGCCGATGAAGAGGCTGGCCACAAGGCAGAGGGGAGGCTGAAAGTTGTGTGAAGATGGCTGAGTGGGAAAGACAAGCA
Celera SNP ID:            hCV29368155
SNP Position Genomic:     34604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21000):
CGGGGGCGGTGGCCTTGGGTTGAATGGCCCACTCACCACCCTGTGACCTGGCCAGGGTGTGGGATTGTGCCCGGCTTCCCCATCCTTCCAGTGGGGATGA
Y
GACAGGCATTTGCTGAGTTCCATGGGACTGTGGAAAGGGCTGTGTCACTGTAGACGCTCCATCGGAAATGCTGATGTGTATTCTTACCACGGGCGTCCGT
Celera SNP ID:            hCV29368156
SNP Position Genomic:     36038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21001):
ATGGAAACACTGGCAAACTTGGAGTCTTCTGCAAAACTGTATCAAGCAAAAGTGAAACAGTAGTTGCTGTGTGACAAGTTAGTATTTTGTCCATGACATG
Y
AGCAATCAGTAGAAATAGATAAAGGATGGGATATTGGAAAATCCCCTGGAGATGAGAAACGGTGGGTGACATCTGATGAGAGGAGGAGGATTCAGGGAGC
Celera SNP ID:            hCV29368157
SNP Position Genomic:     38546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21002):
AGATGTGCTTTACCTGCTCCCATTCACACCTTAGAACAGAGAGGCTCCTGTGTATAAAGGTATCTGTAAAGCCTCATGCCCTGCATTTCACATCTAGCAA
Y
ATCATAAGTAGAGCATCTTCACCAAATTCTGTCTGTATCATCTTGAGTACACAGATGTGTCATAACTAGCCACACTTCTTTGGACATGTAAGTCGCTTCT
Celera SNP ID:            hCV29368158
SNP Position Genomic:     39356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21003):
ACTCCTGACCTCAGGTGATCAGCTCACCTCGGCTTCCCAAAGTGCTGGGATTACATGCATGAGCCACTGCGCCCAGCCAGTGGGGTTAATTTTTGTGATC
R
TTGTCTGGCTGTTGATTATTACTTGATTCTCCTGCTGTGTGTCTTCTCTCTTTCTGAGAGCCACAAAACACCACGTCCCCTTGCCTGAGTCTCTAGCTAG
Celera SNP ID:            hCV29368159
SNP Position Genomic:     40444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21004):
TGGACTGCGAGACCCAGAGTAAGTGTGTGCGGTGGTAGCAGGGGCTGGCGCTGTGTAGCTGGAGACCACATGGTCCCACTAGGCCCGGGTTGCAGGGGAC
Y
CACATCTGTCCTGTTTGGCAGATAAGAGTTAACTGCTTTTAGGAAATTGAGATATTTTGTTTGGATTTTACCTTAACAGAGTGCCTTCCACACAAGCCTC
Celera SNP ID:            hCV25970239
SNP Position Genomic:     552795
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(T,40)   total(C,4|T,74)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21005):
GTCATGGTGCTGTTACTTGGTGAGAAAGCATTATTTAAATACCCCAGATGAGGAGTTAGGCACTTTCTCCAGTTTTGCAATGCTCTTTTGTTTACCTTTT
A
AAAAAAAAAAAAAAAAAAAAACGAGACAAGGTCTCACTCTGTCACCTGGGCTGGAGTGCAGTGGTGCCATCATAGCCCACTATACCTTGAACTCCTGGGT
Celera SNP ID:            hCV27156221
SNP Position Genomic:     242321
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,11)   total(A,11|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21006):
ATTCCTGTTCCCCAGATCCTTATGACTAATGCCAACACTAAACATAAAACAGGATGTTACTCTTTCTACAATGAGCTTTGGTGTTTTTGTTTTTGAAAAA
K
ATTTTCGGTATATGGTTTTTGTTTCTGATAGGAATTCTCCTTTAGGCTATTGTCAATTTGTTTTCCTGTAATGATTTGAAACAATTATATTAACTTAAAA
Celera SNP ID:            hCV27156223
SNP Position Genomic:     188601
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21007):
CATATTTGTGCCTCCAGCACAGCAGCGAGTACAAGTAGCACATGTGCCTGTCTCCAAGCAGGAACATCTCCTCCTGGCTGTGGTCAGATTGATCTGGCAA
T
TTTATGTGGTTTGATGGAATATAAATTGACCTGGGATGAAAACTGACTCCAGTAAAGCCTTCTAGTTTGTTTTACTCCATGTGGAGTTAGTGGTCACTGT
Celera SNP ID:            hCV27156080
SNP Position Genomic:     214704
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21008):
GCAGCAGTGGAGAGCTCGGCTCAAAGTGCGAAGTTGTTTAGATTTCCACGTTACACAAACACACAAGCTTCTCAGGGGAAGAGCATGATGAATTTCTTTC
T
TTTTTTTTTTTTAAACTAAAATTAGAATAGGCCGGGCCCAATGGCTCACACCTGTAATCCTAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCA
Celera SNP ID:            hCV27156081
SNP Position Genomic:     506617
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21009):
CACTTAATGCATATTTTGAGAGCTGTTACCCAAACCTTTTTCCTTCCTTCAATGAGAAGACTTATATCTTTTTGAGCAGAAACTGTGGATTCAGAAACCA
R
CAGAACTCTTCATTCTCCTTAAGGAGATAGAGGCCAGGGAAAGTGTTTTTAGGTAAATAATAACGCCTTCTTGCCTCTCTCCCTTTATCTCCCCATTCTC
Celera SNP ID:            hCV9080684
SNP Position Genomic:     125171
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21010):
TATTCTGCTTATAAAGAGCCAGTCAAAAGAGTCTCAGTTTGAAGTGTTCAGTTAAGTTTAAGTCTCAGTGATAAGTTTTCAGGCATTCACATGTGTTAGT
A
AAAAAAAAAAAAACAAAAAACTTTTAGAGAAACAAATTAACAAATTTTATTTCAAAATAAAAATTTAAGTTCCTCATGTCGCAGGAACCCAGATGAAAAG
Celera SNP ID:            hCV27156082
SNP Position Genomic:     521979
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21011):
TTGAGGCAAGCAGCCCTGGGGATGTAAGCACCTTTTAATTTGGCAGCTTATTTGATAAGCAAATGGGTTCTATCTTAAAATCCAAAGTTGTTTACACTTA
W
TGCATATTTTGAGAGCTGTTACCCAAACCTTTTTCCTTCCTTCAATGAGAAGACTTATATCTTTTTGAGCAGAAACTGTGGATTCAGAAACCAACAGAAC
Celera SNP ID:            hCV9080685
SNP Position Genomic:     125077
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21012):
TATAGACATAAAGAAGTCTTCACTTGTGAAAAATTAAATGTAGACCCGTATCCTTTAACACCGCAGATGCCTGCTAGTTTAGAGGTTGTTTCTTACTAAA
W
TATTATTATTATTATTATTATTATTCTCTTGAGATGGAATCTCTCACTGTCGCCCAGGCTGGAGTGCAGTGGTACGATCTCAGCTCACTGCAACCTCCGC
Celera SNP ID:            hCV27156083
SNP Position Genomic:     524629
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,4)   total(A,2|-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21013):
TGACCGTTGGCCAGCTCATGCTTTGGGAACCAGAGGGCCAGCCTGGCTGCCTGCTTTGCGGGCTTAAGACCTGCCTCTGGAAGGGTAAGGGCCTGCCCGT
C
CAGATAAGTGCTGCTCACCTGCATTAAACAAACGGCCACACAGAGCCCAGTGGGAGCCTGCACTGGTTTCTCTTCCTGCCTGTGGCAGTTGAGAGAGACA
Celera SNP ID:            hCV27156084
SNP Position Genomic:     525457
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,5)   total(C,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21014):
CTTTTTTTTTTTTTTTTTTTTTTTTTTTGCGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAATGGTGGGATCTCGGCTCGCTGCAACCTCTACCT
Y
CCGGGTTCAAGCACTTCTCCTGCCTCAGCCTCCAGAGCAGCTGGGATTACAATCATGTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGA
Celera SNP ID:            hCV27156085
SNP Position Genomic:     216969
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21015):
GAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAATGGTGGGATCTCGGCTCGCTGCAACCTCTACCTCCCGGGTTCAAGCACTTCTCCTGCCTCAGCCTCC
M
GAGCAGCTGGGATTACAATCATGTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGAGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACT
Celera SNP ID:            hCV27156086
SNP Position Genomic:     217003
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21016):
AGTAACAGTCTTAATTTGTTTTGTGGAAGCATTCTCCATAATGCTCTCTGCAGCTCTAATCCACAGGCAGGCAGGCCCGGGCCATTTGCATGGGCTGCTA
T
TTGCTTGTAAAGTCAGTATTTTGTTGTGTTTCTAAAGGTCGTCTGGTGCCAAAGTTCACAAATTGACTTGCGTTGCTTTTTTCACCGAAGACAGCCGTCA
Celera SNP ID:            hCV27156087
SNP Position Genomic:     527251
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21017):
GTGTTTTTTGGAGGTGCACATTTGGTAGTTCATTGTTGGGTTGGTATTTGTCTCCATAACCTGTTTCAGCCTCAAGGTCATTTACCTTTGATCAGTGCTT
S
AAGCTTAGCGGTTTGTTTATATACATGTTCATGTATAAATTATATTACTCAGTCTGATCATAATATATGCCCAGTGCAAATCATTTCATTAAAGCCTCAG
Celera SNP ID:            hCV29368161
SNP Position Genomic:     46033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21018):
ACCTTTGCCGATTTATATCACCATCCTCTTTTTTTCTTTCTTTCACAATTACTCCTGTCTTGCCGCTGAACGCCCTGCTCTCAGCCAGGAAAAAAAAGAA
A
AAGAAAGAAATCTGGAAAACAAATCTACATTTTCACTATGGCTTGTTAAAGAGCCATTTTTTAATCATAATTTTTTTTTTCATTTCTCAAGGGAAAATTG
Celera SNP ID:            hCV27156088
SNP Position Genomic:     527911
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21019):
ATTATATTACTCAGTCTGATCATAATATATGCCCAGTGCAAATCATTTCATTAAAGCCTCAGGGATACACGGTGCCACCGTTTCCTCATTCAGGGACACG
R
GGATAGTGGTAGTGTGTCTTCAGCACGACATGGGGAAATTCAAAGGCAGCCATCCGTGGAAGAGCCAACGGCAGCCCGTGCAGGCGTCAGCGCCTGGGGA
Celera SNP ID:            hCV29368162
SNP Position Genomic:     46172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21020):
CCTTTGCCGATTTATATCACCATCCTCTTTTTTTCTTTCTTTCACAATTACTCCTGTCTTGCCGCTGAACGCCCTGCTCTCAGCCAGGAAAAAAAAGAAA
A
AGAAAGAAATCTGGAAAACAAATCTACATTTTCACTATGGCTTGTTAAAGAGCCATTTTTTAATCATAATTTTTTTTTTCATTTCTCAAGGGAAAATTGT
Celera SNP ID:            hCV27156089
SNP Position Genomic:     527912
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21021):
CGCCTGGGGAATAGTAGCAGTCTACATCTTTAGCTGTCAGGGTATCTCGTTGTAGCCTCATCCTGCCCTCTTTAGGGGTCCTTGGATGAGTTATCAGTTG
Y
AGTATTGACATTTTCTGTAAATAGTGTCACTCAAGCGAGTGACAGTGGGAAGCAGACACCAGCCCTTAGGGAGCAGCCCAGGATGCTTTTTTCCTCCAAA
Celera SNP ID:            hCV29368163
SNP Position Genomic:     46363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21022):
TTTTCTCGCCATGGATGTGGTTCTGTCGTTGTGAAGTTTGACTGATTCGTCGCCTTGTGTTTCTAAGAACGGTTGGAATGATGCATGATGGTCTGATTGC
R
TTTAGCGTTCTGTTCCTCTTCCCGTAGATCCCAACTGGGCCAGTTTGAACTTGGGAGCCCTCATGTGCATCGAATGCTCAGGGATCCACCGGAATCTTGG
Celera SNP ID:            hCV25967306
SNP Position Genomic:     560902
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(G,34)   total(A,8|G,64)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21023):
TTGCAGCTCTCCATGTGAAAATGATCTGTTTGTTTCTTCTTATTACTATCAATATTAATATTGATCCTGTAGTGCTTTCACACTTAAATTGTTGAGTTCC
M
AGTCTTGTCTAATAATTATCTCAGCAATTGCGATACCATTGGCTGAGGTTCATGGAGGTTTTCAGGCTAATGTCACTGAATGATCGGAAGGACTCACTGC
Celera SNP ID:            hCV29368164
SNP Position Genomic:     49138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21024):
GTAACTCCAGTCTCCGCCACGGAGACTGCTTACCCTCTTCCTCTTTGGTTCAGGCTGAACCATCCTCACTCATCTTGTAGAGCCTCCCGTTCCCATCTCC
K
CATCAGAGTTTCCTACTTTCCTTGAACTTTCCTTTTTGAGGAGATTTGAGAAGTGTGTTGTCCAAGATAGGATTTAGTATCCTGGAGCCAGGCTTGGAAT
Celera SNP ID:            hCV29368165
SNP Position Genomic:     50167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21025):
AATCAAAAAGTTGCAGATTTGGAGGGATGTTTGCAGCCACTTTTTACCCAACATGGCTCTCTATGTGGTCATTCAGTTGCTTAAACAAAGTCTGGGTAGA
S
TTACAATTTTTTTTTAATACAAGTAATATTTGCTTATAGTTTTAAAAAAGGGAGTATAACCATCAAAAGTAACTCTAGCGAATGATTTTGGAATATTCCA
Celera SNP ID:            hCV29368166
SNP Position Genomic:     52431
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21026):
CACTCTCCAAGGATCTGTGTTTCCTGGAGCCCTTCTTCCCTGCAGGCCTAGGAGGCTGGGCTGAAACCACCTCGGGCCTGTGCATCTGTAGGAACAGCAC
R
AGAGCTCCTTGGAGTGGTAGTGTCAGGGCGGTAGCCATCTGAGCTCACACTGGCCCTAGGGGCTGTACTTTGGGGTATCCAGGGGCAACACGTGCCCTCT
Celera SNP ID:            hCV29368167
SNP Position Genomic:     55225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21027):
GGGTAATATCTGGTCAAGGGCTTGCGGCAGATAGGAAGAGTTCTCTCTCTGCCGCCTGTGCCCAGGCCACTGCTGTGGCCTAGATCGGGTTGGCTCTGGC
Y
GTGCCCCATTCCTCATGTGCTGGCTATTGAGTCACCCCCTGCCCCCACTTTAAACAAGCATGTTTGAATGCAGAGCGATTCGTGGTGACAGTTTCATAAG
Celera SNP ID:            hCV29368168
SNP Position Genomic:     55465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21028):
ACATGGATTAGCTCATTTATACCTAGGGAAACAGAGGCACCAGAGGCCACAAAAGCTATTCAGGGTCACACAGCCTATGTGTGAGGTTTACATAATAAAC
S
TCAAAAAACGCAGGCTCTAAGGAACAAAAAGGAAGATTTGAGCTGGGTGGAGGCTCCTTATCTCTCCTACAACCTGAGCCAACAACACCCCATCACTTCA
Celera SNP ID:            hCV27893227
SNP Position Genomic:     243672
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21029):
AGACGCAAATTCTTCTTTTGGCCTTTTCGCACTGGAAGAGAGAGGGGGTTCCAATAAAAATGAGCACATTAGACTTGACCTGGAGTGCACTTTCGGGAAG
R
GGTGTTGCTCAGTGTTTTGTAGACGTGCTCAGAAAGCCACATTTGTGAGATTTGAAGGCTGAGGATGAAACCACCAAGAGACTGCTTTACAGCCCCCCAG
Celera SNP ID:            hCV27505994
SNP Position Genomic:     620551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21030):
CTTTGCCGATTTATATCACCATCCTCTTTTTTTCTTTCTTTCACAATTACTCCTGTCTTGCCGCTGAACGCCCTGCTCTCAGCCAGGAAAAAAAAGAAAA
A
GAAAGAAATCTGGAAAACAAATCTACATTTTCACTATGGCTTGTTAAAGAGCCATTTTTTAATCATAATTTTTTTTTTCATTTCTCAAGGGAAAATTGTT
Celera SNP ID:            hCV27156090
SNP Position Genomic:     527913
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21031):
TTTGCCGATTTATATCACCATCCTCTTTTTTTCTTTCTTTCACAATTACTCCTGTCTTGCCGCTGAACGCCCTGCTCTCAGCCAGGAAAAAAAAGAAAAA
G
AAAGAAATCTGGAAAACAAATCTACATTTTCACTATGGCTTGTTAAAGAGCCATTTTTTAATCATAATTTTTTTTTTCATTTCTCAAGGGAAAATTGTTG
Celera SNP ID:            hCV27156091
SNP Position Genomic:     527914
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,3)   total(G,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21032):
CTTTTGATGTATGAAGTTATCACATATTCACTGTCTATAAAGTGACCCTTCATGAAAATTTGTATCCTGAACATTTTAACTTTTGTTTTAACCTCACGTC
G
TGAGTGTTACACTAAATATATCCATCCCCAAGTGGAGTATCTTTTAAAGTGGTCCACTTGAGTGATTTACTCAAAGGCACCCAAAAAACACCACCCAAGT
Celera SNP ID:            hCV27156092
SNP Position Genomic:     529337
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21033):
TTTTGATGTATGAAGTTATCACATATTCACTGTCTATAAAGTGACCCTTCATGAAAATTTGTATCCTGAACATTTTAACTTTTGTTTTAACCTCACGTCG
T
GAGTGTTACACTAAATATATCCATCCCCAAGTGGAGTATCTTTTAAAGTGGTCCACTTGAGTGATTTACTCAAAGGCACCCAAAAAACACCACCCAAGTA
Celera SNP ID:            hCV27156093
SNP Position Genomic:     529338
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21034):
TTTGATGTATGAAGTTATCACATATTCACTGTCTATAAAGTGACCCTTCATGAAAATTTGTATCCTGAACATTTTAACTTTTGTTTTAACCTCACGTCGT
G
AGTGTTACACTAAATATATCCATCCCCAAGTGGAGTATCTTTTAAAGTGGTCCACTTGAGTGATTTACTCAAAGGCACCCAAAAAACACCACCCAAGTAA
Celera SNP ID:            hCV27156094
SNP Position Genomic:     529339
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21035):
TTGATGTATGAAGTTATCACATATTCACTGTCTATAAAGTGACCCTTCATGAAAATTTGTATCCTGAACATTTTAACTTTTGTTTTAACCTCACGTCGTG
A
GTGTTACACTAAATATATCCATCCCCAAGTGGAGTATCTTTTAAAGTGGTCCACTTGAGTGATTTACTCAAAGGCACCCAAAAAACACCACCCAAGTAAG
Celera SNP ID:            hCV27156095
SNP Position Genomic:     529340
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21036):
CCTGCCTTCTCCACTGAACAGCCCAGATGGTCACTGTTCCTCTGAGCAGATGTGAGCAGGCCTAACTTGTTGGCCATTCCCTCCAACACTCGTTTTCTTG
R
TCACAGTTCTGAGACTTCCAACTCATTCACAGTTAAACAAATTACAGGCCCACATCTGAGAATGATGGTCTTGCTGAGTGTGAGGTAGGCCTGCCTCCTT
Celera SNP ID:            hCV27156096
SNP Position Genomic:     530972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21037):
CGAATCCTGACCTCAGGTGATCCGCCTGCGTCAGCCTCCCAAAGTGCTGGGATTACGTGTGTGAGCCACCACACCCAACCCCAGATATTTCTTATAATCC
Y
GCTAATGACAAGACAAGCAGAGCTGATGCTTTATGACAGACCACACTGAGAAACTCTGATTTCTCTTGACGAACTTCCCTAAAGACAGCTGTTGACAAAT
Celera SNP ID:            hCV27457494
SNP Position Genomic:     284156
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21038):
CTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGTATTACAGGTGCGTGCCACCACACCCAGCCA
T
TTTTTTTTTTTTTTCGGTATTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCAGGTCTTGAACTCCTGACCTCAGATGATCCACCTGCCTCGGCCT
Celera SNP ID:            hCV27156097
SNP Position Genomic:     541313
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21039):
GGGTGATCAAGCATCTCAGAAGACTAAGGGGGAAAATATTGCAAGATGGTGGTGCCCATCAGCAACGTCAGGTGCTCCAGAAAGAGGGGGGTCAGTGAGA
M
AGAAGACTAAGCACAGCCCATGGCCCCTGGCTGTTCCTTGATCTGTAATCTTACAGAGTGAGGTTTCAATCAGGTGGATGATGGGGAAGCATTATTAGAA
Celera SNP ID:            hCV27156098
SNP Position Genomic:     544365
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21040):
TGCAGAGGAGAGCCATGACTTCCAGTCAAGTTGAAACATAGCTTTCTTTATACCCTTCCCAGTTGGACTTCTGTCATATTTTACAAAATTCAAGGCTTTT
M
ATTTAACTTAGATTTATGGCTTTTCCATGGACTATCTTGAGGTTTTTCTCCAAAGCAAACCAGCTCATACCTTGACATTGTCAAAATAGCAAAAACACAC
Celera SNP ID:            hCV29368172
SNP Position Genomic:     73381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21041):
CAGTATACGGAGAAGACAGGTGGTGGGATAGATTTTTAAAGTGAGTGATCGGCCAGGTGCAGTGACTTATGCCTGTAATCCCAGCATTTGGGGAGGCCAA
S
GTGGGCGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCCACTAAAAATACAAAATTAGCCGGATATGGTGGCA
Celera SNP ID:            hCV27156099
SNP Position Genomic:     544885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21042):
GAGGAACACAGGATGCATATTCAGGCAGGAAGTTGTTGGGGTTAACATGAGTGGACCCTAGATTTCCCTGCCTGAAGGGGGCCCCGTGTTAGTTTCCTGT
R
GCTGCCGTAACAGCCACAAACTAGGTGGCTTAAAACAACAGAACATCATTCTTTTACAGTTCTGGAGGCCTGAAGCCCAGGATCAAGGTGTGCCCAGAGC
Celera SNP ID:            hCV29368174
SNP Position Genomic:     78244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21043):
CACAGGATGCATATTCAGGCAGGAAGTTGTTGGGGTTAACATGAGTGGACCCTAGATTTCCCTGCCTGAAGGGGGCCCCGTGTTAGTTTCCTGTGGCTGC
Y
GTAACAGCCACAAACTAGGTGGCTTAAAACAACAGAACATCATTCTTTTACAGTTCTGGAGGCCTGAAGCCCAGGATCAAGGTGTGCCCAGAGCTGTGCT
Celera SNP ID:            hCV29368175
SNP Position Genomic:     78250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21044):
TAGGGTGTGTTCACTGTGCCCCTGTGTGAGGGTTTGTAGTCTTACACCTTTGCCAAACCCTTTCTGGGTTTTGCCCCTCACAGGAGATGCAGGTCTTTCT
R
TGGAACCTGTAGGTTCTGAGACCGAGCCTTGGGTAGTTTTTATTTCTTAGGCTCTCTGGAGTTCTCCCAAATCCCCATTGCCAATCAGTAGCTGAAAGTG
Celera SNP ID:            hCV29368176
SNP Position Genomic:     81198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21045):
CTGCTCGCTGGGACCTGATAGTTCGCCTTTGTACGGATGAAAAAAACCAAACACTGAGCCTGGTCTGAGCGGGGCTGTTTGTTGAGGCTCCTGATGCAGA
S
AAGGGAGCAGTGTCTGCACAGGGGGTCTGGATTGCACCCGACACCATCCAGGTGCCTGCGTGTGCTGGTCCCGCCGTCAGGACTTCCCCTCGTGAGGAGC
Celera SNP ID:            hCV29368177
SNP Position Genomic:     89395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21046):
CGGATGAAAAAAACCAAACACTGAGCCTGGTCTGAGCGGGGCTGTTTGTTGAGGCTCCTGATGCAGAGAAGGGAGCAGTGTCTGCACAGGGGGTCTGGAT
Y
GCACCCGACACCATCCAGGTGCCTGCGTGTGCTGGTCCCGCCGTCAGGACTTCCCCTCGTGAGGAGCTGGGTACCACTGTTATCCTGCCTGCTGGTCTGA
Celera SNP ID:            hCV29368178
SNP Position Genomic:     89428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21047):
GTTTGTTGAGGCTCCTGATGCAGAGAAGGGAGCAGTGTCTGCACAGGGGGTCTGGATTGCACCCGACACCATCCAGGTGCCTGCGTGTGCTGGTCCCGCC
R
TCAGGACTTCCCCTCGTGAGGAGCTGGGTACCACTGTTATCCTGCCTGCTGGTCTGAGGGTCCGAGCGTGATTGGGAGCAGAGACAAGAGTTCCAGGGCG
Celera SNP ID:            hCV29368179
SNP Position Genomic:     89471
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21048):
TGCCTGCGTGTGCTGGTCCCGCCGTCAGGACTTCCCCTCGTGAGGAGCTGGGTACCACTGTTATCCTGCCTGCTGGTCTGAGGGTCCGAGCGTGATTGGG
R
GCAGAGACAAGAGTTCCAGGGCGAGCCTCAGTTCTGGGACCACCATTGACCAGTAGAGCTATAAAGGACTTGGCCACCAAGGTTGGAGCTGAGCCCCCCA
Celera SNP ID:            hCV29368180
SNP Position Genomic:     89548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21049):
AGCTTGAGCCTGACCTTTGGCAGGTCCAGGAGTGTGCTGAGTCTTTCTACCCCGCTGCGTGGTGCTGCCTGCCGAGGTGGTGTGGCTCTTTGTGCTGGCA
Y
TTAGGGTGTCACTAAAGCCCAAGACCAGGATTGCTTGTCCTTTGCAGTGTGCTGGACAGGAGCCACACAGTGTAGAAGCGACTTGCCCTAAATGCCTCAT
Celera SNP ID:            hCV29368181
SNP Position Genomic:     93783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21050):
AGCCTGGGAGAAGTCAGAGAGAGGGGGCTCGTGGTCCTTCTTGGGCTCTCATTGCTGTTAGCAGGAGTTGGCACTTGAGTCCCACGTCCTAGCCTCCCGG
S
ATCACAGCCTTATGCTGCATTTCCTAAAGTGCTTTCTAGCACTGACCGACTCCAGGAGGCAGCACTGGCAAGGATTTTGGTGAGCCTTTGATGGAGTGTG
Celera SNP ID:            hCV29368182
SNP Position Genomic:     94259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21051):
CAGAATCCTTGCAAAACCCCCATCTCAAAATCTTTCACCTCTTCACATGCACACAGTGGCTTTGCCCCGTGGAGCCACATGCTCTCAGGTTCCAGGAATG
R
GTCTGTGGGCATCTCTGGGGGCCACTGTTCAGCCTGAATGTGTTCTGAGGCTTAGTATTTTGTCTCTTTGAGTTCTACATTCATTTTGATCCTTACATCA
Celera SNP ID:            hCV29368183
SNP Position Genomic:     96977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21052):
AGGCTGAGGTCTCTTGGTGATAATCCACACACTGTCCTGGGCCTTGGTTTTGCAGCATTTCCAACTTGGGTTGTCAGAGTGAGACTGTGCAGGACTGCCC
Y
GTACAGTACGGCTTCTATGTGTGAACAACACAGACCACTAAGAGATGTGACAAAGCTGTTCCATCAGAGGAAACATAGTCTGGGGGACAAATCCTCCCAT
Celera SNP ID:            hCV29368185
SNP Position Genomic:     98149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21053):
GGCTGGATTTTTGGGGGACTCATTTCCAGCAGCCACCAGCAGGTGGAGGGAGTGAGATGCGTAAACAAACTGTCCCTCATGCTTGGTGTTTGGGCAGATG
Y
ATTGCTAAAGCGTGCTCACTAATAAATCCCCTGCTGATATGGCACAAATATTTATAGCCGATGATTGATGTGAAATTAACAAAAACTAGCAGTTGACAGC
Celera SNP ID:            hCV29368187
SNP Position Genomic:     107135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21054):
TGGATTTTTGGGGGACTCATTTCCAGCAGCCACCAGCAGGTGGAGGGAGTGAGATGCGTAAACAAACTGTCCCTCATGCTTGGTGTTTGGGCAGATGCAT
Y
GCTAAAGCGTGCTCACTAATAAATCCCCTGCTGATATGGCACAAATATTTATAGCCGATGATTGATGTGAAATTAACAAAAACTAGCAGTTGACAGCGAT
Celera SNP ID:            hCV29368188
SNP Position Genomic:     107138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21055):
AAGCGTGCTCACTAATAAATCCCCTGCTGATATGGCACAAATATTTATAGCCGATGATTGATGTGAAATTAACAAAAACTAGCAGTTGACAGCGATATGA
S
GTGGCAAAGGCTATTTGGGAAAGTTTCCGTTGTCTTTGAAAATTAAGAAAAATTATACGTTTACTTGCCTTGCTAAGAACTGTTTAAGAATAAATCAACA
Celera SNP ID:            hCV29368189
SNP Position Genomic:     107243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21056):
CTGGAGTGCAGTGGCGCAGTCTTGGCTCACTGCCTCCCAGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCCGTGTAGCTGGGATTACAGGCGCCTGCCACC
R
TGCCTGACTAATTTTTGTGTTTTTAGTGGAGACAAGGTTTCACCATGTTGGCCAGGTTGGTCTCAAACTCCTGACCTTAGGTGATTCGCCTGCCTTGGCC
Celera SNP ID:            hCV11530102
SNP Position Genomic:     66283
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21057):
GAGTGCAGTGGCGCAGTCTTGGCTCACTGCCTCCCAGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCCGTGTAGCTGGGATTACAGGCGCCTGCCACCATG
Y
CTGACTAATTTTTGTGTTTTTAGTGGAGACAAGGTTTCACCATGTTGGCCAGGTTGGTCTCAAACTCCTGACCTTAGGTGATTCGCCTGCCTTGGCCTCC
Celera SNP ID:            hCV11530103
SNP Position Genomic:     66286
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21058):
CAGCCCAGGGAGAGCATTTATTTTCTTAGGTTTACCATTTAAAATGAATCGGAGGAATCTGGAAAGTTACAGAAGCAGGGACGGTGACTGGAGAATCCCT
Y
ATCTTTTTGTGTATATTTTGGGTTCTGAGGATTACCAGGAGATGTGTGGATGACAGAGCCCGTCGCTAGGCTCTTATGTCACAGATGGGCTGCTGTGCTG
Celera SNP ID:            hCV9086596
SNP Position Genomic:     485221
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21059):
TAGACACTCACACACGTTGTATAGACAACGAAATATCTGCTATTCCAAGGAGGAAAAAAGGAAAAAATCTGAAAAGTCAAAACAAACTAAATCTTGTAAA
K
AGGTGGCTTGGAGCTCCTGGGGGTACCTAGGCAACTCCTGACGCCACAGACAAGCATTTGAGCTCCTTAGCCTGCTACACAGAAGCATAAACTCACCTTT
Celera SNP ID:            hCV9086597
SNP Position Genomic:     488754
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,10)   total(G,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21060):
GCTGGGTCTTCTGCGGGAGCGGGCCCTGAGCTGGCTGCCCGCGACACCTGTGGGGCCGCCCCAGGGAGCCGAGGCTCGCCGGTCGCCGCCGCACAGGTGC
S
GCTGCCTGGATGGGAGAAGCCGGCATTCATCCTGGCGCCCCTCCCTGCCTCGAGTCGTCTCCCTGTTAGTGCTACCATCTGTCAGTGTTGTGATGTGGAC
Celera SNP ID:            hCV27156259
SNP Position Genomic:     183362
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21061):
ATACGTTTACTTGCCTTGCTAAGAACTGTTTAAGAATAAATCAACATAAACTAGGGCAGCTTCTTAAACTATGATGGAGAAGCACAAGGTCAAAGTGTTT
Y
GTCTCAGAATGAAGCAGTAATGTATTACTTTGCGTACTGTGTACAGGGGCCGGCAGATGTTTCTGATGTTATGAAGCTATGCTCCTGGAAGTGGTTGTGA
Celera SNP ID:            hCV29368190
SNP Position Genomic:     107398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21062):
AATAAATCAACATAAACTAGGGCAGCTTCTTAAACTATGATGGAGAAGCACAAGGTCAAAGTGTTTCGTCTCAGAATGAAGCAGTAATGTATTACTTTGC
R
TACTGTGTACAGGGGCCGGCAGATGTTTCTGATGTTATGAAGCTATGCTCCTGGAAGTGGTTGTGAAAATCGCAGCCCTGTGAATTGTGTGCCCTAAGAG
Celera SNP ID:            hCV29368191
SNP Position Genomic:     107432
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21063):
GAGAAAGTATTTTAAGGAAGTGGGGTCAGCTTTCCTCTGCTCCCCTGACTTCACAGGATAGCTATGCATTTTGCCTCTTGGGGAGCTGGGTTATTGTGAA
M
CTAGGTCAAATTATTGTTTTTTCTCTTTATGCTCATAGCCATTCCAAAGACAGAATCCTTTCCTCAAAAAATGAATTTTTGAGTGTTCCTATATTCTTGG
Celera SNP ID:            hCV28961523
SNP Position Genomic:     127329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21064):
TGAAAATCGCAGCCCTGTGAATTGTGTGCCCTAAGAGCCAGCTGTGCTCCTAACAGTGATGCCGTCTTTCCATGGAAATCACCCATAAGCACAGCCTTCA
R
TCTAACTTCATGTCAAGTCTAAGTGGCACAGCTATCCATGAACACTGTAAACATTCCCAGCTCCATCTAAGGTGATTAAACGGAGTCAGAACCCGGCCAT
Celera SNP ID:            hCV29368192
SNP Position Genomic:     107596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21065):
TTTGGCATGCTGAAGTGGCTTTACCAGGGAATTGTGACTTTAATTTTAAGAATTAATCGTAATGTAGGGGGAAAAATGTTCTTAAAACACAAAACAAACA
Y
GTGTGAATAGATGAGGAACAGCAGTTAAAATAATAACTTTCAAAAACTAGGTTAAAATGTCCAGAGAATTAGATTTTGTTAATGTTCAAAGCACAGCTAA
Celera SNP ID:            hCV28961524
SNP Position Genomic:     128836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21066):
TCCCCTGCCATGGCCCATGTGGCTCCGGAAGTTCCTGGGAGTGGCTCGTAGAGCCTGTTTTCATCCTTCAGAGGAATCCTGCAGTCCACTTGCCCAGCGT
Y
ACTTCCTCCAGTGCCCTTTCTGGGTCCCACGTGATTCTACCTGATCGCTGGCTCTCTAGGGCTTTTCCCCTCCAGGTTCAGAGAGAGCGCCTGCCCCAGG
Celera SNP ID:            hCV29368193
SNP Position Genomic:     111154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21067):
TGGCTGCTGCTGTGCTTCCTTTAACTGAACCCCGGTGGCCCAGTTGCTCCTCTTGGTGGACTCACTAAGTCAACTTTGACGCTTCAGCCAACGTCGGTTT
Y
GAGAATGCGACCTATGAAATTGGGAGCCCTGGCTGGATCAGAAGCACATGGTTCAGTGGACACTGTCAGAGGTGCTGTGGATCACTTGGACCACGGTAGC
Celera SNP ID:            hCV28961525
SNP Position Genomic:     134272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21068):
GGGAGCCCTGGCTGGATCAGAAGCACATGGTTCAGTGGACACTGTCAGAGGTGCTGTGGATCACTTGGACCACGGTAGCTAATGTTTGTAGCGCGCTCAC
R
TATGCCAGACTCTTCTTAGCGCTAAGCCATTTTCCCAGGCCGGGTTATGCAGTGAGACTTCAGGGCAGGCACACATGTCGCTTCCTGCACCCACACTGGA
Celera SNP ID:            hCV28961526
SNP Position Genomic:     134394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21069):
TATTTAAGAAGAAGTAACCTGAGTAATACTAAAAATGTATTTTCTGAGGGGCGAAAGTATAGTTGAAGTAAAAAGTTTTAGTGCACTTTCCAGAATGGGC
Y
GGATGGTGACTATTTTAGGTTTTGAGGATGGTACCGTCTCTGGCAACTCCTCAACTCTTGTAGGGAGAGGTACAGACACAAATTGGCATGGCGTGTTTCA
Celera SNP ID:            hCV28961527
SNP Position Genomic:     138406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21070):
TGGAAAAGAAGGGGGGCATAGGCTGAATTGGGACAGTGCCCTTGACTGACACAGGGAGAGGGTCTGAGCCCCCCATGCACTTACTGGGCAGGCTTCCCCC
Y
GAAGCAAGGTGGACCTGCTTCCAGTGGGAGGAGAAGGGGGAGCACTAGAGCCCTCCGTGAGACCATTGACTGCACTGGGGTAGTTCAGTGGTGAGCGGAT
Celera SNP ID:            hCV28961528
SNP Position Genomic:     139719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21071):
CTTTTTCAGACAGGCCAACTGTATTTACTGATTATTCCCCGTCCCTGGTTCGTGGTTGGACCATCAGGGGATTGGCATTCCTAGGGTTAGTCAGGAATGA
R
AAATACAGAAAGTGTGCGGGGCATGCTCTGTACCTCAGGCCATGGGGACGACCGCTCCCTGTCATGCAGACCCCTCAGAGGGGCCGCCCCCGGCCCGGCC
Celera SNP ID:            hCV27893252
SNP Position Genomic:     323488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21072):
TCAGTTCTCAAGTTAATTGGTCCTGCTCCTTCTCTGCCCTGGTGTGCCCCTCGGCTCGCCACTGGCTTAGGTGCAGGTACATTTGTCCTTCATCGGAACA
R
GACCACCCTCCCTTGGCTGCCACCATGGCAACGCTCAGCCCCGCTGCCTCCGTTTGTCATTTCTCCTCCTAATGATTTGAACTGAGGTCTGTGTGCTGGC
Celera SNP ID:            hCV28961529
SNP Position Genomic:     142419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21073):
CGTGATTATTAATACATTGTAATGACATTTTGGGGATTCCGCCATATTTTGTATGGTTGCCAGCAAAATGTTGACAGTTGTATTGTGGTTAATAAATTCA
W
TTAGATTTATAAGCATTGTTTACAGAACCTGTTCGCCTGCTGAAACTCTAACAGCATCTGTTCCTTCTTACTAATTAACTGCTAATTACAAATGAGCTTT
Celera SNP ID:            hCV27893253
SNP Position Genomic:     347826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21074):
ACAATGATTTTCTTTGTGCAATTGGAAAGTCAAAATAGAAACAGCAAAACTAAAGTTATCTTTGATTCCTTAATGTTGCACAAAGGAGGGGCTTTCAGTT
G
AAAAAAAAAGACATGTTCTTTCCTTAAAAGAATCCGCTGGCCACGGGTGCAGGCTGTGCCACCAGCACTGGATGGTCCTGGCACCCCAGCCAGTTGTGTA
Celera SNP ID:            hCV11533451
SNP Position Genomic:     635573
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,5)   total(G,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21075):
GATACCACTTTTCCAGACCACCCTATGGTAATTATTTGGGGACTTAAGGCCAGAATGTTTTATCAGACAATATGACTGAACAGTGATTTTGGATGTTAAT
R
AAAATTTAATCAGATGAATATATTATTCAGCCTCATTTAGGGAGTAAAGTATGATAAGTGCATCTACAAGTGCTGAAATTTGTAGAACAAATGAGGTCAT
Celera SNP ID:            hCV27893254
SNP Position Genomic:     365506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21076):
GCTGACCTTTCTTCCAAGACATCCGTGAGATTTTTCTTATTAGAGCGGTGTGCTAACTATGGGGTGGGAAGAGAGAAAAGAAGGGCACAAGAAAGAAAAA
R
CAATCCGTAGTGAGTAAAATGCTGAAGGCTTTATTACATTAGTACATTACATAAACTCATGCATTTATTCAAAAAATATCTATAGGCCAGGTGCAGTGGC
Celera SNP ID:            hCV27893255
SNP Position Genomic:     422409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21077):
ATGCTTGGGCACAGAGAGTGAGGTGTTTGCTGGGAAAAGCCATTTGGGATGGGTGAAGGTCCATGCTGGAGTTGGAGAGCGCAGAAAATGGGGTGAGTGT
R
AAAGTCTAGCCTGGGTTACGGCCCCAGTGATCCTGGACAAATTTGGAGTAAGAAACTCCCGCCAGTCTCATGGCCAGAGTGCCCAGGGAAAGTCTTCTCT
Celera SNP ID:            hCV27893256
SNP Position Genomic:     462012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21078):
TTTTCTAATGGTGAAGTACAGAAACTTCCATTCTGTGTGTGACTAGCATGGCTTAGCTATGTTTCTGTGCAAACATACTCACACACAGTTTCCAAATGAA
K
TCACAAACTTCCCTTATAAAACTTCCTTTGAGGCTGGGCCCGGTGGCTCATGCCTATAATCCCAGCAATTTGGGAGGCTGAGGCAGGCAGATCTCTTGAG
Celera SNP ID:            hCV27893257
SNP Position Genomic:     613839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21079):
GGCTGAGGCAGGCAGATCTCTTGAGGCCAGGATTTCGTGACTAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGGCCGGGC
R
CGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCT
Celera SNP ID:            hCV27893258
SNP Position Genomic:     614015
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21080):
ATTTGCTTGGTTCCCTCCACTTGACCTCCAAGAATACCAGCTGGGTTTGTCCTGTACCTCCACCTCCTCTGTGTTCCCCTGGTCCTTCTGCTGCGTCGGT
S
CTAACTCATCTCTGGCCTGTCATTCTTACTTCCCAAAAGTCCTCTCTCTCTGCAGCCAAATTCACCTTTTAAAAAAACAAAACATGAGCCAGATTGCCAC
Celera SNP ID:            hCV187879
SNP Position Genomic:     452119
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21081):
AAGTGGAAATAATTTTATAGTGAGTACTTGTACACTGATTGCCAAGATTCTGTAAACAATATTTCCCTCTGCTTGTGTCATCTTTCATTTGTCCATTCCT
Y
GATTTATTATTATTATTATTATTTGAGGTGGAGTTTCACTCTGTCGCCCAGGCTAGAGTGCAGTGGCGCAACCTCGGCTCACTGCAACCTCTGCCTCCCG
Celera SNP ID:            hCV11530115
SNP Position Genomic:     77543
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21082):
ATTAGCTGGGCATGGTGGTGAGTACCTGTAATCCCAGCTACTTGGGAGCCTGAGGCAGGAGAATCATTTGAAACCAGGAGGCAGAGGTTGCAGTGAGCCA
S
CTCACGCCACTGTACTCCAGCCTGGGCGACACAGTGAGACTCCATCTCATTAAAAAAAAAGAAAAAAAAAGCTGTCTGTGAAAAGTCCTCTCTCCTCCCT
Celera SNP ID:            hCV27156260
SNP Position Genomic:     261003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21083):
TTAGCTGGGCATGGTGGTGAGTACCTGTAATCCCAGCTACTTGGGAGCCTGAGGCAGGAGAATCATTTGAAACCAGGAGGCAGAGGTTGCAGTGAGCCAG
S
TCACGCCACTGTACTCCAGCCTGGGCGACACAGTGAGACTCCATCTCATTAAAAAAAAAGAAAAAAAAAGCTGTCTGTGAAAAGTCCTCTCTCCTCCCTA
Celera SNP ID:            hCV27156261
SNP Position Genomic:     261004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21084):
TAAATTAGATTTACATAGGAGACAAAGAAATCCTTCCCTCCCTGTTCCAGTTGTGGAACATATGGTCACCGTTCTGTGACTGGGAGCATTGCTGTTTGGC
R
TGCTTGTGGGCACGGTTTAAGGGTTGAGACCACATCCTAGGTGGCGGTCACAAACCCGGCCCAGCGGCCTCCCTGCTAGGCAGTCCTCCATCAATACTGA
Celera SNP ID:            hCV465617
SNP Position Genomic:     123567
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,10)      total(G,7|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21085):
TTCCTGTTTTGAGGTGGTGATTTATGATGCCTGTGTACTTCCCTGTGGTGCCCAGGCCTGCAGATTACAGACGCTGTGTAATTAGAGAATCCCTCTCCAC
R
TGTGTTCTCTGAACAGGGAGCCCAGGGAGGCTTGGATCTTTAGATTGATAAGCAGGATAGTAAACCAGTTGTGAGGAACATTGTATAGAGAAAAAACAAC
Celera SNP ID:            hCV465618
SNP Position Genomic:     123258
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21086):
AAAACTCTTGCAGGTCCTACTTCCTGCCTTGACACCACCCCCTGCCCACAGCCTTCTCATTCTTGTCCTGTAGCCCAGTTTCGTTTCACCTGTCCTCTGC
Y
TGTAATCCTTTTCAGCCCCTCTGAAGAGCGGCCCAGTAGGATGGTTGACTGACGTTAGCTTGGCTTTCTTCCTAAGGCACCGTCTTCCTCATTGAAACTG
Celera SNP ID:            hCV465619
SNP Position Genomic:     122565
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21087):
CGCAAGGAAGGACGATGGATTAGCCAACCATGACCGGCCAGGCTGTGCGAGCTAGCCAAGGAGAGGCCACGAGGCGGGAGAGCCAAGGAGGACAGCCTCC
R
GGTGGGCCATCACTGCTGGTAGAGAGGGTTTCTGGGTCCCAGGACCGGACTGCGTGGTCCTGGTTATACCTGCTGGTCAAAGGTCAGTCTGCCAAGGCCC
Celera SNP ID:            hCV28961530
SNP Position Genomic:     143071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21088):
CCGGTTTTCCTCTTGTGGCACCTGGTGGTGTGCTGGTGTGTGGTTTATAAAACATGCTCTGCCGCTTTGATTTCCCTGCTTAGATTTACATAATTGTTTT
W
GAAGAAGGTTCAGGTGCTTTGCTGGCAGAAAAAGGAAGACGACCTCTTGCAAAGTGGGGTTAGCCCTAGCCTTGCAGGAAGGGGTCTCGGCTTCCTTCCA
Celera SNP ID:            hCV28961531
SNP Position Genomic:     144536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21089):
GAGCCCGTTGGCCTGGGTGTCCACTGTCAGAGGATGGAGATTGATCTGGGGTTACCTTTTTCAGCCTTTGCTTTGTTTGTCACCTGAAGGGGCTGGATCC
Y
GAGCCCTGTAAGGCCCCCTTCGGCTGGTGCACACAAGAGGACAGCTTTGAGCCTCCACCAAGGTCTCTGGATTCCACTTTAAGTGCGGGCTTGGGTGTGG
Celera SNP ID:            hCV28961532
SNP Position Genomic:     119273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21090):
TGTGAATAGAGACTAGTTAAAATAAACATCACAATGGCGATGGAAAATGTTATTTCACTTTATTAAGTTAAAAACAAGTTATAAAATAGTAGGTCACATA
Y
AAGCTCAGTTTTGTATTTAAAAACCCTCAAAACTGTATATATGCCCAGAAAAAAGACAGGAAAGAAAGATACCACAGTATGAATGGTGGTTCCCAATTAG
Celera SNP ID:            hCV28961533
SNP Position Genomic:     150191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21091):
ACTTAAAATCTGCAGCCCTTCTGGGTGTGATCTGCTGCTGTTCCATTTCTGGCAGTGTGCAGCAGGCTGTATGCAGGGCAGGGTCACTCCTGGCAGACGC
Y
GTGGGTGCTGAGGGCTGCCTTGTGTCTGATGATTCCTCGGATCCATTCCAGCATCACGGAAGGATGTGCCATTAGTGATGAGGTCTCCCAAGTTAGCAGA
Celera SNP ID:            hCV29368348
SNP Position Genomic:     316715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21092):
CTCGAGGGCAGCCTCCTGGAGGTGGAAGGGCAGCGGGGCGCGAGACTGCTGCGCTGGTGGGATGCTTGGATTCCCAGGCCCCAAGTCACTATCGGGGAAC
R
TTCTTTGAGGTTTAATAGTATTTTAGGATTTTTTAAAGGATAGATAATATCTAGATGTTGTGTTCTACCAAAACAAATATTGTTCTTTTGGAAATATGTT
Celera SNP ID:            hCV28961534
SNP Position Genomic:     119490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21093):
TTAAATGAAAGAAATGAGACACTTTTTATTCCGTTGTTGTGTTAGCCCTGCAGTGCTTTTTCAGGCCCTCCCAGATTAATAATGACCTTGTTTACTCATT
S
ACAGTAACCAAAGAGCCTGCTAAAAAAGTTGTGAAGTTAAGGTCAAAGCAGTTTTATGGGAGGAAATCTGTGAGTGTTTAAAGGAAGGTATTTCCATAAT
Celera SNP ID:            hCV11533601
SNP Position Genomic:     518863
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21094):
AGGGACTGTCCCCAGTAGGTCTATGAGAGCCCACCACAGCAGCAGCCCTCTGGATGGGGATTTGGGTCTTGGTTTTGCTAGCACTCCCAGTGGACAGTCA
K
GCCTGGACTTGTCTTCTCCACCTTCCACTTGTCCTAACAGCTGTCGGGACCATCATCCACCAGGGGCCAGCTGTCCAGAGGCAGACCCACCCTGGAAGGC
Celera SNP ID:            hCV28961535
SNP Position Genomic:     154166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21095):
CCCAGGCTGGCCTCAGACTCGTGGACTCAAGCAACCTTCCTGCCTCAGCCTCCCAGAGTGCTAGGAATACAGATGTGAGCCACAGTGGCTGGCCGAGATT
S
TGCTTTTCTAGCGCCTCCCAGGTGGCTGTGCTGATGCTGCTTGTCTGGGACCTTGCCCTGAGGAGCACTACGCTGTAGGTTCTATCACGGTAACGATACT
Celera SNP ID:            hCV28961536
SNP Position Genomic:     161328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21096):
CAGACTCGTGGACTCAAGCAACCTTCCTGCCTCAGCCTCCCAGAGTGCTAGGAATACAGATGTGAGCCACAGTGGCTGGCCGAGATTGTGCTTTTCTAGC
R
CCTCCCAGGTGGCTGTGCTGATGCTGCTTGTCTGGGACCTTGCCCTGAGGAGCACTACGCTGTAGGTTCTATCACGGTAACGATACTGTAATGTACAGTG
Celera SNP ID:            hCV28961537
SNP Position Genomic:     161341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21097):
GGTAATATGCTGAGTTAGTGAATGAGCACACTTGGATAGCATCCCCAAATAGGAATAGTCCAAGTGGTGGCAGGGGTGGGGTGGCTTGGTGTATTTCGTT
M
GATTTGCAAAATGAGCTCCAAGGATTCTGCCAGTTTTATATGATATAATCTTCTGAATTTTTAAGTATCTTAATGCTTTGCATATTGCTTTAGAAACTGG
Celera SNP ID:            hCV187880
SNP Position Genomic:     452843
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,7)   total(A,4|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21098):
CTCCCAGAGTGCTAGGAATACAGATGTGAGCCACAGTGGCTGGCCGAGATTGTGCTTTTCTAGCGCCTCCCAGGTGGCTGTGCTGATGCTGCTTGTCTGG
R
ACCTTGCCCTGAGGAGCACTACGCTGTAGGTTCTATCACGGTAACGATACTGTAATGTACAGTGCATCAGATGTCACTAATTTAAAGATCTAGGCTGATG
Celera SNP ID:            hCV28961538
SNP Position Genomic:     161377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21099):
AGGTTCATTCGTTGCTTATTTCAATCTGGATTGGGACAGGATGACAAAGGCCCATGAAGGGATTTTATATATAACTGTGTGCTTAGTGTAGCGTGGGTGT
Y
TGTGTTTTATCGCCTGGCCTCTTTGTGGCATGTGACATCTTTGACAGGAACACCAATTGATTCCTCTGTGCTCAATAATGTCTTCACTGCCATGGTATTT
Celera SNP ID:            hCV28961539
SNP Position Genomic:     165902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21100):
CGAGACCTGCGGGGAGGGAGACGGCCGCACGGCGCTGCATCTGGCCTGCCGCAAGGGGAATGTGGTCCTGGCGCAGCTCCTGATCTGGGTAGGTGGTCGG
Y
ACGCCTGGCAGAGGACGGGGCCACAGGAGGCACTCTCTGCTTTGTTCTGCTTCCGTGGGCATCTTTCTGGCAGAAGGCTGTTGTTCTCGATCTGCAAGTG
Celera SNP ID:            hCV11533460
SNP Position Genomic:     632329
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,9)   caucasian(C,25|T,11)   total(C,48|T,20)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;JBIC-allele(T,327|C,1174)   total(C,1174|T,327)
SNP Type:                 INTRON


Context             (SEQ ID NO:21101):
TGTTACATTTCTTCTTCCTAAAGCAGTGATCGGTGCTTCTGCCCTGGTGGAGAAGGCTTGAGCAGTCCCCGGCTAGTGGCTGTTGCCACCTACAAGCCCC
Y
GCCTCCATTAGGAAGCCATTTATTTATGGGGCCTAGGTAGGGGCAGGAGGTTCCTTTCAAGAAAACAACAGATTGCTTAATGCTGGTCTCCCTCTTGCTG
Celera SNP ID:            hCV11530120
SNP Position Genomic:     81736
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21102):
AGAGAGGGGTTGCAGGGGGCTGTGCCACACACTTGTAAACAACCAAATCTCGTGAGAACTCCTTATCACAGGAACAGCACCAAGGGGACGGTGCTCAGCC
R
TTCATGAAGGATCCACCCCATGATCCAGTCACCTCCCACCAGGCCCCACCTCCAACACTGGGGGTTACCGTTCGACATGAGGTTTGGGATGGGGACAAGG
Celera SNP ID:            hCV11530121
SNP Position Genomic:     82631
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21103):
TTCGTTGGCCAGACAGGATCTGCTGTATCCTTATGATACCTCGTCATCTTGGAGTCCACCGTGCACTTGTCCGCTTGGGCTGCCATAACAAAATACCAGA
Y
GCTGGGTGCCTTAAACCACAGAAATGCATTTTCTCACAGTTCTAGAGGCTGGAAGTCCAAGATCAGGGTGCTGGCATGGTTGGACTCTGGAGAGACTCTT
Celera SNP ID:            hCV465620
SNP Position Genomic:     121998
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21104):
CTTGAGTTTTCAGTAGAGAAGGCCTGCTCCTCACTTTGACCCCGGACCTGCATGCGCGCTGAGGATGGCAGAGGGGCTCCTGCCTGTCTCAGTGCTCTGG
R
GTCCCGTGCTGAGGGAGCATCCTTATGGTAAACGTCCCTGGTTCTGTACCGGAGGAACAGGAGCTCTGGAGGTCTTCTGTTTGCTGTTGTATGCTGTGGC
Celera SNP ID:            hCV465621
SNP Position Genomic:     121297
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21105):
GGACATGGGGCAGGGAGAGCTTCAGAATGAGCGGGAAGCCTCCACAACAGGTGGAGAAAATAGCAAGGGCTGCTGGGCACGATCATTCGAGATTCCAAGA
S
GTAAGAACTGGGGGCTGGGCTGTGGAAGAAGTGCGAGAGGGAGTGGGGAAGGCAGGCTGGGCGTGCTGTGGTTATAGGCAGCCTACATGTCTTGAGTTTT
Celera SNP ID:            hCV465622
SNP Position Genomic:     121106
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21106):
TAGGGCTTACTTTGTTTATTTACTTTTTATACCTGTATATGGTAGAAAGAAAACATAAAGGAAAAGCGTGTAATTTCTACATAATGTTTGGCTTGTAAAT
A
AAAAAAAAAAAAAAATCCAGCTGCTTCCATTGCCCTGCGGAGGCCATGTTCCTGATTGGCTCTGTACCGAGGTTCATTTAAAAGGCCAGGGACCTCATTC
Celera SNP ID:            hCV27156271
SNP Position Genomic:     266271
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,11)   total(A,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21107):
CTTGTGTTTTACATGATGGATCTTACCAGGCGGCCTTGGAAGCCACTTCTCACACCAGGGTTATAAAGTCCTATGTTTTCACAGTCTGGTTAATACAATG
R
GGAAGAATTAAAACCTTTGGCATAACAAAGCTTTTGGTCAGTTCTATAAGCAAATGCCATTCACAGCCTCCTGAGTGATACCTGTTTCTAGGCACTGCTT
Celera SNP ID:            hCV28026201
SNP Position Genomic:     359806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21108):
GACTGCTGCTATATAGAATTTAATATTCTTGCATGCATTTTCTGAACCTTCTAGTCACTTGTTAAATCCCAGTTCAGAACATCACATTAGATATATGATC
T
GCACTGTGCTAGGACGTGCTCCCCACCAAAACGTCAGCGTCTTAAGCTTGTATTCATATGACCATAGGAAAACCTACATGCAGAACTTTGATAGTAGTTG
Celera SNP ID:            hCV27156274
SNP Position Genomic:     268886
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,17)   total(-,17|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21109):
TTAAACTTTCTCATTACACAACAGGACTTGAATTCAACCATTTGTTTTGGCCTATGTTGCTAGCCTGGAACAGGGTTTCATTAGCCCAGAAACCAGATTC
Y
AAATCACTTTATATCTCCAATAAGAAAAAAAAAAAACCCTGGAGTCCACGTGTGACGTAGATTGTGGTTTGATTTCCAAGGAGAATAAAAATAGAGTTCA
Celera SNP ID:            hCV29368354
SNP Position Genomic:     319864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21110):
AATAACAAGTTTTGGTTTAGTAGACTCCGTTTAAAATTGACTAATTAGTTTTAGATCATTGTGAACTCTCTGGATTAAATGTACATGGTGCATTGCGGTG
R
AAGCTGTTATGGATGCTCCAGTGATCCCATCTTCTGCGTGTGGAAGCATTTCAGGAAGCCTTCTGTGTTCTCTTGACATGACATTGACCACTTCCTGGAT
Celera SNP ID:            hCV28001599
SNP Position Genomic:     32847
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21111):
AGAAGCCTCTGTGGGCAGGAGAATGGCTCCGCCTCTCAGGCACAGGGCTTGTGACCGGTGTGCACCTCCGGTCCAGCTCACTGCTTTGCTCTCCTCTCTC
Y
TGCGGGCACCTACACAGCATCGGTAATCCCTTAGGAACTGTGTAGGCACTGGCTGCCCTTAAAAAGGGGAGAGTCTTTCCACACATGGAGTTGGATTATT
Celera SNP ID:            hCV29368355
SNP Position Genomic:     320146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21112):
CCTGACTCATTTCAATCACCTGCTCCACCCTGACTCATTCCGATTACCTGCTACCTGCTCTGCCCTGACTCATTCTCCACCCTGCATAACCATTTTTCCC
R
CCGAACCACTCACCGGGTCACTCTCTTTAAATTAGCCAATCGGAATTAGTTTAGCCTGTGCGGTCTAACCCTAGCCAACAGGGGAACGACACAGCAGCAG
Celera SNP ID:            hCV28961540
SNP Position Genomic:     168207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21113):
AGTGATGCCACCTCAACCCTTAGCCAGGTGCAGGCGTAACAAGGGAGACCCACCTGTGCAATATAGTGAGACCCCCATCTTTACCATAAATGAAAAAAAC
R
TTAGCCAAGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTAGGAGGCCAAGATGGGAGAATCATCTGAGGTGAGGCGTTCGAGACCAGCCTGGGCAAC
Celera SNP ID:            hCV28961541
SNP Position Genomic:     176580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21114):
CGGTGTGCACCTCCGGTCCAGCTCACTGCTTTGCTCTCCTCTCTCCTGCGGGCACCTACACAGCATCGGTAATCCCTTAGGAACTGTGTAGGCACTGGCT
K
CCCTTAAAAAGGGGAGAGTCTTTCCACACATGGAGTTGGATTATTCTGGTGGTGCAGGTTTCGTCCATTTGAAGCAAATAGGAACGCAGCCTTAGAGAGG
Celera SNP ID:            hCV29368357
SNP Position Genomic:     320201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21115):
ACAGCTTGAGGAACTGATAAGTTGATCATCTATGTCTAAATATTGTGGCCTCCGATAACATCCTAGACCAGTATCTATCAGCCCACCAGGTAGGAAATCG
R
GGATTTGATGGAAGAGAAGTTCAGTTTTCATTATTAATGGTGAATATTTAGCATGTACACAGAATGCCTGGCACATAGGATTTTAACCAATTTAATCTTC
Celera SNP ID:            hCV28961542
SNP Position Genomic:     180359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21116):
GCTCTCCTCTCTCCTGCGGGCACCTACACAGCATCGGTAATCCCTTAGGAACTGTGTAGGCACTGGCTGCCCTTAAAAAGGGGAGAGTCTTTCCACACAT
R
GAGTTGGATTATTCTGGTGGTGCAGGTTTCGTCCATTTGAAGCAAATAGGAACGCAGCCTTAGAGAGGGGCCAGCCAGTGTCAGCGTGAAGATGTGGGAG
Celera SNP ID:            hCV29368358
SNP Position Genomic:     320233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21117):
TTGGGTGTACGCTGGGCGGGTTCGCAGTGCTGGAAGAGAGAGTGGACAGATTTTACACCAGCACCTTTCATCTCAGGGGTGCTTGTGAATTGATTGCACC
Y
CTCCTGTGGCGTGGAGGCGGTGCCTGGTTAAAGTGGGGCTCAGATGCCCCTTGGTTGCATTTAATGTGTGTGCATAATCAGAGGGCAAGGACAGCAGTAA
Celera SNP ID:            hCV28961543
SNP Position Genomic:     123948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21118):
CCTACACAGCATCGGTAATCCCTTAGGAACTGTGTAGGCACTGGCTGCCCTTAAAAAGGGGAGAGTCTTTCCACACATGGAGTTGGATTATTCTGGTGGT
K
CAGGTTTCGTCCATTTGAAGCAAATAGGAACGCAGCCTTAGAGAGGGGCCAGCCAGTGTCAGCGTGAAGATGTGGGAGAGGAAGGGGTTAAATAGGGCCA
Celera SNP ID:            hCV29368359
SNP Position Genomic:     320255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21119):
CCTGACTCCTTAGAACCTGCAAATGCATGAAACTCATGTTAAGAACAGTTGTGGTTCACGTGTACCAAACTTGGGAAATCCTGACCAGCGCATCCAGGGT
Y
GCTTGGGCACAGTGGTCCTTTTGCATGGGGTGGCCGGCCAGGTGTGCTGAGTGCCACCTGGGCTTGCATGCCGGACGCATACCTGGCACCTGCTTCCAGG
Celera SNP ID:            hCV28961544
SNP Position Genomic:     124340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21120):
TTTGGCCTCAGGGGGTCCTTGGAGTCTAGAAGGGATGGTGACATTGGCCAGAGTCACCCCATAATCATACAGTTAGCAGTGTGGCCAGCGTCACTTAAAG
Y
GGGGAGGTGGCTGGTGCTGGAGCGTGTATAACAAAAGTGGGATCCGGAAAGGGCTGCTGGCGAGTGGGAGTTTTCTAGGGAGCCGCTGCTCTTGCTTCAG
Celera SNP ID:            hCV28961545
SNP Position Genomic:     125925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21121):
AAACCCAGTGCCCTTGTCTGAGTCCTGTTTTCATACTAGTGAAATTTCAGCTGCTAACAAGAATCACGTCTGATGCAGACACAAAGCCCAGTGGCTGCCC
Y
AACTCCCTGGCCACCTCCTACTGTCCGAGAAAACACTGAAATATAGCAGTCCCAAAGGACTCAGAAGTCAGCATTGAAAGCTTCTGTTTTTGTTTTGTTT
Celera SNP ID:            hCV11533471
SNP Position Genomic:     627587
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,11)   total(C,11|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21122):
TGTTGAACCAGACATTCTGCAGCCTTTAAAAGAGAATGGAAATGGAGAGATTGTGATGTGTTCATTGGTGACTTTTGACACGGATGCTAACCTGTAAGAT
R
TGCAGATATATCATGTGCAAACTGTTAAGATGCTGTCAACATTTTGAATGACTTCTTGCAAATAGTAAGGAAATTAAACACGCACAGAGCTGGGCAAATG
Celera SNP ID:            hCV27484282
SNP Position Genomic:     27715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21123):
TTCATTGTCGGGGTGGCCTGTTTTATGATTTGTTTTTGTTGCTATTTTTTTCTCCTTTATTACAGATTAGATTGGAACTAGTGTGTGTGTGCATGCGTGC
R
TGTGTGTGTGTATATGTGTGTTAGCGAGGGAATACTTCAAAAAATAAGATTTTTTACACTTGAAAGCAAGCCATGTATATGTGTACATTAGGCACTTGAT
Celera SNP ID:            hCV27156280
SNP Position Genomic:     269990
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21124):
CCACTGCCAACACGCCCACGCCCGTTCGCAAGCAGTCTAAGCGCCGGTCCAACCTGTTCACCGTGAGTGTCAACCCTGGGTGGAGATTTGAATGCGATTC
Y
GAAGCGTTCCCATTAACGTAAACCTGGTTGCCACATGGTTCAGTGGTATTTGTAGAATCTCAACTATATTAAAGTGAATAACATTGATTTCTGTGGAGGA
Celera SNP ID:            hCV25969101
SNP Position Genomic:     311405
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,18)   total(C,51|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:21125):
TCATTGTCGGGGTGGCCTGTTTTATGATTTGTTTTTGTTGCTATTTTTTTCTCCTTTATTACAGATTAGATTGGAACTAGTGTGTGTGTGCATGCGTGCA
K
GTGTGTGTGTATATGTGTGTTAGCGAGGGAATACTTCAAAAAATAAGATTTTTTACACTTGAAAGCAAGCCATGTATATGTGTACATTAGGCACTTGATA
Celera SNP ID:            hCV27156281
SNP Position Genomic:     269991
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,9)   total(G,1|-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21126):
TTTTTCTCCTTTATTACAGATTAGATTGGAACTAGTGTGTGTGTGCATGCGTGCATGTGTGTGTGTATATGTGTGTTAGCGAGGGAATACTTCAAAAAAT
A
AGATTTTTTACACTTGAAAGCAAGCCATGTATATGTGTACATTAGGCACTTGATATATGTTGAAAAGGTGGATTAATGGGTCATTAATTGTCCATTTTTT
Celera SNP ID:            hCV27156282
SNP Position Genomic:     270036
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21127):
TTTTCTCCTTTATTACAGATTAGATTGGAACTAGTGTGTGTGTGCATGCGTGCATGTGTGTGTGTATATGTGTGTTAGCGAGGGAATACTTCAAAAAATA
A
GATTTTTTACACTTGAAAGCAAGCCATGTATATGTGTACATTAGGCACTTGATATATGTTGAAAAGGTGGATTAATGGGTCATTAATTGTCCATTTTTTA
Celera SNP ID:            hCV27156283
SNP Position Genomic:     270037
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21128):
TTTCTCCTTTATTACAGATTAGATTGGAACTAGTGTGTGTGTGCATGCGTGCATGTGTGTGTGTATATGTGTGTTAGCGAGGGAATACTTCAAAAAATAA
G
ATTTTTTACACTTGAAAGCAAGCCATGTATATGTGTACATTAGGCACTTGATATATGTTGAAAAGGTGGATTAATGGGTCATTAATTGTCCATTTTTTAA
Celera SNP ID:            hCV27156284
SNP Position Genomic:     270038
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,10)   total(G,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21129):
AGTCTCGCTCTGTCACCCAGGCTGGACTGCAGTGGTGTGATCTCAGCTCACTGCAAGCTCCACCTCCTGGGTTCACACCATTCTCCTGCTTCAGCCTCCC
M
AGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGCTTTCACCGTGTTAGCCAGGATGGTCTTGATC
Celera SNP ID:            hCV27156286
SNP Position Genomic:     271138
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21130):
GGTTCACACCATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGG
S
TTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCC
Celera SNP ID:            hCV27156289
SNP Position Genomic:     271207
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21131):
CTGCGCTCATAAAACACCCTGCAGGTTGGCAAAAACACTCATAATATTGATCAGAAGTCAGGCGGGATATTTATTTTGTCTTTGCCCCACTAGCATAAAT
Y
CTTGTCCACTGCCTCCTCCTCCCCGCATGCGGGATTTACAGTGGCCAGCTTCTTAAAAGCATTCAGTAATTAAGGAATAAATATCCATTGGCCTTTGTGG
Celera SNP ID:            hCV11533480
SNP Position Genomic:     619888
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;(C,-|T,-)   (C,-|T,-)   Caucasian(C,27|T,51)   African-American(T,23|C,49)   Asians(T,16|C,64)   total(C,140|T,90)   (T,-|C,-)   JBIC-allele(T,318|C,1157)   total(C,1157|T,318)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21132):
CTATCATGGCTTTTAACTGGCATTGCTTTTAAGCTATGAATTGTGGAGGAAGTGGCATCTTTACTGTGTGGAGTTCCTTATCGTGGAACACTGTTCTTTC
S
CAGTTTATTCAAATTTGTATTATAGCCTCCAGCAAAGTTCAGCATTTTTTTTTTTTATTTAGCTGCTGGACATGTCTTGTTAATCTATTCTGTTTATAAT
Celera SNP ID:            hCV516548
SNP Position Genomic:     425786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21133):
AGTCCAAAGATAAACACACAAGTAAGATCATTGTAAGGAATGATAAGTGCTGAAGGGCCATATGGGGCAATTGAATAGAAAATACCTGGAGGGGCTCGGG
R
GTGGGGTATTCCTAGCATTTGGGAAGTGATTTGCCTGTATTGAAATAGTGACTACATTTCACACTTTAAAATGCTGGAAATGTGGTCATCTTCATGTCAG
Celera SNP ID:            hCV516549
SNP Position Genomic:     426372
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21134):
CGCCAGCGGATTCTCCTGCGGAACCTCAAACTTCAGAGGCAGCAGGCCTTGAATCATTGAGCCTCCAGAGGGAAAACTGAAGCCTGGGAGAGGGTGGCTG
Y
CCAGGGCCCCACAGCCAACCATGTCCTTGCCCAGAGAGGCCTGGGTCCCTCCTCCTCTGTGCTGGGTGCTTCCTGAGTGCTTGGCACATCTAGACACCAA
Celera SNP ID:            hCV11533482
SNP Position Genomic:     619094
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,15)   total(C,15|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21135):
CGATGATCAAAAGAATAAGAGAATATTACTTAACTAGGATAGTCAGAAGTTGTTATAATCTGTAGCTGATGTTTTCCAGTTATTTTGAAGTTTTTTATAA
T
TTTTTTTTCCTTAGGGAATATGGACATAGGCCGGGCGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGG
Celera SNP ID:            hCV27156294
SNP Position Genomic:     273641
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21136):
CAAAAGTCAGCTGGGAAGAGTGGATTTCAACTTTGTTTTCCTAAGAGAAAAATAGGCCAGATGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGG
Y
TGAGGCAGGTGGATCCCCTGAGGTCAGGAGTTCAAGACCAGACCGGCCAACATGGCGAAACCCTGTCTCTACTGAAAATACAAAAAAGAACTTAGCTGAG
Celera SNP ID:            hCV27156297
SNP Position Genomic:     274476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21137):
AGTGGATTTCAACTTTGTTTTCCTAAGAGAAAAATAGGCCAGATGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCCC
Y
TGAGGTCAGGAGTTCAAGACCAGACCGGCCAACATGGCGAAACCCTGTCTCTACTGAAAATACAAAAAAGAACTTAGCTGAGCATAGTGGTGGGCACCTG
Celera SNP ID:            hCV27156298
SNP Position Genomic:     274494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21138):
GTGTATGTGTGCGCGCGCGCGCACACGTGCACCTGCCGTGTTTGAAAAAAATGGACTGTCATGCATTGTGAGACTTTATAGCATACTCTTTCACATACAC
R
TGGAGCATCCCTAATCTGAAAATCCAAATCTTAAACTGGAAATGCTCCAAAATCCGAAATGTTTTGAGTGCAGACATGGCACACAAGTGCTCACGCAGAA
Celera SNP ID:            hCV27156299
SNP Position Genomic:     274992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21139):
GATGAGGCCACGGCTGCCCCTTCTGTTTCTTCCCTGCGCACTTTGGGGTGAAGTGATGGGGTGTTGTTGGCTCAGGTTGTAGGAGAGATGAGGAGCCTCC
R
CCCAGCTCAAATCTTCCTTTTTGTTCCTTAGAGCCTGCGTTTTTTGAGGTTTATTATGTAAAGCCGTGCCCCTTTTCCTGTTGGATGGTGAAGTTCCTTC
Celera SNP ID:            hCV27456899
SNP Position Genomic:     245255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21140):
AACATCCTCAGTCTCAGAAGAAGAGAAAGAAATGGAGAGGCAAGGCAGCCCTGACCGTAGGTGGTATGAAGTGCACCGGCCAGCTCACAGCCCCCCACAC
R
GTAGGTCTAAATGAAACCCGCCAGTCAGCATGGGCCATACACCTGCTCAGAGCCCACAACCAGCCTTCTGGTTGGCCAAGGCTGCAGAGAAAACCCCTTC
Celera SNP ID:            hCV516550
SNP Position Genomic:     426933
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21141):
TCCCAGGGGAGACTGAGGTGGGAGAATAGCTTGAGCCCAAGAGGTCAAGGCTGCAGTGAGCCATGATCATGCCACTGTACTCCAGCCTGGGCAACAGAGT
R
AGGCCTATGTCAAAAAAATAAAGAGTATGTGAAAATACTATAGGAGAAAAAGTTTTATGAATAAAGATTGTGAAAATAAAAAATTCATTAGATAAATACT
Celera SNP ID:            hCV516551
SNP Position Genomic:     427518
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21142):
GGAGACTGAGGTGGGAGAATAGCTTGAGCCCAAGAGGTCAAGGCTGCAGTGAGCCATGATCATGCCACTGTACTCCAGCCTGGGCAACAGAGTAAGGCCT
R
TGTCAAAAAAATAAAGAGTATGTGAAAATACTATAGGAGAAAAAGTTTTATGAATAAAGATTGTGAAAATAAAAAATTCATTAGATAAATACTGTAAAGA
Celera SNP ID:            hCV516552
SNP Position Genomic:     427525
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21143):
GGATGGGAGAGGAGGCTCTGCAAAAATACAAATAAAATCTTAAAACACACCAAAAATAGGAGAACAACAAGGTTACCTACAAAAGAAGAGAAATCTGACT
S
TAGACTTCTCAAGAGCAACATGCATTCTTAAATATAATGGAAATATTCCCTCCTAAGGACAAATAATTCTGAACCTAGAAGCCTATGCAAAGATGACTAC
Celera SNP ID:            hCV516553
SNP Position Genomic:     427818
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21144):
AGAGAAGGAGGTAAAACGTCAAGGTATTTTCTGACATGAATGTTTGGCCAGCCTAGTTTGGTGAAGCTGTATCCACATGTAACAATGCAGAGTTGTATTA
R
CTTCCACAGTTATTTTCACATTTAAGTAGAGAGCAGGAAAACATAATGTCCAAGAGCAAGGGTTTCAGAGTCCAAATCACTGAATAGAATCCCATTTCTC
Celera SNP ID:            hCV516554
SNP Position Genomic:     428337
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21145):
TGTATCCACATGTAACAATGCAGAGTTGTATTAACTTCCACAGTTATTTTCACATTTAAGTAGAGAGCAGGAAAACATAATGTCCAAGAGCAAGGGTTTC
R
GAGTCCAAATCACTGAATAGAATCCCATTTCTCCTGTCTCAGACCCTTCTGAAGTTGTCTCACTAAACCCCAGCTTCCTTGTTTTTAAAATGGGGAAATG
Celera SNP ID:            hCV516555
SNP Position Genomic:     428404
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21146):
AAGTATTGAATGAGCTTGTTTTTGGCCATCCAGCCAGTGCTTGGTTATGTTTGTGTTTAGGCCTCCTGTCTATTTTAGCCTCTTAGTATTTGCAAAATGC
Y
AAATAGAGTGATTTGATGATGCTTAACGGTTGTCCGTTTCTGTTTCAGGGAATTGTGGGTAACTTGGCCAGCGGCAAGTCTGCCCTGGTGCACCGGTACC
Celera SNP ID:            hCV25972056
SNP Position Genomic:     229347
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,10)   total(C,37|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:21147):
TGCTCCTGGAAGGGGACTGTAAAATTCAGAGATGACCGGGGAACGCTCCCCTCAAAACAGTGTTGTCAAATGAAAATGAATTTCATGTTAAAAACACACA
S
ACACACACCTGTTGCATTTATCATATAAAGGAGAAAGAATATTGTAAAGATGGAACCGTTATTCATGGCAAAGGAAGACACCAAACAAAGAAAAATTCTT
Celera SNP ID:            hCV516556
SNP Position Genomic:     431573
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21148):
TTCCTTGTACAACCCTGTTCTGTCTCTTACACTTCCTGACCTGACCTCTGCATTCACAAGCCATTCCAATGACATTTTCTAGGTTTTTGGATAAGTGTTA
Y
TGGTACAACATACACATAAGACGCACAGAATCATAAGTCATAGCCACGTTTACAGGGGCCGCCACTCACATCCAGAAGCAGCAGGTAGCCAGCCCTCATG
Celera SNP ID:            hCV516557
SNP Position Genomic:     435244
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21149):
GACCTCTGCATTCACAAGCCATTCCAATGACATTTTCTAGGTTTTTGGATAAGTGTTACTGGTACAACATACACATAAGACGCACAGAATCATAAGTCAT
R
GCCACGTTTACAGGGGCCGCCACTCACATCCAGAAGCAGCAGGTAGCCAGCCCTCATGGACCCCTTCCTGTCCCGTGCACCCCCACCCCACCCCACCCCA
Celera SNP ID:            hCV516558
SNP Position Genomic:     435286
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21150):
CCAGCACCAGCCAGAAGGAACTTCGGATCGATGTTCCTCCCACTGCCAACACGCCCACGCCCGTTCGCAAGCAGTCTAAGCGCCGGTCCAACCTGTTCAC
Y
GTGAGTGTCAACCCTGGGTGGAGATTTGAATGCGATTCCGAAGCGTTCCCATTAACGTAAACCTGGTTGCCACATGGTTCAGTGGTATTTGTAGAATCTC
Celera SNP ID:            hCV15969013
SNP Position Genomic:     311366
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,7|T,5)   total(C,40|T,8)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,284|C,1217)   total(C,1217|T,284) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:21151):
TCCAATGACATTTTCTAGGTTTTTGGATAAGTGTTACTGGTACAACATACACATAAGACGCACAGAATCATAAGTCATAGCCACGTTTACAGGGGCCGCC
R
CTCACATCCAGAAGCAGCAGGTAGCCAGCCCTCATGGACCCCTTCCTGTCCCGTGCACCCCCACCCCACCCCACCCCACTCACAAGGGTGACCACCATCT
Celera SNP ID:            hCV516559
SNP Position Genomic:     435308
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21152):
TCTCTTGGTTTGACAGAAAGGGATAGATCTAACTGTTTAGTGTTGCCAAGTGAGCCCCCAAACATCTCCCCTGGAAAAGTCATTAGGAATTTACCATCTC
Y
ATCTGCAGGGGCCAAGTGAGATAACCGTATCTAGTATATCCATCTGAGCAAAACCCTGTTTCTCTTCCCTTGAATAGGAAGCCAGAAACTGCTGCAGCGC
Celera SNP ID:            hCV148211
SNP Position Genomic:     155322
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21153):
GGAAGGGCCTTAGCCAGGCATGATGTGGGAGCGTTGGCCCTGGCATTCCCGGGTCTTCATGAGCTTAATTCAGCAGGGGCTCCTTCCTTCAGTGATGGAA
W
CTGGAGTTTCTGACTGATTCTTAACCAACTCAAAATTTTAGGCAGAAAGCTAGCTCCAAGGCTGAGGCAGCCCTGAATGTGCCTAGGCCAACAGCCAGCG
Celera SNP ID:            hCV29368522
SNP Position Genomic:     235982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21154):
GCAGATGGGAGGTCTGTTTGGGGGACAGCAGCTGTGTGCTCTCCTTTCTTTCTTTCTCTTTAGCATTTTTTAATCTCTATATTTGAGTACAGATACACAG
Y
CATACGCCTTGGCCTCCTCCGTGCCCTTCGCAGAGCCCCGGCCAGAGAACCTGTCCATCCCCTCCTGCCTCTGATGTCCAGGCTGCATAAACCGTTCAAG
Celera SNP ID:            hCV29368380
SNP Position Genomic:     323047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21155):
CCATCCCCTCCTGCCTCTGATGTCCAGGCTGCATAAACCGTTCAAGACTTGCCTTGTACTTGGTAGCGTACGCTAGAAGGATTTGAATTTTTTGAAAATC
R
TGCTCAGTTTATCTCATCGTGCTTACGCAATTGAAAGCGTATCATTTTTACTTGGTGGGGACACACAGAACCTCCTCACTACATCTTTTGAGACGTTGTG
Celera SNP ID:            hCV29368381
SNP Position Genomic:     323202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21156):
GATGTCCAGGCTGCATAAACCGTTCAAGACTTGCCTTGTACTTGGTAGCGTACGCTAGAAGGATTTGAATTTTTTGAAAATCGTGCTCAGTTTATCTCAT
Y
GTGCTTACGCAATTGAAAGCGTATCATTTTTACTTGGTGGGGACACACAGAACCTCCTCACTACATCTTTTGAGACGTTGTGTTGTCTCCTGAGGTTTCA
Celera SNP ID:            hCV29368382
SNP Position Genomic:     323220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21157):
TTAGAAGCACTTGAGATTCATTTCTGCAACATAACTCATCCCAGGCGCCTAGTCATCACCCTGGGTCATTTTCTGGCCACCAGAACTTGGTGCACACGCC
R
AACCTACAACCACAGCCTCAGCTGTAGTGTTCGAAATGGAGAATTTTGGCTCAAACACTACAGCAGGCAAGAAGAGTTAACCTGTCGTAAGTCAGGAACA
Celera SNP ID:            hCV16193402
SNP Position Genomic:     525235
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21158):
GCTGGTCTCGAACTTCTGTCCTCAAGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGACGTGAGGACCTGGCCTATTTGTTGATTTTCAC
R
CTGCAAAGGAATTGTTAGATGTGTTTAGTTATAACAAGTTAATATCACTTTAAATCAAGAAGCAACTAAATCACAGCTAGTTTTTACTTGTGAATAATGT
Celera SNP ID:            hCV16193403
SNP Position Genomic:     524921
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21159):
GCCAGTCATTTGGGACACCTGAAACAGGACTGAGCACTGGCTAGGGAGCATTTTTTCTCGCCATGGATGTGGTTCTGTCGTTGTGAAGTTTGACTGATTC
R
TCGCCTTGTGTTTCTAAGAACGGTTGGAATGATGCATGATGGTCTGATTGCGTTTAGCGTTCTGTTCCTCTTCCCGTAGATCCCAACTGGGCCAGTTTGA
Celera SNP ID:            hCV25967384
SNP Position Genomic:     560850
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,28)   total(A,1|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:21160):
GCCACTCACATCCAGAAGCAGCAGGTAGCCAGCCCTCATGGACCCCTTCCTGTCCCGTGCACCCCCACCCCACCCCACCCCACTCACAAGGGTGACCACC
R
TCTGATTTCTCACTCCGTAGATGGGTTTCGCCTGTCCTTGGACGGGATCCTAACAGTTGGCACTCTCGTGCTTGTCTCCGGCTCTGTGTTCTGTGTGTGA
Celera SNP ID:            hCV516560
SNP Position Genomic:     435405
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21161):
AACAAGAGCCAACCACTGACTGGAGAGGCTCCGGCTGTCACCGTGATTATTAATACATTGTAATGACATTTTGGGGATTCCGCCATATTTTGTATGGTTG
Y
CAGCAAAATGTTGACAGTTGTATTGTGGTTAATAAATTCATTTAGATTTATAAGCATTGTTTACAGAACCTGTTCGCCTGCTGAAACTCTAACAGCATCT
Celera SNP ID:            hCV29368389
SNP Position Genomic:     347785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21162):
TCACGGTTTGTCCATGTATACACCTTGATGTGGCCCAAATTCAGTCATGCTGTTTCAGTGTAGTCCCGCAGTGGGAAGTGGGTGTGGCTGGGGCTGGGGG
R
CCTTCACGAGCTATAGGGCTCTAAGAGTCTGCCGTCAGAAGGATTGTGGATAGCTGGTCTGGTGTCTTCCATCTGGACACCAGGAGCATGTGGTCTTGCC
Celera SNP ID:            hCV516562
SNP Position Genomic:     439029
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21163):
CTGGAAGGTTTCTAGGCCTGGTTGTCATCGGAGAACCACTCTCCAGGGAGAAGGAGCAAGAGAAGCGGTGCTCTATTGAGTGCCATGTTGTCATCGTTGT
Y
CCATAGATGGAGGGACAGACAGACACAGTGAAATTCCTTTTTGTTTTTCAGGTATTTGGACCTTGTGTGCCTAAAGCTGGTATAAAATGAGGTCTGTGGA
Celera SNP ID:            hCV516563
SNP Position Genomic:     439689
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21164):
AAGGTTTCTAGGCCTGGTTGTCATCGGAGAACCACTCTCCAGGGAGAAGGAGCAAGAGAAGCGGTGCTCTATTGAGTGCCATGTTGTCATCGTTGTCCCA
W
AGATGGAGGGACAGACAGACACAGTGAAATTCCTTTTTGTTTTTCAGGTATTTGGACCTTGTGTGCCTAAAGCTGGTATAAAATGAGGTCTGTGGACAGA
Celera SNP ID:            hCV516564
SNP Position Genomic:     439693
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,4)      total(A,4|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21165):
GGTGCAGCCCATATGGGTGCCTTCCCAGGAGGAGAGCAGGGCGGAGAAGGGATGTGAAGGGATGTAGCAGGAACATGGTGGGCACGGGCTCCAGGAGGGG
R
TCCCGAGATGGGAGTATCTCCTCTGCTCCTCAGGGATGCTGCCTTCTGTGGGGTCTGAATGCCCTATTGTAATAGGGATCTGGCTAAGGCACACAATACC
Celera SNP ID:            hCV516565
SNP Position Genomic:     440518
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21166):
TCCAGGAGGGGGTCCCGAGATGGGAGTATCTCCTCTGCTCCTCAGGGATGCTGCCTTCTGTGGGGTCTGAATGCCCTATTGTAATAGGGATCTGGCTAAG
R
CACACAATACCCAGAGGACAGCCACAGGGTGGCTTCGATGGTGGCACGTGGAAAATACAGGGAGGAGCATGAGTGCTCCCCTTAGTGCCATGTCGCCAGC
Celera SNP ID:            hCV516566
SNP Position Genomic:     440607
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21167):
GCAGGGAAGGAACAGGCCCATAGGCACCCCTCCATGGGCCCCTCAAGGCTGTAGACCCCTCTGTCTGACCAGCATCCCATTCCCTGAAGTGAAGCAGCTG
S
CACCAGGCTGGCTTTTCCCAGGCAGTCACACTCTGGGATGCCCCCACCCCTCAGCACACACAGTGACTGTGTTTTCATGTTTTCCACCAAGGGAGGGAGG
Celera SNP ID:            hCV8738518
SNP Position Genomic:     171682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21168):
ACGTGGAAAATACAGGGAGGAGCATGAGTGCTCCCCTTAGTGCCATGTCGCCAGCTCTGGGCTGCTCCTCCACGTCTCTTAAGATGCCACATGCCTGGCC
Y
ACCTCCCCCGGCTGCTGTGAGGCCTGGTGCAAGAGCAAGCATGGGAGCACCACATGGCACTGTCATTCAAGATGTGGGCTCCAAATGACGCTGTGTGTTT
Celera SNP ID:            hCV516567
SNP Position Genomic:     440753
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21169):
GGCAGGGAAGGAACAGGCCCATAGGCACCCCTCCATGGGCCCCTCAAGGCTGTAGACCCCTCTGTCTGACCAGCATCCCATTCCCTGAAGTGAAGCAGCT
S
CCACCAGGCTGGCTTTTCCCAGGCAGTCACACTCTGGGATGCCCCCACCCCTCAGCACACACAGTGACTGTGTTTTCATGTTTTCCACCAAGGGAGGGAG
Celera SNP ID:            hCV8738519
SNP Position Genomic:     171681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21170):
TGCCAGTGGTCTGCCGTGGTGGAGTTTTGATTGTGATTTTTTGTTTTATGGTGGTGACTTTCTGGCTGGAGTGGTTTTTTTAATTAATGTGCACACAGAT
Y
GCCTGGGATCTTACTAAGAGGCAGGTGGCAGGTGGGGCCTGGGATTCTGCATTTCTCGAATGCCTCTTGGCGATGCTGCTTCTGTAGGTCCGAAGACCAC
Celera SNP ID:            hCV516568
SNP Position Genomic:     441114
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,6)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21171):
GGGATGCCACTGAGTGAGATGATTGGCATGTTCCAGGATGAGACTCTGTAGACATGACACTAATACACCTGGCAAAGCCATAGACGCAAGTCAGCCATTC
Y
CATGCATCCCTTCCATGGGGCTCATGCTCACTTGTTGGTTATGACCTTGCCTAAGTGGAGGTCTTGGGTTCCTGAGTATGTCGTTAATGAAACCTTGGAT
Celera SNP ID:            hCV15969023
SNP Position Genomic:     311096
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,310|C,1191)   total(C,1191|T,310) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21172):
GCTGGACAGGACGCCCTAAGCTCTCATGCTCCTCTGGGAGCGCAGCACCCTGTGGGGCGGCTGCATCAGAGACTCACATCTTGCCTTTCATCTGTGGAAC
R
TTTTGTCCTTGCTAGGCTGTCTTGCCCCTGTCATCTCATCTGTTCCTCTTTGGCACAGGGAGGAGGTAGTCATCCCATTTGGTCAGTTTGGAAACTGAGG
Celera SNP ID:            hCV516569
SNP Position Genomic:     442943
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21173):
GTAAAGAGAATTGAGTATGAAGATGGCCTGTTGATTCCTTTTAAGCGTTTAAGTTTTTCCGTGCCTGGGATTGCCTTATGTGCAACCGCCAGCTTCTGTC
S
TTTGAAGGTTTTCCTAAGATATTTTCCTAGTTTAATAGGAAGTGTGGACATGGGACATTGTACGGCTTAGGAGACTGCGTTGTGTTTGGTTTTGAATATA
Celera SNP ID:            hCV15969024
SNP Position Genomic:     287823
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,119|C,1370)   total(G,119|C,1370) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21174):
GGTGACAGAGACCTCGTCTCAAAAAAAAAAAATTATATATATATACACACACACACACACATACATACACACACACATATACATATACATACATACATAT
R
TATATAGTGATCCATGCAAAATCTGCAGCAGGGGTAGGCAGACAGGAGGAAGTGGGTTGCAGGGTCAAGGCAAGCCTCAGAGAAAAAAACCTGAGACTGA
Celera SNP ID:            hCV16130691
SNP Position Genomic:     591482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21175):
TTTCAAAGATAGAAAAACATTGGAAACACATTTTAGGAATTTCTGATATAAGTTTTCAAGGAGGTTGTGCAGAATTGGTAAAGAGAATTGAGTATGAAGA
Y
GGCCTGTTGATTCCTTTTAAGCGTTTAAGTTTTTCCGTGCCTGGGATTGCCTTATGTGCAACCGCCAGCTTCTGTCCTTTGAAGGTTTTCCTAAGATATT
Celera SNP ID:            hCV15969025
SNP Position Genomic:     287746
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,322|T,1159)   total(C,322|T,1159) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21176):
TCCCGCGTTCCTCTATCCATGGAGTGTCTGTGGATCTACGCGAGTGCTTAGATAGAAATTAACCCTGCAGCCGGAGATTAGCGGCCCTAACTTAATTTTC
R
TCCCACAGATAAGGATGGTCAGCCATGAGTTACATGGTTATTCTCCTAAGTTGCTTTGTGTGTGCACCACACAGAGACGCTGACATCACTCGTTGATTTC
Celera SNP ID:            hCV16130692
SNP Position Genomic:     548087
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21177):
CGTGGGAATTGATGCCTCTCCCACGGTAACAGGTCCTCTGCCATAAAAGAACAGAACCTTCCCGCGTTCCTCTATCCATGGAGTGTCTGTGGATCTACGC
R
AGTGCTTAGATAGAAATTAACCCTGCAGCCGGAGATTAGCGGCCCTAACTTAATTTTCGTCCCACAGATAAGGATGGTCAGCCATGAGTTACATGGTTAT
Celera SNP ID:            hCV16130693
SNP Position Genomic:     548028
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21178):
GTAGCTACCAAGTCTGGGGCCTGTCTCAGCTGAGATCCTCCTAAGGCACGCGGGATCCCATGCACTCTCCCTGTCTGAAAACGTGGGAATTGATGCCTCT
S
CCACGGTAACAGGTCCTCTGCCATAAAAGAACAGAACCTTCCCGCGTTCCTCTATCCATGGAGTGTCTGTGGATCTACGCGAGTGCTTAGATAGAAATTA
Celera SNP ID:            hCV16130694
SNP Position Genomic:     547947
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,10)      total(G,1|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21179):
AAAGGGAAGCATGTTCTGTTTCATTTTGAGCAAGAAAAAAAGCCGTAAAATCAGAATAAGGAGATAGTCATGTTTTTGGCATTGATGAAATTGGCAGGAC
R
AAGTGTGTTTTTGAGTTGGCTGTATGGAACTCAGAATGTATTGTCCCATATTGTTATAATTAATTTGACAAGAAATCCAGGGCTTACCAAAAGCCATACT
Celera SNP ID:            hCV29368535
SNP Position Genomic:     237859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21180):
TGATTATTAATACATTGTAATGACATTTTGGGGATTCCGCCATATTTTGTATGGTTGCCAGCAAAATGTTGACAGTTGTATTGTGGTTAATAAATTCATT
W
AGATTTATAAGCATTGTTTACAGAACCTGTTCGCCTGCTGAAACTCTAACAGCATCTGTTCCTTCTTACTAATTAACTGCTAATTACAAATGAGCTTTGT
Celera SNP ID:            hCV29368390
SNP Position Genomic:     347828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21181):
TTGCCAGGCGTCAGTGCCCTGCTCGGGGTCCCTTTGCAGCTCCCCTGAACGTGCCATTTGAAGCATAGCAACCATTACTTTGAGAACCTGTGCAGGTCCA
K
GTGCCGAGGGCTGTCAGATCCCTGCATCAACTCTGGGGATGGGTTCAATTATTATCCTCTCTGTAAACAGTTCTCAGTTATTCCAAGTATTCTATTTCTT
Celera SNP ID:            hCV519114
SNP Position Genomic:     171278
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21182):
TGCTTCGCTGAAGTGAGGAGGGGTGTATCTTGTAATTTTTAAATGCCATTATTAACTTCCCTAGGGATGCTTGTAAAATGAACAAACGTGCATCTTTAAA
T
TTTTTTTATTTTTTTTTTTTAAGCTTGGAAAGAGTTGAAAAGTCAAAGTCACATCAGCTCTCTAGGGATTGGGCTGGGCTCACATTTTATGAATTTGCTG
Celera SNP ID:            hCV26040053
SNP Position Genomic:     128608
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,10)   total(-,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21183):
CCGTGGCCTGCCCAAGGAAATCGTGTTAAGTGCTCACTTCACTGCGGGTCAGAACCCCGGAGTGTTTCACCCATGGAAATAGTCAGCAGTCGCCACATGC
R
GGGTCCTCACTCACTGCTGGTACCTTTGTGTAGTAGTTACTTTGTATTTTACAATGTAAATTAAAAAAAAAAGTTGGGAGAGGAAGTGAAATCTGATTTG
Celera SNP ID:            hCV1543800
SNP Position Genomic:     245621
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,8|G,8)      total(G,8|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21184):
CTTGCATTTGTGCAGCGATTCCAGCAACAACCCTGTGCGGTAGATTATTGTCCCATAAATCTATAAGATTGATTGATTGGTTATCTGTAGGAGACATCTA
Y
GTATACGTATTTATAGAGCAATGAAGAAATAAGCCCAAGGCTATCCCATGAGTTAGGGGCTTCAGGGCTTCTGCGCTTTGCTGGCCCTTGTGCTGCCTTC
Celera SNP ID:            hCV29368391
SNP Position Genomic:     200971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21185):
GGGATAATAATAGTACCTACCTCTCTGTGGCACTTTGGGGGTAGAATGGATGAACTGAATTAACGTCTGAAGTGCCACAGTGTTGTATCTGAGTGAGTAG
Y
GTCCTCCTTAAGCATTGGCTTTGGTGCACTGGGAAGGGGCGTCAGCTGGGCAGGCTGAGCCTGTCACCTTTTTCAAAATTTCCAACAACTGTGGCTTCTT
Celera SNP ID:            hCV519115
SNP Position Genomic:     171024
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21186):
ACATGGCAGTAACCCCCTGGGAGCGGCTGCTGATGTTCTGGCTCTCTGCAGTTGGGTAGGAGTGGAGGAGGGGTGCGATCGGAAGGGAGTGCCGCGCAGA
C
CCCCCCCACCCCCTCAGAACAGCGGCCACTGTGTGGATGTTTCTGACGGCCTCTTACAGACTCTGTCCTTTTTGTTGTAGCTGATGGAGCAGAATTTTAA
Celera SNP ID:            hCV26040054
SNP Position Genomic:     133556
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21187):
TGAACCCCACAGCGCTGGGCGGTTGACGAGGTGTGGCCAGCTTGCATCTGCTGAAAGAACCGGGGTGGCCCCACTGCATCTTGATCAGACACTGCCATGA
R
GTCCCTCCCCTCTCTGATGGCAAAGGGAAACAGTGGGCTCTACACATGGAGCTTTGAAGTCAAGAGTCATTTTCATCCTTAGCTCAGGCATGAAAAAAAA
Celera SNP ID:            hCV1543801
SNP Position Genomic:     246278
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,14)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21188):
AATATGAACTAGTTCACAATGAATTATATTTTGTATGCATGATTGTCTGTGATTATTAATTGATGTGTACTTCCTCTTTGTCAAAAGTTATAATGTATCC
R
TCTACCATGAAAGGTCCCTAGAACATGAAAGGTGGTTTCTCTACATGCCTGTGAAATTGATGAGCAGGGAGAGGCTTACTCATATTTTAATGCCAGCAGT
Celera SNP ID:            hCV29368392
SNP Position Genomic:     370544
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21189):
AATGAGGTCAGTAGAGTGGGCCCTAATCCAGTAAGACTGTGTCCTTATAAGAAGAGGAGATTAAGACGCAGACACACAGAGGAAAGACCATGTGAGGACA
M
AGGGGGAAGACGGCATGTCCAAGCCGAGAGACCTCAAAAGAGACCAGCCCTGTCCACACTGTGCTGATCTCGGCCTTCTAGGCTCCAGAACTAGGATAAC
Celera SNP ID:            hCV519116
SNP Position Genomic:     169576
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,6)      total(A,3|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21190):
CCTAAGCTCATATTCAACACTTTAGAATGCCTTAATCTTTTCTTGTTGTGTTTTGAATAGGTTACATGCAGACATCCAAAATAAACTTTTTTTTTTCTGT
A
CAAAATTAGATTTAGCTAAAGTAGCTTAGGTTTTATAAAAGCTGATGTTCTTCATGCTCTTCCCAATTTTGGGAAAGGAGCCTTCGTCTTTGCTTCCTAG
Celera SNP ID:            hCV26040055
SNP Position Genomic:     133797
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,14)   total(A,14|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21191):
CACAGGTGTGCCTGGGCCAGATGCATGTCTGACAGGGACATCAGGTTTGGGGAGACTGAAAACCATTTTTGAAAATGAAGTTATGCTGATGTCATTTAAT
V
GTACGTCATCATAATTGGCAGCAGAGAAGGTTGCACATCACTCATGGCAGATCCATTACATGGGCCATGGGCCAAGCTGTGCACCAGGTGCTGGGAGGAT
Celera SNP ID:            hCV1543802
SNP Position Genomic:     248215
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)   Caucasian(C,13|G,47)   Chinese(A,0|G,20)   Japanese(A,0|G,40)   African(C,30|G,30)      total(G,137|C,43) ;(C,-|G,-)   ;(C,-|G,-)   (C,-|G,-)   Caucasian(G,13|C,47)   African-American(C,30|G,30)   Asians(C,60)   total(G,43|C,137)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21192):
AGTGTTAACAGGAGTCTAACAAATCCAGTATTGTCCTTGTGAATCTTATTCTCATTTGTGGAATTTCTCAAAAATACAGCAACTGACTGAGATTCCAAAC
R
GCTCACAATTAAAGACAGTACAATGTTTTGCTTTACAGAGAAGTGGCAGTAGTACAGATTCTGTTTTTTTGTAATAAATGTTTCTGACATTTTAATAGTG
Celera SNP ID:            hCV29368393
SNP Position Genomic:     372450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21193):
GGTGCAGTGCATGGCACATGGGAAGTGTGTGTGACAGTTAATGGTGGCGTTTTTTAAAAGTACATATGTCTATAGCAGTCTGGAAAGGCATACGCCAGAA
T
GTTTGTGGCAGTGACAGTGGATTTTATAAGTGATTTTTTTCCCTTTACATTTTTTCTTAAATATGCATTTCTCTTTTCCTCAATGAACACGCTAATTATG
Celera SNP ID:            hCV26040056
SNP Position Genomic:     138197
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21194):
TGGCTTTTCACTTTCTGTGTTTTTAAAAAGGCAGGAAACGCACACTCTGCCCTGGTTGGGGAGCCCAGTTGAAATGACATCTGGAAATTTCTGTCGTTTG
K
TTTGTTTTTTGGCCTTTTCCTTTGAGTGGTTTGATCTCTAGAGCAGTGAGAGTTAGAGAGCTTGCTGGGTGCAATTGGGAGTCCCACCTTCTCTCTGTCT
Celera SNP ID:            hCV1543803
SNP Position Genomic:     253213
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21195):
GGTCATTTCCAGAAGTGCCGTTTTGACCACTGCTGTGCCTTTCATCCAGATTTTTGCAACTGGTAAAGGTGTCACAGGCACCATTGAAATCTACTCCCTC
R
TCAGGGAACACACTCTTGTTGATAGCAACAGCATGCAATCTCTGTTACAGCCTCTAAGTTGGAACAGAGAAGGCTTTCGTAGAGGACATTTGGTGGAAAT
Celera SNP ID:            hCV29368394
SNP Position Genomic:     373276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21196):
GTGCAGTGCATGGCACATGGGAAGTGTGTGTGACAGTTAATGGTGGCGTTTTTTAAAAGTACATATGTCTATAGCAGTCTGGAAAGGCATACGCCAGAAT
G
TTTGTGGCAGTGACAGTGGATTTTATAAGTGATTTTTTTCCCTTTACATTTTTTCTTAAATATGCATTTCTCTTTTCCTCAATGAACACGCTAATTATGT
Celera SNP ID:            hCV26040057
SNP Position Genomic:     138198
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21197):
TCCCGGCCTTCTTTGTTTTCAAGTCCTCATTCTCATTTAATTTTGTATTTATCACTAGAACTTTGGGTTAAGTTTTACCATGTACATGTTTTACATATAA
M
TGAATGCACTTTTCACTTACATGCAGAAGTCAGAGTTTAACCTGTTAAAAACTTAGACCAAATGTATTAGAGGTGATAACCTTGGCCATAAAAACCTATC
Celera SNP ID:            hCV1543804
SNP Position Genomic:     255483
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,11)   total(A,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21198):
CTTGAGCTCATTCTTTTCGTCAGAGATCAAAACCAGGAGTGCCTCCTTCAGCTTGTACTACCGGATGGCTTAGCACCTGGCGAGTGAGTGTCTCAGAAAG
R
AAACTGCAGGAGTGCATTAGACCACTCAGGGGCCCTGCTGTCCTGGGTGTTCATCCATGGCTCCATTCATCCATGGCTCCGTGCACGTGCAGCCCGGGAC
Celera SNP ID:            hCV29368395
SNP Position Genomic:     373937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21199):
TGCAGTGCATGGCACATGGGAAGTGTGTGTGACAGTTAATGGTGGCGTTTTTTAAAAGTACATATGTCTATAGCAGTCTGGAAAGGCATACGCCAGAATG
T
TTGTGGCAGTGACAGTGGATTTTATAAGTGATTTTTTTCCCTTTACATTTTTTCTTAAATATGCATTTCTCTTTTCCTCAATGAACACGCTAATTATGTG
Celera SNP ID:            hCV26040058
SNP Position Genomic:     138199
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21200):
CTCAGGAGGTTTGACTTTAGGACTCAGAATGGGCTTTTGCTTAGACTCACTGTGAAAAGTGACAGTGAAGTTCCCAGCCTGGAAAGATCCCCTGCGATCA
R
GTTCTGTTCTCTGAGTTCTGAGTACACATCCATGTTCCATCAGTAGGAAGGGAGTGTCTGAGATCCCGGGAGTTGGGACCACACACACCTGCGTGTGACT
Celera SNP ID:            hCV1543805
SNP Position Genomic:     258726
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;JBIC-allele(A,124|G,1373)   total(G,1373|A,124)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:21201):
GTTCCGCCTGCAGCCCGGGCCTGTGGTGGAGTAGAGCTTCTCTCCCCAGCTTTCCCGGGAGTGTGTGGTCTCCTGTTTCCCATCTGCATTTGCTTATGGG
S
CGCCATGACACCAACACATGGAGCCACTTGGAGACTTGTGTGTTAGTTGTGCACAGATACCTACACTTCCCACTGCCCGACAGTACGTGCAGTGATTTTG
Celera SNP ID:            hCV29368396
SNP Position Genomic:     387532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21202):
GCAGTGCATGGCACATGGGAAGTGTGTGTGACAGTTAATGGTGGCGTTTTTTAAAAGTACATATGTCTATAGCAGTCTGGAAAGGCATACGCCAGAATGT
T
TGTGGCAGTGACAGTGGATTTTATAAGTGATTTTTTTCCCTTTACATTTTTTCTTAAATATGCATTTCTCTTTTCCTCAATGAACACGCTAATTATGTGA
Celera SNP ID:            hCV26040059
SNP Position Genomic:     138200
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21203):
GGGGTAGGCAGCGTTAGAGGTCAGAGCATATGGGATGGGAAAGAACGGAAGAGGAATTAGGTTCATTGCCAAAGGATTCCTGGGCTGGGGTGAGGCCTCC
R
CCCGCTGGCGGGAGGGGCAGCTCTGCCAGCAGGAGCTCTTTCTGGGCAGTAGCCAAGGACTGCACGAATGTTCATAATTGGGCAAGATGGGAATGAATGA
Celera SNP ID:            hCV1543806
SNP Position Genomic:     259778
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21204):
AGAAGTCAAATGCAATTCATGACTCAGCTTTTATTGTCAGATAACACATTCCAGTGCATTAGGCAAAAGAAACTCTCCTCTTTGTGTTATATGTAAGTTT
R
TGTTACATATAAGTTTGTTATATCCGTGGTGTATAAGATAGATGTATAAACAAAATTAACTTTATTCTTGGGGAAGAAATGCAGACGTTCTACCCATTGA
Celera SNP ID:            hCV29368397
SNP Position Genomic:     395797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21205):
GACCGTATCCCTGGAACGGGGGTGCAGCCTATGGAGGCTGTAGTGGTGATTGTCAGAGAAGAAACCCTTAACTGCAGAGTTCACTTGCCTTCCAGTAACG
R
GGAAACGTCAGCCCAACCCTATTTCATAGGGCTAAGAAAATAACATGAGAAAAGAGAAAAGAAAAAACTGAATAAATTCCTCAGGACATCACTTTTTAAA
Celera SNP ID:            hCV1543807
SNP Position Genomic:     260456
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21206):
TTTACTTTCAGTTTTTTCACTGTCATAAAGAACTCTAATCAACGTTCCTCTGTTTATCTCTCTGTCCCCTTGTCCAATTTGCCTAGGATACATTCCTAGC
R
ATTGGCTTCCTGCGTTGAAGAGTCGCATGTGCTTTCATGGTTTTTGCTGTATTTTGTCAAATTCCCAGAAAGGTTGTATCAGTTTATCTCATCTGGCAGT
Celera SNP ID:            hCV29368398
SNP Position Genomic:     397321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21207):
CAGAGACTCACATCTTGCCTTTCATCTGTGGAACGTTTTGTCCTTGCTAGGCTGTCTTGCCCCTGTCATCTCATCTGTTCCTCTTTGGCACAGGGAGGAG
S
TAGTCATCCCATTTGGTCAGTTTGGAAACTGAGGCGGCAGACAGGGCAACTGGCTTACCCAGGGTCACGTGACAGAAGTGGCAGCGCTGAGAAATAAGAT
Celera SNP ID:            hCV516570
SNP Position Genomic:     443009
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21208):
ACTGGTTTCTGTTGTTACTGAAAGCACCTCCCATGCGTTACTATTCAGTGGGATTCGAGATGCAGATATGGATAGATTCTTACATAGATATTCTTTATTG
Y
AGTAAGGAAATTCCTTTGTGCTCAGTGTCCTGCTAGTTTAGTTTTGGAATATAGTCAGACTGGTTCTCCAGGGGGCCTTCAGATCGAAGAGATGTAATAC
Celera SNP ID:            hCV29368399
SNP Position Genomic:     397725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21209):
TTGTGCAGGTCGTTTAAGGATTGATAGAGTTGATCAAGGAAAGCTTCCCAAAGAAAATCAAACTTGAGAAATGCTTAAAGAACCAGATGGATTTTTTTGT
R
CAAAACAGCAGGAGGAAGTTATTATAAGCATTGGGGCACTTCGGACAAAGACCCAGAGAGGAGGAAAAGGGAAGATGGAATAGCCACGAGCCGCAGTGAA
Celera SNP ID:            hCV516571
SNP Position Genomic:     445080
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21210):
CCCCAGGCCCGTGCATGAGGCCAGCTGCCTGTTTTCATAAATAGACTTTTCTTCTTTTTTTTGGAGACAGAGTCTAGCTCTTTGCCCAGGCTGGAGTGCA
R
TGGCGTGATGGCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAGGCAAATCTTGTGCCTCAGCCTCCCCAGTAGCTGGAATTACAGGTACACGCTGCCAC
Celera SNP ID:            hCV1543809
SNP Position Genomic:     264078
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21211):
GGAAAAGGGAAGATGGAATAGCCACGAGCCGCAGTGAAGTGAAAGGTGATAGTTGGGGTGCAGAAAAATGAGGAGAGACCAGAAGAGATGAGTGTTGAGA
R
CCCAGCACTGCCAAATTAGCATCTGATTTTCAGACTTGGGAGCTGACATTTTACAGAGCAAAGATCCAGAAAGACAGCAGAATGGTGCACAGAAGTCTGA
Celera SNP ID:            hCV516572
SNP Position Genomic:     445243
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21212):
CAACCTCTTGTGTAGATTCTTTATGGACCCAGAATTGATCTACATGTCAGATCCTGTTGTGGTTTAAACTGTTTATCACTGTAATGGCAGTAGTGAGCCC
K
TGACCACCAACTTATAATCCTGGGTGAAAGAAATTGGTGTTTGCAGTCAATGAAGAGGCAGCTTTGCTTTATTGATAGATTCAGAACAATTATCTCTGCA
Celera SNP ID:            hCV516575
SNP Position Genomic:     447461
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21213):
TCCTGTCTCTGCATGTGGCCGAGGAGCAGGCAGAAGCGTCCTGGGGTAACTGGACACAGGGGGTGAAAGGTGGATTTTTTTTCCTCCCAATCAGAATGTT
K
TAACTTTGTACTTTGTCTCCTTAGTTCCTTCCTATCAGCTATTTTCAGCAGTAGCTGCTGACCAGGGGAAACAGAGGACAGTGAAATGCTGCCCCATGAT
Celera SNP ID:            hCV516576
SNP Position Genomic:     449255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21214):
GTACAGATAATGGAACAGGAGTACCGGACCTGGTGGGGAAGGCTTGGGTGTGGTTTGTCTGCAGAAACGCTGTCAAGACTTACATTCTGCACTAAGAGGA
Y
GAGAGAGGTTCTGAATGTCTCACTGGGCTCCGAGGATCCTTTCGGGGGCCACATTTTGAGAAAGACATCGGCACACTGGGAAGCACATGAAGCGGAGGGC
Celera SNP ID:            hCV516577
SNP Position Genomic:     450531
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21215):
GGGGGCGATTTTTAAAAATACTTGTTCCTGGGGCCAGCCGCTAGAGATCTAGTCCATTTGGCCTGGGATGGAACCCAAGCAGTGGAATGTCCCCCAGGGG
K
TTCAGATGCGCAGCCAGGGTTGAGAAGCTCTTTCAGAGGGACCTGAATGATGTGTGTGAATGGTGGTTATAGGACAAAATCTGATCCTGATTCTGTATAA
Celera SNP ID:            hCV516578
SNP Position Genomic:     450844
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21216):
GTCCCAGCGACTGTTTCCAGCCTTCTCCTCTGGCATCTCTGCCTTCCTCTCCCTTGCCTGAAGGCCCTCTGCATCCTTTCCCGATGAAACTGGGGAACGT
S
CCCACTTCTCTCCCATGCCAAAACCCATGCCTCTCCAGCCTCTGGAGCTTCCATGTATGATCTGTTCCTGCTTGGACATGGGGTAGGGCATCCCTTCCAC
Celera SNP ID:            hCV516579
SNP Position Genomic:     451129
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21217):
TAAATTCTATGTACGTGTAATTAATCAAAACATTGATTAATACCCCTGGAAGTATTTCAAAGATAGAAAAACATTGGAAACACATTTTAGGAATTTCTGA
Y
ATAAGTTTTCAAGGAGGTTGTGCAGAATTGGTAAAGAGAATTGAGTATGAAGATGGCCTGTTGATTCCTTTTAAGCGTTTAAGTTTTTCCGTGCCTGGGA
Celera SNP ID:            hCV15969034
SNP Position Genomic:     287692
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,326|T,1171)   total(C,326|T,1171) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21218):
CTGTTACTTCTCTTTCTTTGTTATCCTCTCTTAGTTTTGTGACCTAGCAATTATTTTCTCATTAGGTATATATTCCTGCATGTTACCCATCATGTTAAAT
R
TAAGTGATGGATGTTGAGGAGATTAGTTGCTTTCCTGCAGATAATGTTCCCCTGTAGTAGCTCTCTGTGGTCCTGAGCATTGGTGTGTAATTCAGAAGTA
Celera SNP ID:            hCV9078789
SNP Position Genomic:     430581
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21219):
TGCTGTGGCGTGATCTCAGCTCGCTGCAACCTCTGTCTCCAGGGTTCAAGCAATTCCACCATGCCCGGCTAATTTTTATATTGTTGGTAGGGACAGGGTT
Y
TGCTATGTTGGCCAGGCTGGTCTCAAATTCCTGACCTCAACTGATCCGCCCACCTCGGCCTCCCAACCTGCTGGGATTACAGGCGTGAACCACCACGCCT
Celera SNP ID:            hCV238043
SNP Position Genomic:     409095
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21220):
GAGCCTACTAAAAACTCACTGGTGTTACACCAACACAGAAAAGGACTCTGTATCAAAGTCTATTTCTGTCTATGTAATTCTTTCTTTGTTTTATATACCC
Y
CAGGGTTTGGAAATGTTTGGGATTTAAAAATAAAAGGGCCGAAAGCTATCCTCACGACATTTCATTATTGATGTTGTTGACACACAGTGAATGGAAGCAG
Celera SNP ID:            hCV238044
SNP Position Genomic:     408780
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21221):
TGACTGGCTTGTTGCATTTAACATTATGTCCTCAAGATTCTTCCAGTTGTAGTGTGTGTCAGAATTTCCTTCCTGTTTGAGGCTGAGTAATATTCCGTCA
Y
ATGTACACACCACATTTTGTTTGTCCATGGATGGACACTTGCTTTCACCTCTTGGCCACTGTGGACAATGCTGCTAGGAATGTGAGCATACAGATAACTC
Celera SNP ID:            hCV238045
SNP Position Genomic:     408175
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21222):
TGCCTCTGTTGAGAATGTTCTTTTCTGCCCCATCTCTTTGCCTCACTAACTCCTCTTTCCAATCCTGGCTTAAATGCTACTTCCTCTTGGGAGTTTCCCC
R
CACTCGGCCTATTTGGGCACCCATGCTGTGTGTGCTCTCACGTTACTCTATTGGGCCATCTCTCTGATTCTCCCACAAGACTGGAAGCTCCTTGAGGCAA
Celera SNP ID:            hCV238046
SNP Position Genomic:     407422
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21223):
GAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGACACCCTTGCAGGCAGTGGTCACAGGCCGAGGAACCTGGTGGACAAG
K
TGGGGAACGACTCAATGGATGATGATAAACAGGAAGTTCTAGTACCACTGAGAAAACGATCTGCCAGATATCTCCATCAGCAATGTTCTTAACATGTTTT
Celera SNP ID:            hCV55753
SNP Position Genomic:     162918
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21224):
GCAGCTGGACTTAGAGACAGGCGTCCTGAGTGTTGATGCCAGCCTTACCCTGACCCTGTGTGTGGCAGCAGTGGGTCGGTCAAACCTTTCCAAGCCTCCG
Y
GTCCTCATCTGAAAATGGGAATGAGGATGCCTATCCGAGGTGACTTAGCAGAGGATGAAGCACTCCCGTGAGTGAGCTGCGCACAGTCTCCTTGTACAAG
Celera SNP ID:            hCV26040060
SNP Position Genomic:     146888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21225):
GGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGAGAGACTGGGTCTCAA
A
AAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGTTTAAAGGATGTTAAAAATTTTCCACACATTATCTTTTAATGTGTTGTCAAGGAGCAATGATCATCA
Celera SNP ID:            hCV26040061
SNP Position Genomic:     155086
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,7)   total(A,4|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21226):
TGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGAGAGACTGGGTCTCAAAAAAAAAAAAAAAAAAAAAAA
R
AAAGAAAGAAAGTTTAAAGGATGTTAAAAATTTTCCACACATTATCTTTTAATGTGTTGTCAAGGAGCAATGATCATCATAATGGCACTGGGGAAATGGA
Celera SNP ID:            hCV26040062
SNP Position Genomic:     155107
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21227):
CGCCCCAGGCCATGGAGACCTGGAGATGCTCAGGGAAGGGGGTGGTCAGGCCCTGGGTCCCATGTTGGCAGCCTCCCTGGCCCAGCGTTGGGCTGGGACC
M
TCTGCCTCTCCCAGTGAGACCAACCCTGCCCTCTGGACGGATGGAAGGACACTGGGGAGCCGATGATGCCCAGAGTGTCTGGGGGACGCATCCAGGGTCC
Celera SNP ID:            hCV26040063
SNP Position Genomic:     120182
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,5)   total(A,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21228):
AAACTCCTGAGCCCAGGCAATCTGCCCACCTTGGCCTCCCAAAGTGCTAGGATTATAGGCATGAGCCACCGCGCCTGGCTGTAAATAGACTTTTCATGAC
R
CAGAGCCACGCTTTGTGTCGATGGGCTGCAGCGGGTTTGGGCCCCTCTCCAGCTGTGACAGCAGAGATGAGGGTCTTTGCGGCCTGAGAAGCCCAGAATA
Celera SNP ID:            hCV1543810
SNP Position Genomic:     264343
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21229):
AATTAGCTGGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAACC
R
AGATTGCGCCACTGCACCACCCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAAAAGTCAAGAGTCTTCACAATGAATGTTGACAGTAATACAAGGTCA
Celera SNP ID:            hCV26040064
SNP Position Genomic:     158736
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21230):
TCACCATGAAGCCCCCTGCACTAACTAGGGCGTGTGCCCCTTGAGGAGCCGCATCCGCTTATTGGGCCTAAGAAAAACTGATTCCCAGGTGTGTTTGGGC
Y
GTCTAGAACCATGTGACCTGGCAGCCACTTCAACTTGGGCAGCATCTCGGCTGGGAGCCCCAGGGAGCCTGGCAGTACCTCAGTGGCAGATGCAGCTCGT
Celera SNP ID:            hCV29368548
SNP Position Genomic:     241134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21231):
GCTGGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAACCGAGAT
Y
GCGCCACTGCACCACCCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAAAAGTCAAGAGTCTTCACAATGAATGTTGACAGTAATACAAGGTCAGCTTT
Celera SNP ID:            hCV26040065
SNP Position Genomic:     158741
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21232):
TTACATAGAAACTTGAATTTATTTGTCCAAGAGTTTCTTGTTTTGAAAATAGGATGCCACTGGGAACATTCTTGGTTAGGAGCCACCGGAAGCCGGGTCT
R
TATGGGCAGGGCCAGTGAGATGCAAAGCCACACACGAAAGCTAAGCACACACTCTTGTTTTCCTCACTCACATCCATGTTCATCCTCTTTCCTGTGCTGA
Celera SNP ID:            hCV11936236
SNP Position Genomic:     18651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21233):
GGCACTGGGGGCTGGGGCGGGCTGGATGTGCGGACTTGGCAGCTGGGGGCTGCAGGTCCGTCTGCAGGGACTGCACAGGGCTCTCGTTCCTAGATTGCTT
M
ACAGCCAGCGGCTCTGTGCCTGTCAGATTCTGCATGGCTCTGTTTGCCTCTTCCTGCAACTGGGAAATAACCTATATACAAGTTTTTCTATTTTTAAAGT
Celera SNP ID:            hCV1543812
SNP Position Genomic:     267036
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,10)   total(A,4|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21234):
CCCAGCACTTTGGGAAGCCGAGGCAGGCAGATCACTAGGTCAGGAGATTGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACAAAAAAAAAAAA
M
AAAAAAAAAAAAACATTAGCTGGGCATGGTGGCATGCGCCTGTAGCCCCAGCTACTCGGGAGGCTGAGGCAGTAGAATCACTTGAACCTGGGAGGCGGAG
Celera SNP ID:            hCV26040066
SNP Position Genomic:     160372
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21235):
TCTTTATGATTAGATGGTGATCTTTGGATGGAAAATATTAAAATAAGAATTGATTAAACCAGCTAGGGATGGTGGCTCACGCCTGAAATCCCAGCAGTTT
R
GGAGGCCAAGGTGGGTGGATCACCGGAGGTCAGGAGTTCGAGACCAGCCTGCCCAACATGAAGAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGG
Celera SNP ID:            hCV26040067
SNP Position Genomic:     161770
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21236):
ATGGCCATCTTAGTTATCTGACCACTTTCCAGCCTTCAGCCACGCAGCCCTCAGACCCCCCCTACCCCCCAGGCCACTGTGTCCCTGGAGACCCCTGTCC
Y
CTGCATGCTTCCTACTCCTTAGAGGCCCATCAGCCTCCAAGAGCCACCCTAAGCAAGTCACCTGTCTGTGGGTGACAGCATTGAGTCCATGTTAAGAGAG
Celera SNP ID:            hCV26040068
SNP Position Genomic:     164028
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21237):
ACATAAGACAGATGAATGGGGGATGAAGCCGCAAAGGGTCCCCGCTGCTGCCCCCTTGGACATCGTAATAGTGAACTGTGTTCTGGCCTTGGGTGAGGAT
S
AAGGAAGCTGGGCCCAGATCTTTTTCCTTGGTTTTCAAAGCCTTCCAGGTAAATATGGGACCTGCCAGGGTCTTTCAGCACTGGAAATAGCCGACATGCC
Celera SNP ID:            hCV27982471
SNP Position Genomic:     587382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21238):
AACACAAAAATTAGCCAGTTGTGGTGGCGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGTTTGATCAGGGGCAGGGAGCAGGGT
R
GGCAGAGGTTGCAATGAGTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAATGGGGCAGGGTGTAGAGGTTGCAGTGAGCCAAGTTTGTGCCAC
Celera SNP ID:            hCV26040069
SNP Position Genomic:     164483
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21239):
CATACATTCAGAGGTTTAAAAAAATCCAACAAAATGAAAAATACTTTTGAGTTACTATTTTTAGAAAAAAATTAGTTTGGGTTGAAAAATTCTTACCCTC
R
TGAAGCTATAAAAGCACATGTTTTACTGATGAGAGAAGCTTCTGGCACATCAACTGAGACAAAAATCTTCCATATTCACTCGGTAAATACAAATACAGAA
Celera SNP ID:            hCV1543816
SNP Position Genomic:     271838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21240):
TGAAAAATTCTTACCCTCATGAAGCTATAAAAGCACATGTTTTACTGATGAGAGAAGCTTCTGGCACATCAACTGAGACAAAAATCTTCCATATTCACTC
R
GTAAATACAAATACAGAAGATGGGCTGGGCGCAGAGGTTCACAGCTGTAATCTAAGCACTTTGGGAGGCTGAGGCAGGCGAATTACCTGAGGTCAAGAGT
Celera SNP ID:            hCV1543817
SNP Position Genomic:     271920
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21241):
GCGGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAACAAAACCAAAAACAAAATAAATAC
R
AATGTGTAAGATAGAATTCGTTATGAAGCTACACCAGACATTTTCAGGAGTAATTTGAGAATGTGCTTGAGGTGATTATCCTTAAATCATCCAAGTGTTT
Celera SNP ID:            hCV1543818
SNP Position Genomic:     272253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21242):
AGAAACGTTAAGTGTGCACAGATGCTCATACGTGTGCAGAGAAATGCCTGAATTAACTCTCACACTGCCAACATTAGATCATTAAACACACTATTAGTAA
R
TGTTCTCTATTTTGATTTTCATGTTAAGACTCATCTCTTTTGCTCATAGAATTAATTTTATCAATGACATAGAAAATGGTTATTTTAATACTTCTCTGCA
Celera SNP ID:            hCV1543819
SNP Position Genomic:     273231
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21243):
AGTGGTGACGGTCAGGGTGTGAGTGTGGGGACGTGGCTGGCGTGGTGACGGGTGTGTGGGGGCATCATTGGGAGTGATGGCGATGGCTTGTCTTCTCACC
R
GCCGGTTTGGAGTCCAGAACCACATGAATGACCTCAGGGTGGGTCAGAACAAGGAGCTGTCAGTCTGAGACCTCTCAGTGTGCTCTTTCTTGGCTAGCAA
Celera SNP ID:            hCV16192624
SNP Position Genomic:     58153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21244):
GATCTCCTGATCTCATGATCTGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCGGCAATTTTAGCCCTTTTGACACACT
Y
TATGACCCTTCTTACGCGCCTCCCGAGGAGGAAGCATGCACTAGAGCGTGACTACAAACCTGGTGCCATGCTAGAGCGGGAGAGGAGTGACTGCAAACCT
Celera SNP ID:            hCV9082811
SNP Position Genomic:     193240
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21245):
TTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATCTCATGATCTGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCC
R
GCAATTTTAGCCCTTTTGACACACTCTATGACCCTTCTTACGCGCCTCCCGAGGAGGAAGCATGCACTAGAGCGTGACTACAAACCTGGTGCCATGCTAG
Celera SNP ID:            hCV9082812
SNP Position Genomic:     193214
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21246):
CATTCCGGCCGGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTA
W
CACGGTGAAACCCCGTCTCTCCTAAAAATAAAAAAATTAGCCGGGTGTGGTGGCGGGCACCTGTGGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATG
Celera SNP ID:            hCV26040070
SNP Position Genomic:     164928
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21247):
GCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTATCACGGTGAAAC
M
CCGTCTCTCCTAAAAATAAAAAAATTAGCCGGGTGTGGTGGCGGGCACCTGTGGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAAACCGG
Celera SNP ID:            hCV26040071
SNP Position Genomic:     164940
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21248):
CTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTATCACGGTGAAACCCCGTCTCT
M
CTAAAAATAAAAAAATTAGCCGGGTGTGGTGGCGGGCACCTGTGGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAAACCGGGAGGCAGAG
Celera SNP ID:            hCV26040072
SNP Position Genomic:     164949
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21249):
TGGGTACTATGGCTTTGGGCACTCCCAATCCAGGTGCCATGGCATGGGGAGCAGTGGGTGAACCAAATCCTGGAGCCTGGACTGTTCCATTGGGTGCATT
Y
CTGGCTGGCAGATAGAGGACCACCCAGCTGTGCTTGATGGGGTCTAGAAGCATTGAAACTGGTTTGCCGTTATGATGTCCATGAGGTTGGAGTCCTTTCT
Celera SNP ID:            hCV11936244
SNP Position Genomic:     25746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21250):
CGGTGAAACCCCGTCTCTCCTAAAAATAAAAAAATTAGCCGGGTGTGGTGGCGGGCACCTGTGGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGC
R
TGAAACCGGGAGGCAGAGCTTGCAGTGAGCCGAGATAGCGCCACTGCATTCCAGCCTGGGCGAAAGAGCGAAGCCTCCATCTCAAAAATAAATAAAATAA
Celera SNP ID:            hCV26040073
SNP Position Genomic:     165031
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21251):
TTAAGTAGTGATGTACTTTTTGACCTAGTTAACCCTCCATGGAATCGATGATCAAAAGAATAAGAGAATATTACTTAACTAGGATAGTCAGAAGTTGTTA
Y
AATCTGTAGCTGATGTTTTCCAGTTATTTTGAAGTTTTTTATAATTTTTTTTTCCTTAGGGAATATGGACATAGGCCGGGCGCACAGTGGCTCATGCCTG
Celera SNP ID:            hCV1543820
SNP Position Genomic:     273596
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21252):
AGAGCTTGCAGTGAGCCGAGATAGCGCCACTGCATTCCAGCCTGGGCGAAAGAGCGAAGCCTCCATCTCAAAAATAAATAAAATAAAATAAAATAAAATA
W
AATATAACATAACATAACATAACATAAAATAAAATAATAAATAAAAAAGTGCAGACTCCCTGGCCATCAGCCTCATCTCTTCTACCTGAGTGGATTAAGT
Celera SNP ID:            hCV26040074
SNP Position Genomic:     165146
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21253):
GTGAGTGATAGCCCAGCCAGCTCATTCAGCCAGGCGGCCCGATTCCCAGGTTCCCACGCATCGCCGGGAAGGTTGGCCTTCCTCTGAGGTTGAGCCCTCA
K
CCAGCCCACAAGCCTCCATCCCCACCAGGTGGCCGATGAGAGGAAACCCAGGCTCTCCACTGGCCTGGCACTTGGCAGGAGAACCCTGCCCTGCACTTCT
Celera SNP ID:            hCV16134203
SNP Position Genomic:     10705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21254):
GCCAGTGAGGGCAGGCTCCGGTGAGGGCTCTCTTCCTGGCTTACACACGGCTGCCTTCTCGCTGTGGCCTCTCATGGTGGAGAGAGAGAGAGAAAGGCTG
S
TCTCTTCCTCTTCCTGTAAGGACACTGATCCCATCATGCTCCTCACGGCCATGACCTCATCTAAACCTGATCACCTCCCAGAGGCCCCACTTCCTCATGA
Celera SNP ID:            hCV11936245
SNP Position Genomic:     35135
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,10)      total(G,10|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21255):
AGAGATAGGTTTAAAAAACAATGTATGTTTCACTCAGAGCATAAACAAAATTGTTGAAGAGCCAGCCTACATGCAAGTTTAAAAATTAAAAATGGCCTTA
Y
GTATTAAAAACAATCCAGGCTGGGCACAGTGGCTCACGCCTATAATCACAACACTTTGGATGGCCGAGGCAGGCGGATTATTTGAGGTCGGGAGTTCAAG
Celera SNP ID:            hCV26040075
SNP Position Genomic:     165402
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21256):
AAAACTCCTTGGCACCATCTAATTTTTTAAAAATGAGCCTAATACTGTTCACGTTTTAGCACCTGGCAAATGTATTGATACTTTACGAGCATTCACATGC
R
TTTAAGAGTGCTCTTAGCAGTTCGCGTTCTATATAGAACTGTTTACACCTCTCAGGATTCTTACTCTAACAAACAGGTATAGACAACATCCTAGTTGCAT
Celera SNP ID:            hCV11936246
SNP Position Genomic:     61176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21257):
AAAAAGCAAAACTGCCAGTTCCTTGAGCATGGCTGTGTGTCGTTGGTGCTCTGAAGGGCTTGAGAATCTCTCTCTACCCTTCATTTTCATGCACAGAAAC
Y
GAGTTTCAGGGAAGAGCTGTGGCCCACCACGGTCGCTTCAGCCCCTCCCCGTTGCCCATGTTTATTCCTTTTCTGCCTTTCCTCATTGTCCATCTGGACT
Celera SNP ID:            hCV1543822
SNP Position Genomic:     276161
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21258):
GGAAACAGATTTTCCAATTGGATATTTTAATAAATGATGGCTTCAGAAGGGGCACAATATTCTACGCCACTGATTGAATGATGACAAGAAATATTTTAAT
R
GGTGCATTGCTGTCGCAGTGTAGTAAAAAGTAAAGAATGGTTCACCAAGTCAGAGGTCATCCTCAGATGTCCCTATGTGTCTGTTAGTGGAGATAAAGTG
Celera SNP ID:            hCV26040076
SNP Position Genomic:     166152
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21259):
AAGCAAAACTGCCAGTTCCTTGAGCATGGCTGTGTGTCGTTGGTGCTCTGAAGGGCTTGAGAATCTCTCTCTACCCTTCATTTTCATGCACAGAAACCGA
K
TTTCAGGGAAGAGCTGTGGCCCACCACGGTCGCTTCAGCCCCTCCCCGTTGCCCATGTTTATTCCTTTTCTGCCTTTCCTCATTGTCCATCTGGACTGGG
Celera SNP ID:            hCV1543823
SNP Position Genomic:     276164
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21260):
GATTACCTGCTACCTGCTCTGCCCTGACTCATTCTCCACCCTGCATAACCATTTTTCCCGCCGAACCACTCACCGGGTCACTCTCTTTAAATTAGCCAAT
Y
GGAATTAGTTTAGCCTGTGCGGTCTAACCCTAGCCAACAGGGGAACGACACAGCAGCAGGGGCCACGTGAGTCAGGGATAAGAACCCCTTCCCTCCCTTG
Celera SNP ID:            hCV26040077
SNP Position Genomic:     168248
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21261):
GATCCATGTTTCCCAGGCACCTAAAGCACATCCCCCCCACTTTGGTGATCGTAAAAATCTGTTATTCCATGTTTGAAATATCAGGATTTCAGAACTCAGT
S
ACTGACAGGTCACTGCCACAACAGCTAAAGAATTAAAACCCAAACATGTCTCCTTATCTCTGCTGCGTCCTGAGTCGGCTCGGCTGCCTGCATGTTCCCA
Celera SNP ID:            hCV1543824
SNP Position Genomic:     276380
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21262):
ACGGGAAGAATTTATGGCTTTATAAGTGAGTATTTCCGTATTAGCAAAGAGACATCTACACTTGAAAGACTTTCCTGCAGCCTCCCGGGGGTCGAGGTCA
R
GAGTCTGGGAGGAGGTGTGGAGCAGAGTGTCCGGGTGAGAGGGTGCTGGGGGCACGTGCCCAGCAGGGGTGGAGGGGTGGACAGGCTCAAAAGAGAGACC
Celera SNP ID:            hCV26040078
SNP Position Genomic:     170162
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21263):
GTAGGGCAGTGTTATCCTGGGTGAGTTGGGGTATGGCCATAGGAGGGGGCTCCAGGAATTCAGGGAAGGAAAAGACCATGGCGCTGAGGAGGCGGCACGG
S
CTGGCCCTCCACCTCCAAGCTGACCACCCTACTCAGCTCCTTTAGGGTGGAGTGGCTGTAAGGCCGTGACCAGGAAAAAAGGGACCCAGGGTGGTGGCAC
Celera SNP ID:            hCV26040079
SNP Position Genomic:     173754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21264):
GGAGGGGCTGTGACTCATCCCCAGCCAACTGTATTCCAAGCACAGCCATAGTTCAGAGTGAATCTTTATGGTCTGTGAATTCTGGAGTTTCAGAAAACTC
Y
CTCATTCAACGTTGTGAGTAAACCGTAAGAAAAAATATTGAACACCAACATAGTCATCTGGGTACTGGGAAATACTCCCATGCCCGCACCAAGATTTCAT
Celera SNP ID:            hCV1543827
SNP Position Genomic:     277604
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21265):
TGGCCCATGAAGCACAGTGTATGCAAGTGCTGTTGTAATTTAGTAAACCGCCACTAGGGGGCATTGAAAGCGCGTCTAAGGATTATTCTCCTGCGCAAAT
K
TTTTCCTTTTGCTGTCACCATGGAGAATACAGATATAATAAAACACACTGGTTTAAGAGACCATTTAGACCTGTAATAAGATACACTCCGTAAAGCGTGT
Celera SNP ID:            hCV1543828
SNP Position Genomic:     278282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21266):
CCATCAGCCTCTGTGCAGCCGTTGCTTTTTCCGTTGACCAAAGCCATGACCTTACCTTTATGCAGTCGTGTTCAGAGAGAGATGAAGCCTCAAAGGCAAA
R
TCAGACTGACACTCCTGGGAGCATGACGGGAGTTGATCATTTTTTGGAAATGTAGATATTCCGTTTACAAATCTAAGCACCGTTACCAAGAGTGGTAAGT
Celera SNP ID:            hCV1543829
SNP Position Genomic:     279381
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21267):
TCAAGCCTGGGGAACACCGAGCTAGGGACACGCTGGCTAATAGAGGAAGGAGAGCTGGGTATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCC
R
AGGCGGGTGGATCATCTGAGGTCAGCCTGACCAACAAGGTGAAACCCTGTCTCTACTAAAAATAAAAATTAGCTGGGCATGGTGGTGGGCGCCTGTGATC
Celera SNP ID:            hCV26040080
SNP Position Genomic:     174735
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21268):
AGCTACTTTCATATTAAAGTTCATCTCAGTATGTGAACATTGCCCTGGTCTCAAACAGTGAGAATTGACCTCCCCCTCCCACACCTGGCTAAGTTAGGAG
C
CCAGGGTTCTGGTCCCACCCTTGACAGTAGCAGAGATCTCTATCTTTCCACGTTGCTGTTTGTTTCTCAGCTTACAGACCTGGGTGACCTTTAAGTCTGT
Celera SNP ID:            hCV26040081
SNP Position Genomic:     178588
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,12)   total(C,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21269):
ACTAAAAATACAAAAATTAGCCGGGACTGGTGGCGCGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATCACTTGAACCCAGGAGGTGGA
G
GTTGCAGGAGCCGAGATCGTGCCATTGAGCTCCCGACTGGGCAAGAGCGAGTGAGCCTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGTCTTCTTTATT
Celera SNP ID:            hCV26040082
SNP Position Genomic:     179538
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,13)   total(G,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21270):
TGAAGTCTAGTGATTCAAAGCATGAGGAATAAGATCGGGAAGCTGGCCAGATGTGGTGGCTTACACCTGTAATCCTAGCACTTTGGGAGGCTGAGGTGGG
Y
GGATCATCTGAGGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGCCTCTACTAAAAATACAAAAATTTGGCCAGGCATGGTGGCTCACA
Celera SNP ID:            hCV11527401
SNP Position Genomic:     206004
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21271):
GAGACAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGGAGCCGAGATCGTGCCATTGAGCTCCCGACTGGGCAAGAGCGAGTGAGCCTCTGTCTC
A
AAAAAAAAAAAAAAAAAAAAAAGTCTTCTTTATTGAAACTCAAAAGGTAAAATGATTCTGTCTTGGAGACCCCTCCTTACAATGAGGATGTAATCAGAGG
Celera SNP ID:            hCV26040083
SNP Position Genomic:     179604
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,8)   total(A,5|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21272):
GGATTAGCAGCTGCTGTGTTCCCTGTGGGGTTGGCAGTGGGCTGGGGGCACAGCACGGATGGGATTGTAATGTATACCATTTATCTTGGTATAGAATCTT
S
CAGTTTCTTGTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACACAGTCTCGCTCTGTCGCCCGGGCTGGAGTACAGTGGCGTGATTTGGACTCACTGCAA
Celera SNP ID:            hCV1543830
SNP Position Genomic:     279609
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21273):
CAGGAGGTGGAGGTTGCAGGAGCCGAGATCGTGCCATTGAGCTCCCGACTGGGCAAGAGCGAGTGAGCCTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAA
R
TCTTCTTTATTGAAACTCAAAAGGTAAAATGATTCTGTCTTGGAGACCCCTCCTTACAATGAGGATGTAATCAGAGGTACCACATCCAGAGCCCTTAGAG
Celera SNP ID:            hCV26040084
SNP Position Genomic:     179627
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21274):
ACACATTAGCATTTTTCCGTGTCGTGTTGTAATATTGCACATCCATGTTACTGGTAAGCTGTATTTGAGAAAGAATTAGGGGGTTAGTTTGGGGAGCAGC
R
GCTGATGTGTGCCTCAGTTCTCAAGTTAATTGGTCCTGCTCCTTCTCTGCCCTGGTGTGCCCCTCGGCTCGCCACTGGCTTAGGTGCAGGTACATTTGTC
Celera SNP ID:            hCV11527403
SNP Position Genomic:     142305
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21275):
GTAGCTGGGACTACAGGCACCCACGCCATCATGCCCGGCTAATTTCTGTATTTTTAGTAGAGACAGGGTTACACCATGTTGGCCAGGCTGGTTTCGAACT
Y
CTGGCCTCAGCCATTCCACTCGCCTCTGCCTCCCACCGTGCTAGAATTACAGGTGTGAGCCAACATCCCTGGCCAGAGTCTTCTAGTTTTTGAAGGTTTT
Celera SNP ID:            hCV1543831
SNP Position Genomic:     279856
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21276):
CTGGGGAGCCTTTGCATAATGTCCCCAGCCCTGCTCTTCAGCCTTCTTGGCTTGGACCTCTCTTCCCAGACATTGTCTTTCCCTGAGACCGATGCTGACC
R
CTGGGAAGACTTCTCCCTCATTCTGAGTCAAATCTAGGCTGTTGGGAGCCCGTGACCGCCCTGCTTCCTGTGGTGGGAGAAGGTGAGGGAGAGGAGATGC
Celera SNP ID:            hCV29368568
SNP Position Genomic:     244571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21277):
GAGGTGGAGGTTGCAGGAGCCGAGATCGTGCCATTGAGCTCCCGACTGGGCAAGAGCGAGTGAGCCTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGTC
T
TCTTTATTGAAACTCAAAAGGTAAAATGATTCTGTCTTGGAGACCCCTCCTTACAATGAGGATGTAATCAGAGGTACCACATCCAGAGCCCTTAGAGTTT
Celera SNP ID:            hCV26040085
SNP Position Genomic:     179630
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21278):
GGGAGCCAATGGGTAGAGCTGGGGCCCAAGGTTCAGGTGTTGCAGTCGAATCAGTAAACTCCGGCGGCATCCAGGGATGTGCACGGTGCCGGGGCACATT
S
ACAGAACCTACCTGCAGGTGGGCACGGCTTTGTAGAGAGGGTAGGCACAGCCGCCGTGGGATGAAGCCTGCTCCCAGCACTGTTAGCGGTTGACAGTGTT
Celera SNP ID:            hCV1543832
SNP Position Genomic:     280548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,8)      total(G,3|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21279):
TTAAGAACAGTTGTGGTTCACGTGTACCAAACTTGGGAAATCCTGACCAGCGCATCCAGGGTCGCTTGGGCACAGTGGTCCTTTTGCATGGGGTGGCCGG
V
CAGGTGTGCTGAGTGCCACCTGGGCTTGCATGCCGGACGCATACCTGGCACCTGCTTCCAGGTTGGCCTGCCAGCCGATGTTGTGATCTTGTGGAGGGAA
Celera SNP ID:            hCV26040086
SNP Position Genomic:     124378
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3|G,3|-,8)   total(G,3|A,3|C,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21280):
GAGCTGCTGGGGCAGAGGATACTGAGCCTGACCACTGCCCTGTGCTTGTTCCTGTCCCCATGGAGGAGCACTGGACTTGTCCAGGGGCACCTAGCAGGGA
K
CCAGGGACCCAGGCAGGGCCGGAAAGGGGATGTTCTTTGCATGGATTTCTGGGAATGTACTTGGCAGAAGGGAAGCCTGGGAGTGAGCTCCAGGCAGAAG
Celera SNP ID:            hCV11527405
SNP Position Genomic:     140059
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21281):
AGAGGGTAGGCACAGCCGCCGTGGGATGAAGCCTGCTCCCAGCACTGTTAGCGGTTGACAGTGTTGTCGGGGATCTGGGCAGCCATGTGGGCCAGGCCCC
R
GTTTGGCCAGCGCTGCAGCTTCCTCTCTCTGATTCATCGAGTTCCCAGATCTGTTTCTTACAGAAGAAGAAACACCTGCTGCCGAAATACAGTTTGAAAA
Celera SNP ID:            hCV1543833
SNP Position Genomic:     280684
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21282):
GAATGTGCCTAATTGGCGCGGGCCTCCCTGTAGAATGAGGCTCCTCCTGCAGTTCGAGGAGAGGCTGTAATTAACAGTGAATTAGCATATAGTGGCGCCG
Y
GTGGCCCGCAGGGTGGCCTTGTCCATCTGCTGTGTAGGGGACTTAGGTGACACCTGGCTAGTGGTAGTCTGCAAGAACCCTTTGTTAATGGGAATATTGT
Celera SNP ID:            hCV26040087
SNP Position Genomic:     125530
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21283):
CTGGATTAGAAATTGCCAGCCTTGGATCCTTTTCTCAGATATTTTGTTTTCCTGGGTATTTTCCCTCTTCTGGGTTCTTAGTGCCCGTCCCCCGTAGCTC
Y
GTCACACAGTCCTGTTGCTGCTACCTTGGGGCCCAGGCGTGTCTTTTGTCCCCCAGTGCCTGGCACGGTGCCCTCCAGGAGTACTCCTGGGATTGGTGGC
Celera SNP ID:            hCV1543834
SNP Position Genomic:     281008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21284):
TGTAGGGGACTTAGGTGACACCTGGCTAGTGGTAGTCTGCAAGAACCCTTTGTTAATGGGAATATTGTGCATGAGTCAGAATTCAGAATCTTTGGTATGG
T
TTTTTTTTTTTCCCCCTTTTGTGTGTTTTGGCCAAATACTCAAAAGCACTAAGTTTTCTTGCGTGGTATCTGTTCATATATTGATTCACCAAATATTGAT
Celera SNP ID:            hCV26040088
SNP Position Genomic:     125663
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21285):
CCCTGCTTTTCCTGTGCTGGCCCCAGGCTGTTTTGAGGTTTTTTTTTTTTTTTTTTTTTTTTGATAGGGTCTCTGTTGCCCAGGCTGGAGTGCAGTGGCG
Y
GATCTTGGTTCACTTCAACCTCCACCTCCCGGGTTTAAGCAATTCTGCAACCTCTACCTCCCGAGTTTAAGCAATTCTCCTGCCTCGGCCTCCTGAGTAG
Celera SNP ID:            hCV11527407
SNP Position Genomic:     138910
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21286):
GTAGCTTGGGCCTAAGAAGGTGGGTGACACTGAACACAAGGCAGAGAGTTCATTGTCACAGGACTGAGCACAGCTGAGCGGCTGTGACCAGCCTTCACAT
R
GAACCAGCCGCGAGTAGACAGGCAGAGGCCGCCCTCGGAGCCTGGGATGCAAGCGGGTCTCTCTCTGACCTTCAGGAGGTCACTGAGTCCTTGTGGGCCC
Celera SNP ID:            hCV1543837
SNP Position Genomic:     284609
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21287):
TGGACCTGGGAATGGACTGGTGAGTCATGTCCTCTCCTATGGAAGTTTCCTGAGATGGGGGCTGGTTTTCTTCGGAGAATCACAGTTTATCTTCTAATTA
R
TTGAGTGCCCTTTGTTTTCCTTTACTGTCCTTGCACCAAAAAAAGAAAAAAATCTCGAAAATATTGCCAACATTTATTGAAGAGACTTTTTTCTTCTTTT
Celera SNP ID:            hCV1543838
SNP Position Genomic:     285644
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21288):
TCCCAGGAGGCTGATGAGATTTGCTGAGCATTACAACCTGATGGGCAGGATTTGTTTTAATCATGTAACACAATCACAAAATTAGTAGTGGCACCATGCT
R
TCGCTGCCCCTTTCCCATGCATGTGCTGCAGACTTATCTGTGGGGGAAAAATTATCCATGCCACCTCTCAGAATGAGCCCCGTCCCCACCTTATACGAGA
Celera SNP ID:            hCV362927
SNP Position Genomic:     208571
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21289):
ATTCTTGATATTATAGACATTTCTTCTGTAAAGTATGGCACATCTATAAACTAAAAATGCACATCTGGAAAATCCGTAAGGCAGAAATTCCAGCCTCCCC
Y
ATCCACAGCCATCAGAGGAGTCCCTCACACACCTGTCGCCAGCCCAGGGCTGGGAAGATAGAGGTGCTGCTGCAGAGGGAGTTCCATGACTCACCCCTGC
Celera SNP ID:            hCV1543839
SNP Position Genomic:     286114
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21290):
CTTTCGGGGCAAGTCCTGCTGTCACTGCACAGCTCACCTTGTATATGTGGGGTGCTCTTCTCCTCTCCTGAGGAGTTATGGGTGATTAGGAAGCAAACGC
K
TCTCAGACTTGGAGATCAAATGAAGAGAGGCTGTGTAAGCACCAGGATGCATGGGGGGTTCCGGCTTCTTCGCAGTTTCACCTGGTTTAACCCAAAGGCA
Celera SNP ID:            hCV362928
SNP Position Genomic:     206723
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21291):
TGCTGAAAGAAAAGTCATTGTGTATTCATTTTGCATTGGAGGAAATGAGCATTGGGGTGCTTTGGTGACAGCTTGGAGGAGCAGGGGAGTCAGTGGCATG
R
CTAGGCCTGGGTCCCCTCATCCCGCCCCTCATTCACCCGCTAGTGCTGTTTGAGGGCCAGAACCAACTGTGCCTGTGTTTAGACTGGGTTTGTTGCTGTG
Celera SNP ID:            hCV362929
SNP Position Genomic:     200692
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21292):
TGTTTGCAAGGTGGCACGAGAGGGCCCTTGGGACCTTTTCATCACTGTCTGATTCTCATATTACGCAACCAAATCTGCTGTCATCACTCTTGGCCGCCGT
Y
GCTGGTAGCGGGTAGGAGTGCTGGTCTCCCAGCCACCAGCCTGATCCAGTTCTGAGGTCTCGCCCCACCCTGGCAGCCTGGGCGAGTGTCCTCTCCAGCC
Celera SNP ID:            hCV27521498
SNP Position Genomic:     480716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21293):
TACAGTCGAATGGCCAACTATCGGAACACGAGCGAGATTCCTCTGGTTCTGGTGGGAACCCAGGGTGAGTGATGTTCGTGTGCAGATTGTTTTGAAAGGG
W
TCTAACAGTTACATATTTTCAGTATGGAGGAGTTTAAAAAATGCTTTAAAGAAGGAAAAATTGCCTACTGAACGCTCACTTTTTTGGGAAAAATTATGGA
Celera SNP ID:            hCV27521499
SNP Position Genomic:     256720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21294):
GCGCCATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACACCGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGAATACAGGTGCCCACCACCATGC
Y
CAGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGCTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATCTCATGATCTGCCCTCCTCGGCCTCCC
Celera SNP ID:            hCV27155833
SNP Position Genomic:     193077
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21295):
TCGCAATTACCCTAGATGCAGCAGGCTGCCTGCATCTTTATGGCGGTACTTTGATTCCAATCAGAGATTTCACATGAACTTATTTTGGTCTTTTCAATGA
M
GTCTCAGAGTAGAAAACAGATGCAGTCCTAAAGTAATTACTAACCTTTTTATCTTGTGAAAGAGAATTCAGATGAGCGAGATCTCTGCGGTGGGTTGATC
Celera SNP ID:            hCV1543840
SNP Position Genomic:     286587
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,9)      total(A,3|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21296):
GCTGGAGCTCCCTTCTGAGAGCCAAATTTATTTTTTTTTATGGAAGAGATTCCCCTGTAAATTCTGGGAAAGTTTGAGAGAAAGCTCCAGGAGTAGTGAC
R
AAGCAAAAGGACTGGGTGAACAGAAGGGGCATCGGAGATTGTCCTGTCTGCCTGCAGCCAGCTGGGGAACAGAGAAGGTGAGTGGGGACAGAGCCCACAG
Celera SNP ID:            hCV1543841
SNP Position Genomic:     286903
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,18)      total(G,5|A,18) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21297):
AGCCCCTCTACTTCAGACAGACTTCCGAAACTTTCTGCCTCTCTTGGGGTACTTTAGTATGCCCTGCAGATGTAAGCTGCTTTCAGAAAAAGCCAGATCC
W
GCCACATGAGACTGCAGGCCCTACTAGAATCTGTTCTATCCCACATCTCCAGTTATAGGTGGGTGGGAAGTGGGAATTGGAATTTTTTCCTTTTGTTCAG
Celera SNP ID:            hCV362930
SNP Position Genomic:     200437
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,5)   total(A,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21298):
ACTGGTGTTGCCTCCTCCCTCAGCCTCTCTCCCCCTACCTACTGCCCATTCGGAAGTCCAGGCCTCCTCCTCAGTCACTGAGACTGCTTTGTCAGCCTCC
Y
GCTTCTGTATCCAGGCAGATGACCCCACACTGAATCTTTGCTGTGCTGGCCTCTGCTCTTGCCTGTGACAGAGCTCAGATAGGATTCTTTCCTGTTCGAA
Celera SNP ID:            hCV1543842
SNP Position Genomic:     288216
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21299):
TCTGTAGGGCTTGTCTTAGCAGAAGTTCACATGGAAGAGAGGAGGCGTAAGAAGCAGTCAGAACGTCTGGATTGGAGTCTTGGTCCTGCCGCGTGCTGGC
Y
GTGGAGCTCTTGCTCTGTGTCTGAACTCCTTTTCCTCCTGAGTGGATTTGGGTGTTGCCAGTGATGTTTGCGTCATAAGATGGGGTGAGGGCTAACGGAG
Celera SNP ID:            hCV29368579
SNP Position Genomic:     246727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21300):
CTGGTGTTGCCTCCTCCCTCAGCCTCTCTCCCCCTACCTACTGCCCATTCGGAAGTCCAGGCCTCCTCCTCAGTCACTGAGACTGCTTTGTCAGCCTCCT
S
CTTCTGTATCCAGGCAGATGACCCCACACTGAATCTTTGCTGTGCTGGCCTCTGCTCTTGCCTGTGACAGAGCTCAGATAGGATTCTTTCCTGTTCGAAA
Celera SNP ID:            hCV1543843
SNP Position Genomic:     288217
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21301):
TAGTTCAGTTCTGAGGTCGGAATTCCCGGCTACCATGTGGCTCCCCTGACTGGAGACGCAGTGCCAGGGTCCTCATCTGGGAAACTGGTGATGATAGAGG
Y
CCTGCCAGTGCTTGGAGCAGGGCCCCACACAAGGTAGGACTCAGCATGGCCTGGAGATGACGGTGGCCTCTGATGGCTGTGTTCTTGGTCTAGACTGTAA
Celera SNP ID:            hCV1543844
SNP Position Genomic:     290534
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21302):
GGTCTAGACTGTAAACCCCATGGGATCAGGAACAACCACATCTAGACCCTCATATTAGGGATGCCAGCCCGGGCACCACATCTTTGTCACCTGCATCTCT
R
TGGCCTCTCCAGCCCCGTGGCAGTCCTCACTGCAGGAGGCTGGCACCCTCTCTGTGCCTCACATGGATCAACTGACTTCCCTCACCAACCCCAAGAAGCA
Celera SNP ID:            hCV1543845
SNP Position Genomic:     290721
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21303):
GCAGCAAAATATATATATATGTATTTCCACAGAAAATTGGATTCTGCCCATAAAACTTAGTAATACTAATAAAGACAGGTCATTACCAGTTTTAAGCCAA
R
TAAGCAAACTCAAAGAGATCTTCTGTCAGTGTGATTCTTGGTGGTTTTTTATTTTTTTGGAGAAGTGTAAATCAGCTTTAGTGCAGCAAGCACACCACAG
Celera SNP ID:            hCV1543847
SNP Position Genomic:     292245
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21304):
GGATTCTGCCCATAAAACTTAGTAATACTAATAAAGACAGGTCATTACCAGTTTTAAGCCAAGTAAGCAAACTCAAAGAGATCTTCTGTCAGTGTGATTC
K
TGGTGGTTTTTTATTTTTTTGGAGAAGTGTAAATCAGCTTTAGTGCAGCAAGCACACCACAGATTTGCTGAAATCATTCCTGCCCCTTCTGACGGTGGGT
Celera SNP ID:            hCV1543848
SNP Position Genomic:     292283
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21305):
ACCAAGAGCATGGCATTTGATTCAAAGCCATGGTTGAGTGGATTTTCAATCTATTTGAAGGATAACTTTGGCTACTATATAGTATTTACACTCCTGCCCA
T
TTTTTTTTTTTGTATTTTTTCCATCAAAAGAGAAATCTGTTTTGAAAACAGAGGTAATGTCTTTACCATCTTTCTCATGTATATTATTTTTTGGAGGAAG
Celera SNP ID:            hCV27155849
SNP Position Genomic:     294101
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21306):
GTGTGGGAAAAAAAATTAAATACTGTGGGGTTTTTAAATGGCTTTAAAATTTTACATGTATAAGAATAAAATTCTCTGCAGCCACTCTTTGCTAAATATT
S
TCTGGACAATTATTTAAGACATTTTAAAAAAAGAAACCCAAACTAATAATGACAGAGGCAAACCTGTGATATTAGTCATTGCCTTAAAATTTCCACTGAT
Celera SNP ID:            hCV1543850
SNP Position Genomic:     292840
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21307):
AAAATTAAATACTGTGGGGTTTTTAAATGGCTTTAAAATTTTACATGTATAAGAATAAAATTCTCTGCAGCCACTCTTTGCTAAATATTCTCTGGACAAT
K
ATTTAAGACATTTTAAAAAAAGAAACCCAAACTAATAATGACAGAGGCAAACCTGTGATATTAGTCATTGCCTTAAAATTTCCACTGATTATATTTAATC
Celera SNP ID:            hCV1543851
SNP Position Genomic:     292851
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21308):
AGAATTCACGTAAGCCAATTCTTTCATTCTGGGCTCCCATGAATGCATTTGGAGAAGGTGGCTGGAGTCACGCACAGCCAGCTGGTGGGCAGGGCTCTCT
K
CAGGCCATGGGCTCATTTTCCCACCTGCGTAAGTCACGGTGCTGGTGGTAGCAGGATGGGGTCTGCAGGTCTCGCAGGAGTAGGTCAAGAGGACCAGGCA
Celera SNP ID:            hCV27498558
SNP Position Genomic:     618562
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21309):
TATAAAAAGCCCCCACCAAGTCAGGATTTGTCCAGAATGGTCACTCTGCTTTGGAGAACTGCGGATCCCCTGCCATGGCCCATGTGGCTCCGGAAGTTCC
Y
GGGAGTGGCTCGTAGAGCCTGTTTTCATCCTTCAGAGGAATCCTGCAGTCCACTTGCCCAGCGTCACTTCCTCCAGTGCCCTTTCTGGGTCCCACGTGAT
Celera SNP ID:            hCV11527425
SNP Position Genomic:     111089
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21310):
CCAATTCTGTGACTGCCTGAACTGGCCAGGACAAATAGAGAAGGGGTGGTAGGGGGGCAGTGTTAGATTCTTTCTGGAGCACTAGGGTGCAAATCAGAAG
Y
GTCCTTTGTTGCTGCAGCTCTCCCCAGCCGCCTGGAGGATCTGTTTGGGAGGGGAGCACTCTCTAAGGCTAGTTTTGTTCTTGCTCAGATGATCAAATCT
Celera SNP ID:            hCV27498559
SNP Position Genomic:     597224
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,209|C,1274)   total(C,1274|T,209) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21311):
GCTGCAGGGTGAGCTCTGGGCGACCCAGGAGGAAGTATTTGCATGAATTAGCCACACGCAGAGGGCAGTTATGTGTGATGTGGGAAATGACTGCAAAGCT
R
TCTTACTCTTTATTCCATAGCCACAAAAATAAGTTTATAAAAAGCCCCCACCAAGTCAGGATTTGTCCAGAATGGTCACTCTGCTTTGGAGAACTGCGGA
Celera SNP ID:            hCV11527427
SNP Position Genomic:     110953
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21312):
ATGAAAAAAATGGATTCCCGCTGGGGCCCTGTCTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTGTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCT
K
TGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTTTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTTTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCC
Celera SNP ID:            hCV11527428
SNP Position Genomic:     109217
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21313):
ATTTTTTTTCTTAAATACCATTTTTCTCAGTGAGCTTTGAACCATGATGTCACCAAAGACAAAGTGTTTCTCAGGCTTTTCTTAGTGAAAGATACTTTCC
W
AAGGTAGTTTATAGCAAGATTTGGGGATTAAAAAAAAGAGTTGAATTTATGGCCTGAAGAGTCATTATAACCTTTTACCTATAGCTAACATTTACATACC
Celera SNP ID:            hCV1543856
SNP Position Genomic:     295058
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,4)      total(A,1|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21314):
GGGATTAAAAAAAAGAGTTGAATTTATGGCCTGAAGAGTCATTATAACCTTTTACCTATAGCTAACATTTACATACCTCAGGTCAAATAAATTTAGATGT
R
TGCTTAATGTTCTAAAAGCTCTTTGTTCCTTGCTCATCCTTGGCCGGACCAGAGAAGTTATTGATAATCAGGTGTTGCTTTCTTTGTGGTAGGACATCAC
Celera SNP ID:            hCV1543857
SNP Position Genomic:     295182
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21315):
TGGAGAGAAAAAGACCTTGTGACGTCCCTGTCATCACAGGATTCTAGTATCTTGTTATGCCAGAGATGTGGTTTGAAAACTTGTTTTTATGGACGTACCC
R
CAAAACATTATGCTCTGTGGAAAGAGGCACGCACAGAAAAGAATGATTCCATTTATATGAAGTTCTACAACGGGCAAACTGATTGGTGATGAAAGAAATC
Celera SNP ID:            hCV1543858
SNP Position Genomic:     295438
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21316):
GGCTGAAATCAAATTCAAAGAACTCACTTCTACCAAAAGAGAAAGAACTGGTTTGTATAATATGTTTCAAAGTACAGAAGGTAGAAGGTACATCACCACC
R
TCCATCACGTGAAGGAGTAGAAAAAGTGGGATGCCACAGTTGCGGCAGAGAATATCCAAAAGGAAAGGGTCCAAGTCAGACCGCTCACGTGGGTGGCAGC
Celera SNP ID:            hCV27481311
SNP Position Genomic:     600922
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,225|G,1252)   total(G,1252|A,225) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21317):
ATCTTCCCGAGAGAGCCTGTGCCCGCCCCACAGTCCCGGCTGAAATGGCAAATGCGGTGTAGGACTGTGGTGCACACTGCCCATGACGGGCTACTTGGAC
R
GCTCATGCCCACCTCTGACTAGTTTGATGTTCTGAATCAGGCCCCTTGGTTAAGCGTGATAACATGATCACCTGGTGTTTTAAAGCTTTTCTCTGTTTCC
Celera SNP ID:            hCV27481312
SNP Position Genomic:     599433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21318):
AGCGTGAAGTCAACCCGGGCCTGAGTTCTTGGTCTTCTGATGATGCCAGCCAGTTTCACGCAGTGAGTGCTCCAGTTCTGGGGTCCCAGTGCTGCTGTCT
R
AATCCATTTCTTGTCCTGCACAATCCTTGCACTAGTCCTTGGTCTAGTTTCACAGCCCAAAGCCTGTCACCATTCATTCTGCAAGTCAGCGTTGGTTGCG
Celera SNP ID:            hCV27481313
SNP Position Genomic:     560188
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,383|G,1090)   total(G,1090|A,383) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21319):
CTGCTGGAGCGGAGGCAAGGTTCTCCCCTCAGTCAGCCCCAGCCTTACCTGTCTCTAAGCAGAGGGTGGTGAGCATGGGGCCCTGGAACACTGTGCCCCC
R
CCCCCTGCAACATTTTGGGTTTCAGAGAATTCGGAGTCCGGCACAGGAATGTGTCCCACGCATGAATGTCGTCCTTCAGATCTGGACCTGACAGCCTGGG
Celera SNP ID:            hCV27481314
SNP Position Genomic:     557787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21320):
TGGCAGAAGACATGATGTAGCAATCGATATTCACCTCAGAGGACAGATGTATATGCTCTGCTGTCTTAAAACTCTACTGTTTGGCCGGGCGCGGTGGCTC
R
CACCTGTAATTCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACTTGAGATCAGGCGTTCAAGGCCAGCCTGGCCAACATGGTGAAATGCCATTTCTAC
Celera SNP ID:            hCV28004376
SNP Position Genomic:     411108
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21321):
CTCACTGGGCACATCCCAGAGCACTGTTTCCAGAGTGGACGCTGAGCCTCTGGAGCTTTGGGGGTGCCTGTCTATAAAGGGATTCTGAGAGCCAGTGAAT
Y
TGGGAAACTCTTAACAACGTCCGACTCCCAGGAAGTTGCAGCCTTCGGACACCTGTGCTTCCGGGGAGTACTGCTCTGAAGCTACCTGTTCAGCATGGCC
Celera SNP ID:            hCV27481315
SNP Position Genomic:     555996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21322):
TGAGCCTCACTTCCCTCGGCCTCCCCCAGGCCACCACGCAGCCTCGTCACCATCGAGCACAAACACCATGTCCATCTTCCACATGGAAGGAGTGTATCAC
R
TGTGTGTGTGTACGGGTGTATGCTCTGGTCCCTGTTTCCTTCTGGCCACGTAATCATTATATCTTTCCAGTAGACTCTGTGGTTATAAAGCAGCCGATCC
Celera SNP ID:            hCV28004377
SNP Position Genomic:     448155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21323):
TGTTAATAGAGCAGTAGGTTGGGAATTACAGTATTGGTGAAATTTAACTGTTTTTCACGTGTGTATACCTAAGTCCTATAAAGGGTCTAATTTAGTTTGC
T
TTTTTTTTTTTTTTTTTTTTTTTTGATACAGAGTCTCACTCCGTCACGCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCACCCTCTGCCTCCCA
Celera SNP ID:            hCV27155850
SNP Position Genomic:     193753
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21324):
ATACAGGTTGTAACGTGGGTGAACCTCGAAGACATGATGCTAAAGGAAAGGAAGCAGGCACAGAAGGCCACACCGTGTACCATTCCATCTGTCTGATGGC
S
AAAACAGGCACCTCCATAGTAATGCAAAGTAGATTCCTGCTTGCCAGGTGCAGGGGAGGGAGGGGCAGTGGCGTATACGGAGTGATTGCCTAATGAGTAC
Celera SNP ID:            hCV28004378
SNP Position Genomic:     573511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21325):
GTTAATAGAGCAGTAGGTTGGGAATTACAGTATTGGTGAAATTTAACTGTTTTTCACGTGTGTATACCTAAGTCCTATAAAGGGTCTAATTTAGTTTGCT
T
TTTTTTTTTTTTTTTTTTTTTTTGATACAGAGTCTCACTCCGTCACGCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCACCCTCTGCCTCCCAG
Celera SNP ID:            hCV27155851
SNP Position Genomic:     193754
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21326):
TTAATAGAGCAGTAGGTTGGGAATTACAGTATTGGTGAAATTTAACTGTTTTTCACGTGTGTATACCTAAGTCCTATAAAGGGTCTAATTTAGTTTGCTT
T
TTTTTTTTTTTTTTTTTTTTTTGATACAGAGTCTCACTCCGTCACGCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCACCCTCTGCCTCCCAGG
Celera SNP ID:            hCV27155852
SNP Position Genomic:     193755
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21327):
GCATTACTTTCAGATTACTTCCTTTAATTCTTTAGATGGGTGCTAATGGTTTGGGTTATTAACTGGCACAGATCTGAGTTCTTTTTGTCTATGCTTGTTG
T
TTTTTTCCCCCTTCAAAATGAATTTGCAAAAGCATCACTAGAAAAGCTTATGTGTAAACATTTATGCTAGTAATAGATAAAAGGTGCTGTGTAGCAGTAC
Celera SNP ID:            hCV27155853
SNP Position Genomic:     294429
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21328):
ACAGTATTGGTGAAATTTAACTGTTTTTCACGTGTGTATACCTAAGTCCTATAAAGGGTCTAATTTAGTTTGCTTTTTTTTTTTTTTTTTTTTTTTTTGA
K
ACAGAGTCTCACTCCGTCACGCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCACCCTCTGCCTCCCAGGTTCAAGCAATTCTCTGCCTCAGCCT
Celera SNP ID:            hCV27155854
SNP Position Genomic:     193780
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21329):
GCCGTTTCCTCTGGTGCCCTTTTCTTTCCCCCGATCACATTTGCTAGATGTCCATTTCTGTAAGTTTTCCCTCTAGAACAAACCTATCATTTTTCACCAC
R
GGATATTTACAGCTTCAATCAGTGCCAAATTCAATTGGCTTCTGATCTCATCGCTGGAAGTTATAGATGCAGATATTATTTGCACTGCGGTTAATTATGG
Celera SNP ID:            hCV27498560
SNP Position Genomic:     594064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21330):
GGGTGGCCGGGCACCTCTGCTCCCGGCCTCTGGGCTGATGTGAGATGCACGCGTGCCAGGGTTTTCTGCCTGGATAGCCTGTCTGTCCTTTGCCGGGGAA
K
GCCCGGCCTTGCCCCTGCCTCTGAATTTGCCCCACTGTAGCACAGTTTCTGATCCTTTCTCCAGTGGTCTTCAGCCCATTGTTCTTCCTCCTGGTTCTGA
Celera SNP ID:            hCV462526
SNP Position Genomic:     418135
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21331):
AAGAGAGTAACTACACTTGCCATACTGACCCCCCAGGTTGTATGGAAGCTCAGTGGAGAAAATGGCCGGGGTGCGTGTCTGAACCGCGCTGCATTTGGAC
R
GACACTTTGTGTGTCACATGTTAGTAGCTGCAGTGTGTCCTCCACCCGACTGAGAGTCTGTGTATCAAGATAGGGGTAAATCCTTTCTGACCACTTGCAG
Celera SNP ID:            hCV27498561
SNP Position Genomic:     593285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(A,535|G,962)   total(G,962|A,535) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21332):
GGTCCTGGATCATGGGGGAGGCACAGGCGACGCTCCGAGGCAGCCTGGCTTGTGTTAGCTGAGTTCTGCTTTGGCACAGGGGAGGGAGGACATGGCCCTC
R
GCTGCCAAGGAGCATCCAGTCCTTTCCAAGGACTTTGGTTTTCCAGAGTTACACTTCACATGTATTTCTATTAAGATACACACTTATGTATGTTTCATAT
Celera SNP ID:            hCV29368739
SNP Position Genomic:     281699
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21333):
CAGGGTCTTCTGGAAGCTCCCAGCAGCCTCCTGAGACAGACAGGTTGGAGCACCACAGCTGCCTGCGGCTGGCACACAGAGTCGTAATTTTTCTTGGTTT
Y
AAAAACCAATCCAGATCTTGGAATTATCCACCGTTGTGGTAAACTTAAAATTGTCCAAAGACACCGGATGACTCTCCTTCAAATGGTGTCCCTGGCCCAT
Celera SNP ID:            hCV27498562
SNP Position Genomic:     583778
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,172|T,927)   total(C,172|T,927) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21334):
AGAAACTGCTGTGGCCAAGTGATTTTTATGGGAATCATTCTTTTATGTTTTCTGTCTTCATGCTGCCTGTGTTATGAGGCATGCTGGCCCGGGTGGTGAT
R
GGAGGTGTGTGCTGCAGTCCTCGCTGGTGATTTAAACCACCCTTCTCTGGTCTTGGTCCTAGTCTGCTTATAGGTTGAACAGTTGTGAGTAAATCTTAAT
Celera SNP ID:            hCV27498563
SNP Position Genomic:     309975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21335):
CTGGGACCACAGGAAGTTACATGAGTCGGGCCTGGTTTTGTTGCTGTTGCTCTGGCAGTCTCTGGCCCTGGGGTTCAGGTGTCTGGTGGGGCAGCGCTGG
R
GGCCCTGGGTTTCTGGAGTAAGAACAAGGACCACGACTCACTCATGGTGGCCTTTCTGCTATATGGCTATTTGGTCATTTTTGTGGCTTTTCGCTGTTTT
Celera SNP ID:            hCV27498564
SNP Position Genomic:     231087
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,302|G,419)   total(G,419|A,302) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21336):
TAAGGAAAACATGGTGTGACTGGCCCGGGATCCAAATTATTTGCAGCGCCTGTCGTCTTTGTTAACTCTTCTCAGTTCTCTTTTTCTTTCCTTCTCTCTG
Y
TTCTTTCAGTTTTGGTTTTTCTTTTTGAAGACGGAATCAAAGGGAAATTATTTTCATTTTCTTCACAGGGAGTTCCCAGGCTTCCCCCTAGCCTTTGCTT
Celera SNP ID:            hCV8739521
SNP Position Genomic:     81503
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(T,84)   African-American(C,40|T,44)   Asians(T,84)   total(C,40|T,212) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21337):
AAGCCTGTGTCCTGGCCTGTCATTGAACGTAATAATTACATTAACAAGTGAATGATTTAAGTTCTGCACTCTTTGTTCTTATAGGAACAAGGTTAAGGGA
Y
GACTGTGTTGTGGGTTGAAATGTGTCCCCCAAAATAGTATGTTCAAGTCCTAACCTTGGTAGCTGTGTGTGTGGCCATACTTGGAGATGGTCTTTGGCTG
Celera SNP ID:            hCV11527432
SNP Position Genomic:     95801
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21338):
GGCCCCACAGGCTTGTGATCAGTGGGCTCCGGTTCTCACTTCTTGTCTTTGAGTTCTCAGGCTTCTCCCCTCTCCTGTTGTAAGAGTTGAGCTAGCAGGG
K
CCGCCTCTACCCTTGGCTGCTGCTTCCAAACCATGTGGGTTTCCTATGTCATGAAAGCTTTTCTTCATCACGTGCTAATGACTTCCTGTTCCACAGGCGT
Celera SNP ID:            hCV1543860
SNP Position Genomic:     299036
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,6)      total(G,6|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21339):
GATGGTGGTTGGATTTGTGGCTATTTTTCCAGCTGCTCAATAGTTGTACAAAATGTAGCTTGATATGATGAGTGTTTCCAAAATTCCTAAATTACATGTC
R
TGTTTGTTGATTATTTGTATATGTTTTAATGTGTATTAAAAAGACACCAAAGGTGTGAGTTCATAAATATTAATACTTAGGATAAACTTAAGATTTGAAA
Celera SNP ID:            hCV8739522
SNP Position Genomic:     86727
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,12)      total(G,2|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21340):
GCACAGGGTTTTTGTTTTTGTTTTTAATTATGTTCTTTCCCCTTTTCTCTGAAAGGAAAAGGGAAATCCCGCTGCCCTAGACATGGTAGAAATTTCCCCT
S
ATTCTAAAATTCTGAAATTAACGTCAGCAGCCTTGACTTTGCTCTGTCCTGAAGGTAACTGTTTATTACAGTCGGCATTTAAATCCCCCGATTAATAGGA
Celera SNP ID:            hCV1543861
SNP Position Genomic:     301127
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21341):
CAGATGTAGCTCATGGTACGCTTGGGGTTTCTGCAGAGCATGACATCAGGCTGTCTTCCAGCCTTGCCTCACTAAGAACTTGAAGCATGACCCTCAATAA
R
CCACTTTTTTTTTTTTTTTTGCATGGAAATCTGTGAAGAAAGAAGGCCTTGGGAAAGCCTGTGTCCTGGCCTGTCATTGAACGTAATAATTACATTAACA
Celera SNP ID:            hCV11527434
SNP Position Genomic:     95646
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21342):
TTTAATTATGTTCTTTCCCCTTTTCTCTGAAAGGAAAAGGGAAATCCCGCTGCCCTAGACATGGTAGAAATTTCCCCTCATTCTAAAATTCTGAAATTAA
Y
GTCAGCAGCCTTGACTTTGCTCTGTCCTGAAGGTAACTGTTTATTACAGTCGGCATTTAAATCCCCCGATTAATAGGAGCAATTAAACAATAGCTTCATT
Celera SNP ID:            hCV1543862
SNP Position Genomic:     301149
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21343):
TTAGGAGCAGGTTGTTCAATTTCCATGTAACTGTGTGAGAACCGCCAAATTCTTCTCTTACATCATTCTGTGACTTCACCTTGTCCTCATCCGTTCATGC
R
TAATACGGAATTAAAGAAGCTCCTGTAATTAGGCTCCCTCCTAATTACAAAAATAGGTGATATAAACATGTTAAAAATATTGTTGCTTTTTCCAGAAAAT
Celera SNP ID:            hCV8739523
SNP Position Genomic:     499739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21344):
ATTTGGCTCGGAACCTGCCAAGGACCCCTGTGTGTTAAAGTTGAAATAGTTCCCTAGTAAACTGGCCACTTTCAGACCAGCTGCATTTTCTAGAATAAAC
Y
TCATTTGTCCTTGACTCATAAAGGGAAAAGCCAGAAGCCAGGGGCTCTGGGGCACCTCCAAGTGGGCCAGGGTCAGGTGTGGGTCCTCTGCCTGGGTTTT
Celera SNP ID:            hCV11527435
SNP Position Genomic:     94517
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21345):
ACAACGAGATAAAAAGAATACAGACAAGAACTGAATTTCAGATTAAGAATTCAGACTTCAGTACTTCAGGAAAAACTTAAAAGCTTCACTAGAAGAAATT
W
AAGCAAGCTTGGCTTTTTAACCACAGCCTATTTTAGATTAGAGGGTTGTTTGCTCAAAAAAAAAATACATATATATAGTCATATTTTGTGCTTCGATACT
Celera SNP ID:            hCV1543863
SNP Position Genomic:     301412
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,9)   total(A,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21346):
AAAATACAAAAAAATTAGCTGGATGTGGTGGTGTGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGG
Y
TGCAGTAAGCCGACATTGTGCCACTGCACTCCAGCCTGGGCAATACAGCGAGACTCAGTCTCAAAAAAAAAAAAAAAAATTTTTTTTTTTTTACAATAAG
Celera SNP ID:            hCV11527436
SNP Position Genomic:     90175
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21347):
AGAAATGACCTGTATCTTCTAACCACCCCAGGTATCTTTCCAAAGCATAGATCTCTTCACTTCTCTATTCAATTTGAATAACCCCCCATTGCCTTAAGGA
Y
AACTTCACACTTGCCACTCTTCTCTGCATATCAGGTCCTTAGAAATGCATTTCTAGTTGCCTGTTTCAGCATCTTCTCCCACTACCTTCTTATAACCTTC
Celera SNP ID:            hCV1543864
SNP Position Genomic:     302447
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21348):
GCAGTGTTCCCAAGTGGTCGTGCTGTGCCCTAAAGGCTGCTAGAACCTCAGGGGCCGTTGAGGGCAGGTTCGAGTCCCGCAGGCAAGAAGGTGGAACTCT
R
GAGAGGAGGGGGATGCCTTGGCCTGGGCCCCCTCTGAGGGAGGACTGTCGCCCCTGCTGCTGGGAGCATCATTAGCTGCAGCTCCTCATGGAGAGATGCC
Celera SNP ID:            hCV11527437
SNP Position Genomic:     88129
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21349):
TGCATTTCTAGTTGCCTGTTTCAGCATCTTCTCCCACTACCTTCTTATAACCTTCCCACCCCAGCCCCACTGTTGACTCATCCATTCATTCATCCAGTTG
K
TGTGTGCCCACTGAGTGTCAGGCAGGCCCTGGCCCCGGGAAGTTAAATACAGCATGGCCTCAAGCATTTCCAGAAGAGGTCCCAGCTCGGTGGAATTGGC
Celera SNP ID:            hCV1543865
SNP Position Genomic:     302593
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21350):
CCTGTTTCAGCATCTTCTCCCACTACCTTCTTATAACCTTCCCACCCCAGCCCCACTGTTGACTCATCCATTCATTCATCCAGTTGTTGTGTGCCCACTG
R
GTGTCAGGCAGGCCCTGGCCCCGGGAAGTTAAATACAGCATGGCCTCAAGCATTTCCAGAAGAGGTCCCAGCTCGGTGGAATTGGCCCATTGTCTTGGAA
Celera SNP ID:            hCV1543866
SNP Position Genomic:     302607
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21351):
GTGATATAAACATGTTAAAAATATTGTTGCTTTTTCCAGAAAATCAAACCGAAAGTATGCAGAATGTTGGTAGTTAAAACTCCTTTTGTTATTTTGTGTT
Y
GTTCGTTTGTTCTGTTTTGTTTTTTGAAACAAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGTGGTGGCATGATCTCGGCTCACTGCAGCCTCCACCTCC
Celera SNP ID:            hCV8739528
SNP Position Genomic:     499896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21352):
CAGTGCTTACTCGGAATTGCTCCCCCGCCTCCCAAGTTACTGGCCTCACTGTGCTCCAGCTTTCCCAGTAGCAGAGGAACCCTCTTCCCAAACGTGGGCT
Y
GATTTACACCGAGTCATTAGTTGTCATCTAATGGTGGCTCTTCAGTGTCACTGCAATCTATACGCTTTCTCTGTGTCTTCCTTAGTTCTCTGCCCCCACT
Celera SNP ID:            hCV1543868
SNP Position Genomic:     304021
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,6)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21353):
GGAGTTCAAGTCCTGCCTGGGCATCCCAGTGAGACCCCACCTCTTAAAAAAGGAAAGAAAATGGTTTTTTAAATCATTTCATTTCGTATAAGATTATTTT
S
CGAGGTTGGTGCATGACATTGGAGTTGCCCAGCAATTGGAAAAAGACATGAGCGTTTAATACTGGGCGTTCTTTCTAAGGCTCTTAAAGTGAAGGCAATC
Celera SNP ID:            hCV8739529
SNP Position Genomic:     503463
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21354):
CACCCTTCACGTGTCATCTGGTCCCCCACAAAGCTTTTGCATGGGGTTCATCTGCCTATTCCAGGAGAGACTATGGTCCTTATCCAGTAGTACTAATGTG
S
GGAAATACCAGGAGTGGACAAGCCACCTTCCCCAAACATGAAAGAGCCCAGTTTTGCTAAGGAGCTGTTGAAAAACTGGAAATAGAACAGCGCCGTGGTA
Celera SNP ID:            hCV1543869
SNP Position Genomic:     304228
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,8)   total(G,8|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21355):
CACATCTCTGTAAGCTTCAGAAAGAACAGAGCCCTTATTAAAGATCCAAATTAGCTTTATATCGTTGGCCGTGTATCAAAGGAAGTGCGTTTTAATTTAC
R
AGTTCCTACAACGACTTCATCTTGAGTTCACAGGGGGCTTCAGCCCTCAACTGATTTCCTCTCCTGGCACCTACAAATGGGCCTGTCTTTGATAATTTTA
Celera SNP ID:            hCV11534657
SNP Position Genomic:     469668
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21356):
AGCCTGCCAGCCGCCTGCCTGCAACCCCATAGCCGAGTCAGCTCCCTGGATGGGCTAGTGTGTTGACCTTCCACTGCCCCGAGGGGAGGACTCTGCCCTA
S
TGGATCCTCCACCTCTCACTTCATTTTGCCAGTTGAAATGTTCCCCTGCCTAGTGTAGGGACTGCCACTTCATGCTGTCTTGCCAGAGCACCTTCCCAGG
Celera SNP ID:            hCV16192673
SNP Position Genomic:     122783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21357):
GTCTGTATCAGTATAGAATTAGGATTGGATTAGTGTGAAGTGTTTGCACTGTAAATTTTATCTGTGTTTTTTTTTAAAAAAAACTGGAAATATTCTGTTT
Y
GTTCCACTACTATTTCCCCAGGGCCTTAAACAGTGCCTCCCCCTGAGTGGCCCTGGGTAGTTGTTGATCATATCTGTAAATATCTGGAGTTTCCGCACAC
Celera SNP ID:            hCV11534658
SNP Position Genomic:     464499
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21358):
CTCTGGAGCTTTGGGGGTGCCTGTCTATAAAGGGATTCTGAGAGCCAGTGAATTTGGGAAACTCTTAACAACGTCCGACTCCCAGGAAGTTGCAGCCTTC
R
GACACCTGTGCTTCCGGGGAGTACTGCTCTGAAGCTACCTGTTCAGCATGGCCCAACCCAGCATGTCCCAGGCCCATCGGACAGTGGGGCCTTTGTTTAG
Celera SNP ID:            hCV16108445
SNP Position Genomic:     556043
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_C(A,10|G,74)   total(G,74|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21359):
GTGGAGGTTGCAGGAGCCGAGATCGTGCCATTGAGCTCCCGACTGGGCAAGAGCGAGTGAGCCTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGTCTTC
T
TTATTGAAACTCAAAAGGTAAAATGATTCTGTCTTGGAGACCCCTCCTTACAATGAGGATGTAATCAGAGGTACCACATCCAGAGCCCTTAGAGTTTGAG
Celera SNP ID:            hCV16192674
SNP Position Genomic:     179633
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21360):
GGAAAGATCTGTAAGGCTGCACTCTGGAAGGTTAGCACCAGTTGTGTCTGAGTGGTAGGGTCTTTTGAGGCTTGGGGATTTTCATGCAGCGTGGAATTTG
R
AATTGTGGTAACAGCTCCCTGACCCCCAGTTCTTGCAGAGAATGCTCTAGACCGCCAGGAGCCCCCTCTGTCTGCTCACTGGGCACATCCCAGAGCACTG
Celera SNP ID:            hCV27481326
SNP Position Genomic:     555821
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,415|G,1060)   total(G,1060|A,415) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21361):
TTGTGATTCAGCCACCTGGAAGCTTCACTTGTGAACGTGACTCTGCAAAAACATGTTAGAGGAAGCAAAGGAGAGGATGGACGTGAAATCCGTCCTATGC
R
TGCTCACCTGACATGCAACAGGGAGGGTCATCTGCCAGGGCGTCACGGTCATTCCACGAGAGCTGGGTGGTGACGCTCCCCAAGTTCCCACTCCTGGAGA
Celera SNP ID:            hCV27481327
SNP Position Genomic:     249499
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,25|A,1468)   total(G,25|A,1468) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21362):
GATTTTTCAAGTAATGCATTTTACTGCACTGAAATTTCATAGTATTGTGTATGGTTTTTAAAAATACATTATTTTTAAGAGTAGGAGCGTGGGTGAGTAC
M
TTCCTTTCTTCATCTGCAAAGTGGAAGTAGCTCATCCCCTCCATGGGGCCCCATGCCCAAGGCTTCCTGGGTCAGGGGAAAGATCATGATCCCTGACCTT
Celera SNP ID:            hCV27481328
SNP Position Genomic:     231465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21363):
CACAGTGTGTTCCATTGTATTTGGGCCCAGCTGGGATGTCTTTTGCAGTGCATAATTGACCCTTACATGTTGACTCACACCAAAGCATTTCTCTTGAACG
W
TTATACATCAAAAGGAAGGATTGTGGGGTGACCTAAACTGATCACTAACATCCCTGCTTCTTTGATTTTTCAAGTAATGCATTTTACTGCACTGAAATTT
Celera SNP ID:            hCV27481329
SNP Position Genomic:     231301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21364):
CAATGATGGACCAAGTAATGTGATGGTGGTCCCATGAGATTATAATACCGTGTCCTTACTGTGCCTTTTCTATGGTTAGATGTTTAAATACACACTTCCC
R
TTGTGTTGCCACTGCCTACAGTTTTTGATACAGTCACATACTGTATGGGTTTATGCCCTGGGAGCAATAGGCTCTGCACATAGCCTGAGTGTGTGGTAGC
Celera SNP ID:            hCV9087012
SNP Position Genomic:     495553
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21365):
TGTGAGTCGGGGAAAAAAGTAAAAGATTCGCTACAGATTCAGACTTGCAAAAAAACGCTTAGAATCTTGCTGTCCGTAAAACTGAAACATCCAGCCTCAC
R
AATGTCCACATTTCTCTCTCATCTGTGAAGGCCCGTTGAGACTGCTCAGTTGGTGTCTCCTCTGTCCACAGGACATGGCCGTAGCCGTGTGTGGAGAAGG
Celera SNP ID:            hCV8739530
SNP Position Genomic:     503851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21366):
GGGAGCTGGGATTCAATCCTGGGGCTGAAGTAGGGGAGCTGGGATTCAATCCTGGGGCTGAAGTGGGGGAGCTGGGATTCAAACCTGGGGCTGAAGTAGG
R
GAGCTGGGATTCAATCCTGGGGCTGAAGTGGGGGAGCTGGGATTCAAACCTGGGGCTGAAGTGGGGGAGCTGGTCAATCCTGGGGCTGCTGGAGCCTAGG
Celera SNP ID:            hCV451970
SNP Position Genomic:     131141
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21367):
GTGCCTTCAAAGTATATCCAGGATGCAGTGGCTTCCTGAGCCACCTCAGCCATTAGCACCCTGGTCCCGGGCAGCAGCGTTGCTTGGCGGATTACTGCTC
W
CCTCTTCAAGCCGATGCTGCTACTCTCCTGGACAGTCCACTTGCCCAGCAGCCAGGGGCATCCCTGAGAAGCCGGGTCAGAGTGTGATGCCCTCTGCCAA
Celera SNP ID:            hCV451971
SNP Position Genomic:     131948
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21368):
TCCCAGAGCCGTCGGATTGCTCTGGTGCACTTGCTGCCTGGTTTTTCTCACCTGCAAAATGAAAGAGCTGACAGGATGAAATGAGTTAATAGATGGGAAG
Y
GTGGGCCGCCTAGCCCTGCTCAGCCTTTGAGCAGCAAAAAGGAGGAAGGGGGAGGAGGAGGAGCTGTCCTCTGGTTATAGAGGGCGTGAGGTTGGCCCGG
Celera SNP ID:            hCV1543871
SNP Position Genomic:     305461
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21369):
CTCTGAGCCGGCTTCTCTGGGCACTGGCTGGGCTGACCCCAATGGCCCCTGCCCATCATGCATTTAGGGGCTCCTCTGACTCCAGATGTCAGTGACCCTT
Y
TGGTCTCTCCAACACAAGGGTTGGTCATTCCCTGTGCCCATTGTTCATGCATTGGAACTTGGAGTGCCTGCTCTCTGCCCTGGGTTTATGTCCTAAGGAT
Celera SNP ID:            hCV451972
SNP Position Genomic:     133294
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21370):
CTTAGGAAGTTTCTCGCATCTTCCCTTAGTTTCTACAAATGAAAATGTCTGCAAAGCTCTCAAAGCATGCATCCTAGTCCTATTTAATTCTGACATCTGC
M
CATTTCTTACGAATGTAAAGTCAGTGTGGCCATCCAGCTGAATAGTAACTCTGAAGCTGGGAGTAAAATCAGATTTCAGTGTAATTGATAATCAAAGCCC
Celera SNP ID:            hCV1543872
SNP Position Genomic:     307904
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21371):
AGTGCTGCGATATTCCTCTGTAATTTAAACATGATTAGCTGATGAAGGTTATGTGATATCAATACACTACCGGAAGATAAATTAATTGATATCATCCTTT
S
AGGATGATAAGAGGCCTATTGGAGGTGGGATGTAACTAATGAAGCTGCTTCTTCCTCTCTGTGAGCCATTTTTTATATATTGCATTTTCACTTAATCATA
Celera SNP ID:            hCV1543873
SNP Position Genomic:     308337
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,7)      total(G,4|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21372):
GATCCTTTTATGAAAATATTCTTGCCTTTTAATTTAAATGCCAACCATCTTGATTAGAGAAATAGTGTTATTCCTTCCTGCACCCAAGCCCTGACGTCAG
Y
ATGACCTGGCGGTAGAGCCAGCCCCTGCCAGCTGGCTGCCCCCGGGGACCTTCTGTTCACCATCAAGCGGCAGTTCATCTGGAGTAAGGAGAGAGGCTGG
Celera SNP ID:            hCV8739534
SNP Position Genomic:     508429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21373):
GATGTTTCTGACGGCCTCTTACAGACTCTGTCCTTTTTGTTGTAGCTGATGGAGCAGAATTTTAAATGCATTCCTCTAACTAGTGGTCAGCTTGCTACTG
Y
CCAACCTAAGCTCATATTCAACACTTTAGAATGCCTTAATCTTTTCTTGTTGTGTTTTGAATAGGTTACATGCAGACATCCAAAATAAACTTTTTTTTTT
Celera SNP ID:            hCV451974
SNP Position Genomic:     133692
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21374):
GCAGAACCACACCTCTGTATCTACAAAAAAGAGAAAAATTAGCTGGGCGTGGTGGCTTGTGCCTTGGGAGGCTGAGGTGGGGGGATCACCTCTGCCCAGC
R
GAAGAGCTAGGCTGCAGTGAGTGTGATTGTGCCACTGCATTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAA
Celera SNP ID:            hCV1543874
SNP Position Genomic:     310641
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21375):
CAGCATGACCTGGCGGTAGAGCCAGCCCCTGCCAGCTGGCTGCCCCCGGGGACCTTCTGTTCACCATCAAGCGGCAGTTCATCTGGAGTAAGGAGAGAGG
M
TGGAGCACAGCTCCCAGCCTGCAGGAACAGACCTCTGGAGATGCCAAGGGCCTGAAATCTGTGTGTAGGTTTATGTAGACAGAAGTAACCATATATTGAA
Celera SNP ID:            hCV8739535
SNP Position Genomic:     508526
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21376):
GCATGAGCCATAGTGCACAGCCAGCATGTGAAGTGCTTGAAAACTCCCTGGGTGATTGAGATGCAGAGAATCTCTGAGCTACAGAGGTGGCAAAAATGCT
R
CCAGCCTGTCCCTTCCCTGTGCATAGCAGACATTACCAATCAATCTGGATTCTACACAGTTGAGCCGCAAACTCCAGGCACAGCTGCTGTCAGGTGACTG
Celera SNP ID:            hCV1543875
SNP Position Genomic:     312323
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21377):
GTGCTGGGATTACAGGTGTGAGCCACCATGCCCACCCTCTCCCCTGTTAATTTACCTCTTTCATTAGTATGGTACATTTCTTAGAGTTCATGAGTCAATA
Y
TGATATGTTTTTATTAAAGTCCACACTTTATTTGCATCTCTTTAGCTTTAACCTCATGCCGTGTCTCTGTTCCAGGATCCAAATCCTATTCCATTGTCAT
Celera SNP ID:            hCV8739536
SNP Position Genomic:     517366
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21378):
AGCAGTTGGGGAGGACAGTGTTGGCTGCTGCTGTGCTTCCTTTAACTGAACCCCGGTGGCCCAGTTGCTCCTCTTGGTGGACTCACTAAGTCAACTTTGA
Y
GCTTCAGCCAACGTCGGTTTTGAGAATGCGACCTATGAAATTGGGAGCCCTGGCTGGATCAGAAGCACATGGTTCAGTGGACACTGTCAGAGGTGCTGTG
Celera SNP ID:            hCV451975
SNP Position Genomic:     134251
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21379):
TGCTCCCAAGCTAGTTGCTGAAGCTGTGGGCCATTGAGCCAGCCTGGAGATGCATGGTAGGTTAGGGTGCTGTGTTGCAGGTCTGTGATGCAGTTGCCAT
R
TATTTTTTGACTTTTGGATCTTCACTCCTCCCCTCATTTTGGACATTTTCTCAGAATGAATGATACATCTCTGCTTTCAGCCTCCCTAAGCCATTAATTT
Celera SNP ID:            hCV451976
SNP Position Genomic:     135319
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21380):
TTGCAGTGAGCCGACGTGGTGCCACTGCACTCCAGCCTCGGCAACAGTGAGACTCCCATCTCAAAAAAAAAAAAAAGTCCTTCTTAGATTCCTTTCCATT
S
TGCATGTGCCCACATTAAAACAGCTGTGGCTCTGTCATTTCTCCCTGACCTGCAATACTGGAATTTTCCTTCTTAAATTTTCCTCCTTTAAAATTGTTAA
Celera SNP ID:            hCV1543877
SNP Position Genomic:     404052
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21381):
TTTTTGACTTTTGGATCTTCACTCCTCCCCTCATTTTGGACATTTTCTCAGAATGAATGATACATCTCTGCTTTCAGCCTCCCTAAGCCATTAATTTACA
Y
GTCAGATTTTTTTGAGTATTGTAGTTTTTTTCAATATTTATGGAATGCTTAGTATTTGTAATGCAACAAAAGGTCAGAATTAATAAGGTGTAGTGCCCAA
Celera SNP ID:            hCV451977
SNP Position Genomic:     135423
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21382):
ACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGATGGATCACCTGAGGTCAGGAGTTCAAGACTAGCCTGGCCAATATGGTGAAACCCCATCTCTA
S
TAAAAATATAAAAACTAACCAGGTGTGCTGGTGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGACGGAGG
Celera SNP ID:            hCV1543878
SNP Position Genomic:     403851
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21383):
TCCTCCGCTACTTCTGTGTCCTTAGACAGTAGATGGTGCTCTGTGTGCATGAGGGGAAGCACCTACAGTGGTCGCCTGCTGAAGATGTCCTTCAGTGGTT
R
GAATGGAAAAACAATTGTTCTGCTACATGTTGCTCTGGTTCTTTCATTTTACCTGCTCTAGAATATTCCATTTAGAACTTAAAATATTTCATTACTTAAA
Celera SNP ID:            hCV451978
SNP Position Genomic:     136111
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21384):
AAAAAACCTCCTTCTGGCCAGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGATGGATCACCTGAGGTCAGGAGTTCAAGAC
Y
AGCCTGGCCAATATGGTGAAACCCCATCTCTACTAAAAATATAAAAACTAACCAGGTGTGCTGGTGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAG
Celera SNP ID:            hCV1543879
SNP Position Genomic:     403818
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21385):
TTGTGAACACATGCATAGGACCATACATACATCATACACACACACATACACACACACTTAAACATACACATACACATGCACATGTACACACACATACACA
Y
ACACAGCTATGGGCACAACTTCATTTCAACTTGTAGATTGTGAAGTAAAGGCATTGGAACTTTGTGGCTTGCAAATCTAAATTACCTCCTTCCATCTTAA
Celera SNP ID:            hCV16167823
SNP Position Genomic:     406516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21386):
AGGCCGGAGGAGGAGGGAGCAGCCAGGAAGCTGGTTACAACCCAGGCGGAGGGCTGGCGTGGGCCTCAGGGGTCTTCAGCCTCAGCACTATTGACATTTT
R
TGCCGGATAATTATTTGTCCTGTGCATGTCAGGATGTTCAGGAGCATCTCTGGCCTCTACCTACTAGATGCCAGTAGCATCTCTTCCAGTTGCGGTGACC
Celera SNP ID:            hCV16192684
SNP Position Genomic:     150494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21387):
CGCCTTGGGGCCTCGGGAAGGCACGGACGCCCGCGGCGCGGCGGGGGTGTGCGCTGTGTGCGTGCGGGTGTCCACACACGCCGGCCGGGGCACGCGGCTG
M
TCCGCCGAGGGAGCACTGCGGCGCTGCTTGTCTTGCAAGGCCGGGCGAGCGTCGCCTGCGCCCCGCCGCGCCGCGAGCTCCGCCAGGAAGATAGATCGTC
Celera SNP ID:            hCV325666
SNP Position Genomic:     6885
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,5)      total(A,2|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21388):
CAGTGAGATTCCTAAGTGGACCTGGAAGGATGAGCTGAGTGGCCTCACGGTCAAGCCAAGGACTTCAAGGTGCCCCTGTCTAGGAAAGCTCACCTGTGTT
S
CGGTCCTGGCTCTCTGGGCTTCCTCAGGAGGTCGTTTGGCAGCTGTGAAACTCCTCCCCTCCGGGCCATACCTGGCAGACGTGCATGAACTGCTCAGACT
Celera SNP ID:            hCV1543880
SNP Position Genomic:     403614
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21389):
AGACCAGTAATCCCTAGTTCCTTTGACTTGCAGCTCAGCCTCACTCTGTCCTTTACTTAGGACATAAGCTAAATCTACATACCCTTCCTACACCACAGAT
R
GAAGATATGGAGGGAAACCTTTTTCTCCAGGTCTGTTTCATGTTGTTGAAAACCTCAAACCTTTTTCTTAGGAGAGAACCTCTGTTTCTAAGCAGTGGAA
Celera SNP ID:            hCV1543882
SNP Position Genomic:     401550
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,11)   total(G,2|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21390):
GCATGCGCCACCATGCCCAGCTAATTTTTTGTATGTTTGGTAGAAATGGGGGTTTCACCATCGTGCCCTGGCTGGTCTTGAACTCCTGAGCTTCTGTGTT
M
CCCCCACCTCCATCTCCCAAAGTCTCCTGGCATTATAGACGTGAGCCACTGCGCCTGGCCTAAAAATGTTTTAAATAAAGTTATTTTAAAATACGAATTT
Celera SNP ID:            hCV11534672
SNP Position Genomic:     460289
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,13)   total(A,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21391):
TCATCACTCACATGGTCCCCCAGCAGGTAACTTGCTTCAGCGCCACTTTGCCTGGGTGCTGGTGATCCTCCAGTTCTCACACACCTGCACCTTGGGGTCG
Y
TGAGTTTTAGTTTAGGTCTTCCGAGGAATGCACAGACCACACGTTGTCAGGCTTCCCTTGGCCAATAATGTGGAGTCTTTTGGTTTTTCTGTTCTTCAGA
Celera SNP ID:            hCV9087029
SNP Position Genomic:     500815
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21392):
AGGGACTTCAGCTGGGTGGTGGCCCTGGGATGTCACTTTCCTTCCCACTTAATTGCTTTGGATTTCTCTTTCCTTTCTCGTCATCCCCCAAAAGTGTCTT
W
GCCTTTTTTTTTTTTTTTTAGCCCTGAGCCCCAAGCTCAGTCCTTACATAGATTGTTTAGGAGACCAGTAATCCCTAGTTCCTTTGACTTGCAGCTCAGC
Celera SNP ID:            hCV1543884
SNP Position Genomic:     401388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,8)      total(A,4|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21393):
CTACTTGCAGAAGATCATGACAAGGGACTTCAGCTGGGTGGTGGCCCTGGGATGTCACTTTCCTTCCCACTTAATTGCTTTGGATTTCTCTTTCCTTTCT
Y
GTCATCCCCCAAAAGTGTCTTTGCCTTTTTTTTTTTTTTTTAGCCCTGAGCCCCAAGCTCAGTCCTTACATAGATTGTTTAGGAGACCAGTAATCCCTAG
Celera SNP ID:            hCV1543885
SNP Position Genomic:     401366
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21394):
ATCCCAGCAGGATGACCTGCTCTTTGAAACTGTGGCTTCAGAACAAAGCAGCCAGTCATGAAACTGGGGGCACCTGACATTGCAGGACACCGTGGGGCTG
R
TGTGAGGCTGAAAATGTACCTAGAATGGGTCGGCTGCCTGGGAACCTCACGAATACTGATCCCCAGGGACTGCGTGTCTCCCTCAGAACTGGGGCAGCTT
Celera SNP ID:            hCV1543886
SNP Position Genomic:     401164
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21395):
AGGAGAATAAAAATAGAGTTCAACCCCACACAGTGGCTTCTGAAATGTCATCTTTTGGTTTGTTAAAGAAAGCCAATTGATTTAGAGTGCATCCTTCTTG
R
GCAGAAGCCTCTGTGGGCAGGAGAATGGCTCCGCCTCTCAGGCACAGGGCTTGTGACCGGTGTGCACCTCCGGTCCAGCTCACTGCTTTGCTCTCCTCTC
Celera SNP ID:            hCV8738746
SNP Position Genomic:     320043
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_C(G,24|A,60)   total(G,24|A,60) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21396):
TGTGGCCGTGCTGTGCACCGAGCTCGTGGAATCCCAGCAGGATGACCTGCTCTTTGAAACTGTGGCTTCAGAACAAAGCAGCCAGTCATGAAACTGGGGG
M
ACCTGACATTGCAGGACACCGTGGGGCTGGTGTGAGGCTGAAAATGTACCTAGAATGGGTCGGCTGCCTGGGAACCTCACGAATACTGATCCCCAGGGAC
Celera SNP ID:            hCV1543887
SNP Position Genomic:     401134
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21397):
CCTGCCTGCCTCCCATTTCACCGGGATAATATCTAAGTGATTTGTTTCAGCAAAATAGTGCTTATTTTCTTTAAAAGTTGAACAGTGGTGGTGAAATCCA
R
TTCCCCTTGAGCTCAGAAATACAAGCTCTCCTACAAGTAGAGGAAAGATTCTCAAAGTTAATGTTGCCAGAACTTGTTTTTGTCTTGATGAATCAAAAAG
Celera SNP ID:            hCV8738747
SNP Position Genomic:     326196
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21398):
ATGTGGCCGTGCTGTGCACCGAGCTCGTGGAATCCCAGCAGGATGACCTGCTCTTTGAAACTGTGGCTTCAGAACAAAGCAGCCAGTCATGAAACTGGGG
R
CACCTGACATTGCAGGACACCGTGGGGCTGGTGTGAGGCTGAAAATGTACCTAGAATGGGTCGGCTGCCTGGGAACCTCACGAATACTGATCCCCAGGGA
Celera SNP ID:            hCV1543888
SNP Position Genomic:     401133
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21399):
AGCCTCAGCACTATTGACATTTTATGCCGGATAATTATTTGTCCTGTGCATGTCAGGATGTTCAGGAGCATCTCTGGCCTCTACCTACTAGATGCCAGTA
R
CATCTCTTCCAGTTGCGGTGACCAAAAATGTCTTCAGGCAATCCAGATCAAATGTCCACTGGGGGGCAGAATCACCTGCTGAGACCCACTGGTTAAAATA
Celera SNP ID:            hCV16089247
SNP Position Genomic:     150571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21400):
CACATCCGAGGGAAGGATGGATGGCTATTGATTTCCCTTCAGGCCATGCCAATATGTTTGTCAAGCAACAGATGCAATTCAAGTGCTACTGTGATCCAGG
Y
GTGGCTCGCTGTTTAGGTAAAGAAGCTTCACAAAGGCGCTGCCACAAACCAACATGTGTTCTTTGGGTTTCATCTCGTAATTTCATTCATGAAGGTTGGG
Celera SNP ID:            hCV8738748
SNP Position Genomic:     334824
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,11)      total(C,3|T,11) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21401):
GTGTGTTCGAAAATAAACCCAGCTCTTGGCCAAACAAACAGTCGGTATGTGGCCGTGCTGTGCACCGAGCTCGTGGAATCCCAGCAGGATGACCTGCTCT
K
TGAAACTGTGGCTTCAGAACAAAGCAGCCAGTCATGAAACTGGGGGCACCTGACATTGCAGGACACCGTGGGGCTGGTGTGAGGCTGAAAATGTACCTAG
Celera SNP ID:            hCV1543889
SNP Position Genomic:     401087
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21402):
GCAGCAAGCAGGCTGTTGGGTGCTGCAGGCGCTCTCCATTGGAGCAGTGCTGTGGAAGCACCGTCGGCCTGCCGCCGTGCTGAGTGATGCCAGGGCCACG
R
CAGAGGCTGGCGTAGGCACGGGAGCGGGACCACACGTGGCCAAATGAGCAGGAAGGAAGGGACAGGGCAGGATTATTTTAGAAACTTAGAAAAATCATAC
Celera SNP ID:            hCV8738749
SNP Position Genomic:     345087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21403):
CTTTGGCTTCAGCCAAATGTGTTCTGAAGCTACTACCAACGGCCAGTCATTTGGGACACCTGAAACAGGACTGAGCACTGGCTAGGGAGCATTTTTTCTC
R
CCATGGATGTGGTTCTGTCGTTGTGAAGTTTGACTGATTCGTCGCCTTGTGTTTCTAAGAACGGTTGGAATGATGCATGATGGTCTGATTGCGTTTAGCG
Celera SNP ID:            hCV25967902
SNP Position Genomic:     560809
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,22)   caucasian(G,28)   total(A,8|G,50)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21404):
TATTTTCTGAGGGGCGAAAGTATAGTTGAAGTAAAAAGTTTTAGTGCACTTTCCAGAATGGGCCGGATGGTGACTATTTTAGGTTTTGAGGATGGTACCG
W
CTCTGGCAACTCCTCAACTCTTGTAGGGAGAGGTACAGACACAAATTGGCATGGCGTGTTTCAATAAAACTTTATTTACAAAAACACATGGTGGGCTGGA
Celera SNP ID:            hCV28008830
SNP Position Genomic:     138443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21405):
TTCTAAATGTAAATAAAATTAGGTTTAGATCCCTTTTAATTACCTGAGGTGCTGTGAGCGATTACAATGGCAATTGATAAACTTAATTTCTTATTAAAGC
A
AAAAAAAAAAAAAAAAACCATGAAAAGTTTCTCTCTGCTATATACTTAACTCTTCAGTAGCCATGGCCTATGCAAAAAAAATTTACCTGGTTTATATGTT
Celera SNP ID:            hCV27155889
SNP Position Genomic:     296443
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,6)   total(A,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21406):
ATCACAAACACACTGGCTATGGCTGGAAGAGGTTCCCTGGAAGAGTCAGTGTCATCTAAGGTGGATGGAATGGATTCTTCTACTCCGCAGCCCGCATCTC
R
TATGGCAAAGTGCAAAACCTGGGATGGATTCTCAACAAAGGTACAGTAATTGGGAGACACAAACAGTCCAGTGTTTTAGCCCTGAAGGAATACTACCTTA
Celera SNP ID:            hCV9079011
SNP Position Genomic:     178316
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21407):
TCAAATTGCAGAAAAATAAAAGCTCAAATATTATCTGTTATGTCAAAGTTACTATTTGAGCTGTAGATGCTGTTTTCAAAACAGATCATCCTCCTTAAAG
Y
ACCCATCTCTCTCCACTGACATGTGCCCCTGTGTCCAGCCGCACCTTCCAGCAGAGTTCCCTGCAAAGACGCTTCCCTGCAGCCTCTGTGGGTCAGGAAT
Celera SNP ID:            hCV9087034
SNP Position Genomic:     502121
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21408):
ATCTGTTATGTCAAAGTTACTATTTGAGCTGTAGATGCTGTTTTCAAAACAGATCATCCTCCTTAAAGCACCCATCTCTCTCCACTGACATGTGCCCCTG
Y
GTCCAGCCGCACCTTCCAGCAGAGTTCCCTGCAAAGACGCTTCCCTGCAGCCTCTGTGGGTCAGGAATTAGAATGGGTGCAGCTAGGAAGGCCTGTGTCT
Celera SNP ID:            hCV9087035
SNP Position Genomic:     502153
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21409):
TATTATGGGGTGCTGACTTGAGAGCGCCAGGCTTGCAGTTGTATTAAACGTGGAAGATTCAGACAGAGATGAGATAGGGCCGTGCGGCAGCCCATCACCG
S
CAGCGCTTGCTCGTGGTGGTGAGGCCTCTCCCTTCCGGCACAGACATTTATCTTCTGTCCACGTGTGTGCCGCTCACAGTCCACGTAAGGCTGCGCCCTG
Celera SNP ID:            hCV1543890
SNP Position Genomic:     399801
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21410):
TTGTACTTATTCTCTGGTAATATGACTGGAGAAGTATTTTATGTCTCAAGAATTATTATGCATTTCTTATTTCTCTGTCCTTTAATTTTGAAGGGTCAGT
W
TAAAAATACTTTATTCAGTATATTCTAGCTCATTCTCCACATACAATTATATTCCAATATTTGTAGGGTTTATTCTCTCCAAGCAGCATGATCAATCAGA
Celera SNP ID:            hCV9087036
SNP Position Genomic:     503130
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21411):
CCATAGTTTGCACCCCTGTTCAAGTTCACTCTCTCTGAAACACCTAAACCACCCACCCCCACTCTCCAAGGCCCTCATGCTCACCTTGACTCTCCTCATC
R
CCCCGCCCCCTCCTCAGAGTGCTTGCTAATGTCACTCTGGATCCCACCTATCCTGGCTTCCATGTGGGTAGAAATCTTGACTTTTCGTTACAGTGAATGT
Celera SNP ID:            hCV8738750
SNP Position Genomic:     345380
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21412):
AAGGAAACTAGCATGCTTTTGGGGAGACGGGATTCTAATCAGCTAATACTTCTATTATGGGGTGCTGACTTGAGAGCGCCAGGCTTGCAGTTGTATTAAA
Y
GTGGAAGATTCAGACAGAGATGAGATAGGGCCGTGCGGCAGCCCATCACCGGCAGCGCTTGCTCGTGGTGGTGAGGCCTCTCCCTTCCGGCACAGACATT
Celera SNP ID:            hCV1543891
SNP Position Genomic:     399749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21413):
CTCCGAAGTTAGACAGGCATCCGGAGAAAGGTGGATGTGGAAAGTGAGGTTGACTTCTGGGCGCATGTGTGGAATATCCAGTCCCTTAGAGGCTCGGGTC
K
AGTGGTGGAGGATGAGGCCCCTCTGCCATAGGGAGAGCCTGTCTTAATCACGCCACGCAGGTGGAACAGACTCTATGCAGAAAACTTGCGGAAGCATTTT
Celera SNP ID:            hCV8738751
SNP Position Genomic:     346688
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,8)      total(G,8|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21414):
AGGTCCCAAAATTTTACACCGTGAGAGTGACCCAGTTATCTCAGTCTGGAAAATTTCAAAAGATCGTAGAACCAGATGATCTCAGTTAAACACGGACCAT
R
CTGTGACACCCACATCCTTGGCTATCTCCAGGATGTATTACGGCAGAAGGACCACTGAGAGTCATTGGCCACATGCAGTGGTGGCATAAGTGGTCAAGTG
Celera SNP ID:            hCV1543892
SNP Position Genomic:     399002
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21415):
CACCTAGGGAACCTGACTTCACATTTTAGGGTGCATACTCCCGGCTATTTCTATGTATATTTCTCTTTTCCTTCCACAAGCACATGGTCACTGTGTATAC
R
CTGCCCACAGCCTGCCTTCCTCACTCATAGTAGATATTTTCATGTCAAGAAATATACTTGTACACCACCATTTTTAATGATTATATAATATTCCACTGTG
Celera SNP ID:            hCV1543893
SNP Position Genomic:     397065
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,7)   total(G,7|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21416):
TGTTTTCCTTGGTTGTTGCTGAGAGCATAAGTTATATTCCTGCCTATAGGCTCATCCAGGCCGCATTTCCTCCTGATTTCCTGTTTCCTCACCCGTATCC
Y
GCTGCTCTCTCTCTTCCCCTGAAGCTCTGGGAAGTCTTCCCTACACGCTCATTAGTGAGTTAAGGAACTTTGATGTGTCTCCGTGTTTAGAAGAAATCTT
Celera SNP ID:            hCV8738753
SNP Position Genomic:     353736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21417):
TTGTAGGGCAGTGTTATCCTGGGTGAGTTGGGGTATGGCCATAGGAGGGGGCTCCAGGAATTCAGGGAAGGAAAAGACCATGGCGCTGAGGAGGCGGCAC
S
GCCTGGCCCTCCACCTCCAAGCTGACCACCCTACTCAGCTCCTTTAGGGTGGAGTGGCTGTAAGGCCGTGACCAGGAAAAAAGGGACCCAGGGTGGTGGC
Celera SNP ID:            hCV16089253
SNP Position Genomic:     173752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21418):
CCGTGGCAGTCACACAGGTAGACCAGCAAGCACTCCAAGACTCAGCGACTTTTTGAATATAGAGGCTTAAAGGTAGAACATCTCATGAGACTTTAGGTTT
Y
GAGAATGGGTGCCTGTAAGAATGGTGGTTTCATTAACAGAATAGCAAACTAAGGAAGAAAAGATGGTTTGGTTCAGAAAAAATACTGCTTTAGAAAGGAA
Celera SNP ID:            hCV8738754
SNP Position Genomic:     359008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;(C,-|T,-)   Caucasian(T,39|C,45)   African-American(T,15|C,67)   Asians(C,3|T,63)   total(C,115|T,117)
SNP Type:                 INTRON


Context             (SEQ ID NO:21419):
TTAAAGTTGGGGTGTTCTAGTTTCATAGCAACACATTCCATAACTCTTACTTGATGCAGAGAAATGTGTAGATTAGAATATATGGTGGAAGTCAGTCATT
Y
GATTCCATTGTCCCTCAGTATCTATGGGGGATGGATTCTGGGATCTGCCTTGTATACCAAAATCCATGGTGGTCGAGTCCCTTATATTAAATGGCATAGT
Celera SNP ID:            hCV1543895
SNP Position Genomic:     396039
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21420):
ATTGTAGGGCAGTGTTATCCTGGGTGAGTTGGGGTATGGCCATAGGAGGGGGCTCCAGGAATTCAGGGAAGGAAAAGACCATGGCGCTGAGGAGGCGGCA
M
GGCCTGGCCCTCCACCTCCAAGCTGACCACCCTACTCAGCTCCTTTAGGGTGGAGTGGCTGTAAGGCCGTGACCAGGAAAAAAGGGACCCAGGGTGGTGG
Celera SNP ID:            hCV16089254
SNP Position Genomic:     173751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21421):
TTTTGAATATAGAGGCTTAAAGGTAGAACATCTCATGAGACTTTAGGTTTTGAGAATGGGTGCCTGTAAGAATGGTGGTTTCATTAACAGAATAGCAAAC
Y
AAGGAAGAAAAGATGGTTTGGTTCAGAAAAAATACTGCTTTAGAAAGGAAACTGGGACTGAAAAACGGCCATCTTTTTCATGTATGGCCATTCTGGCTTT
Celera SNP ID:            hCV8738755
SNP Position Genomic:     359058
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21422):
ATATAAAAAAATGCAGACATTCTACCCTTGATAAAATTTAAAGTTGGGGTGTTCTAGTTTCATAGCAACACATTCCATAACTCTTACTTGATGCAGAGAA
R
TGTGTAGATTAGAATATATGGTGGAAGTCAGTCATTCGATTCCATTGTCCCTCAGTATCTATGGGGGATGGATTCTGGGATCTGCCTTGTATACCAAAAT
Celera SNP ID:            hCV1543896
SNP Position Genomic:     396002
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21423):
GAACTCCTGACCTCAGGTGATCCATCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCCAGTGGTGTGATTATTCCAT
R
ACCATGGTGGTGATTCCTGTGGGCTAAACTGTGCCTCCCAGAATGTGTGTGTTTTAAGTCCTAACCCCCAGTGCCTCATAATGCGATTCTATTTGGAGAC
Celera SNP ID:            hCV16089255
SNP Position Genomic:     169347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21424):
GATGATGATGTTTTGCTGAAACAAAATGATGGCCATCCGTGCCAGGGGTTAGGGATGACGGTTGCAGGGCAGGCTCCTTTGGTGTCAGCTGCCTCGTGAC
Y
GTATCACGTGGTGACCCCAGTCTCTTCCTTTCCTGCTTTCATACTGAGAAATCGTTTCGTGTACAGCATGCGGTGCCTTCCCCGGGGGTTAACTTGTTCT
Celera SNP ID:            hCV8738756
SNP Position Genomic:     389286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21425):
TTTTAGTAGAGACAGGGTTTCACCAATATTGGCCATGGTTGGCCAGGCTGGCCTCAAACTCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGT
K
CTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCTGGTTAATGCAGTTTTTTTAGTTTGTTCTTTCTTTTTCTCTTTGTCTCTCCTCTCTCTTTCTTTCA
Celera SNP ID:            hCV1543898
SNP Position Genomic:     394585
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21426):
AGGTATGGGCACAGGAGGAAGTGATGGTAGATTTCCACTGTAGTTATTCCCTTTTTTTTTTTTTTTTTTTTTAAGACAGTCTTACTCTGTCCCCCAGGCT
R
GAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCATGCACCACCA
Celera SNP ID:            hCV8738757
SNP Position Genomic:     402057
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21427):
CCCAAGCTCAGTGTTGGCCGTCAGCTTCCTTAACAAAGGGAAACCTGTCAAGGTAGAGCAAGGTTTGCTGGGAATTGGTGTTAAAACAAGAAGAAATTCT
S
AACCACCATTTAAGAAGACTGGATTAAACATGACTTCAAAAATGTGTTGGTTTCAAATTCTGAGTGGTTTTCAAGGAGGCTTAATATGATTTCATTAAAA
Celera SNP ID:            hCV1543899
SNP Position Genomic:     393616
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21428):
TCTAAATGTAAATAAAATTAGGTTTAGATCCCTTTTAATTACCTGAGGTGCTGTGAGCGATTACAATGGCAATTGATAAACTTAATTTCTTATTAAAGCA
A
AAAAAAAAAAAAAAAACCATGAAAAGTTTCTCTCTGCTATATACTTAACTCTTCAGTAGCCATGGCCTATGCAAAAAAAATTTACCTGGTTTATATGTTA
Celera SNP ID:            hCV27155890
SNP Position Genomic:     296444
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21429):
AGATCTGCTTAAATCCCTCGAACACCCAAGGCTGTGTAGATTTGCCGCTTTGGGCATGCCTAGCGAATTCCATTTTTGTGCTCTTTTGTGCCTCTTTTGC
R
TAGTAAGCTTATGAGCGCCATGCTCTTTTTGCTAATATCAGTTAAAATCTTTCCATTTTCCACTTATCCTCGTAAAACAAAAGCAAAACATGAGTTGGTC
Celera SNP ID:            hCV39943
SNP Position Genomic:     461499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21430):
ACCTGTTTCTTCCTTTTCTGTAGCCAGCGCTGGGAAGTCTGGGAAGACACCAAAAATAGCAATGAAGCAGCTCCCTGGAGGGTTGCTGGGAGATGCTTGG
R
CACAGAGAGTGAGGTGTTTGCTGGGAAAAGCCATTTGGGATGGGTGAAGGTCCATGCTGGAGTTGGAGAGCGCAGAAAATGGGGTGAGTGTGAAAGTCTA
Celera SNP ID:            hCV39944
SNP Position Genomic:     461920
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21431):
CAGTGATCCTGGACAAATTTGGAGTAAGAAACTCCCGCCAGTCTCATGGCCAGAGTGCCCAGGGAAAGTCTTCTCTCCCAGTGGTGACTCCGGGTTTCCC
Y
AGCCCAGCACAAGGACTTGGGCTGGTGAGCTACAGAATTGCAAAGAAGAGCAGGAGCCAGCCAGCCAGACCTGGCCATGGCTGTGCCATAGGATATCACA
Celera SNP ID:            hCV39945
SNP Position Genomic:     462137
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21432):
TAGTAATGAGGACATACTCATCTAAAAGTGTGCCAGGTTTTCTGGGGTTTTTTTTGTTTGTTTGTTTGTTTTGTCTTAGAGACAGGGTCTCACTGTGTCA
Y
CCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAGACTCTGCCTCCTGGGCTCAAGGGATCCTCCCACCTCAGCCTCCGGAGAACCTGGGACCAC
Celera SNP ID:            hCV39946
SNP Position Genomic:     460086
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21433):
TAAAAGTGTGCCAGGTTTTCTGGGGTTTTTTTTGTTTGTTTGTTTGTTTTGTCTTAGAGACAGGGTCTCACTGTGTCATCCAGGCTGGAGTGCAGTGGCA
Y
GATCTCAGCTCACTGCAGACTCTGCCTCCTGGGCTCAAGGGATCCTCCCACCTCAGCCTCCGGAGAACCTGGGACCACAGGCATGCGCCACCATGCCCAG
Celera SNP ID:            hCV39947
SNP Position Genomic:     460108
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21434):
CTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAGACTCTGCCTCCTGGGCTCAAGGGATCCTCCCACCTCAGCCTCCGGAGAACCTGGGACCACAGGCA
Y
GCGCCACCATGCCCAGCTAATTTTTTGTATGTTTGGTAGAAATGGGGGTTTCACCATCGTGCCCTGGCTGGTCTTGAACTCCTGAGCTTCTGTGTTCCCC
Celera SNP ID:            hCV39948
SNP Position Genomic:     460192
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,8)   total(C,5|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21435):
TATGAAAACCCAGAACATTCCAGATGTCCTAGGAACACAGGTCCTAGGTGTTTTTTTTTAGCTTGGGAAAGTTACGATGACCCATAAGCCTGCTCCACAG
S
ATGGCTGTAGCACAGACACCTTCCCCTGGGACCCCCATTGGCTGTGTGTCCCCCAGCTTCTAATTCCTCTAGAATATCATGCCCAGGTTAGGCACTCTTT
Celera SNP ID:            hCV9087041
SNP Position Genomic:     505895
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21436):
GTGCAATAGTTGATGAAGATAACATAGTTTATAACGCACACCTCAAAATTCATTTCTTCTCACGTAACAACTTTCTTAGTGCTTGTACTTGTGTGCCTCT
Y
GGAGTTACTTGTTGATAGGACAGCGTTAAGGGGGTCGTTTCTTTCTGGTTTGAAAGTTGAGAAGTAGGTCATCACTGTCATCGTCATAGTGGGGACACAC
Celera SNP ID:            hCV9087042
SNP Position Genomic:     506311
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,12)      total(C,12|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21437):
CTCCCTGCAGTGTTATTAGCTGTTCCTGATTTGGATGTGTAAGCCCAAGCCGCCACGTGGGCTCGGAGGGGTACAGAGATTAACTGGAGGCTTGCCAACC
R
TTTGTCACACAAATAGCAGTGCCAGTTAACTGAGATACGATAAATCATTTTTCTCAAGATTGAAACCTTTTATCAGTTGTGTCAGTTTCATTATTCGATA
Celera SNP ID:            hCV9087043
SNP Position Genomic:     507941
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21438):
TTCATCATTCATTCCATTCACTTGACAAATATATAACTAGCGCTTTATCGTATGCAGTGGTGTCCCAGGGTACATTGGGAAGTGACCCCAGAGAAGATGG
R
CACATCAGTTGATCCAATCCAATCAAATGCTGCCAAGAACTCAGTAGGCTAAAGGGAGTGTGGGATCCATGCGAAGGGAAGGGTGTGTGCGGCTATGGAG
Celera SNP ID:            hCV11534690
SNP Position Genomic:     453596
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21439):
TGTGCTTTGTCAGGTGGTGAAAAGTAAAATGAGGGTGAGCAGGTGCAAGGCATACGTTCGCATTCTGAAGTCAAGTCGTGCATGCATGAGTGTGCGAATT
M
CTAAGCATGTTTTCAACTGAGACCATCACAGCAATGTATCTGTTCATCATTCATTCCATTCACTTGACAAATATATAACTAGCGCTTTATCGTATGCAGT
Celera SNP ID:            hCV11534691
SNP Position Genomic:     453453
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21440):
AAAATGAAAGGTCATAAGCCTCATCTTCTCATTAACACCACACCAGATTGATTCCAGTATTCAGTGCACAGATAACCTCATGTTTCAGCTTCCTTATTGA
Y
GTGAATGTGCTGAGCAGAGCTCACCTGCCTCTTGTCAGAGACATGAATGGGCTGATAATATCTAGTTTTCAAGCAGAGGAAGTTAGAGGTGAACCGCAGC
Celera SNP ID:            hCV16089260
SNP Position Genomic:     463989
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21441):
CAGCCTGGTTGCTGGGTATGAGGCCTCCACCTCGGCAGGACTGCTTCGAGCTGACCTGGACTGTGTTTAGAACAGTGTTTGGTGCACTTGTATCCTAGCT
K
GTCTTGATGTCAGGATCCTTACCCCTCAAGCAATCAAAAAAGTTATCCAGCTTGTTTCACAAATGAGAACTTCAGACCTTCAGCCTTAATTAATAACTCA
Celera SNP ID:            hCV16089261
SNP Position Genomic:     437687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21442):
CATAGATACATGCATATTGCCTTTAATGAAGATCTTTTTTGTTGTTGTTGTTACGGAGTTTCACTCTTGTTGCCCAGACTGTAGTGCCACGGCGCAATCT
S
GGCTCACTGCAACTTCTGCCTCCCAGGTTCAAGTGATTCTCCTGACTCAGCCTCCCGAGCAACTGGGATTACAGGCGTGCACCACCACGCCTAGCTAATT
Celera SNP ID:            hCV9087049
SNP Position Genomic:     509020
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21443):
CGTTTGTATCTGGTAGTATAACACAGTTGAATATTTCTCTTTTATCTTCCAGTTTTTCTTGGCTACTGCTACCTGCTTATTTTTCCTCAAATGAACTAAA
S
AGTAACTTGAAACCTTCTCCTCCTTGATAAAAATAATCCCCTCATTGGTGCACATGACATCAGGACCTCCCGAGGCTGTGATACGGGCACGTAAATAAAA
Celera SNP ID:            hCV16089262
SNP Position Genomic:     425571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21444):
TTTAATTTCTTATGTAACTTCATTTAGTCCACAAGTATTTATTGACCACTTACTGTGGCCACCCACTGCCCTGGCCCTGGGAGTGGAGCAGGAATCCAAA
Y
GGAGTTCCCAGGTCTCTCTAGGTACAAAAGAAGAATCGACGGATAATCACTAAGGAAACAAATTGAAATGTGCTTTGTCAGGTGGTGAAAAGTAAAATGA
Celera SNP ID:            hCV11534692
SNP Position Genomic:     453284
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21445):
AATTTTATGGTCTTCTTTACATAAAAAGGTTTTCCCTCTTTTTTATTTATAATCAGATTATCTTTTACTGTTGTGATTTCTACTTTAAGCTATTTAGAAA
R
CCTTTCATAATCTTGAAACCAGATCACAGTTTACATATATATACTTCTAAGTTTTAATTTTATTGTTTTTTTCCCTTAAAAAATATATGTATGTGTTTAT
Celera SNP ID:            hCV16089263
SNP Position Genomic:     425028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21446):
CATTTTTTGGAAATGTAGATATTCCGTTTACAAATCTAAGCACCGTTACCAAGAGTGGTAAGTTTCTGCAGGCAGTAGGACCTTTCCAGAGGATTAGCAG
S
TGCTGTGTTCCCTGTGGGGTTGGCAGTGGGCTGGGGGCACAGCACGGATGGGATTGTAATGTATACCATTTATCTTGGTATAGAATCTTCCAGTTTCTTG
Celera SNP ID:            hCV16061459
SNP Position Genomic:     279519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21447):
AATCAAGGTGCGATTTATGTTCATTAAGTGCTTGTCAAAACTGAAAAATTTTCTAATCAACAGCAATCTAGCTGCAGCCCCCTCGATGGCTGGGAGGGCC
R
CCTCTGCCACATCGGCTATTTGCCTGTTACAACTCTAGGCTAAAAATCCGCTGATGATTACATTAGGCTAAGCTGCGAAGTAAATGAACCATGTCTTATT
Celera SNP ID:            hCV16089264
SNP Position Genomic:     409901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21448):
TGGATCACTCCCTTCAGCTTACATACCTGCTCGGCCATCGCTCAGCCCAACACCATGGCCCTCTGCAGTTTCCACCTCTCCTTCTATTCTCCTTCTCACC
R
CACGTTCCAGGACACTCGTCTGTCCTCAGCTACCACCCACATTCTCTTCAACCCTCTCCCATGTGTCATCAGCCCAGCACCCTCCAACACTGCTCTCATC
Celera SNP ID:            hCV11534696
SNP Position Genomic:     451415
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21449):
CCCTGGAAGAGTCAGTGTCATCTAAGGTGGATGGAATGGATTCTTCTACTCCGCAGCCCGCATCTCGTATGGCAAAGTGCAAAACCTGGGATGGATTCTC
R
ACAAAGGTACAGTAATTGGGAGACACAAACAGTCCAGTGTTTTAGCCCTGAAGGAATACTACCTTATTTTTTACTTTGGGCTCTATGAATGCTTCAGATA
Celera SNP ID:            hCV57590
SNP Position Genomic:     178350
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,14)   total(G,2|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21450):
CACAGCAGCAGGGGCCACGTGAGTCAGGGATAAGAACCCCTTCCCTCCCTTGTCCAAGTGTGCGCTCACCATTGCTCCATCTGTAAGGGCGCACCCTTCT
R
TAGAAGTAACTTGCCTTGCTGAGAATTAAAAAGAAAATTTTATATTTGAGTGCTATTTCTTTTGTGGCACTGAAACTTTATATATAACATAATGTTGCAG
Celera SNP ID:            hCV37410
SNP Position Genomic:     168397
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21451):
TTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGGGGATTACAGGCATGAGCCACCGTGCCC
R
GCCTAATGAAGATCTTTTAAAATATAACTCATAATTTAAGACGTCATTCTAAATTGCATTTCTAATGCTTTCCAGCACCTTTCTCTACTACCTTAAGGTT
Celera SNP ID:            hCV9087050
SNP Position Genomic:     509245
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21452):
AAGCGAGATTTCATAGAAGTATTGAATTTTACCAAAAGTTTCAGAAGTCCAATTCATTATTAGATTTCTATAAATATAAATATTTATATGATATTTCTTG
Y
GTTGAATTCAGTATGTGCTCAAGTTAAGTGTGATTTGAAAAATGACCAAGTCTCCTAAGGTGAAGTTTGTGTGTGAACAGGAGGGCCGGGGTCGCTGGGT
Celera SNP ID:            hCV9087051
SNP Position Genomic:     514684
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21453):
CTGGGATGGAGGTGGACTCTGAGCACAGACAAGGGACCCATGGCCCAGAGCCCAGAGTCACCCGCAGCCCCCCTGCGCTGCTGCTGCCCGCATGGGGTAC
Y
CTTAAGTCCCACATCCAAGCTCCCTCCACCCCACACTCTCCCTTGGATTTGCGCCTGTTCTTTCTCTGGCTGTGCACCTGGCAGTGCTGAGAGGAGAGCC
Celera SNP ID:            hCV9087055
SNP Position Genomic:     515445
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21454):
CCAGCCCCCAGCCTGCTATCCGCTTCACAGAGCAGCGAGCCAGTCCTTGGAGAGGGGACGTGAGAAGGGGCAGAAGTCAGGGGACCTGAGGCTGCTCCCC
R
GCACCAGTGCTGCTCAACACACACAATTGTGTGACCACCACTGAACAAATCTCACAAGAAAGAGGTGCATTTTACTCCACACGTCATTTGGTTTTGAAAA
Celera SNP ID:            hCV9087057
SNP Position Genomic:     519768
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21455):
AGGCAGGTTGGGCGCAGGCTTCTCGTGCGCACCAGCGAGCACCCGGGCCAAGCGTGGAGGCTCTGCGGGCTGGGGGTCCGGCCCACACCATCAGCCTCTG
Y
GCAGCCGTTGCTTTTTCCGTTGACCAAAGCCATGACCTTACCTTTATGCAGTCGTGTTCAGAGAGAGATGAAGCCTCAAAGGCAAAGTCAGACTGACACT
Celera SNP ID:            hCV16061466
SNP Position Genomic:     279294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21456):
GAGGAAGTCTTAGCTACAGATTTTTGGTGGAAACAAATGGTCCACCCTGATCTACTCATTTACCATCTGGTTTGGGGAACCTTCTGTCATCCTACCTGCT
R
TGTATTTGTGACCTGATATATTATTTTTAAATACAGTTGTTTAATAGTGTAGTCAAAAATGAAAGGTCATAAGCCTCATCTTCTCATTAACACCACACCA
Celera SNP ID:            hCV144199
SNP Position Genomic:     463833
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21457):
TGGGTAACAGGACATTGGGTCTGTGACAAGGTCTGAGCTAGAAGGACCGTATGGCCCATGAAGCACAGTGTATGCAAGTGCTGTTGTAATTTAGTAAACC
R
CCACTAGGGGGCATTGAAAGCGCGTCTAAGGATTATTCTCCTGCGCAAATGTTTTCCTTTTGCTGTCACCATGGAGAATACAGATATAATAAAACACACT
Celera SNP ID:            hCV16061467
SNP Position Genomic:     278231
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21458):
AATTTCTGTATTTTTAGTAGAGACAGGGTTACACCATGTTGGCCAGGCTGGTTTCGAACTCCTGGCCTCAGCCATTCCACTCGCCTCTGCCTCCCACCGT
K
CTAGAATTACAGGTGTGAGCCAACATCCCTGGCCAGAGTCTTCTAGTTTTTGAAGGTTTTTTTCTTTTCCCTCTTAGTTTTTCTTACCCTAAGATAGAGG
Celera SNP ID:            hCV16061468
SNP Position Genomic:     279896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21459):
CATCTGTATCTATATTTAACAGATTTCATATTCTTACTGGCATAAAATTGGAAATAACTAAGTGTTTTAACATGAGGAATGGCTACAACTATGTTAATAC
Y
ACCTCCATGATGCAACTGTTATAAGGGACAGGTTGGAAAACTGTGGAAACATAATACTTTACATTAAAAAGTAGTATTTTTTATTGTAGAGTCTCCAACA
Celera SNP ID:            hCV8739576
SNP Position Genomic:     518463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21460):
AAGGGTGCACCCGCCCACTGCCCTCAGGGAGCTTACTGTCAGTCTAGGAGGCTGCACAAAGGATCTCATGCAGAAGGAGGGAAGAGGCCCTGGATGCTCT
R
GGGGCTTTGTGGAGAGCAGAACTACATTTGATTTAGGGGTCAGGACAGGTATCATGGCCTGCGGGATGTGACAGGAACCACAGTGACCGCATCCTCAGTG
Celera SNP ID:            hCV8739577
SNP Position Genomic:     531243
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21461):
TGGGTTGACTCCAGGGCACCCAGAACAGGTGTCATCCCTCTTCCATCAGACAGAAGTTCCCTGTGCTCAGAGTCCCCAGTGAGCAGTCCCTGGCATTGGG
Y
TCTCTCTGTGGTGCCTGCTGGCCACCACCCTGAGTGATAGAGACAGGACCACCTCCCCACCATTGTGGGTGACACACTCACAGCCTTCACTTTCACTGGG
Celera SNP ID:            hCV8739578
SNP Position Genomic:     543707
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21462):
CTCATACTTTGTACATCCTGTCTGTAGTTTGATGAGAGGCTTTGTTGTAGAAATATTCTCTTTACTCATGAACTGACTCTTCCTAGACTCCATAGAAAGG
W
TAGAACATTCATTTGCATTTGAAGTTTCATACAACAGTCGTTTCCATAACATATTTGACTTATCTTAGGAAGTTTCTCGCATCTTCCCTTAGTTTCTACA
Celera SNP ID:            hCV27960938
SNP Position Genomic:     307740
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21463):
TAACATTTCATATGGTAGGAGGAAGAAGAGGCACTGTGCTTTCTGAAGCATTTATTCCTCCTTAGAATTTTTCCCAGGGGTAAGTGTTCAGAAAATCTGA
W
GAATTCAAAATAATTTGCTCCAAAATATTATGATGTGATTAACTACGTATTGTACCAGCCAGCATTTACTGACCATATGTATGTATTAGCCACCATCAGT
Celera SNP ID:            hCV27960939
SNP Position Genomic:     350329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21464):
TCACTGCTGGAACTGACCTTTGGGTGCTTGGGCCACCCTTAGGCCTTGAGAGGCACAGGCTGAGGCCTTCTGTACAACCTCCTGGCCAGTGTGGAGGGGC
Y
GGGCTCCAAGCAAGCTTGTCCATATCACAGAAAGTCAAGAGTCTTGCCGTGTGCGGTGGCTCACGCCTGTAATCTCAGTACTTTGAGAGGCCGAGGCGGG
Celera SNP ID:            hCV453900
SNP Position Genomic:     158460
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21465):
AGGCACAGGCTGAGGCCTTCTGTACAACCTCCTGGCCAGTGTGGAGGGGCTGGGCTCCAAGCAAGCTTGTCCATATCACAGAAAGTCAAGAGTCTTGCCG
Y
GTGCGGTGGCTCACGCCTGTAATCTCAGTACTTTGAGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATGGAGACCATCCTGGCTAACATGGTGAAAC
Celera SNP ID:            hCV453901
SNP Position Genomic:     158510
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21466):
TGGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAACCGAGATTG
Y
GCCACTGCACCACCCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAAAAGTCAAGAGTCTTCACAATGAATGTTGACAGTAATACAAGGTCAGCTTTTT
Celera SNP ID:            hCV453904
SNP Position Genomic:     158743
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21467):
CCCTGGCCACAAAGGGGGGTCAGTCTATTGCAAAGCAGCCTTCACGTTCTGGAAGCAGGGAGCAGTGGGAGCCCGGGAAGGTCAGCCTTGCAGACTTGTA
S
ATGTCATAGGATTATTTGAGCTGCTTCCGCTGCAGGTGGTTGGGAAGTACTGGATGGAATCCTTGGAGGCGAGATGAGAGGATGGGAGAAGAAAGTCTGG
Celera SNP ID:            hCV453906
SNP Position Genomic:     155785
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21468):
CACTTGGACGTCCAACATGGCTGACGCGCCTTGGACACACAGCCTCGGCGCTGCATCATTTTTTAATCAGCTATCTGAGGAATATTTATCTGATCAACAA
R
GAGTGTTGTCAGGAGGAGACCAGAGGTGACATTAATAAGCCTGTGGTTTCCTGGTACAATGATGGAGGAAGAGTTTGGAATAAAACCCTGCTCGTTTGAG
Celera SNP ID:            hCV9087062
SNP Position Genomic:     521752
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21469):
GACGTCCAACATGGCTGACGCGCCTTGGACACACAGCCTCGGCGCTGCATCATTTTTTAATCAGCTATCTGAGGAATATTTATCTGATCAACAAGGAGTG
Y
TGTCAGGAGGAGACCAGAGGTGACATTAATAAGCCTGTGGTTTCCTGGTACAATGATGGAGGAAGAGTTTGGAATAAAACCCTGCTCGTTTGAGCATGCC
Celera SNP ID:            hCV9087063
SNP Position Genomic:     521758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21470):
ACAGGCGAGGAGGGGTCCACGCCAGCTGTGTGCCATGCCTCCACCCTCCACAGCCCCAGGCCAGGGCCTCCTCTGTGTCCCCGCTGCCCTCTTCCTTCTC
R
TGCCACCTGTGCATTGGTTCTGACTGCGCTTTTCAGCGTTGAGTCTCTGCATTTCTCTGTTCTCTTCTGCTTGGGTTTTTTTCATTTGATGCATAGGTTT
Celera SNP ID:            hCV9087209
SNP Position Genomic:     559316
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21471):
AGCCTGTGGTTTCCTGGTACAATGATGGAGGAAGAGTTTGGAATAAAACCCTGCTCGTTTGAGCATGCCAGCAGACTAAAGAATATTTTTATTCTGCTTA
Y
AAAGAGCCAGTCAAAAGAGTCTCAGTTTGAAGTGTTCAGTTAAGTTTAAGTCTCAGTGATAAGTTTTCAGGCATTCACATGTGTTAGTAAAAAAAAAAAA
Celera SNP ID:            hCV9087064
SNP Position Genomic:     521890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;JBIC-allele(T,623|C,636)   total(C,636|T,623)
SNP Type:                 INTRON


Context             (SEQ ID NO:21472):
CAAAGAGAAGAAAGGCCTGGAGAGTCGTGCGGACAGCATTGGGAGCGGCCGAGCCATCCCAATTAAACAGGTGAGCAGCCTCCCCATCCTTCCCTCCCTG
W
CGCCGGAGATACACCTCAGGTCTTCCTGGAGATGATGCTGGCTCTCGCACCAAGGTCTGTCTGATGTGCTCTGTTGATGAATGTAGAAGTCTCTCACTTG
Celera SNP ID:            hCV25964454
SNP Position Genomic:     319206
SNP Source:               Applera
Population(Allele,Count): african american(A,15|T,17)   caucasian(A,12|T,6)   total(A,27|T,23)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21473):
TATTCCGTTTACAAATCTAAGCACCGTTACCAAGAGTGGTAAGTTTCTGCAGGCAGTAGGACCTTTCCAGAGGATTAGCAGCTGCTGTGTTCCCTGTGGG
S
TTGGCAGTGGGCTGGGGGCACAGCACGGATGGGATTGTAATGTATACCATTTATCTTGGTATAGAATCTTCCAGTTTCTTGTCTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV16061475
SNP Position Genomic:     279538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21474):
AGTTATTCAGCCCAAAACACCAGCGGTGCCACGGTCAGGAAGCCCCGATCTGGACAATGAAAGTTTCGCTTCCTTGGCCCCTTCCAGCTGCGGTTGCTGC
R
TTGCACAGTAATTCAGTAAGAATCCTTCCCAAAGAAAGGAAAGCCGGTTTCTGGTTTGCAAGAGGGTCACTGCAGCCAACCCAGAGCAGTGCCTGATCCT
Celera SNP ID:            hCV16192870
SNP Position Genomic:     449809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21475):
AGAGTTATTCAGCCCAAAACACCAGCGGTGCCACGGTCAGGAAGCCCCGATCTGGACAATGAAAGTTTCGCTTCCTTGGCCCCTTCCAGCTGCGGTTGCT
K
CGTTGCACAGTAATTCAGTAAGAATCCTTCCCAAAGAAAGGAAAGCCGGTTTCTGGTTTGCAAGAGGGTCACTGCAGCCAACCCAGAGCAGTGCCTGATC
Celera SNP ID:            hCV16192871
SNP Position Genomic:     449807
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21476):
TTTTTTTTGCCTTTTCCGGTCCAATGGCAGACACAGGGCTGGGTGACTCCGTATGCTCCAGCCCCAGTATCTCCAGCACCACCAGCCCCAAGCTCGACCC
G
CCCCCCTCCCCTCACGCCAACAGAAAGAAGCACCGAAGGAAGAAAAGCACTAGCAACTTCAAAGCCGACGGCCTGTCCGGCACTGCTGAAGGTAAGGGTT
Celera SNP ID:            hCV11532317
SNP Position Genomic:     480394
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,4)   total(G,1|-,4) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:21477):
CCTTGGGAGGAGGACGCGTTGAGCAACCAAAGGTGGCCGACTCAGAGCTGGTCATCGTGGGCATTGGTTGAACAGGTGTGAGGGCATAAAACATGGAAAT
R
CTGTCCACAAGGAGTAGCGGGAGGCAAAAATACAGGCCCAGTTGACCACCAGCTTTATAGTATTTTACCTGCCAGTGGATAATTGAGAGCTGATACAGGT
Celera SNP ID:            hCV8739585
SNP Position Genomic:     550505
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;no_pop(A,-|G,-)   JBIC-allele(G,191|A,1276)   total(G,191|A,1276) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21478):
ATATATTATTTCACATCAATTTGATGAGATGTTTCAATTTATGAAGAATTCTTACGCAAAAATCAAGCTTATTGTAACTGTCCTCTGAAATTGATCAATT
K
TTGCTTTAACCATAATATTAAATGCATACTTAATAAATAAGCCTCAAAAACACTACATATCAGCCAGACACGATGGTTCACGCCTGTACTCCTAGTGCTT
Celera SNP ID:            hCV8739586
SNP Position Genomic:     550972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21479):
CGATGATCCCTGTGCGAGCAGAGGCCGGCACCATTTGGTCCCTGAGACTCAAAACAAAGACTGATTTGCCTGGTTAAGACCCCCAGTCTCTAATGCAGTC
R
ATAAATCTTTGTTGGTAAATAATTGCTATCGAGCAGAGTTTTAATATAAATTTATGAGTGGTGTTTTATCACAGCTTGGGGCTGCAGCAAACACTGAGTG
Celera SNP ID:            hCV27960940
SNP Position Genomic:     380494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21480):
TAAAACTTCCTTTGAGGCTGGGCCCGGTGGCTCATGCCTATAATCCCAGCAATTTGGGAGGCTGAGGCAGGCAGATCTCTTGAGGCCAGGATTTCGTGAC
Y
AGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAA
Celera SNP ID:            hCV27960941
SNP Position Genomic:     613956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21481):
ATAAAATGAAAACAAGAATAATCACCTGTTCTGTAATATTCCAGAGGAGCCATAGTAGATACTCAATAAATATTTGAGAGATTGTGTTACTTTTTCATTG
K
TTTCTTTCCAAAAACTAAAGTTAGGGTCATGATATATGACTGATAAAAAAAGGAAGTGGAAGTAAGTGGCCAGGCAAAGGCTCCATGGAGCATCAGCCTG
Celera SNP ID:            hCV8739587
SNP Position Genomic:     576833
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21482):
ACCATTTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCATCCCACCTCAGCCTGTAAAAGTACTAGTATTACAGGCGTGACCCACTGTGCCCA
R
CCTATTTATTTATTAAATAATTTTTTGTTGTTGTTTTTAGAGACAAAGCCCAGGCTGGAGTGCAGTGGCATAATCACAGCTCACTGCAGCCTCTAACTCC
Celera SNP ID:            hCV16192878
SNP Position Genomic:     358474
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21483):
ATTTAGTTTAGCGGCCCTAGTTTACACGTGGTTAAAGTGTTTTATTAGAAAAATTTTTCAAACATACAGAAATAAACACGTGTGTACTCACCACACGCTT
S
ATCAAATACAAGCCCTTTTCTGCTACGCTGCTACTGCAAGAAATAAGCAAATCCTAAGTAAAAGTTGCAGCTCCTTCCATGTGCCTCCAGAACACGTTTC
Celera SNP ID:            hCV16192879
SNP Position Genomic:     315886
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21484):
CTTGATTGACAGGAACCTGCAGACCAGCTGTGCTCTTGGTCCTGTGGCCTTCCATGGGAGAGGGTATGGGAAGGGCTTTGGTGCACCACAGATGTCTTGG
Y
CTGTCTCTTCCGATGACTTCCCTTTGCTTATAACTCACACCTGTTTACTTGGAGACTGTGAATTAGATTTTTAGTTTTGCAGCAGGAAAATCATTTGAAA
Celera SNP ID:            hCV2089500
SNP Position Genomic:     37858
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21485):
GTACCACAGTTTTCTCTCAAATCGTATGTGGGTGGGTTGTGTCCAGAAACAAATAGGAAAGCTTCCACAGATGGAATGAAATAGTGGAACAGATATGGTG
R
TTTTGTTTTGGAAAGGATTTGTCTCCAAAGTTTTGGGGTGGAGGCATTCTAGTCTTGTTTTTCTTCTGAGATGGAAACACTGGCAAACTTGGAGTCTTCT
Celera SNP ID:            hCV2089501
SNP Position Genomic:     38375
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21486):
TAGTTGCTGTGTGACAAGTTAGTATTTTGTCCATGACATGCAGCAATCAGTAGAAATAGATAAAGGATGGGATATTGGAAAATCCCCTGGAGATGAGAAA
Y
GGTGGGTGACATCTGATGAGAGGAGGAGGATTCAGGGAGCAGAATGAAGACATTGGCCAGGCAAGCATCTCAGTGTGGAGGTGGGGCTGCTTAGACATTT
Celera SNP ID:            hCV2089502
SNP Position Genomic:     38606
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21487):
GAAGACATTGGCCAGGCAAGCATCTCAGTGTGGAGGTGGGGCTGCTTAGACATTTAAATTGACCTAAATCAAGCAGTTATTAATAAGTGGGCAAAACACC
R
GAAAAATTGCACTCCATTCCTGTGCCTGTCAGGGCTGTTCTATTATTTGGAAACAGACTTTACTTACTTACCTTATTGATTGAGACAGGGTCTCACTCTG
Celera SNP ID:            hCV2089503
SNP Position Genomic:     38752
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21488):
AAGTGAAAAGAAAACCAAGAGCTCCTACCTGCCTCAGCTTACCCTTTGTTTGGTGCGTGGGTGCAGTGGGCAGTGAGCCGTGCCATTCCCTCCTGGCAGC
Y
GGTGCATGGCTGGCCATGGTCCTTAGCAGTGACTGTGAACAGCCGTGGGCTACTTTGTTACCCACCCAGTGCTGCTTTTGTATGTTGGCAAATGGGGCTT
Celera SNP ID:            hCV2089504
SNP Position Genomic:     44279
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21489):
GCCATGGTCCTTAGCAGTGACTGTGAACAGCCGTGGGCTACTTTGTTACCCACCCAGTGCTGCTTTTGTATGTTGGCAAATGGGGCTTTCGCTTTCCTTG
R
TTTGATTCTGTCATTGATGCTTCAGACTAGTCATGCTTTTGTTTGAAGGGAAAAAAAAATCAATCAATCAATATCAGTAACTTGCTATAGATTTTTATAA
Celera SNP ID:            hCV2089505
SNP Position Genomic:     44392
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21490):
TAGTGCTTTCACACTTAAATTGTTGAGTTCCAAGTCTTGTCTAATAATTATCTCAGCAATTGCGATACCATTGGCTGAGGTTCATGGAGGTTTTCAGGCT
R
ATGTCACTGAATGATCGGAAGGACTCACTGCTGGCAGTCACTTGTGTGTTTTGTGTTTTTTTTTCCTCTGTCTCTCGCCCTCCATTTTTCTGCACGGCAT
Celera SNP ID:            hCV2089507
SNP Position Genomic:     49207
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21491):
TCTCTCTGCATTGTCTTAACCTGAGTTTTTCAAAGTTTTGATCCTTTTAATCCTTAGAAAATACACTAAAAAAGTACAAAAAATTAGTCGGGCGTGGTGG
Y
GGGCACTCGTGGTCCCAGCTACTCGGGCGGCTGAGGCAGGAGAATGGCTTGAACCTGGGAGGTGGAGCTTGCAGTGAGCTGAGATGGCGCCACTGCACTC
Celera SNP ID:            hCV9087070
SNP Position Genomic:     522778
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21492):
GAACTTGGGAGCCCTCATGTGCATCGAATGCTCAGGGATCCACCGGAATCTTGGCACCCACCTTTCCCGAGTCCGATCTCTGGACCTGGATGACTGGCCA
R
TCGAGCTCATCAAGGTGATGTCATCCATCGGGAACGAGCTAGCCAACAGCGTCTGGGAAGAGAGCAGCCAGGGGCGGACGAAACCATCGGTAGACTCCAC
Celera SNP ID:            hCV9087216
SNP Position Genomic:     561049
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,16|G,16)   total(A,48|G,22)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:21493):
TTCGTTTTTGGCTAAGGCATATTGTGTCTGTGGGGCTGCTGAAGGAAAAAGAGCATCTTATTTTTATGTGATTAGCATTATTCAATCACAAAATGCATTG
S
ATTCTACTCAGACTGTCGGAGAATATGCTTGCTCCTCTCCTAGGCTCTGGAGGAAGAACCTCAGCCACTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
Celera SNP ID:            hCV2089508
SNP Position Genomic:     49802
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21494):
CGGCATAGGAATGTCTGTGTTTAAAGTTGGTCTTGAGCAGACGTGGATAATTCACACTCCTTAATTTTTTATGTTTGTTTTTAGGCCTGGGGATTTCTCT
Y
CCCCCTCTTAGAAATGTATTAAGCTTCTAACCTTATGAATATATTACTTTAATTAATACATTTCTAATAGGCATAAGCTGTGCCGTTAACACTAATTATG
Celera SNP ID:            hCV9087217
SNP Position Genomic:     561383
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21495):
TTTTGGCACCATTGTGGGGACAGTGCTGTCCTCCCACGAGTGGCATTCTCTCCCAGGCCCACTGACTGTTCTGCCTACCCAGATTAGAGCTCAGAAAGTT
S
CATTTAATTTGCAGACTAAAGTGAGAAGAGATCAGTCTCGTTGTCTACACTGGAGCTGACAGTCAGTTTGTACCACATCTGAAATTATACTTGTGGGATT
Celera SNP ID:            hCV9087071
SNP Position Genomic:     523170
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21496):
GTAATGGTGAGCAAATCCTTGTAGAATTAAAATGGGATGAAGAGACCCTTATGAAGGGAGAAAGCAGGTGAAGATGGTGGGGATAGGGGCGGGACGTGCA
S
CCCCTTCACTTTCCATGCCGGGCAGTATAAAAAGTGAGAAGAAACACTTCAGGGCTGGTGTGTAAACTTCATGTTGGATAAATACGTGACTTCTGGTATT
Celera SNP ID:            hCV2089509
SNP Position Genomic:     52218
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21497):
GATGTAACTCCTCATTAATGTTAATTGTTATCCAGTGTAAAAAACGCATTTATTTTGAGGCCATTTAGTTTCTCATTTTTCATTTACAGCTATTATAAAC
Y
GTTTTTGAGTACACATGCATATTTAATGTTCCTAAGGGGTGATAAAATGGAGTGTCTTCTGAGAAGGCGTATGGCATGGAGGCAGAATAGAGCATTTCAT
Celera SNP ID:            hCV9087218
SNP Position Genomic:     561752
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21498):
TTTGTGTATTGAATGCAGAGCCTCATCGAAGCGTTGTGACGAGGAGAGCGATGCACTGACGGCCTTAGGAGTCTCCCTGATATAAGCAAAAGTCAGCTGG
R
AAGAGTGGATTTCAACTTTGTTTTCCTAAGAGAAAAATAGGCCAGATGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGAT
Celera SNP ID:            hCV16061484
SNP Position Genomic:     274390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21499):
GAAAACAAGAATAATCACCTGTTCTGTAATATTCCAGAGGAGCCATAGTAGATACTCAATAAATATTTGAGAGATTGTGTTACTTTTTCATTGTTTTCTT
Y
CCAAAAACTAAAGTTAGGGTCATGATATATGACTGATAAAAAAAGGAAGTGGAAGTAAGTGGCCAGGCAAAGGCTCCATGGAGCATCAGCCTGACTGATA
Celera SNP ID:            hCV8739590
SNP Position Genomic:     576840
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21500):
GCTACTCAGGAGGCTGAGGTGGAAGGGTGGTTTGAGCCCGAGAGGTGGAGGTTGCAGTGAGCCAAGATCACTCCACTGCACTCCAGCTTAGACGATAGAG
M
CAGACCTTCTCTCAAAAAGAAAAAAGCGAGACACAAAAGATCTATAAGTGATTGATTCGGTTTACATGGCGTCTCAGAAAAGGCCAGTCTGTAGAGATAG
Celera SNP ID:            hCV8739591
SNP Position Genomic:     586910
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|A,9)      total(A,9|C,3) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21501):
GTCCATTGAGATTCGCGTATGTGTTTTTAAACATGTAAGACAGTGCTGAGACATCCTGCCGCATACATAGCTATGGGAGGCATTGTGAAACTCTGTTTAC
S
AAAGAGACTTTTGCTTACGCAGCAAGCAAAATAGCAGAATGGAAAACACTAACGGAATGCTCACACCCTGCTGCCTTTTTGTTTAATAACAGGTGAAATT
Celera SNP ID:            hCV9087076
SNP Position Genomic:     523375
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21502):
GAAACATGATAGAGTGACACCCAAGGAACCTATAAGGAAAGGAATTTTGATTCTTTCAGAAATAACAGGAAGAAATTATCTTAAAATCTTAAGGTTGATG
Y
TGCAAACAACCAGAGACAATAAATAAATTGTTATTTAGTGATGTTGCAGAATATTGTGTTAATAGAGCCTGTGATCTCTTCTGGCAATTTCTTACCCTAA
Celera SNP ID:            hCV16061485
SNP Position Genomic:     272997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21503):
CCCCCAAGGGCTCCCAGTTTATTAAGAAAACTAAGGAAAACATAAGACAGATGAATGGGGGATGAAGCCGCAAAGGGTCCCCGCTGCTGCCCCCTTGGAC
W
TCGTAATAGTGAACTGTGTTCTGGCCTTGGGTGAGGATGAAGGAAGCTGGGCCCAGATCTTTTTCCTTGGTTTTCAAAGCCTTCCAGGTAAATATGGGAC
Celera SNP ID:            hCV8739592
SNP Position Genomic:     587343
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|A,9)      total(A,9|T,1) ;no_pop(A,-|T,-)   ;(A,-|T,-)   Caucasian(A,82)   African-American(T,4|A,78)   Asians(A,82)   total(A,242|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:21504):
ATGTGTTTTTAAACATGTAAGACAGTGCTGAGACATCCTGCCGCATACATAGCTATGGGAGGCATTGTGAAACTCTGTTTACCAAAGAGACTTTTGCTTA
Y
GCAGCAAGCAAAATAGCAGAATGGAAAACACTAACGGAATGCTCACACCCTGCTGCCTTTTTGTTTAATAACAGGTGAAATTTTGATACTAGAATAATAG
Celera SNP ID:            hCV9087077
SNP Position Genomic:     523393
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21505):
GAATGTGCTTGAGGTGATTATCCTTAAATCATCCAAGTGTTTTTGAATATTATTTCAATTATTTCATCTTAGAAGTATGAAATCAGCTTGTTTCTTGTTT
R
GAGTTGCCCTTTCTTTTTATTATTATTTCTTAATTGAGACAGGATCTCGATCTGTCACACAGGCTGGAGTACAGTGATGCCATCATAGCTCACTGCAGTT
Celera SNP ID:            hCV16061486
SNP Position Genomic:     272412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21506):
AATGGAGAATTTTGGCTCAAACACTACAGCAGGCAAGAAGAGTTAACCTGTCGTAAGTCAGGAACACGTTGGGGTTGATTAGGGAGCTGACCGTTGGCCA
R
CTCATGCTTTGGGAACCAGAGGGCCAGCCTGGCTGCCTGCTTTGCGGGCTTAAGACCTGCCTCTGGAAGGGTAAGGGCCTGCCCGTCCAGATAAGTGCTG
Celera SNP ID:            hCV9087078
SNP Position Genomic:     525370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21507):
CACTGGTTACCAGGGAATGAGAACTTGTGTTGAGTTTGAGATTTTACTTACCTGGCAAGTTGGCCTTCCAGTTTCACGGAGCTGGTCTAAGATATGAGAC
W
TCAGGGTCAGAGACAAAGAAAAATCCGTTATTCACAGCAATAGCAGTAGCCAGAGTATTAGCATTTGGGTCATTTCCCAGGTCCCAGTGCCCATAGCTGT
Celera SNP ID:            hCV8739595
SNP Position Genomic:     591818
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|T,8)      total(A,2|T,8) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21508):
CTCACTATTAGTTGTTTCCGTGTTTATACATTGCTCCCACTGAGGTTTAGGCAAATTCGTGTGGTATTGTTTCCATCATTAAATTGTAAACTCTTTGAGG
Y
ATACACTGTTACTTCTCTTTCTTTGTTATCCTCTCTTAGTTTTGTGACCTAGCAATTATTTTCTCATTAGGTATATATTCCTGCATGTTACCCATCATGT
Celera SNP ID:            hCV16192884
SNP Position Genomic:     430475
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21509):
GCCAGCATATTAACATTTAAATGCACAGTACATTCATTCATTTCATGCTGTAAGGATCATTCTGGAACGAATGATAAGTAGTGGTTTTTCCCTGACATTC
R
TACTCTACTTTTGGAAGTGTGGGAGATTGTTGAGCATTTTTAAATAGCCATAATGCAAGGGGCTTCTGTGTATTTCTAGTTCTTAAAGAAAATGCAGGAT
Celera SNP ID:            hCV8739596
SNP Position Genomic:     596267
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21510):
TTTAAAAGGAAATTATAACTCCTATCAACAGAAGGATTTAATATGTTAGTTATTAATGATACTCATAAAATGAGGCAAACAGAGAGCACGTGTTTGGCCC
R
GCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCAGGCAGATCCCCTGAGCCCAAGAGTTCAAGACCAATCTAGGCAACATGGTGAA
Celera SNP ID:            hCV16192885
SNP Position Genomic:     427259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21511):
GAGGCTAGTCCTAGGAGCAGACTAGCCCCACCTCCCCAGCGGGGGAGCCAGCAGGTAGGCTGCTGGGCAAGGACTTCACTGCAAGGAGGGACAGGGTGGG
S
CGGGGGGACTTCCCAGTTATGTCAGGTTTCAAAATATATTTGGGGAATAAAAATAGGGTGCTTGGGGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAGC
Celera SNP ID:            hCV8739597
SNP Position Genomic:     610976
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21512):
CAGTAAAATGTGAAGGATAACTGATCTTAGTAAGAGTGACATTTTAGTGAAAGGGAATTTAAAAGGAAATTATAACTCCTATCAACAGAAGGATTTAATA
Y
GTTAGTTATTAATGATACTCATAAAATGAGGCAAACAGAGAGCACGTGTTTGGCCCGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGGCTG
Celera SNP ID:            hCV16192886
SNP Position Genomic:     427202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21513):
GGGCCATACACCTGCTCAGAGCCCACAACCAGCCTTCTGGTTGGCCAAGGCTGCAGAGAAAACCCCTTCATCTGCCTCATCAACCCACATGCTCTTATTC
R
TAGATAATGGACAACGAAGGTGTTTGTGGGAACCAACAGTAAAATGTGAAGGATAACTGATCTTAGTAAGAGTGACATTTTAGTGAAAGGGAATTTAAAA
Celera SNP ID:            hCV16192889
SNP Position Genomic:     427065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21514):
ACTGTCCAGGCTCTTGGCTGACCAGTGTGTGGAGACCCTGGTGGCAGCCTAGGGATCCCCTCCAGGTCTCTTCCTTGTCCTTACTGTAGACCATCACACC
R
CCACTAATTTCCCCCCTCTGGCCAGGTGAGAGCAGATTGTCACCATTTCAGAGAAATTTGAACCAATCAGAAAGAGAGCTCAGGAGTACTGGGGTGACTG
Celera SNP ID:            hCV468629
SNP Position Genomic:     159544
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(G,18|A,38)   Chinese(G,4|A,16)   Japanese(G,9|A,31)   African(G,27|A,33)      total(G,58|A,118)no_pop(G,5|A,7)    ;(A,-|G,-)   Caucasian(G,18|A,38)   Caucasian, from CEPH families(G,97|A,225)   African-American(G,27|A,33)   Asians(G,13|A,47)   total(G,155|A,343)
SNP Type:                 INTRON


Context             (SEQ ID NO:21515):
AAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTAGCAGGTGCCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAA
Y
CCAGGAGGCAGAGGTTGCAGTGAGCCATGATTGCGCCACTGCACTCCAGCCTGGGTGACAGCGAGACTCTATCTCAAAAAAAAAACAGATTTCTCTCCTA
Celera SNP ID:            hCV454721
SNP Position Genomic:     421800
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21516):
AATGCAGAGCGATTCGTGGTGACAGTTTCATAAGGCTAACGTTGAATATGCTCAAATGCTTAAAAGGCATTTCATTTGTGAATGGCAGCATGTCTTTATG
R
GGGGTGACAGATTGCTCAGATATGACTTTCCCTGGTTTTCAGGAGGGGTCTCTTCCTGTCCAGTGGTCCAGGGCTGGTCAGGCGGTGTGGCAGGAACGGA
Celera SNP ID:            hCV2089511
SNP Position Genomic:     55632
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21517):
AATGCTTAAAAGGCATTTCATTTGTGAATGGCAGCATGTCTTTATGAGGGGTGACAGATTGCTCAGATATGACTTTCCCTGGTTTTCAGGAGGGGTCTCT
Y
CCTGTCCAGTGGTCCAGGGCTGGTCAGGCGGTGTGGCAGGAACGGAGCCAGCAGACTCCCTCTTGGTAAAATTGTGCAAGAAACGCACCACCTAGGTTTG
Celera SNP ID:            hCV2089512
SNP Position Genomic:     55686
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21518):
ACAGATTGCTCAGATATGACTTTCCCTGGTTTTCAGGAGGGGTCTCTTCCTGTCCAGTGGTCCAGGGCTGGTCAGGCGGTGTGGCAGGAACGGAGCCAGC
R
GACTCCCTCTTGGTAAAATTGTGCAAGAAACGCACCACCTAGGTTTGTGCCTCCTGCCGTTGCTTACGAGGTTCTGAGTCCCGCAGGGACTGGCTTTCTT
Celera SNP ID:            hCV2089513
SNP Position Genomic:     55739
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21519):
GACTCTGAAATAGGGGGTGATTCCCAGGGCCAGGGCCAGGGGACCAGGTGGGAAGGCGGGCTGGAGGGTGGGAGTGGCCTCGGTGGATGCAGGCTCGGCC
S
GGCCTGTGGGGAGGTGTGCCTGTCGGCGAGTACAGCACCGTGGACGGGAGCCTCCCATGAATGAGGAGGAGCAGGAATGGGGGAGGCCCAAAGAGCAGAA
Celera SNP ID:            hCV9087222
SNP Position Genomic:     563424
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21520):
CAGCTGGGGTTTTCTGCTTTAGCACATTGTTAGTTTTACTCCGACTCCGTTGCTGTTTCCCAGAGTCATTTGCTCTTTCTGAAGACACTGGCCCGTGGGC
R
TCACTGCCCTTAGTGGAGTTCCTTCCTGGAGGCTCTCCCTGCAGATTCTGCCTCTGGAAATCAACACGTATTGCCCCTGTGCTCCCCCGGATTACTTGGC
Celera SNP ID:            hCV2089514
SNP Position Genomic:     57059
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21521):
GCATGCGGGAAGCCTTAACTACACTGTCCAAAGCAAAACACACCCAGCCCGATAACAGAGTAGAAATTCAGACTCCCACCACCTTCACCACCTCCTGCAC
R
TCCCCTCAATAGAAAATGGAAAAGTGAAAGTCGGGGCTGGAATCTCCGCAAGCCGGTCTGTCCATGACGTGAGAAGATTCTGCCTTTCGAAGCCACCCCC
Celera SNP ID:            hCV9087223
SNP Position Genomic:     563799
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21522):
TCTGCTGGTGCTGAAAGTTCCCCAGGCCCAGGACCACCATCCACACACCTCCGATATCTGGTGAAGCACCAGGCATCGTAGGCATTGCTGAGTATTTGGG
Y
GACTGACTTCTGAGCATGAAGGCAGGGAGGGTCCCCTCTGTCTGGATGGTACCCCACCCTTCGCCCCTAGGCACCTTGGCCAGACCCTCCTCATTCTTCA
Celera SNP ID:            hCV2089515
SNP Position Genomic:     57356
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21523):
GTTGTCCCCATTGCACTTAAAAACATTTGGGATTGGCTGCAGTGCAAGTGATTTCCTAGCAGGACGGAGCAGAGCCCTCTGGCGCCACATTCCTCTTGGC
W
GAAGCCTCGCTCTGCGTGGCACTGCATCTCCCCATCTTTGTGTCCTGGTGTCAAAGCATTTGGCCCCCAAGGCCCTGCAGGGACTCGCTGCTATTTGCAT
Celera SNP ID:            hCV9087224
SNP Position Genomic:     565469
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,6)      total(A,6|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21524):
GCTGAATTTGCAAATGCCAGGGTGAACTTGGTAATGGAGGCAACAGGCAGATGCTTGGTGTCTGTGCGTTGAACAGAAAAGAGCCCGGTGAAATTCCACG
M
CTGTTTGTGTTTAGCACACGGTTCCTGAATTATTTCATGAGAATGCAGGTATAGCGGTGACAGCTACAATATTTGTTAGCCAAGCTGCGGACAGAGGGTT
Celera SNP ID:            hCV2089516
SNP Position Genomic:     59403
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21525):
CCAAAATGTTCAGACTGCAAGGATATTTCATACAGATTTGTTAGCTGGTATTTAAATAATATTCAACACTCCTAAGCCTTAAATAGGCAATTAGAAGTAT
R
CTGCATTTTTTTCCCTCCAGCATTTCAAAGACATTACTCAAATTTTGTTTGTTCTTTGTGCTGCAGTGGTCTTACTTGGCAACTCCCTGTCTTGACAGAC
Celera SNP ID:            hCV29283
SNP Position Genomic:     465358
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,11)      total(G,2|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21526):
TGAAATTCCACGCCTGTTTGTGTTTAGCACACGGTTCCTGAATTATTTCATGAGAATGCAGGTATAGCGGTGACAGCTACAATATTTGTTAGCCAAGCTG
Y
GGACAGAGGGTTGGCCTCAGGCTGCTGTTTCTGCCCCAGGGTCGTGAGAAATAGCTGTGTCCATTTTAAAGCAAGAAAACAAATGGCACGATTGCTCTGC
Celera SNP ID:            hCV2089517
SNP Position Genomic:     59491
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21527):
TATCTGCTCATGTGAGAGTGCACCTTTCATTACAAAAGTACCCATGCGTTTGACTAGGGGTGCTCTGGGACGTGGGTTAGCCAACTCAGGCCACTGCCCC
R
TTTTTGAACATAAAGGGTTATTGGAACACAGCCATAGCCTTTCGCTTATATTGCCTTTGGCTGTGTTTGTACCTGGTCCTTACAGAAAAAGCATCTGTAC
Celera SNP ID:            hCV2089518
SNP Position Genomic:     60327
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21528):
CAGAGATCAAGTGGCATGTCCACATCTGGAGTAGACCCTGAGTGGGGCAGAACCATCATCCTGCGTGCAGCCTGCACACTCCCAGCACCCGTGGCAGTCT
Y
AGCAGGTGGATTATCACCGAGCACACAGGCAGCCCGAGGCACCTCCTCGTCACAGTGTTCTCCGCAGCCCTGACTGGCGAGGAGGGCACGTCCCCACGTT
Celera SNP ID:            hCV2089519
SNP Position Genomic:     61643
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21529):
ACCATTCCATCTGTCTGATGGCGAAAACAGGCACCTCCATAGTAATGCAAAGTAGATTCCTGCTTGCCAGGTGCAGGGGAGGGAGGGGCAGTGGCGTATA
S
GGAGTGATTGCCTAATGAGTACGAAACTTCTTTTGGAGACAACGAAAATGATCTGGATTTACATAGTAGTGATGGTTGTACATCCTTGCAAATATACTAA
Celera SNP ID:            hCV9087228
SNP Position Genomic:     573589
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21530):
ACCAGACATTTTCAGGAGTAATTTGAGAATGTGCTTGAGGTGATTATCCTTAAATCATCCAAGTGTTTTTGAATATTATTTCAATTATTTCATCTTAGAA
R
TATGAAATCAGCTTGTTTCTTGTTTAGAGTTGCCCTTTCTTTTTATTATTATTTCTTAATTGAGACAGGATCTCGATCTGTCACACAGGCTGGAGTACAG
Celera SNP ID:            hCV16061492
SNP Position Genomic:     272386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21531):
TAAATTATGTCAATTTTGAAAAAAAAAAAAAAGGAATTTCCAAAGGAAAACAGATGAGCCAGGGCGTTCCACAAAGAGCAGCTGGAGCAAAGGTGCAGGC
R
TACAGGAACGCATGCTGGGTGGCGGGGGCCTGGGTGCGGGCCGAGGGCTGGCGTGGCTGCCCCTCCTCAGGCCTGGGGAGTAGAGCTCTGAGCAGGATGT
Celera SNP ID:            hCV9087229
SNP Position Genomic:     573835
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21532):
AAGGGCCTGCCCGTCCAGATAAGTGCTGCTCACCTGCATTAAACAAACGGCCACACAGAGCCCAGTGGGAGCCTGCACTGGTTTCTCTTCCTGCCTGTGG
M
AGTTGAGAGAGACAGACGGTCCTGTGAGACCCCTTCTTCAGAAGGTGAATGACAGTGACCGCCACTAAACATTCCATTCCACCTGCCTGCACGGCAGTCC
Celera SNP ID:            hCV9087083
SNP Position Genomic:     525543
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,8)   total(A,2|C,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21533):
ACAGAGCGAGACTCCGTCTCAAAAAACAAAACCAAAAACAAAATAAATACAAATGTGTAAGATAGAATTCGTTATGAAGCTACACCAGACATTTTCAGGA
S
TAATTTGAGAATGTGCTTGAGGTGATTATCCTTAAATCATCCAAGTGTTTTTGAATATTATTTCAATTATTTCATCTTAGAAGTATGAAATCAGCTTGTT
Celera SNP ID:            hCV16061493
SNP Position Genomic:     272303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21534):
TGACCTGGGGCTGTGCCTTTGCTTGCATTTGCCTGAAGAGTTGAGCCACCCTGTTTAACTCTTGGGTTTTTATAAAATGTCTCCTGAAGGGCGGAGAGAA
Y
GCCTCAAGTCGATGTCTTCCCTGCCACAGATGTCAGCATTTCTGAGTTGATAGTTGGGAGGGTAAGGGCCTGGTGGGGTGGAGAATGTGTCTCTGGAGGG
Celera SNP ID:            hCV9087084
SNP Position Genomic:     525760
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21535):
TTTTAAAGCGTACGTGGTCGCTCTCACTCCTGAAACCTTCAGAGCCAGAGCTCTGTTTAATCCTAACACAGAAGGGAGGAGGGATTCTTAGGCCTAATGC
R
CCCTCTAGTGTTCACCAGGAGACAAGGCCGCACCACCCAAAAGTCCTTGGTTCTTGTGAGAATGCAGAGTTGCCGTATTTGAGGTGGCATCTTGAAAATG
Celera SNP ID:            hCV16061494
SNP Position Genomic:     258352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:21536):
AAATGGAGAGGCAAGGCAGCCCTGACCGTAGGTGGTATGAAGTGCACCGGCCAGCTCACAGCCCCCCACACGGTAGGTCTAAATGAAACCCGCCAGTCAG
Y
ATGGGCCATACACCTGCTCAGAGCCCACAACCAGCCTTCTGGTTGGCCAAGGCTGCAGAGAAAACCCCTTCATCTGCCTCATCAACCCACATGCTCTTAT
Celera SNP ID:            hCV16192890
SNP Position Genomic:     426962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21537):
GAGGGTGGGGGCCCCATCTCAGTGAGCCAGCCAGGCACTGCACACAGCCTGAGTGGTGGGCCTGCTGCGCCCTTGTTAAATTGGTTCTCTTCCGAACCCA
R
CGTCCCACTGTCGGTGACTTGGCGTTTTGTCCTTTCTCCTGAGAACCTGAGGTGGCATTTGCTCTTCTGGTTCCTAGGAGCTCCATTTAGAGCCGTAACT
Celera SNP ID:            hCV9087088
SNP Position Genomic:     525956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21538):
GAAATGGAGAGGCAAGGCAGCCCTGACCGTAGGTGGTATGAAGTGCACCGGCCAGCTCACAGCCCCCCACACGGTAGGTCTAAATGAAACCCGCCAGTCA
K
CATGGGCCATACACCTGCTCAGAGCCCACAACCAGCCTTCTGGTTGGCCAAGGCTGCAGAGAAAACCCCTTCATCTGCCTCATCAACCCACATGCTCTTA
Celera SNP ID:            hCV16192891
SNP Position Genomic:     426961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21539):
ACTCTGTCCCTGCAACAGGCTCTGCGGTGGGCTAGCTCCAGTGTTGCATTCTCCCTTCATCAGTGGAGAAATGCACTCTTGGAACCATGAAGAGTCTGCA
S
ATGACAGCTCTGCACTCACTAACATTCAAGCACCTTGATTCAGAGTTTCACGAGACTAAGGTGAGGTTACCTTTCCCTCTCTGTTGTTCTTCCCGTGGAA
Celera SNP ID:            hCV468630
SNP Position Genomic:     160064
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21540):
GCTCCTTCAAAGGGTGTCATCATTTCCCAAGGCAGAGGCCAGTTTTTGTGCTGTTTTGAGTAGCCACGTGTGAAACCCAGCAGGGCGAAGCAGACTTCTG
Y
GCGTGGGTAGTTCTTTGACGTTAGATGCAATCCTGATGACCCTGCTCCACCTCTGCCCTTCCTGAGTTCCTCTGTTCACCGCAGGGGAGTTGGAGGGCTC
Celera SNP ID:            hCV9087089
SNP Position Genomic:     526406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21541):
CGAGCAGAGGTTTTATTCCATCTTACTGTGTCAGATGTGATTCCGGGGACGCAGTTCTTTCTTAAGAGCTCTGATGCATGTTCTAACTAGGAGGGCAGGT
R
GCTGCCGCTCCCAGCAGCCCCTGATGTGTTTTCCTTCAAGCCTGGGGAACACCGAGCTAGGGACACGCTGGCTAATAGAGGAAGGAGAGCTGGGTATGGT
Celera SNP ID:            hCV443088
SNP Position Genomic:     174599
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21542):
GCCTCCAGCAAAGTTCAGCATTTTTTTTTTTTATTTAGCTGCTGGACATGTCTTGTTAATCTATTCTGTTTATAATTTTTGGTGCATTGTGAAGCTAATC
Y
TTTTTAGAGAGGCGGGGTCTATTATGTCATCTAATTGGTCAGAAATAAAACTCCTAATTTTTGTGTTTTCTATTATTCAGCCATCTTGCTGAACTCTTGT
Celera SNP ID:            hCV16192895
SNP Position Genomic:     425911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21543):
TATTAGGTGTATGTGTTTCTTACGTTGTAATTAATTGTTTAGGTGTATCCTTTGCCCATTTTTGCACTAGGTTCTTTTTCTTATTGATATCTGAGAACTC
Y
TTGTATATTTAGGATATGAATATATTTTGCAGGTATTTCCCCAGTTTATTATTTGCCTTTTAAATTTTATGGTCTTCTTTACATAAAAAGGTTTTCCCTC
Celera SNP ID:            hCV16192896
SNP Position Genomic:     424865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21544):
CGTTTTTGCAAATAATTGCCCTGTGTCATGAACCTTCCCATGTCTGCTCATCAGAGATAAGGAGAAGATCCTCTTGAGCCCTCCCATAAACACACACACA
S
AGTCAGGCTCCTTCAACATGGGGACATCCCTTCAAGAATTTGCATTTTCTCCTGCAGAAAGTCCAGAACTTTCTTCTCTCCCACCTACATCCAGTCTTCT
Celera SNP ID:            hCV16192897
SNP Position Genomic:     421481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21545):
GGTTGAGATCAAGAGATGACCAACGACTGGACATCTGGGAGGCAGTGGGGGTCAGAGGAAGTTGGGTTTTTTTTTGTCTTGGTCAGGTCACGATGTTCCT
K
TGAATTTTTAATAAAACATAGTTGTTTACATACTTCTCCTTTAATCCCACAGCTAGTTTTAAAAACTACATGATTGTGTTGCTAGGATTAGTTAAGAACT
Celera SNP ID:            hCV2089521
SNP Position Genomic:     64827
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21546):
GTCTGTACTAAAAAAAAAATACAAAAATTGGCCAGGCATAGTGGCACACATCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGACTCACTTGAACT
Y
GGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTGCATTCTGGACAACAGAGCGGGACTCCGTCTTAAAACTAAATAAATAACAAAATGCC
Celera SNP ID:            hCV9087230
SNP Position Genomic:     576391
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21547):
GCCTGCTTAGCTGCTCCGCACCATTTATTTGGGTTTCTTATTTGGGAAGTTTGCATGTGACTGGGCCAAGTGACATTTGTTTTGAGGTCCCTCCCAGGGC
Y
CAGGGGTGAGCTCTTGACAACCCCAGAGTAGAGATGGGGCACCTGTGCCCGGGCATTGATTTCCTGGGAAGGAAAGAAAACGCCAGGCCATGCTGCTGTG
Celera SNP ID:            hCV2089522
SNP Position Genomic:     65821
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,12)      total(C,12|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21548):
CAGGAAACCACCAGAAGGGCTCCAGCTTTAGGGAGGATGGTCCATTTACACGCCTGTGGTTGGAGGTTCCAAGTGCCTTGAAAAATGCCTTGATGCCACT
Y
GGAGCTGTTTCTTTCTTCTCTTTCCTTTCCCTTTTAAAATCACGGAACCATTTCTTTCTTTCTTTCTTTTTTTAGACAGAGTTTCGCTCTTGTTGCCCAG
Celera SNP ID:            hCV2089523
SNP Position Genomic:     66081
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21549):
CAAAGCCTGGCCACTTGCACAGGAAGATGCTCATAGATGGCTGGTTCCTGCCAGTGACACACGTGGACCTCAAGCAGGTGGATGGGTGGAGCTCAGGGAA
Y
AGGCATGTGGGGCACACTCTCCAGGCACATCCAGGGCTGGACTGGGGCCGGCATGGGGGTCACTGGCTGCAAGCGAAGGCAGCTTATGTCATGTTCCCTC
Celera SNP ID:            hCV2089524
SNP Position Genomic:     66901
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21550):
GGGCCGGCATGGGGGTCACTGGCTGCAAGCGAAGGCAGCTTATGTCATGTTCCCTCTGCCACCGCCAGCTGTCCTGCAGCAGGAAGAGGTAGTCATGTTT
R
GAGGCCGGGCTGTGCATGAGCTATGCAGGCCTTGGGGTCTTTTCATCAGATTCCTTTTGGCAGAATATAAGGAAGTTGGCCCAAACCACATTTTTGAACT
Celera SNP ID:            hCV2089525
SNP Position Genomic:     67046
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21551):
ACCTGAAGAAGGGTTGTGCATGTGGGAGGGAGCCAGCCTGGTGGACCGTGGCCTGCACACCTGCAGCAGCTCCTCAGAGCTGCCCCCTCATGCCTTGGCC
R
ATCACAGAGCACCCTTTCTGTCCAGGCCACTGATCAGCCCCCAGGTCCAGGTCCAAGAACAAGCCTGTGACCCCCTGGGTCCCCTTTGTCCTTGGCCTAT
Celera SNP ID:            hCV2089526
SNP Position Genomic:     67677
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21552):
ACCTTGGAAGCTGTTGCTCACCGCGTGTTGATTTTATTTAAGACTGGAAAGGCTTGTCCATGTATCGCCGTTGGGAAGGGAAATCACTCCGAAGACGGTG
R
TGCTGGGTACAGGCTCTGGAGTCATCTTGATTTGGTAAAAGGCATGAAGTCTGAGTTCATTCCGAAGATTCTGGCTTTTGAGAACTTATATAAAGAGAAC
Celera SNP ID:            hCV2089527
SNP Position Genomic:     68868
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21553):
AAATGCAATTTGCCCAAAGCCGCATGCTCCCTTATTGTGTTTGCAGAGTCATTCCTGTGGTCTTTTCATCTTTTTGTTTGTGTGTTTTATTTTACCATTC
R
TGTTCCTTTCAGCTTACTTAAATTTTGACCTTTCCCTTCAGTCGTAGAGTAGTGATGTTTAAATTACTTCAGAAACCTATTTTCTCCTCTTTTTTCTTTT
Celera SNP ID:            hCV9087090
SNP Position Genomic:     526935
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21554):
CTAAAGGAAATCAGTTTTTAGTTAACTTTTAAGGCTATTCACCATGATTTAAAGTGATTCCTTGATTCCTCTGTTACATTAAGTGTGATTGAAACTGTAC
M
TTTATTTTCTCATGCCTTGATAAGCAGTGTAGTCAAATCATAACATATTATGACTGCAATCAAGTGATTATAGCACGTGATTATACTTTTTGTCTCTGTG
Celera SNP ID:            hCV2089528
SNP Position Genomic:     73676
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4)   total(A,4|C,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21555):
TCATGATATATGACTGATAAAAAAAGGAAGTGGAAGTAAGTGGCCAGGCAAAGGCTCCATGGAGCATCAGCCTGACTGATACTGCTGGAGAGGTGAGGCA
S
ATACAGACAGACAGCAGCTTATCGGAGGCCGGAAGGCTTACGTGCTGCCTTCATCACGGGCTTCGTCAAAACCTCTGGGTTTCAACACAGCATTGGAAAA
Celera SNP ID:            hCV9087237
SNP Position Genomic:     576960
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;(C,-|G,-)   Caucasian(C,7|G,71)   total(G,71|C,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:21556):
TGTTTTGGGGCAGAGCGCCCTGTTCCTGAATAGCACGGATTGCACGTGTTTCTGAGCATGGTGTGTGAGACTGCTTTCCCTTCCTGCAGTCAACTCGCCA
R
GGTGCCTCCCCAGCCCCAGCAGTCCGGCTTCTCTCCTTTCCGCTGCCCCATGCTTTCTGGTGGCCTGGCAGACTCAGGACTATCTCTGAGTCCTTCACAA
Celera SNP ID:            hCV2089529
SNP Position Genomic:     73965
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21557):
GCCAAGGCAGGCAGATTGCCTGAAGTCAGAAGTTTGAGACCAGCCCGGCCAACATGGTGAAACCCCATCTCTGCTAAAAATACGAAATTTAGCTGGGCGT
Y
GTGGCATGTGCCTGTAATCCCAGCTACTCGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAGGCAGAGGTTGTAGTGAGCCAAGATCACGCCACTAC
Celera SNP ID:            hCV9087238
SNP Position Genomic:     580006
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|C,10)   total(C,10|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21558):
TTGCTCATGGGAGTGGGACTTCTTTTTGGGGTGATCAAAATGTCCCCAAATTGGTTGTCATGGTGGTTCCATGACTCTGAAAAATGCTAAAACCATTGAA
Y
GGTGCATTTGGAGATGAGTGAATCGTAGGGTATGTGAATTACATCTCAGCAAAGCTGTTAGAAAAAAGAAAAGATATGCCACATTTTAAGTGGTGGGAAA
Celera SNP ID:            hCV9087239
SNP Position Genomic:     582779
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21559):
AACTTGAAGCCACAGATACATGTGTCTTTATCTCCCACCTGTGTGTGAAGCGCTGAGTCGGAGGGCTTTTATTGAGTAGGAAATGCATTTTGTAAAGTTT
Y
TAAAAATGTTCAGTGCCTTGAAATATAAGAATTGGCTATTTTAAATACCGATTTTATTTATTTTTTTTTTTTAGAGCTAGTTCTTCTGAGGTTGTAATGC
Celera SNP ID:            hCV40534
SNP Position Genomic:     416771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21560):
GAGGGATCTGGTACACCGAGATACTAATGACTCCGCGTCCTTCTCCAAAGGCAGCCCCACAGAAGGCCGGCGCCACGTTAAGCTGTGCTGCTGTCAGCAA
S
CTGAAAGCTATGGGTCTCTGACACGGCTCTCAATTGCTAGCAGGTTTCTCTCATTGCACCTCATTTGCATCTGGGACATCAATTAGCATGTTTGTTGAGG
Celera SNP ID:            hCV40535
SNP Position Genomic:     415868
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21561):
TTGTTTTGTGGAAGCATTCTCCATAATGCTCTCTGCAGCTCTAATCCACAGGCAGGCAGGCCCGGGCCATTTGCATGGGCTGCTATTTGCTTGTAAAGTC
R
GTATTTTGTTGTGTTTCTAAAGGTCGTCTGGTGCCAAAGTTCACAAATTGACTTGCGTTGCTTTTTTCACCGAAGACAGCCGTCATTGCTTTTGTATAAT
Celera SNP ID:            hCV9087095
SNP Position Genomic:     527266
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21562):
TACAGCAGCGAATCAATTAATTCTCTGTATCAGGAGGGATCTGGTACACCGAGATACTAATGACTCCGCGTCCTTCTCCAAAGGCAGCCCCACAGAAGGC
S
GGCGCCACGTTAAGCTGTGCTGCTGTCAGCAACCTGAAAGCTATGGGTCTCTGACACGGCTCTCAATTGCTAGCAGGTTTCTCTCATTGCACCTCATTTG
Celera SNP ID:            hCV40536
SNP Position Genomic:     415835
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21563):
TTTTTTTTATGATTACAAATGTCAAGGGTCGGAATTACTTTGATGCCAGGCAAGGGAAAACCACCACCATCAGCCCAAGCGCACATAAGGGAGGCGGGGG
Y
ATCGGGCGTGTGATGCAAAGCAGGTCACAATCCAGCGATCTTGGTATAATAGGGGGACATTTTTTTTCACTTAAGTGCAAGCCAAATGGGTCAAGTAATC
Celera SNP ID:            hCV9087096
SNP Position Genomic:     527522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21564):
ATGAGCCACCATGCCCGGCTGGAGTTTGTTTTTTAAAATGTGTACATGCTTGAGGGTGTTACCAGGAATGATCAATAAAGTCAGTTACTGTCATCCTTAC
S
CCCACACTAAGTGCTCCGGTTACATGGAGATTACACCTTGCCAGCTGAGTCATGCAGTGGATTTGGCATGGCAGGCACTAAGTATGCGGGTAGCAGGTGG
Celera SNP ID:            hCV11937460
SNP Position Genomic:     625388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21565):
CATGAGCCACCATGCCCGGCTGGAGTTTGTTTTTTAAAATGTGTACATGCTTGAGGGTGTTACCAGGAATGATCAATAAAGTCAGTTACTGTCATCCTTA
M
CCCCACACTAAGTGCTCCGGTTACATGGAGATTACACCTTGCCAGCTGAGTCATGCAGTGGATTTGGCATGGCAGGCACTAAGTATGCGGGTAGCAGGTG
Celera SNP ID:            hCV11937461
SNP Position Genomic:     625387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21566):
CGGGAGTCCTTGCAGCAGGGAGGCTTGCAGAGATCAAGTGCACCTACGCCCAGCACCTCCCCCAGCGGACACATTTAGAGACCCTCGGGAGCGCGAGGGA
Y
ATGAGAATCACAAGCACAGAGACTCATCTCTTGAATATCACCCGGGATATCAAAAACCTATCAGCACACCTGGCGAGGACCCTCACCAAGGCGAGCTCCC
Celera SNP ID:            hCV453004
SNP Position Genomic:     470320
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21567):
CTTGCAGAGATCAAGTGCACCTACGCCCAGCACCTCCCCCAGCGGACACATTTAGAGACCCTCGGGAGCGCGAGGGATATGAGAATCACAAGCACAGAGA
S
TCATCTCTTGAATATCACCCGGGATATCAAAAACCTATCAGCACACCTGGCGAGGACCCTCACCAAGGCGAGCTCCCTGCAATGGTTCATCAAAAATTGC
Celera SNP ID:            hCV453005
SNP Position Genomic:     470343
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,9)      total(G,2|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21568):
CAGGAAGTGAAAGTCTGTCCAGGCTAATGGAGCTGTGATTGACAGGCCTTCTCATTATGGAGCCCATCAGGGGACAGGGCATTCCAGTGTTATTTAGGGG
K
CGAGGTGGGAATGAGAGGAAGCCAGAGCCCGGGGTGGGGGCGGGAGCGGGGGCTAGCTGTGGGTGTTCATTGAAAGAGTCCAGGTCCCCGACAGCCCTGC
Celera SNP ID:            hCV11937465
SNP Position Genomic:     599150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21569):
TCCCTCCGTCAGAGCCGGTTTAGATGTGGAGTAATGAGGCGCTCGCTTTTTTAATTTGGCATGGCTTTTTTCTCTTAGCCTCTCCCCTCCCATACTTAAC
R
CCGTCGACAGTAGTCGTCTGTCCCGGTGCCCGGTAATTGATACAAAATAAAATGCATTCTTTGTATGCAGCCAGGAGGAGCGGATGGCGCTCCGTGGGCC
Celera SNP ID:            hCV453006
SNP Position Genomic:     471023
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21570):
CAGCATAGAGCTGATAAGTGTTGTGGATACATTCCAAAAAATTTTCAACATTCTTAGGATAAAATTTTAGCTGGGCGTCTTTAGCCATTTTTAATAGAGC
Y
GCTTAAATTCTTGGTCAGGAATGAGATAGAAAGGGAACGAAGTCATGGACCCCAGAGATACACAGGAGGGCACTGGCCAGCACTTATTCATCGGCCTTAT
Celera SNP ID:            hCV11937466
SNP Position Genomic:     598574
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   JBIC-allele(T,538|C,709)   total(C,709|T,538) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21571):
TGAGTCCCAGGTGACACTTCCTGCCCGACTTCTGTCTCCTGCCACGGCCCCCCTCAATTCACATCCTAATTCACCCCGCCATCACCTTCTCAGCACCATG
R
TGGCCACTCCCTCGTGTAGCCGGTTCCCCTGCTGCTGCAGCCGGGCCCTCCCACAGGCAAGCATCTGGAACTAGCACCAGAGCTTCCTCCTGTCAAAGCT
Celera SNP ID:            hCV453007
SNP Position Genomic:     471559
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21572):
GACATAACTCTCTGTCTTCTTCAGTCTGTTTTCCCAGGTTAAAAGTTAAACTGATTTATGCTAAAGGAAGATCACCTTACTGCTCAAGTGTAGTTGCACA
S
TGTATATTGTTCTTTAAGAAGAGCAGTACAAGGAAAATATTATTTTATGTAATTTTAAATCCTCTTTTTCCTCTTTTTCTATTCAGAAACTAAAAGAAAT
Celera SNP ID:            hCV11937467
SNP Position Genomic:     598273
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;no_pop(C,-|G,-)   JBIC-allele(C,426|G,1041)   total(G,1041|C,426) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21573):
GGAGGTGGAGGTTGCAGGAGCCGAGATCGTGCCATTGAGCTCCCGACTGGGCAAGAGCGAGTGAGCCTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGT
S
TTCTTTATTGAAACTCAAAAGGTAAAATGATTCTGTCTTGGAGACCCCTCCTTACAATGAGGATGTAATCAGAGGTACCACATCCAGAGCCCTTAGAGTT
Celera SNP ID:            hCV11528471
SNP Position Genomic:     179629
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,12)   total(G,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21574):
TCCCCTAGCTTTACTGCTTTTTCTTAGAAGCCTGTGATTACATTGAACCCACCTGGATAGTTCAAGACACCCTCACCTCAATGCCATTAATTTAATCACA
Y
CAGCAAAGTTCCTTTTGCCATATAAGGATATGGCAGCGTATTCATAGGTTCTGGGTGTTGGGACATGGACATTTTGGGGGACCCATGATTCAGTTTCCCT
Celera SNP ID:            hCV2089535
SNP Position Genomic:     80456
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21575):
AGGAGGTGGAGGTTGCAGGAGCCGAGATCGTGCCATTGAGCTCCCGACTGGGCAAGAGCGAGTGAGCCTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAG
W
CTTCTTTATTGAAACTCAAAAGGTAAAATGATTCTGTCTTGGAGACCCCTCCTTACAATGAGGATGTAATCAGAGGTACCACATCCAGAGCCCTTAGAGT
Celera SNP ID:            hCV11528472
SNP Position Genomic:     179628
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,12)   total(A,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21576):
GCGAGGCATGGAGGCAGACACCTATGGTCCCAGGTACATGGGAGGCTGAGGTGGGATGATCGCTGGAGCTTGGGAAGTTGAGGGTGCAGTGAGCCACGAT
Y
GTACCACTGCACTCCAGCCTGGGTGACAGAGTGAGATCCTGTCTCGAAAAAACAAAAACAACAAACCAAAAAAAAGGTGACATTGAGAATAAAGAGATGG
Celera SNP ID:            hCV2089536
SNP Position Genomic:     86531
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21577):
AGGTTTGCATGCCTAAAATTATAACACTTTTTTATTGCAAAGGTTCTTTTCAGCTTTTTTCTTTTCAAGTAAATGGAGATGTGTCTTTCTTCTGTTTCTG
K
TGTCCTTTTTCTTTCCGTAAAATAACCACCTCTTTACTGAGATTGGGGAGGGAAGTCTGTCTCCATTGAATTGTCTGCTGTCGACATCAGATAAGACATT
Celera SNP ID:            hCV2089537
SNP Position Genomic:     87257
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|T,6)   total(G,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21578):
GCGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGGAGCCGAGATCGTGCCATTGAGCTCC
Y
GACTGGGCAAGAGCGAGTGAGCCTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGTCTTCTTTATTGAAACTCAAAAGGTAAAATGATTCTGTCTTGGAG
Celera SNP ID:            hCV11528474
SNP Position Genomic:     179572
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21579):
GATGCTGGAAGCAGCCCCAGCACATGTGCATCTGCAGCGGGACTTGGTGATGTGGACTTGGGGCTTCCGATGCTCGTGCTAGCCTGAATCTCCGGGAGAC
R
TGGAGCATCTCAGGGTGGGGTCAGGTTCCCAGGTGAAGCCCCTGCTGCTGATCTGTAGACCGTGCTTGGAGAACACTGGTCCAGTGCACTGGAGTTCGTA
Celera SNP ID:            hCV11528476
SNP Position Genomic:     173293
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21580):
GTGGGATAGATTTTTAAAGTGAGTGATCGGCCAGGTGCAGTGACTTATGCCTGTAATCCCAGCATTTGGGGAGGCCAAGGTGGGCGGATCACCTGAGGTC
R
GGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCCACTAAAAATACAAAATTAGCCGGATATGGTGGCACATACCTGTAATCCCATCTTCT
Celera SNP ID:            hCV27156100
SNP Position Genomic:     544907
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21581):
TAATTGAGAGCTGATACAGGTATAGGCATAGCTAGACAGACAGACAAACCAACCAACCACAGAAATGATACAGGTACACAGAGAGACAGAGGCACATCCC
T
TTGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATCACACACTTGCATTCCAGATGCCAGTGTAAACTGTTTAAACATATTTTGAATACTTGGGTATC
Celera SNP ID:            hCV27156101
SNP Position Genomic:     550685
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,11)   total(T,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21582):
AATTGAGAGCTGATACAGGTATAGGCATAGCTAGACAGACAGACAAACCAACCAACCACAGAAATGATACAGGTACACAGAGAGACAGAGGCACATCCCT
T
TGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATCACACACTTGCATTCCAGATGCCAGTGTAAACTGTTTAAACATATTTTGAATACTTGGGTATCT
Celera SNP ID:            hCV27156102
SNP Position Genomic:     550686
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,11)   total(T,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21583):
TTGAGAGCTGATACAGGTATAGGCATAGCTAGACAGACAGACAAACCAACCAACCACAGAAATGATACAGGTACACAGAGAGACAGAGGCACATCCCTTT
G
TATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATCACACACTTGCATTCCAGATGCCAGTGTAAACTGTTTAAACATATTTTGAATACTTGGGTATCTAA
Celera SNP ID:            hCV27156103
SNP Position Genomic:     550688
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,10)   total(G,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21584):
GAGAGCTGATACAGGTATAGGCATAGCTAGACAGACAGACAAACCAACCAACCACAGAAATGATACAGGTACACAGAGAGACAGAGGCACATCCCTTTGT
A
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATCACACACTTGCATTCCAGATGCCAGTGTAAACTGTTTAAACATATTTTGAATACTTGGGTATCTAACC
Celera SNP ID:            hCV27156104
SNP Position Genomic:     550690
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21585):
AACCTCTGCCTCCTGAGTTCAAGCGATTCTCCAGCCTCAGCCTCTCAAGGAGCTGGGATTACAGGTGCCCTCCACCATACCCAACTAATTTTTTTGTAAT
K
TTAGTAGAGACAGGGTTTCACCATGTTGGTCATGCTGGTCTCGAACTCCTGACCTCAGGTGATCCTCCCATCTCGGCCTCCCAAAGTGCTGGGATTACAG
Celera SNP ID:            hCV27156105
SNP Position Genomic:     559650
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21586):
GAACTCCTGACCTCAGGTGATCCTCCCATCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACCGCACCCAGCCTCTTCTCACATTTCTTG
K
GGTATCTATCACTGCCTTCTTGCATATGTAGTAGATGTTAAATAAAGGACTGGCTTTCTGATTTCTGATCAACTGGCGTAAGGCTATTGCTGGTTACTTG
Celera SNP ID:            hCV27156106
SNP Position Genomic:     559793
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21587):
CATACCTTAAATCCCAATGTTTTGGGAGGCTGAGGCTGGAGGATTACTTGAAGCTAGGAGTTCAAGACCAGCCTGGGCAAAATAACAAGACCGTATCTTT
A
AAAAAAAAAAAAATTCTATTGTATTTCTTTCTGTACACTAGCAGTGGACAATCAAAATAAAATTAAGGACAGTTCCATTTACAAATAGCATCAAAAAGAG
Celera SNP ID:            hCV27156107
SNP Position Genomic:     571033
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21588):
CTTTTTTTAAAAAAACTCACATATCCTGTGGTTTTTCAATTCTCAAAAAAAGCTTTTGTCTCTCCTGTCTGTTCTCTCCAAAAGTAGTCTTCGTTGTGGG
T
TTTTTTTTTTTTTTTTTTTTTTAGAGATAAGGTCACCGGGCACAGTGGCTCACGCCTATAATCCCAGGACTTTGGGAGGCCAAGGCAGACAGATCACAAG
Celera SNP ID:            hCV27156108
SNP Position Genomic:     583997
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21589):
AGGAGACCTGCAGCCCCCCACCAGACCCCCAGAATCACACTATGCTGGTTGGCCTGGGCATGCCCCTCCCCCCAAGCATTTCCGCTGCACATCCCAGCTC
A
AGAACCACCCTCTGGGTGCCAAGGTCTCCTCCAGGAGCACAGGTTCTCACCTGGGGCTGATCTGCCCCCTGGGGACATTTGGAAATGCCTGGAGACATCC
Celera SNP ID:            hCV27156109
SNP Position Genomic:     585807
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21590):
CCAGCTGGTAGGACCAGCCCATGGATCCCAGAGGCCCAGCATGCTCAGGGCTCCTTCTTTTTTCTCATTTCTCTCCTCCCCATCTCCAGACAGCCTTTAC
Y
GTTCATAAAAAGAAATGCAGGCCTAAAGAGGACTGGGGGCTGGAAGAGGGTTAGGCTGAGTCCCATTGCCCAGGGCATGACCAGGGACCATGTGGTGGCC
Celera SNP ID:            hCV11937470
SNP Position Genomic:     597513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21591):
TGTGCTAGGAAGAGGCAAGGAGGGATCCCCTCCCCCAGCCTTCATAAGGAGCACGGCCCTGCAGACACCTTGATTTTTGAACTTCTGGCTTCCAGAACTG
Y
GAGGGAATACATTTCTGCTGTTTGAGCCACCTGGTTTGTGGTACTTGATTACAGCAGTGCTAACCTCCCCACAGTTACCCACAACCTCTGAGTACCTGTT
Celera SNP ID:            hCV2089541
SNP Position Genomic:     96142
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21592):
CACGCAAAAATCAATCAATGTGATATACCACATTAATACAGTAAAGAGAGAAGAAAACATAATCTTTTCAAGGGATACAGAAAATACATTTGACAAAACC
M
CGTGCCCTTTCATGGTAACAAACACTCAGCAAACTAGAAATAAAAGGAAACTTGCTGAACCTGATAAAGGACATCTCTAAAAAACCCACAGCTAACATTG
Celera SNP ID:            hCV11937476
SNP Position Genomic:     570391
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21593):
TTTGGGAAGAGGAACTTAAGGCTCCACAGAAATTTGAGTCCATTTTTACTTAAATGTACTTTTTACCTTTAGAAAAACTTGTAGGTAAAAACCAACAGGT
R
CATTCAAACCAATCACACGCCAACTTTTACCACCCACCACCGTCTTACCTTCTGCTGCTGTGTTGGCTCATTATTTTGCGCGGACCCGAAATGAAGGCTG
Celera SNP ID:            hCV2089542
SNP Position Genomic:     97212
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21594):
TTGCATGTATCCTTATAATAGGGAGGGAGAAGGGTCCACGTGGAGCAGAGGAGTTTGAAGATGCTGCCTGGATGTTGGGACTAACATGGCCCAGGAGTGC
K
GCCGCCGCAGGTGCTGGGAGGCCCACAGATAACTGCTCACCTGTAGTCTCTGGGTCCGGCATGGCCCCCAGCACCTTGTCAGCCAAGTGATGGCGATTTT
Celera SNP ID:            hCV11935872
SNP Position Genomic:     282910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21595):
GCAAGGAAGGCAAGGTTGGTTCGACACGCAAAAATCAATCAATGTGATATACCACATTAATACAGTAAAGAGAGAAGAAAACATAATCTTTTCAAGGGAT
R
CAGAAAATACATTTGACAAAACCACGTGCCCTTTCATGGTAACAAACACTCAGCAAACTAGAAATAAAAGGAAACTTGCTGAACCTGATAAAGGACATCT
Celera SNP ID:            hCV11937477
SNP Position Genomic:     570367
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21596):
AAATGTAAGGATTTAGGTCGGCCATTGTCTCCGTGTAAGTCAACACTACCTTGTGTGTGTGCGCATACACACAAAGAGGGTGAGCCCTCAGCCCGCCATA
Y
GGGCATGTTATCCAGAAGAGAGGAGAGAGAAGCCCGCTGCACTCTCCACTGACCAGACCACCCACTTTGCCCTCTGCACGCTCACTCCACGAAGGATGCA
Celera SNP ID:            hCV2089543
SNP Position Genomic:     97690
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21597):
CCCTGGACTTCATTCCTCACTTCTTTAGACCCAGGTCTTCTGTTTTCTTCCTTTACCAGACTGTTGTCTGGCTTAGCATATCCAGTATATCCCAGCAGAT
R
TTACAGCCAGAGAGCATCTACAAGAGGATTAGACTCTGTGATCAGGTGGCACTGAATGCAAGGAAGGCAAGGTTGGTTCGACACGCAAAAATCAATCAAT
Celera SNP ID:            hCV11937478
SNP Position Genomic:     570209
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21598):
CATGCAGAGGCTGACTCCAGAGGATGCTGTGCACAGGCCTGTGTGACCTGAAGGCCCTTGCAGGCTGAGGTCTCTTGGTGATAATCCACACACTGTCCTG
R
GCCTTGGTTTTGCAGCATTTCCAACTTGGGTTGTCAGAGTGAGACTGTGCAGGACTGCCCCGTACAGTACGGCTTCTATGTGTGAACAACACAGACCACT
Celera SNP ID:            hCV2089544
SNP Position Genomic:     98088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21599):
CCTGCAGATGGCTTCCTGCTGAGCACCTCGGTGGTCCCAGCCACTCCTGGAAGGATTGGTTCTAGCACAGAGAACAGAGCCCACCCAAGGGACTGTGAGG
R
CCTGGCTTGGGGTGGCAGGGCCTGACCCCAAGGATACATACAATCTGGAACATTTATTTGTTCAACAGCCACTCTCCCAGAACCACACTGGGGCCATGCG
Celera SNP ID:            hCV9087253
SNP Position Genomic:     583298
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21600):
GGAAGACCTGAGTGAGGGAGCTTTCTTGAGGACGGGTTTTGTCGGAGTGTAGTTCATATACCATGCACAGCCTGTCAGCATACAGCTTGAATGAACTCAC
R
TGTGTAACCAGATCAAGAGGCAGAATATTACTAGGGTGGCAGTTTTGAGTCCCATGAAAACAAACACATTTACTCTGTCTAGCTCCATCTCTAGTTAATT
Celera SNP ID:            hCV2089545
SNP Position Genomic:     98382
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21601):
GAGCCTTTGACACATCAGTAGGTTATTTCACACAGCACATCTCCATTAGGACTAGCCACGTTTCAAGCATCTGATGGCCACATGTGGCCCATGTTTGGCA
R
TCATGGGTCTAGATAGCTTATCAGGACAGGAGTTACATTTGCCCTATCAGCTTGCAAAACATGCTGCAAAACAGCTTGCAAAACAGCTGGGGACTGGAGA
Celera SNP ID:            hCV9087255
SNP Position Genomic:     585285
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21602):
AAATTTCCAAGGTATTTTTTTAAGTGAGGCACCATCCTGGATGCTGGGGAAGAATCTTTGTTGGAATATGACCCTGGGTTTTGTATGGAAAAGGGAGGGG
S
CAGTGCAGGATGTGGCAAGGCAGTTGTTGGAGCTCCGATACTTCCAATAAGTAACTAGCAGGGCTGTACACACTCTACCAGGAAAGACAAAGAAATGCAG
Celera SNP ID:            hCV11528482
SNP Position Genomic:     167561
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21603):
TAGGGTTTCTTCTCCTCCACTTCTCTACACTCAACCACCCTTCCCATTTCTTTAATGCCAACGCACCGTCACCTTCCTCACCCTTGATGCTGAGACATTC
R
AGACCCCTTAGAACCCAGGACTCCCGGTGGCTGCTACACCCTGGTCATATCTGGCCTCTCACACTTAACCCCTCCAAATAGTAAAATCTGGATAAAAAAA
Celera SNP ID:            hCV2089547
SNP Position Genomic:     99912
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21604):
GTAAAGAATGGTTCACCAAGTCAGAGGTCATCCTCAGATGTCCCTATGTGTCTGTTAGTGGAGATAAAGTGATCTCAAGACGGTGACACATTTAAAGTGA
Y
GTGAACTAGTTTATTAGTAGTCAGTGGTCCCCCCGGCCACTTCTAAAGATGACATGCTTCTAATCATACCCACAGGATTTCTAAGATCCTTTTTTTTTCT
Celera SNP ID:            hCV11528483
SNP Position Genomic:     166282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21605):
AAAAAAAAAGAGACACCCTTGCAGGCAGTGGTCACAGGCCGAGGAACCTGGTGGACAAGGTGGGGAACGACTCAATGGATGATGATAAACAGGAAGTTCT
M
GTACCACTGAGAAAACGATCTGCCAGATATCTCCATCAGCAATGTTCTTAACATGTTTTGTTTTTGACATACTCCAGTCCTCATTTTGACAAGCTTAAGG
Celera SNP ID:            hCV11528487
SNP Position Genomic:     162959
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21606):
AGATACTTTGTGGGGGGAAAACAACCTACTTATCTTTCCCATTATGCTATCTCTTAATAGGGCCCCTGGTATCTGAGCCAGCATACACATTTGGTTCTTC
Y
GTGTCCTGTGATCTTCCTCTGAGTGAAAACTGATTATCTACTCAAAGGAAGCAGATGACAGAGCCCCCGTGATGTGTGCTGCCTTTGCTCTGTGCCTCTG
Celera SNP ID:            hCV28030576
SNP Position Genomic:     155547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21607):
TCCGCACCCCACCCTTTAAAGGTGAAAGCAGCAGGTGGGGTGGACTCCTGGGGCTGGGGAGGCCGTGCCCCTGGGGGCAGGTGCAGGAGGGAGCCTGGCT
Y
TTCAGGTTAAATTGTGTTTCAAAGGCAGAGCTCACATTGGAGCACTTGATATTATGCATTTGAAACATTGAGACACAGCTTCTAGTTTAAAATAAAGGTG
Celera SNP ID:            hCV16122333
SNP Position Genomic:     202265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21608):
GGAGACCTGCAGCCCCCCACCAGACCCCCAGAATCACACTATGCTGGTTGGCCTGGGCATGCCCCTCCCCCCAAGCATTTCCGCTGCACATCCCAGCTCA
A
GAACCACCCTCTGGGTGCCAAGGTCTCCTCCAGGAGCACAGGTTCTCACCTGGGGCTGATCTGCCCCCTGGGGACATTTGGAAATGCCTGGAGACATCCT
Celera SNP ID:            hCV27156110
SNP Position Genomic:     585808
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21609):
GAGACCTGCAGCCCCCCACCAGACCCCCAGAATCACACTATGCTGGTTGGCCTGGGCATGCCCCTCCCCCCAAGCATTTCCGCTGCACATCCCAGCTCAA
G
AACCACCCTCTGGGTGCCAAGGTCTCCTCCAGGAGCACAGGTTCTCACCTGGGGCTGATCTGCCCCCTGGGGACATTTGGAAATGCCTGGAGACATCCTG
Celera SNP ID:            hCV27156111
SNP Position Genomic:     585809
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21610):
TAGCCAGGCATGGTTGCACGCGTGTAGTCCTAGCTACTCAGGAGGCTGAGGTGGAAGGGTGGTTTGAGCCCGAGAGGTGGAGGTTGCAGTGAGCCAAGAT
M
ACTCCACTGCACTCCAGCTTAGACGATAGAGACAGACCTTCTCTCAAAAAGAAAAAAGCGAGACACAAAAGATCTATAAGTGATTGATTCGGTTTACATG
Celera SNP ID:            hCV27156112
SNP Position Genomic:     586878
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,7)      total(A,5|C,7) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21611):
GAAACAATATGAACCGCAACGGGTATTTCTGCAAGTTTCTAAGACTGGCAGGAGTCAGCTCGGGGGAAGCAGGAAGAATCCCCAGTTGGTTGGCTATTCT
Y
GGGACCGAAGAGATAATCCCCATTGAACAGAGCCTACACTCACATCCTTGAGTCCGTGATGTTCTTCGCTTCCCTGGGAACAGCCAGAGTCCAGCTTTCC
Celera SNP ID:            hCV8738976
SNP Position Genomic:     406146
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;(C,-|T,-)   Caucasian(C,22|T,52)   African-American(C,22|T,58)   Asians(C,31|T,53)   total(C,75|T,163)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21612):
GGGTCTTTGCTCTGCTCACAGCCATGCTGTATCCATCAGGGTTCTCCAGAGAAACAACCAATTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
AATCTGAAGTGTGTAGGGCAGGCCAGCTGGTGTGTGTGTGCATGTGTGTAATCTGAAGTGTGTAGGGCAGGCCAGCCGGGGGTGTGTGTGTGTGTGTGTG
Celera SNP ID:            hCV27156113
SNP Position Genomic:     589946
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,5)   total(G,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21613):
ATGGATGTGAAAATGTATTGTGAACACATGCATAGGACCATACATACATCATACACACACACATACACACACACTTAAACATACACATACACATGCACAT
R
TACACACACATACACACACACAGCTATGGGCACAACTTCATTTCAACTTGTAGATTGTGAAGTAAAGGCATTGGAACTTTGTGGCTTGCAAATCTAAATT
Celera SNP ID:            hCV8738977
SNP Position Genomic:     406499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21614):
GCACTTTGGGAGGCCAAGCGGGAGAGTTTCTTGAGGCCAGGAGTTCGAGACCAGCCTAGGCAGCATAGTGAGACTCTGTCTCTACAAAAAAAGAAAATTT
A
AAAAAAAAAAAAAAAAAACAGGCATGGTGGCATGTGCCTGTGGTCCCAGCTACTCAGAAGGCTGAGTTGGGAGGATCGCTTGAGCCCAGGAATTTAAGGC
Celera SNP ID:            hCV27156114
SNP Position Genomic:     591243
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21615):
CACTTTGGGAGGCCAAGCGGGAGAGTTTCTTGAGGCCAGGAGTTCGAGACCAGCCTAGGCAGCATAGTGAGACTCTGTCTCTACAAAAAAAGAAAATTTA
A
AAAAAAAAAAAAAAAAACAGGCATGGTGGCATGTGCCTGTGGTCCCAGCTACTCAGAAGGCTGAGTTGGGAGGATCGCTTGAGCCCAGGAATTTAAGGCT
Celera SNP ID:            hCV27156115
SNP Position Genomic:     591244
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21616):
ACTTTGGGAGGCCAAGCGGGAGAGTTTCTTGAGGCCAGGAGTTCGAGACCAGCCTAGGCAGCATAGTGAGACTCTGTCTCTACAAAAAAAGAAAATTTAA
A
AAAAAAAAAAAAAAAACAGGCATGGTGGCATGTGCCTGTGGTCCCAGCTACTCAGAAGGCTGAGTTGGGAGGATCGCTTGAGCCCAGGAATTTAAGGCTG
Celera SNP ID:            hCV27156116
SNP Position Genomic:     591245
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21617):
AGCCCAGGAATTTAAGGCTGCAGTGAGCTGTGATCGTGCCACTGCATTCCAGCCTGGGTGACAGAGACCTCGTCTCAAAAAAAAAAAATTATATATATAT
A
CACACACACACACACATACATACACACACACATATACATATACATACATACATATATATATAGTGATCCATGCAAAATCTGCAGCAGGGGTAGGCAGACA
Celera SNP ID:            hCV27156117
SNP Position Genomic:     591426
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21618):
GCCCAGGAATTTAAGGCTGCAGTGAGCTGTGATCGTGCCACTGCATTCCAGCCTGGGTGACAGAGACCTCGTCTCAAAAAAAAAAAATTATATATATATA
C
ACACACACACACACATACATACACACACACATATACATATACATACATACATATATATATAGTGATCCATGCAAAATCTGCAGCAGGGGTAGGCAGACAG
Celera SNP ID:            hCV27156118
SNP Position Genomic:     591427
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21619):
AGGAATTTAAGGCTGCAGTGAGCTGTGATCGTGCCACTGCATTCCAGCCTGGGTGACAGAGACCTCGTCTCAAAAAAAAAAAATTATATATATATACACA
C
ACACACACACATACATACACACACACATATACATATACATACATACATATATATATAGTGATCCATGCAAAATCTGCAGCAGGGGTAGGCAGACAGGAGG
Celera SNP ID:            hCV27156119
SNP Position Genomic:     591431
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21620):
GCCTACCCAGTCAGCATCCCTAGGGGGTAGGGTCCAGTGGTGTGTTTTAACTCTCTAGGTAATTCTTATGCACATTAAAGTTTGAGACACTCTGGTCTGC
M
CTAAGTAGTAAAAATAAAAGTCCACAATCTTGCCTGTGAACTCACTGTGTTAATCCAAGTCCCTGGACTTCATTCCTCACTTCTTTAGACCCAGGTCTTC
Celera SNP ID:            hCV11937481
SNP Position Genomic:     570048
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21621):
AGGAGGCTCCTCCTCCACTGCCCTGGCCACCTGGATGCTGCATTTAATTCTGGGCACCACGCGCCAGAAGGAGGAGTAGATGAGCCATGTTCTGGGGGGC
R
GTGAGCAGGATGGTGAAGGAGGAGTAGATGAGCCATGTTCTGGGGGGCAGTGAGCAGGATGGTGAAGGAGGAGTAGATGAGCCATGTTCTGGGGGGCAGT
Celera SNP ID:            hCV2089550
SNP Position Genomic:     103771
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21622):
ACTTAAGCCTTCCCCAAGTATCTGGAGATTCCAAAAGCTGCATCTCCCTGCTAAACCTCCTCATTGGAGTCTCCACCCTCTCCTGCGTGAGTCTGTTGCC
R
TGTTTTCCTCAGCTGAAAGGGTTTGGAGACCCTGGGGAGTCCACACACACCCCCTATTTCGGAGTTTGAAGCTAAAAGCACATGGTCACCCCCAGGTGTG
Celera SNP ID:            hCV27496422
SNP Position Genomic:     631321
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,328|A,1151)   total(G,328|A,1151)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21623):
AGAGGTAGCGTCTCCTCCTCTGTACTCTCCTTTCTTCCTTGAGAGGAGGAATAACTTTCTGTCTCTTGCTGTTCTTTGTAAATGAGTTTCCTTTTGGCTT
K
CTTTCTTCTGTCCTTCCTTCCTCTGATGGGTAGAGCATCTCTGTGGGCCAGGTACTGTGTTCAGCATTTCATGAGATTTATCAATTTTAAAGAAGAATTG
Celera SNP ID:            hCV2089551
SNP Position Genomic:     105911
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21624):
TGCTTTACAGCCCCCCAGAGCGCCCCAGCCCTGCCACACACAGCGGCCCCTGTGAGGACTGAGGTGGACGTCTGGCTGCCCGCTCTCTTGTCTGTGTCCC
R
TTCATCTCCCAGACCCCGCCACAAGACAGTGCTGAAAGGCAGTCAGAAGCTTTGTGGTTATTTGCTTAAAACTTTCTTTTCTGGGAATCCAACCCATTAA
Celera SNP ID:            hCV27496423
SNP Position Genomic:     620734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21625):
ACATCATGAGGAGATATGGCTTCTGCAGGAAGAGGCCTCACCAGGAACCAAATTGACCAGTACCTTGAACTTGGACTTCCAGCTGCCAGAACTGTGAGAG
S
TAAACGTGTGTTGTTGAAGTGCCTCTGCCGGTGGTCTTTGTGATAGCAGCCCCAGCCGACTCATCACAGCCAGATTAAGGGAGATCAAAAGAGTTAAGGT
Celera SNP ID:            hCV2089552
SNP Position Genomic:     108477
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21626):
TAACAGTGGACAGAACTAACTAGGTTTTAGGGGTTTAAGAAGGGAGCCGTCAGCTGTGTGTAGGACAGGACTTCGTAACACCCGGCTTGTGCGTGTGTGC
R
GTACCATAACGTAGCGTGTTGTAGGGCGTCGAGCAGCTGGGCCGGGGGCCGCCAGCCAGGCGGGGCTCTGGGTTCCAGTGTTAGAGGTACATGGTGTTAC
Celera SNP ID:            hCV27496424
SNP Position Genomic:     564926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21627):
TGATACTATTATTATTTTAGGGTTACCCAAAAATGTGCAGCACGCCCTCGAATGACATGGATTTGTTCTAACGTTGGTGATGAAAAAAATGGATTCCCGC
K
GGGGCCCTGTCTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTGTGTGTGGAGCGTGCACGCGCTCCCGTGTTTCCTTTGTGTGGAGCGTGCACGCGCT
Celera SNP ID:            hCV2089553
SNP Position Genomic:     109138
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21628):
GGATGCCGAGTCACACGTGCTTTTTCCCACACAGGTCAGCCCTCTCAAGGTGAATGCTGCTGTGACATATGGGAAAGTGCATCTTTTCTATCCAAACCAA
Y
GCTGTCAATTATTTATTGTGCGGGAAATTCCAAGGCTTTGGCTTCAGCCAAATGTGTTCTGAAGCTACTACCAACGGCCAGTCATTTGGGACACCTGAAA
Celera SNP ID:            hCV27496425
SNP Position Genomic:     560673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21629):
ATTAAGGAAAATGCCTGCAGTTGTTTCCACCGTGCGTCTGAAGGTCGCTTTAAAAGGAAAGCCATCCGTGGCTTGCGGGGACCATGATACCTGGCAAATC
R
GAGGTCGCAGGTCCTGTCTGAGATGAGCTTGTGCATGTGAGTGCGGATGGGGGGTGGGAAAGGGAGGCCAGTGCAGGGGAGGTGTGGGCCAGTTTGTTCT
Celera SNP ID:            hCV27496426
SNP Position Genomic:     554533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21630):
AAGTGTAATACGAAAAAAAATCATGCAAATCAATTACCAGTATCTGGTGTTTGAAATTGTAAGATGCTGAAAAGAACTGTTAATTATACTCTGTATCTGC
S
GGGGGAATGTAAACTGACTTTAGGATTCGAAGAGACCTTGCTGATGAGAGAAGGAATCACTGCTCCTTTTAGAGGCAATGAAAGTTGGGCCTGGAGTCCT
Celera SNP ID:            hCV27496427
SNP Position Genomic:     249210
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,21|C,1072)   total(G,21|C,1072) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21631):
TTCCAGGTGATGCTGTTTACCTCCTGTGATATCCTTGTGTCCTGGGGAAGCACAGATTTCAGTGAGACTGGGACTCTGTTTTCCCCTCTCACTGAGATGC
R
GTCACAGCTGCCCAGCGACCTGGTTCCACCTTAGGGTCAGGCAGCTGCGACCGATCTGTCTGGTTCCTCACCCTGGGGGTGCCCGCCGTTGGGAGGTGCT
Celera SNP ID:            hCV27496428
SNP Position Genomic:     247960
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,23|G,1466)   total(G,1466|A,23) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21632):
CTTCCCAAACCTCACAGGCCTTTCTGCGTCCCTGACAGAGGTCTCAAGAGGAGCCTTTGACAAACAGCAGTGAGAGCTGATTGCTGCCCAGTGTCATCAA
S
ATGCCGCCATTGATTCTAGCTTTGGAATCTGTGGCCAAATAGGTGACTCAATCTGAAATTTATTTGGAGAAGGCAGACAAACATTCAGAGGAAGCAGCAG
Celera SNP ID:            hCV9087269
SNP Position Genomic:     587673
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,12)   total(G,12|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21633):
GAATTTAAGGCTGCAGTGAGCTGTGATCGTGCCACTGCATTCCAGCCTGGGTGACAGAGACCTCGTCTCAAAAAAAAAAAATTATATATATATACACACA
C
ACACACACATACATACACACACACATATACATATACATACATACATATATATATAGTGATCCATGCAAAATCTGCAGCAGGGGTAGGCAGACAGGAGGAA
Celera SNP ID:            hCV27156120
SNP Position Genomic:     591433
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21634):
CTCCCGCCTCCTCCCCCTCCCCCCCCCCCGCCCCCTGCCCCTCGTTGGGTGTTGGGTGTTGGGTGTTGGGTGTTGGGTGTTGAGTAGCCCAGGGCTTCTC
Y
TTCCTGGCTGGGATGCAGGCAGTAGTCATATCATCACAGTCATCAACAGCCAAAGTGACTCAGTGTCGCCCACAGGTTCTGAGTGGGGGCTTGACTGAGC
Celera SNP ID:            hCV15861493
SNP Position Genomic:     54637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21635):
TCCAGTAGAGACACATGACTCCTTCCTTAAAACAACTTACAGTGAAAATATGTGGATGGTTGAAAAAGTAATGTTTCCAGTCTGCTGAAAGTTCTGTGGG
T
TTTTTTTTTTTTTTTGCAGGGCAATTATCTGTATAAAATACTTTTTTTCTTTTAAGTAGAATCCTATTGCTAATGAAACCATATTTTGAACATGAAAATT
Celera SNP ID:            hCV27156121
SNP Position Genomic:     593541
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21636):
TTTGGGAGGCTTTCTTATGATCATTCTTAAATAGTTTATTGTCTTATAATAATGTGGGCTTTTTTGTTTTACTTAATATATAGGAAGATTTTTTTTTAAT
R
CCTTAAAAATACTGCACATTAAGTCTGTTTTTTTACAGAAGGATAAATGGATGAACAGGTGTTTTAGGAGCCACAATAAACCATCGCAGAGCAAGGAGTG
Celera SNP ID:            hCV27156122
SNP Position Genomic:     595585
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21637):
CTACTAAAAATACACAAAAAATTAGCCGGGTGTGGTGGTGTGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACGTGAACCCGGGAG
R
CGGAGGTCGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAATTTTTA
Celera SNP ID:            hCV27156123
SNP Position Genomic:     597018
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21638):
ATAGTCCCTAAGAGCTGGCCAACTTCCACGATCATTATATTTTTGAGTTTTGCATCATGGCGCATAGCTGCTTTTTTCCTTTTAGGATGTGCCTCTCCAT
A
GAGAAGAAGTTCACATTCCTTTTCTGTGTGACGCTGCTCTTTTAGAAATTCTTCCGTGATTCAGGGTTCGCCAACATGAGTTATTTCCCATTAAATTTCC
Celera SNP ID:            hCV27156124
SNP Position Genomic:     607767
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21639):
TAGTCCCTAAGAGCTGGCCAACTTCCACGATCATTATATTTTTGAGTTTTGCATCATGGCGCATAGCTGCTTTTTTCCTTTTAGGATGTGCCTCTCCATA
G
AGAAGAAGTTCACATTCCTTTTCTGTGTGACGCTGCTCTTTTAGAAATTCTTCCGTGATTCAGGGTTCGCCAACATGAGTTATTTCCCATTAAATTTCCC
Celera SNP ID:            hCV27156125
SNP Position Genomic:     607768
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21640):
TCCCTAAGAGCTGGCCAACTTCCACGATCATTATATTTTTGAGTTTTGCATCATGGCGCATAGCTGCTTTTTTCCTTTTAGGATGTGCCTCTCCATAGAG
A
AGAAGTTCACATTCCTTTTCTGTGTGACGCTGCTCTTTTAGAAATTCTTCCGTGATTCAGGGTTCGCCAACATGAGTTATTTCCCATTAAATTTCCCCAG
Celera SNP ID:            hCV27156126
SNP Position Genomic:     607771
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21641):
CTCACACAGTGGCGTCTGTCTGAGGGAGCAAAGGAGCACCAGATTCTGGATTTTTTAACTGTCATGAAATATACATAATATAAAATTTGTCATCCTAATC
T
TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCAGGCTGGAGTGCAGTGGCGCGACCTTGGCTCACTGCAACCTTTGCC
Celera SNP ID:            hCV27156127
SNP Position Genomic:     609253
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21642):
GTGCAGTGACTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGGATTGCTTGAGGCCAGGAGTTCAAGACCAACCTGGGCAAACTGGTGAA
S
CCACTGCACTCCAACCTGGGCAACAGAGAAAGACCCTGTCTCTAAAAGAAAAGAAAAAGACCCCCTTCTCTACAAAAAAAAAAAAATTGAAAATTAGCTG
Celera SNP ID:            hCV27156128
SNP Position Genomic:     622191
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21643):
AAGACCAACCTGGGCAAACTGGTGAACCCACTGCACTCCAACCTGGGCAACAGAGAAAGACCCTGTCTCTAAAAGAAAAGAAAAAGACCCCCTTCTCTAC
A
AAAAAAAAAAAATTGAAAATTAGCTGGGCGTGGTGATGTGCACCTGTAGTTCCACCTACTTGGGAGGCTGAGGCAGGAGGATGACTTGAGCCCGGGAGTT
Celera SNP ID:            hCV27156129
SNP Position Genomic:     622265
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21644):
CTCAAATGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCACCCTCTCCCCTGTTAATTTACCTCTTTCATTAGT
R
TGGTACATTTCTTAGAGTTCATGAGTCAATATTGATATGTTTTTATTAAAGTCCACACTTTATTTGCATCTCTTTAGCTTTAACCTCATGCCGTGTCTCT
Celera SNP ID:            hCV11937495
SNP Position Genomic:     517334
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21645):
TTTAAAGATGAGTAGGTGCAAACTGCAGCCACAGTAAACTTCAGGGTGTCAACTTCAGGGGAATATAAACAGCCTCCAGGGAGCCCCTCTCTCCATCCCA
R
CCTTTCTTCCTCTCTCGTAACTGTTATTTACTCAGTAATTACAGGTTCAAGTCCCTTGTCCAAAATCCAAAAAGCCGACACTGGAAATATTCTGTAGCTC
Celera SNP ID:            hCV2089561
SNP Position Genomic:     111549
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21646):
TTACTGCTTGTTGTTCTGGCCCCAGATCTCAGAGTCCTGGTAACGCCTCTCCTCTTCTCACTGCCTTCAGTATCCAGCCAAGCTGGGAAACGCCACTGCC
M
CAGTACCTGCAGGGTCCAGCCAGCTCCCCACCTCCACTGGATGCCACTGTGTTAGCTTGGGCTGCCACGACAGAGACCACAGAGTGGGTGGCTTAACAGA
Celera SNP ID:            hCV2089562
SNP Position Genomic:     112515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;(A,-|C,-)   Caucasian(A,39|C,45)   total(A,39|C,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:21647):
AAGAGACTTGATAGCCGGCCATTGCACGTTCATCAGCCCGGTTTTCCTCTTGTGGCACCTGGTGGTGTGCTGGTGTGTGGTTTATAAAACATGCTCTGCC
R
CTTTGATTTCCCTGCTTAGATTTACATAATTGTTTTAGAAGAAGGTTCAGGTGCTTTGCTGGCAGAAAAAGGAAGACGACCTCTTGCAAAGTGGGGTTAG
Celera SNP ID:            hCV452099
SNP Position Genomic:     144499
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,10)   total(G,10|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21648):
TCAAGGGGCTGAGGTAGGAGGATCACTTGAGCCCAAAGCAATCCAGCCTGCTCAAACCCAGCCTGGGCAGTATAGCAAGACCCTGTCTTAAAAAAAAAAA
G
AGAGAGAAGAAGACTGGGCACTGTGTCTCAACACTTGTAATCCCAGCACAAAGCAGGTGGATCACTTGAGTCCAGGAGTTTGAGACCAGCCTGGGCAACA
Celera SNP ID:            hCV27156130
SNP Position Genomic:     623378
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21649):
AAGGGGCTGAGGTAGGAGGATCACTTGAGCCCAAAGCAATCCAGCCTGCTCAAACCCAGCCTGGGCAGTATAGCAAGACCCTGTCTTAAAAAAAAAAAGA
G
AGAGAAGAAGACTGGGCACTGTGTCTCAACACTTGTAATCCCAGCACAAAGCAGGTGGATCACTTGAGTCCAGGAGTTTGAGACCAGCCTGGGCAACATG
Celera SNP ID:            hCV27156131
SNP Position Genomic:     623380
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21650):
GTCTTGCTGTCTGTGCAGCACCTGCTTTCTGTTCACAGGTGCTGGGAGTTGTATGACGCTGGGCAAACTGGGAGCAGCGTGGGCATCCCGGCCCAAGCTC
A
GGGGCTCAGGAGGCAGGAGGCGGCACTCGCATTCACACGCACACGCACAGAACGCTCTCCCGCTCTCTCAGTCTGGTCCCTGGGCAGGTTGAAGGCAGCT
Celera SNP ID:            hCV27156132
SNP Position Genomic:     624542
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21651):
TCTTGCTGTCTGTGCAGCACCTGCTTTCTGTTCACAGGTGCTGGGAGTTGTATGACGCTGGGCAAACTGGGAGCAGCGTGGGCATCCCGGCCCAAGCTCA
G
GGGCTCAGGAGGCAGGAGGCGGCACTCGCATTCACACGCACACGCACAGAACGCTCTCCCGCTCTCTCAGTCTGGTCCCTGGGCAGGTTGAAGGCAGCTC
Celera SNP ID:            hCV27156133
SNP Position Genomic:     624543
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21652):
CTTTGGCCCTGCTAGGTTGCTGGCCGGCCACCTTATGGCCCCAGGCCTGTCCTGAAGGCGGGGGCCAGATTGGGAGCCCCCCTGCTTCCGCTCTGCAGCC
C
TGTCTGGCTGAATGGTGTAAAATTCCCTAAGTCTTTCCTTCCTTCTTGCTGTGTTTCAAAGAAGGAAAAGCCGGGTCTGTCAGTTCTAGGCTCTCCACTG
Celera SNP ID:            hCV27156134
SNP Position Genomic:     624772
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21653):
TTTGGCCCTGCTAGGTTGCTGGCCGGCCACCTTATGGCCCCAGGCCTGTCCTGAAGGCGGGGGCCAGATTGGGAGCCCCCCTGCTTCCGCTCTGCAGCCC
T
GTCTGGCTGAATGGTGTAAAATTCCCTAAGTCTTTCCTTCCTTCTTGCTGTGTTTCAAAGAAGGAAAAGCCGGGTCTGTCAGTTCTAGGCTCTCCACTGT
Celera SNP ID:            hCV27156135
SNP Position Genomic:     624773
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21654):
TGAAATAAAATTACTGAAACAATTTGATAAAGTTTGATTTTTAAATTTGATTTGTTACTGAAAAGGACACTTTTTGTTGGTTGGTTGGTTGGTTGGTTGG
T
TTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCATGC
Celera SNP ID:            hCV27156136
SNP Position Genomic:     187101
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21655):
GGAGTGCAGTGGCACAATCATAGCCCACTGTAACCTCAAACTCCTGGGCTCAAGCAATCCCCCCACCCTAGCCTCCCAAGTAATTGGGACCACAGGCATG
C
CACCCCCATGAATGGCAGTTTTTAAAAAATTTTGTAGACTTACGTTCTTACCATATTGCCCATGGGTTTTGAACTCCTGCCTTTAAGCAGTCCTCTCACC
Celera SNP ID:            hCV27156137
SNP Position Genomic:     633969
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21656):
TAATAATGTGCAACTAGTTGAGATAAGAGGGTTACAGATCATTGTACATGGAAAATATTCCCAGCAGTAAACACTTCCATTAATGTGATCTACGGCTTTT
R
AAAAGGAGCATCTCAGAATAAGATGGTGGTACAATTTGCTTATTAAAATTGAGAAAGAAAAAAAAAGACACACTGGAGTATATTAGAAAGGAAAAAGAAG
Celera SNP ID:            hCV27156138
SNP Position Genomic:     637285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:21657):
GGAAATCTAGCTATTATACAGAATTATTAGTCTACCTTTAGGGCTCCCCACAGCAACAAGCAAACTCACAGAGCCCAGGGCAGGAGGAGCTGTTCTGACT
K
CAGGCGGCCTTGCCAGGAGCCCGTTGGCCTGGGTGGAGCCCGTTGGCCTGGGTGTCCACTGTCAGAGGATGGAGATTGATCTGGGGTTACCTTTTTCAGC
Celera SNP ID:            hCV53829
SNP Position Genomic:     119137
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21658):
TATATATATATACACACACACACACACATACATACACACACACATATACATATACATACATACATATATATATAGTGATCCATGCAAAATCTGCAGCAGG
R
GTAGGCAGACAGGAGGAAGTGGGTTGCAGGGTCAAGGCAAGCCTCAGAGAAAAAAACCTGAGACTGAGTGGCCCTGACAGGCAGTTGGTGGGACAGGGAA
Celera SNP ID:            hCV9087285
SNP Position Genomic:     591515
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21659):
ATATATATATACACACACACACACACATACATACACACACACATATACATATACATACATACATATATATATAGTGATCCATGCAAAATCTGCAGCAGGG
K
TAGGCAGACAGGAGGAAGTGGGTTGCAGGGTCAAGGCAAGCCTCAGAGAAAAAAACCTGAGACTGAGTGGCCCTGACAGGCAGTTGGTGGGACAGGGAAG
Celera SNP ID:            hCV9087286
SNP Position Genomic:     591516
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21660):
GCAGGGTCAAGGCAAGCCTCAGAGAAAAAAACCTGAGACTGAGTGGCCCTGACAGGCAGTTGGTGGGACAGGGAAGGGGGTGGTACAGACGGAGGGAACC
M
CCATGCAAAGGTATAAAAGAGGACCCCCCAATATGCTAACATGTATTCCACTGTTGCTGAAGACTAACACTCAAGGCACTGGTTACCAGGGAATGAGAAC
Celera SNP ID:            hCV9087287
SNP Position Genomic:     591641
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,10)      total(A,3|C,10) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21661):
TGGATGGTACCCCACCCTTCGCCCCTAGGCACCTTGGCCAGACCCTCCTCATTCTTCAAGATTCAGCAGCCCTTGCCTTCTGTGAGGAGTGAGTTAGGTT
Y
CATCTGTGCCCAGCTGTGCTGTGTGCTTTGCAAATGAACTGGAACAGTCTGTCTGTGAAGGGGATGTCAGAAATTCAAGGATGGGGGACAGCTGTCATCA
Celera SNP ID:            hCV28001600
SNP Position Genomic:     57499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21662):
GAGACCAACCCTGCCCTCTGGACGGATGGAAGGACACTGGGGAGCCGATGATGCCCAGAGTGTCTGGGGGACGCATCCAGGGTCCCAGGCCCAGAAAACA
R
TGGAGCCAAGAGAGGAACGAGGTCTCTGGATTCCGGACGCCCTGCTGCTACTTGGCCTCCAACCAAAAAATTGTTCTTCTCCTTCCTTTTTTAGTAGGGG
Celera SNP ID:            hCV53831
SNP Position Genomic:     120298
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21663):
TCTGTCCTTTGAAGGTTTTCCTAAGATATTTTCCTAGTTTAATAGGAAGTGTGGACATGGGACATTGTACGGCTTAGGAGACTGCGTTGTGTTTGGTTTT
K
AATATATATTAGATGCGTGACCCTCCCTCTTAAGAACTGATTTTGCTTTGAGAAGATCTACAAGGGCCAAAAGTGGACCTGTTTCAAAATTCTGGTCACA
Celera SNP ID:            hCV29368225
SNP Position Genomic:     287917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21664):
CCTGAGACTGAGTGGCCCTGACAGGCAGTTGGTGGGACAGGGAAGGGGGTGGTACAGACGGAGGGAACCCCCATGCAAAGGTATAAAAGAGGACCCCCCA
R
TATGCTAACATGTATTCCACTGTTGCTGAAGACTAACACTCAAGGCACTGGTTACCAGGGAATGAGAACTTGTGTTGAGTTTGAGATTTTACTTACCTGG
Celera SNP ID:            hCV9087291
SNP Position Genomic:     591672
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21665):
GTGCTCTGGAGGGAGATGCTATCTCCATCATCCAAGGCTGTTTCCTGTGCATGTTCTTGGAAAGATAGTTGGGAAAAAAGGCAGGCAGAGCCTCTGCTGG
M
AAGACACAGGGAAAGGAGAGAGAAGAATTGTTACCCGGCAAAGATCAGACTGCCTCCTCCACCAAGTCTCTGGTCTAGATTCTGTGAGTCCAGAAACCTC
Celera SNP ID:            hCV9087292
SNP Position Genomic:     592131
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,12)   total(A,12|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21666):
GTTTTAGGAGCCACAATAAACCATCGCAGAGCAAGGAGTGCCTCTTCTGAGATCCCATTCGATGCTCTGCCCTCAATTAAATGAATCCGAGATAAATGGG
M
ATGTGCGTGTGTATGCACACACACGTGCACACATACACACACAGGCACACATATGCACACACCAAGGTTCTAGATGAGAAGGAACAGAGGGATCCAGCTC
Celera SNP ID:            hCV9087299
SNP Position Genomic:     595746
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21667):
TCCCAAGCAGCTTCACCTGTTCCCTGTAACACCTGTCCTAGCATTTAACTCTTGTCCTGAATACTGCGGAACCGTTCGGAGAAGTATAAAAGTGGCTTGA
G
GCTCTGCCACCGTTTTGCAGAATTGTGTAGTCATGTCATGAACACCTCATGCATCAGGAAGAGACCTTCCATACTGAAATGATGATCTAGGAAGATTAGA
Celera SNP ID:            hCV27156156
SNP Position Genomic:     230518
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,14)   total(G,14|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21668):
GAGGAAAACCTGGCTTAGGGATTTATCTGCAGGGACTGTCCCCAGTAGGTCTATGAGAGCCCACCACAGCAGCAGCCCTCTGGATGGGGATTTGGGTCTT
G
GTTTTGCTAGCACTCCCAGTGGACAGTCATGCCTGGACTTGTCTTCTCCACCTTCCACTTGTCCTAACAGCTGTCGGGACCATCATCCACCAGGGGCCAG
Celera SNP ID:            hCV455747
SNP Position Genomic:     154136
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21669):
TTTCCTTAAACTCACCGTCTTAGCTATCAGGTCTAGGTGTGAAAATGTGATTTAACTAATCAACACAGTAGCAGCAGAGCTTGGTGTCTTTGTTGACTGT
Y
GGCGGCCACGTGGGTTTAGGTCCCCTGCCCTTCAGCCTGGTTGCTGGGTATGAGGCCTCCACCTCGGCAGGACTGCTTCGAGCTGACCTGGACTGTGTTT
Celera SNP ID:            hCV11937667
SNP Position Genomic:     437554
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,11)      total(C,11|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21670):
ATTCCCCTGTCTTCTATTAAAAATGTCGTGGGGGCAAATTCTAAAGAATAGTCTAGGCAGGCAAACCCTTTCAACTTCACTTTGCAAACCTGCCTGAGAG
W
GAGTCTGAGAGGCAAATTCTTTTTCTTTCCACTTGAAGAAGTGTCAGAAATTTGGTGGATTGGAAAAGATGGGAGAGAAAAGTCCAGGAGTCCTGACTGC
Celera SNP ID:            hCV455748
SNP Position Genomic:     152436
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,11)   total(A,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21671):
TCCCTGATGGAGACAATCCAGAGGCTCTCTTTCCTGGGCATTACTGGGGCTGAGGGTTGGGGCGTGGCTTCCTGCAGACCCCACGCACCTTGCAATCCTC
R
TGGCATTTCTGAATGTAGCTCTATTTCTATTAGCCTTCCTGAACTGGCAACTTTAATGCCTGGGTAGCAAGCACTTGGGCGTTTCCTTAAACTCACCGTC
Celera SNP ID:            hCV11937668
SNP Position Genomic:     437372
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21672):
TCTGCTGTCTGTTACCTACCACCATTTTTATTCCCCTGTCTTCTATTAAAAATGTCGTGGGGGCAAATTCTAAAGAATAGTCTAGGCAGGCAAACCCTTT
S
AACTTCACTTTGCAAACCTGCCTGAGAGTGAGTCTGAGAGGCAAATTCTTTTTCTTTCCACTTGAAGAAGTGTCAGAAATTTGGTGGATTGGAAAAGATG
Celera SNP ID:            hCV455749
SNP Position Genomic:     152407
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,9)   total(G,5|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21673):
ATGATTGCGCCACTGCACTCTAGTCTGGGTGATAAAGCCAGACCCTGTCTCAAAAAATAAAAAAGCCTCAAGTCAGTGGTTGGCACATTGCAAATACTTG
R
TAAGCATTGGCTGTGAACATTACTGATACTTTTCCTAGTCTGCATAACAGAGTTTGTCTAATAGTGACTCTACATTTATATAAATATATGTCCATGATCA
Celera SNP ID:            hCV9087444
SNP Position Genomic:     622483
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21674):
TAAAACCCAAACATGTCTCCTTATCTCTGCTGCGTCCTGAGTCGGCTCGGCTGCCTGCATGTTCCCACCCCTGATGGGGGCACCTGGGAGCGCCCGTGGG
R
TGGGGGCATCTGGGAGCGCCCGTGGGGTGGGGGCATCTGGGAGCGCCCGTGGGGTGGGGGCATCTGGGAGCGCCCGTGGGGTGGGGGCATCTGGGAGCGC
Celera SNP ID:            hCV27156300
SNP Position Genomic:     276514
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21675):
AACATGTCTCCTTATCTCTGCTGCGTCCTGAGTCGGCTCGGCTGCCTGCATGTTCCCACCCCTGATGGGGGCACCTGGGAGCGCCCGTGGGGTGGGGGCA
Y
CTGGGAGCGCCCGTGGGGTGGGGGCATCTGGGAGCGCCCGTGGGGTGGGGGCATCTGGGAGCGCCCGTGGGGTGGGGGCATCTGGGAGCGCCCGTGGGGT
Celera SNP ID:            hCV27156301
SNP Position Genomic:     276523
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21676):
CCCTGCATGTAACTTTACAGAAGAATCAAAGAAAAGTTGGCCAAAGATACAAAGTTTTTCTTTTGTATTTTTTTGAGAAGGAGTCTGGCTCTGTCGCCCA
R
GCTAGAGTGCAGTGGTAAGATCTCGGCTCACTGCTACCTCCACTTCCTGGGTTCAAGCAATTTTCATGCCTCAGCCTCCCGAGTAGCTGGGATTATATGT
Celera SNP ID:            hCV27156302
SNP Position Genomic:     278630
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21677):
TGCGCTTCTTAATGTCTGTGCCCTGTTCTTCTGATTTAATTAGTGCGTGAGTATCCTTTATGTCATAATCCTGACCCGTGGCTGGGATATGTAGACTGCT
G
GGAGGGGTGAGGGTGAGGGCCTTCCTGTCTTCAGGGGAGAGCTCTCTCGTGGTAGAAACATTTCTGGTGCAGAGCCGTCTCCAGATCCAAGCCTGCTTTT
Celera SNP ID:            hCV27156166
SNP Position Genomic:     232608
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,15)   total(G,1|-,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21678):
ACCTAATTGCATTTCTTTGTTTACAAGCACTTAACTTCATCCCTCTCAGGCGCACACCAGCACTGTCTATCACTAATACTGGCAGTTCTAGGGTGAGGTG
K
ACAGTTGCTCTTAGTCAGAAACTCACTTTGCTGTTTTCCACTAGATTCCCAGATAGAGAAGGACAGTTGTTTCAGGCAAGCTTAAGACCCTGTAACATTT
Celera SNP ID:            hCV455751
SNP Position Genomic:     151776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21679):
TCTACCTACTAGATGCCAGTAGCATCTCTTCCAGTTGCGGTGACCAAAAATGTCTTCAGGCAATCCAGATCAAATGTCCACTGGGGGGCAGAATCACCTG
C
TGAGACCCACTGGTTAAAATAGTGTCAGTAGGGGTGGAGAGAAGGGGACAAAAGAGTCTTAGAGCCATTTGAGAGGGAGCTTCTAGAGGACTTGATGGAT
Celera SNP ID:            hCV455752
SNP Position Genomic:     150650
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,6)   total(C,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21680):
TCAGCACTATTGACATTTTATGCCGGATAATTATTTGTCCTGTGCATGTCAGGATGTTCAGGAGCATCTCTGGCCTCTACCTACTAGATGCCAGTAGCAT
Y
TCTTCCAGTTGCGGTGACCAAAAATGTCTTCAGGCAATCCAGATCAAATGTCCACTGGGGGGCAGAATCACCTGCTGAGACCCACTGGTTAAAATAGTGT
Celera SNP ID:            hCV455753
SNP Position Genomic:     150575
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21681):
ATTTACCACAGTGTCTTAGATGTATGACTCCGTTTGTATCTGGTAGTATAACACAGTTGAATATTTCTCTTTTATCTTCCAGTTTTTCTTGGCTACTGCT
R
CCTGCTTATTTTTCCTCAAATGAACTAAAGAGTAACTTGAAACCTTCTCCTCCTTGATAAAAATAATCCCCTCATTGGTGCACATGACATCAGGACCTCC
Celera SNP ID:            hCV11937672
SNP Position Genomic:     425541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21682):
TGCTGTGAGAGGTGAGTGTGGCCCCCTCACAGTTGCAGCTCTTCAAACGGGAGCCTGGAGACTCCAGGCCTATGTCTTGGGAGGTGCACTGCACAGGGTG
S
CTGCTCTGTAAACCTTGACTGAAGTCGTGGGGAAAACTGCAGTGTGCTCCAAGAACAAATTGTGAATAGAGACTAGTTAAAATAAACATCACAATGGCGA
Celera SNP ID:            hCV455754
SNP Position Genomic:     150030
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21683):
CTAGGACCTCAAAATGTGACTTTTTTTAAAAGACAGAGCCTTACTCTGTCACCCAGGCTGGGCTGGAGTACAGTGGCGCGGTCATAGCTCACTGCAGCCT
Y
GACCTCCTGGGTTCAAGTGATCCTTCCACCTCAGCCCCGCAAGTGACTAGGACCACAGGTGCATGCCACCATGCCTAGCTAATTGTATTATTATTTTTTT
Celera SNP ID:            hCV455755
SNP Position Genomic:     148999
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21684):
ACCAAGTCGTCGTGTCATCACTTGTTGGGGGTTGAAGTCCTAACGCCCGGTGCCTATGAATGTGATCGTCTCTCAGAATGGAAATAAGGTCGTCGCAGAT
K
TAATTATTTAGGATGAGGTCATGCCAGAGTGGGGTGGGCCCCTCATCTAATATGATGGATGTCCTTCTGAGAAGGGAAATTTGGACGCAGATGCACAGAG
Celera SNP ID:            hCV455756
SNP Position Genomic:     148420
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21685):
AGGCCGAGGAGGACAGATCACCTGAGGTCCATAGTTTGAGACCAGCCTGGCCAACATGGCAAAAGCCCATCTCTACTAAAAATACAAAAATTAGCCGGAC
R
TGGTGGCACGTGCCTGTAATCCCAGCTATTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAAGTGGAGGTTGCAGTGAGCCAAGATTGTGCCAC
Celera SNP ID:            hCV9087450
SNP Position Genomic:     624146
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21686):
TGTGTGCAGTGAGATTCCTAAGTGGACCTGGAAGGATGAGCTGAGTGGCCTCACGGTCAAGCCAAGGACTTCAAGGTGCCCCTGTCTAGGAAAGCTCACC
W
GTGTTCCGGTCCTGGCTCTCTGGGCTTCCTCAGGAGGTCGTTTGGCAGCTGTGAAACTCCTCCCCTCCGGGCCATACCTGGCAGACGTGCATGAACTGCT
Celera SNP ID:            hCV11937678
SNP Position Genomic:     403608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21687):
GCTGGATCACAGTTCAGGTGGATCGAGGGCAGCCTGTTCTAAGACCCTGAGAGTCCCTTTCTGTGGACTTAAATGTGAGCCTTAGGGAGCACCTTGATAG
W
AAAATGGAGGCATAATGAGAAAGAACTTGGACCTCAGGGCTTCACAGTTCAGCGTGGCCACCTATTCATCTTCCATGTCGCAAGCACGGCCGTCGAGTGC
Celera SNP ID:            hCV11937679
SNP Position Genomic:     403380
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21688):
ATGTACCTGCAGGGGTGGGCATGGTGGCATCTTGGTGGCCAGGTGTTCGTCACCCTGCACTGAGAGGGCCTGGTGAATGGCAAGGTCAGGGGATGCTGTC
S
GGACATGTCAGGATGGGAAACTGTCTTGTCTGTGGATCTTTGAGGCTGCTGAAAAGGATCTTTGAGCCTGAACTTCCAGGGAAGCCTGAAACCAATCTGG
Celera SNP ID:            hCV8739972
SNP Position Genomic:     213370
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;no_pop(C,-|G,-)   ;(C,-|G,-)   Caucasian(G,18|C,50)   African-American(G,31|C,49)   Asians(C,14|G,62)   total(G,111|C,113)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21689):
TGTTCACAGGTGCTGGGAGTTGTATGACGCTGGGCAAACTGGGAGCAGCGTGGGCATCCCGGCCCAAGCTCAGGGGCTCAGGAGGCAGGAGGCGGCACTC
R
CATTCACACGCACACGCACAGAACGCTCTCCCGCTCTCTCAGTCTGGTCCCTGGGCAGGTTGAAGGCAGCTCAGCATCCATCTTTTTCCAGAGAAGAGAA
Celera SNP ID:            hCV9087458
SNP Position Genomic:     624571
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;JBIC-allele(A,309|G,1160)   total(G,1160|A,309)   (G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21690):
CTCAAACTCCTGACCTCAGGTGATCTGCCTGCAGGCTAGTCTTGAACTCCTGATCTCAGGTGATCCACGCCCCTTGGCCTCCAAGTACTGGGATTACAGG
S
GTGAGCCACCTCGCGCCCGACCAGAAATGCTTCTATTTTATGGTGAGGAAATTGAGAGACCAGAAAGTTAACCGAGGTCACTGTCAAACCCATGGCTCCT
Celera SNP ID:            hCV8739973
SNP Position Genomic:     215854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21691):
GCAAACTGGGAGCAGCGTGGGCATCCCGGCCCAAGCTCAGGGGCTCAGGAGGCAGGAGGCGGCACTCGCATTCACACGCACACGCACAGAACGCTCTCCC
K
CTCTCTCAGTCTGGTCCCTGGGCAGGTTGAAGGCAGCTCAGCATCCATCTTTTTCCAGAGAAGAGAACTTTGGCCCTGCTAGGTTGCTGGCCGGCCACCT
Celera SNP ID:            hCV9087459
SNP Position Genomic:     624604
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21692):
ACGCTGAGATCGTGGCACACCTGAGGAGGGCAGAAAGGTGGCCCCACAAGCTTCCCAAGATGAAACTAAACTGTATATGGATTGAGTGGGAGCTTTTATC
G
TTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTCGATCGACAGAGACTTAAGAATGTTCATAGACCAACTCCAAGCTGCAAAATGAAAGTAC
Celera SNP ID:            hCV27156177
SNP Position Genomic:     235605
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,9)   total(G,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21693):
CGCTGAGATCGTGGCACACCTGAGGAGGGCAGAAAGGTGGCCCCACAAGCTTCCCAAGATGAAACTAAACTGTATATGGATTGAGTGGGAGCTTTTATCG
T
TGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTCGATCGACAGAGACTTAAGAATGTTCATAGACCAACTCCAAGCTGCAAAATGAAAGTACC
Celera SNP ID:            hCV27156178
SNP Position Genomic:     235606
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21694):
GCTGAGATCGTGGCACACCTGAGGAGGGCAGAAAGGTGGCCCCACAAGCTTCCCAAGATGAAACTAAACTGTATATGGATTGAGTGGGAGCTTTTATCGT
T
GGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTCGATCGACAGAGACTTAAGAATGTTCATAGACCAACTCCAAGCTGCAAAATGAAAGTACCG
Celera SNP ID:            hCV27156179
SNP Position Genomic:     235607
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21695):
CAGCACCACATCAAATGAGGAACTGGGCCCCCTCCTTTCTGCTGACGGCCGGCCGCGCCAATAATTCATTTTTTAGCTCATTAGCTAACGGAGGCTGTGA
R
CGGTGATCCTCCCGGGGATTGGAATGAGGGGAGGTGATCTACTGCCGGCTGCCTGCTCTTGAACTGGCCTTCCTTGGGGAAAATGAAAGGCTCAGCCAAG
Celera SNP ID:            hCV9087465
SNP Position Genomic:     626016
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   JBIC-allele(G,296|A,1207)   total(G,296|A,1207) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21696):
TTGGTCATATGTGACTTGCGTATGGAGACGCTAGTGAGAAAGATGAAGGATGCTATCCAGAGTATGTGTCAGCTCAGGCTGCCAAAATAAAGTATTACAC
K
TGGGTGGCTTAAGTGCGGGACATTCACGTCTCACAGTTCTGGAGGCTGGAAGTCTGGAGTCAGGGTGCCCGCAGGGTTGGTTCTGGTGAGACCTCTCTCC
Celera SNP ID:            hCV9087466
SNP Position Genomic:     626357
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21697):
GCTAGCTTGGGAGACCCTGCATTGGTCGACTTTCATTAGAATCTAGGATCTGTCTTGAAGTCATTTTCTTGATGGTCTCAAAATGTTTGAGCTCTGAGGC
K
TTTCGGATGTCATTTAAGTCTCGGTGAAATTATGGTCCACTTGGACCAAGGTCCTGAAGCCAGAAGAGGGGCTGGTTCTAGCGGCCAGTGCTGTTCAACT
Celera SNP ID:            hCV9086664
SNP Position Genomic:     489157
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21698):
GTTAACCGAGGTCACTGTCAAACCCATGGCTCCTGGCTCCCTGACCCCTCACACCCATTTCCCTCTGCGTCCTCTTGATCTCCCATGGACACTGGGATGG
R
CAGGGCCAGGTGGGAGAAGCAGGGCTCATCTCTGAGGGCTGCGTTATGGGGTAGGAGTTTAGCCTCAGTAACTGCAGCACTTTCTGCCCATGGCAACCTG
Celera SNP ID:            hCV8739982
SNP Position Genomic:     216021
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21699):
AAAGCAGGGGAGCTTGTGAAGTATGACTCCCTATCCCAAGACTCATTGCCTGCGATTCGTACCGCTTGACAGTAATGATCTTATTACAGTACTGTGGACC
Y
TGAAGAGATTTCATGAGGAGAGTGAAAGGACGACCCTCCGTGTAATCAAGTGGCGCTGAATATTCCACGCGTTTTTGATCACACACTGATTGGGCACAGT
Celera SNP ID:            hCV9086666
SNP Position Genomic:     491948
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21700):
ACACTGGGATGGGCAGGGCCAGGTGGGAGAAGCAGGGCTCATCTCTGAGGGCTGCGTTATGGGGTAGGAGTTTAGCCTCAGTAACTGCAGCACTTTCTGC
Y
CATGGCAACCTGTGCTGTTTTCACATTTCTCAGAAATTCCCGCTCTTGGAGTTTTACACTTGTAACATCTGCTTAGCAAATTTTGAAAAATTGAAGATGA
Celera SNP ID:            hCV8739983
SNP Position Genomic:     216109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21701):
TTCCCATTTTTCTGCAAGAGTAGTCGATAACAGAAAGAAGTGTTTTCCAAATTAATTGGTAATGCTGTTCACTGATGGTATTAAGACACAATTAGTTACC
M
CTGACTGAGTGCTTGCTGGGTGTCAGGCCCACGCTAGTGCGTTCCTCGCATCATCTGTCCACGGGTAATGTTTGTCTGCAGCATGTTGGGGTGGTGTTTG
Celera SNP ID:            hCV8739984
SNP Position Genomic:     218868
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21702):
TTGTCTGTCTCCTGAACCCGTATTTCCCAGACATTGTCAGTGCTTTTGTGCTTGTGTTTTTGCCCGAGTGGGGTGCAGGGGCTGCCTCCGCTGCATTTGT
S
GGGGCCGGTGTCAGTTCTCAGCTGTAGCCAAGTGTTTGTCCTGGAAATCTCCAAATGAAAAGAGTCGGGGGTCACTCTGGGGTCACTCACATGTACCAGG
Celera SNP ID:            hCV27478849
SNP Position Genomic:     629791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21703):
GCACAAAATTCCCACATTTGGCTGCACCCTACTCAAAACTTCACTGTTTTCTGGCATCTTCAGGAATTTTTGCTGTTGGAGTGAGGTGCAGCCTTGTCCA
G
GGGAAGGATGTTTTGGCTAATGCTTATTTCAGAGCGCGTGGAGGTGGGTCTGGGTTGTAAAATCTCTTAACGATGGACTAAACATATTTTAGTTGAAAGG
Celera SNP ID:            hCV11530037
SNP Position Genomic:     9970
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,8)   total(G,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21704):
CTGAGATCGTGGCACACCTGAGGAGGGCAGAAAGGTGGCCCCACAAGCTTCCCAAGATGAAACTAAACTGTATATGGATTGAGTGGGAGCTTTTATCGTT
G
GTTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTCGATCGACAGAGACTTAAGAATGTTCATAGACCAACTCCAAGCTGCAAAATGAAAGTACCGA
Celera SNP ID:            hCV27156180
SNP Position Genomic:     235608
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,9)   total(G,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21705):
GGTGTATTCTCTGACAGGTGCATACGAGTCCGTTCTGTTGTGACTTGTTAGGGGAAGTGCTGACCCACACCAGCTGAGTTAGTCTGGTGGTCTTGGTTCA
M
AATGGGAAGAGGCATTCAATGGGACACCCACGAGCCGAATCCAGATTTTCCTTCATAAGAAACTTGAGAATGTGCAAATGTGTTGCTAGTTCAGGTCCCA
Celera SNP ID:            hCV29368400
SNP Position Genomic:     398809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21706):
TGAGATCGTGGCACACCTGAGGAGGGCAGAAAGGTGGCCCCACAAGCTTCCCAAGATGAAACTAAACTGTATATGGATTGAGTGGGAGCTTTTATCGTTG
K
TTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTTGGTCGATCGACAGAGACTTAAGAATGTTCATAGACCAACTCCAAGCTGCAAAATGAAAGTACCGAG
Celera SNP ID:            hCV27156181
SNP Position Genomic:     235609
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,11)   total(G,2|-,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21707):
ATCTTGCTTTCTTGGTCATAAGCTAAGGTGCTTGGAGCTGTCCTTTGGCCTTTCATGTGCTGTGTCTGTGGTGCGGGTGTGCTGTGTCCTCATAAGGGTG
Y
GCCATGTCTGTGGCGTAGTGTGCACCGTGTCCATCATAAGGGAGCGCTGTGTCTTTGGCGCGGGTGTGGCGTGGGTGTGCCATGTCCATCATAATGAAGC
Celera SNP ID:            hCV29368401
SNP Position Genomic:     404984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21708):
GAAGTCACACAGAGGTGATCTTGCAGACCATACTCCCCTGAGTGTGCAGGCCTGCATTTTTGCTCAGTTCAGCTAGCGCAGTGGCCTGCTCATAAAGTTT
Y
CCAAAACCTGTAGGCTGTATGAAGAATAGCGGTTACTCCTAAGCTGCTTTTAACTTTCACCTTGTGATTCTCATCATATTTTTGTTGATTTCCCTCCTTT
Celera SNP ID:            hCV29368402
SNP Position Genomic:     407027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21709):
TGAGGCCAAAAATTCTTACACAAGGTAAATAAATCAAATCCCTCTGGTTTCCTCAGCAACAGTAAGTCACAGCCGAGGACTCAGTAGGAGAGGATGACTG
K
GGGGGGTCATGAGGAATGTTCTTTTACTTCTACTAAGAAATTGAATTTCATTATTATATTTTATAAATATTTTCTTCTTTGGCTTATAACCTGATTGCGG
Celera SNP ID:            hCV29368403
SNP Position Genomic:     409606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21710):
CCTTTGCTCTGGCGCCTGCTTGGAAAAAATAAGCCGCATGATGATCATGGACAACTTGAGAAGGAAAATGCAAATAGGTTTGCAATTACTACTTTTTCAA
R
CTGTTGAGGGGCAGGAGATGGCACCTCTGGGGGGCCTGGCTCTTGAGTGGGCCCCAGGGACTTGTTAAGTGCTGTTTAAAAGTACTTGGCTTTGAATTAC
Celera SNP ID:            hCV29368404
SNP Position Genomic:     416278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21711):
GAGGAACTTGAAGCCACAGATACATGTGTCTTTATCTCCCACCTGTGTGTGAAGCGCTGAGTCGGAGGGCTTTTATTGAGTAGGAAATGCATTTTGTAAA
R
TTTCTAAAAATGTTCAGTGCCTTGAAATATAAGAATTGGCTATTTTAAATACCGATTTTATTTATTTTTTTTTTTTAGAGCTAGTTCTTCTGAGGTTGTA
Celera SNP ID:            hCV29368405
SNP Position Genomic:     416767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21712):
CACAGATACATGTGTCTTTATCTCCCACCTGTGTGTGAAGCGCTGAGTCGGAGGGCTTTTATTGAGTAGGAAATGCATTTTGTAAAGTTTCTAAAAATGT
K
CAGTGCCTTGAAATATAAGAATTGGCTATTTTAAATACCGATTTTATTTATTTTTTTTTTTTAGAGCTAGTTCTTCTGAGGTTGTAATGCCTAACTCAGG
Celera SNP ID:            hCV29368406
SNP Position Genomic:     416781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21713):
TTCTAAAAATGTTCAGTGCCTTGAAATATAAGAATTGGCTATTTTAAATACCGATTTTATTTATTTTTTTTTTTTAGAGCTAGTTCTTCTGAGGTTGTAA
Y
GCCTAACTCAGGCAAGAAAACAGATCCCTTAGCCCATGCTGAGCTAAAGATAAATGGGTTCCCTTGCCGCTTTCGAATCTGGAGAGCAGACACTTGGTAC
Celera SNP ID:            hCV29368407
SNP Position Genomic:     416869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21714):
ACACGGAGCCACAGGCCCCAGGAGGGCTGTGTAAAGGGCAGGGCTTGGAGACCCAGTGATGCTGCGGTCGGCTCCCCAGGAGGTAGGCCAGGCTTCAAGG
R
ATGGGGGCTACCTGCTGAGTTTGAATAAAGGATAGGAATTTGCCAGGCACACAGATATGAAGGAAGGGCACCAATTCTGTGAAGAAGCGTTCACTATGTA
Celera SNP ID:            hCV29368408
SNP Position Genomic:     423253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21715):
GCCACTTTGGGAAGAAGAAAGTGCCTCACGGCCACAGCAGTGCTAAGGGAAGTGGCACCCTGACCAAGCATGCGGGTGAAGTCATCAGCTGGTGTGCGGC
R
GGAGGGCGCAGATCTCAGATAGCAGCTCCCTGTTGATTGCTCAGCTTCATTCTTGGGTTCTGAGAATAAGCCATGGGCGGAGGCACTTCTGTAAGAGGAA
Celera SNP ID:            hCV29368409
SNP Position Genomic:     423881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21716):
GTAAACATCAAACGGTCACCCAGAAACATGACCTTGTGTCTTGCTCAGGGGTGGAAAAGAAGTGTGGCAGCCCAGGCTGCTTTCTGGGGGTGGAGCGTTC
K
CGCTCCTGCTCACAGGCGAGTTTGTGTGGCTTGCGGGGCTGGGTGAGCTGGTTCCACAAGATGGTTTCTGCTTGACCTGGGCAGCTGAGCCGGACGTGGG
Celera SNP ID:            hCV27455985
SNP Position Genomic:     266786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21717):
GCGTATGGAGACGCTAGTGAGAAAGATGAAGGATGCTATCCAGAGTATGTGTCAGCTCAGGCTGCCAAAATAAAGTATTACACTTGGGTGGCTTAAGTGC
R
GGACATTCACGTCTCACAGTTCTGGAGGCTGGAAGTCTGGAGTCAGGGTGCCCGCAGGGTTGGTTCTGGTGAGACCTCTCTCCCTGGCTGACAGATGGTG
Celera SNP ID:            hCV9087470
SNP Position Genomic:     626374
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21718):
TTATTATGGGTTATCTGAAGAGTGTTTCTTAATTTTAATAAGTTAATATTCCAACCATAAAAACTTCTGACATTTTACCCGAGGCTGTGCTTCAGCAGAT
Y
GACAGAATGCATTTTTACAGCACTTAGAAAATACCAGATCCACGAAGAACAAATGATCAAAGTTTCAAAGGCTGTAATTTTGGAAAGCTGGCATATATAA
Celera SNP ID:            hCV9086814
SNP Position Genomic:     493931
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21719):
AGTCTGGAGTCAGGGTGCCCGCAGGGTTGGTTCTGGTGAGACCTCTCTCCCTGGCTGACAGATGGTGCCTTCTCCCTGTGTCCTGCCTTTCCTCCGGGTG
Y
GCTCAGAGGGAGAGAGACATCACCAGTGTCTCGTCCTCTTATACGGGCACCTGGCTTATTGAATTAGGGCTCTATCTTTATAGCATCATTTAACCTTAAT
Celera SNP ID:            hCV9087471
SNP Position Genomic:     626508
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21720):
CATCCACCGGGGCAGGGGTCTGGGCAAGGGGCTTCTCCCCTTGCTAGGCCCCCTCCTTTTGTTCAGCTCCTCCTCTCCAGCACCAACCTCCCATCACTTT
M
TACATTCTGGCCCCTTTTTCTCCTTTCCTTCTTTCTCTTCCATTCTCCTTTTTCCTGTAAGACTGTCCTTGCTTCTCTTGTTTAATTTCTTTTTTCTTCT
Celera SNP ID:            hCV9086815
SNP Position Genomic:     495237
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21721):
CCACAGGAGGTGGCCTTCAAGTCACAGCAGGTGGCTGACATGCATTAGTTTGCTGAAGTAGCACCAAAAAACCCAGTGCCCTTGTCTGAGTCCTGTTTTC
R
TACTAGTGAAATTTCAGCTGCTAACAAGAATCACGTCTGATGCAGACACAAAGCCCAGTGGCTGCCCCAACTCCCTGGCCACCTCCTACTGTCCGAGAAA
Celera SNP ID:            hCV9087472
SNP Position Genomic:     627519
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,11)   total(G,3|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21722):
CTAAAGGAACTGTGTTTTTAATGTTATTTTGTTTCAATTCACGTCAACACCCACGGGCAGCTTACAGCTGCCCCATTGGGGGGCACACCTCTAGATTCTT
Y
CTCTGAAGCAAACCCTACCTAACCCTTCGTCAGAGACCAGAACCAAGTGTTAAGATGGCCAAAGGGAGAGCATGAGAAAATGATGCTGTGGATCCACCTA
Celera SNP ID:            hCV27478850
SNP Position Genomic:     621737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21723):
TTTTTATTTCCCCAAGAAAAAATAAAAAGTTAAAGTCAGTCTAGTCAATTGCTTTAACACAAAGAGCAAACTGACACACAGTTTCCCTGGGCATTGCTAC
R
TATTCCTTGCTCTTCCGTAAAGGACACATGTGTCTCTGTGCCTCTCAGTCTCCCAGTTGCAAAGATGCCATCCCAGGTCAAGCTGAGGTCCTTGCAAATG
Celera SNP ID:            hCV27478851
SNP Position Genomic:     601188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21724):
TCCTCTTTTTCTATTCAGAAACTAAAAGAAATACTGCCCATTTAAAGTCTTTGGACAGCAATTTGATTGCAGGTAACATAGTTTCTCTTTTAAATAGCTG
R
AAGTCTCATCCAAACAAAACTAACCGTCACTCAGCATAGAGCTGATAAGTGTTGTGGATACATTCCAAAAAATTTTCAACATTCTTAGGATAAAATTTTA
Celera SNP ID:            hCV27478852
SNP Position Genomic:     598442
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,218|G,1225)   total(G,1225|A,218) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21725):
TCTAGCGGTGCTGCAGAGTCTTGAGTTTTCAGTATCTGTCACGCTCTTTTTTGAGAAACCAGAAACCATCATCAGTAGCCACAAAGTACAGGAGCTGCTC
R
CCTGGGGTCCTTCCTTTGGGTCAACATAAACATGCCTTACTGTTGGTTTCCTCTTCTATTTGTTAAGCTTCTCATCTCATCCTGTCCTCTCCTTCTTAGC
Celera SNP ID:            hCV9087476
SNP Position Genomic:     630818
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21726):
GTGAAATATGTGGCATTTGTGTGTATGGTTATGTATCTGTGTATGTATGTATATATGTGTATATATGTCTAATTTCCGTGTGTATGTTTATATTTATGTA
K
GTATCTATGTATGTATGTATATATGTCTAATTTCTGTATGTGTGTGTATGTATTTTCTAATTTGACCGTGAAAGCAAAGCAGATGAGCTCTTGCTGTTCT
Celera SNP ID:            hCV8739991
SNP Position Genomic:     221837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21727):
TAACTGTTTAAAATCAGAGAAGATGACACCCAGACAGGAAAAGTGACTTGCCTATAATTAACCCAGTGACTTGGACCAAGCCAGAATTAGCCTGTGAACC
Y
GTCACCCAGAGACTCCTGAGAGAAGCCAACAGCGTGGCTTAGGAGCATGGAGTTATGGCTGCAAATGCCTCTAGTAGCTTTCAGCCTCAAATGCTAAAGC
Celera SNP ID:            hCV27478853
SNP Position Genomic:     576054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21728):
AGCTGAAAGGGTTTGGAGACCCTGGGGAGTCCACACACACCCCCTATTTCGGAGTTTGAAGCTAAAAGCACATGGTCACCCCCAGGTGTGGGGAGCGCAC
Y
GGCTGTCCCTTCCCCCCACCCCCGGCCCAGCTCCAGCCAAGTGTCCTATAGCCCTCACTTACAGTCCTGCTTACAGTAAAGCAACTCTCGGCCCCAGAGA
Celera SNP ID:            hCV9087477
SNP Position Genomic:     631432
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21729):
CACCTCCTGCACGTCCCCTCAATAGAAAATGGAAAAGTGAAAGTCGGGGCTGGAATCTCCGCAAGCCGGTCTGTCCATGACGTGAGAAGATTCTGCCTTT
Y
GAAGCCACCCCCGCTCCCTCTGCCCCACTCCGCCCCTCCTGGTCTCTCTGCAGAACCTACGATTGTTAGTAGAAACAGCTGGAAGGTTCTTTTAATGTGG
Celera SNP ID:            hCV27478854
SNP Position Genomic:     563887
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,209|C,1292)   total(C,1292|T,209) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21730):
ATGTGGTCCTGGCGCAGCTCCTGATCTGGGTAGGTGGTCGGCACGCCTGGCAGAGGACGGGGCCACAGGAGGCACTCTCTGCTTTGTTCTGCTTCCGTGG
R
CATCTTTCTGGCAGAAGGCTGTTGTTCTCGATCTGCAAGTGGAAACAGTTCCTAATGGGAAACTCTGATTGAAGAGCAGAGGGCCTTACGGAGAGACAGC
Celera SNP ID:            hCV9087478
SNP Position Genomic:     632388
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,4|G,34)   total(A,4|G,70)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21731):
GATGATGCCAGCCAGTTTCACGCAGTGAGTGCTCCAGTTCTGGGGTCCCAGTGCTGCTGTCTGAATCCATTTCTTGTCCTGCACAATCCTTGCACTAGTC
S
TTGGTCTAGTTTCACAGCCCAAAGCCTGTCACCATTCATTCTGCAAGTCAGCGTTGGTTGCGCTGCGTGATAACCTCACCAAAGGGCCCTGCCCACCAAC
Celera SNP ID:            hCV27478855
SNP Position Genomic:     560226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21732):
GACTGATTCTTAACCAACTCAAAATTTTAGGCAGAAAGCTAGCTCCAAGGCTGAGGCAGCCCTGAATGTGCCTAGGCCAACAGCCAGCGAGCTCCTGGCC
R
GGAGCCTGGTAATGGGGATGGCTGGTAAAGGCTGTGCCGGCCCTGCCTCCCTCCCAGAAGGGCGACCCTCCAGCCCCATGTCCAGGCTCTCCCATCTTCC
Celera SNP ID:            hCV8739993
SNP Position Genomic:     236094
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,15)      total(G,15|A,1) ;(A,-|G,-)   Caucasian(G,84)   African-American(A,1|G,81)   total(G,165|A,1)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21733):
ACCAACCCTTGCCGATGAGTCATTCTCTGCTGGAGCGGAGGCAAGGTTCTCCCCTCAGTCAGCCCCAGCCTTACCTGTCTCTAAGCAGAGGGTGGTGAGC
W
TGGGGCCCTGGAACACTGTGCCCCCGCCCCCTGCAACATTTTGGGTTTCAGAGAATTCGGAGTCCGGCACAGGAATGTGTCCCACGCATGAATGTCGTCC
Celera SNP ID:            hCV27478856
SNP Position Genomic:     557761
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,337|A,934)   total(A,934|T,337) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21734):
ATTTCAGACATAGAATCAATATTAAGAGGACAAATGGGTGACAGCCTGTGTCACTGCCATGATATAGTATCTTTGGCGTCACACCGAGAGCAAACGTGAG
Y
GTGTGTCAGGTCACATTGAGGGCTGATGGAAACAGATTGCCGGCCCCTCCCATACCTCCCGAGTTTCTAGTTCTGTGGGTTTGGAGCAGGACGCACGAAT
Celera SNP ID:            hCV11530041
SNP Position Genomic:     12218
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21735):
AGCGAAGTGTCCCAGTTGGGCCTTAAGGCATCTTTCAAGGAAATTGCAGTGGTGATGCTTAGATACCAACCCTTGCCGATGAGTCATTCTCTGCTGGAGC
R
GAGGCAAGGTTCTCCCCTCAGTCAGCCCCAGCCTTACCTGTCTCTAAGCAGAGGGTGGTGAGCATGGGGCCCTGGAACACTGTGCCCCCGCCCCCTGCAA
Celera SNP ID:            hCV27478857
SNP Position Genomic:     557697
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,389|G,1096)   total(G,1096|A,389) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21736):
TGTGGGTTTGGAGCAGGACGCACGAATGTGCCTCTCTAAGAAGTGTCCTGAGGATGCGGATGCCCTGGTCCAGGGACCGCACTTCTGGAAGCATAGCTGT
A
AAGGAAAGGCAGCTCCAGTTGACTTGGTATCATCTCTGGGCCGTTGTTTCTTCTTCCTTGCTGTGCTTGTAGCCAGCTGAGAAGGTTTCCTATCAGCCTG
Celera SNP ID:            hCV11530042
SNP Position Genomic:     12392
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21737):
GTAGGAGAGATGAGGAGCCTCCGCCCAGCTCAAATCTTCCTTTTTGTTCCTTAGAGCCTGCGTTTTTTGAGGTTTATTATGTAAAGCCGTGCCCCTTTTC
M
TGTTGGATGGTGAAGTTCCTTCCTTCTGGCTTTAATGTTTCCCCCTTGTTTTATTAGGAAAGGAGGAAAGGAAATTCAGTTATAGTGAAGTTCTAATCTG
Celera SNP ID:            hCV27478858
SNP Position Genomic:     245333
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,22|C,1469)   total(A,22|C,1469) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21738):
TCGCCAGCCCCCTACCCTACAGTATGGAAAAAAGGCATAGAACAGTCAAATCACGTAGGATTTCTTGGTTTCTCCATGCAGGCTCATCGAATAGCAACCA
Y
CCTTTCTTAGTTTCTTGAAACAAGTACCTTATTTACATTCAGAGAATTATATGTGGACAAACAGCTCATAAGCCCGTACTTTTACATACTCACTTCCTGA
Celera SNP ID:            hCV27478859
SNP Position Genomic:     241889
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,24|T,1476)   total(C,24|T,1476) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21739):
AGCAGTGCTAAGGGAAGTGGCACCCTGACCAAGCATGCGGGTGAAGTCATCAGCTGGTGTGCGGCGGGAGGGCGCAGATCTCAGATAGCAGCTCCCTGTT
K
ATTGCTCAGCTTCATTCTTGGGTTCTGAGAATAAGCCATGGGCGGAGGCACTTCTGTAAGAGGAAGCAGCTTCATTAAAATCTTGGGAAATTTTAATTTG
Celera SNP ID:            hCV29368410
SNP Position Genomic:     423916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21740):
GAGGCACTTCTGTAAGAGGAAGCAGCTTCATTAAAATCTTGGGAAATTTTAATTTGCATTCACCTTCTCTAAACATGAACATGAATCTGTAAAGTGATAC
R
TTCTTTCTTGCTTAAGAAATTAAAGCGTTTGGGGATTTGAGTTTTTATACTCTTTGAAAATTGAGTTTCTTGTGCTAAAATCATCATTCACAAAATGTCC
Celera SNP ID:            hCV29368411
SNP Position Genomic:     424061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21741):
TCATTAAAATCTTGGGAAATTTTAATTTGCATTCACCTTCTCTAAACATGAACATGAATCTGTAAAGTGATACATTCTTTCTTGCTTAAGAAATTAAAGC
R
TTTGGGGATTTGAGTTTTTATACTCTTTGAAAATTGAGTTTCTTGTGCTAAAATCATCATTCACAAAATGTCCTCTCACCTGAGGAATTCCAACACAGCA
Celera SNP ID:            hCV29368412
SNP Position Genomic:     424088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21742):
GATTTGAGTTTTTATACTCTTTGAAAATTGAGTTTCTTGTGCTAAAATCATCATTCACAAAATGTCCTCTCACCTGAGGAATTCCAACACAGCAAATTCA
R
TCTGAAATAAATTGAGGCTACATTTAAGAGACGGGACTTCCAGCTAAAAATAGGTATTAGAGAGCTGTTTTTGCCAAAAAATTGAATACTTAACCTTATT
Celera SNP ID:            hCV29368413
SNP Position Genomic:     424195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21743):
CTGACTCTAGACTTCTCAAGAGCAACATGCATTCTTAAATATAATGGAAATATTCCCTCCTAAGGACAAATAATTCTGAACCTAGAAGCCTATGCAAAGA
Y
GACTACTAATCAAATGAAGATAGAAAAAAAAGACATCTTTAGACAACCTACAGGGTTATACAACATCTCTGTCTTAAAGGGTTTTGAAAAAATTACTTAA
Celera SNP ID:            hCV29368414
SNP Position Genomic:     427912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21744):
GATGACTACTAATCAAATGAAGATAGAAAAAAAAGACATCTTTAGACAACCTACAGGGTTATACAACATCTCTGTCTTAAAGGGTTTTGAAAAAATTACT
K
AAGGGTCTACTCCAGAAAAAAAAGAAGAATCCAAAAGATATTCAGGCCTGGTTAAACCTTCCCTTCCTCATTCAAGGTCACTGGCTTCTCAAGATGTGCA
Celera SNP ID:            hCV29368415
SNP Position Genomic:     428010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21745):
TTGTTGGAATTGGTTTTAATGTCTATTTGACAATTTTTAGGGAAAATGTTAATGTTTTGTGAGGCTTCTCAGACATCAGAAAGTTAGCTAAATCTGACAT
Y
AGAGGACACTAAAGTTCATCTTAGTTCTTTTTAAGAATTGCAGCATCTTCAGCTTTTATGAGCAATGCGTTCTCACTATTAGTTGTTTCCGTGTTTATAC
Celera SNP ID:            hCV29368416
SNP Position Genomic:     430303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21746):
TCTCACTATTAGTTGTTTCCGTGTTTATACATTGCTCCCACTGAGGTTTAGGCAAATTCGTGTGGTATTGTTTCCATCATTAAATTGTAAACTCTTTGAG
R
TATACACTGTTACTTCTCTTTCTTTGTTATCCTCTCTTAGTTTTGTGACCTAGCAATTATTTTCTCATTAGGTATATATTCCTGCATGTTACCCATCATG
Celera SNP ID:            hCV29368417
SNP Position Genomic:     430474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21747):
GGTCGGAATAAGACTCCACGTTTTAGGAAGTGACGACGAACCGTCTAATTCTAGGATGTTGAATTCTGCTTGGCCACGTTGATGTATTTAGTAGTCGTTA
M
ATTTGTCATTGCAACTGGGTCTGGATTCTGTATATTCTTTTTTCTGTTATGTAGAACTGTGTGGCTGGAGAAAGCAACTTTGTCTTTAGAATAAATACTT
Celera SNP ID:            hCV29368418
SNP Position Genomic:     431978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21748):
TTGTCTTTAGAATAAATACTTACACTTATTTCTAAATATAATTACTTAAATGAGAACTTAGCGTCTGACATGGTAAATATTTTGTCTTAAATTGTACCAA
Y
TGCCACATGATATCCACTCCCAACATGGAGCAGTAACCCAGGGATGGGAGGGAAGGGATGACTCTGGCGCTCCAGCTCACTGTCACCTGCTGTCAGGCCA
Celera SNP ID:            hCV29368419
SNP Position Genomic:     432158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21749):
ACTCACCCCCCAAAGTAGGCCACATCCTTGTACTTATCCCCGAGTATAAGTGTACCCTCGGCTTCCGGGGTAGAAGCTTCCTTTAAGACCCTTGTATTTG
Y
GCGTGACTTGAGGTTGGTGAATTAGGACCACTTGTTAGACTCACCTCGTCTACTCCAGGAAGGAGGGCATTCTAATCTGGCTTTTACAATCTCCTCCTTC
Celera SNP ID:            hCV9078805
SNP Position Genomic:     437027
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21750):
GGGCTGCCATAACAAAATACCACAGACAGGGGTGCTTCAACAACAGACATTTATTTTTTCACAGTTCTGGAGGCTGGAAGTACAAGATCAAAGGGCCAGC
R
GGAATGGTTCCTGGCGAGGCCTCTCTCACGGCTGGTAGACGGCCGCCCTCTCCCTATGTTCTCACAGGGCCTTTCCTCTGCACTCGCTCCTGGTAGCTCT
Celera SNP ID:            hCV9087482
SNP Position Genomic:     633711
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21751):
AGCTCTCTCCTTTCCCCCCACCCCCTTCTTTTTGGGACAAAGTCTTGCTCTGTCGTCCAGGCTGGAGTGCAGTGGCACAATCATAGCCCACTGTAACCTC
R
AACTCCTGGGCTCAAGCAATCCCCCCACCCTAGCCTCCCAAGTAATTGGGACCACAGGCATGCCACCCCCATGAATGGCAGTTTTTAAAAAATTTTGTAG
Celera SNP ID:            hCV9087483
SNP Position Genomic:     633906
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21752):
CTGACAGCAGCAGACACCCAGGTGCACCCCAGTGGGTGTGTGTCTAGGGCCCCTGGGTGCTGAAAGAATTATGAATACATGGCTCCTTGTGCCTGGAAGC
Y
TCTTAGTCCTGCTGAATTCATGCTTCTCATGGCTGAGCCACCTTTCCCGTGTAGAACCAAGCAGGTGGCCACTGTCTTTGCCCCTCTTAATGAGACCAGG
Celera SNP ID:            hCV27478860
SNP Position Genomic:     231757
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,21|T,1272)   total(C,21|T,1272) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21753):
CTGGGTCAGGGGAAAGATCATGATCCCTGACCTTTTCTCATGCCCTGCAGCAGCCCTCCCTGGGCATGTGGCCTCTCACCTTTTGACTCGAGGTCCCAGG
K
ATTGTTCTGTGGGAGTGTGAGGAGCTGACAGCAGCAGACACCCAGGTGCACCCCAGTGGGTGTGTGTCTAGGGCCCCTGGGTGCTGAAAGAATTATGAAT
Celera SNP ID:            hCV27478861
SNP Position Genomic:     231632
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,20|G,1257)   total(G,1257|T,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21754):
ACTCCTGGGCTCAAGCAATCCCCCCACCCTAGCCTCCCAAGTAATTGGGACCACAGGCATGCCACCCCCATGAATGGCAGTTTTTAAAAAATTTTGTAGA
S
TTACGTTCTTACCATATTGCCCATGGGTTTTGAACTCCTGCCTTTAAGCAGTCCTCTCACCTCGGCCTCCCAAGGTGTTGAGATTACAGGTATCAGCCTC
Celera SNP ID:            hCV9087489
SNP Position Genomic:     634008
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21755):
TTTTTATCCTGTGGATGGATATTGATGGAGTTGTTTCCAGTTCTTGGCTTTTACAAATAGAGGTGCTGTGAACATTCACGTGCAAGTCTTCATATGGGCA
Y
GTGCTTTCATTTCTCTTGGGTAGATACCTAGGAGTGGAGTGGCTGGGAGATGTGCTGGGTATATAATTAACTTTTATGTAAACTGCCTGCTGTTTTCCAA
Celera SNP ID:            hCV11530052
SNP Position Genomic:     22489
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21756):
TGGAAAAGCAAGTGGTTTGTCAGTGAATAAGCCTGGCTTGCGGGCAGGCACGTCTGTCTGCTTGCTCTTAACCGCAGTATTCTCCTGTCTGTTGTCATGG
R
GAGCAAGTGCTTACCTGTAAGGAATCCTTCCCCACACATTGGTAAAATAACCCTACAAGATTATTTTAGAAGTTTTGCACAGAGGCAGTATCGTAGCCAT
Celera SNP ID:            hCV479458
SNP Position Genomic:     180611
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21757):
TCTTGATCTGTTGCTGCATCAGCAGAATGCTGGGCAGATGGCTGCATCTTGTTTGGGAGTTTGGGAGTTTTCTTTGAGTATCTGTTTTTTAACTTTCAGG
R
GAGAATACCAAGGTTGGGAAACACTGGTTTTGCTGACATAAGAATAAGAAAATTGGCCAGGTGCATTGGCTCACACCTGTGATCCCAACACTTTGGGAGA
Celera SNP ID:            hCV11530055
SNP Position Genomic:     24238
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21758):
TGCAGTGAGCCATGATTGCACCACTACCCTCCAACCTGGGCAACAGAGTGAGACCCTATCATTAAAAATCAGTCAATCAATCAATCAGTCAATCCATGCG
Y
GTCCTCCCCCATTCCTGCCTTGATTTCCCTGTTAGGATTTGCCATGGGGTGGGCAGCTGGGCAAAGGCATCTGAGCTGGAGGTAGGTGATAAGCTCCCTG
Celera SNP ID:            hCV11530056
SNP Position Genomic:     24610
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Gene Number:                 71
Celera Gene:                 hCG1811721 - 104000117287023
Gene Symbol:                 MCCC1
Protein Name:                methylcrotonoyl-Coenzyme A carboxylase 1 (alpha);MCC-B;MCCA
Celera Genomic Axis:         GA_x5YUV32VYQG(12502109..12598348)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12231):
CCTAAGGTACGAAACGCAAAAGATGCAAAAGGGTGTACAATAAATATTCACCTCCATCATCTCTGTCCTCAAGCCAACAACTTTTCTTGCCTAGAGGATA
TTTCTACATATATAAGCATATGGGAATTTTCTTTCTCCTATTTTTACATAAATGATGAAATAATAATCATGGTTTTTTATTTTGCTTTTTTCACTCATCA
GTGTGTTTTATGAGTACATATTGCTCTGTCTCATTCTTTTTTAATGACTGCATAGTAATTCATTGTTTTTCTGCATGTACTTTTTTTTATTTTGAGACAG
AGTTTTGCTCTTGCTGCCCAGGCTGGGGTGCAATGGCGTGACCTCAGCTCACTGCAACCTTTACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCC
CAAGTAGCTGGGATTACAGGCATATGCCACCACGCCCAGCTAATTTTGTATTTTTACTAGAGATGGGGTTTCTCCATGTTGGTCAGGATAGTCTCGAACT
CCCAACATCAGGTGAGTCGCCTGCCTCGGACTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCGGCCTGCATGTACATTATTTAATTAGTTT
CTTTAATCAGTTTGCTATTTCCAACAATGCTATAATAAATTTCCTTAATCATATATCATTTCAAACATCTTTGGGTATATCTGTAGGTGAATTCCAAGAA
ATTCTTTTGCTAGGTCAAAGAGTTTGTGGATTTGCAATTTTGATAAATATTGTAAAAGTACTATGCAGAATGGTTGTGCCAATTTTTACTTGCAACAGTA
AAGTGTGATAATATTCCCACACCCCTCACTAATTACAGTGTGCTAAACTTTATGTTATCTGCTAATATGATAGGTGAAGTATGGTGTATTATTATTGTAT
TTCTCTTATTTGGTGTGAGATTAAGTATGTTTTATATTTGCTTACTTTTTCTATTCTGTGAATTCCTCATATTCTTTGACCATTTTCTCTTTCATTACAG
ATCTTTTTTCTTATCGGTTTATAGTTCTTTATATATTAAGGAAAGTAGCCCTTCATCTGTGATAAGAGTTGCAAAATTATTCCGTCTGCTGTTTGACTTT
CTCTATGTGTATGTTTTGCTGTGCAGATTTTAAAACTTTTTCATGTAGTTGAAGCTATCCTTCCTTTTTTTTCCATTATAGCTTCTGAGTATTGTGTTAT
ACTTAGAGAAGCTTTCTCTGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTCGGAGGCCAAGGCGGGTAGATCAGTTTAGGTCAGGAGTTCG
AGACAGCTTGGCCAACATGGTGAAACTGAGAGGTGACAGCGTGCTGGCAGTCCTCACAGCCCTCGCTCGCTCTCGGCGCCTCTTCTGCCTGGGCTCCCAG
TTTGGCGGCACTTGAGGAGCCCTTCAGCCCACCGCTGCACTGTGGGAGCCCCTTTCTAGGCTGGCCAAGGCCGGAGCTGGCTCCCTCAGCTTGCAGGGAG
GTGTGGAGGGAGAGGTGCGAGCGGGAACCGGGGCTGCGCGCGGCGCTTGCGGGCCAGCTGGAGTTCCGGGTGGGCGTAGGCTTGGTGGGCCTCGCACTCG
GAGCAGCCGGCCGGCCCTGCCGGCCCGGGGCAATGAGGGGCTTAGCACCCGGGCCAGCGGCTGCGGAGGGTGTACTGGGTCCCCCAGCAGTGCCGGCCCA
CCGGCGCTGCGCTGGATTTCTCGCCGGGCCTTGGCTGCCTCCCCGCGGGGCAGGGCTCGGGACCTGCAGCCCGCCATGCCTGAGCCTCCCCCCGCTCCGT
GGGCTCTTGTGCGGCCCGAGCCTTCCCGATGAGCGCCGCCCCCTGCTCCACAGCGCCCAGTCCCATCGACCACCCAAGGGCTGAGGAGTGCGGGCGCACG
GCGCGGGACTGGCAGGCAGCTCCACCTGCAGCCCCAGTGCCGGACCCACTGGGTGAAGCCACCTGGACTCCTGAGTCTGGTGGGGACGTGGAGAACCTTT
ACGTCTAGCTCAGGGATTGTAAATACACCAAGGTTTGTAAACACACCAATCAGCACCCTGTGTCTAGCTCAGGGTTTGTGAATGCACCAATTGACACTCT
GTATCTAGCTGCTCTGGTGGGGGCTTGGAGAACCTTTGTGTGGATACTCCGTATCTAGCTAATCTAGGCTAATCTCCACGTCTCCAGGCTGGGGACGTGG
AGAACCTTTGTGTCTAGCTCAGGGATTGTAAACGCACCAATCAGTGCCCTGTCAAAACAGACCACTGGGCTCTACCAATCAGCAGGATGTGGGTGGGGCC
AGATAAGAGAATAAAAGCAGGCTGCCCAGAGCGAGTAGTGCCAACCCGCTCGGGTCTGCTTCCACACTGTGGAAGCTTTGTTCTTTCGCTCTTTGCAATA
AATCCTGCGGCTGCTCACTCTTTGGGTCCACATTGCCTTTATGAGCTGTAACACTGCAAAGGTCTGCAGCTTCACTCCTGCCTGAGCTAGTGAGACCAGG
AACCCACCAGAAGGAAAAAACTCCGAACACATCCAAACATCAGAAGGAACAAACTCCAGACGCGCCACCTTAAGAGCTGTAACACTCACCGGGAGGATCT
GCGAAATCATTCTTGAAGTCAGTGAGACCAAGAACCCACCAATTCCAGACACAAAACCTCGTCTCTACTAAAAATACAAAAAATGAGCTAGGTGCAGTAG
TGGATGCCTGTAATTCTAGCTATTCGGGAGGCTGAGCCATGAGAATCATTTGAACTTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACT
CTAGCCTGGGCAACAGAGAGAGACTTCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTTTTTTGGTTTAAAAACCCCCCA
AGGGGGTTTTAAAANNNNNNNNNNNNNNNNNNNNCAGGGATCCAGCTTTTTTTTCCGAGGGCTAATCACTGGTCCCAATCACTTCTTGAATTACTGAGTT
TTAAAATCTAGAATGAACGTCAGATTTTGTCAATGACCTATTAAGCCTCTGTGAATATAAGTTTTTCTCTTTTAAACTCTTAATATTCATTTTATTAATT
GATTTCTTAATAGTGAATCATCCTTATACTTCTGGAATAAACCTTGCTTATTTACAGTGTGTTATTCTTTTCACATGCTACAGGATACTTCAGTTATTTT
TTTTGCTTCTTTTTTGGAGACATTCTCTCACTCTGTTACCCAGGCTGGAGTATAGTGGCATGATAAGAGCTCATTGCAGCTTCAAACTCCTGGGCTCAAG
TGATCCTGCCTCAGTCTCCCGAGTAGCTGGGACTACAAGTGTGCATCATTACGCCCAGTTTTTTTAAAAAAATGTTTGTGCAGATGCGGGTCTCACTATA
TTGCCCAGGCTGGTCTCAAACTCCTAGGCTTAAGCAGTTTGGGAGGCCCACCTCGGCCTCCCAAAGTGATGGCGTGTCCGAAATTGGTGGGTTCTTGGTC
TCACTGACTTCAAGAATGAAGCTGCACACCCTCGCGGTGAGTGTTACAGCTCTTAAGGCGGCGCGTCTGGAGTCTGTCCCTTCTGATGTTCAGATGTGTT
CGGAGTTTCTTCCTTCTGGTGGGTTCGTGGTCTCACTGGCTCAGGAGTGAAGCTGCAGACCTTCGCGGTGAGTGTTACAGCTCTTAAGGCAGCGTGTCCG
GAGTTGTTCGTTCCTCCCGGTGGGCTCGTGGTCTCGCTGGGCTCAGGAGTGAAGCTGCAGATCTTCGTGATAAGTGTTACAGCTCATAAAAGCAGCGTGG
ACCCAAAGAGTGAGCAGTAGCAAGATTTATTGCAAAGAGCGAAAGAACAAAGCTTCCACAGCGTGGAATGGGACCCGAGCAGGTTGCCAATGCTGGTTTG
GGCAGCCTGCTTTTATTCTCTTATCTGGCCCCACCCACATCCTGCTGATTGGTAGAGCCCAGTGGCCTGTTTTGTCAGGGTGCTGATTGGTGCGTTTACA
ATCCCTGAGCTAGATACAAAGGTTCTCCACGTCCCCATCAGATTAGTTAGATACAGAGTTTCGACACACAGGTTCTCCAAGGCCCCACCAGAGCAGCTAG
ATACAGAGTGTCGATTGGTGCATTCACAAACCTTGAGCTAAACACAGGGTGCTGACTGGTGTATTTACAATCCCTGAGCTAGATATAAAGACTCTCCACG
TCCCCACCAGACTCAGGAGCCCAGCTGGCTTCACCTAGTGGATCCCGCACCGGGGCTGCAGGTGGAGCTGCCTGCCAGTCCTGCGCCGCCGTGCGCTCGC
ATTCCTCAGCTCTTGGGCGGTCGATGGGACTGGGCGCCGTGGAGCAGGGGGTGGCGCTCATCGGGGAGGCTTGGGCCGCACAGGAGCCCATGGAGTGGGT
GGGAGGTTCAGGCATGGCGGGCTGCAGGTCCCGAGCCCTGCCCCGTGGGAAGGCAGCCAAGGCCCGGCGAGAAATCGAGCGCAGCGCCGGTGGGCCAGCA
CTGCTGGGGGACTCAGTACACCCTCCGCAGCCACTGGCCCGGGTGCTAAGTCCCCCATTGCCCGGGGTCAGCAGGGCTGGCTGGCTGTTCTGAGTGCGGG
GCCCACCAAGCCCACGCCCACCCGGAACTCCAGCTGGCCCGCAAGTGCCGCACACAGCCCCAGTTCCCGCTCGTGTCTCTCCCTCCACACCTCCCTGCAA
GCTGAGGGAGTGGGCTCCGGCCTTGGCCAGCCCAGAAAGGGGCTCCCACAGTGCAGTGGGGGACTGAAGGGCTCCTCAAATGCCACCAAAGTGGGAGCCC
AGGCAGGGGAGGTGCCGAGAGCAAGCGAGGGTTCTGAGGACTGCCAGCACGCTGTCACATCTCAATGGGGGGTTACAAGACATGAGCCACAGCACCCAGC
GTAGTTAATATTTTATTTAGAATTTTTCCACTGATACTTACATGTGAAATTGGTCTGTCGTGTGTGTGTGCGTGATATCTTTGTTGATTTTGGTATCAAA
GTTATGTTTACTTTTTAAAAAGAGTTTGGAAGACTTCCATCTTTTTTGTGCTCTGGGACAGAATTAATAGCATTTGAGTCAATTACTCATTTGTGTGGAA
TTTTCTTGCAAGACATGGAGGGCTTTTGTAACTTTTAGGGGTGAAGGTGAAGGTGAAAGTGGGCCATGGTGGTAGCAAGGATAGTTCTTTGATAAACTTC
TCTATTTTTTCTGTGGTAACGGTTTGCTTAAATTTTGTCTCTTCCAGGATCTATTTTGATAAATTGTATTTTCTTGTAACATCATCCATTTCATCCAGAG
TTTTAAGTTCACTTGAAGTTAAGCAAAATTAGCATCTTACAAATCTATAATTTGTTTCCTGTGTCTGTGATTTTCCCCTGCTTGTTTTTTAAATCATGTC
AAATGTGCATTTTTCTCTATTTCTGATTAGATAACTATTTTATTTTTTGTGAACCTGTGGGTTTATTAGTCCTTTGACACTGGTTTCCTGAATTCATTTA
TTTATTCCTTTATCTTCCCTAATTTCTCCCTCCTGCTTTCCTCATGAAGCATCTACATGTAGTGTTTACAGTTTCTTTATTCTCTAGATGTTCCTCAGTT
TGCTCTTTGACTTCCTCTTTTTCCCAATAGTCAGTTAGAATACCTGTTTTAAGCTCAGGTGGTTTAAAGATTTTCACTTTAGCTTATTTATTTTTTCATC
CCTGAGAGCACTAGAGAATTGTGTATCCTGCTGTCCATCCGCATTTGGCTTCTTCCCCAGGGTTCTTCTCCCAGAAGGTGACGAGAGCGAAGAAACCCCA
CGGGATGCAGGAAGAAACAGTGACAGGCAACCAAGAGGGGGAGGATGGAGAAAACCCTTGCCTTAGTCAGAGCAGGCCCCAGGGGACGCAGAAACAAAGG
CCACACCCCCACGAGCACGTGGCCAGACTGCCCAATCGTCGCTACTGAAGCCGGGCTCTGGTCTTTGATTGGTGTTCGTGGAGACGCCCTCACATTCTTG
GATCAGCCCAAAGGTAGGCTCAGGCTCCGACGGTGGCCSGCGGGGGTCACGAGGCTTCGTAGTGGAGGAACGGGTTTGGCGTGTGRGACGCAGCTGCCTC
TGTACTGGGGAGTMACGGAGTGGCCGGGCTCCAGGGACATGGCGGCGGCCTCTGCGGTGTCGGTGCTGCTGGTGGCGGCGGAGAGGAACCGGTGGCATCG
TCTCCCGAGCCTGCTCCTGCCGCCGAGGTGGGTGGAGGGGCCATGGCTCAGTGGGCAGAGGCGGGAGCRAGGGGTGCACGGACCCGCGTGAGCGGTGGGA
GGTGCGGCRGAACCCAGGGTCGGTGTGGGGAGGACGGTAGGAAAACCCCAGGCACTTTCGGAGGGGTTCTGCCGGCAGTCACGGCGTCGGGAGGAAGACA
TCCCCACCAGCCCTTCCCTTTCTCCCCGCTTCCGCACATCCACGCTTCAGCGCGCCTTTGGCTTCTGTTTTTCCATTTCTGAGGACTGGGCCCGCCATCC
TCCAGGCTCCCCTCGCCGTCGCTGCAGCTCGTAGCCGTTTACATCGGGCTTTCGCAGCACCCCTTAGGTGGGAGCGTTGTTATAATCCGGTTCCGGGGAA
GCCCAAAGGGATCAACGACTTCCTCAACGAAACACAGCTAGTAAGAAATGGGGCCGGGATGCCCTCAAAGCCATTTTTCAGTTCAGCTGTGCCCCATCAG
GTGTCCAGTTCAGAGAAAGACTCCTGGAGTTCCTTCTCATTGTTAGAAGAGTGAAGTTGTCAAGAAGAGCAAATGTACCTTCCACAGAGCTGGGAAATTA
TTTTGTCAAAAACTCTTGTACCCAAGTTTGAACAACGCTATCAGATGACTCAGTCTAGCTCACCTGACTCCAGCTCTGTTTCAAATTTTGAGCTCTAAGC
TTTGGTGGCAATAACTCTGGYAGTGAAAAAACCCTCAGGCTTGTAGATAGCTTTGCTTCTTTGTCTTCTTTTGCTTCATCGTTATCATCCTTCATCATTC
TGGAAAGATTGACAGTTTAGTGTTCAAGGGCACAGACTCTGCAGTCAAGGCTGAGGTCTTAGTTAGCTACTCACTAGGTGTGTGACTTTGGGTAAGTTAC
TTAATATTTCTTCTTTAATTTCCTCACCTTGGAGATGATACGAGTACCTTGGGTTGTGAAAACTAAATGAATTAATTCATGGAATGAGGTTTAAGCACAA
TCTGGTACATAAGATCAGTCTATAAATGCAAACTCAACCATTTATATGAACGTTTGCTTGCTTTTATTTTCCAGAAATATTGTAGATGCCCTTTTTAGTT
ACTTAATTGTAGGAGTGCCCCAGAGAAACATAAGAAAGTTGTTGGAAGTTGGCGGGGCGCGGTAGCTCACGCCTGTAATCGCAGCACTTTGGGACGCCGA
GGCGGGCAGATCACGAGGTCAGGAGATCGAGACCAACYTGGATAACACGGTGAAACCCCGTCTGTACTAAAAAATACAAAAAATTTAGCCGGGCGTGGTG
ACACGCGCCTATAGTCCCGCCTGTTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCTAAGAT
CACGCCACTGCACTCCAGCCTGGGCGACAGAGTAAGACTCCGTCTCAAATAAAAAATAAAAAAATAAAAAAAAAAGTTGGTGTAAGTAATGTTAATGTTC
TTCTTGTTCTTCTGGTTTTTCTTTTCTTAGGCCTCCAGGGCTCTTCAGGATAGTACCATAGACCCATTTCCTGTCTTCCCTTTCAAAGCTTAGCTATTGT
CTAAAGAACTRTCCTCAAGTATGTCACTCTGGAGAGTGTTAGAGTTGTTAATGGCTTATAGAAGTAAAACTCTTTGCCAGGAGACTTGGTTCATGCCTGT
ATTTTCAGCAGTTTCTCAGCACTGTGGGATCCAAGGTGGGAGGATTGCTTGAGTTCAAGAGTTCAAGACCAGCCTGGGCAACACAGTGAGGCTTCATCTC
TACAAAACATTAAAAAATTAGCCAGGCGTAGTGGCACACACTTGTAGTCACAGCTACTTGGGAGGATGAGGAGGGCGAGGACGGCCTGAGTCCAGGGGTT
CCAGGCCGTAGTGAGCCATGATCACACCACTGTACTCCATCCTGGGTGACATCCCATCTCAAATAAAACAAAAACAAAAAAATCTTAACAGCACAGATAG
TTTACATTATTTTTATGTTATGAATCTTTAGTAGCTCACAGAAAATAATCTCTGGTGGCAGAATTATAGACATGACMATAAGCTGGTATAGAGCTACCTT
GAATCAGGGAAGCAGCTTCTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGACTGCGGACTGCAGTGGCGCAATCTCGGCTCACTGC
AAGCTCCGGGGAAGCAGCTTCTTAATCTTGTTTAAGCCATTGCTTTTAAGTTGCAGCTTAGATAATTGTGAAAAATGGAATAGATGATCAGAACATTGTT
GGGATAGTGGATTACAGTTAAGTGGGATCTCTGTCTCTTTCTSCCTCTTTTTCCCTCTCTCCCTTCTTCTGTCTTCACTAGAAGATTGCAAAAGAAAGCT
TTAGGTCAACAGTAGCCTTGAAACCGAATCAGTCTTAAGCTAGCTTTACCAACAAGCAACCATTTAATAGATACATCTGCCCAGAATAGGCCTTGAAACT
TATCAGAAGCCTATCTGAAGAATGTAAAGGGAAGACGATGCTATGAGCTAGAAAATACCTCATAAAGATCAGGAAAGATGATCCCCCTCCTTCAGGATCA
AGAAGGTAACATCAGCTGAAATGGAAAGGTGTGGGAAAGCAGCAGCCTCGTGAGGAAGCTAGCTCACGGAACTCTCCTGCCAAAGCTGTGGGTCTTCCCA
GCAGCTCCTCATGGATGGCAGCATCTGAGTGTGCATTGTAGGGCAATGAGTGTATAGACGCATATAGATGTGTAGATGTCTACTGCATCTCCGCTCCAGT
GAAATACTAGTCCTGCTCAACTACATAGTCATATACATAATATGTATATACTACTGCCTAGTTACATAGTTTCTAATGCACACGCTGTGCTTTTATCTTG
TGCTTTGTGAATAATCTAAAATGGTTAGTTAGTCCTTTATAACCACATCTTCCAGGTATAGACAAAAAGATAGGTGGAATTGCTTCTGTAATTTGTTTGT
TTCCCTGCATATGCTTTTTATTTATTTATTTATTTWTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAATGTAGTGGCACGATCTTGGCTCA
CTGCAACCTCCACCTCCCAAGTTCAAGTGATACTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGTGCGCACCACCACACCTGGCTAATTTTTGTA
TTGTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTAATCCCCCCACCTCAGCCTCTCAAATTGCTAGGATTA
CAGGCGTGAGCCACYGCACCCAGCCCACTTATCCTCTTTAGCTGAAACTTAATAGACGTTATACTTTTTTGTTCCTAAAGTGAATCTGGCCTGTTTTCTG
TCAGCTCTTGGTTACTTTATTTTATACACAGGTATCACGAAACTTAAAAATTGTTGAGACTTCTACCTCATTAAAATACCTCAAGTCATTTTGTCTCCCC
ATTTCTCCATTTTTTTAAATACAAGGACTTGGAATAGAATTGTATAGTACTTTTAAATCTGAGAGGTACCTTCAAGATCACCTCTTATAGTCTCATCTCG
TGTGTGAGAACACTGAAGCCCAAGCTATTAAATCTTGCATCCTCAACTGGGATGATACCACCGCTAAAGGGTGGAAATTGATTCTTAGGAGAGCCAGGAA
ATCTTAGATTTTGTCATGGTTTACGGCTTTCCAAAGCTCAACCTTACCCCACCCTTCCTACAAGGAATAAAATCTTTTAAAAGTTTTCTCATTAGGAGAG
TAATAATGAAAAAAAAGTTGGAGAAACACTGATGTAAAGTGACTCGACCCTGGGCAAGCTGGTCATTGGAGGGACTCGGATGAGAATGCAGCTTTTCTGG
TCCCACAGCCAACATTCTTTCTGTTGCCCCTGTTTAACTTCCGTTTATTTCTCTGGTCTTACTTTTTAAACATGTCTCATGTTTAAACTTGATTGGTATT
TTTCAAACTGTAGATTGACCAGCATATTTTAATAAAATAGGATACAACTGAAAGAACCAAAAGAGTTTTGTTCTTTTTGTTTTTGTTTTTTTTTTTGAGA
CGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCCCAGTCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCT
CCCGAGTAGCTGGGACTACAGGTGCCCGCCATGACGCCCGGCTAATTTTTTGTGTTTTCAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGCCTCA
ATCTCCTGACCTCATGATCTGCTTGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCAGGGCAGAATGAGTCATTTTTAA
CAAAACATCTGTTTTCATTAAGTGTGTGTCCTGGGTAGTTTGTATTGTGAGTTGTAGCCAAAAAGGTTTCAAAAAAGCTAAACTAGATGATGTTGGTATA
CCTTGGTTGTTTAATCATCTCTGACTGTGGTCTTATGCCAGCCTCAGGAACAAGCAGGCTAGGTGACTCATTCAAGGACAGGTAGTACGAGGGAAAACAG
CCAGAACTCTAACTCTTGAGTTCTAGATTAGTTTTCTACCCACTAAGAAAGTCTTACTAAAGCACTGTTAGTTGGCTTAAGGTTTCATGTTTTAAGAAAC
TGAAATTCTTTTGAAAGAACAATTGTGTTGCCTATTCTGTTTAATTGTAATTCCTTTTGGATTTATGTTATAGGACATGGGTGTGGAGGCAAAGAACCAT
GAAGTACACAACAGCCACAGGTACTGACAGACTTTGTTGTTCTATTTGATTTTGCTTCAGACTGGAAGTGTTTAAGAAAGGGAAATGTTTAATCCCTTAA
TATATGCATAATAGAATTAGTTATCATAAATTTTGGATTTTCACGATAATTTTCTAGGAAGTGTTAAGTCATGGTTTTCACCTCTTTTGTATCAAATCTC
TCTTGCTGTTAAGTCTAAAATACAGAGGGCAGCCGGGCGCAGTGGCTCATGCCTGTATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGT
CAGGAGTTCGAGACCAGCCTGGACAACATGGCAAAACCCTGTGTCTACTAAAAAATACAAAAATTAGCTGGGCGTGGTGGCGGGTGCCTGTAATCCCAGA
TGCTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGCAGGTTGCAATGAGCCAAGATCTCGCCACTGCACTCCAGCCTGGGCGACAGAGCA
AGACTTCGTCTCAAAAAAAAAAAAAAAAAAGTAAAAATAAATAAATAAAATACAGAGGGCAATAATGGAGAACATTTTATATTCGTTTGTTCTTTCTGTC
CATTTGACCCTCTTAGTGTATTGGATTGGAAAATCATAACTACGATGGTCTAAAGCAGTTCTTTGAAAAAGCTATTTTAAGTAGCAAAACCTTTTTTTCC
AAATAAAATTTAACATGGAATTCCCAACTATGAAACATATAAAAGTGTAATAAAGTATAACTTCTAGCTGATTGGATATAGCCCTCTACCTACTGTGCTC
TCCTTCCCCTGCCCACACTCATACATATGTCATCCATCAGCCCCTGTGACAACTCTTGGGCTCCATAGAGCCCCATCGAAAAACACTTTTAAATTAGGTG
CAACCTTTTTTTTTTTAAAAGGAGAAATAACTTTATTATGTTGAGCCTATGGATTCTATTGAAGAAATAACTTTATTATGAACTGTCAAAGAACATTTAT
TTCACGTGTGATATTAGAAGTACATTTTATATATGCAGTAGCTTGTCATTATGGTGCCATGCCAGTAGACTGGTACAAGAGTCACTTGTGTTGCAAGAGA
ACCACACACACCTATGTACATAGGGATAGAGGCAGAGGAGCAGAGTGACTGAAAGCTTAAATTCTGGAGTGACGCAGATCTAGGTTGAAGTCCCAGATTG
TTTCTTTAGCTGTGTAATTTTGGGAAAATAATAGCTCTTTCAGCATTAGTTTCTTCATCTTTAAAATTGAGATAACAATGATAGTATCTATTTCATTAGG
ATTATTGTGAAAATTTAAGTCGATGTTGAGTCTTTAGCACAGGACCTGAGGCACAGAAAGTGCTTATTAAAGATTAGTTAGTATTGGCCGGGTGTGGTGG
CTCACACCTGTAATCCCAGCACTTCGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATGTGGTGAAACCCCGTCT
CTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCAGGCACCTGTAATTTCAGCTACTCAGGAGGCTGAAGCAGTAGAATTGCTTGACCCTGGGAGGTA
GAGGTTGTAGTGAGCCGAGATCACACCATTGCACTCCAACCTGGGGGACGAGAGCAAAACACTGTCTCAAAAATAAATAAATAAGTAAATAAATAAATAC
ATAAAAGAGTAGTTATTAATGATGATAATTTAACACTATTATAATTTGATCCTTGGCATAACAAAGCATCTTTTAATTTTATTTTATGTTGCTTTGTATT
TTAAGTTTAAAAAGCTGAGTAATTTATGTTAATGAGTACCTTGAATTTAAGAGAAAAGAAGTGCACTGTCTAATATTAGTTAAAGTGGTCATTTTGGGCT
CAGTTATGCTAGTTTTACCAAAAACCTTGAACTTATCAGTCGAGTCCTTATCAGCCAGTTAAGATCGTATTCTCATTCTCATTCTTTGCTCTCCAGTAAC
ATTTCTGTGTGATTTTCATGGTGTTTTAAACAGGAAGAAACATTACCAAGGTCCTCATTGCAAACAGAGGAGAAATTGCCTGCAGGGTGATGCGCACAGC
CAAAAAACTGGGTGTACAGACTGTGGCGGTTTATAGTGAGGCTGACAGAAATTCCATGCATGTAGATATGGTATGTGTTAAAAATTGGAAGCCACGTCTT
ACGTTTATTCGTTTACTGTGTCMGTATTTTCGTTCTTTATGATGACAGTTGATATTTGCTAGTGTTATCAGGGTTGAAGTAGGTAAGTTCAAACTGCTCA
CTGCTAATTCTTGGGAACATTTTTCAGATATAACATCAGTTGAACTAAGCGGTGTGCTTAGTAGAACAGTTGATTTACAGGCAAGGTCTTTATCTCCTTG
AGGATTGGTTAAAACGGTTCACAGAATGTTGCGGATCCACTGACTACACTTTGAGTAGCTCATGTCCAGATTCCGTATATACAAGGAGAAAGATCCAGGC
TCTATTCTTTTTTTTTCTTTTTTTTTTGAGATTGAGTCTCGCTCTGTTGCCCAGGCTGGAGAGCAGTGGCACAATCCCGACTCACTGCAAGCTCCGCCTC
TCAGGTTCAAGCGATTCTCCTGCCTCGATTCTCCTGCCTCGACGTCTAGAGTAGCTGGAACTATAGGTGCCCTCCACCACGACCGGCTAATTTTTTGTAT
TTTTAGTAGAGACAGGTTTTCACCGTGTTAGCCAGGATGGTCTCAATCTGCTGACCTCGTGATCCGCCCACCTYGGCCTCCCAAAGTGCCAAACAGGCGT
GAGCCACCGTGCCTAGCCAATCCAGGCTCTATTCTTAGCACCTGCTACTTACTGGCTGAGTGATCTTAGCCAAGTCACTTCATGTTTCTGAGCCTTGCTT
CATCTGTAAAATTATAACTAATAAGACCCAACTCCCTGAAGTTTGTGAATGTTACGGGTGAGTTATTACTAGTTTTTTTTGTTTTGTTTTGTTTTGTTTT
GTTTTTGTTTTTGACAAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGTAGTGGCGTGTTCTTGGCTCACTGCAACCTCCACCTTCCAGGTTCAAGTGATT
CTCATGCCTCAGCCTCCTGAGTAGCTGGATTACAGACACACACCACCACGCCTGGCTACTTTTTTGTATTTTTAGTAGAGACAGGATTTCACCATGTTGG
CCAAAATGGTCTCGAACTCCTGGCCTCAAGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCAGCCTATCACT
AGCTTTTATCCACCAGAAATAACTCCAAGCATAGGTGACTCCCACTGTTGGACTTCATTATGCCTGCAGTAAGACTCCAAGCACTAGCATCAATTCATGA
TGAGCAGCCTCACCTGGGCTTTTATCACTGTACAGCAGGCCCTTGTGGCTCTCTAGCCACTGTTTTTCTCACTCTGTGCAATGAGTATTTCAAACTTGTT
TCGCTTCATTCCAACCTCCAATTCTCCCTCTACCCACCTTTTTGCAGCAGGATGATCTTGATTTCACAGAGAAAATAAAATTGAGGTTCCTGCCACAGAA
TCTGCTGACTTAGTTATGTCTGCATCCATCTTTCCCATCGAAGGTCAGTGCTCTGGATCCCTTCTCTTCTTGTCTTTTTAAGAATTTTCCCGGCTGGGCG
CAGTGGCTCACACCTGTAATTCCAGCACTTTGGGAAGCCGAGGCAGATGAATCACCTGAGGTCAGGGTTCGAGACCAGCCTGACCAACATGGAGAAATCC
CGTCTCTATTAAAAATACAAAATTAGCTGGGCGTGGTGTCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGA
GGCGGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCTGTCTCAAAGAAAAAAAAAAAAAGAATTTTCCCA
AAATAAGAGAGTAAATTTTAAATGTCTTACCATGAAAAAATATTAGGTAAGTGAGATGATGCCTAGGTTAATTGGCTTGATTCAATCATTCCACATTGTG
TGCATGTGGCAAAACATCACATTGTACCCCATAAATGCATACAATTATGATTTGTCAGTTAACAGTATTAATAAAACATAAAGCAAAATGAGACATTCCT
GTGTCAAAAAGAAAAGGATCTTCTATTTTTCAATGATGGGTCTTCAACCACTCTCTACTAGACTGATACTATCCATGTCCCTAAATCCAGTGGAGTCTCC
AGGGCTGAGCTGACTTGACCCCTCAGCAGCATTTAGCATCCTAGTACACTGCTCCCTTCTTTTAGAAATAAATTCTTCTCATGGCATTCTCAGCCTCTTG
CCTTCTTGTCTTCTCTCAGTGTCCTTTATCTGGACCCTACCCATCTACCAGACCCTACCCATCTACCAGACCCTTATGTTGAAGTTTCTTGGGACTTGGT
CCTTGGCCCTCTTTTCTCAGTGTGCACTCTCATTCTGGATCATTTTATATACTCCTATAGCTTTGAGAAAAACTCCCAAATTTCTATTTTTAGTCCAGAC
TTTCTTTTGAGCATGATACATATATATCCAACTGCCCATTCAACATCTCCACTTCAATATTGTCACAGGTACCAAACTAGTGTGACTGAAATTGAACTCA
TGACCTTTCACCTATACTGAACCTGCATTTCTTACAGAATTCCCTAACCCCGTAGAGTACAACACCATTGCTAATAAAAACAATAATGTCAGAGATCTAG
AAGTCTTTGAGCATTTTTCTCTCTTCTTTCCTACTCTAGATCCTTCCCCCCTCATCTAGTAAATGACCAAGTACTGTTAATTGTATTTCCCAAACATTTC
TTTCCACTTCTTTCCACCCCCTCCCACCTATAACTTAACTCAAAGCCACAGTCACCTTTTTTTTTGAGCCAGGGTCTCACTCTGTCAGCTAGGCTGGAGT
GCAGTGGCACAGTCACAGCTCACTGCAGCCTCAACCCCCCAGGCTCAAGCAATCCTCCTACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACTTGCTA
CCATAGCCGGCTAATTTTTAAAATTTTTTGTAGAGATGATGTCTCACTATGTTGTCCCAAAGCGCTGGGATTATAGGGATTATAGGCATAAGCCACCATG
CCCAGCCCCACTATCACCTCTTGCTTGACCAAATGCTGCAGCCTCCTAAGTAGCCTCTCCACCTCCACTCTTAACTGTCCCCCACCCCCAGCCAACAATC
TATTTTCTGCTTTTCAGCCAGACTGAGAGTATAAAATAAAAATGTACTTAAGTTACTCCTCTTCTTAAATGCTTTAAACCTTTATAGGGTGCACCAGCTT
ATCAGTAATGTAAAAGGTGGATAATATTCAGTGTTGATGAGGGTGGTTAGAAACTGGTATGTTGATGGAAATATATATTGGTAAAACCATTTCAAGGCTG
ATTAACCAGGAGCTATTAAACTATGCATATCCTTCAACCCAACCCTACAAACATTCCTGTAGGTTTCTGTCCCACAGACGTGCTCACATATATTGTGCTA
AGAGAAGCGTGTACAGGAATGTCTGCTTTAGCCTTGCCTGCATCCAGTTTTTTGCCGTTATAACCTAAGTGCGCATTAAGAGATACATGATTAAATGAAC
TATGATACTGCCATACTATGGAATAGTTTGCAAATGTTATACAAAATGAGGTATAGACATGTGTACTAGCAAGAAAAAGAGTTCCCAAGACATACCGTTA
ATGGAAAAAGCAGTTGCAGAAGATAATTATATAGTATGATCCTATTTATGTAAAAACAAGAACTAAAACTGCATGTGTTTATATAAACATATATGACTAG
TTAGGAATATGGATATGGAACAATATGTCCCAGGTTTATTATAGTGGATGTTCTATCTGGAAGGAGACTGCAATGGGGGGGAGTACCAAAGGGCTACTTT
GCGTTTGTATTATAATTCACTTTCTTTAGAATGAGAATAGATTTGTGTTTTGTGGAGTTAAAAGTAAAAAACAGGCTGGGNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCAGCTAATTTTTTTTTGTATTTTTAGTAGAAATGGGGTTT
CACTGTGTTAGCCAGGACGGTCTCAATCTCCTGACCTCATGATCCGCCCGCCTTGGCCTTGCTGGGATTACAGGCGTGAGCCACCATGCCCGGCCAGTCT
TGATCATCCTTGAGGAGCCTCCCCTGACTTCCCTTCTAGGCATTTCCTGATCACCTTCAGACCAGATCAGGCCTTCCTCCTACAGCATTTATGCCCTTGG
TTTTTCCTCCATGACGTTCATCACAGTTGTCATTAAGTGTGTGAATGTATTTTTAATGTCTGTCTCTCCCCCTAGACAGGGACATTTGTCTTGTTCACTA
TGGTACAGGCAGCTCCCACCTCAAAGTGTGGCACGTAGTAGGCCTTCAGTAAGTCTTGGAATGAATGAATGATGTGCTCTAAATGGTCTACTTCAAGGGA
TGCTATGATTTTGTGTAAGTTTTAAGGAATAATATAAAATAATTCACAAATGTATGAAAGCATTATCATACTCTGATAATTATATAAACTTTAATCAACT
TTGTAAGCTTTTTTCTTTGTGTACATCTGTCACATATTTTGTTTCTATTATCAAATATAAATTTTTGGCCTTGAATACATTTAAGGTTATTATTGTTTTA
GTAATAATATCATGACTAATGTCTGTTGCTTTTTATCCTGAGACACTTTAGTTTCACACCAGTGTGTGGCTTATGCATGAAAACCAAGTTTTGTTACCCT
CTTCATGCAAAAGATTCTAAGACTGGCTTATTTTTATAGTGTAGACATACATTGGTACTTCAGTTTTTCAATTCTTGCACTGTTCTTGAGGGAGTGGCAT
TTTTATTTACAATAATAAAATGACCCTGAAGCAGTTCTGTATAGTGTATGAGTATGTACTAGCCACAAAGTCTTTTAAGCATGTGATGTTTCTTAAACAG
GCAGATGAAGCATATTCCATCGGCCCCGCTCCCTCCCAGCAGAGCTACCTATCTATGGAGAAAATCATTCAAGTGGCCAAGACCTCTGCTGCACAGGTGA
GGGTTGTGAAGAGATTTGCAGTGCAAAAGGAATACGTTTTGTGCAACTGATGCAAAGTTACTTATAGAAATTTTCTATTTTTAGCCTTTCCYAAGATCTT
TACATTTGATTATTGGATTATCATTGTAAACTAGGCATGTCCCATCTCATTTCTCAGCCAGTCTGCCTTTTTACTGGATCCTGTGTACTTTAGATCCTTT
GGGAAATAGGTGGAAAGAGGGTCTAAATTACAAGTTAAAATTAGGAGAGAATTCAGCTCTTCTATCCTCAAAACTACAAGCTCAAATCCTTTGGGAGAAA
TAGGTAGGTAGGGCTCTGAATTACAAGGTAAAATATAAGCAAGAAAGAAATATATTTCCACCCCAACTTCCCAGTCTCATTCTAGGGCCACGTAGGGAAC
TTAAGGAAGACGATTCAGGCAAATGGAATTGCCAAGACTCTGAGATGAAAACAAGCTTGGTGTTCAAGGGAGAAGAATGTTCAGTGTGGTTGGAGTGAAG
GCAGTAAGGGGCTGTGTCATTCAGGTATAGTCAGTAAAACCAAAATTCCATTTGACGTTTCAGCAGAAGGAACTTAGTTTAGGAATTAGTTCCACCAGTG
TTAGAGAGCTGAAGGCAGGGTGGGGATGTTGAAATTACCCTTTAATAATAACAGAAATTGAAAACCACCCTTTGGGCTGAAGGAGAGACTGGGGGAGGGA
CTTTCTGCAGCTGTTCTCAGATCTGTGGAGGGGCCCTGCCTGGCTGCCGAGGGCTTAATGAGGCTGGTTCTTGGAGTTCCAAAAGAACCTGAAGACTGGA
ACCAATGGCCGCTTCCCGGCGGTGAGGAGAAGGAAAGCTTCCTTGTTCAAGTTTCCCTACAGTGACCCCTACTGGTGAAACCTAACAGGAAGCCCACTGG
CAAACAGGCAGAGCCCCTTCACAAGGCACCACGTAGAAGGCTGGATTTGCAGCTGGGAGAACCATCTTACAGGAAGAAAGTGGTAGGAGACGATGGAGCA
GAGAGAGGTAGGGGTAGCATCATTTAGAACATTCTTTTTTTTTTTTTTTTTTTTTTTTAAAGACAGGGTCTTTGCTCTGTTGCCCAGGCTGCAGTGCAGT
GGCACAATCATGGCTCGCTGCAGCTTCCAACACCCAGGCTCAAGTGATCCTCCCACTTCAGCCTCCCAGGTAGCTGGGACCACAGGCGCATGCCATCACA
CCTGGCTAATTTTTTATTTTTTGTAGGGATGGGCTTTCTCCATGTTGCCCAGGCTGGTGTTGAACTCCTAGGCTCAAGCGATCTGCCTGCCTCAGTTCCC
AAAGTGAGAACATTATAGGTCTTGATAAGGAGTTTGTATTTCATTCTGAGTAGCCATTGGGAGGTTTTTTAAAGCTGGGGAGTAAAGCCATCTGCTTTAC
TTTTTAATAAAATCGCTGTGGCTTCTGGGTGGGGAAATGGATGATTGAAGTGGGGGCAAAGGTAGGGACAACAACATTGAAAGAAGGCAAAACAATTAAA
AGTAAATTGCCGTAGTGTTGCCCATCACCCTCACCTGAATTCCTTCTCCTTAGAAATTCTTCGTTGTCTCCTCTAGCACATTGATCATTCCGCATTTGAT
TTCTTGTTCTAGTCATATTTATACTTAATTAGTGCTTTGTTTAACGAGTTTAATGTAGATGTTGGCTCCTCCATAATTCCTTTGTGCTTTCCTAAGGGAA
GAACTCATATCTGACACCTTTTTATTTTTTTAAGCATACCTYCTAGCAACCCAGTGAGCTTGTACATAGTCCTCAATTTGTTTTTATTTTTGTTTTTTGA
GACAGGGGTTCACTTATCATCCAGGCTGGAGTGCAGCAGTGAGGGTTCAAGCAATCCTCCCACCTCAGCCTCCCAAGTAGCTAGAGCTACAGGCTTGCAT
CACCATGCCCAGCTGATTTTTTAAATTTTTGTAGAGATGGAGCCTCCCTGTGTTGCCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCTTCCCACCT
CAGCCTCCCAAAGTGTTGGGATTAAAAGTGTAATCCACTGCGCCCAGCCAAGTCCTTAACTAAATTAGTGAATATGTATAGTTGTTTTGTATTGATGTAT
CTCTTCTTTAGAATAGTGTTCTTAAACTGAATAGGTATTAATTTATACAAATGCATATTTAAAATATGCTTGTTTATGAAGCTTTTTTGGTTACAGCTTG
AAGTAAAAGGTCCTTAGGAGGGTAAGGAGATGATAATAGTACGTGGAGATATACATATGTATCTCACATGTCCTTAGGAGTTCAGGCCCTTTAACATAAA
TATCAGTTTGTGCATTTATCATGTATTTAAGCATAAATGCCATGGTAGTATTACCTTCATCTTATGGGCATAACATCTAATGCACAGAAGGTTGCATGAT
GTTATTCCAAAGCATCTAAATCTTGCTACTCAAAGTGTGGTCCATGGACAGCAGGTTTGACATTATGAGCTCGTTAGAAATTCAGACTTTTAAGCTGGAC
ACAGTGGCTCACATGTGTAATCCCAGCTACTCAGAAGGCTGAGGCAGGAGGATTGCTTGAACCCAGGCCAGCCTGTAGAAGATAGCAAGACCCCATCTCT
GAATAAAAAACAATAACAGCCTTTAAGTCCTACCCTAAACCCACTGTAATTTGCATTTATGCAAAATTTGCATTTTTATCAAGATCCCCCAGTGATCTGA
AATCAAAACTTGTCTAATCATTGAAAGAGAAAGGATTAAACAAGAGTATTCTGACTCCCAGCCCCATTCCCTATTCATTGGACCAGACTGAGCAGTAGAA
CTTTCTTGCCCTGCATTTTGGAAAAAGGGAAGGTGTTGTTTAATTAGAAATTTTTATTAATTAAAAATTACTTCTTGTAGGCCAATGAGCTTCCTTTTTG
TTTTATTATTGCTTTCTTTTCTAAGCTGCCTCCTGAAGAATTGAAAATCCACTTTCTTTTTAATGACCATTTTTCTGAGACCATTTTTTAGTTTAAATAA
GAACCTTCTAGCAAATGTATGATATGCTAATTCCAGGGACTTTATCAAGCTTGTACCTATTTAGAATAGTATCATGTTAGTTGCTGTAACACAATGAGAA
AGGAATAATACTTATTTTGAAGTATATTTCAAAGAATGTTTGAAAAGAATAAAATACTTTCAGACAGTATTTTTAAAAGAATAAAATATTTTCAAAAAAT
AATCATTTTGCCTGGATATTGAAGATTTGGGGTGGCTTGCAAAAATTAGTGGTGAAAATAAAGGATAAAAGAGCAAAAGCCAAGTAACATGAGTGAATGA
ACATTGGAATTAAATCAGAAAATTTAGCCTAAGTAAAGCTGTTTAGCTCTTTGGGGCAGACCTGATCAGAAAGGAAATTTGGTGGGTTATAATTTACAAA
GTTCTCCTCTAATAAAAAGATACTTGCCGATTAGGAGAGCAAACCTTCCTTTAATGTTGACTTTAAAGAAGAAACTTATTGGCCMTCTAGTAAAGGACAT
TGAATAACACTTGTATAGTGATTTGAAAGAAGTTTTCTAAAAGTCTAGAATTGTTCTTAATGTGGCCATTTTGACATACTTTTATAGAAATTAAAGTAAA
ATTTACAAGTGAGCTAAATTTCTGGTGATGTCTGGTGATATGGCTATATTGAGAAACTCAAGAAGATGTAAATATTTTTTAGGCTAGCCTTTTTTTTTTA
AGACGTTGTCTCACTCTGTCTCCCAGGCTGGAGTGCAGTGGTATGATCATGGCTCACTGCAGCCTTGAACTCATGGACTCAAGTGATCCTGCCACCTCAG
CCTCCCAAGTAGCTGTGATGGGACTGTAGGCACACGTCACTATGCCCAGCTAATTTTTTGTTTGTTTGTTTGTTTTTGAAACAAAGTCTCACTGTGTTTC
CYAGGCTGGTCTCAAACTCCTGGGCTCAAGTGATCCTTCTCTCTTGGCCTGCCTAYGTGTTGGCGTTACCGACGTGAGCCACCGCCCTGGCCACACTCGT
TCTCTCGATTGCCAGTTGTCTTCAGTCTTCTCTGGTTGGGAAAGAGGTTGTAGTTAACCCTGTCTGCAGATTAGAACCACCTGAGCTTTTAAAGAGACTG
TTGTACTGCCTTGCGGAAGAGGCCTAACTGTAAGGAAGCATAAAGCAGTCTCTGGAATGCTTGTGATGTTTTGATTCTTGAGTTGAGCACTGGCTGCACA
GGTGTATTCAGTTTAAGTAAACAATGGACTTAAGAGCTGTACACTTAGGGCAAATGTGCTTTTCTATATGTGTATTATACTTCAGTCCCCTCAGTTATCT
GAAGTTGCTCCTGAGCATGAATGTTTTATAAAAGTGCTCCATTTTTTTTTCATGTGCTACCAAGAGTTAGGAACTTTATTACAGGTACTTGAAAATCACT
GACAAGTAACTTAAATGCATATAGCAAGTCATTTACTGAATACAGCTACTCTGTGGTTGACCAAAAGGAAACCCATATGTTTTAAGTATCACAGACGAAG
GTAGGAAATTCTTGGTGTCCGGTCCCAGGGTCTGTCCAGCCCATGCTGATGTCTGAGGAGAGTGTGTGGATGAGCAGAAAGAACACTTGGGGGGCCGTAG
GCAGGTGAATATGGTTTTCTTCAGCAGCAGCTCTTATTAGCAGCTTAGTTAGACTAGGTCTCTCATACTGTTCACCTTTATCTTAGCTGTCTGCTCTGGC
TCTGTGGTTCCTGCCACTCCCATGCCCGCAGCTGCACAGCTGGCTCTCCCTTGCCTTCAGGGTCAGCAGCTTAACTCTTTCTCTCTCTGGGCATGAGCAA
GCCAAGCTGTGTCCTGGCTCCCACCTGTCCGGCTGCAAGATGGACAACTTTGGCACTCTCTCTGGGTGCCAGTGCTCCCACCATGTCAAGCCATGTTGAG
CCGAGTTGAGCCCCAAGAGCCCCTGAACAGCATTAGCAGGGCAATTATACCTTTTACAGACAATAGTGGCATATGAGCTTACACAAACAGGTTATATAAC
AAGTGCAGTATGTGCCTGTGCCCTAAATTTGCTGAGTCATGCAGGTCTGGATGTCCACCTCAGCCTATTCCTTGACCAAAGCACATCTATGTACCTTACA
CTTGGTAATAAGAATTTAAAGACCATGACTTGTCCGCTTCACCATGGAAAGGACACTTCTCATTTTTGCTTGAAGGCAGAGCCAGTTTTTTGTCAAACTC
TGCTTGAGGGTAGAACCAACAACTTTGCTTGTGTGTGTCTTCTTGAACAAGTTACAGAGCAAAGTAAATACAAACTAAAAGGTTGGAATAAATTATTTTG
GCAGAGATTTAAGGAGGACAAGAGATACTAGTTTTCTGTGTTTACTAATAAAGGCATGTTAGTACCGTGCAATGAACAATCTCAACAGGTTTGCAATCCT
ATGACCCACCAGGGTGAAGTGGCAGCTCAATACATGCCTGAAGCAAGGGAATTAGCCCGCTGGTAATAGTAGTGGTGCTGTTGTTTTCCCTTTTAATCCA
TTCAAATGCTCAAGAACATCATGGTTTGGTTATATTAAATTGTTCTTCCTAAGAGAAATTAGTTAAACTTCTTAAGGCTGTTCCCAGAGTGTACGACTGA
ATTTTATTTTCACAAGGAGATGGCTCCTTTTGTTTTTAGTTATTGATATGGTTTCGCTGTGTCCATACCCACATCTTATCTTGAATTGCAACTCCTACAA
TTCCCACGTATTATGGGAGGAACCCGGTAGGAGGTGATTAAATTATGGGGATGGGTCTTTACTGTGCTGTTCTCATGATAGTGAATGAGTCTCATGAGGT
CTGATAGTTTTAAGAAACAGGAGTTTCCCTGCTCAAGCTCTCTCTTTGCCTGCCGCCATCCATGTAAGTTGTGACTTGCTCCTCCTTGCCTTTCCACCAT
GATTGTGAGGCCTATCCAGCCACTAAACCTCTTTCTTTTGTAAATTGCCCAGTGTCAGGTAATGTCTTTATCAGCAGCATGAAAACAGACTAATACAGAA
AATTGGTTCCAGTAGAGTAGGGTGCTGTGAAAAGATACTTAAAAATGTGGAAGTGACTTTGGAACTCGGTAACAGGCAGAGGTTGGAACAGTTTGGAGGG
CTCAGAAGAAGACAGGAAAATGTGGGAAAGTTTGGAACTTCCTAGAGACTTGCTGAATGGCTTTGCCCAAAATGCTGATAGTAATGTGGACAGTGAAGTC
CAGGCTGAGGTGGTCTCAGATGGAGATGAGAAACTTGTTGGGAACTGGAGCAAAGGTGACTCTTGTTATGTTTTAGCAAAGACTGGCAGCATTTTATTCC
TGCTGTAGAGATTTGTGGACCTTCAAACTTGAGAGAGATGATTTAGGGTATCTGGCAGAAGAAATTTCTAAGCAGAAAAGCATTCAAGAGACGACTTGGG
TGCTATTAAAGGGATTCAGTTTTATAAGGRAAGCAGAGCATAAAAGTTCAGAAAATGTGCAGCCTGACAATGTGGTAGAAAAGAAAATCCCATTTTCTGA
GGAGAAATTCAAGCTGGCTGCAGAAATTTACATAAGTAACAAGGAGCCCAACGTTAATCCCCAAGACAATGGGGAAAATGTCTCCAGGGCATGTCAGAGG
TCTTCATGGCAGCCCCTCCCATCACAGGCCCGGAGGCCCAGGAGGGAAAAAATGGTTTTGTGGGCCAGGCCAGACTGCTGTGTACAGTCTAGGGATTTGG
TCCCCTCAGTCCCAGCTGCTCCAGCTGTGATTAAAAGGGGCCAAGGTACTACTTGGGCTGTTGCTTCAGAGGGTGGAAGCCCCAAGCCTTGGCAGCTTCC
ATGTGGTGTGAAGCCTCTGGGAGCACAAAAGTCAAAAACTGAGGTTTGGGAACCTCCGCCTAGATTTCAGAGGATGTATGGAAACTCCTGGATGCCAGGC
AGAAGTTTGCTGCAGGGGTGGAACCCTCATGGAGAACCTCTGCTAGGGCAGTGCAGAAGGGAAATGTGGGGTCAGAGCCCCCACACAGAGTCCCTATTGG
GGTACTGCCTAGTGGAGCTGTGAGAAGAGGTCCACTGTCTTCCAGACCCCAGAATGGTAGATCCACCAACAGCTTGCACCATGTACCTGGAAAAGCCACA
GACACTCAACACCAGCCTGTGAAAGCTGCCAGGAGAGGGGCTATACCCTGCAAAGCCACAAGGTTGGTGCTGCCCAAGACCATGGGAACCCACCTCTTGC
ATCCATGTGATCCAGATGCGAGACATGGAGTCAAAGGAGATCATTTTGGAGCTTTAAGATTTGACTGCCCTGCTGGATTTCAGACTTGCATGGAGCCTGT
AGCCCTTTTATTTTGGCCAATATCTTCCATTTGGAGGCTGTATTTAACCAATGCCTATACCCCCATTGTATCCAGGAAGTAACTAGCTTGCTTTTGATTT
TACAGGCTTATAGGCGGAAGGGACTTGCCTTGTCTCAGACGAGATGTTGGACTGTGGACTTTTGAGTTAATGCTAAAATAAGTTAAGACTTTGAGGGACT
GTTGGGAAGGCATGATTGGTTTCAAAATGTGAGGACATGAGATTTAGGAGGGATGAGGAGCGGAATGATATGGTTTGGTTCTGTGTCCCCACCCAAATCT
CATCTTCAATTGTAACTCTCACAATTCTCATGTATCGTGGGAGGAACCCAGTGGGAGGTGATTGAATTATGGGGGCAGGTCTTTCCTGCGCTGTTCTCAT
GGTCATGAATGAGTCTCATGAGAGCTGATGGTTTTAAAAATGAGTGTTTCCCTGCACAAGCTCTCTCTTTGCCTGCCACCATCCATGTAAGACATGAATT
CCTCCTCCCTGCCTTCCGCCATGATTGCGAGGCCTCCCCAGCCATGTGGAACTGTGAGTCCAATAAACTTCTTTCTTTTGTAAATTGCCCAGTCTGGGAT
ATGTCTTTATCAGCAGTGTGAAAACAGACTAATACAGTTATGAAAGAAGAGCATTTATCTAGTACACCAAAAAGTTCCATCAAATTCAGAATCTGTTAAA
GGAGACTAGTAACAAACACTCCGGAAATGAAATTAAGGAAACAGTTACATTCACAATAGCAATCAAATAGTTAGGAATAAAGTTAGCAAAAGCAGTTCAA
GACATATTTACTGAAAACTATAAAACATTGCTGAGAGATACTAAAGAAGTTCTAAATAAACAGATATTTCATCAGAACACTCAATATTATTAAGGTGGCA
TTATATATTTAATGCAGTCTTTATAAAAATCCCAGCAGGCTTTAAAAAAAATAGAAATTGATAAGCTAATCCTAAAATAGCCAAAAAGCCTAATATATAC
CTAAAACAATTTTTGAAAAGCTTATGTAACTATTTTGTAGGATTTAGACTCTGTTTCAAAACTCATTATGCCAGGTGCAGTGGCTCACACCTGTAATCCC
CAGCATTTTGGGAGACCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAA
AATTAGCCAGGCATGGTGACAGGTGCCTGTAATCCTAGCTGCTCAGGAGGCTGAGGCAGGAGAATCRCTGGAACCCAGGAGGTGGAGGTTGCAGTGAGCC
AAGATCATGCCATTGCACTCCAGCCTGGGAGACACTGCGAGGCTCTGTCTCAAAATATATATATAAAGCTACAATAACCAAAACAGCGTGGTATTGGTAT
AAGGATAAAAACAGGTCAGTAGAACAGGATAGAAAATCCAAAAATAAACTCACATATGTAGTCAATTGATTTTTGAATAAAGGTGCTAAAGTAATTCAAT
AGAGGAAAGGAGAGTTTTTCAACAAATAGTGCTGGAGTAATTTGACATCTCTTTGTAAAAAGATGAACCCGAAGTCTAGATCCTAGACTCTTGCCTCACA
CCTTAAACAAAAAAAATTAACTTACAATATATCACAGACCTAAATGTAAGAGCTAAAACTATAAAACTTCTAGAAGAAAACATAGGAGAAAATCTTTGAG
ACCTTGGATTAGGCAAAGATTTCTTAGACATAATACTATAAGAAAGGTTCACGAAAAAAAATGATAAAATTGACTTCAAAGCTTGAAACTGTTGCTAGGA
AACCTAATTTTTTAAAAAAATGAGCAAAATATTTGAATAGATCCTTCACCAAAGAAGTTATACAAATGACCAGAAAGCCCATTAAAAGATGTTCAACATA
TTAGCTGTTAGGGAAATACAAATCAAAACCTTGGTGAGATACCACTTCATACTCACTAGGATGCTATAATCAAAAAGAGATGATAACAAGTATTGGTGAG
GACTTAGAGAAATTGGAACCCTTCTATGTTACTGATGGGAATGTAAACTGGAGCAGCCACTTTGGAAAACAGTTTTGCAGTTTCTCAAAACGTTAAACAT
AGAGTTACTTTATGAACTAGTAACTCTACTTCTTCAGTATATACCCAAAAGAAATGAAAACACATCCGCACAGAAATTTATACCTGAATGTTCATAGCAG
CATTATTTATAGTAGCCAAAAAAGTAGGAACAATGCAAATGTCTATCAACTGATGAGTGGATAGATAAAATGCAGTATAGCCATACAATGGAGTATTATT
TTGCCATCAAAAAGGAATGAAGTACTGATTTGTGTTAAACAAAAAATGGATGAACCTTGAAAATATTACRTTCAGTGACAGAGCCAGTCACAAAAGACTG
CATGTATTATATGATTCCATTTATATGAAATGTTCATATAGGTAAATCTATAGAGACAGTAGATTCACAGTTGCCTAGGGCTGGGGGTTTATGGGGAGTG
AGGAATGGCTAAGAGGCACAGGATTTCTTTTTGCAGTGTTAAAAACTTACATTATTAGATCTTAGTATTTTAGATTATAGTGATAATTGTGCGACTTTGA
GTATACTAAAAATCATTGGGTTGGCCGAGTTTATGGTATATGAATTATATCTCAACAACTATGTTTAAAAAGTGCAGTAACACTATGCACCCACTAGATT
GGCCAAAATCAGAAAGACTGATAGTACAACATGTGGGCAGGGATATGGATACACACTTTAAAGCATCATAAATTGCTGGTAGAAATGCAAAATAAAATCA
TCGCTTTAGAAAAGTTAAATGTATTCTTACCATATTAGGACCAAACAATTGCACTCCTGGGTATTTACCCAAGAGAAATGAAAAATATGTTCACACAGAC
TTGTCTGTGAATGTTTATAACACCGTTATTCATAATAACCACAAACTGGAAAATAATTCAAATGAATGGGTAAACAAAATGTGGTATATCCRTATAACAG
AATCCATATTATAAAAAGAAATGAGCTACTGACACACTCCACAACATGAATAAACCTTGAAAAATTATGTGAAGTTAAAGAAGCCAGACACATAATACTA
TGTACTGTATGATTCTGTTTATATGAATTTTTTTAAAGGCAAAACTATAGAGACAACAAGTCAGTTGTTGCTTGGGTATTGGGAACAGATTGCACATGGG
CACATGGGAACTTTTTCAAGTGATGCAGGTGTTCTCAAACTGGATTGTAGTGATCCAATTGTAGTTGCACAATTGTATAGATTTACTAAATTCACCAAAC
TATAAATGCATGAATATTATGTATTATAAATCATATCTCAAAAGAAAACCCAAACCAGGGAGGACTAGGACATAGACCTGTTTCATTTGCCTAGTATAGA
TGTTTGACCATTTTATATAAAATACTCAAATTGTGGGAGAAAATATTTGCAAAGTTTGCATCTGACAAAAGTCTAATATCTAGCATCTATAAGGAACTTA
AACAGATGTGCAAGAGAAAAACAACCCCATTAAAAAGTGGGCAAAGGACAGCCGGGCACAGTGGCTCACGTCTGTAATTCCAACACTTTGGGAGGCCGAG
GCGGGCAGATCACACGGTCAGGAGATGAGACCATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAGATTAGCAGGGCGTGGTGGCA
GGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAAGCAGAGGTTGCAATGAGATGAGATCATGCCACTGCACTCT
AGCCTGGGTGACAGAGCAAGACTGTCTCAAAAAAAAAAAAAGTGGGCAAAGGACATGAACAGGCACTTCTCAAAAGAAGACATACATGTGACCAACAAAC
ATGAAAAAAAGCTCAATATCACTGATCATTAGAGAAACGCAAATCAAAACCACAATGAGACACCATCTCACACCAGTCAGAATGGCTATTACTAAGAAGT
CAAAAAAATAACAGATGTCAGGAGGTTGTGGAGAAAAGGGAACGCTTATACACTGTTGGTAGGAGTGTAAATTAGTTCAACCATTGTGGAAAGCAGCAGG
GTGATTCCTCAAAGAGCTAAAAGCAAAACTGCCATTCAACCCAGCAATCCCATTACTGGTTGATACCCAGAGGAATATAAATTATTCTACCATAAAGACA
CATGTGCATGTATGTTCATTGCATCATTCACAATAGCAAAGTCATTGAATCAGCCTAAATGCCCATCAGTGACAGATTGGATGAAGAAAAGGTGGTACAT
ATACACCACGGAATACTATGCAGCCATAATAAAGCATAAGATCACATCTTTTGCGGGAACATGGATGGAGCTGGAAGCTATTATCCTTAGCAAACTCCCA
CAGGAACAGAAAACCAAATACTGCATGTTCTCACTTAGAAGTGGGAGCTGAATGATAAGAACTTAAGAACACAAAGAAGGAAACAAAAGACACTGGGGTC
TACCTGAGTGGGGAAGGTGGGAGGGAGAGGAGCAGAAAAGATAACTATTGAATACTGGGCTTAATACCTGGGTGACGAACTCTGTACAACAAACCCCTGT
GACATGTATTCACCTGTGTAATCTTCACATGCACCCCAAACCTAAAATAAAAGTTAATAAAATAAAATTGAACTTTKGTTTAAAAGATATAAAACTCTAA
ACTGGCTGCAACATATGAGTATCCAGCATTTTATCTGTATCTGGCATTGCATTGTTTCCTGTCACTAGGATGTGGGTTTTTCTATTCGTATGAGTTTCCC
AGATATGTGAAGCTTACCCCTTTAATTTTGAAATGTTCTTTGAGTGTAACTATTTTGAAACAGGATTGGCTGAACCTTTGTGTTTTTACATTGTTTTGGT
CATAATTATAATACTCGCTCACATTTTAGAAGAACAAATCCCCTCAGGGCTACTGATGTTGGAGAGGGTGTGGCTTCATYACTCATTAAATCATCCAAGT
CTTCTCTGCCTTTTGCCTCCTTCTGTTTCTTCCCTTTTTGCTGTCAGCGTGTTTACTTTTAGAAATCTTGCTGTCCTTCAGTTACTGAATTTCCTCTTCT
GTGGGCTAAAATCCCAGTAAGTATGTTTGTTAAAATTCTGAGTACACTGGAAGTAACTAGGCTGAAGTCTGAGGGATGCCCTTTTCACTGAAAGTACACG
TACAGTTGTCCCCTTTATCCACGGTTTTGCTTTGAGTGGTTTCAGTTACCTGCAGTCTACTATGGTGTGAAAATATTAAATGGAAAATTCCAGAAATCAA
CAATTGATAAGTTTCAAATTGCACGCYATTCTGAGTCACACAGTGAGATCTTGCACAGTCTGCTTTGTCCCTCCCAGGATGTGAATCGTCCCTTTGTCCA
GTGTCTCCACGCTGTCTCCACTCCCCATCTGTTAGTCACTCAGGAGCCATCTAGGTTATCAAATYGACTGTCATGGTACCACCATGCTTGTGTTCAAGTC
ACCCTTATTTTATTTAAATCATGGCCCCAAAATGCAAGAGCAATGATGGTGGCAATTCACTTATGCTAAAGAGAAGCCATGAAATGCTTCTTTTAAGTGA
AAAGGTGAAAATTCTCAAGGAAAGAAAAAAATATGTATGTTGAGGTTTCTTGGTTCTTGGTAAGGACCAAGTTTCTATCTGTGAAATTGTGAAGAAGGAA
AAACAAATTCATGTCATTTTCCTGTTGCACCTCAAACTGCAAAACTTATGGCCACAGGGCATGGCAAGTACTTAGTTAAGATGGGAAAGGCATTACATTT
GTGATTGGAAGACATGAACAGAAGCGTGGTCAAATTGGTATCAGTCCAGTTCTGTAGTATTCATAGTTTCAGGCATCCACTAGGGATCTTGGATAAGGGG
ACACTCCTGTAGACTTTAATACATGACTTTCATTTGCTTCTTAGCTTTTTTTCTGGAAAGATGACATTGATGACCTGAAGATAAGTGAGGTATTTATTGA
GCTAGTGTTCTGTTTGGGGCTTTTGGATGCCATGATTTCAATTCTAGGCCAGTTTTACACAGAGACAGAATAGACAAATTCCCCTTACCACTCTGAAGCC
CTTTACTTCTTGACATTCTACCCTAATTGCAATATTATTTTAAATTTAAGTATATAGAAACTTCTGTACCATATGATCCAGCAATTCCACTTTTGGTATA
CAGCTAGAAGAATTTAAAGCAGGGACTCAAAACAGATACTTGTATACCAATACTTGTTGTTCACAGCAGCAGTATTCACAATGTGTAGAAATAACACAAT
GTCCATCAAGAGATTAATGGATAAACAAAATGTGTACAAACTGGATATTATTCAACCTTAAAAACAAATGGAATTTTGATACATGTTACATGAATGAACC
TTGAAAACATTATGCTAGGTGAAATAAGCCAAACTCAGACAAATTATTATACGCTTCCACTTACATGAGGTACTTTGGCTAGAGAAATTCATAAACAGAA
AGTAAAATSCTGGTTACTAGGGACTAAGGAAMRGGAGGGAATGGAGAATTATGTTTGGAGATTAAAACATCCTGAGGATGGATGGTGATGACAGTTGCCC
AACATTGTGAGTGTACTTAATGCCACTGAATTACATACTTGCAAGTAACTAAAATGGTCAGTGTTTTGCTATGTATATATTATCACAATAAAAAGAAATA
TAGATTCATCTGGTTTAGGTAAGCCTTCAGAGCTTTCATATGAATATTTCAGATATTTCTTTGGAAACAGAGTTTAATAGAGACCATACTATTACCAGTG
TAGGGAGAGGCCTCCCAGAGGAAGACAGCTTCACCTGCATTAAGGTGTTGCCAGTTGAGCACTGATGAGTAAATTTTTTATTTTATTTCTCATTTCTAGG
CTATCCATCCAGGATGCGGTTTTCTTTCAGAAAACATGGAATTTGCTGAACTTTGTAAGCAAGAAGGAATTATTTTTATAGGCCCTCCTCCATCTGCAAT
TAGAGACATGGGTATAAAGAGGTATGAGTTTATATCTTTTAAAATATAACTGTATGAAGGTCAGTTGAAATAGTTTGGGCCAGGCATGTGGCTATGCCTG
TAATACCAGTGTTTTGGGAGACTGAGGCAGGAGGATAGCTTGAGGCCAGGAATTCAAGACCAGCCTGGGCAACTTAGTGAGACCTTGTCTCTCAAAATTC
TTTTTTTTAAATCAGCCAGGCCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGGATCACTTGAGCCCAGAAGTTTA
AGACCAGCCTGGGCAACACAGGGAGACCCTGTCTCTACAAAATTTTTTAAAAATTCCAGGCATGGTGGCACGTGCCTGTGGGTCCAGCATCTTGGGAGGC
TGAGGTGGGAGGATTGCTTGAGCCCAGGAGATCAAGGCTGCAGTGAGCTGTGATCACACCATCATACTTCAGTCTGGGTGACAGAGTAAGACCCCATCTC
AAAAAAAAAAAAAAAAAATTCAGCTGGGTATGGTGACACACACCTGTAGTCCCAGCTGCTTAGGAGGCTGAGGCAGAAGGATCACTTGAGCTCAGAAGTT
TAAGGCTGTAGTGAGGTATAATTGCACCACTGCACTCTGGCATGGGCAACATTGTGAGACCCTGTCTCTTTAAAAAAAAAAAAAGAAATAGTTTGTTTTA
CCTATAATATTTTAATTCTACCCTTCTGTTGTCATAGGCATAAGTTATTTATCTGTGACATAGAGAAATTCTATTGAGTTACAGAAAATACTTAATGTTT
CTAATCAATATGTTAGTATTTTGGGATTAAAAAATAGGGTGAGATGAGCTACCACATGAAATGAGGGAAACTAACTAATAGACATATTAAATTTGTATTA
TTTTGTCRTCTCAGACTCGATGTTTTCTTTAAAGAGTTCCATTGTAATTTATAGACTGGGCTATATTTATGTTTGTCTTGAATGAAATAATTTGTAGAAT
TTGGGGCATGTTGTTTTCTTTCCCACTCTAAAGCACATCCAAATCCATAATGGCTGCTGCTGGAGTACCTGTTGTGGAGGGTTATCATGGTGAGGACCAA
TCAGACCAGTGCCTGAAGGAACACGCCAGGAGAATTGGCTATCCTGTCATGATTAAAGCCGTCCGGGGTGGAGGAGGAAAAGTAAGATTGTGCATGCTTG
TGTTTGCCAATTCAGGCTTGTCTTCTTTGTTTTATTTATGTTGTAGTCATAATCATCTTTTCTCTCTTAGGGAATGAGGATTGTTAGATCAGAACAAGAA
TTTCAAGAACAGTTAGAGTCAGCACGGAGAGAAGCTAAGAAGTCTTTCAATGATGAYGCTATGCTGATCGAGAAGTTTGTAGACACACCGAGGTGGGTTG
GCCTTATTTTTCTGACTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTAAAAATTAAATTATAAAAATAATGCATGCACATTCTATAAAATATAAAACTGTAGTAGTATATAAGTA
TATTATTACAAGTTTCCCAGTTCTGTCCTGTGATGTAACCACTGATTGTAGGATGGTATGCATTCTTCCAGCCATTTTCTATGTGAATAGAAACCTATAT
ACATATACATACAGCAAACAAAATACATACCTAAGAACAGTGAATAGAATTTTTTTTTTTTTTGGACGGAGTCTCTCATTCAGTTGCCCAGGCTGGAGTG
CAGTGGCACGATCTCGGCTCATTGCAACCTCTGCCTCCCGAGTTCAAGCGATTGTCCTGCCTCAGCCTCCTAAGTAGCTGGAATTACAGGTATGCCCCAC
CATGCCTGGCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTTCCCATGTTGGTCAGGCAGGTCTCAAACTCCTGACCTCGTGATCCACCTGCCTCAGCC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCGGCCAGTGAATAGAATCTTATACACTAATATTATATCACAGACATCTTTCCATGTCAGTA
ATTGTAGATCAGCCTCATTCTTTTTGTTGGTGACCTAGCGGTTCTATGATCTTGATATACCATTAATTCATTCAGTATGTTTCTTGTTGATGAAATTTAG
GGTTTTTTTTCAATATTAGCAAATTATTGTAATAAATTCAGCTATATTTATAGAACTCTCAGTTGAGATGCTCAGGAAATGGAAGTAATTTTCTAAATTG
AATTACAAGTGATATGCTGTTAATAGGAGCTAACACTTACATTGCACTTACCATGTGCCAGATTTTAAATATTTTACACATGCTAAATAATCTTGCTGTC
CTTCTAATTCTAATATAATTCTTACAACAACCTCATTAGGTAAGTACTGTTTTCATTTTACAGGTGAGGACACTAAGCAACAGAATGGTTGTGTTGTGTT
ACTTTTCTGAGGTCACTCAGCTGTTAAGTAGTAAAGCTGAGATTTGAACCCAGGCACTTTGACTCCAGAGTTCATATCTAAGCCACTGCACTAAGCTACT
TCTCTGGGTACCACTATAGCAAATGCAGTGTGAATCCCTATTTTTTTTTCTGGAATTTTATTTTCATGTTTGTTGTTTAAGATGCTGATTATAAAGTTTC
TCATTTCATAGATTTTTATGACAATTGTTAAATTWTATATATATATGTGTGTGACCTGTAAGTCAAGTGAAAAGAATAATTTATTTGGGAACCATGACTG
GAAAGAGATTTACCTTSAAGGTAACAGACTTGAAACTTCAGGCCCTTCTTTGACATTAATCTCTTCCAAGACCCTGACCTAATTTTGTATTTGCAGTTTT
GTATTCTTCTCCTTARAGAAGACCCCCAAATTGTTTTTTGTTTCAGGCCCTATAAAACAACTGTCCTGAGCATGGCATAGTAAATGAAATTCAATTAAGG
CAAAAAAAAAGGGGGGGGCATTTCTAAGGTACATTGAAGGCTTCCTTTCAAGAAAGAATAGGCTAGCCATCCAAATCAGCATGCTCTTAAGTTAGAATTG
TGGAGACATCAATAGCTTATTTCAGTAACTTATTTCAGAGACATCAATAGCTTATTTGAGTTATTATGTAACTCCATGCCTGCAGCATTTTTTGAATATG
TAAGTTCTTTACTTATGAAATGTTAGCCATACATTGCRTCACATTATAATTTATTCCCCCAATAGCTGGAAAGCCCCTGGGAATCAAAGACCTGGTAGTA
TATACATTTTTATTTTTTGTATATATTGCCTGGCATACTACTTTCCTTGTAATAGGCATCAGTAATATTTTTTGAACTATAGAAGTAATATGAATACATT
ACAAATTTTTGGAAAATGCAGAAGATGGAAAACAACCCATAATTGTATTCTCCTAATTATTATTAATATTCTTATATACAGTCATGTGTTGCTTAATGAC
AGAGATACATTCTGAGAAATGCATTGTTAGGCAATTTCATTGTTGTGCACACATCATAGAGTGTCCTTACACAAACTGAGATAGTATAGTCAACTACACA
CCTAAGCTATGGTATAGCCTATTGCTCCTGAGCTACAAACCTGTACAAACRTTACTGTATTGAATACTGTAGGCATTTGTAACACAATGGTAAGTATTTG
TGTATCTAAACATCTCAAAACATAGGAAAGGTAATGTATTGTGCTATTATGTCACTAAATGATAGGAATTTTTCAGCTCTATCATAATCTTATGAAATCA
CCATCCTATATGCAGTCTGGCATTGATGGAATGTCATTGTGTGGCACATTGTGTGACTCTATTTCTATTCTGTATTTCTAGTAATAACTTCTTTTTAATT
GAAAGCAAGTTTATTAAGAAAGTAAAGGAATAAAGAATGGCTACTCCATAGACAGAGCAGCCCCAAGGGCTGCTGGTTGCCATTTTTATGGTTATTTCTT
GATGATATGCTAAACAAGGGGTGGAGTATTCTTGCCTCCCCTTTTTAGACCATATAGGGTAACTTCCTGACGTTGCCATGGCATTTGCAAACTGTCATGG
TGCTGGTGGGAGTGTAGCAGTGAAGACGACCAGAGGTCACTGTTGTTACCATCTTGGTTTTAGTGGGATTTAGCCAACGTCTTTACTGCAACCTGTTTTA
TCTGCAAGGTCCGTATGACCTGTATCTTTTGCTGACCTTCTATCTCTTCTTGTGATTAAAAATGCCTTAACTTGCTACTGGGAATGCAGCCCAGCAGGTC
TTAGCCTTATTTTACCCAGCTCCTATTCAAGATGGGAGTTGCTCTGGTTCAAATGCCTCTGACATTTCCCTTTTCCCTTTTGTAAGAGCACGCTTAATCC
TAAGGGTTGCAGAGGGACAAAGATCCATCTTCTGTAACTTCTTCAGGCTGAATGGGGTGATGATATTCCTGCCTAACTATTAGGATCTCTTGTGTTCAGT
ATAGAGAGAGGAGCTTAGTTAGAAAGCATCGGTATGTTGAGGGCCACTCATAACTCATGAGTTCCGACAAAAGGTGATATCTGGAAGATTAATATGTGTT
TTTAAAAAAAAATTTGGTAAGCTTATCCTGCATTTCTACACAAAGAGTATAACAGTAATATATTCCACAACAGTAGAGCAAAGTAAGCAAGATTATCCCA
AGTTAACTAAGTTAGAAGGCTTTCCACTAACTGGGCAACTGTTGGAACCAAGCCGATATGAGGTTGCTAGGTGATTCCAATACATGCCCAGGATTAGAAT
ATTGATTCAGATATTTGCATTACCAGTCCCTCCTGTTTCTTCTGAGCAGCATCCAGGGATCACTGGTTGGTCCACAGGAATAAGCAGGGTTAGTCTAAAT
TGTAGGAAATCTCAAAAACAACTGATGAGACCAAAATTTAATAACAAATGTGCCATAGTTCTTGAAACATAATTTTTCTCTCTCCGGTTTCCCATTTTTA
CTAAAGACAAATCATGGTAAGACTGATTTGCTTTATTATACATGGCCTGATTATTTGTACAAAGTGCAGCAAGAATAATTATTTGCCATACAGGCTTTTA
AAATTGGTTTTGATATAACTCTTCCATAAGGAATGTCAGAGAAGACCTTTTTTGTATTTAAGCCCAGCCCAGCCATGGGTTTATACCCTCAAATACCTAT
GAGTTGGGTAAATTTTTCTCCTCTTGAGGTCTCACGATAACTTGGGGCTCCTGAGTCTTTCAGAAAGTGACATTCTTTACTTACTACAGGTTAGGAACCC
TATATAGAGACTGTGTAGACAAGGAATGAGGCCAGTTTTCCCCAGGGGCTTTTATTGGCTTTACAAGTCAAGTTTGATTCCTTAAAGGAAAGCATGCCAT
TCCAGTCAAAGCCTTGGTAAAATAACCAGTTTCTCCAGTTGTGTCCCATTGCAAAAGAAAGCAGATTCTTATTGCATTTATGCAAATAACTATATTGCCG
TAAGTTAAGATAGTCACAAATAATTTCCAAATTCTGGAGAAATCAGATAGAGAGAAACAAATATGCTCCAAATTTTGTTTATGAGTGTGCACATTACTTA
ATTGTTTAAAAAGCTGTCAATAGCTTAAAAGAAAAGTTTCCTTTACTCTGAAGAACAAAACAGAGGATCAGCAATGTTTTAAGCAAAAAGTCAAAAAAGA
TTACTTCAGACTTCTGTTAGTTTAGTCTGTACAGTTAACTCCTGTTTTGCTTGATATACATGAACATTTCAACTTTCCATGAGAGTCCTGAAAGTTTCTT
TTTCCCTTTTCTAATGTCACAATCTCCAAAGTTAAATGAAACCTGCATTCAAGAACACCTATTAGAGTTGTATAGTTGATTATAAATCACCTTTTGGGGC
TTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACTGATGCAAGTGGATCACTTGACCTGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACCC
TGTCTGTAATAAAAATACAAAAATTAGCCAGGCATGGTGGCATGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCACGAGAATCACTTGAACCTGGG
AGGCGGAGGTTGCAGTGAACTGAGATTGTGCCACTGCACTCCAGCTTGGGCGACAGAGTGAGACTCAGTCTCAAAGTAATAATAATAATAATAAATCTCC
TTTTGAAGAGGATCAAAACAAGACAATTGTCTGTGGATGGCAAAAAGTTTTAGGGCAGCCACAGTTAAAAACACAATTGACAAAGAAATTTGGTTACCTC
TGTTGCATACAATGGTTTTATGTAACAGTTATAATTATACTGATAATGTACACTAAGTCATATCAGAATTATAGGAGTTTCCCATTATTTTGGAACACAT
ACTAACAACATATTTATATAAATATAGCCCAAAGAAAGCTAAACACTATTTCACATTTGACACTGCTTCCTGTATGACTCTTATGCCAAATAAGCCAAAT
TTCACCTTTACATAACTGTACTATTAATGTTAAACCCAATTTTCAATAAAACCTTATAGACATATCTACCCAATTTTAATGTTTGACCATAAGGTGAGGT
TCTCATAAACCTTTTATAACCCTTTACAAATTTTTGTTAAAGAGCAGATCAGTGCCTTAAGAAGAACCTGTTGTGCTTTTATTCCAATGTTCAATTTACA
GAAAAACTGAATACCCCTTTAACTTTAGACAATATGTTCACACACAGAATTTCTTTTACAAGATTAATTTTTTACAAACCTTCCACAACTTGCTTAAACC
TTAAGCATTATCTTATTTAACTTAAAACAATCCTTTAACTTTTTAATCTAGACAAAAAAAAATCCACATTCCTGTGCCTTCTTATAATCTTTTACCAAAA
ACGCATTTCAAAAACAAAACAAAACAAAACAAAAAAAACRCATTTCACTTTCCTTACACACCTTACATGTAGAATTGTTTCAATTTCTCAAAGATTACTT
AAATCACATAAATTAAAGGCATTATACTTTTTACTTTTCCGACAAAATATTTGATATAAGCACTTATTTTTAAACCAGTTAACCAAAGCTCTTTCATATC
ACACACACAACACATATAAATACACAGACAAACAGAAGAAAAGGACTCATTCCCTAAGCCAGGAACTGAATCCTGAACCCGGKATACCATTGTGAAAAGA
CAAAGCTAGGCCACATGGTTACAAGGTCAAGCTCCCAAGGACATACAAGACAAGAGGGGAAACCTCATCCAGTTTTTTTTTTTTCAGGGACCTGCAGCAA
AGTTTATAACTGACTAGTTTGCTGGGCCATCTTAAACAGTGGGCTTATGGTGTTCTAAGCCTGTGTTTTATCCTAAGGTATCCATCTCTATGACAGAACA
ATTCAGAAAGACATGCAAAGCACACCAGATTCACTACAGCTTAAGACTAGCCTCACAAATCCTTTTTTTATTAATCAAAACTTTACAGAGGAGATAAACA
GTGATTTTTGCCATTCATTCAACCAGTTTGCACAGAGAGAGAAAGGGAAGGGAAGGGAGAAAAGCATTGCTTTGTGGCAGGATGGGGAAAGCAAGGTGCT
CAGAGAGACCAGAGAAAGACCCGCCCATTGCAACCGACACTAAATAAAAAGTTCAGGTGGCCACTTGTCAGTTAAGAAGGGATCTTTTGCCCGCCATGGC
TCTGAGGCGCCTCCTGCCGGTGCTGCACCCCTACATTACCCGCTTCGCCCTGCTGTCCACGGAGCCGGCTGCCCGCGAACAGCCTGCCGTGGGCCCAGCA
GCCATGCCAGGACGTGGGTCGGCCGAGGCAGTGTGGCCGCCGGTGCCCGCAGTGGACTTCGGCAACGCGCAGGAGGCGTACCGCAGCCGGCGAACCGGGG
AGCTGGCGYGCAGCCCGCTGGTGCTGCACTTGTGCGCCTGGCCCGTGCTGGTGGCGTGCCATGAGCAGGCGCGCGGGGTGCAGGCAGGGGCGCGGGGCTT
CTGCCCGTCCCAGAAGCCTTTACGGAGCTTCCTGGGTGCCCACCAAGCGTCTCCTGGAGCGAGGGAAGCCAGGAAGGGAGGCGTTTCCTGCAGTCCCTCT
CGGACCTCGCAAATTTTCCTACTTGTCGATGTCTACCAACTAAAAACAATGATCATTTTAATATTTACGATATATACCACTTGTGGGAATACAGAGTTAT
CACTTGGAATTAAAAAAAAAGGGGGATCTTTTCTAGCAGTCCCATCAGCTCTCAAGTTTCTCCTTTTAGGGAGGTAAAAGCTCCCCATGTCCCACCATCC
TGTACATGCCTAATCCTATCACCGACCGCCGTCAGCAAAGAGTGCAAGGCAGATTAATTCAAACAGAATAGCAGTTAACATCCATAGTGCCAAACCCATT
CTTAGCCGAGAGGGATTTTACTGAGAGGAGCCCCTAAATCTTAGGAAGGAATCTAACCTTCCTAAGTTGGGCTTCAAACCCAAGTTCAGTCAAGCATCCT
TGCCTTTTATTGAGAGGGGTCTTTAACCCACTCTGTCTTAGGAGAGACTTTAACTCCACCAAGTTGGGCCTGTAACCCAATCCTATCCTTTGCCCGGGTG
TATGCACCCCGCTTACCCAAAGTTGGCCAATCAGTGCTGCAGTCTTTGGGTTGGAGGGTCTCCGCAGTATCGTCCCTTCCGTAGTTCATCAGAAAGACGT
TACCAGACCCCACCGCTTTGGGTCGGGATTTCCTTAGTATTGTCCCTTCTGTGGTCACCAGAAAGATGTTACCAGACGGGGGTCCTGATCCAGACCCCAA
GAGAGGATTCTTGGATCTCACACAAGAAAGAATTCAGGGCGAGTTCATACAGTAAAGTGAAAGCAAGTTTATTAAGAAAGTAAAGGAATAAAGAATGGCT
ACTCCATAGAGAGAACAGCCTCTAGTAATAACATTTAAATATCCTGATAATCATACTGTGTATTCTTTATGTCCTGCTAAATAATTACCTGTTGAACTAA
TGGAGTGCCAGAAGATTGTCAAAATAGTGCTGATAACTGAGAAGAGTCAATATCAAGATATTACACAAATCTTATCAAAACTATTTAGTGTATCTGAAAG
ACTGGGATAAGAAACCACCTTTAAAGTATACTATTTTGGAAGAAAAAACAGAAATCAGATTTCTTCCTCAGTTCATATATAATACATATTCTAGATGGAT
TAAAAATGTAAATAGGGCCAGGCGCAGTGGCTCACGCCTGTAATCACAGCACTTTGGGAGGCTGAGGTGGGCAGATCACGAGGTCAGGAGATCAAGACCA
TCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGTGGACGCCTGTAGTCCCAGCTACTCGGGAGGCTGAG
GCAGGAGAATGGCATGAACCCAGGAGGCGGAGCTTGTAGTGAGCCTAGGTCACACCACTGCACTACAGCCTGGGTGACAGAGCAAGACTCTGTCTTAAAA
AAAAAATGTAAATAGGAAAATGGATATGTTAGGACTCTTAGAAAATATCAAGGCGCTCATGATAGGACTCAGCTGCATCTGTCTGTCTCTCTGGCCGTAC
TCTGGCAGTGGCTGAATTAGGGCAGCTGGGATTTGATGCACCTCCTGGTTCTCAGACACTTATAGACACTATGCTCCAGAAACTCTAAGTTAGATAAAGC
TGCACAGAAAAGGGTCAATCAGAAAAAGGTAAATAAGACTGATTGAATGACTACAGAAATCCTAACAGAACACAGATCTTCACTGAACTTCCCTTATAAG
CAGCCAAAGGAAAAGTGTTTCCAACTTCTAAGACCTCAGACAAGGCTGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCATGGCGGGC
AGATTGCCTGAGCTCAGGAGTTCGAGACCAGCCTGGGCAACACGGTGAAACCCTGTCTCTACTGAAATACAAAAAATTAGCCAGGCATGGTGGTGTGTGC
CTGTAGTCGCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGAAGATGGAGGTTGCAGTGAGCTGAGATTGCACCACTACACTCCAGCCT
GGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAACTGAAAAAACAAAACTCAGGCAAGAATTGCTCTGTGCTCTTGATGTGGCCCCCAC
ACATTCCCTTCATAACCTGGAATCCCTGCTGTAGTGTTTCCTCTTACCTGGAGCACCTAAAAGATGAGGGAGAGTCAGAAGTGGTATGTGTTAGTCTGTT
CTCATGCTGTCAATAAAGACATACCTGCAACTGGATAATTCATAAAGGAAAGAGGTTTAATGGACTCACAGTTCCACATGGCTGGGGAGGCCTCACAATC
ATGGCAGGAGGTGAAGGAGAAGCAAAGGCGTGTCTTACATGACAGCAAGCAGGAGAGCCTGTGCAGGGGAACTGCTCTTTATAAGACCATCAGATCTCGT
GAGACTTTACTATCACAAGAACAGCACGGGAAAAACCTGCCCCCATGATTCAGTTACCTCCCGCCGGGTCCCTCCCACCACACATGGGGATTATGGGAGC
TACAATTCAAGATGAAATTTGCTTGTGGACACAGCCAAACCATATCGTGGTAGAACTTTACAATTGGAATTAGAAAAACAAACACTTCAGCTCCAACATG
TAAAGAGCTTGAAAGTTATCAGTCATATCCAAAAAGCAAGAAAAAGGCTAAACAAAATGAAAGTCAGTGGTTTTAGAACCATCAGAGAATTGAGGCCATG
GGGCAAGCCTTCACTCTAAAATCTGGACAAGCATGCAAGTATAGTGAGTCACAGCCAGATCAGTTTACCTGCTGGAGCCCTAACACTTGCATGGGAATTY
TGAAAAATGGCTGAGGCTAAGTGTGGGCCAGTGTGCAAGTGAGAAACTCCTTGGGGCCCTGTCTTAGAGGGACCTCCCACTTTCATGGGTTTTGCCTCCA
GGAACCTCACCAAGTTCCCACAGTAAAAATCCAAGAAAAAAAAATCCCTCATGTTTTACAGCAGTGGGAGGGGAAAAGTAACCAATTTGAAAGAGATCCA
GAGCATTCTATYCTCCCTAACAGAAGAAATCCTAACTCCAAGGGAGATGTTGCCAGAACCTTTTTTGTTCAGGGGGAAGGTAGTTAGCCAACCACAACCC
CCTTTAGTCTTCCCATTTCACCTAAGGGGAGGGGGAAAAAAAACAACTTAGAAATACTTCGCAGCACAAACACAGGACCACTAAAAGACTTGAGATTTAA
TCACAAGTTTATAGAATGCTTTCCCTCCCCCATACCCTACCAYCATGTTGCAATGGTCTAAATATTTGTATCCCTCCAAAATTTACATGTTGAAACCTAA
CCCGCTATCCCCAAGTATTAAGAGGTTGGGGCCTTTGGCAGGTTATTAGGTCCTGAGTGCTCTGCCCTGATGAATGGAATTGGCTTCAGTGAGCGCAGGC
ACTTTGTCTCTGCTCACCTCTGTACACCCAGCACTAGTTGGGAGCCTCCTACGTAATATTAATAGATGCTCGCAGCCATAAAAAAGGATGAGTTCATGTC
CTTTGTAGGGACATGGATAAAGCTGGAAACCATCATTCTCAGCAAACTGTCGCAAGGACAAAAAACGGAACACCGCATGTTCTCACTCATAGGTGGGAAT
TGAACAATGAGAACACTTGGACACAGGAAGGGGAACATCACACACCGGGGCCTGTCGTGGGGTTGGGGGAGCGGGGAAGGACAGCATTAGGAGATATACC
TAATGTAAATGACGAGTTAATGGGTGCAGCACACCAACATGGCGCATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAAATTAAA
GTATAATAAAAAAAAACTATAAGTGTATTTGCAAACATATTGGAAAACATGGAAAAAACAATGAAAAGGATTTCAGTCATATAGCAAAATAGCTGATTTG
TGTTATGTCAATAGCTTTCTTCTCACGTTTGTTCTGTCTGCTTCCTATACTTAGCAATAAGAAGATACTGTAATTATTTCACTTATCTACCCCTCTGTTC
TTAAGTATCTCTTTTTCCTATAATTTTGTTATGTAAAAGGTAAGGTTTAGAATGTGCCACTCAGACCTCAACTTTCCATTGTGGATTATGCAAGGCCACA
AAGATTTCGTACAACTATGATGGGACAAATAAATACAAATTTGTGAACAACAACAACAACAAAAATCAGTGATCCTGAACATAGATAAATAGAACTTTCC
CAAACGGAAATGCAAGGAGAAATAAAAATGAAAGAAAAAAGAGAGAACAGAATATCCAAGAACTGTGGGACAATTTAAAAGGATGTAACACGTTATTTGA
ATACCACAAGAATTAGAAAGCAGCAGGAGAGATATTTGAAGTAGTAATGGCCAAGAATTTTCCGAAGTTGTTGACAGATGCAAAACTACAGAACCAGGAA
ACTCAGAGGACACCAAGAAGAATAAATACCAAAATATATACATCTATGCACATCATCTTCAAATGCAGGAAAAGAAAGACAAATAGAAAATACTGAAAGA
AGCCACAAGGAAGGAAAATACTAGAGGAATAAAAATAAGAAATCTTATCAGAAACCATGCAAGAAGAGAGTGGAGTGAGATATAAAGTGTTCAGAGAAAA
ACTACTAACCTAGTCTTCTGTATCCAGTGAAATTATGCTTCAAGTATGAAGGAGAAATAAAGACTTTCTTAGACAAACAGAAATGAAGAGACTTTGTCAC
CAGTAGACCTGTCTTGCAGGTCATATTAGTAGATGTTCTTTAGAGTGAAATAAAATGTTTTAGGTCAGAAACTTGGATCTACATAATAGAAAAGAATTAG
AGAAGGAATAGGTAGAAGTAAAATATTTTCCTATCCTAACATAGGAATATTTTCCTATTTTGAATTGATTTAACAGATAACAGTTTGTTTAAAATAATGG
CAATAACGTATTTGGTGATTATATAGCTTGTGGATAAAGAGGAAAAGTCAACAAGGCAAGAAAACTAAAAAGAAAAAATCAGCTCCAAGAATTTTATTAA
GAGAATGTATTGGACAGGTTGGAAAATTCAAAATGGGAACATTCAGAAAAGATGATATATCAAGAAGATAAATTCTTTTTATTTTTGAGACGGAGTTTCA
CTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCCCACTGCAGCCTCCGCCTCCCAGGTTCAAGTGATTCTCATGCCTCTCAGCCTCCTGATTA
GCTGGGATTACAGGTGTGTGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGATTTCACCATGTTGCCCAGCTGGTCTTGAACTCCTGGC
CTCAGGTGATCTGCCTGCCTTGGCTTCCCAAAGTGCTGGGATTACAGGTGTGCACCAACCGTGCCCAGCAAGAAGACAAATTCTTTGAAGTGGTTAAATA
AAATACTTCATGAAGTAAACAAGAATAGAAATGAACTATTGTACTGAAGCAATACATTTATAAGACTTCCTGGCATTTTTTGTCTCTTCTATGTTTGACA
GTTTTTATTTTAAAAAATCAACAGGAAAACATATTTGCTGATCACTTCTGTATTATGGCGTATTATGGTGGTRAATAGGTGAAGTGAACTACAGTGTGAC
CATATCACAAACCTACCGAGAAGAATTTCATGTTCACCAAATAGTCCATATTAGCCTTATTTCCACAAAAGTTATGTGCATTCACTCTTAATATGATTTG
TCATAATTTTACTATTTTATAATCAACATGTAATTACCTTTGTTGGTTGTTGTTGTTTTTTCCTTAGAGATGGGGTCTGACTTTATCAGCCAGGCTGGAA
TGCAGTGGCGCAATCGTAGCTCACTGCTCACTGCCACCTTGAATTCCTGGGCTTGAGGAATCCTCCCGCCTGAGCCTCCTGAGTGGCTAGGACTACAGGC
ATGTACCACCATGCCTGGCTAATTTATAAAAAAAAATTTTTTTTAGAAACAGAGTCTCACTATGTTGCCCAGGCTGGTCTTGAACTCCTGGGTTCAAGCA
GTCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTTATAAGTGTGAGGCACTGTGCCCGGCCCTTTTTTGGGTTTTATTATGATTTATTGTTCATGTATT
TCTGAGATACTAATGGTCCATATTAATTTAATACATTTAACTTTTCTGGATGAGCCATTTTAATTTCAGTCTTCTATATTCATAAAATCTAACTGTAAGA
GTTGCTTAAAAACAAAAAGTCATAAAAAATTTTTCATTGGTCTTTTGACAATATAGGAAGTGACTATAATTTGTAATTTTGATGTAGTCAAATTTGTCAG
TCTTTTCTTTGACAGTTTGTACTTTTTGTTACGTATCCCTACTTTAGTCTCTATTTTCTGTCTTTTAAAAATATTTATTTATTCATTCATTCATTCATTC
TCCTTTAGGTTGGAGAAGTGTCTTAATTGCCATTTTATGTAGAGAGATTTTTTCTCTTTAATATTCATCCTACAAATGGTAACATTTTCATTGAGTTTTA
CAAGATTATAGTTTCTTTGTTTTGACAGGGTCTCTCACTCTGTCACCCAGGTTGGAATGCCGTGGCACAATCTCAGCTCACTGCAGCCACAACCTTCTGG
GCTCAGGTGATCCTCCTACCTCAGCCTCCTGAGTAGCTGGGACTACAAGCATGTGCTACCATGCCTGGCTAGTTTTTTTGTAGAGATTGGGGTTTCACCA
TGTTGCCCAGGCTCATCTTGAACTCCTGGGCTCAAGCATTCTGCCTGCCTTGGCACCCAAAGTGCTGGGATTACGGGCATGAGCCATCTCATTTGGCCTG
TGGTTCTTTTTCTAAGTCCATAACCTCTAATTTGAGGTCAAAATATCAGATCTTACTTAAAGGAAGTAAAAATGGAGAAATCCTGGTGATTGTGCCTAAC
AGTTTAGCTTAACGAATGTGATATTTATCACCCCTAACAAATATATTAACATACATGTTTGCTTTTATATAGGCATGTAGAAGTCCAGGTGTTTGGTGAT
CACCATGGCAATGCTGTGTACTTGTTTGAAAGAGACTGTAGTGTGCAGAGGCGACATCAGAAGATCATTGAGGAGGCCCCAGCGGTAAGGACCTTGGAAA
GAAATTTGTAAGCTTCTCCRTAATGTGAATCTTACTCTGATTTTCACATCAGAAATCTGTGRATCTGGTGTCTCTCACCCCTCAAACTCCTGCTGGACAA
CTGTTGCCTAATAGCAGTGTAGTGAAAAGACCTCCTGTGGTATTGGGGATGAGGAGGAGATTGATGTTCTGGGGGTAGACACAACAGGGTCATGTTCCTT
CTGGATAAAATATGGGAAAATCTACTCTGATTCACCTATCTGATTTACAGCGAAAAGCTGTCTAGTGAGGTTTCAACGCACATTTTAAATTGTAATGAAT
GGCCAGGCGCGGTGGCTCACGCCTGTAGTCCCAGCCCTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTTGGGAGTTCAAGACCAGCCTGACCCACAT
GGAGAAACCCCCATCTCTACTAAAAATACAAAATTAGCCGGGCTTGGTGGCGCATGCCTATAATCCCAGCTACTTGGGTAGGCTGAGGCAGGAGAATTGC
TTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTTGTCTCAAACAAAAAAACAGA
AAATTATAATGAACTAGAATTAATTACTGGAATGGAATGATCTGATTAATTGAATCTATTTTTTGTGGAAAAGCCTTTTTTAATTACCATTTCAGATGTT
CTCAAAATATGTGAGAGATTTTCCTGCCTTACTGGTTATATTATAGAGAAGAGAGAGTCTCTCGTTTGGCAGCGTTTGCTCATTTAACATTTGTTTATAT
CTCTTTGAGCCTTACTCTTGATTGGTTTAGGTGATTATCTGGGTCAAAGCCTACTACTAGGACTACCTATTTTTGGATTTACATTTCTGTGGAGGTTGCT
ACTGCCATGGGTTCTTGTTCAACGTTATATAGATTTTTTTTCAATAAATATTTATTTCCAAAAAGTCAGGGATCAGAGGTTTCTGGTTAATCAATACATT
TTTCTTATACCATATTCAAATTTTAATTTATGTTGCAGAATATATTTAACTTATGTTGTAGAATATATTATAACATTATATATTATACCAGAATATGTTA
TGCCATGAATATTGACATATTAAATGTCAATAGAAATTGCAGTAAAGCCTTATTTTCAAGTCGTGATTACTTAAATTTATATCTGTATAGCACTGTTTTT
AAAAAGTTAAAAACTTTGTTTACTTCTAGACATACATTTATTTTAATGTACCTTTCTTATTAACTTGGAATCTCAAGGTTTCCCATTATTTTAAGATAAT
CATTAGGCACATCACTCAGATTGCTTATCATCCTGAAACAAAATAAGGATTGTTGAAAGTTACCATATTGATACGTATAGTTTTGTTTTGTTTTTTTGAG
ACAGGGTCTCGCTTTGTCATCCAGGCTGGAGTGCAGTGGCATGATCATAACTCACTGCAGTCTCCAACTCCTGGGCTCAAGCAATCCTCACCTCAGCCTC
CAGAGTATTTGGGACTACAAGTGCATGCCACCATGCCTGGCTAATTTTTTTTTTAATGTATTGTAGAGATGGGGTCTTACTGTGTTGACCACGCTGGTCT
CAAACTTCTGGCTTCAAGTGATCCTTTAACCTCAGCCTCCCAAGCACTTGGATTACAGGCCCGAGCCACTGTGCTCAGCCTGAAACATATAATTATAAGT
GGACATATAGTTATGAAAGCTGTCATGTAGATACAAGGGACAAAGATACGTAATTATGCTGAGTAATATCTGCAATGCATAGAAATTAGTAGCAGAATCA
TTAAACTTTGGTATATTGACAGTTAAACTATCATAGGACAGTTTTTGATGAAGTATATAATATTAGCTTTTTATCCTTTTTTTTTGAGATGGAGTTTCGC
TCTGTCACCCAGGCCGGAGTGCAGTGGCGCGATCTCAGCTCACTGCATCCTCCGCCTCGCGGGTTTAAGCAGTTCTGTGCCTCAGCCTCCCAAGTAGCTG
GGATTAAGGCACCCACCACCACACCCGGCTAATTTTTTTTTTTTTTCTATTTTTTAGTAGAGACGGGGTTTCACCATCTTGGCCAGGCTGATATTGAACT
CCTGACCTCGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGAGTACAGGCTTGAGCCACCGCACCCGGCCAGCTTTTTATCCTTTTTAATGCAGAAT
TTGGTACACAGAAATATAATACAGTCATGCATTGCTTAACAATAGGAATACATTCTGAGAAATGCGTCCTTAGTTGATTTTGTAATTGTGTTAACATCAT
AGAGTGTACTTAAACCTAAATAGCAAAGCCTACCACACACCTAGGCTGCTGGTAGAGCCCATTGCTCCTAGGCTACAAACCTATATACAGCATGTTACTG
TACTCAATACTGTAGGCAGTTGTAACACAATGGTAAGTATTTGTGTATCTAAACATATATAAACGTAGAAAAGGTACAGTAAAAATACAGTATAAAAGAT
TATTAAAATGATACACCTCCTATGTGGAATACTTACCATGAATGGAGCCTGCAAGATTTTCAGTTGCTCTGGGTGGGACAGTGAGTGAATGTGAAGACCT
AGTACATCACTGTACACTTGGTAAACACTGTATACTTACAGCCAATTAAATTTATAAAAAATATTTTTATTTAATAAATTAGCCTTAGCTTGCTATAACT
TTTTTGCTTTATAAACTTTTAAATTTTGTTTTCACTTTTGACTCTTTTTAATAATACTTAGCTTAAAACACAAACACATTATGCAGACATACAAAAATAT
TTTTTCTAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCGCTTTGGGAGGCCGAGACGGGTGAATCACGAGGTCAGGAGATCGAGACCATCCCGGC
TAACACAGTGAAACCCCGTCTCTACTAAAACTACAAAAAAAAATAGCCGGGCATGGTGGCAGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGG
AGAATGGCCTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTCTCAAAAAAAAAAA
AAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
GTTTTTTTTTTGAGACAGAGCCTCACTCTGTAGCCTAGGCTGGAGTGCAGTGGTGCAGTCTTGGCTCACTGCAGCCTCTGCCTCCTGGGTTCACGCCATT
CTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCGCCTGCCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGG
CCAGGCTGGTCTCGAACTCCTGACTTCATGATCCGCCCACCTTGGCCTCCCGAACTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCCCTATTTTT
AAATTTTTAAATTAAATTAAAATTTTTTGAGATGGGGTCTTGCTGTATCACCCAGGCTGGAGTGCAGTGGCACAAACATGGTTCACTAGACCCCTGACCT
CTTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTGGCTGGAACTATAGGTGTGTGCTATCATGCCTGGCCAATTTTTTTATTTTTGTAGAGACAG
GGTCTCGCCATGTTGCTCCATGGTTTGATTCTTGCCAGGCTGGTATCAATCTCCTGGGCTCAAGTGCTTCACCCGTCTCGGCCTCCCAAAGTGTTGGGAT
TACAGGGGTGAGCCACCACACCCGGCCTGTTTTAACTTTTTAACCTTTTCTGTTAAAAATGAAGACACAAACACACCCATTAGACTAGACCTAAACAGAA
TCAGGATCATCAGTGTCACTGTCTTTTCTCCACATCTTGTCCCAATAAAAGTTTTCAGGGTCAATAACATCTATGGAGCTGTCATCTTCTATGATAACAA
TGCTTTCTTCTGAAATATCTCCTGAAGGAACTGTCTGAGGCTGTTTTACAGTTAACTTTTTTTTTAAGTAAAAGGGATACACTTTAAAATAACTATAAAA
ATTGTATAGTATAGTAAATTAAAAAAACAATAGCGTGGTTGTATTATCAAGTATTATATACGGCACATGATTGGGCTGTATTTTTTTTTTTTTTTTTTTT
TTTGAGACGAAGTCTCACTCTGTCACCCAGGCTGGAGTACAGTGGCGTGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGGTCACGCCATTCTTCTGCC
TCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCTGGCTAATTTTCTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGG
ATGGTCTCAATCTCCTGACCTTGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCTGATTGTGCTATACT
TTTGTATAATGGCAGTGAAGTCGTTTTGTTGACACCAGCCTCACCACAAAACACATGAGTAATGACTGTGCTGTGATGTTATGACAGCTACAGTGTCACT
AGGTGATAGGGATTTTTCAGCTCCATTATAATCTTATGGGACAACTGTTGTATATGTGGTCTGTTGTTGACTAAGAAACGTCATTATGTGGCACCTGACT
GAATTGAATTTTAATGGAATTTCTAGTAAGGCAAGCTACTAATGGAGATTTATTTACATATTTTTTTCATAGCCTGGTATTAAATCTGAAGTAAGAAAAA
AGCTGGGAGAAGCTGCAGTCAGAGCTGCTAAAGCTGTAAATTATGTTGGAGCAGGTAGGTTAAGATTTGCTTCTAATGGAAGAGACGTAACAGTGTTTAA
TTTATGTTTTAGAAGGCAAGAGAAACACAACTTTTAAATCAGTTGCTTTCAAGCTGTTTTGACCATATTCACAGTAAGAAATACATTTTATATTGAGACT
TAGTATGTACACATAAATGTTTATTTTTACATACATATATATTTGAAACAAATGTTTCATTAAACAGTACTTGTCTTAATTATATGAGTTTTGATATTTT
GTATTCTATTTTAAAATCACTAGATTGATTTTTTTACTTCTTTATGGTTAATAAACTTTCTCTTTTAGAGCAGTTTTAAGCTTACAGCAAAATTGAGCAA
AAGGTACAGAGAATTCCCATATACCCCCTGTCCCCCACTCGGATACCCCCCAACACACAAGCTCCCACAGTATCAATATTCCTGCACCAGAGAGGTACGT
TTGTTACAGTCAGCGACCCTACATTGACACATCATTATCACCCAAGTCCATAGTTTACATTAGGGCTCACTCTTGGTGTTGTACATTCTGTGAGTTTTGA
CAAATGTATAATGATATGTATCCACCATTGTACTATGGTATAGAATAGTTTCAGTGCCCTAAATATCCTCTGTGCTCTGTCTATTCATCCCTTCATCCCC
CCTAAACCCCGGCAGCCACTCATGTTTTTACTGCCCCCATAGTTTTGCCTTTTCAAGAATTTCAGATAGCTGGAATCATACAGTATGTAGCCTTTTCCGA
TTGGCTTCTTTATAATATGCATTTAAGTTTCCTCCATGTCTTTTCATGGCTTGATAGCTCATTTCTTTTTTATGCTGAATAATATTTCGTTGTCTCGATG
TCTCAGAGTTTATTATCTATTTAGCTACTGAAGGACATCTTGGTTGCTTCCAAGTTTTGGCAGTTATGAATAAAGCTGCTATAAACACCCTGAAAACAAA
CAGGCTTTTGTATGGACATAATTTTTTAGTTTATTTGGGTGAATACTAAGGAGCGTGCTACTGGGTCACATGGTAAAAGAATATTTAGTTTTGGAAGAAA
CTGACAAACTCTATTCTAAAGTGACTGTACTATTTTGCATTCCTGTCAGCAACAAAAGAGGTTTCCTGTTGCTCCAAATCCTCTCCAGCTTTTGGTGATG
TCAGTGTTTTGGATTCAGGCCATTTGGTATCTCATTGTTTTAATTTGCACTTCCCTAATGACATACAGTGTTGAACATCTTTTCATATGCATACTTGCCA
TCTTTATATCTTCTTTGATGAAGTGTCTGTTCAGGTCTTTCACCCATTTTTTAATCAGGTTGTTTGTTTTCCTATTGTTGAGTTTTAAGAGTCCTTTGTA
TATTTTGAATGACAGTTCTTTATCAGATGTGCCTTTGCAAACACTGTCAGTCTGAGGCTTGTCTTCACTTCTCAACTTTCCCTTTCTTTTTTTTTTTTTT
TTTTTTTGAGACAGAGTCTCACTCTGTCTCCCAGGCTGGAATGCAATGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAATGATTCTCC
TGTCCCAGCCCCCTGAGTAGCTGGGATTACAGGCACGTGCCATCACACACCCAGCTACTTTTTTGCATTTTTAGTAGAGGCGGGGTTTCACCACTTTAGC
CAGGCTGATCTCAAACTCTTGACCTCAGGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGAATTACAGGCTTGAGCCACCGCRCCCGGCCGACTTTCC
TTTTCACAGAGCAGAAGTTTTAAGTTTTAATGAAGTCCAGTATATAAATTATTTGTAGATCATGCCTTTGGTGTTGTATATAAAAAGTCATCACCATACT
CAAGCTTGTCTAGGTTATATTATACTCAGCTGGCCTTGTGCTTTCTGTTTTGGAAGGTTATTAATTATTGACTTAATCTCTTTAATAAATATAGCTATTC
AGATTCTCTTTTTTTAATTTAATTTTATAGAGACAGGGTCTCATATTGCCCAGGCTGGTCTTAGACTCTTGGCCCCAAGGGATCCTCCTGCCATGGCCTC
CCAAAGTGCTGGGATTACAGGCGTGAGCCACCATACCTGGCCTATGCTCACTGCAACCTCCACTTCCTGGACTCAAGTGATCTTCCCACCTCAGCCTCCC
AAGTAGCTGGAACTACAGGCATGTGCCACAACACTCAGCTAATTTTTAAATTTTTTAGTAGAGACAGGGTCCCCCTGTATTGCCAAGGCTGGTCTCAAAC
CCCTGAGCTCAAGCAGTCTTCCCACCTTGGCCTCCCAAAGTGTTGGGATTACACACATGAGCCACTGCACCTGGCCCTAGGTTCTCTCTTTCTTGTAGGA
GTTTTGACAGATTGTGTCTTTGAAGGAATTGGTTCATTTCATCTAGGTTATCAAATTTGTGGGCATAGAATTATTCATAATATTTCTTTATTATCATTTT
AATGTCCATGGGACCTGTAGTAATAGACCTCTTTTTGTTCCGTTACTAGCAATTTGTATTTTCTCTCTTCTTTTTTTCTTAGTTAACCTGGCTAAAGGTT
ATTGTGCTTTTGTTTCTTTTCTTTTTTCTTTTTTTTTTTTTTGAAACAAAGTCTCATTCTGTCGCCAGGCTGGAGTGCAATGGTGAGATCTTGGCTCACT
GCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGAACTACAGGTGCACGCCACTACACCCAGCTAATTTTTATAT
TTTTTTAGTAGAGATGGGTTTCACCGTCTTGGCCAGGATGGTCTTGATCTCTTGACCTTTTGAGCTGCCCGCTGTGGCCAAGGKTACTGATTTTATTGAT
CTTTTCAAGGAACTGGTTTGGGTTTTGGKGATTTTTTTCTATTGATTTTCCATTTTCAATTTCATTAATTTTTGCTTTAATTTTTATTATTTCTTCTGCT
TACTTTGGATTTAATTTGCTGTTCTCTTCTCATTAATTAAAATATAAGCTTAGATTCTTGATTTTGGTATTTTCTTTTCTAATATATACATTCAATGCTA
TAAATTTCCCACTAAGCACTGCTTTTGATGCATTCTACAAATTTTGAAAGTTGTATTTTTATTTAGTTGAGAATATTTTAAATTTTTTCTTGAGATTTCT
TTATTGATTCAGGTGTCATTTAGAAGTGTGTTGTTTAACATCCAAATATCTTAGGATTTTCCAGATATCCTTCTGTTAGTGATTTCTAGTTTAATTCTGT
TATGTTCTGAGAGCAGACACTGTTATGATTTATATTCTTTTAAATTTGTTAAGATGTGGTTTATGGTCCAGAATGTGGTCTATCCTGGTGAATATTCCTT
TCTAGCTTGAGAATGTGTTCTGCTGTTGTTGGATGAAATAGTCTATAGATGACAGTTGTATCCAGTTGATTGATGGTGTTGTTGAATTCAACTATGTCCT
TAGTGATTTTCTGCCTGCTGGATCATCCATATCTATTTAATAACAGATGGGTGTTAAAGTCTCCAACTGTAATAGTGAATTAATCTATTTCTCCTTACAA
TTCTTTTTTGCTACATATATTTTATGCTCTGTTGTTAGGTACATGCATGTTAAAAATTGTTATGTCTACCCTTTTATCATTGTTTAATGCCCCTCCTTAT
CCCTGATAACTTTCCCTGCTCTGAAGTTTGCTCTAAAATTAAGATGGCTACTCGCACTTTCTTTGGTGTTAGCATATTCTTTGTCTGTTTTTACTTTAAG
TCTATAAGTCTTTAAAGTGGATTTCTTGTAGATAACATATATTTGTCTTTTGTTTTTTAATCTACTCCAACAATCTCTGTCTTTTAATTGGTATATTTAG
ACATCAACATTTAAAGTGATTATTAATGTACTTTGATTAATATTTACCATATTTATTATTGTTTTCTGTTTATTCCCCTTGTTTGTTCCTATTTTTATCT
TTCAGACTTTTTCTGCCTTTCATGGTTTTAATTGAGCATCTTCTATGATCCAATTTCCTCTCCTTTTTTAGCATATCAAGTACAGTCATATGCTGCATAA
CACCATTTTATTCAATATAACAATGGTTCCATAAGATTAAAATGCAGCTGAAAAATTCCTATCCAGTGACATTGTGGCAACTGTAACATCATRGTACAAT
GCATTACTTTCTTTAGGTTTAGATATATGTAGATACACAAATACTTACCACTGTGTTACAGTTGCCTACAGTATGCAGTAACATGTTATTATTGTTTCAA
ATATTACTTCTGTTCCTTCCTTTCTTCTCCTTCTGGTATTCTCGTTCTGCGTAGTTAATACCTTTTGTAGTTGTCTTGCAGTGCTAGGTATTGTTCTGTT
TAAGGTTTTTTTTCTCACTGTTTTTCAGAATTGGAAGTTTCTGTTGTCATATCCTCAAGTTCAGAGGTTCTTTCCCTGCCATACCCAACGTACTAATGAG
CCCATCAAAGCATGCTTCATTTCTATTAGGGTTATGGTTTTTTTTTTTTCAATTCTAGCATTTCCTTTTTATTCTTTCTTAAAATTTTCACCTCTCTGCT
TACATTATCTATCTGTTCTTGCATGTTGTCTACTTTTTTCATTAAAGCCCTTAGCCTGTTAATCACAGTTTAGAATTTCTGTGTCTGATAATTCTAACAT
TCCTGCCATACCTGATGCTTCTTCAGTCTCTTCAAACTGTGTTTTTTGCCTTTTAGTATGCCTTGTAATTTTTTGTTGAAAGATGGACATGGTGTACTGG
GTAAAGAGAATTTTGCTAAACAGGCCTTTGGTAATGTGATAAGGCTGGAGGGGGCATGTTCTCTTGTCCCATGATCAGATCTCAGTCTTGCTGAGCCTGT
GCCCCTGGTGTGTGAACTTCACCAGTGCTTCCTGGTATGTTTTTGTTTTGTTTTCCCCCACCCCTTAGGGTGGACAGTATGTCTGGCAAAGGCTGGAGTT
GGGTATTTCTCCTCCCCCAGTGAGGTTAGGCTCTGATAAAATCCCAATCGTTTAGGCTCTGATAAAATAGTTTTTCTCAAGGGTAAACCTTGAATGTTTT
GGTGTATTTCAAAGTGGTTTCATTTCCCTTCTGAGCTGGAAGCATGGGAGGATTTTTCTCTGATATTCACTGTGAAGACCTGGTAGAGCTCCTGGAGGTA
AAACTCACAAAAGTGTGAGGTCCTCCTGTAACTGGGTCGCCTTGGAGTTTTTAACTCTCAGAGTTGTCCACACTGAGCTACCAGGAATTTGTCAATTACA
GCTCAGGCTTCTCCTCATGGCATCTCTGTATCTGCCTGTCAGTTGTCTGTCTCTCTGGTTCTGAGGACAAGCAGCTTGCCCTGTGACCTGATTTCTCTGA
CAAATTTAAAAATTGTTGATTTTCAGCTTGTTCAGCTTTTTACTTGATAGGACAGAGTGGCAGCTTCTAAGCTCCTTAGATGCCGGATCAGATTGATTTT
CAAATTGATTTTAAGCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTCTGGGAGGCTGAGGCAGGTGGATCACTTGAGGTCAGGAGTTCAAGACCA
GCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCTGGACATAGTGGTGTGCGCCTGTGGTCCCATCTACTCAGGAGGCTGA
GGTGGAGGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCACGCCATTGCACCCCAGCCTGGATGACAGAGTGAGATTCCATCTTAAA
AAAAAAAAAAAATTGATTTTAAAATCCACTAATGGGTTGTGACCACACTTTTAAAAACAACTTTACATTGTATTCACTTTAAGCTAAGAGAAAAACACAG
AAACACAGAAGACTACAAACTATATGATTTCATTTATATAAAATTCTAGAAAAACTATAGTGACAGAAAGCAGATTGGTGGTTTCCTGGATCCCAGGGTT
TAGTGAAGGGACTGATTCCAAATGGGAACAAGGGAACTTTTTGGATGATGGAAATGTTCTGTAGTTTCATTGTGGTTCTGTGATTGTATTCAATTGCTAA
ATCACATGCCTACACTTCAAATAGTTACAGTTTGTTGTCTAAAATTAAACCTTAATAAAGTTAGGGGAAATTTTTTAGAGCTTAATAGAATGCCAATAGA
TATTAACATAAGGTTTAGTTGCCAAACAATCTTTCAATGGGTTACCAGCAAAAGGGCTTTAAAAAGAAATTCCTAGGAGCCCACAATCAGGGAAAAAAAA
GTTTTCTTTTTCTCCATGGGGTTAGGGTGAGATGGGATGTCATGGTATGAKGCTCCCAGGATCTTGGTGCTCTGAGGCAGTAACATGTGGTCCACCCTTG
TTCTCACTGTTACAAGCTGAAAYGGATTCATAATTTGGGCTTACCATTTGCTCACAACCCCAAATATACTTTTCCGTTGCCAAATTTCATGCAGCTCTCT
ATTTTTGACTAAGATTCATATGCTGCTGCAAATGCGAGATGTTTTCTTCATGAAATGCAAAGTGTTACCATTGAATGAAGACAGCGGTAAAACTTGATGT
GATGCATCATGGAAGATTTTGGTTTGCTACTGATTATACACTATTGAATATGACCATTGTTTTTTACCTTTTAGGGACTGTGGAGTTTATTATGGACTCA
AAACATAATTTCTGTTTCATGGAGATGAATACAAGGCTGCAAGTGGAACATCCTGTTACTGAGATGATCACAGGAACTGACTTGGTGGAGTGGCAGCTTA
GAGTGAGAATATTTTTTCTATTAAAAATCAGCCTTGGCTGGGTGCGGTGGCTCAAGCCTGTAGTCCCAGCACTTTGGCAGGCCAAGGCAGGTGGATCACC
TGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATGTGGTGAAACCCTGTCTCTACCAAAAATACAAAAATTAGCCGGGCGTGGTGCCAGGTGCCTGTAGTC
CCCGGTACTCAGGAGGCTGAGGCAGGAGAATCACTGAGCCTGGGAGGCAGAGGTTGCAGTAAGCCGAGATCGCGCCACTGCATTCCAGCCTGGGTACTCC
ATCTTAAAAAAAAAAAAAAAAAGATCAGTCTTGATGGGAGGGATGTGAGGGCTGAAAAACTACCTAAATGGTACCGTGTTCACTGTTTGAGTGATGGGTT
CATCAGAAGCCCAAATCCCAGCATTATGCAAAATACCCATGTAGCAAACATTCACGTGTACCACCTGAATCTATAATTCAACAACAACGACAACAACAAC
AACAACAACAACAAAACAGTCTTGAGAATAGGTTACTACCTTCTGGCCTCCTAAAACAGGTGTCATTTTGGACGGGGTTCAGTTCTTGGTGGTTATGAGG
ACAGGAAGATGGGAGGTTAAAAGTGAAGCCACATTTGATGCTGTAGCTTTTTTTGGCACTTTAGGGACTCAGATTCACTTCCCCCTAGGCCCGGGCAGCC
AGCAGGTGAGATTGTGTCACAGGGGCTTGCTCACAACCACATCACCTCAAGGTCAAAGCCTCATGGTCTACYTAAGGCCACAGCATTCTGGGCCAGGCCA
TCATTCGGTTTCAGATCAGGGCAGATACTAGGCAAGATGAAATGAGCTAAGGCAGAGTTGGGAATGAAGAGCCAAGGAGATGGTCTAGAATGATCCAAGT
AAAGTGCGGATTTATGGCTGTTGCGGGCCCATGAGTAAATGTTCATTCAGAGTAAATGTTTGGAAACTTTTAAAGCATTTTGGCATTGCTATGACATGCC
TACTGTATTTTTCAAACATGTAAGTTTATAACTGTTCTTTTACTATGGATAGTTTGAGAAGCACTGGTRTAAACCAGAATTCCACAAAACATACTTCTCA
AATATTAATAATAGCTTAGTCTGTTTTTGTTCTCATAAGAACAATAGATTTTACTTTAGCCTTCTTTTTCCTAACATGAAAAAAATCTGTTAAGTAATAT
AGACGGTCCTGATATATGTAGGATTCGTGGTTCCTTGTATATCCTGCATCTAAATTGTTTTTTCCTGGTGTGACGCCAAAATCTTGATTATTTTGGTAAT
TTTATCTTTTCAGAACTTCTGTAGATAATAATATGATACTCCTTTTGTTGGTTCCTTGGGGGTGATTGGTGGTTCTAATTGAGCCAAAAGGTTCTTCTAG
GGCTCTATATCCTAGGGTGTTAACGAAAACCAGGCACAGCAAGCTGGTAAGTTTTAGTGAGTGTCAAGAAAAACTGTAGTGGCTTTGGAAACTTCTGGAA
GGAGTGTTTATATTTCCAGAATTCAAGGAAAAGGAGGATAATTTTTCTGAAGCAGTAAATCAAGAGAGTTTCGACCTTGGAAATCATAAGAGAAAAAAAG
GTTTCTAAGGRTTAAGGAAGGAGAAAGCTTTTGGGTATTAAGGAAACCAGCAGACATCTATTTCTTGTAAGAGCTTGTCAAGGCTCTTCAGAAAGAGAAG
CCAGCTTTTATCATCTGGGGAGGGACACTAGAACTTAGGGAAGCTGCTGGACCTGGTTTATAGAGTTCAAGGCATTTGGCATCTGGCCTTCAAACAGAGG
TAAAACAAAGGGGCTCACCATTTGGTGAGTCAAGAGTCTAAGCTCGAGGACCTGCCTGTGCAGTCAAGCCTTCCTAGAACAAGGGTTGAATGATGACTGA
TGTAAGTGTCCTRGGTTCAGGCTGCAGATACAGATAGTTAACAGTGTTCAGGGAAAGCTGGTGAAAATGTCAAGGTTAGGGGTTCCGGAGAGCCAGTGTC
AGCCTGAGAGAACTCAAATGGCACATATCTCCAAAGACCCAGAGGCATGATTGGGGCCTGTCTTTTCTGGGCTCAAGTGGAAGCCAAGCTTGGAGGAAAA
TGGACAGGCAAAGACAAGTCAAGGTGAACACAAGAGACAGAGTTTTGCTCTTTTTGCCCAGGCTGGAGTGCAATGGCGTGATAGCTCACTGCAACCTCTA
CCTCCCGGCTTCAAGCAATTCTCCTGCCTCAGCCTCCCGTGTAGCTGGGATTACAGGCGTGTGCCACCATGCCCGGCTAATTTTTGTGTTTTTAGTAGAG
ACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAATTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAAATTGCTGGGATTACAGGCATGAGCC
ACCACACCTGACCCRGAATTATTTATTAAAACGTTAAAAAACTGGTTCCAAGTCTATTGTGAACAGTGCTGCAATAAACATACACATGCATGCGTCTTTA
TAGTAGAGTGATTTGTAATCCTTTGGGTATATACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGGTTCTAGATCCTAAGGATGGAATGATAATA
GGTAACATAGTGCTGACTGTATGCCAGACACTTTTCTCTGAAGCATGGAAAGCTTAAGAAACTTGTCTAGATGACAAAGTAAGTATAGAGACAAAATTTG
AACCTAGGCAATCTGTCTGCAGAGCCTGAGGTGTTTTCAAAATATACTGCCATAAAGGTATTACCTAGTTCCGTTTCCTTTCATTCTTAACTGCTGTGCA
TCCTGATCTTTCATATTTACAGATTCAGAAAAATGAAACTTTTGCTTCTGTTTTATACTTACCGGTTTAGTTCAATGTCATGCTAAGTTACTTAGAGTCT
AGATTTTCCTGTATCTATATTGCTTTCTCAGGTTGTCATTTTCTCATCTTGGAAAAAAACTTAAGAGTAAAGAGAGAAAGTGCAATGTGTCCTCCAATAG
CCATTTCCAATTTATACTAGTTAATTGAAGAGAGTGATTTGTTGTATTGGTACATAATAACTAAAATAGTAATAATTATAGTAACAACAAACAATAGTGA
TCACCCTGTTTGTAATCTGGTATCATGCAGTACMTATCAACATAACAAAATTGAAAAACCATCATTTTYCCCTTTCTGTTTTGCTTTATCACCCACTTAC
TGGTGAAGATTACAGCGTAGGATGACAATGTCAGCTACACTTTTTGCTTGGCTGTGAATCTAGTCCTAAACACTAATAATATACTATTTTTTAAAAAAAA
TTGATTTGGGAATTAAGTGCTAATGTTTTAAATGAAAACTGAGAGTGTGTTGCTAGTAAGAAGTTTTGGTTTTGATTATATTGAACAAACACTGATTTTT
ATATTTGTAAGTTAGCCATCACTTTGCCTGCTTTTGCCATTTAAAAACTCCRATACCCCAAATGATAGACTGTTGCCAAGCTGCATCTGTTTTTTRATTT
TTTGTTTTGCCCAATACTCAAATGAGTAGACAAAATAATAGTTTTTATTTGGCTGCATTGCAAAACCTAAATGTACATTTTACCTAGAAAAAAAGCAAGA
CCATTGATTTACTAAGTCTGGTAGCCGCTATACGGTAGATTTCATAAGAAACACTATTCTATTGCCAGATTGCAGCAGGAGAGAAGATTCCTTTGAGCCA
GGAAGAAATAACTCTGCAGGGCCATGCCTTCGAAGCTAGMATATATGCAGAAGATCCTAGCAATAACTTCATGCCTGTGGCAGGCCCATTAGTGCACCTC
TCTACTCCTCGAGCAGACCCTTCCACCAGGATTGAAACTGGAGTACGGCAAGGTAAAGTGAAAGAAAATGAAAAGTCTCACTCTTTTTAAGTTTTTAGTA
CATTATTGTTTTTGGACACATTCTTATCCCTGAGTCTTACAGAACTGTCTAGCATATTTTAAAATAAAGAATTTAAGTGATTTCTCAGTAACCATTACTT
TTTGCCTCTGGAATTGTTATTTTTAAAGAATAACAAGTATTTTTCAACAACGGACTCCTTTTTTTTGAAATTCAGCAGTACTTGGTCAAACCTAACCAGG
AAATATTTTRTGTGTACTGTTCTTGACCTTGCCTCATTCCAAAAATGATTTAAGATGACTGATATCTGCTATGCACAAGGCAGACTGCCTTCAAAGGACA
TAAAGTCAAGTTGGAGAATTAACACATAAACTTAGTATAAGCTAAACAATAAAAAAATTAAAGTAAAGAAACAGTGGAAGAGCTATCACAGTTCAGCATA
TGATTAATAACAGTGGTCATAACTAGTGATTATTTAGGACTTCCTACTTACAGGCACTGCTCTAGGTGATTTTTCTACTTGTGTTCCTTTCACCATGAGA
AGTACCCTGTAAGTAGGCATTATTATCATCCCTGTTTTCTAGATGAGGAAACTGGAGCACAGAAGAGTTAAGTGACTTGTCCAAGGTCATCCTTGGAGCC
AAGATTCAGACCCAGGCAGTCTTGCTCCAGAGTCAGTGCTCTGAGCCTCCACGGTCTCCTGTCATCTTAATTTCAATTGCTGGAATAAGTTATACAGTGA
TGGGATATAGCAATTCTCAGGGGTAAGAGGTCACACTAGACTGATATAATTAGGACAAGTTTTTTGTTTGTTTGTTTTTTTGTTTGTTTTTGTTTTTGAG
ACAAGGTCTCACTCTGTGCCCAGGCTGGAGTACAGTGGTGTGATCTCAGCTCACTACAACCTTTATCTCCCTGACTTAAGCAGTTCTCAGGCCTCAGCCT
CCCGAGTAGCTGGGATTACAGGTGTATACCACCATGCCTAGCTAATTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGTTTTCACCATGTTGGCTA
GGCTGGTCTCAAACTCCTGGCCTCAAGTGATCTGCCCACCTTGGCCTTTCAAGGTGCTGGGATTACAGGGGTGAGCCACCGTGCCTGGCCAGGACAAGTT
TTTAAGAGGATGTCTGGAATGGATTTAGATAGGTAGATTTAAACAGCATAATGAAGAGTGAAGAAAAGAGAAAAAGGTATGTTTGAAGAATAGTAAGAAA
ATATATGACTGGAGACATGGGTTGAAGGCAAATCCTAGTGTCCTAAAAGCCAAAATGAGGATTTAGGTCTTCTTAAAAATAAATTGGCAGCATTTTGAGA
GCTCTGGATAAGCCACAGCAAGATTTGGTAGTTAGTAGACTTTTTAACTTAGCAAAGCATCTTAACTCTGCTTGCCCCACCGGTTCCTTCCTTTTTTTTT
TTTTTTTTTTTTTTTTTTTCTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATTTTGGCTCACTGCAACCTCCACTTCCCAGG
TTCAAATGATTCTCCTTCCTCAGCCTCCTGAGTAGCTGGAATTACAGGCACCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTT
TCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGACTTTGTGATCTGCCCACCTCGGCCTCCCAAAGTCTTGGGAGTACAGGCGTGAGCCACCTGTAGGC
ACCTCTAATCTTATCAACGAGGACTCTGGGGTTCAAAGAGGTCAAGTGACCTGCCAAAATCCTGGAAAGACCCTGCAACAACGTTCTTTTCAACACACCA
CATCCTTTCTACTTGAACCATTTCTAACCAGTGGAATGTGCCCTGGTTCAGATTCTTGTTCTCTAGGACTGTAACCATCCCAGTGATGATAGCTGCCATT
GGTTTATCAGCTTTGCCAGGTATGGCACTTGTCACTTTATTGTCACTCCTCCCAGCAACCCTGCAGGACAGAGGAATTATTAAACTTGCTTGACTAGTAC
GGAAACTGAAAGAGTGGAGGGGAGGGGAATGCTAAGGGCAGAAATGAGGGGAATGTGAGAGGGTGGAGGGAGATTGTGTTGACTTTGAAAATGAGAAGGG
AAAAGAAGATTCAGAAGAAGATAGGACGGGGAAAGCCAGCTTGTGTGCCATTGAATCACCACGTTAGGGCCTGGTGCTGTTGGGTGGCCCACCTCGTTAC
ACCTGGTGAGTTTTCAAAGCCYTCTGAACCTCAGGGTCCTCATGAATAAATTTGTGTTGTTATTTATCATGCAGGGGTTTATGAGGATTAAGYRTGAAAT
GTACATAACAAAATGTCTTGCTCGTTGTATTTTATTCCTTCGTGTTTTGACTTGAAGAGGTTACCGTGGTTTTCAATTTCAGGAGACGAAGTTTCCGTGC
ATTATGACCCCATGATTGCGAAGCYGGTCGTGTGGGCAGCAGATCGCCAGGCGGCATTGACAAAACTGAGGTACAGCCTTCGTCAGTACAATGTGAGTGA
TCTGAGACCGTGCCAGTGACCTTGATGTGTTTGGTCAGCACCAGAGGTCAGCCTTTGTCTTTGGCAGGGCCTTGGTCTCGTCAGCATATTTTCTATTTCC
ATCAATTGCCCAAACAAAATAGTTTCACATGGGAGAATTTTGCGTGGGCCAGAACAGGGTTTGAGGACTTCTTCATTTCAGTTACAAAAGAAAGATTGCA
GAAGTAAAATTGTTAGTGTCAGTGCTATGCTTCGGTGAAATCCTATTCACTCTGTAGATAAGGCCAGCTATACATGGTACCTTCGTAGGTTTTTTATTTT
TCCTAAGAGCTGTCCACAGTAGAAAATACTTAGGAAATAAAAGCAGATGTTTTCCTGAATGTTGTTTTCGCTACCCAGTATGCCTGCAGTCCAGTAGTTT
TTCTCTAAAGTAAAATAATTATGTTCAGTTTCATCCCTTTAATAGAGTTTGTTATTTTTCTGTAGAACATTAATTTCCTTGGTGCAGAAAGTCCCATACC
ACATTGATTTGGCTCATAGAAGGATTTATTAACCCAGTTATTCAACTTGTTATTGTTAATAATTGATCAAAGCTCTGGTCTCTGTGGCTCCAACCACACT
GGCCGCCTCACCGCTTCTGAGACTCACTCAGCATGGAGCCATGCATTCCTGTCCAATCTTCCAGAATGTTCTTCCCCCACATGATTGCAGGGCTCCCTCC
TGACTACCCTGCTCTCCTGCTCTGAGCCCTTTCCCAGGCTGCCCCATTTAAAGTATGACCTTTTGTTATTCTTTATCCTCTTAGCCAGCCTTCATTTTCT
TCATAGCATGTAACATTATATTCAATACCTGTTTACAGATATTGTTACTTGTTGCCCTAGAATGTAAGCAGAGACTGTGAAGGCAGGGACATCATATGTT
TTGTTCCTCACTATGTCCCCAGTGCCTGGATCAGAGCCTGGCACTTAAGAGATGCTCAGGAAATGGCTGTTAAATGAATGAAGGAATGGATGAGTGAATG
AATGAACCCAAAGCTCAGATAGCTGGTTTTACTTTTGATCCCATTTATTGGTGTATTTGGGTTAATTTTATACCTTTTAAAATTTTTGTATCGGTATATA
AAATTTGGATTTTATTGTTGGAAAGAAGCTCTTTTGAGGGCATTTAATCCTATCCTCTCCCCAGTATAGCAATCCAGCTTGCTGTTTGCAGTCTTCCTAT
TCTGTGGAAGTGTTCTGAGCAGCAAGTCTTCGATACCTTGCAAATGAATTTCATTTATGTTTCTTAACATTTATTATGTTCCTAACCTGAGTCAAGTAAG
TGCCTCGGTATTTCCAGCATCCTCTTTGTCATATTAAAATGTAATTTTTAGTGTCAAGTCCAGATGGATATAGTAATAGCGGATGGACATAGTGATAGTG
AGATGGTTTTTTTGTGTTTTTTTTCCTGAGAATTGTCCTGTTGCCACATGGTACCTTAGTAGGTTTTTTATTTTTCCTAAGAGTTGTTCACAGTAGAAAA
TACTTAGATAAAAAGAGCAGATRGTTTTCTGAACATATTGTTTTCCCCACTCAGCAGGAACTGGGGGTTTATTCTCTTCCTAGATTGTTGGACTGCMCAC
CAACATTGACTTCTTACTCAACCTGTCTGGCCACCCAGAGTTTGAAGCTGGGAACGTGCACACTGATTTCATCCCTCAACACCACAAACAGTTGTTGCTC
AGTCGGAAGGCTGCAGCCAAAGAGTCTTTATGCCAGGCAGCCCTGGGTCTCATCCTCAAGGAGAAAGCCATGACCGACACTTTCACTCTTCAGGCACATG
GTATGGAAGGCTTTTCTCTTTCCTCTGCTTGTCAAGTTYTGCAAATCATCATTGAACATGCTTTTCTTTCTGTATGGCACACTGACCTCTCTTTTCTCCT
CTCAGTGACTGACACCATTCTTTTCAGATGTGTTTTTTAGTATGAAGGAAAGCTCTTCACTTACCRTGGATGCACCCATAAACACTATTTAACCCATTAA
CTGGAGTGTAACTAATCACCTAACATTGTAGAAATGGATCTCTTTGGCCRGGCGCGGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCAGGGCGG
CTGGATCATGATGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCACGTG
CCTGTGATCCCAGCACTTTAGAAGGCCAGGGCGGGCGGATCATGATGTCAGGAGATCAAGACCATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAA
AATACAAAAAATAAGCTGGGTGTGGTGGCACGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGACAAGAGAATCGCTTGAACCCGGGAGGCGGAGGTTG
CAGTGAACCGAGATCGCGCCACTGCACTCCAGCCTGGACAACAGGGCGAGAGTTCATCTAAAAAAAAAAAAAAAAAAAAAGGAAATGGATCTCTTTTCAG
TCAAACACTTGTTCTCCCCACATCCTACACTAATTTCTTATCACTTCTTTTGTTCGCCACTCCTCATAGCCCTACTTTGTTTTGTCCTCTGTACCTGCAG
CAACTCCCTTTGTCCCAGAGTCTCAAGACAATCTAAGACTGGAGACTTAGATTCCCCAGGGTTACCCATGACTTATTGTCGAATTACTTCCGCTTTTTCC
ATCCTGTGATTGAATGTCTACCTAGAGACTTCATAGTGTCATAGAATCCAAGCATAGGAAGGGCCATAGTGGGGTTCATCCTGGCTACCACACATATGCA
TTGCATCCCTACCCCAGCACACCCACTAAGCTGTTGCCCAACTTCTTCCTAACACCTTGGGAAACTGGAAGTTCATTACCTCATCAGGTAGCTTACAGTT
TCAGTCAGTTCTCCATTAGAAAGTTCTGCCTTTAAACCAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGATCACTTGGACACAGGGT
GGGGAACATCACACACCGGGGCCTGTCGTGGGGTGGGGGGAGGGGGGAGGGATAGCATTAGGAGATATACCTAATGTAAATGACGAGTTAATAGGTGCAG
CACACCAACATGACACATGTATACATATGTAACAAACCTGCACCTTGTGCACATGTACCCTAGAACTTAAAGTATTAAAAAAAAAAAGTTCTGCCCTTTA
AATTGATACAAAATCTCAGCTCTCACATACTTTTTGCATTTCAGGCTAGCTCTGACTTTCGGAGCAAACAGAATTTTTAAAAATCTGATCTATTTTTCTC
TTTTATTGGTAATTATTATATTACCCTATACAGTTTGAGCATCCCAAATCCCCAAATCCAAAATGCTCCAGAATCGGAAGCTTTTTCAGCACTAACATGA
TGCTCAAAGGAAATGCTCATTGGAACAGTTCAGATTCCAGATACTTGGATCAGGGATGCTAAGCCAGTTAAATATAATGCAAATAATCCAAAATCCAAAA
AAAAAAAAAAAAATCTGAAATTCAAAACACTTCTGGTCCCAAGCATTTTGGGTAAGTGATACTGAACCCGTATTATTATAGGATCCTATCATTAGAATCT
TTAATTTCTGAATTCATTTAGATTCATTCAAGATAGCTGTATGGAAAGCTTAAAATGTAAAATGTTTTAAGTCCCGAAAACTGCATCTTTAGAAGATTTG
TGCTCTATCCTCATTTTATCCTTTTACATTGAATGAAAATGCATCTAAATACGTCCCATGTGGTATTCCTGAGCCTGACCTTAACGTTTTTAGAATGGAR
CGTTGTCTTACTGTGACCTTCCTTTTGAAAGTTTATAATTGGTACAGATATGAGGTTCAGAATAAATTGCATCAGCTTAGCTATGCTGAAGCTCCTGGAT
ATTGTCCAATAGAGGATATACACCCAAATGCCTATAAGGGGCCAGGCGCGGTGGCTCATGCCTGTAATCCCAACACTTTGAGAGGCCCAGGGCGGGTGGA
TCACTTAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCCACTAAAAATAGAAAAGTTAGCCAGCTGTGGTGGCACCCACCTG
TAATCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCATCCTGGG
CGACAGAACGAGACTCGTCTCAAAAAAGAAAAAAAAAAAAGGCCTATAAGGGCTGGGCCAACAACATAAAAACATAAAAGAGTAAAAGAGGCCAGGTGAA
AGAAAAATAGTGAATAGTAGAGACTGGTGACCTGGAATGAATTTGCCCCATCAAAAGGTGGTGACTGTGGTACAGTTTATGCCACTATGGGATTAGAGTT
TAGATTGCAAATATTCAGATTCTTCAATAGAAGCTAGAATTTTTCACATGAAATTTCATAAGATGTAAACAAAACYAKCCCTTTAAACTTAACAAGAAGA
ACAAAAAAAGCACATCTGAGCTGCCAGTTTAGGACGTGTGTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGATCCG
GTGCAGTGGCGCAATCTTGGCTCACTGCAAGCTCCACCTCCCGGATTCACGCCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTAGAGGCGCCCGT
CACCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCTAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCT
TGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCGGCCAGCACTTGCATTTTATGTTTTCTTTTGTAAGGTGTAAATTTCATAGGCTTG
ATACTCATAAGTTTGTTACTGAATTTTAAATTTTTTCTAGATCAATTCTYTCCATTTTCRTCTAGCAGTGGAAGAAGACTGAATATCTCGTATACCAGAA
ACATGACTCTTAAAGATGGTAAAAMCAGTAAGTAATGTTTCATTAAAAGAGAAATGTGAGTCATAGAAATGTATCACATTAATCTGAAAAAGAGGATTCC
AGCCTGGCCATNATCAGTCAGTTACATTTTTTAAATGCCTAGGCTAAACATTGGAGGGAAATATGCCAATATAATAGAATTGATTGGCTCTGGGTAGTAG
AGTTGATGGTATTTGCTTTTCTTCTTTACACTTTTTAAAAATTTTGTAAATATTCTAAAAATATGTCATAAAATAAACATAGCAAAACAGCTGAAATGAA
ATATGCCAGAATGTTAGAAATATGCCCAAAAAAACCTCTTTTTCCCCAATTCTTTGTACTTTTTTTTTTGCTTTGCAATTTTTCTGCAGCGAGAGTGTAT
TACTTTTAAATAAGAAAAACAGTTTTCAAAACTATGTCAGAGAGGGACGATTACCCACTGCCCATGCAGTGTTTCAGGGGTTTCAGGTGGAAGTGGGTCA
CTGCAGAGCTGTAATTTATTAAGTGCCTTATCTGATGTAAGTTTTTATCTTCACAACGTAAATGAGGGGGAGTCGCTGTTATACCCACGTATGGAAGATG
AAAGCATGGATGGTAAGGCACAGAAGTGAAGTAGTTTAGTCAAGGCTAGTGAGTGGCAGAACTAGGATTCACACCYACTCTTTGTGACATTGACTCTTAG
GCTGTTTCCACCACTTTTCCAGTAGAAAATTGATTTTTGATTGTAAACTAATTTGAGTTGGCTCGACTTAGTGACTGATTTTCTTTAACTGATGTCAAAA
GAGGCTGACGCTTAAGCCAGAAGGCAGTTTATAAACTTTTGGCTGGAGCAGTGTAGCAGCAGGACCAGAATTCTATGATAGCTGGTCACTGTATCCCTTC
TGCTGTGAGACAGTTTGTGTGGGAGGCCCAATGGGCAGAGTCAGAGCTCAGAATCCTGGCTAACCTTGAATGTGACATGTCATTGAACTGTGACAGTTCT
GGTATAAAAATATGCCTCCCAGGTAGAGCAGAATACTTTCACCAGCTGATCACAGAACGCTCTTCCTTGGACAGAGGAAAATCTCTTTTACTTCACCTCT
ATGAAGACACTCACCCAGTAACAAATTTTTTTTTTTTTTTTTTTGACACAGACTCTGGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTC
ACTGCAAGCTCCACCTCCTGGGTTCGTGCCATTCTCATGCCTCAGCCTCCCGAGTATCTGAGACTACAGGCACCCACCACCACGCCCGGCTAAGTTTTTG
TATTTTTAGTAGAGACAGGGTTTCACCATTTTAGCCAGGATAGTCTCGATCTCCTGACCTTATGATCCACTCACCTCAGCCTCCCAAAGTGCTGGGATTA
CAGGCGTGAGCCACCATGCCAGCCAGTAACAAATATTTTGTTCACACAAGTTTATTGGGTTACAGCTCTTCAGTTATTTTTCAATCCTGAGCCTAGATGG
TCATTATCTTAAGTGCATTGGGCATATTGTTAAGCCTTTATAATGAAAATTTGTAAACATCTTTATATAGTAGCATTCTGCAAATGGTTAACCCATCCAT
TTATGCTCATTTCATCCTAAAAAATACAACCCCCCAAATCTGGAAGTATCTTATTCTAGACTCCTATATGCTGAATGCAAATATCAAAAGCGGTAAAGTT
TCACTGGCTTCTTCAACCTGAATTGAACAGAAGAATTACATATTTGATTGTAATTCATATAGGCCAACTGTGTTATTTGGCATGGCTCTTCACTAAAGCA
CCAAGCACTGATTTGAAGTATGTTGCATTTTTTGGAATTAAAAAAAGTTTTCATGAAAAAATAAATACATAATTGAAAAGCCAACATGATTGCTGTTCAC
TACACCCTTTTGGCAGTATTCTATGAAAATAATCCAAGTCTGTATGTAAGAGCTTTCAGAAAATGATACATAGCTAAGTCTCCAAAAAATGCTAATAAGC
AATGACCACAATTAAATAGAATGCATGAAACAGGAAGCTTAAGAGACCARGCTGGTCACAGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCAAG
GCGGGAGGATTGCTTGAGGGCAGGAGTTTGAGATCAGCCTAGGTGACATAGTGAGATCCTGTCCCTATTTATAAAATAAAAATTTTTAAAAAGGAAAAAA
AAAAAAAAGATACCAGAAGTGCCAGGCACGGTATCTCCCACCCGTAACCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACGAGGTCAGGAGATGGAG
ACCATCCTGGCTAACATGGTGAAACCCTGTCTCTCCTAAAAAGTACAAAAAATTAGCCAGGCATGGTGGTGGGCGCCTGTAGTCCCAGCTACTCAGGAGG
CTGAGGCAGGAGAATGGCATGAACCTGGGAGGTGGAGCTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGCGACAGAGCGGGACCCTGTCC
CAAAAAAAAAAAAAAAAAAAAAAAAAGGTGCCAGAAGCATTTATGAGTCCAAAGCAGAAGCAACTTCTAGTGACCACAGTGAGAATGACCAACTATTTTA
AGTATTCAAGGCTTGCAAGCTATTCTTACTTTGCTACTAGAGGCCACGTTTCACAGAACCCTGCCTAAACTCAATGATAATAGCTAAGATTTATTGAGTT
TTTGGTTTATGTCAGATACTGTATTAAACACTTTCCAAAGATTGTTTCATTTGCATTTTCAGAAMAGGCCAATGAGATTAGTGTTATTGTTAGTGTGAAC
TTTATAAATTACTAATCTCTGTGAGCCAAGGTCAAGGCTCAGAGAGATTAGTAATTTTCCAAAAGTCACACCAGAAGTTATTGGTGGAGTCAGGGTTTGA
ACCCACACTCCAGGATACACGTGCTGACCTAATACTGCAGGTGCCACACTTGATACCTTCTTAAATGCATGAGAGGATGTTTAAGGTCCTCTTGTATGTG
ACAAGAGATATCTAGGGTAGGAGTTTTTTTGGTAGTGTCTTTACTGTGATCTGTTGGCATTCGCGCCAGTTAAATACATGTCGTATTTTATAAATTCAAA
GAAAATGGCCGTGGTGTAACTGGAGGCACTTTCTGATAAGAAGAGTAAAAGCCTGTTGACATGATATAGGGTGGAGAGTTTTATTCATTCATACATTCAA
TACAAAGTTTTTGATAAAATAGATATGCCAAGTGATGTGGAGAAGAGAAGGAAATGTCTTTGTCCCTGCTTTTTTTCTGTTAAGGAATTTGCCATTTGGA
AGTGTGTATGWTGAGAAGCTGGAGAGCATGATGGTCAAGAGTGCGGGCCCTGGAGTTCCTGTACTTTAGTATTTGACTTTTGTGAACATTTTTATTTTGA
TAATTTTTCTGAAACAACTGATAGAGAGGAAAATCACTCTTTGTAAACCAGGATGAGGAGAGAATCATAGTGGGTGTTTTGTATGCAGAAGGCTAAATGT
TCAGAGGAGGGAGAAATTAAGCTGCCCAGGCCAACTCTTCCCAAGGACAGTGAGGCTGATGTGAATGGGCAATGGGGTTTCTGTGCTGTGGCAGGGCACC
AGCAGCGTAGTGAAGGAGAAGCGTGAGCACAGAGCCACAGTGCAGGGAAAGCTGGGGGCATATATGGGGAATTTTTTTTGTGTGTATTGGTTTTTTGTGT
TTTGTTTTGAGACGGAGTCTCTCATTCTGTTGCCCAGGCAGGAGTGCCGTGGTATGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTC
TCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGTGTGCCACCATGCCCAGCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCATGTTGGC
CAGGCTGGTCTCGAATTCCTGACCTCAGGCTATCCGCCCACCTCGGCCTCCCAAAGTACTGGGATTACAGGTGTGAGCCACCTCCCCGGGCCTAGAGAAT
GTTAATTGTCCCACTTTCCTATTTGGGTGGAGCATCAGGCCGTCCATGGAGGAGAATGGTAGGAAATAAGACTGAGAGGGTGGGGCCTCCAATATCAGGC
CAAGTATTTGGAATGGGGTCGGAACATCAGCTCTGACTATTGAGATGAGAAGCAGGAAGACCCCAGAGGACCTCCTCAGATTCAGCCAGGCCTGAGGCAG
TGGGGCCTGAGGCAGGGTAGAGCAGTAGGAATGGAAGGAAGAGATGCATAGGAYAGGGAAGAATTTGGCAGCTTTGTAGTAACTGTCCCTATTTATAAAA
TAAAAATTTTTAAAAAGGAAAAAAAAATAAGATGCCAGAAGCATTTATGAGTCTAAAGCAGAAGAACTTCTAGTGACCTCAGTGAGAATGACCAACTGTT
TTAAGTATTCAGGGTTTGCAAGCTATTCTCTGCTACTAGAGGCCATGTTTCACAGAACCCAGCAGTGGAAACTGTTGCATGTGAAAAGCGAAGGAGTACG
AGGCATGGATGTTGCATGTGGAAAACAAAGGAGGATGAGGCAAGGATGACAGGTTTCAAGCCTGGATGACAAGGAGCATAGGGATGCCAGTCAGGGAGCT
CACAGGTCTGGAGAAGAAGGTAGAGGGAGATGATTTGTCGGCCCCGCCATGTTCGTCTTAAGTCACCAGTGGAGCATCCAGCTGGTAATGACAATAATCG
GAGGTCACCTGGAGAAGGAATGTCGGGGCTGGAAACAGATTTGAGCTGGCAGCATCAAAATGATCATTGAAGTATCAGAAGCAGACAAATTGATTTTGAC
CTGTATATTCTACCCCACAAAACTTTAGGTTTTCGTCTCCTCGGATAATCAACCATTTCCATACTCATGTAATCTAGGCATACTCTGGAGTTATTACAGG
TTTGGTTCCAGACCACTACAATAAAGTGAGTCAAAGTTTTTGGTTTCCTCATGCATATAAAAGTTATGTTTATATTATACTTTATTGTGTGCCAATAACA
TTATGTCTAAATAAAAACAATGTATATACCTTAATTAAGAAATGCTTTATGGCTAAAAAAAAATGCTAATGATTATCTAAGCCTCCAGTGAGATGTAATC
TTGTTGCTGGCATAGGGTCTTGCCTCAATGTTGATGGCTGTGATTGATTTATAGTGGCAATTGCTGAAGATTGGGGTGACTGTAGCAGTTTTCATAAAAT
GAGATACCAAGGAGGTTTGCTGCATCTGCTGACTCTTCCTTTCATGAAAGATTTCTCTGCAGCATGCAGTGCTGTTGAGATGCAGCAATTCAGTCACATC
TTCAGTCTCCACTTCTAGTCCTAGCTCCCTTACTATTTCTACCACATCTGCAGTTACTTCCTCTGCTAAAGTTTTGAACCCCTAAAAGTCATCCATGAGT
CATTAACGTCTTCTAAATTCTTGTTAATGTTGATAATTCGACCTCCTTCCATGAATCACAAATGTTCTTAATGGCATGTAGAAGGTTTTCAATTTACTTT
GCCTAGATCCATCAGAAGACTCACAATGTATGGCAGCTATTGCCTTACAAAATATATTTCTTAATAAGACTTGAAAGTTGAAATTACTCCTTGATCCRTG
GGCTGCAGAAAGGATGTTGTCTTAGCAGGCATGAAAACATTAATCTCCTTGTATGTCTCCATCAGAGCCCTTGGGTGGTGACTATGTGCATTGTCATTGA
GTGATAATATTTTGAAAGGAATCTTTTTATCTGAGCACTATTGAGTAGGTCTCAACAGTGGGCTTAAAATATTCAGTAAACCATGATGTAAACAGAAGTG
CTGTCATCCAGGCTTTGTTCCATTTATAGGGCACAGGTAGATTTAGCATCATTCTTAAAGGCCCTAGGATTTTCAGAATGGTAAATGAGCATTTAATTCA
ACTTAAAGTCACTGGCTGCATTAACCCCTAGAAAGAGAGTCAGCCTGTCCTTTGAAGCTTCGAAACCAGGTATTGACTTCTCCACTCCAGCTATGAAAGT
CCTAGATGGCATCTTCCTCCAAAAGAAGACTGTTTTGTCTCCATTAAAAGTCTGTTGTTTTTTGTAGCCACATTTATCAATTATCTTAGCTAGATCTCCT
GGATAATTTGCTGCAGCTCCTCTGTCAGCACTTTCTGCTTTATCTTGAACCTCATGAACCAGTCTCTGCTAGCTTCAAATATTTTTTCTGCAGCTTCCTC
ACTTCTCTTGGCCTTAATTGAATTGAAGAGAGTTAGGGCCTTGCTCTGGATTGACTTTGGCTTAAGGGAATGTTGTGGCTGGTTTGATCTTCTATCCAGA
CCACTAAAACTTCTCCATATCAGCAACAAGGCTGTTTCACAGTATTTATTATTATCATTATTATTATTTTAGAGATGGGGTCTTGCTTTGTTTCCTAGGG
TGGTCTCAAACTCCCAGGCTCAAGCAGTCCTGCTTTGGCCTCCCAAAGCACTGGGATTACAGGCGTGAGTCACTGCTCCCAGCCCAGCTATTTCACCTTT
TTATCCTTCATGTGTTTACTGGAGAAGCACTTTTAACTTCCTTCAAGAACTTTTCCTTTGCATTCACAACTTGGTGGTTTGGCATCAGAAGCCTAACTTT
TGGCTTATCTCAGCTTTTGACATTCCTTCCTCACTAAACTTAATCATTTCTAGCTTTTGATTTAAAGTGGGAGAYATGTAACTCTTCATTTGACCACTTA
TAGGCCATTGTAGGGTTATTAATTAGTCTAATTTCAATATTGTATTGCCTCAGGGAATAGGGAGACCCATAGAGAGGGAGAGAGACAGGGGAATGGCTGG
TCAGTGGAGCAGTAAGAACACACACAATATTGATTGAGGAAGTTCTCTATCTTACATGGGCGCAGATTGAGGCACCGTAAAACAATTATAGTAGTAATAT
CAGAGATCGCAGATGACTGTCACAGATATAATAATTTAAAAGTTTTAAATATTGTAAGAATTACAAAAATGTGACATAGAGACACGAAGTGAGCACATGC
TGTTGGAAAATTATGCTTGACATGGTGTTGCCACAAACTCAATAGGTAAAAAACATAGTATCTGCAGAATGTGCAATAAAGTGAGATGTGCCTGTAACAT
GAATCATTTATTAGGTGTATATAGTCTTACCATTTCTAAAGCATTTTCATATTTGTTTAATAATTGTTACATTTTTATACCCATTTAATGGCTCAGAAAA
TCAAGGCTCGGAGATTTAGTGAGTCAAGATGACAGAGGTGATCAGGTGGCAGATTCCATTCTCAACCAAAAACTTCTCTTTACCAATTCATTGCATTTTT
TTTTTCTTGAGATGGAGCCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCCACCTCGCAGGTTCAAGCTATTCTC
CTACCTCAGCCCCCTGAGTAGCTGGGATTACAGGCACGTGCCGCCATGCCTGGCTCATTTTTGTATTTTTAGTAGAGACCGGGTTTCACCATGTTGGTCA
GGCTGGTCTCAAACTCCTGACTTCGTGATCCCCACTCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCGCCGCACCTGGCCTGCATTTTTAAA
ATTATAATACTGCAGCCTTTTTGTTGAGGGAAAAATACGTAAAATATTCGACAACCTTAAAATATCTAAAACTCAAGCCTGGATGTGGTGACTCATGTCT
GTAATTCTAGCACTTTGGGAGGCCCAGGCAGATGGATCACTTGAGTCCAGGAGTTCAAGACCAGCCTGGGCAATATGGTGAAACCTCATCTCTACAAAAA
AATCAAAAAATTAGCCGGGCGTGGTGGCACGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGAGGGGATCACCTGACCCCAGGAGGTTAAGGCTGCAG
TGAGCTGTGATTGCACCACTGCAGTCCAGCCAGGGTGACAGAGTGATACCCTGTCTTAAAAAATAAATCAAAATAAAAATAAAACCCCTGAAATTCCATT
TTAAAAAAGAAAAGTTTGAAATTCATCTTTATTGGTACTAGCTTGACAGATGCTTTTCTAACAAAATACTTTATTTCCAAGAAGTTCAAAGTTGTTGATT
TTCCTTTGAATAGTTGGTTGTCTTTAGGTTGAGAGTGAGATTCTTTATATCTCGGTTATTAAATAAATGAATGTCTTCTAATTTTTCTTCATTTTTTCCC
TTTTTCCATAAAGATGTAGCCATAGCTGTAACGTATAACCATGATGGGTCTTATAGCATGCAGGTAAGCCTTACTGGTTTTGTTCTACAGTGCAGAGCTG
AATCTGACCGCTTTTATACTGAATAGGGTCTTTCACTCTCTGGTTTCCCTTAAGCCTTTGACTATTATGACTGTAGTTAAGAGAATATCTTATGCTTGTA
TTTCAGACCCAATTTGGGGAAATTACCCCCTATACRGTTTCTAACTGATTGTTTACTCAGTTGGGCTGTGATTCCTTTAAGAATAAAAACTTGGCAAAAA
GTAAAAGCTCAAATCAGACATTCACAAGCCCCTAAAGTKTGTGCCTGTATTTACAGCAAAAGCAGCAGTTTTCACATTTTTTGTCTCAGGAACTGTACAC
TCTTTAAAATACCCACCAGAGCACTTTGGTTTGTGTTAATTATATCTCTTGATATTTACCATTTAGACAATTTAACTGAGAAAATTTAATTTCTAATTTT
TTAATTGTGGTGAAATACACATAATGTAGAATTTACCATTTTAACCATTTGCATTCAGTGCATTCAAGTTGATATGTAACCATCACAACCATCCATCTCC
AGAACTTCTTTCTTCTTGTGGAACTAAAATTCCGTACTCACTGATTAAACAGTTAACACTCCGTTCCTTCTTCCCCCATCCCCTGAGAACCACGATTCTA
CTCTCTGTCTCTATGAATTTGACTACTCTAGGTACCTGATATAAGCRGAATAATGTAGTATTTGTCCTTCTGTAATTGGCTTATTTCACTTGGCACAGTG
TCTTCAAGGTTCTTCCATGGTGTAGCATATGTGAGAATTTCCTTTTTTTTTTTTTTTAAGGGTGAAAAATACTCTGTTGTATGTATATACCACATATTCT
TTATCCATTCAGCCATTAATGAACATTCGGGTTGTTTCTAGCTTTTGGCTATTGTGAATAATGCTGCTATGAACAGGGGTGTACAAATACTTCTTTAAGA
CCCTGTTTTTTGTCCTTTGGATATATATCCAGCAGTGGAATTGCTAGATCATATAGTGATTCTGATTCTTTGAAAAACCGCCATACTGTTTTCCATTGCA
GCTGTAGCAGTTTACAGTCCCATCAACAGTGCACAATGGCTCCAATCTCTTCACTTCCTTGCCACTACTTATTATTTTCTGGGGTTTTGTTTTTTTTTTT
GTTTTATAATAGCAATACTAATGAGTGTGAGGTAGTAGTATCTCACTGTGACTTTGACTTGCATTTCCATAATGACTAATGATGTTGAGCATCTTTACTT
ATTGGCCATTTGTATATCTTGTTAGAAAAATCTCTATTCGAGTCCTCTGCCAATTTCTTAATTTAATTGTTTTGTTGTTGTTGTTAAGTTATAGGATAAA
TTGAAAAAATTGTAAAACCTAATCACAAGTACACATTCCATTAGCCATCAGAGTGATAACATTATCACACGTTCAGTAGCCTCTGGAAAATTCCACTGTG
TACTTATGAGAGAATGAGAGTATAAAAAACAAATAATATCTTAATCTTTTTTTCTTTTTTTTTGTTTTGAGAAGGAGTTATGCTCTTGTCACCCAGGCTG
GAGTGCAATGGCATGATCTTGGCTCACCACAACCCCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAACTGGGATTACAGGCATGC
ACCACCATGCCCGGGTAATTGTGTGTTTTCAGTAAAGACAGGGTTTCACYGTGTTGGTCAGGCTGGCCTCGAACTCCCGACCCCAGGTGATCCGCCCACC
TTGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCACGCCTGGCCTTCTTAGTCTTATTATGACTTTGTGGATGCCCTAAAAGGGTATTAGGGAC
CCCAAGGAACACATAGGTCATATTTTGAGAACCTCTAGTGTAAAGTTCATGGTAATCCTCAATTAGAAGAAGACCATTACATTGGCAAAATGGAATGCTT
AAATGGTTTAAAAAAAAAAGTGGGAATTCAATCAAATTCCTATAGTAAGGTACAACTTCAGGGAATAGAATAAATCATTTTTAATATGAGCTAAGAGATG
TCAAATCCTGCAGAACAGATTTATCAGTGGTATGTATTAGACCTCCCAACACTTTGAGACACATTGATTTTCTTTCTGTGAGATTCAGAAAAACCATGGA
AAGTCTGCCTACTTGGGTATGAGGGTTATAATTCATATTAATGCCTCTGGTTTGAGATTATTTCTTGTCCCTGTTAGCTGGTAAAGTAGATTGCCAATTT
GTTCTAATCTGCTCATGGAACTACATTCACAATTTTAAAATGTGTTTTCGTGAATCTTTAAACAAAACTGTTTTCAATCTAACCTTTATGTCCTAAGAGT
TCCACAAACATTCAAATGGCTGTTTTAGTAGGTTACAAAGCATAGTAAAATGTCATATTTAACTTAGGATAGATGAGAACCAATGTGTAAATATTGCAGT
GTGACCTATTTCACCTTAGTGTACGTAATATATTTGAAAAGAATAGCCATGTGACTTCTACACTAGCATTGTGGGAATTGAAATGAAGACTAGAGAGAGA
AGATGTAAATGGATTTTTTACCTCAGGGAAATTTTAAAACAGGTTCCATGTCCTTTTATCAGCTTCCTTGAAACATTGTGAACTTTGTTCTTTGGCATAT
GGTCTCTGAGAGTGAGAAAATTATGGCCAATCTCCAGCTAATTTATGTTCTTAAATCATAACTGAAACCCATGATTGGGCCTACGTGTTGATAAGATAAA
AGAATATCATCTAATTATGTGATTCTGGCATTTTTTTGGTGACTGACTTTGGCACAGGAAAACTAAATTTGACTTCAAATACTCAGAAATAAGTTTATAT
TACAAACATGTAATATATGCAAATGAATTTTAATAATTTTGCATAACTTGGTTTGTATTTTTGTTTCATATTTTTAATGCTATCTTTATATGTTTACGTG
AACCTTTATCTATAGCATTATGGTGCTATGGATAAGTTATATAACTTTTTTTTCCCTTTTAATTATCTTCCTGTCATTTCTATGTAAAGTATCTTGGTTA
GGAATAGGGGAAAAGTTCCATGACTTTTTAAAAAATATATGTTATATATGTTTAAGACACATTTTATGTTTTAAAACTACCAATAGTGAAGAATTGATTC
TGATCTTATTAATTCTGTAGTGTTGTTCATTTATTTTAAAAATCTTATTTTTCATTTTTTTCAGATTGAAGATAAAACTTTCCAAGTCCTTGGTAATCTT
TACAGCGAGGGAGACTGCACTTACCTGAAATGTTCTGTTAATGGAGTTGCTAGTAAAGCGAAGCTGATTATCCTGGAAAACACTATTTACCTATTTTCCA
AGGTAATGTCTCTTCTTTATAATATCCCTCCTGGGGCATGGGAGAAAACTGTTTGACCAGAGACATTCCACTGAAAGAGATTAGAAAGATCCAGCTTCCT
GTGACCACTGCTGTGACCTTTTTCCCTCAGTTTCCCCCACCATTCTGTGTTTCTTTGCCAAATTCCTGCCCTCTGTAGTTTCCCATTCACTTCTCTCGTT
CACACAGATGCTCATTGATAGACACATACCCATTTTCTTCCTGAATTCTGAAACAARTCCTTCCATTTTCTTTGTCAGAGCATATCTCCCTGCTCAGTGG
GTGGTGGTATCTCAGGGCTTTGATGTCTGAACACTTTTCCCCACCCACCATCCCCCTGACAACTGGAATCCTGGTGATTTTGGAGGAGGTGACCACTGAG
AGAGGAGTCTGTGGACCAGTTGTTCCTTGTGGGGAAGGTGGACAGTAGGAAGGTGGATGGCATTACTGCTGGTCTCTTGACAGTCAAAGGATAGCCGAGG
CAGGCTTTGCATGGTTTTGGTTAGAAGCCTGCTGCCCAGTGAGTCCTTAACCTTCGGCCTGGGCAGAAAGAGGATAATGCATTATCATATATGCTGTGGC
CTCACAGTGCTTTGTGATGAGATTCCTTTAGTAGTCTAGTAATTAAACTACTATATATGGAGTTGAGGATGATCCCACTTTGCCAGGCATTCCTTTCCAT
AGCCAATTACGCTACAGTAATATGATGATAGAGGCCGTATAATGGAATGGTGAAAAACTCAAGTTCTAAAATGTGAAGCTGCTTTGGTTCAAATTCTGCC
TTGCCACTTAACAGCCATGTGACCTTGGCCGTTAAACTCTCTGGGCTTTAGCTCTCCTATCTATAAACAGTTTAATAATAACAGCAGTAACAGTAATAAT
AATAGGTGCAGTGGCTTGTGCCTGTAGTCCCAACACTTTGGGAGGCCAAGGCAGGCAGATTGCTTGAGACCAGGAGTTTGAGACCAGTCTGGGTAACATA
ACCCCATCTCTACAAAAAATTTTAAACATTAGCCAGGCATGGTGGTGTGTGCCTGTAATCCTAGCTACCCAGGAGGCTAATGCAGGAGGATTAATAGGCT
CAGGAGTTCAAGGTTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCTGGGTGGCAGAGTGAGACCCTGCCTCTAAAAAATAATAATAATGACAGTA
CCTTCCTCATAGAGTTGTGATGATTCACGACATGATGTGTGTGTTAAAGACAGTTCCTAGCATACTGAGCATCTGAGAGTGGGGATGCTACTGAAAATGG
CTTCCAGACAGTGGCTACTTGTTGTCTACAGTGAATGCTTTATTCTTATTTTATTTTTTGAGATGGAGTCTTGCTCTGTTGTCCAGGTTGGAGTGCAGTG
GTGCCATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACTCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTGCAGGCGCCCGCCACCATGC
CCAGCTAATTTTTTGTATTTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTTTTGATCCCCTGACCTCGTGATCTGCCCACCTTGGCCTCC
TAAAGTGCTGGGATTACAGGCGTGAGCCACGGCGCCCRGCCTAAATCTTTTAATATACTGTGAGGCATGTATACCGTTACGCCTTTACAATGGGAAACCA
AGGCTGAGAGAGGTTTAATAATTTGCTCAAGGTCATAAAGCTAGATTAGAACCCTGGTATTAATGGTGACTAATTTATTTTTTTTTTTGAGTCAGAGTCT
CACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAGTCTTAGCTCACTGCAGCCTCTACCTCCCAGGCTCAAGTGAGCCTCCTGCCTCAGTTCCCAAGTAG
CTGGGACTATAGGCGCGTAYCACTACACTGGGCTGATTTTTGTATTTTTTGTAGAGATGAGGTTTCGCTATATTGCCCAGGCTGGTCTTGAACTCCTGGG
CTCAAGCCATCTGCCTACCTCAGCCTCCCAAAGTGCTGGGTTTACAAKCGTGAGCCACTGGGCCTGGCCATGATGACTAATATTTAACAAATTGCTGGGA
AACAATTATTACCTCAGGTATATTAGTAAAAATATAGTGATAGGATGTTGATTCGGTTTTCAGTTTGTTTTCTGTTTCTAGGAAGGAAGTATTGAGATTG
ACATTCCAGTCCCCAAATACTTATCTTCTGTGAGCTCACAAGAAACTCAGGGCGGCCCCTTAGCTCCTATGACTGGAACCATTGAAAAGGTAATCACATG
ACATCTGTAGAATGATGTTCAGTAAGTTTTAATACGTGGCTTTGTTAAACTTGTCATTTATGTCCTTTTCCCTTTCTAAACCKTGCTCATTGGAAAGCAT
CCACTTCACAAAAACAAGAGGATCTATTACAGATTCAAATTGTTTATTACAGTCCTCACTGAAAATACCCATTTACCTAATTTATGAAAAAGACTGCTGT
TTTTGAAGGCAGGCATTTGCATCAAAGTACAAATAATCTAAATTGTCTTTTTATGATTAAAACTGAGCATTCATTAAGCATTATTCAAAAAAGCTGGTTT
TGAATGTTAAATTTAATAGCAGCAAATTTTTCATGAAATAATGACATTTTCTTTTAGTGTACGTAGTTGCATCTGCGTTAATGTAAAAGGCTGGTATYGG
TGAAGAACAGTACGGTTTGGTGTTGAATGCAGTATATAATTCACAGTTGCAGTCCATACTGTCTGAGTCAGTTCAGGCTGCTAGAACAGAATACCATAGA
CTGGGTGGCTTTTAAACAATAGAAATTTATTTCTCACGATTCTAGAGGCTGGGAAATCCATCAAATCACCAGCAGATTAAGTGTCTGGTGAGAGTCTACT
TACCGATTTCATAAACAGCCATTTTTTCTCTGTGTCCTCACGTGGTGGAAGGGACAAGGGACCTCTCTTCAGGCCTCTTTCATAAGGGCACTAATCTCWT
TCATGAGGCCAGATCCCTCATGACCTAATCACCTGCTAAAGGCCCCACCTCCAAATACCATCATCCTGGAGGTCAGGATTTTAACAAATGAATTCTGGAG
GGATATAGACATTTAGACCCTAGCACATACTGATATAACATCAAATGGTGATAGATCAGTATCCGTAGTCTCCTTTTATATACTTGAATACAGTAGAGTC
TCCTCAAATACACTTAAATCATAAAAACTCAACTGTATATGCTTGGAACAAAAAAAGAAGAAGAAGAAAATAACTACTTAAATAGTGTGGGTGATTTCAG
CCACTATTCTCGTTTGGAAATATTTACCCCAAGTGGGTATGAGCTAGGAGACCTGGATCTGCCTTTAGCTCATTTGATTTCAGTTCCCACAGGCCTCTCA
TAGTGCAGGCATCTCTGCACAACTCTGTTAGTCTCCCACTTAGTAGCCATGTTAACCAAAACGAAAGTGAGACCATATAGGATCTATGAGTCCATTTATA
TGTATACAAAAGAAAATAGAAATCTCTTTCTGGGGTTGCTAATAAGTTTGATTCTGTTGCATGAAGATTGTCTTCACATTTACTACACAGGGCTCCGAAG
ACTTCAAACACACTTACTATACTTAGCCCTAGACAACCCCAAAACAAGAAAACCAGTCAAGACCCTCATCCCTCTTCCCTCTCTGGGGAAGACATTTAAG
TATATTAGTCCTTCCCTACTGGCAATGTGTCTTGTTTCTACATTCTTGAAAAAAATGAAAGGATTTCAAAATACATGGAGTATATTCATGTGATTCAAGT
AAAACTAAGTGGTTTTGTGGGTGGGGACAGGGGACTAAGCAGTGCTACCCATGGACGACAGTGCCAGCAATGCCAGATTGACCTGTAGGGCTCTCATTTG
ACCAGTGCATTTGGGCTGTAGGCCTCTGATTTGACCAGTGCATTTGACCTGTAGGCCTCTGATTTGACCAGTACATTTGGGCTGTAGGCCTCTGATTTGA
CCAGTGCATTTGGGCTGTAGGCCTCTGATTTGACCAGTGCATTTGACCTGTAGGCCTCTTATTTGACCAGTACATTTGGGCTGTAGGCCTCTGATTTGAC
CAGTGCATTTGGGCTGTAGGCCTCTGATTTGACCAGTGCATTTGACCTGTAGGCCTCTGATTTGACCAGTGCATTTGGGCTGTAGGCCTCTGATTTGACC
AGTGCATTTGACCTGTAGGCCTCTGATTTGACCAGTACATTTGGGCTGTAGGCCTCTGATTTGACCAGTACATTTGACCTGTAGGCCTCTGATTTGACCA
GTGCATTTGGGCTGTAGGCCTCTGATTTGACCAGTGCATTTGACCTGTAGGCCTCTGATTTGACTAGTGCATTTGGTCTGTAGGCCTCTGATTTGACCAG
TACATTTGGGCTGTAGGCCTCTGATTTGACCAGTACATTTGGGCTGTAGGCCTCTGATTTGACCAGTACATTTGGGCTGTAGGCCTCTGATTTGACCAGT
ACATTTGGGCTGTAGGTCTCAGATTTGACCTGTACATTTGGGCTGTAAGCCTCTGATTTGACCAGTGCATTTGACCTGTAGGCCTCTGATTTGACCAGTG
CATTTGGGCTGTAGGTCTCAGATTTGACCAGTATATTTGGGCTGTAGGCCTCTGATTTGACCAGTGCATTTGGCAGATGGCACAACCACATGGGCTCTAC
TTCTGCTCTGTAAGTTTATATAMCAAATCTRTGGACCACAAAGGACCTCTGTGTTGTTTTTTTTCTTTTTATTTATGTTTTATTGTTTATATTCATGGTT
TGCAACATGATGTTATGAGTATATATAGACMGTAAAATGGTTACTATAATGAAGCAGATKAACATATCTAGGACCTCTGTGTTTTCAAATATTAACCTGT
CACACTGAATCTCAAGGTGTTTGTCAAAGCTGGAGACAAAGTGAAAGCGGGAGATTCCCTCATGGTTATGATCGCCATGAAGATGGAGGTAAGGAAATCA
TGAGTTCATTTGCTATGARGACTTTGGGAGCAATCATACCTAATGGTTCTTTTGCCTTATTTTGTAAGTTAATACCACCTTAAATATGAAAAGCCATGAT
TGACGAAGCATTAATTGTAGGAAACAAAACCAAACTATCCTTCTTGTAGAAAAGAGTTTTACTTTAACTTTGTGAAATTGCACCTGTCATTTCTGATTCT
GAAATTAATGAAATTATCAATAGCTTGGAATCAGGCGATAATCCAACTGAATGTTAACTGTTGGTATTTTCTAAGATAATCCAACTGAATGTTAACTGTT
GGTGTTTCTGGAATGTTAACTGTTGGTATTTTCTAATGTTAACTGTTGGTATTATCTTGGTTCTAAGGCCGAACCAAGGATGCCAGGCATCAGTTTCAAA
GTGAAAACCGCAATCAAATTAAATTAGCTGTTTAGGTTTTTAGATGGTTCAAATGGTAGGTCAGTGATTCTTAGCCCTGGCTGAATATTGCAGACAGTCC
TCAACTTACAATGGTTCAATTAAGGATTTTTCAGCTTGACAATGGTGCAAAACCATACACGTTGAATATGCTCCTCAGCTTACATTGGATTTATCTGGAC
CTGACCCCATCGTAAGTCAAGGAGCATGTGTACAGTCACCTGGGGAGATTTGAAAAAATTCTTCCCCAGACCCATTGAATTGCAATCTCCAGGAGTAGAG
CCCAAGGATCAATACTTTTGAAAGGCTGGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCAGGCGGATCATTTGAGGTCAGGAG
TTCACGACCAGCTTGGCCAACATGGTGAGACCCCATCTCTATTAAAAATACAAAAATTAGCCAGGCATGGTGGTGCATGCCTGTAATCCCAGCTACTCAG
GAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCTTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCC
GTCTCAATTTAAAAAAACAAACAACAAGGCCAGGCGCAGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCATGAGGTCAGG
AGTTCAAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCACACACCTGTAGTCCCAGTTACTT
GGGAGGCTGAGGTGGGAGAACCGCTTGAACCCGGGAGGCAGAGGTTACAGTGAGCTGAGACCATGCCGTTGCACTCCAGCCTGGGTGACAGAGTGAGACT
CCGTCTCAACAGCAACAACAACAAAAAAMAAAAAAAAAAAAACAAAAGCAAGCAAACAAAAAACTGTTGAAAGCTTCCTAGGTGCAATTCTCATGTGAAG
CTCAAGTTGAGAACTGCGAGCTACACCAGAGCTTCCCAGTCATATCGTTGAAAGGTTACTGCTGTGTCCCAGTGTTCATTCCTCTCAACTTGTTGCTGTT
CTCCCTGTGTGCTGTGATGTTAAAAATAAAAACAACAACAACAACAAAGCGTTGGAAAGCACCGAGAGATGACAAAACATCAAAGTTGGCTACAGTTTTC
ATTTTTGGTCTCCCTTTCTTGACTTGGTGTATACTCAGTCCTCATTAGTATTGCAGCTATCATTTGTCCTGTCATGTGTCTCTGCAGCATACCATAAAGT
CTCCAAAGGATGGCACAGTAAAGAAAGTGTTCTACAGAGAAGGTGCTCAGGCCAACAGACACACTCCTTTAGTCGAGTTTGAGGAGRAAGAATCAGACAA
AAGGGAATCGGAATAAACTCCAGCAAGGAAATGGCCAGTTAAGTAGTGTCTTCTCTCTCCACCAAAAAGAGGAAGTGCCTCCAGCTTTTCTGGGGGTCTC
ATAAAGAGCAGTTTTACTAAATGATTGTATGCTTATGCTGAACACCTTTCATATTGGAGAATCATGCATTTGGGTCACTAATTATCTCAAAATATTTCAT
ACTAATAAAGTTGAATTATTTTTTATTGGAAGCCAATGTTTGTTTCTGCCTCAAATTTTTTACAAGGTAGTCTCTTTTAGGAAGGGGGGAAGAGAAAAGG
ACATTTAATTAAATGAATTACTTTCCAGTTGCTGTTATGATGAAAATGAGCAGTAATATGTTTCAGAGACAGGTGCCCTGGAGTTCAACAACTAAGGTTT
TGTCTGGCCAAAAAGCAACTTGCTAGGTAGTTTAAAAGACATGGATATTAGTCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAG
GCGGGCAGATCACTTGAGTTCAGGAGTTCGAGACCAGTCTGGCCAATATAGTGAAACCCGTCTCCACAAAAAATAAGCTGGGTGTAGTGGTGAACATCTG
TAGTCCCAGCAACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTAAGTCGAGACCGCACCACTGCACTCTAGCCTGGG
TGACAGAGCGAGACTCTATCTCAAAACAAATACATAAATATAAATAAGTAAAGACACGGATATTGTTTCTAGTGTTTGTGATTGGAAAGTTWCTAACTAG
ATTGCCTCTGCCTTTATTGTACTTTCTAAGCTTATAAAAATATATGTATTATATATCTATTACATGCTAAAATATATTAATATTTAATATAACATTTTGG
TAAATTTGAAAAGCATAATTTTACAGAAAAAGTTGGTAAGAGTTAAAAGCCTGAGCCTGCTGAATGCTTTTTTTAGAAATACTTTTTTCATTATGAAGAA
AAACCATTCAGTTTACTTTTGTCTAGATTCTGTGTTACTTTTACTAACAGATGTGCAGCCCTTTGCATTTTTATGTATTCATTGAAGTGTTAAATATTTG
TTGAATTGAGTTCTTGCTGAATACATAAGACTATGCTAAATGTTGTGGAAAATACAGAGAAATATAAAAGATGGTCTCCGTACTTTAAGATGCCTATAAT
TGGAAAAGTAAAACATAAATCATGTCTGCTATGATTAGAATGGGTCCCCTATGTTTCACGTGTTAAAAACTTAATCCCCAAGTTCATGTGTTGATTAGAG
GTAGGACTTTCGAGAGGTAATTAGGATTGGATATGGTCATCAGGGCGGGGCCCCCATGATGGGACTGGTGGCTTTAAAAGAGGAAGAGAGACCTGAGCTG
GCTCGCTCTTGCCCTCTTGCCATGTGATGCCCTCCACCATGTTATGACACAGCAAAAAGGCCCTCACCAGACACCGGCCCCTTGATCTTGAACTTCCCAG
ACTTCAGAACTGTAAGAAATAAATTAGTTCATAAATTATCCAGTCTGTGATACTCTGTTTCAGCAATGCAACATAGTCTATGACAATGTCGAAAGTTACA
GTTTTAGCAAGGGTGCCGTTTCCCCTTTCCAAACAAAACTTTCTCTGTTTAAAAGAGGGAAAAGCAGCCGGGCGCGGTGGCTCACACCTGTAATCCCAGC
ACTTTGGGAGCTGAGGCAGGCGGATCACAAGGTCAAGAGATGGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTACATATACAAAGATTAGC
TGGGCATGGTGATACGCGCCTGTAGTCCCAGCTACTTGGGAAGCCGAGGCAGGAGAATCGCTTGAACCAGGGAGTCGGAAGTTGCAGTGAGCCGAGATCA
TGCCATTGCACTCCAGCCTGGTAACAGAGTGAGACTCTGTCTCCAAAAAAAAAAAAAAAAAAATAGAGGGAAAAGCAAAAGGTGCTGTGATGGAAATTTC
ACATTGCTGTTTGCCCCCTTTCGGAGAATGCTGTTTGTATCCTTCAGTGGAACATGGTTGAGTTCACTGTTTCATTGTTAAGTGACTGTGTTGGGGATAT
GTGTATTGAAGGAATTCGAAGCCAGCTAGCCCAATTACCCACATATTGGTAGAATTCTTTCTTTAGGATCTTTGCCAGTTCTGGTGCTGTGTGAGCAGAG
TTATTTTGCACATGAATGCATCTGTTTGTGCTACAGACACTTACAGAGCATTTGCTCTACACTAGGGCCTCTGGAACAGAGATGGTAAGAAATGATTTCT
GCTCTTGCCCTATCTAATGGGAAACAGGATCCAGCTGCATAGAAAAATGTAATATAGGCCGGGCGTGGTGGCTCACGTCTGTAATCCCAGCATTTTGGGA
GGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCCTTACTAAAATTACTAAAATTAATTGGGCA
TGGTGGCACATGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCCAGAGGCAGAGGTTGCAGCGAGCTAAGATTGTGCCAC
TGCACTCCAGCCTGGGCTATACAGCGAGACTCCATCTCAAAAAAAAAAAAAGGTAATATAATTGACAGTAAGTGGTATAATATACCAGTCTACTAGGTGC
CATGTGCGGTGAGGTGAGTGAGGTACTAAATTCTGCTTTGGGTCAGGAGGCAGAGGGAGAGGCAGTGATGTCTGAACTGGGCTTTGGAGGATAGCTGTTT
GCCAGATGGAGAAAGAAGGTGGTGAGTCCAAGGCCACTGCAGGCAGAAGGACTGGCAAGGTCTAGAACAGTAAGGCATGAAGGCATGCAATGTATTCGGG
GCACAGAGTGGATGGCCTGGGCCACTAGGCAGAGAAGGGCAAGCAAGGGAYGCAGCTGCCTAGCAATAAAAGGCCTTCTCTTGTCCCAGAGGACTTCATT
CTGGAGGCAGTGAGGAGCTGCTGGAGATTTTCAACCAACTTAAGTTTTTCAAGTTGTATAATGTCCACAGTCTGGAGTACAGGCCGGAAAGTGGAGAGAG
GCTGGAGACAGTCCCAAACAGACACCAGATATGTGGGCCAGGCTGGCTGCAGTGGCTCAAGTCTATAATCCCAGCACTTTGGGAGGCAGAGTCTGGAGGG
TCACTTGATGCCAAGAGTTGGAGACCAGCCCCACGCCGCCTGCCCCATGTCTCTACAAAACATTTAAAAATTAGCCAGGCATGGTGGTGCATCCCTGTAG
TCCCAGCTACTTGGGAGGCTGGGATGGGAGGATCGATTGAACCCAGGAGTTTGAGGTTACATTGCTCTGTGATCACATGCCACTGCACTCCAGCCTGGAC
GACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAGACAAGAAAAAGTACAGGTCAGAGTGGGGAAAACAGACTTTGGTGCACATCTTGACTTAAAAGT
ACTTCTCTGTTGGATAAGACCCATTAGAGGCATGGACCAAAACAGAGTCATTAGTTGGGAAAAAAGCAGCTTGCTACCTTCTCTTTGACAGCAGCATGGC
TCAGGTATTTAATAACCAAGAGAACAACAACATTTAAGCACCCCAATGATTGCTTTTTGATCACAGGGGAGAACACACAGCATTGTAGTTGAAATACAGC
GGTTAAAATTCTTGCATTCAGGCCCTAGCTTTGTCACTTATTAGCTGTATTGCCTTGGGCAAGTCATTTAACCTCTCCGAGCTTTATCTGTAAAATTGAG
GTGGCAGCACTACCTCACAGGCTTGTTTTGGAGATTAAAGGAGAAAATGTAGAGGTTGCCTTTAGCATTGTACCTGGAAAATCATTTATACTTCCCTGGT
AGTTATTACCAACTCTGGTTCTTGCTAGGGAGCAATTAAGAAACTGCTTTAAATTCAGACTAGCTGGTTACTCTTGCCAGGAAAAATCCCAGGTCCCAGG
ATGGTGAAAAATCCTGCCTGGATATGCATCACCCTGTCCCCTCCCTACCCTCCCTTCCCCAGCTGTAGCCTGCTCCGGTGTGACCCAGGCACCTGTCAAC
CACTTAACAGACTGTGTTGCTGCCGGACTGTGGGGGGAAGCCTCCGTCAGTAGCTAGAGCTGTGTGCTGGTGGGACAGCGGCCCGCCCACTTGCATGAAG
GCTGGGTAACTTGGAAAAACTCACTTGGAACAACTCACCTAGAACAACTCACTTGTATGAAGGCTGGGTCCAGACTTGCTCCACCTGCTGCCATCAGTTG
TCACGTGTGTAGCTGGTGCTGGAGGGGAAGCCTGTGTCCGGCTTGCGCCTCAGTGTGGGCAGGCATCATACCTGCTGCCGGACAGCAGAGTAGGGTGGTC
TTTCATTTAGCTGAACTCTTTCCCCCCTTTCCCCCTCCACAATCAACTTCTCACTCCTGCACACTTACTGTTAACCCTCAACTAGTCCTCTTAGGAATAT
TAGAAGGTGAAATGTGCATCTGAGCCCTGCGTAGCCAGGGCTCTTCTGCTGTTGTCATTAAAATATTCACAGCGTTGTTAGTCATGTTTGCACGTCTATT
GCATCTTTCATCAGAGGGTCTCAAAAAAGCACTTCTAGGCCAGGTGCGGTGGCTCACACCTGTAATTCCAGCACTTTGGGAGGCCGAGGCAGGTGGTTCA
CCTGAGGTCAGGAGTTCGAGACCAGCCTGGCTGATATGATGAAACCCCATCTCTACTTAAAAAAAATACAAAAATTGGCCGGGCGTGGTGGCAGGAGCCT
GTAGTCCTGGCTACTCGGGAGGCTGAGGCAGAAGAATTGCTTGATCCTGGGAGGCGGAGGTTGCCGTGAACCTAGGTTGTGCCACTGCACTCCAGCCTGG
GTGACAGAGCAAGACTCTGTCTCAAAAAAAAAACAAAAGACACTTCTAGATATTCACACTAGGCTTCAAAATACCCCAGAAGAGGAAAATGTGATTTAAA
CTGTGTGGTAGAAGAGGAGATGGCTGTCCCCAAATGCTTTGCTCCTTGCCTAGTGCGGAGAACCTTAGGGTACCAGTCCCCTCCTGCTAATAACATACTG
TTCCCTCAGGGCTGACCCCAGGGTGCTGCCCCTAGAGGTTAGTAGTTTTTCCCCACCAGACTGGGAGTATAGGGCATCACAAGAGGCCCTGCCCACAGCT
GTCAGCTCTCAAAGCCACAGGCTGAGTGGAAACACTCTTGCCCACCCTCCCCCAACCCCTGGGAATGTCCCTGGGGACACCATGCCTTCTGGACCAAGGG
GTGCCTGGGCCTTTAGGAGATTATAACCCTGATACCAATGATTACCTTGTCACCCTGACATTTGTCTCCCATTTGCTGGATCCCTGGGGACTCAGAATGC
CTTGGTGCCTCTAACTGGCTCAGTCTCCTGCAGCGAGTTCCAAGTGAAGTGTGCACTCTCCTCTGCCACCTCCAAGCCACAGCACAGACGTTAACTCCCT
CCCTGCTAAGAATGGCTGACGTCATTCTCTGTATCTACCACCCCTCGCTACCATTTCGCTAAACTGTTAGATTAGATTAGATATAATTCTTATTCCAAAA
CCAGCTTCCCACAGAAACAAAAAACCACTAACAAAAACAGGGTAATTTGGGGCTTCTCCCTCTTACCCAGTTATTCCTTCATCATGACCAACTATGTCAT
AAAAGCATTACGGTTTTTTCCATTATTGAAAGCAGGCAGTTAAAAGTGCTACTCCAGTGAACACACAAATGATAAGAAGGTGAAACAGCCAGGCTGGGAG
CAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGAGGACTGTTTGAGCCCAGGAGTTCAGGAGTTTGAGACCAGCCTGGGCAACACA
GGGAGACCCCATCTCTACAAATAATTTAAAAAATTAACTGGGCGTAGTGGTAGGCATCTGTGGTTCCAGCTACTTGGGAAGCTGAAATGGGAGGATTGGC
TGAACCTAGGAGTTTGAGGCTGCGGTGAGCCGTGATCGTGCCACTGAGTGACAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAATCTATTTAGAATG
GGACTTTTATTAAAACATTTCTCCAGACTAACTGATCCTCTGTTTGACTTACAGAAGAAGACTAATCACTTGAAACCTTAATAGAAATAATATGTTTCAA
CGTTGCTGAGGAATTTGTTAACTTCCCAGACGAAAATTC


SNP Information

Context             (SEQ ID NO:21759):
AAAGATGGTAAAAACAGTAAGTAATGTTTCATTAAAAGAGAAATGTGAGTCATAGAAATGTATCACATTAATCTGAAAAAGAGGATTCCAGCCTGGCCAT
N
ATCAGTCAGTTACATTTTTTAAATGCCTAGGCTAAACATTGGAGGGAAATATGCCAATATAATAGAATTGATTGGCTCTGGGTAGTAGAGTTGATGGTAT
Celera SNP ID:            hCV25965424
SNP Position Genomic:     71712
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,13)   caucasian(T,14)   total(C,1|T,27)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,11)   caucasian(T,14)   total(C,1|T,25)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,13)   caucasian(T,14)   total(C,1|T,27)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,14)   caucasian(A,1|G,13)   total(A,1|G,27)
SNP Type:                 INTRON


Context             (SEQ ID NO:21760):
CTGTTATACCCACGTATGGAAGATGAAAGCATGGATGGTAAGGCACAGAAGTGAAGTAGTTTAGTCAAGGCTAGTGAGTGGCAGAACTAGGATTCACACC
Y
ACTCTTTGTGACATTGACTCTTAGGCTGTTTCCACCACTTTTCCAGTAGAAAATTGATTTTTGATTGTAAACTAATTTGAGTTGGCTCGACTTAGTGACT
Celera SNP ID:            hCV27878714
SNP Position Genomic:     72276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21761):
CTTTTCTCTCTTAGGGAATGAGGATTGTTAGATCAGAACAAGAATTTCAAGAACAGTTAGAGTCAGCACGGAGAGAAGCTAAGAAGTCTTTCAATGATGA
Y
GCTATGCTGATCGAGAAGTTTGTAGACACACCGAGGTGGGTTGGCCTTATTTTTCTGACTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
Celera SNP ID:            hCV25965247
SNP Position Genomic:     34457
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,34)   total(C,1|T,69)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:21762):
CATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGACAGGTGCCTGTAATCCTAGCTGCTCAGGAGGCTGAGGCAGGAGAATC
R
CTGGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCATGCCATTGCACTCCAGCCTGGGAGACACTGCGAGGCTCTGTCTCAAAATATATATATAAA
Celera SNP ID:            hCV26040770
SNP Position Genomic:     27367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21763):
TGTTGGCCAGGCTGGTCTTGAATTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAAATTGCTGGGATTACAGGCATGAGCCACCACACCTGACCC
R
GAATTATTTATTAAAACGTTAAAAAACTGGTTCCAAGTCTATTGTGAACAGTGCTGCAATAAACATACACATGCATGCGTCTTTATAGTAGAGTGATTTG
Celera SNP ID:            hCV27934552
SNP Position Genomic:     62615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21764):
TTTATAACCACATCTTCCAGGTATAGACAAAAAGATAGGTGGAATTGCTTCTGTAATTTGTTTGTTTCCCTGCATATGCTTTTTATTTATTTATTTATTT
W
TTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAATGTAGTGGCACGATCTTGGCTCACTGCAACCTCCACCTCCCAAGTTCAAGTGATACTCC
Celera SNP ID:            hCV26040772
SNP Position Genomic:     9236
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21765):
TGGTTTGGCATCAGAAGCCTAACTTTTGGCTTATCTCAGCTTTTGACATTCCTTCCTCACTAAACTTAATCATTTCTAGCTTTTGATTTAAAGTGGGAGA
Y
ATGTAACTCTTCATTTGACCACTTATAGGCCATTGTAGGGTTATTAATTAGTCTAATTTCAATATTGTATTGCCTCAGGGAATAGGGAGACCCATAGAGA
Celera SNP ID:            hCV27934553
SNP Position Genomic:     78275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21766):
AAAATACTTAGATAAAAAGAGCAGATGGTTTTCTGAACATATTGTTTTCCCCACTCAGCAGGAACTGGGGGTTTATTCTCTTCCTAGATTGTTGGACTGC
M
CACCAACATTGACTTCTTACTCAACCTGTCTGGCCACCCAGAGTTTGAAGCTGGGAACGTGCACACTGATTTCATCCCTCAACACCACAAACAGTTGTTG
Celera SNP ID:            hCV1475808
SNP Position Genomic:     68197
SNP Source:               Applera
Population(Allele,Count): african american(A,21|C,15)   caucasian(A,14|C,26)   total(A,35|C,41)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:21767):
ATATGTTAGTATTTTGGGATTAAAAAATAGGGTGAGATGAGCTACCACATGAAATGAGGGAAACTAACTAATAGACATATTAAATTTGTATTATTTTGTC
R
TCTCAGACTCGATGTTTTCTTTAAAGAGTTCCATTGTAATTTATAGACTGGGCTATATTTATGTTTGTCTTGAATGAAATAATTTGTAGAATTTGGGGCA
Celera SNP ID:            hCV25963646
SNP Position Genomic:     34008
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21768):
CTTTCTGTATGGCACACTGACCTCTCTTTTCTCCTCTCAGTGACTGACACCATTCTTTTCAGATGTGTTTTTTAGTATGAAGGAAAGCTCTTCACTTACC
R
TGGATGCACCCATAAACACTATTTAACCCATTAACTGGAGTGTAACTAATCACCTAACATTGTAGAAATGGATCTCTTTGGCCAGGCGCGGTGGCTCACG
Celera SNP ID:            hCV1475809
SNP Position Genomic:     68566
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21769):
CTCTCTGGTTTCCCTTAAGCCTTTGACTATTATGACTGTAGTTAAGAGAATATCTTATGCTTGTATTTCAGACCCAATTTGGGGAAATTACCCCCTATAC
R
GTTTCTAACTGATTGTTTACTCAGTTGGGCTGTGATTCCTTTAAGAATAAAAACTTGGCAAAAAGTAAAAGCTCAAATCAGACATTCACAAGCCCCTAAA
Celera SNP ID:            hCV25966514
SNP Position Genomic:     80036
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:21770):
GAGTGCAGTGGCGCAGTCTTAGCTCACTGCAGCCTCTACCTCCCAGGCTCAAGTGAGCCTCCTGCCTCAGTTCCCAAGTAGCTGGGACTATAGGCGCGTA
Y
CACTACACTGGGCTGATTTTTGTATTTTTTGTAGAGATGAGGTTTCGCTATATTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGCCATCTGCCTACCT
Celera SNP ID:            hCV386811
SNP Position Genomic:     85120
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21771):
TAGGGTGAGATGGGATGTCATGGTATGAGGCTCCCAGGATCTTGGTGCTCTGAGGCAGTAACATGTGGTCCACCCTTGTTCTCACTGTTACAAGCTGAAA
Y
GGATTCATAATTTGGGCTTACCATTTGCTCACAACCCCAAATATACTTTTCCGTTGCCAAATTTCATGCAGCTCTCTATTTTTGACTAAGATTCATATGC
Celera SNP ID:            hCV474736
SNP Position Genomic:     59823
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)   JBIC-allele(T,604|C,849)   total(C,849|T,604) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21772):
TTTTTCTTTTTATTTATGTTTTATTGTTTATATTCATGGTTTGCAACATGATGTTATGAGTATATATAGACAGTAAAATGGTTACTATAATGAAGCAGAT
K
AACATATCTAGGACCTCTGTGTTTTCAAATATTAACCTGTCACACTGAATCTCAAGGTGTTTGTCAAAGCTGGAGACAAAGTGAAAGCGGGAGATTCCCT
Celera SNP ID:            hCV25959986
SNP Position Genomic:     88060
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(G,5|T,35)   total(G,6|T,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:21773):
TTTGTAGAGATGAGGTTTCGCTATATTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGCCATCTGCCTACCTCAGCCTCCCAAAGTGCTGGGTTTACAA
K
CGTGAGCCACTGGGCCTGGCCATGATGACTAATATTTAACAAATTGCTGGGAAACAATTATTACCTCAGGTATATTAGTAAAAATATAGTGATAGGATGT
Celera SNP ID:            hCV386812
SNP Position Genomic:     85248
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21774):
ACTTGTTTGAAAGAGACTGTAGTGTGCAGAGGCGACATCAGAAGATCATTGAGGAGGCCCCAGCGGTAAGGACCTTGGAAAGAAATTTGTAAGCTTCTCC
R
TAATGTGAATCTTACTCTGATTTTCACATCAGAAATCTGTGAATCTGGTGTCTCTCACCCCTCAAACTCCTGCTGGACAACTGTTGCCTAATAGCAGTGT
Celera SNP ID:            hCV25961974
SNP Position Genomic:     48320
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:21775):
TGAAAAGGTAATCACATGACATCTGTAGAATGATGTTCAGTAAGTTTTAATACGTGGCTTTGTTAAACTTGTCATTTATGTCCTTTTCCCTTTCTAAACC
K
TGCTCATTGGAAAGCATCCACTTCACAAAAACAAGAGGATCTATTACAGATTCAAATTGTTTATTACAGTCCTCACTGAAAATACCCATTTACCTAATTT
Celera SNP ID:            hCV25973915
SNP Position Genomic:     85583
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,35)   caucasian(T,38)   total(G,3|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:21776):
GATTCACTTCCCCCTAGGCCCGGGCAGCCAGCAGGTGAGATTGTGTCACAGGGGCTTGCTCACAACCACATCACCTCAAGGTCAAAGCCTCATGGTCTAC
Y
TAAGGCCACAGCATTCTGGGCCAGGCCATCATTCGGTTTCAGATCAGGGCAGATACTAGGCAAGATGAAATGAGCTAAGGCAGAGTTGGGAATGAAGAGC
Celera SNP ID:            hCV11792029
SNP Position Genomic:     60972
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21777):
AAAGGGCTTTAAAAAGAAATTCCTAGGAGCCCACAATCAGGGAAAAAAAAGTTTTCTTTTTCTCCATGGGGTTAGGGTGAGATGGGATGTCATGGTATGA
K
GCTCCCAGGATCTTGGTGCTCTGAGGCAGTAACATGTGGTCCACCCTTGTTCTCACTGTTACAAGCTGAAATGGATTCATAATTTGGGCTTACCATTTGC
Celera SNP ID:            hCV27479456
SNP Position Genomic:     59751
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,197|G,1264)   total(G,1264|T,197) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21778):
TTGTCCCTCCCAGGATGTGAATCGTCCCTTTGTCCAGTGTCTCCACGCTGTCTCCACTCCCCATCTGTTAGTCACTCAGGAGCCATCTAGGTTATCAAAT
Y
GACTGTCATGGTACCACCATGCTTGTGTTCAAGTCACCCTTATTTTATTTAAATCATGGCCCCAAAATGCAAGAGCAATGATGGTGGCAATTCACTTATG
Celera SNP ID:            hCV28961830
SNP Position Genomic:     31565
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21779):
TTGCTTTGAGTGGTTTCAGTTACCTGCAGTCTACTATGGTGTGAAAATATTAAATGGAAAATTCCAGAAATCAACAATTGATAAGTTTCAAATTGCACGC
Y
ATTCTGAGTCACACAGTGAGATCTTGCACAGTCTGCTTTGTCCCTCCCAGGATGTGAATCGTCCCTTTGTCCAGTGTCTCCACGCTGTCTCCACTCCCCA
Celera SNP ID:            hCV28961831
SNP Position Genomic:     31427
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21780):
TGAGAGAGATGATTTAGGGTATCTGGCAGAAGAAATTTCTAAGCAGAAAAGCATTCAAGAGACGACTTGGGTGCTATTAAAGGGATTCAGTTTTATAAGG
R
AAGCAGAGCATAAAAGTTCAGAAAATGTGCAGCCTGACAATGTGGTAGAAAAGAAAATCCCATTTTCTGAGGAGAAATTCAAGCTGGCTGCAGAAATTTA
Celera SNP ID:            hCV28961832
SNP Position Genomic:     25230
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21781):
TTTGCCTAGATCCATCAGAAGACTCACAATGTATGGCAGCTATTGCCTTACAAAATATATTTCTTAATAAGACTTGAAAGTTGAAATTACTCCTTGATCC
R
TGGGCTGCAGAAAGGATGTTGTCTTAGCAGGCATGAAAACATTAATCTCCTTGTATGTCTCCATCAGAGCCCTTGGGTGGTGACTATGTGCATTGTCATT
Celera SNP ID:            hCV477718
SNP Position Genomic:     77198
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21782):
CCCAAGTTTGAACAACGCTATCAGATGACTCAGTCTAGCTCACCTGACTCCAGCTCTGTTTCAAATTTTGAGCTCTAAGCTTTGGTGGCAATAACTCTGG
Y
AGTGAAAAAACCCTCAGGCTTGTAGATAGCTTTGCTTCTTTGTCTTCTTTTGCTTCATCGTTATCATCCTTCATCATTCTGGAAAGATTGACAGTTTAGT
Celera SNP ID:            hCV28961833
SNP Position Genomic:     6921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21783):
TTTGACCAGTATATTTGGGCTGTAGGCCTCTGATTTGACCAGTGCATTTGGCAGATGGCACAACCACATGGGCTCTACTTCTGCTCTGTAAGTTTATATA
M
CAAATCTATGGACCACAAAGGACCTCTGTGTTGTTTTTTTTCTTTTTATTTATGTTTTATTGTTTATATTCATGGTTTGCAACATGATGTTATGAGTATA
Celera SNP ID:            hCV25960740
SNP Position Genomic:     87923
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,27)   caucasian(C,36)   total(A,1|C,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:21784):
GGTTATAATTTACAAAGTTCTCCTCTAATAAAAAGATACTTGCCGATTAGGAGAGCAAACCTTCCTTTAATGTTGACTTTAAAGAAGAAACTTATTGGCC
M
TCTAGTAAAGGACATTGAATAACACTTGTATAGTGATTTGAAAGAAGTTTTCTAAAAGTCTAGAATTGTTCTTAATGTGGCCATTTTGACATACTTTTAT
Celera SNP ID:            hCV380397
SNP Position Genomic:     22285
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21785):
CTGGTGGCGGCGGAGAGGAACCGGTGGCATCGTCTCCCGAGCCTGCTCCTGCCGCCGAGGTGGGTGGAGGGGCCATGGCTCAGTGGGCAGAGGCGGGAGC
R
AGGGGTGCACGGACCCGCGTGAGCGGTGGGAGGTGCGGCGGAACCCAGGGTCGGTGTGGGGAGGACGGTAGGAAAACCCCAGGCACTTTCGGAGGGGTTC
Celera SNP ID:            hCV25969536
SNP Position Genomic:     6269
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,40)   total(A,2|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:21786):
TTTATGCCACTATGGGATTAGAGTTTAGATTGCAAATATTCAGATTCTTCAATAGAAGCTAGAATTTTTCACATGAAATTTCATAAGATGTAAACAAAAC
Y
ATCCCTTTAAACTTAACAAGAAGAACAAAAAAAGCACATCTGAGCTGCCAGTTTAGGACGTGTGTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTT
Celera SNP ID:            hCV26914100
SNP Position Genomic:     71076
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21787):
CTCCCAAGTAGCTGTGATGGGACTGTAGGCACACGTCACTATGCCCAGCTAATTTTTTGTTTGTTTGTTTGTTTTTGAAACAAAGTCTCACTGTGTTTCC
Y
AGGCTGGTCTCAAACTCCTGGGCTCAAGTGATCCTTCTCTCTTGGCCTGCCTACGTGTTGGCGTTACCGACGTGAGCCACCGCCCTGGCCACACTCGTTC
Celera SNP ID:            hCV380398
SNP Position Genomic:     22702
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21788):
AGCCCTGGGTCTCATCCTCAAGGAGAAAGCCATGACCGACACTTTCACTCTTCAGGCACATGGTATGGAAGGCTTTTCTCTTTCCTCTGCTTGTCAAGTT
Y
TGCAAATCATCATTGAACATGCTTTTCTTTCTGTATGGCACACTGACCTCTCTTTTCTCCTCTCAGTGACTGACACCATTCTTTTCAGATGTGTTTTTTA
Celera SNP ID:            hCV15959123
SNP Position Genomic:     68439
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,28)   caucasian(T,40)   total(C,6|T,68)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,207|T,1294)   total(C,207|T,1294) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21789):
TATGCCACTATGGGATTAGAGTTTAGATTGCAAATATTCAGATTCTTCAATAGAAGCTAGAATTTTTCACATGAAATTTCATAAGATGTAAACAAAACTA
K
CCCTTTAAACTTAACAAGAAGAACAAAAAAAGCACATCTGAGCTGCCAGTTTAGGACGTGTGTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGC
Celera SNP ID:            hCV26914101
SNP Position Genomic:     71078
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21790):
TTTTGTTTGTTTGTTTGTTTTTGAAACAAAGTCTCACTGTGTTTCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGTGATCCTTCTCTCTTGGCCTGCCTA
Y
GTGTTGGCGTTACCGACGTGAGCCACCGCCCTGGCCACACTCGTTCTCTCGATTGCCAGTTGTCTTCAGTCTTCTCTGGTTGGGAAAGAGGTTGTAGTTA
Celera SNP ID:            hCV380399
SNP Position Genomic:     22756
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21791):
GCCAAGGCGGGAGGATTGCTTGAGGGCAGGAGTTTGAGATCAGCCTAGGTGACATAGTGAGATCCTGTCCCTATTTATAAAATAAAAATTTTTAAAAAGG
A
AAAAAAAAAAAAAGATACCAGAAGTGCCAGGCACGGTATCTCCCACCCGTAACCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACGAGGTCAGGAGA
Celera SNP ID:            hCV26914102
SNP Position Genomic:     73795
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,8)   total(A,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21792):
GTTTGTCAAAGCTGGAGACAAAGTGAAAGCGGGAGATTCCCTCATGGTTATGATCGCCATGAAGATGGAGGTAAGGAAATCATGAGTTCATTTGCTATGA
R
GACTTTGGGAGCAATCATACCTAATGGTTCTTTTGCCTTATTTTGTAAGTTAATACCACCTTAAATATGAAAAGCCATGATTGACGAAGCATTAATTGTA
Celera SNP ID:            hCV25963612
SNP Position Genomic:     88219
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,1|G,39)   total(A,3|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:21793):
AAGTTCCCACAGTAAAAATCCAAGAAAAAAAAATCCCTCATGTTTTACAGCAGTGGGAGGGGAAAAGTAACCAATTTGAAAGAGATCCAGAGCATTCTAT
Y
CTCCCTAACAGAAGAAATCCTAACTCCAAGGGAGATGTTGCCAGAACCTTTTTTGTTCAGGGGGAAGGTAGTTAGCCAACCACAACCCCCTTTAGTCTTC
Celera SNP ID:            hCV123658
SNP Position Genomic:     44212
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21794):
ACCCGGGAGGCAGAGGTTACAGTGAGCTGAGACCATGCCGTTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCGTCTCAACAGCAACAACAACAAAAAA
M
AAAAAAAAAAAAACAAAAGCAAGCAAACAAAAAACTGTTGAAAGCTTCCTAGGTGCAATTCTCATGTGAAGCTCAAGTTGAGAACTGCGAGCTACACCAG
Celera SNP ID:            hCV26914103
SNP Position Genomic:     89529
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21795):
ACAACTTAGAAATACTTCGCAGCACAAACACAGGACCACTAAAAGACTTGAGATTTAATCACAAGTTTATAGAATGCTTTCCCTCCCCCATACCCTACCA
Y
CATGTTGCAATGGTCTAAATATTTGTATCCCTCCAAAATTTACATGTTGAAACCTAACCCGCTATCCCCAAGTATTAAGAGGTTGGGGCCTTTGGCAGGT
Celera SNP ID:            hCV123659
SNP Position Genomic:     44443
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21796):
TTTAAATTTTTTCTAGATCAATTCTCTCCATTTTCGTCTAGCAGTGGAAGAAGACTGAATATCTCGTATACCAGAAACATGACTCTTAAAGATGGTAAAA
M
CAGTAAGTAATGTTTCATTAAAAGAGAAATGTGAGTCATAGAAATGTATCACATTAATCTGAAAAAGAGGATTCCAGCCTGGCCATGATCAGTCAGTTAC
Celera SNP ID:            hCV25956146
SNP Position Genomic:     71625
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,7)   caucasian(A,4|C,2)   total(A,9|C,9)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:21797):
GTGCTCTATCCTCATTTTATCCTTTTACATTGAATGAAAATGCATCTAAATACGTCCCATGTGGTATTCCTGAGCCTGACCTTAACGTTTTTAGAATGGA
R
CGTTGTCTTACTGTGACCTTCCTTTTGAAAGTTTATAATTGGTACAGATATGAGGTTCAGAATAAATTGCATCAGCTTAGCTATGCTGAAGCTCCTGGAT
Celera SNP ID:            hCV8255724
SNP Position Genomic:     70400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21798):
ACTGGCAAGGTCTAGAACAGTAAGGCATGAAGGCATGCAATGTATTCGGGGCACAGAGTGGATGGCCTGGGCCACTAGGCAGAGAAGGGCAAGCAAGGGA
Y
GCAGCTGCCTAGCAATAAAAGGCCTTCTCTTGTCCCAGAGGACTTCATTCTGGAGGCAGTGAGGAGCTGCTGGAGATTTTCAACCAACTTAAGTTTTTCA
Celera SNP ID:            hCV26914104
SNP Position Genomic:     92951
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:21799):
AAGCTCTTCACTTACCATGGATGCACCCATAAACACTATTTAACCCATTAACTGGAGTGTAACTAATCACCTAACATTGTAGAAATGGATCTCTTTGGCC
R
GGCGCGGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCAGGGCGGCTGGATCATGATGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAA
Celera SNP ID:            hCV1475810
SNP Position Genomic:     68650
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21800):
ATGGACCACAAAGGACCTCTGTGTTGTTTTTTTTCTTTTTATTTATGTTTTATTGTTTATATTCATGGTTTGCAACATGATGTTATGAGTATATATAGAC
M
GTAAAATGGTTACTATAATGAAGCAGATTAACATATCTAGGACCTCTGTGTTTTCAAATATTAACCTGTCACACTGAATCTCAAGGTGTTTGTCAAAGCT
Celera SNP ID:            hCV8969394
SNP Position Genomic:     88031
SNP Source:               Applera
Population(Allele,Count): african american(A,30|C,4)   caucasian(A,31|C,9)   total(A,61|C,13)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21801):
TTCACCATGTTAGCCAGGATGGTTTTGATCCCCTGACCTCGTGATCTGCCCACCTTGGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACGGCGCCC
R
GCCTAAATCTTTTAATATACTGTGAGGCATGTATACCGTTACGCCTTTACAATGGGAAACCAAGGCTGAGAGAGGTTTAATAATTTGCTCAAGGTCATAA
Celera SNP ID:            hCV1475811
SNP Position Genomic:     84838
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21802):
GTTTCACCACTTTAGCCAGGCTGATCTCAAACTCTTGACCTCAGGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGAATTACAGGCTTGAGCCACCGC
R
CCCGGCCGACTTTCCTTTTCACAGAGCAGAAGTTTTAAGTTTTAATGAAGTCCAGTATATAAATTATTTGTAGATCATGCCTTTGGTGTTGTATATAAAA
Celera SNP ID:            hCV28571
SNP Position Genomic:     55185
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21803):
TTTTTATATTTGTAAGTTAGCCATCACTTTGCCTGCTTTTGCCATTTAAAAACTCCGATACCCCAAATGATAGACTGTTGCCAAGCTGCATCTGTTTTTT
R
ATTTTTTGTTTTGCCCAATACTCAAATGAGTAGACAAAATAATAGTTTTTATTTGGCTGCATTGCAAAACCTAAATGTACATTTTACCTAGAAAAAAAGC
Celera SNP ID:            hCV25964349
SNP Position Genomic:     63696
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,37|G,1)   total(A,72|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:21804):
AGGACGTGGGTCGGCCGAGGCAGTGTGGCCGCCGGTGCCCGCAGTGGACTTCGGCAACGCGCAGGAGGCGTACCGCAGCCGGCGAACCGGGGAGCTGGCG
Y
GCAGCCCGCTGGTGCTGCACTTGTGCGCCTGGCCCGTGCTGGTGGCGTGCCATGAGCAGGCGCGCGGGGTGCAGGCAGGGGCGCGGGGCTTCTGCCCGTC
Celera SNP ID:            hCV28952987
SNP Position Genomic:     41009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21805):
ACATCATAGAGTGTCCTTACACAAACTGAGATAGTATAGTCAACTACACACCTAAGCTATGGTATAGCCTATTGCTCCTGAGCTACAAACCTGTACAAAC
R
TTACTGTATTGAATACTGTAGGCATTTGTAACACAATGGTAAGTATTTGTGTATCTAAACATCTCAAAACATAGGAAAGGTAATGTATTGTGCTATTATG
Celera SNP ID:            hCV28952988
SNP Position Genomic:     36751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21806):
TTTAAAGCATTTTGGCATTGCTATGACATGCCTACTGTATTTTTCAAACATGTAAGTTTATAACTGTTCTTTTACTATGGATAGTTTGAGAAGCACTGGT
R
TAAACCAGAATTCCACAAAACATACTTCTCAAATATTAATAATAGCTTAGTCTGTTTTTGTTCTCATAAGAACAATAGATTTTACTTTAGCCTTCTTTTT
Celera SNP ID:            hCV11792030
SNP Position Genomic:     61269
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21807):
TGAAGGTAACAGACTTGAAACTTCAGGCCCTTCTTTGACATTAATCTCTTCCAAGACCCTGACCTAATTTTGTATTTGCAGTTTTGTATTCTTCTCCTTA
R
AGAAGACCCCCAAATTGTTTTTTGTTTCAGGCCCTATAAAACAACTGTCCTGAGCATGGCATAGTAAATGAAATTCAATTAAGGCAAAAAAAAAGGGGGG
Celera SNP ID:            hCV28952989
SNP Position Genomic:     36016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21808):
TATTTCCAGAATTCAAGGAAAAGGAGGATAATTTTTCTGAAGCAGTAAATCAAGAGAGTTTCGACCTTGGAAATCATAAGAGAAAAAAAGGTTTCTAAGG
R
TTAAGGAAGGAGAAAGCTTTTGGGTATTAAGGAAACCAGCAGACATCTATTTCTTGTAAGAGCTTGTCAAGGCTCTTCAGAAAGAGAAGCCAGCTTTTAT
Celera SNP ID:            hCV29278193
SNP Position Genomic:     61811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21809):
TTGTATTTTATTCCTTCGTGTTTTGACTTGAAGAGGTTACCGTGGTTTTCAATTTCAGGAGACGAAGTTTCCGTGCATTATGACCCCATGATTGCGAAGC
Y
GGTCGTGTGGGCAGCAGATCGCCAGGCGGCATTGACAAAACTGAGGTACAGCCTTCGTCAGTACAATGTGAGTGATCTGAGACCGTGCCAGTGACCTTGA
Celera SNP ID:            hCV27536138
SNP Position Genomic:     66525
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:21810):
GTAATAATTATAGTAACAACAAACAATAGTGATCACCCTGTTTGTAATCTGGTATCATGCAGTACATATCAACATAACAAAATTGAAAAACCATCATTTT
Y
CCCTTTCTGTTTTGCTTTATCACCCACTTACTGGTGAAGATTACAGCGTAGGATGACAATGTCAGCTACACTTTTTGCTTGGCTGTGAATCTAGTCCTAA
Celera SNP ID:            hCV29278194
SNP Position Genomic:     63369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21811):
AGATCATTGAGGAGGCCCCAGCGGTAAGGACCTTGGAAAGAAATTTGTAAGCTTCTCCGTAATGTGAATCTTACTCTGATTTTCACATCAGAAATCTGTG
R
ATCTGGTGTCTCTCACCCCTCAAACTCCTGCTGGACAACTGTTGCCTAATAGCAGTGTAGTGAAAAGACCTCCTGTGGTATTGGGGATGAGGAGGAGATT
Celera SNP ID:            hCV25961877
SNP Position Genomic:     48362
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:21812):
TTTTGAATGTTAAATTTAATAGCAGCAAATTTTTCATGAAATAATGACATTTTCTTTTAGTGTACGTAGTTGCATCTGCGTTAATGTAAAAGGCTGGTAT
Y
GGTGAAGAACAGTACGGTTTGGTGTTGAATGCAGTATATAATTCACAGTTGCAGTCCATACTGTCTGAGTCAGTTCAGGCTGCTAGAACAGAATACCATA
Celera SNP ID:            hCV29278195
SNP Position Genomic:     85898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21813):
TAGCCTGGGTGACAGAGCGAGACTCTATCTCAAAACAAATACATAAATATAAATAAGTAAAGACACGGATATTGTTTCTAGTGTTTGTGATTGGAAAGTT
W
CTAACTAGATTGCCTCTGCCTTTATTGTACTTTCTAAGCTTATAAAAATATATGTATTATATATCTATTACATGCTAAAATATATTAATATTTAATATAA
Celera SNP ID:            hCV29278196
SNP Position Genomic:     90792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:21814):
GCCCCATTTAAAGTATGACCTTTTGTTATTCTTTATCCTCTTAGCCAGCCTTCATTTTCTTCATAGCATGTAACATTATATTCAATACCTGTTTACAGAT
A
TTGTTACTTGTTGCCCTAGAATGTAAGCAGAGACTGTGAAGGCAGGGACATCATATGTTTTGTTCCTCACTATGTCCCCAGTGCCTGGATCAGAGCCTGG
Celera SNP ID:            hCV11792037
SNP Position Genomic:     67441
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21815):
CACAGGTGAGGGTTGTGAAGAGATTTGCAGTGCAAAAGGAATACGTTTTGTGCAACTGATGCAAAGTTACTTATAGAAATTTTCTATTTTTAGCCTTTCC
Y
AAGATCTTTACATTTGATTATTGGATTATCATTGTAAACTAGGCATGTCCCATCTCATTTCTCAGCCAGTCTGCCTTTTTACTGGATCCTGTGTACTTTA
Celera SNP ID:            hCV25968091
SNP Position Genomic:     18892
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,8|T,30)   total(C,37|T,37)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21816):
GCTCACCATTTGGTGAGTCAAGAGTCTAAGCTCGAGGACCTGCCTGTGCAGTCAAGCCTTCCTAGAACAAGGGTTGAATGATGACTGATGTAAGTGTCCT
R
GGTTCAGGCTGCAGATACAGATAGTTAACAGTGTTCAGGGAAAGCTGGTGAAAATGTCAAGGTTAGGGGTTCCGGAGAGCCAGTGTCAGCCTGAGAGAAC
Celera SNP ID:            hCV1475783
SNP Position Genomic:     62113
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21817):
GTGATTTGTTGTATTGGTACATAATAACTAAAATAGTAATAATTATAGTAACAACAAACAATAGTGATCACCCTGTTTGTAATCTGGTATCATGCAGTAC
M
TATCAACATAACAAAATTGAAAAACCATCATTTTCCCCTTTCTGTTTTGCTTTATCACCCACTTACTGGTGAAGATTACAGCGTAGGATGACAATGTCAG
Celera SNP ID:            hCV1475784
SNP Position Genomic:     63334
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21818):
CTGAGACAAGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAACCGAGATCGCGCCACTGCACTCCAGCCTGGACAACAGGGCGAGAGTTCATCT
A
AAAAAAAAAAAAAAAAAAAAGGAAATGGATCTCTTTTCAGTCAAACACTTGTTCTCCCCACATCCTACACTAATTTCTTATCACTTCTTTTGTTCGCCAC
Celera SNP ID:            hCV11792038
SNP Position Genomic:     69060
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21819):
GCTAGTAAGAAGTTTTGGTTTTGATTATATTGAACAAACACTGATTTTTATATTTGTAAGTTAGCCATCACTTTGCCTGCTTTTGCCATTTAAAAACTCC
R
ATACCCCAAATGATAGACTGTTGCCAAGCTGCATCTGTTTTTTAATTTTTTGTTTTGCCCAATACTCAAATGAGTAGACAAAATAATAGTTTTTATTTGG
Celera SNP ID:            hCV1475785
SNP Position Genomic:     63652
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;JBIC-allele(A,180|G,1309)   total(G,1309|A,180)
SNP Type:                 INTRON


Context             (SEQ ID NO:21820):
ATGATGCTCAAAGGAAATGCTCATTGGAACAGTTCAGATTCCAGATACTTGGATCAGGGATGCTAAGCCAGTTAAATATAATGCAAATAATCCAAAATCC
A
AAAAAAAAAAAAAAAATCTGAAATTCAAAACACTTCTGGTCCCAAGCATTTTGGGTAAGTGATACTGAACCCGTATTATTATAGGATCCTATCATTAGAA
Celera SNP ID:            hCV11792039
SNP Position Genomic:     70097
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21821):
CTAAACTCAATGATAATAGCTAAGATTTATTGAGTTTTTGGTTTATGTCAGATACTGTATTAAACACTTTCCAAAGATTGTTTCATTTGCATTTTCAGAA
M
AGGCCAATGAGATTAGTGTTATTGTTAGTGTGAACTTTATAAATTACTAATCTCTGTGAGCCAAGGTCAAGGCTCAGAGAGATTAGTAATTTTCCAAAAG
Celera SNP ID:            hCV8256893
SNP Position Genomic:     74365
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,11)      total(A,1|C,11) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:21822):
GGAATTGTTATTTTTAAAGAATAACAAGTATTTTTCAACAACGGACTCCTTTTTTTTGAAATTCAGCAGTACTTGGTCAAACCTAACCAGGAAATATTTT
R
TGTGTACTGTTCTTGACCTTGCCTCATTCCAAAAATGATTTAAGATGACTGATATCTGCTATGCACAAGGCAGACTGCCTTCAAAGGACATAAAGTCAAG
Celera SNP ID:            hCV15967005
SNP Position Genomic:     64310
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,154|G,1325)   total(G,1325|A,154) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21823):
AGGAAGACCCCAGAGGACCTCCTCAGATTCAGCCAGGCCTGAGGCAGTGGGGCCTGAGGCAGGGTAGAGCAGTAGGAATGGAAGGAAGAGATGCATAGGA
Y
AGGGAAGAATTTGGCAGCTTTGTAGTAACTGTCCCTATTTATAAAATAAAAATTTTTAAAAAGGAAAAAAAAATAAGATGCCAGAAGCATTTATGAGTCT
Celera SNP ID:            hCV8256894
SNP Position Genomic:     75854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21824):
TCGCTACTGAAGCCGGGCTCTGGTCTTTGATTGGTGTTCGTGGAGACGCCCTCACATTCTTGGATCAGCCCAAAGGTAGGCTCAGGCTCCGACGGTGGCC
S
GCGGGGGTCACGAGGCTTCGTAGTGGAGGAACGGGTTTGGCGTGTGGGACGCAGCTGCCTCTGTACTGGGGAGTCACGGAGTGGCCGGGCTCCAGGGACA
Celera SNP ID:            hCV8255336
SNP Position Genomic:     6039
SNP Source:               Applera
Population(Allele,Count): african american(C,11|G,27)   caucasian(C,27|G,13)   total(C,38|G,40)   
SNP Type:                 UTR 5;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,24)   caucasian(C,19|G,9)   total(C,29|G,33)
SNP Type:                 UTR 5;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:21825):
CCACCACGACCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGTTTTCACCGTGTTAGCCAGGATGGTCTCAATCTGCTGACCTCGTGATCCGCCCACCT
Y
GGCCTCCCAAAGTGCCAAACAGGCGTGAGCCACCGTGCCTAGCCAATCCAGGCTCTATTCTTAGCACCTGCTACTTACTGGCTGAGTGATCTTAGCCAAG
Celera SNP ID:            hCV11815328
SNP Position Genomic:     13774
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21826):
TATGACAATTGTTAAATTTTATATATATATGTGTGTGACCTGTAAGTCAAGTGAAAAGAATAATTTATTTGGGAACCATGACTGGAAAGAGATTTACCTT
S
AAGGTAACAGACTTGAAACTTCAGGCCCTTCTTTGACATTAATCTCTTCCAAGACCCTGACCTAATTTTGTATTTGCAGTTTTGTATTCTTCTCCTTAGA
Celera SNP ID:            hCV28952990
SNP Position Genomic:     35917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21827):
GTGGCGGTTTATAGTGAGGCTGACAGAAATTCCATGCATGTAGATATGGTATGTGTTAAAAATTGGAAGCCACGTCTTACGTTTATTCGTTTACTGTGTC
M
GTATTTTCGTTCTTTATGATGACAGTTGATATTTGCTAGTGTTATCAGGGTTGAAGTAGGTAAGTTCAAACTGCTCACTGCTAATTCTTGGGAACATTTT
Celera SNP ID:            hCV11815329
SNP Position Genomic:     13223
SNP Source:               Applera
Population(Allele,Count): african american(A,30|C,6)   caucasian(A,12|C,28)   total(A,42|C,34)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,7)      total(A,4|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21828):
TCCCTATTTTTTTTTCTGGAATTTTATTTTCATGTTTGTTGTTTAAGATGCTGATTATAAAGTTTCTCATTTCATAGATTTTTATGACAATTGTTAAATT
W
TATATATATATGTGTGTGACCTGTAAGTCAAGTGAAAAGAATAATTTATTTGGGAACCATGACTGGAAAGAGATTTACCTTGAAGGTAACAGACTTGAAA
Celera SNP ID:            hCV28952991
SNP Position Genomic:     35835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21829):
ACTTCTGTTCCTTCCTTTCTTCTCCTTCTGGTATTCTCGTTCTGCGTAGTTAATACCTTTTGTAGTTGTCTTGCAGTGCTAGGTATTGTTCTGTTTAAGG
T
TTTTTTTCTCACTGTTTTTCAGAATTGGAAGTTTCTGTTGTCATATCCTCAAGTTCAGAGGTTCTTTCCCTGCCATACCCAACGTACTAATGAGCCCATC
Celera SNP ID:            hCV26914115
SNP Position Genomic:     57806
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21830):
GCCCTCACATTCTTGGATCAGCCCAAAGGTAGGCTCAGGCTCCGACGGTGGCCCGCGGGGGTCACGAGGCTTCGTAGTGGAGGAACGGGTTTGGCGTGTG
R
GACGCAGCTGCCTCTGTACTGGGGAGTCACGGAGTGGCCGGGCTCCAGGGACATGGCGGCGGCCTCTGCGGTGTCGGTGCTGCTGGTGGCGGCGGAGAGG
Celera SNP ID:            hCV25970778
SNP Position Genomic:     6086
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:21831):
AAAAAATCTTAACAGCACAGATAGTTTACATTATTTTTATGTTATGAATCTTTAGTAGCTCACAGAAAATAATCTCTGGTGGCAGAATTATAGACATGAC
M
ATAAGCTGGTATAGAGCTACCTTGAATCAGGGAAGCAGCTTCTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGACTGCGGACTGCA
Celera SNP ID:            hCV442458
SNP Position Genomic:     8277
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21832):
TCTGGTTTTTCTTTTCTTAGGCCTCCAGGGCTCTTCAGGATAGTACCATAGACCCATTTCCTGTCTTCCCTTTCAAAGCTTAGCTATTGTCTAAAGAACT
R
TCCTCAAGTATGTCACTCTGGAGAGTGTTAGAGTTGTTAATGGCTTATAGAAGTAAAACTCTTTGCCAGGAGACTTGGTTCATGCCTGTATTTTCAGCAG
Celera SNP ID:            hCV442459
SNP Position Genomic:     7811
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21833):
CCAGCTAATTTTTATATTTTTTTAGTAGAGATGGGTTTCACCGTCTTGGCCAGGATGGTCTTGATCTCTTGACCTTTTGAGCTGCCCGCTGTGGCCAAGG
K
TACTGATTTTATTGATCTTTTCAAGGAACTGGTTTGGGTTTTGGTGATTTTTTTCTATTGATTTTCCATTTTCAATTTCATTAATTTTTGCTTTAATTTT
Celera SNP ID:            hCV12067128
SNP Position Genomic:     56284
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,8)      total(G,1|T,8) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21834):
TTGGCCAGGATGGTCTTGATCTCTTGACCTTTTGAGCTGCCCGCTGTGGCCAAGGTTACTGATTTTATTGATCTTTTCAAGGAACTGGTTTGGGTTTTGG
K
GATTTTTTTCTATTGATTTTCCATTTTCAATTTCATTAATTTTTGCTTTAATTTTTATTATTTCTTCTGCTTACTTTGGATTTAATTTGCTGTTCTCTTC
Celera SNP ID:            hCV12067129
SNP Position Genomic:     56329
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21835):
CTGCATAACACCATTTTATTCAATATAACAATGGTTCCATAAGATTAAAATGCAGCTGAAAAATTCCTATCCAGTGACATTGTGGCAACTGTAACATCAT
R
GTACAATGCATTACTTTCTTTAGGTTTAGATATATGTAGATACACAAATACTTACCACTGTGTTACAGTTGCCTACAGTATGCAGTAACATGTTATTATT
Celera SNP ID:            hCV16088780
SNP Position Genomic:     57593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21836):
GGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTAATCCCCCCACCTCAGCCTCTCAAATTGCTAGGATTACAGGCGTGAGCCAC
Y
GCACCCAGCCCACTTATCCTCTTTAGCTGAAACTTAATAGACGTTATACTTTTTTGTTCCTAAAGTGAATCTGGCCTGTTTTCTGTCAGCTCTTGGTTAC
Celera SNP ID:            hCV27986872
SNP Position Genomic:     9515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21837):
GTGTTTTTACATTGTTTTGGTCATAATTATAATACTCGCTCACATTTTAGAAGAACAAATCCCCTCAGGGCTACTGATGTTGGAGAGGGTGTGGCTTCAT
Y
ACTCATTAAATCATCCAAGTCTTCTCTGCCTTTTGCCTCCTTCTGTTTCTTCCCTTTTTGCTGTCAGCGTGTTTACTTTTAGAAATCTTGCTGTCCTTCA
Celera SNP ID:            hCV12069953
SNP Position Genomic:     31080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21838):
GAACTCTGTACAACAAACCCCTGTGACATGTATTCACCTGTGTAATCTTCACATGCACCCCAAACCTAAAATAAAAGTTAATAAAATAAAATTGAACTTT
K
GTTTAAAAGATATAAAACTCTAAACTGGCTGCAACATATGAGTATCCAGCATTTTATCTGTATCTGGCATTGCATTGTTTCCTGTCACTAGGATGTGGGT
Celera SNP ID:            hCV12069954
SNP Position Genomic:     30777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21839):
GCCTGCTCCTGCCGCCGAGGTGGGTGGAGGGGCCATGGCTCAGTGGGCAGAGGCGGGAGCGAGGGGTGCACGGACCCGCGTGAGCGGTGGGAGGTGCGGC
R
GAACCCAGGGTCGGTGTGGGGAGGACGGTAGGAAAACCCCAGGCACTTTCGGAGGGGTTCTGCCGGCAGTCACGGCGTCGGGAGGAAGACATCCCCACCA
Celera SNP ID:            hCV25957579
SNP Position Genomic:     6309
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:21840):
CCAAAGCTCTTTCATATCACACACACAACACATATAAATACACAGACAAACAGAAGAAAAGGACTCATTCCCTAAGCCAGGAACTGAATCCTGAACCCGG
K
ATACCATTGTGAAAAGACAAAGCTAGGCCACATGGTTACAAGGTCAAGCTCCCAAGGACATACAAGACAAGAGGGGAAACCTCATCCAGTTTTTTTTTTT
Celera SNP ID:            hCV90969
SNP Position Genomic:     40283
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21841):
CACTCATACATATGTCATCCATCAGCCCCTGTGACAACTCTTGGGCTCCATAGAGCCCCATCGAAAAACACTTTTAAATTAGGTGCAACCTTTTTTTTTT
T
AAAAGGAGAAATAACTTTATTATGTTGAGCCTATGGATTCTATTGAAGAAATAACTTTATTATGAACTGTCAAAGAACATTTATTTCACGTGTGATATTA
Celera SNP ID:            hCV11815331
SNP Position Genomic:     11916
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21842):
AGCACTTGCATTTTATGTTTTCTTTTGTAAGGTGTAAATTTCATAGGCTTGATACTCATAAGTTTGTTACTGAATTTTAAATTTTTTCTAGATCAATTCT
Y
TCCATTTTCGTCTAGCAGTGGAAGAAGACTGAATATCTCGTATACCAGAAACATGACTCTTAAAGATGGTAAAAACAGTAAGTAATGTTTCATTAAAAGA
Celera SNP ID:            hCV27862985
SNP Position Genomic:     71550
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:21843):
GAGCTTTCAGAAAATGATACATAGCTAAGTCTCCAAAAAATGCTAATAAGCAATGACCACAATTAAATAGAATGCATGAAACAGGAAGCTTAAGAGACCA
R
GCTGGTCACAGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCAAGGCGGGAGGATTGCTTGAGGGCAGGAGTTTGAGATCAGCCTAGGTGACATA
Celera SNP ID:            hCV8969374
SNP Position Genomic:     73650
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21844):
CTCGTTACACCTGGTGAGTTTTCAAAGCCTTCTGAACCTCAGGGTCCTCATGAATAAATTTGTGTTGTTATTTATCATGCAGGGGTTTATGAGGATTAAG
Y
GTGAAATGTACATAACAAAATGTCTTGCTCGTTGTATTTTATTCCTTCGTGTTTTGACTTGAAGAGGTTACCGTGGTTTTCAATTTCAGGAGACGAAGTT
Celera SNP ID:            hCV25956054
SNP Position Genomic:     66393
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,38|T,2)   total(C,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:21845):
TTCCTGAGAATTGTCCTGTTGCCACATGGTACCTTAGTAGGTTTTTTATTTTTCCTAAGAGTTGTTCACAGTAGAAAATACTTAGATAAAAAGAGCAGAT
R
GTTTTCTGAACATATTGTTTTCCCCACTCAGCAGGAACTGGGGGTTTATTCTCTTCCTAGATTGTTGGACTGCCCACCAACATTGACTTCTTACTCAACC
Celera SNP ID:            hCV25971290
SNP Position Genomic:     68123
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,39)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:21846):
GTTGTTGGAAGTTGGCGGGGCGCGGTAGCTCACGCCTGTAATCGCAGCACTTTGGGACGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCAAC
Y
TGGATAACACGGTGAAACCCCGTCTGTACTAAAAAATACAAAAAATTTAGCCGGGCGTGGTGACACGCGCCTATAGTCCCGCCTGTTAGTCCCAGCTACT
Celera SNP ID:            hCV11815333
SNP Position Genomic:     7438
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21847):
GTAGGCTCAGGCTCCGACGGTGGCCCGCGGGGGTCACGAGGCTTCGTAGTGGAGGAACGGGTTTGGCGTGTGGGACGCAGCTGCCTCTGTACTGGGGAGT
M
ACGGAGTGGCCGGGCTCCAGGGACATGGCGGCGGCCTCTGCGGTGTCGGTGCTGCTGGTGGCGGCGGAGAGGAACCGGTGGCATCGTCTCCCGAGCCTGC
Celera SNP ID:            hCV25970279
SNP Position Genomic:     6114
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,40)   total(A,1|C,77)
SNP Type:                 UTR 5


Context             (SEQ ID NO:21848):
TCGTTACACCTGGTGAGTTTTCAAAGCCTTCTGAACCTCAGGGTCCTCATGAATAAATTTGTGTTGTTATTTATCATGCAGGGGTTTATGAGGATTAAGC
R
TGAAATGTACATAACAAAATGTCTTGCTCGTTGTATTTTATTCCTTCGTGTTTTGACTTGAAGAGGTTACCGTGGTTTTCAATTTCAGGAGACGAAGTTT
Celera SNP ID:            hCV25956055
SNP Position Genomic:     66394
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:21849):
GAGACATCAATAGCTTATTTGAGTTATTATGTAACTCCATGCCTGCAGCATTTTTTGAATATGTAAGTTCTTTACTTATGAAATGTTAGCCATACATTGC
R
TCACATTATAATTTATTCCCCCAATAGCTGGAAAGCCCCTGGGAATCAAAGACCTGGTAGTATATACATTTTTATTTTTTGTATATATTGCCTGGCATAC
Celera SNP ID:            hCV479841
SNP Position Genomic:     36338
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21850):
TTTTATGTTTTCTTTTGTAAGGTGTAAATTTCATAGGCTTGATACTCATAAGTTTGTTACTGAATTTTAAATTTTTTCTAGATCAATTCTCTCCATTTTC
R
TCTAGCAGTGGAAGAAGACTGAATATCTCGTATACCAGAAACATGACTCTTAAAGATGGTAAAAACAGTAAGTAATGTTTCATTAAAAGAGAAATGTGAG
Celera SNP ID:            hCV25956270
SNP Position Genomic:     71560
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,37)   total(A,1|G,71)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:21851):
GCATACCATAAAGTCTCCAAAGGATGGCACAGTAAAGAAAGTGTTCTACAGAGAAGGTGCTCAGGCCAACAGACACACTCCTTTAGTCGAGTTTGAGGAG
R
AAGAATCAGACAAAAGGGAATCGGAATAAACTCCAGCAAGGAAATGGCCAGTTAAGTAGTGTCTTCTCTCTCCACCAAAAAGAGGAAGTGCCTCCAGCTT
Celera SNP ID:            hCV25964364
SNP Position Genomic:     89987
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:21852):
CTTACCGATTTCATAAACAGCCATTTTTTCTCTGTGTCCTCACGTGGTGGAAGGGACAAGGGACCTCTCTTCAGGCCTCTTTCATAAGGGCACTAATCTC
W
TTCATGAGGCCAGATCCCTCATGACCTAATCACCTGCTAAAGGCCCCACCTCCAAATACCATCATCCTGGAGGTCAGGATTTTAACAAATGAATTCTGGA
Celera SNP ID:            hCV8256904
SNP Position Genomic:     86199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21853):
GGGGCAAGCCTTCACTCTAAAATCTGGACAAGCATGCAAGTATAGTGAGTCACAGCCAGATCAGTTTACCTGCTGGAGCCCTAACACTTGCATGGGAATT
Y
TGAAAAATGGCTGAGGCTAAGTGTGGGCCAGTGTGCAAGTGAGAAACTCCTTGGGGCCCTGTCTTAGAGGGACCTCCCACTTTCATGGGTTTTGCCTCCA
Celera SNP ID:            hCV11796516
SNP Position Genomic:     44000
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21854):
TAACGAGTTTAATGTAGATGTTGGCTCCTCCATAATTCCTTTGTGCTTTCCTAAGGGAAGAACTCATATCTGACACCTTTTTATTTTTTTAAGCATACCT
Y
CTAGCAACCCAGTGAGCTTGTACATAGTCCTCAATTTGTTTTTATTTTTGTTTTTTGAGACAGGGGTTCACTTATCATCCAGGCTGGAGTGCAGCAGTGA
Celera SNP ID:            hCV26040768
SNP Position Genomic:     20542
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21855):
CACACAGACTTGTCTGTGAATGTTTATAACACCGTTATTCATAATAACCACAAACTGGAAAATAATTCAAATGAATGGGTAAACAAAATGTGGTATATCC
R
TATAACAGAATCCATATTATAAAAAGAAATGAGCTACTGACACACTCCACAACATGAATAAACCTTGAAAAATTATGTGAAGTTAAAGAAGCCAGACACA
Celera SNP ID:            hCV50361
SNP Position Genomic:     29092
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21856):
GAATGGCGTGAACCTGGGAAGCAGAGGTTGCAATGAGATGAGATCATGCCACTGCACTCTAGCCTGGGTGACAGAGCAAGACTGTCTCAAAAAAAAAAAA
A
GTGGGCAAAGGACATGAACAGGCACTTCTCAAAAGAAGACATACATGTGACCAACAAACATGAAAAAAAGCTCAATATCACTGATCATTAGAGAAACGCA
Celera SNP ID:            hCV26040769
SNP Position Genomic:     29941
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21857):
ATGCAGTATAGCCATACAATGGAGTATTATTTTGCCATCAAAAAGGAATGAAGTACTGATTTGTGTTAAACAAAAAATGGATGAACCTTGAAAATATTAC
R
TTCAGTGACAGAGCCAGTCACAAAAGACTGCATGTATTATATGATTCCATTTATATGAAATGTTCATATAGGTAAATCTATAGAGACAGTAGATTCACAG
Celera SNP ID:            hCV50362
SNP Position Genomic:     28470
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21858):
TTTTTAATCTAGACAAAAAAAAATCCACATTCCTGTGCCTTCTTATAATCTTTTACCAAAAACGCATTTCAAAAACAAAACAAAACAAAACAAAAAAAAC
R
CATTTCACTTTCCTTACACACCTTACATGTAGAATTGTTTCAATTTCTCAAAGATTACTTAAATCACATAAATTAAAGGCATTATACTTTTTACTTTTCC
Celera SNP ID:            hCV26017583
SNP Position Genomic:     40040
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21859):
CTTTTAAGTTGCAGCTTAGATAATTGTGAAAAATGGAATAGATGATCAGAACATTGTTGGGATAGTGGATTACAGTTAAGTGGGATCTCTGTCTCTTTCT
S
CCTCTTTTTCCCTCTCTCCCTTCTTCTGTCTTCACTAGAAGATTGCAAAAGAAAGCTTTAGGTCAACAGTAGCCTTGAAACCGAATCAGTCTTAAGCTAG
Celera SNP ID:            hCV28030589
SNP Position Genomic:     8543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21860):
TTGATAAAATAGATATGCCAAGTGATGTGGAGAAGAGAAGGAAATGTCTTTGTCCCTGCTTTTTTTCTGTTAAGGAATTTGCCATTTGGAAGTGTGTATG
W
TGAGAAGCTGGAGAGCATGATGGTCAAGAGTGCGGGCCCTGGAGTTCCTGTACTTTAGTATTTGACTTTTGTGAACATTTTTATTTTGATAATTTTTCTG
Celera SNP ID:            hCV70506
SNP Position Genomic:     74911
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21861):
TAGGACGGGGAAAGCCAGCTTGTGTGCCATTGAATCACCACGTTAGGGCCTGGTGCTGTTGGGTGGCCCACCTCGTTACACCTGGTGAGTTTTCAAAGCC
Y
TCTGAACCTCAGGGTCCTCATGAATAAATTTGTGTTGTTATTTATCATGCAGGGGTTTATGAGGATTAAGCGTGAAATGTACATAACAAAATGTCTTGCT
Celera SNP ID:            hCV444535
SNP Position Genomic:     66322
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,9)   caucasian(C,14|T,26)   total(C,35|T,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;JBIC-allele(T,181|C,1320)   total(C,1320|T,181)
SNP Type:                 INTRON


Context             (SEQ ID NO:21862):
TCAGCTCACTACAACCTTTATCTCCCTGACTTAAGCAGTTCTCAGGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTATACCACCATGCCTAGCTAA
T
TTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGTTTTCACCATGTTGGCTAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCTGCCCACCTTGGCC
Celera SNP ID:            hCV26914099
SNP Position Genomic:     65046
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21863):
TTTCATAAGAAACACTATTCTATTGCCAGATTGCAGCAGGAGAGAAGATTCCTTTGAGCCAGGAAGAAATAACTCTGCAGGGCCATGCCTTCGAAGCTAG
M
ATATATGCAGAAGATCCTAGCAATAACTTCATGCCTGTGGCAGGCCCATTAGTGCACCTCTCTACTCCTCGAGCAGACCCTTCCACCAGGATTGAAACTG
Celera SNP ID:            hCV27531039
SNP Position Genomic:     63940
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:21864):
CAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAACTGGGATTACAGGCATGCACCACCATGCCCGGGTAATTGTGTGTTTTCAGTAAAGACAGGGTTTCAC
Y
GTGTTGGTCAGGCTGGCCTCGAACTCCCGACCCCAGGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCACGCCTGGCC
Celera SNP ID:            hCV11798552
SNP Position Genomic:     81550
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21865):
AAACAGTTAACACTCCGTTCCTTCTTCCCCCATCCCCTGAGAACCACGATTCTACTCTCTGTCTCTATGAATTTGACTACTCTAGGTACCTGATATAAGC
R
GAATAATGTAGTATTTGTCCTTCTGTAATTGGCTTATTTCACTTGGCACAGTGTCTTCAAGGTTCTTCCATGGTGTAGCATATGTGAGAATTTCCTTTTT
Celera SNP ID:            hCV11798553
SNP Position Genomic:     80547
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21866):
TTCTAACTGATTGTTTACTCAGTTGGGCTGTGATTCCTTTAAGAATAAAAACTTGGCAAAAAGTAAAAGCTCAAATCAGACATTCACAAGCCCCTAAAGT
K
TGTGCCTGTATTTACAGCAAAAGCAGCAGTTTTCACATTTTTTGTCTCAGGAACTGTACACTCTTTAAAATACCCACCAGAGCACTTTGGTTTGTGTTAA
Celera SNP ID:            hCV11798554
SNP Position Genomic:     80139
SNP Source:               Applera
Population(Allele,Count): african american(G,30|T,8)   caucasian(G,13|T,21)   total(G,43|T,29)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,7)   total(G,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21867):
ACTCAGACAAATTATTATACGCTTCCACTTACATGAGGTACTTTGGCTAGAGAAATTCATAAACAGAAAGTAAAATGCTGGTTACTAGGGACTAAGGAAC
R
GGAGGGAATGGAGAATTATGTTTGGAGATTAAAACATCCTGAGGATGGATGGTGATGACAGTTGCCCAACATTGTGAGTGTACTTAATGCCACTGAATTA
Celera SNP ID:            hCV28961827
SNP Position Genomic:     32633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21868):
AACTCAGACAAATTATTATACGCTTCCACTTACATGAGGTACTTTGGCTAGAGAAATTCATAAACAGAAAGTAAAATGCTGGTTACTAGGGACTAAGGAA
M
AGGAGGGAATGGAGAATTATGTTTGGAGATTAAAACATCCTGAGGATGGATGGTGATGACAGTTGCCCAACATTGTGAGTGTACTTAATGCCACTGAATT
Celera SNP ID:            hCV28961828
SNP Position Genomic:     32632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21869):
ATTATGCTAGGTGAAATAAGCCAAACTCAGACAAATTATTATACGCTTCCACTTACATGAGGTACTTTGGCTAGAGAAATTCATAAACAGAAAGTAAAAT
S
CTGGTTACTAGGGACTAAGGAACAGGAGGGAATGGAGAATTATGTTTGGAGATTAAAACATCCTGAGGATGGATGGTGATGACAGTTGCCCAACATTGTG
Celera SNP ID:            hCV28961829
SNP Position Genomic:     32609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21870):
GTATATTTGGGCTGTAGGCCTCTGATTTGACCAGTGCATTTGGCAGATGGCACAACCACATGGGCTCTACTTCTGCTCTGTAAGTTTATATACCAAATCT
R
TGGACCACAAAGGACCTCTGTGTTGTTTTTTTTCTTTTTATTTATGTTTTATTGTTTATATTCATGGTTTGCAACATGATGTTATGAGTATATATAGACA
Celera SNP ID:            hCV25960737
SNP Position Genomic:     87931
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,5)   caucasian(A,33|G,3)   total(A,56|G,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:21871):
GCCAAATTCCTGCCCTCTGTAGTTTCCCATTCACTTCTCTCGTTCACACAGATGCTCATTGATAGACACATACCCATTTTCTTCCTGAATTCTGAAACAA
R
TCCTTCCATTTTCTTTGTCAGAGCATATCTCCCTGCTCAGTGGGTGGTGGTATCTCAGGGCTTTGATGTCTGAACACTTTTCCCCACCCACCATCCCCCT
Celera SNP ID:            hCV25967962
SNP Position Genomic:     83457
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,40)   total(A,74|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:21872):
GCATTTTTTGTCTCTTCTATGTTTGACAGTTTTTATTTTAAAAAATCAACAGGAAAACATATTTGCTGATCACTTCTGTATTATGGCGTATTATGGTGGT
R
AATAGGTGAAGTGAACTACAGTGTGACCATATCACAAACCTACCGAGAAGAATTTCATGTTCACCAAATAGTCCATATTAGCCTTATTTCCACAAAAGTT
Celera SNP ID:            hCV27986272
SNP Position Genomic:     46773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 72
Celera Gene:                 hCG1811869 - 115000158384507
Gene Symbol:                 FLJ10521
Protein Name:                hypothetical protein FLJ10521
Celera Genomic Axis:         GA_x5YUV32W3P1(661960..832856)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12232):
CCACATTCCCATCCACCCACTTTCTTCTTCTTCTTTTTTTTTTTCTTGAGACGGAGTCTTGCTATGTCTCTCAGGCTGGAGTGCAGTGGCGTGATCTTGG
CTCACTGCAACCTCTGCCTTCTGGGTTTAAGAGATTCTCCTGCCTCAGCTTCCTGGGTAGCTGGGATTACAAGCAGCTGCCACCACACCTAGCTAATTTT
TTTTTTTTGAGACGGAGTCTCACTTTGTCACCCAGGCTGGAGTGCAGTGGCGTGATTTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTC
CTGCCTCAGCCTCCGAAGTAGCTGGGACTACAGGCGCCCGCCTCCACGCCCGGCTAATCTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCC
AGGATGGTCTCGAGCTCCTGACCTTGTGATCTGCCCCACCTCGGCCTCCCAAAGTTCTGGGATTACAGGTGTGAACCACCGCGCTTGGCTGCTAATTTTT
GTATTTTTAGTAGAGACGGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGA
TTACAGGCATGAGTCATGGTGCCTGGCCAGCCACCATGCCTGGCCCACCCATTTTCTGATTTTTTTTTTTTTTTTGAGAAGGAGTCTTGCTCTGTCGCCC
AGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGATTGCAG
GCATGTGCCACCATGCCTGGCTAATTTTGTATTTTTAGTGGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGATGATCCA
TCTGCCTTGGCATCCTAAAGTGCTGAGATTACAGGTGTGAGCCACCATGCCGGGCCACTTTCTGTTTGATCTACTATGGCAGAGGCCCTCAAACTTTTTG
GCCTCAGGAACTGGTTTCGGGGATGTGGAAGACAATTTTTCCATGGATGGGGTGGGGGGATGGTTTTGGGATGATTCAAACGCATTACATTTATTGTGCA
CTTTATTTCTATTATTATATTGTAATATATAATGAAATAATTATACAACTCACCATAATGTAGAATCAGTGGAAGCCCTGAGCTTGTTTTCCTGCAACCA
GATGGTCCCATCTGGGGGTGATGGGAGACACTGACAGATCATCAGGCATTAGATTCTCATAAGGGGCGCGCAGTCTAGATCCCTCACATGCACAGTTCAC
AACAGGGCTTGTGGTCCTCTGAGAATCTAATGCCACCATTGCTGATCTGATAGGAAGCAGAGCTCAGGTGGTAATGTGAGTGATGGGCATGGCTATACAT
AGAGATGAAGCTTGCTTACCTGCCACTCCCCTCCTGCTGTGTGACCTGGTTCCTAACAGGCCACAGCCTGGTTCTGATCCATGGCCTGAGGGTTGGGGAC
CCCTGCACTATGGAGCTGACTGGTGGGAGCGGGGCCAGACTGGGAGGCAGCGGCGGGGGCMCTGGGTCCCCATCTTGGCTTTGCCACCAGATTGCTGAGC
AATCTTGGACAAGTCACCTAACCTCTCTGACCAGGGAAATACCACCCCTGTATGCCCTCATTCTCTCTTTCCCAGGTCAGCAGCGGAGACAAGGAGGACA
GACTCCTGAGTCCCATCCAGATGTAATGTATCATTGATGATTTTGCTTACACAATAAATCCTGCCCTCACCAGAGTGCTCAGTGAGTGGGTAATTCTGGT
TAATTGAATGTTCTGGGACATGGAAATGTTCCCAGAAATCCTTTTTGTTCCTTTTGTGGCTATTGAAACCCATCCACTCATCTATTCAGCACATATTTGT
CTCGTGTCTATGCTGCACCAGGTTCTGGAGCAGGTGCTGGGGATACCACCCGGAATGAGACAACAGAGTCCAGCCTCCGTGGACTCACAGTCCGGGGGGG
AGACATGGGGCAAACATGCCACCACATGTGGTAGGTTGGGCACACTGACCAGGGAATGCAGGCTGCAGGTAGGGGCCTGGGGCCCAGTGTGGCCGTCCTT
GGAAGGAGCTCCCTGAGAAGGTGCTGTTTATGTTGACAGCACTAAAAAGCAGTTAACCATAGTGTCTGGGGGATGGAGTAGTCAGGGGCATTCCAGCCGA
GGGCAAAGGCTCAGAGAAACACCTGTGCATTCATTTGTGCTGTGGAGCTTAGAGTGTGCAGCTGGGGCAGGGCACAATGGCTCACACCTGTAATCCCGGC
ACTTTGGGAGGCCAGAGCAGGAGAATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATGGTGAAACCCCATCTCTACAAAAAAATACAAAAAT
TGGCGGGGCATGATGGTGCACACCTGTAGTCTCAGTTAGGAGGCTGTGGTAGGGGGGTCACTTAAGCCTGGGAGGCGGAGGTTGCGGTGAGCTGAGATCA
CATCATTGCACACTGGCCTCAATGACAGAGCAAGACTCTATCACCAAAAAAGAAAAACAAGAATGTGCTTCTGGGGAAGTGAGAGTGAAGAGGCGGGTGC
ATGTCAAGAGGGCAAGAATACGTGAAGATGTGGCCTGCTGAGGGCTGGCCTGGACTGTGAGGGCTGCAGGTTTATTTATTTTCCAGCATATGTTTTGTGA
TGTCACTCTTTCTCGCCAGAGTGGAGAGTAGAGGGAAAATGAAATCAAAACACTATCACAGAGGAGGGGCCTTAAATCAGAGGAGTGACAGAGGGCTGCG
AGTGACGTTGACAAGTGGAGAGCACAGCTGTGTCTAAAGGGCCACCACTCCTGGGGCCCTGCAGAGTGTGGCCCTGGGGGAATGTGGACCTGGCATTATC
AGATCTTCCGATTTGTTAAGAGAAGCTAGAAATCTGGCTTTTAATTTTTTTTTTTCAGAGACAGAGTCATGCTGTTGCCTAGGCTGGGGTGCAGCGGTGG
GATCATGGCTCACTGCAGCCTCAAACTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCACCTGAGTAGCTGGGACTATAGGCATGCACTACCGCATCTGG
CTAGATTTTTATTTTATTTTATTTTATTTTATTTTATTTTTGTAGAGACAGGGGTCTCCCTATGTTGCCCAGGCTGGTCTAAAATGCCTGGCCTCAAGCA
ATCCTCTTGCCTTGGCCTCCTAAAGTGCTGGGATTACAGGCATGAGCCACTGCTCCTGGCTGCAATCTGACTTTTTATGGGAAATCTCCCAATGATTAAA
TGATGGCAACTAACAACAACAAAACCACTGTGGGCAAAACAAAATGCTTCTGCAGACTCAATTTGTTTTATGAGCAGGTGGTTTGGAACCCTAGACCCAG
AGGGTTATATTGATAAGGGTTCTAGGGTGTCCTTTAGAATCCATTACGATCCTCTAAAGAGTGTGCCCCTAACCTGTGCTGGGCTCTGAGGGCACAACGG
GGGTCTGGGGCATGGCCCCTGCCCTCAAGGCTGTATCATAGCTGCCCTCAAGCTAGATGGGTCAAATCAGTTATGCACCCAGAGCCAACTTACAACAAAA
GGACTAGGTGCTATAGAGCTCAGAGGAGGGAGAGGTCAGGGAATGGAGGAGGCCATGTGAAAAGGCCTCCTGGAGATTCTGGGCCTTGTGTTGGTTCTCA
GACAGGAGGGTAAGACTTAGTACAACCAAAGAAGGTAAGGGGCATCCTGAGCTGGAGGCGTCAGACATTTCAGGATCAGATGGGAAATAAGACAATAAAG
AAGGCCGGGCACGGTGATTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGATGGGATGATCTCTTGAGCCCAGGAGTTCAAGACCAGCCTGGACAAC
ATAGTAAGACCACCATCTCTACAAAAAAAAAAAAAAAAAAAAGAAAGAAAAGAAAAAAAAAATGAGCCAGGCATGGCTACCTGGCAATATAGGCACTACA
GGCACCACCATGCCCGCACCTGTAGTGCCAGCTACTTGCAGGCTGAGGCAGGAGGATTGCTTGAGCCTAGGAGTTTGAGGTTACGGYGAGCTGATTGTGC
CAGCCTGAGCCACAGGGCAAGACCCAGTCTCTTAAAAAAAAACAAAGAAAGAAAAAAAACATAGCCAAGGAAGGGGTTGGAGTACACTGTGAAAGACCGC
GATGCTGGTCTGGGATGTGTACTTGGCTCTGGCTATGACGGCAGGACTCAAAAGTCCATTTCTGGTCCAAAGCTTAATGCCATGAGCCTGAGGTCACTCA
ATGGACATCTGAAGTCTTCTTCCTGCTTTGCTAGCATCCCCAAACCTCTCCTGTCTGCTGTCCTGCCATCATTTATTCACAGCAGGGCAGGGGCCGTGCC
TGTTGTGTTCACTGGTGTCTCCTGCGTGCCTAGAACGATGTCTGGAACAGAGCAAAAATGCTCAAAGAATATCTCCTGCCTACTTAAACTATGAGCCAGT
GTTGCCCTAGCCTGGGGCTCAGGACAACTCTGTGGTGCTTATGTTCTTGTGTCGAGAGGGACAATAAACAAACCAACAAGTCGGTGAATAAGATGATTTC
AGTGCGTGGCCTGTGTGGCTTGTCTCACTGCACTGTAGCCGTTTGTTTATTTGCGTCTTCTCCTAAGCCTATGAGCTCCGAGGGGGCGGGGCTGGGGTCT
GTCTGGTTCTTTGTCTCACTGGTAGCCCCTGAGGCTGGTGCCTGACAAATAGGGAGTAGTTAAAAAAAAAAAAAAAAAAAAGTTTTTGCTGGCTGTGGGC
TGTAAGGAACACAAGCTGAAAATGATTTCAACCTACGTGCACCTGTACCCTTTGGAGGCTGCAGAACTTATCATTATCAACCCAGGAGTAATTGCTGATA
AGCCCGCGTGTGAATTTCCTTGCAAATAGAGGGGTAGCGGGGGAGTGTTTAACAACAACGCGGATAATCTTAATTAATGACCTGATAACTGTAATTAATT
GCATCATATCCAGAGGCCCTCTTTGGAATTTCAGGAGGGAGTACCTAGTGTTTGGCAGCTTTGGAGCTGCAAAGGCAGGGGAATGCTAGGATCTCAGTCT
CAGCACTTTGCTGCTCAGTGAGCTTTGCCAAGTTACTCTCAGTTCTGAGCCTCAGTTTTCTCCTAGGGAAAATGGGGCTACATCACTGGGGTGTTGCCGG
TCTCAAAGCCGTCAATGCCTGAACCCGCCAGGGTTGTTCTTGGAGGTTTGGCTGCATGGCTGCAAGGTTCCCCATGTTGCCATGGCGGGGGTGGGGGGCA
ATACGGGGCCGCCAAGACTGGTTGAGGGGCAGGTCATAAGTCTAGGGTTTCCCCTGGGGCCGGTCCAGGATTCTCACCCTTTTGGGGGAACCTCAGGGCA
AAATGTTGAAGTGGGGGAGGAGAAGCCAGCACCCTGCGCGCCTGCGGGGTCTCCCCGCGGAGAACCGGGGAAGGAGAACCGGGAGGCGGGAAGTGGGGAC
CCCGGGGTAGGTGAAGGAGCGAGGAGGTCGCCGTGTGGCCGGGGCCGGGCCCCATCCCCGCGGGCCTCAGTTTCCCCCCTGTACTGTGGGGGGCCGGTGG
GCTGCCGGGACCGCTGGGGGCTCGCAGCGGGTCGGGGGAGGCCACGTCTCCCTCGCGGCGCGCTGGGAGCAGGGAGGGGGCGCGGCGGCCGCTGCCCCGG
CCACCAGGGGTTAAGCGGTGACCTCAGCCGCGGCGCCCCGGGACCGGGCGGGCGGGGACGGCGCCGCGTCGCGCACGGCGGCGGCGGCGGACAGCGAGGG
CCAGTCCTCGAAGCTCGGCGGGCGCGGGCACAGTCCCGGCGGGCCCGGACCTCGCGGGCGGGCGGGCGGCGCGGCCATTGGCTCGGGTGACGACGTCTGC
GTCGGTGGGGGCGCCGTCCCGGCCATGGGCGCCCGCGGCGGCCTGCGGAGCTGGAGGCGCGGCGCCGGCCGCCAGGCGCCTTTGTGAGCGGCGCGGACGA
CAAAGGCGCGGGCCCGGGCAGCCGAGGTGGGTGAGTGAGCGCGGGGGCCCTGCCTCCGCGGGATCCTCGCGTGTGCCGGAGTCTGCGAGTGCGCGGGAGG
CGCTCCAGGCGCCAGGGTCCTCCGGGTGTCCTGGGCGTGTCGCCGTGGGCGGGCGGGGGCCGTGTCCGCCGCTGTGTCCCTGTGTCTGGGTGTGAGAGCC
CCGAGCCCGCGTCTCCCCTCTGTGTGGGTCTCTCCTTGTGTCACTGGAGTTCTGGTGTTACTAGGGCGAGTGGCCTTTGTGCTTCAGCTTGTGTGTGTGT
GTGGCCTCCAGCCGGCTGGAGTCAGGACAGTTTGGGAACCCCCACCCCCACCCTGTGCCTCACTTTCCCCTGTGGTCCACTTCTTCCTGCGCTGACCTTG
GGGGTCCCTGGGATCGGGTGAAGTCAGGGAGTGCCCCTGTCGCCTCTGTGGTGAGTCAGCCTCTCCCACCCTGGACCCCCGCCCAGAGGCGGAACGGGAC
GGCCTCCTGCAGGAGGAGACTGTGGGAGGAGAGGATGCCGGGTCAGCCGGAGGCCGTGGCTGCGGAGCCGCCAGTCCCGGATCCTCCCTGGAACAGGGAT
ATATGTCAGGGAGGGCCCTAGATGAAGACCAGCCCCCCTGGAGTCGCTGGGATGGCCTCCGAGAGGGAGAGCAGGCCTGACTGTAGGGGGCATGGGGACA
ATTCTTCCTCCCTCTGCCAAAGCGGGGCCCTGGGGCGGGGGTCTCGAATCTTCCTTTGGCCCTGAAAGCCAGGAGGCCCTGCGTTGCATCAGTGCCAAGT
AGAGAGGTGGTGGCTGGTGGGCTGCACTTTCCCACTGGCTTTGGAGCTCAGTTTCTGCCCCAGAGTCCTTGGCCTCCCTTAAGGATGCTACTGGGAAGCC
ACGCCCCACCTGCCGGGAGCCCCATCTGCTCCTCCTCGGGTTCTGGGGAGAGAGGGCAGGTTGTGCGGGCTCATTAGAATGCATAGCTCTTCCCAGCATC
CGCCCAGCACTGTGCCCCCCACGGTGTTCAGGCCCTGGACACACAGACTAGAAAGCAGGYCAGCCTCCGGAAATCTCCAAGCTCCCTGTGACTGTGGGCT
GGGGACTGCCCTTCCCCTTCATCGGGCCCTCAGGCTGAAGCTCAGAACCCTCCTGTAAGGAAGGCTTCCTGGGGTGCCCGAATCTGATGCTCGCTCTGTC
CCCAGGCGCTTGCCTTCCTGAGGCCCCCTGTCCCTTCCCCTTCCACCAAAGAGCCTCTGTGGGCTGTTCTCTCTATCCAGGAAGTGGGTCCCATCCTTCA
CCTCTTTCATTTCTCACTCGGGAGCTACTTCCTCTCCAGTGAGCCAGGGTAGCCMCAGTGCTCTGAGGGTTCCTGCCCCAGTTGTGGGGGCGGGGGGCTT
TTTTCAGTCTTCCAGTGGAACAGGGGCCRTGTCTGTCCTTGATCACAGCTCAGAACAGTGCCTGGTGCATAGTGGGTGCTCTACACATAGTTGCTGAATA
AATGAATGTCCAATAACTAATGGTTCCCAAATTCTGTTTCAAGTTTTAACTCTGGAGTAGTCTGGGGAGGGGCGAAAGCTGGTGTACTGCTCTGGGGCCC
AGGTACCAGGTTAGTATAAGAGGAGGTTGGGTGTGGTGGCTCACCCTTGTAATCCCAGCACTTTGGGAGGCCAAGTTGGGTGGATCACTTGAGGTCAGGA
GTTCGGGATCAGCTTGGCCAACATGGTGAAACCCTGTCTTTACTAAAAATGCAAAAATTATGGCCAGGCTCAGTAGCTCATGTCTGTAATCCCAGCACTT
TGGGAGGCTGAGGTGGGCGGATTACCTGAGGTCAGGAGTTCAGGACTAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATATAAAATTAGCTG
GGCATAGTGGCACATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATCGCTTGAACCCGGGAAGTGCAGGTTGCAGTGAGCCAAGATCGCA
CCATTGCACTCCAGCTTGGGTGACAAGAGTGAAACTCCATTTCAAAACAAAAACRAAAACAGAAATTAGCTGGGTGTGGTGGTGCACGTCTGTAATCCCA
GCTATTTGGGAGGCTGAGGTGGGAGGGTCGCTTGAACCYGGGAGGCGGAGGTTACAGTGAACCAAGATTGTGCCACTGCACTCCAGCCTGGGTAACAGAA
TGAGATTCTATCTCAAAAGAAAAAAARAAAAGAAAAGAAGAAGATTGAGCATGGTGGCTCATGCTTGTAATCCCAGCACTTTAGGAGCCTCAGGTGGGAG
GATCACTTGAGCGCAGGTGTTCGGGACCAGCCTGGGCAACACAAGAGAAYATGTCTCTACAAAAAATTTTAAAAATTAGTTGGATGTGCTGGTGCACGCC
TGTAGTCCCASCTACTCAGGAGGCTGAGATGGGAGGATCACTTGAGCCTGGAAGTTCGAGGCTGCAGTGAGCTGTGATTGTGCCACCGTACTACAGCTTA
AGTGACAGAGGGAGACCCTGTCTTAAWTATATATATGAGRAAAGTGTACTGTTACTTGGGGAAATAGTATATTAATTAACAGACATTTATAGTATATGCT
GAGTGCCAGGTGTTGGGCTAGATGCTTTAAGCATGTACCTCTTACACACTGAGAAGGAACAGAGTGGAAAGAATACATGTAATCTTCTATGATTAATTTT
GAAAAGATAAAGTAAATGATATATATGCCATGATAAGATAATAACGTGGATTTATATTGYACTTTCATATCTGCTATCTCTTTGTTTTGACAACACCCTA
GTAGTTAGGCAGGGAGATGGGTTCATATCCATCTTACAGATGAGGAAGCTGAGCATACAGCATTTAAGTGACTGTCGAAGGTCACTGCTGAAGCGAGTCA
GYGAAGGCGCCAGCACTCAGCCTGGGACTCCCTGGCCACTCAGTCCTTGCTTTCTTCTGCACAACTGTCTCCAGTGCCTTTTGTATTCCTGTCACCCGGC
TAGACAAGGGTGAATGGGCCACTGTTCTTGCCCTCAAGGGGTCTAAAGTCCAGGAGAGAATCAGGCTCTTTAACAACTGAGTGTGCCAGAGTTGTTCCGC
CCCAYGGTGCCACCTTGGGCCCAGCTCAGCYCCTTCCTTGCAGTGTCCCAGAGAGTTCTTCTTCTCTCTACCTCAGTGGAGGGCATCAGAGCCATTTTCA
TTCAGGACCCTGGTCTGATGACATTCCCAGGAGTGACTGGTCCTTACAGAGCCTCTGCCGGGTCCTGGGCAGTGGTGAGTTGGGAGCCAGCTCACACCTA
CACATAAGAGCTGATTGCTAAATTTTAGGAATTTTATGAGCCGGTTGTTAAACRCARCCATTATAAAAAATTCTGAGGCCAGGAGCGATGGCTCATGCGT
GTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCCCCTGAGGTCGGGAGTTCGAGACTAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAA
ATACAAAAATTAGCTGGGTGTGGTGGCCCATGCCTGTAATCCCAGCTACTCGGGAGTCTGAGGCAGGAGAATTGCTGGAACCCAGGAGGCGGAGGTTGCA
GTGAGCCGAGGTTGTGCCATTGTACTCCAGCCTGGGGGACAAGAGTAAAACTCCGTCTCAAAAAAAAAAATTTTTTTTGAGTGTATACATTCATCATTAA
GTAAATTATATATATATAGTTTGTTTGTTTGTTTGTTTTTTGAGATGGAGTCTCANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTTACCATGTTGGCCAGGCT
GGTCTCAAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCTGGCTGCTATTATATATTT
TTGAGATGGAGTTTCACTCTTGTTGCTCAGGCTGGAATGCAGTGGCGTGATCTCTGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCC
TCAGCCTCTGGGATTACAGTAGCTGGGATTACAGGTGCCTGCCACCACACCTGGCTAATTTTTTGTATTTTAGTAGAGATGGGGTTTCACTATGTTGGCC
AGGCTGGTCTTGAACTGCTGACCTCAGGTGGTCCACCTGCCTCAGCCTCTCAAAGTGCTGGAATTACAATTATGAGCCACTGTGACTGGCCATAAATTTT
ATACATATATATGTGTGTATATATATATAWAATAATTTTTTTTTTGAGATGGAGTTTTGGCTCTTGTTGCTCAGGCTGGAGTGCAATGGCATGATCTCGG
CTCACTACAACCTCTGCCTCCCACGCACGTTCAAGCGATTCTCATGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTGCACCACTACTCCCGGCTAA
TTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTGGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGC
TGGGATTACAGGCGTGAGCCACCATGCCCAGCCTGTAAATTATATTTTATAAAGTAATAAATACTCAATTTTTTTCCTAATTATTTTATTCTATTATTAC
CTGTGCTTTTGTGGTTATTTGCTGCTTTGTGTGTGTGTGCRTTGGGGAGTGTATTAGTTCTTTTTCATACTGCTATTTTCATACTGCTATGAAGAAATAC
CTGAGACTAGGTAATTTGTAAAGAAAAAGAGATTTAATGGACTCACAGTTCCACATGGCTGGGGAGGYCTCACAATCATGGTAGAAGGCGAAGGAGGAGC
AAAGGCACATYTTACATGGTGGCAGGCRAGAGAGCCTGTGTARGGGAACTGTCCTTTATAAAACCTTCAGGTCTTGGGAGACTTATTCACTATCATGAGA
ACAGCATGGGGAAAACCTGCCCCTGTGATTCAATTACCTCCCACCACGTCCCTCCCATGACATGCAGGGATTATKGGAGCTACAATTCAAGATGAGATTT
GGGTGGGGACGCAGCCAAACCATATCAAGGGGTGTGAGTGTGGGTGTGKGTGTGTGTGTAATGTACGTAGTGGTGTGCTACTGCATATCTCAACTCCATT
CAGTGATGTCACATTGGCAGCTTGAAATTGGCCAGAGTGAGAGTATTTATATCACAGAAATTGGCAAACACTGCAAATCAGAATCTTTTCCCCTGAAGAG
CCTGTTTACCAGCACACCACTGGGAATCCAGCAATGAGCAACTCAGTCCCTCCCTTTGAACTTACATTTTGGTGTGATGGCGCTCCAGGACTGATCTTAG
TGTCCTCATTGCTGAGGGGCAGCTGCTGGGCAGGGCCTGCTTTGGTGATAGAGGTTGTAAATTGCCCTCAAATCACAGGAGCTCTCCATTCCAGCAAGTG
AGTTGTTACCATGCACCAGGAAGAGAGGAAATGGGACAAGGAGGAAATTCAGTTAATTGAGAGCTGACTTTRCCATTGAGTAACCCTATTCAGGATGACT
CAGGCATCTGGGAGGAAAAGCAGCAGTGGTGTCTGAGGACAGACCGTGGACAARTTAAGTAGCTTGGGGCTTGTGGAGTTGTGATGTCCAGGACATGGGT
GGCTAGAGCTGACATAGGCAACAGTGGGCATGACCTGTCCATATGGATTCAGGACCTGCATGAGAGAGTAGAGGCAGACGGTTGCTCTTGTACATCCTGT
GATCTCTGGTTGGAAGATGGACATGTGCACATGTTACATACAGTGGAGGGATGTGCGGAGTGTAGCAGGGGAATGGGGTAGGGAGAGGGGAACAATTCWT
GCCTCTGAACCTTTGCACATGCTGCTCCTTCTACCCAGGGGAGTTAATGTGTGTTTTCTCCACCCAGAAGGAATGGCATGTGCAAAGGCTCAGAGGCATG
AATTATTGAGAGTTCAGTCTGGCTCTGGTGTCAGGTGAATCAAAAGTCTGCAGGGCTTGAAACAGAGTAGGGGAAGCATTGAACCTTCCTCAAGTCAGGA
GGCACAGCATCATCTGGGTGCCAGCAAAGGAAATCTGACAAACCTCACCTGTCAGGGGCCTTGTGCTGTGTGGATCACCCTGCTTCCCTAAAAATCTTTG
AGKTTTCTTGGTAGTTTCCTGCTGTCCCTGAAGCTTGCTGGTCTTCCAGCCCCTGCATCTGTGGCTGGTGGATTCTCAAAAAAAATCCATGTTAATATCA
AGCACAAAACTTAATTGGGAAGAGGGGTCTCCTGTTCTCCCCCCATTGCTAATTGATACCAGAAAAGCTGCTTCTGTCCTTCATTTAGGCAGATAATTGA
GAACTTGTTTGCTTAAAGGCAACTGATTTTGACTTTATGCCTATAGGTGCCAGATATTTTTCATGCATCAATTCATTTAATTTCCATGCCGATCCTGCAA
GTACGTCCTATTTTCCGATCTTATCGATGAGGAAATTGAGTCTCAGAGACTTATCCAAGGGCACTGTGTTTGTAAGTGGCAGGATTTGAACCCGGCAGGC
CCTGAGATCTTTCTGCAGTCCCGTGCTCCCCTCCTTTATGCGGTTTTCCTTTTCCCTTTGAGGAGGGGAGGGAGAGATTCATCACATGCCTGGAATCTCA
GCACACTTTGCCTTTCTTAGTTCRGAGTTAATGTATGTTTTTTTAATTCAGTGTTGGCAAGGCCCAGTCTGGTCATAGCTGGGTTTGTTACCTTGTGGCT
CAGGGGCAAGGATGAGAATAGAATTCTGGTACCCACACGGGCTCCCTAGGCCTGGTGTCAGGAAAGAGCTAATACTAATGGCTCATAATTGCAGAGTGGC
AGGCACCTTGGTAGTGCATGGCTCGTGGGAGCTTTCTCAGTTCTCAGCTACTCCAAGAGGTGGGGTGCATCATTATCTCTGTTTTGCCTCCATTGAACTT
GCCCAGGGTTGAGCAACCAAGAGTTAGAAGCACCACATTCTGCTCGCCCCGGAGTCCTGCCTCTCCACTCTTGTGTCTTTCCTTGAGCAGCGCCAACCCT
CCCAGGGCCTGGCCCGGCTGTGCCTTTGACAGCCCCTAGCAGCAGTGCCCATATGCTATGGAAAATGGGGAAGGATAATTGACCACTTGGCCACAGGCCC
AGGGTCTGCCCACCTCTTGGTTAGAGCCAGCACTGAGCTCCCTGCCATGGGGTTCATCTTCCCACTGGCCTGTTGGTTGAGAGGATGGTCTCAGACCAGG
CCCCAACACCACCTTCTTGCAGATACATCCCCAGTCCAGGGCAGTGCAGGTGGTTTGTGATGGTGCCAGCCCATGTTGGCATGTTGGGCCCAAGATGAGG
TGGCATTTCTGAGTTTTGGAACCCCTCTTTCTCCTTGAGAGCCTGGCCCCAGAGTGCCCTCCTCTCTGTAAAAGTCCTGGTTCTAGTCGCTGGCTGATTG
GTATGCATCCCAGAATCCCGGCCATTAGCATACAAGGCGGGAGCCAGCTCTCATTACTCCCCTCTCTTCATTGTTTGAAGTGGGCAGACTTGGAGTGAGC
TTTGGAAATGTGGGCTTTTTATTCAATTTCCCTAGAAAAACAATGGTTAAATTAAGTAGGAAAATAACAGTCTCCCGAAATTGAAGAAAAATATTCCTGA
ACCTAGACATTACCCACAACCTTTGAATTTCTTTTAAAACAGGCATTTGTTTTACTTTAAGTTATACATGTATCGCATGACCACTGAAGAAAACACAGAG
AAAATACAGAGAGAAGAAAATGGAAATCATTTTGCCACCTGAAGACAGCCTCTCTCAATATTGTGGTGCATATCATTCATGTATTCAGTGATTCATTTAC
TCATTTGGCAAGTATCTATTTAGGGCCCACAAAGGGAGAGGCTGTGTTGGGTTCTGGGAGTAGACGCTGGGAGTAGAGGGGTACCCTGCTCCCTGCTGGG
GCTCTTTCTATGTTGGGCCTTGGGCAACTCACTTGACCCTTCTCTTATCTGTTTTCTCATCTGTGGAATAGGGATAACACTAGTAGCTGTGTCATAAGGC
ATGGAGATTTGACAAGAAAGGGCAGGTAGGATGCTCATGATATTGCGTGGCCCAGGTCAAAGCTTAGTAATGTTGGCTTTTGTCATGTAGGGGAGGAATA
TCTTTTCTTCTACCCTGTTAGGTTCTGTGATAGAGCCTATGAATTAAACTGACAAAAGACAGATTAATAGGAGAAAAGGCATATAGATTTTATTTAATGT
TACTATATATATGTATTTTTTTACTGTAAGGGGTCTCCATAGAAAAGAAATGAAAATCCAAAGAGGCAGTTAGACCCAGGAGCTTAYGTAACATTTTAAC
AAAGGGCGATAAATTGTGGAGAAGTGAGGAGACAAAAGAAAAGTATTGGACTCTTAGGGGTCAGTAAATTTCAGGAAAGTGACTAGGAAATGTATGGTAG
ATAAGGGTGGTTTAGTAAGGTTTGTTATGCAGATAAAGTAAGGTAGAGGGGTACACCTTTGCAAATGGAAATTTATGTCACCTTTACAAAGGGAAATGTG
TGCCCTGCTTTTAGGCAGAAAAGGGGAGGCAAAGAGCTCTTCCTGTATTGGCTGCTGCTCAAGTACCTTGAGCTCAAAATAATTCTTTTTTTTTTTTTTT
TTTTTTTTTTGAGACAGCATCTTGCTCTGTTGCCCAGGCTGGAGTGCAATGGTCTTGGCTCACTGCATCCTCTGCCTCCTGGGTTCAAGCAATTCTCCAG
CCTCAGCCTCCTGAGTAGATGGGATTACAGGTGCGCACCACCACACTCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGC
TGGTCTTGAACTCCTGACCTCAAATGATTCTCCTGCCTCAGCCTCCCAAAGTGCTGGGACTATAGGTGTGAACCACCACTTCTGGCCCTGGGATGGCATA
TTCTGATCCTTTTCAGTTACAACAGTGAGTAAGCTGACATTAACCTTGCCCTGGTGGTTTTGTTTTTGTTTTTGTTTTTGAGATGGAGTGTTGCTCTGTC
ACCCCGGCTGGAGTGTGATGGCATGATCTTGGCTCACTGCATCCTCTGCATCCTGGGTTCGAGCGATTCTCCAGCCTCAGCCTCCTGAGTAGATGGGATT
ACAGGCGCCTGCCACTATACCTGGCTAAGTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTG
ATTCTCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACGGTGCCCAGCCTCGTGAGTCTTATATGATGGTGGAGGAGACAAAAATCAA
ACACATCAAATTTATAAAGTAACCACATGTTATGCATTAAGTCCTGTGAAGGAAACAGACTGGTGGATGGTGATAACTGGGGATGAGGGGTAGAGAGGGT
GTATGTGGGGGTGGGGGTACAGGATTCGTTAGCTGCAGGTGGTCAGGGAGGCCTCTCTGAAGAGAGACATTTAAGCCAGACCTGAATGACAAGCAGGAGC
TCCCCCTGCAAGGATCTGAGGGAAAAGTATTCCRGGTAGGAGCTACAGCAAATGCAAAAGCCCTGAGGCCAGATGAACTTGGCCTGTTTAGGAGGGTGTG
GAAGAGGCCATGTTAGTTAGGACTGTTACTCTAGGTGCAAAAGGAAACCATCGGAGGTTTGTTTTCCACTTCCCATAAATACCTTTACTAATGAAATATA
GTTCCAAGATTCCAGCTAGTAAAAACTCTGTTAAGAAATTCACCTTTTTCCAATAATTTATTCAAAAATAATTTACCAAGTGCCTATGATGTGGAAGCAC
TTGACTCAGTGCTGTGGGGTGATGGATGGGTAYAAAGATATGGTGAAGTTTTACGCTCCAATAACCCATGGTCCAGCAAACAAGACTACGAACATTTGCA
GGGTCAAGGGCAGGGAGGGACTGATTTACCTTTGCAAAAGATCCCATGTCTGCTGGGAGGAGAACTGGCTGTAGAGAGCCAGGGTGGAGGGGTGGAGCTG
GGAACCAGAGGAAAGGCAAGGAAAGGTTCCCATTTGGCAGTGGAATAGGAGAAAAGTCTGGGGTTTGGGTTATATATCAGCTGGAATCAACTGGAATTTC
TGGTGGATTGTACACAGGGGTGAGGGAAAGAGAAGAACTGAGCATGACTTCTAGATTCTTCTTTTGAGTCTCTGAGTGAGTGGTGGTGTCATGAAAGGAG
ACGGTTAAGAGGGAGTGAGGAGCATGGCTTTTGGAGAAACCAAGGGTTAGGTTTGGGGCAGGTTCACATTGAAAGGCTGGTTAGAAGTCCAAGGGGGTAG
GCCGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGAGGATCACTTGAGGTTGGGAGTTTGAGACCAGCCTGGGCAACAAG
GTGAAACCCCATCTYTACTGAAAATACAAAAATTAGCCAGGTGTGGTGGCGGGCGCCTGTAATCCCAGCTACTCAGGGGCTGAGGCAGGAGAATTGCTCG
AACCCAGGAGGGTGGAGGTTGCAGTGAGCTGAGACTGTGCCATTGCAGTATAGTGTGGGCAACGAGAGTGAAACTCCATCTCAAAAACGAAAAAAAAAAA
AGCCAAAAAACCCCAAAGAAGTCCAAGGGGGTAGTGAGGGCCTCTGGGCTGGAGATGCAAACTTGGGCATCCTTAACATATAAAGGGGACAGGTGTGACC
ACCCAGAGAGACAATTCAGAGGAGAGATCCCTCCACAGGGAGGTGAGCTCTGGGAGCTCTTATATTTATAGTCTGGTGGAGGAGGAGGAGCCAGGGCAGG
CAGCCTGGGAGCTAGGGGAAGATGGGTGCAAGGAACTTACCTTTAGTGCCAGGTGCTGAACTAAACACCTGGGGAGGATCGGCCCCTGGTCCTCACGATA
AGTCTGTGAGGTGCAGGTGCTATTAAGCGTCTCACCTTATCGAAGCGGAAAGAGGCCCGGAGGTGACCCAGTGCACCTGCCAGCAGGTGCACGACTGTGT
AGGGAGTGAGGATTCACACCAAGGGGGGCAGTCCACCTCGTTTGCCCACGGCATTCCCGTGTTGCAGAGGAGGATTCCAAAGCTTGTGGTTTTGTTCATT
TGTTTTCATTTGTCTGTCCTTGCATTCCTCTCCTCCCAACACATATTTACTAAGCACCTACTGAATGCTGTGCACTGGGCAAGGAACTGGAGATTCCAAG
ATGAGTAAGGTGTGGCGCCCCTTAATCTGGTGAGGGAGGTGGATGGGCAACAGCTGAAGGGTGGGCGGTGCCTGATGCAGGTGGAGGGACTCCCGAGGAG
GCTTCCCAGGGGAGTGTCCAAGCCAAGCAGTGGAAAAGGCAGAGTTAGGTCAGGAAGCAGGAGGCATCCAGGCATGTGCCAAGGCTCAGGGGAGGGAATA
GCAGGGCCATGTCAGGGAGGGTGCAGGAGGGTGCTGCTCAGGAGCTCTGTCCATTGYACTAGGGGCTTGTACTTTATCTTGTGGGCCCTGCGAGCCAGTC
AACTGTTTCAAGCTAGGGGATGACGGGATTAGAACTTTTTGTTTGGGGTAGAGATTGGGCTGCAAGGGACAGAAGAGTTACCAGGGAGAGCTTTCAAGGC
TGTTAAAAGGCTCTCGATTCCTAGGTCATTCTCTGAACCCTGCTGCTTCCTTACTCCTTCCCAAATTCTGCTCATTTTTCTCTTCCAAAAAGATTTCCGA
GTCAGAGAGGTTAAGCAACTTGCCTGAGGTCTCCCAGCGTGCCAGGTCATCCAGGCTGGGACTGGTCTTCTAACTAAAACAACCACAGTCCCAGGGGTGG
AAGCGGATGGTGAGTAACCCCAGGGAGCGGCTCACTGGAGGCTTGAGTTGAAGGTCACCGTCCACAGTCCCCGTGTGGCTTTAAACATTGCCTTTTTGCA
GTCTCAGAGAACAGTTGGTGCTTCTGGGCAGGAGGAGCTGGGCTGCTGCTGGGAGCCAGGGCTGGGGCTTTCCCAGAGCTGCACGGGTTATTTAAGCAGT
TTCCTGGGCATCTGCTTCCTCCCCAATGAGTGATGGGAAAACTCCATGGGGCTGGTGCAGGATTYGATTAACAGGTCACATGAGGCCAGTGAGGGAGGCA
GTCCCTGCTGGGAAGGGCAGATGCCAGGCAGAGGGCGAGGGGAGGGGGAGATGGGGAGCACTTCCCAGAGCCCTGTGCTATGAGCTCTGTCACTTTGGGC
AGGTGTCTCACCTCTCTGCAGTCTTGGKTCCCTCGCCTGTAGAGATAATATGAAATGTGACCAATAGGACTGAAGTAATAACCAGTGTCCACTGTAGGCC
TGAAGTGTGCCAGGTACCACGCATGATCTTGTTTCAATCTATCTTTTTTTTTTCTTTTGAGATAGAATCTCACTGTGTCACCCGGCTGCAGTGCAGTGGC
ATGTTCTTGGCTCACTGCAACCTCTGCTTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGTTGGGACTACAGGTGCATGCTACCACAGCT
GGCTAATTTTCGGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAGTAGATACAGGGTTTCACCATATCAGCCAGGCTGGTCTCAAACTCCTGACCTCCAG
TAATCTGCTCCCCTCAGCCTCCCAAAGTGCTGGGGTTACAGGCGTGAGCCACCGTGTCCAGCCTCTTGTTTCAATCCCTTGTCATCTTGTGAGCTATGGA
TGGTCATTATCTTCATTTTATAGATGACACAGCTAAGGAACAGAAAGGGTAGATATTTTGTCCCAGGTCACACAGCTAGTAAATGGCAGAATTTGAACCT
GACCCTCTAACTCTGGAGCCCTCCCCTGAAATCCCTGTGGTCCCCCTTCAAACTTTGTTCAGCTGAGCATGAGTCCCTTCCTTGGCAAATCACTTGATAG
GATCCTGTGGGGCACTAGCATTCTGCCCACTTGACTTTGGGACACCCCAGTCCCTACAACCCCTTAAGTTTTATCACGAAGACTTGGARCTCCAGTGGGC
CTCAGCCCCTGGCTCATCATCTTTCAGCCAAGTGGGGCAGACCCGGGACCAGAACCCCAGCATCCCAGACTCCTGGCCTTCTGCTCCTTTCACTCCTCCA
GGGCCTCAGAGGGGGACTGGACTGGGAGSCAGTTGCCTGGGTTCTAATCCCACTTCTTCCTTGGACCAGCCAGAAGAGCTTGGGCAACATTTCACTTTGC
CCCCTGCCTTTACCCTAAGCCTCAGTTTCCTCTTCTGTGAGATGGGTAGATTGAGAATCTAGAATCTCTACCAATTCTAATAATTCATAAGTGTAAGATT
TCAGGTTTCTATCTAGGAATCTGTAAGAGTCAAACATTTGCCACCTTTTTCTACTTCCTGTCCTCTATTGCCTGTGGGACTCGAGGAGACTGAGATGAGG
AAACAATTYAGTGAACCCTCTATAGTTTGACACACTGTAGTTTGAGGGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGAGTGT
CGCTTGAGCCCTGGAGTTCAAGACCAGCCTGGGCAACATAGTGAGACCCCATCTTTAAAAAAAAGCCAAAAAACAAAAATTAGCCAGGCATGATGGTGGG
CACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCGGAAAGATGGCTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCTATGATGGCACCACTGCACTCCAG
CCTGGGCAGCAGAGTGAGACCCTGTCTCTAAAAAATAAAAAATATATAGCTTAATAGCAGCGTATGATGACGACTATCACTTGAGTACCACTGGGTGCCA
GGCACTGTGCTGGCTGCATCATGAATTATTTTTTTGCCTACTCAACAGGGAGGCGAGTATGATTAGCTCCATGTTAAATGTGAGAACTGAGACACAAAAC
GTTTAGCTAACTTTCCCAAGGGTCAAGTGATTGCATGACCTGTATATGAAAGCTGGACTTCAAAGACCAGAGGAAGTGCAGAGGATACGTTTGCTAGGTG
CTTCCTTGTGGGGGTGGGTACGGCCTCTCTACCTCACGTCCCATCACTTGGAGCTCTCTGCAAAACCCRTTCTCCCGGGCCCTAGATGCAAAAATCCACC
CAGTTCATCCGCCCTTGAGAAATGATGTTGAGTCAGATCTGGAAACACTAAATGGGTGAGTCACAGTGAGGATGGTGAGGGGCTGGGCAGGGAGGAACAG
TGCTTAGCCCACCATTGGCCAGAGCTCAGCCTTGCCAAGGAGCCCAGCCCAGGGGGCAGGCCTCAGCTATTTACAGAGAAGGGGACTTGGGAGCAGAGAG
AGGATGCGGCTGGCAGGGAGGGAGACAGAGGAGCTGAGGGTCAGACAGCAGAGCTAGAAGAGTTTTCAGGGATCATCTAGTCCACACATAGGACATCTCA
GTCCCAGAGAGGGGCTGGGACTTACCCTAGGTCACACAGCCCATGATGCCAGACCCAGCAATAGAAGGGGATTTTGGGAGGCTGAATCCTCAGCCTCCCT
CCCTCCCTCCTTTCCTTCCTTCCTTTTTTTTTTTTTTTTTTTTTTGACAGGGTCTTGCTCTGTCGCCCAGGCTGGAACACAGTGGCATGATTACAGCTCA
CTGCAGCCTTGATTTCCTGGGCTCAGGTGATCCTTCAACCCACCTCAGCGTACCGAGTAACTGGAGCTACAGGCACATGCCAACATGCTAAGCTAGTTTT
TGCATTTTTTTGTAGAGATGGGGTTTTGCCACGTTGCCCAGGCTGGTCTCAAACTCCTGCGTTCAAGCGGTCTTTCTGCCTTGGCCTCCCAAAGTGCCTG
GATTAGAGGCATGAGCCACTGTGCCCGACCCTGGCCACTTTCATGGGCATGACTTTCTGACCAGGCACTATGCTGTTTGCCTTCTCTTTCTCCAATCAGG
AGAACAAGAACAAACAGCAACAATAATAAAGGAATCATCTTGCTAAATCCTAAGCATGTGTGTTGCCAATATGGGTAGACTGTACCCAAGTCCCACCTCC
TCCTCTTCCTAGGTGGATGACTCTGGGCAAGGCACGTTACTCCTCTTAGCCTCCAAGTTCCTTTAGCTGCGTCATGGTTTAAGCAGATTCTGAAATTGCA
GCACTTCTCAGTGCCTTTAACATGTGGAGTATTGTTATTCTCCAGCAGGGAGACTTCTGCTGTGGTTTTCCATTGTTCTTTGAGTATTGAATGCTTTTTT
TTTTCTCCCAATGAGCACCTATTGACATATTTCAGGGCACAGATGTTTCCCCAAATATACAGATTGACAACACTGGTGTCAGTGGTTTGTCAGGACTGTT
TAAACTACTTTTTTTTTTTTTTGAGATAGTCTTGCTCTGTCTCCTAGGTTGGAGTGTAATGGCATGATCTCAGCTCATTGCAACCTCTGCCTCCTGGATT
AAATGCTTTCTTAGCCTCTCAAGCAGCTGGGATTACAGGTGCACACCACCATGCCCAGATAACTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTG
GTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAACCACCACGCCTGGCCTGTTTA
AGCTTTTAAACTCAGACACTGTGGACTGATTATGGAGTTTTGGGGGACACATCTACTGAGCTGTGACAGTCAACCCCCCTCTGGGGTCAGGAGCACCATA
ACCATGCCCCACCTGCATCTGTTCTTGCTTCTTTCTGTCGTGTCCCTTCTACCCTGGAGCACCCATTGCTTTACAGCGGGAGCCTTCCTGGGAGGAAGGT
CAGGCTCCTGTAATTGGAACCACCCTGCCTTTGTGGGGCAGGAAGACTGGCTGAGATGTCTTGGGCAGCAGCAGCTGCCCTACAAAGGCTCTTCCCAGGG
ACGCTGGCTCACCTGGGAGCATATTTGGAGGCAAAGAGGATGGCGAGGGAGAAGCAGAGACTCCCAATTAGGTTAGGGCAGCCTGGGAGCACGGGGTTGA
GCCTGGGAGCACGGGGGTGGGCCTGGGAACACAGGGATGAGCCTGGGAGCATGGGGGGGGCCTGGAAACACAGGGGGGCCTGGGAGCATATGGGGGGCCT
GGGAGCATTGGGGGAGGCTGGGAGCCCGGAGAGGGGCCTGGGAGCACAGGGGGAGGCTGGGAGCACGGAGGTGAGCCTGGGAGCATAGAGGTGGGCCTGG
GAGCATGGCGGCGGGGGGGGGGCCTGGGAGCACRGGGCGGGCCTGGGAGCACGGGGGTGGGCCTGGGAGCATGGGGGTAAGCTTGGCTCTGTCATTCACC
CTTTTATGACCTTGGGCAAGGCACAGTCCTCTCTGGGCCTCAGTTTCCTCATCTGTGAAATGAAGGCCTGGGCTTAGTGATTTGTTGATTGCCTTCAGGG
CTGACGTTCTGTGAACTGAGTAATGGAGGAATAGGTACATTTCGTACCTTTTGGCCACACCCTGGTTTGCTGGGTTTCTTGGGGTCCACCAAGGCTTGCC
CCATCAGGAACTTTTCTCTCTCAGAAGGCGCAGTGTGTGCGAAGGTGCTGGAGACTGGCAGGTGGCCTAAGCACCCTGGGAACTGAGAGCTAGTAATTCT
CATATGTTAATGTGAGCCAGGGTCACCCAGACAAGCCTGCTAAGAAGGCAGATTCTTGGGCCTCATCCCAAGAGACTCTAGTATTATAGGTTGGTATCAG
GAGCTTAGCATCTGCATTTAAAAGAAGCCTCCCGTTCACTCAGGTGACTCTGAAGTCAGTAGTTCAAGGACCACTTTTTGAAAAAGGCCGTTAGACTCTT
TGAGCCTTAGGAAAGGCTGGGCACAGCGGCACTTGCCTATAGTCCCAGCTAATCAGGAGGCTAACGCAGGAGGATCACTTGAGTCCAGGAGTAAGAGGTG
CAATATGCTGTGATTGTGCTTGTGAATAGCTACTGCCCTCCAGTTCGGACAACATAGCAAGACTCCATCTCTTAAAAAAAAAAAAAAAAAAAGAAAATGT
GGCCAAGTGCAGTGGCTCAGGCCTATAATCCCAGCACTTTGGGACACTGAGGTGGATGGATCACTTGAGATCAGGAGTTTGAGACCAGCCTGGGCAACAT
GGTGAAACCTTGTCTCTACTAAAAATACGAAAATTAGCTGGGTGTGGTGGCATGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCT
TGAACCCAGGAGGGGGAGGTTGCAGTGAGGCAAGATTGTGCCATTGCACTCCAGCCTGGGTGACACAGCCAGACTCCATCTCAAAAAAAAAAAAACAAAA
AAAAMCAAAAAAAACAAAAAGAAAATGCGTAGGAACATGCTAACCTTTTGGGGTTGGTGACGGGCTCTGTGTTGGATGCCCTCACCTGCAGTATCAGCCT
TCAAGAGCTAGTGACTCCTCTTCCCACACACTGGTGTGTCCCAAACCTGGCTGATTGTCAGAATTGCCAGGAAGCTTTTGAACAAAATAGGAATTCCTGA
GCCTCATCCTTAGAGATTCTGAAGCAGCAGATCTCGGCTGGGACCGCGGAATCCCCATGTTTGAAAAGCTTCTCAGGTCTTTTGTTAATTTATCATTCGT
TCGACAAGTATGTCTCGAGGCCTGTGATGGAATGGCCTAGGCCCAGGGGAAGATGGCCTAGGTCCGGGGAAGGACTCATGTAATTGTAAGGCCAGACACA
GTCTCGGACATTATGTCACCTGCTCTATGGCTTGGTAAAGGAGACAGACGGTGATTACATAGGGATGATTGGCCAGGCTGGGGAAACACGTAGCAAGGAA
ATGGTTGGGTCAGACTAAATACTTGGGGTAAAGCTAGGATTCCTGGGTTGCTGAGCTCCAGTAAATTCCACACTGAAATAGAGCCCTGGGCACAGTGTCC
TCTGACCACTACTTACATTCTCCTGTCATCCATCGACTCTTCCTCCCCACCATCCACCCACTCGCCCATTCATTCATCTCTCCATTCATTTACCCACCCA
CCCGTGCATCCATCTGTCCATCTGTCCATCTGTCTACCCGTTTGTCCATTGTCCATCCATCCATCCATTCACTCATCCATTCATCCATTTATCCATCCAT
CCATCTATGCATCCATCCATCCATCCACCCATCCATCCATCCATCCATCCATCCGCCTGCCCATCCATTCATCCATTTATCTACCCATCCACCTACTCAT
TCATTCATCTATCCATCCACCCACCCGCCCATTTATTCACCCACTCATCCACCCATCATCTCTTGAATCTCTTCGGCATGCTAAGGACTGCCCTGGGTAT
TGGAGAGACAGAAATGAAAGGCATTATTCTTGCCTTCAAGGAACTCACAGTCTAGTGGGCTGTCAGAAAACTAAGCAAATGATTCCAGTCCAGAGTGTTA
GGTGCCCAGAGGGACAAGTGGCCAGCTGTCTGTCCCAGTGGTCATCATGGGAGACTGCTCTGATGCCAGCTGCATGTGCTAAGCAAAGTGTATTTGGGAG
TGGCCCAGGCAGATGAGGTGGGGAATGGCTTTCAGGCCCTGGAAGGGTCTTGCCTTTGGGAAGGCAGGTCATCGTGGCTGGGGCAGGTGGGGACCTTTTC
CTCTTTTGACACTCAGGTTCTCTTTGGTTTTGCAAGTGGTCCCACGAGGTCTGGGCCTCAGTAGATGCTTAGCCAACATGAGTTGTCAGTGAATGGGGAG
ATGAGTCAGAAAGGATGCCCTGTGAACCTCACTGAGGAGCTGTGGCTCTGTGGGGCCACAGATAGGGTCCAGGCAGGGGACAACACTGTGCCACAGGCTC
CCTGGGCTGGGCAGGGAGAATGGTGGGGAGGGCTGAGGGGCCCTTCCCCAGCTTCCTCGGCTTTCAGCTCTTTTCTTGTGTAGATTGGAGCCTTTGCATT
CATGAAAGCTGATGACTCCTTTCCACCAGTGAATTTCCTGCAACCCACAGGGCCCGGCCTCAGTTGGGGTGTGGGGGGAGCAGAATGATGTGGGGAGAGT
GGTGGATGCTGTGGCAGCTAAGAGCCTTGGCCTCCGGAATCAGACTGCCTGATGTGGGAGTCTTACTTCTGCCATTTGTCAGCTGTGTGTCCTGGGGCAA
GTGTCTCAACCTTTCTGTTTCAGTTCAGTTATTCAGTTGGGGATAATATCAGTCCCTATCTCATATGGCTGTTGGGACGATTAGGAGTTATTTCTGGTAA
AGCACTTAGTGCAATCCTGGTACATGGTAAGTATCGACACAAGGCAGCTTCGGTGTGGAGCTTTGGAGGCAGCCCTGTCACAGGGGCGGGACACTAGAAG
GGGCTGGGTATTTATTAGCCTTGGAGCCAGAAGACCTGCTTGGAATCCCACCCCTACCTCTGACTGATTGTAGAGACCTTGGCAGGCTGATTCAATGCTC
TGAGCTCAGATTTGTCATCTGTGAATAGGGGACCGACACCCCCCAGGGCCGCTGGGAGGAGTCACTGGGTCTGATGGCTCATTCTCTGCATTGGGCTTAT
GATTGAGGTAGGAAAACTCTAAACAGGAGGAGTGAAATCTTCATTTGCTAGGGTGGCCTGGATGGCCATGCCTGGGGGTCAGTCTGTGGGGTCTGTAGGG
CCACCTCTCTTGGCCCTGGCCTTTTCCCTTAGTTGCCCTCACTGTTGCAGGTTCCTAAGGAAAGGGACCGTCATGTGACTGGGGCCCAGGGTCTTCAGAA
CAAGGTGCTACAGGGGCAGAGGGTCAGGCTGGTGCCATTTCATTTGCAGGAGTGCTGGGGAGGGTGACTGTCCTCCTCCAGCCACACTGGGTCTGGGTGC
CTGGGAGAGACTGAGGTTTCTGGTGCCTGCCCTGGGTTCAGCACTCCTGTCCCTCCACACCTCATGTTCCTGCTTGATTTGAATTCTCAGGGTTGGGTGA
CTCAGGCATGCCTGATGCCCTGCAAGATTTGGTTCACAAGCAGGTAAATATTAACCCACACGCATAGCTCCAAATGCAAACCTGTTTGGGCTGGCTTCTT
GGGGGACAGCTAGGCTCCGAGTGTCCCCCTCTTCCCCCAGCTGATGGCCAAGGTAAGCAGGTGCCCTCCAGGGGAACGAGGTCACCTGCTTTGTGCCAGG
TGATTGTACTGAATTCGCACCACTGTCCGGGGGCAGGGGCTGCTGTATCTATTTTACAGCAGAGGAGGAAACCAAGACATCAGGAGGAGGCCAGCTCGGT
TTACACAGTTAATGAGAAATGGGCCTATGGCTAGAACCCAGGAGTGCCTCCCTGCAAAGTCCACACTTTCCCCACCTGGATCTCCAGCTGTCTCCTTGCT
GTTAGGGTCACAAGGCAATGCTATGTGTATCAGAGGCACCTGAGGTTTGCTTTCTGGCTCCACTTTGCCTGGGCCTCAAATGCCCCTTTTGTGAAGTGGG
GCCAGGCTGGTTTGGGGTCCCTGATAGGCAGGAACCAGCCCAGGACACTTGAGTGCAGTAATGGGGCCTGGGCTTGGATTTGGGAGTAACCACCTGGCCA
GCCAAACAACGATCTTTTTTTTGAGACGGAGTTTCACTCTTGTTGYCCAGGCTGGAGTACAATGGCGCAATCTCGGCTCACCACAACCTCTGCCTTCTGG
GTTCAATAGATTTTCCTGCTTCAGCCTCCTGAATAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGGTGGGSTTT
CTCCATGTTGGTCAGGCTGGTCTCGAACTCCYGATCTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCT
GGCCCTCAAGCATCTCTTGAAGACCTGCCAGGAGGCACTGTGGGGACACCCAGGGAGGAGCCACAGTTTCTGTCCTCTGGGAGCTGACAYGTGAGCAAGA
GTGAGAACACAGGTTTAGGGGCTCCAGGACTGGGTTTGAATCTTGGGTCTTAGTAGCTGTGTGGTCTTGGGCAGGTGCCTTTGCCTTGCTCAGCCTTTGG
GGCTCCCTCCAAAGATGGGAATAACAAGCCTTACTTCAGAGTGCATTGTGAGGCTAAAGTGAGATGGTGTCTGCAAAGCTCCCAGCACGTAGTAGGTGCT
CAGTAAGGTGGTTTCCCCTGCCCAGAACCTCAGATGACTGTCTTCTAAGTCTGAGAGCAACCAGTGGGCCTCAAAGGCGATTGAGGGCTGCTTCCCCTGC
CCTGCACCTCCCCCCCGCCCCGTCATGCTGGCAGCCCGGGAGYAGTCTCTCACGGTTCTGTGGGCAGCTGGAGATGGGGCAGAAGCGGGCGTCAGCTCCA
CAGTGGGGGCACTGGGAGGTGGGGCCAGGCTTGACTGGGAGGAGAGGGAGATGCTGGCTTTTCCTTGGTCCTGCCCCCCGCAGCCTTGCAGTCAGAGGCA
GCCCCAAYGAGCCCTCTGCAGTTCTGAGTGCCTTCCTCTCCTGTCTCGCAGAGGGGGAGCCTCACAAACCCTGACAGCAGAAGTGACTTGCCCAGCGTCG
ATGGGCGCTGGTGGCAGAGCCAGGCTGACCCCCAGCCTGAGGCCCACCCGATCCCGATGCTGCACTCCTAGCTCCTTGGCGTAGGTCCCTGGGGCTGTCG
GGTGCCCTGGCCTCCCTGGCCTGCCCTGGAGCCAGCTATGAAGGAATATTCTGGGGCACATGACTCACAAGGCTGGCCCTTCCACTTTTTGTTTTCCTTT
CTTTTACTTTTCCCTAATACGGTCTCCTGTGGCCCTTGCTTCTCCTTTCTTGGGGCTCTGAGATGGCAGTGCCTTTTGCCCTGGAAAGCCTGTCCTGGCA
GAGCTCCTGTTAGCTGTCGACCACAGCTGCTCAATCGGGAAGGTTCCAAGGGAGGCCGAGCAAAGGCATCAGAGCTGCACAGACCTGGGCCATAGCTTGG
CTGACCTACTCCCTAGCTATGTGACCTTGGACAAGTCGCTTTGCCTCTCTCAGCCTCAGTTTTCAGATTCAGTTCAATCCAACCAACATTTATTGAAGAC
TTGTTAGTGCCCAGTATGATATTAGCCATTGCAGGTGGAGCAGCTCCCCTGGGAACCTCAAGATTGAGTCGGGGTTGGGTGTAGTGGCTCACACCTGTAA
TCCCAGCACTTTGGGAGGCTGAAGTGGGTGCATCACTTGATCCTAGGACTTGGAGACCAGCCTGGGCAGCATGATGAGACCCCGTCTCTACGAAAAAATA
CAAAAAATTGGCTGGGCGTGGTGGCGTACACCTGTAGTCCTAGCTACTCAGGAGGCTGAAGTGGGAGGATCATTTGAGCCTGGGTAGTAGAGGCTGCAGT
GAACCATAATAGTGCCACTGCACTCCAGCCTGTGCAACAGAGTGAGACCTTGTCTCAAACAAACAAACAAAAAGAGTGGGGAGTCAAGTGGGGCCCTGGA
TATCCACCTCATAGYGTTGTGAGGATCACGTGAAATAACACATAAAGCACTGCATATGGTTCCTGGTTTTAGTAGAGTCTCAGAAATGACAGTGAGCATT
CATTTATTCCTGGCTAGTGAGAGCAGTGCTGAGATTTCAGGTGAATCATTGTCACTTTGATTTCATACTTGTTAGCAGGAAAGTGCGGAGGCTGCTTCTG
CTGGTACTGTGTTGATTTTTTGTATACATTGGCGAGGTGAGCTAGTCCCTGGTTGTGAGCTGAGGCTGCCATGTTCCCATGTGTGCCCAGACCTTTGAAG
GAGGAAGCGCAGCCCATGTGGTGCCCTGTCCTAGGGCAGTCCACTCCTGGCCCATGCTGGGCACCCAAGAGGTGTTTGTTGAACTAATAGGAGAGGCAGT
GGCAAGCTGGGGCACATCCTAGCAGTGTGATTGACGTGGGAGCCRGGGGTCTGGGAGCCACAGCAGGCGGCCATGGGACCATCTGACCAGGGCAAGAGGG
GCCCTGGGATAGGAGCGGAAGTTGAGGACTGGCCTGTGCAGGAGGAGAGGCCTCATTCTGAGAAACTCGAGGATGAGGGGAGGGCTGGATGYGGGGAGGA
GGCAGATTTAGACTCTTCTCCTGGGGGACGATGAATCTTCTGCCAAAGGAAGAATTTCAATATGGGGGTATGATGTGGGTCAGTGATTCGGGCTTAGAGT
GGGGGGCATTTATGGAATACCCACACTGGGCCAGRCACAGGGCTAGGATCAGTAAGCTTTGTCAGAGAGCCCTTTTCTTTTTTTTTTTTTTTGAGACAGG
GTCTCGTTCCATTGCCCAGGGTGGAGCGCAGTGGCGCCATCTTGGCTCACTGCACCCTCGACCTCCCAGGCTCAAGTGATCCTCCCACTTTAGCCTCCTG
AGTAGCTGGGACTACAGGCRTGTACCACCATGCCTGGCTAATTTTTGTATTTTTTGTAGACATGGGGTTTCCCCATGTTGCCCGGGATGGTCTTGAACTC
CTGAGCTCAAGGAATCTGCCTGTCTCGGCCTCCCAAAGTGCTGGAGTTACAGGCATGAGCCACTGTGCCCAGGCCCTTTTTCTTTTCTGTTTGTTCACTG
ATGTGTCCCAAGTACTCAGAACAGGACTTGGCTCATGGAGGTGCTTAATAAATGTGGGTTGAATGAATGAATGRTTGGATGAATGAATGAATATTACCTA
ATTGGGTCTCAGGAGTGTCATGACACCCAGTTTGCAGATGAATAAACTGAGGCTTAGGGAGGTTAAGTTGCACATTTGCTAGGTTGTGGAGCTGGGATTT
GGAGTCCCCACTGTCTGACTCCAGAGCCGGTGYACAGACCCACCCATCTATTAGGATCCTCAAGGAGGAATTCTTTCTGTGGCTGACAGGTTGGATTTCA
ACCTCTCAAAGACCCCTCCGTCGTCTGAGAGCGTCTGATTGTGGGAAGAAACAAAATGACCCAGACAACAGCTGGGTCAGTGCTGCAAGTGACAGCAGAT
GGCTCCTGCCACTAACTCCTGTTCTGATCAGTGGGTGCCCTTTCAAGGAGCCAGGTTGGGAGAGAGATGGATGCTGCCAGCCCCAAGGAGGCCCTTCCAG
GCTTGGTCTGACATCATCRTTATCCTCAGCCACAGAGCGGGAGGGTGCTGGCTCTGGCACAGCTGGCACATAGTGCTTGCTCTGGCCTGCACAGTGGGGC
CCGTGTCTCAGGTCACCCCTGCCTGGGTGCATCTCCAGGGTGGTGGCTAGATGGCCTGGGTGAATCCCAGGTGTTCACGGGGACATGTGCCTGCCCTCAG
CCCCCAGGTGGTTCTGGACCAGAATGCCCAGGAGCTTAGGGCTGGGACCCAGAGAGACTTGGAGGGGGGCTGCTTTGAGAGGCTCTGTTAGGGGCAGTGC
CGCTGCAACACTTCAGGGGGGCCACTGGTCTTGGGCACTTGATCTGAGTCCCCCAAGTTCTCCTCCTGATGTGCTGTCCCACTGGGGCCCTGTCCTACTT
GCTCCCATGGGTGGAGGCTTCATGGTCCCACCTGAGTGTACCCCAGCAGCACAGGAGCCCAGCTGACTGGTGGCTGGCTCGTGGCTGAGGTTTTAACCTG
TAAATACTGTAGGGGCTCAAGACACAGGCTCTGCAGCCACGTGGCCTGGGTTCAAAGGCCAGCGCTCTCATTTATTGACTATGTGACCTCGAGCAATTTT
CTGAACCTCTCTATGCCTCTATTTCCTAACCTGTAAAAGGGAATGAGAGTGGCCCCTGTCTCAGAGGGTTTTTAGGAGGAAATTATAGGAGCTGTAGGAG
TAAAGGGCTTGGATTAGCACTGGGCCCTTAGCACGCAGTTAACACGTGTTCGGTGTCTGATGTTGATTTTGGCACTGACATTGGGCAACCCAAGGAGCCA
CTGCATTTCTGCTGTGCCCTGTGGCTGGCACCTGGATTCCACTTCCTCAGTAATGCTTGTCATGAATGGGCCAGGTCAGCAGGGACAAGAAGAGCAAAGG
CAGCACCCGGGCACTTCACTCCCACCCAAGGCCCCATTCGGGCAGCTGTAACGAAATGCCGTGACTCTTACCAGCAACAGGCAGTTATTTCTCAAAGTTC
TGAAGGCTGGAAGCCCATGATCAAGGCAACAGCAGATTYGGTGTCTGGTGAGGGCCTGTTCCTTATAGATGGTACCTTCTCACTGTGTCCCTGCGTGGTG
GGAGGGCCTAGCCGGGGCCTTGTTTACAAGGATACTAATCCCATTCACGAGGGCTCTACCCTCATGACCTGATTACCTCCCCAAAGCCCCACTGCCTAAT
CCATCACCTTGGGGGTGAGGTTTCCGCATAGGAATTTTAGGGGGATAAAAACATGCAAATACTGTGGGGCTCAAGGCACAGGCCCTGGAAGCCCTCATTT
CTACCTTCTTCCCTTCTCCCTCCTGCTTAACATTTGCTCCTTGCTGCTGCATCCCAGGCATTGCAGACGAACTATCCATGCTTTTGGTCACCCTTTCAAG
GAGCACTAACTGGTGGAYGGCCCCCCTCCAACTCCTCATTGCCTGAATCTAGGCTCAAGTCTGCTCTCAGGAGTTTCTGCAGCCCCCAGGTCTCCCGAAG
GGAAGCCCAGCTGCTATTGTCAACACTGTTCAGTTCTCCTTCCCCTTCTGGACCGCCAGTGGCTGTGTCTTTCTCACCACAGCAGGGGATACTTGATGAA
TATGCATAGAGGGTTGAGCCATGCGCTAGGCTCCGGGACACAGGGCAGGAGGGTGCAGCTCCTGGCCTCGGAGAGCTCGGCAGTCTGGTTGTTTATTTAC
TAACTCGGGTACCAGGACCGTGGCTGGGCACTGAGGACATGGAGAGGCAAAAGATGCAGTCCCACCTTAAAGAGGCGGCTGTACATATTCCCCCTCCCTC
CCTGGCTGCCTCCTCTCCCCACCTCCTGTATTGCGGATGCTGGGCCAGGTGGTGCAGATACAGACACAAGTAGGTCGTGGTCTCTGCCCCCACAGTCTAG
CGGGGAGAGGCACAAAAACAAGTACTGTAGCAGAATGCAGTTTCTTTAGATACTTGTAGCCTGGTGTTTGTCTGCCATGGAAACCAGTGGCAATGGCTTT
GGTCTTTGTATTCCTGTGACTAGTAATGGTGACACAACCCTGCATTAACAGGCCAGCGTCTGCTATAGATCCCCAGAGGACTTCACCAATGCCCTCTGAT
CCGGGTTTCCCAACCTCGATCCATTGACATTTGGGCTGGATCATTCTTTGTGTTGGGGCTGTCCTGTGCCCTAAAGGATGTTTAGCRGCTTCCCTGGCTT
CCACCCACCAGATGCCAGTAGTGTCCCCCCTCCCCACCTAGTGTGGCAACCAAAGTGTCTMCTGCCATTGCCAAATGTCCCTTGGGGGACACAACAGCCC
CTGGTTGAGAACCATGGCCTCCCATAGATCTGTAAAGCTGTAACTATAAATCAAGGTGGGATGGAAATTTTGAAATCCAATACTGTCTCCCTCCCCAACA
TCCCATGTACCTTGGGAGCATCAGTGATCTGGTTTGGCATAAAACACAAACATCTTCTGGGATGTGGAGGGGCCCTTGGAGGCTGTGCACCTTGCCCAGG
CCACAGAGAAGCAGGGCCCCTGGCGGAATGAACTGGATCATTGCCAGGTGTTCATGTGCCCTGTTCTGTGTGGATGCAGTGTTGGGCCGGTCATCACATG
GCCACATGGAGTATGCAGGGCCAGTATCAGACCTGGGAGAGTTGAGTCCAGATGTTCAACTGTCCTCTTGAATCTCAGTTCAGCCCCGGTATTCTCCTTC
ACCTCACAGCACCTATGACCAGGGGACCAAGTGCTCATCAGCAAACCCCATAACCTCGAGTGCTTCCTGGGGCACAATAAAGATTTGCTGAATGAGCAAG
GGGGGGTTGTTGGATGGCAGAGGGATGCCAAGGGATGCAGACTGGCTTTTCTGTCACCCTCTCGAATGCCGTTGAACTTAAAAGTCCCCAGAGTGAGGGA
GCGGGGTCTGGAGACCTTGGCTCTGACAAAGCACGTGTGGAAGATGTGACTGCCATCACTCTCTTCCTGCTTTGCACCCTGATCTGGAAGCAGATGGTGT
CCCCGTGTCCCTGTCCTCTGACAAAGAACTGGGCCACAGGACGACCTTGGATAGACCTGGCAAAGGCTCAGTGTTGGCAGGCAGTGTCCAGGTGGCCATC
CGTGCATCCGCCCCTCCAGCTAGCATTTTTGGGCACCTGTTATGCTTGCTGGCAGTCTGCAAGAAGCGAGCCCTTGATCCCACCTTCCCAGGCCACTGGC
CTCTTTCTGCTGGTTACTTGGGATGCTCCTGTGTCAAGTGACATTGGGGACATGCTGGTGGATCATTGAAGGTTTGCTGCCTGGAGGGGTTTGCTGTCCC
TAAATTGAGCAGAATTTTTTTTTTGAGATGTAGTCTCACTCTGTCGCCCAGGCTGGAGTACAATGGCGCGATCTCGGCTCACTGTAATCTTCGCCTCCCA
GGTTCAAGCGATGCTCCTGCTTCAGCCTCTTGAGTAGCTGGGATTACAGGCATGTGCCACCATGCCCAGCTCCTTTTTTGTATTTTTAGTAGAGACAGGG
TTTTACCATGTTGGTCAGACTGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGTCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCACTGTG
ACCAGCCTAGCAGAATATTTTTTGAGATCCAGTCAGGAAGTGGAACCTGAGTTCCCGGGGCTGATTCTCCAGCCGGCGTGCTTTGCTTGAAGGGTCCATG
TCTGCAGATGGCTCCAAGCTGGCCCTGTGCTGACTATGCGGATGCAGGGAATTGGAATGTCTCTTTGGCACCATGCACAGAGCTTGGTCATTGCTGCATT
TCGCACCAACTAAGGCAACTCTGGCCTTGCTGTCTCATTTTTGGATCCTCCCCCTTCCTGTCCTTGACCCTCTTCCCTGGAATCTTGACTTTAAAAGAGG
AAGGGGCTGGGTGCAGGCTTTTGGGTGCTCAGCACTGGGCCAAGCTGATGGCTTCCTGTAGCACTTCAGTGAGGGCAGGTACTGCATGGTCAGATGCTGC
TAGAGGGGCTGCCTCCTAAGCCTTGCCTTCACCATCCAGGCAGGCAGTGCCTTCCTGGAGGGCAGTGACGGGGAGCTCTGGGACCCTTCAGCTCTAGCCT
GGGACACCACCCCTTCTTGTAGGCCGGTGCTGCTGTTCATTTAGCAGGAGGCAGTCATTTATTCATTCAACAAACATTTATTGAGCACTTACTGTGTTCC
AGGCTCTCAGTGAAGCACTTTCTGAGAATTATTATCTCATTTAATCATTAGAACAGCCCTGTGCATGGTGATTCTTATAGTTGTCATTGTATGGAAGAGG
AAACCAGGGATCGGAGCAGTGGATGGCATCTGTGTCACAGCTGGCCTCAGCTGGGATYGAGCACAGAGCTCAGTCTCCTAAAAATCCCTACCCAGGGCAT
GATGGTGACATGGCAAAAAGGGGAACCTGGGGGGCACACTGGCAGGACCAGAGATTGCTTCAGAGCAGAAATGACCTGGAGTAGAGTGGTCCCATTTTTC
ACTGGGCAAGCAGTGGTGTCTCTGCCTGCAGGATGTCGGGGGGTGCTTGAAGCTCATTACACCCAGTGTGGCTTCCATGCCAAGGCAGAAGGAATACTAG
GGGGAGTTTAGGACCAGGCTGTGGGCGGCATCCGCATTGTCTGGTTCCTCGTAAGTYGCACCACAGGGTTGGTCAGCAGCAGTTCAGCTCTTGTTAAAGC
TGATAGGGAAAGAGGACGGGTGTTTGGGAACAGTTCTCTTGGGGGATCCTGGTCCCGGATTTGACTTCAACTCAGGACAACAGGACTCAGGGCAAATCCT
TTTAATGATTGAAGCCATCCCTCCCTGCTCTCCCTCCCCCAACACCTCCAGCCCAGTCTTCCCTGTCCCCTTCCCACAGCCCCAGTCCGCATCTTCTCAG
ATTGTGAAGTTAATTGCAAGGGAGTGGGATGGACCCATTGGCCTGATCCTGATGGATCTTTCCAGTCACAGCTGAAAGACCTTGGGTCTAATCATGGATC
CACCTTTGATCAGATTCTTGGCTTTGAACAAATCTCTCTCCCTCTCTGAGCCTCAGTTTCCTCCTCTGTAAAACAGGGTCAGGTACCTGCCATTCGTGGG
TTGGCTCTGCCCCTGGAGGAACTGGTGGGAGGATTAGGGGAGGCACCAGGCATCCCCTGGCCTGGAGCAGTGCTCAGAGCCAACTCCCKCCAGAGGTGCC
CCAGAACAGCTGGAACTGCACTCACACCCTTATCTGGGGAGGACAGCACATCRCTGAGGGGTGTGGTTTGAATCATAAGTGCTGGCTGCTCTGAATTCAG
CCAGAGCTATCCTGGGCTGTGTGGCTGAGGGCCCCCGGGGGTCCTGGGGCTCCATGCTGGGCTTGCATTTCAGGAGACCTCAGATGCTGCTGGCCTGCTT
GCCCTGCCGTTGTTGGGTGGGTTGAGCTGTTTTTAGCTCTAAGCTTTGCAAAGGCTGTTTCTTTCCTGCCCAGAGCTCCCTCGTGGGACAGAGTGAACAG
GCCCCTCCCTGCCAGACAGAGATTGGGCCTGAAGAAAGAGCTTGGAGCCAGATGGGACCCTGTGGGCTTTGAAAGGGAGGCCTGGTTTGCTCTCTGTGGC
CTGCCAACCTGGGACACCGGTGCCCAGCCTTGCTCCTTCCCTGGGAAACTGAATAGACGCCAGGGTCTCACACCTGCCCCGTGGGAAAGGCTGGGGTATG
TGCCTGCCTGGTGACGGTGGCAGCCGCGGAGGCTCGCGGATCCTGTCCCCTTTGYYGGCCACATGCTTCTGACTCATCAGAGGAAGAATGTGGTCTTTTT
GGGAGAGAGTTTTTAAAAATAGTCCAAGTCCTCCTCTGGCCCTGTCCCACTCCTCCCCTTCTGACCATTTCCTGGCATCAGCCCCAGACCTCTTTCCACT
CTGGTTTTGGGGAACTGCCCCTTTGCAACTTGGCTGTGAATCTGTTTGTGAACCTTACTGGGGAGGAGCTGTCCTGGGTGCAGGCTGGTTTCAGAAGGGA
GGGGCCCAGCTGTGGCCGCCTCCTCCCCAGGGGCCCGACTTGGGACGAGGGATTTCTGCATTCCTTTGGCAACTGTGCCTTGGGTCGCCTGTGTGTCAGG
CCTGTGCCATGGGTGCAGATAAGAGCGGTGAACAGTGGTCACAGTCCTGCCTTCATGGAGTCCACATTCTCATAGGAGGAAACTGATAAATAACTAAAAT
TTGTAGTTGCCAGAGGTGTTAAATCCTGTGAGGATGGGGACACTGGGTCAGGGCATGTGTGTGGGCTGTCAGGAGAAGGCCTCTGATACAGCGACCTTGG
AGCAGAGCCCTGAAGGTGAGGGCAGCAGTGTGTGGGTATCTGGGGGAACAGCATTTCAGGCAGTGGGAACAGCAAGTGCAAAGGCCCTGAGGCAGAAACA
TGCTTGGGGCATTCAGGKWGCTGGAAGGTGGTGGTGACTAGAGTGAGCTGTGTGGAGAGAGGTAGGACATGAAGTCGGGGGGGTTGTGGGGGCTCTGACA
CGTGGGGCCTCAGAGATCAAGATGAGGGCTTGGGTCTTCCTTAAATGAGGTGAGAAAACATTCCAGGCTCTGAGCGGAGGATGAACTTGGCCGCTGTGCT
GAGAACAACATGTCAGGGCAGGGGTAGAGGTGAGAGCAGAGGGACTGGTCAGGAGGCGTTTTGAATAGCCCAGGTGAGAGATGATGGTGGTTTGGGCCAT
GGTGGTACTGTGGAGGGGGTGAGATGCGCTCGGATTCTGGGCGTATGTTGAAGGTAGAGCCAGCAGGTTTGCTGAAGGGTGGGCCCTGGGTGTGAGACAG
AGGTGTCAAGGATGACTCCAAGGTTTTGGCCTTAGCAGCTGGTGGGATGGTGCTAGCAAGCGGGATGGGAAGACTGGGAGGAGCAGGGTTCTTTGTTCTG
GCAGCATGGTGATCAGGAGGTGGGTATGGGCACGTTAAGGCTGAGATGCCCGATCAATCACTGAGTGAAGACACAGAGCAGGCAGAGGGGCAGAGCCTGG
AGTTCAAGGGCAGGACAGGCTGGAGGCATCACTATGGCCATGGCTTAGGACCCACGAAGTGAGCCAGGTGACCCAGGTGGCCCAGGGAGGAGCCGCGGTG
TAGCCTGAACCTGGGAACTGCCAACCTGGAGGGAGGAAGGAGGAGCGGAGGAAGGGGAGCTGGAGCGAGACGTGAAAGAAGGGAGCAGCTGGCAGGTCAG
GCAGAATGGGGACCGAGATGCTCCTCTCTCCCCATCCTGGTCCATCAGAACCGGTGTAGTGGAGGCCGCAGGTGACCTCGTGAGCTGGCTGGCAAAGCGG
TGGGCACACACTTGGTTGGGAATAGGTAGCTCAGCACAGAATAGGAGACAGGGACAGGAGACGGAGCATGGGCACTCCTCGGGGAAGTCTTGTAAAGGGG
AGCAGAGAAATGGGGTAGTGGGTGGAGAGGGTATGGGATCAGATGAGCAGTAATGCAGCGTATTTATTCATTTATTTATTATGACTTTTTTGAGATGGAG
TCTTGTTCTGTCACCCCAGCTGGAGTGCAGTAGYGCGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGA
GTAACTGGGATTACAGGTGCCCGTCACCACTCCCGGCTAATTTTTGTATTTTTAGTAGAGATAGGGTTTCACCACCTTGACCAGGCTGGTCTTGGACCTC
TGAGCTCAAGTGATCCACCAGCCTTGGCCTCCCAAAGTGCTGGGATTATAGGCATGAACCACCATGTCTGGCCACATATTTCTATTTGCTGGGAAGGATC
CAGTAGAGAGGAGCTGCGTCTCTTGGTGGCCTCGGCTTCTACCCTAGAAAGACGTCCTTGTACCATGCAAAAGACTCCTCCCTTCCCTCCTTACCCCATC
TCATTTCTGGCATCAGCTCAGAGGCCAGTTTRGGGGGGCTCCTCCAGTTGCCCATCTGCAGACCTGTGGACCAGTGATGGGATGGGCAGGGGACCCCTGC
AGGTAATTCCGCTCAGAAAGGCAGGGGCCATGGATGGGCAGCAATTCTGAGATCCAGCTGTGCGCAACCATCTCCCTGACCCAGCCCGAATTCTTTGCTT
GCGGGGGTCARTCCACCCGATGTGGGAGGGTGCGGCCTGGGAGAGACCACCAGGGCACCGGCAGAGGAGAACGCCTTGTACTGGGTCCATTTTGGGAGCC
CGGGACGCCCTCCTCAGCCCCCTGCTCCATGGGGCCTTGTGGGAATATCAGGGTAGAAAACTCTGCAGGCATGGAGAGTTTAGCTGTGGGTTAGCTCCCA
CCTGTGACCGATGGAGAGCGTGGTGCGGGCCCCTTCCTGCTGTCCCTCTGTTGTGCTTTAGGTGAGTTCCTGCCCAGGGCTGGGCCAAGTTTATTACCTT
ACTTCTTCCTCATCTGAACTGGAGAGAGCCTCACCTCCTTGCACACTCCCCCCTTTTACTTACAAAGCTAAGTGAGTCTAAGAAGCCTAAGCCAGTGGTG
GAGCCAGGATCAGAACACGCCTGATCCCCTAGCCCCTGCCCTGGCTCTGATCTGGAAGTGGGGCACTGTGCCCTCCCCTGCCTTGGGTATGTACCCGCTG
GCCTCCTGTGGCTGCTGCCTGAGGACAGGAACCCGGAACTCTCTTTTGTTTCTTTGTCCCCAGTGCCAAGCTGGGGCCTGGCAGGCAGTAGGTGCGCAGT
GAGAAGTTGGCTGAGTGGGGAAGGATGAGTGGCTTACTTTGTGAAAGGTGGAGRAGGTGAGCCTGACCCCTGGAGGTGAGGAGGGTGAACTGGGGTCACA
GATTCCCCAAAGGTTGTACCTCAGCTTGGCCCCCTGGAGGCTTTAGTTCAGCCCTGAGGTGTAGCAGGAGCAACGCTGCCCCTCCCTTTGGCTCCACCCT
GATGCCTGGGGAGTGGTAGACACCCCTGTGTGTGCCCCCAAATCCTACTGTTTCCCTTGGCAGTGCCCCTCCGTGAGCTCCAGCTCTTTCCTGCCATTCT
TCCGTCTGTACACCTGCTGGGTTGCAGGGACGCACATGGACCTCCCTTTCCCKGCCTGCCTCATCCTCCTGGGGGGCTTTGGGTAGGTCCCTTCCCATCT
GAGCCTCAGCTTCCCTGTGTCTAAAAAGGAGGTGAGGAAACCCACCTCTCAGGCTGCCTGCAGMCTAAACACACTCTCATGCTAAGTGGYGAGGGCCCAG
CAGCGAGGACGCCCAGCAGCTGGGAGGCGGGCATCCCTGTTGTAGGTGGGGAAGCTGAGGCTCTGATGGGCGAGTTGATGGCACACAGTATGTGTCATGC
CAGCTGCTGTCCCCTCTCTGGCTTCCAGGTGGGAGCCACGGTGCCCCATCACAGGGACACCCCTGATGTGGGGCTGAGGGTCTGGGGTTCTCTGGAGAAG
AGGGGGGTCAGTTCAGCTGATGGCAGGTGGCTTCCTCCGGCACTTCAGCTTCTTCACTCCTTCTGCTGGGCTGGATCGCCGGGGACAAAGGGGTTAATGT
GTCTGGGGGCTGGGAGGGAAGGAGGAAGAGCAGGAGGAGGAGGTAGAGGAGGGGGGCTGGAGATAGAGTCTGGGGCCGCCCCCCTCCCACGCTGTCCAGC
CACTTCTCCAGGCTGGCTCTGGTTTCCCAGGCAACAGCCCCCAGGGGTCCCCTCTGGCCTGGCCTCAGGGTCGGCTCCTTCCCACAGAGACCTACTCCCA
GGGCCCCCTCCCCAGTGCTCCCCACTCTTCCTGCCTGCAGATCCTCACCAGGGGCTCCCTAGGAGGTCAGTGCRGGAGGGTGGGTGCCACCGACTCTGGG
CTCAGGACAGAGTCTCCATTGTCTGAGGCTCCAGCCATTGACCAAACTTGGCCCCTGCCCCAGTGAGGCAGGCCCCCTTCTCAGAGCTCCCCTCCCCCTC
CCTGGTGAAGAGGAAAGGAAGTTGGAGCCGCCCCCACCTCGGGAAGCCCTTTGAGTGTCCATCAGGTSGGTGAGGGAGGAGCTGGGGTGTGTGGTCCCTT
GCCAGATTCTGCAGCTCTGGCACCTGCAGGGTTGAGGAGGGTCTGGGAGGACGCTCCCTGACCCACCCACTCCCCTACTCCCCCTTCCACCCTGGGCCTG
GGACCAGGCTGAGGGTCCTGCCCTCTTGCTCCCAGGGGCTCCGTAGCTGTGTGGCCTTGGGGATGCCCCTCAGTCTCTGTCAGCCTCATTTTCCTCATYT
GCTATGGGAATCAAATGAGATGCAAACTAAAATGTTCAGTATGGGGCCCRGTGCAGACAGTGCTCGGAGGTGTCAGCTATTGTCATTTCAAATTTTGTGA
TCTCAGGCCTGGTGTTCCGGTGGAATACGTTTGTCTTGGACTTAGTTTAGCAGTCTGTAAAATGAGAAAATGCTGTTGGTCCTCAGGGACTGGCAGGAAC
CGTGGGAAGGAAACTGACATTCATTACAAACCTACCAGTGTTGTCCAATGTCATCTTATTTACACCTGCACCTGACAGGTAAGCACAGGAGGCGCAGAGG
GCTGCCTGCTTCRGAGTGGGGCTGCTGGAGAGCAGAGGATGAGTGTTGTCTGGGCTGGCTTCATACCAAGGCCGGGTTCCTGTCCACACACCTCATCCTT
CTCTTCTGCCTGCGCCCCTCCTGCTATAGCTCTGCCTGTGTTTTCTTGAAGGCAGCTCCTCTCTCCCCATCCCGGACTCTCCACCAGGTGGCCCTTTGCG
CTGAGAAGAGCTGTGGGCATCTTGCTGCCCTGCGTGGGGGAGCCGTGGGCCCTCTTCTCTGTCAGGAGACCCCGCCCCACTTCCTGTTCCAGCTCCATTG
TGTGGTTTGCATCCCCTTCTCTTCCTTCCGGGCCCCGGGCTTTCAGGACAGGCAGAGGACACCAGGAGGGCTTGTACCTCACCTTCCATCTGTTCTCCCC
TCCTCTGGGCCGAAGCCCCACACAAGCAGCTCCCCAGGTCCAGGGATGTCCCAGCCTCATGGGTTCCTGGTCTGTGCCCTTTGGTTCCATGCTGGGTGGG
TCCCAAGCAGGGGAAGGTCTCAGCTGTTGTCTAGTGTGTACCCCGGGCCAGACCCAGTGCTACCCATGCTGAGATGGAAAGAAGCCCAGTGCCCCCAGAG
AGGTCACAGGCTCTTGGGGAGGGCAACAGTTATAATGGGGCTGTGTCTGCAGGCATGTACCTGTCCCAGCACCACCCATGCTCTTTGAAAACAGCCTGTT
GGCCCCCTATCAGCTGCACCTCTGAGCCACTGAATCAGAATCTCTGGGTGTGGGCCTGGGACATAAATATTTTTAAAAAGCTTCACAACTGGAAACCACT
GTGTGAAATGGGTCTAAGGAAGCTTTGYAGAGGAGAAATGGGGTCTGGTTTTGATGACTGAACAGGAATTTGCTTGCTGGTTGTGAGAGAGAATTCCATG
TGGAGGGAACAGACAGCTTAAGCAAAGGCCTGGAGATGTCAAACAGGTCAGGTGGCATGGTCATGGGGCTGAAAGCCATTCGTGAGAGCCAGAGCAGAGT
TCCAGGCCAGGCCCGGAGCCGATGAGATCCGAGAGGTCGGTGGAGGGGGCGAATCTTGGAGGGCCTTGCTTAGGACCCAGGCTCCATTCTGACAGTGATG
GGGAAGGGTTTGAAGCAATAAGGTGATGTGACAGGTGTGTTTGCGGAGTGTCTCTGTGGCAGCGGAGGTGGCAGGTGGGTTGGCCTAGCGTGTGTCTAAT
GAGAGTTGAAAGCCAGAGAGACCTCTCAGAGAACACAGGTACGTGGAGGAGTTCTGGTCCTGACCAGCCCAAGCACCTGGTCTTTCCCCCMATTCCCCAC
CTTCTTTCTGCTTCAGGAGGTGGGCCCTGCAGAGGGCCTCTGAGGCCAGAGCTTGACAAGCGTGCTTGGGCCAGAACCGATTCCTTGCTTCTCTCTGGGC
AGGGCTGGGTGGCCGCTGCCCAGCTCATCCCAGCAGTCCAGCTGCTGCTTCCCCCGCTTCTGCCTGGACCTTGTTAGAGAAAGAGGCCGGCCTTYCCTGT
CCTCAAGGCACGACTTGCGCAGCCTTCCAGACTTTCAGGGCCCCCAAGTGTTTTCTTCCTCCAGGCCTCATTCAGGTGGAAGAGGGATGGGGCAGCTTGA
TGTGTGAGGGGTGGGAGATGGTCTTGGGGGGCCCGGGGTGGGACAGGGGCAGGCAGGAGGAGGGTTTCCTAGTGGGGCCTCTGGGCAGATGGACTTTGAA
CCCTAGTGGGAGGGGAACTAATAAGCACTGACTAAATTAGCCAAGCCAGGAAGACACCTGCTGTGATGAGCTGGGCAGCTGAGGGCAGAGGGAGGTGCCA
ATGCCGGGCTGCTCTGGGTGGTCCCGTCGCTGAGCCTAACCTGCTCCGGGCCTCTGGTGGGCACACCCCATAGCCGGGAGCTGGGGCCTCCCCTCTTCCT
CCCTTGTCTGAGCACTGCCTCCTCCTCAGCCATTCCACGCAGTAGCAGGAAGGGGAACTGTTCAGTGTCCGCCTGTTCCTTGGGTTTGGTGGTCATTGTT
AAAAAGGTGACCTCCAAGAGAAAACAATCTCCTATAACCCCACCACCCAAGCATAGCCTGGATAGGGTCCCCATGGTAACAGAGGCCCCTGTCTACCCAG
AGCTTACTCCGTGCAGGGCATGGAGCGTAGAATTCATCACACCCACTGCTGGGTCCTCATTTCATCAGCACAGGACGCTCAGGAAGCAGGTGCTGGTCTT
ACTCCCACCGCCCCAGTGAGAAAGGAATTCACTGCTGCTGTGGCAAGTGGCAGAGCTGGGATTTGAACCTGAATCATCCCGGCACCAAATCCTATCCTCT
AAACGTGGCCTTCGGTGTCACCGCCTGGAGAGTCACCGTGCTGTGGGCAGTGCCCTCCTCCTTTGGACTCAGTTTCCACATCTGTAAAGCAAGAGCAACA
CTGCCCTCTTGGAGCTACTTTCTGGTTCTGACATGCCATGCTTTTGTATTAGTTCTCTTTTTAAAGATGAGAATGGTTATTGTTTATTTATTTATTTATT
TTTGAGACAGTCTTGCTCTGTCGCCTAGGCTGGAGTGGCAGTGGTGTGATCTTGGCTCACTGCAACATCCACCTCCCAGGTTCAAGTGATTCTCCTGCTT
CAGCTTCTCGAGTAGCTGGGACTACAGGCATGTGCCACCACGGCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTG
GTTTCGAACTCCTGACCTCAAGTGATCTGCCTGCCCCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGACTGGCCTGAAGTGGGTACTTT
TTAATCCCCATTTTGCAGATGAGTAAACTGAGGCCCAGAGATAGGATTAACTCATCCAAGGTCTCATAGCTGCTGAGTGGAACCCAGGTGGTATTGGGGA
ACCTGAACTCTTTTCTAACCCCGTGAGGATCTGTGGTGGTGGCAGGGGGCTGCTGTGAGCCATCCCCACTCCCTTGTCCACATCCTTCTGAGACTAACAG
CCTGTGTGTGCAAAATGGTGGCCACAGGCCTATGGGTATGGGCAGGGCTTGCTGGGCTGCGTCCTCGTCCCGACACTTCAGAGCCCCGCATTAGCCTGTA
GCAAACACCTTCCAGATTCCAGCCCCAAAGGCTAGGGAGGCAGTGCGATCAGAGGATTGAGATTAGGCTTTAGGGTCAGTGCTCACTGGCTGGAATCCTA
GTGTGGTCACCTTGTCCTCTTGCTTCTGTGACCTGGGGCAAATATTTGCTTCTCTGAGCCTCTGTTTCCTCATCCGTAAGCTGGGGTGTTACGAGAATTA
GATAGAATAATGCTAATAAAGTGTCAGGCTCCATACATGTTGGTGTCTCTCTTCCTTTCTAGGGAAAGCCTTGGGCTTTGGAGGGGAGGGCAGGAATCAG
TCCCAAAGGGTGAAGAAAGGGGAGGACATTGGACTTTCTGCCCTGGAAGGGAAGGATCCTGGGTTTTGGCCCCAGGGTAGAGTAGCAGCCTCTTTCTGTA
TCATCATCAAATTGTATTTAAGGAGCAATTTGGACAGGAGGCTGGGCAAAGTGCCTCCCTTTTTCCTTCTGTAAAATGGGTATAGGTCTTTCTGCTGCTT
CCCTCCTGGAACTCTTGGGGCAGCAGAGCCCTCAGAGAAAGGCTGAGCAGACCTCAGAGGTTTTGAATGAGCCCACTGGGAGGGGGCCCTGTAGCAGGAG
TGCCGTGCAGCTACAGGTTTGTTTTCCAAAATCCTTTGCTGAAGTAAAAGTTTAGTCCTGAGAGTTTTCAGCGTGGGTCTAAAAGGCACAGTCACACGCT
TAGCAGAGAGTAACTGGTATCATCAGTCACAGTGAGAAATGCAGGCAGGTGTCAGGGTTCACATCTGTGATCCCAGCACTTGTTGAGGTCAACAAGGGAG
GATGGCTTGAGCCCAGGAGTTTGGGACCAGCCTGGGCAACAGAGTAAGACCCTATCTCTAGAAAAAATTTTAAAAAATTAGCCAGGCATGGTGGTGTGTG
CCTGTAGTCCCAGCTACTGGGGAGGCTGAGGCGAGAGGATCACTTGACCCAGGAGTTCCAGGCTACAGTGAGCCATGATTGTGCCACTGCACTCCAACCT
GGGAAATYGAGACCAAAGCAGCCTCAGTACCTATCGATGGGGGCTATATAAATTATACCCCCACAAAAAACACCTACCTCAAAACAAAACCAAACCTACT
ATGCAGCTGTTAAAAAAAGTGGGGTTGATTTCTATGTATTAGTACTATTCTGAAATCATCACTGAGATTTAGGTTAAAAAGGCAGTTGCAGCACTGTGAG
TGCTGTGTGCTCCTTCTGTATGAAACAAGGCATAYCTGCAGATATGCAAGTTGGCCCATGCATGGGAGAGTTCTGGAAGGATTCTTGAGAAGTCAGTAAC
AGTCATCTCTTCTGGGGGACTGGGGGATTAGGGCAACCAGGGTGGGAGGTTGACTAACTTTTTTTTTTTWAATTTTTTGAGACAGAGTCTTGCTCTGTTT
CCCAGACTGGAGTGCGGTGGCACGGTCTTGGCTCACTGCAACCTCCGCCTCCCACGTTCAAGTGATTCTCCTGCCTCAGCCTACTGAGTAGCTGGGATTA
AAGGCATGTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCACGTTGGCCAGGCTGGTCTCGAACTCCTGACCTGAAGTGA
TCCGCCCACCTCAGCCTCCCAAAGTGCTGAGATACAGGCGTGAGACACTGTGCCCGGCTCGGAGACTAACTTTTCATTGTCTACCTGTTGTATCGTTTGA
GTCTTGAAAGGTGCTAGAGTGTAGTAGCTGCTTCTAAGCACAGACTCCAGAGCCCCATGGCCTGGGTTCGAACCCTGGCTCTTCCTAGCTGTGTGATCTT
GGGCAAGTTACTTAACCATTCTTGGTCTCATTTTCTCATTTATAATTTGGAATAATAGACGTTAATATTTGTAAAGTGCTTAAAATTATGTCTGAGGTAT
CGTTGGCAATGCAAGAATGTCTACTGTTACTAATATTGCCATTAACCTGCATTTCATTTTTGTTTAGTAAGCCAGTTTAATAAAAATAAAGCCTTTAGGA
ATGGAAAGGAAAACAGGAACACAGCCGGTTTGTGGCCTGGGCAGATTAGACCAGGGGGCTGGGTGCTTTCCCTCCAGGGTGCATTCTCTCCTCCACAAGA
TGTCTAGGAGGACAGCCCCCAGTGCACAATTGAAGGTGACAGTAGGGAGCGGGGGCAGGGTTGGCTCCAGGGCCCAGGAAGCCCACCGGAGGCATCAGCC
TTTTGCTTATGTGAGCTCCCACTGTGAGGGGAGGGCGGTGCCACCTTGGGCCAGGAGGAACTGTGCCCCCACGCTGAGCATTTGGGATTCTGTCCCTGTC
TTATGCCATTGGCCTCTGGAGCCATTGCTTTCCTCACACCCATGTGCCAAGGCCAGGTTACCTCCTGCCTGCTGGTCAACCCATGGGGCAGGACAGGAAG
AGGCAGAGTCAGAGTGGCCTTCAGCAGGGCTACCGGAAGGGACTGACAGGAGTGGGCAGACCTAAGGGAGCCCATGCTTCCTGGGCAGCCAGGAGGAGGA
AGTATCCAGCCCCATTTGTGACAGTCAGGTGTGATCTGATTCCTGGAAGGTTGGGGGCTGAGCATGATCCTGGACTCTGGGGCCAGATTTCACCTGTAAG
CCAGAGGGGATGAGGACGGACACCCAGCAGGTCCCTGCAGGTCCCTTGGCACTGGCAACAGGAAGGTCTGTGGCTGCAGGGTTTTCTGGGAAGAAGGATT
TGGGCTGCACAGCTGCTGATGTTTCTATGGGTTAATGATTTATGAAGGCTGGAGGCTGGGGCCTTTCTGGGGCTGCCCTGTGCTCTGAGAGCCACTGGGC
TGAAGCACAGGTTGTGAGCCAGTGACTTGTCTCAGTAGCTGAAACTGCAGCCCTGACTCCAGCTAATGCGATTTCTGGTCTTCTTTCCACAGGTGTGTAG
CTGGGACGGTGCTGGTCTGAGCTGGACCTTGTCTGATGGCTTCCTCCAACCCKCCTCCACAGCCTGCCATAGGTACCGTACCCAGGGCTTCCTGTCCCTC
TCATCCTTTCTTAGAAGGGGGCCGCTGGGGGCCGGCGGAGGGCCTTGCTCTGGAGCAGCATGGCGCCGGGTGGGAAGTCTGCTCTGCTGGCTGCTGGCCC
TGCCTGGGCCGCATCCTCTATCTCACGTTCCTTGTCTACAAAATAGAAGTAACTTTCTGCTCACGGAGGAGGCTCTGAGCAAGGGTCAATCCTTTTCCTG
TCTCCCTGAGATCCGCCGGAGAGGTGAACACACGGGGGTCTCAGGCTGAAGCTTATAAATCAGGGGTGAGGAACTGAGGTTGGAGGAGAGGGTTGCGCCA
TAGGGTCAGGCCGTTGAACAGTGGTAGCATTGCCGCATTTAGTGAAAAAAAGAGAAAGTAAAAGAAAAATACAGCCAGGCATGGTGTCTCATGCCTGTAA
TCCCAGCACTTTGGGAGGCYGAGGCGGGCAGATCACTTGAGGTCACGAGTTTGGGACCAGCCTGGCCAACATGGTGAAATCCCATCTCTACAAAAATACA
AAAATTAGCTGGGTATGGTGTGGCACTTGTAATCTCAGCTACTTGAGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGATGGAGGTTGCAGTGAGCC
AAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAAAAGAGAAAAAGAAAAATACATACT
TATACTAACAAAATTATTCGTCGTTTATCTGAAATTCAAGTCTGTGTCCTGTATGTTATTTGGCAACCCTGGCACTGGGGCCTCAGACACTGCAGGTGGA
ATCCAGGCCCCGCCTGGGAGGAAATGGGCCCAGGGCTGTTTCACCCAGGCGGCAGCTTCCTGTCCTCTTGTATCACTATGAGAGAGGCAGAATTGCAGAT
GGTAATGAGTGAGGGCTTTGTCCTCAGCCCCATCTGAGTTTGAATCCTGASCCTGCCACTTAGACTGTGGGGCTGGTTAAGTGACATGTTGTCTCTGTGG
CTTAGTTTCATCATCAGTAAACATGGGGACAATGATACCCTCTCCTGGGCTGTTGCAAGGTTTAAATATATGTCAGGCGTGGGCATGGGGTAATCAATTG
CTCACTGACGGGAGTGCTTATCATCGTGGGTGTCAGCAGGACAGACAGCGTGTGCCATGCCCTGCACCCCTGGGAGAGCCAAATGATGCATCTCCTCCTC
CCTGAGCCTCGGGGTTCTTCTTGGGCGGGGGGTGGGGAGCAGCACAGCAGACCTGTCTTCCCTGTGGCAATGGGTGGCTTCCTAGGGTCCCTCGCCTCCT
GGACTCGCTTGTATTTTCTCACAAGGACCGGGTCTGTCCAGGAACATCAGAGGCATGAGTGACCAGCTCTGGCTGTGCCACCTTTGCAGGCTATTAGGAA
GGGCTTCCTTCAGCTCTCAGCTGTGCTGGGATGGGCCTCCTGAGTTTTCCTTCTGATAAGGAGCAATGCCTGATTGCCGGGGGGAGGATAGAAGGCGGCC
TTGGAGACAAGCACATCTCACCTCCCARTTCATGACTGGGATTTGGGTCCCAGCATGCCTGGCCTTGCCCCATCCCGCCCCTGCTGCCATGGGCACCTGT
TCCCTTTCCTCTCCCCACCAAGAGGCCTGAACCTGAACATGGGGAGTGAGAAAAAAAAATTTATGACTAAGTCAATTCTGTTCTGTTCAGCAAACATTTG
ACAAATATTTGTTGTTCCAGCTCTTTCTAATATTGCTGGCTAGTATCATCTGGGTGAACCCAGCTCTTTGCCATTTTCTCATTCTCTGAGAGCTTCCCAT
TACCTTCCYAAATTAAATTCAAATTCCTGAGTAGGGGATTCCCCACGCACCTTGTCAACTGTCTAATGACCTTCATTCCTGCGCGTGTCTTCAGCACCCC
CGGGGCACTTGGTGTTTGTTCTCTGTCTTTGCTGTGGCCTCTGCCTGGAATCCACGCYTTAGTTGGAGCTTGTCAGGCCTTTTCTCATCCTTTAAGGCTC
AGTGCRAGGGCAGCCTCATCCTCGGAGCCCTTCCTGAAGCCCCAGAGAGCCCCAGCCCCTTCCTCTTGGCACCRTCTCAGTCTCTGAGGTTTTWGGTTTT
CTCCYGCTGGCTCTGTCCTGTCAGCCTCACAGTGAGCTCCGGAGGGGAGCTCACAGTCACCCACCCCGAACCCCAGGACTGTGTCTTACCTTTCCTTCCC
CCTCCCTGCCCACTGGATGCTGGGAGCTGCTCACTGCATGCATGGATAACTGAAGCTATTTGTACTCTTAAAGGGAGGAGGTGCAGGCCAGGCACAGTGG
CTCATGCCTATAATCCTAGCACTTTGAGAAACCTTGCTTGAGCTCCGGAGTTTGAGACCAGTCTGGACAACAGAGTGGAACCCTGTCTCTACAAAAAATG
AAAAAAAAAAAAAAATAGCTGGGCATGGTGATGCTACCTGGGAGTCTGAAGTAGGAGGATCACTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCCATGAT
CGCACCACTGCCCTCCAGCCTGGGTGACAGAGTGAGCTTCATTTAAAAAAAAAAAAAAAAAAAAAAGAAGGTGTAGAAATGACCTGAGTCCCTGGACATG
GCTGGGGGCAGGGTTGCCTGAGGCCGGGTCTTGCCTGTGAGTTGGAGAGGACTGCCCTTCTCACCCAGCAGCAGGGACTGGGCTATGACAAGGCTGTAAT
CATAATAATAACAGTGATAATGGTGGTAATAATACGACAGTGATGATGTAACGATGGTGATAATAATAAGCAGAATCATCATCGTCAGAAAAGCTAACAT
TTGGTGAGCACGCACCCTGCACCAGGTGCTTTATTTATGTTCATTCATTCCCTCCTCCCAACAACCCTGTGAGGTAGTTGCTGTTATTGACCTCATTTTA
GAGATCAGGAAACTAGGAGGGGGTCAAATAACCCGACACTCATCCAGCTGGTACCTGGGTGAGCTGGAGTCTGAGCTGAACCCAGGTGGCCCGACTCTAG
AACCTTAGTCACTGCAGTGACACCATCCACATATAAAGGGAGACCCCCACCCCCACTCCCTGCCCAGCAGATTCACTTAGGCAAGGACCAGTGGGCACTG
AGAGGCTAAGAAAACCCTGTGTAAGTCAGGATGGGCCTGTAGCTGGTACCCCCAAAATAGTGGGTAGGGACTTTGTGGTCATTTATTCCAGTATTTAAAC
AAATTTTTTTTTGAGACAGGATTTTGCTCTGTTACCCAGGCTGGAGTACAATGGTGTGATCATGGCTCACTGCAGCCTCAAATTCCTGGGCTCAAGCCAT
TCTCCTGCTACAGCCTCCTGAGTAGCTGAGACTGCCGGCACATACCACCACACCCAGCCGATTTTAAAATTATTAAAAAATTTTTACTTTTGTTTATTTT
TTTTTGAGACAGAGTCTCGCTTTGTCACCCAGGCTGGGGTGCAGTGGCACAATCATGGCTCAGTGCAGCCTTGAACTCCTGGGTTCAAGTGATCCCTCCA
CCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGTATGCTACTACACCTGGCTAATTTTCTCATTTTTAGTAGAGACAAGGTCTCACCATGTTACCTGGGC
TGGTCACAAGCTTTTGAGCTGAAGCCATCCTCCTGCCCCAGGCTCCCAAAGTGCTGGGATTACAGGCGTCAGCCACAGCACCCAGCCTATGTTTTAAACT
TTGAAAATTACCACCCATAGACATGACAACAGGGGGACAAATGCTTATCACGTGCCTCCTGTATGCTGGACGTTACACTAGATGCTGAGGATGCAACAGC
AAACAAAACAGACAAAAATACCTGCCCTCGTGAAGCTTATATTCGAGTAGAGGAGACAGACAGCAACACAAATAGCATATGGCATCATATGCTGACAACA
GCCATAGAGAAAGGTAAAGTAGGCAGGGCAAACCGGGAGTCTCAGCAGGTCTCTATGGCAGCGTGCAGTAGAGATGCCGCAGCATGCAGAGAGATGATGC
GCAGTAAAGATCTGAAAGAGGGGAGAGCAGGAGAAGATACTCGAAGGAAGAACGTGCTAGGCCCTGGGGCTGCGGGTGCAAAGGTCCTGAGGCAGGAGCA
TGCCTGGCACATTTGTGGTACAGGAAGGAGATCAGTGTGGCTGGAGTGGAGGGAGCAAGGGATGAGCAGAAGATTCTACGCACATGTGCACGTGTGCGTG
CACACACACACACACACACACACCCCTACCCAATGTGTATATGTAACTGAAACAGAAGTGTCAAAACCAATATTGAAATTATACCAAGGTGAATTCATTA
GTATCACAATACATTATTTTTTAAACATCTGAAATAATTCAATACCAAATGTATTTTATTTGGTATTATAATATCAAAAAGATACCCCATATGATTTTAT
TAATATTAGAATACAATGTTTAGAAACATCTGAAACAAAACAAGCTATCAATCCAAACACCAAATACAATGCTGATTGGGAATCCCCTAATTAAACTTAT
GAGCTACCAGGGGTTGGGAACTGCGTCCGAAAACCACAGATCCAGCTCCCACCCAAGCCCTTTCTGTCAGCGCAGGGCAGAATGTCTGAGGGCTTAGTAG
AAGAGTATGGAGGGTGAATGGAGCTGGGTTCCAGTCCATCCCCATCCTCTTAGCTGCTGACTGTGGGCACATTGCTTTGCTTCTGTCTCTGGGGTCTTGG
GTAAATGGAGGTGATCCTGAGGCTGGATCAGGAAGCTGCCTGGGGCACAGCTCGGGATCTCTCAGGACTTGCTTCATGACACCTGGGGAAGGAGTTTGCT
CTACAGGCCACATCGCTGCCCAGAGTCCACCCCTGCTGACCTGGCCTGTGGGATCCCCAAAGCCCCAGGAGGAGTGGCTGTGTCTCCTCCTCCGTGGCCT
CAGAGGAAGTTGGGTACTTCTCATTCTGGGGAGGGAGGGCGTACTCTGGGCTTCCATTGCAGTCGAGCAGCTGAAGAAGGGGTTTCTTACATCTGCCCCC
AAAATATTATGCTCTGGGAACCTCCAGGTCATTGTAGGGGAGTGACTGGATTTTTCTAGTCCAAGAGACTGTTGGAATCAGATATGTCCATCTGTCCATC
TGTTCATCTGCTGGACCATCTGCCCATCTCTCTGTTCCAGCCACCTCCTCACCCATCACTCATCCATCCATCTAATGTTTATTGAGCATTTGCCAGGGCT
GGGTCCGCAGACCCATGGGCTAGAAAATCCTGTTTGTCCTCAAGGATCTGCGGCTGTTGTTGTCATAATCCTTACATATACGGGCACTGTGCCGAGGGCT
ACTCCTACCCAGTGGTTCTCTGATAGTGGTGATTTTACCCTCCAGGGGGACATATGGCAATGTGTGGAGACATTTTTGGTTGTCACAGCTGGAGGGTCCC
CTGGGCCTGTAGGGTGTAGAAGCCAGGGATGCTGCTAATCGTCCTACAGTGCACAGGATAGCCCCCTCTCCACCCACAAAAAGAATTATCCAGTCCCAAG
TATCAATTGTACCAAGGCTGAGAAAACCTAAGCTGCAGCTCAGCTGATGTTCATGTCAGCCTTATGGGGAAAGTGCTGTTTTTATTCTCCAGTTTGCAGA
GGAAACCAAAATTCAGAGAGGCAAAGTGACTTGCTCAGAACCACACAGCTAGCAGGGAGCTCAGACAGGGCCATGTGAGCGCAGAGCTCATGCCTAAGCT
GTGTGTCATGTGCCCACGAGAGGGCTGCTTAGGGCGGTCAGCTTGGCAGATGTTTAAAAACAGAACCAAACTGCCCGTTGGTTTTGCAATGGTTTGCATA
AGGTAGGGGATGGAGTTATTGAACTCCTGAAGTTCCATTCAGCCCAGAGTTTAGGAAGGAAGTCTTCTAGGAAGAGGACTGGGGAACCTCCATGTGGTGA
AATGGCTGGAAATGGCTTCTCGTGCTCTCTAGGATAGAGAATTCATCCCTTCACTCATGTAACAAAAGCCGCTGAGCTCCTGGTCTGGGCCGGTCCAGGA
CCAGAGAGTAGAGGGGACAGACAGGTGAGATGTCTGCTCTCAGGGATCCGAGCTTGGTGGGGAGTACAAACAAGGGGCAGGGGCAGAGAAGGAGAGGCCA
CACCTCCTGTAGTAGGGTAGGCGGGGACAGTCTCTCTGCTTGAGTTGAGCTTTAATGGGAGAGGAGGACAGGAGTTCATAGTCACGAAAGGGGTTCCCCA
GGAGGGTAAAAGCAGGGAATGAGGCCTAGCAAGCTGACCTCCATGCTGAGAGCTTGGTGCCTTCCCCTGCCCCAGCCAGTCTGTGCCCTAGTACCTGCAA
GCTGGCTGCCTCCAAGTCCAGGCATTCCCAGGCAGCTGTGTTTCATGCTGCTGCACRTACCAAATAAAGTGTAGTGGGAAGGATGCGCTGTCTGTGCTCA
TTTGCACACACAAAGCACACAGACACATCAACACACAAACATACAATAAGCTTGTGCTCACGCATAAACACACATGTAAAAAGACCCCTTGCTCACAAAA
CAGGGAAACACGAAATAAGAAGAGGAAAGATATACATTGAAGTACTGAGGTGCACAGGCTCRCCCTGGGAGCACACTCCCTTCCCTCCCTCAACTGCCAC
TTGCTTAGAGACCTAACCCAACCCCCTCCCCCCGGCCTTACCAGCACTGTAGGGCCATGTGGCTTGAGTTTGATGGCTCTCATTCCCTGGCTCAGACCTG
AGGTGCTCACCCAGTTCCAGCCATGCCCACCTACCCCAGCCATCTCTCCATTGACCAAACCTCGGAGATCCTGCAGCCTGGCCAACTCCTTCTCTCTTCC
AGGAGATCAGCTGGTTCCAGGAGTCCCAGGCCCCTCCTCTGAGGCAGAGGACGACCCAGGAGAGGCGTTTGAGTTTGATGACAGTGATGATGAAGAGGAC
ACCARCGCAGCCCTGGGCGTCCCCAGCCTTGCTCCTGAGAGGGACACAGACCCCCCACTGATCCACTTGRACTCCATCCCTGTCACTGGTAAGATGTTTC
TGGGAACTTCCGGTCCTGGGGCTACAGGGAGCATGGAGAACTGGGCGGAAGCTCCAGGCTCTCAGGGATGCCTGGTGGCCCCTCCGCTGTCCCCAGAAAG
CAGGAAGGGAAAAGCCAGTGGGAAGAAGCTGCAGTCTGTGGCTTCCCTGGTGAATTGGAAATTCCTAGCATTCCTGCAACATCTGGCGCACTTTGGCACA
TTGTAAATGGAAGTGGTTGGCCTGAGTTTTGCTTTGGAGACAGTTGCTGCCCAGAGCTTGTGTCTCTGAAGTCCTCCCTGCAGCTTCTCCTAAAGAATCC
ACACCAGCCAGAAGAGCAGCCTCCCAGAGGTYCCCTCTCCTGTCTGCCTTGGGGAGCTGGCAACCCTGGGGGGCAGGAGGGCCCTGATAAGCTGGTGTTA
AATGGCAGCTTCTGGGCTCTTAGAGTCTGTTATCTGAGAGAGAGAATCTGGGGACTGGACCAGCTGGAACTTCCTGCAGGCTTGGGGACAGCGGGCTCCT
GGAGCAGCTGGGGGTGGAGGGCAGGCCCAGAGCAGGCAGGGTGGCTGCCACGGGTTCTGGCTGGAGTTGGGAARTGGGCCACGGGGTGGGTGGGGGTGGT
GCAGGCCAGGTAGGGGAGCTGATGACTGAGCCAGGGCTGGGGGAGGGAGGCGGGGCTCAGCAGGCACCCAGACTGGCCAGGCCCTGTCTGCGGYGCCCCT
GGGGAGGCTGGGAAAGGGGCGGGGAAGGCCTGAGTGCCTGGGGCCAGCCTCTGGCCTGACAGGCTCTCTGTCTGCTCTTCTTTTGCAGACCCAGACCCAG
CAGCTGCTCCACCCGGCACAGGGTAAGTGAACCTTGCTCCTTTGCTTTGGCGGTTGGAAACAGGGAGACACCGGGCAGTGGGTGGGGATGGGGTGGAGCT
GAGGCCCAGAGGACCCGACTGGTCTTTGGCTAAGGAGGAAAGCATTTCACTGAGGCCCTGTGCCCTGGGGGAAGAGGTCAGTTCCAGAAACTCATGGTAC
TTTTTCCTTTATTTTGCCCACAAACCTCTGAAACCGCAGGAGGCAGGCCTGGCTCCAAACCCTACCTCTGTGGCCTTGGAGGAGTCACAGAAACTCTCCA
AGTGTCAGTCTGTTTGCGGCTGAAGGGGAAACAATGAGAGCACCCCCTCTGTTGGGTTTGTCTTGGAGAAGCAAACAGCTGGAGGGTCCCCAGTGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTGGGGGAGGTTGGGGGGGTTTGAGGGTGGGGGGGGTGCAGCCCATTGTAATTATTT
TTGCAGTTGCCATTTGTCTTGTTAATATCATTCCCATTCCTATGACAGTTGCTATTAGGGACCCTGCCCTCTGTGCCTGGGAGCCTGTCAGAGGCAGTGT
AGCCTAGTGGTTAGGAGCCTGGATGTTGGGGTGAGGGCCTGCGTCTTGGCTGTGGCCCCCACACTGGCCACAGGTCCTCATGTCAGTCAAGTCCCCCTTT
GGTTTTCTCATCTGTAAAATGGGCTATCGGGTAAGATGCCCAGCCTCGTGGTAGGTGCCTAATCAAGGCATTTGCTTTTTATCACAGTTCTTCTTTGTCT
TCTGCAAGTCAGGTCTGGGTTGGAAGGGTAATTGGGTAACTGGAGGTGGTGGGAGCTGAGGCCTCTCAGGACCAGGTGTTYAGAGCCTCCTTGCCTAAGC
AGTGGAGGGGTCTAGGCTCCAAATGAATGGCCCAAGCATCTGGAACCCTGAGTTTAAATCCTCACTACCCTGGTGAGGGGAGGCATGTCTGAGCCCTGCT
TTGTCTTCCTGGGGTGCCCCAAACTGAGCAAGAGGGGCTAATTCTCAGGGTGGTGTCACCCAACGGGAGGTTTCAGAGATGCAGGTTGCAGGCCCAGGCC
CCCAGAGGAGAAGTCCTTCATGTGCTCATTTGCTGTCCAGAGTGGGTGGACTTGGGGAGGGTTTCTCCTGAGCTTGCTACTATGTAATTAAGGTGAGAAT
TAGAGGCCAGCCTCTCCTTCCTGATTAGGGACCTGAAATGAATCAGCAGCCATTCGTCCTGCACCTGGGCTGGGAAGGGCCGTGATGGCTGCAGTCTTCC
AAGGGTTTATATCTCCAGGGTGGGCCAGGGGTGAAGTTGTGGAGAAACTCAGTCTGGTGGGAGATGCAGATGCGTCAGAGTGGGACAGAGACGGACGCCC
AGGGAGCTGGGACACTGACTGGAGGGGAGYAAGGATGGGGTCGTCAGGGAAGACTTCTGGGCCAGGTCCTGGCTCAGCGAGTGAATGGAAATTCTCCATT
CAGGATGGCAGAGGGGCAGGGGGAGTGCCTGCTGAGGAAGCCCCTGAGCAGAGGTACAGGGCTGGCACACAGGGTGGTCAGCACACTCACTTCCTTCAAG
CTACCCTCTTGGAGACCCCAGGAGTTAGGTGATGTGCTCAGGGTTCCATGTAGATAAGTAGATGCTCATTCAGAAGAGAGACCAAGGCCCCTCTGACACC
GAGGCCAGGCGCTGGGCCACCGTGCTTCTCTGCCTCCAGGAGCTCATGCGCTGGTCCCTGATGAGAGGGTGTGGCTGGCTTCATAGGAATGATCTGATTG
TGTGTACATTTTTTGAGGAAAGATTTTTGCCCACTCAGAGATGATCTCTGAGCTCTTGGGAGAGTGGCGTCTAAGCAGTCGGTGGAATGTTCCATAGGTC
CCTCCCGGGGAGGCTTGTGCGGCAGTGCCTGGTGTGTGATTCCTGGTGAGGTCCCTTCCCTTGACAWGAGAGCAGAGCAAAAAGAGCCRGCTCTTCGCTC
CCCCAACACRGAGATCTTGTGAGGGCGGAGGGGTGTGCAGGTGTGTCTCTCCACCAGCAGTTGCCTCTATGGGGACAGGGACTTTTTGATTTTTTGGAGG
GGGATGTTTTGTTTGCTGCCAAACCTCATGGCTTAAGTGGCAGGCACGGGGTGAGTGCCAAAGACGTCCTTGGTGAACGAATGATGGACAGAAGGACAAG
GAGGGTCTGTGTTCCATGGAAGCAAGGAGAAAGCAAACAGCATGTCAGACCTGGTGAAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGTCAAGGT
GGGTGGACCACTGAGGTCAGGAGTTCAAGACCCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACAGAAAATACAAAAATTAGCCGGTCCTGGTGAACG
GTGCCTGTAATTCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGTAGTGAGGCGAGATTGCGCCATTTCACTCCA
GCCTGTGTGACAAAGCGATACTCTGTCTCAAAAACAAACAAACAAAGAAACAAAACCAACCAAAGAATACCACCCCACCCCTCTACCCCCAAATGAATGG
CATGTCAATAGGGTTTCTATTGGATTCTGACTCTGGCAGCTGTAGAGGCCAAGACAGAGGCCAGGGAAGGGAAGCGCAGAGTGGTTGTGTGGCCCAAGGC
CACATGGCTAGAGCCACCTGACCTCACTGGTGCTGATGGTGCTGTGCTGAGCCACAGGCTGTGCTAAGTGCTCTGTGTACATTATCTCTTTTTGTTGTTG
TTTGAAACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCATGGCTCACTGCATCCTTGACCTTCCAGGCTTGAGCGATTCTCCTGCC
TTAGCCTCCCGAGTAGCTGGGACTACAGGMATGTGCCAYCATGCCTGGCTATTTTTTTTTTTTTTTTTTCTGAGACAGTTTTGCTCTTGTTGCCCAGGCT
GGAGTGTGGTGGCGCCATCTCGGCTCACTGCAACCTTTGCCTCCTGGGTTCAAGTGATTCTCCTGCCCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGT
GCCACCACRCCGAACTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAGCTCCTGACCTCAGGTGATCCACCCA
CCTCGGCCTCCCAAAGTGCAGGGATTATAGGCGTGAGCCACCGCGCCTGGCCTAACTTTCATATTTTTTGTAGAGATGGAGATCTCACTCTGTTGCCCAG
GCTGGTCTTGAACTCTTGGCTCAAGCAATCCTCCTGCCTTGGTGTCCCAAAGTGCTGGGATTACAGGCATGAACCACTGCATCTGGCCTGTAWTATCTTA
TTACTTGTACCCCTAGGAGCCCTAGAAGACAGGTACTATTGAATATGCCCATTTTGCAGATGAGCAGCTGAGGCTTAGAGAACTGAAGTAATTTACCCAA
ATCTCATGGAGCTAGTAAATGGCAGGGCTGGGACTAGGCCTGTCTGCCCTCAAAGCTGTCTACTGAGGCCCACAGGGTTTGCTTCTCCTGGTGGACTCTG
AAGCACGTGCACTCATGTCCACCCTGAGCTCTCGCTGGGGGAGTCRTGGTTGAAAGAGCAGCCCTGAGTACCCAGCAGTGCCTGGGAAACGTGAGCGCCA
CAGATCGCTGGCTTCCTGTGTTTTTCCTGGACTCAGGCCTGCACCCCTCACCTCTGAGTGCAATAGCCCCATGGACTCTGGCCCCCTCTGGAGTTGTTTG
CTTTTCCTGTTTAGTTTTGCCTTTATCCCCCTGTGACCTCAGCACTTTTCTGTGGGTCAGGGTTTTGGCTCCTGGCCCTGGTCGCAGGGATTCTCATGGG
CTCCCTGAAGGTACCTGGCCTACCCCTTCCTGGGCTTTTCTGGATAAGATGGTTGTACTGCCTGTTGGCTAGTGTCTCTCATTGGGGCCTGGAGCCAGGG
GAAGTGATGGGGCAGCCGTATTCTGGGAGAGGACAGGGAGACTCATCTTCCCTGGATGTATCAGGGGCTGAGAGGATCAGGSCAAGAGGAGACCAGGCTC
AGCAAAGCAGTATTGGCACAGGATGGAAACAGGGCGCTGGTGGCCTGTGGCTTCTGAGACTGCTAGGTGTGGGGGACATAGGGGCTCATGGGAAGGGCAG
GTCAGCAAGGCCGGAGTGGGTCCGCAGCGTCTGGAGGAAATCTTCAAGATTTYCCAGATTGCCGCAGACCTAGTCTGGAGTYGTTTGGAATCCTGGGCTT
CTCCTTACATGTGCTGTTTCCCAAATCCGGAACATTTGAGCCTCCTGCGTCCTGTCCCGCAGGGTCCATGCGGGACGTGAGGCATGGCAGATACCGGCTC
TCCGCCCATGGAGTCCCCCATGGGAGGGTTATGGGGACCAGGTCTTTCTTTCCATTAAAAATCTTTCTTTAAAGGTCCCTTGCCAAATCCATAAATTGGA
CAAGCTGGTTTTTGTGTTTTCTTTCCTTCTTTTCCTTCTCCGAGGGTAGAAACAAGGGCTCCCAGTTTCCAATCAGAGCCAGGACCTTTGGATCCCAGGC
CCTTTGAGGACCCCCACAGCCTCTTCATTGAAGAAGGCACTTGCAGGGTACCTGGTTGGCACATCTCTTCATGGTATAAATATGCCTTCAAGGAATCCTG
TGACGTTCCTCCCTGCATCCCTGCAGCGGTGGGACTCTGCCTCACTCGTTTTTTATCCCAGTGCCTGGCAGAGATGGTGCAACAATACTAACAGCCTACA
CGTGCACGGACTTTACAGTTTACATCTCATTTTGATTCTCACAACTGTGGGAGGCAGAATCATGGCCCTTCCACCCCTTGGAGATTTCCGTGTCTTCATC
CCCAGCACCTGTGAATCTGTGACGCTGCGTGGCAAAGGGACTTGGCAGATGTGATTAAGTGAGGGGTTTTGAGATGGGGAGATGACCCTGGGTTATCTGT
GGGCCCAGTGGCACCACAAGGGTTGTGACAAGAGGGAGACAGGAGGGCCAGAGTCAGAAAGAGGTGGGAAGATGCCACGCTCCTGGCCTTGGAAATGGAG
GACGGGATTGTGACCAAGGAATGCAGGTGGCTTCTCGAGGCTGGAAAAGGTGGGGGATGGCTTCTCCCCTGGAGCTGCCCCTGCTGAAACCTCGCTTTTA
RTGAGAGCACAGCCCTGCCGAAACCTCGCTTTTAGCCCTGCGAACCCCTTGATGGCCTTCTGACCTCCACACCTGTGAGAACAGATTTGTGTTGTAAGTC
ACTAAGTTCGTGGTCATCTGTTACAGCAGCCATAGGAAACTAACACGACAGCCCTGGAAAGAGGAAATTATCGTGGGCACCATTTTGCAGACCAGACCTG
GGAGAGAGCGTCACTTGTCTGTGGGGCTGGGCTGGCAGGCATGGTGCTTGGGCTCAAAGCCTCAGGCCAGGGGCTCTGTTTGCCCTTTCTCTATGGCCCT
CTCTGTGCATCTAGGATGGTGCTCTGCTGACTGGCCGGTATTCCCCTGCCCTTCCCTTGCGTCTTCCTGTCCTTTCACCCAGCACCTCTTTACTGAGTGA
CTGCGATGGGGGCTGACATGCTCTGCCAGGCCATGTTATTTTTATGTGCCTGTGTGTGTGTTTGGCTCTAGGGCCAGATCATAATGGCCTGAATGTACCC
AGCACTTCTTACATGCTGCGCTCTGAGAGCTTTCCCTCCCCAGTGCCATTCATCCTTGCAACACTCTCACAGGACAGGCGCTGATACAATCTGCATTCTA
GAGATGTGGGAACTGGCACAGAGAGGACATGACATCAGCCCAAGGTCACAGAGAAAGATGAGCAGAGCCAGAGTTAACCCCAGCTGGCTTCCAGAACCTG
TGTTCTAATCCCTCTGGTGCAACCGTCTCCCACACAGAGCTGGTTTGGATCCCGCCTGCCCTACATGTTAGCTGCATGACCCAGGACATGCTCTTTGGCT
TCTCTGCCTAACCCTCAGTTTCTTTTCTTTTCTTTCTTTTGAGATGGAGTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTCCAAC
CTCTGCTCTGCCCCCTGGGTTCAAGTGATTCTTCTGCCTCGGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCCACCATGCCCGGCTAATTTTTTTCTA
TTTTTAGTAGAAACGGGGTCTCACCATGTTGGCCAGGCTGGTTTCAAACTCCTGACCTCAAGTGATCTGCCTGCCTTGGCTTCCCAAAGTGCTAGGATTA
TAGGTGTGAGCCACCATACCCGGCCCCCTCAGTTGCTAATCTCTGTAAAGCAGGGTGATGAGACTCACCGGATGGCACTGTTGGTGGGGATGAAATGAGA
TGGGAGAGATTAGGTGCTTACTCGGTGAGCTGCTCATTGTCACTGTCTCCAAAGGGTGTGGAGCTGTCTGGGGCTGACTCCAGGCACAAGGGACCCCTCC
CTGGCCTGTGCATTGCTTAGCATTACCTGAGATGCTCTTCAGTCCATCCCTCCTCCCTACCTCCTCCTCTCTCTTCCTTTTTAAAAAAAATACAGTTTGT
TGTAGAAAAATTAGAAAGTACAGAAAATGATAGACTAAAAGCAACTTTTAATCCTACCATGATGTGTTTCTGTCCAGCTTCTTTGCTAGGCATGTATGCA
AGTATGCATGATTGTTTTTATAGAACTGTGGTTTATTGCACATGCTGTTTCGTGGCTCACCTTTTTTTTTTTTTTTTTTTTTTTTTAAAGCTAATTACAT
ATCATGAGCATTTCCCCAGGGGAACTTGTATTGTTTTGCAACAACCCACATGGCTCTCGATACATTTTTGCCAGGGGTGCAGGGCCTCTCCATGTCTGAC
CAAGCCCTGGGGCCCCTGAGATGTCAGGGAGGGAGGTGCATTGCCACAGAGCAGGAGGCCAGAGGCTGGGCTTTGGCCCAGCATGTGTGTGGGGGGCCAC
CTGTACAGAGATGGCTCCYCAGAGGCCTCGACGCTCACTCCCTGCTGAGGTCTGTGATATGATGCCACCTGAGGGCCGCTCTGAGACTTCCCCTGGGGGG
CTTCTCACTGCTCTCTACTCATCCAGTAAGGGGATCTGTGACCATGTGTGGGGTGGCACAGGAGAGACACACGGGGTCCTGGAAGCCCTCTGTGCACAGG
ATGGGCGGCCACAGAGGGAAGAGGGAACACATGCAGGTGAGGCCCCCGTGCCTGGAGGAGAGGCGGAGGGAAGGAGGGGGCGGGGAAGCAGCACACACGA
GGCCATACCACGTGCCAGCCCCTGTGCCAGAGGATTTACATGCCTTCTTTATTTACTCCGTACCAGAACCCTGCGAGGGAGGTAGTGTTGCCTCATTTTA
CAGATATGGAAACTGAGGCACGGAGAAATGCTAAGTGCTTTATCTGCATCATCTCACTGAATCCTCACAGCTGGAAGTAGGACTGATACTTCACCCTGGT
CCACATTCAGTAACTTGTCCCGGTGCACACAGCCAAGTGGCTGAGCCACAGTCATATCCCAGGTCGTGGCCCCGGGGTGCTTACTTCTTCCCCCCTCACG
CCTGGGAGCCCTGGTTCTCAACCCTGGCTGCATGCTGCAGCCTGCAGGGAGCTTACCCCTGACCAACAGTCAGAGTCTCTGGGGCGGGGGCCCTGGCGCC
CACATCTTCTAGGGGCGCCCTGCTGACTCTAGTGGGCCGCCAAGCCAGATGCTCTCTAAGGTCCTCAGCTTTGACATGCTGTACAACCAGGTCAAGTGGC
CAGGGCCAAAAAGAGACCCAGCAGCAGGCTGAACCTGGGCTGCGTGTTCTTCCCTTTCCTTCGTGTCTCTTGATCGGGCCATCATGCTGGGAGGAGTTTC
CGAGGCGGGCGGTGACACTGTGTGGGGCTGTCCTACGCAAACTCTCCTGTCCTGTCCCTCCCTGTGCTGCAGCTTGGGTTTTCCTTGAGGCCTTATAAGG
CAAATGTCATTCCAGTCCTTTCTAGTCCCATCCCCAAAGGTGAAGTTCTTTCCTTTCTCATATTTGTTATGCCTTGTCCTGGCAAGGGCCCCAGAATGCT
TGTGCGTGTGGACCATGCTGGCCAGGAATCCTTAGCTTGTTCTGGTTTTGGGGGTCTCCTCCCCGACCACCCACATGGTGCAGCCTCTGGGAAGGGACCC
TTGGAGGTTCACTGAGAAACTGGGGCCTGTAGCAGCCCCTGCAGGGGTGGCGGGTGCCATTCTCTGGAGTGGGGCTTCTTATCTTTAAAACAGGCTGGGG
GCCCGGCGCGGTGGCTCATGCCTGTAATCCCAGTACTTTGGGAGTACTAGGCGGATCCGAGGCAGGTGGGTCACCTGAGGTCAGGAGTTCAAGACCAGCC
TGGCCAACATGATGAAACCCTGTCTCAACTAAAAATACAAAAAAAAGTAGATGGGCGTGGTGGCACACGGGGACCTACCCCTCCCTGCCCTGCTGCTCTT
TGGAGAGAGAAGAGGTGGGGCACAAAGGTGCTTGGAGCTCTGTGGACCAGAAACGCACCAGGTGGCCTTCTGGTGCACTTGAACTCCTCTGCCGGCAATG
TAGGTTGCTGCTTGGGGGTGCTGGGAGGGGTCCTTTCCTCTCTTCCCTGCTTCTGCATCTGCTTCTGCCTTTTCCTCCCCATCTCCTGCCCCTCACCATG
GATTCAGCTTCTTTCCTTTGCATTCAGGTTGCTGGCCTTACTCTCATTTGCAAGCTGAGAGGCATTAGGAGAGCAGGAAGCTCAGATAAGGGTGAGATAA
TTGCCTCTTACTGGTTTTTATGGCTCTTTTATGACCCGGAGGCCCCTGAAGGAGTGTTTGTTCACAGGGAGAATTAGACACGGCAGCCCTGCGTGGCTTC
CATGGACAGCGGCTGGGAGAGGCTGCTCCGGGTGGGTACAGGGTGGGTCCAGGGCCTTGGCAGGCATCAGGGAGGGTCACGGGTACAGGAGGGGCCCCCA
GCCTCATTTCTTGCCGTGCCCTCTTTGCATGCGTGTCTTGAGCTGGAACGTTGCTCGTGTCCCTGCTCCCCCAACTTTATTCCTCTTCCCCTGCCTGGGA
AGCCCTTTCCCCATCTCATCGGCCCGAGGAACACCTGCTCCAGTCTAGGGAGGCAGCGGAGGTGGTCCTGAGAGCAAGGCTTTGCAGATAGATCACCGGG
GTTCAAACTGCCGCTGTGCCACTTGCTGGTCAGGTGACTTGGGTAGTGGGGGTGGGCAGGAAGTGACCTCTCTATGCTGTGGGGACCCCCATTCCCCAGC
CCAGTACACCAGAGCCAGTACCTGGGCTGGTCGCTCACTGGGTTTTGATAAGGTGCAGCGAGGAGGAGCCTCCCCCTGCCTATGAGTCGGCTCATCAGGT
GTTTCCAAATCCCTCCTGAAGTTGCCTGACCTCACCCAGTGATGCCTCTGCCCACCTCCACGTCACCTTTACAGTTTACATGGGGCTTTCTCTGGTGTTC
TCTTGGTTAAACTGCATTCTTTCGGTTAAAGCGTGCTGCAGCCTTTGAGCTGGGTGTTACGCTTTCTCTTGGACAGTGTCTGAGTTCATTTGGGCTGCTG
TAAGACAATGCCATAGATTGGGTGGCTTATAAACAAGAGAAACTTTTTTTTTTTTTTTTTGAGATGAAGTATTGCCCTGTCCCTCAGGCTGGAGTGCAGT
GGCACGATCTCAGCTCACTGCAACCTCCGCTTCCCGGGTTCAAGCGATTCTCCCATCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTACCACCATG
CCTGGCTAATTTTTGTATTTTTGGTAGAGACAGAGTTTCACCATATTGGCCAGGCTGGTCTCAAACTCCTGACCTCCAGTGATCTACCCACCTTAACCTT
CCGAAGTTCAGGGATTAGAGGCGTGAGCCACCACACTGTGCCTAAGAGACTTATTTCTCACAGTTCACAAGGCTGGGAGGTCCAAGATCAGGGTGCCAGC
AGATTCAGTGTCTGATGAGGGCTCATTTCCTGATCATAGATGACACCTTCTCACTGTGTCCTTACATGGTAGAAAGGGCAGAGGAGCTCTCTAGGGCCTC
TTTTATATGGGCACTAATCCCAACCATGGGGGCTCTGCTCTTATGACCTAATCACCTCTGCAAAGGCCCCACCGCCTAATACTATCACCTTGGGGGTGAG
GATTTTAACACATGGACTTTTTTTGTCAGGGGAACACAGACATTCATACCATAGCAGATGGAGACTTGAACTTGAGCCTCTGAGTGTGCCGAGGGCTACT
GCTCTCTCTCTCTCTTTTTTTTTTTTTATAAAATGGTAGCTAAACAGGCAAGATCTGAGGTAACCATATGCCACAGCAAACCTGTGATGTAGGTGAATGT
CTACATGCAAGTTCTCGACTTCCAGGTGGTCTGGTTGAAACAATAGAAGCTTTGCAGGTAGACGTAGTGTAAGATCCCAGCTCCCACTAATTAGCTGAGT
GATTTCTGGGTAATTGAAACTTTGTGAGGCTCAGTTTCCCCACCTGTAGAATAGGGGTAACAACACCTGCCTCCGGTGTGTTCCTGCAAAATTAAATGTG
CAGGTCGGGCTTGTAGGCTCACTCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGGCGAA
ACCCCATCTCTACTAAAAATACAAAAATTAGGTGGGCATAGTGGCGCGTGCCTGTAGTCCCATCTACTTGGAAGGCTAAGATGGGAGAATTGCTTAAATC
CAGGAGGTAGAGGTTGCAGTGAGCTGAGATCGTGCTGCTGCACTCCAGCCTGGGTGACCAAGTGAGACTGTCAAAAAAAAAAAAAGAAAAAGAAAAAAAA
AACGTGCAATTACATGTAAAGCAGAGCAAGCAGTGCATGGCGGATGCTTTGTCACGGTCACTGTCATGGCCACATATCAGAGCAAAGAGGACCTGTGGCC
GGGAGACTGTCCAGCCAACCTCTTCTAAGCTCACGTCTGTTCCAGCCGGAAGAGTTTGGTTCTGTCTGAGCAATTCCGAGCAACTGATGTGGCGCCTTCA
GGATGTTTCTGTGTTGAGGAGGTGGCGGCTCAGCGAAGCAGCTGTTAGAAATCGGGGTTCAGGTGGCTCCCATCAGCCCATCACCCACCTTCCTGGTCCA
GAGAAGCCCTGTCCTCTCTTGGCCTTTACTTCCTGTCATTGGTGGAAAGTGTCTCCCCAGGACCAAATGTGCTGCCTTCCTTGCCCTGGGGTGACACTGT
TGACTTCTGGCAGTGAAATGTGAGCTGACACTTGCTCCTCTAATAGGGCAGGTGACTTAGACCTGCACCACCCAGTCCAGTGGCCACTAGTCATGTGTAG
CTATTTAAAATTAAATTACTTGAAATCAAATAGAGTTAAAAATTAAGTTCCTTAGTCCCACTAGCCACATGTCAAGTGCTCAATAGCCACGTGGCTGGTG
GCTGCTGCACCGGATAGGACAGGCAGGAGCATTCTCGCCACCACCACCGCTCTGCTTATTATCTGAGAGGCAGTGGAGGGTGGCACTCAGAGCCCAGCTT
GGGAGCTAGACAAGCTGGCCTCATGGTCTGGCCCTGCCACTCCCTGGCAGAGTGATCTTGGGCAGGTTCTTCTACTTCCCTGCAGAATGCAGAAGATGCC
AGGATCCTGTGTGGTGCTGGGAAGGTGAGGCAGAGGGCCTGGCTCACAGGAGGTGCTCAACAGCAGAGATCCCTCCTCGCAGCCTCCTCCCCTCCCTCTT
CCCCTGCCCTGTCCTACTCTTCATCTGCTACAGGCTCGGGTGCCAGGAAGGGAAGTTCAAGTTGATTCTTTGGCAACGGTGCTGTTCTCTTGACAGTCTA
AGGCCTCTGCCCTCTAGGTTGGCATAAGTGGTCTTTGGTCTTTGTTTTGTTTTTTTGAACCTGGACTTCAAAAAAATTCACGTTAGAATAGCTTTAGATT
TTCAGAGATGTTCTGAAGAGGGAACATAGAGCTCCACATACCCCTCATCCAGCTTCCCTGCTATGAGCATCTCACATGGCCTTGGCACAGTTGTCAAAGC
TGAGACCTACGTTGGCACATTACCATTCACTAAACAGATTTTGTGTGGATTTCATCAGTTTTCCTACTTATGTTTATTTTTTGACCCAGGATCCAATCTG
GGATCCCACGTTGCGCTTAACTGTCATGTCTCTGTAGCCTGCTCCAGCCCGTGGCAGTTTCTCAGTCTTTCCTTGATTTCCAAGACCTTGAGAATATTGA
GGAGTGATGTTTAGGTGCGGTGACTCACTCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGTTCAGGAGTTTGAGACCAACCTG
GCCAACATGGTGAAACCCCATCTCTACCAAAAGTGCAAAAATTAGCTGGGTGTGGTGGCGCATGCCTGTAATTCCAGCTACTTGGGAGACTGAGGTGGGA
GGATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCACCACCGCCCTGAAGCCTGGGCGACAGAGCGAGGCTCTGTCTCAAAAAAAAAA
AAAAAAAAACAAAAAACAAAAAACTCTAAAAAAACAAAAAGAGTCTTGAGGAGTAATGCCAGGTATTCGGTACAATGTTCCCCACTCCGATTTTGTCTGG
TGTCTTCTCTGTGATTAGACTGGGGTTATGCGTTTTGGATAAAAACACCATGGAGGTGAAGTACCCATTTCATGACGTCTTATCAGGACACATGGCACCT
GCGTGGCGTCTCTACAGATGCTCACCTGGGTCTCTTGGTTCGGGACGTGTCTGCTGGGCTCCTCTGCTGTTTCCCATTTGCATGTCTGCTCTGTGGAAGG
GACTCACTGGGCCAGCCCATCCTCAAGTGTGCATGAGGGACTAAGCTCTACCTCCCACTTACAGTCTTTTGAAGCTTTGCAAGTCTTGTTTCTTTTTCCT
TTTTTTGATGGAGTGTTGTTTTGTCATCCAGGCTGGAGTGTAGTGGCATGATCTTGGGTCACTGCAACCTTCCTCTTCTGGGTTCAAGTGATTCTTGTGC
ACCAGCCTCCTGAGTAGCTGGGGCTACAGGCATGCACCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTCCACCATGTTGGCCAGGCT
GGTCTTGAACTCCTGACCTCAAGTGATCCACATGCCTTGGCCTCCCAAAGTGCTGTGATTACAGGCATGAGCTACCGTGTCCAGCCAAGTCCTTGTTTCT
TTCAAGAGGCAGGGATCCCCCAGCCTGCCCCTTCTGTTGTATGTGGGAGAGTGGAGAGGTGGAGGTTCCCTTTGAGTCTGCACTAGGGAGAGACGAGACA
GCCCCCTTGCGGAGAGTGCTTGGTGCTTATCACTGTGAACAAGGTTGATCTTCATGCTCTTGTGAAGTGCCAGCCCAACCTTATGCACGCCTTCTAAAGA
TGAGGAGCCTGGGGGCTTGTCTGAGGCCAACTCCACCTCAGGTCTCCCCAGCAGCCTGGCCCTCAGCCCACTTTTGCCCATCATGTCCCGCTGACCAGGT
GAGGGGCTGCCAGAGGCTTCTGGGAGCCACCTCTGGACACCTCTGCAGTGCCATCTCTTGCCCGCAGGGTGCCAGCCTGGGTGAGCAATGGGGATGCAGC
GGACGCAGCCTTCTCCGGGGCCCGGCACTCCAGCTGGAAGCGGAAGAGTTCCCGTCGCAGTAAGTCTCCCCTCCGGCCCACCGCCCACCCCAGGTAGCAR
GCTCCAGGATATTCTAGTCTTTCTAACCCAAGAGAGCTGATGTGGGCTCCTGTGAGCCCAGGGTTCATCCTCACCGGGGGCTTCTGTGGCCCTGGAGGAC
CAACCACCGCCCCCAAGAGCCAAGGTCCAGGATCAGTTGACACACCCAGTTTTTCATCTGCTCCTCAAATACTTAYGAAGTTCCCACAACAGGCCAGGGC
GGCCCAGTGGTGGGAGTGCCCTGGGGACCAGAATGAGGTCCCTCTGTTAACAGAACCAGACACCTTGCCATGGGAAGGTGCCTGCCCAGATGAGCCCTCC
AGAAAGAGAGGGAGGCAGCAGGGGTGGGGGAAAGAGGGTCCCAGACAGAGGGGCCAACTTGTACAAGGGCCTGAGGGCAGGAGGACCCCTGACTCCCGGG
AAGCAGCAAGGGCCTCATCTGTGGGGTGTGGGGGAGCGTTATGGGGTGAGGTGTGGCTGCGGGCCCTGCAGCTCCTCAGGGCCCCAGAGGCAGTGCTTAA
GGTTCTCAAGGCAATAGGAAGCCACAGAAGGAAGGCCAGTGATGTGGCTGCCTTTGCCTTTCAGTCCTGTTGCACTGGGGTGGGGGCAGTGTAGGAGACC
AGGTGGGGAAGGGTGGAGCCTGCTGGGAGGCTATCGTGGTCTTGTAGGACAGGAAGTCTGAGGGTGGGAACTAGGGGTCTAGAGAGAGGTGGGCAGGCCT
GGGAGCTGGTGTGGGGAGGAAGAGGGGGCTCTGACAGGGCTCTAGGGGCCCAGGACCTAGGGAAGCATCACAGGCCAGTGGGTCTCGTGACTTCTTCCTG
GAAGGCCTGTGGGTCAAGGACCGGCTCCCATCAGGGGTGGGGGCTGGTTTTCCAAGTCCTAGCACTGCTCAGTGACGAGGGTCTAGCCCCGGGGTCCTGG
GTGACTGAGGATGCTAGGGCCAGGGCACAGGTGCTGGACTGCGTCATGCTCCCTGCAGGGGCCGGGAGCAGCTGTCCATTAGCCAGATGGGCAGGCCTGC
GGGCAGCAGGGAGCCAGGTGGGGTCTGTGCAGTCACTGGGAGGGCGCCTTGGAGGGGGTGGGGGGCGGGGAGAAGCGAGGGAGCCGGCATCCCCTGAGGG
CAGCTGGCGGAGCTAAGGGCTGGGCTGGGCTATCAGAAAGGAGGGTGCTGCGTGCCACCAGCTGGTGCAGTCCTGATGTCATCTGCAGCACCTCTGGCCA
GGCTGCCACAGCCCACGGTGGTGCTSTCTCTCCCCMCTTCCCTCCCAGTTGACCGGTTCACTTTCCCCGCCCTGGAAGAGGATGTGATTTATGACGACGT
CCCCTGCGAGAGCCCAGATGCGCATCAGCCCGGTATGATGTCTGCAGTGCTTCCCTGTTTCTCTTGGGGACAGGGGAGGGAGGCTGGGACTGGGGAGGGT
TGTCTCTTTCCGTTTCCTTCTGTCCCCACCTGGCCAAGTGCCCCTCCTTCTTGTCTTTAGAAACAACTGTAGTCATCGGGGAGAATCTGGAGATGGCTGA
GGGCGTGGCCACCGGGGCCGGGCAGGGCTTGGGCATCATGGGCAGGGCCATGCTCCGGCTATGGGTCCCCGGGCAGGTAATCACCTTTCTAAGCCTTGGT
TCCTCCTTCAGGAAAATGGGGCCATACCCCAGGCTTTCTGGGGCTGTTGGGGAAGACGACAGACTGTTACACTCAAAGGGTGAAGCAGATAAAGCTTTGC
AAAGCCCTGCGCCCTGCTCTGGGTTGAGGGCTGAGGTGGGCAGGCAGGCAGGCGATTGTGGCCGCAGAAGGGAGATGGGGCGGGCCTGGGGCGAGTCTTG
CTGGAACTCACCTGATGGAAGAGAGGACTGTTCATTGGCAATTAACAGGAAGAGCCGTCTTTGCTTGGACACGTTAGGCCAAGCATATTTTCAATCATGT
AATGGCTTCAAGACTTTGGGATGTTACCTTCTCATTTTACAGACAAGGGAACGGCAGAGGCAGGGCTAGGATTTGAATGTGGGTCATTCTGACCCCCAGT
TCAATGCTCTGTCCCCTACCCCAGGAGGATTTCTGTGGCATTTTRTGACAGATGAGGCACATTTGATCCCACTGATCCCACGACCCCTTGAGGTCAGCAG
GGCCAGGCTTATTTATGGCTCCCATGATGAAGAGGTTAAATCACCAGCCCCAGAGTACACAGCCAGGATTTGAACAGCGACTTCTTTTCCTACTATGCGA
TTCTTCCTGTTTTCAGGGGCTCTCCGTCCAATGGGGAAGCACAGCCCCTGCTTTTGAGGAGCTCCGAGTCTGATGGGGCAGCTCTAACCATCCTTGAGCA
GCACAGAGCGCAATGGGAGAGACACACAGACAACACGGCAAGGCCCGAGGGCCCCAGAGCCACACTCCTGACTCCTGTCTCAGGAACGGGGACACCTGGG
CCAAGGATATGCTTATCCCTTTAGCAAGCCTGGGATGTGCTTGGAGCACATTTTCCTGTTTGTAGCTCACTTGAGTCCAGGGAGCAATGGATTCCCACTG
TATTAGGAGGCAAAGGAGTCTCAGAAAAGTCCCAGAGCTGGGAGGTCTGAGCGGCTGAGGGGCCTCAGTTGTTGTTTAACCCATTTGGCCTATTTCCCAC
CTGAATTCAATCAAGTCACTAAGTCCCTGGCTCCTGTCTTCACTGTCCTCAGGGTCTGGGAGGATGTGGCATGTTCATGGCCTGGGTGTCACACAGCCTG
TGTTTGCACCCTAGCTCTGAGCCTGCAAATGGGGACCACAGTACCCACCCCAGGATCCCCATATGCTGGGCTGTGGGAGGATCATTTGTGACAAGGCTGC
ACAAAGCTCAGTGCAGGGTGGAGTTTTGGAGATGCTTTTCACACAGGGCCACTGTTGCTGTTGTTGTTAGTGTTATGCCTGCCGAGGGTCCCAGCACTGG
CCTGCCTGGGGCTGATGTGGGCTCAGCAGAAGCTTGGAGAGGAGCTCRGGCCAGCTCTGCCATTGATTTGGGCACAGGGCTTTGTGCCTTTGTGCCTTGG
CTTCTTCACATAAAGCAGGAAAATCCCCAGCTCACAGGCCTTTGGGGAGGGTCACACGGGGTCCTGACCAATCTCTCTGGGCCTCAGTTGACCCATCTGT
AGAACTGGGGCAATAATAGCCAGTCCTAGGGTGGTAGCGTAGATTCCATGAGGTAATTGATGAGGACACTGAGCAGGAAGCATGAGGGGACCCTTATGTG
GTCCCTGAAAGCTGAGGAGTTGGCCCTCGGGCTGCACACAGGCACAAGAGTTCTGTGACTCTGTCTCCACTGGAGAGGATATTTCTATATGTGTAGATGG
CGGGGACTTCAACGGAAGGTGGTACAGAACCCTGGCCCCGTTCACTGTCTTACTGTGGCCAGCCACATCTCTCCCATCTGTCTAATAGGAGGAGTGATCA
TTCACACCCTGCTGTCTGCACAGGGCCGCTGGGAGCCGTGGCACACCGAGGATGGAGGTGGTTGGGTGCACGGCTCAGCCCTGTGGAGGCGTGGACCTGC
CACATGCTGCCAGGGTTCCTCCTCAGGGCTACCCTGAGAACTCTGCCTCTTTGGCCACTAGTTCAGGGGCCTCCACTGCAATAACAGGACAATCAGCCTG
GCCTTCTGAAGGTCGCAGCTGCTCCACTCTCTAAAGACATTAGTTACTATTATCTTTTGCTTAAAAATAGCCTCATGTTCCCTCCTGGTTCTGGGACCCG
TCTCCCACTAAGCTTTGGCACATCTGTTTTGTTCTTTGGCTGACACTCTTGCCCCCAACCTCTCGCACCCCACCTTTCCTGTGGGGTGAAGCTGGGGGGC
CCTGGGTCTATGGACTGACACCCAAGCTCCCCCAGAGCCACCATGAGTGACGGCCTACTGCTCTCAGCCGAGTGCGTGCTATGTGTCAGGCACTTTGCCA
AGAGCTCCGTGCCTGTTTTATTTACTCAACTTGTCCACTTATTATTAGCCACATTTTGCAGAGAGGTCTCTGATGACCAAAGCTCGCAGTTTTTCAGCAC
AGTCGTTTCTGAGCAGATTTCTTTTCTTCTTCTTCTTCTTCTTTTTTTTTTTGAGATGTTGTCTCTCTCTGTCACCCAGGCTGGAGTTCAGTGGCACGGT
CTCGGCTCACTGCAGCTTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCGTGCCACCACACCCGGCTA
GTTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGCGATCCACCCATCTCAGCCTCCCAAAGTG
GTGGGATTACAGGTGTGAGCCACCGCGACCAGTCAGATTCCTTTTTTTTTTTTTTTAAAAAAACACAAAAACAAAMAAACCCTTCCCAATGCTATATTTC
TTCTGTGATGACAAAAGCATTTTCATCTTCATGTACTTTTTGGCGTCTGACCCCAGTTTCATGAGGTCTGCAGTTCTCCAGGTAACAGATGAAGAAATGA
AACCCAGTGGGGCAAAGGGCCTTGCCCAAGATCCCCCAGTGACGGAGCTGGGGCTGGGACCCTGTGTTCCGGCCTCGGGACAGTGGCTTTCCCACCTCAG
GCTTCAAGTGGCATCTCATAGCCGAGTTGAATGGGCCCCACGAGTGCCCTGGCCCTTGTGGGACCTGTCCCTCCAGACTCTTAGCTTTTTGTCCCCAAGT
TTTCAGTCCAAGGCATTTCCCGCAGGCTTAGGAAGGAAAGGAGCTCCTGGACTCTGGGCCAGCTGCGCCCCCTACTGGAAGATCCCAGGCTGCACGTGAA
GTCAGATTTGGGGTGAGGAGCCCTGAGGCCCCAACAATCTCTGTTTCATTCCTGAGGATGCTGAGGGCCTGAGCCAGGACTTGGCTCCGGGTCTTCTCTT
TTCCAGTAAGAAACAGGCCACGTGTGGTGGCTCGGCTGGGTGTGGTGGCTCACGCCTGTAACCCTGGCACTTTGGGAGGCCGTGGCAGGAGGATCACTTG
AGTCCAGGAGCTCAAGACCAGCCTGGGCAACATAACAAGACTCCGTCTCTACAAAAAATTAAAAAATTAGCTGGGTGTGATGGTGCACACCTGTAGTCCC
GGCTACCTGGGAAGCTGAGATAGGAGGATCTCTTGAGCCCAGGAGTTTGAGGCCACAGTGAGCTATGATTGTACCACTGCACTCCAGCCTGGGCGAGACA
ATGAGACCCTGTCTCTAAAACAAAATTGCCAAGGAGGCTCACAATGAGCGCTGAGACCATACAAAAGCAGTGCTGGGAGCAAAAGGAAGTGAGCGGGCTT
GTGCACGTCTGACCCATTTCTTGGGTTTTCCCCATTTTCTCAGGCCCTCCTTGCCCTACGAGGGGGAAAATGTATTATCATCTTCGTTTCATGGTTGAGG
AGGTAGAGCTGGAGCCCCAGGGCCCCCATGTTCTCCCTGACCCCCCCTCGCCCCACCTGGGTTCAGAAATTGGGTCTGAGGCTGGAAGTCTGGTAGGCTT
GGCCTCAGGGCCTGGGCTCACCGGCTGCCGCTTGGCCAGCAGGGGCAGAGAGGAACCTGCTCTACGAGGATGCGCACCGGGCTGGGGCCCCTCGGCAGGC
GGAGGACCTAGGCTGGAGCTCCAGTGAGTTCGAGAGCTACAGCGAGGACTCGGGGGAGGAGGCCAAGCCGGAGGTCGAGGTCGAGCCCGCCAAGCACCGA
GTGTCCTTCCAGCCCAAGGTGAGGGGACCGGGGGTGTCGCTCACCTCAGTCAGGGCACGGAGACCCCTTCAGGGAGGGAGGGAGGGAGGGAGCTGGGTAG
TGAGGGCCAGGCCTAGGACTCACGTCTGGGTCCCAGGGATTCCCGGGTATGTGTGGTGAGAGGGGAGCCAGAAGCCCAGGTCATCCCGAAACAGGAGGTG
ACTCGTAGACATTGCTGTTGGCAGCCCTAAGCCCGGGATGGGCATGGCTGGTACCTGGCACAGGTGCTCCCCCCACCCCCTTGCTATGGCAGACCTGGTC
AATTGATCCTGATGCTCACGGGCTCAGACTGGGCTTCAGAGTCCTCTCAACGCCGCACTCCAGGTAGCCCAGCCACTTGCTTAGAGGTGGAGCCTGGATC
AGATCCACTTGCTCTCCCCGCCTTCTGGGACTGATGCTCAGACCAGGCCTCAGCCCGCGCAGTCCTCTCTGCTCTGGGGCAGTGGAGAGTGGGGGCTGCT
GTGGCTAAGCCAGAGCGGCCTGGAAGCCTTCTCTCCAGGGCCTCACACGGTGCCATCCATGCATTCAGCTTTCCTCGTGTTTCTGCCTGGAGTAGAGACC
ATTCTGCTTATTTCCTGGAGGGGAGCCCCTGAGGCTGTGAGGGGGATAGGTCATCTGGTTCCTTCTTTCCCATGGCACCCATGCTCCTTCCCTGTTGTTC
TGCGGAAGCCACCAAGAGGCAGCGTCTGTCCGTGCTGAGATTTGCAGTTTCATGGGGACAGCTTCTTACAGGCCCTGACTGAGCAGAGGGGATGGCGTCC
CTCTCAGGCTACTTTTATGTTTATTTTTATTAATTATTCTTTTGAGGCAGAGTCTCACTCTTTCGCCCAGGCTGGAGTACAGTGGCCCTATCTCGGCTCA
CTGTACCCTCTGTTTCCTGGGTTCAAGCAATTTTCTGCTTCAGCCTCCCAGGTAGCTGGGATTACAGGCGTGCACCATCATGCCTGGCTAATTTTTGTAT
TTTTGTAGAGATGGGGTTTCGTCATGTTGCCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCCACCTGCCTCGGCCTCCTAAAGTGCTGGGATTACA
GGTGTGAGCCACCATGCCCAGCCTCAAGCTCCTTTTAAAAGATGTAGCGGGGCGGGAGAGCTCCACCTGGGGCCATTCCTGCATGGGCAGGGTGGGGACA
AGAGAGGGGACTTTCCCAGTGCCTCCCACCTTTTCTGGGCTTGGGGGATCCACTCTGGGAGAGGCATGCTGGCCGGAGGAACACCCACACCTGAGTCCTC
AGGCAGCCATTCCTCAGACCAAGATGGGCTCCCTGAGTCCTGAGCAAGCCTGGGACTGAGCAGGTCTCTCTCAGCCTGCTGTTTCCAGGGATGGGCCTCC
AGGGGTGGGCTGTGGAAAACAGCCTTAATGTCTTGCTAGCCAAAAAGCGAAGCATTTACAACACCTACTGTGTGCCTAGTCCATATCTTCAGTTGTGGGA
CGGGATACATTGGAACAGGAAGACCTAATCTGTGCTCAGTGAACCTTTACGGTCCATAGGAGACACTGAATGGGAAACAGTTTGTCAAAAATGAACACAA
AATGCTGGTCATCATGATCAGTGTGGTACAATTTTCAAAGCTAAACTATCATGCCCTTCAAAACATAATGAAGACAAAAATGCCTTTACGTAAACATGAG
CCTGTGTCCAGCCTGGCTGTGTGCCTGACAGGGGTAGGGACTGATGAGACCAATCAGAGACGCCTCTGAGAGCGGTGAGTTGGAGCTGGGCTTAGGAGCT
AGAGGAGACAGGACAGGTGATCCAGGCTGGAGGAGCGGCCCAGGCAGAAGCCCAGGAACAGCTCGTTGCTGCTTCCTGCAGTTCAGAAGGGGCAGCATGC
ACTGCTTTAGGGAAGGGGGCTTTGGTTATGAAGCCCCCACTCCCCCCAGTAGCCTCTCCATATGGCAGGACCCGTGCGTCCCAGCCCTGCTCTGGGCAGT
GTGACCAGATGGGGCTCTCGAGTCCTGGCCCAGCCTTTTAGCCTCAGCCTCTGGCGTTCCTCCTCCTCTCCCATGTTGTCCCCGGCCCTCTTGCTGGGAC
TGGGAGGAAACCATGCGTGTCTCTCAGAGGGAAGGAGGGATGACAATGCTGAATTCAGGCTTTCCAGCGGTGGTCCCCATGCTTCCACGGGCATCAGAAC
CACATGGGTAACTGATTGAATCACAGATGCCAGGGCCTCACCAGGGACTCTGATTCAGGGGTTGGGTGGGGCCCGGTAATCTGCCTTTTAAGCAGCTCTC
TGCCCCCAGGGGGTATAAGGGGCCCACAGAGCACTCCAAGAAATGCTGGGCTGTACTCACCATGGCCTGGCCCTGGGACCTCTGGGGGCTGCCTGTGAGC
TCGTGTCCCTCACACTCTCAGGCTGGGGGCTTTGGACCCTTCCTCAGCAGAAAAACTATGTGGCACAGTTGTTGGGATTTCTAACCACTTGGAGTTTTTC
TCTGGCCGTGGCCAAGGCCCACCTGCTCGCTGATCAGCAGGCTCCTAGGGAGACAGGAGGTTGCGGAGGGCTTTTCCTCTGGTACCCACTTCTGCCAGGG
ACTCTACTGAGCCTGCCTGTGGTGCTTCACCCTCCTGAGCTGCTTGGGGCGCACCTGCTCACCCGCTGGCATTGCAGCAGCTGCATGTTTTAGGGCCACT
GCTGCTTGGCTATGTGCTGTGTGTGCTGTGGGCACAAGCTGACAGCAGGGGTCTGGGGATGTGTTTTGTCCTGTTCTTGGAGACTGACCATGGCCAGGCA
CCCTGCCCAGCTGCAAGAGAACTAATGGAACCCCTTCTTCAGAGATCCGAAGAGGCCGTCCCTAGGCAGGTGGACTCTTGCCAAAAAAAGTGACCATGGG
GTCTGTAGAGGGGCACGGACCCAAGTGGAAGCAGCTGCCTCATCCTGTTATGTGAACAAGTGGTCCTGCTGGTGCCAATCCAGGATCTGTGGTTTTTTTT
TTTTCCAGTTGTGGGATGGATTGCATTGAACTCTCCCACTCTCCAGTGGTGACCTCTTTGAAATCAAGGTCTCTGATCCAGCTGGACGGGGACTGGGCAG
AACTCATGGATTCATTACAGAAACGCCAGCCCTGGCCCAGCCTGGTCTACCCCCTGCTCTGATCTGGCCAACTCAGCAAGTGGCCTCTGATCCTAACATT
TCCTAGTTCTTCTGACCCTGAGAGAAGTGATGGAGCACCAGAAGGCCCAGGGGCTTTATGGTTTTATTATGTGAAACTATTTTATGGATGAACAGGACTC
AGGTCAAACCCCAAACTCCTCAGTTTTTTGGGAGTCTGGGTAGCTCTCAGAGGGACCCCTGTCCTGCATGCATACTTCTTTGCATAACAATATTGAACAT
TTGCCTAGAATGGTACACTTTACAAAGCAGTGTCATTTAATTTTCCCAGTACCCTAAGTGGTCAGTATTATTGTCCTTAAGATTCTCATTTTGTTGATCA
GAAAACCTGTGTGAAGCTCAGAGAGACTTAAATGATGTAGAATGCAATATCACAGGTGCCTCATCTGTCTGTATATCCATCCATCCATCCATCCATCCAT
CCATCCATCCATCCATCCACTCATCCATTCACCCATCCAACAAATATTGAGCACTTGCAATTTAAAAGATAATAATGGCTTCCATTTTTTGAATACTTAA
TAAGCTCTGGGCTTTGCATGTACATTTAATTTTCTCAACAACCCTATGCAGTAGCTACTATTATGGCCACTTTACCAGTGAGGAAGCTGCAGCTCAGGTA
AAGAGACTTCTCTAGCTAGTAAGCAGAGATCCATGATTTGAGCAGGAGCCTACATGCCTCCAGAACTCACASTCTTGATCCTTCTGTCTACTTCTCTAGA
AGTAGCACCTGTCTTGGTCTTTTGTGTACTTTACCAAATATCACTGTTGCTCATATGGTTCGTGCATTTGAATATCTATCTGTTCTTCTGTCCATCTACC
TGTTCTCCCATCGGTTTGTCCATCCATCCATCCATCCATCCATCCATCCTCCAGATAGTCTGTAAGCTGAGCATCCATTCTTCCATCCAGTTGCCCATCC
CCCTCCCTCCCTTTTACCCTTCACCCATCCTCCCTCCATTCATTCTCCAGCAGTGTGCCAGAGGCAGCTAGTGTCAGCTCACAAGAACTCAGGAGCCAGT
TATGAGCATCTCTTTACAAATTCCCATTCAGTGATGTCACTTTGGTAGCTTGGAATTGGTGGAAGTATTCACACCATGGAAATGCTTCAAAGCAGGGCCC
TTTTTCCTGCAGAACTGGTTGTTAAATATTTGCCAGCACAGCACTGCCTGAATCCATTCTCCTACCGTCCATCCATCCTCTTATTCCTTCATCTGACTGT
CTCTTCATCCATCCATCTGTCCATTTGCCCAGCTATATAGTCACCTAACCAAATTTATCCATTTGCTCATCCATCTATTTATCTGTGCATCTATTCATTC
ATCCATTTATTTATTCATCCATCCATCCCTCTATGAGCCTGTTCGTCTACCCATCCACCTGCCTGTCTGTTGCCCATCCATCTGCCAAACTCTTCTTCTA
CCCTTCCATTCATCTTTCTGTGGATTTACCCACTTATCCATTTATCCCCCAACCTCATTCCATCTATCCATCCACCTGCCATCTGTCTATCTCACAAACT
TACAGAGAAGCTCCTATGTTACAAGCCCTGTGCTGGGCCACAGGGCCGGGGAGAAGACACAGTTCTTGCCCTCAGAGCATTTTCCCTTTTCCCTAAGACA
GGAGACCTGGATTTACTCCCCTCCCGCCTCTCCGCCCCAGCAGCCCAGATTCCCTGCTGCAGAGACCCGGCCCCCAGCTGCCTGGCATGGTGGGGTTGGA
CACAGCTGGAGCAGATTCCGGGCAGGATCTGGCTGGACTGCTGCCTGGGACCTGGGGTGCCGCATCCCGCCTGCCCGAGCTGTCCGTCCGCACTTTACCT
GAGTCTCCTTTCTCCCCTGTTGTCTGTGTTTTGTCTCCTTCCTGTCCCGCCTGCTCCTCTCACCTGCTTTCCTTCTGCCTGGCCGCTTGGGGCTCCAGCT
TTCTCCAGACCTGACTAGGCTAAAGGAGAGATACGCCAGGACTAAGAGAGACATCTTGGCTTTGAGAGTTGGGGGGAGAGACATGCAGGAGCTGAAGCAC
AAGTACGATTGTAAGGTATTGTCTGTCTGTCCCCTCAAGCCCTGGATGGGGGCTGTTTCCAGCTGCAGCTACCTCCAAGGGTTTTCCTGCTGCCCTGGTA
CCACGAAGCCTACCAGGCCCACCCTTGAGTCCCAGGGCTGTCCTGAGACCTGGACCCTGGCCACCCTTGCATCTGTGCTGGAACTGGCAGATGCCTTAAG
CCACATGTTCCCTTCCATGTTCTCACCCCTATCTTTCTCCCCACCTGCAAGTGAAACCCTGATAGTCCACAAGAATTCCCAGGAGGGTTTTCAAACTTTA
GGACCCTTGCAATCACCTGGGGTGCTGTGTTAAAAATGCAGGTTCCTGAGTTCCAGCCCCAAGGGTGCCACTTACGTAGGTCTGGGACGAGGCTCAGGAA
TCTGCACATTTCATAATCTGCACAGTTGGGGTTACACATTGAAAAACGTGAGTGTTGCTGACATTGGATGTTCCTATCTCTCCACACTATTCAGAGGAAT
CCAGGATAAGGAAGTCTGTAGGAGAAATCACAGTACTTGCTTAAACTTTTGGATGATGATATCGACAACAGTAGCTTCCATTAACTGAGCACCTGCTCTG
TGTCTTGGCTAAAGGCATGGACTTTCGAGGTCTGTGGGCCTGGTTTGAATCCCAATCTCACCACTTCCTCATGGTGTGATCCTGAGCAGGCCCCTTGGCC
TCTCTGAGCCTCGGTTTCCCTGCCTTTGAAATGGGGGCATTCACAGTACCAGCCCCCAGGGTGGCTTTGAAGGTCAACGATCAGGCCTCTTGGGTGTACG
GTGCTGTGCTGGGTCTAGAAGCTCAGTGGACAGTGGCTGTTGTTATCTACATGCCTGACCGCCCTGTCCTTGTGGCACTCTGGGCAGTAGCTGCCTTTCT
GCATCTTTTAGTGTCAAGTACCCGGCTAGTGGCCACAGCAGTGGTTCACGACAGAGCTGGGATTCCAACTTGGGTCTGCAGTGTGCCAGAGCTCAAACGT
CCTCCATCCTGCAGTGCTGCCCGCTTTATTGGAAYGTGAAGCCTTCCAGGAGGAGGAGAGCAGACCCTTTACAGTTACGAGACCTTTCACAGATACCCGC
GAGAGGCCTGCAACCCAGGGTAGGGGCGGGGCTAACCTCTCAGGAAGCCAAGGCTTAGAGAGGKGCCCAGAGCTAGAGAAGGGCAGAGTCTAAGACTGGG
CCTTTCCCCCGCTTCGGCCACACACTGTGGGAATGGGKGGATTCGGCAGKTGTACTCGGGGACACCTTCTAGGGTGTTGGCCTGTTCTTTTTTGCCCAGG
AAAATGCCAAGAGAAGGGCCTCAGATGATCCCTTGAAAGACCACTTTGGGGGCTCGCAGGACAGCACCACTGATGGCTTTCTGCCAGGACAGGAACTGGA
TTCTGGAACAGAGGTTTCAGATCTCTGAGGGTGTGACCCCCTCCTCCCACCCCCCAACAAGAAGAAGATGAGCGTCTATGCCATCCCTTTCGTTAGATTC
TCAAAGGCCTCTATGATTAYTCCCCTTGCCCAACCCCAGAAAAGGCCAAGCACAGCTTCTCTAGGATTGTCCCGTAGAAATGCAGGGCAGGCAGGGGACT
TCCTTCTTTTTCCCTGCTGCTGGTTCCTTCCAGAAAGTCAGCCTTGTTCCTTGAAAGCCACCACCCCTGCTTCCCCATGCACAGCACCTGGTGGCTTTTC
AGCAACCCTTCCTTGCCCAGACCCCCAAGAAGTGCTTGGATACTTAAGTGGGGACCAAAGGGTTATTGGAGGTGATAGAGCAGAGACCAGAGACAACCCC
ACCCCGCAGATTAGTGCTCCCCACCTTCAGCAGAGAGTTTTAGGAAGGAGAAGGTTTTCTTAGGACTGCACTGTCCATTATGATAGCCACGTGGCTCTTT
AAATGGAAATTAACTAAAAGTAAATATAATTAGAAATTTGGGTGCTTCCTCGCACCAGCACATTTCAAGTGCTCAATAGTCGCATGTGGCCCGTGGCTCC
CATTTTGGACAGGGCAGATACAGAGTGTTTCTGTCATTGCAGAGCCTTCTCTTTGCTGGTGCTGCTGTATGCTGGAGAAGATGCGGGTGCTAGGGCTGGG
GCTTGGGAGGACAAAGGACTGGCTGAGGGGACAGCAGCTCTGTCAGGCCTGGGTTCCCCCAGCACCTCGGATGCCCACTTCCCTCTTCTGGGCACGCGGT
CTCCTTACGTCTCATGTTCTGCTTAGCTTGCTACGCTCGTGTCCATGGATCCCCTCCCCACTGCCAGAGGAAGCTGCCTCTTCTTTCTGGCAACTTCAGC
CTTTTCTCCTTTTCCCGGATGGTGGCTCAGTAAGAAACCTGGCTGTTTCGGGGGAGGCAAGGGACGGGTCCCTCACCTGGGTTTGGCGGATGGGATGGGG
GTGTGCACACACCTCCTTTAGTTGCTCCTAAGGTCATGTTCAACATTCGTGGAGTGCATTTTTCTGCTCAGGGAGCTTTCCCAGACCCGGAATGTTTGGT
GCTCACAGACCCTGGCAAGGATCGGTATTGCTGTTCCTCAGTTTTGCCTGGGGAAATGGAGGCTCAGTGACGTTCAGTGACGTGCCCAGAGTCATGCCAT
TGGCGGGTGGCCCAGGGCTCCAGGTCTCCAGCACCCCTCGGCCCCCTCCTCACCAGGTCACATCATCTCCTGGATTAGAAATCTGCTCACATAGTCTGTC
CTGAAAGGAAAAAAATCGGTTACAGCCTCCTGTTGCCCCTAAAGAGGGAGATCCCCGGGCATGAACGCACCTTCTCACCCCCACTGTCGTCCTTGGCCTT
TGCTCACGGACCTGGGAGGGAAGGGTCTGGGTGGTTCTGATCTCTGCAGGCCGAGGCCTGGGGAGGCGGGTGGCCCTCGGTAGCAGGCATCCCAGGCCGT
CCCTTCCCTGATGAGCCTCTCTACCTTTGCTCAGATGACCCAGCTCATGAAGGCCGCCAAGAGCGGGACCAAGGATGGGCTGGAGAAGACACGGATGGCC
GTGATGCGCAAAGTCTCCTTCCTGCACAGGAAGGACGTCCTCGGTGAGGCGCTGCCCGAGCGGGAGGGTCTGGTGCCCAGCTCTGACTGGGGGTCGGGGA
GGGTGGGATTTTGCTTTACACCCCAGAGGTCATGCTGGGTGGGTACCACTTGGCGTATGGTTCCTCTGGTGGTGGGGGTTGGGGGCTGAGTCCCAAATAT
CCTGGTAGGTCCCAGTGTGCCTCCCCCTCCTCTGGCAGGCGTGGCCTGTCCCTTCTGGGAGAGCTGGGCCTCTTCTTTCAGCGTCCCTGCTCCTGCTTTT
GTCACGGCCGTCTTGGCCTCCTGCCCCCTGCGCTGTCTGGCTCACCTGTCCTCATCTTTTTTGTTCCTGTTCCCTCCTTCCTTTATCCATCCACCCATCT
CTCCAACCAGCTGACATTTACGGAATCCTACTAAGCGCCACAGCCTGTGCTGCATGCAGGGACCCACGATGCATGTATCAGCAGTGCCTCTGGGGCCAGC
TGTTGGCACAGCGCGGGAGACAGGCACAGGCATGGGAAATGACAGGACAGGTTGACAAGTGGTCCACTGGGGTGCCCTGGGGGGCATGGAGGAAATGAGG
ATGGACTTGGGGGATGAAAGGTCAGGGAAGGAGGAGGCACAGGTCACCAGGCAGAGCGGAGTGGGTGCTCTGGGAAGAGGAGCGAGCGGGTGTGCAGAGC
CCCGGATGTGGGAAAGTACGAGATGTTCCAGAGATGCTCTTAGTCAGCACTGACTGAGTATTTATTGTGTGCCAGGTGCTGCCCTATGAGCCTACAGTTC
CTCACTTCATCCTTATCCTCACCACACAAGGCGCACAGAACTCTCACATTCCCACGCAGCAGATGAGGGAATAGGCACAGAGAGGTTGTGTCAGGGCTGA
GGACACACAGGCCTGGAAGGGATAGAGGAGGCCTCAGGTGGCGGAAGTGAGGGCGGGCATGATAGGCCAGGGTCCGGTCAGTACAGGCTCTGTCAGCCTT
GCTGGGCATTTGCCTTTGGTCTTAAGGATGCTGCATAAACCCCATTAGAGGGTTTTACGCAGAAGCGTCCCATGGTCAGATTTGATCAATTGATCATTCA
TGTGACAAGTTTTATTAAGCATCTACTATGTGCTAGGAACTGTCCTAAAGCCATGGGACACAGCTGTGAATATGAGTCCTGCCCCTGATCCCCTGAAGCC
CCCTTCAGGTGCCTACCCTTGCTCCTGGTCCCCACCAGGCTCCAGTCCATTCCTCTGGAGAATGTCTAGGTCAGGGCCCCTGATGTATTCCCAGGCATTG
GTGGGACAGGGTCAAGTAAGACCGGCCCCTGCTGCCCATCTCACATCTTTAGAGGTGACAGACAAGGAGACAAGGAATCCCAGTACAGTGGGCTCACAGC
TGATGGAATTCTGGGATGCCAGTTCTCTTTGGAAGGAAGGAGGCTTTGTCTGCTGCCTGCCCTCGGCACATGGCCTGATGCAGCAGAAGGAACACAGGCC
TCGAGCCAGGCAGGACTTTGAGAGCCTGTGTCATCCTAGAAAATTCTGTAATCTCCCTGTGCCTCAGTTTCCTCATCCGTACAGTGGGGTGGCTGTCTGT
CTTGTAGGGCTGTGGTGAGGATGTCCTAGGTAGTATGAGGAGAGAGAGAGCCCCATGTAGCAGACGTTATTCTTGGTGGGCGGTCAGTCCCTAAGTGGAG
GCGTTTGGTGCCAGGACGGCCTCGTGCTGGCCTGTTCAGACCCTGGCTCTGCGGCTTTCTGGCTGTGTCGCCTTGCACTTTTTCCCCTCTTGGGGCGGCA
GACCATAAATGGGTTTTCATCTGTAACATGGGTTGAGCCCCACCCGTGCACTTGGTGCGGTGCTCAGCCAGAGTGGGTGTGCACAGGCCTGGCACAGGCT
GGGTGCTCAGTGAATGTCCATGTTCCCTCTGCATTTTGGGGAGCACTGACCCCCGATGATGGAGGGAGCAGGCCAAGTGGCCATTCTAAACTCATTGAGA
TGGTCCGAAGACAGGATAACGTGGCCAGGCCAGCTGGCTGGGAACTCTTCCTGGGTCACCCTCCCAACCCCAGGCTGGCTAGGGCTCTCCTCAGCCCTCC
CCACCCCGCCCACAAGCCCAGCGCCTTCCTGAAGTGACCCTCCCTGCAGAGGCGATATTAATAGCCGTGGCAGGGCTCGAATCACAGGCCAAGAATGTTA
CCCAGCAGCTCGTGGGGGAAGAGGAAGCTGCGAGGCAGGCTGGGGTGGGTGCGGAGTGATGCCCGGGGCGTGATGTGGGCCCGGCAGGAGGGTCTGCACC
ACCCCCACCCCCACGCCGTCATCCGCTGTCCCTCCTCCTCCTCCTCCTCTGTCTCCTGCTCAGGTAAGGGCCTATTGGGGTGTCTCTACCCCCTCCCACC
CTTGGGGTTGCTGCCGCTTCTTCTTTCCTCCCCAGCTTCCTCACAGCTCCCATTTCCTGCTGCCCACAGCCACCGCTGGAGTCAGAGCCATTCAGCAGCT
GGGATCCCCTCTCCCGGCACCTGTACCTTGCTCTGTTGGGGGCTGGAACCCTCTCCGGAGCCTCCCTCACTATCTGACCTCCTCCCACTCTCAGAGGCTT
GGGCCTCTGTCCATCTCATTCCGTCCTCCGTCTGAGGTCCAGCTCCACTCACTCCTGGGATTCCATGTCAGGCTCCTGTTGAACTTTTTCCCTTTAGCTC
TGCATGTTTTATTTCAAAAGGAAAGTGCCAAACCACGCTGCCCTGTTCTTCTCGGGGCTTATTTTCTTCCCCCTTTTAGACTTCCAGAAGAAAACTATTT
TTAGTTCCTAGTGATGGGGACATGGGCAGCTAGCCTTCGCCAGGCCAGAGCGGGCGGGCCTGAGCAGGGACAGTGGCTTCTGGCAGCATGGACGCCGAGA
ACCCAGGCCCCACAGGACGCAGCTTTGATTTCTGCCTGTTCACCCTCTCGCTCACTTGCTCACAATTATTCACTGATGGAATGTTCCAGGCCCTGGGACG
TAGCAGGGAACTCCTGAGAAGGAGCTACCGGGCGGCTCTAACCCCACGGGGCCCCAGGAGCTGCTTGCACCCTAGGACCTGGGTCCAAGGCTGGTCTAGG
GGGGCTCTCAGCTCCTGAGGCCTGAGCAGGGTGTGCTGTCCCTGCCTTAGCTGTGTCATCGGCCCATCTGACTTTCCAGGTGACTCGGAGGAGGAGGACA
TGGGGCTCCTGGAGGTCAGCGTTTCGGACATCAAGCCCCCAGCCCCAGAGCTGGGCCCCATGCCAGAGGGCCTGAGCCCTCAGCAGGTCTGTGGGGGAGT
GGGGCAGGTGGGGGTCTGCAGGGGAAGGGGTGGCTTGGGGGTTCCAGCCTGTTCTCTGGGGCCACGCTTGTCTGGATCTCACAGGGGATATGATGACTGG
GGGCTCTTGGCAGAGCCCAGCTGGATAGGGGCCTCCTAGGTTCTCTCCTCAGCTATTGAACAGGCTTTCCACTTTCTACCCCGTGTGCTCTGTGCTGTTG
GTTTTGGGGGGTGGGCTCCCGGCATCTAGAACGCTTGCGTCCCCCAACTCCATGGCATGCAGAGCAGTCCCGTTGGCTGTTTCTGACTAAGGTGTCATTT
GAAGAATGAGATGGGATCCAGACTCAGGTGAGGCTGCAGGTGTGTAGGTGCCCAGTCCCTGCCATCTGTCCACCTGTCCTCACCCTGGGCCTCAGAGCTG
CCACAAGCTCCCACCAGGAACTGAGGCTCTTTAAGAATGGCTTCCTTGGCTGGGTGCGGTGGCTCATGCCTGTAACCCCAGCACTTTGGGAGGGTGAAGC
CGGTGGGTCAGCTGAGGTCAGGAGTTCGAGACCATCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAACAAACAAAAAAAATTAGAT
GTGCATGGTGGTACACGCTTGTAGTCTCAGCTATTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGC
GCCACTGCACTCCAGCCTGGTGACACAGCGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAATGGCTTCCTTCTTGTAGAGCATCGTGCTGAGGTCGG
GCAGCTTTGCTCTGGGATCTCAGCCCAGTCATGTTGTCCCTTCGCTATCTGTGTTTTGCCAGCCATGAAACAGGGTGCGAGATCCCTGATTCCTCTGGCT
GTGAGGCCACTGAGCAGGATGTGTTGTAGGATGGTGGGTAGAGACCAGGGAAGCTGCTGAACATCCTACGAGGCACGGGACAGCCCCACTATGGGGAGTT
ACTTGGCCCCAGATGTCCTTGTGCTCTGCTCTGGGTGCCACTTGAGTACCTGGGGATTGTTGACAATGGATCAACAATGGGACAGTGGTCTTGCCATCTG
CTGGGACTGTGTGGCCAGGCCATGGCCAGGCCTGGCTGCAGGCAGGGCAGTGGGAAGATGGGAGAAGAGCCTGCTGGAGGCAGGAGGAGGCAGCAGAGGG
AGTAGGGCAGGGAGCCGGGGTTCTGGTGGTGGTGGGCTCCTGATGGACGCTCAGGACAGCTGTGGGGGTAGAGTAGGGGGTCAGTCACCTCCCAACCCGA
GATCGAGAGGGATGGGCTCCCCTTCAGACCCCTGTCACATGTGACACCTCCTGTGAGCAGCGTCCTAACTTTGCTGCACAATAGAGCCACCTGGGAAGAT
TTCAAAGTCCCTGGTATCCAGGTTCCACCTTGTTCAGAGGACGGTAGAACTTCAGAAGGTCTGGGGTGGGAGCCAGGTGACTGTGTTGGAAAGATCCTCA
GCTGAGGGAGGTGCAAGCCACACCATGCTCGACGGGGTACTGCAGGCTGCAGCTGAGGGGTTGTGATCCACTCCGTGGGCCAGGCTTCTGGAGGGTTACG
GTGATGGTGGAAGGGAAAGGAGAAGGGACTGGGGATGTTTAGCCAGAAGCAGAGACCACTCGTGTGGGGGGACGGTACCCCAAGGCCTGTCTTGTGGAAG
AGGGATAGCTCAAGGATTTCATTCGCAAGTGAAGGGAGCTGAGATTCGGTTCATGCTAATGCTAAGACAGAATTTTCTTTTCTTTTTTTTTGAGATGGAG
TCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCCCACTGCAACCTCTGCCTCCCAGGTTCCAGCAATTCTCTTGCTTCAGCCTCCAAA
GTAGCTGGGACTATAGGCGCGTGCCACCACGCCCAGCTGATTTTTGTATTTTTACTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTTTCGAACTCC
TGACTTCAGGTGATTTGCCCATCTCTGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCTTGCCTGGCCTAGGATTTTCTATTAGAGTTGTCCAAA
GATGGAGGTGGTCACCCGCCACCATGGAGGAGCGTGGTGATTACCCCATCCCCAGATGTATGTGCACAGAGGGGCTTTCCCTGGGATGTGCCCTTCCTCC
TCCATTCTGTAGCCAGGCAGCAGGGCATTTATTTAGGGTTGGCAGGGGCTCTGGAAGGAAGAGTGGCCACCAGGCCCAGTGGTCCCAGGTGGGACCTGGG
AGGGATGGGTTTCTCTGTCCTATAGTTGTCAGCTCCCCTTCCTGTCACTTGGGCCCTGTGCAGCAGGTGTCATGTGCGCTGACCGTGCTTTTTGGCCCGA
GCAGGTGGTCCGGAGGCATATCCTGGGCTCCATCGTGCAGAGCGAAGGCAGCTACGTGGAGTCTCTGAAGCGGATACTCCAGGTGCGACTTCAGGGAGTT
CTCAAGGGTCTCTGGGGAGAAGCAGGGAGGGCCCTGGAGGGTAACTTTATACGGAGTGTTTGGGGACTGTGGGCAGTTTTAAGGGGACAGGACCATAAGC
CAGCACTGCTTTATGGGGACAGTAGAACCTCCAAATGTAGGCAGCAAGAATTCCTGATGCCCTGGTGTTCACGGGAGTGACTTCTTTGTGAACAAAATGG
GATTCTTTGAAATGACTCCTGGAGAGCTGAGGGCATATACTCCCATTTATGACTGGAAGGCACTGTGTCCTCCTGCCACTCTGGAAGCCCCTGGGGCTTG
GGCCATGTCTTCCCATCCTCCTGGGATCCTTAGTTGGGAAGATGTGTAGGATGGAGTCCTCCTTCTTGCATCGAGAGGAGTAGGATCGAGTCCTCTTTTT
TGCATCAGGAGGCCCAGGGGTTGCTGAGCAGATGCTTGCATGAAGTGACTAGTATGTGCCAACCTGAGAATCCCTGAGACAGTGTTTGAATCCCTGAGAC
AGTGACTTTTCCGGGCGGTTGTGGGCTACCAGAGTAAGGCCACCAGGGTGGGGAATTGTTGCTAATGATACCCTCTCTTCCCCTCTTGAGTTTGGATCCT
CAGAGAGGGATCCTAGGCATCAGGCAGGTAGAGATGAATATATCACCTGTCTCTGACAAAGCTAATTGGAGAGTGACGCGGGGTGTGGGAGCCAAGGGAG
CTTGTAGTGACCTTACCGCTCGTGGGCTCAGTGACAGGCAGAGCTTCGCCCTCAGGCCGGCCTCCAAGGAGCTCCTTGCAGGCAGATGGCGCATAAAAGA
CCCTCTTCCTCCCGACCAATTAACACAGAAGCATGGGGGTGTTGTGTGTGGCCAGTGAGGCCAGGGGTGTTATGGTGATGGAGATCCTTCCGGAAGGACG
CATGAGGAGTGAGGGATGAGTGCCTCCCCTCCGTGCCACGGGAAGGCCCATTCATGGCTGGCCGAGTTCTGCATGAGGGCAGGTAGGGAGAGAGGCTGCG
GCCTGGCCTGCGGCCTCACCCCGCCCTCCCCGGCAGGACTACCGCAACCCCCTGATGGAGATGGAGCCCAAGGCGCTGAGCGYCCGCAAGTGCCAGGTGG
TGTTCTTCCGCGTGAAGGAGATCCTGCACTGCCACTCCATGTTCCAGATCGCCCTGTCCTCCCGCGTGGCTGAGTGGGATTCCACCGAGAAGATCGGGGA
CCTCTTCGTGGCCTCGGTAAGTGTCCCCAAACTTTTTCCCCAGCCCACCAAGGTAAAACCACAACCAGTCTGACCCCGGGGCCATGCAGTCCAGCCTCCT
GCCTCTGCCTGCTTGCCTTGTTCAAGTCAGTGGGATTAGAGGGTGGCAGGGTCTTCTGGGCCTGATCTAGGGGTGAGTGTGACACCTTGAAGTGGCCAGG
ATGTCCTTGGATATACCTGGCAGGCCATGGTGCTGATGAAGCCAGGTGGCTGTCCTGGCTCCTCCCAGGTGGCAGCACCCCCTGGCCTCCCAGTCACTGT
GGGCAGCCACCTGGCCGGTCACAAGCTCTCTTACCGAGCACTTGAGGGGTTTCAAGCCAGTGTGAAATGCTGTGAAAGACCACAACTTTGGCCCGGAGAG
GATGTGCCGCAGTGCTGGGGAAAGGGCACTGGCTCACGATCCGGGGGACCTGGTTCTGGTCCCAGCTCAGTTCTGCAACCTAGGGCAGGTCCAGGGCCCA
CTCTGAGCCCAGGCTTGCCATCTGTGGAATGAGGGGTGCACTGGATTTCTGGCTTTTCTAGCTGAAGTCTGCGGACCCCAGATGTTCATGGGGTGAGGGA
AGGTCAAGTTGGTAGCACTCTACTTTGATGTGTTTTAGGTAACTAGGTTTTGCTAAAAGAAAAAAACTTTTTTTTGAAAGCCACAGCGCTCGATAGAGTC
ACTGAATAGGTCTGATGTTCTGGGTGTATATCAAGRGGCTCTGGAGAGAGAGTTGATTGACTCCAGGCCGACCATCCCTCCCTTGGTAACTCAACTCTGG
GCACGCTGCCCGGTGAGAGGCCAGGAGCACTTTCCTTAAAGGTGGAGGGCAAGGGGCATTCGATTTCCTGAACGTGAATGCAGTAGAAGGGGTGTTCCCC
CTGCCCTTCTCCTCCCTCCACCTGTGGGCTTGGGCTGCTGCACTGGGGATGGAGACCTGGGAGGCGAAGGTCCCCTGGGCTCTCCTGTGGCACCACCCCA
TCCCACCTGTGACCTCAGGCCAGCCTCTCTACCTCTCTGAGCTCCATGTCCACACCCCAGTGGGGGTGATGGATTTGCACAGCTCGAGGTCCCAAGGGAG
TGTGGGGTGAGTGCAGGCGCCCTTCTGCTCCCTGCCTTGAGGCGGCCTCCCTGGCCCACACCTGCCTCGTTTCCTTCTGCTCCCTGCATTGAGGCGGTCT
CCCTGGCCCACACCTGCCTTGTTTCAGTTTTCCAAGTCCATGGTGCTAGATGTGTACAGTGACTACGTGAACAACTTCACCAGTGCCATGTCCATCATCA
AGAAGGCCTGCCTCACCAAGCCTGCCTTCCTCGAGTTCCTCAAGGTGGGCCTCCATGGTGGTACCGTGCCTGGTCAGGGTGGGCAGGGAGATTGCTCAGG
AGGAAGGGAGCATTTTGGCCCCAGCTTTGGGTATGACATCATAGCTTTGGCCTGGACAGCTCCCCTCTTTCTTTTGGGGCAGCCCAGTCCCATGGGAAGA
AAATCGTTCCCTCCTGCCCCTGGGAGGAGCGTAGCCAAGTGTCTGTAAGCAACTGGGATCCTGGAGCTTTGGCAGGGTGGAGGGAAGACCTGTGTCATCT
TGCTGACCCTTTGCCTCCTGTGCCCTGGTGAGTGGGTGGGTCTGCCTGGCTGGCCCTGTGGTGGGCTGTGGCTCCCGGGTTGCTAAGCTGGTTCCTTTTC
CTCATTTATAAAAGGGTGAGGAAATTCCTTATAGGGGTATCTTGGGCATTGCTTGGGAGAGTAAAGGTTAAAGGCTTCGAAAAGCTTCTGAGTTCTCATG
TGCCCAGCCTCTGCTGATTTCTTTGGGAGTGTAGTCTGGTGAGTCAGAGCCCCTGCCTGTAGGGAGCCTGCTGGCTGGCAGAGGATGCAACTGGGCTAGG
TGCCAGGACACGCACACATGTGCCGGCAGCACAGGTTAGATGCCACGGCCTCAGTGGAGGAACCCACTGTCCCCATCAAAGAGAACAGGGGATCAGGAGG
AGCCACCATCTGACATGGGCCCTGGCGGGGGATGGTGGGATTGTGCCAAATAAAGACAGAGGAGAGCCTATATCAGGTGTAAGGATAGTGGAGCAAAGGT
TAGAGGCAGGAGGAGAGGGATGGGCAGGTCTGTTTGGATTCTGGGAGCACTGATGCCTGTTGGGGAGTCCCAGGAGAGAAGGCCTGAGTGTGCACACTAA
GAGGCGGCTGAGTTCAGTTGGGTGGTTCTAGACCTCCAGGCCCAGGGCCTAGGATGTAATATTTCAGGTAATGGGGAGCCATTGAAGGATTTTGAGCTAG
GGKAGATGKAAGTGGAGGCAGGTGGAGAAACTGTGGGATTGCAGCATATGGGGGCCAGGACCAGGTAACAGGTGTGTGGATGGAGTGGGGGATGGATGCA
AGAGACAGGACAGAAGGTCCCCCTGTGCCCCGCCCCTTACCCTAGCCCAAATCTGTCTGCATTTAGTTTAAGTGGAGGGAATGGTTGCCTTGGCCACTTC
TAGAAGTCTGACATCTTGAATAAATTGCTGAGTTTCCCAGTTATGCCTTTAGTTCAGAGACCTTAAGATGACTGCTTTAGTCTCCTGAGGGTGCGCGGCC
ATGCAGGGGCACTGGTGGGAGAGGGATCCCTGGCTGCAGAACCACGGACCTCTCTCAGCTCTTCTTGCAAGCCCAGGGATAGGCAGGGTCTTAGGGCCTG
GGGAGAGGAGCCCAGAATGGGGACAGTGTCTGGACTCTGGGGCACTGGGCCCTCTCTGCAGGGGGTCAGCGAATGACGGAACCTTGTCTCCACCAGCGAC
GGCAGGTGTGCAGCCCAGACCGTGTCACCCTCTACGGGCTGATGGTCAAGCCCATCCAGAGGTTCCCACAGTTCATMCTCCTGCTTCAGGTACTGCTCAG
GATTCCAGCAGCTTCAACCCACAGGGTTTGCCTGTGGGCTGGGAGGTGCCTCCTGGGGTAGGAGGGAGGAGGTCTGGGCTCTTGTCCGTGATCCATAACC
CACCCAACCTGCTGTGGGACTCTGGCCTCATCTTTCTCCACTTCTAGAGTGAAATTGATTGTAACTGACAGCTCAGTTTGCACGCCCCTCTGTGGGGGAC
GCTGAGGGACTGCTGGTGGCCTGAGTCTGGGTTGCAGGAAGGGAGTGAAGGCACAGGGAATCCCGGGACCCGCAGGGCTCCTGGCATGGAGGAGATGCTC
AGTAAACATGCTGAGCTTGGCCATTTCAGATTCGAGCTTCAGAACAGGGGATTCCTAAGGGACATTAGCCCCACACAGGGTCCTGGAGAGCTTGGGACAC
TGTCCCAACCACTGAGGGTCCTTGGGCAGGGGCTGGCCCTCATCAGGGAGCTGAGAGGGTGGCTACCAGGCTGAGGGGTCCGGTGGCACATTGCTATCCA
CTCTCAGTGCTGCTGGCCTGTGGGAGTGGGCTCTTATGTAACCATACCATTTATCAATTGATCAGTGATTGATCTATAAGTTTATTTATTTACCATCATA
ACCATTTCTAAGTGCATTCACATTGTTCTGCAACCATCACCACCACCCATCCCAGAACTTTCTCATCATCCTGAACCGAAACTCTGCCCATTCAACAACT
CCCGATTCTCCCTCCCCACAGCCTCCGGCAACCACCATTCTACCCTGTGTCTCTATGACTCTGACTGCTCTAGGAAAACACGTATACGTGGAATCATACA
ATGTTTTTCTTTTCGTGACTGGCTTGTTTTCCTTAACATGAGGTCTTCAAGATTCATCGTGTCCTAGCATGTGTCTGAATTTCCTTCCTTTTCAAGGCTG
AATAATACGCCATTGTATGGAGAGACCACATTTTGTTTACGCGTTAGTCTGTCGACGGACATTTTTGCCTCCACATTTTGGCGACTGTGGCTAATGCTGC
TATGAACATGGCTGGACAAATATCTGTTTGAGACCCCGCTTTCAGTTCATGTGGGTCTATTCCTAGAAAGATCCATGCTTTTGTTTTCTTTTTCATGCAT
TAGCTGTTTCTTGAGGTCTTGTTCTGCATCTGGTGCCATCTGTCCTGGCCTCAGGCCGGGCCCTTTGCAGACCCAGTGTGTGTAGGGGGTTGCGCAGGGT
GAGGCTTTGCCCCAGGCTGGGGTAGAGTTGGTCATGGGTGGGCTGCTCAGTCTCTGCTCTGACCTGGCAGGACATGCTGAAGAACACCCCCAGGGGCCAT
CCGGACAGGCTGTCGCTGCAGCTGGCCCTCACAGAGCTGGAGACGCTGGCTGAGAAGCTGAACGAGCAGAAGCGGCTGGCTGACCAGGTGGCTGAGATCC
AGCAGCTGACCAAGAGCGTCAGTGACCGCAGCAGCCTCAACAAGGTGAGCTGGGCCTCCCACCTGCCTGCCCTCACCTGCCTGCCCTCACCTGTGCTCCT
GCCCGTGCCCCTGCCCCACGCCACCCACACTAGGTGGCAGTGTTCTCTGAGGGAGGGGAGGCCTTGCTCTTCCAAGGATGTGACCTTGGGGATTGGATCC
TCAGCGGGACCCCCACGTTCATTCCTGTTCATGTTATTTTAAGATAAAAGTTCATTTTGTGCATCAGTGTGATTTCCAGTAAAGTCTCCAGAAATCAAAG
CCTAGTTAAATGAACAGGCTCTGGAGAGTCAGAATCTGGGTTTAGATCCAGATTTTGCCATAGGTGCTTGCTGTGTGCCCTCAAGGGAATCACCCACCCT
CTCTGAACCTCACTTGCTCCCTTTGAAATGAGGAGCATTTAATAGCACCGGAGCCCTAGGGCTGCTGCCGCAAAAGAGGGAGCTGGCAAAGTGGCTTCGT
GATTGTCCTTAACACAAGAAGAAAGATGAAAAGTCCATGCCATGTTTTGGGGTTGCCGCTTAGGAACATGCTATTAAAAAAAAAAAAAGAAAATTGGGCT
GGGCGTGGTAGCTCACGCCTGTAGTCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTG
AAACCTTGTCTCTACTAAAAATATAAAAATTAGCCAGGCATGGTGGCACACGCCTGTAATCCCGGAAGGCTGAGGAAGGAGAATCACTTGAATTCAGGAG
GCAGAGGTTGCAGTGAACCGAGATTGTGCCACTGTACTCCAGCCTGGGTGACAGAGGGAGACTCTGTCTCTAAAGGAAAAAAACCAAACAAAACCAAAAG
ACTTGCAAATGAGTCTGTAGAGGAGCCTGTTTTTAAAGCACAAGGTCACCTCACAGAGTCACCTGTTGGTCACTGGAGTCCCTCTTCTTCCCTCTCAGCA
CATGACATGAACTGCCTGGCTCTGTGCTGGGGTCTCTGGGAGGTCCCACACCCCAGCCCCCCTGTTCACCTACTGGAGGGTAGGGGAGGGCTGGGATAGT
TTAGGCTGGGGTGCCCAGGCCCTGGGCACATTGCAGGACTGTTCTTTGGAGAACGGATACTGTGTGAGGTCATAGGGAGAGGTTCAAATTTTCTGGGGAA
TAAACTGGGAGCCTCTTGGCTCTGTGGGGTCCTAGAAGCAGAACTAAGGCCTATGGCTGGCTGTTCCCAGGAGGGAGGTTTCAGCAGCACRGGGTAGACC
TTTCTAAGAGTCCAGGAAGGAGTACCCAGAGGGAGAGTGGCCCTTTCCATGTGTGCTGCACTTTACAGTATAGAATGCTGTCTAACCTGCATCAGCATCT
TTGCTTTCCACCCCATGCCTGTGAAGTGGGGCAGGGACAAGGCCTCCTGTAGGGTCCCCTGCAGTGCCAAGCTTCAGGCAACCCACATCTTAGGACTCTG
TTGCTTCAGGCCAAATTCAGGTTGCAGGTTGTGTTGTGGCCCACACAGTATTTTATTCTATTTAATTTAATTTTATTTTGAGACAGGGCCTCATGCTGTT
GCCCAGGCTGGAGTACAGTGGTACAATAACGGCTCACTGCAGCCTTGAGCTCCTGGGCTCAAGTGAGCCTCCTGCCTCAGCCTCTTGAGTAGCTGGGACT
ACAAGCACGAGCTACCACACCCAGCTAATTAATTTTTTTTTTTTTTTTGTAGAGATGGGGTCTCACTATGATGCCCAGGCTGGTCTCAAACTCCTGGGAT
CAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGTTGGGATCACAGGCATGAGCCACGGTGCCCGGCCCACACAGTAGTTTTAAGAACATGGCAGTAGTTG
CCAACATTTAAAAATTGAGAGAGATCCTATAAAATTCAGACTTGTGGGTCTCCTGGGAGGGTAGGAAGAGCTGGCTCACCGACCCACCTTCCCACGTGGC
ACCAGCCCCCGAGTGGCAGCTGCCCACTTCCCCTTGGTTCCTACCCACCTTTCCCACTGATGTTACCTGCAAGCCCCTAAGGCATCTGAGTTTATTTTAC
CTGCTCCAGGAGGATTGGGCTGGGGAAGACGAGATGGGGAGGGGACAGCGCCCTCTCCTGGGGATGTCCCCATCCACGTGGCTCAGGTTGGGCATGAGGG
GCAGGGTCACTCTCCACCCCCTGGTTCCAGGCAGGACTAACTCAGCCATCCCCCACACAAGCCTCGAGTTTGGAATGTCTCGGGAGAAAAAGCCTTCAGC
CCCGCCATGACCACCCGTGCTGGCCTTTGCGCTCAGGAATCTTCTCCTCTCCCCACCTTCGGCTCCCTCTTCGGTGACCAAGAGGCTTTCTCTTGCTTTG
CCTCATACACCTGTGCAGCCACAGTGGGGAGAGGCCTCTTGGGAGGAGGAAATAAATTCCGTAGTGGTTGGGAAGAGCCGTTCTGCCCTCTCCTGCTCTG
TGAGGTGGGCCCTGGCTGGAGGTAAGGGAGACCTCTTTGATGCTGGGCAAAGGACTAGAGGCTCTAAGCTTCCATGTCTCCATTTGCTGGGTGAGGGTAG
GTTGGACCATGTGAGATGTTAGGAAGAGTGTGGTGGAGGCCGCACCCTGGGCTTCCCCCTCCAGGGCCCTCCCTGGACAGTCCTGGCCAGTTCTGTGACC
TGTTTAGTGATGTCCCTATCACCATCACCCAGGGAGAAGCAGAAACGAAACTGGGTGTAACCCGAAACGGAACCATGCCAGCTGTTTCAAAATAGCCTAG
GCAGGAGCCTCCAGAGGGCCGTTTGTGCAATATCCTGGTTTTCTTTTTCTTTTTGTTGGTTTTCATCTGCCAAGGGGGCAGCGCTGACTGCCAGAGCCCA
CGGGACTTTCCTCTTCCAAGTTTTGGGTCATGGCACATTTGGCAGCCCTTGGGGCGGGGGGCCCTGCTGTCTTCAAGGTCCGAGTAGTGGTCTCTTGAGT
TGGCGTTTGGTTTCCTTGTGGAAATAGTGAGGCGGAGCCTGGCCTTAGCAGCTGTGGGGGACCCCAAGTCCTCCTGCATGTTAGGAGCGGTGGGGCCTCC
CCTGGCTCCTGTCACACTGTGCACTAGCTGCTCAATGCAGGGAATGGTGAACGTGGCCTGGCTCTGTCCTGTGCTGTCAATCAACAGTGGGTGGGTCTCA
GCGAGTCACTTTACCCCTGGAATCTCAGTTTCCTCACCTGGGCAATGGGGATGGCCTCAAGGACCGCTGAGCTGATTCAATGAGATGTGGAATATTAAGA
GCCATCCTCAGTGCCTGGCACACCCTGGGCATTTGGTCCCACTGGGACTTTTGGTTGTGTGCCGACTTGAGAGAGATGATGCTTTGGAGAACAACAGCAT
TCTCTCCCGAGGAGGCTCGGGGTGATCTGTCCTTTTCTCTCCTGGGGATGCCTGGGGGTGATCTGTGTTTTTCTCTCTGGGGAGGCTCAGGGTGWTCTGT
CCTTTTCTCTCCTGGGGATGCTCGGGGTGATCTGTCCTTTTCTGTCCTGGGGATGCCCGGGGGTGATCTATCTTTTTCTCTCTGGGGAGGCTCAGAGTGA
TCTGTCCTTTTCTGTCCTGGGGTTGCCTGGGGGTGATCTGTCTTTTTCTCTTTGGGGAGGCTCAGGGTGATCTGTCCTTTTRTGTCCCGGGGAGGCTCGG
GGTGATCTGTCCTTTTCCCAGACAGGATGGGGRAGGAAGGGGAGAGTAATGGTTGTCGTCAGAGTCACGGGTTTTGGGAATGAATTTTGCTGAATATCCT
CCCTCCCTCCCAGAAAAAAATCCCCTTTAGAAAAAAGACGTTTTCCCAGGGTGTCCCTGGATGGGTTGGTGGCCCTGACACTAGCAGGGGGGGTCTTGAC
ATCCAGCCTGAGGTTGGCAAATGCCTGCTTGGATGCCTGGGGTGTGAAAGTCTTTGTCCTCAGAGGGTGGTGTTATTGACTGGCAGGTCTGTTCCAACTC
TGTCATGAGGCCACCTAAGAGGCGAGACAGGCCAAGGCTTTCAACAGGTTGGGGTGCAGGATGGGGTCCCCTGCACAAGGCCACGCCTGCTCCACTGTGA
AGACCATCACAGACAGTAGTTGTCTATGGAGCACACATACAGGGCCGGCCTCTCAGGCCATGACCTGTGTCATCACACGTGACCCGTGTCATCACACGTG
ACCTGTGCCATCACACATGACCTGTGCCATCATACATGGCTGGTGCCCAGAAGGGCCCCATGCTTGCTTTCATGTTCTGCCATGGYCATCTTGAAATTCA
TAGTCACTTTGAACAAGAGCCTGTGTTTTCGTTTTGCACTGGACCGCAAGAGTCATGTAGCCAGACCCGGTCACATGTTCATTACCTTGTGTGATCTGAG
CAGTAGAGGTATCTGCCCCCACTTGGTAGCTGAGTAAACTAAGGCTTGGACATGTGAAGTGACCTGCCCAAGGGCTTCACAGCAGGAGTGGGGATGGGGG
CAGAGCCACCTCTGTAACTCCAGAGCTGTGTCCTTGGCAGTGGCAATCAGGCAGAATCCCTACAGAGAGGGGCTGGCAATGGCTGGCTCACCTGAGAAGG
GGGCACTGGCTGCTGGGCCCACACGGGTGCTGGTGAATGCTCAGTCTCCCCATGGCCTCCGAGAGGAGGCCCCGATGTGTGGTCCTCTGGTCTTCCTCCC
CAGTGCATCTTGTCACCCAGGGATGGAGGGAGTGGCTTCATCTCCTCCACCTCTCCCAGCCTCAGTCTCCCTTTCTGCACCATGGGAGGATTCTGGGTCT
CCGGCGCGGTAAAGCCGCCGGGCCGCGATGCTGATGCTGACCTTCCCTGCCCCTCCTCCAGCTGTTGACCTCAGGCCAGCGGCAGCTGCTCCTGTGTGAG
ACGTTGACGGAGACCGTGTACGGTGACCGCGGGCAGCTAATTAAGTCCAAGGAGCGTCGGGTCTTCCTGCTCAACGACATGCTTGTCTGTGCCAACATCA
ACTTCAAGTAAGTGGGCCTGGGTTGGAGGGGGCAATCACCCCTCCCTGGAGACCCCATCCCGCCCTACTCCAGTCTCTTGGCCGGCCGCACTACAGTGGG
ACCCCATGTGAGCTTGGTTTAGGCTTCCAATATTCCTCTCCCATCCCTCTTGCCCTGCTCTGCCACTGGTCCCCAACGCTGGGAAGTACCTGGAGCAGTC
ATCGGGGGCAGCCCTCAGCCTCGGGCACACAGCTGTCCATGGTACAGAGTTGTTTGTTTTGGAACTCTGCAGTTGGTGACTAAACAGTGGTTTTGTCCAC
ATTGAAATTCAAGAGATTCTTCCTTGTGTCTACCCCAGATCCCTGCGGCTTTAACTCAAATCTGTTTTGCTCTGGCCAGATTGCAGAATTTCTCAGTGTG
AGCCTTTGCCTTTCCCCCACAGACCGGAGCATCATCATCGGCCCAGAGGAGCCTGGTTTGCTGGTTCTGGGCCGGGGATTGTGGAAATGCCCAAAGCCCG
GCTGCTGGGCTGTGCCTGGGAGCCGGAGCCCTGGTGTGGGGTGAGGGTGAGGCTTTAGGCCAGAGCCTGAAGATGTGGCYCATCAGTTGCTTTAGGCTCC
TGGGTATCTTATGTTTTACTAACACAGGGAGCCCACACCATGGGTGAGACATAGGAGAGATCTGACATTCTGGGGCCTGGCTGCCTGAGGCCACGTGGGC
CTGGCACTGGGGCTTGGGCCCTGCCATTCTCCAGCCTTTCTGCTTTGCCCAGCTCACCTGCTCGCATCCCCTGCTTGGTCCTGCAGGGGACCCTGTATCA
AATACTCCCTGAGAACTTCAGCTGTGGTTTTTCTAGCCAGGCTCTTAGGAGAACCTCTGCTCTCAATATTTGACAAGACTTTATTTTATTTTATTATTTT
TTGAGATGGAATCTTGCTCTGTCTCCCAGGCTGGAGTGCAATGGCATGATCTCGGTTCACTGCAACCTCTGCCTCCTGGGTTTAAGTGATTCTTCTGCCT
CAGCCTCCCGAGTAGCTGGGATTATAGGCATGTGCCACCACACCTAGCTAATTTTTTTTTTAATTGTATTTTTATTAGAGAGGGGTTTCACCATGTTGGC
CAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCGGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCACCGTGCCCCACCTCGACACC
ACTTTAAAAAGCATCACAGAAGCAATAGTATGGCTACCATCACCGAAATCCAGGAGGGAAACAATCACCTCAGTGGAATGTGAATCCCAGCATAGCTCTC
CCGCCTCCCAGCTGAATCAGTTCTAGGCCCTGTACCGAGTCAGCTTGGGCCTTCCTGGGTTTGGCCACAGAGTAGGTTTGGGGATTTTCCATGGTTACCG
ATCACGAGTCCTGGAAGGGGACAAGCAGGGCTGTTTCAGGACCTGTGCACTCATTCACCATCCACCCATTTGTCCACCCGTCTATGAATCCATTGAATGT
AGTCCGAGACCTGGCTCTGTGCCAGTTCACACCTAGAATGAGATCCAGCCCCTGCCTCCGGGAGCTCAGGGCCTGGTTGGGGACTCAGGCAAGGAAGCCT
CTGTCACACATGGGTCTGGGCAGGGCTTATGGCTGACCCATTCATTCATTTACTCACTCACTCAATCAAAGAAGGTAATTCTTCAGTCCCGTTTATATCC
TGGGCACCGTGTGGTGCCGGCGGTATGATGAATACCCTCTCTGCCTTCATGTTGCTCTAGCGCAAAGTGCAAAGTGGGGTGCTAGTGGCCCGGTTTTGGG
GAATCAGTTTGGGTGATTTGGGCTGAGTCACTTCACTTGACTGAGGATCAGTGTCCTYGTCTGGGATCATCTAAGCTTCCTAGCGGGGCTGTTGTGAGAC
CCAGAGATGAAGGAAGGCCCGCTTCTGTCCACACCTGGCCTCTGATGCCCTCATTCCCCGCAGGAGGCTGTCTCTCCTTCTATTCCCGATGCCCAGCCCC
ATGGCTGGCCCCCAGCGGGGTCACAGCCCCCAGATTAGCCACTCCATTGTAATAACAATCTCCCTTTCCTTCTTGTCTTTTTTCCCAGGCCTGCCAACCA
CAGGTACGTGGTTCAGGGGGCTCCGGGGCTCTGGGGCTCTGGGGCTCTGGGGCTCTGGTGYCATGTGATTCTGGATATGGGGCTGGGGCCTGGGCGCCTG
GTGCTTCTACCCTGGCGAGGGATCCCTGCTCTGCCTGGCTTGGTTTTGGTCTGAGGTCTTGCGCTGGGGCTGCGTGAAGCCTGGCTGAGCTGGTGTGGAG
GAGCAATGCCCTGGGCCAGCCCTGGGGCAGGGTGGCTGCAGCCTCTCCAGGGCCTTGTCCTCTCTGTTCCAACAGGGGCCAGCTGGAGATYAGCAGCCTG
GTGCCCCTGGGGCCCAAGTATGTGGTGAAGTGGAACACGGCRCTGCCCCAGGTGCAGGTGGTGGAGGTGGGCCAGGACGGTGGCACCTATGACAAGGACA
ATGTGCTCATCCAGCACTCAGGCGCCAAGAAGGCCTCTGCCTCAGGGCAGGCTCAGAGTGAGTACCCCCTCTCTGTGCCCTGCGTTCGTCACCCTCGCCC
TCACCAGCCACAGCCTGGGCTGCTCCTACCCAGGCTTGGCCCTGTCTTGGGGACCCCTACATAGGCTGATGGGTGGCTTGGCCAGGAAGCTCTTGCTGGT
TTTGCAGCCCCACCCTGGACCTTAATGCAGAGCCATGGCCTCACCTGGGTGTGCGCAGGTGCRTCTCCCAATCCACACACTTTGCTCCACCTTCACATTG
GCTGCCACACACTCTGTCCTGCTGTGCCAGCTACCTGGCTGCTCTTCCTCCCTCCTCCTACCTGGGCCCCCTCCCTGTCCATCCTCTGCCCATCCCCAGG
GCTGATTCTTCCAAATGCAGGTCAGATCAGTGCACGTCATCCCGCCCCAGTGGCTTCCCATTGCCGGTCCTGAGGGTGTACCACCTGCCTCACTCACCTC
CCTCTGCCCCTTCTCTCTGCTGCAGCCATGCCAGCCCCTCTGGGCTCCTGGATGGGCCAYGCTCCCTCCCACCAYGCCCTCTCCAGCCTGTGCCTTTTGC
CAAGTACTCTCCTGCCATCCTGTTTTTGTCTCATCTGCTCTTGGCTCAAATGGCACTTCCTCAGAGAAGCCTTTTCTTATGCCCTCATGCTGGGCCAGGT
CGCCCCTCCTGTGCTCTCGAGACCTCTGGTACATTTTCCCCTTTATGGGTGATTGATCGGTTGATGTCTCTCCTCTCAGCCTGGCTGCAGCTCTGTCCAG
GAGCCTAGGGTACGGTGGGCATTAATAAGTGTTCCTTGAATGCATGCAGGATGCTAAATTGCAGCAGAAAGGAACCCTGGTGCCCGAGGCATCTTCTGTG
GGTGAGAAAGGCACTGGGGTTTCACTTCCCCCTCTGTCTGCTGTCTGACCCAGGAGGCTGCCTCATGGGCCACCCACAATTCTGGAAATTCTGAGGGAGT
GATTGCACCACCTACTCTTGCCGTCTGGGTGCTGGTCCGTGACAGCTGTGCCCACTTCCAGATGCTGTCTCTTTCCTCAGCTCTGCTGGGTAGGAAGAGT
CCTCTGCCCCACGTGCCTTCCTCGGAGGCACCTTCTGCCCTGGCTCAACTGCACTCCCTCCCCGCCGCTTGGGGCACAGGGTTCCTTTCTGCTGGTCATG
CGGTCTAGCATCCTTCATGCACTCCAGGGACGCTTAGGGGATCCCTCCTTCGGTGACAATGATGTGTCTGTGGCCGCATTCCTCAAACCAGAGTCACGTA
CTGCCAGACCCCTTCGAAAGGGGAAAGAAGTTCTTGTGGAACCCTTCATTATATTGTTATTCAAATATATACAAACGCAAAACTCCCTGTAATCAACTCC
TTCTGCTTATAGCCCTTGAAGAACCATAAAACCAACACCAAATCACAAATTGAATAAAAATAAAGCTACAAAACCATAACATTCAAATTAACAGCATTAA
TGTAATGTGATGGATGATGTTGTTTTGCTGAAACCAATTTGYTCACAGTGTGGATGTGGCTYAGGCCCTGGTAGAGCAGGTTCCTCTGCGCTTTCGTGCC
TGTGCCACAGGGTGCCCTGTGGGGATCTGCATTTCCCATGAGCTCCCCAGTTTGGGTCACTGCAGAGCCCCTCTGATGTGAGCACATTGTCCACATCCCA
AGCTCGCCATGCTCTTTGCTTGTTACCAGGTGACCATTCAGGTGCCATAGTCCATGGAAGCCTTGATATCAGGCAGCAGAGTGTGGCTTTAAMCTCATTC
CACACAGGTGACTCAGATAATTATCTAAATGAAAACCCCAAATAAGGCTTCCCCTCCACTCCCCKGGGGCTTCATAAGACCTCAGTGTGCAAAACCACGG
CCTAGAGAATACAGTCCAAATTCCTAGCCCAGGGGCCTAGCGTTCAAGGCCTTCCCCATCTGGTCCTCCTGGACCCTCCTGCTCTATCTCTACCTGCCAC
CCCCTACCCCCATCTCACCCTTACTCCATCTGTATCATCACTGGTGATCTGGGCCCCCTCACCCCATCACTGTCCCACCACACTGATATCTTTCTCCCCA
CCACCTCCTACCACCCACCATTGTTAACTGACTGCTTCCTCCGCCACTTGTCCTGCCAAGGTCATAAGCTCCGGAAGAATGAGGACCCTGTCTGTCTTGT
GTACTGCTGTCTCCAGTCTCTAGCATGGAGTCTGGCACACGATAGGTCCTCAGGATGTCTTTGAACAACTTGCTGTTCATGGGCTGCCTCAAGCCACAGT
GCCTTTGCACACGCTCTTGTCTTTCTCTCCTGGCAGTGCCCACCACACTTCCAGCCCTATGCAGGCCCCTCCTCTCTCCCAGGCACAGCTTGCTCTTGGT
CTTGTGGTCTCATACAGCCCTTTGTACAGACTGACTATGGCCTGGATCTCAGGTGTTAGACTTTACTCTTGAAAGGATCTGGCTTCCCAGCTAGTCTGGG
CGCTCTGGTCAGGGTAGGAACTGGATGTTACTTTCTGGAACTCTTTCTTTTTTTTTTGGGTTGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGC
GTGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGTCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGTACTACAGGTGCCCGCCACCATGCCC
GGCTAATTTTTTTCTTTGTATTTTTTAGTACAGACGGGGTTTCACCGTATTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCTGCCTCGGCC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACYGCGCCCAGCCTCTGGATCTTTTTTGTTGTGAGCAGATGCTTGGCTTCTTGTTAGCGCCTTCACCTG
TGCCTGAGTTGGTCTCTTCTCTGCCCAGATAAGGTGTACCTCGGCCCCCCACGCCTCTTCCAGGAGCTGCAGGACCTGCAGAAGGACCTGGCCGTGGTGG
AGCAGATCACGCTTCTCATYAGCACGCTGCACGGCACCTACCAGGTACGTGGCCTGGCCTGACCTYTTTGGCCTGAGCTCCCCAGTGTGGGCAGTGCCTG
GATTCAGAAAGCTGAGTAGGGAGGGGCTCCTCTCCTGGCCCATRTCCCCGATGTGCTCCTAGYTTCTGAGCTCCTGTTGGCAACTGTCGCTGCTGAAGCT
CCATGTCCCTGCCTGGAAGTCTCTTTTGCGGCCGCTGGTTCGGGCGCATCCTCTGGTTTGGGTTGAGTGGAGCCTGGCTGTGGGGCCTTTGTTTGTTCTC
TGCACAGTGGCCATTCCGTTATGTGGCCCCTCCTGGGCCTCTACCCARTGTGGAGGGGAAGCTGGCTGCGACGGCATGTCCCTCTCAGAGGAGGGCTCCA
GGTGGGATCTGAGCCCAGGGCTGGGAAGCCTGGGGCATGGCGAGTTGGCCTCCTGCGTGGGGCTAAATGTGCAGCCTCAGTGAGGCTCCAGGACTTCTTC
AGTTTCTCTTCCTCTGGGGTGCTGTGATTCCTATAGGATCTGGTGTGGCTTTTGGGGAGCCAGTGTGCTGTGTGGTGACCTCATTGGCCTCCTGAACCCT
AGAACCTGAACATGACTGTGGCTCAAGACTGGTGCCTGGCCCTGCAGAGGCTGATGCGGGTGAAGGAGGAAGAGATCCACTCGGCCAACAAGTGCCGTCT
CAGGCTCCTGCTTCCTGGGAAACCCGACAAGTGAGAGGARGGGGTCTTGGAGGGAGGGCTGCTGCCTCTGCTGGGCTTCCAGTGGAGCAGGGGATCCGGA
GAGGGTACCTGGAGCCCTCTTATTTGTCGAGATGCCATGGTGGGAGTGGATATGTAGGCATCGTGGGCCATGTCTGGGATAGCATCTGGCACGCAGTAGG
TGCTCATGAAAAGACTGTGGAATGAATGAATGAATTAATGAACAGCCTGGTCATGTCCTGGATAAGCCTGGCCCACTGTTAGGATACTCAGACACTCTGC
CATTGGTCAGTTCCATTTGCGCTGTGTCCTTTTCAGTCACTTCAGCCTATCTAGGCCCCCAGGCCAGGCCCTGGGTTTCCTCTCTCTGGACCCAGCCTCC
CCCCAGCACCACCTTAGCCCCAGAATGCCCACCACAGGAGCTGTGCACAGTAGACCCCAACTGAGGTTTGTGGAACTGATGACAGCCATAGCTGCTCGGC
CTGGCAGAGACAGGGAACGGGATCTTTCTGGTCCTCCTGAGGCTTTGTAAGTTGGGTCTTTTTATTTCCATTTTACAGATGAGGAAGGTGAGGCTCAGAG
TTTCAGGAGAGGCTGAAGGCCACATCGTGAGAGACAGAGCTGGGTCCTGATGAGGTCTGACTCTGAAGCCCAGGCCAGTGCAATGAGGGGGCTCAATGCC
CAGGTTTTGGCCTCCAGGGTGGGGTGAAGGTGGGGATAGAGTGTCACAAGCACAGTGGCTGCAAGGAAGAGAAGGTTGGAGCACTATCATTTGAGGTAGG
ACCATGGGCTCAGTCCCCCAGGGGACCATGTGTAGGAGTCAGCAGCTTTGAATCTGCCGCCTCCCTGTTGAGTGGCCTGTCCGTCTCCCTTCCTCCATCT
CCCTTCTCTCTGCCTCTCATTCTCCACGTGCACCCTAGAGGCTTGTGACACTGCCCTGCCCACCTCCCAAAGGGCTGGGAAGGCCCCCACTGCTCTGAGG
TGAGAGGACAGCGTGGTGACAACAGCAACCTCTGGTTGCCCCAAGCTGGTGCTTAACCTGATTCATTCATTTCTTCATTCATTCCTGTGTCCACTCAGCA
AACATTTACTGAGCAACTGTCCCATGCCAGGTGCTGGGAACAGACCCAAGTGAGACCCATTCCTCCCTCTAGAGGCACGTGGTCAGACATGTAAGGTGTC
TAAGACCTGTGGACAGCTGACCGCTGACCAGGTGGAGTCACAGCCTGCAGAGGCTCTGCCGGGCACAAAGCCAGAGGCTCCTGGAGCCAGGCTGGGGAGC
GTGGCTCAGCCACCCTGGCCAGGTACCTCCCTCTGGGGGTCATTGTGGGCGGAGGGATTCCTCCCCCAGGGGACCGAGGCTTTGCCAAGCCACTGACCTC
TTTGGCCACGTTTTGGGGATGCTCTGACCAGACCTCCTTGATCTCCAGGGCGCGTGGGTTGGAGGAAGTACTACGTGACAGCTGGGGGAGCCTGGCCCTT
GTGTGGGTACTCACACATCCACTCTAACCCTTCTCACCACAGGTCCGGCCGCCCCATTAGCTTCATGGTGGTTTTCATCACCCCCAACCCCCTGAGCAAG
ATTTCCTGGGTCAACAGGTTACATTTGGCCAAAATCGGACTCCGTGAGTATAGCCCCAGGGAGAGTGCCTCAGGGGGCAGGGGTGTGGAACGGGGAGGTT
TGGGGTGAGTGAGGGTACAGGATGGGTGTTCGGGGTCAGCGGGGGGCAGGGAGGCTTCTGAGTGGGAGGGAGGTGGTGCGGTGGAGAAACAGCTGGGGCC
AGAGCCGGAGGCTCTGCTTTGTGACCCTGGACAAGTCACTTCCCCTCTCTGAGCCTCAGCTTCCCCATCCAGGAATTGATGGAACTTGAYAGAAAGTAAA
TTAGTGGTTGCCAGGGACCTGAGAGGAGAGGATAATGGAGAATGACTGCTAGACTGCTAGGGGTTTTGGTGGAGGTGATGAAAATGTTCTAAAATTAGAT
GGTGGTGATTGCTCAACTCTGTGACTACACCAAAAATCAGTGGCGTGTGCACTTTAAAAGGATGCGTTTTATGGTAACTGGATTGTATCTCAATAAAGCT
GTTACCCAGAAAAATGATGCAGGTTGGACTATACTGATTCTCAAAGACCAAAGACCTCGTTACTATGTTTTTCTTCCTGTGCACCCCATGGTATGAATAC
AGATACATAAATGGATATTTACATGCACTTTTCTGAGTATTTTTTGTGCATCTTTTTCATTTCACATTCACAGTAGCCTTAAGAGTTAGGTCTGTTGAGA
ATCTCTTTTTCCATTGAGGATTCTGAGGCCCAGAGATGTGCGGGGACTTGCCTGAGGTCACACAGAAGGAAGGGGCAGATCTGGGCCGCAGACCCTGTGT
GGCCTGACTCCAAAGCCCAGTCTCGATCCCCATCCATTCTGCTTCCTTGGCTTGGCAAGAGTCTGTCTGCAGACTGCATTCATTAAGTTATAATTACTTT
ACTTGTCCATTTTTTGAGTTGGTGAGAGGCTTATGTCCCCTCCAGACAGAGCTATTATTCCCTATGATGTACTACAGTTCCCATTTGCCGATGCCAGCCA
ATAGCAGGAACGTTTTTTTATTTTTGTTTCTGGTATGATCTTTCTATAGAGAAGCTTACATTTTCAATAGGTTTTAACACATTTATGGAAGGCCGGGCGC
AGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCTG
TTTCTACTAAAAATACAAAAAATTAGCCTGGCACACGCCTGTAGTCCCAGCTACTCGGGAGGCCAAAGCAGGAGAATTGCTTGAATTCCGGGAGTTCGAG
TTTGCGGCGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGCCAGACTCCATCTCAAAAACAAAACAAAACAAAACAAAACACAACAAAAC
AAACAAAAAGACATTTCTGGAAAGAAGTCAGGACCTTTGGCTGGGCGTGGTGGCTCGCGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCGGGCAGATC
ACCTGAGGTCAGGAGTTCGAGACCATCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCCAGACATGGTGGCGCATGTCTG
TAGTCCCAGCTACTCGAGAGGTTGAGGCAGGAGAATCACTTGAACCTAGGAGGCGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGTACTCCAGCCTGAG
TGATAGAGTGAGACTCCGTCTTAAAAAAAAAGAAAAAAAAAAGAAAAAAAAAAGAAGTTAGGACCTATGTCACTGGTTTTCATTAATKGAAAAAACTGTT
GAGACTCTACATAGTTTTGGGCATGGGGGAAGAATAATGACAAAAACAGAGAGATCTCTGCTCTCAAGGAACTTAGATTTATGAGGGGCAGGCAGGTGGA
CATTAAATGGGGAGCAAATCTGCAAGCAGGTGTTATGCTGTACAGGGCATAGAGCTGGGCTGGGGCTGCCATCTGGGGGACCCCTGAGGCGGGGTCCTCA
GAAGCTGCACAAATATCTGGTCAGAGTGATCCAGGTATGGGGATAGCAAGTACAAAGGCCCTGAGGTAGGGACAGAAGGAAGCCCAGAGTGGCCAGCACT
GGCAGATGAAGGGGAGGGAGGTAGGTGGGTGTGTTGCGGGCAGGTTTTCTGGGAAGCCGGGGAGAGCCGTATGGGATTTGTTCTGGGCATGATGGGAAGC
TGTGCATTATAGCATTGAGAGCTGGATAGTGTCCYGATCTGATTTTCATTTAAGTGGGTCATTCTGGCTGCTGTGGGGAGAGGGCATGGGAGGGGCAGGT
GTGGAGGTGGGAGCAGGAATGGGGAGGGGTTGCCTGTGGAGGAACCTGGACCAGAGGCTTCTACTCAGCCCATCCCTTCTTGGATCCAGTGCTGATATTG
CTCTGACCTCAGCTGGATGTTTCTGGGTGACCAGAAGGCCTTTGGAGGGTGCAGAAAGTGTTTTAAGCAGAAGCTGTCCTGTCCCTGGCAGAAGACTTTG
GGAATCCTGGCCCTCAGAAAGGCTAATGTGGCTTCCCTGCCCCTTGGGCCATGCRCTCCCCTCCCCACCCCATGCATCACTTCCATCCTGAGAAGTGCCY
GAGCCCCATGTTACACCTGCTTTAAAGGCAGATGAATGTCCTGTTTGAACCGCATGTGCTTTGCTGCATGGGGCTTGGTGCTGGAGGGATGGGAGACGGT
GATTCGGGCAGCCCCAGCTCTTGGCAGCCTGTGAAGATGCTGGGCTGCCTTATCTCCACACAGCTTCACTGCAGCAAAAGTTTTAATGGAAGAAGAGTCA
TTTGAAATCTTATTTGAATGCCTGKGTTCCCCTGGGGCTTGAATAATTTGTTTCTTTTATTTTGCCAGTATTTTTTTTCTTTTTATCTGCAGTGGCTGGT
TTGGGAGGGGATGATAATATGAGCCTGTTAGAAATAGAATATGTTAAAAACATTTATTCACAAAGGCTGTTATTCCTTTATTTTATTTTCTATATCTTCC
TCCCTCCCTGACTACAGTGTGTCAGGATCATAATCTGAAGATTGAGAAAGGAGAGGGATGTGGTGGGGGAGCCTGCGATCTGGGAGAGGGGATCAGCTCT
GCCCCTTGGAAGGGCAGGGAGCCCTGGGGAATCTGGGGACCCCGTTCAAACCCCAGCATGGCCACCACCACGCCTTGTGGTCCTGGGAAAGGCAGACTCC
ATCCTGAGACCCAGTTTTCCTATTTGTGAGTTGGAATAGATCTCCAAGGGCCCTGTTGCATTCTTTGGCACACAGGAAGGTTTGAGAGGCAGTAAGGGGT
GGTCCTCAGCACCATGGGAAATGGAGCTAGACCATGTGGGTTCCGTTCCCAGCTCTGCCACTGACCAGCTCTGTGATCCCAGCAAACTAACTCTGAGATG
CCTTGGATTTTCCACCAGAAAACGGGGAAAATGCCAGTGCCCCCTGCACAGGGCTCTCGTGAAAATGTGGGGAGATGGTGCATGGAAGATGCCTAGACAG
CCAGCCCTTGGCACATAGGAGCTGTGAGAGGGGCTCCTAGGTCAAGGAGTGTCTGCATTTCAGATGGGGAATGGCCTTTCTGAGGTCACACGCGATTTAG
TACAGGGCCAGGATATCTTCCTACCTCTTTCTACCGGTTAGGCTCTTGTTGGTAAAAGCTCCAGAACAGGGCTGCAGATGGAAGGTCCCAGAGAAGGAAG
AGGTGAGGTAGGGGGCTCCCTCATTTCCCTCCTGTACCCTCCCCCGCCACCACCTGCTCTGCTCACAAAGCTGCATTGCTGCCTCTTACCCTCCCCGGGC
CCTTGGAGCTCCTCCCACCCATGGCCCTTCTCATTCCCACCTCTCAAGGGGACATGGGCCTGGCAGGCCATGGCTAATGCCAAACTCACAGGGACATAAC
CAGGTGGCCCAAGGCAGTGAGCCTGAGCGCAGGGCTGGGCCCTCCCTTGCTGCCTCTCATTTGGTTTAGTTTTCCGGCCCATAGTCGTCACACTGACGCC
AAYATTCCTTCCGGGATGACTCCAGCTGTTGGGTCCTGAGCACAGCCCTGGCAGAGTGTGAAGTGTGTTCTAGACCTCAGCATGTCCTTGAACCCTCACT
GCTGTCCCACAGGCTGGTGCTGGGATCTGCCCACACCCTGCAGCTGGAAGGGATGGGTCTCCTCTCCAGGAGTAGGGCCGAGGGCGTGGCCTTGGAGTCC
GACCCTGGTTTTACCCCAGCTGGGAGACTGTGGCTACTTGCTTGGCCTCCCTGGACACCAGTGGCCCTCTCTGTAGGGGACAGGTGGTTGGATGAGATGC
CTGCTGAGGTCCAGCCCAGCCTGACATCTGTGGCTGTGGCCAGCAGCATCTCCATGGTGCTGGGGAGGTGTGAGCGGTATCTTGAAGGTGGCTTTAAGTT
TGGGAAGTTCGGGAAGAGCAGTAAAGGCACGATACTGGGACTGAGCCCAGTAGGAGTCTGGGAGGCAGGTCGGGCTGGAGAAGCAGGGCTGGGCCCGCGG
TGGGCTCAGCTGCCCTCAGTAATAGCGACAGTCAGACCATGAGCAGCGAGGACAGTGACCACCATGGCTGCTATTTCCGGAGTGCCTGGTGTCTGCTGGT
CATGATATATATGATTTCCAGTGCTCACAACTCCAGATGGTTGGCGTTCCTTCCCCCATTTTCTACATGAGGCCACAGGCTCAGAGAGGGTAAGCACTTG
GCTCCGTGTCACATAGTGAGTTGGAGACTGAGGTGGGATCTGCCCGGGCCCTTCTAGCAGATCAGAGGGGATTGTTCTGAGGGTAGCGGGGGATCTGCAA
CCCTGGAGCTGCTCCCTGTGTCCCATGGGGAGCTCTCATGCCCAGGGGGTGTTGGCAAACAGAGCTGGGTGCTAAATAAGCCCCCACTTAGCGTCAACTG
GAAATTGCGGTTCTGCAGTCGGTGCCAGTTCTTAATGTCACTTATCCCAAGCGGGCTTTCAATTTTCAGCGACAGCAGTCTTCTAATTTGGTCTCCGCCA
CTCTGGTTTTGTGACGGGAACAATGGCAGTGGCAGATGGGGAGCAACGACTCCATTTTCTTGTAACGTCCCCAGTCGCAGGCAGGGAAGGCACCATCTGG
AAGGAGAAGGTCAGATCATTAAAAAAAATACGTATGAATAAATTGCCAGGACTTGATGGGCTATGGGTGTTCGGGGAGGAAAGAGAGGAGCTGAGCTCTG
GGCGCCCTGGTGACAGGGGCTAGGGTGGGGAGATGCTCGCTCACCCAGCTCCTACAGGTTGTGGGGTGAGGAATTGGGGGTCCAGACCAGAGCTCTTGGC
TGGTAGAGGTGAGGGTCTGCTTGATTGTAAGTTCCTTGAGAGCAGGGACAAGCTCTCAAATCTGGCCTATCTTTATTTGCTGCCCAGGGGCTTGTCCAAG
AGGCAGCATGGCGAGCGCTGGCACACTAGCAGAGGCTAGGAGAGCCGTGCTGCCCCGGGACAAGGTGCGTCGCAGGCACCGTGCAAGGCGCCCCCGTGGG
TTAGTTCCTTGGCATCTGGATCTTCCCCTGCTTTCCCCTTTCCTCTGCTGGCCAGCGTGGAGTGCGGRTAGAAGGACGTATCTCCCGTGATGGCTGTGAG
GATGCAGTGAGGCAGTGTGGAAACTGTGAGGTGCAGGGCACRTAGAAGTGTCTGTTATGGCAACGCGCGTGCCCTGTGTGGTCGTGCCCTTTCCCTGAGG
GTCTCTTATGTAGGCCTTTCCTCCCTGGTGGCAGGGATCAGGTCTTACATGACTCTGTTTCCAGGGCCCAGCAGGGTAGAGGACCAGACATGGAGGATGC
CTCTGGGCCCATTTCGGGAATGAGTTCACTGCTCAGTGACTCAGGCCGGAGGGTGTGAGCCCGCCGGGTGCTGGCGCCTTCACATCATCAAGCCTGACAT
TTGGGAATGTCTTTCACTTCTCAAATAGCATCCTCACCTGCCACCTCATTCCAGCTCCTCTTGCTGTGCCAGCATTCAGGTGCCACCTCTCTCGGGCAGT
GACGGCATGAGGGCTGCTCTCAGGGTGGTCCTTCCTCACTCATGTCCAGCCCTTCTCTCTGACCCGGCAGGATCTCTTTGATGAAAGCGAGTCAGATTAA
CGTTCATGTCGTGGGTACATCTGACAAACCTGGAAAATGAGGCTCTGAGAAAAGAGACTTTTTGTTCATATCCCTAAATGTAGTGATGGTCTGTGGTGGG
TCCAGCCCTGCGTGGGTGGGTTGGGTGAGGTGTAGAAGGAAATAGGGTGGGAGGTTTCGGCCTTCATAGAACACTGGCATGGTGGGGGAGCGCCTACCTC
CATGTGCACACACACGCACGCGTGCACACGTGCACATGTGCACACAACGAAGAAGAGCCACACTGGTGGAGGAGCAGGGAGTAGCTGTGAGAGGTGTGAT
ACCCTCCAATGGGCTGAGACGACAGRTGGTGGAGGCCAGGGCATGGAGACATGGGTGGTGCAGGCCTCTCTGAGAAGGAGAGGAGCCAGCCCTGGGGAGG
TGAGGGGCAGCGTTCCGGACAGCGGGAACCTCTGGGCCCGTCCCGGCGAGGTTGCTGAGCACAGTCCAGCACGGTGGAGCCAGTGGCCGAGGGAGGAGGC
TGGGGAGGGAAGGGACCTTCGCAGCTCTTCCAGGAGAGTTTGGATCTTATTCTGGGCTGACTGGGACTCCACTGATGTTTCCAAGCAGGGGAACGGCGAG
GCCAGGTGTAAGTTTTAGCAGGATGGGCCTGGCTGCCGAGCAAAGATGACTGTAGTGTCAGGGGGCCCCAGTGTGGCTGGCGGGAACTCTCCGGCTGACC
TGGCGCCTCCTAGGGGAGGGGCAGGCTCCGGCTGCCTGCGACAGAGCTACTCTAGCATCACCGTGCCCACAGGCCTCTGCGATGGAGCATCAGCGGGCGC
GGTTGCTGAAGGCTGCCTGGTTTAGTCCAGAGAATTCAGTCTTGGGTGTCAGATCTAGGCCTGAATCTGGGTGCTGCCCCCTAGCCATGGCTGTGGCCTG
GCCACGTTACTAAATCCCTGAGTGCCAGTGTCATCCTCTGTGGAGTGAAAATAATGATTCTGGCTGTGCTCAGCGATTGTGAAGACTAAGCCAGGGCATA
GACGGCGGCGCTCAGTGTGGTGCCTGATGTGTGGGTGCATAGTAGGTGGTGTCTTCATCACGCTCATCCCTGCTGTGGGCTTGCTGGAAGGGAGTCCTCA
TAGGGAGTGTAAAGAAGGAAGGGATCCTCCGCAGGGAGAATTCTTCAGGACAGACGGTGGTTTATTCCTCCCTCCTTCCTTTTATTCATTCTTTCCAGCC
ATGTTTTCCGAGCACTCGCTATGTGCCTTGCAGTGTGCTGGGTGTCAGGGGACAGTGGTGAATGAGACAGTGCAGACCCCCACTGACTACAGCTTTGATA
TTAGAGACTTATGGAAATGGACCACGGATGATTTTAGATCATTATGAAGGCTGCGAGGAAAGTAAGACAGGGTCTTTAGAGTGATTCCTGAGAGAAGGGG
CCACTGTAGTCAGGGTGGTCAGGGAGGACTTCTCGGAGGAGGGGACATGTGAGCAGAGCCCCGAGCCATGTAAAGGAGCCTCCACAGAGAACGAGGTTTA
GCAGATGCTCTTTAGCATGGTGACCTCCCGTGGTGAGTCCTGGGTCTGGGGTCGGGTTAGGCATCTGTACTTGTAACGGGTCCCTGGGAGCTTTGAGGCC
CAGCTAGGGTGGGTGAACTGGAGGCAGGCGGCTTCCTAATTTCAGGGTTGTCTTGAAGGAAGCAGGAGTGTGATTCTTCTGCATTTCCATCACCACCATG
GTCAAGTGTGAGTGCCGCAATGGCGACCTCCTGTCCTCTGATCGTTCATGGTCTGTCTCCTACTCTGCAACAGAAATTCAAGGCAACAGGGGTCTGGACT
CTGTTCAGCATCTTAACATTTTTTAAAAACCCTTTTACATCTATTATTTCATTTGGTCCTCACAACAACCACAGGACGAAGGCATTTCTAGCATTCCTAT
TTTCTAGGCAAAGAAATTGAGGCTCAGAGAGTTGGGGTGACTGGCACAGGGTTGTTCAGCGGTAGGGTGGTCAAGCTGGGACCTTGTTTTTCAACTCCCT
GCCTGAGACCCTGGCCACGGCATCACTCCTGAGGCTGGATTTCATCTCAGTCCGGCAGGAGTAGGGTGGGGAGTGACTGGATGGGGCCAGGCTTCTGGGG
CCTGCAGTGGCTCCCTGGGGCTTGGAGGGCTCCTCATGGCCCAGTTGGTCCTTGGACTCTGACCAGCTCTACCCACCTCCTTCCTCTTGCTGTAGGGGAG
GAGAACCAGCCAGGCTGGCTATGCCCGGATGAGGACAAGAAGAGCAAAGCCCCATTCTGGTGCCCGATCCTGGCCTGCTGCATCCCTGCCTTCTCCTCCC
GGGCACTCAGCCTGCAGGTGAGTGGAGCGGATCTTGCTGAGCCGACCTCGAAGGTGGCTGCGGCTCCCCCTCGCCTGGGAGAACCAGAGTTTCCAGGGAG
CGCCCACAGCAGGGAAGGCTCAGGTTCCAGCTGTGGCTTCTAAATTCTTACTGACAGATTTGGTCAAGCCTTTTTGTTGCTTCGGGAATCAGCTTTCCCA
CCACAAAAATGGAGGCGAACGACCACTGTGGGTCAAGTGAATGGAAAATTCCATTATTTTGAGATAATAAACAGCAATGATCTCATCTGTTGATGGCATG
GCTCCAGATCATGCCGAAGCGGCTGTGCCAGCCACTGTGGGTTGGGTGCTTTGTGGTTCGCCAGGCGGGAGCCGGCTTTGGCGCAGGGWTTGCCCTCATC
ATGGAATGCTCCAGCGCCATCAGGCCTCCCGTGTATTGAGCACCTGCTGTGCCCCCTGGTTCTTTCCTGCTATTCTCTTATTTTAATATCTATAAGAACC
TTGCGAGTAGATGTTTCTCTATCCATTTCACAGATAAGGAAACTAAGGCTAAGACAGGTGCTATGATTTTCCAAAAAGGACATAGCTAGTAAGAATTTGA
ACCTTGCCCTGCCTGATCACAACACCCAGGGTCTTAACCATGAGGATGTTCAGCCTTCACGGGTTACCTGCCCTTATACCCTGTCCTAGCTCGCCCTCCA
TCTAGAGCAATTACTGCCTCCCCTTTCCCAGGGAGATGAGGTCATCTCAGCTCCAGGGATAGGAGCACCAGTTGGGGACCCAGGCCCAGATTGGTGAGCC
CCAAGAGATGCGCCGATTGGGCTGTAGACTGGGGATCTAAACAGCTGAAAGAACAAATCCTTGAGATATGAGTTCATTTGTTCACTTGTCCATTCTGCAT
GCAATTTTCTGAGCACCTGTTGTGTGCTAGACCCTGGGAATACAGTGGTGACTAAGACATAGAAGGTCCCAACCCTTATGTAGCTTTGAATCCTAGCAGG
GAGAGAGAGAGGCAAAACCCCAGCAAGCCAAAGGAAATAGAAAAGAGTGAGGTGTGTAATAAAGACATCGGGGCCACAGTAGATACGTGGGTGGGCTGAG
GTTCAGAGATGGCCTCTTGGAGGAGGTGGCATTTAAACTGAGAACTGAATGGCGAGAAGGATTCAGCCCAGGGATGGGAACAATATTCCCAGTAGACAAA
CCCACACAGAGGGTGCAGCAGAAACAGTGGGGGAAGCCAGGCGAGGCAGGAGGAGAGAGGGCGGGCCCCGAGGTTCGCTGGTGGGTGAGCTGGACCACGC
CAGCCTTGCAGGCTGGGTCAGCTTTGGATTTTGTTCTCAGAGCAGTAAAAAGCCTTGGAAACAGATGTTTCCCAAGCTAGGGACTAGCACAATTTGATAT
ATAGTTYGCATTTTTTGGATCCTTCTGGCTGGTGTGTGAGAGTGAATTGCAGATAAGAATGGATACCGGGACTGAGCGTGGTGGCTCATGCCTGTAATCC
CAGCACTTTGGGAGGCTGAGGTGGGAGGKTCACTTGAGTCCAGGAGTTCGAGACCAGCCTGGGCAACATAGTAAGATCCCCATCTCTACAAAATAAAAAT
AAAAAAAAATTAGCCAGGTGTGCCATGAGCCTATAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGAGGTTGAGGCTGCAGTG
AGCTGTGATTGTACCACTGCACTCCAGCCTAGGGGACAGAGTGAGACCCTGTCTCAAATAAATAAGTAAATAATACAAAAGGACTGGATGTCGGCTGGGT
GAGGTAGCTCACGTCTGTAATCCCAGGATTTTGGGAGGCCAAGGCAGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAAC
CCTGTCTCTACCAAAAATACAAAAATTAGCTGAGCTTGATGGTGCACACCTGTAGTCCTAGCTACTGGAGAGGCTGAGGTGGAAAAAACACTTGAACCCG
GGAAGCGGAGGTTGCAGTGAGCCGAAATCATGCCACTGCATTCCAGCCTGGGTGACAGAGTAAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAATGG
ACCTGGAGGGAGCAGCTCAGAGCTCAGCTCAGGGTCCTGCTGAGACGTGGCAAGACTTGATGTGGGCGGAGGCCAGGGCTGTGACTGGAGTAAGGCGCCT
TTGCCTCAGGCACAAAATTTCAGCYGATGTCAAAAATCTCAATAATTAAGATAAATACTATTTTAATGCAGTGCGTAAATATAATCAAATCAGCAAATTT
TTCCTTGTGGTTTGGCCGCTCTTTTTGTCTCTTGATACATAAAGGGCCAGGATTAGGGTGAGGCAAGTGAGCCAGGGTCGTGCAAGTGTAGGGTGAAGTT
TTGTCTGTATTTAAACTTTTAAATAACTATTCAGTGTGGATTTTTTGCATTAATATTGATTTTTTTAAAGTTGCCTTACTCTCTCTCTMTATATATACAT
TTTTGTGACTGAGTTTTTGGTGCCCTTTTAAATTTTGTACCCAAGCTAGGTGCCCCAGTCTATCACCCTAGTCCTGGCCCTGGTGGAGGCCGTCGGCAAG
GGAGGTGGACACATTGGGGATGTGTTGGGGTGGGACAGGCTTAACTGGTGATAGATGGCGTATGCCAGATGGGGGGTTACCTGTGGGCCCTGGGGCCTTG
GGCTGGAGGCAGCGACCATGGAGTAGGGAGTATCAGGGCCCACTGTGCCTGCGGCCAGCTTGGCCTTAGCGCATCCCTGCAGAAGGCTGGCCCTGGGTGA
CTTTATGGTGGGCGTTGGATTCTCCTGTCTCCCCCAGGGCCTTGGGTCTCTTGAGAGCACAGGATGCAGGCTGAGCCCTGACAGATCAGACCCCAGTGGT
GGAGTCACAGAACTGGCCAYTGCCTCCAAGGCCTCCCCAAAAGAAACCCCCATCCAGGTGGGGAGCCTCTGCCACCTCGAACCTGGGGAACCAGGGCCCA
CGAACCTCCTCAGTGMGAGCTCTCAGGGCCCASGAATATGTAGGCCAGAAGCATCCTCAGTCCTGCTGGCCCCGGCTCACTGTCTCCTTAGGAGCGCCAG
GGCTAGTGGAGGGAGGCGAGTGACTCTCTGTGGTAAGGGGCCTGTGGAGCTCCCAGAAGCCAGAGCAGAGCCTGCCTGGCTGCACTAGCTAGGCCTCAAA
TCGCTGTCCCCCTCTGCCCACACCCTACCCCACCCCACCACCAGTCCAGACAAATGTGCCCCATCAGCTGTGTGCTGGCAGCCTGATGAAATAGGGCCTG
GGAGTACCAAGGCCCTGTCCAATTACTGCAGAAGCAGATGTGACTGTGTGAACCTCTGCCCAGGCCCCCTTCCAGCTCACCACGTTTCCAGGTGGTCCTG
GGGCAGGGGGTGACTCCAGCTCTGGCTGGCCTCATGGCGAGCAGTGGCCCAGACTATTTGTCTAGGGAGGGCTTGGGCTGGGCAGAGGGASTTGCTGGCC
ACAGTGTAGACAGGGTCGGCACTCTGTACCAGTGGATGAGGATGTGTTGGRTTCTTTCCTTCAAGGGATCAGGGGTGTTGGGGCAGGAGGCAGGAGTAGG
TCTCTTGTCTGTGCTGACAGTGGCCCCTGCCCACGCTGGGCCACACCAAGGCCTTCTGACTCAAGGGAATCAGTTGGGAGTGTGAAGGAGCATCAGCAGG
GGCCACCTGCCTTGGATTGAGTCCCAACAGTGTGACATCAGGAATGCTGCCTCAGCTCATGGTATCTTAAACTAGGGTGGTCACAGCACCTTCCTGACTG
GGTCACCTTGAGGATTAAAGGATATGATTTGGGTCAAGTGCTTAGCCAGTTGCATGGGGTGCGCTCAGGGGTCAAGAAACAGAAGCAAACACCTGAGGAC
ACCCTGGTCCCCAGGAAGGTGAGGACACCGGAGTCTATTCTGTGGCATTTCTGAACGCCTGACTRCTACGGTGTCGAAGGTTCTTCTTGGACCCCTGGCT
CCATCCAAGGGGGAATGCTGTCTCTGGAGGGGTGGCAGGAGGGCAGGGAGGGTTCAGCGCAAACCCATTTCCCTGATGGTCAGTCTCAGAGCCCACCTGG
GGACAGGGCCTTGGGGATGGGGCTGGGGGTGCTGCCTGCTCTGAGATGCTTTAAAACTCGAGCACCTTGGGAGCCTAAGGGGTGTAGCCCAGACCCACAG
GGGGTCTGTGGCCAGGCTTGCTTAGGCCAAAGCTCACAAGCTCATTGGGCTGTGTCTTGACCTTCACCAACCTCAGCCAGAACTGCTGTTGGCCGTGTAC
CCTGTCTCCTGCTCATCCTTGATGGCTCTGCCCTCATAGCCTTGCTCTGATGATGAAATGAGCTAAGGTGTGTGAAGTGCTAGAATATCCCATGAGAGGC
CCTTGGTAAGCCTTAGTAGCTGCAGGGTACTGGGTACCTGGCCCTGGGCCGGGTGCTTTACACTTTCCCTCTCCAGTCCCCACGGCCATCCTGAGAGATT
TCAGGGTCTCTGCTCTGTAGGTGAGGACCTGATTTGTTCAGTACCATCCAGATGGTAACCACTGAGCTGGGGCTGGAGCCGTGTTGGCTGTACCTAAAGC
TGCTTCCCTTCACAGCTTCGTGCTCCCCTCCTCTCTTCTGCATAGGGTGCCTTGACTTCCCAGTTTCCTGGCACAGGCAAGACATTTAGGGGCTAGGGCC
TTGCCTGTGAAGGAGAGGAGCCATTTGAGTATTTTCCACCATCTTCGACCCGGCTCTGTTGACTCAGCTGACATCAGGGCCCACTGGAGTTGCCATGGAA
ATGCCTCAGCAGGGGCTGCCGTGGCCTCGTCTCCACCAAGGGAGCAGAGAGAGCATCAGCCCAGCAGAAAGGGCATGCACCCTCAACTAGATGCTGCCAC
CAGGAAGCAGAGAAGACAGGGAGCCCAGAGGCCGGGCTTAGCGAAGCCCCCTGCTCTGAATGTGAGGACACACTTTTTCAGCAGGCAGAACTGGGGCCCC
AGAGTGCCAAGGCCTCTGGTGTGCAGCCAGGCTTCTGGGGTAAAATTCAACCAGAATAGAAAGAGCCCTGAACCAGATGTTGAAGGTTTGAATTCTAGCC
CTCACTCTGCCACTAACATGCTGTGTGACATTGAGCCAGGCACGCCTCCCTCTGACCTTCAAGTTGGCATCTGCGCAATGAGGAGGCTGGATGAGGTGAC
CTCTTAGGGCCCTCGCCCATGGCCATTAGAAATTTTGTTAGAATATTCTAACAATGGGTCCAGGGACGGCTGGGGCCTTYAGCACCAGCAGAGGGCAGCA
GCTGCCTGGAAAAGGGCCCAGTGGTCGGCTGCATCCTCCTTCCAGCCAAGAGCAGTCTCTACTCTGTCTTCTCCTTCAGTGTGGCCCATGAGTGGGCCAG
GCCATTTCCTAGAATTGCTGTCCTGGCCAGAGAGAGGGACTGACCAGGTCTAGCTCAGGAGACAGGCCTCAGAGAGAGGCCACCCAACATGGGGTCTGTG
GCAGCTGATTCAGGGGGGAGCAGGCGGAAGGTGGTTACTGGTGACAGCGGTGACAGGCTGAGCCCTGGTTTCTGTGCGTGGCCCTCACAAGCCGCCCAGC
CCTGCCACTCACCTCCTCTGTGGTCTAGGGTAGTCACCTGCCCTCTGTGACCCTCATTTCCCTGTTTGTAAAATAAGGAGGGGTGGGTGGCTTTCAAGAA
ATCTTATCTGAAAGCTGCTCACTTTCAGAGACCCTGGGCTGATACAGAGCCTCTTGCAGGCCTCTTCTAGCCGGAAGGTTCTAGGAAAGGAAGAACAAAT
GTRAGCGTGTAGGAACTGCCTGGAGAAGCAGGCACTCGTGAAGCATGTTGCTTTCCTGGCCCCCACCCACAGGGATTCTAATCCAGGGAGAGTTGGATGG
GGCCCAGGAATCTGCCAAATATTGGCATCTGGGCACCTTGATGATTAACCTCACATGTACCGTCTCTGTCTCTGCAGCTTGGGGCCCTGGTCCACAGTCC
TGTCAACTGTCCCCTGCTGGGTTTCTCAGCMGTCAGCACCTCCCTTCCACAGGGCTACCTCTGGGTGAGTCACCCCCCTGCCCAGCTGGGCATTCTGGCC
TCAGGACAGGAGTAGGGAGAGCGGCACCTGGGAGRGGGTGCTGGAGACAGCAGCTGCCTGCCTCATCTCATGCAGCTTCATCCACCAAGGTCTTCCTGGG
CACCTCTGGTGCCAGGCACTGCATTTGGAGTTGGGAGGTGCAACCTCATCTGGGGCAACAGAAAACCAGGGAGCTAAWAAGAGAGTGTGCCTTTTGCAAA
TGGTGACAGGGCTGAGAAGGAAGTGAAAGGGGGAGCTGTGCAGAGGACCTGGGTCTCAGGATCTTCACCCCTGGAGTCAGGAGGCAGGGCTGGCTAGTGC
CCTACTCATGCAGACATTCCAGCCCACCTTTCTATCCTTGGGCTTCCTGGCAAAGCCTCCCTTGATTCAAGTGAGGTACCCTCCACTATGTTCCTTGTGC
TGCAAATTGTGCCCTGTCATTGCTGCTTCCCTTCTGAGAGTGATTTGTTCCTCATCATTTCCCATGATCTAGCACATGGTATATCCATCCATCCATCATC
CATCCATCTATCCACCCACCTATCCATCTATCCATCCACCCACCCACCTACCTATCCATTTATCCATCCAACAAGAATATATATTTAATCCATCCATTTA
TTTATCTGTCCATCCATCCACCCACCCACCCATCCATTCATTCACCGATACATCCTTCCRTCTATCTGTCTATCATCTGTCCATCCATCCATCCATCCAT
CCATCCATCCATCCATCCATCTATCCATCCATCCATCCAACAAGAATATATTGAGTATGTATCTATCATATGCTAGACACAGAGGTAAAACAATGGTCAA
CACAGAGAAGGGCATTTTAAAGGGATGGAGTAGATGTTTACTTTATATTGGTTGAAATGCACCCTGCAGAGGAGGAAATAGAAAGCTGACTGAGTATTTA
GTCCACCTTAGCTCCTTACCTGATTTCCTGTGGGCCCTGAAGCTTATTTGTTGCCATGGCAGCTGGGGATAAATGACCTTTGTGAAGGCAGGATGTGTGT
GGGCAGGAGAAGGGATGCTTCTCTCAGGGGATGGGGTCCTTGGGAAAGCAGGGGCTGAGGTCCTCCTCTGCTCCCTCCTGTGGTTCCCACCTGATGGCCT
CTCTGGGTCTCTGCTCCCAGGTCGGGGGCGGACAGGAAGGCGCAGGGGGCCAGGTGGAAATCTTTTCCTTGAACCGGCCCTCGCCCCGCACYGTCAAGTC
CTTCCCACTGGCAGCCCCTGTGCTCTGCATGGAGTATATCCCGGAGCTGGAGGAGGAGGCGGAGAGCAGAGACGAGAGCCCGACAGTTGCTGACCCCTCG
GCCACRGTGCATCCAACCATCTGCCTCGGGCTCCAGGATGGCAGGTGAGGGGCCCGGAAGGAGGGGTGAGAGCAGCCTCTGCAGGGCTGGGCAGTGGGTG
GGGGCTGTCCCTGTAGCCTTCCGGATCTGCCTGTTGCCCACCAACATTCTCTGCCCCTGGTCTCCAGGAAGGTGGGCACCAGAGCTGCCCAGTGTGGGAG
CCAAAGTGTCGGGAGCGGCCTGCAGTGCAGTTGCCTGGCTCCTCCCAGGCAGAATGGCTGGCTCTTTTGCCTCCCTGAGTCCTCTTCGTGACAGAGGTGT
CAGGGAGGGTACCGTCCCAGAAAACCATGGAAAAGTGAGCTCCCGCATGGTGGAGCTATGGCCTGGCCACACAGCCGAAAGGCGTGGCTGAGAGGGGTCA
GCTCCCTGGGGCCCTCTCCCTAGGAGGGCATGGGGGCAGTGAGTGGGTGGGAGTGCTCAGTGTGTCATGACCGCTTCTCCAACCTCTCCCCGCAGCATCC
TCCTCTACAGCAGTGTGGACACTGGCACCCAGTGCCTGGTGAGCTGCAGRAGCCCAGGTCTGCAGCCTGTGCTCTGCCTGCGACACAGCCCCTTCCACCT
GCTCGCTGGCCTGCAGGATGGGACCCTTGCTGCTTACCCTCGGACCAGCGGTGAGGACTGGGGGGAATGGGGGAAGGGGGGCAGTCCTGGATGCCAGCTG
GGTGCCAGATTCTCTACCAAGAGAGGATACAGGAGGCTGGGCAGGAATGAATTGGGAAATCTCAGTGCTGAGGGCATTTGGAGATCCGTGAGCCCCGCTG
GGGTTCAATGGGTGGTCCCCCATATGTGAATACCTGCTGGAATAGGGTGCTCACTACCATGTGGGCAGTGGAACCTGTTGACAGGAGACTGTAGTGGATA
AGAGAGGTACTCGCAGGTTGGAGAGACCTGGCTTCCCGTTCAGGCTTTGCCCGATGACAGCTGTATCCCTTGTTGCGTGGCCTCCCTTCTTTGGTGCCTG
GGACTCTTCATGAGAATAAGGGCAGTGCCCACCACTCATGGGTCCTGGAGGGTTAGACAACTCCATGAGGGCAAAGCACAGGGCCAGGCCAAGGGCTCAG
TGGAGTCAAGTATTTCCATCTGGGTTSTTTTATTGAGCCATCCCTAGCACAGGTTACGATGTCAGGAGGGCAGGAGGGCAGGGCTAACCGTGTTTGGACT
GCTGTGCTCCAGGGCAGGGGTAAAGTGCTTAATGCRTGTGTGTTATCTTAATTCTCATGCACCCCTTGAGAATTTCCTTTGCTTTACTGAGATGATGCTG
ACTGGAGACCAGACGCACCTTCTCCCCAGCCATGTGGAGTGCTGTGGTCCCCATCCTCTGGGCTTGTTCAGCCCCGATTTGATGAAGGGGGCTGAGTAGA
GAGTGTAGCCAGCCCCCAGTCCCCTGGAAGGRGCAGAGGAGCCTGAAGGGCCCGCAGCGTCTCTTCTCCCCTGCCTTTTCCGCCAGCCAGGCTGTGATTG
CCGCGTCATCACAGCCTGTTACAGGGTTATAAACGGATATTTGTACTGAGCTAATTTTTTTTTTTTTGCCACTTGGCACTGTGTTGGTATTTTTAATTAG
CTTTTGATAAGGCATTTATAGTTTTTAATTAAAGGGGGAAGAGGGAGGGAAAAAACCCTTCTCACCGTCAGACAGAGCGTGCATGTGAATGTAAATATGG
GCTCAGATCTGCGGAGACTCATGGGGAGTTCTAGAGCGACCACTCCCAACCGGCTCCCAYGGAACACTGTGAGCCCGGCCTGTGCCACCCTGGCGCTCTG
GTCCCCAGCTTGGGTTGGCTTTGGCCCATTCCCTCTTACTGCTCGATTCACCAGTTTGGGCACCTGGGTTGGAAGGAGGTGAGGCTGCCCTGACAAGGAC
CACAAATGGCAGACWTGTAGCGTCGCATATCCTAGAGGCTGGAAGCCTGGGGTCCGTGTTTGGATGGGTCATGTGCCCTCAGAAGGCACTAGGGAAGGGC
CTTACTCCCAGCTGCTTCAGGTGTTTCCTTGCCTGTGGCAGCAGAACTCCAGCCTCTGCATGGTGTTTTCCCTGGCTGTGTGTCTGTGTGCAAATTTCAC
TTTTTTATGAGGACACAAGTCATATTGGATTAGGGACCTGTCCCTCTCCAGTATGAACTCATCTTAACTAATTACATCTGCAATGACCTTACTTCCCAAG
GAGGTCATATTCTGAGGTACTGGGGGCTGGGACCTCAACATACAGATGAGGAGGCACAGTTTACCCCAAAACATGGGGTTTGGGGTCCACCCATTGGCTT
CTAGTSTGGGGTTGGAGCCTGTTAGTCAGGACCAAAAGAGCCACTGGGACCATTGAACCCCACGCCCTCATTTTCTGGATGGGAGCAGACTGTCCAGAGC
CCCCTGACTGAGCTGAACCTGCACCCAGTACCCTGCCTCCCAGGCTGAGCTCTCTGCAGATGTGAGGGGGCTTTGGCTTGTCCAGGTAGAGTGGAGGACA
TGGGGTCTGAAGGCTGAGATGTTCTACCAGCTTTCCTGCCTTGCAAACATGTGTGYACCAAACGCTTACTGAGCACGTACTATATGCCATGGACACAGTG
GTGAGCAAAATGGACAGGCCGCCTGCTCTCATGGAGCTTACAGTCTATAGAGGGAGAGGGAATCGGTTAGTAAACAAGCAGAAGTATAAGACTGTACATG
ATGCCGAGGGCTCCGACGGAAAGGAAAGAGTGTTGTGTGAGAGCCTCACTGCCCAAGTGTGGGGCAAGCTGTGCTGCAAAGGCCTCCCTGAGGAGGGGGA
TCCTGGGGCTGAGATCTTAAGAAGCCAGGCAAGTGGAGAGTTGGGGGAATGGTGTTCTTGGTAGAGGGAACAGTATACGCAAAGGCCCAGAGGCAGGAGA
ATGCTTGATTTGGTGGGGGAACCCGGAGAGGAAGCCATTTTGCTGGACAGCTGGAAGAGGAAGTGGCACTGGGCGTGACCCGGGGGCAGACAGAGCTGTT
TGCGAGGGCTCCAACTTGTCTCAGTGTGTCAGGGAGTAGAGAGGCATGTTAGAGGTGGCCAAGCACTGGGTTCCCTCTGGCTGGTAGACAGGAGGGGAGG
CAGGTTGGCTGGCTGGGAGGCTGAGGCACCACCTGGGCAGGTGAATTTGGTGGTCACGCTCTCCCAGTGAACCTACTCTCTGGGTGTCCAGTTTGGCTGT
GGCCAAGGAGGCCCCTGAGAAGGGGCTTGCCTTACCTGGTCTCCCCACCCGTACCCAGTGGTATCTTTCAGAGGTGGCCCAAGCAGGCAGCTGTGTTCTC
AGGACCTGCTACATGGTATGTGGTGGGCAGGATTCACCCCCATCACCTTCCACCTGGATTACATGCGGCCAGGTCTTGAATCATCCACCTGGTCCGTGAC
CAGCTGTGGGACTGGCATCAGCTTGGCCCTCATCCAGATTCACTGAGGCCTTAGATACCCCTCAGATACCCCCACCCATCCCAGCAGCAGAGYCAGGGCT
TGGAACTGCACCCGCATCAACCTCGCAGGCTCTGTATCAACCTCAGAACCCACCATAGTGGCCCTGGTGGTGTGGAGGGTCCAGGGATTGTGAAAATCTA
GACCCCTCATCTTCGTCTAGAAGCAGGTACTCCATGAAATATTTGCTGGTGTTTGAAGTGACATGTTCACTGTCCTGCCGGGTTAGGCTGAGACCAAGAC
TGGCATTCCTGCTAAAACTGGCATTCCTGGCCATGCTTTGGCTTATTGGAGAAGGACAGGACCAGACACATATAGGTCTGTAGGACAGAACCCACAGAAC
CAGCAGCTGAGAGTAGACTGTCCAGGCTCCAGGGTGACCAGGCCACGTGGAGGAATGGACTGGCAGAGCTGGAGTGGCCTCAGAGTCCCACCTGCAGCTG
AGAGACAGGGAAACTGAGGCCAAGAGCAATGTGGCCATGGCAGTCACTCTGCTGTCCTCAGGAGCATCTGCTTGTTCTCATTCATTCATTCACTCCTTCA
TTTGCTCAAGAAGCCAGTGCCCCTGAGGTGTCAGGCATGCAGCAGGGTGCTGGGGCCCGGAGCTGAGACAGCCGGCCACTGTCCTTGCTGGCGTGCTACC
TGGGTTCTCCCCTGCCTCTGAGAAGGCACAAGGGCATTGCCACGCCTTGGGTGGGGATGCGGGACTATCCCTGGTTGGGCGCTGGGGCTGTGGTTCGGAG
TCCCCCCTTGAGGAGGCAGATGGCATAATGGGTAAGGGATGGGTTGGGCATCAGGCTGCCGGGATTGAGTCCTCACTGTGAGAGCTTGGGCCTTTCCTTT
GCCCCTCTAATCCTCAGTTTCCTCACCCGTGAAATGRGGGTGTGGACAGCCCCACTTCATAGAATGGTTGTGAAGGGTAGACATGGCAATTCCCACGAGT
GCCGCGACACAGCCTGGAGGATTGGCACCTCCCACGTGTCCCTTTATCACAGTCATCATCATCACAGTCGCTATTTACTGTCACCAGGCAGGGGCTGCCC
TTTGGGCCCCTCTCAGCCGTGATGACTTTCACTCTGGGACCTGCTCTCTGGCTCCAGCCCAATCTCGACCCCTGAGGGAGACCCAGGGGCTTTCTCCACT
GCTGGCTGGGGGAGGAGGGATGCCAGCCTCCTGAAGGTGCCTTTGCTGAGACAGGGCCTTCATCTCCCTGGCGCTGGCCACAAGAGCTGGTGCCAGGCCC
AGAAGAATGGGCTGTCATACAGGGGCAGGCTTGTGCGTGTGGGTCTGTTTTCCAGAATATGTGCGTGCTTTCCCACAGCCACTGGAGGGTAAGGTGAGGA
GGGGGTGGAAAGGGCGGGGCTCCCATCAGGCAGGGGCGGCTCTCACCAGAGCTCACAGCAATTGGGTTTAGGATCTCAGAATCACAGTGTGTGAGAGCTG
GAAATAATCTCAGAGGACAGAGTTTTGTCCTCATGGTGCAGATAGGAAAACTGAGTCCCAGCAAGGGGAAGTCTCTTGTTCAGGATCCCACCATGGGCCC
TCTACTCAGGGACTCCTGTCCAGTGTCCCTTATGAGCTTTTTTCTGAGACAGAGTTTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACTCCACTGCAA
CCTTGGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCACACCACCACACCCAGCTAATTTTTGTATTTTTA
ATAGAGAAGGGGTTTCACCATGTTGGCTAGGCTGGTCTCGAACTCCCAACCTCAGGTGATCCGGCCGCCCCGGCCTCCCAAAGTGTTGGGATTACAGGCG
TGAGCCACCGTACCCGGCCTTTATGAGTTTTTTGATCTATCAGTATTAGCATTATTAAATTTGATCACAGTTCATCATTCTGCCCTGGAGTCGACTTCTT
AGAGGATTTCTGGAGACTCCCAGCAAATGCAGGAATGGCATTCATGCAGTCCTTAGGGTTTTAGACCCTAGCTCCTACCCTAGGCTTCCACAGCGAGGCT
CTGTTCCAGGGGAGTGGATGCAAGGGCTCCGGTGGCTATCACTGTTGGATAGAGCCCCACTTTCCAGTTTTGGGGGGGTGTTTTCTCAGCATCCCTAGCT
GCTTTTTCCCTGGGAGGGGTCCCAGCCCCCATCTCAGCCATAGCAGCCTAATTAGACTCCAGCTTCCAGCCACGAACACTACTCACCTCTGGCCACTGGG
GGGCGCTCAAAGCCTTGCATTTTCTTGGCTCCAGCCTCCTGCTGTGGACCAGCATCCCTGGCGGAGCCCTGGCCGCCTTCGGGTCACTCGCCCCTCCTGG
ACACCAGGCCCAGCTGCAGAGGCCTTCAGAAACCTGAGAGGGCAGTGGGGTTGGAGAAGCAGGCCAGGCCCAGAGTCAGACAGAGCCGAGTTCAAAACCC
GTCTGGCCTGTCACCCCTTGGGTGTCTTTGTGCAAGGCCTTAGCTCCATGGGTCGCCGTTGTCACGTTGGTTAAGTGAAGTCAACACTTGCTTCCACACA
CTGTTGTGTTGTGGCAAATGGCATCAAACAGTAAGAGCCACGGACACAGACTCCTCTGTAGCTGAGTGAATTGGGGTAGTTATTTAAACTCRCTGTGTCT
CGGTTGTCTCCGTTATGAACAGGGATAATAATAGTATCTACCACACATKCTTGTTGGGAGTTAAGGAAATAATTCAAGGAAGGAGGGCCTGGTGTGCGGA
CACAGAACGCTGCGTAACAACCGCTGTCAAGACCCTGACTGTGTGCCCAGATAAATATTCTTGCATATTGTATTGACTCCCTGCAACATCCGGAGAAGGG
CAGGCGTGGTTATCATGCCCAGTGTGCAGATAAGGGAAACTRAGGTCCAGAGAGGCGAAGCCCCCGTCCAAGTTCACACAGAAGTTCTGAGGCCGAGGAC
TGCCCTGCTCTGCCTGCTTCCCTTGGTGCTCACGCTGGCTGGCCGGGCAGAGCGCTCTGTGTGCCTGGAGGTCGAGGGGAGTCCCTGTTCCCCTGCTTCT
TTGCGGAGCTTGGATTCTGCCCATTTTAAGTAGGGCATAAGGGCAGAAGGGGAACCTGTTTTATAGATGGGAAAGAGGTGGGGAGGGAGGGAAAACTGGG
CCTGGCAGAGCATGGGGTAGGCCAGGGTATGGTAGGGAAGGATGGGGAGGGRGTGGGAGTCTAGTTTGGCTCTTGTGACCACACCCCAGCAGTGGCTTCC
ATCACGTACCCTGGGGCCCTTCCGGCTTTGGAGACAGCTGTGCCCCATCGTGCCACCAAGCAGCTGGCTCAGAGGGGAAGGGTCTGCCTGTGATGGGCTG
CTCTGTACTCTTACCAGGGACCCAGTGGAGGGCAGGTGGGGTAGCAGGGCTCTGACAAGCTCACAGCTAGCTGTGTCCTGCCTTCTAGTCCCCCGCCACT
GCTGCCTGTCTCTCCAGAGCATGCCATGGCCCAGGCTGCTCCAGGCTGGGACCCAGCTTCCTCTTCAACCCCCCTTTCCCACCTGGCACCCTGACAAGAC
AGGGCAGCCACCGGGGTTCTGTGTGGCATCAGGTGTGACTTCTGAGAAGAAACAATCTTGGCGCGCGCCGCTTGGATGCCGGAGAAAATGGTTCTTGGGT
GCGCTGATCATCCCAGGGGAGGGGAGGACCTTGCTTGGGCCAGGCTCCTAGGTCTGTTTGGTTTTCAGGGATGGCCGACTGGGGATTCATTGCCTCTCAG
AACATCCTCTGTATCAGGCACGGTGGCTCATGCCTGTAATCCCAGAACTTTGGGAGGCCGAGGTGGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGC
CTGGCCAACATGGCAAAACCCCGTGTCTACTAAAAATACAAAAAATTAACTGGGTGTGGTGGCGGGCGCCTATAATCTCAGCTACTTCGGAGGCTGAGGC
AAGAGAATCGCTGGAACCCGGGGAGGCAGAGGTTGCAGTGAGCCAAGACTATGCCACTGCAATCCAGCCTGGGAGACAGAGTGAGATTCTGTCTCAAAGA
AAAAAAAAAAAACAAAAAAAAACCACCCTCCACCTCACCTGGCAGCAGTGGTGTTTCTGGAAGAGAAAGAGATCTTGGTAAATTTGACAGAAGTGCCTTG
GAGTCGGCCAGAAGATTCATGAGAAATCAAGATTCAGTCTAGATAAGCTACAGCATCAGAAAAGTCCTCAGAGACAATCTTGTCAGCTCCCCACCCCATT
TTACAGATGGGGAAACTGAGGCCTCGTGAAGGGTAGAGATGTGCTCAAGGTCCTTAGCAAGTTAGTAGTAGCAGAACCAGGGCCAGACCCCAAGTCTCCC
GATTCCGGGTCCAGGACACTTTCCACCATATCATGCTGCCTCTTCTGAGAAGCCTCCCTGGATTTCCCCTGGTGCAGAGTTAGTTCCTTCCATCTCAGCA
GTTCTCAAGGCCCTTGTGCACRCCTGCTCATTTGTGCTTGGCGTGTCATGTGATAACTGTTGATTAACCTGTTGGTTGCTCTGACCAGTGGGGCTTCCTA
GAGGGYGAGACCTGTGTCTGATTCCTTTCTGTCTTCCCAGCACCCAGTGCATGGCATGGGTGGAGTAGGTGCTTACTGCATGTGTGCGGAATGAATGAAT
GGGAGAGAGGGAAAGAGAGAGAGAGGCAGGGAAGGGAAGGGGGAAAGAGAATGGAGGGAGGAAGGAAGGGACGAATCTGAGAGTAGGGGTGGCTGGGTGT
GGGACATGAATGGTGGGAGTCGGAGGCAGATGGGGACAGCCACCACCCAGCTGATGGAGAGAGAAAGGCCCTGGAGAGCGGGGAGAGGGTGTGGGGGGCC
CTGCTGAGCCCCCTGCTGCTGGCCTGCGTTCCCAGGAGACCTGCTTGCCGCTCCTGGCCCCTGACCTGCCTCCCCTCTCTCCCTGCAGGAGGTGTCCTGT
GGGACCTGGAGAGCCCTCCCGTGTGCCTGACTGTGGGGCCCGGGCCTGTCCGCACCCTGTTGAGCCTGGAGGATGCCGTGTGGGCCAGCTGTGGGCCCCG
GGTCACTGTCCTGGAAGCCACCACCCTGCAGCCTCAGGTACTGCACTATCCTTTGGCTTGTGGCCCTGGAGGCCTGCCTTCCTTTTGCTGACCCTTTCTT
ATGTCCACCCCGGCACCGCTTTCAGCTCCCAGTGGCATTCCARGGATCGATTGGGCAGAGTTTGTCCGGAAGCAGAGGGGGCCCAAGGTCCCTATTGGGC
CTGACCTCTTCCTCTGCCACACATCGCCAAGGCTACCAAGAACAGAAAGTGCCCAGCTGCACTGCACTGTGGCCTGGATCCTGAGTTGTGTCGGTTGCTG
CCTGTGGAAGTGGGATTGGGGTCCCTGTCCTTGGACTGGTACCCAGGACTTGTACCCACAGAGCCCGGGCAATGCTGAGGGTGTGGCCAGGGTGGATGCA
GCCATCCGCTGGGCTCTTCAAACCACATGGAGGGAGAGGCTGCCTGGGTCCTGCCTTGCCCTGGTTCCAGCACTGCCCATGCCTTGGCCCCCAGGATGAG
GGACTGGTCTGGGGGGCTCRTCCCTGGCTCAGCCTAGGCCCGTGCCTGTCTCTGACCAATAGCACTGCCCGCTCACCTTCACACCTGCAGTCCATCCTGG
GCGGGAGACTCAGCATGGTTCCCCAAGAGGTATTTTGGTGATATTTGATTTGTTTGGATTATCGATTGCAATGAGTCGCCACCTGGCCTGGAGTGGAGCT
CTCCCAGGGCGCTCCCTCATGAGGGGCAGTCTTCATTCGCCTGCCTAGTTCTCTCTCATGCAGCTGTAAATCAGCTGCTCAACAGCCTGGCAGAGACACT
AAGTGGAGTCCTGGGATCTTAAGAGCACAGATGATCAGGGCTGGGCTCCAGATGACACAACTCTCATTTGACAAAGGGGGAAACTGAGGCACGGGGCCTT
ATGGATGAGCTCTGAGACTGGGGGCTGAGTCTGGGGGATGTGGTCCGCCCCTTTCCCTGGCTTGCTTTTCTGGTGTTGTAGCAGCACAGAGGTGTTGTCG
TTGGAGCCGGACCTACCAGACCGTCTTTCAGTTCTGCCACTTACATCTGGGCGCCTCTGTGCTGGCTCCCGTGGGAGCACGAGGCTTCCAGTCTGTAATG
GGAATAAGTGTCCCGTTCCTGGAATCCTTTTCCTTACTGTATCAGTCAGGGTTGTCCAGAGGAACAGAACCAATGGAACGTATGTGAGTGTGTGTTTGCG
CAAGTATATGTATACACACGTATATAGAAAGAGACTTATTATAAAGAGTCGGCTCATGGGGTGATGGAGGCTGTGAAGCCCCAGCATCTGTGGACAGCAA
GCTGGAGACCCAGGCGAGCTGCCGGCATAGTTCAGTGTGAATACGGAGGCCTGGGAACCTGTGAGCCGGTGGTGTGCCTTCCAGTTCAAAAGCTGGGAGA
CCTGAGACCCCAAAAGAGCTGATGCTTCAGTGTGATTCTGAAGGCAGGAAAGAACCAGTGGAAGGTAGTCAGGCAGGGAGCGAATTCTCCCCTCCCAGCC
TTTTCCATTCAGGCTTCAGCAGATTGGGTGAGGCCCACCCACACTGGGAAGGCCATGTGCATGACTAARCCTACCATTCAGATGCTAATCTCATCTGGAG
ACACCCTCACAGACACACTCAGAGCCACGTTTAACCAAATATCTGGGCTCCTCGTGGCTCAGTCAAGTTGACACATAAAATTAACCATCTCTCATGGAGT
GAGATGATGCTTGGAAGCCATGGTACCTGGCCAGTTGCCAGCCCAGGAGATAATTGATCAGCAGCTCTTCCTGGGTGCTGGGAAGGGGAGGTGGAGTTAC
CCAGCCCAGCTCCTTAGACAGAAGGGAGAGGCAGTGCCATGTGCAGGACCAGTGGGTGAGCTTTTGCTCTTTTGAGGAGCAGGGGCCTGGGGGCTGATGG
TGACTCTTGGGCTGGGCACCCTTCATGGGCAGCATGAGCTCCAACCTCATCTCCTGGACTCATGCCAGGACCTGGCAGTGAGGACCTTTAACCTCACTGG
TGCTACTGGGCTGGGCCAAGGGACAGTGAGACACCAACAGGAGGGAAACTCCTGCCTTAGCACTCCYGGTTCCTCGGTCCCCTTTCTCCCCCAAGAACAG
CTGGAGCAACTGCAGCTGCAGACTCCCTTCCCAGCCCCTGGTTCATGCTGGGGGCTTCCCTGCTATCCCCCCAGCCCACCTCACCTCATCCCTTCCCAGC
CCCTGGTTCATGCTGGGGGCTTCCTGCTCTACCCCAAGCCCACCCCACCCCCTCCCTTCCCAGCCCCTGGTTCACGCTGGGGGCTTCCCTGCTATCACCC
CAGCCCACCCCACCCCATCTCTTTCCTCCAAGGGCCTTGCACTTCCTTGGCCTTCTGAGAGGAAGGTGAGCGAGGAGCACTAGCTTTCCCAGGCCCTTTC
GGGTCCTCTGACCCATCTGGGTCTCAAGCCAGGAAGGACATGTCTGACCCCTTGGCCTGCCTCTCCCAGTAGCCCCCAAGTGTCTGAGCACTGTCCTCAC
AGCAGGTCTGACTGCTCTGCAAGCGGTCTCCTGCAGACCCCCTAGCACAGCGTCTGACTCAGCCCAGGAGTATACTGGTGGACAGGTGCTCGGCCTGTAG
GCCTAGTGTGCTGGGCGCCCATTCAGGGCAGTGGTGTGAGGAGGAAAGGAGGCCCAGCCTGCTCTGGGGGTCTCCAATCTGCTGGGGGAGACCCAGCCCT
TGGGGCAACCTTCAGTCTGATGTGGAAGACACAGCCTGTCTTTGGAGGTGGGGGCTTCAGTCTGTGGAGAGAGACACAGCCTGCCCTTGGAGGGCCTCCA
GTCTAACGGAGGAGGCACAGCCTGCCCTTTGAGGGCCTCTAGTCTGATGAGGGAGACCCAGTCCCTGTTCTCAATATTGGGGGGAGTGGGGCCCGAGACA
GGAAGAAGCCGAGAACAGAGAAAGAATGGGATGGGAGGGTGCAGGCCCTCAGCCCCCTGTTGGTCAGAGGACATTCTCTCAGTGCTGCCAGTAGGAGAAT
TGGGGCACACCAGGTAGGAGGCAGCTCAGGAAACAGGAGGCAGGGTAAACTGAGAGGGGTTTCCAAGGAAGAATCTTTTAATGAAAGGGTCTGGAGGGAG
GGGAAGCCAGAAATTACAGGCAGGGGCCTGCGAGAGCAGAGAAGTGGCTGCCGGCTGCTGGCAGGGGAGGTGTGAGTGGCRCGGCCCCAGGGCACAGAGC
TGCCCCTGTGAGCTGGGCCTGTGGGGCTCCTCCCAGGCTCTTCAGGCAGCTCAGGAGCACTTGAGACTTCAGGAGTGGGTAGGACTGGGGAGGCGTCATT
GAAGACAGCAGCCCTTGCCTGTGTCCCGGCCACTTCCAACTCCGGGCAGCTGGCACCCTACCCCCTTGGAGGTGTGCAGTTGGAGAGCAGGCTGCTTCAG
ACGGGACCGTAGCTGTGCCCCTGCCAAGCTATGCAACCTTGCATAAGTCATGGAGCCTTCCTGGGCCTCAGTTACTTCATCTGTAAAATGGAATGAAAAC
AGTACCAGTGGGGAGTTAGCAGGAGGACAAACCGAGAACATTCAAGCGAAAGGGCCGTTTCACACGGTCTTGGCACGTGGCGAGGGCAGGGTGAACATTA
TTTGCTGTCATTGTAATAATTTACCTATCTTAAATCCGCATTGCTGTATATGTCGTTTATTTGGAAAATCAAGCTGCTCCCGGGGTCGGTGTTGTCAGTG
GGTGTGGGGCATCGAGCCCACACTGCAGGTCTGCCATCCTCTCGCCTCACTGGAAGACAGCCTTCCTCCTGCCGACAGCTGTCCAGGAGCATGGGAYGGA
TGGCCAAGGGAAGGACAGGGGCCCGGGTCAGGCCCTGCCTGGCTCTCACCTGTTCTTGCCCCTTGCCAGCCGTAGTGCAGTCAACTCCCAGCCCACAGAG
CTCAGCTCTGGCGTGACCATCCCTGGGGCCCCAATGGCCACCAGGCTACAGCACGAGGCTGTGATGATTTAAGATTAGTTCTGGACCAGCTGCTGTAAAG
AAGGGGATCAATATGGCCTTTCACCTGCTTTGCACACCTCGGGGGCATCAGGAGGGCTGTTGGCTGGAGGGAGGCGAGATGGAGGAAGGGGTGGCCAGGG
AGCCTCTGCAGCAGGGGCCAGAGGGAGCACACGCCCCCATGTGCAGCCAGGGAAATGGAAAAGTTTCTGTTCGCTGCGCGGTGCGGGCAGCTTGCCTTCA
GTACACACAACCATTCGGCACAGTAACAAGGTGATCGCTATGCGTATTTAATAAGCCATGCTCCTGCTGCTTGGAATACAGGGGAAGCCGGCTCCACCTT
GGCGCTGGAGATCTGGAAATGGCTCCGTCTGGTTGCTGCTAACGACTGCTTGACCTGCTCCTGGGCTGCCCGGCTCCACGCTCACCACAGTGGCCACTGC
ATGGCCAGCCAGGCCTGGGGGAGCCGCCTGGAGCCGGGGCTGCTGCTGCTCTCTCACTGGCTGTGGTCTCGTATGTGTGCCTAGGGCTCAGCATCTGTGG
GCTGTGCCTCGCGTGTGATGTCTGCAGCAGAATGCCTGCCTTCAGAGGAAGGGCATTCCTTGCTGGCAGCCATGTGGCAGAATCTGCCCCAGGCTTGAGA
AAACCCCCTATGGGGTTTGAGATTCTTAGAGCCGTTCAATGCTCCAAGCCAGGAGACCCAGGCATGTGCTTTGGCTGAGGTTGTGGCTAGCATGGCCCAG
GACCAAATGTGAAAACACAGGGGCTTAATCTAGGACTGTGTTACCTCTAAGGGGCTTTTTCTGACTCCTCCCACCCTCRGGAAGTAAACCAATGTATACT
GAGCGATTCCTTTGGACCAGAAATGAGTTTTGCGCTTTACCTATAGGATCTCATTTAATCCTCAAATCACGCTTTGAGATGAATACGATTATTCCCACTT
TACAGATGAGGAAACAGAGGCACAGAGAGGTTAAGTAACTTGCCCAAGGTCACACAGCTAGAAGAGGCAGGGTTGGGATTTGAACACAGGCATTCTGAGT
CTTAACCCCTGTGCTTAACCCACCCACCTTGGTGGGCAGAAGTCTCAGTTTCCTTGGGGTGCCTGGGCCCCCCAAAGCTTTCTGTCTGCGTCAGATGTAA
CTCCCAGGAGCTCCTCTTGTTTCCATGAGCACGCCTTCCGGGCCGAGGACTGTGTTGTGTTCATCTTTGTTTCCACAGTGCCTGGATCACTGGCATCTAG
CAGGGGCTCCCAATTCCAGGCTCTCTGTATGAGGTGCTGGAGGCACAGAAATGAGCAAGGTGGGCTCAGCAGTCCAGGAGCTCGGAGTCCAGTGTGCAGA
GACAGAGCTGGGACTGTCAGCTTCCGCCCAGTGTCATGAGACCAGGGACAGGGAAAGCCCAGGGGAGGCGGGATCCCAGAGGAGGCGAGAGGGGTGCCAG
ACCCAGCTGGACGCAGGACAGGAGCAGGAGACAGTTGTCTGGAGGCCAGGATCCCCGAGCTCGGCTATGCGGGTGAGTTGGTGTGTGACTATGAAGGAAG
AGGGGAAGTGATGTTCTGGCCAGAAGAAAGCACCGCGAGCCACGCCTAGGCCAGAGGCAGCCCGCAAGTGGCCAGAAGGCCTCCAAGGGTGGGGCGCCTG
AGCTGAAGACTGCCTCCCTGAGGCCCACATGGCCTGGACTCTGCGCCTTGTCCAGCTGGTCCCTGCTGGGCTGCCTTGACCTGTTTTGTGCCACCATCCC
CTGCAGAGCTGGCACCCGCGGTCTGTCTCTGGGTTTTACGCTTGCCCACCAACTGCTTGTTCAGCTCCTTGATCCCAGCAGAGGCAGAAGCGAGGCCTGT
TAAATAATAATGTCGCTCACCGGGGCCCGTGTCAACACCGCGTCCTCCGCGTTCATGATCTAGATCGCACCGCCTTCAAAGTCTAATCCAGTCGTTTGGA
GTTCATTTTAACCGATTGCTGGAGGGGGAAGCTGGCTGTGGGATGATTGTTGCATCTTAATTTAAAAAAACTTATTGGGAACAGGCTGATAGCAGGCCTG
CGGCACATGAGGTGTGCTCGGCTGCATGGAGGGCCAGTGCCCTGCAAGGCTGCTCCCTGACAAGGTGTGAGCTGGCGTCTCTGCCACCCTGGCTTGTGGG
AGGACAACAGTAGTGACAGCGTGGGGCGTTGGGGACCCGGCTGGGCTATGAATACACATTATGCTATTGGATCTCCGCAACGCTGAGGAGTGACCCGCTG
GGCCCATTTTACAGATGGGGATGTGGACTAGAAGCCAGGCCCTTTGGCTTGCAGTGTGCAGCCATGCTGGCCCCTTCCCACCACCAGGCCTTCACCTCTG
TTGTTCCCTCTGCCTGGAGCACTGTTCCCCTCCTGTGTGGCTCTTCTTTAGCTTGGGTCTCGGCTTAACTGCCGCCTCCTCAGTGAAGCCACCCTGACTG
CTCCAGCCGAGTCATCCCTACCCCTTCATGGTCTCAGCACATCACCCGGCTTTATTGCCTTCAGAGTGTTGGTCACTTTCTGCAATTATCTCCTTGAGTG
CAGTTGTCCGTCTGCACCGGCGCCTCACTGCCTTGTTAACCAGTGAGTCCCAGGGCCGGGCACGGCGCAGCCTCTCAGCCAGTTAGGGGTGAGTGTGCCG
GCACCTTCCTCCGCCACGGCGGAGCCGCCTGTGCAGGGCGGTCGCAGGGCCCTCGCAGGACTCTGCAGGAAGGTGAGATTCGGGGGGTTAGGCATTCTTT
CTGCGCTGGGGCAGTTAGGGAAGTGTCCTGGGAAGAACTGTGCCTTCAAGGAAGTAGGGCAGGGAGTCCCCTCCCAAGAGAAGGGAGGGAGGAATTCGCA
GAAGGGGCTTGTCCAGAGGGTCTGTGGCCAGTGGGGATAGTCCCTGCCTGGATGGCAGCCGGGGACAGATGGACAACAGTGTCACTCAAGGGTGAGAACC
CTGCCTGGACCTGCACCCGCACCAGCCTTGTGGTGTTTCTATGGCAACCCCCTTCCCCCAAGCAGATTTTCAGCCTCCCTGGTGCAGTTGCAAGAAGCAC
AGGCCTGGGTCCTTCCTGGAAAGTGCTGGAACTCAGGGCAAGTGGCGTCAGCATTTGGACCCCAGGCCTGGTTCCTGCCTTGAGGGGCTGTGGTGGGGTT
AACTGGGGCAGCCCCTCCCCCATTAGACCCGGGCTTCCCATCCTTGGAGAAGCCTGTCTGGACCATTTCACCTCCTACATACACCACAGCTACATGCTGA
CATCCTGGGGCCGGTTATGGGATTAACCAGACTGAAGCTGAGTAGGGTGGGACTGGGCCTGGCTGGCTCCCATTGTTACCATCCTATCCCCATGGCCCAA
GGCCAGGCCTGACGCAGAGCAGGTGCTCAGTAAAGGGTGGTTAAGGCCAGAAGCCCCTCAGGGAGATGGGCTSTGTCTGTAATGTTTCCCCAAGTGGGGG
GTGGGGGCATTGCAGAGCAGCTGACCGAGGCTTGGTTTTAACCGGCTTCGGAGCATGAAGGTGCTTCCTGAAGCGCGTGCGGTCAGCAATCTGCTCTGCA
TCTGATGCCTCCTGCCGGTACCTCTGCACTGGCCTCTCATACCGGCTCTCATGCTTTTTGTCCCTAAGCAGGACAGAGAAGAAACTTCTCTGGGCTCCTG
AACACCAACAGCCCCTTGATTTCCCCTGCCCACCCCCCGCCCCAGCCGCCTTCCCCACCCTTAATTTTCATGTTTAGTGCCTAAACTTAGTTTGCATGTA
TTAGCTGTTGTAAATCTATCATAYGAGTGTGATGCGGCATGAATAATGCATCACTGGGCTGTATTAGTTTTCTGTCTCCTATCTTATTTATGACATGAAA
CGGGTGGGAATTTGCAAAAGAGAAATTCAGGCGCARGGCTTCTTGGGTAATGGTATGCAAATTGGCGTGAGGGTGAAAAGATGCACCAGGCCCTCCCAGC
GCCCAGGAGCTGCCGAGGAGGAGCGCCTGGTGTCTGGGCCACTGCCAGAGCATGCAGGGTCTCGCGTCCTATCACTGCATGGAGTCGGCTCTGCTCGGCA
GTTTGTCTTAATTTTTTTTGTTAATGTGTGTGTCATTGTGGTTGTCACCCTGTTATGTTTTTTAAATTAAAAGTTGGCAAGCAAAACTTGAGAAATGGAT
TTTCTAAAGATTGTGGAGACTTCCCAGGAGGCTCCGACAAGAACAAGTTCACAAGGAAGATGAGTGTTTTCCAGCATCAGGAAGGCTTGAAGTTAGATGT
TCAGAAGGACTCCCTTTCAGGAAGTTTGTGARGCATGGGAGGTAGGGGTGGGTTTGGGACCCCATAGGGCCTTCTTATGTGGAGGGTCAGAAATAAGTTG
GCTGGTTGCAAACTCGGGCCTGGAGGGGGTGAAGAGCATCTCAAGGCATGTCTTGTGGGGCAGTAGATGGCTGAGGGTCAGGCCTCCAGGCCCCTCTCTC
CTCACCTGGAGGAGCTCAGATCTTTCCTGTGTCTAGCACTTGGATTCCCCCCAACCAGAAGATTTAGGTGATGAAAAGATTTCATGATTTTAAAAAGAAG
TTGGTCGCTGATGGCTCAGGGAACAGGCTTGGTGAAGCCTGACCTGGAGCAGGAGGGAACCTGGAGGAAAAAGGGAACCGGTACAGGGAAGGCGGATGAA
CAGACATCGTGGAGAGGACATATGGGACGGGAGGTGAGGAAGGGGAGCTGGCACGGCAGGGGCAGTCCTGTCCTTGTGAGCCACCCCCCAGTCTTAGCTG
GTAGCAGCCAGCCCCCGATCCTCGCCTCCCCTCCACTCTGTGTGTCTCTTCCACATCCCCCTCCCCTCTGAGCCCGGCAGCAGGGAGAGGGGGAGGGCAG
ATGCCCAAGGGGCAGCTGCCCAGTCCTTTTGGAACTTGGCAAGGAACAAATAGAGCCATGGACATGGATCCGCTGAATGTCAGCTGCTAGGCTGAGGGCT
TAATGCAGTGGAGGTCAGGCCCTGGGTGTAATTAGGGAGGCTCCCTCCCTGGGTGGTTGGGAAGAATGAATGAGGTCACATGTGCAGAGGRTGTAGGCTA
GTGCCTAATGCACACTCAGGCAGAGTGGCCGCTACGCAATGGTCCTCTGTGAGCCTGGCAGCGGGGYAGCAGGGAAGGTCCACAGGAGGCAACCTCTGCA
GGAGGCATTCCCGGCTGCCCCTGCATGCCTTGTCTGAGTGGGCTTGGATGGTGGTCAGTGTGGGCTCAGGGGCTGGGTTGGCTGGCCTTCCCACTGATGG
CCTCAGTTTCCTTCCTGTAAAATGGGGGATAATTATAGAACCTGCCCCAGGACTAAGCAGCTCCGTGTACATGCAGGTCCCAGGGCTGTGCCTGGTGGGA
GGAAGCACCACGTGTCAGTTGTTGTGTCATTGTGGTCACAGGACTTGCTCAGGGTGACTGGGACCACACACTCGTTGGTGGAGCCAGGATCTCAGGGTGC
CTCTGATTCTGAAGCCCCCACCTGGTCTGCCGTCCTCTGCCCCATCAGCCCCGTGTTCCATTGGGTCTTGTGGGTGCGTATGTCCGCACCATCCTCCCTC
CAGATGGCAAAATATCTGTGAGCAGGGCCAGTGTCTTATCCTCTCTGTATTGTCCTGCARTGCAAGTACAGGCRTTGACTTGGCTTCTCTCTCTCCTTTG
CTTTCTTTCTCCCCAAAATCTCCCCTTTTTTCCCACGCCAGCTCTTCCCTTCTGCCTGACCCTGAGCCTTCCAGGGCTCCAGTTACCCCTGGGACCCTTG
GTCCATGGTGTTTACATGACTAGTGGGCCCTGATTGGGGCTGCTGACCACAGGTGAAGACCGGGATCTTGGCTCCTCCCAGGTACCTGGGGAGAGAAGCG
AGCTTCATAGAGTGGGTGGTGACACCAGCCCAGTGACAGCACAGGTCCTGCAGAGCAGGTGCCCCAATGAGGGAGTCTCACCCACAGGAGAGGATGCGGG
TCAGCCGCATACACGTGCCCAGCYGTGAGGCAGACACACCTGCCACTGATCCGAGGAGCCCAGGAAGGAACCCAGGAGGGGAGCGAGAGAGGGGAGTGAG
AGCGGGGTGGGCCAGGCTCTCTGGAGGGCATTTAGCGGGAGGGCCCCTGAGAAGCGTGAGCTGATGCCTGTGCATGCCTGTGAGAGGGTGGGAAACTGGT
CAGTTATATTAACATARTCACGTGCTGCATAGTGACTTTCAGTCAACAACAGACCACACATATTATGATGGTCCTATACGATTACAATACAGTATTTTAC
TGTACCTTTTCTATGTTTAGATATGTTCAGATTCACAAATACCATTGTGTTACAGTCGCCTGCAGTGTTCAGTACCGTCTCATGCTGTACGGGTATGAGG
CCTAGGAGCAACAGGCTGTACAGCATGACTTAGGTGTGCAGTCAGCTTTACCGCCTAGATCTGTGTAAGGTCACTCTATGATCACATGACAAAATTGCCT
AATGATGCCTTTCTCAGAACGGCATTATTCCTGTCGTTAAGCAACACGTGGCTGTATCATATAAGTTCTTGACTGTGGCTTGAGTCTTTTGGGCAATGTC
CAGTTGGGAGCTGGGGGTCTGATCAAGCCTGGAAACCCCAACTCTCCCACTCCCCCTCCCCAGCCCTACCTGTTCTGGGTTGGTCCCAGCTTTGTGTTGG
TCGCATCAATTCTGACCTTTCTTGCCCAACACCGCCCAGCAGTCTTGGATGTGGATTTACATGTGGAAACAGAACCACCCTTCCCTGCAGTTCTCACAGC
CTATGTGGGAAGCAGGGCAACCGCCTTGGCTGAGCCATCCCACCCTGTGGCCTCCCCACCTCCCCGCACTGTCACCAAGGGGAACTTAGAGTCTCAGCCT
CAAGATGTTGGTGATGCCCCCTCTGGCTAAGCACGGGCAAATGGGTGCTGAGCAGATACTGTGCACGTATGGGTGCAGGTGTGGGTGTAGGTGTGGGTGC
AGGTGTGGGTACAGGTGTGTGTGCAGGTGTGTGTGTATAGGTGTGTGGGTACAGGTTTGTGTGCATGTGTGGGTGCAGGTATGGGTGCAGGTGTGCGTGC
AGATGTGTGTGCAGGTGTGGATGCAGGGATGTGTGCAGGTGTGGGTACAGGTTTGTGTGCAAGTGTGGGGATAGGTTTGTGTGCAGGTGTTGGTGCAGGC
ATGGGTGCAGGTGTGGGTGCACATGTGGTACAGGTGTGTTCAAGTGTAGGTGCAGGCCTGTGTGCAGGTGTGGGTGCAGGTGTGTTCAGGTGTAGGTACA
GGCATGAGTGCAGGTATGGGTGCAGGTGTGTTCAGGTGTAGGTACAGGCATGGGTGCAGGTGTGGGTACAGGTGTGTGTTCAGGTGTGGGTGCAGGTGTG
GGTACAGGTGTGGGTGCAGGTGTAGGTGCAGGCATGGGTAAAGGTTTGTGTGCAAGTGTGGGTACAGGTTTGTGTGCAGTCATGGGTACAGGTGTGTGTA
CAGGTGTGTGTGCAAGTGTGGGTGCAGGTGTGTGCAGGTGTGGGTGCAGGTGTGGATGCAGGTATGTGTGCAGGTATGGATGCAGGTGTAGGTGCAGGCA
TGGGTGCAGGTGTAGGTGCAGGCATGGGTGCGGGTGTAGGTGCAGGTGTACGTGCAGGCATGGGTGCAGGCGTGGGTGCAGGTGTAGGTGCAGGTGTAGG
TGCAGGCGTGGGTGCAGGTGTGGGTACAGGTGTAGGTGCAGGCATAGGTGCAGGTGTGGGTACAGGTGTATGTTCATGTGTGGGTGCAGGCGTGGGTGCA
GGTGTGGGTGCAGGTGTAGTTGCAGGTGTGGGTGAGGTGTAGATGCAGGTGTGGGTACAGGTGTATGTTCACGTGTGGGTGCAGGCGTGGGTGCAGGTGT
GGGTGCAGGTGTGGGTGAGGTGTAGATGCAGGTGTGGGTACAGGTGTATGTTCATGTGTAGGTGCAGGCATGGGTGCAGGTGTGGGTGCAGGTGTGGGGT
GGTGGAGGGCCAGGTGAGTTGTCTGGATTCCACCATTCAATATCATGCAGGCGAGGCCTGCAGGCTCCATGTGGCTCCCCTATGCAGAGCTCAGAGCAGA
GCAGGGCAGCCACAGCCAGTGCCTGGGGACGCTTTCTGGGCCTCATGCTGAGGCTTGACTGCTATGAGGCAGACGTGATAGAACAAAGCTCCTATCACAT
CTGACCCTGCATCAGAACTATCCAGGTTGCCTGTGGCCCAAAGTCAAGGCCCCCCAGGCTGCACTTGGTCGATATCCCCTGGGTTCCCCTTCTCCAGCCA
CTGGACAGGTCCCAGTCCCCTAAAGGCTCTGCCTGAGCACTCTGTTCCCCCAGGCCTTTGCACCCACTGCTCTCCCTGCTGGGACTCTCAGGCTGTCTTC
TGATTGGGCAGAATCTTCGTGGTCACTCTGACTTCCTGCCCCTTTCTCCATGGAGCCCAACTGCCTCCACTAGTTCTCCTCTGGGCTCCCTTAGTCCTCA
CTCCCTCCTCCATCGCACTCTCTGCATCGGGCCGTAAACAGGACTCTGGGCATCTCCCTGGCCGTGCTGTGTCCTCAGGGCCCGGCAGGCATGGACGCTC
CATGAGGTTTGCTGAGTGAGCTAGCAGGACCAAGGAAAGGAGATGGGCAGAGGCAGTCGCTTGCCTGCGATCAGCAGGGCATAGGAAATCCCTTTACGTC
AGGTGAGGAGCCGATAGGAGTTTTGACTCCTACTGTGTGCCGGGGGCTCAGCCAGGGACCTGATTTTGCCTTCAGTGCTTCACTTTCTAGATGTTAAATG
AATCCAGAGAAACAACCCTGACTGCACCTGCTCACCTGCACCCTCGTGCACGCACAGGCGTTCTTTCTTCTGCCTTACCTCTGTCTGTCTGTCTCTCTTT
CAGCACTCACTCGTCTCTTCCTCCCTGGTGGTCTGGTTTGCACGCTCACTCTCTGCTGATCTCAGCTTCTAACTCTGTATCGGTGTCTCCTTYGATCGGT
GCCGCCCCGGCTCTTCCAGGCCTTCTGGCCCAGGGTGGGCACTGGCTGGAGCTTTAGTCCCTGTGCTTGGCACTGGGTTCCAGCAGCAGCCCCTGCCCTC
ATGGACCTGCCTCTCTGATATGGGCATGGTAGGGGAGGGAGATCAGGGGGGGAGAGACCACCACCATCCACTTAATCTGTATTAAGACTCATGGGTCCCA
GAGGCTGCTTTGAGCTCTCCATTAGCAGCAACTTGAGTCATCTTACGGCAGCTCTGTGCAGTAGGTACTATTAATATTATCACACCCACTTTAAAATGGA
AGAAACCAAGGCAGGAAGTGGTGGGGTCAGGAGCTGAACCCTGTAGGTCTGCCTCCGGGCCTGTGGGTTTATTGTTTCTTGCAAATAGCGAACAGATAAC
AAGACAATCCCAGGCCACGGTGAATGTCATGCAGACCCAGGCTGGGCGCCATCACTGCCTGCACTGGTCACTCCCCTGCTGGGCCTCCCTGTCCTCTCTG
ACTAGAGGCTCGGTGGTCCCTCCTTCCTCATGGGGGCTGCGGGTGAGCTGAGCTGAGCTGAGCTGAGCTGTGGGCAGCCCAGCACGTGCAGGAGCCGGAA
GATGCCTGGCCCCCTCTCTATGGCTCAGTCTTCACCGGGTCCCCAGGGTGGTGGGCAGGCACAGGCACTAGCTCAGCCCTGGCACCTGCTTGTACAGGGC
AAGGTTGGAGTAGCTGCCAAGGGTAAGACTCGCAGCAAAGGTGGTTGCTGGCCCCAGGTGACCCAGGTGGCTGGCTGCCCAACCCTCCGTCCTAAAGTGT
CGATGCTGGAGAAGAAACACTAGGCTGGCTGTCATAATTGAAGAAAACAAAAGGAAATTAAATAGGACTAATGAGGAGAATATCAATAGCCCATACTTCA
AGATGCTTTTTCTATTCCACTTCCTCCAGAATAGCCAGGTGCACTGATAGATTTCAGGGTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTTGTTCTTGTT
GAACAGGCTAGAGTGCAATGGCGTGATCTCGGCTCACTGCAACATCTGCCTCCCAGGTTCAGGCGACTCTCCGGTCTCAGCCTCCCAAGTAGCTGGGATT
ACAGGCATGCGCCACCACCCCTGGCTAATTTTGTATTTTTAGTAGAGATGAGGTTTCACCACGTTGGCCAGGCTGGTTTTGAACCCCTGACCTCAGGTGA
TCTGCCCACCTCAGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCGGCTGGATTTCAGATTAGTTTTGTTTTTAAAGGCAAAATTTTGG
CACAGCCAGGTCAGGACAGCGTTCTCTGCAGTGGCACTTTCTGTATGCCTTGGTCTGGGTTTTTGGGTTGACACCAACATCTGTGTCCACCTTCTTGTGT
GCTTAGTAACAAGTAGGCCTTACTGTAGGAATTGTTAACTTTTTCGGAGGTAGGCAAGGGTGATTTATAGACCTCTTGGAAATGCTAGTAAAAATAGTTA
ACGATCTTTCTAGAAAGACACACCAAAAATACCAAATTTTGTACAATCAATTCCAAAATGGATTGTTAAAGGAAATTTGGGGTCTGGCCACCAGTCTTGG
AGCTGGCAGGACGTCCATCGCTCCATCCCTTGCAGGCTCCCATGATGGCCCTGAGCTAGGAGAGTCCAGCATCCAGTGAAGTCTCTGCTCCAAAGGATGA
CCTCACACCCACCTTACAGATGAATGAACAGAGTCCCAGAGACCTTAACCAGTTTGCTGGGAAGAGGTGGACTGGTCGTTGCACCCGGAGCCTCCCTGAG
AAATGCGTCAGGCAGGGCAGATCTGCTCCTGGTGCACAACCTCTTGGCCTCAACCAGGTCAGACTCTGAGGGCAGGAGTGTTGGGGAATCAGACAGAGCT
CACAGAGAGGGATCCATCCATGGCTTGGAGGCTGAGTATTGGCACTGGAGTCCCGTTAGGGTGACCAAGTGTCTTGGTTTGCCCAGGATTGAGGAATTTC
CTGGGTTTGGGGCTTCCAGTGCCGCAGCCTGGACAGTCCTGAGCAAACCGGGTAGGACTGGTCACCCTAGGTTTGAATTTGGCTTTCCTCCCATGTCCTA
AGCAGCGCGACTTTGCACATCATTTAGCCTGTCAGTTTGTTTCCTCAGCGGTAMAGTGTTGATAAGAATGAGATAAAGACAGGGAAGGGAGTTGTGCTAA
TTGCCTGTAGAAGATGGCCCTTCCACATGCTCAGTGCAGCCGTGCAGAGCGGACGTGACCCCGGGTCTGAATTCGCAGCCCTGCCCTTTGCTGGCGGGGT
GGCCCTGCACAGGTCATTTCTTGTGCCCTAGCTATGGGATGAGGATGGAATGGTGGCACCCACCTGCCAGGTGTCTGTGGGGATTAAAGGGAGGCAGAGT
AGGTGAGGTGCTTGCAGGTGATCGTGGGTGATCTCTGGGCCCACGACTGTGTCTCCCAGGGCCAGCTCGGTGGTGACTGGGCCGGGAATGGGTGGCACAG
CCCCTTCATGCTCACATTCAGCTCTGGTGCTCAGCGTTGAGAGTCCCCCATGAGACCCTCGGAGGACAGCATGTGAGCTTGGAGCGAGGTGCACGCTTCT
GCCCCGCCTTGCCCCACCCTGCCCCTGCCCCTGCCCTGCCCTGCCCCTGCCCATCTGGGCCACCCRGGGTTGGTTCGCTCTCTTTTCATAGAGTCTCCGT
GAGGTGGGACGCTGCGCGCACAGTGCCCAGTCAGGCATTGGAAAGTCCTGACACACGGTGGGTACCTGTAAAGTAGAAGCCCCACCAGCATCCTGCTGTT
TCCTCAGGAGCTGGCAGCCCCTGAGAGCCCCTGTGCCCAGCGAGCCTTCCGGCCCCTTGGCGACATCTCAGCTCTAATGACTTTGAGTGCTGAGCTGCTC
ACCCTGGGAATTTATGGAAACCATGCACAGAAGCGTCACCTGGAGGCACATAAATATTGTAGGACTGGAGGTTGGGCTGTGTCAGCACTATTTGGAGCAG
TATCACCCACCTGAAACTGACTGTGTGGGCGCCTGTAGCGGGTGGATGGGGGGCTGCAGGGAGGGGCTCCGTGGGCAGGCTCAGGACACACRGGTTTGTC
TCAGCTCACCTGGGTTCATTCCAGGTCACAGTGCGCCAATGCTCTCCCTGGAATCCTCACCGTGCCCCAGAGGCGTGTTCTCTTTTTGTCCCCGTGTACA
GATGACAGAGGAGACTGAGTCACTGGGTAGTGGGGATCTGGGAGCTGGAGGAGGCGGGCACAACCCCTCCCCTCCAACTGCCAGCTTTTTTTTTTTTTTT
TTAAATTACTTTGCCTTTTCTCCCATAACTTTTTTTTTTTTTGGAGACGGAGTTTCACTCTGTTGCTCAGGCTGAATTGCAGTGGCGTGATCTCGGCTCA
CTGCAATTTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGATTACAAGTGCCCACCACCATGCCCAGATAAGTTTTGTA
ATTTTAGTAGAGACATGTTGGCCAGGCTGGTCTTGAACTGCTGACCTCAAGTGATCCACCCATCTTAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGC
CACTACGCCTGGTCCCCCATAACTTTTTACTTTGAAAAATTTCARACTACAGGAAAGGTGAGAGAATAATACAATACACAGATATTCTTCACCCAGGTAA
CTGTTAACATGTTGCTACAATCTTCCCCCATATTATACATGCACAGAGACATACACCCACTTTTAAAAAAGTCAGTTGCAGGCATCATTACCCTTTACCC
CTAAATACTTCGGCATGTCTCTTCAACGTAACTGCATGGCATATCACACCCAGGAATTTAGGTCTATGCACTGATGCTATCTAAATACTGTCCAGGTACA
GGTTTTCCCAGTTGTCCCCAAAATATCTTTCAGAGCTACTCCCCCAAATGCCATCCAGGATCCAGCCTGAAATCACAGGCAGCCTTTGGTTTTCATGTCT
CTTAAGTCTCCTTTTAATCTAGAATAATCCCTTTGCTTTTTTGTTTTCTTCATGATATTGACTTTGTTGACAAGTCCAAGCCAGCGTCTCATAGAAGTTC
CACAGTCTGGAATTGCCTGGTTATTTCCTCCCAATGAGCTGCCAGTGTTCGGCCAGGTGCTGTGGGGCTGGGGGTCAGGGGAGCCCTACACCTCCCACAG
CAGTCCTCGGGGAGGAAGAAGAGCAGCTGGCCCCGTCCTGATCACTTGGTTAGGGTAGCGTCGGCTGGATCTCTCCTTCTAAAGGTGCTGGTTTCCCTTT
GTGATTACTCAGTCACCTTTGGGTGATTCTTGGAGACTGTGTGAATATCCAGTTCCTCCACAAACTTTCCCCCTGGGGCTTTGTCATCCATGGGTGATCC
TTGGTGATTGCTAATTCACCATTGTCTAATTCTGCCTTGCCTTCTGCATTGACTAGTTGTCACTAGTTACAGAGATTCACCTGACCCCACTCCACACCCT
GCCCTTACTATCACTACAAATTCCTAGATTTAAAAAAAAAAAATCCAGCGTGCTCTAATCAGGACCATCATTATTATTTTTGATGTTCACATTGTCTTGA
ATTTGGCCAGCGGGGACCCCTTCGTGTTGGCTCCTGGGTCCTTTGGACACATCCCCATTGTTCTTTGAGCCCTTCCTTGCTTTTCATCTGTGAGAAGTTC
TAGGCATTTCTCCAGGGCACCCTGGCTAGAGTCACTGCCTTCAGGCTCTTTCAGTGGACAGGGCCAGGGAAGAACTCTCGAGTTGGGGTTCGTTTTGATA
CCTCTGATTTAGATTTGAGATCCTGGAGTCTACCCTCGTCTCTCCCATTCCACACCGGACTCTCTTCTCTCTGTGCAAACCCTGGTTCCCAATAACATCA
GTGTATCTCAGTCCCACCACATAGGTTCAGAATCACTGTGCCTGCCCCACCACCTCCAAGCCTGCCAAGGAAGTTGAGGTTTCCCTTGCAGATCATTTTG
TCCTTCAGCAGGGACCAGGGGTGTACAGTTGGAATGCCATGATCCTGAGCTACTTGAATGGGTTCTTTTCTATGCGGATGTGACTGTGTTCCAATAAAGC
TTCATTTACCAAAACTGGTGCAGGCTGGTTGTAGCCTGAGGGGCATTGTTTGCAGACGGCTGCTCTAGTGTATAAACCTAACAGCACGGTTTCTGGTGCA
GGGTGAGCGCTCACCCAGTAAATAGCTGTGTCTGGATAATGGAGGCTGAGGGGGCAGGAAGCACTGGGCATTCCTGGTGGTGGGTGGGCAGGTGGCCTTT
TTCAGGGATAAGGGGGCTAGAGGCCTCTTAGAGAGTAGGACAGCCCCTGACCCCACCAACCCCACACTTCTGGGCCTCCCAGACCAGCCAAGGATGAGGG
CACAGGTCTGGAGGTGCTTGGCCTGGGATTGGGGTGCTGGGTGAGCAGGGTTTCACCCTTTYCTGGTTGGGAGGAGAGCAGAGTTTGATGAGCTGACAGC
CTCCCCTGGCAATGAATTCTGAGCTCTCTCAGGGTACGTGGATACCTTGTGTTTGGAAAATGAAATGAGCTGCATGGCCTGGCAGCAGCAAGACCAGTGA
GCAGTGAGGGCTTCCCCCCTGCTCTCACCAGGGTGCTCACTGCCCCCTGCTCTCACCGGGGTGCTCACTGCCCCCTGCTCTCACCGCGGTGCTCACTGCC
CCCTGCTCTCACCGTGGTGCTCACTGCCCCCTGCTCTCACCGGGGTGCTCACTGCCCCCTGCTCTCACCCGGGTGCTCACTGCCCCCTGCTCTCACCCGG
GTGCTCACTGCCCCCTGCTCTCACCGGGGTGCTCACTGCCCCCTGCTCTCACCCGGGTGCTCACTGCCCCCTGCTCTCACCGGGGTGCTCACTGCCCCCT
GCTCTCACCGGGGTGCTCACTGCCCCCTGCTCTCACCGGGGTGCTCACTGCCTCCTGCTCTCACCCGGGTGCTCACTGCCCCCTGCTCTCACTTGGGTGC
CAGGCTCAGTCCCTCAGCCCCCTCTGGGACCCGTGATCCTGGCATGTCTCTCTGGCTCCACCTACTCCCTGCCCTGTGGGCCCAGGAGGCTCAGGCAGGA
CTCCAGGCTCGTGGTGTGAGAAGGGGACCCAGGAGCCCAGAGGTAGCTGAGACATGCCGGGCTGGGGCTGGGGCTRGGGCTGGGGCTGGAGGTGCTGTGC
TGTTCTCCCTATTCATTCCTGCCCTTTCCCCCGCCSGCCTCCCCGCTTTGGGCTCAGCAGGTTTGCACAAGCCTTCTGCWAAGCCCTCTGGGCCTGGAGA
CAGACTTGTTATGCCACTGGAGAAATGAGCCTGGATTTCCACCACCGACTTCTCTTTTAATTAGATTCTGACAGCAGCACACAGGGTTGGCTGGCTGCAG
ATTCAGGTGCAGCTTTCCTTGGTCCCAGGCCTCTGGGTTTCAGTGCGCTTGGCTTTTTCGGAGGCTGAAAATACTTCTGACCTTTCTTCGGGAGTCGAGC
GGCAGGCTGGCTGCACGCGTGTGAGCATGCAGATACCTCTCTCAGTGTGTGCATGTTTGTGCATCCGTGAGCAAGGAGCTGYGTGCTGTGTTTTGGAAAA
GCCTGCAGACAAAGCATGTTGGGTCTCACTGACTGTCCTGCTACCCCATCCATTCGCCCCACTGCTCGCCGACAGCAGGTGCTGAAGGGGTCCCCTTGGC
CTCACTGTCCTCATCTGTGATTTGGGCTGATGCTGCCTCAGCTGGCTTTTCCCAGCAAGGCCTCATGGGAGGTTTCCTTCCTCCTGGATTCCTCCTACAG
GCTGGTTTGGCAAAACAAAATCATTCTGCATGTTTCCTTGAAGGAACATACATCGCAGGAAGAGAGAACTGAAAGCCAGGACGGCCCGGGCTGTGGGCAG
CAGATATGGGCGGAGGGCTAGAGAGATGGGGGCATKGTCTCTCCCCTACACAGCATGGACTACTAAACCTGACTTTGCACAGGCTGTGAGGAGGCGTGGC
CTCCTCCCAAAAATCAGAGGCTCTGAGCCTCTTGCACCTGGGCCTTCTCTGAGGGCCGGGAGTGGGTGGCTAAGAAAAGAGGAAGAGACCCCCGATACCT
CTGGAGCCCTTAGCCTGAGCCCCCAATCTGAGACAGGAGACAGTTCGCTTCCTCTGAGCATGCCCAGCTTGATACAAGATTCTGTCCTTGCTCTTGGGGG
GCCCCCACCCAATGGAGACACCGCACCCCTGCCTTTGGTGAACTTTCGGTCTGAGGAAACTACAGCTTCTGCTCTGGGGGCATCCCCCTGGTCAGGGGTG
GGCTGTGCAGTAGAACCCCTGTTCCAAGAGCAGCCTGACCCTGGGGAGAGGAACCACACTGCTGTCTCTTCTCCCCTCCCCTCCCCTCCTCTGGGGAGCC
TGGCCTTKCCTGCTACCCCTGCCTCCCTTGCTACTCGCAGCTCAGCCATCAGGGACTGGCTCAGAAAAAGCAATTTCCTTGGACAGCTCACAGTCTTGCC
CTCCTGGTCCCCACACTCTGATCAGGAATGAGCCCGGAGCTCACTGGCTTAGCTCCGCATGGAGACCCCCGCCCCTCACAAGCTTCCTTAACTCAGTGGG
AAACCGCTTAGTGATTTGAGCTGGGAAGGAGCTGGGGCCATCCTCCAGGGCAAAAGAAGCTGAGTCCTGTTCCTCCCTCTCCACTTGCTAAGCCCACGCG
AGGTCTTCGGGGGCTGGACAAAGAAGCCAGCCTTCCCCACACTGTTGTCAGACTGAGCTTCTTTAAAAGTAAAACTGACTCTGTCACTTACCAGCTCAAC
CCCCTCCAGTGGGCAAATAAAATCTAAACTGTTCCCCATGGATTCCAAGGTGGCCTGGTGCAATCTGGCCCTACCTGCTCTGGCCTGTCCCATTGCTGTG
CCCCCCACCACGGGTCCCTCTGCTTCTCATTCCTGCCTCCGGGCCTTTGCACTGCTGTGCCCTTTGCCTAGAATGCTCTTCCCCCTCCTCCCAATCATTG
AGGGGCTGTTTCCTCCCCATTATTCAGGTCTCTCACTAAATGTCACCTCCTAGAGACACCTTCCCTGACCCCAGTCTTAAWGGCTTTCAGTATTTTTTCT
GTGCAGTGCTTCTCACTATCTGATGTAATCTTTCTTTGTTTTAATTGCCTCCTGTCCTGAGAACGTTTGCCCCACAAGAGTGGGTCTTGCAGTCATCACG
ACATTTCCAGCACTTACACCCACACCAGACACATAGTAGGGACTCAAGAACATCTGCTGAATAAATGAGACCCTACTAGGCACTGGGCCTGTGCCAAGCT
CTCCTCACCCAGGTACCTGTAATCCTCATAGCAGCGTGTACTTACAATTGAGGAAACTGAGGCCTGGGCCTGTGAAGCTGCCAAGGAAGTCAGATTTAAT
AGCAGGTTGGATCTCAAATAAATGCCCCGTCCAGGATCCTCCTGCAGTCTTGGGCTTCCTCCCAGGACAAATTCTTTATGGAAAAAGGAGAAAAGCCAGA
AAACTGGAAAAGAGGAAAATCATCCCGTCCTGCTCCTGGAGTAAGCCTCAGGGTGCAGCTCTTCCTCCCCTGTCCCGCTTCTTCCCCCAGCTTTTGGTGT
GTTTGTTTTGTTTTGTTTTTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTTTTGCATTTTCTGTAGCATTCACATTTTTCTGTGTCTGTCATGCA
GTGTCTGTAAGTGTGAGTTTAAATGCAGGGAGGACAGTACAGAGCTGGATACACAGAGTTACCTGACTGTCCCCATGGCTTGGGGATTTGGGTTGTTTCT
AGTCTGCTGTGCCTGAGTTAGTGACATCTGAGTGTTGTAGATAGAATTCAAGTGTCCATCCATTCATTTTTTTGACCAAATTTTACTGTGCTGGGCCCTG
TGCCAAGCAGGTGACAGGCACTAAAGGGCATGAGGCCCAGGCTCTGTCCTTGGAGTCCACAGTCTTATGTGGGAAGTGGCCAAGTAGAACCACAGAATGG
TGTAGGTATTCCAGGCTAGACAGCAGAGCACGCCATTCAGAAGGAAGTGGCTGGTCCGTGGCGGGGTGGGGCCTGCCTCCTGGACTGAGGACGCCACTCT
GAAGTGGAGTCTTCAGATGTTGGAGGAGGACAGTTSGGGGGGGCAGTGCGTGCTGTGTGCAAGTCATGGCCAGGGCAGGGGTGCGGCTGTGTGGTACATC
TTGAGCATTGGCTGGCCTGAAACGTAGGGAGCCCACAAGGAAGGGCAGGAGTGGGGGCAGCACTGGGGCCCCGAATGCTGAGCTAAGGAACTTGGACTTT
CTCCTGCAGTGGATGGGAAGCTTGATCATTTGTATCTTCTTTTTTAAAAAAGTTTTTATTTGTTTTAAGATCAAAATGGTACATATACTTGCAAGAAAAA
AAAAAAAAGCATGGAGTGGTTTATCCTGAAAGGCTCGTCCACACTCCACATCTCAGTCCTGCTTTTTGGAAGAGAAWGCTTTTCACCTGTTCTTTTTTTA
ATCCACCTGGCACTTTCCTCAGGACCCAAACTTGTTCACTCTGCTGCTTCTTGATGTATCAATTTTGGGACATCACCTGTTGTCTCCTTGCTGTGAATGA
TGAGGATTTGGCCCATATTACCCCCGTTCCTTCCCCGGTCATTCTCTCRGTTGCCTTTGTCACTTTAAATCATTTACATAAACCACAACTTCTTTCATGA
TTTTCGGCTCCATCTTTCCCTTCCGTAAGGTAAAGCTCTGAGGGGCCACTGGGACCATGCCTGGTCCTGTCTGCTCGTGAGTGAGCGTGTGCATGTCTTT
CCTGCTCCTCACTCGGTGATATCATGCTGGTAGTTTGCAACTGGCCACGTTAGAATGTTTACACCACGGAAATTGGCAAACSCTGCAAACCAGGATTCCC
TGCCAGTTGTTAAACTTTGGCCAACACAGCACAGCTGGGCTTCTAAGATTCCAGTTGTTAAACTTTGGCCAACCTCATAGCTGGGCTTCTAATGTTCCCT
GAGTAGCTTGAGCTTTTGAAGAATGTGAGAATGGCTGGCCCAGGGGTGGGGGCTTGTAGGGAGGCTCAGCTGGCAGGCCCAGCCAGTATCGACACTCCTC
CCTTTGTGCCACAGCAAAGCTTCGAGGCGCACCAGGACGAGGCAGTGAGCGTGACACACATGGTGAAGGCGGGCAGCGGCGTCTGGATGGCCTTCTCCTC
CGGCACCTCCATCCGCCTCTTCCACACTGAGACCCTGGAGCATCTGCAAGAGATCAACATCGCCACCAGGACCACCTTCCTCCTGCCAGGTGAGGCTGCC
TCGGGCACGGGGGAGCRGACAGTCACAGAGCACCTTCCACGGCCAGGTAGTGGTGTGACCTGGGCAGCCCATCCCATTTTCCCTCATCAGCCCTGAAAAC
TGGGGCTTTAATTTGGGGCACTCCCCAGGAAGTGGTGGGGTTGGGATTCACACCTAGGACTGTCATCTCAAAGCCCCTGCCTGTCACTGTGCCCAGCCAC
CGCATCACAGCAGCCTGGGGCGCTCAGGAAATGGCCCCCAGCCCACTGGACCCTCCAAAGTCAGGCAGCTGCTAAGGAAAGGCCAAGCTGGGCAGGAACC
CAGGCCTTTCATTCTGCCCCACTGCCCAGGTTGACCAAACACCCAATTCTGCCTCAAATGCCCTGCAGGATGAGGTGATGGGAAAGTGAGAAAGCCAACG
GGTGGTCTCTGTCCTTGGAGTTTTTTCTGAGAAAGGCAAATTCCCCTCTTGGGCCTTCTAGTCTGTGGGTTTGGATGGCATCTGCTGTGGCTGGGGCCCC
TCCTGCGTAGCTGTGTGTAGATGAAGTGGACAGGATTGGTGGTGGAGGGGAATGGCGGCGAAGGATTAAGGCTGGAGCTCACCAAATGCCCCCCAAGGCC
TCCATGGAATTGGCTCTCAGCCTTTCGTTGCCATCTGCTGCTCAAGATGCAGGCACCATGCCCATCCTCACCCCAGCTGGCTTCAGAGCAGACCACGGGG
CCAGCAGGCATCAGCTAACCTTGCTTCCCTCCTTGGCCCAGCTTCCCCCAGAGAGACTGACCTGCGGCCAGTGTGGGAGGGTGCAGTGGCTCTGTCTTGT
CCCAGTGCCCCAGGCAGGGCTGGGTTCAGCAGCTGGGAGAGCCAAAGGGCCCTCGGGCCAGGGAAACACAGCCCGTGTGGCAGGTGGGGGCCTGGAGCTG
ATTGTCACAGGACCTGGCAGATGGGCCATGGCAGAGGCTGGGAGTGGCCATATGCCCAGCAGGGTTGAGCATCCTGTCTTCTGGGGCCATACTGAGGGCA
GGCATGTTAGCCAGCACTGCAGGAGCCTTAGGGACCTCTGCCTACCCCAGGGGCCCGGTCCCTAACTCCCTCCCGAGGCCCTGGAAATCACCCTGGTTTC
TGCTTCCCTCTAGCCAGTCACGATGGTCCTTGAGTCTGAACTGATCACACGGGGATGGTGGTTACTAACAACACAGTCCACGGCAGTCACAATGGTGTAA
TAACTGCCACCCTGCCCGGGCCTGAGGTGATGAGGCCCCAAGTGCTTATGTGCAGGATCTCATTTCACCCTAACCCTGCGAGCTGGGGATTRTCCCCACA
TTACAGATGCAGACACTGAGATTGGTTCAGCAGGCCGGGCGTCTTGCTCGTGGTCATGCAGTAGACCAGAGGCAGGACCACAGTCACATCAGGCCGGACT
CAGTCCAGCATCCTACTGTATGTAATGGAGAAAGAGAGTTGGCTTGAGGCCTGGCTTGGCCAACACACAGTATCAGACAAGTCCCTTAATCTCCCGGAGC
CCCTCATCCCTCTGTAAGATGGGATGTAGGTCCCAGCTCAGGGACTGTTATGAGGATAAATGCTGGTGGGCTGGGAAGGTGGCTGTCCTGGGCCGGCAGG
GTGGCAGGTGCCCGATGAGACTGAACCCTTCACTCACGTTCTCCTGGGGTGTGTGAGAGGCTTGATGGGACCTGTGTTTGGGTTGCCTCCTTCCCCCTCT
CTCCCTCCCTCCCTGCCTCCTTCCTTCCTTCCTTGTTTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTAGTGGAACAATGAAGAAATGGA
TAATCTCATGGGCTTTTAAAAATCTTTGGAATCTCGTCTTGTCTGCGCAGAGGAGAGTGAGAGAGAGTCAAGCTGATCAAGTGGTGGGAGGCAGGATGTG
TGGACAGACCTGGCTGTAGTTAGAACAGCCACTCCTGCCTGTACAACCCTGACTTTACTGTGTTTCACATGCACCTTCACGCCCGTTGTCTTACTTACTC
TTTGCAGTTACCCTTTAAGGAAGGAAGGGCATTCGTTGTTATGATGATGATTTGAGGGCCAGGTAAACTGGGGCTCAGGAGGTGAAATGACTGGTCTGCT
ATCGCAGTGCTGATATGGACAGAGCCAGGAGCAGCCCCACGGACTCTCGTTAGAGCTTCCTCACACTTACTGTGTAGCCTTGGGCGGTTGTGTCCCTGTC
CTGGGCCTCAGTTTCCCCATTCATATAACAAAGGGCTGAGATTTGAGTCAGCTTGGCCATGCTGGGTGGGGTACACCAGAGCCTGGAGCCAGAATTCCTC
CTGGAATCCCTCCCCTGTCTTCCAGCTCTGACTGGGAGCACTCAGAGCACCAGCTTCCCATCCTCGGTCCCTACCCCGCAGGGCAGGTGTAGGTGTTGTG
TGAGACAGTGTGAGGACAGTGCCCACAGTCCCCRTCTCAAGCCAGCAGCGGTCCATGATGGTGACATTTTGCCGTCATCGTCTTTACGGCATACCCGCCC
TGCATCTCCTGCGAGGGCTCCTTGCCCCTCCTAAGACCCTCCAGGTCAGTGTGCCATTCCTGTCGCATCAGCTGCATCAGTGCAGACAGAGGTGACCGCT
CTYTTGGCAGACCTCCCTGAGGCTGAACCCTGGAGAAGGCTGGATGTAGGCCGAGGTTCCAGAGTGTGGGGTTTCCCGAAGKTTCCCTCTTCCCTCAGGC
CTGAACTTTCCCAATCAGTAACCCAGTGGAGCCTGGGGCCCTGCCAGACCAGTTCCTCCTGACCCCTCATATCTGAGAGTGGCTCCCTGAGCTCCAAGCT
GAGCCAGAGCCAGCCCCAGCCACCATGCTGGGGACCAGAGCGTGGGGGGCAGCTGCAGATCCACCCCACGTTGTGCCTTTGCAGAAGCGCAACACAGCAG
GATTCTTAAGTTCTTTATTAGAGATATTTTTAAAAGGCTTTTAAGTATTTTTTTCTTCCCCCACACCAGCAAATGAAATAATTGCATAATTAGTAATAAA
TTTGTTCCTACACTAAGTGTGGATTTTTTTAGTGTGTGTTAACAATTTATYGCACTTCCTTCCCCTGACCCCTTTCTTCCACTCGCRTACTCGACTGGTA
TTAATGCATTTTTTAACCTAAACTCCCTCCTCCTTTTAACCAGACAGGTCATTAATAAAATGTTCTCCAAGAGCCTGAGCTTTTTAAAGTTGTATATCTC
CAGATAGATGGCTTGGGTGAGTTGAACACTGCYGCATTAAGTCTCTGTGATAAAATATTTATTCACCATTAGAATTTTTTTTTTCTTTCGGACTGTTTGT
GAAGTGTCTTGCTCTTTTCCTTGAGGTGGAGGGGGAGGGGGAAGGCCCCAGAATGAGGTCTGCAGATGAAGCCATTTCTCAATTCCGRCATCTCTTTCGG
TTTCTTGCTTGCCTTCCTCCCATTTGTCGGTTTTGCCGTCCAGTGGGGGCTGGGAGGATGCAGGGGCAGCAGGAAATGGTCTCCTGCCGGTCTCCATGCC
CTGGGGGTCTTGGAGAGGGAGGCGATGAGGCTTGTGGAATGAAAAATTCACCACTGTCCCCTCTCTTGGCTTAATTGTTCTTGTGGGTTTATGGCTCTGA
TGGAGCTGATCTTAAGACATTAGCGTCCAGATCCTTTTAATAATCATAAACATTATCCTAATAGCCTCTATTTATTGATTGTATACTATGGGCTAAGAGC
TGTGCTCAATTGTGTATATATATTATATGTATATATATATGTGTGTATATATTTAATATTTCTAATAATTATAAAATTGAGCAMGGCAGGTTTGTAGTAC
TCATTGATGGATGAGAGAAATGATTTGTCCAAGTTTTCTCCTTTCCTTCATCCATCCATCTGTCCATCCATCCATCCATTTACTCATTCACTCACAGATA
CTTCTTGAGAGTCTACCATGAGCCAAGGTACTTGGCCAGGAGTTGGGGAGTTAACCATGAGCACACAGATAAGTCACTGCCCTCACAAAGCTTGTCATAA
GTAAACAAATAGCAAAATAAGGTCATCACAGACCTTGACCAGGGCTAAGAAGAGAAGTCAGCTGTTGAAAGGGGCTCATGGCCTGAGCCTCCCATGTTGG
CCAACTCCAGGAGGGCTGGGGGCCTGACCCTGGACCGGAGGCTGCCATCATAGTTCTGAGCCTTCACTTTTGGAATGGATTTAGGTGTGGGAAATAGTCC
CAGCTCCACAGACACCCAGGTACTGTTTGTGAAATAGCCCCTGTTGGCCAAGGCTGTAAGTCACTAGTGGGCTTTTTTTTTCAGCCTAGTTTGCATTTCC
ACATTGCAGGGACGCTATGAATGTGATTTTTTGAGTTTGCATCATGTTGCCAGACTCGAATCCCACCGCCTGCTTGATAGCTCCATTCGGGTGTGTCTAA
TTTGTGTCTCAGACCACACATCCAACCAGGAGCTCTGGGCTTCAACCCCCAAACCGGCTCCTTTGCCATCCCAGGCCATGGCACTGCTATGCACCCAGCT
GCTCCAGGCAGAGGAGCCTCAGTGCTATCCTGGGTTCCTTCCTCTGCTCCACCTCTGCTCCCCTCTCCCAGCAGCTCTGTCGCTCTGCTCCAAACAGGTC
TAAAACAGGTTGGGCTCTCCTCACCTCACTGCCGCCGCCCTTCCCACCTGGGCAGCTGCGGGAGCCCCTGCTGGGCTCCTTGCTCCTCCCACTCCCACCC
TCCACAACTGTAGCTAGAACGTTCCACTCAAATCACGTCACGCTACTCCCCTGCCTAGGCCTTCCGGTAGCTTTTCACTGCAGCCAGAATTATGAGCCCC
AGTCCTGGCCCTGACCCATCCCCTCTTCTGACCATCTGGAGTCTGCCTTCTGTGCCCCAGGTGCACTGGCTTCACTCTGCTCGGCGGACTGGATGAGCTC
ATTCCTGTCACAGGGCCTTTGCATGCCCTGTCTCCTGGGCCTTGGCTCAGGTCTTGGTGTGGCCACCTCCGCCTTGTCACCCRGCAGCCTCACGCCTGCC
TCCCTATCCTTCCAGGAAGTAGAGGGAGGCCTGAAGACCCGGGAATCCTCCAMTGGCTCTGCCCTGTCGCCCTGTTTCAATCCTCTGCCTGGTGTTTACA
TCCCTTGTTTCTGTTTTTGTTTCCTGTATCTCCTCTCTACACCTCTGTGTCTAATACAGTAGCCATTATTACAATGAAAGAAAATAACACATTCAGTCCC
TCAGTGCCACTAGCTATATTTCCAGTGCTCGGAAGCCACATGTGGCTGATGGCTGTCAAATTGGACAGCACGGTAGGGAACATGTCCATCATCAAAGAAA
GTTCTAGAGTGTCTGCTCCTTAAGACAGGACTCTATGTACATGGTCCCAGCTGTGCCCCCAGCACCTAGTGTGGGGTCTGCCATGCAGTRGGCATCTGGG
AGGTAAATGGATTGGTGATGGGATGGCACACTGTGTTAGGCAATGCTGGGTGTACCCCGAGTCGGTAACCTGCCTTTTGGGGTGARAGAGCCACACCATT
TCTCTCTGTGCCTGCACTGCAGAGGAAGCACATACACCCACATGTATGGAGTTGAAGTGTCATGCCCAAGGAGGGAGAGGTGATGGAAGCACTGGGCAGT
GGTGAGCAGCAGACCTCAACTCCACCCCACCCTGCACTCACCAGGTGGGGGACCTCTTTGAGCCTTAACATCCGTGCCTGGAAAATGGGGCCGGCATTTG
TGTCTTGCATACRTCTTGGCTGTTGCAAGSCTTGTGTCAGATGAGAGCAGGTATACGAGTGCTTTGGAAACTCCAAAGCTGTGTTTTTTCAAATGTGATC
CATGGACCAGAAGCAGCAGAAAGTGGRAACCTTCTGGAATGCAGCCTAAGCCTCTCCCAGAGGGCAGCAGGATCAGGGCAAGAAGGAGACAGCCCTTTAG
AAAGGCAGCTGCCCAGTGAAGCCTAAGGAAGTGTGGCAGCGCCGTCCACCCTGTGTGTGACATGGTGGAGGGTCTGTCCCTGAGCCGGCAGCCTGTACCC
CACGCCTCTCAGCCCCCTCAGAAAGCCTCCTGCCCCCTGCACTCCCAGCCTCTCCCTTGTGCCCATTCCCATTGCTAGAATTGTTGGCAACAGTGCAGCA
GCAGCGATGACAGCAGGTAGCGCCCATTTTGCCATGTGCAGGCACGGGGTTGTTTTACGTTCATTCATTTAACCCAATGGASAGTATCTGTGTTCCAAAC
ATCAAAAAGGGACAGTAAAAATACGGTCCTATAGGACTGCCATTGTATACATGGTCTGTTGTTGACTGAAAGGTCATTATGTGACATGTGACTGTATTAT
CCTTGGCCCCTTTTACAAGTGAGGACACCATGGCCCAGAGGAGTTTAGGATGGGCCCCAGGTCATGTAGCTGGAGAGTGGCAGAGCCAAGGTGTGAATCC
CGCACCTGGCTCTGGAGCCCTGTTCTCAGCCACCGTGCTGGGCAGCCCACACCTGGCATCCTCTCTGTTAGGAGCAGGGGCCTGCCCCCACGCCCTCTCT
GACATTGCTATTCTTGCTAAAATGAAGAGACAGAGCTGAGGGGAGAGCTAAAAAGAATGAATCTGGACTGGCATCAGAAACATGCTGCTTCCCACCAGCG
AGTTTTGTGCTTCACTCTTGGGCCCAGGGCCTGCAGGGTGTGCTGTGACCTCATCTGAAGAAGCACCCACACGGGCAGGCCCTGAGGGGCTGCAGCAGAG
CCACCTCGATGCCTCTYGAGCCCCACCCGGCCCTACTTATGCCTTCCATCTGCACCAACACCGATGAGAAGCTTGCACCTCCCCAGTCTTCCCTGGTTTT
GCTCGTAGCTGGCTGGCTGGATCCCTGCATGGATTGCCCTTGGACAACCCTTTGTGCCGGATGACCTGGCCGCCGTGTATTGAGAGCGCACACAGACCAG
GCGCTGTGCCTGTGGTGTTCCCCCAATGCATCCGYATRGCAGCCCCACTTTACACAGGCGGAAACTGAGGCTGGTTAGGGGAGTGCTCAGCTGCAGGACC
TCGTGGCCAGACCCCAGGCAGGTCAGCCTCCAAAGCCCCAGCTCTTCCCCACCCCACCGCCCAACTTCTTGCTGGTTTCAGGGGAGGAGCCCGCTGTGCC
AGGCCCTCATCTCGTGGTGGTACCCAGAGCCCATGCTGTCTCCCCAGGAGGGCACTGCTCAGCCGCCCTCTCTTTCTGCAGGCCAGAAGCACTTGTGTGT
CACCAGCCTCCTGATCTGCCAGGGTCTGCTCTGGGTGGGCACTGACCAGGGTGTCATCGTCCTGCTGCCCGTGCCTCGGCTGGAAGGCATCCCCAAGATC
ACAGGTGAGGCTTTGGGAGCTGGTGTTGGCAGGACCAGGGGGTCAGCTGCAGGTGGCCAGTGGGGCTTGGCGGGGAGGGTGTATTAYGCCCTCATYGGTA
TAGGGATGGGGTTCCAGTCTCCAGCTTCCTCTCATCTCAGGTGGCATGGTGGCCAGTAGAACTGAATCGTCCTGGCCCCAGTCTCCCACCTTTCTGAGTG
TCAGTTTCCTAATCTGGCAGATGGACACAAGAGTGGCTTGGGGCCTGGCTGAGACACCTGCCTAATGGCAGGGGCTCCACTGGCCCTTTCTGCTKCTTCC
CATAGCAGTTTCAAGATGTCCAGGCTCCAGAGAAAGAAATAACTGAGTGCTTCTGGGGCCAGGCCCGGCCTGCTCGTGGGGTCCATGTGCAAATGAATGT
GTTCACATAGATCAGAGGAAGGTCTGCTCTGATCTGCACTACTGGGCCCAGGACAACAAGGGCAGGATCAGAGAAGACCCCCACACTTGGATGCCTGGAG
CTCCGGGTCCCCCTCCACCACCCTGAGAATGATGACTGTGGTCTTTTCCAGCAAGGGAGCAGGGCCAATAGGAAGCCCTGGGGGTGGGCTGGCTCCCTGC
GCAGACCTCAAGTCCTTCTGATAAAGAAGAATTGCTTTGGCTGGGCGCGGTGGCTCACACCTGTAATCCTAGCACTTTGGGAGGCCGAGGTGGGTGGATT
GCCTGAGCTCAGGAGTTYGAGACCAGCCTGGGCAACACAGTGAAACCCCATCTCTACTAAAAAATAAAAAAAAATAAAAATAAAAAATTAGCTGGGCATG
GCGGTGTGCGCCTGTAATCCCAGTTACTTGGGAAGCTGAGGCAAGAGAATTTCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCATTG
CACTCCAGCCTGGGGGACAGAGTGAGACACCATCTCAAAAAAAAAAAAAAAAAGTTGCTTCTAAATTCTGAGATTTTCTATTTTCAAGGTTTCATCAAAT
AGGGCATTTTGTCCATCCAGGGGGCATTTGTGGAGGGTCTATTTCCAGGTAGAATCCTGGGATGCAGGGATGAAATCGGGCAGAGACCCTGCTCTCAACA
AGCTGATGGTCTCCTGGGGGTCATCATAGCTCGGGTGACAGGTGCTGGGATGAGGGTGCTCCRGGGGCTGGGGACACAGAGACTGGGGCGAGCAGCTCCC
CATGCATGAATTCAGGAGGGATTCACAGTGAGGAGTGTGAGCTGGGCCTTGCTGAAAGAGTTGCAGAATCAAGTAGACAGGAAAGGATTTCTAGGCAGAG
GAGCTGCTTGGCAAAGGCTCAGGAAATTCTTGGAATTTCAYRCTGAGGCTCCCCCGTGTGGTGTATAAGGTGGTTTCTGTTCCRCTCCCCTGAGGAAGTT
GTGCAGGAGCACGGGATAGCCAGAGCCTGTGGCCTTCGGGGGAGGTGCCAACATAGACAGAAGTGACCCCCCCAAATACCCACCCAGAATGTTCTCCAGG
AGAGAGACTCAGGTGCTTCYCTTAATGCGCTGGGCCTTTGGGCCCCTTTCTCTCTCGCCCCATTTTCTGCAGGGAAAGGCATGGTCTCACTCAAYGGGCA
CTGTGGGCCTGTGGCCTTCCTGGCTGTGGCTAYCAGCATCCTGGCCCCTGACATCCTGCGGAGTGACCAGGAGGAGGCTGAGGGGCCCCGGGCTGAGGAG
GACAAGCCAGACGGGCAGGCACACGAGCCCATGCCCGAYAGCCACGTGGGCCGAGAGCTGACCCGCAAGAAGGGCATCCTCTTGCAGTACCGCCTGCGCT
CCACCGCACACCTCCCGGGCCCGCTGCTCTCCATGCGGGAGCCGGCGCCTGCTGATGGCGCAGCTTTGGAGCACAGCGAGGAGGACGGCTCCATTTACGA
GATGGCCGACGACCCCGACRTCTGGGTGCGCAGCCGGCCCTGCGCCCGCGACGCCCACCGCAAGGAGATTTGCTCTGTGGCCATCATCTCCGGCGGGCAG
GGCTACCGCAACTTTGGCAGCGCTCTGGGCAGCAGTGGGAGGCAGGCCCCGTGTGGGGAGACGGACAGCACCCTCCTCATCTGGCAGGTGCCCTTGATGC
TATAGCRCCTCCCCTCTCCCCTCAGAGGGCACAGCTGCAGGCCTGACCAAGGCCACGCCCGGCTCTCGTGCTCTAGGACCTGCACGGGACTTGTGGATGG
GCCTGGACTCTCCAGAAACTACTTGGGCCAGAGCAAAGGAAAACCTCTTGTTTTAAAAAAATTTTTTTCAGAGTGTTTTGGGGAGGAGTTTTAGGGCTTG
GGGAGAGGGAGGACACATCTGGAGGAAATGGCCTTCTTTTTAAAAGCAAAAAACACAAAACCTCACAACTGCCTGGCAAGCCCAGTATCACTTGTTTGGG
CCCTAGCGGGACTCCAAGGCAGCCACAYGCCCCTCCTGGAAGGGTGTGTGCGTGTGAGTGTGTGCGAGTGTGTGGGCTGGTGTGTGAATATCTATAAATA
AGTATATATGGTGTATATTATATGTGTATAAATAAAGTCTGTACATATTGGAGCTCTGGGAGATGCTGGAATAAAAGACAAGAGTTACATCTGGACTTGG
ATTGAGGTTTTGTTGTGGTTTTTTAAAGCATGATGGGAAAGAGATAGAGAGAGCAGCTATTGGTAGAGAGGGTTTATTCGGGACCCAGGAGCCACTCTTA
GGCTTGGTGGGAGGGTGGAGCTGCTACGGGAATCAGCTCTAGAACTTCACAGTCCAATCTGGTCACCATTAGCCACAGGTGGCTAATTAATTTTCAAATT
AATGAAAAATCAAACATTCAATCTCTCAGTCACCGTAGCCACATTTCAGATGTGGCTTGAGTGGTGAGTGGTGAAGGATGAGACGGCACAGATATGACCA
TTTCTACTATAGAAGAAAGCTCACTTCTGCTCCAGAAGGGGCTCTGGGAGCTTCTTTTGTGAATATGTTTTGGAAAAAAGACTGGTTCACCCCAGGTCTG
GAGTAGCATGGGGGCAGAAGGCCTTGGTGTCTAACAGTGCAAGCCAGAAGCGAGGGGAAGATGAGGGGCTTCTCTGCAGGCTGGCAGCCATGTCCCAGGA
CTTGGGGTCAGAGGGAGGACAGGGTGGGCTTCAGGTGAGGTCCATCAGCTGCAGGAGCAGAGCCCAGGCTGCAGGTGGGATGGGCRGGTGGGGCTGCCTC
TGGCCCTGGCTCCTCTCTTCTGTCGCAGTTCGTCCTCAGATTTCTAGAGCTGCTTGCAGGAAAGAAAATCAAAACCAAAAGCCGCCACCCAAAAGGGAAG
TGTTTCCTCCATCTCTCCACCCTCTACCTCTCTGTCATCTGTCTACCCACCACCCACCGGTACTTGCATTGAGATCTTTCCACTGAAGTTCTGGGAACCC
AGTGGAAAAGCCACCAAGGAGTGGACATTCCAGCCGGGTTCTAACCTCATGATAGGTTCTCGCCCACTAGAGAAGTCATTCATTCATTCGTTTTGCAAAC
CCCTTGAGTTCCTGCTATTTGCTGGGCACTGGGCTATGTGGACAAGACTGCAGCCGTCCATGCCCACAGGAAGTGCATGTTGTAGCGGGGAAGGCAAGCA
TAAACACCAGCGAGCGAAGGCTTGGGGAGATCGAGGGTGCTGCGGAGGAGGAAGGGGGATAGAGGAGCAGCCCGTGCTCAGGTGGAGGGTGGACAGAGGT
TGGCTATTCCCAGAGGGAGGTAGCCAGTGTGGGTCCCCAGGAAGGGGAGAAAGGAAGCTGGTCCAGAGGAACCAGTACACCTGAAGGTCTGGCTCCTACA
CTGACTACGGCTCAGACATGTCCACCTCCTTTGGGCCTCAGGATCCCATTTTGTATCAAAAGAACCATCACTGCCCTGTCCACCTCTCTTGGAAGAGAAT
AAAGTACGCTAGTTCCATTTTTATTGCACAAGTGGGTTATTGAATAAATACTCTCTCTGGATGGGACTCCCAGGGGGTGTGTTTATCTCATCAATCAAAT
GTCAACCAAGACTTCCTGAGACAGAGACCAGTGAGTCGAGGCTGCCTGGGACAAGGAGTAAGCCTGGACTCTAGGGTCTGGCAGGCCTGTGATCAAGTCC
AGCACCACCAAAACGCGTCTGTGTGGCTCCCAGCACGTCCCTCCGTGGCTCCCAGCACGTCCCTCCATTTCCATATCTCTAGAACAGAGGGGATGATGTG
TCACAGAGTTCAAGGTACCAGAACCACAGAAAGCATCTGGAACAGCCCTCCGGTGGCATTTTTGGTGATGGTTCCTTATATCCTCGCTCCAAACGATTTG
AGGCCAGTGGTTCTTACTGAGGAGTCTCCTCTGGTGCTGGAGCTGGCATCTGGGATCTCCGTGGGCCTGTTAGATCCTAGACCTACAGATCGCTCAGCTA
AAAGGGACCTGGGAGATCGAATGGAGCCCGTTAAATCACGTCACGGAGAAAACGACTGACTTTGCTACTTCAGTGAAATTATCACATCAGTCACCAGCTC
ATCTCCCATGCCTCCGACAACAGAGCGAGGGAGGGTCGGGGGCGCCGCGAATGGCTCCTGAGACCCACTGAGGACGTGCATCRCATGTGAGTGGAGGCCT
GGCCTTAGATATTGATAAGAGTAATAATACCCAGAGCGCTCCGGGTGCCTGAGCTCCTTTCGTCGGTACAACTGCTCTCTGAGGCTGCTTTTGTTTGCCT
CGTTTTGTAGGTGAGGGGTCTGAGGCTCAGGGATCTAAGCAACCTGCCTAGGAAGCCTCAGAGCCTAAAAGTCAGGCCCGGGACTGTGGTCTGTCTGCCA
CCAAGACGGCTCTTAACTACCAGACTACTTGCCCCCCAGAGCAAAACTCTGGAGACAAACAGAGCAGAGTTGCCTTAACAGGCAAGTGCCTTAATCTGTG
TCTCAGGGAGACCCTGCCATGGGAACGGACCATCATTCATTCAGTATTCATTGAACGCCGATTACGTGCCTGGACCCGTTTTCAAGTAGACACTGGGTAG
GGCGTAGTGAAAAAGACAAATCCCAGGCACACCTCGTTGTCCATTCTACTGGCAGGGTCAGGAGGGAACAGACCGGGAGAAAAATATGTCAGATGATATT
TGTGCTCTGGAGAAGGGGGATGGGAAGGGCTGGGGAGGGGGCTCATGATGTCAAAGAGGGTGGTCAAGAGGCCTCACTGAGGAGATGACGTCCGAGCTAA
GACCTGAAGGTGGAGCAGACATCGGGTGGTAGAACATTTCGGGCTGAGGGCAAGTGCAGGAGCAAAGTGTGGGGGCAGGAGTGTGGCTGGAGCAGGTGCG
GGCGGGGGAGGGGAGGCAGTGGGCAGTGGGAAATCACTGGAGGGTTTCGAGCAGAAGAATGACACTGTCTGTCTGATGTTTTCAAACAATCACGTTTGGC
TGCTAAATTAAGAATAATCCATGGAGAGGGGGACAGCAGTGTGGGAGCCAGGAGTCCCCTTGTTGAGAGCTGTTGCAGTCAGCCAGGTTTGCAAGGTGGG
GGGCAGCAATAGAGAGCGGTCAGCTTCCGGGTGGATTCTGATGTCCCAGAGCCCACTGGGTTTGCAGATAGATGGGCTGGGAAGGAAAGAGAGGAGTCAA
GCATGCCTCTGAGGTCTGGCCTGGCGACTGGAAGGTCAGAGCTGCCAGCTTCCCTGGCAGGGTGGCTGTGAGGGGCAGCTTTTCCACAGGAAGAGCGGGA
ATGGGGTTTGGATCGGCTACATTTAAGTTGCTTTTGAGCATCCGAGCAGAGACGTAGGGAGGACAGTTGACTGTGTGAATTTGGAGTCAGCAGAGAGGTC
CATGCCAGGGGTGCCTGAGCCTGGATGCAGCCTCCAAGGGAGCAGAGTAGACGGAGGAGGTGTGAGGACAGAGTCCAGGGAAGGCCAGTGTCGGGAGGTC
CAGGAGCTGATCAGGAAGCACGGGGGAGGCTGAGATGCCCGGATGAAGGTGGAAGAMCGGAAGGGCAGGGTGAGGGTTGGAAGGGGAGGGGGTGATCTGT
GCTGAATGCTGCTGAGGTTAAGGAGGAGCCTGAGGCCTACCTTGGATTTAGCCACACGGAGGCCTTCTGTGCCCTTACGAGAGGTATGTGGGCAGAAGTG
GTGGCGGGGAAGCCTGAGGATGCGGAGGGAGGGTCTGGGAGAGGAGCATGTGAGCAGCGGGGTCCTGGGTGGTTCTCAGGCCCCAGTGATTCGGTGGAGG
GAAGGAGGGGCCGTGACAGATGCCCCAGCCATGCAAGCCACAGCTCAGAGGGCCCAGAGTTTATCAGTCATGGGCCTTCATCCCCTTGCCCTTGCCCAAG
GGGGAGAATCACTTTCTCTACCCCTGGTGAGCAGGCCGAGGCTGCAGACAAGCCCAGTTATCAGGAGGCAGCTGTGAGCCAGGCCGGTCTCCCAGCAGGA
ATCCTGAGCAGCGGCTGATTGAGAATCTCCGGCTGGTGACAGGTTGCCCCAACCCCACCCCGTGGGGAGCCCAGCCTGCCATGCTGGGTTACTGCCAAAG
GCCTCTGTTCCTGTCTCTGTGCTCAGGCCTGGGGAGGTCAAGGCCTGACATCCCCATCCCTCAGATGGAGGTGGGGGTTGTTCTCTGGGCACTTCTGGCC
CCGAGACATGGACTCCAAAGGTGGGAGGGAAGCAGAGGCTGTCCTCATCCAGCATCTGAGCAGTCCCCTTCCTTGGAGCCTGACTGCCTGTGGTGGGGGG
CACAGAAATGGCCCTCTCACTTTGTTCCGATGACTGACCTTACTGTAGTTTGGACACCCCATAGCAGAAAACTCTAATTCTTTTTTTTTTTTGAGACGGA
GTCTCACTCTCGCCCAGGCTGGAGTGCAGTGGCGCCATCTTGGCTCACTGCAACCTCCTCCCGAGTTCAAGCAATTCTCCTACCTCAGCCTCCCAAGTAG
CTGGGGTTACAGGTGCTGGCCACCACACCCGGCTAATTTTTGTGTTTTTAGTAGAGACAGGGTTTTTCCATGTTGGCCAGGCTGGTCTTGAACTCCTGAC
CTCAGGTGATCCACCCACCTCAGCCTCTCAAAGTGCTGGGATTACAGGTATGAGCCACTGTGCCTGGCCTCTAATTCTTCATTAAAGGTGACATAGTCAT
TTCTGGAGCTTAAGCTGCTTCTTGGGGCTAACACAGTCTATTTGGGGTGAACTGACAGTCTTTTAGGCCTATCTCCTTCCCTTTCCTTCCCTTCTGTCCC
CCGCCTGGCATATGAACCCGGGGGACACTAATAGGATGCAGTGGTAATAACTAGGGTGCAGGTGTCTGCACAGTGGCAGAGGCATTGGAGATGTCCCTAC
TCTCTATTCTGGCTTCTTTTGGTCTCCATGCCCTTAGGTCCCCTGCCATGGTGGTCAGGCTGGCATCCTTGGTGTCAGGCTGGCATCATCAGTGCTGCCT
GTCTCTGGTCTTGGGCACCTCACCTTCTGTACCCCCCAACCCTATCTCAGTCCCCCTTAACCTTTCCACACCCCCACCAGCCTCCACCCCCAGGACACTC
ACAGACCTGTGTACCCCAGACCCCTCCTCTGCCCTGCTATCCCCACCCTGGGGGGCATGTCGGGGATCAGACCCCTGCCCGTGGGCTCTCGTGCTCCCTT
CAACCTTTCTGATTGACTCCTAGAGGCCAGGTGAGTCCAACCTCAGGCAGGTCCCTCCAGTCCATCCCGTTGCCGACTTGCTGCTTACAAAGGGATTTCC
TAACGAGAAAGCTGCCCTTCGGCCTGTAGGAGCTGTGTGCTCAGGCGCTGAGCTCTGTTCTTGCTTTGTAAAAGGAAGCAGAGCCTGAGACAAGGATTTT
GATTCAGGTCGTTTATTTGGGAGGGGAGACCAGGGAACCCYGATGGGGGCATAAAATGGGGAAGAGAAGGCAGCCAGTGCCGGGGGAGGTATTGAACATG
TTACTAAGTGGGTACCTCGGGCTCAAGTCTGCTGAGGGGCTCTGGGAGACGGTGCAGAGCTTTCTCCTCCGACCCCCACCAGCTGGGTGCCTGGCTGAGC
TGCCCCTGGAGGCGTGAGTCCCTGTCAGTTCTGTCTGCTTCCTTGTTAGCCAGAGAGGGGACTAAGGTGGAGAGAGCCGGCAGGCTTGCCTGTGCGCTAT
AGCAAGTGCCCATAGCAAGCTGTGGCTTTTATCATTGAAAATTTTTTCCATCCCAACAAAGCCAGACTTTCAAGAGGACAGTCTTGCTGTGGACACAAAG
ATGTGGAATTTGGAACTCAAAGCTGGTTGTTTGTTCTAGGTTATATCCCCCTGTCTCAGCTCACGCCGTTCTAACAAAACACCACTTGCCAGGCGTCTTA
AACAACAAACAATTATTCTCACAGTTCGGCAGGCTGGAAGTGCAAGAGCAAGGAGCTGGGGGATTCAGTGTCTGGGAGGCTCCTCCCAGGTGGCAGGCAG
CTGCTTTTTTGTAGTGTCCTCACGTGGCAGAGAGTGTAAGCTCTGGTCTCTCTTTCACCTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGT
CACCCAGGCTGGAGTGCAGTGGTGCGAACCCGGCTCACTGCAACCTCTGCCTCTTGGGTTCAAGCAATTCTTCTGTCTCAGCCTCCTGAGTAGCTG


SNP Information

Context             (SEQ ID NO:21873):
CGCAACTTTGGCAGCGCTCTGGGCAGCAGTGGGAGGCAGGCCCCGTGTGGGGAGACGGACAGCACCCTCCTCATCTGGCAGGTGCCCTTGATGCTATAGC
R
CCTCCCCTCTCCCCTCAGAGGGCACAGCTGCAGGCCTGACCAAGGCCACGCCCGGCTCTCGTGCTCTAGGACCTGCACGGGACTTGTGGATGGGCCTGGA
Celera SNP ID:            hCV1477190
SNP Position Genomic:     164407
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,5|G,35)   total(A,8|G,70)
SNP Type:                 UTR 3

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:21874):
ATGGCCTTCTTTTTAAAAGCAAAAAACACAAAACCTCACAACTGCCTGGCAAGCCCAGTATCACTTGTTTGGGCCCTAGCGGGACTCCAAGGCAGCCACA
Y
GCCCCTCCTGGAAGGGTGTGTGCGTGTGAGTGTGTGCGAGTGTGTGGGCTGGTGTGTGAATATCTATAAATAAGTATATATGGTGTATATTATATGTGTA
Celera SNP ID:            hCV1477191
SNP Position Genomic:     164728
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:21875):
AGCCATGTCCCAGGACTTGGGGTCAGAGGGAGGACAGGGTGGGCTTCAGGTGAGGTCCATCAGCTGCAGGAGCAGAGCCCAGGCTGCAGGTGGGATGGGC
R
GGTGGGGCTGCCTCTGGCCCTGGCTCCTCTCTTCTGTCGCAGTTCGTCCTCAGATTTCTAGAGCTGCTTGCAGGAAAGAAAATCAAAACCAAAAGCCGCC
Celera SNP ID:            hCV1477193
SNP Position Genomic:     165486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:21876):
CACATCAGTCACCAGCTCATCTCCCATGCCTCCGACAACAGAGCGAGGGAGGGTCGGGGGCGCCGCGAATGGCTCCTGAGACCCACTGAGGACGTGCATC
R
CATGTGAGTGGAGGCCTGGCCTTAGATATTGATAAGAGTAATAATACCCAGAGCGCTCCGGGTGCCTGAGCTCCTTTCGTCGGTACAACTGCTCTCTGAG
Celera SNP ID:            hCV1477197
SNP Position Genomic:     166883
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 TFBS


Context             (SEQ ID NO:21877):
ACGGGGTTTCACCGTATTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
Y
GCGCCCAGCCTCTGGATCTTTTTTGTTGTGAGCAGATGCTTGGCTTCTTGTTAGCGCCTTCACCTGTGCCTGAGTTGGTCTCTTCTCTGCCCAGATAAGG
Celera SNP ID:            hCV53029
SNP Position Genomic:     103834
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21878):
CTCTGTGGGCTGTTCTCTCTATCCAGGAAGTGGGTCCCATCCTTCACCTCTTTCATTTCTCACTCGGGAGCTACTTCCTCTCCAGTGAGCCAGGGTAGCC
M
CAGTGCTCTGAGGGTTCCTGCCCCAGTTGTGGGGGCGGGGGGCTTTTTTCAGTCTTCCAGTGGAACAGGGGCCATGTCTGTCCTTGATCACAGCTCAGAA
Celera SNP ID:            hCV3155370
SNP Position Genomic:     7355
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21879):
GTTGTGCGGGCTCATTAGAATGCATAGCTCTTCCCAGCATCCGCCCAGCACTGTGCCCCCCACGGTGTTCAGGCCCTGGACACACAGACTAGAAAGCAGG
Y
CAGCCTCCGGAAATCTCCAAGCTCCCTGTGACTGTGGGCTGGGGACTGCCCTTCCCCTTCATCGGGCCCTCAGGCTGAAGCTCAGAACCCTCCTGTAAGG
Celera SNP ID:            hCV3155371
SNP Position Genomic:     7060
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21880):
TGGGACCAGGCTGAGGGTCCTGCCCTCTTGCTCCCAGGGGCTCCGTAGCTGTGTGGCCTTGGGGATGCCCCTCAGTCTCTGTCAGCCTCATTTTCCTCAT
Y
TGCTATGGGAATCAAATGAGATGCAAACTAAAATGTTCAGTATGGGGCCCGGTGCAGACAGTGCTCGGAGGTGTCAGCTATTGTCATTTCAAATTTTGTG
Celera SNP ID:            hCV15754492
SNP Position Genomic:     40299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21881):
GCTCCTTCCCACAGAGACCTACTCCCAGGGCCCCCTCCCCAGTGCTCCCCACTCTTCCTGCCTGCAGATCCTCACCAGGGGCTCCCTAGGAGGTCAGTGC
R
GGAGGGTGGGTGCCACCGACTCTGGGCTCAGGACAGAGTCTCCATTGTCTGAGGCTCCAGCCATTGACCAAACTTGGCCCCTGCCCCAGTGAGGCAGGCC
Celera SNP ID:            hCV15754493
SNP Position Genomic:     39874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21882):
GGTGTACCACCTGCCTCACTCACCTCCCTCTGCCCCTTCTCTCTGCTGCAGCCATGCCAGCCCCTCTGGGCTCCTGGATGGGCCATGCTCCCTCCCACCA
Y
GCCCTCTCCAGCCTGTGCCTTTTGCCAAGTACTCTCCTGCCATCCTGTTTTTGTCTCATCTGCTCTTGGCTCAAATGGCACTTCCTCAGAGAAGCCTTTT
Celera SNP ID:            hCV12008310
SNP Position Genomic:     101575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21883):
AGGCTGATGGGTGGCTTGGCCAGGAAGCTCTTGCTGGTTTTGCAGCCCCACCCTGGACCTTAATGCAGAGCCATGGCCTCACCTGGGTGTGCGCAGGTGC
R
TCTCCCAATCCACACACTTTGCTCCACCTTCACATTGGCTGCCACACACTCTGTCCTGCTGTGCCAGCTACCTGGCTGCTCTTCCTCCCTCCTCCTACCT
Celera SNP ID:            hCV12008311
SNP Position Genomic:     101263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21884):
CGGAACCTTGTCTCCACCAGCGACGGCAGGTGTGCAGCCCAGACCGTGTCACCCTCTACGGGCTGATGGTCAAGCCCATCCAGAGGTTCCCACAGTTCAT
M
CTCCTGCTTCAGGTACTGCTCAGGATTCCAGCAGCTTCAACCCACAGGGTTTGCCTGTGGGCTGGGAGGTGCCTCCTGGGGTAGGAGGGAGGAGGTCTGG
Celera SNP ID:            hCV12008312
SNP Position Genomic:     92077
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,40)   total(A,75|C,1)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,11)      total(A,11|C,1) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:21885):
CACTTGAGTGCAGTAATGGGGCCTGGGCTTGGATTTGGGAGTAACCACCTGGCCAGCCAAACAACGATCTTTTTTTTGAGACGGAGTTTCACTCTTGTTG
Y
CCAGGCTGGAGTACAATGGCGCAATCTCGGCTCACCACAACCTCTGCCTTCTGGGTTCAATAGATTTTCCTGCTTCAGCCTCCTGAATAGCTGGGATTAC
Celera SNP ID:            hCV1975341
SNP Position Genomic:     26646
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|C,8)   total(C,8|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21886):
CCTAGCACTTTGAGAAACCTTGCTTGAGCTCCGGAGTTTGAGACCAGTCTGGACAACAGAGTGGAACCCTGTCTCTACAAAAAATGAAAAAAAAAAAAAA
A
TAGCTGGGCATGGTGATGCTACCTGGGAGTCTGAAGTAGGAGGATCACTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCCATGATCGCACCACTGCCCTC
Celera SNP ID:            hCV26067898
SNP Position Genomic:     49115
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21887):
TCCTAGCACTTTGAGAAACCTTGCTTGAGCTCCGGAGTTTGAGACCAGTCTGGACAACAGAGTGGAACCCTGTCTCTACAAAAAATGAAAAAAAAAAAAA
A
ATAGCTGGGCATGGTGATGCTACCTGGGAGTCTGAAGTAGGAGGATCACTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCCATGATCGCACCACTGCCCT
Celera SNP ID:            hCV26067899
SNP Position Genomic:     49114
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21888):
CTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGAGGATCACTTGAGGTTGGGAGTTTGAGACCAGCCTGGGCAACAAGGTGAAACCCCATCT
Y
TACTGAAAATACAAAAATTAGCCAGGTGTGGTGGCGGGCGCCTGTAATCCCAGCTACTCAGGGGCTGAGGCAGGAGAATTGCTCGAACCCAGGAGGGTGG
Celera SNP ID:            hCV1975347
SNP Position Genomic:     16515
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,14)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21889):
ATGTGGAGTGCTGTGGTCCCCATCCTCTGGGCTTGTTCAGCCCCGATTTGATGAAGGGGGCTGAGTAGAGAGTGTAGCCAGCCCCCAGTCCCCTGGAAGG
R
GCAGAGGAGCCTGAAGGGCCCGCAGCGTCTCTTCTCCCCTGCCTTTTCCGCCAGCCAGGCTGTGATTGCCGCGTCATCACAGCCTGTTACAGGGTTATAA
Celera SNP ID:            hCV16144135
SNP Position Genomic:     123532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21890):
AAGAAATTCACCTTTTTCCAATAATTTATTCAAAAATAATTTACCAAGTGCCTATGATGTGGAAGCACTTGACTCAGTGCTGTGGGGTGATGGATGGGTA
Y
AAAGATATGGTGAAGTTTTACGCTCCAATAACCCATGGTCCAGCAAACAAGACTACGAACATTTGCAGGGTCAAGGGCAGGGAGGGACTGATTTACCTTT
Celera SNP ID:            hCV1975348
SNP Position Genomic:     15933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21891):
ATTTTATTTAATGTTACTATATATATGTATTTTTTTACTGTAAGGGGTCTCCATAGAAAAGAAATGAAAATCCAAAGAGGCAGTTAGACCCAGGAGCTTA
Y
GTAACATTTTAACAAAGGGCGATAAATTGTGGAGAAGTGAGGAGACAAAAGAAAAGTATTGGACTCTTAGGGGTCAGTAAATTTCAGGAAAGTGACTAGG
Celera SNP ID:            hCV1975349
SNP Position Genomic:     14387
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21892):
AGATCACAGGTGAGGCTTTGGGAGCTGGTGTTGGCAGGACCAGGGGGTCAGCTGCAGGTGGCCAGTGGGGCTTGGCGGGGAGGGTGTATTATGCCCTCAT
Y
GGTATAGGGATGGGGTTCCAGTCTCCAGCTTCCTCTCATCTCAGGTGGCATGGTGGCCAGTAGAACTGAATCGTCCTGGCCCCAGTCTCCCACCTTTCTG
Celera SNP ID:            hCV15968706
SNP Position Genomic:     162396
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,9)   caucasian(C,34|T,6)   total(C,55|T,15)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21893):
GCATCCCCAAGATCACAGGTGAGGCTTTGGGAGCTGGTGTTGGCAGGACCAGGGGGTCAGCTGCAGGTGGCCAGTGGGGCTTGGCGGGGAGGGTGTATTA
Y
GCCCTCATTGGTATAGGGATGGGGTTCCAGTCTCCAGCTTCCTCTCATCTCAGGTGGCATGGTGGCCAGTAGAACTGAATCGTCCTGGCCCCAGTCTCCC
Celera SNP ID:            hCV15968707
SNP Position Genomic:     162387
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(C,6|T,34)   total(C,7|T,65)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21894):
AGCACCTCCCTTCCACAGGGCTACCTCTGGGTGAGTCACCCCCCTGCCCAGCTGGGCATTCTGGCCTCAGGACAGGAGTAGGGAGAGCGGCACCTGGGAG
R
GGGTGCTGGAGACAGCAGCTGCCTGCCTCATCTCATGCAGCTTCATCCACCAAGGTCTTCCTGGGCACCTCTGGTGCCAGGCACTGCATTTGGAGTTGGG
Celera SNP ID:            hCV25998687
SNP Position Genomic:     120835
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,10)   total(A,1|G,35)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21895):
GGGCTTTCCCAGAGCTGCACGGGTTATTTAAGCAGTTTCCTGGGCATCTGCTTCCTCCCCAATGAGTGATGGGAAAACTCCATGGGGCTGGTGCAGGATT
Y
GATTAACAGGTCACATGAGGCCAGTGAGGGAGGCAGTCCCTGCTGGGAAGGGCAGATGCCAGGCAGAGGGCGAGGGGAGGGGGAGATGGGGAGCACTTCC
Celera SNP ID:            hCV11545787
SNP Position Genomic:     18165
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21896):
GGGCACCTTGATGATTAACCTCACATGTACCGTCTCTGTCTCTGCAGCTTGGGGCCCTGGTCCACAGTCCTGTCAACTGTCCCCTGCTGGGTTTCTCAGC
M
GTCAGCACCTCCCTTCCACAGGGCTACCTCTGGGTGAGTCACCCCCCTGCCCAGCTGGGCATTCTGGCCTCAGGACAGGAGTAGGGAGAGCGGCACCTGG
Celera SNP ID:            hCV25996075
SNP Position Genomic:     120731
SNP Source:               Applera
Population(Allele,Count): african american(A,30|C,4)   caucasian(A,34|C,6)   total(A,64|C,10)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:21897):
GTGATCTCTGGTTGGAAGATGGACATGTGCACATGTTACATACAGTGGAGGGATGTGCGGAGTGTAGCAGGGGAATGGGGTAGGGAGAGGGGAACAATTC
W
TGCCTCTGAACCTTTGCACATGCTGCTCCTTCTACCCAGGGGAGTTAATGTGTGTTTTCTCCACCCAGAAGGAATGGCATGTGCAAAGGCTCAGAGGCAT
Celera SNP ID:            hCV1975350
SNP Position Genomic:     11899
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,6)      total(A,6|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21898):
ATCACAGGAGCTCTCCATTCCAGCAAGTGAGTTGTTACCATGCACCAGGAAGAGAGGAAATGGGACAAGGAGGAAATTCAGTTAATTGAGAGCTGACTTT
R
CCATTGAGTAACCCTATTCAGGATGACTCAGGCATCTGGGAGGAAAAGCAGCAGTGGTGTCTGAGGACAGACCGTGGACAAATTAAGTAGCTTGGGGCTT
Celera SNP ID:            hCV1975351
SNP Position Genomic:     11572
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21899):
TCACAGTTCCACATGGCTGGGGAGGTCTCACAATCATGGTAGAAGGCGAAGGAGGAGCAAAGGCACATTTTACATGGTGGCAGGCGAGAGAGCCTGTGTA
R
GGGAACTGTCCTTTATAAAACCTTCAGGTCTTGGGAGACTTATTCACTATCATGAGAACAGCATGGGGAAAACCTGCCCCTGTGATTCAATTACCTCCCA
Celera SNP ID:            hCV1975353
SNP Position Genomic:     10943
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21900):
AGAGATTTAATGGACTCACAGTTCCACATGGCTGGGGAGGTCTCACAATCATGGTAGAAGGCGAAGGAGGAGCAAAGGCACATTTTACATGGTGGCAGGC
R
AGAGAGCCTGTGTAAGGGAACTGTCCTTTATAAAACCTTCAGGTCTTGGGAGACTTATTCACTATCATGAGAACAGCATGGGGAAAACCTGCCCCTGTGA
Celera SNP ID:            hCV1975354
SNP Position Genomic:     10928
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21901):
GTAATTTGTAAAGAAAAAGAGATTTAATGGACTCACAGTTCCACATGGCTGGGGAGGTCTCACAATCATGGTAGAAGGCGAAGGAGGAGCAAAGGCACAT
Y
TTACATGGTGGCAGGCGAGAGAGCCTGTGTAAGGGAACTGTCCTTTATAAAACCTTCAGGTCTTGGGAGACTTATTCACTATCATGAGAACAGCATGGGG
Celera SNP ID:            hCV1975355
SNP Position Genomic:     10911
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21902):
ACTGACATTCATTACAAACCTACCAGTGTTGTCCAATGTCATCTTATTTACACCTGCACCTGACAGGTAAGCACAGGAGGCGCAGAGGGCTGCCTGCTTC
R
GAGTGGGGCTGCTGGAGAGCAGAGGATGAGTGTTGTCTGGGCTGGCTTCATACCAAGGCCGGGTTCCTGTCCACACACCTCATCCTTCTCTTCTGCCTGC
Celera SNP ID:            hCV27944330
SNP Position Genomic:     40613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21903):
TACTGCTATTTTCATACTGCTATGAAGAAATACCTGAGACTAGGTAATTTGTAAAGAAAAAGAGATTTAATGGACTCACAGTTCCACATGGCTGGGGAGG
Y
CTCACAATCATGGTAGAAGGCGAAGGAGGAGCAAAGGCACATTTTACATGGTGGCAGGCGAGAGAGCCTGTGTAAGGGAACTGTCCTTTATAAAACCTTC
Celera SNP ID:            hCV1975356
SNP Position Genomic:     10868
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21904):
TGTGGCCTTGGGGATGCCCCTCAGTCTCTGTCAGCCTCATTTTCCTCATCTGCTATGGGAATCAAATGAGATGCAAACTAAAATGTTCAGTATGGGGCCC
R
GTGCAGACAGTGCTCGGAGGTGTCAGCTATTGTCATTTCAAATTTTGTGATCTCAGGCCTGGTGTTCCGGTGGAATACGTTTGTCTTGGACTTAGTTTAG
Celera SNP ID:            hCV27944331
SNP Position Genomic:     40350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21905):
TATATTTTATAAAGTAATAAATACTCAATTTTTTTCCTAATTATTTTATTCTATTATTACCTGTGCTTTTGTGGTTATTTGCTGCTTTGTGTGTGTGTGC
R
TTGGGGAGTGTATTAGTTCTTTTTCATACTGCTATTTTCATACTGCTATGAAGAAATACCTGAGACTAGGTAATTTGTAAAGAAAAAGAGATTTAATGGA
Celera SNP ID:            hCV1975357
SNP Position Genomic:     10741
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,15)      total(G,15|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21906):
CATGGTGGCTCATGCTTGTAATCCCAGCACTTTAGGAGCCTCAGGTGGGAGGATCACTTGAGCGCAGGTGTTCGGGACCAGCCTGGGCAACACAAGAGAA
Y
ATGTCTCTACAAAAAATTTTAAAAATTAGTTGGATGTGCTGGTGCACGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGATGGGAGGATCACTTGAGCCTG
Celera SNP ID:            hCV1975358
SNP Position Genomic:     8350
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21907):
CTGGTGTGTGAGAGTGAATTGCAGATAAGAATGGATACCGGGACTGAGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGAGG
K
TCACTTGAGTCCAGGAGTTCGAGACCAGCCTGGGCAACATAGTAAGATCCCCATCTCTACAAAATAAAAATAAAAAAAAATTAGCCAGGTGTGCCATGAG
Celera SNP ID:            hCV11548406
SNP Position Genomic:     116229
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21908):
TGCAGGCTGGGTCAGCTTTGGATTTTGTTCTCAGAGCAGTAAAAAGCCTTGGAAACAGATGTTTCCCAAGCTAGGGACTAGCACAATTTGATATATAGTT
Y
GCATTTTTTGGATCCTTCTGGCTGGTGTGTGAGAGTGAATTGCAGATAAGAATGGATACCGGGACTGAGCGTGGTGGCTCATGCCTGTAATCCCAGCACT
Celera SNP ID:            hCV11548407
SNP Position Genomic:     116107
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21909):
GTTGATGGCATGGCTCCAGATCATGCCGAAGCGGCTGTGCCAGCCACTGTGGGTTGGGTGCTTTGTGGTTCGCCAGGCGGGAGCCGGCTTTGGCGCAGGG
W
TTGCCCTCATCATGGAATGCTCCAGCGCCATCAGGCCTCCCGTGTATTGAGCACCTGCTGTGCCCCCTGGTTCTTTCCTGCTATTCTCTTATTTTAATAT
Celera SNP ID:            hCV11548408
SNP Position Genomic:     115089
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21910):
GTGATCTGTCTTTTTCTCTTTGGGGAGGCTCAGGGTGATCTGTCCTTTTATGTCCCGGGGAGGCTCGGGGTGATCTGTCCTTTTCCCAGACAGGATGGGG
R
AGGAAGGGGAGAGTAATGGTTGTCGTCAGAGTCACGGGTTTTGGGAATGAATTTTGCTGAATATCCTCCCTCCCTCCCAGAAAAAAATCCCCTTTAGAAA
Celera SNP ID:            hCV16138163
SNP Position Genomic:     97233
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21911):
ATCTTCTGCCAAAGGAAGAATTTCAATATGGGGGTATGATGTGGGTCAGTGATTCGGGCTTAGAGTGGGGGGCATTTATGGAATACCCACACTGGGCCAG
R
CACAGGGCTAGGATCAGTAAGCTTTGTCAGAGAGCCCTTTTCTTTTTTTTTTTTTTTGAGACAGGGTCTCGTTCCATTGCCCAGGGTGGAGCGCAGTGGC
Celera SNP ID:            hCV16064608
SNP Position Genomic:     29235
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21912):
TTACACCCAGTGTGGCTTCCATGCCAAGGCAGAAGGAATACTAGGGGGAGTTTAGGACCAGGCTGTGGGCGGCATCCGCATTGTCTGGTTCCTCGTAAGT
Y
GCACCACAGGGTTGGTCAGCAGCAGTTCAGCTCTTGTTAAAGCTGATAGGGAAAGAGGACGGGTGTTTGGGAACAGTTCTCTTGGGGGATCCTGGTCCCG
Celera SNP ID:            hCV16186399
SNP Position Genomic:     34757
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21913):
CCTTTTTGGCCTGAGCTCCCCAGTGTGGGCAGTGCCTGGATTCAGAAAGCTGAGTAGGGAGGGGCTCCTCTCCTGGCCCATGTCCCCGATGTGCTCCTAG
Y
TTCTGAGCTCCTGTTGGCAACTGTCGCTGCTGAAGCTCCATGTCCCTGCCTGGAAGTCTCTTTTGCGGCCGCTGGTTCGGGCGCATCCTCTGGTTTGGGT
Celera SNP ID:            hCV25932852
SNP Position Genomic:     104163
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,36|T,4)   total(C,72|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:21914):
ATTTCAAAACAAAAACGAAAACAGAAATTAGCTGGGTGTGGTGGTGCACGTCTGTAATCCCAGCTATTTGGGAGGCTGAGGTGGGAGGGTCGCTTGAACC
Y
GGGAGGCGGAGGTTACAGTGAACCAAGATTGTGCCACTGCACTCCAGCCTGGGTAACAGAATGAGATTCTATCTCAAAAGAAAAAAAGAAAAGAAAAGAA
Celera SNP ID:            hCV1975360
SNP Position Genomic:     8139
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21915):
TAGCGCAAAGTGCAAAGTGGGGTGCTAGTGGCCCGGTTTTGGGGAATCAGTTTGGGTGATTTGGGCTGAGTCACTTCACTTGACTGAGGATCAGTGTCCT
Y
GTCTGGGATCATCTAAGCTTCCTAGCGGGGCTGTTGTGAGACCCAGAGATGAAGGAAGGCCCGCTTCTGTCCACACCTGGCCTCTGATGCCCTCATTCCC
Celera SNP ID:            hCV15989195
SNP Position Genomic:     100358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21916):
ATATAGGCACTACAGGCACCACCATGCCCGCACCTGTAGTGCCAGCTACTTGCAGGCTGAGGCAGGAGGATTGCTTGAGCCTAGGAGTTTGAGGTTACGG
Y
GAGCTGATTGTGCCAGCCTGAGCCACAGGGCAAGACCCAGTCTCTTAAAAAAAAACAAAGAAAGAAAAAAAACATAGCCAAGGAAGGGGTTGGAGTACAC
Celera SNP ID:            hCV1975363
SNP Position Genomic:     4087
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:21917):
CCACAGCCTGGTTCTGATCCATGGCCTGAGGGTTGGGGACCCCTGCACTATGGAGCTGACTGGTGGGAGCGGGGCCAGACTGGGAGGCAGCGGCGGGGGC
M
CTGGGTCCCCATCTTGGCTTTGCCACCAGATTGCTGAGCAATCTTGGACAAGTCACCTAACCTCTCTGACCAGGGAAATACCACCCCTGTATGCCCTCAT
Celera SNP ID:            hCV1975365
SNP Position Genomic:     1561
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:21918):
GCTGCAGGACCTGCAGAAGGACCTGGCCGTGGTGGAGCAGATCACGCTTCTCATCAGCACGCTGCACGGCACCTACCAGGTACGTGGCCTGGCCTGACCT
Y
TTTGGCCTGAGCTCCCCAGTGTGGGCAGTGCCTGGATTCAGAAAGCTGAGTAGGGAGGGGCTCCTCTCCTGGCCCATGTCCCCGATGTGCTCCTAGCTTC
Celera SNP ID:            hCV25932423
SNP Position Genomic:     104066
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(T,40)   total(C,5|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:21919):
TCCTGGCCCATGCTGGGCACCCAAGAGGTGTTTGTTGAACTAATAGGAGAGGCAGTGGCAAGCTGGGGCACATCCTAGCAGTGTGATTGACGTGGGAGCC
R
GGGGTCTGGGAGCCACAGCAGGCGGCCATGGGACCATCTGACCAGGGCAAGAGGGGCCCTGGGATAGGAGCGGAAGTTGAGGACTGGCCTGTGCAGGAGG
Celera SNP ID:            hCV16064612
SNP Position Genomic:     28945
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21920):
ATCCTCTGGTTTGGGTTGAGTGGAGCCTGGCTGTGGGGCCTTTGTTTGTTCTCTGCACAGTGGCCATTCCGTTATGTGGCCCCTCCTGGGCCTCTACCCA
R
TGTGGAGGGGAAGCTGGCTGCGACGGCATGTCCCTCTCAGAGGAGGGCTCCAGGTGGGATCTGAGCCCAGGGCTGGGAAGCCTGGGGCATGGCGAGTTGG
Celera SNP ID:            hCV11548417
SNP Position Genomic:     104348
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21921):
TGAGTTCAGTTGGGTGGTTCTAGACCTCCAGGCCCAGGGCCTAGGATGTAATATTTCAGGTAATGGGGAGCCATTGAAGGATTTTGAGCTAGGGTAGATG
K
AAGTGGAGGCAGGTGGAGAAACTGTGGGATTGCAGCATATGGGGGCCAGGACCAGGTAACAGGTGTGTGGATGGAGTGGGGGATGGATGCAAGAGACAGG
Celera SNP ID:            hCV16138171
SNP Position Genomic:     91509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21922):
TAGACTTTACTCTTGAAAGGATCTGGCTTCCCAGCTAGTCTGGGCGCTCTGGTCAGGGTAGGAACTGGATGTTACTTTCTGGAACTCTTTCTTTTTTTTT
T
GGGTTGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGTCATTCTCCTGCCTCA
Celera SNP ID:            hCV11548419
SNP Position Genomic:     103557
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21923):
ACTCCAGCCTGAGTGATAGAGTGAGACTCCGTCTTAAAAAAAAAGAAAAAAAAAAGAAAAAAAAAAGAAGTTAGGACCTATGTCACTGGTTTTCATTAAT
K
GAAAAAACTGTTGAGACTCTACATAGTTTTGGGCATGGGGGAAGAATAATGACAAAAACAGAGAGATCTCTGCTCTCAAGGAACTTAGATTTATGAGGGG
Celera SNP ID:            hCV509412
SNP Position Genomic:     108088
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21924):
GCAGGCCCCCTTCTCAGAGCTCCCCTCCCCCTCCCTGGTGAAGAGGAAAGGAAGTTGGAGCCGCCCCCACCTCGGGAAGCCCTTTGAGTGTCCATCAGGT
S
GGTGAGGGAGGAGCTGGGGTGTGTGGTCCCTTGCCAGATTCTGCAGCTCTGGCACCTGCAGGGTTGAGGAGGGTCTGGGAGGACGCTCCCTGACCCACCC
Celera SNP ID:            hCV16243008
SNP Position Genomic:     40068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21925):
TCCCTTTCCTTCTTGTCTTTTTTCCCAGGCCTGCCAACCACAGGTACGTGGTTCAGGGGGCTCCGGGGCTCTGGGGCTCTGGGGCTCTGGGGCTCTGGTG
Y
CATGTGATTCTGGATATGGGGCTGGGGCCTGGGCGCCTGGTGCTTCTACCCTGGCGAGGGATCCCTGCTCTGCCTGGCTTGGTTTTGGTCTGAGGTCTTG
Celera SNP ID:            hCV25938240
SNP Position Genomic:     100661
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,40)   total(C,73|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:21926):
ACATCCCAAGCTCGCCATGCTCTTTGCTTGTTACCAGGTGACCATTCAGGTGCCATAGTCCATGGAAGCCTTGATATCAGGCAGCAGAGTGTGGCTTTAA
M
CTCATTCCACACAGGTGACTCAGATAATTATCTAAATGAAAACCCCAAATAAGGCTTCCCCTCCACTCCCCTGGGGCTTCATAAGACCTCAGTGTGCAAA
Celera SNP ID:            hCV11548420
SNP Position Genomic:     102793
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21927):
GTGTCATCACACGTGACCTGTGCCATCACACATGACCTGTGCCATCATACATGGCTGGTGCCCAGAAGGGCCCCATGCTTGCTTTCATGTTCTGCCATGG
Y
CATCTTGAAATTCATAGTCACTTTGAACAAGAGCCTGTGTTTTCGTTTTGCACTGGACCGCAAGAGTCATGTAGCCAGACCCGGTCACATGTTCATTACC
Celera SNP ID:            hCV11548425
SNP Position Genomic:     97786
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21928):
AAGGCTTAGAGAGGTGCCCAGAGCTAGAGAAGGGCAGAGTCTAAGACTGGGCCTTTCCCCCGCTTCGGCCACACACTGTGGGAATGGGTGGATTCGGCAG
K
TGTACTCGGGGACACCTTCTAGGGTGTTGGCCTGTTCTTTTTTGCCCAGGAAAATGCCAAGAGAAGGGCCTCAGATGATCCCTTGAAAGACCACTTTGGG
Celera SNP ID:            hCV11548430
SNP Position Genomic:     80450
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21929):
GGTACGTGGCCTGGCCTGACCTTTTTGGCCTGAGCTCCCCAGTGTGGGCAGTGCCTGGATTCAGAAAGCTGAGTAGGGAGGGGCTCCTCTCCTGGCCCAT
R
TCCCCGATGTGCTCCTAGCTTCTGAGCTCCTGTTGGCAACTGTCGCTGCTGAAGCTCCATGTCCCTGCCTGGAAGTCTCTTTTGCGGCCGCTGGTTCGGG
Celera SNP ID:            hCV25932513
SNP Position Genomic:     104144
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(G,40)   total(A,5|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:21930):
TCTCAGGAAGCCAAGGCTTAGAGAGGTGCCCAGAGCTAGAGAAGGGCAGAGTCTAAGACTGGGCCTTTCCCCCGCTTCGGCCACACACTGTGGGAATGGG
K
GGATTCGGCAGGTGTACTCGGGGACACCTTCTAGGGTGTTGGCCTGTTCTTTTTTGCCCAGGAAAATGCCAAGAGAAGGGCCTCAGATGATCCCTTGAAA
Celera SNP ID:            hCV11548431
SNP Position Genomic:     80438
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21931):
ACCCTTTACAGTTACGAGACCTTTCACAGATACCCGCGAGAGGCCTGCAACCCAGGGTAGGGGCGGGGCTAACCTCTCAGGAAGCCAAGGCTTAGAGAGG
K
GCCCAGAGCTAGAGAAGGGCAGAGTCTAAGACTGGGCCTTTCCCCCGCTTCGGCCACACACTGTGGGAATGGGTGGATTCGGCAGGTGTACTCGGGGACA
Celera SNP ID:            hCV11548432
SNP Position Genomic:     80364
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21932):
TGCAGGTGGTCAGGGAGGCCTCTCTGAAGAGAGACATTTAAGCCAGACCTGAATGACAAGCAGGAGCTCCCCCTGCAAGGATCTGAGGGAAAAGTATTCC
R
GGTAGGAGCTACAGCAAATGCAAAAGCCCTGAGGCCAGATGAACTTGGCCTGTTTAGGAGGGTGTGGAAGAGGCCATGTTAGTTAGGACTGTTACTCTAG
Celera SNP ID:            hCV8860057
SNP Position Genomic:     15634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21933):
CTGGGTTCAATAGATTTTCCTGCTTCAGCCTCCTGAATAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGGTGGG
S
TTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGATCTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCG
Celera SNP ID:            hCV11548506
SNP Position Genomic:     26797
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,14)   total(G,14|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21934):
GCAGGAGGCATCCAGGCATGTGCCAAGGCTCAGGGGAGGGAATAGCAGGGCCATGTCAGGGAGGGTGCAGGAGGGTGCTGCTCAGGAGCTCTGTCCATTG
Y
ACTAGGGGCTTGTACTTTATCTTGTGGGCCCTGCGAGCCAGTCAACTGTTTCAAGCTAGGGGATGACGGGATTAGAACTTTTTGTTTGGGGTAGAGATTG
Celera SNP ID:            hCV8860058
SNP Position Genomic:     17557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21935):
TTGTCCCCAGTGCCAAGCTGGGGCCTGGCAGGCAGTAGGTGCGCAGTGAGAAGTTGGCTGAGTGGGGAAGGATGAGTGGCTTACTTTGTGAAAGGTGGAG
R
AGGTGAGCCTGACCCCTGGAGGTGAGGAGGGTGAACTGGGGTCACAGATTCCCCAAAGGTTGTACCTCAGCTTGGCCCCCTGGAGGCTTTAGTTCAGCCC
Celera SNP ID:            hCV8860059
SNP Position Genomic:     38854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21936):
ACAGCAGTGGTTCACGACAGAGCTGGGATTCCAACTTGGGTCTGCAGTGTGCCAGAGCTCAAACGTCCTCCATCCTGCAGTGCTGCCCGCTTTATTGGAA
Y
GTGAAGCCTTCCAGGAGGAGGAGAGCAGACCCTTTACAGTTACGAGACCTTTCACAGATACCCGCGAGAGGCCTGCAACCCAGGGTAGGGGCGGGGCTAA
Celera SNP ID:            hCV11548435
SNP Position Genomic:     80235
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21937):
CGGACGCAGCCTTCTCCGGGGCCCGGCACTCCAGCTGGAAGCGGAAGAGTTCCCGTCGCAGTAAGTCTCCCCTCCGGCCCACCGCCCACCCCAGGTAGCA
R
GCTCCAGGATATTCTAGTCTTTCTAACCCAAGAGAGCTGATGTGGGCTCCTGTGAGCCCAGGGTTCATCCTCACCGGGGGCTTCTGTGGCCCTGGAGGAC
Celera SNP ID:            hCV27908941
SNP Position Genomic:     68300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21938):
TGATGGCCTCTCTGGGTCTCTGCTCCCAGGTCGGGGGCGGACAGGAAGGCGCAGGGGGCCAGGTGGAAATCTTTTCCTTGAACCGGCCCTCGCCCCGCAC
Y
GTCAAGTCCTTCCCACTGGCAGCCCCTGTGCTCTGCATGGAGTATATCCCGGAGCTGGAGGAGGAGGCGGAGAGCAGAGACGAGAGCCCGACAGTTGCTG
Celera SNP ID:            hCV25933177
SNP Position Genomic:     121992
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:21939):
CGTCGCAGGCACCGTGCAAGGCGCCCCCGTGGGTTAGTTCCTTGGCATCTGGATCTTCCCCTGCTTTCCCCTTTCCTCTGCTGGCCAGCGTGGAGTGCGG
R
TAGAAGGACGTATCTCCCGTGATGGCTGTGAGGATGCAGTGAGGCAGTGTGGAAACTGTGAGGTGCAGGGCACGTAGAAGTGTCTGTTATGGCAACGCGC
Celera SNP ID:            hCV27480836
SNP Position Genomic:     111868
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,277|A,1214)   total(G,277|A,1214) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21940):
GATCAGCTGGTTCCAGGAGTCCCAGGCCCCTCCTCTGAGGCAGAGGACGACCCAGGAGAGGCGTTTGAGTTTGATGACAGTGATGATGAAGAGGACACCA
R
CGCAGCCCTGGGCGTCCCCAGCCTTGCTCCTGAGAGGGACACAGACCCCCCACTGATCCACTTGGACTCCATCCCTGTCACTGGTAAGATGTTTCTGGGA
Celera SNP ID:            hCV25934554
SNP Position Genomic:     53605
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,40)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:21941):
CCTCTGCTGGCCAGCGTGGAGTGCGGATAGAAGGACGTATCTCCCGTGATGGCTGTGAGGATGCAGTGAGGCAGTGTGGAAACTGTGAGGTGCAGGGCAC
R
TAGAAGTGTCTGTTATGGCAACGCGCGTGCCCTGTGTGGTCGTGCCCTTTCCCTGAGGGTCTCTTATGTAGGCCTTTCCTCCCTGGTGGCAGGGATCAGG
Celera SNP ID:            hCV27480837
SNP Position Genomic:     111942
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,124|G,1343)   total(G,1343|A,124) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21942):
CTCTTCCACACTGAGACCCTGGAGCATCTGCAAGAGATCAACATCGCCACCAGGACCACCTTCCTCCTGCCAGGTGAGGCTGCCTCGGGCACGGGGGAGC
R
GACAGTCACAGAGCACCTTCCACGGCCAGGTAGTGGTGTGACCTGGGCAGCCCATCCCATTTTCCCTCATCAGCCCTGAAAACTGGGGCTTTAATTTGGG
Celera SNP ID:            hCV16187874
SNP Position Genomic:     153817
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,43|G,700)   total(G,700|A,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21943):
GGAGTGCTCAGTGTGTCATGACCGCTTCTCCAACCTCTCCCCGCAGCATCCTCCTCTACAGCAGTGTGGACACTGGCACCCAGTGCCTGGTGAGCTGCAG
R
AGCCCAGGTCTGCAGCCTGTGCTCTGCCTGCGACACAGCCCCTTCCACCTGCTCGCTGGCCTGCAGGATGGGACCCTTGCTGCTTACCCTCGGACCAGCG
Celera SNP ID:            hCV16187875
SNP Position Genomic:     122650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:21944):
CTTATCTGAAAGCTGCTCACTTTCAGAGACCCTGGGCTGATACAGAGCCTCTTGCAGGCCTCTTCTAGCCGGAAGGTTCTAGGAAAGGAAGAACAAATGT
R
AGCGTGTAGGAACTGCCTGGAGAAGCAGGCACTCGTGAAGCATGTTGCTTTCCTGGCCCCCACCCACAGGGATTCTAATCCAGGGAGAGTTGGATGGGGC
Celera SNP ID:            hCV25997634
SNP Position Genomic:     120503
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,40)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:21945):
TCCCTTGGCAGTGCCCCTCCGTGAGCTCCAGCTCTTTCCTGCCATTCTTCCGTCTGTACACCTGCTGGGTTGCAGGGACGCACATGGACCTCCCTTTCCC
K
GCCTGCCTCATCCTCCTGGGGGGCTTTGGGTAGGTCCCTTCCCATCTGAGCCTCAGCTTCCCTGTGTCTAAAAAGGAGGTGAGGAAACCCACCTCTCAGG
Celera SNP ID:            hCV8860060
SNP Position Genomic:     39153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21946):
TCCTCCTGGGGGGCTTTGGGTAGGTCCCTTCCCATCTGAGCCTCAGCTTCCCTGTGTCTAAAAAGGAGGTGAGGAAACCCACCTCTCAGGCTGCCTGCAG
M
CTAAACACACTCTCATGCTAAGTGGCGAGGGCCCAGCAGCGAGGACGCCCAGCAGCTGGGAGGCGGGCATCCCTGTTGTAGGTGGGGAAGCTGAGGCTCT
Celera SNP ID:            hCV8860061
SNP Position Genomic:     39264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21947):
CCTTCCCATCTGAGCCTCAGCTTCCCTGTGTCTAAAAAGGAGGTGAGGAAACCCACCTCTCAGGCTGCCTGCAGCCTAAACACACTCTCATGCTAAGTGG
Y
GAGGGCCCAGCAGCGAGGACGCCCAGCAGCTGGGAGGCGGGCATCCCTGTTGTAGGTGGGGAAGCTGAGGCTCTGATGGGCGAGTTGATGGCACACAGTA
Celera SNP ID:            hCV8860062
SNP Position Genomic:     39290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21948):
CTGGGCAGGGCTGGGTGGCCGCTGCCCAGCTCATCCCAGCAGTCCAGCTGCTGCTTCCCCCGCTTCTGCCTGGACCTTGTTAGAGAAAGAGGCCGGCCTT
Y
CCTGTCCTCAAGGCACGACTTGCGCAGCCTTCCAGACTTTCAGGGCCCCCAAGTGTTTTCTTCCTCCAGGCCTCATTCAGGTGGAAGAGGGATGGGGCAG
Celera SNP ID:            hCV8860063
SNP Position Genomic:     42095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21949):
CACTTGGTGTTTGTTCTCTGTCTTTGCTGTGGCCTCTGCCTGGAATCCACGCTTTAGTTGGAGCTTGTCAGGCCTTTTCTCATCCTTTAAGGCTCAGTGC
R
AGGGCAGCCTCATCCTCGGAGCCCTTCCTGAAGCCCCAGAGAGCCCCAGCCCCTTCCTCTTGGCACCGTCTCAGTCTCTGAGGTTTTTGGTTTTCTCCTG
Celera SNP ID:            hCV8860064
SNP Position Genomic:     48706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21950):
GTGCCTTCCCCTGCCCCAGCCAGTCTGTGCCCTAGTACCTGCAAGCTGGCTGCCTCCAAGTCCAGGCATTCCCAGGCAGCTGTGTTTCATGCTGCTGCAC
R
TACCAAATAAAGTGTAGTGGGAAGGATGCGCTGTCTGTGCTCATTTGCACACACAAAGCACACAGACACATCAACACACAAACATACAATAAGCTTGTGC
Celera SNP ID:            hCV8860065
SNP Position Genomic:     53057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21951):
GCATAAACACACATGTAAAAAGACCCCTTGCTCACAAAACAGGGAAACACGAAATAAGAAGAGGAAAGATATACATTGAAGTACTGAGGTGCACAGGCTC
R
CCCTGGGAGCACACTCCCTTCCCTCCCTCAACTGCCACTTGCTTAGAGACCTAACCCAACCCCCTCCCCCCGGCCTTACCAGCACTGTAGGGCCATGTGG
Celera SNP ID:            hCV8860066
SNP Position Genomic:     53262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21952):
CTTTGGAGACAGTTGCTGCCCAGAGCTTGTGTCTCTGAAGTCCTCCCTGCAGCTTCTCCTAAAGAATCCACACCAGCCAGAAGAGCAGCCTCCCAGAGGT
Y
CCCTCTCCTGTCTGCCTTGGGGAGCTGGCAACCCTGGGGGGCAGGAGGGCCCTGATAAGCTGGTGTTAAATGGCAGCTTCTGGGCTCTTAGAGTCTGTTA
Celera SNP ID:            hCV8860067
SNP Position Genomic:     54032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21953):
GGGTGGTGCAGGCCAGGTAGGGGAGCTGATGACTGAGCCAGGGCTGGGGGAGGGAGGCGGGGCTCAGCAGGCACCCAGACTGGCCAGGCCCTGTCTGCGG
Y
GCCCCTGGGGAGGCTGGGAAAGGGGCGGGGAAGGCCTGAGTGCCTGGGGCCAGCCTCTGGCCTGACAGGCTCTCTGTCTGCTCTTCTTTTGCAGACCCAG
Celera SNP ID:            hCV8860068
SNP Position Genomic:     54394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21954):
TTGGGGCCTGGAGCCAGGGGAAGTGATGGGGCAGCCGTATTCTGGGAGAGGACAGGGAGACTCATCTTCCCTGGATGTATCAGGGGCTGAGAGGATCAGG
S
CAAGAGGAGACCAGGCTCAGCAAAGCAGTATTGGCACAGGATGGAAACAGGGCGCTGGTGGCCTGTGGCTTCTGAGACTGCTAGGTGTGGGGGACATAGG
Celera SNP ID:            hCV8860069
SNP Position Genomic:     58582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21955):
GCCACTGTTGCTGTTGTTGTTAGTGTTATGCCTGCCGAGGGTCCCAGCACTGGCCTGCCTGGGGCTGATGTGGGCTCAGCAGAAGCTTGGAGAGGAGCTC
R
GGCCAGCTCTGCCATTGATTTGGGCACAGGGCTTTGTGCCTTTGTGCCTTGGCTTCTTCACATAAAGCAGGAAAATCCCCAGCTCACAGGCCTTTGGGGA
Celera SNP ID:            hCV11548444
SNP Position Genomic:     71248
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21956):
GAGCTGGAGGAGGCGGGCACAACCCCTCCCCTCCAACTGCCAGCTTTTTTTTTTTTTTTTTAAATTACTTTGCCTTTTCTCCCATAACTTTTTTTTTTTT
T
GGAGACGGAGTTTCACTCTGTTGCTCAGGCTGAATTGCAGTGGCGTGATCTCGGCTCACTGCAATTTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCTTC
Celera SNP ID:            hCV11548375
SNP Position Genomic:     146842
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21957):
GCAGTGGTGTGATCATGGCTCACTGCATCCTTGACCTTCCAGGCTTGAGCGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACTACAGGCATGTGCCA
Y
CATGCCTGGCTATTTTTTTTTTTTTTTTTTCTGAGACAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGTGGTGGCGCCATCTCGGCTCACTGCAACCTTTG
Celera SNP ID:            hCV11548449
SNP Position Genomic:     57439
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21958):
GAATATCAATAGCCCATACTTCAAGATGCTTTTTCTATTCCACTTCCTCCAGAATAGCCAGGTGCACTGATAGATTTCAGGGTTTTTTTTTTTTTTTTTT
T
GAGATGGAGTTTTGTTCTTGTTGAACAGGCTAGAGTGCAATGGCGTGATCTCGGCTCACTGCAACATCTGCCTCCCAGGTTCAGGCGACTCTCCGGTCTC
Celera SNP ID:            hCV11548378
SNP Position Genomic:     144478
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21959):
CCCTGCAGAGGCTGATGCGGGTGAAGGAGGAAGAGATCCACTCGGCCAACAAGTGCCGTCTCAGGCTCCTGCTTCCTGGGAAACCCGACAAGTGAGAGGA
R
GGGGTCTTGGAGGGAGGGCTGCTGCCTCTGCTGGGCTTCCAGTGGAGCAGGGGATCCGGAGAGGGTACCTGGAGCCCTCTTATTTGTCGAGATGCCATGG
Celera SNP ID:            hCV16187885
SNP Position Genomic:     104740
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(A,5|G,33)   total(A,11|G,63)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,24|G,1471)   total(G,1471|A,24) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21960):
ATTGCCGGTCCTGAGGGTGTACCACCTGCCTCACTCACCTCCCTCTGCCCCTTCTCTCTGCTGCAGCCATGCCAGCCCCTCTGGGCTCCTGGATGGGCCA
Y
GCTCCCTCCCACCACGCCCTCTCCAGCCTGTGCCTTTTGCCAAGTACTCTCCTGCCATCCTGTTTTTGTCTCATCTGCTCTTGGCTCAAATGGCACTTCC
Celera SNP ID:            hCV76965
SNP Position Genomic:     101560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21961):
TCTGAGACTGCTAGGTGTGGGGGACATAGGGGCTCATGGGAAGGGCAGGTCAGCAAGGCCGGAGTGGGTCCGCAGCGTCTGGAGGAAATCTTCAAGATTT
Y
CCAGATTGCCGCAGACCTAGTCTGGAGTCGTTTGGAATCCTGGGCTTCTCCTTACATGTGCTGTTTCCCAAATCCGGAACATTTGAGCCTCCTGCGTCCT
Celera SNP ID:            hCV8860070
SNP Position Genomic:     58753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21962):
GGGCTCATGGGAAGGGCAGGTCAGCAAGGCCGGAGTGGGTCCGCAGCGTCTGGAGGAAATCTTCAAGATTTTCCAGATTGCCGCAGACCTAGTCTGGAGT
Y
GTTTGGAATCCTGGGCTTCTCCTTACATGTGCTGTTTCCCAAATCCGGAACATTTGAGCCTCCTGCGTCCTGTCCCGCAGGGTCCATGCGGGACGTGAGG
Celera SNP ID:            hCV8860071
SNP Position Genomic:     58782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21963):
TGGGCTATCAGAAAGGAGGGTGCTGCGTGCCACCAGCTGGTGCAGTCCTGATGTCATCTGCAGCACCTCTGGCCAGGCTGCCACAGCCCACGGTGGTGCT
S
TCTCTCCCCACTTCCCTCCCAGTTGACCGGTTCACTTTCCCCGCCCTGGAAGAGGATGTGATTTATGACGACGTCCCCTGCGAGAGCCCAGATGCGCATC
Celera SNP ID:            hCV8860072
SNP Position Genomic:     69526
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,6)   caucasian(C,6|G,12)   total(C,14|G,18)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21964):
CTTTTAACCAGACAGGTCATTAATAAAATGTTCTCCAAGAGCCTGAGCTTTTTAAAGTTGTATATCTCCAGATAGATGGCTTGGGTGAGTTGAACACTGC
Y
GCATTAAGTCTCTGTGATAAAATATTTATTCACCATTAGAATTTTTTTTTTCTTTCGGACTGTTTGTGAAGTGTCTTGCTCTTTTCCTTGAGGTGGAGGG
Celera SNP ID:            hCV8860073
SNP Position Genomic:     158233
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,12)      total(C,5|T,12) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:21965):
GGCTGGAGTGCAGTGGTGTGATCATGGCTCACTGCATCCTTGACCTTCCAGGCTTGAGCGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACTACAGG
M
ATGTGCCATCATGCCTGGCTATTTTTTTTTTTTTTTTTTCTGAGACAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGTGGTGGCGCCATCTCGGCTCACTG
Celera SNP ID:            hCV11548450
SNP Position Genomic:     57430
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21966):
GAGGCTTGTGCGGCAGTGCCTGGTGTGTGATTCCTGGTGAGGTCCCTTCCCTTGACATGAGAGCAGAGCAAAAAGAGCCGGCTCTTCGCTCCCCCAACAC
R
GAGATCTTGTGAGGGCGGAGGGGTGTGCAGGTGTGTCTCTCCACCAGCAGTTGCCTCTATGGGGACAGGGACTTTTTGATTTTTTGGAGGGGGATGTTTT
Celera SNP ID:            hCV11548454
SNP Position Genomic:     56510
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21967):
GTTCCATAGGTCCCTCCCGGGGAGGCTTGTGCGGCAGTGCCTGGTGTGTGATTCCTGGTGAGGTCCCTTCCCTTGACATGAGAGCAGAGCAAAAAGAGCC
R
GCTCTTCGCTCCCCCAACACGGAGATCTTGTGAGGGCGGAGGGGTGTGCAGGTGTGTCTCTCCACCAGCAGTTGCCTCTATGGGGACAGGGACTTTTTGA
Celera SNP ID:            hCV11548455
SNP Position Genomic:     56489
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21968):
GCGTCTAAGCAGTCGGTGGAATGTTCCATAGGTCCCTCCCGGGGAGGCTTGTGCGGCAGTGCCTGGTGTGTGATTCCTGGTGAGGTCCCTTCCCTTGACA
W
GAGAGCAGAGCAAAAAGAGCCGGCTCTTCGCTCCCCCAACACGGAGATCTTGTGAGGGCGGAGGGGTGTGCAGGTGTGTCTCTCCACCAGCAGTTGCCTC
Celera SNP ID:            hCV11548456
SNP Position Genomic:     56467
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4)   total(A,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21969):
GTAGGGAGAGAGGCTGCGGCCTGGCCTGCGGCCTCACCCCGCCCTCCCCGGCAGGACTACCGCAACCCCCTGATGGAGATGGAGCCCAAGGCGCTGAGCG
Y
CCGCAAGTGCCAGGTGGTGTTCTTCCGCGTGAAGGAGATCCTGCACTGCCACTCCATGTTCCAGATCGCCCTGTCCTCCCGCGTGGCTGAGTGGGATTCC
Celera SNP ID:            hCV25934640
SNP Position Genomic:     89083
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,1)   total(C,73|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:21970):
CAGTAGGCATCTGGGAGGTAAATGGATTGGTGATGGGATGGCACACTGTGTTAGGCAATGCTGGGTGTACCCCGAGTCGGTAACCTGCCTTTTGGGGTGA
R
AGAGCCACACCATTTCTCTCTGTGCCTGCACTGCAGAGGAAGCACATACACCCACATGTATGGAGTTGAAGTGTCATGCCCAAGGAGGGAGAGGTGATGG
Celera SNP ID:            hCV16106095
SNP Position Genomic:     160486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21971):
TTATCCATCCAACAAGAATATATATTTAATCCATCCATTTATTTATCTGTCCATCCATCCACCCACCCACCCATCCATTCATTCACCGATACATCCTTCC
R
TCTATCTGTCTATCATCTGTCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCTATCCATCCATCCATCCAACAAGAATATATTGAGTATGT
Celera SNP ID:            hCV11548398
SNP Position Genomic:     121460
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21972):
GAGGAGGCTGGATGAGGTGACCTCTTAGGGCCCTCGCCCATGGCCATTAGAAATTTTGTTAGAATATTCTAACAATGGGTCCAGGGACGGCTGGGGCCTT
Y
AGCACCAGCAGAGGGCAGCAGCTGCCTGGAAAAGGGCCCAGTGGTCGGCTGCATCCTCCTTCCAGCCAAGAGCAGTCTCTACTCTGTCTTCTCCTTCAGT
Celera SNP ID:            hCV11548399
SNP Position Genomic:     119980
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21973):
GCAGAGGGCGAGGGGAGGGGGAGATGGGGAGCACTTCCCAGAGCCCTGTGCTATGAGCTCTGTCACTTTGGGCAGGTGTCTCACCTCTCTGCAGTCTTGG
K
TCCCTCGCCTGTAGAGATAATATGAAATGTGACCAATAGGACTGAAGTAATAACCAGTGTCCACTGTAGGCCTGAAGTGTGCCAGGTACCACGCATGATC
Celera SNP ID:            hCV16064599
SNP Position Genomic:     18328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21974):
AGCCATCCCTAGCACAGGTTACGATGTCAGGAGGGCAGGAGGGCAGGGCTAACCGTGTTTGGACTGCTGTGCTCCAGGGCAGGGGTAAAGTGCTTAATGC
R
TGTGTGTTATCTTAATTCTCATGCACCCCTTGAGAATTTCCTTTGCTTTACTGAGATGATGCTGACTGGAGACCAGACGCACCTTCTCCCCAGCCATGTG
Celera SNP ID:            hCV1477129
SNP Position Genomic:     123336
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21975):
CAGCATTCTCTCCCGAGGAGGCTCGGGGTGATCTGTCCTTTTCTCTCCTGGGGATGCCTGGGGGTGATCTGTGTTTTTCTCTCTGGGGAGGCTCAGGGTG
W
TCTGTCCTTTTCTCTCCTGGGGATGCTCGGGGTGATCTGTCCTTTTCTGTCCTGGGGATGCCCGGGGGTGATCTATCTTTTTCTCTCTGGGGAGGCTCAG
Celera SNP ID:            hCV16154045
SNP Position Genomic:     96995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21976):
GGGGGCTTCTGTGGCCCTGGAGGACCAACCACCGCCCCCAAGAGCCAAGGTCCAGGATCAGTTGACACACCCAGTTTTTCATCTGCTCCTCAAATACTTA
Y
GAAGTTCCCACAACAGGCCAGGGCGGCCCAGTGGTGGGAGTGCCCTGGGGACCAGAATGAGGTCCCTCTGTTAACAGAACCAGACACCTTGCCATGGGAA
Celera SNP ID:            hCV970207
SNP Position Genomic:     68476
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:21977):
TTACCAGTGAGGAAGCTGCAGCTCAGGTAAAGAGACTTCTCTAGCTAGTAAGCAGAGATCCATGATTTGAGCAGGAGCCTACATGCCTCCAGAACTCACA
S
TCTTGATCCTTCTGTCTACTTCTCTAGAAGTAGCACCTGTCTTGGTCTTTTGTGTACTTTACCAAATATCACTGTTGCTCATATGGTTCGTGCATTTGAA
Celera SNP ID:            hCV214121
SNP Position Genomic:     77872
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21978):
CTGGCCTTGCCCCATCCCGCCCCTGCTGCCATGGGCACCTGTTCCCTTTCCTCTCCCCACCAAGAGGCCTGAACCTGAACATGGGGAGTGAGAAAAAAAA
A
TTTATGACTAAGTCAATTCTGTTCTGTTCAGCAAACATTTGACAAATATTTGTTGTTCCAGCTCTTTCTAATATTGCTGGCTAGTATCATCTGGGTGAAC
Celera SNP ID:            hCV11548472
SNP Position Genomic:     48359
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21979):
GGCAGCTTCCTGTCCTCTTGTATCACTATGAGAGAGGCAGAATTGCAGATGGTAATGAGTGAGGGCTTTGTCCTCAGCCCCATCTGAGTTTGAATCCTGA
S
CCTGCCACTTAGACTGTGGGGCTGGTTAAGTGACATGTTGTCTCTGTGGCTTAGTTTCATCATCAGTAAACATGGGGACAATGATACCCTCTCCTGGGCT
Celera SNP ID:            hCV11548473
SNP Position Genomic:     47651
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21980):
GGCCTTTGGGCCCCTTTCTCTCTCGCCCCATTTTCTGCAGGGAAAGGCATGGTCTCACTCAACGGGCACTGTGGGCCTGTGGCCTTCCTGGCTGTGGCTA
Y
CAGCATCCTGGCCCCTGACATCCTGCGGAGTGACCAGGAGGAGGCTGAGGGGCCCCGGGCTGAGGAGGACAAGCCAGACGGGCAGGCACACGAGCCCATG
Celera SNP ID:            hCV25936331
SNP Position Genomic:     163933
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:21981):
GAGGTGTGAGGACAGAGTCCAGGGAAGGCCAGTGTCGGGAGGTCCAGGAGCTGATCAGGAAGCACGGGGGAGGCTGAGATGCCCGGATGAAGGTGGAAGA
M
CGGAAGGGCAGGGTGAGGGTTGGAAGGGGAGGGGGTGATCTGTGCTGAATGCTGCTGAGGTTAAGGAGGAGCCTGAGGCCTACCTTGGATTTAGCCACAC
Celera SNP ID:            hCV1477200
SNP Position Genomic:     168257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,6)      total(A,5|C,6) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:21982):
TGGTGTGGAGGAGCAATGCCCTGGGCCAGCCCTGGGGCAGGGTGGCTGCAGCCTCTCCAGGGCCTTGTCCTCTCTGTTCCAACAGGGGCCAGCTGGAGAT
Y
AGCAGCCTGGTGCCCCTGGGGCCCAAGTATGTGGTGAAGTGGAACACGGCGCTGCCCCAGGTGCAGGTGGTGGAGGTGGGCCAGGACGGTGGCACCTATG
Celera SNP ID:            hCV25997233
SNP Position Genomic:     100891
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36|T,4)   total(C,71|T,5)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:21983):
TCAGGCGCTGAGCTCTGTTCTTGCTTTGTAAAAGGAAGCAGAGCCTGAGACAAGGATTTTGATTCAGGTCGTTTATTTGGGAGGGGAGACCAGGGAACCC
Y
GATGGGGGCATAAAATGGGGAAGAGAAGGCAGCCAGTGCCGGGGGAGGTATTGAACATGTTACTAAGTGGGTACCTCGGGCTCAAGTCTGCTGAGGGGCT
Celera SNP ID:            hCV1477202
SNP Position Genomic:     170141
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:21984):
TTGGCTTTGGCCCATTCCCTCTTACTGCTCGATTCACCAGTTTGGGCACCTGGGTTGGAAGGAGGTGAGGCTGCCCTGACAAGGACCACAAATGGCAGAC
W
TGTAGCGTCGCATATCCTAGAGGCTGGAAGCCTGGGGTCCGTGTTTGGATGGGTCATGTGCCCTCAGAAGGCACTAGGGAAGGGCCTTACTCCCAGCTGC
Celera SNP ID:            hCV1477130
SNP Position Genomic:     124015
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21985):
CATATTCTGAGGTACTGGGGGCTGGGACCTCAACATACAGATGAGGAGGCACAGTTTACCCCAAAACATGGGGTTTGGGGTCCACCCATTGGCTTCTAGT
S
TGGGGTTGGAGCCTGTTAGTCAGGACCAAAAGAGCCACTGGGACCATTGAACCCCACGCCCTCATTTTCTGGATGGGAGCAGACTGTCCAGAGCCCCCTG
Celera SNP ID:            hCV1477131
SNP Position Genomic:     124406
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21986):
GCAGATGTGAGGGGGCTTTGGCTTGTCCAGGTAGAGTGGAGGACATGGGGTCTGAAGGCTGAGATGTTCTACCAGCTTTCCTGCCTTGCAAACATGTGTG
Y
ACCAAACGCTTACTGAGCACGTACTATATGCCATGGACACAGTGGTGAGCAAAATGGACAGGCCGCCTGCTCTCATGGAGCTTACAGTCTATAGAGGGAG
Celera SNP ID:            hCV1477132
SNP Position Genomic:     124656
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21987):
TCCGTGACCAGCTGTGGGACTGGCATCAGCTTGGCCCTCATCCAGATTCACTGAGGCCTTAGATACCCCTCAGATACCCCCACCCATCCCAGCAGCAGAG
Y
CAGGGCTTGGAACTGCACCCGCATCAACCTCGCAGGCTCTGTATCAACCTCAGAACCCACCATAGTGGCCCTGGTGGTGTGGAGGGTCCAGGGATTGTGA
Celera SNP ID:            hCV1477133
SNP Position Genomic:     125593
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21988):
GGATGGGTTGGGCATCAGGCTGCCGGGATTGAGTCCTCACTGTGAGAGCTTGGGCCTTTCCTTTGCCCCTCTAATCCTCAGTTTCCTCACCCGTGAAATG
R
GGGTGTGGACAGCCCCACTTCATAGAATGGTTGTGAAGGGTAGACATGGCAATTCCCACGAGTGCCGCGACACAGCCTGGAGGATTGGCACCTCCCACGT
Celera SNP ID:            hCV1477134
SNP Position Genomic:     126437
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21989):
TGTGCCCAGATAAATATTCTTGCATATTGTATTGACTCCCTGCAACATCCGGAGAAGGGCAGGCGTGGTTATCATGCCCAGTGTGCAGATAAGGGAAACT
R
AGGTCCAGAGAGGCGAAGCCCCCGTCCAAGTTCACACAGAAGTTCTGAGGCCGAGGACTGCCCTGCTCTGCCTGCTTCCCTTGGTGCTCACGCTGGCTGG
Celera SNP ID:            hCV1477135
SNP Position Genomic:     128442
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21990):
TGAGGCAAGAGAATTTCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTCCAGCCTGGGGGACAGAGTGAGACACCATCTC
A
AAAAAAAAAAAAAAAAGTTGCTTCTAAATTCTGAGATTTTCTATTTTCAAGGTTTCATCAAATAGGGCATTTTGTCCATCCAGGGGGCATTTGTGGAGGG
Celera SNP ID:            hCV26979260
SNP Position Genomic:     163237
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21991):
GAACCTGTTTTATAGATGGGAAAGAGGTGGGGAGGGAGGGAAAACTGGGCCTGGCAGAGCATGGGGTAGGCCAGGGTATGGTAGGGAAGGATGGGGAGGG
R
GTGGGAGTCTAGTTTGGCTCTTGTGACCACACCCCAGCAGTGGCTTCCATCACGTACCCTGGGGCCCTTCCGGCTTTGGAGACAGCTGTGCCCCATCGTG
Celera SNP ID:            hCV1477136
SNP Position Genomic:     128752
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21992):
TCCACCATATCATGCTGCCTCTTCTGAGAAGCCTCCCTGGATTTCCCCTGGTGCAGAGTTAGTTCCTTCCATCTCAGCAGTTCTCAAGGCCCTTGTGCAC
R
CCTGCTCATTTGTGCTTGGCGTGTCATGTGATAACTGTTGATTAACCTGTTGGTTGCTCTGACCAGTGGGGCTTCCTAGAGGGCGAGACCTGTGTCTGAT
Celera SNP ID:            hCV1477137
SNP Position Genomic:     130022
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:21993):
CAAGGCCCTTGTGCACACCTGCTCATTTGTGCTTGGCGTGTCATGTGATAACTGTTGATTAACCTGTTGGTTGCTCTGACCAGTGGGGCTTCCTAGAGGG
Y
GAGACCTGTGTCTGATTCCTTTCTGTCTTCCCAGCACCCAGTGCATGGCATGGGTGGAGTAGGTGCTTACTGCATGTGTGCGGAATGAATGAATGGGAGA
Celera SNP ID:            hCV1477138
SNP Position Genomic:     130106
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21994):
GCACTATCCTTTGGCTTGTGGCCCTGGAGGCCTGCCTTCCTTTTGCTGACCCTTTCTTATGTCCACCCCGGCACCGCTTTCAGCTCCCAGTGGCATTCCA
R
GGATCGATTGGGCAGAGTTTGTCCGGAAGCAGAGGGGGCCCAAGGTCCCTATTGGGCCTGACCTCTTCCTCTGCCACACATCGCCAAGGCTACCAAGAAC
Celera SNP ID:            hCV1477139
SNP Position Genomic:     130743
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21995):
TGGGATCAGATGAGCAGTAATGCAGCGTATTTATTCATTTATTTATTATGACTTTTTTGAGATGGAGTCTTGTTCTGTCACCCCAGCTGGAGTGCAGTAG
Y
GCGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAACTGGGATTACAGGTGCCCGTCACCACTCCC
Celera SNP ID:            hCV26067900
SNP Position Genomic:     37634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:21996):
CCCAGGAGGGGGAGGTTGCAGTGAGGCAAGATTGTGCCATTGCACTCCAGCCTGGGTGACACAGCCAGACTCCATCTCAAAAAAAAAAAAACAAAAAAAA
M
CAAAAAAAACAAAAAGAAAATGCGTAGGAACATGCTAACCTTTTGGGGTTGGTGACGGGCTCTGTGTTGGATGCCCTCACCTGCAGTATCAGCCTTCAAG
Celera SNP ID:            hCV26067901
SNP Position Genomic:     23405
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21997):
GGGCCTGGGAGCACAGGGGGAGGCTGGGAGCACGGAGGTGAGCCTGGGAGCATAGAGGTGGGCCTGGGAGCATGGCGGCGGGGGGGGGGCCTGGGAGCAC
R
GGGCGGGCCTGGGAGCACGGGGGTGGGCCTGGGAGCATGGGGGTAAGCTTGGCTCTGTCATTCACCCTTTTATGACCTTGGGCAAGGCACAGTCCTCTCT
Celera SNP ID:            hCV26067902
SNP Position Genomic:     22334
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21998):
AGAGGAAGTGCAGAGGATACGTTTGCTAGGTGCTTCCTTGTGGGGGTGGGTACGGCCTCTCTACCTCACGTCCCATCACTTGGAGCTCTCTGCAAAACCC
R
TTCTCCCGGGCCCTAGATGCAAAAATCCACCCAGTTCATCCGCCCTTGAGAAATGATGTTGAGTCAGATCTGGAAACACTAAATGGGTGAGTCACAGTGA
Celera SNP ID:            hCV26067903
SNP Position Genomic:     20169
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:21999):
CTATCTAGGAATCTGTAAGAGTCAAACATTTGCCACCTTTTTCTACTTCCTGTCCTCTATTGCCTGTGGGACTCGAGGAGACTGAGATGAGGAAACAATT
Y
AGTGAACCCTCTATAGTTTGACACACTGTAGTTTGAGGGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGAGTGTCGCTTGAGC
Celera SNP ID:            hCV26067904
SNP Position Genomic:     19509
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22000):
CAAGTGGGGCAGACCCGGGACCAGAACCCCAGCATCCCAGACTCCTGGCCTTCTGCTCCTTTCACTCCTCCAGGGCCTCAGAGGGGGACTGGACTGGGAG
S
CAGTTGCCTGGGTTCTAATCCCACTTCTTCCTTGGACCAGCCAGAAGAGCTTGGGCAACATTTCACTTTGCCCCCTGCCTTTACCCTAAGCCTCAGTTTC
Celera SNP ID:            hCV26067905
SNP Position Genomic:     19229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22001):
ATCACTTGATAGGATCCTGTGGGGCACTAGCATTCTGCCCACTTGACTTTGGGACACCCCAGTCCCTACAACCCCTTAAGTTTTATCACGAAGACTTGGA
R
CTCCAGTGGGCCTCAGCCCCTGGCTCATCATCTTTCAGCCAAGTGGGGCAGACCCGGGACCAGAACCCCAGCATCCCAGACTCCTGGCCTTCTGCTCCTT
Celera SNP ID:            hCV26067906
SNP Position Genomic:     19089
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22002):
CAGCTGGGGCCAGAGCCGGAGGCTCTGCTTTGTGACCCTGGACAAGTCACTTCCCCTCTCTGAGCCTCAGCTTCCCCATCCAGGAATTGATGGAACTTGA
Y
AGAAAGTAAATTAGTGGTTGCCAGGGACCTGAGAGGAGAGGATAATGGAGAATGACTGCTAGACTGCTAGGGGTTTTGGTGGAGGTGATGAAAATGTTCT
Celera SNP ID:            hCV148421
SNP Position Genomic:     106590
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22003):
TTCCAAGATGAGTAAGGTGTGGCGCCCCTTAATCTGGTGAGGGAGGTGGATGGGCAACAGCTGAAGGGTGGGCGGTGCCTGATGCAGGTGGAGGGACTCC
C
GAGGAGGCTTCCCAGGGGAGTGTCCAAGCCAAGCAGTGGAAAAGGCAGAGTTAGGTCAGGAAGCAGGAGGCATCCAGGCATGTGCCAAGGCTCAGGGGAG
Celera SNP ID:            hCV26067907
SNP Position Genomic:     17394
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22004):
GCACTGGGCAAGGAACTGGAGATTCCAAGATGAGTAAGGTGTGGCGCCCCTTAATCTGGTGAGGGAGGTGGATGGGCAACAGCTGAAGGGTGGGCGGTGC
C
TGATGCAGGTGGAGGGACTCCCGAGGAGGCTTCCCAGGGGAGTGTCCAAGCCAAGCAGTGGAAAAGGCAGAGTTAGGTCAGGAAGCAGGAGGCATCCAGG
Celera SNP ID:            hCV26067908
SNP Position Genomic:     17372
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22005):
TGGGAGACTTATTCACTATCATGAGAACAGCATGGGGAAAACCTGCCCCTGTGATTCAATTACCTCCCACCACGTCCCTCCCATGACATGCAGGGATTAT
K
GGAGCTACAATTCAAGATGAGATTTGGGTGGGGACGCAGCCAAACCATATCAAGGGGTGTGAGTGTGGGTGTGGGTGTGTGTGTAATGTACGTAGTGGTG
Celera SNP ID:            hCV26067909
SNP Position Genomic:     11075
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22006):
AACAAGGGAGGATGGCTTGAGCCCAGGAGTTTGGGACCAGCCTGGGCAACAGAGTAAGACCCTATCTCTAGAAAAAATTTTAAAAAATTAGCCAGGCATG
G
TGGTGTGTGCCTGTAGTCCCAGCTACTGGGGAGGCTGAGGCGAGAGGATCACTTGACCCAGGAGTTCCAGGCTACAGTGAGCCATGATTGTGCCACTGCA
Celera SNP ID:            hCV11548485
SNP Position Genomic:     44591
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22007):
GGCGGCTGAGTTCAGTTGGGTGGTTCTAGACCTCCAGGCCCAGGGCCTAGGATGTAATATTTCAGGTAATGGGGAGCCATTGAAGGATTTTGAGCTAGGG
K
AGATGGAAGTGGAGGCAGGTGGAGAAACTGTGGGATTGCAGCATATGGGGGCCAGGACCAGGTAACAGGTGTGTGGATGGAGTGGGGGATGGATGCAAGA
Celera SNP ID:            hCV27474607
SNP Position Genomic:     91503
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,18|T,1445)   total(G,18|T,1445) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22008):
AAACCACATGGAGGGAGAGGCTGCCTGGGTCCTGCCTTGCCCTGGTTCCAGCACTGCCCATGCCTTGGCCCCCAGGATGAGGGACTGGTCTGGGGGGCTC
R
TCCCTGGCTCAGCCTAGGCCCGTGCCTGTCTCTGACCAATAGCACTGCCCGCTCACCTTCACACCTGCAGTCCATCCTGGGCGGGAGACTCAGCATGGTT
Celera SNP ID:            hCV1477140
SNP Position Genomic:     131120
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22009):
TCAGGCAGGGAGCGAATTCTCCCCTCCCAGCCTTTTCCATTCAGGCTTCAGCAGATTGGGTGAGGCCCACCCACACTGGGAAGGCCATGTGCATGACTAA
R
CCTACCATTCAGATGCTAATCTCATCTGGAGACACCCTCACAGACACACTCAGAGCCACGTTTAACCAAATATCTGGGCTCCTCGTGGCTCAGTCAAGTT
Celera SNP ID:            hCV1477141
SNP Position Genomic:     132169
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22010):
AGGACCTGGCAGTGAGGACCTTTAACCTCACTGGTGCTACTGGGCTGGGCCAAGGGACAGTGAGACACCAACAGGAGGGAAACTCCTGCCTTAGCACTCC
Y
GGTTCCTCGGTCCCCTTTCTCCCCCAAGAACAGCTGGAGCAACTGCAGCTGCAGACTCCCTTCCCAGCCCCTGGTTCATGCTGGGGGCTTCCCTGCTATC
Celera SNP ID:            hCV1477142
SNP Position Genomic:     132667
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22011):
ATGAAAGGGTCTGGAGGGAGGGGAAGCCAGAAATTACAGGCAGGGGCCTGCGAGAGCAGAGAAGTGGCTGCCGGCTGCTGGCAGGGGAGGTGTGAGTGGC
R
CGGCCCCAGGGCACAGAGCTGCCCCTGTGAGCTGGGCCTGTGGGGCTCCTCCCAGGCTCTTCAGGCAGCTCAGGAGCACTTGAGACTTCAGGAGTGGGTA
Celera SNP ID:            hCV1477143
SNP Position Genomic:     133781
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22012):
AGTGGGTGTGGGGCATCGAGCCCACACTGCAGGTCTGCCATCCTCTCGCCTCACTGGAAGACAGCCTTCCTCCTGCCGACAGCTGTCCAGGAGCATGGGA
Y
GGATGGCCAAGGGAAGGACAGGGGCCCGGGTCAGGCCCTGCCTGGCTCTCACCTGTTCTTGCCCCTTGCCAGCCGTAGTGCAGTCAACTCCCAGCCCACA
Celera SNP ID:            hCV1477144
SNP Position Genomic:     134397
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22013):
GGTTGTGGCTAGCATGGCCCAGGACCAAATGTGAAAACACAGGGGCTTAATCTAGGACTGTGTTACCTCTAAGGGGCTTTTTCTGACTCCTCCCACCCTC
R
GGAAGTAAACCAATGTATACTGAGCGATTCCTTTGGACCAGAAATGAGTTTTGCGCTTTACCTATAGGATCTCATTTAATCCTCAAATCACGCTTTGAGA
Celera SNP ID:            hCV1477145
SNP Position Genomic:     135379
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22014):
TTGTTACCATCCTATCCCCATGGCCCAAGGCCAGGCCTGACGCAGAGCAGGTGCTCAGTAAAGGGTGGTTAAGGCCAGAAGCCCCTCAGGGAGATGGGCT
S
TGTCTGTAATGTTTCCCCAAGTGGGGGGTGGGGGCATTGCAGAGCAGCTGACCGAGGCTTGGTTTTAACCGGCTTCGGAGCATGAAGGTGCTTCCTGAAG
Celera SNP ID:            hCV1477146
SNP Position Genomic:     137973
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22015):
CACTGGCAGCCCCTGTGCTCTGCATGGAGTATATCCCGGAGCTGGAGGAGGAGGCGGAGAGCAGAGACGAGAGCCCGACAGTTGCTGACCCCTCGGCCAC
R
GTGCATCCAACCATCTGCCTCGGGCTCCAGGATGGCAGGTGAGGGGCCCGGAAGGAGGGGTGAGAGCAGCCTCTGCAGGGCTGGGCAGTGGGTGGGGGCT
Celera SNP ID:            hCV8860688
SNP Position Genomic:     122106
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,5|G,33)   total(A,6|G,70)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;JBIG-allele(A,149|G,1352)   total(G,1352|A,149)no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:22016):
CCCTGCCCACCCCCCGCCCCAGCCGCCTTCCCCACCCTTAATTTTCATGTTTAGTGCCTAAACTTAGTTTGCATGTATTAGCTGTTGTAAATCTATCATA
Y
GAGTGTGATGCGGCATGAATAATGCATCACTGGGCTGTATTAGTTTTCTGTCTCCTATCTTATTTATGACATGAAACGGGTGGGAATTTGCAAAAGAGAA
Celera SNP ID:            hCV1477147
SNP Position Genomic:     138324
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22017):
GGCATGAATAATGCATCACTGGGCTGTATTAGTTTTCTGTCTCCTATCTTATTTATGACATGAAACGGGTGGGAATTTGCAAAAGAGAAATTCAGGCGCA
R
GGCTTCTTGGGTAATGGTATGCAAATTGGCGTGAGGGTGAAAAGATGCACCAGGCCCTCCCAGCGCCCAGGAGCTGCCGAGGAGGAGCGCCTGGTGTCTG
Celera SNP ID:            hCV1477148
SNP Position Genomic:     138436
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22018):
TCTCACCGTCAGACAGAGCGTGCATGTGAATGTAAATATGGGCTCAGATCTGCGGAGACTCATGGGGAGTTCTAGAGCGACCACTCCCAACCGGCTCCCA
Y
GGAACACTGTGAGCCCGGCCTGTGCCACCCTGGCGCTCTGGTCCCCAGCTTGGGTTGGCTTTGGCCCATTCCCTCTTACTGCTCGATTCACCAGTTTGGG
Celera SNP ID:            hCV8860689
SNP Position Genomic:     123860
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;(C,-|T,-)   SC_12_AA(T,1|C,20)   total(C,20|T,1)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22019):
CTCCGACAAGAACAAGTTCACAAGGAAGATGAGTGTTTTCCAGCATCAGGAAGGCTTGAAGTTAGATGTTCAGAAGGACTCCCTTTCAGGAAGTTTGTGA
R
GCATGGGAGGTAGGGGTGGGTTTGGGACCCCATAGGGCCTTCTTATGTGGAGGGTCAGAAATAAGTTGGCTGGTTGCAAACTCGGGCCTGGAGGGGGTGA
Celera SNP ID:            hCV1477149
SNP Position Genomic:     138832
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22020):
TTCTGGGGAATAAACTGGGAGCCTCTTGGCTCTGTGGGGTCCTAGAAGCAGAACTAAGGCCTATGGCTGGCTGTTCCCAGGAGGGAGGTTTCAGCAGCAC
R
GGGTAGACCTTTCTAAGAGTCCAGGAAGGAGTACCCAGAGGGAGAGTGGCCCTTTCCATGTGTGCTGCACTTTACAGTATAGAATGCTGTCTAACCTGCA
Celera SNP ID:            hCV115006
SNP Position Genomic:     94791
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22021):
GGTCCACCTGCCTCAGCCTCTCAAAGTGCTGGAATTACAATTATGAGCCACTGTGACTGGCCATAAATTTTATACATATATATGTGTGTATATATATATA
W
AATAATTTTTTTTTTGAGATGGAGTTTTGGCTCTTGTTGCTCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTACAACCTCTGCCTCCCACGCACGT
Celera SNP ID:            hCV26067910
SNP Position Genomic:     10330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22022):
TCTTGATGTATCAATTTTGGGACATCACCTGTTGTCTCCTTGCTGTGAATGATGAGGATTTGGCCCATATTACCCCCGTTCCTTCCCCGGTCATTCTCTC
R
GTTGCCTTTGTCACTTTAAATCATTTACATAAACCACAACTTCTTTCATGATTTTCGGCTCCATCTTTCCCTTCCGTAAGGTAAAGCTCTGAGGGGCCAC
Celera SNP ID:            hCV26067911
SNP Position Genomic:     153149
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22023):
TGGTACATATACTTGCAAGAAAAAAAAAAAAAGCATGGAGTGGTTTATCCTGAAAGGCTCGTCCACACTCCACATCTCAGTCCTGCTTTTTGGAAGAGAA
W
GCTTTTCACCTGTTCTTTTTTTAATCCACCTGGCACTTTCCTCAGGACCCAAACTTGTTCACTCTGCTGCTTCTTGATGTATCAATTTTGGGACATCACC
Celera SNP ID:            hCV26067912
SNP Position Genomic:     152977
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22024):
TTCAGAAGGAAGTGGCTGGTCCGTGGCGGGGTGGGGCCTGCCTCCTGGACTGAGGACGCCACTCTGAAGTGGAGTCTTCAGATGTTGGAGGAGGACAGTT
S
GGGGGGGCAGTGCGTGCTGTGTGCAAGTCATGGCCAGGGCAGGGGTGCGGCTGTGTGGTACATCTTGAGCATTGGCTGGCCTGAAACGTAGGGAGCCCAC
Celera SNP ID:            hCV26067913
SNP Position Genomic:     152636
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22025):
GCCCACCACTCATGGGTCCTGGAGGGTTAGACAACTCCATGAGGGCAAAGCACAGGGCCAGGCCAAGGGCTCAGTGGAGTCAAGTATTTCCATCTGGGTT
S
TTTTATTGAGCCATCCCTAGCACAGGTTACGATGTCAGGAGGGCAGGAGGGCAGGGCTAACCGTGTTTGGACTGCTGTGCTCCAGGGCAGGGGTAAAGTG
Celera SNP ID:            hCV26067914
SNP Position Genomic:     123227
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22026):
CCCAGAGGTAGCTGAGACATGCCGGGCTGGGGCTGGGGCTAGGGCTGGGGCTGGAGGTGCTGTGCTGTTCTCCCTATTCATTCCTGCCCTTTCCCCCGCC
S
GCCTCCCCGCTTTGGGCTCAGCAGGTTTGCACAAGCCTTCTGCTAAGCCCTCTGGGCCTGGAGACAGACTTGTTATGCCACTGGAGAAATGAGCCTGGAT
Celera SNP ID:            hCV9681679
SNP Position Genomic:     149736
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22027):
GATATCAGGCAGCAGAGTGTGGCTTTAAACTCATTCCACACAGGTGACTCAGATAATTATCTAAATGAAAACCCCAAATAAGGCTTCCCCTCCACTCCCC
K
GGGGCTTCATAAGACCTCAGTGTGCAAAACCACGGCCTAGAGAATACAGTCCAAATTCCTAGCCCAGGGGCCTAGCGTTCAAGGCCTTCCCCATCTGGTC
Celera SNP ID:            hCV26067915
SNP Position Genomic:     102865
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22028):
AAAGCTACAAAACCATAACATTCAAATTAACAGCATTAATGTAATGTGATGGATGATGTTGTTTTGCTGAAACCAATTTGTTCACAGTGTGGATGTGGCT
Y
AGGCCCTGGTAGAGCAGGTTCCTCTGCGCTTTCGTGCCTGTGCCACAGGGTGCCCTGTGGGGATCTGCATTTCCCATGAGCTCCCCAGTTTGGGTCACTG
Celera SNP ID:            hCV26067916
SNP Position Genomic:     102562
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22029):
ATCACAAATTGAATAAAAATAAAGCTACAAAACCATAACATTCAAATTAACAGCATTAATGTAATGTGATGGATGATGTTGTTTTGCTGAAACCAATTTG
Y
TCACAGTGTGGATGTGGCTCAGGCCCTGGTAGAGCAGGTTCCTCTGCGCTTTCGTGCCTGTGCCACAGGGTGCCCTGTGGGGATCTGCATTTCCCATGAG
Celera SNP ID:            hCV26067917
SNP Position Genomic:     102542
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22030):
TCAGGGGTCAAGAAACAGAAGCAAACACCTGAGGACACCCTGGTCCCCAGGAAGGTGAGGACACCGGAGTCTATTCTGTGGCATTTCTGAACGCCTGACT
R
CTACGGTGTCGAAGGTTCTTCTTGGACCCCTGGCTCCATCCAAGGGGGAATGCTGTCTCTGGAGGGGTGGCAGGAGGGCAGGGAGGGTTCAGCGCAAACC
Celera SNP ID:            hCV198269
SNP Position Genomic:     118665
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22031):
CTGGGGAGGCTCAGAGTGATCTGTCCTTTTCTGTCCTGGGGTTGCCTGGGGGTGATCTGTCTTTTTCTCTTTGGGGAGGCTCAGGGTGATCTGTCCTTTT
R
TGTCCCGGGGAGGCTCGGGGTGATCTGTCCTTTTCCCAGACAGGATGGGGAAGGAAGGGGAGAGTAATGGTTGTCGTCAGAGTCACGGGTTTTGGGAATG
Celera SNP ID:            hCV26067918
SNP Position Genomic:     97182
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22032):
GTGGGCCCAGGAGGCTCAGGCAGGACTCCAGGCTCGTGGTGTGAGAAGGGGACCCAGGAGCCCAGAGGTAGCTGAGACATGCCGGGCTGGGGCTGGGGCT
R
GGGCTGGGGCTGGAGGTGCTGTGCTGTTCTCCCTATTCATTCCTGCCCTTTCCCCCGCCGGCCTCCCCGCTTTGGGCTCAGCAGGTTTGCACAAGCCTTC
Celera SNP ID:            hCV26067919
SNP Position Genomic:     149676
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22033):
CCTGTGCATGGTGATTCTTATAGTTGTCATTGTATGGAAGAGGAAACCAGGGATCGGAGCAGTGGATGGCATCTGTGTCACAGCTGGCCTCAGCTGGGAT
Y
GAGCACAGAGCTCAGTCTCCTAAAAATCCCTACCCAGGGCATGATGGTGACATGGCAAAAAGGGGAACCTGGGGGGCACACTGGCAGGACCAGAGATTGC
Celera SNP ID:            hCV16186400
SNP Position Genomic:     34458
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22034):
CAATGCCCTCTGATCCGGGTTTCCCAACCTCGATCCATTGACATTTGGGCTGGATCATTCTTTGTGTTGGGGCTGTCCTGTGCCCTAAAGGATGTTTAGC
R
GCTTCCCTGGCTTCCACCCACCAGATGCCAGTAGTGTCCCCCCTCCCCACCTAGTGTGGCAACCAAAGTGTCTCCTGCCATTGCCAAATGTCCCTTGGGG
Celera SNP ID:            hCV16186401
SNP Position Genomic:     32287
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22035):
GCCATTCGTGGGTTGGCTCTGCCCCTGGAGGAACTGGTGGGAGGATTAGGGGAGGCACCAGGCATCCCCTGGCCTGGAGCAGTGCTCAGAGCCAACTCCC
K
CCAGAGGTGCCCCAGAACAGCTGGAACTGCACTCACACCCTTATCTGGGGAGGACAGCACATCACTGAGGGGTGTGGTTTGAATCATAAGTGCTGGCTGC
Celera SNP ID:            hCV11548495
SNP Position Genomic:     35289
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(G,-|T,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22036):
GCTGAGGGCTTAATGCAGTGGAGGTCAGGCCCTGGGTGTAATTAGGGAGGCTCCCTCCCTGGGTGGTTGGGAAGAATGAATGAGGTCACATGTGCAGAGG
R
TGTAGGCTAGTGCCTAATGCACACTCAGGCAGAGTGGCCGCTACGCAATGGTCCTCTGTGAGCCTGGCAGCGGGGTAGCAGGGAAGGTCCACAGGAGGCA
Celera SNP ID:            hCV1477150
SNP Position Genomic:     139591
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22037):
TGAATGAGGTCACATGTGCAGAGGGTGTAGGCTAGTGCCTAATGCACACTCAGGCAGAGTGGCCGCTACGCAATGGTCCTCTGTGAGCCTGGCAGCGGGG
Y
AGCAGGGAAGGTCCACAGGAGGCAACCTCTGCAGGAGGCATTCCCGGCTGCCCCTGCATGCCTTGTCTGAGTGGGCTTGGATGGTGGTCAGTGTGGGCTC
Celera SNP ID:            hCV1477151
SNP Position Genomic:     139667
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22038):
ATTGGGTCTTGTGGGTGCGTATGTCCGCACCATCCTCCCTCCAGATGGCAAAATATCTGTGAGCAGGGCCAGTGTCTTATCCTCTCTGTATTGTCCTGCA
R
TGCAAGTACAGGCATTGACTTGGCTTCTCTCTCTCCTTTGCTTTCTTTCTCCCCAAAATCTCCCCTTTTTTCCCACGCCAGCTCTTCCCTTCTGCCTGAC
Celera SNP ID:            hCV1477152
SNP Position Genomic:     140160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22039):
CTCTCTGGAGGGCATTTAGCGGGAGGGCCCCTGAGAAGCGTGAGCTGATGCCTGTGCATGCCTGTGAGAGGGTGGGAAACTGGTCAGTTATATTAACATA
R
TCACGTGCTGCATAGTGACTTTCAGTCAACAACAGACCACACATATTATGATGGTCCTATACGATTACAATACAGTATTTTACTGTACCTTTTCTATGTT
Celera SNP ID:            hCV1477153
SNP Position Genomic:     140717
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22040):
ACAGCATGTGAGCTTGGAGCGAGGTGCACGCTTCTGCCCCGCCTTGCCCCACCCTGCCCCTGCCCCTGCCCTGCCCTGCCCCTGCCCATCTGGGCCACCC
R
GGGTTGGTTCGCTCTCTTTTCATAGAGTCTCCGTGAGGTGGGACGCTGCGCGCACAGTGCCCAGTCAGGCATTGGAAAGTCCTGACACACGGTGGGTACC
Celera SNP ID:            hCV1477155
SNP Position Genomic:     146166
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22041):
TTGGAGCAGTATCACCCACCTGAAACTGACTGTGTGGGCGCCTGTAGCGGGTGGATGGGGGGCTGCAGGGAGGGGCTCCGTGGGCAGGCTCAGGACACAC
R
GGTTTGTCTCAGCTCACCTGGGTTCATTCCAGGTCACAGTGCGCCAATGCTCTCCCTGGAATCCTCACCGTGCCCCAGAGGCGTGTTCTCTTTTTGTCCC
Celera SNP ID:            hCV1477156
SNP Position Genomic:     146592
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22042):
CCTCAAGTGATCCACCCATCTTAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTACGCCTGGTCCCCCATAACTTTTTACTTTGAAAAATTTCA
R
ACTACAGGAAAGGTGAGAGAATAATACAATACACAGATATTCTTCACCCAGGTAACTGTTAACATGTTGCTACAATCTTCCCCCATATTATACATGCACA
Celera SNP ID:            hCV1477158
SNP Position Genomic:     147145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22043):
GGTGGTCCTGGGGCAGGGGGTGACTCCAGCTCTGGCTGGCCTCATGGCGAGCAGTGGCCCAGACTATTTGTCTAGGGAGGGCTTGGGCTGGGCAGAGGGA
S
TTGCTGGCCACAGTGTAGACAGGGTCGGCACTCTGTACCAGTGGATGAGGATGTGTTGGGTTCTTTCCTTCAAGGGATCAGGGGTGTTGGGGCAGGAGGC
Celera SNP ID:            hCV198270
SNP Position Genomic:     118191
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;JBIC-allele(C,70|G,677)   total(G,677|C,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:22044):
CCACACTTCTGGGCCTCCCAGACCAGCCAAGGATGAGGGCACAGGTCTGGAGGTGCTTGGCCTGGGATTGGGGTGCTGGGTGAGCAGGGTTTCACCCTTT
Y
CTGGTTGGGAGGAGAGCAGAGTTTGATGAGCTGACAGCCTCCCCTGGCAATGAATTCTGAGCTCTCTCAGGGTACGTGGATACCTTGTGTTTGGAAAATG
Celera SNP ID:            hCV1477159
SNP Position Genomic:     148962
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22045):
CTCCCCAAAAGAAACCCCCATCCAGGTGGGGAGCCTCTGCCACCTCGAACCTGGGGAACCAGGGCCCACGAACCTCCTCAGTGCGAGCTCTCAGGGCCCA
S
GAATATGTAGGCCAGAAGCATCCTCAGTCCTGCTGGCCCCGGCTCACTGTCTCCTTAGGAGCGCCAGGGCTAGTGGAGGGAGGCGAGTGACTCTCTGTGG
Celera SNP ID:            hCV198271
SNP Position Genomic:     117733
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22046):
GCCACTGCCTCCAAGGCCTCCCCAAAAGAAACCCCCATCCAGGTGGGGAGCCTCTGCCACCTCGAACCTGGGGAACCAGGGCCCACGAACCTCCTCAGTG
M
GAGCTCTCAGGGCCCAGGAATATGTAGGCCAGAAGCATCCTCAGTCCTGCTGGCCCCGGCTCACTGTCTCCTTAGGAGCGCCAGGGCTAGTGGAGGGAGG
Celera SNP ID:            hCV198272
SNP Position Genomic:     117716
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22047):
CCACCCATCTCAGCCTCCCAAAGTGGTGGGATTACAGGTGTGAGCCACCGCGACCAGTCAGATTCCTTTTTTTTTTTTTTTAAAAAAACACAAAAACAAA
M
AAACCCTTCCCAATGCTATATTTCTTCTGTGATGACAAAAGCATTTTCATCTTCATGTACTTTTTGGCGTCTGACCCCAGTTTCATGAGGTCTGCAGTTC
Celera SNP ID:            hCV26067920
SNP Position Genomic:     72676
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22048):
TTCTCCTGTCTCCCCCAGGGCCTTGGGTCTCTTGAGAGCACAGGATGCAGGCTGAGCCCTGACAGATCAGACCCCAGTGGTGGAGTCACAGAACTGGCCA
Y
TGCCTCCAAGGCCTCCCCAAAAGAAACCCCCATCCAGGTGGGGAGCCTCTGCCACCTCGAACCTGGGGAACCAGGGCCCACGAACCTCCTCAGTGCGAGC
Celera SNP ID:            hCV198273
SNP Position Genomic:     117620
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22049):
CTAGGCATGTATGCAAGTATGCATGATTGTTTTTATAGAACTGTGGTTTATTGCACATGCTGTTTCGTGGCTCACCTTTTTTTTTTTTTTTTTTTTTTTT
T
AAAGCTAATTACATATCATGAGCATTTCCCCAGGGGAACTTGTATTGTTTTGCAACAACCCACATGGCTCTCGATACATTTTTGCCAGGGGTGCAGGGCC
Celera SNP ID:            hCV26067921
SNP Position Genomic:     61286
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22050):
GCTAGGCATGTATGCAAGTATGCATGATTGTTTTTATAGAACTGTGGTTTATTGCACATGCTGTTTCGTGGCTCACCTTTTTTTTTTTTTTTTTTTTTTT
T
TAAAGCTAATTACATATCATGAGCATTTCCCCAGGGGAACTTGTATTGTTTTGCAACAACCCACATGGCTCTCGATACATTTTTGCCAGGGGTGCAGGGC
Celera SNP ID:            hCV26067922
SNP Position Genomic:     61285
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22051):
TAGGGTGAAGTTTTGTCTGTATTTAAACTTTTAAATAACTATTCAGTGTGGATTTTTTGCATTAATATTGATTTTTTTAAAGTTGCCTTACTCTCTCTCT
M
TATATATACATTTTTGTGACTGAGTTTTTGGTGCCCTTTTAAATTTTGTACCCAAGCTAGGTGCCCCAGTCTATCACCCTAGTCCTGGCCCTGGTGGAGG
Celera SNP ID:            hCV198274
SNP Position Genomic:     117189
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22052):
TGCTAGGCATGTATGCAAGTATGCATGATTGTTTTTATAGAACTGTGGTTTATTGCACATGCTGTTTCGTGGCTCACCTTTTTTTTTTTTTTTTTTTTTT
T
TTAAAGCTAATTACATATCATGAGCATTTCCCCAGGGGAACTTGTATTGTTTTGCAACAACCCACATGGCTCTCGATACATTTTTGCCAGGGGTGCAGGG
Celera SNP ID:            hCV26067923
SNP Position Genomic:     61284
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22053):
CAGCTCAGGGTCCTGCTGAGACGTGGCAAGACTTGATGTGGGCGGAGGCCAGGGCTGTGACTGGAGTAAGGCGCCTTTGCCTCAGGCACAAAATTTCAGC
Y
GATGTCAAAAATCTCAATAATTAAGATAAATACTATTTTAATGCAGTGCGTAAATATAATCAAATCAGCAAATTTTTCCTTGTGGTTTGGCCGCTCTTTT
Celera SNP ID:            hCV198275
SNP Position Genomic:     116925
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22054):
GTGGCGCCATCTCGGCTCACTGCAACCTTTGCCTCCTGGGTTCAAGTGATTCTCCTGCCCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGTGCCACCAC
R
CCGAACTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAGCTCCTGACCTCAGGTGATCCACCCACCTCGGCCT
Celera SNP ID:            hCV26067924
SNP Position Genomic:     57609
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22055):
CCCGGGAAGCGGAGGTTGCAGTGAGCCGAAATCATGCCACTGCATTCCAGCCTGGGTGACAGAGTAAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAA
A
TGGACCTGGAGGGAGCAGCTCAGAGCTCAGCTCAGGGTCCTGCTGAGACGTGGCAAGACTTGATGTGGGCGGAGGCCAGGGCTGTGACTGGAGTAAGGCG
Celera SNP ID:            hCV198276
SNP Position Genomic:     116797
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22056):
CTGGGGCTGGAGGTGCTGTGCTGTTCTCCCTATTCATTCCTGCCCTTTCCCCCGCCGGCCTCCCCGCTTTGGGCTCAGCAGGTTTGCACAAGCCTTCTGC
W
AAGCCCTCTGGGCCTGGAGACAGACTTGTTATGCCACTGGAGAAATGAGCCTGGATTTCCACCACCGACTTCTCTTTTAATTAGATTCTGACAGCAGCAC
Celera SNP ID:            hCV9681689
SNP Position Genomic:     149780
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22057):
AGGACTGGTCACCCTAGGTTTGAATTTGGCTTTCCTCCCATGTCCTAAGCAGCGCGACTTTGCACATCATTTAGCCTGTCAGTTTGTTTCCTCAGCGGTA
M
AGTGTTGATAAGAATGAGATAAAGACAGGGAAGGGAGTTGTGCTAATTGCCTGTAGAAGATGGCCCTTCCACATGCTCAGTGCAGCCGTGCAGAGCGGAC
Celera SNP ID:            hCV26067925
SNP Position Genomic:     145654
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22058):
TCATCCACCAAGGTCTTCCTGGGCACCTCTGGTGCCAGGCACTGCATTTGGAGTTGGGAGGTGCAACCTCATCTGGGGCAACAGAAAACCAGGGAGCTAA
W
AAGAGAGTGTGCCTTTTGCAAATGGTGACAGGGCTGAGAAGGAAGTGAAAGGGGGAGCTGTGCAGAGGACCTGGGTCTCAGGATCTTCACCCCTGGAGTC
Celera SNP ID:            hCV27474118
SNP Position Genomic:     120978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22059):
TCCCTCCCATGACATGCAGGGATTATGGGAGCTACAATTCAAGATGAGATTTGGGTGGGGACGCAGCCAAACCATATCAAGGGGTGTGAGTGTGGGTGTG
K
GTGTGTGTGTAATGTACGTAGTGGTGTGCTACTGCATATCTCAACTCCATTCAGTGATGTCACATTGGCAGCTTGAAATTGGCCAGAGTGAGAGTATTTA
Celera SNP ID:            hCV15754457
SNP Position Genomic:     11149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22060):
AAGGGAACGGCAGAGGCAGGGCTAGGATTTGAATGTGGGTCATTCTGACCCCCAGTTCAATGCTCTGTCCCCTACCCCAGGAGGATTTCTGTGGCATTTT
R
TGACAGATGAGGCACATTTGATCCCACTGATCCCACGACCCCTTGAGGTCAGCAGGGCCAGGCTTATTTATGGCTCCCATGATGAAGAGGTTAAATCACC
Celera SNP ID:            hCV1975303
SNP Position Genomic:     70345
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22061):
AGATGTCAGGGAGGGAGGTGCATTGCCACAGAGCAGGAGGCCAGAGGCTGGGCTTTGGCCCAGCATGTGTGTGGGGGGCCACCTGTACAGAGATGGCTCC
Y
CAGAGGCCTCGACGCTCACTCCCTGCTGAGGTCTGTGATATGATGCCACCTGAGGGCCGCTCTGAGACTTCCCCTGGGGGGCTTCTCACTGCTCTCTACT
Celera SNP ID:            hCV1975304
SNP Position Genomic:     61519
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22062):
GCCCTCAAAGCTGTCTACTGAGGCCCACAGGGTTTGCTTCTCCTGGTGGACTCTGAAGCACGTGCACTCATGTCCACCCTGAGCTCTCGCTGGGGGAGTC
R
TGGTTGAAAGAGCAGCCCTGAGTACCCAGCAGTGCCTGGGAAACGTGAGCGCCACAGATCGCTGGCTTCCTGTGTTTTTCCTGGACTCAGGCCTGCACCC
Celera SNP ID:            hCV1975305
SNP Position Genomic:     58146
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22063):
TTGCCCAGGCTGGTCTTGAACTCTTGGCTCAAGCAATCCTCCTGCCTTGGTGTCCCAAAGTGCTGGGATTACAGGCATGAACCACTGCATCTGGCCTGTA
W
TATCTTATTACTTGTACCCCTAGGAGCCCTAGAAGACAGGTACTATTGAATATGCCCATTTTGCAGATGAGCAGCTGAGGCTTAGAGAACTGAAGTAATT
Celera SNP ID:            hCV1975306
SNP Position Genomic:     57893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,7)      total(A,4|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22064):
TGAGTTTGATGACAGTGATGATGAAGAGGACACCAGCGCAGCCCTGGGCGTCCCCAGCCTTGCTCCTGAGAGGGACACAGACCCCCCACTGATCCACTTG
R
ACTCCATCCCTGTCACTGGTAAGATGTTTCTGGGAACTTCCGGTCCTGGGGCTACAGGGAGCATGGAGAACTGGGCGGAAGCTCCAGGCTCTCAGGGATG
Celera SNP ID:            hCV25934188
SNP Position Genomic:     53670
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,4|G,36)   total(A,4|G,68)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:22065):
CCTCTCCAGGGCCTTGTCCTCTCTGTTCCAACAGGGGCCAGCTGGAGATCAGCAGCCTGGTGCCCCTGGGGCCCAAGTATGTGGTGAAGTGGAACACGGC
R
CTGCCCCAGGTGCAGGTGGTGGAGGTGGGCCAGGACGGTGGCACCTATGACAAGGACAATGTGCTCATCCAGCACTCAGGCGCCAAGAAGGCCTCTGCCT
Celera SNP ID:            hCV25996605
SNP Position Genomic:     100942
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:22066):
CGGGCAGCTGTAACGAAATGCCGTGACTCTTACCAGCAACAGGCAGTTATTTCTCAAAGTTCTGAAGGCTGGAAGCCCATGATCAAGGCAACAGCAGATT
Y
GGTGTCTGGTGAGGGCCTGTTCCTTATAGATGGTACCTTCTCACTGTGTCCCTGCGTGGTGGGAGGGCCTAGCCGGGGCCTTGTTTACAAGGATACTAAT
Celera SNP ID:            hCV16186411
SNP Position Genomic:     31139
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22067):
TGCAGATGAATAAACTGAGGCTTAGGGAGGTTAAGTTGCACATTTGCTAGGTTGTGGAGCTGGGATTTGGAGTCCCCACTGTCTGACTCCAGAGCCGGTG
Y
ACAGACCCACCCATCTATTAGGATCCTCAAGGAGGAATTCTTTCTGTGGCTGACAGGTTGGATTTCAACCTCTCAAAGACCCCTCCGTCGTCTGAGAGCG
Celera SNP ID:            hCV16186412
SNP Position Genomic:     29833
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22068):
GCAAGAGGGGCCCTGGGATAGGAGCGGAAGTTGAGGACTGGCCTGTGCAGGAGGAGAGGCCTCATTCTGAGAAACTCGAGGATGAGGGGAGGGCTGGATG
Y
GGGGAGGAGGCAGATTTAGACTCTTCTCCTGGGGGACGATGAATCTTCTGCCAAAGGAAGAATTTCAATATGGGGGTATGATGTGGGTCAGTGATTCGGG
Celera SNP ID:            hCV16186413
SNP Position Genomic:     29092
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22069):
CCTTGAAGGAACATACATCGCAGGAAGAGAGAACTGAAAGCCAGGACGGCCCGGGCTGTGGGCAGCAGATATGGGCGGAGGGCTAGAGAGATGGGGGCAT
K
GTCTCTCCCCTACACAGCATGGACTACTAAACCTGACTTTGCACAGGCTGTGAGGAGGCGTGGCCTCCTCCCAAAAATCAGAGGCTCTGAGCCTCTTGCA
Celera SNP ID:            hCV1477160
SNP Position Genomic:     150436
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22070):
CAGTAGAACCCCTGTTCCAAGAGCAGCCTGACCCTGGGGAGAGGAACCACACTGCTGTCTCTTCTCCCCTCCCCTCCCCTCCTCTGGGGAGCCTGGCCTT
K
CCTGCTACCCCTGCCTCCCTTGCTACTCGCAGCTCAGCCATCAGGGACTGGCTCAGAAAAAGCAATTTCCTTGGACAGCTCACAGTCTTGCCCTCCTGGT
Celera SNP ID:            hCV1477161
SNP Position Genomic:     150908
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22071):
CCCCCTCCTCCCAATCATTGAGGGGCTGTTTCCTCCCCATTATTCAGGTCTCTCACTAAATGTCACCTCCTAGAGACACCTTCCCTGACCCCAGTCTTAA
W
GGCTTTCAGTATTTTTTCTGTGCAGTGCTTCTCACTATCTGATGTAATCTTTCTTTGTTTTAATTGCCTCCTGTCCTGAGAACGTTTGCCCCACAAGAGT
Celera SNP ID:            hCV1477162
SNP Position Genomic:     151581
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22072):
CTGCAGGCTTGGGGACAGCGGGCTCCTGGAGCAGCTGGGGGTGGAGGGCAGGCCCAGAGCAGGCAGGGTGGCTGCCACGGGTTCTGGCTGGAGTTGGGAA
R
TGGGCCACGGGGTGGGTGGGGGTGGTGCAGGCCAGGTAGGGGAGCTGATGACTGAGCCAGGGCTGGGGGAGGGAGGCGGGGCTCAGCAGGCACCCAGACT
Celera SNP ID:            hCV28974619
SNP Position Genomic:     54274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22073):
ATGGTGTAATAACTGCCACCCTGCCCGGGCCTGAGGTGATGAGGCCCCAAGTGCTTATGTGCAGGATCTCATTTCACCCTAACCCTGCGAGCTGGGGATT
R
TCCCCACATTACAGATGCAGACACTGAGATTGGTTCAGCAGGCCGGGCGTCTTGCTCGTGGTCATGCAGTAGACCAGAGGCAGGACCACAGTCACATCAG
Celera SNP ID:            hCV1477164
SNP Position Genomic:     155092
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22074):
GGGAGCACTCAGAGCACCAGCTTCCCATCCTCGGTCCCTACCCCGCAGGGCAGGTGTAGGTGTTGTGTGAGACAGTGTGAGGACAGTGCCCACAGTCCCC
R
TCTCAAGCCAGCAGCGGTCCATGATGGTGACATTTTGCCGTCATCGTCTTTACGGCATACCCGCCCTGCATCTCCTGCGAGGGCTCCTTGCCCCTCCTAA
Celera SNP ID:            hCV1477165
SNP Position Genomic:     157434
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22075):
CTTTCTTCGGGAGTCGAGCGGCAGGCTGGCTGCACGCGTGTGAGCATGCAGATACCTCTCTCAGTGTGTGCATGTTTGTGCATCCGTGAGCAAGGAGCTG
Y
GTGCTGTGTTTTGGAAAAGCCTGCAGACAAAGCATGTTGGGTCTCACTGACTGTCCTGCTACCCCATCCATTCGCCCCACTGCTCGCCGACAGCAGGTGC
Celera SNP ID:            hCV9681690
SNP Position Genomic:     150082
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22076):
CATCTCCTGCGAGGGCTCCTTGCCCCTCCTAAGACCCTCCAGGTCAGTGTGCCATTCCTGTCGCATCAGCTGCATCAGTGCAGACAGAGGTGACCGCTCT
Y
TTGGCAGACCTCCCTGAGGCTGAACCCTGGAGAAGGCTGGATGTAGGCCGAGGTTCCAGAGTGTGGGGTTTCCCGAAGGTTCCCTCTTCCCTCAGGCCTG
Celera SNP ID:            hCV1477166
SNP Position Genomic:     157603
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22077):
GCAGACAGAGGTGACCGCTCTTTTGGCAGACCTCCCTGAGGCTGAACCCTGGAGAAGGCTGGATGTAGGCCGAGGTTCCAGAGTGTGGGGTTTCCCGAAG
K
TTCCCTCTTCCCTCAGGCCTGAACTTTCCCAATCAGTAACCCAGTGGAGCCTGGGGCCCTGCCAGACCAGTTCCTCCTGACCCCTCATATCTGAGAGTGG
Celera SNP ID:            hCV1477167
SNP Position Genomic:     157682
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22078):
TTTTCTTCCCCCACACCAGCAAATGAAATAATTGCATAATTAGTAATAAATTTGTTCCTACACTAAGTGTGGATTTTTTTAGTGTGTGTTAACAATTTAT
Y
GCACTTCCTTCCCCTGACCCCTTTCTTCCACTCGCGTACTCGACTGGTATTAATGCATTTTTTAACCTAAACTCCCTCCTCCTTTTAACCAGACAGGTCA
Celera SNP ID:            hCV1477168
SNP Position Genomic:     158051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|C,13)      total(C,13|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22079):
TAATTAGTAATAAATTTGTTCCTACACTAAGTGTGGATTTTTTTAGTGTGTGTTAACAATTTATCGCACTTCCTTCCCCTGACCCCTTTCTTCCACTCGC
R
TACTCGACTGGTATTAATGCATTTTTTAACCTAAACTCCCTCCTCCTTTTAACCAGACAGGTCATTAATAAAATGTTCTCCAAGAGCCTGAGCTTTTTAA
Celera SNP ID:            hCV1477169
SNP Position Genomic:     158087
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,12)      total(G,12|A,5) ;JBIG-allele(A,69|G,654)   total(G,654|A,69)no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22080):
TCTGCCCAGATAAGGTGTACCTCGGCCCCCCACGCCTCTTCCAGGAGCTGCAGGACCTGCAGAAGGACCTGGCCGTGGTGGAGCAGATCACGCTTCTCAT
Y
AGCACGCTGCACGGCACCTACCAGGTACGTGGCCTGGCCTGACCTTTTTGGCCTGAGCTCCCCAGTGTGGGCAGTGCCTGGATTCAGAAAGCTGAGTAGG
Celera SNP ID:            hCV25932084
SNP Position Genomic:     104020
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,40)   total(C,73|T,5)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:22081):
AAAGTGTTTTAAGCAGAAGCTGTCCTGTCCCTGGCAGAAGACTTTGGGAATCCTGGCCCTCAGAAAGGCTAATGTGGCTTCCCTGCCCCTTGGGCCATGC
R
CTCCCCTCCCCACCCCATGCATCACTTCCATCCTGAGAAGTGCCCGAGCCCCATGTTACACCTGCTTTAAAGGCAGATGAATGTCCTGTTTGAACCGCAT
Celera SNP ID:            hCV27513598
SNP Position Genomic:     108855
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,25|G,1448)   total(G,1448|A,25) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22082):
AGACTATTTGTCTAGGGAGGGCTTGGGCTGGGCAGAGGGAGTTGCTGGCCACAGTGTAGACAGGGTCGGCACTCTGTACCAGTGGATGAGGATGTGTTGG
R
TTCTTTCCTTCAAGGGATCAGGGGTGTTGGGGCAGGAGGCAGGAGTAGGTCTCTTGTCTGTGCTGACAGTGGCCCCTGCCCACGCTGGGCCACACCAAGG
Celera SNP ID:            hCV27513599
SNP Position Genomic:     118251
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,55|G,1058)   total(G,1058|A,55) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22083):
GCCGGGTCCTGGGCAGTGGTGAGTTGGGAGCCAGCTCACACCTACACATAAGAGCTGATTGCTAAATTTTAGGAATTTTATGAGCCGGTTGTTAAACACA
R
CCATTATAAAAAATTCTGAGGCCAGGAGCGATGGCTCATGCGTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCCCCTGAGGTCGGGAGTTCG
Celera SNP ID:            hCV15754466
SNP Position Genomic:     9357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22084):
GGTGAAGTTGTGGAGAAACTCAGTCTGGTGGGAGATGCAGATGCGTCAGAGTGGGACAGAGACGGACGCCCAGGGAGCTGGGACACTGACTGGAGGGGAG
Y
AAGGATGGGGTCGTCAGGGAAGACTTCTGGGCCAGGTCCTGGCTCAGCGAGTGAATGGAAATTCTCCATTCAGGATGGCAGAGGGGCAGGGGGAGTGCCT
Celera SNP ID:            hCV1975313
SNP Position Genomic:     55930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22085):
ATCACAGTTCTTCTTTGTCTTCTGCAAGTCAGGTCTGGGTTGGAAGGGTAATTGGGTAACTGGAGGTGGTGGGAGCTGAGGCCTCTCAGGACCAGGTGTT
Y
AGAGCCTCCTTGCCTAAGCAGTGGAGGGGTCTAGGCTCCAAATGAATGGCCCAAGCATCTGGAACCCTGAGTTTAAATCCTCACTACCCTGGTGAGGGGA
Celera SNP ID:            hCV1975314
SNP Position Genomic:     55381
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22086):
CAAGGGCAGCCTCATCCTCGGAGCCCTTCCTGAAGCCCCAGAGAGCCCCAGCCCCTTCCTCTTGGCACCGTCTCAGTCTCTGAGGTTTTTGGTTTTCTCC
Y
GCTGGCTCTGTCCTGTCAGCCTCACAGTGAGCTCCGGAGGGGAGCTCACAGTCACCCACCCCGAACCCCAGGACTGTGTCTTACCTTTCCTTCCCCCTCC
Celera SNP ID:            hCV1975317
SNP Position Genomic:     48805
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22087):
AAGGCTCAGTGCAAGGGCAGCCTCATCCTCGGAGCCCTTCCTGAAGCCCCAGAGAGCCCCAGCCCCTTCCTCTTGGCACCGTCTCAGTCTCTGAGGTTTT
W
GGTTTTCTCCTGCTGGCTCTGTCCTGTCAGCCTCACAGTGAGCTCCGGAGGGGAGCTCACAGTCACCCACCCCGAACCCCAGGACTGTGTCTTACCTTTC
Celera SNP ID:            hCV1975318
SNP Position Genomic:     48794
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22088):
CAGGCCTTTTCTCATCCTTTAAGGCTCAGTGCAAGGGCAGCCTCATCCTCGGAGCCCTTCCTGAAGCCCCAGAGAGCCCCAGCCCCTTCCTCTTGGCACC
R
TCTCAGTCTCTGAGGTTTTTGGTTTTCTCCTGCTGGCTCTGTCCTGTCAGCCTCACAGTGAGCTCCGGAGGGGAGCTCACAGTCACCCACCCCGAACCCC
Celera SNP ID:            hCV1975319
SNP Position Genomic:     48774
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22089):
ACTGTCTAATGACCTTCATTCCTGCGCGTGTCTTCAGCACCCCCGGGGCACTTGGTGTTTGTTCTCTGTCTTTGCTGTGGCCTCTGCCTGGAATCCACGC
Y
TTAGTTGGAGCTTGTCAGGCCTTTTCTCATCCTTTAAGGCTCAGTGCAAGGGCAGCCTCATCCTCGGAGCCCTTCCTGAAGCCCCAGAGAGCCCCAGCCC
Celera SNP ID:            hCV28974620
SNP Position Genomic:     48658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22090):
GTTCTGGAAGGATTCTTGAGAAGTCAGTAACAGTCATCTCTTCTGGGGGACTGGGGGATTAGGGCAACCAGGGTGGGAGGTTGACTAACTTTTTTTTTTT
W
AATTTTTTGAGACAGAGTCTTGCTCTGTTTCCCAGACTGGAGTGCGGTGGCACGGTCTTGGCTCACTGCAACCTCCGCCTCCCACGTTCAAGTGATTCTC
Celera SNP ID:            hCV28974621
SNP Position Genomic:     45070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22091):
CTCTCTTTCAGCACTCACTCGTCTCTTCCTCCCTGGTGGTCTGGTTTGCACGCTCACTCTCTGCTGATCTCAGCTTCTAACTCTGTATCGGTGTCTCCTT
Y
GATCGGTGCCGCCCCGGCTCTTCCAGGCCTTCTGGCCCAGGGTGGGCACTGGCTGGAGCTTTAGTCCCTGTGCTTGGCACTGGGTTCCAGCAGCAGCCCC
Celera SNP ID:            hCV28974622
SNP Position Genomic:     143493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22092):
CCACTGCACTCCAGCCTGTGCAACAGAGTGAGACCTTGTCTCAAACAAACAAACAAAAAGAGTGGGGAGTCAAGTGGGGCCCTGGATATCCACCTCATAG
Y
GTTGTGAGGATCACGTGAAATAACACATAAAGCACTGCATATGGTTCCTGGTTTTAGTAGAGTCTCAGAAATGACAGTGAGCATTCATTTATTCCTGGCT
Celera SNP ID:            hCV16186422
SNP Position Genomic:     28515
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22093):
TGCTCCCCTCCTTTATGCGGTTTTCCTTTTCCCTTTGAGGAGGGGAGGGAGAGATTCATCACATGCCTGGAATCTCAGCACACTTTGCCTTTCTTAGTTC
R
GAGTTAATGTATGTTTTTTTAATTCAGTGTTGGCAAGGCCCAGTCTGGTCATAGCTGGGTTTGTTACCTTGTGGCTCAGGGGCAAGGATGAGAATAGAAT
Celera SNP ID:            hCV28974623
SNP Position Genomic:     12724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22094):
ACCAGCCCAGTGACAGCACAGGTCCTGCAGAGCAGGTGCCCCAATGAGGGAGTCTCACCCACAGGAGAGGATGCGGGTCAGCCGCATACACGTGCCCAGC
Y
GTGAGGCAGACACACCTGCCACTGATCCGAGGAGCCCAGGAAGGAACCCAGGAGGGGAGCGAGAGAGGGGAGTGAGAGCGGGGTGGGCCAGGCTCTCTGG
Celera SNP ID:            hCV28974624
SNP Position Genomic:     140524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22095):
GTGCGTATGTCCGCACCATCCTCCCTCCAGATGGCAAAATATCTGTGAGCAGGGCCAGTGTCTTATCCTCTCTGTATTGTCCTGCAGTGCAAGTACAGGC
R
TTGACTTGGCTTCTCTCTCTCCTTTGCTTTCTTTCTCCCCAAAATCTCCCCTTTTTTCCCACGCCAGCTCTTCCCTTCTGCCTGACCCTGAGCCTTCCAG
Celera SNP ID:            hCV28974625
SNP Position Genomic:     140174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22096):
TCGGACTGTTTGTGAAGTGTCTTGCTCTTTTCCTTGAGGTGGAGGGGGAGGGGGAAGGCCCCAGAATGAGGTCTGCAGATGAAGCCATTTCTCAATTCCG
R
CATCTCTTTCGGTTTCTTGCTTGCCTTCCTCCCATTTGTCGGTTTTGCCGTCCAGTGGGGGCTGGGAGGATGCAGGGGCAGCAGGAAATGGTCTCCTGCC
Celera SNP ID:            hCV1477170
SNP Position Genomic:     158388
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22097):
TGAGCGTGTGCATGTCTTTCCTGCTCCTCACTCGGTGATATCATGCTGGTAGTTTGCAACTGGCCACGTTAGAATGTTTACACCACGGAAATTGGCAAAC
S
CTGCAAACCAGGATTCCCTGCCAGTTGTTAAACTTTGGCCAACACAGCACAGCTGGGCTTCTAAGATTCCAGTTGTTAAACTTTGGCCAACCTCATAGCT
Celera SNP ID:            hCV28974626
SNP Position Genomic:     153382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22098):
TACTATGGGCTAAGAGCTGTGCTCAATTGTGTATATATATTATATGTATATATATATGTGTGTATATATTTAATATTTCTAATAATTATAAAATTGAGCA
M
GGCAGGTTTGTAGTACTCATTGATGGATGAGAGAAATGATTTGTCCAAGTTTTCTCCTTTCCTTCATCCATCCATCTGTCCATCCATCCATCCATTTACT
Celera SNP ID:            hCV1477171
SNP Position Genomic:     158784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,11)      total(A,4|C,11) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22099):
GACTCCTCTGTAGCTGAGTGAATTGGGGTAGTTATTTAAACTCGCTGTGTCTCGGTTGTCTCCGTTATGAACAGGGATAATAATAGTATCTACCACACAT
K
CTTGTTGGGAGTTAAGGAAATAATTCAAGGAAGGAGGGCCTGGTGTGCGGACACAGAACGCTGCGTAACAACCGCTGTCAAGACCCTGACTGTGTGCCCA
Celera SNP ID:            hCV28974627
SNP Position Genomic:     128249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22100):
CCCGCTGCTCTCCATGCGGGAGCCGGCGCCTGCTGATGGCGCAGCTTTGGAGCACAGCGAGGAGGACGGCTCCATTTACGAGATGGCCGACGACCCCGAC
R
TCTGGGTGCGCAGCCGGCCCTGCGCCCGCGACGCCCACCGCAAGGAGATTTGCTCTGTGGCCATCATCTCCGGCGGGCAGGGCTACCGCAACTTTGGCAG
Celera SNP ID:            hCV15959137
SNP Position Genomic:     164220
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,25)   caucasian(A,6|G,32)   total(A,13|G,57)   
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,27)   caucasian(A,6|G,34)   total(A,17|G,61)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,76|G,671)   total(G,671|A,76)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:22101):
GGCGGACTGGATGAGCTCATTCCTGTCACAGGGCCTTTGCATGCCCTGTCTCCTGGGCCTTGGCTCAGGTCTTGGTGTGGCCACCTCCGCCTTGTCACCC
R
GCAGCCTCACGCCTGCCTCCCTATCCTTCCAGGAAGTAGAGGGAGGCCTGAAGACCCGGGAATCCTCCACTGGCTCTGCCCTGTCGCCCTGTTTCAATCC
Celera SNP ID:            hCV1477172
SNP Position Genomic:     159983
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22102):
TTCCACACACTGTTGTGTTGTGGCAAATGGCATCAAACAGTAAGAGCCACGGACACAGACTCCTCTGTAGCTGAGTGAATTGGGGTAGTTATTTAAACTC
R
CTGTGTCTCGGTTGTCTCCGTTATGAACAGGGATAATAATAGTATCTACCACACATGCTTGTTGGGAGTTAAGGAAATAATTCAAGGAAGGAGGGCCTGG
Celera SNP ID:            hCV28974628
SNP Position Genomic:     128192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22103):
CTTGGTGTGGCCACCTCCGCCTTGTCACCCAGCAGCCTCACGCCTGCCTCCCTATCCTTCCAGGAAGTAGAGGGAGGCCTGAAGACCCGGGAATCCTCCA
M
TGGCTCTGCCCTGTCGCCCTGTTTCAATCCTCTGCCTGGTGTTTACATCCCTTGTTTCTGTTTTTGTTTCCTGTATCTCCTCTCTACACCTCTGTGTCTA
Celera SNP ID:            hCV1477173
SNP Position Genomic:     160053
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22104):
TAGGTAACTAGGTTTTGCTAAAAGAAAAAAACTTTTTTTTGAAAGCCACAGCGCTCGATAGAGTCACTGAATAGGTCTGATGTTCTGGGTGTATATCAAG
R
GGCTCTGGAGAGAGAGTTGATTGACTCCAGGCCGACCATCCCTCCCTTGGTAACTCAACTCTGGGCACGCTGCCCGGTGAGAGGCCAGGAGCACTTTCCT
Celera SNP ID:            hCV28974629
SNP Position Genomic:     89936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22105):
TGCGGGCAGGTTTTCTGGGAAGCCGGGGAGAGCCGTATGGGATTTGTTCTGGGCATGATGGGAAGCTGTGCATTATAGCATTGAGAGCTGGATAGTGTCC
Y
GATCTGATTTTCATTTAAGTGGGTCATTCTGGCTGCTGTGGGGAGAGGGCATGGGAGGGGCAGGTGTGGAGGTGGGAGCAGGAATGGGGAGGGGTTGCCT
Celera SNP ID:            hCV32171
SNP Position Genomic:     108535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22106):
CATCAAAGAAAGTTCTAGAGTGTCTGCTCCTTAAGACAGGACTCTATGTACATGGTCCCAGCTGTGCCCCCAGCACCTAGTGTGGGGTCTGCCATGCAGT
R
GGCATCTGGGAGGTAAATGGATTGGTGATGGGATGGCACACTGTGTTAGGCAATGCTGGGTGTACCCCGAGTCGGTAACCTGCCTTTTGGGGTGAGAGAG
Celera SNP ID:            hCV1477174
SNP Position Genomic:     160390
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22107):
ACCTCAACTCCACCCCACCCTGCACTCACCAGGTGGGGGACCTCTTTGAGCCTTAACATCCGTGCCTGGAAAATGGGGCCGGCATTTGTGTCTTGCATAC
R
TCTTGGCTGTTGCAAGCCTTGTGTCAGATGAGAGCAGGTATACGAGTGCTTTGGAAACTCCAAAGCTGTGTTTTTTCAAATGTGATCCATGGACCAGAAG
Celera SNP ID:            hCV1477175
SNP Position Genomic:     160713
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22108):
TAGTTAGGCAGGGAGATGGGTTCATATCCATCTTACAGATGAGGAAGCTGAGCATACAGCATTTAAGTGACTGTCGAAGGTCACTGCTGAAGCGAGTCAG
Y
GAAGGCGCCAGCACTCAGCCTGGGACTCCCTGGCCACTCAGTCCTTGCTTTCTTCTGCACAACTGTCTCCAGTGCCTTTTGTATTCCTGTCACCCGGCTA
Celera SNP ID:            hCV16241642
SNP Position Genomic:     8902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22109):
CAGCCTGTGAAGATGCTGGGCTGCCTTATCTCCACACAGCTTCACTGCAGCAAAAGTTTTAATGGAAGAAGAGTCATTTGAAATCTTATTTGAATGCCTG
K
GTTCCCCTGGGGCTTGAATAATTTGTTTCTTTTATTTTGCCAGTATTTTTTTTCTTTTTATCTGCAGTGGCTGGTTTGGGAGGGGATGATAATATGAGCC
Celera SNP ID:            hCV32172
SNP Position Genomic:     109125
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:22110):
CCCTGCACTCACCAGGTGGGGGACCTCTTTGAGCCTTAACATCCGTGCCTGGAAAATGGGGCCGGCATTTGTGTCTTGCATACGTCTTGGCTGTTGCAAG
S
CTTGTGTCAGATGAGAGCAGGTATACGAGTGCTTTGGAAACTCCAAAGCTGTGTTTTTTCAAATGTGATCCATGGACCAGAAGCAGCAGAAAGTGGGAAC
Celera SNP ID:            hCV1477176
SNP Position Genomic:     160730
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22111):
CAGAGTGGAAAGAATACATGTAATCTTCTATGATTAATTTTGAAAAGATAAAGTAAATGATATATATGCCATGATAAGATAATAACGTGGATTTATATTG
Y
ACTTTCATATCTGCTATCTCTTTGTTTTGACAACACCCTAGTAGTTAGGCAGGGAGATGGGTTCATATCCATCTTACAGATGAGGAAGCTGAGCATACAG
Celera SNP ID:            hCV16241643
SNP Position Genomic:     8760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22112):
GGTGGCCCAAGGCAGTGAGCCTGAGCGCAGGGCTGGGCCCTCCCTTGCTGCCTCTCATTTGGTTTAGTTTTCCGGCCCATAGTCGTCACACTGACGCCAA
Y
ATTCCTTCCGGGATGACTCCAGCTGTTGGGTCCTGAGCACAGCCCTGGCAGAGTGTGAAGTGTGTTCTAGACCTCAGCATGTCCTTGAACCCTCACTGCT
Celera SNP ID:            hCV32173
SNP Position Genomic:     110303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;JBIC-allele(C,71|T,1400)   total(C,71|T,1400)
SNP Type:                 INTRON


Context             (SEQ ID NO:22113):
AAGCCTTGTGTCAGATGAGAGCAGGTATACGAGTGCTTTGGAAACTCCAAAGCTGTGTTTTTTCAAATGTGATCCATGGACCAGAAGCAGCAGAAAGTGG
R
AACCTTCTGGAATGCAGCCTAAGCCTCTCCCAGAGGGCAGCAGGATCAGGGCAAGAAGGAGACAGCCCTTTAGAAAGGCAGCTGCCCAGTGAAGCCTAAG
Celera SNP ID:            hCV1477177
SNP Position Genomic:     160827
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22114):
ACACGTGCACATGTGCACACAACGAAGAAGAGCCACACTGGTGGAGGAGCAGGGAGTAGCTGTGAGAGGTGTGATACCCTCCAATGGGCTGAGACGACAG
R
TGGTGGAGGCCAGGGCATGGAGACATGGGTGGTGCAGGCCTCTCTGAGAAGGAGAGGAGCCAGCCCTGGGGAGGTGAGGGGCAGCGTTCCGGACAGCGGG
Celera SNP ID:            hCV32174
SNP Position Genomic:     112726
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22115):
TGTTGGCAACAGTGCAGCAGCAGCGATGACAGCAGGTAGCGCCCATTTTGCCATGTGCAGGCACGGGGTTGTTTTACGTTCATTCATTTAACCCAATGGA
S
AGTATCTGTGTTCCAAACATCAAAAAGGGACAGTAAAAATACGGTCCTATAGGACTGCCATTGTATACATGGTCTGTTGTTGACTGAAAGGTCATTATGT
Celera SNP ID:            hCV1477178
SNP Position Genomic:     161182
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,8)   total(G,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22116):
ATCGCTTGAACCCGGGAAGTGCAGGTTGCAGTGAGCCAAGATCGCACCATTGCACTCCAGCTTGGGTGACAAGAGTGAAACTCCATTTCAAAACAAAAAC
R
AAAACAGAAATTAGCTGGGTGTGGTGGTGCACGTCTGTAATCCCAGCTATTTGGGAGGCTGAGGTGGGAGGGTCGCTTGAACCCGGGAGGCGGAGGTTAC
Celera SNP ID:            hCV27269005
SNP Position Genomic:     8055
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22117):
CTTGGGCCCAGGGCCTGCAGGGTGTGCTGTGACCTCATCTGAAGAAGCACCCACACGGGCAGGCCCTGAGGGGCTGCAGCAGAGCCACCTCGATGCCTCT
Y
GAGCCCCACCCGGCCCTACTTATGCCTTCCATCTGCACCAACACCGATGAGAAGCTTGCACCTCCCCAGTCTTCCCTGGTTTTGCTCGTAGCTGGCTGGC
Celera SNP ID:            hCV1477179
SNP Position Genomic:     161717
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,19)   total(C,19|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22118):
GTCGCTTGAACCCGGGAGGCGGAGGTTACAGTGAACCAAGATTGTGCCACTGCACTCCAGCCTGGGTAACAGAATGAGATTCTATCTCAAAAGAAAAAAA
R
AAAAGAAAAGAAGAAGATTGAGCATGGTGGCTCATGCTTGTAATCCCAGCACTTTAGGAGCCTCAGGTGGGAGGATCACTTGAGCGCAGGTGTTCGGGAC
Celera SNP ID:            hCV27269006
SNP Position Genomic:     8227
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22119):
GCGCAGGTGTTCGGGACCAGCCTGGGCAACACAAGAGAACATGTCTCTACAAAAAATTTTAAAAATTAGTTGGATGTGCTGGTGCACGCCTGTAGTCCCA
S
CTACTCAGGAGGCTGAGATGGGAGGATCACTTGAGCCTGGAAGTTCGAGGCTGCAGTGAGCTGTGATTGTGCCACCGTACTACAGCTTAAGTGACAGAGG
Celera SNP ID:            hCV27269007
SNP Position Genomic:     8411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22120):
TCTGCCGGGTCCTGGGCAGTGGTGAGTTGGGAGCCAGCTCACACCTACACATAAGAGCTGATTGCTAAATTTTAGGAATTTTATGAGCCGGTTGTTAAAC
R
CAACCATTATAAAAAATTCTGAGGCCAGGAGCGATGGCTCATGCGTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCCCCTGAGGTCGGGAGT
Celera SNP ID:            hCV15754473
SNP Position Genomic:     9354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22121):
CAAGGGTGAATGGGCCACTGTTCTTGCCCTCAAGGGGTCTAAAGTCCAGGAGAGAATCAGGCTCTTTAACAACTGAGTGTGCCAGAGTTGTTCCGCCCCA
Y
GGTGCCACCTTGGGCCCAGCTCAGCCCCTTCCTTGCAGTGTCCCAGAGAGTTCTTCTTCTCTCTACCTCAGTGGAGGGCATCAGAGCCATTTTCATTCAG
Celera SNP ID:            hCV15754474
SNP Position Genomic:     9105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22122):
TTGTTGTTCCAGCTCTTTCTAATATTGCTGGCTAGTATCATCTGGGTGAACCCAGCTCTTTGCCATTTTCTCATTCTCTGAGAGCTTCCCATTACCTTCC
Y
AAATTAAATTCAAATTCCTGAGTAGGGGATTCCCCACGCACCTTGTCAACTGTCTAATGACCTTCATTCCTGCGCGTGTCTTCAGCACCCCCGGGGCACT
Celera SNP ID:            hCV1975320
SNP Position Genomic:     48509
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22123):
GGGATGGGCCTCCTGAGTTTTCCTTCTGATAAGGAGCAATGCCTGATTGCCGGGGGGAGGATAGAAGGCGGCCTTGGAGACAAGCACATCTCACCTCCCA
R
TTCATGACTGGGATTTGGGTCCCAGCATGCCTGGCCTTGCCCCATCCCGCCCCTGCTGCCATGGGCACCTGTTCCCTTTCCTCTCCCCACCAAGAGGCCT
Celera SNP ID:            hCV1975322
SNP Position Genomic:     48228
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22124):
AGTGGTAGCATTGCCGCATTTAGTGAAAAAAAGAGAAAGTAAAAGAAAAATACAGCCAGGCATGGTGTCTCATGCCTGTAATCCCAGCACTTTGGGAGGC
Y
GAGGCGGGCAGATCACTTGAGGTCACGAGTTTGGGACCAGCCTGGCCAACATGGTGAAATCCCATCTCTACAAAAATACAAAAATTAGCTGGGTATGGTG
Celera SNP ID:            hCV1975323
SNP Position Genomic:     47120
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22125):
TGTATTAGTACTATTCTGAAATCATCACTGAGATTTAGGTTAAAAAGGCAGTTGCAGCACTGTGAGTGCTGTGTGCTCCTTCTGTATGAAACAAGGCATA
Y
CTGCAGATATGCAAGTTGGCCCATGCATGGGAGAGTTCTGGAAGGATTCTTGAGAAGTCAGTAACAGTCATCTCTTCTGGGGGACTGGGGGATTAGGGCA
Celera SNP ID:            hCV1975324
SNP Position Genomic:     44935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22126):
TCCCAGCTACTGGGGAGGCTGAGGCGAGAGGATCACTTGACCCAGGAGTTCCAGGCTACAGTGAGCCATGATTGTGCCACTGCACTCCAACCTGGGAAAT
Y
GAGACCAAAGCAGCCTCAGTACCTATCGATGGGGGCTATATAAATTATACCCCCACAAAAAACACCTACCTCAAAACAAAACCAAACCTACTATGCAGCT
Celera SNP ID:            hCV1975325
SNP Position Genomic:     44708
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22127):
TGTGTCTAATGAGAGTTGAAAGCCAGAGAGACCTCTCAGAGAACACAGGTACGTGGAGGAGTTCTGGTCCTGACCAGCCCAAGCACCTGGTCTTTCCCCC
M
ATTCCCCACCTTCTTTCTGCTTCAGGAGGTGGGCCCTGCAGAGGGCCTCTGAGGCCAGAGCTTGACAAGCGTGCTTGGGCCAGAACCGATTCCTTGCTTC
Celera SNP ID:            hCV1975327
SNP Position Genomic:     41891
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22128):
GCTCAGAAAGGCAGGGGCCATGGATGGGCAGCAATTCTGAGATCCAGCTGTGCGCAACCATCTCCCTGACCCAGCCCGAATTCTTTGCTTGCGGGGGTCA
R
TCCACCCGATGTGGGAGGGTGCGGCCTGGGAGAGACCACCAGGGCACCGGCAGAGGAGAACGCCTTGTACTGGGTCCATTTTGGGAGCCCGGGACGCCCT
Celera SNP ID:            hCV1975328
SNP Position Genomic:     38211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22129):
TCGGCTTCTACCCTAGAAAGACGTCCTTGTACCATGCAAAAGACTCCTCCCTTCCCTCCTTACCCCATCTCATTTCTGGCATCAGCTCAGAGGCCAGTTT
R
GGGGGGCTCCTCCAGTTGCCCATCTGCAGACCTGTGGACCAGTGATGGGATGGGCAGGGGACCCCTGCAGGTAATTCCGCTCAGAAAGGCAGGGGCCATG
Celera SNP ID:            hCV1975329
SNP Position Genomic:     38032
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22130):
GATCTCTGAGGGTGTGACCCCCTCCTCCCACCCCCCAACAAGAAGAAGATGAGCGTCTATGCCATCCCTTTCGTTAGATTCTCAAAGGCCTCTATGATTA
Y
TCCCCTTGCCCAACCCCAGAAAAGGCCAAGCACAGCTTCTCTAGGATTGTCCCGTAGAAATGCAGGGCAGGCAGGGGACTTCCTTCTTTTTCCCTGCTGC
Celera SNP ID:            hCV28974630
SNP Position Genomic:     80720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22131):
TGCCCTTGGACAACCCTTTGTGCCGGATGACCTGGCCGCCGTGTATTGAGAGCGCACACAGACCAGGCGCTGTGCCTGTGGTGTTCCCCCAATGCATCCG
Y
ATGGCAGCCCCACTTTACACAGGCGGAAACTGAGGCTGGTTAGGGGAGTGCTCAGCTGCAGGACCTCGTGGCCAGACCCCAGGCAGGTCAGCCTCCAAAG
Celera SNP ID:            hCV1477180
SNP Position Genomic:     161935
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;JBIC-allele(T,119|C,1356)   total(C,1356|T,119)   no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22132):
CCTTGGACAACCCTTTGTGCCGGATGACCTGGCCGCCGTGTATTGAGAGCGCACACAGACCAGGCGCTGTGCCTGTGGTGTTCCCCCAATGCATCCGCAT
R
GCAGCCCCACTTTACACAGGCGGAAACTGAGGCTGGTTAGGGGAGTGCTCAGCTGCAGGACCTCGTGGCCAGACCCCAGGCAGGTCAGCCTCCAAAGCCC
Celera SNP ID:            hCV1477181
SNP Position Genomic:     161938
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22133):
TGTGGAAATGCCCAAAGCCCGGCTGCTGGGCTGTGCCTGGGAGCCGGAGCCCTGGTGTGGGGTGAGGGTGAGGCTTTAGGCCAGAGCCTGAAGATGTGGC
Y
CATCAGTTGCTTTAGGCTCCTGGGTATCTTATGTTTTACTAACACAGGGAGCCCACACCATGGGTGAGACATAGGAGAGATCTGACATTCTGGGGCCTGG
Celera SNP ID:            hCV27478423
SNP Position Genomic:     99080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22134):
TGAGTGTCAGTTTCCTAATCTGGCAGATGGACACAAGAGTGGCTTGGGGCCTGGCTGAGACACCTGCCTAATGGCAGGGGCTCCACTGGCCCTTTCTGCT
K
CTTCCCATAGCAGTTTCAAGATGTCCAGGCTCCAGAGAAAGAAATAACTGAGTGCTTCTGGGGCCAGGCCCGGCCTGCTCGTGGGGTCCATGTGCAAATG
Celera SNP ID:            hCV1477182
SNP Position Genomic:     162595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;JBIC-allele(G,110|T,1321)   total(G,110|T,1321)
SNP Type:                 INTRON


Context             (SEQ ID NO:22135):
TCCTGGCCCCTGACATCCTGCGGAGTGACCAGGAGGAGGCTGAGGGGCCCCGGGCTGAGGAGGACAAGCCAGACGGGCAGGCACACGAGCCCATGCCCGA
Y
AGCCACGTGGGCCGAGAGCTGACCCGCAAGAAGGGCATCCTCTTGCAGTACCGCCTGCGCTCCACCGCACACCTCCCGGGCCCGCTGCTCTCCATGCGGG
Celera SNP ID:            hCV15959147
SNP Position Genomic:     164039
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,7)   caucasian(C,34|T,6)   total(C,61|T,13)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   JBIC-allele(T,118|C,1371)   total(C,1371|T,118)   no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:22136):
GGGAATCCTGGCCCTCAGAAAGGCTAATGTGGCTTCCCTGCCCCTTGGGCCATGCGCTCCCCTCCCCACCCCATGCATCACTTCCATCCTGAGAAGTGCC
Y
GAGCCCCATGTTACACCTGCTTTAAAGGCAGATGAATGTCCTGTTTGAACCGCATGTGCTTTGCTGCATGGGGCTTGGTGCTGGAGGGATGGGAGACGGT
Celera SNP ID:            hCV27478424
SNP Position Genomic:     108900
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,24|C,1477)   total(C,1477|T,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22137):
GCTGGGCCTTGCTGAAAGAGTTGCAGAATCAAGTAGACAGGAAAGGATTTCTAGGCAGAGGAGCTGCTTGGCAAAGGCTCAGGAAATTCTTGGAATTTCA
Y
ACTGAGGCTCCCCCGTGTGGTGTATAAGGTGGTTTCTGTTCCACTCCCCTGAGGAAGTTGTGCAGGAGCACGGGATAGCCAGAGCCTGTGGCCTTCGGGG
Celera SNP ID:            hCV15959148
SNP Position Genomic:     163641
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,123|C,1364)   total(C,1364|T,123) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22138):
CTGATAAAGAAGAATTGCTTTGGCTGGGCGCGGTGGCTCACACCTGTAATCCTAGCACTTTGGGAGGCCGAGGTGGGTGGATTGCCTGAGCTCAGGAGTT
Y
GAGACCAGCCTGGGCAACACAGTGAAACCCCATCTCTACTAAAAAATAAAAAAAAATAAAAATAAAAAATTAGCTGGGCATGGCGGTGTGCGCCTGTAAT
Celera SNP ID:            hCV1477183
SNP Position Genomic:     163018
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22139):
CCCTCAAGGGGTCTAAAGTCCAGGAGAGAATCAGGCTCTTTAACAACTGAGTGTGCCAGAGTTGTTCCGCCCCATGGTGCCACCTTGGGCCCAGCTCAGC
Y
CCTTCCTTGCAGTGTCCCAGAGAGTTCTTCTTCTCTCTACCTCAGTGGAGGGCATCAGAGCCATTTTCATTCAGGACCCTGGTCTGATGACATTCCCAGG
Celera SNP ID:            hCV16186364
SNP Position Genomic:     9131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22140):
ACTTGAGCCTGGAAGTTCGAGGCTGCAGTGAGCTGTGATTGTGCCACCGTACTACAGCTTAAGTGACAGAGGGAGACCCTGTCTTAATTATATATATGAG
R
AAAGTGTACTGTTACTTGGGGAAATAGTATATTAATTAACAGACATTTATAGTATATGCTGAGTGCCAGGTGTTGGGCTAGATGCTTTAAGCATGTACCT
Celera SNP ID:            hCV16186365
SNP Position Genomic:     8540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22141):
AGATGGGAGGATCACTTGAGCCTGGAAGTTCGAGGCTGCAGTGAGCTGTGATTGTGCCACCGTACTACAGCTTAAGTGACAGAGGGAGACCCTGTCTTAA
W
TATATATATGAGAAAAGTGTACTGTTACTTGGGGAAATAGTATATTAATTAACAGACATTTATAGTATATGCTGAGTGCCAGGTGTTGGGCTAGATGCTT
Celera SNP ID:            hCV16241652
SNP Position Genomic:     8527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22142):
TTCCTCTCCAGTGAGCCAGGGTAGCCACAGTGCTCTGAGGGTTCCTGCCCCAGTTGTGGGGGCGGGGGGCTTTTTTCAGTCTTCCAGTGGAACAGGGGCC
R
TGTCTGTCCTTGATCACAGCTCAGAACAGTGCCTGGTGCATAGTGGGTGCTCTACACATAGTTGCTGAATAAATGAATGTCCAATAACTAATGGTTCCCA
Celera SNP ID:            hCV16186366
SNP Position Genomic:     7429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22143):
TGCAGGGATGAAATCGGGCAGAGACCCTGCTCTCAACAAGCTGATGGTCTCCTGGGGGTCATCATAGCTCGGGTGACAGGTGCTGGGATGAGGGTGCTCC
R
GGGGCTGGGGACACAGAGACTGGGGCGAGCAGCTCCCCATGCATGAATTCAGGAGGGATTCACAGTGAGGAGTGTGAGCTGGGCCTTGCTGAAAGAGTTG
Celera SNP ID:            hCV1477185
SNP Position Genomic:     163463
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22144):
CTGGGCCTTGCTGAAAGAGTTGCAGAATCAAGTAGACAGGAAAGGATTTCTAGGCAGAGGAGCTGCTTGGCAAAGGCTCAGGAAATTCTTGGAATTTCAC
R
CTGAGGCTCCCCCGTGTGGTGTATAAGGTGGTTTCTGTTCCACTCCCCTGAGGAAGTTGTGCAGGAGCACGGGATAGCCAGAGCCTGTGGCCTTCGGGGG
Celera SNP ID:            hCV1477186
SNP Position Genomic:     163642
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22145):
AGGATTTCTAGGCAGAGGAGCTGCTTGGCAAAGGCTCAGGAAATTCTTGGAATTTCACACTGAGGCTCCCCCGTGTGGTGTATAAGGTGGTTTCTGTTCC
R
CTCCCCTGAGGAAGTTGTGCAGGAGCACGGGATAGCCAGAGCCTGTGGCCTTCGGGGGAGGTGCCAACATAGACAGAAGTGACCCCCCCAAATACCCACC
Celera SNP ID:            hCV1477187
SNP Position Genomic:     163684
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22146):
CTGTTCTGATCAGTGGGTGCCCTTTCAAGGAGCCAGGTTGGGAGAGAGATGGATGCTGCCAGCCCCAAGGAGGCCCTTCCAGGCTTGGTCTGACATCATC
R
TTATCCTCAGCCACAGAGCGGGAGGGTGCTGGCTCTGGCACAGCTGGCACATAGTGCTTGCTCTGGCCTGCACAGTGGGGCCCGTGTCTCAGGTCACCCC
Celera SNP ID:            hCV16241654
SNP Position Genomic:     30119
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22147):
CCAGAGCCTGTGGCCTTCGGGGGAGGTGCCAACATAGACAGAAGTGACCCCCCCAAATACCCACCCAGAATGTTCTCCAGGAGAGAGACTCAGGTGCTTC
Y
CTTAATGCGCTGGGCCTTTGGGCCCCTTTCTCTCTCGCCCCATTTTCTGCAGGGAAAGGCATGGTCTCACTCAACGGGCACTGTGGGCCTGTGGCCTTCC
Celera SNP ID:            hCV1477188
SNP Position Genomic:     163820
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,23)   caucasian(C,5|T,33)   total(C,12|T,56)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;(T,-|C,-)   JBIC-allele(C,110|T,633)   total(C,110|T,633)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22148):
GAAAGGAGGGTGCTGCGTGCCACCAGCTGGTGCAGTCCTGATGTCATCTGCAGCACCTCTGGCCAGGCTGCCACAGCCCACGGTGGTGCTCTCTCTCCCC
M
CTTCCCTCCCAGTTGACCGGTTCACTTTCCCCGCCCTGGAAGAGGATGTGATTTATGACGACGTCCCCTGCGAGAGCCCAGATGCGCATCAGCCCGGTAT
Celera SNP ID:            hCV25938636
SNP Position Genomic:     69536
SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,9)   caucasian(A,31|C,3)   total(A,44|C,12)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22149):
TCCAGGAGAGAGACTCAGGTGCTTCCCTTAATGCGCTGGGCCTTTGGGCCCCTTTCTCTCTCGCCCCATTTTCTGCAGGGAAAGGCATGGTCTCACTCAA
Y
GGGCACTGTGGGCCTGTGGCCTTCCTGGCTGTGGCTACCAGCATCCTGGCCCCTGACATCCTGCGGAGTGACCAGGAGGAGGCTGAGGGGCCCCGGGCTG
Celera SNP ID:            hCV1477189
SNP Position Genomic:     163895
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,25)   caucasian(C,6|T,32)   total(C,15|T,57)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;(T,-|C,-)   JBIC-allele(C,236|T,1261)   total(C,236|T,1261)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:22150):
CCCTTTTTCTTTTCTGTTTGTTCACTGATGTGTCCCAAGTACTCAGAACAGGACTTGGCTCATGGAGGTGCTTAATAAATGTGGGTTGAATGAATGAATG
R
TTGGATGAATGAATGAATATTACCTAATTGGGTCTCAGGAGTGTCATGACACCCAGTTTGCAGATGAATAAACTGAGGCTTAGGGAGGTTAAGTTGCACA
Celera SNP ID:            hCV16241658
SNP Position Genomic:     29674
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22151):
CACAGCATCATCTGGGTGCCAGCAAAGGAAATCTGACAAACCTCACCTGTCAGGGGCCTTGTGCTGTGTGGATCACCCTGCTTCCCTAAAAATCTTTGAG
K
TTTCTTGGTAGTTTCCTGCTGTCCCTGAAGCTTGCTGGTCTTCCAGCCCCTGCATCTGTGGCTGGTGGATTCTCAAAAAAAATCCATGTTAATATCAAGC
Celera SNP ID:            hCV15754483
SNP Position Genomic:     12203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22152):
TAATTGAGAGCTGACTTTGCCATTGAGTAACCCTATTCAGGATGACTCAGGCATCTGGGAGGAAAAGCAGCAGTGGTGTCTGAGGACAGACCGTGGACAA
R
TTAAGTAGCTTGGGGCTTGTGGAGTTGTGATGTCCAGGACATGGGTGGCTAGAGCTGACATAGGCAACAGTGGGCATGACCTGTCCATATGGATTCAGGA
Celera SNP ID:            hCV15754484
SNP Position Genomic:     11654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22153):
CACTGAATCAGAATCTCTGGGTGTGGGCCTGGGACATAAATATTTTTAAAAAGCTTCACAACTGGAAACCACTGTGTGAAATGGGTCTAAGGAAGCTTTG
Y
AGAGGAGAAATGGGGTCTGGTTTTGATGACTGAACAGGAATTTGCTTGCTGGTTGTGAGAGAGAATTCCATGTGGAGGGAACAGACAGCTTAAGCAAAGG
Celera SNP ID:            hCV15754485
SNP Position Genomic:     41428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22154):
GACGGGATTGTGACCAAGGAATGCAGGTGGCTTCTCGAGGCTGGAAAAGGTGGGGGATGGCTTCTCCCCTGGAGCTGCCCCTGCTGAAACCTCGCTTTTA
R
TGAGAGCACAGCCCTGCCGAAACCTCGCTTTTAGCCCTGCGAACCCCTTGATGGCCTTCTGACCTCCACACCTGTGAGAACAGATTTGTGTTGTAAGTCA
Celera SNP ID:            hCV3155366
SNP Position Genomic:     59701
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22155):
AGGGCAGCAGTGTGTGGGTATCTGGGGGAACAGCATTTCAGGCAGTGGGAACAGCAAGTGCAAAGGCCCTGAGGCAGAAACATGCTTGGGGCATTCAGGG
W
GCTGGAAGGTGGTGGTGACTAGAGTGAGCTGTGTGGAGAGAGGTAGGACATGAAGTCGGGGGGGTTGTGGGGGCTCTGACACGTGGGGCCTCAGAGATCA
Celera SNP ID:            hCV1975330
SNP Position Genomic:     36519
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22156):
GAGGGCAGCAGTGTGTGGGTATCTGGGGGAACAGCATTTCAGGCAGTGGGAACAGCAAGTGCAAAGGCCCTGAGGCAGAAACATGCTTGGGGCATTCAGG
K
AGCTGGAAGGTGGTGGTGACTAGAGTGAGCTGTGTGGAGAGAGGTAGGACATGAAGTCGGGGGGGTTGTGGGGGCTCTGACACGTGGGGCCTCAGAGATC
Celera SNP ID:            hCV1975331
SNP Position Genomic:     36518
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22157):
CTGACTCCAGCTAATGCGATTTCTGGTCTTCTTTCCACAGGTGTGTAGCTGGGACGGTGCTGGTCTGAGCTGGACCTTGTCTGATGGCTTCCTCCAACCC
K
CCTCCACAGCCTGCCATAGGTACCGTACCCAGGGCTTCCTGTCCCTCTCATCCTTTCTTAGAAGGGGGCCGCTGGGGGCCGGCGGAGGGCCTTGCTCTGG
Celera SNP ID:            hCV3155367
SNP Position Genomic:     46653
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22158):
TCCCCTGGCCTGGAGCAGTGCTCAGAGCCAACTCCCGCCAGAGGTGCCCCAGAACAGCTGGAACTGCACTCACACCCTTATCTGGGGAGGACAGCACATC
R
CTGAGGGGTGTGGTTTGAATCATAAGTGCTGGCTGCTCTGAATTCAGCCAGAGCTATCCTGGGCTGTGTGGCTGAGGGCCCCCGGGGGTCCTGGGGCTCC
Celera SNP ID:            hCV1975332
SNP Position Genomic:     35353
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22159):
GACGCCAGGGTCTCACACCTGCCCCGTGGGAAAGGCTGGGGTATGTGCCTGCCTGGTGACGGTGGCAGCCGCGGAGGCTCGCGGATCCTGTCCCCTTTGC
Y
GGCCACATGCTTCTGACTCATCAGAGGAAGAATGTGGTCTTTTTGGGAGAGAGTTTTTAAAAATAGTCCAAGTCCTCCTCTGGCCCTGTCCCACTCCTCC
Celera SNP ID:            hCV3155368
SNP Position Genomic:     35856
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:22160):
GTCCTGTGCCCTAAAGGATGTTTAGCGGCTTCCCTGGCTTCCACCCACCAGATGCCAGTAGTGTCCCCCCTCCCCACCTAGTGTGGCAACCAAAGTGTCT
M
CTGCCATTGCCAAATGTCCCTTGGGGGACACAACAGCCCCTGGTTGAGAACCATGGCCTCCCATAGATCTGTAAAGCTGTAACTATAAATCAAGGTGGGA
Celera SNP ID:            hCV1975333
SNP Position Genomic:     32361
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22161):
AGACGCCAGGGTCTCACACCTGCCCCGTGGGAAAGGCTGGGGTATGTGCCTGCCTGGTGACGGTGGCAGCCGCGGAGGCTCGCGGATCCTGTCCCCTTTG
Y
CGGCCACATGCTTCTGACTCATCAGAGGAAGAATGTGGTCTTTTTGGGAGAGAGTTTTTAAAAATAGTCCAAGTCCTCCTCTGGCCCTGTCCCACTCCTC
Celera SNP ID:            hCV3155369
SNP Position Genomic:     35855
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22162):
CCCTCCTGCTTAACATTTGCTCCTTGCTGCTGCATCCCAGGCATTGCAGACGAACTATCCATGCTTTTGGTCACCCTTTCAAGGAGCACTAACTGGTGGA
Y
GGCCCCCCTCCAACTCCTCATTGCCTGAATCTAGGCTCAAGTCTGCTCTCAGGAGTTTCTGCAGCCCCCAGGTCTCCCGAAGGGAAGCCCAGCTGCTATT
Celera SNP ID:            hCV1975334
SNP Position Genomic:     31518
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22163):
GGTGGAGCGCAGTGGCGCCATCTTGGCTCACTGCACCCTCGACCTCCCAGGCTCAAGTGATCCTCCCACTTTAGCCTCCTGAGTAGCTGGGACTACAGGC
R
TGTACCACCATGCCTGGCTAATTTTTGTATTTTTTGTAGACATGGGGTTTCCCCATGTTGCCCGGGATGGTCTTGAACTCCTGAGCTCAAGGAATCTGCC
Celera SNP ID:            hCV1975335
SNP Position Genomic:     29420
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22164):
GGCACTGGGAGGTGGGGCCAGGCTTGACTGGGAGGAGAGGGAGATGCTGGCTTTTCCTTGGTCCTGCCCCCCGCAGCCTTGCAGTCAGAGGCAGCCCCAA
Y
GAGCCCTCTGCAGTTCTGAGTGCCTTCCTCTCCTGTCTCGCAGAGGGGGAGCCTCACAAACCCTGACAGCAGAAGTGACTTGCCCAGCGTCGATGGGCGC
Celera SNP ID:            hCV1975336
SNP Position Genomic:     27508
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22165):
TTCTAAGTCTGAGAGCAACCAGTGGGCCTCAAAGGCGATTGAGGGCTGCTTCCCCTGCCCTGCACCTCCCCCCCGCCCCGTCATGCTGGCAGCCCGGGAG
Y
AGTCTCTCACGGTTCTGTGGGCAGCTGGAGATGGGGCAGAAGCGGGCGTCAGCTCCACAGTGGGGGCACTGGGAGGTGGGGCCAGGCTTGACTGGGAGGA
Celera SNP ID:            hCV1975337
SNP Position Genomic:     27343
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22166):
CCACTGCGCCTGGCCCTCAAGCATCTCTTGAAGACCTGCCAGGAGGCACTGTGGGGACACCCAGGGAGGAGCCACAGTTTCTGTCCTCTGGGAGCTGACA
Y
GTGAGCAAGAGTGAGAACACAGGTTTAGGGGCTCCAGGACTGGGTTTGAATCTTGGGTCTTAGTAGCTGTGTGGTCTTGGGCAGGTGCCTTTGCCTTGCT
Celera SNP ID:            hCV1975338
SNP Position Genomic:     26990
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,13)      total(C,13|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22167):
AATAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGGTGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCC
Y
GATCTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCCCTCAAGCATCTCTTGAAGACCTGCCAGG
Celera SNP ID:            hCV1975339
SNP Position Genomic:     26832
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Gene Number:                 73
Celera Gene:                 hCG1813420 - 30000053502463
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W3P1(7443414..7500553)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12233):
GGGCAACAAGAGCGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGGTGGGGGGGCATATTCTCTATGTAGGGTGTGTGGCCTACCCCTCTGCTTA
AGAACATTATAATGAAGCTTTTACTTTAAATGTTAAATGTTCAAATGAAATGCTACAGAATATTTTAATGAGTTTTGAGTGAGTGCCCAGGACAGCACTT
CTGTGACCCCTTAGGACCCATAATGGTATCTAGGGTGATGCTTTGTCTGAAAGTCAAGGGTCAATCCAAAGTTCTTCACTTAACCAGGGGCATTCTCTCT
GAACCTCAGTCTAACAAATGGGGCCAACCATGCACTCTTGTCCCTTCCTCCTGGGATGGCTGTATGGATCAGGGGAGATGAAGCACAGGAAAACACTTTG
AAAAGAGCTCTACATCTAGCAGAGGCTGTATTGAGGGGAGGTTGAGGGCTGAATGCTGTGAACTTAGCTGTGCACTGGGGCTGGAAATGGGAAGTGGCTG
AGGCCTTTTTTTTAAGCTGGGTGCTCCCTATAACACCAGCTACCTTTTATTGGGTACCTATTTGCCATAGGTTTTAYGTCAATATCTCATTTAATTTAAT
CCCCAGGCTGACCCCACTGAAGCATGATGGGAAATTACATACAGACCTGAAGTCATGGGTGCAAAGAGAAGGCACTGGTGCATGAAAATAAGAGGGAGGA
GAGGAATTCAAACTTCGGAGGTCTTCCCTTGGGTGGTGGTGGGTGGGGTGGGGGGTAGAAGGCAATACCTAATTTGCCCAGAATGTCAGTAATGTGTGAA
ATTATGTTCATTCATCCGTTTTTCATTTATTCAACAAACATTTATTGAATACCTATTATGTTGAGACACAGGACAAGTGCTATGTGAGATTTATTTTTCC
TTGTATGGTTTCTGCCCTCCAGAAATTTACAAATCCTATCTGCCTTGCAGATACTATCAACCAACCTATCTACTTTTCTTCCCTCCCTCCCTCCCATCTC
CCTTCTATCTATCCCTCCTAGACCTTGTTCCAGACAGGGACTAGGAAGCTTGAAAGGACTATTTCCACAACTTTGGGATCAGGCCAACTTCAGTTTGATT
TCATCTCTGTCACTAAGGGGAGAGCCAGGTGACCTTAGATGTTATATCACCTCTCTGGGACTGTTACCATCTTCTGTATAAAACAGGGATACTTATGGCG
GCTACTTCACAGGCCTCTTGAATTACATGATTTTATATATATATATATATTTATTTATTTATTTATTTATATATTATTTATATATATATTTATATATTTA
TATATTTATATATATATAAAATCAAGCACTAGAACAGTGCCTGACACATACTATGGACACTGTTATCTAATCCTCATAGCAATCATTTCACTGAGGACAA
ACTGAGGCAGAAGGAAGTGAAGTTGCTTGTCCAAGGCCTCAGGCAGTCACCCTCAAAGCTGACGTTCTTTAGTAACTTGGCCAACCATGTGACCCCATTT
TACAGGTAGGAATGGGATAGAGCATCTACAGCTAGCATTATGGCGTTAAGTGCTCAATAAATGATAGTAATTTTAATTGCAAAATCAAAATGAGATCAGA
TAGCTGAGCTCGCTGCTGAGAGCCTGCAAGCCAGACAGCCCCCCTGCAAGCCAGACAGCMCCCCCGTCTCCATTCCTGTGCCTCCCAGGGGATCACTGGG
CAAGGACTCAGTCTTCACTCTCTTCATCCCTGCCCTTGTCCCAGGAAGGATAGGGACACAATGGCCATTTGTCAATGGGAAATTATTTTGGTTTAATGAC
ATTTAAACTGGGGCTTTGTATAGAATTTCTAATTACAAAAGCAGTGCAAGTTCAATGTAGCCCGTTTGGGGGAAGACGGAGAAAAGATTGAAATCCTGGT
ATTTCAGTGCCCACAGAGAAGCACTGTTGACATGTGGGTATATATTCTTTCAATATTTGAATATAGGTCAACAGATTTGCATTAAGAGTTCTGGATAATT
AGAAAGCATTCAAGTGTTAGAAAAGGACGGCTGTCAGCAAGGTCCTCATGTTCAGCAGCGCATGTCCCGTCTGGTAAATGGTGCCRTCATTGTTCAGTAC
ACAACTTTCACAGACACACAGAGGAGCCCTGGCTCTCAGTGCTCACTTACAGTGGCCCTAACTTTTACTCCTCCCCAACATGCCAAGGAGAAGTGTCATA
CTCTTTGGGAACAGTGGCTTCTGCACAGGCATGATCGTGGAAAGGAGGGGAGGGATGAAGGACTGTGCAGTCCTCCAAGAGGGCAGATCAGAACGTCTGG
AGAAAGAACATCAGTAATCTAGAAAAGCAAATCAAGATGATTTTAATAGGGAACTCCCCCCTTATAGTGATTCACTAATCTGTTCTTATAGAGGGAAATT
GAGACTCTGAGAGGAGAGAATTTACTCAGTCACACAATAAGTAGCCAGAGGTCAGGCAGAACTTGAGCGCAGGGCACTCCCTAACTTAGTCCAGTCCTGC
AAGAATGGAATCAGAAAGATGTGGGTTCAAATCTCAATTCTTTAACTTATTAGCTTTTGTTTTGTTGTTGTTGTTGTTGACATTATCTGTTTGCACAGGC
TGAGTGCAGTGGCGCGATCTTGGTTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATCCTCCTGCCTCAGCCTCCCAAGTAGTTGGGATTACAGGTGTA
TGCCACCATGCCCAGCTAATTTTTGTTTTTTTAGTAGAGACGGGGTTTCACCGTGTTGGCCAGGCTGGTCTCGAACTCCTGATCTCAAGTGATCTGCCTG
CCTTGGCCTCCCAAAGTGCTGGTATTATTGGCATGAGCCACCGCACCCAGCTAACTTTTGACTTCCAACAAATCATTTAACCTCCGAGTCTGTTTCTTCA
CTTGTGAAATAAGGTTAATATCTTCCTCATTAGATTTAAATGAGAATTAAGGGGGGAAAAAAAGGCTTTTCTAACAAGTATTGAGTGCTAGATGCCAGGT
ACAGATAATGCACTTCACACGCATTATCTTTTAATCCTCACAATAACCCCATAAGGGAGGAATACAATTTTTATATACACTTTACAGGTGAGGAAACTGA
GGCTCAAAGAGCTGTAGCCACTTGCCCGACATCATGTAGCTAGTTGGGCTGAGATTTGAAAGGAGGCCTGTGAGTCTCAGAACAATACTATCCTAACACA
TAGGTAAGTCTTAGCACAGTGCTTGCAAAATACAAACGCTAACTAAACAGCAGCCCTCATTATTTAYTGTCATTATTGTGGATATAATTATTATGTTACA
AGTAATTGGCTGGTCTCTGTTTATGTTTTTTTAAACTTTGTTTTTTTTTTTTTTTTGGAATAGCTGTTCTGTTTTAAATCTCCTCTGCAGAGGAACCAAG
AGCTGTGCTGATCCATGAAGGGGAAGTAGGTGCCAGCCTTGCTCAGCCCCACAGGAGCAGGAAGGGGGCAGCAGCAAAGCACGGGGAGTGTCTCTTTAAA
GGCCTGGCATCTCTGGGTTGTTGGGATGAAGGCCTAGAAAGCACTTGTACCTCCTGCCTGGGAGGTATAATTCCTACTGAGGGGCCTGGTGACCTTGCAA
ACTGGCTCATGGCGTTCCTGCCTACCTAGCCCAGACCACCGGTCCTTCTATCCCATCCGGGACACTTCTGTAGCCTTCCTGTGTGTGGAGACGTAGAAAC
CCTCTGCCCTGTGATTTGGGTCTCTGCTGATCTCTGAAGATGGGTGCGGGTGATGAAAGAGGCAAAACCTAGAGGCAGAGGGAGAGGACCCATTTTTAAA
ACCCCAGCGAGCACAGACACGCCACCTGGAATCCCAGCCTCCCCTGAGCCCAGTCAGCATGAGTCACCCCACAGCCCTTCACCTGTGGGTTGCAACACGG
TTGACAGAAACTCCACAGCCTTCCATGAGGTGGGCAGACAGGTACATACAGAGGAGTGTGCCATCCTTTGGACTGCAATAAGCTTTGCAGTTACAGTTGG
CACCAAATAGCCCTTCAGCCACCAATAAGCTCTGTGAAGTGGTTGGGCACCCAGGCTCTGCTCTCGGATTAAATCCCAGCTCTAGCTCTACCACTGCCTA
GCTCTGCAGCTTGAGTAGTTTACTTCAGTATTCTGTACCTCAGTTTCCTCATCTATAAAATGGGGGTATCAAAAATGTCTATCTCCCAGGGTTGCTGTAA
GGATTAGGCGACACAATGTATGCAAAGGCGCACAATGCCCGGTGCCTGTGGTATATGAAGCACCTACTAGGTGCCAGACACTGGAGATTCCACAGTGAGC
GACACAAAGTCTTTGCTCTTATGGAATTTACATTCCAGAGGAAGGGGAGAAAGACAATAAACGATTAGAAAAATATCATAGGTCATATTACATTGTATCA
TAAGTCATAAGGGCTCTGCAGAGAACAAAAAGTAGTGTGATCCAGAGTGATTGAATGTCTACTTTATTAACAAGGGTGACTGAAGAGGGCTGCTCTGAGG
AGGTGGCTTTATTAGCAATTATTTACTATTATTTATTAGGGTCCCCTGGGCTTCCCCCAACACAGCCTCCAGGGAGAAACCAATCTCTGAGAGTTCTCAA
ACCCAGTACCCCCTCTCCAGAGCCCTGACCCCACCCCAAGAGGGCTCCTTTGAATTCTGACTTTACCCTGAAAAACCTCCATAAATTGGCAGGGGTAGCT
GAAACCTCACTTGCCGTTCCCAGAGAAGAGAGAGAGGAGTGGGCCAAGTTGAGGTTTCCAGGAAGACACAGCAAAGAGATAATTTGCCAAAAGGGGAAGG
GTGGGGGAGGGGAGAATAGAAAGAGAGAGAGGGAAAAAAAGATGCCAAGATCTCTGGCTTAGATTTAATTTCAAACTAATCCTGGAAGAAGCTCTTTAAA
AAGCTCTTACATTCTCCTGTTTGTGTTTGTGGATATTCTGGGGTTTACCAAGCTTGTTCTTTATAGTAGACAGCTCACAGCAATTACTCCACAATTACTT
CATCTGACAGGCATTGAATTTCTCCCAAGTTCCCAATACAGAACGAAGCACTTGGAGCCTGTGAAATGACCAGCTGGCTGAGGCTTCAGAGGAGCCTTCA
ACTTTTCTATCCCTTCTGTGCTGACCAGAGGTATGTGGCTTGCCCACACCCCCTTCACACYCAATAAAAGCCTGTTCTCCTTTACTCCCYCACCCCCTGC
CACCAACACACACCCCCCAGATTGTAAACTCCTTTAGAACAGTAACCCCTGTTTTTTCTGGCCTCAGTTTCTCCAGAACCCAGAGTAGGGTCTGGCACAC
AACGGGTGCTCAATGAATGTCTACTGAATTGAGGCCACTGACTTCAGCCCAAGGGGCAGCCAGACTTGGAGTGAGATGACTGCAGATTGGATCTGGGCTG
GGACCTCGCTAGCTGTGCCCTTGGGCAAGGCACTTTGCCTCTCTGGCCTCCATTTCCTCCCTCATCTGTAAAATATGTGTTGAAGAGGAAGGGGGAAGCG
ATAATAAATCTACCACGGTAGGTTACTTTAAGAACCAAAAGAAGTCACTTGAGTAACTGCAAAAGATTATTCAAAAATATTACCTTAAAGGGGAAACTGA
AAAAAAGGGAACTTATACAAAGATCTACCTGGGAAAAGTTGCTCTCTCCTTTGAGAATTCCCCAGTGGTACAGAAGGAGGGGGCAAAGAAATTTGGGGGT
GGGGATGTTTCTGGGTATCTGGGACAATGACTAGAAACAGGAATCAAGTTTTCCTTTAAGCCAAGTTATCTGTTTGTCCCTGTACTTTTCCTCTAGTTAT
CTTGCTTCTTTCCAACATTTTCTTCTCCATCCCTCCTCCCTCATCTCCACCCCCCACCCCCTCACCAAGGAAGGAATTGGCCAGCTCCACCCAGCCAGTC
CCCCATAGCTCCGCCCTCCTCGGCGGGCTAAGAGTTAACAGCTGCACCTGTTGAGKTATACCTCCAGTCGCCGGCACCTGTACCTGTAGCCAATCAGCGC
CAGCGCTGCTGGGAACCTACCTGTCAGCAAAATCTCGACACCCAAACCTCAACATAAATCAAACACTTTCCCGGGCAGAGAATGTCTGTGTCAGGCAAGA
ATTAGAGACAAGCGGTCAGCAGAGCCTCAGTGCTGATCGTCGGAGCTTGGGAGCAGGAAGATGTCGAATGAACTTGAGTGAGTAAACATCGGTGGATACC
TGCCGCTCTCAGAGCGTGGAGGCTGGATGGGGTTTCCTGGAGGGGGAAGAGCGGGGAGGCCGGCACCGGGATTCACAGAGCAATTTGTAAGGGTAAATGA
ATGGGCTGACGATCTTACTTTGGCGTGTCAAGGCAAGCCCCAGTCTCAAGCTAGAGGTGAGTGTTTCCCTGGGAAAATAGTTTTTCTCATTCTCTTTGCT
GAGCAGTTTCGAGCCAGGCAGGGAAACACAAGACTGAAACTGTGAAGGTTTCTGGCACCACTTTTTGATCCTCTGAAGGGGCCTTGGAAATCAGACRACC
CCAATCCCATCGAGGCTTTCTATCTTCTTGCCAAAAGGAACTTCTTTAAGGTAGTTCTAAGAGCTGTCTTAGGCAGAGAGTTGGGTTTCTCTAAAGGGAC
TTGTTTGCTGGGTTGGAACAGTCCCAAGTGGGAAGGTTACAGTGTGGTGGTTAAGCATGTGTACTCTTTGTAGTGGGCTTGACCTAAGTTCAAATCCAGG
CTCTGTCCCTGGGTGATCTCAGACAAGACATTCAATTTTTCTGGGCTTCATTTTCCTCATCTGGAAAATGGGTACAAGAATGCTTTGTAGAATTCTGGAA
AGAGTTAAGTGTGATAAATGCTGTAAAATGCTTAGCATAAAGCTATGGTCTGAAGATGCGTTCAGTAAAATGTGGTTCCTCTCATTCAGAGGCAGTTCTA
AGGCTGGGGAAGATGAGAAGTGATTTTTGGTAGGTCACCTCTTTTGGCTGGGAGGATGCATGTGCCTTCCTGCCCACATCTGAGATTTAAGATCCTGACT
GACTGATGCTGATCTTCACCATGATGTCCTTCTTGGGGTCCAGACCTTAGAGAAGGTAGGGTGAGGCTGGGATCTGGGCTGCTTTAGATTGGGTTCAGGG
AGCTGGCAGGAGAAGCCAGAATCCTTTAAACACAGGCTCTCCTTTTCCTGCCACCCTCAGAGGTGAGTGGGCAGAGGCAAGGATTGTACCATCTTTTTTC
TAACTGCTCCTCAACAGACTTTTAAGAACTTGAAGATCTGTGGGCAGACAGCAGTGCTAGGTCCTGACTGCAGACCGGATTCTATGTTCTAGCTAGCCCT
TCAGCTCTTCATGTTCACAGCACAATCACTTGGGTTAACAGGCACATTTCTTTTGAATGAATTTCCCGGGGTTGACAATGTATTGACAATTGGACCGCAA
TGAGAATAAGAGCAGGAGCATTGGTACTGACACCTGGGTTCAAGTCCCAGCTCTAGCACTTATAGCTGTGTGATGTTGAGCAAGTCCCTTAATCCTCATC
TGTAAATAGTGGCCAACAGTAGTATCCACCTCATGGGGTTGTTAGAGGATTTGACAATTTTAGAATAGTGATTGCTTTTAAGGCTGGTGGAGAACACACC
AGTAACACCATTGTCATTTCATGTAGAACTAACCAATCAATGAGCATTCCCAAACCTCTTGCTATTTTTCCATACTTTGAACGCGCAAAAAAATCTTGAC
ATGTGTCTCCATCCCACTTAAATTTGCTGGCTAAAACTGCGGAGGCTACAGACAGAATCTATTCATTACTGCACGTTAGGGGGTATGTGTTCTGAAGCTG
GGTTACTTGAACAGAAAGGTTTCTTGCTTTTCTCCTCCCTAATGGTTTGGATTTGAAGTCAGATCCGCTGACAGTTGAGGCTTCTCAGTTTGGGGTGGGG
TGAGGGAAGCCAGTTGCCTGCTGAGTAATTGCAGGCGGACTCCAAGCCACCATTTGAGATTACAGTGGCAGAGCCTGGGGGCTCAGCTGCCCCTACTGGT
AAGGGGAGGGCACCCGGCGCTTGGCTTGCAAGTTCTGAGCTGCTGTTGCTTCTGCGGCCTCGACATTCTCCTAAAAAGTGCCAAGTTAAGAGGACTGGCC
ATAGCTTACAGCTTGGGCCCTCATGGAATGGCCAACTCTGGCCAGGCCTTGATATAGTGGCAAAAGTGGGACTTGCCTGTCACTCTAAATTCTGCCACTT
ACCAACAGCAGGATCCTGGTGAATTTGTTTGTCCTCCCTGACCCTCAGTCTGCTCATCTGTCTGTAACACCTACCTGGCAGGAACAACTGTGAGCTCCCA
AATGTGGACCAGAGCTCCATCCGCGCCCGCCCGGTGGCCAGGCCCCGGGTGTAAGGCGGCACTTCGAAGGCTGGTCTCTGAGAAGCATGGAGGCCCCGGC
GGTGTAGTTAGAAACCAGCTGGAGGTGGCTGGCGGGTGCTGAGCGCCGGGCCTTTCATGTGGTCGCAGCGCTCTGGGTGCCTGGAGCCCGCAGCCCTGGG
CAGCCCCGGGCTACCGCAGGGCGCAAGGGATCCTGGGCTGCGGCCGAGGGCGCCGGAAGTCGCCGCCGACCGCCTGGGTCTCGCAGGAAAACAGCCGGCG
CCCGCGAGCTGCCCAGCGTCGGGTTTTCCTGAAGGTGCGTCGGGGCCCCCGGGGAGCTGGAGCCGCAGGCGACCTCCCCGGTGACCTGTTGTTCCCCTCT
GGAGGGCCGGCCGGCGCTCCAGGCAGGCCCCGTTGACAGCCCAGGAAGGGAGAGTTTCGCCGCAAAGGGGCTTGGCACACAGTAGGTCTAAGGCACCGAG
GCAGGAGCGTCCCCCGCGGCCTCGCTCCCTGCTCTCTGGGCCCCACCGCTGCCGCCTGGAGTCTCCCCTCAGCCTCGCAGAGACGCGACTCGGTTGGGGG
AAGGGGACTAGAACCGTCGCAGTCCTGACCGCGGCCGCCGCCGCCGTTCTATCTGATCTCCAGGAGCGCCGGCTCCAGACTGCCTGGAGCGCTGAAAGAG
TTAATCAGGAACGCCTCCCCGCTGTGGTTTTGTGGTCGAAACCATGATTGCCAGGAGCAAATTTTTGTCGTGCACGAGGTGTGTTATTAAAAGTCGGAGC
TACGCTGCTGCTGAATGAAAAGTTAAAAGCCCTCTTTGAGTTCGGGCTGTAAAACTGGCGGACTGGGCCGAGAGGCTTGAGCCAACCCTAACGGCGGCGG
CCCGGGCGGCGCGGGGGTCCTGCGGCTCCGCCAGCTGCTGGGAGCGGGCAGGCTGCGCAGTCCCAGCAGTGAGTGGCCGCAGCCAGGCGGTCGGCAGAGC
TCCCACTGACCCACCGGAGGAGTGAAGAGGGAAAACGGGGCTGAAACCCAGATGGGATCATCCAGCTTTCTCTTACGTTAGAACAAAAATGACAGCCAAC
ATTTATGGAGCGCTGACTCCGCATCTGACATTGTGTCGAGTGCTTGATAAATACACGCTCTTCTTTAAACCCTCCCAACAAACTAATGCGGGATGGGAGT
GTAAATGCAGTTTTGCCGAAGAGGGGACCCAGACYTGGTTCAGGCTTGCCCAAGGTCTCACGGAAGCACTGGGATCTTAACCGGGTCTTAGCCGAGCAGC
CATAGGCCACCCCGCTTCCTCTGTGCTTAGCCTCTGAAAAGAAGACAGAGGAGATGTGCCAAACTGTTAAGAGTGGTTATTTCTGAGCAGAAGAATGTGG
ATGAATTCCATTCTTCCTATTTTTCTGTAGGTTCTACATGTTATATATTTGTTGTATTTTACAAACCTATGTTACCTTTGGAGTCGTTAAGGGGAAGAGA
GGGAGTCATTATTTTGAAAGAGAACACCTAGAACAGTGTTCTCAAACTGTGGTCCGTGGACCATCATCATCATCATCATCACCTGGGAACTAGTTAAAAA
TGCAAATTCTCAGCCCCACCCTAGACCTACTGAATCAGAAACTGGGGGTATGGCTCAGCGTTATGTGTTTTCACAGGCCCTCCAGGTGATTCTGATGCGT
GTCCAAGTTGTAAAACTGTTGGCCTAGAAGACCAGGCAGAGGACTGGGAAGCAGGAGGTTCCCAAATCCACTACTGACCTGCAGTGTAGTTGCTGAGTCA
GCAGGCTGAGAGCTTAGTTCCAAGATCACACCTGTGTTTTAAGCCCAGCTCTGCCACCTATAGATTGGGTGACTTGGATGAGCTCCTTAACCTAAGTGTC
AGTTTTTGCCCATGTAAAATGATGATAAAAATACCCACCTCACAAGGCATGTATGAGAATAAAAAGGCACAAGGCCTGACTCTATGAAATAATTGAGTTC
CTTTCCCTCTCTTGCCTTCCCTCCCCTCTCTGGAACTCAGCTTTCCTATCTAAAATGCCGCAAATAATCCTGGCTGGCTGCCTCCCCCTCTCTATTCCTT
TTGCCTCCTAAAAAGGTTAGAACAACTGACCTAGTGAAAGTCTTGAAGGGAAATTATCTCTCCGTTATTTGATGGTATTTCTCTAGGCTTTTCCAGGAGG
TCAGCAAGAATTGGGAACTTTCAAGGGCAGGGACCGAAAGGGGACAGAACAGTGTAGCCACATGAATGGCAGTGGCCTTCACCTTTTTTGTCCTCAGCAC
CCAGTACGTGGCCATTTACAGAGTAATCCTCAGTGAATGTTTGTTGAGTGAATCAGTGAGTGAATAAATGAAGGGATGTGGCACCCCCGGGTTTACAGGT
GGATTTCAACTTCTTTCACACCTCAGTTGAACAATAGATGGGGGGAGAAAAGGAAAATTAGACAAGACACCAAGAGGAGAATATAGCATGAAAGAAAAAT
TCCCATACAGGGAAGAATTTTTAAAATAGCAGAAACTCACTTTCTTCTCTAATTAGGAAAGGGCACCTAGATAATTTACATGCAACTAAAAGTGTCTGCT
GCAGCCTGACCACCGTCAACTTGCCCACCTGGGTCCTGACGATGAAGCTGGTAGTGCGTGTTCCTCTTAAGTGGAAATCTCCAAGCATCAGGATGATTCT
GCCAGCTAGGAAGAGATATCCCGATTCATAGGCTGGAAAAGGCTGTGAATTGTGCAGTTTGCTGGGGACTACCCCACAAAGTATTAGTAATAATAATAAA
AGTAGTTCACATTGTTATGTGCTGGCACTATGCTGATCGCTTTACCTGCATTACCTCATTGCATCTTCCAACAGTAATACTTCACAAAGTTGTAAAAAAC
AAAGACAATGACTAGAAGTTGTTAGCCAGCACCCGGTACTTGGTAATCCCTCAATGAACGGTAGCTCTCATAGCAATTCTGTGAGGTTAGCATTCTCATT
GCCTCACATTTTGCAGGTAAGAAAACAGGCACAGAGATGTCAGGTTGCTTGCTTAAAGTCACCCAGTAAGTAGCAGAGCTGGACCTGGAACCCAGGTCTG
CAAAGCTCTGGGCCCACTCCCATAACGATGAGTTCATACTGCCTCATGCAAACTGGAGTCATTACAGAGCCATGCCCTACACTCTGCCATTTCCCCATTG
AGGCCCCCAAATGAGCCCCCAGCCCATGTGACGAGGCACATTTCACAATCTGTACACCCAGAAAACCAGATGGGCCACTGGCAGGCACGAGAACCCTGGG
GCGCCCCTGTCGTGCCCAGGGAACATCGTGTGTGGGGCTGACTGGAAAATGATTCCTCTGTGAGCAGTTGTGTCAGGGCCTCCCTGTGGGTGATTAGAGA
GTGATTGATCACTGTTAATGAGGTTGGGTGGCTCATGGCAGGATTTAGCAAGTCATTGGGAGTATCTGGGTGTCAACACCCAGCTCAGGCGGCCCCTGGA
ACTCTTCCTTCTCTGGCTGAAGGGAAGTGGGGTCTAGCCTGCTGGATCTGTCCTGTGCCACACACCTTCTTTGGTGGAGCTTGAGACCACCTCCTTTGGT
GTTGGGTTTTCTTCCCACCTTCTGGAAAGTTGAGTGAGTACTTTCTTTTCTGTAGCTTAACTACTGAGTCCCATCCTGCYGTATGCTGCATGTCCTTAGG
CAGGTGCCTCTCTGGAACTAGACCTCTGAGGTCTGTCTGCATCCTAAATTGCTAGGATTCTAACAGAAGGAAATGATACCAAAAGTTCTCAACTGATGGC
TGAGACAGCATTTCCTTGGTCTTATTGGGGGTTTTAAGTAGCTCAGCCAGAAAGCAGTGGGCATTTTGACTCAGAAGAGACTTGTTGGGATGAAACCCCA
CTTTACCACTCTAGACTTTCACCATCCTGGTGCCCAGAATGAGGCATGTTGGAGCCATGAAGGCTGAGGCTGACTGGGCATGGAGCAGCTGGCACCACAC
CCCTGTTGTGCCGAGTGCCAGTGAACTGGGGAAAGGTCCCATCCCCTCCTCCCAGAGCACTGGCCCCGGCAATTTGCACTTCCTCACAGACTGGACGGGA
GGCCTCAAGAAGTGAGGCCTATCAGGTAGACCCCTGAGCTCCTCTCTCTTGATCTTGTTGCCTGCTCTCTCCTAAATGGAGGAGAAGCCAGACGGGGAGA
CTCTGAGGAGGCGGCTCTGTGAAGGTTCTGGATGCTGGGAGCCAGAGACCTCAGTTCTAGGCCTGATGCCTTGAGGTACAAGCTCAGTGGCCTTAGGCAA
GCCAGTGGCCCTCTCCATGGCTCAGTTTTTCCTCAAATGAGGACAGTCATAACTTCCCTCCCTACCTGACAGGGGCGTTGTAAGATCAGAGGTGATGACA
GATGTATGAGAAGCACATTGAAAAATATAACACTATGCAAATGTGAGGGATTATCAAATCTTGGATTTCCTCCTTAGTGGGCTGGCTTTCCTTAAAACAA
GGTGGCATATGCAAAGTACCTGGCTCACACCTGGCACACAGTAGGCGGACAAGCTCTGGGAGCTGTGCCAGGCTGATGCCTTTGATCTTGCCTTTCCTTT
GATCTGGAAGGTCCAAGGTCCTCCCAACTCATCTCCATTCTCCCTCTTCCCCTCCACCCCTCTTCTCCTCCACCCCTCTTCTCCTCCACCCCTCTTCTCC
TCCACCCCTATTCCCCTCCACCCCTCTTCCCCTCCACCCCTCTTCTTAACCAACATCCGTCACTCCCTTGGGTTCAGGCAGGTCAGAAGTCCTCTTGTTT
CTTTTTCTTCATAGCTCTCTTCACCCATCTAATGTTAACTGTTTGTTTTTGTGGTCATGTAGGTCTTACTGCCACTAAAATGCAACCTCCGTGTCGGCAG
GGATGACCTCGTTATCTTATTCTCCCAGGACAGGTTCTGGCACATAGTAGTTACTTGATAAATATTTGTTAAAAATGAGGGATGGATGGTTACGTGGATG
GATGCCACCCAGGTTTATTGCTTTTTAAATCTCTCCTACATCCCTTCTTGGAAAGTAGTAGTTTTTTCCCTCTTGAGAAAGTGCTAGCCATAGAGTTCCC
AGGCCAGACCCTAGGAGTCCTGGCTTCACTCATTCAGTACCCTGCAACAGGTCACCTAACATCTCTATTGTATATTTCCTGGTCTGTAAAGTAGGGATAA
TAACACATCATGTATGTTGGGAGGCTCTATGAGATAATGGAAGTTGGGCAAGGTGTTATTACACTATCTCTTTTGTTTCTTTTGAACAGAACCCCATTCA
CAGACAGGAGGCTTGTGGGAGGATGAAAATTTAAGAACCTCAGGCAGAGTATCCCCTTTACTCCCATTTGGAGGTTCTGGGATGATGATGGTGATGATGG
TTATTATTAACTGAGCAATTATTCTCTGGCAGGCTCTAGGTTAAACACATTTCCTACCTTAATGTACTTAATTCTCCTAACAACCCATGAGATGAACCCT
ACTGTAAAGTAGCCACCCCTATTGACTCTCCATTATCTTACTATGTTAATTTTCTTCATAGCACTTATTACTAACTAAAAATAACTAATTTACCTACTTG
TTTATGGTCTRTCTTCCCCAATTAGATTGTAAGTTCCATGGAAGCAGAGTCTTATCTGTCTCATTTTAGTTGATTCCCAGTGCTCAGAAGAGTCCCTGAC
TGGCACACTGGCACATAGAAGACACTCAATAGACCCATTTAACAGATGAGGAAATAGAAGGGCTAAGTGCCTTACCCAAGGACATGTAGTTAACAAACCC
ATACACTGTGACCCTGGTGCTGCCTCCTTCTATGTGCTGCAGGTTCAGGTGTGCTGTGTCTGGTAGAGATCTGATGGCAGGCTATCCATGGCAGGTCTTC
CCTCCTCCCTCATTTTCCTTTTCACTTTCTGATAGTTTAGTTCAGTCTTGGACAAGGACACCAACAGAGAGTTTGTGGAGGCCCCAGGGAAGCTGACCTC
ATAGGTTGGGAGTCCCCTGGTTTCCCTTCTTTCTTCTGGCCCTATCACCCATGAGTAGGACTCACTCCTTCTTAGAACTCTTTTCACATTGATCCAGTAT
CAGCTCCTGGGACAACTTATTTTTTTCCCCCTCTCTCACCTACTGGCTCCTCAATCCTTATTTGTAATCTTTAAGAGACCAGAGAGCCAAAAGTTCTTGG
ATTTTAGGATTCAACACACAAGTCAATACTAACCTTATTCATTAAGACTTTCTAGAAGCCAAATTCTTAGTTCTAGAACATGAGGTTATTGGTGGCAGGA
GCAGGCATGGGAACCAGGGCATTGGGACTCCCAGCCCCTGACCAGAAACTCTTCCAGTCATCATCTTGCCGCCTTCCTCCTGCCTTGTGTGGGTRGGAAA
TTCCTTTCTGCCTTGCAACAGAGAATTAGTTCAATGTATTTTGAGAAGGGAAATTTCCAGAATAGGAAAGGCATCTAGAAAAGAGACTAGCACAGGGCTT
GAATGCTTTACTGTGTAGTCCGACAGCTCCAAGTTCAAGCTGAGCCTCCATCACTTATTGGCTGAGTGACCTTGAGCAGGTGATGTCACCTATTTGAGTC
TCAATTTCCCCTTCTATAAAAGGAGATGATAATTCCTATCTCTCAGGGCTGTTGTGTGGAGTAGATGAGATGACACACAAAAACAGATGGCACTATGTTT
GCCAGTGGTAAGTGTTTAAAGTACAGAAGCTGCTGTTTATCAAGGAATCAGACTTTGGGATACCAACAAGATAGATTGGAGACCTTATAGGCCAAGAGAC
CCACCCAGGTGAATAGCAGACATTGTCTGTTCTTTTGTTTCGGTGTCACTTTATCGTTGTCTTCTAAAATTTATCTTTTTTAAAGGGTAAGGTAACTCAC
AGCATCAAAGCTGATAATGGTCAACCCCTAGAGTCAGCAGATTGGGGCTCCAGGCCCAGACCTGCCACTGACTTGCAGAGTAACCATGTCTTCTACCACT
TTGCAACCCCTTGATGTCTTGCCCCAAGCTGACCTGGAACACAGTGATGGCTTGCATGAATTACACACTTGTTTTGTGCCAGTCAGAGTTTTAAGCATTT
TCTTGTGCTGATGCGTTATCCTCATGATATTATTTGGTGGGTGCTTTTATTAGACTCGTTTACAAATGAGGAACAGTGCTAAGCACTGGTGGTCCCTGTT
GAYCCAGGGGGTGGGATCAGTCAGGCATTTCCCTGCTTTTCCCATGCCTCGTTGGTTGGGAGTTTCCATTAGCTCCGGGCTGGGCAGACAGTGAGGGTGG
CCACCCTGGACTTGCTCAGTAAATTCTTCTAAACCCCAGGCCCAGGAAGCAATGAGGAGGGGCCTCTTCTCACCTCTCCTTGAGGCCCCTTGATTTATAG
CAACAGAAACTCAGGGTGTGCCTCCCGCTCTCCGCACCCCTAGAACAGGAAAGTTTCTGTCATTTCTCTTTCCTGCGTGACAGCTCCACCTCCCTTCCTC
TCAGAGCCCAGCTCCTCACACCTTGGGGCCTGGTGGGATGGGAGACACTGTCCTGGATGAAGCCGCTGGGAGAGCTGCCGCCTCCTGTATGCTGAGGTAT
GGCCTGGCCTGCTGTTCCCACTGCAGTCTGAGGATATGGGCCCTAGTGGCCTGGCAGCAGGAGGGTACTTCATGCACCTGATTACAGGGGTCTCTGCCCA
CCCACTAGTCTGCCACTGTGCCACAGTTTTACCACAAACACATTTTTCTGCTGTGATAAAGACTGCACCCCTGCATCAACGGAAAAGCAGTGTGGCTGCG
TGGCAAGTGTGTGCCTTTGTGCTCGATAAGGCTGAGTTGAAATCCTGGTTGTCTCACGGACCAGCTGGATGATCTTGGACATTTTCTCGTTCTCTGCAAG
ACTCAGGTTCCTTTATCTTAACAGACGAAGCAAATGATCCTTACCTTGTAGTGTCCTTGTAAGAAGCACGGCCTAAYGAACAGAGAACATTCATATGCAT
TATCGTAAATGGCAGCTGGCATTGTTCTTAGGTCCCTAACATGGGAGATTCTGCCTGGCCCATGTAGAAAGGGAGGCACTGGGAAACCAGGAGACCAGCC
AGTGCCCACTTCATCTCTGGGGCTCTCTCTTCATAGCCTGGACCACCCCATCTTCATACACTCTTTGCTCTAAATTGAACACAACTAGAACTTTTCTGCT
TCTATGCCTTTGTTTGTGGTTAAGAGCATGTGCAATAACCAGTGATTCTTCAAAATGTGGTCCCCAGACTACCAGAATCAGCAGCACCAGGGAAATCGCT
AGAAATGTACATTCTCAGCCACCCAGAGCCAGTGAATCAGACACTCCAGGGGTGGGGCCCAACAATCTRTGTGTTTTTAAATTAATTTTAAAATAATGGA
CATATAATAATTGTACATATTTATAGAGTACAGTGTGAGATTTCAGTGYACCTTTACATTGTATAATGACCAAATCAGGATAATTGCCATATTTATCACT
TTAAATATTTATCATTTCTTTGGGATGATAACATTAAAAATCTACTCTTCTAGATATCCTGAAGTATACACTACATTGTTCTTTGCTGTAGTCACCCTGC
TGTGAAAGCGATCTATGTTTTAACAAGCCTTCCAAGTCATTCTCATGCAGCTAAAGTTTGAGRACATTATTCTGTACCATTGCATCACCCTGAAGGAGCT
TGAATCCCCTCTGGGCCACTCACTTACTGGGACCTTGGACAACTCTCAACTTATCTGAGCTTCAGTTTCCTCCACTGTATAATAGGAATAATAATAGTAT
CTGCCTTGCAGGGTTGTTTCAAGTAACATGGTAATTTATGAAATGTGCTTAGCTAGTGCCTAACGCATGGCCAGTGTTCAATAAAGAGTAGCTATTATTT
TTCCATTCTTATTTTTCTGTTAGGTCCCTGCTCCTTCCCCACATTGCTGAGTGAAATAATCCCCAGTGCTGAGTTTCCCCAACTAAAATGTCTGCCTGCT
CCAGAAAGCCTTTYCTGATCTCTTTCCTTTGAGCCCTTGTGGCTTGTCTCTTGAGCGAGATAATGCCTTGTATTTGTCCAAGCTTCTCAGCACCAGTACC
CGGGTCCTTCCTGCCTCTGTGTGCCCTGCAGCCTTCAACTCCAGTTCCTGGCTTCTGAGCAACTGCTCAAAACTCTACAATAAAATTGGCCTGAAATGCC
ATTTCCCAGACCAGGTTCTGCCTAAGGGCTTCCTCGCCCTGGCTCTCTCTGTCATAGACCACGCTTTCTCCCAGACTTGAAATGATCTACGCCTTCTGTG
CCTTTCACAGTCTTGAGGACAACTTCTTCAGTAGAACTCATGATGGGTTATCTGGAAATTTTATTCGTATCACATTGCAGCTTATCATTGGCATTTCCCA
TTCATTACACGAATTCTCTTTGAATAAGTACGCACTATGAAAGTATTTTATTGAATCCACTCTGTAGTCTTGAAGATCAGGATGATGGCCTTCATGCTGT
GGAAGAGGGAACTAAGGCCCAGGTCAACAGCTTCTACATGGCAACATTTGGAATCGATCCAGCTCCAGAGTTTGTGTCCATTCTGCTGCCCCACACTGCC
TAATGGTGGCAGAAGAGGCAGTTTCATGTTTTCAAAGCTAATAACTCTGAATTCCTGGGCGTTGGCCTGCGGCTGCCCRTTCACGGACCTTCCTCTGGGA
TAGCCTAAATTTGACTCTCCTTACTTGCATTCAGTTTCAGGTCTGTGCGGCTGCTAAAGAACGACCCAGTCAACTTGCAGAAATTCTCTTACACTAGTGA
GGATGAGGCCTGGAAGACGTACCTAGAAAACCCGTTGACAGCTGCCACAAAGGCCATGATGAGAGTCAATGGAGATGATGASAGTGTTGCGGCCTTGAGC
TTCCTCTATGATTACTACATGGTACGTCTACCCSCTCTGGACATGCCCCGTTTTGACTGAATGGGTGTCTTCACTTCAGGCCTCATGGCTCAGCAGCCCA
CCATGACCACCCCAGCCCCTCATCTCTGGGCCTTTGCACAATGCTGTTCCCTCTGCCTGGCACCCTCCCTTTCCCATGGCTAACCCCTACTCTCAACTTG
GGGTCTCAGCTTAAATGTCACTTCATTCATTCACTGGAGAGGAGGCTTTCTTGTCTGGGTGCCCTCAGCAACCACCATCGTCGTCCTTGATGCCATCAAG
AATGCTTAGAGGCTTGCTGTTTACACATTTATTTCTTCCATCTTCTGCACGAGACTAAGCTCCTAGAGGATCATTACTGAGTCTTCAGCACACCATACAG
CCTGCCACACAGTCTGTGACACGTGTTGACCAAGTGGACAGTGCCTGACCCACTCGTTGCCTGGTCCAAGCACATTCTGTGACAGCAACACTCTCATACC
CCACCATCTTCTTTTTGCCCCTGTCCTCGGATCTTACGTTTCCCTGTCATCCCAACCTACCTGGTACAGCCCCACCACCTGGAGTATACCTCCTACTCTT
TAACCCATTCCCTTCCTTCGGGGCCTTCCCAAGGCCCACCTTCTCTTAGAAGCCATCTGCCACCTCATCTCCCTCTCCTGAGGGTCTTACTGTCTTTCCT
ACTCCAGCTGCCATTATGTCTTTTACTGTTCTCTAACTACTTCTAGGGTCTTGGCCTTGTCTCTGAGAGGCTGTCAGCTCCTGAGAATAGGAATTAGGTC
CTCCCATATCTGATAAGTAGGGGTTGGACCAGTCAGGAATCACGAGGGTATAACACATGACACAACCCCCCTCCCACCTCCAGTGCGTGTGCTAGACATT
GCTAATGGATTGCAGCCTGCATTCTCATGAAGGGCACAGGAGGCTGCAGAATCTTTGTCAATGTAGTAATCCAGGTAGGCCCTACTTATCTGTCTGAATT
GTCACAAGACAGCAAACTGACTTGCTGTCCCTGGGCTGGGTAACTGCTCCAAGAAACTTTCCTAGATTGGGGGATGGGGGCACACAGCTAGCCAATTATT
GAGAAACTTGAAGATTTAAAGCCACCTTGTACAGAAGACCTCAAACTTACTAGCCCAAGAAGTGTTTTATCCACTCTACCTCAAGAATAAAGGCAAATTC
TTTGTTTGAACTGAGAGGCCAAGTGGGTTCCAGATAGGAGAAAGCCCAAAACTATCCTCTGGCTTTGGTTCTCCTTCTGGAGTGGTCTGGTTACCCTACC
TCCCTCCTCCCCGGCAGACTGGTGGCATCCAGAGAGTGTTCAGCCCAGGTCGAYGGAAGAGGAGTTTGAATGGCTGCCTTGGCTTGGGGCCATGGTAGGA
GCCAGAATTCTAGATCTAGGTTCAAACTGCAGCCTGGGATTTATAGGTTGAGGATCGACCATCAGATACAATCCAACTCCTTGTCCCCTTGGCAAGAAGC
CATTCCAGGGCCAGTATGGTAGAAGAGAGGCTCTGAAGGTGACATTGATAATACTGGTTTTAGCGAAGTACAGTGTCTCAGTGAGATACACCTGCCCTGG
CCTCCCCATTCCAGAGCACTCTGGATTCAGAGCAGCCCCCTGGACAGTGATGACATGGTCTGATGGTGTGGAAGGAGCACCAAGTCGGGAATTTGAGACC
TAGTCCTGCCACAAATCTGGCTTCGGGTAATATAGTGCTAAAGGCAACTGCTTACCATTTCTTATTGAATGTCCACCACTGTGTCAGGCACTTTCCTTCA
TACTCTCTTGGGGTGATTAAGAGTACAGGCTTTGGAGGCTATGCTGGGTTGGGGTCCTGGTTCTAGCTGTATCAGCCTTAGAGACAAATGCATTAGAATG
TTCTAAGATATAACAATATTATAATTATACTCATGAAAGGTCACATTTATATAGTGCTCTCCATGTGCTAGGTGCTATTCTGAGTGTTCAAAGTGACCCC
CTGAGTTTGGTATTATATGATGATCTCTGTACAGATGAGGATATGAGGAATGGAGAGGTTAAGGGACTTGTGTAAGGTCACACAGCTAGTATGTGGTAGG
TCTAGGAACTGACCCCAAGAAAGCTGGATTCAGAGTCTATGCTTGTAAGTACTAAGACAATAGAGTCTCTCTGAGCCCCCATTTCCTCATCCATAGAATG
GTGATGATACTAGTAGACATCTCAGAGTGACTGTGAGGATTAAGAGATGAGAAGGCACTTAGTACAATGCCTAGCCCATATGAAGTACTCTATTAAAAAA
GGGAGTATTTTTTATTAACAAATATTCATAATCCCCTTTAAGTAGGTATTATAACCACTCACTTGACATATGAAGAAACTGAGTCTCAGAGAGGTGTAGT
CATTTATCCAAAGTCACAGTGCACTTTCAAGTGGCATTTCTAGGACTTACGCCAGGCCTGCCTGACTCCAAATTTCATGCTCCTTAACTATCAAGCTTGA
GGTTCTTCTTCCCACTCCCTGACTTGGGGCTCAGACTAATCATAGCTAGAGCTCCAGCCAGTGGGAAGGACTGGAGGGTTTTCTAGTGAGCAAGTGTATT
AGTCTGTTCTCACGCTGCTAATAAAGACATACCCAGGACTGGGTAATTTTTAAAGGAAAGAGGTTTAATTGACTCACAGTTCAGCATGGCCAGGGAGGCG
TCAGGAAACTTAAATCATGGAGGAAGGGGAAGCAAACACATCCTTCTTCACATGGCGGCAGCAAGGAAAAGTCCCGAGCGAAAGGGAGAAAGCCCTCTTA
TAAAATAATCAGATACGATGAGAACTCACTGTCACGAGAACAGCAGCATGGGAGTAACCACCCCCATCATGCAATTACCTCCCACTCCCATGTGATTATG
GGAACTACGATTCAAGATGAGATTTGGGTGGGGACACAGCCGAACCATATCACCAAAGTTACTCCCCTGCCTGGCCAAAGCTGCAGGAGGGGATTGAGGC
TCCTACCAGCAGAAGCTTAGCCATGCATAAATCCTTCCTTTCTCTCTTCTCAGGGTCCCAAGGAGAAGCGGATATTGTCCTCCAGCACTGGGGGCAGGAA
TGACCAAGGAAAGAGGTGAGGCTTGCCAACACCCTCTGCCTCTTTGCCCTTCCCCACCTCCACCTGGAGCCTCTTCCACACAGGTTTGACTTATCCATTA
GGCACAGGAGGCACAGTGCTGAGGGCCCACAACACATTTTGGGATTCATGATAATGTTTTCATTTATTTTAAAATTAAAAGAAAAAAATCAATATAATCC
AACTTGGATTATATTCATCTTTATACCATTGTACTTACTAAAGATATTTTWAAATGTTTTGGAAGAGGCCAGTGAAGGCAGAGCCTAGGGCTCTTGAAAG
TCCTAATGAAACTCAGCTTGAAAACACACACACACACACACACACACACACACACACACACACACACACACAGACACACACCCCAGATGCCTATAGGCCA
TGTGGGCTGGAGTTTACTGAAAACAAACTTCAAAGCCTTAGTAATAGAAAAGCCCTGGGGACAGCTTTTCTTTCTCAGCTTCAAAACCCTCTCCCCTGAA
GACCCACAGCCTCTGGGAGAGGGAGACCTGTGTTGGGGGAGGGAGACCTGTGTTGGGGGAGGGACATCTGGGTTCCCATACTTCTTCCCCTGGCATTAGT
GCCCCAGGGCATTGATGTTCCTTTCCTTTAGAAAGCGGCCCAGGCCATGCTTAAGACTAGATGGGCACTGGAAAGACCTTGTCCCTCTTTCTCCACTTTC
TCCTTCCTGGCCAATCAGGTGACTTCTCACAAATGACCCTGTAGGGCCTCTGCTGGGAAGCCTTTTGAAAAATTCAAACAGGCATTGCAGCTCATCTCAT
AACCCAGCCTGGGCCTGCAGCTGGCTCAGGGCCAGTCCCCTCCACTGCCAGGAACAGTGGGTTTGGGTACATGGGGACCTTTCTCAAAACTAATTTTTTT
TTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGGTCTTGGCTCACTGCAAGCTCCGTCTCCCGGGTTCAAGCCATTC
TTCTGCCTCAGCCTCCCGAGCAGCTGGGACTACAGGCTCCCGCCACCTCGCCCGGCTAATATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATATTAG
CCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCTAAGAGCTGGGATTACAGGCGTGAGCCACCGCGCCCTGCCACTCAAAAC
TAATTTTTAAAAATATCATTAGCTCTTCTGATTACAAAAGCAACACCAGTCTCTTGCAAAAGATTCAAACTCTTCAGAAATGTATAAAGTAAAAAAAAAA
TTCCTATAATCCTGTACCCCTCTCCCGCTTAACAGTTTGGGGTACATCCTTCCAGATCTTTTCCTAAACATGTGTTAATTGTACTCAGAGATACACGTTT
CTTCCACCCTCCCCACTTTGTACACACCCCGCTAGGGTTGACTCAATACAGTTGTTTTGAAGTAGGGACGTTTTGACACAGAGACATTTGACTTTGGCTA
AAAATAAACGATTAAACTTTCAGGGTTTTTTTTTTTTTTAATAAGTACTGTAATGGATAAAACAGATGTTGCTCCCTTAACCCTGAGCCTGTGCTTGGTT
CCATTCTCAGCACCTCCCTGCTCATCCCTGTGGCCAATTGGGCTGCTACAGTGTCTTATTTCGTGCATGCTGGATGGACCTAAACATTACACTGGATCAA
AGGCCAGTGTGTCAGTTGCCTTGCACTCTAGCCAAAGACCCCCCTTTACCCCCAGAGAGAAGTACACTCAGCCCCTTTTCTTTCTCCCCAGGTACTACCA
TGGCATGGAATATGAGACGGACCTCACTCCCCTTGAAAGCCCCACACACCTCATGAAATTCCTGACAGAGAACGTGTCTGGAACCCCAGAGTACCCAGAT
TTGCTCAAGAAGAATAACCTGATGAGCTTGGAGGGGGCCTTGCCCACCCCTGGCAAGGCAGCTCCCCTCCCTGCAGGCCCCAGCAAGCTGGAGGCCGGCT
CTGYGGACAGCTACCTGTTACCCACCACTGAYATGTATGATAATGGCTCCCTCAACTCCTTGTTTGAGAGCATTCATGGGGTGCCGCCCACACAGCGCTG
GCAGCCAGACAGCACCTTCAAAGATGACCCACAGGAGGTGAGGGCGCATCCCCGCTCCCCTATAGCATAGATATGTGTGTGCATATACAGAATGAGAGAA
GATAGTGAACAGATCAGAGCTTTGGAATCCATGGGGGAAAGCATCCTAGAGCTGAGACGGGATTGCCATGTACTATTGTCCAAGTTGTACACTGTACAAC
CTGCATAGCTGTAATGCACAGCCCTGGGCTGAGGCTTCCCAGAGTGAATGTGAGCATTTATTCTCTTGGGGCTGTGTTTCTCTGCAGTCGATGCTCTTCC
CAGATATCCTGAAAACCTCCCCGGAACCCCCATGTCCAGAGGACTACCCCAGCCTCAAAAGGTAACTTGGTCTCCCTGGACCCTCAGACACCTGGGCAGT
GGGCAGGAGGCTGCAGACAGAGCCCCACACTGTCCCCAGAGCATAGCAGGCACAATCAATTAATGAGAAGTGGGGGATGAAGGCAGATAGATAGAGGGAG
ACAGAATGATTCCCACATCCTGTCCCCGGGCTGTGATAGGGAGCTCAGAACTTGTACCTTATCAGAAAACTGAGGTTCTTTTATCCTTAGTTTTCCCTGG
TTTTGTCACCCCTCAAGGTTCTCTCTAATTTTYATTGGGCCCTCATTATTCAGCAGGACTGTGGCTCAACAAAGCCATTAAATARAACCCCCAAATTGAG
GAAACTGGGGCCCAAGGAAGTAAGGTTATTTTCCAAGGTCAAACAGCAAGTCTGTAACATAGCCTCAGGCTTCCTGCCCCACTGCCCTCTAGGAGACTTC
CTGCCTGGGAGCCCAGCCTCACTGTCCTCTCCCTCCTCCCTGCAGTGACTTTGAATACACCCTGGGCTCCCCCAAAGCCATCCACATCAAGTCAGGCGAG
TCACCCATGGCCTACCTCAACAAAGGCCAGTTCTACCCCGTCACCCTGCGGACCCCAGSAGGTGGCAAAGGCCTTGCCTTGTCCTCCAACAAAGTCAAGG
TGCGTTGGCCTGGAGCAGCTTCAGAAGGGGTGGAATGGGGCAAGATATACCTCCTCCTTGGGCTAGCCACGGACCCTGGGGAAAGGCTGTTTGATAATAG
CCCATTGCCACAGGGTTGGGGAAACTGAGGCAAAAGGGCAGGCCATTGGAACCAGGCTCTAGGAAGAGGCCGGGAGTGACTGTGACCAACTGTGCTTGCA
GAGTGTGGTGATGGTTGTCTTCGACAATGAGAAGGTCCCAGTAGAGCAGCTGCGCTTCTGGAAGCACTGGCATTCCCGGCAACCCACTGCCAAGCAGCGG
GTCATTGACGTGGGTGAGAGCCTTCTCAAGCCTCCATTCCAGCTCCCCTCTCTCTCCCCACCCCCGCATCAATCAGGCCTTTTTCTTACTCASCCCTGTT
TCCCTACCTGGCTCTGACCTCTGTCTCCAGGTCAAACACCGTGGGGTTTGCAAGGATTTGCATCTGTTGACTAGAAGTTGTGGCGTCTTTTCTGTATTGC
TTTGGGATAAACAGGGCCCTGGGGACCCTAGCAGTGTGAGATAAATAGGCTCCTGCGATGCTGGCCTGTTTGTCTCCATCAGGAGGCTGATGAAGACACA
AATGCACAAGATAAGGTGCAGGCAGCAGGTTCGGAAGGCCTGAGGCACAGCACAGGACGTTCAGCTTTTGGGAGCTGGGCGGGGGAAAGGCTCCCTGTGG
GGGCCACCTGGTCCCCATCCCTAGCCCTGAAACAAGTGGGAGGCACAGCCCGCCCTCAAGTCTTCAGCTTCTGGCTCCCTTACTCCCTTCCTGGCTGTGT
GATCTATGTCACCTCACCTTCCTGAGCCTCAGTTTGTTCAACTCTCAAATGGGCTGAGGCCAGCTGCCTTGCCTGCTTACAATGCTGATTTCAGCTTAGC
AGCTATGTGCCCTGGGGAACATGATACACACGGGACTGTTTAATGACTTGTCCGAGAGGCTGGATAGCATAGCAGTGAGGAGCATGGGTTCAGGAGCCAG
ACAGATCTGAGCTTCAGCCCCTATTCTGCCTTTTATTAGCTGAGTGACCTTAGCCAAGTAACCAAACCTCTCTGAGCTTCGTTTTCCTCATATGTAAACT
GAATACTCAAAGCATAGTTGTGAAGGATGAACTGAGGGCTTAGCATATTGTAAGTGTTGAAGAAATGGCACTTGCTAGTCCTACTACTTTTGCTACTGCT
CTTACTCCCCCTATTACTGTTGTTATTACCATACTGCTGCTGCTGCTTCATCTGGGAGAAGTCCCAAATCACAGCCCTGGTGAAAAGTATAACCTCTACC
CCCAACATGATGAGACTATTTGGCAAAGCTTGGGATTCCCTCTGGGGCTTTGGGCAGATCTGCTTCTCAGGCTGGACCTGTTTTCCCATCTGTAATCCAG
GGCACAGGAATCCCTTTTCCTCCCTGGATTGAAGTGTGGTTCTTGGGGGAGAGAATGTATGCCCCTGCCAAGAGTGAGGCCCAGTTTTGTYTTKTTTTTT
TTTGAGACAGAGTCTCGCTCTCTCACCYAGGCTAGAGTGCAGTGGCGCGATCTCGGYTCACTGCAACCTCCGCCTTCCAGGTTTACTTAGGCCATTCTCC
TGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAAACAGGGTTTCACCATGTTAGCCA
GGATGGTCTCCATCTCCTGACCTTGTGATCCCCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGAAACCACGCCCGGCCGAGTGAGGCCCA
GTTTTTAATGCCTCCCTCCTCAAGTGGTCCCAGATCCCTTCCTTCCTGATTCTCCTTCTGGTCTCCTGTGGTTTCAGCTGACTGCAAAGAAAACTTCAAC
ACTGTGGAGCACATTGAGGAGGTGGCCTATAATGCACTGTCCTTTGTGTGGAACGTGAATGAAGAGGCCAAGGTCAGTGCTGAGGGCAGTGGCTGGGATG
GGACTGGGCTGCCTGGAAGTCCCTATTCTGGGGTAGAGGCTTTCTTGCACCTAGGATAGTGTCATTTGCTCCGACGAGGGCACTCATGGAGGAGGCAGGA
TGCAGTGTAGTATGGAAGCTTGGGCTTTGGAGCCAGGCAGGCTGGGTCCGCATCCCACCCTTCCACCTATTGGTCCAAAGTGTGACTTTGGACCAGTGCC
TTAGTCCCTCTGAGCCTAAGTTGTTTTGACTATAAAATAGGAGTGGCATCATAGTACCAACTGGTAGGTTGTAGTGAGGAGCAGGTGAGATAAGTAAAAG
GTGGAGCACACGCCTGGCCCAAAAGTGGCAACTGTTGATATTACTCCAGTCCACCCATTTACTAGATGGGAAAACTGAGCCTTTTGCATGGTCACACAGC
AAGCCACTGGGGGCACCCACGTTTCCTGACTTCTTGGCCAGCGCAGAATGTCGCATGCAGGAGAAATGCGAAGGAGTCCGGTGAATGAGGGCTCGAATCC
CAGTTATCTCACTTCTCTGAGCCTGTAAAAATGAGAACAGTAACCTGCCTGCTAGGATTGGAGTGCAGAGCCCACAAGATCATGCATGTCTACAAACCGG
AGAGGCCTGAGAGATGGAGCCTCTGGTGATGTTTTCATGCCAGTAGTTAAGCCRTTAAGATTCTTCCAGCCTTAGTGCTTGAGCCCAGCCGCGGGCTTGC
CATGTGCKCATGGGCCTCGCTGTGTCTTGGTTTGCTGTTTAGAGAGCCAGCATGGTGGAGAGGCACTAGTGTGGGAGTCAGGAGCTGAGCACCTTCGGCC
TGTCCCTTCCCCTCCCTGGACCAGGCTTACCTCACTCAGCAGGGTCAGGTCCAGCTCATCTCAGGGGCATTTCTGGCCTGGAGAGGCTGGGGAGCTAACC
CCTGCCTCCCTGCCTGCCTCCAGGGATGGCCAGGCTGCCTGGAGAAGATGGAGGTGCAGGAGCTCAGAAAACACAAAGGGAGCACAAAGGCAGGGATTAT
TATTATTCAGACTGGCACCGGGCTGGAGGAGGAGCTGGGGCCTTGGGTTCAGGGAGTGGGGAGTTTCGTGGGAAGGGAGAGATGGGTTTCGGTGGGGATT
TTCTCACAGCCTTTTAAGCCCCCAGGCTTGGGTCTTTCTCAGRTGCGAGCTGGGCGGGGGCTGCATGAGGGCAGAGCTGGCTGAGGGGGAGGTATGTCTG
GCATGTGCCTGGGGGCCTGGTCTGCACAGCCAGGGAAAGAAGGGGGTCTGCTCAGACACACCCCCCCACATCCTGTTTGCATCAGGGTCATTTCCAAAGG
AAATGTTCCAAAGACCAGGGGCCAGCCTGCGTCGGGGGGACCGGGGTTCCCATGGAGCCCCAGAGGAGGACAATCACCAGGTGACCTTGCCAGGGTTTGC
CCCGCTGAGACTGACCCCAGGYGWCCATCAGTTGGGCATAGGCTTTGGGATGAGACTTCCAGCTGTCCCTCTCATGGCAACGGTTATAACATATCAAGCC
TACACACCCCACAGCCACACAAGATAGGTTTCATTATCCTCATTCTGCAGACAAGGAAACCGAGGCTCAGTGAGGTGAAAGGATTTGTCTGAAGCCGTAT
ATGGCTAGTGAGCGGCAGAGCCCAGCTTCCTGCAGCAGRTGTGGGCGGCCCCTCCTCCAGGCTCACTTTGTTATGCCCCACGCCTGACTCCCTAGGGGAA
CGGCAGCAATTATAGCCCTGCTCAGAGCATCTGTTTCCCCGGCTGTAAGATGGGGTGACTAGGATGCTCCCTTGCTGTATGTGGGGTGGGATCAAATCAG
CTGAAAGAACCTCTCACTAGAGGGTCCTGCTATGGCTGGAGTGGGTGGTTGGGGTGGAGAGGGGCTGTGTCTCTGGGCCAGCAGGAAAGTGGTCTCCTTG
TGCTGGGGACAGGGGACTCAGCCCTTTTCCACCTCCTTGTCCTGAGTTGCAGAAAAACGAGGCTCTGGATCTTAAGCTCCTATAGGACTCTTGACATCCC
CCCCAGTCTCCACCCCTTGGGCTGCCCTTGGCAGTCTAGCGGAAACTGTACCAACAGCGGTGAAAAGCCTGGGCTGTGAGTCTGGGTTCAAACCCCTGCT
GCACCACACACTGCCYGTGTCACCTCKGGAAAGTTGCCCCACCTCTCTGAGCATTGGCTTCCCCATCTGTGAAAGAGGAGTGCTGATGTTTGCCTTCTAG
GGGCCTAGTGAGGCTTAAGGGTGAGCAGCAGGCACACAGAAAGCTAGAAATACAGGATCACTGTGGGACGGTGGGGCTGGCCACCTGGGCAGGCCACTTA
CCCAGCGGCCCCCTCTGTCTCCAGGTGTTCATCGGCGTAAACTGTCTGAGCACAGACTTTTCCTCACAAAAGGGGGTGAAGGGTGTSCCCCTGAACCTGC
AGATTGACACCTATGACTGTGGCTTGGGCACTGAGCGCCTGGTACACCGTGCTGTCTGCCAGATCAAGATCTTCTGTGACAAGGTGGCTGGACTGGGCAG
ACCCTATACTGGGTCCCGGGGAGGTAGAAGGGCCAAACCCTGACCCGTGCGTCCTCCTAGCTTCTCTGGGTTGTCTGTCTCTCTCTGTTTTTCTATCCCT
TCTCCTCCTTCCCCTCTCCTCCTCCACCCCCACTCCTCCATCTCTCTGTCTCTCTGAGTTTCTTCTTTTCTGTCTTCTGTCTGTCCGCCTCTCTCATGGC
CTGTAGTGACCTCAGGCAAGCAGGGCCAGGCCCCACTGGCCAGGCTGGGCCAGGTAAGTGCTGGTACCTTCCCATTTCCTGGTCTTGTTCTGGAAAAAAG
AAGGACCAGAAGCTTGGCCCATATTTAAGATGCAAAGCAGCAGCTGTGAAAGTAGCTAGCCCCTCCCAGGCCCTTGGTGACCCTCTCTCCTTCTCCCCTG
CAGGGAGCTGAGAGGAAGATGCGCGATGACGAGCGGAAGCAGTTCCGGAGGAAGGTCAAGTGCCCTGACTCCAGCAACAGTGGTCAGTGGGGATCCAGRG
CCTGGGTGGGCTCGGCTGGCGTGAAGGGGAGAAGGAGACCAGAGGTGGGAGGGACTTGAGTGGAGGGACCTCGGGGCACATTGGCTTCCTTCTCCCATCA
GGCGTCAAGGGCTGCCTGCTGTCGGGCTTCAGGGGCAATGAGACGACCTACCTTCGGCCAGAGACTGACCTGGAGACGCCACCCGTGCTGTTCATCCCCA
ATGTGCACTTCTCCAGCCTGCAGCGCTCTGGAGGGGTGAGGCCAGGGCTGGGGTCTCGGGAAGGAGCCGAGAGAGGGTCCTGGCTCCTAGGTGGGGCCTG
CCTTAGCACAGACCAGTGGGGAGCAGCCTGCCCCTCAGCCAGTTTCAAGACCTTTATTGAATCATAGGGGTTTAAACATGTATATATGGTCCTATAGCTT
CAGTGACCTATTGTATTGAAGAGAAGAATGTTATGAAGAAACAGATTTCGTAACCATTAAAACGTTCATGCTTAGGGCACACAAAGAGGAGGCTTCTGAT
ATCTGACCCCAAAYTTGATTGCAGCCCYATGGAATTCTCACGGCAGCACTTGTGGTGCTCACTGTGTGCCAGGTGCGGCTCTGAGCGCTTCCCAGGCATC
ACCGTCCTTACCCTTCTCTACAGCCCTGGGAAGTCAATAATAATGTCTCCCTGGATCTGTGGGGTAGAAATGGAGGCACAGAGAAGTTAAGAAACCTCCT
GAGATTGCACAGCTAGTAAGTGGCAGAGCCAGGATCTGGACTGAGGCACCTGTTCAGAATCCACACCTTTCCCCACTAGCTGCTCCGCCTCTCAAGCAGC
CGGGACTGAGYGCCTGGCAGCCAGGAGTGGGCTGGGTTCCCTGTTACAGCTGTCCTCCGAGAGACTGCACCTACCCCCTTTTCCAGGCACGGTCCCACAA
CAATTCAATGGCAGGGTCAAGACCCCAGAGCCTGTCTCCTAGTGCGCTTCCATACTGGAGAGTCTGAGCATTTCCTTCCTTTARGGGTACAGCTCCGCAC
TGTTTCTTCAGGAATATTTATACAAATGGACCTTGGTGTACAAGGCATGTTTAGTGTATTGACTTAGGACAATGAGGTGTAGACAGTGGCGCTGAGAAGA
GCGGCCAGTGCTGACAGAGCTTGGCACAGGCGCAGAGCACTGTCTGTGYCCCTCCTCTCTTTGCCATCTTGGGAGCTGCGCTGTGGCCCCGCAGCACAGG
CGGCTGTGTGAACCTGTTCTCTCTTGGCTCTCCTCACTCTCTCACCAACTAGAGGCCCTCAGTAAGGAGATGACCACTCAGGGTGAAGGCCCCTGTGGCT
AGGTTGACAGTCAACCTGTGGGGGTTGAGGGTGGGCCAGTCTCCACACCTGTGAGCCTGGGAGAGGGGAAGCCCAGGGCAATAGCCAACAGAGAGCCTGA
GTTTGAACCCTGACTCTGCCTCCTGCCGGGCGTGTCATCTCTAGAGCTCTCTGCTCTCTCTAGGCCTCAGCTTCTTACCTCACAAGACTGACTGATGCCT
GCCCCACACCGCACAGTGCCAGGCACACTGTAGGGTCCAAGAAGAGGGCCTCTGGCCAGGCTTAGTGGCACACACCTGTAATCCCAGCTACTTGGGAAGC
TGAGGCCGCAGGATTGCTTCAGCCCAGGAGGTCGAGGCTGCAGTGAGCTGTGATGGTGGGACTGCACTCCAGCCTGGGAGACTCTTTCCCCCCAGAAAAA
AAAAAAAAAAAAAAAAAAAAAAAAGCCCTGTTGCCCTTGCTCCCTTGGCCCTCAGCTCCAACTGCCTAGTTACCGGCCGCAGGACCATCTGCAATTCCCA
GCCCTTCTGGGCATGCTGGGGCCCAGGTGGGGCTCAGTGTGACTCTGCTCTGACAACATGGCTTTAGCACCTCCTGTGTGTTCATTGAGTCCTTGACCCA
TCCAGCTCGGGCTGGGTGATTCCTTTCCACTCAACATCTCAGGTCACTTAAGGGCACTTGTCTGAGCAGAATGGGCTAGAAAGGCATTGTAACAGTATTC
TCCCCAYCTCCCACCAAAAATATTCCTCCCAGAGAGCCTCCAGCAGCCAGGGGCTCCTCTCATTTTCCTGCGTGTGATGGAAAATGTCTTTTTCACTTCA
TTGCAGGCAGCCCCCTCGGCAGGACCCAGCAGCTCCAACAGGTATGGAGAGAAACAACCACACGCCTCCCTCCACACCTGTGCACCCTCCACACCTGTGC
CCCCTCCACACCTGTGCCTCCGCCACACCTGTGCCCCCTCTACACCTGTGCCCCCTCCACACCTGTGCCCCTCCACACCTGTGTCCCCTCCACACCTGTG
CCCCCTCCACACCTGTGCCCCCTCCATACCTGTGCCCCCTCTACACCTGTGCCCCTCCACACCTGTGCCCCCTTTACACCTGTGCCCCTCCACACCTGTG
CCCCCTCTACACCTGTGCCCCCTCCACACCTGTGCCCCCTCTACACCTGTGCCCCCTCTACACCTGTGCCCCCTCCACACCTGTGCGCCTCCACACCTGT
GCCCCCTCCACACCTGTGCCCCCTCCACACCTGTGCCCCTCCACACCTGTGCCTCCGCCACACCTGTACCCCCTCTACACCTGTGCCCTCTGTACCATGC
CCACTGTACCATGCCCATTGCCCCCAGCCTGCTTTTCTCCCTGTTCCTTGCAAGCTAGGGTGTGGGGCCAGAGGAGGAAGCCACCAGCTTCTGCCCCCAG
CCCCCAAGCTAGATCCATGCTTCTTTCTCACTGAAACTGCCTGGGTTTTTATGGGTTTGTTTTATGTGAAAAGTCGGCGAATCTCTGGCGAGACACCCGC
TTGTAAAAAGGGAAAGGAAAAGAGTCTGTGGTGGTGCAGATTCAGAGAGAAGAGGGAAGCTGTGCTGGAGGCTTAGGGGATGAAAACCCTCCATCTCCTT
CCCCAACACACCCCCACTGGGGGGCCTAGCTGGGGCCGGCACCCCTTGACACTTTGGCCTAGGAAGGGCCTTTGTGTCCTTCCCTCTGTCAGTCACAGCC
TTAGTGCCCTGAGCAGTCCCTTCACCTCTCTGAGCCTCAGCCTACACATTTGTCAGATGAGGAAAACAGCCTCGAGAGGGTGAGGAGGGCGGTGTGGATA
TGGAATCTTCGTAAGTGGGAAAGCACTTTATGAAGATCATTTGCTGTTATGATCAGTTTCTTCCCTATGAACAAAATGTACTTTTCACTTGGTGCTTTCA
CCCCAAATTATGTCACTTGTCACCTCACAACAGCCTCAGAGTTAGGCAAGCAGGGTTATTGCCYTGCTTTATGGATGCGGAAACTGAGGCTCAGAGAAGT
GAAGTGCCTTCTAGCTGTGAAAGTCACCGCAGCAGGACTGGACCCCAAGCCTGTCTTACTCCAAAGCCCCCAGTCCTTCCACCCCCCCACCCCGCCTCAC
ATCTGACCTGAYTTCTTTTAAAAAGGAACGATGATGATGACGATGAGTCCACATTTATTGAGGCCCTCCTGTGCGTCACAGTGTTCTAAGCGCAGTGAGC
ATGGTCTCCTGTGGCCTCACATCCCTCTATGAAGTATTGCTATCATTGCTTTCTCATCATCCCATTTTATACATGGGGTCACTGATGGGCTAAGGGACTC
ACCCAGGTCACACACCTAGTGCGTGGCAGGGCTGGGATTCAAACCCAGGCAGTCCAACTCCAGACCTGCTGCTTTACCCCCACTGTCCCTCTGCTTTGCA
TCCACCCTTGTGTTTTCTTCCCCATTTCTAGGGCCCCTGGAGGCCCAGCAGGGTCCTTGAGCCTCTAGGGGTCCCCAAGTTTCTCACAAGCTCCCCCACT
GCCATCCCCACAGGCTGCCTCTGAAGCGTACCTGCTCGCCCTTCACTGAGGAGTTTGAGCCTCTGCCCTCCAAGCAGGCCAAGGAAGGCGACCTTCAGAG
AGGTGACCTCCCGCCCTCCTCATTTACTCACCAGGCCCACCCCAGCTCCCACCTCCCTCATGGGCTTTCCCAAAGCCTCCTTGGGGTGGGGCACGAGGCG
CTGCCTTACCCCTTGGARCTAGGTTTAGGTTAAGACTTGGGGGTGGGGGTAASGAGGGAACCTCAGGCTGCTTGGAGAGACCACCACAGGACTGGCGGCT
TCTGTCTCCTGACCTCGTGTGGACGTGGGAGTCCTGGGCAGCTGGCATAGTCAGCAGGCTGATTATGCTGGGCGAGTCCCCCCTCTCCCACTTTTTCTGA
TGGGGAGTGGGAGAAGGGTGGGGTTTTGATGTCTGGCTTTCTTGCTTTGACCCTCTAAATCTGTTACTTCCTTGGGGTGGGGAACAAGCCCAAACCTCTG
GGGGCTGTAGCTGGCCATCAGGAAGAAACCAACTAGCAGCTAAGCTCAAAAGCTTCCAGCAGCCATGAATCGAGCTTTGCGTGGCACCTCGTGTTTCCAG
ACACTGCCATCAATTCCCACAATGACTCTACGAAACAGCGGACAGAGCCTCCATTTTACATGCAAATAAAATCAGGCTCCGTGATGTTAAAATCACGTTT
GCAAGGTCACCTGGCTGGCAGGTAGTAGAGCAGGGGTTCAGACACCCCCACATAAGCACAGCTTAAGAGGGTGCATGGGAATCTGCAGAGCCGGCCAAAG
GGCCTCCCAGCTGGGCAAAGACCCGCAGCAGAAGTCRATCTTCAAGTAACGTTTTCAGATTCCCCAGCCCCTGAGATGATCCTGTTCACATTATCTTCCT
TGCACTCAAGCTGGCCCTTGCTTTTCAGTTCTGCTGTATGTGCGGAGGGAGACTGAGGAGGTGTTTGACGCGCTCATGTTGAAGACCCCAGACCTGAAGG
GGCTGAGGAATGCGGTAAGCTGCCTGTGGACCCCGCCCCCCATGGCAGACCCCCTCTAGGCTCCTGTCCCCACTCCTCACCACGCAGTTCTGATTTCCCA
CAGGAGGGAACCTTGGCATGCCGGTGGCCTACCCGTCCCACCCTGTCCAGGGGGCCTGAGGGGCCCTGCCGGTGGGGGTGTGCCTCTGCGATGTTATCTC
CCAGCCAGAACCCTGACTCCACCCTGGGAGTCGCACACACCATAAATCCTCCTTGATCTGATGGCTGCTGTCTGACAGGCCAGGGTTTTTTGTTGGCTTT
GCAAACCTGTTTCTGTTTTAATGGGAATGGAACCCAAAAAGGCCAGGCCCCAGAGACGCTCTCTTTTTCTTTCCCAGGGGGCCTCATTCTGCCTGCTTGT
GGTTGGCTGGGGGCCGCTGGCTGGGGTAGCTGAAGGCAATGTCTGTGCAAGGAGACCTTCCCCAGCCCCCCACACCACCAGAGAGTGGGCAAAACAGCCC
AGTCCTGAATAAAACCCATAGCCAGCTTTGTGGCTCCACCAAAAACTAAGCAAACACAGCGTCCACCAGGGTCAGCTGTGGCTGAAGGTGGAACCACTCG
GAAAAGCCAGATGGTGTCAAGATTTCAGGCTGGCGGAGTGAAAATGGCATCAAATAGTAACGCTAGCTGACCTTTGTTGAAGGCCCACTATGTGCCAGGC
AGTTGGTCAGACATGCCGCCTGCACTGGCTCATCATGTGCCCTTAACAACCCTGAAAAGTGGGTACTATTCGTATCTCCTCATTTCCCGCAAGGACACAG
CCTCCGAGAGGTCAGGTGACTTGCCAGGGTTACTCAGCTCCAGGTGACAGAGCCGGGATGCCAGCCCAGGCTCTCCTCATGCTACTCGGCTGCTTGTTCT
CTTTACGCACCGTCAGCCCTGCTCGGCATCAGCCCCAGGAAGCTGGGCTCACAAAAGACCATTAATGTCACCTAAATATAGACTCAGAGGCTTTGGGTTG
GACAATACCTTAAAGGGTCAGCTCCCCATCTAGTGCCTGCACTCCCTCTCTCCAGCAGCGCTTCCAAGCTGGTGCCCACTTTTGACCCGTGTACCTCCAG
GAATGGAGAGTTTACTACCTGTGGGGCAGCCCATGGTGTCTTTGTCCAATTTGTCCAATTGATGGTGAGAGAGTTCCTGAGTTCTTCCTTAGATTGACTT
GAGATCTTCTTCCTGGTAGCTTTCAGTCACATCATCATTAAAAGAAATAGTCGTCTAAGAACTCTCTTGCCAGGAGGAATCTCTGTTAGGGTAGAGAATA
ACTGAGAAGCTGAACCTGATCCTTTTTCTAAAATGCCCAGAGAGGATGACCTCCACCTGAAACCCAGGACCTGAGGTTTGCTGCAGCTTCTAGGCAGCTA
GTACTAATCAACACCGACGTCTTACAGAGCTKTTTCCCTGGGACAGGCACTGGGCTGAGCCCTTTACACAATCGTCTCAGTTCGTGTGCAGAACCACAGT
GTGTGTACATCCTATTACTATGCCCATTTTACAAGTGAGGAAACCGAGGCTCAGAGAAGTAAGAGTGGCCTGTTCGAAGTTCTGCACGTCCAGGTGGTGC
AGCTGGGACCAGACTGGATGTGCCTGCCCCAGAGGAAACTTCAGAAGCTCTGGGGAGACAGGCTGACACTGGCTGTGTGATCTCAGGCAGGTCACTCAAC
AAGCCTCTGACCCACAGTCTCCTCATGCAGGGAAGTAAGTTCCAACATTTTCGGATGTGATGGAGTCAGTTAACCTGGGGTCTAGGCCTTGGGCGCGTGG
CTTATGCTGTTTGAGCTCCGCATGCTCGCCCAACAAATGGGCTTAATAATTCCGGCCTAAAAGGGGGAGATGTCTGGGCTTTCCCCTGTCCCAGCAGGGC
AAGCAGCATCTTCATTGCTCTGCTTCTGAAAAAAACAACACTGACCGCTTATTCAGGGCTCAGTACGCGCCAGGAGCTGTCTTAAGTGTTTAATGTGGAT
CAATCCACTTAATTCTTCCAGCAACCCTCTGAGGTGGGCACTGTTCCTGTCTCCACAGGTAGCTTGCACGAGGCCAGCCAGCTGGTACATGGGTGCACCC
TCAGCACTAGGACAGTTTCAATATCTCATGGGCAAGTTCAGGGAAATGSTAGATGCTCTTCAGGATATTTTTCAGCCACTAAAAATGCTGCTTGACAAGT
GTTTGTTGTGACATAGGAAGGCTTATACTAGGATGATAAGTAAAAAGATATATAAAACCATGTGGAACCTAAAAACATTTATACACACAACCGTACGTAC
ACATGACCAAAAGATGGGAAGATGCACACCCAGATGTTAATGGTGTCTATCTCTGAGAAACAGGATTATAGATGATTGTAATTTTCTTCTTCATATTTGC
CCACAATATGCATATGTTTTACTTTTGTAATCAGGAAGTAAAAAAAGTGATGGCATAAAAGACTTGTATAAATCTAGCGTGGGCAGCAGGCAATGAATCA
CCTGTCTTTTCCTTCCAGATCTCTGAGAAGTATGGGTTCCCTGAAGAGAACATTTACAAAGTCTACAAGAAATGCAAGCGAGGGTGAGTGCCTAGTTCAC
CCTCCCCCAGCTGGTTGCTCAGTGCTGAGCAATGTTTGTACTTGGCCTTTGTGGAGGGGCTGAGGGGATGTGGAGTTGGGGTGGAGAGCTCCCCAGCCAG
GCCAAAGCCACTGGTCACCTCTCCATCTGCAGAGACCAGACATGGGTCACAACTGGGAAGGATGGGAGTGGGAGACAAGTGGAAGGGTTGTTACATATAK
GACCTCCTGGGTGGGGTGGAGGGAGAAGTGGAGGGTCATGTGTCAGAAGACCCAGGTTCAAGGCCACTGGGAAACCAAGCCATTTGATTATAAAGATAAT
GATTATAGTGACCACCATCCCCTTGAGCACTCACTATGTGTCAGACACGAGGCTAAGCACACACTACTTAACTCTCACAACCATACTAAGAGGTAAATAC
CATAGTCCTCATTTGACAGATAAGGAAACTGAGGCTCAGAGGTAATAAGCAGTGTTCAGGGGCAGGAGAAGTGGATCAAAGGCATGAGGCAGGCAGGCCC
AACAAAGTTGTTACTGACAGAGCCGTAGGCAGGAAGGGAGTGGCTGGCGATGAGTCTGGAAAAGGAGTTGTGATTGGGAGTCATTTTGAGGGAATCCAGC
CAGGGATGCTCCACAGGCCTCCTCCATCTTTGCTAGACAGACTAGGCCAGGAATAAAGCTGTACCCTCCAGGGGGCAGGCAGTGCCTGGCTGCCTACCAT
GGGCTCCTGGGCACCAGAGTACCTTTGTTGTCTGCTCAGAAGATCCCTTGGGAAAGGGAGGYAGGGTCACATGGTAACTGTCCTCCAGACATCAGTCCCC
TGGTCAGAGCTAGTGAGCCTGTCCTCTGCAGCCCTTCCTGAGTAGGTGACTTCACCAGCCTGGCATAGGGCCCCCAGACAGTGAGGAATTGTCATTGCTG
TTGCCAGCCCAGAGGCCCCAGAACCAGAGCCCTGGGAAATGCACTCCTAGCCCCTCTGCCCACAGCTCCAATCTGATCCTCTTGCTGTGGATAGTCTAAC
TCGAGCGACATTTGCTAGTAGCCCCTTGGAGGTGCTCAGCCACTTGCCCCGTGGCTACTGCAAGTGGATCTTCCTTTGTAGAAGACTTTGCAAAGCGAGG
CAAGTTTTGTACTCAAGCTGAATCCCCATCTCATCAGGCCTAGGGGCCTGGCCGCCTTCCTCACAGGCCCAGCCCTGCCTGCCTTCCTCCTCCTTGGTTC
CTTCCTAGCCTTCCATAGAAGGCTGAGGGTGGGGGAAGGTGTCCATCCCTGCAGCCCCTGGGAAGGGGGTTTTTTTTTGGTTTTAGCTGCATGCATGTCT
AGAGTTTTTCGTGTGTCTTTTTTTTCCAAGTTTCGGTTTCCATCTGAGTCTCACATGCTCTGTAGAGTGAAATCCACTTCACGGCAAAGGGCAGGCTCTG
CTTTCCCCAGACAAGCCCAGCCCCACTCTCCCTTCAGCTCCAGTGCCCATGCCCCCTGGCTCCAGCCCCACCTGTGGCAGGCCTCCCTTACCAATCCCAC
TCCAGGCCAGGCTGTGTGATTGCATGGGGGGGTGGGAGGGTGGGGTGTGTGTACAAGGATGTTCCCCAGCCCCACTGGCTGAGTTGCCAGAGGCTTCCCC
TTAAGCCCCAGCCAGCTATTGAAATCATAATTCTAAAACCTTCYATTTATGGGGCACTTCCTACATGCCAGGCACTGGGCTGCATCACTCCCAAGCATCA
TCTCGTTGACCCTTTGAGCTGGGTATCATTATCTCTGTTTGTACGTATGGGGAAACTGAGGTCTGCAGTAGTTACAAGGTCATGAGTTAGGAACTGGCAG
AAGCATCTTGGACTTCTAAAGCCTGTACAGGCATCCACTCTGTTATCCTGCCTCCTGCTTGTTCCTCTAATCACTACGCAATGTGCAAATAAAGGATGCA
GCCAGGCTGGCCAGTTTATTTGCCCAGCACCATAGCCAGGGCATCACTCAGCAGCCCTTCACAGGCACCCCACACACCCCCACGGCCGTGAAAACATCAG
CCCCAGGACTGTCTGAAATGTCTGAATGACAGTGTTCCCCAAAATAGATCTTAGGAGAGGAGAGGCCAGGCTCATCTTCTGCCTCCCTCTGAGTCCTCAT
GTGAGAAACAGGAAATTCTGATCAAAGGCCTGGTTTATTTTCATAAAACCCTCCCGAAAGTCCTCTGGATGAAGGTGGATAGAGTCAGCTTTACAGGCCC
CACTAAGTGCTGCAAAGATGAGCAAATACATTGTTTTTGCTGGCAGCTGGCCAGGGGTTTAATGTGACTCAGGACTGAAGACAGCTAGAAGGTGGCAAGT
AACAAGAGGCCCACATTTGGTGACAGTGGTACTGCCTCTCAGGGGCCCGCTGTCATTAACTTTTGAGAAGAGGGGTCTGTGGGCCCATCTGGAAGCCCTC
TTGTGCAGGTGTGAGCAGGTGTGAGCTTGGCAGATGTGAGCAGGTGTGAGCTCAGGGCGCTGGAAGGCCCTGCTAGGGAGTGGGACGGATCCAGCCTTCC
AGCTGGTACATATCAGTTACTTCACAGTGCCTGGCACCTAGAAGCACGCAATCAATGGCAGACAAAACAACCCTGATTTTGAAAAAGGACCCACCCCTCT
GCCCAGTTCTGGTCTCCCCTGGTCTGTTTCCGACCTCCCGTGCCCAAAGAGCCCTCTGTGAAATGAAGGAACTCCAGGCAGGACCCAAGAAAGGGGAGCC
TATGATTACACATTGGCAGTCAGCGCTCAAACCACTGACAGCCCAAGCCTGGACCTTCTTCCTGAGAGCGGCAGGGAGAGACAACTGGATGTGGGCCATG
CCTTCGGGTCCATGTTGTCTCCATTGCCCTCGGGGGGTCCTCGTGCCTGCCGCTCCTGCGCCACTTCAAAGAACTCTCCCATAGCCCTGGATTTTGCCTT
CCTTCTATCTGCTGCTTCTTAACTTGTATTTATAGGGCTTTGTTTCCTTCTAAAAATGATACAGTAGAAAGAGAAAAGGTTCAAATCCCAGCCCTGCCAT
CTATGAACTGTGTGACCTTAGACAAATAACTTTGTTTCTTTGAACCTCAGCTTCCCCATTTATGAACTGGGGTAATATGAGGATTCATCCTCCCAGTCCC
TACTAGATTCAAAACTCCTGGAAGGCAGGAACTAGGTCTAATTCATCTCCATATGGTCCTTGTTTTTGAGCAAAGCCCTGCACATGGAAAGGCCTCAGTG
AATATAGGGGATGAATGGGAAGATGACGGCAGGTGGGCAGGTGGATGGAGGATGGTGGATGGGTGGGGGTGTGGGTAGATGGTGCATGAGTGGGTAGATG
GACGAGTAGATGCCAGGTAGGTGTGTGTGTGGGTGTGTAGTAGAGGGTAGATGGGGGTGTGTATGGGTGGGTAGATGGTGGATGGGGGTGTGGTTGGGTG
GGTGGATGATGGATGGGGAGTGTGTGTATGTGAATGAATGGTGGATGGTGAATGTGTGGGTGGATATACCCAACTCCATTACATGCTCAGAAGACAGCAG
GGAAGGGGCAAGGAGAAGGTTGATGTGATCAGCTCAAGTCACATCTTGGTGGGTCCTTCATCAGGAGCAGCTTCTAGAGGGCTGCTCTTTCTTTGGCATA
AACAATGGCTCTGACTCCCTGCAGGGGCCCACAGCCATGAAGATTCCGTCTCTCTCAGGTTGACCCAGGTCCTTGCCTGGAGAATATGGGGAGAGAGTGG
GCCTAGCCCCTCAAGTCTATCGGACAATCCTCCTGAGATTTCAGCTTCCTGGGAATGGAACTGGGAGGGGCTTGTGTGGCACCTGCCTCTGGCTCAGGCA
TGCCTGAGGGACACATCCTAGCCTCTTGTTGAACCCAACCCACCACCCCTCCGGGGCTTGAACTCACACTTCATGTCCGAGTCCTCAATATGGTGACTAA
GGGAGCACTGCGTCTCCCCCAGATCTACATACTAGTTGCTTGAGTGTCCATCCTCGGGTGTACCAGGAGAGAGGCAATCCGGYGCAGTAGCTGTGAGTGT
GGGGGCCAGCAGGCCTGGGTTGGGTTGTGGCTCGGCYACTGGGCATTGTGCAGTAAAGGAGACTGTGACTCCCTCACCTCGTGGGGTTGTTGTGAGGATC
AGAGGGAAGGTTTGTGAGGTGCCTAAAATGTGGCAGGTACCCACTGGGTATGACCCATCACTCATCCTGGTCACTCAGAAGGCCTGAAAACAGGGCGCCT
GCTGTGTTCCAACCACATCCCCTCTTCCATTCCAGAATCTTAGTCAACATGGACAACAACATCATTCAGCATTACAGCAACCACGTYGCCTTCCTGCTGG
ACATGGGGGAGCTGGACGGCAAAATTCAGATCATCCTTAAGGAGCTGTAAGGCCTCTCGAGCATCCAAACCCTCACGACCTGCAAGGGGCCAGCAGGGAC
GTGGCCCCACGCCACACACAACCTCTCCACATGCCTCAGCGCTGTTACTTGAATGCCTTCCCTGAGGGAAGAGGCCCTTGAGTCACAGACCCACAGACGT
CAGGGCCAGGGAGAGACCTAGGGGGTCCCCTGGCCTGGATCCCCATGGTATGCTTGAATCTGCTCCCTGAACTTCCTGCCAGTGCCTCCCCGTACCCCAA
AACAATGTCACCATGGTTACCACCTACCCAGAAGACTGTTCCCTCCTCCCAAGACCCTTGTCTGCAGTGGTGCTCCTGCAGGCTGCCCGTTAAGATGGTG
GCGGSACACGCTCCCTCCCGCAGCACCACGCCAGCTGGTGCGGCCCCCACTCTCTGTCTTCCTTCAACTTCAGACAAAGGATTTCTCAACCTTTGGTCAG
TTAACTTGAAAACTCTTGATTTTCAGTGCAAATGACTTTTAAAAGACACTATATTGGAGTCTCTTTCTCAGACTTCCTCAGCGCAGGATGTAAATAGCAC
TAACGATCGACTGGAACAAAGTGACCGCTGTGTAAAACTACTGCCTTGCCACTCACTGTTGTATACATTTCTTATTTACGATTTTCATTTGTTATATATA
TATATAAATATAYTGTATATATATGCAACATTTTATATTTTTCATGGATATGTTTTTATCATTTCAAAAAATGTGTATTTCACATTTCTTGGACTTTTTT
TAGCTGTTATTCAGTGATGCATTTTGTATACTCACGTGGTATTTAGTAATAAAAATCTATCTATGTATTACGTCACATTACTTCACATGCTGCTCTCGTT
CCTTTTGGGAGAGTCTGCTGGAAAGAGATGGCTACATTGGTCGGGGCCTCGCTCCTCTTTCTCCCTTCGCTCTGGCTCTGTGCGGAGAACGGGTTGCCCT
GGACTTGAAGGATGCTGGSACGTGCAGGGCACCGGTGGAGCAGAGGTGCCCCCTCTGGAAGGCAGCAGATTCCTGATGCCCAGATGTTTGTGTTTGAATG
TTACAGCCTCAGGATCATTGACTCTGCAGAGAAAGTCCTGGGAAGGGTGTAGAATGAGCTTGAAGAGGACCTCACAGCTGAGGCCATCAGGCAGCACCCA
AGGCTGGGAGCCACATGACCTGAGTCTTGTGCCAGCTCTGCGCCTACTCTCTAGGCCAAGCCACGTTCCCTGCAGCCAGCTCCTACAGCTCACAGAAGCA
ATTGCAGGTATCTCTTCCCAACTCTGAAGGAGTGTGGTCATGTTGGCACATTGAAATCAGCCATGGTGACAGTCAGAAATTGACAAATGCTACAAATCAA
GGCCTTTATTTTCCTTAGAGAACAAATCACAGATTCAGGCTTGCTTTCTTTTCATTTATCTTTTTTTTTTTTTTTTTCTTGCGATGGAGCCTCGCTTTGT
CACCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGAC
TACAGGTGCCTGACACCACGCTTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGA
TCCACTCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCAGTTTTTGTCTCTTTTAGATCAGTTCCTCCATTGCCTCAT
TTATCTTTTTTTTTGTTTTTTTGAGACGGAGTCTGGCTCTGTCGCCCAGGCTGGAGTGGAGTGGCACGATCTCGACTCGCTGCAAGCTCCGCCTCCCGGG
TTCACGCCATTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACACGTGCCCACCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAAAGATGGGGTTTCA
CCGTGTTAGCCAGGATGGTCTCGATCTCCTGACATCATGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGTCCGGCC
ACATTTATCTTTTTTAAGCTGCCAAGTTGAAGTGGGTCTTTCTTCCTTTGGGAGAGCAGACTTACCAGCCACTGCTACCTGTAGCCCTCAGTTTCTTTGG
CTATAAAATGCAGGTCATGATCTCTGTTGGTTGTTTGTAATTATCATCTTCAGAGCCTCAGGGCTCACTGGTGGGTCTCCAAGGCCACTACAATGCGAGG
AAGGGGCTGCAGCAGTCCCTGCGTACCCTCCCTAACTCCATCACTGCAGCTCTGCTTCTCTCCACTTAAATATTTGGGTTTCTCGTAAACATCTGTCTGA
GTAAAACTTTTTTTAAAAAGGTGTGAAAACCATGATCCCTCTAAGAACCTCCCAGCGCTGACAGTCTGTGGTCCTAATTCCCAAGCCCCTACCTAGAGTC
AAGGCTATGGGCAGGTGAGTCTCTAGCCTAAGGCACAAAAATTAAGGGGTACCCAAAAGCTCAATAAGCAAGATAAATAAGTTTAATGCAATATTTTTAA
AATTAAGGCCCCCCCCCCAAAAAAAAATCCATGGTGAACAAAACATCACAGTTTTAAAGACAGGATTCGTATTACTGATGTTTCCTTTTGCCTCGGGTTC
CCATTAGGCTTGCCTGCCCCTGTGGGAGGGACCCAGTGGGGCACCCARAGTTGCTCTGCCCAGGCGAGGCCTCACTGTGGCTGTGACGCACCCTTGATGT
CAGAACGAGGTGATGTGTGAAGGTTAAATGACAGAGGAGTGTGGAACCACAGCCATGCTGTAGGTGCTCCAGGTGCTCTGCGTGTACAAAGTTCCCACCT
CCTGAACTTCCCACCCAGCTCCCCTCCCAGAGCCAGTTAGGAAGCTGGAAGGTGGCGCTTCTCAACCTACACCTATCATTGGAATCACCTGGGTGGCTCC
TGCCTCCCCACTGCCCAGACCCCACCCTGGAGGAGTTAAATCAGCATTTGTGGGTGGGCCCCAGGCCTCAGTACTTTTTAAAGTCCCCAGGTGATTACAG
TGTGCAGTCAAGGCTGAGAACCACTTCTCTGGAGAGGCCACAGTTGTACAGGCCTTGGAGGCTTTGTAACCTCTCGGTATCTGGCRGGGTTAATGTACAG
AAAGACTAAACAGCGTCAGTCAAAGCCTGCTGGGAGATCAGAAAAGGAGCCTGGCAGCTCCCCACCCACCGCGAATCTGTGCAGCCTCCACCAAAACCAC
TAGGGCACATTTCTTTTTCCCTCCACATAGAGAGACGAAAGCTATCAGGCCTAGACAGGCCATGTGGACTCCATGGAAGGGCCTGTAAGCCTTGAGAAAA
TTCAGTCCCGCCAGCAGAGAAAGTCAGGGAAAAGCGCAGCCCCCGGGCCCGGCCACTGCCATTCCAAGATGATCTCCCACTCCAAAGAGAAAAAGGTCTA
AAAGGAGTAAAGAGAGGTCTTTCCAAACAGGTGGTCACTTTAGAAAGGAAGCTGTGGACTGGTGGAAAAAGCATCACCTGCCTGCAGGTAGCTTTCGCCC
AGTAGACATACCGTAAGTGAGTGAGGTCAGAAAGGGACAAATGAGAAAGGCAGGAGTGAGGGAATGAATGAATGTGTAAATGAATGAAGGAATGAAACAG
GGAAGGGTGGGGCTTCCAGGCTTGGCCACCTTCAGGGTGGACTGATCCTCCTTGAAGTCTGCGCTTCAGGAGTCCCTTCAGTCTGCGGCAGGGAGTCRTG
CCGGAAGGCAGCCTGGATGGGTGCGTGGGGAAGCAGCCAGGGGGCTCTGTCCACTCCTCCCTTCTGCTCAGGAAGCCACTGGAGTCTGTGGGGCTGGGGT
GAAGTCTCCAGGGAGCAATGTCTCCAGCTCAAGACAAAGGCAATGGCAGCAGTCCGGCTAGGATRCCAGGCCAGAGTGGTAGAGCCACCCCCCAAGTTGT
CAGCTGCCACACTCATGATCGGTCTCCTCCTGAGGAATGTCCTGGGGACGCTGGGCAGGGTGGGCTGGTGGCTGGAGTTCTCCTTGACCTTGTGTGACAT
CCCTACAGAACCGGGATCCATTTCTTGTCCTCGTTGTAGAGGAAGGACTGCTTTCCTGGAAGCTCTGGCTTGTACGTAGCTGTGAGGGGACAGAGAGGCG
GAGGCATTAAGAGAGAAAAGGCCCATTGCTGCAGTCTCTGGCATTCTACCTCAGAGCTGGAAAGGCCTGGGGACCCCTGTGCCAGCCCCTGTATCTTACA
CGTGGGGAGACAGAGAGGAAGGAACTGGCCCGAGGTTATTTGGCTCTTAACTGGCCCAGGGGAAGTCAAACTCTGACTTCCTGCCTTCTTTAATTCTTTT
CAACTTCTTTAACAGAACAAAATTTACAAAACTATTTTCTATGAAATTCGAAAAGAAATTGAGTAAAGCAATATTCTTAAAGAAGCAAGGTGTTAGCTTC
ATGGGGTCTTGTTTTGATCTAGTTCAGGGGTTTCCATAAAAGCAGAAGCCATGACAATTGCGGACATGGTTCTMTAGGAGATGAGCAGGGCTTGGGAACT
GTAGCCCCAGGTGACCAGAAACTCATGTTGATACTGACTTGGTTAATGAGGGTCCCGTGCACAGCCTCTCTGTTCCTATACTTGGAAAGCCGCTCAGGGG
AGCCCATGGTAGTCCAGGTATACCTGAGTTTACTGGAAGCTGAGCAGGCAGATGCCGGCACGTGCACGTGCCCAGGAAACCCCTCGCAGAAGCCCACCTT
GGCAYGGGTGATCAGAGCGGCAGGAGCTGCCTGTCTCTGTGTGCCAGGTGCCTAGCACCACATACGGCATGGAAAAGTCATTCGGGCAATGCTTCCAGAG
GATGTGGTAGAGCAGGGTCAAAGCAGGATCCCTGCCTATGCCCTACCCTCTCTGGAGCTCACCCCTTGTATGGAGCATTTGCATGTTTGCAATGCTGAGT
TCTCCTCGACTGACTAGATGAGCCCCAGATCAAACCTCTACAGCCTTGCTGGTGTGATTATCACCACATTTGCAAGGCCAAAGCTAGGAGAATGACCTTC
TCCTGGCCCAGTCTGCCTTATGTTAGTCTCACCTGTGAGTATGGAGCTGACGGCATCTCCCCACCTGACTGTGGCCTCTGGGGGCAAACCTGGGGCCCAG
GTCATCTTGGCTCCCTCGCACGGGAGCATCGTCAACACTCACAGAAAGGCTGGGTGTAACCAAGCTGGCAGTCATCACAGCTCTGCCTTCATCCTCCCAT
GCCACCTGCCACACATGTCAGTCCCCAGTGCCACCAGCTTTGGCCATGGTCAGGCTGTGGTAATAGCGAAAGCGCTCTATAGAGAGCTACAAATAGGTCA
GGAAGCACAGAGGCCGCCCACTGGACTGAGTCCCTCATGATATTAGCTCCCAGGTAGATCCCAGATGTAACAGGGGATCCCTACTTATGCTTGCCTGTAA
AAAGAGTGTGGCGCTAGAAGGTTCAAAAGAGCTGCTCCGTTGGACAGTCCCTGGTTAATTTCATGAACAAACAAGGCATAAATGGGGAAACACCTGGCAC
TGCCCGCCACGAACTCGCTGCGGACCTGTGGCCCACCTGCTCTCCAGGGCTTCCTCAGCTGTAAAATAACCTGGCCACACTAGACCAGTAGTTTAAATAT
TTTTAAGAAAAAGAACTTTTCTGGCTGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTCTGGGAGGCCAAGACGGGCAGACCAGTTGAGGTCAGGAGT
TCGAGACCAGCCTAGCCAACATAGCGAACCCCTGTCTGTCTCTGCTAAAAATACAAAAAGTAGCTGGGTGTGGTGGCATGTACCTGTAATTCCAGCTACT
TGGGAGGCTGAGGCATGAGAATTGCCTGAACCTGGGAGGCGGAAGTTGTGAGCCAAGACCGCACTACTGCACTCCAGCCTGGGCGATACAGCGAGACTCC
GTCTCAAAAAAATAAAAGTAAAAAAAATTAATAATAATAAAGAAAAAGAACTTTTCTGACACTCTGACAAAAGCTATGGCCTCCTTTCCCAGAAAATAAT
GTCTATATGTGCCAATTCTTCAGCCAAGTGCAGAGTCACAGACCCCTTCAAGACTATCTTTGAATCTTTTAGATGTTCATGGTCCTCAGTATGAATCCCT
GGCCTGGACCATCTCTAAGAGCCCTTTCACCTTAAAAAACAAAACATTTTTGTACTGTGAAAATGTGAACTGATAATGCTTCCAAATCTACCCTCATCCC
TGTAACCTATTTGGGAAACAACCTATAAATCAATGGCATTTGATGACCCAAGAATGACAAACAGTTCCAGAAGATTTGGTTTTTACAATYATTTAAAACA
ATCCTCTGACCTGGGCCAGGCAGGCCTGRCTGAGGCGGCGCCGCTGTCCACCGGCTGGTATTGGACACGAATGATGCACTAGAGATGAAATGCTTGCGGG
GGCCTAAGTAGTCCACGATCTCATACTGACCAGGACCTGGGAAAGGTGGCTTCGGAGGCAGAGGCGAAGGCTGAGCAGAGAAGTTCAGGATGGGGTTTTT
CCTTTGGGAAAGATAAAAYGGGAAGATGTCACTAAGGCAGTCTAGTGGGGAAGGCACAGTTTCTAGACACAGCCAAGACCTGCACAGCAGCAAGCTGTCT
GGAAGAGGACTGGTCACGGCACYGGGGCAGAGCCCTAGCTCCACTGGTAGTGAGCTGGGGACCCCTGGATCTGTTTCTTCATCTGCACATGGCAATCATG
ATGGGACCTACTTTGAGGTCAGGGTTGTCAGGATAAATGAGATGACGYACCTAAAACACAGTACTCAGGATAGGCCTGGCACACAGTGAGAGCTCAGTGT
GCATTGCTGGAGATGTGGAGCTAACCAGAAATGGCAGGCCGTGTATATCTCATGTGCCAACTCTGATTGATTGGTAGTGCCTGGCTGGAGTTCTGTGAAA
AAAACTGAGGCCTCATATGGACTCAATGGGAAGAGGCCTTAGTGACCCACTTGTGATGCCTGCCATGGTCAGGGAAGAGAAAGAAGCATCCCACATTCCA
CAGATTTGCCATCCCAAGACCAGCAGGTCTTTAGAGGCCACTGTAACATTGACATTCCAGAATCCTACTAAATATCRTCCTGGGGAGGCAGGAGGCAGGA
GTGGAAAAGCACCGGGCTGGAAATCAAGAGACTCTGCATAACCCTTTACCACTCACACCGCCATTGTTTTCAAGTCTGTCTTCCCCTCCTTCCAGAAAGG
GAGTCTATCTTTTATCTCTGATATTGAGACATGAAATGAAAGACCGGACCTGTACTTGAGTCCTAGCTTGGTCACTAACTCATTCTGGGCCTCAGTTTCC
CCATCTGTAAAAGGAAGGGGTTGGACAAGATGACCTCTGAGGTCCCTTCCTGCTGTGACCTTTCATCAGGCCTTGATTCAAAGTTCCACTGGGTTGTCAG
AGACTTCTGCGCTTGTTACAGGAATCATGCTACTCTCCCAACCATGTAATAGAAGGGCCGCCTCCTTCTGGCTCACACCCAAGGCTTCTTCTAAAAGGCT
TCTCACCAAAAGGGGAGAGGAGGTTCTCCGCACTGAATGGCCAAGGGAGCCTTCCCCAGCTTCCCCCAGCACTCAATGACCAAGGGAGCCAGCCCATCCA
AGCAAAGGAGGGGACTTGGGATTCCTGGCCACTGGGGCACTACTGCACTTTAGCCAACAACTTCTTAAACACAGAGAGCTTGAGGGGACCCAAGTGATGT
CTTCTTCAACCTCCTTAGTTTTCTAAAAATGTTGGTGTCCGGAGAGACAAAGTAACCGATCCAGTTATAGGCACCTTTGTAGGAATGCTGGCATAGAACT
CAAGTGTTTGGCACCTAGCAATATGGAGAAAGCATGATGGCGGAGGGGACTGAGTTTAAGGGTCACACACAAACCTGAGGCTGAATTCTAGTCATGCCAC
TTACTGGCTGTAAGACAAGGCCCCTGATTTCTCTATAGCTTAGCGTCAGTATACACAGCATTGCAAGGAACAATGACACTAACTTTATAAAGGAGTTACA
ATGAACAGAGAAAAGGTATGTAAAGCACCTAGTAGAGCACCAGCACATAGTAGGTGCTCAATAAAGGTAGTTGTTATTCTTCTGATGATCCCTGTGTCAG
CATCAATGTGTGCTGCTTGGTGACAGACAGGCAACTGAGCCTCGTAAAAGACTGACAGGGCCCTTCCACCCCAGAGTCATGCTGAGGCAGGGGACACCCC
CCTGGTCAGAGAGGACACTGAAAGCCATCATAAATGTGCTTGGGCTCACATCTTGTGGTGGAGGAGCAGCTGGCGTGGATGCTTATATTTAGAACAAAGG
TACCCACAGGGAAAGGGGGGACATGCTGCCTCCCTGTTTGCTATGAATCTGCATGGAAGAACTGGTTACAGGGTGTAATCAACAACCTCTCCCCTTATAA
ATAAAAGCTGGCTTCTCCTTGTTCTGGCTTGTGGCTCCCCCTTCAAAACACCTCCAGACATTTGATGAGTTTGTGGCTGGCATCATGGAGAGACAGGTTT
GATTCCTGGAAATTACAGCTGGAACAAATCAACCATTATATGAGGTCACCCCATCACTGGTCTGGGTCACTCCAAGCCCAAGATTCCCACCCTGTTCTTT
GAGAAAACCATGAGGTGTCTGCTTTCTTAGCCAAGGACAGCCTGCAGAAGGCTGGAGCACGCTGAGTTAATGACTCACCAGTGTTCTTGGCAAGATGGGT
TAGAGAGGTTTCTTGTCTTCCACTCCTTCAGTATGCCCAGGAGAGGCTCAGAACCTTCAGCCTAGCACTATGGATCTTTCATGAGCACCAGCCATGTGTG
GGATTCTGGGCCAGGCATGCTTGGGAATCCAGGCAGTTCTGTACTAAGACACGGACTTGAGTGTCCTTAAGGGCTTGACAATCCGCTGCCAGCAACAGCC
ATGACTGGTGACAACTTCAGGCAGTACAGGCTTTGCACTCAGACAGAGCTGGGTTTGAATCCCCACTTCCCCGTTCAACAGCTATGTGTTCTTAGAAAAG
GCTCTTAACCTCCTTAAGCCTCAATTTCCTCATCTGTAAAACAGTGGAARTAATACCTACTACCCAGATTGTTAGGAAGATTGTGCTTTACTTGTAACAT
TTGTTTAAAAACATGAAATCTGTTCGAATAGAGGTTAAAATAAAAAACTGCATTGAAAGCAGAGAGAAAGAGACAGAGACAGAGGGACATTAATTCCAAC
AAGATGAATCCAGAAATCCATCCAGAAATCCAGAAAATCTTCAGGTGGGGAAGAGCATTTCCAGCAGAGGGAACAGCAGGAGCAAAAGCATGGAATGGGG
AAAGCTGTAGCTGTTATGGCAGGAATTGGGACACAAGGAGACAGACGCTGAGCACCTAGACTGCCTTCAACCCTCCATTCACCRGTGATTTCCTGGGTTG
TTCACTTGCTTCTGATACTCCCCACTTACAAACCCTGATGAAAACTTAAAGGCAAGATCTATTTATGGCCTCTCAATCCAGCCTAATCTCCCATGTCCTG
CTGCTTCCGTTTTACCTTCCAGAAACACCCAACACAACACAGTTCAGCAACTCCATGCCTTTGTCCCTGCTGTTCCTTCTGTGAGAAACACCAACTTTCC
CTGCAAACTCGAATTCAATTCTTGACGTTCTCACTTTCTTCCAGGGAAACTTCTCTCCTCCACCCACGCCTGTCTCGCCACCCCCCACCTGACTGTCTTG
AATGTTCCCATCCTGTGACTCAAGTGAGGAACAWGGGTTTTGGAGATGGATTTTGGAGGCAGAGGGACCTGGATTCAAATCCCAGCCCCACCACCGTCAA
CAGCCTGCACTTCACTGTAAACTCGGAATGACACACCCACCTGGAGGAGAGGTGGAAGGACGACGGCAGGTCACATCTGAGAGCTCTCAGCTCAGAGTAT
GTGGCCCCTGAATACATTCTGGCTATTACTTTGCATTTAAAATGTTGCATTTTCTATGGCTTTTACTTGCCTAGCTCTTTAAGGGAAGGTATTGTGTCTT
CCTCAGCTTTGAGGCCCCTAGCCCTATCCCGGGAACATTTGCTGAAGTGCAGAGAAAAGCAGAGGGCTGGCAGCATGTAAAGGAGCCCAGGCATCTGAGG
CCCACATGACAGTTTCATCCTCATCCAGGGCTGGTCCCTCCATGTCGAGGTGGGGCTGACAAATCACAAAGGTCAGGCTGGATCAAACCCAGGGCAGCCC
ACAGTGCATTGTGACCAGGGCTTTTATGAGCCTCATTGCTCAGTTATAAAAGCCAACCTGGCCCTGCCCCGTGGAAAGAAAACATCTATCAAAGGCTCTG
AGTTGGCCACAACTGGATTAAGTGTGTTTGCAGCTTCCAATGTGAGCTGTTTGCAAATCACCTAAGAATAATGAATGTCTTAGAGGACTCAGCAGGCCAC
TTGGGGAAAGCATCTGAGACCCTCCAGACACTCCCAGGCACACATTCACTCGCCTCAGGGATTCCCAGGGTTGGGAGGGATAAAGGGGCAATTTTTCTCA
TCATTAAAGGGCAGCCGATTGCCTCTGGGGTGGAATGCAGTATCTGTTTAACAGGGTAGCGGGTGACAGATTACAGCTGCTTGGGAAGAAGCATCCCATA
TCTAATTGAAAATCCCAGGGGAAGTTAGGGTGGGTCCAATCTAATTACCAAAATTGGAGTGGGGCCAACGGGGCTTGATTTTTCAGCTCTAGCTGTGACA
AGACAGCGTGTCTGTGCAAATCCAGTGGCTTAAAACTCCAGGAAGCAGATCAAGGGTTAGAAAAATGGCCCTGAGTGTTGCACCTCCTTGCTGGGGAGCA
TGAGTTGGAAGGCATTGCCTAGGAGGAACTATTTTGATCTCCAAAACTCTCACCCTGACTCACCCTAAGTGATTGAGTCATCACTGTGACGGATATTGAA
GACCTCAGAAGCGAAACCTTGGCTGATACTTCACTTTGCTTCTGAAGACACCCTGGAAGCTGAGAAGTCCTCTTAGCTTTGAGTCAGCAAGGTGGCCATG
GCCAAGGAACACCCGATGGCATGACCTTTAGCTAAGGAGCTCAGAAATGCCAGTGCTAACAAACAGCCAGCCCCAAGCACAGCATCCGCCCTGCGGGGCC
ACACTAGAAACCCTAGGAAGACACAGAGGACCCGCTCACCTGCTTTGATAAAAATACAAGTTACCATGTGAATTTTGTGGGTTATCTCCTTTTATCCTTA
CAACCACATTATGAGGTGTTCTTATCCTGGTTCACCAAGGATGACTTTGAACCCACTGGGAGTTAAGTGACCTCCCTTCCCCCAGGCCCACAGGGCTGGT
GAGCAGGGAAAGTGGAGGTTCCATGGTACTGACTTTGGGGCCTACGCTAATCAATCCACTGCCCACGCTGCCTCCATGGCCTCTTCAGGGGACGTGATCA
GCCGTTCCCTGCCCTAATGGTGGCCTCCTGAGCTTTGGTCATATCCAGCCATCCTCTCACGGCTGGGCTTTACATTTTTTGGCCAGTAACATGAGACTAA
AAACTCCAGGGAGAATTCATATCTGCACTGATGCTTCCTGCACCCTGAAGAAAGCAGATCCAGAAAAGCATTTCTGTAGCTGTAACTCTGCCCAAGAATG
GGAAGCCCATCAACTCCAACCCAAGACAGATGAGGGCAGGTCTCCCCCTGCATGGCACGCGTGTGTTCCCGAGAAAGAAACATGGCGGCAAGTCACCGCC
GCTCCACGTAGCCGTGGAGAGCTAAAGAGGATTAGTTCTGATGTGGACAAAGTCCTAAGGGAAGGTGCATGCAGATGGGGTCACCTCAGGGGTCTACTGA
CCTCAGGAACCCGTGTAGCTCCTGTCCCTCTCTTCCCTCCAGGGACACAGGAGAAAACAGAACTGGAATTTGAGAAACTGGATTTTGGATATTTCCTCAA
CACTCTGATATTCAGCTGTCTTTTCTTTTCATTACATCATTTTCTTCATCATTCATCGGGAACAGATAAATGTTTTTTTTAGAATAGTCCAAAGCCTACC
AGTCTTATCTTCTTGCTTTCCAAATAAAATGATAAATTTCTTAGCTTCATCTTTCCCACGTTAATTTTAAAATACATAATCTGGACCTCCTCTGTGGGTC
CAGGCTGGCTCCACGTTCGTTGTCCCCTGTGTGCTCTCCTGAGTCCATGGTGAGCAAACCTGGGATTCTGATGTGTCAGAAATGCAGACACCCTTCTTTC
GCTTATAGAGAAATGAAGACCCAGAGAGGTGCCCAGAGCAGCCCCAGACCACAGAGCCAGCTATACAAATGTCGTGCTATAGAGCCTGGGGCACCATCCC
CTCATCAGGGTGAACCCAAGTTTAGGAGACAGCGGGTTAATAGGTTCCTTTACTGCAGGCCTTCTCAGAGCCTTTAAGATGCCTGTGCAGACTGCGATGT
TCTCAGGGGCAGAGGGTTACGATGCAGTGCTTCTCAGACTTATTAACCAAAGACCTTTTATTTGTGAAGCATTGACAGAGAGCCAGCGAGCCCTAGAAGC
CCCAGACACGCAGTCCCGCTGCACTGCCCAGTGGGAAGACGGCCCCATGGGTTGTACATGGCCATACACCCCTGGGGCCACCTAACCCGGCATTTTGCTG
CAGGCTCCTCCACCTGGCTTCGAGGCTGTTCCCAGATGAGGTTGGCTGGAGGCGTGGTGTCCTGTTCACCTGAGCCTCCAGTACAGAACTAGAAATCTAT
AGAGTCTGCTGACTGACAAATGCAAACGCCATAAAATAAGAACGATCTCAAACCACCTGTTCAAACTTGAGCAAAAGCCAGAAGATATTTCTCCAGATAA
AGCAGTTAAAAATTGAGCATCCTCCACTCTTATGTTATTTCACCATTTTCCTTGAAGAAGCTTCCAAATTTGGGCTGGGGGCTTKAGCTGCCATGCCAAA
KAACAGCTGTATTGTATAATATAGCCTAGTAGGTCTATAGGATATACAATAACCACAGCTATCATTATAAGGGTAATAGCTATTTTCTTTCTTTTTGAGA
CCAAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCACCTCCCCGGTTCAAGCAATTCTCCTGCCTCAGCCT
CCTGAGTAGCTGGGATTACAGGCGCCCTCCACCACGCCCAGCTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGACTGGTCTCAAACTCC
TAGCCTCAAGTGATCCATCTGCCTTGGGCTCCCAAAATGCTGGGATTACAGGCGTGAGTCACCATGCCCAACCGGTAATAGCTATTTTCCAACATCTTCT
CATCGAATCTTCATGGAATCCCTACGAGATAAGATCCTTATCTCTACTTAATAACATAAAACTGAGGCTCAGAGAGGAGAAGTCTCTGGAAGGTACAGAG
CTGGGATTCATACTCTGGTCGGCCAACTCCAACACCTGTCCTCTTGACCACTCTTTCTCTGGCAGAGTAAGGGAATAGTTACTTGTAGAGATGCCGCATG
CCAGCCTGGAGGCGGGAGGTCTCTGGAGAGAGACTTTCCAGAGACAGAGCTGTTCCTGGAGACTGGCCTGCCCCAGCCCCTAGCCCTACAGCCTGTACAA
GGCCAGCCTGCAGAGCCCTAGACCTGGAGGGCAGAAGGGACTCCTCTGGTGGATTCCAGCTGAGGTCTCAATCCCCTCTCCAGATCTTAAGTTCGACTTG
GCAGATTCACAACTTGCACCTCTCTCTAACTGTGGTCCCCTTGCCCTAGGCTGATGATCAGACTATGCCCAATGTTGGCAGCCTCCCTGGGTTGCCTGGA
CTTCTGACCCACTGTGGCTATGGCTCCTAACACCTGCCTGATCTCTCTGGAGGGGCCCAAGAGGATATATTGTTGGTCCCACCTGGCCAGCCCTCCCAGT
GGCCAGCTCTGTCTGGAGGGGCTACGCATGGGTGAGAGCTGAGATGGTAACAGGAGGACTAACCCTAACTGCAGTTAGTTCCAGAAGTTCTAGAACCATT
CGAGAAATAAATAAGCTCTGTGAGTATTTGAGCCTCTTAGGTGAGAGTAATATAAAATGTGTAGGATATTAAACAGGGTAACAAAAATCCCTGTATTTAC
TTTTAAAAATCTGTGTTAATWTTGAGTCACCAGCTGCAATGCCAATGCCAAACATATATTTTATTTACTTTTTTTGTTTTTTGAGACAGGGTCTCACTCT
GTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACCACAATCTGGGCCTCACAGGTCCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGG
ATTACAGGCGTGCACCATCATGCCTGGATAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGACTGGTCTCGAACACCTGATCTCAA
GTGATTCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGCAAGCTGCTGCGCCCAGCCAAACATGTATTTTTAATTCTGAAAGCAAAATCCTAC
GAGGCAGGAATTATTCCCACCTTACAGATGAGGGCATGGAGGCTCAGAGAGGTTAGAACTCTGCCCAAGGTCACAGAGCATAAAAACAGCAGAGCTGAAG
TACAAATCCAGCAGGTATCACCAACTCGAAAGTCAGGGCTTAAACTTCCATCGGTATAAAGCTATGAGAGCTTGACTGCTTCTGAATGTCCTGCCACTCC
AGCGAAGATTTTATGTTACAAAAATAGAACAATGTCAGCACCAGGGGAATCCAGCATCACAGGGAATGAGGAAAGACTTAGTCCTGAGCCAATTCCCTGT
GGCTCCTCAAGTTGGCTGTGTGGACTTGGGCAAATGTCCCGCCAAATCCGAAGCCTTGCTTCCTCCTCTATGGGGTAAGAGTAACAATTCTTACAACAGG
ATTATAATAATAATTGAATACAATTTTAAGTTCCTGGCACACAGTGGTTGCTCAATAAGTATCAGGCATTCAACAGGCATTTACTGAGCATCATTATGTG
TGACTAAGGGCCCCTGAAGAGAGTGGCCCGGCACTGTGCTCTGCCAAGCAGTGACACCCCATCCTTTTCTCTATGTTGGGCTTCTTCCCCACAACCACCT
TTCAAAAGAAAGACCAGAATGATTGGGACTCACGGGAAAAGAGTCTTTTTTGGAACTTTTGTGCAATCACTGGGGTTGTAATAACCAGGTCCCGGGCCTG
TTGACGTCAGTTTTAATCCACGGTTGGTTTTTGATTTAAAACAAGACATTAATGTATTTGGCGACTGCTTCACAAGGGATTCGTTGATATCATAATGCCC
TAAGGAGAAAGAAATTTTAGGACAGAATAAGGAACTCTTCTCAAGTAAATAAAAAGCAGTACCTTACCCCTAAGAACACACCTGATGGCTGCAAGGCACC
ATCACTCTAGGATGGCCAAGTGGAAGGGCTGACTGAGATAGCCAAAAACAATCCTCACCATGCAGAGAACAGATGGCACGGGAAGCACACACTTAGCTGA
TTTAGTTCTCGCACTAGCCTGGCAAGATGAGTATTACTGCTTTCATTCTACACATGGGAAACTGAGACTCAGAGATTGTTAAATAATTTGCCAAAGGACA
TTCATCTAACCAGGGACTTAGACAAATCTCTCCACCTTGCTGGAGCCCAGTTTTCCTTCTCTATAAACTAAGAATAATAATTCTTCTGACAACAGAGTTG
TTATGACAGTTGAATAATATTTTAAGTTCCTAGCACATAGTGGATGCTTTGTAAATATCATGCAATCAACAACTATCTTTTTTTTTTTTTTTTTGAGATA
GGGTCTTGCTCTCTTGTCCAGGCTGGAATGCAGTGGCACAATCACAATCACAGCTCACTGTAACCTTGACCTGCTGGGCTCAGTGATCCTCCCATCTCAG
TCTCCCGAGTAGCTGAGACTACAGGTATGTACCACCACA


SNP Information

Context             (SEQ ID NO:22168):
AGCAGTTAAAAATTGAGCATCCTCCACTCTTATGTTATTTCACCATTTTCCTTGAAGAAGCTTCCAAATTTGGGCTGGGGGCTTGAGCTGCCATGCCAAA
K
AACAGCTGTATTGTATAATATAGCCTAGTAGGTCTATAGGATATACAATAACCACAGCTATCATTATAAGGGTAATAGCTATTTTCTTTCTTTTTGAGAC
Celera SNP ID:            hCV28014263
SNP Position Genomic:     54101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22169):
CTTTCTTCCAGGGAAACTTCTCTCCTCCACCCACGCCTGTCTCGCCACCCCCCACCTGACTGTCTTGAATGTTCCCATCCTGTGACTCAAGTGAGGAACA
W
GGGTTTTGGAGATGGATTTTGGAGGCAGAGGGACCTGGATTCAAATCCCAGCCCCACCACCGTCAACAGCCTGCACTTCACTGTAAACTCGGAATGACAC
Celera SNP ID:            hCV3124914
SNP Position Genomic:     50934
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,4)      total(A,2|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:22170):
CTCAAGAAGAATAACCTGATGAGCTTGGAGGGGGCCTTGCCCACCCCTGGCAAGGCAGCTCCCCTCCCTGCAGGCCCCAGCAAGCTGGAGGCCGGCTCTG
Y
GGACAGCTACCTGTTACCCACCACTGATATGTATGATAATGGCTCCCTCAACTCCTTGTTTGAGAGCATTCATGGGGTGCCGCCCACACAGCGCTGGCAG
Celera SNP ID:            hCV25956356
SNP Position Genomic:     23304
SNP Source:               Applera
Population(Allele,Count): african american(T,28)   caucasian(C,2|T,34)   total(C,2|T,62)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:22171):
AAAAGCATGGAATGGGGAAAGCTGTAGCTGTTATGGCAGGAATTGGGACACAAGGAGACAGACGCTGAGCACCTAGACTGCCTTCAACCCTCCATTCACC
R
GTGATTTCCTGGGTTGTTCACTTGCTTCTGATACTCCCCACTTACAAACCCTGATGAAAACTTAAAGGCAAGATCTATTTATGGCCTCTCAATCCAGCCT
Celera SNP ID:            hCV3124915
SNP Position Genomic:     50584
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22172):
TGGGTTTGAATCCCCACTTCCCCGTTCAACAGCTATGTGTTCTTAGAAAAGGCTCTTAACCTCCTTAAGCCTCAATTTCCTCATCTGTAAAACAGTGGAA
R
TAATACCTACTACCCAGATTGTTAGGAAGATTGTGCTTTACTTGTAACATTTGTTTAAAAACATGAAATCTGTTCGAATAGAGGTTAAAATAAAAAACTG
Celera SNP ID:            hCV3124916
SNP Position Genomic:     50250
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22173):
TCGGGCTGGGTGATTCCTTTCCACTCAACATCTCAGGTCACTTAAGGGCACTTGTCTGAGCAGAATGGGCTAGAAAGGCATTGTAACAGTATTCTCCCCA
Y
CTCCCACCAAAAATATTCCTCCCAGAGAGCCTCCAGCAGCCAGGGGCTCCTCTCATTTTCCTGCGTGTGATGGAAAATGTCTTTTTCACTTCATTGCAGG
Celera SNP ID:            hCV27922795
SNP Position Genomic:     31407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22174):
TTCTTAAAGAAGCAAGGTGTTAGCTTCATGGGGTCTTGTTTTGATCTAGTTCAGGGGTTTCCATAAAAGCAGAAGCCATGACAATTGCGGACATGGTTCT
M
TAGGAGATGAGCAGGGCTTGGGAACTGTAGCCCCAGGTGACCAGAAACTCATGTTGATACTGACTTGGTTAATGAGGGTCCCGTGCACAGCCTCTCTGTT
Celera SNP ID:            hCV3124917
SNP Position Genomic:     45674
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,6)      total(A,3|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22175):
TGCTTGAGTGTCCATCCTCGGGTGTACCAGGAGAGAGGCAATCCGGCGCAGTAGCTGTGAGTGTGGGGGCCAGCAGGCCTGGGTTGGGTTGTGGCTCGGC
Y
ACTGGGCATTGTGCAGTAAAGGAGACTGTGACTCCCTCACCTCGTGGGGTTGTTGTGAGGATCAGAGGGAAGGTTTGTGAGGTGCCTAAAATGTGGCAGG
Celera SNP ID:            hCV25972826
SNP Position Genomic:     40837
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,24|T,14)   total(C,53|T,21)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22176):
GGGGTGGGGCCCAACAATCTGTGTGTTTTTAAATTAATTTTAAAATAATGGACATATAATAATTGTACATATTTATAGAGTACAGTGTGAGATTTCAGTG
Y
ACCTTTACATTGTATAATGACCAAATCAGGATAATTGCCATATTTATCACTTTAAATATTTATCATTTCTTTGGGATGATAACATTAAAAATCTACTCTT
Celera SNP ID:            hCV29188550
SNP Position Genomic:     16749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22177):
ATATTTCTCCAGATAAAGCAGTTAAAAATTGAGCATCCTCCACTCTTATGTTATTTCACCATTTTCCTTGAAGAAGCTTCCAAATTTGGGCTGGGGGCTT
K
AGCTGCCATGCCAAATAACAGCTGTATTGTATAATATAGCCTAGTAGGTCTATAGGATATACAATAACCACAGCTATCATTATAAGGGTAATAGCTATTT
Celera SNP ID:            hCV27922796
SNP Position Genomic:     54085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22178):
TGCTGAGCAGTTTCGAGCCAGGCAGGGAAACACAAGACTGAAACTGTGAAGGTTTCTGGCACCACTTTTTGATCCTCTGAAGGGGCCTTGGAAATCAGAC
R
ACCCCAATCCCATCGAGGCTTTCTATCTTCTTGCCAAAAGGAACTTCTTTAAGGTAGTTCTAAGAGCTGTCTTAGGCAGAGAGTTGGGTTTCTCTAAAGG
Celera SNP ID:            hCV15931851
SNP Position Genomic:     6497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22179):
CAGGGAAGGGTGGGGCTTCCAGGCTTGGCCACCTTCAGGGTGGACTGATCCTCCTTGAAGTCTGCGCTTCAGGAGTCCCTTCAGTCTGCGGCAGGGAGTC
R
TGCCGGAAGGCAGCCTGGATGGGTGCGTGGGGAAGCAGCCAGGGGGCTCTGTCCACTCCTCCCTTCTGCTCAGGAAGCCACTGGAGTCTGTGGGGCTGGG
Celera SNP ID:            hCV3124918
SNP Position Genomic:     44898
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:22180):
GTTGACAGCTGCCACAAAGGCCATGATGAGAGTCAATGGAGATGATGACAGTGTTGCGGCCTTGAGCTTCCTCTATGATTACTACATGGTACGTCTACCC
S
CTCTGGACATGCCCCGTTTTGACTGAATGGGTGTCTTCACTTCAGGCCTCATGGCTCAGCAGCCCACCATGACCACCCCAGCCCCTCATCTCTGGGCCTT
Celera SNP ID:            hCV29188551
SNP Position Genomic:     18234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:22181):
CCCAGGTGATTACAGTGTGCAGTCAAGGCTGAGAACCACTTCTCTGGAGAGGCCACAGTTGTACAGGCCTTGGAGGCTTTGTAACCTCTCGGTATCTGGC
R
GGGTTAATGTACAGAAAGACTAAACAGCGTCAGTCAAAGCCTGCTGGGAGATCAGAAAAGGAGCCTGGCAGCTCCCCACCCACCGCGAATCTGTGCAGCC
Celera SNP ID:            hCV3124919
SNP Position Genomic:     44286
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:22182):
GTATGCCCCTGCCAAGAGTGAGGCCCAGTTTTGTCTTTTTTTTTTTTGAGACAGAGTCTCGCTCTCTCACCCAGGCTAGAGTGCAGTGGCGCGATCTCGG
Y
TCACTGCAACCTCCGCCTTCCAGGTTTACTTAGGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGCGCCTGCCACCATGCCCAGCTAAT
Celera SNP ID:            hCV29188552
SNP Position Genomic:     25957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22183):
AGGGGGCCTTGCCCACCCCTGGCAAGGCAGCTCCCCTCCCTGCAGGCCCCAGCAAGCTGGAGGCCGGCTCTGTGGACAGCTACCTGTTACCCACCACTGA
Y
ATGTATGATAATGGCTCCCTCAACTCCTTGTTTGAGAGCATTCATGGGGTGCCGCCCACACAGCGCTGGCAGCCAGACAGCACCTTCAAAGATGACCCAC
Celera SNP ID:            hCV25956289
SNP Position Genomic:     23332
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(T,36)   total(C,2|T,66)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:22184):
GGTGTGTGTACAAGGATGTTCCCCAGCCCCACTGGCTGAGTTGCCAGAGGCTTCCCCTTAAGCCCCAGCCAGCTATTGAAATCATAATTCTAAAACCTTC
Y
ATTTATGGGGCACTTCCTACATGCCAGGCACTGGGCTGCATCACTCCCAAGCATCATCTCGTTGACCCTTTGAGCTGGGTATCATTATCTCTGTTTGTAC
Celera SNP ID:            hCV29188553
SNP Position Genomic:     38444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22185):
ACAGTTTTAAAGACAGGATTCGTATTACTGATGTTTCCTTTTGCCTCGGGTTCCCATTAGGCTTGCCTGCCCCTGTGGGAGGGACCCAGTGGGGCACCCA
R
AGTTGCTCTGCCCAGGCGAGGCCTCACTGTGGCTGTGACGCACCCTTGATGTCAGAACGAGGTGATGTGTGAAGGTTAAATGACAGAGGAGTGTGGAACC
Celera SNP ID:            hCV7556662
SNP Position Genomic:     43848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:22186):
GGGCAGGCCACTTACCCAGCGGCCCCCTCTGTCTCCAGGTGTTCATCGGCGTAAACTGTCTGAGCACAGACTTTTCCTCACAAAAGGGGGTGAAGGGTGT
S
CCCCTGAACCTGCAGATTGACACCTATGACTGTGGCTTGGGCACTGAGCGCCTGGTACACCGTGCTGTCTGCCAGATCAAGATCTTCTGTGACAAGGTGG
Celera SNP ID:            hCV25971305
SNP Position Genomic:     28787
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,3)   caucasian(C,31|G,5)   total(C,66|G,8)
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:22187):
GCAGGAGCAGGCATGGGAACCAGGGCATTGGGACTCCCAGCCCCTGACCAGAAACTCTTCCAGTCATCATCTTGCCGCCTTCCTCCTGCCTTGTGTGGGT
R
GGAAATTCCTTTCTGCCTTGCAACAGAGAATTAGTTCAATGTATTTTGAGAAGGGAAATTTCCAGAATAGGAAAGGCATCTAGAAAAGAGACTAGCACAG
Celera SNP ID:            hCV7556663
SNP Position Genomic:     14695
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22188):
CATTCTGCTGCCCCACACTGCCTAATGGTGGCAGAAGAGGCAGTTTCATGTTTTCAAAGCTAATAACTCTGAATTCCTGGGCGTTGGCCTGCGGCTGCCC
R
TTCACGGACCTTCCTCTGGGATAGCCTAAATTTGACTCTCCTTACTTGCATTCAGTTTCAGGTCTGTGCGGCTGCTAAAGAACGACCCAGTCAACTTGCA
Celera SNP ID:            hCV1921550
SNP Position Genomic:     17979
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22189):
TTCAGACACCCCCACATAAGCACAGCTTAAGAGGGTGCATGGGAATCTGCAGAGCCGGCCAAAGGGCCTCCCAGCTGGGCAAAGACCCGCAGCAGAAGTC
R
ATCTTCAAGTAACGTTTTCAGATTCCCCAGCCCCTGAGATGATCCTGTTCACATTATCTTCCTTGCACTCAAGCTGGCCCTTGCTTTTCAGTTCTGCTGT
Celera SNP ID:            hCV2509610
SNP Position Genomic:     34037
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(A,17|G,7)   total(A,18|G,32)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,9|A,12)   total(G,9|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22190):
AGTATACACTACATTGTTCTTTGCTGTAGTCACCCTGCTGTGAAAGCGATCTATGTTTTAACAAGCCTTCCAAGTCATTCTCATGCAGCTAAAGTTTGAG
R
ACATTATTCTGTACCATTGCATCACCCTGAAGGAGCTTGAATCCCCTCTGGGCCACTCACTTACTGGGACCTTGGACAACTCTCAACTTATCTGAGCTTC
Celera SNP ID:            hCV1921551
SNP Position Genomic:     16963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22191):
ATGTCACCATGGTTACCACCTACCCAGAAGACTGTTCCCTCCTCCCAAGACCCTTGTCTGCAGTGGTGCTCCTGCAGGCTGCCCGTTAAGATGGTGGCGG
S
ACACGCTCCCTCCCGCAGCACCACGCCAGCTGGTGCGGCCCCCACTCTCTGTCTTCCTTCAACTTCAGACAAAGGATTTCTCAACCTTTGGTCAGTTAAC
Celera SNP ID:            hCV2509611
SNP Position Genomic:     41505
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:22192):
CTTGGGCTGCCCTTGGCAGTCTAGCGGAAACTGTACCAACAGCGGTGAAAAGCCTGGGCTGTGAGTCTGGGTTCAAACCCCTGCTGCACCACACACTGCC
Y
GTGTCACCTCGGGAAAGTTGCCCCACCTCTCTGAGCATTGGCTTCCCCATCTGTGAAAGAGGAGTGCTGATGTTTGCCTTCTAGGGGCCTAGTGAGGCTT
Celera SNP ID:            hCV25973050
SNP Position Genomic:     28516
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,33|T,1)   total(C,63|T,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:22193):
GGACATTTTCTCGTTCTCTGCAAGACTCAGGTTCCTTTATCTTAACAGACGAAGCAAATGATCCTTACCTTGTAGTGTCCTTGTAAGAAGCACGGCCTAA
Y
GAACAGAGAACATTCATATGCATTATCGTAAATGGCAGCTGGCATTGTTCTTAGGTCCCTAACATGGGAGATTCTGCCTGGCCCATGTAGAAAGGGAGGC
Celera SNP ID:            hCV1921552
SNP Position Genomic:     16277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22194):
TTGTGCTGATGCGTTATCCTCATGATATTATTTGGTGGGTGCTTTTATTAGACTCGTTTACAAATGAGGAACAGTGCTAAGCACTGGTGGTCCCTGTTGA
Y
CCAGGGGGTGGGATCAGTCAGGCATTTCCCTGCTTTTCCCATGCCTCGTTGGTTGGGAGTTTCCATTAGCTCCGGGCTGGGCAGACAGTGAGGGTGGCCA
Celera SNP ID:            hCV1921553
SNP Position Genomic:     15503
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22195):
AAAACAGGGCGCCTGCTGTGTTCCAACCACATCCCCTCTTCCATTCCAGAATCTTAGTCAACATGGACAACAACATCATTCAGCATTACAGCAACCACGT
Y
GCCTTCCTGCTGGACATGGGGGAGCTGGACGGCAAAATTCAGATCATCCTTAAGGAGCTGTAAGGCCTCTCGAGCATCCAAACCCTCACGACCTGCAAGG
Celera SNP ID:            hCV25971092
SNP Position Genomic:     41087
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,8)   caucasian(C,25|T,11)   total(C,53|T,19)
SNP Type:                 INTRON;UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22196):
GTCGAGTGCTTGATAAATACACGCTCTTCTTTAAACCCTCCCAACAAACTAATGCGGGATGGGAGTGTAAATGCAGTTTTGCCGAAGAGGGGACCCAGAC
Y
TGGTTCAGGCTTGCCCAAGGTCTCACGGAAGCACTGGGATCTTAACCGGGTCTTAGCCGAGCAGCCATAGGCCACCCCGCTTCCTCTGTGCTTAGCCTCT
Celera SNP ID:            hCV1921554
SNP Position Genomic:     9535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22197):
AGGAGCCTTCAACTTTTCTATCCCTTCTGTGCTGACCAGAGGTATGTGGCTTGCCCACACCCCCTTCACACCCAATAAAAGCCTGTTCTCCTTTACTCCC
Y
CACCCCCTGCCACCAACACACACCCCCCAGATTGTAAACTCCTTTAGAACAGTAACCCCTGTTTTTTCTGGCCTCAGTTTCTCCAGAACCCAGAGTAGGG
Celera SNP ID:            hCV1921555
SNP Position Genomic:     5190
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:22198):
GTGAAATGACCAGCTGGCTGAGGCTTCAGAGGAGCCTTCAACTTTTCTATCCCTTCTGTGCTGACCAGAGGTATGTGGCTTGCCCACACCCCCTTCACAC
Y
CAATAAAAGCCTGTTCTCCTTTACTCCCCCACCCCCTGCCACCAACACACACCCCCCAGATTGTAAACTCCTTTAGAACAGTAACCCCTGTTTTTTCTGG
Celera SNP ID:            hCV1921556
SNP Position Genomic:     5161
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:22199):
CTTGAGACCACCTCCTTTGGTGTTGGGTTTTCTTCCCACCTTCTGGAAAGTTGAGTGAGTACTTTCTTTTCTGTAGCTTAACTACTGAGTCCCATCCTGC
Y
GTATGCTGCATGTCCTTAGGCAGGTGCCTCTCTGGAACTAGACCTCTGAGGTCTGTCTGCATCCTAAATTGCTAGGATTCTAACAGAAGGAAATGATACC
Celera SNP ID:            hCV11545522
SNP Position Genomic:     11980
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22200):
ATCTCATAACCCAGCCTGGGCCTGCAGCTGGCTCAGGGCCAGTCCCCTCCACTGCCAGGAACAGTGGGTTTGGGTACATGGGGACCTTTCTCAAAACTAA
T
TTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGGTCTTGGCTCACTGCAAGCTCCGTCTCCCGGGTTCAAG
Celera SNP ID:            hCV11545526
SNP Position Genomic:     22194
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22201):
CCTCAATATGGTGACTAAGGGAGCACTGCGTCTCCCCCAGATCTACATACTAGTTGCTTGAGTGTCCATCCTCGGGTGTACCAGGAGAGAGGCAATCCGG
Y
GCAGTAGCTGTGAGTGTGGGGGCCAGCAGGCCTGGGTTGGGTTGTGGCTCGGCCACTGGGCATTGTGCAGTAAAGGAGACTGTGACTCCCTCACCTCGTG
Celera SNP ID:            hCV3124920
SNP Position Genomic:     40783
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22202):
TACCCTCCAGGGGGCAGGCAGTGCCTGGCTGCCTACCATGGGCTCCTGGGCACCAGAGTACCTTTGTTGTCTGCTCAGAAGATCCCTTGGGAAAGGGAGG
Y
AGGGTCACATGGTAACTGTCCTCCAGACATCAGTCCCCTGGTCAGAGCTAGTGAGCCTGTCCTCTGCAGCCCTTCCTGAGTAGGTGACTTCACCAGCCTG
Celera SNP ID:            hCV3124921
SNP Position Genomic:     37562
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22203):
GAGAAAGAAGCATCCCACATTCCACAGATTTGCCATCCCAAGACCAGCAGGTCTTTAGAGGCCACTGTAACATTGACATTCCAGAATCCTACTAAATATC
R
TCCTGGGGAGGCAGGAGGCAGGAGTGGAAAAGCACCGGGCTGGAAATCAAGAGACTCTGCATAACCCTTTACCACTCACACCGCCATTGTTTTCAAGTCT
Celera SNP ID:            hCV939725
SNP Position Genomic:     48277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22204):
GGCCAAAGCCACTGGTCACCTCTCCATCTGCAGAGACCAGACATGGGTCACAACTGGGAAGGATGGGAGTGGGAGACAAGTGGAAGGGTTGTTACATATA
K
GACCTCCTGGGTGGGGTGGAGGGAGAAGTGGAGGGTCATGTGTCAGAAGACCCAGGTTCAAGGCCACTGGGAAACCAAGCCATTTGATTATAAAGATAAT
Celera SNP ID:            hCV3124922
SNP Position Genomic:     37000
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,3)      total(G,1|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22205):
TAGTGAGCTGGGGACCCCTGGATCTGTTTCTTCATCTGCACATGGCAATCATGATGGGACCTACTTTGAGGTCAGGGTTGTCAGGATAAATGAGATGACG
Y
ACCTAAAACACAGTACTCAGGATAGGCCTGGCACACAGTGAGAGCTCAGTGTGCATTGCTGGAGATGTGGAGCTAACCAGAAATGGCAGGCCGTGTATAT
Celera SNP ID:            hCV939726
SNP Position Genomic:     47948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22206):
GTCTCCACAGGTAGCTTGCACGAGGCCAGCCAGCTGGTACATGGGTGCACCCTCAGCACTAGGACAGTTTCAATATCTCATGGGCAAGTTCAGGGAAATG
S
TAGATGCTCTTCAGGATATTTTTCAGCCACTAAAAATGCTGCTTGACAAGTGTTTGTTGTGACATAGGAAGGCTTATACTAGGATGATAAGTAAAAAGAT
Celera SNP ID:            hCV3124923
SNP Position Genomic:     36349
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:22207):
AAGATGTCACTAAGGCAGTCTAGTGGGGAAGGCACAGTTTCTAGACACAGCCAAGACCTGCACAGCAGCAAGCTGTCTGGAAGAGGACTGGTCACGGCAC
Y
GGGGCAGAGCCCTAGCTCCACTGGTAGTGAGCTGGGGACCCCTGGATCTGTTTCTTCATCTGCACATGGCAATCATGATGGGACCTACTTTGAGGTCAGG
Celera SNP ID:            hCV939727
SNP Position Genomic:     47823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22208):
CCTATGAACAAAATGTACTTTTCACTTGGTGCTTTCACCCCAAATTATGTCACTTGTCACCTCACAACAGCCTCAGAGTTAGGCAAGCAGGGTTATTGCC
Y
TGCTTTATGGATGCGGAAACTGAGGCTCAGAGAAGTGAAGTGCCTTCTAGCTGTGAAAGTCACCGCAGCAGGACTGGACCCCAAGCCTGTCTTACTCCAA
Celera SNP ID:            hCV939728
SNP Position Genomic:     32664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22209):
AATGCCCAGAGAGGATGACCTCCACCTGAAACCCAGGACCTGAGGTTTGCTGCAGCTTCTAGGCAGCTAGTACTAATCAACACCGACGTCTTACAGAGCT
K
TTTCCCTGGGACAGGCACTGGGCTGAGCCCTTTACACAATCGTCTCAGTTCGTGTGCAGAACCACAGTGTGTGTACATCCTATTACTATGCCCATTTTAC
Celera SNP ID:            hCV3124924
SNP Position Genomic:     35632
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,7)   total(G,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22210):
AGCTAGTAAGTGGCAGAGCCAGGATCTGGACTGAGGCACCTGTTCAGAATCCACACCTTTCCCCACTAGCTGCTCCGCCTCTCAAGCAGCCGGGACTGAG
Y
GCCTGGCAGCCAGGAGTGGGCTGGGTTCCCTGTTACAGCTGTCCTCCGAGAGACTGCACCTACCCCCTTTTCCAGGCACGGTCCCACAACAATTCAATGG
Celera SNP ID:            hCV939729
SNP Position Genomic:     30211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22211):
CCTCATTTACTCACCAGGCCCACCCCAGCTCCCACCTCCCTCATGGGCTTTCCCAAAGCCTCCTTGGGGTGGGGCACGAGGCGCTGCCTTACCCCTTGGA
R
CTAGGTTTAGGTTAAGACTTGGGGGTGGGGGTAAGGAGGGAACCTCAGGCTGCTTGGAGAGACCACCACAGGACTGGCGGCTTCTGTCTCCTGACCTCGT
Celera SNP ID:            hCV3124925
SNP Position Genomic:     33418
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22212):
TAGCTGTGAAAGTCACCGCAGCAGGACTGGACCCCAAGCCTGTCTTACTCCAAAGCCCCCAGTCCTTCCACCCCCCCACCCCGCCTCACATCTGACCTGA
Y
TTCTTTTAAAAAGGAACGATGATGATGACGATGAGTCCACATTTATTGAGGCCCTCCTGTGCGTCACAGTGTTCTAAGCGCAGTGAGCATGGTCTCCTGT
Celera SNP ID:            hCV3124926
SNP Position Genomic:     32812
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22213):
ATCAATGGCATTTGATGACCCAAGAATGACAAACAGTTCCAGAAGATTTGGTTTTTACAATCATTTAAAACAATCCTCTGACCTGGGCCAGGCAGGCCTG
R
CTGAGGCGGCGCCGCTGTCCACCGGCTGGTATTGGACACGAATGATGCACTAGAGATGAAATGCTTGCGGGGGCCTAAGTAGTCCACGATCTCATACTGA
Celera SNP ID:            hCV25997668
SNP Position Genomic:     47529
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:22214):
GGGGCTGGAAATGGGAAGTGGCTGAGGCCTTTTTTTTAAGCTGGGTGCTCCCTATAACACCAGCTACCTTTTATTGGGTACCTATTTGCCATAGGTTTTA
Y
GTCAATATCTCATTTAATTTAATCCCCAGGCTGACCCCACTGAAGCATGATGGGAAATTACATACAGACCTGAAGTCATGGGTGCAAAGAGAAGGCACTG
Celera SNP ID:            hCV1921561
SNP Position Genomic:     577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:22215):
CAGGCACGGTCCCACAACAATTCAATGGCAGGGTCAAGACCCCAGAGCCTGTCTCCTAGTGCGCTTCCATACTGGAGAGTCTGAGCATTTCCTTCCTTTA
R
GGGTACAGCTCCGCACTGTTTCTTCAGGAATATTTATACAAATGGACCTTGGTGTACAAGGCATGTTTAGTGTATTGACTTAGGACAATGAGGTGTAGAC
Celera SNP ID:            hCV27949096
SNP Position Genomic:     30384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22216):
TTTCTGTTAGGTCCCTGCTCCTTCCCCACATTGCTGAGTGAAATAATCCCCAGTGCTGAGTTTCCCCAACTAAAATGTCTGCCTGCTCCAGAAAGCCTTT
Y
CTGATCTCTTTCCTTTGAGCCCTTGTGGCTTGTCTCTTGAGCGAGATAATGCCTTGTATTTGTCCAAGCTTCTCAGCACCAGTACCCGGGTCCTTCCTGC
Celera SNP ID:            hCV939732
SNP Position Genomic:     17314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22217):
AGCCACCCCTATTGACTCTCCATTATCTTACTATGTTAATTTTCTTCATAGCACTTATTACTAACTAAAAATAACTAATTTACCTACTTGTTTATGGTCT
R
TCTTCCCCAATTAGATTGTAAGTTCCATGGAAGCAGAGTCTTATCTGTCTCATTTTAGTTGATTCCCAGTGCTCAGAAGAGTCCCTGACTGGCACACTGG
Celera SNP ID:            hCV939733
SNP Position Genomic:     13911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22218):
CTCCCTCATGGGCTTTCCCAAAGCCTCCTTGGGGTGGGGCACGAGGCGCTGCCTTACCCCTTGGAGCTAGGTTTAGGTTAAGACTTGGGGGTGGGGGTAA
S
GAGGGAACCTCAGGCTGCTTGGAGAGACCACCACAGGACTGGCGGCTTCTGTCTCCTGACCTCGTGTGGACGTGGGAGTCCTGGGCAGCTGGCATAGTCA
Celera SNP ID:            hCV16177463
SNP Position Genomic:     33453
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   JBIC-allele(C,675|G,810)   total(G,810|C,675)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22219):
CCTGTGAGTCTCAGAACAATACTATCCTAACACATAGGTAAGTCTTAGCACAGTGCTTGCAAAATACAAACGCTAACTAAACAGCAGCCCTCATTATTTA
Y
TGTCATTATTGTGGATATAATTATTATGTTACAAGTAATTGGCTGGTCTCTGTTTATGTTTTTTTAAACTTTGTTTTTTTTTTTTTTTTGGAATAGCTGT
Celera SNP ID:            hCV939734
SNP Position Genomic:     3267
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:22220):
AATGATAGTAATTTTAATTGCAAAATCAAAATGAGATCAGATAGCTGAGCTCGCTGCTGAGAGCCTGCAAGCCAGACAGCCCCCCTGCAAGCCAGACAGC
M
CCCCCGTCTCCATTCCTGTGCCTCCCAGGGGATCACTGGGCAAGGACTCAGTCTTCACTCTCTTCATCCCTGCCCTTGTCCCAGGAAGGATAGGGACACA
Celera SNP ID:            hCV939735
SNP Position Genomic:     1660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:22221):
TGCAGGGAGCTGAGAGGAAGATGCGCGATGACGAGCGGAAGCAGTTCCGGAGGAAGGTCAAGTGCCCTGACTCCAGCAACAGTGGTCAGTGGGGATCCAG
R
GCCTGGGTGGGCTCGGCTGGCGTGAAGGGGAGAAGGAGACCAGAGGTGGGAGGGACTTGAGTGGAGGGACCTCGGGGCACATTGGCTTCCTTCTCCCATC
Celera SNP ID:            hCV25968240
SNP Position Genomic:     29399
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,32)   total(A,1|G,69)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22222):
TACCATTGTACTTACTAAAGATATTTTTAAATGTTTTGGAAGAGGCCAGTGAAGGCAGAGCCTAGGGCTCTTGAAAGTCCTAATGAAACTCAGCTTGAAA
A
CACACACACACACACACACACACACACACACACACACACACACACACAGACACACACCCCAGATGCCTATAGGCCATGTGGGCTGGAGTTTACTGAAAAC
Celera SNP ID:            hCV26638301
SNP Position Genomic:     21624
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22223):
ACCATTGTACTTACTAAAGATATTTTTAAATGTTTTGGAAGAGGCCAGTGAAGGCAGAGCCTAGGGCTCTTGAAAGTCCTAATGAAACTCAGCTTGAAAA
C
ACACACACACACACACACACACACACACACACACACACACACACACAGACACACACCCCAGATGCCTATAGGCCATGTGGGCTGGAGTTTACTGAAAACA
Celera SNP ID:            hCV26638302
SNP Position Genomic:     21625
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22224):
TATTGAAGAGAAGAATGTTATGAAGAAACAGATTTCGTAACCATTAAAACGTTCATGCTTAGGGCACACAAAGAGGAGGCTTCTGATATCTGACCCCAAA
Y
TTGATTGCAGCCCCATGGAATTCTCACGGCAGCACTTGTGGTGCTCACTGTGTGCCAGGTGCGGCTCTGAGCGCTTCCCAGGCATCACCGTCCTTACCCT
Celera SNP ID:            hCV26638303
SNP Position Genomic:     29914
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,12)      total(C,1|T,12) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22225):
ATGTTATGAAGAAACAGATTTCGTAACCATTAAAACGTTCATGCTTAGGGCACACAAAGAGGAGGCTTCTGATATCTGACCCCAAATTTGATTGCAGCCC
Y
ATGGAATTCTCACGGCAGCACTTGTGGTGCTCACTGTGTGCCAGGTGCGGCTCTGAGCGCTTCCCAGGCATCACCGTCCTTACCCTTCTCTACAGCCCTG
Celera SNP ID:            hCV26638304
SNP Position Genomic:     29928
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22226):
GGAACAAAGTGACCGCTGTGTAAAACTACTGCCTTGCCACTCACTGTTGTATACATTTCTTATTTACGATTTTCATTTGTTATATATATATATAAATATA
Y
TGTATATATATGCAACATTTTATATTTTTCATGGATATGTTTTTATCATTTCAAAAAATGTGTATTTCACATTTCTTGGACTTTTTTTAGCTGTTATTCA
Celera SNP ID:            hCV26638305
SNP Position Genomic:     41813
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,9)   total(C,6|T,9) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:22227):
TGGCAGGCACGAGAACCCTGGGGCGCCCCTGTCGTGCCCAGGGAACATCGTGTGTGGGGCTGACTGGAAAATGATTCCTCTGTGAGCAGTTGTGTCAGGG
C
CTCCCTGTGGGTGATTAGAGAGTGATTGATCACTGTTAATGAGGTTGGGTGGCTCATGGCAGGATTTAGCAAGTCATTGGGAGTATCTGGGTGTCAACAC
Celera SNP ID:            hCV287486
SNP Position Genomic:     11679
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,10)   total(C,1|-,10) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22228):
AATCCAGGGCACAGGAATCCCTTTTCCTCCCTGGATTGAAGTGTGGTTCTTGGGGGAGAGAATGTATGCCCCTGCCAAGAGTGAGGCCCAGTTTTGTCTT
K
TTTTTTTTTGAGACAGAGTCTCGCTCTCTCACCCAGGCTAGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCGCCTTCCAGGTTTACTTAGGCCA
Celera SNP ID:            hCV11466760
SNP Position Genomic:     25894
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22229):
TTGGGTTCAGGGAGTGGGGAGTTTCGTGGGAAGGGAGAGATGGGTTTCGGTGGGGATTTTCTCACAGCCTTTTAAGCCCCCAGGCTTGGGTCTTTCTCAG
R
TGCGAGCTGGGCGGGGGCTGCATGAGGGCAGAGCTGGCTGAGGGGGAGGTATGTCTGGCATGTGCCTGGGGGCCTGGTCTGCACAGCCAGGGAAAGAAGG
Celera SNP ID:            hCV11466761
SNP Position Genomic:     27543
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22230):
GTTTAGTGTATTGACTTAGGACAATGAGGTGTAGACAGTGGCGCTGAGAAGAGCGGCCAGTGCTGACAGAGCTTGGCACAGGCGCAGAGCACTGTCTGTG
Y
CCCTCCTCTCTTTGCCATCTTGGGAGCTGCGCTGTGGCCCCGCAGCACAGGCGGCTGTGTGAACCTGTTCTCTCTTGGCTCTCCTCACTCTCTCACCAAC
Celera SNP ID:            hCV11466762
SNP Position Genomic:     30549
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22231):
CTTGGCAGTCTAGCGGAAACTGTACCAACAGCGGTGAAAAGCCTGGGCTGTGAGTCTGGGTTCAAACCCCTGCTGCACCACACACTGCCCGTGTCACCTC
K
GGAAAGTTGCCCCACCTCTCTGAGCATTGGCTTCCCCATCTGTGAAAGAGGAGTGCTGATGTTTGCCTTCTAGGGGCCTAGTGAGGCTTAAGGGTGAGCA
Celera SNP ID:            hCV25973032
SNP Position Genomic:     28527
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,31|T,1)   total(G,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:22232):
CTCATTCTGCAGACAAGGAAACCGAGGCTCAGTGAGGTGAAAGGATTTGTCTGAAGCCGTATATGGCTAGTGAGCGGCAGAGCCCAGCTTCCTGCAGCAG
R
TGTGGGCGGCCCCTCCTCCAGGCTCACTTTGTTATGCCCCACGCCTGACTCCCTAGGGGAACGGCAGCAATTATAGCCCTGCTCAGAGCATCTGTTTCCC
Celera SNP ID:            hCV1921537
SNP Position Genomic:     28039
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22233):
AGCCTGCGTCGGGGGGACCGGGGTTCCCATGGAGCCCCAGAGGAGGACAATCACCAGGTGACCTTGCCAGGGTTTGCCCCGCTGAGACTGACCCCAGGCG
W
CCATCAGTTGGGCATAGGCTTTGGGATGAGACTTCCAGCTGTCCCTCTCATGGCAACGGTTATAACATATCAAGCCTACACACCCCACAGCCACACAAGA
Celera SNP ID:            hCV1921538
SNP Position Genomic:     27824
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,7)   total(A,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22234):
CATGGTAGTCCAGGTATACCTGAGTTTACTGGAAGCTGAGCAGGCAGATGCCGGCACGTGCACGTGCCCAGGAAACCCCTCGCAGAAGCCCACCTTGGCA
Y
GGGTGATCAGAGCGGCAGGAGCTGCCTGTCTCTGTGTGCCAGGTGCCTAGCACCACATACGGCATGGAAAAGTCATTCGGGCAATGCTTCCAGAGGATGT
Celera SNP ID:            hCV27992462
SNP Position Genomic:     45905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22235):
ACCCTGGGCTCCCCCAAAGCCATCCACATCAAGTCAGGCGAGTCACCCATGGCCTACCTCAACAAAGGCCAGTTCTACCCCGTCACCCTGCGGACCCCAG
S
AGGTGGCAAAGGCCTTGCCTTGTCCTCCAACAAAGTCAAGGTGCGTTGGCCTGGAGCAGCTTCAGAAGGGGTGGAATGGGGCAAGATATACCTCCTCCTT
Celera SNP ID:            hCV25967592
SNP Position Genomic:     24359
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,32)   total(C,69|G,1)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:22236):
CCAGCCTGCGTCGGGGGGACCGGGGTTCCCATGGAGCCCCAGAGGAGGACAATCACCAGGTGACCTTGCCAGGGTTTGCCCCGCTGAGACTGACCCCAGG
Y
GACCATCAGTTGGGCATAGGCTTTGGGATGAGACTTCCAGCTGTCCCTCTCATGGCAACGGTTATAACATATCAAGCCTACACACCCCACAGCCACACAA
Celera SNP ID:            hCV1921539
SNP Position Genomic:     27822
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22237):
TGAGTATTTGAGCCTCTTAGGTGAGAGTAATATAAAATGTGTAGGATATTAAACAGGGTAACAAAAATCCCTGTATTTACTTTTAAAAATCTGTGTTAAT
W
TTGAGTCACCAGCTGCAATGCCAATGCCAAACATATATTTTATTTACTTTTTTTGTTTTTTGAGACAGGGTCTCACTCTGTCACCCAGGCTGGAGTGCAG
Celera SNP ID:            hCV3124908
SNP Position Genomic:     55321
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22238):
ATAATGTTTTCATTTATTTTAAAATTAAAAGAAAAAAATCAATATAATCCAACTTGGATTATATTCATCTTTATACCATTGTACTTACTAAAGATATTTT
W
AAATGTTTTGGAAGAGGCCAGTGAAGGCAGAGCCTAGGGCTCTTGAAAGTCCTAATGAAACTCAGCTTGAAAACACACACACACACACACACACACACAC
Celera SNP ID:            hCV25968975
SNP Position Genomic:     21551
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,29)   caucasian(T,36)   total(A,3|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:22239):
GAGTTCTGGATAATTAGAAAGCATTCAAGTGTTAGAAAAGGACGGCTGTCAGCAAGGTCCTCATGTTCAGCAGCGCATGTCCCGTCTGGTAAATGGTGCC
R
TCATTGTTCAGTACACAACTTTCACAGACACACAGAGGAGCCCTGGCTCTCAGTGCTCACTTACAGTGGCCCTAACTTTTACTCCTCCCCAACATGCCAA
Celera SNP ID:            hCV15931848
SNP Position Genomic:     2086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:22240):
ACCCCCTCACCAAGGAAGGAATTGGCCAGCTCCACCCAGCCAGTCCCCCATAGCTCCGCCCTCCTCGGCGGGCTAAGAGTTAACAGCTGCACCTGTTGAG
K
TATACCTCCAGTCGCCGGCACCTGTACCTGTAGCCAATCAGCGCCAGCGCTGCTGGGAACCTACCTGTCAGCAAAATCTCGACACCCAAACCTCAACATA
Celera SNP ID:            hCV29188548
SNP Position Genomic:     5956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:22241):
CTACCAGAATCAGCAGCACCAGGGAAATCGCTAGAAATGTACATTCTCAGCCACCCAGAGCCAGTGAATCAGACACTCCAGGGGTGGGGCCCAACAATCT
R
TGTGTTTTTAAATTAATTTTAAAATAATGGACATATAATAATTGTACATATTTATAGAGTACAGTGTGAGATTTCAGTGCACCTTTACATTGTATAATGA
Celera SNP ID:            hCV29188549
SNP Position Genomic:     16669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22242):
TGAGAGATGGAGCCTCTGGTGATGTTTTCATGCCAGTAGTTAAGCCATTAAGATTCTTCCAGCCTTAGTGCTTGAGCCCAGCCGCGGGCTTGCCATGTGC
K
CATGGGCCTCGCTGTGTCTTGGTTTGCTGTTTAGAGAGCCAGCATGGTGGAGAGGCACTAGTGTGGGAGTCAGGAGCTGAGCACCTTCGGCCTGTCCCTT
Celera SNP ID:            hCV1921540
SNP Position Genomic:     27108
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22243):
AGGATTGGAGTGCAGAGCCCACAAGATCATGCATGTCTACAAACCGGAGAGGCCTGAGAGATGGAGCCTCTGGTGATGTTTTCATGCCAGTAGTTAAGCC
R
TTAAGATTCTTCCAGCCTTAGTGCTTGAGCCCAGCCGCGGGCTTGCCATGTGCGCATGGGCCTCGCTGTGTCTTGGTTTGCTGTTTAGAGAGCCAGCATG
Celera SNP ID:            hCV1921541
SNP Position Genomic:     27054
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22244):
TCTCATACTGACCAGGACCTGGGAAAGGTGGCTTCGGAGGCAGAGGCGAAGGCTGAGCAGAGAAGTTCAGGATGGGGTTTTTCCTTTGGGAAAGATAAAA
Y
GGGAAGATGTCACTAAGGCAGTCTAGTGGGGAAGGCACAGTTTCTAGACACAGCCAAGACCTGCACAGCAGCAAGCTGTCTGGAAGAGGACTGGTCACGG
Celera SNP ID:            hCV25998599
SNP Position Genomic:     47719
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22245):
GTGATAGGGAGCTCAGAACTTGTACCTTATCAGAAAACTGAGGTTCTTTTATCCTTAGTTTTCCCTGGTTTTGTCACCCCTCAAGGTTCTCTCTAATTTT
Y
ATTGGGCCCTCATTATTCAGCAGGACTGTGGCTCAACAAAGCCATTAAATAGAACCCCCAAATTGAGGAAACTGGGGCCCAAGGAAGTAAGGTTATTTTC
Celera SNP ID:            hCV25965749
SNP Position Genomic:     24033
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,33|T,1)   total(C,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:22246):
ATTGAAGTGTGGTTCTTGGGGGAGAGAATGTATGCCCCTGCCAAGAGTGAGGCCCAGTTTTGTCTTTTTTTTTTTTGAGACAGAGTCTCGCTCTCTCACC
Y
AGGCTAGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCGCCTTCCAGGTTTACTTAGGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACT
Celera SNP ID:            hCV1921542
SNP Position Genomic:     25928
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22247):
TGTAATCCAGGGCACAGGAATCCCTTTTCCTCCCTGGATTGAAGTGTGGTTCTTGGGGGAGAGAATGTATGCCCCTGCCAAGAGTGAGGCCCAGTTTTGT
Y
TTTTTTTTTTTTGAGACAGAGTCTCGCTCTCTCACCCAGGCTAGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCGCCTTCCAGGTTTACTTAGG
Celera SNP ID:            hCV1921545
SNP Position Genomic:     25891
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22248):
CCTTAGTTTTCCCTGGTTTTGTCACCCCTCAAGGTTCTCTCTAATTTTCATTGGGCCCTCATTATTCAGCAGGACTGTGGCTCAACAAAGCCATTAAATA
R
AACCCCCAAATTGAGGAAACTGGGGCCCAAGGAAGTAAGGTTATTTTCCAAGGTCAAACAGCAAGTCTGTAACATAGCCTCAGGCTTCCTGCCCCACTGC
Celera SNP ID:            hCV1921546
SNP Position Genomic:     24085
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22249):
ACCCTCATCCCTGTAACCTATTTGGGAAACAACCTATAAATCAATGGCATTTGATGACCCAAGAATGACAAACAGTTCCAGAAGATTTGGTTTTTACAAT
Y
ATTTAAAACAATCCTCTGACCTGGGCCAGGCAGGCCTGGCTGAGGCGGCGCCGCTGTCCACCGGCTGGTATTGGACACGAATGATGCACTAGAGATGAAA
Celera SNP ID:            hCV25995544
SNP Position Genomic:     47490
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:22250):
ATCCTCTGGCTTTGGTTCTCCTTCTGGAGTGGTCTGGTTACCCTACCTCCCTCCTCCCCGGCAGACTGGTGGCATCCAGAGAGTGTTCAGCCCAGGTCGA
Y
GGAAGAGGAGTTTGAATGGCTGCCTTGGCTTGGGGCCATGGTAGGAGCCAGAATTCTAGATCTAGGTTCAAACTGCAGCCTGGGATTTATAGGTTGAGGA
Celera SNP ID:            hCV1921548
SNP Position Genomic:     19554
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,10)   total(C,4|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22251):
AATTCTCTTACACTAGTGAGGATGAGGCCTGGAAGACGTACCTAGAAAACCCGTTGACAGCTGCCACAAAGGCCATGATGAGAGTCAATGGAGATGATGA
S
AGTGTTGCGGCCTTGAGCTTCCTCTATGATTACTACATGGTACGTCTACCCCCTCTGGACATGCCCCGTTTTGACTGAATGGGTGTCTTCACTTCAGGCC
Celera SNP ID:            hCV1921549
SNP Position Genomic:     18182
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:22252):
TGCTCAGGAAGCCACTGGAGTCTGTGGGGCTGGGGTGAAGTCTCCAGGGAGCAATGTCTCCAGCTCAAGACAAAGGCAATGGCAGCAGTCCGGCTAGGAT
R
CCAGGCCAGAGTGGTAGAGCCACCCCCCAAGTTGTCAGCTGCCACACTCATGATCGGTCTCCTCCTGAGGAATGTCCTGGGGACGCTGGGCAGGGTGGGC
Celera SNP ID:            hCV25993113
SNP Position Genomic:     45065
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(G,38)   total(A,4|G,70)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:22253):
TGGAAAGAGATGGCTACATTGGTCGGGGCCTCGCTCCTCTTTCTCCCTTCGCTCTGGCTCTGTGCGGAGAACGGGTTGCCCTGGACTTGAAGGATGCTGG
S
ACGTGCAGGGCACCGGTGGAGCAGAGGTGCCCCCTCTGGAAGGCAGCAGATTCCTGATGCCCAGATGTTTGTGTTTGAATGTTACAGCCTCAGGATCATT
Celera SNP ID:            hCV11647300
SNP Position Genomic:     42119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22254):
AGCAGCGGGTCATTGACGTGGGTGAGAGCCTTCTCAAGCCTCCATTCCAGCTCCCCTCTCTCTCCCCACCCCCGCATCAATCAGGCCTTTTTCTTACTCA
S
CCCTGTTTCCCTACCTGGCTCTGACCTCTGTCTCCAGGTCAAACACCGTGGGGTTTGCAAGGATTTGCATCTGTTGACTAGAAGTTGTGGCGTCTTTTCT
Celera SNP ID:            hCV25963390
SNP Position Genomic:     24793
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,26)   total(C,61|G,1)
SNP Type:                 INTRON


Gene Number:                 74
Celera Gene:                 hCG18159 - 104000117749260
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRFTF0F9(11876115..12004926)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12234):
AAGGAGGCATAAAAGATGATTTTTTCCCCACAACAATGAGCTTTCTTACAGACATATTAAACGGAAATGAAATGTGCTACTCATTCCCAGCGTTGCAGAA
CCAGGTGAGGCCCGAGACAAAGGCGCGGGATGGCCGGGACGCCAGCCCGGGGCGGAGGGGCTGGCGGCGGGAGCGTCACCCGCACCTCCGCGGGGAGACG
TCCAAGCCTCGGCGCTCCCAGCCCGGCCGCCGCGCCCCGCTCCAGGCTGGGGCTGGGGCTGGGGTCAGCCCCGCAGAGCAAGGGGCGGTGATGTCATCCT
CTCGGCGAGCTTGGCTGCGGGCCGGAGGCGAGGCCCTGCGGGAAGGTTTCTCGGCACCGCTCACCGGGGCGCTCTCTCCGAGTCACGCCCGGTGCCTCCC
CGCGCGGGAAGAAGCTCAATCCCCTTCCCGCCCCCCGCGCCGGGGAAACGGCGGCAATGTCCGGGCAGAATGGGGCCGGGCGGAGCGCCGGCGACCGGGA
AGCTCAGGCCGTGGGCTGCCGAGACTGGCCTAGCTGAAGGAGGTGGGCAGCCAGGCCTTTCCGGGCAGGACCGCGTGTCCTTCCGCGGCCAGGGCTCTAG
GCCTCCACCCTTCCGTCGCCGACCCGGCGGTTACCTCCTCCGCAGCCTGGTAGTCTTCCATCTTTCCTCCGGCGCGTCCCCTCCGGCTCCCTGAGTGGCG
CGGACTGCGCAGGCGCACTCAGGCCCCGCCCCGGACCTGCCACGCCCCTCTCCTCTCGCGCCTGCCTCGCCCATGCCCAGCTCCCGGGCCCCGCCCTTCG
CTGCCCGGACCCTCAGTGACCCCATCCCTGGGCGGGGCCCGTGGGTGGACCCTGAATTCGCCTCTCCTCCTGTCCTCTGGGAGGTGGTAGTTTCCATGGG
AATCCGTGAGGGTAGCCGGGCAGCTCCCTAAACCTTAGCAACAGAAACAAAACACACGTACAAAAGGCAGTCCTGGAGGGGAAGCGTGGTCCCGGCCCCT
CCTCCGGTTTGTACTGTGTGGATTGACGCGGACGTTCAAACCCGCTCGGACACCTGGCAACAAACTCGAAAGTGACTGCTGAAGGCAGTGCGCCCGGTGA
GACGTTGTTGCAGTTCCCTTGGGGACTGGGATTGGCATGCTTTAGCTATCTGAACGAAACTTCCCTTTGGGGAGTTAAGTTTTCCAGGTAAATGAGAATT
TTTCCTTTAAGCACCATTAAAAAAAAACATTTTGGGTGGAAAATTTTGTAAAATGTGGCACACTTCCTGACTACCTTAACCATAGTGAACTAGACAGACT
TTATTTGTATGTGGGTTCTTTATGGAAATTAGGAATTGCACTGGGCTCTGGTAAACTGCCCTCCACGGAAAGCTGGGGCATATGCATCTATTGGCAGGTA
TTCTGAGGCTCCGAGTTTTGATTTTGGCGTTTGCTTTTTCTGGTTTCGTCATGCACTTGAATTCAGGTTGCTGGAACCCACTTCCCATTCCCCAAGAAAG
AGCTGACTGCAAGGGTCCCAGGGATTTGGTAGACCTAAACTTCAAATCCCACATCTAATCCATCAACAACCCTTGTTATTTCTACCCCATATGCTCGGGA
CCCCAGTTAAAGATTGATATCTCTCATCTGGATTATGACCATCGGACTGTAACCTGGTCGGTCTATCAGGGTCTTATTAGAGCCCTTCAAGAGGAACCTA
ACCCAACGACTCCTCCCTCCCCTCACCCATTCTGCCCTGCCATAAGTCAATAGTTACTAAGTTGTCAGACTATAGACTAATCTTAGTGATCTTTGGATGA
CTAAACTTTTAACATATCTTAGCTCAAAATCTCCTACAGAGAGCCATTCTGTGACCACGGCATCTAAGGTAGCCGACCTCCTCATCCTCCACCCCTGCAT
CCTGTACATTTTCCTCATAGCACTTCTCTCAGTTTGCAAGAACGTATTTATGGTTGCTTGTTGATGGTGTGTCTCCATTTAGAAACTAAGTACCATGCAG
GAAGGATCTGTTTTATTCACTAATGTATCCCCTTCCTTCCACATTGTGCCTGGCACATAATAGCTACACAATTAACATTTATTTATTTATTTATTTAGAG
ACAGGGTGTCATTCTGTTGCCCGGGCTGGAATGCAGTGGTGTGATCGGAGATTTTGAGCTAAGATGTGTTGAAGTTTAGTCATCCAAAGACCACTAAGAG
CTTGAACTCCTGGGCTCAAGGTATTCTCCTGCCTTAGCCTCCTGAGCAGCTGGGATTCCAGGCACTAGCCACCACACCCACCTATTTTTTTAATATGTCT
TTTGTAGAGATGGGATCTCACTGTGTTGCCCAGGCAGGTCTCAAACTCCCGGGCTTAAGGGATCCTCCAGCCTCAGCCTCCCAAAGTGCTGGGATTATAG
CTGTGAGCCACCATGCCCGGCCTAAAATTTATTGCATGAATCATTTCCCTCATGGGTGTTAGCTTTGCCTCAGACCCAAATGGAGAGAACTGGGGAGTGG
AGGAAGATGCAACTACCTGCCTCCTTGAGGGAAACAGGGCTGGCGAGAGGAGGGCAGAGCCCTGACTGACACAAGGCTGCTTGGCCCTGGGTGTTCGGCC
TGAGCGAGGAGACTTGCTGGGCAGGCTGGTTGCTTTACCACACCTGGTCTTCCTCTCCTTGGATTCTGAACTTTATCTACCTTTTGAATTCCTTTCTTAT
TACCTGGCTTCAACTCCCCTGTCCTGGTGTTTCAGTCGTGCGCCTCAGTCCACATGTGATTCTGATGCTGACATTGCTTTGCCTGCCTGCCCTTCTCAGT
ATCACCTGAGATCTCGTTTTGGATGTTCTCTGCCTACCTGGTTCCAAGCTCTTGGCCCCACCACGATCCTGAGCCAATCAGGAGCCTCTGAAATCTTTTT
TCTTCTGCTACTTTGTTGTGGACCTGGAGTTCAGTAGCTAAGTGTCACAGAATTATGTGCAAAGCAAGAGTAAACCGGTTCTGAGCAAACACCTGCAATG
GAAGAACATGACACTTGGGACAGCCTTTTCAATTTTCCCCACAACCTTTTAGGAACTTCCTAATTTAAATCAATTTCCTGAATGTCTGCTAGGATGGTGC
ATAATTAATGCATGGATCTTGTTATAACTGCGGATCACCAGCATGCACATAAATCAACAGAAAACATGCAAATGTGCATTTTAAAAATGCTTACATGATT
TTAGCTTTTATACATTGGGTACCACTCTCCAATTTTAACTATTAAAGAACATTTGTTAAATGATCGCGATGTATGACATTTTGAGGCTGCCAGTAAACGG
ATGAGCTGGTCTGTTTATCTTCACAACTATCTGTTCACTTGTTCAATACACATATATGGAGCACTCCCTTTGTGTCAGGCTCTGAGCTGGGGGTTGAGGC
TACAAAGTTGACTAAAACATGGCCTTTATGGAATTTTTTCTTTTAAACGGATATATCTGTAAATAGGAGGGTTTGAATTCTCTAGGCTTATGTGATGTTG
TAGTGCTTGGAAAAATGCAGTGATGTGGTATTATATTCTGCCCAACTGATGTAGTCTGTAGGGCTAAGGAATTTAAAATCGTTAAGACATTTGGCAGTTC
ACCAGATGCCATTTCCAGCACCTTCCATCTGCCACGAATGGATGTCCATCAGAAGCATTGGAGCTCAGACACCTTTACTCGTAACTGCTCATGAATCTTT
GGCATTCTGCCATATTTTAGAATAATGTTTAGTTTCTATGCAGTAAGTCAGTGGAGTGAATCTTAGGTTTGTTTTTCAATTTGGAGGTTAGTGATAGGTT
GGCAGGTTTGCGTGCAATCACCTTTCTTTTCTGGAGTCAAATTTCTTGAATACAGACTGTGGGACTGGAGCTGCCAATACCTTTATTTAGCAAGTGTGGG
CCTAATAATCATAGCAATCAATGAACTGTCACATCAATAAATAACATCAATAATATCCAGCAGTGGCTGGGCGCAGTGGCTCACACCTGTAATCCCAGTA
CTTTGGGAGGCTGAGGTGGGCAGATCACCAGAGGTCGGGAGTTCGAGACTAGCCTGACCAACATGGAGAAACCCTATCTCTACTAAAAATACAAAATTAG
CCAGGCATGGTGGTGCATGCTTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGATTGCGGTGAGCTGAGATA
GCGCCATTGCACTCCAGCCCGGGTAACAAGAGCGAAACTCCGTCTCAAAAAATAAAATAATAGGCCAGGCGTGGTGGCTCACGCCTGTAATCCCAGCACT
TTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTATCTACTAAAAATACAAAAAATTAGCT
GGGTGCGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATAGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGC
GCCACTGCAGTCCCGACTGGGTGAAAGAGCGAGACTCGGTCTCAAAAAAAAAAAAAAAAAAATAATAATAATAATAATATCCAGCAGTGTTGTTCTGCTA
TAATCTGCAGCCCTTCATAGTCCAAATGCCATCCTGTGGATTTTCCATTTTTTCCTTTCTTCCCCTGTGCCAAGAAGTGTGTTACTATGAGATCATGCTG
AGTCAAAATAATAGTAACAGAAGAAGACGATGAGGACGAGGGTGCTGTTGAAACACTCATGGCTGAGGAATTTAATGTTGTAAAGGAAAAGAAACTCTGG
CTGACACATATCTAAAGTGAGAGTCCTGTGCTGAGAAAAGCTAAAGAGATTAGCTAAGAAGTGCCTATATTTAGATCTGCTATTGAGCTGGGAAGCGGAG
GCACAGTTGTGCTGAAATACCTCTGTACCCCATGAAACAGTGGCTGCTCTGAGCTTCTTGGGTCCCTCTTCCTCTCAATCCTGGTGACTGCAGCCCCTTC
CCTGGGACCTCATCCCCAAGATCCAATAACTAAAGGATAACTCGTGGTATAGCAGGGCCTCCGCTGGCATTTGTTCCAATGGGTAAATATTCATGCTATA
GTAGTTATTAAATAGTTTGGTGCTCAGTTCTGTGTTTGTGAAAACACTACACACTACATCAGCAGAATAGGCTAGGTTAGCTGCAGAAACAAATGGCCCT
ACACTCTCAGTGGTTGATGACAGCAAACATTTATTTGCCACTCACACTCCATGACCATCAAGGATCTTCCATGGCTCTGCTTCATGTCTTCTCCATGCTG
AGACGAGGTTGCTGGAGCAGCCTGTGTCTGGAGTCATCAAGGGAAAGAGAAGGGAAAGAGAATGAATGGTGGCCCCAGTACTGGCTCGGTAGGTGCCAAG
CCTACGTGGCACGTGGCACCTTTGCACACACTTCATTGTCTTATTGCTCTCCAGAGCAAGTCCTTGGCCATGCCTGAGTTAGCAGGGCAGGGACACTTCA
CGGTGCTGAGTAATACTACCTAGTACACGCACAGCATTTTGAAGGTTCCCCTTGGTGATTTCATTACAATCTTCATCGCTCTTGGCCTGGCTGTCCCCCT
TTCTTGTAAATTATTCTTGAGTTAATAGCTGTTCTTTGAGATGTGGTTAGTCATTTACACTGAAGTCAATGTGAAACCCTTCACAAATGTGAGAACATTT
GAATATTTGAAGGCTGTAGTCTCTGTAGGGAGTTTCCTTAGGAAGGGTGAAACATTTCACCAGCATCAGCCTGGTCTTTCCTCCAGCTAAAAATGTAAAA
TGTTGGCATAGAAGAGCTCCTTGATGTGGTTTTGGGGTGGCTTTGCTCCCTGGGTCCCTAGTGATGTGGGAGTAGCCACCGAGGCATGTAAGGCTGGCCA
CACAGGGTGCACTGCRTCAGCCTGTGCCCGACAGGAAGGGAAGAGAAATACGTCAGTTACTCTAACAAGAAGAATTGACTTCCTTCTCTGCAGAGCCGGC
TCTGGTCTCTTCTCTTGAAGCAGATGCGAAGGTAGGATGAGAAGGCATGGCTGGCCGTTGCAGCAGGTCGTTTTAGGAGTGGGGGAGTGGGGTGGGTAGA
GATTATAGTTATTGTAACTTTTCTTAAATTTATGACATTGAAAAGGTAGGAAACAAAACATAATAAATTAGATAAAAGATATCTTGTAATTTTATTGAAT
AACATACATTTAACATTTGAGATAATAATGATTTAAGTGATATGGTGGAAGTGACTTCAGAGTTAATTAAAAACCAAAACAAAACAGAAAAACACTATCC
AAAAGCTATATGGTGTGATTTTTTTTTTTAAAGGGTAGAGTGTCATTTGCTTTCTTCTTTGGTTTGCAAATTCTTATACTTACAGTTTATTACTATTTTR
CTCTCTCTGAATCGACTTTATTGTTTTGATCATCCGTAATTTCTCGTTTGGAGGTGGAACATAAATATCATTTTGGAATTATAAAAAAGTTAGCTAGGGT
CTAATTTAAATTTCTTTTAATTAAGCTTCCTTAATCTCTAAATTGCTTGGTAAGAAAGAGACTATGAGAGGAAAGTGCACATTAGATATTAAAGATTTAT
TAAATTAGAATTGGGCTGGGTGCGGTGGCTCACGCCTGTAATCCCAGTACTTTGGGAGGCCAAGGTGGGTAGATCCCTTGAGATCAGGAATTTGAGACCA
GCCTGGCCAACATGATGAAACCCCATCTCTAAAAAAAAAAAAAAAATACAAAAATTAGCTGGGTGTGGTGGCAGGCACCTGTAATCCCAGCTGCCCAGGA
GGCTGAGGCACGAGAATCACTTGAACCTGGGAGGCGGAGGTGGCAGTGAGCCAAGATCCTGCCACTGCAATCCAGCCTGGGCAACAGAGTAAGACTCCGT
CTCAAAAAAAGAAAAAAAGAAATTAGAATTGGTGTAGAAAAGATTATTTAGCCAAGATAGTTGGAGATTCTAACTTAGCTGCTTTGCCTAAATGAAGCAT
AAGGTTTTGGAGTTAAACAGACCCAGTTTAGAGTGTGAGTTTAGGTAAGTTACTTAATCACTCCAAGACTCACTCTCCTCATCTGTAGAATGGGTACATT
TACTTCATAATGTGGCAATAAGGATTAGTAGAGATAATGTATGCAAAGTACTTAAACTATCTGGTTCAGAGTAAGAGCTAAATAAATAGTAGCTGTTGGC
ACAACAGAAAGCATAACAACAATTGTGAGTAGTACCTAGAAGGATATAATAATATTAATTCTCGGCCGGGYGTGATGGCTCACGCCTGTCATCTCAGCAC
TTTGGGAGGCCTAGGCGGATGGATCATGAGGTCAAGAGATCGAGATCATCCTGGCCAACATGGTGAAACTCTACTAAAAAATACAAAAAAATTAGGTGGG
TGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGGGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATCGCGCC
ACTGCACTCCAGCCTGGTGACAGAGCGAGACTCCATCTCAAATAAATAAATAAATAAATAAATAATAATATTAATTCTCATTTCTTTGCTCTTCCATACA
AAGAGGTCAAGTTTAAAGTATGAATGCCATGGCTTCCTATTTCAGTCATGAATTCCTATTTCTGATTCTAAAGTAATATTTTTTGTTGTTTTTGGGTGGT
AAAAGGCTCCCCGAATGAGAAAGAATACTCGGAATCAGCGGTGAATTGCAGTGATCTTTCAGAGAAAGCGCCTGTTCAACTTTGTCCTCTCTCAGGTAGG
CTTCAAGTTTTATAGATTCAAGCCCACGTGTGAGTCTTCTAATGTTTTATTTATTTATTTATTTATTTTTATGTATTTTTATTTTTTTTTATTTATTTGA
GATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCGGTTCACTGCAACCCCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGC
CTCCCCGGTAGCTAGGATTACAGGTGCCTGCCACCATGCCCAGATAATTTTTGTATTTTTAGTATAGATGAGGTTTCACCAGGTTGGCTAGGCTGGTCTC
AAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCACCGAGCCCAGCCTGTTTATTTATTTACTTATT
TTATTATTATTATTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTAGAGTGCAGTGGCTGCAATTTCAGCTCACTGCAAGCTCTGCCTCCCGGGTTA
ACACCATTCTCCTGCCTCAGCCTCCGAAGTAGCTGGGACTATAGGCACCTGCCGCCACACCTGGCTAATTTTTTTGTATTTTTAGTGGAGACAGGGTTTT
AACATGTTGGCCAGGATGGTCTCCATCTCCTGACTTCATGATCCACCTGCCTCGTCCTCCCAAAGTGCTGGGATTACAARCGTGAGCCACCACGCCCGGC
CTTATTTATTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAATGGCGCGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAAC
AATTCTGTCTCAGCTTCCCGAGTAGCTGGGATTACAGGTGCCCACCACCATGCCCGGCTAATTTTTGTATTTTTAGTAAAGACAGGGTTTCACCATGTTG
GCCAGGCTGGTCTCAAAACTCCTGACCTCGTGATCCACCCACCTCAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCGAGTCTT
CTAATGTGAAGTAGAGATATCTGAGGGACCTGAAACTTGTACAACTTGTGGAGACTTTGGGAAAACAAAGAGGGAACCAGGTACAGGGCATCTAGGGCCT
TGGACAGGGCCGTGCAAATAAAGGATTCTGAAGTTGAGGTGTCATTCGCTTCCCAGAAAACCCACCTCTGAATGAGTAACAAGATAGACAGAAAATGTAT
AAACGCACATCTTCATTTCTGTGTCAGACTTTCTGATGGATATGCATGCGTGCTGTCTCATTGTTGCAAAAATGAGTCTTTTAAGCCTATGAATAGGGAA
CTGAGCTGAGAGCTGTTCTTTATTCATCACCTTCCTTTGTGGCTGTAATCAGCTTCCGTAAAGAATCTATGCAAGCAGGCCGGTCGCAGTGGCTCACACC
TGTAATCCCAGCACTTTGGGAGGCCACGGTGGGCAGATCACCTGAGGTTGGGAGTTTGAGACCAGCCTGACCAACATGAAGAAACCCTGTCTCTACTAAA
AATACAAAATTAGCGGAGGATGGYGGTGCATGCCTGTAATRTCAGCTACTCGGGAGGTTGAGGCAGGAGAATTTCATGAACCTGGGAGGCGGAGGTTGTG
GTGAGCCAAGATCGCGCCATTGCATTCCCGCCTGGGCAACAAGAGCGAACTCCGTCTCAGAGAAAAAAAAAAAGAATCTATGCAAGCAAAAAAGTCATGA
GGTTTTCAGGTAAAATTTCAAGGACAATGCAGTCACTCAACTTTTCCCCTGTGTACGAGGCAGAAAGCATGGTGGCTGCACGCTGAAGCTGTGAAACTTC
TCAAGGAAATAGCTGTGGTAAACAATACAGGAGCGAGCTGCCGCCCGCTTGAAATGACCTGCAGGGCTGTGGCTTGTGGGCTTTGAGAACGTTCTGTAGT
CTTCCCTTGAAAGCGTGTGTGGTGATGACAGTCACATTCACACGCACTCATGCTACCGCAGATCTCTGCATTTCCACTCTGGTGACGTTTCCCCCGTACC
AGGGAGGGCTGAACATTTATTTCCTTTGATCTGATGACTGACTGCTCAGAGACAATAGATGATTGGATGAAAGAAATAGGGGCCCCTAAGAATAAACAAT
GTGTCCCTTTCCCATCCTCCTCRTCTCTTTTCTTCATTGGTTTTACTTTTCTTGTACTTTTCCCCTTTCACCAGATTTAGAAGCCAAAGTCAAGATTTGC
TGTTAGGCTGAGGAAAGCAAGCAGGCATTGTTTCAAACTCCTAGTGCATGGCTGACTATTTCAGTCCCCTGGCGGAGCTGTCCCACACGTCTCTCCCTGG
GAAGCCCTCCCTGGTCCCACCAGCCCTCTCTGCTCCTGTGTGGAGTGACTCTTGCCTTCTGATCCTTGGGTTTTGTACTCATCCCACCATGTTATGAGTT
ATTTGTCTGTGTGTCCATGTTCTGGCTGGGATGGGTCCTTCTTAAATGCAGAGATTGAGTCTCACTTCTTTTTAGATCCTCGATATCTGGCACGTGCTTG
ATACATAGAGGCCAATAAAATCAGTGTTGAACTGACACACTCAATGCCGTAACCAAACTGTGTTTGTCTGGATGCCGAAGTTCCACTGGGATACAGCATG
ACCAGATAAAGACCAATGGAAACACCTAGATTGAAGTTTTCCCCATGGCTGCCCGCGTCCCTCCCAATCCCAGAACAGTGGCTTAACTTCCTACTCTTGG
GCCTTCCTGAAGGGGAGATGGAAGGGTAGAAGAAACCCTTTTGAGTCGGGCTTGCTTTGTTCTGGCTGTTGCTCTAGGGCTGTGCCTGGATGACTCAGTG
AGTTCCCCAAACAGCCCTGTGAAGCAGGGATGGCTCCATGTCACGGAGGAGGAAGGCCAGTCTCCCAGAGATGAAGCAGCTGGCCTGAGAGCACGTGGCT
GAGTCCTGGCTGGGTATGAGCCCAGACTGTCTGGCTCCAAAAGTGACACAGAGACAGGATGGCTGAGTGTCGGGGGGGCTTCTCCACATGGCTGTAGGAG
AATGTTTCCTTCCAGGTGGTGCTGTGGTGTGGGATTTATTCATTTTTAATTGCCAGATAAAATCAGGCTGATCGATGGAGTGCTGTAAAACAAAGACAGG
CACCATTACAAAAATGTAGCAGGGGAGTTAGGAGACTGGATCTAAGCTCCGAGCAGGTGAGGACGGTGCCTGACTCAGTGCTTGGGACATCATAGAGCAT
TTAAGATCTTGTTGAGCAAATGATGGAGTGACCGAATAAATGTCATCCTGGGAAAATGGACCTAGGAGATTTCCGTATTCAAGCTATGAGATTGTGAATT
CCTGCGTGAGATGATTAACATACAATTTCAAAGATTCCTGTTAAATTCCAAAATGACTCAGATTTTTCTATGCTTTTTGGATTTCTGAAGACTGAGGTTT
TCTGCAGTGAGGACTCACTTGCCCCCTGCCCGTCCTTACTTCCTGCTGTACTTGAATATKGGCTTCCTGCCCTAGGAAGGAAGTTTGACATCGGAGTAAA
TCTCCGTGTCGCAATATTCTTCAGGTTTCTCAATTCAAGCCAAACATCAAGTGCCTCCTGGCTGGGTGATGGGGGAATCGCTGAAATCTGATATTGTCCC
TAGAAGGCAAACACTCAAGACAGAATGAAATCAGGGTCACCATCGAAATATACAAATTAGAAAGCAGTTAAATTTGAAGGAGCAATGGATCTTTATTGTA
AATGAGGAGAAAGTTTCTGAACTGGGTAGCCTTGATCTGGCCCTTGAAGGGCTAATAGTAAGAGTGAGGCTGCTCTTACTGTTAGTACCACGACTGTCAG
CCGGCATTAGCTGAGTGTACTTATGAGCTGAGCACTGTGCTCTAGAGGTCTCCACATGCATCAGCACGTTTCGTCATCATAGCACCKCCGTGAAGTGGGT
GCTGCACCTGTCTACTTCGTAGATGAGGACATGAAGCCCCAGAGGGCTTAAGTAACTTGCCCATCATCAGCTCAACAGCAAGTCGGTGGCAGAGGCAGCT
ACTCACCCACACAGCCAGCCCCCAGCCCTGGTCTCATGACTGTCCCCATCTCTTGCCTCATTGGGCAGAAGGAAGAGTGGGGCCGATGCGTGGAAATGCA
GAGCGCATGTGGTCAGGGAATGGTCTTGAATGAGGTCAGTATGGGAGTGGCGAGCATTCTGTGGGAACTGAGGATGGAGGAGTCAGGAGAACTGGATCGG
GAGGTCACGACTGGGATGCCTGTGCTTTAGAATGTGTTTACGGGAAGGGAAAACCAGCGTGACTTCACTGGAGAGTGGAAGAGTGACACATTCCCACCTC
AGTATTGTCACATCTGCCGTCTCTCACCCTAGAGATGCCTTCTCCTCCTTTCCAATCCTCACACAACTCCCCTCTTCTCCCAGGCCTGGCGGTGGCGTCT
CAGCCAGGCAGGTGTCCTGTCCTTTCCTGTCACCTGTCAGTCTTCCTCTTCCTCGTGGTCCATTCAGCAACATCACTGCTGCTCTGGGTGGTTGCATGTG
GTCGTTTGCCTGCAAGCAGGTGGGTGCAGCCAGTTCAGGACCCCTGTGACAACTATTCCTGTTACCTGCTTTGTGAGTGTTAAAAATGTCATCCTTGGCC
GGGTGCGATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTGACACGGTGAA
ACCCCATCTCTACTAAAAGTACAAAAAATTAGCCGGGCATGGTGGCAGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTAAAC
CCGGGAGGTGGAGCTTGCAGTGAGTGGAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAATCATCCACCT
TACTCCCTTACTCTATTGTTGTAGAAGGGCCTGAAGCACAAACCTGGTGTTGTGTGGTGATGGCGGGACAGTGTGGAGAAATATGCAGCGAATTTTAATA
GATTTCACAGAATTCCTTGACTACCTCATGTTCTACTTCAAAATGGCACAAAACCAAAAGCATTCAAGAGAGAATTACATTTGTTTTATCCATTTTTAAG
ACTATGTAAAGTAACTCCATGTGGTTTTTCATATCTTGCTAGTGTAAGTGACCAGAATTTAAATCTGTAAAGGTTCACTTTTTCTTGCTAATGCTGTGAG
GTGTTTGGAAGTTATCTCTGATCTTCCTGGTACTTACTATAGGCTCATTCAGTTTACTAATTAACTCCATCTGCCACCTTAAAAACCCTTAGTAGTGGCC
GGGCACGGTGACTCATGCCTGTAATCCCAGTACTTTGGGAGGCCGAGGCGGACAGATCAACTGAGGTCAGGAGTTCAAGACCAGTCTGGCCAACATGGTG
AAACCCTTTCTCTACTAAAAATACAAAAATTAGCCGTGTGTGATGGCGCGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGTCAAGAGAATCGCTGGAA
CCTGGGAGGTAGAGGTTGTAGTGAGGCGAGATTGCACCATTGCACTCCAGCCTGGGTGGCAGAGCGAGACTCTGGCTCAAAAAAAAAAAAAAAAAAAAAG
AGAGAAAAAGAAAAAAGAAAAAAAGAGAAACTGTTAATGGCTAGGAAAAACTTTATGAAAAAACAAAACAAAAAACCTGAAAGATAATTTTAAAATGAGT
AAATTGTCACCTAGGCATACTTTGTCTTGGAAAAATAGACTATGACTCTGTCTCAAAAGAAAAGAAGTAAAGGGATAGTGAATGATAATATGTACTTGTA
TATGTAAACTGCATGAGAAGACAAGGTGAAATAGTCAGATGTTTGCATACATCAAATCATATTAAGGACATTGTCTGCAGACGCGGGCCATCAATACATG
GCATAGTGATTCCAGTACCATAAGCAATGTTGCCCTCCATGATGTCTTTCTGAAACAATAAAAAATTCTTGTTAAAGTTTGAAATGAAACAAAATACAGT
CTTCCTTCCATTTACACACTAGTTGCATTTCTTTTTTTTTTTTTTAACTTATTACTATTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAG
TGCAGTGGCACTATCTCAGCTCACTGCAAGCTCTGCCTCCCAGGTTCATGCCATTCTCCTGCCCCAGCCTCCCAAGTAGGTGGGACTACAGGCGCCTGCC
ACAACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACRGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCTGCCTCA
GCCTCCCAAAGTTCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCCACTAGTTGCATTTCTAGAACATTTGGAGTGTACAAAACCCTGCAAAATATAC
TTTTAAATATGAGTTAAATTCTGTTGTTAATTAAAATTTTTTTTTGCCTAAATGACTTGTATGATTTATATGAAAATGCAAGACAGTTATTTGTCGCTGT
GACAATCATATATACTCCACACATTCCTAAAGATGGGGGTATGGTACTGCACTCATTGAAAAGCTGGAGCGAGTCCYGCTGAAATGAAGCAACTGTGGTT
CAATCGAATGCCCAACGCCATCAAGCCAGTGGGGACACCAGTGGAACACTGGAAACCAAAGAGAAATGACCTTCATAGCTTTCTGGTCAATCTTGATGCT
ACCATAGGATGATGCTCTATGCTATACCTCTTGGATCGTTGCAAAAAGTTACCCCTTCTTTGGAGTGGACCTTCCAAAGTTAAACAGAAGAGTACGTCGG
CCAGGCGCGGTAGCTCACGCCTATAATCCCAGCACTTTGGGAGGTCGAGGTGGGAGGATCACCTGAAGTCAGGAGTTTGAGACCAGCCTGGCCAACATGG
TGAAACCCTGTCTGTACTAAAAATACAAAAAAAAATTAGCCAGGCATGGAGGCACACGCCTGTAGTCGCTACTACTCGGGAGGCTGAGGCAGGAGAATCA
CTTGAACCTGGGAGGCGGACGTTGCAGTGAGCAGAGATCATGCCATTGCACTCCAGCTTGGGTGACAAGAGCGAAACTCCATCTCAAAAAAAGAGGGTAT
GTCTCAATCTTATCAATAGAAGGCTTTACTCATAGTAGTTGCTAAACCATAGGGTTGGTTGATTGTTGTTCTAAGTGCTAACCAAGTGCTTGAGTGACAT
GGTTTATAGAAGCTAGAATCAAGGTTTAGAGAAACTAGGATCAAAGTCTCTAAAAGTGAAGAGTAACAATGATGGGATGAATGCGGAATACACATACCTC
GAGTTCTCTAAGCTCAGTCCCAGGCAACTGGGAACACCAGAAGGTTTCCTGCTTTGGTCTGTATTTGAAATACTTCCAGTGAATTACAATGTAGTGTTAT
ATCCTTGGCTTTAATTTGAGGTCAATATAGTGATACAGAAAGTACAGTTTTGCACATCTTCTGCCAAGCCAGAAGGAGCTGTCTGTCTAGGGAGTTGATC
GTCTTAGTCTTTTCTTTTTTTWCTTCTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCGATGGTGCGATCTTGGCTCACTGCAACCTCTGCC
TCCCGGGTTCAAGTGATTCCCCTGCCTCAGCCTCCSGAGTAGCTGAGATTACAGGCATGTCCCACCAATCCTGGCTAATTTTGTATTTTTAGTAGAGACA
GGGTTTCACCATGTTGGTCAGGCTGGTCTCCAACTCCTGACCTCAGTTGATCCGCCCGCCTCGGCCTCCCAGAGTGCTGGGATTACAAGCGTGAGCCACT
GCACCTGGGCAATTGTCTTAGTCGTTTGCATTTTGAGGATGTCTTTCTGTATTTCTTTCAGTGTATTAAAGCTATAGACAGCATCTTGACTTTTCATTTC
GTTTTGTTTTGCTTTGCCTTGGCTACCAGGAAGGTCAGAAATACATTTAAGGTTGAAGTGGTCACTGTTTTACTTCCTGTTCTTAGTAGAATTATCAGTC
CTTTTTCACTGGCTGCTGATGTCTCTCTGACTTTATTTTAGCTGTCTTCTATAAGCTTTTATTGTAAGCTGCATCATATTTTTGTTAGATGTAGAATAGG
GTATAAATGACCAGTCAGTCAAGTCATGAACCTTAAGAACCTTGAACAGGCCGGGCGTGGTGGTCCATGCCTATAATCCCAACACTTTGGGACGCCGAGG
GCCYGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGGGCACCTGTA
ATCCCAGCTACTCGGAAGGCTGAAGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGACA
ACAGAGCAATACTCCGTCTCAAAAACAACAACAACAAMAAAAAACAAAAAACAAAAAAACCCGGAACAGCGCCTGGGGTGTTCAATAAATATTTACTGAA
TGACTGGATGAATGGATCCAGGAAATGAACTGAATTTCATTTTTCTGTAACGCGGAGTGAATGGGCACTAGGGGGAGCGTGAGCTCCCTCTTAGCCTTCG
AAAGGGCGTTTCCCACACTTGCACCTGGGGCCCACAGGCGGGGGTTTGGGAAAGTAAGTGTAGTGCTTTGTAATGATCATTGAACCCTGTATTTCTGAAG
TGCGTTAAGACCTAATAGCCACCTGTATGAGCGAGCGGTTGAGTATTTCAGATTCCCCCACCAGATTCACTGAGTGGTGTCATTACCAGCCAATACTGCA
GCTATGTGGTCCTGCTTACCTGGAGTACTGGAGACCAGAGCCAGAGAACGGAGCACAAACAGCCACATGAAAAGAAAGCACAGTGCACAGAGCAAGTGTT
TGCAGCCAGGTGCAAAAACTCTTCACTAAAAACACTCGAGAGCCAGGTGCAGTGGCTTACACCTGTAAACCTAGCACTTTGGGAGGCTGAGACAGGAGGA
CTGCTTGAGCCCAGACCAGCCTGCGCAACATGGTGAAACCCATCTCTACAAAATTAAAACATTAGCTAGGCATGGTAGCCCRCACCTGTAGTCCCAGCTA
CTCGGGAGGCGGAGGCTAAAGGATTGCTTGAGCCTGGGAGGCCAAGGCTGCAGTGAGCCATGATGGTGCCACTGCACTCCAGCCTGGGTGACAGAATGAG
GTCCTGTCTCAAAATAAATAAATGAAAACTCAAGAATTAGACAAACCAGATGGCTCTGGACCCAGTAGTACGATTAGTAGAGTGGAAATAAGAAGACAGC
ATGAAGAACTGAGGGGCAAGTTGAGAAGAATGGGCTCGTGCAGTTGGTGACTTGATGGCTAATTTGCACCTTGCCACTTGGCACTTGGTCACACACRGTT
TTCTATTACTTTCCTCTTTTCCAGAGACTCAGAGCCTTGGGGCACTGAGGGATGCCAGTTCTGCCTGTTCATCTGGAACCTGGATCTAAGGAGGGAAGAG
GCGTTGCCCCTGCTGGCATAGTCAGGTACCAGCCCAGCCAGGTAAGAACCTAAAGTCCTTGTTGCTTTGTGATTTTCCCTTCATCTAGAGAGGAGGCCTT
TGGAGAACAGGTCTTGTGGGTGCTTTGTCAGAGACTAGAAGCCGAGAACATCCCTTTTCAGAGCTCTGGGTTTTCTGTTCCTCATGCAACCTCTGCAGTT
GGGATGAATAATATATTTTAATTTTATTTTACAATAGGGAAACTGACAAATATTGAATTCCTGAACTGAGCAATCTTGGCCTGTAGGCCCATGAACTTGG
AGAAAAAATTAAATCTTTATTTTTATTAACCTTTAACTCAAATTTAGCATTTTCTTAAAATATGGATATAGGCAAGAAACCACAGTAGAATCAGCAGAAC
TTGTGACTTTGTCACCAACAGAAATCACAGATATTTTCATACCACATGATATGTTGTAGCTATCTCAAGACATTGTTTCTATTCATCACTACTTTGAAAT
TCTGGGAGTCCTTAGATCACTGCTAGATCTTAATATTTCATGCATCAAGGAACACATATATTACTATATTACAATTTTTAAATATTTCAGTATAATCAAT
TTCTTCCTATGTAACACAGCATACCTTATTTTATGCGTTTAAATACGTAGGCTTCACCAGACTACCAAAGATTAAGAAAAAGGTTAAGAACCTTTGCTTA
AAGGAAATGCTACCTTAGAGCTCTGTTAGCCTCTCATTCACTAATTTGCCATGGATCATAAATTAATATAATGCAGATTTTTTTTGAAGCCTAGCAAAGG
AAGTTTAGCTTTTAAAGCATTGAAAGGACGTCTTATCACTAAGGGATTCCCATAGATTTAATAACAAAAATGGTACTATAGGAAGTATATTGATTTGATC
TTCTGCATTTTCTGGATAAAAGGATGTATGCAGAACCTTTCAGCTGTCATTAAACAAAAACAAGAGCTAATGCATAAGGCAGCTCATGAAACTTATTCAA
GACTGTAAATAATTGATAGGCTGAGCTTGTGGTGGTGCTGCTTCATACATCCTTAATTGATTAAACATTTTTTGAGTGTTGAAGTTAATGGTAAAAATAA
TAGCCAACAGTTGGGAATGTCATTTTTCCAGTATTTCTTCAATTAGGGTAATGTACATTAAACACAGACTTTTACGTCCTCTGACCACTAAAGTTATGGA
ATCCATATTAGGAAAATTCAAGTTTGGAAGTTTGAGGCTTTTAGAAATATRAGAAGTGTTATTTAAGCAAATTTAAAATTTTACATTATCACCGCGAGCA
GAAAATGCAAGGGTTTGTGTAGAATATTTTGTCTTTTTGGAAGTAATGCTGCAGAGATACTTAAGCCAAGAAAAATGTTGCCATTTTTTGTTTTCTTTTC
TGCAGGTATTGAACGGGCTGAGCTTTTCATGATGGTTCCTGCTGACCTGGAAACATCTTAAATGGAAGGTTAGCTTCTATGAGTCACTGATACTCTTTTT
ATTGCTATTTCTAAATTTCCTTGGCTTGAAAATTACTTCTGCTTTGCAGAAATTATCTGCTTGCAGCTGTGGATAATTTATAACAATCTCTGGTGAAACC
TCAGAAAAGAGATATGCTTTTRTCTTAGATGGATGTCAGCAGCTGCTGCAGAACCCGGTGAAAACACCCCCCGGGTAGCACGAGGCTCTGCGAGCCGTAA
CTCCGACAAACGCAGAACTTCTTGAGGCTTTCTTCTTCTAAGGAGTATGACACAGTTAAAAAGGAAAAAAGAACCACAAGCAAAACAGTTGCCAGTGAAA
TAGGAGAGGGAGCTCTTTAAACAAGGCYGGCTGCAGCTGGCCTCCGCCGCTCATCTGCAGGGCGTGAGCGCTTGGTCCATGCAGTGAAGCTCTTCCAACC
TGGGTCAAYGAAAACGGAGAAGAAATGGCCCAAGAAATAGATCTGAGTGCTCTCAAGGAGTTAGAACGCGAGGCCATTCTCCAGGTCCTGTACCGAGACC
AGGCGGTTCAAAACACAGAGGAGGAGAGGACACGGTAGGCTGCCCTTCCCGGGGGGTCACTTTGGGTGTTTAGCTTTCTCTGCTTGGGGCCTGCCACTCC
GTCGCCAATGCTGTTTGCTTACAAATCACTACCCACCTGCTGCTGGGCTTCGTGCCTGAGAAGGGTCCTAACGAAGGTCTGTTGGTGGAGATGATCCTCC
TTATGTAACTAAACGTAGAGGACGCTCAGGAGGAGGAGGGAGGCCGCTCTTGTTATTCATTTAAAACGGTGCCTTTGGGCGGTAAGTTTGCTGTCTGCCA
TCTGCTTGTCTGTTTGCCGACTTCGTGGGAATCATTCAAGGGACATTTTCAGGCTTCCAGTTTACCCCTTCTTTAAGGAAAGACCTCCAGTTAAGGGTTT
TCCTACCTCATTTTTGACGGTGCCGGGAGGTGTAAAGAAAAGCAAAGAAAGAGGCTCACAAGCAGCAACTCTGATGGAATCCAGCCCTGTCTTTTTTTCT
TTGCTCGCTTTTGCTTCCCAGCTGGCTTTGAGGAAGGGGGAGCATAAAATATGAACCTGCTTAGCCTGTTTCCTGACCGCTTTGCCAACAGGGAACTCTT
CCCTGTCTGTCTCTAAGCTGCACGGGCCRTTTGATATGGGTCAGCATTTAGAAAAGCGTGCTGAACTCTAGCAGAGCAGYGTTCCGCCTTAGCTGTCAAG
ATCCATCTTTAAACAGGTTGGCGCTTGTTTATCAATGTCTATGGAGGAAGTGAGGGTTTGGTTTCTAATGGCAGAACACATTAGAAAACAAAACTTTGGA
CAACCAAATGCTTGAGGAGTGAGGAGAATTTTCTGGTATAGTATTCTTCATCCTCCCTGTTATTTCAAAGCTTTCTAAGTGCACTTGTAAACTTTCTTCC
ATTAAAAACTATAATACAGTCTGGGCGTGGTGGCTCACGCCTGTCATCCCAGCACTTTGGGAGGTTGAGGCGGGCGGATCACCTGAGGTCAGGAGTTTGA
GACCAGCCTGGCCAACATAGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGCGGTGGCAGGTGCCTGTAATCCCAGCTACTCAGGAGGTTG
AGACAGGAGAATCCCTTGAACCTGGGAGGTGGAGTTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGCAATAGAGCAAGCCTCTGTCTCAA
ACCAACAACAAAAAAACGAAAACAAAAACTATAATACAGTGAGAAAAGTGAAATTTTATTTGATGATGAAAGATCTTTCAGTGATTTGAGACATCCTTTT
GAATATTAACAAAGTGACATAGACATAGTGATAACAAAGTTGTATTTCAAAGGGTACTAATTCTAGGGTAGATCCTGAAAGTTGAATTTTAAAGTGCATT
TCTGATGTCATCTTGTTTCTTGGGATTGGCTCATCTTTTCTACAAGTAGGTATCACAGACATTCATAAAAGAGCGTGCTAGTAAATGACACCTTTTTGGT
CCAATACAGTATCTCTTTGCACTATGGCTATTTGTCTAGGGGAGTGGGCTGACCACTYATTAAAAAAAAAATGTAGCAAAAGCATAGCATCAGTTGATTT
TATTGGGCAACTTATACCCATAGCAGGATGTATGCTGTGTGTTTCTAGATTATTCCATGCCTTGCAGATTAGAATGGATGCTCCTTTCAGTGTCTTTTCC
TCTCCTTTCACTATTCTTGCTTACTATCATAACAGCCTTTGGGCAGGAAGGGATGGACCTAGCAGGGAGCTTCTCTGCCCCAGGCATGTTATTTATACTT
TGCCATTTAGTCCTCACAGCAACCCTGGGAGGTAAGGTCATATCACCTGTTTCACGGTTGAAAAAACCCTTGAGACTCGACTCTGAGATGTTGAGTGAGA
GCCCAGTTCACACAGCCATGTTGGAGTCCAGGGATGTCGAATGCCAAAGCCCCTTCCCTTGCCATGGGGGTTACTGCCTGGGCTCTTGCCCTATAGCCTG
GGGTCAGGTGTTCCATCTAATACTATCTTCTTTAACTCTGAGGGCTGCAGGAAACTGAAAACACACCTGCAGCATCTCCGGTGGAAAGGAGCGAAGAACA
CGGACTGGGAGCACAAAGAGAAGTGCTGTGCGCGCTGCCAGCAGGTGCTGGGGTTCCTGCTGCACCGGGGCGCCGTGTGCCGGGGCTGCAGCCACCGCGT
GTGTGCCCAGTGCCGAGTGTTCCTGAGGGGGACCCATGCCTGGAAGTGCACGGTGTGCTTCGAGGACAGGTAAGCATGGCCGGTGGTTGGATCCCTCCCA
CTGATTCAGGTCTCGGAGGAGGCCTCTTTACAAACCGCTCATAAAGAGAGCACTCACTCCTCACCTTCAGCCAGTAAATGTGTACCGAGTGCCTGATAGG
GAGCTACCTTTCTAGCCTTGGAAGTTATCTTCATCCAAAAATAAATTTTATGTAGCAACATTTTTTTCATTTACAGAAGTTTGGGCCAAGTGTGGTGGCT
CATGACCGTAATCCTAGCATTTTGGGAGGCCAAGGTGGGTGGATTGCTGGAGCCCAGGAGTTTGAGTCCAGCCTGGGCAACGTAGTGAGACCCCATCTCT
ACAAAAAAATACAAAAATTAGCCAAGTGTGGTGGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGATGAGAGGATCATTTGAACCTGGGAGCTGT
GATTGTACCACTGCACTCCAGCCTGGGCAACAGAGTGAGAACCTGTTTAAACAACAAAAGTTTGTTAAGTCGAAGGATGGGCTAACCCAGGAGTTCAGAT
TCATTTGGGTCTCTTAACTAAGTGCTGTCATTTTCTTAGCACTTAATTTATCTCCTTCAGTACCAGTGGAGTAAATTATAATCTAGGGAATATTGGAGTA
ATCATCTGAGGCTTTAAATACTGCGTTTTTGAAGCTGACCTGTCTTTAATACTCAGSTAAAGAAATGGACATGCTTCCCTTTAGTGACAGACTGAATCTA
CGTTTATAGTTATCAATTGGTGTTTAGGGGGTTTTAATACCAGTTTTAACATGGAATTGGTGTTTTTGCGTTCCCCATTCTGAAAACGATAAAGAGCCAA
CTTGGCTTAGACTCCYGCTGTTCAAAGCAAGAATGAACTGGCCATGAGCTCCGTGAAAACACTAGAGGGGTGACTCCGTCTGCTGGGGGAGACGGTGCAC
AAGGACATCACAGAACTTCGGAGAAGGGAAGGAATACTAGGCTGGTGTGAATGGGAGTCATCAGAGACCCTGAGATTTGAAAACAACTTCTAAATATTGC
CACAGATGTGTGAGTGCCCCAGGGACAAAGACTGTGGGAGGCACTTACACAGTGTGGGCATTGTGGCTGGGGTTTCTTCCCCCTAAATCCGGAGGGCTGT
GTTTAACGCACGCCCTGGCATTCATYTACTTAAGTGTCCTGTCCCTTTGCAAGGCTTACTGTATTTCAGTCATCTAGCCAGAGAGGTGAAGTGGTTCAAC
CTGATTTCTTTGCTCTTGAACTGCATTCCGTCCATTTCGCTCACAGCGTGCCAAGTCGCACGGAYGGTGGCCGAATTCGCCTTCTCATCTCATGTTTCTT
TGGTTTGCTGAAGCCATTGTCCTTCAGGCTTTTCCTTGCTTRAGAGCAAAAAATAATTACTGTGAGCTGCCCTGGCGGCATAGAGAGCAATTCCAAATCA
TCTCTAGAAAGGTCTCAGKATCTTCTTCCCCATTTCAACCAACCATATATATTTGAAGTCTAATAATAAACATTGCTGGGCAGGGTGTTACATTTCTCAG
CATTTTTTCTTCTTCTACCAATGAACTGTAAACGAAAAATCAAAACAAGAGGACAAGGTCTGAGGCAATCTCCCAGGAAGCTGACAGTGTTGAAATCTCT
GCCCTAGTGAGTCTTGTGTCCCAGGCACTGTAACTTTACCCTCTAAGTACATGAAATACGACTTCTAAAACCCCAGCTTCCTTATTTTGAAATGAGGTTG
GTTTTCAAAATACTTAAGGTCATTGCATTACTATGAGTGCATTAACAGGAGAAGTCGGGAGGGGAGAGAGCCAAGTAGTTTGTGGTGATGTGCATTTTCT
TTCCCCTCGCCTTGCTCCCTGTCCCCGCAGCCCTCTGTCCTCTCTCCAGCTTTATCCAGTCTGGGCTGTCCTCCTCCTCTTTAGGACCAAAAGAAAGATG
AGACTTTGTAAAACTTTAGAATCTTTGACATTCATAACTGTCGCACATCTGGGGACCTAGAAAAGGTTTTTGACCCCGATCATTGTCTCCCCTGCTTCTT
CCTTCGCTTCAGGCTCATTTCTCAAGAAAAAGTGGATCTGTGACAGGAACAAGATGAGGAAAATTGGTTTTTAAAATCAAGAAAGGGGAAGTGCTAGGGT
AGCAATGACCAAAACCAACCAACCAACTCGCAGGTTGCTGCAGAACAAGAGGCCTGTGGCAGGTGTTGGCCCTGAYCTTGTGTTGAGAGGTTCCAGAAGA
CATTTAAGATAAAGTTTCTGTCTTCAGGGAAGGTTTTCTCTTAGAGAACTGAGTGCCAAGTTGCTAAGGGCCCTGGGAGCTCAGAGAGGGAGAGATGAGG
CAGGCTGAGTGGCWCAAGACGACTTCCAGAACATCCATGGTTGGAATAGTCTTTTAATGTTTTATTAAAAGCATAAAACAATCGTGTGGGGTAGCTACTA
CTTTCATCCTCATTTTACAGTTGAGAAAGTGGAGGATTAGAGACACAAGATGGTTTGTCCATGTCATATCAGTAAGAACAGAGTGAAGATGGCAACCCAG
GTCCCCCCGGCCCCCAGGCCTCCTTCTGAATCTCCAGTCCTCTCCCGCCTGCTAGGAGCCTTGTCCTGGGAGGGCAGAGTCTTTTATTTATTTATTTATT
TATTTTGAGACAGAGTTTCACTCTTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCTGCCTCCAGGTTCAAGCGATTCTCCT
GCCTCAGCCTCCCAAGTAGCTGGGATTGCAGGCACCTGCTGCCACGCCTGGCTAATTTTTATATTTTTAGCAGAGACGGGGTTTCACCATGTTGGCCAGG
CTGGCCTCGAATTCCTGACCTCAGGTGATCCACCTGCCTGGGCTTCCCAAAGGGCTGGGATTACAAGCATGAGCCACTGCGCCCGGCCGGCAGAGTCTTA
AAAGCCACTTAGAAGAGCTTGCCTCCAAGACAGTAGGAGCTGGAGCCTGAGCATGTGCTCTTTGCCAAGCGAACACCATGCCGAAAGTCTGCCTGGTTTT
GCAGGGCAAGATCAGGAGAGCGGAAGGTAAAGGTAAAAGAGCAATCTGAGAGTTGCTGCAGTGAATGAGAGGCACCGAGGGAGGAGGCTGGTGGCAATAG
TGATGGAGAATGGGAGAGACAGGAAAAGGGGAGGATGGACCTTGGTTACAGGGGATAAAAGAGAAAGGTGAAAAGTGATTCTGAGGACTGGCCAGACAGG
TCGCTTGGCATGCTGAACTGGATCACGGGGCATCCGAGAACCGAAGGAACAGAAAGAGCCCAGTAATCAAAGGCACACTGGAAAGGACTTAGAAGAACCA
AGGAAAGTTGTTTTCAGTAGTGAAGGGGCTCCTGTTGTCCTCAGCAGGGGCCGATCAGAAGAGGGTGACTTGGGAGGAGAAACAAAGAAGTTAAAAGCAG
AAACATCCTTGTTTTCCACTGATGTTTCTTCCCGGGGAATGTATTGACACTTTCTGCAGTGAAATGGCAGATGGTAACAATTATGTTGAAATATCAAGGA
GGAGACTATGCTTTGTATGTTTGTTTTAGCTTCATYAAAAAAATAAGATTAACCTTGATGATTTATGTTTGCATTAATTTTTTCTATTAAAACGAATATA
CTGTRTCATAACTAATTCCACATCTAAAAGAAACCTGGTCTTCTCCCTTAAGATTGCTGAGGAATTACTCTTGTTCAGACTTGTTTCCTTCAAACTGTGA
TCTTCTTGTCATGCTTTGTAATTGCTGTGACAACAAATCAATGATTCTTCAGCTTCAGGTATCTGTGGACACACTGCCTGTTTCGTTAGGAACATTTTGC
TGCCAGTCAGGTGCTTTAGAACCAAATTGGTTTGTACAGAGAATTCTGTAAGTTGCAAGTATTTTAACAATGATAAAGGTGCAACGGAGCTTATATACCA
TCATTAGAACAGAAGGTTTCAAGTTGCAGCAGGTGATACTGTTGATTTCAGGGTACTTTCCTGAATTGCTCAAATTTGTCTCTTGTACCACACCTGATGC
CAACAAAGAGCTGCTTAAGTGTGTTCGGTTGAAAAATTGATCCAGACCTTGGCATTTTATTATTATGTCCTTAGTTCTCAGGTTGGGTCTTGAGTTATTG
CTGCAGAGCAGTAGTGGTTAAAATAAGATCTTGGAATTTATCAAAAGGGAGGTGAGCTGGATGTGGTCATCCACGAGGTCATGGATGTGGTGTGTATGCY
TGTGGTCCCAGTTACTCATGGAATGCCCAAGCGGGAGGATCACATAAGCCCAGGAGTTTGAGGCCAGCCTGGCCAACATAGTGAGACCTCGTCTCTGAAA
CAACTTAAAAAGGTTTTTTGTTGTTGTTGTTGTTGTCATTCAGCATTTCAGATAAGGACTTAAGATGTAAAGATATTGTTACAGGATGATGCATTGTATT
TTCTGCATTGCATGAAAGAATTTTTATTGAAAATGAAGTGACATTTCAAAGGAAGTTCTATTCTAATTATGTTTCTGCCTAAAGTAAACTTCCCAGATTT
TAGAAAATGTAATCTTTTAAATTTCAGACTGGTTTTCCCAGTACTTTTATAATCCCATGTTTTGATAAAATATTGAATTATCATTTTATATTCACAAAGG
CAAATAACTAGTGTATGAGAATGGGATAATTCACTCTCACTCTTGAAAATATATCTACYCTTCAAGTGAGTAAAAGGTCTAACTCTGCTAACTCTGTAAA
AGATTGAAAAGAAATTGAATGCCAAGTGTGATACAGGAGAGTTGGCAAGGAAAGATTTTAGCCTGGTGCCAAGGTTAAGATGATATTTGTCTACTGACTC
TTTCCTGTTTCAAAACCTTATTTCTTTTTTTCCCTCTAAATCCTACTTTTAACATTGCTGGCYGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTG
GGAGGCTGAGGCGGGTGGATCACTTGACGTYAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATATCTACTGAAAATACAAAAATTAGGCCG
GGCACAGTGGCAGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGTACAAGAATCGCTGGAACCGGGGGGCGAAGGTTGCAATGAGCGGAGATCACAC
CAATGCCCTCCAAGCTAGGCGACAGACTCAATCTCAAAAAAAMGAAAAAAAAGAAATGTACAGAGTATTTTTTTTTTTTTGAGACTGAGTCTCGCTCTGT
CGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGAC
TACAGGCGCCCACCACCAAGCCCGGCTAATTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCTTGTTAGCCAGGATGGTCTTGATCTCCTGATCTAG
TGTTCCGCCCGCCTCAGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACGGCGCCCGGCCTATGGAGTACTTTTTAGAAAAAAAAAGTTTCTTTTGT
GTTTACTAAAGGGAATGTTTTGACAATAGTGTGTGTGTTTTACTAAAGGGAATGCTTTGACAATAGTGTGTGTGTCATTCTTCTTGTTGAAACTGAACTG
TATTCTGTAGTCAGCACTTGATTAGTTAGGGAAAGTCCTGCCTTTAAAACCTTTYTGAGAACCGGTGAGCTTTCTGCGCATTGTCTTTTGTTAATATTCT
CTGTTGTCACCTTACGTAGTTCAGCTGAAACCTGTCACCCTGTAAGGGAGGGGAGCCCCAAGAGAGTTTTTCTGGGTTGGCATTTTGCATGGTAGCCAAG
ACAGTTTAGCATCCAGGGTTCACACCAAGAATGGTTTATAGATAATTTTATCGGTGGCTCATGCCTGTAATCCCATCACTTTGGGAGGCTGAGGCGGGTA
GATCACTTGAGGTCAGGAGTTGAAGACCAGCCTGGCCAACATGGTGAAATCCCATCTCTACTGAAAATACAAAAATTAGCCGGGCATGATGGCGCACCCC
TGTAATCCCAGCTACTCTGGAGGAGGCTGAGGCAGGAGAATCTCTGGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGACAGCGAGACTCAGTCTAAAAAA
AAAAAAAAAGATAATTATTTAAATTATTTAGCCAATCATTTTGAAACCTCTATATTTTTATAATTATTATCTATATGTTATACAGCATCTCTTTCCATAA
TTATTTTTGTTACCTTCAGTGTTTTCTGATTATATTTACAACAATATTTTAAACCAACTTTGCATTTTATAACTGATTCAAGTGCTCATTGCTAGTCTTT
GGAGACCATGATTTCCCAGTTTGCAAGTTCTTTATTTTGATTCATTTTTCAATCACTTGAATTGCCTCCTTAAGAAGTTTTTCCTCACACCTGTAATCCC
AGCACTTTGGGAGGCCGAGGTGGGCAGATTGCCTAAGCTCAGGAGTTCATGACCAGCCTGGGCAACACAGTGAAACCCTGTCTCTACTAAAATACAAAAA
ATTAGGTGGGCATGGTCGTGTGTACCTGTAATCCCAGCTACTTGGGAGGTTGAGGCAGRAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCG
AGATTGCACTACTGCACTCCAGCCTGGGCGACAGAGCAAGACTGTCTCAAAAAAAAAGTTYTTCCCCAGGAGAGGACTGTGAGTGGTGTATTTTCCACGT
CATTGCGTATTTGAGAGTTGCTTTCCGTGGTCTTCCTTCATGAGGAATGATTTCACTGGGTTTTAAGTCCTGGGTTGCCACTGTTTACTCAGTAAATGCA
GCCATGTTGCCTTTTGGAATTTAACATTATGGAGACAGCTGATGCTAGTTTTATTTTTATTTCATTGTTTATCTCCTGATTTTTATGTAGAAGAAACATA
CTGGTTTTTTTGTTTCTTTTTTTTTTTTTTGGCAGAGACTGCAGCCTTATTCTCTTTTAAAACTTTTTATTTAGTTGGTTTTTAATTTTTTTAATTTAAT
TTTTTTTTTGAGACTGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATATCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGAGTCT
CCTGCCTCAGTTTCCCTAGTAGCTGAGATTACAGGTGTGTGTTACCACACCCAGCTAATTTTTTGTATTTTTTTRTAGAGATAGGGGTTTCACCTTGTTG
GTCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCTGCCCGTCTCGGCCTCTCAAACTGCTGGAATTTCAGGCGTGAGCCACCTCACCTCACCTAGTTA
GTTTTTTTAGAGACAGGGTGTCACTCCGTCACCCAGGCTAGAGTACAGGGYGTGATCATAGCTCACTGCAGCCTCCAACGCCTGGGTTCAAGAGACCTTC
CTGCCTCAGCCTCCCAAATAGCTGGGACTCCAAGTACGCACCACCACATCTGGCTGATATAGATATGTTTTAAGACAAGGTCTTACTATGTTATCCAGGC
TGGTCTTGAACTCCTAGCTTCAAGTGACCCTCCTGCCTTGGCCTCTCGAAGTGCTAGGATTGCAGGTGTGAGCCACCATGCCCAGTTATTTTTTTTTTCT
GTATCCTTTTTATTAAAAACAGTTTCTAATATGTGTCTGGGAATGATGTTTTTGTGGATTAAGGGCCGTTCTTTTGAGCTGCTCCCTCTTGGGTCTCCTG
GGTTTTTATTTCGGTTTAACTCAGTCATGCTTTCCTCAGTCAAGTCTGATTGTTCTCAAGATGCTTTCATGCCACTTACACAGCTTCTTTGGGAAYAGCA
TTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTAGAGTGCAGTGGGGCGATCTCGGCTCACTGCCAGCTCCACCTCCCAGGTTCAC
GCCATTCTCCTGTCTCAGGCTCCCGAGTAGCTGGGACTACAGGCGCTGGCCACCATGCCCCCCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACC
ATGTTAGCCAGGATGGTCCCAATCTTCTGACCTCGTGATCCACTGCCTCAGCCTCCCAAAGTGCTGGGATTAAAGGTGTGAGCCACCACGCCCCGCCAGG
AACAGCTTTGAAGGCATAAGTTGGCTTCCTTTTCTCTTTGTATTAATAATCTTCTTCCTCGGGCCGGGCGTGGTGGCTCACACCTGTTATCCCAGCACTT
TGGGAGGCCGAGCTGGGCGGATCACTTGAGGTCAGGAATTCAAGTCCAGCTTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGTT
GGATGTGGTGGCACATGCCTGTAATCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATCGCTGGAACCTGAGAGTTGGAGGTTGCAATGAGCCGAGATCGC
ACCACCGCAGTCCACCCTGGGCAACATAGTGAGACTGTGTCTCAAAATAATAATAATAATAATAATAATAATAATAATAAWGATGATGATGATGATAATC
TTCTCCCTCAACATTTAATGTCTTTTTCTTTCTCTTTCACATTCTGGCAAGTGTCTCTGCCAAGTCAGCCTCACAGATTCAACTTTCTAGCCTGCCATTT
CTGCTCTTTTCTGCTGATGAAACAGTTCATTCTGCTTTGGCTCTGTTAGTTTATGAAATATTCCCTTATTGTAGTCCCACCGTCTCTTCATCCTGGCTCT
TCCTTCTATCTTGCTGTGTCTTTTTCTCAGAGGTGGGTCTTAAATGTTTTTGGAGGCTGACTGCTTTCTGAAAGTTCCCTCTGGTTCCACGGTGATGCAC
GGTCACAGAGGCTGCTGGCCTGGTCTTCTGGACTCCATGTACCCTGACTATGGCATTTTATCGGAAGCTCTTGGTTGTCTCTTTAGAAAGCCAGGTTGAG
CGGTTGCCCACAGAGAGCGTGTGCTCCTGCTTTCGGCCTTCTCATCGCCCCTCTGTCGTGGTGGATCCCCCTTCTTAGGTCTACAGGGAGAGGACAGGTC
GGGGCACAGCATCTAACCGTTTTTATYGCCAAGGCCTTAAACAAGTACGGCTCTGTCCAGCTGCAGTAGAATTTTTCCTAATTTCATTGACTGGTTATCT
GATATAACAGACCAGGAGTCACAAACTTGACATCAACAGACGACAGACAGGGCACAGACCTTGTTTGTTCTGACCTGCGCAGTGTTTAATATTGATCATT
TTAGTGCTTCAAAATGGGTGTGTATCCTCTGGTTAAGCAAGTTCCCACCCCTCCCTGTTGTCTCCCCTCCCAGCCCCCTTCCCTCATTTACAGTTTCTGC
TTGGGCCCTCAGTGTGTGGCCCTGCCCGACACAGTTAGAGGGTGTGACACCTACTCTATGTACATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACAC
CTTATACAAAAATTAATTCAACATGGATTAAAGACTTAAATGTTAGACYTACTCAATTTCAGTGCACACTGCTACAAGGCTACACCTATTTTGGATCCCA
CCTTATCTCTTTAATTCTAAGGATGCCCCCCTGCGGAGGGGAGGATATTCATTCATTCACTGGGGCTGTAATGTGCCTGGCCAGAGCTTGTAGCTGTGAA
TATAGCACTGGATGTGACAGAGAGGGGGGCACCTGCCTTCTCTCTGAGGTTAAGCAAGGGAGAGTTATTCGTGTTTTGTAAGAAGTGTTGGTAACAGCTT
GATAAAAACCCTTTCTTTATCTTCATCTTGATTCTCTGACTCCTTTGATAGTTACCTAGGATTCAATCACAATGATCAGTCTTTTTTTTCCTGTAAGGAT
GTGGAAATCAGATCAATTGAGCTRGTGGAAAAAAACGAGTATTTTGCTTTGTAACTATGAACCATTTTAGATGCGAGACTAGTTGAAGTAGGGCCGGTCA
CAGTGGCTCACGCTTATAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTGGCTGACATGATGCAATC
CCATCTCTACTAAAAACACAAAAATGGCCGGGCGCAGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGATGGGCGGATCATGAGGTCAGGAG
ATCGAGACCATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATAAATTAGCCGGGCGCGGTGGTGGGCACCTGTAGTCCCAGCTGC
TCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAATGAGCCAAGATGGCACCACTGCACCCCAGCCTGGGCGACAGAGCGAGA
CTCCATCTCATGGATAGGAAGAATCAATATTGTGAAAATGGCCATACTGCCCAAGGTAATTTATATCCCCATCAAGCTACCAATGACTTTCTTCACAGAA
TTGGAAAAAACTACTTTCAAGTTCATATGGAACCAAAAAAGAGCCTGCATTGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTAC
CTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAACAACATGGTACTGTTACCAAAACAGAGATATAGACCAATGGAACAGAACAGAGCCCTCAGA
AATAATGTTGCATATCTACAACTATCTGATCTTTGACAAACCTGACAAAAACAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAAC
TGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATTAATTCAACATGGATTAAAGACTTAAATGTTAGACCTAAAA
CCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGC
CAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACCACCATCAGAGTGAACAGGCAACCTACAGAATGAGAGAAAATT
TTTGCAACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCTATCAACAAGTGGG
CGAAGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGCGGCCAAAAAACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAAT
CAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGTGATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACA
CTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGACAGTGTGGCGATTCCTCAAGGATCTAGAACTAGAAATACCATTTGACCCAG
CAATCCCATTACTGGATATATACCCAAAGGACTATAAATCATGCTGCTATAAAGACACATGCACACATATGTTTATCATGGCCCTACTCACAATAGCAAA
GACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAAGGATGAG
TTCATGTCCTTTGTAGGGACATGGATGAAGCTGGAAACCATCATTCTCAGCAAACTATCTCAAGGACAAAAAACCAAACACCGCATGTTTCTCACTCATA
GGTGGGAATTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACACCGGGGAATGTTGTGGGGAGCGGGGAGGGATAGCATTAGGAGATATA
CCTAATGCTAAATGACAAGTTAATGGGTGCAGCACAACATCATGGCACATGTATACATATGTAACACACCTGCACGTTGTGCACATGTACCCTAAAACTT
ATAATAAAAAAAAAATGAGCTGGTTGTGGTGGTGGGTGCCTGTAACCCCAGCTACTTGGGAGGCTGAGGCGGAAGAATCACTTGAACCCGGGAGGCAGAG
GTTGCAGTGAGCCGAGATCATGTCATTGCACTCCAGCCTGGGTGACAAGAATGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGACTATTTGA
AATAAAAAAAATAAAAATCCAACTGTATGCTTGCATAGGACTAATTTAGCTGGGAGTTACTGAGCAGTTGGACAAACTATCATGAAAAAATTAGGCTGAT
CTCAGTTTTACAATATGCAGCTTCTGCTGCTGCTGCTTTTGTTGTTGTTGTTGTTTTAATTTTATTTGAGAGACGGTCTCACACTATTGCCCAGACTGGA
GTGCAGTGGTACAATCTTGGCTCACTGTAAATTCCACCTCCTGGGCTCAAGCAGTCCTCCCACTTCAGCCTCCTGAGGAGCTGGGACTACTGGCRTGCAC
CACCATGTCTGGCTGATTTTTGTATTTTTGGTAGGGATGTTGCTCAGGCTGGTCTGGAACTCCTGCGTTCAAGCAATCCTCTCGCCTCGGCCTCCGAAAG
TGCTGAGATTACAGRCKTGTCCCACCAATGCGACTTCTTGATTTGAAGTTTTTGTAGTTCATGTGTCTAAAGGATCTCTGGAGACCTCCTTGCCACTGGG
GTACTGGTTGGAGAACAGTTCTGCACAGGAGATGTGCTTCTTTAGGGATTTGAAGAATCCTGGCTGTGCAGACCAATTTTCTACTTCTTGTCAGTTGAAT
GGTGAAAATACGTTAAGCAACTCTAGGGACATCATGCTGACTTTTCTTGGAACATACAGTGTAGATGCAGTAGCTTAGCCACCTGCAGATGCAAGCAATT
TAGATGCAAAATGCATTACAACACGTGTGTTTGGCTCACTGCTTGGTGTTAGTAATGAGGTCAAAATATTTTCTGGTAGAGTCCTCCATTCATCTTATTG
AACGTTTGTGTGCTAGAATTTGCAAAGTGTTTTTCAACAGTTATTTCTCCTTTGATAATGAAATGACAGCATTAACAGAATTCAGGGCTGTGAAAATGGA
TGCTGAAAACCCCAGAAGTTTATTAAGAGCCATCTAGGCATCCAGTGCTTGGCATTTGTAATTCTAGTGATCCTCATGCAGTTAATGTGAAGGTCAGTCA
TGGGTCAGGTCTCCTGATTCTATAGCTTCGGCCCTCCCCACCACCCTAGGCTTTTGCCTTTTGAGATATATTTATGGGCTAATTGAAAAAATTTTTAAAG
AAGTGAGTCATGATTCTGAAAAGTTTAAGGGCACAAATTTATTGCTGAACTCATAAATCTTCCAAGAAACTTTCATAACCTCATTCTGATTTAATCACCT
GGGAAGAAGTGCTAGATGCTTTCTTTGGTTACTAATGAATCACACTACCCTGTGTTGGCCCTAACATGGACAGAGACTACAGGATCTATCACCTCTATCA
TAGACTCTAAGGGCAGTGAGTGGTCCTCCTTTGTAAACTTGGGATTAGGCCGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGC
AGGCAGATCACTTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAACCCTGTCTCTACAAAAAATACAAAACTTAGCCAGGCATGGTGGTGC
ATGCCTGTAATCCCAGCTACTTGGGAGGTTGAGGAGGGAGGATCACTTGAACCTGGGAGGTTGAGGCTGCAGTGAGCCGAGATTATGCCACTGCACTCCA
GCCTGGGCGATAGAATGAGACCCTGTCTCAAAGAAAAAAAAAAAGTCTTGGGATTAGTGCAGACAGGGAGTCCTTACAAAAGATATTGTGGAATAATTGC
TTATGAAGATGCTGATTTTGCAAGAAAGGGTAATGGACACCCGGGCCAAACCTAGTATTCAAAGCAAGCAGTCTCAAATGCAAAAAGTGCTGGTTGTCAT
ATGGTTTAGGGATAAAAATACTGTGGTATTTTTACTTTATTCTTTAATCACAGATAGGCCCAAGAGATCCTCGAGTTTATGYCCAAATCTCTATATGCCA
AATTAGCTCCTGTTTAAACTGCACAAGTAATCAGTTGGAATTAAATGAGATTAGATGGTTCTATTAGATGATTCGCGCTGGGTGACTAGGATTTTAATTT
ATCTACTACTTGTGTAGGTTCTGAAACCAGGGCTGGAGTCCTTTCAATGATTTGCAATGTTCATTCACTTAGGCACTTTCACCTTTTGCTCTTCCCTCAC
CTTAGCTGTTTTTCATTTTCTGTGATTGTATGTCTGTCTGTGTGTGTGTTTACTTATCGATGTTGTCCCCCTGTCTGATTAGCTCAGTCGACTGTAGCGT
CTCAGATATGGATATTTTGGGCCCAGTGGTAACGGGCTGGAGCATGTGAGAGAGGAGATGAGCTGAAATGGGTCACTCACCAGAAAGGCAATTCTGCAAG
TAAGGTGCGTTTATCAGGCGGGGGCCTTGTAATTCCTGCCCTTTGGATTTGCTTTCTGTCCCCTCCTCTAAGGATTAGACCTTGTTCTGTTTGCCAGGAC
TGAAGAGGCATCTTTAGAAATTGAATATGGAGAGGTGCAGCCCTTCAAAGGCATGGGAATTTACCACCCATGACTCCCTCTGGACTTGCCCTGATTTTTT
ATGTTYTGCTTCCCACAAGTRCTCCAGGGGAAAACTTYTGCCTAGAGGCTGAGACTGCCTTAAGGTGTTTTGTGTTGATGTAGGGGATTAGATAATTGAG
TTTCTGACTTTATGGATGCAAACTTTTCCCTGTCTTTGTAGAGACATATCACAGTTGTACACTTTATATATTTTTGGCTCTGAATGGTAATGACTGATTA
CCAAAATTYTGTTATAGGCCAGATGCTGTGGCCCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATTGCTTGAGCTCAGCAGTTTGAGA
CCAGACTGGGCAACATAGCAAAACCCCGTCTCTACAAAAAAAAAAAAAAAAAAACACAAAAATCAGCCAGGTGTGGTGGCACGTGCCTTTAGTGTCAGCT
ACTCAGGAGACTGAGGTGGGAGGATCGCTTGAGCCCGGGAGGCAGGGATTGCAATGAGCTGAGATCGCGCCACTGCACTCCAGCCTCAACAACAGAGCCA
GACCCTGTCTCAAAAAAAATTATGAAATTCTTAAATGCTCTTTCTATATTTTCCTTGTTCTAGTCACTAAGTATTGGTAGTAATCATTTATGTACTAATC
AGAAAATAGTAGTGTCTAACCAGATGAAGGAGAGAAAGTTAGTTGATATCTTCTSACAATTACTAGCACTTCATAGAGAAAGATAGCATATTTTGAAAAA
CGTGCAGATTGGCATATATTTGTGATTTTACTTACATTAGCAAGCATTAATTTTCTAAAAAATCCACTTGAGTTCATGTATAGCCTGAAAGAACCTAATG
GAGAATTTATTTCAGTCAATACTGTAATTTATAGAAGAGAMTCAGTCATGAGTTGAAGTTTTAATTTTTTTCTTAAATTTGCATAACAAAGGAATTGGCC
AGTTTTGTGGCACATTATTTTAAGGATGTGAAGATCTTATAATATTTACATGTTTGCCTTTTTATATCCTAAAAGGATATTAACAATTCTGCCTTTCTGA
GATTGAGGTTGAGTATGGATTCCCCCAGAAAACCAAGAGGAAAACCCATGTTAGGACGTCAGTTTGGAGCAGTTAGCGTCTCGAGTGCCCTCTGTGCTGT
CATGCATGTGACTAAGATGGTAGGAGTTAAAGTCCTGCCGTAGGGAGCTGCTGTCAGACCAGTGGGCCAAACAGGGCTCCTTTCCCATGATTCACAAGTG
GTCTGCTCAGGTGGATCGCCTGAGGTCAGGAGTTCGAGACCAGCTTGGCTGACATGGCAAAAACCTATCTCTACTAAAAATACAAAAATTAGCCGGGTGT
GGTGGCGGGCACCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATTGCTTGAACCCACGAGGGGGAGATTGAAGTGACTTGAGATCGTGCCACT
GCACTCCAGCCTGGGCCACCAGAAAAACAACAACAACAACAAGAACAAGTTGTCCACTCAGATTTAAGCCCCCAAATCTCCATCAACACACATTGATCCC
ATATTCCATACTTCAGGTCCTCCCAAGAATCTTCTCAGGTAACCCTGCTCTGTGGGCTCTTGGAGAATGTTGTAAACACAAACTAACCTTAGCTTAACCT
ACAGCTGATCTCCCTCCAAGCCCAATGCATAACATCGAGTTTTCCTGTAGCCCATCACTTGTGCCAAGAGCGTCCCACAGTTGACATGATACATTGGTCA
TTTGTGGTGATGTTGAGATGGAGGCCTGCTCTGTCACCCAGGCTGGAGTGCAATGGTGCAATCTCGGCTCACTGCAACTTCCGTCTCCCAGGTTCAAGCG
AAAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCATGCCTGGCTAATTTTGTGTTTTTAGTAGAGACAGGGTTTTGCCAT
GTTGGCCAGGCTGGTCTCGACTTCCTGACCTCAAGTGATCCACCCACCTTGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACCGCGCCTGGCTGA
TACATTGGTCATTTTGATGATAATAATTTTGTTTCTCTTTGTGTATTTGTTCACAAAATATTAAGTACTGGATTCGTGCTGGGCACAAGTATATGTTAAT
ATGCTTAACATTCACTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTGGCTCTGCCGCCCAGGCTGGAGTGCAGTGGCGAAATCTCAGCTCACTGCAA
GCTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCATGCCTGGCTAATTTTTTGTATTTTT
AGTACAGACGGRGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCAT
GAGCCACCACACCTAGCCCATATTCACATATTATACATTGAACGTACACATGACATGCAAGATAAAACACATAGCGGTGGGAGTTGCACAGCTTTGCTGC
TGATACTGAAATCACTTCGCCTCTATGGGGAATCTGTAAATTTAAGTGTTTAAGCCAGGAAATTGATTGCTGAGGTCCATTGCAAGACTAATATTTTGTG
ACCTTACCTAACCCTTAAAAGGGGTAAATATAGCACTATTCATATCTTCTCTCTCTGAAGCTTCCTTTCTGCTCATTTTTTCAGGAATGTCAAAATAAAA
ACTGGAGAATGGTTCTATGAGGAACGAGCCAAGAAATTTCCAACTGGAGGTAAATGCTCTTTACTTTTTTAGTAAAGTAAAATGATCTATTCCTAGTTTT
AAAATATTTGATGTTAAGACTTTGGAATATAAGCAACATGATGGGTGTAGTCTGCGGGCCCCTATGTCTTGCCATTCCATTTGCTGATGCTCTCACTGTA
ATTCACGCTGCTCATTCCCTCTGCTCGCTACTCTTCCCTCTGCTGCATTTCTACCTCTGAGGTTGGCCCTATTCCTTTTTTTTTTTTTTTTTTTTTTTTG
AGGCGAAGTCTTGCTCTGTTGCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCATCTCCTAGGTTTAAACGATTCTCCTGCCTCAGC
CTCCGGAGTACCTGGGATTACAGGCACGTGCCACCACAGTCGGCTAATTTTTCTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTC
GATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAGGTGCTGGGATTACAGGCGTGAGCCACTGGGCCCGGCCAGGTTGGCCCCATTCTTTAAGG
CTCGTGCACTACAAGGTTTCCCTGGCTTCCTGCTTCTAGGGGTGATGTCCCCTCCTCTGAAACACCATCAGTGCTGGGTTTGTAATTCTCTTCTGTAATT
GTTGCAAAGTTCCTTATATTGTAGCATTGTTTGTGCACTTCTGTTTCTCTCTACAAGCAGTAACTGTGATTTTAAAATCTTGTTAGCCCATATTGCGCCA
AAGCACAATACCTTGTTTATAATACTTGAGCAAGATGATTGAATCAGTGAAGACCACAGTGAGTGAAGAGCGTTTGAACTGAGCAGAGGTTGATGCTTGT
GGAGTGAGCGCATGTTGCGGTAATATGGGTGGAAGCATTTTGTCCGTATACTGTGAATGTCTTATAATGAGATGTTGACCTAAAGAAGGAAACTGAGGCA
AAACTAATACAGGTGGAGAGTTTATCTGGGCCAAGGCTGAGGTCTGCAGCCCAGGAAACACTTCCAAGGGCTCTGGAGAACAAAGGAGAGAAGGGTGAAT
CAGGAGAGGGGCGATTACAAAAGCTGGTTTTCAGGAATTCTCGTGGGTTTACGGAAATACCCGTAATTTATTCATGATTCATGATTGGCTATCCATTGCT
GAGCTATAGGCTGTGGGTGATGGTGTCCAGTGTGTGGCATTGTTAGGATAATTTATGGCTATTGGTGGTGACACTCAATCTAGAGTCCGTAGAGCAAGTG
GCTTTGAAATGATTAGCCCAAGTTGGGGGACGTGATTGCGGGCTCATTTCGGTGTCTCTCTAGGCCTGATACTTTAAAGGAGGCTTGTGTTTCTTAGATT
AAAAGTTTATTTTCTTTTTCAAAAGTATTTGCAATGTATGKTGTGCCAGTGTAATTGGTAGCTGGGACCTGGAACTGTGGAGAGAATGATTTGTGCTTTG
ATCACAGAAGAGCTGTGATGGGGCATCAGGACAAAGGCGCACACAGGCACCGTCACGGTGGAGTGCAGGCAGGTGCTGTGGGAACCACATCTGACTATAT
CAGGGATGCGGGCAGCACCCCTCCTCTGTGATGTGATGTTGGGGACCTAGACTCACAGCCTGACTCAGAGGGCAGCGGTGGCTCTTTTCTAGAAAAAGTG
GCAATTTGCAGGTAGGGAAATAAGCCATAGAACCTCACCCAAAAGTTTGTTGGCAGTAAAGGAAGCCATTCATTTGGGTTGATATTCAGCTTTTATAAAG
GGTGGATTTGCCCAGGTGTAGATTTGGTTGGTACTAAATTATCCCATGGTTTATATTCCTGGCTCTTCTTAAAAAAAAAAAAAAAAACGCTGCTTCTGCC
AAGTTTATTGGAAACCTGGAGGAAAAAACTAATACTAAGGGTCATGTCAGGCAATGGAATGAAGCAGGGTTGCTGTTTCCTCTAAGCCAGTGTTTCTCAA
CAGCTTCTTACCGCCACCCTCTCCCCTACCCCACATAGCCTTTTTAGAGACTTTTTCAAAGTTGCTACCATAACCTTTTGATATCACAGATATCATATAT
CTATGTACTGAGGCCTTTTGGAGAGCCACAGACGGTTGAAATAGGTAAGATTTGCTACCAATCTTTGTCCCCTTAGGGGTGCCGTCATCCCATGTGGAAT
GTGTGACCTTGGCAAAGCAACTGCAGCACAGGACTTTTCTCTGTTTTTATTGCTTTTATGTCTCTCTCTCTCTCTCTTTTTTTTTTTTTTTTAGATGGAG
TCTCGTTCTGTCATCCAGGCTGGAGTGCAGTAGCATGATCTCAGCTCACTGTAAACTCCTCCTCCTGGGTTCAAGGGATTCTCCTGCCTCAGCCTCCTGA
ATAGCTGGGATTACAGGCACACGCCCCATGTCTGACTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCTTGTTGACTGGTCTTGAACTCCTGACCT
CAAGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTATGAGGCACTTCACCCGGCCACTTTTGTGTTTCTTTAAAATACTTTTTTGACC
GGGCCCGGTGGCTCACACTTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCATCTGAGATTGGGAGTTCGAGACCAGCCTGACCAACATGGAG
AAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGCACCTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTAAAG
CTGGGAGGCGGAGGTTGCTGTGAGCCGAGATCATGCCATGGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAACAAACAAACAAACAAAA
ACAAAACCTTTTTGTTGGTGGGCTGGAGCCTTCTTCAGAAGGTAGACTCTACCCTTTTCCACATCAATTCCTAGCTTATAAACAGTAGTGCTGTAGGAGG
TGAAGTTTGTCATTTCTCAATGCCAGCTAAGTGCAGACATCTGCTTCACTCAAAAAGTTTTCTACGTCGTTAGAAGTTCTAGCATCATTATTTCAGGTAA
GTAGTTTTCATGTGTGCATGAATGTATGTGTGTGTGTTTGTGCACACACGTTACCATCTTGTCATCTTTTCAGCACTTCATGTCTCCTGAGTGAGTGGGA
GAAGTATGTTATCAAGGTGACTTAAGATAAAAAGGGAATTAGGAAAGAGGTGAGACTGATGTCTTAGGGTTTTCTTTCTTGCCTTATAACTTTAAGAATA
AAAACTTCAGTAAGGACAAACAAACCAGGGTCAGGAAGATCAACCTCAGCATAAATCATTCTTTTTTGCTGATGTCGTTTCTATCAATGTATAAAATAAA
CACCAGAAAAGCCCTAACTTTCCCTCCTTCTCTACAATGCTTCCTCAAATGCCAGGGTGCCTCATTTTCCCATTGTCCTGTTTCAGTAGAGTTGGGGTAA
GAGGCATGGAACTATGGGGGAAAATGCCAGGTTAGGAGCACACAAGTAGTGCTATGAGCCAGACCAGGTTGGGTGGAGTTTGCAGCGGGTGCGTCAGGAA
AGGTAACAAGGATCAGGTGACAGAGGTTTAGGTGGACAGGCAGGAATTCCACCACGCTCCTATTTGTGGCCCTAAAAGAGAACCAGGTGCAGTCATTGAG
GAGTTGAATTGAATTTGTGCTGCAGCAGTTAAGATCCACTTAGGGAAATAGAAACTGTCTGGTTATTTGAATAAGAATTTACTTTAGGGATTGGTTAGAC
AGGAATTGGAGGCAAAAAGGGAATAGTGAGAGAACAGAGCTAGCAGCTGCAGGAGGCAGACACCCTCCGACCCTGTTGAGCTGATGCTGGCCAGACACAG
GTCGGAAGGAAGGCATGAGCCCCTTCTCCCTCCTCCTGGCCCTGGTCTCCCTCTGGAAGCCCCCACTGGACCCTAATAGGGAGGCAACTGCAACCTCAAT
TCTCTGATGTGTTCCGGAAAAAGTGGTTTTGCATGTTCTCTAGTGTTTTTGTTGTCATGGTACCGGCAATACTCTTTCCAGCCCTCTATATCCTGAGCAG
AAGTTAGAAAAACTAGATGGTGGTTTAAACCACAAAAGTGTACAGACAGCTCCAGTCTGTGCCTCTTTCCACGCACTGGTTATCTATTGCTGTATAGCAA
ATTCCCCTCAAACCTAGTGACATAAATCAAGTAACATTCTTTGACAGTTTCTGTCTTCAGTGGAAGGCTCGCCTGGGGCTGGGGGATCTGTGCTCTTGGG
GCTTACCCTCATACCTGGCCAGTGACTGCTGGTATTGGGAGGAGGACTTGGTTCCTCACCATGGGGATATCTCCACAGGGCTGCTTGAGTGTCCTCATGA
CATGGCGGCTGGCTTCTCCCAGGGCAAGTGATCCAAGAGAGAGAAAAGCAGAGCCCACAATATCTTTTATGGTCTAGCTTCAGAAGCCACACCCTGTCAT
TTCTGCTATGCCCTATGGGTCCCACAGGTCAGCCCTAGTCAGAGAGGACAAAGGGTCTGAATATCAGGAAGCAAGAATCACTGGGACCGTCTGTGTGCTA
CCAAATCCTGTGTTCCTTGTCTTGGGAGAATGGCGACACCTCTCACTCTGTCTCCAAATCCACAGACCTGAGAATCAAACTTGACTCCTTTGTTCCTCAT
TCTGCCGCTACATCTGGTCAGTCAGCAAATCCTGACATTTCTGCCTCCTGAGTCTCTGGAATCTTCCTCTGCCCTTCATTCTCACTTCCAACGTAGCAGC
TCCTAACTGCTTCCCCCTTGGTCCATCTTCTATTCTGTGAAGAGAGGGAGCTTCCTTTTCTCTTTGAAAGGAAGTTACTTACTTTCTGATTACAGAAGTA
ATGCAAACCTTGCAAGCATTTGGGAAACACAGAATAGTATTTAGATGTAATGGAAATACTACCACAATCCCAAACTACTGTAAATTACATGCACGTGTAC
ACACCTGCACACTCCCAGCCTTCTTTCTAGGTAAGCCTGTGTATATGTGTGTGCACAGATAGACTTATCCAATTTCAAATGTATTGTGATCAGACTCTAT
GTGGTTTTATTTTGCTTTTACAATTCAACTTGGCATAAACATTTTCCTATGTTATTAAGACTTCTTCCAAAATGTATTGATGACTCCATAAAATACACCA
AATATATGCACTATAGTTTATTTAACCTGTTCCCGAGTGTCTGTGAGTATATCACTGTATTTGATTTTTCATGTTATAGATAACTCTGTGATGAACGTCT
TGTACAGGTATTTTGACATGTCTGTTTATTTTTGGGGGGTAAATTCTTAGAAGAATGATTGGTCAAGTGTATGAATACTTGAAAGGCTTTTGATGTTTTG
CCAAATTACCCTCTGGGAGTGTGTGCTTATTTACAACAGGCTGGCAGGGTACACAAATTTCCTTCTTCCCACACTCTGGCCCCCATTACATTCTGAGCTT
TGAAGCATGATTTCAAATTACATTCACGTAAAAAACTAGACGCCAGGCTCAGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGTCAAAGCAGGAGGA
TCGCTTGAGCCCAGGAGTTCAAGACTAGCCTGGGCAGCATAGTGAGATCCTGTCTCTAAAAAAATTAAATGAAATTAAAAAATTAAAACCTAGAAAATGA
AGAAAATCMTAAAGAGCAATGTTAAAAATACAGCAGCTTCACCCAGAGAACAATTGTTGACATTTTAGTATATATTATTTCTGTTCTTTTGTGAGTGTAT
GTATCTATGCTTGTGGGTGCATATCTGTATGTGTGGATATATGTGTGTGTATACACACATATACAYAGACTTTTTTGAAGTATTTAGGTTGAACCATAAG
AAATTGGTATTTTTAGGCAAAAAATTATTGAATAGAGGCAATTTCACATGAGTCAGGCTAATATATTTACATAATTGAAATCAAATTGTATGTACAGTTT
TATCCTAATGTTTCTTCATGTAGTAATTTATAAGGAACATTTTCAGTGTCCATAAATATCATTGGCTATATGATTTCTGATGAGTGTATCTCACCCCGTC
ATAGGAATGTGTCATCATTTGTTTAACCAAATAACTATTGTTGGATAGTTAGGGGATTTCCAGCTTTCTGTTGCATTTTTGAAAGTTTATAAGGTTATTA
AAATGAGAATAATGCAAAGAATATCCTTGTAGATATCTTTTTGGCACATCTCTGAATATTTCTAGAAAGAGAACAAGATGAAGGTTAGGAATGTTGCCTC
CTTTAGAAAGGGTGTGGAATTATCCTTAAAAATAAACCAACATGCAAACCAATAGATAACTTTATCAGTTTGGCAAAACAACATTGGTCATGCAAAATGG
TTTTCTCATCGTTTTGATTTGAATTCATCTCATCACGAATAAGATTGAGTATCTTCCACTTTTCAACCTTCTGTAGATGTTCTTGGTATGTGAAGGCGAT
TAGTCCTTTTCAATCATGTTAGTTGCATGTTATCTTCCTAGTACATGGCCTTCTTTATAATTTTGTTTTTAACACAAAGAAGTTTTTTGTTTGCTTGTAG
GCAAATCTCCTTTTYCCGTATAATTTCTTTTGCTTTTATGCTTCGAGACTTCTTCCTTATCCTGTGATAGGTTAAATATCCACATTAATTTTCTTCTAAT
TTTTACTTAACTTTTTTTTTTTTTTCCCCTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTACCATGGCGCAATCTTGGTTCACTGCAACCTCCA
CCGCCTAGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTATAGGCACATGTCACCATGCTCAGCTGATTTTTGTATTTTTAGTAGAG
ACGGGGTTTCATTATGTTGGCCAGCCTGGTCTTGAACTCCTGGCCTCAAGTGATTCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTATAGGCCTGAGCC
ACCATGTTAACTCTTTACAATCATCAGGAGGCCCTATCTAATTTTTTTTCCTCCCAATCCTTGATGTTCCTGGTACCATTTGTTACATAACCATTCCCTT
TCCCATTGCGTTGTAACCCAGGGCCACTGATTGGCACAGCGTGGGGCACCACTCTCCTTGTGCCCAGCCCTGCGCTCCAGCGGGTGCTGTCTCATAGAGG
ACACACGGTGCCCTCTCCTTCACCTGCAACTCTTGGCAATTTGGCCCTAGCCAGATTTTGAATGTTTGAGAGCAGGAGCTATGAGTAAAGGAATAAGTGA
ATAAATAAATTGAGCAGGGATCTGCTCATTTGGCCACAAAAAGTGCTGTTAGAGGGAGTAGTGTCCATTGTCAGTGCCCAGCACTGAGTAGGCACCTTAC
AAATGTAGACATCCTTCCCTTTTTGACACGGGGAAACCTAAAGCTAAATGTAACATTCAGTTGCAGTAATTCCAGGAATCATTACACCCTCTGCACCCAG
TTTCCTTTTTATTAGCTTTTACTTATTTCTCTTTTGATGATCTTATTGGATATGTGCAATTTAAGATAAAATGCCCCCCAGATTTCCTTGGAAGTAGACA
TGCTATAAGAATCTAGTGAAGAATAATAAATTGTGGTAATATGTGTTGTGCTATTTTTTCAACTATTAAAACAATTTAAAAACAAGAAAAAATGAGCCTC
AGTTCTTCATTTTGTAGAGCGATAGTACAAAAAATTTTAAATATTTTGATTTATTTAAAAATTTTTCTGATTATAGGCTGGCTTTTTCCCCTAAAATTTC
ATAACTGGATATTTAGTTTTGTGGTCTTAAAATAATTTCTTTGATGCCACCGTGGTGGTTCATCTGTAGTACATTCGAATTATCAAAGCACCCAGACCTT
CATAGGCTCTCTTGCCTTTAGGAAGCTCCCCAGGACAACCTGGCATCATCACCTTCTGTGCCTCCATCCACGGRCATTTGGCAATCCGTGCAGAGGGTTT
TTAATGTGGTTCCTGGACCCRCGCTCCAGGATCAGCTGCAAACTGATTCAAATTCAACCTTCCTGGCCTCACACACACAGGTTCTAATTTGGTGGGGCCA
GATGGGGTTCAAGAGTGAATGTTTGGCTAAGGGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGATGAGGTGGGAGGATCGTTTGAGGCCAGGA
GTTTGAGGCCAGCCTGGTCAACATGGTGAAACGCTGTCTCTAATAAAAATACAAAAATTAGCTGGACATGGTGACACACGCTTGTAATCCCAGCTGCTCG
GGGGGTTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCATCCAGCCTGGGCAGCAACTGAGACTCCA
TCTCAAAAGAAAAAAAAAAAAGTGACTGTTTAACAGTTCCCCAAGTAACTTTTTTAATGTACTTTAAGTAAAGTAACAAAATTAGTAAACAATTATGATA
GAACTTTTTTAGATCACTAATAACTAGAAAACAAGCTGAAAATTCATCTCTCCTCTTTTGGCATCTGCTAAGCGTATAGAAATGATGCCCTCTTCTGGCT
CCTCCCTGTAAATGCACCTCTTTTACTTTTTTTCTTTTTTTTAACAACCATGACATTCTGTTACTTGATGTACAAGCTTAAAAGCAGAAAGATGACAATA
TTAATATTAAACTTTTTTTTTTCTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGATGTGATCTCGGCTCTCTGCAAGCTCCGCC
TCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACGGGCACCTGTCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGA
CGGGGTTTCACCGTGTTAGCCAAGATGGTCACGATCTCCTGACCTCGTGATCGGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACC
GCGCCCGGCCAATATTAAACTTTCTTAAGTTAAGAAATAGTTGTAATTTCTTAATGCCTGTAATTCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACG
AGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACACAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTC
CCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGGGAACTTGGGAACTGGAGCTTGCAGTGAGCCCAGATTGTGCCACTGCACTCCAGCCTGGGCGACA
GAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGGTTAAATGTAATAGATAAGCAGTCTACTCAGACTTTCACTGTA
TTTCTAATAGTTAGGGAAATAAAATAATTTAGAAAGGCTAAGGCTTAACATAGCCTCTGATAATGCTCTCAATGATTCATCATGTAACTAACCAGGTTAA
TTATTGTATCTTATAATTATGAAGGAAAATGACCTTTATCCCTCCCTCCCAGCAGTAAACGTGATTGAGTTCTTCAAGTGACTTTTCTAAGTTGTATTCT
TCTGCATGGGCAGTTTAGACATGATCCGTCCCATCACAGGGTTATGAGGACGGCATCAGATTGGCTGTGTGGGCTTGAAACACTCAGGCTCATGAATTAA
AAGAAGCAGGTGCCAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCCAAGGAGGGCGGATCACGAGATCAGGAGWTGGAGACCA
TCTTGGCTAACGTGGTGAAATCCCGTCTCTACTAAAAAAAAAAAAAAAAAAATACAAAAAATTAGACGGGCATGGTGGTGGGCGCCTGTGGTCCCAGCCA
CTCGGCAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGTGGAGGTTGCAGTAAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAG
ACTCCGTCTCAAAAAAAAGAAAAAAAAAAGCAGGTGTCAGTCAATACGTAGCTGACTCTATCCCAGTGCCCTGCCTGCCTCTCCTCTCCGTTGGTTTGCT
CAGTAAACACCCCTCATCCCTGCAATTCATCCAATGGATTCCACAAGGATGATTCTGTAAAGCTTTCTTTGAATTACAAATGGAGTCCATAGTTTATGTG
TGCTTATACTCCTAAGAGGATGTCTTTATGAAGTCATGTTTATTTCCCAGATAAAAATTTTAAAAATTTTACATAGACTTTTGTTTTATTTTTTTGAGAC
AGCGTCTCATTTTGTCACCTAACCTGGAGCACAGTGGCGGGATCTTGGCTCACTGCAGCCTCAAGTTCTTTGGCTCAAGAAATTCTCCCACTTCAGCCCC
CCAAGTAGCTGGGATCACAGGCATGCACCACTACACCTGGCTAATTTGTTTTGTTTTGTTCTGCTGACATGGAGTCTCACTCTGTCACCCAGGCTGGAGT
GCAGTGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCTTCAAGCGATTCTCCTATCTCAGCCTCCTGAGTAGTGGAGATTACAGGTGCATGCCACTA
CACCCAGCTGACTTTTGCATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAAGCTGGTCTGAAACTCCTGACCTCAAATGATCCACCTGCCTCAGCT
TCCAAAAGTGCTGGGATTACAGGTGTGCCACTGAATCCAGCCTTTCTTTCTTTTCGTTTTCTTTCTTTCTTTCTTTCTTTTTGGTAGAGACAGGGTTTTG
CCGTGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAAGTGATCCACCTGCGCCGGCCTCCAAAAGTGCTGGGATTACAGGTGTGCCACTGCATCCAGCC
TTTCTTTTTCTTTTCTTTTTTTTTTTTTTTTTTGTAGATACAGGGTTTTGCCATGTTGCCCAGGCTGGTCTCGAACTCCTGAGTTCAAGTGATCCACCTG
CCTTGGCCTCCCAAATTGCTAAGACTGTAGGCGTAAGCCACTGTGCCTGGCCTGCTTTTATTTTAAAGGAAAGGTGGATCCTATTCTTGAATATTTTGTT
ACTACTCTCCTTAAGAGGAAAGATAAACACATCACCACTAAAAGAAGTGTGTGTCTTGGTAGTGTTTTCCCAGCAGATTGGATTGCTTTTCGTGTCTCAG
AGATTTTTAGACAGGTCCATTTAAACTAAGTAGAGCCAAGACTATCAAATCAGATTTTATGATTAATGTAATAAGACCTTGCCCTTCAAAATTTTTTGCT
TTCTCCCTGTGTTTCTAGATAATAATCTTCCTGAGACAGGCTCTTGATTTTATTCTTTTTTTTTTCTTTTTTTGAGATGAAGTTTCTCTCTGTCACCCAG
GCTGGAGTGCAGTGGAGTGATATTGGCTCGCTGCAACCTCCGCCTCCTAGGATCAAGCAATCCTCCCTCTCAGCCTSCCAAGTAACTGGGACCACAGGTG
CACACCACCACGCCYRGTTAGTTTTTCTATTTTTAGTAGAGACGGGGTTTTGCCATATTGCCCAGGCTGGTCCTGAACTCCTGGGCTCAAGTGATCTGCC
CACCTCGGCCTCCCAAAATGCTGGGGTTACAGGCATGAGCCACTGCACCTGGCTGATTTTATTCATTTTTGATTTCATGATGCCTTTGGCTTTGCACATA
GTAGCAACACAAAAATTGAATTGATTAGAAGGTCCAAGTCACTTTGAATACATGAATTTAACCTAGACATTTTTTGTATCTCAAGTATCTTAACTGGATG
ACTGGAGTTTCCCCGATGCTTTCTGAGCGCCTGCGTTCCTTCCAGGCCTGCTTCTTTGTCTGTATGTCTCCTGATGTCCTCTGAGCCCTGTCCGTCACTC
CATGATAATGAGGTCACTTTAGGCAGCCTACTTCTTGGTCCTGAATTGTCACGACTACTCCACTACTTACTTGCTTCATTGGGTTTTGATTCACTGTTTT
WGGAATGGAGGAAGAACCATGATTAGGTGGGCTGGTTATCAGGTTCGTCAATATTTTATTTTACTAAATACTCCCTGCTCTTTTGGGAGTTGGCAAACAA
CAGCCTGCAAGCCAAATCTGGCCCATCACCCTGCTTTTGTAAATAAAGTTTTATTGGAACAAGGCCATGTTCACTCATTCTCATATCCATGGCTGCTTTT
GCAACAGGTTGAGTAGTTGCAACAGAGACCTTACGGCTGGCAAAGCCTGAAATTTTCTACCAAAAAATTTACAGAAAAAGTTTGCTGACCTCTACTCTAG
AAGATCAGTTGATAAAATACAACAACGTTTTCATGCCCATCATTATTTTTCCTATTTCAATGAATAGCATGGAAACCAAGGTGAAGTAATTGAACTGAAG
GGATTTCTGAATGAAGGATTCATGTGTTCATATGTTTAGACAAAAYTACTCATTAGACTAGTTTTTAGGGAGTAATTTGCTGCTGTTAAACTACCTCTTC
ATATGAATAATTTTTTAAAAGAGCAGACACATATATACTTAAATAGGAAATAATTTTGAATTTAATAACTTCATGTTCATTTTTAAAATTGTGGCAAAAT
ATGCACAATATAAAATTTGCCATTTTAGCCACTTTTAAGCATTAAGTTCATTGGCATTAAGTATATTTGCATTGTTATGCAAACATCACCACCATCTGTT
TCTAGAGCTTTTTCATTCTGCTATATTGAAACCCATTAAACAATAACTCTCCATCCTCCCCTTCCCCCACTGTCCTACATTCTGTCTTTATGAATTTGAC
TACTCTAGGTACCACATATAAGTGGAATCATAATGTATTTGTTCTTTTGTATCTGGCTTATTTCACTTAGCAAAATTTCCTCAGGGTTCATTCATGTTGT
AGAGCATGTATCAGAATTTCATTCCTTTTTGTGGATGAATAGTATTCTGTGTCATGGATATACCATGCTTTGTTTATCCATTCATCTGCTGATGGACATT
TGGGTTGTTTCCACCTCTTGACCATTGTGAATAATGCTGCTGGGAGCATTGGTGTACAAATATTTATTAGAGTTCCTGCTTTAAATCCTTTTGTGTTTAT
ACTCAGAAGTGGAATTACTGGATCAAATGGTAATTCTATGTTTAATTTATTGAGGAACTGCCATGGAATTTTCAGCATCTGCTGCCCTATTTTATTATAC
TTCCCCACTAGCAATGCACAAGGGTTCCAATTTTTTCACAACCACACTAACACTTATTTTATTAACACTTTTTTTTTTGAGATGGAGTCTCACTCTGTTG
CCAGGCTGGAGTACAGTGGTGCTATCTCGGCTGACTGCAATTTCTGCCTCCAGGGTTCAAGCGATTCCCGTGTCTCAGCCTCCCGAGTAGCTGGGACTAC
AGGTGCATGCCACCACGCCTAATTTTTTTTTTTTTTTGTATTTTAGTAGAGACGGGGTTTCACTGTGTTGGCCAGTATGGTCTTCATCTCCTGACCTCGT
GATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCTGGCCAACACTTATTTTTATAACACTTATTTTATATTTTCTTG
ATAGTAGCCACCCTAATGGGTGTGAAGTGGTATCTTGTTGTGGCTTTGATTTGCATTTCCCTAATAATTAGTGATGTTGAACATCTTTTCATGTGCTTAT
TGGCCATTTGTACATCATCTTTGGAGAAATGTCTATTCAAGTTCTTTGCCTTTTTTTTTAATTGGATTGTTTTGTTTCTTAAAAACAAAAAAAGAACAAA
GCTGGAGGACTCACGCTTCCAGATCTCAAAACTTACTACAAAGCTACAGTAATCAAAACAGTGTGGTACTGATATAAAGACGGACATATAGACCAATGGA
ATAGAATAGAAAGCCTAGAAATAAAGCCATGCACATATGGTCAAATGATTTTTGAGAAGGGTGCTAAGACCATTCAGTAGGGAAAGGATAGTTTTTTCAA
CAAATGGCACTGGGAAAACTGGATATCCACATACAAAAGAAAAAAGTTGGCTTATTTCTTAGCCAACTTTTTTCTTAGTTACCTTATTTCACTTAGCAAG
TGCTAAGTGAAATAAGGTAAGCCAGACCCTTACCTAACAACATATATAAAAATTAACCCAAAATGCATCAAATACCTAAAGATAAGAGCTCTTGTTTTCT
TAGAATAAAATGGGGAAGCTGGGCGTGGTGGCTTACACCTGTAATTTCAGCACTTTGGAAGGCCCAGGTGGGTGGATTGCTTGACCCCAGGAGTTCGAGA
CCAGCCTAGACAACATGGTGAAACCCCATCTCTACGGAAAAAAAAAAAAAAAAAAAAAAATTAGCTGAGCATGGTGGTCCACGCCTGTGGTCCCAGCTAC
TTGGGAGGCTGAGGTGGGAGGATCATTTGAATCTATGGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGTGATGGAGCAAAGACCCTGTCTCAAAT
CAGTCAATCAATCAGGGGGAAAGATTCACGACATTGGATCTGCTAATGATTTCTTAGCTATGACAGCAAAGGCACAGGGAACAAAATAAAAAATAGAAAA
ATTGGACATCATCAAAATGAAAAACTTTTGTGCATCAAAGGACACTATTAACAAAATAAAAAGGTAAGCAACAGAATGAGAGAAAATATTTTCAGATCAC
ATATCTGATAAGAGATTAACATCTAGAATATATAGAGAGCTCCTAGAGCCTATATTCATTTTTTTAGAGAAAATCCAAAGGATGCTGAAAAGCAGTTTAG
ACCTTCTTGCCCCAGGTACTCACCAAACCTGAACCAGTCACCCTCGGCCTTGAGTGTATGTCAGTGGAAGACTTACTGCCCAGAGTGTCTGCCTGATAGG
ACATGGGTAGCTTCATTAAAGGGAAAAGGTATTGTTCTCTTCTGTCACTAAGCAGAAGAGTAATGTCTGGTGGCAGAAGGATGCCGGATAGGGGATGCTT
CTTGCCCACAGGATTGTAAATCTTCTGTTAGTAATTGTTGCTCCCTGGAAGGCACTGGTTGCTGATTCACAGTCCTGCTCTGTGTCTTCTTTCATCCTGG
GACAGTGGCTTGGAGCCAGTGCTATCTTAGCTCAAATTTTCCTAAGGACTAAAATATGCTTAAAATGGCTCTGGGCTGGGTGTGGTGGCTCACGCCTGTA
ATYTCAGCACTTTGAAAGGCAGAGGCGGGCAGATCACTTGAGGTCAGGAATTGGAGACCAGCCTGGCCAACATGGTAAAATCCCGTCTCTACTAAAAATA
CAAAAATTAGCTAGACGTGGTGGTGGGTACCTGTAATCCCAGCTACACAGGAGGCTGAGGCAGGAGAATCGCTTGAACACAGGAGGCAGAGGCTGCAGTG
AGCCGAGATCACACCACTGCACCCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAGGCTCTGGACTCCTGCTCTAAAACCATT
TGTGACTGGATATCATGATTCTTTACATGCTGAGGGATTTTTTTAGGTCAAACTTTTAGAGAGATTTTCCATTTTGAATATGTGAACTATAGATTGGTTT
AAAACTGTGTTGTCCAACACCCACTCTAACCCCTGGTTTTGCTCACCTTTCTTTAGCATTTAGAGAAAACTCAAACTTCAGTGTGGGTCAACCCTCAGGA
CTGTGACTTACAGTGGCACAGGTCGGACACTGCACAAGGGAGCCACTTGTATAAGGGGATATTGTTCAAATACCCACTTATATCGTGTATTGATTGTGAT
GATTGTSTATGTCAGATACAGCAAAGTGTATTGTTCTRACAAGATCCATATATTATGACAGATTTCCTGGGGGTGGGCATAAGGCCTGTTGAGGAAGGGG
CACATTTGCCCAGTTCCCATGGAGGCTCCGTTTAGATAGCCCCACCTGTGCTTTTCTTTGGTGGCACTTGGAACTCCAGGGTATAGTTTCTTACACAGGA
TGTTATTCCYACTCCACAGGCACCAGCAGAGAGGTGGCCAGAGGGAAGGCCGCCTTTCTCCTGACTGCCTGTCTGTAGCACCCACAGCGTGACCCATGCT
GTGTGGGTGTGCATGACCTTCTGCACACAGGGCTGCTGTGGGGCCTTTCGGTGGAGGAGGGATTTGCTGATCCTGCTTTGAAAGAGGCCTAACCACACTG
ATGATGCAGTTCAGGACCTGAAAACCCTCAGCCAGCTACGAGCAACACGACTTGGCGGGCTGATGGAGTCACTGTGGGACATTCCAGGGAGTCTGCCCTG
TGTCCTCTTTCCCCGTGAACCAAGTCACCCAGGAGAGAAGAGTTGGAGCAACAGGGCCCGCATCTGCTGCAGGAATTGCAGTCCAGGGCACTGGTATGGT
TGGGGGTTAGCGTCCTCAACTGACACCATGACAGAGCCCAGTTTGAGATGGTCATCCATGTATAGGGATTTGTATCGGTAGCTGAAATAAGCTGCTTCAT
CCCTATTATTTCTAGGCTGAGAAATGGATGCATAGATGGATAATGACTTGTCACAGACATGCCAGCTTCAGGGGCAGGACTGGTGTTTGAGCCACACGCG
GCGGATCTTACTCCCCGCTGCCTCAATCTATAGTTTGTGTGAATCCTCACAGTGCTGTGAGCCCTGCTGTGGGTAGAGGTTGTGACTCACTTATTCTTTT
TTTATTATTATTTATTTTTTAAAAATTGGGCCAGGTRTGGTGGCTCATGCTTGTAATCCCGGCACTTTGGGAGGCTGAGGTGGGAGGATCACTTGAGTTC
AGGAGTTCGAGACCACCTTGGCCAACATAGTGAAACCCCATCACTACTAAAAATACAAAAATTAGCCAGGTGAGGTGGTGTGCACCTGTTATCCCAGCTA
CTCCGAGCCTGAGGTAGAAGAATCGCTTGAACCAGGGGCGCGAAGGTTGTGGTGAGCTGGGTTTGGGCCACTGCACTCCAGCCTGGGTGATGGAGTGAGA
TTCTGTCTCAAAAAAAAGAATAAWAAAAAATAAATAGGCTGGATGCAGTGGCTCACGCCTGCAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATAAC
CTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCTTCTCTACTAAGAAATACAAAAGTAGCCAGGCGTGGTGGTGCGTGCCTGTAAT
CCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCGGTGAGCCGAGATCGCACCATTGTACTCCAGCCTGGGCAAC
AAGAGCGAAACTCTGTCTCATAAATAAATAAATAAACAAATAAACAAAACATTTTATTTTGTAGAGATGGGATCTTGCTATGTTATCCAGGCTGGTCTTG
AACTCCTGGGCTCAAGCAGTCCTCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCACCACACCCGGCGTCACTTATTCTTATCTCTCTC
GAAGTACCTGTGTGTATTGCACTTAATTAATGTGAATGAATTAATGAAATTACATGTAAGCTAAATTGTGCAAAACCAATGACCTTGTGTTAATACACAT
TTGGTTGTACAGCTCAAATGAAGTAATGCTTCCTGCTATDAATAGTGTTGGTTGCTACTGATGTTGTATGTATGTATGTATGTATGTATTTTGAGACGGA
GTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGAGCGATCTTGGCTCACTGCAAGGTCCGCCTCCTGGGTTCAYGCCATTCTCCTGCCTCAGCCTCCTG
AGTAGCTGGGACTACAGGTGCCCGCCACCACGGCCRGCTAATTTTTTGTACTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCT
CCTGACCTCATGATCTGCCCTCCTTGGCCTCCCAAGGTGCTGGGATTACAGGCATGAGCCACCGCRCCTGGCCTGTTGTATTTATAAGCACCACCTCTTA
TATGGCAAGCCCTCTTCTGGGTACCAGGGACAGCGAGATGCAGAAGATGAGGCCATGTCCTCAAAAAGGGGAGAGACAGATGCATATTGATTACAGTGGA
GTCAGAGGAGTTTTAGTGCAGGCGTGCACAGTAACCACAATGGGGCCAGCCTGGTGAGGACAGTCATGGAATCCCTGTGAATGAACTCTTAGAAGGGTCA
TGGAGGAGGTGAGCTGGGGTGTAGATGAAGGAGGTGAGCTGGGGTGTAGATGAAGGAGTGTGAGCTGGGGTGTAGATGAAGGAGTGTGAGCTGGGGTGTA
GATGAAGGAGTGTGAGCTGGGGTGTAGATGAAGGAGTGTGAGCTGGGGTGTAGATGAAGGAGTGTGAGCTGGGGTGTAGATGAAGGAGTGTGAGCTGGGG
TGTAGATGAAGGAGTGTGAGCTGGGGTGTAGATGAAGGAGTGTGAGCTGGGGTGTAGATGAAGGGCTGTCTGGGGGAGGAGCCGTGGGAAGAGGGTCATG
GAGGAGTGTGAGCTGGGGTGTACATGAAGGACTGTCTGGGGGGAGGAGCCATGGGGAGAGGGTCATGGAGGAGTGTGAGCTGGGGTGTAGATGAAGAGCT
GTTCTGGGGGGGAGGAGGCGTGGGGAGAGGCACAAGGCCTGGAGTGGGCACAGGCAGCTGGGAGGCTCTGTTTGACTGGGGCTGAGCGAAGGAGATGGGG
GTGGCAGAAAGGGACAGTGGAGAGGCAGGTAGTCACTCAAGCACCCGCGGCCTCTGGATTTGCCTCCTGGGGCTGCAGTAACAGAGTGCCACAACCTGGG
GATCCTCCAACAACAGAAATGTATCATCTCCCAGTTCTGGAGGCTGGKAGGCCGAAATTGAGGTGTCAGTGGGGCCATGCTTCCTCTGCTGGTGCTAGGG
TAGAACGCTGCCTCCCTCTTCCTGCTTCTAGTGGGTCTCAGCAATTACCCCAGTCTCTGCCCTGATGGTCACGGGGCTGTCTCCACATTGTCTCCCCTCT
GTGCCCATCTGCCTGTGTGTCTAGATTCCCCCTTCCCTTCTTGTTTTTGAGACAGGGTTTTACTCTGTCACTCAGGCTGGAGTGCAGTGCTGCGATTATA
GCTCACTGTAGCCTGTCAGTCCTGGGCTCAAGCTATCCTCCCACCTCAGCCTCCTGAGTAGCTGGATGGGAGGATCACTGCAGGCACATGCCACCATGCC
CAGCTCATTTAAAATTTTTTTTGTAGAAAAAAAATTAGCTGGGTCTGGTAACTCACGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCAC
TTGAACCCGGGAGGCGGAGGTTGCAGTGAACCAAGATCGCGCTATTGTACTCCAGCCTGGGCAACAAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAA
AAAATTTTTTTTTTTTTATAGGACATAGTCTCACTAAGTTACCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGGTCTCTTCTGCCTCCTGGAGGAGGCT
GAKGTGGGAGGATCGCTTGAGCCCTGGAGTGAGAGGCTACAGTGAGCTATGATCACAGCACTGCACTCCAGCCTGAGTGACAGAGTAAAACCCCGTCTCA
AAAACAAGAGGGGGGRAAAAGAAGTTACTCAGCTTTCTGGGACATGGTTGTTGGTTTCCAGGTGGTCGTTTCCCCCCGGCTTTGTATTAGGAAAATGTTC
GAATAGAAGCAGAGCGGTGACCCYRTGTCTGTACAGCCCTCGACTATCCCCGTTTTGGTCTTGTCCCCACCCGCTCCCCACCCTAAGTTATATTTGTACA
CTTTTTCTGACTTCCTGCAGGCTTTTTAGGCAAGTTGTGGTACAAAATCCGTTTTGTCACTTGTAGACGTTGTGACTTTGGGCCCATGACACCTTATCCC
TGAGCCTCGCTTTTCATTTATAAAATTGGGGGCCTGGCACAGTGGCTCACGCCTGTAATCCCAGCACCTTGGGAGGCCGAGGCGGACGAATCACAAGGTC
AGGAGATCGAGACCATCCTGGCTAATACGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCGGGCGCCTGTAGTTCCAGCT
ACTTGGGAGGCTGAGGCAGGAGAATCACTCGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGTACTCCAGCCTGGGCGACAGAGCAA
GACTCTGTCTTAAAAAAAAAAAAAAAAAAAAAAAAATTGGGATGACACCTGGCAACCACCCGAGCAGCAAATGTGTGCAAAATGCTCCKCGCCGTGCCTG
GCAGACACGGCTGCCAACCAGCCATGTGCCTGAGACAAGCCCTGGCAGCCTCAGACCTGGGCCCTGGCCTGCAGCTGTTCCTGTCCCTGGCAAAGACGGG
TATCCCTGCTAAAGTCACTCGCCAGCCAGACCGGGCAGGGTGGTGGGGGCCCTTGGTCCAAAACACCTGCCTCTCGAGGGATGCCTGYCTGTGAGCATCT
CRCAGCTCCTTGCGCGAATACTGACATGTTAACAAGAGGTCAAAATTCAGGGCTCTTTAAGGAAGCTTCTAGGAAGAAACAACTGAGGAATCAAAGAGAA
GAAGTGAAATGACAGTCAACAGTGGGCTGGTAAAAGCCACACAGGGCAGTGCTGCTCCAACTTCCTTGAGTTCTCAAATCTGCCCGGATCTTGCTCCAAT
GGGATTGGGGCTCTGCAGGCTGGAGGCTGCCTGGGGCTCTGTGTCTCTAGCAACCCCTGCCCTGCTGAGAGCAACAGCCCACAACTGGGGCAGTGAGGCA
GGGGGCAGAGTGGGACCTGCGGGTCCCCCTGCATGCTTTCATATGTCCTGTGAACTAAGAGTGGGTTTTATATTATTATYATTATTATTATTATTATTAT
TATTATTATTTTGAGATGGAGTCTCATTCTATCTCCCAGGCTGGAGTGCAGTGGTGTAATCTGGGCTCACTGCAACCTTTGCCTCTTGAGTTCAGCCTCC
CGAGTAGCTGCGATTACAAGCGTGTGACCTCATGCCCGGCTAGGCTAATCTTTGTATTTTTAGTAGAGACGAGGTTTCATCATGTTGGCCAGGCTAGTCT
CGAACTTCTGGCCTCAAGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCACACCTGGCCGGGTTTTACATTTTTAAAT
GGTTAAAAAAAAAAACAAAAGAATAATCTTTGTGACACATTCAAATTTCAGTGCCCATGAAGTTTCGTGGGAACGGGCACGCCTGCCCTTTATTACTGTC
TGTGGCTGCTGTCATAGGGCGGAATTGAGCAGCTGTGACGGGCCCCTCCCTGGGGCCAGCACAGTGCAACGTTCCCTCTCCAGCCTTGACCCAGGCCCCG
CCTGTGCCCCGCGTCGCTGCAGCCGGCAGGGGGCAGCAGAAAGCCACGCGCACGCCCGGTCCGTGCAGGAGCCGCAGCGGGGACGCGGGGGATTTGCGAC
CCGGGCCGAAGCGGAGGTTTCCTAGCTGGGGTCTGAGATGTGGACCTGAGGCAGAACTGCCCGTGGGGGATAGCAGGAGGAGACGAGGTGGGGGTGACAG
TAATCGTGCAGGCAGGGCCGGCCTCACCGGGTAGGCAGGGCAATAAGGGACAATTGGTTTGCTGGAGTGAAAGGGCAAGGCCTGCAGGCGGAGGGGTGAC
CCCGCAGGGTGGGGCACCCCGGAAGCCACGTGGGCCTGGACTTCAGACCACGCCATAGGGAGTCACTGAAGGGTTCCAGGTGGTAGTGTGATAGCCTCAG
ATTCTCTAAGAGGGATGTGGCTTTTTGGTGACTGTGCCTCAGGATACTGTTGCCACAACCAGGGACAGAGTGACAGTGAGGGCTGTAAGGCCACATAGGG
CAGGAGGGACCCRGGGCAGRGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACCCAGGGCAGGGTGACAGTGAGGGCTGTAAGGCCACATAG
GGCAGGAGGGACCCRGGGCAGGGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACCCGGGGCAGGGTGACAGTGAGGGCTGTAAGGCCACAT
AGGGCAGGAGGGACCCGGGGCAGGGTGACAGTGAGGGCTATAAGGCCACATAGGGCAGGAGGGACCTGGGGACAGGGTGACAGTGAGGGCTGTAAGGCCA
CATAGGGCAGGAGGGACCCAGGGCAGGGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACCTGGGGACAGGGTGACAGTGAGGGCTGTAAGG
CCACATAGGGCAGGAGGGACCTGGGGACAGGGTGACAGTGAGGGCTGTAAGGCACATAGGGCAGGAGGGACCTGGGGACAGGGTGACAGTGAGGGCTGTA
AGGCCACATAGGGCAGGAGGGACCCGGGGCAGGGTGACAGTGAGGGCTGTAAGGCCACGTAGGACAGGAGGAACCCGGGGCAGGGTAACACTGAGGGCCG
TAAGGTCACATAGGGCAGGAGGGACCTGGGGACAGGGTGACAGGGCTATAAGGCCACGTAGGACAGGAAGAACCCGGGGCAGGGTAACACTGAGGGCTGT
AAGGTCACATAGAGCAGCGGGGGGGGACCTGGGGGCAGGGTRACAGTGAGATCTGGAAAGTCACATAGAGCAGGAGGGACTCGGGGCAGGGTGACAGTGA
GGGCTGTAAGGTCACATAGACCTGGGGACAGGGTGACAGTGAGGGCTGTAAGGTCACATAGACCTGGGGACAGGGTGATAGGTGAGGGCTGTAAGGCCAC
GTAGGGCATGGGGGACCCAGGAACAGGGTGACAGTGATGGCTGTAAGGCCACATAGGGCAGGGGGATCCAGAGACAGGAGCACCCTGTGGTATATTGCCG
CCCGCAGACTGCTGTGCACCAGCTGTCTCCCAGGTCTGTGCTCGCCCCAGGATGGGCAGGATGAGCAGCGTGGCTGTTTTTCTCTTGCTTCCATGGCCAG
CACACTGCAGTCAGGCTGTTTTTTGCTTGGACCTGGATGTTTTCTCTCAGGGGGCTCCTGCAGGTGCTAGCTTTGGTCCCTGACCAGCTGGTCCTACTAG
TTGAGTGCCCGGGCTTCAGGCAAGACTGTGTTGTACCTTTTCATTCTGTCTTAGGGAAGTATTTCTTAATGGGGAGGGGAAGGGTCACAGGTGCCTTATA
GAATCCTGTGAAAGCCAGATGTCCCCCAGATGAACCCCAGAAAATGCACACAGGCAGGTGGACTCGGAACTTTAGCCATGATTTCAAAGACTCCTGCACT
CGCTATGGCCAGCCTGGCTAAGGACCCTGAYCTAGGGGCTGCCTTCTTCCTTTGAGGCTTGGGGCTTGGTGTTGAGAGCTTAACATCACATGCTATTTGC
CCTCCCAAAGGCCAGCCCATCTGATTTTCTTACTGTCCGTGTCCTTCAGTGGGTCTTATGGAAGTGATGTTTCCATATGTAAATGGTTTTTTTGGAATGG
CTGAAATCCCCCAAGCTTCGGCACAGGAGCTAGACTGCCTCCCAGGGTGGCAGGCCCGGTGTTCTGGTCTGTGTATTGGGCAGAGTGGAGCCCTCTGGGA
ACCTCCCTTAGCAGGAGAATGCTGCTTCCTTCCCAGCCCCCTGCTGGACGAGGACTGGTCTCTTCCTATGCATTTGGCCAGGGAACACTGTGTTCACAGA
ACTGGGAACATGCTGAGTTTTATTTCTGGCGTCTTAACACATCATAAAAACCTCTTTTCTTGAAACAAAAAGAGTACTATATCAGATGCAGTCTTATTTA
GGAAATTATTAGCCTCTGTAACTAGAAATAAGTAGATTACAGTTTTTAAAAGATTAATTTAATCTTCATCACAAGGCAAGCTTACAGGAATAGATTCATT
CCATTATGAAATGTTTCCAAAGGACGAATGGAAGATTTAGAAAATCTAATCCAATATCAACTTTTAATAAAAGTAGTCATTCCCAACAATTATGGTTTCA
TAATGTGTGTGTATGTTTAAATGACTTTAGGAGAGTAYAATTTCCATAACATAAAATGTGTCTTTTCAGTCTACAATGCAATGATTTTGAGTAAATTTAC
MAAGTTGTACAACCATCTCTACACTCTAATTTTGGAACATTTCTATCACCTCAAAATGATCTCTTACTTTTTAATCACAAGAAATGATACTAGAGAAAAT
AATTTTAATCTACTATTTCCTGTATTTACATTAGCTAAGTGCTATTCTTAATAATAAACGCCCTCTATGGATATCTCTCGCAGGCAAACATGAGACAGTT
GGAGGGCAGCTCTTGCAATCTTATCAGAAGCTGAGGTGAGTGTTACAAAGGACAGACCGTCCCTGGCCCTCCGGGGCAGGAGCGCAGAGGACACTCTGCA
AGAACTTATAGGTCTCTTGACTTTCACATGTCACTGCTTTGGAATGTGACTCTTTTTTTTTTTTTTCTTTTAAAGATAAAGTTCCTGAAAAAGATTAAAG
CAGAGATGTTTCCAGATTCTCATGAGAAACCTTCTAGTTAGCATAGTATTTTCTCACTAGACATTCAGCTCTACTTCTTAAATTCTCCTGAAGTGTTATA
AGGAAACTAAATATTATGTTTAATTGCRCTTAAGTGAAATTCTAAAGCAAGCATGTGCTTTGATTAATCATGCCTATCTCTAACACCCTACCCAGCRCCT
GGCGCGTTAGAGATACTGGTGAAATAAACATTGATAGAATTGAATAATGGCCTGAGAGATGTGAACTTCTTTGCACAAAATTCTAAAAACTGAKCAGTCA
TGAAGCTGGCCATAATTCACACACCTGATTACACTCAATTTATTAAAGTGTTTCTGAAAGCTCCCCACCAGCTGCTATTTTGTTTGGCCCATGGTGAAAT
TTTCCAATATCGAGACTTTTTCATTTTTTTCCTCCCCTGTTCTTTCCCATTTCTTTTAGCACAAGCTTCCAGTTTGCTTCGTGGTTGATTCTCACATCCA
CAACATTTTTGGCGCTTCTGCTGGTGTGGTTTGTGCTAAGAGAACACGGGAGCGCAGATGGGAACCAGGGGTTTCCCCGCAGCCAGGTGGCAGGTCCAGG
CCGGAGCACCCAGGCTGTTTCAGAACACATGACTGAGTGGGGCGGAGTACCCAGACTTTAGGCAGCATYGCCCTCATATAGATACCAGGAAATCATGCCC
CTCGTAGAGCAGCAGGTCCAAGCAGGGCTGCTGGCTATTTTTCCAAAAAGTGAGGCAGTTTAAAAAAAAGGCGGAGAACTAGAATTATAGAATAATGGCA
CATTTTGTGTATTTGTAAAACTAACGGCTTGCATGGTTCACAACCCATTTCTTATGCCTGTGTTTTCCTTGGCAGCAAAATTTCTGTGGTTCCTCCTACT
CCACCTCCTGTCAGCGAGAGCCAGTGCAGCCGCAGTCCTGGCAGGGTAACGTATCCATTCTGGGCACTTCTCTAGTAGGGGTCAGGGGATAGAAGGAGAG
GAAGCAGGGGAGCTTTCGAGGCTGAGGCCGGGCACGGAACCTCCCAGCAAAGGGATCTGACTGTGCCTGGAGYGGGTCACAAAGCGGGGTGGGGAGCGAG
GGCCCTCAGGCTGGGCAGAGCTTCTCTCCTCATTCTGGTCGCGGGACCCTCTGTGTCATCAGCGACCCTTTCTGCCTGCACCCRAGGTCTCTTTACTCTT
GGCATGGCATCGGCCCCCTTCCCCAACTCTGCTCTGTGCTGGGCGTGTGTGTAGAGTCTCTGGGGTCTAAGGGGAAATAAGATTGGTTAACGTGTGTGTG
AGTGGGAGTGTCTCTTTTGAGTGTTTGCAGGCTCTGATGTACAGTGGACCAGCACCATTTCTGTCCAAAGAAATTAGCTGTGTGATCTTGGGGCAGTTAC
CTGGGTTTCCCACCTGAGAGGTGGAAATAATTATACAGGTGCTGCTTGACTTATGATGAGGTTATGTCCCAATACGCCCAAAGTAAATTGAAAATACTGT
AAGTCAAAAATATATTTAGCTAGGCGCGGTGGCTCACGCCAGCACTTTGGGAGGCCGAGGTGGGTCACTTGAGGATAGGAGTTCGAGACCAGCCTGGCCA
ACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGTCATGGTGGCAGGCACCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAAT
TGCTTGAGCCTTGGAGGTGGAGGTTGCAGTGAGCCAAGTGCCACYGCCCTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCAAAAAAAATAAATTGTAT
TTAATACACACCTAACCTACCAAACATCATAGCATAGCCTAGCCTGCCTTAAAAGTGCTCCGAACACTTGCGTTAGCCTACAGTTGGGCAGAATCATTTA
ATGCAGAGCCTATTTTATAATAATAAAAATGTTATTAATAATACAAAATAGAAAAGATCAAAATGCAAAGTACGGTTTCTACTGAATATATATTGCTTTC
ACACCATCATCAAGTCAGAAAATTGTAAGTCAAACCATCGTAAGTCAGGGAGTGTCTATATTTGTATATATCGTCTATATTTGTATGGCTGTTGTGAGAA
ATTAACAAAATAATGTCTGTGTTGGTACTTGGAAAACCGTAAAGTGCCATGGAAATATATTGTCTTGGTTATCTTCATTATTCTATAAATTAAAGGGGGC
AGGTATATATGGGAGAATATGGGAGCTGATCATAATCCCAGAAGACATAGTCCTGAGTGCTATCATCCTGAATGTTGGAATCCTGAAAGATCAAAATCCC
AAAAATATAATTCTAGAAAATCTAAAAATGATTTTGAAGAAATTTATTTAAAAAATTTAAAGGGGATTTGAGAAACATGTAAAAACATGACAACAGCCTG
GGCAACATAGCAASACCCTATCTACAAAAAATAAAAAAATTAGCTGGATGTGGTAGCACATGCCTGTAGGCTCAGCTACTCAGGAGGCTGAGGGAAGAGG
ATCCCTTGAGCCCAGGAGGCCAAGGCTACAGTGAGCCATGATTGCGCCAATGCGTTCCAGCCTGGGCAACAGAGCGCGACTGTCTCTAAACAAACAAACT
AAAAACAAAAACCATGACAGAACACTTMACTGGCCACTTTACACAATAAATAGGCAAAAACAGCATGCATATTTTTGCAAGCATAAACACTCAGATATAC
TAATGACAGTCACATGGGTATAACAATTATGAACAGATGAACCATATTCATAAAGAAATACATCAGAAAGGGAAGTGTAGAAATACACATTACTATGGCT
GGTATTGTGTGCATCCAGCTTTGTAACTGAAATATTGTCATGAACAGCAGTATTTTTCAAACAGTCATTTGATGAGATGGATCAAAAACCGCCATGGGTC
ACCATTGCATATACAGTCACCCAAACAGCTGAGATCTCAAGAAATTTTATCTTTTGCAAATACAGATGTACAAAAAGGAGATCTCTTCCCTTAGGAAATA
TCAACATCTTTATGTACATGTCAGAGTCATGGTGTGATGACGTACTTTGAAGCATGGAGTCAGTTTTCAAAAAAAAAAAAATGCATAACACAAATTAAAA
CTCTAAAAGTGTCTGTAATTTTTACCTCCAGCATGGGACATGATGAGAACGTGAACTACACAGCATAGCAAACTGTGCTGTGTGTGAAGGGGCAGAATTC
ATACACAACTAAACTAAATAATTTGGCAGCRGAGATTTCTTGTATTTTTTTTGCCTGTGTTTTTACTTCTAAGATCTTTGAAACACTTGCTGCACTTGTA
TTTGGAGAGTGGTTGTGGTCTAAGCTTTTTTTTTTTTTTGCTTTTTTCTTTTTTTGAGATGGAGTTTCACTCTTGTCCAGGCTGGAGTGCAATGGCGCAA
TCTTGGCCCATCACACCCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAACCTCCTGAGTAGCTGGGATTACAGGCATGTGCCACCAGGCCCAGCT
AATTTGTTTTGTATCTTCAGTAGAGACGGGGTTTCACTATTGGCCAGGCTGCTTTTGACCTCCTGATCTCGTGATCTGCCCACCTCGGGCTCCCAAAGCG
CTGGGGTTACAGGYGTGAGCCACCTCGCCCAGCCAGGTCTACGCATTTTGTAAGCACATGCTGTCCATTTGAAAGGCTGGTTCTTGCTCCAGTCGTTGCA
ATTAAGCCATTTCCTACTTTTGCAACACCAATACTAATTAGCTTTTAAACTTTTACCATTCATTATTAAATAACCTTATACTCATATCACAGGCTTTTTG
GTGAAGGAACCGTTTCACAGATCTCTTCTGTTGTGTTGTGAGGAATACAATAAGAAGGAATGATAGGTGGCTTCCTCAATACCAAATCTGTATTAGGGTT
CTCCAGATAGACACAGCCAATAGGATATGTATATAGATACATGAGAGGAGTCTTACTAGGGGAATTGGCTCACGTGATCACGGCAGCTGAGAAGTCTCTC
CACAAGCCATCTGCAAACTGGAGACCCTGGGATACCAGTAGCGTGACTCAGTCCAAGTCCCAAGGTGTCGGCGCCAGGAAAGCTGATGGTGTTGTTACAG
GAAACAGACCCCAAGAAACGGTTCTTGAATCTCGCGGAAGAAAGAATGCAGGGCGAGTCCACAGAGTAAAGTGAAAGCAAGTTTATTAGGAAAGTAAAGG
AATAAAGAACGGCTACTCCATAGACAGAACAGCCCTGAGGGCTGCTGGTTGCCCATTTTTATGGCTATTTCTCAATGATATGCTCAACAAGGGRTGGATT
ATTCATGCCTCCCCTTTTTAGAGCATGTAGGGTAACTTCCTGATGTTGCCATGGCATTTGTAAACTGTCATGGCACTGGTGGGAGTGTAGCAGTGAGGAC
GACCAGAGGTCACTCTTGTTGCCATCTTGGTTTTGGTGGATTTTAGCTGTCTTCTTTACTGCAACCTGTTTTATCAGCAAGGTCTTTATGACCTGTATAT
TGGGCTGACCTCCCATCTCATCCTGTGACTTAGAATGCCTTAACCATCTGGGAATGCAGCCCAGTAGGTCTCGGCCTCATTTTACCCAGCTCCTATTCAA
GATGGAGTTGCTSTGGTTCACATACCTCTGACAATGTAACTCTCAGTTCAAAGCTGAAAGCCTCAGGACCCAGGGAGCCTCTGGTCTAAGTCCTGGAGTC
CAATGGCCAATCAGCCTGGGTTCTGATGTCCAAGGCAGCAGAAGAAAAGTCTGTTCCAGCTCTCAGAGACCAATTCATTTGCTGTATTTGTTCTCCTTGG
GCCCCTGGTTGAGTGGGTGGTGCCTGCCAATATTGAGGGCAGATCTTTCTAACCGAATCCACTCAGACTCACACACTAATCTCCTCTGGAAACACCCTCA
CAGACACACCCAGAATAATGCCTTACCAGGCTTCTAGGTATTCCTGAAGCCAATCAAGTGGATGCCTACAATTAAGGTGTCATTAATTAAGTCCACGAGT
CCACCCCTTGTCAACCTGTACCCATAGGCTCTCCTTAAGTCATACTTAATTTAATAAAGGCAGTAACAAAGTAATAGGTCCCCCTAACATGATGCAACTA
TCCCATAATTGTGATTTTGGGGATTTTAGATGTTAGGGATTTGGACTTCAGGGATTTTAATCTTTAGGGATTTAGACTTTAGGGATTTTGATCTTTCATC
GTTTAGGATTATGGCATTTGAGACTGTGTCTTTGAGATTATGATCCAAACCCAAAAATATATAATGCTGATAAGAGAGAAGAATCACATACATTCTTTTT
CTTTTCTTTCTTTCTTTTTTTTTTTTTTTTGAGACAGARTCTCGCTCTATTGCCCAGGCTGGAGACCAGTGGCGTGATCTCGACTCATTGCAAGCTCCGC
CTCCCGGGTTCACACCATTCTCCTGYCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCCGCCACCTTGCCCAGCTAATTTTTTTTTGTATTTTTAGTA
GAGACGGGGTTTCACGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCRCCTCGGGCTCCCAAAGTGCTGGGATTACAGGCGTGAGCC
ACCGCGCCTGGCCTCTTTTTCAGTTTCAAACTGAGACTGGGGTGACCTTCAAAATCCTGCTCTACTTTCTCCTGGAAATTTCAAATTCTCCAGAGTCGTT
CCAGTACCTACGTGCTCATGATGTATTTATTGGACAGATGGATGATTGGATGGGTGGTAATGTAAGATGGATGGATGTTTGGTGGCTAGATGGGTGGATG
GATGGATGAATGAATGAGACTTGGATAAGGAAGTGAACTCCTTTCTGTTGTTTTATCTTTTTTTTCTTCTGCTTTGGGAAGTGGAGCCCCTCAGCTCTTG
CCTGGTCACCTTGTGGCTTTTACCATCCTCATCCCCTGTGCCACCCACATCCTGCCACTTCTGCATGGAGTTGGGGTGGGGCCATTGGAGAAAAGAGGTT
AAACAAGCAGTAATTTACTTGAGTACAGTCTTTGAGCCAATGAAATGCCAGTCATCATTTCCCAGGGGTACTTGTCATCTTGTCAACAACCCGCTGATAA
TGCTCCTTCAATGTGAATAGCAAAAGTAGGGAGAGACGCTGAATGAAGAAGATGCCTACCCCTCAGGAAGACTGCTGTCCGCCTCCAGGCCTGCATGCAC
ACACCCATGCCCACCTGCACCCCCAGCACCACGCCCACACTCACTCGCACACACCCACATGCCAGTGTTTTGGGGTTGGCAGCCTGGACACTGCTGAGGC
AAACACAAGTCATCAAGCATAATTCTCATTCTCTCCTTCTGTCTCTGTTTTAGTTACAGGAATTTGGTCAGTTTAGAGGATTTAATAAGTCCGTGGAAAA
TTTGTTTCTGTCTCTTGCTACCCACGTGAAAAGTAAGTGCATGCTTCATGATGTGTTTTCCCACTACCTTCCAGGCCAGCCGAGCCCACTGGCCAGGGCC
TGGCCGGTGACCTCGGTTGACACTGTCCCTCAGGCCACTCACTTTGTCTCTGGACCCTGGGGAAAGCCACAGCACCTGGCCCTTCATCTCTTTCCCAAYA
AAGCAGGCCTCTGGTTCCTCATAGGAAGAGAAATGGTGGCTCAGACCTGTAATCCAAGCACTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGGTCAGGA
GTTCGAGACCATCTGGCCAACATGGTGAAACCCTGTCTCCACTAAAAATACAAAAATTAGCCAGGCATGGTGGTGGGTGCCTGTAATCCCAGCTACTGGG
GAAGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCACGCCACTGGACTCCAGCCTGAGCAACAGAGCAAGACTCC
GTCTCAAAAAAGAAAAAGAAAAAAAMAAAAAGATGCAATTTCAGGGAATCTAAAACCAGAACCTTTCAGGCCAGTAGGGCCCAATTATCTATCTATTGTC
TGCATGGAATTACTTGCCTTTCTCCTCTCCTCCTTGGTAAATGTATTTTCTTCAGTTAGCAGTAATCCTGTGATTTGCAGATGCATGTAACCTAGAACCA
CCTCCACTTGCAATCTTGTGTCTTTCAATGTTCTTTCTGCTCAGATACTTTTTTCTCTGTTTATCTTAAAATTCAAGTCCCAGAGGACAGACTCCTTTTC
ATGCCTCCTAAGATGCCCAGGGCTGGTCAGGTGTTTAGAAAATGTCCTTAGTGTGCTCAAGGGTCCTTAGGCATGGATTTCTCTTTCACTGTGTTTCTGC
TCGGCTTCTCTTCATCATCCCCTTTTCTGTAGTTGCATGCGGATGGTCTCAGTGCTGCACTTGGCTCTGAGACAGTCTCTTTATRTGACTTTAATTAGTT
GTCCGTATTCCTCATGAGCCCTGTSTCAGCTGTCACACGATGACAATGGACATCAAAGCACTGCTCTTCAGATGAGCAGAAACAGTCGTCTCATGCAATG
GTCTGTTCCTTTCTTAGGGAGGAAGCAGCTGAATTTCATGGGCCTGTTTGCTAAGAGCGTTTGGTGGCTTAAAAATCACTGTTTCCATCCTGCTGGGCTC
TCTGACAGTAACCCCTGCTCTGTGCCCCTTGGCCTGGAACGTGTTTTCCAGCTGTCCCGGCTGCCTCTTCTCTTGTTCTCTTGTGGGTGCTATTTTCCCA
CCCACCCCCTTGTATTTGTCATGTATGGGTGGGTGCTAGTTCACCTTCCCTGTATGTCTTTCTAGGTGCACAGCCCTTCTCCAAATCTATGTGGCTTCTG
TGAATTGTCTTCCACCACTGCCACTATAGAATCAGTGCCTTGGAGTTAGCCCCAACCCTGTCATCCCCCAGCCACCGAAATCCAGAGAGGTGGGACACAC
ACGTCAGCACACATGCACCTTCCTGGATGCTCCCAGCCCTGCACACAGGTTCATTGGATATGCTCACAGCTGTCAGGTGGCCACCCCAGAGCCTGGCCTG
TGTACCTGCTCACACACTTGAGCACTTGAGGCTAACCAGTGTAATACCCAGGTGGACAACTAGAGCTAGTCCCTGGGCGAGGTGTGGGGGAATTCACAAG
AGCAAAACAGCAAGCATCCCTTCTCAGATATGGAAAGCAGACTGAAACCGCATCACACACACACACACACGCAYGCACCCAGCACCCCCCATACCCCCCC
ACCACCCCCACCCCCTGCCCAGAGGCAGAGATAGAAAACCCCAGCTTTCTGGCTGCTGGGAGTGGTGCTTGGCCTCTGACCTTTCCCGAGTGCTTCCCCT
GTTTCTGCAGGAACAGGACACGTGACCACACACACGCCCTTCTCCCGTCTCTGCCACAGGACACTTAGCGTCCTGTAGGCGCTGACTCCTATTTCTTTGG
ATTTTGAGCTCCTCTTCTCGTGCTCCTATTATCTTATTGGCTGCCTGTTTCCCCACGGAAGTGGGTGCAGAGGGAAGCCTCATTCTGAGGGGAGGAAGAT
TGGCACCTGAGGTCCTCGGGGAGGGACTGTAGAGGGCCCCAGACTCTTCACTGGCCCAGGTGCTGAAGGGTGGCTTTGCCCCTGAGGGGTTTTGAAAGGT
GACCCAGAATTACAACCTCTAGCTGCTGATKCTGCCCAATGAAGTCAAACCAGCGGGAGGAAATGAGTGGCTGCAGCTCTGTCTATTATCAGTACGTTTC
TAGAAGATGTCAGCACTGTAGTCCCCCTTAGAAAGGGGAAGAGGAAATGAGAAAACTGGTCTTGCCCAGAAGCAATCTGCATTTCTTTCTCTTCCTTATC
CTTTGTCCCCTAATAATACTGACCTATAAGCCTATTTCTTAGAGCCCAAATTTCTCAAGAAGGCTTGTCCTCTCCCCTCATCTGTGAACTTTCAATGGCC
CAAATAGGCCCAGGCTTTGGGATGGGCACTAAGAGATTGCTGGGGGACCAGTTCCTCCTAAGGGCTTAGAAATTAGAGCCCCTCACAGCCTCACAGTCCA
GACTGAGATGGACCATCTGAGCGTGTCCTTTACTTTGTCCACTTTGAGGACCTGGTGCGTACTAGTGCCTTACGAGCTGCTGGCCTTAGAAAGATCCCCC
AGTGTTTCTTGATGGTCACCTTGAGGACATGGGGATGGCATTGCTATCAGAGGAGGCTAGGAGGCATCCTGGTGGAAAAGCTGGACACCCCAGCCGTTCC
CTCTTTAGATGAAAGAGATACTGCAAGACTCATTCTTGGGCAGTGTAGGCAGGAGAGAACGAATACATAGTGAGAGGATAGAGGATTCATGCAATAACAT
CCCAAGGAGGTGGATCCAAAGCCAGCCGGGGGGTCAAGAGCCACAGTGTCCATTGCAGTGGCCTCTAACCACGTGTTGCTCTTGAGCCCCTGAAATAGGG
CTGCAAGATGCACTACCAAAGTGAACACACTGGGTTTCAGAGACTTGGAATCCAACAAAAGTAAAATATTTCAYGGATAACTTTAATGTTGATGACATTT
TTTAATATTTTGGATATATTGTGTTAAACTAAATATAGAATTAAAATTAATTTGGCCAGGCATGGTGGCTTAAGCCTGTAATCCCAGCACTTTGGGAGGC
CAAGGTGGGTGGATCTCTTGAGCTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCATGGCTAATACAAAAATTAGCCGGGCGTGGTGACACAC
ACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCATGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCACATCATTGCACTCCATT
CTGGGCAACAGAGTGAGACTCTATTTCAAAAATAAATAAGTAAATAGAGTTAATTTTACCTGTTTTTTTTTTTTTAACTTTTTTAATATGGCTACTATAA
AATTTAAAATTGTATGTGTGACTTGCATTGTCTCTCTGCYGGACAGCACAGCTCTAGAGACAGTTTTAAGGTCCCCGTTTGGAGGAGTGGGGTTCTCAAG
GGAAAATGAAACCATCTTCAGAGGATGAAACTATCTTCAAGGTGGTTCTCTCACTTCTGTATGTGGCTTCCTTCCTTCAAACTTTCTTCATCTTTACTCT
AGACCACTATTACACTGTAAAAATGAAACAAATTTGTTTACAGTCATCTTTCCAGGGTTTGTTTATTATAATTGTTATGAGGACACCYCAAATCTTATTT
TTACCTCGCTTCAAAAAGTCACAAGAAATGGTGTTAAGTTGTAACATCTTTGTAAGGAACCCCTAGAAAGCCGGCTTGTTTGGTAGGCTGCCGTCTTCGT
GTTTGGATGAGTGCACACACATATGTGTGACCTGGAACGCAGAGGAGCTTGGGTGGATGATTTCCCTTCACCTCTCACCCTGACCATGGCCTGGGTGGCC
ACAGCGGGACCTTGAAGGAAGCCAGCCCTCTCCTGCCCTGACCCAGCACACTGTCTGCTCACCTTCCCAACACCTCTGCACTTGGTGGGGGAATGTGCCG
CCCTTGCTCCTCCGTGCACTTTGCCCTCTTAAGACCTTGGGACCCACTGTCTGTGGGTTCAGTGAACCCCAGAAGAGGCTCCCACAAGTCTCAGCAAAGC
TGCTTGTTCCCACCCATCAACCCTTGTGTTTGCCTTTTAGAGCTCTCCAAATCCCAGAATGATATGACTTCTGAGAAGCATCTTCTCGCCACGGGCCCCA
GGCAGTGTGTGGGACAGACAGAGAGACGGAGCCAGTCTGACACTGCGGTCAACGTCACCACCAGGGTACCCTGAGCCCCACAAGGCCTCCAYGCTGATCA
CCTTCATGTTGTCTTCCAGAACTTTCTAGCCTGCCTTCTCTGTAGATTTATGTTTTCTTTGGTTTTATAGAAAAACAGTAAGCCATCAGAAAAACATAAT
TACCAGTCAGTGCCTCTATTTGGGCAGGGCTGGCCCAAGGCAGGTCAGGATTGAAGGTCAGTCTGGAAAACTGTTCAGCACAAGGAAAGGCTTCCACCTA
ATCACAAGCCCCTGAGGCTCCTCTGTGTCCACAGAGCTCCCTGCTGGCTTCAAGCCTGCGCCAAAGCCCAAGGGCTTCCTGCAGGGCCCACACCTGCCGG
GTTAGCCCTGGAGTCTGCAAGACCAGCAGCCTTTGGTTAAAATCTATCCTGACCTCTGATGGAAACTATTGAAAACGTAAAGGCGCGAGCAAGCCTGTGG
GGGCGCTCTTCCCCCGCTGTCCACACCACAAGTGAGAGCTCCCTTAGTAAAGGCTTCTAGGGAAATAATTATTCCACCTTCCCACCAGGACTAACCCAGC
CTGGAGTGAACGCTTCGGGTATGAGAGAGAGCCAACCTTAGAATGGGAAAGCCCGCATTCTAGTTCAGCTGAGGTGCCTTGGCTGGGCAGGTGCCACCAG
CTGTTGCTTGCAGTGTTGATGTGACTGCCCTGGTAGGCTGGACAGAACTGGTGTCCCTTCTCTGCTGCTGTGGACTCCACTCAGGCTGTCCCCAGACAGA
CTGTCCTTTAGGCGAGGGTGTGAGGTCAGCCCCCCTCTCCTGCTGGAACTTGCACACAGCCTCTTGAGAGTTCACGTCCTGCCTCCCGCTCCAGCCCAGT
GCGCCCCTCTGTAAAATGAAGATGATAATACCTGTTCTGCGCACAGCACAAGGTTTTGTAAACATCTAATGAGATAATGTAGTATCTTGATTTGCTATCT
AAGTCATCTAAATATTTTATCTAAATTGCCAGCATTGACTATGATGTGCTGGACTCTGTACTRATAGCTTAACTAGGCTATCTCATTTTATCTTCATAAC
CACCATCTAGGGTAGGTATTGCATGCAGCCTCATTTTACATGTAWAGAAATGGAGGTTTAGATTAAGTCACCTGCCAAAGGTTGTATAGCCAAAAGAGGA
CTGAACTCTGAGGCAGTGATTCCCAGCTCTTATGAGTATAGGGGGTCACTGGGGCTCTTAAAATGCAGATTCCAAATCAGTAGCTGCGGGGTGGACGTGA
GATGAGGAACCGCAGATGCATTTTTGGTGAACTCCTGGGATCTGGCGAAGTCTATGCTGTGAAGTTCTCAGACCACACTTCAGGAGCGAGGTGTCTAGAC
AGTTTGAAATGTATTTGGCAGGTGTTTGAAATTCTATAACACAAGTGTCAGCTCCTGTCAGCTTCCCGGGGTCTACAGAAGCTCCCTCCGAACTCCCTCC
GGGGATCACTCCTTCTAGTGAAACAGGTGGAGGGGAGGGTTAGCAACCATATGAAGCCCTGTGTGCCACACGTGGTGGCAGCATTGCTTCTTACCTACTT
CATCACATTTAATTCTCACAAAAATACCGTGGTAGACATTGTTACTCCCATGATAAAGATCGGCCGAGCCTGGTGGCTCATGCCGGTAATCCCAGCACTT
TGGGAAGCCGAGGTGGGCAGATTGCTTGAGCCAAGGAGTTGGAGACCAGCCTGGGCAACATGAGAAAACCCTGTCTCTACAAAAATACAAATATTAGCCG
GGTGTGGTGTCACATGTCTATAATCCCAGCTACTAGGGAGACTGAGGTGGGAGGATCGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCATGGTTGCA
CCACTGCACTCCAGCCTGGGTGACAGAGTGAAACCCTGTCTCAAATAATAATAAATTAAAAATTTTAAAAATTGGCCGGGCACCATGGCTCATGCCTGTA
ATCCCAGCACTCTGGGAGGCTGAAGTGGGTGGATCACCTGAGTTCAGGCGTTCGAGAGCAGCCTAGCCAACATGGTAAAACCCYRTCTCTACTAAAAATA
CACAAATTAGCCAGGCTCATGGCGGGTGCCTGTAATCCCAACTACTCAGGAGGCCGAGGCAGGAGAATCTTTGCTTGAACCTAGGAGGCAGAGATTGCAG
TAAGCCGGGATCGTACTGTTATACGCTCCAGCCTGGGTGACAAGAGTGAAACTTTGTCTCAAAAAAAAAAAAAAAAAAAAGCCTGAGTTTTAGTGAGAGG
TTGACCAAYGTGCCTAATGTCACATAGTGAATGAGAGATGGAGCCAGGAGCAGACCTGGGATTTGACTCTGAATTCTAAACTCTATGTTCCCATAAGAAG
GACAAATGAGGACCGCTGAAGAAAGAGGGTTCAGGAAGGGGCGTGTGGAAGCATGAGTAATTATCTTACTTGCTTGAGTCACAGGAAACCACTCAGAGGC
TAACACTGACTTGGGGTTAACCAGATGCCTGGCATTGTTCTCAGCGTAATGCCCTTCAGAGGTATTTAGCCTTTGTAATCCTTAAGACAGCCCTATGAAG
TTGGTACTGTTCCTGTCCCTACTAAAGACAGGGACACTGGGGCAAAGAGATGACCAAGAGCTAGGTGAAGCCTGCTCCAGAGACCAACCACACCCTGTCC
ACGCCCCAGAGGTGAGACGCATTTSCCATTTGCACCGTGATGTGCTGTGTGGTGGCTCATCCCACGCACCACAGGCTGGGCTTGTGGCGTTCTGCATGAG
GATGGCCCGTGGGTCCTCGGCAYGCCCCCTCCCCTGCTGCATGTGCACATGGCCCAGAGCCTGGCCAGGGTTGTCTGAAGGGCTAAGGGAGCTCAGGGAT
AGAAGTGGTGGGGTGCAGGGGAGACGGTGGGGAGACAGTGGGGAGAGAGCCAATCCAAGTAGACATTGTTATGCGTGTGTCCACTTCTCAGCCATGCTCT
TGGCAGGAACGCTTCCAACTTTCTGCAGGCCTTCTCTCTCCCCACCTTAATTGAGGTTGTGGCTGGGTTGGTTTCTTTGTTTCATTTTGAGACCAAGTCT
CGCTGTCTTGCCCAGGCTGGAGTGCAGTGGTGATATCGTGGGTCACTGTAGTCTCGATCTCGAAGGCTTAAGTGATCCTCCCACCTCAGCCTCCCAAGTA
GCTGGGACTACAGGGATATGGCACCATGCCTGGCTGATTTTTTTTAATTTTTATTTTTAGTAGAGATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCA
AGCAATCCTCCCACCTAGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCACGCCCAGCCAGATATGGCTGTTATAAGGGACAATTTAGCCAAAT
GTTTATAAAGTACTCAGCAATGATAGTATGATCTATAAATGCTAAATAACTRTTGGGTTGAAATATAAGGAGTACACTTCTATTTATTTATTTTTATTTA
TTTTTGAGACAGAGTCTCATTCTGTTGCCCAGGCTGGAGTACGATGGCACAATCTTGGCTCACTGCAACCTCTCCCTCCCCAGTTCAAGTGATTCTCATG
CCTCAGCCTCTTGAGTGGATAGGATTACAGGCATGCACCACCACACCTGGCTAATTTTTGGATTTTTAGTAGAAATGGGGTTTTGCTGTGTTGCCTAGGS
TAGTCTCAAACTCCTGAGCTCAATCGGATGCCTGCCTTAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCRCTGCGCCTGGTCCAGGAGTACGTCTT
TAAATAGAACATTCATCAGACTGCAATTACACATGCCTTAGCTGGGGAGCTCACCAAAATTCCTCTCATTTTCATCAGATTATTAATATTTCATCAATAT
TAATTATAGAACACGGTGGCCCTGCTTTGGAAGTAGAGGATGCTGGTGCCCACCTTGCAAGTGGCTACACTGAGGCACAGAAGTAGTAGATAACTTTCTT
TTTTTGTTTGTTTGTTTGTTTGTTTGTTTTTTTGAGACAGGGTCTTACTTTGTCACCCAGGCTGGAGTGTAGTGGTGCAAACACAGCTCATTGTAGCTTC
TACCTCCTGGGCTCAGGTGATCCTCCCACTTCAGCACCCCCGAGTAGCTGGGACTACAGGAGTACACCACTCTGCCCAGCTAATTTTTGTATTTTTTCTA
GAGATAGGGTTTTACCATGTTGCCCAGACTGGTCTTGAATTCCTGGGCTCAAGTGATCCTCCCACCTTAAAATCACGCGGTGACTCGGGGATGTTAACTG
AGAAAACAGCTCAGGATCTTTTCCACACCACTTCTCTGTTAAGTTTGAACCACATGTTCTGAAAACACCCCTTCAAAAATGCTGACTTAAGCATCTGGGC
CAGAATTCTTCAAGAAGTGAATTCTTACCTCTCCTCTTCTGTGCATTCCACTGGGATTTTATTGTATATGTTATGAATGTACAGTATTGACCTATATTGG
CCATAAAAACATGCACCTGTTAAACAGGAAGGATGCCTAAAAACCGTCAGGAGGGGCTATCTCTGGGGAGGGGAACTGAGGACAGAGGTGGAGGAAAAAG
ATTTTCTCTCTTTTCTGTTTTTTTTTTTTTTTTTTTTTTTTTTAAGATGGAGTCTYGCTCTGTCACCCAGACAGCGAGCGAGCAGTCTGGGCTCACTGCA
ACCTCCGCCTCCCAGGTTCAAGCCATTCTCCTGTCTCAGCCTCCTGAGTAGCTAGGACTACAGGCGCCTGCCACCACACCCAGCTAATTTTTGTATTTTT
AGTAGAGACAGGGTTTCTCCATTTTGGCCATGCTGGTCTTGAACTTCTAACCTCAGGTGATCTGCCAGCCTCRGCTTCCCAAAGTGCCGGGATTACAAGT
GTGAGCCACCATGCCTGGCCAGTTATTCTTTTTAACAGCTACTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGA
GTGCAGTGTCATGATCTCGACTCACTGCAAYCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGTGTAGCTAGGACTACAGGCACGTGC
TAATTTTTATATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGTCTCAATCTCCTGACCTCGTGATCTGCCTGCCTCRGCCTCCCAAAGTGCTAG
GATTACAGGTGTGAGCCACCAAGCCCAGCCTAACAGCTACTTTTTAAGGCTTTTAGTTCATGCTGCCAAGTTGCCCTCCACTGACGTTGACTCCATTTAC
CTGACCACTGGCAAGGCAGAGTCACGTGTTTTCCAGCACTCTTGCCAACATTCAACTTTGTACCTTTTTTTTTCCTCGAAATGTTTATTATAGTAAAATA
CACATAAGACTTACCATCTGTGCCGTTTTAAGTGTATAGTTCGCGGCATTGAAAACATTGCTAATGTTGTGCACCTGTCACCACCATCCATCTCCAGGAC
TTTCTTCTAGTAAAACTCAACTTTATAATTTTTAACATTTGCCAATATAATGGGCAGTTATTTAAAATGTGCCTTTCTTTAACTGCAGGTAAGCTTTTTC
TCCTACTTTTTCCTCTGGCACACCTTCATTCTTGAACCCCTCCCATTGGATCTTCTGGCTTTTCCAGCCTCTGGCTCCTCCGCTGTAGCTTTGATTGACA
CTTCTGTCACACCTTTAGTGTCCCCTCAGACAACATCACACATCCCCTATGTGTTTGTGATCTGTGTCCACGTGTCTACGTGTCTGTAGGTCTAGGACGT
GCTTTCTGTTTAACCGTCACCAGCTGCTCCAGGTGGAAGGCCTTCCCTCTCAGGCTTACCCCAGCCAGCCTCAGCATCCTCTCGGGTGATTGCAGCCTCA
CTGAAGACCATCCCCCAGAGGCCTGCGTGCTGGAGAAACTGTCCCTGGCCTCTTTCCCATTGACCTGGCTGGTGCTTCCATTTGAATGGTGTCTCTGTCT
TCCTACTAGCTAGTGAGCYCTTGGAGGATGGACGTTTCATCTTCTCCTCTTTCTTCTCTCTTCCTCCCCTTCTACTCTTCCAGCCCCCAGAATTTAGCAT
AGTGSTGTGAATATAGTGTTGCTTAATAAATAAATGTCTGTAGGAATTAAGTTGGCATTCTGGGGATGGAAAGCATAAATAATTTGGAGGTAATCCTTTC
TTTCATTTGTTCTATCATATTCTCACTTAGTATTTTCTTCCTGAAAATTATGACTGTGGGGCAACTGTTGTATTTCTGAGTTCTGCTTTCAACCCACCAC
CAAAAACTAAAGTCTCCACTTGGAAACTGTATATTTTCAGTCATTAAGAGGTTTTCCCACCTTGCCCATTGTGTTCCAATGGAACTTTTCTGCAGGGATG
GGAATGATCTTTATGTGAGCTGTCCACACAATGCCCAGGGCTGCATGTGGCCATGGAGCATTTGAAATGGGTCTAGCGCAACTGAGAAGTTAAGTTTGTT
TGATTTCAATTAATTTAAGTAGTCATGTGTGGCTAGTGACTACCATATTGGAAAACACAACTGTATACATCATAGAAATGTCAGCTTGGCTGTGTGTGGT
GGCTCACGCCTGTAATCCCAGCACTTTGGAAGGCTGAGGCATGTGGATCACTTGAGGTCAGGAGTTTGAGGTCAGCCTGACCAACATGGTGAAACCCCAT
CTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCACATGCCTGTGGTCCCAGCCACTTGGGAGGTTGAGGCAGGAGAATTGCTTGAACCCGAGAGA
TGGAGGCTGCAGTGAGCCAAGATTGTGCCACTGCACTGCAGCCTCCAGTGTGGGTGACAGAGCAAGACTCCRTCTCAAAAAAAGAAAGAAAAAATAAAAA
AAGCATCAACTGTTAGCAAAGTATTTTTAGAAAATTTAGAGACATATTTTGATTTTTCCCTTTTTATAAGCATCTTAGAGCTAAAACTCTGCTTATCAGG
CTAATTATTATATATCAAGTGATTAAATGCCAGGACCATTTATTAAGGCTAAAATTTGGACTTAAGACTTTTACTAATCCACGAGTAATCTACCCATGAC
TGTTCATGACTATCCCAAAGCTGGATGTTGTCTGTCTCTGGGCCCTGTGTGCTTGCATGCGCGTGTGTGGTGTGTGTGTGCGTGTGTGTGTGTGTGTGCG
CACGTGCACGCATTTACCAAATGCAGGTGTGTCCTCCTACTCAGAAGTTTGCATGTTAGTAACATCAAGTCATAGATGCTTGCTGAAGTCACCACATTTG
AACAAAACCAAACTGGGATGGAGACTATAATATTAATTTCTGTTTTTCCTTCTCYAGAAGGTCAGTGCACCAGATATTCTGAAACCTCTCAATCAAGAGG
ATCCCAAATGCTCTACTAACCCTATTTTGAAGCAACAGAATCTCCCATCCAGTCCGGCACCCAGTACCATATTCTCTGGAGGTTTTAGACACGTGAGTCT
CATTCCAATGCTCTTTTTTTGTTTTTTTGTTTTTTGTTTTTTTGGAAAGCATAATGTACAAGTCCTTATTTCAATTACTCCTATTTGAAGGTCCTTATTT
TTGGAGAACAGCAAGGCATTTTATTATCCATCCTTCCATTCCTTAAAGGCTTCCACAGGTTTTAGTAAAGTTGCGTTATCCTCAGGCCTGTGTCTTGGAG
TTACTCCAGGTGTGTCAGCAGATTCATTATCAATCCACTCCACCAGTGCTCTGTAGCTTTCTATAATGCAGCATTCTGCAACTCGCGTAAACAGATAGGG
CAGGAGGGCGCCGGTCAGCTTCTTCCAAGTGGTTGGAGCTGCGTTAGGCATGCAAGCCACTGACAGTGTCGCAGTCCACGTGTGTGTCCAATCTCATGTG
TTAAAATCTTACAGGATCAATGTAGTGAAACATTAGTTCTTTCCAGAATGTAATAGTTATCAAAAATTGAATAGTCAGTTGAAGATGTTTTCTGTCACTT
CCTCCCTTTGCCTTCATAGCACAAGCTATAAAAATCACTGCCATACTTAGCAAAGCTGAATATCCCTACACCATCTGTCAAAGAGGCCTGTCCAAAGACA
AAATTTCAGGAGTCTCTTGGGTAAAGATCAATCATTGTTATCCCCATGACACAGGCGTCTTCAGGTTTCTTCTTTTTTAAGAACTTCAAGATGTCCCCTG
CATGAACTTGTAGGCTTTGTTTGTGAATTATCATTGGCTCTAAAGGAACACCTCATTGCAGAAACAGGAACCAGTTCTAGGAGGTTTGCTCTCAAGCCGT
AGAATTATGCCTCCCAATAGGCCTTGAGCCATTTCATAGATTCTTCATTGATAATTCTGGTGTTTCCTAGAGATCCAGCGGACTGAATATAAATACTCAT
TTGTCTGGAGAGAGTGTCTTTCTGTAAGGGCCACTGAAGAACTGTTCAAAGTCTTGGGGAGCCTCTGGATGGGAAGTGATCTAATATGATTGGGAATGCA
AAGTAATGGGTCCAAAGAGATCACTGGCTGGCTGGAAGCCTTCGTTCATTCAGCACTGTTTTCCCCAGCATCTRATTTCCCATACTGTGACACAAGGCCT
GGGATCTTTGAGATGGAGATGTTTTCAGTGTCTGTTCAGAGTGCCATACTGTTTGCATAATGACAGATCTCTTCTGTTAACATCGTGTTCCTAGGTTGAA
CTTTCTTTTTTTTTTTTTTTTTGAGACAGAGTATTGCTCTGTCACCCAGGCTAGAGTGCAGTGGCGCGATCTTGGCTCACTACAAGCTCCGCCTCCCAGG
TTCACGTCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGCACTACAGGCGCCCGCCACCACACCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGT
TTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACGTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCC
AGCTGAACTTTCTTTATTTTAATTTTATTTATTTATTTATTTTTTGAGATGGAGTCTTACTGTGTTGCACAGGCCAGAGTGCAGGCTGGTGCCATCTCAG
CTCACTGCAGCCTCCGCCTCCCAGTTCAAATGATGGTCATGCCTGTCTCCTGAGTAGCTGGGATTACAGGCGCCCACCACCACGTCTGGCTAATTTTTGT
ATTTTTAGTAGAGATGAGTTTCACCACGTTGGCCAGGCTGGTCTCGAACTCTTGACCTCAAGTGATCTGCCTGCCTCGACCTCCCAAAGTGCTGAGATTA
CAGGCATGAGCCACCGCAMMCGGCCTAGAACTTTCATTCTTCCTTTTAAATGGGTCAAACAGGTGTTCGGCCATGAGGCTTTATTAGGAAGAAGGCATCC
TTCTGAGGTTTTTACCTTATAAGGATGGACATAGCTGGGCCTGGCCGGAAAAGTGTTGTGGAGGGAATCTTCACCCACCAGGCCTCGAGGCCACCCGCCC
ACCTCCCATGGCCGTTCTCATGTGCGTGTCTCATCCAAGTACTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGAAGTCTCCCTCTGTTGCCCAGGCTG
GAGTGCAGTGGCACGATCTCAGCTCACTGTGACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGA
GCCACTGTCCCCAGCCCCAACTACTCTTGATATGTGCGGCATGGTTATGACATCAGTAGACAAGGGGAGGGATGAGCTGTCGCCTTGTGAGAGAAACTGG
AATGTGACAATAGAACTTGGAAGTGATATTTTACTTAGGTTGGGATTTGGGGAAACCCTTGCTATACTTTGAGAGTGGTTTTCTTTTTTACATCTTATGA
TGAACATTTTCATACATATGGGAGTAATAATAAATATTGGTGTCTTTTGATTTTGTGTTTTTATAATTTTGATGAAGTCTGATTTGGCAGCATGTTCTTT
TACGGTTAAGTCTGTGTCTCGTCCATCTGCAAGTCATGAAGATATTCTCCCATGTTTTCATCTAGAAATTTAGAAAAGTTTAGCTTTTACCTTCAGGGCT
GTGCTCCAGCTCGTTACTATTTTTGTGTGTGAGTGAATGGTGTAAGGTAGAGATTGGGGCTCATTTTTTTCCATATGGATATTTAGTCAACCTAATACCA
CTTGTTAAAAAAAAAAAGAAAAAAAAAGACTGTTGTATCCCACAGTGACTTTGGCATCTTGGTTGGAAATCAAATGTCCACATAAGTGTGGATCTCCTTA
TGGACTCTCTGTTCTGCTCCAGTGATCTCTTCGTCTGTCCTTATGCCAAGACCACACTATCCTGAGTACTGTATCTTTGTAGTAAGTCTTGAAGTTGGAT
ATTATAAGTCTTCCAATTTGGTTCTTCTTTTTCAAGATTGCTTTGTGATGTTTTAAATGTATTCTCTGTGTATAGGTAGGCATTTTAATTCATTCGTTCA
TTCATTTGTTTATTAAAAAACATTAAGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGYGGGTGGATCATGAGGTCAGGA
GATCGAGACCATCCTGGCTAACAAGGTGAAACCCCTTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGCGCCACTGCACTCCAGCCTGGGTGG
CTAACATGGTGAAACCTCGTCTCTACTAAAAAAATATAAATAAATAAAACACAAAAAATTAGCCAGGCGTGATGGCAGGCGCCTGTAGTCCCAGCTACTC
AGGAGGCTGAGGCAGGAGGCTGAGGCAGGAGGATGGAGTGAACCTGGGAGGTGGGGCTTTCTGTGAACCAAGATCACGCCACTGCACTCCAGCCTGGGCG
ACAGAGCGAGACTCTGTCTCAAAAAACAAATAAACAAAAAACATTGAGTGTTTACTTTTTTGCCTAGAATTGTGACGCATGGTATAATAGGTGGATTCTT
GGGTGAGGGGCCATAATGCTTCAATTAACACTTGTGTTAGTCCATCCATGTTGCTGTAACAAAATATCACAGGCTGGGTAATTTATAAACAATAGAAATT
TATTTTTCATGGTCCTAGACACTGGGAAGTTCAGGATCTCAAGGCATGGACAGGACTGGTGTCTAGTGGTCTGYTCCTCATAGATGGCTCTAAGTCTCTT
CCTCACATGGTGAAAAGGATGGAAGGGCAAGAGGGTCCAGTGCTGTGTGCAGCCTCTTATAAAGGCCTGAATCCCATTCACTAGAGCCCCACCCTCATGA
CTTATTCAGTTCCCAGAGGCCCCACCTCTTCATACTATCACATTGGCAATTACATTTCAACATGTGGATACTTGGATCTTTCAAGCTGCCTGCTTAGCCC
CTTTCCAAGTGTACTGTACTTTACTTTCTTTTTCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTTTGTCACGTAGGCTGGAGTTTAGTGGTGCGAT
CTCAGCTCACTGCAAGCTCCGCCTCTCTGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTA
ATCTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTTGTGATCCGCTCGCCTTGGCCTCCCAAAGTGC
TGGGATTACATATATAAGCTACTGCACCCGGCCAACGTTTTTTTTTTAAAGTTTCCTTTTTTTTGTTAAAGGATAATAATAAATGTTAAAAATAATAATT
TCTTTTAAAGACTTTCTTCAAGCCTCCTTGCTTTGTGCTCATAACTCTTTGTTAAGCCCTATCCTATGTAGCTGTTAGATACAAAGGAATAAGTACATTC
TGTGTCCTTGTACTTTAACCAAGATATTTGTGCTGAATATGCTCACAGGCACATTCCAGCTTGCAGCCTATGCCCCTTCCTTATTTGGAAATACTACTTT
TCTAAGTCCTTTTGCAAGCAACTTCCTCTTTTCCTTTGTTCTCTATTGCCTATACCTATTTTTAAAAGTTTTAAATTATTAGCCAGTCAGGTTTTAGATT
GTAAGGTCTGGCTCCAGCCAATGGAGACAAAACACAGCAGCGGGGACAAGCTGCGTAAAGGATAAAAATTGCTTCCCTCCATTGTTCAGGTGTGCTGTCR
TCATTGTTCCATCTGTAAGGAGCACCCTTTCTGCAGAAAGTAAAATTGCCCTGCTAAAAAAACTTTTTGTCTAAATGCTAATTTTTCCTTATAGTAGTAA
GGAACAAGCATTCTGTTTCTAAATAAACATTTTACTTATAACAAAATGGTGGCCCGTACGGGGATACACTCCTCCAGGGGCGGTCTCTAGTCCTCTCTCA
TGAGGAGGCGCCCCACTGCCTCGTTGCGGTGGCCTCTGGGGTAAGGAATCGAGACCCACCCTGTGTGACGAATAAACCTGGACTCTCAGCAACGCGGAAA
GAAAGCAGCCAGTAACCTGGAGTGCAGGGTCCTCACATACCACGCGGGCCAGGTAACCTCATGCATAAGACAAGGAAGGAAATACCGGAGGAGCTGGTAA
AATATTTCCTTGGTGGTCAGGACTAAGGAAAGAAAAGCTGCGGGGYGGTAAAGCATTCCTTGGTTAGGACATACCWAGGTAAGAGAAACYGCAGGGGCGG
TAAAGCATTCCTTAGGACTGAAGAAAGAAAAGCCGCCAGGGGGCGGGTCGGGGTGGGGCGGTGAAGTATTCCTTAGTCAGGATGTCTTAARGGTTAAAAA
GAGGTGAAAAGTCCCCATTAGGGGGGAGATTAAACATCACACAAACCTCCAGTAGTAAMAAAGATATTCGGGCCGGGCGTGGTGGCTCACGCCTGTAATC
CCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCCAACAAAGTGAAACCATGTCTCTACTAAAAATACAAAA
AATTAGCCGGGCATGGTGGCGGGCGCCTGTAATCYCAGCTACTCGGGAGGCTGAGGCAGGAGAATAGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCC
GAGATCACACTATTGTACTCCAGCCTGGGCCACAGAACAAAACTCCATCTCAAAAAAAAACAAAACAAAAAAACTAAAAGTCTTTTAGCACAGGTCCTAC
CCCTAGAATTTCCAGCACAACAGCACCACCCTGGGGACCACGTCCTCATCAAAAAATAAAAAGAAAAAAAACTCAAGCTAGCCTAGGAAGGACCCTACCT
TGTGCTGCTAACCACCAAGACTGCCTTTGCACAGCAAAAAAAGGATGGACACATCATACCCAAGTCAAAAAAGCATCATCACCTTCAGAATCATGGGCCA
TTGTTCCAAAGTTATCTCTCTTTTTCTTTTCTTCCCTTTACTTCCCATCTTATAACTAATTTTTGTTGTCGTTGTTGTTGAGATGGTGTCTCGCTCTGTC
ACCCAGGCTGGAGTGCAGGGGTGCAATCTCAGCTCACTGCAAGTTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGACT
ACAGGCGCCCGCCACCATGCCTGGSTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGATCTTGATCTCCTGACCTCATGA
TCCACCCACCTTGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCAACATAACTAAATCTAACTCACCTCAAGTTATTACTTTTA
ATGCCTGTTTAATTATGCCTTATAAAGATTTACATAACCAAAAACAGCTTACTACTTCAGAAAAATATCTCTGTCCCTCTTGGACTTCCTCAAATTAGGA
AGACATAGTAAGTTCCTTTAAGAATACTAGTAATCCAGAGAATAGTAGCTGTATTAGTAAAAATCAGACTCTTGTCCTTCTGAAACAAAATCTCTATGTT
CTGCTTAGTCTAATGTCCTATACAACACTAAAGGTTTAAAATAGACTGCTTCCATAGGTCTTTGTCAGTCCTTAAATCCATATATCCATTTCACCAAAAG
AATTACTCCTTCTAGTTGTCAATCTCCTTCAACCACTCCATCAATCACTCCTCCCAAGCACAAGGACAAGACTGAAGTCTCTATAGTAAAGGTGAAAAAC
CTAAGGCAAACGATAGCAATGAAGACAAGGTATCAAAATATAAATGCCTGGCTAAAATGGATTAAATATTCCATCCGCACTCTAAATAAAAGCGACTGTT
ACGCGTGTGCGCACGGTAGGCCAGAGGCCCAGCTTGTCCCCTTTCCACTCGGACAGTCCTCTAATCGACAAGACGTAGACTGCATAGTAGGTCCTTTTCA
AAATCCCACAGCCTAGGATAGTAAACTGTGCCAGACTCTCTCTGCTATTTCCTAAAGTGCAGTACCCTGCAGGTCAGCCCTCAAGGGCCATCCAGCCTCC
ATCTTCCAAGACCAGTTTTACCTCGTGTCTCCAATGACGAAGGAAAAATTTGGCGTACCTTAAAGACTTAATAGGATGCAGTAACGTCAGGCACTTCCAA
GAGCTAACCCATCAGTCCACCCTTATTCATCTCCAAGTGAACGTATGTTAGTATTRTAAAAAACCTTTACTAGACACTCTGCCAAATAATTAAAGCAGTA
CTTATGCTGTAGTTCAATTGGCTATCCCTTTTACCCTGGCATTTCATCAACCAAAAAAACTCTTTCTTTTAAAAACTCAAGCAAAACAGCTAAGCCAAAA
CATGTTTTAAAAGTTTAAAAAGAAAAAAAAAAAAAACACTGTAAAATCAAAAGGAGGGAATTGTAGAAAGTAAAAAGTTTCCTTTTCAGTTTCCTTTCTG
GTAATAATAATAATGTTAAAAATAATAATTTCTTTTAAAAACTAACTTCCTTCAAGYCTCCTTGCTTTGTGCTAATAACTCTTTGTTAAGCCCTATCCTA
TGTAGCTGTTAGATATAGAGAAATAAGTACGTTCTGTGTTCTTGTACTTGAATGAAGATATTTGTGCTGAATATGTTCACAGGCACATACAGCTCGCAGC
CTATGCCCCTTCCTTATTTGGAAATATTATTACTTTTCTAAGTCCTTTCACAAGCAACTTTCTCTTTTCCTTTATTCTCTATTGTCTATACTTTTTTTAT
TTTTTATTTTTTGAGATRGAGTCTTGCTCTGTCACCAAGGCTTGAGTGCAGTGGCCCAACCTCAGTTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCAT
TCTTCTGCCTCAGCCTCCCTAGTAACTGGAACCACAGGTGCCCGCCACCACGCCCGGCTAATTTTTCTGTATTTTCAGTAGAGACAGGGTTTCACTGTGT
TAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCTCCTCGGCCTCCCAAAGTGCTGGGATGACAGGCGTGAGCCACCGTGCCCGGCCACCTCT
ACCTATTTTAAAAAGTTTTAAGTTGTTAGCCAGTCAGGTTTTAATTTAAATTGTAAAGTCTGGCTCCAGCCAGTGGAAACAAGACACTGTAGCAAGGCCA
AGCTGTGTAAAGGATAAAAATTGCTTCCCTCCATTGTTCAGGTGTGCTCTCGCCATTGTTCCATCTCCAAGAAGCACCCTTTTGGCCGGGCGCGGTGGCT
CACGCCTGTAATCCCAGCTCTTTGGGAGGCCGAGGAGGGCGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTAC
TAAAAATACAAAAAAATTAGCCAGGCGTGATGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGAATGGCGTGAACCTGGGAGGTGGAGCT
TGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCATGGGCAACAGAGCGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAGCACCCTTTCTGC
AAAAAGTAAAATTGCCTTGCTAAAAAAAACCTTTTTGTCTAAATGCTATAGTACCAAAAAACAAGCATTCTGTTTCTAAATAAACATTTTACTTATAATA
GGGGTGGAGGGGTTGGGATGAGACTGTGCCTTCATAGACAGCCAGTGGGCCAGTTTCTACTAATCTGCCCAGGGTCCCACTAGATTGGAGTCTGAGCTCC
TTCAAGGGCCAGAATCACATCCTTGTAGCCCTAGAAACCAACACATAGCCAAGTACGTGGGCTTGGATCCACCCCATGACAGCCGGTGGGATCCTGTGTG
ACCTGCCCACCACTCTGGCCCGACCTCACCAGCTCTCACCTACCCCATCGCTCATTCCACTCAGCTGCAGGGCCACTGACTGGTGCTGGGACCCCCAGAC
ACATCCCACCTCCAGGCATTTCTGTACCCTTCCCTCCCAGACATCACAAGTCATGCAGTCCCTTCCTTTAAGGCTTTGTTCCAAGCCACCTTCTCAGGGA
GCTCCCCCTGCCCCACTCCCCCCACCTGCTCTATGTTAATCCATGTCCTCACCACCCCGACATGCTATAGAGTTGGCTCATCTGTTGGGTATTGTCTGTG
TCACCTCCCCACTAGACTCTAATTCCCAAGAGCTGTATCCAACACTTAAATGGCCTCAATAAATGTTTGTTGAGTGATTGGGTTAATCCTAATCATAGTT
ACCATTTATTGAAAGCCCAAGGCAGGTGCTTCACAGCTCAGTCATTCTCACAAAGATCTTGTTATGGAAGGTGCTGTTATCCCATTTCACAAATGAGGAA
CCTGAGGTTCACAGAGTTTAAAGCGACTTGCTGMGGTCCTGAGATGACTGTAGAACTCTGATTCAAACCAGGGGCCTGGGGAGTCCATACCGGGGAGTCC
AGGCTTTTCACACTATCCCACAGGCGTTTTGTACTCTTACATTGAGCAGTTTTCCTGACCCATGCTGCCTGGTTCAGCCTCACTCACTCAGGGCCAGTCC
ACACGTAGAAGCAGGGAACCAGGATGCTAGCCTAGGGAGAGGTGGGGTGAGCAAATCCATCTTAGTCCCTTTGCTGCTTAGGGACTTTTTGTTGGAAAAC
AAAAATTTGTTTTTAACAGCCCCATCAGTGGCATATGAGATTATGCAATTCCCCATATACTCATTAACTTTGAGTATTAATCAGATTTTACACATACACA
CATGGATGATGTTAATTTTATAATTATTAACTATGCCTAACTAAATCATAGTGCAAATTCAGTAGGGCTGTCTATTCTCACCCATTTTTCTAAAGTTTTC
TCTGATTTGTGCCCTTAAAATTTATAATCATGTTACTATGCATTGAATCGTAACCTGTTCCCTTTAGGCTGAAGCAGCATTTATTTGAGGAAACTGAACT
CCCACAAAACAAACCACTGATTATTGCTTCTTGCTAAAGGTGTTGCCTTCCCTTCTGAGAAATATTTACATTCTCTGAGAAACAAGGATCGGAGTAAAAA
CAAAAAACAAAAAACCCAGCTTATTAAAATTCCACTTATTACAGAAGTATAAAGCCAGATCTAGACAACAAATAGGGAAAATCATTTAACCTCCCAAGTA
GGCAAATCASTGCAAAATTAAAGCAAGCTGTTATTTTGGGACCACTTTAGTAAATTYTAAAAATAATAGAGCTCCGTGTTGGTAAGGTGTAGGGTAGCAG
GCGTTCTTACAAACTGCAGGGTGAGCAGAAACTGTTACAACTTTTCTAGAGGGCAATTAGCAGTAGATGTCAGAAGCTTTTACTTGTTCTCTTTAGTTGA
ACTCTCTTTAGTTGAAGAACTTCAGTCACAGGAACTACTCTTTAAAAATTATCATGAATGTTGGCCAAAATGTGCATACATAGATGTCCCAGACAGCATT
GTTTATAATTGTTTTAATTTTGAAAAACTGTCAACAACGGCCGGGCGCGGTGTCTCACGCCTGTGATCCCAGCCTTTGGGAGGCCAGGGCGGGTGGATCA
CAAGGTCAGGAGTTTGAGACCATCCTGGCCAACATAGTGAAACCACATCTCTACTAAAAATACAAAAAATTAGCCGGGCGTTGTGGCGGGTGCCTGTAAT
CCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCAGAGTTTGCAGTGAGCCAGGATCACGCCACTGCACTCCAGCCTGGGCGAC
AAAGCGAGACTCCTGTCTCAAAAAAAGAAAAACTGTCAACAACCAAAATGTCAAGAGAAAGTTAAATTATGGAGAATGTGCACACAGTATTATTCTAACT
GTATAAATTTCAAAATCAGGTAAAACTAAACAGTAGATTGTTTGGGGGATATATTCATGTATAATAAAACCATTGGCTGGATGCAGTAGCTTATGCCTGT
AATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACCCCATTCTACTGAAAATA
CAAACATTAGCCAGGCATGGTGGCAGGTGCCTGTAATCCCACCTACTTGGGAGGCTGAGGCAGGAGAAATGCTTGAACCTGGGAAGTAGAGGTGGCAGTG
AGCTGAGATCGTGCCATTGTACTCCAGCCTGGGCGACAAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAGTAGAAAAAGTAAAACCATCAAGAAA
ATCAAGGATGATTAACAGACAGTTTGAAATAGTGTTTCCTGGAGACAGGAATGAGAGGGGATTTGATAAGGGAGGAGGAGTTCTGGGGCACTTCTGAAGT
CCTGGCGATGTTATTTTTCTTAAGCTGAGAGTGGGCATGTGGATGTTAATTTTATAATTGTTTAATCCTATATGTTATATGTACTCTTTTGTTATACATT
TCATGGCAAAAAAAAAAAAAACAACGAAAAATCAAATGATTTGCTTAGCTTACAAAGGTCATCCACATTTTGTGGCATTTTTAAAAGGCTGATAATCACT
AAGCTTACCATGCATAGGCATGGTTCTAAGTCTTTTTCCGTGTGTTAACTAATTGAACTTCACCATGACCCTATGAAATAGATCCCCATTTTACAGATGA
GGAAGCTGAGGCTCTGGAGGGTAAGATAATTGGTCAAGATCACACAGCCACTAAGTGTCAGGGCCAGGCACTGGAAGGCTGCTGTGTGGCCTCATCACTC
ACCATCTTAACCACTTTGCAAAAATGTTCTCAGTGTGTTCTTATCAGGATTTATTATTTTTAATTTAGCTGTGGCTTCAGTTGACTCTGAGTTTTCTGCC
CTTGTGAAATAAAAGGGCATGAAACTTAGCTTGCAGTTACAGGAGATACATTTGTGACCTTCAGAGAAAGTCACTGGCAGAAGGCTCCCTGCCTGCCTTG
AGTTTTTCCTTTGCCGTTACCCAGATTGACTTTCTTTCAAACCCAGACTGTGCCAATGGCTTTAATAAAAGTCAGGCTGAGTTTTGGGTTGCGCTTCTGG
GCCAGAATCTTTTGGTTGACTCCATTTGCTGCATTCAACTTGTAACCTGCTCAAAGGCTCTGTTCTGGCTCCAGAGAGAGCAGAACCAGGAGCCCTGCCA
GGGCGATGGTGGTGGAGCCATGAGTCGCCTGGGAAGGAACGCATTTGATGGATGGACGTGCTCTGCTCTCCTTTCATTATGAGGGTGTATCCTCCCCGTC
CCTGCTCAGCAGACACAGCGGTTGAACTACTCAGAGACATGAGCATACATTATGGCCCAGAGATTTAGGAGCCCTGGTCCACTTTCAGGTCTGCTTCTGA
TGTGTGATGCAATTTGGGGCATGACTCAACCTGCCTTGACCTTCGTTTATCTACTTATAAAATGATGAGTAATGACAATGCTTCCTGGATGCTTTATAAT
TCTGGGTGCCAACCTGGACAAGCGCAGCTGTGCCCTTTCTTTCTACCTGCACACCAACAGCTGCACACCCAAGGAGCAAAGTGCATGGCAGGGCAGCCCT
AACCCCAGGACACTCACGCCTGCATGCTGGAGATTAGGTCTGCCCTGTTGTGTTCCCARGTCCACTGTGCCCAGCACTGCCCAGCAATCCTGATGTCTTT
GCCTGATTAACACAGTTTTTTTGCTCTCCACAACAAACATTTCACACCTCCTCCAGTCTTTTCAAACCTGCTCTTCCTCCTCACTCTCAAATCTCCCTTT
TTACTCTACCAAGAAAGAAAAGAATCAGTTTGAAATTTCCCAATCCTCCTGATAGCAAAATTAACCAACCGCATTTGCACCCAAGTGACTCTTCTTTCCC
CACCCGCAATAGAAGAAGCTGATGCCTGCAGCAATACTTGGGATCCTGCCCTCCCCTGCCTTCTCTGTTCCTTATTCTATTACTTGTCCTTCCTCTCTCT
TACGCATTCAGCCTCTACTTACCTGGACCCTGAAACACATTCAAGTCTCCTGTAATAAAACACCTTCACTAAACCTTCCATTCCCCTCCAGCTACCACTT
TTCTCTCCCCACCTCAGCTAATCTTTTTATTTTGTTTTGTTTTGAGATAGAGTCTCGCTCAGCTGCCCAGGCTGGAGTACAGTGGTGCTATCTCAGCTCA
CTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCCACCTCAGCCTACCAAGTAGCTGAGATGACAGGTGTGTGCCACCGTGCCCAGCTAATTTTTGTA
TTTTTAGTGGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCTTGACCTCTAGCGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTA
CAGGCGTGAGCCACTGCACCTAGCCCCTCAGCTAAGCTTTTATTAGTTGTCTGCACTTGGCATTCCCACCTTTCCCCTCCCACTCACACAGCCCTCCCTG
TCTGGCTCCCTGCAAAAGAAGGCGCCGTCTCTTCCTGCCCTTCTGTACATTCATATTTCAGCTGTGTCTCATCTAAATAGCACAGTCAGATGTTTTTAAA
AATCCAGTCATTGACTTTTTTTGTAGTATGTAACCTGTTCTAGTTTATTGTAACTACTTTTTTCTCCTGTGTTACTGTCTCTACCACCTTCTTTTCATCA
TTCTTTTTGGATTAAACAAGTCTGGCTTCTATCATTTCTGGTGGGCAGTAAAATGGTTAAATCTTACTGTTGATTCCATCATAGGTAACAGATCCTTTTT
TTCTCTACCATTAAGATTTTCTCTTTGTCTTTGATTTTAAGCAATGTTATTATGATGTACCTATGTATAGTTTTTTTAAAAAATATTTTCCTCTTAAATC
TGTGGTTTATTGTCTCTTGTTAGTCTTTAGAAATTCTTAACCATTATCTCTTCAAATATAGCTTCTGCCCGATTTTTCTCTATATGAGAGTCCAAACATA
TACTTTTTCATTATGTCCTGTATGTCTCTCTCCCTCTATCTCTCTCTCTCTGTCTCTTTCTCTCCCTCTCCCATCTTTCTGAGATGGGGGTCTCATTCTG
TTGCCCAGGCTGGAATGCAGTGGCACAGCCCTAGCTCACTGCATCCCAGAACTCTTGGGCTTAGCAGGAGCACCCACTCACTATGTTGTGCAGACTGGTC
ATGAACTCCTGGCCTCAAGCAGTCCTCCCACCTTGGCCTCCCAAAGCACTGGGGTTACAGGCATGAACCATGGTATTTGGCCCTGTATGTCTCTTATACT
CTTTATTTTTCATTCATTTTTTCTCCTCTGTGCTTCACTCCAAATATTTTCCATTGACCCATCTTCCAGTTTACCAATCCTCCCTTCAGCTTAGTCTGAT
CTTATGTTAATTTAATTTGTGGAGTTCTTCATTTCAGTTGCCTTACTTTTTAGGCAACTTACTTTTTTTTTTTTTTTTTTTTGAGTTGAAGTCTCACTCT
GTCACCTAGGCTGGAGGGCAGTGGTGTGATCTCGGCTCACTGCAACATCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCATTCTCCTGAGTAGCTGGG
ATTATAGGTGTGCACCATCACACCAGGCTAATTTTTGTATTTTTAGTAGATTCAGGTTTCACCATGTTGGCCAGGCTGGTCTCAAATTCCTGACCTCAGA
TGATCTGCCTGCTTCGGTCTCCCAAAGTGTTGGGATTGCAGGTGTGAGCCACCATGCCCAGCCAAGGCCTTAATTTCTATTTGATTAATTATTATAAATT
CTAGTCCTCTGGAGAAATTTCTATTTGATTCTTTATTATATATTCTGGTTCTCTGGAGAAATAYATTCTTTTCATATATTTTCTTGACCATATTAGTTAC
AGTTATTTTAAAGTTTATATCTTTCAGTGCCAGTATCAGGATCACCCATGAGTCTATTTTTATTGTGCATTTTTTCCTCTTTGTTTTTGGTCACTTACTC
TTGGATCTTAGACTTAGGATGACCAACCATCCCAGTTTACTCAGGACTCGCCTGGTTTTGGCAGTTCAAGTCTTGCATCCCAGGAAATTCCTTAGTCCTA
AGGAAACTGGGACACTTGCTTACTTTTTAGTCCTGGTATGCGTGGCAATTTTTTACTGAATGCTGGACATTGAGTATGAAAAACTGGGATAATTTGAGAT
TCAAAAATATTAGGTTGCTAGAAAAGTCCTTGTGGKTGGACCGTGAATTTTATATAATTATAACTTGGCTCAAACACATCTTTATTAATAAAAGTAGGAT
CCATTACAATCAACACATTTTTGCCAAAGAGAAATGAGTTTGTTTATTCCTGTACCATAAAAATCTGTGCTTTGGGATTCARTGAACTCTTGGAAAGCAT
TTTCTGCATCCTTCTGGTTGTGTTTTCCCTGCACAAAGTTCTCACAATGCTTGAAGAAGTAGTAGTCTGTTGGCAAGAGGTCAAGTGAATATGGCAGATG
AGGCAAAACTTTGTAGCCTGATTTGTTCAACTTTTGTTTTTGTTTTTTGCTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCCA
TCTCAGCTCACTGCAACTTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACACAGGTGTGCACCACCGCGCTCAG
CTAATTTTTGTGTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAG
TGCTGGGACTACAAGCGTGAGCCACCATGTCTGGCCTTGTTCAACTTTTGAATTGTTGGTTGTGTGACATGCAGTAGGGCGTTGTCATGGAGAAGAATTG
GGCTCCTTCTGTTGATCAATGCTGGCTGCAGGCGTTTCAATTTTTGGTGCATCTCATCAATTTGTTGAGCATACTTCTCAGATGTAATGGTTTCGCTGGG
ATTCAGAAAACTGTGGTGGATCAGACTGACAGCAGACCACCAAACAGTGACCAGGACCTTTGGTGCAAGTTTGGCTTTGGGAAGTGCTTTGGAGTTTCTT
CTCAGTCCAACCACTAAGCTGGTCATTGCTGGTTGTCATATAAAATCTACTTGTTGTCACACATCACAATCTGATTGAGAAATGGTTTGTTGTTGTGCAG
AATAAGAGAAGACAACCCTTCAAAATGATGATTTTTTTGACTTTCACTCAGCTCATGAGGCACCCACTTATCGAGCTTTTTCACCTTTCCAATTTGCTTC
CAAGGCTGAACAATCATAGAATGGTCAGTGTTGAGTTATTCAGCAACTTCTCGTGTAGTTGTGGGAGCAGCTTCGATGATTGCTCTCAATTGGTTGTTGT
CATCTTCCGATGGCCGCCACTACRCTCCTCATCTTCAAGRTTCTCATTGCCTTTGCAAAATTTCTTGAGCCCCTACTGCACTGTATGTTTTGCTGGACCA
AATGCATTGTGGATGTTGCGGATTGTCTTTGCTGCTTTATGATCCATTTTGAACTCGAATAAGAAAACTGCTCAAATTTGCTTTTTGTCTAACATCATTT
CCATAGTCTAAAATAAACATAAACAGCAAATAATCCATTATTAGCAAAAAAATAAATAAAGCGAGAAATGCCCATTAAAATGATGTATAACATAACCACA
TTTATTCAAGAATGTATTCCAATATCAAATAGCAAATTCCAACAATGCAAAAACTGCAATTAKTTTTGCACTTTTATTATGCTTCATAGAGAATTTGCTT
TTGCTCTTAACACACAGAGTGGAGGCAAAGAATCTTTATCTAGTCTGAGGCTGAGCTGATTCAAAACTGGGTTTCCATTGATGAAGACAGGTCCATTTCC
AGATGACTCTTCCTCCTAGTAAGGAAGTCTTTGGAGGATCCCAGCTGAAGGTCTGGATATTTACCAAGCCCCTTCCCTGTGATAAGCCTGAAGGCCAGTT
TTTTCCTCTCTAGTAAGATGAAACTGCTGGAAGCATTTTTTTTTTTTTGCTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACTCAAGCTGGAGTGCAG
TGGTGTGATCTTGGCTCACTACAACCTCCGCCTCCTGGATTCAAGCTATTATCCTGCCTCAGCCTCCTGAGTAGCTGGGACTGGACTACAGGTGTGTGCT
ACCATGCCCGGCTAATTTTTTTATTTTTAGTAGATATGGGGTTTCACTGTGTTAGCCAGGATAGTCTAGATCTGCTGACCTCCTGACCTCATGATCTGCC
CGCCTCGGCCTCYCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGTCCAGCCAGCTGGAAACATTCTTAAGCTTCTCGGCCCCTCAGCCACAGCTTCC
AGTTCAGCAAACGCCTTGAGGAAAAGGCAGCATCTCGGTACTCGTGGATTTGCCCTGTCTCTGGGACCTTAGCTCCTCAGGTTCCCCATGACTTCGTAGC
CTTGAATGCTGATTTTGCCCCCCAGTCCCGTTAGACTGCTGAAAACTCTGCTGAGCTTCTGAGTCTCTTTGCCATTTCATTTTGATTGACATCTTGGCCG
TCCAGCCCTTGGACGTGCAGCGGTAGTGATTCAATGTGCTCCTGATGCAAGGAGAGTCAAGCAGGTCAGTAGGATAGAATCAAGTCCTGTGTTGCTTACA
CAGGGACTTATGCCTTGAAGTGAAAGGCAGCTCCGGATGTCAGGCTTACTTCCATGTGCTTCTCTTCAGCATCTTGGCCCCTTGCATCCTGGTGGTCTTG
GCAGCTCTACAATCTCTTGAAATAGTTTAGTTGTTTAATTCAGCTTTCTAATTGTTCTCAGCAGAAAAGTGTGTGTAACACCATTTAGTCTGACATAGCC
TGAAGCTGAGTCCCATGACAAATGCTGTATGATTCATTAGCTTCTCCGTTCATCTACCTGGTTCTTCTCTCAGGCTGCTCACACCTTTTGCCAAGCTCCT
CTGTCCATTCTCTTCTATCTTCACTTCTCATACCTCACTCACTCATGCTGGTGCACCAGTCCAAGCTTTTTTTTTTTTTTTTTTTTTTTTTTTGGTAGAR
ATGGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACTTCAAGTGATCCGCCTGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCC
ACTGTGCCCGGCCTGTGCCTTTTTGAGTGTGTAAAAATTTTACATTGTTTTCCATTTTAACAGTGGAATGGTGTTGACAGGTGAGATTTTTCAGAGCCAG
TGACTGGATGTGGTGAAGCTTGTTTTGTTCTTAGCATTCATCAGTTCAGGTTCCAGCCTGTCTGATGACTTGTTGGTATTGTTTATTGTTTGTTTGTTTG
TTTTGAGATGGGGCCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGTACAATCTCAGTTCACTGCAACCTCTGCCTCCCAGGTTAAAGCAATTCTTATGC
CTCAGCCTCCCAAGTAGCTGGGATTACAGGTACGYGCCACTTGCCTGGCTAATTTTTGTATTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGG
TCTCGAACTCCTGACCTCCAGTGATCCACCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAAGGGTGAGCCACCACGCCTGGTCTCAGTTGCTGTTTTTT
TTTTCTATTTTATCTTTCCCTTGTGGTTCTGACTTTCTGCCCCCAGGCTTGTTTTTTTTTTCTTTTTCTTTCTTTTTTTTTTTTTTTTTTTTGAGACGGA
GTCTTGCTCAGTCGCCCAGACTGGAGTGCAGTGGGGCACTTTCCACTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCGG
AGTAGCTGGGACTATAGCTGGGACGCCACCATGCCTGGCTAATTTTTTTTTTCTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCTTGTTAGCCAGG
ATGGTCTCGATCTCCTGACCTTGTGATCTGCCTGCCTCGGCCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCACTCCCATGCTTGTT
TCTTAGTTTCTTTTCAAGATGTTTTATAGTGTGGAGGAGCTAGTTGGGAATTCGAAGTAGAAATCAGTTAGGCTTGTCTTCCTATAAAAAGGCAGCACAG
AGATTGGTTGCATGCAAAGTATTTAAGCACGTTTAATAGTGATAAGGTAGCTGATTGTATCTTTTAGGCCCAGGAATTTTGTGCTAATTAATAACATTCA
TTAGCCTCTCCTTATCTACATCGTATAAGCTTGGAGTACCCTAGACTGTGATGATAGTTTTATTTTTCATTTTAGGTAACCAGAAAAATTCAGATACAAT
TTACTGTTACCATTGGGTGCACACTTTACTTGCTTTATTCTATTTATTCCTCACCATAGCCCTGTGAGATCAGTATGGTTTTTTCCAGTTAGACTTTGCC
ACAGCTAATGAGTGGCAGCACTAGCATTTGAGTCCAGGTCTATCTGATTCCCAGTCGCAGCCACTTAGCCCCAGACTGTGCCGCTTTCCGCATAGCTGTC
CTGCCATGGATATTATCTTGGCCTCCTGGGAGTGATCTTGCAGAATTGCATAGGAGCTAGTCCATTTCGCCCCAAGCAATTTGTGTTAAAGAATGAGATC
GTGTAACATTTATTGCTAGGCAAAAACTGTATCTAGGCAAGAGAGGGCCTTCTGAGGATTCTCTRTCTCCTTGAGATAGAACATGTGGCAACTTATTTTG
GCAAAGTACAAGCTGGTGCATTATTAACTTGATGTGAGTCAGGATACATGCTGTATGAGTTTTTATTTATGTGCTGTCTTGAAACCAGAACATCAAAAAA
GTGAATTAACTGAAGTAACTTRTTATATCTGTTATTCTTGATTTCAGGGAAGTTTAATTAGCATTGACAGCACCTGTACAGAGATGGGCAATTTTGACAA
TGCTAATGTCACTGGAGAAATAGAATTTGCCATTCATTATTGCTTCAAAACCCATTCTTTAGAAATATGCATCAAGGCCTGTAAGAACCTTGCCTATGGA
GAAGAAAAGAAGAAAAAGTGCAATCCGTAAGTTGTTTTTTTTAAGTTTAACATGAGACATATTGATTCCAAAATGTATATGAAAAAGTAAAAGTCTAAGA
ATAACCAAGACAATTATTAAAAAAAAAAACAAAATGAAAAGGCTTACTTCAAGTATTATTATAAAGCTGTAGCAATGCAAACAATGTGTTATTGATACAA
GGACAGAACAAGTCAGGARAGTAGAATCAAAAGTCCAGATACAGACCTTAGCGTATATGAAAACTTACATGATCAAGGAGTGTCTTAGTCCATTTCGGCT
GCTGTGACAGAATACCATAGACCAGGTGGCTTATAAACAAGACAAATACATATCTCACAGTTCTGGAGGCTGGGAAGTCGAAGCTCAAGGTGCTGGTAGA
TTTGGTATCTAGTGAGGGCCCCCTTTCTGGTTCTTAGATGACTGTTTTCTTGTGTCCTCCCATGGTAGAAGGGACAAGGCAGCTCTCTTCGGGCCTCTTT
TATGAGGGCACTAATCTTGTTCATGAGGGCTGCACCCTCATGACCTAATCACTTCCCAGAGACCCTACCTCCTAATACCATCACATTGTAGGTCAGGCTT
CAACTATGAATTGGTGAGCGAGGTGGACATAAACATTCAGTTGTGGAGCTATTACAGATCAGTGGGGAAAAGTGGACTTCAATAAATGATGTTGAAAAAT
TTGGCTTTCCACGCAGGAAATACAAAATTAAAATCTTGATTCACACAATCCATAAAGAGATTTAAAATGTTATTCTCACTGACAGACATGAAAAGGTGTA
GCACCATTATAATAATAATAATAATAATATTATTATTATTATTATTATTTTGAGGTGGAGTCTTGCTCTGTCACCCAGACTGGAGTGCGGTGGCGCAATC
TCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGTCTCCTGAGCATCTGGGACTACAGGCGTGCACCACCACGCCCAGCTAA
TTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGCTGGYCTCGAATTCCTGACCTCGTGATCCACCCACCTTGGCCTCCCAAAGTGCTG
GGATTACAGGCATGAGCCACCACACCCGGCCAGCACTATTATTTTAATGTGCATTTCCCTTATTACTAACAAAGATGAGCAACTTGTTTTAAAAAAAAAA
AAATAGAGACAGGGTCTCACTATGTTGCTCAACCTGATCTTGAACTCTCAGACTCAAGCAGTTCTCCCACCTCAGCCTCCCAAAATGCTGAGATTACAGG
TGTGAGCCCAGCCTTTTGAGCCACTTTTTATATATGCATTTGCCACTTAGGTTTATTTTATTTTGTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGG
CTGGAGTGTATTGGCACGATGTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTG
CCCGCCACCACACCTGGCTAATTTTTGTATCTTTAGTAGAGACGGGGTTTCCCCGTGTTGGCCAGGCTGGTCTTGAACTCCTGACCTAAAGTGATCCACC
CGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGCATGAACCACTGTGCCTGGCCAGGCTTATTCTTTTGTGAGTTTTCTATTCATATCTTTTGCCCATTT
TTCTTTTTAAAAATTTAATTAATTAAAATTAATTTTTTTTTAAGAGACAGGGTCTTTCTTGCTTTGTCACCCAGCTTGGAGTGCAGTGGTGCCACTATAG
CTCACTGCAGCCTCAAAGTCCTAGTAGGCTCAAGGAATCCTCTCACTTCAGCCTCCTGAGTAGCTGGGACTACAGGAGTGGAGTGCAATGGCACGATCAC
AGTTCACTGCAGGCTCAAGCCATCTCCCTGCCTCAGCCTCCTGAGTAGTTGGGAGGCACATGCTTGTAGTCTCAGCTATGTAGGAGGCTAAATTTGTAAC
TTTTTTTTTCCAGCTAGATTTTTTAACTTATTTTTGTAGAGACAGGGTTTTGTTCTGTTGCCAAGGCTGGTCTCAAACTCCTGGGCTCAAGCCATCCTCA
CACCTCAGCCTCCCAAAGCTCTGGGATTACAGCCATGAGCCACTGCACCTGGCCTCCCATTTTTCTATTGGATTGTTTATTGTTTTATTTATTTACCAGA
GGCTTTTTGTTAAACCTAATTTAAATAGGTTTAAAAATTATTTRTTAGTTATATGTATTGTACGTATTTTATCCATCCTAGCTGTAACTTGTTTTCTAAC
TTGTTTATTATGACTTTTCTTGTAGAAAGTTTAATATCAAATGTATCAAGCTTTTCCTTTAAACTCTCTGCTTTTTGTGTCTGTAGAAGAATTCCTGTGG
CACCCAAGGGTTTAAATACGTTCTCTGGTTTCTTCTTATCGTTTTTTTTTTTTTTTCCCCACACTTAGATCTGTTCACATTACAAGCGGAATTGATTTTC
TATATATAGTTTAAGGCAGGGGCCTCAGTTTTGCCTTTCTTTTTTCTTACATGGGGAACTTCTGGCATACTGTTTTAATTACCAGCTAAAGAGTGATGAT
GGGAAAAGAAATCAATTGTTGATTTAATCAAACTCTCTTCTGCTCTGAAATTTTTAGTAGCTCTTTAGTACCAGACAAATTAAGTACACATTTCTATAGC
ACTTGTGGTTCCTTCGTAACAGAATCTCTCCTATTGTTCTAGTCTTAGCTTTTATTATTACTCTTCCTGTACCGTCTACCTCAGGAAAACTGGAATAGTC
TTTGCCCCAAAAGTATTTCCTGACTTTTAAATTTCAAAATTTGAGGAATGCAGTTAAAGCAGTGCTTATATTTAAAAGAAAAAGACTTAAAATGAATTAT
TTAAACCTCCACCTTAAAATGCTAGAAAAAGGCTGGGTGCTGTGGCTCACAACTATAATCCCAGCACTCTGGGAGGCCAAGGCAGGTGAATCACCTGAGG
TCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTTTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCAGGCACCTGTAATCCCAGC
TACTAGGGAGGCTGAGGCAGGAGAATCCCTTGAACCAGGGAGGTAGACGTTGCAGTGAGCTGAGGTCACACCATTGCACTCCAGCCTGGGCAACAAGAGC
AAAACTCCGCCTGAAAAAAAAAAAAATAGAGAATACTCAAATACCAGTATAGGAATGAAAGAAGAGACAACATGACAGCACTTGCAGACATTCAAGTATA
ATAAGGGGGTCAGGCTGGGGGCTCATGGCTGCAAGCCCAGCACTTTGGGAAGCCGAGAAGGGTGGATCACCTGAGGGTCAGGAGTTCAAGACCAGCCTTG
CCAACATGGTGAAACCCCGTCTCTACTAAAAATACAGAGAAAATTAGCCAGGCATGGTGGCATGTGCCTGTAATCCCAGCTACACAGGAGGCTGAGGCAG
GAGAATTGTTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCCTCTCATTAAATA
ATAAATAAAAATTAGCCAGGTGTGGTGGCACACACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGAATCACCTCAGCCCAGGAGGGCTGTGATT
GTGAGCTAAGATTGTGCCACTGTACTCCAGCCTGGGCAACCAAGTGAGACTCTGTCTGAAAAAAAAAAAAAAAAAAAAGAAAGAAAAAAATATATAATAA
GGGGATATTATGTAAAACTTTGTGCTAATAAATTTAACAGCTTAGATGAAATGAACACCTTCTTTTCTTTCTCTCTTTTTTTTTTTTTTTTTTTTTTTTT
AAGAAATGAGGTCTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAACTGGTCCTACTGCCTTAGCCTCCCAAGTAGCTGGGATCACAGGTGC
ACACCACCGTGCCCAGCCAATTAAAAAAAATTTTCAGTAGTGATGAGGTCCCACTATGTTGCCCAAGCTGGTCTCAAACTCCTGGGCTCATGCAATCCTT
CCGCCTTGGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCACCACACCTGGCTGAAATCGACACATTCTCAAGAGACACAAATTGCCAAAACTGACAT
GAAATGAAATAGAAAACCTGAATAACTCTATATCTGTTAAAGAGATTGAATTGGTAATTTGGCATCATCTAGAAGAGTTGAAGGGGCATATACCCTATCA
CTCCTGGTTATATGCCAAGAGAAGTGCTTGCACATGTGCACCATGAGCAGAGGGAAAAACTAGGACATAAGACAAATGTTCATCAACAGGATAAATGACT
TGTGTATTCATTCAGTGGAATGATACGTAGGATTAGAGATGAATGAGCGGCAGTTACAGCAACATAGATGAATCCCAAACATAATATTGAGTGAAAAAAA
GCAAATTATGGAAGAATGTATACAGAATGATCCCATTTATATAAAAGTTCAAAAACAGGGAAAACTAAGCAGTACATTGTTTAAGGAGACACATCAAAAT
GGTGAAACCATAAAGAAAACCAAGGGGGTGATAAATATAAAATCCAACGTGGTTATTACCTGGTTACGGGCAGGACTRTGATAGGGAAGTCACTGGTTAT
GTTCTGTTTCCTAAGCTGGGGGGCAGGGGTACATGGGTGTGCACTTTATTATAATGCTTCCAACCGTATAGGTATATTTTMTRTATTCTGTTTTACATAT
TTGAGATTGCATGAATGTGTAATGCTCAGTAACTTAAGAGTAAATGAACTGTGAAGAATTAGAGATGGAGTTTTGAGGGATTTTTTGTTTTGGTTTGATT
TTTTGAGACAGAGTCTTGCTTTGCCGTCTAGGCTGGAATGCAGTGATGTTATCATGGCTCACTTCAGCCTTGACCTCCTGGGCTCAGGTGATCCTCCAAC
TTCGGGCGTCGAGTAGCTGGGACTACAGGTGCACACCACCACACCCAGTTGACTTTTAAATTTTTCGTGGAGATGAGTTCTCCCTGTGTATTGCCCACRC
TGGTCTCAAATTCCTGGCTTATGGAATCCTCCCTGAGCCAGGTGCCTGGCCAGTTTTTGGGTTGTTTTGTTTTTCTTTTTTGAGATGGAATTTCGCTTTA
TTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCATCTCCCAGGTACAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGA
TTACAGGTACATGCCATCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGCTGGCCAGGCTGGTCTGGAACTCCTGACCTCAGG
TGATCCGTCCACTTCATCCTCCCAAAGTGCTGGGATTATAGTTGTGAGCTTCTGCGCCTGGCCTCCTGGCCGATTTCGAGTATTTTCACAAAAAGCTTAA
CCTAGGGGGAAGAAGAGACCCAAGACTGGGGCTAAAGAAGGGCACAGATAGAGGAGGCTCACTGTGATTTTTTACTTTGGAAAGTAGAGCCTGTTTCTAG
CCTGTGGAGAGGGGGCTTGGGCTGCTGCTGGTTGGGGGGTCATTGCCATCACTGGGGCTGCCAGAGGAGCCATGAAGGGCAGCGTAGGGGCCTGTATGGA
GGGGTCAGCCTAGAACAGGACAGGACATGTCTTCCTCTCCGCCTGGATTTCAGGGGCTGGGTGAGTGCAGATGGAGACATCTGTCATGCTGCGTGCGACC
TCTAGACTCAGCAGAATCCCACTTCTCAGCGGTTGGGAGGAGCAGAGTCTTTGAGGCCCCTGCAAGGAAACAGCACAGTGCGAGGCATATGCTTTCTACT
TCCACTTTTTTTTCTTTTGCAGGTGGTGGGTGGCAGAAGGGACGGGAATCCGGCTCATGGCCTTGACATCCAGGCAGGCGAGAGAATCTCTAGTTCCATG
GTCTTCGCCAAATGGAGTAGGGCCTGAGGAAGGCAGGACGAGCTTCACACCCCCAGGAATATTCCAGAGGGTTATGTGGCTAGCATTTGACCATAGACTG
CATGGATCAGAAGCTGCCCACCCAGCACTAACGTTGCTCACTATTAGGCTATTAAGTCCTTTCTATCAACCCAAAAATTCCAGCAGGAARCCTGGTAAAG
AAAACGCTGGCATGTGGGTTCTCTGCTGCCCCCAAACTCTTTATCCACCCCTTTCCCTGAGTTCTCACTCTGTCCCCGCTGTGTTTGGCCCCTAGGTATG
TGAAGACCTACCTGTTGCCCGACAGATCCTCCCAGGGAAAGCGCAAGACTGGAGTCCAAAGGAACACCGTGGACCCGACCTTTCAGGAGACCTTGAAGGT
ACTTGCTGGACAGATATTCCTGTGCAGAGTCCTCCYGAGCCCGGGTGGAGCGCCTGGGGCAGAGTCCAGTGGATGGTGCTTTCAAACTCTTGACTCAGTT
AGATATAATACAGACACCTATATGTTTCTTCGCAGCTCTGTCAATCAGTGTTAAGTTGGTAGAAAATAAATGTCAGCCTTTGTACAGGAAAAGTGCAGAG
TCTGCCAGACTCAGGAATGGCTTTTGATTAATGATTTCTGAGAAGATGGTGAAAAAGAACCTGGCTGCCTCTTTGTCTCGGGCTAACACCGGGGCACAGG
ATAATTTTAAACATTAGTTTGTCTTAGTGAATGTTTCTGTCAAAGAGGTGCTCTCAGACAGAGTGCCCTGAAAATTAAACTCCTGAGTTACTGTCTTTGT
AAAAGTGCCCCTTTATTGTATTTCTGACAAACTCAGGTTTCTTCTAATTTTATTTTTTTTAAATGAATCCTTTTATGAAAAATCTTACAAAGGAATTGTT
TGGGTTTTCACTTTCTATGATACTAGGAAATGTGATTGATGGTTGAGGGCAGAGATGGGGCCATGCGCTCTGATGTCGGGTGGAAGGCTGCAGCTGAGGT
CTGGTATCTGCAGAGAGCTGGCTGTGGTGGCCCCAATCTTGGTGCAGGGTGAGGGGGGTAGCCCAGAGCTGCAGAGGCTACCCTGCCGGGGCTGGGCAGC
CAGAGGTCCCCTCGTCTCATGCCTATGACAGGAGAGGGCTTTGTTTGCCTTTCTTGGCAAGTAGGGGGTGTCTGTGAGCTGCCAGCCRGGGGCCATCTGG
GCAGCTGGCACAGAGCCCTGAGTTCATTAAATAATAATAGCCCTTGTTTCCTGGGTCCCTACTGTGGCCAAGTGCTTTATATACAGCCTGGGGTAATTAT
TAGAATCCTCATTTACCCACGGGGAAACTGAGACCTAGAGAGTCCTTAGAAATACAGCTCAAAGCCACAAAGGACTGGCAGTTCTCAAAATTTGTGTGCG
TAAAATCCCATGGGGATTTACATTTTTAAAACATTTCTTCTTTTCTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGGTCGCCCAGGCTGGA
GTGCAGTGACATGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAAAGGTACCCAC
CACGATGGCCAGCAAATTTTTTGTGTTTTTAGTACAGATGGGGTTTCACCATGTTGACCAGGCTGGTCTTGAACTCCTGACCCCAGGTAATCTGCCCACC
CCGGCCTCCCAAATGCTGAGATTACAGGCTTGAGCCACCACGCCAGGCCTAAATTTCTTATTTTCTAAGATGCCCCTGTACTTAGAACTGGGGATTTTTT
TAAAATGCAGATTCTGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACCTTGGGAGGCTGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACC
ATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGACTGA
GGCAGGAGAATGGCGTGAACCTGGGAGGCAGAGCTTGCAGTGAGCCGAGATAGCGCCACTACACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAA
AAAAAAAAAAAAAAATGTAGTTATATAATTGGAGTTAAAAGGTTACCTACCTTAAAATGTACACAGAATCTCAAAGATATCACTTAAAATTTTTATCCAT
GGGTCTTATCTAGTATATTGTGAATATTTTATAGTCCTGGGAAACTTTCCAGTTACAATTAAAATAATCGGCATCTCTAATTGATCCTAAATGCAAAATA
WCCCAACACCGGCCAGCCTCATCCTTAATAGAAATATGCATAAGATGCGAAGGATGGGAAGCCGGGGAGGCCGATCCAGCATTAAAAGTCTCRCTAGAAG
CCAGTATTTCCAATCACAATCACACCTTTGTGCAGCACCCAGGCTTTGTGCGACCTGAGGTGAGCCATCAGAGTACGATTCAGGTGGATGAGGCTGTGAG
AACTGTCTCCAGCCAGTTTTGAGAGAAGTGCACATCAAATGCGAGGATCTAGAAATTGATCCTCAAATTTTTCTGAGCAGAGTACTTCTTGGCAAGCCTT
TCTGGACCCAGGGAGACTTGTACCCCATTTGACACCACTGTCCTGGGGGCCTGGAGAGGATGAAGTGATCTCACTGGGTGACATTGGTCATTGCCTGGCC
CTGCTCTCAAATGATCCTTACACCTCATTCCCAGCTGAGCCTGGAGCAAGCCTTGTGGACCTAACAGGGCTATGGAAAATAGGTCTGGTTTGAAAAGGTA
GATTCTAGGCTGGGTGYRGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGATCGAGACCATCYTGGCT
AACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCACAGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGA
ATGGCGTGAACCTGGAAGGCGGAGCTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAACAAACAAAAC
AAAACAAAGCAAAGGTAGATTCTGTATGTAGCAGGGAGTAGTCCTATTGACAGAARGGGGCGAGCAATGGGTAAGGACCCAGGAGAAGTGGCTGAGCGTC
GCCCACACACAGCTGGAGATGAGAGAGCTGCCTGGGGGCCCGAGCCCGACCCTGCTAAGTGGCGTGGCGTTCTAGTAACCGCTTCATTTCTCAGAGGGCA
GCAGATGCAGCTGGCCAGCTGCCTGGACTAACTGATAAGGAGTGTAGCTGGAATATGGGGAATAATCACATCAATCCAGAGTTTATAGACAGAGATTGAA
TGTGGGGCAGAGTCGGAAATGGACCCRTGGGCTGGGTGTGGAGGCTCACGCTTGTAATCCCAGAACTTTGAGAGGCTGAGACGGGTGGAGGGCTTGAGCC
CAGGAGTTYGAGACCAGCCTGGGCAATGTAGAGAGACCCCATCTCTACAAGAAATTAAAAGATTAGCCGGGCATGGCGACGCCTACCTGTAGTCCCAACT
ACTTGGGAAGCTGAGGTGGGAGGATCGCTTGAGCCTGGGAGGTGCAGGCTGCAGTGAGCTGAGATGGCACTGCTGCACTCCAGTCTAGGTGACAGAGTGA
GATCCTGTCCCCCCAAAAAAGATATGGACCCATAGACTTGAGGGAAAACTGGCTAAAAGTTACCCAAAGGCAGGAGAAAAGGGAATGTGACCCAAGAAAT
GCCCATCTCCATGGCCACAAGCCACCCCAGCGGGGAGGAAAAGGAGGAATGAACTGAGGAAGCTAACCTGGCCAGCCAAGCCATKTGTGCCTGGCCYGCA
GACATCAGAAGTGTGGACAGAGCCTACAGGCAGCCCCCAACAGAGCAGGGGACGGCCCTGCTGCGCCTCCCCTCTGTTTGCAGAGGCTGAAGGAGGGAAA
TTACCGTGTCTCAGTTCCTGTTTTATTCCATCTCGTTCCTCGATTGGAAAGATGGGTAAAGGTGGGCATGAGGAGATGAACCCCAAAGCAAACAAACCGC
ACAGCTGCTGCAAATGGGTGCAAGTGTCCAGCCTCACAGCAACAGCCGTGTCACGAGGAGTCACCATTCAAACCCCAAACAAGCGCCGGAGTGRGGGCAG
CATGGGCCACAGAGGTCAGCAGCGAGACTCGGGCCTGGACACAGTCAGTGCACGTGAATCTGGCCTGCAGTGTCGGCTACCAGACCAAGGGAGGGAGGGT
CACTGAATTTCCAAGCTGCTTTTTTTTCACCTGCAACATGGTTTGAATTATACTGACCTCATAGGGTGCGTGTGAAAGCTAAAAAGATCAATGCATCTAG
AAAGCCTGGTGTGAAATAAATAAGTGTTCAATAACTTGTAGGGTTTGTTCATTATTGAGAAAATCCAACTAATAAGCTTAAAGTGAGGCCCTCAGAGGCT
GAGGTGGAGTCAGCCACACCTTGGGAAGGGCTGGGTGCCACTGAGGGGCCTTCGGCCTCTAGTCTCTATGGGGCAGAACCCATGCTTGGCTGGGGAATGG
GTTCCCTCGTCACTCTTGGGTGTGTTGGGAGCCCCCTGTGTGGACAGTAAGAACATCGTGTTGGCCTCTGCCAAGCCAGCACAGGCCCTGCATGCCTGAG
CACRGGCACCGTCCCTCCAGGGCAAACACGTGGTGTTGCRGGGAATGGAGGAGGGGGGAGTTCATGCTTTGCTTTAAAAAATAAATAAATAAATGCAGGC
TGGTGCAGTGGCTCACGCCTGTAATCCCAGCAATTTGGGAGGCCGAGGCAGGTGGGTCATTTGAGGTCAGGAGTTCGAGACCAACCTGGCCAACGTGGTG
AAACCCTGTCTCTACTAAAAATACAAAAAAACAAGCCGGGCGTGGTGTTGGGCGTCTATAGTCCCAGCTACTCAGGAGGCTAAGGCAGGAGAATCGCTTG
AACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGTGACAGAGCGAGATCCTGTCTCAAAAAAAAATTTTTTTTTTTT
TTTTTTTTTTTTTTTTTAGTATTTTTGGGCCTGTTATCATTATTTTTGGCCAAGCCTGGCTGGGTGCAGTGTTTAGATGCAAGTTCAAATCCTGTGCGAG
CATAGACTTTGGCTTGATTTCTAGTAGGCGTGAGCTGGACAAGGACTTTCATCCTTGTCTTGTTCTAGGAATTGGGGGTGGGAGGCTACCAGGGCTACCC
TTGCCTGTCCCCAGGCAGAGCACTSGGCACCTGGGGAGTAGGGGGAGGGGTTCTTGAGCAGAGAGAGGACCCCCCCGCCCCACCCTGGCTGTAAGCACCT
TGACCCACCCTAACCACATCAGGTCCCTGGCTGCATCCGCATCTTGGACTCAGCCTGTGGGAGGGAGGCCTGCGCCAGGCCCCRGGAAGTGGGGCCCTGG
AAGGTGGGGTCCAGAGATGGGGATCCTAGGAGTGCGGGCCCCGGGAGCCCAGCTGACCATCTCTTCCTTGCCTCTGCAGTATCAGGTGGCCCCTGCCCAG
CTGGTGACCCGGCAGCTGCAGGTCTCGGTGTGGCATCTGGGCACGCTGGCCCRGAGAGTGTTTCTTGGAGAAGTGATCATTYCTCTGGCCACGTGGGACT
TTGAAGACAGCACAACACAGTCCTTCCGCTGGCATCCGCTCCGGGCCAAGGTGATGTCTGGTTTTGGACTGAGTGCCCTCCATCCCCACTGTGATAGATA
AATAACTTTTCAGAGAGATCCCAGAAGAGAAAACGTACCTGGCAAGACTTGGACCCAAGACTGTGTGTTCGCCGGCCTGGCGCTGTGACTTTGAAATAGT
TACTTTCTTGTGGGTGGGGTGGGCGGAGGRTTTGTTTTAACTRGCTCAGCTCTGTTCAGGTACCCGAACAGCCCCCGCCTCAGCATCATACACAGACCAG
ACTGGATCAGGTCCTGTGGCTTCCCCTGGCGGAGGCCTCCCTTTGCTGGTGGCTGACCTGCTGGAAGCTGGCCATGCCTTTCCCTGGGGGCACCGCCCGC
AGCTATGCGGTCCCCCAGGGGGCTACAGTGTGTTGTTTCTAACCTTTCAACCCCAGGCACTCTCAATAATAGGTGACAATAACTAACAGTAATAGGTGAC
AAATGGCTGGACCCGATGCTGTGAGGAAGGCAGAGGCCGCCCTGGCTAGGATGTGGGGCTCCAGCTCCTGGTTTGGAATTGCACGGCGGGAGATAGATAG
CACGTGGGCTGGGGGTGGGTCAGAGGAGCTGATGGACTCCATTTAGGATCCGTGTCCCCCAGGCTATGCAGGTAGGAGGAGAGGCCTGGGAGAGAGGTTA
GCATTTCTCGGAGACGCTGCTTTGTACTTTGCTGTGTCCAGATCCCGGACTGGGAGAGAGTTCATGTGAGACCACGAGGGATGAAAAACGTGGGCTTCTG
CCATCTCTTTAAAAACCCCAGTGGGGAGCCTGGACACGGTGGCTCTTGACTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACAAGGTCAGG
AGATTGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTCTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACGCCTGTAGTCCCAGCTGCTCT
GGAGGCTGAGGCAGAAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAATGAGTCGAGATTGCACCACTGCACTTCAGCCTGGCAACAGAGCGAGACTCT
GTCTCAAAAAAAAAAAAAAAACCCAGCGGGATGGACTACTCCCCTCAGCCAAGGGCCCACGGCAGGCCCAGCCTTCTGCTCCGACCTGGACATAAGGCAC
AAGGGCCATCTGGCTTCTTTTCCTCTCCGGAGCCAGCGCAGCTGGGATTCGCATTATCTCTGCCTGGAAGCTTCTCAGGTTTCAGCTGAGGCCTCCTGGT
GAGCCACCTGCCCCCTCCCTGCTCCTCCAGGCAATGCCCACTCTCCCACTGCCTGTGCTGACTCCCCCAAGCTAGAGTCCGGGCTTAGACCTCCCCTTCC
CAGTGCCTACCTGGAATGCATCCCCTATCCAAGGTCAGCCCAAGACGACCCAAAACCCACCTCCTCCAGGAAGCCATTCCTGATTACCCCTACCAGAAGT
GGCCTCCCTTCCAGGACCCGGAGCTCAGGACGCCTGCCATCTCGGCCTGATCTTTAGCCTCAGTGTCCCTTTGCTCCTGCCCCAGCCACGTTGCGGGTGG
GTGAAGCATCTGGCTTCCATGCCTTCCGTGCCTTCCTCTCACCCCCGCTCTGTCATCTCTCAGAACAGCATTGGCTCCTCCGGGACGCCCTGAGTTTCCA
GCCTGAACTCCTTCTGTCCGAGGCTGAATCCCCCGTGCACCCTGCCTCTCCCACACCTCTGTCATCAGCTCGAAGACAAGGCCTGGAACAAGCACAGGGC
TTGGCATAGGACAGGCGGCCACCAGGCMTCATCAGACTGAGCCTGCTCTGGCAAGTGGGTGAGGAGCAGGTGGCACAGAGCTGCAGGTGGYACAGAGCTG
CAGGTGGCACAGAGCTGCAAGGCATCCCTCCTAAAGCCAGTAGGGTGGGGAGTCCGCCCACAGACCCGCCCCTGGGCTCTGTTCYGCCTCGGTTTCTGGC
CGCTGAGGCTGGAGGCAGCCATACCTCATTTGGCACCCGAGGGCCAGGAAGACGGGCTGGCCCACGCGGGCTCCCAGGAGTCCTGAGGCCTCTGAGGGTA
ACTGAGAGGGCTGCTTCTCAGTGCTGGCAGGAGCCATGGTGGACCGGATGTGTCAAGACCAAACTTGTCCAACCTGCAGCCCGGGACGGCTCTGTTTTTT
GGTTGTTGTTGTTTATTTTGAGACGGAGTTTTGCTCTGTCGTCCAGGCTGGAGTGAAGTGGCGTGATCTTGGCTCACTGCAACCTCTGTCCCCTGGGTTC
AAGTGATTCTCTGCCTCAGCCTCCCTAGTAGCTGGGATTATAGGCGCCCGTCACCACACCYGGCTAATTTTTTTGTATTTTTGGTAGACATGGGGTTTCA
CCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGTCACCATGCTTGGCCT
CAGGATGGCATTGAATGCAACCCAACACAAATTCATAAACTTTCTTAAAACATGAGTTTTTTTGTGATTTTTTTTTTAAGCTCATCAGCTGTTGTTAGTG
TATTTTATGTGTGGCCCAAGACAATTCTTCCAGTGTGGCCCAGGGAAGCCAAAAGACTGGACACACCCTGCTCTAGACTCTTCCCAATACTCTCCTCCCA
CCCCACTGGGAGAAGGATGGTGTGGATTTCAGGCTCATCTCTTTCCCGGCCCTCTCTTCACTCACTTTCTGGTAAAACCACTCATGACAGAAGTGCCTCG
GTGGGCAGGGAGGTGTCCTCAGACTCACCACACCCTGAGGGGCCACCCCCTGTGGCTCTGGACAGAGACTACACCCCATGCTGTCCCCAGTGTCTGTGCC
AGTCCTTGGCATGGAAGGGCAGCGTGAATCTCTACTGACCTGGGTGGGGTGGATGGGGTGGAGGCTTGAGTTCATTTCTGTTTTTCAAACTCAGGCTGTG
TCTGGGTTTTCGTAGAAATGTCTTAGGGAGTGTGCAGTGCCCTTGAGTCCCTTCACTTCCTCAGGCTCATCTGGCTCTGGTTCGCTGGGGTGGCCAAGCT
GTTCCTCCCCATGCTGGGGTTGGGGAGGGTGGGAGTGAAACCATAGATGGAAGGAAGACCAGTCCTGCCACGGACACACCTGCTCCACCCAGGGCCTTGC
AGGGGCCAGGGGGAAGCATCTGTGGACGAAGCTGAGACAACCAGAGGAACCCAGAAGGTTCTTGGGACTTGGGGAATCCTGTCCCTAAGCTCTGCCTCTT
GTCCCCAGGCGGAGAAATACGAAGACAGCGTTCCTCAGAGTAATGGAGAGCTCACAGTCCGGGCTAAGCTGGTTCTCCCTTCACGGCCCAGAAAACTCCA
AGAGGCTCAAGAAGGTCAGTGGCCTCCAGCTCCCTGGACATTGTCTGTGTCATTGTCTGCAGAGCCTGGTGCTGCAGGCAGACTGAGGTGGGGTGAAAGT
TTTCTAGCATTTCCTTTCTACRTCCCCGTGCCCAGCTCCAGCAGCTCTTCTTTCTGAGCCATGCAGCGAGCCCGGGAGAGGTTCTCTGGAGCCCGTAGTG
GGGGAAACGGGTGACCAGAAGCAGACAAGGCCTCTGATGCCCTCTCTACGCTCCTCTAAGGACACTGCCCTAGGCCTTCCTCCCAGGGGCAGATTGGATG
GTCTCTGGGGAAACCGTGGCCCCTCCTGAAGAGCAGAGGCTCCATGACAATGTGGAGCCAAGAGCACTGGTACCTGCAGGGCTCAGACGAGATAAATCCC
CGCCCCCAGGCATGTGGGTAGCTGCTGCCCAGCAAAAGAAGTAGGTCAGGAGGGAGGGTCCTCAGGGACCCTATGGAGATTTTACTCCTTCAATAACGTG
GGGCGTGTGGAAAGCAGGAGGGTGGAGGAGGAGGAGGGCGGGGAAGGAGGACTGGGAGAATGCACATTTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACA
GAGTTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCCCGATCTTGGCTCACTGCAAGCTTCGCCTCCCTGATTCATGCCATTCTCCTGCCTCAGCCTCC
CGAGTACCTGGGACTACAGGCACCTGCCACCATGCCCGGCTAATTTTTTGTTTTTTTTCTTTAAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGT
CTCGATCTCCTGACCTCATGATCCGCCCACCTTGGCYTYCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCCAGAATGCACATTTCTGTT
GTGTATTTTGCTGACTCCCTATTTGGCTAGAAGAGGAAATTCTGCTACCCAAGTTCACGGGGTCACCAGCAGACCAGCAGCAAGTGCCCCATGGCCATCC
CAACCTCCTAGACAGGGTCTCGGGGCTCTCACTTTCCCCCAAACTTCTGGCTACAACTAGACTCAAACTTCGGCATCTTCCCTCTCCTTGCGTTCCTCTT
TACTCTTTKCTAGGATCTTASTAATCCCTCCATCCTGTCCTCCACCTGACCACAGAGCGGCACGGYGTGGGCAGCGCCACAGCCTGTGGGCAGGGCCAGC
AGAGCCCACTGCACCACTCCCATCTGCTCTCTCGGGGTCTGAGGGCTGTAGCAGATTCTCTAGCTGAGCTCTCGGTTTTGGGGTGGTGGTACTGCATACT
AACGTATCAGGAGACATGGTTTGACAGTGAATACTGGCTTTCCTTCCAGGGACARATCAGCCATCACTTCATGGTCAACTTTGTTTGGTAGTGCTAGGAG
CCAAGAATTTACCTGTGCGGCCAGATGGCACCTTGAACTCATTTGTTAAGGGGTAGGTATTCGATGTAATCAAATATTTATTGGTGATCTAGTATACATC
ACAACATGGCCCAGAACCTGCAGCGAACACTAAAAAACGTAAGCCACTTAAAACGTCTTATTTTAGCTTTCCTATGAAAATCTAACAACACAYATTAAAG
ACCCTGATTTCCAAAAATTCACGGGATGTGTACATGCTGGAGTACTCGAAACCCTAATCTTCTCAGTTCTGTGATATCAGGAAGCCAGTTTTGAAATCAA
GCATGAAAATGTGGTGTGGTCAGTAAATATTTCCTAAGCTTAACATCTCCTCTTGGACCAACAGTAAAACGCATGACTGTCCACATTTCATTCTCATTCA
GTAYAGGTGCATTGGCCCCTCTAAAAGTAAGGCAAATACCATTATTACATTGAATTGCAAACTCCCCGTCAGTGACATAGGGAAAAATGACGGTCAAGAT
AGAACTCAGGCTGGACGCAGTGGCTCGTGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAAACTAGCCTG
GCCAACATGATGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCGGGCACCTATAATCCTAGCTGCTCTGGAGGCTGAGATAGGA
GTCTTCCTTGAACTTGGGGGGAGGAGGTTGCAGTGAGCTGAGATGGTGCCACTTCACTCCAGCCTGGGCGACAGAACAAAACTCCGTCTCAAAAAAAGGA
GAACTGAGCTTATGTTCTAATCTTGTTGCTTATCTGCATGGCCTTGGACAAGCTTGTCTGAGYTGATTTTCCTGAGAACAGGGTTAAAAGGAGATAACGT
GTATCTGCAGTCATGGTGGGAGGCACCCCAAGGAGGAAAGATTAAGATGAGGGCCACGAGGCCTCAGCATGCAGCTCGCCCTTCATACCTGATGCAGAAT
TCGGCCCTAAGGGAAATGTGCCGAGTCCTGTGGTTCCCACCCTGCTTCACTGGGGAGGGTGTGGATGTTGTGGACTTGGCACTTTTCTTAGTGCTTCCCG
TCTGCACTGACGCACAGGCCTCAGGAGAGAAGGCCGTGTGGATGGCAATGATTGCAGGGTTTGTGTTCCCTCTTCAGCTGTCTCACTCTGCCAGACCAAC
AAAAACTGAGACTGAAGTCGCCAGTCCTGAGGAAGCAGGCTTGCCCCYAGTGGAAACACTCATTTGTCTTCAGTGGCRTAACCCCAGCTCAGCTGAGGCA
GTCRAGCTTGGAGTTAACTGTCTGGGATCAGGCCCTCTTTGGAATGAAYGACCGCTTGCTTGGAGGAACCAGACTTGGTTCAAGTAAGTCTGAGACATTG
AGCCCAAACGTTTATACTTTGTGATTATCCTAATGGGTACCGTGCAAAGAAAATGCTTCCACCAGGGCAGTGACTTAWCTGGTTTTGAAATTGCCTAGCC
TGCCTTAATTGGAAATGCYTAAGYCTAGTTTTTACTCTACAGCTGAGCCATAATACAGCCAAGTATTTTGACAATTTAAATCAGATTTAGATCTGCTAAA
GAAACAAAAATTATAGGCCTCCAAACGGGCTAGGTACAGTATTTGCTTTTGTTTCTGGCGTCAATCATAAAAGGATTATTTTCTTAAATGAAAATATCTT
CTTAAACAAATGGCAATTCAGAAAGTACTTCATCAAAAGTGGTCAGAACAGCAGTGCTGTCCAGAGCCGCTCGGCAGGGCACCGCCGGCATGGTAGGTGG
ACAGCCCTCTGCTGTGAGGTTCTGTGCCTGGCACTGCTTCTGGCTGCCAGCAGTGTCCCTGACATGATGACAACCAAAAACACCTGCACACATCTCCAAG
GACCTCCAACTGAGAACCAGTGACTGAAGAGAAATAAGCTTCACTGCTCCATTGCTTTTCAAAGATATTTTGTCCAAAGCATACTGTCTTCCTCTAAGAA
TCCCTTCCCATGGGCAAGCCCAGCCCCCAGTCTGAGACGGCCCCACCCAGCTAGCCATGCTGGTGTGCAACTATCCACTCCCTTGGTGAAGACCCAGCCC
ACCAAACCAGAGTCCTCGCCTCACTTTCAAACTAYAGAACTCCAGGCTGTTAGAGCCTCGCAGAGCAGAGGATGCCTGCGTGAATCCCAGTCTCAACACC
AGCTTTGTTGGGGTGGGAGTGGTGGYGGCGGCGTCTGTCATCAGTGGTTGGCCTTTTAATGTGGACYTRAGGTGAAAAACTTCTGGCTGGTCATCATTTT
TAAAGGGATGAGAGGGGATGAAGTGGTGCCCTCCCCGACCATGGCTAAATTGTCTTCCTCTCTTACAGAGGGAGACACAGCTGTTGGCGGGGATGCATGC
TCACWATCGAAGCTCCAGTGGCAGAAAGTCCTTTCCAGCCCCAATCTATGGACAGACATGACTCTTGTCCTGCACTGACATGAAGGCCTCAAGGTTCCAG
GTTGCAGCAGGCGTGAGGCACTGTGCGTCTGCAGAGGGGCTACGAACCAGGTGCAGGGTCCCAGCTGGAGACCCCTTTGACCTTGAGCAGTCTCCATCTG
CGGCCCTGTCCCATGGCTTAACCGCCTATTGGTATCTGTGTATATTTACGTTAAACACAATTATGTTACCTAAGCCTCTGGTGGGTTATCTCCTCTTTGA
GATGTAGAAAATGGCCAGATTTTAATAAACGTTGTTACCCATGTCCTCCAGTGCTTATCAAATGAGGTAAAAGGCCGGCTGGTGGGCATGGTAACTCCCC
CCTGTAATCCCAGCAACTTTGGGAGGCTGCAGTGGATGGCTTGAGCTCAGAAGTGTGAGATCAGCCCAGGCAACATAGATACCCTGTCTACAAAAAAACC
AAAAAATTATCCAGGTGTGGTGGTACACACCTGTAGTCCCAGTTACTCAGGAGGCTGAACCGGGAGGATTGAGCCCAGGAGGTTGAGGCTGCAGTAAGCC
CCGATCATGCAACTGTGCTCCAGCCTGGGCCAAAGTAAGACCCTGTCTCAAGGCGGGGGGGGGAGTCACAGCTTCGCTGTGAGAAGCACTTTATTTTTTG
AGACGGAGTCTCCCCGTCACCAGGCTGGAGTGCAGTGGCACGATCTTGGCTTGCTGCAAGCTCCGCCTCCCGGGTTCTAGCAATTCTCCTGCCCCAGCCT
CCCAAGTAGCTGGGATTATAGGTATGCACCACCACACCAGGCTAATTTTCGTATTTTTAGTAAAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGA
TCTCCTGACCTCGTGATCCGACCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCGGCTATGAGGAGCATTTTAGAGGAGCCT
GATGAGTGTTGGAGCAGTCTTTCTCTCCTGTGGAAACCATCTCGAGGAGGTTAGGTGACCCATGGAGCACCATGTCTTGGGTTGGTCAGCTCCAACTTAC
CAGTGTACCCCCAGGGACACCACGGCCCCTCACRAAACCTGGCCAGAGGACAGCATAGAGCCCAGACGAGTCGGCGGTAGCCCTCCCACCCCACACACAA
GCACACACCCGTGCTGCTTCGTGCCTTTGCAAAGCTTTTATTTCATGTCTGCGGCATGGAATCCACCTGCACATGGCATCTTAGCTGTGAAGGARAAAGC
AGTGCACGARAAGGAATGAGTGGGCGGAACCAACGGCCTCCACAAGCTGCCTTCCAGCAGCCTGCCAAGGCCATGGCAGAGAGAGACTGCAAACAAACAC
AAGCAAACAGAGTCTCTTCACAGCTGGAGTCTGAAAGCTCATAGTGGCATGTGTGAATCTGACAAAATTAAAAGTGTGCATAGTCCATTACATGCATAAA
ACACTAATAATAATCCTGTTTACACGTGACTGCAGCAGGCAGGTCCAGCTCCACCACTGCCCTCCTGCCACATCACATCAAGTGCCATGGTTTAGAGGGT
TTTTCATATGTAATTCTTTTATTCTGTAAAAGGTAACAAAATATACAGAACAAAACTTTCCCTTTTTAAAACTAATGTTACAAATCTGTATTATCACTTG
TATATAAATAGTATATAGCTGATCATTAATAAGGTGTATAAGTACAATGTATTCTAAAACTGTTAAGCCAAAAAAAAAARAACTAAAAAAAWATCCAAGT
GTCCTCCTCCACCACTCACGCTGGTGATCACTGTGCTCTCTGCCAGCTGCGTGGAGTGACGGGAGGAGGGAATCACTGTGTGTGCGAGAGTGCTTCAGAC
TCAATTTCCAAAATAATTTTCACCCCTCTAAGCATGTAAATATACAAAGATGGATCCTTCATAGAAATTAAAAAATCAATTTGAGCTCATTTCGAATACA
GAACAAGTATGGCACAGATGGAAGTCCTGCCACGTTTCCTTTAATGATGCTGACTCTTGTATCACACAGGCCAGCATGAAGTTTCTTACTCAGACTTTAC
AGGCATTTTCCGTAATTCAATCAGTCCTGCTCCCAGCACAACACAGGAGGTGATTCGAGAATAATCGCGAGAATCAGGCCTGCTTGGCACTATTACAACT
GGGGAAAACAAACCAGGGCGCCTCCCTGGTTCCCAGCCCAGAATGTTTCTGYTGGGTAACTGCTTTCTAAAGGAACTGGGATCTGAGGGAGTTCCTAGAC
TTGGAGCACTAAAGACAAGCGTGGCGGGGCTGGCAGCGCCCGCTATGAGCACCCCTCTGCCCTTGGTCCTGGCCTGGCTGTTACAGGGCCTCGAACTCGT
CGATGCGCTGCTTGGTGTTGCCCTGCCGGATCTGCCGCAGCGTCTTGTACTTGTCCCGGCCTTGCCTCATGTTCTCGTTGTGGATGATGTCATTGTGGGT
CCTCTTATTCTCATCTCGGGCCTGGGACAGCTCGCTGCTCAGCGTCTGTAACATTAAGCAGCGTTGGTCTAGTCCCTTCCTCCCCATATGGCCCGGCCCG
TCCCCTAGGAAAACAGGAAGGGCAAGAGGGGTGCTGGGTGGGGCTGGCTCACATCACTGCCCTCCCCAAGCCTGTCTGCTCCAAAAGCGAGGCAGGCTCC
CTGGAGACAGAGCCCCTTGGGCCTCACCAGCAGCTGCCGCTGCACACGCTCGTTCTTCTCTGCCTCAGTGATGCGCTTCTCCTCATTGCGGTCATCCCGG
ATGCCCTCACTAGACAGCTCCGCGCTGTAGCCCGTGGGCTCTGCGCCCTCATCCTGCAAGCTCTCCTGGACATGGTAGCTCACCGGCTCGTACACGGGGG
GTGGTGGGGGCGGGGGTGCTGTCATCACCAGGTGCAGCTCCTCCTTGGTCTTCACCAGGTCATCCTGGGCTTCTTTGGCCTTTGGAAAGCAAATTAATAA
GAGGACTTCTCACCCAGAAGTCCTATCCTCCTGGCTATGAGAACAGACTGTCACCTCCCTCTGTCCTGGCAGGCTAAGGCAGCACTGAACTGTGCTGGGC
TGTGGCTTCGAAGAGGAGCACCCTCAGGGTGCATGGGGGGTTTACAACCCTCTGCGTCCAAGACAGGAAGAGGAACTGTGATGCCGGAACCTGGGCAGTT
TTAAAACTACCATTTCTTTTTTTACCTGTAACTCTAGACATTATATAATTTTTAGAAAAAAAATCCTGTTAGCATGAGTAACGGGCTCTGTTCCTAGCCT
CCCTTCATGCCACAGTCATTATCAAGTGCTCTCCTGCTCGCCACTTGCAGTCCTTCCAACAGCTTCACACACACCCAGTCCCGCCCGCCTCCATCCCAGC
CAGCCCTAGAGTTGAGCTTAGTGTGGATCTGCTTTGTAGCCAGCTCTCCTCACTTAACAGGTACTTTCTCCAAAAACCTAAGAACCAAAGTCTTCCGCTT
GCAACTTGGGATGGTGATATGGCTGTGTCCCCACCCAAATCTCATCTCCACCTGTAATCCCCCCATGCTGGGGGTGGGGGGCATTACCTGGTGGGAGGTG
ACTGGATTACGGGGTGGTTTCCCCTATGCTGTTCTCGTGCTAGTGGGTGGGTTCTGAGCAAGAGCTGATGGTTTCAGTGTTTGGCATTACCCCCCTTTGC
TTTTCTCTCTTCTGCCCTCATGTAAGAGGTGCCTGCTTCCCCTTCGCCTTCTGCCACGATTGTAAATTTCCTGAGGCCTCCCCCAGCCATGTGGGACTGT
GAGTCAATTAAACCTCTTTTCTTTAACTACCCAGTCTCAGCTTGTTCTTTATAGCCGTGTGAGAACAGCCTAATACAGATCGGCAGCGGGAATGGGGGCT
GGAACAGAGGCAAGGAGGTACTAGGCAGCAGCAGCCCTGGAGAGCCGGGAGACACGTCCCCAGAAGGCACCTCCACAGATGGAGAAGCCACAGTGGGGGA
AGGACGGGCCAGCGGGTCTGTGAAGGAGAGGAGCTGCTTAAAGCCTGGTGTGCAGTCTCCAGTGGGAACCATCCCCAGAGCTTCTCAGGGGCTGTGCCTT
CCTGGAGGGCACAGGGGATCCCAGACGGAGCGACAAGCTCTGTGTGCGTCCCACAATGAGAGCTACAGCTGACTAAACCTCTGTGCTAGGTCCTGGGCAT
GGGACCTCGCATCTGCAGAGCAACCTTATGAGTTGGGTATTGCCCCCATTCTACAATGAGGAAAATGAGGCTTGAAGAAGTGATGCTACTAGCCCCCAAA
TAGCTGATGAGCAGCAGAGCCCAGCTCTCACTCCAGCCTGGAGACGTCCAAGGAGCTGGATCTTTCCATGGTGCCCGCTGTATATACTAGCTGCAGGAGG
TCGTGTTTCAGGCACTGCGACCCCATTGCAAGGGGCACATATATAATTAGATTTAAAACCAGTTCCTGACCGGGGGCTGTCAGATCAGCACTGAACAGTT
CGGGGTGGAGGGAGCAAAGTGGGTGAAAGTCAATCAGAGGTCCTCCCTCTATGAATCCAGCAGCTGCACTGACTCGTGTACAAAGTCAAACCCATCTCTT
TGGGGATGTCTACTTCAATAGTACAGCTGGTATTGGCAGAGGATCATGAGACATCCCAGAAGCTTCCAGTGGGATGTGGCAGCTTGAGCCAGACCTCTCC
CCCAACCCACCCACCTGCAGAAGGGCCCCACCGCAGGCAATTGGGCAACAGGTGCTGTGGCCGTGCGGAGGTGTCCCCCGTGCAGACTCACCCTGTGCTG
CCACTCTTCAACTTCATCCTCCTTGCGCCTCCGCGCCTCTTCCAGGAGGGCAATCTTGGCAGTGTATTCTGCAAGCTCCGCAGCCTGGGAAGGGAATGCC
AAGCTCACGTCAGTTCTGATATCCTTTCAACGGAGTCCAGTTGTGAATGAGTGTTCATGTGTGTTGGCAAGCAGTCTCCAACGTGACACCTGAGTCCCCG
CCACCCCCACTCCATGGCCAGCAGGGTCCATTGTGCACCCCCGGCATCTCTTCCTGGATGCCCACACCCACCTTCAATGGGTGACCCTGGCAACAGCCCA
GCCCCTTCCCCACCAGCTGCCTTCAGCCCCCCAGCAGATCAGTTTACAGCTTCCAGTCATGACAATTATTACAAGGCAGGTGTCACATTTTCCATCCTCA
GAAGCAGCCTCTCTATAATTCAGCATCTTGAAACTCAGGCCATTCCTACCAGCTGCTCCTGGCTCTTTATCTGATCCACCGCCTGTCTCTCCAGCTCCTC
CTTAGCCCGCAGTGCAGCCATACGGTCAGCCTCTAGGCGCTCGGCCTCCTCCTGTGCCCGCTTCCTCTCCTCCTCCAGCTGCAGGGCCCTCTGAATCTGC
TCCGAGAGCTCTGCAAAGACACAAAGCCAGAGCCATTCAAACCCTCAGCCCAGGGACCTAGGAGCCCTCGCTTTCCATTCCCACCCCCAAAGCCACAGAG
CCCTAGACCAAGTCACAGGTTGAGGGGATGTCTTCCAGTGACCCTGGAGGAAAGCACTTCACAGAGCTCATTGCTGCTGTATCCATGACAACTTCCTCAA
GATGGCTAGAAACCCGTCCAACGCCAGCCAGGCGCCCTCTCTCTGGCATGCCTGACTCAACCCTCTTGGCGCTACTCTCCCCAGGTCAGCCGCCCGCTGT
GCTGGTGGTCCACACTCCACTCAGAACACAGAACACCCTTCCCATGTGTGCTGTAAGGGCTGCCAGTGAATACAGCATCTGTGGCGCCTTGTGTAATCGG
CCCAGCTGCTGGGGTTGTTGACTGGAGCTGTGCTGGGAAGTCTGGCTCTGAACACGCCTTTGGGTTTTAGTCTAGAGGTCGAGGGCAGTGCAGCATGGCC
CTGTCAGTCATGGGCTGGGGGACTGTGGGCAAATCACTGTACCGCACCAAACCTTACTGTCCTCATCGGGGAAACTGGGTGATTGAGCACTTACCGCAAA
AGACTAGGGAAATTTTAAAATACAAAGTCTTAGAACAACTAGCATCAAAGTTAAATAAGTACAGAACTGTTTTCCAAACCAAATAACCATTTTATCATTT
CGGCTGTGAGTCTGCGCTGTGGGACACGTTCTTGGTTTCCTTCCTGGTGAGTGGGTGGGTGGGTGTGGCCCCTGCTACTCTGTGGAAATGCATGACCCAG
TGTAGAGTGCCAGCCCCAGGGCGCCTGACCTCTCTCTGCCTTCTTTGTCTTCTCCTCATAGTCCTGCAGCCGCAGCATCAACTCCTCCTTCTCGCGCATC
ATCTGCTCTTTCTCTCTCTCCACGGTTTCTCTCCTTTTCTTCTCTGTTTCCAGCTGTTGCCTGGTGCAGGGAAAAAGAGGCACAGGGAGATTTAGACTCT
GGCAGGAAAGTGAGGGGTCAACACACTTCACGGGTACTTGAAGCTCCAGGATGGACTTGGTATCCTGAGGGCCACCCTGGCCTGCTGCCAGCCTGAGCTG
CCTGACGGAGCAGCCGCTCCAGGGCTGACAACAGGCTCAGCACCACAGCAACCGCCCAGAGACAAAGGCCTCGAAGATCCCAGCGTGGTGACTGGGTTCC
ATTCCACCACACTCTCCCCATCAGCTCCACAGTCACCTGACAGGCACTGGGGCTGCCAGTGGCTGAGTTGGGAGAACACAGGCCCCCCCCACTCTGGCCT
CACGCGCTCACCGCTCCAGCTGCTTCTGATGCTTCTCCTCCCGGGCCTGGGCCTTCATCTGCTGCACCTCGATGGTGTCAGGCTTCCTGCGGCGCATATA
CAACTCATGGTTGCCCATGCAGAGCTGCAGGATCCGCTTGTTGATTCTCAGACGTGGGGCATAAAACACAAAGTCCTACAAAACAGAACAGGGCCACCTG
GACTCAAGCTCCTTCGTTTGGTTTTCTTCTCCAAACCATCCTTCACAAAGGTCCAGAACTTTTCTAAAAGAACAAATGTAGCAGAACAGGGATGGCAGCA
TCTCGGCACTAGGAATGTGCATTCTCCAGGACAGATGGAGGAAGGGCACGTGCCGCGTGTGTGTGCGGTTATGTGTGGGTATGTAGCACTGGGAAAGTGC
ATTCTCTGGGACGGGTGGAGGAAGGGCAGGTGCCGCGTGTGTGTGCAGTTGTGTGTGGGTAGGGACATCCTGCATGCACACTGAAATGCCACTGCACGTT
AACTGCAAAGCTTTTCCAAGGTGAGAACTCTCAGCCTTGGGAAACCTTTCAAGTCTCAGAGCTGCCTGCTCTTCCAGGTAGCCACCTTTCATGATGTCCT
CTCCAGCCTCACTGCTGCTCCCCATCCCCGATGCTTGCCTGGACTGCCTCTGCTTCTATTTGGGCTTCCTGTCTCCTCTGCCACAGCCTCCCCTCCCACA
CTGTTATTGCTACACTGACTGGGTCACCACCCCGACCCATCACTGCCAGCCTGGGAGCTCCAGGATGAGCTCCAGGGCCTGGGCCCAACCCACACAGAGA
CCTTCCAGCTCTGGGCCCAGCCTCCGCTGTGCACTCGGTTCTCTCTCCTCAAAGCTATCCAGCCCTGCTCCTGCCACACCAGCTACAGGTACTCGCCGCA
GTGGCACTGTCACTTCACTCCAGTGACTCCTTTCAGCATCTCACTCCTATGAGGCCATCAGCTCCCAAGGGCAGGGGCCACACATTCACTCATCTCTTAT
CTTCCCAGGGTATTTGAGGTGTGCAGTACCTGCCAGGCACTGCCAGCTCGTGCAGCACAGACAGCCACGTGCGAGCTCCACAGCCTTGAGCACATCCCTT
CACCAGGCTCAGTGCCTTCAACCATAAGGCAGGGATGCCGGTATCTCAAGGGACTTCAGATATGGGACTCAATCCTCCCAGCAGTCCCATTAGATGCTGG
CGTCCCCGCCTTATCGGTGACGTTCAGGAGGTGCTCGGCGCAGGAAGAGCTGGCTGACACACACAGCGGTCACTCCAATTGCTAGTGCCTTGCAAGACCA
CAACCAGAGGAGCCTCCTGGAAAACAAGGCAGAATCACAGCCTTCGGGAAACTCGTGACCATGACTGGAAACATTTGGGACACAGCTGACAATCTTGGTC
CCAACTCCTTGCTACTGCTGTGATTAGCTTACAAGACAGAAGAATATGGTTTAGAAACTCCCATGAAAAGTTATTTTTCAGTGACTCTGTTGGCTTCCTC
TTAACCTCAGGGCCCCCAGCATCCAGCTTCTGACCATTTGGAACAGAGGGACAGGGTGGCTAAAACAAAAAAACAGTGCGATATATCCCACAGCAACTTC
TGAGACCTAAC


SNP Information

Context             (SEQ ID NO:22255):
TGAACCCCAGAAAATGCACACAGGCAGGTGGACTCGGAACTTTAGCCATGATTTCAAAGACTCCTGCACTCGCTATGGCCAGCCTGGCTAAGGACCCTGA
Y
CTAGGGGCTGCCTTCTTCCTTTGAGGCTTGGGGCTTGGTGTTGAGAGCTTAACATCACATGCTATTTGCCCTCCCAAAGGCCAGCCCATCTGATTTTCTT
Celera SNP ID:            hCV16070932
SNP Position Genomic:     62231
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22256):
GCATTTGAGACTGTGTCTTTGAGATTATGATCCAAACCCAAAAATATATAATGCTGATAAGAGAGAAGAATCACATACATTCTTTTTCTTTTCTTTCTTT
C
TTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTATTGCCCAGGCTGGAGACCAGTGGCGTGATCTCGACTCATTGCAAGCTCCGCCTCCCGGGTTCACA
Celera SNP ID:            hCV27403700
SNP Position Genomic:     68714
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,2)   total(C,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22257):
CTTGTATTTTTTTTGCCTGTGTTTTTACTTCTAAGATCTTTGAAACACTTGCTGCACTTGTATTTGGAGAGTGGTTGTGGTCTAAGCTTTTTTTTTTTTT
T
GCTTTTTTCTTTTTTTGAGATGGAGTTTCACTCTTGTCCAGGCTGGAGTGCAATGGCGCAATCTTGGCCCATCACACCCTCCACCTCCCGGGTTCAAGCG
Celera SNP ID:            hCV27403701
SNP Position Genomic:     66739
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22258):
ATCTCTTCCCTTAGGAAATATCAACATCTTTATGTACATGTCAGAGTCATGGTGTGATGACGTACTTTGAAGCATGGAGTCAGTTTTCAAAAAAAAAAAA
A
TGCATAACACAAATTAAAACTCTAAAAGTGTCTGTAATTTTTACCTCCAGCATGGGACATGATGAGAACGTGAACTACACAGCATAGCAAACTGTGCTGT
Celera SNP ID:            hCV27403702
SNP Position Genomic:     66481
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22259):
ACAGACCGTCCCTGGCCCTCCGGGGCAGGAGCGCAGAGGACACTCTGCAAGAACTTATAGGTCTCTTGACTTTCACATGTCACTGCTTTGGAATGTGACT
C
TTTTTTTTTTTTTTCTTTTAAAGATAAAGTTCCTGAAAAAGATTAAAGCAGAGATGTTTCCAGATTCTCATGAGAAACCTTCTAGTTAGCATAGTATTTT
Celera SNP ID:            hCV27403703
SNP Position Genomic:     63352
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,10)   total(C,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22260):
CAAGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCACACCTGGCCGGGTTTTACATTTTTAAATGGTTAAAAAAAAAA
A
CAAAAGAATAATCTTTGTGACACATTCAAATTTCAGTGCCCATGAAGTTTCGTGGGAACGGGCACGCCTGCCCTTTATTACTGTCTGTGGCTGCTGTCAT
Celera SNP ID:            hCV27403704
SNP Position Genomic:     60115
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22261):
AAGTTGTTTTTTTTAAGTTTAACATGAGACATATTGATTCCAAAATGTATATGAAAAAGTAAAAGTCTAAGAATAACCAAGACAATTATTAAAAAAAAAA
A
CAAAATGAAAAGGCTTACTTCAAGTATTATTATAAAGCTGTAGCAATGCAAACAATGTGTTATTGATACAAGGACAGAACAAGTCAGGAAAGTAGAATCA
Celera SNP ID:            hCV7767310
SNP Position Genomic:     101729
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22262):
TTTCGCCCCAAGCAATTTGTGTTAAAGAATGAGATCGTGTAACATTTATTGCTAGGCAAAAACTGTATCTAGGCAAGAGAGGGCCTTCTGAGGATTCTCT
R
TCTCCTTGAGATAGAACATGTGGCAACTTATTTTGGCAAAGTACAAGCTGGTGCATTATTAACTTGATGTGAGTCAGGATACATGCTGTATGAGTTTTTA
Celera SNP ID:            hCV7767311
SNP Position Genomic:     101265
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,27)   caucasian(A,15|G,21)   total(A,26|G,48)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22263):
CACAACTGGGGCAGTGAGGCAGGGGGCAGAGTGGGACCTGCGGGTCCCCCTGCATGCTTTCATATGTCCTGTGAACTAAGAGTGGGTTTTATATTATTAT
Y
ATTATTATTATTATTATTATTATTATTATTTTGAGATGGAGTCTCATTCTATCTCCCAGGCTGGAGTGCAGTGGTGTAATCTGGGCTCACTGCAACCTTT
Celera SNP ID:            hCV27403705
SNP Position Genomic:     59780
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,10)   total(C,5|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22264):
TATGTATGTATGTATTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGAGCGATCTTGGCTCACTGCAAGGTCCGCCTCCTGGGTTCA
Y
GCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACCACGGCCGGCTAATTTTTTGTACTTTTAGTAGAGACGGGGTTTCACT
Celera SNP ID:            hCV27403706
SNP Position Genomic:     56675
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22265):
TTGTGATGATTGTTTATGTCAGATACAGCAAAGTGTATTGTTCTGACAAGATCCATATATTATGACAGATTTCCTGGGGGTGGGCATAAGGCCTGTTGAG
G
AAGGGGCACATTTGCCCAGTTCCCATGGAGGCTCCGTTTAGATAGCCCCACCTGTGCTTTTCTTTGGTGGCACTTGGAACTCCAGGGTATAGTTTCTTAC
Celera SNP ID:            hCV27403709
SNP Position Genomic:     54794
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,8)   total(G,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22266):
AGGATGCCTGCGTGAATCCCAGTCTCAACACCAGCTTTGTTGGGGTGGGAGTGGTGGTGGCGGCGTCTGTCATCAGTGGTTGGCCTTTTAATGTGGACTT
R
AGGTGAAAAACTTCTGGCTGGTCATCATTTTTAAAGGGATGAGAGGGGATGAAGTGGTGCCCTCCCCGACCATGGCTAAATTGTCTTCCTCTCTTACAGA
Celera SNP ID:            hCV7767178
SNP Position Genomic:     120369
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,25)   caucasian(A,11|G,15)   total(A,14|G,40)
SNP Type:                 INTRON;UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:22267):
AAGGCCTTAATTTCTATTTGATTAATTATTATAAATTCTAGTCCTCTGGAGAAATTTCTATTTGATTCTTTATTATATATTCTGGTTCTCTGGAGAAATA
Y
ATTCTTTTCATATATTTTCTTGACCATATTAGTTACAGTTATTTTAAAGTTTATATCTTTCAGTGCCAGTATCAGGATCACCCATGAGTCTATTTTTATT
Celera SNP ID:            hCV16150625
SNP Position Genomic:     96364
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22268):
TTCAAACTACAGAACTCCAGGCTGTTAGAGCCTCGCAGAGCAGAGGATGCCTGCGTGAATCCCAGTCTCAACACCAGCTTTGTTGGGGTGGGAGTGGTGG
Y
GGCGGCGTCTGTCATCAGTGGTTGGCCTTTTAATGTGGACTTAAGGTGAAAAACTTCTGGCTGGTCATCATTTTTAAAGGGATGAGAGGGGATGAAGTGG
Celera SNP ID:            hCV7767179
SNP Position Genomic:     120326
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,27)   caucasian(C,18|T,18)   total(C,25|T,45)
SNP Type:                 INTRON;UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:22269):
CATGAATTAAAAGAAGCAGGTGCCAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCCAAGGAGGGCGGATCACGAGATCAGGAG
W
TGGAGACCATCTTGGCTAACGTGGTGAAATCCCGTCTCTACTAAAAAAAAAAAAAAAAAAATACAAAAAATTAGACGGGCATGGTGGTGGGCGCCTGTGG
Celera SNP ID:            hCV7767824
SNP Position Genomic:     48691
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22270):
CGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTACAGACGG
R
GTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACAC
Celera SNP ID:            hCV7767825
SNP Position Genomic:     38512
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22271):
CAAGCATTAATTTTCTAAAAAATCCACTTGAGTTCATGTATAGCCTGAAAGAACCTAATGGAGAATTTATTTCAGTCAATACTGTAATTTATAGAAGAGA
M
TCAGTCATGAGTTGAAGTTTTAATTTTTTTCTTAAATTTGCATAACAAAGGAATTGGCCAGTTTTGTGGCACATTATTTTAAGGATGTGAAGATCTTATA
Celera SNP ID:            hCV7767826
SNP Position Genomic:     37041
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22272):
TGATTGTGATGATTGTTTATGTCAGATACAGCAAAGTGTATTGTTCTGACAAGATCCATATATTATGACAGATTTCCTGGGGGTGGGCATAAGGCCTGTT
G
AGGAAGGGGCACATTTGCCCAGTTCCCATGGAGGCTCCGTTTAGATAGCCCCACCTGTGCTTTTCTTTGGTGGCACTTGGAACTCCAGGGTATAGTTTCT
Celera SNP ID:            hCV7767681
SNP Position Genomic:     54791
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,8)   total(G,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22273):
GGGAGCCACTTGTATAAGGGGATATTGTTCAAATACCCACTTATATCGTGTATTGATTGTGATGATTGTTTATGTCAGATACAGCAAAGTGTATTGTTCT
R
ACAAGATCCATATATTATGACAGATTTCCTGGGGGTGGGCATAAGGCCTGTTGAGGAAGGGGCACATTTGCCCAGTTCCCATGGAGGCTCCGTTTAGATA
Celera SNP ID:            hCV7767682
SNP Position Genomic:     54738
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22274):
CAGTGGCTTGGAGCCAGTGCTATCTTAGCTCAAATTTTCCTAAGGACTAAAATATGCTTAAAATGGCTCTGGGCTGGGTGTGGTGGCTCACGCCTGTAAT
Y
TCAGCACTTTGAAAGGCAGAGGCGGGCAGATCACTTGAGGTCAGGAATTGGAGACCAGCCTGGCCAACATGGTAAAATCCCGTCTCTACTAAAAATACAA
Celera SNP ID:            hCV7767683
SNP Position Genomic:     54103
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22275):
ATTGTGATGATTGTTTATGTCAGATACAGCAAAGTGTATTGTTCTGACAAGATCCATATATTATGACAGATTTCCTGGGGGTGGGCATAAGGCCTGTTGA
G
GAAGGGGCACATTTGCCCAGTTCCCATGGAGGCTCCGTTTAGATAGCCCCACCTGTGCTTTTCTTTGGTGGCACTTGGAACTCCAGGGTATAGTTTCTTA
Celera SNP ID:            hCV27403710
SNP Position Genomic:     54793
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,8)   total(G,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22276):
CTTTGGGAAGCCAAGGAGGGCGGATCACGAGATCAGGAGATGGAGACCATCTTGGCTAACGTGGTGAAATCCCGTCTCTACTAAAAAAAAAAAAAAAAAA
A
TACAAAAAATTAGACGGGCATGGTGGTGGGCGCCTGTGGTCCCAGCCACTCGGCAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGTGGAGGTTGCA
Celera SNP ID:            hCV27403713
SNP Position Genomic:     48752
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22277):
CAGCTTTTATAAAGGGTGGATTTGCCCAGGTGTAGATTTGGTTGGTACTAAATTATCCCATGGTTTATATTCCTGGCTCTTCTTAAAAAAAAAAAAAAAA
A
CGCTGCTTCTGCCAAGTTTATTGGAAACCTGGAGGAAAAAACTAATACTAAGGGTCATGTCAGGCAATGGAATGAAGCAGGGTTGCTGTTTCCTCTAAGC
Celera SNP ID:            hCV27403715
SNP Position Genomic:     40787
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22278):
GGAGTGCAGTGGTACAATCTCAGTTCACTGCAACCTCTGCCTCCCAGGTTAAAGCAATTCTTATGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTACG
Y
GCCACTTGCCTGGCTAATTTTTGTATTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCCAGTGATCCACCCTCCT
Celera SNP ID:            hCV7767321
SNP Position Genomic:     100035
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22279):
CTATATTTTCCTTGTTCTAGTCACTAAGTATTGGTAGTAATCATTTATGTACTAATCAGAAAATAGTAGTGTCTAACCAGATGAAGGAGAGAAAGTTAGT
T
GATATCTTCTGACAATTACTAGCACTTCATAGAGAAAGATAGCATATTTTGAAAAACGTGCAGATTGGCATATATTTGTGATTTTACTTACATTAGCAAG
Celera SNP ID:            hCV27403716
SNP Position Genomic:     36844
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22280):
TAATTTTTTTATTTTTAGTAGATATGGGGTTTCACTGTGTTAGCCAGGATAGTCTAGATCTGCTGACCTCCTGACCTCATGATCTGCCCGCCTCGGCCTC
Y
CAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGTCCAGCCAGCTGGAAACATTCTTAAGCTTCTCGGCCCCTCAGCCACAGCTTCCAGTTCAGCAAACG
Celera SNP ID:            hCV7767323
SNP Position Genomic:     98813
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22281):
TCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAACAAACAAAACAAAACAAAGCAAAGGTAGATTCTGTATGTAGCAGGGAGTAGTCCTATTGACAGAA
R
GGGGCGAGCAATGGGTAAGGACCCAGGAGAAGTGGCTGAGCGTCGCCCACACACAGCTGGAGATGAGAGAGCTGCCTGGGGGCCCGAGCCCGACCCTGCT
Celera SNP ID:            hCV7767250
SNP Position Genomic:     110756
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22282):
TCTATATTTTCCTTGTTCTAGTCACTAAGTATTGGTAGTAATCATTTATGTACTAATCAGAAAATAGTAGTGTCTAACCAGATGAAGGAGAGAAAGTTAG
T
TGATATCTTCTGACAATTACTAGCACTTCATAGAGAAAGATAGCATATTTTGAAAAACGTGCAGATTGGCATATATTTGTGATTTTACTTACATTAGCAA
Celera SNP ID:            hCV27403717
SNP Position Genomic:     36843
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22283):
AAGGTAGATTCTAGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGATCGAGACCATC
Y
TGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCACAGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCA
Celera SNP ID:            hCV7767251
SNP Position Genomic:     110495
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22284):
TTCTATATTTTCCTTGTTCTAGTCACTAAGTATTGGTAGTAATCATTTATGTACTAATCAGAAAATAGTAGTGTCTAACCAGATGAAGGAGAGAAAGTTA
G
TTGATATCTTCTGACAATTACTAGCACTTCATAGAGAAAGATAGCATATTTTGAAAAACGTGCAGATTGGCATATATTTGTGATTTTACTTACATTAGCA
Celera SNP ID:            hCV27403718
SNP Position Genomic:     36842
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22285):
TTGCAATGAGCCGAGATCGCACCACCGCAGTCCACCCTGGGCAACATAGTGAGACTGTGTCTCAAAATAATAATAATAATAATAATAATAATAATAATAA
W
GATGATGATGATGATAATCTTCTCCCTCAACATTTAATGTCTTTTTCTTTCTCTTTCACATTCTGGCAAGTGTCTCTGCCAAGTCAGCCTCACAGATTCA
Celera SNP ID:            hCV27403719
SNP Position Genomic:     30081
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,4)   total(A,3|-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22286):
GCTGCAGAGCAGTAGTGGTTAAAATAAGATCTTGGAATTTATCAAAAGGGAGGTGAGCTGGATGTGGTCATCCACGAGGTCATGGATGTGGTGTGTATGC
Y
TGTGGTCCCAGTTACTCATGGAATGCCCAAGCGGGAGGATCACATAAGCCCAGGAGTTTGAGGCCAGCCTGGCCAACATAGTGAGACCTCGTCTCTGAAA
Celera SNP ID:            hCV16100087
SNP Position Genomic:     25800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22287):
CCTGGGCGACAGAACAAAACTCCGTCTCAAAAAAAGGAGAACTGAGCTTATGTTCTAATCTTGTTGCTTATCTGCATGGCCTTGGACAAGCTTGTCTGAG
Y
TGATTTTCCTGAGAACAGGGTTAAAAGGAGATAACGTGTATCTGCAGTCATGGTGGGAGGCACCCCAAGGAGGAAAGATTAAGATGAGGGCCACGAGGCC
Celera SNP ID:            hCV7767189
SNP Position Genomic:     118963
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:22288):
ATTGGTGTTTAGGGGGTTTTAATACCAGTTTTAACATGGAATTGGTGTTTTTGCGTTCCCCATTCTGAAAACGATAAAGAGCCAACTTGGCTTAGACTCC
Y
GCTGTTCAAAGCAAGAATGAACTGGCCATGAGCTCCGTGAAAACACTAGAGGGGTGACTCCGTCTGCTGGGGGAGACGGTGCACAAGGACATCACAGAAC
Celera SNP ID:            hCV7767908
SNP Position Genomic:     22416
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22289):
TTGTTCTAGTCACTAAGTATTGGTAGTAATCATTTATGTACTAATCAGAAAATAGTAGTGTCTAACCAGATGAAGGAGAGAAAGTTAGTTGATATCTTCT
S
ACAATTACTAGCACTTCATAGAGAAAGATAGCATATTTTGAAAAACGTGCAGATTGGCATATATTTGTGATTTTACTTACATTAGCAAGCATTAATTTTC
Celera SNP ID:            hCV7767835
SNP Position Genomic:     36855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22290):
TCAGTACCAGTGGAGTAAATTATAATCTAGGGAATATTGGAGTAATCATCTGAGGCTTTAAATACTGCGTTTTTGAAGCTGACCTGTCTTTAATACTCAG
S
TAAAGAAATGGACATGCTTCCCTTTAGTGACAGACTGAATCTACGTTTATAGTTATCAATTGGTGTTTAGGGGGTTTTAATACCAGTTTTAACATGGAAT
Celera SNP ID:            hCV7767909
SNP Position Genomic:     22257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22291):
AGCACAGGGCTTGGCATAGGACAGGCGGCCACCAGGCCTCATCAGACTGAGCCTGCTCTGGCAAGTGGGTGAGGAGCAGGTGGCACAGAGCTGCAGGTGG
Y
ACAGAGCTGCAGGTGGCACAGAGCTGCAAGGCATCCCTCCTAAAGCCAGTAGGGTGGGGAGTCCGCCCACAGACCCGCCCCTGGGCTCTGTTCCGCCTCG
Celera SNP ID:            hCV16148795
SNP Position Genomic:     115191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22292):
GCATGGGACATGATGAGAACGTGAACTACACAGCATAGCAAACTGTGCTGTGTGTGAAGGGGCAGAATTCATACACAACTAAACTAAATAATTTGGCAGC
R
GAGATTTCTTGTATTTTTTTTGCCTGTGTTTTTACTTCTAAGATCTTTGAAACACTTGCTGCACTTGTATTTGGAGAGTGGTTGTGGTCTAAGCTTTTTT
Celera SNP ID:            hCV16148796
SNP Position Genomic:     66631
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22293):
AGTGATATTGGCTCGCTGCAACCTCCGCCTCCTAGGATCAAGCAATCCTCCCTCTCAGCCTGCCAAGTAACTGGGACCACAGGTGCACACCACCACGCCC
R
GTTAGTTTTTCTATTTTTAGTAGAGACGGGGTTTTGCCATATTGCCCAGGCTGGTCCTGAACTCCTGGGCTCAAGTGATCTGCCCACCTCGGCCTCCCAA
Celera SNP ID:            hCV7767694
SNP Position Genomic:     50416
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22294):
TAACTCAGTCATGCTTTCCTCAGTCAAGTCTGATTGTTCTCAAGATGCTTTCATGCCACTTACACAGCTTCTTTGGGAATAGCATTTTTTTTTTTTTTTT
T
GAGACGGAGTCTTGCTCTGTTGCCCAGGCTAGAGTGCAGTGGGGCGATCTCGGCTCACTGCCAGCTCCACCTCCCAGGTTCACGCCATTCTCCTGTCTCA
Celera SNP ID:            hCV27403720
SNP Position Genomic:     29417
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22295):
TGAGGTACAAGAATCGCTGGAACCGGGGGGCGAAGGTTGCAATGAGCGGAGATCACACCAATGCCCTCCAAGCTAGGCGACAGACTCAATCTCAAAAAAA
M
GAAAAAAAAGAAATGTACAGAGTATTTTTTTTTTTTTGAGACTGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAA
Celera SNP ID:            hCV27403721
SNP Position Genomic:     26743
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22296):
TTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGACAACAGAGCAATACTCCGTCTCAAAAACAACAACAACAA
M
AAAAAACAAAAAACAAAAAAACCCGGAACAGCGCCTGGGGTGTTCAATAAATATTTACTGAATGACTGGATGAATGGATCCAGGAAATGAACTGAATTTC
Celera SNP ID:            hCV27403723
SNP Position Genomic:     16238
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,7)   total(A,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22297):
CCCAGGTTCATGCCATTCTCCTGCCCCAGCCTCCCAAGTAGGTGGGACTACAGGCGCCTGCCACAACACCCGGCTAATTTTTTGTATTTTTAGTAGAGAC
R
GGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCTGCCTCAGCCTCCCAAAGTTCTGGGATTACAGGCGTGAGCCACCAC
Celera SNP ID:            hCV27403724
SNP Position Genomic:     14039
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22298):
TTGTGATTATCCTAATGGGTACCGTGCAAAGAAAATGCTTCCACCAGGGCAGTGACTTAACTGGTTTTGAAATTGCCTAGCCTGCCTTAATTGGAAATGC
Y
TAAGTCTAGTTTTTACTCTACAGCTGAGCCATAATACAGCCAAGTATTTTGACAATTTAAATCAGATTTAGATCTGCTAAAGAAACAAAAATTATAGGCC
Celera SNP ID:            hCV15965305
SNP Position Genomic:     119619
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,55|C,1430)   total(C,1430|T,55) 
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:22299):
TCTTTCTGAAACAATAAAAAATTCTTGTTAAAGTTTGAAATGAAACAAAATACAGTCTTCCTTCCATTTACACACTAGTTGCATTTCTTTTTTTTTTTTT
T
AACTTATTACTATTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACTATCTCAGCTCACTGCAAGCTCTGCCTCCCAGGT
Celera SNP ID:            hCV27403725
SNP Position Genomic:     13845
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22300):
AGTGGAAACACTCATTTGTCTTCAGTGGCGTAACCCCAGCTCAGCTGAGGCAGTCGAGCTTGGAGTTAACTGTCTGGGATCAGGCCCTCTTTGGAATGAA
Y
GACCGCTTGCTTGGAGGAACCAGACTTGGTTCAAGTAAGTCTGAGACATTGAGCCCAAACGTTTATACTTTGTGATTATCCTAATGGGTACCGTGCAAAG
Celera SNP ID:            hCV15965306
SNP Position Genomic:     119449
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,12)   caucasian(C,39|T,1)   total(C,61|T,13)
SNP Type:                 SILENT MUTATION;NONSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22301):
AAGTGATCTAATATGATTGGGAATGCAAAGTAATGGGTCCAAAGAGATCACTGGCTGGCTGGAAGCCTTCGTTCATTCAGCACTGTTTTCCCCAGCATCT
R
ATTTCCCATACTGTGACACAAGGCCTGGGATCTTTGAGATGGAGATGTTTTCAGTGTCTGTTCAGAGTGCCATACTGTTTGCATAATGACAGATCTCTTC
Celera SNP ID:            hCV7767405
SNP Position Genomic:     82674
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22302):
ATGGCATAGTGATTCCAGTACCATAAGCAATGTTGCCCTCCATGATGTCTTTCTGAAACAATAAAAAATTCTTGTTAAAGTTTGAAATGAAACAAAATAC
A
GTCTTCCTTCCATTTACACACTAGTTGCATTTCTTTTTTTTTTTTTTAACTTATTACTATTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGG
Celera SNP ID:            hCV27403726
SNP Position Genomic:     13798
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22303):
CATGGCATAGTGATTCCAGTACCATAAGCAATGTTGCCCTCCATGATGTCTTTCTGAAACAATAAAAAATTCTTGTTAAAGTTTGAAATGAAACAAAATA
C
AGTCTTCCTTCCATTTACACACTAGTTGCATTTCTTTTTTTTTTTTTTAACTTATTACTATTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTG
Celera SNP ID:            hCV27403727
SNP Position Genomic:     13797
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22304):
ACTAGCTAGTGAGCCCTTGGAGGATGGACGTTTCATCTTCTCCTCTTTCTTCTCTCTTCCTCCCCTTCTACTCTTCCAGCCCCCAGAATTTAGCATAGTG
S
TGTGAATATAGTGTTGCTTAATAAATAAATGTCTGTAGGAATTAAGTTGGCATTCTGGGGATGGAAAGCATAAATAATTTGGAGGTAATCCTTTCTTTCA
Celera SNP ID:            hCV7767407
SNP Position Genomic:     80205
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22305):
CTTACACCTCATTCCCAGCTGAGCCTGGAGCAAGCCTTGTGGACCTAACAGGGCTATGGAAAATAGGTCTGGTTTGAAAAGGTAGATTCTAGGCTGGGTG
Y
GGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGATCGAGACCATCTTGGCTAACACGGTGAAACCCCG
Celera SNP ID:            hCV7767261
SNP Position Genomic:     110417
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22306):
TTTTAGTGGAGACAGGGTTTTAACATGTTGGCCAGGATGGTCTCCATCTCCTGACTTCATGATCCACCTGCCTCGTCCTCCCAAAGTGCTGGGATTACAA
R
CGTGAGCCACCACGCCCGGCCTTATTTATTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAATGGCGCGATCTCAGCTCACTGCAACC
Celera SNP ID:            hCV27403728
SNP Position Genomic:     8480
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22307):
GAGAAATGCCCATTAAAATGATGTATAACATAACCACATTTATTCAAGAATGTATTCCAATATCAAATAGCAAATTCCAACAATGCAAAAACTGCAATTA
K
TTTTGCACTTTTATTATGCTTCATAGAGAATTTGCTTTTGCTCTTAACACACAGAGTGGAGGCAAAGAATCTTTATCTAGTCTGAGGCTGAGCTGATTCA
Celera SNP ID:            hCV7767335
SNP Position Genomic:     98263
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,5)   total(G,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22308):
GCAAAATAACCCAACACCGGCCAGCCTCATCCTTAATAGAAATATGCATAAGATGCGAAGGATGGGAAGCCGGGGAGGCCGATCCAGCATTAAAAGTCTC
R
CTAGAAGCCAGTATTTCCAATCACAATCACACCTTTGTGCAGCACCCAGGCTTTGTGCGACCTGAGGTGAGCCATCAGAGTACGATTCAGGTGGATGAGG
Celera SNP ID:            hCV7767262
SNP Position Genomic:     109993
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22309):
TGAAAATGTGGTGTGGTCAGTAAATATTTCCTAAGCTTAACATCTCCTCTTGGACCAACAGTAAAACGCATGACTGTCCACATTTCATTCTCATTCAGTA
Y
AGGTGCATTGGCCCCTCTAAAAGTAAGGCAAATACCATTATTACATTGAATTGCAAACTCCCCGTCAGTGACATAGGGAAAAATGACGGTCAAGATAGAA
Celera SNP ID:            hCV7767190
SNP Position Genomic:     118504
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22310):
TATACATCACAACATGGCCCAGAACCTGCAGCGAACACTAAAAAACGTAAGCCACTTAAAACGTCTTATTTTAGCTTTCCTATGAAAATCTAACAACACA
Y
ATTAAAGACCCTGATTTCCAAAAATTCACGGGATGTGTACATGCTGGAGTACTCGAAACCCTAATCTTCTCAGTTCTGTGATATCAGGAAGCCAGTTTTG
Celera SNP ID:            hCV7767191
SNP Position Genomic:     118293
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22311):
GATTCGAGAATAATCGCGAGAATCAGGCCTGCTTGGCACTATTACAACTGGGGAAAACAAACCAGGGCGCCTCCCTGGTTCCCAGCCCAGAATGTTTCTG
Y
TGGGTAACTGCTTTCTAAAGGAACTGGGATCTGAGGGAGTTCCTAGACTTGGAGCACTAAAGACAAGCGTGGCGGGGCTGGCAGCGCCCGCTATGAGCAC
Celera SNP ID:            hCV8305411
SNP Position Genomic:     122752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:22312):
TATCACTTGTATATAAATAGTATATAGCTGATCATTAATAAGGTGTATAAGTACAATGTATTCTAAAACTGTTAAGCCAAAAAAAAAAAAACTAAAAAAA
W
ATCCAAGTGTCCTCCTCCACCACTCACGCTGGTGATCACTGTGCTCTCTGCCAGCTGCGTGGAGTGACGGGAGGAGGGAATCACTGTGTGTGCGAGAGTG
Celera SNP ID:            hCV8305412
SNP Position Genomic:     122292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:22313):
ACAAATCTGTATTATCACTTGTATATAAATAGTATATAGCTGATCATTAATAAGGTGTATAAGTACAATGTATTCTAAAACTGTTAAGCCAAAAAAAAAA
R
AACTAAAAAAATATCCAAGTGTCCTCCTCCACCACTCACGCTGGTGATCACTGTGCTCTCTGCCAGCTGCGTGGAGTGACGGGAGGAGGGAATCACTGTG
Celera SNP ID:            hCV8305413
SNP Position Genomic:     122280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:22314):
CGTGCTGCTTCGTGCCTTTGCAAAGCTTTTATTTCATGTCTGCGGCATGGAATCCACCTGCACATGGCATCTTAGCTGTGAAGGAGAAAGCAGTGCACGA
R
AAGGAATGAGTGGGCGGAACCAACGGCCTCCACAAGCTGCCTTCCAGCAGCCTGCCAAGGCCATGGCAGAGAGAGACTGCAAACAAACACAAGCAAACAG
Celera SNP ID:            hCV8305414
SNP Position Genomic:     121810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:22315):
ACACAAGCACACACCCGTGCTGCTTCGTGCCTTTGCAAAGCTTTTATTTCATGTCTGCGGCATGGAATCCACCTGCACATGGCATCTTAGCTGTGAAGGA
R
AAAGCAGTGCACGAGAAGGAATGAGTGGGCGGAACCAACGGCCTCCACAAGCTGCCTTCCAGCAGCCTGCCAAGGCCATGGCAGAGAGAGACTGCAAACA
Celera SNP ID:            hCV8305415
SNP Position Genomic:     121795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:22316):
AAACCATCTCGAGGAGGTTAGGTGACCCATGGAGCACCATGTCTTGGGTTGGTCAGCTCCAACTTACCAGTGTACCCCCAGGGACACCACGGCCCCTCAC
R
AAACCTGGCCAGAGGACAGCATAGAGCCCAGACGAGTCGGCGGTAGCCCTCCCACCCCACACACAAGCACACACCCGTGCTGCTTCGTGCCTTTGCAAAG
Celera SNP ID:            hCV8305416
SNP Position Genomic:     121634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:22317):
TTGAATATGGAGAGGTGCAGCCCTTCAAAGGCATGGGAATTTACCACCCATGACTCCCTCTGGACTTGCCCTGATTTTTTATGTTCTGCTTCCCACAAGT
R
CTCCAGGGGAAAACTTCTGCCTAGAGGCTGAGACTGCCTTAAGGTGTTTTGTGTTGATGTAGGGGATTAGATAATTGAGTTTCTGACTTTATGGATGCAA
Celera SNP ID:            hCV7767849
SNP Position Genomic:     36221
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   TSC_42_A(G,6|A,77)   SC_12_A(G,3|A,21)   TSC_42_C(G,31|A,52)   TSC_42_AA(A,27|G,56)   SC_12_C(G,7|A,16)   SC_12_AA(A,7|G,16)   SC_95_C(G,63|A,122)   total(G,182|A,322) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22318):
AACTGAGACTGAAGTCGCCAGTCCTGAGGAAGCAGGCTTGCCCCCAGTGGAAACACTCATTTGTCTTCAGTGGCGTAACCCCAGCTCAGCTGAGGCAGTC
R
AGCTTGGAGTTAACTGTCTGGGATCAGGCCCTCTTTGGAATGAACGACCGCTTGCTTGGAGGAACCAGACTTGGTTCAAGTAAGTCTGAGACATTGAGCC
Celera SNP ID:            hCV15965314
SNP Position Genomic:     119404
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(A,11|G,27)   total(A,16|G,56)
SNP Type:                 SILENT MUTATION;NONSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,302|T,1185)   total(C,302|T,1185)   no_pop(C,-|T,-)   (T,-|C,-)    
SNP Type:                 SILENT MUTATION;NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:22319):
CTGTCTCACTCTGCCAGACCAACAAAAACTGAGACTGAAGTCGCCAGTCCTGAGGAAGCAGGCTTGCCCCCAGTGGAAACACTCATTTGTCTTCAGTGGC
R
TAACCCCAGCTCAGCTGAGGCAGTCGAGCTTGGAGTTAACTGTCTGGGATCAGGCCCTCTTTGGAATGAACGACCGCTTGCTTGGAGGAACCAGACTTGG
Celera SNP ID:            hCV15965315
SNP Position Genomic:     119378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22320):
CGGGGCTCTCACTTTCCCCCAAACTTCTGGCTACAACTAGACTCAAACTTCGGCATCTTCCCTCTCCTTGCGTTCCTCTTTACTCTTTGCTAGGATCTTA
S
TAATCCCTCCATCCTGTCCTCCACCTGACCACAGAGCGGCACGGTGTGGGCAGCGCCACAGCCTGTGGGCAGGGCCAGCAGAGCCCACTGCACCACTCCC
Celera SNP ID:            hCV15965316
SNP Position Genomic:     117821
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,32)   caucasian(C,1|G,27)   total(C,3|G,59)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22321):
CATGTTAGTTGCATGTTATCTTCCTAGTACATGGCCTTCTTTATAATTTTGTTTTTAACACAAAGAAGTTTTTTGTTTGCTTGTAGGCAAATCTCCTTTT
Y
CCGTATAATTTCTTTTGCTTTTATGCTTCGAGACTTCTTCCTTATCCTGTGATAGGTTAAATATCCACATTAATTTTCTTCTAATTTTTACTTAACTTTT
Celera SNP ID:            hCV9501103
SNP Position Genomic:     45515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22322):
CAGCCCTTCAAAGGCATGGGAATTTACCACCCATGACTCCCTCTGGACTTGCCCTGATTTTTTATGTTCTGCTTCCCACAAGTGCTCCAGGGGAAAACTT
Y
TGCCTAGAGGCTGAGACTGCCTTAAGGTGTTTTGTGTTGATGTAGGGGATTAGATAATTGAGTTTCTGACTTTATGGATGCAAACTTTTCCCTGTCTTTG
Celera SNP ID:            hCV16255811
SNP Position Genomic:     36238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22323):
TTTATGGATGCAAACTTTTCCCTGTCTTTGTAGAGACATATCACAGTTGTACACTTTATATATTTTTGGCTCTGAATGGTAATGACTGATTACCAAAATT
Y
TGTTATAGGCCAGATGCTGTGGCCCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATTGCTTGAGCTCAGCAGTTTGAGACCAGACTGG
Celera SNP ID:            hCV16255812
SNP Position Genomic:     36409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22324):
AGGCCTGCGTGCTGGAGAAACTGTCCCTGGCCTCTTTCCCATTGACCTGGCTGGTGCTTCCATTTGAATGGTGTCTCTGTCTTCCTACTAGCTAGTGAGC
Y
CTTGGAGGATGGACGTTTCATCTTCTCCTCTTTCTTCTCTCTTCCTCCCCTTCTACTCTTCCAGCCCCCAGAATTTAGCATAGTGCTGTGAATATAGTGT
Celera SNP ID:            hCV7767417
SNP Position Genomic:     80119
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22325):
TCAGCAACTTCTCGTGTAGTTGTGGGAGCAGCTTCGATGATTGCTCTCAATTGGTTGTTGTCATCTTCCGATGGCCGCCACTACGCTCCTCATCTTCAAG
R
TTCTCATTGCCTTTGCAAAATTTCTTGAGCCCCTACTGCACTGTATGTTTTGCTGGACCAAATGCATTGTGGATGTTGCGGATTGTCTTTGCTGCTTTAT
Celera SNP ID:            hCV7767345
SNP Position Genomic:     97940
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22326):
AGGACTACAGGCACGTGCTAATTTTTATATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGTCTCAATCTCCTGACCTCGTGATCTGCCTGCCTC
R
GCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCAAGCCCAGCCTAACAGCTACTTTTTAAGGCTTTTAGTTCATGCTGCCAAGTTGCCCTCCACTG
Celera SNP ID:            hCV7767418
SNP Position Genomic:     79283
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22327):
ACCATAGACTGCATGGATCAGAAGCTGCCCACCCAGCACTAACGTTGCTCACTATTAGGCTATTAAGTCCTTTCTATCAACCCAAAAATTCCAGCAGGAA
R
CCTGGTAAAGAAAACGCTGGCATGTGGGTTCTCTGCTGCCCCCAAACTCTTTATCCACCCCTTTCCCTGAGTTCTCACTCTGTCCCCGCTGTGTTTGGCC
Celera SNP ID:            hCV7767273
SNP Position Genomic:     107790
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22328):
GTCAGTGTTGAGTTATTCAGCAACTTCTCGTGTAGTTGTGGGAGCAGCTTCGATGATTGCTCTCAATTGGTTGTTGTCATCTTCCGATGGCCGCCACTAC
R
CTCCTCATCTTCAAGATTCTCATTGCCTTTGCAAAATTTCTTGAGCCCCTACTGCACTGTATGTTTTGCTGGACCAAATGCATTGTGGATGTTGCGGATT
Celera SNP ID:            hCV7767346
SNP Position Genomic:     97924
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22329):
TTTAACAGCTACTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGTCATGATCTCGACTCACTGCAA
Y
CTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGTGTAGCTAGGACTACAGGCACGTGCTAATTTTTATATTTTTAGTAGAGACAGGGTT
Celera SNP ID:            hCV7767419
SNP Position Genomic:     79131
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22330):
ACTTCGGGCGTCGAGTAGCTGGGACTACAGGTGCACACCACCACACCCAGTTGACTTTTAAATTTTTCGTGGAGATGAGTTCTCCCTGTGTATTGCCCAC
R
CTGGTCTCAAATTCCTGGCTTATGGAATCCTCCCTGAGCCAGGTGCCTGGCCAGTTTTTGGGTTGTTTTGTTTTTCTTTTTTGAGATGGAATTTCGCTTT
Celera SNP ID:            hCV7767274
SNP Position Genomic:     106699
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22331):
TTATTAATAAAAGTAGGATCCATTACAATCAACACATTTTTGCCAAAGAGAAATGAGTTTGTTTATTCCTGTACCATAAAAATCTGTGCTTTGGGATTCA
R
TGAACTCTTGGAAAGCATTTTCTGCATCCTTCTGGTTGTGTTTTCCCTGCACAAAGTTCTCACAATGCTTGAAGAAGTAGTAGTCTGTTGGCAAGAGGTC
Celera SNP ID:            hCV7767347
SNP Position Genomic:     96882
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22332):
TCAGGTGGCCCCTGCCCAGCTGGTGACCCGGCAGCTGCAGGTCTCGGTGTGGCATCTGGGCACGCTGGCCCGGAGAGTGTTTCTTGGAGAAGTGATCATT
Y
CTCTGGCCACGTGGGACTTTGAAGACAGCACAACACAGTCCTTCCGCTGGCATCCGCTCCGGGCCAAGGTGATGTCTGGTTTTGGACTGAGTGCCCTCCA
Celera SNP ID:            hCV8305420
SNP Position Genomic:     113282
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,10)   caucasian(C,20|T,12)   total(C,38|T,22)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:22333):
GCCTCCAGCTCCCTGGACATTGTCTGTGTCATTGTCTGCAGAGCCTGGTGCTGCAGGCAGACTGAGGTGGGGTGAAAGTTTTCTAGCATTTCCTTTCTAC
R
TCCCCGTGCCCAGCTCCAGCAGCTCTTCTTTCTGAGCCATGCAGCGAGCCCGGGAGAGGTTCTCTGGAGCCCGTAGTGGGGGAAACGGGTGACCAGAAGC
Celera SNP ID:            hCV27403668
SNP Position Genomic:     116822
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22334):
AGGGAAGTCACTGGTTATGTTCTGTTTCCTAAGCTGGGGGGCAGGGGTACATGGGTGTGCACTTTATTATAATGCTTCCAACCGTATAGGTATATTTTAT
R
TATTCTGTTTTACATATTTGAGATTGCATGAATGTGTAATGCTCAGTAACTTAAGAGTAAATGAACTGTGAAGAATTAGAGATGGAGTTTTGAGGGATTT
Celera SNP ID:            hCV7767275
SNP Position Genomic:     106383
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22335):
GGGTCTTATCTAGTATATTGTGAATATTTTATAGTCCTGGGAAACTTTCCAGTTACAATTAAAATAATCGGCATCTCTAATTGATCCTAAATGCAAAATA
W
CCCAACACCGGCCAGCCTCATCCTTAATAGAAATATGCATAAGATGCGAAGGATGGGAAGCCGGGGAGGCCGATCCAGCATTAAAAGTCTCACTAGAAGC
Celera SNP ID:            hCV8305421
SNP Position Genomic:     109901
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,5)      total(A,5|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22336):
GCGTGATCTTGGCTCACTGCAACCTCTGTCCCCTGGGTTCAAGTGATTCTCTGCCTCAGCCTCCCTAGTAGCTGGGATTATAGGCGCCCGTCACCACACC
Y
GGCTAATTTTTTTGTATTTTTGGTAGACATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCCACCTTGGCCTCCCAA
Celera SNP ID:            hCV27403669
SNP Position Genomic:     115661
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22337):
AGAGTCGGAAATGGACCCGTGGGCTGGGTGTGGAGGCTCACGCTTGTAATCCCAGAACTTTGAGAGGCTGAGACGGGTGGAGGGCTTGAGCCCAGGAGTT
Y
GAGACCAGCCTGGGCAATGTAGAGAGACCCCATCTCTACAAGAAATTAAAAGATTAGCCGGGCATGGCGACGCCTACCTGTAGTCCCAACTACTTGGGAA
Celera SNP ID:            hCV27460280
SNP Position Genomic:     111109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22338):
AGATCTAGACAACAAATAGGGAAAATCATTTAACCTCCCAAGTAGGCAAATCAGTGCAAAATTAAAGCAAGCTGTTATTTTGGGACCACTTTAGTAAATT
Y
TAAAAATAATAGAGCTCCGTGTTGGTAAGGTGTAGGGTAGCAGGCGTTCTTACAAACTGCAGGGTGAGCAGAAACTGTTACAACTTTTCTAGAGGGCAAT
Celera SNP ID:            hCV8305422
SNP Position Genomic:     91757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22339):
ATTATCCTAATGGGTACCGTGCAAAGAAAATGCTTCCACCAGGGCAGTGACTTAACTGGTTTTGAAATTGCCTAGCCTGCCTTAATTGGAAATGCCTAAG
Y
CTAGTTTTTACTCTACAGCTGAGCCATAATACAGCCAAGTATTTTGACAATTTAAATCAGATTTAGATCTGCTAAAGAAACAAAAATTATAGGCCTCCAA
Celera SNP ID:            hCV27460281
SNP Position Genomic:     119624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:22340):
AAAAACCCAGCTTATTAAAATTCCACTTATTACAGAAGTATAAAGCCAGATCTAGACAACAAATAGGGAAAATCATTTAACCTCCCAAGTAGGCAAATCA
S
TGCAAAATTAAAGCAAGCTGTTATTTTGGGACCACTTTAGTAAATTTTAAAAATAATAGAGCTCCGTGTTGGTAAGGTGTAGGGTAGCAGGCGTTCTTAC
Celera SNP ID:            hCV8305423
SNP Position Genomic:     91710
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22341):
TGGGCGAGGTGTGGGGGAATTCACAAGAGCAAAACAGCAAGCATCCCTTCTCAGATATGGAAAGCAGACTGAAACCGCATCACACACACACACACACGCA
Y
GCACCCAGCACCCCCCATACCCCCCCACCACCCCCACCCCCTGCCCAGAGGCAGAGATAGAAAACCCCAGCTTTCTGGCTGCTGGGAGTGGTGCTTGGCC
Celera SNP ID:            hCV8305424
SNP Position Genomic:     71574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22342):
TGGCAAAGACGGGTATCCCTGCTAAAGTCACTCGCCAGCCAGACCGGGCAGGGTGGTGGGGGCCCTTGGTCCAAAACACCTGCCTCTCGAGGGATGCCTG
Y
CTGTGAGCATCTCACAGCTCCTTGCGCGAATACTGACATGTTAACAAGAGGTCAAAATTCAGGGCTCTTTAAGGAAGCTTCTAGGAAGAAACAACTGAGG
Celera SNP ID:            hCV8305425
SNP Position Genomic:     59388
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(T,84)   African-American(C,5|T,79)   Asians(T,82)   total(C,5|T,245) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22343):
ACTGGAGTGCAGTGGTACAATCTTGGCTCACTGTAAATTCCACCTCCTGGGCTCAAGCAGTCCTCCCACTTCAGCCTCCTGAGGAGCTGGGACTACTGGC
R
TGCACCACCATGTCTGGCTGATTTTTGTATTTTTGGTAGGGATGTTGCTCAGGCTGGTCTGGAACTCCTGCGTTCAAGCAATCCTCTCGCCTCGGCCTCC
Celera SNP ID:            hCV8305426
SNP Position Genomic:     33995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22344):
CAGCATGAAGAACTGAGGGGCAAGTTGAGAAGAATGGGCTCGTGCAGTTGGTGACTTGATGGCTAATTTGCACCTTGCCACTTGGCACTTGGTCACACAC
R
GTTTTCTATTACTTTCCTCTTTTCCAGAGACTCAGAGCCTTGGGGCACTGAGGGATGCCAGTTCTGCCTGTTCATCTGGAACCTGGATCTAAGGAGGGAA
Celera SNP ID:            hCV16194715
SNP Position Genomic:     17197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIC-allele(A,565|G,932)   total(G,932|A,565) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22345):
TGCAAGACAGTTATTTGTCGCTGTGACAATCATATATACTCCACACATTCCTAAAGATGGGGGTATGGTACTGCACTCATTGAAAAGCTGGAGCGAGTCC
Y
GCTGAAATGAAGCAACTGTGGTTCAATCGAATGCCCAACGCCATCAAGCCAGTGGGGACACCAGTGGAACACTGGAAACCAAAGAGAAATGACCTTCATA
Celera SNP ID:            hCV7767921
SNP Position Genomic:     14377
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22346):
ACCTACTCTATGTACATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATTAATTCAACATGGATTAAAGACTTAAATGTTAGAC
Y
TACTCAATTTCAGTGCACACTGCTACAAGGCTACACCTATTTTGGATCCCACCTTATCTCTTTAATTCTAAGGATGCCCCCCTGCGGAGGGGAGGATATT
Celera SNP ID:            hCV8305428
SNP Position Genomic:     31049
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22347):
AGACGGCCCCACCCAGCTAGCCATGCTGGTGTGCAACTATCCACTCCCTTGGTGAAGACCCAGCCCACCAAACCAGAGTCCTCGCCTCACTTTCAAACTA
Y
AGAACTCCAGGCTGTTAGAGCCTCGCAGAGCAGAGGATGCCTGCGTGAATCCCAGTCTCAACACCAGCTTTGTTGGGGTGGGAGTGGTGGTGGCGGCGTC
Celera SNP ID:            hCV25933091
SNP Position Genomic:     120235
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,1)   caucasian(C,35|T,1)   total(C,50|T,2)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:22348):
AAAAAGTGCTGGTTGTCATATGGTTTAGGGATAAAAATACTGTGGTATTTTTACTTTATTCTTTAATCACAGATAGGCCCAAGAGATCCTCGAGTTTATG
Y
CCAAATCTCTATATGCCAAATTAGCTCCTGTTTAAACTGCACAAGTAATCAGTTGGAATTAAATGAGATTAGATGGTTCTATTAGATGATTCGCGCTGGG
Celera SNP ID:            hCV7767859
SNP Position Genomic:     35582
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22349):
CCTGGCGCTGTGACTTTGAAATAGTTACTTTCTTGTGGGTGGGGTGGGCGGAGGGTTTGTTTTAACTGGCTCAGCTCTGTTCAGGTACCCGAACAGCCCC
C
GCCTCAGCATCATACACAGACCAGACTGGATCAGGTCCTGTGGCTTCCCCTGGCGGAGGCCTCCCTTTGCTGGTGGCTGACCTGCTGGAAGCTGGCCATG
Celera SNP ID:            hCV27403670
SNP Position Genomic:     113576
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|-,7)   total(C,4|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22350):
TAGACAGGGTCTCGGGGCTCTCACTTTCCCCCAAACTTCTGGCTACAACTAGACTCAAACTTCGGCATCTTCCCTCTCCTTGCGTTCCTCTTTACTCTTT
K
CTAGGATCTTAGTAATCCCTCCATCCTGTCCTCCACCTGACCACAGAGCGGCACGGTGTGGGCAGCGCCACAGCCTGTGGGCAGGGCCAGCAGAGCCCAC
Celera SNP ID:            hCV15965326
SNP Position Genomic:     117809
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,2)   caucasian(G,24|T,8)   total(G,52|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22351):
GGAGCTCTTTAAACAAGGCTGGCTGCAGCTGGCCTCCGCCGCTCATCTGCAGGGCGTGAGCGCTTGGTCCATGCAGTGAAGCTCTTCCAACCTGGGTCAA
Y
GAAAACGGAGAAGAAATGGCCCAAGAAATAGATCTGAGTGCTCTCAAGGAGTTAGAACGCGAGGCCATTCTCCAGGTCCTGTACCGAGACCAGGCGGTTC
Celera SNP ID:            hCV15965327
SNP Position Genomic:     19209
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,34)   total(C,69|T,1)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,124|C,1363)   total(C,1363|T,124) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:22352):
AAGGTCTGGATATTTACCAAGCCCCTTCCCTGTGATAAGCCTGAAGGCCAGTTTTTTCCTCTCTAGTAAGATGAAACTGCTGGAAGCATTTTTTTTTTTT
T
GCTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACTCAAGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTACAACCTCCGCCTCCTGGATTCAAGCTA
Celera SNP ID:            hCV27403672
SNP Position Genomic:     98548
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22353):
GAAGGTCTGGATATTTACCAAGCCCCTTCCCTGTGATAAGCCTGAAGGCCAGTTTTTTCCTCTCTAGTAAGATGAAACTGCTGGAAGCATTTTTTTTTTT
T
TGCTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACTCAAGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTACAACCTCCGCCTCCTGGATTCAAGCT
Celera SNP ID:            hCV27403673
SNP Position Genomic:     98547
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22354):
ACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATTTTGGCCATGCTGGTCTTGAACTTCTAACCTCAGGTGATCTGCCAGCCTC
R
GCTTCCCAAAGTGCCGGGATTACAAGTGTGAGCCACCATGCCTGGCCAGTTATTCTTTTTAACAGCTACTCTTTTTTTTTTTTTTTTTTTTTTTGAGACA
Celera SNP ID:            hCV7767429
SNP Position Genomic:     78973
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22355):
GTATGCGTGGCAATTTTTTACTGAATGCTGGACATTGAGTATGAAAAACTGGGATAATTTGAGATTCAAAAATATTAGGTTGCTAGAAAAGTCCTTGTGG
K
TGGACCGTGAATTTTATATAATTATAACTTGGCTCAAACACATCTTTATTAATAAAAGTAGGATCCATTACAATCAACACATTTTTGCCAAAGAGAAATG
Celera SNP ID:            hCV7767357
SNP Position Genomic:     96736
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,8)      total(G,3|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22356):
CTGGCATTTCATCAACCAAAAAAACTCTTTCTTTTAAAAACTCAAGCAAAACAGCTAAGCCAAAACATGTTTTAAAAGTTTAAAAAGAAAAAAAAAAAAA
A
CACTGTAAAATCAAAAGGAGGGAATTGTAGAAAGTAAAAAGTTTCCTTTTCAGTTTCCTTTCTGGTAATAATAATAATGTTAAAAATAATAATTTCTTTT
Celera SNP ID:            hCV27403677
SNP Position Genomic:     88936
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|A,8)   total(A,8|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22357):
ATAGGGAAGTCACTGGTTATGTTCTGTTTCCTAAGCTGGGGGGCAGGGGTACATGGGTGTGCACTTTATTATAATGCTTCCAACCGTATAGGTATATTTT
M
TATATTCTGTTTTACATATTTGAGATTGCATGAATGTGTAATGCTCAGTAACTTAAGAGTAAATGAACTGTGAAGAATTAGAGATGGAGTTTTGAGGGAT
Celera SNP ID:            hCV7767285
SNP Position Genomic:     106381
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22358):
AGCTGCACACCCAAGGAGCAAAGTGCATGGCAGGGCAGCCCTAACCCCAGGACACTCACGCCTGCATGCTGGAGATTAGGTCTGCCCTGTTGTGTTCCCA
R
GTCCACTGTGCCCAGCACTGCCCAGCAATCCTGATGTCTTTGCCTGATTAACACAGTTTTTTTGCTCTCCACAACAAACATTTCACACCTCCTCCAGTCT
Celera SNP ID:            hCV7767358
SNP Position Genomic:     94159
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22359):
AATCTCAGCTCACTGCAAGTTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGACTACAGGCGCCCGCCACCATGCCTGG
S
TAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGATCTTGATCTCCTGACCTCATGATCCACCCACCTTGGCCTTCCAAAGT
Celera SNP ID:            hCV27403678
SNP Position Genomic:     87725
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22360):
CAGCTCAGTCATTCTCACAAAGATCTTGTTATGGAAGGTGCTGTTATCCCATTTCACAAATGAGGAACCTGAGGTTCACAGAGTTTAAAGCGACTTGCTG
M
GGTCCTGAGATGACTGTAGAACTCTGATTCAAACCAGGGGCCTGGGGAGTCCATACCGGGGAGTCCAGGCTTTTCACACTATCCCACAGGCGTTTTGTAC
Celera SNP ID:            hCV7767359
SNP Position Genomic:     90934
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22361):
TGTTTAAGGAGACACATCAAAATGGTGAAACCATAAAGAAAACCAAGGGGGTGATAAATATAAAATCCAACGTGGTTATTACCTGGTTACGGGCAGGACT
R
TGATAGGGAAGTCACTGGTTATGTTCTGTTTCCTAAGCTGGGGGGCAGGGGTACATGGGTGTGCACTTTATTATAATGCTTCCAACCGTATAGGTATATT
Celera SNP ID:            hCV7767286
SNP Position Genomic:     106278
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22362):
TTTTCAGTGTCTGTTCAGAGTGCCATACTGTTTGCATAATGACAGATCTCTTCTGTTAACATCGTGTTCCTAGGTTGAACTTTCTTTTTTTTTTTTTTTT
T
GAGACAGAGTATTGCTCTGTCACCCAGGCTAGAGTGCAGTGGCGCGATCTTGGCTCACTACAAGCTCCGCCTCCCAGGTTCACGTCATTCTCCTGCCTCA
Celera SNP ID:            hCV27403679
SNP Position Genomic:     82822
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22363):
TATTAACTTGATGTGAGTCAGGATACATGCTGTATGAGTTTTTATTTATGTGCTGTCTTGAAACCAGAACATCAAAAAAGTGAATTAACTGAAGTAACTT
R
TTATATCTGTTATTCTTGATTTCAGGGAAGTTTAATTAGCATTGACAGCACCTGTACAGAGATGGGCAATTTTGACAATGCTAATGTCACTGGAGAAATA
Celera SNP ID:            hCV25937455
SNP Position Genomic:     101422
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,10)   caucasian(A,35|G,1)   total(A,61|G,11)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22364):
ATCAAGAAAGGGGAAGTGCTAGGGTAGCAATGACCAAAACCAACCAACCAACTCGCAGGTTGCTGCAGAACAAGAGGCCTGTGGCAGGTGTTGGCCCTGA
Y
CTTGTGTTGAGAGGTTCCAGAAGACATTTAAGATAAAGTTTCTGTCTTCAGGGAAGGTTTTCTCTTAGAGAACTGAGTGCCAAGTTGCTAAGGGCCCTGG
Celera SNP ID:            hCV8305432
SNP Position Genomic:     23776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22365):
GTCCTTCAGGCTTTTCCTTGCTTGAGAGCAAAAAATAATTACTGTGAGCTGCCCTGGCGGCATAGAGAGCAATTCCAAATCATCTCTAGAAAGGTCTCAG
K
ATCTTCTTCCCCATTTCAACCAACCATATATATTTGAAGTCTAATAATAAACATTGCTGGGCAGGGTGTTACATTTCTCAGCATTTTTTCTTCTTCTACC
Celera SNP ID:            hCV8305433
SNP Position Genomic:     23019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22366):
GACATTCATAAAAGAGCGTGCTAGTAAATGACACCTTTTTGGTCCAATACAGTATCTCTTTGCACTATGGCTATTTGTCTAGGGGAGTGGGCTGACCACT
Y
ATTAAAAAAAAAATGTAGCAAAAGCATAGCATCAGTTGATTTTATTGGGCAACTTATACCCATAGCAGGATGTATGCTGTGTGTTTCTAGATTATTCCAT
Celera SNP ID:            hCV8305434
SNP Position Genomic:     20858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22367):
CTTTGCCAACAGGGAACTCTTCCCTGTCTGTCTCTAAGCTGCACGGGCCGTTTGATATGGGTCAGCATTTAGAAAAGCGTGCTGAACTCTAGCAGAGCAG
Y
GTTCCGCCTTAGCTGTCAAGATCCATCTTTAAACAGGTTGGCGCTTGTTTATCAATGTCTATGGAGGAAGTGAGGGTTTGGTTTCTAATGGCAGAACACA
Celera SNP ID:            hCV8305435
SNP Position Genomic:     19980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22368):
TGAGGAAGGGGGAGCATAAAATATGAACCTGCTTAGCCTGTTTCCTGACCGCTTTGCCAACAGGGAACTCTTCCCTGTCTGTCTCTAAGCTGCACGGGCC
R
TTTGATATGGGTCAGCATTTAGAAAAGCGTGCTGAACTCTAGCAGAGCAGTGTTCCGCCTTAGCTGTCAAGATCCATCTTTAAACAGGTTGGCGCTTGTT
Celera SNP ID:            hCV8305436
SNP Position Genomic:     19929
SNP Source:               dbSNP
Population(Allele,Count): SG_12_G(A,3|G,18)   SG_12_AA(A,1|G,20)   total(G,38|A,4)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22369):
TGCACCTGGCCTCCCATTTTTCTATTGGATTGTTTATTGTTTTATTTATTTACCAGAGGCTTTTTGTTAAACCTAATTTAAATAGGTTTAAAAATTATTT
R
TTAGTTATATGTATTGTACGTATTTTATCCATCCTAGCTGTAACTTGTTTTCTAACTTGTTTATTATGACTTTTCTTGTAGAAAGTTTAATATCAAATGT
Celera SNP ID:            hCV27463341
SNP Position Genomic:     103844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22370):
ACCACGACTGTCAGCCGGCATTAGCTGAGTGTACTTATGAGCTGAGCACTGTGCTCTAGAGGTCTCCACATGCATCAGCACGTTTCGTCATCATAGCACC
K
CCGTGAAGTGGGTGCTGCACCTGTCTACTTCGTAGATGAGGACATGAAGCCCCAGAGGGCTTAAGTAACTTGCCCATCATCAGCTCAACAGCAAGTCGGT
Celera SNP ID:            hCV8305438
SNP Position Genomic:     11687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22371):
CATCTTGATTCTCTGACTCCTTTGATAGTTACCTAGGATTCAATCACAATGATCAGTCTTTTTTTTCCTGTAAGGATGTGGAAATCAGATCAATTGAGCT
R
GTGGAAAAAAACGAGTATTTTGCTTTGTAACTATGAACCATTTTAGATGCGAGACTAGTTGAAGTAGGGCCGGTCACAGTGGCTCACGCTTATAATCCCA
Celera SNP ID:            hCV7767860
SNP Position Genomic:     31424
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22372):
CCTTTGATCTGATGACTGACTGCTCAGAGACAATAGATGATTGGATGAAAGAAATAGGGGCCCCTAAGAATAAACAATGTGTCCCTTTCCCATCCTCCTC
R
TCTCTTTTCTTCATTGGTTTTACTTTTCTTGTACTTTTCCCCTTTCACCAGATTTAGAAGCCAAAGTCAAGATTTGCTGTTAGGCTGAGGAAAGCAAGCA
Celera SNP ID:            hCV8305439
SNP Position Genomic:     9923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)   SC_12_A(A,5|G,18)   SC_12_C(A,11|G,12)   SC_12_AA(A,1|G,20)   SC_95_C(A,78|G,99)   total(G,149|A,95) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22373):
TATGATCCAAACCCAAAAATATATAATGCTGATAAGAGAGAAGAATCACATACATTCTTTTTCTTTTCTTTCTTTCTTTTTTTTTTTTTTTTGAGACAGA
R
TCTCGCTCTATTGCCCAGGCTGGAGACCAGTGGCGTGATCTCGACTCATTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCAA
Celera SNP ID:            hCV7767502
SNP Position Genomic:     68739
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22374):
GCTATCTCTGGGGAGGGGAACTGAGGACAGAGGTGGAGGAAAAAGATTTTCTCTCTTTTCTGTTTTTTTTTTTTTTTTTTTTTTTTTTAAGATGGAGTCT
Y
GCTCTGTCACCCAGACAGCGAGCGAGCAGTCTGGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCCATTCTCCTGTCTCAGCCTCCTGAGTAGCTAGG
Celera SNP ID:            hCV7767430
SNP Position Genomic:     78756
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22375):
GTTCAAGTAAGTCTGAGACATTGAGCCCAAACGTTTATACTTTGTGATTATCCTAATGGGTACCGTGCAAAGAAAATGCTTCCACCAGGGCAGTGACTTA
W
CTGGTTTTGAAATTGCCTAGCCTGCCTTAATTGGAAATGCCTAAGTCTAGTTTTTACTCTACAGCTGAGCCATAATACAGCCAAGTATTTTGACAATTTA
Celera SNP ID:            hCV29110060
SNP Position Genomic:     119578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:22376):
AAGACAGGGACACTGGGGCAAAGAGATGACCAAGAGCTAGGTGAAGCCTGCTCCAGAGACCAACCACACCCTGTCCACGCCCCAGAGGTGAGACGCATTT
S
CCATTTGCACCGTGATGTGCTGTGTGGTGGCTCATCCCACGCACCACAGGCTGGGCTTGTGGCGTTCTGCATGAGGATGGCCCGTGGGTCCTCGGCACGC
Celera SNP ID:            hCV7767431
SNP Position Genomic:     76825
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22377):
CCTGGCTGTAAGCACCTTGACCCACCCTAACCACATCAGGTCCCTGGCTGCATCCGCATCTTGGACTCAGCCTGTGGGAGGGAGGCCTGCGCCAGGCCCC
R
GGAAGTGGGGCCCTGGAAGGTGGGGTCCAGAGATGGGGATCCTAGGAGTGCGGGCCCCGGGAGCCCAGCTGACCATCTCTTCCTTGCCTCTGCAGTATCA
Celera SNP ID:            hCV29110061
SNP Position Genomic:     113084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22378):
AGGCAGGAGAATTGCTTGAACCCGAGAGATGGAGGCTGCAGTGAGCCAAGATTGTGCCACTGCACTGCAGCCTCCAGTGTGGGTGACAGAGCAAGACTCC
R
TCTCAAAAAAAGAAAGAAAAAATAAAAAAAGCATCAACTGTTAGCAAAGTATTTTTAGAAAATTTAGAGACATATTTTGATTTTTCCCTTTTTATAAGCA
Celera SNP ID:            hCV27403680
SNP Position Genomic:     80972
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22379):
TAGGCGTGAGCTGGACAAGGACTTTCATCCTTGTCTTGTTCTAGGAATTGGGGGTGGGAGGCTACCAGGGCTACCCTTGCCTGTCCCCAGGCAGAGCACT
S
GGCACCTGGGGAGTAGGGGGAGGGGTTCTTGAGCAGAGAGAGGACCCCCCCGCCCCACCCTGGCTGTAAGCACCTTGACCCACCCTAACCACATCAGGTC
Celera SNP ID:            hCV29110062
SNP Position Genomic:     112925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22380):
TTACACCTCATTCCCAGCTGAGCCTGGAGCAAGCCTTGTGGACCTAACAGGGCTATGGAAAATAGGTCTGGTTTGAAAAGGTAGATTCTAGGCTGGGTGT
R
GTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGATCGAGACCATCTTGGCTAACACGGTGAAACCCCGT
Celera SNP ID:            hCV29110063
SNP Position Genomic:     110418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22381):
TTCCCATTTGCACCGTGATGTGCTGTGTGGTGGCTCATCCCACGCACCACAGGCTGGGCTTGTGGCGTTCTGCATGAGGATGGCCCGTGGGTCCTCGGCA
Y
GCCCCCTCCCCTGCTGCATGTGCACATGGCCCAGAGCCTGGCCAGGGTTGTCTGAAGGGCTAAGGGAGCTCAGGGATAGAAGTGGTGGGGTGCAGGGGAG
Celera SNP ID:            hCV29110065
SNP Position Genomic:     76923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22382):
CTTTGGAAGTAGAGGATGCTGGTGCCCACCTTGCAAGTGGCTACACTGAGGCACAGAAGTAGTAGATAACTTTCTTTTTTTGTTTGTTTGTTTGTTTGTT
T
GTTTTTTTGAGACAGGGTCTTACTTTGTCACCCAGGCTGGAGTGTAGTGGTGCAAACACAGCTCATTGTAGCTTCTACCTCCTGGGCTCAGGTGATCCTC
Celera SNP ID:            hCV27403684
SNP Position Genomic:     78125
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22383):
GGGTTTCCCCGCAGCCAGGTGGCAGGTCCAGGCCGGAGCACCCAGGCTGTTTCAGAACACATGACTGAGTGGGGCGGAGTACCCAGACTTTAGGCAGCAT
Y
GCCCTCATATAGATACCAGGAAATCATGCCCCTCGTAGAGCAGCAGGTCCAAGCAGGGCTGCTGGCTATTTTTCCAAAAAGTGAGGCAGTTTAAAAAAAA
Celera SNP ID:            hCV29110066
SNP Position Genomic:     64069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22384):
GCTTTGGAAGTAGAGGATGCTGGTGCCCACCTTGCAAGTGGCTACACTGAGGCACAGAAGTAGTAGATAACTTTCTTTTTTTGTTTGTTTGTTTGTTTGT
T
TGTTTTTTTGAGACAGGGTCTTACTTTGTCACCCAGGCTGGAGTGTAGTGGTGCAAACACAGCTCATTGTAGCTTCTACCTCCTGGGCTCAGGTGATCCT
Celera SNP ID:            hCV27403685
SNP Position Genomic:     78124
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22385):
TGCTTTGGAAGTAGAGGATGCTGGTGCCCACCTTGCAAGTGGCTACACTGAGGCACAGAAGTAGTAGATAACTTTCTTTTTTTGTTTGTTTGTTTGTTTG
T
TTGTTTTTTTGAGACAGGGTCTTACTTTGTCACCCAGGCTGGAGTGTAGTGGTGCAAACACAGCTCATTGTAGCTTCTACCTCCTGGGCTCAGGTGATCC
Celera SNP ID:            hCV27403686
SNP Position Genomic:     78123
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22386):
GGCAGGGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACCCAGGGCAGGGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACCC
R
GGGCAGGGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACCCGGGGCAGGGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACC
Celera SNP ID:            hCV29110068
SNP Position Genomic:     60915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22387):
CTGCTTTGGAAGTAGAGGATGCTGGTGCCCACCTTGCAAGTGGCTACACTGAGGCACAGAAGTAGTAGATAACTTTCTTTTTTTGTTTGTTTGTTTGTTT
G
TTTGTTTTTTTGAGACAGGGTCTTACTTTGTCACCCAGGCTGGAGTGTAGTGGTGCAAACACAGCTCATTGTAGCTTCTACCTCCTGGGCTCAGGTGATC
Celera SNP ID:            hCV27403687
SNP Position Genomic:     78122
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,4)   total(G,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22388):
GGATGTGGCTTTTTGGTGACTGTGCCTCAGGATACTGTTGCCACAACCAGGGACAGAGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACCC
R
GGGCAGGGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACCCAGGGCAGGGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACC
Celera SNP ID:            hCV29110069
SNP Position Genomic:     60813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22389):
CCTAGGAGGCAGAGATTGCAGTAAGCCGGGATCGTACTGTTATACGCTCCAGCCTGGGTGACAAGAGTGAAACTTTGTCTCAAAAAAAAAAAAAAAAAAA
A
GCCTGAGTTTTAGTGAGAGGTTGACCAACGTGCCTAATGTCACATAGTGAATGAGAGATGGAGCCAGGAGCAGACCTGGGATTTGACTCTGAATTCTAAA
Celera SNP ID:            hCV27403688
SNP Position Genomic:     76380
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22390):
TTTTTCCTATTTCAATGAATAGCATGGAAACCAAGGTGAAGTAATTGAACTGAAGGGATTTCTGAATGAAGGATTCATGTGTTCATATGTTTAGACAAAA
Y
TACTCATTAGACTAGTTTTTAGGGAGTAATTTGCTGCTGTTAAACTACCTCTTCATATGAATAATTTTTTAAAAGAGCAGACACATATATACTTAAATAG
Celera SNP ID:            hCV11558204
SNP Position Genomic:     51346
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22391):
TTGGAAATATTATTACTTTTCTAAGTCCTTTCACAAGCAACTTTCTCTTTTCCTTTATTCTCTATTGTCTATACTTTTTTTATTTTTTATTTTTTGAGAT
R
GAGTCTTGCTCTGTCACCAAGGCTTGAGTGCAGTGGCCCAACCTCAGTTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTTCTGCCTCAGCCTCC
Celera SNP ID:            hCV7767369
SNP Position Genomic:     89318
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22392):
ATTCTCTAGCTGAGCTCTCGGTTTTGGGGTGGTGGTACTGCATACTAACGTATCAGGAGACATGGTTTGACAGTGAATACTGGCTTTCCTTCCAGGGACA
R
ATCAGCCATCACTTCATGGTCAACTTTGTTTGGTAGTGCTAGGAGCCAAGAATTTACCTGTGCGGCCAGATGGCACCTTGAACTCATTTGTTAAGGGGTA
Celera SNP ID:            hCV25937391
SNP Position Genomic:     118055
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,36)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:22393):
CCTTTAAACTCTCTGCTTTTTGTGTCTGTAGAAGAATTCCTGTGGCACCCAAGGGTTTAAATACGTTCTCTGGTTTCTTCTTATCGTTTTTTTTTTTTTT
T
CCCCACACTTAGATCTGTTCACATTACAAGCGGAATTGATTTTCTATATATAGTTTAAGGCAGGGGCCTCAGTTTTGCCTTTCTTTTTTCTTACATGGGG
Celera SNP ID:            hCV7767299
SNP Position Genomic:     104056
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22394):
AGATTTTTCTATGCTTTTTGGATTTCTGAAGACTGAGGTTTTCTGCAGTGAGGACTCACTTGCCCCCTGCCCGTCCTTACTTCCTGCTGTACTTGAATAT
K
GGCTTCCTGCCCTAGGAAGGAAGTTTGACATCGGAGTAAATCTCCGTGTCGCAATATTCTTCAGGTTTCTCAATTCAAGCCAAACATCAAGTGCCTCCTG
Celera SNP ID:            hCV7767944
SNP Position Genomic:     11260
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,10)   total(G,10|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22395):
GTAAGAGCTAAATAAATAGTAGCTGTTGGCACAACAGAAAGCATAACAACAATTGTGAGTAGTACCTAGAAGGATATAATAATATTAATTCTCGGCCGGG
Y
GTGATGGCTCACGCCTGTCATCTCAGCACTTTGGGAGGCCTAGGCGGATGGATCATGAGGTCAAGAGATCGAGATCATCCTGGCCAACATGGTGAAACTC
Celera SNP ID:            hCV7767945
SNP Position Genomic:     7271
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22396):
TCTCAAACTGCTGGAATTTCAGGCGTGAGCCACCTCACCTCACCTAGTTAGTTTTTTTAGAGACAGGGTGTCACTCCGTCACCCAGGCTAGAGTACAGGG
Y
GTGATCATAGCTCACTGCAGCCTCCAACGCCTGGGTTCAAGAGACCTTCCTGCCTCAGCCTCCCAAATAGCTGGGACTCCAAGTACGCACCACCACATCT
Celera SNP ID:            hCV7767873
SNP Position Genomic:     28951
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22397):
CAAAAGCTATATGGTGTGATTTTTTTTTTTAAAGGGTAGAGTGTCATTTGCTTTCTTCTTTGGTTTGCAAATTCTTATACTTACAGTTTATTACTATTTT
R
CTCTCTCTGAATCGACTTTATTGTTTTGATCATCCGTAATTTCTCGTTTGGAGGTGGAACATAAATATCATTTTGGAATTATAAAAAAGTTAGCTAGGGT
Celera SNP ID:            hCV7767946
SNP Position Genomic:     6400
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22398):
CTTTGACAATAGTGTGTGTGTCATTCTTCTTGTTGAAACTGAACTGTATTCTGTAGTCAGCACTTGATTAGTTAGGGAAAGTCCTGCCTTTAAAACCTTT
Y
TGAGAACCGGTGAGCTTTCTGCGCATTGTCTTTTGTTAATATTCTCTGTTGTCACCTTACGTAGTTCAGCTGAAACCTGTCACCCTGTAAGGGAGGGGAG
Celera SNP ID:            hCV7767874
SNP Position Genomic:     27255
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22399):
GGGATGAGAGGGGATGAAGTGGTGCCCTCCCCGACCATGGCTAAATTGTCTTCCTCTCTTACAGAGGGAGACACAGCTGTTGGCGGGGATGCATGCTCAC
W
ATCGAAGCTCCAGTGGCAGAAAGTCCTTTCCAGCCCCAATCTATGGACAGACATGACTCTTGTCCTGCACTGACATGAAGGCCTCAAGGTTCCAGGTTGC
Celera SNP ID:            hCV25938779
SNP Position Genomic:     120505
SNP Source:               Applera
Population(Allele,Count): african american(A,17|T,15)   caucasian(A,28|T,12)   total(A,45|T,27)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:22400):
GTTAGTAACATCAAGTCATAGATGCTTGCTGAAGTCACCACATTTGAACAAAACCAAACTGGGATGGAGACTATAATATTAATTTCTGTTTTTCCTTCTC
Y
AGAAGGTCAGTGCACCAGATATTCTGAAACCTCTCAATCAAGAGGATCCCAAATGCTCTACTAACCCTATTTTGAAGCAACAGAATCTCCCATCCAGTCC
Celera SNP ID:            hCV25933907
SNP Position Genomic:     81455
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,37|T,1)   total(C,70|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:22401):
CATGATAATGAGGTCACTTTAGGCAGCCTACTTCTTGGTCCTGAATTGTCACGACTACTCCACTACTTACTTGCTTCATTGGGTTTTGATTCACTGTTTT
W
GGAATGGAGGAAGAACCATGATTAGGTGGGCTGGTTATCAGGTTCGTCAATATTTTATTTTACTAAATACTCCCTGCTCTTTTGGGAGTTGGCAAACAAC
Celera SNP ID:            hCV29110070
SNP Position Genomic:     50901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22402):
GATCGTACTGTTATACGCTCCAGCCTGGGTGACAAGAGTGAAACTTTGTCTCAAAAAAAAAAAAAAAAAAAAGCCTGAGTTTTAGTGAGAGGTTGACCAA
Y
GTGCCTAATGTCACATAGTGAATGAGAGATGGAGCCAGGAGCAGACCTGGGATTTGACTCTGAATTCTAAACTCTATGTTCCCATAAGAAGGACAAATGA
Celera SNP ID:            hCV7767442
SNP Position Genomic:     76409
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22403):
CCATCTCATCCTGTGACTTAGAATGCCTTAACCATCTGGGAATGCAGCCCAGTAGGTCTCGGCCTCATTTTACCCAGCTCCTATTCAAGATGGAGTTGCT
S
TGGTTCACATACCTCTGACAATGTAACTCTCAGTTCAAAGCTGAAAGCCTCAGGACCCAGGGAGCCTCTGGTCTAAGTCCTGGAGTCCAATGGCCAATCA
Celera SNP ID:            hCV7767515
SNP Position Genomic:     68013
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22404):
GGAAGCTCCCCAGGACAACCTGGCATCATCACCTTCTGTGCCTCCATCCACGGGCATTTGGCAATCCGTGCAGAGGGTTTTTAATGTGGTTCCTGGACCC
R
CGCTCCAGGATCAGCTGCAAACTGATTCAAATTCAACCTTCCTGGCCTCACACACACAGGTTCTAATTTGGTGGGGCCAGATGGGGTTCAAGAGTGAATG
Celera SNP ID:            hCV29110071
SNP Position Genomic:     46921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22405):
TGGCTTCCTTCCTTCAAACTTTCTTCATCTTTACTCTAGACCACTATTACACTGTAAAAATGAAACAAATTTGTTTACAGTCATCTTTCCAGGGTTTGTT
T
ATTATAATTGTTATGAGGACACCCCAAATCTTATTTTTACCTCGCTTCAAAAAGTCACAAGAAATGGTGTTAAGTTGTAACATCTTTGTAAGGAACCCCT
Celera SNP ID:            hCV27403690
SNP Position Genomic:     73564
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22406):
TTCGAATTATCAAAGCACCCAGACCTTCATAGGCTCTCTTGCCTTTAGGAAGCTCCCCAGGACAACCTGGCATCATCACCTTCTGTGCCTCCATCCACGG
R
CATTTGGCAATCCGTGCAGAGGGTTTTTAATGTGGTTCCTGGACCCACGCTCCAGGATCAGCTGCAAACTGATTCAAATTCAACCTTCCTGGCCTCACAC
Celera SNP ID:            hCV29110072
SNP Position Genomic:     46874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22407):
GTGGCTTCCTTCCTTCAAACTTTCTTCATCTTTACTCTAGACCACTATTACACTGTAAAAATGAAACAAATTTGTTTACAGTCATCTTTCCAGGGTTTGT
T
TATTATAATTGTTATGAGGACACCCCAAATCTTATTTTTACCTCGCTTCAAAAAGTCACAAGAAATGGTGTTAAGTTGTAACATCTTTGTAAGGAACCCC
Celera SNP ID:            hCV27403691
SNP Position Genomic:     73563
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22408):
GAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCACTACTGCACTCCAGCCTGGGCGACAGAGCAAGACTGTCTCAAAAAAAAAGTT
Y
TTCCCCAGGAGAGGACTGTGAGTGGTGTATTTTCCACGTCATTGCGTATTTGAGAGTTGCTTTCCGTGGTCTTCCTTCATGAGGAATGATTTCACTGGGT
Celera SNP ID:            hCV29110073
SNP Position Genomic:     28261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22409):
TGTGGCTTCCTTCCTTCAAACTTTCTTCATCTTTACTCTAGACCACTATTACACTGTAAAAATGAAACAAATTTGTTTACAGTCATCTTTCCAGGGTTTG
T
TTATTATAATTGTTATGAGGACACCCCAAATCTTATTTTTACCTCGCTTCAAAAAGTCACAAGAAATGGTGTTAAGTTGTAACATCTTTGTAAGGAACCC
Celera SNP ID:            hCV27403692
SNP Position Genomic:     73562
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22410):
AGTTTCACTCTTGTTGCCCAGGCTGGAGTGCGATGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCCCCTGCCTCAGCCTCC
S
GAGTAGCTGAGATTACAGGCATGTCCCACCAATCCTGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCCAACTC
Celera SNP ID:            hCV29110074
SNP Position Genomic:     15436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22411):
ATGTGGCTTCCTTCCTTCAAACTTTCTTCATCTTTACTCTAGACCACTATTACACTGTAAAAATGAAACAAATTTGTTTACAGTCATCTTTCCAGGGTTT
G
TTTATTATAATTGTTATGAGGACACCCCAAATCTTATTTTTACCTCGCTTCAAAAAGTCACAAGAAATGGTGTTAAGTTGTAACATCTTTGTAAGGAACC
Celera SNP ID:            hCV27403693
SNP Position Genomic:     73561
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,2)   total(G,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22412):
TCAATATAGTGATACAGAAAGTACAGTTTTGCACATCTTCTGCCAAGCCAGAAGGAGCTGTCTGTCTAGGGAGTTGATCGTCTTAGTCTTTTCTTTTTTT
W
CTTCTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCGATGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCCCC
Celera SNP ID:            hCV29110075
SNP Position Genomic:     15322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22413):
TCCGCCTCCTGGGTTCAAGTGAGTCTCCTGCCTCAGTTTCCCTAGTAGCTGAGATTACAGGTGTGTGTTACCACACCCAGCTAATTTTTTGTATTTTTTT
R
TAGAGATAGGGGTTTCACCTTGTTGGTCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCTGCCCGTCTCGGCCTCTCAAACTGCTGGAATTTCAGGCG
Celera SNP ID:            hCV16043529
SNP Position Genomic:     28775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22414):
AACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCACGCCACTGGACTCCAGCCTGAGCAACAGAGCAAGACTCCGTCTCAAAAAAGAAAAAGAAAAAAA
M
AAAAAGATGCAATTTCAGGGAATCTAAAACCAGAACCTTTCAGGCCAGTAGGGCCCAATTATCTATCTATTGTCTGCATGGAATTACTTGCCTTTCTCCT
Celera SNP ID:            hCV27403694
SNP Position Genomic:     70326
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22415):
CCTGAGGTTGGGAGTTTGAGACCAGCCTGACCAACATGAAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCGGAGGATGGTGGTGCATGCCTGTAAT
R
TCAGCTACTCGGGAGGTTGAGGCAGGAGAATTTCATGAACCTGGGAGGCGGAGGTTGTGGTGAGCCAAGATCGCGCCATTGCATTCCCGCCTGGGCAACA
Celera SNP ID:            hCV29110076
SNP Position Genomic:     9341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22416):
CCACGGTGGGCAGATCACCTGAGGTTGGGAGTTTGAGACCAGCCTGACCAACATGAAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCGGAGGATGG
Y
GGTGCATGCCTGTAATGTCAGCTACTCGGGAGGTTGAGGCAGGAGAATTTCATGAACCTGGGAGGCGGAGGTTGTGGTGAGCCAAGATCGCGCCATTGCA
Celera SNP ID:            hCV29110077
SNP Position Genomic:     9324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22417):
TTTTTGAGACAGAGTCTCGCTCTATTGCCCAGGCTGGAGACCAGTGGCGTGATCTCGACTCATTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTG
Y
CTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCCGCCACCTTGCCCAGCTAATTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACGTGTTAGCCAG
Celera SNP ID:            hCV27403696
SNP Position Genomic:     68826
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22418):
CTTTGAGATTATGATCCAAACCCAAAAATATATAATGCTGATAAGAGAGAAGAATCACATACATTCTTTTTCTTTTCTTTCTTTCTTTTTTTTTTTTTTT
T
GAGACAGAGTCTCGCTCTATTGCCCAGGCTGGAGACCAGTGGCGTGATCTCGACTCATTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCA
Celera SNP ID:            hCV27403697
SNP Position Genomic:     68730
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22419):
TCTTTGAGATTATGATCCAAACCCAAAAATATATAATGCTGATAAGAGAGAAGAATCACATACATTCTTTTTCTTTTCTTTCTTTCTTTTTTTTTTTTTT
T
TGAGACAGAGTCTCGCTCTATTGCCCAGGCTGGAGACCAGTGGCGTGATCTCGACTCATTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTC
Celera SNP ID:            hCV27403698
SNP Position Genomic:     68729
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22420):
GTCTTTGAGATTATGATCCAAACCCAAAAATATATAATGCTGATAAGAGAGAAGAATCACATACATTCTTTTTCTTTTCTTTCTTTCTTTTTTTTTTTTT
T
TTGAGACAGAGTCTCGCTCTATTGCCCAGGCTGGAGACCAGTGGCGTGATCTCGACTCATTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCT
Celera SNP ID:            hCV27403699
SNP Position Genomic:     68728
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22421):
GGGGCTGGGCAGCCAGAGGTCCCCTCGTCTCATGCCTATGACAGGAGAGGGCTTTGTTTGCCTTTCTTGGCAAGTAGGGGGTGTCTGTGAGCTGCCAGCC
R
GGGGCCATCTGGGCAGCTGGCACAGAGCCCTGAGTTCATTAAATAATAATAGCCCTTGTTTCCTGGGTCCCTACTGTGGCCAAGTGCTTTATATACAGCC
Celera SNP ID:            hCV11558145
SNP Position Genomic:     108788
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:22422):
GCTCCTTGATGTGGTTTTGGGGTGGCTTTGCTCCCTGGGTCCCTAGTGATGTGGGAGTAGCCACCGAGGCATGTAAGGCTGGCCACACAGGGTGCACTGC
R
TCAGCCTGTGCCCGACAGGAAGGGAAGAGAAATACGTCAGTTACTCTAACAAGAAGAATTGACTTCCTTCTCTGCAGAGCCGGCTCTGGTCTCTTCTCTT
Celera SNP ID:            hCV7767956
SNP Position Genomic:     5916
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:22423):
GTTTTGATAAAATATTGAATTATCATTTTATATTCACAAAGGCAAATAACTAGTGTATGAGAATGGGATAATTCACTCTCACTCTTGAAAATATATCTAC
Y
CTTCAAGTGAGTAAAAGGTCTAACTCTGCTAACTCTGTAAAAGATTGAAAAGAAATTGAATGCCAAGTGTGATACAGGAGAGTTGGCAAGGAAAGATTTT
Celera SNP ID:            hCV7767884
SNP Position Genomic:     26259
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22424):
GGAATGTATTGACACTTTCTGCAGTGAAATGGCAGATGGTAACAATTATGTTGAAATATCAAGGAGGAGACTATGCTTTGTATGTTTGTTTTAGCTTCAT
Y
AAAAAAATAAGATTAACCTTGATGATTTATGTTTGCATTAATTTTTTCTATTAAAACGAATATACTGTGTCATAACTAATTCCACATCTAAAAGAAACCT
Celera SNP ID:            hCV7767885
SNP Position Genomic:     25136
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22425):
GTTTCTGTCTTCAGGGAAGGTTTTCTCTTAGAGAACTGAGTGCCAAGTTGCTAAGGGCCCTGGGAGCTCAGAGAGGGAGAGATGAGGCAGGCTGAGTGGC
W
CAAGACGACTTCCAGAACATCCATGGTTGGAATAGTCTTTTAATGTTTTATTAAAAGCATAAAACAATCGTGTGGGGTAGCTACTACTTTCATCCTCATT
Celera SNP ID:            hCV7767886
SNP Position Genomic:     23914
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22426):
GTAAAGGAATAAAGAACGGCTACTCCATAGACAGAACAGCCCTGAGGGCTGCTGGTTGCCCATTTTTATGGCTATTTCTCAATGATATGCTCAACAAGGG
R
TGGATTATTCATGCCTCCCCTTTTTAGAGCATGTAGGGTAACTTCCTGATGTTGCCATGGCATTTGTAAACTGTCATGGCACTGGTGGGAGTGTAGCAGT
Celera SNP ID:            hCV7767525
SNP Position Genomic:     67694
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22427):
TCTTCAGTAGAGACGGGGTTTCACTATTGGCCAGGCTGCTTTTGACCTCCTGATCTCGTGATCTGCCCACCTCGGGCTCCCAAAGCGCTGGGGTTACAGG
Y
GTGAGCCACCTCGCCCAGCCAGGTCTACGCATTTTGTAAGCACATGCTGTCCATTTGAAAGGCTGGTTCTTGCTCCAGTCGTTGCAATTAAGCCATTTCC
Celera SNP ID:            hCV7767526
SNP Position Genomic:     67014
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22428):
TACCTTAAAGACTTAATAGGATGCAGTAACGTCAGGCACTTCCAAGAGCTAACCCATCAGTCCACCCTTATTCATCTCCAAGTGAACGTATGTTAGTATT
R
TAAAAAACCTTTACTAGACACTCTGCCAAATAATTAAAGCAGTACTTATGCTGTAGTTCAATTGGCTATCCCTTTTACCCTGGCATTTCATCAACCAAAA
Celera SNP ID:            hCV7767381
SNP Position Genomic:     88756
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22429):
ATGGCTCATGCCTGTAATCCCAGCACTCTGGGAGGCTGAAGTGGGTGGATCACCTGAGTTCAGGCGTTCGAGAGCAGCCTAGCCAACATGGTAAAACCCC
R
TCTCTACTAAAAATACACAAATTAGCCAGGCTCATGGCGGGTGCCTGTAATCCCAACTACTCAGGAGGCCGAGGCAGGAGAATCTTTGCTTGAACCTAGG
Celera SNP ID:            hCV7767454
SNP Position Genomic:     76185
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22430):
CATGGCTCATGCCTGTAATCCCAGCACTCTGGGAGGCTGAAGTGGGTGGATCACCTGAGTTCAGGCGTTCGAGAGCAGCCTAGCCAACATGGTAAAACCC
Y
GTCTCTACTAAAAATACACAAATTAGCCAGGCTCATGGCGGGTGCCTGTAATCCCAACTACTCAGGAGGCCGAGGCAGGAGAATCTTTGCTTGAACCTAG
Celera SNP ID:            hCV7767455
SNP Position Genomic:     76184
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22431):
GACCTTGTGATCCGCTCGCCTTGGCCTCCCAAAGTGCTGGGATTACATATATAAGCTACTGCACCCGGCCAACGTTTTTTTTTTAAAGTTTCCTTTTTTT
T
GTTAAAGGATAATAATAAATGTTAAAAATAATAATTTCTTTTAAAGACTTTCTTCAAGCCTCCTTGCTTTGTGCTCATAACTCTTTGTTAAGCCCTATCC
Celera SNP ID:            hCV7767383
SNP Position Genomic:     85864
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22432):
TGTGCTGGACTCTGTACTAATAGCTTAACTAGGCTATCTCATTTTATCTTCATAACCACCATCTAGGGTAGGTATTGCATGCAGCCTCATTTTACATGTA
W
AGAAATGGAGGTTTAGATTAAGTCACCTGCCAAAGGTTGTATAGCCAAAAGAGGACTGAACTCTGAGGCAGTGATTCCCAGCTCTTATGAGTATAGGGGG
Celera SNP ID:            hCV7767456
SNP Position Genomic:     75245
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22433):
ATGTACATTAAACACAGACTTTTACGTCCTCTGACCACTAAAGTTATGGAATCCATATTAGGAAAATTCAAGTTTGGAAGTTTGAGGCTTTTAGAAATAT
R
AGAAGTGTTATTTAAGCAAATTTAAAATTTTACATTATCACCGCGAGCAGAAAATGCAAGGGTTTGTGTAGAATATTTTGTCTTTTTGGAAGTAATGCTG
Celera SNP ID:            hCV11558220
SNP Position Genomic:     18551
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;JBIC-allele(G,551|A,936)   total(G,551|A,936)
SNP Type:                 INTRON


Context             (SEQ ID NO:22434):
CTTTGGGAGGTCGAGGTGGGAGGATCACCTGAAGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTGTACTAAAAATACAAAAAAAA
A
TTAGCCAGGCATGGAGGCACACGCCTGTAGTCGCTACTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGACGTTGCAGTGAGCAGA
Celera SNP ID:            hCV11558221
SNP Position Genomic:     14735
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22435):
CGGTGAAGTATTCCTTAGTCAGGATGTCTTAAGGGTTAAAAAGAGGTGAAAAGTCCCCATTAGGGGGGAGATTAAACATCACACAAACCTCCAGTAGTAA
M
AAAGATATTCGGGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACGAGGTCAGGAGATCGAGACCATCCT
Celera SNP ID:            hCV11558158
SNP Position Genomic:     86959
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22436):
GCAGGGGCGGTAAAGCATTCCTTAGGACTGAAGAAAGAAAAGCCGCCAGGGGGCGGGTCGGGGTGGGGCGGTGAAGTATTCCTTAGTCAGGATGTCTTAA
R
GGTTAAAAAGAGGTGAAAAGTCCCCATTAGGGGGGAGATTAAACATCACACAAACCTCCAGTAGTAAAAAAGATATTCGGGCCGGGCGTGGTGGCTCACG
Celera SNP ID:            hCV11558159
SNP Position Genomic:     86891
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22437):
CACAGCGTGCCAAGTCGCACGGACGGTGGCCGAATTCGCCTTCTCATCTCATGTTTCTTTGGTTTGCTGAAGCCATTGTCCTTCAGGCTTTTCCTTGCTT
R
AGAGCAAAAAATAATTACTGTGAGCTGCCCTGGCGGCATAGAGAGCAATTCCAAATCATCTCTAGAAAGGTCTCAGTATCTTCTTCCCCATTTCAACCAA
Celera SNP ID:            hCV7767896
SNP Position Genomic:     22942
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22438):
TTCAGTCATCTAGCCAGAGAGGTGAAGTGGTTCAACCTGATTTCTTTGCTCTTGAACTGCATTCCGTCCATTTCGCTCACAGCGTGCCAAGTCGCACGGA
Y
GGTGGCCGAATTCGCCTTCTCATCTCATGTTTCTTTGGTTTGCTGAAGCCATTGTCCTTCAGGCTTTTCCTTGCTTGAGAGCAAAAAATAATTACTGTGA
Celera SNP ID:            hCV7767897
SNP Position Genomic:     22865
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22439):
CAAAGACTGTGGGAGGCACTTACACAGTGTGGGCATTGTGGCTGGGGTTTCTTCCCCCTAAATCCGGAGGGCTGTGTTTAACGCACGCCCTGGCATTCAT
Y
TACTTAAGTGTCCTGTCCCTTTGCAAGGCTTACTGTATTTCAGTCATCTAGCCAGAGAGGTGAAGTGGTTCAACCTGATTTCTTTGCTCTTGAACTGCAT
Celera SNP ID:            hCV7767898
SNP Position Genomic:     22726
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22440):
CGGCCTCTGGATTTGCCTCCTGGGGCTGCAGTAACAGAGTGCCACAACCTGGGGATCCTCCAACAACAGAAATGTATCATCTCCCAGTTCTGGAGGCTGG
K
AGGCCGAAATTGAGGTGTCAGTGGGGCCATGCTTCCTCTGCTGGTGCTAGGGTAGAACGCTGCCTCCCTCTTCCTGCTTCTAGTGGGTCTCAGCAATTAC
Celera SNP ID:            hCV7767609
SNP Position Genomic:     57748
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22441):
ACAGTGAGCCATGATTGCGCCAATGCGTTCCAGCCTGGGCAACAGAGCGCGACTGTCTCTAAACAAACAAACTAAAAACAAAAACCATGACAGAACACTT
M
ACTGGCCACTTTACACAATAAATAGGCAAAAACAGCATGCATATTTTTGCAAGCATAAACACTCAGATATACTAATGACAGTCACATGGGTATAACAATT
Celera SNP ID:            hCV7767538
SNP Position Genomic:     66028
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22442):
CATCTAATGAGATAATGTAGTATCTTGATTTGCTATCTAAGTCATCTAAATATTTTATCTAAATTGCCAGCATTGACTATGATGTGCTGGACTCTGTACT
R
ATAGCTTAACTAGGCTATCTCATTTTATCTTCATAACCACCATCTAGGGTAGGTATTGCATGCAGCCTCATTTTACATGTAAAGAAATGGAGGTTTAGAT
Celera SNP ID:            hCV7767466
SNP Position Genomic:     75163
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22443):
TAGAAAATCTAAAAATGATTTTGAAGAAATTTATTTAAAAAATTTAAAGGGGATTTGAGAAACATGTAAAAACATGACAACAGCCTGGGCAACATAGCAA
S
ACCCTATCTACAAAAAATAAAAAAATTAGCTGGATGTGGTAGCACATGCCTGTAGGCTCAGCTACTCAGGAGGCTGAGGGAAGAGGATCCCTTGAGCCCA
Celera SNP ID:            hCV7767539
SNP Position Genomic:     65814
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22444):
TTCACCACGTTGGCCAGGCTGGTCTCGAACTCTTGACCTCAAGTGATCTGCCTGCCTCGACCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACCGCAC
M
CGGCCTAGAACTTTCATTCTTCCTTTTAAATGGGTCAAACAGGTGTTCGGCCATGAGGCTTTATTAGGAAGAAGGCATCCTTCTGAGGTTTTTACCTTAT
Celera SNP ID:            hCV7767394
SNP Position Genomic:     83420
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,9)   total(A,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22445):
TCATCTTTACTCTAGACCACTATTACACTGTAAAAATGAAACAAATTTGTTTACAGTCATCTTTCCAGGGTTTGTTTATTATAATTGTTATGAGGACACC
Y
CAAATCTTATTTTTACCTCGCTTCAAAAAGTCACAAGAAATGGTGTTAAGTTGTAACATCTTTGTAAGGAACCCCTAGAAAGCCGGCTTGTTTGGTAGGC
Celera SNP ID:            hCV7767467
SNP Position Genomic:     73588
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22446):
TTTCACCACGTTGGCCAGGCTGGTCTCGAACTCTTGACCTCAAGTGATCTGCCTGCCTCGACCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACCGCA
M
CCGGCCTAGAACTTTCATTCTTCCTTTTAAATGGGTCAAACAGGTGTTCGGCCATGAGGCTTTATTAGGAAGAAGGCATCCTTCTGAGGTTTTTACCTTA
Celera SNP ID:            hCV7767395
SNP Position Genomic:     83419
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,9)   total(A,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22447):
GTAAATAGAGTTAATTTTACCTGTTTTTTTTTTTTTAACTTTTTTAATATGGCTACTATAAAATTTAAAATTGTATGTGTGACTTGCATTGTCTCTCTGC
Y
GGACAGCACAGCTCTAGAGACAGTTTTAAGGTCCCCGTTTGGAGGAGTGGGGTTCTCAAGGGAAAATGAAACCATCTTCAGAGGATGAAACTATCTTCAA
Celera SNP ID:            hCV7767468
SNP Position Genomic:     73340
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22448):
GGAGCTGGTAAAATATTTCCTTGGTGGTCAGGACTAAGGAAAGAAAAGCTGCGGGGCGGTAAAGCATTCCTTGGTTAGGACATACCTAGGTAAGAGAAAC
Y
GCAGGGGCGGTAAAGCATTCCTTAGGACTGAAGAAAGAAAAGCCGCCAGGGGGCGGGTCGGGGTGGGGCGGTGAAGTATTCCTTAGTCAGGATGTCTTAA
Celera SNP ID:            hCV11558161
SNP Position Genomic:     86790
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22449):
AAGGAAATACCGGAGGAGCTGGTAAAATATTTCCTTGGTGGTCAGGACTAAGGAAAGAAAAGCTGCGGGGCGGTAAAGCATTCCTTGGTTAGGACATACC
W
AGGTAAGAGAAACCGCAGGGGCGGTAAAGCATTCCTTAGGACTGAAGAAAGAAAAGCCGCCAGGGGGCGGGTCGGGGTGGGGCGGTGAAGTATTCCTTAG
Celera SNP ID:            hCV11558162
SNP Position Genomic:     86776
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,9)   total(A,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22450):
GGGCCAGGTAACCTCATGCATAAGACAAGGAAGGAAATACCGGAGGAGCTGGTAAAATATTTCCTTGGTGGTCAGGACTAAGGAAAGAAAAGCTGCGGGG
Y
GGTAAAGCATTCCTTGGTTAGGACATACCTAGGTAAGAGAAACCGCAGGGGCGGTAAAGCATTCCTTAGGACTGAAGAAAGAAAAGCCGCCAGGGGGCGG
Celera SNP ID:            hCV11558163
SNP Position Genomic:     86746
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22451):
TGTAAGGTCTGGCTCCAGCCAATGGAGACAAAACACAGCAGCGGGGACAAGCTGCGTAAAGGATAAAAATTGCTTCCCTCCATTGTTCAGGTGTGCTGTC
R
TCATTGTTCCATCTGTAAGGAGCACCCTTTCTGCAGAAAGTAAAATTGCCCTGCTAAAAAAACTTTTTGTCTAAATGCTAATTTTTCCTTATAGTAGTAA
Celera SNP ID:            hCV11558164
SNP Position Genomic:     86300
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22452):
CTGGGTAATTTATAAACAATAGAAATTTATTTTTCATGGTCCTAGACACTGGGAAGTTCAGGATCTCAAGGCATGGACAGGACTGGTGTCTAGTGGTCTG
Y
TCCTCATAGATGGCTCTAAGTCTCTTCCTCACATGGTGAAAAGGATGGAAGGGCAAGAGGGTCCAGTGCTGTGTGCAGCCTCTTATAAAGGCCTGAATCC
Celera SNP ID:            hCV11558165
SNP Position Genomic:     85274
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22453):
GCGATCTTGGCTCACTGCAAGGTCCGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACCACGGCC
R
GCTAATTTTTTGTACTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCCTCCTTGGCCTCCCAAG
Celera SNP ID:            hCV7767610
SNP Position Genomic:     56736
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22454):
GTCATGGTGGCAGGCACCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATTGCTTGAGCCTTGGAGGTGGAGGTTGCAGTGAGCCAAGTGCCAC
Y
GCCCTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCAAAAAAAATAAATTGTATTTAATACACACCTAACCTACCAAACATCATAGCATAGCCTAGCCT
Celera SNP ID:            hCV7767549
SNP Position Genomic:     65145
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22455):
AGAGGGCCCCAGACTCTTCACTGGCCCAGGTGCTGAAGGGTGGCTTTGCCCCTGAGGGGTTTTGAAAGGTGACCCAGAATTACAACCTCTAGCTGCTGAT
K
CTGCCCAATGAAGTCAAACCAGCGGGAGGAAATGAGTGGCTGCAGCTCTGTCTATTATCAGTACGTTTCTAGAAGATGTCAGCACTGTAGTCCCCCTTAG
Celera SNP ID:            hCV7767478
SNP Position Genomic:     72031
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22456):
AATGGGGTTTTGCTGTGTTGCCTAGGCTAGTCTCAAACTCCTGAGCTCAATCGGATGCCTGCCTTAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCC
R
CTGCGCCTGGTCCAGGAGTACGTCTTTAAATAGAACATTCATCAGACTGCAATTACACATGCCTTAGCTGGGGAGCTCACCAAAATTCCTCTCATTTTCA
Celera SNP ID:            hCV11558170
SNP Position Genomic:     77874
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22457):
TTCTGTAGTTGCATGCGGATGGTCTCAGTGCTGCACTTGGCTCTGAGACAGTCTCTTTATGTGACTTTAATTAGTTGTCCGTATTCCTCATGAGCCCTGT
S
TCAGCTGTCACACGATGACAATGGACATCAAAGCACTGCTCTTCAGATGAGCAGAAACAGTCGTCTCATGCAATGGTCTGTTCCTTTCTTAGGGAGGAAG
Celera SNP ID:            hCV7767479
SNP Position Genomic:     70825
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22458):
GCCTCAGCCTCTTGAGTGGATAGGATTACAGGCATGCACCACCACACCTGGCTAATTTTTGGATTTTTAGTAGAAATGGGGTTTTGCTGTGTTGCCTAGG
S
TAGTCTCAAACTCCTGAGCTCAATCGGATGCCTGCCTTAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGTCCAGGAGTACGTCTT
Celera SNP ID:            hCV11558173
SNP Position Genomic:     77800
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22459):
CACCACGCCCAGCCAGATATGGCTGTTATAAGGGACAATTTAGCCAAATGTTTATAAAGTACTCAGCAATGATAGTATGATCTATAAATGCTAAATAACT
R
TTGGGTTGAAATATAAGGAGTACACTTCTATTTATTTATTTTTATTTATTTTTGAGACAGAGTCTCATTCTGTTGCCCAGGCTGGAGTACGATGGCACAA
Celera SNP ID:            hCV11558174
SNP Position Genomic:     77552
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22460):
TTTCTATATTTTCCTTGTTCTAGTCACTAAGTATTGGTAGTAATCATTTATGTACTAATCAGAAAATAGTAGTGTCTAACCAGATGAAGGAGAGAAAGTT
A
GTTGATATCTTCTGACAATTACTAGCACTTCATAGAGAAAGATAGCATATTTTGAAAAACGTGCAGATTGGCATATATTTGTGATTTTACTTACATTAGC
Celera SNP ID:            hCV11556716
SNP Position Genomic:     36841
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22461):
ATTAATGAAATTACATGTAAGCTAAATTGTGCAAAACCAATGACCTTGTGTTAATACACATTTGGTTGTACAGCTCAAATGAAGTAATGCTTCCTGCTAT
D
AATAGTGTTGGTTGCTACTGATGTTGTATGTATGTATGTATGTATGTATTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGAGCGAT
Celera SNP ID:            hCV7767621
SNP Position Genomic:     56540
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|T,1|-,4)   total(G,1|A,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22462):
GCGGGGTGGGGAGCGAGGGCCCTCAGGCTGGGCAGAGCTTCTCTCCTCATTCTGGTCGCGGGACCCTCTGTGTCATCAGCGACCCTTTCTGCCTGCACCC
R
AGGTCTCTTTACTCTTGGCATGGCATCGGCCCCCTTCCCCAACTCTGCTCTGTGCTGGGCGTGTGTGTAGAGTCTCTGGGGTCTAAGGGGAAATAAGATT
Celera SNP ID:            hCV7767550
SNP Position Genomic:     64584
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22463):
TAGTAGGGGTCAGGGGATAGAAGGAGAGGAAGCAGGGGAGCTTTCGAGGCTGAGGCCGGGCACGGAACCTCCCAGCAAAGGGATCTGACTGTGCCTGGAG
Y
GGGTCACAAAGCGGGGTGGGGAGCGAGGGCCCTCAGGCTGGGCAGAGCTTCTCTCCTCATTCTGGTCGCGGGACCCTCTGTGTCATCAGCGACCCTTTCT
Celera SNP ID:            hCV7767551
SNP Position Genomic:     64473
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,3)   caucasian(C,18|T,10)   total(C,39|T,13)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22464):
TTCACTGTGTTTCTGCTCGGCTTCTCTTCATCATCCCCTTTTCTGTAGTTGCATGCGGATGGTCTCAGTGCTGCACTTGGCTCTGAGACAGTCTCTTTAT
R
TGACTTTAATTAGTTGTCCGTATTCCTCATGAGCCCTGTCTCAGCTGTCACACGATGACAATGGACATCAAAGCACTGCTCTTCAGATGAGCAGAAACAG
Celera SNP ID:            hCV7767480
SNP Position Genomic:     70785
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22465):
CGGGCCCCAGGCAGTGTGTGGGACAGACAGAGAGACGGAGCCAGTCTGACACTGCGGTCAACGTCACCACCAGGGTACCCTGAGCCCCACAAGGCCTCCA
Y
GCTGATCACCTTCATGTTGTCTTCCAGAACTTTCTAGCCTGCCTTCTCTGTAGATTTATGTTTTCTTTGGTTTTATAGAAAAACAGTAAGCCATCAGAAA
Celera SNP ID:            hCV25931911
SNP Position Genomic:     74192
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,33|T,3)   total(C,67|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:22466):
GCCCTCCGGGGCAGGAGCGCAGAGGACACTCTGCAAGAACTTATAGGTCTCTTGACTTTCACATGTCACTGCTTTGGAATGTGACTCTTTTTTTTTTTTT
T
CTTTTAAAGATAAAGTTCCTGAAAAAGATTAAAGCAGAGATGTTTCCAGATTCTCATGAGAAACCTTCTAGTTAGCATAGTATTTTCTCACTAGACATTC
Celera SNP ID:            hCV11558186
SNP Position Genomic:     63366
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22467):
GAGTGATATTGGCTCGCTGCAACCTCCGCCTCCTAGGATCAAGCAATCCTCCCTCTCAGCCTGCCAAGTAACTGGGACCACAGGTGCACACCACCACGCC
Y
AGTTAGTTTTTCTATTTTTAGTAGAGACGGGGTTTTGCCATATTGCCCAGGCTGGTCCTGAACTCCTGGGCTCAAGTGATCTGCCCACCTCGGCCTCCCA
Celera SNP ID:            hCV7767704
SNP Position Genomic:     50415
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22468):
ATGAAGTTTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGAGTGATATTGGCTCGCTGCAACCTCCGCCTCCTAGGATCAAGCAATCCTCCCTCTCAGCCT
S
CCAAGTAACTGGGACCACAGGTGCACACCACCACGCCCAGTTAGTTTTTCTATTTTTAGTAGAGACGGGGTTTTGCCATATTGCCCAGGCTGGTCCTGAA
Celera SNP ID:            hCV7767705
SNP Position Genomic:     50377
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22469):
GCTTTTTGGTGACTGTGCCTCAGGATACTGTTGCCACAACCAGGGACAGAGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACCCAGGGCAG
R
GTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACCCAGGGCAGGGTGACAGTGAGGGCTGTAAGGCCACATAGGGCAGGAGGGACCCAGGGCA
Celera SNP ID:            hCV28013352
SNP Position Genomic:     60820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22470):
AGCGCCTGGCGCGTTAGAGATACTGGTGAAATAAACATTGATAGAATTGAATAATGGCCTGAGAGATGTGAACTTCTTTGCACAAAATTCTAAAAACTGA
K
CAGTCATGAAGCTGGCCATAATTCACACACCTGATTACACTCAATTTATTAAAGTGTTTCTGAAAGCTCCCCACCAGCTGCTATTTTGTTTGGCCCATGG
Celera SNP ID:            hCV7767561
SNP Position Genomic:     63694
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,5)   total(G,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22471):
TATAAGGAAACTAAATATTATGTTTAATTGCGCTTAAGTGAAATTCTAAAGCAAGCATGTGCTTTGATTAATCATGCCTATCTCTAACACCCTACCCAGC
R
CCTGGCGCGTTAGAGATACTGGTGAAATAAACATTGATAGAATTGAATAATGGCCTGAGAGATGTGAACTTCTTTGCACAAAATTCTAAAAACTGAGCAG
Celera SNP ID:            hCV7767562
SNP Position Genomic:     63597
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22472):
CCTGGCCGGTGACCTCGGTTGACACTGTCCCTCAGGCCACTCACTTTGTCTCTGGACCCTGGGGAAAGCCACAGCACCTGGCCCTTCATCTCTTTCCCAA
Y
AAAGCAGGCCTCTGGTTCCTCATAGGAAGAGAAATGGTGGCTCAGACCTGTAATCCAAGCACTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGGTCAGG
Celera SNP ID:            hCV7767490
SNP Position Genomic:     69999
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22473):
AACCTTCTAGTTAGCATAGTATTTTCTCACTAGACATTCAGCTCTACTTCTTAAATTCTCCTGAAGTGTTATAAGGAAACTAAATATTATGTTTAATTGC
R
CTTAAGTGAAATTCTAAAGCAAGCATGTGCTTTGATTAATCATGCCTATCTCTAACACCCTACCCAGCGCCTGGCGCGTTAGAGATACTGGTGAAATAAA
Celera SNP ID:            hCV7767563
SNP Position Genomic:     63528
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22474):
GAAGGTGATCAGCGTGGAGGCCTTGTGGGGCTCAGGGTACCCTGGTGGTGACGTTGACCGCAGTGTCAGACTGGCTCCGTCTCTCTGTCTGTCCCACACA
S
TGCCTGGGGCCCGTGGCGAGAAGATGCTTCTCAGAAGTCATATCATTCTGGGATTTGGAGAGCTCTAAAAGGCAAACACAAGGGTTGATGGGTGGGAACA
Celera SNP ID:            hCV25943214
SNP Position Genomic:     54707
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,34)   caucasian(G,36)   total(C,2|G,70)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:22475):
GCTAATTTTTTGTTTTTTTTCTTTAAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCACCTTGGCCT
Y
CCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCCAGAATGCACATTTCTGTTGTGTATTTTGCTGACTCCCTATTTGGCTAGAAGAGGAAA
Celera SNP ID:            hCV7767201
SNP Position Genomic:     117539
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22476):
CGGCTAATTTTTTGTTTTTTTTCTTTAAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCACCTTGGC
Y
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCCAGAATGCACATTTCTGTTGTGTATTTTGCTGACTCCCTATTTGGCTAGAAGAGGA
Celera SNP ID:            hCV7767202
SNP Position Genomic:     117537
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22477):
GGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCCTCCTTGGCCTCCCAAGGTGCTGGGATTACAGGCATGAGCCACCGC
R
CCTGGCCTGTTGTATTTATAAGCACCACCTCTTATATGGCAAGCCCTCTTCTGGGTACCAGGGACAGCGAGATGCAGAAGATGAGGCCATGTCCTCAAAA
Celera SNP ID:            hCV11558194
SNP Position Genomic:     56866
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22478):
CGCTTGAACCAGGGGCGCGAAGGTTGTGGTGAGCTGGGTTTGGGCCACTGCACTCCAGCCTGGGTGATGGAGTGAGATTCTGTCTCAAAAAAAAGAATAA
W
AAAAAATAAATAGGCTGGATGCAGTGGCTCACGCCTGCAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATAACCTGAGGTCAGGAGTTCGAGACCAG
Celera SNP ID:            hCV11558198
SNP Position Genomic:     55924
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3|T,3)   total(A,3|T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22479):
TAATGTGTGTGTATGTTTAAATGACTTTAGGAGAGTACAATTTCCATAACATAAAATGTGTCTTTTCAGTCTACAATGCAATGATTTTGAGTAAATTTAC
M
AAGTTGTACAACCATCTCTACACTCTAATTTTGGAACATTTCTATCACCTCAAAATGATCTCTTACTTTTTAATCACAAGAAATGATACTAGAGAAAATA
Celera SNP ID:            hCV25935562
SNP Position Genomic:     63001
SNP Source:               Applera
Population(Allele,Count): african american(A,22|C,10)   caucasian(A,32)   total(A,54|C,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22480):
CTGACCATCTCTTCCTTGCCTCTGCAGTATCAGGTGGCCCCTGCCCAGCTGGTGACCCGGCAGCTGCAGGTCTCGGTGTGGCATCTGGGCACGCTGGCCC
R
GAGAGTGTTTCTTGGAGAAGTGATCATTCCTCTGGCCACGTGGGACTTTGAAGACAGCACAACACAGTCCTTCCGCTGGCATCCGCTCCGGGCCAAGGTG
Celera SNP ID:            hCV25932153
SNP Position Genomic:     113253
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,32)   total(A,1|G,59)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:22481):
TAAATGACCAGTCAGTCAAGTCATGAACCTTAAGAACCTTGAACAGGCCGGGCGTGGTGGTCCATGCCTATAATCCCAACACTTTGGGACGCCGAGGGCC
Y
GAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGGGCACCTGTAATCC
Celera SNP ID:            hCV27920049
SNP Position Genomic:     16004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22482):
TAGAAAATCTAATCCAATATCAACTTTTAATAAAAGTAGTCATTCCCAACAATTATGGTTTCATAATGTGTGTGTATGTTTAAATGACTTTAGGAGAGTA
Y
AATTTCCATAACATAAAATGTGTCTTTTCAGTCTACAATGCAATGATTTTGAGTAAATTTACAAAGTTGTACAACCATCTCTACACTCTAATTTTGGAAC
Celera SNP ID:            hCV7767574
SNP Position Genomic:     62938
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,6)   caucasian(C,24|T,4)   total(C,50|T,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22483):
CAAGACTTGGACCCAAGACTGTGTGTTCGCCGGCCTGGCGCTGTGACTTTGAAATAGTTACTTTCTTGTGGGTGGGGTGGGCGGAGGGTTTGTTTTAACT
R
GCTCAGCTCTGTTCAGGTACCCGAACAGCCCCCGCCTCAGCATCATACACAGACCAGACTGGATCAGGTCCTGTGGCTTCCCCTGGCGGAGGCCTCCCTT
Celera SNP ID:            hCV27460726
SNP Position Genomic:     113543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22484):
AGGTGGCACAGAGCTGCAGGTGGCACAGAGCTGCAAGGCATCCCTCCTAAAGCCAGTAGGGTGGGGAGTCCGCCCACAGACCCGCCCCTGGGCTCTGTTC
Y
GCCTCGGTTTCTGGCCGCTGAGGCTGGAGGCAGCCATACCTCATTTGGCACCCGAGGGCCAGGAAGACGGGCTGGCCCACGCGGGCTCCCAGGAGTCCTG
Celera SNP ID:            hCV7767214
SNP Position Genomic:     115285
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22485):
ACTATGCTTTGTATGTTTGTTTTAGCTTCATCAAAAAAATAAGATTAACCTTGATGATTTATGTTTGCATTAATTTTTTCTATTAAAACGAATATACTGT
R
TCATAACTAATTCCACATCTAAAAGAAACCTGGTCTTCTCCCTTAAGATTGCTGAGGAATTACTCTTGTTCAGACTTGTTTCCTTCAAACTGTGATCTTC
Celera SNP ID:            hCV15860022
SNP Position Genomic:     25205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22486):
ATCCCCCGTGCACCCTGCCTCTCCCACACCTCTGTCATCAGCTCGAAGACAAGGCCTGGAACAAGCACAGGGCTTGGCATAGGACAGGCGGCCACCAGGC
M
TCATCAGACTGAGCCTGCTCTGGCAAGTGGGTGAGGAGCAGGTGGCACAGAGCTGCAGGTGGCACAGAGCTGCAGGTGGCACAGAGCTGCAAGGCATCCC
Celera SNP ID:            hCV7767215
SNP Position Genomic:     115128
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,10)   total(A,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22487):
TCTGTCCATTCTCTTCTATCTTCACTTCTCATACCTCACTCACTCATGCTGGTGCACCAGTCCAAGCTTTTTTTTTTTTTTTTTTTTTTTTTTTGGTAGA
R
ATGGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACTTCAAGTGATCCGCCTGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCC
Celera SNP ID:            hCV26423041
SNP Position Genomic:     99600
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22488):
GGAATTGTAGAAAGTAAAAAGTTTCCTTTTCAGTTTCCTTTCTGGTAATAATAATAATGTTAAAAATAATAATTTCTTTTAAAAACTAACTTCCTTCAAG
Y
CTCCTTGCTTTGTGCTAATAACTCTTTGTTAAGCCCTATCCTATGTAGCTGTTAGATATAGAGAAATAAGTACGTTCTGTGTTCTTGTACTTGAATGAAG
Celera SNP ID:            hCV26423042
SNP Position Genomic:     89057
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22489):
GAGGTCAGGAGATCGAGACCATCCTGGCCAACAAAGTGAAACCATGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGCGCCTGTAATC
Y
CAGCTACTCGGGAGGCTGAGGCAGGAGAATAGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACACTATTGTACTCCAGCCTGGGCCACAG
Celera SNP ID:            hCV26423043
SNP Position Genomic:     87135
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22490):
GGCATTTTAATTCATTCGTTCATTCATTTGTTTATTAAAAAACATTAAGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGG
Y
GGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAAGGTGAAACCCCTTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGCGCC
Celera SNP ID:            hCV26423044
SNP Position Genomic:     84679
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22491):
CGCCACCTTGCCCAGCTAATTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCC
R
CCTCGGGCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCTCTTTTTCAGTTTCAAACTGAGACTGGGGTGACCTTCAAAATCCTGCT
Celera SNP ID:            hCV26423045
SNP Position Genomic:     68961
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22492):
AGGCATCTTTAGAAATTGAATATGGAGAGGTGCAGCCCTTCAAAGGCATGGGAATTTACCACCCATGACTCCCTCTGGACTTGCCCTGATTTTTTATGTT
Y
TGCTTCCCACAAGTGCTCCAGGGGAAAACTTCTGCCTAGAGGCTGAGACTGCCTTAAGGTGTTTTGTGTTGATGTAGGGGATTAGATAATTGAGTTTCTG
Celera SNP ID:            hCV26423046
SNP Position Genomic:     36206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22493):
ATCCCTGCTAAAGTCACTCGCCAGCCAGACCGGGCAGGGTGGTGGGGGCCCTTGGTCCAAAACACCTGCCTCTCGAGGGATGCCTGTCTGTGAGCATCTC
R
CAGCTCCTTGCGCGAATACTGACATGTTAACAAGAGGTCAAAATTCAGGGCTCTTTAAGGAAGCTTCTAGGAAGAAACAACTGAGGAATCAAAGAGAAGA
Celera SNP ID:            hCV7767585
SNP Position Genomic:     59402
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22494):
GTGTGAATCCTCACAGTGCTGTGAGCCCTGCTGTGGGTAGAGGTTGTGACTCACTTATTCTTTTTTTATTATTATTTATTTTTTAAAAATTGGGCCAGGT
R
TGGTGGCTCATGCTTGTAATCCCGGCACTTTGGGAGGCTGAGGTGGGAGGATCACTTGAGTTCAGGAGTTCGAGACCACCTTGGCCAACATAGTGAAACC
Celera SNP ID:            hCV7767658
SNP Position Genomic:     55637
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22495):
CTGCTTTCGGCCTTCTCATCGCCCCTCTGTCGTGGTGGATCCCCCTTCTTAGGTCTACAGGGAGAGGACAGGTCGGGGCACAGCATCTAACCGTTTTTAT
Y
GCCAAGGCCTTAAACAAGTACGGCTCTGTCCAGCTGCAGTAGAATTTTTCCTAATTTCATTGACTGGTTATCTGATATAACAGACCAGGAGTCACAAACT
Celera SNP ID:            hCV26423048
SNP Position Genomic:     30627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22496):
GCGACAGAGCAAGACTCTGTCTTAAAAAAAAAAAAAAAAAAAAAAAAATTGGGATGACACCTGGCAACCACCCGAGCAGCAAATGTGTGCAAAATGCTCC
K
CGCCGTGCCTGGCAGACACGGCTGCCAACCAGCCATGTGCCTGAGACAAGCCCTGGCAGCCTCAGACCTGGGCCCTGGCCTGCAGCTGTTCCTGTCCCTG
Celera SNP ID:            hCV7767586
SNP Position Genomic:     59189
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22497):
TCCTGGGTTTTTATTTCGGTTTAACTCAGTCATGCTTTCCTCAGTCAAGTCTGATTGTTCTCAAGATGCTTTCATGCCACTTACACAGCTTCTTTGGGAA
Y
AGCATTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTAGAGTGCAGTGGGGCGATCTCGGCTCACTGCCAGCTCCACCTCCCAGGT
Celera SNP ID:            hCV26423049
SNP Position Genomic:     29396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22498):
CCAGTTCCCATGGAGGCTCCGTTTAGATAGCCCCACCTGTGCTTTTCTTTGGTGGCACTTGGAACTCCAGGGTATAGTTTCTTACACAGGATGTTATTCC
Y
ACTCCACAGGCACCAGCAGAGAGGTGGCCAGAGGGAAGGCCGCCTTTCTCCTGACTGCCTGTCTGTAGCACCCACAGCGTGACCCATGCTGTGTGGGTGT
Celera SNP ID:            hCV7767659
SNP Position Genomic:     54910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22499):
TTACTCAGCTTTCTGGGACATGGTTGTTGGTTTCCAGGTGGTCGTTTCCCCCCGGCTTTGTATTAGGAAAATGTTCGAATAGAAGCAGAGCGGTGACCCC
R
TGTCTGTACAGCCCTCGACTATCCCCGTTTTGGTCTTGTCCCCACCCGCTCCCCACCCTAAGTTATATTTGTACACTTTTTCTGACTTCCTGCAGGCTTT
Celera SNP ID:            hCV7767587
SNP Position Genomic:     58625
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22500):
TGTTGCTCTTGAGCCCCTGAAATAGGGCTGCAAGATGCACTACCAAAGTGAACACACTGGGTTTCAGAGACTTGGAATCCAACAAAAGTAAAATATTTCA
Y
GGATAACTTTAATGTTGATGACATTTTTTAATATTTTGGATATATTGTGTTAAACTAAATATAGAATTAAAATTAATTTGGCCAGGCATGGTGGCTTAAG
Celera SNP ID:            hCV11979143
SNP Position Genomic:     72874
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22501):
AGGGCTATAAGGCCACGTAGGACAGGAAGAACCCGGGGCAGGGTAACACTGAGGGCTGTAAGGTCACATAGAGCAGCGGGGGGGGACCTGGGGGCAGGGT
R
ACAGTGAGATCTGGAAAGTCACATAGAGCAGGAGGGACTCGGGGCAGGGTGACAGTGAGGGCTGTAAGGTCACATAGACCTGGGGACAGGGTGACAGTGA
Celera SNP ID:            hCV11979144
SNP Position Genomic:     61542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22502):
AAAACGTACCTGGCAAGACTTGGACCCAAGACTGTGTGTTCGCCGGCCTGGCGCTGTGACTTTGAAATAGTTACTTTCTTGTGGGTGGGGTGGGCGGAGG
R
TTTGTTTTAACTGGCTCAGCTCTGTTCAGGTACCCGAACAGCCCCCGCCTCAGCATCATACACAGACCAGACTGGATCAGGTCCTGTGGCTTCCCCTGGC
Celera SNP ID:            hCV7767225
SNP Position Genomic:     113530
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22503):
GTGGACAGTAAGAACATCGTGTTGGCCTCTGCCAAGCCAGCACAGGCCCTGCATGCCTGAGCACAGGCACCGTCCCTCCAGGGCAAACACGTGGTGTTGC
R
GGGAATGGAGGAGGGGGGAGTTCATGCTTTGCTTTAAAAAATAAATAAATAAATGCAGGCTGGTGCAGTGGCTCACGCCTGTAATCCCAGCAATTTGGGA
Celera SNP ID:            hCV7767226
SNP Position Genomic:     112340
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22504):
CCCTCGTCACTCTTGGGTGTGTTGGGAGCCCCCTGTGTGGACAGTAAGAACATCGTGTTGGCCTCTGCCAAGCCAGCACAGGCCCTGCATGCCTGAGCAC
R
GGCACCGTCCCTCCAGGGCAAACACGTGGTGTTGCGGGGAATGGAGGAGGGGGGAGTTCATGCTTTGCTTTAAAAAATAAATAAATAAATGCAGGCTGGT
Celera SNP ID:            hCV7767227
SNP Position Genomic:     112304
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22505):
AGAGGATGCCTGCGTGAATCCCAGTCTCAACACCAGCTTTGTTGGGGTGGGAGTGGTGGTGGCGGCGTCTGTCATCAGTGGTTGGCCTTTTAATGTGGAC
Y
TAAGGTGAAAAACTTCTGGCTGGTCATCATTTTTAAAGGGATGAGAGGGGATGAAGTGGTGCCCTCCCCGACCATGGCTAAATTGTCTTCCTCTCTTACA
Celera SNP ID:            hCV25938056
SNP Position Genomic:     120367
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:22506):
CTTTCTTCTTCTAAGGAGTATGACACAGTTAAAAAGGAAAAAAGAACCACAAGCAAAACAGTTGCCAGTGAAATAGGAGAGGGAGCTCTTTAAACAAGGC
Y
GGCTGCAGCTGGCCTCCGCCGCTCATCTGCAGGGCGTGAGCGCTTGGTCCATGCAGTGAAGCTCTTCCAACCTGGGTCAACGAAAACGGAGAAGAAATGG
Celera SNP ID:            hCV27838241
SNP Position Genomic:     19128
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:22507):
TGGCTTGAAAATTACTTCTGCTTTGCAGAAATTATCTGCTTGCAGCTGTGGATAATTTATAACAATCTCTGGTGAAACCTCAGAAAAGAGATATGCTTTT
R
TCTTAGATGGATGTCAGCAGCTGCTGCAGAACCCGGTGAAAACACCCCCCGGGTAGCACGAGGCTCTGCGAGCCGTAACTCCGACAAACGCAGAACTTCT
Celera SNP ID:            hCV27838242
SNP Position Genomic:     18922
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:22508):
TGGGCAACACAGTGAAACCCTGTCTCTACTAAAATACAAAAAATTAGGTGGGCATGGTCGTGTGTACCTGTAATCCCAGCTACTTGGGAGGTTGAGGCAG
R
AGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCACTACTGCACTCCAGCCTGGGCGACAGAGCAAGACTGTCTCAAAAAAAAAGT
Celera SNP ID:            hCV26423050
SNP Position Genomic:     28159
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22509):
TCCCTCTAAATCCTACTTTTAACATTGCTGGCCGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACTTGACGT
Y
AGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATATCTACTGAAAATACAAAAATTAGGCCGGGCACAGTGGCAGGCGCCTGTAATCCCAGCT
Celera SNP ID:            hCV26423051
SNP Position Genomic:     26531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22510):
GCCCAGGAGTTCAAGACTAGCCTGGGCAGCATAGTGAGATCCTGTCTCTAAAAAAATTAAATGAAATTAAAAAATTAAAACCTAGAAAATGAAGAAAATC
M
TAAAGAGCAATGTTAAAAATACAGCAGCTTCACCCAGAGAACAATTGTTGACATTTTAGTATATATTATTTCTGTTCTTTTGTGAGTGTATGTATCTATG
Celera SNP ID:            hCV11555454
SNP Position Genomic:     44609
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22511):
CTGGTGCCAAGGTTAAGATGATATTTGTCTACTGACTCTTTCCTGTTTCAAAACCTTATTTCTTTTTTTCCCTCTAAATCCTACTTTTAACATTGCTGGC
Y
GGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACTTGACGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTG
Celera SNP ID:            hCV26423052
SNP Position Genomic:     26463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22512):
ATGATTGCAGGGTTTGTGTTCCCTCTTCAGCTGTCTCACTCTGCCAGACCAACAAAAACTGAGACTGAAGTCGCCAGTCCTGAGGAAGCAGGCTTGCCCC
Y
AGTGGAAACACTCATTTGTCTTCAGTGGCGTAACCCCAGCTCAGCTGAGGCAGTCGAGCTTGGAGTTAACTGTCTGGGATCAGGCCCTCTTTGGAATGAA
Celera SNP ID:            hCV25940337
SNP Position Genomic:     119348
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 NONSENSE MUTATION;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22513):
GGAGGCTGAGACAGGAGGACTGCTTGAGCCCAGACCAGCCTGCGCAACATGGTGAAACCCATCTCTACAAAATTAAAACATTAGCTAGGCATGGTAGCCC
R
CACCTGTAGTCCCAGCTACTCGGGAGGCGGAGGCTAAAGGATTGCTTGAGCCTGGGAGGCCAAGGCTGCAGTGAGCCATGATGGTGCCACTGCACTCCAG
Celera SNP ID:            hCV26423053
SNP Position Genomic:     16882
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22514):
TAGTATATATTATTTCTGTTCTTTTGTGAGTGTATGTATCTATGCTTGTGGGTGCATATCTGTATGTGTGGATATATGTGTGTGTATACACACATATACA
Y
AGACTTTTTTGAAGTATTTAGGTTGAACCATAAGAAATTGGTATTTTTAGGCAAAAAATTATTGAATAGAGGCAATTTCACATGAGTCAGGCTAATATAT
Celera SNP ID:            hCV11555455
SNP Position Genomic:     44766
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22515):
GTGATGATTGTTTATGTCAGATACAGCAAAGTGTATTGTTCTGACAAGATCCATATATTATGACAGATTTCCTGGGGGTGGGCATAAGGCCTGTTGAGGA
A
GGGGCACATTTGCCCAGTTCCCATGGAGGCTCCGTTTAGATAGCCCCACCTGTGCTTTTCTTTGGTGGCACTTGGAACTCCAGGGTATAGTTTCTTACAC
Celera SNP ID:            hCV7767669
SNP Position Genomic:     54796
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,8)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22516):
GTTACTCAGCTTTCTGGGACATGGTTGTTGGTTTCCAGGTGGTCGTTTCCCCCCGGCTTTGTATTAGGAAAATGTTCGAATAGAAGCAGAGCGGTGACCC
Y
GTGTCTGTACAGCCCTCGACTATCCCCGTTTTGGTCTTGTCCCCACCCGCTCCCCACCCTAAGTTATATTTGTACACTTTTTCTGACTTCCTGCAGGCTT
Celera SNP ID:            hCV7767597
SNP Position Genomic:     58624
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22517):
CAGTCTCCTGAGCATCTGGGACTACAGGCGTGCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGCTGG
Y
CTCGAATTCCTGACCTCGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCGGCCAGCACTATTATTTTAATGT
Celera SNP ID:            hCV7767300
SNP Position Genomic:     102650
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22518):
CTTGAGCCCTGGAGTGAGAGGCTACAGTGAGCTATGATCACAGCACTGCACTCCAGCCTGAGTGACAGAGTAAAACCCCGTCTCAAAAACAAGAGGGGGG
R
AAAAGAAGTTACTCAGCTTTCTGGGACATGGTTGTTGGTTTCCAGGTGGTCGTTTCCCCCCGGCTTTGTATTAGGAAAATGTTCGAATAGAAGCAGAGCG
Celera SNP ID:            hCV7767598
SNP Position Genomic:     58516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22519):
AATTTTTTTTTTTTTATAGGACATAGTCTCACTAAGTTACCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGGTCTCTTCTGCCTCCTGGAGGAGGCTGA
K
GTGGGAGGATCGCTTGAGCCCTGGAGTGAGAGGCTACAGTGAGCTATGATCACAGCACTGCACTCCAGCCTGAGTGACAGAGTAAAACCCCGTCTCAAAA
Celera SNP ID:            hCV7767599
SNP Position Genomic:     58403
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22520):
ACTAACTGATAAGGAGTGTAGCTGGAATATGGGGAATAATCACATCAATCCAGAGTTTATAGACAGAGATTGAATGTGGGGCAGAGTCGGAAATGGACCC
R
TGGGCTGGGTGTGGAGGCTCACGCTTGTAATCCCAGAACTTTGAGAGGCTGAGACGGGTGGAGGGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAAT
Celera SNP ID:            hCV27454761
SNP Position Genomic:     111027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22521):
AAAAAAAAAAACAAAATGAAAAGGCTTACTTCAAGTATTATTATAAAGCTGTAGCAATGCAAACAATGTGTTATTGATACAAGGACAGAACAAGTCAGGA
R
AGTAGAATCAAAAGTCCAGATACAGACCTTAGCGTATATGAAAACTTACATGATCAAGGAGTGTCTTAGTCCATTTCGGCTGCTGTGACAGAATACCATA
Celera SNP ID:            hCV7767309
SNP Position Genomic:     101819
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22522):
AAACCGCACAGCTGCTGCAAATGGGTGCAAGTGTCCAGCCTCACAGCAACAGCCGTGTCACGAGGAGTCACCATTCAAACCCCAAACAAGCGCCGGAGTG
R
GGGCAGCATGGGCCACAGAGGTCAGCAGCGAGACTCGGGCCTGGACACAGTCAGTGCACGTGAATCTGGCCTGCAGTGTCGGCTACCAGACCAAGGGAGG
Celera SNP ID:            hCV7767237
SNP Position Genomic:     111794
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,10)   total(G,10|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22523):
AAATGCCCATCTCCATGGCCACAAGCCACCCCAGCGGGGAGGAAAAGGAGGAATGAACTGAGGAAGCTAACCTGGCCAGCCAAGCCATTTGTGCCTGGCC
Y
GCAGACATCAGAAGTGTGGACAGAGCCTACAGGCAGCCCCCAACAGAGCAGGGGACGGCCCTGCTGCGCCTCCCCTCTGTTTGCAGAGGCTGAAGGAGGG
Celera SNP ID:            hCV7767238
SNP Position Genomic:     111497
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22524):
AACTTCGGCATCTTCCCTCTCCTTGCGTTCCTCTTTACTCTTTGCTAGGATCTTAGTAATCCCTCCATCCTGTCCTCCACCTGACCACAGAGCGGCACGG
Y
GTGGGCAGCGCCACAGCCTGTGGGCAGGGCCAGCAGAGCCCACTGCACCACTCCCATCTGCTCTCTCGGGGTCTGAGGGCTGTAGCAGATTCTCTAGCTG
Celera SNP ID:            hCV25938136
SNP Position Genomic:     117866
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(C,3|T,27)   total(C,8|T,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:22525):
ATGTGACCCAAGAAATGCCCATCTCCATGGCCACAAGCCACCCCAGCGGGGAGGAAAAGGAGGAATGAACTGAGGAAGCTAACCTGGCCAGCCAAGCCAT
K
TGTGCCTGGCCCGCAGACATCAGAAGTGTGGACAGAGCCTACAGGCAGCCCCCAACAGAGCAGGGGACGGCCCTGCTGCGCCTCCCCTCTGTTTGCAGAG
Celera SNP ID:            hCV7767239
SNP Position Genomic:     111485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22526):
GATTTTTGTATTTTTGGTAGGGATGTTGCTCAGGCTGGTCTGGAACTCCTGCGTTCAAGCAATCCTCTCGCCTCGGCCTCCGAAAGTGCTGAGATTACAG
R
CGTGTCCCACCAATGCGACTTCTTGATTTGAAGTTTTTGTAGTTCATGTGTCTAAAGGATCTCTGGAGACCTCCTTGCCACTGGGGTACTGGTTGGAGAA
Celera SNP ID:            hCV12034611
SNP Position Genomic:     34115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22527):
TTTTTGTATTTTTGGTAGGGATGTTGCTCAGGCTGGTCTGGAACTCCTGCGTTCAAGCAATCCTCTCGCCTCGGCCTCCGAAAGTGCTGAGATTACAGGC
K
TGTCCCACCAATGCGACTTCTTGATTTGAAGTTTTTGTAGTTCATGTGTCTAAAGGATCTCTGGAGACCTCCTTGCCACTGGGGTACTGGTTGGAGAACA
Celera SNP ID:            hCV12034612
SNP Position Genomic:     34117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22528):
GGAAAGCGCAAGACTGGAGTCCAAAGGAACACCGTGGACCCGACCTTTCAGGAGACCTTGAAGGTACTTGCTGGACAGATATTCCTGTGCAGAGTCCTCC
Y
GAGCCCGGGTGGAGCGCCTGGGGCAGAGTCCAGTGGATGGTGCTTTCAAACTCTTGACTCAGTTAGATATAATACAGACACCTATATGTTTCTTCGCAGC
Celera SNP ID:            hCV25941213
SNP Position Genomic:     108036
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:22529):
GGCTCATTTCGGTGTCTCTCTAGGCCTGATACTTTAAAGGAGGCTTGTGTTTCTTAGATTAAAAGTTTATTTTCTTTTTCAAAAGTATTTGCAATGTATG
K
TGTGCCAGTGTAATTGGTAGCTGGGACCTGGAACTGTGGAGAGAATGATTTGTGCTTTGATCACAGAAGAGCTGTGATGGGGCATCAGGACAAAGGCGCA
Celera SNP ID:            hCV12034613
SNP Position Genomic:     40341
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,9)      total(G,1|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 75
Celera Gene:                 hCG18160 - 206000038717822
Gene Symbol:                 VIL2
Protein Name:                villin 2 (ezrin);CVIL;CVL;DKFZp762H157;EZRIN;MGC1584
Celera Genomic Axis:         GA_x54KRFTF0F9(11823729..11889210)
Chromosome:                  Chr6
OMIM number:                 123900
OMIM Information:            VILLIN 2;VIL2


Genomic Sequence (SEQ ID NO:12235):
CAAGGCGGGCAGATTGCTTGAGCTCATGAGTTCGAGGCCAGCCTGGGCAACATGGCAAAACCTTGTGTCTACAAATAATACAAAAATTAGCTGGTGGTGG
CGCATGCCTGTAGTCCTAGTTACTTGAGAGGCTGAGGTGGGAGGTTGGCTTGAGCCCAGCAGGCTGAAGTTGCAGTGAGCCCAGACTGTGCTGCTGCACT
CCAGGCTGGGTGACAGAGCCAGACCTTGTCTCAAAAACAAAAGGGGGCAAGTGTGGGTGGGGGAACAAAACAATGATCAAGGATAAGAAATCATAATAGG
CTGGGCCGGTGGCTCACGCCTGTAATCCTAGCGCTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTTGGGAGTTCAAGACCCGCCTGACCAACATGGA
GAAACCCCCGTCTCTACTAAAAAAAAAGAAAAGAAATCATAATAAAGAAAGCTGTCCTATTTGGGAGTTTATTAGTCAAACAGGTTGTGTGATCATCAGT
ACTTGTTCTTTTTTTTTTTTTTTTTTTTTTTTTTGGTAGAGACAGGGTGTCCTTCTGTTGACCAGGCTGCTCTCAAACTCCTGGGCTTAAGTGATCCTCC
CACCTCTGCATCCCAAACTGTTGGAATTACAGGTTTGAGCCATTGTGCCCAGCCACTAGTTCTCTTTTACACAGAAGTTATTAAGGATATTTGTGCAAAT
TATTAAATAAGCCAAGGAAACAATTAAAATAGAACAGTTAGTGGCCAGAATTCTTCTTAGCAGACCCAAATTATGTAAGTTGTGCCATCAAAACAGTACC
AAGACACTCTTCAAAACAGTACCAAGACACTCTTCAAAACAGTACCAAGACACTCTTCCTAGCTTAGTATACTATAAAGATCCTTAAACATTTTTTTTTT
TTAAATTGAGACAGAGTCTTGCTCTGTCATCCAGACTGGAGCGCAATGGTGCCATCTCAGCTCACTGCAACCTCCACCTCCTGGGTTCAAGGGATTCTCG
TGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACGTGCCACCACACTCAGTTGATTTTGTATTTTGAGTAGAGATGGGGTTTCACTATGTTGGCCGGG
CTGGTCTTGAATTCCTGACCTCAGGTGATCTGTCCTCCTTGGTCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGAGCCTGGCCTTAAATATTCCT
TCTGAATACAACGTATTTGGACTCCACCGAACGGCCAYTTATCAGCTTGTCTGAGTCCTTAGTTGTTCCTGTGCTTGCTCACCCACTCTGAAAGGATTGG
TCACCCTTCCCAAAGTCAAAAAGGAATGTTAGATGATATTAGGAATTTGCATGCCAAGTTCATAGAACTTTATGATTCCATGAAATGTTTCTCTGTAGCT
ATCATCTCAGCCAATGAAATGCTTACTGTCTTTTTTTTTTCTTAAATAAACATTTCAGGCCAGGTACAGTGGCTCCCACCTGTAATTCCGACACTTTGGG
AGGCTGAGGTGGGTGGATCACCTGAGGAGTTCAAGACCGGCCTGGGTAACATGGTGAAACCCCATCCCTACAAAAAATACAAAAACTAGCCCAGTGTGGT
GGCGTCGCCTATAGTCCCAGCTACTTGGGTGAGGTGTGGGGATCTCTTGAGCCTGGGAGGTGGAGGTTGCAGTGAGCAGAGATCACACCACTGCACTCCA
GCCTGGGTGACAGAGTGAGATCCTGTCTCAAAAATAAATAAAATACAATAAAATAAAAATTTCAGACCAATAAAGAGGTAGGAAGGAGGCTATAAAGGAA
ACCCGTGGACTACCAGGCACCTTAGTCAAGTATTACCAAGACAGTGGAAACCTCTATGCTTCTCTCACTGTGTCATCGCCCTATCCTCCAGATTTAGTCA
CCGTCTTGCATTTTCCCCCAAGGTTATTAAGGGTGGAAAATAACCCCAATCCTTGTTTTGCCAAGAGTACTCTTTATGTATTTCCCCACTGCCTACTGAC
TGTTCTTTTGAAGTGACTACAGCTAGATAGAGCTTTGGTCACTTTTTTGTTACTGGTTGAGATTAACCCGGCACCAGTGTGGAGACAGGCTCCAAGGTGA
TTTGATAGAAATCTCCTGTATCAGTGGATGTGACTGTTCTGGGTACAATGGTTCTAGTCCGTGACACTGTTCTGAGCTTCCGGGAGGGCTGCCCTTCCTC
ACTTTAGTTTTAACCTTGTCTGAAGAACTCCCAGGAAATTACCAACAGCCCTTCACCAGGCTCAAGAGGCAGACTTAGGATTACCCTTCTCTAGCTGAAA
AACTGGAAAATGGAAACCCGGCAATGAAGGGTCATTCAAGGTCTTATACCTAAACTAACAGCAGGGAAGTTTCCAGTAGTCCTGGCTCCAGTGTTTCCTC
ACTTCCTTCCAAGGCACTGAGTATCATATATTAACAAAAGGATGACTTTCAAACACAAGGAACAGCTTCACAAATGAGGGCTAAAAGGAGAGGCAAGTGA
AATATGCGTCAAGGTCCTGCCACATCCTAAGTCAGTTGTTCTCAAATTGTGGTGTACATCATCAAAACCACGTGGGGACTTGTTAAAGAAACAGATTCCC
AGGGGCTGCCTGAGACTTAGTCTTAGTGAGCCATAAGTCCTGGAGAAGGGCACTATGAGTGATTCTAATGCATATTCAAGTTTCAACACAGCTGGAGTTG
AGTCTTCTGTGTGTGTGCTGGGGGCAGGGGTTTAGGTTCCAAACCCTGATGAAAATAAATTACCCTTAGAAAATCTTAAAACATTCATAAGATACACTGT
AAGTGTTTCCTTGGTGGGCAGAACAGTACAGTAACATGTAAATGCTATGTGTCATACTTACAGTAATGTAAGATACATGATAAGGAATGCATGTACAAAT
ATGACKTTATACTATTTTAACTTATGTAAGAAAGATTATATAGCATCCCTCTGTATCCACAGGGGATTGGTTCCAAGACCTCTGAGGATACCAAAATTCT
CCAATGATCAAGTTCCTGACATAAAAGGGTACAGTATTTGCATATAATGTACAAAATCCTCCTGTATATCTTAAATCATCTCCAGATTACTTATAATATG
TAATATAATGTAAATACTTGTTATACTATATTCTGTATTGGATTTTTATTGGTATTTTAATTGTAGTATTATTTTTATTTTTTATTTTCCAAATCTTTTC
CATCCAAGGTTGGCTGATTCCATGAATGTAGAACCTACAAATACAGAGGGCTAATTGTACATAAAAGTTGAGTGAGTCAAATGCTCATATGATATGATTC
AGTGACACAAGAATACCATGAAATACATATTATCCTTTCCATTTTACAGATGAAGAGATGGATGCTCAGTCAGGTTGACAGACTTGCCCGAACGGACCAG
GTTGGTCAGTTTGCAGGAAGCAGAATTCAGACTTAGCTCTGTTTGCCTCAAAAACCTGCCATCGTTTCATTTTTATTTTATTTTATTTATTTTTTGAGAC
AGAGTTTCGCTGTTGTTGCCCAGGCTAGAATGCAATGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCACGGTTGGTTTCAAGTGATTCTCCTGCCTCA
GGCTCCCGAGTAGCTGGGGTTACAGGCGTGCACCACCATGCCCATCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCCCCACGTTGGCCAGGCTGGT
CTCGAACTCCTGACCTCAGGTGATCTGCTCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCTTGAATCATCGCACCTGGCCGTTTCATTTTTACCACA
CTGCCACAGGCCACTTCATTTTTTGGCATTCCCCTAAAGGGTMAAGTTCAGAAATGCTCTTCAAGGTCTTGGGGCACCGCTATTTCAAACATTCAATTTA
GAAGACAGTATACTTCAAATGGAGCGAGATAAAAATTAGATTAGAGGCATATCCTATTATGAGAGTTGGGAACCCAAACTGGCTAACCAGGCTCCAGGCA
GTGATAAGGCAGTGGAGGTATTGATGTCCAGTTGGAAACATTATCAGTGCAGGTAATTTAAATATCTTTCATAGTTTTCTTTCTACTGCAGTTACCATTA
TATCTTCATTTTATTTATTTATTTATTTATTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTTAGCTCACTGCAAGC
TCTGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGACTACAGGCGTGCGCCACCACACCCAGCTAATTCTGTATTTTTAGTA
GAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGTTCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGA
GCCACAGCGCCCGGCCTATAACTTCATTTTAATAAAAAAGAAATTCAGGCCAGGAGTGATGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGT
GAGCAGATCACCTGAGGTCAGGAGTTCAAAACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTTAGCTGGGCTTGGTGGCG
GGTGTCTGTAATCCCAGCTACTCAAGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGATGGAGGTTGCAATGAGCTGAGATTGCGCCAATGCACTCC
AGCCTGGGCAAGAAGAGCAAAACTCCGTCTAAAAAAAAAAGGGAAAGAAAAGTTCAGTCTTTCAGAGGGAATACACTTACCTGAATAGAGGTCAAAATCT
CAGAAGAGGCCTCCCTCCTCTCTCTGACCTCTGAAATGCCCTGGATCTGCAAGTGGGAGATAACAGGCCCTGACAAAGGGTTGCCCAAACAGCAGTGTGT
CCCTAGGAAGACAGGTTAAGCATCAATTACTATGAGGCTAGCACGAGTTAAGCATTCCRCATGCACGATCTCATTTAATCCTTACAAGTCTATGTAGGTG
GGGCTACTAGTATGTTCACTCAACAAATTGGGAAACAGAGTTTGGAACTTCGCCCAAAGTCATTGGTTTCTCTTTCTACCAGGATAGATTTAAGTGCTTA
CTAAGTGTCAGGTACTGTTCAGGCATCGTACATGTACTAACTCATTATCCTCATTAGAACCCTCTGATACAGGTGCCATAATTATGCCGCTTTACAAACA
AGAAAACTAAAAGCAGAAAGGGAGGAGTAAACCCAGGAGAGGAATTCAGGAGAAGCTCTGGTCTCAACCTTTAGCCAACATCACAATCACCCGAAGGGCT
TGTAACACACTGATTGCTGGGCTCAGCCCTAGAGTTTCTGAATCCTAAGGCTGAGCAACACCTAATTTCCACTTATGCAAGTTCCCAGTGAATGCTGTTG
CTGCTCGTCTGGAAGCCAGACGTTGAGAACCCCTTCTAGAGTGAGCTCTCCCGCAGCAAATTCTACTGGCCCCCAAAGTATGTGTTTTGTGTGTCTTAAA
AATTTGTTGAGAACCATTAGCAAAAAAACAAACAAAAAAACTTAATTCCTAGAATTTCAGAGAAATCCCATGGAGCTTTTTGCCAGTCACGTCAAAAGAG
GCCACAAACGTGCCACTTAACCAGAGCTTCGGAAAGGCGGCGGCTGGGCCGGCCACGTGCACCGAGACTCGGGGCCAGGTGCAGCCGCCCCAGGGCCGAG
GCCTCGGAACTGGCCCCCGGTCCCGGCCCCAAGCGGTCCAGCGATTCCCCCAAGCCGTCCGCCCCTCCAGATTTATTTACGTTTTCCTGACTTCCCCCTG
CCCGCTGTGGGACAAACAGCCTCCCCACTTGCATCTGCGAGGGGAGTAGCGCGCACTTCCGCCAAGTTCCGCCCCCACCCAGCCCGAGGCCCGGCTGCCG
CCATCTTGCGGGGGGCGCACCTCACAGGTCGGGAGCTGGGCGGGAAGGGGCGTGGTCCCGGGACCCGCCGCGCCGGGGCTTTTGGGAGCGCGGGCAGCGA
GCGCACTCGGCGGACGCAAGGGCGGCGGGGAGCACACGGAGCACTGCAGGCGCCGGGTGAGGCGTGCGGCGGCCGGGGTCGGGACGGGGGTTCTGGGCGG
GGGGTTCCTGGTGGAGGGCCCGGGCGGGCGGCGGGGTTCGGCGGCAGGTGCGGCGGGCAGCCTAGGGGGCGCGGCGCGGGGTTCTCGCCCGGCACCCCCG
GGGCAGGTGGAGCTGAGCCGGCCCGCGGCCCCGCGACCTTCCCCTCGGCGCCGGGTCCCCTCAGGTCTCTCCCGAAGGAAACGCGGAGCCTGGGTGCCTG
GGCGCCGTCCCTCGGCGGCTCCCGAGCGGTTGCAGTTTTTGAAAGAGTTTCTCAAAGGCTTGACGGTTGTGACTGCAGCCGCGGGGCAACGGTTGCTACA
CAAAGTGAAACTTGCCGAGTGCTCGGCTTCTCACGGGCTTCCTGGCAGCCCCGGGAAGTTCCTCGGCGGACCCCGAGCCCGCGCCCCCTCTCCACGGATC
CCTCCCCAGCGAGTGCCCCCCCGCCCGCCCTGTGCCCCCTCTCCCCTGACCCCTCCCTGTCGGGTGCCCCGCGGGCTCGCGCTGGCTGTCCCGGGACTCC
TTCCTCCTAGGTGTTCCTCCTGCCCCTCGCCCTCTCTCTCCCAGGCGCGCGCTCCCTCTCCCCGGGCCTTTCCCCGCCGGGTATCCCTGGGCCCGCGCCC
CCTCTTCTCCGCCTCTCTCCGCTGGGTGCACCTCGAGTGTCCCCCAGACCCCTCCCCGCCCGGCCGGCGCTCTCTCCCCTGACCCTCCTGGCCGAGTGTT
CCCCGGGGCCCGCGCCCCCTCCCCCCGATCCTCCCCACTGAGTGTTCCCCCTGCCCTCTCTCTCCCGGGCCTGCGCCCCCCACCAGCCCCTTCATGCTGG
GGGTCCCCTGGGTGCGCACCCCCTCTCCTCGGACCCACCCCCAACTGGGGGGCACCTCCAGTGCCCGCCGGCTGCCCCTTGGGCGCGCGCCCCCGCTCTC
GGGCGCCTCCTCGCCGGGGGCCCGGCCCGGCCCCGCCCCGCCCGTGCCCCCTCCCCATGCCCGCAGTGCTGGGCGGGGCGCTGACTCACCCGGGCCCGGG
CTGGCCGGTTCTTAAGCGGCAGCGCGCTGCGGGCGCCGAGTGTCGGGCGCGGCAGGAGGACGAGGCAGGGCGGGCGGGCGCTCTAAGGGTTCTGCTCTGA
CTCCAGGTTGGGACAGCGTCTTCSCTGCTGCTGGATAGTCGTGTTTTCGGGGATCGAGGATACTCACCAGAAACCGAAAATGCCGAAACCAGTAAGTTGC
CCAGTTTCTGGGCCGGGCGGACGGGAGAGGCTTCATTGGAGAGGGGAGGCACCTGCTCGAGGTGTTGGGGCAGTTCCTGGGGAACAGGGTTCTTCTCACA
MGCAGAAGACGATAGGAATAGGAGGAGGTTTTCGCCGCTCTTTGTTACTTGTTGACCCTTTTGTGGAGCGTTAGGAAAACACCATTTTGATGCTTTTCTC
TGCAGTCTTTTTCTTTGTGAGCCCCCTCCCCAGTAGTTACGGTCTTTTCTAAAAACTAGAGGCCTTTTTACACTGCTTCCGTCTGTTTTTAAAGGGTATA
GTAATACAACTTAGAAGTTTCTTAAAAAGTCCAAATCACAGGGAGACTCAGATGGCTTCCGACCACACACACCAGTTCTCAGAGCTCCTAAGGGTCCGAA
ACCACAGGCGCCCCAGATCCAACTGGGGAGATATTAAARGGCGTTTGGGAGAGGAGACTGGCTTTCGGAAGTTGCCTTTCAGCTTCGCTTCCTACTAGGC
CCATGAAGCGGTGCCCTGTACACCAGCAAACTTGCTGGCTGCAGCAGAATTTCTGTCTCTAACAGAAGGTTAGCCATGGACTTGAATTGTAGATGCAGGC
AGCCGGTGGAGTTTGATAAGAGGTTCCTGGCAGGCCGGGCCGAGCACTCCTGGTCAGCTGATGAAAGGGYTGTGCCTGCGCCTCTGTCTCCTTGAATCTG
ATTGTGTTGAGATTGCTGGCGAGACCTGGGGGTTGTAGGCACAAGGCAGGTTCTCTGGGACTGACGCTTCTTAGAAAGTTGTATGTATTCTACCTGCTTT
TAACACTGGGGAACTGGTGACTAGACATTAGGGGGAAGGTTTAACATTTTTTGAGTTTTGAATCACAATGGACAAAATATCAGGATTCATTACAAATTGG
GATTACAGATACATCTGGAATTTTTTTTTGGTTTTTCAAACAAGTTGGTTCTGTAATCAATGCTTGTGTGCCTTTTGTGGGGGATGGGGGAGCGGAGTCT
CTCTCTGTGGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTGCCTCTCAGGTTCAAGCGAATCTCCTGCCTCAGCCTCCCGAGTA
GTTGGGATTACAGGCATGTGCCACCATGCCCAGCTGGTTTTTGTATTTTTATAGAGAGGGGGTTTCACCATGTTGGCCAGGCTGGTCTAAAACTCCTGAC
CTCAGGTGATCTGCCCACCTCGACCTCCCAAAATGCTAGGATTACAGGCGTGAGCCACCACACCCGGCCTTGTGTGCTTCTTCTSTTACATTTTATGTTC
TCTAAGATCTTTGTTAGAGGTATTAATTTTGCTGTTAGGATAAAGAATATTAATATGCCAGTAGATTCAGAAGCCAATATAATTTTTGCCTAAGTTACAT
CAAGATGATTCATTTGTGATGCAGAGTATTTTCTATACAAAATTTTTCTTTTTAATTCAAACTTAAAAGTGACACGTGACATCGAGGCTTGACAGTGCAT
GTGGTATGAAACTGACCTAAGTACAACCCCTTACTCAGGCAGAGCTGAGTGCAACGGTATGCGGAGGAGTGGTCAAGAAGATTACCCTTCTGGGTGTGGT
TTTCTTTATTTCACTAAAAGAAGAGGTGCAGAGCTCAGCTAAGATAGCACTCAGGAAAAAGTTAACCTGTTCTCCGTCACTACTTTTCTTTCTCATTTCT
CATAATGAATGGTAATTTATTTTTATGGTTTCTTTTTTGTATTTTGGTAAAATATACAGTTTATCCTCTTACTTTTAGGTTTACATTTCAAGGTATTAAG
TACATTTACATTGTTACATAGCCATCACCAAGGTCCATCTCCAGAACTTTATCTTCCCAGATTGAAACTCTGTACCTATTAAACTCTCCCTCCCCATYCC
CACCACCAGCCCTTGGCAACCACCATTCTACTTTCTGTCTCTATGAATTCGACAACTTTAGATACCTCATGCAGGTGGAATCGTGATAGCATTTGTCCTT
TTGTGACAGTCTCATTTCCTGTAGCATAATGTCTTCAAGGTTCATCCATGTTGCAATGTCAGAACTCCCTTCTSTCTCTTATTTCTTATGGCAGGTATGT
TTTCATTTCATTTTGTTTTAGAGGTCTTTTATGATAGATCAGAACTTAAAAGATGTTTCTGACATTTGATAAAGTGAAGATAGTTGTGAAACTGTTAAGG
AAAGACAGTAGCCATCACCTTGTGTATTAGAGCCAGAGTTACTCTTTGAAAGACTGTATTCTGTATAATATCTACAATTAAAATTTTTAAACTTTTTTTG
AGGCCAGGCGAGGTGGCCTGATTACAGGCACGAGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACATGAGCCCAGGAGTTCGAGACTT
GCCTGGCCAACATAGACTCTGTTTCTACAAAAAATAGAAAAATTATCTGGGTGTGGTGGCTGGCGCTCTGACTGAGGCTGAAGTGGGAGGATTGCTTGAT
GAGCCCTGGAGGTCAAGGCTGCAGTGAACTAAGATCAAGCCACTGCATTCCAGCCTGGGCAGCAGAGTGAGATGTTGTCTGAAAACAAACAAAACCCCTT
TTTTGAGAGGCTTCCTTTTAGGTCAGCCATACCTGTCTGCCATGGGAAATTTCTCCCTGCCCCCTCTTTGGCAGAGGAGGGTCTTAGAGATAAGTTAAAC
ACACTAAGCCTTTCTGTGTGTAGATTATATTAGAGCCATCCCACAAATCACTGAGAAGAGCATMGTAGGTTGCACATATTTGAATATGACATTTCTTAAG
GCTGTTAGAGAGGATCCAGTTAGTTTTGGTTTGGTTTGGGGTTTTTTTGCTGCCTTAGTAAATGTTAAAATGAAACATCCACCAACAGCTCTGTGGATGT
GTCCTTTAAACAAAGGTTTATTGATTCTAATTATTCAAGCCTAAGTTAAGAATGTTAGCGAAGAATGTTAGGTGGTTTTCTTGGGCTTAATGTTTAACAA
CTGGATTAAGGGGCAAACACACTTAAAGGATGGATACCTCTGAGTAGTTGGCCTTCCACCTGATTCATTGCAACTGTTAACCCTTGAATTCAACGGGCAA
AGTATTTTTGATTGATTTGCCTGAACTGAGTGAGTGGATGACTTTATTCATAAAACAGTATAACTGAAAATACTCATTTCCTGTGTTTTCTCCTAATACT
GTTTCCCAAAAGCAACAGTTACTTAAAAGACTGAGGCGGTACACAGTGGCTCATGGCAGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACAA
GGTCAAGAGATCAAGACTATCCTGGTCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTATGGATGCCTGTAGTCCCAG
CTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGAAGGTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCCTGGCGACAGAGTG
AGACTCTGTCTCAAAAAAAAAAAAAAAGACTTTATTCATCAGCAAGCGGAGTGACCTGCACAGAGGGCGAGGCAGACCTTGTTCTCTGGAAGCTTAGTGT
CTGGTACCTGGGCCAAGATGCGGGGTAAATGCTGAAATTGAAAACCCGCTAAGTGCTGTCAGACTGGGAAAGAGCCTAGGTAACGTCGAGAGGAAAATCT
GATGGGGAAAGGAAAATCATCTGATGGGGAAATTGGCAGACTGTATTGAGAAGTAACACTTMAGCTGAATCTTGCTTGASGGCTGGGGGGCGCACGCGGC
AGCACTCCACAGGGAGGAACAGCTGTGGTTTGTTGTCTGGTTTTGCTTTTCCCACAGCTGCTTAGGGACTCTATTCATGTGTGACTGGCTGACGTCCAAG
GAGGGTGATTTGGGGTTCCAGAGGGAGCCTTGGCCTCTGTTCAGGCCAGTCCCCAGGACATGGTGTGCTGTGTGGCCTTGTGGGTCTGCCCCATCTAGGG
AGAGTTGTAGGAGTTGGTGCTCAGATCATTGGTCCCGGAAGCATCCTCTCTGCCCGCCCCTTCATGTTAGGGTGACTGCGGAGCGCCTTTCTCCCACACT
TGCTTTCTTCTGCCCAGTGGAAAGAAGGCATGGGGAGTGAGCAAGGAACACTGCTGTAGTTAAGCTCTGGAAGGAAAAGGGGATTGTGTTCAGGGCTGAG
ATCTCTTTAAGCTGTCATGAGAACCATAGAGCTGAACTGCCTTTAAGTGGCTCCAACACATCTTACCTGTTCATTTCTGAAGTGTTATAGACATTTCTAA
TACAAAAGCAGGTTTACCTTTCATTAGGAAAACTCTGAAAGTGTGTTCACATTTCTACTGTGCCAAAATTTTAAGGTAATTTCTGAGATTACCTTGCCTC
TTTGGGAATACATAACCTTTTCTATTAAATATTTTAACAGGGACAGTTTACTGAATGTACTCCCCCCTCACAATCCCCTCGCAATTGAGGAGGATGCGTA
GCATCTGTTTCCACCCCTCCTCCTCCACGAGGGGCAGTGGTGAATTAGGTAGCTAACATTTTGCCATGTGGCAGTGAGAGGTGCTGGTAGGATGAGTGAT
TTGCCATGATCACGCTGTAAGGCACAATGAATGTATTTGGATGTTCACAGACACAGTCCCTGTCAGTGGATTTACAGTCTGGTTTCGGGGACAGACAGCA
ATCCCAGAGTAAATGTAAAACTGCAGCTTCAGAGAGTATGCCTGAAGAGGGGTACATGAGGCCTGAGAGTAGATGAAGTGTGTATGTGCTGGTGGGGGTG
CAAATAGGGGAGGTCAGGAAGGCATCCTTGAGGACGTGACCTCCCTGGGCAGAGGTAACAACGTGTGCAAAGGCCCTGTGGTGGGAGGAAGTAGTGTGAG
TTTGGGGTTTCACATGAAGCCCAATGYGGCTAGAGAGGAAGACAGGTCAGGCCATGCCTTGTAAGCCATTCTTGGGTGTTTTTTAGTTTAACTTGGGGTT
TTGACTGGGAGGTGACATGATCAGATTTGCCTTTTGAAAAGTTGACTGTGATCTGTAATAGGAAAATCACAGGAGGCAGGAGACAGCAAGGGTAGTTATG
GTAGACCATTGAGGGAGCTCATAGCTTGGACCAAGGTGGTGGTGGTGGGAACAGAAGTGGATGCATTTGAGAGTTCTTTGGGAGGTAGAATTGATAGTGC
CTGGTGATGGGTTGGATATGCAGGGCCAAGGGTGGTGTCGAGGCTGACTTCTCGTTTCTGGCTTGCGCAAGTGGATGTGTGGTGGTGCCATCGCTGAGGT
AAGTAATCCTGGAGAAGGACCAGGTGTGGGGGAAGGTGGGGAGTCTGGATTTGTTGTTACATGTTAATAAGTTTGTGACAATCGTTGATGAAAAAAGTCC
TTGCCTTCTTTCATTACTACATCCACTGCCCCCCAAAATATTAAAGGACCAGACTCCTTAAACTACGTTATTTTTAAATCCAAATAATTCAGTAGCTTTT
TGTTTTCCCTAGTATATGTACACACCGTACATACCTAAAGTTAAGAGGAAGGGTTAATTTAGTGCAGTGTTCTCAAAATTTTGTGTACACAATTGTCTGG
AGACTGTTGATTCCTGGGTCCCTTGAAGAACTAATGACTTCCATCTCTAGGGTGAGGTGCAGGCTGGGTGCTTATGTTTTAAATAAGCTCTCCAGATGGT
ACTGCTGATTCAATAGGAAAAGGGCAGTTATTATATATTCCTTTCTCCTGCACCCCAATCAAGCCCAGTGTGATTTCAGAGCACCCATTTGGGTGAAAGC
AGTCACTTGATGCCCAGCCGCCTTACAGTCCGGCTGAAATGCCAGGAGTGCTGTTATTGGTATTTGGGACTCGAATAGGGGCTAGGATGACTCTGTGAAA
AAGAGCCATAAAAATAAGAATTTCATAGCTAATTTACTGCTTACCTATACTTGGGCAGGCCATTCAACATAATATTCTTCTGACTTGAGTTTCTCTCTGC
AGGGAGTCCAGTAACAGAGCTTCATTTGGCAGTGCCCAGTGGTCTCTCACATTTTGGCTCTTTGTTTTCAAAGAGAAAAAAAGAGGCTAGACCTTCCCTA
TAAATGGTAGGGAAGTAAGAGATCCCATTCCTTGTTCCTCTTTTCTCTTTTATTCCTTCCACACTGGCCTCTTTTGTTAATGAAATAATGTGAATTTTTT
TTTTTTTTTTTGGAAACAGGGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACAGTCACAGCTCACTGCAGCCTCAGTGCCCCGGCCCCCACCCTT
GGCTCAAGTGATCTTCCCACCTCAGCCTCCTGGGTAACTGGGACCACAGGCACACACTACCACACCCAGCTAATTTTTTATTTTTTTGTGAAACAAGATC
TCACTGTGTGGCCCAGGCGGCTAGTCTCAAATTCCTGAGCTCAAGCTATCCTCCTACCTTGGCCTTCCAAAATGTTGAGATTATAGGTGTGAGCCACCAT
GCCTGGCTGATAATGTGATTTCTAACAAATGTTGAATAATTATAGTTTGGGAAAGGAAAACAGTATCATTTAGTGAACTATAATTTTTTTCTTAATTTTT
TTAACTTAAACTTTTATATCTCTTTGACAATTTGGAGATTCTTAGGGTGGTTTGATATACCTGCTTTCTAATGGTAGTTAGATGTTTCAGCTCTATTCTG
AAGCAGTGAAATTCAGTCTGCTTTCAAAGTCAGTGAATGCATTTTGAATTATCCCTTATTTCATTTCAGTAGTAACTACCTTGAGACTCCCCAAGTACTC
CAATTAGTTTTTAATTTCAGCAGTAAATGTGTGTTGAAAAGACCAAAGTTTGCATTATTTTCCTTCTGATGTATTTACCATCCATGCCTGTTGACATAAA
AAGATTTTTCCAGACTTGGGTAGTTTTCAGAACCAAACAAAACCCTTGTGCTATAATGTGACTTAGAGACTTTTGACTGAAATGCTTGATATAGTTAATA
CACATAATTTTTTTCAAAATGAAACCACAAAGAGCTATAAAGAGAATTTCATAGCTAATTTACTGCTTACCTGTATTTGGGGAAGCCATTTAGCATCTGT
GAACCTAAATTTCATCAGCCGTAAAATGGGAGTTAGTTTTTAAGTGGAAAGAATGTTACATAAGATAAACGGAGACAAAGTTTTTATCAGTGAAATCCAA
ACAACTCATCTTAAGATGCTGTAAGCTTTATGTGTTTCTTTTGTGTTTCCCTACCCCGCAAATGTTTTTCAAACTTAACCCTGTTAGGTAAAAACTCTGG
GTTCCTATAAACGGGTAAAGTTTGTCCATTGGTCTTCTCAAGGAAAAAGCAATATGAACAGTTTGGGTTATCTTAGTAAAAGGGAGGACTCTGATTTTGT
CTCATGTCCATCCTCTCTCTGTGTGTTCTAGTCGGAATTCCCTTATCAGTCACATGGGTACCACCTTCATGTTTTGAAGCGCTATTATATCCCATTATGT
GCTTGGTGCAGGGACAATAAAAATAAGATTGGTTTTGCCTTTAAGGAGTTCTCAGTCTCCTAGTGAAAGCAGATRTGTAAGCAATTACAATGCAGTGTAG
TGCATGATAGAGGTCTTCACAGAAGAGAAGTGTGCCCTGGAGACCAGGGAGGGCCTCCCGGCTGGTAAGATCCTTTGGGTAAGTGTGGAGGGATGTGGGC
TTCCCAGTCAGCAGTGGTCAGTTCTGTTTTCCTTTATTCATTAACCCGTTCTTAACACTTACAGGCAAACAGTAATGCTGTTTCAAAGGAAATGTAAAAC
TTCATTAAGTTATCCTTTTAATCTAATATACTTGAAAACAAAACCTTAAAAGCAAAATAAAAAATATCTCACCATGACCCACCTTTTATTGATAGGAGAG
GAACCAGTATCACCTGAGGATCAAACTCTAGTAGTCAGTATATCAGATTTTGCTCATATTTTTMAGTTAGAAGTCACTTCTGCAACCTAATTTTGTTTTC
CATTTTTGCCTGAGAGATCAATTTTAAACTGCCTGTGTGGACAGTTGTCATTTCAGATACTGTAAATAATTGTTTTTACTTTAGGATGGGGTAGGTAAAC
TATCATCTTAGGGCCGAGTCTGGCTGTGGCCTGTTTTTATTTGGTCTCCCAGCTAAAAATGGTTTTTATATTTTTGAAGGATTTTAAAAACAACAATATG
CAACGGACTCCAAGTAAGACCCTCAAAGCCTAAAATACTTACTGGCTGGCTCTTTAGAGAAACAAATGGACCAACTCCTGCTTCTAGCATAAAAATAATT
ATTGTTAAGCATTTATTMTAACCTTGTATATATTTTATGGCTGGACTAATATTTGGAAGCAGATCCACCCCATTGGTTCCAGTTTTTAAAAAATTGTTCT
CAAAGAACAGAATGTGTTTTGTTAGCCARTGTTGAGCACATCATGGACTCTGAGCATGGACTCAGAAACTACTGAGGAGAGGCATCGTGGTGCTGAGGTA
ATGTTTTAAACAAAGCTGGTGTTTGGGTGGGTCTTTGTGTAGAGAAAGTGGCAGTATCTTGTGTCACACTTGCTAAGCTATTGTGTAATGACAGATTTCT
GGCATATGCTAAAAGAAAGCAATTTGTACCTGATGTTTGAGTTGGAAAGAGAATGTTATGTAAATGAATTGCTTTTTTCCTCATTGATAGTTTAAAATGA
GCTTTTGATCTACTATAGTCTGTATGTGAATTTCTGACTGCAGATGTTTTGTAAGTCCATTCCTGATTCAGAACACCCTGTCTAAAGTACAGCTCCATCT
CTGTCTGTGCCGTGCCCCACTTTACTGCACTCATAGAACTCGGTCTCCACCTATAACGCTGTCAGGTGCTTGTTTATTTGTGCTTTTTGTCTTTTCTGGC
AGCAAAGCAAGAGGATAGGTGTTGTTTTTGTGTTTTTGAGATGCGGTCTTGCTCTGTTGCTCAAGCACGAGTGCAGTGGTACAATCATAGCTCACCACAG
CCTTGAACTCCTGGGGGACCGCAGGCGCTCACTACCACACCTGACTAATCTTTTTATTTTTATTTCTATAGAGATGAAGTTTCACACTGTTTTGTGCAGG
CTGGTCTCAAACACCTGGCCTCAAGCCATCCTCCTGCCTCAGTCTCTCAAAGTGTTGGCATTATAGCCATGAGCCACTATGCCTGGCCCAAGTTTGTTTG
TTTGTTGTTTAGCATTATTATTTTATAGCAAACTTTAAATTCTTGTTTATTGGCAGGATAAATAGAGGGAAGAAGGACGAGCAAATAGGTAAACATACCT
GCCTCCTAGTGGGTAATCTTGGGCAAGTTTTTTCACCTCCCTCTGCCTCCTCATCTGTAAACAAGATCCTGCGTGCCCGCCTGGGATGCCTGCTAAGATG
GCACATGGGAAGCACCTGGCCTTATGCCTGGCCCTGGTCAGTAAGGGCTGTGCGGTTCCACTTGTACCTGATAAAATTCTAATCTGATTAAAAGCTTTAC
TAGCTCGTGATGGTCATTCTTTTCCTCTAACTTAGCAGCCCGATGAAATAATGTAGTAAGTAAATGTAACCTTGTTGTTTGTCCTTTTGCTGCCACGATG
AACACAGCTGTCTTGCTAGACCTCTGTTGACTTCAACAGGGATAGCATCAGGTTTATTGGAAATTTACATATGGGACAGTCCAGTGGTGGTGGGTTGGAC
AGAACAGCAACTGCTTCCCGAAAGCTTGGAAAAAGCATGCAGTTTACACAGCATTCTTACTTAACATACTCCCCCTAACAGCCTCCACCTGGCAGCCTTA
AAGTGCTTGTGGGCTGGGGGTTCAGATGTTCCCCATAGATAAGGAATTGATTTCAGGGTTGGCCACTAGGATTCCTTAGCTCGGAACTCCACACACRCAT
TCTTCTTAAGTTATTGATGTTAGGTACACCTGTACAACCACCCTGCATAAAGTTCATTCATTCAACAAATAGAGCACCTACTTTGTGCCAGGTTTTCAGG
TACTGGGGAGACATTGGTGAACAAAAAGAGGCTTTTAAAGGATTATCACCTGCTTGGTTGACAGTCACATCCAGTGAATGGTGGAACCCATTTCCTGCTA
ATGTGTATTTGAGCCTGAAATGCACATTGTCCCACCTTTCCTCAATGGCAAAATGCTCTGGAAAGGAGATGCTGGTCTGACTAAATAAAATGGGCTTTCT
GTTTGGAGTTGTAAAGGGAGCCGTGCCTTCCTCAGCCCCTCCTGAAAGAAAGACCTGCTTTCAAGAAGCTTATATTGCAGGGGGAAAGACACATGTCTAA
TACATYGTCAGGGGGTGGTGAGCGTGCTACTGTAAATTTTCACCTAGGCTTTGGCAAGAGCTAGAATTAACTTTCATTCTTTACTGACTCTTTGAAGCGT
TAAAACCACTGGGCAGAGTGACTTAGGAGTGGGCCCACTGTGATGTGTTTTTGTTGGTTTTCTGGTAAATCACTTTTGGGTTGGACAGTGAACCATGATG
GTCTTTCTTCAAGAACTTGTTTTTGCAAGGGTTTGGTGATAAGTCCATCATTTCCAAACCCACTTACTCTTCCATCCTTTCTCAGGTGCTGTGGTTCAGG
GAAATGATTGTTTTGATAGTATTTTACCTATTGCACCATTACTTCATCTGTAAATTTCTTATAAAATATGTCTTGGGATCCAGCCTTGTCTTTTTTGTTT
GTTTGTTTTTTTTTTTTTGAGACGGAGTCTCTGTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATCTGGACTCACCGCAAGCTCCACCTCCCGGGTTCA
CGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCAGCCATCACACTCGGCTAATTTTTTTTGTATTTTTTAGTAGAGACGGGGTTT
CACCATGTTAGCCAGGACAGTCTTGATCTCCTGACCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGG
CCTGTTATGTTTTTAAAGAGAAAATTGAACCACAGGTCACTTGGTTAAAGCTTAGCACATAAATATGAGATTGGAATCACTTTATTTGTAAACATATATG
TAGTGTATATTGGTACAGTATTTTCATTAAGGTGTGTTTCATTGCCTCAGTTAAATAATTAAGGGTGTTGGCTGCTGGGATGTTGAAGTATTTGCTTACA
TAATCCATTGCTGTTTGGGTGAGACTCTYAAATGGATTTAGACAGATAATGGTGAGAAAACTGGATTTTTTATTTAGAACGTGGCTGAACAAGGCARTGT
GGAAATAGTGTGATAACAAGGTGCATTATATAACTTGAACAAATCAACTGCAAAAAGACATTTTCAAAGAAATGGAGGAAAATTGAATAATATTTACTGA
ACTTGACGTATTAAGGAATTGTTTTAAATTATGTTGGATGTGATAATGGTATTGTGATTTTTTTTTTTAGTGCTTTAGAGCAATATACTGAAGTTTTTAC
AAGTGAAATAATGAATGAGGGCCTTAAAATATGCCAGCAAAAAAAAAAAAAGTGAAAGTGGTAGAGTAGAAGAAAGAATGGTGTTGAAGCTGAAAAGAGA
GTGTGGAGGATCATGGTACTACTTATTCTCTCTACTTTTATGAATGTTTTCAACTTTCCATAATAGAATATTTGCTTTTAAAAAGCATGTTATAGGGTAG
AAAGGGAGAGATGCTTTACTTTTGCTCGTCATGAAGTGCCTGAGTGTTGAGGTGGGAGGATCTCAGGGCGAGGGCAGGTCCCCCATTCCCTGCTGCTGGG
GCAACCTTTGTGCTCTGGATCAAATGAGTAACTGATTTGATCTCATCAAATGGCCCCACCCGGGCCATCTCACCCTCCATGCACATGTTTTAAAAGGAGG
TCACTACTCAAAATTGCAGCTGACTTGGAAACACATAGAACGATTTGTTCCCAGTTTTTTCCACTATTACTTTGTATTCCCAATGTTTTGGGGGGCCCAT
AGGAATGGGGCACAGTGCTGTGACCCAACTGGGAACAGGTCATTGTCTTAATAGCGATTTTCTCAGACTTGAAAATTGAAATGAACAAAATAAGGGGCAT
CTACTGGGTAGGGCTTTAGCCATTTTAAGAGATCAATCTACATACTGGGGCTGTGGGCAGGGATGGGGGAAGGAAATACAGCAAACCATGGGTTGGGGTT
GGGGTGAGTGATAGGGTTGTAAAATGTACACCATGTCTTTTCCAGTCAAGTAATGATGTACAAATTATAATGCCATTTCAGATGTAACATACTTGATACT
GACAGTATAAATTGAAGAGTTTTTTTAATTTTAATTTAGTATAATTTCAGAAATGGTGATTTTAAAAGTTTTGGCAGGGTTTGCTTATTTAAGCAAATTT
TGTAAGATTACTGATTTAGTTTGGATTTTTTAAAAGAAGCTACTTTGGTCTTGCTAATTTTTGACACATGGCAAAAGTAAAGACTGGGGTGAGTTCAAAT
CTTGTCTAATCGAAGTTTCTTACAGGAGAAATGTTCTTTAACATTGTATAATATTGCTCATGTGATCTTAACTAGGGGCAAAAATTTATCTCAGCAATGG
CACAAGACTTAAGTATGGTTTATGTCTTATGTCCTCTAAAAAACAGGTTAGCAAAGAAATTTTTCGACCTTTTTTTTTTTTTCCTGAGATGGAGTCTCTG
TCACCAGGCTGGGAGTGCAGTGGCGCCATGTAGGCTCACTGCAGCCTCCGACTCCCTGGTTCAAGCGATTCTCCTGCCTCAGCCCCACGAGTAGCTGGGA
TTGCAGGCACACGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGTTTCACCATGTTGGCCAGGATGGTCTTGGTCGCCTGACCTCGTGAT
CCACCCACCTCAGCCTCATTGTTTCCTAGACTCACCTTCTCACTCCCAAGATCAGAAATTGGAAATCATCATTCTCAGTAAACTATCGCAAGAACAAAAA
ACCAAACACCGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGATCACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTTGTGGGGTG
GGGGGAGGGGGGAGGGATAGCATCGGGAGATATACCTAATGCTAGATGACGAGTTAGTGGGTGCAGCGCACCAGCATGGCACATGTATACATATGTAACT
AACCTGCACAATGTGCACATGTACCCTAAAACTTAAAGTATAATAAAAAAAATAAAGAAAAAAGAAAGGAAAAACTCTTCACAGGCTTCTAAATTTGCAG
AGACAACCATGCATTCCAGGTGAATAGTGATGTTTAATCTATAGGCCTTTAGTTCCCTATSTTTTCTGAGCCTACAATTAAAACCGACTCTAGCATATAA
TAAGCCATCTTGGCCTTGTCCCTTACTTTTGTTTATGTGTGTAGTTACTAAGTTTACTARGTAGTTACTAAACTTAAGTTTCTGTGTATAATTACCTGCA
CATTTCAGTGAAGCATGTTGGTGATGAAGTATTTATGATATACCTAGTGAAACTGAAATCACATGGTATACAATCAAGACTTAGACTTCAGGAGTTTATT
AGATAAATTCTTGTTCAAGGTCMCTTTCTCTTTATTTTGCCTGCCCTGAGGTAAGGAGATGAGAAGGATGTAGATTGTGTTTCTAGAAAGAATAGTTTCT
TTTGCTGAATGTAACATCCTTTGATTATTTCTTTTCCCTTTCTTAGGGGAAAGTGGTGTCTAAGAAKTCCAGTTTACTTCCCTGTTAGATAACACACAAT
GTATGTTATTTCCARTGTAGAAGAAGTTGGTTCTTAATTAGAGACACTCACCAAAAAGGGCCTTAAAAACTAGCAGCTAATAGGTATCAGGAGCATTATT
TTCATACGCCATCAGCAGGTCGGAAATGGCCATCAGTGTTACTCGGCAGTGCAGGCTTGGAACTCGGGCATGACTAGCAGTCATTTCATTGTCAGACCTA
TGGAAAGCAGCTCCTTTCTGCCTCCCAGATGCAGTGGACAGTAGGGAGGGCTTAGCACAGAACTCTTCCCAACCTGGTTTTAAAATGACCCTCTTTTGAA
TGTGAATGCCCAGAARGTTCCCTTCTAGTTCTAAGGTCATGATTTTCTTGCTGATAATAATGAGCACAGATGGGACTGGTTTGTCCGCTTTTTGTGTTTG
TTAAGCAGCCTTGGTCTGACAGGATGTGGGTCTAGGGGCAGGAAGTGGCTTACTCTCAGAGGAAAAAGGAGAGCTATTTAGGATTTGAGATTTCATTACA
TGTTCTTGAAATTATGGGGTGGCTATTATTCTGGACTCTCTCTGTATATTTTATATATTATATATATATATATATATATATATATATATATATATATAAT
GTTACATAATATTTACCCTGGAGTTGGTAAATACAAACTTTTCAAAAGCATAAAACCATTGGCATCTATTTAAAGATACTATTTTAGGAGTAATGTTAAA
GAGCCAGAGCTACACAGATATTTTGGTAGCTGATTACCAGAAGTTGAGGGTCTCAGTTTTTGTAACCATTAAAAAAAGGTCATCAGACGAGGATAACCGT
ATACCTCGTATCGAGTACTCATTTGGAGTCACTCTACCAGTTATACTTCATCACTATTCTGATTGGCTACTTAAAACATACGTTTATATAACATAAAAAT
GTAACATCATGTAGATACGTGAAAAGTCAGTTACTAGGAAATTCCCAGCCCCCACTTCTGTGTCAATACTCTGCCCTGTTAACGTCTGCTGCACATTAAG
AATTTAGCCTTGACATTTTAAGTTTAGCCTAATGGTGGTGCTGGAGGAAGTAGTAAGGAGAACAGTTTAGAAAAGGAGGTGYGAGTGGCATGTAGTGTTA
CTTTTCATCATTTAAATTACTCARAAAGTTCCTTAAAGTGCTTCTGGCTTCTCTGGGAAATGAGTTCCTGCTTCCCTGTGGTGTCAGGAGAATCGCAGGG
TAGGAGACACGGCCCCTAGGATACTGGACATGGGCTGGATGCTGTATTCGAGGGATAAACCATGTATGGTTCTTGTGCTTAAATAAGCAAAAACCTGGCC
GGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATTACGAGGTCAGGAGATCGAGACCATCTAACTAACATGGTGAAA
CCCCGTTTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACATGCCTATAATCCCGGCTACTYGGGAGGCTGAGGCAGGAGAATCGCTTGAACCC
GGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCGCCTCAAAAAACAAACAAAACACTACCAC
CAAAAACCTAACTAGCCATAGTCAAGTAGAAGTATACAAATATTCCAGAAGAACTAAACTATAAGGTGTTTGTAAATATTTAGATGTGAATGAGTATAAA
CAACGCATCWAAAAATCATAAAAATTGATATTTGGTAAATTTTCCTTTCTGCCAGACTTGCTGGCAGTTAAAATTTGAAACAGTGACTGTACCGAAAGCC
TTTTTATTCAGGTTAAAAGTTGTACTCCCATTTCCTAAAATAAGGACTGAACTGAGAAACTCTAGCTACAGCTRCTTGGTTTTCCATAGAGTTAAGTTGG
CTCCTTAGATGCTGAAGTCTGTAGTTATGACCTTGCTTTCATTAGTAATTAGCACCTGGGCAGGTACTAACCAATGAATGCCCTTTACACCTGGCAAGAA
GGAATGGGTGGGGAGGCCAGATTGTTTCAATCTAAAGGGCACTACGTTGTGGTGGGTTACGTTTTTTGGTAGACAGACACTGCCTACAGGCAACTAAGTC
ATTCCATTAACTGTCATTATCAATCCATGTGTGGCCAAGCTTGAATTGTCCTGCTGGTTTAGCTTCCTGATGGGGAACAACAGCTGTCGCAACGCACAGT
GTCTGCAGCTCCATCATGGGCCCCAGGACGTCCCACAGCAGCTAACACTGGTCTGTACTCGGAACTCTGCCACCTGGCCAGTGACTTTTGTGCGTCATGT
TCCTGGGAATAGTATGACTGTCCATGATTCCTAGGAAAGCTAGAGGAATAACTGAGGATGAGGAGCTAGCACTTTGACCCCTGTGGGGAGTGCTGGTTAT
AGTGGTTATCAGGGTTGTGACAAGTGGACTCTTGTGAGTTCCAACACTGGATGATTTTATTATTCCTATTACTCAGGCAGTAAAAGACTAGTACATATCC
TGGTGTTATATAATTATATGAAAACTTATCAGAATGAGTTTTATAACTAGCGTACCCATGTTTTTGTTATTGTGCTGCAGATAAAATGGCGCACTGAAAT
GTTACTGAATTAYGTGACAATTTTTGTTACAATTCTGTGCACTTTTTACAAGATTTGTGGAGCTTAGATAGATGGCTGGCCTTTGGCATCTGAACATTTT
CCTGAGCCCGATAGACAAGCAGATTTTTTTTGTTTGTTTTTGGAGACAGGGTTCTCATGCCTGTAATCCCAGCACCCTGCCTAGTTCAAGACCAGCCTGG
CTGGCAACATGGTGAAACCCCGTCTCTACCAAAAATACAAAAGTTAGCTGGGCATGGTGGTGCACGCCTGTAATCCCAGATACTCTGGAGACTGAGGCAG
GAGAATCGCTTGAACCCGGGAGGTGGAGGCTACAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTTGACAGAGCGAGACCCTGTCTCAAAAAAAATTA
AAAAGACAGGGTTCTGTTACCCAGTGTGGTGGCGCAAGCATGGCTCACTGCAGGCTCGACCTCCTAGGCCCAAGTGATCTTCCCACATTGGCCTTCCAAA
GTGCTAGGGTTACAGGAGTGAGCCACTGTGCCTGGCCAAGATTTCTTTGCCTTTGCGCTCATGTTCTTCTTTAACCTTAAAAGAAGAGGTCATATAAAAT
AATCAGGTATAATTTAAGATACAGAAAGCTTGATAGAAAGGAGTAGCCGTGTTCTACATCTTCATCCATTGCATTTGCAGATATGCCTCAGGATTATTTT
ATTAGTACAATTTTTTTTTCTTTTTGAGACAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCACACTGCAGCCTCCACCTCCCAG
GTTCAAGCGATTGTCCTGCCTTATTCCCTGGTGTATCTGGGATTACCAATGTGCACCACCACACCCGGCTAATATTTTGTATTTTTAGTGGAGATGGGGT
TTCGCCATGTTGGCCAGGCTGGTCTCGAACTGCTGGTCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGGTAGGATTATAGGCATGAGCCACCGTGC
CCAGCCTAGYGTCATGTATTTATACTGTTATTTCCACCTCCTAAAAGTCAACAAGGACACTTAGCTCAAGAAGGCTGATGTTGAGAGAGAACGCTTATCA
GAACAGGGATCTCTGAGGAAAAAGGGAGCTTAAATGTGTGTCCCTGGAATTTCTTCTAGCCCTTCCTTTCCTTRGTGACATGGCCACTGCTATGGGCGGG
AATTAGAGAAGAGCCCTGACCAGTGGTGTTGATGTCTTTGCCAAGTATACTGTCAGGTCAGTGTCATAAATTGATGATATATATAGAGAGACTTCATTTA
ATAGAAAATAATATTTTAAGGACCACCTTGCTATTTTACTTCTCTAATAATGTTTTGAATATTTTGATAAATACCTTTAGCAACATAGTGGTTCTCATCT
CAGCCCTCTCTGTCCTTGAAAGAATGTTATTTATAACAGGGTGGTTTCTGGACTGCCCTTCTGGAGTAAAACTTGGGCATTCTAACCATATGCTTGCTGG
AAACCATAATAATGTAAAAAGTCGTCATTGGGTTTTCAATTGCAATTACATTGATATAATTTTGTATATAAAACAGTRTGTTACTGGGAGCAGCATTGTT
CATGTAAGAAAGATGTTCGCTTCATATAATACATGGAAACAAAGTTATATTTTCAATGTTAGCCATTACTGTGACACTCCAAAAAAGGCTGGTYATGGGG
AGAAAGAAGAGCTTTAAAAAAACCTACAGACAATTCACTTGCCTCTTGGGCTTTTCTGCTTTGCCTGCCTTGACCGAATTAGAGTATCTGCATTTCTGCA
CTAAGCTGGTTGAGGTTTGCTAAGTCAATGGTAATGTTTTACAGAGCTTGGCTGTTAGCCAGCATTTGTGGAAAACGACCAATGTCTGTCATAGCTARTG
CTATAATTTATTCAGTTGGCATATTGTTTATGGAGACAGTGAGATAAGGGGATYAGGATCCAGAGAGACTATTAAAATATGTGAGTCCATCTGTTGTGAT
CTGAGGTTTCATTAGAGAAAACCTGTCTGCTAGTACAAYAAATGGAGACTTAGTAAGGATGTTTTTATATAAAGGATTATAAATCAGCAGAGGTAAATAC
ATTAATCTTGGCCAAACAGGTCATGTCCTTTTGCGTTTTCCTGATGGCAGGTTCTGCCCCCTGCCGCCCGGRCACTGTTGGTCATAGCRTGACCTTGGCA
TCAGCTGTGAGCCGGTAAACATGGAAATGTAGGCCCCTCCCAACCTGAGTCAGACCCTTRGCCTGGGGTCCAGGAAACTGTTTTAACAAGCCCCTGGGTG
ATTTTTTTTCACATGTTCAAGTTTGAGCGCCTCGAGGGCCTGTGAATGGCTGCATATAAGGTACAGCTGGCCATATGTCTTAAATGACTTCAAAGGGGTG
TGAGCCAGGCCTCTTCCCACACCAGACTTCATGAACCATGCCTGGTATTGTCATGTTTTTGTGAGCAGCCGTGAATAGGGCTGGGGGAGAGAGATGTTCA
GCCAAGAAAGTCTAAAATAGAAAGGGAATGTTCAGTTATAACAAAACAAATTTTTGTAATTAGAGTGCTGGGTTGTGCTCAGCATCATTGGAGTTAAATG
TGGAGCAGTGGCTTACACTTGTAATCCCAGCACTTTGAGAAACTGAGGTGGGCGGATCCCTTGAGGTCAGGAGTTCGAGGCCACCCTGGGCAACATGGTG
AAACTCCATCTCTACAAAAAATAGAAAAATTAGCCGGCTGTGGTGGCAGGTGCCTGTGGTCCCAGCTAAGGAGGCTAAGGTGGGAGAATCTCTTGAACCC
TGGAGGCAGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGAGACCCTTTCTCAAAAAAAAAAAAAAAAAAAAAMA
GCGGAGCAGCAAACTAAGTCCCTTTTCCATCGAGGGAGGTCTCTGAAGCARAGCTGAGCCAGCCTCTCAGCTCTGCCCTGGTGGGGCACCCCATAGCGCC
CAGAAGCAGTGAGGGCTAAGGCGGCAGAGTGCAGCATGGCCATGCATGATTGGAGCGCCGCTACTGTGTTGGTGTCAGTTTGGCAGCCAGCAACTTCTAA
GAACATAGAATATTTTCATTTAGAACTTAAAAACAGTAAACCCAAAAAGTTTAGTTTTTAAAAATTCATTTTGTTTCTCCCTAAAGATTTTTATTCTTTT
GAAAATGACCACAGTCTAGTTTGAATGCCATTGTTTTTCAGCTGTTTCTTATTTGCAATTGCTAAAAGCCAACAAGGAGCAAGTTAAATGTCCATCACCT
GAATGGGTAGACAGAAGTGACAGCCACACAATGGAATATTCCTGGGCAGTAAAAAAAGAATGAAGTGCTGGTRCATGCTACAACATGAATAACCCTTTTA
AAYATTATGCTAAGTCATGGGATTCAGTCATGAAAGACTGCATATTACAAAATTCTGTCTCTCTGAAATGTCCAGAATAGGCCATTCCTTAGAGACAGAA
AGTAGATTGGTGGTTTCCAGGGGCTGAGGGATCAGGAGGAATGCAGAGTGACTGCCAGTGGCCATGGAGTTTCTTTTTGGGCTGACAAACTATTCCAAAA
CTAGATAGCAGTGTCAGTTGCATAACTCTGAATATACTAAAAACCACTGAATTATACATTTTCCATGGGTAAATTTTATGGTAAGTTACATTTCAATAGC
TGCTATTTAAAGYACATAGTGACTCAACATGAAAGGAAAAATATACAGTTTTGTCTCTATAATTACCCAATTAAGTGAACCAAAATAGCTGCAAAGTTTT
TAATTCATTTATCATTGGTTGTAAGAATTTTCCCTATCATACTCCCATTTGTGGGAGAAAATTTACTGTATCTACTTTCTATCAGAGCATTTCTAAGTAT
TTGAAAGGTCTTATCCAAATATTTGAAAGCTGTTAAAAGTTGCTGAAGTGGCACCTTCGGAAGAAGGCTGGAATGTTGGAAAACAGCGTTGACATTTTAA
ATGATATGGAAGGTCAAGCTCGCAATGTAATCTTGGTGGTGGCTGGATGGCTCTACTCAGACTGGTTTTTGAGTAAATGGCAGGTGTGATAATATAGGGA
TTAATCTGTTAACCACTGAATCCACTGCCTGAAATTCAGACATTCAAATGCTCCCATTTGAATTTCCCTTTCTTATTTTACATGGTTTTCCTGATTTTTG
AGTACATAAAAAAATTATTGCAAACTTTTTTCCTGCAGTGTTCTGGCCACTGAAATTAAATCTGGTTCTTTTGTCTAAGACTCAAGGGTTGCTCTCCTGT
AATGTTTGTGGAGGAACTGATCTTGGACTTTTCCCTCCTGTCTTGGGCTTTTATTACAGTTTGAATTTATGCTGTAAAAAGTGTGATTGTAGAGGTAAYC
TATAAGTTTAAAATATTCAGAGGAAATGGATGCTTCCCAAAGGAAAAATTGCATACCTATATTTATTTACCAAAATGAGGAAAATACCTGGGAAATAATT
TGGCCAAATATTCAGCAATTATATTCATAGATTAGAAGCAAAATACAAAATTTGATTGTCAACTTGGTACCTTTTTCATTCCTTACACTCTTAGAAGGCA
TTTTAAGATGCCATTTTGATAAAATTAAACTGGGAAGACTCAGAAATCATGTTTTCCCAACTATATTCTGAAAAATCCTAGTTCCCTGGGATGCTCCGTG
GAAATAACCTGTGGGCAGAACAATCTGTGAAGTGGAGACTGTGGCCCCGTCTTGGACTGCCACTGTTGGCATCAACATGGCAGACAGGCAACAGCCTTTC
AGCTAAAGAAGGAAGAAACAGAAAACCCCACCTTAACCACTGCAGAGTTACGTGACCTCCAAACACTGCCCCCCACAGCATATCCCCATTTTTGTCCCTT
TCCCTTTCAAAGCCAAATAATTTCAAAGAGGACTACATAGCTGCTGGCTTGGGATGGTGTCAAAAGCCAGGCAAGATGATTTTAAGTCATAGAATGATYG
AGCTGGAAGATGCTCACAGATTAAATGGTCTCCAGCCACTCAATATCAGCAGCAAGGGAGAGGAACAGGGTTGGCCTGAGTGAGGCTGGGGCCACCCCTG
CCGCCAGGCCTGTGTGCCAGGCTCAGGTGCTCCAGGGAATGAGCAAAGAGGATGTTGGGTTTATTTTGTTTTAATAAGGCGAATTGTTACTGAGTTTATT
TAAAAATAAAGCAGCTTGGGGTTTAACACCTTGCATGTCGGTTGCATTGGAGTGGTAACACCTGTGCTGTCGTGTGTCTGCCTGGAGGGGTACTTTCCTT
CTTGGGAAAGTGAACACAGGTGTGTTGTCCCTTCTCCGTGAAAACACTCTACTTGCTGGCCTTGAATAGCATTCTAGTGGGTTACTTTTCTCCTAGTGGT
CAGAGAGTATTTATTGGACCTCTGGTTCCATTGGCATGTGTCCCCTAAGGAGGGAGACCCTTCAGGGGGTACTTACACCTCTACTGTCCGATGGCACTGG
CTGTGTCACACCTGGCCTGTGGGCTTTGAACCTAGCATTTCAGAGTGGGAAAAGGCCTCAAGCCATCTAGTCCAAACTCTACCTGCAGATCAGGTAGAGG
CCCAGTGGCAGGAAGTCATCAGCTAGGGGTCCTCAGATTACAGAGCTAGCTCTCAAACCCAGGCCCTCTGTCTCCCGTCTCTTGCCTTCCAGTGATTCCC
AAATTTGGCCTCCTCAAAATCACTTGTGGAAGTGACAGCTTCCTGGGCTGCGGGTGTTTGAAAAGCTTCTGTGGGGATTCTGATGSTGAGGCTGATGTGG
GAAGCACTGTGGTGTGTGATCACTGAGGCACACCCATCTTCATTAATGTGTAAGCCACTCGGGGATAGGAAGGGCTAATGCCTCTCTGTACTCACAGTGC
CCATCGAGGTGCCTGGCACACCTTGCAGTAGTTAATTGGTATTTGTGGATCGAATGAACATGTTAGGTGCCCACTAGCAGGGGTTGGTCCTGTAGTCTGT
GGCCATGGAACATTAGAAGAATAAAGCTATTGTGGTTCATCCTGTAGTATAGTAAGTTCGAGCTGAGCTAACCTGTAATAACACAAATATAATTTTTTTT
TTTTACGTTTTTAAAAGTTAGAGATGGGTTCTTGCTATGTTGCCCAGGGTAGTCTCAAACTCCTCGCCTTGAGATCCTCCTGCCTTGGCTCCCCAAAGTC
CTGCGATTACAGGCCTGAGCCATTATATTTGGCCAACAAATAGAATTATTTATTTATTTATTTATTTATTTTTTGCGATGGAGTCTCACCCTGTCACCTA
GGCTGGAGTGCAGTGGCGTGATCTTGGCTCATTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCTCTCCTCAGCCTCCTGAGTAGCTGGGATTACAGG
TGTGTGCCACCACATTTGGCTAATTTTTATATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGCGCTGGTCTTGAACTCCTGACATCAAGTGATCT
GCCTGCCTTGGCCCCCCAGAGTGCTGTGATTACAGGTGTGAGCCACTGCGCCTGGCCTAGACTTTTTTAAAGAGTAGATTATTAAGCAAAGGGAGAGTAT
AAACAGTATTGGTTTTTCATTAGCTTCATCTGTACCGTCAACCACATGGTTCTTTTTGTCTTGGTAGTGGTACAGGAGTAAAGTTAAACTTAAATCACCA
CCAACACCCCCAAGCTAAGCATAACTTTTAAAAGTTTTTAATATTTTGGCAAGCCTGGGAGAAATATTGCCCTTTTTTGGGTAGATCTTGGATGACTAAC
TGCTTACTATACACACACCTGTACTACACGTGATTGCGTTGCCTTCACTGAACACCGTTTTTGATAACTGTGTAATCTGAGGGGAATTACTAAGACAATA
AAAACTGCAGACCACGCGCTCTTTTTCTCCAGTCTGCACATAGTTTGGATATGTGTGGTGGTGTGTTTAAGCCCATGGACTTGAGTTTTTTATGGGACAA
TCCTTGTGTGTATCAGAATCATACAGTCCCAGTACCATCTTATTCCTCTGGCATTATTGAAGATACAAGAACCAGTTGGCATTCAAATATGTTGAGTTCA
CTAAAAACAGTTGCTGATGAGGGAAACCTAACACCCTGATAATAAAATGAAAAGTTGGGATTTAGATGTGTTTTCTCAATTGMCAAAGCCTGGTGGTGGT
GGTGCTGGTGCTGGTGCTGGTGGTAGTGCTGGTGGTGGTTGTGGTGGTTTTGAGTCTTCGCTGTATCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGCT
CACTGCAAGCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGAAGCTGGGACTATGTATGGGCACGTGGTACCACGCCCGGGTAATT
TTTGTATTTTTAGTAGAGACGGGGCTTCACTGTGTTGGCCAGGCCGGTCTCGAACGCCTGACCTCTAGTGAGCCACCCACCTTGGCCTCCCAAAGTGCTG
GGATTACAGGCGTGAACCACTGCATGTGGCCCCAAAGTCTGTTTTTTTTCCCCAAGCCCTTGGATAAGTAGACAAAGTATGTATGTAAATGGTCCTGTCA
TCTCAGTGAATGTCTCATTTTAAATTTTGGTGAAAGCTTATGCTGTATTGTAGCACATTATTTTATCTATAACATTGAAAATAATTGGCCTTTCTAAACA
TGGAACTGTTTATCATGCAGTAGGGTAAGGCAGTGCCATGCTGTGGTCCTTAATCTGGGGAGGATCTCCTCCCTTTTCCCCATAGAGCATTTGGAAATGT
GTGTGTGGATGGGGTTGCTTTTAGATGTTCCAGTGACTGGGGACACTCAGTCATTGGATGGCTTAAGGATGCTAAACGTTCCTGAGTGCTTGGGATAGTC
TTGCAGAATGAATACTTGTGCTGTCCAGAATGACAAGAGCACCCCCAGTGGGAAACACTAGTAGGGTAATGACTAATCAAGTAACAGACATGCCCTTTAA
CTTAAAGCAGCTCATTAACATAGTATTCATTTACCTGTTTAGATTTTGAGTATCTTCTCTTCAATCTCTATGTAAAGATACAGATTGTAGAGCCTGCCCT
ATGTATGAATATATATATATATTAAAACTGTGATTCTAAGAAGGGGTTCTTAAGGTTCTGGTGTGTCCCCAAATCAGAACTGGAAATTATTCCTTTTAAC
AGGGCCAATGGATTCCTATTGCTGGTCCTAGTTTTATTACTGCAGTGCCAGAACAACTCCCTGATCATCATTTTTATTTTTTTAAAAGAGGATCTCACTC
TTTCATTCAGGCTGGAGTGCAGTGGCTCGATCATAGCTCACTGCACTCCAGCCTGAATGATTTTTTGTAGAGAGATGGGGTCTTGACTTGTTGCCCAGGC
TGGTCTCAAATTCCTGGACTCAAGTGATCTGCCTGCCTTGGTTTCCCACAGTGCTGGGATTACAGGCATGAGCCAATGGGCCTGGCCTCCCTGATCTTTA
GACTTGCAATAATTGTTTGAGGTTGCGTACCATAGGGAATGATTGCCCATGGGTGTTGGAGCATAGGTAAAAAATTTTGTGGAATGATCGGACCAGCTAA
GAGTTGGCATTGTGTTGGAGCTGCTGGTGCTCAGATGAAGTCCTTTTGTTAGGAGGTGTAGATTTGTTGACTCATGCAGAACTTCTCAGTAGCTTACTTT
TTTTTTTTTTTGAGATGGAGTCTTGCCCTGTTGCCCAGGCTGGAGTGCAGTGGCCCGATCTTGGCTCACTGCAAGCTCCACCTCCCGGGTTGATGCCATT
CTCCTGCCTCAGCCTCCCGAGTAGCTGTGACTACAGGCGCCCGCACACCTGGATAATCTTTTCTATTTTTAGTAGAGATGGGGTTTCATCGTGTTAGCCA
GGATGATCTCCATCTCCTGACCTCGTGATCTGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCAGCCAATTTTTAAGTT
CACTTTCTACACGCTACTGGGTTGTTAAAACCAACCTCAGTAAAAGTATCCGTTTTACAAGTTACTTGCTTTTTCAGGCCAGGCACAGTCAGGAGTTTGA
GACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAATTACAAAATTTAGCTGGGTGTAGTGGCTGGCATCTGTAATCCCAGCTGCTTGGGAGGC
CGAGGCAGGAGAATCGTTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATGATGCCACTGCACTCCAACCTGGGCGACAGAGGAGACTCCATCTCA
AAAAAAGAAAACAAGTTAATTGCTTTTTAAAAGGGTTGTGTGAACTTTCAGTCAGATATGAAACTGTTTCAGAACCAAAAATAAGTTATTCTAAATTCCT
GCTAGTCAGTTTGCAAAATGCTTAATATCTTTTTAATGTTAATTATTAGCTTTGGTTTCAGGAGATGTCATTTTCACACTGTCTTCAAACTTAGAAGAGA
CTCAGGTTTAGAATTTGGAGTCTGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATGACAAGATCAGGAGA
TTGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGTGTTGTGGCGGGCACCTGTAGTCCCAGCTACTCGG
GAGGCTAAGGCAGGAGAATGGCAGGAACCTGGGAGGCGGAGCTTGCAGTGAGCCAAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGAAAGACTCC
GTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAATGGAGTCTGAAATCTCGTGTGCATGGACTCTGGTCATTTGTCTTTGTCCTAACCAGACAGTGGCCTTC
AGTTCTAATTGTACTTGGGGTTCCCACTTCTGAACCAGTAGATAGCAGAGAAAGAAAGGTGGCATATCCAGGGTTCTGCATTTGTGAGCAAACGCCCCTC
CACTTTAGTTTTAGTGTGTTATGTCATTGTTGGCTTCTGTGTATGTAGCTGGAGCTGCATTTGTTATTGAGATATTTGACTTGGGGCTGGTTTTCCCATC
TCTAATACATGCCCTTGGAACCATAATTGAGAGAAATGCGTGCTTTTATTTTATGCTTCATAACAGCCATTTTGTGATTTTAAAAAAATTACCAGCAGGA
AATGAAAGAAAAGTAGGTTTTTATATTTTAGTATGATTAAAGACTTTAAAACATGTCTCGTTGCCTCCTAGTAAACTTGAGTTCTTTAACTTCTGGACTT
GGGGATTGTGGAGAAAACTTTTGAAACAAGATCTGGAAAACGATACTTCTGTACTTGTTGTACCAGTCGGGGAGCCTTTAAGGCATATTGGATGCATGTT
AGAGGATCTCTCAGTCATAGTCTTAAATGTTATTGGGACGGGGTGGGAGCGGCTGGGGAGACTAATTATGTTCCTGAAGTAGGAAGTGACATTTGGTGAG
TGCTTAATATTTCTGGTTCCCTGGCTGGATAACGAAACCTCTGTCGCCATATACTGGCACAGGTAATACGTCCTTATTACATTTACACCTGTGTTAGGAA
GAATCCGGGATAGGTATCTCTCCAGCTTCTGTATATTTCACTTGAAAAATGGTGAGAAGCAAGCATTTCTTAATATTAAGCATTATAGTTGCTATGTGGC
TCTGCTGTTTTCTTTGGGACAGTGACATAAAGTAGCCAGATTTGAGTGTTTTTCATACRCTTTAGTAAATCTGGGTTTTCTCAAGTGATAAATTTGAAAA
CTGCCTTGATGTAAGTGGGTTGTTTTGTTGTTGTGGTGGTGGGTTTTTTTGTTTGTTTGTTTGTTTTGAGATGGAGTCTTGCTCCGGAGCCGAGGCTGGA
ATGCAGTGGCACAATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGTGCGC
CACTATGCCCAGCTAATTTTGTATTTTTAATAGAGATAGGGCTTCACCATGTTAGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGGTCCACCTGCCTC
GGCCTCCCGAAGTGCTGGGATTACAGGTCTGTGAGCCAATGCGCCCGACAGTGTTTTGTTTTTTTAAAACAACTACATGGCAACATTAGAAATATTTTAA
GGCCCTCCCATCTCCACCTCCTCAATTCTGTGTCTCACCATCCTCATACTATTTCCATTTTTACATTTTATTTTCATGTCTTGTCTAAACAGAGTTCACA
TTTGCATTGAGTGTTGCTTGTCGTATTTTTKATTTCAGAAGCAATTTGCCCAGTTTCTACTATTTTCGTAATTATAATTTAATATCACTACATAATCCAT
TTTTKATGTGTCTTTGGACATTTCACCATTTCTCTCTCACTATGGTTTCTAAGGTTGCTTCAAACCTTCTGATTCAAAGCTCTTTCTCTCTTCCCTTCTC
TGACTTCCTTGGTGCCTTGGGAGCCCTCCTGCCTCCCTTGGCTGTCGTAAGGCTCATATGAGATGGTGCATGGAAAAATAGGTTAAAGTATTGTTTTAAC
AAAAAAGAAAAAAACTGCTTAGGTTGGGCAGGGTGGCCCATGCCTATAATCTCAGCACTATGGGAGGCTGAGATGGGAGGCTTGCTTGAGCCTAGGAGCT
CAAGACCAGCCTAGGCGACATAGTGAGACCCCGTCTCTACAAAAAGTAAAAAACAAAACGAGCTAGGCATGGTGGCACCTATAGTGCCAGCTACTCAAGA
GGCTGAGGTGGGAGGCGTTCGTGTGAGCCTGGGAGATCATGACTAGTGAGCTGTGATCGTGCCACTGCACTCCAGCTTGGGTGACAGAGCAAGAGCCTGT
CTCAAAAGAGAAAAACTGCTTAGACCTAAGTGTCAGTGTGCTTTATTAAAGCAAAGAAGCTGCGTTTGGTTTGCACTGTGTGCCTCCTGAGACATCCCCA
GCCATCTGCAGTCAGGAGTGGTGTGTGGCTTCCTGACTAGCACAGGAACTGATGTCAGGCATATGCCGTCGCCACACTGAGGAGCAGCTTATGTAGAAGG
TGCAGGAGGTTATTAGAAGAAAAGAATACTCAGTTAAGCGTAATTTGTTTCATTCTGTTTTTCAGATCAATGTCCGAGTTACCACCATGGATGCAGAGCT
GGAGTTTGCAATCCMGCCAAATACAACTGGAAAACAGCTTTTTGATCAGGTTGGTCTCTGAACTTGAGAGTTAACTCCACCTASARAAAAAAACTGTTTT
GCAACATTTCRGTTATTTTGTTTGCGAAGCATATTACCTTGTTTTACTCACTTGAGGTAATAGATGARAAGGATCTTTTAAAAGGTGAAAGTATTTCATG
ATAGCATTATAAAATGCATTAACAGACAAGTATATCATGCCTRGGAAGTGAGGTGTATGAAAGCACACAKCTGTCTGTTGTATAAAGTCAGGCGGATTCA
GTGTGTTACCAGGCATGGAAGCAAAGGACTGAAAAGAGAGTTATTGTGCTTGTCATTGTAAGGAGGTGCTGGCCTGTGTGTCTCTCACCCTGTATTAGAG
ACGCGGCTTCCTACCCGCAGCTGCCTCCACCTCMAGAGTAGAACCCCTCTCRCTGCGTGGATGAGTGAGCCTTAGTTGTCTCAGTTGCTGCAGCTTCTCA
TTTCTAAGTGATCGTACCTGAACATCTATGAAAGGAAGAAATGAAGATTTAGAGAAATAATTCACTTTTTAAAATTGGAAGATTTTTTTAAATCAAGTAT
TTATTAGTGATATTACTACTTACTTATTAAATACTTTTTTCCCCAATAACAGCTGCTTCAAATACAGCGTTGTTTTTTTTTTTTTTCTTTGAGACTGAAT
CTCACTCTGTTGCCCCGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTGCAACCTCTGTCTCACAGGTTCAAGCAATTCTCCTGCATCAGCTCCCCGAA
TAGTTGGGATTACAGGCACATGCTACCACGCCCTGCTAATTTTTGTATTTTTAATAGAGACAGGGTTTCGCCATGTTTGCCAGGCTAGTCTCGAACTCCT
GAACTCAAGTGATCCACCCGTCTTGGCCTCCCAAAGTGCTGGGATTACAAGTGTGAGCCACCACGCTCAGCTTGCAGCCTTCCCCCATCCCTTTTGGGTG
AGTGGGAAGAGGGGGAAGAACAGGTCAGTCCTGGGCATTTAATAAACAGACTTCTAGAGCTTTAGGGAGCCTCTGGCCTCCCTGCACCCTTCAGATGAAG
AAACAGGCCCAGATCAGGAGTTAATTTGGAATTTTAGGATTTACTTTAAGCAAATGYTCTGTATACCTGAGTTGTCATTTCTAATGTATTCAACCCTCTT
TGGCATTAAATATGATAGAAGCCATGTATTTGAAGGATGGTAGCATTTTTTAAAGTTTAACATTATATATCATGGGATTTTAAATTAGACATCTATGTAT
ATGTAAATAGTCGAACTTGTCTGGGACTCGGTTTAGATGATGTTCAACAAATGTCCACRGCAAGTTCGACTATCACTGCTTTTCTGTTTACAAGACAGTC
GTGAGACTAAGCAGCTCAGGACTCCTGTAATGCACAACAGAGGCTTGAAAATGTGAAATCTTTGCTGTGACCTAGGGTCRGGATTCTACCTTTGCTGTAT
CAGAATGTCCCATTTCTGGAGGTCTATAAGATGCAGGTTCCTCTGGGCACCCCTGTGCATTGACACCCTTCCGTCCCAGAAGTCTGCCTTGYCTGTTTTC
CTGCCTTTCCTAGGATTTCTTTGTCCCTGTTCCTAGTAAGTCAGACCCCTGGGCCAGCTGGCTGAGAGGCAGAGGCAGGCAGCCAGAGGAGGCTCAGGTG
TGGCACTGGATGCTTTAGTCTTCTGCATGAGCACACCTGACSGGCAGCGATGCACCCACCGCACTGTTCCCTGGGGGGCTGTGGGCTCCCATGGTTCTGT
GTGTGCTGGCCRTAACCCGCCCTGCTGAGTTTCATGCAGGAGAGCATCCTGGAGTACAAAGGAGTAGGAGTGAGATTTTCTAAGATTTGAAGGTAGAACC
CTGAATCTGCTCAAATTTATATYAAAAATAAGTCGTTCATGGCTTTGAGATAATARCCTCAGTTAGTAACAAGTTATTTGAGTGCAAAAAAAGATGTTGC
CCAGTGGTTGGACTGAGCAGATGTCCTGGTTTCCTGGGGACTCTGCTAGACCATGTGATGAACGACAGCCAAAAGCTGTTGCCCTTTTGAGTGAGTTTCT
CATGAGTGTTGAGCCTCTCTCTCTCTCACGCAGGTGGTAAAGACTATCGGCCTCCGGGAAGTGTGGTACTTTGGCCTCCACTATGTGGATAATAAAGGAT
TTCCTACCTGGCTGAAGCTGGATAAGAAGGCAAGTCAGGATTAACTATTTACAGGCTGTGGATTGGGTGTTGGTCTGCTTCATCGATAAGGAAACTGGAG
CAACTCACCCTGTCTTTTGTTTTCTGTTCCTTTTTGTTTGTGTAAAAGTTTTTACAGACAAAAAGGTTGCAGGTTTCCAGTAAATGGAGATATCGATTGG
AAATCAGATCTGGCATTTCTCCATAGTGCTCACTCATTGGAGCATATGATGGTTAATTGCATAGCTTTTAGTTGACCTTAGTTTTTTCAATGAGATTGTT
AATCTTATAAACTGTGAATCATCCACCATCTTGTAAGAACCTGTTATTGCTTTGTTTGAACCTGTGACAGATTATCTTCCAACTTTAAAGAGTGGATAAT
TCCATTAACCAACCAAAAAGAAAAGTAGTAAGATAAACATTTTCTTCAAACTCTGAAAATTATCCTTTTTTTTTTTTTTTGAAACCCCCACTGTCCTCCC
AAGTCACAGCAACAAGTTAAAAAGATGATGGGAGGTGGGGAAGAGTGGAGGAGCAGGAGGAATTCTTAACAGTAAGTTTYGGGGTCCAGGGCCCGATTGG
CATGTGGCCCCATTCCAGGTCACTGGGGTCATTTCCAAATTTGAGTTCTCCAGGATTGATAGCATCATCCCATGAGGACTGGGGCTTAGTGAGGCAGTAG
CTTTGATTTCCAGCTGAGCACAAGAGTGTGATAGTACTTGTTTGTTTTTTGTTGTTGTTGTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTG
CAGTGGCACGATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGCTGCATGCCAT
CATGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTAGTCTCGAACTCCTGACCTCGTGGTCCGCCCACCTCAG
CCTCCCAAAGTGCTGGGATTACAGTCGTGAGCCACCATGCCTGGCCTGTTTTTTTGTTTTTGTTTGTTTGTTGTTGTTTTTTAAGAAGAGACAGGGTCTT
GCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCCATCATAGCTCACTGCAGTCTCGAACTCCTGAGCTCCAGGGTTCCTCCTGCTCAGCTTCTTGAGTAAC
TGGGACTATAAGCATGCATCACCATCCCCAGCTAACTTTTTTTWAAAAAATGTTGTAGAGATGGGATCTCTTCTACGTTGCCCAGGCTGGTCTTAAACTC
CTGGGCTCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGCACTGGGATTATAGGCATGAGCCACCATGTCTGGCCTGTGGTAGCACTTTTGACTAACCTTT
TTTTGTCTGGAGTGCTAAAAAGATGACTTTAAGAATAAATATCTCCTGAAAACTGGCTTGAGGGCCCCATTGAGTCTTGGTTAGAAGCCTGTGTTGGGGA
CAGTGGGCCTTCGTCTTCCGGATTTGTGTGGAGAGTGTGGCTTGTTTCGTGCAGGTGTCTGCCCAGGAGGTCAGGAAGGAGAATCCCCTCCAGTTCAAGT
TCCGGGCCAAGTTCTACCCTGAAGATGTGGCTGAGGAGCTCATCCAGGACATCACCCAGAAACTTTTCTTCCTCCAAGTGAAGGAAGGAATCCTTAGCGA
TGAGATCTACTGCCCCCCTGAGACTGCYGTGCTCTTGGGGTCCTACGCTGTGCAGGCCAAGTTTGGGGACTACAACAAAGAAGTGCACAAGTCTGGGTAC
CTCAGCTCTGAGCGGCTGATCCCTCAAAGGTGAGCACAGGATGACCCGGCCTGGGCAGGAGCAGTCWTGCCGTCCTCGGCAGGGAGAAGTGATTGCCTTA
GAAGCACAGTTTAAAAACRCAAGGACTTCGCCAGTGTCAAGTGCTCCTTCATGCTAGTCATTAAGTCACTGACCAGCGACCTGAAACATAGCCAGGGAAG
GCGAGCTGCCATTCCTCATGGAAACTAAAGCGTGGCCGTGTCCTGTGGGACATGGCATAGCAAACTTCTCGACCTGACTGCTCAGCTCCTCCTGGGGTAT
GATAGGTTGCCCCTGTGAAATCTGTTTTTATTTAGTAATGGTCACAAAAATTACCCCATTTGGAAGAAGAGGCCACTTAAAATACCTCTTAGTTTTTCCA
GCAGAACTGAGTTCTTGTTCAAAATGCTAAGTCTTCCAGATTAACTGTCATAAATAGAAATGCTGCACATCAGGAAATAGAAACCAAAGCTCTTTGGGAT
TGATTGATTTGAATGGAAAGTAAGGGTTTGAATGTGGGTGGTAAGTGGGCCTCCTTCCTTGCCTGTCACATTCCTTAAGGATGACAGTGCTGTTTCCTTT
TGCATTCCAGAGTGATGGACCAGCACAAACTTACCAGGGACCAGTGGGAGGACCGGATCCAGGTGTGGCATGCGGAACACYGTGGGATGCTCAAGTGAGT
GNTGTGCCCTGCTGTTGGGATCTTGCCATCTCCGTGCRCTCCAGCATGTCTTTTCCTGTGACTCTAGTTAGTGCTTTAAAGGGCTCTGTGTCAGGCCTTG
TGAAGACCTTGAGGGAACCGAGTTAAAAGTGGGGTTTTCTTAGGGAAGAGGTTTTTTTTAAACAAAGCCAGGTGTCTTGCCTGGGGAAAGAAGCGGTTTA
GCTCAAGCCTTCAGGTTCTAAAAGCTTACACCCTCCCTTTGTAGAAAGTGTTGTGTCTAAACTTCATCTTAGTCAGAGGGGCATTGTTCACCTGCAATCA
GCATTATTCTGTCAAAGAGATGCTGGTTTGCTCATTATATGAAGGTACTTGTCTTACAAAGTGTATATAAATGAAAAAGGATCCCAAGTGAGAAATGCTG
ATGTCAGAGAACCTGGACGTGGGGCTGTTAATGTAAGACATGGCCGAGCCACCTGATTCTGGGTGTTCTCGTCCTAGAGCCTTGTCTCTGGCCTAGTCTT
GCGAGTCTGCATTATTTCAGCCTCTGAAGTTTGTTTGAGGTTTGAGCCTCAGATTTTGTGCTTCAGGGTTTCCTGTCTGGCCCAAACATCCTTTATGGAA
GGAAAACAACTCAAAGCCTATGAGGAGGGTTGTGGGAAGACATGTGTGGGCAAGAGAAAAAGGAGGATTGTGCTGAGTGATAAAACTTAAAAACCTGTTA
GAGAAACCAGTGTGAATCAGTTCTTCTTCAAAGTGTGGGGTTTGGTGGTGAGGCTCCAGGGCAGCACGGACCCCACCCCAGGCATAGCTTCTGGGCTGTA
TGGGTCCCCTCCTCACCGGTCGGCTGCCCGGCCCCTGCCTGCCTGCACGCAGCACACAGCATTGAGCCCATCCTACACAAGGCRCCTTAATTTAAAAATA
CTGGAAAGGTTTTACTGTTCTAGATATTGAGTGCTMCCAGTGACTCTGCCTGTTTCMCTCTCCCCAATTAGAGATAATGCTATGTTGGAATACCTGAAGA
TTGCTCAGGACCTGGAAATGTATGGAATCAACTATTTCGAGATAAAAAACAAGAAAGGAACAGACCTTTGGCTTGGAGTTGATGCCCTTGGACTGAATAT
TTATGAGAAAGATGATAAGTGAGTTGAAGTTCACAGTTATCTTCAGTAGGTAGGGTGGTGGGCCTGGAAACAATGGCAAAATGGCAAATTTGTGGGTTAT
TTTTGAAGTATTTATTTAGCAACTTACTATCCCAAAGTAGGAAWCTTTTTAAAGGGCTTTTGGACTGCTGTGGCCCTCTCAAAGGGTGGTCCAGAGGTGT
GGGTTATCCTCTCTCATGGTGGGCGGGGCCGATAGTGGGCTCAGTCCTGGTAGAGGAAGGCAGAATAGAGCAGAGGCTGCCTCTCCTCCCCSCTGCCTCT
GAGATTCCACCCCAGCTGCCTGCAGGTACCAGCACATCCATCCATAGCTACTTCGCAGGCAGCCCAGCCAGTGCTCGACTCCTGGCTYGAGGTTTGTGCT
AATCCAACCAAGAATATTGATGGTGTGATGAGAGACTTGAAAAGCTGTAAACAATAGCCTGTACGTGTAGACACTTGAGCTAAATGCTGGGAGTCTGCAG
GAGATATCTTAATTGCCTCGCATTAGTTACGTTGTTTGTTGAGTGAGGGCCTGTAAGCAAGCTGGGTAGAGCAGCAGAGCCAGGCCTCTCCACAGGGACA
GGCAGTTCCGCTTTCACATACAGGGCATTTGCCTTCTTTCTGCTGAGGATAAACAGGGAAAGTCATCCTAGTTCATGAGGGCAAGTTTSCCATGGTGAGT
CTGCGACATCAGCATAATCCTAGATTCTGGATTGATCTGATCAGAAGCTACCTGAAWTTAAGAGGCAGAAGGAAACTACCTCTGGAAAGAGAAGGGAGAG
GCTCCTGACTGCCTCCTGACTACCGTCTCTGCCCTGATTGTCCACAGTCAGCCTGATTGCTCTGCAGGGCTCCCCGAAACAAATCATCTGATGGCCACCA
GGTTCAGGGGCCTGGCAGAGAAGGTGCCAGGGCAAGAATGCTCCTGGGGTCTTTTTGCCAAGCCCTGCCTTTTGGCCTGGGTTCCTGCTTTCCACGTAAA
GAGCAGAGTGGCCCAGAGTTCCTGGATGTACCGGTTTCCTTCCCAGCCTCATGCTGTTCCTTGAAATGACAGCTCTCCCCATTTCCCACTTGAGGCTCAC
CCATCTCATCTGTTCTCAGATATTTTTGTTCTCAGCATCCCCACATCTCAGGTTCCCCCAAAACCCTCTCTGGAGTTCTCAAAGGGAGTGGTGCTGCTTT
CCACAAATGACCTGCAYGAGTCCATCTCCATTTGCAACCACGCGGATTCCTGCCAGACCCCAGGGCACAGATCTATTTCACTTGGGCAAGTCAGGGACCT
GTGCCAGCTGTGCCCAACCTCCTCTCACCTCCGGGGCCCACGTGGTGATACTGCACAGGGAGGGAGGCAGGCGCTGTCACAGGAGCTCCTCAGAGAACCT
GGAAATGAGATATTGAGGACTCTCRGTTCGCTCCTACTCCAAGTGTGCTGGATGCAGCATTGGTAAAGAAGCACGGAAAAGCCAGGCACAGCGGCTCACA
CCTGGAATCCCAGCACTCTGGGAGGCCGAGGCAGGCGAATCCCTTGAGCTCAGGWGTCTTGCCCAGCCTGGGGAACATGGCRAAACCCCGTCTCTACCAA
AATTTAAAAAATTAGCTGGCTATGGTGGTGCACGCCTGTGGTCTCAGTCAGGTGGCTGAGGTGGGAGGATCACTTGAGCCTGGGAGGCAGAGGTTGTAGT
AAGCCAAGATTGCGCCACTGCACTCTAGCCTGGGTGACAGAGCGAGACCGTGTCTCAAAAAAAATTTTAAAGAAGTGGGGAAAGTGGGTACTTGGAACCA
GGACACCATCTTTCCGGGAGACCCTAGAGCTGAAGCCGTGGCTATTAAGACAGCCATGCCAAGGAGCAGTGCACAAAGTCCTCGTGGGAACGTATGTGGG
AAACTGCCTCTGCCTTGGAAATCTCTTCAATGACCAGATTTTGTAACGTGGCCAGGCCAGGGCTGTCCAAACAGGTTTTTCAACCTGCAGGAAAACAGCC
ATGGGCAGGAACTTGCTGATGTCAGCTTGTAACTGCCCCAGCCCACGTAAGTGTCCATTTCTTCCAAGTAAAAACGTGAGCTGTGTGCCCTATTTAGTGC
TGTTTTTGCGCTCTGCTCCCCCTCCCCCACCATTGAGCGATGAACGTGGCAACTCTCTCAGATGGTTCTTTCCCCACAGAGCATGCTGGGGTGTTGGGCA
GGCTCACTTTCTGCCTCTCTTCTCCCCATTCCTGAAGGCACACCCCTCTCTTCATGAAAAAAGCATTTATGTAGATATTCAGTCATTTAATAGGCCCAAA
TTCTTTCCCTTTTGAACAAATATTGACAASTTGGTAGCAGCATAAGCAGGAGACTGTCCTGAAGTCTGAGGAGTGCTGAGAACTCRCCAGCTGTTGCGCT
GTTACCTCTCTCGGTAGAACTAGGAGAATTAGATATGCCTGAAACATTGTTCAGGTGAGAAAGCTGATCTATTGAATATGGAAATTGAGCTCTAAGAGAT
TTATACTCTGCAAGTAAAGTCTCTATTAAAACACCTGTTTTAGTATTAAATAGGGTCTGGCTGGGAAATCTGTCTCTTGGGGTTCCCTTTTCATTGTACA
CATAAGCATTAAGTGGGAGCATGTAGGACTATTTGTCATCTTTCTTTAAACCCTTAGCTTGGAATAGGTGGGAGTATAAAGAGGGCAAAAACAGGTAAGC
GCCCTCCTGACAGGCATTGTAAGCTTGTGAACAGAGAAAGTTCAGTTTAGCTGGGTTACAATTTGAAACCTGACACTCGGACCAAAAACAAAAACTAACA
AAAACTAGAGGAACCTGATCTTTAGTCCTGTAAAAGCACTTTTTCTCCCTTAGCTTCATCCCTCTTTGGGCAGATTTCATCATAGAAGTCCTTCTGTAGG
TAGGAGTTTCTGGAAATGCACTAGGTCCAGGGCTTCCACCTTAAAGGGAAAGGGTGCACGGGGAGCTTGGGGACTGAAACAGGAGCCACAGAACATGTCT
CTTCTTTAAATTCCTTGCGGATAGGTACTCAGGGCTTCGCTTGCTTTCTCACGTCTCTTTCCGTATGCACTCCACTGTCACCCTCTGGCCCTCTAACACA
TTTCCAAGAAAACTGCAGGCATCCATATCCTTCCTCAAAATGAAAGTGCATATGATATACTAGAGGTTGGTTATGTTTTGTTCTTTTGATGTAAAATTTA
AATACAATGAAATGTAATCTTAAGTGTTCATTTGTTGAGTTCTGACAAATATGCCTGAAAAATGCAAAATCTTAAGACATGTAGAACATTATCACACTCA
GCTACATATTTTGGATTTACATTTTTTAATCATTCTTGGTTTTTTTTTTTTTTTTGAGATGGAATCTCACTGTGTCACCCAGGGTGGAGTGCAATGGCAC
ATTCTCAGCTCACTGTAACCTCTGCCTCCTGGGTTCAAGCGGTTCTCCTGCCTCAGCCTCCCGAGTAGCCAGGATTACAGGCACATGCCACCACTCCTGG
CTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAATGATCTGCCCACCTTGGCTTCCCAAA
GTGCTGGGATTACAGGTGTAAGCCACCATGCCTGGCCCATTCTTGCATTTTAAAGTCATTTCAGGCTGGGCATGGTGGCTCATACCTGTAATCCCAGCAC
TTTGGGAGGCTAAAACAGGTAGATCCCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCTGGTCTTTGCCAACATGGCAAAACCCCGTCTCCACCAAAAGT
ACAAAAAATTAGCTGGGCGTGGTGGTGCATGCCTGTGGTCCTAGCTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCGGGAGGCGGAGGCTGCAG
TGAGCCAAGATTGTGCCACTGCACTCTAGCCTGGGTGACAGAGTAAGACCCCATCTCAATTTAAAATATATATATTATTTCAAACTTTAAAAAGATTCTA
AAAATAGTACAAATAATTCCCATATACCCTTCACTTAGCTTCCTCAAACATTAACACCTTATGTAACCGTAGTCCAAATACCAAGATAAGAAAATTAACA
TTAGCAGTCTCTAGACCTCATTCCCATTTTAATCAGTTGTCTCACTGATGTCCTATTTCTGYCCCGGGACCCTCTCTGGAGCCACACAGTTAGTTGTTAG
RCCTCCCTGTCTCCTTCGATGTGGGATAGTTCCAGTCTTTTTTTGTCATGACCTTGGTATTTTTGAAGAGTACTGGCCATTGACTTTGGAAAGCCCTTCA
GCTTGGATTGTCTGGTGTTTTCTCATTATTTGGAGTTTTACATTTTTGGTAAGAATAAAGTGCTGTTTTGCCCTTCCAGGACCTCTTTCAAGGTGGCACA
TGTGGTCGGTATATCTTATCTTAGGTGGTGCTAATTTTGATTATTAGTTAAGGTGGTGTCTGCCACGTTTCTCCACTGTAAAATCACTATCCTTCCCTTT
ACAATTGGTCAGTATATTTGGGGGAGATAATTTTAAACTATGTAGATGTCCTAGTTCTAGCTACCATTGATGAGATTACTGTGGTATTTGAGAAATTGTG
ATTTTTAAAAACTTTTTACGTGTATTAATTGGAATTCTATAAGGAGCCAATTTCTGTTCTCCATTTATTCAGTTAYATTAATATGGACTCATGGATATGT
GTTTCGGTCTTTGGGTTATGATCTATGAGTATGTATCTTCTTGCTCAGGTTGTTTGAGATTTGGCCTTTAGGAGCACCTTGAAGTGTGAGCCSTGCATTC
TTTGCAGGCTTCCTTGCTGYCTGGCTCCTCGAGATGCACCAGGTTCATCCTTTGTGTTCCCTGTTCTAGTCCTGGAATCAGCCATTTCTCCAAAGGCCTC
TGTCTGGTCCCTGTTATTGGAGAATCACGCTTTTTTAATGTGTGGCCTAAGCAAGGACACTTATAAACCCTGTGGCCACCTTCTCTGTAGACCCTGTTCA
TGTCCTATATGTGATCTCTTAGGAAAAAGGAAATCCTTGGGCTTTAATTTTSCAACTTTGGTCAAGAATTAAAAGTTCTTTAACTCAAAAGTGAGTCATA
ATTTTCATGTTTAACCTTTTTGTTTTGATACTGCAGTTATGCTTATGAGTGGCTATGAATTGTTATATGAGGTTTCAAAGTCCTAAGAGGAAAAACTTTC
TAGGCACACCAGAGAGCCGGAGGCCTAAATTTTCTAAGGTCAGAACCTGTTTTGAGAGTCCTGTGTAGAGACAGGAGCCGGAGASGGGATCCCAGCCCCT
TGAAGTTTCAGGATGCGGCACGCTGGCTCACAGTGCTATGTGCTGTGGGCGRAGCCTCCGGAGCTTGGATCCTAGCTTCTCTGTTGGTGCCAGCAGGCTG
CTCTTGTGTTTTGGGAGAAAGTGCTCCAGAAGCAACACATGCCTACCTGGTGCCACTTTCACAGCCTTTCAATGTAAGGAGGACATAGGCTGAAGTCAGT
AGCAGGGCAAGGTGGTATCTGGAGTTCCCCTTTAATGCTCTGAAACCTGTAAAGAAAATTACATCTCGAAGATAAAAGAACAAACTCATTGCATGTCTGT
TTGAATGCCAGGTGTGTTTTTTTTAATGGGGATTGGTGATTCTAGAGCATAGCACTGTAAAAGAAAGGATGTATACAAAAGCTTTGACATTTAGAACCAT
GGTCTGGCCAGTGTCCTGCCATCATTCCTGCAGGCACACCATGACTGACTGCGCTAATTCCCCAGAAGGGCCATGTCAGGCTTACATGTTTGCCCTCAGC
CTACAGAGTCCACCCCACTGCCTTGATCTAGTTGATGTGRTCATAACGAAACCTGTATTGCTCRTCAGTATTGAAGCTGTTGGTAGGCCATAGATTGCTT
GACCTTCCTGCTACTTCTAAAATGAAGGTTTTTGTGGGATGTTGGAAAGGACTGCTTTGGAGGGCAGCATTGTTGGATGGTGGTTTTGAGGATTTGTCGT
TATTTCCAGAATGGCATTATCCCTGGTAAAATGTGTTGGAAGAATAGGGTGGGAAGTGTCAGGTGAGCAGAGCAATGTGGTCTTGAAGTCACATGATGAA
CTTGGGAATGCTAATAAAAGCCAGAGTCTGGCCAGTCATGGCATTGCATTGGTTAAGTAGGATTAGCCCTGTGGGGCCTTCATTAGGGCSGTTAGTTTGA
AGGCTGTCCTGGAAGTTGGAGAGTGACATGGGAAGATGTCTGTCCAGCCAGGAGAACACACACTGGAATGAGAACCAGAGGAGCAGAATGCATAGCAAGG
CCTYTGTCCRTTTCTCTTGGCAAGCTCTGTTGAGTRTGGCACGTCTAGGAACGTGATGGGATCTTGGCCCTCCCTGTTGGTTTCATAGAACTAAATGATC
AGTAACTTAAATAACATTCAACAGTCTGTAGCAGAAGAGCCTGTATGTTAAGAGAGGCCTCAAGGGAAAGGGAGGCAGCCCTGGGGAACTGTGTGTTGAA
AGGTGGGTCTGAACCGTGGAGTTTGGGGCTGGATTTGACAGCTCTTGGATGCTGAGTTAAGGACTGTGTTGACATGGGAGGAGAGGAAATTAATCAGATC
AGCAGACTGAAAGTAGGGCTGCTCCAGCACACAGCTTGAGAGTGGGCTCTGGCAGGATGAGAGGTAGGTGAGTGTGGTGATGTGATGTGGGAATGAACAG
CAGAAGATACCTGAGGGGGAGGGTCAAGGTACCTGGGTAGGAATTTCAGTTGACCTCGAGATCACCAGCCTGGGTAATCATAGGTGCCCTAGACTGAGGA
AAAACCAAAGGAAATGGGAACAGATTAAGGTTGCAGATGCCTTGCAGCCAACCACTTGGCTTAACCTAGGACAGGTGGGAACTATTKGATAATAGCATAT
AACACATTGTGCCTCTTGGGTTAGCTTCATATTATTTTAATTGAACTAATAAGAATTGATTTGCGAATCTCTCTTAGCCAATCCAAGAACATATGTATAC
ATCTAACCATCCACTTCTTCTTTTTAACCTCAGGTTAACCCCAAAGATTGGCTTTCCTTGGAGTGAAATCAGGAACATCTCTTTCAATGACAAAAAGTTT
GTCATTAAACCCATCGACAAGAAGGCACCTGTAAGTTCCAAAGGATTCTATTCAGGGGCTACTGTTTTTCATTCTTATACTTGTCAGGGTAACGGACARG
TTATACTGTGACGAGTAGCCAGTGATAGTCCAAACTCCTCATGAGGTTACATTGAGGGCCAGAGATCCTGTGGGCCAGGCAATTGCTGCAGGGGAGACCA
CTTAACTTTTCAAATGATTCTCATTCCTTATGAAGAAAAGGGCAGTTCTGAGCCATTGGCCAAATGATAAGCATTTCCCAAAATGCTRTGTTTTTGGTGT
GGAGAGCCAGCCTGTCCCCTTGACCACCTGGGTGCAGGGACTCTCCCCGGCACCTGACGGACAGTGGGACCTGCGAGTCTCAAGGGCCAGATTTGCCTTT
CAGAGCTGTCCTGGAACTTACCCAAGATAGGGACAGTCAGACTTGCACCCAAGCATTGCTGGTSCCCAAGGTTTCATCGGGGCTTCACCCACTTCTGTTG
TCAGAGGTGTGCATCCTCACACAGGTGACACTGGCAGGCAGTCATTTTGGGAGGACATGGTAAGAAGGCGACACTTTATGTCCTGAAATCTGATAGTATT
GATTGTAATAGCTGCAAAGACCAGTGCATTATGTAAATTTGGTTTTATTTATTCTGCTGACATTTAAACTTTTGTTAACTCAGAATATTTGAGACATACG
CACATAACTGTAGCATTGTAGAATGGGTAAGGATTTTGTTATCTAATCAGAAATCTAGTTCTCTAAAAAATTGCCACCTGAAGAAATTCTGTTACCACCT
TAGAGCCTGTTCTGAATTTTACGAAAATTATAGATTGGAAAGGACTTTGTGTTCTCATGTAATTTTGGTTCCTTAGTTACAGTGTTAAGCTTGGAGAGGC
AAACATGGGCTGTGGTCCATACCTTGGTTGTCTTGTTAACCCTTTTGGGACTGGGTACTGCTTAGCAATGGTAAATCCACTTAGAACAGTATGTGGTGTT
ATTGTCCTGTTACTTCTCCCCACATACAGGTTTGTCTAGCATAATTTAAAATCAGCAGGTCTTGACAATTTTGTGAAAGTATTTTCTTCTTTGTTAAAAA
CGTCTTGGCCAGGCTCAGTGGCTCACGCCTGTAATCCCAGGACCTTGGGAGGCTGAGATGGCCGAATCACGAGGTCAGGAGTTCGAGACCAGCCTGGCCA
ACACAGTGAAAACCCCATCTCTACTAAAAATACAAAAATTATCTGGGCGTGGTGGTGGGCGCCTGTAATCTCAGCTGCTCGGGAGGCTGAGGCAGGAGAA
TCGCTTGAACCCAGGAAGCGGAGGTTGCAGTGAGCTGAGATTGCCACTGCACTCAAGCCTGGGTGACAGAGCTAGACTCCGTCTCAAAAAAAAAAAAAAA
AAAAAGGGCTCCTGCTGTTTGCAAACTMTTGGCTGCTACTCTGTGGGTAGTTGCACGGTTATTTAAAATTAAACGCGTATTGAATGCAGACTCTAAGGCT
CCATGGCAGCAGTTCATATTATGCAACAGCATGAATGGAGGGTCATAGCGTCTTCATGTCACTTGGGTAGTAAGATTGGCACAGTTTAGAAGAGCAAGAA
AATGCTGAAATCTCTTCATCAGTAGGCTACTACGTACTCTGTGACGCTACTGCCTTTTCAGAACACTTATTAAAAATTTGACTAGAGCAGMAGCTCTGGA
CTAGACTGTTTCAGAATGTTTGTGCGTGYGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGATGATAAGTCCATCTCTTGAAAAGCTGAAGAATATTTTCA
TAATAAGCCCCAAGCAGAAGCCATTGTAACGCATCTCGTGCATGTGCCTTTATTATAGAGTAGCCTCATGTGAAGCCATCTCGTAAGCAAAAGAAACATT
CGCTGGTGGCACGCTGTCCCAGGCACTCTTCCAGGGCTGTGTGCACCATCAACAAGGCAAAGCTCCTACCCTGGTGAGCCTACATTTACGTGAAGGAAAG
GGTTAAAAAGGCAACTGAGATGCTTCCTGGTAGTAAATTTAACAGWACAGCTGTGATTAAAAACTAAGCCGGATCAGAAGATGGGGGTGAGATTCCTTTA
RGCAGGTTGGGCAGGAGCCACACTGAGGAGGCAGCATTTGCCTTGAGTGGGCACTGCTGGTTTGAGGAGGTGGAGTTCTGTCACCCCCACAGCACCCCAG
GGCTGCTCGAGGCACTGCCCCACCTCAGTCTGTAAACTTTGGGCAGAAGAAGTTCAAGTTTTCGACATCGAACTTTCWTGTAAAAAAGAAGAGGCCCAAA
GTTTGAGGCGGTGGGATTCCTTATCTTGTGTTGACTTTCACGGGTCATCTTCACCCCAGGCGGTTTCTGCTGTGAACTCACAAATGAGTCTTTGTCCAGT
TCTCACCCAACAACTGGCGTCTCCTTTTTAAAAGCCAGCTTCTCTTCCCTGCCAAGGTGCATACAGCAGTTTGGGGCCACACTTTGGCTCTTTAGATGGG
ACCTTGTATACAGCTGACACGGCCTGCCCAGGTGACACTATGAGGGGCTGAGGCGGCTGCCTTTTCCCTTTCAAAAGGGCGTTTTGTTCCTGTGGCCTTG
TGGAAAAGGCAGAAGGCTCTGAGGCATCTGAAATTTGGAGAAAGTAAGCAGCGTTTCCGCTCTGACTCCTCGGMCGCTTCCCCCACGTGACCTTCCCAGG
AGCCCCGCTGCCTTTTTGCCTCCCGCGGCTGCCTCCTGCCATCTCTGCGGCCAGATGAGCCTTGGGATTGGCCTCTTGTGGGAGAGTTTCYTGGCATCCT
GGGGACTTGAAAAGGGGCTCTTTTACCTTCTCTCCTTCTGTATTTGTAGGGTCTTGGGTTTATTTTTCTTGAACTTTCCTTGTGCCTGGTTTGCATTTTT
ACCTTGCTGGTCCTCGGCCAGTTTAAAAACCCTGCTCCAGGTCTTGTCGTGTTGTGGTTCTGCATCAGGAAGCTGCATCCTGCATCAGGTTAGGGACTTG
GATTTAGAAACATTTCAGTATGAGTCTTTGTTTTAACTTGAAGTGAGAAACCGGCTTCCTTCAAAGGCACTGGGAGAGATTTCCTGCCAGGCACCATCCT
CCCTCACCCACTGGCAGTGGACTCCCCAAATTCTGGTTCCCGTTGCTGGCAGGACCTGTCTTCTGCAGGGAAAGGGAGAGAGGGAGACATTGTTATGTTA
ACCATTGAGGTTTTTCATTGATCCCCCCACCCATGCACCCCCACAACCCCATAAAGGGGAGTTGGTGCTAATCAGCGTTTTCTGAGTCAGGGCCTATTTG
GTAGAGTCCTCCAAAGCTGTAATGCAGGATTGTTTCCTCTTGTGTAATAAGGGATAGGTGGGTCATAAAAATGCCGATTGCTCCCAGCTCCACAGACTCC
TCCCTGGGAAACCCAATGACTTAACAGCAAGGGTGTGAAACCCCAAAGACAGCCCCACCCAGGAAGTTCATGGGCTCTCAGGGCTTGGCATCACCTCTCA
CCCTAGGATTTCTGGAACAGATGAAAAGACTGAAGCTAAATAGATTCTTCTCSGATGTGTTGATGAGCCCGCTCAGCCGGTTCCTCGTTAGGTCTCAGAA
GTTGCTGTGGGATATATCGCACTGTTTTTTTGTTTTAGCCACCCTGTCCCTCTGTTCCAAATGGTCAGAAGCTGGATGCTGGGGGCCCTGAGGTTAAGAG
GAAGCCAACAGAGTCACTGAAAAATAACTTTTCATGGGAGTTTCTAAACCATATTCTTCTGTCTTGTAAGCTAATCACAGCAGTAGCAAGGAGTTGGGAC
CAAGATTGTCAGCTGTGTCCCAAATGTTTCCAGTCATGGTCACGAGTTTCCCGAAGGCTGTGATTCTGCCTTGTTTTCCAGGAGGCTCCTCTGGTTGTGG
TCTTGCAAGGCACTAGCAATTGGAGTGACCGCTGTGTGTGTCAGCCAGCTCTTCCTGCGCCGAGCACCTCCTGAACGTCACCGATAAGGCGGGGACGCCA
GCATCTAATGGGACTGCTGGGAGGATTGAGTCCCATATCTGAAGTCCCTTGAGATACCGGCATCCCYGCCTTATGGTTGAAGGCACTGAGCCTGGTGAAG
GGATGTGCTCAAGGCTGTGGAGCTCGCACGTGGCTGKCTGTGCTGCACGAGCTGGCAGTGCCTGGCAGGTACTGCACACCTCAAATACCCTGGGAAGATA
AGAGATGAGTGAATGTGTGGCCCCTGCCCTTGGGAGCTGATGGCCTCATAGGAGTGAGATGCTGAAAGGAGTCACTGGAGTGAAGTGACAGTGCCACTGC
GGCGAGTACCTGTAGCTGGTGTGGCAGGAGCAGGGCTGGATAGCTTTGAGGAGAGAGAACCGAGTGCACAGCGGAGGCTGGGCCCAGAGCTGGAAGGTCT
CTGTGTGGGTTGGGCCCAGGCCCTGGAGCTCATCCTGGAGCTCCCAGGCTGGCAGTGATGGGTCGGGGTGGTGACCCAGTCAGTGTAGCAATAACAGTGT
GGGAGGGGAGGCTGTGGCAGAGGAGACAGGAAGCCCAAATAGMAGCAGAGGCAGTCCAGGCAAGCATCGGGGATGGGGAGCAGCAGTGAGGCTGGAGAGG
ACATCATGAAAGGTGGCTACCTGGAAGAGCAGGCAGCTCTGAGACTTGAAAGGTTTCCCAAGGCTGAGAGTTCTCACCTTGGAAAAGCTTTGCAGTTAAC
GTGCAGTGGCATTTCAGTGTGCATGCAGGATGTCCCTACCCACACACAACTGCACACACACGCGGCACCTGCCCTTCCTCCACCCGTCCCAGAGAATGCA
CTTTCCCAGTGCTACATACCCACACATAACCGCACACACACGCGGCACGTGCCCTTCCTCCATCTGTCCTGGAGAATGCACATTCCYAGTGCCGAGATGC
TGCCATCCCTGTTCTGCTACATTTGTTCTTTTAGAAAAGTTCTGGACCTTTGTGAAGGATGGTTTGGAGAAGAAAACCAAACGAAGGAGCTTGAGTCCAG
GTGGCCCTGTTCTGTTTTGTAGGACTTTGTGTTTTATGCCCCACGTCTGAGAATCAACAAGCGGATCCTGCAGCTCTGCATGGGCAACCATGAGTTGTAT
ATGCGCCGCAGGAAGCCTGACACCATCGAGGTGCAGCAGATGAAGGCCCAGGCCCGGGAGGAGAAGCATCAGAAGCAGCTGGAGCGGTGAGCGCGTGAGG
CCAGAGTGGGGGGGGCCTGTGTTCTCCCAACTCAGCCACTGGCAGCCCCAGTGCCTGTCAGGTGACTGTGGAGCTGATGGGGAGAGTGTGGTGGAATGGA
ACCCAGTCACCACGCTGGGATCTTCGAGGCCTTTGTCTCTGGGCRGTTGCTGTGGTGCTGAGCCTGTTGTCAGCCCTGGAGCGGCTGCTCCGTCAGGCAG
CTCAGGCTGGCAGCAGGCYAGGGTGGCCCTCAGGATACCAAGTCCATCCTGGAGCTTCAAGTACCCGTGAAGTGTGTTGACCCCTCACTTTCCTGCCAGA
GTCTAAATCTCCCTGTGCCTCTTTTTCCCTGCACCAGGCAACAGCTGGAAACAGAGAAGAAAAGGAGAGAAACCGTGGAGRGAGAGRRAGAGCAGATGAT
GCGCGAGAAGGAGGAGTTGATGCTGCGGCTGCAGGACTATGAGGAGAAGACAAAGAAGGCAGAGAGAGGTCAGGCRCCCTGGGGCTGGCACTCTACACTG
GGTCATGCATTTCCACAGAGTAGCAGGGGCCACACCCACCCACCCACTCACCAGGAAGGAAACCAAGAACGTGTCCCACAGCGCAGACTCACAGCCGAAA
TGATAAAATGGTTATTTGGTTTGGAAAACAGTTCTGTACTTATTTAACTTTGATGCTAGTTGTTCTAAGACTTTGTATTTTAAAATTTCCCTAGTCTTTT
GCGGTAAGTGCTCAATCACCCAGTTTCCCCGATGAGGACAGTAAGGTTTGGTGCGGTACAGTGATTTGCCCACAGTCCCCCAGCCCATGACTGACAGGGC
CATGCTGCACTGCCCTCGACCTCTAGACTAAAACCCAAAGGCGTGTTCAGAGCCAGACTTCCCAGCACAGCTCCAGTCAACAACCCCAGCAGCTGGGCCG
ATTACACAAGGCGCCACAGATGCTGTATTCACTGGCAGCCCTTACAGCACACATGGGAAGGGTGTTCTGTGTTCTGAGTGGAGTGTGGACCACCAGCACA
GCGGGCGGCTGACCTGGGGAGAGTAGCGCCAAGAGGGTTGAGTCAGGCATGCCAGAGAGAGGGCGCCTGGCTGGCGTTGGACGGGTTTCTAGCCATCTTG
AGGAAGTTGTCATGGATACAGCAGCAATGAGCTCTGTGAAGTGCTTTCCTCCAGGGTCACTGGAAGACATCCCCTCAACCTGTGACTTGGTCTAGGGCTC
TGTGGCTTTGGGGGTGGGAATGGAAAGCGAGGGCTCCTAGGTCCCTGGGCTGAGGGTTTGAATGGCTCTGGCTTTGTGTCTTTGCAGAGCTCTCGGAGCA
GATTCAGAGGGCCCTGCAGCTGGAGGAGGAGAGGAAGCGGGCACAGGAGGAGGCCGAGCGCCTAGAGGCTGACCGTATGGCTGCACTGCGGGCTAAGGAG
GAGCTGGAGAGACAGGCGGTGGATCAGATAAAGAGCCAGGAGCAGCTGGTAGGAATGGCCTGASTTTCAAGATGCTGAATTATAGAGAGGCTGCTTCTGA
GGATGGAAAATGTGACACCTGCCTTGTAATAATTGTCATGACTGGAAGCTGTAAACTGATCTGCTGGGGGGCTGAAGGCAGCTGGTGGGGAAGGGGCTGG
GCTGTTGCCAGGGTCACCCATTGAAGGTGGGTGTGGGCATCCAGGAAGAGATGCCGGGGGTGCACAAWGGACCCTGCTGGCCATGGAGTGGGGGTGGCGG
GGACTCAGGTGTCACGTTGGAGACTGCTTGCCAACACACATGAACACTCATTCACAACTGGACTCCGTTGAAAGGATATCAGAACTGACGTGAGCTTGGC
ATTCCCTTCCCAGGCTGCGGAGCTTGCAGAATACACTGCCAAGATTGCCCTCCTGGAAGAGGCGCGGAGGCGCAAGGAGGATGAAGTTGAAGAGTGGCAG
CACAGGGTGAGTCTGCACGGGGGACACCTCCGCACGGCCACAGCACCTGTTGCCCAATTGCCTGCGGTGGGGCCCTTCTGCAGGTGGGTGGGTTGGGGGA
GAGGTCTGGCTCAAGCTGCCACATCCCACTGGAAGCTTCTGGGATGTCTCATGATCCTCTGCCAATACCAGCTGTACTAYTGAAGTAGACATCCCCAAAG
AGATGGGTTTGACTTTGTACACGAGTCAGTGCAGCTGCTGGATTCATAGAGGGAGGACCTCTGATTGACTTTCACCCACTTTGCTCCCTCCACCCCGAAC
TGTTCAGTGCTGATCTGACAGCCCCCGGTCAGGAACTGGTTTTAMATCTAATTATATATGTGCCCCTTGCAATGGGGTCGCAGTGCCTGAAACACGACCT
CCTGCAGCTAGTATATACAGCGGGCACCATGGAAAGATCCAGCTCCTTGGACGTCTCCAGGCTGGAGTGAGAGCTGGGCTCTGCTGCTCATCAGCTATTT
GGGGGCTAGTAGCATCACTTCTTCAAGCCTCATTTTCCTCATTGTAGAATGGGGGCAATACCCAACTCATAAGGTTGCTCTGCAGATGCGAGGTCCCATG
CCCAGGACCTAGCACAGAGGTTTAGTCAGCTGTAGCTCTCATTGTGGGACGCACACAGAGCTTGTCGCTCCGTCTGGGATCCCCTGTGCCCTCCAGGAAG
GCACAGCCCCTGAGAAGCTCTGGGGATGGTTCCCACTGGAGACTGCACACCAGGCTTTAAGCAGCTCCTCTCCTTCACAGACCCGCTGGCCYGTCCTTCC
CCCACTGTGGCTTCTCCATCTGTGGAGGTGCCTTCTGGGGACGTGTCTCCCGGCTCTCCAGGGCTGCTGCTGCCTAGTACCTCCTTGCCTCTGTTCCAGC
CCCCATTCCCGCTGCCGATCTGTATTAGGCTGTTCTCACACGGCTATAAAGAACAAGCTGAGACTGGGTAGTTAAAGAAAAGAGGTTTAATTGACTCACA
GTCCCACATGGCTGGGGGAGGCCTCAGGAAATTTACAATCGTGGCAGAAGGCGAAGGGGAAGCAGGCACCTCTTACATGAGGGCAGAAGAGAGAAAAGCA
AAGGGGGGTAATGCCAAACACTGAAACCATCAGCTCTTGCTCAGAACCCACCCACTAGCACGAGAACAGCATAGGGGAAACCACCCCGTAATCCAGTCAC
CTCCCACCAGGTAATGCCCCCCACCCCCAGCATGGGGGGATTACAGGTGGAGATGAGATTTGGGTGGGGACACAGCCATATCACCATCCCAAGTTGCAAG
CGGAAGACTTTGGTTCTTAGGTTTTTGGAGAAAGTACCTGTTAAGTGAGGAGAGCTGGCTACAAAGCAGATCCACACTAAGCTCAACTCTAGGGCTGGCT
GGGATGGAGGCGGGCGGGACTGGGTGTGTGTGAAGCTGTTGGAAGGACTGCAAGTGGCGAGCAGGAGAGCACTTGATAATGACTGTGGCATGAAGGGAGG
CTAGGAACAGAGCCCGTTACTCATGCTAACAGGATTTTTTTTCTAAAAATTATRTAATGTCTAGAGTTACAGGTAAAAAAAGAAATGGTAGTTTTAAAAC
TGCCCAGGTTCCGGCATCACAGTTCCTCTTCCTGTCTTGGACGCAGAGGGTTGTAAACCCCCCATGCACCCTGAGGGTGCTCCTCTTCGAAGCCACAGCC
CAGCACAGTTCAGTGCTGCCTTAGCCTGCCAGGACAGAGGGAGGTGACAGTCTGTTCTCATAGCCAGGAGGATAGGACTTCTGGGTGAGAAGTCCTCTTA
TTAATTTGCTTTCYAAAGGCCAAAGAAGCCCAGGATGACCTGGTGAAGACCAAGGAGGAGCTGCACCTGGTGATGACAGCACCCCCGCCCCCACCACCCC
CCGTGTACGAGCCGGTGAGCTACCATGTCCAGGAGAGCTTGCAGGATGAGGGCSCAGAGCCCACGGGCTACAGCGCGGAGCTGTCTAGTGAGGGCATCCG
GGATGACCGCAATGAGGAGAAGCGCATCACTGAGGCAGAGAAGAACGAGCGTGTGCAGCGGCAGCTGCTGGTGAGGCCCAMGGGGCTCTGTCTCCAGGGA
GCCTGCCTSGCTTTTGGAGCAGACAGGCTTGGGGAGGGCAGTGATGTGAGCCAGCCCCACCCAGCACCCCTCTTGCCCTTCCTGTTTTCCTAGGGGACGG
GCCGGGCCATATGGGGAGGAAGGGACTAGACCAAYGCTGCTTAATGTTACAGACGCTGAGCAGCGAGCTGTCCCAGGCCCGAGATGAGAATAAGAGGACC
CACAATGACATCATCCACAACGAGAACATGAGGCAAGGCCGGGACAAGTACAAGACGCTGCGGCAGATCCGGCAGGGCAACACCAAGCAGCGCATCGACG
AGTTCGAGGCCCTGTAACAGCYAGGCCAGGACCAAGGGYAGAGGGGTGCTCATAGCGGGCGCTGCCAGCCCCGCCACGCTTGTCTTTAGTGCTCCAAGTC
TAGGAACTCCCTCAGATCCCAGTTCCTTTAGAAAGCAGTTACCCARCAGAAACATTCTGGGCTGGGAACCAGGGAGGCGCCCTGGTTTGTTTTCCCCAGT
TGTAATAGTGCCAAGCAGGCCTGATTCTCGCGATTATTCTCGAATCACCTCCTGTGTTGTGCTGGGAGCAGGACTGATTGAATTACGGAAAATGCCTGTA
AAGTCTGAGTAAGAAACTTCATGCTGGCCTGTGTGATACAAGAGTCAGCATCATTAAAGGAAACGTGGCAGGACTTCCATCTGTGCCATACTTGTTCTGT
ATTCGAAATGAGCTCAAATTGATTTTTTAATTTCTATGAAGGATCCATCTTTGTATATTTACATGCTTAGAGGGGTGAAAATTATTTTGGAAATTGAGTC
TGAAGCACTCTCGCACACACAGTGATTCCCTCCTCCCGTCACTCCACGCAGCTGGCAGAGAGCACAGTGATCACCAGCGTGAGTGGTGGAGGAGGACACT
TGGATWTTTTTTTAGTTYTTTTTTTTTTGGCTTAACAGTTTTAGAATACATTGTACTTATACACCTTATTAATGATCAGCTATATACTATTTATATACAA
GTGATAATACAGATTTGTAACATTAGTTTTAAAAAGGGAAAGTTTTGTTCTGTATATTTTGTTACCTTTTACAGAATAAAAGAATTACATATGAAAAACC
CTCTAAACCATGGCACTTGATGTGATGTGGCAGGAGGGCAGTGGTGGAGCTGGACCTGCCTGCTGCAGTCACGTGTAAACAGGATTATTATTAGTGTTTT
ATGCATGTAATGGACTATGCACACTTTTAATTTTGTCAGATTCACACATGCCACTATGAGCTTTCAGACTCCAGCTGTGAAGAGACTCTGTTTGCTTGTG
TTTGTTTGCAGTCTCTCTCTGCCATGGCCTTGGCAGGCTGCTGGAAGGCAGCTTGTGGAGGCCGTTGGTTCCGCCCACTCATTCCTTYTCGTGCACTGCT
TTYTCCTTCACAGCTAAGATGCCATGTGCAGGTGGATTCCATGCCGCAGACATGAAATAAAAGCTTTGCAAAGGCACGAAGCAGCACGGGTGTGTGCTTG
TGTGTGGGGTGGGAGGGCTACCGCCGACTCGTCTGGGCTCTATGCTGTCCTCTGGCCAGGTTTYGTGAGGGGCCGTGGTGTCCCTGGGGGTACACTGGTA
AGTTGGAGCTGACCAACCCAAGACATGGTGCTCCATGGGTCACCTAACCTCCTCGAGATGGTTTCCACAGGAGAGAAAGACTGCTCCAACACTCATCAGG
CTCCTCTAAAATGCTCCTCATAGCCGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGTCGGATCACGAGGTCAGGAGATCG
AGACCATCCTGGCCAACATGGTGAAACCCCATCTTTACTAAAAATACGAAAATTAGCCTGGTGTGGTGGTGCATACCTATAATCCCAGCTACTTGGGAGG
CTGGGGCAGGAGAATTGCTAGAACCCGGGAGGCGGAGCTTGCAGCAAGCCAAGATCGTGCCACTGCACTCCAGCCTGGTGACGGGGAGACTCCGTCTCAA
AAAATAAAGTGCTTCTCACAGCGAAGCTGTGACTCCCCCCCCCGCCTTGAGACAGGGTCTTACTTTGGCCCAGGCTGGAGCACAGTTGCATGATCGGGGC
TTACTGCAGCCTCAACCTCCTGGGCTCAATCCTCCCGGTTCAGCCTCCTGAGTAACTGGGACTACAGGTGTGTACCACCACACCTGGATAATTTTTTGGT
TTTTTTGTAGACAGGGTATCTATGTTGCCTGGGCTGATCTCACACTTCTGAGCTCAAGCCATCCACTGCAGCCTCCCAAAGTTGCTGGGATTACAGGGGG
GAGTTACCATGCCCACCAGCCGGCCTTTTACCTCATTTGATAAGCACTGGAGGACATGGGTAACAACGTTTATTAAAATCTGGCCATTTTCTACATCTCA
AAGAGGAGATAACCCACCAGAGGCTTAGGTAACATAATTGTGTTTAACGTAAATATACACAGATACCAATAGGCGGTTAAGCCATGGGACAGGGCCGCAG
ATGGAGACTGCTCAAGGTCAAAGGGGTCTCCAGCTGGGACCCTGCACCTGGTTCGTAGCCCCTCTGCAGACGCACAGTGCCTCACGCCTGCTGCAACCTG
GAACCTTGAGGCCTTCATGTCAGTGCAGGACAAGAGTCATGTCTGTCCATAGATTGGGGCTGGAAAGGACTTTCTGCCACTGGAGCTTCGATWGTGAGCA
TGCATCCCCGCCAACAGCTGTGTCTCCCTCTGTAAGAGAGGAAGACAATTTAGCCATGGTCGGGGAGGGCACCACTTCATCCCCTCTCATCCCTTTAAAA
ATGATGACCAGCCAGAAGTTTTTCACCTTAAGTCCACATTAAAAGGCCAACCACTGATGACAGACGCCGCCACCACCACTCCCACCCCAACAAAGCTGGT
GTTGAGACTGGGATTCACGCAGGCATCCTCTGCTCTGCGAGGCTCTAACAGCCTGGAGTTCTGTAGTTTGAAAGTGAGGCGAGGACTCTGGTTTGGTGGG
CTGGGTCTTCACCAAGGGAGTGGATAGTTGCACACCAGCATGGCTAGCTGGGTGGGGCCGTCTCAGACTGGGGGCTGGGCTTGCCCATGGGAAGGGATTC
TTAGAGGAAGACAGTATGCTTTGGACAAAATATCTTTGAAAAGCAATGGAGCAGTGAAGCTTATTTCTCTTCAGTCACTGGTTCTCAGTTGGAGGTCCTT
GGAGATGTGTGCAGGTGTTTTTGGTTGTCATCATGTCAGGGACACTGCTGGCAGCCAGAAGCAGTGCCAGGCACAGAACCTCACAGCAGAGGGCTGTCCA
CCTACCATGCCGGCGGTGCCCTGCCGAGCGGCTCTGGACAGCACTGCTGTTCTGACCACTTTTGATGAAGTACTTTCTGAATTGCCATTTGTTTAAGAAG
ATATTTTCATTTAAGAAAATAATCCTTTTATGATTGACGCCAGAAACAAAAGCAAATACTGTACCTAGCCCGTTTGGAGGCCTATAATTTTTGTTTCTTT
AGCAGATCTAAATCTGATTTAAATTGTCAAAATACTTGGCTGTATTATGGCTCAGCTGTAGAGTAAAAACTAGRCTTARGCATTTCCAATTAAGGCAGGC
TAGGCAATTTCAAAACCAGTTAAGTCACTGCCCTGGTGGAAGCATTTTCTTTGCACGGTACCCATTAGGATAATCACAAAGTATAAACGTTTGGGCTCAA
TGTCTCAGACTTACTTGAACCAAGTCTGGTTCCTCCAAGCAAGCGGTCRTTCATTCCAAAGAGGGCCTGATCCCAGACAGTTAACTCCAAGCTYGACTGC
CTCAGCTGAGCTGGGGTTAYGCCACTGAAGACAAATGAGTGTTTCCACTRGGGGCAAGCCTGCTTCCTCAGGACTGGCGACTTCAGTCTCAGTTTTTGTT
GGTCTGGCAGAGTGAGACAGCTGAAGAGGGAACACAAACCCTGCAATCATTGCCATCCACACGGCCTTCTCTCCTGAGGCCTGTGCGTCAGTGCAGACGG
GAAGCACTAAGAAAAGTGCCAAGTCCACAACATCCACACCCTCCCCAGTGAAGCAGGGTGGGAACCACAGGACTCGGCACATTTCCCTTAGGGCCGAATT
CTGCATCAGGTATGAAGGGCGAGCTGCATGCTGAGGCCTCGTGGCCCTCATCTTAATCTTTCCTCCTTGGGGTGCCTCCCACCATGACTGCAGATACACG
TTATCTCCTTTTAACCCTGTTCTCAGGAAAATCAACTCAGACAAGCTTGTCCAAGGCCATGCAGATAAGCAACAAGATTAGAACATAAGCTCAGTTCTCC
TTTTTTTGAGACGGAGTTTTGTTCTGTCGCCCAGGCTGGAGTGAAGTGGCACCATCTCAGCTCACTGCAACCTCCTCCCCCCAAGTTCAAGGAAGACTCC
TATCTCAGCCTCCAGAGCAGCTAGGATTATAGGTGCCCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAG
GCTAGTTTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCACGAGCCACTGCGTCCAGCCTGAGTTCTATC
TTGACCGTCATTTTTCCCTATGTCACTGACGGGGAGTTTGCAATTCAATGTAATAATGGTATTTGCCTTACTTTTAGAGGGGCCAATGCACCTGTACTGA
ATGAGAATGAAATGTGGACAGTCATGCGTTTTACTGTTGGTCCAAGAGGAGATGTTAAGCTTAGGAAATATTTACTGACCACACCACATTTTCATGCTTG
ATTTCAAAACTGGCTTCCTGATATCACAGAACTGAGAAGATTAGGGTTTCGAGTACTCCAGCATGTACACATCCCGTGAATTTTTGGAAATCAGGGTCTT
TAATGTGTGTTGTTAGATTTTCATAGGAAAGCTAAAATAAGACGTTTTAAGTGGCTTACGTTTTTTAGTGTTCGCTGCAGGTTCTGGGCCATGTTGTGAT
GTATACTAGATCACCAATAAATATTTGATTACATCGAATACCTACCCCTTAACAAATGAGTTCAAGGTGCCATCTGGCCGCACAGGTAAATTCTTGGCTC
CTAGCACTACCAAACAAAGTTGACCATGAAGTGATGGCTGATYTGTCCCTGGAAGGAAAGCCAGTATTCACTGTCAAACCATGTCTCCTGATACGTTAGT
ATGCAGTACCACCACCCCAAAACCGAGAGCTCAGCTAGAGAATCTGCTACAGCCCTCAGACCCCGAGAGAGCAGATGGGAGTGGTGCAGTGGGCTCTGCT
GGCCCTGCCCACAGGCTGTGGCGCTGCCCACACCGTGCCGCTCTGTGGTCAGGTGGAGGACAGGATGGAGGGATTACTAAGATCCTAGCAAAGAGTAAAG
AGGAACGCAAGGAGAGGGAAGATGCCGAAGTTTGAGTCTAGTTGTAGCCAGAAGTTTGGGGGAAAGTGAGAGCCCCGAGACCCTGTCTAGGAGGTTGGGA
TGGCCATGGGGCACTTGCTGCTGGTCTGCTGGTGACCCCGTGAACTTGGGTAGCAGAATTTCCTCTTCTAGCCAAATAGGGAGTCAGCAAAATACACAAC
AGAAATGTGCATTCTGGGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCATGAGGTCAGGAGATCGAGACC
ATCCTGGCTAACATGGTGAAACCCTGTCTCTACTTAAAGAAAAAAAACAAAAAATTAGCCGGGCATGGTGGCAGGTGCCTGTAGTCCCAGGTACTCGGGA
GGCTGAGGCAGGAGAATGGCATGAATCAGGGAGGCGAAGCTTGCAGTGAGCCAAGATCGGGCCACTGCACTCCAGCCTGGGTGACAGAGCAAAACTCTGT
CTCAAAAAAAAAAAAAAAAAAAAAAAAGAAATGTGCATTCTCCCAGTCCTCCTTCCCCGCCCTCCTCCTCCTCCACCCTCCTGCTTTCCACACGCCCCAC
GTTATTGAAGGAGTAAAATCTCCATAGGGTCCCTGAGGACCCTCCCTCCTGACCTACTTCTTTTGCTGGGCAGCAGCTACCCACATGCCTGGGGGCGGGG
ATTTATCTCGTCTGAGCCCTGCAGGTACCAGTGCTCTTGGCTCCACATTGTCATGGAGCCTCTGCTCTTCAGGAGGGGCCACGGTTTCCCCAGAGACCAT
CCAATCTGCCCCTGGGAGGAAGGCCTAGGGCAGTGTCCTTAGAGGAGCGTAGAGAGGGCATCAGAGGCCTTGTCTGCTTCTGGTCACCCGTTTCCCCCAC
TACGGGCTCCAGAGAACCTCTCCCGGGCTCGCTGCATGGCTCAGAAAGAAGAGCTGCTGGAGCTGGGCACGGGGACGTAGAAAGGAAATGCTAGAAAACT
TTCACCCCACCTCAGTCTGCCTGCAGCACCAGGCTCTGCAGACAATGACACAGACAATGTCCAGGGAGCTGGAGGCCACTGACCTTCTTGAGCCTCTTGG
AGTTTTCTGGGCCGTGAAGGGAGAACCAGCTTAGCCCGGACTGTGAGCTCTCCATTACTCTGAGGAACGCTGTCTTCGTATTTCTCCGCCTGGGGACAAG
AGGCAGAGCTTAGGGACAGGATTCCCCAAGTCCCAAGAACCTTCTGGGTTCCTCTGGTTGTCTCAGCTTCGTCCACAGATGCTTCCCCCTGGCCCCTGCA
AGGCCCTGGGTGGAGCAGGTGTGTCCGTGGCAGGACTGGTCTTCCTTCCATCTATGGTTTCACTCCCACCCTCCCCAACCCCAGCATGGGGAGGAACAGC
TTGGCCACCCCAGCGAACCAGAGCCAGATGAGCCTGAGGAAGTGAAGGGACTCAAGGGCACTGCACACTCCCTAAGACATTTCTACGAAAACCCAGACAC
AGCCTGAGTTTGAAAAACAGAAATGAACTCAAGCCTCCACCCCATCCACCCCACCCAGGTCAGTAGAGATTCACGCTGCCCTTCCATGCCAAGGACTGGC
ACAGACACTGGGGACAGCATGGGGTGTAGTCTCTGTCCAGAGCCACAGGGGGTGGCCCCTCAGGGTGTGGTGAGTCTGAGGACACCTCCCTGCCCACCGA
GGCACTTCTGTCATGAGTGGTTTTACCAGAAAGTGAGTGAAGAGAGGGCCGGGAAAGAGATGAGCCTGAAATCCACACCATCCTTCTCCCAGTGGGGTGG
GAGGAGAGTATTGGGAAGAGTCTAGAGCAGGGTGTGTCCAGTCTTTTGGCTTCCCTGGGCCACACTGGAAGAATTGTCTTGGGCCACACATAAAATACAC
TAACAACAGCTGATGAGCTTAAAAAAAAAATCACAAAAAAACTCATGTTTTAAGAAAGTTTATGAATTTGTGTTGGGTTGCATTCAATGCCATCCTGAGG
CCAAGCATGGTGACTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGATCACCTGAGGTCAGGAGTTCGAGACC


SNP Information

Context             (SEQ ID NO:22530):
TTTACTCACTTGAGGTAATAGATGAGAAGGATCTTTTAAAAGGTGAAAGTATTTCATGATAGCATTATAAAATGCATTAACAGACAAGTATATCATGCCT
R
GGAAGTGAGGTGTATGAAAGCACACAGCTGTCTGTTGTATAAAGTCAGGCGGATTCAGTGTGTTACCAGGCATGGAAGCAAAGGACTGAAAAGAGAGTTA
Celera SNP ID:            hCV25593120
SNP Position Genomic:     36143
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,4)   caucasian(A,32|G,4)   total(A,62|G,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:22531):
GAGTTAACTCCACCTACAAAAAAAAACTGTTTTGCAACATTTCAGTTATTTTGTTTGCGAAGCATATTACCTTGTTTTACTCACTTGAGGTAATAGATGA
R
AAGGATCTTTTAAAAGGTGAAAGTATTTCATGATAGCATTATAAAATGCATTAACAGACAAGTATATCATGCCTAGGAAGTGAGGTGTATGAAAGCACAC
Celera SNP ID:            hCV25593121
SNP Position Genomic:     36068
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,3|G,33)   total(A,4|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:22532):
CCATCAACAAGGCAAAGCTCCTACCCTGGTGAGCCTACATTTACGTGAAGGAAAGGGTTAAAAAGGCAACTGAGATGCTTCCTGGTAGTAAATTTAACAG
W
ACAGCTGTGATTAAAAACTAAGCCGGATCAGAAGATGGGGGTGAGATTCCTTTAGGCAGGTTGGGCAGGAGCCACACTGAGGAGGCAGCATTTGCCTTGA
Celera SNP ID:            hCV27461338
SNP Position Genomic:     50846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22533):
ATCCAGCCAAATACAACTGGAAAACAGCTTTTTGATCAGGTTGGTCTCTGAACTTGAGAGTTAACTCCACCTACAAAAAAAAACTGTTTTGCAACATTTC
R
GTTATTTTGTTTGCGAAGCATATTACCTTGTTTTACTCACTTGAGGTAATAGATGAGAAGGATCTTTTAAAAGGTGAAAGTATTTCATGATAGCATTATA
Celera SNP ID:            hCV25593122
SNP Position Genomic:     36011
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,38)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:22534):
GTAACGTCGAGAGGAAAATCTGATGGGGAAAGGAAAATCATCTGATGGGGAAATTGGCAGACTGTATTGAGAAGTAACACTTCAGCTGAATCTTGCTTGA
S
GGCTGGGGGGCGCACGCGGCAGCACTCCACAGGGAGGAACAGCTGTGGTTTGTTGTCTGGTTTTGCTTTTCCCACAGCTGCTTAGGGACTCTATTCATGT
Celera SNP ID:            hCV27461339
SNP Position Genomic:     11080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22535):
CATGGATGCAGAGCTGGAGTTTGCAATCCAGCCAAATACAACTGGAAAACAGCTTTTTGATCAGGTTGGTCTCTGAACTTGAGAGTTAACTCCACCTACA
R
AAAAAAACTGTTTTGCAACATTTCAGTTATTTTGTTTGCGAAGCATATTACCTTGTTTTACTCACTTGAGGTAATAGATGAGAAGGATCTTTTAAAAGGT
Celera SNP ID:            hCV25593123
SNP Position Genomic:     35986
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,5)   caucasian(A,32|G,4)   total(A,63|G,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:22536):
ACCATGGATGCAGAGCTGGAGTTTGCAATCCAGCCAAATACAACTGGAAAACAGCTTTTTGATCAGGTTGGTCTCTGAACTTGAGAGTTAACTCCACCTA
S
AAAAAAAAACTGTTTTGCAACATTTCAGTTATTTTGTTTGCGAAGCATATTACCTTGTTTTACTCACTTGAGGTAATAGATGAGAAGGATCTTTTAAAAG
Celera SNP ID:            hCV25593124
SNP Position Genomic:     35984
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,32)   total(C,67|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:22537):
AGAAGAAAAGAATACTCAGTTAAGCGTAATTTGTTTCATTCTGTTTTTCAGATCAATGTCCGAGTTACCACCATGGATGCAGAGCTGGAGTTTGCAATCC
M
GCCAAATACAACTGGAAAACAGCTTTTTGATCAGGTTGGTCTCTGAACTTGAGAGTTAACTCCACCTACAAAAAAAAACTGTTTTGCAACATTTCAGTTA
Celera SNP ID:            hCV25593125
SNP Position Genomic:     35915
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,1)   caucasian(A,36)   total(A,69|C,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22538):
ATCTGAAGTCCCTTGAGATACCGGCATCCCTGCCTTATGGTTGAAGGCACTGAGCCTGGTGAAGGGATGTGCTCAAGGCTGTGGAGCTCGCACGTGGCTG
K
CTGTGCTGCACGAGCTGGCAGTGCCTGGCAGGTACTGCACACCTCAAATACCCTGGGAAGATAAGAGATGAGTGAATGTGTGGCCCCTGCCCTTGGGAGC
Celera SNP ID:            hCV16070931
SNP Position Genomic:     52937
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22539):
GTCATTGTAAGGAGGTGCTGGCCTGTGTGTCTCTCACCCTGTATTAGAGACGCGGCTTCCTACCCGCAGCTGCCTCCACCTCAAGAGTAGAACCCCTCTC
R
CTGCGTGGATGAGTGAGCCTTAGTTGTCTCAGTTGCTGCAGCTTCTCATTTCTAAGTGATCGTACCTGAACATCTATGAAAGGAAGAAATGAAGATTTAG
Celera SNP ID:            hCV7764404
SNP Position Genomic:     36352
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22540):
AAGAGAGTTATTGTGCTTGTCATTGTAAGGAGGTGCTGGCCTGTGTGTCTCTCACCCTGTATTAGAGACGCGGCTTCCTACCCGCAGCTGCCTCCACCTC
M
AGAGTAGAACCCCTCTCGCTGCGTGGATGAGTGAGCCTTAGTTGTCTCAGTTGCTGCAGCTTCTCATTTCTAAGTGATCGTACCTGAACATCTATGAAAG
Celera SNP ID:            hCV7764405
SNP Position Genomic:     36334
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22541):
TGCTGAGTTTCATGCAGGAGAGCATCCTGGAGTACAAAGGAGTAGGAGTGAGATTTTCTAAGATTTGAAGGTAGAACCCTGAATCTGCTCAAATTTATAT
Y
AAAAATAAGTCGTTCATGGCTTTGAGATAATAGCCTCAGTTAGTAACAAGTTATTTGAGTGCAAAAAAAGATGTTGCCCAGTGGTTGGACTGAGCAGATG
Celera SNP ID:            hCV25593126
SNP Position Genomic:     37823
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,40)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:22542):
GGACTACAACAAAGAAGTGCACAAGTCTGGGTACCTCAGCTCTGAGCGGCTGATCCCTCAAAGGTGAGCACAGGATGACCCGGCCTGGGCAGGAGCAGTC
W
TGCCGTCCTCGGCAGGGAGAAGTGATTGCCTTAGAAGCACAGTTTAAAAACGCAAGGACTTCGCCAGTGTCAAGTGCTCCTTCATGCTAGTCATTAAGTC
Celera SNP ID:            hCV25593127
SNP Position Genomic:     39967
SNP Source:               Applera
Population(Allele,Count): african american(A,36|T,2)   caucasian(A,36)   total(A,72|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:22543):
TGGCTGAGGAGCTCATCCAGGACATCACCCAGAAACTTTTCTTCCTCCAAGTGAAGGAAGGAATCCTTAGCGATGAGATCTACTGCCCCCCTGAGACTGC
Y
GTGCTCTTGGGGTCCTACGCTGTGCAGGCCAAGTTTGGGGACTACAACAAAGAAGTGCACAAGTCTGGGTACCTCAGCTCTGAGCGGCTGATCCCTCAAA
Celera SNP ID:            hCV25593128
SNP Position Genomic:     39828
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22544):
GTGGCGAGCAGGAGAGCACTTGATAATGACTGTGGCATGAAGGGAGGCTAGGAACAGAGCCCGTTACTCATGCTAACAGGATTTTTTTTCTAAAAATTAT
R
TAATGTCTAGAGTTACAGGTAAAAAAAGAAATGGTAGTTTTAAAACTGCCCAGGTTCCGGCATCACAGTTCCTCTTCCTGTCTTGGACGCAGAGGGTTGT
Celera SNP ID:            hCV16174144
SNP Position Genomic:     57454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22545):
AGGGCAGTGATGTGAGCCAGCCCCACCCAGCACCCCTCTTGCCCTTCCTGTTTTCCTAGGGGACGGGCCGGGCCATATGGGGAGGAAGGGACTAGACCAA
Y
GCTGCTTAATGTTACAGACGCTGAGCAGCGAGCTGTCCCAGGCCCGAGATGAGAATAAGAGGACCCACAATGACATCATCCACAACGAGAACATGAGGCA
Celera SNP ID:            hCV16174145
SNP Position Genomic:     58135
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,18)   caucasian(C,24|T,10)   total(C,38|T,28)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(C,240|T,1233)   total(C,240|T,1233)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22546):
GCATTCCAGAGTGATGGACCAGCACAAACTTACCAGGGACCAGTGGGAGGACCGGATCCAGGTGTGGCATGCGGAACACCGTGGGATGCTCAAGTGAGTG
N
TGTGCCCTGCTGTTGGGATCTTGCCATCTCCGTGCACTCCAGCATGTCTTTTCCTGTGACTCTAGTTAGTGCTTTAAAGGGCTCTGTGTCAGGCCTTGTG
Celera SNP ID:            hCV25593129
SNP Position Genomic:     40602
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,14)   caucasian(C,18|T,22)   total(C,42|T,36)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): MASTERPLATE1(A,9|G,171)   total(G,171|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22547):
AACTAGCCATAGTCAAGTAGAAGTATACAAATATTCCAGAAGAACTAAACTATAAGGTGTTTGTAAATATTTAGATGTGAATGAGTATAAACAACGCATC
W
AAAAATCATAAAAATTGATATTTGGTAAATTTTCCTTTCTGCCAGACTTGCTGGCAGTTAAAATTTGAAACAGTGACTGTACCGAAAGCCTTTTTATTCA
Celera SNP ID:            hCV27403630
SNP Position Genomic:     22810
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,4|-,6)   total(A,4|-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22548):
ATTATATGAAAACTTATCAGAATGAGTTTTATAACTAGCGTACCCATGTTTTTGTTATTGTGCTGCAGATAAAATGGCGCACTGAAATGTTACTGAATTA
Y
GTGACAATTTTTGTTACAATTCTGTGCACTTTTTACAAGATTTGTGGAGCTTAGATAGATGGCTGGCCTTTGGCATCTGAACATTTTCCTGAGCCCGATA
Celera SNP ID:            hCV27403631
SNP Position Genomic:     23713
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22549):
TACATAATCCATTGCTGTTTGGGTGAGACTCTCAAATGGATTTAGACAGATAATGGTGAGAAAACTGGATTTTTTATTTAGAACGTGGCTGAACAAGGCA
R
TGTGGAAATAGTGTGATAACAAGGTGCATTATATAACTTGAACAAATCAACTGCAAAAAGACATTTTCAAAGAAATGGAGGAAAATTGAATAATATTTAC
Celera SNP ID:            hCV285794
SNP Position Genomic:     18597
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22550):
TTTTGTTTCTCCCTAAAGATTTTTATTCTTTTGAAAATGACCACAGTCTAGTTTGAATGCCATTGTTTTTCAGCTGTTTCTTATTTGCAATTGCTAAAAG
C
CAACAAGGAGCAAGTTAAATGTCCATCACCTGAATGGGTAGACAGAAGTGACAGCCACACAATGGAATATTCCTGGGCAGTAAAAAAAGAATGAAGTGCT
Celera SNP ID:            hCV27403632
SNP Position Genomic:     26969
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|C,7)   total(C,7|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22551):
AAGGTGTGTTTCATTGCCTCAGTTAAATAATTAAGGGTGTTGGCTGCTGGGATGTTGAAGTATTTGCTTACATAATCCATTGCTGTTTGGGTGAGACTCT
Y
AAATGGATTTAGACAGATAATGGTGAGAAAACTGGATTTTTTATTTAGAACGTGGCTGAACAAGGCAGTGTGGAAATAGTGTGATAACAAGGTGCATTAT
Celera SNP ID:            hCV285795
SNP Position Genomic:     18529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22552):
AGTCTAGTTTGAATGCCATTGTTTTTCAGCTGTTTCTTATTTGCAATTGCTAAAAGCCAACAAGGAGCAAGTTAAATGTCCATCACCTGAATGGGTAGAC
A
GAAGTGACAGCCACACAATGGAATATTCCTGGGCAGTAAAAAAAGAATGAAGTGCTGGTACATGCTACAACATGAATAACCCTTTTAAACATTATGCTAA
Celera SNP ID:            hCV27403633
SNP Position Genomic:     27013
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,7)   total(A,7|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22553):
GTCTAGTTTGAATGCCATTGTTTTTCAGCTGTTTCTTATTTGCAATTGCTAAAAGCCAACAAGGAGCAAGTTAAATGTCCATCACCTGAATGGGTAGACA
G
AAGTGACAGCCACACAATGGAATATTCCTGGGCAGTAAAAAAAGAATGAAGTGCTGGTACATGCTACAACATGAATAACCCTTTTAAACATTATGCTAAG
Celera SNP ID:            hCV27403634
SNP Position Genomic:     27014
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|G,7)   total(G,7|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22554):
GTCAGTTGCATAACTCTGAATATACTAAAAACCACTGAATTATACATTTTCCATGGGTAAATTTTATGGTAAGTTACATTTCAATAGCTGCTATTTAAAG
Y
ACATAGTGACTCAACATGAAAGGAAAAATATACAGTTTTGTCTCTATAATTACCCAATTAAGTGAACCAAAATAGCTGCAAAGTTTTTAATTCATTTATC
Celera SNP ID:            hCV27403635
SNP Position Genomic:     27413
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|C,8)      total(C,8|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22555):
TGTTTTCTGAGCCTACAATTAAAACCGACTCTAGCATATAATAAGCCATCTTGGCCTTGTCCCTTACTTTTGTTTATGTGTGTAGTTACTAAGTTTACTA
R
GTAGTTACTAAACTTAAGTTTCTGTGTATAATTACCTGCACATTTCAGTGAAGCATGTTGGTGATGAAGTATTTATGATATACCTAGTGAAACTGAAATC
Celera SNP ID:            hCV7764626
SNP Position Genomic:     20760
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22556):
TGAAGCGCTATTATATCCCATTATGTGCTTGGTGCAGGGACAATAAAAATAAGATTGGTTTTGCCTTTAAGGAGTTCTCAGTCTCCTAGTGAAAGCAGAT
R
TGTAAGCAATTACAATGCAGTGTAGTGCATGATAGAGGTCTTCACAGAAGAGAAGTGTGCCCTGGAGACCAGGGAGGGCCTCCCGGCTGGTAAGATCCTT
Celera SNP ID:            hCV285799
SNP Position Genomic:     14875
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22557):
GTAATGTTTGTGGAGGAACTGATCTTGGACTTTTCCCTCCTGTCTTGGGCTTTTATTACAGTTTGAATTTATGCTGTAAAAAGTGTGATTGTAGAGGTAA
Y
CTATAAGTTTAAAATATTCAGAGGAAATGGATGCTTCCCAAAGGAAAAATTGCATACCTATATTTATTTACCAAAATGAGGAAAATACCTGGGAAATAAT
Celera SNP ID:            hCV27403636
SNP Position Genomic:     28099
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22558):
GCATCAACATGGCAGACAGGCAACAGCCTTTCAGCTAAAGAAGGAAGAAACAGAAAACCCCACCTTAACCACTGCAGAGTTACGTGACCTCCAAACACTG
C
CCCCCACAGCATATCCCCATTTTTGTCCCTTTCCCTTTCAAAGCCAAATAATTTCAAAGAGGACTACATAGCTGCTGGCTTGGGATGGTGTCAAAAGCCA
Celera SNP ID:            hCV27403637
SNP Position Genomic:     28569
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|C,7)   total(C,7|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22559):
ATTGGACCTCTGGTTCCATTGGCATGTGTCCCCTAAGGAGGGAGACCCTTCAGGGGGTACTTACACCTCTACTGTCCGATGGCACTGGCTGTGTCACACC
T
GGCCTGTGGGCTTTGAACCTAGCATTTCAGAGTGGGAAAAGGCCTCAAGCCATCTAGTCCAAACTCTACCTGCAGATCAGGTAGAGGCCCAGTGGCAGGA
Celera SNP ID:            hCV27403638
SNP Position Genomic:     29213
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22560):
CTTCCAGTGATTCCCAAATTTGGCCTCCTCAAAATCACTTGTGGAAGTGACAGCTTCCTGGGCTGCGGGTGTTTGAAAAGCTTCTGTGGGGATTCTGATG
S
TGAGGCTGATGTGGGAAGCACTGTGGTGTGTGATCACTGAGGCACACCCATCTTCATTAATGTGTAAGCCACTCGGGGATAGGAAGGGCTAATGCCTCTC
Celera SNP ID:            hCV27403639
SNP Position Genomic:     29486
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,7)   total(G,7|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22561):
GGAGGAGCTGCACCTGGTGATGACAGCACCCCCGCCCCCACCACCCCCCGTGTACGAGCCGGTGAGCTACCATGTCCAGGAGAGCTTGCAGGATGAGGGC
S
CAGAGCCCACGGGCTACAGCGCGGAGCTGTCTAGTGAGGGCATCCGGGATGACCGCAATGAGGAGAAGCGCATCACTGAGGCAGAGAAGAACGAGCGTGT
Celera SNP ID:            hCV15852038
SNP Position Genomic:     57854
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,33)   caucasian(G,40)   total(C,3|G,73)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:22562):
CTGTCTAGTGAGGGCATCCGGGATGACCGCAATGAGGAGAAGCGCATCACTGAGGCAGAGAAGAACGAGCGTGTGCAGCGGCAGCTGCTGGTGAGGCCCA
M
GGGGCTCTGTCTCCAGGGAGCCTGCCTCGCTTTTGGAGCAGACAGGCTTGGGGAGGGCAGTGATGTGAGCCAGCCCCACCCAGCACCCCTCTTGCCCTTC
Celera SNP ID:            hCV7767177
SNP Position Genomic:     57981
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,30|C,10)   total(A,65|C,11)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22563):
CTTGGTCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGAGCCTGGCCTTAAATATTCCTTCTGAATACAACGTATTTGGACTCCACCGAACGGCCA
Y
TTATCAGCTTGTCTGAGTCCTTAGTTGTTCCTGTGCTTGCTCACCCACTCTGAAAGGATTGGTCACCCTTCCCAAAGTCAAAAAGGAATGTTAGATGATA
Celera SNP ID:            hCV27461340
SNP Position Genomic:     1238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:22564):
TCCTGAAGGCACACCCCTCTCTTCATGAAAAAAGCATTTATGTAGATATTCAGTCATTTAATAGGCCCAAATTCTTTCCCTTTTGAACAAATATTGACAA
S
TTGGTAGCAGCATAAGCAGGAGACTGTCCTGAAGTCTGAGGAGTGCTGAGAACTCACCAGCTGTTGCGCTGTTACCTCTCTCGGTAGAACTAGGAGAATT
Celera SNP ID:            hCV12034622
SNP Position Genomic:     44030
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22565):
TCAAATATGTTGAGTTCACTAAAAACAGTTGCTGATGAGGGAAACCTAACACCCTGATAATAAAATGAAAAGTTGGGATTTAGATGTGTTTTCTCAATTG
M
CAAAGCCTGGTGGTGGTGGTGCTGGTGCTGGTGCTGGTGGTAGTGCTGGTGGTGGTTGTGGTGGTTTTGAGTCTTCGCTGTATCACCCAGGCTGGAGTGC
Celera SNP ID:            hCV8305257
SNP Position Genomic:     30883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22566):
GGACCAGTGGGAGGACCGGATCCAGGTGTGGCATGCGGAACACCGTGGGATGCTCAAGTGAGTGTTGTGCCCTGCTGTTGGGATCTTGCCATCTCCGTGC
R
CTCCAGCATGTCTTTTCCTGTGACTCTAGTTAGTGCTTTAAAGGGCTCTGTGTCAGGCCTTGTGAAGACCTTGAGGGAACCGAGTTAAAAGTGGGGTTTT
Celera SNP ID:            hCV25593130
SNP Position Genomic:     40638
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,27)   caucasian(A,14|G,18)   total(A,21|G,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:22567):
ATGGGTAGACAGAAGTGACAGCCACACAATGGAATATTCCTGGGCAGTAAAAAAAGAATGAAGTGCTGGTACATGCTACAACATGAATAACCCTTTTAAA
Y
ATTATGCTAAGTCATGGGATTCAGTCATGAAAGACTGCATATTACAAAATTCTGTCTCTCTGAAATGTCCAGAATAGGCCATTCCTTAGAGACAGAAAGT
Celera SNP ID:            hCV8305258
SNP Position Genomic:     27103
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,14)      total(C,14|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22568):
TGCCTGCCTGCACGCAGCACACAGCATTGAGCCCATCCTACACAAGGCGCCTTAATTTAAAAATACTGGAAAGGTTTTACTGTTCTAGATATTGAGTGCT
M
CCAGTGACTCTGCCTGTTTCACTCTCCCCAATTAGAGATAATGCTATGTTGGAATACCTGAAGATTGCTCAGGACCTGGAAATGTATGGAATCAACTATT
Celera SNP ID:            hCV25593131
SNP Position Genomic:     41536
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,2)   caucasian(A,10)   total(A,36|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:22569):
CAAGGAGCAAGTTAAATGTCCATCACCTGAATGGGTAGACAGAAGTGACAGCCACACAATGGAATATTCCTGGGCAGTAAAAAAAGAATGAAGTGCTGGT
R
CATGCTACAACATGAATAACCCTTTTAAACATTATGCTAAGTCATGGGATTCAGTCATGAAAGACTGCATATTACAAAATTCTGTCTCTCTGAAATGTCC
Celera SNP ID:            hCV8305259
SNP Position Genomic:     27073
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22570):
GGTGGAATCGTGATAGCATTTGTCCTTTTGTGACAGTCTCATTTCCTGTAGCATAATGTCTTCAAGGTTCATCCATGTTGCAATGTCAGAACTCCCTTCT
S
TCTCTTATTTCTTATGGCAGGTATGTTTTCATTTCATTTTGTTTTAGAGGTCTTTTATGATAGATCAGAACTTAAAAGATGTTTCTGACATTTGATAAAG
Celera SNP ID:            hCV9501086
SNP Position Genomic:     9374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22571):
ATGACAGTGCTGTTTCCTTTTGCATTCCAGAGTGATGGACCAGCACAAACTTACCAGGGACCAGTGGGAGGACCGGATCCAGGTGTGGCATGCGGAACAC
Y
GTGGGATGCTCAAGTGAGTGTTGTGCCCTGCTGTTGGGATCTTGCCATCTCCGTGCACTCCAGCATGTCTTTTCCTGTGACTCTAGTTAGTGCTTTAAAG
Celera SNP ID:            hCV27455077
SNP Position Genomic:     40581
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22572):
CTTAAAGTGCTTGTGGGCTGGGGGTTCAGATGTTCCCCATAGATAAGGAATTGATTTCAGGGTTGGCCACTAGGATTCCTTAGCTCGGAACTCCACACAC
R
CATTCTTCTTAAGTTATTGATGTTAGGTACACCTGTACAACCACCCTGCATAAAGTTCATTCATTCAACAAATAGAGCACCTACTTTGTGCCAGGTTTTC
Celera SNP ID:            hCV27461492
SNP Position Genomic:     17197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22573):
CTGTCCTGGAAGTTGGAGAGTGACATGGGAAGATGTCTGTCCAGCCAGGAGAACACACACTGGAATGAGAACCAGAGGAGCAGAATGCATAGCAAGGCCT
Y
TGTCCATTTCTCTTGGCAAGCTCTGTTGAGTATGGCACGTCTAGGAACGTGATGGGATCTTGGCCCTCCCTGTTGGTTTCATAGAACTAAATGATCAGTA
Celera SNP ID:            hCV27461493
SNP Position Genomic:     48004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22574):
GATCTATGAGTATGTATCTTCTTGCTCAGGTTGTTTGAGATTTGGCCTTTAGGAGCACCTTGAAGTGTGAGCCGTGCATTCTTTGCAGGCTTCCTTGCTG
Y
CTGGCTCCTCGAGATGCACCAGGTTCATCCTTTGTGTTCCCTGTTCTAGTCCTGGAATCAGCCATTTCTCCAAAGGCCTCTGTCTGGTCCCTGTTATTGG
Celera SNP ID:            hCV27461494
SNP Position Genomic:     46520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22575):
GCAAGCATTTCTTAATATTAAGCATTATAGTTGCTATGTGGCTCTGCTGTTTTCTTTGGGACAGTGACATAAAGTAGCCAGATTTGAGTGTTTTTCATAC
R
CTTTAGTAAATCTGGGTTTTCTCAAGTGATAAATTTGAAAACTGCCTTGATGTAAGTGGGTTGTTTTGTTGTTGTGGTGGTGGGTTTTTTTGTTTGTTTG
Celera SNP ID:            hCV27403642
SNP Position Genomic:     34459
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22576):
AGTTGCTGCAGCTTCTCATTTCTAAGTGATCGTACCTGAACATCTATGAAAGGAAGAAATGAAGATTTAGAGAAATAATTCACTTTTTAAAATTGGAAGA
T
TTTTTTAAATCAAGTATTTATTAGTGATATTACTACTTACTTATTAAATACTTTTTTCCCCAATAACAGCTGCTTCAAATACAGCGTTGTTTTTTTTTTT
Celera SNP ID:            hCV27403644
SNP Position Genomic:     36483
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22577):
GACAGATTATCTTCCAACTTTAAAGAGTGGATAATTCCATTAACCAACCAAAAAGAAAAGTAGTAAGATAAACATTTTCTTCAAACTCTGAAAATTATCC
T
TTTTTTTTTTTTTTGAAACCCCCACTGTCCTCCCAAGTCACAGCAACAAGTTAAAAAGATGATGGGAGGTGGGGAAGAGTGGAGGAGCAGGAGGAATTCT
Celera SNP ID:            hCV27403645
SNP Position Genomic:     38566
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22578):
ACAGATTATCTTCCAACTTTAAAGAGTGGATAATTCCATTAACCAACCAAAAAGAAAAGTAGTAAGATAAACATTTTCTTCAAACTCTGAAAATTATCCT
T
TTTTTTTTTTTTTGAAACCCCCACTGTCCTCCCAAGTCACAGCAACAAGTTAAAAAGATGATGGGAGGTGGGGAAGAGTGGAGGAGCAGGAGGAATTCTT
Celera SNP ID:            hCV27403646
SNP Position Genomic:     38567
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22579):
GTCTAAAACTCCTGACCTCAGGTGATCTGCCCACCTCGACCTCCCAAAATGCTAGGATTACAGGCGTGAGCCACCACACCCGGCCTTGTGTGCTTCTTCT
S
TTACATTTTATGTTCTCTAAGATCTTTGTTAGAGGTATTAATTTTGCTGTTAGGATAAAGAATATTAATATGCCAGTAGATTCAGAAGCCAATATAATTT
Celera SNP ID:            hCV12033612
SNP Position Genomic:     8585
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,11)      total(G,11|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22580):
CAGATTATCTTCCAACTTTAAAGAGTGGATAATTCCATTAACCAACCAAAAAGAAAAGTAGTAAGATAAACATTTTCTTCAAACTCTGAAAATTATCCTT
T
TTTTTTTTTTTTGAAACCCCCACTGTCCTCCCAAGTCACAGCAACAAGTTAAAAAGATGATGGGAGGTGGGGAAGAGTGGAGGAGCAGGAGGAATTCTTA
Celera SNP ID:            hCV27403647
SNP Position Genomic:     38568
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22581):
CAGGGAGACTCAGATGGCTTCCGACCACACACACCAGTTCTCAGAGCTCCTAAGGGTCCGAAACCACAGGCGCCCCAGATCCAACTGGGGAGATATTAAA
R
GGCGTTTGGGAGAGGAGACTGGCTTTCGGAAGTTGCCTTTCAGCTTCGCTTCCTACTAGGCCCATGAAGCGGTGCCCTGTACACCAGCAAACTTGCTGGC
Celera SNP ID:            hCV12033613
SNP Position Genomic:     7739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22582):
ACTGCAGTCTCGAACTCCTGAGCTCCAGGGTTCCTCCTGCTCAGCTTCTTGAGTAACTGGGACTATAAGCATGCATCACCATCCCCAGCTAACTTTTTTT
W
AAAAAATGTTGTAGAGATGGGATCTCTTCTACGTTGCCCAGGCTGGTCTTAAACTCCTGGGCTCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGCACTGG
Celera SNP ID:            hCV27403648
SNP Position Genomic:     39344
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22583):
CCAGTTTCTGGGCCGGGCGGACGGGAGAGGCTTCATTGGAGAGGGGAGGCACCTGCTCGAGGTGTTGGGGCAGTTCCTGGGGAACAGGGTTCTTCTCACA
M
GCAGAAGACGATAGGAATAGGAGGAGGTTTTCGCCGCTCTTTGTTACTTGTTGACCCTTTTGTGGAGCGTTAGGAAAACACCATTTTGATGCTTTTCTCT
Celera SNP ID:            hCV12033615
SNP Position Genomic:     7401
SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,21)   caucasian(A,4|C,26)   total(A,21|C,47)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22584):
GTGGGACCTGCGAGTCTCAAGGGCCAGATTTGCCTTTCAGAGCTGTCCTGGAACTTACCCAAGATAGGGACAGTCAGACTTGCACCCAAGCATTGCTGGT
S
CCCAAGGTTTCATCGGGGCTTCACCCACTTCTGTTGTCAGAGGTGTGCATCCTCACACAGGTGACACTGGCAGGCAGTCATTTTGGGAGGACATGGTAAG
Celera SNP ID:            hCV8305402
SNP Position Genomic:     49264
SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   TSC_42_A(C,20|G,63)   SC_12_A(C,5|G,16)   TSC_42_C(G,16|C,67)   TSC_42_AA(G,8|C,75)   SC_12_C(G,5|C,18)   SC_12_AA(G,4|C,19)   SC_95_C(G,34|C,155)   total(G,146|C,359)   no_pop(G,-|C,-)   JBIC-allele(C,261|G,1239)   total(G,1239|C,261)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22585):
AAAGGGCGTTTTGTTCCTGTGGCCTTGTGGAAAAGGCAGAAGGCTCTGAGGCATCTGAAATTTGGAGAAAGTAAGCAGCGTTTCCGCTCTGACTCCTCGG
M
CGCTTCCCCCACGTGACCTTCCCAGGAGCCCCGCTGCCTTTTTGCCTCCCGCGGCTGCCTCCTGCCATCTCTGCGGCCAGATGAGCCTTGGGATTGGCCT
Celera SNP ID:            hCV8305403
SNP Position Genomic:     51474
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;(C,-|A,-)   (A,-|C,-)   JBIC-allele(C,235|A,678)   total(C,235|A,678)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22586):
CCCCACCCAGGAAGTTCATGGGCTCTCAGGGCTTGGCATCACCTCTCACCCTAGGATTTCTGGAACAGATGAAAAGACTGAAGCTAAATAGATTCTTCTC
S
GATGTGTTGATGAGCCCGCTCAGCCGGTTCCTCGTTAGGTCTCAGAAGTTGCTGTGGGATATATCGCACTGTTTTTTTGTTTTAGCCACCCTGTCCCTCT
Celera SNP ID:            hCV8305404
SNP Position Genomic:     52353
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,10)      total(G,10|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22587):
GAGAACATGAGGCAAGGCCGGGACAAGTACAAGACGCTGCGGCAGATCCGGCAGGGCAACACCAAGCAGCGCATCGACGAGTTCGAGGCCCTGTAACAGC
Y
AGGCCAGGACCAAGGGCAGAGGGGTGCTCATAGCGGGCGCTGCCAGCCCCGCCACGCTTGTCTTTAGTGCTCCAAGTCTAGGAACTCCCTCAGATCCCAG
Celera SNP ID:            hCV15852048
SNP Position Genomic:     58322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:22588):
GATCTTCGAGGCCTTTGTCTCTGGGCGGTTGCTGTGGTGCTGAGCCTGTTGTCAGCCCTGGAGCGGCTGCTCCGTCAGGCAGCTCAGGCTGGCAGCAGGC
Y
AGGGTGGCCCTCAGGATACCAAGTCCATCCTGGAGCTTCAAGTACCCGTGAAGTGTGTTGACCCCTCACTTTCCTGCCAGAGTCTAAATCTCCCTGTGCC
Celera SNP ID:            hCV8305405
SNP Position Genomic:     54219
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,18)   caucasian(C,25|T,13)   total(C,41|T,31)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,221|T,1270)   total(C,221|T,1270)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22589):
GGGCAACAGAGCGAGAGACCCTTTCTCAAAAAAAAAAAAAAAAAAAAACAGCGGAGCAGCAAACTAAGTCCCTTTTCCATCGAGGGAGGTCTCTGAAGCA
R
AGCTGAGCCAGCCTCTCAGCTCTGCCCTGGTGGGGCACCCCATAGCGCCCAGAAGCAGTGAGGGCTAAGGCGGCAGAGTGCAGCATGGCCATGCATGATT
Celera SNP ID:            hCV8305260
SNP Position Genomic:     26651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22590):
CCCCTCACTTTCCTGCCAGAGTCTAAATCTCCCTGTGCCTCTTTTTCCCTGCACCAGGCAACAGCTGGAAACAGAGAAGAAAAGGAGAGAAACCGTGGAG
R
GAGAGAAAGAGCAGATGATGCGCGAGAAGGAGGAGTTGATGCTGCGGCTGCAGGACTATGAGGAGAAGACAAAGAAGGCAGAGAGAGGTCAGGCGCCCTG
Celera SNP ID:            hCV8305406
SNP Position Genomic:     54381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:22591):
CCGGGACAAGTACAAGACGCTGCGGCAGATCCGGCAGGGCAACACCAAGCAGCGCATCGACGAGTTCGAGGCCCTGTAACAGCCAGGCCAGGACCAAGGG
Y
AGAGGGGTGCTCATAGCGGGCGCTGCCAGCCCCGCCACGCTTGTCTTTAGTGCTCCAAGTCTAGGAACTCCCTCAGATCCCAGTTCCTTTAGAAAGCAGT
Celera SNP ID:            hCV15852049
SNP Position Genomic:     58339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:22592):
ACTTTCCTGCCAGAGTCTAAATCTCCCTGTGCCTCTTTTTCCCTGCACCAGGCAACAGCTGGAAACAGAGAAGAAAAGGAGAGAAACCGTGGAGAGAGAG
R
AAGAGCAGATGATGCGCGAGAAGGAGGAGTTGATGCTGCGGCTGCAGGACTATGAGGAGAAGACAAAGAAGGCAGAGAGAGGTCAGGCGCCCTGGGGCTG
Celera SNP ID:            hCV8305407
SNP Position Genomic:     54387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:22593):
CTTTCCTGCCAGAGTCTAAATCTCCCTGTGCCTCTTTTTCCCTGCACCAGGCAACAGCTGGAAACAGAGAAGAAAAGGAGAGAAACCGTGGAGAGAGAGA
R
AGAGCAGATGATGCGCGAGAAGGAGGAGTTGATGCTGCGGCTGCAGGACTATGAGGAGAAGACAAAGAAGGCAGAGAGAGGTCAGGCGCCCTGGGGCTGG
Celera SNP ID:            hCV8305408
SNP Position Genomic:     54388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:22594):
AAGTACATTTACATTGTTACATAGCCATCACCAAGGTCCATCTCCAGAACTTTATCTTCCCAGATTGAAACTCTGTACCTATTAAACTCTCCCTCCCCAT
Y
CCCACCACCAGCCCTTGGCAACCACCATTCTACTTTCTGTCTCTATGAATTCGACAACTTTAGATACCTCATGCAGGTGGAATCGTGATAGCATTTGTCC
Celera SNP ID:            hCV9501094
SNP Position Genomic:     9198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22595):
TCACCTCCGGGGCCCACGTGGTGATACTGCACAGGGAGGGAGGCAGGCGCTGTCACAGGAGCTCCTCAGAGAACCTGGAAATGAGATATTGAGGACTCTC
R
GTTCGCTCCTACTCCAAGTGTGCTGGATGCAGCATTGGTAAAGAAGCACGGAAAAGCCAGGCACAGCGGCTCACACCTGGAATCCCAGCACTCTGGGAGG
Celera SNP ID:            hCV9501096
SNP Position Genomic:     43125
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   Caucasian(A,12|G,70)   African-American(A,10|G,72)   Asians(G,84)   total(G,226|A,22)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22596):
GCAGGGGAGACCACTTAACTTTTCAAATGATTCTCATTCCTTATGAAGAAAAGGGCAGTTCTGAGCCATTGGCCAAATGATAAGCATTTCCCAAAATGCT
R
TGTTTTTGGTGTGGAGAGCCAGCCTGTCCCCTTGACCACCTGGGTGCAGGGACTCTCCCCGGCACCTGACGGACAGTGGGACCTGCGAGTCTCAAGGGCC
Celera SNP ID:            hCV27462731
SNP Position Genomic:     49088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22597):
GATAACAGGCCCTGACAAAGGGTTGCCCAAACAGCAGTGTGTCCCTAGGAAGACAGGTTAAGCATCAATTACTATGAGGCTAGCACGAGTTAAGCATTCC
R
CATGCACGATCTCATTTAATCCTTACAAGTCTATGTAGGTGGGGCTACTAGTATGTTCACTCAACAAATTGGGAAACAGAGTTTGGAACTTCGCCCAAAG
Celera SNP ID:            hCV27461932
SNP Position Genomic:     4959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:22598):
ATATCTCACCATGACCCACCTTTTATTGATAGGAGAGGAACCAGTATCACCTGAGGATCAAACTCTAGTAGTCAGTATATCAGATTTTGCTCATATTTTT
M
AGTTAGAAGTCACTTCTGCAACCTAATTTTGTTTTCCATTTTTGCCTGAGAGATCAATTTTAAACTGCCTGTGTGGACAGTTGTCATTTCAGATACTGTA
Celera SNP ID:            hCV11551998
SNP Position Genomic:     15264
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22599):
ATAGCTTCTGGGCTGTATGGGTCCCCTCCTCACCGGTCGGCTGCCCGGCCCCTGCCTGCCTGCACGCAGCACACAGCATTGAGCCCATCCTACACAAGGC
R
CCTTAATTTAAAAATACTGGAAAGGTTTTACTGTTCTAGATATTGAGTGCTACCAGTGACTCTGCCTGTTTCACTCTCCCCAATTAGAGATAATGCTATG
Celera SNP ID:            hCV27403650
SNP Position Genomic:     41484
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22600):
GACCCTCAAAGCCTAAAATACTTACTGGCTGGCTCTTTAGAGAAACAAATGGACCAACTCCTGCTTCTAGCATAAAAATAATTATTGTTAAGCATTTATT
M
TAACCTTGTATATATTTTATGGCTGGACTAATATTTGGAAGCAGATCCACCCCATTGGTTCCAGTTTTTAAAAAATTGTTCTCAAAGAACAGAATGTGTT
Celera SNP ID:            hCV27461934
SNP Position Genomic:     15618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22601):
TGTAACCGTAGTCCAAATACCAAGATAAGAAAATTAACATTAGCAGTCTCTAGACCTCATTCCCATTTTAATCAGTTGTCTCACTGATGTCCTATTTCTG
Y
CCCGGGACCCTCTCTGGAGCCACACAGTTAGTTGTTAGACCTCCCTGTCTCCTTCGATGTGGGATAGTTCCAGTCTTTTTTTGTCATGACCTTGGTATTT
Celera SNP ID:            hCV27403651
SNP Position Genomic:     45862
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22602):
GATGTAGATTGTGTTTCTAGAAAGAATAGTTTCTTTTGCTGAATGTAACATCCTTTGATTATTTCTTTTCCCTTTCTTAGGGGAAAGTGGTGTCTAAGAA
K
TCCAGTTTACTTCCCTGTTAGATAACACACAATGTATGTTATTTCCAGTGTAGAAGAAGTTGGTTCTTAATTAGAGACACTCACCAAAAAGGGCCTTAAA
Celera SNP ID:            hCV27461935
SNP Position Genomic:     21067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22603):
GGCCTATAATTTTTGTTTCTTTAGCAGATCTAAATCTGATTTAAATTGTCAAAATACTTGGCTGTATTATGGCTCAGCTGTAGAGTAAAAACTAGACTTA
R
GCATTTCCAATTAAGGCAGGCTAGGCAATTTCAAAACCAGTTAAGTCACTGCCCTGGTGGAAGCATTTTCTTTGCACGGTACCCATTAGGATAATCACAA
Celera SNP ID:            hCV15965305
SNP Position Genomic:     61579
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,55|G,1430)   total(G,1430|A,55) 
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:22604):
TTAGCAGTCTCTAGACCTCATTCCCATTTTAATCAGTTGTCTCACTGATGTCCTATTTCTGCCCCGGGACCCTCTCTGGAGCCACACAGTTAGTTGTTAG
R
CCTCCCTGTCTCCTTCGATGTGGGATAGTTCCAGTCTTTTTTTGTCATGACCTTGGTATTTTTGAAGAGTACTGGCCATTGACTTTGGAAAGCCCTTCAG
Celera SNP ID:            hCV27403652
SNP Position Genomic:     45901
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22605):
TGTCTCACCATCCTCATACTATTTCCATTTTTACATTTTATTTTCATGTCTTGTCTAAACAGAGTTCACATTTGCATTGAGTGTTGCTTGTCGTATTTTT
K
ATTTCAGAAGCAATTTGCCCAGTTTCTACTATTTTCGTAATTATAATTTAATATCACTACATAATCCATTTTTTATGTGTCTTTGGACATTTCACCATTT
Celera SNP ID:            hCV27461936
SNP Position Genomic:     35031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22606):
CTTTGCACGGTACCCATTAGGATAATCACAAAGTATAAACGTTTGGGCTCAATGTCTCAGACTTACTTGAACCAAGTCTGGTTCCTCCAAGCAAGCGGTC
R
TTCATTCCAAAGAGGGCCTGATCCCAGACAGTTAACTCCAAGCTCGACTGCCTCAGCTGAGCTGGGGTTACGCCACTGAAGACAAATGAGTGTTTCCACT
Celera SNP ID:            hCV15965306
SNP Position Genomic:     61749
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,22)   caucasian(A,1|G,39)   total(A,13|G,61)
SNP Type:                 SILENT MUTATION;NONSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22607):
TTACTGTGGTATTTGAGAAATTGTGATTTTTAAAAACTTTTTACGTGTATTAATTGGAATTCTATAAGGAGCCAATTTCTGTTCTCCATTTATTCAGTTA
Y
ATTAATATGGACTCATGGATATGTGTTTCGGTCTTTGGGTTATGATCTATGAGTATGTATCTTCTTGCTCAGGTTGTTTGAGATTTGGCCTTTAGGAGCA
Celera SNP ID:            hCV27403653
SNP Position Genomic:     46376
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,10)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22608):
GGATATGTGTTTCGGTCTTTGGGTTATGATCTATGAGTATGTATCTTCTTGCTCAGGTTGTTTGAGATTTGGCCTTTAGGAGCACCTTGAAGTGTGAGCC
S
TGCATTCTTTGCAGGCTTCCTTGCTGTCTGGCTCCTCGAGATGCACCAGGTTCATCCTTTGTGTTCCCTGTTCTAGTCCTGGAATCAGCCATTTCTCCAA
Celera SNP ID:            hCV27403654
SNP Position Genomic:     46493
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,12)      total(G,12|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22609):
CAAGGACACTTATAAACCCTGTGGCCACCTTCTCTGTAGACCCTGTTCATGTCCTATATGTGATCTCTTAGGAAAAAGGAAATCCTTGGGCTTTAATTTT
S
CAACTTTGGTCAAGAATTAAAAGTTCTTTAACTCAAAAGTGAGTCATAATTTTCATGTTTAACCTTTTTGTTTTGATACTGCAGTTATGCTTATGAGTGG
Celera SNP ID:            hCV27403655
SNP Position Genomic:     46752
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22610):
CCTGCCGCCCGGGCACTGTTGGTCATAGCATGACCTTGGCATCAGCTGTGAGCCGGTAAACATGGAAATGTAGGCCCCTCCCAACCTGAGTCAGACCCTT
R
GCCTGGGGTCCAGGAAACTGTTTTAACAAGCCCCTGGGTGATTTTTTTTCACATGTTCAAGTTTGAGCGCCTCGAGGGCCTGTGAATGGCTGCATATAAG
Celera SNP ID:            hCV7764930
SNP Position Genomic:     25960
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22611):
AAGAGGAAAAACTTTCTAGGCACACCAGAGAGCCGGAGGCCTAAATTTTCTAAGGTCAGAACCTGTTTTGAGAGTCCTGTGTAGAGACAGGAGCCGGAGA
S
GGGATCCCAGCCCCTTGAAGTTTCAGGATGCGGCACGCTGGCTCACAGTGCTATGTGCTGTGGGCGGAGCCTCCGGAGCTTGGATCCTAGCTTCTCTGTT
Celera SNP ID:            hCV27403656
SNP Position Genomic:     46985
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22612):
TTGAGAGTCCTGTGTAGAGACAGGAGCCGGAGACGGGATCCCAGCCCCTTGAAGTTTCAGGATGCGGCACGCTGGCTCACAGTGCTATGTGCTGTGGGCG
R
AGCCTCCGGAGCTTGGATCCTAGCTTCTCTGTTGGTGCCAGCAGGCTGCTCTTGTGTTTTGGGAGAAAGTGCTCCAGAAGCAACACATGCCTACCTGGTG
Celera SNP ID:            hCV27403657
SNP Position Genomic:     47052
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22613):
TCCAGGAAGGCACAGCCCCTGAGAAGCTCTGGGGATGGTTCCCACTGGAGACTGCACACCAGGCTTTAAGCAGCTCCTCTCCTTCACAGACCCGCTGGCC
Y
GTCCTTCCCCCACTGTGGCTTCTCCATCTGTGGAGGTGCCTTCTGGGGACGTGTCTCCCGGCTCTCCAGGGCTGCTGCTGCCTAGTACCTCCTTGCCTCT
Celera SNP ID:            hCV8305410
SNP Position Genomic:     56692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22614):
ATCTGGAGTTCCCCTTTAATGCTCTGAAACCTGTAAAGAAAATTACATCTCGAAGATAAAAGAACAAACTCATTGCATGTCTGTTTGAATGCCAGGTGTG
T
TTTTTTTAATGGGGATTGGTGATTCTAGAGCATAGCACTGTAAAAGAAAGGATGTATACAAAAGCTTTGACATTTAGAACCATGGTCTGGCCAGTGTCCT
Celera SNP ID:            hCV27403658
SNP Position Genomic:     47317
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22615):
GTGCTCATAGCGGGCGCTGCCAGCCCCGCCACGCTTGTCTTTAGTGCTCCAAGTCTAGGAACTCCCTCAGATCCCAGTTCCTTTAGAAAGCAGTTACCCA
R
CAGAAACATTCTGGGCTGGGAACCAGGGAGGCGCCCTGGTTTGTTTTCCCCAGTTGTAATAGTGCCAAGCAGGCCTGATTCTCGCGATTATTCTCGAATC
Celera SNP ID:            hCV8305411
SNP Position Genomic:     58446
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:22616):
CATGACTGACTGCGCTAATTCCCCAGAAGGGCCATGTCAGGCTTACATGTTTGCCCTCAGCCTACAGAGTCCACCCCACTGCCTTGATCTAGTTGATGTG
R
TCATAACGAAACCTGTATTGCTCGTCAGTATTGAAGCTGTTGGTAGGCCATAGATTGCTTGACCTTCCTGCTACTTCTAAAATGAAGGTTTTTGTGGGAT
Celera SNP ID:            hCV27403659
SNP Position Genomic:     47540
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22617):
CACTCTCGCACACACAGTGATTCCCTCCTCCCGTCACTCCACGCAGCTGGCAGAGAGCACAGTGATCACCAGCGTGAGTGGTGGAGGAGGACACTTGGAT
W
TTTTTTTAGTTTTTTTTTTTTTGGCTTAACAGTTTTAGAATACATTGTACTTATACACCTTATTAATGATCAGCTATATACTATTTATATACAAGTGATA
Celera SNP ID:            hCV8305412
SNP Position Genomic:     58906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:22618):
CACAGTGATTCCCTCCTCCCGTCACTCCACGCAGCTGGCAGAGAGCACAGTGATCACCAGCGTGAGTGGTGGAGGAGGACACTTGGATATTTTTTTAGTT
Y
TTTTTTTTTTGGCTTAACAGTTTTAGAATACATTGTACTTATACACCTTATTAATGATCAGCTATATACTATTTATATACAAGTGATAATACAGATTTGT
Celera SNP ID:            hCV8305413
SNP Position Genomic:     58918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:22619):
CTGTTTGCTTGTGTTTGTTTGCAGTCTCTCTCTGCCATGGCCTTGGCAGGCTGCTGGAAGGCAGCTTGTGGAGGCCGTTGGTTCCGCCCACTCATTCCTT
Y
TCGTGCACTGCTTTCTCCTTCACAGCTAAGATGCCATGTGCAGGTGGATTCCATGCCGCAGACATGAAATAAAAGCTTTGCAAAGGCACGAAGCAGCACG
Celera SNP ID:            hCV8305414
SNP Position Genomic:     59388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:22620):
TGTTTGCAGTCTCTCTCTGCCATGGCCTTGGCAGGCTGCTGGAAGGCAGCTTGTGGAGGCCGTTGGTTCCGCCCACTCATTCCTTCTCGTGCACTGCTTT
Y
TCCTTCACAGCTAAGATGCCATGTGCAGGTGGATTCCATGCCGCAGACATGAAATAAAAGCTTTGCAAAGGCACGAAGCAGCACGGGTGTGTGCTTGTGT
Celera SNP ID:            hCV8305415
SNP Position Genomic:     59403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:22621):
CTTTGCAAAGGCACGAAGCAGCACGGGTGTGTGCTTGTGTGTGGGGTGGGAGGGCTACCGCCGACTCGTCTGGGCTCTATGCTGTCCTCTGGCCAGGTTT
Y
GTGAGGGGCCGTGGTGTCCCTGGGGGTACACTGGTAAGTTGGAGCTGACCAACCCAAGACATGGTGCTCCATGGGTCACCTAACCTCCTCGAGATGGTTT
Celera SNP ID:            hCV8305416
SNP Position Genomic:     59564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:22622):
GCTGAGGCAGGAGAATCGCTTGAACCCAGGAAGCGGAGGTTGCAGTGAGCTGAGATTGCCACTGCACTCAAGCCTGGGTGACAGAGCTAGACTCCGTCTC
A
AAAAAAAAAAAAAAAAAAAGGGCTCCTGCTGTTTGCAAACTATTGGCTGCTACTCTGTGGGTAGTTGCACGGTTATTTAAAATTAAACGCGTATTGAATG
Celera SNP ID:            hCV27403660
SNP Position Genomic:     50186
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,8)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22623):
GGCTCAATGTCTCAGACTTACTTGAACCAAGTCTGGTTCCTCCAAGCAAGCGGTCGTTCATTCCAAAGAGGGCCTGATCCCAGACAGTTAACTCCAAGCT
Y
GACTGCCTCAGCTGAGCTGGGGTTACGCCACTGAAGACAAATGAGTGTTTCCACTGGGGGCAAGCCTGCTTCCTCAGGACTGGCGACTTCAGTCTCAGTT
Celera SNP ID:            hCV15965314
SNP Position Genomic:     61794
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,27|T,11)   total(C,56|T,16)
SNP Type:                 SILENT MUTATION;NONSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,302|T,1185)   total(C,302|T,1185)   no_pop(C,-|T,-)   (T,-|C,-)    
SNP Type:                 SILENT MUTATION;NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:22624):
CTGAGGCAGGAGAATCGCTTGAACCCAGGAAGCGGAGGTTGCAGTGAGCTGAGATTGCCACTGCACTCAAGCCTGGGTGACAGAGCTAGACTCCGTCTCA
A
AAAAAAAAAAAAAAAAAAGGGCTCCTGCTGTTTGCAAACTATTGGCTGCTACTCTGTGGGTAGTTGCACGGTTATTTAAAATTAAACGCGTATTGAATGC
Celera SNP ID:            hCV27403661
SNP Position Genomic:     50187
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,8)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22625):
CCAAGTCTGGTTCCTCCAAGCAAGCGGTCGTTCATTCCAAAGAGGGCCTGATCCCAGACAGTTAACTCCAAGCTCGACTGCCTCAGCTGAGCTGGGGTTA
Y
GCCACTGAAGACAAATGAGTGTTTCCACTGGGGGCAAGCCTGCTTCCTCAGGACTGGCGACTTCAGTCTCAGTTTTTGTTGGTCTGGCAGAGTGAGACAG
Celera SNP ID:            hCV15965315
SNP Position Genomic:     61820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22626):
GCAGGTGGGTGGGTTGGGGGAGAGGTCTGGCTCAAGCTGCCACATCCCACTGGAAGCTTCTGGGATGTCTCATGATCCTCTGCCAATACCAGCTGTACTA
Y
TGAAGTAGACATCCCCAAAGAGATGGGTTTGACTTTGTACACGAGTCAGTGCAGCTGCTGGATTCATAGAGGGAGGACCTCTGATTGACTTTCACCCACT
Celera SNP ID:            hCV27403662
SNP Position Genomic:     56080
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;JBIC-allele(T,199|C,1266)   total(C,1266|T,199)no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22627):
CATAGAGGGAGGACCTCTGATTGACTTTCACCCACTTTGCTCCCTCCACCCCGAACTGTTCAGTGCTGATCTGACAGCCCCCGGTCAGGAACTGGTTTTA
M
ATCTAATTATATATGTGCCCCTTGCAATGGGGTCGCAGTGCCTGAAACACGACCTCCTGCAGCTAGTATATACAGCGGGCACCATGGAAAGATCCAGCTC
Celera SNP ID:            hCV27403663
SNP Position Genomic:     56245
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(C,-|A,-)   JBIC-allele(C,210|A,1291)   total(A,1291|C,210)no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22628):
GACGTGTCTCCCGGCTCTCCAGGGCTGCTGCTGCCTAGTACCTCCTTGCCTCTGTTCCAGCCCCCATTCCCGCTGCCGATCTGTATTAGGCTGTTCTCAC
A
CGGCTATAAAGAACAAGCTGAGACTGGGTAGTTAAAGAAAAGAGGTTTAATTGACTCACAGTCCCACATGGCTGGGGGAGGCCTCAGGAAATTTACAATC
Celera SNP ID:            hCV27403664
SNP Position Genomic:     56840
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,8)   total(A,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22629):
ACACCAAGCAGCGCATCGACGAGTTCGAGGCCCTGTAACAGCCAGGCCAGGACCAAGGGCAGAGGGGTGCTCATAGCGGGCGCTGCCAGCCCCGCCACGC
T
TGTCTTTAGTGCTCCAAGTCTAGGAACTCCCTCAGATCCCAGTTCCTTTAGAAAGCAGTTACCCAACAGAAACATTCTGGGCTGGGAACCAGGGAGGCGC
Celera SNP ID:            hCV27403666
SNP Position Genomic:     58380
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,9)   total(-,9|T,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:22630):
AGAGGTAAATACATTAATCTTGGCCAAACAGGTCATGTCCTTTTGCGTTTTCCTGATGGCAGGTTCTGCCCCCTGCCGCCCGGGCACTGTTGGTCATAGC
R
TGACCTTGGCATCAGCTGTGAGCCGGTAAACATGGAAATGTAGGCCCCTCCCAACCTGAGTCAGACCCTTGGCCTGGGGTCCAGGAAACTGTTTTAACAA
Celera SNP ID:            hCV7764940
SNP Position Genomic:     25889
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22631):
AAGGATTATAAATCAGCAGAGGTAAATACATTAATCTTGGCCAAACAGGTCATGTCCTTTTGCGTTTTCCTGATGGCAGGTTCTGCCCCCTGCCGCCCGG
R
CACTGTTGGTCATAGCATGACCTTGGCATCAGCTGTGAGCCGGTAAACATGGAAATGTAGGCCCCTCCCAACCTGAGTCAGACCCTTGGCCTGGGGTCCA
Celera SNP ID:            hCV7764941
SNP Position Genomic:     25872
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22632):
TTAGCCATGGACTTGAATTGTAGATGCAGGCAGCCGGTGGAGTTTGATAAGAGGTTCCTGGCAGGCCGGGCCGAGCACTCCTGGTCAGCTGATGAAAGGG
Y
TGTGCCTGCGCCTCTGTCTCCTTGAATCTGATTGTGTTGAGATTGCTGGCGAGACCTGGGGGTTGTAGGCACAAGGCAGGTTCTCTGGGACTGACGCTTC
Celera SNP ID:            hCV29110049
SNP Position Genomic:     7970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22633):
GTGAGATAAGGGGATCAGGATCCAGAGAGACTATTAAAATATGTGAGTCCATCTGTTGTGATCTGAGGTTTCATTAGAGAAAACCTGTCTGCTAGTACAA
Y
AAATGGAGACTTAGTAAGGATGTTTTTATATAAAGGATTATAAATCAGCAGAGGTAAATACATTAATCTTGGCCAAACAGGTCATGTCCTTTTGCGTTTT
Celera SNP ID:            hCV7764942
SNP Position Genomic:     25739
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22634):
TTGGAGGCCTATAATTTTTGTTTCTTTAGCAGATCTAAATCTGATTTAAATTGTCAAAATACTTGGCTGTATTATGGCTCAGCTGTAGAGTAAAAACTAG
R
CTTAGGCATTTCCAATTAAGGCAGGCTAGGCAATTTCAAAACCAGTTAAGTCACTGCCCTGGTGGAAGCATTTTCTTTGCACGGTACCCATTAGGATAAT
Celera SNP ID:            hCV27460281
SNP Position Genomic:     61574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:22635):
ACAAAGGAGTAGGAGTGAGATTTTCTAAGATTTGAAGGTAGAACCCTGAATCTGCTCAAATTTATATTAAAAATAAGTCGTTCATGGCTTTGAGATAATA
R
CCTCAGTTAGTAACAAGTTATTTGAGTGCAAAAAAAGATGTTGCCCAGTGGTTGGACTGAGCAGATGTCCTGGTTTCCTGGGGACTCTGCTAGACCATGT
Celera SNP ID:            hCV16194713
SNP Position Genomic:     37856
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,99|G,1396)   total(G,1396|A,99) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22636):
CTGTCACCCCCACAGCACCCCAGGGCTGCTCGAGGCACTGCCCCACCTCAGTCTGTAAACTTTGGGCAGAAGAAGTTCAAGTTTTCGACATCGAACTTTC
W
TGTAAAAAAGAAGAGGCCCAAAGTTTGAGGCGGTGGGATTCCTTATCTTGTGTTGACTTTCACGGGTCATCTTCACCCCAGGCGGTTTCTGCTGTGAACT
Celera SNP ID:            hCV27460282
SNP Position Genomic:     51078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22637):
GCTTTAGTCTTCTGCATGAGCACACCTGACGGGCAGCGATGCACCCACCGCACTGTTCCCTGGGGGGCTGTGGGCTCCCATGGTTCTGTGTGTGCTGGCC
R
TAACCCGCCCTGCTGAGTTTCATGCAGGAGAGCATCCTGGAGTACAAAGGAGTAGGAGTGAGATTTTCTAAGATTTGAAGGTAGAACCCTGAATCTGCTC
Celera SNP ID:            hCV16194714
SNP Position Genomic:     37712
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,40|A,1437)   total(G,40|A,1437) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22638):
CACATGATGAACTTGGGAATGCTAATAAAAGCCAGAGTCTGGCCAGTCATGGCATTGCATTGGTTAAGTAGGATTAGCCCTGTGGGGCCTTCATTAGGGC
S
GTTAGTTTGAAGGCTGTCCTGGAAGTTGGAGAGTGACATGGGAAGATGTCTGTCCAGCCAGGAGAACACACACTGGAATGAGAACCAGAGGAGCAGAATG
Celera SNP ID:            hCV27460283
SNP Position Genomic:     47890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22639):
CAGTGAGCTGAGATTGCCACTGCACTCAAGCCTGGGTGACAGAGCTAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGGGCTCCTGCTGTTTGCAAACT
M
TTGGCTGCTACTCTGTGGGTAGTTGCACGGTTATTTAAAATTAAACGCGTATTGAATGCAGACTCTAAGGCTCCATGGCAGCAGTTCATATTATGCAACA
Celera SNP ID:            hCV11558117
SNP Position Genomic:     50228
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,8)   total(A,8|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22640):
GGAAAGTCATCCTAGTTCATGAGGGCAAGTTTCCCATGGTGAGTCTGCGACATCAGCATAATCCTAGATTCTGGATTGATCTGATCAGAAGCTACCTGAA
W
TTAAGAGGCAGAAGGAAACTACCTCTGGAAAGAGAAGGGAGAGGCTCCTGACTGCCTCCTGACTACCGTCTCTGCCCTGATTGTCCACAGTCAGCCTGAT
Celera SNP ID:            hCV27460284
SNP Position Genomic:     42457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22641):
AGAGCAAGAAAATGCTGAAATCTCTTCATCAGTAGGCTACTACGTACTCTGTGACGCTACTGCCTTTTCAGAACACTTATTAAAAATTTGACTAGAGCAG
M
AGCTCTGGACTAGACTGTTTCAGAATGTTTGTGCGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGATGATAAGTCCATCTCTTGAAAAGCTGAAGA
Celera SNP ID:            hCV11558118
SNP Position Genomic:     50491
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,7)   total(A,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22642):
TATATTTTATGGCTGGACTAATATTTGGAAGCAGATCCACCCCATTGGTTCCAGTTTTTAAAAAATTGTTCTCAAAGAACAGAATGTGTTTTGTTAGCCA
R
TGTTGAGCACATCATGGACTCTGAGCATGGACTCAGAAACTACTGAGGAGAGGCATCGTGGTGCTGAGGTAATGTTTTAAACAAAGCTGGTGTTTGGGTG
Celera SNP ID:            hCV27460285
SNP Position Genomic:     15729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22643):
ACTACGTACTCTGTGACGCTACTGCCTTTTCAGAACACTTATTAAAAATTTGACTAGAGCAGAAGCTCTGGACTAGACTGTTTCAGAATGTTTGTGCGTG
Y
GTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGATGATAAGTCCATCTCTTGAAAAGCTGAAGAATATTTTCATAATAAGCCCCAAGCAGAAGCCATTGTAA
Celera SNP ID:            hCV11558119
SNP Position Genomic:     50529
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22644):
TTTCCTTGGTGGGCAGAACAGTACAGTAACATGTAAATGCTATGTGTCATACTTACAGTAATGTAAGATACATGATAAGGAATGCATGTACAAATATGAC
K
TTATACTATTTTAACTTATGTAAGAAAGATTATATAGCATCCCTCTGTATCCACAGGGGATTGGTTCCAAGACCTCTGAGGATACCAAAATTCTCCAATG
Celera SNP ID:            hCV12034006
SNP Position Genomic:     2906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:22645):
CAGCATTGGTAAAGAAGCACGGAAAAGCCAGGCACAGCGGCTCACACCTGGAATCCCAGCACTCTGGGAGGCCGAGGCAGGCGAATCCCTTGAGCTCAGG
W
GTCTTGCCCAGCCTGGGGAACATGGCGAAACCCCGTCTCTACCAAAATTTAAAAAATTAGCTGGCTATGGTGGTGCACGCCTGTGGTCTCAGTCAGGTGG
Celera SNP ID:            hCV27948137
SNP Position Genomic:     43255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22646):
CTCTTTGGCAGAGGAGGGTCTTAGAGATAAGTTAAACACACTAAGCCTTTCTGTGTGTAGATTATATTAGAGCCATCCCACAAATCACTGAGAAGAGCAT
M
GTAGGTTGCACATATTTGAATATGACATTTCTTAAGGCTGTTAGAGAGGATCCAGTTAGTTTTGGTTTGGTTTGGGGTTTTTTTGCTGCCTTAGTAAATG
Celera SNP ID:            hCV29110050
SNP Position Genomic:     10064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22647):
GACTGGGAAAGAGCCTAGGTAACGTCGAGAGGAAAATCTGATGGGGAAAGGAAAATCATCTGATGGGGAAATTGGCAGACTGTATTGAGAAGTAACACTT
M
AGCTGAATCTTGCTTGAGGGCTGGGGGGCGCACGCGGCAGCACTCCACAGGGAGGAACAGCTGTGGTTTGTTGTCTGGTTTTGCTTTTCCCACAGCTGCT
Celera SNP ID:            hCV29110051
SNP Position Genomic:     11062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22648):
ACGTCTGCTGCACATTAAGAATTTAGCCTTGACATTTTAAGTTTAGCCTAATGGTGGTGCTGGAGGAAGTAGTAAGGAGAACAGTTTAGAAAAGGAGGTG
Y
GAGTGGCATGTAGTGTTACTTTTCATCATTTAAATTACTCAAAAAGTTCCTTAAAGTGCTTCTGGCTTCTCTGGGAAATGAGTTCCTGCTTCCCTGTGGT
Celera SNP ID:            hCV29110052
SNP Position Genomic:     22182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22649):
CATTCTAACCATATGCTTGCTGGAAACCATAATAATGTAAAAAGTCGTCATTGGGTTTTCAATTGCAATTACATTGATATAATTTTGTATATAAAACAGT
R
TGTTACTGGGAGCAGCATTGTTCATGTAAGAAAGATGTTCGCTTCATATAATACATGGAAACAAAGTTATATTTTCAATGTTAGCCATTACTGTGACACT
Celera SNP ID:            hCV29110053
SNP Position Genomic:     25278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22650):
CATTGTTCATGTAAGAAAGATGTTCGCTTCATATAATACATGGAAACAAAGTTATATTTTCAATGTTAGCCATTACTGTGACACTCCAAAAAAGGCTGGT
Y
ATGGGGAGAAAGAAGAGCTTTAAAAAAACCTACAGACAATTCACTTGCCTCTTGGGCTTTTCTGCTTTGCCTGCCTTGACCGAATTAGAGTATCTGCATT
Celera SNP ID:            hCV29110054
SNP Position Genomic:     25394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22651):
CCTTCCCAGGAGCCCCGCTGCCTTTTTGCCTCCCGCGGCTGCCTCCTGCCATCTCTGCGGCCAGATGAGCCTTGGGATTGGCCTCTTGTGGGAGAGTTTC
Y
TGGCATCCTGGGGACTTGAAAAGGGGCTCTTTTACCTTCTCTCCTTCTGTATTTGTAGGGTCTTGGGTTTATTTTTCTTGAACTTTCCTTGTGCCTGGTT
Celera SNP ID:            hCV27454667
SNP Position Genomic:     51591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22652):
TTTCCCTTTCAAAGCCAAATAATTTCAAAGAGGACTACATAGCTGCTGGCTTGGGATGGTGTCAAAAGCCAGGCAAGATGATTTTAAGTCATAGAATGAT
Y
GAGCTGGAAGATGCTCACAGATTAAATGGTCTCCAGCCACTCAATATCAGCAGCAAGGGAGAGGAACAGGGTTGGCCTGAGTGAGGCTGGGGCCACCCCT
Celera SNP ID:            hCV29110055
SNP Position Genomic:     28699
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22653):
TGAAACCCCCACTGTCCTCCCAAGTCACAGCAACAAGTTAAAAAGATGATGGGAGGTGGGGAAGAGTGGAGGAGCAGGAGGAATTCTTAACAGTAAGTTT
Y
GGGGTCCAGGGCCCGATTGGCATGTGGCCCCATTCCAGGTCACTGGGGTCATTTCCAAATTTGAGTTCTCCAGGATTGATAGCATCATCCCATGAGGACT
Celera SNP ID:            hCV8305215
SNP Position Genomic:     38680
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22654):
GCACTAAGCTGGTTGAGGTTTGCTAAGTCAATGGTAATGTTTTACAGAGCTTGGCTGTTAGCCAGCATTTGTGGAAAACGACCAATGTCTGTCATAGCTA
R
TGCTATAATTTATTCAGTTGGCATATTGTTTATGGAGACAGTGAGATAAGGGGATCAGGATCCAGAGAGACTATTAAAATATGTGAGTCCATCTGTTGTG
Celera SNP ID:            hCV27454668
SNP Position Genomic:     25598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22655):
CAGTAGGTAGGGTGGTGGGCCTGGAAACAATGGCAAAATGGCAAATTTGTGGGTTATTTTTGAAGTATTTATTTAGCAACTTACTATCCCAAAGTAGGAA
W
CTTTTTAAAGGGCTTTTGGACTGCTGTGGCCCTCTCAAAGGGTGGTCCAGAGGTGTGGGTTATCCTCTCTCATGGTGGGCGGGGCCGATAGTGGGCTCAG
Celera SNP ID:            hCV29110056
SNP Position Genomic:     41844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22656):
TTTTCTGTTTACAAGACAGTCGTGAGACTAAGCAGCTCAGGACTCCTGTAATGCACAACAGAGGCTTGAAAATGTGAAATCTTTGCTGTGACCTAGGGTC
R
GGATTCTACCTTTGCTGTATCAGAATGTCCCATTTCTGGAGGTCTATAAGATGCAGGTTCCTCTGGGCACCCCTGTGCATTGACACCCTTCCGTCCCAGA
Celera SNP ID:            hCV8305216
SNP Position Genomic:     37380
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22657):
CAGAGGTGTGGGTTATCCTCTCTCATGGTGGGCGGGGCCGATAGTGGGCTCAGTCCTGGTAGAGGAAGGCAGAATAGAGCAGAGGCTGCCTCTCCTCCCC
S
CTGCCTCTGAGATTCCACCCCAGCTGCCTGCAGGTACCAGCACATCCATCCATAGCTACTTCGCAGGCAGCCCAGCCAGTGCTCGACTCCTGGCTCGAGG
Celera SNP ID:            hCV29110057
SNP Position Genomic:     41992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22658):
CAGATATTTTTGTTCTCAGCATCCCCACATCTCAGGTTCCCCCAAAACCCTCTCTGGAGTTCTCAAAGGGAGTGGTGCTGCTTTCCACAAATGACCTGCA
Y
GAGTCCATCTCCATTTGCAACCACGCGGATTCCTGCCAGACCCCAGGGCACAGATCTATTTCACTTGGGCAAGTCAGGGACCTGTGCCAGCTGTGCCCAA
Celera SNP ID:            hCV9501117
SNP Position Genomic:     42917
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   (T,-|C,-)   Caucasian(T,13|C,47)   African-American(T,11|C,69)   Asians(C,15|T,55)   total(C,131|T,79)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22659):
CCAGGCACAGCGGCTCACACCTGGAATCCCAGCACTCTGGGAGGCCGAGGCAGGCGAATCCCTTGAGCTCAGGAGTCTTGCCCAGCCTGGGGAACATGGC
R
AAACCCCGTCTCTACCAAAATTTAAAAAATTAGCTGGCTATGGTGGTGCACGCCTGTGGTCTCAGTCAGGTGGCTGAGGTGGGAGGATCACTTGAGCCTG
Celera SNP ID:            hCV29110058
SNP Position Genomic:     43282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22660):
GCCCCAGTGCCTGTCAGGTGACTGTGGAGCTGATGGGGAGAGTGTGGTGGAATGGAACCCAGTCACCACGCTGGGATCTTCGAGGCCTTTGTCTCTGGGC
R
GTTGCTGTGGTGCTGAGCCTGTTGTCAGCCCTGGAGCGGCTGCTCCGTCAGGCAGCTCAGGCTGGCAGCAGGCCAGGGTGGCCCTCAGGATACCAAGTCC
Celera SNP ID:            hCV29110059
SNP Position Genomic:     54145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22661):
GCTGATGTTGAGAGAGAACGCTTATCAGAACAGGGATCTCTGAGGAAAAAGGGAGCTTAAATGTGTGTCCCTGGAATTTCTTCTAGCCCTTCCTTTCCTT
R
GTGACATGGCCACTGCTATGGGCGGGAATTAGAGAAGAGCCCTGACCAGTGGTGTTGATGTCTTTGCCAAGTATACTGTCAGGTCAGTGTCATAAATTGA
Celera SNP ID:            hCV7764952
SNP Position Genomic:     24874
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22662):
TTGGCCAGGCTGGTCTCGAACTGCTGGTCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGGTAGGATTATAGGCATGAGCCACCGTGCCCAGCCTAG
Y
GTCATGTATTTATACTGTTATTTCCACCTCCTAAAAGTCAACAAGGACACTTAGCTCAAGAAGGCTGATGTTGAGAGAGAACGCTTATCAGAACAGGGAT
Celera SNP ID:            hCV7764953
SNP Position Genomic:     24710
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22663):
TTTGAAACAGTGACTGTACCGAAAGCCTTTTTATTCAGGTTAAAAGTTGTACTCCCATTTCCTAAAATAAGGACTGAACTGAGAAACTCTAGCTACAGCT
R
CTTGGTTTTCCATAGAGTTAAGTTGGCTCCTTAGATGCTGAAGTCTGTAGTTATGACCTTGCTTTCATTAGTAATTAGCACCTGGGCAGGTACTAACCAA
Celera SNP ID:            hCV7764954
SNP Position Genomic:     22974
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,9)      total(G,9|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22664):
TCCACAGGGACAGGCAGTTCCGCTTTCACATACAGGGCATTTGCCTTCTTTCTGCTGAGGATAAACAGGGAAAGTCATCCTAGTTCATGAGGGCAAGTTT
S
CCATGGTGAGTCTGCGACATCAGCATAATCCTAGATTCTGGATTGATCTGATCAGAAGCTACCTGAATTTAAGAGGCAGAAGGAAACTACCTCTGGAAAG
Celera SNP ID:            hCV27920048
SNP Position Genomic:     42389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22665):
TTTAATAGGCCCAAATTCTTTCCCTTTTGAACAAATATTGACAACTTGGTAGCAGCATAAGCAGGAGACTGTCCTGAAGTCTGAGGAGTGCTGAGAACTC
R
CCAGCTGTTGCGCTGTTACCTCTCTCGGTAGAACTAGGAGAATTAGATATGCCTGAAACATTGTTCAGGTGAGAAAGCTGATCTATTGAATATGGAAATT
Celera SNP ID:            hCV27460727
SNP Position Genomic:     44086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22666):
GTTAGCCAGCATTTGTGGAAAACGACCAATGTCTGTCATAGCTAGTGCTATAATTTATTCAGTTGGCATATTGTTTATGGAGACAGTGAGATAAGGGGAT
Y
AGGATCCAGAGAGACTATTAAAATATGTGAGTCCATCTGTTGTGATCTGAGGTTTCATTAGAGAAAACCTGTCTGCTAGTACAATAAATGGAGACTTAGT
Celera SNP ID:            hCV27463343
SNP Position Genomic:     25654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22667):
CATCCTTTGATTATTTCTTTTCCCTTTCTTAGGGGAAAGTGGTGTCTAAGAAGTCCAGTTTACTTCCCTGTTAGATAACACACAATGTATGTTATTTCCA
R
TGTAGAAGAAGTTGGTTCTTAATTAGAGACACTCACCAAAAAGGGCCTTAAAAACTAGCAGCTAATAGGTATCAGGAGCATTATTTTCATACGCCATCAG
Celera SNP ID:            hCV27460728
SNP Position Genomic:     21115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22668):
GATGAAGTATTTATGATATACCTAGTGAAACTGAAATCACATGGTATACAATCAAGACTTAGACTTCAGGAGTTTATTAGATAAATTCTTGTTCAAGGTC
M
CTTTCTCTTTATTTTGCCTGCCCTGAGGTAAGGAGATGAGAAGGATGTAGATTGTGTTTCTAGAAAGAATAGTTTCTTTTGCTGAATGTAACATCCTTTG
Celera SNP ID:            hCV27460729
SNP Position Genomic:     20923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22669):
ATCCCTCAAAGGTGAGCACAGGATGACCCGGCCTGGGCAGGAGCAGTCATGCCGTCCTCGGCAGGGAGAAGTGATTGCCTTAGAAGCACAGTTTAAAAAC
R
CAAGGACTTCGCCAGTGTCAAGTGCTCCTTCATGCTAGTCATTAAGTCACTGACCAGCGACCTGAAACATAGCCAGGGAAGGCGAGCTGCCATTCCTCAT
Celera SNP ID:            hCV7764386
SNP Position Genomic:     40019
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,12)   caucasian(A,15|G,21)   total(A,37|G,33)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;JBIC-allele(G,211|A,1292)   total(G,211|A,1292)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22670):
CAGACCCCTGGGCCAGCTGGCTGAGAGGCAGAGGCAGGCAGCCAGAGGAGGCTCAGGTGTGGCACTGGATGCTTTAGTCTTCTGCATGAGCACACCTGAC
S
GGCAGCGATGCACCCACCGCACTGTTCCCTGGGGGGCTGTGGGCTCCCATGGTTCTGTGTGTGCTGGCCATAACCCGCCCTGCTGAGTTTCATGCAGGAG
Celera SNP ID:            hCV7764387
SNP Position Genomic:     37642
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22671):
TTGCTGTATCAGAATGTCCCATTTCTGGAGGTCTATAAGATGCAGGTTCCTCTGGGCACCCCTGTGCATTGACACCCTTCCGTCCCAGAAGTCTGCCTTG
Y
CTGTTTTCCTGCCTTTCCTAGGATTTCTTTGTCCCTGTTCCTAGTAAGTCAGACCCCTGGGCCAGCTGGCTGAGAGGCAGAGGCAGGCAGCCAGAGGAGG
Celera SNP ID:            hCV7764388
SNP Position Genomic:     37492
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22672):
CCTGGAGGCAGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGAGACCCTTTCTCAAAAAAAAAAAAAAAAAAAAA
M
AGCGGAGCAGCAAACTAAGTCCCTTTTCCATCGAGGGAGGTCTCTGAAGCAAAGCTGAGCCAGCCTCTCAGCTCTGCCCTGGTGGGGCACCCCATAGCGC
Celera SNP ID:            hCV26423040
SNP Position Genomic:     26599
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,5)      total(A,5|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22673):
TACCCCTTAACAAATGAGTTCAAGGTGCCATCTGGCCGCACAGGTAAATTCTTGGCTCCTAGCACTACCAAACAAAGTTGACCATGAAGTGATGGCTGAT
Y
TGTCCCTGGAAGGAAAGCCAGTATTCACTGTCAAACCATGTCTCCTGATACGTTAGTATGCAGTACCACCACCCCAAAACCGAGAGCTCAGCTAGAGAAT
Celera SNP ID:            hCV25937391
SNP Position Genomic:     63143
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,36)   total(C,69|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:22674):
CTTGAGGACGTGACCTCCCTGGGCAGAGGTAACAACGTGTGCAAAGGCCCTGTGGTGGGAGGAAGTAGTGTGAGTTTGGGGTTTCACATGAAGCCCAATG
Y
GGCTAGAGAGGAAGACAGGTCAGGCCATGCCTTGTAAGCCATTCTTGGGTGTTTTTTAGTTTAACTTGGGGTTTTGACTGGGAGGTGACATGATCAGATT
Celera SNP ID:            hCV27460730
SNP Position Genomic:     12227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22675):
GGAGATCGAGACCATCTAACTAACATGGTGAAACCCCGTTTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACATGCCTATAATCCCGGCTACT
Y
GGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCAACAAGAGTGAAAC
Celera SNP ID:            hCV7764966
SNP Position Genomic:     22568
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22676):
CAAAGTGCTGGGATTACAGGCTTGAATCATCGCACCTGGCCGTTTCATTTTTACCACACTGCCACAGGCCACTTCATTTTTTGGCATTCCCCTAAAGGGT
M
AAGTTCAGAAATGCTCTTCAAGGTCTTGGGGCACCGCTATTTCAAACATTCAATTTAGAAGACAGTATACTTCAAATGGAGCGAGATAAAAATTAGATTA
Celera SNP ID:            hCV27403615
SNP Position Genomic:     3843
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:22677):
CTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGAAGGTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCCTGGCGACAGAGTGAGACTCTGTCTC
A
AAAAAAAAAAAAAAGACTTTATTCATCAGCAAGCGGAGTGACCTGCACAGAGGGCGAGGCAGACCTTGTTCTCTGGAAGCTTAGTGTCTGGTACCTGGGC
Celera SNP ID:            hCV27403616
SNP Position Genomic:     10813
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22678):
GGGGAAGGTGGGGAGTCTGGATTTGTTGTTACATGTTAATAAGTTTGTGACAATCGTTGATGAAAAAAGTCCTTGCCTTCTTTCATTACTACATCCACTG
C
CCCCCAAAATATTAAAGGACCAGACTCCTTAAACTACGTTATTTTTAAATCCAAATAATTCAGTAGCTTTTTGTTTTCCCTAGTATATGTACACACCGTA
Celera SNP ID:            hCV27403617
SNP Position Genomic:     12729
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,9)   total(C,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22679):
TTTGATCTACTATAGTCTGTATGTGAATTTCTGACTGCAGATGTTTTGTAAGTCCATTCCTGATTCAGAACACCCTGTCTAAAGTACAGCTCCATCTCTG
T
CTGTGCCGTGCCCCACTTTACTGCACTCATAGAACTCGGTCTCCACCTATAACGCTGTCAGGTGCTTGTTTATTTGTGCTTTTTGTCTTTTCTGGCAGCA
Celera SNP ID:            hCV27403619
SNP Position Genomic:     16104
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22680):
GCAACCTGGAACCTTGAGGCCTTCATGTCAGTGCAGGACAAGAGTCATGTCTGTCCATAGATTGGGGCTGGAAAGGACTTTCTGCCACTGGAGCTTCGAT
W
GTGAGCATGCATCCCCGCCAACAGCTGTGTCTCCCTCTGTAAGAGAGGAAGACAATTTAGCCATGGTCGGGGAGGGCACCACTTCATCCCCTCTCATCCC
Celera SNP ID:            hCV25938779
SNP Position Genomic:     60693
SNP Source:               Applera
Population(Allele,Count): african american(A,15|T,17)   caucasian(A,12|T,28)   total(A,27|T,45)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:22681):
AACATTATATATCATGGGATTTTAAATTAGACATCTATGTATATGTAAATAGTCGAACTTGTCTGGGACTCGGTTTAGATGATGTTCAACAAATGTCCAC
R
GCAAGTTCGACTATCACTGCTTTTCTGTTTACAAGACAGTCGTGAGACTAAGCAGCTCAGGACTCCTGTAATGCACAACAGAGGCTTGAAAATGTGAAAT
Celera SNP ID:            hCV7764395
SNP Position Genomic:     37259
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   JBIC-allele(G,216|A,1273)   total(G,216|A,1273) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22682):
GAGCTTTAGGGAGCCTCTGGCCTCCCTGCACCCTTCAGATGAAGAAACAGGCCCAGATCAGGAGTTAATTTGGAATTTTAGGATTTACTTTAAGCAAATG
Y
TCTGTATACCTGAGTTGTCATTTCTAATGTATTCAACCCTCTTTGGCATTAAATATGATAGAAGCCATGTATTTGAAGGATGGTAGCATTTTTTAAAGTT
Celera SNP ID:            hCV7764396
SNP Position Genomic:     37057
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22683):
CAGCATTGAGCCCATCCTACACAAGGCGCCTTAATTTAAAAATACTGGAAAGGTTTTACTGTTCTAGATATTGAGTGCTACCAGTGACTCTGCCTGTTTC
M
CTCTCCCCAATTAGAGATAATGCTATGTTGGAATACCTGAAGATTGCTCAGGACCTGGAAATGTATGGAATCAACTATTTCGAGATAAAAAACAAGAAAG
Celera SNP ID:            hCV27471959
SNP Position Genomic:     41557
SNP Source:               dbSNP
Population(Allele,Count): MASTERPLATE1(C,1|A,178)   total(A,178|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22684):
TGGAGAGAGAGAAAGAGCAGATGATGCGCGAGAAGGAGGAGTTGATGCTGCGGCTGCAGGACTATGAGGAGAAGACAAAGAAGGCAGAGAGAGGTCAGGC
R
CCCTGGGGCTGGCACTCTACACTGGGTCATGCATTTCCACAGAGTAGCAGGGGCCACACCCACCCACCCACTCACCAGGAAGGAAACCAAGAACGTGTCC
Celera SNP ID:            hCV25593112
SNP Position Genomic:     54476
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,28)   caucasian(A,17|G,19)   total(A,25|G,47)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22685):
GGGGCTGAAGGCAGCTGGTGGGGAAGGGGCTGGGCTGTTGCCAGGGTCACCCATTGAAGGTGGGTGTGGGCATCCAGGAAGAGATGCCGGGGGTGCACAA
W
GGACCCTGCTGGCCATGGAGTGGGGGTGGCGGGGACTCAGGTGTCACGTTGGAGACTGCTTGCCAACACACATGAACACTCATTCACAACTGGACTCCGT
Celera SNP ID:            hCV25593113
SNP Position Genomic:     55668
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(A,2|T,38)   total(A,2|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:22686):
TGCTGCCTTAGCCTGCCAGGACAGAGGGAGGTGACAGTCTGTTCTCATAGCCAGGAGGATAGGACTTCTGGGTGAGAAGTCCTCTTATTAATTTGCTTTC
Y
AAAGGCCAAAGAAGCCCAGGATGACCTGGTGAAGACCAAGGAGGAGCTGCACCTGGTGATGACAGCACCCCCGCCCCCACCACCCCCCGTGTACGAGCCG
Celera SNP ID:            hCV25593114
SNP Position Genomic:     57714
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,34|T,6)   total(C,65|T,11)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22687):
TTCATTCCAAAGAGGGCCTGATCCCAGACAGTTAACTCCAAGCTCGACTGCCTCAGCTGAGCTGGGGTTACGCCACTGAAGACAAATGAGTGTTTCCACT
R
GGGGCAAGCCTGCTTCCTCAGGACTGGCGACTTCAGTCTCAGTTTTTGTTGGTCTGGCAGAGTGAGACAGCTGAAGAGGGAACACAAACCCTGCAATCAT
Celera SNP ID:            hCV25940337
SNP Position Genomic:     61850
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 NONSENSE MUTATION;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22688):
GCAATGAGGAGAAGCGCATCACTGAGGCAGAGAAGAACGAGCGTGTGCAGCGGCAGCTGCTGGTGAGGCCCAAGGGGCTCTGTCTCCAGGGAGCCTGCCT
S
GCTTTTGGAGCAGACAGGCTTGGGGAGGGCAGTGATGTGAGCCAGCCCCACCCAGCACCCCTCTTGCCCTTCCTGTTTTCCTAGGGGACGGGCCGGGCCA
Celera SNP ID:            hCV25593115
SNP Position Genomic:     58009
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,3)   caucasian(C,38)   total(C,71|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:22689):
GCGCTGCGGGCGCCGAGTGTCGGGCGCGGCAGGAGGACGAGGCAGGGCGGGCGGGCGCTCTAAGGGTTCTGCTCTGACTCCAGGTTGGGACAGCGTCTTC
S
CTGCTGCTGGATAGTCGTGTTTTCGGGGATCGAGGATACTCACCAGAAACCGAAAATGCCGAAACCAGTAAGTTGCCCAGTTTCTGGGCCGGGCGGACGG
Celera SNP ID:            hCV25593116
SNP Position Genomic:     7224
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,33)   caucasian(G,32)   total(C,3|G,65)
SNP Type:                 UTR 5


Context             (SEQ ID NO:22690):
TCCCAGAGAATGCACTTTCCCAGTGCTACATACCCACACATAACCGCACACACACGCGGCACGTGCCCTTCCTCCATCTGTCCTGGAGAATGCACATTCC
Y
AGTGCCGAGATGCTGCCATCCCTGTTCTGCTACATTTGTTCTTTTAGAAAAGTTCTGGACCTTTGTGAAGGATGGTTTGGAGAAGAAAACCAAACGAAGG
Celera SNP ID:            hCV25593117
SNP Position Genomic:     53687
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,28|T,12)   total(C,60|T,18)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22691):
AGAGGCTGACCGTATGGCTGCACTGCGGGCTAAGGAGGAGCTGGAGAGACAGGCGGTGGATCAGATAAAGAGCCAGGAGCAGCTGGTAGGAATGGCCTGA
S
TTTCAAGATGCTGAATTATAGAGAGGCTGCTTCTGAGGATGGAAAATGTGACACCTGCCTTGTAATAATTGTCATGACTGGAAGCTGTAAACTGATCTGC
Celera SNP ID:            hCV25593118
SNP Position Genomic:     55464
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,26)   caucasian(C,9|G,29)   total(C,13|G,55)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): MASTERPLATE1(G,9|C,171)   total(G,9|C,171)no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22692):
AGGATCTTTTAAAAGGTGAAAGTATTTCATGATAGCATTATAAAATGCATTAACAGACAAGTATATCATGCCTAGGAAGTGAGGTGTATGAAAGCACACA
K
CTGTCTGTTGTATAAAGTCAGGCGGATTCAGTGTGTTACCAGGCATGGAAGCAAAGGACTGAAAAGAGAGTTATTGTGCTTGTCATTGTAAGGAGGTGCT
Celera SNP ID:            hCV25593119
SNP Position Genomic:     36170
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,34)   total(G,67|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22693):
TTGATCTACTATAGTCTGTATGTGAATTTCTGACTGCAGATGTTTTGTAAGTCCATTCCTGATTCAGAACACCCTGTCTAAAGTACAGCTCCATCTCTGT
C
TGTGCCGTGCCCCACTTTACTGCACTCATAGAACTCGGTCTCCACCTATAACGCTGTCAGGTGCTTGTTTATTTGTGCTTTTTGTCTTTTCTGGCAGCAA
Celera SNP ID:            hCV27403620
SNP Position Genomic:     16105
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,7)   total(C,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22694):
TGATCTACTATAGTCTGTATGTGAATTTCTGACTGCAGATGTTTTGTAAGTCCATTCCTGATTCAGAACACCCTGTCTAAAGTACAGCTCCATCTCTGTC
T
GTGCCGTGCCCCACTTTACTGCACTCATAGAACTCGGTCTCCACCTATAACGCTGTCAGGTGCTTGTTTATTTGTGCTTTTTGTCTTTTCTGGCAGCAAA
Celera SNP ID:            hCV27403621
SNP Position Genomic:     16106
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22695):
GATCTACTATAGTCTGTATGTGAATTTCTGACTGCAGATGTTTTGTAAGTCCATTCCTGATTCAGAACACCCTGTCTAAAGTACAGCTCCATCTCTGTCT
G
TGCCGTGCCCCACTTTACTGCACTCATAGAACTCGGTCTCCACCTATAACGCTGTCAGGTGCTTGTTTATTTGTGCTTTTTGTCTTTTCTGGCAGCAAAG
Celera SNP ID:            hCV27403622
SNP Position Genomic:     16107
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22696):
CGTATTAAGGAATTGTTTTAAATTATGTTGGATGTGATAATGGTATTGTGATTTTTTTTTTTAGTGCTTTAGAGCAATATACTGAAGTTTTTACAAGTGA
A
ATAATGAATGAGGGCCTTAAAATATGCCAGCAAAAAAAAAAAAAGTGAAAGTGGTAGAGTAGAAGAAAGAATGGTGTTGAAGCTGAAAAGAGAGTGTGGA
Celera SNP ID:            hCV27403623
SNP Position Genomic:     18807
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22697):
GTATTAAGGAATTGTTTTAAATTATGTTGGATGTGATAATGGTATTGTGATTTTTTTTTTTAGTGCTTTAGAGCAATATACTGAAGTTTTTACAAGTGAA
A
TAATGAATGAGGGCCTTAAAATATGCCAGCAAAAAAAAAAAAAGTGAAAGTGGTAGAGTAGAAGAAAGAATGGTGTTGAAGCTGAAAAGAGAGTGTGGAG
Celera SNP ID:            hCV27403624
SNP Position Genomic:     18808
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22698):
TATTAAGGAATTGTTTTAAATTATGTTGGATGTGATAATGGTATTGTGATTTTTTTTTTTAGTGCTTTAGAGCAATATACTGAAGTTTTTACAAGTGAAA
T
AATGAATGAGGGCCTTAAAATATGCCAGCAAAAAAAAAAAAAGTGAAAGTGGTAGAGTAGAAGAAAGAATGGTGTTGAAGCTGAAAAGAGAGTGTGGAGG
Celera SNP ID:            hCV27403625
SNP Position Genomic:     18809
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22699):
AAGGAATTGTTTTAAATTATGTTGGATGTGATAATGGTATTGTGATTTTTTTTTTTAGTGCTTTAGAGCAATATACTGAAGTTTTTACAAGTGAAATAAT
G
AATGAGGGCCTTAAAATATGCCAGCAAAAAAAAAAAAAGTGAAAGTGGTAGAGTAGAAGAAAGAATGGTGTTGAAGCTGAAAAGAGAGTGTGGAGGATCA
Celera SNP ID:            hCV27403626
SNP Position Genomic:     18813
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22700):
TTCTGCCTCCCAGATGCAGTGGACAGTAGGGAGGGCTTAGCACAGAACTCTTCCCAACCTGGTTTTAAAATGACCCTCTTTTGAATGTGAATGCCCAGAA
R
GTTCCCTTCTAGTTCTAAGGTCATGATTTTCTTGCTGATAATAATGAGCACAGATGGGACTGGTTTGTCCGCTTTTTGTGTTTGTTAAGCAGCCTTGGTC
Celera SNP ID:            hCV7764616
SNP Position Genomic:     21416
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22701):
TGTGATAATGGTATTGTGATTTTTTTTTTTAGTGCTTTAGAGCAATATACTGAAGTTTTTACAAGTGAAATAATGAATGAGGGCCTTAAAATATGCCAGC
A
AAAAAAAAAAAAGTGAAAGTGGTAGAGTAGAAGAAAGAATGGTGTTGAAGCTGAAAAGAGAGTGTGGAGGATCATGGTACTACTTATTCTCTCTACTTTT
Celera SNP ID:            hCV27403627
SNP Position Genomic:     18839
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22702):
CCCAGGCTGGCAGTGATGGGTCGGGGTGGTGACCCAGTCAGTGTAGCAATAACAGTGTGGGAGGGGAGGCTGTGGCAGAGGAGACAGGAAGCCCAAATAG
M
AGCAGAGGCAGTCCAGGCAAGCATCGGGGATGGGGAGCAGCAGTGAGGCTGGAGAGGACATCATGAAAGGTGGCTACCTGGAAGAGCAGGCAGCTCTGAG
Celera SNP ID:            hCV27454760
SNP Position Genomic:     53343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   JBIC-allele(A,208|C,1285)   total(C,1285|A,208)no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22703):
TGGGTGCAGCGCACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTAAAACTTAAAGTATAATAAAAAAAATAAAG
A
AAAAAGAAAGGAAAAACTCTTCACAGGCTTCTAAATTTGCAGAGACAACCATGCATTCCAGGTGAATAGTGATGTTTAATCTATAGGCCTTTAGTTCCCT
Celera SNP ID:            hCV27403628
SNP Position Genomic:     20558
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22704):
AAAGAAAGGAAAAACTCTTCACAGGCTTCTAAATTTGCAGAGACAACCATGCATTCCAGGTGAATAGTGATGTTTAATCTATAGGCCTTTAGTTCCCTAT
S
TTTTCTGAGCCTACAATTAAAACCGACTCTAGCATATAATAAGCCATCTTGGCCTTGTCCCTTACTTTTGTTTATGTGTGTAGTTACTAAGTTTACTAAG
Celera SNP ID:            hCV27403629
SNP Position Genomic:     20661
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22705):
CCCCGCTGCCTCTGAGATTCCACCCCAGCTGCCTGCAGGTACCAGCACATCCATCCATAGCTACTTCGCAGGCAGCCCAGCCAGTGCTCGACTCCTGGCT
Y
GAGGTTTGTGCTAATCCAACCAAGAATATTGATGGTGTGATGAGAGACTTGAAAAGCTGTAAACAATAGCCTGTACGTGTAGACACTTGAGCTAAATGCT
Celera SNP ID:            hCV27454762
SNP Position Genomic:     42088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22706):
CCCTAGACTGAGGAAAAACCAAAGGAAATGGGAACAGATTAAGGTTGCAGATGCCTTGCAGCCAACCACTTGGCTTAACCTAGGACAGGTGGGAACTATT
K
GATAATAGCATATAACACATTGTGCCTCTTGGGTTAGCTTCATATTATTTTAATTGAACTAATAAGAATTGATTTGCGAATCTCTCTTAGCCAATCCAAG
Celera SNP ID:            hCV7767165
SNP Position Genomic:     48587
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22707):
CCTCCTGAACGTCACCGATAAGGCGGGGACGCCAGCATCTAATGGGACTGCTGGGAGGATTGAGTCCCATATCTGAAGTCCCTTGAGATACCGGCATCCC
Y
GCCTTATGGTTGAAGGCACTGAGCCTGGTGAAGGGATGTGCTCAAGGCTGTGGAGCTCGCACGTGGCTGTCTGTGCTGCACGAGCTGGCAGTGCCTGGCA
Celera SNP ID:            hCV27464742
SNP Position Genomic:     52867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22708):
TTGTCATTAAACCCATCGACAAGAAGGCACCTGTAAGTTCCAAAGGATTCTATTCAGGGGCTACTGTTTTTCATTCTTATACTTGTCAGGGTAACGGACA
R
GTTATACTGTGACGAGTAGCCAGTGATAGTCCAAACTCCTCATGAGGTTACATTGAGGGCCAGAGATCCTGTGGGCCAGGCAATTGCTGCAGGGGAGACC
Celera SNP ID:            hCV7767166
SNP Position Genomic:     48899
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,8)   caucasian(A,19|G,17)   total(A,49|G,25)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22709):
GAGTTGTAAAGGGAGCCGTGCCTTCCTCAGCCCCTCCTGAAAGAAAGACCTGCTTTCAAGAAGCTTATATTGCAGGGGGAAAGACACATGTCTAATACAT
Y
GTCAGGGGGTGGTGAGCGTGCTACTGTAAATTTTCACCTAGGCTTTGGCAAGAGCTAGAATTAACTTTCATTCTTTACTGACTCTTTGAAGCGTTAAAAC
Celera SNP ID:            hCV27464743
SNP Position Genomic:     17606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22710):
GGTTAAAAAGGCAACTGAGATGCTTCCTGGTAGTAAATTTAACAGTACAGCTGTGATTAAAAACTAAGCCGGATCAGAAGATGGGGGTGAGATTCCTTTA
R
GCAGGTTGGGCAGGAGCCACACTGAGGAGGCAGCATTTGCCTTGAGTGGGCACTGCTGGTTTGAGGAGGTGGAGTTCTGTCACCCCCACAGCACCCCAGG
Celera SNP ID:            hCV7767167
SNP Position Genomic:     50901
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22711):
TTAGCCTAATGGTGGTGCTGGAGGAAGTAGTAAGGAGAACAGTTTAGAAAAGGAGGTGTGAGTGGCATGTAGTGTTACTTTTCATCATTTAAATTACTCA
R
AAAGTTCCTTAAAGTGCTTCTGGCTTCTCTGGGAAATGAGTTCCTGCTTCCCTGTGGTGTCAGGAGAATCGCAGGGTAGGAGACACGGCCCCTAGGATAC
Celera SNP ID:            hCV27464744
SNP Position Genomic:     22224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22712):
ATGTCTGTCCAGCCAGGAGAACACACACTGGAATGAGAACCAGAGGAGCAGAATGCATAGCAAGGCCTTTGTCCATTTCTCTTGGCAAGCTCTGTTGAGT
R
TGGCACGTCTAGGAACGTGATGGGATCTTGGCCCTCCCTGTTGGTTTCATAGAACTAAATGATCAGTAACTTAAATAACATTCAACAGTCTGTAGCAGAA
Celera SNP ID:            hCV27464745
SNP Position Genomic:     48036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22713):
TGGAAGTTGGAGAGTGACATGGGAAGATGTCTGTCCAGCCAGGAGAACACACACTGGAATGAGAACCAGAGGAGCAGAATGCATAGCAAGGCCTTTGTCC
R
TTTCTCTTGGCAAGCTCTGTTGAGTATGGCACGTCTAGGAACGTGATGGGATCTTGGCCCTCCCTGTTGGTTTCATAGAACTAAATGATCAGTAACTTAA
Celera SNP ID:            hCV27464746
SNP Position Genomic:     48010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22714):
AGAAGGGCCATGTCAGGCTTACATGTTTGCCCTCAGCCTACAGAGTCCACCCCACTGCCTTGATCTAGTTGATGTGATCATAACGAAACCTGTATTGCTC
R
TCAGTATTGAAGCTGTTGGTAGGCCATAGATTGCTTGACCTTCCTGCTACTTCTAAAATGAAGGTTTTTGTGGGATGTTGGAAAGGACTGCTTTGGAGGG
Celera SNP ID:            hCV27464747
SNP Position Genomic:     47564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22715):
CATTGAGTGTTGCTTGTCGTATTTTTGATTTCAGAAGCAATTTGCCCAGTTTCTACTATTTTCGTAATTATAATTTAATATCACTACATAATCCATTTTT
K
ATGTGTCTTTGGACATTTCACCATTTCTCTCTCACTATGGTTTCTAAGGTTGCTTCAAACCTTCTGATTCAAAGCTCTTTCTCTCTTCCCTTCTCTGACT
Celera SNP ID:            hCV27464748
SNP Position Genomic:     35105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 76
Celera Gene:                 hCG1818599 - 92000042679812
Gene Symbol:                 CLTC
Protein Name:                clathrin, heavy polypeptide (Hc);CLTCL2;KIAA0034
Celera Genomic Axis:         GA_x5YUV32W3KM(3089606..3178065)
Chromosome:                  Chr17
OMIM number:                 118955
OMIM Information:            CLATHRIN, HEAVY POLYPEPTIDE;CLTC


Genomic Sequence (SEQ ID NO:12236):
ATCACTTCTGTGCAAAGGTTAAATTTTTTTAATAAATTAATAATGGAATGTTTAAGCCTTCCTCAGTAATGAGTATAATCTTATCTCTCCATCTGATCTG
ATGGGTCAACTATATAGTAACTAAAATAGACTGTAACAGCTGTCTTCATCATTAGTTTTTATTTTCACCATGCATGTAGAATGCTTTATATTGTAGTCCC
TTATTATCTGAGGTTTCATTTTCTGATGTTTCAGTTACCTGTGTTCAACTATGTCCAAAAATAGGTAACTACAATGATATTTTGAGAGACCACATTCACA
TATAACTTTTATTATAGTACATTGTTATAATTGTCCTATTTTCATTGTTAATATCGTACTGTGCCTAATTTATAAGTTAAACTTTATCATAGGTATATAT
GTATAGAAAAAACATAGTGTATACTGTATGGGGTTCAGTATTAGCTGTGGTTTCAGGCATCCTCTGTAGAGGTCTTGGAATATATCCCTTGTGGATAATG
GAGGACTACATATTTGACTGGTTGGTGGAGTTAACCTAAGGAGACCTTTTCATGACTCTTTAAACTTTTAGGTTTAAAGGTTGACTCGGAAAAGAAAAAC
AATTTATATCAATAAATCTAAGGTAGGCTTATATGAATGCTGCATACTTTTCATCACTGCAGTGTTGTGGAATGAAAAGTAATTGTATGGATTTTATACT
ATACAACATTAAACTCATAGTTATTTGGAATATGAGCAACCAGGAAAAGAAAATAACCAGGTATTTTGTTTGATTTACATAGTAATCTACTTTTAGTAGT
CATGACAGGATGAGGTATGGCATTTTAAAAAAAGTAATTCCTAGTATTGCCTAGGTTTGGTACTACTCAGATTAGGTTACATTTGCAGGAGTACTATACA
ACAACTGTTCACTTTGATGAATCTGAGGCCTTTAAGGTTCAGAACTGCTTTCCCTATATCAATTTTTTTTTTTCAAAAAAGGCTTTACAAAATAATTTAA
CATTGAGTATTTAATTTTACATTGCAGGTACTGGAAAATATTTGTTGAAGAAATTAATTATTCCTTAAAACTTTATTATTGAGTTAACCAAAACTTTACC
AAATCTCAGTCCTTAGCTATTCTGTTGCGAAGAAGTGAGAGTTTACTACCATTAACAAGGCTGCAGATGTACACTGCTACTGGCAGAACTATCCCTAGAG
TGGCAAAACTCTACATTTCCCAAGGGAACATATCTGTGGGTCATGTTTTGCTTTGGAGACAGTAGTAACTCTAGGAGGTGAACACAGAACGTTCTACATA
TTTAGAAATAGAAAAAAGAAATAGCCCTTAACAATTAATCCCACACTCTCACCCTCATTACCTCTTCATTCTATAGATGCTCTCAAGCTTCTTGTGACTT
TTGTTGCAAGATGTTGTGACATGGCATCTGACTCCCTATTGATCAGCAGGGTTAAAATCCTCCTGGGTTTTCCTATCCACAATGTTCTGTGAATTGCTAT
ATTTAAACTAGCTTTTTTTTTTGAGACGGAATCTTGCTCTGTTCCCAGGCTGGAGTGCAGTGGCACACTGTAGAGTGGCAAATGAAGACATATTTATCTG
ATCCTCTGATATGAAATCCCCTATTAATAAACACCTTTCTTAAAAGTGCTATATAAAAGTATGCTTATAATAGGAATGTTTCCTTTAATTTGTCTAGAAT
TGAAAGGGAAATAGGCAGGGGGGTTCAAAAAACAAAAGGGAAATTGAAGGCATCCAGAAACTTATTTTATTTTTGAGACCGAGTCTCGCTCTGTCACCCA
GGCTGGAGTGCAATGGTGTGATCTCGGCTCACTGCAACCTCCACCTCCCAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATGACAGG
CACCTGCCACGGTGCCTGGCTAATTTTTGTATATTTAGTAGAGGTGGGATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTAATCCG
CCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCTGAGCCACCATGTCCTGCCTAAACCAACTTTTGTGAAATGGCTTTTTAAGGTAATGTCATGAAC
CACTTCATTCCTCTGCCAGGGTCTTATTTAACCCTTCAAAAACATGGGTGGGCCCTATATAATGTGACTTCATTCTACATTGGATCCCCACAAAGCTAGT
CTTGGCTTTTCACTTGGAACATGCCCAATGCTGATACAAAGTAAAGATTCACTATAGATCTTATTGCTATCCATCGTACGTTATAAAACTTGTCTAAATA
TTTAAAGGTTTAAAACAAGCCTGCGCAGTGGATGTCAAGAGTAAAGTACGTTTCATAGTAAAATTAAAATGCCATTAAAATTTTGTTCTTGTGGGGCTGG
GTGTGGTGGCTCATGCCTGTAATCCCAGCACTTGAGGAGGCTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTACCCAACATGGTGAA
ACCCCTGTCTCTACTAAAAATACAAAAATAAGCCAGGCATGGTGGCTGGTGCCTGTAATCCCAGCTCCTCGGGAGGCTGAGGCAGGAGAATTGCCTGAAC
CCAGGAGGCGGAGGTTGTGGTGGGCCGAGATCACACCATTGCAGTCTGGCCTGGGCGACAAGAGCAAGACTCCGTCTCAAAAAAAAAAAATTGTTCTTGC
TTTGTAAATGCTGCTTTCTTTTCTTCATTTTGGAGCGGGGAGCCTTGCCGATAGTCAGTGACTTGTACATTTGTTTACTGGCATTTGATAGGCTGCTCCT
TATCTTGCATGAAAAAATAAAGACCTAGCCAGTCTAATCCTGCTGGGATTCATATCAGTGGCCCCAGGGGGTTGAGATGCTTCAAAGCTACTGTTTAAAT
GGCAAAACCAAGTATCTTACTTGGATAATACTAAAGTATGTCCTTTATGGCTTTATTGGAATCTGAATTGTAAACATTTGGTACAGTGGATTAAAGTTCT
GCTTTAAAATTAATTTCTGAGTATGTGAGATATGCCTTTTCTTTGTGACTTTTGCAGTGCAGTGAATTCAGGCTGTTTTTAAAAGGTCAAGTTTTTAAAA
GGCAGGGGCATTAGTGCTAGGGCTGCTTGAAGATGAACAGCTAATGGAGAAATCCTACAGTGAAAGGGGTTGTTTTTTTTTTTGTTTTTTGTTTGTGTTT
TGAGGTGTCATTCTATTGAGTGTTTATATATATATATATATATATATATATATATGTATATATCTCCATCCTAATTGTTGGCATAACATTAAAATTAGTG
ACACAACACAGGTTTCTTGTATAGGTTTTCAGAAACTAGCAGTCCTCAAAATAACAGACCAAGCAATGTAGTTTTTGCTAATGGCACTTGCTGTGACTCA
TGATAGTCTACTGTTGATGAGCATTCCAACTAAAATAGCTTTCACTTCACCATTGATTAACATGGCTACCTTGCTAAAACATTTTCTGAAACCAAAAGCT
AGAGTGATCATTCATAGCATTGTCTTATTAAAAGACTATGTCATACTGTATCGTAGAAAAAGCCATTCTGGGTAGTAGGATTTGCTTCCTGGTCTATTAG
GTTATCTGTTCTCCCTTCTAACTTGAGGTAATGTCTGAAAACAGTGCCATTCAGGTATTGCTTAGGTAACTAAACCAGTGAAACCAGTGAAACTGCCTTT
ATACTGTTACCAAGAACAGCAGACTCCCATTAAAAAAAAAAAAAAACTCTTATTACCCTACTCAAATTATTCATCTTTAAAAAGGCATAGGGTTTTTTTT
TAATGTTTATCATCTTGACTTTTTTTTTCTCTTGAAAATTTTTGGATTAATTTGAAGATCATTTCAAAATGACCCAGGATATCACGATCTATTTTTCCTC
TTCCTAAATTATTTCTCAAAACAGTGTAATTTCTATGTGTGATGACGTAGCAGTCACTAACAACCTCAGCGCACTTTTTGGTTAGATATTCCACTCCAAA
TAGCTAAAATCAACTGCTTTTGGGATTCTAAATGTACTTAAAGTTACAGGGTCTGTATGAAAATGCCAGACACTAATTAAATTTTGGTGGCCCATTCATG
ATACGGCTCTTTTATCTCCGGATTCTGAGATTGAAAAGGTGACTTGATCAAGCTATTGAATTACTGTAATAAAACAATTACTCCCTTAGAATTTTAATTT
AGAATTTGTCTACTTCCAAAAAGGGTTTAAAGCAGTTATTACTAGACTGGCATTAGGTTATTTCAAATGTTGCGGAACAGAGGATCTTCGTGTATTTAGC
TTAACAATACAAAAAGAAATTTTGCAAGCATAAATATTCACTCTTACAACATGGTGGCAAGGCTTTTCTTTGCAGAACAATCTTTGCCCTCTTACCTGCC
AGACTCTTCTCTCATGCTCAGTATGTGAGACAGTTAAGTAAAGGGAAAAACACTAAAAGCAACTAAAATGATTGGCAAACTTCTCACTGTAACCTAAACT
GCTTAGCATACAAAATTATCGTCTACCCAATAGGGTTTTATGTCCTTTAACTGAAAAGGACACTAAAAATAATTATTGTGGACTTGAGCTTTTCTCTTTC
GGCGGGGCGGGGGGTGGGGGGGGAGAATCACCTCTCTTACAAAGATAAAAGGCACAGAACTAACGTCTTTCATCCTTTATTGTATTGGTGCGATTATGAA
ATATTATTATGGCTTATACTTTAGCAAGAAAGTACCAGGAAGGTTATTATTAATCGACAATGAATGCCGTTGATACCTTCATGCTCTTTGAAGACAGGAT
GCTCCGGCTTTGAAGCGCTACATTTCTACATTGCTAACCTACAGGAACCTATGTTGAGGTGGTCCCACCGAAATACACGGCTAATAGTTCATCTCTTTCC
TCCAGGAACCTTCAGGTTTTTTTTTGTTTGTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGTTGGAGTGCAGTGGCGCGATGGAACCTTCRRG
TTTTACTAAGCATCCTTACCCTAATTATCTAAATCTTTGAGACGTAAATTATTTGATGTGGCTAAAAATCCTCCTGCTAGAATTTAGGTCCAATCCTTTA
ATGTTCGGATACTCAAATTCTTTAACGAAACTGATCACTGAGCTAGGCCGACACAAGTCCGCCAAAATGTCCGCAGAAACGTTAAGAAAAGCTGTCATAA
GGCCAGCTTGAAAGACATCATAAAAGGCCTTCGCTGTCCTTTGAGTTAATTATCTAACACCCGAAGAGAGTGCCAGTTCTAGTTAGAATCCGCGCGTCAG
GTTCTCCAACAGTCAGAAGGGCTTGTGTGAGGGCAGGGAAGATTTTAAACCCCGTTTCAGGCCCCCTCCCTRGGCTGTAGGAAAYCACCCACTCTGAAGC
CCGGCGGGGGAGGAGTGCTGCAGCCAGCTGCCGAGGRAGCGCTCTGCGGCGAGGCCGTTTCCCTGAGTCACGGAGAGGGCGGGAGGCTGCGCCCGTCTGC
CCCCGCCACGTCCTCCTGTRAGGGGCTCAGTCGAAACAGGCAGCGGTCGCAGGGAAACGAAGCGGCACCCGTCRTGCCTCAAGGTGGCCCAAAAGCCTCT
TCACTCCCAGGAGACGCCGCATTTCCTTAAAACGAGCTCTCCATTTCTGGCAGCAATCAGCCGACCCTTCCCCATCAGTATCACGTGCACCTGGAAGTAC
GTGSGTGGGACCTAAAGCGYCCACGGAAGTGACGTCGGTCGCCCCGAGTCGCATGATGTGGCAAAATGAAAAAAAAAAAGTGGGGGGAGAAAGAGAAGAC
TGGCGAAAGTGATGAGTCTAAAAAAGTAGTCCCTCCGGTTCCTCTGTTTCCCCCCATGTGGCGTCAGGAAGCGAGGCACCGGGCGCACTGCGCCCCGAAT
TCCTGCGCCCGCCGCGCGCGGCGCTCCGTGGAGGGGTACATAAGGCGGAGGGGGTGAGGCGACTGGGCGGAGTTCTGTCGCCGGGATCCTTCCGCTGGGC
TCAGCCGTTTCCGGAGTCTGCGCTGCGCCCGGTTCCGCCATTGCGGCTCTCCTGGCCCCTGGAGCCTCCGCCCCCGACCCGAGCTCTTTCGTCTGCCTGC
CAGTTTCCTGCGTCCCCGGAGAGGATCCTGCTGAGCCCAGCCTCCCCCCTCCCCTTCTCCTCCTCTCCCTTGGAGAGCCCGGGCAGCCACTGCCCCGCAG
CCCCAGTGACAGGAGGAGACCATAACCCCCGACAGCGCCATGGCCCAGATTCTGCCAATTCGTTTTCAGGAGCATCTCCAGGTGCGGCCGGGCCCGGGCT
GGTGAGGGCTGTGGAGAAGGTGGTAGGAAGGATGGAAGACGCTGGAGTCTGGGCCCGAGCAGTATCGGAGCTGGAGGGGCGGGGGGGTTGTCGGTGATTG
GGGTAGGTGGAGGAGGGGGCACTATCTTGGAAAGCTTAAAATATTAAATGATGTGGGGCTTGGATGGAAAGGACAGGAGTTGGGGTGCAAAGAGCTGCAA
GGACCAGGCCTGGATCCAAAGGCCTCTCGATCTTGCTTCCTGGATGGCCAGAACTGCGCGTACAAACTCTCTCCCCATTTTATTCATTTCATTCATTTGG
GTAGGGGAGTGGGAGGGGGATTCTCCCTTGTTTCTACCAGAGCAAGGATTCTTATCCCCTGGGCCAGTGCGGGGCTGTCACCTTCCATTGCTCTCCTCTT
TCCCTCATCGTGTCTGCACCCAGGAGTTGTGGGGCGGGTGGGTTGGGGAGGAGCAACCTTTTTTTTCCCTCCCTCTGCGGCTCTCAACTGAGAAAGGCAC
CTTCTCCGGTGGTGGGGGTTGGGGGTGGTGGTGAGGCGGTGGCTTTTCTCTTGCCTTCCCTGAGGCAGTAGGGACAGAAGGTCACTGAAAGAACGGAACG
AGGGTAGAATGGGAGAACGCATTTCTTAGAGCTATGTCAATCTCAGAGTGTGTGCGGTCAAACTCCCTAAGGAAACTCGCCTCCCCTTCCCCCTTTTTTT
ATTTCTCTGGGGATGTTGTGGCTCTTAACCCCTCTTTGGTTCTGGAAGGTAGGAAAGAGTGATACAGAGGTTATCTTTTAGTCTTCTCGAGTAGTAGCAG
GTAGTTTTGAATATCTTCTTCAGGATCGCATGGAATTGAACAGAGCCCTGGGGACAGCACAGCTGCTCTGAGACCTGCAGGGCTATTTGGTCTGTGACTG
GCTTCCCTTTAGTAAGTTCTAGAGTTCTTCCCCATGGTTCCTTATCCTGGAGGCAACATATTGTTATCTGGCAACATGCCAGTGGCGGGCCTAGGCAGGT
GACCATTGGAAGGCTTCACTGAATTAAACCTCTTCAGAGCTTTTGATTTTCCTGTGTCACCAATCCTGTTTTTTACTGTAGCTTAAATAATTTATTCCTA
TTAATTTGCTTTCTTCCCAAATATCCCCTTAAAGAAACCTGCCTCAGCTCAGTCGTCTGAAGGGCTAATTCCATAATGACAGRGAATGCAGTGGTTTGAC
ATGACACTGATATCAGTGACCTATTAGACACTTTACCATTGAAGACCATTTTTATTTACATTTCCCYATTGGCATAGCATACATAAAGGATTCTTGTTAA
TAAAAGGTTTTAACATTCAGGCTATAAGTAACATAATTTCATATTTCTTTGCAAGTATTACCATGTTTGCACTAGCAAGGACTTATTTTCCTTTAAGGCT
TGAAATGTAAAGAATAATAAATTTTTACCCATAAAATGAGTTAAATAATGCACTTTCCTCAGTCATYTATAATTTTCAAATAACTCATCTGAAGTAATGG
AATATACCTTGGCAATAAAAACACTTTTACAGAGGGTTAAAAATGTTAAATAACAAAATGGACATTTTTTTTTGATCAATCCAAGTTTAGTTGCTGTGGT
TGCTTTTGTTAAAGTGGGGTGGCAAATGAATGTGGAGAGTTGAGGGGTGCTGTTCTTAAGTGTGAGGGGAAAACGSGGGCTTATTTTCATATTAAACTGC
ATCTGAAATATCTTTCTGCAGACAAATGTTTATAAACCACACAGAGAATCAAGTACAGCTGCTCTTTATTTTCCACGRCAGATGTGTAGCTCACTACTAA
ATCTTGTGGTGGTTGGAGTAATAGCTTTTCATTTCTTTTAAAGAGGAGACAAGAATTGTTAAATGATCCCAAAGATTCGAACCCAACCTTGTCACTTATT
AAAGACAAATTTAATACATGTCTGTTTTGTAACTGGATCAAAGTTTCTGCAGATGCTTGAATGAAGCCATTTTCTTCTCAAATAATTTGAAGATTTTGAA
TATAAAGCGATTTGCAAATTGAAAAATTCAGTCCTCTGTGTTTTGGATTGCTATGTCATGCCTAAACTTAAGCTTGCTTAGCTAATATGACTGTGCTCCA
GTTGATTAATTGTGGAGCCCAAATAACTACAGCCTCTTTCATGATAATATATCTCCTAACTTCATATCATTATCTCCTCCCTTTTTAAAAATTAATAAGC
ATTTTGTTTTTTTGAGGAGACAGGGTTTTTGCTGGAGGTCAGTGGCACCATCACAGCTCACTGCAGCCTTGACCTACTGGGCTCAAGCCATCCTCCCACC
TCAGCATCCTGAGTAGCTGGGACTACAGCCAYGAGCCACCACACCTGGCTAATTTTTGTATTTTTTGTAGAGATGGAGTTTCATGTTGCCCAGGCTAGTC
TCGAATGCCTGGGCTCAAGCAATCCTTTGCCTTGRCCTCCCAAAGTGCTGGGATAATAGGTGTGAACCACCGAGCCCAACTAATAAGGATTATTTTAATT
GGCATCTTTGGTCTTTGACCTCTGAGCTTCTACCAGTTTGCTAAGTAGCAGAAAACTTTCTGAAACACGTAGGATAAAAACTGGAAACAAGAAATGGGGA
ACTTAAGTGTGAGTGTAGAGTTACCTTGTGAAACTGTAAATGAACTTATTTTTATACCCTTTAACTACATTGTCCAACTGAAGGATCTCTTGTCATCAAA
GCTTGGACCTACAGCAAATGAATGTGAATATATRAAGATTTCTCTTTTCCTAGACTGTTTAGACTGATAGCAGTTAATAAATGAGTGCCTATTTGAGCAA
GATACTGTTGGAATTGAAGATTCTATAAAAATCCTAGGCTACATATATAAAATATTGCCTGTGATTCTTAATTTTTTGGTGATTTTCAATTTTCTGGCAC
ATTAAGTATCTTTAGGCCACTTGACACATTCCATTGTATTCCTAGATTCTTTGGGTCTTCAATTAAAAATCTCCCTACCCTGTTCTTTCCCCTTTGATCC
ATAGATGCAGGCATGGAATGTGTTGTTGAGTCAAATGTTAGGGGTTCTTGCTATAGTTAGTTCGGATTGTGAATAGAAAGCAATGCTAAGTACTGGGATT
TACTACATGCTTAGTTGTACTCTCTGGAAGAGGTAGACTTCCTGGAATTATGCGGCAGTCTCCTGGGAATAGCTTCTAAGTTTAAAATGTATCATATTCT
TCAGAATTTTCTTGATGGTCAGTTTACCCAGCTTAAAGTGTGTGGTTAATTTTAGTGAAAGTGCTTTCACTCTGATTAGGAAATAAGACACAGAATGGTG
TGTATGTAGAACACAATCATTTTCATTTGAGTATTTAGGAAAATTCACATTTCAGGAACCATGGTAGTTGCTCTTGAACAATTGTTTCTGACCATAATTG
GAATTTGTACCTTGCTTTTAAAAGATTCCATTTATATCGAATCCTCAGCTTCTTTGCAAAATTGTTTTTTCCATACATATGTTTATATGTTATTCAAATT
ATATTTAACAAGGTGTTTTCCCTGTCATTGTTACCGTTGTGGCTTTTTCTCTTTGAGTTATTGTCCAGTAGAACTTTCTTCAATGATGGAACTGTCTACY
AGCTACATAGGGATATTGAGCACTTGAAATGTGGCTGATGTGACTGAAAAACTAAATTTTTGCTTTAATTTCTTTTTAATTTAAATGTAAATAGCCACAT
GTGACAATTGACTCCTACATTGGACTGCACAATTATAGGCCATGCTGATGTGTTTTGTAAGTTTGAAGATTTATCTCACCACTCATGTTTATGTATTTAG
AATATTTCGTTAGCTAAAATTAAAACACTCATTGTTCAAAAGTTTTAACTGAATACTGTCTGTCTTGGAAAGTGGTGGTGATGAACAATGACTAGCAGCA
GACTTCTTGAGACCTTATTATGTGCTGTAAATTTGGCTAGGTACTTTCAGATCTTCACTCAATCCCCCCAGACACCTTTCTAAAAAGTGAGACTCATAAA
GTAGTGGGAATGCTGTCCGAATGGGATGTGTACCTGAGTCTTCTGACACAAAATATTTCAAAGAAATTGGATAATTGACCTTAAAAAAAGAAGTTATACA
GTATCCTAGAGTGCTTTTTGTCTGTTGGACTTAGGCCCAGAGAGGTGAGTTCTCTCTACTTGTTTATAGATTAACAATGTGGTATAGTAGACAGAACAGG
GAGGGCTTTAGGGGTTGTTGAAACAAATGCTGTCCAATAGAAAAATAATATGAGCCACATACTTTTTTTTTTTTTTTTTKTTTTTTGAGACAGAGTCTCA
CTCTGTCCTCTGTCACCTAGACTAGTGTGCAGTGGTGCGATCTCGGCTCACAGCAACCTCCACCTGCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCC
AAGTAGCTGGGATTTTAGGTGTCTGCCACCATGCCTGGCTAATTTTTCCATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGGCTGGTCTTCAACT
CCTGACTTCAAATGATCTGCCCACCTCGACCTCCCAAAGTGCTGGGATTATAGGCATGAGCTGCTGCTCCTGGCCTCATATAAATAATTTTTTAAGTTTT
CTAGCAGCCATATTAAAAGTGAAAAAACATAAAATTAATTAATTTTGGGTTTTTTTGGTAGAGACAGAGTCTTGCTATATTGCTCAGGCTGGTCTCAAAT
TATTGGGCTCAAGTGATCTGCTCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCACCATGCCATGCCCAGATAAAATTAAATTTAATATAT
TTTATTTAACTTGGGATATGCAAAATATTATTTCAATATGTAATCAGTATAAAATTTACTAATGAGATACCTTACATTCTTTTTCATACTAAATTTTCTA
AATCTAGTGTGTGTGGTTTTTTTTTCTTTTTTTTTGAGACAAAGTCTCACTCTGTCGCCAGGCTGGAGTGCAATGGTGGATCTCGGCTCATTGCAACCTC
CGCCTTCCAGGTTCAAGTGATTCTTCTGCCTCTGCCTCCCGAGTCGCTGGGACTACAGGCGCGTGCTACCACGCCCAGCTATTTTTTTTTTATTTTTATT
TTTTGGTATTTTTAGTAAAGATGGGGTTTCACCATGTTGGTCAGGATGGTCTCAATCTCTTGACCTCGTGAAATGCCTGCCTCGGCCTCCCAAAGTGTTA
GGATTACAGGTGTGAGCCACCGTGCCCGGCTATGTATATTTTGTACTTAGAGCATATATCAATTCAGACCCTATTTTCTTTGGAAATCCTGGTCCGTAKT
TAGAGTTCATAAAATTTACAGTTAGAAAGGCAGATTTGGGGCTGGGGGTAGTGGCTCATGCCTGTAAACTCAGCACTTTGTGAGCCAAGGTAGGAGCATT
GTTTGAGCCCAGGAATTCAAGACCAGCCTGGGTAACAGAGTTAAGACCTCGTCTCTATATTAAACAAACAAAAATGAAGAAAAAGGAAAGCAGATATGCA
ATACTTCAGTGATCCCAAACATACTTAAGTTTTCCAGTAATTGAATCACTTACTGGTTATTATTTAATTTTAATTACTTTAAAATTACGGTAACCACATT
TCAAGTGCTCATTATGGTATGTAGGTTGTGACTTGTGGTTACCATATTGGACAACACAGGTTAAGTCTAACCTCTTGCTTTTTTTTCTCTGGGAAATGGG
CATACTTATCTCACAAAGTTATTATGAGGATCTGAGATCATGTATGTGAAAGTACTTTACGTAGCATTTTAGGAGCATTAATTATTGGCTAAATAATTTT
TGTCCAGTACATTTTATTCAGGTATCTCAACCAATGACACAATATTCATTTACAGATCCAGTGTTTTATGGTGTATAAGTATTTGGGGTTAACACATTTA
CCTAAGATTTGAGTACTTACTGCAGATGAGGAACTGTGTTAGACTYTAGGGACAAGGTGGTAAACAAGATGGACTACACCTTGCATTCATGCTTCCATTG
ATGAGTTGGCAAAGGCTGTACACTTGTTATTCCAACCATTGATGTTGTCTACTTGATTGTGGATCTTTTATGTGTTCGAACATTTGATATTGTGCACAGT
TTAATACAAATATTGATATGATACAAAGTTGATTACACTCTGAAACTGCCCCCCAAAAAGAAACTTTTAAATAAATCTTTTATTATGTTCCACGAGTCTC
ATTGTGTGCCACTGGTACATTTTAAATTAGGGTTCCTTGAACAGACATATTTGAAAAAAAAACTTAATGAATCATATCGGATAAAATACCCATATGGAAT
GCCGGTCAGGCGATTGTTAGAGTTATTGTATGTGTTGTATGTGTCCTTTTTTAGGGTGGTAGTGTTGAAGTGAATCTTCTCACTTAGATGAGCAGTAGGT
TCATGGCTGATATTTTAGTCCTGTATATTAGAATGAGGCTGTTTCTCTAAGTTCATGCACTATATGCCATGCCAAAACTACTTCATGAAATAAACCTGTC
TTCTGAGCCACAGCAAAGTTTACAGCTCTGGGTGTCTTGTCTTTGCTTCTTGGTTAAGTGCCTATGGCTAATGCTCTTAACTCAAAAGATGGCTGAAAGC
TTGGACCTAAATGTGTTATGCAAAACCCATCTGTCAGACTTTTGTGAGTCTCTTCTTTTGTATTATCTCCTTAAATTAAGACATAATTTAAGATATTTTT
GTCCTACTTTTTTTGGGGGGTGGGGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCAAGGCTCACTGCAGCCTTGACCTCCCTGG
GCTTAGGTAATCCTCCCACCTCTGCTCCCTAAATAGCTGGGACTACAGGCGTGCGCCACCAAACCCGGCTAATTTTTGTATTTTTTTTGTAGAGTCGGGG
TTTTGCCATGTTTCCCAGGATGGTCTCAAAATCCCGGGCTCAAGCAGTCCACCTGCCACAGCCTCCCAAAGTGCTGAAATTACAAGTGTGAGACACCAAG
CCTTGTCCTATTTTTGAGGCAGTAACTATTCAAATCTTAATTGTCCTGTAATCTAATCCATAAAATCAAAATACATGGGCCATTATAGTTGTTTGAGCAC
CTATTACGTGCCAAGAACTGTATTAAATATTTAATGTTTATTATCTCATTTAATTAGCAAGAGAACCCTTGTGCTTAGGTCAGATTAGCCTTATTGTAGA
GATTGGGCAACTGAAGTTCATAGTAGGTAACTTTTAGAGTCACACAGCTAGTGAGCAGTTAGACTTTTAATATTTATTCTTTCATTTGGCTCATTGCCTC
ATTTGGTAAATGGTCTGTATCATTTGAATTGCAAAATGTACCACAATTGTTTATATCTATGCTGTGATGTTCTTTGATTCTAGYAGTACTGTCGTTTGTT
TATCGTGAAATATTTTTTATATTATGAGAAAAGTAGGAGACAGCAAACTAACATCTGACTTTATGCCTTGAATGATTATTTAGCTGTATCTTTTTTAAGG
ACTTTATCCTGTTTCCTATTGGAAAATTGTGCAGGATGATTGGGATCCGGTTAACTTGTAACCAGGATTGTCTGCATCCCTCTCATAAGACTGAACTTGT
CACACTTTTCTATAGACTTTTTCTTACTGAAAAGAATGAGTGTGTTCCAGTCTGAAGCCACTTGTGAAAGGAGGAAACTTCTGCTTTCTATTTTACTGTA
AATTCATGTTTTTGTGTTTATGCCAAGAAATAGAAGCTTGAACTCAACGAAGGCAGTTGTGCATGAAAGGGATAGGAAATGAAGGTGACAATGGAATATA
TTTGCTCATTTTGAGTAGCATCATGGTAGAAAGGAAAATGGTTACAGACTTGTAGGGTTGTGCTTTGGAGGCAGACTGCCAGTACTGTTAATACTTCTTG
TTCCTAATCCTTAGGTAAATAAGGATTTTCTTCAAGTTCTGAAGTAAGACGGTTTTAAAGATTATTGCTGAAAGAATAGGAACCAGATCCATTAAAGCCA
TATTTTGTCACATTAAAAAACTCTGCAGTGTGCTATTCTGGAAAATGTCTCAGATGTTTAATCTGGGCTTATCTATTGATTATGTCAGGTTTTCAACTTG
TCTCAACTTCCTCATTTATTAAAACAATATTTCCTGGCAATTTTAAAGTTAGACTACAGTATGTTTTTGTATTTGTAGTATAATATTTAGCCCCTTAACC
CCTTACAGGCACTCGAATATTAGTTCTTCCCCTCCACCCTGGAAGAGTTTCCCTTTGTCCACTTGAGTTGAATATATGTGCCGTACTAAAGGAGAAAAAC
TACCATCTACCCAGTTATTGAAGCCAAGATCTTGAAGTTACACCAGACTCTCTAATTTCTCATTTTCTGCATCCGTCGATTTCTGGAGTTCCTCAGTGAT
GCACACTGGGGGTCTCAGGGATGACAGTTTTTCATGACCCTAGGTTGAAACTGGGAGTCATAGAAGACGAAAAAACGAGAATTGGATTGGGAGTTGACTC
TGTTGCCCAGGCTGGAGTACGGTGGTGCAATCTTGGTTCACTGCAACTTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGG
GACTACAGGGGCCCGCCACCAGGCCTGGCGAATTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACC
TCAAATAATCTACCCTCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATCGTGCCTGGCCAACTTGCATTTATTTCTGATTAGCTGCTCATC
TGAGAAAGGTGGCTTAAAAAAAACCACCAAAGTGGACAGACTGAAGCTAAAGACTGTCAGTATATATGCTCTGCTTGGCAAACAGCTGACTTTGGATAGA
TCTCATTATTTAAAGATGAATAATAAGGGGGAAAAACGTGTAGAGAGAACATGGTTTACAAAAACCCATCTCTTTCTCCAGTCTCTGCAATATTCTATAT
TTGGTCATATTGAACTATGAAAATCTAAGGCAGGTTTCTTTATTTTACCACAGATATCCTCAGGAAAGAGTCTCCTTATTAAAAGCCTTACTGAATCTCC
ATAGTATTGTGTCCTCTCACAGTTGCTTCTGTTCTGAGCACCAGAATGCTGTTTGGCAAAGGCTGCTGTAGGCTTGAAATCAACTGGATTAGTGAGAGAC
AAATTTTACACATCTAAAATTCTCCTGTGTATGGCCTCACAGTTGGAACTGTTGGATGTTATAAGCAGATGATTTAAATATCCCGTGAAAAGCAGTCCAT
TCGGGCATGTTTCTAGAGATCATAATTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTACAGTGGCATGATCTTGGCT
CACTGCAACTTCTGCCTCCCGGGTTCAAGCGGTTCTTCTGCCTAAGCCTCCCAAGTAGCTGGGATTACAGGTGCCCGCCACCATGCCTGGCTGATTTTTG
TAATTTTAGTACAGATGGGATTTCACCATGTTGTCCAGGTTGGTGTTGAACTCCTGACCTTGTGATCCGCCTGCTTTGGCCTCCCAAAGTGCTGGGATTA
CAGGCATGAGCCACCACACCCAGCCTAGAGATCATAATTTACATAGAAAGATAAGAGAAAAACAACTCTCCTGATAACGCAAATAGATTTGATGTTACAA
AACTGCACCATTATGATTGCTCTGTAATGGATTTTTGAAAAGCATTGTGAAATGGAGATGACTTTCCAGTGCTGATGTCAAAAATGCATATGCAGAGTTT
AAATATAATTTTGTGTGTTTTGTTTTTTGAGACAGGGTCTTGCTCTGTCTCAAGTGGAGTACAGTGGCGAGATCATGGCTTACCACAGCCTCAACTTCTC
AGGCTCCAGCCATCCTCTCACCTCAGCCTCCCAAGTAGCTAGGACTACAGGCGTGTGCCACCACACCCAGCCAATTTTTGTATTTTTTTGTAGAAATGGG
CTTTGGCCATGTTGCCCAGGCTGGCCTCGAACTCCTGAGCCCAAGCAATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCAGGAGCCACTGT
GCCTGGCCTAATTTTATAATTTTAAATGTCTGTAAAGTAAGCAAAATGACTAGTTGAATTGTACATTAAATATATCTAATCCCTAAGAGTTTATAATGRA
AAGGGATCAAAACTTTTTCAATTGCGATAAAACTCACATAACAAAATTAACCATTTTAAAGTGAACAATTTAGTGGTATTTAGTGCATTCACAGTGTCGT
GCAGCCAACACCTGTATCTAGTTCCAAGACATTTTCATCTCCCCAAAAGGAGACCCCATACACGTGAAGCAGTCCCTCTCCCATCCCCCTCCTCCCATCC
GCTAGCAACTGCTAATTTGCTTTTTGTCTCTATGGATTTACCTGTTCTGGATATTTCACATAAATGGAATTATACAATAAAGGACCGTTTGTTTCTAACT
TCTTTCACTAAGCATCCATGTTATAGCATATATCAGACTTCATTCCTTTATGACTGAATAATACTTTGCTGAATGGATATATCAGTGTTTTATTTGTCCT
TTCATCAGTTGGTGGACATTTGGGTTCTTTCTACCTTTTGGCTATTGTGACTAGTGGTGTTGCAAACATTCATGTACAAGTTTTTGTTTGAATGCCTGTT
GTCAGTTCTTCTAGATATATACTTAGAAGTGGAATTGCTGGGTCATATGGTAATTTCTCTGTTTCAACTTTTTGAGAGACCACGAAACCGTTTTCCACAG
TGGTGGCACCATTTGACATGCCCACTAGAAATATATGAGAGTTCCATTTTCTTCACATCTTCTGACAGCTTTTTGGGGTGTTGGGATGATTCGTCTAATT
GGGAAAATAAGTACCTTATTTGGGCCTATATGGTATTTTTAATTCTGTGTGTCTGCTCCCAAACTCTGTAGCCCTGCCCTCCCTTATATTGTGTATCCTG
TTTCAGATTGTTTCCGTTTCTTCTGAGACACTGCATATACCCCTACATGTATCTGTGCTAGGCATACATCCCTGTAACTTCATGGCATTTTTGTAATTGC
TGTGTACCTGTTACGTATACTGAGTGGGAGTGTCTCATTTGCTGTAGAACTCTCTGCATTAGTGTAGTGTCTGGCACACAGTAGCTGCTCAGGCATTTTT
TAAGTATATGATTATTGGGAAAACTACAGAGCTAGGGAGAGATCTGAAGAAATACTAGAAATTTTTTTCTGCAAAGAAAACTTTAGAAAATTGTTGACAT
CATCTGTGGCATGCAGCAAAAGTTGATGTAAAAGGAACAGAAAGACCTATGGAGATAATGGGATGTAATAACAGAAAACATACAKAAACAATTGGTTCTG
AAATCAGTTAAGAGCAGAACTGGAATTCATACTCTGTGGAATGAATCAGCAATGTGGAAGGAGTAACAAGATTTTTTAAAAAGATTTTGAATTTAGGCTG
GGTGCAGTGGCTCACGCCTGTAACCCCATCACTTTGGGAGGCCAGAATAGGTGGATTGCTTCAACCCAGGCATTCGAGACTAGCCTGGACAGCATGGCAA
AACCCTATCTCTACAAAAAATAAAAAATTAGCCAGGTGTGGTGGCATGCGCCTGTAGTCCCATCTACTTGGGAGGCTGAGGTGGATGGATCACCTGAGCC
TGGGAAGTGGAGGTTGCAGTAGGCTGAAGTCATGCCACTGCACTCAAACCTGGCGGACAGAGTGAGACCCTATCTCAAAAAAAAAAAAAAAAGATTTTAG
TTTAGAAGTAAATCCCAGAATTAAGTAAAAGTGGTGTGTGTGTGTTTGTGTGTGTGACAGAATAGGTTACAAATTTAAGAATTTTAGAAACCGGGCTGGG
TGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGGTGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACC
CCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGCGGTGGCGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGCAGAATGGCGTGAACCCA
GGAGGCGGAGCTTGCAGTGAGCCAAGATAGCTCCACTGCACTCCAGCCTGGGCGAAAGAGCAAGAATCCATCTCAAAAAAAAAAAAAAAAGATTTTTAGA
AACCAAAATAATTGGAATGGAAGCTCTTTTCAATGAAAGAAAACTTTTGTAATTTGAAARAACCAAAATTAAAAGGGCTTAGTGTTTGGAACAGGCCTGA
AGAAGTTGTAATACCATGAATTTAAAAAAACAAAACAAACTCGGGAGGCCAAGGCACAAGAATTGCTTGAACCCAGGAGCCGGAGGTTGCAGTGAGCCGA
GATTGCGCCACTGCATGCCAGCCTATGCGACAGAGCGAGACTCTGTCTCAAAAACAAACAAAAAAATCCCTAAAACTATAAGCATCTAGGGCACATCCTC
TTCCTGACCAAAAAAATCAAAGTAATACTAGTTTTTTAACCCTGAATTTTAGATAGTGAAGCAGTGTCTATAGTTTTTGAGATGGAAAGTGTCTTCACTT
GTTTTTAGAAGACATGAATCACAATTTGAACCCCCAAAGAGCCTCTGAGAGCCTAAAACCTGTTTTTTCTCCTATAGGTTGTTTCCTCACTAGTAATGAC
AAAGTTATAATCTTAGCACAAAATAAGCAAAGGGGACAGTTTCACACAAAAATTGTACTTAAAATATTGAGTTTGTGTTAAGTTGCTAAATAATGGATGC
TCAATATGTATTAATTGAAAGCAAATCATGGTGGTTGTCATTTTAATCATTTTAATGTCATTTTAATCATTTTAATGTCATTTTGAACTCCCTGAATTTG
TTAATATTAAATCATTTTGAGATAATCTGTAACTCCTCATGCTGATTGTTAGTTAATTCATTCACTCATTTGAAAACAGTATTTGTGGCATTTAAGCTCA
CAGGAAAACACTCCAGGCTGGGTGCAGTGGCTCACTCCTGTAATCCCAATACTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGATCAGGAGTTTGAGAC
CAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTGAAAAAATACAAAAATTAGCTGGGCGTGGTGGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGTT
GAGGCAGGAGAATGGCTTGAACCCGGGAGGCAGAGGTTGTGGTGAGCTGAGATCATGCCATTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCA
AAAAAAGAAAAAAAAATACTCTAGTGACTCAATTGTAAAATAAAATGGTTCTAGTCTTATAACTTGTAGCACCTGGTAGACTGAGTATGCCTTAAATGAT
TGATCTAACTAGAATAATGTGGGATAGAGCATAATGTCTAATTTCCTGGCAGGTCCCTCAGTATAGGGTAGAAAGATAACATGAATATGTACAATAGTGA
TGGGGTTGACAGAATGTAACACTAGGCTCCCACTTAAATGTACATTTTGTGAAGTCGCTGGGAAGTTGTGTCATAGAATGAAGTTTATCAAGGATCTTTA
TAACTTGAATATTAAGGAGACTGTCCAGATGTTTTATTCATATCAGGAAACCAAGCCTTTAATGTCTCCCTGGTTACATTCATTTATAACATCCTTTATG
CTAAGTCAGCAATAAGTATTATATATATTTTTTGAGATGGGGTCTTGCTCTGTCACCCAGGCTGAAGTGCAGGGGTGCAGTCACAGCTTGTTGCAGCCTC
TGCCTCCTGGACTCAAACAATCTTCCCACCTCAGCCTGCCAACTAGCTAGAACTACAGGTGCACACCACCACGCCTGGACAGTTTTTTTATTTTTTGTAG
GGACAGGGTCTCGCCATGTTGCCCAGGCTGGTCTTGAACACCTGGGCTCGAGAGGTCCTCCCACCTTGGCCTGCAAAAGTGCTGGGATTACAGGCATGAG
CCACTATGCCTGGCCTTGAACCCTCAAAGTAAGCCCATTTGGTAGGTTTGGATATATTCTGCACAACTTCTCACCCCTGCCATTGAATGTAGCTGTGGTT
GTTTTGTGCTGCTGAATTGCATTTATACGGGGGGCATAATCTTGGTAAGTCATATCCATCTCCAAGATTTGGGGCATAAAAACTCCTGTATTTCCCTGCA
GCTTGGTTAACATTGGCCTAATTGATCTGATATCATCTAATTATTGGCTTATTTTTTAAGAATGCATTAAATATAAAGTTTTTGAAAATTTCCAATCAGC
AGTTGATTACAAGTAGGAAAAATTCTTTGAGTCTCCTGGTAGTTTACCAAAGCTAATAATAGTCTGACAACCTCTCTCCAACTGTGGTTGCTTCCTGAAT
ATATTGCTTAAATTTGGAGTTTGTGACCAGAATCAAAAATTCTAAGAGCCAGTGATTCTCTCAAAGGCTAACATGGAGTAGAAAAAAACTATATGTTTAA
ATGTGGGGACAGCAAGGGTTAAAGGCATTTTTATTTGTTGCTTGAAATCTGTGGAGCCTACAGAAAACAGTGGTTGGTATCCTGTTGATGGAAGAACTAA
AGGAATGCTGCATTCTCAGCATTTCTTATTTCCTGTAGAATACAGCAACTGCAGTTTTTATTTGACATTCTGCTAGTTTCCAGGAAGGGCTCAATGAAGT
GACTGCTGTCAGCATCTTTTTTCACCGCGACTGATACTAGAGAAGGTAGAGGATGTTTAGGAGCTTTTAAAGGAAATTATGTTTAGTGAAATACTTGGGT
TAGGAAGTTAACCAAATCTTTAAGTACTGACTTAAAAATGCTTGTATTGAGAGATGAATGGTATCAGAATGACATACAAGTATCAGCAGGTCTCTCAGAT
TGTTGACCTATTAACTCTACAGTGGTAACACTTCTAAAGTCCTTGGTAAGATACAAGATTCATTTGCAGAAAATAGCTCCATCTGAAAAACAGTAGCTCA
TACATACTTCCTTTACATTTTCCCTATTCAGATGAAACAAGGAGGATCTGGAAAATGTGAAGCCAAGCAATAATTGTGAAACATAAGTCCTTAGTAATGC
TGTCATAAACCAGTTTTCATGTAGTTTGATTTTCAGCTGATAAAGCTGGTAAATGAGTTATACTACAAATCTATGATTCATTAGGAAGCAAACTCCTTAG
GTATACTTACAGAGAAGCCAATTTCCAATGAGTTTATTCTTAACTAATCAGATGTGAGAACTGCTGGTTGAAATTAGTAGGCTCAAAGCAAACCTATTAC
TCCTTTAATTATGTGGCGTCTGTAGGCACAAACAGATAGATTATGAATGATTGCTGAGAGTGTGCCTTGGTGCTAATGGAGAGTTGTCTTTAGATAGTTT
AAGAATTGGGCCTTGAAAAAATTATGGTTTTATTTGGTTGTATGTCTTAAGCTAGCATTTTCTGCCCTTCTTAAGGTATATAGTATTGAATTAAATATAT
TAATAGGACCATGGCCTCTTTGGTCCTCTTAACAATATTTTCATAGTTTGATCACTAATATATTCTGTTAAGATGCTCATACAACACCATTAAGTTTCCT
GATTCCTTGATGTATCAGGGTTTCCCCATTCTGTCTTTAGGAGCATGTGAACAAAGCGAATTGGCCCAGGTAAGGTTTGAGTATATAACAGTAGCATGAT
GCTAAAACCAGTCTGTTTAAGAACAGTCTATATCGGCCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGACACCTG
AGGTCGGGAGTTCGAGACCAGCCTGAGCTACTCCGGAGGCTGAGGCAGGAGAATGGCTTGAACCCGGGAGGTGGAGGTTGCTGTGAGCCGAGATCGTGCC
ATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTACGTCTCAAAAAAAAAAAAAACAGTCTATATCATAATACCATAGTCCCAGAACTAGAAGTTCATCA
AATAATGGAGTGCTCTGTGCTCCCACACTAAGTGCTTGATGTGTGTTAAATCACCTTAACCTTTCATGGAGCACCTAGGCATGCTGCTTTGCTCCCTCTC
AAGTAAGGATGGATACTTTTTTTCCCTTTCCATTTTCCATATTTACAATCAAATGGAGTATATTTTTAAAACCAAGACAGGAAAAACAAAGTTTAAACCA
TTAAAAACTGATGAGCATTCAACGTAGATTTCTGAGTCTCATTGCTGATGTGTTTTTTATTTTTATTTTTTATTTTTTTGGAGACAGAGTCTTGCTCTGA
CGCCCAGGCTGGAGTGCGGTGGCGCGATCTCAGCTCACTGCAACCTCTGCTTCCCTTGTTGCCCAGGCTGGTCTTGAACCGAACTCCTGGCCTCAAGCTA
TCCTCCCATCTCAACCTCCAAAGCACTGGGATTACAGGTGTGAACCACCATACCCAGTCTTGTATTTGCTTGTATTTGTTTCTTTTGCTTAAACATTTTA
AATAAAGTCAGGCTATCATATTTTACCTGTAAACACTTCAGCTTGCATCTTTAGAAAATAAGGACATTTTCTTTCTTTTTCTTTTTGAGATGGAGTTTCA
CTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTTGGCTCACTGCAGCCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGTCTCCCGAGTAG
CTGGGATTACAGGTGCCCACCACCATGCCCGGCTAATTCTTTTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGAYGGGGTTTTGCCATGTTGGCCAGG
CTGGTCTTGAACTCTTGACCTCAGGTAATCCACCCACCTTAGCCTCCCAAAGTGCTGGAATTACAGGAATGAGCCACCGTACCTGGCCAGGACATTTTCT
TATAATCATAATATTATTTATAGCTCCCTGATATTTAAGAACAATATCAGAAAACCAGTCCATATTCATATTTTCCTCATTGTCCCTAAATGTTGTTTGG
TTTAAATCAGAATCCAAGAAAGCTCATACTGCTTTCAGTTATGTCTCTGAAGTTTCTTTTCTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTG
GAGTGCAAGTGGCACAATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCC
CGTCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATAGTCTCAATCTCCTGACCTCATGATCCGCCCGC
CTCGGNNNNNNNNNNNNNNNNNNNNCACCGTGCCCAGCCTGAAGTTTTTTAAAAAAAAAAAAAAAATTTTTTTTTTAGCCGGGTACAGTGACTCATGCCT
GTAATCCCAGCACTTTGGGAGGCTGAGGTGGGAGGATCCCTTAAGCCCAGGAGTTGGAGACCAGACTGGGAAACAAAGTGCTGCCTATCTCTACAAAAAA
AAAAAAAAAAAATTAGCTGGGCATGGTGGCGTATGGGTGGTACCATCTATTTGGAAGGCTAATCTATTATCAGTAGTTAAAAGAAATTCACACCCAGAGT
TTCAGCCAACCTATGGACAGCTGAATTAAGCAGCCCAGGAGGTTGAAGCTGCAGTGACCCATGATTGTGCCACTGAATTCCACCCTGGGCCACASAGCAA
GACCCTGTATGAGAAAAAAAAGAATTGGAAGTCCTAAAGTGTAATTTCCTTTTCTCCTCACTTCCCCAACAAAAACAAACTTWAAAAAAAAAAAGGCATT
TCATAGTGTCTGAGGCAGTTAAGCACCCAGAGACCACTAATCTAGTATCAGTAGTTGAAAGAAATTCACACCCAGAGTTTCAGCCAACCTATGGACAGCT
GAATTAAGCAGATAATAAAATGCAAATGCAAAAAAGCTAACCTTGAGCTGGCTTAAAGTACTGATATGTTGTATGTATTAATAGTTAATATCAGTGAGCT
CTGGGTTGCTTGATCCCAGGAGTTTAAGGATACAGTGAGCTGTGATCACATCACTGCACTCCAGCTTGGGTGACAGAGCAAGACCCTATCTCTTGCACTC
CAGCTTGGGTGACAGAGCAAGACCCTGTCTCTTAAAAAAAAACAGAAGGCAATATCTGTTGAGCTGTTAGATGTCAGGCATTGTTCTTTGCATTCACATT
AAATCTTCACACCTCTGAGATAGATACTGTCATCTCAAATGTTTCATATGAGAAAACATAAACACAGCCTGTGTTCTCTAGATCAGTGGWCCACAACCTT
TTTGGCACCAGGGACCAGTTTTGTGGAAGAAAATTTTTCCACYGGTTGGGGGTGGGAGTGGGGGTGGGATGGTCTCAGATGAAATTGTTTCACCTCAGAT
CACAAGGCATTCGTTAGATTCTCATAAGGAGTGAGCAACCTAGATCCCTCGCTTGCACAGTTCACAATAGGGTTCGCGTGCCTATGAGAATCTAATGCCG
TGGCTGAAATGACAGGAGGTAGAGCTCAGGCGGTGATGACTGCTCATTGGCTGCTCACCTTCTTCTGTGTGGCCCAGTTGCTAAYGGAATACTGGTCTGC
GGCCTGTGGTTCGGGATCCCTGCTCTAGATTATGGGGAAGCCGAAGTACTATTTTCTCATTATAAAAACAGAATCCTACCTTTTACTCCCCACCTCCCCC
TGTTAATAGAAGTTGGAATGGAGAAGGAAGGAGATGCATTTTAAAATCATTTGTAACATGTAACTCCAGGGTACTTCAGAGTTTTAAAGAATAAATAGGG
AATAAATTTGTTTAATTGCCTTTTTAGATCCAGGTTTAGGTGTCAAGTCCTAAAGTAGTGCCACTTGCAGACCAAAATCGAATCTGGAAACCAAATGAGT
TACAAAGTTTGGGTGCTTTTCTGTAAAAACAAGGAAGCAGTTTATTTGTATACTTTTGTGTCTTGTGCCATTCTGTTGGAAAAGGGCGGAGGAAATACAT
ACTTTCATATGCTACAGGATAACTCTGAAATGCAAAAGTATCTCTAATTGCTTAGGGGAGAAGGGTATTACTGGAAAGACGGGGTGGGTGACTTTTCATA
GTATAACCTTTTGTAAGATTTTAGTGCTTTACTGTATGCACRTGATAACTATTCAAAAAAACAAGCCCCTTTTTTTGGACCCAGTTTATTGACTCCATAT
TCTTATAACAGCAAAATAAAAATTCTTTTAAGTTAAAAAAAACTTTATCATAGGAATTTCCAAGCATATGTTAAAATAGGATATCTCCAGCTTCAACACT
AATGGCATTTTGCAGATTGAGAGGATAATAAAATGTAGCTGTAGTTTGGATACATGTATCCAGATATATTACATGTATTTCAGATATGTCCTCTGAAAAT
ACCTGCAAGTTTATAGAGAATGTTGTATATGTCCTTTGACTTTATCCATGCTTAGTTCCATAGTGTATAATTCAGTTTATGGCTGGGTACAGTGGTTCAT
ACCTGTAATCCCAACACTGGGAGGTCGAGCTGGGAGGATTACTTGAGCCCAGGAGTTCGAGACCAGCCTGGGTAACATAGGGAGAACCTGTCTCTTAAAA
AAAAAAAAAAATTAGCCAGGCATGGTGGCGCCTGTAGTCTCAGGTACTGAGGAGGCTGAGGTAGGAAGATCACTTGAGCCTGGGAGGTCGAGGCTGCAGT
GGTACCACTGCACTCCAGCCTGGGCAACAGGGCAAGACCCTGTCTCAATAAATAAAGAATAAAAATACAATTCAGTTTCTGTGGTATAGCTTATATGCCA
TCACACCTTTATAACTGACTGAGAATACTTTATGGTTACTATGTGCTGTTTTGAAAATAAAACCTGTTTAAAAATATGTTGCATTTTAAAAGTTTTAATC
TATATTGATATTACTAGACATAGTTATATAGTTTGGCCACCCTGTTACATGCTCCTACTGTAAGGGTATACCTAAACCAGACTTGCAGTTAATAAGAGTG
ACTTGTCCTATTATTGTGTGCTTTGGCATATTTCTCTTTTGAGTATATAACAGGAAAATATGGGAAGAATTGCTGAGTGTTCTAGACATTCTCACTCAAA
AGGAACATCAGTAAGGAAAACAATCTTACCTACCTTATTTGAAGAGGTGGAAGCAAATTTAACCTTCTSTTAGCCAATACGGTCACTTGAAGTTCTTTTT
TTTTTTTTTGCCAAAGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTAGGGCGGTCTTGGCTCACTGCAACCTCCGCCTCCCGGGTACAAGCGATTCTCC
TGCCTCAGCCTCTGGAGTAGCTGGGACTACAGGCGTGTGCCATCATGGGCCCGGCTAATATTTTGTATTTTTAGTAGAAACGGGGTTTCACTGTGTTAGC
CAGGATGATCTCGATCTCCTGACCTCGTGATCCACGCCCCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCAGCCGAAGTTCCT
GTCTTTTTTTCCTCACAATTAGGAAGGCTATATAGGAAGGAGCAGGGTCCTGTTCAGTTGTGTAAATGACCACCACTTAAGTGTGCTTTTTTAATATGTT
TAAACATGTGCCATTATTAAGAATTTGACACGGCTGGACGCCGTGGCTCATGCCTGTATTCCCAGCACTTTGGGAGGCCAAGGCGGACGGAACATGAGGT
CAAGAGATCGAGACCATTCTGGCCAACGTGGTCAAACCCCATCTGTACTAAAAATACAAAAATTAGCTGGACGTGGTGGTGCACGCCTGTAGTCCCAGCT
ACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACTGGGGAGGTAGAGGTTGCAGTAAGCCGAGATCATGCCACTGCATTCCAGCCTGGTGACAGAGCGAG
ACTCGGTTTCAAAAAAAAAAACAAAAAACTTGCAACTTCAGAATTATGTTCATGTTTGCTGGTGTTTTAACTCAAACTGGGACATAAATCCTAGGGAAGT
AACCCATATCACTGTTGTTCTAATAACTGCATTCGTAGTAGAATAACACTACATTCACTAGTAGAGGCTGAGGGAGAGAGGAAAAGAAGGAATTACAGGT
TACAGGCTACTTTTCTGTTCTTGTCTAGACTGAGGCTGACTGACTTGTCTAGACTGAGGCTGAGGCAGGTGGACCATGAGGTCAGGAGATCGAGACCATC
CTGGCCAACATGGTGAAACTCCATTTCTACTAAAATACAAAAAATTAGCCGGGCATGTTGGCGCACTCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCA
GGAGAATCACTTGAACCTAGGAGGCAGAGGTTGTAGTGAGCTGAGATCGAGCCACTGTACTCCAGCCTGGCTGGCGACAGAGCAAGACTCCATCTCAAAA
AAAAAAAAAAAAAAAAAAAAGAGTTTGTCACTTGCCTCCTGTTTAATTTTGCATTTTTTAAATAAAGTATATCTATTCCACATGGACTATTTTGATTAGT
ACCAATACATTCCTGAAGGAGATCAAAGATATATATGCATAGCTCTCTTGGTAGCATATGTTTAATGAGAAAGTAATATAAGGATTACATAGATTAGGGT
TGCAGGCAGTTCTGTCACTTTAAAGCCAGATCTTTTATTTACCTTATTTTTTAAAGTTTTTGCAGAGATGGGGTCTCATTATGTTGCCCAGGCTGGTATC
AAACTCCTGGGCTCAAGTGATCCTCTCATCTCAGCCTCCCAAAGTGCTGGGATTATAGGTGTGAACCAAGGTGCCAGGCCAAATCTTTGTTGTTTTTKTT
TTTTTTTTTTTTTTTTACAAGTAAAATACCCTGAGGCTGAAGGTCATTGCTAACTGATGCAGCGTGTTTTTCTTACTGCTTTTTTTCTGGGGATCTAACA
AGGAATTGGAAACACAGGTTTTTGACTTTCCTTTTTCCTCCTCATTGTTTTCTGATAGTGTTTTCTTAAAGTCATCTTCCACCTGCCTCTGAAGTTGAGA
AGTAGGAAGGAATCTGTTAGAATCACTTGGGGTTCAGTTAGTAGTGTCTGTGGTTTGCTTCCTTTTGTGGTTTTGAATTTAATTTCACTATTTGACTAAC
ACTATTTTTACTCCGACTTCCTCAAACACTGTGGGACTTAAGCTGTGACAGGTGAAACTCAGTGCCTTAGATGAAGGCTTGGTAGAGACTTAGAAACATA
GAATTCTTACAGGGTAGCTTAGGATTCTTACAKSATAACTTACTGCTTTTAGGTATATAGCTCTATGAACTTTATGAGCCCACTGGAATGTTTTCTCCAA
TTATCGGAAAGGMTAATTATCAATTAAACTTAAGGAGTCTAAGGACCCTCTACTCAGAAAAATAGATGTGAGATCCTGTCTCAAAAGAAAAGTTAAAGTC
AGGAAGAAGTTAAAATTAATGGTTTATAAGGCTTTACTATAACTAAATACATTATAAGTTACATACTTTAAAGCTAGTGTATTTGCCTTGCATTACAGCA
TATACTTGAGCTTGTAAAGCAGGTTAATCTACTTTATTACGATGTTTGTATTAATGGTTAGAGAGTTGTTTGACTTCTTGCCCCTATATTCAGTGACTGA
GTTACTGTAACTACACTTTATAACTGAGTTATAACATTAATAACTTAATACCAGTAGTAATTGAGATAGAAGAGTGAAGAGAAAGTAAAATGTAGCCTTG
TAGTCTTATGTTATATCTTATTCAGAGCCTGGCCTGGTTATGTTTAAGCACTATTAGCAGAAGAGTTTCAGAAGAGAATTTAAATAAAATACAGTTAACT
TGGCTGGTTTAGTCCATAAGATAATAGTGACAGTGGTGGTGTTTGTGGAGGAAAACTGTATTGCTAGAGGACAAGGGTGACAGAAAGACTTGATTTTTTT
TTTTCCATGCTTTTTCTTTTCTGGGGKGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTGTACCATGCGAATTTATTATATTACCTTTGGAGG
AAAGGGGGATAAAACTAGTCTGGCCAAGGCTAATAAAATAAAGCCTCCATGTAGCTTCTTTTAGTAGGACTTAATCTGTTACAACATAGTTAGTCACCCA
GAGTATTAATAACCCACTATGGTAGAGATTTCTTCCTAGTAACAAGTGACTTTTGTTCTTACATACTTAATTGGTTTGCAAAGACCTACCATCTTTAGAT
CCACTATATTTGTTTAGCAGATACTTTAGTATTTTCTGAGTACACAAAGCAAATCTAATTCCATTATTTTCCTTGTTAAAATCCTTAAGTAGCTCCCTTC
GCCTGTAGAATAAACTCAGGATTCTTACTGAGGTATGTTTAGCTTGTTGGTCTGGCCCTTGCTCATTTCTCTAACCTTAATTGTGTACTCCCTCAATCCT
ATAGTGTTACAAAAGTACTTGTAGTTCCCTTAGCCAACCACACTTTTACGTCTCTGTGCTTTACCACATGCTCTTTCTGTTGAGAATTCTCTCGCCTGCC
TCCTTTGAACACATTGCTTTAGCTGTGTAGCCTTTGACAAGATCCCTCTTACATATCTTTGTTTTGGCACTTTTTGCACAGAATTAGAACTTGTTTGCTC
TTGCTATTCAAGTTCCTTTATTTAGATCAAGAATTCTGTGACATTTTAGATCTTTTTATGCTTGTAACTTAATTTTTCAGCTTCTTGAAGCGTGAACAAA
TAACTGCTACATGTTAAGGGGGGTGAGAGAGGACTGGTCCAATAGTTCCAAGGTCTTAAAATAAATCAAGAAACTCAATTACCTCAAATCCCTTGAACCA
TGCATGCTACCTTGCAGATGTTGCTCTTTCCTTTAACTTCATCTGTATTTGTTCTGCCTCTTATTTGAAACAGTTGAATGGCATGTTTGTTTGAAGAAGA
GAAGGTCCAATACTTGGCTATTAATAGTCTCTCTTTAATTAACATAATGTAGATGTTATTGTGACCTTGAAGCATTAATGTTAAGTGAGGATTTGTGTTG
ATGAGCATATATGAATGTCAAGTCTTTGGAATCCACTTGGTAACATGGTTTCTTATTATTTTTTCTAGCTCCAGAACCTGGGTATCAACCCAGCAAACAT
TGGCTTCAGTACCCTGACTATGGAGTCTGACAAATTCATCTGCATTAGAGAAAAAGTAGGAGAGCAGGCCCAGGTGGTAATCATTGATATGAATGACCCA
AGTAATCCAATTCGAAGACCAATTTCAGCAGACAGCGCCATCATGAATCCAGCTAGCAAAGTAATTGCACTGAAAGGTATAAAAGAATGTGGGTTTTCCT
TAAAACTCTTCCTATGTTTTTGTTTTTTTTTGTTTTTTTTTTGTTTGTTTGTTTGTTTTTGAGACGGAGTTTTACTCTTGTCACCCAGGCTGGAGTGCAA
TGGCACGATCTTGGCTYACTGCAATCTCCACCCCCCAGGTTCAAGCGATTCTCTTGCCTCAGCCTCCCGAGTTGCTGGAATTACAGGTGCCTGCCACCAC
AACCAGCTAGTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTAACCTCATGATCCGCCTGCCTCGGCCT
CCCAGAGTGCTGAGATTACAGGCGTGAGCCACCACGCCCAGCCAGCTCTTCCTATGTATTTATGCAAGTACAATAACTAGGGTTTACCTTTTTAAGTATA
TTGATTAAGTTTGGTTAAAGAAAATAGATCTGCTAATACCGAACTTGATTTAAACCACTTTAATTACTTTTACTTGGAATGTATCTGTGGAATGTCTTAA
CATATATCTACTTAGAATAATTTTAAGTTTTAGAATAAATGCATTTAAATTTTGTATCTGGTATAAAACTGTGCTAAACATATCTCTCTACAGAGGAAAG
AAATTAGTGATTCATATTCTGGAATAGAACATACTTTACTAATATTAGCACCTAAACATTGCAGAATTTTGTTATGATGATAAACTTGCCTTTGATTCTG
TGCTTTTTTTTTTATACTTCGGGCTTGTGTTTCACTTAGATTATTGGGTTCTAGAAATGGCTTGAATTTACAGTAATTGTTTAAAGTGTGTTTGTATTTA
GGTGGATATTAAAGCTCTTGAGTGAAGGGTATTTGAGTTTATTCAGACTAACTTTTTAATTGTCCCAACAAGGGAACTGTGCAGCTTAAGTCTAAACAGA
GTTCAAAGACTCTTAGACTGTCACGGAAGCTGTATTCCTTTGAACTTTAGAATGAGACTAATTGACCCTTTAAAACAGATGTTTTTAAGAGGGCTCGGTG
ACAAACTGACTCTTAAAAAGGCATTCGATTGCCTGCTTTGTTTTTCATTTTGATAGAAGAAAGAAGAGTTCAAGTTCGCAGTAATTTGTTGATAAATTTG
TGACTAAGTTATTAGAGGTGCTGAACTTTGACTTTTCTTTACATGATTTAAACTTTGTATATAGTAATAATACTAGTTGGAGAGTGAATAGGGTTGGGTA
GGACTAGGATATTCAAACAAATAAGTCACTATCACATATCTAAGATAGAAACTCATCTCATCTCGAGGAAAAATGGTCCAGCTTTCACATAGGACCAGAT
GTTTTGTGACAGTAAGTGTTTTACTTCTATTACTTCTATTTAGGGTATTAAGCTTCCTTCAGACTCTTTAAAGAATTTAAATTCAGGTCCTTAGCAATTC
CCATGCCTCTCTATTAAAAGGCCATCATTTTAATTTTGCCAAAATTCTTTTCTATTTTTAATGTTATTGTTATCTTATCACATTTCTTAATGCTTTCTTA
TGTGTGCAGATGGTGAGTTATCTTAAATTAGATTGTATTAGTTATTGTCCTGTTCTATAAAAAGAATAAATTGAAAAGATTTTCGGAGCATTGTACAATA
ACATCATAGATTTGTCCCTATATGTCTGCACTATGGAGTCAAGCTGTCATCCCTTGTCCCCCTCCCCAAGACCACCCCACTTATGTATATATTCCAACCC
CTAATAATCTGGGAGTTGAGGAAGGCAGCAAAGGAAAGTAAGTCATTCCAAAATACTGCTTCCCTCTGAAGCCAGTTTTGAACCCCTTGGCTTCTTTTTA
TAAACAGGACTGTAACTCTCACAATTTTTCAAGTCTGGTTGTGGTTTACATACTGTGTGGGATGGGAATAACATTCTTCATTTTATGAAAGAAATTTTTG
CACATGTGTTACGGAGGGTTGTAGTACAAAGCTGTATGTTTTGCCCCCCTTCTTTGTCCCCCCAGCACCCGAATCTTAAAATTTTGGTCCTTCAGGAGCC
AGATTCTCTGTGTCTCAGGAATGGTGTTTTTCTTAGTCTTTAAAGACTAATCTTGATAGCCTAGTGATAGTTGTAGGCTTTGGCCTCTATTAATTTATAC
CAAATCACATTTTGAACTGATGGATTTCAAACTACAAGTACAAGCCTTTGCATCTGACTCAGTGGACTCTTAACACTCAAGGCAAATTTCATCCTTTTTT
AACTAAATGCTTGCTTTCTTAATTGGATGAAGCTTGCACTTTGTTCTTATCTCCAGTATATTAACAGCATCTGAAACTATCCTCTTCCTTTGTCTCCCTC
TCCTTTCCTCCAGCACCTCTACCTTCCCTTTGTTATCTTAAGCCGGTTAAATGTAGCAGGCACTTCTCTTACGTGCTAGTGGCAACAAGACAGAATTGAA
GCAGATCCTCTTTTTAAAAAGCAGTTTCCACAAGATTTATTTAGATGAGAGATGACTGCCTTTAAAAAAATACATTTTCTTTCCCCCATGTGTTTGTTAT
CAGAGTTGCTTTGTCTTGTGTACATGCAACTAAGTTTATGTGTAAAGTAAACATACTTAATTACAAGTATGAAGGTGACAGCTTTGTTTTCAATTATTGT
TAAGAAAACTATTCATTAGGCTTATTTTCAGTTGGGATTTAGAATTCCATGGAAGTCATACTATCTGTTTAARGTGTGTTTATTAGAGGTAATGTAGTTT
TTGCTTAAAACGTAGATGTAGATTGTTTGCTTAGTCTTAGCTGTTACCTCTTTAATGGTTGCTGCTGTATCGATGCAACTCGTCTCGTAATAGAACTATT
TTTGTTTGGAAGTGACAGAGCTAGTCTAGGTAGGTATTCATTCTAAACTTTACTCTTTTAATGATTTATAATTCTTGATTTTGTTTTTAGCTGGGAAAAC
TCTTCAGATTTTTAACATTGAAATGAAAAGTAAAATGAAGGCTCATACCATGACTGATGATGTCACCTTTTGGAAATGGATCTCTTTGAATACGGTTGCT
CTTGTTACGGATAATGCAGTTTATCACTGGAGTATGGAAGGAGAGTCTCAGCCAGTGAAAATGTTTGATCGCCATTCTAGCCTTGCAGGGTGCCAGATTA
TCAATTACCGTACAGATGCAAAACAAAAGTGGTTACTTCTGACTGGTATATCTGCACAGGTAACATTTTAACTAKTTTTTTATGAAGAAGAGGTTTAGAA
CACGGTTGTGCCCAGAATGCAGTTTGATTTTGAAATTAGGTCTTTCTATACTCAATCCTGTTGAATTTCACTTATTTTGGAAGACTTTTTTTTTCCTTCC
TCCCATCCCTTCTCTTCTCCTTCCTCCCTCCCTTCTCTTCTTCCTCGCTCCCTTGCTATACTGACATATAATTTCAGAATGCTCTTACCAAGCGTTTTTA
GCTCTTCTGTGGAGATTGAGTAGAAATTGAGTTTCTGTAAGAATGATTTGGGATTTATTATGGAGTATTTACTGCAGAATGAATGCTTCTATACCTTTTT
GTTTAAGACGTATATGAGGCATATTTTAAACATTTATGTTAGGCTTTAACAAGATAATGTTTGGGGCTGATTTTAAGTTAAGAAGTATCAAATCTACAGT
GAGAGATGAAGTRACAAATAATTATAAATCCTGCTAAAGATGACAAAGCATTCTAATTATTTCATTACTTGATGAATCTGAGAGTTTTTGATTTATGGGT
CTTCAAACGTTATTCTCTTTGATCCTTTATAGCAAAATCGTGTGGTGGGAGCTATGCAGCTATATTCTGTAGATAGGAAAGTGTCTCAGCCCATTGAAGG
ACATGCAGCTAGCTTTGCACAGTTTAAGATGGAAGGAAATGCAGAAGAATCAACGTTATTTTGTTTTGCAGTTCGGGGCCAAGCTGGAGGGAAGGTAAGT
TTTGGCTTTGGTAATTATTTTAATGAGAACTTGTATTTGGCTTTCTGCTATGAATTAGTCATCTAATTTCAAAATAGCCTTCTCCCTTCCTAAGTAATTT
TAGTATTCACATTTGTGGTGACTTAATTTGTTCAAATTTTGCATCTAGTGATACTTGTCTAAAATGAATAATGTTCTTTCACAACTCGTTCTGTTGGCTG
TTTATATTCTTTGATTGCTAAAGTGCACATTTATATGCTGTACATCTAGAGAGTTTGATTTAGTAGGTGTTGCCTATAATTTTTTTTGTTTATTTGTTGC
TTTTTGAGACAGGGTGTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAGTCATGGGCTCACTGCAGCCTCGACCTTCTGGGCTCAAGTGATCCCTCT
GTCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGTGCCACCATGCCTGGCTAAATTTTGTATTTTTGTAGAGACAGGGTCTCACTATACTGCCCAGGC
TGGTCTCAAACCTCTGGGTCCAAGTGATCCTCCCGCCTTGGTCTCCCAATATAATCTGCATTTTAAATACCTTATATGGCTTGATATAGAGGCAATGTAG
ACTACAGGTGAATAACACTGACTTAAGTTAGAGGTTTTCAACCATGACTACACATTGGAATCGCCTGGACAGATTGTAGTACTTTGTATATTAGACTTAG
TTGCAGGTAATAGAAACAAGGTCTGGTTGATTAGAGCAATGGTCTGTTTAGTGAAGGATATTGGATAGTTTACAACAGCTGGGGAGGCTGTAAAACCAAG
ACTGGGAAATGAGGAGAAATAATGGAAAATGAGCAGTGGTCAGGGTCCCAGCCAACAACTATTCCACAGAACTCTGAGGACACTTCTGGATCCATGATTG
CATTTCTGGATGCTTGGAAATTYGATTTGACTACTATTTCCACTACCAGAGTAGCATCTCTGAAATCCTAATACTTTTGTGTTCCTAGCTCCCTGTTCAA
AGTCTAGTTTTAGGCAAGATCAGATGCCCACATCTTATGTCTGAGAGGTTTGGAAATAATTATTTGGTGTTTGGTGCTCCTAAAACAGAAGGCTGGTTCT
ACCACCAACAAAACTTGTAAAGAGTATCTTCCCTCTTGTTGTCCCATCAGGAAGAGGGTTTAGATTCTAGGCAGACCAAAAAATTTGAACTTCACTTTTG
TTAGGACATGTGTCTCTCTCTTTGTAAGTAAGCAGTTTTTAAAAATTGAGATAGAGATTGCTTAAGATATCATCTGTAGCCTGTCAGGAGAGAGGAAACA
GTAAGTAATGACATACAATTCTGCTTAAAATTTCACGATAGCCCCTGAATTGAGGATAATGCTACCAACACCTCAATGTGACAGTGGTAGAAAGCACTGA
TATTTAGATCTGAATAGATGAAATTTAAACAGAAAAAAACACATAGTTTTAGAAATTAGATATTATCCTTAAAACATAAGGCCAGGACATTTATTGAAAA
GTTCTACTAGAAAAAAGTTTCAATGTCATTTTGAACAGTATCTGGAAACCTGTTTATAGGTTATTGAGCCTATTATTTCATACATGGTGCTATCCTGTCT
GCCATGGCTTTTGAAGGAAGATACCAAGTTTTTCAGTATGGCTAGTCATCCTAATGAAGGATGATGAGACCCTATAACATTCATATGGTATGTGTCTTGG
AAACTGAATTTTTTTTTGTCTGAGTTCATTTCTGGCATGACTAAGGAAAATATATAGTACTTTTTCATTGAGATTATTTACTTTTCTCTTGCCTGGCTTA
TGTGCAGCATTGGATATTTTAAACCAAAATGTTCTCATTTAGTTTATGGGATGTTTGTGATTAGAGAGRCAACTCAAATTAGGTATATACATTCATTCTG
TTTTAGTGTATATGTATAGGTAGAGAAGAATTTAACAACTTAGGTTTCTATTTGGAAATACTAAATTAAAATTTAAAGCTAGGAGAAAAGTACCATTGTA
GGTAATGTATTACCCTTCTATACCATTTATTTCAGGTAGATTATTTGAGGTATGATTATTTCAGATATTCAGATGACTTTTTTTTTTTTTTTTTTTTTTG
AGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCACGATCCCGGTTCCCTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAG
CCTCCCGAGTATCAGCTGACTTTTAAAAATGCATTTATCTTAAAATAATACAGATTTATAGGAAGCTGTAAAGACAGTACAGAACAGTCCCCTGTGTTCT
TTACCCAGTTTCTCCCAATGGCTACATCTTACACAGCTGTAGTACAGTAGAAAAACCAGGAAATTGACATTGGTACAATTGTATAATTCTGTGTCATTTT
ATCATGAGTAGATAACTATTTTATCACCACAGTGATTTCCCTTATGACTGTAGCGTCACACCCACTCCCCCTCTCTCACACCATCCCTAGCTCCTGGCAA
CCACTAATTTATTCTCCATCTCTATAATTTTGTCACTTTAGAAATGTTACATAAATGGAATCATACAGTATGTGACYTTTTAAGATTGGCTTCTTTTTTT
TCACTCACCATAATGTTCATGAAAGTTTGTTCCTTTTTATTACCAAGTATTCCATGGTATGGATGTAACCAAAACCATTTAACATTGATCTTCTGTAGAA
CATGTTGGTTGTTTCCATTTGGGGGCTACAAATAAAGCTGCTGTGATCAACTGCTAATGTATAGGTTTATATACATTTTGATTTTCTTTTGAACAGTTAC
ATATTATTGAAGTTGGCACACCACCTACAGGGAACCAGCCCTTTCCAAAGAAGGCAGTGGATGTCTTCTTTCCTCCAGAAGCACAAAATGATTTTCCTGT
TGCAATGCAGGTATTTTAAGCAAAATAAATGACTTTTTAAAAATCTCTCCTCTTAAAAGAAATTAACCCAAAGACTATTCATGGTAGATATAATTTAAGT
GATGCTTAAAAGAATACTTTTTTAAAGTTTATTAGTGAAGCTTTGTAAAATAATACCTTGGCTTTTCATGTACAGGACTACCTTAGGCCTATTATGAGGT
TTGGCTCCAGACCACCACAATAAAGTAAATACCACAACAAAGTGAGTCATAAGAATTCTTTGGTTTCCCAGTGCAGATCAAAGTTACACTTAACACTATG
CTGTAGTCTACTGTAAAGTGTGAAATAGCATTGTCTAGAAAAACAGTATACATACTGTAATTTAAAAATACTTTATTGCTAAAAAATGTTAATGATTATT
TGAGCCTTTAGTGAGTTGTAATCTTTTTGCTTGTGGAAAGTCTTTTCTCAATGTCGATGGCTGCTGAATAATCAGAGTGGTGGTTGCTGAAGGTTGAGGT
GGCTGTGGCAGTTTCGTAAAATAAGACAGCAAAGAAGTTTGCTGCATCAATTGACTCTTTCACAAAAGATTTCTCTGTGCATTGCTGTTTGATAGCATTT
TACCCACAGTAGATCTTTCAGAATTGGAGTCAGTTCTTTCAAACCCTGCCACTGCTTTATTAGCTAAGTTTCTGTAATAATCTAAATCCTTTGTTGTCAT
TCAGCAATGTTCACAGCACCTTTACCAGCAGTAGATTTTATCTCAAGAAACCTCTTTTCTTTGCCCATCCTTAAGAAGCAGCTCCTTTACTAGGAGATTA
CAGTAATTCAGTCACATTTTTAGGCTCTATTTCTAATTCTGGTTTTCTTGCTATTTCTACCACATCTCCACTTACTTGCTCCACTCAAGTCTTGAACTCC
TCAGTCATCCATGAAGGTTGGAATCAGCCTCTTCCAAACTCCTTTTAATGTTGATATTTTGACTTCCTCCCATGAATCATCAGTGTTCTTAGTGGCATCT
AGAATGATGAATCCTTTCCAGATTGACCGTTACTTAAATTTACTGTGGTGAATCCTTTCCAGATTCACTTAAATTTACTTTGCCCAGATCCATCAGATGA
ATCACTGTTCAGGGCAGCTGTGGTCTTATGAAATAATATTTCTTAAATAAGAAGACTTGTAAGTCAAAATTACTTCTTTGGTCCATAGGCTTCAGAGTGG
ATGCTGTCTTCGCAGACATGAAAGCAATATTAATCTCCTTGTATATCTCCATTAGAGCTCTTGGGTGACTATGTGCATTGTCGATGAGCAGTAACATTTT
GAAAGGAATCTTTTTTTTTCTGAGCAGTAGGTCTCAACAGTAGGCATAAAAAGATTTAGTAAACCATGCTGTAAACAGATGTGCTGTCATCAGGGCTTTG
CTGTTCCATTTCTATAGCATAGGCAAAGTAGATTTAGCATAATTCTTGAAGGTCCTAGGATTTTTGGAATAGCAGATGAGCATTGGCTTCACCTTAAAGT
CACCAGCATCATTAGTTCCTAATAAGAGAGTCAGCCTGTCCATTAAAGCCAGGCATTGACTTCTCTGTAGAGAAAATCTGTTGTTTAGTGTAGCCACCTT
CAATGATCTTAGCTAGATCTTCCATATAACTTGCTGCAGTTTCTACATCAGTACTTGGTTTTTCACCTTGCACTTTTATGTTATAGAGATGGTTTATTTG
CTTAAACCTCATGAATCAACTTATGCTACCTTCAAATTTTTCTTCTGTTGCTTTCTCACCTCTCTGAGCCTTCACAGAATTGAGGAGAGTTAGGGCCTTA
AACTAGATTAGGCTTTGGCTTAAGAGAATGTTGTAGCTGGTTGGATCTTTTATTTTATTTATTTGTTTATTTATTTATTTATTTATTTTATTTATTTTTT
TTTTTGAGACAGAGTCTCTCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTG
CCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCACCACCACCCTCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACGGTGTTAGCCAGG
ATGGTCTCGATCTCCTGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGGTGGGATTACAGGCATGAGCCACCACGCCCGGCCTCCTCTCCCTCTCC
TTCTGCCTCTCCCTCTCCTCCTCTCTCCCCCTCTTTCTTTCCCTTTCCCTCTCCCTCTTTAAAGAGATAGGTTCTCCCTCTGTTGCCCAGGCTGGAAGGC
AGTGCTGTGATCATAGCTCACTGCAGCCTTGGAACTCCTGGGCTCAACTGATCCTCTTGCCTCAGCCTCCAGAGTAGCTAAGAGTAGGTAGGACTACAGG
TACATGCCAGTACGCCTGGCTACTTAAAAAATATTTTAGAGACAATGTCTCACTGTGTTGCCCTGGCTGGTCTTTTTTTTTTTTTTGACACTGAGTCTCT
CTATTGCCCAGACTGAAGTGCAGTGGCGCAATCTCAGCTCACTGCAATCTCTGCCTCCTGGATTCAAGCGATTCTCATGCCTCAGCCTCCCGAGTAGCTG
GGATTACAGGCACCCGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGTYGGGGTTTCGCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTC
AAATGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATCACAGGCGTGAGCCACCATGCCCAGCCCAGGCTGGTCTTAAACTCCTGGCCTTAAGTGATC
CTTCTGCCTCAGCCTCCTCTGTGGCTGGGATACAGACACATACCACTGCACCTGGCTAGTGTATAACATTTTTATTTGTATTTTTATTTGAGACGGTCTC
GCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCACCCTCCACGTCTCGGGTTCAAGTGATTATTGTGCCTCAGCCTCCCATGTAG
CTGGGATTACAGGCGCGCACCACCCCACCTGGGTAATTTTTTTGTATTTTTAGTAGAGACAGGGCTTCACCGTGTTGGTCAGGCTGGTCTCGAACTCCTG
ACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACTGCACCCAGCTGTGTATAACATTTTTCTTTTAGAGACGGA
ATCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACCATCTCGGCTCACTGCAACCTCCGCCTCCGGGGTCAAGCAATTCTCCTGCCTCAGCCTCCCCA
GTAGCTGGGACTACAGGYGCACACTGCCATGCCTGGCTAATTTCTTCCGTATTTAGTAGAGACAGGGTTTCACTGTTTTGCCCAGGGTGGTCTCGAACTC
CTGAGCTCAGGCAATCCACCCACCTCGGCCTCCTAAAGTGCTAGGATTACAGGCATTAGCCACTGCACTTGGCCTATAACATTTTAAAAGAGAAAAAAAC
TGCTCATTTAGATAGTTACATAAATTCAAAAGTAGAATCGTTTTATTTCTCTTTGGCCTGCAAAACATTATCTCAATATGGCAAGTACCTAGAGTTTGAC
TTTGTCTGTGGTMGGTTTCTTAGATGTGAGAAAATGAGACTGGGATTACATTTGTAAGCCACTGCACCAGTGCACTTTCTGCATATCAGCAAGAAAGCTG
TTAGGTTTTCTTATCATTCATGTGTTCACTGGAGTAGCACTTTAATTTCCTTCAAGAATTTTCCTTTGTATTCACAACTTGGCTAGGTCAAAAGGCCCAC
CATTCAGCCTATCTTGGCCTTGGACATGTCTTTTTCACTAAACTTAAAATTACTTCTAGCTTTCGATTTAAAAAGAGAGGTAGAACACATAGAGGCAATT
GTAGTTATTATATTGGCYTAATATTGTTGTGTCTCAGGTAATAGGGAGGCCTGAGGAAAGGGAAAGAAACGGGAGAACAGCTGGTTGGTGGAGCAGTCAG
AACACACACAATATTTATCAGTTCAGTTTGCTGTCTTATGTGGGTGCAATTCATCACACCCCAAAATAATAGTTACATCAAAGATGACTGGCCACAGATC
AACATRACAGATACAATAATGAAAAGGTTTGAAATATTGTGAGAATTAATGAAAACGTGACACAGAGACACTGAAGAGAGCACATGCTGTTGGAAAATAG
TGCCAATAGGCTTGCTCGATGCAGGGTTGCCATAAACCTTCCATTCRTAAAGATTCATCTGCACTGCAAAGTGCAGTAAAATGAGGTATSCCTGTAATAC
GTAAACTGTGCTATCTAAGTTTTGAATTGTCTTTCCTCTTATCAGTTTCATGTTATATAAGAGCTTGGGATATCCATATTTAAATGTGCTGYAGAAATGA
AGGAAACTTTAAATATTAGCTTATAATTTTTCAAATAACCCTCTTGTTCTGGAATTTTACCATCTCTAAAATGGAATTAGACTGAATGTTTTTATTTTCT
GTTTGTAGATTCATTATTTTACTAAAGTGTTGATTTTCTTTCTGTAGATCAGTGAAAAGCATGATGTGGTGTTCTTGATAACCAAGTATGGTTATATCCA
CCTCTATGATCTTGAGACTGGTACCTGCATCTACATGAATAGAATCAGTGGAGAAACAATTTTTGTTACTGCACCTCATGAAGCCACAGCTGGAATAATT
GGAGTAAACAGAAAGGGACAAGTAAGGAAACCTTGAAACTTAAGCAATAAAATAAGATAACCTGATGAGTTGGGAACAATCCTGTCCTTTTGAGAAATTA
CTCCCCAAGATWAAAAAATAGAAAATAAACATATTACTGTTAGTTTTTTTCCAAAAAGTAAATAGTAACTTTGGATATTAGAAAATAATATATATCAAAG
CACGATGTAAGCTGATAAAAAAGAAAATAATATATACCTAAAAATAGAGATGTGTATGAATACAAAGTCTCTCTTTAATCCTGTCTCAGAGAAACTGGTT
TATAGCCATCTAGGACTGTATAGATGCATTACTGTCAAAAGAAGTGATTCCCCATGCAAAGAAACAATTTAGGGTCATATTTGACAGACTATTYTTTTAA
GGAATTTTCTGTTATCTCCAAGGCAGAGCARTTATCAACTACAGGGAAAAGAATTCTACCTACATCCCTTTTCCTAGCTCCTTAATTAAGCATTACTATT
ACATGTTAGAAGGTGATATGTTTCAGTACCTCTTGTGGGATGCCTGGAAAGCTAATCAGTTTGGTAGGAAAAATATTATCCGTTCTAAATTTGTCATTTT
TGAAAAACCTCTTCATACCATCTAGCAAGTGATTCTTTATCTGTCATCTTATTATTTTAATTTTTTTTTTTTTTTTTTTTTTCTTGAGATGGAGTCTTGC
TCTGTCACCCAGGTTAGAGTGCAGTGGCATGATCTCAGCTCACTACAACCTCCACTTCCCGGGTTTAAGCAATTCTCTTGCCTCATCCTCCCAAGTAGCT
GCAATTACAGATGTGAGTCACTGCACCCGGCTAATTTCTGTATTTTTAGTAGAGGCGGGCTTTCACCATTTTGGCCAGGCTGGTCTCAAACTCCTGACCT
TGTGATCCACCCGCCCCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCACGGCGCACAGCCTATTTTAATATTAATAAGAATATTTTACCAGGAGC
TATGTTAATTTTCTGAAAAATGGCTAAACATTTTAAAAATACTGTTACTGGTCTTGCCTTTTACTCATTTTCTTCCAAATTAGTATTTTTCCCAGATAAT
AAGCAAAGGAAGTAGATAGATTTTGTTTCTCCTTCATTCAGTTAATTTTTGAAAAATGTTATGTATATGAAGAGACAATTCCTCTAGGGAAAGGGAGTGC
ATCCCTACCTACCCATGCCCCACCTTAACTCCAGACCTGGTTAGGTGCTTTTGCTCTGTACTCCTAGAACTTAGGGCTTTCTCCTCATAACATTTACCAT
ACTTATTAAAATTGCTCGCTAAGCTGTTGCAGTCACTATTCATCATTAGAAAAAGGGATTGTCTTTAGTAAATTATATTTCTAGCACCAGTCAGTGTCTG
GGACAAAAGCAGTTTTAAAAATTCAGTAGCTTTCAGATATTCAGTTATGAGTGTCTTGCTTAGAAAAATCAAGAATAAGGCTAGGCTCAGTGGCTCATAC
CTGTAATCCCAGCACTTTGGGAGGCCGATGCGGGCAGATTGCCTGAGCTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAA
AAATACAAAAAGTTAGCCGGCTGTGGTGGTGCATGCCTGTAATGCTAGCTACTCGGGAGGCTGAGGCAAAAGAATCACTTGAACCTGGGAGGCGGAGGTT
TCTATGAGCTGAGATCGCGCCACTGTACTCTAGCCTGGATGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAGAAGGAAAATCAAGAATATATT
GGTCTTTTGGTGAACTAGATTAGTGATAATTTAATAATCATGAAGTTGTGAAGCCAGGGGCTTTTTTTTTTAAACTCTTAATTAATTAAAAAAATAAAAA
AAAAGACAGGGGCTGGGCACAGTGTCTCACGCCTGTAATCCCAGTACTTTGAGAGGCTGAGGTGGGTGGATCACCTGGGGTCAGGAGTTTGAGACCAGCC
TGACCAATATGGTGAAACCTCGTCTCTACTAAAAATACGAAAAAAAATTAGCTGGGTGTGGTGGCAGGTGCCTGTCGTCCTAGCTACTTGGGAGGCTGAG
ACAGGAGAATTGCTTGAACCCATGAGGCAGAGGTTGCTGTGAGCCAATATTGTGCCATTGCACTCCAGCCTGGGTAACAGAGCGAGACTCCGTCTCAAAA
AAAAAAAGAGAGAGAGCGCCAGGGTCTTGCTATGTTGCCTAGGCTGGTCTTGAACTCCTGGGCTCAAGCGATCCTCCTGCCTTGGCCTCCCAAAGTGCTA
GGATTACAGGCATGAGCCACCACGCCTCGCCACTTTTTGTTTCTGCTGTTGTGCTGTTTTAAGATAGCGCTTAACCTTAAATAATTTCATGACACATTCT
TGGTGTTCATAACTCTAATTCTGGGAACTTGTTGATTGTTACTTTCCCTTCCTCCCAAATTTTATGTGCCAGCTACTTTGAGTAAAGAGATGAGTATTTA
CAGTAACCTTAGGGCTTTCTTCTACTCTTTGCTAAAGTCTACCAACTTGGCATATTCCCTGAAGGAATGAGTAAGTGGCTTCTATGGGTTGAAAAAGCAA
AATCAATTAAAGTGATATTATAGTCAACATCTGACTTAAATTCTTAATTTGATAGAACTGAGTACTTTAGAAGACACTGGAGCCTTTTCTGTTTCCTGTA
GCAGATCTTACTAAGGACTGGTTGCTAGAAATCTGCTAGAACAGTCTTTAAGTATGATAACGATAAAACTGTGGATTCAGTATGTGGGGAAACCTAAGGT
AAGATTTGAGTTAAGGTTGGGGCTCAGGAATGCAAATAACTATAAAGAAAGTAATTATTACTTCCTTTAAATAAGCCTTGAGGATGGAGGTCGGACCTAT
AGAAGTAAAATCTTGGAGGTTGAAATTTCTTCATTTTCCCTGAAAGGAGTAGTAGAATYGGCAGGGCAGACTGTTACCTATCTATCTATTTGGTTCACTG
AGTTCTCAAGTATTTTTCAATTCTTACTGATTTGGGGACAGAAATTTCCTATATTCATTTATTCAACAAATTAAATACGTTTTATGCTATACTAATTGCA
TATTGCTAGTAATACAGTTAAACAAAGACAAACCCCCTTTCCTCATGTGAACAGTAACTGAGAAAAAATTATACAATTATATTAGGTTGAGAAGTGCTGT
TGGGGTAATATGAGTAGTTTATAAGCTAGGGCATATGACTAGTTCTGCACTGGGGAATGGGATGGATGGGTAGAGAAGGACTCCCTTTCTCTATGGCAGT
TGACAGTAGTTCAGCTTTTGGGGCAAGCCAGAAAATATTCTGTGGCATTGAGAGGTTTGAGGGTAGGTAATTTTCCAAACAAGCAATTAGAAATTGGCCT
TTACTGATATTATTATTATTTTATTTTTATTTTTTATTTTTAATTAATTTTTTTTTTTTTTTGAGACAGAGTCTCCCTCTGTTGCCCAGGCTGGAGTGCA
GTCGTGCCATCTTGGCTTACTGAAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCTTCATCCTCCCTAGTGACTACAGGCGCGTGCCACCATGCCCG
GCTAATTTTTATATTTTTTTTTTAGTAGAGGTGGGGTTTCACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCATGATCCACCTGCCTTGGCCTCC
CAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTATTTTTTCAAGCACCTACCATGTTCCTTGTATTATGTTAGCTGCTTGAGGATTCAGTG
GTCCCTCCCTTCATTGAGTATATAATCTGCTCTCTAGGAATGAAAATGTAATTAACGAAAATTACCAAAAAATTCTTGTAAAGAAAAATCCTAAAATTAA
AAGGAGTATACCTTAAACAACTTGCAAGTGAACCCTAAATGTCATTTAGATATCATAGCTTCTTCAGTGTCATTTTCTGTAGGTTATCAAGATTGMAGTC
CTCAAGAAGTTTTAAATTATGTGGAGTTGTCTTTCAGAGCTCAATTAAGTGGGAATGTTAATTTTTGATACTGACTGTGTTAAGAATGAATAGATGGTAT
CAAAGCAGTTAGTTTGGACAATGAAGTAAGTTATTTAGATTATAGAATAGCCATATTTTAGGAACCACATAATGGCCTAACACCCTATGACATTTGTTTT
CAAATCTCCTTAATTTTTTTTCTCCTTGTCTTCCTTCCTTTCATTATTTTTTAATGGCAGCAAGAAAACAGCTGTCACAATTTCATTACCTTTGTGACTC
AGTATTAACCTGTTCTAAACAGATTTGGTATCATTTGTATCCAAATGAACACATTGCAGCTACATTTTATTCTTTAAATTGCAGGTTCTGTCAGTGTGTG
TGGAAGAAGAAAACATAATTCCTTACATCACCAATGTTCTACAAAATCCTGATTTGGCTCTGAGAATGGCTGTACGTAATAACTTAGCCGGTGCTGAAGA
ACTCTTTGCCCGGAAATTTAATGCTCWTTTTGCCCAGGGAAATTACTCGGAGGCAGCAAAGGTGGCTGCTAATGCACCAAAGGTAAAGAGTTATGAAAAT
GAAGTTGTCATGACATTAATYCATTGTTAATATTCTGTTTCTTATATTACTAGAAAAGGAACCAGCTTCCTACAGATAAACTGTTTTTAGATTACATTTG
GGTTACATTTTCCTTTAGTAGAATTCCTTGTCAATGCCTCTAGATTTGGTTAATTTTCTCTGGATTTGATTAGTTTTTTAAAACCCAGATTGTTAGAAGG
ATATGTGGGTCTAGCAAGCTTTTGATTTACATAGATGTAGTAATGTTTAGTCATTTAGGTGTTATACTGTTTGACCTCATAAATGATAGTTACTGATTTT
ATTTCCATAACTTGGACATGAAATACATACTGTCCAATTTTATAGTGGGTAGAGCTGTCAAAATTAGGCTGAATTTATTCTTATCACTTTTGATGTTAGT
TTATGGTGGACTGAATTAACACCTTACATTCCTGACCAATATTCATTATGAAATTTGTACWTAATATGAACTTGGGATAATACTTAKCTATAACTGTTTT
ATGATTATAACTATTCTCTTACACACTGACATTGTAATTTAAGTTGATGTATTTTTGATTCTGGATAATTTTTTTTTTTTTCCAAATTCTGGATAATCTT
ATAACATTGAACCAGGGGTATGAAAGACAGTGACTAAATATTTACTCCAGATGGTAAAGATTTGAAACTTCYTAACTTGATGTTAATAGATGGATTCATT
CCTTTAAGATTGACCTAAGAGATTGATCTCTACAGGGTGTTTAGTGTGATGTTTGGATCACTTTCGAAGAGCGTTTAACATTTCTCCTTCTTACACTTTC
RAAGAGCGTTTAACATTTCTCCTTCTTAAAGGGAATTCTTCGTACTCCAGACACTATCCGTCGGTTCCAGAGTGTCCCAGCCCAGCCAGGTCAAACTTCT
CCTCTACTTCAGTACTTTGGTATCCTTTTGGACCAGGGACAGCTCAACAAATACGAATCCTTAGAGCTTTGTAGGCCTGTACTTCAGCAAGGGCGAAAAC
AGCTTTTGGAGAAATGGTTAAAAGAAGATAAGGTACGTTAAATTATGTTGACATAATCTTGCTTTGGTTGCATTAAATATGATATTGGCAAGTTAAAATC
ATTTAGGCTGCACCACAATGTCTCCATTACTGCTGGTAGAAACAGAACAAAAACACACATTGCATAAGATGGATTCACTTATTTCCTTTTGAAAAAATAT
ATATTTTTTCGCCGGGCATGGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCCATGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGACYAGCCT
GACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAAATCAGCTGGGCGTGGTGGCAGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGG
AGAATCACTTGAACCCGGGAGGTAGAGGTTGCAGTGAGTTGAGATTGCATCACTGCACTCCAGCCTGGGTGATAGAACGAGACTCGGTCTTAAAAAAAAA
AAAAAAGTTGGATCTTAGTAAGACAGGATGGCTATCTAATTAGCAATGAGATACTGTTTCCCAGAGATTTCACAGAATGTTAGTTGGTGTTACATGGAAA
AATATTTAACTTGGTTTCTTGAAATTTATTTAAATATGAACCTTTTCTAAATGTTAACTAGCTTTCTTTACTGTAGGTCTTCTCCATGCCTTTTATATTC
ACTCARTACTTATTTCTCTTTACAGAGAGCATATAATGGTAGTATGTTTTCCTGAGCACATTATTCCTTATGTGGAATAGTGACTGAGAAACAGCCAAAG
GATGTTGTTTGTTTCTAGGATAACAAACAAGTTTTAGCTGTCCATTAGTGTTAATTCCTTTCACACCACCACATAAAAAAGCCTTTCTCCTCAAAGTTGT
AGTATGGAATTGCCATTGTCAAGAACTGAAGTAGTATTGTTTAAAGCACTCTGAATAGTGAATAACATTTAATGTTATTATTCTTTCAGCGTTAGTATAT
GTTAGGACTGTTTTTATATTATTAATTCTAAGTCCTTGTTTCTTGACCCAGTTTCTGGCAATCTTGTAAGATACCAGAGAATACTACATCAGATTTGGGA
TAYTTGGACAGGAGTCTCTGATGAAGAATAGCCACACTAGCGAGTATTTGAGGTCCATCCTAATTGATTAAGATAAGGCAGGGCTGAGTTTGGTGGCTTA
CGCCTGTAATCCCACTACTWTGGGAGGCTGAGGCAAAAGGATCACTTGATGCAAAGAGTTTGAGACCAGCCTAGGCAACACAGCGAGACCYTATTAAATA
AATACACAATATTTTTTAAAAAGATAAGGGAGGGTGAGAACAGCCAAGGTAACTGAGTTGACCTACGTAACAGGGTGAAAGCTTTTTAGGTATCATTATC
CTTTTCTGTGAACAGTCATATGGGACCATTTGTGGTATTAATAAAAGAGACATTAATCAACTATTCATTAGCATGTTCAGTTAAGATTATCGACTCTGAT
ACAACTTTTTATTTTTGGCACTAAATATCATTTATAAGAGCTAGTCCCCAAAGTAGAAAATCTACTATAGTATGTAAACCAGAACTCTTAGGAAATGAAT
TTCCAGATTGGGCAGCTGAATGAGTAAGGCAGACTGAATAACACAGAAGACAGTATCTGCCTGTATACTACCTAAAAATTCTTAAGAGTGTCCTTCCTGC
CCTATAAGCTTAAATCCAAGTCAAGAAGATAGTGGTGCTTAGATCCCTCAGACATATATAGGTTACACTGTGAGTTTAATAACTGTCCTTATGGTAAACC
TCATCTGGCTCCTTCATTATCAAATTTTCAGTTGATAACATTACATTAAAAGTTGCTTTTTGTTTTTGAAAAATTGGGGCCATGTGATGTGAGTCTGATA
TCTGAATATTCTTAGTAGCTAGAAGTACAAGAGGTACAAGATTGTACTTTGAAGTACTTAAATCCTTAACAAGGTAGTTGATAGTATCTATAAGATTGCA
GTCTTGGTGAGCTTTTTATCGTTAAACAGGATTTGTGGAGAATTCTACTGAGACATTGCTGTGAACACAAGATTAAGAGTCTACCAACCACAACCCCTGC
ATATTTATAATATATTCTGTGAAACTAAGTACCTTTCATACTAGTTATTACTTATAGTGGACATAGTGTCAACTGCTCATTTCTAAAACAGTTCATGGAT
CACTAAACAATCTCTTTTTCCTTTGGACAGCTGGAATGTTCTGAAGAACTGGGTGATCTTGTGAAATCTGTGGACCCTACATTGGCACTTAGTGTGTACC
TAAGGGCTAACGTCCCAAATAAAGTCATTCAGTGCTTTGCAGAAACAGGTCAAGTCCAAAAGATTGTTTTATATGCTAAAAAAGTGAGTTCAATGAAACA
CATTCTCAGCATGAATTCATTGAAGCATTGACAGAGAAATTAGCCTGTATTAACTCTTGATTACTTTAATAGTGAATTTCCTTTCATTTTGATTTACTTT
GAAATGTATAAAAATTCTCTTACCCCTCATATCAAATTCATACTTGTTAAATTGAGAAAATTACTTTTGCATGGCTTATCAGAATTTCAGATAGCAGGCA
CGTTTAACATGTTAGAACAAACTTTTGAAATATTCATTTATTGAAAATGGATAAGCCAGGCCAGGTGTGGTGGCTTGCGCCTGTAATCCCAGCACTTTGG
GAGGCCAAGGCAGGCAGATCACTTGAACTCAGGAATTTGAGACCAGCCTGGGTAACATGGTGAAACCTTGTCTTTACTAAAAATACAAAAAAGTAGCCAG
GCGTGGTGGTGTGTCTGTGGTCTTAGCTACTCAGGAGGTCAAGGTAGGAGGATCACTTGAGCCCAGGGGGCAGAGGTTTCAGTGAATCGAGATTGCACCT
CTGCACTCCAGCTTGGATGACAAAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAATGGATAAGCCAGTTATAAAAATTGA
CAGATGTTTGTTCAAATATGTCATCACCAAGGTCTAACTGGGCACCTTAAATTGAAAATGAATTTGTGCTTTCACCAGTAGTTCTATATTAGTGAGATTT
TATAGTAGAAAAAGTCTTTAAATGCTATAAAATTGAAACTTAGGAGCAGCGTTTAAGTCTTTGTTTGTTTATAGGTTGGATACACTCCAGATTGGATATT
TCTGCTGAGAAATGTAATGCGAATCAGTCCAGATCAGGGACAGCAGTTTGCCCAAATGTTAGTTCAAGATGAAGAGCCTCTTGCTGACATCACACAGGTA
ATGTGATTAAAATATATTTTGTAGAAGCTGATTGAAATGGAGAGTGGGGGCCAGCCATGGTGGTTGACTTGGGAGTCCAAGGTGGGAGTATTGCTTGAGG
CCAAGAATTCAAGACCAGTCTGGGCAACATTGTGAGACCCTGTAACTACAAAAAATTTAAAAATCAGCTGCATGTGGTGGCACATGCCTGTCGCCCCAGC
TACTCGGGTGGCTGAAGTGGAGGGATAGCTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGCTATGATCGTGCCATTGGACTCCAACCTGGGCAACAGAGTG
AGACTCTCAAAAAGAAAAAAAAAAAAGGAAAACTTACAGTTTGTAGAAATTAAAGCTTTGTCACTCTATATGGATAAACCTCAAATGCCTTGCAAAAAAA
GCAAGTTGCAAAAGAATGGACAGTATGAAACCATCTGCATGTAGTTTTAATACATGCAAAACAAACATCTTATTTAGAGATGTATGTGTATTAAAAATAT
GAAAAATACATGGGGATGATAAAACAGGATAGTGGTTGCCACTGGGTGTGGGGAGAGGGAAGAGATGCATTTGTAAGTGTGAGTCAGAGTCCTTCATATT
TATGCTATTGGTTTTCTAAAGTTCATAAAAATAAAGGTCTGTCAGGCTGGGTGCGGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGG
CAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTAGCCAATATAGCGAAACCCTGTCTCTACTAAAAATAACAAAAAATTAGCTAGGTGTGGTGGCAGA
CGCCTGTAATCCCAGCTACTCAGGAGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACTCCAGC
CTGGGCAATAAGAGCGAAACTCTGCCTCAAAAAAATAAAATAAATAAATAAAATAAAATAAAGGTCTGTCGGTTCAGTTGTATTCTGCTGTTATGTAATA
TCTTGAAATATTTTGTAGTTGTTTTTATCAGAACTCAAAATAACTATGATCCCTAGAGGACAAAAATTTGTTCTTAAGTGTTTATATTGTCCAAATAAAA
TTCTCAGGTAAAGAAAGAGTTCATGCATAATTTTGTCTACATACTCTCCATAGTATCTTAAAACAATTTCTTTTAAATCTTTTTTTGTAGATTGTAGATG
TCTTTATGGAATACAATCTAATTCAGCAGTGTACTGCATTCTTGCTTGATGCTCTGAAGAATAATCGCCCATCTGAAGGTCCTTTACAGACGCGGTTACT
TGAGATGAACCTTATGCATGCGCCTCAAGTATGTGTTTTAATGCTTTTTAGGCATGTTTCCAACATTGTTTTAGTAAYTGTGCAGCGCCTCTCAGATTGT
TATGCAAAGCTACTGAGRGGCCTACTCCTTATTAAAGAAAATGTAGCTATTATAATATTCTTTTGTACTTTAACAGTTCACTATTAAACCTTAATCTGTA
ATACGGATATTGAATTACTCATGTAAGTGGAGTGGACAATAAACTTGCCTTGTTTGTGGTTTTACAGGTTGCAGATGCTATTCTAGGCAATCAGATGTTC
ACACATTATGACCGGGCTCATATTGCTCAACTGTGTGAAAAGGCTGGCCTACTGCAGCGTGCATTAGAACATTTCACTGATTTATATGATATAAAACGTG
CAGTGGTTCACACCCATCTTCTTAACCCTGAGGTATTTCAGTTTCTTACCTAATAGATGGTGTTAGTTGTGATTAATAGGTACACTGAAAATGTGTTTGT
GGTACTAAATATTAATAATTTCATACCACCATGAGGTTCAACATTATTTCATTTATTCATTCATTCATTTATTTTGTCTTGTAGTGGTTAGTCAACTACT
TTGGTTCCTTATCAGTAGAAGACTCCCTAGAATGTCTCAGAGCCATGCTGTCTGCCAACATCCGTCAGAATCTGCAGATTTGTGTTCAGGTGGCTTCTAA
ATATCATGAACAACTGTCAACTCAGTCTCTGATTGAACTTTTTGAATCTTTCAAGAGTTTTGAAGGTAATTAGGAGTTTTTGAGTTTTTAAAAAAAGTAC
TTAAGGTAGCCAAGAAGAGGTATGCTTATGATCAGGCTRTTGGAAATTTTGTTTTTCTAAAAATTTGGTTCTATGGGACATTTTAATTTTTTAAGTTTTA
TTCAATATATGTCAAGGCCCTTTTATGTTGGATTCTAAGGATATGCAGTGAACCAGACCATCTGTTTGGATATTTTATAGATGAATTAAAGGTAGAATTT
TAAGAGAAAAATATGTAGTGGTGTTGAAATTGTATAAAATGAAAATACAGGTTGAGTGTCCCTAATCTGAAAATCCAAAATGCACCAAAGTCCAAAACTT
YTTGAGCACCAACATAACGCTCAAAGGAAATGCTTGTTGGAGCATTTCAGAAATCGGATTTTCAGATTAGGGATGCTGATCAGGTAATTATAATGCGAAT
ATTCCAAAGTTCAAAATCTGAAACACGTCTGGTCTCAAGTATTTTGGATAAGGGATACTCAGTCTGTACTAATGATCAGGTATAATAAAATTTTATGCTT
ATATGTCTGACTCTTATAATAGCAGGTGATTCTCACTAAGGGCATTTTGTGATTTGTTGCTATTTAGCAGGATTTCTTAACCTTAGTACTATAGACATTT
AGGGCTGGATAATCATTGTAGAGGGGTGTTCCTGTACATGTAGAATATTTAGTAGAATATTCAGCAGCATTCCTGGTTTCTACCCACTAGATTCCAGTAG
CGTCAGCTCCACCAGTTGTGACAACCAAAAATGTCTTCAGACATTGCCAGTGTCACCTGTGAGGAAAATCACCTCAGTTGAGAACCACTGCTATACAGGG
TACTAACGTAATCACTGTTGGGTGTCTAACTTCTGGTCCCCAACTGCCTTTCTCTCCTCTCTGTACTAGTAGTACTCTATTGAGAAGGGGTAAGAGAGTC
TAGTAGTTTTCTTAATTTTTTCTTAATTTTCCCAGTTTCAAAATGTTAACTGTGCACTAAATTTACACTGTTTAGTACAGTCACTAGCCACATATAGTAG
CTATTTACATTGAAAGTTATTAAAGTGAAATAAAATTTAATATTTAGTTATTCAGTCACTCTAGCCACATTTCAAGTGCTTAATAGCCACATGTGTTTAG
TGGCTATTATATTGGAAGGCAAAGATAAGATTTTCATCATTGCAGAAAGTTCTTCTGGACAATACTGCACTAAATTCTTCCCAAATTATTTTGTATGTTT
CCTATAAATTGCATATTGAAAAACACCAGGTATTGGGGTCTTCATTTAAAATTTCCCATATAGGGGCACAATGGTGTATGCCTTTAATAATCCCAGTGCT
TTGGGAGGCCAAGTGCTTGGGGCCACAAATTCAAGACCAGCCTGGCTAGCATAGCAAGACACCATCTCTACAAAAATTTTCTTAAAAATTAGCCTGGCAT
GGTGGCATGCATCTGTAGTTCTAGCTACTTAGGAGGTTGAGGTGGGAGGATTGCTTGAGCCCAGGAGTTTGAGGCTGCAGTGAGCTATGATCGTGCCACT
GCACTCCAGCCTGGGTGACAGAGACCTGCCTCAATAAAAAAGAAAAAAAGGAAACATTGGGTTGAATTGTCTATTCTTCAGGATTAAAGTGCAATCCATT
TTACTGATCTGATTAATGGAATAGTTAGTATTTTTATCGCGCTTTTTAAGCAACCAACTTATATTTGGGAGTATTCAATATAACAGTTTTTTAATTACAT
AAATGTTTTTCAGTCATTCTCAAAAGTGTGCCTRTGCTTAATTGTAATTACTTGTTTCTTTAAGGTCTCTTTTATTTTCTGGGATCCATTGTTAACTTTA
GCCAGGACCCAGATGTGCACTTTAAATATATTCAGGCAGCTTGCAAGACTGGGCAAATCAAAGAAGTAGAAAGAATCTGTAGAGAAAGCAACTGCTACGA
TCCTGAGCGAGTCAAGAATTTTCTTAAGGTAAGTGGTTTTGAGTAATGTGTTTTCTGGTTGGATTCCAGGTTAGCAGTTCTACAAGGGTTTGGTCATAGT
TCAAAAATATTTTTTCCCTAAATGTGAAGTTGTTAGCATTCTTAAGTTGTGTGCTGGATTATTTCTTCCAAACATAATATTCTGTGGTTTCCTTTGAAAT
ACGGAAGGAAATTGGTGAGTAAGAATGACCATCTGTTTAAAAGAAGAAAAAAAAAATAGCACTATTTCAAAGGAATTTCCTTTATTTTAATTTTGGATGG
AAAAATTTAGAAAAGTGGTTGTATACTTTCAATGTCATTTTAGAATCATTTAGGCTTTTGAATATTAACATCAGCTTGCTCTTCATACCATTTTGAGGAG
CCTCTATTGTAGGCAAAGGGATCTGTTGTCTAAGGAATGTATAGGTTTACCTCTTTCATCAAGTTTGCTCAACTCTAGAAACTAAAATATTGTTATTCAT
ATATAATTCATAAAGGTAAGATCAAACAAAACGCTCAGCTTTGTGACACATTAAATCAGTTAGAGAGGAGTAAGGACCACCTGTGTTGCAGGGAGGAGTA
ATGGTTGAGAGATTCTGAACTCTAGAACATCCCTAAGGGCAGTTAATTTTGTTTAATGTTTAACTTAGCTTTAGCTTTATTCTTGTAACTGCCAGTTACT
TTGTGATGGAAATAAAGCTTTAAAATTGATAGCTATCTATAAAAGGCTAGGAAAACTACAGAACACTTAGATTACTGCTCTCTCACTGCCTATTATGTGT
GTGTGTGTACACWATATATATATATAATGATTCCTGAGACTTTATAGAAAGTTCTGAAGTATTTTTTGTCTTGGAAGAATTTTACATTACAAGTAAAACC
AAAATGTTTTTGTAGAACACAGTATAGAAAGTAGGCTTTTCCTACTCCCAGATTATCATCATTTGTGTGTGTGGTTGCATTGGCAGATTGTTCTTTTGAA
GAATTTACTACCTGGGCTCTAGATTAAATAGCAAAACCCTTAGGGGTTTTAGTGTAATGAAGTAGTCAAAATGTTGAAACTGCTCTACATTTTAGATTAA
AAGATACACTTTTCAAAAAAGTATAGCTTTAAAATGTCTTGGCCATCATGAATATTCTGGGTAACCTAGCTGTGCTATGTTTGGACCAAAACTTTCTGGT
GTCAAAAAACCCCTCCAAATGAGAAAGATTTGATACTCTGTGCTTGACTAGTGTACCCATACTACTGATTCACTTCCTTCTTTGAGTATCATTACTATTT
CCTTTAAAAAAAACAACAACAAAAAAAACTACTACTAGATTCTTTTGGGGGCAGGGGGTGTTGGGTTTTTTTTTTTGTTTTTCTTTTTAAGCTTTTAAGT
TCAGGGGTGCGTGGGCAGGTTTGTTATATAGGTAAACTGTGTCATGGGGGTTTGTTGTACAGATTGTTTCGTCATCCAGGTATTAAGCCTACAACCCATT
AGTTATTTTTTCTGATCCTCTCCCTCCTCCCATCCTCCACCCTTCAGTAGGCCCCAGTGTCTGTTGTTCCTCTCTGTGTCCATGTGTTCTCATCATTTAT
CTCCCACTTGCTAGTGAGAACATGCAGTATTTGGTTTTCTGTTCCTGTGTTAATACTACCAGATTCTTAAATGATTTCTTTTTGTTTTTATTGAGCCCTC
AGCTTCTATGCTTAAATTGTAACTTCTTTAGCTTTGGATTTTAATATTTGAGTTATATATATATGGAAAGCAAAATGAAATTAGCTATTATTTAATTATC
ACATTTTTGAGCTTTAAAAAAAATCCTCTAGTAAAGAAATGAAAAACAATCCTCTGGGTACTAGGATGGTACTGCCTTAGGTTTGCATAGCCCATGGGAT
CTAATCAGATGAAGATTTCCCCTCCACACTTGTGAACTGGGTACAAGCCTGATATAGTAGGGGTGTGGATGTGGATTATGAGCTTTTGAGTCAGTCAGAC
CTGTTTCAAATTCTACTTAGCCATTGTTTGTTCATTCAGTATATGTCTAGCTGTTACCTCAGGCAAGTTAATGAATATGCCTCAGCCTCAGTTTCTTCAA
CCATAAGCTATGTTTATTTATCAAGTACCTTGTATACTATAGATGTTTAGGCAGTAACTATTACTGATAAGTGATAAGCCTTGGAAAAAGGTGGAGTCAG
CCTAAATGGGATTTCTGTCAGGCAAGTATTTATTTCTCTTTGATATCAATTTGTACTTGACTCTTTGAAGGAATTTACTTCCAGCCAGGATTAGAGGTGA
ATTTAGGGTCTTAYGTCTACATAATTTGACATGGGAGCTCAATACTAAGATGCAACTATCACATTCATCCTCTGATGCCAGTGTTGAGAGTGAACTTATT
AGATTCCTTGTTAACCTCCAGTACAGGGTTATGATGCCTCTTATCACTGTTATTAAACTTAATTTTAGAGGTACTAGCTACATGATAATTTACTGGTGTT
GTAAGTAAACCCTGTGTCATAAGAAAAATACCCTGACTCTGATCTTGAATATTCAAGTGCCAATTGTGTGTTAGCCACCAGGAATAAAGAGATTGGTAGA
ACATAACTTCTCCTTTAAGGTACCCTGTGAGCAGGATAAAATTGTGTCATTAGCATCATTTGACTCATGCCCTAAGTTTGTAGAACTGTAAGCTCTCTGT
AGAAAGCATATAACTGTTCATCAGACCCATGATCTGCTCCTTGCTACCTTTGATCTTATTTTCTACCTTTCTTTTTTTCTTTCTTTCCTGGTTTAGCTTC
AACCACACTGGCCTGCTAGCTATTCCTGGAACTCCCCTAACCTTGTCCTGCCGAAGGGCCTTTGCTTGTGCCCTGTACTACTATTCTCTCATGACCTTCT
TTCTCCTTTACCTTCTTTGGGTTTCTGATTGAATGTCAGAAGAGAGGATGTCTCAGGTTGCCTTGTGTAAAATAGAACCCATTCCTACCCCATTTTGCTT
GTTTTTCTTTATAACACCACTATGAAACGTCTCCTCCCACTAGAATGTAAGTTCCTTGAGAGAATGGACTCTGCTTCCTTTGTTCCCTGCTGTATCTCCA
GTACCTAAGAACAGAGTCTGATACTTGGGTACTCATAAATATTTGTTAAATGAACAAATTTATGTTGAAGAAAACCTCTGACTATGCTAATATAATTTCA
AGTTTGATCTTAAAATCTTTAACCATTATAACTGGAGGTTAATTAAACATTTAGTAAGTAATTTAATATTATTAAAATGTTAACATTTCTACCATGTATA
AAATCATGTGCAAATTTTAGCAATCAAGAAAATAACCTAGATTTTGTCTACTTTTTAAATCTGAAATTTTCTTTTGGAATACAGTTAGTATTCCACAAAA
GTGGAATTATTTGCCACAGAAATTTTAACACCTATGCATGAAAACAGAATAAGTAATCCTAGATTATCTGTAAGTGATAAAGATAACAAAAATATTTTAT
ATGTGTATAGGTAAGATGACTAGTGTGTTGATCCATACTTTTTTGATGTTCATTTAGTAGGAAAAACATGACATACTAAAATTTTTACATAGATAGATGC
AGACAGATTCTAGAAATGATCGTAACAGCTATTAGTGCAGAGTTTCCATGGTGTTAAACAATACTTATTTTAGAAAACCTTCCTTAATGTGGAAAATCTG
CAGCTTTACAGACATTTTTATTTTTTAATTTAGGATGGCTATATTAAAATTAAGATTTACCTTGGTGTTCTTGGGACACTTCATAGACTAGTCTTCGTAT
TATTTATAATCGAGTAACTAATATCCCCTAGTCTCAGGAGCCATTTAATTCTAACCTTGAAAATAATGTTCTTAGTGGCCATCACTGGGGAAAGTTCTAC
CCTACTTAGTTCTGCTTCCCTAGTAGACTGTGTTAGAGGAATCATTTATTGAGGAATGTTTCACTGTGTATAAATGAATTCCTGATGGAAACTGTTGTTT
TTTGTGCTCTACCTTATGTCTGTGGAATGTAACAGGACATGTATCAGGTAAATGCCCAGTACAGGTTTTACTTACCTGTCTATAACATCTTCTATGTCAG
TCTATAAGTAGGATTGTAGTTTGGTATCTGTAATGGAATGATAAAAGCAGTTGGCAATTTAAAGATATCTTTTCTTTAAATGCTGGGTTTTTTTTTTTGT
AGGGGGTGGGTTTTCTTATGGCCACATGTGGTCACCATCATGCTGCTCCTTGTAGGCTTTGTTATAATAGAGTATTAGAGGCTGGTTGTATAGATTGGAT
GTGGGGAGGGATAGAAAATCATTAGTTTGAAACAAATGTAAGCCATTTATGCCATATGTTTGACAATGTGACTATAGTTATTAAGTTGATTTTAAATACG
GTAGAAGTGTTATTACCAGTGAAAGTCCCAGTATGGTGAATTTATCATCTGAGAGCCACTGGCTCAGGTATCTTAATTTGTTACTCTTGTTTTTTGGTAA
AGGGTGTGTATGGGAAAGACTTGGTATCTTGCTGTGTGAATCTAAGTATTGCTTAGTAAAAATTTACTGAAACTGGGATGTACACACTCAACTATTGGGA
CATTCTTTCTTTAACAGAAGAGCTATGTTTGTGTGAGCCTCTCTTGTTAGCGTAGAACAAATTCTCATATGTTACACAGATTTGATACCTCATAGAAGAA
ATTTAAAGYTTCCTTTTGTTTGTCTTTTTTTCAGGAAGCAAAACTAACAGATCAGCTACCACTTATCATTGTGTGTGATCGATTTGACTTTGTCCATGAT
TTGGTGCTCTATTTATATAGAAATAATCTTCAAAAGTATATAGAGATATATGTACAGAAGGTAAGTAATATGTAGGTAATGTAAAGGTATAATCTTACTA
TAGATTTTATTTCTCATATTCTGGAAATCCTTTTGAAACTCTGTGCTCAATAAGAGTGGTCTGCAGCTTTTAACGTGGGATTTTTTGTTTTTGTTTTTGT
TTTGGAGACAGGGTCTTGCTCTGTCACCCATGCTGGAATACAGTGGCACAATCACAGCTCACTCTAACCTTAAACTCCTGGGCTCAAGCAGTCCTCCTGC
CTTAGCCTCCAAGTATCTGGGACTGCAGGTGCATACTACCATGCCCAGCCTGCTTTTAATACTTTTTCCCCAGCAGAATCCTTTCTTGGAATAAAATTCT
ACGTGCTTCCCTAGCAAGCCGACTCAGGGAAGGGGGAAAAAAAAAACATGCATGCCAAGTGTGTAAAATATAAGAATAGAACTGCTATTATTGAAAAAGT
TGGGTGGCCTAGGGCCTTACTAACTTGATAGACCCTGAGGTATCCATGTAGACTCCAAAGCAGAGTTTTCAAACCATCTTAAATACAGATATTAGATAAT
TCACCTTCTAACTGTAGAAACAGGCAGTATTGCTATAATGGGAGCCTTTTTATTAGACAGTCTTGCATAGTCATCTTTGACTGTATCTTCTTTGGACTTA
TTTATCATATGGAACAATGTTTCGGTAACTAACCAAACCGGTAGAGACAGAATATAGTATATGTGCTTTCAATACTTATTAAACCATGAAGTCTTGTTTT
TAGCTGGACTTCCTGCTAAATTCCTCTATCTAGTTGCAAATTTAGACCCTCAGTTTATTACTGAATTTAAAAACTGAACTTAAAGAAAAAAAAACTGAGC
TTAAAAGCGATAGAGATAAATGCTTTTTTAAAATTCCTCTTTGCTTTTAATAACATAATAACATTCTTCTACTTCTTTTTAACCACAGGTGAATCCAAGT
CGACTTCCTGTAGTTATTGGAGGATTACTTGATGTTGACTGTTCTGAAGATGTCATAAAAAACTTGATTCTTGTTGTAAGAGGTCAATTCTCTACTGATG
AGCTTGTTGCTGAGGTTGAAAAAAGAAACAGGTGTAGTACCATTTTAACAGGGATAAGTTACTCTTTCTTAACATGGCAATAGATAAAAATATAGGTAGT
CATTTGTTCCAAAGCTACTAAATAACACATGGAGAATAATTTCCTGAAGACACCTAACATAGAGGTGATAAGCTAGCTAATAGCACTGGGAAAAAATCTG
TTTTCTGAAACATTATAGCTGTCATAGGAGATCTGTTAACTTGGTTGATCATTTTTTTGGCATGTTTATAATTACAGCTATGTGGTTTGACTTTATATGT
TTTTATATAAACTRTGTACTAAGTCTCCTGTTTAGGTGTGATACCTGTGTATTTAACAACTAATTCTGTACTGATCAATCATGTGGTGTTTCCAACCTGA
GAAAGCTGATTAAAAAAAACAGTGTGGTGTTTAAGTGTGAGGCAAAAGAGTTCCCTGTGCAACTCTTGAGTTCAATTGATATTTAATTTACAGTACCTTA
ACATGATAATATGGATTTCCAATAGAATATAGTATAAGTGCTTCTAAAACTTACAGACTGTGAAGTCTTTTTTTAGCTGGAACGTTCTGAGGAACTAGTG
TTTAGGAAGTACTGATGTAAATGAGTTTGGTGAGGTGGTATGCTAGTGGGAAGTTCTGCTGTTTATGAGAAGAAATTAAGAAAGTCTGTGGGTTTCATTT
TAACCTGAGTTGATATAGGTGATCTACTAATTATATTCTTAGAATTTATATTAGAATGTTTCAAACATGGAAAAATTTTGCATTTAAGGGTAATAGAGAT
ATGCAGTTAATACTGACCTAAAGGTTTGAGCCTAGTTTCAAGTGATTTTATGTCATAACAATTTAACATTTAATAAGAGGTTCAGTTGAGTCTGAACCTA
TTGAATCTATTACCTGAAAATAATCTTACTGCATATTCCAAGCAAATGGCAGTTACAGTTAGATAATTTAGTCTTTAAGTGACAAATTATATTGTGAAAA
GCTAGATTCACATCTAAGTCACTAGTCTAGACATGCCTCAGCTAATTTTTATTCCTTAAGTTGACATGGCGTATCTTGGATTGCACATGTTTATAGGAGC
TGGATTTTTGCCTCTATTTATTAAAATTGTCTTCTCCCTAATGGGAGGGTTCATAATAACCATGTGAATTTGATATAGCCAAAATAACGAATAATGCTTT
TTCTCTGGCTGCTTTTAATGTTTAAATCATTGGTAAAAGAGGCTTGGGCCAGGCGTAGTGGCTTGTGCCTGTAGTCCCAGCTTCTGGGGAAGCTAAGGTG
AGAGGATTGCTTGAGCCCAGGAGGTCAGGGCCGCAGTGAGCCCTCCACTGCACTCCAGCTTGGGCAACAGAAGACCCTGGCTTTAAAATAAAAATAAAAG
GAGGCATGGTCATCAGGACTATCGAAACAAGCTATAGTATAGCAAAACTGTGCTCCTTGATGGAGTGTTTATATGACAGCTGCAACTATTAAACCCAGAG
CTTCTAAAGCTATCAGATTTTATTCCCAATATGTATTTAGGGTTTGGCTGTAGGTAATGCTGTATGTTAATTGTGTTAAAGCTGAAAGAACTCTCAGATA
ATCTGGCCTATGTAATATCACATCCCCATCCTATCCACAAACAAAATTTTCTGAAGTCTAGATATTTTGTGTGTTATAAAGAAAGGACACTGTATGAATC
TCTAATCTTTTATTCAGATATAAGGAGGTAAGTATATCATATAGCAGATAAACCTGGGAGAGTGAAAAATAGCYTTATATACCTTCTTTTTATTCTTGGA
CAACTCAATCATATTTTGAGTCTTAATTTCCCAATTTATAATAGGATCACTGATAATTAAAATTAATGTAAAGCCAGGTACAGTGGCTTGCACCTATAGT
ACCAGCTACTCGGGAGGCTGAGGTACTAGGATCACTTGAGCCCAAGGCTGTAGTGCACAATGATTGTGGCTGTGAATAGCCACTGCACTTCAGCCTGGAC
AATGTAGCAATACTCGGGGGGCGGGGAAAAAGTATGTGAAAGCACATTATAGACCATAAGGTATTTACATAGTTAGCATGTCAAGAGTGTGTTATTTATA
ATACAGTATGTGTGTGTGAGGTTTTTTTCCTTTTTTCCTAGATTGAAACTGCTTCTGCCTTGGCTAGAGGCCAGAATTCATGAGGGCTGTGAGGAGCCTG
CTACTCACAATGCCTTAGCCAAAATCTACATAGACAGTAATAACAACCCGGAGAGATTTCTTCGTGAAAATCCCTACTATGACAGTCGCGTTGTTGGAAA
GTATTGTGAGAAGAGAGATCCACATCTGGCCTGTGTTGCTTATGAACGTGGCCAATGTGATCTGGAACTTATTAATGTGAGTACTGCTAGCTGAATATGT
AGAGAAGCTGCATTTTTAAAAACCTGTTACATGAGAGTTTCAGGGTAATTTTAGGTAATATGGGACATTTGGGGACGGTGGGTGCTTTTTTAAAACTTTA
TTTGGAAATAATTGTGAATCTGAAAGTGGCCAAATAGTGGATAAAGTCTATATACCCTTTATTCTGATTGACTTGCTAATGTTTTAACCCCACTAGCCTT
ACCATTTGTGTTCTCACACTCTTACACTCAGGCACACCATTCATACATATGTGTATACACACACATACTATTTTTTAACCACGTGGGAATAACTTGAATG
CATCATGGCCTTATACCCCTTCCGAGTGTATGGCCTAAGAATAAGGATGTTCTCTTTCATTAACCACATGAAAGATACCAGCTTCAGTCAGTTTGACATT
GATAGGATACCTTTAAAAATCTGTTCTATTCTAGTTTTGTCAGTTACCCAATGATGTCCTTTGTAGCAGTTTTTTCCCCTCTAGTCTAAGGTCATATATG
GCATGTAGTTTTCATGTCTTTAGTCTCCTGTACTTTGGAATGGTTCTTCAGTCTTTTGTTTTCTATGACGCTGATATCTTTGTAAACAATAGTTGCTTTT
TCTATTTGTAACTATTTTATATAGGTGAAATTTCAAGCAACATCAAATTAACCATTTTAAAGTGAACAATTCAGTGGCATTCAGTATATTCACAATGTTA
TATAATCACCTTTATCTAGTTACAAGTTTTCATCACTTCAAAAGGAAACCCTGTATTAATTAAACAGTTCCTCCACATACCCCCTCCTCCCAGCCCCTGA
CAACCACCAGACTGTACTGTCTCTATGGATTTGCCTATTCTCTATATTTCATCTAAATGTAAAGTCTCTTTTTAAAAAACAGAATGTGTCTCACTTTGAG
TTCCTCTGATGGTTCCCGATGATTAGATTTAGATTATACATTTCCACCCAGAGTACTGCTTCAGTGGTGGTTTGTTTTTCTCTTGGTATTATATCCGGAA
GCACGCRGTGTTCATTTGTCCCCTTTGTCAGTTTTTATCAAGTTGTAACATGTCTTTATTACATAATTATTACCCTCTTGGAGATATTAAACAGTCTATA
AGTAGTCTGTAGTAGACTATGCAAATATCCTCTTACCCTCTCCCTTAATTTAGCATCTGTTGATTCTTGCTTAAACCATTCTTAATGTGTTGGTTGCAAA
ATGAAAATTTTTCAAACTCCAGCAGTTTCTCCACATTTGTCAGTTAGCACTCATGCATTCATGAACTCTTGGATTTTATTCGATGGGCTACAATTCACTA
CTATTTATTTTGATGCTCAAATTGTCCCAGTTTTGACTGGTGAGAACCTCTTCAGTCTGTGTCTTTGTGTCATGGGCTCATTTTTCTTTGAGCACTAACT
TATTTTCTGGCACACAATACACCAAGCTCATTTTGTACCTTCAGCAGCCCTGAAGTCAGTCATTTCCCTAGGGAACCTTTTACTGGGGCATTAGAAACCA
AGATCTGGGCCAGGTGAGTGGCTCACTCCTAGAATCCCAGCACTTTGGGAGGCCGAGGCAGGAGGATCACTTGAGCCCAGGAGTTTGAAACCAGCCTGGG
CAACATAGCGAGCCCCCCGTCTCTACAAAAAATTACATGATTAGCTGGGGGAGGTGCCATGCACTTGGTTTCAAGCTACCCAGAAAGCTGAGGCAGGAGG
ATCACTTGAGCCCAGGAGGTCAATGTTGCAGTGAGCTATGATCRCAACACTGCACTCTCCAACCTTGACAACAGAGCAAGACTCCTACTTTCTGAAAATA
TTAGAAGTCAAGATCTGAGCTTTAGTGTATTTGCTTCTAAGATCTTTCAGTGGTCAGGGCTTAGTTACATTTATGTACATACATATGCTCATTTATGTAC
ATACATGTGCATATACGCATGGAAAAATAAACACACAAGAACAGCTAGTAAAACACTGAAAACTGTAAAAGTGGACTAGTCCTACCAGATGTTGAACTGT
GTATTACAAAGTCTATATAATTAAAACAGTATATTACTGGTACATGAATCAAAGTCCAAAACTAGATCCAATATCAGTAAGATTATCAATAAACATAGTT
TAAAAGATAGGAAATACCCTCTAAAATGCTATAAAAAGTCCTTTACTTTTTACCTTGAAATTAATCTATCATATCTTCTTTAGGTTTGCAATGAGAATTC
CCTCTTCAAAAGTCTTTCTCGCTACCTGGTACGTCGAAAGGATCCAGAATTGTGGGGCAGCGTGCTGCTGGAAAGCAATCCTTACAGGAGACCCCTAATT
GACCAGGTAACATTGGCAAATGTGTTTATGGCTGTCAGTAAAAATTATACATTTTTAACTATGAATACAATCCTTTCCCTCATCATGTACTCAAATGGAT
CATATATAACTATGAGAGAAAGCAATACAAAGTAGAAGAAAATTAAAATTTATATATATTCAATTTACATTCATTTGTATATAATGAATGTAAATTGATT
ATATACATTATATACAAATGAATGTACATTTATATAAGTATAAATATGTATATAACATACATTAAGAAAAATAAGCCATGTGCGGTGGCTCACGCCTGTA
ATTCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAAGTCAGGAGTTCGAGACCAGCCTGGCCAACGTAGTAAAACCCCATCTCTACTAAAAATA
CAAAAATTAGCCAGGTGCATGTAATCCCAGCTACTCGGCAGGAAAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTAAGCCGAGATCACGCCATTGCAC
TCCAGCCTGGGTGATAAGAGCAAGACTGTCTCAAAAAAACAAAAAGAAAAAAGAAAAAGAAAATACATCCCAAAAGACCTGACTTAATTATATAAAACTC
TCTTGGTTCATCATAGTTTAAAAGGAAAATAACAAACTAAACATTAAAGATTGCTATTATTAACACTTAAGTGGCTAAATTGATTGGAAACTTCAAGATA
ATAAGTCAGAAAAATATAAGGATAAGAGAAAATACAAAAGACCAAGTGCATCAGTGTTATATCTTACTAATAAGAAGTATAGAACTGCAAATGAGATGGG
GTTTTATACCTAAAWAAAATAGACAACATATTTTAAAAGTTCTAAAAATAGAAGAGTTGTTATAATGAGTCTTAAATTCTCCTGAGATAAGTATAAATAA
AATATTTTGGAAACGAATAGGTTGAAGGCTATTAATATTTCATTCCTTTCCTAGGAAGCACTTCTAAGCAACATTCCCAAGTAGTTACAAAGCTTCCTAG
GGGAAGGTTGTGGGGGTGGGGGCGATGGTTGGAAATCATTGCAGCATCTAGAAAACCAAGCAAATAGCCAAAACCAGACGAATTACCGATATTTTAATTC
CACATCTGTGTAGCTGAATTTTGAATTATGTGTAGCCATTAAAGTGATAATGATGATTGCTAGCCTGGATAATGTTTTAATCAGGGAAAAGATAGAAATT
ATATAMTTAGAGTAATTTTTCAACACAATTATACATATTGTATAGATTTGTGTAGAAAGACCTCTCTATGTAAATTTAAAGGTCTTTTTCCTACTTCATT
CTTTTCTGCCTATTTCAAGTTTTCTAATGAGAGGCCAACTTACGCTTTTTTAAAACCAACTTGATTCTCAGTACTTATGTCCCATATATCCTCTGTAGGT
TGTACAAACAGCTTTGTCTGAGACTCAGGACCCTGAAGAAGTGTCAGTAACTGTAAAGGCTTTCATGACTGCAGACCTTCCTAATGAACTCATTGAACTG
CTGGAGAAAATTGTCCTTGATAACTCTGTATTCAGTGAACACAGGTATGCTTTCAGAGGGATCCATTGGCTATTTATAGTCAGTCTTTAATAAATTATGG
CCCATCAGTTTTGGGAAGGAACAAAAAGATCAGAGRAAGTTGCCTGAATTCTCACTCTTCTAATATCCTCCCCCCTACCCTACCTCTTGAGACAAAAACC
TCTCCGTTAGTCACAGTGGTTATTTTTTATGTCGGATAAACTTAAAATATTGCATTTAAAATATTCTTTTTTTTCTTAAAGGAATCTGCAAAACCTCCTT
ATCCTCACTGCAATTAAGGCTGACCGTACACGTGTTATGGAGTATATTAACCGCCTGGATAATTATGATGCCCCAGATATTGCCAATATCGCCATCAGCA
ATGAGCTGTTTGAAGAAGCATTTGCCATTTTCCGGAAATTTGATGTCAATACTTCAGCAGTTCAGGTAAATCTTCAGATTACCTAAGTTGAATTACTAAA
CACTGTGCTATGAGGGTGGGCCTAATTGGTTGCTACGGCAATAGAGCAGCAATAAAATACTAACAGCTTAAATGTAATTGCTTTGGGTAGGATTGATTTT
ACTCTAACCCTAATTTCAAACTTGGATACTTAGGTCTTAATTGAGCATATTGGAAACTTGGATCGGGCATATGAGTTTGCTGAACGTTGCAATGAACCTG
CGGTCTGGAGTCAACTTGCAAAAGCCCAGTTGCAGAAAGGAATGGTGAAAGAAGCCATTGATTCTTATATCAAAGCAGATGATCCTTCCTCCTACATGGA
AGTTGTTCAGGCTGCCAATACTAGTGGTATGACTTCTTACCTTATGTATTGAAACCTCATAAAATGATTAAGCTAAGCATTAAGATATCTGTCTATTCTG
AATTTTAGAAGAGTTGGATACTGCATGGTTTCTTTTAGTGCTCCATCTTAGTCCAGATAAAAAGAGGCTGTATTTTGTGAATTTGTAAGTTCACAAAACT
TACAAGTGGGGAAGATGAATCTTCTGTTTTTGAAGTCTCATAAAATCCTGATAGTGCTCTAATCTTAAAACTTTAAGGAAAAAGAATTCATCTATTCATT
TGGTCCGTGATAATACAGAAGTGAAATATTGCACGGTTTACATTTGTCATTATCCATGTTTCCTTGAAAAGGAAATGAATGCAATTTTCATTTACTTGGG
TGAAAGATAAACTAGGATGTTAGTGTTTGGATATATTTTTTCTTTTTCTATACTTAGGAAACTGGGAAGAACTGGTGAAGTACTTGCAGATGGCCCGTAA
GAAGGCTCGAGAGTCCTATGTGGAGACAGAACTGATATTCGCACTGGCTAAAACAAACCGCCTTGCAGAGTTAGAAGAATTTATCAATGGACCAAATAAT
GCTCATATCCAACAAGTGGGTTTCCTTTTCAGATTTAAGAAAAACTAGTTGGGCTACTTGATTAGCTTGGTAGGATCAAAACATCATAACTGAAGAATTC
CAAGGAAAAATCTATAGGAAAACAAATTCTTTCTCATTGTGAAGATATCAATTTGAAAAGAGGATTAAGCTCACACTMATATCTTGCTGAATGTGGGTTA
CCTTTTTTTTTCCAGGTTGGTGACCGTTGTTATGATGAAAAAATGTATGATGCTGCTAAGTTGTTGTACAATAATGTTTCCAATTTTGGACGTTTGGCAT
CTACCCTGGTTCACCTGGGTGAATATCAGGCAGCTGTTGATGGGGCTAGGAAAGCTAACAGTACTCGAACATGGAAAGAGGTAATCTAAACCCAAGTTTG
AGTGAAGAATTAAAGAAACGCTATTTAAACATTAGTTTAAATAACTAGCCATGTTTTACATTTGAGTTCACAGAAAGGAAATGTTTATTCTAGGTCTGCT
TCGCCTGTGTAGATGGGAAAGAATTCCGTCTTGCTCAGATGTGTGGACTTCATATTGTTGTACATGCAGATGAATTAGAAGAACTTATCAACTACTATCA
GGTAYTAACGAGACTTTTATATGACCTGAGATCTTTTACCATAGATATTCTTATCTTTAACTGCACATTTCTCTTGTTCAGGATCGTGGCTATTTTGAAG
AGCTGATCACCATGTTGGAAGCAGCACTGGGACTTGAGCGAGCTCACATGGGAATGTTTACTGAATTAGCTATTCTATACTCTAAATTTAAGCCTCAGAA
AATGAGGGAGCACCTGGAGCTGTTCTGGTCTAGAGTGAATATTCCCAAGGTAACCAGTCATTGTAACACAGTGAAGCAACTGTGTAGTTAAAACTAATGC
TTCAAAATATCTTATTCTTTTTAAGGCTGTTAGCTAGACTCATATCTAAAGCAATTAAGTCTTTCTTATGCAGGTGCTAAGAGCTGCAGAACAAGCTCAT
CTTTGGGCAGAACTGGTGTTTTTGTATGACAAGTATGAAGAATATGATAATGCCATAATTACCATGATGAATCATCCAACTGATGCCTGGAAAGAAGGGC
AATTCAAAGATATCATTACCAAGGTGTGTACTTTCTTCAGAAGATAAAGGATTCAGAAGGAGAAAGCTCATTAGGAAGTAACTGACTTATGTATGGATTT
TCCCATTRTAGGTTGCCAATGTGGAACTATACTACAGAGCAATACAGTTCTACTTAGAATTCAAGCCTCTGTTGTTAAATGATTTGCTGATGGTGCTGTC
TCCACGGTTGGATCACACTCGTGCAGTCAATTATTTCAGCAAGGTAAAGTAATAATTTTAAACCAAAGCTTCATAGCAAGGAATTAGGACATACTTCGAT
AACTTTTGTCCCTGGGACTTCAATAATGTGCTATATTTGTAACAAACTCTTTATTTTAAAGGTTAAACAGCTAYCACTGGTGAAACCGTATTTGCGTTCA
GTTCAGAACCATAACAACAAATCTGTGAATGAATCATTGAACAATCTTTTTATTACAGAAGAAGATTATCAGGTAAAACCTTTTGATTCTTGCACATAAT
CTCAAGACTCATAAAGTTATGTTTTCCCATTTTTTAAAAAAGCCATTATCCTTTAGGATTGTAAACAGTAGGTGCTTGCATACCTAGGATCTAAATTTAG
TAAGATTTCAGGATTGATAAATCTTCTAATTAAGTGCCAAGTTTTCAGAATTTTGCTCAGATCTTGTATAAGATACTGCTTTTGAAAAAAATGATATGAT
TACTTTATCTCTAACATCTAGATTGTAGGTAGAGTCAAAAATGTCTTTGACCACTTAACTAATTCATAAAATTTATTTGGTATTAACTATATTTATTCAC
CATTTTTCTTGCCTACTGTTTTATTAGTGTTTGTATAAACTTTCTCTTATGAAGGATTTCACAAGCAAAAGTGAAGTAGAGTTAAGCTTAAGCTACTTGC
CTTTTTTTCTCTCTCTTCATTTTCTTTGAGGCTCAGCGCATGCAGATCTGTACTGCTGCCATGCTGAGTTTTATCAGAAGTTTCTCTAGAGCACAGAATC
TTGCCCTCCATGCCAGGCGTGGTGACTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTG
GCTAACACAATGAAACCCCGTCTCTACTAAAATACCAAAAAAATTAGCCGGTTGTGGTGGCACGTGCCTGTAGTAGCAGCTACTCGGGAGGCTGAGGCCG
GAGAATCGCTTGAACCCTAGAGGCAGGTTGCAGTGAGCCCAGATTGCATCACCACTGCACTCCAGCCTGGGCAACAGAGGGAGACTCYATCTCAAAAAAA
AARAAAAAAATCTTGCCCTCCAAATTAGAAATATTGTCCATTTCATAGCCATATGTTAGTCCTTGATAGTGAAAATCTTGGAGAAAATGGTATCTTTAGG
TAAAATGAAAAATCATACCTTTTGATGCTTGAATCTAGGTGTCATATTACATGTTACCATCTAAGGGGCTCATTGATTGAGAACGGAATATAATGTTAAA
CAAAATACTGATCTGGCATTTGGATGGCTTTTTTTTTTTAAGGCTCTGCGAACATCAATAGATGCTTATGACAACTTTGACAATATCTCGCTTGCTCAGC
GTTTGGAAAAACATGAACTCATTGAGTTCAGGAGAATTGCTGCTTATCTCTTCAAAGGCAACAATCGCTGGAAACAGAGTGTAGAGCTGTGCAAGAAAGA
CAGCCTTTACAAGGTTGATAAAGTTGCGGGGCAGGGGCTGTTTTAAACCAGGCCTAAAATGGTGTTACAAGTGATTATAATCTATAAATAAAAGTATTGG
TTTTGTGAATATGAGAGCTGACTTTAAGGCAATTTAAGTTAATGGATTTCTTGATTCTAGGGGCTCTCTTATGTTAAGGTCAAACTTGTCTGGGGAAAAA
AAAGCTTTTAGCTTATCTCTTCTTTGAAAATTTTAATTTAAATGATACAACTAGGAGGCTTTTTTCCCCTTGCAAAACCAGATTTATATTGGAAAGYTTC
CATTGTTTTTCTTGGTTTACTAGTTCAGTATGTGGGGTCTAATGTTTTTGACTTTCACTATTTCTTTGAATAGGATGCAATGCAGTATGCTTCTGAATCT
AAAGATACTGAATTGGCTGAAGAACTCCTGCAGTGGTTTTTGCAGGAAGAAAAAAGAGAGTGCTTTGGAGCTTGTCTGTTTACCTGTTACGATCTTTTAA
GGCCAGATGTCGTCCTAGAAACTGCATGGAGGCACAATATCATGGATTTTGCCATGCCCTATTTCATCCAGGTCATGAAGGAGTACTTGACAAAGGTAAT
GACTCTTCTAAGTGTATTCAGAACTAGTTTCCTTGCATGTAAAATTCTACATGCACATTAATTTTTTTAAATGCTTTTTTCTTTAGTAGAAGTAAGTCAT
TTAGTCGATCATAAAATATTCCTGTTCTTTTGAAAWTTTTTTTTAATAGCTGACAAATGACACTGATTGGAAGGGGAACTCAAATGTAGCTGTTTACCCT
CAGTGTATTTATGAGGGTGAAAATAATCTATGTATTTTTTTATTTAAAAAACTTTGATAAATTTTATTTCAAAATAGTATTTTTCTCAAAATCAGTTCTT
GTRACTCAAATATTCATGACTAGTATTGTAGATTCCCTTTTATTTGGTTGGTTCCTGACTTTAATGATGTCTATGCCTGTTTCCCCTGGGGAAGCTGCAT
GTATATTCTTAACATCCTTTTAATCTTCACAATTTTTTTGATAGTTTAACCCCTGATTTAAAAATACCATAGGAGGTGAACATGGGAAAAAAAAAACAAG
CTGGGGGTCTAATTGCCTTATAACATTCACTATTCGTCTTAGTGTCCTTTTTTGATGTATGAATTTACTCACYCTATCTTCAGCAGTTACTAGCTGTCTC
TCTGTAGAACATTTTTAAATGGTTTTAGWGGATCCTTTTCGTCAAAGCAAAAAACATGATTAAAATCAGAGTCTCACATCTGATTCCTTCAGCCTGCCTG
AGTTGGGGGGATGGGAGGGTGAAGAAGCGCTACCAACAACCCCTCCCATACTGAATTTTTCCTCAGGATACCATTTAATTAGATACCATTGTGTCTGTTT
AAAGTTTTTAAAGAATTAACATTTTCTGTATTCAATGTAAGAGAAAAAACATGTTGCCTTATCTTAGCCATAGATGAGAATAGCTTCTTAAACATAATGC
CAACTTGTGAGACCTGTCTTTAAGCTGCTGTTAACCTAAGTGCTGTAAATTTTTCTAGTGATTAAGCTGCTTTCTTTCATACTGTAGCATAAATTCTTCT
GCAKTAAGCTTTGAAGTTACACAAAATTCTAAATTTTGCTTCCAGTATGCCCTTTATTTTCACTTCTCTCATACCTTTTTAGTGGTTAGATGTTTCTTCC
CTAAACCTTTGTTGCTGATTCTACCTTTTTATGCTCAATATGGAATTGATTTTTTTTCTAAGCTGCACCTTCTGAATTCCTTTGCAGGTTGATGCAATAA
AGGAAAAGGTGAAAGTTGATTCTTTAACATCTTTAAGTCTGGAGGACTAAGTCTAAGGAATTTGCATGATGTTTTTCCTTCCTCTTCTACACTGCTGCTG
CTGCTTTTTCCCCCCAATAAATTTTCACTAAAGCCTCTGCAAGTCCCTTGAAACATAACTTTAATAGAGCTGTAGGACATTAGTAGACGTTTGCTACTAA
TCGGCTAATAGGCTTTAGGAAGGGCAGGAGGCTAATCAGTAGTTGGTTCACAGTCTCTCTTAAATATATTATGAAAAACTGAGTATGGTGAGTTTCCATA
TTAATTTCAAAGTAACAGGAAATTTCTCTTCCCTGTCAGGGTATCTGGACCATAATAGGACTGTCATAATCCTTGAAGTAAATTAAAACAGCCTCTGGTT
TTACTTTGTGAGCTTGCCTGACAGTTGTCGAATTTATATATGTATATATACATGCCCTAAAAGGCTTTTTGGGGTTTTTTTTTTTTTGTATTGAAGGACT
GTGATCCAGTTTCTGATCTCTTGATTCTTACTAATTTTTTGCTGAAAGTAGATACGAGAGATACTAGCTGCTTCCGAAGAGACTTTCCTCATGTTTCTCC
AGGTGTCCAGTTCTTATGGTGCTAGTCCATTTTTAAGAGGAATCAAAACCTTTTTAATCATGAGAGCCAAGCTTGCTATAATTGTTGCTAAGCAACATGA
ATTATTTTTAACAAAGTATTAACTTCTACTTTCTGTAATAAGGCATACCTCTGAAGCTACCTAAAATTTGCTCTCCTATTTATCAGTTGGCTTGTCCAAG
GATGTCAAATTCAGGCACCTTTTGGTTGCTGCTTCCTTCATTGGCTTGTCTCCATCCCAATATAAATGAAACAAACTTACGTCTGTTATCAAATTGTGGT
TAGAAAAGGGTGGGAAGGTAAAGGAGAGTTGAAACAAATTTAAAAGAATTTGGGTGGGGGACAATGCCTTGGGATTATGTTGAACCAAACTGGAATCACC
ACTGGAACTTAGGGCAAACCTGAGTAAAATGCATTGTGTGTGAGACCCTTCAGCAGCTAGTAAGCAAGGCAGTTAGAAAGCGTGTGTGTGAAAAACAGGT
AATTGAACTGCAGTGTTATGCATTGTTTTAAATGAAGCATGTACAACAGTCATTGCAATTACATCATACTATTTTTGAAACTCTTATAGCATTGCTGTGG
GCTGTGTGTGTTTCTTGAGAGCCTGTATAGCAAGTCATCTTCAGACCTCACTTCTTGCTTCAGTACTTTTGCCTTTTTTTCATGCACACATACACCAAAA
TAACTGACTGCATGTTACTTTTCCTCTGCAGCAYATTGCAGTCTTTGTGGAAAAGCCTTTTACATTTTAGTGAATTTTCAGTAGTACAGATGGAACTGAA
TTCATTGACATGCTTACCTGTAATTTTTCTTTTTAAATCCAAGGATCAGAAACTTTAGTTACAGCTCTTAACAAAAGCTTGTGTTCTTAAAAGACTTCTC
TGCTTTTTTTTTGAGCAATCTAAATTGGATCAGTGGAAACAAAAATTGAAAGTCCCTGTGCCAGAGGCTGTCCCATTATATAGAAGAATCAAACTTTTTG
CTTAGCTTGATGCTATTCCTTCAGAATTCTTCCCCCTACGCCCAAACTTCCTATGTGTATGCCAGGGCATTGTGATATTGCCAGCTCTTCTAAGTCTTCC
ATGTGTTTCTCTAATAGGACTTCTGTGTTCAACATCTGATTCAGACCTTAACTTTTAAACACATGTTCACTTCAGATTCTTTTCCCTGGAAGTCCGGAAA
TGTATTATGCAGTGGTGGCTTTTTGGTTGTTTCATTTTTCTTCTTTTTTCTTAGAAGTTACTAATATACAGGCATCCATGTATTTTTCTTTATAACTTCT
GTAGCTCTTTCTTGAATACTGGTTAGTTAGCAAAACCCCATCTGATCCTTGATGGCACAGAGCTGTGCTTTAAGTTCTATAACTAATAATTTTTGTTCTA
AGTGTGGATGCCAAAAAATGGACATTTCATATGGTACTTATACTACATAATAGTCTTTAATTTGATATTAGGGTAATTTGTAACACATCATTTAGACTAT
AAAGTAGGATAATAGTGTATAAAAGTAAACTAATCCATCTTCCTAGGCTAGAAATTAAACCACATTTCATCTGAAGGAGCCTACTTAGGCTTACTTTTCT
CAAACTTTCAGTTCCCTAACAAATTAAGATGGATTAGACTCATATTTATGGTATTTAATATGAAACAATTAAATATAAAACAGTGCCCTAACCTTAATGG
CCTATGTGAAGACTGAAAGATACTTTTTTAATAGTTTCAAACAGAAATGAGGTGCTGCCTTAATCTTTTTAGGACCTGGTTTTTAGAAACTTTTCCACTG
AAGTCTACAATTTTTTTTTTTGAGTGATTTTTCATAATTTGCCTTTTTGAAGAACATGCAGTGAGCATTCATAAAGTGTTTCCCCCTGCACCTTGGCCCC
CCGTCTCATGCAGCACATTTATGACATTGAAAACCACCAGTAATAGATAACATTGAGATTTGAAATTTAGTTTTACTTAGGTATAATGACAGACCAAGTA
YAAGGCTTTGGTTGAGAGACCAGCTTTTAAATATTGAAAGACAAATATAGTGTAAAAGGCGCAATGGAATTTGTATAGTGAAGGAGATTCTCTAGTCCCA
GGGTTGTAATGTCACTTCTGTCTAATTCATTACAGAATTACAGAATCAAATCATGTTAGCCCTAGAAGAAACTGCAGATCATTTTGTTCAATCTTCTCAT
TATATAGGAAAGGAAATTTGAGGGCCAGTGCAATGGTTTGCCAAGGTCACACAACTAGTTAGTGGAAGGATCCAGGCATTCTAATTCCTTTCTTTCACTA
ATACATTTGGMCTGCTCTACAGAATTACTTCTGTCTGATACTATCCACTTTGAAGAGTAGCTAGCATATAGTAGCCATTTACTTTTGGCTCAATTAAAAG
CAAACATTTTTGGGACAAAATCAGGCTTTCCTGATTACTTCTTAGATAACAGAGCCCACACAGTATTAAAACATGCAGCCTTTCTTTATGCAAAAAGATT
GAATATGGAGCCACTTGAATCTTAAACTTCAGTCTGCAGCTATAACCAATATCATCAGAAGTTATACACAATTGGCAAAAGAATAGCTTATTCTGCCCAA
ATACTTGTCCAGTCACTAGGATCATTTCACTTTTTTGAATACCATTTGCTTTGGGGAGGGAAGTATTGCCAGACCRTGAATTCATTATTACCTCTGATCA
GTTTTAAACTTCATTTGAAAAGTGGTTCCTTCTCGTTTTCTCCCTCCCTCAGGCTGCATCCTAGCATGCCCAGTTTTAGTCTGGCATGAGCTTTTATGGC
ATTTTGAATCCCTCCTTCCTGAGGGTTTATAATGACAGTGCTGAAAACCACCTGGACTGAAGTATGAACATTGCCATTGAATTTGAGGGGGACTGAGAAT
GTTCTTTCTAGTCTGTTTTATTTTGACAGAATTTAACATACTAAGGCTTTTCCACTTTCTGCCATAAACCTAGGTTTATAATACTTTTGGGGTGCTAATT
AACATGATGTGTTTTTCTCCAGGTGGATAAATTAGATGCTTCAGAATCACTGAGAAAAGAAGAAGAACAAGCTACAGAGACACAACCCATTGTTTATGGT
AATCTCTCTCTGTAACCTCAAAAAATTCATTAGACAAATATTTAATTACTTAGAGACTGTGCCTCAAAATAGAATACAACAAGCTTCTAAAGTGCAAAAG
GCTTTCTAAGAAATACTGCTCTCTACTGTCTGATTTTTTTTCTGAGAAGTCATAAAGCAGGTGTTGATATTATTCACTAAAATAATCTTAAATACAAGAA
AACTCAAAAATAGTCATTTAAAATCATAACATGAATCTTTCCTATCATCTGGTCCCTCACGCATTACCTGCTCATAAATTACTGAAAAAGAAATATTGAT
GAATTCCATTTTCAAAAGAGCAAAAGGTGAGAGAACATGCCAAGGCTGTCTTTAGTATGCTTTACATAAAGAATACATCCTCATTTTAAATTCTAACTGG
GGCAGAGAACTGGGTAGAGTTTCCATTTGAGAACTTTCCAGAGAGATAGGATCTTCAAACTCTCAAGTGAATATTTAAGACAATTTCATGTCTTCTTAAA
CCTACATGTCTGAATTACTGCTCCTTTCCATTTCATAGTTGGTGAACAGATTCATTTGAACAATCACTTTGAAGAGTATAGGTAGAAGCACAATAACCAG
GTGAGGGAACATAAAAATATGACCATTATGGCTGGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGAAGGCTGAGGCGGGCGGATCACAAGGTCA
GGAGCTTGAGACCATCCTGGCTAACACAGTGAATCGCCGTGTCTACTAAAAATGCAAAAGATTAGCCGGGCGTGGTGGCACATGCCTGTAGTCCCAGCTA
CTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGGTCGTGCCACTGCAGTCCAGCCTGGGTGACAGAGCAAG
ACTCCGCCTTAAAAAAAAWATATATATATATATATACATATATATATATATAACCATTATATATCAGGCTACTGACACAAATAATAATATATACACTTAT
TATGGTTTTGTCTCCTTTTTACTGTAGATAAAAAGTACTTTAGGAATTTAGAGGACAGGATAGTTTTGATAAAGTGGGTTCTTAGAGATGGGAGCAAGAT
GTTTGACATGTTTGAGATAGGAAACACATCAAGTCCTTAAAGGTGAAAAAGACATAGGAAACACAGTAGGAACAAAAAAAAGATGGGTGTAATACTTTGG
GGTTACCTACTGAATTTGGCTTGCCTTCAGGGTGTTTTCATGGGTAGTTGAAAATTGGGTTGGAATTTCAAGTAGATGTCATTATCAAGATTAGGGATGA
CTTTTTAAAAACTGGTTTCTGTTGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCATGAGGTCAGGAGAT
CAAGACCATCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAGTACAAAAATTGGCTGGGCATGGTGGCATGCAACTGTAGTCCCAGCTACTTGGGA
GGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAAAGGCTGCAGTGAGCCAAAATTGCACCACTGCATTCCCTGGGCGACAGAGCGAGACTCCGTCTC
AAAAAATAATAATAAACTGGTTTCCAATAATAATTTGTTTGCTGAAGACAGCTTTGGTTGTTAACCACAAAAAGCAAAGACATGAAGTCCTTTGTGTAGG
AGAAATCTTGATCTAGGTTTACACTGTAGTGGGATGTTAAAAATACTTTTGTAGGGGTAGAGAGAGGTGTTACTTGTTTTCGCTCTCTAAGCCAAGTTCT
CTACAGGTCATGTTTTCTGTATATGGCCAACAACTATTTAAACTTTATAAGAAAGAGTGTCAACATAGTATTTGATAGAGGGTGTATGTTCTAATGTATT
TCATACCTAAAGAATGTCTGAATRTGTCTTTTTTTTTCCCCCAAGATGGGGTCTCGTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACT
GCAACCTTTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAACCTGCTGAGTAGCTGGGATTATAAGCATGCACCACCACGCCCGGCTAATTTTTTTTGT
ATTTTTAGTAGAGACGGGGTTTCACCATATCGGCCACGCTGGTGTCCAACTCCTGACCTAATGATCCACCCTCCTCGGCCTCCCACGGTGCTGGGATTAC
AGGCGTGAGCCACCGCGCCCGGCCCAAATGTGTCTTATTTTTAATTTAACTGCTGTCTCTAAATTAGTACTGGATCTTCTATAAATGAATTTGGTTTCAT
TGCCATTTAGACATGTTTAAATCAGAAATTTAAATGTAACTCTAAAAGTTATGTTAAAAACATGTCATTTAGACCAAGCATGGTGGCTCACACCTATAAT
CCCAGCACTTTGGGAGGGCAAGATGGGCTGATCACTTGTGGCCAGGAGTTCAATACCAGCCTGGCCAACGTGGCAAAACCCTGTCTCTACTAAAAATACA
AAAATTAGCTGGACATGGTGGCGCACACCCATAATCCCAGCTACTCGGGAGGCTGAGGCACGAGAATCACTTGAACCCAGGAGGCAGAGGTTTCAGTGAG
CCGAGATTACACAACTGCACTCCAGCCTAGGCAACAGAGCCAGATTCTTTTTTTTTTTTTTTTTTTTAAAAAGTCTTTTAAAAAATTCTTTTATTGTGCT
GATTTTATTGTGTCATGAAGTGTAATATGCATGTAGGTATGTGTCAAGTATACAGAGTGTCAGGCATACGGTGTTCAGTCATAAGCAGTTCTGGCCTTTG
GCCCTGCACTGTTTGTTGGCTTTTTAGGTAGGAACCTTCTTAGAGTAAGACTGTCATGCTAAAATTGTAGCAATCAAATGTGCCCCCCATACAACTCATT
TGAGGTTGAGATTATGTTGCTAGAGTGGAGGAGATTGGAGTGTTCTAAATGCTAACAGTTTGTCCTGCCTCCTTGCCCCTGCCCCCTGCTCCTTTTTGTT
TTCTTCTACTGTAGGTCAGCCCCAGTTGATGCTGACAGCAGGACCCAGTGTTGCCGTCCCTCCCCAGGCACCTTTTGGTTATGGTTATACCGCACCACCG
TATGGACAGCCACAGCCTGGCTTTGGGTACAGCATGTGAGATGAAGCGCTGATCCTGTAGTCACCTATTTTCGTACTGAAACATCGTCTTTACCCACTTC
TCAGTTTATAATGGGGGAAAACAGGCAACGTGTTCTTGTAACCTTTATTTCATGAAGGACTTCTTTTTGTTTCTAACTATAAACTTGGATCACCTATGTT
AAAACCTTATTTCACATTCCACATCATTTTAGAATTTATTTTCGAAGGGGAATAGTTTCAATGTTTTATTCACTTGGGCTTTTTTTCTTCCCCCTCTTTC
TTTAAAGAACTGCTCAATATTCAATCTGTTGTGAAGAACCTGATTTGCACTCTGTAGTGTTTAAAGAAACAAAGAAACTCTAATATTGAATCTCTTAAAT
TTAGTGTATGTAAACAGCTTACAAATACGTATTGTCTAAATGCATTTAAATCTGTTTTATTCAAAGAAAAGCTAAAGCAAAAACACTGKCATATGACCAT
GCAAGACTGTCAGTGCCAACAAAGACAACACTAATCAGCACATCGTACACTGGATTGCAGTGCTTCCCAGATTATTGAAAAATGTTACAGACAACTTGCC
TGATTTTTAAATGAGCGTAAAAGGCCCTCTAACCTATGCAGGTTTCCCCATTATGCATATAGAAAATGCTAGTATGTTTTGCTCACTTCATATGTAACAG
GTGCCCTTATGTTGTGCTGTATCCTGTGCTTTTTCTGTGGGACCATTCCATTCAGGAGCAAAGAGCMCCATGATTCCAATCTTGTGTGTGTTTACTAACC
CTTCCCTGAGGTTTGTGTATGTTGGATATTGTGGTGTTTTAGATCMCTGAGTGTACAGAAGAGAGAAATTCAAACAAAATATTGCTGTTCTTCAGTTTTG
TTTGTGGAATTTGAAATTACTCAAATTTAAAATAAATTACTGGACTGTGGAAATAACATAGAATTGAAGTTTTAATTAAATACCACTCAAACGAAAAGAA
CAGTAGTTTTTGTAGTTTTATATTGGATACTGAGGCATTAGGGAGGCATGAAAGGAAGAGGAATGAGGATTGAGACATGTGAAGACATTGTGCATTATAT
CAATGTGCATTCCTGTAGTTCATTAACAAGGTACATGCAATAGTCTAAARAACCAGAGTCACTACTATAGTGGCTTAACATTTAATCTGTCTCCAATATT
TTAACCAAGTGACACCGAGGTTTTTATCGAAGCATTTCACTTAAATGAACAAATCATGGCTGTTATATTAACTTGAAATAAAATATATTTAAACATGTAG
TTAACATGCTCTTTCTCATCATGAATTATAAAGGTGCCCAAATTATGGGTATCTTGATTTTTTTCAAAAATTGGTTGTGTGAATCCAGCTCTTGCTTATG
GCTGAGAATGTTCCTAAAGTTCATTTCACTATCCCTTAATCCTCAATAGCTACACATACCCCCTTGCCTAGTTAGTCTTGCACTGCTTTACAACTCTCTT
AGGCAAATTACCTAACATAAGCTCCACAGAAGAGTTTTTTAAAACTTAAAATCCCTGTCCCACCAGGTGTGGTGGCTCATGCCTGTAATCCCAGCACTTT
GGGAGGCTGAGGCAGGCGGATTGCTTGAGGCCAGGAGTTYGAGACAAGCCTGACCAACATGGTGACTCCATCTCTACTAAAAATAAAAAATCAGCCAGGT
GTGATGGTGGATGCCTATAAGATCCTAGCTGCTACTCAGGAGGCAGGAGGCTGAGGCATGAGAATCACTTGAACCTGTGAGGCAAAGGTTGTAGTGAGCC
AAGATCACGTCACTGCACTCCATCCTGGGTGACAGAATGAGACTCTTGTCTCAAAAAACAAAAAAACCTATTTAGTTTCATCCAGGACATTAAGTGAAAG
TGTTTAATGTGAGTGCAGGTCAGTGAAGAATACAATGGTGCCCCTGCTTTGATTTGTGGGAGGTGCCATCAGTTTTCCCCACCACTGCTTTTGCACCCTC
AGTGCAAATATCAACACAGAGAAAAAAAAAAWTAATAGTATTATGAAAACATTGACTCTGTGGAGACCCTGTGGGTTCTGCAGAGTATACTTTGAAAACT
ATAAGATTATGAGTTCTATAAAATACCAAGTACAGATGAACTAGAAAACAAGCATATATCCACAATTACCAGAATTTTCATAGTATTCCTTTTAGTAGAT
ATGCCATGACAGTTACTTAGCCACCCCATGCCATCCTGTTGGGAATGCCACTACCTTTGAATTTGGAGCCATCAGTCTATCTGAGGCAAACCTCAGAAAT
TACCTGAGCCAGAATCATGCACTTAGCACTGAGTTCAACTCAGTCTTAACGTTGCATTTTGTTGCATCACTTTTGCAGCCAGTAAACATTCTGTTTAGAA
ATAGTTGCTATTGTGGCATCATTCACAGTTGCAATTTTTCTCCTGTGCTGTCATATGCCTGTGCGAAGTGTATTAAATGAATCAAATATTAGAAATTTCA
AGGCTGTCTTTAGTGTTCTGCCCACAATACTCCACCAATGACCTTAGACCTTGAGATGGTGCTATAACGCTGCTTATATTGCAGTTAACCATAGAGAGGT
GGAGCCACTTAAAATGGGCCTATTACCAAAATTCTCCCTGGCATCATTACAGTTCTTGGGGATACACTGATTTTAGAAATTACTGTCAGTATCCTCCTAA
AAGAAGGCTTAAATAGTTTCTAACAAGATGACTATCAGGAAGCTATGTGGCTTGGGGAGTTGGGACCCTCTGCCTCATATTCTGGGTAACTGGTATAACA
TAGTAATTATTAGGATTGTATCAAGTGTATCTAAAGATCAAAAGGGAAAAAAGGCACCCTTAATTGTCAAAGTTAGTTCTAGGAAAAAATACTAGCAGGG
ATGACAAACTACGTTCACTTTACAGTTACCATAAATTCTTACTTGGGCCCACCCATTTCCATCTGTTAAGGTCCATAAGGTTACTCAAGTTTCAGTGGCT
TCATTGTTACAAGAAAGGGGGGAAGTGAGAAACTTTAATAGGCTGTGATTTAGAACCACTGCTGATTAACCTTTGGCCAGTATGGGTCAGGGAAGGTGAA
CATGAAACACTGCACAGTAGGTTGTATCAATGCTATAAAACTCAACCTGGAGACAAAATTTAAACAGGTTATAAACCATGGGACTCCATTGAGGGTGGCT
GTATCAGTCACCCAAAAAGTGACAGCAGGGGAACAAACTGCAGCTTGCCTCTAGTGGGAATACCCTTGAACCTCGACCTCCAGGGGGACAGCAGCATAGT
CTTGGGGAAGGGCTACCAACACAAAGGGACCTAACCATGTATAGGGAAATGCTGTTTCCTCCATTTTAATCCAATTGTATCATGACCTGTTTCTCTCATC
TTAAATATCTGTTTCAGCCTCTCACTTGAACCACCAAGACCATTTAACCAACAGTACTGTTTTTAAGCCCAAGATGACAACTGCCAACCATAGAACATGG
GAATAGGTTTTATTTTCATCTCAAGAACATTTAAGTTGGGTGAAGAAATTCAGCTTTTGTTGTTAGAATCTGACAGGCTTCAAACACTTGTGATGGAGGG
GTTGTTGTCATATCAAAGTCCACCTAGTAAAGTTTTAGGTGACCAGTGACTTTGTCAATTAGGTCTGCTGGTCCTGGCCCAATCCCTAGGACAGTTTGAG
AGCCTGGTGCAATCTGAGTACGTCCAGCATCTTGAATTAAACTTACAGTCAGTCCCAGCATTTTTGCATGGGCCAATAATGCAATCAGGGTTTCTTMATC
AGGAGCTTTGACCACCACCTTGGGCTGGCCACAGTATTCCCATTGTTTGAGCATTTCAGGATTTCTTCTTTGAATCTGCTTGTAGGCTGAAACAGCAGCA
TGAGAGCACTGGGCAGCCACTTTCCCTTTTCCCATCTTTAAGTCATTTCGAACCACAAGAATCATCTTGTACTCCCCGCTGTCTCCCAAGATGCTTGCTT
CACTTTCAGTATCTGTGTGTGTCTTGCTCGTCTTGCTTTTGGGGAGCATCCCAAAGCATACTCGAAGGCTCCAGCCCAGGCACATGCCACAAGCAACTCC
AACAGCCAAGCCGAGTGTACTGGGATGAGCCAAATATTCCATAACCAAGGATTTGGAGGGCATCTTAAAGGAAAGGMAAACAGTTATCACTATCCGGCAG
TAACAACTTACAGAGGTATAGGCTTATCAGAGAAACATTTTGACTATACACTTAATGGTCATCCAGAAAAAAGGCAAAACACACCTTTGATCTTATGCCT
GCACCCTGTTTCCAACACCCTCTTGCCCACCACCAGTGTACTAGAAAAGATTCAAGCATCCACATGAAACAGTTTAGGTCATTTTGAATCTTGATGTAAA
CGAAGTTGCATAAAGTTCAAAAACTCTATTCCTCAGTCTTCCCTTAGTCTTGTGGAGATGTTCCGTTTTACCAAGATGCCTAAGATTTAAAGAAACCAAA
AATAACCCTTTCCTGGAATACAGTGCTAATCGGTGTTTTCACAATGCAGTGGTTCTCAGTGGAGATGGTATCAAATCAGTTACCCTCAGAAGAACCTCAC
TGTCACATTAATGGGCCTGGAGTGAGGTGCACTACTGAAATTTACTAAGCCTGAGCAAGGATGCTAAAAACCTTACAAAATGAAGAGTTGTCCCATTGGA
CGTGAGTGCAGCTGAAAAACTTAATAACTGAGATGAGAACTCAACATCATTTTACTTAAGAACACAAAATATTTTTTGCATAGTTTTACTATGTACAGGT
GCTCCTCAATTTTCCATGGGGTTATATCCCAATTAACCCAATTAATTGAAAATACTGTAAGCCAAAAATGCATTTAATACACCTACAGAATATCATGACT
TAGCCTAGCCTACCTTAAATGTGCTCAGAACACTTACATTAGCCTACAGTTGGACAAAAATCATCTAACACGAGGCTCTTTTATAATAGTGTTGAATATC
TCCTGTAATTTATTGAATACTGTAAGTGGAAAACAATGGTTGTATGGGTACTCACCATTAATTTACACAGCTGAAAGCACAGTGGTCCTGAAAAATGTTT
GAAGCACTGAAATAGAATTAATTGCTGGATGATGGGGATGCAACAGGGTCCTCAATTTCTCTCTCTTCTGATGAACATCGAGAATAGGTGGTAGAAGGCA
TTGGGACATCAACACTAGTTGATGGTTTAGCAAGCATAGTGTTGTTCTTCAGGAAGATACCAAGTTTTGACCGTACAGCTTGTTTCTTCTTTTCACTATA
TATTTCTCTGTAGCAAGCAAGAGCATCCTGTATCTGCGCCTGTCAACTGTGGCGAATCTCTCGTAATTGACGTCCATTTCTTCTAACGTGTAGGCCACTG
CTGATAGCAGCAAATGCCTCTGCCAGTTTCTTTGCTGTGAACTTTCTAGGTGCCGTGGGTGTAACTTCTTCCACTGCCTCAACGCCTTTACCTCTTTCTT
CCTCCAGTGCAATCAGCTCCTTATTGCAAAGATCTTTAGCCATAATTATCCTATGCAGCTGTTCCTTAAAAGCTATGGCACCTTCATTACCAGCACGTGC
TGCCTCACCAGTGATCTTTACATTGTGAAAATTATGACGCCTTTTGAAGCGCTGGAACCATCCATGACTTGCTTTAAACATTTGTGTATATGTAGGATCA
CTGGCACGGTCTTTTAGCATATTAAAAAGACTTCTTGCCTTAGCCTGGATCATCAGTAGGCTAAGTGGTATACGCTTCTGTATCTGGTCTTCCATCCACA
TAACAAGTAATTTTTCCATATCATCAATTGGTCCAGCCCTTTTCTTTGTGATGACAGTGGATTTAACTGATGCTGACGATTTCGCTGCATCACTGATTTG
CTTCTTATCCCTTAAGATGGTTGAAATCGTGGATTGCCAAAGTCCTAACTCACGTGCAATGGCCATTACTGGCTTGCCACCTTCATGCTGGGCAATTATC
TTGAGTTTCATTTCAAGAGTAATTGCCTTCCTCTTCTTCATCTCACCAGAAACAGGAGACACTGATGGACATTTTGTAGACATGATGGAATGTGAAAACA
CAAAACACAATATCCAAAAAAGCTGACAACACAGTACACGGTAGAGGATGGGTTGTTGATTCCCGTGATCACATGGGTGACTGGGAGCTGTGGCTCGCTG
CCGCTGCCCAGCATCACAAGAGTGTACTGTACCACATTATCACTAGGCCAGGAAAAGATCAAAATGCAAAACTCGAAGTACAGTTTCTACTGAATGGGTG
TCTCTTTCACACCATCCTAAAGTTGAAAAATCCTAAGTCGGAGACTGTCCATACTGAATTTTCCAGAAGTGTAGCTATCATAAAACAAAGGAATGTCATC
CTTTATTATTTTAGAAAATCTTGCTACTTCGGCAAAGCTGTTCATAATATTTGAGTCACCAATAAGACACTTATATCAGTCTACAAATGAGGCTGCTGGA
TTCACAGTGCTTCTATGTGGCAAGCAACTATCAGTTTCTTTTTCTAGTGGAGTATTATCTAAGCATTTATAAACATGGGGCCACTATATTTGTAATGCAC
TGTATTTGTAATGTAAAGTGGTGCCCTTGGAATTGTGCACTGCATGATTGGCACGGCATAGATGACAGCCCTGGAAGTACTTATAAATTTCCTTTATGTT
CTTCTTTAAAGTTAGGGCATTATATTAACATTCTTTCCACTAATTTTAACATAAAAGGGGTTACTGTCTTTGGTGGGGCAGAAATTCGTTTGAGGTGGGG
TCAAGAGATAGAGCAAAAAGAAAAAGCAATGGATATAAGGCGACACAGAGGAAAGCAATTTTTTTTTTCTCCTAAGAAGAAAGGATAAGCATATTTAAAT
GTTAATAGGATGAAGCCAGAAGAAAGGCAGGTAAATGCTCAAGATAGAGAAAGACTTTATAAAGGGATGTGGTTTTGGAAAGGAAAAGGGACACCTTTCC
CAATTTCAGTTTTAAATCAAGTAGGTCCACGGATTTGAAGGCAGGAAAGTATTCCCCCTGAGGGAAGGAGCTCAGACAGAAGTTAAAATGGAGTAGAGAA
GAGAAAGGCGGAAATAAAAGGTGTGGCAAAATATGGCAGGATTGCAGAGGAATATTGAAAGCATGGTTAAGATTAATGATGACTTTTTAATGGCAACATA
CTATTTGTGATTTTCTCCAGTAGTACTTAGAAGCCAAAAGACTAAAACTACTAATCACTTCCTCCAGACATACAAACTAACCTCCATCCACACTCATCCT
TTGCTCTCCCCTCCTACTGAAATGGTAGTTGGATGTATCCAAGTTTAAATTATGCCAGGAGCACGCCCCAAGACACAGTGGTACAAGGGAATTTAGGATA
AGGGTAAGAATGTTTGACATGATAGACCATGCAACCTGTGTTATTACATTTTTCTCTTTTGGCCTACCTGATAAAAAGCAACCTGTATTATCAAAGACTG
ATTTATGGACAATAAAGTGATGCATGCTATTTATCTAGACATGCTGTTGAAGAACAGGTGTAATGAAAGTAAACTGGAAAGACTTAGAGCGATGCATAGG
GTTTTGATTTTGGAGACGAACAATTACAAAGAACATAGCTATAGGAATGGGTATCTGAAATAGAAGTGTGACTACTTTCTACTTTTTCAATTCTTTTAGT
TTTATGATATACTGCTTCCCTTCCACAAATACTGATTGACCCTGTTCTAGAATCTAAGGGATACAGGAGTGCACAAAGCAGAAAAAGTCCTTTCTCTAAT
GAAGCTTACATTTTAGCAATGGTTTTGAAATGGTCCAATCCTAATTTTGAATTTCTTTCATGCTGTTTTAAAACTTTGGGGTTTTTTTGTTTGTTTGTTT
GTCTATTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTAGCATGCAGTGGCGCGATCTCAGCTCACTGCCAGCTCCGCCTCCCGGGTTCATGCCATTCTC
CTGCCTCAGCCTCCCTACAGGCACCCACCATCACACCCGGCTAATTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCA
GGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCTCGGCCAAAACTTTGTCT
TTATAGCTCAAAATTTCCACAATACTTTGACATGTATTGTTATTTGATCCACTGAGAAGTGAGGATTACTGCCATATCAAAAATGAAGAAATTCAGACCA
AGAGAAGTTAAGTTCAATAAAACAAATGTTTACTGGCTATCTATGTGCCAGCCATACACCCTGTTAAGCTGAGGATATAGTGATGAATATGGGCCACTGT
CAGCTGTTCATAGATAAGTAGTGAAGACAAATAATTGCAAGACTGGTAAATGTTATAAAAAGGTGTTTGACAGTCCCATCGGGGGTGAGATGGGAGGCAG
TAACAGATCATCAGACATTAGATTCTCATAAGAAGTACACAACACAGATCCCTCGCATG


SNP Information

Context             (SEQ ID NO:22716):
GGAAGATTTTAAACCCCGTTTCAGGCCCCCTCCCTAGGCTGTAGGAAACCACCCACTCTGAAGCCCGGCGGGGGAGGAGTGCTGCAGCCAGCTGCCGAGG
R
AGCGCTCTGCGGCGAGGCCGTTTCCCTGAGTCACGGAGAGGGCGGGAGGCTGCGCCCGTCTGCCCCCGCCACGTCCTCCTGTGAGGGGCTCAGTCGAAAC
Celera SNP ID:            hCV27845434
SNP Position Genomic:     5437
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,38)   total(A,2|G,72)   
SNP Type:                 hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 hmCS


Context             (SEQ ID NO:22717):
ACACAATATTTATCAGTTCAGTTTGCTGTCTTATGTGGGTGCAATTCATCACACCCCAAAATAATAGTTACATCAAAGATGACTGGCCACAGATCAACAT
R
ACAGATACAATAATGAAAAGGTTTGAAATATTGTGAGAATTAATGAAAACGTGACACAGAGACACTGAAGAGAGCACATGCTGTTGGAAAATAGTGCCAA
Celera SNP ID:            hCV26023469
SNP Position Genomic:     41506
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22718):
TACTTCCTTTAAATAAGCCTTGAGGATGGAGGTCGGACCTATAGAAGTAAAATCTTGGAGGTTGAAATTTCTTCATTTTCCCTGAAAGGAGTAGTAGAAT
Y
GGCAGGGCAGACTGTTACCTATCTATCTATTTGGTTCACTGAGTTCTCAAGTATTTTTCAATTCTTACTGATTTGGGGACAGAAATTTCCTATATTCATT
Celera SNP ID:            hCV1550801
SNP Position Genomic:     45059
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22719):
ACTGTCAAAAGAAGTGATTCCCCATGCAAAGAAACAATTTAGGGTCATATTTGACAGACTATTTTTTTAAGGAATTTTCTGTTATCTCCAAGGCAGAGCA
R
TTATCAACTACAGGGAAAAGAATTCTACCTACATCCCTTTTCCTAGCTCCTTAATTAAGCATTACTATTACATGTTAGAAGGTGATATGTTTCAGTACCT
Celera SNP ID:            hCV1550802
SNP Position Genomic:     42531
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22720):
CAGGCACATGCCACAAGCAACTCCAACAGCCAAGCCGAGTGTACTGGGATGAGCCAAATATTCCATAACCAAGGATTTGGAGGGCATCTTAAAGGAAAGG
M
AAACAGTTATCACTATCCGGCAGTAACAACTTACAGAGGTATAGGCTTATCAGAGAAACATTTTGACTATACACTTAATGGTCATCCAGAAAAAAGGCAA
Celera SNP ID:            hCV25926599
SNP Position Genomic:     84077
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,40)   total(A,77|C,1)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,40)   total(A,77|C,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22721):
AAAGGGACAAGTAAGGAAACCTTGAAACTTAAGCAATAAAATAAGATAACCTGATGAGTTGGGAACAATCCTGTCCTTTTGAGAAATTACTCCCCAAGAT
W
AAAAAATAGAAAATAAACATATTACTGTTAGTTTTTTTCCAAAAAGTAAATAGTAACTTTGGATATTAGAAAATAATATATATCAAAGCACGATGTAAGC
Celera SNP ID:            hCV1550803
SNP Position Genomic:     42212
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22722):
TATAGCTGTCATAGGAGATCTGTTAACTTGGTTGATCATTTTTTTGGCATGTTTATAATTACAGCTATGTGGTTTGACTTTATATGTTTTTATATAAACT
R
TGTACTAAGTCTCCTGTTTAGGTGTGATACCTGTGTATTTAACAACTAATTCTGTACTGATCAATCATGTGGTGTTTCCAACCTGAGAAAGCTGATTAAA
Celera SNP ID:            hCV28954500
SNP Position Genomic:     61214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22723):
TTATAAAGAAAGGACACTGTATGAATCTCTAATCTTTTATTCAGATATAAGGAGGTAAGTATATCATATAGCAGATAAACCTGGGAGAGTGAAAAATAGC
Y
TTATATACCTTCTTTTTATTCTTGGACAACTCAATCATATTTTGAGTCTTAATTTCCCAATTTATAATAGGATCACTGATAATTAAAATTAATGTAAAGC
Celera SNP ID:            hCV28954501
SNP Position Genomic:     62674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22724):
TTTTTGTTTTTTTTTGTTTTTTTTTTGTTTGTTTGTTTGTTTTTGAGACGGAGTTTTACTCTTGTCACCCAGGCTGGAGTGCAATGGCACGATCTTGGCT
Y
ACTGCAATCTCCACCCCCCAGGTTCAAGCGATTCTCTTGCCTCAGCCTCCCGAGTTGCTGGAATTACAGGTGCCTGCCACCACAACCAGCTAGTTTTTTT
Celera SNP ID:            hCV11420863
SNP Position Genomic:     30717
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22725):
TAGTTACATAAATTCAAAAGTAGAATCGTTTTATTTCTCTTTGGCCTGCAAAACATTATCTCAATATGGCAAGTACCTAGAGTTTGACTTTGTCTGTGGT
M
GGTTTCTTAGATGTGAGAAAATGAGACTGGGATTACATTTGTAAGCCACTGCACCAGTGCACTTTCTGCATATCAGCAAGAAAGCTGTTAGGTTTTCTTA
Celera SNP ID:            hCV1550804
SNP Position Genomic:     41013
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,6)   total(A,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22726):
AGGCTGGAGTGCAGTGGCACCATCTCGGCTCACTGCAACCTCCGCCTCCGGGGTCAAGCAATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGG
Y
GCACACTGCCATGCCTGGCTAATTTCTTCCGTATTTAGTAGAGACAGGGTTTCACTGTTTTGCCCAGGGTGGTCTCGAACTCCTGAGCTCAGGCAATCCA
Celera SNP ID:            hCV1550805
SNP Position Genomic:     40718
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22727):
TGAACACAGGTATGCTTTCAGAGGGATCCATTGGCTATTTATAGTCAGTCTTTAATAAATTATGGCCCATCAGTTTTGGGAAGGAACAAAAAGATCAGAG
R
AAGTTGCCTGAATTCTCACTCTTCTAATATCCTCCCCCCTACCCTACCTCTTGAGACAAAAACCTCTCCGTTAGTCACAGTGGTTATTTTTTATGTCGGA
Celera SNP ID:            hCV28954502
SNP Position Genomic:     67236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22728):
CTCCTGGATTCAAGCGATTCTCATGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGT
Y
GGGGTTTCGCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAAATGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATCACAGGCGTGAGCCAC
Celera SNP ID:            hCV1550806
SNP Position Genomic:     40055
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22729):
TGAGATTATTTACTTTTCTCTTGCCTGGCTTATGTGCAGCATTGGATATTTTAAACCAAAATGTTCTCATTTAGTTTATGGGATGTTTGTGATTAGAGAG
R
CAACTCAAATTAGGTATATACATTCATTCTGTTTTAGTGTATATGTATAGGTAGAGAAGAATTTAACAACTTAGGTTTCTATTTGGAAATACTAAATTAA
Celera SNP ID:            hCV1550807
SNP Position Genomic:     36369
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22730):
CACACCATCCCTAGCTCCTGGCAACCACTAATTTATTCTCCATCTCTATAATTTTGTCACTTTAGAAATGTTACATAAATGGAATCATACAGTATGTGAC
Y
TTTTAAGATTGGCTTCTTTTTTTTCACTCACCATAATGTTCATGAAAGTTTGTTCCTTTTTATTACCAAGTATTCCATGGTATGGATGTAACCAAAACCA
Celera SNP ID:            hCV11627817
SNP Position Genomic:     37077
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,8)   total(C,8|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22731):
TGGTGGCTTACGCCTGTAATCCCACTACTTTGGGAGGCTGAGGCAAAAGGATCACTTGATGCAAAGAGTTTGAGACCAGCCTAGGCAACACAGCGAGACC
Y
TATTAAATAAATACACAATATTTTTTAAAAAGATAAGGGAGGGTGAGAACAGCCAAGGTAACTGAGTTGACCTACGTAACAGGGTGAAAGCTTTTTAGGT
Celera SNP ID:            hCV8730965
SNP Position Genomic:     48991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22732):
TGGAAAATGAGCAGTGGTCAGGGTCCCAGCCAACAACTATTCCACAGAACTCTGAGGACACTTCTGGATCCATGATTGCATTTCTGGATGCTTGGAAATT
Y
GATTTGACTACTATTTCCACTACCAGAGTAGCATCTCTGAAATCCTAATACTTTTGTGTTCCTAGCTCCCTGTTCAAAGTCTAGTTTTAGGCAAGATCAG
Celera SNP ID:            hCV11627818
SNP Position Genomic:     35423
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22733):
TAGGACTGTTTTTATATTATTAATTCTAAGTCCTTGTTTCTTGACCCAGTTTCTGGCAATCTTGTAAGATACCAGAGAATACTACATCAGATTTGGGATA
Y
TTGGACAGGAGTCTCTGATGAAGAATAGCCACACTAGCGAGTATTTGAGGTCCATCCTAATTGATTAAGATAAGGCAGGGCTGAGTTTGGTGGCTTACGC
Celera SNP ID:            hCV8730966
SNP Position Genomic:     48803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22734):
TCAATCCAAGTTTAGTTGCTGTGGTTGCTTTTGTTAAAGTGGGGTGGCAAATGAATGTGGAGAGTTGAGGGGTGCTGTTCTTAAGTGTGAGGGGAAAACG
S
GGGCTTATTTTCATATTAAACTGCATCTGAAATATCTTTCTGCAGACAAATGTTTATAAACCACACAGAGAATCAAGTACAGCTGCTCTTTATTTTCCAC
Celera SNP ID:            hCV120818
SNP Position Genomic:     7976
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22735):
TTAAATAATTTATTCCTATTAATTTGCTTTCTTCCCAAATATCCCCTTAAAGAAACCTGCCTCAGCTCAGTCGTCTGAAGGGCTAATTCCATAATGACAG
R
GAATGCAGTGGTTTGACATGACACTGATATCAGTGACCTATTAGACACTTTACCATTGAAGACCATTTTTATTTACATTTCCCCATTGGCATAGCATACA
Celera SNP ID:            hCV120819
SNP Position Genomic:     7483
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22736):
GCATTCACATTAAATCTTCACACCTCTGAGATAGATACTGTCATCTCAAATGTTTCATATGAGAAAACATAAACACAGCCTGTGTTCTCTAGATCAGTGG
W
CCACAACCTTTTTGGCACCAGGGACCAGTTTTGTGGAAGAAAATTTTTCCACTGGTTGGGGGTGGGAGTGGGGGTGGGATGGTCTCAGATGAAATTGTTT
Celera SNP ID:            hCV28954507
SNP Position Genomic:     24590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22737):
GGTCCTTTACAGACGCGGTTACTTGAGATGAACCTTATGCATGCGCCTCAAGTATGTGTTTTAATGCTTTTTAGGCATGTTTCCAACATTGTTTTAGTAA
Y
TGTGCAGCGCCTCTCAGATTGTTATGCAAAGCTACTGAGGGGCCTACTCCTTATTAAAGAAAATGTAGCTATTATAATATTCTTTTGTACTTTAACAGTT
Celera SNP ID:            hCV25954141
SNP Position Genomic:     52378
SNP Source:               Applera
Population(Allele,Count): african american(T,26)   caucasian(C,2|T,12)   total(C,2|T,38)
SNP Type:                 INTRON


Context             (SEQ ID NO:22738):
AGAATCCGCGCGTCAGGTTCTCCAACAGTCAGAAGGGCTTGTGTGAGGGCAGGGAAGATTTTAAACCCCGTTTCAGGCCCCCTCCCTAGGCTGTAGGAAA
Y
CACCCACTCTGAAGCCCGGCGGGGGAGGAGTGCTGCAGCCAGCTGCCGAGGGAGCGCTCTGCGGCGAGGCCGTTTCCCTGAGTCACGGAGAGGGCGGGAG
Celera SNP ID:            hCV27843406
SNP Position Genomic:     5385
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:22739):
TAAAACTTAAAATCCCTGTCCCACCAGGTGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATTGCTTGAGGCCAGGAGTT
Y
GAGACAAGCCTGACCAACATGGTGACTCCATCTCTACTAAAAATAAAAAATCAGCCAGGTGTGATGGTGGATGCCTATAAGATCCTAGCTGCTACTCAGG
Celera SNP ID:            hCV1550776
SNP Position Genomic:     81540
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|T,8)   total(C,7|T,8) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:22740):
CTGTAAATGAACTTATTTTTATACCCTTTAACTACATTGTCCAACTGAAGGATCTCTTGTCATCAAAGCTTGGACCTACAGCAAATGAATGTGAATATAT
R
AAGATTTCTCTTTTCCTAGACTGTTTAGACTGATAGCAGTTAATAAATGAGTGCCTATTTGAGCAAGATACTGTTGGAATTGAAGATTCTATAAAAATCC
Celera SNP ID:            hCV73209
SNP Position Genomic:     9034
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22741):
CAAAAGAATAGCTTATTCTGCCCAAATACTTGTCCAGTCACTAGGATCATTTCACTTTTTTGAATACCATTTGCTTTGGGGAGGGAAGTATTGCCAGACC
R
TGAATTCATTATTACCTCTGATCAGTTTTAAACTTCATTTGAAAAGTGGTTCCTTCTCGTTTTCTCCCTCCCTCAGGCTGCATCCTAGCATGCCCAGTTT
Celera SNP ID:            hCV1550778
SNP Position Genomic:     76376
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:22742):
AGGAAATTTGAGGGCCAGTGCAATGGTTTGCCAAGGTCACACAACTAGTTAGTGGAAGGATCCAGGCATTCTAATTCCTTTCTTTCACTAATACATTTGG
M
CTGCTCTACAGAATTACTTCTGTCTGATACTATCCACTTTGAAGAGTAGCTAGCATATAGTAGCCATTTACTTTTGGCTCAATTAAAAGCAAACATTTTT
Celera SNP ID:            hCV1550779
SNP Position Genomic:     76011
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,5)      total(A,5|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22743):
TTGGAAAATAGTGCCAATAGGCTTGCTCGATGCAGGGTTGCCATAAACCTTCCATTCGTAAAGATTCATCTGCACTGCAAAGTGCAGTAAAATGAGGTAT
S
CCTGTAATACGTAAACTGTGCTATCTAAGTTTTGAATTGTCTTTCCTCTTATCAGTTTCATGTTATATAAGAGCTTGGGATATCCATATTTAAATGTGCT
Celera SNP ID:            hCV26023470
SNP Position Genomic:     41690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22744):
CTGTAATACGTAAACTGTGCTATCTAAGTTTTGAATTGTCTTTCCTCTTATCAGTTTCATGTTATATAAGAGCTTGGGATATCCATATTTAAATGTGCTG
Y
AGAAATGAAGGAAACTTTAAATATTAGCTTATAATTTTTCAAATAACCCTCTTGTTCTGGAATTTTACCATCTCTAAAATGGAATTAGACTGAATGTTTT
Celera SNP ID:            hCV26023471
SNP Position Genomic:     41792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22745):
TTGAGAGGTTTGAGGGTAGGTAATTTTCCAAACAAGCAATTAGAAATTGGCCTTTACTGATATTATTATTATTTTATTTTTATTTTTTATTTTTAATTAA
T
TTTTTTTTTTTTTTGAGACAGAGTCTCCCTCTGTTGCCCAGGCTGGAGTGCAGTCGTGCCATCTTGGCTTACTGAAACCTCTGCCTCCTGGGTTCAAGCG
Celera SNP ID:            hCV26023472
SNP Position Genomic:     45548
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22746):
GTGCCTGGCCTAATTTTATAATTTTAAATGTCTGTAAAGTAAGCAAAATGACTAGTTGAATTGTACATTAAATATATCTAATCCCTAAGAGTTTATAATG
R
AAAGGGATCAAAACTTTTTCAATTGCGATAAAACTCACATAACAAAATTAACCATTTTAAAGTGAACAATTTAGTGGTATTTAGTGCATTCACAGTGTCG
Celera SNP ID:            hCV7971647
SNP Position Genomic:     16499
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:22747):
TGAGAGGTTTGAGGGTAGGTAATTTTCCAAACAAGCAATTAGAAATTGGCCTTTACTGATATTATTATTATTTTATTTTTATTTTTTATTTTTAATTAAT
T
TTTTTTTTTTTTTGAGACAGAGTCTCCCTCTGTTGCCCAGGCTGGAGTGCAGTCGTGCCATCTTGGCTTACTGAAACCTCTGCCTCCTGGGTTCAAGCGA
Celera SNP ID:            hCV26023473
SNP Position Genomic:     45549
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22748):
TCATACCTGTAATCCCAACACTGGGAGGTCGAGCTGGGAGGATTACTTGAGCCCAGGAGTTCGAGACCAGCCTGGGTAACATAGGGAGAACCTGTCTCTT
A
AAAAAAAAAAAAAATTAGCCAGGCATGGTGGCGCCTGTAGTCTCAGGTACTGAGGAGGCTGAGGTAGGAAGATCACTTGAGCCTGGGAGGTCGAGGCTGC
Celera SNP ID:            hCV26023474
SNP Position Genomic:     25897
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22749):
AAATTAGGCTGAATTTATTCTTATCACTTTTGATGTTAGTTTATGGTGGACTGAATTAACACCTTACATTCCTGACCAATATTCATTATGAAATTTGTAC
W
TAATATGAACTTGGGATAATACTTAGCTATAACTGTTTTATGATTATAACTATTCTCTTACACACTGACATTGTAATTTAAGTTGATGTATTTTTGATTC
Celera SNP ID:            hCV26023475
SNP Position Genomic:     47161
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,7)   total(A,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22750):
TAGGATTACAGGTGTGAGCCACCGTGCCCGGCTATGTATATTTTGTACTTAGAGCATATATCAATTCAGACCCTATTTTCTTTGGAAATCCTGGTCCGTA
K
TTAGAGTTCATAAAATTTACAGTTAGAAAGGCAGATTTGGGGCTGGGGGTAGTGGCTCATGCCTGTAAACTCAGCACTTTGTGAGCCAAGGTAGGAGCAT
Celera SNP ID:            hCV506128
SNP Position Genomic:     11599
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22751):
ATCACTTGATGCAAAGAGTTTGAGACCAGCCTAGGCAACACAGCGAGACCCTATTAAATAAATACACAATATTTTTTAAAAAGATAAGGGAGGGTGAGAA
C
AGCCAAGGTAACTGAGTTGACCTACGTAACAGGGTGAAAGCTTTTTAGGTATCATTATCCTTTTCTGTGAACAGTCATATGGGACCATTTGTGGTATTAA
Celera SNP ID:            hCV26023476
SNP Position Genomic:     49041
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22752):
CTTGAGCCCAGGGGGCAGAGGTTTCAGTGAATCGAGATTGCACCTCTGCACTCCAGCTTGGATGACAAAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAA
G
AAAAGAAAAGAAAAGAAAATGGATAAGCCAGTTATAAAAATTGACAGATGTTTGTTCAAATATGTCATCACCAAGGTCTAACTGGGCACCTTAAATTGAA
Celera SNP ID:            hCV26023477
SNP Position Genomic:     50656
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22753):
AAGTGGAGGGATAGCTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGCTATGATCGTGCCATTGGACTCCAACCTGGGCAACAGAGTGAGACTCTCAAAAAG
A
AAAAAAAAAAAGGAAAACTTACAGTTTGTAGAAATTAAAGCTTTGTCACTCTATATGGATAAACCTCAAATGCCTTGCAAAAAAAGCAAGTTGCAAAAGA
Celera SNP ID:            hCV26023478
SNP Position Genomic:     51315
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22754):
TAAAGCTTTAAAATTGATAGCTATCTATAAAAGGCTAGGAAAACTACAGAACACTTAGATTACTGCTCTCTCACTGCCTATTATGTGTGTGTGTGTACAC
W
ATATATATATATAATGATTCCTGAGACTTTATAGAAAGTTCTGAAGTATTTTTTGTCTTGGAAGAATTTTACATTACAAGTAAAACCAAAATGTTTTTGT
Celera SNP ID:            hCV26023479
SNP Position Genomic:     55813
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2|T,2)   total(A,2|T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22755):
TTCTAGCCTTGCAGGGTGCCAGATTATCAATTACCGTACAGATGCAAAACAAAAGTGGTTACTTCTGACTGGTATATCTGCACAGGTAACATTTTAACTA
K
TTTTTTATGAAGAAGAGGTTTAGAACACGGTTGTGCCCAGAATGCAGTTTGATTTTGAAATTAGGTCTTTCTATACTCAATCCTGTTGAATTTCACTTAT
Celera SNP ID:            hCV1550810
SNP Position Genomic:     33775
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22756):
GGTAGCTTAGGATTCTTACAGCATAACTTACTGCTTTTAGGTATATAGCTCTATGAACTTTATGAGCCCACTGGAATGTTTTCTCCAATTATCGGAAAGG
M
TAATTATCAATTAAACTTAAGGAGTCTAAGGACCCTCTACTCAGAAAAATAGATGTGAGATCCTGTCTCAAAAGAAAAGTTAAAGTCAGGAAGAAGTTAA
Celera SNP ID:            hCV11627821
SNP Position Genomic:     28613
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22757):
GGACTTAAGCTGTGACAGGTGAAACTCAGTGCCTTAGATGAAGGCTTGGTAGAGACTTAGAAACATAGAATTCTTACAGGGTAGCTTAGGATTCTTACAG
S
ATAACTTACTGCTTTTAGGTATATAGCTCTATGAACTTTATGAGCCCACTGGAATGTTTTCTCCAATTATCGGAAAGGATAATTATCAATTAAACTTAAG
Celera SNP ID:            hCV11627822
SNP Position Genomic:     28534
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22758):
AGGTGACAGCTTTGTTTTCAATTATTGTTAAGAAAACTATTCATTAGGCTTATTTTCAGTTGGGATTTAGAATTCCATGGAAGTCATACTATCTGTTTAA
R
GTGTGTTTATTAGAGGTAATGTAGTTTTTGCTTAAAACGTAGATGTAGATTGTTTGCTTAGTCTTAGCTGTTACCTCTTTAATGGTTGCTGCTGTATCGA
Celera SNP ID:            hCV1550811
SNP Position Genomic:     33273
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22759):
AGAGGGCGGGAGGCTGCGCCCGTCTGCCCCCGCCACGTCCTCCTGTGAGGGGCTCAGTCGAAACAGGCAGCGGTCGCAGGGAAACGAAGCGGCACCCGTC
R
TGCCTCAAGGTGGCCCAAAAGCCTCTTCACTCCCAGGAGACGCCGCATTTCCTTAAAACGAGCTCTCCATTTCTGGCAGCAATCAGCCGACCCTTCCCCA
Celera SNP ID:            hCV120820
SNP Position Genomic:     5574
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,5)   caucasian(A,8|G,32)   total(A,41|G,37)
SNP Type:                 TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,5)   caucasian(A,7|G,29)   total(A,38|G,34)   
SNP Type:                 TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:22760):
TTAACTTGGTTTCTTGAAATTTATTTAAATATGAACCTTTTCTAAATGTTAACTAGCTTTCTTTACTGTAGGTCTTCTCCATGCCTTTTATATTCACTCA
R
TACTTATTTCTCTTTACAGAGAGCATATAATGGTAGTATGTTTTCCTGAGCACATTATTCCTTATGTGGAATAGTGACTGAGAAACAGCCAAAGGATGTT
Celera SNP ID:            hCV8730973
SNP Position Genomic:     48406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22761):
TTATCGCGCTTTTTAAGCAACCAACTTATATTTGGGAGTATTCAATATAACAGTTTTTTAATTACATAAATGTTTTTCAGTCATTCTCAAAAGTGTGCCT
R
TGCTTAATTGTAATTACTTGTTTCTTTAAGGTCTCTTTTATTTTCTGGGATCCATTGTTAACTTTAGCCAGGACCCAGATGTGCACTTTAAATATATTCA
Celera SNP ID:            hCV15962899
SNP Position Genomic:     54834
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,719|G,732)   total(G,732|A,719) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22762):
GCCAGTTCTAGTTAGAATCCGCGCGTCAGGTTCTCCAACAGTCAGAAGGGCTTGTGTGAGGGCAGGGAAGATTTTAAACCCCGTTTCAGGCCCCCTCCCT
R
GGCTGTAGGAAACCACCCACTCTGAAGCCCGGCGGGGGAGGAGTGCTGCAGCCAGCTGCCGAGGGAGCGCTCTGCGGCGAGGCCGTTTCCCTGAGTCACG
Celera SNP ID:            hCV27827916
SNP Position Genomic:     5372
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)   
SNP Type:                 TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:22763):
TTGCACTAGCAAGGACTTATTTTCCTTTAAGGCTTGAAATGTAAAGAATAATAAATTTTTACCCATAAAATGAGTTAAATAATGCACTTTCCTCAGTCAT
Y
TATAATTTTCAAATAACTCATCTGAAGTAATGGAATATACCTTGGCAATAAAAACACTTTTACAGAGGGTTAAAAATGTTAAATAACAAAATGGACATTT
Celera SNP ID:            hCV11413585
SNP Position Genomic:     7767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22764):
ATCACCAATGTTCTACAAAATCCTGATTTGGCTCTGAGAATGGCTGTACGTAATAACTTAGCCGGTGCTGAAGAACTCTTTGCCCGGAAATTTAATGCTC
W
TTTTGCCCAGGGAAATTACTCGGAGGCAGCAAAGGTGGCTGCTAATGCACCAAAGGTAAAGAGTTATGAAAATGAAGTTGTCATGACATTAATCCATTGT
Celera SNP ID:            hCV8730974
SNP Position Genomic:     46627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:22765):
GGGACTTAAGCTGTGACAGGTGAAACTCAGTGCCTTAGATGAAGGCTTGGTAGAGACTTAGAAACATAGAATTCTTACAGGGTAGCTTAGGATTCTTACA
K
CATAACTTACTGCTTTTAGGTATATAGCTCTATGAACTTTATGAGCCCACTGGAATGTTTTCTCCAATTATCGGAAAGGATAATTATCAATTAAACTTAA
Celera SNP ID:            hCV11627826
SNP Position Genomic:     28533
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22766):
CTCCCAGGAGACGCCGCATTTCCTTAAAACGAGCTCTCCATTTCTGGCAGCAATCAGCCGACCCTTCCCCATCAGTATCACGTGCACCTGGAAGTACGTG
S
GTGGGACCTAAAGCGCCCACGGAAGTGACGTCGGTCGCCCCGAGTCGCATGATGTGGCAAAATGAAAAAAAAAAAGTGGGGGGAGAAAGAGAAGACTGGC
Celera SNP ID:            hCV27827917
SNP Position Genomic:     5704
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(C,1|G,39)   total(C,1|G,75)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:22767):
ATTAAAAGGAGTATACCTTAAACAACTTGCAAGTGAACCCTAAATGTCATTTAGATATCATAGCTTCTTCAGTGTCATTTTCTGTAGGTTATCAAGATTG
M
AGTCCTCAAGAAGTTTTAAATTATGTGGAGTTGTCTTTCAGAGCTCAATTAAGTGGGAATGTTAATTTTTGATACTGACTGTGTTAAGAATGAATAGATG
Celera SNP ID:            hCV8730975
SNP Position Genomic:     46096
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22768):
ATTGCTGAGTGTTCTAGACATTCTCACTCAAAAGGAACATCAGTAAGGAAAACAATCTTACCTACCTTATTTGAAGAGGTGGAAGCAAATTTAACCTTCT
S
TTAGCCAATACGGTCACTTGAAGTTCTTTTTTTTTTTTTTGCCAAAGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTAGGGCGGTCTTGGCTCACTGCA
Celera SNP ID:            hCV11627827
SNP Position Genomic:     26469
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22769):
ATGCTCTTTTTGCCCAGGGAAATTACTCGGAGGCAGCAAAGGTGGCTGCTAATGCACCAAAGGTAAAGAGTTATGAAAATGAAGTTGTCATGACATTAAT
Y
CATTGTTAATATTCTGTTTCTTATATTACTAGAAAAGGAACCAGCTTCCTACAGATAAACTGTTTTTAGATTACATTTGGGTTACATTTTCCTTTAGTAG
Celera SNP ID:            hCV25954769
SNP Position Genomic:     46721
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,40)   total(C,70|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:22770):
CATTTCCTTAAAACGAGCTCTCCATTTCTGGCAGCAATCAGCCGACCCTTCCCCATCAGTATCACGTGCACCTGGAAGTACGTGGGTGGGACCTAAAGCG
Y
CCACGGAAGTGACGTCGGTCGCCCCGAGTCGCATGATGTGGCAAAATGAAAAAAAAAAAGTGGGGGGAGAAAGAGAAGACTGGCGAAAGTGATGAGTCTA
Celera SNP ID:            hCV27827918
SNP Position Genomic:     5720
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,12)   caucasian(C,33|T,3)   total(C,55|T,15)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:22771):
CCTCCAGGAACCTTCAGGTTTTTTTTTGTTTGTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGTTGGAGTGCAGTGGCGCGATGGAACCTTCG
R
GTTTTACTAAGCATCCTTACCCTAATTATCTAAATCTTTGAGACGTAAATTATTTGATGTGGCTAAAAATCCTCCTGCTAGAATTTAGGTCCAATCCTTT
Celera SNP ID:            hCV11413586
SNP Position Genomic:     4999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:22772):
TCCTCCAGGAACCTTCAGGTTTTTTTTTGTTTGTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGTTGGAGTGCAGTGGCGCGATGGAACCTTC
R
GGTTTTACTAAGCATCCTTACCCTAATTATCTAAATCTTTGAGACGTAAATTATTTGATGTGGCTAAAAATCCTCCTGCTAGAATTTAGGTCCAATCCTT
Celera SNP ID:            hCV11413587
SNP Position Genomic:     4998
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:22773):
TATATTTAACAAGGTGTTTTCCCTGTCATTGTTACCGTTGTGGCTTTTTCTCTTTGAGTTATTGTCCAGTAGAACTTTCTTCAATGATGGAACTGTCTAC
Y
AGCTACATAGGGATATTGAGCACTTGAAATGTGGCTGATGTGACTGAAAAACTAAATTTTTGCTTTAATTTCTTTTTAATTTAAATGTAAATAGCCACAT
Celera SNP ID:            hCV73210
SNP Position Genomic:     9900
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22774):
CCGTCTCATGCAGCACATTTATGACATTGAAAACCACCAGTAATAGATAACATTGAGATTTGAAATTTAGTTTTACTTAGGTATAATGACAGACCAAGTA
Y
AAGGCTTTGGTTGAGAGACCAGCTTTTAAATATTGAAAGACAAATATAGTGTAAAAGGCGCAATGGAATTTGTATAGTGAAGGAGATTCTCTAGTCCCAG
Celera SNP ID:            hCV1550780
SNP Position Genomic:     75701
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22775):
GTCATCTTCAGACCTCACTTCTTGCTTCAGTACTTTTGCCTTTTTTTCATGCACACATACACCAAAATAACTGACTGCATGTTACTTTTCCTCTGCAGCA
Y
ATTGCAGTCTTTGTGGAAAAGCCTTTTACATTTTAGTGAATTTTCAGTAGTACAGATGGAACTGAATTCATTGACATGCTTACCTGTAATTTTTCTTTTT
Celera SNP ID:            hCV1550781
SNP Position Genomic:     74434
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:22776):
GCTGGGGGAGGTGCCATGCACTTGGTTTCAAGCTACCCAGAAAGCTGAGGCAGGAGGATCACTTGAGCCCAGGAGGTCAATGTTGCAGTGAGCTATGATC
R
CAACACTGCACTCTCCAACCTTGACAACAGAGCAAGACTCCTACTTTCTGAAAATATTAGAAGTCAAGATCTGAGCTTTAGTGTATTTGCTTCTAAGATC
Celera SNP ID:            hCV11627792
SNP Position Genomic:     65044
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22777):
CTTGTGAGACCTGTCTTTAAGCTGCTGTTAACCTAAGTGCTGTAAATTTTTCTAGTGATTAAGCTGCTTTCTTTCATACTGTAGCATAAATTCTTCTGCA
K
TAAGCTTTGAAGTTACACAAAATTCTAAATTTTGCTTCCAGTATGCCCTTTATTTTCACTTCTCTCATACCTTTTTAGTGGTTAGATGTTTCTTCCCTAA
Celera SNP ID:            hCV1550782
SNP Position Genomic:     72904
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22778):
GAGGTGAACATGGGAAAAAAAAAACAAGCTGGGGGTCTAATTGCCTTATAACATTCACTATTCGTCTTAGTGTCCTTTTTTGATGTATGAATTTACTCAC
Y
CTATCTTCAGCAGTTACTAGCTGTCTCTCTGTAGAACATTTTTAAATGGTTTTAGAGGATCCTTTTCGTCAAAGCAAAAAACATGATTAAAATCAGAGTC
Celera SNP ID:            hCV1550783
SNP Position Genomic:     72473
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22779):
GTGTATTTATGAGGGTGAAAATAATCTATGTATTTTTTTATTTAAAAAACTTTGATAAATTTTATTTCAAAATAGTATTTTTCTCAAAATCAGTTCTTGT
R
ACTCAAATATTCATGACTAGTATTGTAGATTCCCTTTTATTTGGTTGGTTCCTGACTTTAATGATGTCTATGCCTGTTTCCCCTGGGGAAGCTGCATGTA
Celera SNP ID:            hCV1550784
SNP Position Genomic:     72203
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,3)   caucasian(A,22|G,4)   total(A,47|G,7)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22780):
AAAAAAAGCTTTTAGCTTATCTCTTCTTTGAAAATTTTAATTTAAATGATACAACTAGGAGGCTTTTTTCCCCTTGCAAAACCAGATTTATATTGGAAAG
Y
TTCCATTGTTTTTCTTGGTTTACTAGTTCAGTATGTGGGGTCTAATGTTTTTGACTTTCACTATTTCTTTGAATAGGATGCAATGCAGTATGCTTCTGAA
Celera SNP ID:            hCV1550785
SNP Position Genomic:     71597
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;JBIC-allele(T,704|C,721)   total(C,721|T,704)
SNP Type:                 INTRON


Context             (SEQ ID NO:22781):
GAGGCTGAGGCCGGAGAATCGCTTGAACCCTAGAGGCAGGTTGCAGTGAGCCCAGATTGCATCACCACTGCACTCCAGCCTGGGCAACAGAGGGAGACTC
Y
ATCTCAAAAAAAAAGAAAAAAATCTTGCCCTCCAAATTAGAAATATTGTCCATTTCATAGCCATATGTTAGTCCTTGATAGTGAAAATCTTGGAGAAAAT
Celera SNP ID:            hCV1550788
SNP Position Genomic:     70888
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22782):
TCATTTACAGATCCAGTGTTTTATGGTGTATAAGTATTTGGGGTTAACACATTTACCTAAGATTTGAGTACTTACTGCAGATGAGGAACTGTGTTAGACT
Y
TAGGGACAAGGTGGTAAACAAGATGGACTACACCTTGCATTCATGCTTCCATTGATGAGTTGGCAAAGGCTGTACACTTGTTATTCCAACCATTGATGTT
Celera SNP ID:            hCV28954485
SNP Position Genomic:     12246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22783):
ATTTGGCTCATTGCCTCATTTGGTAAATGGTCTGTATCATTTGAATTGCAAAATGTACCACAATTGTTTATATCTATGCTGTGATGTTCTTTGATTCTAG
Y
AGTACTGTCGTTTGTTTATCGTGAAATATTTTTTATATTATGAGAAAAGTAGGAGACAGCAAACTAACATCTGACTTTATGCCTTGAATGATTATTTAGC
Celera SNP ID:            hCV28954486
SNP Position Genomic:     13684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22784):
TGAAAACAGAATAAGTAATCCTAGATTATCTGTAAGTGATAAAGATAACAAAAATATTTTATATGTGTATAGGTAAGATGACTAGTGTGTTGATCCATAC
T
TTTTTGATGTTCATTTAGTAGGAAAAACATGACATACTAAAATTTTTACATAGATAGATGCAGACAGATTCTAGAAATGATCGTAACAGCTATTAGTGCA
Celera SNP ID:            hCV26023480
SNP Position Genomic:     58539
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,7)   total(-,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22785):
GAAAACAGAATAAGTAATCCTAGATTATCTGTAAGTGATAAAGATAACAAAAATATTTTATATGTGTATAGGTAAGATGACTAGTGTGTTGATCCATACT
T
TTTTGATGTTCATTTAGTAGGAAAAACATGACATACTAAAATTTTTACATAGATAGATGCAGACAGATTCTAGAAATGATCGTAACAGCTATTAGTGCAG
Celera SNP ID:            hCV26023481
SNP Position Genomic:     58540
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,6)   total(T,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22786):
TATAAGGATAAGAGAAAATACAAAAGACCAAGTGCATCAGTGTTATATCTTACTAATAAGAAGTATAGAACTGCAAATGAGATGGGGTTTTATACCTAAA
W
AAAATAGACAACATATTTTAAAAGTTCTAAAAATAGAAGAGTTGTTATAATGAGTCTTAAATTCTCCTGAGATAAGTATAAATAAAATATTTTGGAAACG
Celera SNP ID:            hCV26023482
SNP Position Genomic:     66415
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22787):
ATCAAACTCCTGGGCTCAAGTGATCCTCTCATCTCAGCCTCCCAAAGTGCTGGGATTATAGGTGTGAACCAAGGTGCCAGGCCAAATCTTTGTTGTTTTT
K
TTTTTTTTTTTTTTTTTTACAAGTAAAATACCCTGAGGCTGAAGGTCATTGCTAACTGATGCAGCGTGTTTTTCTTACTGCTTTTTTTCTGGGGATCTAA
Celera SNP ID:            hCV26023483
SNP Position Genomic:     28098
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22788):
GCCACCACACCTGGCTAATTTTTGTATTTTTTGTAGAGATGGAGTTTCATGTTGCCCAGGCTAGTCTCGAATGCCTGGGCTCAAGCAATCCTTTGCCTTG
R
CCTCCCAAAGTGCTGGGATAATAGGTGTGAACCACCGAGCCCAACTAATAAGGATTATTTTAATTGGCATCTTTGGTCTTTGACCTCTGAGCTTCTACCA
Celera SNP ID:            hCV7482364
SNP Position Genomic:     8735
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22789):
CCCTGGGCCACAGAGCAAGACCCTGTATGAGAAAAAAAAGAATTGGAAGTCCTAAAGTGTAATTTCCTTTTCTCCTCACTTCCCCAACAAAAACAAACTT
W
AAAAAAAAAAAGGCATTTCATAGTGTCTGAGGCAGTTAAGCACCCAGAGACCACTAATCTAGTATCAGTAGTTGAAAGAAATTCACACCCAGAGTTTCAG
Celera SNP ID:            hCV26023484
SNP Position Genomic:     24083
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22790):
CCTGGGCCACAGAGCAAGACCCTGTATGAGAAAAAAAAGAATTGGAAGTCCTAAAGTGTAATTTCCTTTTCTCCTCACTTCCCCAACAAAAACAAACTTT
A
AAAAAAAAAAGGCATTTCATAGTGTCTGAGGCAGTTAAGCACCCAGAGACCACTAATCTAGTATCAGTAGTTGAAAGAAATTCACACCCAGAGTTTCAGC
Celera SNP ID:            hCV26023485
SNP Position Genomic:     24084
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22791):
GAGGCCGGAGAATCGCTTGAACCCTAGAGGCAGGTTGCAGTGAGCCCAGATTGCATCACCACTGCACTCCAGCCTGGGCAACAGAGGGAGACTCCATCTC
A
AAAAAAAAGAAAAAAATCTTGCCCTCCAAATTAGAAATATTGTCCATTTCATAGCCATATGTTAGTCCTTGATAGTGAAAATCTTGGAGAAAATGGTATC
Celera SNP ID:            hCV26023486
SNP Position Genomic:     70894
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22792):
AAAACATCATAACTGAAGAATTCCAAGGAAAAATCTATAGGAAAACAAATTCTTTCTCATTGTGAAGATATCAATTTGAAAAGAGGATTAAGCTCACACT
M
ATATCTTGCTGAATGTGGGTTACCTTTTTTTTTCCAGGTTGGTGACCGTTGTTATGATGAAAAAATGTATGATGCTGCTAAGTTGTTGTACAATAATGTT
Celera SNP ID:            hCV25954662
SNP Position Genomic:     68678
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,37|C,1)   total(A,73|C,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,39|C,1)   total(A,75|C,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22793):
GAATCGCTTGAACCCTAGAGGCAGGTTGCAGTGAGCCCAGATTGCATCACCACTGCACTCCAGCCTGGGCAACAGAGGGAGACTCCATCTCAAAAAAAAA
R
AAAAAAATCTTGCCCTCCAAATTAGAAATATTGTCCATTTCATAGCCATATGTTAGTCCTTGATAGTGAAAATCTTGGAGAAAATGGTATCTTTAGGTAA
Celera SNP ID:            hCV26023487
SNP Position Genomic:     70903
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22794):
CATGTAAAATTCTACATGCACATTAATTTTTTTAAATGCTTTTTTCTTTAGTAGAAGTAAGTCATTTAGTCGATCATAAAATATTCCTGTTCTTTTGAAA
W
TTTTTTTTAATAGCTGACAAATGACACTGATTGGAAGGGGAACTCAAATGTAGCTGTTTACCCTCAGTGTATTTATGAGGGTGAAAATAATCTATGTATT
Celera SNP ID:            hCV25954663
SNP Position Genomic:     72036
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,36)   caucasian(T,40)   total(A,2|T,76)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22795):
ACTATTCGTCTTAGTGTCCTTTTTTGATGTATGAATTTACTCACCCTATCTTCAGCAGTTACTAGCTGTCTCTCTGTAGAACATTTTTAAATGGTTTTAG
W
GGATCCTTTTCGTCAAAGCAAAAAACATGATTAAAATCAGAGTCTCACATCTGATTCCTTCAGCCTGCCTGAGTTGGGGGGATGGGAGGGTGAAGAAGCG
Celera SNP ID:            hCV26023488
SNP Position Genomic:     72529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22796):
TTCATATGAGAAAACATAAACACAGCCTGTGTTCTCTAGATCAGTGGTCCACAACCTTTTTGGCACCAGGGACCAGTTTTGTGGAAGAAAATTTTTCCAC
Y
GGTTGGGGGTGGGAGTGGGGGTGGGATGGTCTCAGATGAAATTGTTTCACCTCAGATCACAAGGCATTCGTTAGATTCTCATAAGGAGTGAGCAACCTAG
Celera SNP ID:            hCV7461134
SNP Position Genomic:     24643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22797):
GAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGGTCGTGCCACTGCAGTCCAGCCTGGGTGACAGAGCAAGACTCCGCCTTAAAAAAAA
W
ATATATATATATATATACATATATATATATATAACCATTATATATCAGGCTACTGACACAAATAATAATATATACACTTATTATGGTTTTGTCTCCTTTT
Celera SNP ID:            hCV26023489
SNP Position Genomic:     77719
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|T,8)   total(A,7|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22798):
CTTTAACAGAAGAGCTATGTTTGTGTGAGCCTCTCTTGTTAGCGTAGAACAAATTCTCATATGTTACACAGATTTGATACCTCATAGAAGAAATTTAAAG
Y
TTCCTTTTGTTTGTCTTTTTTTCAGGAAGCAAAACTAACAGATCAGCTACCACTTATCATTGTGTGTGATCGATTTGACTTTGTCCATGATTTGGTGCTC
Celera SNP ID:            hCV1550790
SNP Position Genomic:     59709
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22799):
TCTGTCAGGCAAGTATTTATTTCTCTTTGATATCAATTTGTACTTGACTCTTTGAAGGAATTTACTTCCAGCCAGGATTAGAGGTGAATTTAGGGTCTTA
Y
GTCTACATAATTTGACATGGGAGCTCAATACTAAGATGCAACTATCACATTCATCCTCTGATGCCAGTGTTGAGAGTGAACTTATTAGATTCCTTGTTAA
Celera SNP ID:            hCV1550792
SNP Position Genomic:     57314
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22800):
TAAGAGAAAAATATGTAGTGGTGTTGAAATTGTATAAAATGAAAATACAGGTTGAGTGTCCCTAATCTGAAAATCCAAAATGCACCAAAGTCCAAAACTT
Y
TTGAGCACCAACATAACGCTCAAAGGAAATGCTTGTTGGAGCATTTCAGAAATCGGATTTTCAGATTAGGGATGCTGATCAGGTAATTATAATGCGAATA
Celera SNP ID:            hCV1550793
SNP Position Genomic:     53401
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;(C,-|T,-)   Caucasian(C,21|T,63)   African-American(C,8|T,76)   Asians(T,84)   total(C,29|T,223)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22801):
AATTCCATAATGACAGGGAATGCAGTGGTTTGACATGACACTGATATCAGTGACCTATTAGACACTTTACCATTGAAGACCATTTTTATTTACATTTCCC
Y
ATTGGCATAGCATACATAAAGGATTCTTGTTAATAAAAGGTTTTAACATTCAGGCTATAAGTAACATAATTTCATATTTCTTTGCAAGTATTACCATGTT
Celera SNP ID:            hCV28954490
SNP Position Genomic:     7567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22802):
TTTTTGAATCTTTCAAGAGTTTTGAAGGTAATTAGGAGTTTTTGAGTTTTTAAAAAAAGTACTTAAGGTAGCCAAGAAGAGGTATGCTTATGATCAGGCT
R
TTGGAAATTTTGTTTTTCTAAAAATTTGGTTCTATGGGACATTTTAATTTTTTAAGTTTTATTCAATATATGTCAAGGCCCTTTTATGTTGGATTCTAAG
Celera SNP ID:            hCV1550794
SNP Position Genomic:     53139
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22803):
GGCTTATTTTCATATTAAACTGCATCTGAAATATCTTTCTGCAGACAAATGTTTATAAACCACACAGAGAATCAAGTACAGCTGCTCTTTATTTTCCACG
R
CAGATGTGTAGCTCACTACTAAATCTTGTGGTGGTTGGAGTAATAGCTTTTCATTTCTTTTAAAGAGGAGACAAGAATTGTTAAATGATCCCAAAGATTC
Celera SNP ID:            hCV28954491
SNP Position Genomic:     8078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22804):
CAGAGTTTCAGCCAACCTATGGACAGCTGAATTAAGCAGCCCAGGAGGTTGAAGCTGCAGTGACCCATGATTGTGCCACTGAATTCCACCCTGGGCCACA
S
AGCAAGACCCTGTATGAGAAAAAAAAGAATTGGAAGTCCTAAAGTGTAATTTCCTTTTCTCCTCACTTCCCCAACAAAAACAAACTTTAAAAAAAAAAAG
Celera SNP ID:            hCV211121
SNP Position Genomic:     23995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22805):
ATGCGCCTCAAGTATGTGTTTTAATGCTTTTTAGGCATGTTTCCAACATTGTTTTAGTAATTGTGCAGCGCCTCTCAGATTGTTATGCAAAGCTACTGAG
R
GGCCTACTCCTTATTAAAGAAAATGTAGCTATTATAATATTCTTTTGTACTTTAACAGTTCACTATTAAACCTTAATCTGTAATACGGATATTGAATTAC
Celera SNP ID:            hCV1550795
SNP Position Genomic:     52418
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22806):
CTGTGTAGCTGAATTTTGAATTATGTGTAGCCATTAAAGTGATAATGATGATTGCTAGCCTGGATAATGTTTTAATCAGGGAAAAGATAGAAATTATATA
M
TTAGAGTAATTTTTCAACACAATTATACATATTGTATAGATTTGTGTAGAAAGACCTCTCTATGTAAATTTAAAGGTCTTTTTCCTACTTCATTCTTTTC
Celera SNP ID:            hCV27505408
SNP Position Genomic:     66806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22807):
CTGGAGGTCAGTGGCACCATCACAGCTCACTGCAGCCTTGACCTACTGGGCTCAAGCCATCCTCCCACCTCAGCATCCTGAGTAGCTGGGACTACAGCCA
Y
GAGCCACCACACCTGGCTAATTTTTGTATTTTTTGTAGAGATGGAGTTTCATGTTGCCCAGGCTAGTCTCGAATGCCTGGGCTCAAGCAATCCTTTGCCT
Celera SNP ID:            hCV28954492
SNP Position Genomic:     8632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22808):
AAATATATATTTTTTCGCCGGGCATGGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCCATGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGAC
Y
AGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAAATCAGCTGGGCGTGGTGGCAGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAG
Celera SNP ID:            hCV1550797
SNP Position Genomic:     47995
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22809):
TTTATAGATTAACAATGTGGTATAGTAGACAGAACAGGGAGGGCTTTAGGGGTTGTTGAAACAAATGCTGTCCAATAGAAAAATAATATGAGCCACATAC
T
TTTTTTTTTTTTTTTTGTTTTTTGAGACAGAGTCTCACTCTGTCCTCTGTCACCTAGACTAGTGTGCAGTGGTGCGATCTCGGCTCACAGCAACCTCCAC
Celera SNP ID:            hCV26023454
SNP Position Genomic:     10563
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22810):
TTTTTTTTTTCCAAATTCTGGATAATCTTATAACATTGAACCAGGGGTATGAAAGACAGTGACTAAATATTTACTCCAGATGGTAAAGATTTGAAACTTC
Y
TAACTTGATGTTAATAGATGGATTCATTCCTTTAAGATTGACCTAAGAGATTGATCTCTACAGGGTGTTTAGTGTGATGTTTGGATCACTTTCGAAGAGC
Celera SNP ID:            hCV1550798
SNP Position Genomic:     47372
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22811):
TGAGAATCTAATGCCGTGGCTGAAATGACAGGAGGTAGAGCTCAGGCGGTGATGACTGCTCATTGGCTGCTCACCTTCTTCTGTGTGGCCCAGTTGCTAA
Y
GGAATACTGGTCTGCGGCCTGTGGTTCGGGATCCCTGCTCTAGATTATGGGGAAGCCGAAGTACTATTTTCTCATTATAAAAACAGAATCCTACCTTTTA
Celera SNP ID:            hCV211124
SNP Position Genomic:     24885
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22812):
TGGTATAGTAGACAGAACAGGGAGGGCTTTAGGGGTTGTTGAAACAAATGCTGTCCAATAGAAAAATAATATGAGCCACATACTTTTTTTTTTTTTTTTT
K
TTTTTTGAGACAGAGTCTCACTCTGTCCTCTGTCACCTAGACTAGTGTGCAGTGGTGCGATCTCGGCTCACAGCAACCTCCACCTGCCAGGTTCAAGTGA
Celera SNP ID:            hCV26023455
SNP Position Genomic:     10580
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22813):
CCTTGGACATGTCTTTTTCACTAAACTTAAAATTACTTCTAGCTTTCGATTTAAAAAGAGAGGTAGAACACATAGAGGCAATTGTAGTTATTATATTGGC
Y
TAATATTGTTGTGTCTCAGGTAATAGGGAGGCCTGAGGAAAGGGAAAGAAACGGGAGAACAGCTGGTTGGTGGAGCAGTCAGAACACACACAATATTTAT
Celera SNP ID:            hCV28954495
SNP Position Genomic:     41318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22814):
CTTTTGATGTTAGTTTATGGTGGACTGAATTAACACCTTACATTCCTGACCAATATTCATTATGAAATTTGTACTTAATATGAACTTGGGATAATACTTA
K
CTATAACTGTTTTATGATTATAACTATTCTCTTACACACTGACATTGTAATTTAAGTTGATGTATTTTTGATTCTGGATAATTTTTTTTTTTTTCCAAAT
Celera SNP ID:            hCV1550799
SNP Position Genomic:     47187
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22815):
CTCTAATTGCTTAGGGGAGAAGGGTATTACTGGAAAGACGGGGTGGGTGACTTTTCATAGTATAACCTTTTGTAAGATTTTAGTGCTTTACTGTATGCAC
R
TGATAACTATTCAAAAAAACAAGCCCCTTTTTTTGGACCCAGTTTATTGACTCCATATTCTTATAACAGCAAAATAAAAATTCTTTTAAGTTAAAAAAAA
Celera SNP ID:            hCV211125
SNP Position Genomic:     25442
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22816):
TGTGTATGGCCTCACAGTTGGAACTGTTGGATGTTATAAGCAGATGATTTAAATATCCCGTGAAAAGCAGTCCATTCGGGCATGTTTCTAGAGATCATAA
T
TTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTACAGTGGCATGATCTTGGCTCACTGCAACTTCTGCCTCCCGGGTTC
Celera SNP ID:            hCV26023456
SNP Position Genomic:     15626
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22817):
TAATGAAAACGTGACACAGAGACACTGAAGAGAGCACATGCTGTTGGAAAATAGTGCCAATAGGCTTGCTCGATGCAGGGTTGCCATAAACCTTCCATTC
R
TAAAGATTCATCTGCACTGCAAAGTGCAGTAAAATGAGGTATGCCTGTAATACGTAAACTGTGCTATCTAAGTTTTGAATTGTCTTTCCTCTTATCAGTT
Celera SNP ID:            hCV28954496
SNP Position Genomic:     41647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22818):
CTCCTGCCTCAGTCTCCCGAGTAGCTGGGATTACAGGTGCCCACCACCATGCCCGGCTAATTCTTTTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGA
Y
GGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCTTGACCTCAGGTAATCCACCCACCTTAGCCTCCCAAAGTGCTGGAATTACAGGAATGAGCCAC
Celera SNP ID:            hCV26023457
SNP Position Genomic:     23077
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22819):
ACTGGTTTATAGCCATCTAGGACTGTATAGATGCATTACTGTCAAAAGAAGTGATTCCCCATGCAAAGAAACAATTTAGGGTCATATTTGACAGACTATT
Y
TTTTAAGGAATTTTCTGTTATCTCCAAGGCAGAGCAATTATCAACTACAGGGAAAAGAATTCTACCTACATCCCTTTTCCTAGCTCCTTAATTAAGCATT
Celera SNP ID:            hCV28954497
SNP Position Genomic:     42494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22820):
TGCTAGTATGTTTTGCTCACTTCATATGTAACAGGTGCCCTTATGTTGTGCTGTATCCTGTGCTTTTTCTGTGGGACCATTCCATTCAGGAGCAAAGAGC
M
CCATGATTCCAATCTTGTGTGTGTTTACTAACCCTTCCCTGAGGTTTGTGTATGTTGGATATTGTGGTGTTTTAGATCACTGAGTGTACAGAAGAGAGAA
Celera SNP ID:            hCV27469898
SNP Position Genomic:     80667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:22821):
GTGACAGTGGTGGTGTTTGTGGAGGAAAACTGTATTGCTAGAGGACAAGGGTGACAGAAAGACTTGATTTTTTTTTTTCCATGCTTTTTCTTTTCTGGGG
K
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTGTACCATGCGAATTTATTATATTACCTTTGGAGGAAAGGGGGATAAAACTAGTCTGGCCAA
Celera SNP ID:            hCV26023490
SNP Position Genomic:     29227
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22822):
CCTTTAAGATTGACCTAAGAGATTGATCTCTACAGGGTGTTTAGTGTGATGTTTGGATCACTTTCGAAGAGCGTTTAACATTTCTCCTTCTTACACTTTC
R
AAGAGCGTTTAACATTTCTCCTTCTTAAAGGGAATTCTTCGTACTCCAGACACTATCCGTCGGTTCCAGAGTGTCCCAGCCCAGCCAGGTCAAACTTCTC
Celera SNP ID:            hCV28954498
SNP Position Genomic:     47501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22823):
GATGAAGAATAGCCACACTAGCGAGTATTTGAGGTCCATCCTAATTGATTAAGATAAGGCAGGGCTGAGTTTGGTGGCTTACGCCTGTAATCCCACTACT
W
TGGGAGGCTGAGGCAAAAGGATCACTTGATGCAAAGAGTTTGAGACCAGCCTAGGCAACACAGCGAGACCCTATTAAATAAATACACAATATTTTTTAAA
Celera SNP ID:            hCV28954499
SNP Position Genomic:     48920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22824):
ACAATGGTGCCCCTGCTTTGATTTGTGGGAGGTGCCATCAGTTTTCCCCACCACTGCTTTTGCACCCTCAGTGCAAATATCAACACAGAGAAAAAAAAAA
W
TAATAGTATTATGAAAACATTGACTCTGTGGAGACCCTGTGGGTTCTGCAGAGTATACTTTGAAAACTATAAGATTATGAGTTCTATAAAATACCAAGTA
Celera SNP ID:            hCV26023491
SNP Position Genomic:     81932
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5|-,8)   total(A,5|-,8|T,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:22825):
GCAGCCAGCTGCCGAGGGAGCGCTCTGCGGCGAGGCCGTTTCCCTGAGTCACGGAGAGGGCGGGAGGCTGCGCCCGTCTGCCCCCGCCACGTCCTCCTGT
R
AGGGGCTCAGTCGAAACAGGCAGCGGTCGCAGGGAAACGAAGCGGCACCCGTCATGCCTCAAGGTGGCCCAAAAGCCTCTTCACTCCCAGGAGACGCCGC
Celera SNP ID:            hCV26023459
SNP Position Genomic:     5520
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,36|G,4)   total(A,73|G,5)
SNP Type:                 TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,33|G,3)   total(A,68|G,4)   
SNP Type:                 TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:22826):
AGAAAATTGTTGACATCATCTGTGGCATGCAGCAAAAGTTGATGTAAAAGGAACAGAAAGACCTATGGAGATAATGGGATGTAATAACAGAAAACATACA
K
AAACAATTGGTTCTGAAATCAGTTAAGAGCAGAACTGGAATTCATACTCTGTGGAATGAATCAGCAATGTGGAAGGAGTAACAAGATTTTTTAAAAAGAT
Celera SNP ID:            hCV392930
SNP Position Genomic:     17685
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:22827):
GCAAGAATCCATCTCAAAAAAAAAAAAAAAAGATTTTTAGAAACCAAAATAATTGGAATGGAAGCTCTTTTCAATGAAAGAAAACTTTTGTAATTTGAAA
R
AACCAAAATTAAAAGGGCTTAGTGTTTGGAACAGGCCTGAAGAAGTTGTAATACCATGAATTTAAAAAAACAAAACAAACTCGGGAGGCCAAGGCACAAG
Celera SNP ID:            hCV392931
SNP Position Genomic:     18560
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22828):
TGAGAGCCTGGTGCAATCTGAGTACGTCCAGCATCTTGAATTAAACTTACAGTCAGTCCCAGCATTTTTGCATGGGCCAATAATGCAATCAGGGTTTCTT
M
ATCAGGAGCTTTGACCACCACCTTGGGCTGGCCACAGTATTCCCATTGTTTGAGCATTTCAGGATTTCTTCTTTGAATCTGCTTGTAGGCTGAAACAGCA
Celera SNP ID:            hCV11420854
SNP Position Genomic:     83697
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:22829):
GAAAGGAAGAGGAATGAGGATTGAGACATGTGAAGACATTGTGCATTATATCAATGTGCATTCCTGTAGTTCATTAACAAGGTACATGCAATAGTCTAAA
R
AACCAGAGTCACTACTATAGTGGCTTAACATTTAATCTGTCTCCAATATTTTAACCAAGTGACACCGAGGTTTTTATCGAAGCATTTCACTTAAATGAAC
Celera SNP ID:            hCV11420855
SNP Position Genomic:     81050
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:22830):
TTCCATTCAGGAGCAAAGAGCACCATGATTCCAATCTTGTGTGTGTTTACTAACCCTTCCCTGAGGTTTGTGTATGTTGGATATTGTGGTGTTTTAGATC
M
CTGAGTGTACAGAAGAGAGAAATTCAAACAAAATATTGCTGTTCTTCAGTTTTGTTTGTGGAATTTGAAATTACTCAAATTTAAAATAAATTACTGGACT
Celera SNP ID:            hCV8730954
SNP Position Genomic:     80746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:22831):
AATCTCTTAAATTTAGTGTATGTAAACAGCTTACAAATACGTATTGTCTAAATGCATTTAAATCTGTTTTATTCAAAGAAAAGCTAAAGCAAAAACACTG
K
CATATGACCATGCAAGACTGTCAGTGCCAACAAAGACAACACTAATCAGCACATCGTACACTGGATTGCAGTGCTTCCCAGATTATTGAAAAATGTTACA
Celera SNP ID:            hCV8730955
SNP Position Genomic:     80389
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:22832):
TGATGGTTCCCGATGATTAGATTTAGATTATACATTTCCACCCAGAGTACTGCTTCAGTGGTGGTTTGTTTTTCTCTTGGTATTATATCCGGAAGCACGC
R
GTGTTCATTTGTCCCCTTTGTCAGTTTTTATCAAGTTGTAACATGTCTTTATTACATAATTATTACCCTCTTGGAGATATTAAACAGTCTATAAGTAGTC
Celera SNP ID:            hCV7951704
SNP Position Genomic:     64307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22833):
TAGCAAGGAATTAGGACATACTTCGATAACTTTTGTCCCTGGGACTTCAATAATGTGCTATATTTGTAACAAACTCTTTATTTTAAAGGTTAAACAGCTA
Y
CACTGGTGAAACCGTATTTGCGTTCAGTTCAGAACCATAACAACAAATCTGTGAATGAATCATTGAACAATCTTTTTATTACAGAAGAAGATTATCAGGT
Celera SNP ID:            hCV27537357
SNP Position Genomic:     69974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22834):
TGGCCAACAACTATTTAAACTTTATAAGAAAGAGTGTCAACATAGTATTTGATAGAGGGTGTATGTTCTAATGTATTTCATACCTAAAGAATGTCTGAAT
R
TGTCTTTTTTTTTCCCCCAAGATGGGGTCTCGTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTTTGCCTCCTGGGTTCAA
Celera SNP ID:            hCV11627778
SNP Position Genomic:     78724
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22835):
CTGTGTAGATGGGAAAGAATTCCGTCTTGCTCAGATGTGTGGACTTCATATTGTTGTACATGCAGATGAATTAGAAGAACTTATCAACTACTATCAGGTA
Y
TAACGAGACTTTTATATGACCTGAGATCTTTTACCATAGATATTCTTATCTTTAACTGCACATTTCTCTTGTTCAGGATCGTGGCTATTTTGAAGAGCTG
Celera SNP ID:            hCV25954425
SNP Position Genomic:     69105
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,21)   caucasian(C,1|T,37)   total(C,8|T,58)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:22836):
AGATATCATTACCAAGGTGTGTACTTTCTTCAGAAGATAAAGGATTCAGAAGGAGAAAGCTCATTAGGAAGTAACTGACTTATGTATGGATTTTCCCATT
R
TAGGTTGCCAATGTGGAACTATACTACAGAGCAATACAGTTCTACTTAGAATTCAAGCCTCTGTTGTTAAATGATTTGCTGATGGTGCTGTCTCCACGGT
Celera SNP ID:            hCV25954426
SNP Position Genomic:     69708
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:22837):
TATGAGGCATATTTTAAACATTTATGTTAGGCTTTAACAAGATAATGTTTGGGGCTGATTTTAAGTTAAGAAGTATCAAATCTACAGTGAGAGATGAAGT
R
ACAAATAATTATAAATCCTGCTAAAGATGACAAAGCATTCTAATTATTTCATTACTTGATGAATCTGAGAGTTTTTGATTTATGGGTCTTCAAACGTTAT
Celera SNP ID:            hCV26023462
SNP Position Genomic:     34213
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;(G,-|A,-)   JBIG-allele(G,45|A,1410)   total(G,45|A,1410)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 77
Celera Gene:                 hCG1818607 - 209000072028230
Gene Symbol:                 FLJ35283
Protein Name:                hypothetical protein FLJ35283;ADAMTSR1;MGC40193
Celera Genomic Axis:         GA_x5YUV32VTY6(19869034..20317789)
Chromosome:                  Chr9
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12237):
AATATTACAACCATAATTCAAACCTCAACAATTAAAATGATAAGTTTCTCTATTTCAAAAAGGCTACAAAAGACAGTTTATTTGTTGCCAAGATTCTCTG
TAGCATTGTGCATTGCATACAGTAGGTGCTCAGTAAGTGTTTGTTGAATCTAATTCAATAACAAACCTCTGAGATCTGTGCCATAACTTCAGCAATGTAG
AAAAAAGAAGATCAAGGACCGCAGGTTTGAGGGTACTGAACAAGTCTATCCTCCCGGTTCAGTTCAATGCTCTGCAATGAGTTCTGTTTTGTTTTGTGTT
TTGTTTTGTTTTGGGGACAAGTATCTTTGAATTTGAATCTAAATTATGATAATATTTTTCCCAGAGTTTCATTAAATCTTTCAAATGCAGAAAAATTGAG
AGACATGTCCAGTGGCTACTTCTATACCCACCACCTAGAATGGTACTGATTTATTATCTCCTACTTGTATCAGGCTCTGAGCTAAACACTCTACAAACCT
CTCACTCTACTGCCCACAACTGCCTGACGGTGGTGAACATAACTCTCATTGTCCAAAAGCCTAAAACAGAACAAGCCAGCAAACAAACAAAAAAACCCTA
AGCTCAGAAAGTTTCAGCAATTTATTTCCTTAAATCCCTTCGAGTAATAAATGCAACAGCTAAGATTTAAACTGTCTGGCTCCAAAAACTGAGTTCTTCC
CATGGTACCAAACAGCCTCCAGAATTCCTTTCTTCTACTGACTGGGGTCACAGATTTTAACCAAGCACCTACAGTATGAGAAGCCCTGAATTAAGTCTTG
TAGGGAGAACCGTAAGCCGAGGCCCTTGGGGCTTCTGCCATTTGGAGACGAATCAGATCAAATTTTACAATTGTGGAGTTTGTCACGTAAGCAACATGCT
ATGCTAGACACTTTGCAGGGAAAGAGAGGAAGACCATGGGACAAAGAATCTAAAATCATATTTTTTGCCCATTACACAACCTGCAGTAGTGAATCAGATT
GAGTAAAAGCAGGAGTCTTACCTTTCTCTACTTTCTCTCTGCTTACTCTGTTCTCCACAGCTGTAAAGCCTTTCCTTAGTTTCTTTTCATTACCTAAAAG
TCTGTGTATATCTCAAAGCCTTCTTCAGTTTCCATTTTCCTCTACCAAACTCCTCACTGAGTCCTTAAATATGCATTGACATCTCCCTTCTCTGAATTCT
CATGGCCCTTTGCTTTACAAAGAGTCAGTATAGCTTAGTGGTTATGAACACAGATTGCTTGGGTTCAGATCTTGGCCCTTTCCCTCTTTGGAGATATGAT
TTGGGCAAGTACTTTAATTCTCTATGCCTCAGTGTTCTCTGTTAAAGGGGGTATATCAGTTGGGATTCTGTTGCAAAGAACAGAATTTATTCTTGCTAAT
TTAAGCAGAAAGTGATGTGTTATAGGATATTAAATAACACATAACATTTGAGTTACCAAAGAAAAAGACTCCAACTTGAGCTYTCTGAAGATTCCAGTGC
TGCTTTACAGAAACACATCACCATGGGAGTTGCTGCCTCTTCCACAGCCAGGAAGTCATCTGCTGCTGAATGGAAAAGCTGCATGAAACAGCAAGAGCTG
CAAGGGCCATGCCCACCTTCCCTGATCCAGCTAATAAATGCATGTCCCATGCCTGCCTCTTGACACCTGCAAACATAGCAACTGGTTAGCATGGTTACAA
GAAAAACCTCATTGCTCTGTAGCCATTTTTACAAGCAGACAGAGCAAAGTGTAGTAGCTTCTGCCTCACTTCCTCCTTCCGAATTTTTGTAGTACTTCAG
AGTGGCTAGTTCTCAATTCCATCCAGTACCCTAGCTGCAAGGGAGTCTAGAAAATGTTGTTTCTGGACTTCAGGCACTGGTTGGGATGAAGGACTGCTAA
CCCATCATTAAAAACATCTATGTGAAGTTAATAAATGTACCTACCCCATAGAGTTGTTGTAAGGATTACGTGAAATAATAAATATAAAATACTTAGAAAA
GTGCCTACACATGGGAGACTCTCAGTGTATGTAGCTATTTTCATCTGTCAGCGTCTCAGATGGTAGTCCTGGGGAAAGTCAAACAGCCTTTGATAGAGCC
CCAAATTTCCTGCCTGCTAATAACTTTGATGAACCCATTTTCTACGTAGGAGGACTGGTTTCCTCATCTGCAAATTGGGGATAATAATCACTCTCTAACT
CCTAGAGTTTCTGTTCATATCACATTAGATCATGTGTGAAAGGTGATTTGAAAACTATAATGAATGCTCTAATGGCTTTGGTGTTAAATAGATACTAGGT
GAGTTGGCAAGTTGTGGAGTAATGCTCAAATTTCAGTTCTGCCCCTGAGAATAGCAGTCTGCTTCCTATACTTTTATCTTAGTCGCCCTTACTTTATTTT
TCAGAATTAACCAGGGAAATCGAACTTCACTGCATCCCTGTGGGGAAAACAAGGCTCAGATGCTGCCATAACCACTTCCTTAAAGAGGGGAGATTAGGCM
CTGCCTAGCTCTTGAAATCCTCCCAGCCCTGAGTTCTTTCCAGGAGACCCTGTGTCCCCTATACACTGGTTTCTGCAGCTGAYGGGCTAAGCAGAGAGGC
TCAACCTGAAGAAAGAGACAGGTGGCTCCAGAGCAAGACTTGTAACGAATTCTCCCCAGGGAGAGAAATACCGAAAGTTTAGCTCACTCTTTCCTCCCAY
AAAGCACACTGAATGTTAACAGCTTGCTTCTGTCCAAGCTGGTGTCTTTTCAATTAAGTATTGTTAAATCCATACCATTTGGAATGATGCTTCAGACAGC
CCTGACACTCTCTCTCTYGCTTCTGATTTCATTTCACCTAATATGTTGTGCATGGAGCCAGTAACCAGTATTATTCAGCTGCCACGGCTTCTGCTAGTGC
TGCTGCTCACACACTTGCAGACGGTTTTAATTTAGATACCTGAAGAGGAAAAAAGGAATTTGGCCAAYGCCCTGCTCAGATGCCGTAAGTGGCCTTTCCC
CGGTTGCCATTAATATGGATCTAGATTACCTAAAGTTTTACATTACTTTTCCTAGGTGCTGAAAACGTTTTAGAAATGAGAAAGTCAAGASACATAGAAG
CTGGAGGCTAAAATAAGATACTTTCCATCGTCAGGTAACATATACCCATGGTAAACCCTGGTAGCCTACTTTCCTTTTCCTATAAACATCCCCCTTCAAC
AACATCACTGCCAACATCTGAATATATGTATGTGTATACATCATATATAGATATAATGCATATATATGAATATGAGATGAGGGTGGATTTAGATTCGGTA
AACCGTGGCTCAATGGCCAGTTCTAGCCAGCAAAGCTTTAGTCAAGTCACTTAACTTCTCTGAGCCTCAGTTTCCACGTACATAAAATGGGGTGATTACT
TAATTTCAAAAAGTAGTCACAAAGGTCAAATGAGATCATAAATGTAAAATCACTTTGTAAACCATAAAGATGGCATGTACATTTTGGCCATCATCAAAAT
TAGTTCATGACCAAAACTTTTCCCAGTCACCTTAACCCAACTTGATTTTGTTCTCCCTTTTCTGAAGTTATAGTAAATTTGTAATTTCACCTGTACTGTG
TAGCTCTGGATGTGCAATTGCTTTTCCTAGTTTCTCTGGGTATTCCCAAGAGGAAAGAAAATGCTGTGAGGAATCAGAAGCATGAGACAGTGTGGTGGGC
ATCCTCCAGGCATTCAACAGGTGATTGAGGGCTTAACTTTAAAATAGTATATTATTCGGTGACTTCATTGAGATGACCATCTTGCTGTACATTAGCATGC
CCATTAAAACTTCAAGGCAGAAATTTCTGACTCAAAATACCTAGGCAGTATTTATTTGCAAAGCAGAAAAGAATCTAAACTAGCATGTAAGTGGTTCCCA
GTTATTTTCTGACCATGCTGATTATTTTTCTGTTCCTCTACAAATAGTATCTCATCATTAGCTTTGTTGCTACTTTTCTTTCTCCCATTACCTATTCTTC
CCTTTGGATCTGCTTAATGAGCAGGGTTTATGTGTGAAGAGGGAGGAGGTGGTATTAGGTAAAATGTTCCATTAATAGAACTAGCTGAAACTCTTCAGTT
AATGACTGTGATAGGAGGGAAAAAAATAAACCCTTTAGCAGAAAGCTCTGGTGTGTAACAGAGAGACACATGTAACATAGCTTTATGAATGAAAGTTTAT
TTCAATCAATCACCTTTCTTTAATGTGATGAGGATTTCAGACAAAAACAATAGTGGAAAGACAAAGTTAAGCATTTTTACATCTACTTGTGAATACGCTT
TAGCTTATGAGCATTAGCTAGTTTTTGAGAGATTTGTAAAACAAATCTTTCTAAAAGGGAAAAGCATATTTCAAGAATGGGCTCTCTTTGTTATGGATTT
GTACTGTCCATTTTTCTAGGTCCACATACTTAATATTGAGAACAAAGGATAATCTTTGTATGACCTTGACTTTCCTAACAGCATGAAAATAGGATTTTTA
AAGTTTCTCTCTCTTTAATTGATATACCATATGAAGTAGGTAACCTAAAGTTGAACAACCTGCTTTTCTTCACCTTTTTGAAAAGCAACGCAGCAGGTAT
GTACATAGGCAGACCTGCCTGTATTCACATGCCCATTATGGCTTGATCAGGTTTTCCATATTCGTGTGTTTCATACCTCTTGTCAGTATTTTTTAATAAT
GAAAGGAAAGAACATTAATTCTAAATGTCTTGTACCTCCACTGCATATATTTCTGGGCTATCAGGAGATCTGAAAAGGGAAAACGTCCTGATGACACACC
TATGGCAATGTAAGGCCAGGGCTGCTCTTTTATTCTTTCAAAACTCAATGATTTCCTTTGCAGATAAGGGGAAATACATCCTTGTTTGACATTTGACACT
TTTCTAAAACTGTAATAAAACCTTCCTCTAGTAGAGTCAAATCTCCCTTGCTGGTGGATTAAGCAGCTTCAGAAGCTTCCTGACCTTCTCGTTGCTGTTG
CTGGCCTTGTCGTCATTTCACTGCTCATTAGCACTTCCTTCAGGGCTGGACTGGCCTCCAAGGTCATCCCATCCAACCCTCTTGCAATAGTGGATGGAAA
AATGAGGTAAAACTCAGTTCAGCCTTTTCTGCATTATAACAGCTCTGATAAAGGACGTGGGTGAGGTGCGGAGGAAGCTGAAACTTGGTTAAAAGAAGGT
TTGGGGATTAACTGAGGATTTAATTCATCCTTTCTTTCTCTCCCGTGGCTAAAATAGATAGTTGAGAGTTGGCAGTGCATCAAAACCAGGCTGCTCCTCA
ACCCCAAATTTCAGCCCCACTCATCCTGGAGTCTTTGTTGAGGGTTTCTTTTTAAACTGGGGGATCTAAGTTTCTAATTGTGCCTTTACAATTAGCAAAT
CTTAAATGCCTTCAATTGTCACTTTACAGAGAAGCAACTTGCTTTGTTTTTTTCCCCCCAAATTAAGTCCTTAATAACACAAAATAACTTATGCCACTGT
TTAGGCTTAGTGAGGAACCTTCAGAAAATGTATAGAGTATTTATTTTGCAAGTCAAGAGAGAAAGTAAAGAGGAACTTTATGGAGGCGAAATAAAACAGT
TGTACAGAACACATTTACAGGGCACATTAAGTCGGTTTTTGTCTATGGTTCTTTCCCTTTATGGCATATGTTATATATTGACAGGGATTAAGTTTCTCTC
CTGAATGGAACAATACACAGTCACAGGGAGCTACTGTACTTTACAAAGCAACAGACATCAGCACAGGCAAATGGCAAATAGAAATGCATCTCACAAAGAA
CTAACCAGGTCCATGGGAAGCACAGTGCTTGGCTTCATCTTTTGCAATTCTGCATCTTTTGCATTTCCCTTCTCGCTCTGCTGCTCGCTCGCCTTTCTTT
TTCGTCCTTTTCCCCCTTTTTTGCTCGCACCGTTACACTTTCTCTGTCCTCCTGGCTTTGTTATTCAGCATGTCTGATTAGCAGGAGCCTGATTGGCTGG
CTGCCTGCTCCGAGAGAGATTCCATTCAGCTTACCCCCCACCCATCCACCCACCCACCCCTCGGTCAGGAAATGTGAGAGGGGCTGATGGAAGCTGATAG
GCAGGACTGGAGTGTTAGCACCAGTACTGGATGTGACAGCAGGCAGAGGAGCACTTAGCAGCTTATTCAGTGTCCGATTCTGATTCCGGCAAGGATCCAA
GCATGGAATGCTGCCGTCGGGCAACTCCTGGCACACTGCTCCTCTTTCTGGCTTTCCTGCTCCTGGTAAATGCCTTTTCATTTCAATGCATTGCTATTGC
CATTGAGTCTGGGTGCTGTTGGGGGTGTGTGTGTGTATGTGTGTTTGTGTGTGTGTGTGTGTCTTTATCTTAAAACTCCAGGTAAAATAATTTACACGAT
TACAAAGAGAGAATACTCCTTCTAGAACTTTTAACCTCAACTTCCCAAGCAAGATAAAGTCTGCAAGACTTTCTGGAATTAGTTACTGCTATACAGTAAT
ACTGATACTGAGACATGAACTTTGGGACATACTGCATGGAGYTTGGGAGCTGAGGACTGTATATATGGTGGTGTGTATGCTTGGAATTTGGATAACAGAC
ATCCTGAAATTAAACTCACTCACTGTGGTGTTCCTGGAATTTTTTGATGGATAGGCTTTGCAGAGCTTGCCCGTACCGCCTTTAATGAATTACTTTCCAT
CTATGCACATGTACTATGGAACCAGGTAAAGAGGGGAATGAGAGCCTCTTTGCAGCCAACCCAGATTATGGCTCTTAATTACTGCAAGTCATTTATGGAT
AGAAGTTAATGCTAGGATTTATGAATTGAGGATTATGGCCTTTGATCTCAAATTTACTTTTAAAGAAGAAAAAGGAATGGTGACTTTTAGTACGGCTGAT
TGCCACAGTCATAGTGATAAGATGCTCTGCTCTTGAACGTCAGTACACATTGCATTTTTGACTCGAAGTAAATGTTCCGTTGTGACTCATACTTGGTTTT
ATGGGCAGAAAATGAACATTTACTGTCCAAAATAAATCTACACTCAAAATATTAATAGCAATGCACATTTTTTAAACCAGAGTGTTCTGGGCAGGCAGCT
TAGTAAACCTCATCTGAAGGTTTGATTCCAAAATTTGCACACACTGATCCAAACAAATGTGATTGTAGTTTTTCYTGTCACATTTATAACATGCCAGAAC
TTCCTCAGAAGGTAACAAGGCAGGAAGAGAACAAGGTAAAAATGTAGCAAATGAATAGGTTGCATTGATTCCTTGATGGGGAAGGAATGTTTGTTCTGAT
TATATTCTGACAAATCTGATCTGCGCTATAATTTTGAAGTAGGGAAGAAAGCCATTTGGTACAAACTGAAAAAGTCCAGGAGATTCATCAAATAGAGTAA
TCAGACAGTGATTCAATATTTTATACATTCCCACTTCTTAATGATTTGCATCATTGTAGCTAAGAAATTATAATGCTGCATTGCAAGTGCTATAAATATA
GAAATAAATTTTTAATTTTTCATAGAAATTTAAAGGTAAACTACATTTCAAGCATGAATGAACTATAAGTTTTAGCTGTTCTGAAAAATACAAAGAACAG
AATGTTTAGGTATGCTTTATGACTTGTGGAGCAAGCGATTTATGAAAGGTGTCTCATTTTTTCCATATGGGATGTGTTACTTGTATACACCATTAGTTTG
TCTCATCTTTCCTTCTTTGTGATTTTTTTAAGTGTGTGTTATTTTCCCATTATATTGCATCATAAAGCAAATTACCAGTATACATTACTTTTTTGATATT
TTCATATGGAAGTATGATCTCATTATACTTTAGTAAAACTTTCCCATTCAGGAATAGATTGTTTTGCTATCCATTTGGTAAACGCATTATATCCCTCTGT
GATATCTTGAATATTCATATATGTATTAGAGCATATAATTTGACTTATGTGGAATGAAAAGGTATGTATGCTTATTTCAGAAGGACTTAAAACATATCAT
ATTTAAATTACAATAATTGTATTATAAAGATAAAATTAAAACAAACCTAGGTTTGTTTTATGCCTGCATTTAAATTAAGTGGAAATCTGAGAGTTATGCT
ACAAAAGGAAGAACTGACTGATGTTTACATACATCCCTTTGCMAAGCAATAACAGCATTAGTAATAGCTGTCATGTATTTTGTGTCTGAATGTGGCTAGT
TGTTTGAAAATCATTACAATAAATCCTTACAATAATCATACAGATAAGACATTTTAAACCCGTTTTTTCAGGCAATGAAATAAGCTTGCATTTGAACCCA
AAGGTCAAATAATGGAGAGAATAGAACATGTTTGCTTCGTATGGTGGTTGTAAATATTTAAGAACAATGAAAACAGTGGTGCAGGTTGGTCTGTACCCTT
TGTTGCAGATATTTAGGCTTTCTGCATCATCTTGATCATTAAAGATATGTACAATATCATGAGCACTTGTTAAACTTGCTCATTAACTGCCCCCTTTAGC
ATTAAATTTAATTATTGGCTTAAGAGATTGTGACCTTTAGCCTGTTGTGTACTTGATTTAGAACTAGAAGTGTGGCATCATCAGCTCAACCTTCAAACTT
GATAGAGAAATTGAATTGAGGGGCTTGTTTTTCCTATAGTCTTTTTTTTGTTTTTGTTTTCATTTACACATTGCAAGGATTCTGTCTATTCTTGGACTTA
TTTGGGGCAATTTCTAAAGGTCTCTGTAACTTAATTGGAAAACATCCTGTCTATTTTGTGGCAAGCCCAGTTTCTACCTTATTAAAATATCCCTCATTTC
ACTGACAGCTGAATCATCTGTATCATGACTAGGTTCTTGAGTGTGTACAAATATTGAAGGTTGTTCAGCCTTCATTCTGTCAAAATCCTTTCCCCTTGGA
ACTTATTTCTGAGAGGATGGGTGTTGAATCTATTTTACGTTACCACCCATATTTTCATGCACAGAACTTATATCATAAATTTATATTCTGGACACAGTAG
GACAGTAGTACTGATCAAGAGATTTCATTTGATATTCAGGTGAAATTAAGCTACATAATGCCATTTTCTCAATCCTCCCATTCTGCTTTCTCGTATTTAT
TCTCTCTCCTTTGTCCCAATTGTTTAGCTCAAAAAGAATGTGGCAAAAACCATGACCGGCCATTGACATATGTGTCCATCTACACTTGAAGTCAAATCAC
TTCTTGTCAGAAAGGCATTTAATCAAATTTGCATTTGCCTTTTGTTTCTTTTAAACGGTTTTAAGCTCTTTTGCCTGCTATTGTGAGAGTTGCAAGAGTA
ACACTAGGAATTATAATAAAGTACATGTGTTTTCCTGTTGAATTTCTTTTTCTTCTCTGTACTAATTTATACATGGCAACTAGTCAAACACAATAGCCCA
TTCCCTTCAGTCCCTCTGGCACTCTCTCCCACTATTATCTAAGTGGATCTATCTTGGATGGGGAGAAGCACCCTTAGCTTGTGGAATGAATGTTAAGTCC
CTTATTTACAGGAGACCGCGGCCTGTTCCAGCAGCATGTATGTCAGTGTGTTCATGTGCATGCACAAGCACTTTTCTATAATTGTTCACTCTACACAGAT
TTCTTTTTCTCAGACCTAGATTGTCTTTAAATCAAGCTTGAAGACTTTTCGCATAGATCTACAGAACGCTATGAAGCATTTAAAATTTAAAAATCACTTT
CTTCATGTTTTTGTGAAGTTTCTTGTCTAGACATGGCCAGCTACATTTTTGTTTACTCAGGCTCCTGTTTTTAGTGTTTCAGTGTGTTCAGGACCACTTT
CTGGCCCCCATTATTATTTTCACATAACACCATTTCTGTTGCTTCATATAAGTTGAGGGAAGAGTGTCCAATAGTGGTCACTAGTGAACTACAGAAGAAT
CTTGTTACACCAGGAAAGTTTTTCCTTGAAAAAGCATATGGAAATTGAAGTCTTTTGAGAGACAAAGAGAATGAATAAATAAATGCATGTATGTATTTGT
GCATTTGTATGTTTTAATACATGTTGATGCCCATTTACTATTATGTATGTATAAAYTGGAAAGCAGTCTTCTAACACACCATGGAGTAGGCTATTACTCT
AACTTAGGAGATTCACATCTCCTAAGTTGATTCTATCCTACTAACAATATTACAGTTAGGGTTTGCAATTTTTATCAGTTAAGTGTCRTTAACTCTATAC
AAGTTACTCATGTTTTTTAAAAACTTAGTTTACTTGGGCTGTATTTTGCTTGGGGATTATATTAGCATGAGACATGGTCTGGTGTTTTGGTTCTCCCCTT
YATTATGGCTTACTCAGAATATAATTTTAAACTCTTCCAGGAAAAATACTGGGTCCTATGAATTTCTGCTTTTCCCGAAGCACCTAGTAGAGTGCCGTGT
AGATACAGTTTGTGAACTAAATGAAGAGAAAAAATGACTTACAGAGACTATCGAAGGGTTCTTTAATTCTTCATATTTTCAGTGATTCTTAAATTCATAT
GTGTAGTTCTGTTTCTTTGGTCAAGTGACAGCTCTGCTTTTAATTCATGTATCTTCCAGTTTCCAGGAATGACACGCTCTCAGGTCCAGCTATGTAAGTT
TAATTGTGCCCTCCTCTCAGTAAGCATATTCTACTGTTTCTGTGGTCTCATGAGTAGAGTGACCCAGAAGTGACCTCTTCGTAGCATAAGGACCGGAGCC
TTTTCTTGAGTGAGAGCATTCCTTSAATCACCATGAATAACCTACTGGTTAACTGTATTGAGATAATCACAGGAAAATGTGTCTAAATCAAGTTTTACAG
TCTTGTCATTGTTACTAACTTTCTTCTTTTAGAGAGCTGGCTTCAAACTTTGTGTTTTCACCAGAATGAGACAAGTGCGTGTCATTTTCTGTCTACATCA
TAAAAACCATACCATGTGGTTGAATTTTGGCTTGATTGGCAGTACTGGCTCATGAGCGGCTTAGGACTGGCATACCAGAGGTGATGTAAGTCCTAAAGGA
TCCTAATTGAAATAGGCCAGCACAGCTGTGTGGGGAGCCTGCCTGCTAACTGGGGTAAGCTGTTGCTATCAACCCCTTCTTTCCATGAGCTCAAAAATAA
ATGACTAAATCTCCCCAATTCCCGAACTTCAAGATTAAAACCTACATTGAATAAAGCTTAACTGTTCTGTTTTGCCTCTCAGGGACTCTGTTAACTGGAG
CACCCAGCATGGAGGGCAGTTAGTTAAGTTTTCTGGCCACGTCAAGAAGATGCCCAATGGCTGTAATCTGCAGCCAACAGTGACCTCAGGCTTTTTGTTT
ATTGTCTTTCCCAAGAAACTCAGTATTCATAAATCCATTAAAAAGTTTTGCTGTATCCACAAGCATTCTTTATTTTGATTAGAGAAATATATTTTATCTC
ATGAAGTAATTGTAACCTTTATTAGGAGAAATACCATAATTTCTGTGTTCAAATAGCCCCATCCCAAATTCTACCCATATATAGCTATGTGTACAGTCAG
CGCTTAGTAATTGCTTGTCAGAAGGCATAAATAATTCATTGTAATCTCTAAAATATTTTATATGTAATTTTTATAGTTCTTGGGCTACTTTGCATTTATC
TGTGCCATCGCCCATCTCTTACTTATCTTACACTTCTTTCTGTCCCACAAAGCTGTGGGGGACAGCAGAAGGTGTGACTTGTTCCTCCTGCCTCTTTCAG
AATGCCTGGTAATTTGATCTCAATAAACGTGGGTGAATGAATAAATAAATGGAAAAATAAGAATGACTTGGCAAGAAAAGGTGAAAACAGGGAAAAGTAC
AAGTAGGAAGGAAAAATGTCAGCATTCATTTTACATGTGAAGCGTTTCACTATTTCTGGTTTTGGTAAGACCAAGTCATCAACGCTAAGAAACGCAAAAG
AGGTATATATTCTGTATTCCTTTCTCTGTCTTTTAAATATACGTAGCCACACACTGAACAACAATTAACCCSTTTTGCTCTTGTTAATTAGAATGAATCA
TTTTGGATGTTTCATATATTTTTTATCCATTTAGTTCTCAAATATTTTTCCTTTTTCAAAACTTGTCCTCAGGAAGAAAACGATACTTACATTAGTCACA
GTTTTGTAAAACTTGAAGGTACTTAAAATAAACTCTCATGTTAGCAGAGACAATGCTGTGGATTCACTAAAACCTGTTTCTTCTTGCTACTGGGCACAAT
GATAAACTGTATTTGCCAGCCTTCCCTGTGACTGGATGGTACTATGTAATTGAGTTCTCATCAGTGAAAAATAGCTAGAAGTACTATATGGCACTTGTAG
GCCTGATCCCTCAGCCTATGTGATCCTCCAAGCATCAAACACTCTCTCTTTACCCACCTGCTGGATGCAGAGAATCCACTAGAAAAAACTTCATGACTCT
AAGGAATGGCAAAGCCACCAAGTGGAAGTCTAGGTCCCTGAATGACTACATGGAGCACAGCCCCTCAGTGTCACTCTCACAGACTTACACTGTGAACATT
CATTTAACCATGAGCAAGAAACAAACTTTGTTGTGTGAAAACCCTGAAATTTTGGGAAAGGTGTTGTTTGTTATGCTGAAAACTTTTAAGAAATAACATA
TGCTTCAAATTTAGATGCTATACATGCCAGTACTTACTCATAAGTAAGTACTAATACCGTTTTCCATTTATTATATGGGAAAAGAGAACTAACAAGATGC
CACATCATTCTAATGGTGGTTTGATCTTTGCGGTTTGCAATTTACTGCATACCTGAAGTGTGATAAGTAGTTGGGGGTATGTGTCAGTACTACAGGGAAA
ATAGGAAAATGGGTCCATTTTTAAAACATAGAATCTGGAAGTGGATGAGGGAGTGGTAGAAAATGAGGAAAGAAAACCAAAGAGGCAAGGCTGTGGTGAA
ACAGTTGAAATCTCCTGGGACAGAGTGGGATCAAACAGTGAGGCCAAGAACATAGAAGCACACAGATCCAAGGGGRAGGCRAATATAACAGAAAAAGATG
CTGAGAAGCTGAAACCAGGGTGCAACACTGAAACTGCTCCAAGGGCAGAATGTCAGAAAATCAGAGTGAACAATTCACAGAGAGGGAACAGACTCACAAA
GGCAAAGTAAACAAATGTTTTGTACAGCGATATATAAAGTAAACCACACTTCTTGAATATCCCTAGTTTCAAACAATCTTTAACACATTTTTCTTGGAGG
TGTCTGAGTGCCATGAAAGAACAGTGGTTTTAGGCTGGGTGCAGTGGCTCACATCTGTAATCCCAGCACTCTGGGAGGCCGAGGAGGGTGGATCACCTGA
GGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCAGGCATCTATAATCCCA
GCTACGGAGATTAAGTCACAATCTCTACAGTGAAGAGCTTGGAAGTGTGTTGGACATTTTGTTGTCAAGAGTTTTTTTTTTTTTTAATTTTTCAAAACAC
AACTCTTCTGTAGGCAACAGTTCTGTGATGGACATTATTATTTTCAATTTCCCCACAAGCTGGTTCATCTTGTAAATAACTCTCTGCACCTGCTTAGACG
CTGTTTGTTTAATCCTTTTATCCCTGTGTAAATGTAAATTATGGCTTTCCATAGATTATGAATGTGTTATTTTCAAATTATCAATCACTATTTGACTCTG
AACATGAAAAGTTATTTTTACTGTTTCTATAGTTTATAGTCTCAATTTGTGCAACAGAACACACTGGAACAATTTTTTAGTTAATATTCTTTAGGGAAAA
ACTATTTTCAAGATAAATGGTTATCTTTGTGAGAATTACCATTATGTGTGACCAATGTCTAGAGAGTTTTCATCTGCCCCACTATCACTGGGGAACCTGC
TGCCAGATTACAATCTGTACATAGTTTCCACTACATTGTGCTTTCTTGGCAACAACCAAAATCCACGCAAAAAACAAATAGATTCCATTTGGAATTATAT
TTCTGTCAGTGCAATTACTATATGAGGTTGTATCTCCCATCCTCATTAGAATTATACCTAAAGTTCTTATTAAAATAAATTAATTRCAATAAGACCAAGA
TGACCTTGTGCATCAAAAGTAGGATAGTTGAAAGAAAGGGAATAGCAGAAAAATCACGTGCATGAACATATGCCGTTTATAATACAGGAGATTTATTCCA
CTTCTGAGGCAAGAAATTGCCGGACTCTAATAGTTTCACCACCTGTGAATTATTTGGGTGCACCTCATAAGCGGGTTCTTTCTTCTATTTGTTTAAAGAA
ATAAGTGGTATGTTTGCCAATTCTACACTACATTAATTTTCACGGAGTTTCCATTTTCATCTTCATTGCTTTTTCAGATTTTTTTCCAAAGCTTCTGCCA
TTCTCCAGCTAAAGCTTTGGGTATTTTCCCCTTCAATTTTTGTCCAGGGACTTTCTCTAAGTCAATTCAGTTTGTTGGCATAAATGTTGGGATGAAAAGA
GCGTGATAACCTAAGACATCCTGACATAAATTCCAAGAGCACTACAGAAATGAGACAGGAAATTGTGAGCAACCTATAATAAATTCAAACTGTCCAATAA
AATAAATATACCTCACTTTGTTCCCATAGTAAGGTATGGTAGGGTATCTGATTTCTCAGCCTCCTTTGCTGGCTGTAATCTCAGTCACCATTTGAAGTCT
GTATGAGTATTGTTAGAATATTGTACTTCATCAATACAACTAGGAATGAAAAAGATTAATGGAAACAATAAGAACTCCTACTGTTCAGGTGTGCTTAAGT
GAGATTTGGTGGGAACGTTTTCAGAACTAGCCGGTTCTTTTTTTCTAGCTGTTATAACCATTTGTCACTGAGACCTAATATAATTTCCCTGATATACTAC
AYACTTTTAGTTCTTATTTGGGGCTTGTAACTGGTCTGAGATAACAAACATGCTTTGAAATTACTGTTATGAGGTTAATTGGCATTTAAATTCCCAGCCC
ATAGATTCATAGAATGGTTTTAGAATTAAAGGGAACCTTTGATGCATGCGGAATGTGACCTCAGTTGACTGGTATCTCTTTGAAGGCAGGGGTTTTGTTT
TATTTTGTCCTGAATATCTTTGTATCTCTAGCACCAGACAAAGAGTTTGATATAGAAAAAGTGTTTGATGTGTTTGTTTGAATAAATTAATTAGTTGCCT
ATTCCAGCCCTTTCATTTTGCAGATAATTTAATTTAAAATAAATGTCTGTAAAGAGATTCGAGTTATATTTATCACGAGCATCTAGTACATAGGATCCAK
ATACTGGAATCTTGTGCTGTTTCCTTGTGTCTGTTCTCCTTCTATTGAGTTCATTCTCCTGTATTATACTGTGTGGCCCCTTTAGGACCTTTAAATARCA
GCCATCATGCTGGCTTTGGTAGAGAGGGATTGAAATGTTGAAATGTCASATGCGGAAGAAACCAAGGATCGAATGAAGCTGCTGCAAAACAATCTTGAGT
TAAAACTCAAAGATCGGCGTGGCGCGCTGGCTCACACCTGTAATCSCAGCACTTTGGGAGTCCAAGGCAGGTGGATCAGGAGGTCAGGAGATCGAGACCA
TCCTCGCTAACACGGTGAAACCCTATCTCTACTAAAAATACAAAAAATTACCCGGGCATGGTGGCGGGTGCCTGTAGTCCCAGCTACTCGGGATGCTGAG
GCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGYGACAGAGCAAGACTCTGTCTCTGAA
AAAAACAAAAACAAAACAAAACAAAAAACTCAAAGATCATTGTTGGCTTATAAATATCAGGGTGACCTGGCAAGAACAGAGAACTAAAATCTGTAAAATA
CGGCTCTTCCCTAGAGTTATGTCATACCAATAAGCCTCATTTATCTTGTTTCCCTATTAATGAAAAATGTGGATAATTTGGTGATGTATGTGTGAAAATA
ACTTCATATGGGATCTTGCATGTAGCACGTCTCTGAGAAGTGCTAGCTTTCTTTCCTCCCTCAGTGCAAAATAGCATCTTCATTGAGAGCCTGCTATATA
TCAGGCACTGTGCTAGGTACTGGCTATGCTATATTGAACAAAACAGACATGGTCCTAAAGATGAGTCCTTCTACATAGAATGTCGGTAAGGATTTGGCAC
AGGGGTGAGGAAGACAGGAATTAATTGGTCAGTACTTTCCAKTGGTTTTATGTTGCTGTCATGATATTATTTTCTTTAAACTGTATATTTAACTATTGCT
GATGTAACGGGGTTTCTGCCTAAAGAAATAGACACATTAATTCATTATTTATAGTGATTCAAGAAAGAATGTGTTAGAAAAACTCTAAATCTCTAAAGAT
TTATATTTAAGGTCATTTCTTTGACTTTTGCTTCTTTTTCCTGAAATCCTCTTTTTTAGGAATACTGAAACCTAAGCTTAATGGGTGTATTACTTTGTCT
CTGTGTTTATTTGATACATAAACACCTGTCTTTTCAATCTAGAGCTATGCTAAAGTAGTAAAACCTTTAAACCAGTCCCTCTTTCAGGCAAATAAAAGGC
CAGTCAGCTGCATATAGAAGGCTAATGACAGTAGGTTTTCCCACAAAAGGTTTGCTAACTTCAGTTTGCTGGTGCTGGGACTTTTATTAAGCAGGACTGT
CTTGGCTGCAGGCTCCAGGATTTTGATTTTAAGAAACTCGATCAGTGGGTTTTGCCCATTTGAGAGTTCTAGATGATTTAAAGCAGTGATTCTCAGACTT
TTGGATTTCATAGACTATTAAAATTTCAGAAAAAAAATAAGGCTGGTTGGCAGGTAGGTAGGAGTTACGGAAAGTAGAGACAAGTTTCTAATTTTTTGTA
TTGTTAACTAAGGACGCTAATAAAATAAATTTCTCTCACCATAGTTTCATCAATGAAATAACATTAGTTAATACTCAAGAGAGTACTTGCTTCAATGTAA
GAAGCACTTTACATATACTGCATTAAATTATCTAATTCTCATAAGAACCCTATGGATGGAGCCATGACAATTTTCCATCTTGACAAGGAAACTGAGGCAC
AGAGAGGTTATGTAACATGCCTAAGATCACTCAGTCGGTAGGGGAAGRGTACAGATTCGAACYGAGGCAGAGTTCATTCATGTCTCAACTCTCCGGTTTT
CTTTTACCAGTACAAGAAATTAAAGGTCATTTGAAAAAGCCAAAAGTCCCAGGTACATGATTTCAGAAGAAAAAAAATAACTAAACACATTTAGCCTTAT
GGAAAGCTAACCAATGTCCTTATTCTCTTTATTCTATGTGTCAACACATACTTTGTCATGGATTGGCCTGCTGTCTGCCAGTCACTTTCCTTGAAACACA
AAGATRAACAAGACAGTCTTACTCCCCAGGAAGCTCACAGGCACCAAAGTTTTTAAAAAATAATAGACCGAGGCAGAGCAGAGGATATGAGTTTCTGTAG
TAGCACAAAGAAGAAAACAAAGAATGGGAGGGATGCTGGCATTTTTCTGTCTGATGTGTCCCAGGCACTGTCCTAGTAGAGAATAACTCAATGGAAGTTC
ATCAGGCAGATAAGAGAGGGAAGAGGGGGCATTGCCAGCAGAGGGACTTGCACGGCAAAGGCCCAGAAGAAGGAAAGGGAAGGTAAGTTCAAGGAACAGT
GAGTGAATCCCTATAGCTGGAGCACAGCCAGATCATGCAGGGTGTTGCAGGCCACCCCCAGAAGCTCTGACCCAAGTTTTTGTTTTAGAAAGACAGCTGG
GATGGCCACATAGAGTGGAAAGGCCTGGAGAAGGGAGGCCAAAAGTTWCAAGATTATTACACCTCTCCTGGTGAGAAGCCACGAAGGCAGTAGCACCAGC
AGCAGCAGTAGTGATGACAAAGAAGCGTAAACATCCAGCTGTAAGGCTACATAGTTACTGGTAGCAAAAACCTCTTGTGGGCTCCCTTTGCTGTACATCT
TGAGGCCTCAGAGGCTCTTATAAAGTGCCAGCTGGGTGCTAGGGTTCTTTAGATCCCACTGTTTAGCATAGAACCAGGGCTTGGAACTGAGTCAGTGTTC
AACAAATGTTTGCTGAATGAAAGTGTGAAAGAGTTAGTAATTTTATTSAAGGCCTCCCAGTTAAAATTTTTGACCTACAGTTAGGGATTATTTTTCCCAA
ATTATTGAAGGTATTCGGGAACAACCAATGTATCTGTATCSTAAAAAGTTAAGAACTTTCTGTCATTCAGCAAAGTGTGAATTCAGGCCCAAGTTTTCTG
AAGAGACTGCCAAACTGTTGTGACTTAACCCTTTATTCACTCTCAGCGAGCTTTTAAAAATAGAGGCTATTTCAAAAGGGCAATCCTGGCCTAGCCAGCA
TGGTGGCCCACACCTGTAGTCTCAGCWCTTTGGGAGGCCAAGGCAGGAGGATCGCTTGAGCCCAGGAGTTCAAGACCAACCTGGGCAACATGGCAAAACC
TCATCTCTAAGAAAAAATGCAAAAATTRGACAGGCATGGTAGTGCGTGCCTGTAGTCCTAGCTACTCAGGAGGYTGAGGTGGGAGGATTGCTTGAGCTGG
AGAGATGGAGGCTGCAGTGAGCCGAGATTGTGTTGACTGCACTCCAGCCTGGGTGACAAAGTGAGACCTTGTCTCAAAAAAAAGCGGAGTGGGAGTGAAA
ATCCTGTGCTTTTTGAAAGCTTTACCTCCCTCATGTAACACAAAGCCCATAACAGGGAGTCATTTTTGTACCTTTGAGTGATTATTGTTGTCTGAGGCTG
TAGTAGTTTCCCATGTGTGATCTTCATCTGTTTTCTCACCAAATAGCGTCCTACTCCACTCCTTAGATTCATGTCACAATTACGAATCTTTACATGGGAT
GCCAGCAAATCTCTTTGCCCTGATTCTTGCAGCTTTTCACATTGTCTAACATAGGCATCACACGTGAAGTTCCCTTTGAAAACAGCTAAAAATGCCGGTA
AAAGATGTAGCATTAATGGTCTAAATGTATCTGCCCTGATTAAATATTAATTGTGGTCTTCAGAAAATAATCAGGCCATATCTGAAATTCCTCAATTTAT
CATTTTATACTAAAAAACATGATTTGAAAAAATAACTCCTAAGTTATACTAAAGTGAGTTAAATGTCACATAAACTCTTTATATTGTTTCTTTATTAATC
AGATTGCTAAGGCGTCAGATTTTTAATCAGGCATTGGAATCTCGTGTATAGAATTTATTTTCCTAATTATAAACGAATAGTCTCCACTGTGCATGTAGCT
CTTTACACAGCATTAGTACAAAATTGATTATAGCTTGGCCTCACCTCATAAAGTAGATATGCTTTGGAACAGCATCAAATAGGTATTTATGTTTTAAATC
ACATGGTCCTTCTGACTTTCATTCTAATTTTGGACGATTACCACTTTTACTTTCCTTCCTCCTTCCCTGAAATTGACTGCAAACAGCATGAAAATGTCTT
TAGACTTAGCAAAAGGGGAAAAAAAGTTAATTTCAGTCTCCTCCTAGGTGCCAAGTACTGTGCTATTTGTTTATGTATGTCGTGTCATATAAGCCTGACC
ACAGATCACAACCCATTTTACCGGTAAGAAAACTGAGTACCAAAACCTAAAAGGTGTTATGAATTTCCTAACTTTTCATGTRTGCGTATTCAGTGCTTAG
AGCAAACAAATCTTAYTGAAATATGCAGTACAGATTATTTTCCATGTTGTTTGAACTATGTTTTTGGCCTTGGTTAGCAGGAGCCTCCCCAGTGTGCTGA
GCGATTTCCACAGCTTCAGAACCAAGTTCATTGCAGTTCACAGCTTGTACCGTATTTCATCGATCCTAAGACACAAATTTTTTTTCTGATTATAGCAACT
TGAATGAATTTCATAATTATAGCAGCCATAGTTTAGTGAGTGGCATTTTTAAAAGGGTTCGTAATGGCATATAAAATAGGAATGTCACTTCAGTCTATAG
CATCTTAGGTTTGATGCAATGCTGTATCAGTCTTTCCAATATCTAAYGAATAGAAGCAAAGCTAGGCTTAAGATTCAGATGCAGAAATACGATTATGGAA
CCCTCTCATTCCCTATCATCTGATGTGGATTATTCCCGCCTTTATTTACTGATCTCCCCAATCTGAGGGCCTGGAGAGAGTCTGTATGTTTGTCTTACCT
TAGATCTGTTCTGTCACCTATCAAGATCAAAACCCTCTGCCCAGGACCTCCTTTATTCTTAATCTAGGGGCGCCTGTTTCCTTATCTGGAAGCAAGTGTA
CCATAATTCAGTAGCTTCCCACGTTTGGTCAGTAGCCAAATCAGCCAGACACTTGTTAAAATTATGAAGGCTCCGGCCCCTCCTACTTCAATGAGTATAG
ACCTCTGTGTATTTTATTAGCTTTCTTGGTAATTCTGATACACACCAACATTTGATAACCACAGAAATAGTGGTTAAGAGATAGACTGCCTGGATTTCAA
CCCTGGTTCCACCAGTGTAACCTTTCTGTCATTTTCTGTGCCCCAGTTTCCTTGCCTGTAAAACAGGGGTCAACAATGGCATGTACCTCAAAGGATCATT
GTGAAGTTTAATAAAACAAGTCATGCAACCTACTCAGCACAGTACCCCACACAGGTAGCAGGTGCCCAATAAACATCAGCAATTATTACTCTCTCCCTGC
AAGGCTGAAATTTCCCTACCTCATTCCAGAAACCAACCTCTTGTCTTTCCCTGGATTCACAGCAGCTGACAGTTTTGCCTCGTAACTACAGTCTTCCATG
CAATCTCAAAGAAAGGGACTGAGAGGAAAAACTAAGATTGCTTTTGAATTTGTGGGGTCTGGAGCACATTGAAGCCAGTAAGTCTAAGACAGAATAAAGA
TAAAAGTTGGTTCAAGAAAGTCATCCAGTGAATTCACTCATAAATGCTTGTCTAATTTAGGGTTCTCAACCCTCTTCTGCATAAAAATCACCTCAGGAAT
TCCAAACAAAGTATCTGGGTGGCTGGCAGCCTCCATCCCCGCAAGAGATTCTGATACGGTTGGTCTGGGGAGAGACCCAGACATTGGCAATTTTCCCAGG
TAATTTGAATGTATAGACAGAGTTGACAATCACTGATCTAATTGAATATTTAAAGGGTTCCAAAAACCTCTTAACTGTTAGTGGATATATCTCTTATATT
TGAAGATGCTTTATAAACTCCCTTCCTCCCTGTGAAAATCAAAAACTTAGGAGCCCCTTGTCCCTAAAACAGGGATAATATACTGATTCCAGGAACTCCT
GTAGTCAATGTGAATGCACTTTGTAAATTGTTAAGTCTAYATGTGAGAGGAAGCATTCTGGTGCCTAATGTGAAGATGATCATCCGATCCTGTTACATAG
CATGCACAAAGAGATTCAGAAATCCTCCAGTTACCAGGATGTCGCGTAATCTGAAGTATAATGCACCAGCCACTTCAATGTATACACTTTTCATTCAAAA
AATAGGAACCATGAACATGTTAAATCATTTCGTAAAAGATAGAAGAAATTAAAACCTTCCTGAGCCCAATTTGAAGGGACAAAATAAAACATACGCTGAG
AACATTCAGTCTTCCACACAGACTAGTCATCTCATCTTTTATTTTCTTTATTTTTCTTTTTCTAGATGGCCATTGTGTGAGATTAAGTATTTGGTCATAT
TTCCCACTGCTCTTCTCAGATAGCTAAATTTAATTCTTATCCAAATGACCGACTTACCCAACTGTATACCACTTATTTAATTAGACATAAAGAGATACTA
AATTCCTCTCATCTGTTGAGGAAATGATGGTAACCTGGCTTTGTCTCCTACCCTTTAACAGAAACCTCATTTCCCCTTTTTTCCTAAAATGCCCATAAAC
CTTCAGTGCCTCATAGTAGTATTATGAGGATCRAATAAGTACGTGTAAGTACTTTGAAAACTGTAAAACCTTAGTCATCTCGTGCTCAAAAGCCTTCACT
GTCTCCAGCTGTCTGGAGTCTACTCAAGGACCAATTCCTCAGCTGGGATCCAAGGCCCTGTCCCAAACCATCATTCCTATCTTATGTTCAGCTGTTTTAC
TGCATGTGTCCTGGCACACTGAGACCCATGCCACAGAGGAACTGGCCTGGCCAGAGCTGGAAGCAGGCTGGGGTCCCAGTTGTGTATCACATAGAAGACC
ACTGCAAGAAGAGTCTGAATGGGGGCTCTAGCAGACAGGGGGAACAGAAGGAAGCTACACAGCAGAAGCAGAATAGGTGGCAGAGGCAATTGATTGGAGG
GAGGGAGAGGGGGTAGGTGAAGGGGATGAGGAGGAAGACAGAGGAGGCTGGAGAAAGGGRAATTGTTGTATAGCAATGTCTGTATGTTCATCACTATGCT
AGGGGGAAAGACTGCTAAAATATTGGGGCCCCAAATAGCGAGCTTGGTTTTGGATGTGCTGAGTTTAAAGTATCAACAAAGCATTCAGGTAAGTGAAACT
AGAATCCTGGAGATTGGAAGAGACGTAGATTTGTAAATCACATGCAAGGAGAAGACAACTCAAGTGAGGAAAGTGGATAAGATCAATCGGAGCACAGAGA
GAACAGGGGCCTGAGGAAAGAGTCTTGGGGATGACAGCATTTGCTAGTCCAGATGAGTAAGAAAAGGCAGGGGACAAAACAGGGGAGAACTCGCTGCCAA
AGAAGCCAGGGGAGCATATTCCGCAGCAAGATGTGAGGGAAAGTCATAGGATGTGGTGAATTACAGGATGCTGATGAATTTCAGAGGAGCCACGTCAGCC
AAGCGGTGGGCAGAAGCCAGATTACAAAGCACTAGAGAATTCGGGAGTATTGGGGAAGTGGGTGCAGTGAACATGGGTTAGCCTTTCAAGAAGTTTAGAA
CTGAAAGGAAGGGAGGCAGGAGACAGGTTAGCCCTCACCACTGACAGAGTGGAGTGTAAAGGCAGGAAAGCACAAAGCAGGAGCTATGTGATAAAAGGGA
GCTTGGTTTTAATAAAAAGAAGAGAAAGTGCTTTCGTCTTAATAGCTCAAAGAATGCTGATAGCAGCCGTGTGTGAAATTGATTTCTGAGGCCCAGCACC
AGAGACAGAGAGGCTGTGAGGCAAATGGGGTAGTAAACCATGATTTAGCACCTTCACTTTCTCTGCTTATTACAAAACAGGCTTTAAAAAAGATGCCTGT
GGTGTGCCTCAGCATTCTTGATATTTTCTGTGGCCAAGATCCATTTTAATATATTCCTGAGGCATTTTGGTAATTCTAACACTGCCTGAGACATTAATCT
ATTAACTTTTCACATTGCTAAGCATGTTAATGCAATTTAAATATTATTTCTCTTAAACAACATCGATGTGGAAGGAAAAAGAACTCTTCTTGCTGGAAAC
AAAAAGGTAACAGGCTGAAAATGCTTACACGTTGAAAGCACAATTAAGCTTTATAAACTCTCAAAGTATTTGCTTCTACTCTGCAAGCATTGAGAGCCAG
AGATGGCTCACAARAATCACAAAAAATCATGTCATGTTTCATGTACTGTTAATAATAAAYATTTAATAAGTGGTTTTGCAGATGGCTCCTTAACATGATC
ATTTAATTTATAAATTAGAAGATGGTAGTCCTTCCCATATATACAATATCTGGATTATATTTTTCAGTTTAAAAATGCCAAAAGTATGCAGAATTTAGCC
AGCCCCAAAACGTAAATATTTCTGTTGACTGGAAGATAGGAAGAGATGACTGCTATATTTGTCTCTAATCACCATTATTATTTCCCATTTTAATACAAGT
AGAGCTGTACTATTTACAGATAATGATGACAAATTATAGTGGCCCGATAAGGACAGGTTCTTTTAGACAGTTATTTTAAATGAGGCACTTATACTACAAT
CTACTCTGGACAAGATTTTAAAGAAAAAATTGTAGGCTATCATGTTTTTGAAGTAAATACCTATTTAACTAGAGAATGCATGGCTTGATTGATGTAGTTA
CAACAAAAGCTATACTAAGACAATAGTAACTGACTCTCATTTATTATTGATAAAGGACTTAATATGTAGGAAAGCATTTTAAAAAACTAAGTTACACAGT
AGGGAAGCACAATAACAGAGTTTCTGTTTTGATACAAAACAAAGTATGTCATGAAGATTATTGATATAGCACATTATAATACAAACATCACAGGAAGAAA
AAAACATCATTCCTTAACACTTGGCTAGGAATTAAGTCAATATAGAAACTGAAAAACATCAAATAAAGCTGACTTTTATCTCAGCATTTGGGAGACTTTT
GCTTACAAGTATTTATTGTTTTTCAAAGTATTAAAGAGTAAACTCTTATTAATAAAAAGTACAGAGTATAATTTAGCATTTCTTTTATTATTCAGAAGTC
ACTTTAGGATCTGCCATAGGTTCTGGATGCAGAAAATTGTATTAGCAAAGAAAGAAAGTCCCAGCAGAGATTCTCTGTTTCAAGAGTTGCTTTGTAACAA
AACAATTCTTAGGACTGAAGCTGTAGGACTGCCTCTACTTGGATTTCATTTATTAATTGCACTGCACAACGTTTTTTCAYGTATTAGCACTTATATTTAA
AAAAATAACTCTATGAGTTACAYAGAGCAAATGCTTATGTTCCATTTTACAAATTAGAAAATTGATTTGTAAATGTGCTTAAATGAAATAGACTAATTTA
GAATCATAGACATTTTTGTAGCTAGAGGTGTCTCAGAAATTAGCCAAAATTCCTTTTTGTGGAAGTGACTAATCTGAGGCAGAGAGAACTAAGTTGCCTA
AAATACCACAGCAGCAAAGTCAGGATATAACAAAAACACCACAGTGGCCAAATCCTGTTGCCTAGACTGTGTCCCTGTTTAGAAGTTTTTGCTATCAATA
TTATGTATGTACACTCTGAAACATTTTAAAATTAAAAGTGCTCACCAAAAACTCAGCAGAACAGTAAACATCCATTGAACATTAAACTCTGTATCAAGCC
CTGTGTTAGATATTAGGGGTTAAGCTGAATATCACCTAGTCCCTAGCTTCAAGGACATTGTATTGATATTTTGCCTCTATTAATTTATTTTAACATGAGA
GCTCTATTACTTGAATTGCAATATTTAGTTTTATGGAAAATCTAATGGAAATATGTTCTCCCGAGTCCAAAACTCTGACTTTAAAATGTGTGTTCAGATT
TGCTTCTATCAGGTTATTTTTCCTGATTAATTCTGCTCAACTTTACATCTCTCTGTGATCTATGGTTATCTATGTATTGTACTAATTTTTACACTCATTA
AAAATGATTTAATAAGTATTCTTTACTTCTTTTTAATTGGTAGAGGCCTATGCTTTTAATTAAGCCAGGACTTCCTCACCCACCTCTCTTCATTCTCATT
CCCAGTTCTCTTTCTAATCCCAGCACACTCATCTTCAAAAGCACAGCTTCCCAAGTGCTGCAGAGGGATGAAAATTGTTTACTCAGTGACAGGCTCCCTT
TGGCAAACAAGGATCTAGGACTTGGATAAAGCTAGATTAAGCCAAGATGTGACAGGTTAATCATCTTTCAGCTTTACACATTTTGGGTAAATTTAGAGTT
GGCATAAAAAGACATGTGAATAAGCAGAAATGTGATCCTTTTTTTGCCCCCATGATTCAGATTCATTTTTGTCCTCTTCTGTTCCCTTGCTTATCTGCAG
CTTCTGCATACATTTTTTCCCTCTGTCTTTAGATAATCTGAATGTATATGGACAAGAGTGAAAGCTGACAGCTGTTATGAATTAGACATTCAACTGCAGT
TTGTCCTAACCTGCCTTGTGTTAATCATTCATTTAATGAATATTCACTGAGACCGATTACGTATCTGGTGTTCTACAAGGCACTGCGCATATTCAGAGGC
ATATTCATCTTTGTCACAGSTCTTAAGAAGCACACAGTCCACTTCTGGGGATAGATGTGTAAACAAGTAACTATACTGGGTGGCTGACAAATGCTAAAAT
AGCCATTTGTATCAAGTCCTAGCAATATGCTCAAAACACACAGGATGGCTGGGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCRGAAACGGG
TGGATCACCTGAGGTCAGGAATCAAGACCAGCCTGGGGAACATGGTGAAACCCTGTCTCTAYTAAAAATACAAAAATTACCCGGGCATGGTGGCGGGTGC
CTGTAATCCCAACTACTCAGGAGGCTGAGACAGGCGAATCGCTTGAACCCAGAAGGTGGAGATTGCAGTGAGCTGAGATCACACGACTGCACTCCAGTCT
GGGTGACAGACTGTCTCAAAAAAAAAAAAAAAACCAGGCCAAGCAGTGATTGATTCTACCTAGAGATAAGAGAAAATTTTACTAGAAGATGGCAGTGGCA
TTGCATCTTAGAGCAGGAGCAGGAGTACACAAGTCAAATGAAATAAAAAGATGTGAGCAAGATGGTGAGGAGGGGAATCTAGGCACTATCAAGATCATGA
CCCGATTACTAGATGTCCTCACAGCACCTGTGTTACTGAGAATCATGACCAATTACTGAAGTGTAGAGGCCATGTATGATTACAAAAAGCAGGAATGAAT
CTAGAATGTTGATTTAGGGCCAGTTTATGAAGCGTCTTGTATGCTATGCTAATAACTTAGACTTTACCCTATATCCAATGGCTCTTCACCTTTTTTGAAG
AATTTGATAAAAGCTATAAATCCTCGCTCCAGAAGTGTGATATAACACACATATGCTCAAAATGTGGCATAGAGTTTCTGAGAGTTCATAGCCCACCTGG
CATTTATTAACACTACTAGGTCCCATCAGCTTTAGGCAGTGGAGCCATAGAAAATCTCCTAGCAAGGAGTGAACAGTTGAGCTTTGTATTCTAGCAAGAT
AACTGGGAATGATGAAGAGGACAGACTGGTGGGAAGAGAGGCTGGAGGTCAAAAACACCAGATGGGAAGTCAATTGCARAGTGCCAGGCATGAATGGTAG
TACCAGAATTAAGTCAGTGAAAGTAAGATTGGACGGGGTGAGAATGGAAGAGAGAGGGATTTCAGAAATGGAATTGATAAGACTTGATGTCTGATTAATT
ATAAATGATGTTGAGCAGTTAAATATTTTGTTGTTATCTCAATCTTCCCCACTAAACTGTAAATCCTCTAAAGGTGTTGCTGACTCACGCAGGACTCAGG
GAATGAGCAGAAATGAAAACATAAGCATGCAGGATTAGAAACTTCACATTCATGTGAAAGCAACGCGTCCCTCAAAAGCCAAGAGGCAGAGGGCTATGAG
GTAGGGTAGTGACCTCTGAGACTAATCACTGCTTATGGACATAAAATCAAATAAGGAACTGTTGAAAATAGTAAACCTGAGTAAGCAGTGATTAACTTGT
TGGTTGCCATCTCTACCTTACATGGTTTCCTAGCCCCAGAGCACCTCCTAGATAGCTAAGAGACTAGGTTGGTTTGCTTTACATTCRTAATGGGAARGTA
TGACCAGAACCTCAAAATCAACCTACTCCCAAAACTGCAAAATTTGCCAGAGTGTTCCAAATATCCAGGCTACTGCCTGTAGTTACAGCTACAGGTTAAG
CTAGAGGAAAATGTTATCTATTGAAGGTACAAAGATATGGTAATTGAGAGAGCTACTGCTTCTTAGAACAAAGTCATCTAGGTTGCAGGTACAGAGTTTT
TGATGGACTTCATCTCCTAGTGTGTGTGTGTGAAGGTGGGGGAGTGATACCTATTTGAGCTGGAGAACAGAAGAAAGTCCCTGAAATTGAAATTACTTGG
CAATTTTAAGTGACTGGATATTTCTCATGGTCTTGCTTTCTCCCCCACTTTATGCTTACTCTATGCCCTMTGTACCTTTTTGAGAGACAAATGACAAATA
TGTAAACRTTTAAAATAAAACGTATTTCCAGGCATTTCATCATTGATTAAATATTTGTTGAAATCTTACATTTTCTTCAAAATGACATTCTTAATAATTA
TTTCAATAACTGTAGATAACTCAAAAATAGAAAGCATCACCCCTGCCTTCAAAGAGCTTCCAGTCTAATTGGAAAGATAATTGTTATATAGAATGATAAT
CCCAAAGAGCTACAAAGTCTTGTTTTAATTTATTCTATACTGACTCTTTGTAAACTAGTACTACATAATGGGACATCAAGTAACTTCAGGTTAAGGAGAA
TACTGCAATACTAAGAGCTTATCATTCCACTTTTTCTGAGTAAGGAGAGCTGAACTTAAGCAAAAGTAGAAACAAGAATGTAAAAAAGAAGAAAGCATAA
TATTAAGCCAGGGAGAATGTTTTAAATTTCAATCCCACACATCCTACAATATCTGGATGGTATTTAAGAGAGAACGCATCCAATCATGAGTATAGGAATA
GAACCTAAACCACATCCCGCATCCCATGGAACTTAATTCAGAACTATTACACCACATTTTTTTCTTGGCTCACATGGCACAATAGTCAACCAAAGAAAAG
AGAAAGTTCTACCAAAACCAAAAGCTGACTTGTTTGAGAGTGACATGAAGTTAGCTAGTCATTTCATGCAGCTTCCCTATTATCAGTTATAATTTGGGTT
TTTTTGCCCATCAAACCCTAAGCCATATTAATCTATTAACGTTCCAGTTTCCTCAGCAAATCATGAAATGAGATTTTTCTCCAACAGGAATTCTTCCTCT
ATGATTCCAAACCCCAACATGTGCTTTCCAGAGCCTCAGATGTTTCCTTAGTTCTACAGATGGTTTGTAAATTCATTTCAGCTCAATTTGCCAGTGCTGC
AGAAAGTATCTATGGCTGATTGGAGTCACAGTTTGGACGGACCTCTRGTTAGATTAGATGGAAGTGGAAACTAAAACTTCTAACTGGCTCACCAGGAAGT
TGGGAATTCACAAAAAGAGCAGAGAGAGAATTTCGTTTGAGGGGGTGTTTCAAACATGCCTGTTTTGGGGAGTGGAGGGTGTGGAAGCCCTAGGGGGTGA
TTCTTCACTGTTTTCCTTGGTGTTGGGCCTACATATTATTTTCCACTGGAGATTGGTTTTCTAAGTATAGGAAAAAGAAGAAAACAAAAAACAGCAACAG
CAACCAGGAACARTTGTTTCATTTTTAGAACTCCAGGTAAAATGGCTAACGTTTCACACCTGAGGTGAAATAGTATCAGGGTTTAAAATATCCCTATAGT
CCAGGGGCCAGGAAGGTGATGACTTCCTTCAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCA
CTTTTCCTTTGTAAAATACAKGAATTACCAGCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAG
AAGATTATTATCACAGAAAAAGAGAAACAGACTGACAGGCTATTTCTAGTAGAAAATCTCCTTTAGTCTTCCAAATTAAAGGAGTTTGAAATCTCTATCA
AAAAAATGCATTATAATATTTATATTAATATTCTCTCAGTCTTATGACAAAGCAGTTATAGTGTTTCCATTTGCTAAGTTTGTGCTTTTAAAGTAATAGA
AACTGAGAATGATCAAATATTTTATCTATGCCTTCCCTTGAGATAAGCTGATTCAAAATATTCAATGGTCTGTCGAAAATTTCCTGAATACTAACCTTTG
TTCATATCAGCAATTATTGATTTTAATTCAACTGGCTGTGAAATTGTGTTCTGTTGAAGCTTTCCAAAATGCCCAGAGGTTTCTCAGCAGTTTTCTAGAW
GAGCTATAATCCAGGCTTGACCTTGGATAGAATACAAAATAAAATCAAGTTACCATAGTTCTGAAATGAAAACCTTACTGAAGTATTTGACATTGAACAG
AGTCGGATTTTTGTTTCCTAAAAAGTGATGAAGCTGTTTTAATTTCATCTCCAAATTGTTGTCCCAGGACGAGAAGGAATTCTGAGGACAAAATAATTTT
TTAGAAGAAAAGCAACACCATTCATTGTCATTTTATACAAAATTCACATACTGATAAATACTGTTTGAAAAGGAAAGAAAGGTCAAAATATGAAGCTAGG
CAGAAAAAAAAAGATACAGACATAAAACTTGGCTTTACTAGATATTAACTATGTGACATGAGCGTGTGTGCATTTGTAGCATGGGGGTGGGGGCAGGGAG
TGATAAAATAATTGGCACTAATATGCCAGAAACTATGCTAGGTACTTCACATGTGTTCTCTCTGTTAATCACCATATTATGAGAAGTATCAATGTTCCCC
CCACCCCYTTTTTTTTTTTTTTKGAGATGGGATTTTACTCTTGTTGCCCAGGCTGGAGTGCATTGGCCCGATCTCAGCTCACTGCAACCTTCACCTCCTG
GGTTCAAGCGATTCTTGTGTCCCAGCCTCCCAAGTAGCTAGGATTACAGGCAAGCGTCACCATGCCTGGCTAATTTTTTGTGTTTGTAGTAACGATGGGG
TTTAACCATGTTGGTCAGGCTGGTCTCAAAGTCTTGCCCTCAGCTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGCATGAGCCACCGCGCCCGGCCAA
TGTTCCCATTTTACACATGAAGAAACTCTGGCTTAACGAGATCTGACAACATGTCTAAGTTCAAGTTTACCAGTATATGACTAGGAAAGTCCGTCTCACT
CTAAAGTCTGTGCTCTTTCTCCTGCAGCATGATACAGGTTGTTCAACCTCACAGCCTCAATTTTCTTATTTGTAAAATAAGGAAAAAAAATTCTCACCTG
ACCTGGGTCATTGTGAGGATTAAATACGATCATTTGTCTAAATCCTGGCATGCTTCCTGGCATGCAGGTACTTAAGAAACCCCAGTTTTCCCTCACCATC
AACTCTCCAGGCTTAGTGCAGTTAGKCGCCTTAACAGGAATGCGCAAAAGCGCACTGGAATGTGTGCATAGATGCTGAGAAAGCAAAAGGGAGACAGGTA
CCCAAAAGTCCTCCTTGGCCTGTATAGCTTTTACACCCTGTTACAGAATTGACTTTTCKCTTCAGTAGCAAGGGACAGGCTTCATGCAGTGGCCTCTGAA
AGACCATGCACTGTGTCACTGGCAGTTCATCATATCTCCCAACAGTGCAGCTGTGATAAGAACCAGATGATCCAAATTTCCTAAGCAAAGCCAGCAGCAA
ATATCATCTGGGAAGGCGCATGCCTCAGTATCCACACACTACGCTCTTTAAGAAAGTACATSAAAAAGCTAATGGACTTTTACAAGAGCCCAGTTACTGC
TTAATGTCTGTGAGCTCTCAGGAGCAGGGAATCACAACCCCTACCACATACAGTTGGCGGCAGAACCAGTATTCCAAGTTGTTAAAGAAGCCAAGGATTA
GATAAGATTTATAGAGACCTGATGTGGGTAGGGCAGCTAAAAATGGAATCTGCAGATTTGTTTCCAAAGCTTCAGACATGGCCAGGMTGTTTCTGTGTAT
AGATTGCTCCACTTCGCATGGGCAGACCACAGGAAAAATGGTTCTCTCATCACTGGGGRAGTTGCCCCTCTTTTTAATATAGAAGTGTGTGACATCCATT
TGATACAGCCACATACACAGCTCCAGATAACTTAAGCTAAATGCTGTCTGTCTGGAAGTGGAAAACCAGAGGTTCAGGTACCTTCTTGATGATCTTAAAA
TTGTGAGTGCCATTCTTTGCCTTCTCTCATAGCCCATTTTGTTACTTCTGACGATCTGTTGACATCTGAAAAACACTTCTCTTATACTATAACTTCAGCT
GTTATATGACTTCAATTTTACAAAAAACTATCAAGCATTTCCTCAGCACCTACTTTTTTTTCATTTAATTTCATATAGCTTGACCTCTTGTTTTAACATT
TGGAAAAAATATTTTCCAAGTACCCTGTATATGCGTGTCTCTGAGCAAATATAACTCTAGTCTTTTATTGCTAATTTCTGCTTCATCTTACATCTTTCAT
GTATTTGATAACCTGTCCAGGTTCCAATGAAAGAGGCTATGGATAAGTGGTACATAGGAGGTCATTCTAAGGTGAAGTGTCTATTGGGCAGTGAGCTGCA
GGGAAAATATTGCTTCATGTGATTACTCAAATTGTTTAACTACTTGTAGCTGTCAGGCTTGGAGCTGTTCACCTGAGACTTTGTTGCTGCAATTGGCTCT
GGAATTAACCACAAAACTGTCAGATGTAAACCACGTTTAGATAAGCCAGTAATGGCAAGAAAATGACACCATTCTGAGGTTGATGGATGTAGGAGAGCTC
TTCTAGTATTTGTAGGAGGCATATAATGATCTGTGACCACAATCTGTATTCCATAAAATTGGCATTTACTGAGGCTAAGAACGTCTTGACTGGCCAGGAA
CGATGGATCAATGGAGTTGGGGGGTTGATTGCTGAGTTTCTGAGAAGACAGCAGTTGATTCAGGAGTCTTATCCAACACTACATTTAAAGGTCAATATGT
GGCACCAAAGATCTAAAAATGGCTGAACTGTTTCTAAATTTAATAACTCAAGGGGCCTAGTCAACTTTCATAAAATTATAGAGCCAAAACTCAGGCGCTT
CTTCTCTCAGTGGATTTCTCAAATGCTAGATCAAAACAGCTGCCAATTGTCCATTCTCACTCATCCAATGCCTGTAAAGTAAAATAGTTGCTGTAATAAG
AAAGGGTTTTATAATGGCCTTTTCCCTCAAGTTCAATATGAGATGCACTCTAGACTTTTTATGATACATCTACTACTAGTGAAACATTGCCTTACATAAA
GAACTTAATAGTTGTTCTTTAGTTCCTTGTCATTGATATTAACAGCTAAAGACCATCATCTCACATGACATTGCTGCTGAAATTTCCAGCAGTGGGGTCA
GGGATAATCTTTTGATCACTRTGTTCAATAGCATCCATAACCTTCCTTTTGAGACATTGAATTAAAATATTACATTTATCTGACGAAAATCATTGAAAAA
CATTGGCTGGCCTGTATAGAAGAGCTTAGATTTTTGATTTCAGAAGCAATCAGCGTTACTTTTAGGCGACCCATTATCTACTCTTTATTTTTCTTCTGCC
TCTATTTCCCCTGCTAGATGCAATTCAAAGTTTACACTTTAGAAAATTGCTGCTGTAAAGTTAAAAGGACTGTACATTCAAAAGTAAAAGAGAAATGGGG
CCGAGCGTGATGGCTCATGCCTGTAATGCCAGCACTTTGGGAGGCCAAGGTGGGTGGATAGCTCGAGCTCAGGAGTTCAAGACCAGCTTGGGCAACATAG
CGAAACCTCGTCTCTATGAAAAATACAAAAATTAGCCGGGCGTGCCGACAAGCACCTGTAGTCCCAGCTACTCAAGAGGCTGAGGCAGGAGGATCCCTTG
AGCCCAGGAGGTCAAGGCTGCAATGATCGTGTCACTGCACTCCAGCCTGGGCAACAAAGTAAGACACGSTCTCAAAAAAAAAAAAAAAAAAAAGTAAAAG
AGAAGAGAAATAAGCATGTGTTCTACCAGGGCCAGACACAAAATTTGTTTATAGTGAAGAAAGTCTTAAAAACTGCAATAAACAAATACTTCTAGATTTT
AAATAATCAGAAAGGCATCTCTAAAAAGTCATTGCTGGTTATAGATGTAAATGTCTGGCACAGTTAAAAAGCAGAAAAATCACTTTCTCCAACATTAAAC
ATGGATTCCATTGAAATGAATTATGTTTATTCTACTTGTTAAAAGAAAACTTAGAGTTTGTTCGACTTTGTGAAATAGACCTATGACTTGCTTCTGGGTT
TGCATGAGATCTCATTCAGAGACATCGTGGGCACTTAATATGTGTAGTTGTGCTGAAACGTGTAATATGTGATGAGATAAGATGCTTAGCAGTGAAACCT
CACCATTGAAGCTTTTAGTACTTCTTCAAACAAGGCACATGAAAAATATCAAGGAACTTTAGCACAGAGTTTGAAACAATTTGTTTTTCTAGAAAAACAA
AATCACAACCATACATTATTTACCAAATATCTTACCCAGAGAACAGCCAGAGGGAAACTCTCCAAGGATTTGGCATTCGAGTGTTCTTATCTCATATGAA
AATGCATTCTGCATGTGAATGCTGCGTGTGGATTTTCTTTAGTTTTGTTTTGTTTTGCTTTTGCAGTTGTAGTAACGGATAGCATCAAAGTTTGTAATCA
CTCATTTCAATTACTGCATGAATCCTAACGTTTGTGATACTGGTTTCATCAAAGTCATATTGAATTTGAGTAAAATGAGAGAAATCGCATTGCAGAGATA
TATATTTGTCACTTAAATAGAAACTGCTTCAGGAAAATACTGCACCTCTCTCAGTAGTCAGCAATCCTATCTTCTATTCACATGCGGCAAACAAAGAGTT
AGATGATACACAATTAACTTTTTAAAATCTGAGGGATGAATTTAAATGGGCTATGGAGAAGAAATTTGTGTATGCATACATCATTGGCAAAGAGTCTTTT
CTCTCTCATTGTTTAAGTTCTGAAAACAGAGCACCTCTTATTGCAGTGATTAAGGATTGATTTTAATAATCCTAAAAACCAGGCTTTGGAGCTCAATAAA
TTCTTCCTTTCAAAAGTACAGATTTTGGGGTTACCAAGGTGGCTCCGTTATCCATGCTTTGCCACATTTTATAGGAACATAAAACTGCTAGCAGATTACA
TCACCAGGCAGATGCAATATGACAAGAGGCTGCAAGGTCGTACTGTGGGAAAGTCAGGGATTTCAGGGAGATGATACTTTACAAGCACGGTGTCTCAACT
AAACTCAAAGCAAAAAGCCTGGTGCCTTATCAGTGTACCTCCTGTAAACTTTCAGAGCCCATATATGTTTATACATATTAATAATAATTAATAAATAATG
TTAAATAATAATAGCAACAAATGCTTATACAATGTAGTGTTTATTATTTAGGCCCTATGTACTTTTAAAAATGTATGTTTATATTTGTTTTTGTGCCAGT
GAAATGTACTAACACAAAATTTAACATTTTAACTATTTTTAAGTATATATATTTATACACTGAACTATACATTAAATACATTCACATTGTTTTGCAATCA
TCACTACCATCCATCTCCAGAACTTTTTCATCTTCCCTAACTGAAATTCTGCATCCATAAAACAACTCCCCATTCCCCTCTCTCCCAGTGCCCCCCATTC
TAGACACAGACACAGACATTTCTGTGTCTATGAATTTGACTATTCTAGATACCTCAGTAAGTGGAATCATGCAATATTTGTTCTTTCATGTCTGACTTAT
TTCACTTCGTGTCATGTCTTTAAGTTTCATTCATGTTGAACCTGCATCTAAATTTTCTTCCTTTTTAAGGCTGAATAGTATTCCATTGTGTATATATATA
TATATATATACCACATTTTGTTTACATATTCATCCACTCATGGACATTTGGGTTATTTCCACTTTATGTGCTTTTTATGTATCAACTCTTTCACTGCTCA
AAAAGATTCATTGATTCATTCATTGTTGTAGTATCTTTATTATCTCCATCTTATGATAAGAAAACTAAAGCATATGAGATTGTGTAGGTGCCCAAGTTTA
TAGAGCTAGGAAGCTCTAAAGCCAGTATTCCACCCCAGGCTGGGTAGATCCACAGTTCCTGCTCCTAATCACTGTGCTATCTCATCTCCCTTTCCAATGA
TTCAGGAAACTAAGTATAGCATGTACCAGTTGGAAAACCATTTGTATAACATCCTAAGGCCAGGTTTTAAAAGTTCAAGTACAGGTTTTAAAAGTTCAAA
GGAGTAGTCAGTTTAATAACCGCACCCCATAGCAACTGATTGATAAAGGATCCCATTACTACAAAATAAAAATTAGCACTCTGCTCCGGCACTAGTTCTA
GGTGGGCTAAGTTCATTTTGCTGATCTTCCTATATAATATGTGCATGCATGTGTGTGTGTGTGTGTGTGTGTGTGCAGTAGCATGGTTATAATATTACCC
CAATTTGTAAAAAGGGAAATTGGGGCATAGGAAGGTGGTAAGTTACTTGTTCAAGGACTCGTAATAAAAAATAGAACTTGTACCCAAACTCAGATAATTT
GTAACTCCAGAGCCTGTTCTCTTAACTATAGCACACATTTTATCTTTTTCTTGAATGTGAAGTACAGCATTGAGACCTGTACATAACCACAAGTATTCTT
ACAGTATATGGAAATTTTCCTAGAAAGCCTGTAAATAACCAGCAAGTCTATTTGTCAAGAGGCAATCCGTGCATTGCTAAAGTTATTTGTATAGTTATTC
CAACGAGCACATCTGAAAACTAGGAATGCAGTTGCTTTATTAAAAAATTGTCGATGGTATAAAATATTGTTAGATTTTGGGAAGCAGTTTAGTGTGCACA
TGCCAAGCTTCTCAGGACAGAAATACCTCTGAGAGCAGCTTCTTTCCTTTCACTAAGAGATGAAGAGTACACTCATGAACCCTGAGCAAAATTGTGACTT
CAATGCAATTGATTGTCTTCTAACCCAAATTCCTGTTTCTGGCTTCCTTTTCCATTTGTTCCATTTGTACAACTTCGTGCCCACTTCAGTCATTGCCCAG
GGCCCTTAAATTTAAATATCCCTCCCCCTGAACAKATAGGCATTATGAAATGGAAAAGAATCCGAGAATCTGATTGCGCGTTTTCATTCSTAGCAAAGCC
ACCATGTACACACACGTACAGGCCAGTCACATTTTAGAACACATGTTTCAGGGTTCCATGGGGGATATGATGCTGACCATTCTTTTGTTTCTCACAGAGT
TCCAGGACCGCACGCTCCGAGGAGGACCGGGACGGCCTRTGGGATGCCTGGGGCCCATGGAGTGAATGCTCACGCACCTGCGGGGGWGGGGCCTCCTACT
CTCTGAGGCGCTGCCTGAGCAGCAAGTAAGTCCTGCACCCGTTGGGGGTCTTTGTGAGAACCAGAGGTAGCCGGTTTGAGGCATGCTTTTGTGATTGGGT
TTATGGAGAACATTTTGTGGCTTACAGATCCAGATAAAAGAAAAGAATTAAAGGAACGTACAAATAATTAAATTTGTGTTCTTACGTGTTTTTATTTGTG
TTCTTACGTCCATCTGCAGCTGGGTCTTTATGTACTCTTATCAGATGATAAGCAATAGAGAAACTTATCATCTTTACCAAGCAAATGTTATCTGTTTTCA
TGTTAGGACTGGAAGGAGTATTTATTGTTAGGAATGGTTCTGGAATTATTAGCTCTATGACATATTGTACAGTATTGGTGTTAGTAGCATATTGAGTTTA
TGCTGGATTTTTAGTGTTACCAAGTACTTTGCAAGTGAATAACATATTGGTTTATTTTTGTAGATGTCCTAATAGCCAGAAGTTTCTTAAAGTCATTCAG
TTCAATGAATGATGAATTTCGAATATAAGGAAGTTTGGAAAAATAGAAGCTTCAGTGGGAATTGGGTCAGGAATAGTGAAAGGGATGAAGAAGGTAGACA
TGGGGGTGGCTAATGACATCTAAGCTAAAAGGAAAGGGCCTGAGGCCTTAGAATGGAAATTTTTACTTAGAGTAATAATTTAAAACTCCTTCTTGAGCTG
TGTGGTCTAYGACTAGATCTGTCTCCAAACTATAAAATATAAAGTACCATGGTAATATTTTTAATGAAAGATTTTATTTGACTATGAAAAGTGTTATGTA
TAGCAAGTAGGAGGTTTGCTCAAAATTACTGTATATACTATATTATAAAACGGGAAACAGAAAAAGAATTCTAGACATTTCATAAACAAATAGCAGAAAG
TGGTGAGACAGAGGTTCAGAAAAATGTCAACTTACTTTAATAAGAGTGAGAATTTCTTGAAATCAGCGTCTGAGCCTTATTCCTTTCTGTCTCCCCAAGG
CCTGCACAGGGTCTAACAGATATTAGAAGCCCGATAGATGGTTCTTCATTGAAACATGAAAGACCATTTTGGCTCCAGGGAGGTCTCACTGGAAATGTTA
TAACCTGAGATGTATCCAACAAGATACCAGATCAATTCTGATATTTGGCCACTGTGGCATTGAGGTGTGCACTAAAAATGGGTCAATGTGATTGTATTTA
CCAGCAGGTTTGTTTGTCTCATTTTTGAGGCCAGCTTCGAATCAACGAGAACCTTGAGCTGATAAGAAAGACTAGACTTTTGCTCCTTATGATTCACCTG
CTCTCTTAATCTTGAATATACAAAACTTCCAAAATCTGCAATGTATGCTGCCACACGGTGATAATGTAACTGATAATATTCATACATCAGTAAAGCCAAA
AAGTATAAATTTAGAATGTTCCTGTTATTTAGTTTTCTCAAATTAGCATCCTTGARTATTTTATAGAGGTGAGCCAAAACATGTGTCTCACAAAACTGAT
AAGAAACAAAGGGGAATTTTCATATTGTCTCAGTGATGTGTATGTCAGCTTGAGGTAGGATCTTTTACTGAGTGAGAGACTGAGAAGCAATTTAGGGAAT
ACATTAARATCACAAAATTCTGTCATTCAGCAAATAATCAAATATTGATGCCATGCGAAATTCAAAAATAAACAATTTTGCCACCTAGTAAGTKAAAGGT
CTAGGTGTTAGGGCTCTRTTATGATACTACAAAAGATATCAGTTGTCTTCTACTTATAAAGTATTAGAAAAGTAGAATGTAAATGCTGAAATTATAAACA
TATAGAAGATATGTCCCTATTTTACTTTCAAGTATTAAAAATATATATTCAGTAATCTCATACAAGGCTGACCAAGAAGCTTAAAAAATGGGGCGGAGGT
TSACTACCCATTCTTTAGGAATTTGAAGAAGAAAAAAAGCCTCCAAATAGAAGGCATTTCCAAATCCAACAAGAATATAAAGAAATATTAGTTTCTTAAA
AACCAGTGCTTAGTATGGACTGATACATTATCCACATGGATATGTTCTATACTTTTAAATTCTAGTCATTCTTTAGCAAATCAAAAACTTGTCATCATCA
TTAAACTCTGGAACAATCTGGATAGAAAATGTAATATATATTTTTAATTKTGAAAGAACTATTTATATATGCCCTATCATATATTTTGACATCATTCTTC
AATAGGATTTGTATTATTAGGCTAAACTGTATTAATTCTGATCCTTGTAAGACAAACAACATAGAGGTTGATTTAGCTGTTCAATCTGAGATTCTAGTGG
GATTTCTGGAGACAAGCAGCTCATGATATGACCACATTAGCATATTACCTCTGCGCCCTAATGAGTTAAATCTTACAGCTACAGATTTTAAAAGGAGCAA
AACTAAGACTGAGTTAATCCCTTTGGGGGTGTATTGATTGTAGAAAATCTGCATCTCCAAGGACAATTTAAAGATCTACAGTGACTAAGTAAATACCTTT
ATAATAATACYAAATAAGTATGTTAACCCATTGAATGTTCCTGGATGCTATAATGCTGATTTTTAAAATATTAGTTGGTGCAAAAGTAATTGCAGTTTTT
GCTATTACCTTCAATTCACCAACCCAATACTTTAGTTTTTATGGCAATTACACACTTATTTTCTAGAAAGCACAACACAACATGCTATTATTGAACAGCT
TAGATAGTTCCTGCTTTGATTCAAGACTTTTGTTTATGTTGCATTTTTCAAAACAAGGCATGCGTATACACCTACAAACCCCCTACCCCACGCATGTATT
TGTGTGTGTGCTGAGCTGTGACAGAAAATATATATCATTTCAAAAGGGTCTGACAGCTTCTGTTGCAGAGAACTCACCCTGGCAGGGGCCCTTTGTGGAT
ACTAGTCAGACCCATTTACCCAGGGGAGACCTTATCCTAAGTGTCACTGGTCCTCAATCAAAATTCAGTTTGGCCAGGCACAGTGGCTCACGCCTGTAAT
TGCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAAGAGTTCAAGACAAGCCTGGCCAATATGGACAAACCCSATTTCTACTAAAAATGCA
AAAATTAGCTGGGCGTGGTAGCGGGTGCTTATAATTGCAGCTGCTAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCCAGAGGCAGAGGTTGCAGTGAG
CCAAGATCGAGTCACTGCACTCCAGCCTGGGCGACGAGCGAAACTCCGTCTCAAAAAAAAAAGAAAAAAAAAAATTCAGTTTTCTTTACCTGGGATTATT
ATGTTTGGAATCAGAGATTCTCAAATGTTTGTGTGTCCCTGGCTTTCTCTTCCTGCCATTCTGTATCACTTCACAAGTTTTATTAATATGATTTTAGCCC
TGTATTTTCTCCTTTTTTGTGTGTAATGAAAGTGTGGAGCAAGTCCCCTTTGGTATCTAAAGGGAATCAGACATTTTGGATGATTTCATTTTAGATGATT
TATAGTCWCCTCCATATRTAGTTTGAATGCATCTGCTCAGGATCCTCCATGGAAGTGTAGTTGTCTTCATTATCTTTTAAGTTGTCAAGCACCTAAGAAG
CTATTTGTTTTCTTGATAATTTTTATTTGCAATCTAGATCTTTCACTATTAACAGAAATTCCTGGGTTACAGCCTCATGTTTCAAAAAGCTAGCTTTCAG
CTATCAAAGTTCWTGGAGACACCTAGCATTCATTAAACTTTCAGTTATAGTCATGTATAAAAATTTTAATTTTCATTAAAATACATAACTCTAAGCAGTA
AGAAATATTAAATAAGTACTTATAAAAGCAAAATATAATATTAATAAAATACATTCTAACATTTTTCTCATTACTACTTGACTGTAATTAAGTCATTGCT
TAAATATGGCCCTAAATCAGTCCTTAGGCTGGATTTAGAATGTATTTTGACTCTTATAATTTAGAAATAGATATGTTCTGGGATATGTGCTCAGCTTTAA
GACTTCAAATCAGTTTGATTTTTAAAGTTTTCAAGTTTTTTCCCTCAACAACTGGTTCTATCTATTCTAGTACCAGCAAGAATTTATTAGTTTACTCCCC
TTACTTCCTTACGCTAATGGTAACTCTAATTGGTGTAGCAATTATTCATTGCCACAGTAATGCTGCATAAAAACCACTAATCCTCACTGGAATATCAGAT
AAGGAATTATTGCTTGGCTAGGCAGCTACTGATGGACTTTGATGGTACTTGATCANNNNNNNNNNNNNNNNNNNNCCTCCATGGAAGTGTAGTTGTCTTC
ATTATCTTTTAAGTTGTCAAGCACCTAAGAAGCTATTTGTTTTCTTGATAATTTTTATTTGCAATCTAGATCTTTCACTATTAACAGAAATTCCTGGGTT
ACAGCCTCATGTTTCAAAAAGCTAGCTTTCAGCTATCAAAGTTCATGGAGACACCTAGCATTCATTAAACTTTCAGTTATAGTCATGTATAAAAATTTTA
ATTTTCATTAAAATACATAACTCTAAGCAGTAAGAAATATTAAATAAGTACTTATAAAAGCAAAATATAATATTAATAAAATACATTCTAACATTTTTCT
CATTACTACTTGACTGTAATTAGGTCATTGCTTAAATATGGCCCTAAATCAGTCCTTAGGCTGGATTTAGAATGTATTTTGACTCTTATAATTTAGAAAT
AGAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACA
AGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGG
CGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAATAGATATGTTCTGGGATATGTGCTCAGCTTTAAGACTTCGAATCAGTTTGATTTTTAAAGTTTTCA
AGTTTTTTCCCTCAACAACTGGTTCTATCTATTCTAGTACCAGCAAGAATTTATTAGTTTACTCCCCTTACTTCCTTACGCTAATGGTAACTCTAATTGG
TGTAGCAATTATTCATTGCCACAGTAATGCTGCATAAAAACCACTAATCCTCAGTGGAATATCAGATAAGGAATTATTGCTTGGCTAGGCAGCTCTGATG
GACTTTGATGGTCTTGATCACATATCTAGGGTTGGCTGGATGTTGGCTGATCTAGACTGGCTTCATCTGGTTCAACTTGGGAAACCCAATTCTGCTCCAC
AAGTTCCTTATCCTCCAGCAGGCTAGCCTAGGCAAGTTCTCATAGTGATAGCAGAGGTGTAAGAGAGAGCAATTCCCAGTGCAAAGCCTGTTTCCAGCTT
CTGTACCATATTTGCTAGTATCTCATTGGCCAAACTAAGCCATCCACCAAGTCCAGAGTCAGAATGGGAGAGCCAAATTGTTACATGTGAAAGCATGAGC
TAGAGAGAGGGTGAAAAATTGGGACTATTCTTCAATCTAGCATGAATAGTCTTCTATGGCTTTCTTACTCATTTGTAATGGGATAATGAACTTCATGGGT
TCTGTCTCATTTCTCCACTCCAGATCTAGGCATCTAAATTCAGTTCAGTCACCTTATATACCTTCCCAATAGGGAAAGATCAGAGTTTATGAATGTATAT
ATGCTTAGAGGCCTAGCAGGTAACTGGAATGTATGTAGTAGCATTCATATTGAGTCCAAATAAATCCCATCTACCAGGTAAATTAACCTGCCAGGCCAAT
TTTCTAGCTCTAGTAATATGACCTCTTAGAGCACTCTCAGGTCTGATTATTTTTTCAAGTCTATCAGCTAATGATTATTCTATTCCCAATATGAAAGAAA
TGTAAAGGGAGGTAGATTACTTAGATTTTGTGGAATAAATGACAACTACTCAACTTCTGGAGTTAATTTTGTTCCCTGATGGACCGGGAGCTTGTGAGGA
GACTTGGTTTACCCTCTGAGTACAGAACATCCTCTCTGAGTGATCTTTTGAAGGTTCTAGAAAAAAATTCAATGGAGACAAAGCAGAATGAAAACACAGG
TACACATTAAATRTAAAAGCCTTCATTCTCAACAAGCAGTACTTGATACTGGAGAAAAAGTTCTGACCCAGGAACATACTGAGTAGAATCCTTTCCTTGG
TTTCTCCCCTACCCTTTTTCTGAGGTTTGCAGAAAGTAGGCAGTGCTTGATTTTCCAGGTTTATGATATTGGAACACTGATCATTGCCTTTATCTGCAAC
CCTGGTTTGAACAACAAAGAAAGACACTGTATAAACATTGTCTCTCACCTTTACTAATTTTGTAAGGTTATATGAGGTTTTATTGAGTAACTCTTATAAT
GTAACTTTTACTAATCTAGTATCGCTAAGTAGAATRTAATACCTGTTTTTATTTTTCATTAATTAGAAAAGAGACTATACCTACTGGTGCTTGATGATGG
ACATTTATTTTATTTCAAATGAATTAAAGTACTAGGTACCTTGAGAAGCTGCTCCTCTCTCCAGTTCTTCACCCCCCTACTAAATACTCTGAAATAATAT
TTATAGTGAACTATTTGTCTAGCTTTTTAAAAAATATTTAATACTAAAGATCTATCTTTCAGAGCTCTAGGTTTATCTTCAGCCAGCTAATTTAGCTTTG
CTCATAAGAAGTTCCAAATGCATAAGACAGTTAATATAATGTGTAACATTATCTGTCTCCCTGTATTAAGTCAATGCCAAGACCAGGCTCAAAGGAGGAA
ACTACCCCTCATTTGAGATGGCAACGAGTTAGATAGCTGGCTGCTCTTAGGTGTGATGTGAACCTTTGCACTGGTGACTAAAGAAGATTTAAAGGTCTTC
TGAGACCTTTTTTACTTTCTGAAATGCCAAATTCATCTGCTAATGGTATAAATTAATACTACATTAATATTGTATTAAGAGCATAAATTAATACATTAAG
AATACAAATATTATGTTAAATCTTAACTGATTCAGCAATGGGCTTGGCTGTTTCATATCTATCCAAATAGCAAAAAATGATCTTCTTATGAAGGATGGCA
GAATTTTTTAAAAGTTAATAAATTTTGAGTTAAATATTAAAATTGAATTAAAAAGTTTTTGAGGTAATACGATTATTAGATGAGCAAGAAATAAAAATCA
CACAAGAGGTGCCTAAAACAAGTAAGATTATAGTATTATTCCAAAGGCATGTGGCTGCCAGAATGGTGTCAACATAAATACAGAAAAAGTAAAATAAATA
GCCCCAAGGAGTCTTAGTCCACAGGAATAGGAAAGATCATTCTAAAGGTCTCATTTCATAATAATTGTGGTAAGAGAAAGTAAGCTAACTTCTCTGATTT
TTAATTGCAAACACAGATATTCTGCCATGAAAATATTGATACACTAATATAGGCTTTAGTTAGCATCTTATTTCTATACCGTATAATAATAAATACCAAA
AGAAAATTTTCAATGGTAAGATTTTGCTTCTTAAACAAATGTTTGTTTTTTTCTCTAAAAGACATCTCATCTCTATCATAACATCCAATTAAGATTCACA
GGACTTGTTTTAAGAGGTTTTAGAACTTTCAGCTCAAGTGAGCCCCAAAGCAGGCTTTATCTGTTATTCTTCATCTGGTGTTATATGTTATCACCCTTGT
TTTCCTTGGGAATGTTTGAATTTTTGTTTAAAAGAAAGATATACAAGTTCAGAGTGGGTATGACTACTCATGTCATTTGTATGAGATAGTCTTTTCATTT
TGTTAAAGGAGATTGCATATTTTGGAACATATGCTTAAGAGTTTGCAGTTGCCTTCCTTTYACTTTTTGGGTTAAAGCCTAGTCTAAATATATTACCAAG
ACTTCTAATATTTCAGGTCATATATCTTAGGGGGGTGTATTGTTCCAAGATCTGATCTCCTTTCCGGAGGCAAATGCGCTAAGGCCAATGACTGAATGTT
TAGGACCAATTTATGGCCTGGTTTATCCCATAAGCCAATTTGTTGGAATAAAAGATGGTTAGAAATGTGTTTGTTGTCCATAACATTTACTTGCCATATC
AGGAATCTGTAACTCTTAGATGTCTTTTTCTGTTTATTAAAAAAAAAAATCCTTATGTGATTTGTTCAGTAGCCCTTCTAAAGTTTGTATATCTCCTCAA
TTTTAATTCATTCATTCAATAAATATTTATTGAATACCTACTATGTATTAAGCAAATTGGTAGGTATAAYTAAGGATAGAAATCCCAAAGGGCCAGAGTC
TCAAGAATTTACCAAATTATTAATTTGCCTCTGAGTTTCTACTGATTATAGTTGCAAGATATTTTAAGAACTAAGAGAAGTTCCCCCAGTTCTATAAATA
ATACATCTGTGGAACTGGGTTTTAAAAATATTTTATATGTATTGKTATTTTATTCTGGTAGCATCATTTTATATATTAATGCTTTCTTTTCCTAATTCAA
TTGTATGAATTCCTCCTTTTTTACAGTGCTTAGCACACAGCAGACATTCAAATGTTTAATAATTGGCTTTTAAACAGTATATGCAGTATTGTCATTTTAT
TTCTTCAATCTGTGCTTCAACTAAAGTGGAAGAAAACTATGTGATATTAAACATCTCTACAAAAGAATTGGGAACCTAATCCCTATACCACAGAACAAAG
GTTGGTGGAACCAATTCTACTTTTGCAGAATTAAGAAAATATTTCAGACTTAGACCTAGACTGAGCTGGGAAGGATCTTAGAGCTMATCTCCTCTCTAAT
TCCCTCTTGGTTATTTCCCTTCCTCTTTTTATTTTTATTTTTTATTGTGGTAAGACAATTTAGCATGAGATCCACCATCTCAACCAAATTTGAAGTGTTC
TATACAGTATTGTTAACTACACCAGCAGTGCTGTGCAGCAGATCTCTACAATTTAGCCATCTTGCATCACTGAAACTAGACTCCTTGAATGGCAAGTACT
ATTTCTCCCTCCGCCGCAACCTCTGGCAGCCTCCCTTCTACTGTCTGCTTCTATGTACTTGATTAGTCTAGATACCTTATATAAGTGGAATCACGTAGTA
CTTATCCTTATTTCTGACTTATTTCACTCAGGATAATGGCCTCAGAGTTCATTCATTGTTGTTCTTTCCCTTGCCGTGCAGACTGTTTACTTTGATAGTG
TCCTACTTGCCTATTTTTGCTTTTGTTGCTTGTGCTTTTGGTGTTATAGCTGAGAGATCATTGCCAAATCAATATTAGGAAGCTTTGCCCCTGTATTTTC
CAGTTGGAGTTTTATAGTTTCAAGTCTTATATTTAAGTCTATAGYCCATTTTGAGTTAATTTTTGTCTATGGTGAAATTTTGATAGCAATTTTATTCTTT
CACATGTGGATATCCAGTTTTCCCAGCACCTTTCCCCATTGTGTATTCTTGGAACCTTTGTCAAAGATCAGTTGACTGTGTATGTGTGAGTGTTTTTCTA
GGTGTTCTATTGGTGTATATGTCTGTCTTTACACCAAGGTGTCTTTACACTGGCATATCTTTACACCAGTRCCATACTATTTTAATTTCTGTAGCTTATA
AAATGTTTTGAAATCAGGAACTGTGATGCCTTCAGCTTTGTTCTCTCTCAATATTGTTCTGAACATTCCAGATTSTTTTTTGTTTCATATGAATTTTAGA
ACTGTTTTTTCCATTTCTATAATAATCAGTTACTGGGAGTTTGATAGGCAACGCATTGTATCTATAGATCACATTGGGTAACATGGACATTTTAACAACA
TTACTCTTCCACTCCATGAACATGGAAGGTTTTACCATTTATTTGTGTCATCTTTAATTTCTTTCAGTAATGTTTTGTGATTGTCAGTGTTCAAGTCCTT
CACTTCCTTAGTTTATTCCTAAGTATTTTATTCTTTTTGATGTGATTGTAAATGAGACTGTTCTCTTAATTTCTTTTGTGGATAGTTTGTTATTAGTGTG
TAGAATTGCAACTGATTTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTGAACGAAGTCTCGCTGTCTCCCAGGCTGGAGTGCAGCGGCACTATCTCGGCT
CACTGCAAGCTCCGCCTCCGGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCGCCACCATGCCCGGCTACTTTTTT
TGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTCACCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGTGGGGAT
TACAGGCGTGAGCCACCACGCCCAGCCTGATTTTTCTATATTGATTTTGTATCCCTCAGTTTTACTCAATTTGTTTATTAGTCTTTCGTGAAGTATTTAG
AGTTTTCTGCTTATAAGATCATGTCATCTGCAAATAGAGATAATTTAACTTCTTCCTTTCTTTTTTGGATGCCTTTTATTTATTTTTCTTGTCTTACTGA
CCTAAGACTTTCAGTACTCTTTTGAACAGAAGTGGCAAGAGTGAGCAACTTTGCCTTGTTCCTGATATTAGAGGAAAAGCCATTGAGTGTGATGTTAGCT
GAGGACTTTTCACATATGGCCTTAGTTATTTTGAAGAAATTTCCTTCTATGCCTAGTTTGAGAGTTCACATCATGAAAGATGTTAAATTTTGCCAAATGA
TTTTTCTGCATCTTTCAAAGATGATCATGTGGTTTTTATTCCTCCTTCTGTTATGGAAGTAGTTCTTAATCCTAGTTACACTTTAGAATCACCTGGAAAG
CTTTTAAAAAAAATACAGATATCTGGGCCCTACCAAAGAACAGTTAAATTAGGATCTCTTGGGGTAGATTCCTGACATCAGTAATTTTTTCAAAGCTCTC
CAAATGATTTTAGTGTGTATCCAGAGTTTAAAATTGCTGCCGTCTTGAAGGGGGTGATAGTGCAATGATGAGGTTTATCTCTAGCTCCCTGAAAAAGTAG
AGGTTAGGGTAAAGAAGAAAAGAAGAATTTTTGTTGTTTGTTTGTTTTTTGAGACAAGGTCTGGCTGTATCGCCCAGGCTGGAGTGCAGTGGTGCCATCT
CGGCTCACTGCAACCTTTGCCTCCCAGTTTCAAACCGTCCTCCTATCTCAGCCTCCCGAGTAGCTGGGACGACAGGCATGAGCAATCATGCCTGGCTAAT
TTTTGTATTTTTTGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTGTCTCCCTCGTGAGCTCAAGTGATTTGCTCACCTTGGCCTCCCAAAGTGCT
GGGATTACAGGGATGAGCTACCACAGGATTTTCTGATAAAGAAACTTCTTTTATGTTAAAAGGAGTTTCTGTAAAATGATCGAGTCCGCCATGTGGGAGA
GAAGTCATGGATACAAGCATGTCAAGATGTAAGAGTGGGGATTGCCCTAGGTACTACTCTTTATCTACTTTTCTGGTACATACACAGTTGTCTAGTATTA
GTCATCATCAGCCTTGCCCAAAGTATTAAATGAACTAAGTGATTTCTAACTTATTCTTTCATCCTTTTATTAATTAAGCCTACAAACATGATCCTTTAAG
CTTCCAGCTTGTTGGTGAATGACCAGGTTAATGTCCTAGTGATTCTTGGGTAGTTTATGCAAATTCTCTGAGACTCACCTCTCCTTAAAGTCATTAAACT
TCCTATCCACAGAGTTGAGTTGAGTTGAGTTTTCCATCTTCAATTCAGCATCCATCCCTCCAGCTCCTCCCTCACCTCAACTACCAAAAAAAAAAAAAAR
AAAGAAAAAGAAAGATTTCCTAATGCTACTTGCATAATTTATTGAATTATTCTTCGGTTTGGGCCCAATTTGTAGAAAATAGAAAAGAGTTATCTGACCC
TGTTTTCCTTAGTTTCAGTCACTGAGAAAGAGAGAGAAAGAAAGAAAGAGAGAGAGATGGAGACAGATACTGGATATTAAAAGCAAACAGAGGGTGGTCT
GTCCAAATCATATACAATGGGGGATGGACAATTCACCTGGAGGCAGGAAGAATAACTTATAAAACACTAGGTGATATTACATCCATGCATGGATCATCAG
CTGAAGCCCCTAACTAATATACCAACCTCAAATAGCTGCAGAGCCAGCCACTGCCTTTGGGCTTTGGAGTAGGAATCCCTGGTCCAGATAAAGACCCTTT
CCTACTTAGGGAGAGAACCACATGTTGTGGGAACCAGAATTTGTAGCAGTGAGTTTCATTGCCTACTTTGTGGATTATTMCTTCTATTTTATTTTTCATA
AAACTACTGATTTTGAATATTGGCACCACTGTTCTCKACTTGTATGACATTGGACTAGATTTTAGTTTCTCTGGGATTTTGTTTGCTTATCTGTGAAATC
AAGTGGGCAGTGCCTGGAACAGAACAAGTGTTCCATAAATATTTGTTGAACAGATATCCAAGGTGCCCTTCAACTCTGAAATGTGTGCCCCTAAAAAGGA
GACAGTTTCTCCTCCAGATATGCAGTCAAGCCCATTTTGCTGTTAGATAGGAAGAGGAGCAAAAACTGCTCTTCATATAAATGGTTTTAAAGAAAAATGT
TGTGACTCTCCAGACCCCTGTTTTGCAATGAACATCTGGGTGACATGGAAGGATTGGAGAACTTTTGTCTCTAGCCAAAATAATTCATAAATTTCYAGCT
CAAGGCTTGTATCAGGAGAGGTTGTTAGAGTCCTAGAGTTTCATAATATACATTTTCCTCAAGGGGAAGATGGAAAAGTTGGACTTGATGTTGCTAAAAC
ACATTTGTTTTTATTCTCATTCTTTGCCTCTTTTGGCTACTGAGCAAATGTAAGATCATTTGCAAACCTTATGGCATGTGTGTGTATACTATAAAGTGCA
TGTCCTTCTTGCTAGTGGATCTTAAGCCAAAGGCAGCAATCCCCCGGCCCCCACCCCTAGCCATCTTTCAGAGGAAGCAAATGCATTGCAAGGACAAACA
CAACTTATAATAAATATATGAAAATAAACGTGTTCATTAAAATAGAGCCCAATTTTTTTACTTTGGTAGCTATTTAATTTCATTTTAAACTTTTCATCTT
TTTCTTTTTTTTTAATTTATTTTTTTTTATTATACTTTAAGTTTTAGGATACATGTGCACATTGTGCAGGTTAGTTACGTATGTATACATGTGCCATGCT
GGTGCGCTGCACCCACGAACTCGTCATCTAGCATTAGGTGTATCTCCCAATGCTATCCCTCCCCCCTCCCCCCACACCACCACAGTCCCCAGCGTGTGAT
ATTCCCCTTCCTGTGTCCATGTGATCTCATTGTTCAATTCCCACCTATGAGTGAGATTATGCAGTGTTTGGTTTTTTGTTCTTGCGATAGTTTACTGAGA
ATGATGATTTCCAATTTCATCCATGTCCCTATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATT
GTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAATGCTTTTTCTTGTTATAGACAGATTTTAATCAGGTTTCTTGTAGAACAGATGTGAG
GCCGAAAGTTCTTCATGGCCTGGAGTTATCTTTATAACAGTTCCTTCTGTATGTTTCTTCCTTCTTCCTTTGGCCATTTGTTCTTTCCTTCCCTCCTTCT
ATCCCTTGCTCCCTTCTTTCCTTCCTTCCTTCTCTCACGAAATATTTGTAAAGCACTAACAGTACACCAAGCATGTTGCTAGATTCTGCAGCTCAGAGAC
CAAACAGACTGCAAGGGAAAAAAGTAAATAATTGTCAAAAAATATTTACTATTTTTTATTTTAGATTCAGGGGGTACATGTGCATGTTTATTACATGGGT
ATATTGCATAATGGTGGGGTTTGGGCTTCCAGTATACCCATCACCCAAATATTGAACGTCGTACTCAATAGGCAGTTTTTCCACCCCGCCCCCCAACCCA
GCCTTTCCTCTTTTGGAGTCCCCAGTGCCAAATATTTCCATCTTTATGTCCATGTGTACGCATTGTTTAGCTCCTGCTTATAGGTGAAAACCTATGGTAT
TTGATTTTCTGCTTCTGAGTTAATTCACTTAGGATAATGGCCTCCAGCTCCATCCATGTTGCCGTAAAGGACATGATTTCATTCTTTTTATGGCTAAGTA
GTATTGATGGTGTATATGTACCACATTCTCTTTATCTAGTCATCCATTGATGGACATTTAGGCTGATTCTATGACTTTGCTATTGTGAATAGTGCTGCAA
TAAACATATGAATGCAGGTGTCTTTTTTATATAATGATTTCTTTTCCTTTGGTTAGATACCCAGTGTGGGATTGCTAGGTTAAATGGTAATATGGTTTTC
TTTTCTTTTTTCTTTTTATTTTTTGAGACATATTCTCCCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCGCTGCAACCTCTGCCCCCCG
GATTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTGCTGGGATTACAGGCATGCGCCATGATACCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTT
TCACCATGATGGCCAGGCTGGTTTTCTAAAAGTAAAAGAGGCATGGGTGCTACAGGATGGTGTCCTAGAACTTTAAAATGCTGGCCTTTTGCTACCTCTC
TGCCTCCTCTCCTGGTGAGCTCTTTACCTACAATGTCCCTCCCTCCCCATACTCACCTGTGAAAATCCTAAATGTTATTTAAAGCCAACTTCACCTGTAC
CCCCTGAGTCTCACCATGCTATATTTGTGAGGAATTTGTTTGCATCACCTTTAATTCACCTTTACATAGTCTGGCTGTGTTATCGTTATTCATATGGTAC
TGTCTCTAATTACATTATCAGTGTTATGGTCTCAGGTTTTATTTTCCTTTTCTTTAAACCTTCTTGCCTTGCACAGAGTAGGTATCTAGTCACTGTTAGG
TGAATTTACTGAGTTAAACATAGGGTAAGAACCTAGTGTAGTGCTCGAGGGAGCAGGAGGAGGAAGCGAGGGCTGAATCGCAAAGTCTCCTTTCTCCCAT
CACATTCTTGGGACTCCTATCACCCATATAGGACCTCCCACCTAAGATACTTCCTTTGTAAGCTATTGCCCTCTCCTCAATCTCTGCCTTTTCAAATTCC
TTCTGTATTTAATATTCAGATCATTCCTATGAGTTGTTCACCAGGCATTATGCTGTTGTGTGTTCYATTCTGATTCGTGTGGATTTGTTCAAGTAAATAA
TAACTTTGATAAGAATCAGGGAGGCCACCATTTTTGTGTCTTTCACAGTGCCTTGCTTAGTACTAGTATAGACTGGATACCCAATGAATGTGTTAAGTKA
CTGCAAATTGGAAAACATTATACAAAAAGYGTGTTAACCAGGAAGCACTGCCCAGGACTCACTTTCCSCATTGGAGTGCTTATYGTACATTGTCTCATTA
GATTTTTTGAGCAGTATGTTCAGAGCAGTTTCTGGCTTCGTTAGAAGCTGGGCATGACCTTTATGGTCTACAGTGTCATCATTCTCACCTTTTTCTTTTC
TGATTACATGAGTATACTCCTCATTTTCATAACTGCAGCCCATATTTGTGAAAACTTGATGCTTTGCTATAGCATGTCTTTCTTTGAAGAACAGGCAGGG
ATATGTAAAATCATACTTGTTTGGAAAAAAAAATTGGCAGTGATTTTTCTAGTTATAGTTTAGACATACCAAACAGTCATAATAGCAAAAAGCCAATTTG
AAACTTAAAGGACAARCTCCACAATTCAGCCTATAATATTCTCATGTGGGTCTAAATTTTAATTTACCAGCTTTGCAGCCTCCTAACTGTTGCTCAAAAA
TCTGTAAAAGTGCAGAGGTGCTTTCCTTGGTTCCATATGGTCGAGAGAAGATCAAACAACCAGAGAGGATGTTGTCTTAGACCGTTTACCCCAAACCTAC
ATAATTTCTATTTATATCAAATTTAGTCTCCACAATAAGTTTTAGTAACTCTCTGGATATACATAAATCAGTGTTTCCAAGTTGGCACTACATTCAGAAC
ATTTTTATAATGACAGATTAGGATAGAGCAGAAGTGTTGAATTACAAAACTGAGGTCACAAAAATATGTTATCTATGCCAAAGAAACACTTTTAAGTCTA
GTTCACAAGTTACAGCACCATTTTTCAATCTGGACCTTCACTCTCCTCTGATCAGTTTAAAATTGCTTTGAGAATGCGGCTTTAAGGCTGRCTTTTCTTT
TGGCTCCCTAGGGCCTTGTTAGTGCCTCTGGCACACTGGGATGAGCTAACATGGCACCAGGGATGTGTCTGTTCCCAGSCAGCTCACCTACTGATGGATG
ATGCYTGGCAGCATGCCACCTTGTTGTTTCTTGTATTATTACAACAGAAAGCATTTTCAAAAGCCACATTTATCAAGTCATCATAATWGTTTGGCTTGTA
TATCTATCTATTCAAAAAAAAAATTAATCTCTCCCTTAGTACTAATCTGTTTGAGCCATGTGATGTATCCCATGTAGAAAAGGCAGTGGAAAACTGCTTC
TGCGTGGGATTCAGGGACCTTTCATCTAAATGCTTAGGAGAAAGAGAGATTTTTTATATATGCTTTTGAAAGTCCCAAAGCACCAAGAACCTCTGTTTCC
GCCTTTCCACTGGTGGTTATATGTACAGGGGATGCATTTATTTCTAGCATTTTAGTGGCTTTGTTCAATGAAGGAGATTTAACCTCAAATGAGGGAAAAA
TGTGAATGTTAGCCTCAAAAAAGGACAAAGACACATTTTAATGTTTAAGGTCAGTTTCCATAGGCAGGTGTTACCAGGTTAAACATTACTTGTTATGAAG
AACATTGTAAGCAAATTTCTTATTATTTGAGGTACAGGGTTATCTGGAAGCATGTGGCAGAGAGGAGGGGCCTCAAAGTACATTTTTAAAGTACTAAAAG
AGTGTAATTAACTTGTTTGTAACACAAAGGATAAGTGCTTGAGGGGATAGATACCCATTTACCATGAAGTGATTATTATGCATTGCATGCCTGTATCAAA
ACCTCTTCTGCACCCCATAAATACATACACCTACTAGATACCCASAAAAATTAAAAATTTWAAAAAAGCATTGTCCTGAATAAATATATATTTATTCAAT
GTTTATTAAAAATAATTTAAATATGTTAATATTAATAAAGTACTCACTAGGGATGCATACTGGAACATGTCTAATTGTTTAGAGATATGATATATAATGA
AGATACAGTATAAGCATGGTTATCTGCAGATACTTTTAAAGAAGAGACAGTGCTGAATTGCCTCCTCTTGTTGGGAGCAAGCCCCCTCAAAATAATGCTT
TTACATAAACAAGTTTCATTGTAATTTTTGTTTATGATGTTATAAATTAGAATTAAATAATAATTATTTTAAACACAGAATAAAATGTAGAACATGATAG
AATGACATTTTTAAGTACAAGAGTAAAGCAAAGCTAAGAAAAAGATTAGAATATGGGACTTGTGAAACCCACAGGGATGGCTTGTCATCTAACTCCTCTT
TCTCKCCCATGTGAGGTAAGACCACAAGTAACCATCTCTTATGCACAGACTCCAGTTCTAGTCCCTGGGTGTTCAGCATCCAGTCTGAACCACAGATGAA
GACAGTGAGCATCTGAGAAGAGCTTTACACACAGGGTCCAGTGGTTCATATAGTTTCCTTTTTCATGGTCAAGTTGACTGGTATCAAGTATTTCCTGAAA
GAAACTCTTACAATAATGTGTCTGTGCTAGGGACTACTAGAGGGAGGAGGAGAGAGGGGGTGGTGAGCTGAAAAACTACCTAACAGGTACTATGCTCACT
ACCTGGTGACAGGATCATCCCTAACCCATACCTCAGCATCATGCAGTATACCCRTGTAACAAACCTGCACTTGTACCCGAGTCTAAAATAAAAGTTGAAA
TTATTTAAAATAATAATAACAATGTATCTGCAGAAAATGAAAAGAAGCTGACAGTACACTTGCACTTGTTTCTCTCAGTTGTTCTCACAATTTATTATTC
CTCTTGAGTTTTTTGTAGAGTCTCAGGAATGTAGAATTTTTATTTTATTTTATTATACTTTAAGTTCTAAGGTACATGTGCACAATGTGCAGGTTTGTTA
CATATGTATATATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTTATTTACATTAAGTATATCCCCTAATGCTATCCCGCCCCCCTCCCCMCACCCC
ATGACAGGCCCCAGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCACTGTTCAATTCCCACCTATGAGTGAGAACATGCGATGTTTGKTTTTTTT
TTCCCTGCRATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAWAGGACATGAACTCATCCTTTTTATGGCTGCATACTATTCCATG
GTGTATATGCGCCACATTTTCTTAATCCAGTYGATCATTCATGGACATTAGGTTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATAT
GTGTGCATGTGTCTTTATAGCAGTATGATTTATAATCCTTTGGGTATATACACAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTT
GAGGAATCGCCACACTGTCTTCCACAATGGTTGAACCAGTTTACACTCCCACCAATAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTG
TTGTTTCCTGACTTTTTAATGATCCCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGC
ATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTTCCCACTTTTTGATGGGGTTTTTTGTTTTTTTCTT
GTAAATTTGTTTGAATTCTTTTTAGATTGTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACT
ATGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAGTTCTGGCTTTTGTTGCCACTGCTTTTGGTGTTTTAGACA
TGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACGTTGAAGTCTTTAATCCATCT
TGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCC
TTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGCGTTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATAT
CTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGCAGTATAGTTTGAAGTCAGGTAGCGTGATGCCTCCAGCTTTGTTCGTTTGGCT
TAGGATTGACTTGGTGATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGG
ATGGCATTGAATCTGTAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTAT
CCTCTTTTATTTCCTCGAGCAGTGGTTTATAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTATTCTTTCTGAAGCAA
TTGTGAATGGGAGTTCTCTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCAYATTTATTTTGTATCCTGAGAC
TTTGCTGAAGTTGCTTAGCAGCTTAAGGAGATTTTGGGCTGAGACAGTGGGGTTTTCTAAATATACAATCATGTCATCTGCAAACAGGGACAATTTGACT
TCCTCTTTTCCTAATTGAATACCCTTTATTTCTTTCTCCTGCCTGATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGC
ATCCCTGTTTTGTGCCAGTTTTCAAAGGGAATGCTKCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAACTCTTATTATTTT
GAGATATGTTCCATTGATACCTAGTTTATTGAGAGTTYTTAGCATGAAGGGGTGTTGAATTTTATTGAAGGCCTTTTCTGCATCTATTGAGATAATCATG
TGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACGTTTATTGATTTGTGTATGTTGAACCAGCCTTGAATCCCAGGGATGAAGCCCACTTGATCAT
GGTGGACAAGCTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTTGAATCGATGTTCATCAGGGATATTGGTCTAAAATTCTC
TCTTTTTGTTGTGTCTGTGCCAGGCTTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTGAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGT
TTCAGAAGGAATGGTACCAGCTCCTCCTTGTACATCCAGTAGAATTCGGCTGTGAATCTGTCTGGTCCTGGACTTTTTTTGGTTGGTAGGCTATTAATTA
TTGCCTCAATTTCAGAGCCTGTTATTGGTCTAGTCAGGGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCCAGGAATTTATCCACTTC
TTCTAGATTTTCTACTTTATTTGCATAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGATATCCCCTTTATCATTT
TTTATTGCATCTATTTGATTCTTCTCTCTTTTCTTCTTTATTACTCTTGCTAGTGGTCTATCAATTTTGTTGATCTTTTCAAAACACCAGCTCCTGGATT
CATTGATTTTTTTGAAGGGTTTTTTGTGTGTCTATCTCTTTCAATTCTGCTCTGATCTTAGTAGTTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCT
CTTGCTTCTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTAGATCTTTCTTGCTTTCTCTTGTGGGCATTTAGTGCTGCAAATTTTTCCTGTAC
ACACTGCTTTAAATGTGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCACTGGTTTCAAAGAACATCTTTATTTCTGCCTTCATTTCATTTTGTAC
CCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGGTGAGTGGTTTTGAGTGAGTTTCTTAATCCTGAGGTCTAGTTTGATAGCACTGTGGTCA
GAGAGACAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCAACAATGTGGTCAATTTTGGAATTAGTGCAATGTGGTTTCG
AGAAGAACGTATATTCTGTTGATTTGGGGTGGAGAGTTTTGTAGATGTCTATTAGATCCACTTGGTACAGAGCTGAGTTCAATTCCTGGATAACCTTTTT
AACTTTCTCTCATTGATCTGTCCAATGTTGACAGTGGGGTGTTAAAGCCTCCCATTATTATTGTGTGGGAGTCTAAGTCTCTTTGTAAGTCTCTAAGGAC
TTGCTTTATGAATCTGGGTGCTCCTGTGTTGGCTGCATGTATATTTAGGATAGTTAGCTGCTGTTGTTGAATTGATCCCTTTACCATTATGTAATAGCCT
TCTTTGTCTCTTTTGATCTTTGTTGATTTAAAGTTTGTTTTATCAGAGACTAGGATTGCAACMCCTGCCTTTGTTTTCCATTTGCCGCGTAGATCTTCCT
CCATCCCTTTGTTTTGAGCCTATGTGTGTCTCTGCACATGAGATGGGTCTCCTGAATACAGCACACTGATGGATCTTGGCTCTTTATCCAATTTGCCAGT
CTGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTG
CTCATTAGTTGACGCAGTTTCTTCCCAGCATCAATGGTCTTTACAATTTGGCATGTTTTTGCAGTGGCTGTTGCCAGTTGTTCCTTTCCATGTTTAGTGC
TTCCTTCAGGAGCTCTTTTAGGGCAGGCCTTGTGGTAACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGTTTTTATTTCTCCTTCACTTATGAAGCTT
AGTTTGGAGAATTTTTTTAACTGGCTCATTGGGGGCAACCTCCTGCAGTATAGCTCCAGTGAGTACTGAAATGCTCATTTGATGTGACAGGAGAAACTGT
GTTCCAGTACTACTTAAAATCCCTTGGTGGGGTTGCAAATCCGCTTATCTTGTTCTAATCTATGGTCGCTCTAAGATCCACAGTCTAAATGGCCCAGGAT
CCCTGGGGCTTGAATTGCGAAACATGGCTTTATGTCTTTTCTCTTGTAAAGAGCTCATAGATTTCTTTGGATGACTGAAAGAAGAGAGATAGGCTTGTAT
TCACAGTGCTTTAGGAGTTTGAGGTGGGAGGATCAGTGGTACCCAGGATTTCATGGTTACAGTGAGCTATGATAGTGCCACTGCACTCCAGGCTGGGTAA
CAGAATGAGATGAGATGCTGTCTCAAAAAAGCAAAAGCAAAAASAAAAAAACCAGATGGACCATCCTGCTTTAAAATTCTTTGCCATAAGTCCGTATTTG
AAAAGCTAGTGATATTCAGGGAAATACAGTAACCCATTCTTGCTTAGCAACATTCTTTGCTTTTTAGCAATCAGAGATAAAGCCTGGGGTGCCATGAGCC
TAATATAAGTGCAATTGTCCTTAAAAACCCAGAAGTGTTAAATGCAGAATGACCAGATTTTCTTGAAACAATGTATTGACATCAGGTATAAGTCTGGCTA
TGTCACCAGAAGGATCTATTGCTTAGTGAAGAGATGATAAGAATTTTAAAGTAAAGGAGCGATAAATCAAATGCATGCCCCTTTTTAAAAAGGCTTATAT
GAGAAGGGGGATGGGGGAACAAGAAGCTAACAAGTTGTTTGRCCCTAGAGAAAAATCTTTTAATTTTTCATGTCATTTCRCCTCTTCTCAGGTTGTTAAA
TGACAGTTGAAACTATAACATCAGGATTTTAAGAAGTGGAAGTTTAGATGGTGTATTATGCGTTAATGAGAGACAAATAAAGTATGTATCCAGTATATAC
TAATCTCTTAAGTGAATTAAAGACTGAATAATTCACACATAATAGCTTGTGATTGAGATTATTTCTATTTTTAAGAGAAGGAATTAAATCAAAATSTGAC
TGGGCAGGAGTAAAATGGTGATTAAGCAAAYAAGGAATTTTTGTTGCAAATTTGAATTAGAATATATATATATGTATTCCACCCGCCCCCCTCAAGATGG
AGTCTTGCTCTGTCGCCCAGGCTGGAATGCAATGGTACAATCTCGGCTCACTGCAAGCTCCACCTCCTGGGTTCCAGTGATTCTCCTGCCTCAGCCTCCT
GAGTAGCTGGGATTACAGGTGCCTGCCACCATGCCCGGCTAATTTTTGTATTTTTATTAGAGACGGGGTTTCATCACGTTGGCCAGGCTGGTCTTGAACT
CCTGACCTCACATGATCCACCTGTCTTGGCCGCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCTGGCCCATTTTTTTATTTTTATTTTTATTT
TATTTTAAGTTTGGGGTTCATGTGCAGGATATGCAGGTTTGTTACAAAGGTAAACGTGTGCCATGGTAGTTTGCTGCACAGATCAACCCATCACCTAGGT
ATTGAGCCCAGCATTCATTAGCTATTCTTTCTGGTACTCTCCCTCCCCACAGCCTCCCCAGGCCCCAGTGTGTGTTGTTACCCCCATGTATACACGTGTT
CTCACCCCTCACGTATACATGTGTTCTCATCATTCAGCTCCCGCTTGTAAGTGAGATTGATTTTCTGTTCCTCCATTAGTTTGCTGAGGATAATGGTTTC
CAGCTCCATCCATGTCCCTGCAAGGGGCATGATCTTGTTCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGGACCACATTTTCTTTTTCCAGTCA
ATAATTAGTGGCCATTTGGGTTGATTACATGTCTTTGCTATTGTGAATAGKGCTAGAAGAAACATACCTGTGCATATTACATTTTTATATTAAAATATAT
TCTAATACTTATATTTTGTTCTTTCATACTTGACCCAGTTTCTGAGTTCATAATTGATATAGTTCTGAACTCCCKAAACACAGTGCTGTAACTATTTTAT
AGTTTATATTGGGAGGACATATTTATTTAAATCCTCTCTTATCATTTGTCTATAGCTTTTCTCAGACGTCATTTTGGACTCAAATTTCAAATGTTTGTTT
TCATCCCCAGAGGTAAATTTTACTTTGTTTAAATGTGAAAGAAATCACTCAGCTGTTTTATATTAACGACCTGTTAAAAAAAAGAAGGAAAACATTTTTT
ACTGCTTAATTCTCTGACAGGGATTTTGTGCCCAGATAAATGCCTTGGATGAAAAAATTCACACTTGGCAGGAATTAAATCCTTGTGGTGGAATAGTCAC
CTAGCTACTTATGTGAAATTTATATTCAAATTTCATAAATTTTAACTTTCAAAAATATAAGCTTCTCTGCACTGAAGTTCTTTCACATTGCATTTTACTG
ATGAACATGGTTTTCTTGGAGATGTTCCAATGTGTATCTACCTATGTTTTTCTAGAAACGGATTTACCAGAATTGAGAAGTAGTTTATAAACTGATATAA
TAACAACAAGACAGGTCAACCTCAGGCCTATTCCCTTCTCAGCTTTCCGAATTTTTAGCTTAGTGTTAGTATACTATGTATCTTGAGCACATCATGTTCC
TTTTCTTATTGTTTGATAGACTTAGGAGTTAGTCACGCCTAGATTCCAATCCCTGGTTCACTTTTCTGTGTATGTAACTTTAAGCCTCAGCTTTCTCTGC
CTCAGTTTTCTCATCTATTAAATAGGAATAATAAAATTTTGCGAGTTGTTGGAAGATTAGAGATAGTATACGCAGAATACCTAACACTGGGCCAAATATC
TATAGTAGGCACTGAATAAATAGTAGAGACTAGTTAGTGTTTCTATTATAATCCACAATTTAATAGTAGAGACTAGTGTTTCTGTTATAGTTCACAATTT
GATAATGTCTTTCAATAATGATCACCTTGCCATACTTAAGCATTACCACCTTAATATCATATTTCAGTCAAATTAAAGAAGCTCTCAAAAAAGTAATATA
TTAAAGGGAAGATAGTTCAGAGGCATCCATAAATTACCTGCAAATCCATATTAGGCATTAGACAACTACAGGATATTCTTTGGAAATTATGACAAGTGGG
TTTTCTTTGCTTTGCTTTTGTTTTGTTTTGCTTTTCCTAAATAATAAGTATTTAAATCCATCTTTTACATTCTGTGCAGATATCTCCTATTATTCAGTGA
TGCCTGTAAAATTTGTGTAGGTATTTGCAGGTTAAAATATCGGGGAAAAGGCTCATTTAAACTATTGAAACAAGTATTTTTCTGCTTTGTTTTGTTTAGS
AAGCAGTATCTCTGTAATAATCCCTTGGCATTTGAACAGAGCTTTTGTACATTATTTCAGTTGGTGATCCTAACTTTGTGCATAGGCWTTCCTAAATTCA
TTTGGCAGGTAAGGAAACTAAGACCCTAAGAGAGCAAGAGGTTTATGCAAGTGGWAGAACAAAATCTATATCCCAGATCTTCAGGCTCCTAATTCAGATT
TGTTTCCATAATTTTTTTCATGGATATAAGGTTAGGTAAAAAATTTTTAAAAAGGATGAAAAACATATACTATTAAAGTCCCAATAGTTAACACCAGGGT
TTACCTTTTAAARGCAAAATCTCACCATTGAATCTCCTCCGTTTTAATACCTTCAGTGGTTCCCCTTTGTGTATTACAAAGTTCAAAATTAGTAGGTATT
TCACTCACCTACTGCAATTCCCCACATAAACCCTAAATCCCCCGAAAACCAGAACTGTTTGAAAATCTGCAGGCATGCCAAATCTTCTTGTGCCTCTATG
CCTTTGCTTAGTTTCTTCTCCATATATCCTTGACCTCCTTTCAATAGCTATTATATTTTTACATCTATTATGTACTTAATTAATTTATCTAACATCTACA
TAATGCTTACTGTGTCCTAGGCACAGTCTGAAGTGATTCACAAATACTAACTCAGTTAATTCTCATAATTCCAGGAGATAAGTAATATCATCCCATTTTA
CCAAAGATAAAACTGAGATATAGAGCCAAGATTCTAGAAAGCAGAGCCTATTTTTAAACTGGGTACTCTTAATCACTGCACTGTGGTACGTATGCAGCAG
GAACTTCAAAATTGAAAAGCATACCACATTTTGCAAACACCAGTGTCTAGATGGGATGCTACCAAAGACCTTCCAGTTTTAGAATTCAATTACCTTGTAA
ATTTACCATCAGCTGGAACCTAGCTCTCATATTGTTGGAGTCAGAAACCTGATATTTTTCAGCAATAGCACCAAGAWCACATCCTTTTCTTAGGGGTGTA
CTCACAATAACTCAGCCCATGAGATGAATATTTCAAACTAGAATGCCAGTTGATTAATTTACAGCAAATAACAGAACTGTCCATCACATGGACCAGAGTA
CTCATGTCAGCATGGCCAGCACTCTCTGTTCTCAGCAGTCATGAAAATCCAGATCACTCTTGGCAAGTAGCTTGATCAACCTGACACCGTAATGAGGGGT
GGTACTTGGATGAGCTGAATAATCATCGGTATCAGTAAGGTCAGCATGAGTCATCTATGTGGAGATTGCAGCAGTCTTGTCAATGGGACATGCAGGACTT
GAAATTCATTCGCCTTTTGTCTAGGACATTGCTGGACTGGACACTGACACACATGTGTCTTTGTCATGCTCCTTATTTCYATGGTTTCAATGTGTGGCCA
GCCATTCCTTTTCTATTTTTAATGCATAGTAATAGTCAGTCTGATTACAGTCAAGTCTTTAGGAATGGGACCCTTTCTATATTTTTAAGATAGTCTGTGT
ATAATTGTGTTGTCAGATGMCATTTTCCTTCTGGTAACATTCTCAAGACCTAATACAAATGCTATATGCATTTCTTACACCAAATTATATAATTAATTTT
CTTAATAACAAAGACCAAGTCATATTCATTCTTCTTTGTATTCTTCAYAGTAATTTCATTGCCAAACACATCACAGAAGCTCTGTGGACGTTTATTGAAT
AAAAAAGTAAATTAGGAGGCATTAAAGCATTGTGATCATGAGTGTGTGAGTTCCGAAGCCAGATGGCCTGGTTTCAAATTTTAGCTCTACAACTTAACAG
TTGTGTCATTTTGGCAAGTTACTTAACCTTCCTAAGCTTCGGTTTTGTCATCTGTAAAATGGATATGATGATGGTACTCTATCTCTCCGGGTTTTTGAGA
ATATTAAATAAATTTATACATATAACAAACTTATAAATGTACCTGGAATTCTAAAACTACTAGGTATTAGTATAATCATTCTCACAGGATTTTGTAGTGT
ATCTTTACTTTTTAAAAAATGTGTGACATATTTTGAAAAGAGTATAGTACTGTTTTTCATGATTTAAGTGTCAGCATTGAACGTTTTATCAAAAGTTGAT
TGTTTTTGTTCATAGGAATGCAGTAAAATGGAAACTCTCATGTATTGCTGGTGGGAGTATGTAATGGTACAACTTTTATGGAGTGCATTTTGGCAATATT
TATGAAGAGCCTTACAAAAGTTCATTCCCTTTAGTCTAGTAATTCTCTTTCTAGAAATTTATCTATTCAAAAAACACAGTCAGAAACTTTGATAAAACAC
ATGCACAAAGATGGTTTACCATACTATCATTTATCAAACACCAAAGTGGAAATTACTTAAATGACAAATAATGAAAGAATAATTATGGAAAAAATTACAT
CAGTTGATAGAATATTATGTAGCTCTCAAAATGGTGTTTTTAAAGTTATTTAATACTGTGAGAAAATGCCTCCAAAAAATTTTAAGTGGAAACAAAAACA
GGCTACAAAATTGCGTAAGTGATGTGATTTTTTTTATTTATACTGGAAAGGACTAAATAAATCAAAATAATAGTGATTGTCTTTAGATGAGGCAACTACA
GGGGACTTCTTTTTTTTTCTTTTTGGTAATCTGTCTTTTCCAAAACCTCTGTAATGAGTATATATTTTATAAATAAAAATAATTTTTTAAGAATTATGAC
TTTCCACATTCTTAGAATTATGATTTTAAGACATGTTGAATATTAATTCCATTAATTCCAATTTATTTTCAAGATCTAAGTTTTTCAGTGAAATATATCT
TCAATTTTATATCAGAAATAAGAAGAAAGGATTAATTGAATGTCAGTTTTTTCAGAAAAGTTTGTACTAATATTTATTTGATTAAATATGCACTAAATAC
TTATTTTGAAAATTTTTGAAACAAGATAAATACTTAGTTTCAACCCTTATAGAGAAATCAATTTACATCTATAACTTCTTTAAATCTGCTCAATTTGATT
TTTAATAGTAAACCCTCTAAGAACATGCTTAGAAGAAAAGAGAGGCCCTTTTACTAGTATTTAGAGCAAATTTTTATAAGAAAATATTTCTGATTTTGAG
CTTTTCATAAGTAGTAATATTTCTTTTTTCTTTTTGCAACTTAGGAGCTGTGAAGGAAGAAATATCCGATACAGAACATGCAGTAATGTGGTAAGTATAA
GGTTCTGAGATTGTAATCATGTATTTTTGTTAGCACTGAATGGTGCTAAGCAGTTTTATATCCTGAGCAGGAAATCAACCAACTAGTATTTCACTGAGAG
TTTTTATCTCATACTGTACTGATTATATGCAGGACTAAAATGATATTTTTAAGTTCCTCATTATAGACTTTTAATCATTTGAGCAGCTTGAAACTAACTA
GACTATTTCAAAACAAGGACTCTACATTTCCTCCCTACTTTCTGCCTTTTTGCATATAGATCTCATGAGGATGAGTGAGAGGGTTGATAAAAGGGAAACC
AGTTGGGGTATCATGAAATAAATATTTGTAAATCAAACTCAGATTTGACAAACTCATTCATTTATTCAACAAATATTATTCAGTGCCAACTATGTGTGAG
GCACTACACCAGTACAAGAATAAATAACATRTGGTCCCTGTTTTAAACATCTGTAGTATAGTAAGAGGTATAGAGAAAGAAGACAGATGTGCATTGCACA
TAACCACATTCTAGGAAAAAAATATCACAAATGCCATAGGAAATAAATAAAGTTCTTTGTGGGCTAAAATAGAGAGAAATCTTAAAGGAAAAGGTGATTT
GAGATACAGCTTGGAGGACTGTGACTAGCCCATATTGGATTTGAAGGGTTGACAGTCAGTCCAATGGAGAGGACATAATGGGCAAGTTTGGAGGCAGGAA
TGTCTGAGCACTAGTTTCACCAGAGTTGAGTATAGCAGTATAAAAGAGAAGAATTGAAATATATYTTTGAGGTTATATCATAAAAAGATTCGAATGTTAG
TCTTCAAAGTTTATATTAGTTCAGTGAATAATGGGAGTCACTAAGAGCAAGAGTATGATGTTACAGAGTTTCCCTTTTAGAAAGGTTAATTTTTTGGTGA
TACAAGGGTTGCACTGGAACAGGAAGTGGATGAGGAGCAAGAAGTAATGAAGGCTTAAGCCTTCATTAGTAGTCACAGCTACTCAYGAGGCTGAGGCAGG
AGGATCCCTTTAGCCCAGGAGTTCAAGACCATCCTGGGGAGCATAGCAAAACCCTGTCTCTTATAAGAAAGAAGAAGAAGAAGGAGGAGAACTTAAACCC
AGAGGAAATACTAAATAGACACAAGAGAGATCAAAATTAAGTTGACTCTGCAAGACTTGAAAAGCATTTGAAATTAGAGTGATAAGTTGAAGCGGGAATA
AAGGAAACAAAGAGGTATATGCATATTTAGGACTTTTGTACTTGCCGATCCCTCTGTTGAAGAAGCTCTTTCCTCAATATCATGGGCATTTTTATTATTC
CACATTTCTCTTCCGCATTGCCCAGAAGAYATTCTCTATGAGGGCTCCACCCCTGCAGCAGACTTTTGCCTGGACATCCAGGCATTTTCATACATCCTCT
GAAATCTAAGCAGAGGTTCCCAAACCTCAATTCTTCTGCACACCTGCAGGACCACCACAACATGGAAGCTGCCAAGGCTTGGGGCTTGCACCCCCTAAAG
CAATGGCCTGAGCTGTACCTTGGCCACTTTTAGCCACAGCTGGAGTGGCTGGGACACAGGGCACCAAGTCCATCCAGAGGCTGCCTAGAGCAGGGGGCCA
CAGACCTGGTCCAGGAAACCATTTTTCCCTTCTAGGCCTCTGGGACTGAGATGGGAGGGGCTTCCAGGAAGGTCTCTGACATGATCTGGAGACATTTTCC
CCATCGTCTTGGTGATTAACATTCATCTCCTCATTACTTGTGCAAATTTTTGCAGCAGGCTTGAATTTCTCCCAGAAAAAAATTTTTTCTATTTCATCAT
CAGGCTGCAAATTTTCTATAGTTTTATGCTCTGCTTCCTCTTGAATGCTTTGTCACTTAGAAATTTCTTCTGCCAGATACCCTAAATCATCTCTCTCAAG
TTCAAAGTTACACAGATCTCTAGGGAAGGGGCAAAATGCCACCAGCCTCTTTGCTAAAGCATAAACAAGAGTCACCTTTGCTTTACTTCCCAACAAGTTC
CTTTTCTCCATCTGAGACCACCCCAGCCTGGACTTTGTTGCCTGTATCACTATCAGCATTTTGGTCAAAGCCATTCAACAAGACTGTAGGAAGTTCCGAA
TTTTCCCACATCTTCCTGTCTTCTGAGCCCYCCAAGTATCTAGGAAGTTCCAACCTTTCCCACATTTTCCTGTCTTCTTCTTAGCCCTCCAAACTGTGCC
AGCCTCTGCCAGTTACCCAGTTCTAAAGTCACTTCCACATTTTCAAGTATCCTTATAGCAGCACCCCACTCCTGATACCAKTTTACTGTATTAGTCCATT
CTTATGCTGCTTTAAGAACATATGCAACACTGGGTAATTTGGAAAAAAGAGATTTAATTGACTCACAGCTCTTCAGGGGTGGGGATTGTAAGTAGGAAAC
TTACAATCRTGGCAGAAGGGGAAGCAAACACATCTTTYTTCACAGATGTCAGGAGAAAGAAGAATGAGAACTGAGTGAAGGGAGAAGCCCCTTATAAAAT
CATCAGATCTTGTGAGAACTTACTATCATGAGAATAGCATGGGGAARATTGTCTGCATGAGTCAATTATCTCCACCTGGTTCTTCCCTTGACACGCAGGG
ATTATGGGAAGTACAACTTAAGATGAGATTTGGGTGGGGACACAGCCAAAYCATATCAGACTCTGACCTCATATTACTTAAAATCCATAGCACTCCATGA
GCCAAAATCTTTATAGCTTGTAGAATCAAGTTGATGCTGAATTTTTTTAATGAGAATCTAGAWTCTTCAAATAATTTGAAGCTTTATTTTCTTGCTTTTA
GTGATAACAGAAGCAGCATTGCGAAAAAACACACAAAAAAAATTTTAAGAAAGAATATTTTCATGATCACATCCCAGTTTTTCAAATTTGGAAGTTTAGA
ACAATTCAGTTAAATATTCTTTGTTAGGTGCTTGATTTGGAAAAACTTGAGAGTCTCTTAGCTAAATCTCCACGGTCATCTTTAATCCCTGGACAGCTTC
CTTGGGGCACTTCTGAACTACTTCATCTCCAAAGATTCAGCCTCTTTTCCTATTTTTTGTAGAACCGCTACATATAACTTGTTGGGGAGTTCGTATTCCC
CAGGGTAATATGAGGAGTAGAAAACATCTCCCCAGTTTCCCTTTTTTTTTTTTTTTCCTGAAAAGCAGCTCACAGGCTTTTAAAAATTTATTGCCAACCA
CTCTATAAGTAGTATGTCAATACAAGAAAGTTAAAGTTCCCATAATGTTTGCATAGTTCTCATAGTCATGGTACTTTCTTACTTTCTGTGTAGCTGGTTC
AAGAAGACTATTTTCATTCCTAAGGACAGAGTTTATCTAATCTTTCCCATTTTACAGTTCCCTGCTCTATTCTAAGGAAGCAGCAAGGTGCTCCATCTCT
GGAAGGAAAGACAAAGATGCTATTGGTAGAAAATAGGTGTGAGCTAGCAAACCAGTCAAACAGGTCATTTAGGTCTCAGAGATTTCACCACAAGACTAAG
TGAAGGAGGCTCTTAAAAAGGTTTTCTTAGGTCATATCTTCATGTTAAACCTCAAATTTGAACCCCTTGAACTTAATTAGGGATTTTAAAGTGACTTCCA
ATGTGTTTAGAGTACTTRTAAACTGTTTTTTTTGCACTATCCTTAARGTWCATATGAGTTGGTATTTAGGAGGCAGTGACCATAATTAGCAACATAATAG
GCCACACTGCTTGTGGTAGCTGGTGATGCTCTTAATTTCTTTATTAAATTCTTTGTTGCTCACTATAACATTTTACTGTTTTTAAGACAACAATATGTAT
TAAGCCCAAGAATTCTTCTTGGTCCTGGGGTTCATTGTTAAATAAAACCAAGACCCAATTCTCCTGAACCTTTCATTCTAATGGAGAAAAAGAGATTACA
AACAAGCATGGAAACAAATTATTTAAAAGGAAATATATCAGCAGTTGGTGCAATGCAGAGAATTAAGCTATTGGTAGCTAGTTCAGAGAGGAAGTTCAGA
AAATCCACTTGAGAAGTAACACTTGAATAACAAGAAGAAAACAGCTATGTGAATACTTAAGGAGTAGCAATCCAGAAAGGACAGCTAGTGCAAAGGCTGT
GAAGTACAAGAGAGTTTGCTGTGTCAAGGAAATCATAAAGCCAATATACCTAAAGTCTAGTGGGCAAGAGGAAGAGTATTGGAAGATAAGAAAAAATCAA
AACCAGAGGTAGGTGGGAGCTAGATCATGCAGGACACTGTAAAGTACTTACGTTATATTTTAAGTACAAAAATTAGCTGCTGGATGGCCAGGCACCATGG
CTCACACCTGTAATCCCAATGTTTTGGGGGTGGAGGGGTGAGGCAGAAGGGTCACTTGAGGCCAGGAGTTTGAGACTAGCCTGAGAAACATAGCAAGACC
TTGTTTCTACAAAACAAAAACCAAATATTAGCATGCTGGTGTGCACCTGTTGTCCCAGCTACTAGAGAGGCTGAGGCGGGAGGATTGCTTGAGCCCAGGA
GTTTGAAGTTGCAGTGAGCCTTGTTTACACCACTGCACTCAAGACTGGAAGACAGAGCAAGACCTTGTCTCTATTTAAAAAAAAAAAAAAAGAAGAAAGA
AGAAGAAGAAGAAGAGAAGAAAGAAGAAGAGGAGGAAGAGGAAGAAGAAGAAGGAAGAAGAGAAGAAAGAAGAAGAGGAGGAAGAGGAAGAAGAAGAAGA
AGGAGGAGGAGGAGGAGAAGGAGGAAGCTCCTGGATAATTTTAAGCAGGGGAGAGTAGAATGGGACTTATAATGAAAAAGATAGGTTTGGCTGCAGGCTC
ACTCTGGAGAATGGATGCAAAGCAGGGGGAAGAAGCAGAAATTCCAGCAGGGGGATCATTGCGGTAGTTCAGGTGGGTGCTAATGGTTGTGTGGACTAGA
GTGGCTCTGGTGGGAGGATTTGGGTATGTTCTAGAGATAGAATGGCTTTTCCTAAGTTACGGTGCCTCATCCTCAATTTGACATGATTCACTCTTGTGAT
CTCCAGCATTGTTGTGTGRAACAGGAGGCAAAGGCCGCGGCATTATAGCCAGAGAGAACAGAATGATCATGGCAAGTTTATAATTTCTTTGAGCCTCAGT
TTCTACACTCAAACAGTGAGAGATTTGAAATGAATGACCTCAAAGGTCCCGTCCACCTCTGAAATTCTATAATTCTTAAGAAGTATCATATCTGGGCTAT
ACTAGATTTGGATCTGAATGCAGATTAATGAAGATGTCTATGCTAGTTTAGTAACTGGCATGACTATAGTGAAAAGATTCATAGCAAGGGATAAAGTAGA
GTCAGAGCAAAGAGAGTCAATGTGGAGAGTGGAAGCAAAGTTCTCATCCTTGCTGTACAATTGACCATCCGTCTTGACTGGTGATTCTCGTTGAGGTTGT
GAAAATTCATGGCATTCACAGAGTTGTTCATGTGGTTATTAACAGTGGGCGTAAGKTAAATTCCCATTTGGTCTATTTGTCTATTTTTCTCATAAGGCCT
TTGTATATCACAAAGTCAGGAAACACTTGGTGCTTTATGTCAAGGATCAAATGGAACATATGGAAGAAACAATGACKCTGCTACAGGTCTTCCTTGGTCA
GAATTTGAAAGAAACTGTTGAAACAACATTCAGACCAGAGAAATACCCCTGAAGTCTAGAGAGATGCTCTAGTAAATAATAACAACTGCAAGAGTTGGTC
AGTGAGCCAACTCTTTCCAGCCAACGCTTGGCTCTTTCCAGCCAAGAGSCACTCTAAGATGGGAAGTAGGCTACTAAACTTTCCCATACTCTAGTCCTTA
TTATTCTAGCAGTTGAAAATAAGGCATGATGCTACTTGCCAGGGCCATTTATTTTTTGCTTATTCGCTTATTCATTCTCTTGATCAATCAGTTTTAAAAC
AGCATTTATTGAACACCCAACTCCTGTTCTGTACTAGGGATATCAGGAGTTGCCACCATCAATAAAGAGATAGGCAGCCTGCCCTTGGGGGAAGTCAGAG
GCTAGGAGAAAAGACAAATACACAAACACAAAACTAAATAAAGTATGACGCACGCTATCAGTRTGGAGGTAAGAACAAAGTGCTAAGTCATGGAAGGACC
ATGTCTGATTCTTTCACCGCTGCATACTCAGGGTCTGGCATTCAGTGTCTGACACCATGCCTCTTGCACTGTGAACCTGGAAACGCAGAAAACTCACAGA
ACTGCCTCAGGTTATTTTGAATATTCAAGGGAAACATATCAAGACTTAACATATGTTGAACACTCTTTGAACTATTTGATCATGCTGTATTCCTTTCTAT
GACATCTCATCTTCGTAAAGCTGGGTTTGCTTTGATAAAAAGCAAGTACTGTGAGAAAAACAACATGGAATAGGAAACAAGAATGAGGATTGTCCAATCT
GATTCCAGGCTTTGGGATGTAGTACAGGCACACACATCCCATTAATAAATAAATGTTATTTATGAATGAAGTAAAATAGTACTTTTCTCTCAAGTTATAT
GCATTGTTTTTTCAAATGGCTATTAAATCATCAGGACACAAATATATATTAAGTTGCTTGGACCTAACTGCTTAATAAATGGAATTGTTTGGTATTCCTG
TTGGCCGGCCTAGAAGTACCACAAAAAACTCACCCAGACATTAATGGTGCTGTAAACAGAAATTAAGAGCCTCTGATCCAACTCACTGTAGTCATTCAAC
ACATAGGATGAATAAAAAAATGCATGACATTCTAAATAARGTGACAGTTGAGCTGAGCTTTAAAAGATGAAAGGGATTTTTTCAGGCTGCAATGAGAAAG
AGAAAGAGAGAGGGAGAGTTAGTTTTCTGAAAAATGGAAGTAGAGTCAACAATATCCACTGGGATTTACCAGGTCTCAGGCACTTTTTCTAGGCACTGGC
GTATAATATTAACAGAGAAAGATAATGCCCCTGTTCTTATGAAGCTTATATTATAGTGTGAGATGCAGATGATAAAGTTTTAAAAGAGGACAGTTTCATA
TAGTGAATGATTATGCTACACTTGATCTTAGCCAAAAGGCCGAGAAGCGATAGTGAATGATTATGAAAGAAATAAAGCAGAGTAATGGGATRGAGAGTGA
CACAGGGATGGAGGGTTGCTCTACMTGAGGTGGTCAGGAAATTCTCTCTGAGTTGACATTTAAATGTCCTTAGTATGTTTGGAAGGTGAGGCATGAAGGA
GCCCAGCTTATTTGGGGGCCTGTGGGTCATTTTATCAGGTGCAGTACAAGGTATATTGTGGGGAAAGAAGTGGGATATTTATCTATGCTGAAGAGCCTGA
ACTTAGCCCCACATGTTATTTCATAAGGGACATTCTTAGCCCCTCACTCAGAGTGATGAGCTTTGGAAGAGCAGAAGGCTGAAAGAAAACTTGGTGACTC
TATCTACCCCTTCTGTGCATTTCTCTTCTCCCAGGCCCGGTCTGCCAGTCTCAGGTGAAATATATCCAAGGCAGGAGAGGGATTTCTTAACCTCAGGTAG
GAAGACTCTTAAGTGAGAAAGAAATTCTAATTGCAGGAACRTTGATTTCTTCCTAATAAATGTGCCAAATCCCCCACCTACTAGAGAGGGCCTCCAAGAA
CCTGGCTGCTGCTTCACCCTGCCACAGACGCACTCTCTCCAGTAGTGGACCAAAGAAATATACTTCTCCCCAGACCCATCCATGCTTCAATCTTTCCTGA
CCTACCCAGCTGAAAAACAGAAATTTCCCTCATACTATATAACCTCCCCTAAGATAGACATTGCTCTCATGTTAAAGTCAGATGGGACAYGTCTTTTCTA
AGTCACTTGATGAAGGCTTGATTTGTACACTGATAYAACAAAATTGGGAGCAGGCTCTCCTATCTTTCAGAGTCTGCATGCATTCTGCATTTGGACAGTC
TCTAAAAGGCTATTACGATGTATGAGTGGCAGGCGCRGTGGCTCATGCCTGTAATCCYGGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAG
GAGTTAAGACCAGCCTGGTCAACATGGTGAAACACCGTCTCTACTAAAAATATAAAAATTATCTTGATGTTGTGGTGGGCACCTGTAATCCCAGCTACTC
GGGAGGCTGAAGCAGGAGAATCGCGTGAAACCAGGAGGTGGAGGTCGCAGTGAGCTGAGATCGTGTCATTGCACTCCAGACTGGGCAACAAGAGCAAAAC
TCCATCTCAAARAAAAAAAAAAAAAATTTATGGGTGGGAGGAGTGTGGAGAGTAATTTAAAGGATCTATTTTTCACTTTTTCAATCCCATGGATAATGAG
GACTTAAAGCAGTGTTATGTAGCAGAAAGAACATGGGCCCTCTTGAATCCTGAGCTGCCACTTACCAGTTATGTGCTTTCAAACGCGTTTATTAACCTCT
CTCAGTCTCRGTTTTCTTGCATATAAAAATATCGTTCTAATATATGTACAAACAGAAAATGTTAATACAATGTTAATGGTAATTTTAAAATTGGAAACAA
ATGGAGGATGGCTGGTTAAATAAGGTGTGATATGCTCATAGCATGGAATGCTATACAGTCATTAAAAAGATTAAGGTGGATCTATTTGTACAAACCTGTG
AGTTCTTCCAAATTATCTTGTTAAAAGTTTAAAAAAGCAAATTGTGGAGTAATAACCTATAGTATGATCTCAGTTTTTAATAATCCCCAGAMTGAAATGT
GTCTGGTTGTGTGGCACCATCCCAAGGCATTGAAGGACACACATCCAACTGATCACCTAATACAGAGCAGGGAGGGACTGAATAAGTTAGGGGGACTTTC
ATTTTTTATTCTATATGCTTTTATAGTGTTTTAATTTTTTATAATGAACACATATTCCTGTATTTGTAGTATAATTTTAAAGAAAATACAAAACAAAAGA
AGATGAGGTTGGGAGRAAAYATTTTATACATAATTGAGTTTTTATTTGTTTTTGAAACAAAGAAAAAAAATACCACCTCCCAGAGTTCTGCTGAGGATTA
TGTGAGAAAATGTCTAAAATGCACTCAGCCTGGTACCTGACTCAGTCATGTTGGCTCTACTCTTCCTCATTACCTGTTATGTTTTGAATTATGTCCTCAT
TCCATTATGTGTTGGAATCCTAAACTCCCATACCTCAAAATCTAACTATATTTGGAGTTGTGGTCTTTAAAGATGTAATTAAGTTAAAATAAGGTCATTA
AGGTGGGCCCTAAATCAGTATGACTGGTGGTCTTTAAAGAAGATATTAGGATGCAGACACACAGAGAGAAGACATGTGAAGACACAGAAGAAGGCTGCCT
TCCACAAGCCAAGGAGAGAGCCCTCAGTAGAAACCAACCTTGCAGACCCCTGATGTTGGCCTCCTAGACTCCAGAATTGCATAAAAATAAATTTCAGTTG
TTTAGCTCACCCAGTCTGTGGTATTTTCTTATGGCAACCCTAGTCAACTAGTATACTACCTTTCTTCAACTTCCTCCTCTCTTCTGACAAAGTACTGTTT
CTGAAAGACTACATTATTTTTTAAAAACTGAAAATTAGATCACTTTGAAATTCCAAAGATCAGCCTTATTCTATGGCATCATGGGTAATTTCTCCTGATT
GTTTTGCCAAGTGACAAGTTCCAGGTATTCTGGAAGGAGAATGTTAGACCTCATTTCCGGCAGAACTGCAGGCTTATAATGGCCCTTCCTTTGGACGAAC
TCTAGAAAAACAGACTTTCTATACAATGCCCAGTTATTAGGCTGGACAGTCAGGTCTCTGGCAACTATCATGGCTTGGCTGTTCTTTGGCCAAATACTTG
ATTGGAATTGCTGTATATTCTCAGAATTATATCCCAGGGGACAAATCAGTATCCACCAAAAGAAGTCTAACTTACTGTAAAGCCAAGATGAATGTAGGAT
GGTGACTAAACTCATTATAGGACATTGTGGTTTGTGTGTTTCTCCTTTTTGGAGTTGAGAAGAACTGCTGTTGCTAGAACAAAAGGATGTTCTTTAGGCA
ACACATCTGCAAAAAATCCTAATTTCTCTGATTTGACCCACAGCTTTTTTTTTTAATGSTAAAATTAGATAACAAAGGGAAACAATGTTTCTGAAAAGAG
AAATGATGAGTGACTTTGATTGTTTCTCTGAGGGCAGAGCCCCTATCCACCCTGTGATAACATCAAGGCTAAATAAGCTTTCAGTATCTTGCAAATAAAT
TAATCTCTAAATGCAATTGTACAGCATGCCATGTGGACAACTGGAGGTTGACTTTGGTTCAAAACACATCATTTCTTTTTCGCTAGTTAAACACTGARCA
TTCAGAGTAATGGTTGAAAATATTTGCAGCAATTACTCTGGGAAAAAAAATCCTCATATTTTATGACTAACTGTTTTATCATTTGTGGCATAAAGAAATA
AACATTTTTTTAATGATTCACAGATTCCTTCATTTGATGGATCTGGTGGCTATAGATCTCCCTGCAGTGCTTGCTGCCAGGCAGCTGGCCAAGTTCACTG
GGTGCCCCCCAGCCCCAGTAAGTTAGGCCTTCTGCTTTTCCTCTCCTCTCGGCCTTCTTCTGACTGTGGCACACATTTCTTTTTTAATGCTTTTTCTGAC
ATGTCTTTATTTTACTCCTCCTTATTCTCTCTCCTATCCCTTCTCCTTAATGTGTTCTCAATTTCTTATCCTCTGCTTCAACTCTGACTCTCTCGGGAGG
GTTCTGGTATGAACACTCGTCAGTGGAAAGAATACAGGCTTGGGGGCTCTGTTACTTACTAACTTTGTGGTTTGGGGCAAGCTCTTCAACTTCTCGTAGC
CTCAGTTTCCTCAATCTTRAAGTGGAAATAATAGTAATGCTCAGTTATAGTATTCCTTTATAGRAATCAGTGCAACAATGGAAATACATGGGAAATAACA
AATTTTAGTTCTTTCTTCCACATTGCCTTGGTAAAAGCTAAGTGAGTGACACTCTTACAAGAAACAGGGCCCAGTGAAACCACAGCCCACAGTATCACAT
CAGCATTAAACATTTCCTTCCAGAAAAGTTATATTCCTTGGCTAAGGACAATTTCACTCTTGTTCATAACTCAAGGTGATATAATAAAAAACTCCAAATT
GTTAGGGAACATATGAAAGGGAATATATTAGTAAAACTGATTTCTGTTTGATGGCATCTTTCTAGTATACTTAAAGGGCCATAGGAGATATTGTCCCCTA
AATTGATCACAGTTTTTTTTTTCAGCCAGCATCATCCCATGGAGACCACGAGAGCGGGGTTTAGCAATAGTTGTAAATGACCATTGAGTGATATGAGCTG
GCATTCCTGGCCTGAAGAGTCACACCTTCCAGCTCACTTGGGTGATGCTGACTGACAAGCAATCACCTATATTATTGTCTTGTGGATTGATGGCTAATGC
CAAGCATCTACTTTCCTTGACTCAGTATGARTAGGAATGCCTACTTGGCCAACCCGTAATTTCCCTCAATATTGCCATGATCAGTTGTTATATTGAGACC
CACTCAGCTAGAGCTAACTCCTATTATTAATGACAGAGTGATGACTAAATGCATGTWTGAAGAAAAGAAAAATCATTCAACAGCTCAACTTTCAACTGAT
GAAGAGAATTAAGAATGAGACCATCATTTCCACAGGGTTGAAAATTATTAGATTGAGAAAAGCTGATATGAGTCCCCTCTCCTGGCTAGCTCCACGAGCT
TAGGCAGACAGCTTTCATCTCTTTCTGCCACAATCCCCGTTATTGAAAATGACAGATAAAGACTGATTACATACCTCARAGAGAACCTGGCAAAGTTATA
GACTCATAGAATGTTAGAATTAGAGAAGAATTAGTATATTTGGGTTGTCTGCCCTGTGCCAGGCATGGTACCTTATGACCTTTTGCCCCAAACTCAYTCA
ATTCTCACMACTACCTTGAAAATTGGGCATTACCTTAATTATACAGATAAGGAAATTGGAACATTTAAAGACATGAAATGCCTTATTTAGGCTATACAGC
TAAGGAGTGGTCCTGTCAGGTTTGTAAATGCCGAAGCACATGCTCATTTCACCATAACACCAGGAGCTATATGGGTGATCTGGACTAATTCTCATTTAGT
AAACAGCAAAACTGAGATCCAAAAAGTTTAAGGCTCAAGCATTTTTACAACATATGCTTTTTTTWTTAAGAAAAGAGATATTCAAACAAGTCTATTATAG
CAATTATAATTCTTCAAGGCTAGAAGTATATGAACTGCTGAGAATTTTTAATGTGCAAATTAAATACAGCAGAAAAAGCAAATCCAAGAATCCTTGCTGA
AAACATCTCTAATTCCCTCTCCTTTGAGCGTCTCTGCCTGTCAAGAGGATATAAATTTATTAAGTCAATACTCCTCAGAATTTACTTTCTCAAGTCCTAG
TTTCTGAATTTCATAAAAAGRATGCTGGCCTCTAGTGAACCAGATAGAAGCTTGAAGCAGGGATTTGAGAATAATTTAGAAAGAAATTACTACTGCAGTT
CATCCCTTGGCAAGGCCCTACGGAATGAAACCAAATAAGCTGCCATGCCTAGGTTGCTAACGTGCAAATACTTGCATGTGTTCAGCCTGGTTTCTGTAAG
CCTAGAAACGATAAGCAGCATCAAATCTTCTCATTAACACCAAGATGTGCTGAAACTCAAGCAGCATGAACTTGTAGGTTTTTCCCTCCAAGACATCACT
TTGTGCTGGGTACTATAAGCAAGGGCCATTATTTAATTAGTTAACAAGTTTTTGTACTATCATTCTAGCAGTCTTGTCCTTCTTATGTTTTCCTTTGCAT
TTTAAACATTCTCTTTCTTTTAAGAGGAAATTGTGAAACTTAAAGAGGTTATCTTTGAGGTTTGGCTATATTTTTCTTTATAATCTTGCTATGAGCAGTA
ACTACATATGGCTGTTGGAGAGTGTTTAGTTTGGGTTTCAACTCAGTTGAGAGTTTTGAGTGAAATATGGTCATCACAGTGGGAAGGCTAAAGAGGCATT
ATTATTTTCATTATTATTGGTTTTTTTAGAGACAGGATCTTGCCTGTCCCCCAGGCTGGGGTGCACGGGTACAATCACAGCTCACTATAACCTCAAACTC
CTGGACTCAAGTGATCTTCTCATTAAAAAGCATTATTAGATTCCTTTTCCTTTGAATCTTCACTGAGTAAATATACTTTATAGCTCTTTAACACCCGTAT
CCAACAACATACCAACATCCCTTTCCCAAGCAGCATATTCATTACCAAAAAAACTTATTCCTTCCCCAAATAGAAATTTTTAAAAGAAAGATATCACTGT
TTTACAATGTGTAATTTATACCTTTTTATTTTTTCTCCCATTAAAATATGACTAGGATTTATTTACTTTGAATTGTTATAGATATTGGAAGTAATTTAGA
CAAAACTGTCAATTCTTATAGAACAGTATTTTGAAAAAACTATTTTTAAGCTACTTTTTATATTTGACTTCGTGACTGGGCAATGAAGACAAGCAGCCAG
ATTTCCAGGCACACCACCCCTATTTCATTCAAAACAAGTCTGCTTTTAACTGCTGTATTTATTAGCATCCTATGTAGATTTCTTTGGAAGAAAAATAATC
ATTCAGCAACGAAAATAAAGTTTGAAAACACCTGCTTTATGATATCTCATAAGGTCTTCTAAATTTTRCGTGGCTATTTCTAGGTAAGAAATTCTCCAAT
AAATGTCTATTCTGTACAATTCTAATTGCCAAGAAGATGTTTCTTAGAGCAAAATGATGTGTACTTTCTTATTACCATTTAATTTACTATAGCAGATCGT
TTTTGACTACATGCAAAGCATTGCTCTAGGAGCAAATGAAAATAAGAAAATGTATGTAAGACTTTGTACTCTCAAATGTTTTAAAATTGGAGGRAGGAAG
AGAATAAAGACAAAAATATAGATAGGATTTGATGCAGAGTAAGTTACAAAAGTACAACAGAAGAGCTCAGAGGACATCTATGCAATCTATTAATATCTTA
ATAWCTATTCATCCTCTCCTTTCCAAGCAAGCAACAATCACAGATTAAATATAAAATGATAAAACCAGTGGCATAGCCAGGTTCAAAAGCAAGAGAAAAA
GTCCATGGACCAAAAATGGAAAATAAATGCAAGATGGTGAATAGTGCTGATTTCATAGGCTTTTTGGCTCCAAGACTGAAATAAAGCAAAGATTGGCAGT
AGCTTGACTCTGGTAGGATACCAGGGTTGAATTTCCTTCACAGAAGAAGCAGGACCTAAGCCAGGTAGAAAACTTGATGTCAGGAGTTTCGAGGAGGCTC
TCTGTTGTGAAGAGCGGCTGTATATATATAWAAAAAAAAAAAAAAAAAAAAAGACAGTTGCCAGTTGCCTAGAATGAGAGTTTTCTCTGAAATTGTGTGT
CTAAAAGAGGCTGTTTGATAGACATAGATACCATATCATGAACTGAAACTCTACCAAGCCATACTTTCCCTCTGGGTCTAGACTTGCAATTTCTTCATTA
TGGATTAAAACCCAAAATTTTAGTACAGTATCTGATTCTGGACCGGGGGCCATGTGAACCGTATGGAGATAATCATAAAACCATTGGAACAGACAAAGAC
AGGGAGAACAAAAGGAAAACAAACAGCTTTTCACTAAAAATGAGCCTGCAAATAAAAATTCCAAAACATAGGAAAAAAATATATATATAATACCAAGAAA
GACAACAAAATTAACGTTCACACCAGATAAAATTCTGTGAAACAGTTTGACAAAGACTTTAAAATTAATAAAGTCAATCCTCTTTATTGATGGATGCTTG
CAATTGTGAATTGTCTACTTACTAAAATTTGCTTGTAACCCCCCAAATCAACACTTATGGCACATTTGTGGTCATTCATGGGCATGTGAAGAAAAGTTAA
ATCTTTGAGTCGCTGAATGAACATGTTCCCAGCTGTGGTTGAACAAGGGACACTCTGCCTTCCTGTTTGAGCTCTCATACTGTAAACAAGTGTCCTTTTG
GCAGTCTATTTAGTGTCAAGTTTTTCACGTTTATTTTTGTGCTTTTTTGGTGATTTCATTGTTTAAAATGGCCCCGAAGCATATGCTGAAGCACTGTCTA
GTGTTTGCAAGCTCAAGAAAGCTGTGATGTGCCTTATGGAGAAAATGTGTGTGTTAGATAAGCTTCCTTCAGGCCTGAATTACAGTGCTGTTGGATGTGA
GTTTCATGTTAATSAATCAACAATCTCTACAAGGAGTGTTTAAAAAGAAACATACATTAAATAAGGTTATCTACAGATCAGTTAATTAAAATGTTGTGAC
CAGAGACTTGAAGGAACTGTATTTCTCCCTAAGTGCAATGGTTCATTATTTGCTAATTCAGCATTTATGGTGATTTTCTAGAACGTAAGTGACACAAATA
ATGAGTATTGACTTTATGTTGAAAAGAAACACATTAAGAAATAACAGTGCTTAAAAATAAAGAATAAATTAGGGAGTAAAGACAGAAATAAAGCATTAAA
TAGATAGATGAAGAAAATAAATTATTAGAAATTTGCAATTCAAAAATCTAGTAATTGAAATAAAAATTTATCCATAGATAGGATAAATTCCAAACAAGAT
GCAGAATCAGTGAAAATTTGAAGATAGAAGTTAGAAACTTTACCCAAAATATAGGCCAAAATTCCAAAATATATAATACAAAAGAGCCCTTAAGAGATAC
AGAGAGTGTACAAAAGGCTCCAATATACATCAAATAGGAGTGTTCAATGAGAAGGGGCAGAATTCCATTTAGAATATTCCAGAAAGGAAAAAAATAGTTA
TCAGACTAAAGTTGCAATGAAAGTGCTGAACAGGAAAAATAAAAATACATAACCAGACATATCATGGTCAAACATCAGAAGGAGATTCCAACTTTAGGAT
AAGGGGGAAATAGTAAAAGCTACCAGAGAAAAGACAGAGTACCCACAAAAGAATGAAACTTAGACTAAAGGCTGAAACTTCTCAGTCATAATGGAGTGTA
AAAGATGAGTTAATGTCTTCAAAATATGAATGGAACATAACTGTCAGTGTAGAATTTTGTACTCTCAACTTTCAGTGAAGAGTGTAGGCAAAATACAAAC
ATGTCCTGATCTACAAAGATGAGCATTAACTACCCATGGACTTTCACTAACATAACTACTACAGGCTACATTTGAGGAAGAAAAATATAGGAAAGGTGGG
CAAAAAGCAAAACAATGGTGATCCCCAAAGGGGTATGAGAGTGTGTATATGTATGTATGTATGTATGCATGTTACATGGCTTCTCTTCAATAATATTTCT
GGTATTCTTTTCCTAATGAGTGTCTGGGACTATTGAACTTCCCCAACCCTTTGAAGTTAGACATGACCACATATGTTGCTTTGGTCACTGAAATGTGGGT
TTAAATGAGCTATGTTACTTTCTGGAGGAAGCAATCAAGGGACACTGTGACAGTCCCCAAGTTCTGTCTTTCTTGCTTTAGTGACCAAYGAGTCTATGTG
CCCTAAAACCTAAAATCTTGCTTCTCAAAAAKTAATCTGGGGTCCAGCAGCATCAACGTCAGCCTGGTTCCTGTGAGAAATGAATATCAAGTTTCATCTT
TGGCCTGCAGAATCAAAATCTTCAGTTTAACAAGATCTCCAGGTGACTCGTATGCACATTAAAGGCTGAGAAGCTCTGTTCTATCAGATGGTCCTTCCTT
TCCCAGCCTGGGTCACTGAGTTACCCCACAGATGACAGCTGCTCTGGAAAGACATTTTATGAGAAAGAAATAAATATTTGTTTTGTTAAACCAAAGAGCT
TTTGGAGATGATTTGTATTTTCAAAATCACCTAACTTATCCTGACATCTACAGTTAATATGGTAACACAATGGTTCTCCAAAGATATCTATGTCCTGATC
CCTGAAACTTGTGAATATATGTTACATGGCAAAAAGTATGTACTTCTGTAATTAAGGTTGCAGACCTTAAGATCTTAAGGTTGCAGGAAGTATATCCTGG
AGTATTCAGGTGAGCCTCATCTAATCACACAGACTCCTAAAAGCAGAGCGCTTTCCTCAGCTGGAGGCAGAAATGATTGTAGCAAAAGAAACCAGAGATT
CTAAGCACAAGAAGGCATTCATGTACTGTTGTTATTGGCTCTGAGATGGAGGGGGCCGTGGCAAGAACCGCAGAGAAGTTTCTAGGAGCTAATGGTCACC
CCCAACTGATGCCTAACAATGAAGTGGGACATCTGTCTTAAAACCCCAAAGAACTGAATTTAGCCAACAACCTCAATGCATTTGGATGTGGATTCATCTC
CGCAGCCTCTAAAAAGTAAGCCCTTCCAATGCCTTGATTTTGGCCCAGGGAAACGCTAAGAAAAGGACCCACTGAGCCATGCTTTATCTGGGTGTCTGTA
CACAGAATCATGAGATAATAAATTTGTGTTGTTTTAAGCACCTACGTTTATGATAAATGTTTATGGCAGCAATAGAAAACTAATATTATTAATCCAACTG
CTGACCATAACTTTGGTGGGTTTTTTTAAAAAAACATATTTGTGTATTACTAACATTCCAATGTTTAGTGTGTGCTAAGATCCCTCTTGTATTTGGGAAG
AAAATGGAAACACAAGATAAGTTTACATTTTTTGGAAATGCAAGTTTAGATGTACATTTTAAAATTTTAAATATTCAGTAACAGACTAGAAATATCATCT
ATAGCTTCCAMACTAACAGAGAAAATCTGGAGAATAAAGACAGCCTTACCAATTTAATAGAAGCTAGGAAAAGAGAGAAAAGAATCAAAAAGGATGGTAG
ACAAAAAATACAAAACAAAATGCCAAAGTTTTCCAAAGTGGTGGTTTCAATCCATATTCCCACCAGAATTATACTTGTTCTCTTTGCTTCATATCCTTGC
CAGTGCTTGATATTGTAAGACCTTTTAATTTATTTTCCTATCTGTGRGTGCATTCCTAGAATATACCCAACTTGCTCATAATATATTATATTGTTTACAT
CTTGTTTTGGTTTCCTAATAATTTGTTTAGGACAATTTGCCTCTATGTTTATGAGTAATTTTATTTCTTATATAATTCTTATCTGATTTTAATAAAAGAA
ATTGGGACATGTTTCTTCTTTTCTAGTCTTTGAAAGAGTTTATTTTATATTGAGATTGTCTATTCCTTTCATGTTTAGTAAATCTTGCTTGTAAAATTAT
GAGAAGAGATTTTCTTTGGGGGAAGATTTTTCATTACCGCTGAATTTTTTTTTTTTTTTTAAGTCTACATGCAGTATAGCCTAGTGCCCAAAGAATGAGT
TTTGGAGGCAAACTGTCTAGATTCAGTCTCAGGTCTGACCTCCTAACTGTGTAGAAAGTCACTTAACCTCACGGTGCCTCAGTCTCCTCATTTGCAAAAT
GAGGCACATAGGGTCGTCGTGAGGATTTCATGAACTGATATATGTAAACATGTAGGTCAGTGCCTGTCACATAATAATACTATAAGCATTTACTTTTGTT
GTTATTTCTCTTTCTTCTCGAATAGTTGTGTTTTTTGTTTTCTCTCACTTGTCTAAGACTGTTTTCAAGTATGATGCCTTAAAGTAGGTTGAACTTCTCT
GTAACTTTCTCTTCAACTCTGGCTGTATCTGCATCTGTCTCCCTATTTGCATCTCTAATGGTGTTTGGGATTTCTTCTTTGTTAAGAAAGAAGAAATTCA
AAMTTCATCATTTAATGAAATTTGTCAGAATTTATTTTATTAATCTTTTCAAGTAGCAGCCTTTGGCTTTGTTGAGCCTATGGTTTTTATATTTTCCACT
TCATTGATATTTATATTATTTTCTTTAGCTTACTTTCTTCAAACTTATTTTAGTGTACTTTTTGTAATTCCTTAGGTTTGAAGCTTGGTGTTTTACATTT
CAGACTTTCTTGTTTTCACAGAAATGTTAAAATAAATACAGCTTTAGTTGCATCCCGCAGTGTGATAAAAAAAAATTTTCATTATCATTCAGTTCTAGGT
ATTTTTAAATTTCCATATGATTCCTTCAGGTCATAAATTACTTACAAATCTGTTCATTAACTTCTAAATACATGGGGCRTTTACATTTTTCTTTATTAAT
CGCTAACAATTGCATTATGATTTTTCCAAAATGGTCTTTTTATTCCATTTCTTTGGAATTTGTTGAGATTTTGTTTGATGACCTGTTATCCACACTTTCT
TGTAGAGAACATGTTTTCCTGCTCTGGAGTGTAAATTTCTATATGAGTATATCAAATGTTTTGAATGTGTTTATTAAATGTCCTAGTTCTTTAATAATTT
TTTWAAAATACTTGAGAGAATGATATTTAAAATCTTCTTCTTTGTTAGGTTAATTTGCCAATTTCACCTTGTAGTCCGTTTGGGTTATTTTGGACTGTCT
TATTAGGTAGATATACATTTAAAATTGTTTGATCTTTCTGAAGAAGCTAATCTTTCTTCATAAGTTAGTGACTGTCTTTATCAGTAGTAATCCTTTTTGC
CTTAATGTATAGTTTATCTGATATAAATATTCACCTTTCATTTGATTAGATCTGTCTCTTACATCTTTTTCTACTCCTTTACTTTCCACCTTTCTTTATC
TTTATGGATATTTAATGTAAATATTTTTAATTTTTAATCTTATAATCTTTGCTTTCTTCCATCTATTTGCTGTCACTATGGTTACTGATAAAATTACACT
TATCTCTATCTTTAAATTTATGGATATTTAATGTAAACATTTTTAATTTTTACTTTTATAATATTTGCTTTCTTCCATCTATTTGCTGTCACTATGATTA
CTGATAAAATTAGACTTATTTCTGCCATCTTACTTTCTGATCTCTAGTTGGCCTGCTTTTCCAATGTTTCCTCTTTTCTTCTTGACTTCTTAGAACTAGT
CCCAGTCTTTTTTTTTTTTTTTTCTTATTATACTCTTCCCTCTTCCCTCTACTGGTTTAAAAGTTATATATCCATTTCTATTTTTTTACTAATTACCCTA
ACTTTTAATATGCATACCTAAAGTTAAATAGTATTTATCCCCACCTATCAAATAATTCATGTCTCTTCAAACACTTTAGCTCTGATTAACCCCCTCAGAT
TTATGTGCTATTTTTGTCAAGTGTTTTAGCTCTATTTTTCTTAACTCACAGATTAGACACTTGATATAGTCAAAGTTTATTCAGATATACTTGAAAACAT
TCCACTTTATTTGATCCCATTTTTTCTCAGATCATAGATCTTCAAATATTACTTTCCTTTTATCTGGAGTATATCCTTTAGACTTTCTGTTAGTGAGGGT
TCMTTAGAAGTGAGTGCTTTTGGTTTTCTGTATTTTGTTTGTCTGAAATATTTGTATTTGGTGCTCTCTCTTGAAAGTTAGTTTTGCAGTGAACTTAACT
CTACGTTGACAGTTATCTTGTCTCAACACTTCAAAGAGAATTATCCATTGACTTCTAACTACCATYGTTGCCATTGAGAAGCCAGCTGTCATTCTAATTT
GTTTTTCCTGTATCTTTTCTGCCTGACTTSTTTTATTTATTGTTGGTGTTCAGTAGTTAGCTATGATCTTTGTAGAAATGAATCATTATTTTATTTTATT
CTCATTAGACTTCTGAATCTGAGGATTTGTATTTTTAATTATTTCTGGAAAATTCTCACAAAATTATTTTCTCTATGTAATTCACATTTCTTAGTCTGTT
ATTAATGCTTTTTACATCTTTGTCTCTCTATATTGTATTTTATATAATTTCTTCAACACTTTCTCTCATTTAACAATATCTCTTCCCAGCTGTATCTAAT
ATGCTTTTTATTCGACCTGAAAATTTATAAAAACATTTATATCTGCATGTATATGAGTTCTGTTTTTTTTTWAAATCTACATGATGACACCTGTTCTTTG
GTTACTCTTTCAAAATTCTTCTTAAAAATGTCCATAAGCATGTTAAATTTTTTTATTTTGCATCCTGTGTCTGATAATTTCACTATCAGAATTTTCTGTA
GGTCTGATTTTCTTGTTTCTGCTGTCTCCTTTTCACGTTGCCTTGTTTCCTCATGTTTTATGTTATCCTTATATGCTTTCATGATTGTTGGAATTTAAGA
GGGAGTTCCTTGTAATCTGGTTTACGATGTGTACTTCCTGGAATAATTTACGTTTGCTCTTGAGGAGGATGTTGGCATAGGGTGACCCAATGCGAATCCA
AGACCACTTTACATTCCCAAATGTCCGCACTAAGTGAATTGTTTCCCAAATTGTCATGAGTCCTATTGTTAGAAACTCTGAAGGAAACTTCTACCCCCAA
CCTTTACCCGTAGCCAACCTGAGATAAGCAAGTTTTCCTTATTATTTCTTTATGCGGATCTGAGTGGTTTTTTTTTTTTATTTTGCTTGTTTGTTTGTAT
TATCTCATTTTATTTTTTTTTTTAGAGAAATGGTAGGTTCACAGCAAAATTGAGCAGAAAATAGAGAAGTTTYCATATGTCTCTGCCTACCACATGTACA
GTCTCCCCCACTATCAATGTCCTGTCCCAGAGTGGTACATTTGTTAGAATTAATGAGCTACATTGACACATSATCAGCTAAAGCCCATAGTTTACGTCAA
GGTTTACTCTTGTGTTGTACATTCTATGGGTTTTCACAAATATGTAAGGAACATATATCCACCTCTGTAGTATCATACAGGATAGTTTCACTACCTTAAA
AATCTTCTGTGCTCCACCTGTTCATCCTCACCTCCCCATAACCCGTGACAACTACCAGTCTTTTTATTGTCTCCTTAGTTTGGTGTTTTTTAGGAGCTGA
GTATCATTTTCTTTTCCTAGTTTATTCCTTCTCTGAGGGTTTTGCCTTASAGTCCTGGCATTACGAGCAGATATTCATCTTCTTCCACAACTTGCCGTTC
ATAGACTTTATCCCCTGTTCCCTGCTTATAAAGACTGTTAGAATGGAAAGTTCAACACCACCAGAAACTGGCAGATCCTTTTAGAATCGACTTCCATCAA
CTTCCTCTCTGGATTTGTGCCTTTTTATTGTTTTTGTCTCTGAGGAAACTTCCTTGCCAGCCCAGCTGTGTATTAACAATTTTTTAAATTTTTATTTATA
CTTAAAGCTATTATTTTTAGTCACTTGTAGTGAGAAGCTTTCTCAGAGTTTCTAGTCCTACATCCTGTTGCAACTGGAAGGTCCTTAATTCATTCCTTGA
TGAATGTTATTTAGCATTCATTTTGTATCAGGCTTGGACGAGGCCCTTGGGTTTTCATTGTTTTGGAGGACACAGATAGAAAAAAACAACAATGTATTAA
GTCCAAAGATGAAGGTATGCACAGGGTGCTATGGCATCCCAGAGGGAGTTGCCTCACACAGGCTGAGAATAGGGAGTTGTCAGAGAAGGAGACCAGGAAG
TGACACTTGAGCTTTGAAGGAGTTAACCAGGRGAATAAGAGGTGACCATATTGGATCATGTCAGCCAGAGGAGTGAAACATTGAGAGAATGGCAAATATG
CCAACATCAAGTGTGGGCTGGATGGTAACAAATACGAAGAAAAGAATCTAGAAAACAGGCAAAGCTGGGTCAGCTCCTCACAGAAACTTTGTGAGGTATT
TATTGCATTGCCACACCATGTAGAAAGGAGAAAACAGTGTAAAAGTGTTCCTATGAACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAAAAAAA
ATACATATAAAAAAAGAAAGAAGAAAACAGAGACAGCTCAGCTCTCAGGATCTGTAAGGAACACTGATGACTTGCAGGGTAAGAAACAGAATTGACATTC
TTTTTCCTTTACCGCCTTGCACAGAATCAGCCTTAAAGAAAGATAGAATAGGAAAGGAAGTTGCCTCTGTCCAGAAGTAATTGTCCACTTTTCAATTATC
TGCCCCTCTGCCTGTAATTCTATCATTATAATRAAAGCTTGACTTATGGTCTTAGCATCTGTCTTTCCCCTTTAAACTGGAAGCATCATAAAGGCAGGTA
CAATAATTGACTTTTTACTATAGCTGAGTACTTGATAAGTGTCTCTATGTTTTTGAACATATGTGGTCAATAGTTATTGAGAGTGATTAAGTGGAAAGCT
TTATTAATCATGCAAATCTTACTCTAGATGACTTTAATCAGTCTTTCCCCTTCTTTACCTTTATCTAAGTGTAGCCCACTGAAGGAAATGTAATTTTCAT
AGGAAGAAGAAAGGAAAATTGACTTTGGAGCCTAATACTATTCAGGATGAGGCTGGTGCTAAGAAGCTATGCTATAAGCCTCAAAGGACAATCTAAAAGC
ACTGGGTTKTAGAGGTCAGAAAACACATTTCTCTATTTTTTAAGTTTCTTAAAATATGTCCATGCTCCAAGATCAACAAACTAAGAAGTATGAGCACATT
TGAACAAAGTTGAATGTTGTCATCCATTAAACTTATAACCCAGTAAATTTGGCACATGATATTGTTTGATTAGACTCATATGTTAAGCCATTCATATGTC
ACTTTAATTAAAATTATATTTAAAGAAATTATATTTAAAGTGGTTCTGGAGGCAGCAAGGCATGGCCTTTAACCTTCAGTTTGGAAAGAATTGTCACCAA
ATCTATGATGTGATGAAGCTTTTTGAGACCTGAAATACTTTTTTATGGGGTCAATTTATATACCATTAACCATGAACTTGGGTATCTGTAGGAGGAATTC
TGATCTAGAAGTTGGAAAGAGATTAGGGAAGGAAGTGACAGGGTCATTAAACTCTTTCCATGGTTTTGTCCGTATGAACCCTACTTCTTTCCCCTCATTC
CAAAGTCTATAAGGAAAGGCACAGATAGTCTTCACTGGTATCATGAAACAGTCTGAGAACTCCTTGCTTTCTCTCTTTGGACAATGTGACATAAGAGAAC
ACCCTGTCTCTTGCCAAGAAGATTTGCATTAATGGTCAGGGTTAGAGTTTACCACCCAGAGAGGAATCTGGGTGAGAGGAGACTCTTTTCCATTCCAGTG
ATTAGAGAATAGATGTCTTTCTCTTTCACCCATAGACTTGGAGCTTTCTCTCAGGTGAGAACCACTTCCAGTTCTAGAATTGTTCTTTAATGAACTGATT
CAATAGTGATTAAAATAAGGGCCTGACCTTGACTTTGCAAGAAATGACCCAGGTTAACCTTAAGTTGTATGCTACAAAAATGTTACTAAAAGAGGTATTT
CAAGTCATTCATGGTGCTGTGTTGCATGCCGCCAGTAAAGGAGCATTGATTAGATATATTGCCAGGAAATACACCATGTTGTCAGGATTCACTGACAACC
AAAAAGAAGTTAAGCCTGCAGACAATATCAAGTGGTTTGTTGGAGACTGGGAAGGAGAGAAGGTGAAGAGAAATGCTACAGTCTTCTACAAGCGGTCCAT
CATGGCATTTATCTTTTAATTGCTCTARAAAGTGCCTTTTTCCATTTGTCTGATAAATGACTGGCATAAGAACCACATGTTCCATGAAGCAACTGCAATC
TCCATATTTGCAATCTATCAATCTCACCCTTTCTCACTTGTCTTTTTTTTCTATTTAGCATGTTTCATTGYAGATTAAACAGATTTTATTCCCTGTTGCC
TGGTAATTATATATAATTAAAAAGCACAGAGGAATGGGCATAAAAGCACAATGAAGTAATAATCATAGGAACAGTGTCTTATTTGAACTCACTGCTGAGG
GAGAGTTGCTTTTTTAAAAAAATATACTTTAAATACTGGGATACACRTGCAGAACGTGCAGGTTTGTTACATTGGTATACACGTGCCATGGTGGTTTGCT
GCACCCATCAACCCATCATCTACATTAGTTATTTCTCCTAATGCTATCCCTCCCCTAGTCCTGCATCTCCCAACAGGCCCCAGTGTGTGACGTTCCTTTC
CCTGTGTCCATGTGTTCTCATTGTTCAACTCCAACTTATGAGTGAGAACATTCAGTGTCTGGTTTTCTGTTCTTGTGTTAGTTTGCTGAGAATGATGGTT
TCCAGCTTTATCCATGTGCCTGCACAGGACATGAACTCATCMTTTTTTATGGCTACATAGTATTACATGTTATATATGTGTCACATTTTCTTAATCCAGT
CTATCATTGATGGGCATTTGGGTTGGTTCCAAGTCTCTGCTCTTGTGAACAGTGCTGGAATAAACATATGTGTGCATGTGTCTTTATACTAGAATTATTT
ATAATCCTTTGGGTATATACCAAGTAATGGGATTGCTGGGTCAGATGGTATTTCTGGTTCTAGATCCCTGAGGAATCGCCACACTGTTTTCCACAATGGT
TAAACTAACTTACACTTCCATCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCATCTGCTGTTTCCTGACTTTTTTAATGTTCACCATT
CTAACTGGCATGATATGGTATCTCATTATAGATTTGATTTCCATTTCTCTAATGACCAGTGATGATGAGTTTTTTTTCGTATGTTTGTTGGCCACATAAA
TGTCTTCTTTTGAGAAATGTCTGTTCATATCATTTGCCCACTTTTTGATAGGGTTGTTTTTTTCTGGTAAATTTGTTTAAGTTCTTTATAGATTCTGGAT
ATTAGCCCTTTGTCAGATGAATAGATTGCAAAAAATTTCTCCCATTCTGTAGGTTGCCTATTCACCCTGATGATAGTTTATTTTGCTGTGCAGAAGCTCT
TTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGGTTTTGGTGTTTTAGTCGTGAAGTCTTTGCCCATGTTTATGTCCTGAATGGT
ATTGCCTARGTTTTCTTCTAGAGTTTTTATGGTTTTAGGTCTTATGTTTAAGTCTTATTCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGTGGT
CCAGTTTCAGTTTTCTGCWTATGGCTAGCCTGTTTTCCCAACACCATTTATTAAATAGGGAACCCTTTCACTATTGCTTGTTTTTGTCAGGTTTGTCAAA
GATCAGGTGGTTGTAGATTTGTGGTGGTATTTCTGAGGCCTCTGTTCAGTTCCATTGGTCTATATATCTGTTTTGGTACCAGTACCATGCTGTTTTGGTT
ACTGTAGCCTTGTAATATAGTTTGAAGTCAGGTAATGTGATACCTCCAGCTTTGTTCTTTTTGCTTAGAATTTTCTTGGCTATATGAGCTCTTTTTTGGT
TCCATATGAAATTTGAAGTAGTTTTTTTCTAATTCTGTGAAGAAAGTCAATGGTAGCTTGATGGCGATAGCATTGAATCTATAAATAACTTTGGGCATGA
TGGCCATTTTCACGATATTGATTCTTCCTACCCATTAGCATGGAATGTTTTTCCATTTGTTTGTGTCTTCTCTTATTTCATTGAGCAGTGGTTTGTAGTT
CTCTTTGAAGAGGTTCTTCACATCCCTTGTAAGTTATATTCCTAGGTATTTTATTCTCTTTGTAGCAATTGTGAATGAGTGCTAACTCATGATTTGGCTC
TCCATTTGTCTATTATTGGTATAAAGGAATGCTTGTGATTTTTGTACATTGATTTTGTATCCTGAGACTTTGCTAAAGTTGCTTATCAGCTTAAGGAGAT
TTGGGTCTGAGACAGTGGGGTTTTCTAAATATACAATTATGTCATCTGCAAACAGAGASAATTTGACTTCCCCTTTTCCTATTTGTATACCCTTTATTTC
TTTCTCTTGCCTGATTGCCCGGGCCAGAACTTCCAATATTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCTTGTCTTGTACCAGTTTTCAAAGGGAAT
GCTTCCAGCTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTTTCATAAATAACTCTTATTATTTTGAGATATGTTCCATCAATACCTAATTTATTGA
GAGCTTTTAGCATGAAGGGGTGTTGAATTTTATTGAAGGCCTTTTCTGCATCTATTGAGACAATAATGTGGTTTTGTCATTGGTTCTGTTTATGTGATGG
ATTACATTTATTGATTTATATATGTTGAACCAGCCTTGCATCCCAGGGGTGAAGCCAACTTGTTCGTGGTGGATAAGCTTTTTGATGTGCTACTGGATTC
AGTTTGCCAGTATTTTGTTGAAGATGTTCACATCAATGTTCATCAGGGATATTGGCCTGAWATTTTCTTTTTTGTTGTTGTTTATCTGCCAGGCTTTGGT
ATCAGGATGATGCAGGCCTCATAAAATGAGTTAGGGAGGAGTCCTTCATTTTCTGTTGTTTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGT
ACCTCTGGTAGAATTCGGCTGTGGTCTGGTCCTGGGTTTTTTTTTTGGTTGGTAGGCTATTAATTACTGCCTTAATTTCAGAACTTGTTATTGGTCTATT
CAGGGATTCAAATATTTCCTGGTTTAGTCTTGGGAGGGTGTATGCCCAGAAATTTATCCCTTTCTTCTAGATTTTCTAGTTTATTTGCATACAGGTGTTT
ACAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGATATCCCCCTTATCATTGTTTATTGCGTCTATTTGATTCTTCTCTCTTTTTTTC
TTTATTAGTCTGGCTAGTGCTCTATTTCGTTAATCTTTAAAAAAAAAAACAGCTCCTGGATTCATTGATTTTTTTGAAGGGTTTTTTATGTCTCTATCTC
CTTCAGCTCTGCCCTGATCTYAGTTATTTCTTATCTTCTGCTAGCTTTTGAATTCCTGTTCCTGTTTTGAAATCCGTTCCTGTTTGCTCTTGCTTCCCTA
GGTCTTGTAATTGTGATATTAGGGTGTCGATTTTAGATCTTTCCCACTTTCTCCTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTAGC
TGTGTCCCAGAGATTTTGGTATGTTGTCTCTTTGTTCTCATTGGTTTCAAAGAACTTATTTATTTCTGCCTTAATTTCATTATTTACCCAGTAGTCATTC
AGGAGCAGGCTGTTCAGTTTCCATGTAGTTGTGCAGTTTTGAGTGAGTTTCTTAATCTTAAGTTCTAATTTGATTGCACTGTGGTCTGAGAGACTGTTAA
GATTTCTGTTCTTTTGCATTTGCTGAGGAGTGTTTTACTTCCAATTATGTGGTCAATTTTAGAATAAGTGTAATGTGGTGCTGAGAAGAACGTATATACT
GTTGATTTGGGGTGGACGGTTCTATAGATGTCTATTAGGTCCATTTGGTCCAGAGCTGAGTTCAAGTCCTGAACATCCTTGTTAATTTTCTGTCTTGTTG
ATCTGTCTAATATTGACAGTGGGGTGTTAAAATCTCTCAATATTATTGTGTGGGATTCTAAGTCTCTTTTAGGTCKCTAAGAACTTTATGAATCTTGGTG
CTCCTGAATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGCATTGATCCCTTTACCATTATGTAATGCCCTTCTTTGTCTGTTTTGATCTT
TGTTGGTTTAAAGTCTGTTTTCTCAGAGACTAGGATTGTACCCCTGCTTTTTTTGCTTTCTATTTGCTTGGTAAATATTCCTCCATCTCTTTATTTTGAG
CCTATGTGTGTCCTTGCATATGAGATGGGTCTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAGTTTGCCAGTCTGTGTCTTTTAATTGGG
GCATTTAGTCCATTGACATTTAAAGTTAATATTGTTATGTGTGAATCTGATCCTGTCATTATGATGCCAGCTGGTTATTTTGCCCATTAGTTGATGCAGT
TTCTTCATAGTGTCAATGGTGTTCACAATTTGGTATGTTTTTGCATTGGCTGGTACCGGTTTTTTCTTTCCATGTTTAGYGCTTCCTTCAGGAGCTCTTT
TAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAA
ATTCTTGSTTGAAAATTCTTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTAGGGTTTCTGCAGAGAGATCTGCTGTTAGACTGATGGG
CTTCCCTTTGTCAGTACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACCTTGCCGAATATGACAATTATGTGTCTTGGGGTTG
CTCTTCTTGTGGAGTATCTTTGTGATGTTTCCTGTATTTCCTGAATTTGAATGTTGGCCTGTCTTGCTAGGTTGGGGAAGTCTCCTGGATAATATCTGGA
AGAGTGTTTTCTACTTGGTTCCATTCTCCCTGTCACTTTCAGGTACACCAATCAAACATAGGTTTGGTCTTTTCACATAGTTCCATATTTCTTGGAGGCT
TTGTTCATTCCTTTTTATTCTTTTTTCTCTAATCTTGTCTTCACGGTTTATTTCATTAAGATGATCTTCAATCTTTGATATCCTTTATTCCACTTAATCG
ATTTGGCTGTTGATGCTTGTGTATGCTTCACAAAGTTCTCATGCTCTGTTTATCAGCACCATCAGGTCATTTATGTTCTTCTCTAAACTGGTTATTSTAG
TTAGCATTTTGTCTAACATTTTTCAAGGTTCTTAGCTTCCTTGCATTGGGTTAGAACATGCTCCTTTAGCTCAGAGGAGTTTGTTATCACCCACCTTCTG
AAGCCTACTTCTGTCAATACATCAAACTCATTCCCCATCCAGTTTTCTTCCCTTGCTGGCAAGGAGTTGTGATCCTTTGGAGAAGAGTCATTCTGGTTTT
TGGAATTTTCAGCCTTCTTTCACTGGTTTTTCCTCATCTTAATGGATTTATCTACCTTTGGTCTTTGATTTTGGTGACTGAATGGGTTTTGTTGTGGACA
TCCTTTTTGTTGATGTTGATACTATTCCTTTCTGTTTGTTAGTTTTCCTCTAACAGTCAGGCTCCTCTGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCC
ACTCCAGACCCTGTTTACCTGGGTATCRGCAGCGGAGGCTACAGAACAGCAAAGATTGCTGCCTGTTGCTTCCTCTGGAAGCTTCATCCCAGAGGGGCAC
CCACCAGATGCCAGCTGGAGCTCTCCTATATGAGGTGTCTGTTGACCCCTGCTGGAAGGTRTCTCTCAGTCAGGAGGCACAGGGGTTAGGGACCCACTTC
ACGAGGCAGCCTGTCCCTTAGTAGAGCTCTAGCGCTGTGCTGGGAGATCTGCTGTTCTCTTTAGAGCCAGCAGGCAGGAACGTTTAAGTCTGCTGAAGCC
RCACCCACAGCCTCCCCTTCACCCAGGTGCTCTGTCCCAGGGAGATGGGAGTTTGATCTGTAAGCCCCTGACTGGGGCTGCTGCCTTTCCTTCAGAGATG
CCCTGCACAGAGAGGAGAAATCTAGAGAGGCAGTCTGGCTACAGCAGCTTTGCGTAGCTGCGGTGGGCTCTGCCCAGTTCAAACCTCCGGGGGCTTTGTT
TACACTGTGAGTGGAAAACTGCCTACTCAAGCCTTGGTAATGGTGGACGCCCCTACCCCCACCAAGCTCCAGCATTTCAGGTCGACTTCAGACTGCTGTG
CTGGCAGTGAGAATTTCAAGCCAGTGGATCTTAGCTTGCTGGACTCCATGGGGGTGGCATCCGCTAAGCTAGACCACTTGGCTCCCTGGCTTCGGTGCCC
CTTTTCAGGGGAGTGAATGTTTCTGTCATGCTGATATTCCAGGCGCCACTGGGGAATGAAAAAAACTCCTGCAGCTAGCTTGGTGTCTGCTTAAACGGCC
GCCCAGTTTTGTGCTTGAAACCCTGGGCCCTGGTTGCGTGGGCACCTGAGAGAATATCCTGGTCTGCGCATTGCAAAGACTGTGGGAAGAGCATACTGGC
TGGGCCGGATAGCACCGTCCCTCGTGCACAGTGCCTCATGGCTTCCTTTGGGTAGGGAAGGGAGTTCCTCAACCCGTTGCACTTCCCTGGTGAGGCGACG
CACCACCCTGCTTGGGCTCACCCTCCGTGGATTGCAGCTACTGTCTAACCAGTCCCAGTGAGATGACCGGGGTACCTCAGTTGGAAATGCCGAAATCACC
TGGCTTCTATGTTGATCTCGCTGGGAGCTGCAGACCAGAGCTGTTCCTATTCTGCCATCTTGCCAGCCSCTGCCTCACTTGTAAATAGAAACATAAGGAA
CTTGTTTTGCAACAGACCCAAGGAATAGTGGCAAGGAATTTATGTGCTGAAATAGCTCTCCTATACTAGTCCTTTTCACAACCTGACTTTCCACCACAAA
TATTTTGGTAAATGCAGTCTGAAAACAAAGCACTGTATAATTGTGTGCTTATAAAATGAAATTGTATGCCATGTTACAAAAGGATTATGAATTACTCCTT
CAGATATGCTAATTTTAAGGAGGTGGGAGAGAACACTTATTTTAGACTATAATAAAAAATAATAGAAGGTCAGAAATGCTGATTTAAGAAAAGATACTGC
TAAATTGGAGTGAATTCAAAGAAAGGGACTAAAAATAATAAAAAGCCTCAAGGAATGAATATTTTCAAAATTGAGAGAATTTAAGACTCTAAAATGACAA
ACTACAACCAGTCTTAGAAATACCTCTAGGGAACTGGATTCCAAACGTCTGCATTCTTCAAAAGAGAAAAAGTAAAAGCACTGAAACAAAAGCTACCCAG
AGGAAAAAAATGAACTTTTAAAGCTAAATGTTTTTACTTAGATCAACTCTCAGATGCCTGGAAACATTAAAAACTAGCCTGGCAAACCATTTGTTTTCAG
ATAACAAGCTATAATAGAGCAAGGAAGGTGGGATTGATGATTCATTATATCACACATTTCATATCTTTTATGTCTGGACCTGAATGAAGACATTGGAACA
GTTTAAAGCTTTCARTATACCTGTAACTAGTGTTCTCTTAGTAAACACATAGTAGGGCACACCCAAAGTTTGAATATATTAGAAAGAGTTCCATATTATT
TTCAAGGTCATAGAGTTATAAAGGTATAATTTCACTGAGCATGAACTTGATCTATTGTAAGGTATTAAGATGGTTAATGACTAATTTTCACAAACACTCA
TTTCCCTTGAATATGTTATTTTCCAAAAGACTTGAGAGTTTGGGGGAAAAGTAAAAGAAATCTGTAAACCTTTTGCACCAGGAAAAAGAACAAAAGCAAG
GAGTTTTAAACTATRCCTAGTATACATGAAAATATGGTGCCCTAAGCCATTTAATCCTAGTTATGAAAAAAAAAAAAAAAAAGCCTGTTGGCCTTTTCAA
AAAGGAGGGAAAATTAGCCAAGAACGGCCTTTACCTGCTATGGCACCATCCTCCAAAACTGACCCCACTTTCTGTTCTTTGCACTTACAGTGATGTGTTA
GAGATTTAAATATTATGCTCTTAAAATGTAACAGAGTTGTCTCCACGCAGACTGTCTAGACAGGGCAGCAACTATGTCTGTTTAATTTCATTTTACATAG
CAGCTAGCAATCTTGCACAAATAAATGCTTTTGATGATAATTTTGATGTTAGTATAATCAGGTGGCCAAAATTTGGGGGTTAAAGCTTAGTACTTTAATA
TGAGTACTTTATAGTGCGTGCTTACAACATTAAATGTTATATAAAATTTACAAATGTCTGGCTATTTTTTAAATAATAAAGGATTTCAGCACATTTTATG
TTTCTTAATATTGGCCTGTTAAATTTGTTTACATGGAGAAGGAAATATCAGTCTGCCTATTCAGAAACTAGGCAAGACTCCCTAACCAACTTTCCTAGTG
TCTGAAATGTATTAGTATTCTTGTAAATTTATTCTCGTAAATTTTTTTTGAAAGAAAGAAAAAAATTAGATATTCCATCAATTAGAAAACTAAGATTCAA
ATTCCTGCAAGACTTATGAAAGCAGCACTGGAGTTCCCACAATAAAAAATATGACGTCTGTTTCCTTTATTCAATGTGTTAGTCATTCTTTCAACAAATA
TTCGAGTACCTGGTATGTAACAGAAAGCCAAATGGGAAAAGATTGCTGTCCTTCTGGAGGTTCTGCTGTAGTAGACGAAGACAGACAATAAAATGTTAAG
CACAGTAAATGAGTAAATTATCCGATATACTTGTGGGTGACTAAGTGTTATAGGAAAAAGGAAAGTTGAGCAGGATAAAGACAAATCAGCAGTGGGAATG
GGATTGCAGTTTTACACAGAGTAGGCAGCCTAAGCTTTGTGGAGGTGATATTTGAGCAAAGACTTGATAAAGGTGAGGTAATTCGCTCCTCAGAATCTGG
GCAAAGAGAATTCCAGGCAGAAGGGATGGATAATGCATGCATCCTAAAGTAAGAGTGTTCCTGGAATGTCCCTGAAGACACAGGGCCTTGATTCCAGAAA
AATCAAGGGTGACTGGAGCTAAGTGAGCAAGGACAATAGGATGTGACAGGCCTGAGGGATGATGGGGGCTCTCATAAGACCATTCTGGCCACTGTGCTGA
CAAAACTTTCCAGGAGAGCAAGGGCAGAAGGGAAATTAGGAGACTATTGCAAGAACGCAGGCATGACATGATGGCTCCTTGGACTTGGTTGTGATCAGAT
TCTGTGTTTTTTGTGTATAGAAAAATAGTTCTGATGGATTGGATATGGAAGTCAAATATGGCTCTAAGGCAGTGGTTCTCAAAGCGGGTTTGCCAAATTA
GCAACATTCGCATCACCTGGGATCTTGTTTGAAATGCAAATTATTAAGCCTCACCCCAGGTCTACTGAATTAGAAGCTCTGGAGGGTGGGGCCCCAACAA
TCCTGTAKTTTAAAAAGGCCTTCAGGTGATTTTGATGTACGTTTAAGTTTGAAAACCACTGCTTTAAAGTTTTTGACTAGGCTGGGCAAGGTGGCTCATG
CCGTTAATCTCAGCACTTTGGGAGGCTGAGGCAGGTGGATCTCTTGAGGTCAGGAGTTCAAGACCAGTCTGGCCAACATGGTAAAACCCTGTCTCTACTA
AAAATACAGAAAAGTAGCCAGGTATGGTGGCACACACCTGTAATCCCAGTTATTTAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGCAGTAGAAGT
TGCAGCGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCCAGAAAAAAGAAAAAACAAAAAGGTTTTGGCCTGAAGAGTATAGARTTGAC
ATTGGGTTGGGGAATGCTGCAGGGAGAACAGATTTCATGGGGATAGCAGGAGGATCAGGGATTCAGGTTTGGACATGATGAGTTTCCAGTGTCTTAGATG
TCCAGATGGCAAGTGAGCAGTTGTATACAGTAGTCCCCCCCTTATTCTCAGGGAATATGCTCCAAGACCCACAGTGGATGTCTAAAACTGTGGATAGTAC
CTAACCCTATAGATACTAACACAAATATATTCTTATACACACATACAATGCATGTATCTATGTACTTATGTAAGAAAATATAGATAATTTCTCATACATA
TATGAGATAAAGTTTAATTTATAAATCACATTGAGAAATTAGCAAAAATAATAAAATAGAATTTTAACATTTAATATTATTGATAGAATTTTTCTAACAA
TATGCTGTAAAAACCTCTATTGTACTATTATAACTCTATTGTAACTATGCAGTTATAACTCTATGCTATTATAACTCTACTATAACAACATGCTGTAATA
AAACTTAAGTGAATGTGATCTCTCTTTCATTCTCTCAAAATATCTTATTGTACTGTGCTCACCTGTTCTCAAACTGTGGGTGACTGTSTGTAACTAAAAC
CCCAGAAAGCAAAACCACAGACAAGGGGGACTACTGTATATAAGTCTGAATTTCAAGCGAGGAGGTCTGAGTTGCAAATAGAAATTGAAACACTGATTTT
TTTTTTCCGAGAACAAAATATAGTACATTGGATTTTATCGATGGATATTTGCTATTCAGTGCTTTCATCTTAACTTTGAATAAAAGATACAGAAAGCCAA
GTAACAAAGACCAAAATATGTAAAAGAGGCAGCCCACCATCTACTTAGGTGTGCTAAAAGATTCGAAAGCTTTAGAGGATATATTTTCCAGAACATTTAT
CCATTTATTATAGAGCAGCCTTTTATGGTAATCTTTTCTGGTTTTACTGTCAGTAAATTGAGGATTCCTAATATTTTGAGGGTAAAACAACTGGTAACAT
TTTCTAACATCATCCAGTAGCTGGTAAATTTCCACGTATGTTTTTATCATAACGTGGTTATCCGCAGTTGTTGGAGGATAAAGTAGATGCCTTGCTAGGC
AGTTCTAATTGCGTTTTCTTGCATAGTAACTGTTATGGAGAGTGAGTGATTAGGACAGTGTGGAGGGGCAGTATGGGGTTTAAGTACATTTCTAAGAGAG
GAAAATTAAGTCAGAAGCATGGATTTTTTTTTTTTTYGGTTACTACAGTACATGTAGTCATCTGAATATGATTTCCAAGGTTCTTGATACTATCAGATAC
CAATATTGATTCTACACATAAAAGCATTAATAGGATGGCACTCATATAATAGGTTAAATGAAACAACAAAATTAATAGRATAGGACTACCACTGAATATT
TAAGGGAAGAGGAAAAACAGAGGTATGTCTCTCTAAAGGAAAATGCCTTCTTTAAAAAGAATGAAAATAAAGAAAAATTAATGCTTCTCCTGACCCTGAA
TCTACATTATGTATATTTTTCAAAGCCATTTTAAAACCTTTTATATAGTGCCACCTTAGCTGCTGCGGTAGAATCTTGTACATTTCACCCGGTGAGTAAA
CTGGGAACCCTGACCCTCCTTTGTCTCACAGTGTAATCTGATCTACTGTCATCATCAGGGGACATCTGGGATCCATCTTATCTTTCCCACTGGATAGTTG
ATTAACCAGAAAATGTTTTGAATTGGATTCATATATGGCAGAACTCCATGGACTTTATGAATTATAATGGGAGCAAATAAAAGGTCAGCTTTTATTTTTG
TGCTTTTAAAGAGGAGAGCTCTGACACGGTTAGAATTGAGTGCTTAAAACTCGGGGAGAGAAATGATTATATTAAATGGCTAAATACAGTAATTCGTGGG
ATCATGTTATTATTTCACAGAAAATAGACTTTTATAGTGAGGAAGCCTTAGCCCAGTAACATGACACAGAGCTGTCAAGCCACAGGTATATTTAGAGTTT
ATTGGAAATAGGCAGGAAACCAAGAAAAAAAGTCTTAGATTGCTTTCTCTTGCTCCATTTCTATTTGATGGCAATTCTGGAGATGTATGAGGGGCTGGAT
GTGGGAGTCTGTAGTCCTGTGCATCCCTCCCACACTATATTTTTTGCCAGGTTCTTGTTAGGGAATGGAATGCATTTGGTCCATATAACTACTAGACTTT
TTGACTATTTTAATTGTCTCCATCAATGCTTTCTATGAGCCAAGTTCAGTGCAAAAATATATTAATACATGTAAGCATATTTAAACCATAATTCATTTGT
TTTATTCTTTATTTTAAATATGCCAATTTAAAGTTTATTATTCTTACCACTAGGRTATGATGAGAGCAGAAATCCCACATTATATATATTTAGTACATTC
TACATTCAGTATTCCTTAAAGAAAACTACCTATCATGGTTAAAACTGATTACTTGTGGCATCAAAAAGCATCTCTCCAAAAGCTGATATTTCAAAGATGA
TGCCCAGAAAAAGATGGTAAGTATTTTTCAAAACAGTTAGGTTATCAGTTTCTAAATCTTACTTTTAAAAGAGTCAGGCACAGTGACTCACACCTGTAAT
TCCAGCACTTAGGGAGGCAGAGGTGGAAGGATAGCATGAGTCCAAGGGTTCCAGACCTGTCTGAGCAACTTCGAGACTTGCCTGGAGAATGAAGGGCGAG
ACCCCATTCGCCACAAAAGGAAAAAAAAAAAAAGACCAAAAAAACCCACAAAAGGATCAGGAAGTATAATGGTTTYATGGACCAATTTATAATTATAAAC
CAAAACCTTTGTAGATGGTAAATCTCYATACAAATTATTTTTATTAGCATACTTGTGGAACAAGAGGCTACAATGACTACTTGAGTTTCCACTCTTGCAG
CTGGATGATCCCAGATGCATTAGGGGTTCAATGGATGTCTTAAACTATGCTTGAAATGTTTTGGGTTCAAACAAAGAATGTTTGCCAAATCCTTCTTCCC
CTTAATTTTTAAACATGTGTATTTCAAGGGAAATTTGATTCATATGTTTCTGATTCATTTACACTTAAATCATCAAAATGTTATTTTTGTAAAAGCTATT
TGATGTCCAAGAAGCTTTCTGAACCTGTTTTATAAGTTTTCTTAAGTCCTTTTTCTTAAAACAGGAAGTTGCATTTTGCCAAGTACAAATAAACTCAAAC
ACTAAAAAGGTTCAAGTTCAGTTTYCAACTCTGAACTCCAGGTTTAAATGCATTCTCAATTTAGCAAAATATATTTTCCCACCCCTACAAAAATATGGGT
GGAAGGAAAGACAGTAGTGATAAAACTGAGTAAAGATGCTCATAAGCATTATTCTTCTCAGACCTATTTCTCTAGTTGTGAAACCATAAAACTTGTAACA
GGTGTTCCTGAAGCCATTAGATACAGGTGACTTGCAAATAAGAACATCTGTCTGCATGTTGAGTCTCTAAGATGTGTCTAAATGTGTTTACTGTGTTTGT
CACAGAAAACAGAACCTAAAGGTCTTAACATTTTAACTTCATTGGTTTACCTTTGACTGCCTTTAGGTCCTATTTTTCTTAGGAAAGGTGGRAAGAACCA
ACACAATTTATTGAACAGAGGGGAATCATAGGAGACTCTGTAGAGGTTTTATGTCTGTACTAAGATGATATTGCATTATCAATTTAAAAACATAATTGAC
ACTTTTATCAGAATTGGAAACGTGCAGAAAATTTTCCCTGGTTCATATTAAGAGGTCTCTTAATTATATCTTCTGCTCATTAAGGCAGAGGCGATTCAGC
CTGACCCTTCTAACTGTTTCACTTGTATAGAAAAAGGAGGCAAAGGAAATTTTAAGAGGAGTTTGGAACCATTTCAAACAATTTCCTCAATGTTCTGCTT
TATTGTATTTCAGTATAATGAAGTACTGTACCCCCAGTACAATGTACTCTACTTCTTCTGTACTTGTACTGAGTAATCAAGTGACTCCTGGGATGATAGG
TACTATCAAACGAAAATACTGTATTTAAACATTGCTAAACTGTCAGTTCAACTTTAGACGCTCCCATTCAATGACCAGGAACTTGTGGATCATATAAAGG
TAGGTTTATTAAACATGCTAAGCAGGAGAGAGCAGCACCTTGACAGAGACTCTATCGTATCTCAAGTGGGGAAATTTAAGGAAGGCTACGTGTAGAGTTT
GGGGGCAGTTGTTAGTTATAGAGTTGTTTTAGGGCAGAAGTTAGTAAGTGAGGCCTAGGCAGATATTGGTAGAATTTGTAAATTAGGCAAGTGGAAGTCT
TATCTTTGGAATGTGAGTTCATTAAGACAATATTAAATCAGTTTCTCTGTGCTCTAGAACATATGGTCTGAAAGGAGCTTGTGTTAAACATTTAAAGTTG
TTTGTGGCCAGTTGCGGTGGCTCATGCCTATAATCCCAGCACTTTGAGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCC
AACATGGCAAAACCCTGTCTCTACTAAAAATATAAAAAAATGAGCTGGGTGTGGGGGCACATGCCTGTAATCCCAACTGCTCAGAAGGCTGAGGTAGGAG
AACTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGCCACTACACTCCACCCGGGGAGACAGAGCGAGACTCCTTGTCAAAAAAAAAAA
AAATAAAGTTAATTTGTATTGTATGTCATGATTTGACACAATTTACCTGTGTTGTAATTCATAATATAGTTTTGCTGGTTGTAGGTAGTTTTTGTTTTAT
TTTACAAAATAAACGTGTAAACAGCCTGTATAGCACACATATTTATTTATTTATGGATCTTAAAAAATTTAAACTGCATCCTATTATCTAAAAAATTAAT
AATTGGTAAATTTTATTCATACTCTTTTCAGACAATATTCAAAATGTTAAGCCTTGCTGGGTGCCTGTGTATCTGTACCTATGTTATATACATTATTCTT
TTCCTCTGCTACTATGGTTTATTCACTCTGAGAACACATAATACTAACAGTAAAATGTCTTTGACATTTTATATTGTATTTTGAACAATTTCATGTTCAT
CCTAAATAAATATTTGTTTCTACCCCACATTGCCTAGAAAGAATTTGTGCTCCCTCAACTACCAGAGCGTTATATGCTCTTTAGTAGTATCACTAATGTT
TTGGAAAAGAGTCAAAATTTTCAGTGCTGTTTTAGAATGCTTATTTAAAGGTAAAGAGATTTTTCAGAGAAAGAAACCTTATATAAGAGAACTCTCACAA
TGATAATGTAGTAACAGGGAACTGCTGAAGGCTACATGGAAATCCTTTATTTAAAACAAAAAATTAGAATAAAAGCCTTTCTACAGCTGGAGAGTCGACG
ACAGTCTTCCATGGTAAATTTTAATCTGAAGGCTTGTAGAATAAGATAAACCTATCAAAAAGCCCTTCCAAGGGATAGRCAATATTTGCCTTTTTAAAAT
TAAATCTTACCTGYTTTTACTGAGATTTATTATTCATTAGATAATGGCCATTGTTAGCCATAGTTTTACATTTTAAATTGCCCTTTATGAAACTTACATC
AAAAAGATTCTTATTTTCCACTGATCTCTAACAATATAATTTACAATTCAAATTGAGAGAATCTCCTCATACTCCATCCCTTTGCCTTCTGTGGCCTCAT
TAAATAATCATAGTAATAGCTACCATCTACTCAGTATATTCCTTGTGCATATATTTGGCCAGCATGAGTTCGTGAACTTCTCACAACAACCTTGAGAGCT
GTGCAGAGTTATTGCCTCTGTTCTAACACAAGACTAGGCTTCCCTGTGTTAGAATARGGGCAATAACTCTGCACTGCATTGCAGCCACCCACCCATCTAA
GGAGGAAGTCCATGCTCTTTCCATTCTGCCATGCTGCCTTAAGCCAAAGCAATTCATATATAAATGGTTTCATATTTTTTGTTCCCCATGTTTAATTCTA
GATACTATGCAACCTAAGTCCTAGACAAAAAATTACAACTCCACAAAAACTTTTTGAATGAAATTTTTATAACTTTTTACTGCTAGTTATTCAAATAAAC
AATTGTCATAGCTCTCAATATCAGAACTGAAAGAGACAAATAATTTCAACTAATCCTCTGACTTTACTAGGTTCTACTTATGAGGAAGTCAAAATGATAG
TACAGTGTGGAAGAATTCATGAACCAATAGACAACTTTCAAAAAATGTATGTCCCACCTAATCAGAATATCTATTTCAAGCCAATTATTTTTCCATTTAA
ACTCAATCAGAAAATGTATTTTGAGGTGATTGCTTTATCAGATTTCTACATTTTGCAAGCCAAATAATCATATAACCTCTAAGATGATATTATAAGTTCY
ATCTATCATGACCASGACATTTGTTTTGCTTTCTAAGACCTAAGCAGACCATATAGCTGCTCTGGTTTCATGTTTGGGGGTATCCTCCTAACCTTTGTAT
GTCCTTTCTCTCTTTTTTCTCCAGGACTGCCCACCAGAAGCAGGTGATTTCCGAGCTCAGCAATGCTCAGCTCATAATGATGTCAAGCACCATGGCCAGT
TTTATGAATGGCTTCCTGTGTCTAATGACCCTGACAACCCATGTTCACTCAAGTGCCAAGCCAAAGGAACAACCCTGGTTGTTGAACTAGCACCTAAGGT
CTTAGATGGTACGCGTTGCTATACAGAATCTTTGGATATGTGCATCAGTGGTTTATGCCAAGTAAGTGCTGATTTGTTCTCATTCAACTTGTCCAGAGGG
TTTCAATGTCTTTGTGTAAATGGTTTACATAGTCTCACTCTCTGAATCACTCATCTTTACACTTTTTAGAGTTTGTAAATGGTGAAAGATTTGAAAATTA
AGSTATGATTTCAGTGAAAAGTACCAAGTGTTGTATTGTGCRAAGGAAAAGTAGACTAGAGTTATTTTTCTTTCCTTGAGTGTCACTTGAATATAAAAGA
ATAAAAATTTTTGAATAGTGTTTATCAATTATGTACTAGACTTTGAAATTATCCCCTGGATTGGCTATTCCTGAAGTGTGTGTTTGTGTTTGTGTGTGTG
TGTGTGTGTGTGTATTTAGAGACTGGATTTTCATTGACTCAGTTTCAGAATAAATCAGGTAAGACCAATTCTAAAATCCCCAAGTAAACTSTAGGAAAAC
TTGCTACTTTACTATAATTTCCATTGTATTGAAAATTCAGACACACTGTAGAGAAAGTCATGGAAGAGCCAGCTAGGTTGGACTTAAGCCAGTTAAATCT
TTMAAACAGGATTACAAAAAGGTTTGATTTCTGGTATCCATCCATTCATCAATGTCTACTCTAGGTAGGGAATTAGTAAGGTGAAAAAGRGTTTGTATGT
TTGTCATGTCTTTGCCATCTTTATTTTCAGGTCCACTKTTTGGATTAGGATTACCAGTCTAGTTTTTGGAGCAAGCAGTTGCTATTGTTTTTCTGTGTGC
TGTATTTGACTATATGCTTTTATATTTCATGAAGCAGACACAAAATTTTGAGAGTATTTGCCTTTTCCAACATGGTGTCAGCTGAAATTTTCTCTCTTCA
GAATCTATAATATCACGGCTAGGAATGTAAGAGAAATATATGTTTTAGTAATTTGTTGTTTCAAATTTATTTTTTTAAAACTTACATCTATATTTGGATG
TAAAGGCAAAAACTGTAGTGTAAATGACTATAAGAGATGTGAGATGTCAGGCAAGGTTTTATGCATGCAAGAGGGAAACAAACATAGTCAACCTTCCTAA
AGTTTAAAATCATGAGGCAGAGAAACTGATGTCATATAGGAGTTTGTCACTGATGAAACATATCTTAAGGTTTCCTTATATACAAGAGATATATGAATTT
CAGGTGTAAATTTGAATGTGGMATTTTACTATTTTAAAGCTAGAAAGGGCCTTAGAGTTATTCAATCAACATTCTAAAAAGCAATATATCTGAATAAATC
ATTTCTGATCTTTGCTATTTACTTCCTCCTCTAGGACTCTTAGTGGTAATGAAATGGAATTAGGGAATCTGAAAAATCTTTAGGAATAGTAGAGAATTGT
AAAGCAAATAGATTTAGAAAGGGGACTGTGTTGTAGGGAATGGCAAACAAAAGAATAATMACTCCCTATGTAYGTATACTGTTTGAGTAAAAGCAAGGAA
GATTTCCATTTTAGAAGTGAAAAAACTGAGGASCAGAAAATATGCTTGATCTCCTGAAAGCTGTATGTTTGGTCATGCCAGAAATGGGACTAAATTCCAC
ATCTCCTGAGATCCCATTCAATGTTATTGCTACTATATTACCCTGCTGAATGAACCAAAATAAACAAGACAGCTCAGCAAATTAGGTTTCATTTRTTTCT
TTTGCATGGGAGTTCAACGTGGCATATTTTTTCCTAAACTAATCCTGCCAGCAGGCCTCATGGTACCTTAGCAACTGAAAGAGAATCCTATCTCAGTTGC
TAAGGAATAAATTTCATATATAATAAATATGGAGTGATAGTACTGGACTTTGGGTTACAAGTATAAACATGCTTTAACTTAKRTTCTTATGAGTATGACA
GATTTGAGAGCAAATACGGTATAATTTGTAAATTATACCGTATTTGAAAAGCATTGTAACTTATACGTAGAAATAATGACTGGTTATTATTATTATTTTC
TTCATTTATTTGTCTTGTTAGAGGCAATCATGTAGTAAAGGCGATGGAAAAACAAAGATTGCATTTAAGCACTAACAAGAAATTTAGTTTGGCTGGAGAG
CCAGATAAGACCTAGCTATGCAGTAAGAATAGGGAGGTAGTTTGGGAGAGAAACATGGAGGCTTGAACGGCAGACAGGACTGTGGTAAACCATGGATGAC
CATAGTCTCACCTTGATAGAAAATGACAGCATAGCTATAGAAATTTGTCATTCATATGCACTAATTTATTTCAAGTATACCTGTTTAATACTCTTCAAAG
AGCCACATTCTCAAGACTGGTTCTTTAACTCTTAAATAGAATCACAGAGTCCTGGACTTTTTAGAGCCAGAAGATAGCTTAGCAACTCACAGTTATTGCC
GTTTCATAGAAGAGGAAACTGAGACCTGGAGACTGTCCTGAGATCACGAATAATTTGGGTGGCATGTGTTTGTTGTAAATTTCTTCAGGAAAGTTCTAGA
ATCATTGCTATTTATAATATATACCTAATTCTTACTCAGTAGTAATAGAGCATCATACGAGGTAGTAGTAGTAATGATAATAGCTTCCATTTTTGAGTGA
CTACCGTATCTAGGTACTTTATTTTTTTTTCAAATATTTACAGTTCTGCATGTTAGACATCATTATCCTTATTTCACAGATGAGGAAACTGGAGGCTCAG
GTCGATTTTATATCTTGCCCAGAGACWCCCAGCTCTGTCTGAGTTCAAAACTCCTATTCTTTCCAGCGAGGCCAGGTATACAGAGGCGCAGACCATTTGG
TAATGGTCCCCAGATTTGGCTGCCTATCAGAATCACCTGGAGAGCTCTTAAAAGACACAACTCTTAAGACCTGTCTTCCAGAAATTCAGATTTATTAATT
CTATGTATTGAAAACACTTTTCTTATGATTCTATCATGGCCAGATTCACTTACAGATTGGAAAGCAGACAGAATTTAAAGTCAAAAGACATGAGTTGGGG
CCAGGCACGGTGTCTCATGCCTGTAATCTGGGCATTTTGGTAGGCTGAGGAGGGCGGATCACTCGAGGTCCRGAGTTTGAGACCTGCCTGGCCAACACGG
CGAAACCCTGTCTGTACTAAAAATACAAAAATTAGCCAGGCGTGATGGCAGGTGCTYGTATTCGCAGCTATTTGGGAGGCTGAGGCAGGACAATGGCTTA
AACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCACCACTGTACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCTAAATAAATAAATACAACAT
GAGTTTGAATCTAGCTCCTCTTTAACGAGCTGTGTAATCTTGGTCAAGATACGCAACGTCCCTAAGCTCCATTTTTCAATCTGTGGAAAATGAATTGTCT
CCTAGACCATAGTGTACCAAAGTGAGAAAATATATGTGAAAATGTTTAATAAACTGTAAAGTGCTGTAGAAATGTAGAAGACTCTGAAAATTTTAAGTTG
AAAAATATATTAAACTAGTGGTTCCCTGTATAAGATTTTATAACTGTAACGTTTCAAAAAACTTCCCAGGATGTGACAAGTAACAAACTTCTTAATTGGT
TAGGTAATGACTTTAAAAAAAACAAAAAGAGACCTTCTACCATGTACTATCCCCATCATCATTTCACAATTGAAACGTTCATCACAAGGAAGTAGTAAGA
ACCCAGTTTCAGAATAAAGGACAATTCTTTGAACTGGAGATAGTTTGTCTTATGAGAAAGTTACTGCCCTTTACTTTTCTCTTTTTTTTTTTTTTTTCCA
GAGCACAGAAATTGTCACTAATAGCACTTCACAGCCCAGCGTTTGAAAGCAGGGCCTTTGAGATGATCTAGTCCAGCCCCAGCAAATCATTGTATGATTT
TCCCAGGATCCTATGGCTAGTTAATGACAGACTAGAAGGCAGAGAGTGCTGGTGTTTATCAACATTTTCTAATTATGCTCCTTACATTATTTCTTCAGTT
TATCCCATGAGCTGAGATTTTGTCTAGCTGYAATTCTGTCATTAATATTATGAAAACAATAGGTTTAATGAATATACCTTTTCAAACCACATTCTCCCCC
TTTCTCTCCCTCTCTCCCTCCTAGATTCTGACAATCATCCCCAGTGGGTGATTGTGTTATCCCTCTTCACCCTGCATCTCAGACTGAGAAACACTGGGAT
TCTTATTTGCTCACTATCATTCTAGACTAGATGAAGTTAGAGAGAAGGCTGAGCTAGGGAGGCAATTTGTCATTGTATGAATAGTTAAAGACAAGAGGCT
CTGGAATCATACCATCTAGGTTGGAATCTAAGCTCCACCACTCATTGGCATGTGCCTTTGAGCAAGTTCCTAAGCCTCAGTTTTGTCATCTGCAAAATGA
GGATAATAATTGTAAAAATAGGATTAGAAGGAAGATTAAGTAATCAAGTGCATTTAAAGTGCTTACTATGCCGCAATAAACATACGTGTGCATGTGTCTT
TATAGCAGCATGATTTATAGTCATTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACAC
TGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTT
TTAATGATTGCCATTCTAACTGGTGTGAGATGATATCTCATAGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTT
TTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCATGTTGCGGCATTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAA
CAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCGTAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGAT
GAAATTGGAAACCATCATTCTCAGTAAACTATCGCAAGAACAAAAAACCAAACGCCGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGATCACAT
GGACACAGGAAGGGGAATATCACACGCTGGGGACTGTGGTGGGGAGGGGGGAGGGGGGAGGGATAGCATTGGGAGATATACCTAATGCTAGATGACGAGT
TAGTGGGTGCAGCRCACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTAAAACTTAAAGTATAATTAAAAAATAA
ATAAATAAAAAAAATAAAGTGCTTACTATGAGCTTGATAAATACTACTTGTATTAATTGTACCCAAGTTATGTCTTATCTTTTTCTTTTTCTTCCTTAGA
GCCTTTCTGAGTACATGATTTAATATGGGTACACATACGAAAGGGGCACTGACTTCCCAATGAATGAGCAGACCTTCTGTTAATTTCCTATTGCAGTCAT
CTTTTGCAGATAGCTCCACATTGTACAATTATCAACTCCTGATCCAGGGCAGTGAATTGCATCCTGTACAGAGTTAATGAGCCATCACAAATAGGATCAG
TTCTATTAGTACTGCTGTTATTCATTTATTTTCATTATCCAAATTACCCCTATTTATATTTGTTGTAAAGCACAAAGCCGGTTTCTGTTTTAAATATATT
TTTTRAAAGAGTAGCATAAATGTATGGACAGAACATGTGCTGCTGTTAAAAATAATTTTGAGGTTATTTTGAAAGCAAATAGAGAAAAGTATGTTTTATT
TTTGTAATTAATAGAATTCATCAGATGATACCTGATATATGTCAAAAGAAAAAGTATGATTATAAACAAGCCTTTTATCATGAATCTGCATATTTATAAT
ATTGCTTATTGCTATTTCAAAAAATTAAGCATTTCAAAAAGGGAAAGAAGAATTCCTTTCAAGTAATGCCTTATATAATATTGTTTTAAAATGAATAATA
CAGTACAGAAATAAGCAATAAAATGAATCACAGAGTTTTGATGTCTTTATTCTGGCAACATCAAAATGAACCATATTTCTAACAAAGAAATTCTTTTCAT
TTTTAATAATTCCTGTGGTGAGTAGTTTGAAATGAATTGAATAGAATGATTATTTCTCCATCTCTGTCTGTGACCTAAGTCACTAGTATCAAATGTCCAC
CAGTTATTCCAAAGGTGATGATGTCAGAAATAAGGCGTTGGACATTTTTTCTTCTGTACTTTATAATCTAATTCCACATGGAAGCATGGTTTTTCTTAAA
ATATTTAATGCATAGTCTTTCTTATTCTGCTCTTTTCATAGCATAGTAAAGATAAAACTAACTACTACTTACTAGTTGAATTTCCTTAGTTTCTGAATCT
TGTTTATGCATTCTTCCAACAATCTGCTGTATGTTGATTATTGAGGATATAAAATTGATTAAGATCTCTTTCCATAGGAGTGATACATTTTTAGAGTTAT
TGTGAAAAACTTTTAAAAATATATTTGTCTAACAAATTTTACTTAGGAATTAACAGTATGCTAAATACTGAAAATACATTAATGGACAAGAAGGATAGTC
CCTGCCCTTCCAGAATTTTCACTGTGAGAGGAGATAAGTAAATATGAAAGTGTACTATAGTCACTATACTATACTGCCCTCACTGTAAATGGGGACCTCT
TKCTAAAATACAGATTTGGTTTCATTTATCATCTGCTTGAATCATTTCAATTGCATTTTTTTTTTGCCTTCAGGTTAAAAAAATCCCAAATTCCTTTACA
TGGTGGCTTAAAACAACAGAAATTTATTCTCCCACAGTTCATGAGGCCAGAATTCAAAAATCAAAGTGTCATCAGAACCATGCTTTCTCTGAGGCTCTGG
GTGGAATCCTTTGCCTCTTTTGCCTCTTCCTAACTTCTAATAGTAGCCATCAATCTTTACTATTTCTTAACTTGCAGCTGCATCACTCTAATCTCTGCCT
CTGTTATCAAATGGCATTCTACCCTCTGTGTCTGTGTCTTCACCTCTTCTTATAAGGACAGCAATCATATTAAATTGAGCCCACCCTAACGGATTATGAA
TTCATCTCAATTTGGTTACATCTGCAAAGATTCTATTTCCTAAAAAGGTCACATTTATAGGCATCAGAGGTTTTGACTTTAGCTTATCTTTTGGGGGAGA
CACAATTCAACCCATGACAGCCAGCTGTCTGGCTCCCAAATTTACATCCTTCACATGTGACAAATATTCACCTGATCCCAATATCCCAAAAGTTTTAACC
CATTTCAGAGTCAACTGTAACTCTAAAATATTATCAACTCAGAAAGTKCCAAATTCTATCAGCTGAATCAGCTATGGGTGAGACTTGGATATAGTGCATC
CTGGGACATCATTTGTCTCCATCTGTGCACATTTGAAACCAAAAATAAGTTATCTGCTTCCAAAATACAATGGTGGGACAAGCAGAAGCAGATTCCCATT
CCCACTCAAAAAGGGAAAAACACCAAAGAAAAAGGGATCATAGGTCCTAAGCATGTCTGATACCGAGCAGGAAAAAAATCCACTAGATTTCAAGGCCTGA
GAATAATCCTTGTGGCTCAGTGCTTCAATCTATGTGCCTGCCAAGGAGGCAGCCCTTCCCTCTCAGCTCAAGGAGGTAGAGTCAGCCCAGGCTTCTGCAT
CTGTGCCTCAGACCTAAGAGTCATTCTTCTTTCACTTTGTCCCATCTCTGAGACATTTATTCTAGGCTGTCAGTATTTCTGCTGGYATGAAATTCTCAGA
AATCACGTCAGTCTTTCTTGCAATTAACAGGTATCCAAGCCATCAAACAAGGGGGTCCTCTRCAGTTCTTTTCTGAATAACTGCATCTCTATTCCTGGCT
TCTGCTAAGATGTTTGAGGGATTCATGGGTCACATGCCTAATTTCTTTAGCAAATGGTTATCTAGCCATAACCTTGGCCCTGTTACCAGAGCACACTACC
TAAATAAGCTGAAAATGTTTCAAATAATCAAATGCTAGTACCTTTTTGTTTAACAGTTCATCTCTCAGTTTATCTCTTGGCTCTCACATTTTACTATAAG
TACCAAGGAGAAACCAGGCTGTAGTCATCCATACTGTGTTTGGAAGTCTACTCAGCTAAGTACGTAAGTTTATTGTTTGATATGGTTTGGCTGTGTTCTG
ACCCAAATCTCACCTTGAACTGGAACTCCTGCAATTCCCACATGTTGTGGGAGGAACCCGGTGGGAGGCGATTGAATTATGAGAGCAGATCTTTCCTGGT
CTCTTCTCATGATAGTGAATGAGTCTCATGAGATCTGATGGTTTTGAAAAGGGAAGTTTCAGGCTGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTT
TGGGAGGCTGAGGTGGGTGGATCATGAGGTCAGGAGATTGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTTAAAAATACAAAATATTAGCC
AGGTGTGGTAGAGGGCACCTGTAGTCCCAGCTTCTCTGGAGGCTGAAGCAGGAGAATTGCTTGAACCAGGGAGGCGGAGGTTGCAGTGAGCCAAGATTGC
ACCACTGCACTCCAGCCTGGGCGACACAACGAGACTCCATCTCAAAATAAAATAAAATAAATAAAATAAAATAAAATAAAATAAAAATAAAATAAAATAA
AATAAAAAGGGGAGTTTCCCTGCACAAGCTCTCTTCTGTTGTCTGCTGCCATGTGAGACATGGCTATCACCTTCTGCAATGATTGTGAGGCTGCCCCAGC
CACATGAAACTGTAAGTCTAATAAACCTCTTTCTTTTGTAAATTGCTCGGTCTTGGGTATGTTTATAAGCAGCGTGAAAATGGGCTAATACAGTAAATTG
GTACCAGTAGAGGAGGGTGCTGCTGAAAAGATACCTGAAAATATGGAAGCAACTTTGGAACTGGGTAACAGGCAGGAGGAAAAAGTGGTTTCGTGGGCCG
GGCCCAGGATCCCCATGCTGTGTGCACCCTAGGGACTTGGTGCCCTGCATCCCAGCTGCTCCAGCCATGGCTGAAAGGGGTCAAGGTAGRGCTCGGGCCG
TAGCTTCAGAGGGTGCAAGCCCCATACCTTAGCAGCTTCCATGTGGTGTTGAGCCTGTGAGTGCACAGAAGTCAAGAATTAAGGTTTGGGAACCTCCACC
TAGATTTCAGAAGATGTATGGAAATACCTGAATGCCCAGTCAGAAGTTTGCCACAGGGGTGGGGCTGTCATGGAGAACCTCTGCTAGGGCAGTGCAGAAG
GGAAATGTGAGGTCGGAGCCTCCACACAGAGTGCCTACTGGAACACCWCCKAGGAAAGCTGTGAGACAAGGGCCACCATCCTCCAGACGCAGAATGGTAG
ATCCACTGACAGCTTGCACTGTGTGCCTGGATAAGCTGCAGTCACTCAACACCAGCCAGTAAAAGCAGCCGGGAAGGAGGCTGTRCCCTGCAGAGCCACC
AGGACGGAGCTACCCAAGACCGTGGGGACCCACCTCTTGCATCAGAGTGATCCAGATATGAGACAGGAGTCAAAGGAAATCACTTTGGGGCTTTAAGATT
TGACTSCCCTGGTGGATTTTGGACTTGAGTAGGGCCTGTAGTCCCTTTGTTTTGGCCAATTTCTCCCATTTGGAATGGCTGTATTTACCAAATGCCTGTA
TCCCCATTGTGTCCGGAAATAACTAACGTGCTTTTGATTTTACAGGCTCATAGGCGGAAGGGACTTGCTTTGTCTCAGATGAGACGATGGACTGTGGGCT
TTTGAGTTAATGCTGAAATGAGTTAAGACTTTGGGGGACTGTTGAGAAGGATGATTGTAWTTTGCAATATGAGAAGGGGATGAGGTTTGGGAGGGGCTAG
AGTGGAATGATGTGTTTTGGCTGTGTCCCCACCCTAATCTTACCTTGAATTGTAACTCCCACAATTCCCACGTGTTGTGGGAGGATCCCATTGGGAGGTG
ATTGAATTATGGGTGCAGGTCTTTCCTGCGCTGTTCTCGTGGTAGTGAATGAGTCTCACGATATCTGATGGTTTTAAAAAGAGGAGTTTCTCTGCACAAG
CTCTCTTCTTTTGTCTGCCACCATGTGAGATGTCCCTGTCACCTTCTGCCATGATTGTGAGGCCCCCCCCAGCCACATGGAACTGTAAGTCCAATAAACC
TCTTTCTTTTGTAAATTGCTCAGTCTCAGGTATGTCTTTATCAGCAGCATGGAAACAGACTAATACATCGCTGAAAGTTCTACTTTCCACTCAATGGCAG
AAAATGACACAGCCAAGTTCTCTGCCACTGTATAACAGGACTCATCTTTCTTCCAGTATCCAATTAAATGTTCATCATCTCTTTCTAAGGCCTCACCAGA
GTTACCTTTAACATCTATGATAATTAATTTTAGGTGTCAACTTGACCAGATTTAGGGATGCCTAGATAGCTGCTGAAGCATTGTTACCAGGTGTGTCTGT
GAGGGTATTTTTGGAGGAGATTGCCTTGTGAATCAGTGGACTGAGTTGGGAAAATTTACTCAGTATTGGTGGGCACCATCCAATTGACTAGGGGCCTGAA
AGAAAAAAAAGATGGATCCATGGATGATGTAGCAAGAAGGTCCTCACCAAATGCCGGCACCTGGATCATGAATTTCCCAGTCTCCAGAATTGTGAGGAAA
TAAATTTCCATTTATTATAACTTACTCAGTCTCAGGTATTTTGTTATAACAGCACAAATATACTTTGGTAACATCTATATTTCTATCAACTGTCTCTTCG
ATCTAGGTTTTTTTCTATGAAGCACCTCAAAATTCATCCAAGCTCTACCCATTATCCAATTCCAAAGCCGGAAAGTGACACTTCATAGAAATTCATTTAT
TTCGTAATATTTTATTTTTGTCACCGTAGCTGGGTCTTTTGTGTATTCAAGTATTATTTTTATTCATGGAAGGGATTCTTCTGATATATTAACATTGTTT
TCCATCTTGCTATTCCATTTATGAAGTGAAAGAGTTTCTATGGCTTAATAAAAAAACTTTTTGGAAAGTTYTATCTGTTTAATTTTTCCTTTGAAATTAA
GTGTAAGCTTCACAAAAATTGATGAGTTTGTTTTCCCAAAGAGATTCAGTGAAGTAAACAAGGCAGAGCAAATCTAAAATAGAAAACATTTTCAAATTTT
ATTATTTTTAGTGATGTATAGTTTTTTTAATATACTCATGCSCATCATTATGTGCTTCTTCTGCCAATTCTGTGGGATAACTTTATTTCCATTTTATAAA
TGAGGAAATTGAGGCTCATAGAAAGTCATACAACTGGAAAAAGGCAAAGTACACTTCAAATTATATTATTTCTATTATATGACACCCTTTTCTGTGAGAC
CAGCACCATCCTGATACCAAAACCTGGCAGAGAGAGACACAACAAAAAAAGAAAACTTCAGATCAATATCCTTGATGAATATTGATGCAAAGATCCTCAA
CAAAATACTGGMAAACCCAATTTAGCATCACTTCAAAAAGCTAATTTAGCATGAGCAACTAGGCTTTATCCCAGAGATGCAAGGTTGATTCAATGTATGC
AAGTCAATAAATGTTATTCATCACATAAATAGAACTAAAGACAATAGTCCCAGATGCAGGAAAATACTTTTTATAAAATTCAACATCTCTTCTTGTTAAA
AATTTAATAAACTAGATATTGAAGGAAAATACCCTAAAACAATAAGAGTCATCTATGACAAGCCCACAGCCAACATTATACTGAATGAGCAAAAGCCAGA
AAATTCCCTTTTAAAACCAACACAAGACAAAGATGCCTTCTCTCACCACTCCTATTCAACATCATATTGGAAGTGCTGGCCAGAGCAATCAGGCAAGAGA
AAAAGATAAAAAGCATSCAAATAGGAAGAAAGGAAGTCACACTATCTCTGTTTGCAGACAACATGATTCTCTGTCTAGAAAACCACATGGGCTCAACCCA
AAAGCTCCTTAAACCAATAAACAACTTCAGCAAAGTCTCAGGATATAAAATCATTGTACAAAAATCATTAGCATTCCTGTACACCAACAACAGCCAAGCT
GAAAGCCAAATCAGGAATGCAATTCCATTTATAATTCCCACAAAAAGAATAAAATATCTAAGAATACAGCTAATCAATTAGAGAGGTGAGAACTTTCTAC
AATAATAATTACAAACCATTGCTCAAAAAAATCAGAGATAACACAAACAAATGAAAAAACATTCCATGCTCATGGATAGGAAGAATCAGTATCATTGAAA
TAGCCATACTGCCTAAAGCAATTTACAGATTCAATGTTATTCCTATCAAACTACCAATGACATTCTTCACAGAACTAGAAAAAAAACTATTTTAAAATTC
ATATGGAATTTTAAAAAGAGCCCCATAGTCAAGGCAATCCTAGACAAAAAGAACAAAACTGAATGCATCACATTRCCTGACTTCAAACTATAGTACAGGA
CTACAGTGACCAAAACAGCATGGTACTGGTTCAAGAACAGACACATAGACCAATGGAACAGAATAGAGAGCCCAGAAATAAGGCCACACACCTATGACCG
TCTGATCTTTGACAAAGATGACAAACACAACCAATGAGGAAAGGACTCCCTATTCAATAAATGGTGCTGGGATAACTGGCTAGCCATATGCAGAAGACTG
RAACTGGACCCCTTCCTTATATCATAGACAAAAATTAACTCAAGTAGATTAAAGACTTAAATGTAAAACTAAATACTATTAAAAAAAAACTGTGGAAGAC
AACGTAGGCAATACCATTCTGGACATAGGAACTGGCAAATATTTCGTGGCAAAGATGCCGAAAGCAATTCAACAAAAGCAAACATTGACAAATGAAATCT
AATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTATCAACAGAGTAAACAGATAACCCTACAGAATGGGTGAAAATATTTGCAAACTATGCAACTGA
MAAACGTCTATTATCCAGCATGTATAAGGAACTTAMACAAGTTTATAAAACAAACCACCCCAAGAAACCCCATTAAAAAGTGAGTAAAGGGCATGAACAG
GCACATTTCAAAAGATGACATACATGCAGCCAACAAGCATATAAAAAAAGCTCAATATCATTGATCATTAGAGAAATACAAATCAAAACCACAGTGAGAT
ACATGGTATACAAGGTGTGAAGACCAAATCAGAGTTACTGGGGTATCTATCACCTCAAACATTTACCTTTTCTTTGTATGGGGAGCATTACAATTCTTCT
TTTCTAGCTATTTGGAAATATACAATAACTTATTGTCACTATAATTTTCCCCACTGTACTGTCAAATACCAGAACTTATTCCTTCTATCTGTGTTTGTAT
ACTCAGTAACCAACTTCTCTTTATTGTTCCCCTCCTGCTTCCCTTACCAGCCTCTGGTAAATACCATACTGCTTTCTATCTCAAACAGATCCACTTTTTA
GCTCCCACATATGAGTGAGAACATGCAATATTTGTCTTTCTGTGCCTGGTTTATTTCACTTAATGACCTCCAGTTCCATCCATATTGCTGCAAATGACAG
SATTTCATTTTTTATGACTGAATAATATTCCATTGTGTATATATACCATGTGTCATAACCATTTATTAATTGATGAACACTTAGGTTGATTATATATCTT
GACTTGTGAATAGTGCTGGAATAAACATGGGAATGCAGGTATCTCTTTGATGTAGTGATTTCCTTTCATTTGGATATATAACCAGTAGTGAGGTTGCTGG
ATCATATAGTAGTTCTAGTTTTAGTTTTTTGAGGATCCTCCATACTGTTTTCTATAATGAGTGTACTACTTCACATTCCCACCAACAGTGTGCAAGTGTT
TCTCTTACTTTGCATCCTCACCAGCATTTGCTATTTTTGTCCTTTTARTAATAGCCACTCTGAGGCGAAATGATACATTATTGTGGTTTTGATTCGCATT
TCCCTGATGATTTGTAATGTTGAGCATTTTTTTACATGCCTGTCAGCTCTTTGTGTGTCTTCCTTCAACAAATATCTATTCAGGTCTTTTGTCCATTTTT
TATCAGAAATTTTTTTTCTTTGCTCTTGAGTTGAGCTCCTTATATACTCTGGTTATTAACTCCTTGCCAGATGGATAGTTTGCAAATCTTTTCTCCCGTT
CTGTAAGTTGGCTTTTCCCTTTTTGTTTTCTTTGCTGTGCAGAAGTTTTTAGCTTAATGTAATCTATGTGTCTGTTTTTGCTTTTGTTTTCTGTGCTTTT
GAGATCTTATCCAAAAAMTCTTTGCCCAGATCCTTGTTGTGGAGCATTTCCCTAATCTTTTCTTCTAGTAATTTTACAATTTCAAGTCTTACATTTAAGT
CTTTAATCAATATTGGGTTAATTTTATATTTACTAAAAAATGGGGCTCTAATTTTATTCTTCTGCATATTGATATCCAGTTTTCCCAGAACCACTTATTG
AAGAGACTATTCCTTCCCCAGTGCATATTCTTGGGATCTTTGTTGAAAATGGGTTGGCTGTTGGTGCATGGATTTATTTCTGGGTTCTCTATTCTGTTCC
ATTGGTGTATCTGTCTGTTTTTATGCCAGTACCATGCTGTTGGGGTTACTATAGCTTTGTGCCATATATATACATATACATATATATATATATATATACA
TATATATACACATTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGTAGTGTAGTGGTGCAATCTTGGATCACTGCAACCTCCACCCCTTAGT
ATCTGGGATTACAGGTGTCCACTACCATGACTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGCCTCGAACTCCTG
ACCTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGTTGCCACACCTGGTCTTGTTAACAATATTAATTCTTCTAATCCA
TCAACATGGAATAGCTTTCCATTTTTTTGGTGGCCTCTTCAATTTCTGTCATCAATGTTTTAGTTTTACTTATACRGATCTCTCACTTCTTTGGTTAAAT
TTATTCTAAGGTATTTTTTCTTTAGTAGCTATTTTAAATGGGATTGCTTTCTTGATTTATTTTTCAAATTGATCACTGTTAATATATAAAAACACTATGG
ATTTTTGTATGTTGATTTTGCATCCTGTGATTTTATTAAATTTGTTCACAAGTTATAAGAGTTTTGGGGGAAAATTCTGGGGTTTTTCTAACTATAAGAT
TATGTCATCTGCAAACAAGGATAATTTGACTTCTTCCTTTACAATTTAGATGCCCTTAATTTTTTTCTTTTGACTAATTGCTCTGGCTAAGATTTCCAGT
ACTGTTTAATAAAAGTGATGAAACTGAGCATCCTTGTCTCATTTCAGGTTTTAGTGGAAAGGCTTTCAGTTTTTTCTGTTCAGTATGTTAGCTGTGTGCT
TGTCATTTATGACCTTTGTCATGTAGAGGTAATTTCCTTCTATACCCAATTTGTTGAGGGTTTTTGTCATCTACAGATGTTGAATTTTATGAAATGTCTT
TTCAGCGTCTATTGAAATGATCATATCATTTTCATTCTTGATTTTGTTCATGTACTGTATCATTATTAATTTGTAAATGTTGATCATCCTTGCATCCCTG
GAATTATTCCCTCTTAATCATGGTGAATGGTCTTTTTAATGTATTGTTGAATTCTGTTTGCTAGTATTTTGTGGAGTATTTTTCCACATACGTTCATGAA
GGAGCTTGGCCTGTAGTTTTCTTTTTGGTTATGTCTTTGTCTGGTTTTGGTATTAGGGTAATGTTGGCCTCATTGGATAAGTTTGAAAGTTTTCTCTCCT
CTTTGATTGTTTTTTTAAATGTTTGGTAGAATTCAGCAGTGAAGTCATTGGGTCCTGGGTGTGACTTTGATGGAAGACCATTTATTACTTGTTTGATCTC
TTTATTCATCATTGATCTGTTCAGTTTTCTGTTTTCTCCTGATATGTTGAATGTGTCAAGGAGTTTATCCATTTCTAGGTTTTCCAATTTATTGGTATAT
AATTGTTTATAATAGTCTAATGATCACTTATATTTCTATGGTGTCACCTGTAATGTTTCCTTTTTCATCTCTGATTTTAATTATTTGAGTCTTCTCTATT
TTTTTCTTTGTTAGCCTAACTAATGGTTTGTTGATGTTGTTTATCTTTTCAAAAACTCAACTTTTCGTTTTGTTGACCTTTTGTATTAGTTTTTAGTCTC
AATTTCATTTATTTCTGCTCACATCTTCAGTATTTATTTTCTGCTACTAATTTAGGGTTTAGTTTGTTCTTTTTTTTCTAATTCCTTGAGATGCATCATT
AGGTTGTTTATTTAGATTATTTATATTGTTTTGATATAAGCATTTATTGCTATAAATGTCCATCTTAGTATCACTCTTCCTGTATCCCATAGTTTTTGGT
ACATTGTACTTCCGTTTTCATGTTTCTCAAGAATTTTTAAAAATTCCTTCTTTATGTATTGACTCAGTAAGCATTCAGGAGCATATTTAATTTCCATGTA
YTTGTATAGTTTCCAAAGTTCGTCTATATTTGTATAGTTTTGAAAGTTATTGATTTCTAGTTTTATTTCATTGTGGTCAAAAAAGATACTTGATATAATT
TGAATAATTTTGAATTTTTTAAGATTTGTTGTGTGTCCTAATATATGGYTTATTCTGGAAAATGTTCCATGTGTTGATAGGAAAAGTATGTATTCTGTAG
CAGTTGGATGAAATATTCTGTAAATGTCTGTTACACCATTTGGYCTAGAATATAGTTTAACCCTGATGCTTTTTTGTTAAATTTCTGTCTGGATGATCTG
TCCATTGCTAAAAGTGGGGTGCCCTACTATTTTTGTATTGCCATCTATCTCTCCTTTTAGATCTGTTAAAATTTGCTTTATATATTTGGATGTGCTAGTG
TTGGGTGCATATATATTTACTATTGTTACATCCTCTTGCTGAATTAACTCTTTTATCATTATATAATGACCTTTGTCTCTTTTTACAGTTTTTGACTTAA
AGTCTCTTTTATATGATGTAAGTTGAGCTACTTCTGCTCTTTTTTGGTTTCTATTTGCATGGAGTATCTTTTCCCATCCCTTCACTTTCAGTTTGTGTGC
CCTTATAGGTGAAGTGAGCTTCTTGTTTACAGCGTATAGTTGGRCCTTATTATTTATTCCATTCAGCCACTCTTTATCTTTTAATTGAAGAATTTAGCCC
ATTTACATTTAATGTTATTATCGATAAGTAAGGACTTCTTATTGCCATTTGGTTAGTTGTTTTCTTGTGATTTTGTAACCTCTCTCTTCCTTTTTTACTG
TCTTTCTTTGTGCCTAAGTGATTTTTCTCTAATATTAGGTTGGTGCAAAAGTTATTGTGGTTTTGGACCATAAATTTTAAATCACTGTAACTAGGCTCAA
ACACATCTTTATTAACCARAATAGGAGCCATTACAATCAGTACATTTTGGCCAATGAGAAATAAGTTTGTTTATTCCTGTAGCATAAAAATTCATGCTTC
AGGATTTGACTAACTSTTGGAAAGCATTTTCTGCATCCTGCTGGTTGTGGAGGCATTTTCCCTGCAAAAAGTTATCGAGATGCTTGAAGAAGTGGTAAGC
AGTTGGCAAGAGTTCAGGTGAGTATGGCAGATGAGGCAAAACTTATAGCCCAATTCATTGACTTTTGAAGTGTTGGTTGTGCAATATGCAGTCAGGCATT
GTCATGAAGAAAAATTGGGCCCTTTCTGTTAACCAATGCCGGCTGCAGGTGTTGCAGTTTTCAGTGCWTCTCATTGATTTGCTAAGCATACTTCTTTGAG
ATAATGGTTTCACCAGGATTCAGAAAGCTGTAGTGGATCAGATTGGCAGCAAAACACCAGACAGTGAGCATGACCTTTTTTTTTGGTGCAAGTTTGGTTT
TGGGGAGTGCTTTGGATCATCTCTTGGTCAAACCACTGAGCTGTTCTTCATTGCTTGTCATATAAAATCCATTTTTCATCACACATCACAATCCAATCAA
GAAATGGTTCCTTGTTGTCGCACAGAATAAGAGAAGATGACATTTCAAAATTATGATATTTTTTCTGATCRGCTCATGAGGTACCCACTTATCAAGCTTT
ATCATCTTTCCAATTTGCTTCAAATGCTGAATGTCCACAGATTGGTTGCCATTGAGTTATTTTGCAACTTCTCATGTAGTTGTAAGAGGATCAGCTTCGA
TGATTGCTCTCAGTTGGTTGTTGTCAACTTTCGATGGCCGACCATTATGCTCCTCATCTTCAAGCCTCCTTGACTCCTTTGCAAAACTTCTCAGTACCAT
GCTATTTTCGTTACTATATCTCTGTAGTAAAATTTGAAGTCAGATAATGTGATTCCTCAGTTTTGTTCTTTTTGCTCAGGATAGCTTTGGCTATTCTGGG
TCTTTTGTGGTTCCATGTACATCTTARGATTGTTTTTTCTATTTCTGTGAAGAATGTCTTTGGTATTTTGACAGAGATTGCAATGAATCTGTAGATTGTT
TTGAATAGTATAGACATTTTAACAATATTGATTCTTCCAATCCATGAACATGGAATCTTTTTTCATTTTTTGGTGTACTGTTCAGTTTCTTTCATCAGTG
TTTTACAGTTTTCATCATAGAGATATTTCACTTCTCTGGTTAATACCTAGGTATTTTATTTTATTTGTAGCTATTGTAAATGAGATTACTTTCTTGATAT
CTTTTTCAGATTGTTCATTTTTGGCATATAGAAATGCTGCTGATTTTTATACATTAATTTTGTATCTGGCAACTTTGCTGAATTTGTTTAACAGTTCTAA
TAGTTTTCTTGTGGGTCTTTAGGTTTTTCCAAATATAAGATTATATAATCTGCAAACAAGGATAATTTGACTTCTTTCTTTCCAATTTGGAAACCCTTTA
TTTCTTGCAGCAGTTTGATTTCTCTAGCTAGGACTTCCAGTAGTATGTTAAATAACATGTTGGAAGTGGACATCCTTGTTGTGTTTCATATATTAAAGGA
AAGCTTTCAGTTTTTCCCCATTCAATTTTATTTGTCTTCTCTAAGAAACTATTTTTGTTTCCTTGATCTTTTATATTGTTTTCCTCATTTCAATTTCATT
TATTTCTGCTCTGATCTTTATTTTTTTACATCTACTAATTTGTGTTTGGTTTGCTCTTATTTTTCTAGTTCTTTAAGATGTACTGTTAAATTGTTTATTT
GAAATTTTTCCTCTTTTTTGATGTAGGTGCTTATAGGTATAAACTTCCCTCTTAGTACTGCTTATACTGTATCCCATATATTTTGTTATGTCATGTTTTC
ATTATCTATAATTTGTTTCAAGAGGTTTTTCAATTTTCTTCTTAATGTATTCATTCACCCACTGGTCATTCAGGAGCATATTGTTTAATTTCCATGTGTT
TGTATAGTTTCCAAAATTCCTCTTGTTATTAATTTCTAGTTTTATTCCATTGTGTTCAGAGAAGATGCTTAATATTATTTCAGGTTTTTTTTTAATGTTA
TGAGATTTGTTTTGTTACCTAACATATGGGCTGTCCTTGAGAATGATCCATGTGCTAAGGAAATTATGTGTATTCTGCAGCCACTGAATGAAATGTTCTA
TAAATATCTATTAGATCCATTTTGTCTTTAGTACAGATTAAGTCCAGTGTTTCTTTGTAGATTTTCTTTTTACCATTTCTTGTAGATGGTTTTGTTTGGT
AATGATAAATTCCCTCTGTGTTTTTTGTTTTTTTGTTGTTTTGAGTTTTGAGGGTTGTCCTTTTGGTTTATTTTTAGTCTGGAAAAGTCTTTAGTTCTCT
TTCATTTCTGAAGGATATTTTTACAGGGTACAATCTTTTTGTTGACATTTTTTTTTCCTTCAGCGTTCTGAGCGTATTTTCCCACTCCTTCCTGGCCTGT
AGGGTTTCTAAGAAGTCTCCTTCCAGTTGTATTTGATCTCCTTTATAAGTTATTTACTTCTTTTCTCTTTCTGCTTTCAGGATTCTTTTCTTTTACCTTT
GTGAATTTAATTATATCTGATTGGTGACTTTTGACTTTCCTGTATCTGGATACTTATAACTGTCTTCAGATTTGGACATTTTTCTGTTACTACTTTTTTG
AATATTGTCTCTACACCTTTCTTTCTCAGTTCCCTCTTTAACACCAGTAACTCAAATATTTGCTTTTTGATGTCCTGTAGATCCCATAAACTTTGTTCAT
TCCTTTTCATTCTTTCTTTTCTGACTGTATATTTTCAAAGAGTCTGTCTTCAAGTGCACTGATTGTTTCTTCTGTTTGATTAATCCAGCTGTTTATGCTC
TCTCTTACATTTTTCACTTTATTCATTATATGTTTCAGCTCCAAGGTTGATTTTTAAAAATTATTTTAATTTCTCTATTTAATTTCTCTGATAAATTTTT
GAATGAACTCTCTGTCTCTTGAATTTCACTGATCATCCTTAAAACAGCTATTTTGAGTTATTTGTCTGAGAGGTCACACCTCTCCATCCCTTTAGGGTTG
ATCTCTGGCGTCTTGTCTGTTTGGTGCAGCCATATTTTCCTGAATGTTCTTGGTGCTTGTGAAAGAGCAAYAATGTCTGTGCATTGAGGAATTAGGTAAT
TATTTTATTCTTCAAAGGGTGGTTTTCTTTGTGCTTGTCCTTCTTCAGAGGGCCTTCCAGGGATTCTAAGCTGACTGACTATGGTGTTCCCTGAGTCATT
CACAGGTGAAGATGTCTCAGCACTAGAGGATGTTCCAAGCCCTATCTTGCCCACAAGTCTCACAAATGCTCAGAAGTTGATGTGGCCATCTGTCCCAGAT
GGATCTGGGGAAGATCCAAGGAGAGTAATAGGGCTATGTGGGAATGCTGGCCAAGGAACTGAGTGCAGAAGACTATCCTTTTGGCCCAAGAGAGGGATCC
TTGCCTGTAGGCCTCTGCCCAGGTAGGATGGGTCCCTTACTGCAGTGAAAGGGGCTGGAGTTGAGATTGAGCATTTGGGGATCTTCTGTGAGAAGGAGGC
TGGTGGTCTGTCTTATTGGATCAGATGGACATGCATCACCCAGCAGGTCCCTGCACAGACGGGAGAGTTCCTCAACTGCAGCAGGAGAGGCTGGAGCTGA
GACTGGGCCCCCTTGAGATCTGCTATGGGATAGAGGCTGGAGAGCCTGGTCTTAGCTCAGAAAAGTAAGTTCCTGCACAGGTAGGATGGTTCTCCTACTG
CAGTGAAAGGGCCAGGGCTGAGACTGGACTTCTTGGAATCTGCTKTGGGACAGAAGTAGATGAGCCTGTCAGGGAGGCTCAGACTGCCAGGCTTGACGTA
TGGACAAGTCTCCCTCTAAGCTGGGATCTTAGCTGAGGAAGGCTGGAATAGTGCCCCAGGGCAAATTTCGGGTCCACTGCCAAGGCCAATGTCAGCAAGC
TGATGAGCCTTTCTACCAAGGCAGTAGTGTACACAGTTCTTTCTGGACCCCTTGGCAGATGATTTTGGTTGTAGGCTTAAGGCCAAATGCGGCTGTAGCC
AAGCCCCTTCAGGGACTGGGCTGTTTCTGGGCTTGAACCMAGAAGCAAGTTTGGCAGAGCAGATCTGTCAGCTGGGTATTGGTCTGCACTCTCAAAATGA
CCCTCCTAGGTCATGGGCTCTGCTAGGCTTTCACAGACTCCTATCTGAATTCCAAGGCTCAAACAGAGAGACTTTTTACTGTGGATAGGTGCAGAATTGT
TGTTGTGGGGGAATATGAGCAGGTTACCTCCTATTCTGCTATCTTGGTGACATCATCCCCACAGAAGACAGTTTTGAAACTGAAAGGGAATTTGAAATTT
TGTAGTTTAATRTTTCCATTTACATTTAAGATATCTGAAGCCTAAGTGGGTTCAATCAATTTTTAAAAAAGTTCTGCCGTGTGGGTCTGAATTAGGTTCA
ATGGGGACATGAACGTAAGTGTTATACCATCATGTCTTTAAGAAGCTTATAATTGTGTAGTGATGAGATTCAAACAAAAATAACTATAATCAGCAGTACG
TGGTGTGGGCTTTAATTTTGTATCCAWTCAGATACAAATTTGAAGTCCAGCTTCTGATCTTACTATCTGTGTGATCATGGACTAATTTACTAGGTTCTTT
TAGCTTCAATTTTTTCATCTGTACAAACAGAGGTAACAATATCTAATTTTAATGAAAGCCAATATTTATTTATTTATTGGGCACTGAGCACTGACATGGT
GCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCGCACCACCACACCTGTAAGACACCGTGCTATGTAAGCATATGCCAGGCACTGTGCTATGTGAACA
TTTCACATATGTTACCACCTTTAATCCTTGTGTGAACCTATGTGAGGTGATATTGTTACAATTTTATAGAGGAGGAAAATGAGGTTATGASAGATTTTGT
ATTGTTGATTTATTCATTCAACAGATTTTTAYTGAGCATCTACTAATGCTAGACATTATGCTAAAATACCAGAAATGCAACTATGAGTACAGGATGCAAT
GGGAACATACAGAAGAAGTGAAACACTGTAATTCAGTTTTGAAGACGTAGACAAGGCTCTAAGGTCCAGCTCTAGGGTCACTTTCTTTCTCAGGAACTCA
TGTAAGTCCTTCAGCAAAACTCCTAGGGGAATTAATATTCATTTTCTTCTCTTAGCACCTGTTTCCTTCTTCTTTCTTTTGTCTTATATTAAATTTCATG
ACCATATAGCCAATTAGATTGAGAACTTCTTACTAGGAGAGACCACATATTACTCATCTTTAGTTTCTTTATATTATGTTGCTCAATATGACTGCCACAG
CATGGATGGAGCAACGAGTCAATAAATCTCTCTGTTGGCTATTTTTGTCTCTTGATGACCAAGCCCTCCCTAAAACACATAAATTATTCATCTTAAATGT
CTTTTTTATCTTTTARTATATTTGTGCCTTGCTCTCATTTCCTTCAGGCTGTGAAACAGAGCCTGTTGATGTGAGCTAAATTTTGCTGTATTCTAGGCTA
GGAGTAATTTGTAATTTGGGATCTGCTGCCATCTACTCCTTATTTACCATGGCTTAGGATTAAATTGGATAATCTTCAGTCATATTTCTAATTATTTCAA
YTCTCTCTATTATTAATATGCTTATCAAGTTGTTGACCCTAAAATACTAGTCTTTCCAAAACTTGAAGTACAAGGTTTAAAAGTATATTAAAAATTTGAA
AGATTTGAAACCTTGTCCTTGGCTTTTTGTTTATTTAAGTCAAATTAAAAATAGGCAAAGTAGAATTCAGGAAGCCTTTTTGAGACTGGGTGTCTTATGA
CACTTCATGTAATTGTTTAAAAAATGTTAAAAATCAAATTCAAATGTGAAAGACAATTAGTAATTATACATGGGCTAACTGGCATACTTCCAAGGAAATA
TCAAGTGAGGAAAGGGATGATTTTTTTTAATGTTGTAGCTACTTTAATTGTAAAGATCCTTAATGAAAAAAATTTAAAGCATCAAGTACCTTCCAGATTT
TGAGCCTTTGAACATAATTGTACCCAAGTTTTAGCACATTCATGGTTGCCAAAGACTCCCTTGGAACAATCCTAATAAGGGCTGCTTTCCAGAGTCAGGA
AAATCCACCCAGGCCCTAAAATTAGTATAATAAACCCCACCTGTCATCTCTATTGCCTCTTTGGTTAGACTGCCCTGAGGAGCCCAAATCAAGAAGGAAC
AAAGTGTTTTTGATGTGGACTGACTGCTTGTGATCCAAGAGAACACTTAAGATTCTGAAAAATCTAGGGAGAATGGCAAGCAATGATCTGTGTGGTTAAT
AGAACAACAAGGCCAAGACAAATTCAGAGACCCTGGGGATATTTTGAACCTCTCTACAAAGCTAATCGCAAATCAGTACCTTTGAAAGGGACCGTGGAGA
AATTATCAGCTGAATCTCCTTATTTTGTTTTATTTTATTTTATATGAAACATAAAATRTGACCAGCATCAGGGCAGGATGTGACTTACCCGAAGTCTCTC
AACTAGCAAGTGGCAAAGCCAGAAACACTCAAACCTGGGTCTTCTGGCTCCAAGTCCACTGCTCTTTAATCTGAATGAAGTGAGAATGCTTTTTATGTGT
GTTTTTAAGAACCTTTAAACAAAAAATTTAAAGTACTTTATTTGGATTATTTATTCATTTTTGTTCRTCTCTTTTTATTTGGATTATTCATTTTTGTTTG
TCYCTTTCACCATTWCTAAGTGCACTTCAGTCCCTGTGCTAAATTTCCCTCCCTTGTGGCCAGATGATCACAGGAACATTCCATTTACTTAAAAGTAGTT
GTATTATTTAAAAAAAAAATCAAGTGGGAAACTTCACCAACAATGCAACATTCCAAAAACATAATGCTCATCATTTCCACTCCTGTAGAAATGCCGAGTG
CAAACCCACTGCACCTGCACACCATAGTGATCTCAGGGTGGCCAAGAGCTGGTGGCTGACTAGTSCTGTGTGAGCATGGGTTTATAAATGCACTTGAGTA
CCAGTTTAGTTTCTTTGCCATCAGCGTTACAAGTGATTTAAGTAACAGATATTTCAGAGAAAGGGACGGGGTGGGCTGGGGAGGAAAGCTTGAGAAGAAG
CAGCCAAAGTCACACTCAAATGAAAGAATATACCCAGTGTTTTGTTTTCCCAAGTTTTTGACTATACTTCATACTGTCCTCTCTGCCCCACAGGTTCTCA
TGGTGGGGGAGGATTTCTGTCTCCTYCCTACTCCTGAGGGTGACTGTCAACTTCTGAGGCAGAAATCTCAGTATTAGGGTTGATTGACAGAAAGATTTAT
TAATTTGTTGATGCACCCATCCATGCAATAGTCTTTTATTGAGCCACATGATATAATGTCCGTTCAGCAGTTTCCACTCTTGGCTTTTTTATTTGACACA
AGTTAGGGATGAAAGGATTTGTTTTTTGAATAGGGTAACAAGGATTTGCTTTGCTTGGGTAAAAATACAATTTGGCTTGTTAAAGAGGCAAAGGCACACT
TAGTGGTGAAGCAAGTCCAGCTCTCCTGGCACCTGTCTTTTCCTTTCTGAAGGTGTGCCTTGGGACAGGCATGGGCCTCAATTATTGAAGGGGTGGGTGC
TTAGGAGGAGGTAGGATCATCTTGTCAGTTTAGAGGAGCACTGATTCTCCTCATGCATGGGTTTCTATTTTTTAATCTGGAGAAATATTTTTATGCTCAC
TTAAAACATGCTCTCTTAGGCAGTGGGTAGGAAGAATGGTTTTGTCAAGGCTATTTGGGTTTAGCCTCCCATTTTCCCAGTAGTAGTCTCCAAGTTTCTC
CCTATAATTCAAAGTATCATTTTTTAGTTTTCTCCCTGAGTTTCGTGGCTCTAAAGCAGAAGTTGCAAACTAGCAATGCTCCAGCCAGATGCAGCCTATG
GATAACTTCTGTTCTGCACCCATCATGGGCTTCTGTAAAAATTTGAATTAGTTGCCAGTATTTGAATATAATTAAATTATATTTATATAATTTATTTATA
ACTGTAATATTTCCAGTAAAAATCTGGATTCAAAACAGATTTTTAATCCTTTAAAAATCAGATCTGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGC
ACTTTGGGAGGCCGAGGCGGGCAGATCAGAAGGTCAGGAAATCGAGATCATCCTGGCTAACATGGTGAAACCTCGTCTCTACTAAAAATACAAAAAAAAA
AAAAAAAAAAAAAAATTCGGATCTGCAGCATTTGGTCTGTACTCCAATACAGCAAACATCTGATAGAGCTGAAATGACACTGCTGCCTTGAGATGCTGCA
TACTCTTTGGGGCCTCTTTCACTCACTGCACAGCCTGGACCTGTAGCTATCTGCTTCTCTGATGCTTCCCCAAAGGCTATATAGGCTAGGTATTTCTAAG
GGGAAGGAGAAAGAACTATTGTTATCATGATGGTAATGATAAGAATAGAAAAACGATCCTCATATATTAAGCTCTAACCATGCCAGACACTCCCAAGTAC
TTAACATGCTATTTAAACCTCAGAGAACCCCATCTACTGCCCAAAAAGTCTAGTTTTCTTGCCCAAGGTCATGTAACTTGTGAGTGACTGAATTAGGATT
TGAACTCAGATCTGTCTGACCCTATAGCCTGTGCTTTTTATTTTACTGTACTGATTCATAGAATTATACTTCCCTCCTAGACAACCCTCCCTGAATTTTA
AGCCCCTGAGAATCTATGACTGGATACCAAGAATTGGGGTCCCTACTTGCCACTGGTTTTTGGGTTTCTATGAGAAACAGTAGAAAAGAGAAGTTCTGAT
TATCACTGGTGGGGCTCCTTCTGCTTTCATCTCATCTAGCTCAGGATCAGCTCTGGGTGCTAAGGCATACAGCCATTCTCCTGAGTAAAAGGAACTCTTT
GGAAACTTTTTCTACTAAATCAATTTGATGCCACATTAAAGGCTTTAAAAAGAACATTTGAGGTAAAGAGCAACTACTCAAATTTTTAAAATCTAAAGAA
ACAAAAATATAAACTCTTAGCCTGTACCTATGGTTGTTTCAAAAGAAAAAGAATAAATTTCTTATTCTTGGAACTATACATCTCATTTACGTTATTTTTC
TTTCTTCCTGTTGATTCCAACCCCCACATCATCTTTAAAGCCTACTGCTTTTCAAATCCAGAGTATTGTCAATTTCCTATTGGTTTCCTTCAGCATTATT
CTCCTTCACTTGTGTTTCTTTTCTTTCTRATTTCTCAAAACCTTAAACTAACTCTCTCAGTTTTCTCTATCTCCTTTTGAAAACTCTGGGAATACATTTC
CTAATARAGTTTCCTTCTGTATACTCAGCTCCAGAATAGGACAATAAGTGCCCTTCCTGGTGAAATACATATACTCTATTTTAGGATTCTTTTGGTTACA
AGCAATAGAAATTTAGTCTGCTCAACCTAAGATCAAAAGGATGAATCATTGAAAGGATAAAGATTAATGACAAGAACATCAACTAWGTATTTAGCAAAAT
AAGTATTGGGCAACTAGAACCAAACAGAAAGCTCAAAGGCCAGGCCTCAAGAAGCACAAGTGCCAGGGCAACTTTGAGGTCCTCAGCTACAGGTGTGCAC
AGATCTGGCAAAAAATAACTTAGCTCTAATCATATTCTGACTCTTTCTGTCTCCARCCAATTTTCAAATTCCCAGGGAAGAGAGTCTGGCCTAGTCTAAG
TGTCTCTATTACTGAATTAATTAGCCATGGCCAGGGGATGGAGTGACTAACACAGTCATRGCCASTGAGGATTTCCTAGGGATGCTATAAGTGACCATGG
GCATAGTGCCAGGTCTGTAATTATTTTTGTATATTTATTTCTAAATTAGGGATTTGGTCTATATGAAAGGTGATTTTATTAAATATGTGTAGCATATATC
ATACATCATAAATAATGTATAGTATAATGTAGCACATATATACACATTTATATATTACATTATACATTATAATATACATTATATATAGATGTAATGTAGC
ATATMTATACATTTCCATAGATATTATATATATAGTGTATATTGAAGTACATAGCTTCTGATGTATAGTAAAATAATTTGACAGAAGGTTCTTAGAACTT
TTAAAAATGACATTTTTATTGGTTAGAGATTCAGTCTGAGAAATATCTCATATCTTTTCCTATAACAGGAAAGAATTTATTAAGGCAATAGTTTTGTAAA
TCTCATTAAAGTTTTACCATCTTCGTGATTGTTAGCAATTGTAAGCAGGGCAATGCAGTACAGGCTTCTGCATAAGAAATGTCTTCCTAGTTAGTGAATG
GATGTGATTTCACTACTGCCTACTGCCTATGAGAAGGTAGTCATATCTTGAGTCATTCTTCTGCTGCCTTTACAATGAATTGCATCTTTTATGCTTTGGT
GGATGTATTTGTTAGGCTGGGAGTGCTCAGAAGTTGATAATGATAGACAAGCCATGGAAAACTTCTGTCTTGGTTCATACTAAAATCTTTTTGCACTAGG
ACAAAACGAAACTTCTGCTGCAAACATGAGCCTCCTCTCTTCTTTAGCCAAAAGTTCACCAGGGTTCAAACAATTTCTTAATGGATTCCAGCAAGATTYT
GTGGGGCTATAAGAAATGTTTCTGGTTTGCAGCGTAGAGGAATGTGTCTTGCACAGTACCAGCACTGGAATCAGGACCCACCTGGATTCAAGCCCCAGAC
TGGGCTTCTAATCTGGTTCTGATTTTGGGGGGACTTGGCAGCCTGCCTTTATTGTTCCAGGGTATTGCTGCCATTCTTTAATTCAGAGCTCACATCTCAC
CTCCTCCATCAACCCTTCCCAGGTTGTTGAGAAATCAGCCCCATCTGTACCCCAAATCTAGTACAAGTTCCTTTTATTCTCCCTCTCAAACAAATCTGTC
AGACACAGTCACTTCTCAGTTGTCCATACTGATAAAGGAATACATTTCTGTAGGTAATCTATGATATCTAGTCTATGGAGACTTTTTCTTCCCTGTAGAA
AGGTATCTGACACATGAAGTTAAGTAGGTCGGACAATGAGAACTGGCAACACTGGAATGCCCACTGAAGGGACTGTGTGTTTGTGTGGGTGAGTTTTCTC
TGAATTTTTGATACTTACTTTCTAAATACTCCCATTTTTCTTCCTTAGATCAATAGGCAACTTCTAAGAGGTAAAAAATGAGGTAAATATTTTTACGTAA
AATGAGAGCTAAGTTTCTGACTTTTGAAGAACATCAGAAAATAATATTTTAAAACACCAACTAACATCCACTTACTTTTGTTCTTCTTCAACCCCTATGG
CTGGGTTTGTTGTTGTAATCATTAATAGTAATGGTAGGTGTTCCATGATTAAACTCTGAGAGCTTTCTATTCCTTTGTTGAATCCTTATAACAACAACTC
TTGGAGGTATGATTGGTACCATTTTACAGGTGAAGAAACCAAGGCCTAGAAAGATGAGGTGACTTGGAAAAAGTTATGCAGCTAATAAATAGCAGAACTT
AGATTCAGATTTAGATCCATCTGTCTCCAAAGCTATATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTAYGCTAGCTATGCTATGCTATGCT
ATGCTATACTGTGCTATACTGTACTATGCAGTATTGTTGGGTCCATATATGTCTTGCTCAGTAGAAGAACAGTGAGTGCAAACACATGGAGTTTTGTCCA
CATCTTGTTAGAAAGAGGCCATAGGACCAGCTGGTATTTAGGGCAGAGGCATCATTCCATACCTCCTCAACAACCAACCCACATAGCAGATGTTTACTTT
TATTTGTTTCTATAATGACACAGCTCTATGTATTCCTTGTATTAGTTGCTTCTGTGTCTGTTGCTTTTCTGCCTCCTATTCTTTTTTTATTATAGTAAAA
TGTAACATAGATTTTACCATTTGAACCCTTTTAAGTATATASTTCAGGGACATTAAATACATTCACGTTGTTGTGCCATCTCCAGGACTTTTTCATCTTC
CCAAACTGACACTCTATGCCTATTAACCAATAACTCCCTGTTAGAAATACCAAAATTGTTAGAAATAGATAATTGGTGCCACAAAGAAAAGACAGTACAG
AGACAAAAGATCTCTCAGCAAGGCAATCTTTACTTTCTGCAGAAAGGGTGCTCAGTCGCAGATGGAACAATGGCGAGAGCACACCTGAACAAAGGAAAAG
CAGRCATATTTATCCCTATGCATTTGGGTTGTCCTTACTGCTGTGTCCTGCATCCATTGGCTGGAGCTGGACCTCATATTCTGAAACTGACACCCAATTT
GCTAACAGCCTAAAACTTTCCTAAATAGGTAAGTGCAAGGAAGAACAAAGAATTTGCTTACAAAAGGTTTAAGGARGCAATAACATTTCCAAATAAGGAA
GGGGCATAGGCTGCAAGCTGGAACGTGCCTGTGAGCATGTCCAACAATTACATAGGGTAGGGCTTAACAAAGAGTTATTAGCACAAAGCAAGGAGGCTTG
AGGAAAGTTAGTCTTTAAAAGAAACTATTATTTCTAACACTTATGGTTTACTCTTTAACAAGAAGGAAAACTTTGAAGAGGAAACTTTCACTTTCTATGC
TCCCCATTTTCCCCTCTTCCTRACCCCCAGTAATCACCATCTATTTTCTTTCTCTATGAATTTGACTATTTGGGGTGCCTAGTATAATGAAATCATATAA
TATTTGTCCTTTTTTTGTCTGGTYTATTTTACTTAACCTAAGGTCTTCAAGGTTCTTCTATGTCATAGCAAGTCATAATTACATTCCTTTTTAGAGCTGA
ATAATATTTTGTTGTATGAATATATAACATTTTATCCATTTGGCATCTATGGACACTTGGGTTGTTTCCCCCTTTTGGCTATTGTGAATTATGCTGCTGT
GAACATAGGCACACAAGTGTATGTTCAAGTCCTTGTCTGCAATTCTTGTAGGTAGATAGGCGCAAAAGTAGCATTACAGAATCACGTGGTAATTGCATGT
TTAATTTTTTTAGGAACRGCCATACTGTTTTCTGCAGGGCTGCACCATTTTACATTCCCACCAGTTCTGCCTCCTACTCATGCCTACTCTTAGTTTATGA
AGCCCTCTAGAGCATAGCTGCTGCAACTTTTGAGTCTTTTACCCTTTAACAGCTAGGACAATACCATTCCCATAAAGAGTGTTGATTAAAAGACATGCTC
ACTGTAGTGGAGATCATGATACTAAAATTACTTCAGCTTCTCCAGGAGATTTACAAATGTTCGGCCATGGAACTCCTCTCACTTGTATTCTTCCCTACCT
TTTTTCCCTCTTCTGCTCCCAAGCTCAGAAAATAACCATGAAAATAGTGAGATGCCTCTCTGCAGGAAAAAAATAAAAGTGTAACTGTGCCTCTTTGCAT
ACCAATGGGGTATTTCAGAGAGTGGCAACCTGTTTATCTATGCAGTTGTTGATTTATGATCGCCAGTACATGTTTGGCAGGCTGAATCCACATCTGCAAT
TTAAATGACTGCTTACAAAATGAGCCTTTTTTCCCTAATATCCAATTAGGACCAAGCGCTGGCATTGTAGATGAAAAAGCGGTTATGTTGAAAACAGTTC
TAATCCCAATTGCAAAAGAAGTTATCACTGGTGGAACTATCAGAAAAACACTTGCTTCAGGCATGCAATCTTGACAGTCTACACATTTTAAGGCAAGAGC
ATGTTTGTACTCAGCAATGGGTTCTGCACTCCAYCTTGGGAAAGAAGAACAGAAAAGACAGCCTGCTTTTGGTGTAGGCCCAGAGACAGCATCAGGCCTC
AGATGAGTTTCCCACGTAACTCTTCCTATATCCCTCATTTTGTAACTGCATCACCCCGGTACTATAATCTTGAACACTTTTGGTGCTAAAGCTGCCAATT
TTCCTGATTTTGTGTAATTTTTTGAGGTTCACAAATAGAAACAAGTGTACAAATATTCYATTCACATGCTTTCTAAATGTTTTTATTTTACCTTTGACTG
AAAGGGGTCAAAGCTGAGTATAAAGGTGCTTTGATATTGGAACACACTCTCCTTGCGTCACGCTTGACCCAGGCTGGGTGGTGGAAGCAGAGGTAGGTGC
TACTTGTGTGAACTGTGTGTTCAAGTCAGCATGCTCTGGAATTGATAGTGTGTCATTCTGGGCTTTCTACCCCTTTCTGACACTGCGTGGTACAAACCAA
AAGTTCACATTGGGGTCATGATTGCTGGCTTTTGGCAGGGCTTGGCGAGAAGGTCTCTGCAGGGTTAGGCCGCCCAGATGCGAGCTGTTTGGGCTGAGTT
CAGTTTGTTTCCATTTGCTCCCTCTCCCTCCTCCCCTCTCCTCAGTCATGCCAACTGCTACTGGAGATGTTTTTCCTCTGTTTAAGGTAATAACCGAGTC
AATGCTGAAGCCAAGCTATAGGCAAGCATTGAAAATAAATTTTCAAGGGGGTTGTTTTCATATTATTAGGAAAAGCCTTGGAATCTTTTTGAAARTTTTT
GTTTCCTGAGAAACTGCCCTTTGGGAATATCTTTGTTTTTTGAGTGCCTTTAGCTTGGTGCTGAGAAATAAACTTAGGAAATATGATTGAGATGTAGTGG
GCTAGGTTTTTAAACAAAATGCTCTAAACATTCCCTCAAAAACCATTTCTCTAAACAGAGCGCTCGCATGAGTAGCTGATTAGTACATGTGGTGCTGCCT
GACCTCTTGAGGATACACACTGTTTGCTTGAAAGTCCCCTGGTATATTAGGTGACCTAGTGTAATAGGAATGACATTTTTTAAAGAGACTAAATCCCAAT
TCTGTCATTTTCTAGATAGGTGATATAGGCAGTTGCTYTGGTTTTGTCACCTGTTCAGTTGCAGAGTTTGTTTTACAGGCTTCAYGAACTCTGTAAAACA
CCTGACAGGACTTGATCCACACACCGTACTTCATAAACACCACAATTCCTTCCCCCCMAGTTTTCTTATTTATTGCCTCTTCTCGGCCTCAAGTTTGGTA
AGTGAGAACCATCCRCTGCTGCAGTCTATAATTTCCTAATGTAATTTCCCACTCTTCAGAATAATTGTGGCTCACAGTATTTATTTTCTCCCTTCCTGCC
AACTGAGATACAACCTCCATTCACTTGCCCTAAGACAAAAGGTTTTGTGGCTTCCAGCTGTGAAGACCAGATCTCACTGAGACAAACAACTGCTGTTATC
TTAGGGAAAAAGACAAACCAGCCAACAATGAGCAATCCATGTAAGCCTTGCTCTTAACACACTCATTAAAAAGAATTTTGAAATTGAGGTTGGAAATCAT
CTGACAACTCAATGCCTAAATGTTGTGGGGAGCATGTTCATAAAAATTCTTCTAGTAAGAAATGTGTTCATCTCCCCTTTGATATGTATCCCAGCCTGTG
ATTCACTGGAACATGCCTGCACCTACAGAATATAGTTCAACTTTCGATTGTAAAATTTTAATGTTGAAAAACAGCCCGAAGTCTAGGTCAACACTCTGCC
AAGAATTCACTTGAAACAACTGTTGAAAACCATAAAATTCGTGGTCAAATATGTTTTTCTATCGAATATGGCATTTGATAGACCCACTTTGTAGAATATG
GGGACTTTTCAATTTAGATTCACATAGAYATATTGAAAAGAACGCATTGCATATTTTTTTTCAAATGACTCAAAATTTTTTTAATTGACGCTGTATTATG
CAATACATTTGAAACTATAATCTTTGGTGATGATTCCATGCAGCATTTTCATAATTTCTTTTATTATTATTATTATTATTATGCTTTAAGTTTTAGGGTA
CATGTGCACAACATGCAGGTTTGTTACCTATGTATACACGTGCCATGTTGGTGTGCTGCACCCATTAACTCATCATTTAGCATTAGGTATATTTCCTAAT
GCTATCCCTCCCCCCTACCCCCACCCCACAACAGTCCCCAGAGTGCGATGTTCCCCTTCCTGTGTCCCTGTGTTCTCATTGTTCAGTTCCCACCTATGAG
TGAGAACATGCGGTGTTCGGTTTTTTGTCATTGCGATAGTTTGCCGAGAATGTTGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCA
TTTTTTATGACTACATAGTATTCCATGGTGTATTTGTGCCACATTTTCTTAATCTAGTCTATCATTGTCGGACATAAACCACTTATTGCAAATTACATGC
TTTTTTATACATAATACATGCAGAAGAAATGCAACGTGATGCAATATAGCCAAATTTGATTGTGGTGTGAACCATAAAAATTGGAAATGCCTTTTCTTCT
TTTCCCATGGTCCACCATGAAGCAGTAAGGTTAGGGTACAGAAGCAGGTAATTTGGGTACTTTTAAGGGGATTTGAAGATAGCATATACACTTCCTGTGT
TAAGGTAATTCTTTTTAACTAGTTTGGGACAACTGACTAAACACCAATAACTATTATAAAACTGTAGTGTTTAAAAAATTTCTGAACTTAAATATTCCAG
TTACTACACGATTTAATTTCACTCTCTAATTAGATATATGCTGTGTGTTGAATTCTGTCAGATTTGGAATTTATAGTTTCAGCTGGATTTAAACTAGACT
ATAGCAGGAAAGAAAAAGAATTCATTTCTATGCATGTGAGTGGGGGGTTAGTGGAATCTTAATCTTTCTGAATGGKAARATGTATGCAGTCCTTTCTTTT
CATCTCAGCGCCTTTGAGTGAATTTGCTTTTGTCTAAAATGAAAGGAGAAACAGCTCATTTTTCCATTGTCATAATAGTGCAGTGATTCAGCAAAATGTA
ACTGATTATCCTGAACCCACAAGGCTAGAGTTAGAAAGAGTAGCCAAATTGCTACCTCCAGCTACTTCCAACTCAGTCCCATCACTATATCCAGCAGCTC
ACCTTTCATCTGGCTCTGGAAATTTGGGGATCATTAAAAATCAGCCAGCTCACTTTTCTCTTAGGATTTTGTGACTCCTGTTTGATTGGYTCATTGTTAA
TTCTGATTAATAAGAATTTAAATTCCCAACTTCCAGAAGACTACTTTTCCTTYTAAAAAGATCGTAACTGATTTGCTTTTGGCTTATTCATTTAGATTCA
GGGATTCTTCTCCATTAAAATAAATAAATTTTGAATATCCCTTATACTAAGATGGGTTGCTGAATGCCCACTTTCTTTCATTACATTCAACTGGCATATT
GATACATTCATATGGGCAGGAACTCCAAAGGAGAAAAAAGGAGAAAACTTGTCCCAGTCCCTGAAAATATGTCTTTCCCAGCACCTTAGGTTTTAGAAGA
ATGACTATGAGAAATCTCTATTTTGTGCTGACAGATAAATTTAATGATAGTTACTCGATTGTATATATTTGAAAGTGGTTCCTGAATTAACTCTGAAAAA
TCAGTAGTCCTGGAGTTGGAGAGCTAAGGAAGGATGTTTTCAGAATTCTAAACATTTCTCTTTAATTTGAGTAGAATGCAGAGGAGATGATTTGCTACTC
CACAGCAATTTCAGAAAAGYATTTTTCATTTCTAACAGAACCCTACCAGAGGTCATTTCCCAAAGAGCCAACCATGCTTGCTGGTATTCCATTGGCTACT
TTAGCAGGGTAGAGGGAAGTTAAAAAAAAAAAATTATCCAATGGAACTCCATCTGCTCTGACCTCTCAAGGAGAGTATATTCCTTCAATGGAATTTGAGT
TGTGATCTTACTTCCTATATGCTGTTGTCAAATCCAAAGGGGCTGAAATAGATCTGAGCTTTTGCAAACTTGACCCTGTCTCCAGAGCTGTGGGACTTGG
AGTCTACAGGTTCCCAGATCCCTAAGGCACCCTTTATAGCTTCAGATGCATTTCACATATATAATGAGAAAATACCTGCTATTTGCACAGTGACTACATA
TCCCCCCCCTAAAATAATCAACACACAGGGTCTGATAATTCTGGAGACTATGAAATAGAAGATTTGAAAATAGAGTTGTCTCAGAAATTCCAGGATAGTG
GTCAGAGTTGTTATGTGCTAGGCAATGAACTGGATCTTTTTATATAAGCTATCRCCTCAAATCCTTAGAACAAGTATATAAAATAGGTTGGATTATATAA
CTCACAAGAGAACTGAACTCGTACTGAGAGTGATATATTCAAGCCATCACATCCAGGTTGAGTTGTTGGTTGCACCACAATGTCATGCTGCCTCTTTTGT
GGTTTAGGKTTCCACATCACATAGATTCTTGGTATAAATAATGATGTTCCAGGGTAAGAAGTGGCCAGGGAAGTGAACATGTGGATCAAAAACTGAGATG
CAGCACTATGGTCTCGCTGGTCTTAAGTGTGACATTTCCAGAGGGGTAAATATACCTTTAGCAATTGTAAAGTTTATGGTAGAACTGGGGGTCATGTCAT
GGCTCTATTTGTTCTGTGACAGAGTAAAAATTATATTTTCTTAGCAGAAGAAATTTACTATTTCATCCAAATATTTTGTGCTATGGCTTTTTCCGCTGGG
AAAGAATCTTACATTAACAACCTTTAGTTTCTCAAGCTGATCTGAAAATTCGCTGCCTTGTCCATGCATTTGAGATACTTTTGAGAGACAGAATTTTAGA
GTTACTTTACAGATGATGCTTTTGCTTAAACTCTGCTTTTGATCAATTCTCTCCAGGCTCTACCCTAAAGAGACCCAATTTAGACAGATAGAAATGGCAG
TAGAGAACCAGGAAGGAAAAAGGGTTATATTTGTTAATATTATCAGTTGAGGATGTCTTTAACAGACTTTGAAAGCAGGATATCGATAGCACTGTCAAAG
AAGTTTCAAATTAATATAAAGTAATAAGTTTTGAGAGGTAACCAGGTAAGAGCCAAAGAATGACACAAGCCCTGCTAACTTGGAAATCTGAGATGCATAA
ACAATTGTGATGGGAGGAGAATTGTTTGGGGACATAGATAAATCCCTCTTCACCTTTCCTTTTCCATCCTCTCTAACGTTGACACACAAATGCAGCCAGC
ACACTATTGCTGTTGGAATATTGACTTCAGATAACATATCCAGACATGTAAACAAGAGTTTAATTGTGTGTAGAATTTTGTTTAAATTATGGACCATATC
TGGAATTTAAAACTCTTTAAATATAAATTTCCAGAAAAATTTTCGGAGGTACACGTGTGAGTTCCAGCCATCATAGTAGAATAGCTACTTTGTGGTGACT
TACTGARCAGACACATTCCAGTAAGATCCACATTTGTACCAGGGCAGAATACCAGCTGCTATCCTGTCTTCTCAACAAAGGACTCTTGTGTTTAAACAAA
AACTGTGTACTGTATGCCCAGCAGCAGAAGGGAGTCTGAGCAGTGATGTCAAAGTATACCATGATGTCACCACAATTCACAAAGAATTACAGTTAATGCC
ATGTGAAGTGAGGCCAAATTCAACACTTTCCCTCTTGGGTACTTCACAGTCTGAGAGAMAGAAGCAAGGCCAGAGGTCAGGCCTTTGTATAATTTTGTTT
CGCATTCTCCAGACACCCTAATTTTGGAAGCAGGGGAGGGAGAAGACAGCCTGCTAAAGARCAGTCCCTGACCATCTGCTGAGAATGAATTGTAGTGTCT
GTATGCACAAATGTCTATACCAGGATAGTTCTTAGGATTTTTGCTGAAGACTACTAAAGAAACAAATTTCACCAAAAACAATACACAAAAAAATCCAGAT
GTGTTTAGCAAAAAATTTATGTAAGAATTTGTCCAAGACCCTGAAGTAAATAAGACGAGAACACAATAAATCAGACTGGGAGCACCTGAAGAGTTTTAAT
AAAYGTTAGAAATCAGACTTACTTATTCTCTTTTTCCCTTTCAGAGTGTTTATCCAGCCATTAGATGGTTTAGATTCTTGRCTTCAAGAAAGGCAATATA
GGAAAAAATTATTTAAAATGTTTGCCATCTTAGCTCAAATAATAAAGGACAGAAATARGACTCTTAAAAATTAGCACCTGGCAAAAGTTTATTCCTATGA
AACCACGTCCTCCTCTATAATTTAACCACAGAGGCTGCCGAAGTTCCTACCCTTTGGTGGAGGTGGGAGTGTGTAGGTTGGATGCAGAAAGAGTGTGGCT
TTGCCCCAGCCAGACCACCAGCCAAAGGGTCGGAGCTCACAAAAGGTAAAGGGAAGAGCCAGGCCAGGGGGTTGCCCAAGCTGAAGTCTATTAGGAAGAG
CCAGGAATCAGGAACTCAGTAGATCAAGTACAAAGTGAATCTACAGATCCAGAGTTGGTGTCAGAGTCAGGGCATGAAGCCTGGGGCACTGTGCCTAGCA
GRAAAGAAGTCAGAGGGAGGTACACTTGGAAATAATGAGCATTTATGCCCCAAGGCAATTCTGGAGTAGTGGGTGAAGGACCAGAGACATAGCAGGCAAG
GTGACAAGTGGAAATTAAACTCTCAGATTACAGTGTTATAAAATGATTTGTCCTTAGAGATCTTTTTCTTTTAGAGAGTGTTCTTTTGGTCTTTGGAACC
AGTGGCAGAGAGTTTAAATGGTAACAGCTGTTATGTTTTAGCTTGAGACAAAGGGGAAAATTCTTTGAAATCGCAATATATCCCTGTCACTTGTGGTGTT
GCCTATAGGCTGAATCCATTCATTCATTGAACACATATATTTTAGTTGCTTGCTGTATGCCAGGCACTGTTCTAGGTGGACAGTGAACAGGGCATCCAAA
TATCATTGAAATACGCTTAATAAATATCAATGGAACAGAATAGAGAACCCAGAAATAAGACTGCACACCTACAACTGTCTGGTCTTTGACAAAAACAAGC
AATGGGGAAAGKATTCCTTATTCAATAAATGGTTCTGGGATAACTGTCTAGCCATATGCAGAAAATTGAAACTGGATCACTTCCTTACACCACATGCAAA
AATTAATTCACGATGGATTAAAGACTTAAGTGTAAAACCTAAAACTATAAAAATCCTGGAAGACAATGTAGGCAATACCATTCTGGACATAGGAACTGGC
AAAGATTTCATGATGAAGACGCCAAAACCAACAGAAGCAAAAATTGACAAATGGGATCTAATTAAGCTAACAAACTTCTACAYAGYGAAAGAAACTATCA
TCAGAGTGAACAGACAACCTACAGAATTGGAGAAAATATTTGCAAACTATGCATCTGACAAAGGTCTAACATCCAGCATCTATAAGAAATTAAACAAATT
TATAAGAAAAAAACAATGCCATTAAAAGATGGGTAAAGGACATGAACAGGCACTTCTCAAAAGAAGACATTTATGTGACCAAAGAGCATATGGAAAAAAA
GCTCAAYATCACTGATCATTAGAGAAATGCAAACCAAAACCACAATGAGATAGCATTTCACACCAGTCAGAATAGCTATTATTAGAAGGTCAAAAAATAA
CAGATGCTGGTAAGGTTGTGGAAAAAAAGGAACACTTATACACTGTTGGTGGGAGTGTAAATTAGTTCAAGCATTGTGGAAGACAACATGGCACTTCCTC
AAAGACCTAAAGACAGAAATACTATTTGGCCCAGTAATCCCATTCCTGGGTATATACCCAAAGGAATAGAAATTGTTCTGTTATAAAGGCACATGCACAT
GTATGTTCATTGCAGCACTGTTCACAATAGCAAAGACATGGAATCAACCTAAATGCCCATCAATGATAGACTGGATAAAGGAAATGTGGTAAAGAAACAC
CATGGAATATTATGCAGCCACARAAAAGAATGAGATTATGTCCTTTGCAGGGACATGAATGGAGCTGGAGGCCATTATCCTTAACAAACTGACACAAGAA
CAAAAACAAAAAACAAACAAACAAAAACAAATACTGCATGTTATCACTTATAAGTGGGGGTAAATGACAAGAACACATGAAGACAAAAAGGGGAACAACA
GACACTGGTGCCTACTTAAGGGTGAAGGGTGAGAGGAGGGACAGGATCAGAAAAAAACTATTGGGTACTAGGCTTAGTACCTGGGCARTGAAGTAATCTG
TACAATATAGCCCACGACACGCATATACCTATGTAACAAAGCTGCACATCATGCACATGTACCCCTGAACTTAAAAGTTAAAAATTAAATATTATGACTG
AGGAGAAATACAGCTTTAAATAGTCTKATCAAAGTAGATCTTATTGAGAAGGTATTAATTTTCTCAAACGAAGACTTCAAAGAGTCAGACAACTGCCGTC
GAAGTGCCTGAGAAAGAGTGTTACAGCCAGAGGTAGCAACTCAGGGCTGTCCTAAGATGAGAAAGTGTTTGTTGTGTTTGAAGAACAGCAAAGAGACTGA
GCCAGAGGAAGTGAGGTCAGAGAGGTCGTTCACATAGATGCTGTAGGACACTGTGGGCTGTTGTAAGGGTCTGGTGAACCTGCAAGGAAATTTGCTAGTC
CTGGCTATGACTGCTAAACCCCAGAAGAGAGAACGCCAGGTGTGGGGAGGATGTGTATCCTCGTTCTGCGTGTCTCTTCATTGCCATCTAAACCTCAAGG
GGAACATGGTATCTTATAGACTAGAGAGATGCTCATTGATGACACAGTGCTATTCAGCCTAGACTTCAACTCTGGTGACAACAAATCCTAGTAATGCGAT
TTGCGGCAAGTTGTGTWATCTTTCTGTTTCAGGTTTATTTTTGTGAAATAGACACAATTGTAGCTAATTTTCAAGGTTATTACAAGAATTGTGTGAGAAG
CTATGTATCTAAAAATAGCAAGTTTTGGCAAACACTAGTTCACATTTCCTTCTGTAAGCAGGTTTCCCTCCTGTCTTTCTCCTCCTCCGTGCCCCTTTGA
CCTTTAGTTATACTGATCTTACTCCCTTTCTACTCTCACCTGTTCTGAGGAAATAATCTGATTAAAACCCCTCACCCTAGATTGAGACCAAGCCTACCAC
CTATATGTATTYGCAATAGCACCATAACAGCCAGCGTAATGCCTTATGCTCAGTTGATTTGGTCTAATTTAAGTATAATCAGCAACTTCATGTGTTACTC
CTCCCAAGGGTATTGGAACAACAAACAGAGGACTACACCAGTGGTTCCCAACTTCTTAACACAAAGGAGCCCTTTATTTTTTTTTTCCTATGGGCCTTGT
GTTTTGGAAGTTTCCATCTACTCAAAACACTGCATGTATTAAGTAATAATTTGTTTTCCCATTTTATAGCTAAAAGACCTGAGTTTGCAATTAAAAAATA
AATACAGTAAGGGTCAGGATTCAGCTTATTTGTATAATGAGATGATTGGTGTTTTGGTGACCTTATGTAGTTTTATTGCAGATAAATATATTTCCATTAG
GCTTTTGGAAACAGTAAACATAGCTCATGGAGCACTGTTACCACCTTTGCGAATTACTGGAGATTCTATTTTCTCATATTGGAAACCTTAGTTGTAAACC
AAAAACAAAACAAAAAACAAACAAACAAAAAAACCAAGTGTGTAAAAGAGGGAATTTTGGTACCCATAACAAACCATGAGAGAGGTATGTATGCCTGCCT
GTGTGGCAGGGGGAGGGGTAGGAGGTGACCGCAGGTGTTGTTGGGGCTGAGCCCCTTCCCCTTCACTTGCTATATGTGCTTCTGAGGCACAGATCACAGA
TGAAACCATCRTTCATCCCTGTGYGTAAGTGTAGCTCTAGAGGTAATGATCTTGATTAGAATATTCAAACTTGTTATTACCACTCACTATTGCCATATAA
ATATTGTATAGTATGCCTTTTCATGGTTAATGGGCATCCTACTATAATTTATAGTCAAAAAATCTCAAGGTGGAATTTTGGTTATGTTATTCACCAGCTA
TGTGACCTTGGGGAATTTATCTTCTCTGAACCTCAGTGTTATAATCTGAACTTGAAATCATTCAAATCTTAAGTTAAATAATGTCTATGGATAATTGTCT
AAAAGGTAGGCAACCAATTCCTTTCTCTGGTTCTGAAATGGTAAATGGGTTTAGTTTCCTGATTTGACAACTATAGTCTATTGGATTCGGCTTCTAGAGC
CCAGTGTCTTTACGAATCTGGAGCCACATAAAACCTCAGTGACAGAGAGTGCTGCTGCTGATTAGTAATATCTACTGTGGTCCTGGTAGGAGGTATAGCT
GCACATGTGCCAGAATTTTGCCAGCCCTGCCCTAAGTACTCCAAAGTCTGCCCTTGGAGTAAATCAGACCATCATAATGCTCTTTACCTGGATGATTTGT
TTTGGCTTCTTAAAAATTGCTTTTTTTTTTGGAGACAAAGTCTCGTTCTGTTGCCCAGGCTGGAGTGGAGTGACGCCATCTCGGCTCACTGCAACCTCTG
CCTCCCAGGCTCAAACAATTCTCATTCCTCAGCTTCCTGAGTAGCTGGGGCTACAGGTGTTTGCCACCACACTGGGCTAATTTTATATTTTTAGTAGGGA
TGGGGTTTTGCCATACTGGCCAGGCTGGTCTCAAACTCGTGGCCTCAAGTGATCCGCCTGCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCATAAGCCA
CCACACCCAGCATAAAATTTGCTTTTATCAAATGTCCCCTGACCATTAGGCTTCATCAGAGGTTATTAGAGCCACCTCTTTGAAACTGCTTGTATGTATT
TGCTCAGATGTTATTGGGACATTGTTATATGACATTGTCTTTCAGAAGACTCACAATTAATGTGTATCTATTATTTTGGTACTTTAATTATGGTGCTCCC
GAGTGGTTTTTGATTTATTCATTTATTACACAAATATTCATTGTCTACTATAAAGAACACATTATTGSATACATTTTCTAAAAGATCCAGTAGATTCTCT
GACTCTTACAACTGCTTATGTGTTCCTATTTTCTAGGAAGCTCAAATCCAGATGTGACCTCCCCCCACCACATCTAGCAACTGTACAGGACGGCATAGTG
TGCATTATGTTTAGTTCTCTCATTTCTAGATTTATCTTTCTTACCTTTGCCTTTTTGCTCCATTCACTCWTTTGTTYTTGTGAATTTTATGGTTATTTAT
ATGCTATAAATCTTTTTATTATTTAATGAAAGGTTAAGCATAAGCAAATTAATGAATATCTAAATCTTTTGAGGATGAGGTTAGAAATGCACTCCCTCCC
CTATTTATTAAAATAATTAGTAAATAAAGGATAATCCATGTAAACCACACTGTTACCCATAAAGTTCTATCTAAATTAAGTAAATATAAATAAGAACAGC
TATGGTCAGATTTGCACAGTTTAGTTTTCCATATTTGTCTTTCCCAGTGCTGAAAATAGAAAGCTTTAAAAGTTTCTTACCTCATGATGTTGGATCAAGA
AAAGCTTGACATCACTGGCTCAGTATTTGATGCTAGATTGAGTTCCTTATGGGAAACCATTTGAAATGAAGCCATTGTGAACCCATCCTAAGAATGTCAG
TCTGAGGCATGATATCTGCTTATGGATTATGTTTATTTATGTTCTCCAAATTATTAGCATGGTGATCTTTCTTTCTCCTGTGGCTACTAATGAAGACATT
TTATTAAACATATTTCAGTGTCTAGAGAATTTCAGTCTTGCATACTGCCTGTTCTCTTGCTATCAGCTCTGTAAAGTGAAGGAAGAAACCCCTACTGCAG
GCCTGATGCCTAAAATCTGCACGACATACTAAGTCTCTGAGCCAACTTGGATTGGATGCTATGATCCTAGTTTATTTTTTTTTTTGGCAGGGGGGAGGGG
GCTGGGTCGGGGGGCAGTTCTCTCCCTCCCTTTAGTAAATCTGAAAGAAGAATAAAGAAAAATCATCAGTGTTAAGTGTGCTTGCTCAACTCAAAAATAA
GACAAGKGGCTGCGTATCTTTGTACACATATATGTATATAAGAGAGGGTACAAAAAGCATACATTTAAGATATGAAAGCAGAAATTGATAACCCACTAGT
GGTATCTAAACAATGAAAACACTATTAATTTGGTAAGTTTCAGGGTGCTATTTTGCCTTTCTTTAAATTTTTCTTGGAGCTTCTTACTTTTTTRTTACCT
GAGATTAAAATATTGCAAAATAAGCAACACTGTGCAGTGATTCTGGATGAGGATGAGGTCAGACCACTGCATCCAGCTGACACCTCATAGTGGAGTACTA
ATAAACTGTATTAGACCAAAATATTCAGTTTTCCACTGTTTGCAAAAAAATTTCATGCAGTTGCCAAAGTTATGAGTGGTCATTATCTCACTTAAATGTT
TTGTCCAGAATGGGGTGGGTCTGGGAACTCAGTGACCTAAACATTGCCTTCCATGACATTTCTCTAATAATTAACATCGGTGTACTTGGGAAATAGTCTC
TAAAAAATAATAGCCCTTTACAGCAATTCTTGTTGATGCATCAGGGCAGAGGTTTASGTTTAGCCTCTTGCTGTCATTTATGGTATGTCTGTTTCTTTGT
GTGCACAGTTAAAAACACATGTACATATACATACCTACACACATGCATGCACACATTTTTGCAGACTCGTATGTCAATGGCTGCAGTCTAAGGTCGCCTA
TCTGTAAACTACATTGAAACTATTAGCAAACCATTATGTGTTTCATCGATTCAGCAGCGTTTATTGTGCATCTCAAATGTCTGATACTGGGCTGAGCAGC
AGAAATATCAAGATTAGTAAAACACAGGTTCTCGGGTAGCCCAGGATGTTGTGTGGAGATAGACATGTTAATAAACTCAATGTAAGTTATATAATAATTT
GAATTGGGTATACATGAAAAAAAAAACAAAATAATAGTGGCTTAGACACATAAAAGATTTATTCTCTCACAAAAAAAAAAAAAAGATGCAATCCGTCCAA
GTGCGGTTCAGGAAACAGGATCTTTCTCTCTTTCTGCTCTGCCATTCTGAGTACAAGGCTTCCATTCTCAAGATTGTCTCATTTCCAAGATGGCTGCTAG
AGCCAGCAGGAAGGTAGGAAGGCAGAGGGCAGAAAAGGCATTCCCCAGCCAAGTCAGCTTCTTTTAAGTAGCCTTCCCAGAAGCCTCACTTCTACTTTTA
TTTCAGTAATTATGATTTTTTCTCATGACCAATGAGAAATGTATTCTTTTAACTGCATATAATGCTAACCCAGATAAAATTGGGGTCCAGTACAAGAAAA
ATAAGAGAAGATGGATATTTGATGACAACCAGAAACCTCTGCCACATGGAGGTATGAAGAAACGGCTATGGAAACATACAGCAATAAGGCAGTTACCTCT
GGAATCTGGACAGGCTTTCTTGAGCAGACGCCTRATTTGGGATTTGAAGGATGAGTAGGAGTTTGCCAAATAAAGAATAGGGAAAGAGTATTCTAGGCAA
AAAATAATAGCATGTGCACAGAGGGCCAATTAAGCCCATTTTTGTATTTCTGTTTATTTTTCTCTCTGTTATTAATAGTAGGTCTTAAAGTAACAACTAA
TTTTAATTAATCTAATAGTTACTCAAAATCAACAGATTAAGATATGTCAAGTATGATTATCCTGATATCCCTGSAAACAATTTTCCACTTGGACCAAAGT
AAGAACATTTTATCTGATATAAAGTATTCCACATTTTAAAAATAATTGAGTTAGAAGATTTTGGCATCTTGAAGAGGAATTGATAACAGAGAAAAGGAAG
AAAAAAAAAACAATTGTGTCAGGGAGATGTTAGTCTTTTAAATTCTGAAGCTAAACAAAGCCCATTTAAAACTGACTTGGTTCATATCCTGGGGTCCGTA
AACCCACACTGATAGCACTAAGTCAGGCGTCTAGCCAAGCTACTCTTAAAGTATGTCACCTCCTATTTAGCTATTCCTAATATTACCGTTGCTTTGGATC
TGTGAAGCTGAATTGTTCTTTACTTAAAATGGTTTTGGAACCGTAAGAAATCTTTAGACTTAGAGAGAGATTTTCATGATTATCTCCTTTGGCTCCATTA
GAGGCATCAGAGTCCGTTAAAAATTTTCCAGAGAAACTTAAATCCTTTGAGAAACCTGAAATTCCTATAGTTTAAGGAGTAAACCCAGTTAGATTTGGAC
GCCTGAGAGTGGAAATTCCTGTGCCCAATGCCTGCGCTGTCCTTCCACATGGTCAAGGATCTTGTCAGATTAAGTCCTCTTCAATCCCAAAAACCACAAC
AATAGTAGAGTCAATAATGCTTTGAATGTTGCCTAAATTAAAACTGTCATGCTTTCTCAAAGGATTTGGTCCCTCCAAGGCAATTAGGTTATCAGTTTTC
TGATWWTTTTTTTTTTTTTTTTTTTTGGCCAACTTGGTTTTTTGCTTCCTCTCCAATTAGTTAGTATCCAGGCATTTCTAAAGGACATGGTGAACCTCAT
GTGACACCTCCCTTCCATTGTTAACTCTGACTCTTCATTCACATCTCAGCTCAAAAAAGTCTCTCCCTAAGAGAAATCTTCTCTTGCCTCCCTAATCAAA
TTGAATTCTTCATATTTTATGCTCTCAGAGTGTCATGTGTCTGTGTTTTATACCTTTTTTCATGATTATCATTTTACACTTATTGCGTGTGATGATTTGG
GCACTATCTCCCTCTGCCACTAGATTGTAAAGTCTCATGAGAGTGGACCCATAGATGCTGAAATTCACCATTGAATGTTGCTCCTAGCACAGTGGCTGGC
CCATAGCAGGTCCTCAATAAATATTACCTAACCGGTTAAATGAATTCTTTTATAAATAAAATACTTCTGTAATCCTATTTCACACTGTACTCAGAATATA
ACAGTGAATACAGAACTGATCAGCTCATGGGCGGGCCCATCTACAGATATGAATTTTGAAAATAATTTTACTGCAGTTATGTAGAAATACACCAAAGAAG
TCTTAAGCCAGCACATGTTTGGCACTGCAGGGATGAAATTCGGTTGCTTTCTGAAGTGGCCTCACTGCAGCCTCTGAATAGATTGAGGCAAACTGCTCCT
CAGCTACACTGAACCCATAGGGATAGAGCCCGTCTGCCTTTGTCCCTGACTTTAGAACTCAGCACCATGTTTTCCTGACATCTTTGCATTTAAAAAAAAT
GTACAGTTATTGAAGGGGTTGTTGCTGTTCATCTATTTTTAAAAGACGTTCATTTGCTATTAATGAAAAAACATACATTACCACATTTTAAAAATAGAGT
ACATATATAACACAATGTTAAATAATTATGTTTTTAAACCTTCATCTAAACATGTGTTTGCAATTATTATTAATAAGAGGAATAAAAAAGAAAATCAAGC
CTCAATCCTCTGGTCATATTAACAACCAGATTTTTGAAAGGCAAGACGAACTGTGAGGACTTTATGAAGAGAAGCCATAAGTCCCTTCAGTTGTCACTAC
CATTATTTTATTTTGTCAAAGAGAGTAATTGAAATAGTTTGGGAGTAGAATAAATCTTTCCATATTTGATCTAACTAGAACTGTAAGCCATACAACCTGG
CATAGTTTGGATTTGAATTTCTAAGACTCAGATATTAGAAAGTAAAGAGGAAAGACACAAATGGCATTGCCCACATACTTTATAAAAGCCTGTGATGTTG
TTAAGCCTGATTTGGACCGGGCATAAATGTTTCACGAGGAGTCTTTAGAACTCAGCTGCTTATTAGCTAAGTGACCTTGGGTAAGACTCATGGCCTCAAC
TATAGAATGGAGATATCTTACTTGCATGGCTCTTTTGAGAATGAATGAGATATTTGTACTGTGCCTGATACAGGACAGGGTAAGGCAAATGACAGGGTCT
TAGTGGTATTCATCCCTGCTGCCCTTCATGCAACCGTCCTCTTMCACACACACACACACACACACACACACACACACACACACACACAGTAAGTTTGTAT
CTGTTTGCTGATTCTCTCCTCTTTTTTAAGCTGGAGTACTAGCTAGAAAAGGAAGTATTTTCATTATTACTCAGCAAATATTTTTTGAGGGCCTACAATT
GACCAAGCACTGTTCTCACTGCTTGGAATACATTAATTAACCCAATATACAAATCRCCCACCCTTACGCAGCATACGTTCTAACGAACCATGTGGAACAT
GGAGATCATTTATAAAATGTTTCCTGCTACCATTACCTCTTGGTTGTAGTTTTTGTCATTTGAGTGCATCATAATTATTAACATAGGAGTTATTCTTGAA
TTAAGGCCCTAAAACATCAATAATTCAGGATCTTCTCATCTCTCTTACTTTCTCCCCATCATTCCCTACCCTGCTCCCTATTCTSTCTCATTCTCTTTCT
TTTACCCTTCTTTCTATTTGTATATCTGAACTKTGAAAACATCTTTACCCATGCTACCTTTTTTTCTTTCTTAGCTTGATTTAAATTCCAGTTGAATTCA
GTCCCCTTCACGGGGTATGTTTTAGGCCCCTCAGGGATGAAGGGAGGGTTATTTCATGGTGATTGGCCTCATAATGGATTTTGCCATCGGTAGGTGCTTG
GTTGAATTACACATCTCTCTTTCTTGTTAGATTGTTGGCTGCGATCACCAGCTGGGAAGCACCGTCAAGGAAGATAACTGTGGGGTCTGCAACGGAGATG
GGTCCACCTGCCGGCTGGTCCGAGGGCAGTATAAATCCCAGCTCTCCGCAACCAAATGTAAGACACACAGAGATGGGCGACCTTTGGACTTGTTGACTTA
TCCTCTCCTGGCTTAGGTCTGGCCCCACTAAACAGCCAGGGAACAACACCTCCACCAAAACGATAATGAACCTGAAAATGTAGAAGGCTTCATGCTCTGG
CATGTGAATTAGCTTAGGTGGGACAAGTCAGGTTACCAGCTGCAGTCCCAAAGAGGAAGCCTGTCCTTCTGAGGCACATCAGGAGTGAACCAGACATGGG
GCTACAAATACTTTCTGTACAAACATGAGCTTTGCTGTCCAACATGAGGACAGACTGTATCCCAGCTCCTGCGTGATGTGTAGTGTGCTATGCCTGGTGG
AAGATAACGAGGAAAGTGGGAAGATAGCACAAATTCACTCCTGTCACTGTGAAGTCACATGGCCTTCATTTACAAGGTGGTCTTTGGTCAGTACTAAAAC
AAGTCCTTTCAGAATTAATGTAGGGCAGTGATTACGTGACGTTTTGGATTTTTGGTTTTTGAGTTTTGGTGTTTTGTTTTTGTTTGTTTTTGTTTGTTTT
TGACTGAGTCTCTCATTCTGTTGCCTAGGCTAGAGTGCAATGGGGCAATCTCAGCTCACTGCAACCTCCGCTTCCCGGGTTCAAGTGATTCTCTTGCCTC
AACCTTGCAAGTAGCTGTGATTACAGATGCATGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCGGGCTGGT
CTTGAACTCCTGACCTCAAGTGATCCACCCGCCTCAGCCCCCCAAAGTGAGGGATTACAGGCATGAGCCACTGTGCCCAGCCTATATGAAGCTTTTTATT
GACCTTTGTGTCCTGGTATCTCAATACTAGCAAAAAAAAAAAAAAGTGTACTTATTAGACATGTACTTGCTGAGAATTTCACACAATCGTCCCATGTAAT
TGTTATAACAACCTCATGAGCAAAGTACTATTAATCCCCATGTTATGGATGAGATAACTGAAGCTTAGCCAGATTATGGGACTTGCACAGAGTCACACAG
TTGTAATGGAGCCAAGATTTGAGCTCAGAGTCTGATTCCAGAGCCTAAGCACTTACTTGTTTCTCTGGACTGGTCACAGCCCCGCTGATAGTCTCTGTGG
TGGGACATTTGCAAAGCAGATAGATGGATCAAGGGAAGGTGCCTCAGATGTCTACCCAGTCAGGTCCTGCTAGGATAGATGGTACAAGTTCTCATGGTAC
CTACGCCAAAAATTGAGTCATTAATCTGAGGCATTTTATGATACACAGTCTGACAATCACTATTCTAGGCACTGCAGCAGATACAGATAGAAATAAGACA
GCCCTTGTATTAAGGACATGCATTTTTAGAATTATTTTGACATTGCTTGGCATATTGTCTSCAGATTTTGCTACTATGCAGAATCCTTCAATAGATCCCT
GACTGAGTATTTCTTTCCATATGTCTCTCTGGTTTGGGAAATGAGAATGAATATCTTTACTGAATGTGTTTTGTTATCTTTACTTGCTGACTAGCTGGAG
GAAAACAATTGACATATGGAGAGTTTGTTGCTTTAAATGGACTTATAGGTCAAGGAAGAAAGGCAGATGCAGTTATTCTGGTATGCAGTGGAGGAATATT
CTCAGAAGTCCTGAAAAGGCAGCTTGCCAAAGGATTAGCCTCGAGGTAAAAAGAGGAGGCAGAAACAAAGAATGGGGACTTACAAACACATGAAAAATTG
GAGATACCAGTTTAGGGAACTCTGTACATTCTAACTCCCTTGGAAACAGTGGAAAATGTAATTCTGCAAAAAAAATAAAATAAATTTAAAAGATTCTGGC
ATATAGAATAAAGAATGAGGTAACTTAGACATTGATATAACACATTCAGGTGAGATTTTTCTTTGGTCATGTGGGTTGGTAGCTTCTTCCATAAGATGAA
AAATTTCTAAAGTTAGAAGATGGAAACCAGAAATGGATAGAGGCATAATTCTCTTGTAAATCATGGTTGGATGTTAGAAAAGAGTTACATTTAAAAGATC
ACTCTTAAGAACTCTTCATGGAATGCTAAAAGAATTAAAATCCTCTAATTATTTCTGGCATGTAACTGAATCAGTGTTCATTATCTAGGAATCTAGGAAT
TACTGTTAGGTACAAAAGGAAATGTCATGCATGTGTGCAGTGATGGCTGTATAGTGTCCTGGGAGCATGTTTTTAATGGTAAAGGTGCTTCTTTATTCTC
ATGCCCATACCTTCTTGTTCTCATAGAGGATCTAGACTACTGTGCTCAGATAGACATTCCTCTTACCCTACTGTTAGGGAGGGATGGGTGACCTCTAGGG
CCTGAATCACAAAACAAAGATGGAGAAGCTCCTAAGGAAGAAACTGAAGCAAATTGAGAGCCCTATATCATCTCCAAGTCTGCAAATAAATACCTCAATG
AAAAGTGCCCTATTCAAGACCGACAGTAGGTAAATTATATAATACACAACCTGATGATTATACATACTGACAAAATGSAATTGATTCGTTTACCTTAGCA
CTGATGATGTCTCATSACAAAATGATTGATATCAATAAAGCYCACCATATGCATGCACCTCACCACAATCTATAGCAGATGCTGAACAAACTGCCTCACT
TATGTTTCTCTACTCTGGAAGAATCTTCCATCTTATATTTACAGACTGTGAGGCGACCCACTGGCAGGGAACATGAGGCTGCTCTGCAGGGCCCAGTGGA
GAAGCCAGGTGAGCAGTTCTCCACACCTGGAGGAGTCCTGCCAGATCTCTCCCCTGTCTTCTGCCAAAAGGCACTGTCAGCTCGCCACATGCTCTCTTCA
AACTTCTGGCACTCAGATTCCCCACATTGAACTCACTTTCTTTCTGAACTTATATCCAAGTTTTTTTTTTTTTYCCCTTATGTTATCAAGCCTCAGAGGA
ACAAAGCAAAAACAGGAAAGTGGAGAAAAACCATGGTAGAATGTGCCAGAAGGATAAAGAGAAGTAGGAGAAGTTTATCAAATGGCTGCCATTTGCTGGT
GATTTTTAAAAAATCATCTTTTTATTAAAAGACATTACAATTGCCTAATACAAATACAGACAATGGAAATAGAGCAAGATCAAAGTACTCTTTCTCCTTT
CTTAAAGGAAAAGACTACCCACTGGTAGCACTCAGCCTTTTCATTTTTTCTAGTTACTTCTCAACTCCCCCAACCCAATAAAAATAGTCAAATATAGCTG
ACATTACCTTGCTTTTGATTCTTAAAATTTAAAAGTTCATTTCTCACAAGATTTATTGACTTATACTATGTTCTATATTTTCCAAGTATACTCAGAATAT
TCTTAGGGCTAGAGCCAGCCTATTTGCTATCAATTTGATATTTCCAGCTTTGCAGAACTCTCGTCTGTATCTGTATGTTTTGAAATCACCTGGAGATCCT
AAAGCTCTCTCTCTACCTTTCTTGCATGGTGAGGTCACTTAACTCACTTATATCAAGATAAAATTAAGCTTTTAATACTTAAAAATGTGCTTCTCAGACT
GTGGCTTATGCTGACGTATAATGGCTATGGGTAAACATATTCTTGGACTATCATTCTAGCTCAAAGATTTTGAGGTAAAGTACGCTTATAATAAAACACA
GGCCTCTATGTTATAAAGTACAAAATACATATGGATTTTTTAAAGAAAGCACAAAACAYTAAAGAAATTTCCACCTGCCCCTGGCTGCTTTGGGCTATCC
TCACAAGCCACTCAAGGATATATTCATTCAACAGCACATATTTAATGGGCACCTGCTATATGCTGAGGAACTGTTCTAGGTGCTGGAAACAGCACAGAAC
AAAACAGACAAAATCCATTTATCTTCCYAGGAGCCATGGAAAAAACAAACCAGAGCAGGAGAACAGGAAATGGGTATAGGCTGCCASCCACAGGTGATGC
AGGGGAGCTGCAATTTTCAGTAAATTAATAAAGAAAGGACTCACTGATAACATGGCATTTAAACAAGGATCTAAGGGAAGTGAAAAGGGGTCACCATGCA
GAAGTCAGGGAGAAGAAAATTCTAGGAAAAGAGAAAAGCAAGTGCAGACGTCCTGTGGTATTTGCATTCGGGATATATTTCATGAAGAACAAAGAAGCCA
GTGTGACTAAAATGAGGTGAGTTTCAAAAAGGCTAGAGAAAATGATATGAGGCTGGGGGAAGAATGGCACAGATATTGTGGGGTTTTTTGTAAGTCTGAA
TGAAATGGGAAGTTGTTGGAGGATTTTGAACAGAGGAATAACTTGATCAGATTTCTGCTATACTGAGAATAGACTGTAGTTGGAAAGATATTACACTAAG
CCAGGCCACAGATGACAATGGCTTGGACTGTACCAGTAGCTGTGGAAATGATGAGAAGTGATCCAATCATAGATATACTGCACCTGTATTTATTTTCTTT
CTTTCTTTCTTTCTTWCTTWCTTTYTYTTTCTTTCTTTCTTTCTTTCTTTCTTTCYGTCTTTCTTCCTTCCTTCCTTCCTTCCTTCCTTTCTTTCTTTTC
TTTTTTTCTTTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTTCTTTTYTTTTTCTTTCTTTCTTCTTTTTTTCTTTTATTGAAACAGGGTCTCACTCTG
TCACTGAGGCTTCAGTGCAGTGGCACTATCACAGCTCAGCTCATTGCAGCCTTGACCTCCTGGACTCAGGTGATCCTCCCACTTCAGCCTCCCCAAGTAG
CTGGGATTACAGGTGCACACCATCATGCCTGAGTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTCAAATTCCTGGC
CTCAAGTGATCTGCCCACCTCAACCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCACGGCACCTGGCCACCATTTTAAATTTTAGCCATTCTTATCAGT
GAGTAGTGGTATTTCATACTTGTTTTTATTTGCATTTTCCTAATGGCTAATAATGTTAACATCTTTTCATGTTGTATTATCTTGCAATTGCTGCTGTAAC
TAATTACCACAGACTAAGTGATTTAAAGCAACACAAATTTATTATTTTATGGTTCTGGGGGCGTCAGAAAACTGAAATAGGTTTCACTGGGCTAAAAACA
AGGTGTTTGCAGAACACAGCTCTGGAAGCATTGAGGGAGTATTTCTCTTTCTTCAATTTTGATTTTCCTGCTCCTGGAGCCTATGCACATTCTTTGGCAT
CTTCAAAGTCAGTAGCTTAGCATCTTCAGATCTCTCTCTGACTCAAGCTTCCTCTTCTGCCTGCCTCTTCCATATTAAAGAATGTTTGTGATTACATTGA
GTCCACTCAGATCATCCAGGATAATCACTTAATTTTAAGGTGACCTGATTAGCAATCTTAATTCCATTAGCAACCTTAATTCCCCCTTGCMACATAATAT
TACACATTCACAGATTTAAGGACATATTTGGCAGGGGAGAGGGATACATTAGTCTACTTACSACAGTGTGCTTTGTTCATCTTTTGCATAGTGTCAGTTC
AAGTCTGTTGCTCATTTTTAAAAAATGTGTTGCTTGACTTTCTCTTGTTGAGTTTTGGGAGTTCTTTATATATACTAGGTACAAGTCCTTTGTGGGATAT
TTGAATTGGAAATATTTTCTCCATCATAGCTTTTTTATTCAAAATTGCTTAATGTTATCTTTCACAGAGCAAAAGCTTTTCATTTGGATGAAGACCASGC
TATCATTTTTTTTCTTTTACGGCTCATGCTTTTAATGTCATGTCTAAGAACTTCTTGCCTAAGACCAGGACACAAAGATTTTCTCCTGTGTTTTCTTGCA
GAAATACATTTCACCTTTAGATCAGTGACCTATTTTCAGTTATTTTTTGTATAAGGTGTAAGTTTGATAGGTAGCTTGAATTTTTTTTCGTATAGACGCC
CAATTCTTCCAGTACCATTTGTTGAAAAAGACAGCCTTTTCTCTTTTGAATTRTCTTTAAACCTTGTCAAAAATCTATTGCYGTTTCTCTGAGGGTCTGT
TTCTGGACTCTATTCTGCTATGTGTCTGTCCCTTCATCAATACTCCATTTTTTTTATTACYGTGGCTTTAAGGTAAATCTTAAAATGTGGTAGTGTGATT
TCTCCAACTTTGTTCTTGTTTTCAAATTCATTTTGGCTATTCTATTCTGGGTCTTTGTCTTTCCATATAAATTTTACTATCTGCTTGTCCATATCTACAA
AAAGTCTTGCTGGGATTTTTTTGTGTTAATTCTACAGATTGATTTGGAGGGGGTAGGAATTGRCATCTTTAGCATGTTAAGTCACTCAATCTATAAGGTA
TGAGAATTTTATGTCTCTGTTTACTTAGGTCTTATTTTATCTCTTTGATTAGCCTTTATTAGCTTTCAGCATGAAGATCGCATATACTTTATATGATTTA
CATCTGTTGTATTTTTTGTAACTATTGCAAATGGCATTATATTCTCTTTTTTAAAATTAGAGATGAGGTTTCACTATGTTGCCCAGACTGAAGTGCAGTG
GCTATTCACAGATGTAATCATAGCACACTACAGACCCACATTCCTTAGCTCAAGTGATCTACCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGAGTT
ACTGCGCTTGGCTTGGCATTGTATTCTTTATTTCCATGTCCAATTATATATTCCTAGTTCACAGAAACATGATTGATTTTTGTGTGTTAGCCGTGTATTA
TGTAAACTTGATACACTCACTCAATACCTCTGAGTTTTTTGGTAGATGACTGGGATTTTCTCARTAAACAATCATGTTGTTTACAAGTAAGAGTGGTTTT
GCCTCTTTTCAATTTGTAAGCCACTTTTTTTTTTGTAGTCTTATTGTACTGGCTACGCATGCAATACAATAGTRAATAGGAATGATGACAATGGAGGTCC
TTATCTTATTCCTAATCTTAAGAGGAAAGCATTCAGTTTCTCACCATTGAGTATGATGTTAGCTGTAGGTTTTTATAAATGCCCTTTATCAGATTGAGGA
AGTTCCCTTCCTTTCCTGGTTTGCTGAGAGTTAATAACATGAAGGGATGATGAATTTTATTAAATTCTCTTTTACCTCAACTGACAAAGTCCTGTGGTTT
TTCTTCTTTAGATTGTTATTGTGATGAATTACATTAATTGGTTTTTAAATAACCAACTCTGCATTTCTGGGATAAASTGTACTTGGTCATGGTGTATTAT
TCTTTATATAGATTTCTAGTTTGATTCGGCAGTATTTTGTTGAGGCTTTTTATCTGTGTTCATGAGAGATACTGGTCTGTCGTATTCTTTTTTGTATTGT
CTTTGTTTGGTGTTAGTATTAGCACAAAATGGCCTCAAACGATGAGTAGAGAAGTAATTGCTTGTCTTCTTTTTTTCTGGAARAGATTGTATGGAATTGA
ATWTATTTMTTCTTTAAATGGCTGCTACCAYGCCCCAGTGAAATTTTCTGGATCTGGAGATTTATTTTTCAGTATGTAACCTTATGAACTTATGGAACAC
CATTATAGTAACTATTTTAATATCCATTCTGTGTTTGGATTGATTGATTTTTCACTTTAATATGTGCTGTTTTTTTTGTTTGTTTGTTTCTTTGCGTGCC
TCATTATTTTTTGACTTGATGCCAGACATTACAAATTTTACTTTCTTGGGTACTAGATATTTTTGTATTTCTATAAATATCCTTGAGCTGTGTTCTGGGA
GCAGTTAAGTTACTGAAATCAGTTTGAACCTTTGGGGTCTTAAAATGTGGTAGACAGGACCAAAGCCATGTTTGGTCTAGAGCTAATTGTACCCTTTTAC
TGAGGCGGGACCTTTCTGAGTAGACTACTTAATGTTCCATGACTTACAAAGTTTGTCACTTTGGCTGATGGGATAAGATACTATTCTCAGCCCTGTATGA
GCACCGTGTACTCTTCTCTATAATTCTTTTGTGTAGTTCTTTCCCCAGGCCGGGTAATTTCCTCACACTTATGTATTGATTAGTATGCTGCTGGCTACTT
TAAGGAAACCCTCTTGGGTGTCCAGAGTTGTCCTTCTGTATAGCTCTCTCCTTTCTGTTACTTTGTCCCAGAAATTCTAACTGTTTTTGTCTCCTTGGAC
TCTTGGCTTTGTCTACTCAATTCAGGGAATCTACTGAGCTCTACAGGTCTTCATACTTCCAAAGCTGTAGCCTAGGAACTCTATCAAGGCAGTAAGCTGG
GGCAATGTTGGGCCTTATCTGATGTGTTTCCTGAGTATACAGAATTGCTGCCCTTTTTTGCCTGATGTCCAATATCTTAAAAACCATGGTTTCATCTGAC
TTTTTGATTGTTTTAGACAGAATATTAAATCTGGTTCCTGTTAGTTCATCTTTGTCAGAAGCAGAAGTCTTGGTGCTGGGCTTTCAATTCAGCTCTGCAA
TTACATAGAGCTAGCCAACTTTTGACTCCTTCTACGACAATGCAGTTAAGCACCTGTAATTCTGATTCCTCATCTCCCTACAACCTCCACAGCCATTTGG
TTCCTAGAGGTTGAATGTGTTCCAATATTGTCTTATAATTTTCTCCCAAGCGGCTGACACTCATTTTGTGAGTTTGATACTGGCTGTTTTGATGTTAGCA
CCTGTGTAGGCAACGGTATCTATGTCAGGATTATCGCCTGAGTGAGAGGGAATATAAGATACTACTGATTGTGAGATGTATTCTGATTTCATATATGTTA
AAGCATGAAAAGTTGTCCCTCTTGGAATCAATGAAATAGGGTATTTTGACAACAGAACTTTTTAACTGATTACATATAAAGATGAAGTAGAGGATGGCTC
CAAGTTTTCTGGCCTAGGCAAATGGAAGGATGAAGTTCTCCAGATGGGAATGAGGAGGGCATCTTGTTTGGCCTGTCCAGTATATATCTTCTATTGTGCA
ATTACAGATAAACCAGGGAGAAAATTGAAAGCCTCAGATGCTCAACTTCTTATTTTGTTGGATATATTTTAAGAGTAATAAAACCGTCACGAAGATGTAA
AACATACCATTTAAACCTCCTCAAGATTGGCAGACTATTTTTATACATAGTCAATTGTATTTTAAAATGACTCTCTCATTTTTAAAAATAAAATAAAATA
AAGTGTCAGCTCCATAGGCATAGAGGGAAGAGTCTTTAAAAACATGAACTCATCAACGGATCTAAAAATAAGATAAACTCAGATATCAGAATAGGAAATT
CTGTCTTTCAAAATATTATCCTCATCACCTTTCTCTGACACAGCTGTGAATCACGCAGAACATCCACATATGACAAGATTTTAAAATGAATATAAAATAT
TCTATATAGAAAGTTGTRTGATATACATATAGATAGATATTTTTTAAAGAATWCTTTTAGGTACAGTCCTTGGGAAGAATTTTCTTGAGAAAAGACATTT
GCAACCCATATCTGTGAAATGACAGAATTTATGATTCCCATGGAAATTTTGTTCATTGAATGGAGAAATGGGTTATCTGGTATCTGAAGCAGATCATTTA
GAATTGTTGATTAATAAGCTAGAAATATGTCCTGAAGACTGGCATCATGGTTCAGTCAACAAAGCCAGAATAGATTAGGGCAGATGCACTCAATCGTAAA
ACAGTGTGCCTTTGTAGGAAAGGGCACCCAGAGGAATGTGCAGCAYGGTGGGAGAGGATGTGGCCCCTGCCTCGCCAGCTATACTAATGGCATTAATCAC
CAAGGAGGCAGGTGTTGCMACCAGATTGCTCTCACATCCTAAGAGATCTTAAACACCACTCTGTGCACAATATTGTAATAGATGCCAAGTAGAAGCATCT
TCCAATCCATCCCAAATCATTGAGGATTTATCAGAAAGTGAGACAATTATTAATACATAAACAACTCAAAAGTGGCTTTTTATGAACATGCAGAAAATGA
AATTTTTAATTGTTTTCCCTATTTTGTTTTTTGTTAAATTAAGAGTACTGTTCCTTAAAGTATGTCCTAAGATATATCAGCTGATTTTAACAGATGACAC
ATAAGAAAAAGTTTTTATGGATAAACATCTTAGGTATACACGGGGTTAAATAGAGTGAAATGGGTTTCTTTGGTGCAGTGCTCCTAAAAAAATGAATGAA
TATGCTTTGGGAATTTCATCTGTGGGGTGTAGTATTTTGTATTTCCCCCATATTTTATCTTAGATCCCTTTTTCAGGACCATCTCGTGGGGCTAGTGCTT
TGTTTATCTTCTTTGTCACTGAATCCCTAGTACCTAGCATGGAGCCTGACACTAAAAGACACTCAAAAAATACTTGTGGAATAAAGTAATGAATTTGCAG
ATCGTTTAATGTCTGGCCAGGGGTCCATCAGCCCTTTTCAGAATAATATATAAGAGAAGGCTGTGGCTCTTCCTACTTCTGTGCCATGTGCTGCCAACTG
CTAGAGTTTGTACCAGCCTGACTTGCTTCATTTCTCTTTGACTAGGTGAGTGCAAGGGGCATCAGGAAATACTATTTCACCTGGTCTACTTTCTCCATAT
ACCCTCTTCCTCAACAACTTTCTAGGAGGTTCTTCTCCTCTCTTTTTTGGGGGTGCATGCTAATGTTACCACACCCTGTCTTCTTTAGGGAACATACAGA
TATTACAGCATCAGCCAAGAGCTAGGGTATTAATGTTCCAGTTTATGGAATGTGAGTCACTTCCCAGCAGAGCAAGAGGGAGGCTGCATGAGCTGTGTGT
GGGTCAGAAGACTGCTGCTGAGCATGGCAGGGCCAAACAGAAAGCTTTCCTTTTACTTGCACTTTATTTGAACTGTGGGTAAACAAAGACTTTCTATTTC
TAGAAAGTCCCATTGTTTTAACTGCTTTGAGTTTCTTTTGCAAACTTAAAAAGTCATGTCTTTATGCAAGGCGTTTAAAGCTCTGTAGGCCCAGTCTCSG
CCGGGTGTGGTGGCTCACTCCAGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGTGGATCACAAGGTCAGGAGTTCAAGACCTGCCTGGCCAAGATGGTG
AAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCTGCAGTGGCAGAAGTCTGTAATCCCAGCTACTTGAGGCTGAGGCAGGAGAATCACTTGAAC
CCARGGGGCGGAGGTTGCAGTGAGTCAAGATCACAATCATGCTACTGCACTCTAGCCTGGGTAACAAAGTGAGACTCCATCTCAAAAAACAAACAAACCA
AAGAAGCTCTGTAGGCCTAATCTTAACTTTTTTTTTTTTTTTTTTGGTTCCTTTTCTATATTCCCCTTACACTTTTTTCTGTTGTTGTTCTTATATACCA
CAAATTCTTAGCTCTCTGAAATTCAACAATGTATGACATTAAAAACAGCTATAAGATTTTGTCATGAGTGGAATATTCAACTTTGTAGAGAACTCGATAA
TGTAACCTCTCCAGGGAAGGAATTGGGAGCATATGATTCTTTTTTCTCATTCAACAGATAATGTGCTAGGGGCCTTGGAGAGTTGAAACACWATTTAAAA
AAAAAATAGTTTTTCAATCCCTGTCCTTTAAGAGATTTGGGGTAGAGAGAGGAAAATAATGTTTACAGAATACTTACTGTGTTCCAGGCTATACATCCCT
ATATCTAGATTCATGTCTATATTTATATCTAGTCACGACAATAGTATAAGGCAAGTTTTGTTTTCCCTGTTTTACAAATGAGGAAACTGAAGATCAGAGA
AGTCAGGTAACTTCTGAGATTCACTAATTTAAACTAAATTCTCCTAAAGATAGGATGATAATATTAAGGTTCAGAGAAATTGAGTAACAATTGGGATTAT
CTTATTTAACCTAAATCCTTCCAATGATAGGATAATTATGTACACTGTTAAAAAAAAATATGTCTGAACAGGCCAGGTGCAGTGGCTTACCCATGCAATC
CCAGCACTTTGGGAGGCCGAGGCAGGTGGATCTCTTCAGTTCAGGAGTTCAAGACAAGCGTGGGCAACATGGCAAAACCACATCTCTACAAAATTACAAA
AACCATCTGGGCGTAGTGGTGTGCACCTGCAGTCCCAGCTACTTGGGGTGCTGAAGTAGGAGGATCTCTTGAGCCCGGGAAGCTAAGGCTGCAGTGAGCT
GTGATCACACTGTGATAGCGAGACCCTATCTCAAAATAATAATAAGGGCTGAGTGCAGTGGCTCAYGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTG
AGCGGATCATGAGGTCAGGAGTTCGAGACCAGTCTGGCCAATATAGTGAAACCCCATCTCAACTAAAAATACAAAAATTAGTCRGGCGTGATGGTGGGCR
CCTATAATCCCAGCTACTTGGGAGGCTGAGGCAGAAGAATTGCTTGAACCCAGGAAACAGAGGTTGCAGTTGAGCCAAGATCACACCACTGCACTCCAGC
CTGGGTGACAGAGCGAGATTCCTCAAAAAAAAAAAAAGAATATGTAAATATATATATATATATTTATATATATAAATATGTATGTAAATATATATTTAAA
TATATATATTAAATAAAAAAGATAAGTATGAACAAAGAATCACACAGGGCTTCTGAATATGCTGGTAAATATTTTAAAACCTGCCTTTCTCTTGTCTTCT
GAAGTGCCTTTCTATCCATTTGATCTTGGACTATGCATTGTACTTCCCAGAAATTTCATTTGTTCATCAGAAAATCCTCTGTGCCAATGTCAGAAGTTTT
GGGTGAGGGAGTAAATAGTATAATTTAGGTGAAATTTAACCTCTGCAGTACCATAAAAATATAAGATACTGTCATTACAAATGGAGTTCTGAATAAGAAT
GCCTGTGATGGTATTTGAGATGCATGTAATATAGCTCTAATTTTTAAAAATGTCTGTGTCTAATGAATTTAAGCTCAATTTATAAATAGAGTGAAAAGAA
ATCTATTATAAAGTGATCTGTGGTTCAGTCAATTTCTAAAAAAAAATTTTAAAATAGAGTATAGTGTAGAGAAATGTTAAGAAACACTTATGGGGTGCTC
ACTACATATAGTATTAGGAATAGATATTGTGAAGGATATTTAAGAACTAGAAGGCATGATTTCTGCCCCTGGGGTGTTCAGCGCATACCAATATATCTTC
CACTTCTCTTACCTGTTCTACTCATCCAAGATACTCTGCTGGAGAGAAGTCCAGATTTTGATGTAATAAATTCATCCTTTAAACATTATAATGTATTTTT
ATGTTTTAATTCAGCCCAAGTGTTTTTGATCATATAAGACCAGATTTTAAAATCGAAAATGAAAACTTGCAAACCAATTTTTCAGTATATCAAAATTCCT
ATTTTTTAAAAGGCCAAATCCTCTAGGAGTTAACTAGTGACTAGCATCTTTGGCATATTTTATTTTGAGCAAAGTGAAAATGTTGATTTCTAAATATTGG
CCTTCACATTTCAAACACTTAAAAAAACTGTAGTTTTTAAGGTATGGAAGTCAGTGCCTTTATTTAGAAGGCAATCAATAATTTTGTGTCAAGTGACATG
CTTTTAAGATTTTGCTTTGTTTCTCTCTAGCGGATGATACTGTGGTTGCAATTCCCTATGGAAGTAGACATATTCGCCTTGTCTTAAAAGGTCCTGATCA
CTTATGTAAGTAACTCCATTGTTTTCCTTTGGGAATTGGKAATTGTAGTCATTATTATTTATTTTGTCTTCCCAGAAAAGATTAAAACACAAGAATACAA
ATCTTTCTACTCTATCATAATATGATATTTTGAGTACCTCTGTTTATCTTTTAGCTGCCTGATGAGATGGCAGAAACCCCTGTAGTAATTATCTTTAACC
ACAGTCATCCTGAAAAATACAAAATAGATGCTCCCAATGGGTTGTTCATGGGTTAAGCACATGTTTATGCTCTTGCGAGTGTTATATCTCATTCTCTTTC
TTCTTCCTTTCCAATCTCAATCTTTTTTTGCCTTGCCTCTCCTTTTTTCTTCTTTCTTCTAACCCACTTCTCTTTTCTTCCTTTATTCTCTTTTTCTACC
TACTTTCATGTTTCATTACTTCCATCAATCCAGAGGAACATAGAAACACCAAACAACCTTAACACTGTAGAATTTAAAGAAAACCATCATGGTGTAATTA
AGCATCCCATGTTTTAAAGAAAATTCAGGGACCTCATATCTTAAAGATAGCTACTGGGATTCAGGATTGAATGGTAATCATAACCCCAAAGATCAAATGG
CAGCATGGCTCCTCCAGGGTTTGTGCAAAAATTGATCTTCAATCATGCCAAGGCAGCAGTACAGAGCCACCTATTTCTTATTATTTAGTGTTGTTTAGAT
ACAGACCTGTAAATTACAAGAAGAAAATTATAGGCTATAAACAAAGAAGAGGATGGGAGGGGATATGGTAGCATTTTCTGTAAAATTCAGTTTCACTGAA
AGGCTTCACTTCAGTTGGTTCCTTGAGCATTTCTGATTTCCTCCACTGTGATTGTTCCTGGGTTTCCACAAAGCCATCTATCGTCTGTCCTTTCTCCCCT
CCCACACAAATGCCTGTGAAACCAATTTAGATAGCAAGTAGTATTTTTTAGTAGTTGGATTATGAATGAAATCACGCTAAAAAGGCAAACAAGAGGAAGA
CAAATTGAAGCCCATAAAAGTCAAGATAGCCTACAGTAGTCTTTCTAGATATAAAAATAAATACATGTCATGGAAGAGGTGGGATTTGAAAGGCCTTGTG
AAGTAAAAGAATAAGTAAGGTACAGTTCAGGCAAAACCAGAAAATGATGATTAAGTCACCTTCTATGGATTCAAGTTTGTTTCTAATCCTGAACAACCCT
GTAAAATACAGTGTTCACATGTCAAAAGATAATGTATGTGTGTGTATTATTACCACTCAAATGATTCATTTTTCCCCATTTGAGAACTGGAGAGGGCTAA
CTGTCCACTAACTCTSCACTCAACTAACTCTCCACTCAAAAATAGTACTTTTGTGAGCAGTAACAGATACTGAAATAAAATATTCAGGCCAAGAACATCA
CCAAGTGGGGGACTGACTCTTCATTGCGGAAGRAAGAACCCATAGGAGTAGATTTAAGAGGGAAATTTATTTTTATAAATGTATTAGTCTCATAGATTTC
ATAATTATGTGATCACAAAGAAGCTGAAGAATTGGCCTTGTKTGATTTAATTATCCTAAAGATTTGATGAAAAGCAAACTGGAACCTGCTTTTTTCTCCC
AACAAACATACTATTGGTAGCAWATGTATAGCTAAATCATTTTTCCTTGTGTGTTCTTTTTTTGTATTTGAAATATAATTCAGCAAAATGAATGTGGGAG
TGAAAGATACCCTGTTTCTCTTTTGCYCTTCACTCCCAGAAGCTGGTACAGTGTGAAASCAACCTTAAATATTTTGGACCAAACCAGAATAAGATGAGGC
AATCTAGTCTGCCCCCTTGGCTCATCTTTAATTAGAGGTACCTTGAGAAGGACAGMTGTAAGCCTCTTGATAAAATGGAATCAGATGCTCAGATCAGGCC
TACAACTGCAAGATTTTCCCAAAACTAAGTTAATTGATGTCCTAGAAATATTTCTACAAGTGCCTGTGAGGCAGTTTGAGGAATGAAGGCTGGAGGAAGG
AGATTTAGTGCAGTTGCTTTCCCCTGATGACAACAACGTGATTTCCTCCCTGCAATATTCCTTTAATGTGCCCTGTRTTTTTCGGTGGGATCCCCTCTGT
TCTGGGGCAAGGGAGTGAAGCCTGGCCTACTCYAGAAGAAAGTCTCCACAGACTTCATTTGAGAATCACTGGGCATTTAATTGAACACCAAGGTTTTCCA
STTGTTGATATTCTTTGCAATAGAGAACTACAAGTAGACCCCCTCTACAATAATGTAATACAAGTACTTTAGGTACTTGAGTGCCTCCAGAGACCTTAAA
ATTGTTTTAACCCAGAGCCCCATCCAAGCACTCCATTTTTCTGCTGAGGAATCTCTGCCAAAACCAAACGTTCTTGTCAAGTTTTGGAACCCATTAGCCT
TAGTCCATCCATCTTTCTTCGTGCAACRTAACAGACAGTTGTTCTAAATCACCCCTCAGTCACATGAGAACTTAGTCTTCTCTGAATCACACAACATAAT
TACCATCATCCCCAGCATGCTCTGATTTTCTACAACAAAACATGCTTCATAGGCTTTGTCATTGGCCAAATCTGGATTTGAATGCTCCAGAAATCAAGGT
TTTTTTTCTATCTCAAGCAGTTATGAAATACCTTATATATGCATAAAGCTGAACTAAGTATCAAAATGGATTTTAAAAAGAAAATACTGAAAATGATAGT
TCTTGTTCTTACATCACTATCGTTTCTTCATTTTGAGCAATAGCATCAGTGCAGTAAGTAACCAGAAAGTATAAATAAACACAGGCTAATGCACGAATAT
AAAGTCATACGGGTACTGAGGCAACTCAGAGATACACCCTGGATCTTGTAGAGCAAAAAGAAAACTGGAGGGTATCCTAGGCTGAGGGCCATCAAGATTG
AAGTCAAAAAGAGACATATGAGAATTGGTTTAGTCAAAGGAATAGGGTTGCAGTAAAGCGGGATGCCCAAATAACATCATCTGGAGAGTCAAAGATTTTT
TTGACAGGAACCCTTGAATGCCTGGCTAATGACTTTTGAAATAATTTCAACTCCAGCATAAATTCCTATGTGACTCAGCAGTGCCTGTATAGTTTGTTGA
TATCACAATTTCAATTTTGTCAGCTATATAAAGAATGATGTGTCTCCCTTACCTAGCTCTAAACATTGTTGCATGAAATGTGCTTGCCTGTGGTTGCCCT
AKGAACATCTTTCTCTCATCTTCACGTGTTTGATCATATAGATCTGGAAACCAAAACCCTCCAGGGGACTAAAGGTGAAAACAGTCTCARCTCCACAGGA
ACTTTCCTTGTGGACAATTCTAGTGTGGACTTCCAGAAATTTCCAGACAAAGAGATACTGAGAATGGCTGGACCACTCACAGCAGATTTCATTGTCAAGG
TGAGCCCTATTTAGATACCTCCTTTTCAAGCCACATCCCAAATGRTGTTACTTATAATTTCCTGAGCAGAGAGYGATTTTTGGTTCTGACATATGTTTGG
AAAGCCCGTTTGTTACCCAGGAAATGTTTAATCTGAGGGTGTTGAGCTAGCTGCATCCTGGACCTTATGAGGACATATGATATTTCAAGGTCATAGAAAA
TCTTTATTATATAATTAATACAATCTTTATTATGTAATTAATAAAATAACCCCACCTAAGAGGCCAATGTATCATAAGTTGGTGGCTATAGATTGTTTTT
AAAATAGTTTGGATACAGTCATTGACTTATATRGGCTATCCTCAGTAAAAGAGAAAAACAAACTAATTATCCATCAWCTTGGTCAACTGATCATTCTTCC
AATGGCAAGCTCTGTTTTCTTTTGTGCTGGCAAGAAAACTAAGTTGTTTCCTTCTATCAGAGCTTCCCTAGTCTTCAAGGTAATATAAAACACATTGCTG
GAAGCAACATGCACATTCTGCTGGAAAAGTGCACACACTAGAAGAACTTTTGGGAATCACAATAAAATAAAACATATTTTTTCCTTCAGTAGGTCAGGAG
CACCTGAAGGATTTCAGCTGTAAAGCTGTAAAACTTGTAATGTGTCCAGGACTCCATAAATTTTTCATCATGGGACCTGGAGCCAGAGGACATTTGATTT
AAGCTAAAGCTTGATGACCCCATGGCAGCTGGAAGTAAGAATGCATATAGGAAAATGCAATAGGCAGTAAGGTTAGAGGGAGAAAGGTTCCAGAATACTG
TCCTCCGTCTCCATCTGCATGGTAGTTCTTTTTAATCCAGTCCAGACGCCAGCCACATGAACGTGAGCAAGAAGCTACAAGCCATCCGAGGTAGCTCACA
ATAGAAATGATGCTGTAGGTAGTTAAATGATTTCTGTTAAGCAAGAAAATCCARTAAAGAAGTGAAAGATGTCTTTATTCTTTGAAGCCCTTGGAGTACC
ATTAAATAGACCAAGTATACYATAGTAATTTCCCTAGTGGCCTTGTGAGAGTTAATACACATACTGAAATTATATAACTGGATTCAAGCAATATTGCTTA
CATTGGAACAGCTCACAGCATTGTCAAATGTGTTACATCTATCCAGTTGCCTTCTGCACATCACTGCTTGAATAACCCAYAGGCACAACAAGCCCGACAT
GCGTAAGTTTAACTTGAGCCCCAGAAACCTGCTTTATCATCTTTATTTTTTTAATCTTATAAATGAAGACACTGTCTGCCCAGGCAAATCAGAAACCTTT
GATTCACCCTGATTTTCCCTTCTATATGCCACCGGTCAGACTTCATCCAAACTATCTCTCAACATTGGTTTTTCTCCTCCATCCTTGCTGCCACTGCGTT
AGCRCASGCCTTTACTTTTTCTCATCTGAACTAGTACCATGGACCCTGAGCTAGTTTACCAGCCTCTGATTTCATTGCCTATGTTACCTTCAGAGTGCGT
TTCCTAAAATCCCTTTCCTAATCCTTCATAACCCCTCACCTTCACTCATTGCCTCTAGGTTAGAAGACAAATCCATAGCCACAGTATCTGCTACTCTGGT
TTAGCTGGATTGTGCCCACCTTTCCAATCTCACCTTTGACTTTTCCCCTTCTGTTTCAGACCTGAATGCCGGGCAGGTCCCCCAGCACCTTACACTCTCA
TAACTCATTACCTTTGCAGGATGCTGTGCCCTCTACCTGGAATGCTCTTATCTTGTCTTCTTCCATTCTCTTCACTACCTCTTATTTCTTCTTCAAGATC
TCCTCCTTCCAGGAGTATTCTTTGACTCTACCCCAAATTTCTGTCTGTATCTCCCCACCTCTGTGTTCCTTGAGAGAAGAAACTGAATTGTATTTGTCTT
CATATCTCCATAAGAAGAACCTAATAAGYACTAACAACTGCTGGATAAATAAAGAATTTTTGCCACACAACAATTGTTTAAATAGAGCAGATGCTGACAT
CTCTATTATACCCACAAGGAAACTTAGCTTCAGGAAAGTTGAGTGACTTGCCTGAGTTCACACTGATGGGAAGCCAGCACTGAAAATCACATCTCTTTAC
TTCTGGTCCAGAACGCTTTTAATATTTTGTGTTGCTTCTAAGAGTAKATATCTTTTTCTTCAGTGTTTCTTTAGAAAACACTGGGAATCAAATAAATGTA
AAGTTATTCTAAGATAGATTATGTAATTCTTAAATTAGTTTGCTTAAACTTTAAAAKGAGCCAGATTATTGAAGTACGTACAGAAAAAAAGAARAAAATT
ATCTTTTTTCTAGTACTTCGTAATGAAACAACTTTCTCTTCCCTAATTTTCCTCAGAGAAATAGCTGAAAACAAGATATTACTATTATTTATCAGTTTTC
ATGACTTAGCTTTTATAATTATATATATCATATGAATTAAGCTTTCAGTAGCATTCAAAGTATAGTCTCTTTTGCATTATATATATAATACATATGTATA
GTTGATTAATCAAATTCTCTTTATAGATTTAAATGGCCATGTACCTAAGTCTCAAACCAACCTCACCTTGACAAACGTCATTAGAAACACCAAAATCCAT
CTTCACAATCAGCAAAATAGCATCATCCTTGAGATGGGGTCATTACCCTGGTGATCTGGTGGTATGAAGTCAGGTGATTCAGAAAGTGGAATAAACCAAA
CATACAGCAGAAAGCCATCAGTGTGGTGCTTACACAGAGGCCATGACTATCTGGGTCTTCACAGAGAGCTATCCAACAGCTATYTGAAGATTTTTTTTTC
YTCAAGGCATGGCAGGATTTTATTTTTGAGATGTGGACATTCTCTTAAAACAGTGTAATTGAAACAAGTTCTCTTTTAATTTTTATTAATTAATTTTTAA
TTRATGAGTAAAAACTAGATTCATCATATACAACATGTTTTCAAATATGTATACTTTGGGGAACAGCTGAACTGAGCTAATTAACATATGTGTTACTTCA
CATATTTATCAATTTTTTGTGTTGAGAACACTTAAAATCTATCTCTTGGCAACTTTCACAAATACAATACATTGTTATTAACTGCAGCCACCGTGTTGTA
GGTAGATCTCCTGAACTTATTTCTCCTAACGAAATTTTGTATCTTTTGACCAACATTTCCCCCACAGTTCACTTCCACCCCAACCCCCTGGTAGCCAATA
TTCTACTCTGTGTTTCTATTAGGTCAATTGTTTTAGATTTGACACAGAAGTATTATTAATATCACGCAGTATTTGTCTTTCTGGGCCTAGCTTATTTCAT
TTAACATAATGTTCTCCAGGTTCATCCACATTGTCACAATGACRGGATTTTCTTCTTTTTTCAAAGCTGAATAGTATTCCATTGTGCATACATATTACAT
TTTGTTTATCTGTCTGTTGATGAACACCTAGGTTGATTTCACATCTTGGCTGTTGTGACTAGTGCTGCAGTGAACACGAGAGTGTAGATATCTCTTCAAC
ATACTGATTTCATTTCCTTCGAGTATATACCCAGGAGTGAGATTGCTGGATCATATGGTAGTTCTGTTTTTCAAATTTTTTTAGAAATSTTTATACTGTT
TTCTACAATGGCTGAATCAATTTACATTCCCACCCATAGTATCMAAGGGTTCCCTTTTCTCTACATCCGTGCCAATACTTACCTTTTGTCTTTTTGATAA
CAGCAATTCTATAAGGTGTAAGGTGATATTATAGTACTGAATGCCTTTCCCTGATGATTAATGATGTTGAGCATTTTTAAATATGCCTGTTGGCCATTTG
TATGTCTTCTCTTGAGAAAARTCTATTCAGATCCTTTGTTTATTTTTCAGTCAGATTGTTTTCTTGCTATTGAGTTGTTTGAGTTTCTTGTATATTTTGG
GTATTAGCCCCTTATCAGAAGTGTGATTTGCAATTTTTTTTCCATTCTGTAGGTTGTCTCTTCACTCTGTTGATTGTTTCCTTCACTGTGCAGAAGCTTT
TTAGTTTAATGTAATCCCATTTATCTATTTTTGCTTTTGTTGCCTGTACTTTTGGGTCATATTCAAAAAATTGCCCAGACCAATTGCAGATTGTCACCTA
TGTTTTCTTCTAGTAATTTTATAGTTTCAGGTCTTACACTTAAGTCTTTAATCCATTTTAAGTTGATTTTTGTGTATAGTGTGAGATACGGGTCTGATTT
TATTCTTCCACATATGGAAGTTTTTCCAAACACTACTGTCCTTTTCGCAGCAACTTTGTCAGAAAATCAATTGGCCTTAAATTTCTGAATTAACATCTGG
GCTGTCTTCTCTTTCATTGGTCTATGTGTCTGTTTTTAGACTGGTACCATGTTGTTTTGATTACTATAGCTTTTCAGTAGATTTTGAAATCAGGTCGTAT
GATGCCTTTATCTTTTTTCTTTTTTGTTCTAGATTGCTTTGGCTATTTGGGGTATTTTGTGGTTCCATTTGAATTTTAGGGTTTTTTTTTCCATTTCTGT
GAAAAATGTCATTGGAATTTTGATGGAGATTCCATTAAATCTGTAGATAGTGTTGGGTAGTACGGACATTTAACAATATAAATTCTTCCAATTCATAACA
CATGATATCTTTCCATTAATTTGTGTTTTCTTCAATTTTTTCATCAATCTTTTATAGTTTTCAGTGTCTTTCACTTTCTTGATTAAATTTACTCCTAAAT
ATTGGGGGTTTTTGGTAGGTATTATACCTGGGATTGTTTCATTAATTTCTTTTTTGAATGGTTTGATATTAGTGTATAGAAATGCTATTGATGTTTATAT
GTTGATTTTTTTATCCTGCAACTTTACTGAATTTATTGATTAGTTCTAAAAGTTTTTTGGTGGATGCATTATATATTAATTTAAGCAGTGCATTGCTTTT
TGAAAAAGATATTGCAGGAATCAGAATGGCCACTTGTCAGTATCTCCATGGAATTTTATTTTTTTTATTTTTATTTTTTTAATTATTATTATACTTTAAG
TTTTAGGGTACATATGCACAATGTGCAGGTTAGTTACATATGTATACATGTGGCATGCTGGTGTGCTGCACCCATTAACTTGTCATTTGGTATTAGGTAT
ATCTCCTAATGCTATCCCTCCCCCCTACCCCCACCCCACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCC
CATCTATGAGTGAGAACATGCAGTGTTTGGTTTTTTGTCCTTGCGATAGTTTACTGAGAATGATGATTTCCAATTTCATCCATGTCCCTAYAAAGGACAT
GAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTAGTTCCAA
GTCTTTGTTATTGTGAATAGTGCCACAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGAGA
TGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGCACTAGTTTACAGTCCCACCAACAGTGTAA
AAGTGTTTCTATTTCTCCACATCTTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGYCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTT
TTGATTTGCATTTCTCTGAGGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCAAAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCT
TCACCCACTTTTTGATGGGGTTGTTTGTTTTATTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGATTGT
TAAAATTTTCTCCCGTTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAGTT
TTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCAGGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCCTCTAGGGTTTTTA
TGGTTTTAGGTCTAACGTTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTGAGGAAGGGATCCAGTTTCAGCTTTCTACGTGTGGCTAG
CCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCAGCATT
ATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGT
CAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGTGATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTC
CAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCTGTAAATTACCTTGGGCAGTATGGCCATTTTCATGATACTGATTCTTCCT
ATCCATGAGCATAGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTG
TAAGTTGGATTCCTAGGTATTTTATTCTTTTTGAAGCAATTGTGAATCGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGTATAAGAA
TGCTTGTGATTTTTGTACATTGATTTTGTATCTTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTYCTAGA
TATACAATCATGTCATCTTCAAACAGGGATAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTMCTGCCTAATTGCCCTGGCCAGAA
CTTCCAGCACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTCYCAGTTTTTGCCCATTCAGTATGAT
ATTGGCTGTGGGTTTGTCAYAGATAGCTCTTATTATTTTGAGATACGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATT
TTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACATTTATTGATTTGCATATATTGA
ACCAGMCTTGCATCCCAAGGATGAAGCCCACTTGATCATGGTGGATAACTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTWTTTTATTGAGGATTTTT
GCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTCTCTGCCYGGCTTTGGTATCAGGATGATGCAGGCCTCATCAAATGAGT
TAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGTTCCTCCTTGTACCTCTGGTAAAATTYGGCTGTGAATCCATC
TGGTCCTGGRCTCTTTTTGGTTGGTAAGCTATTGATTATTGCCACAATTTCAGATCCTGTTATTGGTCTACTCAGAGATTCAACTTCTTCCTGGTTTAGT
CTTGGAGAGTGTATGTGTCGAGGAATKTATCCATTTCTTCTAGATTTTCTAGTTTATTTGTGTAGAGGTGCTTGTAGTATCCTCTGATGGTAGTTTGTAT
TTCTGTGGGATCGGTGGTGATATCCCCTTTATCATTTTTTATTGCATCTATTTGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTCCTAGTGGTCTATCA
ATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAAGGGTTTTTTTTTYCYCCATTTCCTTCAGTTCTGCTCTGATTTTAGTTA
TTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTTCTTTTAATTGTGATATTAGGGTGTCAATTTTGGATCTTTCCTACTTTCT
CTTGTGGGCATTTAGTGCTATGAATTTCCCTCTACACACTGCTTTGAATGTGTCCCAGAGAGTCTGGTATGTTGTGTCTTTGTTCTCGTTGGTTTCAAAG
AACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGAGTRGTTTTGAGTGAGATTCT
TAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGACAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGTGGAGAGCTTTACTTCCAAGTAT
GTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAAAATGTACATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCCRCTTGG
TGCAGAGCTGAGTTCAATTCCTGGGTATCCTTTTTGACTTTCTGTCTKGTTGATCCGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTATTG
TGTGGGAGTCTAAGTCTCTTTGTAGGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTC
TTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTGTCAGAGACTAGGATTGCCAAC
CCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCTTTTATTTTGAGCCTATGCGTGTCTCTGCACGTGAGATGGGTTTCCTGAATAC
AGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGCGCATTTAGTCCATTTACATTTAAAGTTAATATTGTTATGTA
TGACTTTGATCCTGTCATTATGATGTTAGCTGGTAATTTTCCTCATTAGTTGATGCAGTTTCTTCCTAGTCTTGATGGTCTTTACATTTTGGCATGATTT
TGCAGCGGCTGGTACTGGTTGTTCCTTTCCATGTTTAGCACTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCT
TGTCTRTAAAGKATTTTATTTCTCCTTCACTGATGAAGCTTRGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATAT
TGGTCCCCACTGTCTTCTGGCTTGTAGAGTTTCTGCCGAGAGATCCGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCTCTGGCT
GCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCGAGGAGTACCTTTGTGGTGTTCTCTGTA
TTTCCTGAATCTGAATGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCCATC
ACTTTCAGGTACACCAATCAGACRCAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTTTGTTCGTTTCTTTTTATTCTTTTTTCTCTAAAC
TTCCTTTCTCGCTTCATTTCATTCATTTCATCTTCCCTGACTGATAACCTTTCTTCCAGTTGATTGCATCAGCTCCTGAGGCTTCTGCATTCTCCACGTA
GTTCTCGCGCCTTGGCTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTGTATTGGTTATTCTAGTTATACATTYGTCTAAATTTTTTTCAAAGTTTTC
AACTTCTTTGCCTTTGGTTTGAATTTCCTCCTGTAGCTCGGAGTGGTTTGATCGTCTGAAGCCTTCTTCTCTCAACTCGTCAAAGTCATTCTCTGTCCAG
CTTTGTTCCGTTGCTGGTGAGGAGCTGCATTCCTTTGGATGAGGAGAGGTGCTCTGATTTTTAGAGTTTCCAGTTTTTCTGCTCTGTTTTCTCCCCATCT
TTGTGGTTTTATCTACTTTTGGTCTTTGATGATGGTGATGTACAGATGGGTTTTTGGTGTGGATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGACA
GGACCCTCAGCTGCAGGTCTGTTGGAGTTTGCTAGATTTCCACTCCAGACCCTGTTTGCCTGGGTATCAGCAGCGGTGTCTACAGAACTGCAGATTTTCA
TGAACCTCAAATGCTGCTGTCTGATCGTTCCTCTGGAAGTTTTGTCTCAGAGGAGTACCCCGCCGTGTGAGGTGTCAGTCTGCCCCTACTGGGGGGTGCC
TCCCAGTTAGGCTTCTTGGGGGTCAGGGGTCAGGGACCTACTTGAGGAGGCAGTCTGCCCGTTCTCAGATCTCCAGCTGCGTGCTGGGAGAACCACTGCT
CTCTTCAAAGCTGTCAGACAGGGACATTTAAGTCTGCAGASGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCATCAGAGGTGGAGCCTACAGAGGC
AGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTCGAGCTTCCAGGCTGCTTTGTTTACCTAAGCAAGCCTGGGCAATGGCGGGTGCCCATCCCC
AAGCCTCGCTGCCGCCTTGCAGTTTGATYTCTGACTGCTTTGCTAGCAATCAGTGAGACTCYGTGGGCGTGGGACCCTCTGAGCCATGTGCGGGATATAA
TCTCCTGGTGTGCCRTTTCCTAAGCCCATCGGAAAAGTGCAGTGTTTGGGTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACCCCTTTCCTTGGCC
AGGAAAGGGAACTCCCTGACCCCTTGCACTTCCTGAGTGAGGCAATGCCTCGCCCTGCTTCGGCTCGTGCACAGCRCGCTGCACCCACTGACCTGCACCC
ACTGTCTGGCACTCCCTAGTGAGATGAACCCAGTACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGCGTAGCTCACGGTGGGAGTTGTAGACAGGA
GCTGTTCCTATTCGGCCATCTTGGCTCCTCCCTCCTCCRTGGAATTTTATTGCCAAAATATCATTTTTGTTTCTTTAAAAGGAGAAGACTTTTTAGTGCA
AAAGGAAGATTTTGTGACAGTGAGCAATTGTTATATATTGCCCTTAGTTCTAAAATAATGTTTTGGAATATCCTTCTCTTGCCACCTTTAAAACTAGACT
GAATTCTCATCTTGCTTCCTAGAGCAGCGTTTCTTCTAAAAATTTTRAACTTGTTCCRTTGGCTCTACATACATTTTTGTCAATGCCAGTTTAGTGTGGT
AGAATAGATAATCTGCTGCTTACTGGGTGTGTGACCTTAAGAATATTGCTTTGCCTCATCAAACCTGTTTACTCTTTTATGGAATGGTAATAAAATACTC
CCTACTCTTGAAGGAGCCTTTTTGAGGGATTAAATGAGATAATGTATATAAAAGTGGATAGATCCAAATTACTTACTTTCCATCTTTTTGAAACACTTAA
ACTTTCAGTCAAACCAATCACTATACTCTATCTAAACAACAGCAGGAAGCTGCTTTGCTGAAGATGGTGAGAGGCTGCCGCATTTACCAGTGGTATACCC
AGGAACAATGTGGCAGATGTGGCCATTCAGATAAATGGCTATGAGAGYAGACTGGGGGTGACATCTGTCAGTACATTAATTATTAGAGATGATCTGGCCA
TCATCTGGATAACTGGCTGACTTAGTATCCCCTCCCTCCCTTACCATGCCATGTGCATCTTTTCTGAAGCTGCRGACCCAAGGAAAGAGAATGACTTTCC
CAGGTAGAAGAGTCCTCCTTAGTCATAGGTCCATTCTTCATTAGAACCTCCAACTCAGCTCTACCTGTTAAAGCAGCTAAGATATTTTGGTACATATTCT
GGTTTTGTTCACTTGAAAGATCTATGCAGAAAGCCRGATTAGACAGAGAGGAAGGTGATCGATGAATATCTAAGCTACCAAAGTAGCAGAAACWCACAGC
AGAAGAGAAAATAATAGCAAACTCAGAGCTAAGAGCACTAACTCATAATTCATGCACTGATAACAAGAGAACACTTATTTCCTGCAGAGGACAATTTTTA
AAAGGTATTGCATATCTATAGTTGGAAAATTTGGTTAGGAAGAGTGGCATCATTCCAATTGTTACCAAAATTGCATCTTGGAGAATTCTAAGGGAACAGA
AACTTTGCGATTTCTGCTTGCATCAGTTAGAGTATTAGGCAAAGATGATGCCTTCATATTTTGTTCTAGATAGCCTTGAACATAACCTTGCACACAATTT
AGGATACAAAACTTGCTTTTATTATAAGAGGTAACAATACAAGGAGTCTGGAGAGAAATCCCATGTCCAAAATAATGGGAATTTATTAAGTAAGTTTATA
AAATTATATATATATATATATATATTTCCTTCRTTTAGCAGATGATTGATACATGAGGCAGATTGACCATCCTATATAGTATCTTCCCTCTCCTAGCTTA
TAATGTCATTTGGAAGATAAAAGACTAGATAGACAGTTTTGAAATAGTGATACATATCATTGAATACTAAAGAAAGAAAGACACATAGTGAAAGCTATAG
ATATGCACTACAAGCTAATATGCTTAAGAAAGCCTTTGTGGTGGGTGGATCACTTGAAGTCAGGAGTTCAAGACCAGCCTGGCCAAGATGGTGAAACCCC
ATCTCTACTAAAACTACAAAAATTGGCTGGGCGTGGTGGCAGGCATCTGTGATCCCAGCTACTCGGGAGGCTGAGGCAGGAAAATYGCTTGAATCCAGGA
GGCGGAGGTTRCARAGATTGCACCATTGTACTCCAGCTTGGGTGACAAGAACAAAACTCCATCTCAAAAAAAAAAAAAAAAAAGGAAAAAAAAAGAAAGC
CTTTGTGATACYGGGCAGCCTGTAAATCTTGGGTAGGATTGAAATACARTTAGTCCTCTACTTACAATAACCAACAACAAATTTTTTACTTTATTTTGGT
GAAACAGCAATATGCATTCAGTAGAAAATTTATTTCAAGTACCCATACAACCATTCTTTTTTTCACTTTTAGCACAGTACTTAATAAATTATATGAAATA
TTCARCACTTTATTATAAAACATGCTTTGTGTTAGATGATTTTGCCCAAYTGTAGCCCAGCACATTTAAGGTAGGTGTGGGGAAGCTGGGATGTTTGGTA
AGTGAGGTGTGTTAAATGCATTTTCAACTTACAATATTTTCARCTTAAGATGGGTTTATCAGGATATAACCCCATTGTAAGTTGAGGAGCATCTGTAACC
AATTCCTTTATCCGCTGGAGGCTGAGGTTTGGCCRATGTGTAATCCCAGATTGGTTTCACCCTGACACCCAGCCTGTTTCTAGACAGTCTCCCCATTTCA
GTCAACCCATGCTTATAAAAGGGAAAACCATTGTCCTAAGCCATGTGTTCTTGAGAGGAAAAGTTTAAATCAACTGTAGGAAAGAGAAGAAGTGAATAGT
AAGTACTGGTTCATTTTCCTACCCAACTTTTAGAGGTAGTGACTCTGCCAATATGCCCCTTTTGCTGATAGATGCCAAGCGTTTAGAACTGAGCTAATCA
GAATATACTGCATTTCTTGTTAGATTTCACACATTATTTTGCCCATCACACAGCTAGGTTTAGGATGCAGAGACAGAGAACTGGTTCCTCATCTTTCTTT
CACTCTTGAGAGTTGCAGATCCCTGCCCAATCCTGCCTCGCTCCCCACCACCACAATATTAAGTTCAGCTCTGGTCATTGGTTTCCTGTCCTCCTCCTCC
ATCTGACCACTGGGACARTCCTTCARGAAGGCTACAGTCTGCTTTGCCACTCAGTATCTCCTTCCTGACAAATCTTTGCCAYCTTCTTCGTTCTTTAGAC
AACATTATACCTGTTGTTTCCAGAGAAGCATCTCTGATCTACTGCCCTACTCAAGGGTTGTGGGCAGCATTAATCATAACCCTGAGCTAGGTAGGTTGGG
CACAGYGGCTTATGCCTGGAATGCTGGCACTTTTGGGAGCTGAGGCAGGAGAACTGCTTGAGCTCAGGAGTTTGAGACTAGCCTGGGCAACTTAGTGAGA
CCCCATTTCTATGAAAAAGAAAAAAAAAAAAAAACTCTGAGCTAGGGGCCTATGGGCTGAACTGCACTATTTTCCAATATGGAGGTCTGGAGTTCTAGAA
AAACTAGAAAACTCTATAAGAAGTATAGAGGTAAAGTTGGGTACTAACATTTTTTAAAATCATTTTTAATCTRCTAATGCCTAATCTTAGCATTTCCAAC
TGTTAAAATTATCAGGTATTTCAAACAGTGAGACAACTGAATCTGTTTCATTCCCATAGTAAGTAGCATTTTGGCAAGCCCTCTTCACTATACTGTCCKA
CCTAAAAAGACAGCCTTCCAAGGAGGGTAGAAAGTGCTCTTGGGGTTGGGTGTGGTGGCTCACGCCTGTAATCCCARCACTTTGGGAGGCSGAGGCGGGT
GGATCACCTGAGATCAGGAGTTTGAGACCTGCCTTGCCAACATGGCAAAACCTCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGTGGACA
CCTATAATACCAGCTACTCAGGAGGTTGAGGCAGGAAAATTGCTTGAACCCAGGAGACAGAGGTTGCAGTGAGCTGAGATCAYGCCACTTCGCTCCACCC
TGGGTGACAGAGTGAGACTCCATCTCAAAACAAAGTGCTCTTGGATAAACATTGTTTTGTAATAATATTGCTTCCATTTATGAATTTTATCATTTGATGA
TAAAATCAAGTGATCAGTAACATCTTCAAGGAAACTGGCAGATGTATATAAAAAGATAATGACTCATCTAATAATTTATCACAAACAATAGTTAGAAATT
TCAAAAGTACCTGAAAGGTATATAATTCAATTGTGTGTTCATTCATGCATTCGTTTATTCAGCCATTGTTTGGATACCTACTATGTGCCAGACATTGTAG
ATGATGCTGAAAAATGATGAGCAGGATAAATGTACCTGCCTCCATGGAGTTTTCAGAATGTGAAGGAGAAAGATAAGATCACAATTATTTCAAAATTAGG
TATTTATAGATATATAACTGCTATAAGGAAGATTTTATTATTGTTGCATATCTTTTCAAGCCCAAACAAAAGCATTTTAAAATAGTCTTAACAGCAGTTC
CTGAGGATACAGTATCTCTGTCAACTACCAGAACAGCCAAAAATTGAGTCTAGTAGACTGACACATTTAATCAACAGATTTACCAGTTTTCCATGTTATT
CTCTCCCTAGCAGGCATACTGATGTATGTTCACTGTTTCCAAGCTTTCCAAAGTCATGACATCCCTGTCGCTCTGAGAGCAGTGTGACCAAGTCACATAA
CACTGTGGATCCCAGCTCAGAGATACACAGTAGTGGTTCACCTGTGGCTTCCTTTTGCCTCCCTGTCCTCATGAGAGCAGCGACTGAACAGCTAAGCCAG
GCTGGGGGGACCCCTGACTGCCAGCCCCCTTGCTGGCCCATCTGAGGCACAGCTTCTACATCAGTGAGAGAAAGAAACTTAGGGAAAATCCCAAAGCTCA
CATATTGCCTTTTGCCAGTGAAAAAGGAAAAGATGCTTTAACAGTGCTTTCTCTGGAAAAGCCTTTGTGTGCTTAATGATGTCTTCATGTGCTTATACTA
TCTCCTTGATTCCTTGAATTYTACATGGAATTAAAGCTCAACCATAACCCCCCATACACATTTCTATGGCCCTCCAGCTCTGTCATGACAGTGCAGTCAA
TTGCTATGGAAAATTTTTGTCTTGTCTTTTCAGGTTAGTGTGAGAAATCATTATGTTGAATTAGAAACACTGAAACATTGTGATTATAGAAAGAAGAGCT
TGGTTCAAATACTCTTTTTTATTAACATAAGGAGGTCAAAATTACATATACCAGATGTGTTTAGCTCCCTAAACCAAATGTGTCAAACTGAAGCTTTCTA
GAACAGAGTTTCTCCAAGTATTATGATGTTATATCCTCCTCACATTGGCTGTAAGAAGCTAAGATTTTTTTCCCTTACTTCCCAGGACTCAGGTTAACAT
TCCAAAAAGAACATCTGCAAAAACAAACAAAAAAAGTAAAAAACAAAAACAAACAAACAAAAAAACCTCATCTCTTTGAATCTAAACAAATGCTCTGGTC
TTTTATTTTTTCATGAATCTTGTGTTTAAATGAAAGTTTTTTTCTTATAACTTTCCAGTGTGATAACCACACATCCCAAGAGAGCTAGAGGCTTTTGTGA
GCTTAAAAAAAAAAAAAAAAAAAGAACTTTCCAAGGAATGTGATTAATACTACATCCCTAAGCAAGCAATTAGGTACCCTTGTATCTGACACATAAAAAT
GAGAAATAGAAATCTATAGGCAGTGCTCTTTTTTTGTGAAAGACACTGYATTGCTTCAGCTGTTTTTCTTTTAAAGTAGGGAATGGTATCACTGTTTATT
CTAATTAGAAAATACGTAAATGCTCTACAGGTCAAAATCCCAGGGTATGAGAYATTCTGTAGGGTTTCTCTCTTCCTTCTTTCCACCCCTCTCAGACTTT
CTGAGAAACATTTCCATATTCCCATCTAAACTCCAAAAACTGATGTAGAGTTTAGCATCCATCRCTTTTTCTTGGCCCTGTTTCTTCAATATTCTTATTT
TCCCCCTGCATCCGAGATGTTTAATCCACTTGTTAAATTAAGTAGCACAGAAATAGGGCTATTTTTAAAAKAATCTGAAGGCCAAATCCATCCATTTATC
CTACATTATGGGCAATTAAGAAAATGGTAAGACTTGGCCAGGCACGGTGGCTCACGCCTGTTWTCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACG
AGGTCAGGAGATCGACCATCCTGGCTAACAYTCTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCAGGCGTCTGTAGTCCCA
GCTACTCGGGAGGCTGAGGCAGAAGAATGGTGTGAACCCGGGAGGCGGAGCTGGCAGTGAGCCGGGATGGTGCCACTACACTCCAGCCTGAGCAACAGAG
CAAGACTCCATCGCAAAAAAAAAAAAAAAAAGAAAATGTTAAGACTGAAAAACACTTAACAAATACTTAGGGCAAGTGGTTCAGTTGGACTCTGATACTT
CTCTAATTGTTGTAATGTAGAGTAAGAAGTAATCCTCTCAATTGTCCTTGGAACCTCCTTATAAAAAGTAGTCCAAACCTTGCCCAACAGTCTAAATGTT
GTATCATTCTGTCTTCATGAAATTGTTGACATAAGGTWCTTTTTCCTTCTCTTCAGTTTATGTTTTCTCAACCTTGTACTCTTAAGAACCATTAAGGACT
TGTCTCACATACCCCCTTTAAAAAAAAAAAGAAATTGCAATTTCCATTAAGTACCAGTTTTATTTAAAAGCAAATAAATTGTTTTTAAGTAAGTAATCRT
TTTTATRACATAAATTTGTGTTTTCAGTTTGATTCTTAAACCATCAACRTTTGAATTACCTAGTTCGCTGGGCATGGGCCCAGAAGTTTGCCTTTTAGCA
AGCATCTAGTTGGTAACTTCGCACACTAAATGGACAAGAAGCCCAATATGTGTCTCTGAATGGGAAGTGTTATTTAATTCTTCAACTCGTCTTTTTTCTT
AACCAAAACCAGTATCTTTTATTTTCTGYAGTATATAATTTTCTTAGAACAAATTGTCTATTTCTGAATCTACATTTTAAAATCCACATAATTTTATYTA
TTATACCAAAGAGGTTGGAAATAAAGGACGGAAAGGGAATACAGGCTTGGAATAAGATGATAGTGAAATCACAAATTGAGATATTGTTCTCCCTTGCTCT
GTGGCAACAGAACTCAKAAGATAATGATAGTGAAAGCTTATGCAAGGACCATTCACTGGTAAAATGGTAGGATAMATGATACTGCCATTGCCACTTCTCC
CGCAGTGCAGTCCCTCACACAGCCTAAAACCATCAGCAYTACCATRTACTCTTGTTCGAAGCTGCAAGGGACCAGAAAGCACCGCACTGTCACATTACTT
CTACTTTCCTGTTGACTCCTGCAGATTCGTAACTCGGGCTCCGCTGACAGTACAGTCCAGTTCATCTTCTATCAACCCATCATCCACCGATGGAGGGAGA
CGGATTTCTTTCCTTGCTCAGCAACCTGTGGAGGAGGTAATGGTGTTCACTTAGTCTAAAAACTGTTGGCTTCTGTRAGGAAATACTTGGGTATTATAAG
AGTAGAGTTACTTCAGCATGGAAGAAATTTTGTGCTGTCTTGGACCAGATCCTTTCTTCTGAACAGAGTGGAATCTCGAGGCCCTCCTGTAAGGCAGATA
CCTCCGCCAAGATGCCAAAGACATTTTCTGTCTGTAAAGTCCCATTAGAGGAAAYAGTCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCACTGTCGC
CCAGGCTGGAGTGCAGTGGCGCCATCTCGGCTCGCTGCAAGCTCCGCCTCCCGAGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTGC
AGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTACGGACGGGGTTTCCCCGTGTTAGCCAGGATAGTCTYGATCTCCTGACCTCGTGATC
CGCCCACCTCGGCCTSCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGACCGAGGAAACAGTCTTTACTTCTCTCCTTGATTTTGTAGAAGGC
CAGAGCTAGAAATATTCTAATTTGGCAGCAGTTTGGTCCTGAAGCAGGCAGGTCCATTCACTTACATATAAACTACTCATGTGGTTGAAGTAAAGTCATC
TATTTAGCAATCAATTAAAGAGTGTTTATCAGGCTTACTTAATTAGAGAAAATAGTTTGCTACCAGGAAAAAAAATCTCTGCATTTTAGACTTAGGCTCA
GTTATTTTTCAACTCCACCCCATCATCCATGCATTAAAAGAAATGCCATTCGTTTTATTCATTAAAATGCATCTCTCCTGAAAAGTCACAAAATAAACTC
CTGTCTCTGCTCCATCATATTTGTAACACGAACAGCATTTTGTGTTACTAGAAAAGGCTTTTGTGTTACTACAAAAGGTTATTTTTCCTCATTTTCTGCT
CATCATAATTATAGTGTTTACATAATAATTGCATTGAATTTCCCAATAATTTATTTAGACATTTCCCTACAGCAAATCATTTAGTTCCTTTAACTTTTAT
GCTTTTATAATACAATGAATAACTTAATACCTAAGTATTTTTCTCTTTTCAAATTATTTTYTTGGTATAAATACTCAGGAGTGAGATTGTTAGATCAAGG
AATTTCAGAATTTTTGTGGCTATTGGCACACATTACCAAATTCTTTCCAGAAGGATAACAATCAGTGTGTGAATATTTTAGATTCATTGCCAACTGAGTC
AGTGTTTGTGGATTATTGTTTTTCTAACGTAATGGATATAAAATTATATGTCTATTCTTTTGAAAATTAGCACATCAAATAAATTCTAGCTCTAGTTTCA
TAGAAGCCAGTTAATTGGCTGACTTTAAATAGCTAATCCACAGAAGTATCACTATATTAATTTGACAAGATATAAAAGGATAGTACCTGAAAATGGAGAC
AAATGATTACCCATAAATTTTTGGAAAACATTGTATGATGTAATTCATCTTTACCTATGTTGTTTCTATCTACACAATGTAAACAAACTACTGAAAAATG
TGGTTCTATGGAGCAATGTTGGATTTTAGCTTAAAAGAAGTCAGTAGAAGTGCCATGAAGTACTTTTACTCAGTTGATAAAAAACTATCAATTCAACACT
TTAAGCATTTCAATAGAATGAGTGTTTCTAGTTGTTCCATCTGTCATGGATAGAAAATCATTTAGCTGGCCAGGTGCAGTGGCTCACGCCTGTAATCCCA
GCACTTTGGGAAGCCAAGGCAGAAGGATGGCTTGAGGCCAGGAGTTCGAGACCAGTCTGGCCAACATGGTGAAATCCCCTGTCTCTACTAAAAATACAAA
AATTAGCTGGGTGTGGTGGCGCGAGCCTGTAATCCCAGCTRCTTGGGAGGCTGAGGCATGAGAATTGCTTGAAACCAGGAGGCAGAGGTTGCAGTGAGCC
AAGATCATGCCACTGTACTCCAGCCTGGGTGACAGAGCAAGACCCTGTCTCAAAAAAAGAAGAAAGAAAGAAGGAAAATCRCTTTGTTTAAAAATGAACT
GTCAATTACTTTGATGTTCCATGGGAATACATTATTTTGATATTTTTACTAATGACTGGCATAGGAAATAGTTTCAAGGAAAGAATCTAAGGTTTGTTTT
TTTYWTAAAAAAAATGAAAACCATGCTTTGTGAGAAATAGCACTTCAGTTATATGCACACATAGAGCTGCTATTAGAGTGTGATGTCAGCAACCTTGATA
ATCGTTCATTACATAATAGGGACATTGATGTTAGATTTACATGTATCTTACTTCTTTGGGCCTCATTTTCCTCACATGGAAATGAAGAAGTAGAACTATC
AGTGGTTTTCAGATGTTTCTGGGTATCAAATCTTGCTTCAAAGGAAACCTTAACTATGAAGCCAGGATAAAAGGAAGACTGTTCTGAGTGAAGATGTGAG
GGATGTGGAGACCAGCTGTCCTTCCACTTTATTTTGAAATGTACTGAAGTTACCAGCTTGAAAATTACTGAAGAAATGATCTCTAAGTTCTCTTCTCTGT
TTCTGGTTCCAGATTCAACTGGTTGGACATTTTGCTTAGTGTAAAATTTGCTACTCCAAATACCTTATAAAACTTTAGAAAACATGATTATCTGATGATT
TTGGTCATTTCCTTCATTTTTGCTCTAACTCTTCATTTTATACACGCTATAATAGCTTCAAAGCAACAGGTTTAGGCTGACAAATTTTGATTTTGAAGAA
TAATCATCTCAGATTAATAATTTACTGCATTGTTCCTGTATTTTACTACATGATAAATTCTGTCCCTGTGTAGAAATTATTATCTGGAAAATTATAAAAT
AATTAGCCTGTTATAAAATTAGATGCTTTTAGAGTACAGTGTAATTGAAAAGTAAAAGTGCATTTACTTACTTAAAATGTCATTTTGCTACTTGATTTTT
TTATAAAACAAATATTGGATAGAAAAAGTGTTCTTATCCATTGCTTTCGTTACTTTTCATGCTTTTCATCTTTATAGTCAAATTTTAAAAGGCCTTTTTT
TTAGGGTCTTTAATGAACAATTAATTTCTGTGGGTGGTCTGAGAACACAGCCTTAAGCCAGGAAATCTGGCTCATAAACCTCCTTCTGATTTCCTAAAAT
CTTTTGCAAGTCCCTTAATGATTTAAATCTTGCTTCCTAATATGTATTTAGCAATAACCGTGTTCAACCCACCTGCTAGGGATAATGTATTTGGCAGATT
GATTAGGGTAAGAATGATATAAAAGGCCTAATTTTTWAAAATTCTCTATGCACATTTATTTTTCACCCCGAGAATCTAAGTCTTGATCACCACCCTACCA
GAAATCCACAGGACAATAAAAAGGCAGGTAGGAAAGATAAAACATATGAAAAGAATTAACTATTACTCAACAATACTTTTTTTAAGAGAGGCTTCTTTAA
ACAGTGACAATTTGTGGGTGGAGGCTAAGAAATATTCGCTAGAGACTTTTTAAAGAGAATGACAGAAGATTTTGAATATAACAAAAATGGAACAGTAACA
GGGAGGTGTTTTTACTAATTCTGCAGGGAAACAGGATTCGTGATGTCTACTGTTGGAATCTCAATGGTACATTTACTCAACCCACTCAGGTTGAATTTGG
GCAAAAATAATGTTCCCAGGCATCTGGTGGAACCTGATCCTGTGCTGGCCCCCCATGTGCAAGGGGAGCAATGTGGGATTTATTTTGTTTATCTATTTGG
GAGTTTATTCTCCCTAGTGCCCCAGGTACTAAGGAGGCAATTTAGCATTCTTGTATAAGATGGTTGGTAAATCCTGATGATCTTTTTTGGACACAGAATT
CTGCATTATATTTTTAGATCATATAAAAGAAATAACAAGAACAGTTCTTACCAGAGTCTTATTATCTGGCTGGGCCCTTAAGTAGTTCAAGCCTAATTAT
ATAATGTAATTATTAAGATTTGAGTGGATTACTTGAGAAAAGCACAGTACTTGAGGTCTGCAAAAATTAATGAGCCTTCCAATTATGTGTCTTTTTTCCT
GGAAATGACTAAGGCATTGGGGAATAATTTCCAKTGATGTGAGCTGGCCAAAATGCATAAAGAAATATATTGCATTGGCATGTACATTTAAACTTGCCTG
GATGGTTTGATACTACAGGTTATCAGCTGACATCGGCTGAGTGCTACGATCTGAGGAGCAACCGTGTGGTTGCTGACCAATACTGTCACTATTACCCAGA
GAACATCAAACCCAAACCCAAGCTTCAGGAGTGCAACTTGGATCCTTGTCCAGCCAGGTCAGTCAAATTTGCTAGTTCATTTGTCATAAACATAACTCAA
GTTCCAAATAGGTTATTTAAATTAAAATGAAACGTTTTAATTAAAAATAAAATGAAATTAAACATCAATAGTGTTGCTGTCCAGTGTTCATTACTAATCA
CGTGTTATTAGTACCCATACTCCTTGCTCTGGCTGCTATGCGAGGCCATCTCGGAGTCTACAGACTCCCCTTTTATARAGCAGCAGGTGACATGCTCTTC
AGAGTCATTTTCTCTTCTGATTTCCTTTCATTCTGGTTCCTTGTTTCTTTCCTTAACAAGGTCCAGGCCAATGGACCACTCAACGTTCTTAACCAATGTG
ATGACACAATGTTCTCAGGATTTTTTCCATTTTATCTCTATTCCCGATCAGGGACAAGATCAGAGCAGACCATATTTCAGGGCCACAGCTGATCCCTTCT
AGCCTGTCCACACTGATTATATAGAGTCAAAACAAGCCTTAGAACAGTTCTGCTGCCTTTGAACATACTCAGTCTTTGCTAAAGAGAAAGAACTTATTCT
CGGTAGTCAGATTCTTAAAAGGTCTTTGAAAGTAGAAGCTTTAAACAGGCACTTGACACTTTCACACATGATTATTTGCTTTTTGGAAACTACAGTTAGC
CCTCAGATTATCTGCAGGGTCAAGAATCTGCCTGATGAATGAATTATCTCAAGTGAAGAGTAGTCATGGAAGTGCAGGTCAAGAATCTTTTCATAGGTGT
AACGTTTGCCTTTGCAGTCACAATACTTGCTGGTGATTCTCTTTAGTATAGTGTAGCTTACTCATCCTCAACTTATGAGAGAGAATATAAGAAAAATCTT
CCCCTAGAAAAGCAATCAGGAATACCAAAAGACAAAGATTCATTTTCAAACTCCTTGGATTTTTGAGAAACATCTCAATGTTATTTTTTAAAATCATACT
ATACTGATGATGTATGCATAAAAAGAAAGCTTCATCTCATTAAAATATGACTTGGGCAATGTCGATGCAAATCATTCTATTTTGAGGTGATAAGCAATGC
AATTTTAGTTTTTGTTTTCTGCTGTCAATTTCTTGAGGTGTATATTCCTCTACTCTTTTATCTTTATATTTATGACTGTTAAGTTCTACATGTGATATGA
AATTGCTGTTATTAATTAATTCACAGGAACCATATTCCCTACCTCATAAAAGTGAACTCAGAATAACAGGTTTTCATTAAAAGAACAAAAAGAATAGATA
TTTTATAATTGTAAAATTTAGGTGAAGTTTAATTTAGCATCATATTACATCAGAAAATTATATATTAAAAATTGGATACGACATAAAAACTGAATAAGGT
GTTGAAATTGTGCTTGGATTTCTTTATTTTGGAAATCTTAAGGGTTTGAACTTTTTAGCCAAGACAGTTATAACCCATGCAATTTGATTTCATTTTAAAA
TTATTCTACTTATATATTTTTATGCATARCTGTAATAGGAAGACCAGTGTGTGAAAGGCACAGTTATCCTAATTCAGACAGGTCAAGTCAGCCCTWGAGA
GACCTTGAAAGTCTTTTACACATTTCCATGAAAATTTGTACGTGTATTTCTAGGAGAAATGACAATTTCACTTCCCACAACTTCATAAAGCTTTTTTCCA
CAAAGAAAAAAAATGTCAATCAAGAGATGGCCATGGAAGAGAGTTATGTGAAATAAAAGCATTTTGTTAACAATTTGAAAGAAATGTTTATAATAATGTT
TACTCAATCTTTCTTGCCTCTGATTTTTACCCACTCTTGTCTGTTGGAGAAACTTTTTTGGCCTATTTCTTATTACCCAAAGCAAAAGGCCATTCTGCAG
TGAAAGAAGTCTGCCTGTGCAATTTATGCCTTTTCTATGTCCAGTGTTATTTTAAAACATTTATTACAGCACATGAGTAAATGTTGGGACAGTTGGCTAT
GTAAAAAAGAAAGACACAAAGAAAGAYAAGTGAGAAAAGGGAAAAGAAAAAATAGGCAAATGTCAGGAAGCTGCTTTTTTTTATTGAAGAAGTAATTAGA
CAAAGCTGAGAAAATTAAGACTTAGCAGTAGGAAAGGTCTAAGGGACAGCTGCTTCCGAAAATGTAAGTACGCTACTCTGAGGTTAAGATACTTCAGAAA
TTGCCATGAAATTCATTGAACTCTTTTGCATACCTGGAATCAAAGCAACCCTTCTGAATTCTAAGAGAAAATGAGAAGTGATGACCTAAGAAAATTAGAT
AGAATAGACTCCAGAAAATAGATCTGCTCTTCCATCAGACAGTGCAGAATCAAACCCCCAGGAAGCTGTTTTCTCACTCAGATTTAATGGTCTAATAGTA
AAATCRAGAGTGAACAATGACATTCAACCAACACTTTTGTGTCCAAATTTAGAAATTCCCAAAAGGGAAAACCAACGTTCTTGGTATAAAGTCACATGTT
TTTAATTTCAAAAGAAATTTATTATATCTAGCCACTGAGATATTTATTCATTTTTCCTGAATCACACTAGGATTTTTACCTATTTTAGTATTTAAAAGTA
GAGTCCCTTGTAGTAAGAAAAGAGAAGGAAAAAGTAAAAAATAAATTTAAAAAGAAAAGTCCCAGTTAGACAGCCAACTTTATTCCCTATCAAGGCTTGC
ATGTGTCATTGACAGCAAAAACCGCATTAAACAATTAAGTCTATAACCTTATATTTATTACTTTACCCTTCTGGGCTTCCATTTTCTCACCCACCGAATG
GGAAGAGAGGGTCATTTGTTGTTAAATTAATGGTTTTCAAACTGTGCCCACAGAGCCTGTTGTTCCACAGTTTTTTAAATTAAATTTTGTTTTATATATT
TTAAAGTATTTTTAAATAATAATTCACAAAAATATATTCAAACATGTTAAGCAACTAATTTTAACTGATTCACACTAAGTTAAATTATAAAAATTATCAC
AATTTTAAGTGTTGTACTACCGAAGTAAATGCTTTTGCCCTCATCATTAAGTTCCTCAGTTATGTCTAGTTGAAAAAATAACTATCCTAAGATTGCAAGG
TAAGCTGTAAAAACAGTTTTCATTACAAAACACTCTCTGTGATAATAAGAATTTTCTCATTACTACATATCTAAAACCAAAACAAAGAAGAAATAAACTA
GATATGGCTACCAGTAGCCATAATCCCTGATATCCACTTTTTGTGTTTACCAAAATAGCTTCCCTATTCTCATTATTTTGCTTTATAATAGGTAAACATT
ATACATTTGAACTAATCAACTAAAATCATAAATATCATCAGTATTTGGTCTATATATTTTGGTCTTTTACACAATATAAAGCCTCCCAATGACCAGGATG
TTTCCAGTCACTGCATGTGATTGTGTCCACAGTCCCTTCCAACTTCAAACTCAGTGACTATAAATATCAGTCATTATTTTAGTTTTAGGAAGTTTACAAC
AGCTTCCTAAATACATGAACAACTTCTAGGAATTGTCTCAAATCAACAGAGAACAGGCAACCAGTGGCATGGAGGGGTCTCAGGAATATCTCACTCTACA
CATCTGTCTATTTTTTGGTTCTCATTCTCTTTTCCTTTTGTTCCCACCATCTTCTTTCTTTACTTTCCCATCTCATTTTTTGTTCCTCCTCCTTACACTC
ACTGACAACATCCACTGGATTCCATGGTGGTGGATTAGTTCATCTACTAGTTCTTGAGGCTGAAGAGATTGTTGACATCTCGCCTATACTCTTCAAAATA
CTTTTTATRTTTTCATGGCTTTTTTGCTGATTCTAAATGCTAACTTAGAAATATTGATAAGTTAAAAGACTGTAATGAAAACAATGAACTCACTAATAAT
CCCCAATGCCCGCAGATAACCTCTGTTAATGCTTTTGCTRTATTTCTTTCCAGTCTTGTCTATAGCTCATAACATAATTGAGATCATACTTTATACAGTA
GATACTTGGCATTGAATAATTTGGCATTCTTGGTTCTCATTCTTCTAAAAGCAAGCCTGAATATCCATGACACATAGTAACTCGACATTGTGCTGAGGTA
GGAATTTAAGTTCACTGGACTATAAGACCAACAATTGAGCCATGCTGGCTGCCCAGCAGTTTCATCCCAAGAAGGCTTTGTTGCTCTCTGCTGGTGTCAT
TTACACAGTTATTTTTCTGAAGTGATAAAACACTTTGTTTCCTGGCCAAAAGTGGTAAACTAGGAGCCAAAATTTAATCCTTATAAGGGAAGTGAAGAGA
AAGTAAAGTATAAAGATTTAATGACTTTTAGATAAAATTAATAAGGCTTTTCATTAGAGACTCAGAGCTATGACATCACTAAGCCCATCATATGCTCTGT
ACACAGTGTATTACATGTTCTACTGGTAGTCCCAATGGGCATTCCCAGAAGTCCAGAGACACACCCTCCTGCATGTCAGGGATCTACCACGTTTGTTTTC
TGCTTCATACATTTAACACTATGTTMTGTATGCTTTCCCATGTGACTAAGACATTTAGGATCTAGTAAAATGTAAAATCCTCTCTTGTGCCTACCATGGT
ATAAGCAAAGCTTCTGTCTTACGCCAATGGAAATATTTTTGGAATTTGTGCAATGATGTGTGGCATTTTTACCTCTTGGGTGAAAGGTCAGGTCCATCAT
GTGGCCAGAAAGCCTCAAAGTATAAGCCTGTGGTTCAGCAACAACTAAAAAGGCATAGCATGAATYCAGCTAATAAACACCTTGATGTTTCAAAGCAGCT
TTAGATGTAAAATATACAACATTTAGCCTTACATATCTTAATCTGTGAGATGGTGAGACAGTTAAGGCTGTCTGGAGGAAATTGTGCAAGTTACACTTTG
TGAGACAATCAGAGAACCACCTTTGCAGATTTTCTTTTTTTTTTTTTTTTTGGCACAGACCTTTAGTTTTCTCTCCAAGGCAGTAATGAAGGGGGCTTAA
ATTGGCAAGAGGTGGACAAGTGAAAAAAGATCTCACTCATCACACTATCACGGCCACAATTATTAGCAAACAAATCTGTTTCTAGCTGAAACTGCATCCA
GATTCCCCCTTCCCTCAAGGAATTCAGAGCAACAGTCCTAAGCAAATGCCCAAACTTGTATACCCCCAAGCGGCAATTCTTGGCAAGTTTAAGTGAACTT
TTTTTTTTTTTTTGTCCAGCTCCATTTAGTTTCACAGTAAATTGCATAAATTGTCTCTGGCCAGGAACCAAAAAAAAAGTCTCAAATTCTAATGCAACTA
TGAAGAAATACCCTGTATTAGAACAAGTGTTATGTGTAGTAGGCATGTAAAAATACTGATTCTCACACCAACTTGGTGACCAACTAGTCAATGGCAATAT
AGCCTGATGTTTAGGAGTGGGAGCTTTGGCATAAAACGTCCTGGCTTGAGACCCTGGCTCTGCCACTTACTAGTTGAATGGCCTTTGGCAAATTCCTTAT
TCCCACTAAGCCTCAGATTTTTCATCCTACGAAGTGAGGATAATAACAATACTTACCTCATAAAGTTGTCATGAGGAATACATGGCATAATACATTTAAA
GAGCTTAGCAGAGTACCTGASTCATGATAAGCGCTCAATAAATGTTAGCTGCAGCAGCTATATARTGACTAAGATCACGGTTATGATGATGTTGATGTTA
GCTGAGAGAAACTCTTAAGCTCTCCAGAAATCAGCTTTCTCATCCATGRAAGGAAAAGATGGAATTCTAGAATTCTGTATGGGTCTAGAAAGATGGTTCT
CTGTTTGTTGTTTTAACAACAGGAACTGTAAGTCCTAGGAAAATATGATCTTGAGAGTAAATCACATTTATCAGATTTTTWWAAATATAATGATCACAAG
AAATTAAGATAATTGGCAACTCCTGAAGTCTCAGTTCACAAGTGTCTGATAACCTCTACTTTACCAGCTGTGAGACATTGCCATTTAATTTACATGGGAC
TTAGGCCAGGTATGTCTCCAAAAAAAAAACTCAGTGTAAGGACAAGAAATGGTTGACTTATTTAGCAATTACTGTATAATGAAATGTTTTCTTAATTATG
GAGGTCTTTAGTTTTACTACAGTAAGTAAATGATTTAGAAAAGTAACAACTTCTTACCTTTTGATCAACCTCATTTAAGTAACTGCTTTGTGCAGCTAAT
AAGTAAACAATAAGAAAAAAATACCCATAAAATCTCATTTCCACATTCATGTATTATTCATAATGAGATAAATGATACAAAGTTAGGGTGCTTCTTAGAA
TGCATGATCATACCCTTCCCATGCTTATAGATACACCACACATCATCAGACAATCACATAATCAACTATAACTCAATTATCTGGGAAATTCAATTTACTA
CAAAGCCAGATCATTCCTAATAGTAGTATCACTTCTTATAGTACACTTTAAAGTTTTTTAAAGTGTAATTATTTGTGTAATTCTTTTAATTGGCCTGTGA
GTTAATAGAGTAGGTATTATTTCCATCCTTATTTTTAACTTCCGTCTGTCAGTTTGTAGCCAAAAGACTTTACTAGCTAAGTAACTTCTTATCTAGGCCT
GAGTTTTGCCCTCTGTAAAATAAATATAATATTCCTGTCAGAGAGTAACTGTGAGAATTAATAAGACAACATATGTAAAGTCCTTAGTGAGGTGCCAAGC
AGTCACCAAACATCAGCTATCATGATTGAATTGAGAAACAGACTGGTAAAACAACTTGCCCAATGTCACTTCTGTTTGAAGTTTATAAGGTGCCTTCACA
TCCATTATCTTATTTAGTTTTACAGTCCCTAGGTTAGCGGGCTGGGGGTTGTCACCTTTATTTTACAGATGAAAAAACTGAAGCTCAGAGAGGTTAAGTG
TTAGGGCCACTTGGCAAAAGCAAATTGGGATGTGGATCTAAGTTCTTCCAGTTCTACAGTATCTCTACATAAAGACAGGCATAAAGGCAGGCAACCTGAT
GCCTGGTGCAGCCTTCATGCCATCAAATCCCACAGTCATCCTTGTTCTGCATAATGCCTTAAGCAACCTATGAGATCTGGTTCCAGCCCAACGTAGAACA
GCACAGCCAGCACAGAACCATTAACCATAACAATGCCAAGTCTGGGTGTTTGAATTGACCACATACCCAGGTTAGGCAAGCCTCTTTCATGTAAGTGTAA
ATACTGACGTTTACTCAAATCAAACAATGGCTAAATCACTCAGTACAGAAAGAAGTAAACAAAGACCAAGGAAATATTAGTCCCACTTATTTAAAAGCAG
TTCAGAAATTACATTCRTTAATACCAAGAATGTTTAACCCCACAAATGTAGATGTGAGGAAGTATTCAATGATTTGACCCAAATTATTAAAACTCTTCAG
TATTTAGTTTATTACAGAAAATGAATTTGTGTCCAAAAAACTGTTTTCAGATCTGCATAAAGCAGACTCCTTTTGATCTGATTTCGGTGGAAGCCCAGAT
AAATGAATGTTGCTGCTTAGTTTATGGTTTTTTAAAAATGGGACCTAATTATAGAATATTTTCCGATTTATGGGATCCCAACGTGCCTCTGTAAATGTTA
GGGAAACTCTCTGTGTTTTAAGAAGTCATGAAGTGTCACAGGAGGTAAATTTTGAGAGAATTATCTTAGTTCAGTGGTTTTCAAGCTGTGGCCCAGTAAG
CTCTGAGTTCTACTCTTAGCATACACTAGGAAGGGGCAGGTAAGATAGAGTCCAATAGCATGGGTTTCCAGGCACCTACTCTTACTTCATCTTAAAACTT
CTGATCTCATCCAGTACTTAGTTTTTGCGGATGGCCAAACCTTGATGTAAGGTATTCAAGGTTACATAGAAAGAAAGTAGCAGAGAGGAGTAYTGACCTT
CCAACTCCCAGCCTCTCAGGTGATCCTTTTCCTCATTATGGCCAGATCCTCCATGCTTTGCTACTCACGAAATAGCAAAGTGCTTGTATGTCTTCCAACT
TTTTATTACTTCTTTCCTGCACCCTTCTAAACTGTTGCTTAGAAATAGGCTGGTTTCTATTGCCCTGAGGTTGTCTAGAGAAGATGGAGCACCATTTTCT
ATACAAGAGACCCTTCTACTACACACAATTTTGTTCATTTTTTAAAATATAGTCACCTATTTTGTGAAAGGTTCTGTGCTTGGTGCCATGGCAAAGGCAA
AAATGAATCAACTAGAGTCTGGGCCCCCACACTGTCCAGGGCAGGTTGAGTTGTCCAAAGCAGCACGGTATCTGAAAGACACATGAGAAAGAGAGAAGAG
AAGATCTTGTTAAAAGCTTTCAGAGTTATATCTGGGAGATAGCCAATGAAAAGATACAGAGGTAACCTAAGCAGGATGGAAGCATAGTCACTAATCTGTC
CTTTCTCTGCTCACATCAGCCAATCACCCCCGCTTGCCTGAACAGCCTTCCTAAACTGCCAGACCACTCTCCATATCAGACTGCCCTCTCTCAAAGATGG
CAGGGCCAGCAAAAGGCAAGACGTGGGACTGAATATGTGCACAACAGTGGCAGTTTGGGAGTTTCTTTCCTTCCTTTCCTAACTAGCTTTTAAAAACTTG
TTTTTGCTTTTTTGTTTTAATTTTGGATGTGGTTGCATTACTTGCCTTTGCATCTGCACACYGATGACATAAGTTCACTCAATGATTATTTACTAATCAC
CTGTGTGCAGAACACTGTCCTAAGAGATGCAGTAAAGAACCAATATAGCTTCTGCCTCATGGTGATAAACTAAAGAAAAACTTGTGAAATAGTTAGAAGT
TAGTACAGTTGGCCCTCAGTATCCATGGGGGATTGGTTCCAGGACCCACCCCACCCCCACCTCCACAGATACCAAAAGCCACAGATGCTCAAATGCCTTC
CATATATAAAGTGGTGTAGTATTTGAATGTGACTTATATCCACCCTCTGTGTACTTTAAATCATCTCTAGATTATGTATAATACCTTATAAAATGTAAAT
GCTATGTAAATAATTGTTATACTATAATGTTTAGGGAATAATGGTGAGAGAAAACATCTGTACATATTCATTACAGAYGCAACTATCCATTTTTTTTCTT
CAAATATTTTCAGGCTATGGTTGAATCCGTGGACGCAGGACCCATGGATATAAAGGGCCAATAGTACACAGTTAAAAGTGAGGAGAGGAGTTAGTATTAG
GGGTGTTAAGAAGAAGGAGAGCGAATTTCTGGCTAGATGTTAAGAGAGAAAATAGGCAAGAATTTAGGAGAAGTAGCATTTGACTAAAAAATTTCACTGG
GCATTATGGAACCATGTGAGTCTTCTAAATGGTGAGGTGAAGTATCAGGTGCTTTGGCAGCAGAGTAGGCTGGATTGATTTGTTACGAGACTGGTATGAA
AGTGCCCAAACTTGTGTCAGGAGGAGATCTACTTGGCAAACATTGCTGGTGTCGAGATGACAACTGGAAGAACTGAGTGGTGAAGGTAGCCCCAGTGTAC
AGTGGATAGGAGAATTGCCATGACTGAATGGTGGTCGTGATAACAGGAGAAGAAGCAAGGCCAAATAATGAATTGTCTGGGATGCACTGAGCTTGAAAAG
CCTAGAGCACATCTAGTTATCAGGAAATCAGAAACGAAGATTTGCAGTTCCAGAGAAGAAGCAAGAGGTCATGAGAGATTCACTGAGAGAAACCCTTGAA
ACCATGAAAGGATCTCTTTATGGTTCATTTTCATTATAAAAAGAACAGAACCGGCCGGGTGTGGTGGCTCATGCCTGTGAGGAGGCCAAGGTGGGCAGAT
CACGAGGGCAGGAGWTCGAGACCATCCTGGCTAACAAGGTGAAACCCYATCTCTACTAAAAATACAAAAAATTATCCGGGCGTGGYGGCGGGCGCCTGTA
GTCCCAGCTACTCAGGAGGCCGAGGCAGGAGAATGGCGTGAACCTGAGAGGAGGAGTTTGCAGTGAGCCGAGATCGCACCTCTGCACTCCAACCTGGGCG
ACAGAGTGAGACTCCATCTCAAAAAAATTAAATTTAATTAAAAAAAAGAACAGAACCCCGGTAAATTAGGTGCCCATGGARTTAACTACTTTAGGATTTT
TCTTGTAGAGAGAGATGTATCTCAATAGTTATATTCTACAACTGAGCAGTGTGAGCCCAATTTTGGCTTGTTTTTTTTTTTTTAACACTGGGGACTCTGT
TCTAAAGTAGCATCTTAGATCACTTCTGCACAGACTCAATGATCTTGAAGTAACGCATGGAATTTGAGGTGATGGCCTCATTTCATCCACTTCATAGTTC
CAAAGTTTCTGTCTTTTCTTTCTTAGATTTGAATTTTTTCATACTTGAATATTCTAATTGTTGTAATTGTAAAAGGTGATATATTATAGAAAGCTTAGAA
AACAGAAAAACATTTAAAAAGAAAGCAAAAAGTACTCATAATCCTAATACCAATAACTAACCACTGTTGAGAGTTTTTTATATGTGTGTGCATATATATG
CATGTATACATCTGTGTGTATACATGTGTCACATGAACACACATATGTAAGTTATGAAAATGCATAGATATGTACACCATCTATATATTTTCTCATTATG
GTCAATCATATTGTACATTCTATTTCATATTCAATTATTTTTAGTTGACATTACATTTGAGCATTTTTCCATGTCATTAAAAATGACTCAAAAACCATTA
TGTCCATGTGCTGCATAATGTTTCATTATATAAACTTGTCATAACACTGAATCATTCTCCTGAATTGTCAATGGACAATTCAGTAAGACATGTATTTTGA
GAGGATGAGGTGGGATGCCTTTTCTACTGATAGCACATCACTCCAGAATGATCACTTGCTCATGCTCACCTTCTCTTCTTACCACCACAACCCCTGATGA
TGGGGATATTASATGGAGTCATGTTACTGCCCAGTGTAAGAGAAACAATGTAAGAACTGTGTGCCTGGTGGTCAGCATAATGAAGGCACTGGAGAATGAG
TTTTACCCCCAAGCCAACTGTTTCTTCTATCTTTTCCCTTTGTGACCATTTTTAAAAATCATTTTTGCCTCCTTCACCACACCCCACATATTCAGATGCA
TGTCTGAATGCGTGCATACATGTACACACACCCACATCGAGACCTAAACATGGGGAGAACTTCTTAAAGTCCCGAAATTACATTCTTTTTCATTATTCTT
TATGATTCACACTTTGCTTAAGAAAAAAAAAAAGTAAGCAATAGGAAGTTAACTTCAGGCAAGCTTGCTTTCTCCCAGCAACAGTGTAGTGAAAGGCTAG
GGCCATGGCATGAACCCCAGAGAGAGCTGAGCCTATGTACACGAATATGTATTAGCAGGACTGGACAGAGCACCATTGTTTTGATAGCTTTCTGTTTTCA
CAGGTGCTACAGAGTCACTTTATGAGTCTTCACCATGACCCATGTCATAGAARACAAATATAGCTATAGTTTTGCTGAATCCAGGTTTAAAGTTCCTTGT
TCAAACAAAAACATAATTTCTAAATCGGTCCAAAGCAAAGTTCAACGTCTTGAATTTTGTACACTCTCCCTTTTATTCTCCTTCACTTCAGCTTGTCTCC
TTCAGTGTTACTGCCTCCATTTTAAATATCATCAGCTGATAAATCAATTGACAGAGATCTGCAACAGTTTATTCTAATATTGAAGATGACAAATTACAGC
CATAAATTTTTTCAGGAGAGAAGGCAATGGTATGCATTTCTGCATTTAGAAATTGATGTAGCATGAATAAAGATACTAGAGTAATGTAAAATATAATTTC
AAAGTCAACTTGATTTATTCCTTAATTGACTACTATTAGATAACAGTGTATGTACAAACTTACTAGAAGGACTGTGGAAGAGGATTGGCATTCTTTAAAA
TATAGTCCTTTTAGAAAAAAAAATTCCCTTTATTACTAGATGTAAGAATGATTCTTACTAGATGTTAGAATGATTGTAACATGAGGAACGATTGAGCTTT
CACCTGATTTCTTATCATCTGTCAGAAGGTAGAAAAAAATRGGATGGTTCACTCAAAAAACAGAAAAGGTTAAAGGCTGTTCATTTCATTCTTGTGTGAA
GAACTGTGGGATTTTGAGCATGCCCAAAAGGCAGCATCCCTTTTCTTATACATTGTTACTGAAGGTTAATACACACACAGGCACACACACACACACACAC
ACACAMACACACACATCATGAAAATTTTCTCACACAAATGAATATAAAAAACTTATTTACACAAATAAATACAGAAAATTTAGTCATGTAAAATAAATAA
GTTAGTACTCCAATGACCTTCCCTCCTGGAAATAGATATCCATCTTAAATGCTTTGTTTCCTATTTTTTAAATAACAAAATTTGACTTCTCTCATGTATC
CCCTAACCTTTCAGTAATTTCTTCAGAAACTATGCAGGCCCCTTTATCCCTCTCTCTCTCCTTCTTACCTTTCATCATCTCCAGCCAGTGCTATTTTTAT
CTCTGTGATCCACACTCACGGCTCACTGTTTCTACCCAAACACCTGGGTTTGCTAGCCATATTTTATAAACCTACTATATCATCTTATATCAGAGGAATG
GGTAAAAATGGAAGTATTTATTTATTAAAATATAAAGATCAACATATTTATATTGAATATATCAATATTATATAGATATATAAATAGATGCATCCATCTA
TCCCAGAGGCACAGATAGAATACATGAGTTCCTTCAATACCCCAAAGAGGGGCTTTCTATCATTTATCAGTTGCAAAATAAGCATCTTCCACTTATGCAC
TACCATGCTCTACATCTGTGCATCTCCATCTCCCACTCTTGATGAAGGTGCTGTTGCACTAGCGGTCTTATCCAAAACCCATGAATCATTAGTCCTCCAC
AAACCAGAAAACAAGGCCTCTGCAGGGACCCACCAGTCTTACCAATTGGAGACTTTAGTTGAAATCAGTGAAGTAGGTCAGAGTAGTTTATTGGCATCCT
AAAGGCCTCCAGGAACCTCCACACAGCCTATGATATATCTTGTGGATCCTGAGCATTCACTCTGTCTCTAAACCTCACAGGTTTCCCAGGGTCCTAGAGG
TACTAACAAGCCATGACAATCACAACCATCACTGCAATAGCAGTTAACACTGTACAATATTTTATAGACCACAAAAACCCACTTTTCATAATATCTCATT
TTAACTGCCTACCTTTATTTTGGTAGGAAATTTGCCTTTGCTAATAGTTGCCTACTATGTTCAGTAGTTTCCCCCTCCCCTTATAAAATACCCAAGTGGC
TACTTTCCARGTATTAGTGAAATCCCTAGATCTGCSAAGAGAAGAAACCTAGCTAATGCAGTTACATAGTATTGTCAATTCTGAAGTACATATTCTCCAG
CTTGAATAGCTCTCTCTTTCATCAGAAGTGAGACAGTTACTGTAATTGCTTGGCGAGCATCTGGAAGTAACATGAATAATGATGATAATAATAATGACCT
CATAGGATGTATAATTTGGGGATTAAAGAACATTTACAATCTTATGGTGTCATAGTTAATGATGAAGTGCCAAGTTTTGTTGCCACCACCCTTTGCAATG
GTATTTCCTGCTTGGATCAGAGAACTAATTATAGTAAATGGTGCCCTTTCAAAGAACTTGCCCCATCCTAAAGCATATCCTGGCATAAAGAWATAAAACT
GTTTTAGTGTTGTTTTATAGATACAATTTATTAATGTTATTTTGCATTTGTATTAAAAATTTGTATAATGTAATCATTTAGTGTTTATTTTATTGTGTGT
ACCTTCTACTCAGAGGGTTGGCATTATTGTTCCTAACAGTGACGGATACAAGCAGATCATGCCTTATGACCTCTACCATCCCCTTCCTCGGTACGTAAAT
CAATCATCCTGATGTTAGAATTAGCAAATTAGTCTTCTGCTGCTTATCTATATATAKAGAGATATACATATACATAGAGAGAGAGATTATATGTTTTTAA
GATGGTAGATGGTATATTTTGCAATCCATCCTGAGTTCTGCTTTTGAATAATACTAGCCTGCTCAGACTGTAAGCTTATCATTCAAAAACCACTTTAAGG
TAGAATCATGTTACACTGGAGTGAAAACAGTAATTCACTCTGATTAGRTACAGTTTATGGGTTTATATTATGTCTTTCTTTCCCTCCCTTTGTTCYTTCC
TATTTTTCCTCTCAATAGGACCCTAGTCATTAAAGCACTGTTGCTAACTATTAAACAAACAAACACTGCCTAAAGTATTATTGCACTACCACTAACATGG
AATTCCAGATGTGATATTATTCTGCATAGGGGCTTTAAATGTCCACTTTTTATTTCAGATAAATTATAATTAAGTATAAAAGGCAATTTTTTAATATTCT
TATTGTTCAAAACATTTTAGGAGACATTTTTTCTAAACAAAATTCAATGTGCTGCATTGCTTTTTTAAAGTACAGTACTTYTGAAAACTAGAAAAAAGGT
AATGAAAGTAACTCAGGAACTTTTAAAAGAAAGTGTTCCCTTTATAATATATTCATAAGAAAACCGGAGAAGCTGAAAAATACTCTAGCTACTGAGTGTG
TTCACTGCATTGGAAACAGCTCCACAGAGAGCAGAAATTAGAATTGGGATTGAAGTAGACCTATGCTCTATTTTCTTTGCTTATTTGGCCCTCAGGGAGT
CAGCTGCTATTTAGAACCAAGGGTTTATATCAGATCATAAATGGTTGGAGTAATCCACAGCAGCCTGCTCCATCTCAAATTAMACCAAGCCCAGAAAATA
ATTTTATTTTGAACTGTAAGGGTTTGATGGAAAAATCTCCAAATACATAATGAATTAGAATCCAAATAGAGGTCCCTTGACGTCATCTAGTGCAACTCCC
CATTGATGCTTCATTCTCCCATTTCTTCCYGAACAATCACAACCATATACCACAGATATGTTAAATATATATTTACGCAAATATGCATTCATATATTCAA
TGCATATGTATTCACACATGTATATACACATCTATCGATGTTTATATAATACATATATACAAGTGAAAGTTGTCATCCAGCATCTACTTAAATATGTCTA
GTGACTGGCAGGGAACTCATTTTTCACCTAATGATCACATATAGGAAAGGAATTTGACTTATACTAGATATACTTCTTGTTTTTCTTGTTATTTTTAACT
CTTTCACTACGTGGCTATGTCATTAGTCAGCTCACTCCTACTTTCCTATGACTATATTGATAAAGACAATAAATAGCTTTAGAATGTTCCTAATGTATCA
TTTTTCTGGTTTTATCCAGAACTCTTGACCTTGAAAAAATAATGAAATAGCAAAAAMTTAATTTTTTGAAGTAATGAAAATAGCAAATGATTAATTTAAC
TGAACTAAGATTTCATTTGGTTTCAATTTCTGTATCTGTGAAATAAATGTTCATAGGATATATGTATCTGTTTGTATGAAAGCCATACATTTCATTATTT
CAAGATAAAGGTAAAGTTGGACCTCAGGAGTAAGCAACGTCAAGTTTATGTTTTTCCTGTAAAGGCAACTCCTAGATTTCTGTTTTATCTGTGATCTCTC
TTGTTTATATTTCTCTGGCATAACTAATGCCTATATTASGTTAAAATTGATTTCTTATAGGTTGGGATTTTTCTCCAAATGCCTAAATCCCAATGGTATA
TTAAAACGATCCTCCTGGGTGTGTGTTTGTACTATGTCCTTGTATACACTCTTGGCATGTCTATGTATCACAATGGGAAAGAACAATAAATTTTATTTCT
TACCCCCTTGTATGTCTGATACTGAACTAGTTATAAAGATAGATATTCAGCTTTATTGGCAAAGTCTTAGTAAATGGAAACTATTTTTACAACTGTGTTT
TCATTCGTAAGAAGAATTAAGGCTCAAAAATGGTTCTCAAATGGCAGCTACCCACTGATCAAGGCCATTTAAATTATTTAAATGGGGTTAAGAACACAGG
TATAGATACAAAACACAATTAACATATTTTTACCTTGTTCTTTCCTGCTTTCAGTCCTTGACTGTAACACATATCTGGACATAATATGAGAATGTAGTCT
GAATAATTGTCTTGATTTATAATTAATCTATGCCACTCTTGTGCATCCTGCTTAATTTGAGAATTTCTTAAACACACTCTGTGTTTAAAAAAATTAAAAG
CCAAAAGAGGCTAAATGTATGATGTATAAATTCATTCAATGTTCTCCAGGATAAGATTCTTGGATATGTCTTTTTTTTATTCCAAGCACTTACCTGGTTA
CCATCTTCAGATCTCCTGACATGCTCTCTCTCAGCTTTTGTTACGCTTTCTTTAAAGTACACAAACATGTTTTACTTCAAGATTCCACATAACCCTATTA
TTATACAAGTATTCACATGATAATTTTCTACGCATAGAACTGTAGTTGTATGCTGGGACCATAGTATAAATTTTTGAAATAATATTGCCTCATTTGTCTT
TCTATGATCACTGACATTGAAAAAGATACTTACTGCTATTTGTGAAATTACACTATGGTCAGGTCCAAGTGCTGAGACAGAAATAAATCACTCTCCCTTT
AGTAGGGTCAAGCTTAAGAATTTTAGAGTACCAATTAGAAAATGTGCTCTTTTATAGCATCTTAATATTCTAAGTGATTAAATGTACATTTAAAAACATA
TTCCTACTTCACTGTCAGATCAAATCTAATGTGAATACATACTTATGTATTCAACCCAACTTTAATCTGAATCAGGCCTGATATTCATCTCCAGAAGGAA
GCCCTCCAGAGATTTATGTGGAGACAAAGGAGAATTGGTCTTACCCATTGGGAAGAGAAACTCTCTACAGAGCTACTTCATTCTCTTGAAAGAGATCAGA
AAGTCTCCCAAGGGCCAAACAGAGGGCCTCAGTTTCCCCACAATGACATTTTCTTATGTGTCTCCTGGGGAAATACACATAGGAAAATATTGTATTTGGC
AGCATGTCTTGGCTTTTGGCAGGCAGATAACAGTTGTTGCCTAAACTTGAACAGTGCAGAGAAAATGTGAAGGAAAACCCTTTGTAACTAGGAAAAACAC
ATGATTCAGGCTCATGCAGAAGAGAAATCAAACTCACAATGTACACAAAAAACCCGCCTACAGAATAATTAATGTCTCAATGGTGTGCCTGTGCAACATT
TTAAAATTTTAACTATTCAAATGGATCAACCCAGTGACATTTTGTTTCTCTCATTAAAATTATATCTCTCATAATTCTAAGAGAAATCTTAAATCTCCTT
AGCAATCCTCATCAATAAGCAGAATATATGTAAAAAAGACCAGCTCAACTCAGTCCCAATGTTTCTGTTTTTAGAAATTCTACATTCTGTAAATCTACAG
GAGGAGAGAAGAGAATTTGGCAAAGATATCTCTCTGCATCTGGGACCTAATGCTTCAGAGCTGTGTAAAGCTCTGAAAAAAAAAATCAATGGAAGTCTCT
TAAATGTTTTGACAATATTGTTATTTTCTACCTTACTTAACTATATGTCTACTTTCAGATGCCATTAGCCTTCCAACTCAAACCAAACCTCTTCACAGTT
CCAAGAGTTACTTACTGGAGGAACTCTAACTACCAGTATCCCTCAACAGTTAGGGAATATGTAGATAATATTAACGCTTCTGCTCCTCAGCTTAATAATG
ATAGCACAGTTTGAACATCAGAATTGTGCTGAATCTAAGTAGTCCCAAAGCTGATGATTGCAGAAGCAAAGGAGAGTCTTTTGTTTACCTTGATCTTTTA
TGAGCTTCTTCTATTAAAAAAAAATACCTAGAAGTTAAGTAATAAAGCATTACATTGAAAATAAAAAGTATCTGCAGGTGCAAACCATTAGTGTTAACTG
AGTATACCACTTTAGTCTTGAGATGGATACTTAATGAGTTTAATGAAAATAAATTTTATATATACATATCCTGAAACTATGGGAGAAGGACAGAACTACA
TCCTACATCTTCTGAGTAGGTTACAGACGGCACACATATCTTTGTGGACAGCTCTCAAAACTGTAATGGCTTACATTTGTATAGAGCTTCACGGTTTGCA
GAGCCCTTTTGCCAATGTTGAATCCTTCTCTCTTACTCATCAGGTTTCAGGCAATAGATGGCTTTTGGTTTTCTGGACCTTAGCCTCTCAGAACCTGATT
ATACCAATAGACATGGGGAGTGGGTTGGTGGACCAGTCACTGAGGAGGCTTAGCAATGTGCATGTCTGCCCTGATGACTCCCCTTGCTTCTGTAGGTGGG
AGGCCACCCCATGGACCGCGTGCTCCTCCTCGTGTGGGGGGGGCATCCAGAGCCGGGCAGTTTCCTGTGTGGAGGAGGACATCCAGGGGCATGTCACTTC
AGTGGAAGAGTGGAAATGCATGTACACCCCTAAGATGCCCATCGCGCAGCCCTGCAACATTTTTGACTGCCCTAAATGGCTGGCACAGGAGTGGTCTCCG
GTAACTGTGCCTTCTTTCTTTGTTCATTAGGAGAGTAAGTCCACTCTTCCCTCTCATCATCATGGCCCCACYGGGTACCCTGAGCAGCTCCACACTCTTC
TTGAGGTGTCTAGAAGCCTACCAGCTTAGCTCCTGGAGTAGGAATGCCCCAAATCCAGCATGACSAAAAGTAAATGATGTTTTTTTAAAGTGTCTTTCTT
CAAGTTTCTTCAAGAAGCCTCTATTGTTCCCCAGATAATGTTCCCTCAAATAGCACRGGGAAGCAACTGCCTTTCAAGGGTAATTGAGGCTGAATGAATG
ATCCCGAATCTGTAAAAGCTGCTTTGATGATAGAGCTCAGTAGACCAGAAGTTTGATTTCATTTTGTATGTATTATGCTTTGTATCCGAAAGGGTCTAAG
TGGATTAATATTAAAACTATGTATATTAATCATTGGAGAAGGGGGAAGAGGAAATGAAAATAGCACAAAAATTAAAATTGGAACGAAGTAAGATAATTAA
AACAAAAAACTTATAGATGTTAGGAAACCTGCTGTAATTAAACATAAAATGTCATTCAGGGTTTCCTGACTGCTAATGCAGAAAGGAAAATCGTAAAGGA
AACAGAAAGATGAAATAAGCCATTGTGCCCTCCGCCTCAGAAATGACAAAAGACTCTTCACTGAGCCCTGTGGCTTCATGGCAGCAGATCAGAGCTGTGA
CATTTTCTACATCTAGACATGCTACCAGACATGGGGAACCATTAGAGGTGCAATCTACATTGGGCATCTGGTCATTCAATCTGTTTTTTTAAATGTTATT
TTTGCCTTTCAATGTAATCAATTGGATTAACAATGCTGCAATATAATTTAGCTATAATCGTAGTTTAAATTTTTTGATATCCATGTAGGGGTATTTCCCA
TATTTTTGGAAGTAGCGGTCATTAGCAAAGTAACTAARTAAAATACAGTGCTGGTAGTCAAAATTAAGCACACTCTACAGTCTCTTTTCTCCTTTCTTCT
TTTTGGTGCTTGGTTTGAGACTTTGCACACAGTGGGTACTTAAAGATTGCTGACTGATTAATCCAAAGCTATGGAATTGAAAGTGATTTAATTTTCAGCG
AGCTTCACCTCAAATAGCCAAATAGAACAAAGATCCCTTGACTGGTAAGAAGTGGTATAAATTTACCAGGAGTCCTCGTGWGGGGGGGGGGGGGGCGGGG
AAAAAGAAAACTTAGATTAAAAGTTTTCGATGGGAAGTGAAGAAAAGTAAACAAGGCTTTGCCTACGAGTCTCCTCTCTCTTGCAATCTCTTTCCAGTGC
ACAGTGACRTGTGGCCAGGGCCTCAGATACCGTGTGGTCCTCTGCATCGACCATCGAGGAATGCACACAGGAGGCTGTAGCCCAAAAACAAAGCCCCACA
TAAAAGAGGAATGCATCGTACCCACTCCCTGCTATAAACCCAAAGGTAACTTGACAGGTGCTCTATTACCAGCCTGTTAATTGTTGTGTGTAGTCAGGTG
TGTTTTAAACTCCYTGGAATATTTTTAAGTATCCCAAGTATTCTTAGTAAGAATTCTTTATAACTTAAACTCTACTAAAGGAATTTGATTATCTTAAAGA
ATCTTTCAAGTGATTTTGATTGCAAAATTTCATTAACCACTACATGTAGAAATATATTTATATAATTATCTCCCAAGTCATAAAGTTGTTTGAGGACTAT
TGCTGAAGAATACGGATGTACCTGCTTAAAGGGAGACCAGATATTCTAGAAATATATGTTTGATTTACTATCCACATTTCTTGCCTTTAAAAACAAGGGA
GTGAAYCCAAGTATGTCTATTTTGCTAAGGCTGAAGTACMTTGGGAAGTCTCATACTTCAAACTGATGAAACAGAAAACTGTCACTTTTTATATTGAAAA
TTAAAACATTAATATGAGACTGAATTCCAGAACCATAATTTAAAATATATCAGAATTTAAAAGATATTGCAATAATTTATAAAAAAGAAATTTTAGGAAA
GTGTAGAACTAAGCATTTAGTGAGCCAGACTTATAATTACACTGGATATCTCAGATTAGCAAGAATATGAATTTGATTTCTGTACAAGTATTGTTACTTG
TCTGTGTCAATGGAAAAGAAAAATTCAAAGTCACAAACCATTCAGAAGTAAAGAACTCTTTAAACCCCCTTTAATTTTTAATATTAAATATGGCTCCCAT
TTCTTTATTTTTTAAGCCATTAAATTTCTCTGAAAAATCAGTCACAGTGTAGCTCTTTATTATACTATAGGTGGCCCTAATTGCAACTGAATGGCATCAT
AAAATCTAAATTAATGATATAAAAGGAAACAAAAAAAAACAGAAATCCTGATTAACTTTAATAAATGCATCTCTCTCGAAGCCTTGGTTTCCTCCTCTGT
AAAATGRGTGTAATAATAGTATCTAAATCAGAGATCATGYGTAGGTTAAATGAGATATAACATAAACAGGGTGGTTAACCTAGTGCCTGCAATATAGTAA
CTTCTACATACAGTAAGTTACTTTTAACTCCTGACTATCGTCAGTGCCCTCAACTATGGGAGGAGGTTGCCACAGGTGCGTCTGACAGGATTTAGTTCAA
AACAGCAATAAAGTATTACAAGCTTACTATGAGTGCCAAACTGAATGCTTCCTTATTGARAGACAGAGAGCTAACTATGCCACCAGAGACAGCTTCATTT
ACTGAGGTTTTTTTTGTTTTTTTTTTTTTGAGACRGAGTCTCACTCTGTTGCCCAGGCTGGAGTTCAGTGGCGTGATCTCGGCTCACTGCAACCTCTGCC
TCCCAGGCTGAGGCGATTCTCCTACTTCAGCCTCCGGAGTAACTGGGATTACAGGCGCATGCTGCCGTGCCCAGCTAATTTTTTGTATTTTTTTTTTTTG
GTAGAGACGGGGTTTCACCTTGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGTAATCGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGC
CTCCACGCCCAGCCGACTGAGTCATTTACTGGGATAGTTGGAGTAGTTGTAAAATGATGTATGTATAGGTAYGGTGTTGCTGTGTTTAAAATGTTAGCAA
ATCATTTTGGCTTTGGCAGTTTTATATTTCTCACTTGCTTTGTTTTTTGACTATAAATAATTGCTGTGYATAGAGAACAAGAAGTGATGCCCCTAACTTA
AAATAGTCAATTGTTTATTAGCTTTATCTTTACCAAGCCACTTCAGAGAAAGAAAAGCAGTTTGCAGTTAACTATCAAGAATCAAGTCTGGATTTTCACA
ACCAAGGAGTGAGCCTGGCTCTCTAAACATCATTAAAATACCATATAATTCTATGGTGCATATATGTATAGACATATTTCTTTCATCTTTGCAATTGTAT
GTTATAAAATGGTGATAGAGCATCATTGGCTCATACTATAAAGGCAAATATCCCCATAAATGACCCTAATAAATATGCTAGAATGGGAATCTTGGCAGTT
ACTTCTGTAAGAGCCGTTAGAACATCCCTCTTCATTTTTCTCCTCCACAATTTTTTTCCCAGGAAGTAACTAGGAAGTTTGTTTTGAATTGTTTGGCCAA
AGCTAGATAAATAGGTGAAATAAGTCAAATTATGTGTTATGAACCCTCATTTGCACATATTCCAATTGTCAGTGAGCCTTGGGGTAGTACTGAATGAGTC
AGATATCTAAATCAATGTTTTGTGAATTTCAGAGTGAAAGAGTTTGTTTTTGGCAATGTGACATAGATCACACTTAGCTAAAAGGCAAAAAAAAAAAAGT
TAGAATTTATGAAAATATCACAATATAATTGACTGTACTTTGTTTTCCAAGGTAAATGCTGCTCTATCTTTTCAAGAGGGAATGGTAAAAAGATACTTCG
ATGATTCTTTATATGCATATTGAGCTAGTGCTCCTACACTTACAACTTTCATAATAAAATGACTTTCCTTTGCTATTCATCATAATAAAGAGAAAGCTTG
CACACAAACTAGTATTATTAAACATTTTAAAATTCGACTTTATTTTTCTAGATATAACCATCATCAGAGGCAGCAATTTACCCAAAAACTTATTCGTGTT
GGTCAACGTAGTAACTTCTTGGTGAGGAGAATAAGGAATTTTCCTAAAATCCCAGATTGGTTCTAACCTCTTCTTTTGTATGTGCATGCACTGAATTCTC
AGAGAAACTTCCAGTCGAGGCCAAGTTGCCATGGTTCAAACAAGCTCAAGAGCTAGAAGAAGGAGCTGCTGTGTCAGAGGAGCCCTCGTAAGTTGTAAAA
GCACAGACTGTTCTATATTKGAAACTGTTTTGTTTAAAGAAAGCAGTGTCTCACTGGTTGTAGCTTTCATGGGTTCTGAACTAAGTGTAATCATCTCACC
AAAGCTTTTTGGCTCTCAAATTAAAGATTGATTAGTTTCAAAAAGTGTTTGTCAAAGCTGATGATTGCATTGTAAATACTTCTGTTTTGCCTAAAGTAAG
AAAATGAAGGTGTAGTGCTTACCCTCTTCTCCAAAATCTGACCTCCTCTCTTCTCTGCGCAAGGGGCCAAAGGTGAGAAGGCCCAGGCTGCAGCTGATGA
TATAACATAGATTTGATGCCAAAGTCTGAGCTGCTTTTCACACTCTCCCAGTTTTGCAATACAGTCACAAAAATTAAAGAGCAAGTAAAGTATACCTGAG
GGCAAARGAAGTTCATTAACTTTTCTTTTCCCTTTCTTCCTGGGATTGGTATCAGGGATGGACCTGCTTATTTGCCCCACTTGATTATGTCCCATGTCTA
CTCAATTTTATCAAGTCCATGGAATCTGTAAAACCGTGAGGCCCAGATTTGCCAGTGTCTTCAGAAGAGGAAACAAATAGGAGAGACAAAAGTAGATTAA
GTGGATGATTGATAAGTTTATGTATTGATTTCATTAGAAAACACTGATAGGCATAGCTGCTACATCACTTTTACAAACGAGGGGATACAATTGATTGAAA
AATTTCATCTATGACCCAAGAAATTTCTCAGGTTGAAAAATTTTCTAAATTAATTCATTTAATGTAAGTTCTAAGCTCTGTGCTATTCACTGGCACTTAA
GATAACTCATCCACCCTCCAAGAGTTAATAGTGGAGCATGTAGGATATAAAATGATTTCCAAATTTTACTGGAGATATAAATTAACGTTGCAACCTATTT
AAATGCAATTTAGAATTTTCTCAGATTCATTCTGTTTGAATCTAAATCTGATGTGGTTTGCCAGAACACAACTGTGTTCCTGAGTGCACAAGAAATCCAA
AATATAGATTTGTACCATAACCAAAGGTCACTTGTAAAGAAACTATATTCTGTCATTTGATTTCACATACACCAAAAGGATGCACACATTAGAAAACACT
TTTTTTCCCTATTTTTTTTTTTTGAGATAGGGTCTCACTCTGTCACCCGGGCATGGATGTAGTGGCACGGTCATAACTCACTGCAGCTTTCACCTGCCAG
GCTCAATGAATTCTCTCACCTCAGCCTACCGAGTAGCTGGGACTACAGGTGCAGGCCACCACACCAGGCTATGTTTTTAATTTTTTTTGCAGAGACTGGG
GTTCTCCATGTTTCCCAGGCTGGTCTCAAACTCCTGACCTCAAGCAATCCGCCTGCCTCAGCCTCCCAAAGTACTGGGATTGCAGGCGTGAGCCACAGCG
CCTGGCCCGGGAAAACACATATTTTTACTTAGAAGGATAATTAAGCAAACATAAATTATWTCTGTACTGTAAAGTTACTACAGCAAACTTTTTGACTTCT
TTGAGAAAAAGCAACTAACCACTGCAGAACTTTGGAGGAAAGGGAGTGATTAAAGATCACAGTGTAACCTTGGAATGAAAATATAAAGGCTTACAATTTT
TTGCTTCTCCTCTGCCAGTACCTGATTTGACAGGCCWTTTTGTTGCTGAGGAGTAAATAAGCAGTTCTTTTTAGGGGGGCATTAATAACTTCTTAATCCA
GTAAGGTCCTATTTAAGACACAGAAAGATGCTATGTAATTAGAGCTGGTGACTCCTTTTATATCCTATTGGGTTAAATCTATTTGAAACCAGTTATGTTT
TATTTTACCTAAATAAACTCTTTTCCCCTTGTACACTGTATTTTGTCACTTGGACTAAAGCGTAATCCTATGTATAATCTTGCGTTCTGGCTGATGGTAA
ATAATAATACAAAATTGAAAGTAAATGGAAACATCTTACATCGATAAGCATCTTCCCATTATTAGATGCCTTTCAGATGAAAGCTATCAGTGGAGTTTAA
TGCATCCACAGAAGCATTACATAGACCATCGTCAACCATATTTTGTCATGAATATTTTCTACTAAAGATCCGATTAAGATGCATTACGTTTAACTTTAAT
CTTAATAAAATCTTTAAAGTAGTTAAAAAAGTTTTAGCCATTGAAAGTATAGCCATATATTAAACTATTAAAATTTACTCTTAGTGTAATGAAATTGCCA
TCTTGGCATGATTAATCTGAATTGGAGTAGATTGTAATTGGAGTGCTGGTGCAGGGTAAGGGAAATGTATACTATTGTGCTCAGAATAATAATTACTTTT
ATACCAAAATAAAATAAATGACAGCTGTAGAATAATGTAATGAAAGGTATATGGTTTCTACATTTTAATACACTTTATGTGTTTAGTGCACTGCACCCTA
AGAAACGTCCTAAGTGTCACTTTTTTTTATCTATATTGATTTTGAATTTAAAAAACATAATGTTGCATGGCCTTAATTCCATCTTTTCTTAAACCACATA
GACCGTTTCTAAATGTATGTAACAACCTATAATTACTCTCTGAAGCATATTGAAAAAATGATCAACTGTCAGCAAGTCATTCCTTCCCCCCACCAAGGAG
ACTCACACTGCTTAAATTAAATGGTAATGTTTAGAAGCTGTGGCTGTCACTTCTGAACTGCTACAGTGAGGCAAGAACAGTGGTCCACAACTATTATCTC
TTGCTTTGGCTCCAGCTAACATTGGAGAGTTCTGTGGTAAAGCAGTAAATATCATTTATTTCCGTATATGGAAAGTGAAAATATTATCACCAGCCTATCT
CATTATGTAATACAGAAAAATCACCAGATGAATGTCTTCAGCTTATGAAGATAACCTTGTTCGATGTTAGATACTTTTAGTAAACCCAAAATGTAAGGAC
AAGATTGGTTAGCACTCAGGCCAAACATATGTTGGGAAGTAACCGCTTTAAGATGTTTAGAAGAAAACAATGATAAAAGACTAAAAACTGAATTGCCAAG
AAATAAATAACACGTTATAGACCAGAAGAATGTACCAACAGCCAACATTGTGGTTGCAGTAAACACCATGCACAAGATATAAATCCAGATATCAATTTCA
TAGAACCACTGAAATAAATATGGAGATTGGCTCACATGGTGGTAATATGTAGATAGATTCATTATATAAAGCTGAATCTTCAACTCAAAAATACTTCTAC
ATGTTGATTTTTTTTCCCTCAACAACAGATTGGTTTGTTATGACACATCTGATTCATGTGGTAGAAAGGTAGGAATATTGTGATGAATACATATATGTAT
GTATGTATATATATATATATATATATATAGAAACGTAGTCTCACTCTTGTCGCCCAGGCTGGAATGCAATGGCGTGATCTCGGCTCACTGCAATCTCYAC
CTCCTGGGTTCAAGCTATTCTCATGCCTCAGCCTCCCGCATAGCTGGGATTACAGGTGCCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAAATA
AGAGACAGGGTTTCACCATGTTGGCCAGGCTGTTTTGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGA
GCCACCACACCCAGCCGAATATATTTTCTAGGTATGTACAACATGAGGAATTTAAGACCAGCCTGGGCAACATAGCAAGACCTCGTCTCTACTAAAACTC
AGAAAACTTAGCCAGGCATGGTGGTGTGTGCCTATATTCGCAGCTACTCAGGAGTCTGCGGCTGGAGGGTTGCTTGAGCCTGGGAGGCGGAGGCTGCAGT
GAGCTGAGATCWTGCCACCAAACTCCAGCCTGGGTAACAGAGCATTTCAAAAAAAAAAAAAAAAAAAAAAAAAATATATATATATATATATATATATGAC
TGTGACTAAGAATGCCTAATCTCCTGGGAATGCAGCCCAGCCAGTCTCAGCCTCATTTTACCCAGTGCCTATTTGAGATGGAGTTGCCTGGTTCAAATGC
CTCTGACTGTTGAGGTAGACTTCTACAATTACTAAGACTCTGGGAGAGTTCCATTTTTCCGAGGGTAATAGCAGTGCCGTGCTAGTACTAGAAAAGGGGG
GATGGGAAAAATACTGATAAAATTATCTTCTGTTAAAGTTCAAACTATGTCATTTCGAATTTCCCTCCAGCTGTTGAGAGTGTTGTTAGATTTAGGATAC
ATCATTTAAATGCCAGATTGAGCCCATCTGGTTGCTTTCATGGAAAAATATATAGGAATAGCTTTCTAGGTCTTTTTGGAAACTCTCARAAGTGTACATT
TATTTGGTGGGGAAYTGGAACTACAAAGTGGTAGTACAATTATATTTGTTAATCAGGTGGAAGCTAAAAAAATKACTGACAGGTTTCCCATCTCTTATTT
TTATACCGTAGTTTTAGTCTTGGTTGAGATGTRTGCATAAACATCACTATCACCTGACATGTATCACCCACGCAAGTACATAGTGTGACCCTTCTGACAG
CTTAATTTCTTGAGGAAAAATGATACAATGATGATCCCTAGGACATTTAAAGAAATGTTGTTGGATAGGAAGTCATTCAGCTTACCTTAAAAAGCCTGTT
CTGACTTGGGACAGGAAGGAAATTGTTCATTTCCTTAACTCCTTCAGGCAACTAACAGGCCACCTAATGCCCTAGAAGGTGTAATTTGCTAAGGGACTCA
TATTTTTWAAAAAAAAGGAAAAAGAAAAAAGAAAAAAARGTATAGTCTGGATGCTTTAGGTGCTCTTCCTGATCTCCAAAACAAGGCATCCCAGGTAGAG
AAAGTGAGGACCAGTGCGGCACTTAGGGAAGCCAGGTTCTTCCAGATATATTTCAGTTGCCGTAGTTCTTCAATGGCTCAGAAGAAGCAATGGGATATGC
CAGTTGCTTTGGACACAGTGTGGCCAAGATAGCAATTTTATCCAGATATTCCCTTGTTAAATAGCTGGCATTCGCCAGGTGGAAAGCCTTAATGATGCCA
TTTTTTCAAAGGTAGGATTGGGTAGTCCTTGTGCCTTGATCTTGCTTTTTAAAAGATCTTGAGTTATCTTATTAGATTTTCAGTCAACGGCTTTGCATGG
TTAGGAGACTATGTTTGTGCTTCAACAAAATAGTCAGGGCTTAAATGTATTGCCATAAATAATCTTGTTGTGAGCCATTACAAAAAAGAAGACAAAGAGG
AAGAAAAGTAAGTAAGCAGAAGGCAGCAGTAATATCTGGATGCCAGATGGCATCAGCTTAGCAATGGGGTTTATTCAATAAGAAGCAAAGGGAAATTCCT
GTCATGCATCTGTGAACAGAACCCAGAAGGAATTAGATGCATATAGAAAAACCAATAAGAGTCACCATGGTGATTCTGTAGTCATTAAATGCCTTGTTTA
TCTTGTTGAAAATAGTACTTAAAGATATAATATTTAAGCATATGTTTTCATTAGTCCATATTTATACCCAATAAGTAGTCTAAGAATGTAGATGGCTTAA
CTCAGTGGTTAAGAATGTGAATTCATATTTTTTAAGTGGCTAGAAATTTTAATTGTGTGACATGTGTTTTTATATCCCTCCTCAAAATGTAGTGAACCAA
ACATCATTTATGGGTCCATATAGTGTTACTATTTATATTCTAAATATAAGKTACCTGAATTATATTCTCTTCATGAATCTCAGGCCACAGAAAAGTAACA
ATGAATATCTTGTTTATGTGTAGAAACAGGTGAGATGATTCATGATTCTTAAGAAATCTAAGATCAGGAAATTTAAATACTGTTTGCAGATCTTTCAATC
AATAAAAAGAATGTTCAAGCAGCAAAGAGTTGAGCATTAGAATTATAAGATTAAAGAGCACTTAATTTTGAAAACTGGCATATGGTAGAGGTAAAGCCTC
ACACTGGCCAGACAGCATCAACCCTTCCCCTCCAATAGTCTTGACTTCTCTCACTTCCAACACCTTCCTTTCTGGCCTCTTCCCTATTCTCTGCAGCAGC
AAAGTGCTTAATATAATTTCTTGGGCTAATTCCATATTCTAGATGACTTTAGAGAGCCACTAGACTTGCTAAATTGTTCACACCTCCTAATGATGGAAGC
TAAACTTACCTATAAATCCCTTGCCCTATGCCATGCTATGTACCAGGTGCAGGTATTGCAAAAATAACCAGTCTTTGCCCTCAAGAAACTGTTAGTGCAT
TCTTATCACAAGAGCAATAGGATTGTGACCAAAGTGTTGAGTACTGGTTGTCTATCCACAGACTGAAGAAATGAGCTAGCTGTCTTTAAGAAATGCAATT
TGATGTTTGGATATCATATCATGAGAGAGTTACTGATTTAAAAAGGAGTTCAGGAGACTTATTTATTGAATTCCCAAATTCTCTACTAGCATATATCAGA
ATTGCATCTACCTCTAAGATAAAATATCAGATAGTTAAGCTACTACATGGTAATGCATAAAGATAAGAACTAAGTGATAAAAGAATACAATGTATACATT
GAAAGGGTTTGAGGGGAATGTTGATATGAACCGATGTTTGACAGATTATGATCAAACTGATTTGAGTCTGGCTTTGATTCCAGAACTAGTACTTGGGGAA
AGAGATATGATCTTTTTACATAGCAAGTGATCAGATATTTTGTATCATTATGTGTACCTCAGTTATTCCTACCTATATGTTAAAAACAGGCTATAGAAAC
TACAGATAATTTCCTAAAATTGATTTTTTTCAGATGCATTAAGCTGCCAACTGGGTGAGTTGGTGAGGGGTGAGTCTCTGTATTTGTATGCCCTGACAAA
GATACAATCCTGCTGGAATCAGAGTAAAAATCAAGTTAATTTTTGATCATACCTCCATGCAGGACAGCTCTGCACAGTGACTAAAAGTGTGGGCCCCAGG
GACAGAGAGCTTGTGTTTCAATCTTGACCTTGGGAAAGTCATTTAACCCCATATGCCTCCATTTATCACCTGTGAAGTGAGGTAATCACTACCTCATAGG
GTTCTTCTGAGGTTTAAGTTAATCTGTGTAAAGTACSTGGTATGCAGGAAGTGCTATGTATATAAATTTTTGTTGTGATTAGGCCTTTTCTAGCATCATT
CATTTTCCTAGAGAATCTTTAAGGGAGTTAAGATGTCTAATAACCACTTAATACAAATGGAGAAATTGAGGCAGCTGTTGTATCTGCCTCATACATCTTG
TATCTAATGGCATTTGAGAGAGAACAACAATATTTAACTCAAAACTCAGCTAGTGGGTTCCCAGCTTACACCACCTTACTTCCTTTCTTCGTCTACACTT
CTGAGGGTCTTTGAAGACTCACTTATAAGCACCATACTTTTAATTTAGCCCAGAGTTTATTTTTAAGGGACAAATCTTTATTTAAATAAAAAGAGATTTA
TGAGTAATTACAAAAATGAGTAAGAAAAGTTCAGAAGCTGCCTGGGTGAAAAAGCAACCTCTCTCTACTCTGAGTTAAATATACTTGATCTCCATGCGCA
GAAACAGCAGAATCAATAATAAACTCAAGAGAGCAGATAGAGCCGTTTTTTTGTAGTCATTCCTTGATTGCAAACCAAGAAGTTCTAAATTTATCAGTCC
CTCCCTCTGTCACCGCAGTTGCTCGTTCTGTGGCTACTTTCAGAAAGCTAAATCTGAACTGTCGCTTAGCAGAGCCCTAGAGAGTGACAAAGACAAATTA
ATGGGATCCTTGTGTGCCAAAATAAAGTATGCACCCTGTCACCACCAATATATGTTAAGTCCATTAAGGTCATTTTTAATGAACTGAACTTTTCATTGGA
AAGCTTTGCCAAACATGTTGAATTAAGGGAAAGAAACCTCACAAAATTACAAGATAAACTAATTTCATTCCATGTAAAGAAGAAATGGTACATGAAAAGT
ATTGAGTTTCCAATATTTTAAATCTTTATCAAAGTCAGGGAAAATGTTATGCATTTAAASTACATTCCAATATTAAGCTGAGAACTACAAATGCAGTGAT
AGCATTGTAAGCTGTGATGGCATCTGAGTCCCTGGGATGTGGCCTTTTAAGTAGACTATTTGCAAGGAAAAGCAAATTTTCAAATCATTTTCTGTTCATT
TAGATCAGAAAAGCAAAGAGAAAGAAAGATGGTCTGAAACAAGTGTMATATCCTCACTTTTCATTTCTGAAAGGAATAATTTGGCTTTATTTGTATCTGC
TACGTGGAGTGAGTAGTCTTTCTTCCTTTTTTCCCAAAATTTTATGGATGTTGAGTTTTAAAAAGTAGACAAAAAAGACAAAAGCTCTCCTTTGGGTTTC
TCTAACCTAGGAACAGTTCCAAAATGCTCCAGCGCTTCACTGCTGAGTAGCTGATGGCATGATAAGGCAGTGTTTGACCAGAGTCCTGTAAAAATTATTG
AAGTCAGCATCTGTCTCAAAGCTGCCCCTTAATTTTTTTATTCTTCAAAATGACATTTTATTGATATTTCACTGAAGTGTGATAGACACAGAATTTCAAC
TTACCTCAAGCTACATGACTATCTAACAACCCATCAAGATGAAATTCGGCCGGCATATACTGCATAAGTATAACTATAAGAAATATAAATGAATAAGCCC
ACTGTGGCTGCTCAGTTTGGGTATAGTAACTCTAACCTTTTCCTGCTGTAGGAGTTTTCTTATGGTTTCTATAGCCATATGAAACTCCTACAATAGGAAG
AGGTTTGTATTTCCTCATGCCAATGCCTAGAACAGAAAAATATGACTTAGTTTCTTAGAGTCTTTTGGCTGTTGCCTCTTTATCTAGCCTGGTTTCAGTC
TTTGGCCCTAAGAATAAGCACAGTACCAAGTCAATCATAATATTAACTCTTATCCTTCTGTTTATCAATCCATTTATTTCTTTGAAAAATTATTTATTGA
GCTGCTATTATGTGAAGTTCTACCTTCATAGAGATTTGGTCAAGTGAGGGGGACAATTATTACATAAAGATTTGCATTGTGATTATCAAAGACTGGTAGC
TGTTCTAAGAAAATGGAAAGATGCTCAAAGATGTTAATAGGGGACCTATTAGGTCTGAGGGTCAGTGCATTAGTCTCTTCTCACATTGCTGTAAAGAGCT
GTCTGAGACTTGGCAATTTATAAGTAAAAGAGGTTTCATTGACTCACAGTTCCACAGGCTGTGCAGGAAGCAGAGCTGGGGAGGTCTCAGGAAACTTATA
ATCATGGCAGAAGGAGAAGGGGAAGCAGGCACATCTTACATGGCTAGACAAGGAGGAAGAGGGCAAAGGAGGAAGTGCTACACAATTTTAAACAACCAGA
TCTCGTGAGAACTCACCATCACGAGAACAGCAAGGGAGAAATCTGTCCCCATGATGTAATCACCTTCCCCAGCCCCCTCCTCCAACACTGGGGATTATAA
TTTGACAGGAGATTTGGGCAAGGACACAAATCTRAGCCATATCATCCTGCCCCTGGCCCCTCCCAAATCTCATGCCCWTCTCATGTTGCAAAATACAATC
ATCCCTTCTCAACAATCTCCCAATTCTTAACTCACTTCGGCATTAACTCAAAAGTCCACAGTCCAAAATCTCATCTGAGACAAGGCAAATCCCTTCTTCC
TATGAGCCTGTAAAATAAAAAACAAGTTAGTTACTTCCAGGATACAATGGAGGTACAGGCATTGGGTAAATACACGCATTCTAAACGGGAGAAATTAGCC
CAAACAAAGGGGTTACAGACCCCRTGCAAGTCAGAAACCCAGCAGGGYGGTCATTAAATCTTAAAGCTCCAAAATGATCTCCTTTGACTCCATGTGTCAC
ATCCRGGCCACACTGATGCAAGGGGTGGGCTCCAAAGGCCTTGGGCATCTCCACCCCTATGAAGTTGAGTGCCTGCAGCTTTTCTAGGTTCATGGTGCAA
GCTGTCAGTGGATCTACCATTCTGGGGTCTGCAGGATGGTGRCCTTCTTCTCACAGCTCCACTAGGCAGTGCCCCAGTTGAGACTCTGTGTGGGGCCTCC
AAWCCCACATTTCCCATCCATACTGTTCTAGTAGAGGTTCTCCATGAGGTCTCTGTTCCTGCAACAGACTTCTGCCTTGATTTCCAAGCATTTCCGTACA
TCCTCTGAAATCTAGGCAGAGCCTCCCAAGCTTCAACTCCTGCCCTCTGTGCACCCAGAGGCTTAACACTATGTGGAAGCCTCCAAGGCTCATGGCTTGC
ACCTTCTGGAGCAGATGCCTGAGACATATCTGGAGCCCTTTTAGCCATGGCTGGAGCTGGAGCAGCTGGGACACAAGGAGCATTGTCCCAARGTTGTGCA
GGGCAGTGGAGCCCTGGGCCTGGCCCATAAAACCATTCTTCCCTCCTAGGCCTCCAGGCCTGTGATAGGAGGGACTGCCACAGCTCTGAAATGCCTTTGA
GGCATTTTCCCCATTGTCTTGGCTATTAACATTTGGGAAGGGCTGCTGTGAAGGTCTCTGAAATGCCTTCAAGGGCATTTTCCCCATTGTGTTGGCTATT
AAGATTTGGCTCTTTTTTACTTATGCCAGTTTCTGTAGCTAGCTTGAATTCCTCTCCAGAAAATGGGTTTTTCTTTTCTACCACATAGGCTGCAAATTTT
CTAAACTTTTATTATCTGCTTCCCTTTTAAATATAAGTTCCAGTTTCAGGTTATGTCTTTGCTCATGCATGTSATTATATGCTGTTAGAAGCATCCAGGT
CACATCTGGAACACTTTGCTGCTTAGAAATTTCTTCCACCAGTTACCCTAAATTATCACTTTCAAGTTCAAGGTTCAAGGTTCCACAGTGCCTGAGGTGC
CTGAGACCACCTCCCCCTGGACTTCATTGTCCATATCACTAGCATTTTGATTACAACAATTTACCAAGTCTTTAGGAAATTCCAAAGTTTCCCTGATCTT
CCTGCCTTCTCAAACTCTTCCAACCTCTGCCAGTTACCCAGTTCCAAAGTCATTTCCACATTTTCAGCTATCTTTRTAGCAATGCCCCACTTCTTGATAG
CCATTTTCTGTATTAGTCTGTTCTCACATTGCTATAAAGGACTACCAGTACTGGGTAATTTCTTTAAAAAGAGGTTTAATTGATTCATATTTCCACAGGT
GGTACAGGAGCCATGGCTGGGGAGGCCACAGGAAATTTACAATCATGATGGAAGAGAAGGGGAAGCAGGCACATCTTACATGKCCAGAGAAGGAGGAAGA
GGGCAAAGGGAGAGGTGATACACACTTTTAAGCAACCAGATCTCTTGAGAGYTCACTATCACAAGAACAGCAAGGGGAAAATCCACTCCCATGGTCCAGT
CACCTCCCACCAGGTCCCTCCTCCAATATTGGGGATTACAATTCAACAGGAGATTTGGACAGGGACACAAATCCAAACCATATCAGCCAGCAAAGCCCTC
TTTGAGAAGGGACATATATACTGAGACCTGAAAGATGAGTGGGAGTTATTCCAAACAAAGAGAAGGGAAGAGGGTGATCCAGGGTGCAACCCGCCCATGC
CAGAATCTTGAGTCAGGAAAGCATTGACCACATTGAAGGAAGTAAAAGAAGATTAGTGTGGCTGGAGAGAGTAGTAACTGGGGGAAAATGGTGGGAGATG
AAGATGGAAAATGCCGTAAGATAACCAAGATAACCTTGGGAGAAAGTTTGTCTTTTTTACCTGGGGACAGTAGGAGACAATTAAAAGCTTTACATTTTAA
GATTCCCCTAGCTACATCATTAAGAACAGGTCAGTAAGGAGTGACAGAGGAAGAAAATAGACCAGTGGCTATTGTGGTAGTCCAGCAGAAAGACGATGTT
ATCTTCAGTGATCAAGGTATGCGTGGCAGCCCATGGCAGGACAGTGAGGTGATGAAGAGCACCAACTGTGGAGCCAGCCTGCCAGAGTTCAAGTCCTGAC
AATACCATTTACTCAGCAGTGTGGCCTTAGAAATCATTGTATTCCAATATTATCATCTAGAAATTGAGATGAAAGTAGTACTATTAAAATATAATTTTCA
AAAGGGTACAATCATAAGTCTCATGAAAATATAAAATAATCACATGTCAAAAATATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTT
TGAGATGGAGTCTTGCTTTGTCGCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAAACTCCACCTCCCGGGTTCAAGTCATTCTCCTGCCTCA
GCCTCCCAAGTAGCTGGGATTACAGGTGTGYGCCGCCACACCCAGCTAATTTTTGTATTTTTTTTTAGTAGAGACGAGGTTTCACCATGTTGGCCAGGAT
GGTCTTCATCTCTTGACCTCGTGATCTGCCCACCTCAGCCCCSCCAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCAAAAATTTTATTTAAC
TCACAAATTATTGAGGAAGCCAATGTGATGTTAAAACTAGTTCAAATGAGAATTTGATTTAGAATAAAGTATATATTTTCTACCAGACAAAACCATTTGC
AGTGCCATGAACAGAAAAATACATATATTATTATGGACAAGAAACATCTGTATCACCACCAGACCTCTACAGGGAAACTTCTATCTCTATGGAGTTGCAA
AACAGACTAGCAAAGACCATCAAAGGCTCCTAATTCCATAGAACAAGACCACCCCTGGAAATTTGCTAGAAAATGCCAGCAGTTCGTTGAAAAGACAACC
AGTAATCTCTTTTGCCTATTTCAAAATGTTTCCAACAGTACCCATCTCCCAACAATGTCATAATGAGTTGTATATGTAAAATGCATAAAGCATGTAAGTG
TAATGTTCACTTATTATTGCTATATTAAGGTGGTGGTAATGGAAATGGAGAGAAGTAAATGAGTTTATATATATTTTCAAGGGAGAATTTAGAGAATTCG
GCAATCAGTTGAAAGTGAGATGTGAAGGAAATTGAGGGGTCAAGAATAACTCCTGATTTTTTACTTGAGCAATTAGGTAGCCATTAAAATCCTTTGCTGT
GGTGGAGAAGATTGGAAGACGATAGGGTTACTGAAGGGAGAAATCAGGAGTTCCATTATGGACATTTTAAGTTGGAGATTGAAGCTGCCTTTGAAACTTA
AAAGCAAAAATGTCAAGAAGGAAAAAATAGCAATGTGAAGTAGTTAAGAGCACAAAACCTTACTAGTTGTGTAACTTATGCTTCAGTTTCCTCATCGGTC
TATTAAATGGTAATAATAATAGTTTTATCTGATAATGTTCTTGTTCAGATTTAATAACTTTTATTTATAAAGCACTTAGAGTAGTGCCTGGCACATAAGA
AACACTAAATAAGTTTTTGATAAATACATTAATTAAATTAATGTTTACTTTTTTCAGAGAAGAAAGTTCTAGAATAGAGATTAAATTCTTAGAAGCTTCA
TGTACACTGATGGTATTTGAAACTAGGAATCATTGATGAACACATTGGAAGAYAGCACAAAGCCAAGTCCTGAGGCACTGCAATATTTTAATTTTTTTTT
TGAGACAGAGTCTTGCTCTGTCACCTAGGCTGGAGTGCAGTGGCATGATGATCTCGGCTCACTGCAACCTCCACCTCCTGAGTTCAAGTGATTCTCCTGC
CTCAGTCTCCCAAGTAGCTTGGGCTTGCAGRTGTATGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGG
CTGGTCTTGAACTCCCGACCTCAAGTGATCTGCCAGCCTCGGCCTCCCAAAGTACTGGAATTACAAAAGTAAGCCACCATGCCTGGACTGTGCCACTGCA
CTCAGCCAATATTTTGAATTTGAGAATAGAAGGACCTAGAAAAGGAGACTGAGAAGGAAGTAACCAGAGAAGAAAACCAAGAGAGTTTGGTGTCATGTAA
TTCAAGAGGAAGAAGTATTTCAAGAAGAAGTACTTGCAAGCAATGGTCAATTATTTTGAATGCCATTGGAAATGAGACAGAATGAGGATTAGATTTGTTA
AGAATAGCAGACAGTAAGGCCTGTGTTCTTAGAACCTGATACCAATCTTCCCCCTGGCCTTTTTCTTACTGTTAAAGAAAAGCAGCCTCCTGATGGTCAG
TGGGACCCTCCGTTAGTAAGACTCCTTATAATGTCTTGTCTAGAACCATATCAGAGAAAAGAGAAGGCAGAACTTCAAGATGACTTCAACAAAGTGCTCA
AACATCAAGATCCCAGGCTTTGAAAGAGCCAGTAGTCTCTGGATGAATTGGAACTTTCAGAGAACTCAGCCCCTGCAACATTTTCCTCTAGCATAAAGTC
TCTTTGAAAGGAAAATGTGCTCTTTAATGCAGTCAGCATTTTGTTTTTTAACCCAACTTCCATCACTGAGCATTTTCTGCAAGAAAGACATTCAGGCATT
CTTGCAGAGAGGCCAGCTGCCTCTCAACCCAAAAGAGCGTCATTGTCATGAGAAAAAGTCTGTTTGTTACTTGGAAAATGCCTGTAAATATAGCTTTTCC
ATGTGTTTTGCTGGGTTTTTTACTTTTTTTTTTTTTTTTTTTTGAGAGACTGGGTCTTTCTTTGTAGCCCAGGCTAGAGTGCRGTGGCACAATCAGAGCT
CACTGTAACCTTGAACTCCTGGGTGCAAGAGATCCTCCCACCTTAGCCTTCCTGGTCACTGGGACTACAGGTGTGTGCTACCAGACTCAGCTAACTTATT
ATAATTATTATTGGTAGACATGGGGTCTTGCTATATTGCCCAGGCTGGTCTCAAACTCTTGGCCTCAAGTGATCTTCCTGCCTTGGCCTCCAAAAATGCT
GGGATTACAAGTGTGAGCCATAGTGCCTGGCCACTTTAATATGTTTTTTAAATTAAGTTCTTCTGTCAAATTATTACTGGTTAGCAATATTAGACAGGGA
CACTCAATCTTTTTCTTTTCAAGTAGTTGTATTGGTGGCTGCTTCAAAATTATCATTTGTTTTATTTTAATTTCCAGGATCATTATATTTTTKATTATTC
TCCTGGGGCACCTTACAGTGCTGAAGATGCCTCATAGCCTAGGCTTGACACTTGAGGATTTGAGAAATCTATGAAAMGAAGTGGTGCTGTCAGATGTTTT
GAGGAGTGATGTCCTAGAACCTTTGAAAAATTTTGCTTAGAGACCTCAATATGAGTTGCATAACTAGCATGATTTATTTGCAGTTCCAGAGAATTGTAAA
CAACAGCAGTTGAGAAATATTTTCATAATTCCACATTCAGATTAAATATCCTTGAGTAAAGATATTTCCTAATAAGTTAGATTCTCATTTATGTGGAATG
ATTTAGGCGTGGTTCTAAGTAAATTTAGAGGGATATTTTGGATAAGTMTTATCTCAAAACTTTAATGCTCCAGCTATATTTTAAGAATGCCTTAATATTA
TAGATTTTACAAGTAATTTTAAAATTCCTAAAGTGATTCAATTGAAGAGTTTCCCTTCCATTATAGCATTCCAAATGGTGTTTGCTTACTTATTTTAGAG
GGTTTATTTAAAACTTTTTTTTGACATCATTGAGAGGCATTAAATAACTRAAGAGTTTTTACACGAGATCTTCTSATCTCATGTAAAAATGGGAAGTAGA
TAAGAGTAGAAATACAAAGAAGGTGTTTCCTTTTCTCTCTTCCAAGTTTCTTTCTCATCCAGTAGTAATTTTTTCCCTATTTATCCAAAAGCCTCTTCAG
ATGCCAAAATGTGCAGCTTAGGTTTAGTTAACTGCACTTTATCCTAAGGTTTTTACTCCATTAATGTCTCRAGGATTGCCCAGAATCAGGGGAAGGATCA
ACTTTTCAAAGTTTAAAAAATATATATAAGAATGAAGATTGGGTTAAAAAATGATGAGGCAATATGGAATTACATATTTTACCAGTAAAGTATGTAAATT
TTTTGGTCCTAAATAACATATTTATGGAAAAGACTTGATTCAGAGTAGAATTACTTATGACATATTTTCTTTTTCCAATATACTATTTTCCAGATCCCTC
TGTGGCCACTTGTTAATGATAAGATTTTTAAAAGGGAAAATCCATGATTCTCATGTAAATATAAAATGAACATCTGACAAAGATTTAACCTACCTCATTA
ACCAATGAGGGAACCAATAAGATGTTACAGCCAATTCAAAGGAAGTTTAAAAACCCTATTTATTTAGGCAAATATGAATGCCCAAATGAATTTACAAATA
GATGCAAAATTGGTCTAGCTACAGGGCAACAATCAACTGCATTCCACTAGACACAGTTAATCTGTATTTCTCTGGGCAGGAATCATTTGCACTATCAATT
TCTTGCCACTTAGAGGGTGGTAAAATATAATAGCTCAAAGTCAATGAAAGGCTAAGACAACCTAGGAAGAATGCACTTAACAGAGTTATCCAGTAATCAG
TAATCTTTTGGGTTCTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGCAGGCTGGAATACAGTAGCAAGATCTCAGCTCACTGC
AACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAATAGCTGGGATCACAGGCTCACACCACCACACCTGGCCAATTTCTGTATTTT
TAGTAGAGACAGGGTTTCGCCATGTTGGCCAGGTTGGTCTCAAACTCCTGACTTCAGGCGATCCGCCCACCTCAGCCTCCCAAAGTGCTGAGATTACAGG
CATGAGCCACTGTGCCCGATTTTAAACTCTRATTTTTCTCACATATTATTCAGTTTATTCCCTTCTCTTTTCTCACCCTACTGTCATGCCACCACTCACA
TACACAAACATACACCAAATCAAACAGGTAAAGAGAAATCCACAACCTCTATTGGCTCATGGCTTGAAATGTAATAAGATTGAAAACCTATACCTAAATT
GAGTATTTTTAATGAGACTTCCTGCATGTTTCAATTTGCATTTTTAAATTAGGGCATGAAACTAGTGATAGCATCAAAATAAGACACCTATAAAGCTGTT
TTTATTTTTAATAATCCCAATGATTTTTAAAACAAACATATATGAGAAAGGAAGAGAGAGGAAAGTAATAGGATAAAAGGAAAAGTTAATTTTCACATTG
TATTACTCCATTTTCACATTGCTGAAAAGACATCTCTGAGACTGGGCAATTTACAAAAGAAAGAGGTTTAATTGGACTTACAGTTCCATGTGGCTGGGGA
GGCCTCACAATCATGGTGGAAGGCAAGGAGGAGCAAGTCACATCTTACATGGATAGCGGCAGGCAAAAAAGAGAGCTCGTGCAGAGAAACTCCCACTTTT
AAAACCATCAGATCTCATGAGACACATTCACTGTCATGAGAACAGCACAGGAAAGACCCGCCCCCATGATTCAATCATCTCCCATCAGGTCCCTCCCACA
ACACATGGGAATTATGAGAGCTACAAGATGAGATTTGGGTAGGAGCACAGAACCAAACCATATCAAATATGTTAGTTACAGGCCATGTAGACATACACCT
AGAGGCTAGTGCTAGCTAATATCTGTGGTGACACGAGACTAATCAACCAAGAGTAAGTTGTTTTTGTTTATCAGTATATTAATAAAGTGATTATTTTTAT
TATTTCAGTGCATGCTTCTAACTCTATACTAGTCACTAATGAACTTTTAAACCATTTAGGGATTTTATAAGTGAATTTTATTGTCACTGTTTTCTATTTC
ATAAAAGAGACTATGGTAATTACTCTAATTAAAGAATATATTTTTTTCTTAATGAAAGGAACAATTAAGCTTGCAAATAGAAGGCCAGCCAGAAGCATTA
ATCATTCATTTGCCAGGTGTGGTTTGTTGTTGTTTTAATTTCCTGAGAAGGAAAGACTAAATACAGAATTCATATCAGTTACTTGTGAAGTTTACACCCA
TCTTTTAAAGAAATAATTTGTCAAACCATTCTTCATTCATCCAACAGTAGTGTTGCTAACAAAAAGARTTTTTTTTTTTTTCAAGCCGGAGTCTCACTCT
GTCACCCAGGCTGGAGTGCGGTGGCACGATCTTGGCTCACTGCAACCTCCACCTCCCGGGCCCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGG
ATTACAGGTGCCTGCCACCATGCCCGGCTAATTKTTGTATCTTTATAGAGACAGGGCTTCACCATGTTGGCCAGGCTGGTCTCAGACTCCTGACCTCAGG
TGATCTGCCTGCGTTGGCCTCCCAAAGTGCTGGGATCCCAGGCGTGAGTGCCCGGCCGACAAGAAGAATTTTTAAACTTCCCAAATTTTAACCTTTTTAT
TGTCCATTTTTACATGAAAGTGATTAATGTACTGATTTAAAAACAAAAAAAAATTTCCCTCTATTTTAAAGGTCCCTCTTTAAAGCTTCTAGCTCAGCAA
GTGCTGTTYGAGATGAGACTTCTAAACATTAGAATTAAACCTCCTAACTCACTTGCCTGCCCTCTCACTGACCTCGCTTCCTCCCACTTGTGGCCAGAAA
ACTCAAGATAGTAAATACAGAGCTGGGAGATCTAGGGACTTGGGGAAAAGCCTCCTATGAAAAACAGTTATTATTCATTTGTCCATTTGCACTATCAGAT
ATTTTTCTTTTGAAACATAATCTCCTGCCTTCAACAAAAGAGACTATATTATATTATACACTGTATGCACTAGAGAAATTAAGATGACTGCCAAAGGACA
GCACCACTTAAAAACCAAATTGTTTTTAATTGGTGTGAACTCGATGAAGACCTAAGGATAGTGGATTGGGAGATAAGCCAGTGAGGCTGTTTTACATTTG
ATAAAACTCTCATTTGGGAGACATAAAACAGATGTTTATTGTTTTTGCTATTAACCCTAGATGTCTAGATAGTAAAAAATTACACACGTGCATGCGCACA
TACATATATATATATATATATATATATATATATATATATATATATATATATATATGTTTTAATTGAAGCATGATGCCTTAAAATAACTTTCAACCATTGC
AACAAGTTCATGGGGCTTCAGTAGAATGGCCTTTCTATTTTATGTGCTTTTGGTATATCTTCTTGGTTCTGGAATGACATCAAATGCAAAGTCATTTATA
TTATAGACAAGCAGAGCTAAGAGTCTAGTTTGTGCATCATTTATATTCTAGATCTTATCTGGGGCTCGCTTTGAAAACACAAATCAAGTTGGCTACTTGT
SATATTCCATAAGCTTATATATGTGAAAAGAGATGGAAACTAAGACCTAAAATAAGTTTGAGGATTATCTATAGATCTCAATGCGTTTGTATCTCTACCA
AATGTTTTTTTCTATAGCAGGGGTTGGAAAACTACAGTCCACAGGCCAAATCCAGACCCTTCCATCAGCATCCCATCACACCCTTTTTAAAACTAAAGTT
TTATTGGAACACAGCCACACTAATTTGTTTACATATTTCATTCCACAATGGCAGAGTTGAGTAGCTGCAACAGAGTTCACGCAGTCCGCAAAATCTAAAA
TATTTTCAATCTGTCCCTTTATAGAAAAAGCTGGCCAGCCCTTGCCCTGTTATAATGGTTCCTAAAGAGGGCTCTTTATAAGCAACAGAACCATAATCCT
TACTGCATAGAAAAAGCTGGTAGGGTGCAGTTCTTTTTGAGATCTTGCCATCTTTCTGATTCGAAAACAAAGTTTGGTACCACACTATTAAAGAAGTATT
ATTCATCACACCATTGTCAAAGTTAGCAGGCTAATCATTTGCTTTTGTGTCTTCTTACATACAAAATAGTTGAGCATGCATTTTCCTTTGTGTCTGCATC
TGTGTGATAAAATTAAATGCTTGTGTATCTGTTATGATTCTTGTCACAGGAGCCAGGTAGGTGGATGTGGATGTGTAATAAAAGGGTTAAAATGATTTTG
ATAGCAGTTTTTGGTTTTATGTTCCTAAAAAGCTCCTGCAGGGGTCATTTTTTAAAGCAAGAAGACTTTTTAATCTTTTAGGATACCATTTTTTTCCAAG
TTCTCTAGGTGCAAAAGGTGGAACAAAGAAGTTAAAAGGGTGAGAGGGAGGTGAAATTGTGATGAGATTTTCTTGGGATAATTCTGGGTGGCCATTCTAC
CCTCATCCACCTTCCTGACAAGGTTATATGGGGACCTTTGTTCTCTCCTAGTGGATGACTCTTCAAAGGTAGCTGGGGTCAGGCCTTTTTCAAAGGGTCT
CTTGCCATGCCTCAGAGCACTGAGTGCTGCTTTGGGGGAATTCTTATCTTCTGAGCAGACCACCCCTGTTCCACATGAAGCCCAGGCTCAGGCCCAGGAC
ACATCTTTGTTGTGTTCCTTCCAGTTTGGAAATTTGGATTGGCTTGCTATTAGAATTTCAATTTCCCTGAACCAGATCTGAACCATTTGCACTTGCTAGC
ATTTAATGCTATAACCTTCTTATCAGTTCTTTCATTGTCTGCCAAAGTCAAGGTTAAGGAGCCAGGTTTGCATGCCTCTGCAGCACGACTCCCTGTGAGA
AAGCAATAGGATCATGGAAAAATGAAAAATAAAAAATAAAAAAATTATCCCAAAGTTTTTGTCTGAATTACACTAACTTTTTGAAACTATTAGTGGTTGC
TTCTGGGCTTTTTTTTCCTAGGCCCCTCTCAAGGTCATTATAGTTATGGCCACGGTTGATTAATGAAGATGGGAGGACATTTTTGGAGATTTGGGTATTT
TTCTACGTTCTAGAGAAAAACTCAGAAGTTCTTACTAATGTAGCTTGTTTTAGGGGACTGGGTGTGAGGATGTTGAGCACACTTGTCTGAATGCAAAACC
TCTCATTTACAGTGGTATGTGTGGATTTACATGTGTAGCACGGCTTTTCTCTATGATATAAAAAGAATTGGAGCTCAGACTAATTCAAAGAATGTGTAAC
GAACAAGACTTTGCACCATTCTTGGAAACTTACACACAAAAATACCTCCTTATACATATAAATAAATCTCGRGAAGCATATTGAACAAAGAAAGTTACAG
AATATGAGAGCCAGACTAAAAAAGAAACAAACTTCCTTAAATATCTCCAAGGGCTTATTTTGTTATCAGTATCAGTCTGCTATAAGAATAGCCAGCAACT
TGCAGGAGGCACAAGTGATGGAGTCACAGGGCAAACCCCAAAACTGAGGTCCAGCCTGGGTGGGACCTCATGGGTTCTTGGCTTCATGCAGGAAGGAATT
CAAGAGCTAGCTGACGAGCAAAGTGAAAGCAAGTTTATTAAAGTAAAGGAATAAAAGGGTGGCTACTCCATAGGCAGGGCAGCCCTGAGGGCTGCTGGTT
GGCTATTTTTATGGTTATTTCTTGATCATATGCTAAACTAGGGGTAGATTATTCATGAGTTTTCCAGGAAAGGAATGGAGAATTCCTGGAATTGAGGATC
CTCCCCTTTTCAGACCATATAGGGTAACTTCCAGACATTGCTACGGCATTTGTAAACTGTCRTGGCACTGGTGGGAGTGTCTTTTAGTATGTGAATGTAT
TATAATTAGTGTATAATGAACAATAAGGACAACCAGAGCTTGCTTTCATTGCCATCTTGGTTTGACAGGATCTGGCCSGCTTCTTTCCAGCATCCTATTT
TATTAGTGGGGTCTTATAAAACAAATTCCTATCTCATTGGAATTTAGAGTGAGGAGAAGAAACCACCAATTCCCTGCTTGGAAGAGCTACCACTGTGGGT
GCAAAGTAGGGAGCAAGCAGGTGGTCTCTGGAATGTCTTGCAGCTGGGAGTTCATGTGACATTCATGAAGCAAGCAACCCAGAAACAGTGGCAAAATCGC
TTATGAACTAAACTGAAGCGCCATCACAGGACAGGGTGGAGGAGCCCTGAGTACCCCTGGGACAGCTCTGRGCACTGGAGGCAGGTGGGATGCAGCCCCT
CACAGCCCCCATGGCTTCCTGCCTGGGGCTTCTCATCCTGTCCTCTTGTTTGCTTGCCGACTGCAGGTTCATCCCAGAGGCCTGGTCGGCCTGCACAGTC
ACCTGTGGTGTGGGGACCCAGGTGCGAATAGTCAGGTGCCAGGTGCTCCTGTCTTTCTCTCAGTCCGTGGCTGACCTGCCTATTGACGAGTGTGAAGGGC
CCAAGCCAGCATCCCAGCGTGCCTGTTATGCAGGCCCATGCAGCGGGGAAATTCCTGAGTTCAACCCAGACGAGACAGATGGGCTCTTTGGTGGCCTGCA
GGATTTCGACGAGCTGTATGACTGGGAGTATGAGGGGTTCACCAAGTGCTCCGAGTCCTGTGGAGGAGGTAAGAAAGGGGGCTCTGGCTCAGATCCCCGC
CATCTTCTTGCTCATTTTCTCTCTCTGCATGCAGCTGGATCATGTGACTGCCTCAAATCCAAGAATGATAAGCAGGAGGAGGAGGGGAGGCAGCCATTCT
AAATGTAAAGCACACTGAATCAAACACAGATGTATTTGTCTCTTGGCTCCAGTGGCTCTCAGACTGTCAGCTGTGAGTGGCCAGTACAACAAATGCTTTG
GCTTTCAGTTGTCATTCTGATGTCTTGCAACATATCATCGTGTATCTGGCTGAGAAACACAGTTGACACTGACCTGGCCGTGCTCTCAACATTGTTTTTT
TGATCTCTGCCCTTGCCTCAGTGCATGCAATGTGAACCAAGACCCAAGAACAAGTCGGAGTCCCTCCGATGTACTCAGCTGATTTCCCAAAGTAATATCT
GTTTACATCTCGAGGAAGGGTGTCTAAAAGGTAATTGATACAGTGGTTACCTGGAGCTGGAAAGGAGTTTAAAGTTCAAAGTCTGACCCCACCCCCATCT
TACAGATGAGAAAACTAAGAATCAAAGAAACAAAGTGATTTGTTCAAGATCATACAGCTGGTGAGCGACAGAGCTGGGACTAGAACAAAGCTTTCCTTTC
TCTGCCTGGAGCCTTTCCATCATACCACACTTTTTTAAGCAGCTAGAGAATTCTTGAAGCTTTCTCATTATGAATATCAGTTAACTCACGTTAAATGTTT
CCACATATATCCATCTGGTTCTCCTTGGTGTATTCCATGGTGATAGAACAGTAGATTCAGTGATTCTTTCAGATGTTATGAACAGGATTGTAGTGGCAGA
GGAAGGCATTGAAATCAACAACTGATTCTTCAAGATTACGAACTTTCTTCCCACACTAAAAATACGGTAGATTCATATTGACACCATCTCCTATATCTAC
TCCCAAGAGAAATTTTAATAGATGAGGGAGCGCCAGCTGATTTCTTGCCAGATCTTTCCCTGGCTATTAGTAACCCCTTTGAGCATGTTGAGATTCTGTT
TTCTCAGCAAAGATTCTTAATAACCGGTGGAAAAAAGCACTAAAATGATTTCCCAAAACTGTTTTCTAAACCATGATATTTTGGAAACTTTGAAAAKGCA
TCTTTTGTCATGATTGAGAACGTAAGAATAAATGCACCACACTGTTCACATGTAGTTGAAAAGGAATGAATAGTGGAACAAGTACTAGCAAAGAATCAAT
TTTCTCCAGCAGGTCTTTTAGTAAGCATTTAATAGTGCTGACCTTGAGGTTCTTGTTTGTTTCCACATCTTCCAGTTTCAAACCCTGGAATTCTGAAGTG
TTTTAATGGAGAGCCCTGGTATGTTAAAACCTAAATTCTTCCAAATGATTCCGGAAGACAGTTTCCTGGAACTCAGTGAATGTAACTGTGTTCATATGGG
ACTCTTCACTCATTTTGAGAACGTCTTTTCTTTCACGCTTAATGAGAGAGAAGTGTTAAATAAGCTTTGGTGATCTCTGGAGCCTGGGCAGGAGCTGAGA
GATCAGGTAGAAAGGCTGTTAGCCAGCGGCTACAGTTGCTTCTTTCCAACATAGCAGATGACTCAGCATTCAGATGGTTGTGCTTTCATCCCCAATTTCC
ATGATCACCTGAATTGAATGATCATTATTTCTAGTCTAAGACAAATGTGCTTTAAAAAATTATTTATGGTCTCTCAGTTATAGTTCTCAGTTACAAGTCA
AGCCTGGAAYTTTATGAACAGATGSAAAAAATAGATACAGTAATGGAATATCTAAATAACCAGATACCTTTTTCTTTAAGAGTCTAACCATTCTGCTGAC
CAACCAAGGGTATAAAATTTGAAGTGTCGAGTGTATGTGGAGTGTATTTAATTTAAAATGTTTTTAGAAGATACTGATTTAGAAATAAGATTTGGATGTT
TGAGATACAATTGATCTCTACCTATAGAAGCTAAGTGTTTTTATATAACGTAAATTGTACATCCTTTATATCCAAAGCAGGGTAAAGTTACTGAAATCTC
TTAGGTCTTTAAATGTCAACAACTGAACCTACTTACCTTCAGTTATGTCACTGTGCCAAGGTAATATATTTAAGCCTAAAAARTTAGAGTCGAAAATTCC
AAAGTGATGAAAATATGCTTGGGTTATATGGTCCATATGATGCCCATATGCACTAAAATTTATTTTGGTATATAGGACGTGTATATTTTCAAGTCTTTGT
TCGACAGTAACATTTTACTGTATTATCAACTTTGATCTTTCACCAAAATGTMACCCACAAGGTTATATATATTTTTAATTATTTCTTCTGAAGCCAACCA
AAAATCTGCAGGATTAACAAATAGATTTTAAATCAATTTTGGGTTGTAGAGCCAGTCAGGCTAATTTTATTGTTTTTGTAATCTCAAGAGATGAAATTGG
ATAGACAGAAAAGTAACCTTTCACCTAGCAGAGGTAGCAACCAGAAGGAACTAGTTAGTAATTTAGTCTGTAGTTGGTGGCTGTGTTTCCCTGAGCTGTC
ATCAAATATCATGTAACAATTATACTATTCTGGGAGATATAAACACTGAAAATCCCATTTTCTGGAAGATCGAACGCAAGCCTAACCTGCTCAGATCTGT
ATCCTGTGTCCAACTRTCACTTCCTTGTTAGATTTTAATTTCCCACATGTGAACTGATAGGTGTTATCAAGGAAAACAACTCTGAGCCYGATCAGCTTTA
TTGTATTGAACTCCTAGACAGTAAAATCCACGTTAAAATCTAGCTGGGGGAATACTTGACATTGACTTCAGCAAAAATGGAAGATGAAGCCTTGTACCTG
TTGTTCCCCTTTTCTTACAAGTCCTCTCTACTTTTTGCTTCTGTCAAGAAAGGAAAACCCAGAATCATCAAGTACTGTGCTTAAACATGTTCTCTGTCGG
TTTACAGTGTCCTCCTGAGAGCATATATTAGCTCTTTTGGAAAGAGCACAAACTTGATGAGCTAACTTCTCACATCGTGCCTGCCTCCCATGGGCCAACT
CTACTGTGAACTCCAAGGTGAAGCCCTTAGAGTTTTTCCCTCCTCCAGCTTCCCACACTCCCAGTTCCAGGGCGGCTCTGTCACTCCAGGTTCATGCTCC
CCAGGCAACCCATTCCCACCTCCCCTCAGCCTCAATTGCATGCTGTGCTTAGAATGCCCTGCCCTTTAGCCATTGCATTTGTTCATCCTACAAAAATGTA
TTGAGTGTTGACCACAGGGCTGGCCCAAGATACTCCTTAATTATGACAGAACTTCTGTCCTTAGTTTCACCCACCACACTGGGCTCCACCTAAGAAGGAT
GAGGCAAGTGGTCCCTGTGATAACAGAGATTTAACACACAGCACTGGGGAGGCCTAGAGCCTTGTTTTAGAATACTTCAGATTAGAATGTAGTAACTCTG
GACTGCTTCTTAGTCTCAGCACTTCATCACCCCATGGGTTATTTTAATCTTTCAGCTATGATTATTGGTTTGGAGTTATGTAAATTTGTGTTTGACAAAC
CTAAGAGAGGAGATTATTGGTGTCTTTCTAGAAATGTAGCCCTTACTTTCCCCATTCCTTGCAGTCTTAGAAGGGCCTAAGTTTTKTTTTKTTTTTTTKT
TTTTTTTTTTACAAAATTGAACTATTTTAATTAAGGGTTTTAGTTTACATTTGGCCACCTCAAAGTAGTTGTAACATTGGGTTGGTCAATTTAAATACTG
KGGCTCCTTGTTGGATGGACACAATCTTTACATCCAAACGTTAATGCATACAAAGCAACATGGCATTGTTAAACAAAACAGCAATACTTACTGAATATTG
GGCCTTGTGACCAATTCCATATGATTAAAATTACTTCCCACATTCACACCCACAGTACTCGTCCACCATTTAAAATCTCAACCAAAACGTTACACATATG
AAACAATCACTAACAGGCAAAAATACTAAACCTGTATATTTAGTATTGCAGATACACTTATGCATGAGCAAGGAAGCAATTCACAGTGATGATCTACAGC
TGCAGAAGCCTGAAAATGATTTACAAAAATTGTTACATCATTAAAAAWTTGTTTGAAAATATACATTTCTTGTTGTAGGCACCCACTGTATACATGACTA
TAAACATTGTTCCTTATGTAAACAGAAAAGGAAACATATAATAAGAAATTTCAGGCAAGGAGCCAAGATGGCCGAATAGGAACAGCTCCGATCTACAGCT
CCCAGCGTGAGCTACGCAGAAGACGGGTGATTTCTGCATTTCCATCTGAGGTACTGGGTTCATCTCACTAGGGAGTGCCAGACAGTGGGCGCAGGTCAGT
GGGTGAGCACACCGTGCGCGAGCCGAAGCAGGGCGAGGCATTGCCTCACTCGGGAAGCGCAAGGGGTCAGGGAGTTCCCTTTCCTAGTCAAAGAAAGGGG
TGACAGACGGCACYTGGAAAATCGGGTCACTCCCACCCAAATACTGCGCTTTTCCGACGGGCTTAAAAAACGGTGCAACAGGAGATTATATCCCGCACCT
GGCTCGGAGGGTCCTACGCCCACGGAGTCTCGCTGATTGCTAGCACAGCAATCTGAGATCAAACTGCAAGGRGGCAGCGAGGCTGGGGGAGGGGCGCCCG
CCATTGCCCAGGCTTGCTTAGGTAAACAAAGCAGCTGGGAAGCTCGAACTGGGTGGAGCCCACCACAGCTCAAGGAGGCCTGCCTGCCTCTGTAGGCTCC
ACCTCTGGGGGCAGGGCACAGACAAACAAAAAGACAGCAGTAACCTCTGCAGACTTAAATGTCCCTGTCTGACAGCTTTGAAGAGAGCAGTGGTTCTCCC
AGCATGCAGCTGGAGATCTGAGAACGGGCAGACTGCCTCCTCAAGTGGGTCCCTGACCCCTGACCCCCAAGCAGCCTAACTGGGAGGCACCCCCCAGCAG
GGGCAGACTGACACCTCACACGGCCGGGTACTCCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAAACAGAAAGGACATCCACA
CCAAAAACCCATCTGTACATCACCATCATCAAAGACCAAAAGTAGATAAAACCACAAAGATGGGGAAAAAAACAGAACAGAAAAACTGGAAACTCTAAAA
AGCAGAGCGCCTCTCCTCCTCCAAAGGATCACAGTTCCTCACCAGCAACGGAACAAAGCTGGACGGAGAATGACTTTGATGAGCTGAGAGAAGAAGGCTT
CAGACAATCAAATTACTCCGAGCTAYGGGAGGACATTCAAACCAAAGGCAAAGAAGTTGAAAACTTTGAAAAAAGATTTAGAAGAATGTATAACTAGAAT
AACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAACCAAGGCTCMAGAACTACGTGAAGAATGCAGAAGCCTCAGGAGCCSATGCGATCAA
CTGGAAGAAAGGGTATCAGCGATGGAAGATGAAATGAATGAAATGAAGCGAGAAGGGAAGTTTAGAGAAGAAAGAATCAAAAGAAATGAGCAAAGCCTCC
AAGAAATATGGGACTATGTGAAAAGACCAAATCTATGTCTGATTGGTGTACCTGAAAGTGAYGKGGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGA
TATTATCCAGGAGAACTTCCCCAATTTAGCAAGGCAGGCCAACATTCAGATTCAGGAAATACAGAGAACGCCACAAAGATACTCCTCGAGAAGAATAACT
CCAAGACACATAATTGTCAGATTCACCAACGTTGAAATGAAGGAAAAAATGTTAAGGGCAGCCAGAGAGAAAGGTCGGGTTACCCTCAAAGGGAAGCCCA
TCAGACTAACAGCGGATCTCTCGGCAGAAACTCTACAAGCCAGAAGACAGTGGGGGCCAATATTCAACATTCTTAAAGAAAAGAATTTTCAACCCAGAAT
TTCATATCCAGCCAAACTAAGCTTCATAAATGAAGAAGAAATAAAATACTTTACAGACAAGCAAATGCTGAGAGATTTTGTCACCACCAGGCCTGCCCTA
AAAGAGCTCCTGAAGGAAGCGCTAAACATGGAAAGGAACAACCGGTACCAGCCGCTGCAAAATCATGCCAAAATGTAAAGACCATCGAGACTGGGAAGAA
ACTGCATCAACTAATGAGCAAAATAACCAGCTAACATCATAATGACAGGATCATATTCACACATAACAATATTAACTTTAAATGTCAATGGACTAAATGC
TCCAATTAAAAGACACAGACTGGCAAATTGGATAAAGAGTCAAGACCCATCAGTGTGCAGTATTCAGGAAACCCATCTCACGTGCAGAGACACACATAGG
CTCAAAATAAAAGGATGGAGGAAGATCTACCAAGCAAGTGGAAAACAAAAAAGGCAGGGGTTGCAATCCTAGTCTCTGATAAAACAGACTTTAAACCAAC
AAAGATCAAAAGAGACAAAGAAGGCCATTACATAATAGTAAAGGGATCAATTCAACAAGAAGAGCTAACTATCCTAAATATATATGCACCCAATACAGGA
GCACCCAGATTCATAAAGCAAGTCCTGAGTGACCTACAAAGAGACTTAGACTCCCACACAATAATAATGGGAGACTTTAACACCCCACTGTCAACATTAG
ACGGATCAACAAGACAGAAAGTCAACAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAAGCGGACCTAATAGACATCTACAGAACTCTCCACCCCAA
ATCAACAGAATGTACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATACTGGGAAGTAAAGCTCTCCTCAGCAAATGTAAAAGAACA
GAAATTATAACAAACTATCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAATCTCACTCAAAACTGCTCAACTACATGGAAACTGAACA
ACCTGCTCCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAATGAGAACAAAGACACAACATACCAGAATCT
CTGGGACACATTCAAGGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCACAAAAGATCCAAAATTGACACCCTAACATCACAA
TTAAAAGAACTAGAGAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAACTAAAATCAGAGCAGAACTGAAGGAAATAGAGACACAAA
AAACCCTTCAAAAAATTAATGAATCCAGGAGCTGGTTTTTTGAAAGGATCAACAAAATTGATAGACCGCTAGCAAGACTAATAAAGAAAAAAAGAAGAAT
CAAATAGATGCAATAAAAAATGATAAAGGGGATATCACCACCGATCCCACAGAAATACAAAGTACCATCAGAGAATACTACAAACACCTCTATGCAAATA
AACTAGAAAATCTAGAAGAAATGGATAAATTCCTCAACACATACACTCTCCCAAGACTAAACCAGGAAGTTGAATCTCTGAAGATAGACCAATAACAGGA
TCTGAAATTGTGGCAATAATCAATAGCTTACCAACCAAAAAGAGTCCAGAACCAGATGGATTCACAGCCGAATTCTACCAGAGGTACAAGGAGGAACTGG
TACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTGATGAGGCCAGTATCATACTGATACCAAAGCCGGGCAG
AGACACAACCAAAAGAGAGAATTTTAGACCAATATCCTTGATGAACATTGATGCAAAAATCCTCAGTAAAATACTGGCAAACCAAATCCAGCAGCACATC
AAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAATATATGCAAATCAATAAATGTAATCCAGCATATAAACAGAA
CCAAAGACAAAAACAACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAACCCTTCATGCTAAAAACTCTCAATAAATTAGGTAT
TGATTGGACGTATTTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAGCATTCCCTTTGAAAACT
GGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATTAGGCAGGAGAAGGAAATAAAGGGTATTC
AATTAGGAAAAGAGGAAGTCAAATTATCCCTGTTTGAAGATGACATGATTGTATATCTAGAAATCCCCATTGTCTCAGCCCAAAATCTCCTTAAGCTGAT
AAGCAACTTCAGCAGTCTCAGGATACAAAATCAATGTACAAAAATCGCAAGCATTCTTATACACCAACAACAGACAAACAGAGAGCCAAATCATGCGTGA
ACTCCCATTCACAATTGCTTCAAAGAGGATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAAGAGAACTACAAACCACTACTC
AAGGAAATAAAAGAGGATACAAACAAATGGAAGAACATTCCATGCTCATGGGTAGGAAGAATCAATATCATGAAAATGGCCATACTGCCCAAGGTAATTT
ATAGTTTCAATGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAACCAAAAAAGAGCCCACAT
TGCCMAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTACCTGACTTCAAGCCATACTACAAGGCTACAGTAACCAAAACAGCATGGTAC
TGGTACCAAAACTGAGATATAGATCAATGGAACAGAACAGAGCCCTCAGAAATAACGCCGCATATCTACAACTATCTGATCTTTGAAAAACCTGAGAAAA
ACAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTA
TACAAAAATCAATTCAAGATGGATTAAAGACTTAAACGTTAGACCTAAAASCGTAAAAACCCTAGAGGAAAACCTAGGCATTACCATTCAGGACATAGGC
ATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAGAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAA
AAGAAACTACCAGCAGAGTGAACAGGCAACCTACAAAATGGGAGAAAATTTTCGCAACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGA
ACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAGAAAGTGGGCAAAGGACATGAACACAGACTTCTCAAAAGAAGACATTTATGCAGCCAAA
AACCACGTGAAAAAATGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTA
AAAWGTCAGGAAACAAYAGGKGCTGGAGAGGATGTGGAGAAATAGAAACACTTTTACACTGTTGGTGGGACTGTAAWCTAGTTCAACCATTGTGGAAGTC
AGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGATCCAGCCATCCCATTACTGGGTATATACCCAAAGGACTATAAATCATGCTGCTAT
AAAGACACATGCACACATATGTTTATTGCGGCATTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAA
TGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATTCTCAG
TAAACTATCGCAAGAACAAAAAACCAAACCGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGAACACATGGACACAGGAAGGGAACATCACACTC
TGGGGACTGTGGTGGGGTGGGGGGACGGGGGAGGGATAGCATTGGGAGATATACCTAATGCCAGATGACAAGTTAGTGGGTACAGCGCACCAGCATGGCA
CATGTATACCTATGTAACTAACCTGCACATTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATAATAATAATAATAAATAAAATAAAATAAAAT
AAAAATTTTAAAAAAATAAAAAATAAAGAAATTTGAAAAGTCTGCCCATTTCCTTCCCAACAGATATTAAAGGCAATCTGTTGAAGACATTATACTGAAA
GGACTATCATATTTTAAAGACAAGATCACTGTCTCCATAGGTTTTTGAAACATTTTTAAAAACYATATAGCTGTATTAATTAGAGCACTTATTTTCTACA
ATAATAGTGACCTTAAATTTCTTTAAAAAAATTACAATWAGCTACAAGTATCAAAGAAGCAAAGTCATCTAGAGTAGTCTACATAGGAGCTCTTTGGACT
TTSTTTTATTATGGTAAAATAGTGGTGCTTTTAGGATTTACATTATTGTACTCTCCAATACAAAGTATGAGTGAGGGTTAGAGTATACAGTACACCATTT
TCATACATGTACAACGTGGGTGGATGAAGAATGTCTCTTAGCAGTAATACTGGATGTAGTCTCTGCTTTTACCAGCTGCATAATCTAGGACTATTATATA
AGTAAAAATCTCTCTTGTGAWGCTTGAAAGTGATTAGAATGTGCAAASTGATATAGTAGCTTTCATATGCTCTTAAAGGGTACCACCACAGGAAAGTCCA
TTTAAGATGCTGGTAGGTTTAACAAAGTTGGARTGTTGGCACTATTGAATTGGACAACAGTTCTTCAGAGCTGACTCAGAGCTGCAATGCACTTAGTACA
TTAAAGCAGCTGACATGATGACTTTTTGCGAGCCTTCCCAGGCACTGGAGTTTTTCTGTTAATCTGCCGCACTAGGTCATAAAAGATCTCATTAACATTT
ATTTTGAATTTTGTAKAAGAATCTAAGAATGCACAGTTGTTCCMTTGTCTTGCTAGATTTTTGACCTTSTTCCTTCCCTACAGCTCTTTCATCTTCCAAG
TCATACTTATTACCARCAAGAATCATTGGAACATCATCAGTGTCTTTAACTCAAAGAATCTGTTCTCTCAAGTCTTGCAAATCATTAAATGTGGACTGTG
CTTTGATGGRATAAACTAATGCAAAGCCTTGTCCATTTCTCATGTACAAATCCCTCCTTGCTATACATTGTTCCRTTCCTGCAGTATCCAAGATTGCAAG
CATACACTGYTGTGCATCTACTTCAACTTGCTTTCTATAAGAATCTTCTATCATAGGACATATTTTTCAACAAAAATTCCTTGAACAAATTGTACATTCA
AAGCAGACTTTCCAACGCCTCCTGGGCCAAGAATGACTAGCTTAYACTCATGCATGATGCAAACTTGTCGAAACCTAGTACCTCTCACGCTGTCACCRGG
TTCCCGCAGCCAGTGTCACTCCCTCCGGGTTGCTACTCTCGGCACCACAGCAGTCCTGCCGCTGCCGCCGCCGCTCCAGCTGGTTTACACACCTGACTCT
GGGCGAGGTTTGGCATTGTCCAGAAGGGCCTAAGTTCTATCAAGAAGGAGTTCACAAAGTGGAAACACAGGTCACATCACTTACACACCTTCACACACAC
ACCTGATCCAGTCACTTTCAARTAAAGCATGTGACAAGCCCACGGTCACTTCCTGCCTCAGGATCGTTGACCCAATTTCATAAGGTTTTCAACAGCTGAA
TAAAGGCAAAATATGTTTTATTTTAGAGTCTCATTTAGAATCTCTTGAATACTACCAAACAGGTAAATGAGTTAAAAATTTAATTTCTAAGATAACCACA
GCTCTAGATTCTGTATGGGATAGAAAGCTACATCCAGTGACTTCTCATCACTACCTTAATAATACTAGACTATTCCAGTGGGAAGTATCAGTGATTATAT
CAACTGTTTCTTATGAAGTGTTTGGCTGTGTCGTCATACCATGAATTTCAAATGGCTCATCCCATCTACAACCAAGAGAACACCCTGCAGTCAGCATTAC
AGAATATGATGGAATAATTTGAATGTCTAATAGAAATCTCAAATGCTCCACCCTGAACTGGCCATGATATATTTAAATTAAATTTTGAAGCTCATAAACA
ATTTAGAAAAAAGAAAATGTAAAGATACCATCACAGCCACAGGGTAAATATTGTGATTCTTTTTTTATTTTTATTTTTATTAATTTACTTTTGAGACGGA
GTTTTGCTTTTCTCACCCAGGCTGGAGTACAATGGTGTGATCTCAGCTCACTGCAACCTTCATCTCCCTGCAACCTTCACCTCCCATGTTTCAGCAATTC
TCCTACCTCAGTTTCCCAAGTAGCTGGGATTACAGGTGTGCACCACCATAGCTGGCTAATTTTGTACTTTTAGTGGAGACGGGATTTCACCATTTTGGCC
AGGCTGGTCTCGAACTCCTGACTTCAGGTCATCCGTCCACCCTGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACTGTGCCTGGCTTTGTGGTTC
TTTTTTTWWAAAAATGTTTAATTTCTCAGACTTACAAAGAAGAAAGGTGATTTGGACTCCAGCTGAGTCACTTTTTAAATGATGGCCTTCCTAAGTGGAC
TAGATCAATGTCACATCAACCTAGGAAGTATTAGCTGATGATTGAGCTGATGACTTCTTGGAGAAACACAGCATACGTGGGAGGAGAGCAGCATGGTGGG
TCAACTGTACTATACTAGGTAGTATCTGATGAAGCAATGCAGAAAATAAAGCAAGGCAATATATGTGTATTTATGTATATTGCTAATTACATGGATAGTC
CCAGACTCTACTATAACTATATATAAATGTCCAGCTATAGATAGGTATCTTTAAATGTAAGTATCTTTATATACACAGCTATGTATGTCTGAAGGCAAAT
TAGTGAGAATGTCCTGTCTTGCCTCTTCACTCAMACTGAGCTCTGCTGAAATGATTCCAGACARATGTCTAGGTTATTCCTAAAGATCTCCAGGGAAGTA
GATATGACAGCCTCTTAATATTTTTAAATATTAAGTCTATCAGTCAGTACTAAGGGCACAGCCATCCTCAGCTTTACCATTTACAACTGTATGAACTTAA
GCAGGTCTTTTCACCCTTCCCAGCCTGTTTTCTTATCTGTTAAATGGGAATAAAAATAGTGCTTACTTTGTGCAGTTGTTGAGAGGACTGAATGATGCAT
GCCAAGCTCTTAGCGTTGGTACCTGGTTAATAATGGGCATCCTGTATATGTTAGCTACTGTTATTATGACTGGGCATCAAAATGAAATGTCTGGTCATTA
CATTGCTCATTTAAATGTCTCCACAAGGGGACCAGGTGCAATGGCTCACGCCTGTAATCCCAGCACTTTTRGAAGCCGAGGTGGGCAGATCACTTGAGGT
CAGGAGTTCGAGACAGACTGACCAGCATGGTGAAACCCCATCTCTACTAAGAATACAAAAATTAGCCGGCCATGGTGGCACACGCCTGTAATCCCAGCTA
CTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGAAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTACACTCCAGCCTGGGCAAGATTCTGTC
TTGAAAAAAAATTTTAAAATAAAATAAAAATAAGTGTCTCCCCAAGGGCCCTGCAAACCACCTTGGAGAACTTCCCAGTAACCTTGTGCCAGTCACTGCT
CAAACTCCTGTTTCACTAGCTCTGAGTCAGGGCCTGCGGGTGTCAGTGGGAAGGTTGTTTTCCACGGCTGTGGTTATTATGCATCTTATTCTCYTTCTTT
GTTCCARCTTCCAAGGCTGCCCTAGGTCACAAAAGAAATGAACCAGAATCAGAAGGCAAACAGCAAAGACTGGAGTCCTAGATTCAAGACCTCAAGAGCC
CAGCAGTTTACAGAATTCTGGATATAAAACATGGCCTTGGGCCTCCCTTCCAAATACAACGATTTCCTTTCAATTAAAATATAAGATGTGAAGGTTTTGG
GCCCCTTTTTTGCCACCCTGTGCTCCTTGTTCATTGAAGTATCAYGTTCCAGCATTGGTGGCATTAGCCTCGTGGCATTTTTTTAAGCATTTCAAGAGTC
TAGGTAGCAGCCTCTCTTCTGTGGGGGAGTTGCCCTCCTCAAGGAGCATGCTCACAGAGGCAACAAGCTTATGAATACTTTCTCCCAGCTCAAGTGATGC
TTGACAAGATTGGCAGTCCTGGGCTTTAAACTGCCATCTCTGACATACAGCGAGAGTCCTACAGAACACAGGGACCTCCCACCAGCTGCCTTGTCTACAC
TTCATCACCCCCCACACACACACCCACTTTGCACTCTGGCCTGACCRTGTGATTTGTACACAGGTGTCCAGGAGGCTGTGGTGAGCTGCTTGAACAAACA
GACTCGGGAGCCTGCTGAGGAGAACCTGTGCGTGACCAGCCGCCGGCCCCCACAGCTCCTGAAGTCCTGCAATTTGGATCCCTGCCCAGCAAGGTAAGGG
ATGTGTGGCCTGCCCTGCTGTCCAGGGGCACGTACAGAACTGGGCGCATCTTTCAGTGGGCAAGACTGTAACACTTAKTTGTTACTCAGTGTTTTGAAAA
CCAATTAGCATCAGTTCAAACTTTTAGTCAAATCCACTTAAGTTTAATTGAAACCAGGGCTTTGGAATTCTAGCCCAGTCAATGGTCATGCCAGAATCTG
GAAGATACCGTGCATTCACTTGAGCCTGTGGCATGGCTGGTATGTGTKTGTGCCACGCAGTTGCTTTCCCCTAAAGGGAACATGAGGTGACMACAGACTT
CATGGGCTCTGCCACCTTTTAGCCTGTGTCCTAAGCACTCACACCATAGTAATGAACTGGTCTGTGAATTGCAGAATATAAGGGCCTGAAGCAACTGGGT
GGTATAATTGATCCACTGTGAAATCTATATGCACACAGCATGCAGATTCATCGTAGCATGCTCTGGGKTGTGTGTGTGTCATTCCACATGCGTAAAATCA
ATTAGAGCATTTCATTGTTCAGCCCTGCCTGGGTCTCATTATTAGCCAACATTGAGTCACAGCCTTGATTGAATTAATCAATCCAATCACTGCTTCAGTC
CCTACAATTTTATGGTGTCTTGAGAAACTTGCCTTCTAGATACTTCTTTTTGAGCAAATCTCATCTATGGGTTTGGAAGGGAGACGTTTAAGAACYAAAT
CCAGACTTTCAAATCTGCTGATGGAATGAAGAAATGTTGCTGAATAGGGTCAGATCCTAGATAAAAGGGGGAATGCTGATTTTGAATGATAGTTTTTCTC
TTTCTGCAAAGTGTGTCATGTAAGAAGTAGTTAATACCTGTATTGCTGTCAGGCATTAACAATAGTTTGCTGGTCACGATGATGCACTGCTTGTATTATT
TCCCAGCTGGCTAGATTCCTTTCTTTGGGACTTGGAGGGTACAGATCATAGTCCTCCTCCAATCACATGGAGGCACATCCCATGGKGACACTCCTCCTGC
TAGTCACCAGAGTTGTTCTGTATGATGATCTGAATGGTGGACCAGGGCATTCCCCTCTTCAAATACAGAAGTTAAGAGGGCAACTCATGCTATATTCTCC
AAGGCAACCATAAAATCAGTCAGCCACTGCTTTGGAGAAGCACCCAACCCATGAGAACAGCAGTCAACAAGATAGAGTCAAAGTCAGGTCCTGTACATGA
AATCCTGAGTAACCTCGTTTTCTATCCCTGCCCCACCTGGTTCCACATTTCTGTCCTAACTTCGCAGCTCTCTAGTTGTTGAGCCTAAATGTGTGGGCAA
AGGGCACCAACTTTTCTATTTGACTACAGTCCTGTCATCTAGGAAGAAGCAGTATCGACTCAGCATGGAACGCCTGCAACGTTCTTTGTTAGGCAACCAA
GAGGCCTGGCTTCTCATCCTGCTGTCACCAACTAGCTCTGTGGCCTAGGGCGAGGTGTCTGCCCTTTATGTTTCCACATCTGCAAAGTGAACTGGTTGTA
CCTGATGATCTGAGATCCCATGACTTGCTYACATGTCCCATGATTCTTTATTTTGTAGKCAGAAGCATTAAACAGCTACTCCTGCTGCTGTGTGCTAATC
ATTCCTGTAATTTCTGTTCTGCTTATTTGCCATTATTTGAAAAACATGCAAAAGGGTCTTTCTAACCACATTCCTGTGTTGTAACAACACCCAAATGCTG
AGGCAGTGCCGAGGAGTCAGTGCCTGGGACTTGCTTAAAACTGCTGGGACTCGTGGTCCCTAAACCCTTCTTTGAGCACCAAAACGAATAGGACATGAGA
TGTTACTTCTCATTCTCAAAGTACTAACTATGTTTAAGTTACAAAAGGTTAGGTTATCCTGTGACCCTTTTGTTGACTCACAGACAAGAACAGTTGTTGA
GCTTAATGTTGTCGCATTTGCTCCAGATAAACTCAATTCTCTGATTTCCCMCCAGCCARCTGTCAAGCCAACAGGCAAGACCTCTCACTGGGCACAGCCA
GGAGTTTCTTGGGTCGACCATACACATTKAAACATTTGTAGAAGGTTGCTAATTGCAACAATAAAGGGGACCAAAGTATAATGGCCTAATCTCATCCAAG
AGTCAAAACAGATTTTCCCCCTAAAAATGATAATTGTATAGAGGTGCCTTTCCTGTGGAATATCTCACTCTGATGTCAGAGAAAAATCTCTCCTTCCCTT
CTCCTGGTGTTCAATGTATACAGAAAATAAAATGTGTTTGGTAGGAGCATAATAGTGTGTTGTTTTCCCACACAACCCACAACCTCTGTTCTGTTGGGAG
CAATTTAGGTCTTTAATTCACAATTCTTACTCCACATGGTTCAGCGTTCCCTGTACATTTTTGTGTGTCTTCTGATGGGATGCAAGTTTCTAGACCGTGT
CCTTTGGGGTCTTGGTCTGTGCTGCTATGCATGTGTTTAAAAAAATACCATAGCATTTTCAGTGGGACATAACAAAATGACATTTCAAGTCTTAGTCACT
GGGCCTTTGTCTCTGAGAGGTCACCCCCTGSTTAAGATAAATAGCTTTCCCAGGCMGTTGTTAGTCCCACTGAACACCAGTKAGGGAGCCACTTTTTTTC
TTGTATGTAGTCAGAATTATCAGATCACATGGAGAATACCAAAGGCCCTAGAGGGCAAGTCCAATCTGCTTAGCCAGGCTTTCTAAGATTAAACTTGGCT
TCTCTTGACTCTGTGTGATGGCAGGGATTGTTTCAGAAGCACATGTCTAACTTTCACCAGGTTTAGGCAAATACATCCTCATACCTGGTTATTCACAATA
GGAAGATGTCTTCTCAAGCTGGAGGTATTCTGACTGTTCCAATTTGTGTGTTTGTGTGCATGTAGTGCCTACATTTTTTAGAACACTTTTTAAAAATAGT
CRTTTTCTGTTAGAAGAGTACTAGATTTTAGAGTTCTTGCTATCAGCTTTGTGTCTGAATCCTCCTTTCTATATTTCTGACACCTAGTATAATGTTTGAC
ACATAGTAGATGATTATTAAGTGTTTATTATATAAATGAGTATGAAGGACCAGGGCCAAATTTATAGGTAGCAATGTTTGGACCATATTATCAATGACAG
CTGGGAAGACCTCAGTGCTTTCCCTCCTCTGCATCCTCCTTATCCCTTCTCTCCAACCTTCCAGATGCTGTTGATCCTTTCCTTAAGCTTAAGGATTTAA
ATGCCAACTTAAAACATAAATAGCCTCAGGATTGAACCTTTTTTTTTTTCTTTTGAGACAGAGTCTYGCTCTGTTGCCCAGGCTGTAGTGCAGTGGTGAG
ATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTTACACCATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGAACTACAGGYGCCCACCACCACGCCTGGC
TAATATTTTGTATTTTTAGTAGGGACGGGGTTTCACCATGTTAGCTAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGT
GCTGGGATTACAGGCGTGAGCCAMCGTGCCCGGCCAGGATTGAACCTTTTATGTTATCATGTATGTATGGCAAAGTATCCCCCAAGTAAGGATACAAGGA
CAAGCTTTAATWGAAAAGAGAGGGACAGATGGAGGTTAAGTAAGTTATAGGCATTACCCAGGGAGGARTTTGATTGTCGGGAAAGATGGAAAGTAGTATA
TGGAAGACAGATGTTAATCCCTTCACAACTTTGCCTAAGATTAACCATAAGMAGTTAGGACCATTTTTGCTTGTGAGCTGCCAGTGAGAATTTTCCATCA
AAGTTAATGAGTAATTTGTGTGTCTAAAAGCCATATCATCCACCCAGTCCTTCAGTGGTGAAACCAGCTCGAGGGAGAAATACCCAAAAAGGACCTAAGA
TCAGTCATTAAAAAAGAAATCAGCCTCCTATTCCTAATAAGGAGGTTTTCTGTGTTATAATTATACAAGGAATACATGAATATTCTCATTCTTTAAAACT
CAAGCACAGCAGAATAAAAAAAAAAGAAAGGTATACCTTCCCTTATCACCACCATCTTCTTCAGTTCTAGTTCCTTCTTATACCCAGAGATAACCATTGT
TAATGCTTTGCTACATACACTTCCAGATAGTTTTCTATGAATTTATATACAYATAAGAAGAWATACAAATAGATAAAGCTTTTTCCCTTTGTAAATGGGA
TTTTATTTTGTATATTGTTGGGAAATTTGATTTTGCCATTTAATATTATGCACTAAAAATCTTTTACATCCCTGAGACACCAAAATAAAAGAACCAGCAC
ATTGATTTAGACCTACTCTGTCACTTTYAGCTATCTGACCTTCAAGAGGCCATACACCTTTTGAATCCTCAATTTTCTCATCTCTGAAATAGGAWCATAG
TAGGCACTCAAAAAAATTCATTATCTTCTCCTTTCTTTTCATTTTCAAACTAGTACTTCTAGTTTAAAAGAAAACGTGATTTTTAAAAATTCAGGACTTA
AATTTTATTAGATGTTTTTATTTAACTAAAGTCTTAATACTTAAGCKTCAGTCTGGGCGTGGTGGCTCACACCTGTAATCCCAGTACTTTGGGAGGCCAA
GGCAGATGGATTGCTTAAGATCGGGAGTTCAAGACCAGCCTGGACAACATGGCAAAACCCTATCTCTATAAAAAATACAAAAATTAGCTGGGTGTGTGTT
GGTTGAGGGGGGTGCCTGTAGTCATAGCTACTTGGGAGGCTAGAGTGGGAGGATCACTGAACCCAGGGATGTCAAGGCTGCAGTGAGCTGTGATCACACC
ACTACACTATTGCCTGGGTAACAGAGTGAGACCCTGTCTCCAAAAAAAAAAAAATAAGCTTTAGCAACTATCTCCCTGGTTTACAATAGCAATGACATGA
GCAGCCCAAGGAAAAGCAGAAAGTACTACCTTTAAAAAAAAAAGTGTATGACTGTTATTAATTATAGCATTTGATAGCCTGGCCAGTGTGTGTTGAAAAG
ATTTGGTAAACGTATGTGGAGGAGGRGAATTAAGTAAGCAATGAAAGCCAGATGCTGAAAATGAAGGAAATTCCAAGCAATTTCTGCAGCTTTGTTCTAA
CATACTTTTTAAACTAAACTTTTATTTCTGTGCAACAGAGAACAGCTGAGTGGTACAGAATAGATAAACAGGGAAGGGAGAAAAAGCTCATAATTCCAGG
AACAGTACTTGGTTTCTGCCCTCCCCCTGCCCCAGCCCCAGTCTCTTTTCTCAGACCTAGGATGGTTCTTAGAACCAGCAAGAGCTATAAACGAAGCTTG
AGAATCCCTGTTTGAAAGGAGAGAGTTAAGAAACACGTCTGAAAGGTCACAGAGTCTTCTCTTTAAAAGCATACTTCAGAATGCCTATTTTATTATACAC
TAACAAAATCCATRTATACTAGCAGCAAATGATTTCCAATTTCCAATTTTCTTTTATATTAGCTTACAATGGCTAGAGCAGAAGGTGCTGCCTTTTAACA
CAATCATATTTTAATTTATTTGATGGAGCTTTCAAAGCCTTGCAGGCTCTTCCTCTCTGACAACTTGTTTTAAAGGTTACTGTTTCAACATGCTCTTGAA
ATATTGGTTTATCTTCTGCTGTACTCCTAAATTTCCATACGCTGCCTTTTGGCTCTGTCCACACTAACTTTTAAGTGCTTAAAGCAAAAGTACACCAGAG
CTCACTGGCATCCACAGAAATTGAGTCCATATCCAGGCGCCTTTGAAGAGTTAATGCTGTTACTACTGTCATCCCCCTTGGTAAATTCAGATGTACTTAC
ACTGTCTCTCTGTTTTCTTCCATTGATGGATAGGAATCTGCCATAGCCTGTTCCTTAATRGYTGGGCCTGACTGGGCCARTGGGAGTCTCTTTTGTTTCT
CTAGTGGGACTGTATTGGCCCAGTGATCACAAATGTCCCCAGCAGCATTTTGACATCAACAAGGGTAAAGGTTATATGTTTATTTGCCTCAGGGCTAAAA
TGTTYATTTTTCCTAGATATTCTTTTCCATGTGTGAGCATGTGTGACCATGGAAAGGAATATCTTTACATCACCTGTTACATCAATCTTGAATCTGTGAG
AAATGAGCTTTGATGATATCACTTTGCGGCTGGGCACAGTGGCTCAYGCCTRTAATCCCAGCATTTTGGGAGGCCGAGGTGGGTGGATCATCTGAGATCA
GGAGTTCRAGACCAGCCTGGCCAACGTGGCAAAAACCCGTCTCTACTAAAAATGCAAAAATTGGTCGGGTGTGGTGGCGTGCCCCTGTAACCCCAGCTAC
TCGGGACGCTGAGGTAGGAGAGCCGCTTGAACCCAGGAGGAGGAAGTTACGGTGAGCCAAGATCATGCCATTGCACTCCAGCCTGGGCAACAGAGTGAGA
CTCTGTCTCAAAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAGACAACTGCCTTGCATGCATGTATTTAGTTGCTGCATGAGTTT
GGGGTAAAAATCAAGGGGTTAGGTCTACCTTCCCATCATGTCACCTGAAAGCATATATGATATGACTCATTCTAAAGAGATAGAAACATCAGCATTAGGA
AAATCCATGCAATTACATCCTGAGAGGGAAGCTTTTCTGGTTTCTTAACATCTATGTGATCGGACAGCACTTTAGACCACATAATTCTGCCTAGACTCTG
GGAAATGTCTTTATATAGACCGTTGGTTAACGTTAACTTTCTGCACAAATATTAAAGCAGAGAGTGTTTTTGCATCCCAATTCAGAGAAAAAAAAMACAC
ACACACACACATAACAAGCATCTTTGTGTCTGCTTGTATTTGGTTGTCACGGATAACGAGAAGACAAAACCCTGTCCTAAAGGAGTTACCAGTTAATAGA
TGAAGAAGATTTAAAAATAGTAACTTTATGAATAGGGCAAGCATGGAGTTCGGTGGAAGCTTGAGGCTGAGAGAAGGCTTCCTGGAGGAGGCAATGCCTA
TGCTGAATGGTAAGGCMTAAGTAGGAGTTATCCAAATGAAGAAGGAAGATGTTGCAGGCAGAAGGAAAACCATGAGCACAAAATGAAGGACAAAAAGTGG
AAGCCAGTGTTAGAGAGTGGACGGAGGCCAGATCCAGGAGAGTCCTGTGTGCCAAGTTAAGTTGTTTAGACTTTATGTCCTATGGGCACTGAAGAGCCAT
TGAAGGATATTAGCCAGGGGTGTGGAACCGTCAGATTTGCTTAGAGAAAGATGAGTCTGGCTGCTCATCCAAGAAAGCTAAACTCTGAAAATGGTGGTTA
GCTTTTACTGTAGGCACGTTTCCTTTTTCTCATGTAGAGTCAAAAATAAATAGTGTGCTCTGTGTGATCTGGACCATAACATTTTTTCATTGAAAAATTA
ATGCCCTCCTATCCCAGGTATGTTCACATTGTGATTGCTCCTATGATCAACCCAGTGCATGTTGACTTGGCCTAGCCACCTGGCAGGAGGAGGATACAGC
CCCAAGGAAGGGTGTCAGGGCGTCATGAGTGTTGCAGCTATCTGATCCCTGGCGGCCTTTCCAGCTCTAATATTCTGTGATTCTTTGAAGGTAATGATAA
TTATCCACAGAATTGAAGCTTTTCAACAAAGAAGGAACAATTCTAATCAGAAAAATACCTTGAGTCAAATTTAAGTTCCAAAGACAAAGCACCTCTATTA
GTTACAAAACAGGAACTGGCTTTWACTATAAAGAGCCACGAGAAGTCTGCAGGGAGCAAGACCTACCTGGCCATAAGAAAAATGTAGGTGAAAGCATTCA
GGCAGCAAGGATGGCTCAACATTGAAATGCTGAATGTTTTTATAATGCCTTAATGGTGTTTGTTTATGTGTAAAGGGATACAAATATCCTGCATCCGTCC
ATTTATAATGTTACGCTGCCCTTTAAGATAACTAGAATTTCTCTTCCTTCAGTCTCCACTGAACAAATGTCTATTGAATGCCTGCATTGTGCCAAGCATT
GTGTGGGAGATACAGTAATGAACAAGACCCACTTTGTTCCCTGCAGCAGCCAAAGCCVGAGTTTGGGAATGGTCCTGGAGGGGTCACTCTATTTTCTAAA
TCTTGGATGCCTTAAGTGCTGCTCTTCTTAAGACACTTATTATCTTAAGCCTCCTGAGTTCTTCATTGCACTAAGAGTTGATGTATCTGTACCAGTTATC
AACCTCATTGTTCATAAGCACCATGAGAATGGAAATATCACCAGCAGATAACTTTCTTCTGTGGATATGGTGATGAAACATTGGAGTTTTATAGTTCAAA
ACCTTCCAGCTTACAAATCAATCAACAGTAGCAGAGTGGAGTTTCCCAAAATAAATCTTTTTTTTTTCTAAGTTTTTTGCTTTCCTTACAATCTAGKGTT
TCCAAAGTCCTAAGGTAACAATTTAAGAGCAGGCAATAATTTGGCTGATGCTTTGAAATGATGATTATTGCTTCCTAAGTATACAAGATGCCTTCTTTGG
AAATTTTGAGCAGAAGTCCTCATGAACAATTTGACGAGAAGAGTTTTTCTATTGACCTTATAGTTAGAAATATGCTATATTACTATGTTCCTTAAACTTG
GAAAACAAAGTAGGAAAAGGACTTGAGAAAGAGGTAGAGAAAAAGAGATGTTTAAGTGACATAAAAATGAGGGAGTGAAAAAGAGAATGCTCTGATTTGT
ATCCAGTAATCTGGCCGATACAGTTCAGGAACAGTTCATACTTGTGAAAATATTATTCCTGTCATGGCGCCAGCCAAGGTTAGGCAGTTCTTAGGTTATC
TGCTGCAGGTGCAGAAAGATCTGTCACAAAGCAGAGCCCAGCCAGCTACCTTCTTTTTCATAGTGAATTCTTCCGTCATTCATGTCTTTTCCATTCCCTT
TCTCTTCTTCATTTTATCTAGTTATCTTTATCCAGGGCTGCAGTGCACTTAGGTGTTTATGTCAGGGACACAAGGAAACCTAAGGGAAGAATGATTGTCA
CTGCATTAACACAGCTCCCAGACCTGTAGATGCTCATTACCTTCTCATGAGGCTTCAATTTTTACATGGGGAGTTACTGTCCTTGAGGCCTAGACACGCA
CAGACACAGGCCGTGGKCTGCATGCTGGAACAGCTGAAAGTGGTGTCTTCTCTRTAACTTACTGCTATTGACTCTGGTCACTGAGTGGATAGACACAGAC
ACCTTTTCGGCTGCCTAAAGGAGCTACTATGTGATTCACAGAGGTAGAAAGGGCCCTCTGCCCGAGTTGCCTGGAGCTTGACACTTACTCCACTATTAGT
GAGGCTGTTAAATACCAAGCCGTGACTTATTTTGATCATATATATGCCTCTAGAAGAGATGGCTGATGGTCATCTCAGCATGGTTTTTCTTTTTTTACCA
GATATGATTTTTCCCAATGGGGGAATCTTGGCAATTTTTAAGAATTGGGGAATTTCAGGAGGACAAGACCAAGAGGAGACTTGGCAAKGTCAAAGCTAAA
TATTCCCCACCAGGAGTAGAGATACTGCCTGGAAAAAAAGAAATATCATAGGGTTTTAAGATCAGACAGATGTTGGCTTTCTCACTTGCTCTGTAGCATG
GGCTGGTGTATTAGGCTGTTCTCACGTTGCTATAAACAAATACCTAAGGCTAGGTAATTTATAAAGAGAAGAGGCACTGGGTGTAGTGGCTCATGTCTAT
AATCCCAGCACTTTGGGAGACTGAGGTGGGAGGATCACTTGAGCCCAGGGGTTTGAGACCAGCCTGGACAACATTGTGAAACCCTGTCTCTACAAAAAAT
ACAAAAATTAGCCGGCCACAGTGGCATGCACCTGTTGTCCCAGCTACTCAAGAGACCGAGGTGGGAGGATCACTTGAGCTCAGGAGGTCAAGGCTGCAGT
GAGCCGTGAGTGCACCATGCAGTCATGCCACTCAAAAAGAAAAAAAAGGAAGAAAAAAGAAAAGAGGTTTAATTAGCTCACAGTTCTGCAGGCTGTACAG
GAAGCATAGCAGCATCTGCTTTTGGGGAGGCCTCAGGAAGTTTCCAATCATAGTGGAAGGCAGAGCAGGGGTAGCATGGGCTACTACTTCACATGGTGAA
AGCAGGAGCAAGAGGGACAGTGAGGAGGTGCTACATACTTTTAAATGACCAGATATCACAAGAACTCACTATCTTGAGGATGGTACCAAGAGGATGATAC
TAAACCATTCATGAGAAGCCATGCCTATCATCCAACCACCTCCCACCAGGCCCCACCTCCAACATTAGGGATTATATTTCCATATGATATTCGGGCAGGA
CAAACTACATCAGCTGGCCACGTTACCTCTCTAAGACTCAGTTTTCCTTATCTGTAAAACAAAGATAATTATCCCAACCACAGAGCAGGGTTGGTAAGGA
TGATCGCATATGTAAAACACTTAGCTAGTTCCTACCTCATAKAGCAGGCACTGATATAAATAAGGATTTGCTAACACTCTTACTTTTCTATGCAGGAAAC
CATATGATATAGACCTTCATAATAATTTTATACTCACCGAGTTTATTCTGAAATTTTCTTAACCCACTAGTATGGGGCAGGGTAAAGCGAAGCTATGGAT
AGAACCTAGCTTCAAGCCAGCTTTCTGTACAGCCCTCACCAGATCTCTTAGGCAGTTAGACAACAGGAAGCAGGGCAGCTTGTCATCATGGGGTCCTGAA
AAAGGAGTACTTGTTGGGACATTCCATTTAATGTTGACACCTAATCCAATAAGGTGTGTTTTGTAAGTACCATAATGAGATGATAAAATGGTAGCAGGGG
AGACAGAGTCCAAAGGGTCATTAAAAAGTTAATATCCTGTGTGACATGACTGAAGGGAGGAAGGTCCTTTGACAAGAGGTGTGATCCTGAAATGAGCCGC
TGTGTCCCGATGGCCAGAAAGGCCTGGGATAAGGCAGGAAGAAATCAGGAAGCGTCGATGAATTGTGTTATTCCTAGCGTTGTCTCCTCTAATGTTTGTG
GGAGGGAAGAAGAAGAAAGTGAGGAAGGAAAGAAGGAACAAAGAGAGTAAAGGAAAGAAAAGAAGGAAAAAAGGAAAAGCCACATCATGGTAGAGTTAAG
GCACAGGGCATCTTGTCCCCATATCCTTGCTGACCTTCACAGGTCATCTTTGAGCAAGGTATGGCTTCCCTAATAGCTTCTATTTATTAAGCACTTACAA
TATGCATGGCACAGTGCCCATCACTTTATATACATTATTTTGATTAATCTTACCCACAATTTTATGAGAATGATTCCATTCCTATCCTAACTTTACAGCT
GAGGAAACAGTCTTTAGTGAGATATCTTGTAACTAGCCAGTGGCAGGTCCAAACTTGGAACAAGGTATATTTAATTCCAAAGCAGTTACTGAGAACCTGA
GGCTGTCTGTCCCTCTGTCACTGTGTTTACAGATCCATCCATCACCCCATCTGTCTCTCACACTGTCCTGGGTACTGTGCTGTAACCGTGGGAATGACCG
CAGTGTAAAGAACCAACTCTAGTCTCATAGCAGCGTACAACCTAGTAAACTTCACAAGTTAACAAGGTCTGCTTTCTTCATCTCTATCAGATAACCTTCA
TCTTATACTCTCAGTTACCAAAAGTAGGACTAGGCTCTTGGAGAAAGTGAGCATTTGAAAGACAGAGTAAAAAATTCATTAGAGTACAGATTTCTCAGAG
CAGAGCCCAACACATAGGAAATGAAGCATGCTAAAAGAGGAGTCTAATAGAGCTAAAGTGAATGTCTTCAACCCCACCACTGAGTTATTRGGCAAAAAGC
TCATTTCCTTAAAAAAATAGAAAGAAATACTAAGACATGCAGAGAGGTGCTTTGCTTATAGATCTGGAAGAAGCTTTGTATCTTTGTTCTGCCACTGGCT
TAGCTTATGCTTTGGTGATGCTTGTTCATGTTGTAAATTACCGACACCACCACTCCCCCCACACACACACTCACTCGCTCACTCTCTCTCTCTGCCCCCC
ACCCCACTTCTCTTCTCTTTCCCCAGTGCAAACCTGGGTCCTTGCCTCCTTTTCTGTGCTACTCTCTTTCTGACTTTCCTAGTGCCTGTTCCCTCTCTCC
CCTGAAGACTTATTCTCAGTCACCTTGCCTTTTGACTACCCAAATTCCCAGCTGACCCTTCTCTGTCACTTGTACGGGGTACAGTCTTCTCACTTCCTTC
AACTCTTTTTTTCTCACTCTCCACCACCCCCACCCCCATTCATTCAACTCAACTCAGCTAAGAATTAGGAAAACAAAACTACCTAAACTAATTCACACTA
AGGTGTAAATGACTGATTCCTATCCCTTTATTCCAGCTGTGAGAGCATGGGCTTATAAGTCCCGTAAATCAGGGTTAAAATCCAATTCATATAGTATGCT
GCCTCTTTGGCCTTGGGCAGGTTGTTGAACTTCTCAGGGCTTCAGTTTCTTCCTCTTTAACCCCAGAGAGTGGTTGTGAGGAGAAGTGTGTTAAGCGCTT
AGCACAGTGCCTCGCTCATACTAAGTACTCTATGAATGGTAATAGAGATTAGTTTTGGGTTTTGTAGGGTATTTTACGTATCTTTGTAAGAAGCAGTCCT
TGATTGGAGGATGTAGGTGATCTGTGTGTACTTTAGAAAACTGTGTTCTCACCTTTTTTCCTGAAGAAAAGACAGGCTCCATTATAGAGGAAAGGGACTG
CCCAGTCTAGACCAAGAATGCCCAGCCTTCATTATCTCCTCCTATTTGCTCTAATCCTTGGGAGGGTGGGCATTTTCTACTGGTTAAGAGAAAATCCAGC
ACAGYTCAGCAAACATTTATAAAATTCTTACTGTGTCATAGGTTCTGGAGAAACAATAAAGTCTAGGACATAGACCCTGGGCCGCGCACTAACAGCTTAT
TAGGAAACCAGTATACAAACAGTTACAAGGCAGAGCCATAACAGTCATGTTAGAGATATCAGCCAGTGTCTTATGGAAACACAGAGATGATGGATTCACC
TAATCCAGGTTAGAGAAGGTGACCTTGAGAAGGTAACCACGAGCTGAGTCTCTTGTTCTTAGAGCTGGTAAAATATTTTTTCTTAAAAATCTAATCACAC
GTGTGATTGATATACTAATTAGATATTCCCCCAGAGTCCCAATCCAGGCTTTYCAAGAAACCTCAGGGCAGTTTTGTGCTGTGCCTTCCATCMCCTTTCA
GTCTTCCAGGTAAGCCTAAAATTGCTTGATTCCACTGTGTAAGAGTATCTCTAGTTACTCTCAGTGACCAGGAAGCTGATAGATTTTTGTCCTGTAACCA
CATAATGCAATAATCATTATGCCAACTGTTAAAAATGGATCAAATTAACTTTTATTAAACCTCTGTCCCTATGGACAACACTGGAACTTGAAGCCTCACA
ATTTATCTATAGCTTTCRTGTGTTCTCCAAGGTACCATGCTGCCTCAGACACCTCTCATGGCTCAGGACATGCAAGAGAGAGACCAAGAAGACAGGGAAA
TGTATTTATGTTGCATTTCAGGCAATGGTGAAAAACTATGGAAGACAGAAGGACCACATGGTTCATGCAATCCCAATGACTTGCCGTCTCCCTCAGCAGT
AAACTCAAGAACTCTTGGGTTAGAATGTTTTGCGAAGTTTTCTGAGTTCCGTGAAACTAGGTGTTATAGAAGTATAAGATACTGAATTATTGCTCTCTCC
TTATTTCTTGTTTTAAGGCATCCCTTCATCCCTTGCCACATGAGATATTTCAAAGGGTTGGTTTTCAGAGCCCCACTATCTGATCAGTCTTCAAAATGCT
TGCTTATTGTGCAGATGTCATTGGAAGATTTGCTTAACACAGAGAAACAGCAATGCTACAGAGACCTCTCAGATGTGGAATGGACATTCAAGTTGTTTTG
AAGTTTAAAGAGTAAAAGTGTCAGGAAATGTATACTCTGGCATTAGTAAAACCCCACATGTCAAACATGGGTTACCCCTTTATCAGAGTCAAAAGTGTAA
ATGGGAGGACACCGTAGATCATTACTGAATGTGCTCAGGATGCTCTTTGAGAAGTCAGACGGCATTCTTTTTTCYTTTTTTTTTTTTTTTTTTTGAGACA
AGGTCTTGCTCTGTYGTCCAGGCTGGAATGCAGTGGTGTAATCATGGCTGACTACAGCCTCAACCTCCTGGGCTCATAAAGCTTATGTAACTGATGCACT
TACTGGGGAAATTCTCTCAAATTAAAAAAAAAAAAAATGTGTAGGTGGGCAACAGACCCCCCACCTCCTTCTACCATACTTTTCCTGCCTCAACTTCCAC
CCTAGACTAGTATGCCAACAAAAATCAGAGAATGTGATGAACAGAGTTTGCACAGTTTTAAATATCATCATGCTGTAGAAAACCACAGAAGGAAACTGAT
ATAAACAAGACATTTATTGATGTAAAGCCACCAAAACTAGACTATTTATCAATGTTGCTTTCATGAGAAAATGATGCCAAAATTCTAATATGAASTAGAG
GCTGCTTTGGAGCCAGATCTCCCTCACAAGATGCGCCCCACTGTCCAGTTTGACTCTGTGGCTTTCGGGGGTTAGGGAGCATAAACGGTAGGCCATTTGT
TCGCAAGTGAGGGGAGACAAGTGAGTAAGATGACAGTTTGGGGGACAGGAATGCTTCCATTTCTCTCTTCTTTTTTCTGTGTTACCTGCTAGGTACTACC
ATAGGCCTTGGGAAGGCACATCCCAGGCACACCTAGAAACACCTTATGTGAAAATGGATAGTGTCAGGCACTTTATCTTTAACTTAATAGAAGTTGACAA
TRTAACTGACCCATGGTGGAGTGAAGTGAAACCACATGTGGGCTGGATTGACCCTCCCTTGATCTAGAAAAGAAAAAGTGCTGTTTTCCAGCTCACCCTT
GCATACCTAACTCCTYCAGCAGGGTAGCTCTGCATGACAAGGTTGGCAAGAGGTAGACTACTTTTTACCACACATGGTCTTACTGCAGTTGTGTGTTTGT
ATGTGTGTAGAAAGTGGTCCCATGGATTATATTCCTTTCTCTTAACATATACAAAAATAATGTTGAAGTCTGATATATTTGAAAATATCTTGCTACATTG
TTTCATCCTCAAATGTGTAAAATTATCTTTCCATTGTCTCTCTGTGCAGAGGTAAACTTTAAATGGAAGCCTACCCCAACATTTATGCCATTTCCATAAC
TGTGTAATTATTTGCTACTTACCACATTTTGGGAGCCCCAAAACCCTCCTCTGTAAGCAGACTAGTATCTGAAATAGATGCATTTTCTGAATATCAAATG
TGCCCACTTGTCCACATAGAACTCTCTCTGCCTGAAAGGCCAATTAAAAAGGTGAAGTACAGGCCAGGCGTGGTGGCTCACGCCTGTAATCCCAACACTT
TGGAAGGCCGAGGCAGGTGGRTCACCTGAGGTCAGAGGTTTGAGACCAGCCTGACCAACATGGAGAAACCTTGTCTCTACTAAAAATACAAAAATTAGCC
GGGCGTGATGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAACCACTTGAACCCGGGAGGTGGAGGTTGCAGTGAACTGAGATCAC
ACCATTGCACTCCAGCCTGCCCAACAAGAGTGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGTGAAGTACAAGGAAGACTTCCACTCCAGAGC
CCCATGCCCATGCCAGATAATATGGATGGATCATATCACTTCACCAGTGAGTCCATGATCTTCAAGAGGCCTTGGGATTCCTTCACTTCTAGTGATTGAG
GGATGATTGTCACATGAAGAACTTGGTGCATGTCAAACTCTCATCACTTCCCAATAGGSTTTATTGGCACTATTAGTCCTATCGATACCAAAAGATCATA
TGGCTTCATTCTTTATATTCCAAAAAGCCAGAGTGGTAAGAAGTTTAGCTGAAAGATGTGTCTAGAATCTAAAAATTTGACAAATGAGTCTCCCTTAGTG
ACTAGGGTTGTAGAATCCCAGAATGTAATTCAGTTAAATTCTCCCATTTTATCTGTGAGAAAAGAGAGGCAAATGTATTAAGCAACTTGTCCAAATAGAC
ACTGGCTGGCAAAGCTCAAAGCCTGAAAAGTAATGTTTTCCAATTTTGAGCTCAGTGTTTATCATAAACTGGAAGAACCAAGAGCTCCTTTAGTGATTCG
GAATGTAGTATCTAGAGCCAGACTTCCTGAGTTCAAATCCTGGCTCCACCACTTACTGTGTCCTTGAGCAAGTCATTTAACCCCTCTCTGTCCTCATTTG
CTTATCTATAAGATAAAGATTTTTAAAAGTACCTACCTCATAGGGGTTTTGTGCAGATAAATGAATTAATATATGTTAAGCATTCATGTGAGTTCCTGGT
TAATTAAGAATAGATTCTATATTTGAGTGTTTCAGTTGCTAAAAATGCACTAAGAGCTGGAATCAGGTGATAGAATAGGGGACCCAGATGGTCACTAGAC
ATCATATATTTTTCACTAGGATAAGAAAGGATTTTCTTACAGCCGTGCTGTGAGAAGTTTTGCRTTTTCTCTATATCTTAGTCTTTAAAACTATGGAAAR
GAATTGAGTATGATAATGCARTTACCCCAGGTAAAAATCTTCTATGCTTTCAAACATGTGCGTAGCCATCAATAAGAAAAGGATTCCTTGCTATCTGAGA
GTGAAAAGTAGAGGGTAAGGGGTCAACTAGACAATGAGAGTGGGAAAGAAAGAAGATGGTTGCATTCATAGAGTTTGAGGATTTTTCTAGTAATTTAGTA
TAAAGGAATGAAAGTCAAGAAATAGGAATTCAGCTGACCTCCGTGTGGCTGGCTTGGGGTAGAAACACTCTCCATGTTTTTTTGCAACTTCTGTGTAATC
CARTGTTCTTATTCAGAATCTAATTGCTGAGTTGCCCCCACTGTTTCTGTTTTCCTAGCTGGAAAAATAGATAATCTGCTCTGAGGATCAGAGGGCAACT
AGAAAATTCTCTGTGGCCTACAGAATGTGAGGCTGCATGAAGCAAAACAATGAAATATTGTAAATGTGGGAGGCAAGCAAAATTAAATAGAAAAATAGTT
ACTCTAACTTGGGTATAGCAATAGCAGTAATTCCAAGCATAAGCAAAAAGGAACTCCAAAGACCAATTCTTTCTATTTTTCTCTCTTGTGTATGAGAAAT
ATTATAACAATGATAGCAATAATAATGATGGCAGSTACCGCATGGTATTTTGTTTCCAACACCTGTACAAGCTAGAGGCTAGCAGGGAAAAACACARTTA
AGAACTCTGGAGTGAGACTACTTAGGGTCAAATCCTAGATCTCTTACAACTAGCTATGTGAACTCGGCCAAGTTACTTCAATTGCCCTATATATAAAATG
GTATAATAATAGTACCTATATCTTAGGGTTGCCATGAGGATTAAAGGAATTAGTACATGTGAAGTTCTTACAGCAGTACCCAGCACATAGCAAGCACCCA
ATAACTACTGGAAGCTATTATTGTAATTATTGTTATCATCCTTATTTTATAGATAAATGAGTTGGCATTCAAAAAGGGTAACTTTCCCAAGGTCATAAAA
CACAGATGGAAGTGGATGGTATGTTGAAATTCAAAGTTCTGGGGCAGTCTGGTTCTTGACATTATGCTCACATGTCTCCTACTTAGTAAATACAACTYAG
GGATTTAGGCCAATTCATCAGTTCTATCAGATCCAAGTGTGTTKAAAAATAGTGTCCCAGGGATAAAAGTCCTAGCAATAAATGAGAATCATGGATAATC
AAAAACAAATGAGGGATTTAATAAGCCAATATAAATCCTAATATGAGGGTTTCAATTTATTCAGGCTTCATTCTGATAATAATCCCTTAACTCGCCCTGA
GGTAACAAAACATCAAAGAGTAAAACATGCATTCTACATGAAGAGATCTTTGAACCTAACTTGAAAAATCAGTTTAGGTCACTTTTGTGTGGTCATATAT
AAAAACATTTGTGGAAAGCYTCATTCTCACTCCCCACGTCAACACCCTTTAGGGCTAGAAAGTGCAGGGGCTGCTGTTCCCCATATCCTGTGAATAGAAC
ATCTGTGTGAATAGGAAGCCTGTGCAAACAGCAGGCACTGCCCACAGGGGTGTGTATGTGTATGTATCAYGCATATGCATGTGTATCAATGCCTGTGTGT
ATATGTGTGTACATGTCTACTATCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTCCCCAGCCCTGAGGGAATTAATCACCCCTGCATCAATAGCT
AGCTGCTTCGTCTCCTGTCTTCTCACATATCAAACTCCTGAGACAGAGACAGGGAGATCTCTGCATGGGAAATGGCTTCATCTTTTGCATTCCTCTGCCA
AGCCAGGCTTGAATTGGTTTCATGGTCTGCTTAAGCAGGGTTGAGGGCCTACTTGAAGCAACATGTCACCCAGTGCTGTGTCCTGCCAAACTTCTCACTA
AGGCTGGCAAATCTCGGGACAGACAGGAAAAGAGCCTGCTGGCCATTCCAGCACTCAGCGGATTAGGGGAGGTCAAGAAGCCTAATCTATGAGGCTGTGA
GCTTGAACTGTAGTGAGCTGAAGTCACCTTTGTCATTAAGGGTTTGGCTGCCCAAAGCACCACTGCTTCCCAGTCTCCCCCACCCGCACCCACCCCTACA
TAATTATATCAAGGAGAGAAGAGAGGAGCAAGAACTAGAGTTTTCCAAGGATTTACTAGGCTTTCTACTCAATGTTCCCTTCTTTTTTTTTTTTCTTTTW
TCTTTTTTTTTTTTTKTTTGAGAGGAGTCTCCCTCTGTCACCCAGGCTACAGTGCAATGGCGCAATCTCAGCTCATTGCAGCCTCCACCTCCCCGGTTCC
AGCGATTCTCCTGCCTCGSCCTCCCAGGTAGCTGGGATTACAGGCACACAACACCAAGCCCAGATCATTTTTGTATTTTTAATAGAGACAGGGTTTCACC
ATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGATGATCTGCCCACCTTGGCCTCCCAAATTGCTAGTATTACAGGTGTGAGTCACCACGCTCGGCC
TCAATGTTCTTTCTAGTCCTGAGCATGGGAATTTCAAAGTCCCAGTTCCCTGAAGGCTTCATGGAAGCATTCTTATACCTCATTCTGCCTGGAATACCTT
CTTTTTACTTCTGCCTTTGCCTGGCTACCACTTATTCACCTGTCAAGACTCAGTCTGGATATCACCAATTTTAGGAAGCCATTGATGATACTACCTCATT
CCTCTCAACTCCCAATCTATGATTCTGTCTTAGATTGTACTTATCTGCTTCATAGACTAGACTCTGTGCCCCAAGGAAATAGGGTAGAGGTCTGACTCAT
TTACTACTCTGTCTCCTTACATAAAGCCTGGCACACAAAAAGTGTTCAATAAATACTAATYAAATGGATAAATAAATGAATAGCATTTGTTACAGTATCT
TATGGTTGTCTCTAAAAACCCGTAAAATCAAGAATATTTTGAAAATCTCTATGTCCCAATCATTCAGCATAATTCTCAGTACATACTAGATTTTCAGCAA
GTAAATGCATGAATACGAGTACACATACACATGTGAGTGGCTGAATAGATGGGTAGAATTAAAAATAAAGTCTGTAAGACTGCAAAGACAATTATCATGA
AAGGAAAGAGGAGGCAGAATCTTATAGAAGCTAATAGAATCAAAACTGTGGATCCTGACATGAAGACTGGCCTTCCCAGGCATTTCACTTGTAGAGAAAA
CTCATGAATATAAATGTCCAGAAAGATTTCTATTTGCAATGTAAATAGATGGATTAAAAACTACTCAAAAGAACTAACTCAAGGGAGTGTATTAATCTGC
TGGGGCTTCCATAACAAACAAACTGGGTGGGTTAGAATAATAGAAATGTATTCCAAGACTAGTGTCTGAAATCAAAGTACGGACAGGGCCATGCTCCTTC
TAAAACTTGTAGGAGTAGGGGCCTTCCTTGCCTCTTCCTATCTTCTGATGGTCTGCCAGCAATCTTTAGCATCTGTCAGCCTGTGAATGTGTCCCTCTAA
TCCTCCTTTGCATGGCTATCTTCCCYTCTGTGAATCTATGAATTTGCTTCCAGCTTTTCTTGTGTAGGGTGTTCTTCAGGTTGCTACTTCAAGGTCAAGG
TCTGATTCAAGCCCTTCCTCTTCCAGCAGTGTTGCCCYCACCATCTCAACTCATTCAACTCAACCCTCCTTGCAATTTGATTGGATTTACTGCCATTTAC
ATTCTACAATACTTACTATGTGGCTGTTCTAAGTAGAGTGCTACAGCATCTTATCTGACGCATAGCCATCTTCCCCTCTGTGCATGTCTGTCATGGTGTC
AAATTTCCCCTTTCATAAGGATACCATTCCTATTGGATTAGGATCCACCCTAGTGACCTCATTTTAACTTAATTATCTCCATAAAGGCCCTATTTCTAAA
TAAGGTCACATTCTGAGGTACTAGGAATTAAGACTAATATATCTTTTGCAGGAACACAATCCAACCCATAATAAGGAGAAATACTTAGGTTTGTAGGGTT
TTAGTGAGTAATGCCACCTACAAATCAGTAAATAGAGACATTTATAGCCTGATTGGATGAATGTCAAATTATTTCCTTAATCCCAAGGCACTTGATCCTA
AATCTTAAATGCCTTGTGGTCTACTTGGGATGATAACTAGGGGGAAAAAAACATTTAAGYAAAGAGAATTGTGTCAGATTAAATGCTATAGCAGTTTACT
TAGAATAGCTGTGTAGTAAGTATTGCAGAATGTAAATGGAAGTAAATCCAATRGAATCTCAAGGACGGTACAGTTGATGTGAGCTGGGATGGTGAGGGAA
ACCTTGCTGGAAGAGGAAGGGCTTGAATCAGTCCTTGATCTTGAGGTAGGAACATGAAGTCAGGAAAAGCTGGAAGCAAATTCACAGATGTGAAAGAGAA
ACATGGTGTATTGGGAAGCCAACAAGTGGCTGTGCCTGGCAGAAACTCACTCTGTATAAAGGAGGTAATTCTAGAAAAGAAAAAGGGTTCATTTARTGGA
AGGTTTTTAATGTGAAGATGCTAATCAGTTAATATWAAATAGAGACAAACTGCAATAAAACCCAAAATATGGTATTAGRGAAGAAACACAACAATAGAGG
ACACCATTCATGATGCGAGTAATTTCTTCTATGATCTTGACCACCACAAGGAGAACAACCCTGGAACTATTTTTAACAAGAAATTTATACCTAGAAATCT
AGACAAACCACCTAAYATATCAAACTCCTTGGAGTAAAAATAACTTTGCAGATCATCTACCCTACTAATTTGTTTCTCAAGAGGCTCATATCTGAATTAT
AACAGCCAGCAGGAATTCTAGCTCATTTTAATGTGCTATCACTCAGAAGACAGGGTGATCAGAAAATGGGAACCAGAACTTAGAAGTTTTAATTAAATCA
AGCTCTGTGTAGGTGAACAGGCACATTAGTATTTTTGGACAGTGGGATGTCATAGAAAAGTGTGYTAGAGTGAGGGAAGGCTGAAGACACTTTATATAAT
TGGACCTAGTTTTGGTGTTATTCTGCTATTTGCCATGTTCTGTAAAGGAAGTAGGTTTAGATGCAAATGGCATGCTAGTAATGAGATGGTAAATGTATAT
CTTGCTGCAAGTGCCATTTTTTTCAAGAGCTATTTATTAATTTACAAAATAGCAAAGACGGTTTGACAAGAGTCATATGTAATGTTGGTAACATTGATTT
TATTTTTTTTAAGTTATTTTAGAGATGACTTAGAAGGTGTGGCAAATTGGCGTGGCCAAACTGTTTTCAAGCAGAAATAAGTGCTTTGCCACTTCAGGTG
TTTGATAATCTTGGCTCTCACTATTTTTACGGAGCCAAAACCTCACAGCGTGCAGGCAGACTTCCAGGAGAAGTGTGGCTGTATCTACTATTTCCTGAGC
CRTGCAAGTTACTGTTTGATAGACAGCCCCCGATTCTCATGGTGTGATTTATCATACATGTTTCTGGTTAATTTTTGGCTTTCAAACATATTTTTGCTCT
TTAATGTCTAATATCTCCTTTGATCTTTTACTTTATCTTTTCTAGGCCTCTTTTAAGGGTTTTCTAGAATACAGTGGTTTTAAGGGAGGAGTAGCAAATC
CATCTGYGATCGCTGGGTATAACTGCTTTTCTGACTTTGTCTATTTCCCTCTCTCTGTAACCCTTCGTGATTCACTCCTCCAGTCCTTAGAGACTGAGCA
GGGTAGAGGAGTAACCCAAGTGCCCATCCCAACTTTGGGAAAATCACTTGTTTCTCTGAGCCTTGGCTTGCTTGTCCTAAAATGGAGATGATAATGCCTG
CTTGCTTACTTCAGAGTTAGGAGGATGAAGTGAGATAACATAAACAGTCTTTGGGAAGTGCAATTCATCAGGTCAATGCAAGTAGTTATGAGCACCACAA
TGCACGTTTTCTGAACTCTTGCAGTCCTCATGGTTTAGCCAAATAGTTTAGCAGTTCGCTCATAACTGTTACCTAACATTCTTTGCTATGTCTCCTGGGC
TTTTGTCTGCTTTCTCCATCTTTGCTGAAAGCACCTTAAAGATGGTAAGCATGGTTTCCACTTCTGGATCTGTCACAATGCTTAGCAATGAAWGCTTAAA
TGAGAAACTAAGTTGAACATGTCACAAATGYCCTTCTCCTCAGTCTCCAAAACCTATGGCTACTTTCTCTGACTGACTTTAGGAAGCTGCCTCACTCTAC
TTACTTGTTTCCCATCCTCACAATAATCATCTCTGCATTCAACAAACATTTACTGAGCATGCAGTAATAAAAGTTCATATTGGCTAATACTTACAGAGCC
CTTCATCTGTACCAGGCCCTGGGTTTCACCCTTTACATGGAGGTTCTCACTTGAACCTCATAACAGCCCTGGGAAGTAGGTATTGCCATTATTCCCATTT
TAAATATGAGTGAATTGTTAAGTAACTTCCCCGAGATTATTCAACTGCAGGGTGGCAGAGCACAATTCATTCGCAAACAATCCGATCTTAGAGCCCAAGG
TCCTGTATTATGCCTCAATATCTGGGGGATTTCTTCAGTCTTCTATCTTTCATATAGTTGACATTTTTGAAGAGTACAGGTCAGTTACTTTGTAAAACGT
CTCTCCATGTGTGTTTGCTTGATGTTTTCTTGTGATTTTTGAATTTTTGACAGAAATAACACAGAAGTGTGCTATGTTCTTCTTAGTACCTYATATCAGG
AGACAGATGATGATGATGTGTCTCATTACTGGTGATGTTCACTCTTATCACTTGGTTAAGATGATGGCCAGCCAGGTGTTTCCACTGTAAAATTAATAAA
TATGTAGCACTTAATAAGTAACAAAGAAGTATTTTATGGGGGACAATATGAGCTAAGTARATATCCTGTTCATCATTAACCTTTGACCCACTAGATTTAA
TATTGATTGATGATTACTGCCTGAGTCAATTATTATTATGATGATTGCCAAATGGTAACTTTATAAATTCTGTCATTCCTTCTAGATTATTAATAAGCAT
TCTACTCTAAGGTAGTTTTCTCTTCTCTCTGGTTTATTTATTTATGAATTTCCACTTTGCTCAAAGGATTAAAATATATTACTATCAAATTGTCCCMGAC
AGGACCAGCAAAAGCCCTTTCAAGCTGGCCCCTATGCCCTTTTGACATATACCCCATCATTCTTTGAGCACTTCTCAATTTTCTGGTACAACATACTATT
TCAGGCTCATTTTTTATTCTCCCAATTCCTGCCCAGACGTCAGCTATTTCTACAGAAATTGATTCCTTTTAATGGAGAATGGTATTTAGAACCCAAGATC
TGGGCACTCGATTTGCTTGATACTACTGGGATGTCATTGCTTCTAGGCCTTTCAGAGAGAACTAGGAAATACTGTACACATATATGTATAGTTGTATATA
CTCATTTATATCTGTTGATATATCTGTGTCTATCCATCTATTAAAAACCATGAGTTCATACTGTTTGCAACAGCAATTCAATTTTACTAGATTTATCTTA
GTCTTTCCACTTCACATATTTGTAACTCTCTCCTCTGACAGTAAGAAATCTGGCTCCCATTATTTTTTATGTATTTATGTGTTTGTTCACTCCTCCCTGA
ATATTTGACTCCCAGCCATCCTGGCCCAGCGCTGACCCCTGTCCCAGGCCAGAGGACCACTCCCCACCAAACCTCACACTAAAGTTCAGTCCCTACAAAG
TGGAAGAGGAAAGGAAGGAAGAAGAAGAAGGAAAGGCCAGTTTGAAAGTTCAACTCCAGACATGCAGTGCCCCGTTGCCCCCAGGGAGCAAGGCTGAGCC
CTGGACATACTAGCTCCCCACCTCCACTGAAAGCTCAGCTTGACACCAGTGGAGGTTTTTAATCAGACAAAGTAAGGTGACCAGATTCACATTTTTGAGT
GACATTTTGGTGGCTGTGGCCTTAGGGAGAAATTGGAAACTGAGAGATTTAGAGATAAATTGGGAGCCACTAATGACAGTCCAAGAACCTGAAAGGGAGA
TGCATCCTGAAGGGAGATGCATCCTAGACCCTGTACGTGCCCCTCCTTAGGCTTTCTAGAGTTGGCACACTTAGTGGTGTCTAGTTTATTATTGTCAGAT
TGCTGTCCACCTCCCGACCTCAGAGGCATTCTAAGGGAAACAAATATCTTTGGAAGACAAGAAAATCACAGGACAGAAGTGTTGGGCAGAAATGTCACAC
AAGTTTAAAGAATACTTCTAAAAAATAACTTCAGTTTACAATAACTTCAGTTTGCTCCTAACCAAAACTTCATTTTACATTTCTGAMTAAAGAAAAACTT
TGCTGCAAAAGTCGAGGTAAAAGAAGGTTCTTAGGGCATAATAGCTCAGGGTGGGAAGGGTCTGCCATTAGAAATTATGAACATTTATACCAGCAATAAA
CAATGAGTTTCTGGAGGCAACAGTCATCACCCTCTCTGAAAGAGCAGAGGAGCAAAACCTTGGCAACTCACATAATGAGCCCTTGTCCAAAGGAAGGCAA
AAAAAAAAAAAAAAAAATTCCTCCTTTTGTATAGCTAATACAAACACAAGCTGCCAAGAAGGGTCAACCATCATGGGTCGTTGATTACCCATATTAACCC
TGATGGCTGCCTTTACAAAAAACTAACACTTGGGGAAGACCACACTCTGCCTTTGCCCATTTGGCTGCCAAGTACACTGCTGCTTTACTGAAATAACAAC
TGCAAGTGGATTCATGGCCCTGGGTGGTATCAGTGTGTTTGTTTCTATTATTTAGAAATAGATCTGTCATTTTGTCACTTGTGATTTTCTGAAACTATAA
GCACAGGAAGCCCAGCATTTGCCACTCAGGTCTATTAATACTTTGTTCTATTGACCTTAAGAGAGAGTATAATATAATAATTAGGCATGCAGGAGCCAGG
CCGCCTAAGTTTGAATGCTGATTCTCTTGTTTACKAGCTGTGTGACTTTGGACAGGTTACCTAACCTCTCAGAGTCTCTGTTAGCTGATCCTGTAAAATG
GGGAAACTTACAGTACCTTTATCACTAGTAAATAAGTCAATATATGTTCCCACATCTTAGGTAAGCTAAGTTCTGGGCTCTGCTGAGACCTCAGTGAATG
AGGCTCGGATCATGCAGAACTGAGGTTCATAAATCCACAGAGCTGGTCCCATGATAAGAAGCAGCCCCATTCTCGGTGCCTTTATGTCCATGTCATGGTG
GACTTGGGTGTGACTCTGGTGGCATGGCATTGAGGAATACCCAGCAGCAGGCATTCTGGGCCATGATTTGAATTCTCCAGGCCTCAGCTCCTGCTTGTTA
AAATAGAGAGGATAATAGTACCTATCTCAGGAAGCTGTGGACAGGAATAATGCATTTAAAGCAACTAGCACAGAATCTGGCTCATTTAAGTACGATATAA
ATGTTARTATTACTATTGTTATTGGTGACCATGTGTGATGTCAGCTGGATTGTGGTCACGTCACAGTTTTTAGCTCATGCATGGCTRAGGGTGCTCTGCC
CAGCCCAAGTTCAAGGGCTAGCCAGATCCAGGCAGAGAGACAGGACCACAGTCTAGTAGGCTGGACTTTAGGCAGAACTCCAGCACTGTCCGGGAAACAA
AGTGGCAATTAGGAAGCCAAGCTGAAAGCTTAAAATCCAGTTAAAGTGACAGGCCAATCCAGGCACACTTGAGGCTGGGCAAAGGGCAGGAAGACTAATT
CCAGCCATTAAGGTGGAGGGAGACCCTMTGTCTCCTGCCTGCCCCTGGTCAGAAGTCAGTTGTTCAGGTACTGGGCAGGGTCAAGCCAGGAGGGCTTCAG
CTTGATCTGTCAACTCATGGAGGCTTTCCTGCAATCAGGTTTTGACAAAGGGGACAGAAACAGGGAGAAGAAGGGCTCAGAGGAAAGAAAGCAGTATAGT
AAAAGAATGCTGGGGAAACCAGCCTCCCAAATATTTTGGCCAAGAGCCCAACCATGAAGCTAAACACCTGAAKCCTAGGAGCTGAAAGAAACCATAGCAG
TCATGYTTACCACCCTCCTTATCTAGGGACACAATCCTTTAGCCAAAACCACTGGGGCAGATGTCTTTCAGATTCCAAATTTTTTTGTACTTTAGAAAGA
TGTTAGGATTACTAAGACATAAATTGTATAACACCCCTAGCAATTTCTGGGGGAAAAACACCATAATCCAACAAGCTAATCTTGCTGTGGTAAAATGTAT
AAATATTTACACAAAGTGGGATGCAGCCTGTCAAAAGCATGTCAATTCAGATCCAGTTTGTCACGAAAAGAGTTTACACCACACTGAAGGAAAATGTGTG
GTGTTCAGAGCTCCTGGGACCTTGAAGTTGGGAGTAAACAGTTGTGTAGAGGACATAACTAAGATGTCCACCAGCCATGTGACTAATCCAGAAGTGCACA
CACAGTTCACTGCAAATTCAACTCAGTTTTTCACTGCATACTACTGAACATCTGCCAGGTCCCAGGCACCATGCTCAACACTGAGGTTCTGGTCGTGTAT
TCATATTCAGAGCTGCTATATCAAAGTACCACAAACCAGGTGGCTTAAAACAACAGAAATTTATTGTCTCACAGTCATAGAAGCCAAAATCAAGTTCAAA
ATCAAGGTGTCAGCAGGACTGTACTCCCTCTGAAACCTATAAGGAGAGTCCTTCCTTGCTTCCTCTACTTTCTGGTGGCTCCYGGCACTCTTCGGCATTC
CTTGGCTTGTAGATGCATCGCTCCAGTCTCTGGCTCTGTCGTCGCATGGCATTTTGCCTGTGTGTCTCCCTCTTTTCTTATAAAAAACACAGTCGCATTG
AATCAAGGGCTCACCCTACTCTAGTTTGACCTCATCTTAAGCGATTACATCTACAGTGACTCTATTTCCAYGTAAGGTCACATTCTGAGGTACTAAGGGT
TAGGACTCCAACATACCTTTTTTTGGAGACACAGGTCAACACATAACAAGTGGTAAACCAAAATAGACATAGCCCCATGCTTTCATCAAGCTAGCAGTCG
AGTGGGGAAGTCACATTACAAGTATGTTGAGAATTTCCAAAGGGGGAAGTATTAATGGGACCATACAGTAAGAGAATTTTACCCAGTTGAGGGTTTCCTC
TCTGAAGAAGTAGCATTTTAAATGGAAAGGAAAAGATGAATAAAAGCCAAGCAAAGASGGGAAAAAGGCACTAATGCCCTCACTCTCTGATGCCTAGACC
AGAYCCCCTGTCCTCCTTGCACCAGGCTTCTGCAGAAGCCAGGCCCCAGAACCTCAGAGAAAGACTCTAAGTGTATCCCAGGCCACCACTCATAGCCAAC
CTTGCCCCCAGGCCGGCTCTGCCTGGCCTGCATTTCCTCTCTCAGAAACAGCCAAAGGCACAGAACGCACGGAATAGGGCATCAGCCCCCAGCAAGACCC
AGGCCCACACTTGCAGGCTCTCTGCAAAAGAGAAGTAGGGAAGAGTCTCTGCTTTCCCTTCATTGGCCTAAGTTGATTACAATATTTTTTACCCAGAATC
AGCAAAGTCCTTAATATACAGACAGCTTCTGCTGACCTCCGTCCTTGAGAATGCAGTGCACTTTTATCAGGGCAGGCAGRTATGTCTGTTTTGTGAGTTT
TTCTGAGCAGTGCTCAAGTGGCCTCATGGCTGCCAAAAGGCCTCTGCTTCAAGGTCCCAGGGGCTAAATTTCTGCCAGAAATGGTGGCAGAGTTTGGGGA
AGTGAGGATGTAAAGCCTCTACTTTGATGAGCTTAACCTTGGGACAGAATTAGCTGTGTAGGCAGCTATTTTATAAGACATACAAAGAGGGTTCACCAGC
AYTGGCCATGGATGTTAGATTTTGTTTTACACCCACAACATTTTAGTATTTCCCTTGAGTGGAAAGAAAACCTTTTTTKAAGCATAATACCTGTAAGGAA
AGTACACACAAATCCTATGTGTACACTTGGTGACTTTTCATAAAATGGACCCAGATCCAGCCCCTAGATCTAGCAAACACCCCAGAAGCCCACCCCACTC
TACTCCTCTTCTAGTTTTTACCCACCGAGGGTAACCAATGTTCTGGCTCCTAACMCAGTGGATTAGTTTTGGCTTTTGAGCTTATGATATAAATCACACA
GTATCAATTTTTGTGTTTCTGGCTTTGTTCATTCAATTTTATGTTKGTGAGATTCATTTATGTTGTTGCTTATTGTTGCAGTTTATTCTCATTGCTTTAT
ATAATCTTGTGTGAATATATCATAATTTTTTATTCATTCATGTGCTGATGAACATTTGGGTTTTTCCAGGTTTGGGCTATTATGAACAGTGCTGCCATGG
ATATTCTTGCATATGTCTTTTGATGAATATATGCAAATTGGGGAGAGGTATATACTTGTATTTGGTTGTCTATTGCTGCATAACAAATTTCCCTCCAAAC
CTAGTAGCTAACAGTGACAATAAACATTGATCACCTCTCACAGTTCATGTGAGTGAGGAATTTGGAGGCAGCTTGGACAGGCAGTTCTGGCTTGAGGTCT
TTCCTGAGGTTGCAGTTATCTAAAGGCAAGCTTGGGGCTGGAGGGTCTGCATTCAAGGTAGCTCGCTCACATGGCTGGCAAGTTGATGCTGATTATTGGT
GGGGAGGCTGCAGTTTCACACAYGAACTTTCCTTAAGACTCTCTGGGTATTCTCATGACATCGTGGCTGGCTTCSCCACCACCGTGAGTGGGCAAAGAGA
GAGCATCAAATTGGAAGCATTATCCTTTTTGTGACCTAGCCTTGGAAGTCACATAGCATCACTTCTGCCTCATTCTATTCATTAGAAGTGAGCCACTAAG
TCTAGCCCATACTCAAGACTTCACCTTTGGAAGGAAGGCATGGCAAAGAATRTATGGATGTATCTTAAAACCAATAACACCACAATGTTTTAAAGCTTAT
AATTAACTCAATCTAAGGGTTTAAAAATAAGAGAAGTTTATAGAAATTTACACAAGGATCTAAAAGAAATAAATTCAAGCCAGCTTCTCTTCTTCTATTC
ATTTAAAACTTTGCAAATGTCCATAGAGTTTTCAAGGTATTTTTTGGAGACAGCATGGTACAATAGAAAGTGCAGAGGCTCTAGAGCCAGAAACAACCAA
GTCTGAATCCTGGATTCACTACTTACTAATTAGGGGTACTTGGACAAGTCAGCCTCTTGGATTTCCAGGTTCCCTCAACTGTAAAATGAAGGTAATCAAT
AGAGCTTATCTCATATTGTTCTGGAGGCAATTAAATGAGATAATGTGTTAAGGTGCCCTCTATGATGGGAGGTCTCATCGATTTGCTCATTTAACCAATA
ACATTAACTATCTAAAAGGTGTTCTGATGGACCCTGCAAGTAATACAAAACTGACTCAGATGCRGGCCCTACATCAGGAGGTATACACTCTAGCAGTGCC
CTTGACAGGTAGAATAACTGTAATACAACTGAGAAAATGGTCAGTGTCTGGAGCAAGTATGGATACAGTGTTTTAAATATGGATTATATTTGGATATATA
GAAATGAAAGACATTTTGAAGGGCAAGGAAAGGGCAAAAGATATTCCAAATTAGAAATACAACTTGCATAAAGACACAACTAGAAAACCATGGGGCATAA
CTGGAGAATAACAAACAGATTATTACAGATATGGCTAAGCTTAGTGTAGATGAAAGGAGGTAGTGGAAACMGGTTGGAAAGTTAGTTACATGTCAGAGCA
GTAGGAAAAGATTGAGTGCATACACTTAATATTACAGTCTGATGAAAAACATTAAGGCCAAAAAATTTTCAACCAACTTTCAGGACAAAAGCTAGGTGGG
ACTAGCTACTAGAGGATCTACTTACCATGTTTTCTTGGCCAATTCCTGTTTGTAAAATCTTTGTGCCTCAGACTGTAAACAGAACTTTCTAAAACTGATC
TTTAGAAGATGCTTCTGACGTACAGCCTGAGCCACTGAGCTTTGTCCTTATCATTCCCAGTTTGTAGGCTGCATCAGCAGGGAAATGCAGTGGGATTGTT
TTCATAGGCCCTTAGCTCACTATAAACGTACTTCTCAAGTCTTGGCCCTTTGGAAATGGCCAGTTCGTGCACTCAACTCATCTGCGTATTTGAGTGCTAC
ATCCAGATAATGAGCCACTCTCTTCACTTTACTTCCCTTCAAAAAGACTGATCGATGGAGCAGCCTTCATTTCTGTTACATTATCCAGTCCCAGGCAGTG
ATGATGTTTAAACGTAAGACAGAGACGTTTCTATGCAGCAATGGAACTTTAAAGGAAGCTGGAGCCAATGACCTTTCACTTTGAAGCCAAAGAATYACAA
GCATAAAATTTTCAGTCTTGCTAAGAATTGGGGCTGGAGAAATTAGCAGAAAGTCCTCTTTAAGCCCCACAATTCAGTATGTGGTGCCCAAAGCCTTTAT
GTACTCAATCTATGTCTCATTTAGCACTTCCCTCTTATTTTGATGAAGTTTATATGTGCCATCAGAATAAACATGGTTGTAACCATTATTGGTGATTTTG
TGGGTAAAAATTGGATATTCCATTTTATCTCCCTCTTTGCTTTAATGTAAATGAATTCTAGAGCATTAAGGGAGAGGATAGATTCTAGGCTTAAGATAGA
GCTGCCAGCCAATCTTGGGCTGGCACTTCCCACTTTCCCAGTTAGGGGTTTTAACTCCATTTGAGTTCATGGGAAACATTCTCTGCACAGGTACTAAGGG
TGTGTCCTCTTCCTCTCTGATTTCTTCTCAGGTGGGAAATTGGCAAGTGGAGTCCATGTAGTCTCACATGTGGGGTCGGCCTACAGACCAGAGACGTCTT
CTGCAGCCACCTGCTTTCCAGAGAGATGAATGAAACAGTCATCCTGGCTGATGAGCTGTGTCGCCAGCCCAAGCCCAGCACGGTGCAAGCTTGTAACCGC
TTTAATTGCCCCCCAGCCTGGTACCCTGCACAGTGGCAGCCGGTGAGTTCTGAAGTTACTCAATATTGGAGCTTTTGTTTGCAACAGTGACTCAAAAAAG
GGATGCTCTCTCAGAGTGGTTTTGTCCAGGGATGTTAAAGGGATGTTCAAGATCTGCTCATTTCTCCCTTCTTAGTACTCCCCTAACCTGATTTACATCC
AGATCTTTTAATTACAAATATCATGCTTTTTCTACTGTATCACACCCCAGTGACCTCCAAAAGCAATGCAGATGACCCATCTGTTAACCTGAGCATATTT
ATGACAAAGCTGTCACAAAGCTAAGGAAAATTTTTTAAAATCAAGACAATGTGGTGGGTTTGCCATAAAGCTAAATTTGTTCTTAATTTACACCCTTTCT
AGTTTTTTTGCTGTTTAAAATTCTAAGAAATAAGGGTAGTAGGCAATGATTTTTTTTAACATCATTACTTAGCAATATAAGAAGTTAGAAATGCTGAGCC
AATTCCAAGTATTTTTATTTTCCTGGTCCTGTGAATTCCAAAAGTCTGGGAACCACTGTTTCAAAACAGGGGTTGACAAACTGCAGCCCTCAAGCTAAAT
CTAGCCTGTAGCCTTTCTTGCGTGTGTAAATAAAGTTTTATTGGAACACACCCATTATTTTACGTACCGTCTATGGCTGCTTTTGCACTACAAGGCAGAA
TTGCGTGGTTGTGATAGTGAACATATGGCTCATAAAATCTAAAATACGTGCTATCCCTTTACAAACAAAATTTCTGATCCTGCACCAGGCATATATAATA
ATAACACAACTATTTTATCATAATTTCCTATCTAAAAATAATATGCATTTATCAAACGTTAATRTTTTTGCATGCCTTTTAAAAACACAGGATTTTAGGT
TGATTGCATACAATCTTATTTTGCAGTTTGCTCCCTATTAGGACATAAGACACTGCTTTAAAGGGACAACAAAGGCCACAAAAGTAAGCATGAAAGGTGG
AGGAGACATACATCTCTGTTTCACTGAGACAGTTTCTTCACTCTCAAAAGTGTCCCAATTTGGGTGATAAAGGATATAGTCATCAGTGGAAAAGGAGAGA
GGACGACAGCTCACATACCATTGCCTTGTGCAGAAGGGTCTCCCATTTCCAGGCAGCCACGTGTCCTCTGTGCTTTCTCCTAATCATTTGGCAGAGCCCC
TCCCTYCTCCTTGCTCCTTGCCCATCTTGGAGCTGTGGTTTAGTAAAACACTCAAAGAATCAAATACTGATGAATAAGCAAAACACTAAGTATGAAGCCT
CTGGCAACAGACATTAAATATATATTTTCTTTTAGAGCTTAAATGTATATGGCTAAGTTCATTAATTCCATGATACTATGGATGGTTTGTGGAAGAGGAT
GTCATATATTTTGAACACCAATGTACCAGCGCTTAAGAAATGTATATTATCGCTCACCAAGCTGAAGTAAATCCTCACAACAATTCAGTTAAAATAAGGT
TTTATTAGCCTTACTTTAGGTTTGAGGAAACTGAGGCAAACACAGCTAGCAAATTTAGGGTTGGCTATCAACTCCGTCTTATGTGACCCTTTCCACTATA
CCAAACCTATTGTGTATGGCTAAAAGGCCTTTCAGGGATTAAACATGAGCACTTTTGTTTTACAGATGATGTAACTGTGGCCTAGATGTAGGCTTCCTTA
AGATCATAAAACCTGGACCAGAACCCAGGTCACCTGATTGCTAGTGCATTTATACTAAGTTACCTCTAATTGGAGTGAATCTATGACCTTAAACGGCACC
ACTAACCCATGCCAATCCTAATAAAAGGTGAGAAACCATCTCAAATCAACCTCCACTGTTGAAATTGTTAAGTCCCCATATTATTAGTAGCTTGTTGCTA
TTAGGTACATAAGTTATGGATAAAATGTTTACTGAATGATGAAATGAATGAATAGATGAAGAATGCTCCTTATAGGCCCTGAAAATGCTGACTTKACATC
TTCCTGATATGTTTTTTATGGTTATAGGTCTTAATATCGTCCTAGTCTTGAAATGCAGTGAAACATCAATGTCTTTTTGATAGCCACACGTGCTGCTGAA
TAATGACATTGACTCATGATGCTTTTTCAGTTTTTAGGGCACAGCCATATATATGACCTTTTTTTGGTCAATTGCCATCACCACCACCTGTATGCCCAGC
ATCCCTATTTGAAACAGTGGACTTCCAAAGAATCACTTATTCTTAAATTTTCATCTACTTTGGGCCTGCGAAGATATGAATTTACTTTGAAAGCTTTTCT
ATTTCCTTCTTTTTGGGAGAAGCATTTGAGGATGAGTCAGGTTTAAGTTCATTCTTCAGGTTGGGAAACTTAATAGTAAACAACTGTTTGAAGTTCATCC
AATGCATCAGTGACTACAGTTTAATAGGACCTTTAAAAAGTCTCTTCTTTCACACCTGAGACACAATAATTGTGAAAAATAGTCAAACATAACAAGAAAT
AAAGAACATAGAAGGTCAGCAGTGTTTCTACCCTCCAGAGACAGCCCTGTTAATGGTTTGGTGCATAGGGTCTGTTTGTCTAGCATGGTGAAACCCTGTC
TCTACTGAAAATATATATATATATATATATATATATATATATATATATATATATATACAAAAATTAGCCTGGTGTGGTGGCGGGCACCTGTAATCCCAGC
TACTGTGGAGGCTGAAGCAGGAGAATCACTCATACTCAGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCACCACTACACTCCAGCCTGGGTGACAGAGCA
AGACTCTGTCTCGACAAAAAAAAAAAAAAAAAAAAAAAATCTTTGATCACTTTTAGAAATCTCTAAACCTGGAGTAAACAATAAACTATTTGTCTTACAT
TATTTACTGGAATCCAACTTCTTTGGCTAAGTTTTGTTGGGAAAAATTAGCTATTGCTGACTGCTTGTGAGAAGAAACCATTGTTTATATTGTATGGTGC
AATAAGTCCAGAGTAACTTCAGGGATCCCTAGGCTAGTTGGCTGTGGTTTTAGAACTCAGCTTAGTTACGACACCAGCTGTTGAAAATCCATTGCCTGGT
TAGCCCTGATTCCTCAGCAATTCTTACTGGGAAAAGGGAACTTGGTGTACACTCACCTGGTCTTTTCCATTTAGCAAGGATCTGCCAGAGGATACTGCTG
AGGTCTCCAATCCTTCAACACCCAACCTACAGCCTCTTTCTTACAGAAGAAAAGGAGATGGGGGATCACATGTTTCGTTTAAAGGAATACAGATAACAAC
CTGATAGACATTGCCCGTTTGAGGGGAGAAACTCTCTCTCCTCTCTGTGTGAACACAGTGTTACCACTGACCTCATGTGTATGTTTCTCTTTCTGGGGGG
AAGAAAACATAAATTATGTAAATTGTCATCTGCCAGATAGGAATGCAACCTTCTTTGTTCTTTGTAGAGTATTTGTCTGACAAATGGCAAATAGCCAATA
TTTACACATTCTGCAGGTCCGGAGAGGACCTAGCATGGAGTTCAAGTATTGATGTTAAGATCTTGTTTTAGAAMTTAAGCAGAAATGAAACAGAAATCTA
ATTCTAGCTTTGGTTGTTAGGGGACCATTTTTATTTCAGTTCTTCCTCTTAATACTCTGCCCTTTGCTTTTCCTCTCTGGTCTGTGGGAAGGATTCATTT
CATATTTATCCTTACCAATTTATTAATAGCTTTAATATCTTGTTAGTTTATATTTAGACAGCTTTTGAACACTTATTTTATGTGCATGTAGTCCTCTGCA
TCTTCTGCAATTTATTAAATACACTCATCATCATCCTCCTCCTCCTCCTCCTCCTCCTCTTTGGTGTTGGTTATAAGTGACTTATTGCACACCTCATRAG
GGATCATATCCCACRGGTGAGTTACAACACTGTGATTGAGAATCACTGTTACCTATACCACAATTTAGTCTGAAACACTTTGATCATGACAGTCTACTGC
TAGGATTTTTCTCAGTGACTCTAAAGCCAGTACATGTCTTGTTCAGGCCTTCATCCCTCTGCGCATCTGTCCCTGCCCTGTCTCCAGGCATGGCTCTCCC
ATCCCTGCTTGTATACTCCCCTGCCCGCCTACCATTTCCCACTCCCCTGTGCTGGTCAAGGCCCAGCAGAGAGCCTCCCTCTTCTGCAGTGACTCTTCTA
TTATCCTTCTACACTGAAGCCACATGGTGTTCAGGGGCAGACAGCTAACTTAACAACCACGTTACCCACTCAGGTGCTTTCTCATGACTTCTGAATTAGA
CCACAAGGTCAATGAAGGCAGAGACCAAGTCTCAGACCCCATAACTCCCAGGACACATCTGCAGAGCGTTGACTTTGGTGTTAGAAAGGTACATGCCCAT
TCTGCTGGTGTCATTTATTGAATACTTGCTACATTTCAGGAGCTGCTGCTTTTGATAATGAGAGCATCACTTTCTCTGTGTTCAGCACAGCTCTAGACAC
TTTACATATTTAACTTACTTAATCCTCACTATCCTATGTGATAGTTACTAATATTATCCCCATTTTGCATGTGAGGAACCTGAAGTATTGTGAGCTTAAT
AGGAATTTGAACATTCTCTTTTAACACTCATTCGCTGCACTTGGCCTCTCTTGAGCCTCACAGCAACCTAGTGAGGAAACCAAGTCACAAGGCTGGTAAA
TGTGAAAGGGKCCCTGTGTGCTTCAAACTCATTTTCTTTTYCACTATGCAGTATGGCTTTCCCAAGACTTCTTTACTATCTGCTCTTAACTGTTAAACTG
TGAAGACATCTGGTAACAGTCCTAAAATCAGCAGTTTACAGAACACTCGGTATTTGTTGCCTCTATCCAGGACAGTTCATCTGTACGTTGGCTTCCTATT
GCTGCTGTAAAAAATTACCACAAACTTGGTGGCTTAAAACAACACAAACTTACTCTCTTATAGTTCTGGAGATCRGAAGTCCCAACTCAATCTCACCTAG
CTAAATTCAGGGGAACCGCAGGCCTGCGTGCCCTCTGGAGATCAAGGGGAGGGTCTCTTTGTCTTTTCTGGCTTCTACAGGCCATATGCTTCCTTGGCTC
ATGGCCCCTTCCTCCATCTTCCTCCCACTGCTAATTCTGTCCCTTCATCCTCTCTCTCTGACTCAGACCCTCCTGCCTCCCTCTTCTAAGGACCACTGTG
ACTACCTCAAGCCTACCTGGATAATCCAGGATCATTTCCCCCTCTCAGAAGCCCTCATCACATCAGTAAAGACCCTTTTATGCACAGGGTAATGTGTTCA
CAAGTACCGGGGATTGAGATGAAGATATCTTCGGGGGCCATTGTTCAGCCCATCACCACCTGCTATATTGTSAGTGAAGCACTTAGTCCCCACTAGCACA
AGCTCCTTGAGATTGGGAACCTGTCTTCCACTACCCTTTTGCCTCTCTATATCTAATATATCAATGTATATATCATATGCATCAATATTCCTTCATTTGT
TTTTGTTCTAAAAATTAAATTGAAACAAGGAATTAAAGAAAAAAGGTGCTGAAGGGTTAAACTGAAAAGAATTGGTCCACTTTGAAACACAATTTATATW
TCTCTATATTGCATATGTTTTATGTTCAAGATTGCGTCCACCCAACTGTACACACATGTTGCACACATCTGTGCAGAGACAGAAACAATTGCCACAATCT
CTGGATCCCTGCCTTGCTTAAAACTGTGACAGTGTTGCCATTTCCCTCTAAACCTTTCTTAATCAGGGTCACAATTGAAAATGCCTGCAGTTCAACTATG
TAAAAAAGCATAAGGGAGAGGAGTCCCTGCTAGTGATACAAAGAAAAAGAGAATTTTAATGATAACTATAAATGCCTGAGAATTAAAGTTTTCATTTTCT
AGATTTAAACATACATACATACCTTCAAGCAAAGACAAAAATACCTTTGGTTTGGATTAGAGAACTGAAYTCTGGCAGAGTCACATAGTAATCAGTTTTG
TTATATTCCAGTGACTAAAATGTAAATCCACATAAGTTAGAGGCTATATTTATTTAAAATTTTCTGTCCCAGGGAGGAAAAAACTCTTAGGATGTTTATC
TCATTTTCAATAGTGTATTTCATAAGGAAATGGACACTTGATCCTATCTTTWGAGGCAGCAATAAACATAGCAAAACAAATTGAAAGTCCAGCTTCACAT
GTGGTTGTTTTTGTTTGTATTTATTAGCAGGAAGTTCTTTGGCATAATTGCCCTGATTTTGATGGATGTGCAGCTGCTTGCTTCACACCATAACAAGAAT
GTAAAACCTTGAAGGTACAGTGTACACCCCTTGTACTTCCAGAGTCAAGAAAGCTTGMGACTAGATGAACAAGGGAATTCTAATCCCCAAAATGGCTGAA
GTAAGACTTCTGTTCTCATTTTAATAATTATGTTTAGTAAGTGAGATTCCAGTTCTCATTTTTCTTTGTTTCTCTAGGCCCTAATTCAGTTTGGCTCAGC
TATGACCTCGACTGTGTGCATAGCACCGTGTCTAACTGCCTTTGGGCTCCCTCAGTCTCACATGTTKCTAAGTTACCTCAAACTCCAAAGGTCTAACACC
AAGCTTAATACATACCTGCCTGCCACCCCTTCCCCCATTAACCTGGTCTTTCATCATTGATCATTATCAAGTAGGTGACACCACCATCTGTCCTGCTTTC
TACCTGGAAACTTGAGCCATTATGAGCCTCACGCATCCTTCACGCTTTGTCAACATCTATACCCTATTTTATTCCATCTTCTATATCTCCCCCACCACTC
TCTTCCTTTCTAATCCCTCTCCTTACAATCAACTCATCAAACCCTTACAAACAGTCTTTTACTTGATCTCCTTGTCTCATCTTGCCTAACTCTCATCCAG
TGTTTCCCAACTTGGTATTGATGATTCTTTACCACAGGTTCTCTCTTCAAGCCTTTAAAATATAAATATGCATATAAATATGCACTGAGAACCCCTGCAT
AGGGTTATGATATGCAGTGTTACATAGACTTATTTTACCAGGAAGCCCTTTCTCCATGGCACACCTATTAATACCTCACAAAGCAGTATTGTTTGGAACT
TACTGGCCTATGCTGCCTGAGTCATTTTCTACAAATTGGATCATGTTACCCCCTACTTTGAAACCCCTATTGATACCTCATGGTTTTAAGATTATGTCCA
RAGGCACTTCACCATGTGCYCCTAATCTAATGTCTCAGAATAATTTTCCACCTACTCTTCTTCATGGACCCAAATGGTGCACCGTCTAAGGACTGCTCTG
AGTCATCAGAACATGCCATGTCCCTTTGCACCTTCAGTGCGTACACACAATCTTGCTATGCCAGCATCCTCATCTCCCTGGAAACTGCTCATGTGTCACT
GCTGTCTAGAGCTTCCCTAATTTTCCCAGAKAGATTTAATTGCACTCTTTGTTGTATTCCCTTTTTGTAAAACTGATCACATTGTATAGTAAGTTTTTCT
CCCTCACTGGACTGCAAATATCTGAGGCTTAGTAACCATTTTTTATAAATCCCCAGCATCCAATACAGTGCCTAGCACTCAGTGGGTACTCAATAAATGT
TTGGTGAAAGAATGAATGAGTGAATGAAGAAACAMGTGAAGTGAGTTGGAAGTTGTAAGCAGAGTGCAGAGTCCATTATGTTAAATGAAAAGTTGGCCTT
ACAAACAAAACATAAACATCACTTTGTGTTGGGTTCAATAATGTTAGTAAAAATATCAAGGAAATCAACTCAGCTCTCAGTAAATTAAACTACCAAGAAG
AAACCAGAAATTTCAATACAGGCAGAATTTATTAATGTGCTTATCATGGGAAAATCTTTAAAAGTACAGGACACTTGGGCCATTGTATTTTTTGTGTAGA
GACRTAATTGTTTTCCTTATTGTGTATTTTTTACTTTTCTTATAAAACGAACCCATGACCTCATATCATGAAACGTGTATGGCAGCTGGTATAAGCAATA
TAGATACTATTTTTCTTATGTATTTTGCTTATTACATATATTTAAAAATAATGCCCCTTACTGGAGATTTATCTCTTCATACTAGAATATTATTTTAAAT
GATGACTCATAAAGGCAAACATTTTTTATTTAATTTCATTAATTTTCTCTTGCCATTGCTCCTTTGGAAACATTTTTTTCTTTGCATCCTGCCTCTTGCA
TAAGAACTGTTGGCCTCACCGGGTCATCTTAGCACATTCACAAAGTCATCACAGACTTTGGAGCCTTGACTCCTTTCAAATTTCATCTTCTACAATTTTT
TAAAATTTCTAAAAATGCCTTTCATCAATGCAAACACACTGAAGAAAATTTGAGAACACAGACAAGATAAGCATTTAGGAGCAAAATCCCTGACATTTAC
TCAGCTAGATGGCTGCCTCCCATACCTGGAGCGTCAGACTCTCCAGCAGAGCCCACACCTTCACTGGGTGAAACCCACTGCTGCCTTACTGCAAAGCAGC
TTCTGGCTAATGATAAAACAGCCTGATAAAAGGTAGATGATCAGCCCATCAGCTGGATGCCTGTTTTACATCTTTTTAACATCTGGATTTGGAGCTCTTT
TGCTCATCCAATCATCAATTCAACAAACATTTATGAAGTGCATGCTCTTTGCCAGATACTCTACTAGGCTCTGGGGAATATAAAGATGAATGAATTCCCT
TTCCTCAAAAGACTCATAATCCTGTGTGCATGCAGGGAGGGAGAGGAAAATAGCGGGCACATAAACAATGAGCCCTTATAGAAGAGATAAGATACCCTTC
TAGGTCAGGGTGGGTTGGAGGTGATTTGTTTGCCAAAATGCAGAGGGGTTGGAGGAGGCTTTAATGAAGAAGTGGCCTTTAAAAAAAATACCTATTTTAA
ATTAATTCTTGTGGGTAATAGTATATGTATTTATGGGGTACATGAGATGTTTTGATACAGGCATGCAATGTGAAATAAGTACATCTTGAAGAATGGGGCA
TCCATCCCTTCAAACACTTATCCATTGAGTTACAAACAACCCAATTACACTCTTTTTAAGTTTTTTTTAATCTACAGTTATTATTGACTATAGTCACCCT
ATTGTGCTATCAAATAGTAGGTCTTATTCTATTACATATTTTCATACCTATTATCCATCCCACCCTCCCCCTCAGCCCCTCACTACCCTTCCTAGTCTTT
GGTAACCATCCTTCTTCCGCTCTCTATGTCCATGAGTTCAATTGTTTTGATTTTTAGGTCCTGCAAATAAGTGAGAACATGTGATGTTTGTCTTTCTGTG
GCTGGCTTATTTCAGTTAACATAATAACCTCCAGTTCCATCCATGTTGTTGCACATGACTGGATCTCATTCTTTTTATGTTTGAATAGTACTCCATTGTG
TATGTGTACCACATTTTCTTTATCAGTTAATCTGTTGATAGACACTTAGGTTGCTTCCAGATCTTAGCTATTGTAAAGAATATATACACTGCAACAAACA
CAGTAGAGCAGATATCTCCCTGATACACTGATTTCCTTTCTTTTGGGTATATACCCAGCAGTATGATTGCTAGATCATACGGTAGCTCAATTTTTACTTT
TTTAAGGAAACTCCAAGCTGTTCTCCATAGTGGTTGTACTAATTTACATTCCCACCCACAGTGTATAAGGGTTCCCTTTGGTCCACATCCTCTCCAGCAT
TTATTATTGCCTGTCTTTTTGATAAAAGCCATTTTAACTGGGGTGAGGTGATATCTCATTGTAGTTTTGATTTGCATTTCTTTGATGATCAGTGATGCTG
AGCACCTTTTCATATACCTGTTTGCCATTGTGTCTTCTTTTGAGAGATGTCTAGTCAGATCTTTTGCCCATCTTTTGATTATTAGATTTTTTTCCTACAG
AGTTGTTTGAGCTCCTTATATATTCTGGTTATTACTCCCTTGTCAGGGTAGTTTGCAAATATTTACTCCCATTCTGTGGGTTGTCGCTTCACTTTGTTGA
TTGTTTCCTGTGCTGTGCAGAAGCTTTTTAACTTGTGATTCCATTTGTTCATATTTGCCTGTGCTTGAGGGGTATTGCTCAAGAAATTTTTGTCCAGACC
AATGTCCTGGAGATTCCCCCAATTTTTTTTTGTAGTAGCCTCTTTGTTTGAGGTCTTAGATTTAAGTCTTTAATTCATTTTATTTAATTTTTGTATATGG
CAAGAGATAGGGGTCTATTTTCATTACTCTGCATAGAGATATCCAGTTTTCCAAGCACCATTCATTGAAGAAACTGTCTTTTCCCCAGTKTATGTTCTTG
GCACCTTTGTTGAAAATGAGTTCACTGTAGCTCTGTAGTTTTGTTTCTGGGTTCTCTATTCTATTCCATTGGTCTATATGTCTGTTTTCATGCCAGTACT
ATGCTATAGCTGGTACTATTGCTCTGTATTATAATTTGAAGTCAGATAATGTGATTCCTCCAATTTTGTTTTGTTTTGTTTTGTTTTGCTTAGGATAGCT
TTGGTTATTCTGGGTCTTTTGTGGTTCCATATGAATTTTAAGATTGTTTTTCTATTTCTGTGAAGAATGCTTTTGACATTTTGACAGGGATTGCACTGAA
TCTGTAGATTGCTTTGGGTAGTAAGGGTATTTTACCATATTGATCCTTCCAATCCATGAACATGGAATATTTTTCCATTTTTTGATGTTCTCTTCAATTT
ATTTCATCAGTGTCTTAAACTTTTCATTATAGGGATATTTCACTGCTTTGGTTAATTCCTAGTATTTAAATTTTGTGTGTAGATATTATAAGTGGAATTA
CTTTTTAAATTTCTTTTTCATGTTGTTCACTGTTGAACATAGAGAAATACTGATTTTGGTATGTTGATTTTGTACCCTACAAATTTACTGAATTTAAATT
TCTTTACCAGTTCTAATAGTTTTSTTGTGGAGTCTTTAGGTTTTTCCAAATATAAGATCATATCATCTGCAAACAAGGATAATTTGACTTCTTTCTTTCC
AATTTGGATGCCATTTATATCCTTCTCTTGTCTTACTGCTCTAGCCAGGACAAGAAGTGGCTTTTGAGCTGGACCTTCAAGCACATCTTGGAAGTCTCTG
GGTGAACAAAGAGCTGGCAGGCATTGCTCATGGACTGAATGACATGATCAAAGGCAGAGCAGAGAAGGTGTCTGTGTGCCCAGGAAAGGGCAAATTGTCC
ACTGTAGCTAAAGCATGGGCACATGACAGTATGTCAAGGAATGGGCTGGAAAGCTCCATGCAGATCAAAGTGAAGGGCATTGTCAGGAGTCTAGACTTTA
TCTTCTTACCATTGATAATATCCTAAAAGCTTTATGTATACATCAAAATTGTAAATGACAATTTTTTAAAACTTTTCTTGCAGCTGTTTTATCAACATGT
TGTTACATACCTATATACTGTTGGAGGTCTGTGCCTTAAATCAAGTCCTATCTGCAAACTGATAACCCAGTTGTGTTATTTTCAATGAGTAATCACTCTA
TAGTACAATTTTATTACATCTATACCCTTGAAATAAGACAACTTATGTTCATTATCTACTTCCTCAATTTGAAAGAGAGAGAAAATTAACCTACATTTTT
CTTTATTGCCAAATTCACTAAGAAACTCTAACTGAACAGCTTGAATCTGAGAACTGTTCTTATTTAACTACTTGTTTATTGTGGAGCATTTATCAAATTG
AACAGAAGCTATGTGCTTCATAAAAATATTTAGAAAAAAGAAAACTTCAGCCACTACCCATTGAAGAGATCCATACTCCTACAAATTCAGCATCACTAGT
GAAGTATCTAAAATGTCAATCACTGGGTAACAGAAACTTTGGGAGCATGTTCTTTATGTCTGAAGGACTCAATAGGACCCATGAGGAATCTGAGTGTGAA
TTATAATCAAAGGATTAAATGAAAAGTGGCTTGATGTCGTTTTGAGGTTTAGGAGATAATAATTTTATGAACCAGCTATTATTTCTCTCAGAGAAAAAAA
ATACACTGCATTTTCAACAGTGTAAATATTTATGAATCATTATCAAAACACCATATACTCCCAGAACTTATTGTAAAATGTCACTCCACTGTTCAGCTCA
TACCCTGACCACTTCCTTACTGGGAAACAAACAAATAATTAATTTTAAAAGAAGGAAAAGGAGAGAGCATGTGTAAGAAAGAAAACTAGAGGTGGATTCA
TTCAATCCTAATGTTTATTATTAAAGATGTAATGATATACTGGGGAAAAGTTTTAAGTGAAATTCTCAAACACTTAATATGAGCAACAACAGAAGCAAAA
TCTCTTCCTTCATAGAGCTAATGGTCTAAATGGGTGATAATTTCTGAAAATATGAGAGCTATTATAAAAAATAAAATGAGGTAATGGTGATAGAGACTGC
TTTGACTACTCTAGGTAGGAAGGTTAGGGATGGCCTCTCCACACAGCTGAGAATGGAATTGAACCTGGATTATTCAAGAGACTCAGCCACATGAAGATCT
AAGAGAAGAATGGTGCAGGTAGAGAGAACAGCAAATGCGAAGGCSCTGTGGGAGAAACAAGCTTGACATGTTTGAGGAACAAAACAACAAAAAAAAAGTC
TGGCTGGAGTACACAGGGAAAGGGGGGGTGTCGTAAAAKATAAGATTACAGAGGTGTACAACGCTTCTCTTGCTCTGCTATACATTCACCTAGCTAGAAC
CATGCTTGGTTCATGATTGGCATTTAATAAATTTATGTGGAATGAATTAATAAAGTTGGAAGGATTTAAGCTAGACAATGTCTAAGTTCCACCAGGGCAG
GAACCAGAATCTGTAGCGGTTTGCAGGGCAGGGTTAGAGGAGTATAGATTATATTCTCATTGCAAGGGAACGTCATTGGAGGGTTTTAAGCATGGAAATT
GTGTGATCACATTTATGCTTTGAAAACGTCACTCTTGCTATGGTGTGGAGAATAGAGTGTAGAGAAGACAATATGGGGTTTCCAACAGGAGGAAGGAACT
CTYTTTCAAATGATCACATTTGAGTGTATCATCTATATCCTGCTAGAAACGCTATTTCTTAGTCCATTCCGGCTGCTAAAACAAAATACCGTAGACTGAG
TAGCTTATCAATGACAGAAATTTATTTCTCACAGTTCTGGAGGGTAGAAAGTCCAAGGTCAGGGTGCTGGCAGATTCGGTGTCTAGTGAGAACCCTCTTT
CTGGTTCATAGATGGTGCTCTGTAGCTGTGTCCTCCACATGATGGAAGGGGCAAGGCAGCTCTCTGGAACCTCTTTTAGAGGATACTTATCCCATTCTTG
AGGGTTCCACCGTCATGACCTAATCATCTCCCAAAAGTCCTCACCCCTAATACTATCACCTTGGGAGTTAGGATTTCAGCGTGTGAATTTAGGGGAGTGG
CAGGGAGGACACAGACATTCAGACCAAAGCACCAATAAAAGGCAAGAGATGATGGATTATGGTATGCTGATTTCTTATTTATTTTAGAAGTATAGCTTAT
ATGTTTTGTAAGTAAACCTGACCTTATTTGGCCATGACTTGGATGTCAGGGGAAGGGTGGTAAAAAAAAGGAAAAACTCAGGGGCCAAAGTTTTTGTCCT
GGATGTGGCACAATTAAATGAATGGGGAAGACTGAGAGAGAAGTAGGTTTGGGATGAGGTTGGAAGGGCAGTATTAAGAGTTCCATTTTAGGCATGTTTA
ATTCAAGATGCCTATTTGCATTTAAGTGGACATGTTGAGTAGGCATAGGGGAGAGGTCAGAGCTTAAAATTAAAATTTTTGATTTATCAGCACAAACTTG
TTTCTTTCCAACAATTGTGGTTTCAGAAAAATTACARTAAGTTCATGGAAGAATCTTAGTAATTCACAGAATGGAAAGTATTGTGGAGAATATAGTCCCC
AAATTTGGCAAATCCTTAGGAGTCAGTAATCCACGTGGTTAGTTGGCTACTTATAAAAAGAAAGAATGAACAAGAAAAGTTTAGAACTGATCTGATTATA
GTATAACTTGTTGGTTCGATGTAAGAATTTGACAGCAGTAAGAGAAGGTCGAACCTAAAAAATCATGCAAAACACTGTAAAACTAAATTTAAAACCTTAG
TTATCCATAGCAACAGGATTATTCTAGATAAATGGAATTCTTAGCCACTAATTTAAATTTCTCCTAAGTACCAACTTCAATTCAATGCCACAGACATTTA
TTGAGAACATTCACAGGAGGCATTATTCTAGGCAGTGCGGGTACAAAATTAGTTAAAGAAGTGAAATCCTTTAATGTCTTATTGAATTGCTACCAAATGA
GGGCTAAAATTAAAATTTGCTTCTTCAATACAGAAGAGCCCACAGAGTCACTGAAATGAGCCACAAAGAAGACAAAGGCTTAGGCCAGTTACTTGAATCA
TTAGCTCTGAGACCATAGATTTTGTTCTTAATCAAGCCCAAACGACACACTAGAAAAGCCCTTAGAAGGAGCTGGTAGGACTTGTAATGAGTAACAGGTG
GTCTAGCTTCATGGCATTGTCTAAGAGCTATGTTTAAATGTTGCCTCTCAGAAATCAGAGTTTAGGGAGAACTCCTTAAATTTTCCAGGGTCACTAGAAT
ATAGATGAACTACTTTAAATTCTACTCTCCAACCTGAATCATGGGCTGGCTCCTGCCAGTCAGGGATGGTCACAAGAGTGGAAGCTAAGAATTGAATGGC
AAAGCCCAGTTGGGTGAAAGASTAAGACCAGGCTCTYGGCAGGCTTGGTGCTGATCAGGCTGGGAGCCCTCCTCATGAAGCAACGGTCACACTACCCTCC
ATTGGGTCTGCAAGCACGCAGGAGTTGCTACAACCACGGAGGAGAGAAGCTGAGTTTGGACTTTTTCTCCAGCTGCGTCCAGAGCATGGTGTCCAGTAGG
AGCTTAGCAAATGTTGCAATGAATGGCAATAAACAAATTCTAGCCCCTGTGTGGCCTTCATTGGATTGTTTACCTCTCTGAGCCTCAGCTTTTTTTTTTT
TTTTTTTTCTGTAAAGTGGAAATAAGACCTAGCTTGTAGGGTCATTTCACATTTTTTGTTAGCCTTCAATGCTTCAATGGGTAGGTAGTTGATCCCAGCA
CTAAGAAAATACATCCTTTTTCCTAGGGGACTCAATTATTTTTTTAAATTTGAAATGAAAAAAATAAAGGTTTCTCACCATTGATTTTAATAATTTAAAA
GACTCTAAGACTAAAAGGCTTAACTAGACAAAGTTGATTGCTTTTCTAACATCATTATCCACTAGCTCTGTGACCTCAAGCCATTCACAACTGCAAACAA
AAGGCATGTTTGCTCCGGTGGGGTCCAAACAACCACTGGTCGTAACAGAGACCTCTCTGGGTCCCGGATTTTCCTTTCCATGTTTATTACCATTGGGTAT
GGTGAGAGAACATTCATTTGTAGAAGTGGTTCTAAGCCCTGGAGACACAATAGAATTATCTGGGGAAAAATTACTTGGAAGAAGATTATACCGATATCTT
TCTTAAAAACAAAACAAAAACTGGTACCTGGGASCCACATCCCAGAATATCTGATTTGATGGGTCTGAAGTGAGGCCCAGGCATCGGTACTTTTTAAAAG
CTCCCCAGGAGACCTTGAGGTGCATGCAAGGTTGAGACCACTGAGTAAGAAGGTGAAAGCTGGGCTGCAGCTAWGTTCTGACTGTACCCAAGGACACTGG
TATCACCATCATAACCTTGACTGCCGGCAAAAAACCCCATAGCCATTCTGAGTACAACTTACTAAACAAAGACCAACGTGAGTTCTGAGAGGGGCACTCC
TCCAGCAAAGCAGGTACTTCAGCACAAACTCTCACGCTTTTTAAAACCAGGCTTGATCTCTCAGCAAGCCCAAAGGCAGCAAGCTAATGACAAGAAACTA
TTCTGGAAGAAATCAGCAGGCTCCCTAAAATTTTACAATAAAATATCCCCACCACAGAGTAGTCGTGGGTTGAACTCTTAGCTAGGGTTATGTCAGACTG
AAAGTGATAGAAAACCCAAAATAACATTGGCTTTAAAAAGATAGAAAAGTCTTCCTCTCTCACATAAACACAGACAGTCCAGAGCAGATATGGTGGTTTC
ACAGTCAGGAAGCCAGGCTTCTAACTTTTTGTTTGTGACAGCCCAAGATGGAAGCTTACATTTCAGACATCACGTTCACATTCCAGCCAGCAGCGAGGAG
AAAGAGAAGGGAAGAGATGCCACACCATCTTTTTGGGCACTTCCCTGAAAGCACACACAACCCTTCCGTTTATATCCCATCGGCCAGCATCAAGTCAAAT
GGCTGTGTCTGTCTTCAAGGGAGATTGACAAATATAGTCTTTATGCCGAAATGTGGTATGCCCAGTGAAAAGCTGGGGACTCCTTTGCTCTGAAAAGGAA
GGGACATATATTTGAAAATAGCCAACAGTCTGTGCTTCAGGGGGCCTCCCTCCCACTTCATGCCCCTGGATCATAACTATTCAGTTACATGTAAACAATG
TTTTATTGGGGTTCCTCTGAAAACCACTGACATGAGGCCATTTTTCTTGCATCCCAAATTTCAGTGGCTCTGGCTCCCACTGCCCTAAGAAATCATCAGT
CCTGCAAGAAGAGTATTCCAGGGGGGTCCTTAAGAAAACCAGACCCTAAATCTAATGCCCATTCCGTGTGGTAGAGTGCCTTCACTTAGAGAAAGGGCTG
TCTTTTCTGCAAATTAATTCCTCCAGATTTATACTGATGGCGGGAGCTCTCTCCTGTTCATTCTGGAAGCAGCACAGATTATTTTCCCTGGATCGTAAAT
ATGCTGAACACTCTATTATACTAACCTTTTAAACCAGTTGTCTTGGATGGGACTGCAAATCATAGTTCAGGAGCAACTTTCTAAGATTTAAAGGCCCCAG
AAATTCCTGGATGCTCTAGTTAAATACCTGGGATTAAGAGTGGAGAGGGTAGATCTTGCTACAAAATTCATCTSAAAGAGAAGAAACAAAATCCTTTGGG
CCGATTCCTGGTTTTTCTTCTTCTTCTGGATTTTTTTTTCTTCCTTTACTCTGCCAAATTAAGATAAGAATTAGCAGTCAGACTGCCTTCCCATATTGGG
TCTACTTTTTCTTCTTTCCTTCTTTCTTTCCCCAGTGTTCCAGAACGTGTGGCGGGGGTGTTCAGAAACGTGAGGTTCTTTGCAAGCAGCGCATGGCTGA
TGGCAGCTTCCTGGAGCTTCCTGAGACCTTCTGTTCAGCTTCAAAACCTGCCTGCCAGCAAGCATGCAAGAAAGATGACTGTCCCAGCGAGTGGCTTCTC
TCAGACTGGACAGAGGTATGTATGTTCCTCCGAAGAGAATGAAAGAGATCCAAGTAGGAAAAGAAGGCACCCCAGACATATACATAGAAAAGGCAAGAAG
AGAACAAAACAATCTTCCTAATATTATGGAATAGTATTTTTGTAACCATATATACCGTAGTGTGTAACTAGCTTTTAACGAGGCTGCAGGGACCTGAGTT
ACGCAGCCAGCCCTTACCCAACAATCGGAAGCTTGGAATTGTAAATGGGCTCCTCGTGGAACAAAACCAGASCTCATTGGTGCTGTTTTGGCCCCAGGAT
TCTTTTCCACACACTGGGTTCTTCTCCTTCTATCTCCACACCACCCCCTCCTCCTGACCTCCCTGTACCTCTTACTCCCAGATGTTTCTGTCTCTATTCA
GGAAGGGCAAAGCCTCTCTAGCAAGTCTCTTCCAAGTTACTGGACAATAAAGGACATGATTTATTAGGAAAAGAAGGCCAAGGAAATCCTGCCTGTTTAC
TGTTAGTTTCCTGGCTCTAAAATACTTCAACTGCTTCCTATCAAGAGAATTTGATTTCCCTTGTTGTCCTGCACTTTGGGAAGTGATTGCTTCAGCATTC
ACCATTCCCGACTTTATCTGCTAAGTTAGAGACATACCTCTGACTAACCTATCTTTCTAAATAATGCCTCTCCTAATTCTAGCGTACGCCAATTCATTTA
CACCTAGCTTCAAGTCCTTTGTTTTCAGCCACTACCACTTCGAGTTGCCTTCGACTTCTCCACCTCCATAGACCTGTGTGTCTTCCATGGAGAAGTCCCC
CAAAATTGTTGCCTCACAAGAAGATTTAGCCAAGAACAGAATCACTAGACCTGAAGTGAAAATGTCTGTAAAGCCAGATTCAAGACCTTCCTTTTTCTAG
CATATAAGCATTTGAATTTGCCTTCCTAACCCCAGTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGKATAGTATACAACTCACAGGAGGGAGCTGCTG
CTGCTTGAAATACCTCACAGAGATACTTGCTTACAGAGGGCAAAGCGGCCTGTGAAAATTAAGATCCAGCTCTCTCAACATAGGTTCTTAGAATTCTTGC
CCATATCTTATCAACCCACATAGAATTCCATGAGATGGTGCCTGCTAAGTGCATTGCAATTAAGAGTTAACTTACATTACGACAGGTTTTATAACTTGGC
AGTAAAACTGCTTCTTGTGGTATCTCATGCCAAATGTCTCAGAACGTTTGGGGAATTATTTTCTCATGCTTTCTAAATTTGATTTCAAGATATAAAGTGT
GTAAAATGAGCATGTGTACATTTGTGTGTGTGTGCATGTGCATGTTAGTGACAATTTTTCCGTGGGAATGTTGATTTGGGGTATGGCATTTGAAGAACAG
AGGTAGGTGTATTTGCCAAGTGGCTCTAGGTGAAAACATTCTCTCAGTGGAGTATTATAAAAGGAATTGCTCCCCTAAATCTATCAGGTAATAGTCTGTC
ATGAGTGGACTGCTGAGGAAGGGACTTGTGTGTGTTATAATTGTCTTCCTGTGTTCCTGGAGTTTGTGGCCTTTGAAGCATATGAGACAGAGAAGATTCA
GAAAAYGTTCTTTTGTGCCTGCAGATTTGAGGGGGACCTTTGAGATTTTGGGACTAAGAAAAAGGTCCCATTGGTCCCATTAAGTACAGTAGGCCTTCAG
AACAGTATCATGTGTTGTTAAGAGTTCAGACTCAAAGACAGGCAAACCTAGGTTCAAATCCTGACTCTGCCACTTACTGGCTGTATAACCTTGGGCTAAT
TATTTAACCTTTTTGGCTTTAGGTTGCTTATCTGTATAATGGAAATATAATAGTATCCATCATGTAGGTGGGAGGATGAAATTAAATATAATTTAATATA
TATTGCATGTAAAATACTTTGTGCCTACTAAAAGTGAACCCTTATGATTGTCTTCCATTTGGGCTCACTTGTCATGAGAAGGAAAGGAAATGAAAGGAAG
CACTCACCATGGCTGGCTGGGCCTGAGGCCACAGCTTAGGTCTCCTACAGGCTCTCCTGGTCTTCCTCAAGAGGAAGTTCTATTTTGGGAACTGGGAGGA
GGTAGCCCTTATCCAACGAATGTTACTAGCTTCTGAGCTATCTGGGTTAATGAATGGARATTCCAAACATTGAGGAGGGGCTGGGAATGGTGGGAAGTAA
TCACTGAATTGTTGGGATTAAACTCAAACTGGTGCCATATTGAAGTGCTCCTGGAGGTGTTCACAAAGGCTCCACATTGACCCTGTCATCCTTATGACCA
TTCCCCTGGCCGTCTGGCTGAGATGAGATGTGCATGCCACACCTCCCATGAGACTGCCCTTGGAGAAGGGAAGACCTAAATGATCTATGGGTGTTTTTCA
TCCTCCACTATCTGGGCTCAATCTCATGGTTACTGCACAGAATCCCATAGAGACAGAATTAAGCCAAAGTTTTAGACATTTCAAATAAAATTACTTACAG
ATTCTATTCTGGAAGTAAGACCTCTCAAAAGGCCAYACTTCTTTTCTCTGAAAGAAACCCTCAATCTCCTGAAAGAGTTTGATATTAAATATTTTTAAAT
CCTATTTTATGGAAGTTGCTCCTTTCCCCCCAAAAAAAATTCTAAAAGAAAGAATAATTTTAGAGCTAGAAGGAGCTTGAAAGATCCTATAGCCTAATTA
CTTTGTTAAAAAATTAAGACCACAGAATGCTTTATCAAATCAAATGTTACTATGAAGCCAATAATCTTAAACAGATAAAATTAGAGCTGTTTTGGTTTAA
GTTTGAGTAGGGGTCTCAGATCTCCAACGGCTGGGTCTCCTCATCACCTGAGAAGCCCCCGAATCACTTCCTCAACATAGTTATGGAACACAGTTTTAAA
ATCCCTGCTCTAGCTTAGCTTCCTTATTCCAGAGATATGGAAATTGAAGCTAGAGAAAGAGCTAGACTTGACCAAAGTCATAACCCAGTCTTCTGACCTG
AAACTCTGTTTTTATGTTTCTACTTAGYAGCCTTAAAACGACCATGCTCTTTTAAATTTTCAGGCTTCTTACTTCCATCCCACCTGATCCTTGGATTTAG
CGCTGTCATTTACAATAAAATAAGGAATGGGTGGAATCTGGAACCCATAATTTTCAGACTATAAAAGCAATGGGTTTGATTCTCACCACTATCCTTTGCA
TCTTAAATTTCTTTCAGGGTAGCATATATCACAGCACATCACACAGAATAGTGTCACTTCAATATGTTAGCATATAACACTTGAAAATATAAGATCATTT
TTTGTTTGTTTTTTAACCATCATTTTTCAAGTTAACGTGGCACACTCCCACAGCCCTCATTCAGGCAAGCCTGGAGATGACAGCCTCCTTCCCCGATGCC
CTGCCTCCCATCCATCTCCTGCTTGCATCCCTTCCATACAATGTTGCCAGATTAACCTTCTCAAAACACCTCTTTCATCATGTCACCCCCCTCTTCAGTG
GCTTCCCACTGCCTTATGGACCAATTAMAAACCTCTTGTCTGAAAATTAAAGGTCTCCAAACTAASCCTCAAGCTCCTGACACTTAGAACTTGAGCCCTC
TGTTCTGTCAAACTGTTCTGTCCCATGCCTGCCTTGGGACTCCTACACTGAAATTATTATCTTTTTTCTGGAAATTTCCCTGTCTCYCATCTGATCCCTG
TTTCTCTGCACCCACCCAGACTCCAATCATCTTCAAGACCTTGGTGAGGAAATCCCTAGTGTACTATAAGCATTACATTATTGTTACCATTAATTTTATA
CTACTTTACTTGTCTTCTAATTGTATGTTTTTACCAAATTCTGTAATTACAATTCTATAAACAGCTTTATTGAGGTATAATTTATATATTATAAAATTTG
ACTTAGTATGTTTTTAAGGTTTATCTGTGTTGTAGCACATATAAGAACTATACTCCTTTTAATGGCTGAATAATATTCCACTGTATAGATATGGCATATT
TTGTTTATTCATTCACCAGCTGATAGGTATTGGGTGATTTTCACTTTTGGCAATTATGAATCATACTGCTATGAATGTTTGCACACAAGTCTTTGTGTGG
ATGTATGTTTTTGTCTCTCTTGGGTAGATACCCAGTAGTAAAATTGCTAGGTCTCATGGTAAATTTACGTTTAACTTTGTAAGAAACTACCAATCTGTTT
TCTAAAGAGGCTGTATCATTTTACTTTCCCACCAGTAATGAGTGAAACTGCTAATTTTCCATATCCTCACCAACACTTGTTGTCTTTTTTTWTTATTATT
ATTATGGCCATTCTAGTGGATATGAAGTTGTATCTCATGGTGGTTTTGACTTATATTTCCCAAATGGACTATTTCATTTTAACAATGCATTTGGGATTTT
CCCCTCATTTGAATGACAGCTCTTTGAGATTAGGAACTATTCTTGCACATCTTTTCTTCTTAACATCTAGCACCCTACCTTAGACAAAGTAGATTCATAA
CTACCTAATGCTTGACACTAAAATATTGTCACTTACTTGTGAAGGAAGGAAAAAGGAATTAGCAATAATTGTCATTTCTATGTATGGCATTTAAAATATA
TTATCTCACTTAATTCCCAGGCTTGCAAACTAAGCATAAGTGGAAACAGACGAGAGAATTTAAGTAACTTGCCAACTAGTGAAATACTGAGCTGGGATTT
AAACACTCCATAACTCTCTAACTCTGAAGCCCAGACTATATATGTAAAATAGATAAAAGGTCTTCAGGAAACCTCAGAGTAGAAAATCTTAGAGTGCAAA
ATGTCTACAAGATGGGCAGGTCTTCCACATTGTGACCTCATAATTAGTATTTCTATCACAGTGGTTATTGCTTTTCCAAGCAAATTTCTCATATTTTGAT
GAGTTTGACAGTCTATTAAAAAATTAGCTTCTAGTTCCCAGAATTTATGTGCATTTGGCCTTTCTTTCTCCACCAGTGTTCCACAAGCTGCGGGGAAGGC
ACCCAGACTCGAAGCGCCATTTGCCGAAAGATGCTGAAAACCGGCMTCTCAACGGTTGTCAATTCCACCCTGTGCCCGCCCCTGCCTTTCTCTTCCTCCA
TCAGGCCCTGTATGCTGGCAACCTGTGCAAGTAAGTATGTCAGGGCTCTGGGAATGGGGAGATGAAACCCACACAGCAGCAGCTATAGCCACCACGCCGT
GGCCTTCCCTAAACTCAAGACCTGTGGGAAATAGTGGGACAGTAGAACCCCATGGAGGGCTGCAGGCAGGAGAGCTCAGCTGGAGACGGAAAAGGAATCT
TAATTACACGTGGCCAGGCTAAATTCTCCTCTCCACTGGAAAAACAGTTTGMAGGGGGGTAGAGCAAAGTTCACTTGCTGGCATACAGAGATCTGGAAGC
TGGAGGCAGTGTATTACTAATGATGTCTAATGTTATCCACTCTGGGGTTTTAAACGACTCTAAACAGATTTGTTCTGTTTAATATTAATCCCTAGAGCCG
CAACACTTCTAGGCTGTCCTTACCATGTCCTTTAGGGCTCTGGTGCCTTGCAGGACCCAGAAGGCAAACATTTAGCGGAAGACATTCTCCTCTCTGTCCT
CTGCCTCTTTTTATGACGTTGATTTCTTGTTTAAAAATTATTTTAATGAGAGGAAATGCTTTCCCCCGGGATCCCCCTCCATCTAGAACTCTGCATCTCA
GCTTCTAGGAGCAACAAGGCCCAGCAGGGAGACATTGGGTTGCCCACTGCATCTCATTAGTTCTGATTGTGGTGGCAGCTTGATGKTCCACAGCCGGGAA
TGAGGTCCTCCCGAAAAACACAGGCAGTAAAGGATGGCCCCGGCCAAAATAAACCCYGAAGAATACTTTCTCTCCCGTCCTCCGGCACCTTCGTCTCTCC
TTCTCTTCTCCACTCTGGCTCTTTCCTTTGCCCCTCTCTCCTGGCTGCATCTCACTCTGGGTTTTCTCTCTCCCCWCCTCTTTCTCTGTCCCTTCGGGTT
CGCTCTCCTTCCAGGGCCCRGGCGGCCATCCACGAAGCACAGCCCGCACATCGCRGCCGCCAGGAAGGTCTACATMCAGACTCGCAGGCAGAGGAAGCTG
CACTTCGTGGTGGGGGGCTTCGCCTACCTGCTCCCCAAGACGGCGGTGGTGCTGCGCTGCCCGGCGCGCAGGGTCCGCAAGCCCCTCATCACCTGGGAGA
AGGACGGCCAGCACCTCATCAGCTCGACGCACGTCACGGTGGCCCCCTTCGGCTATCTCAAGATCCACCGCCTCAAGCCCTCGGATGCAGGCGTCTACAC
CTGCTCAGCGGGCCCGGCCCGGGAGCACTTTGTGATTAAGCTCATCGGAGGCAACCGCAAGCTCGTGGCCCGGCCCTTGAGCCCGAGAAGTGAGGAAGAG
GTGCTTGCGGGGAGGAAGGGCGGCCCGAAGGAGGCCCTGCAGACCCACAAACACCAGAACGGGATCTTCTCCAACGGCAGCAAGGCGGAGAAGCGGGGCC
TGGCCGCCAACCCGGGGAGCCGCTACGACGACCTCGTCTCCCGGCTGCTGGAGCAGGGCGGCTGGCCCGGAGAGCTGCTGGCCTCGTGGGAGGCGCAGGA
CTCYGCGGAAAGGAACACGACCTCGGAGGAGGACCCGGGTGCAGAGCAAGTGCTCCTGCACCTGCCCTTCACCATGGTGACCGAGCAGCGGCGCCTGGAC
GACATCCTGGGGAACCTCTCCCAGCAGCCCGAGGAGCTGCGCRACCTCTACAGCAAGCACCTGGTGGCCCAGCTGGCCCAGGAGATCTTCCGCAGCCACC
TGGAGCACCAGGACACGCTCCTGAAGCCCTCGGAGCGCAGGACTTCCCCAGTGACTCTCTCGCCTCATAAACACGTGTCTGGCTTCAGCAGCTCCCTGCG
GACCTCCTCCACCGGGGACGCCGGGGGAGGCTCTCGAAGGCCACACCGCAAGCCCACCATCCTGCGCAAGATCTCRGCGGCCCAGCAGCTCTCAGCCTCG
GAGGTGGTCACCCACCTGGGGCAGACGGTGGCCCTGGCCAGCGGGACACTGAGTGTTCTTCTGCACTGTGAGGCCATCGGCCACCCAAGGCCTACCATCA
GCTGGGCCAGGAATGGAGAAGAAGTTCAGTTCAGTGACAGGTGAGCCTTGTAGCTAACCTGGTCTTGGGAGGGAGGCAAGGGGCCACATCTGGCCCAAGT
CACACTACTTACACATTCTTCAAGGTGTTTCCAGGGGTAGGGCTTAGAGCTGGCCTCGGGGACCCCATCATGGGGTGCAGGCCCTCTCTTAGCACTGATA
GACTACTGGAGCAAAGACAAGCTATTTCATTTTTCTAAACTGTCTGTTCTCATCTTTATAAGGAAATAGCAACATTGCCTACCCACTCCTATCCCTGTAG
GATCCCAAAGATAAATGAGATACTSTCTGGATAGCTTTGAACTTTTGGCAGAAAGACATCATTCCAGGCCAAGGCATTATTATGTTACTACTCTGTAAGA
TGAACCATGGAAAAGCTTTGACACTGGAACACTGACTCCGTGTGTGTGGTCCCCMAGGGCTGGGCAGAGAATGCAGCCAGCACCTGCTGTTTCCCATGGG
TGAGCCCATCGTGTATCTGTGCTGGACAAGGCTGTTTGTTCCAGAAAGCTTTTATTCCCAGTGGGACCTGTGATTGATTATCCTAATATCTCCTGTTGTC
TCTGTTTTGATGTATCATTATCAGGATGACAGCATGTATCACTTCCTTGTCTCTCTGGGTCATAGCCATTCATAATGTAGAATCAATAGTGGTAGTAGAA
TTAATAATAYTTTTTACCGCTACCTGTGCCTTACTTTGTACATATTTTGTCTCTTTTAATCTTTACAGGGGCCCTGGCAATGAAGATGGTTGTCATTAAT
TGATTAGTGACTATCTGCCAGGCAAATGTAAACTCTTTATGTGTTTTATCTCACTGAAWAGAAGTGGATACAATTTTTATCCACACCTTATAGAACAGGA
AATACATAAAGTTAAGTAATTTACTAAAGGTTGTATTTATTATGTGGCAGAGCTACGATATGCAACAAAAAGAACTTCCTTATGGGTAGTCACTTTAAAG
AATCACGGAATCATAGTCCTYTAGTCTAGATTCCTCATTTTAACCTTCTATCTTCTCAGAATCCAAGCATAATGCTCTTTTCATTAAGTCTATATCTAAA
TGCTATTGTTTGACTAATAGTCTTCTCTGGCTTGCTAGCTTTTGGTAAGGAAGGAAAGAAGCCAGCATTTATTGTTCCAGGCACTATGCCAAGTTTATTT
ATAAGTAACTGCATTTTTTATTCTAACATTCAATCCACATGATTGACATTATCCTCCAGTTTTACGTAGAAAACCAAGGTTCAGCAGCTCACCCAAGATC
ACATTTTAGTAAGAGCTGAAACAAGCATTCAATATCAAGTTTATTTGATTCCAAGGAAGAGTTCTGTCTACTCTTCTGAGACTCGGTGAATAGATATATA
ATAACTTTTGTCCATCCTGCACACATCATTTTTTGCCTTTGTAATGTCAATAATACTGCCTCTCAGCCTTAGTACTTATAGACCAAATACCTTTGATAAC
AATACTAAGTATTATTTCTTTGTGCTCCAACTGTATGCCAGACATAGTGCTCAGTGCTTTAAAGGCATTATCTTGTTTAATTTTCCCTCAAGATCGTAGG
AACTAGTAGGTACTAYTGTAGTTACCACATCTTAGATAGAAAGCTGAGGGACAGAKGTTGGACCCACAYAGAAACACTGGAAATGGTCTGAACACAGGCA
GCATGCCCCAGAGCTTGTGCTTTTAACCTGCCCCTCTGTCCACGCCCTCCAGCCCCCACAACTCATACTTTCCTTAATCAGCTTAACTGCTCTTATCCCT
GTCATTTTCTCCAAAAAATCCTTATAACATGGTTGGAAAGATTTCAGTCGAGCCCTTTGAGGTCACTGAGTGGCAGCTCCAGTGTGTGGACCCAGGGTGA
TGAGGGGTGGCCTGATACTCAGTCCTATCGGTGCACCTGCTGTACCTATTACACCACTATGATGCCCTCTCCTCTACCAGCCAGTCAGTTTATCAAGTGT
AGGTACAACGTTTTATTTCTATCCCCTGGGCCTATTGCCTGGGATTGGTACTATTGGGATTGAAGGGAATCACGACTGGCTGCATGAGGGAAAAGATGGA
AATTAACATCTTCCTACTTCCTCCTAAAAAGCTGTGGAACGAGACAGGGCAATGGGAAGGGGTCATCAGGACTCTGCTCAGCCTTTKCCTGCAGGGAGAA
CATTGAGCCCCTGGATTAGAGGTCCTGACAATTTCTTTGAGTGTTGGAGACTTTTTATGAAATCCAAGGCCCATGGCCCATCTAGGTCACCTGGTGACTG
CAGGAATGATGTGGAAGGAGGTAGACAAGCATTGAGGGGTCCAATCTGATCTTGCCAAGGCCCTGCACTTTTCACGGTCTTAGTCTCTTCATTTCATAAA
TGAGGAGACTGTACCATATCATCTGTGACATCCCTCCTACCTCCTTCCCTCATTTACGGAAGGCCACGGAAGGTTAAAACYCATATGCTGATGGGAGAAC
CTTGACCACAGTAACTTCAGAAGTTGTGGCACAAGTTGTTTCTAAATGCTCCACAAACAGGCTCAGTGATCACAAGAGTTTGAGAAGGGCAAACTTAAGG
CTAAACAGATGTATGTACTGCTGGATTTTATGTCTATTTTTTTAATATCACACTTGATTTTTTATTATAAAAGTAATAAAAGGGCTATAAAACAATTCAA
ATATCTAAATCTATAAAAAGTACAAGCCTCCCTCTTCCCCCCAATGCTCCYAGAGGCTATCATTCTTAATAATTTGGTATACATCCTTTTAGAATGTTTA
TATATTTTACTGTATTACATAAAAAGCATATATGCACACATAGGATTTGGGTTTTTTAATAGGATATTAGTCATGTTCAGAAATGTGACTGGTTTTTACT
TAACAGCATGTCTATGAGATGTTTTCATAATAGTAGGTAGAGGTCTATATTACCTTTTTTAACAGCTGATTACTGTTCCTRAATGCATTTAACTATCCCC
CAACTGAAAATTATTTGGGATTTTTCTTTTTATTTTACTCTTTTAAGCATTCCAATGTGTGTTGTGACTTTCCAAGTGGACAATATAGTATGCTGTGGTT
TCAAAGTTCTCCTTTAATCACTGAACAATTTTTCGGCTTAGTAATCTCAGGAACACCAATAATTCTTGAAATAGCACTTAGGAAACACACTTTGGCCCTT
TTAATTTTTACCTTAATGGGCATTGAGAGTCTAACTCCAATGGCTTTAAGATGGAGAAGGTTCRGTGGAATCTTGATAGAAACAGAGACKTGGCAGCCAG
GTGCAAAGAACACTAAAGCACTGGGCCTAGGCAAGCAGAGGGAAAGTCCTGGATTCTCCATCATCCAGGACATCGTTGTGGGGGAGGGTAGCACTAAGAG
GGTAAGAGGGAAGATACCTGAGAGGCAGGAACAAACAGTTTTTGCTGCCATCACATTTTTTATTTTTCTGGATCTAGGCTTGACTAAGCTTTTCAATGCA
CGTTAATGGCATGTGGTAAGGAAAAATAAGACATTTCCCTTTCTGACCTTTGACATCACAATTTTTCCATTTTTGYTGGCTGTTCAATAAGAAATACGGC
TGGAGCTTAGTTTTCTCTATCTTTCAAGTTCTGTTTAAGAAAAGAGTGAATGTATCTGCACAGATCATGCAGGAGGCACAGAGCTGCCATTAGGACTGCT
TTGCTGTGGGCTGTTGGTGACCTTTCCTGTGTTGGGTTTCATTGCTTGTCATCATTACTATGTCTGGTAGTGGTTCAGAAATGCTCATTTATTTTCAAAC
AGAAGTGCTGAAATGTCCAGTGTTATAGTTCAGTTAGTCTGTTTTTGCTAAAGGCCCAAATCTACCTTCTGAGCATCTGCAAGATTCAGCTGTGTGTTGG
TCTGTGGGACTTTGCAATTTGTTAAAGTATCCTCCAAATAGCATGAGCCAGCAAGATAGGTCCAGGTCAGAAAAAAGTGAGAGAAGTCTGTTATTTCTTT
GCTTTTAAATATTCCAAAGTTTGATTTGAAAGAATTTAGTTTTAGAAAAGAATCACTAATAATTCTGATACTACTGTGTCTCATCATTTATATAACTTAC
TAGTTGAAATTCACATAGTTCTCAGAAATGCATGTCTGTCAACTTCTCAAGCAGTCGTTTACAGGGTGTCCTTAGTGTGTTATGACTGGCTGGTTCATCA
TAATCCCTACTTCCTTTTTCCTTTATTCTGCAAACAATCTCATGCCTACTCTAAGCCAGACTCTGTGTTAGATACTAGGGATGGAGGAAAAGAAGATTCA
TTTCCTGTTGATGAAATTCAAAGTCCAGTTTGGGAGCCAGAGGAGTAAATGCAGTATTATAAGTGCTAAGAAAGAGGTATGCATATTTATTCATTGCTTA
AGTATTTACTAACCTAACTATAATATGCCAGGTATACATCGACTTGCTGGAAATATTGTGATAAATGAAACTATGTTCCCTTGGAGTTTACATGCATTTG
GAGTTCTGCTCAAATGGCACATATTGGAGAGAACTTCCTTGTCCCTGTATCTAAAAGAGCACCGCTCATCATTGTCTATCCTTTTAACTCTATTTAGATA
ATTTTATTCTCTGATATGTTACATAAATATTTGTTGATTGCCTTTCCRCAAGGCTAAAGACTTTCTTTACGGCTGTATGCCCAGTAACCGGCACCAAACG
TACTAAATAATAGTGAATGAATTAACAAATGAATGGAGCAAGGCAACAAACACATAAAAGTAAGCAAGAAAAAGATCAGGTGGTGATAAGTGTCAGGCAG
AAAATTAAAACGGGTATAATAAGAGAATGATTTGGTGACCGCTTTAGATGGATGTGCTAAGGAGATCACACATAAGCCAAGATCTATCTGAATGATGACC
AGTGCCCAGCACTGTGATGTGAGGAGGAAGAACACTCCTGGACAAGGGAAAGGCAGTGCGAAAACCCTAAAGCGACAATGACTTTGTGTTGAAAGAACTC
AAAAGAAGTCCATTTGGCTGTAGTAAGGGAGGCAAAAGGTAGAGGTGGTATGGGATGAGGTTGTGAGGGTAACTGGAGACCAAGGGAAGGGGTTCGGGTT
TTACACTGAGTACTACAGGAAGAATTTGGAGGATGTTAAACAGGAAAGTGACATGATCTGATTTGCATTTTGCAGATTCACATGGGCTAACTTGTGGCAT
GTGGATTGTAGAGGCACATGATTGGAAGTCGGGGGCTAGTAAGGGGCCATTGCAGTAGCCCCTACAACACTATTGATCTTTACTGGGCATTAGATACATT
GAGATGATAAATAAGGCAAGAACACTTCTCTCCAGCAACTAAGAAACCTTCAAGTGCTGGTGTAGGATGAAATAATGTAGGACCCCAGTTTGTATTGAAC
TCCAACTGGTAGAATACTTCTCTTTTAAACTTTTAAAAGTAGATTGAAGAGGGATTCAAAAATCCAACGTGCATAATAATTAACAGGAGCTTGTTAGAAT
GTAGACTCCCACATCCTCCCCTACCATTAGAAACTCTTTCTACGGTAGGGACCCATAATTTGGAGTTAAACAAGCACCACAGGTGACTCTGAAGCCAGAT
TCAAGGATCACTTTGAAGAAGCACAGGTTTGCTTTGTCAGCTCTAGATTATCACAACAGCTTCCTAATTCATATTTGTATTCTTTAGACCAGGGGTTGGC
AAATTACAGCCAGTGGCTTTAACATCTTTTAAAGGATTATTAAGAATGGCTTTTAAAGAGTTATTAAAAGAGCCAATGAAATTGAGCACAGAGCTGTTAG
GTTAACTTGCTCAAGTTCTCACACTTAATAAGTGGTAGAGCTGGGATTTGAAACCAGGCATGTAAAGGGTTATTAAAAGAATGACTTTTACATTTTTAAA
AGGTTATTAAAAACAAACAAAAAATTATAATATACAACAAAGACTACAGGTGGCCCTCAAAGCCTAAAATATTTACTATCTGTCCCTTTACAGAGAAGTT
TACTGCCTCCTGCTCTAGACCATTCACCATGCTACTGCCAGAGCATCTTTCTAGCAAACCTGTCCATGCTGCTTTCATGCTTAAAAATTCGTTTCATGGC
TTGTCATCACTTGAGGATAAAGTCCGGATGCCTTGGCTTTTATCATTTGACATCCAGTTATCTCTCCAGCTTCATCTCTTACCATATCCTTGACCTCATA
GAACTGAGCTCTGCTCTTCAGCAGTACACAAATACTTGCTGTTCACAAATGTGCCTGGGGCCTTCTGACCCACTTTGTCTGGCTAACTCCTGCCCTTCCT
TACAGGAAGCCTATCCCCAAAGCCAGGTCAGATGACCCCCTCCATCATCCACATAGTACCCTATGCATAATACTCTCTCGGCCTTACCATTGTGTATTAA
AATTAGCTGTTAGTTTTTCTGGAGTTTATTAATCATTCTCAAGGGCCTATATTTAAGAATGTGTCTTATTTTCTCCGTAATTCTAAGAACATGATAGACA
CTCAACAAATAAAAAACTGAATGAATAAATAAAGGAATGAATAGTTGGATGCCCACGATTAGGAGGGAGGTTTTCTTATTGTGAGGAGGCTGCGGTCTGC
AAGGTTTTTTATAGTCTGGATTTCCTATGCCATTGTGGAAGAGTTCCAGAGTGATACCTGTTCCTAACCAAACATTTCTGACTTGCCCATATGTTCTCCA
CTAAAGAAGTTTCAGGAAACCCTGAGATTCTGTGACACAACTGTGCAATTTGAAAAGCACTGCTGTAGTGTGTATAAGTACAGAGTAAATCTCCTATCAC
ATCCCGTCTCCCACCACATCCAGGCCAGTGGAGAAATCATCAGGCTCATCATCACAGGTAACATTTATAGAGCACTTACAATGGGCTTCAGGTGTTCATT
TATCCTCACAATAACCCTTTGAAGTTACTATCCCAATTTTACCGATATTGGAGTTGAAGCACGGAGATGTTAGATTAACTCGCTCAAAGTCTCTCACTTA
AAAAGTAATCGAGCTGGGGTGAGGCGCGGTGGCTCACGCCTGTAATCCCATCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAAGAGATCGAGAC
CATCCTGGCCTACATTGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGCATGCCTATAGTCCCAGCTACTTGGGAGGCTGA
GACAGGAGAATCGCTTGAACGCAGGAGGTGGAGGTTGCAGTGAGCTGGTATCGTGCCACTGCATTCTGGCCTGGGTGACACAGTGAGACTCCGTCTAAAA
AAAAAAAAAACTTAATGGAGCTGGGATTTGAATCCAAGGCAGTCTGGCTTTTGGAACTATTTCTTTTTATTGATTATAACCTTAGTTGAATACAGGGACT
TGCCACTGTTTTATAAGAAGGCCACTGGGGTCAACTAGACCCAGCATAAATTAACATTCAATATTCTAGCCAACTGGCTTCCAGCTGATGAGGCTTTTGT
TTTTATTTTGGCATAACTGCTTTAAAGATAGCCTTTTCTTCTACTGATAGCGCTACCTTTATATATACACATGTGTATGCAAATATGCACTAAATTAGGC
ACTCAATAAACATTACAATTGCTACATTTGTGTGTGTCTGTGACTGCACATGTTTACAGTGTTGATGGCTCAGGCACATGTGTGGTTAGAGACCTAGACC
ACAGGCAATATGAAGCTAAACTGTTCCTCGCTTTCAGTCATTCTATATAAACACTGAGCACACATTTGGAGATGAGACTCAGGCAAAAGCTAACTCCAGT
CTGCTTTTGGATAGAGTATAACACCCCTAGCCAAAGAACCTGGTAAATTTTCCTTCTCTACATCTAATACCAGGAGGCTTACGTAATATGGACAAATATA
TGTTCAGTATTCYTACGTCTAAATCCAGTTCTAGAAACAATACCTGGAAGGGCAGTGCTGACTTCCTTGTAGAAGAGCCAGATTCTCCAAAATTGGCACT
GCACATTGGATTACCAAATTAGGAAAAATTACTGGATGAGGATTGATCATTCCCCCAAGAAACACCTACATACTGCTGATAGCACCACACTGTCAGGGAA
GGCCTTGCTTACCACTTAACACTATTGAACCAGGAGTAACCCAAAATCACAGATTCCTCATAGCTCAGCTGATTTAAGTCTGTAAGCTTTTAAGTAAGAC
TTTCTTTTCTTTTCAAAAGGAATGCAAGTGAACTTAAAGAATAATATGAAACTAGATGCTTGAAGAAAATACTTATTTCTTCCTGTGGGTGGGAGGTCAC
TCCCAGGTGATACTCCTMCTAACATGGAATCCTAGGGAAATGGCTAAGTCTAAGGAATTTCAGCCTTTTAATCCCTAAGCCTGTTCCCTGTTTTCCTTCT
CTTCTGGGCCTAGGTGTTCCCAGCTTATCCTCCCCAACCCCTTCAGCCAGAGGAGCAACCTGATGGCACATCAGTTAACACAAAGGGCAGCCCACGGTGG
TAGGAGACAGTAAGGCTGGAATCAGAGCAACTTTGGCACAAATCCCAGTTCTGCCACTTAGTATTGTGAGTCTACTTTTATCTCTCTGAACCTTGGTTTT
CTTATTAGTTAAACTAAAATGATACTAGTACAATTAGGCACTTTGATTCTGCCCTTCGGACTAGCAGAAGTGCAAAGAACAGAAATAATGTCTGTAACGT
GCCTGACACACAGTGGATACTCATTTGCCAGTATCCAAAATCATTGTCATTTAGACATGGGGCCATTGTATCACACTGTCTTCCAGGACATCTCAAACTA
AGAAGCTTCACTCTTATTTGAGGAACATCTAGGTAGTTGTTCAAAGAGTTGGGTTAGCAAGGTTTCTAGGAAAACAGCGTGATGGAGAATTATCAGCCTA
AATCCAGGCATCAYGAGGGGATGTTGATATTCTACTGACATTCTTTGCTATCATCTCTGAGCTGATAGGAAAGTGAAATCTGTAGCCTCTAAATGATTAT
ATTTCCCAGAAAGTTTTGTACAGTGTTCCAAAGTGGTGCTGAATAGGAGATGAATTAAGGCATATTTGGAAGTCTTTAACTTGGGCAACWCAGAGTATCA
GCAGATGGAAACTTCTCAGAATGGAAGTGAAGATCAGATGGGAAATTCCTCCAGGGTCAATTTCAGAACCATAGTTGTGAATAATTCTCTATGTACAAGT
CATAAGCACATGAAATGCAGTTTCCAAGTTTGCAGATAATATAAAAACTAGAGGCAGGGAAGATAGGGAAGGAAAAACAAGCCCATTTCAGTTTGGTTTG
GCTTGTTTCCCTTATAGAGCTAAAGGAAATGGAGATGACAAATGTTTTTCCCAGTTGAAAAGTGTAAGAATAGCAAGCCAGAGAAAAAGAACCGTCCCAG
TAAATACATAAGCCTCACAAAAGAAAAGTATTGAGTGTCAACACAGTGGTCGCAGAAATGACCATCATGAATCATGCAGGTGAAGAGCACTGGAGGATAG
TAGACAACCAGTGGCAAMCAGACAGTACTAGTGAGGCTTAGAGTCAGGCACTRTCTATTCCCTGAAATGCTAGGGGATCTCCAGAGATCCCCCTAGCAGT
TAGTTTACTCTTCCTGGAAGAGTGGTCCTAGCACATGGCAGAGTTCCAGAAAAGTGGTTAACTGTTTTAGTATAAATAAGGATGTCACTGAGATAAACCA
GAAATGAAAATTTTTCCATGTTATATGCCAGAAGTCAGCAAACTTTTCTAGTAAAGGGCCAAATAGTAAACATTTTAGGATTTGCAGGCATCAGGAGTAA
GGAATGACCTTTGACTGTTCTTAAACTGACTATACTCAACTCTGTCATTATAGTGTGAGAGCAGCCATAGATAATACTTTAATCTATATGCTAGTTTTCC
AATAAAACTTTATTTATAAAAGCAAGTGGTAATTGGCTGCAGTTTGAGGACCCCTATCCCTAGTGGATAGGAAATCCAGTCAGTCATTTCATGCAGAGGT
TTGTAATTTGAAATGAGTTACCCAGCAAGCAGATAAAATACACATATTAGCAAATTCAAGACTCTATGAACTTCTGAAAGAGAAGGAAGTTAAAGGGTCT
GGCAAAAAGAAGAAGACCAGGGTTAAGAATGTGTGGTCAGGTGGCCTTTCCCATTCCTAAAATATTTTCTATACTTCCATCTGAGCAATCATGAAGCTTC
TGGCATTAAATAACTTTTAGTTGGCAATTACATTAAAAACAGCAAAGGTTAAAAAAAGTTGCCCTAGCCAAATGGTGATATGAAACTCTTCATGAACCTC
AAATCTGTTGCCCAAAATTTTTGTACAAAATAAAATTCTCCCTTGCAAGCCTCTGGGCTACTGTAATTTTTGGTTTCAGAAAAATAATCCTGCTCACGGA
GGAGATCTCAGAGCATTCCTTTTGCCTCCCGTTTGAAAGTATCTAAAATCCAGAATATTTTTTAGTGATTGTCTATTTCCCTAAGTAACTACAAACCTTG
ACGTTAATTACCCCCCCGCCCCGCCCCCGCAACCACCGAAAATGAGGCCAAACCATATGCCTGCCAACTAGGCCCCGGTAGATTCCTGGATGCTGTCAGT
TTAAGAACAGTCAAAGGTTATTCCTTACTCCTGATGCCACCATGTACTAGCTGAGCAAATTGCTTCTGTGAACTTTTGCCTGCTCTCTAAAATGGGAAAA
TAACATCAATCTAGTAACATGGTAGTAAGGATTCAATAATAAAAAGCATATACATTTGCCTATAAATACTAGCACCCGCTCCCGCTTTGTGGTAGATTCC
ATTATCCTAATCTAAGGAATCCCTAAGCAGAAAAATACCCATTTTAGGATAAGGAAAAGACTTCACCATCTGGTCCTATAAATAGGAATTTGGGGCTAAT
GTTATTTGCACAAACTTTGCTTACTTGCTCCTGAGTTCACTGTTTTCCAGCTCTAACTCATTTGCTCTTGTTTGTATTCCTTTCTGAAATTGCAGAATTC
TGGCTTTTTTTTTTTTAGTGTTCTAAAATTTCAGTATTTGGTTATTGGTGTTAATACAGTTATGGAAATAACTAGTTGTCCTTATTCAGAGATTCCTGAG
TCAAGAATAGAATTAAGGTAGTTGCCAACCCAACGTGCTACGTGGCCTCACTTCTTGCTCCTCTTTTCTCCTCCCTGGTCCCATGCACAGCAAACCCTTT
GTTCCCTTTCTATACACCCAATTTATGTTTTTTCATTGAAATCTCTACATTTCTCATTTCCCCAYGTCTTCACGACATCTAGAATTTATAAGCCCTGGCA
TGAAGAGTGAATGGTAATGATCATGGCGATGTTAACAACTGTAACAAAATCATAATCACCTACATTTCTGTAGTTTTTTACTACATGCCAGGCACTTTTC
TGTGTCCTTTAAATACATTAGCTTATACAGAACTCTCACAACAACCCTAGGTAGGTACTATCATTCTCATTTTATAAATGAGGAAACTRTCACTGAGAAG
TTAAGTAAATTACTTGCCCAAGGCTACAGAGCTGCTAAGTGGCAAAGCGGGGATTTGATCCCATCATTAATGGCTCCGGAGTCTGTCCTCTGAACCACTG
TCCGCTATGCTATATTGTGGATATGATCATTTTCAGCCCCGTTGCTTTGAAGGTAACCAAATGAGTATTTATTATGTATTTATTTAGTGTGCCAGCACTA
TGCTGAATACTGAAGAGAGAACTATGAATGAGATAATAATTKATAATCTCACTGAAGAAATGAGACACTGTTGATTGAAAAAGGCTTCGTAGTGGAGTTT
TAACAACTAGATCAGGAAACAGACAGATTCTTGTGTAGTATAGCAGCACAAGGAAATAGAACTAGAACTTGTTCTTAAGGGAGGGGGAGGAGGAGGAGCC
TGTCTTTAGCCCCAAGCTAATGACAAGGAGAGTCAAAGAGGCCATCTTGACTAGAGTGACAAGTTTGTATTGGGATGTGGGGCAGATAAGTTTGGAAAGA
AGAGGAAGCTACTGTTCTACAAAGAAAGGATACACCCACAATTTCTAGCTTCCAGTCCTGTGTTGAGGCCTACAATAGGTTTAGGAAAGCGTACCAGTCA
GAATGAGAGGCCTGAGGTGGCACAATAACATATCCCAGGTAGTAGATGGGCATTTCTCTACCCAGAACCTGAATATTTTGTCTGACAACTAGAAATTCCA
AGAAGGTTACTTAGGTTATGTGTACCATCAAAAAAAAATCATTTATTAGCTTTATCTGGTGTTTAAACTGAGACCTTTTTACTTGGAAAACAGTAAGAAT
GAGTCTATATACTCTTCTATGAGATCTTCGCAAGAACACTGTGAGGTCAGTATTAGCCTCAATTTATAGAAGAAACTTAAAGGCTCACACAGTTGAATGA
CTTGCCTAAGGCCCACCACACGACTCTAGACTGGAGTCCGAGTCTCTTGGTTCCAATTTGGGAAGTCTTCCCCTCCACAAGGCAGCTCCTCATAGCTGGG
CATGGAGATCAATTTGAGAAGTAGGTTCACACAAGACAGTGGTGTCACAGTTGAGCCAAAGATCCAGAGGACCCCATGATGCCAACCTACTCACAGAACT
TCCAGAGACTTTCCTTTATACACCCGGAGCTGCCTTTGTTTCAAATAAGAGCCCTTAAGCACTACACATTCCAAATGCAGAGGAGATGATTTATCCTGAA
AGAGATTATACTTGGTAGAAATGGCCTGTGAGCATTTGGTCCATATCTTATTCTCATGCATGACAAGGATTTTTACTTCTGTACTAAAACAATTTCTTGC
ACCCTCTCGGCTGGTCCTTAATTTGTAGCATGCTTGTGAAGGCATATTGTCACATAGAAGCTTACAAATAAAGGCCCCCAGAAAAACAAAACCGCTCCTT
CATTTTCTGGCTAGAAGTAGGGTCAAAGAAGTAAAGTAATAAATTTTAGGCTAGAAAAATAAAAAGTGTGGTACAGGTCTGGGAGGAAGTCAAGGAGTAT
TGATATACCTAGCATGACCACAGTACCACTTGCTATGTAGGTCTTAATTGTACCCATTCTATGTCCCCACATCCTCTGGTTCCATAAATTCCAAAACAGC
TCCAAAGGAATCCTATAGGTTTTGTTTGGAAAGCAGCCCTATGTTTCTCTGCCTGCTCATTCTAAAGCAAGCCTATCAAATTTGGAAACTAAATATAAAC
TGACAGAAATCAGCAACTAGCGAATTAAGCTAAATTAATAGAGTAGACTACTGAAATACAAAGAAAATGTTTTTTTCCAGGAATCTCTCTCTCTAGTCGC
CAGGCTAGGTAAACTGAAGCAAGCCTCCGTCTCTGCAGCAAGCCTTTCCTTTGCCTGGCGGTGCTTCCCAGAGAGCCCTGCATGGGACCCCCCTCCAGAA
CTACTGCTCCGCCTAGTGGCAGCCTTCAAGCCTTCATCTACCAATTTTATGGGCATATTGTATGTATAATAACAGGAGTCAAATCCTCCCCYATCCCTGA
AAGGACTTATGTCTTAGTGGATTTTAAGAGAGAGGGAAATAACATSCAAATGGGCCAAATGTACAAAGAACACACTGTGGGCAGCTTTCTAATTACAAGA
AGAAAGCACGACTAAACAGTTGAGTCTTATGGTGGTCCCAAAGGGATTATAGGGTGGAAAAAAAAAAGTGCTGGACCAAAAACAWGAGATTCTACTTCAA
ATCCTGACTCTGCCCCCAAATAACTATGTACCCTTGAGCTAGACAGTTCCATTTTATAAATATAAGTGACTTTTATAAGTATACACAATAAGTGAGAAAT
TCAGGCTTTCTCCCATGTAGATTCTGTCTTAAGACAATATTTAAGACTGTTTTTATGAAAATAAATACTACAGTTTCTCTATCTATGTATATAGTGTTTA
TGGAATAATAGACTATACAAACGCTAAATCTCATGATCTACATGTCACCGTTTCCATTGCCGCTACTCCTATTCTAGTTCAAATCCTTACCACTCTGTGC
CCTCTGTGATGGATCACCTCCCTTCCTTTCATCAGCCTTGTAGGAATTCTTTTCCAGGCTTCAGACATGGGCAGAAAGCATGGTGGCTTACTTAGTGCCT
GGAGAAACCAGTGTAACTATAAAAACTAACCCCCACCTAAAAATAAATGGGCCAGGGTAGGAGAGGGTTACATCCTCTGCCTGAAATCAGACAGGTGCAG
TAGTTGTATGCAAAAAAAAAATGATTCTAATATGGAGATCTAATAAGTTGCCTAGGGGAAACTGGCCAATATCATGTGCCCCTCTCACTCCTTCCTCACA
ATTTCCTCATCCTCCCTCCTCCCTCATGGTTAATTTGCCATTCAGAGTGTGCAGCATTACCAAGAAAAGAGTCATTGGAAATACCAAAAGAGGATCTAGA
AATTCCTTATATACCCCAGTTTAACAATTCCCTCTGATGAGCAGGAAAACAGACTTCAACTGGATTTTAGAAGTTGGTAAACTGAAATAGAGGAAGATAA
TGAGATTTGCCAATGGCCATTACTTAAATCATAGTAGGACCAAAACAAAGTTCAGAAGAACTATCTTCTAGCCTCCTGCTGCGAGTGTCCAAGAACCGTT
TTCTGTAGGGACAAGGGAGATGTTTCCAGTGCCAGGGAGCCAGCTACCCTAATGGGTTTGGGAACTTAGCATATTTTAATTTCTACCTTTGCCATGTGGT
GAAATTGAATAGTGATCTTCTGAGTTCCATCATTCTCAGTTCTATTGAAACTTGACTAAGCCTGCTTTCATTATTATTTAGAATTTTTGTGAAAGCATAA
ATATTCCTGGGACATCCTAAAGCTTTAAATCATAAAGTTGATTTTTAATTTTCTAATCTAAAACAGCTTGAACACCTGAAGAGACTTAGCAATGATATTA
CATTATGTTGCATCTGATAAGATTCCTTCAGGAAACAGTCATACTATGATCTAAAATATTGTATGGTTTACCAAAGATAAGTAAATTGTATAGTCATCTT
TCTCTTATTAGCTTCTTCGAAATAAACTAACATGTAATTGTTTGACTTTGAGAAAAAAGCAACTAATGTTTGATGGATGAGTGAATGAATGGTTGGATGA
GCCATAACACAATCTCTCAGTGAATGTATGGGTGGATGAGCTATATCACAAGCTCTCAGAGGCTTCCTTTCATCCCTCACAATGTTTCAGCTCTAGTTGA
ATGCCACAAAACTTGAGGGTCTCCAGTAATAGTGGTGATGATCTGGAATAGCACTAAATCAAGCACAAATCATTCAAAAACTTCCTTTAACTAAGGTGTC
TATTTCCTTCCCCATTTTACTAGAGCTGCCCATATATAACTCGATTGATTGATGGAAGCCTTACTTCTACTTCCTGCCTTTCCTCTGACAGGAGGTAAGA
ATAAGCAATGTAGTAGGCCCAAGGCCAAAAGCTGAGCTGAGGAGATCTCATTCACTGCCAGACTGGTCACCCACCTCAGAATAATTGACAGCTGATTAGA
AGTGGTGCTGAAATGCAAATGTCATACAGCCTGGAGAGACCCGGCAAGGGAAATAGTGAGGAAAGAATTGTATAGTGGGAGAGTGTTGCTGGGGCAGACC
TGACTTCCAGGCTTAATCTTACCACAGAGTCTTAATGAGTTCTCCCCACATTTCTGTTGTTTCCCCACCCTCTCACTTTCTTGAAAAACAACCCCTATTA
ACTGCTTACCTCCTAGGGAAGGATGCTAGCATAATATTGGGTGAACAGTTTTTTGAAGCTTTTGAAACTAGGGAGGTTAAAAAATCACAAAGCTAGAAAT
GACTAGCTTCAGGATCCCCAAAACTGGCTACTGAGCCATTTCTGTGCTATCAAATAAACTGTCAACCTAAAGTACCTGTCAGGTCTAGGCACCGGATCTC
TGAGCTTCTGAGCTTCTCCATTGTCCCTCCAACCCTTCTAGATTCCCTCCTCCACATACACATTCCAGTTATCAGCCAGCCTCACTAAGTCACCAAGACA
TCAGGTTCAAGTGATCGTTAGTCATTAATTAAGCTGCCATAATGTCACAGGTACTTTCTAGAAATGGCATAAATCTAGAAAAGAAAAAACAGACTTGGGT
GGAGTGGGTTTGAAGCTCACTGTAGGCACTCACAGTTTGATTCTTTTAAGTCTTTTCAGATTAAAAAAAAAAAAGTCTGAAGTAGACTGTGATTATTCTG
GAATTTTCTCTCCATGACCTTGAAGGGCAAGTTTTGACTTTATTCTACTGGGAACCTACTCTACAGAGAGTCCCCTGTAGTAGTGGGGAAAATAAAAGCA
ATAAATAAGACCTGAAGAGGATCACATGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACTTGGCAAGACCCTATCTTTACGCAAAATTTAAAAATTAGCT
GGGAATGGTAGTGCACCCCTGTGGTCTCAGCTACACAGGAGGCAGAGGTGGGAGGACTGCTTAAGCCCAGGAGTTCAAGACTGCAGTGAGCTGTGTTTGT
GCCTCCACACTCGTGGGTGACAGAGCAAGACCCTGTCTCAAAAAAAAAAAACAAAAACAAAAACAAAAAAAAACAAACCTGAGTTTTGTGCCCCATAAGA
TTTACAGCTAAATAAAGACAATAGATGTATATATGACTACACAGCGGCTGTGACACAGAATTTCCTTCAAATATGTGTAAGATCCTCTCAATATGCAATT
CTTGGCTTTTTCTCTTCTACCTGCAAACCTGAACAGATGTCTGTCTGGTTGTTTTTTGTTGTTTTTTTTTGTTGTTGTTGTTTTTTGAGACAGAGTCATG
CTCTGTGTCCCAAGCTGGAGTACAGTGGGGCAATCTCAGCTCACTACAACCTCTGCCCCCCACGTTCAAGTGATTCTCTCACCTCAGCCTCCCAAGTAGC
TGGGATTATAGGCATACACCCCCATGCCCAGATAATTTTATTATTTTTGTAGTTTTAGTAGAGACGGAGCTTTGCCATGTTGGCCAGGCTGTTCTTGAAC
TCCTGGTCTCAGGTGATTTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCATGGTGTCTGGCCAAGATGTCTGTCTTGATCTCTGGA
AGCCCTACGTTCTTTCAACCATCCAACCAAGCTCCACTTCTCTTTTGTAACTTTGCTTTTTCCTTAATAAGCCTTCCCCAAATCTATCTGTACCGTTTGT
TCTAGCATCCCCCCTTCCCCCGGATATCTGTGTGTGTTATATGTATTTGGTGCACATATGTTGTCTGGTCCAGCTGGTAGCATTTAGATCAAGTAATCCA
CAGGCTGCAAAGGCAATGGGAAACCTCCTTATTTGAGATCACTACCACAGTCACATTAATCAAAGAGGCAAGAGAGCACAGGTTCTTGATTGTCCTTGTA
GCTGGTTTGTCTCTGTTGTTAAAACAGGGTTCTGCATACAYCCTGAGGTTCCTTCCTGCCTTACCAATATTGAATGCCAAAAAGGAGTCAACTGACTTGA
CCAGGTCTATATTTCTTTTCTGTCGCTCCAGGATTCTTCTACAGCCAGATGATTCCTTACAGATCTTGGCACCAGTGGAAGCAGATGTGGGTTTCTACAC
TTGCAATGCCACCAATGCCTTGGGATACGACTCTGTCTCCATTGCCGTCACATTAGCAGGTAACCCAAAAATCCCTGTTCTGTTCATTTCATAAACCTTT
ATTGAATGAGTGCCTATAGTGTGTCAAACAGGCCCAGAGATGCATAGATAAAGGAGACCCAGATCCCATCTTCAGGGAGTTTGTAATCTATAATTACAAC
AGCAGTGTAGTATGARGTAGAATGAAGTGCTATAACTGATAACCAAATAGTATGCAAGGACAGTACATTCCTGCCAGGAGGTCTTAGGGTTGCAATGAGT
GGAATTTTGATAAGAGACAGGGATATTTCATGCAGAAAGAATAATGTGAGCAAAGGTGATGTGTGCAAATCAGTAGCATGTTGGAACATGAATTGTGAAT
TATAATCATTGAAGACTCTTTTGGATCCTGTCATCTCCTTGTTCCACCTGTTGCAAGAAAGAYTACGACCCATAAATAATTGGAATTCTGTGGTCATGGC
TTGAAGCAGGAGTGTTCCCCAGTACTTCTCTCTSAGTCTGCTTTATTTCATCCTCTTGCTCTAATGCACTGCCAACATTCCCCTTTATCCATTGAGGTTA
GACAATACATTCTGCACATGGTGACTTAAGAACATTGCAACTCAGAGTACCATGTCTCCCATAGTTGTGGTCTTGTAGTAAAAGACATGTAGAGCTTTTA
TAAAACCTCTTTGCATAGGACAAACCCATGCCTTTGAAACGGAAAGAGAACTTAGATACCAGCTGGACCAAGGCCCTTGTTTCTCAGAGGCCAGGCAACC
CGAGGTCACACAGCTGCTCTGCTAGTGGCGGGGGAAGAAGGGAACTGGAGTCTCCTAACTCCCAGCTCATTGTTCTCCCTACTTCCCCACTGATCTGAGA
AAATAGGATCCATCCTCTCAGATCTGGGCCATCCAGTCTTTGTGGCTGTGTTGCATGTGTTTGTATTTATTCTTTTCAATTGCTGCTCTCATCAGATGAT
TCAGTAGATGSTAGAAAAGCCAACATCACCCCACACTGACTTCATCTGTCCCTGCCAGGATTATGTTGTCATACTGTACTCCAGTCACACATGCTACCCC
CTTGCATATCTGTTTAGCAACAGTATTCCTGCCCCCATGACTTCAGGCTGATCTGGGAAGGGACCCTTAGCAGGCGGCTTTGCGGGGAAGATCAAAGTCA
ACAATGAAGAAGGCAATTTAAGGAGCCCTGGGCCGGATTAAAGACTGATATTATTAATGCCTATTTTTTGTGAATAAAACATTTGCTTTTCTTCTAATGT
ATTCCAGTTGCAATCTTTATTCCCCTCTTTATACAGAGTCCAGATGCTCAGCACCAATCTTGTTAAATCTCTCCTGCCATCCACCCTCCAACCTGCTTTA
GCAAGGGCACTGCTGACATCTTKCCACTTGCTGGCAGATAGTGGCTCTTGCAGGATTAATTCTCTTGTTTATATTAATCCAGATATGGTTCAGCTCTATC
ACAGACTAAATGCCCTTTGTTCACCCGAATTTAATACGATTAATAGAAACCTGTCTGGAATTAAGCAAGGCAATTGTAACATCAGGCTTGCCTTCAGCTC
TTTGAAGAGGGGTTATTGGAGGCTGCCAACAAGTTCAAAGCCAGGGAAGAGAGACAGAGCAGCCAAAGAGGCACCAGGGAAGGGGAGGAGAGGGGCTGCC
TGGTGAAGTATGACTAYAGACACCACACCCAGGGCATAGGGAGCTGCATCCTTGCACCTTAGCTGCTAGGGTTTGTATAGGTCTGCTGGAAARTCTATCA
AGCAGTCCCTCTAAAAACAAAGGCTCAAATGTACATTGCCTTAAGACTGTATTTGTACCCTTACCTGAGTTTATCATCCACACCTGTGCCAATGTCTACA
CTCACAGTGTTAGGTGGTTCACCAGCTCCTGTTGTGAGCACACCCTCTGCCACATRTTGTGGAACCTACAGCAATAAATAAAACCTGTGTTTTGTGGTCC
CTGATGCTTACAGAGGAGTGAAGGCAAGCGATSGATACCCGGCTACCTAGAATTGGGAGAAAGTTGCAATTTACTTCAAATGTATGCATGGAGACCCTGC
TTAGTAGGTTATAAGATATAATCTGAACATAAATTAAATTGGAGGGGTGGGGGTGAATGAGTATCAGGCATTTCTAAGTTTTATTGCCAGTTATACTCCT
TATTAGCTGTGTGATCTTGGACAAAGTATATAACCTCATTGAGTCTCTGTTCTCATCTGTAAAAATTTAACTAACATTATTTTACAGGGTTGTTGTGAGG
TTAAGTAAGATTGCACGTGTGAAAAAGCACTTAACCCAATGCCAGGCACATTGTTCATACTCAATAAATGTAAGCCTCCTTTCTTTCTCTAGCTCTTCTA
GAGTGAAACAACCTGAAAACAATTCTAAAATGTGCAAACCATTATCCCAACTCTGCTTCCATGTATCTTTCAGTATGTGTCTTAACACTGAGATTTTTCA
AGTATGAACTTAGAAACTGATTCAGTTCACTTGCAGTCAAATCCTCTTGATGAATCTCAGCACTACTATGTTTTTATGGAAACTGCAGGGGTTTTTTCCT
GGACTTTAGTATTAATGTAGGCCAAAGAGGAAAAAAAAAAAAAACTTTGAGCCTCAAGATAATCAAGTGTCCCCATGATTTTATAAGGAAAGTATGGACT
TGTGTGTTGCCAGTGTGCCTGCATTTACCAGATGCAGGGAAATTTGTTCATAATGATTCACAAAAGCAGGCATAGCATGGCAGTTAAAATCATGGGCTCT
GGAGCCTTAGGGTCTAGGTCTGTATCCTGGCTCTGTCACTTCCTAAGTGTAACCTTGAGCAACGTCTTTATACTCACTGACTCAATTTCTTCATCTGGAA
AGTGGTGCTAATAACAGCACCTGACTCAGAAAGTTCTCATGGAGATTAAATGCAATCATTCATAAAAAATGTTTATAATTGTGGCTGGCATGTAGCAGGC
ACTCAATATTTGTTAGCTATYATTATTGAGAGAATAATACATACAACAAAAGCCAACTTATGTTTACAGTGGGAGAGACTCCTTTTCAGGGACCAGGATG
CTCACAAACCCTTTGTAGAGCAGCTCTCTGAATGTCTCARTGTCAAATAGGGAAGCTAGATTAGCCATCTGGAAAGTACTTGGGGTGCCTGGATTCAGAG
CAAGGGAGATGGCTTGTGATGAATATTTCACGTGGGCAACAGAGAGAGAYGCCTGATGGGCTCTCCCTGGCCCACAGCAAGATGCCTGCCATTGAGTTTG
CCCCGTCCCGTAGATCTGGTGTCTTGCCAATTCTGCCTCTCAGATTCATTTCAGTTCTACTTCTTATTCTGTACACAAGTTTTCTTTGAACATGTAAACA
CCATTTAGTTTTAGACATAGAATACAGCCAAACCTTCCTTGCTCTGCCCTGTTTGGCCTATAAAATACTGTCTTTTGTGCCTTTTGCTCCTCTCTAAACT
CTTCCATTACGTGCTGATTTTATCTTTAAGTCTCAGGGATTTGGGAGTACCTTGCAAGTGTCTCTCAGCATGGAGATGGCCAGTGTTTCCCTCCCTACCT
CCCTGGAACAGCCCATGGAACTCACAGCCATTTAGACCAAATGGCACAAAATTCCTCCCTCTAAATTMACTTAGCTGGATGCCTGTTTCACTGCTCCAAG
TGTAGATGAAAGTAGCTTAGGAGGGGAGGATTGCAGGGAGGAGATTATAGGAATGTCACCAAAATGTCACATACCTAACACTTTGAAGTATTAATTACTT
TGTGTTCAGGAATAAACAGGGCTAGGTAAAGGAGAGTCTCTGATGTGTGCAGACATAAGCACAGAGATTGGAGAATCATCTTGGCTGTTAAATTCAGCAC
TCAGCCATCTTGCTCAGAAATCTTCCAAATCCGAATGGCCTAGGCAAASTTTTGAAGGAAAGGAAGTAGTTTCCAGGTAAATTGCTTCAGTCTGGATCCG
TGGAGTTTAGCTGTACTTACCAATGCAGATAAGGGCCTCTCCAGGTATGGAGCATTGGTGAGGTCATCGACAAAAGGGAAACATTTTTGGTTGTTATTGA
TTTTATAAGATCACAAAAGAGATACTGTAAGGCCTGCCTGACATCATCAATGGGAAATGAGAATAAGATGAGGGCTGAGGGATGAGTGTATCTTTCATTG
AAAGGAGAGAACACAGATGAGCTCATCTGACATTTTCACAGGAAGGGAGAGACAGAAAATATTTCTCCTTTCCTAGCATGTTTTTTTGCTCTTTATGAGT
TGAATAACTGATACACATTGTGTCTAATAAAGAGATCACAGAAACCTCACTGGGAAAATAAAAATAAAAGGCAATCATTTTTTAAAATTCTTCTTCCTCT
GTCCCTCCCCATCATGATTTAGTAGCTACAATAAAAGACAAGTGATTGTGTAAGCTTATCATAATGTAAGTCACTTCAAATTAGCATTTCTGAATTTTTC
ACCCAGCAGTTCTGTTAACAAAGGAGAGTTTTGCTTCATAAAGAGTTAGGCTCACAGAGGACCTAGTCAACAATACAAAGGCTAACAAAGGAAGATTTGC
TCCCATGCACTAGATCAAAAGGAAAAGTGGCCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATGGCCTGAAGT
CAGGAGTTTGAGACCAGCCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAATATAAATATTAGCCATGTGTGGTGGCAAGCGCCTGTAATCCCAGCT
ACTCAGAAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTAGAGGTTGCAGTGAGCCAAGACCATGCCACTGTACTCCAGCCTGGGCAACAAGAGGA
AAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAAAATGGACAGGTTTGACTGTTCTCTGGGCCACATGGTAATAGCGACTGACTGATCTAA
GCTGCCATCAAGGAGATTTCAATATCTGATAGAATACTGAATAGCTAAGACCCTTAAGTTTTTCTCAGTAAGTACAGATGTAGAGAATGCCCACCAAAGA
CCCCAAGCTTTCATAGAACTTACTTAAAACTGATGAGAGTATAGCAGGAGAATCTCACTGAGCTCCCCAGTTGACTAGAGGAAATAAAAAAGAAAGTATA
AGTGGTCCAAGTTGGCACATCTCAGTCTCAAAAAAGCAATTCCAACATCTATTCAATGGAATGCAGGAAGGATGGTGGTTGGACAGGTGGTGGGATATAC
CACATCCTTGGTTAGTGGTTTCTAGAGAGGCCGCAGCATCACGTGGCTGTACTAAGTATGGGGTCCCTTGGCTAGGACTCTGTAGTGGAACATGCGAAGA
ATTTGTGGCAGAACCACTTCTGGCCTTATTCTACTTAGACGCCATCAACATCAATTAAATAATTAGAAGAGGTAATGGTAGTAATCTGAGCAACCTGACC
CACTGACATTGGCAAAAAAATATCTGAATATTGAAAGAGAATGGTAATGGAAASAAGGATATGAGAAGGAAGGCATGCAGCCTGGGAATGTCTGGGAAAA
GGCAGTCTAAGCCCTACCTACTTCCTCAAGTGCTAAGGGCCCTGTAATATTTATGCTGAAGGCGTGCCAACTAAACAGAATTTCAAGGGCACAAAAATTC
TAATTCCTTCTCATCTTTTATGCAAGGCAATTAATTAGTAGTCACAATGTTGACCCTAAAAAACAAAGACAGGCAAAATCAGGTTAAAACTATTTTTTCA
GCTTTATTGAGATATAATGTACATATCACAAAATTCTTTGTGAATGTGCAATTTAGAGATTTATTTAGCAAACTTATATAGTTATGTAACCATTACTATA
AAGTTCTTTACCTTTTTTGAACTTTTAGGTTCAGGGGTTGAATCTCCAGGTTTTTTATACAGGTAAACTCATGTCACAGGGATTTGTTGTACAGATTATT
TCATCACCCAGGTACTCAGCCTAGTACCCAATAGCTATTTTTTCAGCTCCGCTCTCTCCTCCCACTCTCCACCCTCAAGTAAGCCCCAGGGTCTGTTGTT
CCCCCTTCTTYGTGTTCATGAATTCTCATCATTTAGTTCCCACTTATAAGTGAGCACATGCAGTACTTGGTTTTCTGTTCCTGTATTAGTTTGCCTCCAG
CTCCATCCATGTTCCTGCAAAAGACATGATCTTGTTCCTTTTTATGGCTGCATAGTATTCCATGATGTATATATACCATGTTTTCTTTAGCCAGTCTGTC
ATKGATTGGCATTTAGGTTGGCTCCATGTCTTTGCTATTGTGAAGAGTGCTGCAGTGAACATTTGTGTGTGTGTGCCTTTATGATAGAATGATTTTATAT
TCCTCTGGGTATATACCTAATAATGGGTTCTTTACTTTTAACAGCTTTATCAAGGCATAATTAACATACCATAAAACTCACCCACTTAAAGTATACAATT
CAACAGCTTTTCATATATTCAGAGTTGTGGCCGGGCACAGTGACTCATGCCTGTAATCCCAGCACTTTGGGAGCCTGAGGTGGAAGAATCGCTTGATCCC
CAGGAATTCAAGACCAGCCTGGGCAACAGAGAGAAATCCCATCTCTACAAAAATAAAAATCAACACAGGTGTGGTGGCACATACCTGTGGTCCCAGCTAC
ATGGGAGGCTGAGGCAGGAGGATAGCTTGAGCCTAGGAGGTTGAGGCTGCAGTGAGCCAATACCACTGCACTCCAGCCTGAGTGCCAGAGTAAGACCCTG
TCTCCAAAAACAAAAAAAACAGGAGTTGTGCATCCACCACCACACTCAATTTTAGAACATTTTTATTATCCCTAAAATAAACTCCACACTCTTAGCTACT
ACTCCCTAATCCTCCCATTTCTTTCAGCTCTATGCAACCACTAATATACTTTAAATCTCCATAAATCTACCTAATCTTGATATTTTATATAATTAGAATC
ATACAGTATATGGTTCTTTATTTCTTCTTTCACTTAGCATAAAGTTTTCAAGATTTATCCATGTCGTAGCATTATTCTTGTTTATGGTAGAATAATATTC
CATTGTATAGAATAGACCACATTTTATTTCTCCATTCATCAGGTGATGGGCATTTGGGATGTTTCTACTTTTTGGCTATTATGAATAAAGCTGCTATGAA
GATTCACGTACATGTTTTTATGTGGACATATTTTTTATTTCTCTTGGTTATACACACSTAGGAGTGAAATTTCTGGGTTGTTTGGCGCATTTATGTTTAC
TATTGAAGAAAGTGCCAACTATGTTTCAAAGAGACTGCACCAYTTTACATTTCCACCAGCAATGTAGGATAGTTCAGTTTCTCCATATTCTCACCAACAG
TTGTTTTCATCTATCATTTTAATTACAGCCAGCCTCATGAGCGTGAAGTAGTACTTTATTGTGATTTAAATTACATTTTAATATTGACTAATGATGTCAG
GCATCTTATGTGTTTATGAGTCATTTACGTGTCTTCTTTGTTGTGGTGACAACTTTGGTGATGTAGAAGGTGTATATGGCCTGCGTATTTGCTTTTGCTG
CCATAACAAATAACCACATACTTAGAGACTTAAAGCAATACAAATACCTTACAGTTCTGTAGGTCAGAAGTCTAATACAGTCTCATCAAGATGTCAACAG
GCTTTATCCCTTTCCGAAGGCTCTAAAAGAGAATCCTTTTCCTCTCCATTTGAGTTGTTGGCAGAATTTAGTTCTGTGAAACTTAGGTCTATGGTCTGTG
TTTTCTTGCTGGCTATAATCTGAGTGCCATTTCCAGCTTCTAGAAGCCACTGAATTCCTTGGCTCATGGTTTCCTTCCTCCATCTTCACAACCAGCAATG
GAGGGCTGAGTTTTCATGTTGCCCAACTCTGATATTAAGAGCTCACATGATTAGACTGGGCCTACCTTGATAACTTAGAATAATCTCCCCATTTTAGGTT
CAGCTGATTAGCAATGTTAATTCTTCCTTAGCCATGTCACAGGTTCCAGGGATTATGACATAAACATCTTGGAAGGTCATTATTCCGCCCACCTGTCTGA
AGGGCACAGCTCATTTTCATCTGACTGCTATCCCCCAAAAATAAAAATTTAATGTTGCTAGACTTTCTCACGATTTTAGAGACACCAAACCAAAAAATGT
TTAAAAACAACACTTTTTTTTAACTCACCATTTTTAACTGAACTAATTCAAATTTTTAAAAATCCTTTTTTGGGTAAACATGTCTGTGCTCTGAATATAG
CCTTGAGGCTACCAATACCCCCTGGTTTGTATTTCATTTTCTATATTATCTGCTCATATATTACACCTCACTTTCCAGATAGAGTCAGAGTGTTATTCAA
AGGGTAATCACAATTTATTTGATTAGATTATTCCAACAAAAACAATGTAATAATTTGGATGGAAGGGGAACAATTATTTTTTACTATTACTAAGAAGCCT
ACTGTAATAATAGAATAAGTAAGATTCTAGGGAAAGTTTTTGCTTCATTGCCAAATTTAGAAGCAGAATAGGACTATGAACCTCTTTCCCGTTATAAACA
GAGGGATTTAAATAGCTGCTCTCTTGGGTCTCTTTTAGACCCAAGAGTTCTATGAATCTCTTGCAYATATAATAATGAATGATAGCATTCTCTACCATGA
CTATCAACTATTAACTCCCTTTACCTGAAATTCTGACGTTGAAAATTGACTCTGTTGTATTTTGGGGAATGGAAGACTAGATGGCAAAGAAGTAGTACAG
CTTTTGTGATGAAGTCTTGCAAGAATAACAAATGAAAGGAAAATGTCTCAGAGAACTGGTGAAGACAAAGGGTACAGGRTAAATAGAGCTSACTATTGGT
CAAATGCTGMCTCAGGAGGCTGGAAATAGATGTAAAGGAGGCCTTGCAAGAAGKTCAGCAGGGAGTTAAAAACTCCTGCACTATAAAATGCAAAAGACAT
TGGGAAGGAAAACTAGACTAAGAAAAGATCTTGCATGTTAATATAACTATTATTTGTAACAAAGCAACTCTTATGGGAATTGTCAGGTAGTGAGATCCAG
AAAAGCTTCTGGCCAGCAAGGAATAGTAATGGAACATTAATATTCAGAATCCATTATTACTAATATCAGATGGATAAGATATTGTTGGTATTTATAAGGG
TTTTCCTAGCTCATGCTGATTTTAGTCCCTCAAAGTTTATTTGACTCATGAGTCTTAAATTCTTCAACTGGAAATTTTCATTTCAGAGAAAATTTGAAGA
TTTAATTCCAGTGATCCTTGTGAGAAACCTGTGACAATTCTAGTATAAGCAGAGTCTAGCATTTCTTAAGACGTTTCTTTGATATACTCACTCTTTGTAA
GGTATTGTTCATTGATTAAATCTGGATTAAATACAATTTGCTCAGTTTAGGGTGTTAAAAATGTGTTAAATTTATAATACTTCATTGCTTTAAACTAAAA
TATTACCTTATACTGTACTCAAATATTGCTGTATACTCAAATATTTTAATTAGTAGACATCACTGTCTTTTTTGTGTTTTAAACTGATATTTGGATCTTC
CATGGATATCACAACTGTTTTCTTGAACTCTAATGGGGGTCACCCAGGGAGTCAATCTGGCATATGTTGTTTCCTAGCATTTCTAGAAGTGGGTACTTTT
TGGAATCTTCAACAAGGCCAGCCATGGTGTGACTTTTAAGCTCTCCGCATCTGTCCAGATATTGTTACCAGTTTACAAAGAATCTGTTGTATTTAAATTA
TTTCTTCTAATTACACTGGAATTCTCAGAGTTGTTCAAAATAGAAGCAGTTTAGTTCTTTCTAACAAATGTATTACCTCTCCTCTTACCTGTCTTCCTCT
TTCTTTTCTTTAACGTTTTGCTTTCTGTGTTTTCTGTATTCATCAGAAGGTCCCAGCACTGCTCCTCACAGAGTTTTGCCATTGTGTTATAGCAGAGATA
GTGCTGGTGATAGCTAGCRTTTATTCAAACTTCCTGCTGTGCTAAGCCGTTGTTCTTACAGCTTTGCATGCATCCATTTACTTACTCCTCTCAGCCACTG
TAGAAGTAGAAAACTGAGGCACAGAATTTAAATAACTTGCCTAAGGGTACTTAGCTATACTATGCAGAGATGAGCTCGGGACACCTAACCTGTAGACAGC
CCTTTCTCCTGCCCCTGCCCCTGCCCMCTGCAGGCATCACTAGCTCATCGTGTGTTTTTGCTCTTCAGCCCTTATGAATGTAACTCGGAATCCGTATCTG
CACAGTACTCCAGGAAAACTCTGTCAGTCATTAGATTTGGCTTCAGGAYCTCAAACCTGTTTGCTGTTCGTGGGCCCTTTCTGAAGCTCTCATGAAATCT
CCAAACCTGCCAAATCTGCCCAGCCTGCGGTCCTTGTGTCTGTTGTTGCCCCGTTTCCATTTATCTTCCACAAGTCTCTCTTCACCCTGAGAATGAATAC
ACATGCACACCTCCTAGCCTAAACTGCCTTAGCCAAACAGAGAATCTAAGTCCTTGAAGTACAACTCATTTTTGATGGCAAAGACTAGGGGAAATTATTT
TGAAGTATATTCGTGACTTACAATGTTARAGGAATGGAAGGAAGACCCATTGGWTCCATCCATTCAGGGTCAACAAACGTTCATTAAGCCTGGGTTAAAT
GGCACTTACTAACTGTTACAGAAAAACAAACCTATAAATATATGATGGGTAAAATATGATAGTTTATTTCTTGCTCACATAAAGTCTAAAAGAATTGCAC
AACAGAGTTTTTGTACTTTGGGCCAAGAAGTGGCACACTTCACGTCTGTTCATGTTCCATCTGCTAGAACTCAGTTCCATGCTCATAGCYAACTGCAAAA
AGGCTGGAAAATTATCTAGCTGTGTGCACAGGAAGAAGAGGAAAAGGGTTTGGCTGATAGCAAGTCACTCTCTGCCATGGCTTCTAAAATGGAAGGCGGC
ATGGCAGTTTAAACAAAGTTTCTATTAGCAGAGGCMTGGGATTCAGCCCTGAGTAAACAGTGCTTACAATGCTCTCTACTCTTGGCTTCATTCAAAAAAC
AAACTTTCCATCTCCTCTGGCTTCTCTCTCAATCACCTTTATATTAGGCCAAAGATATTTTTCAAACACATATGTTCAGATTTTTTCCCACTGAATTTTG
ATTTTACCCCAAATCACATAGGAGAGAGACCTGAGCCAGAGCCCAGACTATGTGCAAGAATGGATTTCTGAGCATTGCTCCAGGGGTTACTCATCTGTCC
CTGCCTGTCTCTCCAGAGGTCCTCATCCTTCAGGATCAAAATGGTGCCTGGTTGGCTGAACACTTCTGTTTTAAAGGCATCACAAGGCCATGCTCCTTCC
TTAATGGCCTTCACATCCTTGGATGCTGACGTACRAGTTTTAGCCATATGTCAGGCTCTCCTKTTGTGTAAGAGCTGCCCTCGTTTACTGTGAGGCTCTA
TTTCCCCTGTTACATTACTTCTAACAGGAACTATRATCCAAAAGCTGTACTGTGGGTACAATGAGGTCTGAAGGAACCGTGCAAAAATGATTCTTGTAAT
GCTTCTKTTTCTGTGTCTGACTATCTTGGAGGGGCTTCACTTCTCATATTGGGCCTGATAAATTGAAACGCTTGCCTTTATTTCGGTTTCCTTATTTTTT
CTTCAATTTATACAGATACAAAACTTGGCATATTCTCCTTCTGTTTGTATGGCTCTCATTCAGCTATAACACAAACAAATTTACAGATTAAATGAAAGAA
TGTAAACCCTATCAATTTCTATAAATTAACACTATTCTGTGAGCTGATGCTGACTTGCTAAAACTAAATGGCTGTTCACAAAGCATACATAGTACAGGCC
GGGCGCGGTAGCTCACGCCTGAAATCCCAGCACTCTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAA
ACCCCGTCTCTACTAAAAAATACAAAAAATTAGCCGGGCGCAGTGGCAGGCGCCTGTAGTCCCAGCTAGTCGGGAGCCTGAGGCGGGAGAACCGGCGTGA
ACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCAGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAACAAAAAAA
AAACAAAGCATACATAGTACTGACTGCTGAGGCGCGGCGCATTCAGTGGAGGGCTCAGTAATGCTGACTTAGCTCTCAGCACCTTTTTCTGTTTTTCCTA
TTCTGAAAGCCCTTTTGGTACAGCGTGCCATGGCTTTTGTTATCTTAACACAAATGTATAATTTATCATTTCACTCCTTCTCTGCATCTATGTTTTTTTC
TCCTTAGTTAACTTCTATGGTTAAACTAGTACTAGTTAATATCAATGTGATTGTAATCGTGTCCACAAACATAGGTACTGGCAATCACGTGGCAGTCATC
ACACAGCAGTAATCTATTAGTAGGTGATCAACCAGGTGATCTAAAGTAGGCTTATGTTGATTTTTTTTAAGTTGGCCACTAAAATAACAGCTCCAGCTTG
AAAAATTGTAATAGAGATCTAGTGGTGTCTCAAAAGATAATCTCTCACCAGGAAGAAGAGGAACCAGTTAAAGAAAAACTAAAAGAGTACAATGTATTGA
ATATCAAACCTGCCTCCATAACAGAATCACCTAGGAACTTGTTTAAAATAGAGATTACAGCTTGTACCCTGTCACCTGAGATTCAGATTTAGTAGTTCTG
AAGTGGGACTCAAAATATATGCTAACGTTTTTCTAATAGGTGTAAGAGGGTCAATTGATTAAGCAACATTATTTTCATTAAAATCTCTATTGATTATAAA
TACTTGGATAACTTTGTGCTTTGTCTTAACAATGGATCATGAAAGTAATAAGAATGTATAAGAAGTAGCCTGTGCTAACAACAGTGATCCTCCTGACAAG
AAAAAAAGGCCATTACTTTCCAGCAAAAACTCAATATAATTAATTAAGGGCTGGATTTCATTCAGTGACATTTGAATTTTATAGCTATACACTTGCAGCT
ATAAAAAACCACCTTTATTATTAAAATTCCTGTAGGAAAAATAACTTGGTAATTGTGACTCTAAAGCTCTCTGGTCCCTAACCTCATTTTCCCCACTGGC
ACAGTTGTTTTTATAACACAGTAGAGCAACTCTTGTATTATAGCAGGACAGATTATATTTTAAACAAGTGCCCTGGGAATTCTGAGGCAGCCAGTCCACA
GACAAAGATTTGGGACTACCTATCACAAGCACCAGACTTTAGGTCAAAGATCTGGGCTCCAGTTCAGCCCTATAACTTGCTAGTTCTGTTGCCTTGGACA
AACCATGGGGCCTTTCTGAGTCTGAGTTCTTTGTGTATGTAAAAGATAGTACTGTTGTTTCTGCCTCTCAGGGTTGTTATCCAAAAAATCCAGATAATGC
ACATAGCACACCATATAAACACWTTTTCACTTAACAGATACTTATTGAGAATCTACTAGGCGCCAGGCCTAGGTGATAGAAATAAAGAAGACAAGAGAGA
TGTGATCTCTGATGTTATCAAAATTACATAATGAAGTAGCAGGGGCTGGGGGGAGATACACAAATATAGAAGATAAATTCTGTTAGTTCTAGKGCTTATG
AAAAAAGTAAAGTTGTCCCCATCTAAAGTATACATCTCTTCACCTCCATACCACACACAGGGATGCATGCTTTATATGGAGTGGTTAGAAAAGGCCTCAC
TAGGAGGTGTTATTTGCACAGAGACCTGAACGACCGGAAGAGAGCCGTGCAGAAGTCTGTAGGTGGAAGATGTCAGGGACAGGGAATGGCCAGGGCTGAT
GTGCTGCTGTGTTGGAGGAAAGGAAGGCCAGTGTGCTGGAGCACTGTGATTGATGGGGAGTGTGGGCTAAGTGAGGTAGGTGATATAGACCACTGGGTCT
TAATGTACAAGGGACAGTTGGTCATGAAAAGGAGCTTGAGGCCGGGCATGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCAAAGCAGGTGGAT
CACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAATATGGTGAAACTCCGTTTCTATTAAAAATACAAAATTAGCTGCATGTGGTGGTGCATGCCTGTA
ATCTCAGCTACTCGGGAGACTGAGGCAGGAGAATTACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCCCCCCATTGCACTCCAGCCTGGGCA
ACAAGAGCGAAACTCCATCTCAAAAACAAAAAAAAGAAAAGAAAAAGAGCTTGAAGTTTTGTTTTAATTGTACTGAAAAGGGACTGGAAAGTTTAAGCAG
AAAAGTTGTATGGTTTGATTCATGTTTTAGCAAGATCACGCTGGCTGCCATAAAACTGTAGTGAGGGAAGAGTGAAAGTCAGAAGACCAGTTAGTCTGTA
TAGTAGTCCAGCCAGAGATTATGGTAGCATTAGATCATAGCAACAGAGATGCTGGTGAGATGYAGGGGTAGATTTGGAGTCAGAGCTGGGTAGCTCTAAC
TCTGAGTAGGGAGGTGAGGTCATGTATACCAGTGCTAATTCAGTATCATTCCAACTGCTTCCTCCCATTGTGGCCATACATTTACTATGCTCAACAATCA
TTATAGTACTAAATCACTCATCAGATGATACATAATCTCAAATGTATGGAATATAAGTTGTATAAGGAAAAAGGCCCCTGAACAGTCAAAATAGAGCCTA
TGCATGCATTCCAAGGTGAGCTTCTCAGAACATTATTCAAGTTTCTGCCCTTGAACACAGTTCTGATGAGCTTAATTACCTATGCCTAGAAGGCAAATAA
AATGGCAAAGAAGAAAGAGGGATAGCTTCTATTATGAGGCTGTGGGACGGTACAAACAGGAATACAGGATAAATAGATGTGGGAGAAAACAAAAAATATA
AAAAGCAAGTATAAGACTCCAAAGGGCATTTCTGAATTAAGGTTTTCTTCACATTTAATGAAAGCAGAGAAGAGTGAATATCACTGTAGAATATCCTGCC
TGTAACATGGTTAAAACAAAATTAAATCCACTTAACTTACAGAAGGTTAAGCTTGGGTTATATGAATATGATCTCATGGGGACCCWACTTCCCCAAGGTG
TTCAATGAATGAGTCTTTTCATTGTATTTTGTAGTCATGTGCATGAAGTTCTGTATTTTATTCCCAGCTGATAAAGGCCTATTAAAACACAATGTACACA
GGACTTCGACTTCTGGAAAGATGGCATAGTTACACTTTTCCCTATTCTTACTGCTAAGTACCACTAAAGGCCCTGTACATTATAWATAAAACACACATAA
GGAGAATAAAAAGTAAAGGGAAGAAAGCCAACTGACCAAAGACCTTGGAAATCAAACTGTAAATTTGTTGGGTTTTCTTTTTGCCTCATAAATCACARAC
TTGGAGTTCAAGAAGCTGGCTACTGGTAAACACCAATGAGTACCAAAAAAAAAAAAAAAAAAAAAAAMAAACACCMGCTARAAACCTTCTCTCTCTAACA
AAAGGACTAGGAAAGGGGAAGCATAGCAAGACAGAAAACCTTTAGAAAATTCTACTCTATGCTAGCCAAATGCCACCGAAAACAGTGTGTCCACCACTAC
CTRCACCAGCAAAGGCTGAGCAGGGAGCCTAGATTCCCCACCAGCCAGCCTCAAATGAGGTGCCCCCCAACCCTCATGGAGGGGAGTATCAGAGATTTTC
AGTCCTCGTTCATTACACCTACCAGAGTGTAATGTGGAGACCACATGGGGAGCCTGGAGTTCCACCTTCACCCTGCCGTGCCCACCTTTCCCTCCCCACT
GGGGTGGTGTAGAGGAGGTCTCCTGGAGAGTGAGGACTTGTACCACCTGCCCAAGGTGAGGAGGCTCCTCCCACAGCTGTGTAGTGGGGACTATGTGGGG
ATCCAGAACTCCCACTCCTGCCCAGCAGTAATGAGGAGTCCCACACTTGGGTAACAAAAGAGGCCAAGTGGAGAACTTGGACTTAACCTGCACTGGGTAG
TAACAAGGAGGCATCTCCCTGCTCCCAAGCCTGAGTGGTTTTATAGAAAGCAGCTAAAACAGAAGGTTTACATAAGATCCAGAGTCTCATAACTAAAAAA
ATATACAGGCTTCAATTGAAACCTAGACATCATGAAAAAACCCACCTTCATCACCCTTATTCATTGTAGTGCTAGAACTTCTACCCAGTGCAGTAATGGA
AGAAAAGGAAATAAAAGGCATAGAGACTGGAAACAAAGAAATACAACTTGTCCCTATTTGCAGATGAAATGATTGTCTTTATAGACAATCAAAAGAAAAC
CAAAATAATTAGGTTAATGTAACAAAATATAACAGGACTTGTATCTCAGAAACAACAAAACTCTGATGAAAGAAATTAAAGAAGATCTAAATTAAAGAAG
ATAAATAGACATATTTATCATGGATTGGAAAACACAACAAAGTCAAGATGTCATTTCTTTCCTAATATACATGTTTAATCTAATTCCTGTCATAATCTTA
CTAATATTTTATACATGTAGAGAAGATTATTCTAAAATGTATATGAAAAAGCAAAGGAACTAGAATAGCAAAGAGGCAGGAGWAATCAGCCAACCTAATT
TCAGAATTAGTTATATAGCTACAATAAATAATATTGTGTGATATTGGTAGAGGGACAGACACATAGATCAGTGGAACAGAATAGAGAACTCAGAAACAGA
TCTACACAACTGTGCCCAGCTAATTTTGACAAAAGTGCAAAAGCAATTCAATGTAGGAAATATAACCAATAAGTGGTGAGAGAGCAATTAGACATCCATA
GTCAAAAAATAAATGGGCTTTGACCTCTTATCTAAATGTGACCTCTCACATCTTACATAAAAATTAACTCAAAATATATCACAGACTTAAAGGTAAAATG
TAAAACTATAAAACATTTAGAAAAAAATAGGAAAAATCATCAGGACCTAGATCTAAGTAAATAGTTCTTAAACTTGCTATCAAAAGCATAATCCTGTTTT
TGCTTTTGTTGCCTATGTTTTTGGGATCTTATCTAAAAAATTGCTGCCCAGACTAATGTCATGAAGTGTTTCCKCTATGTTTTTTCCTAGTAGTTTTATC
ATTTTGGGTCTTACATTTAAATCTTTGATCCATTTTTAATTTTTATGTAGTAAGAACTAGGGGTCTAGCTTCAGTTTTCCCAGCACCATTTATTGAGGAG
ACTGTCCTTTCTCTGTTCTGTGTTCTTGGCACTTTTGTTGAAAATGAGTTGGCTGTAAGTACGTGGATTCATTTCTGAGTTCTCTATTCTGTTCCATGGG
TTTATGTGTCTATTTTTATGGCAATACCATGCTGTTTGGGTTACTGTAGCTTTATAGTATATTTTAAAATTAGGTGGTGTGATGCTTCCAGCTATGTACT
TTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCAGGCTGGAGTGCAGTGGCACAATCTCAGCTTACTGCAAACTCTGCCTCTTTGGTTCAA
GTGATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGAGTACAGGCTGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCAT
GTTGGCCACAATGGTCTCAGTCTCTTGACCACATGATCCGCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCGGCCCCCAA
CTTTGTACTTTTCGCTCAAGGTTTCTTTGGCTATTTGGGGTATTTTATGGTTACAGACAAATTTTGAGATTGTTCTTTCTATTTTTGTAAAGAGTGTCAT
TTGTATTTTCACAGGGATTGCACTGAATCTGTAAATTGCTTTGTACAGTATGGACATTTGAACAATATTAATCCTTCCAATCCATGAGCATGGGATATCT
TTACATTTATTTGTGTCCTTTTCAATTTCTTTCATCAATGTTTTATACTTTTCAGTGTAGACATATTTCACCTCCTTGGTTAAATTTGTTCCTAAGGGGT
TTTTTGTAGCTATTGTAAATGGGATTGTTTCCTTGATTATTTTCAGGTAGTTTACTATTAGTATATAAAAACACTACAGATTTTTGTTTGTTGATTTTAA
ATCCTGCAACTTTACTGAATTTGTTTGTTCTAACAATTTTTTAGTAAAGTTGTAGGGTTTTCTATATATGAGATCATGCCATCTGCAAACAAGGACAGTA
TAACTTTTTCCTTTCCAATTTGAATGCCCTTTATATGGTTCTCTTAACTAATTGGTTTGGCTAAGACTTGCAGTACTATGTTGAAGAAAAGTGGTGAACA
TGSATATTCTTGTCTGGTTCCAGATCTAAGAGGAAAAAATTTCAGTTATTCCCCATTCAGTATTATATTAGCTGTGGATTTGTCATATATGGCCTTTATA
TTCCTGAAGCCTTCTCAACCTAATTTGTTATGAGTTTTTATCATGAATGGATGTTGAATTTTGTCAACAGCTTTTTCTACATCTATTGTCTTTCTTATAA
TAGCCATTCTAACTGGGGTGAGATGATACCTCACTGTGGTTTTGGTTTGGATTTCCCTGAAGATTAGTGATGTTGAGCATATAGTTTTTGTCCTTCATTC
TGTTCATGTGATATATCACATTTGTTGATCTGCGTATGTTGAACCATCCTTGTGTCTGTAGGATGAAACTTCTTCATGGTGAACAATCTTTTTAATGTGC
TGTTGAATTTGGTTTGCTAGTATATTGTTAAGGATTTTTATATACATGTTCTTCAGGGATCTTAGCCTGTAGCTTCCTTTTTGTTATTGTGTCCTTGTTG
GTTACATCCAACTGAAAAGCTTCTGCACAGCAAAGGAAACAATCAACAGAATAAAAAGACAATCTACAGAATGAGATAAAATATTTGCAAACTCTTTATC
TGGCAAGGGATTAATATTCAGAATACGTAAGGAACTCCGACAACTCAACAACAACAAAAAATAATTTTCAAAAATGGACAAAAGATAAAAAAGAACAGGA
TCAAATTCTTTGTAGGAACATGGATGGAGCTGGAGGCCATTACCCTTAGCAAACTAACGCAAGAACAGAAAACCAAATACTGCATGTTCTCACCTATAAC
TGGGAGCTAAATGATGAGAACACGTGGACACAGAGGGAAACAACAGATGCTAGGGCCTGGTGGAGGGCAGGAGGAGGGAGAGGATCAGGAAAAATAACTA
TCGAGTACTAGGTTTAATACCTGGCTGATGAAATAATCTGTACAACAAACCCCCATGACACAAGGTTACCTATGTAACAACCCTGCATATGTGCCCCTAA
CTTAATTAGTTAATTAATAAGGGCAAAAGACCTGAATAGACGTTTCTCAAAAGAATACATACAAATGGCCAACAGGCATATGAAAAAATGCTCAACATCA
CTAATCTTCAGAGAAATGTAAACCAAAACCAAAATGTGATATCACCTTACCTCTATTAGAATGGGTACTATCAAAAAGACAAAAAATAGCAAATACTGGC
GCAGATGTGGAGAAGAGAGAATTCTTATACATTGTTAATGGGAATGTAAATTAGTATAGCCATTATGGAAAACAGCTTAGATGTTCCTCAAAAAATTAAA
ACTAGAACTACCATATGATCCAGCAATCCTACTCCTGGGTATATATGCAAAGGAAATGAAAACAGTAATCAAAGTGATATCTGCACTCCAATATTTACTG
CAGCACTATTCACAATATCCAAGATATAGAATCAATCCAAGTGTCCATCAACAGATGAATGGATAAAGAAAATATGGTATATATGTACAGTGGAATACTT
TTCCACCATTAAAAAAAAAAAAGAAAAAGAATGAGGRCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCCCTTTGAGAGGCTGAGGTGGGTGGATCGCTT
GAGCCCAGCCAGGAGTTTGAAACTAGCCTGGGCAACACTGGGAAACCCTGTATCTACAAAAAAATACAAAAAATACAAAAAAAAAAAATTCTATCCAGGT
GTGATGGTATACACCTGTAGTTTCAGCTACCCAGGAGGCTTAGGTGGAAGGATCACTTGAGCTTGGGAGGCAGAGGCTGCAGTGAGCCAACATCACACCA
CTGCCCTCCAGCCTGGATGCCAAAGCAAGACCAACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAGAAAAAAAAAAGAAATCCTGTTATTTGCAGCA
ACATGGATAAACCCGGAGGTTATTATGTTAAGTGAAATAAGCCAGGCACAGAAAGACAAACTTTTCTTTTTATGGATCATGCTTTTCAAAATTTTTTCAT
TGACACATAATAATTGTACATATTTATGGGGAACAGTGTGATTTTTTTGGATACATGTATACATTGTATAAAAATCAAATTAGGGTATTTGGCGTATCCA
ACACTTCTTATATTTATCATTTCTTTGTGGTCAGGACATTCAAAATCCTTTCCCCTAGATATTTTGAAATATACACATAGTCACCCTACTGTGCAATATA
ATACCAGAACTTATTCCTCCTATGTAACTATAACTTTGTGCCTCTTGACCAATCTCTCGCTATCTTCCTCTCCCCGCTCCCTTCCCCAGTCTCTGTTAAC
CACTATGCTACTCTCTACTTCTATAAGATCAACTTCTTTAGATTCTACATATAAGTGAGATAATGCAGTATTTCTCTTTCTGTATCATTTCTTTTTTGAG
ACAGAGTCTCACCCTGGAGTGCAGTGGTGTGACCTCGGCTCATTGCACCTTCCACCTCCCAGGTTCAAGTGATTCTCATCCCTCAGCCTCCTAAGTAGCT
GGGATTACAGGTGCATGCCACCACACCCGGTTAATTTTTGTATTTTTAGTAGAGACGGGATTTCACCATGTTGGCCAGGCTAGTCTCAAACTCYTGGCCT
CAAGTGATCGACCCACCTCAGCCTCCCAAAGTGCTGGGACTACAGGCATGAGCCACTGCACCCAGCACTCTCTATTATTTCTTATAACTGCAAGTGAGTC
TACAATTACCTTAAAGTGAAAAAATTTAATTTTAAAAAAGGGCCCTGTAAAACATGATGTCGAGGATTATTTGTTAATTTAATGATTAGAATGCATAAAT
CATCTCAATTTGTATAACATGCTCTGTCTTCAAACTCTTCAACCCTTGGTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCAAGTTGTAAACATTTTTTA
AATTTAATTTAATTTTAAAAAATTTACAAATAATAGTTGTGCATATTCATGGAGTACATAGTGATGTTTTGATATAATTAATATATGGTGATCAGATCTG
GGCAATTAGCATATCCATCATTGCAAACATTTATCATTTCTTTTACTGACAACACTGCGGTAGGTAGGTAGGTAGATGCTTTTATACTGTGCGCTTGCAA
TTTTTCAAGAGAAAACATAGTTAGTGGCAAAAGTCTGGGTAGACCAGCCATGCATTGGTGGTTAGCCCATATTTCAAAGGAGTGCCCCAATTTCCACAGT
CACCACCAAGTAACATCTCATATTCTTTCTTATCTTCAGGAAAGCCACTAGTGAAAACGTCACGAATGACAGTGATCAACACGGAGAAGCCTGCAGTCAC
AGTCGATATAGGAAGCACCATCAAAACAGTGCAGGGAGTGAATGTGACAATCAACTGCCAGGTTGCAGGTGAGAAATTMATGTTCATTTGTTCACACGTT
AATGGAGCCCTGTGCTAGGTTGGGGATACAAAGACAAATTAGACACAAATTCTACTCTCAGGGATATAGTGCTAGTAGGAAAGCCAAAGCATGAACCTCA
GTCGYTCTGAAAGTAGAAAGTGCTACAGAAATTTAGAGGAAGAAAGATTAATTCTGACTGGGACAGATAGGTAAAATTGATCTTTTTATGTGTATGTTTT
TCTTTAATCTTAGCCTTCCATACAGATAGAATGTGAACCTGCAAAGATGGGGGCAAGGAGTTCCAAGTGGACACAGGAGAGTGATAAATTCATGGAAGTA
GAAAATCCTCTAGGCTGTAGAGAGAAYTGGGTGAGCTTTGGTCTGGGTGGAGCCCAGAGTGCAGAAATGCAGGTGGGAAGTGACATTAAAGAGCCATGCT
TCCAAAAGACAAAGCCACCAGCATTGAAGAAAATGGATTGAGAAGGGAAATACTAGGACAGAAAGGCCAAGTAAGACCCATCACTGTAGTTTAGAGGAGA
AGTCATGGAGGCCTGAACTCAGGGCAGTGAGGATGGGAAGGTAACGACTGGATGGACATGAGAAAGATGGCAAGAGGTAAGACCAACAGCAGCGTGGAGC
TTGCTCGAATCAGAAGTGGGCAGGAGTTATTAGAGAAGATAGCCAGTGGAGTTCTGATACAGGCATTGCTCTCAGGTGGGCCTTGCAAACTCAGAGGTCA
ACAGGGACCAGGAAGGCACAGTGAAGCAAGGAGTAGTAGACAAGAGGGGGTGGTAATATGCTCTGTATAAAAATATTTACYTTCAATTAAAAGACAGAAA
ACACCTACATATAGCAGAATGAGGCCCAGCTACTATTTTTCCCTTCATGTAGACCACTCATTTGTCATGTGTGCCCTAGGGGTTTCACTGCCACAATGGG
ATGAAGAAATGAATGGTTCTTGTGCCATTGGGCAACTAGTCTTCTGATTGCTGTCCTCATCAGATATACCCCACAGTGGCATGGCCACACCAAACCCAGG
TTCCCCGATCATACCCTGTCTGCAGAGTAGATAGGCAGTGGCACCCCATGCTTTGGTGGTTKCTTCATCTTAGATCTTCATCATATGAAGGTTTACCTCA
ATTTGTTACTTATAAGACATGAAAACCCATTTTAGAGTAAGTAGGAGGAATATCTTAACCTAGGGCTTACTGTTTCCGAATAACAGCCAAGTCTGATTTT
CTCTGAAATATTCTGATAGCTTTAGGCTATCTGAAATATGGCCAGACCTGGTGGCTCACGCCTGTAATCTCAGCACTTTGGKAAGCTGAGGTGGGCAGAT
TACTTGAGCCCTGGAGTTGAAGACCAGCCTAGGCAACATGGCAAAACCTTGTCTCTACAAAAAAATACAAAAATTAGCCATGTGTGGTGACGCATGCCTA
TAGTCTCAGCTGAGGGAGGCTGAGATGGGAGGATCGTTTGAGCCCAGAGGTCAAGGCTGCAGTGAGCCATGGGCATGCCACAGCACTCCAGCCTGGGTGA
CAGAGCGAGACCCTATCTCAAAAAAAAAAATTAGGATATCTGAAATATAAATATATCTTTGTAAGTGTGCATTAGCTTTGCCTTTGTAAAGCTTCTCATG
GCCTTTGTGATGTTTCCCTTCCAGCCTCATCAGTGAAATCTAGAACCAAGTCCCTTCAGCCCCTGTACTCCTAGATAGGGAGTAAGACAAAACCCCTGAC
AGGGRTTGGCATGAATGAGCTACCCCTCTGTGCAGGGATTAATGGTGGTGCCAGTAGAGCCCTTTCTGCAGAACCATCACCCCTCAACACACACCTGATC
ACTATGGACACATGCTTTGGCGATGAAACACTGGTGATATGATGGACCATGTTGTGTATCTTCTTGAGAGGTGGAACTGGTAGRAGTAAAAGAATAGGGG
AGGGGCCAGGCATGGGGACTCACACCTGTAATCACAGCACTTTGGGGGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAA
CATGGTGAAACCCTATCTCTACTAAAATTACAAAAATTAGCCAGGCATGGTGGCAAGTGCCTGTAATCACAGCTACTCAGGAGGCTGAGGCATGAGAGTC
ACTTGAACCTAGGAAGCAGAGATTGCAGTGAGCCGAGATCGAACCACTGCACTCCAGCCTGGGCAATAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAA
TAGGGGAGGAAAGTGCAGCAAAACAAGGAAATGGGCATTTAAAGGAGATTGAGAGRACCAGAATCTGGTTGAGGAAGTATTTACGTTGGGGAGCCTAAKA
TATTAAAACGAGCTTTGGCCACTCTATTGTGCCGCCTAGGGCCCTCTCTCTGGGACTTCATCCAGAGGCTCACTTGATAACCTTATAGTGAGAACCTGAT
ATACCTAGTTTTCCCTGGCTATGACATTGCAGTCTTTATTTTTGTTTTTATCCATAAAACCATCTGTATTAATGCTGATTAACTAAAATAATTATTTGTA
TATTTGTCCTTATTCCTCTTGTTAAACAAGATACTCATTCAAAGTAGGTGGGAAAGAGCCTGCTTATAATTACACAGTGAATTTGCTGGACAAGGAAATC
ATCTGTGAGCTTAGTCTCCAGTTAAAACACTGACAGCTATAATGCTAAATGCCAAATGGCAGAGGATTACTTTTACTTTGCTGCTATAAGCAGCTCTTAA
GGCTCTTTCCTTACTCTTGGTCACCTCTATCCCATTCCCAGTCAGGCAGCTTAGTGACCTCCTGATTGGTTAGGTGGGATTCTCTAAGCACCAATAACAC
TGCCAGTAGGTAATACTCTAGCTTGAGAATTTGCAACCCAGATTCTCGTAATAGACAGGGAAGAGGGACTCCATAAGGGCCTGCTTAAAGCAGTATTTTA
TGTCATATTCATTCATGTTATTCATTTAGCAGTTTTTTATGGAGTATTTAATCCAGGTTAGATCAAATTTCTCCTAATCCAAGGAGCCACAGATAAACAA
GATACAATTTTCAGGAAGCTCACAGTCTGGGAAGGAGAAAAGTTATGAAATATGTAATGATAATACAATGTGATATGTAGATACGGTTGTTGTTTTCTTA
TTATAAAATATTAGAGTATTAAAGAAATTTTAGAAAACACAGAAAAATTTAAGAGTCCAAAAAGGAAAGAAAACAGCTTGTTCAAAGTCGTTCTCTCCAA
ACTCAACMACAGCTGACATTTTATTAATTTCCTTAATGATTCCCTTTTATCCTGCTTTATTTCCTCTCAGTAATAAACATTTGTCTGTGTCATAAGCATA
ATTTTAATGGCTATATAATAGCCTATATTAAGAATATTATGTAATTTACCTAGAMCRACTCACATGTTTGAATTGTTAGCAGTTTTTCATTAAACAACTT
TTTGCGTACATGTGCTTTCAGCTTACAAAATGCAGCCTCACATTCTTCCCAATCCTGAAGCATCAACAGCATTAGGCAATGAGTATGATAGGCTTTTTCT
TGAAAAGTGACCTAATCCACTGTATCACTCCCATGCTTGTTCTCTATTTGTTCTCTGAAGAGGTCAGAAAACTGAGTCGGCGATAAAGGATCAGGGGAAG
AAGCAGTGTTTCAGTAAATGGGAACAGAATGTGCAAAGGGCCTGAGGTAGAAAGAGCATGCTGCATTTAAAGAAGTAAAACCTGGCTGGTGGTGTGGCTA
TAATATCAAGAGCAGAGAAGAAAGTAGCATATGAGGCTGAGGAGGTGTGGGTAGGCAGGGGCTAGATCTTACATGTTCTCATAGATTATGGTACAGTTTA
GGTTTTTCTCCTAAAAGCAAAGGAAGTATTTGAAGGACTTACTTAGGAGATAAAATCAGCAGGACTAAGGATGCAGAAATAGTTCAAGAGTCAGTGATGG
GTGGTGTATTAGGATAGATTAGACTCTGGTATCAAGTAGACCCCCAAATGTATAATGGCTCAAATACAATAGAAGGTTTATTTTTGCTTATCTAAGAGCC
CAAAGAGTACACCTGGTCATCTGGAGAGGATCTGCCCCCACAGTGTCATGCAGGGTCACAGGATGCTGGTGGGTCTGACATCTGGAACACATGCCTTCCA
AGGTCTCCATAGGGGTTACCTCTATCCTATCAACCAGGAGAGGGGAAAACAGAATAYGGAGGATGGTTGAGAAGGCTTTTAAGGGCCACGCCTGGAAGGA
GCATACATTAAGACTTTTCACAATCCTTTAGTCACATGGCCACGCACAACTACAAAGGATGCTGGGGAAGGTAGGCTCACTGGGTACTCAGGAAAAAGAG
GGAAACTGGTTTTGTGAACAGCTATCGTTGTCTGCCACAGTCAGTATGGAGAAACGTGGAAGGCTGGAAACCTTCTTTCCAGACTGCCTTGGTTTTTTAG
AATAATTGACAAGACTGACAGTTGAGTTACTGTATCCTTTCTCTTTTCTTTCCCTAAGCCACCCTACCTCCACACCTCCTAGGAAGCTTCTAGAATTTCC
CATGTAAAGGTGCACCTTTGAGTGGAAACCCCACCTTGAGATGTTGACACACCGCCATGGTGCAGGCAGCCTTCCAAATGTAATAAGGGATCCAGTTAAC
AAGAATACCCTGTCTGGGACTTTTTAAAAAAGARTATTTTAGCATCACCCTACCTGGCAGCTCCATGGACATCAAAGGCACTGGACCTTGTAATCATATC
AAGTTACCACCCAGTATGACTAAGCTCTTTTACTGATCCTTTCAAGCAGCAGGGAGAGCATGGGGCTGTTGAAAAGATACACCACAGGGGAAAATGCAAA
CGTGGGTTCTTTTCCTTCGCTGTTTTAAGATACAAATAATACCAGGGAGGTTAGCATGTGGAGCCTATCCAAGTAGCTGGTCCACAACAACATAGCTTTT
GGATTTTGTTCTGTGGTAGAGCATATTTTCTGTCATTTTCAGGTGTTTGTTTTTGTGGCATTTGCTGTCACACTACAGCAGGCTAGAAAAGATCATCTCC
CGCAACCTGACCAAGCTTCTCAACAAGAAAGAGCTAAAAAGCCAGAACACATGGATTCTGGAACCTCTCTCCTGACAACACCTTGGTTTTACAACCACAG
CAGAAACATTAATTCTGAAAGTAGAAAGGAATTAAGCCTTTGACAGTTCAGAAATAGTAAAGCAGCAGTTCAGATTTTCTCTCAAGWGTCAGGCTAGTAT
AATGGCAGGCGGTGTACACTTGTTAAGATGGGGACTGTTGGCATTAAAGGTATCTCAGTTTGAATCCCCACCCTGGCACTGGTGGGTTACTGATTGGCTG
TAGGGTAGGGAACTGGGGGGAACAGAAACTCTTTTCTGATGTAATGATGTAATCGTTCAGGCATCCAAACAAATGTGACCTTAGGCAGATTTCTTAATCT
CTATGAGACCCTTTTTCTCATAAAATGGAGTTATTAAATAGTACCTGCTTCACAGGATCATTGTTAAAAATAAGTGATTGTGTTTATAAAATGTTTGACT
TATAGCAAATGTTCAATGTTATTTCTCCGTTTAACACACTCAGGATACGTTTGCATGTCTCAGTACACTCCGATGTTGAGGTATTCTGAACATCAGTATT
AGGCATGTGTATCACTACCTTTTCAAGGGACTCTGTGGAACATTCAAGGGCTGGTGACGTTTTTTAAAGCGTCGTTGTCATCTCCTGAGAGAAAAAGAAA
AAAAAACTTTATAACACCTCAATTATTGTTTTCTATTTCCTCATTCTACATGCGTAATGTCAGAGCCAGTTATGGAAGGACTGGCTGTCACTCCAAGGTG
TCTTAGTAATATCATTCTCCACCTAAGGCCCACAGTTCCAGGCAGGAAGTCCTCAAAATGTGGCACCAGTAACAATACCTACATCGGCAAACTCATAATG
CAGATCTGTGCTTGAATGAATCTGAGAGAGGTTTGCCAGTAGATTAAAGAATGATTCCCACTTAATTTCTCTTCCCTTGGGACTGCTGTCAGGTCCATGG
TTCCAGGTTTACAGAAACTGGAGGTTTCTTCCTCCACCCTGCTATTCTGAACGTTTCCATTTCTCCCATGAAGTCCCCTGCTGTCACCAGAGGAATTCAG
CCCTTTTGGTTTATATCCAGTCCTGTCCTCTCAAACAAGCACAATTTTAGAACGGCATGAGATAGACAGACATCAAGGGAATGGAAGAAGCTTGCAAGCC
ATTCCTGGGGGAGTGAGAAATAGCTCCCAGGTCTGTTTCCATCCCTGGGTTCTCTCCCTTCTCCCTCTGTTCCACCCTCCCTCCTCCCCTCTGTCACTCT
CACTCTCATTTTCTCTCCCCCTGAGTCTTTGTGTTTGCTGCCCACAGCCCTCCTCAAAGGAAGATGCAGGCAGTAAGTGCTGCATGTGAGCAATGTGAGG
GAAAGAGGATGAATAATGGTAGAAAATGGTTTGCAGGGCCGGCATGGTGGCTCGTGCCTGTAATCCCAACACTTTGGAAGGCCAAGGCAGGTGGATCATC
TGAGGTCAGGAGTTCAACGCCAGCCTGGCCAACATGGCGAAACCCTGTCTCCACTAAAAATACAACAATTAGCTGGGCGTGGTGGTGCACGCCTGTAATT
CCAGCTAACTTGGGAGGCTGAGACAGGAGAATCGCTGGAACCCAGGAGGCAGAGGCTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTAGGTGAC
AGAGCAAGACTCCATCTCAATAAGAAAGAAAAGGAAGGAAGGAAGGAAAGAAGGAAGGAAGGAACGAAGGAASGAAGGAAGGAAGGAAGGGGAAGGAAAA
GAGGAAAAGGGTTTGCAGGAACTCATTTTTCCTTGTTCTTTCAGGAGAAAAATAGCTAAGAGTGCATTTCTTCAATTTACTTCTGAGGCTGTCTCCTAAA
TGCCGTGGATTTTTTTTTTTTAAATGGGAAAAAAACTAAGCTCAGGGTCCAAAGTCCAAGCTGGCATGGACAGGCATCATGATGCTCTTGCTCTCCCTAG
TGGTGCTGCAATGAAAAATCAGCTGTTCCACCCCTCACCTGTGTCTTTTCTCCAGGTATCTTTAGAGATGATGCCAACCTGGCCCCTCTTACACACTTGA
GCATAAAGTATCCTACTGTTAGAGCCAGATTAGCGTGTGCCTCTCTCTGATGTGACAAGGCTGTGGTATCCAAGTCTCCACCCACTTTCGGTAGCCCTGC
CTCTCTTTCTCTAGCCAATTTCAAGGACACGTAACAGATACACAGGCAACTCTTTGAAGACACTCTGCATTCTCAACAGAAGGCTAGCCATTAAGGGCAA
ACTGCCCTTGCCCCAAAGGCAAAAACCAGCCCCAGCTCAGGGAAAACACTAGACCACTAGACTAAAGGTCTGGCTCCTTGGCCATTCTTGGCTTTGACCC
CATTTCCCGGGACTTGACCCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGAGGTGATCTCGGC
TCACTGCAACCTCTGCCTCCCAAGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCACCACCATGCCTGGCTAATTTTT
GTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGACTGGTCTCAAACTCCTGACCTTGTGATCTGTCTGCCTCGGCCTCCCAAAGTGCTGGGATT
ACAGGCATGAGCCATCACGCCCGGCCAGGACTTTACACTTTAAGCATGCCCTGGATACATGCCAGTGAGTTCTATAAATAAACTGTGTGAGCTGGGTCAG
CAGGCTGAGTTGTGTAGGGGAGGGTGCTTTCTGCTCCCTAGAGACCTGTGAATCCGTGCCACATATGTTCAGTCTCTCAACATACTCAGAGCCCAGCCTC
CTATAGGATCCTCCTAAAACAGCATCTAGGAAGGCTCATCCTAAACTCTCAGGGCCTGTTTTCCAGCATGTCAACCACAAGGAAACTTCCTGAGGAATTC
ATGGGGTCCCTAGAGCACAGAGCCTGGCTTCCAAAGAGAGAGCCCATCCCAGGTCAGCAGATGATCTCCCCATCCCATCTCTCTCACAGAAAATAAACTT
GGATTGTGGAAAGAGTTGAGCACTTTCCTTTTGTCCTTTTCCTGTGGTTCTACTGATACTACCATTTCATGTTCTCTTGCTCTGAGAAGATATGCAGGCT
TCCAAAAATACAAGCAWGTTTTCTACATAAGAGTGTCAACTCCAGTAGCAATCTAGCAGCTTCCATTTGTCTAGTTCATACATATATTTTAACGTTGTAT
AGCTTTGCACTTTTTATTAAAATATATCTATACAGAAAAGTACATGTATCATAAAGGTACCAAGTGAACACTCCCCACCAGACCAGCCCCCGGTCAAGAC
ACAGAGCATCGCCAGTGGCCAAGCCACTTGTCCCATTTCTCAGTCACAACCCCTCCCCATTCATTCCACTGACTACTAACAGCATAGATTAATGTTACCA
GGTKTTTTTTTTTTTACTTACGGAAAGGAAATTATACAGTATGTACTCTTGTGTCTGCCATCTCTTACTCAACATTATGTTTATTTCATGTAGTTTCATT
TTCACTGGTGTATACATTTGGTTCTCATGTTTTTCAAATACATTTTCTCCAAAGAATTTGGGTACTCTCCTTCCACCTTGGCAAGCCCCCCCTGCCAGCT
TCCTGTTTCCTCCTCTTTGTACTGGCCTCCCTCTTCCTGTCTCATCACTGTAAGTTTAAAAGGCAAAAGATCTGGAGACAACTGAGATGTTTATCTTGTA
TCAACATTTATTCTGATTCTTTGGTCACCCTGAAGTCTATATCCTTATCCTACCAGGCTCTGGACATTATTTAATCTGGCCAAAGCCTGGTAGAAGATGT
CCCTGTAGAGCAGCCCCAGGGAAGGGGGATTCAAGAAGCTATAAATGCCTCTGGGCTCACCTGAATGTGTTTGACTGATGAGTGGGGTTTTTTGTTTTTT
TTTTTCTTCCTAGGAGTGCCTGAAGCTGAAGTCACTTGGTTCAGGAATAAAAGCAAACTGGGCTCCCCGCACCATCTGCACGAAGGCTCCTTGCTGCTCA
CAAACGTGTCCTCCTCGGATCAGGGCCTGTACTCCTGCAGGGCGGCCAATCTTCATGGAGAGCTGACTGAGAGCACCCAGCTGCTGATCCTAGGTAAACA
CTTCAAAGCTGGCTGCCTCTGCTGCACCCTGYTGGGAGTGACTATCTAACCCACCCTCTACCTCCTTTGTGCCCTAATCCAATTAAGGACATAAAAGGTA
AAATTGATATCCCTTCACTTCTTCCCAATTTAGGGCCTTTCGATAGAACACAAACTTTGAGCCCAAACAAGAGCTTGAACCTTGGCTCTTCCATTTACTA
ACTGCCTGGCATTGGGCAAGTTACTTCACTCTGCTAAGCCTTAGATACTGGTCTCTATGCGGAGACTCCAGACAGGAGGATTGCAAGGGCAGAACAGGTA
TCTCAAACAGAGATAACCTAATTAAAACAATTGTCCTTAACTCTTCCTGCATTAAGGACTTCTTTGAGAATCAGATAAAAACTATGGATTCCTCCTTCTA
GAAAAATTCATACATGTAATATTTTTCATATAATTCCAGGAAGCTTATGGTCTGGTCCATCTAAAGTCTCCACATGTACCCCTAAACATAAGAACCCCTG
ATTAAAGACTCTGGCATGGCTCCTGGTATAAAATGGGTGCTTAAAAATAATTGCTGGGACACCATYCACCATCTGATTATTGCCCAGTTCTGGACTCAGC
CATGTTGCAAGCTATAACCGTTTTTGCCCCCTGGACTAGGGACACCCTGCTGTTCTTCCCCCACTGAGTCTGGGTGCTAGGGAGATAAAGTTAAAAAAAA
AAAAAAAAWTTTTTTTGGCTTTCTCAAAAAAAAGAGCAATTATTAGAGCACTTMTGCTCTAATTATGCTCTTTCTCACCTAGAGAAAGCTGTCATTCTAA
GGAAAAAAGGGAAAGATGTAAGAAATAATAATTCATGCCACACATACATACATAAACATACATTACAGACTTCCTCAGGGAAAAATATTTAAACTTTACA
CTTCTGTTTTCACACCGAGAGTTGAAGATATACCAACACATAGGTCCTTCTAGACCCTGCCCACTCAGATTTCAGAGAGKCCCAAACGGGTTTTCATCTC
ACTGGTGGCTGCATAAACCTCCAGCCATCTTAAGAAGCCACAGAAAACTGGCTCAGAGAAAGATGTTATTTGTTTTGCGCTGGGTTTCATCCAGCTGAGC
TGCTAGTCTGGAGCCCAGAGACCAGGGAATATTGCCCCACACTGAGTTACGGTGCTTACCAATGAGATTTTTCTCCCTAATAATCCTTCCTTATTGTCTC
TGCTAACACAGATGAAAGTCTAAGATGTATGGCTGCTACTGTGGCTTTGCCAATGAAGTGTGTATGTTCTGTAGGCAGGTGCTTACTGCATTCCAACTCT
AATACAGTGTAGCAGTGAACACGGTGTTCGAAGAGCAAAACATCTTCCCCATTTTCATCAAACTTAATGGGGAAAAAAATCACTGTCAAGACTCTTAGGT
TTAAGGCTTTTCTTGATCACAGTTCTTGGTTTATTAAGGAAAGTTTGTTAGCTTTTAGCAGGTACTTTATGAACATCAAAGCAATGTCTCATTTAATCTG
CAAAAATGTAGCTTAATTTTTAAAGGGGGCATTTTGTGGATGAAACTGAGATTTCACCCCAAGTTCCGTGACTTAACCTGTACTATGAGGACTTGAAATG
CAGTAAGGCAGACTTTCATCCATGTATTCATATAGTCCATTGGACAGATATTCATTAAGTGTTGCCATTTTATGTTGCTGACATTAAGTTCCATGTCACC
TGGACACTGGTAAAGTTTTAGGAGAAATATAAGTGGTGGCCTCTACCCCTGGAGAATTTACAGTTTTCCTGGGAAGAGCAAATGGRCATGCACTGAAAAG
GAAAATTACTTTCAAAGCTGTAAGGACATTAGGAGGGGCCAACAATTGGCCCAAAAAGAGCTGATTGTTTTGAAGATGGAAAGTACCCTCCCCTTTTTGC
TCTTAGTAAATAAGCACAGCTTTCATGAGTTTCAAGAGGAAGTATTGAGGAGGAGAGAAAGAGAGATGCTTTGAGTAAACTGCCACCATCAGTTCCTAAA
ATCATGGTATTCCAGAGTAGAAAGAGATCTTAGAAAGGAACCTCATTTTGTAGATGAGAAAACTAAGGCTCTGAGGACTTAAATGACCTAATTAGTGAAT
GACAGAGGCATGGCTCAAACTGAGGGTTCCTGAACCCAGGCATGATGTTTTTCTCTATGCCATATGAAAAGGATTCTTTTTAAAGTATATTTTATATATA
TATATATATATATATATATATATATAAATATGTGTGTGTGTGTGTATATATATATGTACACACACACACATATGTAATCTCAAGTTCATCATTGTTTTCT
CTATACAATGGTCTTTGTCAGTCAGACAGAAAGACTGAAGGTATGTTTTTCAAGTAGACTCAGGCACCATCATGACTTATTAATTCACCAGCCCTAACAA
GTGCCTTACAAGGTGCCAGGCACGTAGTAGGGCTGTTGCAGAATGCTGTTGAAATGACCATCCATTTCAAGAGCAATACTCCTGGGCTGCTGCTTCCATT
CCAACAAGTGCTCTGGAGAAAAAGGTGGGAGCTGGCCTTGGGAGTGTAAATTGCAGTTCCTCAGGAGATGCAGGAAGAGGGGAAAAGGGATCTGCTGCTT
TTCCAAGAGAATCTGGGATCATCCCACCACTAAGTTCAGCAGGTTCTTGGCTCTTTATTTGTCCAGCAGAAATGATAAGCCACTATATATTTCCCATTTT
AGTCACTTTTAGCATTAACTGGGAACTCTGATGACTTCAGCGCTGATTCCTTGTAAGATTCTGAATGATGAAGCATCGCATAGCAACATTCTCCTCCCTG
CTTTATCTAGGTCCTACTTAGGCATAAAAATCCAAACCACAAAGCAAATTAACTCACCAACTTCACAACTGCATCTTTTGCTTCATAGAAAAGGGTCCTT
TTAARTAAGAAATTCCCGTGGTGTTTATCTGTGTGGACAATAACAGAGTGCCTCATTCTGAAGACTGTTACTAGAGCTAAATGAAAAATGGACTGAAATG
TATTTAGCACAGAACTTGGCATAGTAAATGCTAAAATTCACTTTTTTAAAAAAGTGTCTTTATGATATAGTTTAACTTATCTACAAATGTGTAGGTACCC
AGTGATCTAAAGTGAGAAACCCCTGAACTTGGTATGCCTGCTTCTTCTTACTGACCTTATTATTTCAGGCATCAAATACCTGTATTAAGTTTGAAATTCA
GACTCACCTTGACAGGGACTCCTCTATAGGAAAAATAATGTTAAAAGGCAACAATAGTAATGCCTATCTTACATATACGCATACATGTGCACACACATGC
ATACCCACCTCTTCCTCTTGCCTTGACACAGCCCTGTGCTTTAACCTGCCTGATCCACCCTCTGCCTTCTCACAGATCCCCCCCAAGTCCCCACACAGTT
GGAAGACATCAGGGCCTTGCTCGCTGCCACTGGACCGAACCTTCCTTCAGTGCTGACGTCTCCTCTGGGAACACAGCTGGTCCTGGATCCTGGGAATTCT
GCTCTCCTTGGTGAGTCTAACCCTYGGAAACATTGGGCAGAAAGCCAGGACTGGACAGGATTTATGGATGGGTGACTGTTTGCAGGTGGGAAGGAGGCAG
CAGTCGGGGGTGGCCAACAGGRAATCACTAAATTGCCTACAGAATCCAGACTCACCAGTGGAAACTTGGCTGACTTTCCATATGAGGTGAATGCAGTTGT
TAGTCTGGACTCTGTGGCTTGTCTAGATTCCAATATGGCTCCTTTCTGAATCCTCTTGGGTTGATGCCATAGTCCAGATCCTCTCAATCAGATTGACTCT
TGAAACTTTGAGAAAGTTACAGCAGTAAAGAACAGCTCCTATATCTCCTCTCCTCTTGCTAACCATTCCCCAGTACTCCTCCATGATCCCCTGCCACCTA
AACTAGAGCAATAATCAACTTTCGAGGAGAAAGTCAAATATCAGCACCCTCCAAAAGGAAGACTATACTATTTAGACCAGCTTTCTGTAGATATAGCCTA
AAGCCAACCCAGATAGACTCCTCAAGGCAAGTGCTGAACTAATTTCACTAAGTACAACCTCCCTGTCATCTAGTGTTGGAAACCTTCACCAAGTTATTTC
CCACATGGGTAGTGCCCTCTGGTAGCAAGGAGTTGTACGAGGGCATTCAAGTCCTGGGCCCCCACACGAGAATCATGAAGATGCCGGAAAAACCTTCACA
CATGACCTCTGGAGACGGACAAGGTGGAAGAGAAGAATTCTTCTGCCTTCAAAAGGCCTGGTGGGGGGGTGGGGAAATAGGCCTATACATGTGCAGGGAC
AGGGAATATATGAGAAGTTTCTGTACCTTCCTCTTGTGCTGTGAACCTAAGATCTAAAACTCCTCTTTAAAATAAAACAAAAAGCCAAAGCCTACAAAGT
GGGGAAAATCTTCATACTAAGTCTATGTGATCCCAAATGTTGACAATAACAGCTAGAATTATTCCTGTGGCTCAAAGTTTAAAGCTTCTGTATTCTTTTA
CCCACCAACTAGCAAGGAACAGGAGGCCAGTGGGTTCCCAGTCGTATTGGTGATGAYTTATCAACATGGCCACAGGGGCCTGGTATCTTTAGGATTAGAG
CACAGAAACATGACCCTCAATTTTCGTTTTCATCTGAAACTTGCAAAGAATCTTCACAGCTTATCAGCATATGGAAAAATCTGATTTCTCTATTTTTGAC
TTGAGTAAAAATAAGACACAGGGAAAGTAACAAGTAGCCCTATTCTGTTGCCCATGATTTATACAAGTTTGGCACTGAGTTTTTCTATATCTTGTTGATC
AGAATTAATAGAAGCTTCAAATTGCATATTGCCTTTGGCTTACAAATAGTAAACTGACTCCCAGTGAAATGTGCRTTGTGAACTTCTTTATTTTAGAATY
ACTATGAGAAACTCTCATAACTGTTCATCACAGCCTGGTCACAAGCAGGGTGGCAGCAATTGTTTATTTTCAAGTTCARTAACTCTTTTGGGTCACTCAG
GTGCCATTTAGCATGCTGGAAAAGTTAGCCTGTTCATATTTTTTCATGATAGCTTTACTTTCAGTCTCCCTTATTCTGGAATAATATTTTGTTTCATTTT
AGCCATGGGCAATAAGAATTTATTGTACTTTATGTTGCCACATTCCATTGCTAGTTTGTGGTGCTTTGTTACCTTAGGCTGGTATTTAAATCCAGCAGTT
AAGAGACACCTTAAATTCCCAGTCCACATCCAGACTGCTCCATTTGAATGAGACAGTGAGTCAGTATTCATAAAGTCCCTGAATGTAACTGCCTGGACCA
AATGAACTTGAATGGTGAATGTCAGTGTCACGCCAGCACTATAGAACTAGGAGACTCACATGGAATTGTGGAGATGAATGAGAAAATGATGTCAAGTATC
AGGACTCTGAGAAGTAGGTTGAGACAGSCAGAGCCTCATTATGATGCTTTGGAGCTGAGCACTGCAGAATGGGTGGGATTCAAATAGGCAGAAAGGAAGA
GAAATGGGCACTCAAGGTGAGGAAGATTCCATGAGCCCCAAGATGAAAAATGTGCAAGATATGTATCAGATGTCTGTTCAGAAACAACTGTAAAACACCA
TTGCTTTAAGACTGATGACAGGCAGCTAAACTGGGATAGAAACTAGGCCATCAAAACGAACAAGCCTCAGCCACAGCTTGTCCATTCAGATTTGGCTCAG
ACCCTCACCCCAACAATCCTAATGCCCTCCTTCCATCCTGAACTTCCCCAGCTAGTACCTCATCCTGGTCTTAGTCCAGTGGCTCCCATCTGGACAAGCT
CCCATCCCTGACTCCTATAGGTGGCCCTTTCAGACCACAGTGTGCGCTCTGGGTATGAGAAATAAGCCAGGGAGGCTGGAGAGGAGGTTTTGYGTAGGGT
TGCTGAGAAATTAACATCAAACTGTGGAAGCCATGAATATAAAACAAAGGAAGTAGATGTACTACCTGGGGAACGGGAACAAATCTTTCGAGGGTTTTTA
AATAGGAGAATGACATACTAAAAGTAATGTATGAGAAGAATTAATCTGGTATTCTGTAGGAATAATCGATAGTGGGAGAGATTTAATGAAGAAACCCTAT
TTTGAGGATAACAGAATTCTAGACCAAGGTGGAAATACATGGCAAAGATACTGTTAATCACTCCTCCCACAGCCAAGACATCCCTAGTCAGTCRTGACAT
TCTTTTTCACTCAGCTCAGGCACTGCCTTGGAATTCATTTTAATGTTCTTACCAAGCCTGGTGGTAGTTGATATATACAGGATGAAAGCCATTCACCAGC
CTTGTTGTAGCCAGTGAGTGGTGAGATGCCAGCCACTGTATGTTTCCTCTATGTACGAGGTCAGCTGGCTGTAACAGCCTTACAGAACTTCATGGTTCTG
TGGCACAGGAACAGTAACTCATAGACCCTGATTTTCATGTTTCCCAGCAGTAAGGGGGGAAAGGAGAGTTGGAGTTTTTTAAGCCATGTGTCAGAGCTCA
TTCTTCTTCATTAAGTCTGGAGTGTTGAGATCCCCAGTAGGTGAGACTRTTCCAGAACTGGCTGTTTTAGTTATCGGACACCCTGGTATTGATTTCACCT
CAAGCCACTGCTACAACTCTCCAAAGGGAATGTTGCCTGAGCAACACATGCACAGGCCCACCTGGGCCTCACTTTTCCATAACTATAAAAATGAAACCTT
GGGACTAGCAAGTGCTTGTTGCTCTCATACTCTTGACCACATGGCTTAGACATAGAAATGCCCAGTAGAGGGTTGAATGATATTTCTGTCTTTAGGTCTT
TGAGGAATTGACCACTGTCTTCCACAATGGTTGAACTAATTTACACTCCCACCAACAGTGCATAAGCATTTCATTTTCTCCACAACCTTGCCAGCATCTG
TTGTTTTTTGACTTTTTATTAATAGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCGTTTCTCTAATAATCAGTGACGTTGAGT
TTTTTTCATGTGATTGTTGGACGCATGTATATCTTCTTTTGAAAAGCGTATGTTCACATCTTTGCCCACTTTTTAATGCAAYTGTGTTTTTTTGTAAATT
TAAGTTCCTTATAGATGCTGGATGTTAGACATTTGTCAGATGTATACTTTGCAAAAATTTTCTCCCATTCTGTAGGTTGTGTTTCCTCTGTTGATAGTTT
CTTTTGTTGTGCAGACGCTCTTTAATTAGATCTTGTTTGCCAGTTTTTGCTTCTGTTGCAATTGCTTTTGGTGTCTTCATCATGAAACCTTTGCCCATGC
CTATGTTCTGAATGGCAATGCCGAGGTTGTCTTCTAGGGTTTTTACAGTCTTGGGTTTTACATTTAAGTCTTCAATCCATCTTGAGTTAATTTTTGTATA
TGGAGTAAGGAAGGGACTCAGTTTTAATCTTCTCTATATGGCTAGCCAGTTATCCCAGCACCATTTATTAAATAGGGAATCCTTCCCCCATTTCTTGTTT
TTGTCAGTTTATCGAAGATTAGATGGTAGTAGGTATATGGCCTTATTTCTGGGTTCTCTATTCTGTTCCAYTGGCCTATGTGTCTGTTTTTGTACCAGCA
CCATGTTTTTTGGTGACCATAGCCCTGTAATATACTTTGAAGTTGGGTAGCGTGATGCCTCCAGCTTTGTTCTTTTTGCTTAGGATTGCTTTGGCTATTA
GGGCTTTTTTTGGGTTCCATATGAATTTTTAAATAGTTTTTCCTAGTTCTGTGAAAAATGTCGTTGATAGTTTAATAGGAATAACATTGAATCTGTAAGT
TGCTTTAGGCAGTATGACCATTTTAACAATGTTGATTCTTCTTATCGATGAGCATGGAATGTTTTTCTATTTGTTTGTGTCATCTCTAATTTCTTKCAGC
AGTGTTTTGCAGTTCTCTTTGTGGAGATCTTTCACCTTCTTTGTTATTCATTTATAAGATACAAATACTTCTTTATACGTTTGACCCATATTTGACAATC
TGGTAGTTGATATTCAATATATAATACATATTTAAAGTTTAAAATATGATGTTTTGATATATGTATACACCTGTGAAATCATCACCACAATCAATATAAT
GAACATATTTTATCAGCCCCCAAAGTTACCTCATATCCCTTTGTAATTGTTCCCTCATACCCCTACCCCCACCACTACTGCTCCCACCCTAGGTGAACAC
TGATCTGATTTATGTCGGGGTAAACTAGACTGCACTTTATAGAATGGTATAGAAAAGGACTAATGCCTTTGRGATATTTTATTTCTTTCACTCAGAATAA
TTACTTTGACATTCATCCATATTGTAACATGGATCAACAGGGCATTTCTATTGCTAATTAGTATTTCATTGTATATACTACAGTTTGTTTAATCAGTCAC
CTGTTCAGAGACGGAATCGTTATTTTCAGTTTCTGGTTATTACAAATCTGCTGTGAAATTCATGTACATTAATCTTTGTATGCACACATAGTTTCATTTC
TCTTGGTTAAACACCTAGGAGTGAAATGACTTGCTCGWATCATAGGTATATATTTAACATTTTAAGAAACAGCCAAACTGTTTTCCAAAGTAGTTGTACT
ACTTTACATTCCCGCCAGCAGTGTAAGAAAGTTCTGAGTTCTCCTTGTCCTCACCAAAGCTTACTGTAGTTGGTCTTTTGCATTTTGGACATTTTACTGT
GTGTGTAGTGGTTTCTCATTGTGGTTTTAATTTGCATTCCCTTAATTACTAGTAGTGTTGAACATGTATTCATGTGTTTATTTGCCATCCTGATTTCTTC
TTTGGTAAAATGTCTGCTCARTTTTTTGGACCTTTATTTAAAMATTGAGTTGTTTACTTATATCAAATTTTCAGTGTTTTAATATATTTTGAATRTAAGT
CTTTTAATGAGATATGTAATTTCCCAATACTTTGTCCCAGTCAGCAGCTATATTTTCATTCTCTTAACAGTGTCTTACAAAGAGTAGAAGATTTTGATTT
TGATGAGGCTCAACTTACCCTTTTCTTAATTTTTTAAAATAATTTCAACTTTTATTTTAGATTCAGGAGGTACACGTGCAGGTGTGTTACATGGGTATAT
TTCCYAATGCTGAGATTTGAGGTATGATTGATCCCATCACCCAGATACTGAATATAGTACCCAATAGTTTTTCAGCTCTTGCCCTGTTCCTTTCCTCTCT
CATTAGTAGTCCCCAGTGTCTACTGTTGCCATTTTTATGTCCATGAGTACCCAATGTTTAGTTCCTGCTTCTAAGTGAGAACATGTGGTATTTGGTTTTC
TGTTCCTGCATTATCCTGCTTAGGATAATGGCCTCCAGCTGCATCCATGTTGCTGCAAAGGACATGATTTCATTCTCTTTATGGCTGCATAGTATCCTAT
GGTATATATGTACCATATTTTATTTATCCAATCCACTGTTGATGGGCACCTAGGTTGATTCCATGTCTTTGCTACTGTGAATAGTGCTGCAATGAACACA
CAAATGCACGTGTCTTTTTGGTAGAATGATTTATTTTCTTTTGAATACATATCCAGTAATGGGACTGCTGGATTGAATGATCGTTGTGTTTTAAGTTCTT
TGAGAAATATCCAAACTGCTTTCCACAGCGGCTAAACTAATTTACAGTCCCACCATCAGTACAAAAGCATTCCCTTTTCTCTGCAGCATCACCAGCATCT
GTTGTTTTTTGATGCTTAAATTGTAGCCATTTTGACCAGTCTGAAATGGTATCTCATTGTCTTCTTTTGAGAAATGTCTGTTCCTGTCTTTTGCCAATTT
TTAATGGGGTTAGTTGTTTTTTGCTTGCTCAGTTTAAGTTCCTTATGTATTCTGAATATTAGACCTCTGTTGGATACATAGTTTTTGAATATTTTCTCCC
ATTCTGTAGGTTGTCTGTTTACTCTGTTGATAGTTGCTTTTGCTGTGCAGAAGCTCTTTAGTTTGATTAGGTCCAACTTGTCAATTTTTTGCTTTGTTTC
AATTACTTTTGAGAACTGTTTTGGTTACTGTAGCCCTGTAGTATAGTTTGAAGTTGGGTGGCATGATGCTTCTATCTTTGTTCTTTTTATTTAGGATCAC
TTTGGCTATTCAGGCTCTTTTTTGGTTGCATATGAATTTTAGAATAGTTTTTTCTAATTCTGTGAAAAATGAKGTTGATAGTTTGATAATAATAGCATTA
AATCTGTAGATTGCCTTGGGCAGTATGGCCATACTAATGATATTGGTTCTTCTAATCCATAAGCACGGAATGCTTTTCCATTTATGGATGTCATCTATGA
TTTCTTTCAGCATTGTGTTTCATAGTTCTCCTTGTGGAGATCTTTAACCTTCTTGGTCAGATATATTCCTAGATATTTTATTTTTGTGTATTTTTGTGTT
GCTATTGTAAATGGCATTGCATTCTTGATTTGGCCCTCAGCTTGAAGGTTATTGAYATAYAGAAATGTTACTGATTTTGTACATTGATTCTGTATCCTGA
AACTTTACTGAAGTCATTTAYCAATTCCAGGAGCCTTTTGGAAGTCTTTAGGGTTTTCTAGATRTATAATCATATAGTCARTGAAGAGAGATAGTTTGAC
TTATTTTCTTATTGGGATGCCTTTTATTTCTTTCTCTTGCCTGATGGCTCTCACTAAGACTTTCCATTTATTCTTTTAGGGCTCATTCTTTTAGCATTGT
ATTTAAGAAATCTTTGCCTACTTCTGTCTCAAAGACGTTCTCATATTTTCTTCTAGAAGTTTCATAATTCTAAGTTTTAAGTTAATTTATCTTTAGTTAG
TTTTGTATATGATATAAGCTATATATTGAAGTTTGTTTTTATACATATGGACATCTAACTTATCCACTACAATTTGCTGAAAATATTATCCTTTCTCCAC
TGAGTTGCCTTTGCATCTTTCTGGAAAATCAATTGTTCTTATATACGTGGGTATATTTCTAGATCTCTATTCTATTTCATTGTTATGTTTGTCTCTTATA
CCACATTCTACTTAATGCCCTATAAATCATAAGGTCTGGCTTGTGGAAACAGATACTATTCCCTACCCTGTGTGAGCCTCAGACACTGGTACTTCTAATT
CTTTTAAGTGGTTCTTCCCCTACTTCACACACATGCCACCAATACGCATTCTGCGCCATACTCAAGGGGATCCTCTGCAGATTTACAAAAACCACGTGTT
TTTATAAGTACAGTTTTACTGTAACAGAGCCACACCCATTAATTTACCCAAGTGTTCTGTGGCTGCTTTCATATTACAACAGCAGAATTGAGTACGTGTG
ACAGGCACCATGTGGCCCAAAAACCTAAATTATTTCCTATCTGCCCCTTTACAGAAAATGTTTGCCAACCCCTGATCCGGTCCCTCTACCTTATTATTGG
AAAGGACACCAAGGTCTTATGGGAGTCGTGACATATTCCCTGTTTCTAAGGATCACATCTTTCCTACTGTATCTCTGTGTCCTTCATCCTGTCACTGGCT
TAGGCCTCCATGAGRTCAAAGACCCTAAAAGATGCACTATATTAGCCTGTTTTCATGCTGCTGTTTTCTTCCCGAGACTGGGAAGAAGAAGAGGTTTAAT
GGACTTACAGTTCCACATGGCTGGGGAGGCCTCACAATCATGGCAGAAGGCAAGGAGAAGCAAGTCACGTCTTACATGGATGGTGGCAGGCAAAGAGARA
GCTTATGCAGGGAAAACTCTCATTTTTAAAACCATCAGATCTCATGAGACTCATTCATTATCACAAGAACAGCATGGGAAAGACCTGCCCCCATGATTCA
GTCACCTCCCAGCAGGTTTCTCCCATGACATGTGGGAATTGCAGGAGGTATAATTCAAATGAGATTTGGGTGGGGACACAGCCAAACCATATTACACACA
CACACACACACACACACACACACACACACACACAMGCAAAAACCTAGAGGAGTAGAAATTGTCCTCAGGAAGGTAGGGAAAGAGAGAAAAGCTCTAAAGA
GCCTGGAGTTTCCTCAGAATTAGATAGCCTCAGGTGGCTCCAGTTTAAAAATAAATAAATAAATAAATAAATAAMTAGGCTGGGCATGGTGATTCACACC
TGTAATCCCAATGTTTTGGGAGGCTGAGATGGGAGGATTGCTTGAGGTCAAGCATTTAAGACCAGCCTGGGCAACACAGCAAGACCTTATCACTACAAAA
MTTTTTTTAAAATATAACTAGGCATGGTGGTGCAGGCCTGTAGTCCAAGCTGCTTGGGAGGCTGAGGTGTAGTCCTAGCTGCTTGGGAGGCTGAGGTGGG
AGGATCACATGAGCCCTGGAGGGAGGCTGCAAGTGAGCTATAATCTGCAAGTGAGCTATAATCGCACCACTACACTGCAGCCTGGGCAACAAGTGAGATC
CTGTCTCTTTTTTTAAAAAAAAAAAAAAACCTAAAATATGTAATTACATGTGGCTTAATAAAAACAGTGCCTTTTTCCAGCATCTTACTTAGGTGCTGTT
CAAGTATCTTTCAGCATACATTTGGCCCACCCCCTCTTTTTAGCAGCACACTCTCCTTTTTTTTTTTAATTTTATTATTATTATACTTTAAGTTTTAGGG
TACATGTGCACAATGTGCAGGTTACTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTA
ATGCTATCCCTCCCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTAATGTTCCCCTTCCTGTGTACATGTGTTCTCATTGTTCAATTCCCACCTATGA
GTGAGAACATGCGGTGTTTGKTTTTTTGTCTTTACAATAGTTTACTGAGAATGATGATTTCCAATTTCATGCATGTCCCTACAAAGGACATGAACTCATC
ATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCGTTGTTGGACATGTGGCTTGGTTCCATGTCTTTGCT
ATTGTGAATAGTGCCGCAATAAACATATGTGTGCGTGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGT
CAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATGGCCACACTGCCTTCCACAATGGATGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCC
TATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCCTAACTGGTGTGAGGTGGTATCTCATTGTGGTTTTGATTTG
CATTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCGCCCAC
TTTTGGATGGGGTTCTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTT
TCTCCCATTTTGTAGGTTGCCTGTTCAATCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGTCTTT
TGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTA
GGTCTAACGTTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTGTCAGCTTTCTACATATGGCTAGCCAGTTTT
CCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATCTATGGCATTATTTCTGA
GGACTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGGTGTTTTGGTTACTGTAGCCTTCTGGTATAGTTTGAAGTCAGGTAGT
GTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGGTTGACTTCGCGATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTG
TGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCTATAAATTACCTTTGGCAGTATGGACATTTTCATGATATTGATTCTTCTTACCCATGA
GCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCGTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGG
ATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTTTTGGTGTATAAGAATGCTTGTG
ATTTTTGTACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAAT
CATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATAMCCTTTATTTCCTTCTCCTGCCGAATTGCCCTGGCCAGAACTTCCAAC
ACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCSAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTG
TGGGTTTGTCATAGTTAGTTCTTATTATTTTGAGATACATCCCATTAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAA
GGCCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACATTTATTGATTTGCRTATATTGAACCAGACT
TGCATCCCAAGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAA
TGTTCATCAAGGATATTGGTCTAAAATTCTCTCTTTTGGTTGTGTCTCTGCCCGGCTTTGGTATCAGGRTGATGCTGGCCTCATAAAATGAGTTAGGGAG
GATTTCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGTTCCTTCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGATCCT
GGACTCTTTTTGGTTGGTAAGCTATTGATTATTGTCACAATTTCAGTTCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGSTTTAGTCTTGGGA
GGGTGTATGTGTCGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCGTAGAGGTGTTTGTAGTACTCTCTGATGGTACTTTGTATTTCTGT
GGGATCAGTGGTGATATCCCCTTTATCATTTTTTATTGCSTCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTG
TTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTT
GCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCTTTCTCTTGCG
GGCATTTAGTGCTATAAATTTCCCTCTAGTCACTGCTTTGAATGTGTTCAAGAGATTCTGGTATGTTGTGTCTTTGTTCTCGTTGGTTTCAAAGAACATC
TTTCTTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGAGCAGTTTTGAGTGAGTTTCTTAATCC
TGAGTTCTAGTTTGATTGCACTGTGGTCTGAGGGACAGTTTGTTAYAATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCAAGTATGTGGTC
AATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAAAATGTATACTCTGTTGATTTGGGGTGGAGAGTTCTGTAGACATCTATTAGGTCCGCTTGGTGCAGA
GCTGAGTTCAATTCCTGGGTATCCTTATTAACTTTCTGTCTTGTTGATCTGTCTAATGTTGACAGTGGGGCGTTAAAGTCTCCCATTATTGTGTGGGAGT
CTAAGTCTCTTTGTAGGTAACTCAGGACTTGCTTTATGAATCTGGGTGCTCCCATATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAAT
TGATCCCTTTACCATTATGTAATGACCTTCTTGGTCTCTTTTGATCTTTGTTGGTTTGAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCCTTT
TTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCTTTTATTTTGAGCCTATGCATGTCTCTGCRCGTGAGATGGGTTTCCTGAATACAGCACACTGA
TGGGTCTTGACTCTTTATCCAATTTGCCAGTCTTTGTCTTTTAATTGGAGCATTTAGTCCATTGACATTTAAAGTTAATATTGTTATGTGTGAATCTGAT
CCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGATGCAGTTTCTTCCTAGCCTCAATGGTCTTTACAATTTGGCATGATTTTGCAGTGGCT
GGTACCGGTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAA
ATATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGCCTGGATATTAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGTCCCCCC
TCTCTTCTGGCTTGTAGAGTTTCTGCKGAGAGATCCGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCCGACSTTTCTCTCTGGCTGCGTTTAACA
TTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCGAGGAGTATCTTTGTGGTGTTCTCTGTATTTCCTGAAT
CTGAATGTTGCCCTGCCTTGCTRGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCARCTTGGTTCCATTCTCCCCATCACTTTCAGGT
ACACCAATCAGACGTAGATGTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTTTGTTCATTTCTTTTTATTCTTTTTTCTCTAAACTTCCCTTCTC
ACTTCATTTCATTCATTTGATCTTCAATCACTGATACCCTTTCTTCCAGTTGATCACATCAGCTCCTGAGGCTTCTGCATTCTTCACGTAGTTCTTGAGC
CTTGGCTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTGTATTGGTTATTCTAGTTATACATTCGTGTAAATTTTTTTCAAAGTTTTCAACTTCTTTG
CCTTTGGTTTGAATTTCCTCCTGTAGCTCRGAGTAGTTTGATCGTCTGAAGACTTCTTCTCTCAACTTGTCAAAGTCATTCTCCGTCCAGCTTTGTTCCA
TTCCTGGTGAGGAGCTGTGTTCCTTTGGATGAGGAGAGGTGCTCTGTTTTTTAGAGTTTCCAGTTTTTATGCTCTGTTTTTTCCCTATCTTTGTGGTTTT
ATCTACTTTTGGTCTTTGATGATGGTGATGTACAGATGGGTTTTTGGTGTGGATGTCTTTTCTGTTTGTTAGTTTTCCTTCTAACAGACAGGACCCTCAG
CTGCAGGTCTGTTGGAGTTTGCTAGAGGTCCACTCCAGACCCTGTTTGCCTAGGTACCAGCAGCGGTGGCTGCAGAACAGTGGATTTTCATGAACCGCGA
ATGCTGCTGTCTGATCGTTCCTCTGAAAGTTTTGTCTCAGAGGAGTACCCGGCCGTGTAAGGTGTCAGTCTGCCCCTACTGGGGGGTGCCTCCCAGTTAG
GCTGCTCGGGGGTCAGGGGTCAGGGACCCACTTGAGAAGGCAGTCTGCCCATTCTCAGATCTCCAGCTGCATGCTGGGAGAACCACTGCTCTCTTCAATG
CTGTCAGACAGGGACACTTAAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGTCCCCAGAGGTGGAGCCTACAGAGGCAGGCAGGCCT
CCTTGAGCTGTGGTGGGCTCCAMCCAGTTCGAGCTTCCTGGCTGCTTTGTTTACCTAAGCAAGCCTGGGCAATGGCGGGCGCCCCTCCCCCAGCCTTGCT
GCCGCATTGCAGTTTGATCTCAGACTGCCATGCTAGCAATCAGCAAGACTCTGTGGGCATAGGACCCTCCGAGCCAKGTGCGGGATATAATCTCCTGGTG
YGCCGTTTTTTAAGCCTGTCGGAAAAGCRCAGTATTTGGGTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACCCCTTTCTTTGACTAAGAAAGGGA
ACTCCCTGACCCCTTGCGCTTCCCGAGTGAGGCAATGCCTCGCCCTGCTTCGGCTCATGCACGGTGCACTGCACCCACTGTCCTGCACCCACTGTCTGGC
ACTCCCTAGTGAGATGAACCCGGTACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGCATTGCTCACCCTGGGAGCTGTAGACCGGAGCTGTTCCTA
TTCGGCCATCTTGGCTCAAGTGTCGGCAGCACACTCTCCTTAGTGAGCAAGCTCCCATGCCTCCTTCAGAGGAACTCCTCACAAATCTCCATTGGAGGCA
CRTGTCAGCCCCACAGAAAGCAAACAGCACCAGCCTTTTCTCATGCCTTGTGATTTACCAAGAGGAGGAAGATGTGGGCAGTCATTCCAACCTGAGTGTA
CAGAGTGAAGACTTTCCATGAAAGAATTCATTGTGCCTGGTGCTTCTCCCTGGTGGGAGGCTCAAGGGGGCACAGCCAACACACATGGTGGCACCAACAT
GCTCACCAGGGCCACAGGCCCATCATAGGCAGGGCCTGCACATGTAGCAGCTCCACTTCTTAGAGCCCTTCCAGCCATGCAAAGCCTGGCAGTGAGGCCA
CAGCTCACACATTGCAGTTGGGCAGTGGTATTCTGACCACCCAAGACAGGCAGCTTATGCATTTTTTTCTCTGCTTATTCCTCTGCTGAGAATTGCAGAA
CCCAGCTGGCATGAGATGCAGTTCAGACATCCCTGCTAAGAGCRGCAAGGCTCTTGTTGACCCTAAATCTCATGCAAAAAGGTGAAGGAATTACTTCTTT
CTCCAACACTGAGGTTAAGACTGGGACAMTATAATATAATATCACGCTGGTATGAAAACTGTGTTTGGAATACAGGACCCAGGCCTGGAGTCTAAAGGCA
GAGCTCACAGTGTTCACATGTAACCCTCTCAAAGTAGGAGCGTATATGAGAAAACAGTTGAATAAATATTAATATCCAAAGTTGAAATTCATGATAAAGG
GCCTAGGAAAGCACTGTCTCAAAGATAGTTCCATTTACTTATTCAAGAAGTATTTACCAAGTGCCTAATATGTGCCAAACAGTGTACTGTGAGCCAAGGA
CACACAGTAAATAAGATAAATACAAACCTAGTCCTCATTCATTTATTCAAAAAGAAGTATTGAGCATCTATTTACTATACCAGGCACTGTTCTAGGTACT
GAGGACACAGTAATAAGCCAAACAAATTGATGTTTGTAGTCCTTTGCAGTGTGATTCCAGTGGRGGCACTTAGAGTCTGATGGGAAAGTTCAAGTAAGAA
AAGCACGATGGAAATGGCAAGAGCTGGGGGCTTTTCAGGTCTCAGCTTGGCCAAGATTGCTTTGAGAAACCAATGTTTGAGCAAGACTGGAAGACTGGAT
AGAGGTTACCCAGGTGAGGAGAGGGGACGAGCGCTTCAGGTAGAGGAGCCGGCAGAGGTTATAAAGAATGAAAATAGAAAACCTTTCAAGAACCTTTTTG
STCAGAGGTAAGGGGGAGTGGCCTTAGACAAGGTTAAAGAGGGAGGTGGAGCAAATTGCTGGTGCTCTGTAAGATATTTACACTTTGCCCTAAGTGCAAT
GGGAAGTCTTAAACAGCTTAAAAACAAGAGAGAGAGGTTGTCTAACTTGCGTTTTTAAAAGCTTATTCTGACTGGTGTGTAGAGGATGGTTTTTTAGGGG
AAGAGGCTAGATAGAGTCCCCTGTTTAGGAAATTGTTGCAGTATTCCAGGTAACCATAGATTACTGTGGCATAAAGTACAGAGGTGGAAAAAAATGGACA
GAAGTAGATGAATTCAGGGATCTGTAAGAGGTAACTTCAACGGGACTTGGTAAATAGATTAACATGAGAAGGGAAACATCAGCCATAGAATGAACAGAGT
CTCAAAGACATCAGATTTGGGGGGTTTTTCTCACTGAAACTCTCATGTACCTCCTAGTGGTGGTGACACATCCCAGACCACTCAAGCCAAGATGTTAGAA
TAAATTGAGAGCTACATGGGTGTGTAATGCAGAATGTGTAGTTATAAGGAGGAGAATACCCCAAAGCTTCTGTTTGCTAAGTCCTGCTCATTTCCTTAAC
ATCTACCTGCTCAGGCTTTATTAAATGCTAGGTCCTGTGCCTTTCTCCCAGTTTTTGAACAGCTCAGAAGTGTTAGGACAGACAGAAAAGTCAATCATGA
GTGTGAGAAAAGCTCTATAGGCTGCACAGGAAATCAAAAGGAACAGGAGTGGGGACTGCTTTCTTTGATGAAAGGGTAATTGGGGTGGGGGTAGGGGGCA
TTTAACAGAGGAACTGCTCAAGYTCAGCCTCAAAGGATGAGGCAAAGTATTCCATGCACYGATACAACAGACACACTTACTGAGTTCCTTCCATGTTTTC
AGCACCATTGAAGGCAGCAGAGACAAAACAGACAAAAGTCCCTCCTCTCATAGAACTGATGTTATAGTAGGAGAAATAGAAAATAAACGTATACAGAAGC
AAATGGCATCATATGGTAGAAGTAATAAGTGCTATAAAGAAAAATAAAGCAGGATAAGAGGGAGAGGTGGTGCCTATGTGGGAAGGAGGTTCCAATTTAA
AATACAACAGGCCAGAGAGGGCTCACTGAGAAAGCAGTTCTTGAGCAAAGACATGAATGTGTGCTCTTGAGCCTTCACATGTCTGGAGAGAGAAGAGAGG
AGAAGAGCATCCCAGGCACAGGAAGAATGAGTGCGGAGTTCCGCCTGCATGAAACGTGCATGCCTAGTGTGTTCCAGGAACAACAAAAAGGCCAGTGTGG
CCACAATGAGGTAACAGAGGGAGTACACAGAAGGAGAGAAGATCAGAGAGGCAACCAGGCAGAGGGCAAGTTGTGTAAGGCCTTGTAAATGGTCACTTTA
AAGCAACAGTGAGAGAAAAATCTATAAATGCTCACATTTATAAACAGATGCAATATTGCATTGAGCATCATGGGCTTTTCCAGCATTAGACAGGGGCAGG
CAGAAGTGATTTAGTTTATTGGAAACCATGTGGCCAACTGAATGTTATAGAGCTGACTCTAGTAAAACAGAGGCTTATCAGGCTGGCTCTGGTACAAGCC
RATATTGCTGATTTAATTTGGCTCACATGTGCTGGGCACCTGCTCYGTCTGCCTGGCCCTGAGCTTCTGCAGGCATGTGCCTGGCCATTTCCTTCATCTA
GTAAGAGGGGATCCCCRTTGCACAGTAGAGTCAGCTGGGAAGTTTAGAAAAAAATATTCCAACAGAGACCAATTAATTCGAGATCTCAGGATGGGACAAG
GCATCAGTACTTTTAAAAAATGATTCTCAGGGATTGAGGAGATTTTACAAGTTACTTCTCCGTCTTCTACAACCCATGTATAATAGAAGCTGGAATGGAA
ATATGGCGTGCTTAATCATTTAGAATATTTTAATCTGACATTCAAGGTTCTTTGCTATTCAGACCTAGCCTTTACATCCATCCTTCCATCCTATTTCTCT
CTCAGGTAATTCCTTTGTTCCAGTCAAACCTCTCCCTCATACTTGCCATGGCCTTGAGCCTCATGTAACTTCCATGCCTGGAATACCCTCCCCTACCCCA
CCATATCTATCTAAATCCTAAAGATTTTCAAGGCACAGATCAGGCCCTCCATGCAGCCTCTTGGAGCACCCCAGCCTGGAATGATCACTCTCTGCTGACT
TCCTGAAGCACCTACTCTAGMCCAGAGTTGGGCAAACATTTTCTGTAAAGTGCCAGATAGGAAATAGTTTAGGCATTGTTGGCTATAAGGCCCCTGTTGC
GGGTATTCAACTCTGCAGTTGAAAAGTGAAAGCAGCCATAGACCATAAGTAAATGAATGGGTATGTCTGTGTTCCAGAAAACTTTATTTACAGAAACAGG
ACTGGATTTTGCACTYGGGCCATTCCCTTTGATAATATCAGCCTATCTCAGATAAACGAAGCAAGAAAAAGGAAAGAGATTTTGCCAACTAATGAACCAA
AACTAATGAAAAGAGCATGAACTTTGGAATCAGAGCTGAGCTATGGTCAAACCACATAACCTCAATGAGTCTGCCTTTCTCATCAACCTCAGCTCTATGT
CACCAATGTGATACTTAGCCTATCACACCTTAYATTATTGGACATATTTCTTACGTCTGTCATGTCTCCCAGCTAGATCTAGGTCCTGGGGATAGAAGAG
GCTRCATAAGTATTTTTAAGTGATTTAAAACAGGACTAGGTGGCAGGGCCTTGACTTGGAAGGCCTCTTGAATTGTTTTCATCTCTCATTTCTATTCTAA
TTGTAGCTTTATCATCCGTCCCACATACYTCCACCCTTCACCCCACCCGCACATTTCCTATAGCCTGGATTTTTCTTGTACAGCCTGGATCGGGCACTTC
CTGGATCCAATTATGTGATAATGCAAACAATGACAGTTAGTGAATACCCTGGGCCACAGCTGTTGGGAAGCCATTTTTTATCATAATTGTTTGGAAGACT
AAGGGCATCACTACTTCCTCTCTTAGCGGTGGGAACAGCAAGTTCTGATGGTCAAAGGTTAGGTAAAAATTAATCCACACTGCAGACCCACCCAACAGGT
GGCAAGGAAGGTGATGCCAAGGAAGGACAGGGATGYCGGGAAGGGGAGGACTGGCCCCCTTGAGGAGTGGGAAAGGAAGACGGAGGGAAAGGGAAGGACT
CATGTCAAAGAGACACAAGTCAGCATCTGTTTCCTCATTTATACTGGAAGGCCGAGGTTTTATGTCACAAGGAAAATGCTTTTGATTTCCTAAAGCTTTG
CCCACAAAGAGAAAATGCTTTGCTATTAAGAAGAAAGGTCAGCATTTTGTAGTTATTTATGGCTCCTGTTTATATACTTTTGTATTTTTTTAAATAAAAT
CCAAAGTGGAGTATAGAGACCCCATAGGGACTGCAGAAAGCTCTATACATACAGTGTAAAACTAAATTGTCATTTCAGAGGGCATTTACAAGGAAGCCAC
AGAAAGGAATACAGCAGTTCTTTGGACTGAAATGCACATCCATAAATATAAAAAGACACCAGAGCATAAGTGACACTTAAAATAGTTGGACATGGAAAGC
AAGGCAGTAAATSTCACTGCCTAGCCACTGTTCTAAGCCATAGCGAGCACCCAGGCATGGGCTTATTTAAAGACGCTAGATAGGAAATGAGGACCTTGAG
AAAACGCACTCACACTTGCTCCTGCCCTTTCCTGGCAGCAGGACACAATTCCCAGGCCCMTGTGCCCTCCCTGCCATGTCCAACAGGAATGATGTGAATG
AGTTTCATGTCCCTGAAATAGACAGGGATTGAAAGTCCATCAGTGGGAAAACAAGGAACTCTACTCTTTCCCCAATAAATCCTTCCTCAGCCCTGAAACA
GCCCTTGAGAATATCTACTCTTGCTCTGTGCCCCCTTGTGTTTGGTGGTGCTATAATGGCAGTTTTACAGCACTATCAGAGCCCAGAGGCTGACTGTAGA
AGAGAGGGCAGGATTATGGCCTAAGGCCTTGATGTGATCTATGAAGGGAGAGGCAGACCCTACTGCCTTGGTTCCAAGCCAACTTTGTAGGAGACAGAGG
ACAGGGCACCTCAGTCAGAAAAGCTGTTTCCAAATCCTCAGCATCTGATTSCTCATAAATAAAGGCTCTTGGCCCTGCCTGCTTCTTGAAGTAGAGGGAT
CGGGTAAGTTAAGATTTCCCTTAGGGACCAGGTCCTGGAAGCAGAAATAAAGAAGGTAAATTCTAGCCCCAGTCAACCTACCGTTTTATTAACTTACTCA
TTTTATGCTGTTTTTACTTCCTCTCTGTATTTGCTAATTAATTTAACTTACTTTTTAATTGAGTTCCCTTTGACAAAACCAGCCAATCTCAGGTAAATTA
AGCAAGAAAAAGGAAAGAGTATCTGCCCACCCAGCTCACAGAACTAATTATAGTAAGGGTTAAATGAGATGCCATATGCAATGTGCCCAGTTTAGTGCTT
GCTACAAAGTAGATGCTAATAATTGCTAATTTTTTTTTACCTGTTCTCTTCCTTGTTGAAAAATCTAAGTTCATTCTCTTTCTCACTGTGGTCTACCACA
AGTTCTTCCATAAATTATAGGATCAGAACTTGATCACCATTGTGAGTGTAAATTACTGACCAAAAAATCATTCAGGAGACAGGTGCCATATGGGAAGTTT
CATTCTATGCCAAGCTCTCGATGGGAGCAGAGATGTGCAAGGTGTGGCCCCTGACATCAAGGGACTTCATATCTAGTTAGAAAAGATCAACACAGAAGCA
ATGGTGAGAAAGCAGTATGAGCAGGTGAGAAAGGGTAATAAAGAGAGTGCTGAATACCTGCTCTATGAATTTATGATCGAGGAGGAAGGTTGTAGTGCTC
CCCTGGAAATTCTATTTCCATCTAGCTGTTAGCAGCAGCAAATCCATACAGGTCTGCAGCAACTTAATTCTTGCCTCCTTAGAGGAATTAATTCATTCCA
GGAGCATAAGGCAGAGTGAGAGACTGAGGCAAATTTTAGAGCAGAAGTGAAAGTTTCTTAAAAATTTTCAGAGCAGGAACAAAAGGAAGTAAAGTACATG
TGGAAGAGGGCCAAGCCAGCAACTTAAGAGATCCAAGTGCTCTGTTCAGGGTTGGCGTGGGGTTTTATACATTGGAATGATCCCATGGTTTGTGTCCTGT
CTCTTCTGATTCTTCCCTTGGGGTGGGCTGTRGGCATGAGCAGTGGCCTGTCAACACTTGGGAAGGGCCACGTGTATAGTGTGTTTACTGAAGTTGTGGG
CATGCTCACTTGAGGCGTTTTTCCCTTATCAGTCAAACTTTCCTAGAGGAAGATCGTGTACCAGTTAAACTCCACCATTTTGCCTCTTAGTGTACATGGT
TGAGCCCACTGGCCCAGCTCCTGAGATTTTATCAGGAAGCTGCTGATCACCAGCTTCAGGTGTTTTCTCCTAGGAGACTGCCTTTCCCTGGCACTGGATG
CAACCAATTATCATTTTAGAGAGACAGTTTAACCACTGCCTGACCATCACCTAATGGTTGCSTGACATTGCTGAAGGGGTGCCCTCTTCTGCCTTGCTCG
TGTCTGCCTAACTACCTACTCCAACAAATCCATCTAACCCTATGCTCTCTACTGGGGTCCTTTACATGCACCTTAGAGCTTGCATAGCACTGTAGTTGGG
AGCAGCCTCCGGAGCCAGAATGCCTGGCTCTGCCACTTGCTAATAATTGCATGACCTTGGRCAAATTATGGAAGTCCTCTCTGCCTTTGATTGTTAAAAT
GGAGGCAATAACTGCATATACCTCCAGGGTTTTTGAAAGGAATAAATGAGGCAGTATATGTAAAGCACTTAGAATGGTGCCTTCCCACATAGTAAATGCT
CAGTTAACATCAGTCATTCTTATTTTGGTAGTACTTGCTCTTGCCCCTGGCCACTGGAAGTGGAAAAATCAGGAAAGTTAAGAATGCCCTCAGAAGCCAG
ATCCTGGAAGCAGGAATAAAGAAGAAGAATTCAGGCCCCAGTAAACCTATCTTCTCATTAACTTGTTCATTTTATGCAGTTCATATTTCCTTTCTCTATT
TGTTAGTTAATTTAACTTTTTAGTTGAGTTCTCTTTGATAATATCAGCCTATCTCCGAAAAATTAATCAAGAAAAAGGAAAGGACTTTCGCCTACTAAGG
AATCAAAACTAATGAAAAGAGAATGAACTTTGAAATCAGAGTTGCACTATGATCAAACCACATAACCTTAATGAGTCTGCCTTTCTCATCAGTATAGTGG
GTTGATAAACTGACCCTCAGGACTGATTTGAGAATCAAATTAGATTAAATATATAAAAACAGTTTGTAAACTGTAAAGTACGCTATAAAACCTAGTTGTT
GCCTTATTCCTAGGGCTAGAAGCAAAGATTGCTGGTAAGGTAGGATTTCTGGGACCCCATGGAGAAGGCAGATATTCAGGGAAGATTCTGGACCACTTGT
GAAGCCTGCCTTTCTAGCCAGGAGCAGTTTCCTTACTTGTTCTTTGCTACACACTGAAATATAGATGGTATTGTTTCTTTAAGGAACCTGGAGGTTGGGG
AGATGCTGGCTGTCCTGGAGAGTGCTGTTCATAAAATGCAATGACCTCATGGCATCTGAGTAGACTTCATGGGGAAATGGGACCTAAACAACAGATGGGG
ATTAGACAGGCCAAGACAGGAACATAGGTGAGAATTAGACATCTCTCCATGTGTGACTGCCCAACAGGTTGTTTTTGCCTGCTGGCCAGGTKGAGCCAAT
TTATTAAGACAGGGGCATTGCAGAGCCAGCTGAATGGGATACCAGCGTTTTAGTACTCAAAKCAGTTCCCCCAAAATTTGGAGTCTAGGGTTTTTCAAGG
ATAGTTTGGTGGGTTAGGGAATGGGTACAGCTGATTGGTTAGGGATGCAATCCTAGGGTTGTGGGAAATGGTCCTTGTGCATGCTCAGTCCACTTCTGGG
TGGGGCCACAGGACCAGTTAACAGGTCCAAGAGGAGTCATTGATCATCAGAAATGCTGGTAATCATTTACATCTTCACCTTAGGAGAATTCAGGCTCCTC
TCATCCTCCTAACCTTGTGGTGGTCTTTCATTAACTTTGCAAAGGCAGTTTAGATTCAGGAAGGGCTATTATCATTTAAACTATAAACTACATGTCTCCC
AAAGTTATCCTGGCCCAAGCCCAAGACTGATTAATGGCAGTTTGGAGGCAAAAGGCAAGATACGGGTTGGTTAGATCAGATCTCTATCACTGTCTTAATT
TTCTCACTGTTATAATTTTTGCAAAAGCGATTTCACATGAAGGGGAGGAACACCAAGCAAAGAGATAAGTTCCTGTTCTAAGTCCAGTACTTGGCCTGTG
GAGTCTACTTGTATTCACTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCGTGCATGCAAATAGTTGATTATAATAGAATCAAAATACACGCAGG
ATTTGTCTCCAAGATATTGTCTACCACTGTTGGAGGTGGGGGGGTTGTAATCTTTCACCTTTTCATGTGCCACATCCTGCTATGTTTTAGAAAAGTTTGG
GAAAGTGGAGTTCAGCTAATATTGTGGAAATTAAGTGACTCTCATCTCCTATAATTAGCTACAGTTTTTCCTTTCACAAAGCAAGAGAATCACTATGCAG
CTTCTGCCTTATAATATCTTTTTGTCTTCTAGACAAGAGTTTTGAAATCATCCCTAACACACATATGCACGCACACACACACACACCCCTTCCTCTCCTT
ATTGCCCAGTGGTATTGGCATTGATATTGTTAATACAACCGTAGGTTCCCTGAAAAAAGCAGCTAATTTGATTGTACTTTGTTCTTGAAAGGAGAAAAAG
AGAAAGGTATGGTTTTCTTTGGGGCACCAGTTTGTACATGATTTTCTTAATTTCAAAAATATACCATACAGATACACAAGAAACTTGGAATACTGGTTGC
CTGTGAGAAGAGGAACCAGGTAGTTGAGGGAGATGGGTGTGAGGAAGACTTTTCACAGCATTTCCTCTTGGTACCTTTTAAATTTTGAATCAAGTTTATT
TCTTGACTATTCAAGAATAGATGAATAGAATGGATGCTAGAGATGTCGGTAGCAGAGGCAAGGTGCAAAGGAGGGAGGAGAGAGGGCAGAGAGAAAGAGC
TAGAGAAAACGAAAGAAAGAGAGTGAATAGCTGGGCTCTAGAAATTAACATAATAAGCCTCTGACTCTTGGAAACTGGAGAGGGTGGAAGAACATGGAAA
ATGTCAATCAACTCTCAAACAATTGTTCAGTGACATGGACCATATTATGACTATCATCAATCCATAGGAATCATTAAATCTATTCTCAAAATGCAATCTA
ATATTCTCCAAAGAAATATAAAATTATTGACGAAGGTTATAATTGTAAATTATTTTGATCAGATTGAATTACCCCTCCCCATTTTCCAGGGTAAGTCTCA
GGGTGAGGTCTTCAGAAATAGTCATGCCACTGATGCCTCTTTGAGTGGGAACCTAAAGTGAATTAGGATTGGGAACCTATATTCTTTTGCACTTCTACTC
TGTGCCAAGAATTCTGATATCTTGACCATCACAGAGCTTACAGATTTGGGTTTTCCATTCCACAGAGCCTCAGAAACACGAGGCTAACAGCTTGGAAAAC
AACTTCCCTTTGCTGGTAGAAAGAAGGCCGGGGAAAATAAGCCAGAATCACATCTTGGCACGAATAAAATCCCAGTAAGGAACACACTGGTATAGTTGGA
CTTGGGGTTTTTGTGTAACTGTTTTCATGAGCATTCTGGGAGAAACATTTTGCCAGAACATCCCTGTGCTAGGGTTATAGGTAACATTCCTGAAAATAGA
AAAGGATTCTTGCTCTTTTTGAAAAATTGTATAGTTTAAAAAGGATTTTGCTGACCATCTGCTGTTCTCTACCCATGAGAACCTATCAAAGCAAATCTTA
CAAAATAGATCAGGCCAGAGGTAGGGTAGGCCMAAGGAGAAAATGATGATAACAATAATTGTATTCGTGTTCTAGAAACATAACCTAGTAATATGTCTAT
ATCTGTTTAAGAGTTCGAACTCTTTTATCCTTCACCTTCAATATTTTATCTCTGAAAGGATGTAGAAAGACCAGTTTAGCTCATAAAACATCATTCTATC
AGGAATCTTTTTATGTGAAAATCCATTATGATTATGGAATTCTTCGTTTCTCTGTTGGCAGTGCCTGCTCAAAAATAATGAGCTCCCTGTACATTTTGTT
TCCAAGGAGATAAGACCAAAAATTCATTCAACGCCCTGTCTAGAACCTGGCAGGGACCATTGTGTGTAATGTGTGACTCTTTGAAGTGGTATCAAGAGAG
ATAAACCAGCACAAGCCTGTGTGTCTGATGTCCTGCCAGCTTCCTGAGCCCAGAAAAAGAATTTAGGCACAGAAGAAAATGACCATGGCACTCTTACATG
CACAGTAAAAACTGCACCTCCTCTTAATTCTTCTCCTTGTAATCCTGTTGTTCTCTACATTAATGAACTTTCCTGGCATCTCAGATTCTTACTGAAAGGC
ATGTTCAGAAACTGGTTCATGATAGTTCGTAAAACAAATACCAGGGAGATAGGACCATGAGATTTTAATGAAGAGCTTCTGCTAAGCACACTGAAATGAT
GCCAAAAATGGTATAACTGCCGAGATAAAAATATTATAAAAAGTTAAATTGGAGGAAAAGTGAAGGAAAACAATGCTTTTGTTAAGCAATCATTACTTTT
TTTCAGGATCTAAACATCTTTTATACAAACCTTGATTATGAAATGATGGTTTTTGGTTCATTCATATATAAGTATTGCTTATTCAGATGATAATAATTGG
CTAACTAAACTTAATTTTAAAGAACTTTTAGTTTTTTAGTCTTATTGTTGACATAGCAATGATAAACTGGTTGTTGCCAAATGATAAGAAGGATTTTTTT
TTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTAGAGTGCAGTGGCACAGTCTCAGCTCACTGCAACCTCCATCTCCCAGGTTCAAGCG
ATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGGGTTACAGGCTTGTAACCCTGGCTAATTTTTGTATTTTTAGTAGACACAGGGTTTCATCGTGTTGGCCA
AGCTGGTCTTGAACTACTGGCCTCAAGCAATCCTCCTGCCTCCGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCCAGTGTGCCTGGCCCAAGAAGGAT
TTTTTTTTAATTTGAGAAGAAATCAGCATTCAAATAAAACAAACTTACTGCGTTACAGACTTTGAGTTGTCTGTAGTATTTAATGGATAGACAAGACACT
TATTTTCAGAGCAAAARCTGGTTGGAGAAAGGGGGAAAATTGTTCAAATGTCATGCAACACATTCAAAGAACTGTAGAACAACCCCGTTTTCTGAGCCAT
CGGCAATTTCACCTTGGATGCTCATGTTTATCACTTTCCCGGTCCTCCAAATCCTGAGGTCTCAGTGGATAGAGCAGGTTTTTTTTCCTTTCTTTTCACA
TGTTCTACTTCTTGGTTTGAGACACGAGTTTCAAGACGTGGTTTGAGACTTGGTTTCTTTCTTCTTTAATATACTTTTGTTTTGAAATAACTTCAATTTT
ACAAAAGAGTTGAAAGTGGAATACAAAGAACTTTTTCKACCTCATCCATTCGGGAGTAAGTTGCTGACATAATACCTCATTGCCCAGTGCATATTCCTTC
AAGGTTTCTCAGTTATCCCAATAATGTCTTTAGTAGCAAGAGAATTCCTCCCCAAATCACACATTGCATTTAGTTGTCATGTCCCTTCTGTTTCTTCAAA
CGAAAACAGTTCCTCGGGCTTCCCTCAATTTTTATGACCTTAACGCTTCTGAAGATGATAGGCCTATTATTTTGAAATATGTCCCTCAGATTGGATGTGC
CTGATGTTTCCACATGATTAGATGAGTCTTTGTTGTGAGACTTTGGCAAGAACATCACAGAAGTGATGCTGGGCTCTTCTTATCACACCCAATCACATGA
TTATGATTTCCTTTATACCATGACTGCTGATGCTAATGCCAGTCTCTTGATTAAAGTGGTATCTTCTGACCTTTTCCATTGCAGAAGTTAAGTTCCAAAG
TTTTCCTTTGGAATTAATACKTCTTTTGTGAGGAGGTCCCCTGGGACTGTGGCAAATATCTCATTCCTCATTGAACTTACCTGCATGAACTTGTGGCCTC
CTGTCTTATCCAATGGGCTATAATCTATGCTATCCTAACTTCTTTTATTTTAAAGTAAAACATTCCSCAGATGCAGCCAATGTGACTTTAAGAWGACTCA
TATCTTTTGACACGTTCATATCATTCTTTAAGAACTTCATTACTTTCTGGCACAAGAAGATATTCTAGGTTCATCTTGAACTTTCCCTGCTCCAGCCCTA
GAGAATAGTATTTAGACACCAAGATTTCAACATCAAGTAAGTTCATTGCTACTGATGTGTCACTGCTCTCAGTACCCAGAAGTTAAAAAAAAAATGCATA
TATCTGTGCATGTATAGCCATATACACACACACTAATATAATCATTTCTATATTAATCTATACATTGAGTCATGAGTCCTCCCTTGTATGTCCAACTCTT
ACCCAACACCACAGGATTTATTCTTTTTTCTTCTTCCATATTTGTAATTCTCTGGCACCCACTATCATTAACACACTTTCTTATGCGATCAAGCCCTCCA
TATAAACAGCCTCCTACCATTGCTGCCCCCACCCCCACACAGATGCTGTCCTCGCCTCACTCAGGTTCTACATCCCTCCTCAGGTCACCACTGCACCCCT
GGYTTAGATGCCCTTTTCACTCTGTTCAGCCTCAACATCCCATCCTGGACTACCACGGCTCCCTGTCTCCCTATGAACATTGATGAACATTGTCTTCTTT
AGCCTTGCSTAATGGGTTTCGACTGAACCATTTAAGAAAAGAAAGCAAAAGTATGAGGAATTGCTGAGGATTTCTGAACAGAAACCCTATTGTTTCCAGG
CTTAGAAGCTAGTCGGTGAAATGGGTAGAGAACAAGAGGAGTAGGTGCTGGGCAATGCCCAGCCTCTGTGCTCCACGGTGCAGGAAGGATCTGCTTGGCC
AGATCCCTGATTATTGCCTTCCTGGCCAGGCACTTGCTTACGTCAAATCTTACCTATCTGCCAGGCTGGGACATGATCTCAGGTCTTACCTTTGTGACTT
TGAATAAGAGAATGCTGTCATTGGTACCCCTTCCACTCCCGCTTTCTGGTTCAGGGGTATTTAACCTGGGGTCCACAAGCTTTGGGAACTCCATAAGCCC
TCTAATATATGTGCAAATATGCTTTTCTCTGGTGAAAGAATCCAGAACTTTATTSAGTTTCTTAATAGATGCATTACCCAGYAACATTAACTACTTGCTC
TACATCAAAAGGTTGACAACAAATTCGGTCTTACCAATAATTAAAGAAAAGCAAATAAAATGAAATACTATTTGCCATAAATAGGTTGGTGAAGATGAAA
AAGTTTGTGAAATCTGTATTAACTTGATTGCAGCTGTAACAAATTACCATAGATTTAGTGGCTTAAAACAAGACACATTTACTCTGTTACAGTTCTGGAG
GTCAGAAGTCCAAAACAGATCTTACTGGGCTAAAATCAAGATTGACCAAGATGTTTCCTTCTGGAGGCTCTACGGGGAAATRTATTCGTCTTTTCCAGCT
CCTCAAAGYCACCTGCATCCCTTGGCTGTGGCCCTTCTCCCATCTGCAAGAATGGCAGCATAGCATCTTCACATTTCTCTCTGACTCGCTATCTTCCCCA
TTATAAGGCCCCTTTTGATGACATGAGGCCTACTTGCATAATCGAGGATAATCCCCCATCTCAGTATTCTTTCTTAATCACATTTGCAAAGTCCCTTTTG
TCATGTGAGGTAGCATATTCATAGGTTTCRGGGATTAGGGTGTGGATTTCTTTAGGGGGGCAGTTATTCTGCCTATCAGAAGATCAAAGAATTAAATAAT
ATATACTATCATGCATTGTTGCCCAAAACGTAAATTAGGATAACATTTCTGAAGGGCAATTTAGCAATGTATATCAGTATTTTCAAATGATACCTACTGA
GCTATCAGTGCTACTTCAGTCATGTAACCTAGGGAAATATTTGGTCACAGAGATGTATGTACTAGGAAATTCACCACAGCGTAGTTTATATTAGTGAAAA
ATTGGAAACATGTAATTATCTATAAAGAGTTGATTAAAGATTCTTTTTTTTGCTTCATAATGGTGCTGATTTTTTTTTTATTTCAATATCTTTTGGGGTA
CAAGTGGTTTTTTTGTTACATGGATGAATGAATTACATAGTGGTGAATCCTGAGATTTTAGTGCACCCATCACCCATTTAAAGAATGAGGTAGACTTACA
TTCATTGACAAGAAAATTGTCCAAGATTTATTAATCTGCCTAATGATGTGTGTGCATATGTGTGATTGGAAAGAGAGACATTCAGATCAATTACGTCTGA
GAAGTGGGACTTGAGGGATTTTTGAATTTTTATATTTTTGTGAGCTTTTAGTCTATAATGAACATGCATTGGTATTTTTTAAAGTAACAAGTTGGATCTT
TTAATTAGAAAAGAAGGTATTGAATTCATCTTCCTTGTCTTGTGAAAATGGCTGCTTTCTTTGGGGGTAAAAATATATCTTGCCCAGGCAGTTAGTGGTT
TTACTAGGCCATTTGTTCTCAGCATACAGAAACTCAAATGATCTCATACCCTCGACCAGGGGTTGGTCCTGAAGGCAAGTCTAKACCACCACCCCTTTAT
AAATAAGATTTTAGTGGGGCACAGCCCCACCCATTTGTTTATGTATTGTCTATGGCTGATCTCAAGTTACAATGGCAGAGTTGAGTAGTTGTGACAGAGA
CCATATGGCTCACAAAGTCTACAATATTCACTATCTGGCCCTTAAAAAAAAAAAAAATTGCCAACTCCTGCTCTGGCCTTCTTACCAACAATGACAAACA
TCTTTTGACTACTTTGTTTTTAATAATTTTTTGACAAGAGTGAAGAGTCAGATGGCAATATGTAAACACCTTATTGTAAACACTGTTCATTCCCAATTCC
CACCCCCACCATCATAATTCAAAAATAAATTTTAAGGGGAAAAAATCTCATTACTGTAGGAAAAGGTTGGTTTTCCTTCTYTATATTCTAGGGTTTCTCA
GCTTTGGTCTTTAGAGAGATCTAAGAGCAAACTCTAATGAAATGCTAATTGTACATTTTAAAGCAGAATACAGGTGCCCAGTAATGTTACTGGATAACAG
GCATAATTTCTGTCCCACAGTAAGCGTACTTGCTCTGTCCACGTCTGGATTTAGGCTTTCAAATCTGCTGTCCTTGGAATGCCTTTGAGAAGCTCTGTGG
AAACTTTAGTTCTCACTTCCATTCGTTATGCAGAGATCACATACACATCCCTCGTTTCACAGAGATCATATACACATCCCTCATTATACAGAGATCATAT
ACACATCCCTCGTTATACAGAGATCATATACACATCCCTCATTATACAGAGATCATATACATATCCCTCGTTATACAGAGATCATATACACATCCCTCAT
TATACAGAGATCATATACACATCCCTCTTTTGATACACATTTCCCATTCTAGACCCTCCACCTTCATGCAATGTGAGTGCTATGGAAAATAGGGAAGCCC
AAAAAGAACTGATTCAATCAAGTTATCAATTCCCAGCAGAACAGCATGTGCTCTGCCTCATCCAGGTCTAAATTGGCCTGAATCCCAGGTTGCCTAAGGA
GACTGCATTGGTTTTAGGGCTCCTAAGTCCATGTGAATCTCGGAAAGGTCAGAATTGGACCCAGGAATCTGAACCAGGCCACTTCTTCCTTAAGCCATCA
GAGAGTCCACTAAATGCTCCACAGGAGTCTCTGGAGTATATAAATCCAAGGCAAACTGAGAACCACACCCAAAGAAGATTAGGAGCCAAAACAAATCAAT
ACTAGAAATGTAGGTTGCAAGACAAATAGCAGGCATTTGGACAACTCTCTGCCCTTCAGATGCCCATCACACTGATGCTGTGACGTTTCCAGTAAGGGCT
GTGGATGGATTTCTGATGTTTCTTTATAGGACCTATCTATTTATGGGTCCTTGAAAAACCATTCGCTCTTTGGGCTTGGCTGCCAAAGGCCAGACATCAC
TTGCCAGAGCATATTCTTATCCCAGGAGCGAGCCAGCCAGATCCTTTCAGACACCTCTGTCCTTACTCCTCCTCCTGCTCCCTTGCCATGGCTCTCATCC
CTACTTCAGCTCACCACTCAACTCTCCCCCGTCTTTACTTCCCTCACATTGTTTGTTATTTTCTTTCCTTTGTTGAGAAGTTTCTGGAGCCTCAAGACCC
AGGAGACTAATGTGGGAATAATAAATCCAGGAAAGGTCTTTGCGTTCCCCTGGTAGCTCCACCCCCACTGCTCACCGTGGAATTCCTAGTCAGCAGCGGC
TCCTTCCTGTGGCTTGCAGCTGAACCCTGTGCTGTGCCCAGTGAGGCCTCCCGGGATACGTGCTAGGAATATTAGCCATTCTTCATATCCACTGCTATGC
TGTGGCTTTGGTTCAGCAGAAGAGAAATGAAATGGGATGTAGACAGGGCTGTGAGCGAAGGTTCTTTTTTTGTGTTGGGGTAAAGGGCGTTATTTCTTTT
GCARAGGCTCTCACCCAAAATCAGAGCAAAACTTAGCCTGAGTTCCTGAGGCATGCTGGCTCGGAGCTGCTGCTGGCTTTTGTTTTTCCTCCAAGCTGAT
CTGTGTATTTTCTAGCTTGCCTTTCCATTGGCTGGAGTGAGGGGATGAGAACAGCTATATCACTCAAGAGAAGGGAATATTCATAGAGTCCGCAGGTTTT
CCTCTGAAACTGTTGTTTTCTTCTCAGAGCAGTAGCACCTTGATTATAGAGCGCTTCCTTGAAAGTCCTAAAATAATGTCCTATTTCAGACCAAATGTGA
AACATCAATTTCATTCCTTACAGAATCTAATCTTGGTGTGCGTGATAGATAAGTATACACAGAGAGGGGAATTTCTGACCTAGGACTCTCCTCAMAAGTA
TGGTATGACCCAAGTATGATCCACATTCTAGAGTTCATTAAAAGGCCATCTCATCTGTGGATTGAAATTACTTCCTTAGCTCCAGGCAGCCTGCAGCCAG
GCCTCCCTAGGGTCATCCTGGTCTTCCCTCCTGCAGGCCAGGTGGCACCTGCCAGCAGCCTGAGGGTAGAGTCAACTAGGGACTTATAAACCCAGAAAGT
TGAAACTTTAAAAAAAATGCTGATGTGTTTTTAAAAGGTATATTTTATGCCAAGAGCCTACTGGCAGAGAAGGACTTATGGGAACCCTGTGTATTATCCT
CATGAGGTAGGTTCAATTCTGATCAACAGTACTGTGAACTTTTAAAATTGGACTAATTTCCTAGAGCCTGCCTGCCTGCTACCCCCTAGAGGTGGCCCAG
TCAATCCTGGAGAAGCATGCTGTTTAACACGGCCAAACTCTATCTTACAGTACAGTCACATTTTCATAGTTGTGTGTGCAAAGTATCAGGAGCAGGCATC
TCATCTTCTTCACCTGTAAGAGAATAACCAAGTCCTAGGGTATGGGTGAAGGTAGTAACCACACAGTAACCCAATCATTTTGGAAAATGCAAGGCCTTAA
TSAAGTCATAAATCTGGATGGAGCTACTTTTCATGCTGAGAAATATATCAAGTTCTTCTACCAGATGCCCAGGATCATGGGAGACGTTAGCATACCCCCT
GCCAACGGAAACCCAAAGCTTACGCTAGGGGTGAAGAGACATTTGGGGAATGGAAAATGGGCTTGGATAGTTTTATTTTTCCAGGAATGTCTTAAAGTTA
GTTTTCTTTGGGAAAATGTACATGGGAATCATCTTGGCCCAGTTATTTGACCAGCTTATTGGGAGGTCCCAGAAATCGGAGTGAAAATTAAAGTTGMTTG
TCTTCTCCCACAGCCTTCTAGGGTCCAGCTGACAAATGGAGGGAGTAACTGAGTTTTTCCAATATGAATTAATCATTCCTCTCAGCCAGCTGCTTGGTGC
CAGCTCCCACTCCTTCTAAGCTCTTTAGCGACCATCTCTGCCACCCAAGAGAATGCCAAACCAGAAATGGAAGGAGCCAGAAAAGGCACTGAAATGACTT
CCCTACTTTTGCTCAGTCACCCCATGGCCTTAGAGTGAGGCCCGTACACACCACATACCACGAGCAAAATGGAGATCCCTCTATAAAATTTACAGGACTG
AGTGTTTTCCAGTTTTGGAAAATTAAATTAAGGAAAGGACTCCCAGACTGACTACACCAAGTGCCAAGTTTCATCCCGACACACATCATTTTTATAGTAA
GTTTAACTCTGTGAAAAATAGAGGATTGTAATGAAAATGCTGACAGGCCTGGAGCCAGCTCATGAAGTAATAATGCCACATCTTTCATACTTTTACACAG
CATGTCSTAATCAGCCACAGCTTTCTTTTCCTTTAGAAAGCAGTTAAATACGTGAAAATTCCCAGAGTACTACTTTTTCTCCTCCTCTTTTAGATTGTAT
ATTCTTATTTTCAGAGCATTCTTCCCCGTGAACTGGGTTCAGTCCATTTACAGCTTTTACTCTGTGCAATCTGTTTATCAAGCTCAGGTGCCTTTTTCTG
AGCTGTTTGGCTGGAGAGGGGGAAGAGGAGAAAAAACGTGCACTCAGAATTCTTGCTTCTGCTTATTAAGGCTAGGAACACATCAAAATGAACTTTGGCT
GTGTGGCTCACTCAAAGTGACTGGCAGCTAATGAATGCCTGAGCTGGCTTGATCTATCCTACAAGGAAGCCCACAAATTAAGCCACTGGCCAAAAATCTT
GGTGATTTTCAGACCTTTGAATCAACAAAAAATCCACTATATAATGACCCTTGTATTGTGAATTCAGAGCTTCTTTAGAGACAGGTGCCACAAAGGCAAC
CTTATGCTACCAGTATTAAAGTTAGCATCTTCTGCTGAGGGTGCGAGGAAGTGAAGCCAGAGATGCCAGGGCTCCCAGTTTTCTTCCCCCATGTCCTCAT
CTGTCCAACTCAGGCTGTTTCCCTGAGTCAGGCTGTTTAGTCACAGAAGCCAATGTAAAATCAAGAGACAAACATGCAGAAAGTCAGTGAAGTCAATGGG
AAAAAGCAAGGATGTCAATTGGTGGCACATTATAGGTTACATCTGGACTGATGCCCTGTCCTTGCTGGAGGCCATTGATTCTGTCATAGTTGGAGCAAAT
AATGAGGGGAACCCCCTGGTCTTTAGTGTTTCCTTTTCCCTATTTCATGTCAGTACTTAGGGATGTTAGACCCATTCAGAGAGATGTCTTTTCTGGTGTT
TAAGATTAAAAAAAAATCAATCACACATTTTTTTTCTCCTATTATAACTTTGAATATTTTGTTATATTTTTCCAGTCTCTTTTTTTAATTATACTTGAAG
TTCTAGGGTACATGTGCACAACGTGCAGATTTGTTACATATGTACACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTAACATTAGGTAT
ATCTCCTAATGCTATCCCTCCCCGCTCCCCCCACCCCACAATAGGCCCCGGTGTGTGATGTTCCCCTTCCYGTGTCCAAGTGTTCTCATTGTTCAATTCC
CRCCTATGAGTGAAAACATGTGGTGTTTGGTTTTTTGTCCTTGCAATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACAT
GAACTCATCATTTTTTATGGCTGCATTGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCGTTGTTGGACATTTGSGTTGGTTCCAA
GTCTTTGCTATTGTGAATAGTGCCTCAATAAACATATGTCAATCACACATTTTTAGAAGGGGGCAACTTCATGTATAATTTGGTTTTCTTATTGGGTACA
TCTGTCCCATTYTAAACTTTTCATACTTTCCAGMTATTTTTTAAAAAATAGATGAAACTAGGGAGAGGAAATCTTACACATATGTGAATCACACCTGGCT
TTGGCTCAGTTTAGAACCACTTTAGGCCTAGGAATGGGGCCTAAAGACAATATTTTCTTTCAGTGGTTAAGAAGGGTTGATAGAGAGAGGCCTTCTGCTG
CCAGAACTCTCATTAGAAAGCAGCCTTGCCAAGTGCTGCRTCCTCCTCAGCCACCTCACTAACCCAAGCCCTTTAATAGCTGAGGCCTGGAGAGGAGACA
GCACTGTCACTGCCTGCTGATGGCCTCTTTCCTGGGGTGGAAATGCTCCGCATATACGTAGCTGGGAGGGAAACAGAAAAGAGAGATGCTAGCCCCCTGC
CTTAAATACTGTGAACTTCTTCGTTGAAGGAAAGGGAGGGTTGGGAATGGTTTATTATTTGGCCTCTCAAAGGTGTGGAATACATTATTAGCACGTGTTT
TTTGGTGTCCTTGTAAATGGCACACAGAGAGATTGCTTGCCTTCAAAAACCAAAAAAAAAAAAAATGACGGATACTTCATTTGTTTTAACAAATGAGAAA
TGTCCGTGACAGAAAGGAACCTGTTAAAAGCCAGGTTTTCTCATTAGCAGTGAAACATGGATAATTATTCACTGGGAACATACACAGTGGGGATTCATGT
TAAATTCCTTATTTTGACTGTTGCTGCTGGCAATCCATAGAGAGCACTGTGTACACACAGAGACATGCACATAAATATGTACATAAAATTACAGGGGCCT
GTACTACATGTGCTGAGAATACCAATTCTGAACACAAAGTTTTTATAAAATAAGCTACGTATTTAGTTGAAAGCCTTGAAAAACAGATTAGTGACAGAAA
AGGCAGATGGCTGACAATTTTGTTCATTTACTTTGGTTATAATTAATTTATTTTGATCTTTCCCTTTACTGTTGAAAGTGGACTTTCCTAAAAGTGTTTY
CAATTCAAGATGAACAGTCATGCTTATTAGAAGCACATTCCCTGAGGTCACTGTCCTGATGTGAAGGGAAATACAGTCACCTCTACAGCAGAGGGACATT
GCCTCAGGAATGAGAGGCTATGTTAGGATTGTTGTAGTTAGGATATACATTCAGCAACTTTTAACAAAGACTCCCAGCAACAGTAGCTTAAAGAAGGCAG
AAGTATATTCCAATTTCAAGTAACGGTCCAGAGGAAGATGTTCCATGCCTGGTCTGACACCATATCCTCTAGAGACCAAGGCAAAATGTCTTTAATCTCC
TCTTGCTCTGACATCTCTGGAGTGTTGCCCTTATCCACCTAGGCCAGGATGGCTTGCTGTACATACATGTTCTCAACAGCAGGATAGAGGAAGAGGCAAG
AGGAACAAATCCTTTTAAAGACAGGTTTCAGGAGGTGTGCACAGCCCTCTCCCTCTCTACTAAATGTAACCACATGCTCCACACTTTCTTGCAAGGAAAG
TTGGAAAAATCTCTATTCCAAGAAACTATGTACCTCAAGTTCAGAGGTTCTTTTCCAATAAGAGGAGRACAGATATGAAGGGACTAGCAGATTCTGCCAC
ACACAGCAACCAACCTAAAGTTGTCAGAAGCAAAGGTATTGAGCACAAATGAAAGTAATCTCTGAATGCAACAGAGCTGCATGAATGAAAGTGAACCTAC
CAGCAGGAATTTTTAAGTTGGACAGATTATAAAATATTTGGGAAAATATGTTTAAATAGGCTGGTACAGCAATTGTTTTAAACTTGTTAAAACTTTCTAG
AAAATAGAGCTGAATAGGCAAAGTATGTAAAAGCAATTGTTTAGACACAGAGTCATTCCTGATGATTTAAACAGTGCAAATGTGTTTTTCTTTTTATTAT
GGGTAATTTCACATATATACAAAATAAACCTGATGGTATATAAGAGAACCCCCATGCCCTAATCACCACCTTCTGCCATTCTTATTTCATTTGTACTTTC
ACCTATGCCCCACTCCATCCTACTCAATGATTCTTTTAGGTAAAATGTATATACATTGAAATGCGTACATCTTTTTTTTTTAGATGGAGTCTTGCTCTGT
CGCCCAGGTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCTGCCTCCTGAGTTCAAGCAATTCTCCCGCCTCAGCCTCCTGAGTAGCTGGGACT
ACAGGCGCCTGCCACCATGCCAGGCTAATTGTTTGTATTTTTAGTAGAGATGGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGA
TCCACCCACCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCTGGCTGAAATACATACATCTTAACCGCACAATTTTAACAGACACA
CACCCATGTATTCACCTTGTCTAACATATATTTGACTACTTGATTTTTTTTCTAGTCTTTTTACTCTCTCTGCTTTACTTTGGCTAATTTCTATTATTAT
ATCTTGGATTTCACAGATCTTTTTCTATAATGTTTCATCTGCTATTGATCCTATCCAGTGAATTTTTTATTTCAGAAAATATATGTCATTTCTAGAAGTC
CAATTGATTTTTTATTACTTCCACTTTCTTCCTCAGTATGCACACATTTTTCTTTAAATACTTAACATATTTTAACACTCTGTTTTAAGATCCTTGTCTA
CCAATTCCATCATCCTTGTCGTTTCTGGATTTGTTTCCATCGACTGATTTTTGTCCTCATTATGTATTACATTTTCCTCCTTGACTTGTCGAGTAATATT
TGGCTATCTACTGGTCAGTGCAGATTTTACATCAAATGTCTAGGTTTTGTTGTCTTCCTTTAAAGATTGTTGGGGTTTTCTTCTATTAGTTAAGTTATTC
AAAGTTAAATTTGATGTTTTTAAGCATAGTTAGAGCAAATCTAGAGTAGCCTTTACCCTAAGGCCTTTCTGGGGTCTCTATTAAATGCTCTGGATGATCA
ACAATTACATTCCACTCTTGCTGGTCAGAACTCAAAGGCCTTCCAGCCCTATTTGAAGTTTGGAAAATATAAAGCTCACAGCTYCCTGGTTGCTCTTTGC
TAAACCTTGCAGATTTTAACCTGATGCACGTACATCTTCAGTTGGGCAAAATCTCAAGAGGAATTTATGCAGATTTTGGGAGCTCTTTTTCTGTGTAGCA
CCCTCAACTCCRGAATTCTGCTCAATAGTGTCCAGTTGCCTCCGCCTCTTCAAACTCTCTTCTTTGTCTCATCAATTTGTCTAGACTATTGTGCTCTGTT
TGGGATATCCCTCTGTTATGTGTTGAATTGTATCCCCACAAAAGATGTTGAAATCCTAATCTCCAGTACCTGTGGATGTGCCCTTATGTGGAAATAGGGT
ATTTGTAGATGATCAAGTTAAGATAAGGTCATTCATATGGACCCTAATCCAACATGACTGGTGTCCTTATGGAAAGGTGAAATTTAGATATACGCAGACA
TGCACACAAGGCAGAACTCCATGTGAACATAAAGACAGAGCAGAGTGATGCATCTGCAAGCCAAGGTACACCAAAGATTGCCAGCAAACCACCAGAAACT
GGGAGAGAGGCATGAAACAGATTCTTCTCTCACAGTCCTCAAATGGAGCCAACCTTGCCAGCACTTTCATCTCGGACTTCTAGCCTCCAGAACTATCAGA
CAATAAATTCATCTTATACAAGCCAAGGCCACCCAGTTTGTGGTACTTTATTATGGCAACCCTAGAAAACTAATACACCCTTCCATGCTTTGCAGCTCAC
AATGTGCCTCCAGGGAAATTGCAGAGCTCACCTAGTCTGTTTCCTTTCTTCCAGGGATCACAGTCCTCTAGTTTCTGTTGTCTAATACCTGAAAACAGTT
GTTTCATACATTTTTATCCCATTTTCTAGTATTTATGGCAAGAGAATAAATTCAATCCTGTTGTTACCTCATCATAGCTGGAAGCAGTAAATTTCATTTT
TAAAGGAGGGTTTATCTAGATGAAAATTCCGGGTTCACCAGTTTATGTTTCCCCAGCATTTTAAAGTAATAGTTCCATTATCTCCTGGTTTCCTTTGTTT
CCTATAAGAGGTCAACCATCATTCACATCATTGTTTCCTTACATGTAGTCTAGCTTTTTTTCTGTCCTGGCTTTCAATATTTTTTCTTTCTCTGCTATCT
ACTAATTCCAGCAATTTGACTATGATGTGCATAGGTGGTTTGTAAACTTTTTAGAACTTTCAGATTTCCCAAAATTTGGGAAGTTTGAGGATTTTATTTC
TTCCAATATGTTTTAGTTATTTTCTTCTTTCTTTCATGGCCTCCAATTAGACATATATTAGACCTCAATTTTTTTTCAATTTTTTTCTGTTTTTCACAAT
GGATAATTTATGTGGAACTTCAAGTTTACTGACACTCCTGCCAGCTCTAATCTTCTGTTAAGAYTGTCTRGTAAATTTTTCATTTCATTTTTCATATTGT
TAAGCTCTAGAAGTTTTTATAGTTTCTACTTGTCTACTGATACACGCCATCTGTTCATTTATTATGAGTGTATTTTCATGTCCTTAAACATATTTATAAT
AGCTGCTTAAAGTCAGTGTCCACTCACTGCAGCATTTGTATCATCTCAGGATTGGTTTCTGTTGACAGCTCTTTTGCTGAAATATTGGTCTCATTTCCTG
TCTAGTGGTTTTTGATTATTCTTGTCAACTGGTTTTGAACATTATAGATGTACGGATATAGAGGCTCTGAATTATGTTATGTTCCTCTGAAGAACATTTA
TTTTTGGTCTAACAGGCAATTAACTCAAACTCTAGCCTCTATCTTCCCTGCAGTGGGCAGCAACTGAAATCTCTGCTCTGTTCTTTTAGCTTCTACCTGC
TGCTCTTTTGCTGGGTCCTCTGGGGTCTGCCTGCTAAAAATCTAGTAAAATTTATGCAGAAATCTGAAATTCATCGCCTTTGTTGCTCTTCTGTGACTTG
CTTCTAAACTTACATGCTGTCTTAACAGCCCCCAGACTCTGACCTCTGAAATCACAAGCCAATAAAGTTATAAGCTTTCCAGCTCCTTAAGCCATTTTCA
GGCAAAAAAAAACACAAGCTGGTAGATTATACCTGTTGCAATTGCCAGGTTTCTAGGCTAGATACCTGTCCTATTTCTGCCACTGTTTTTGGTAATTCTT
CAATGTTTTCAAGTAGTAATTGTTTTTCTCGGGGTTTGTTTTGTTTTTGTTTAGATTTTATGATTGCTATCTGCAGGAAGGTAAGTCCAACTAAGTTATT
CACCATTAATGGAAGCTAGACTCCTCAGTCAAGTTGTTTTAAGAGTTTTCTGGCCAAGATCTATTCATTCTGTTTTGCAAAATTTGAAGCATTGTTACTC
AACCTCTTTTCTAATTCTTTATCTTCTTAATAACCCAGTTGTTAGTATACTTCTAAATRTTCAAGATCCAGAAGTAAATGCTCTCCTAAATTATATAAAG
AGATAGGTGTCCATGGCATTAAATGTAATATTTTGATTATACAAAATGCTTTAATTTCTGATTTCACTACCTTTGGATTTTTTATCATTCCAACRTGAGT
CAGAATGAAGTTCACCTTCTATATTACCAGAGGTGGGGAGCCTATTATTAGAAAAATATGTTTGGTCAGTTATTTTCATAAACAAATGAAACCATTAATC
CATTCCAACAATTCTTATTAGCCACTTATTTGCCATCTTGCCTCTTTAAAATTTTTTGCTTTCTAAGCTTCCATGTTATTACATAGTCTCAGTTTTCCTC
TTCTCTCTCAAATCATTTCTTCTCAGGCTCCTTTGATATCTCTTCTTCCTTCTTCAATCACTGAATTCTAGAGTTCTTCCAGTGTTTCGTCCTGAGGACT
GATCTCTTGTCATTGATTATTTTGTCCACACATACCTATAAGACAAGTTCCCAAAATCTGTGTCTCCAGCTCTTATTTCTAACTGGCTTCCATCTTTATC
ATCCTGATGGATTTTTTCATCTTGGGGTTCCATCACAACCTTTAAATGAAAGAAAATTAAAACTACATTTTTCCATCCACAGGGGTGGTGATAAGGAAGA
GCTTCTCTTACTGACTTACCTATTTCTGTTCATGGTCTCACTCGTGTTCCAAACTCTTTAGCTCTTATTTGCATCCTCCCCTTTCTTCCTCACATTCCAT
CAGAGCTGCTTTTGCAAATATGTCTCTCTTTTTTGCCAATTTGAACTGATACAGACTCTCTAAAGCTAGTGCATCTTGCAAAGAACCACCTTAACGATCC
TTCTAAAGCCAACCTAGATAATACCACTTCCCGTCTTCAGGCGTCTTCAGGCATCTTCAGGGATTCCCAAAAGACCAGATTCTGGCCTTCAAGGCCCTCT
CCATTACAACTCCTACCCACAATGCTGGCTGTATCTATGTTTCCCAAGTTCCAACCAAGTCAGTAGTTTTTACTCCCAGCCACACTACAAGTTTTCTCAT
CTTTGCACCTTTGCTTACACTGCTTCTTCCAGAATACCCTCCCCTTCCTACTGTATATCCCTGCTCTCTGCCTGTATCATTCCTAAATAACCTTCTTTTT
TTTTTAACAGATAGAATATAATAGGACTTGGTTAAACAAGTATTGGAGAACTGCAAAAGTTCTGTGATACTTACAGAGCAATCATAGAGGTAGCAACTGC
TGAAAGCAGCTACCATCACTAGGGCTGAGGGAACAAGGGAAGAGGTTGGGATTATTAGAAATTACCTTTTTTATTATTAATTTCAGTAGGTTTGGGGGGA
ACAGGTATTGTTTGGCTATATGGATAAGTTCTTCAGTGGCCTGATTTCTGAGATTTTGGTGCACCCATCACCCAAGCAGTGTGCACTGTACCCAATGTGT
AGTCTTTTATCCATCACCCACCTCCCATGCTTCCTTCCGAGTACCCAGAGTCCATTGTATCATTCTTATGACTTTGCATCCTCATAGCTCAGCTCCCACT
TATGAGTGAGAACATAAAATGTTTGGTTTTTGCATTCCTGAGTTACTTCGCTTAGAATAGTGGTCTCCAATTCCATTCAGGTTGCTGCAAATGCCATTAT
TTCATGCCTTTTTATGGATGAGTAGTATTCCATGGTATATGTATACACCACAGTTTCTTTATCCACTCATTGATTGATGGGCATTTGGGCTGGTTCCGTA
TTTTGCAGTTGCAAATTCTGCTGCTATAAACATGCATGTGCAAGTGTCTCTTTTTATATATAAAGACTTGTTTTCGTCTGGGTGGATACCCAGTAGCAGG
ATTGCTGGATCAAATGGTAGATCTATTTTCAGTTCTTTAAAGAATCTCCATACTGTTTTCCATAGTTCCACCAGCAGTGTAAAAGTGTTCCTTTCTACCA
CGTACATGCCAACATCTATTATTTTTTGATTTGCTGATTACAGCCATTCTTGCAGGAGTAAGGTGGTATCACATTGTAGTTTTGATTTGTATTTCTCTGA
TAATTAGTGATGTTGAGCATTTTTTCAAAAGTTTGTTGGCCATTTGTGTATCTTCTTTTGAGAATTGTCTATTCATGTCCTTAGCSCACTTATGGATAGG
ATTATTTGCATTCCTTATAGATTCTGGATATTAGTCCTTTGCCAGATGCATAGTTTGTGAAGATTTTCTCCCACTCTGCGAGCTTCTGTTTACTCTGCTG
ATTATTTCCTTTGCTGTTGAGAAGCTTTTTAGTTTAATTAGGTTCCATCTATTTATTTTTGTTTTTATTGCGTTTGCTTTGGGTTCTTGGTCATGAAGTC
TTTGCTGAAGCCAATGTCAAGAAGGGTTTTTCCAGTGTTACCTTCTAGAATTTTTTATGGTTTCAGGTCTTAGATTTAAGTCCTTGATCCATTTTGAGTT
GACTTTTGTAGAAGGTGAGAGATGAGGATCCAGTTTCATTCTCCTACATGTGGCTTGCCAATTATCCCAGCACCTTTTATTGAATAGGGTGTCCTTTCCC
CACTTTATGTTTTTGTTTGCTTTGTTGAAGATCAGTTGGCTGTAAGTATTTGGCTGTATTTCTGGGTCATCTGTTCTGTTCCATTGGTCTTTTTATGCCT
ATTTTTATACCAGTACAATGCTGTTTTGGTGACTATGGCCTTATAGTTTGAAGTCACGTAATGTGATGCCTCCAGATTTGTTCTTTTTGCTTAGTCTTGC
TTTGTCTATGTGGGCTCTTTTTTAGTTACATATGAATTTTAGAATTGTTTTTTCTAATTCTGTGAAGAATGATGGTGGTATCTTGATGGGAATTGCATTG
AGTTTTTAGATGACTTTTGGCAGTATGGTCATTTTCACAATATTGATTCTACCCATCCTTGAGCATGGAATGTGTTTCCATTTGTGTCGTCTATGATTTT
TTCAGCAGTGTTTTGTAGTTTTCCTTGTAGAGGTCTTTCACCTCCTTGGTTAGGTATATTCGTAAGTATTTTAATTTTTTTTGCAACTATTGTGAAAGGA
GTTGAGTTCTTGATTTGATTCTCAGCTTGGTTGCTGTAGTTGTATAGCAGGGCTACTGATTTGTATACATTAATTTTGTATCCTGAAACTTTGCTGGATT
CATTTATCAGTTCTAGGTGCTTTTTGGAAGAGTCTTTAGGGCTTTCTAGGTATATGATTATATCATTGGTGAACAGCAACAGTTTTACTTCCTCTTTACC
GATTTGGATGCGCTTTCTTTCTTTTCYTTCTCTTGTCTGATTGCTCCGGCTAGGGCTTCCAGTACTATGTTGAAGAGAAGCGGTAAAAGTGGGCATTCTT
GTCTTGTTCTGGTTCTCAGGGAGAACTTTTCCCCATTCAGTATAGTGTTGGCTGTGGATTTGTCATAGATGGCTTTTATTACCTTAGAGTGTGTCTCTTC
TATGCCAATTTTGCTGAGGGTTCTAATCCTAAAGCAATACTGGATTTTGTCAGGTGCTTTTTCTGCATCAATTGAAATCATGGGATTTTTTTATTTATGT
GATGTATCACATTTATTAACTTGTGGATATTAAACCATGCCTGCATCCCTGGTATGAAACTTAATTGATCAAGGTGGATTATCTTTTTAATATGCTGTTG
GATTTGGTTAGCTAGTATTTTGTTGAGGATTTTTACATTGATGTTCACCAGCGATACTGGTCTGTTTGCTTTATGTCCTTTCCTGGTTTTGGTATTAGGA
TGATACTGGCTTCATAGACTGATTTAGGGAGGACTCCCTCTTCTCTTTTTTTTTGGAATAGTTTCAGTAGGATTGGTACTAACTGTTCTTTGAATGTCTG
ATACAATTCAGCTGTGAATCCATCTGGTCCTGGACTTTTTTTTGTTGGCAATTTTTTATTACCATTTCAGTCTCACTGCTTGTTATTGATCTGTTCAGAG
TTTCTGTTTTTTCCTGGTTTAATCTAGGAGGGTTGTATATTTCCAGGAATTTATCCATCACCTCTAGGTTTTCTAGTTTGTGCATGTAAAGCTGTTCATA
GTAGCCTTGAATGATCTTTTGTATTTCTGTGGTATCATTTGAAACATCTCCCATTTTGTTTCTAATTGAGCTTATTTGAATCTTCTCTCTTCTTGGTTAA
CCCACTAATGGTCTATCAGTTTTGTTTCATCTTTTTAAAGAAACAGCTTTTTGTTTCATTTATCTATTTTTTGTTTCAATTTCATTTAGTTCTGCTCTGA
TCTTTATTATTTCCTTTCTTCTGCTGGGTTTGGGTTTGGTTTGTTCTTGTTTCTCAAATTCCTTGAAGTGTAACCTTAGATTGTCTATTTGTGCTCTTTC
AGACTTTTTAATGTAGACATTCAATGCTGTGAACTTTCCTCTTAGCACCACCTTTGCTGTATCACAGAGGTTTTGAAAGACTGTGTCACTATTATTATTC
AGTTCAAAGAATTTTTTAATTTCTACCTTGATTTCATTGTCGACACAACAGTCATTCAGGAGCAGGTTAATTACCATGTATTTGCATGGTTTTGAAGGTT
CCTTTTGGAGTTGATGTCCAATTTTCTTCCACTGTGGTCTGAGAGAGTACTTGATATARTTTTGATTTTCTTAAATTTACTGAGACTTGTTTCATGGCCT
GTAACATAGACTATCTTGGAGAATATTCCATGTGCTGATGAATAGAGTGTATATTCTGCAGTTGTTGGGTAGAATATTCTACAAATATCTGTTAAATCCA
TTTGTTCTAGGTTATAGTTTAAGTTTATTGTTTCTTTGTTGACTGTCTTGATGACCTGTCTAGTGCTTTCAGTGGATTATTGAAGTCTCCACAATTATTA
TGTTGCCATCTATCTCATTACTTAAGTCTGGTAATGATTGTTTTATAAGTTTGGGAGCTCCAGTATTATGTGCATAGTTAGGATTATGATATTTTCCTGT
TGGACTAGTCCTTTTATCATTATATATGTCTCTCTTTGTCTTTTTTAACTGCTGTTGCTTTAAAGTCTGTTTTGTCTGGTATAAGAATAGCTACTCCTGC
TTGTTTGGGGTGTTCATTTGCATGGAATACCTTTTTCTACCCCTTTACCTTAAGTTTATGTGAGTCCTTATGTGTTAGGTGAGTCTCTTGAAGACAGCAG
ATACTTGGTTGGTGAACTCTTACTCATTCCGCCATTCTCCATCTTTTAAGTGGAGCATTTAAGCCATTTGTATTCAACATTAGTATTGAGAGGTGTGGTA
CTATTCTATTTATTGTGCTAGTTGTTGCCTGAATACGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATTGTTTTATAGGTTCTGT
GAGATTTATGCTTTACAAAGTTCTATTTTGGTGTATTTTGAGGATTTGTTTCAAGATTTAGAGCCCCTTTTAGCAGTTCTTGCAGTGCCGACTTGGTAGT
GGTGAATTCTCTCAGCATGTGTTTTTCTGAAAAAGACTATCTTTCCTTCATGTATGATGCTTAGTTTCACTGGATACAAAATTCTTGGCTGATAATAGTT
TTGTTTAAGGAAGCTCAAGATAGGACCCCAATCACTTCTAGCTTGTAGGGTTTCTGCCAAGAAATCTGCTGTTAATCAGGTAGGTTTTCCTTTATGGGTT
ACCTGATACTTTTGGCTTGTAGCTCTTTAGATTCTTTCCTTTGTCTTGACTTCAGATAACCAGATGACTATGTGCCTAGATGATGATCTTTTTGCAATTA
ATTTCCTGGGTGTTCTTTGAGCTTGTATTTGGATGTCTAGATGTCTAGCAAGGTCAGGGAAGTTTTCCTCGATTATTCCCTCAAATATGTTTACCAAACA
TTTAGATTTATCTTCTTCCTTGGGAACATCAATTATTCTTAGGTTTGATCTTTTAACATAATGCCAAACTTCTTGAAGGCTTTGTTCATTTGTTTTAATC
TTTTTTTTCTTTGTCAGATTGGGTTAATTCAAAAGACTTGTCTTCAAGCTCTGAAGTTCTTTCATCTACTTGTTTTATTCTGTTGAGACTTTCCTGTGTA
TTTTGCATTTCTCTGTGTCCTTCATTTCCAGAAGTTATGATTGTTTTTTATTTATGCTGTCTATTTCTCTGGAGACTTTTCCATCCATATCCTGTATCAT
TTTTTTGATTTCTCTAAGCTGGTATTCACCTTTCTCTGGTGCCTCCTTGAGTAACTTAATAATTAACATTGTGAATTCTTTCTCTGGCAACTCAGAGATT
TCTTCTGGGTTTGGAGGCGTTCCTGGTGAGCCAGTGTGATCTTTTGGGAGTGTTTTGTCATAATACCAGGATTGTTTTTCTGGTTCCTTTTCATTTGGGT
AGACTATGTCAGAGGGAAGATCTGGGGCTCAAGGGCTGCTGTTGAGATTCTTTTGTCCCACAGGGTGCTCCCTTGATGTGGTGCTCTCCCACTTCCCCTA
GGGATGGGGCTTTCTGGGAGCTGAACTGCAGTGATAGTTATTTCTCTTCTGGGTTTAGCCATCCAGTGGAGCTACTGGGCTTCTGGCTGGTACTGAGGAG
AGGCTGTGAAGAGTCTTGTGATGTGATTTGTCTTCAGGTCTCKCAGCCATGAATACCAGTACCTGCTCTGGTGGCAGTAGAAGGGGAGTGAAGTGGACTC
TGTGAGGGTCCTTGGTTGTAGTTTTGTTTAGTGTGCTGGTTTTGTGTTTGTTGACCTCCAGCCAGGAGGTGGCACTTTCAAGGATCATCAGGTGTGGTAG
TATAGGGAGTATACAAGCTTGCCCTAGGGTCACCTGGATAAGTATTGGGGTTTCTCAGGCAGTGGGCAGGGCCACAGATCTCCCAAGAGATTATGTCCTT
TGTCTTCAGCTACCAGGGCCGGTAGAGAAAGACCATCAGGTGGGTGCAGGGTTAGGCGTGTCTGAGCTCAGACTCTCCTTGGGTGGGGCTTGCTGGGACT
GCTATAGGGGATTGGGTGTAGTTCTCAGGCCAACAAAGTTATATTCCCAGGGGGATTATGGCTGCCTCTGCTATGTCATACAAGTTGCCATGGAAGTGGG
GAAAGCTGGCAGTGACAGGCTTCACCCAGCTCCCATGCAGCCCGAAAGGCCAGTCTCACTCCCACCATGCCCCACCAATAGCACCAAGTTTATTTGCAGG
CAGCCAGTGAGCAGGGCTGAGAACTTGGCCCAGGCTACAAGCCTCCCAGCTGAGAAAGCAAGCAGCGCTTTCAGGTTTCACACCTCCCCACCTGTCGTGG
CTTCTGTGCTCCTATCTGCACTCCCTGTTAACCCCCCTCCCCAGGATTCTGTCCAGGAAACTTCATATCCAGTCAAAATTGTTACAAAGTTCATTTGGAA
ATTTCCTACTCCTTGTGGTCTTTCCCCAATTCCACTGGCAGCTCTCTCCAAGGACCCCTGTAAGACAAAGTCAGAAATGGCTTCCCCAGGAACTGAGAGC
CAACAGGGCTCTTCCCACTACTACATCTACCCCTACATTTTTCTCAGCTCTCTAAATTAATCTCAGCTCCTGGTAAGGTCAAATCCTTCTCCTGTGATCT
AGACCTTCAGGTTCCCCAGTGAGGATGTGCATTTGGGAGCAGATTCTCACCCTCTCACACTTTGGGCACTCCCAGTTTTTTGGCTGTTCTCATGGCACCT
GCAGTGGCAAGCTGCTTCCTTGAAAGGGTCTGCGGATTCTCTGGCCTTTCCTGGTATGTTCCTGTGGTAGTTCTTGGAGCAGAAAATCACAATGTGAGTC
TTCACATGCTGCTCTGTACATCTGAGTGGAAGCTGCAAGTTAGTTTTGTCTCCTATCTGCCATTTTTCCCCTCAGGATTATTAGAATTTCRAAGCTTGGA
GGAGAGGCCACAAGGAGCTGAGACTCAGAGCTCTGCAGGGAGTGGGAGGTGCCAGTTGCTGCTRGGATCTCTGAGAGGGCACAATAAGGCAGCCTCTGAA
GTGTGGGAAAAGCAAATTGCAAACTAGGACCAACTACTGACAATGGAACCAGCTGCACTGCCAGGTTGAAAAGCCTAAATAACCTTCATATATAACATTT
CTTCCATGACCCCATCATTGGCTTAGTTCCSTTTCACTATATGTCAACCCAAGCAATATAGATTTAAATAGGTCCACTTTGCCCTGGCACTTGGCTTTGT
GGGAGAGAGAAGAGGAGGGGTGAGAATGAATTTGAGATGATGTTAAGACATTTGGGAACCTAAAAGCACCTTAAAGGTTATTTCATTCGAACATAAATGA
ACCTTTAAAATCATCAAATATTCTCACTTGCAAATTAGAAAACTGAGACCAGAGAACCCTACTGAAACCTAGAGTTCTCCTTCAGAGTCATGAATCTGTG
TAACTAACCTTCACAGTAACAACACCAGGATTTTTTTAAAATTTTTCCACAAAACTGATCTTAGCCTTGATAAGTTTCAGAGGCTTTACAGTTACATCCT
CAAGATACTTTACTTTGGGTTCAGTTACAGACCACTGCAATAAAGCATATACTGCAATAAAGCGAGTCACACAATATTTTTTGTTTCCCAATACATGTAA
AAGTTATGTTTACACTATATTGTAATCCACTAAGTGTGCAACACCAATACATCTAAAAGAAAACACATACATGCCTTAATTTAAAAATACTTTATTGCTA
AAAAATGCTAACAATTATCTGAGCCTTAAGCAAGTCTAATCTTTTTGCTGGTGGAGGGTCTTGCCTTCATGTTGATGGTTGCTGAATATTGGAAAGATTC
TGGCAGTTTTTAAAAGACAACAACAATGAAGTTTGCTGCATCGATTGATTCATCTCATGAAAGAGTCCTCTGTAGCATGTGATGCTGTTTGGTAACATTT
TACTCACAGTTGAACTTCTTTCAAAATTGGTGTCAATCCTCTCAAACCCTGCCACTGCTTTATTAATTAAGTTTATATAATATTCTAAATCCTTTGTCAT
CATTTCAACACTGTTCACAGCAACTTCACCAAGAGTAGATTCCATCTCAAGAAACCACTTTCTTTGCTCATCCGTAAAAAGCAACTCCTCATCCATTCAA
GTTTTATTATGATATTGCAGCAATTCAGTCACATCTTCAGGCTTTACTTCTCATACTAGTTCTCTTGTTATTTCTACCACATCTGCAGTGACTTCCTCAA
CACTGAAGTTTTGAACCCCTCAAAGTCATCCATGAGGGCTAGAATCAACCTCTCCCAAATTCCTGTTCATGTTRGTATTTTGAYCTCCTCCCATGAATCA
TGAATGTCCTTAATGGCATCTAGAATGATGAATCCTTTCCAGAACATTTTCTATTTACTTTTCCCAGATCCATTTTAGAAATTACTATCCATGGCAGCTA
TAGCATTATGAAATTTGTTTCTTAAAGAGTAAGACTTGAAAGTTGAAATCACTCCTTGATCCATGGGCTGCAGAATGGATGTTATGTTCGCAGAAATGAA
AATAAGAATCTCCTTATACWTCTCCATCAGAAGTCTTGGGTAGACAGGTGCATTGTCAATAACCAGTAATATTTTGAAAGAAGGCTTTTTCTCTGAGCAG
TAGGTAACAAAATAGTGATCTTAAAATGTTCTGTAAACCATGCTATAAACAGATGTGCTGTCATCCAGGCTTTGTTCTTCCATTTATAGAGCACAGGCAG
ATTAGATGTAACGTAATTCTTAAGGGACCCAGGATTGTTGGAACTAGAGATGACCATYGGCTTCACTTTAAAGTCACCAGGTGCATTATCCCCTAACAAG
AGAGTCAGCCTGTCCTTTGAAGCTTTGAAGCCAGRTATTGACTTCTCTCTAGTTATCAAGCTCCTAGATAGCATCTTCTTCCAATAGAAGAGTGTTTCAT
CTACACTGAAAATCTCTTGTGTTTAACATAGCCACCATCATCAGTGATCTTAGCCAGATTTTCTGGATAACTTGCTGCTTTAACTTGCACTTTTATGTAA
GAGAGACTGTTTCTTTCCTAAAACCTTATGAACCAACCTCTGCTAGCTTCCAACTTTTCCTCTGCAGCTTCCTCACGTSTCTCAGCCTTCATAGAATTGA
AGAGAGGTAGTAGGGCTTGCTCTGGATTAGGCACTAGATTAAGGGAATGTTATAGCAGGTTTGATCTTCTAACCAGACCACTAAAACTTTCTTCGTATCA
GCAATGAGACTATTTTACTTCTTATCAATTTTTTTGTGTTCACTGGTGTAGCTCTTCTAATGTTCTTCAAGAGCTTTTTCTTTGCATTCACAACTTGGCT
GTTTGGAGCAAGAGACCTGTCTTGGCTTTTGACATACCTTCCCCACTAAGCTTAATCATTTCTAGCTTCTGATTTAAAGTGAAAGATGTACAACTTTTTC
TTTGTCTTGAACACTTAGATGCCACTGTAGGATTATTAATTAGCCTAATTTTAATATTGCTGCATCTCAGRGGATAGGGAGGTGGCCCCAGGAGAGGAAG
CAAGATGGGCAAATGGCCATTCAGATGAGCAGTCAGAATACAAACATTTATCAATTAAGTTCATCTTTTTATATGAGCATGGTTCATGGTACCCCAAAAC
AATTACAATAGTAACATCAAAGATCACTGATCACACATAACCGTAACAGATAATAATGAAAAGTTTTGAAAATTTTACACAGAGACATAAAGTATGCACA
CACTGTTAGAAAATCATGCCAGTAGATTTGCTTAGCACAGGGTTGCCACAAACCTTCAATTTGTAACAAATGCAGGATCCATGAAGTGCAAWAAAGCAAA
GTACAATAAAGTGAGGTATGCCTGTATTATGAAGGCAGCTTCTCAAAGGCCTGTTAGTTGCTTCTCCTGGGTCTTGAGTTCCAAGAACTCCACATCCATG
GCAGGCCTGCCCTTSGAAGCATCTCTACCCTATTCTCATCTGCACGAGGAATAGCAGGCTGGGAGGCCCTGGGAACARGACCAAGACCCAAGGCTCAGAT
GGGCCAAGAGAGGTTTCCTGGCTACTCACTATGGCCTCTGATTCCAAGGAGGAGGGAGGAATTTGGATGTGATTTTTGTGCAAATATTCCTCTTATTTAG
TATTCCTCTTATTTAGCTGACTAAGGTTTCTAGCTCCCAGATAAGTTCTTCAGCCATAGTGACCAACCTAGGGGCTGCTACCACTCCTTTTTCTGCCTAA
ATACTCTCTCAGAAAATCCTAAGGCAGTTGGGAAAATGAGGACTATGAGAAAATATGAAAGATTCCCTGRCAAATGTGCTTAGGAGTAGTAAGGTTCATA
TTTACYGACTAAAATCTCATCAGCCTCACCAGGGCTGACCAAACAGGATTCATGGAGCCAGCACCTTGATAGCATATGGCCCTTTTYTTTTCCTTCAAAG
TAGATGTGATAGGGAGACACGCATTTGCCTATTTCAGTCAGGCTAAAAAGCTTTATTTGTTTCAGCTGCAGTTTCAAAAGTATATTTGCCTTCATACACA
TATAGTTTTCCTGGCTTTTATTGGAAAATGGAACGAGCATTTTACTCCAGGCTACAATTAGGGTTGGAGGGTATAGGTGCCCGGATCCCAGGAGATCCCC
AGTGGACTGAYTTCTCTCCCCAAGGCCATTTCTACACTCATTTCAGAACAGGAGTGCAGTGACACCACCATGGACCTCGTGGCATGTAGATGCCTAGATG
CCGCCAGGAGCTTGTGGTGAGACTGCTTCTCCTGAGTACCTTGAATAAGGTGAYACAGGGCCAGGCAAGGTGGCTCACACCTGTAATCCCAGCACTTTGG
GAAGCTGAGGAGGGAGGATCACTTGAGGCCAGGAGTTCAAGACCAGCCTGGGCAACATAGCAAGACTCCATCTCTACTAAAAAAATTAATTAGCTGTGTG
TGGTGGCACATGCCTGTAATCCTAGCTATTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAGTTCAAGATTGCAGTGAGCTATGATTGCACCAT
TACACTCCAACCTGAGCAACAGAATGAGAGCCTGCCTCAAAAAAAAAAAAAAAAAAAGAGGATATAGGTCAGGTAAGAGCTGGGTCAGCAMACAAGTAGC
AGCTCTGTCCTATTCCAGGCCTTCAATCCATTGGCCAAGTGGAAAAGCTGGAAGATACCTCTCCCTAAATGTATCAGTTAGCTATCACCTCACACATACA
CATGCTGCATTTTAAAAAGCCCAAACTTGGTGACTTAAAACAACAATCAATTGTTCTTACTGATCTTACTTAGTTCAGCTGATCTAAGCTGGGTTTGGCT
GGAGTGACTTGACTGTTCTCCACATTTCTCTCATCTTCCTCTTGGGATCRTCAGGCCAGTCCCGGCATGACTTTCTAATATAATGGCAAAGGCACAACAG
CACAAGCAAAAGCTCCCAAGATCTCTTGTGGTCTAGGTTTGGAACTGGTACATTATCATCTCTGCCTCAGTTTTTTATTGTGGTAAGAGATACATAAAAT
TTACAATTTCAACTCTTTTTAAGTGCACAGTTTGATGCCATTGCATACATCTACCTTGTTGTGCAGCTATCATCACTGTCTCCAGAATTTTTTCATCAAC
TGAAACTCTGCACTCCTCCTCCCTCYCTTCTCCCAGCCTCTGGTAGCCACTATTCCACTTTCTGTTTCTATGAATTTGGCTGCTCCAGGTACCTCATATA
AGTGGAATCATACAATATTTGTCCTTTTATATCTGACTTCCTTCATTTAGCATAATGTTTTCAAGGCTCATCCATGTTGTAGCATATGTCAGAATGTCAT
TCCTTAAGGCTGTATAATATTCCATCATACATATATACCACATTTTGTTTATCTACCCATTGATTATTGGATATTTGAGTGGTTTAAATCTTTTGGGTAT
TATGAATAATGCTGCTATGAACATAGGTGTACAAATATCTTTTAAAGTTCCTGCTTTCAATTCTTTTGAATATATACCCTAAAGTGGAATTGCTGGAGCA
TATGATAATCCTATATTTAATTTTTTGAGGGGCCACCATACTGTTTTCCACAACAGCTGTTCCATTTTATATTCCCACTAGCAATGCACAAGGGTTCCAA
TTTTTTCACATATTTGCAAACATTTATATTTTGGGTTTCTTTTAATAATAGCCATCCTGGTGGGTATGCAGTGGTAACTCATGGTGGCTTTAATTTGCAT
TTTCCTAATGATTAATTGAGCATCTTTTCATGTGTTTATTGGCCATTCATGTATCTCTTTTGGAGAAATGTCTGCTCAAGTCCTTTGCTTATTTGGGCAT
TTGCCTGAACYGGGTTGTTTGTTAGTTATCAAATTTTAAGAGTTCTTTTTATATTCTGGATATTAATCTCATCAGATCTATGATTTGCAAATATTTTCTC
TCATTCTGTGAGTTGCTTTTTCACTCACTTGATGGTGTCTTATGATGTGTCAAAGATTTAAATTTTGATGGAATCCACTTKATTTTTTCATTTGTTGCCT
ATATTTTAGTGTCATATCTAAGAAATCATTGCCAAACCCAATGTCATTAAAGTTTTCCCCTGCGATTTTTTTTAAGAGTTTTATGCTTTCAGCTCTTAGG
TTTAGGTCTTTCATCCATTTTGAGTTAATTTTTATATATAGTGTAAGTCATTTGTTCACATATGGATATCCATTTTCCCAGAACCATTTGTTGGCAAGAC
TGTCCTTTCCCCATTGAATGGTCTTAGCAACCTTGTCAAAAATCATTTGACTACATATTTAAAAGTCTGTTTCCGGTCTCTATTCTGTTCTTTTGTTCTC
TGTGTCTGTTTTATGCCAGTACAGTACTGTTTTGATTACTATCACTTTGTATTAAGTTTTGAAATCAGGAACTATGAATCCTCTTTGTTCTTCTTTTTCA
AGGTTGTTTAGTTATTCTGGGTTTTTGATATTCCATATAAATTTTAGCATGAGATTCTCTATTTGCAAAATATATCATTGGGATTTGATGGGGATTGCAT
TSAATCTGTAGATCACTATGAGTAGTATTGACATCCTAACAGTATTAAGTCTCCTAATCCGTAAACATGAGATGTCCTCCCATGAATTTATATCTTCTTT
AATTTGTTTCAGCCGTATTTTGTCGTTTTCAGTGTTCAAGATTTTTGTCTCTCAGTCCATTTTGTGCTGCTATAACAGAATACCTGAGACTAGGTAATTT
ATAATGAACAGAAATTTAGTGGCTCACAGTCCTCCTTTGCATCCTCCAAAAGGGAGGAAAGCTTTGTCTTCACATGCTCTTCAAAAGCACAAAGAGACAA
ATAAGGGCTGAATTCACCCTTTTATAATGGCATTAATCCAACCCATGAGGACAGAGCCCTCATGRCCTGATCACCTCTTACTACTGTTACAATAGCAATT
AAATTTCAACAGGAGTTTTGGAGGAGACAAATATCTGAACCATAGTAGCCTCCTTGGTTAAGTTTATTCCTAAGTATTTTCTTCTTTTTGATGCTGTTGT
GAGTGAACTTGTTTTTCTTTTCTGATTGTTATTGTAACATCTGTCTCATTTTTGTCATCTAAATAACTCACATGGCCAAAGCCAAGAGGGGGAAGTATAA
CCGCTTTCTCATGGGAGGGCACTGTCAAGTGGCATGGGCTAGTCAGYGGATACATGAAGGAGTGAAGAATTGGATCATATAACACTACATCCCATACTGA
GCTTCCAGGGGTCCATTTTTAGGTTATCTTTTTAGAACCCTCCCTTCCAAATAGTCTGCTCCTACCCTCTCACTACTACCTCAGGAAAAACAAAAATGAA
GGGGAAAAAAATAAGTGAGCAAAGAAACGAAGGAGGTAGCAAGGTGCCCAGCTGAACAAGTAGCAGGTATGGGGGAAAGAACACGGTCCAGGCGTCGGAT
AGAAGGCCTGCCGCACAATCTCAGGAAGGTCTCCTAACCTCTCTAGGCCTCTGTTTCTTCCTCTAGTGGTGAACTAGATGATTTCTAGGGATTCCCAATC
TTGTGTAAATTTTAACAGTTCTATCTCTGGATTCAAAAACAAGAAATGCTAGGCCAGGTGTGGTGGCTCACTTCTGTAATCCTTGCACTTTGAGAGGCTG
AGGCGAGCAGATCACTTGAGGCCAGGAGTTCAAGAACAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTTAAAAATATGTATGTGTATATATACATGT
GAGTGTGTATGKRKATRTATATATATATATATATATATATATATATATATATATWTACACACACATACATATACATACATACAAGTATATACATACATAC
ACACACACAGAAATTATCTGGACATGGTGGTGCACACCTGTAATTGTAGCTACTTGGGAGTTGGAGGTTGCTGTGAGCTACGATTGCACCACTGCACTCC
AGCTTGGGTGACCGAGYGAGACCCTGTCAACAAAGAAATGAAACATTAGAAAAAATCCCTTCTCTCTATAGTTGCATAGGCACCCACACATCCACAGAGG
GTAGCCGCCTGTCTTAGTCCAGTCAGGCTGATATAACAGACATATAAAAACTAGTGGCTTATAAACAAACAAAACAAATTTGTTTTTTACAGTTCTGGAG
TCTGGCAAGTCCCAGRTCAGTGCAGCCGCAGATTTGATATCGGTGAGGGCTTGCTGTCTGCTTCATAGATGGCAGCTTCTCATTGTGTCCCACATGGTGG
AAGGGCCAAGGCAGCTCTCTCCAGGGCCTCTTTTATGGGGACACTAATCTCATTCGTGAGGACAGAGCCCATGTGACAGAATCACCTCCCAAAGGCCCCA
CCCTCTGATACCATCACCTTGGTGATTAGAATTCAATATGAATCTAGGGGGTATACACAAACCCTCAGACTATAGCACCATCTTTGTGTCTCGTATCTCA
TCATCTCCTGCCTTGCATCTGCAGTTTTATGAGTGTACTTTCTAAAAATCTTATACCAGCTGAGATCTCCCTAGAAGAGGGAAGATAGTCTTAATTATCT
TAACTGTCCCCAGAGCAGTAGGTACCAAACAGATGTTTTTCTAAGTGAACTGAGGGGGAAAAAAATCTATAGATTCTTTAATTTTCAATGACTTACTGCA
TTTTACACTTCCAAAGAAATTCTCTGTGGAAGGTAAGTTGCTGGGGCACAACAGCAAATTCAGCAAGTACCCTGACCTTCAAGGAATTTCTCTCACAACT
GCAACCTGTTTATCTTACCGATTCTATGCTACAAAGTCTTGGGTAGACATTTGAGTTTATTATATCAAAATATGTTTGATGGCTCTGTAGATGTGTATAA
TATTGTACATGTCCAGTGCAGGCTTGGCAAAAGYCTTCAGAAGACAAAGCCTTATGCAGAAAAAAGATCCATGTCTAAAATTGCTTTCCTAGTCTCTGAT
TGGAAAAATCTCATAACAAGTAAAATGAGGGAATATGATACTTTTACCAAATCAAGTTTGTTTCTTAACTATTACTATATAGTATGGTATTTTTTCCCAA
CATATCGTATTTGAAGAAGGAATTTCTGTCAGAAAAAAATCACTATAAGAACTACTTACCTTGAAAAAACTGTTCAATGAATGAAGATTAATTGTATCTT
TTTTTAAAGTTAGTATAGGGACATAAACAGAAAGAAAYAGGTACTTTTGTTATCCAGTAATTTTACTTAATTGAATGAATCATAGTCACCCTCCTAGAAA
TTCAGAGAATAAAAACATCTCCTGTTTGCTCAGGAATGGCAAATGTAATAAAAATGCCACAGACAAGGCCACATTGTGTGTACAATTTCTAGAGCCACAM
AGACAGTAAACCAGTGCACCAGCAATGTGTTCCTTATGGCTTTACTAAGGCTTACTTCTTTTCCTCTCCTTCTAGGCTGCCCCATCAAAGGTCACCCTGT
CCCTAATATCACCTGGTTTCATGGTGGTCAGCCAATTGTCACTGCCACAGGACTGACGCATCACATCTTGGCAGCTGGACAGATCCTTCAAGTTGCAAAC
CTTAGCGGTGGGTCTCAAGGGGAATTCAGCTGCCTTGCTCAGAATGAGGCAGGGGTGCTCATGCAGAAGGCATCTTTAGTGATCCAAGGTAAGAAACCCT
GCAGACTTTGCATACTGGACTTGAACAAGAAAGCCCACTTGGGAATCTAACTATCTAGCAGAACAAAGAGATTTCTGATCTCCAGTGGTACTCAAGGCAT
GAAAACCAAAGCCATGCCATGTTTCCATACAGTGAGACCCTACTTCTGTCAACATGGCCCTTCAGAAGAGCCATCATGCCCCATCCCAGCAGAACCTGGA
AAAGCCAGTGCTGCCTTCATAAATAGGCCCTTCTGCTTTTAATGCTGCTGTTGCTCAGGACCATGGAAACACCACTATATATCAAAGTCAGATGTGATTC
TTTTATGCTGATTTAACTAGTACAGATCTCACACACACAGAGTAGCCTGTTTGGTTACTGCCTCCTGCCTGGAGAGACAGGCCTGATGCCAGTGCCTGCT
GATCATTCTGAAGAGTCTTCAGCTTTAGTCATAAGCTGAGGGCTTTCCAGGCACCTTTCATTTGGCCCTGGCAAAGAACAGACTGCGAAGCCCACATGGC
TCATGCATTAACCTTCCAGGAAAACAGGCAGGTCAGAAAGCCTTTGGGTGGGGCCTGGCCTTCACTGCACCAAGAAAGAGTTGTAAATGAGGCCCAATCA
GTGGGAAAGAGGGAAACTGGCCTTCTTATAGTGTTTTCCATAGGCTTGTTCGACCTGTGGCCTATGTGTGATGTATTCCAAAATGAAGGATGTGATGGGA
AGGGACAGAGTTTTGTGCCAATACGGCACAAAAAGATGAAGAAAGGAGGGAAATTTTTCTAAGCAGTTAAGTTTTCTTCTTAAATATCCTCCTTCACCAT
TTGGCTTTTCAGACAGGAAAACAAATGTTTTCAGACAAGAAAACAAATTTTCTTGGAGCCAGCTAGYCTCTGCTGAAAACCAGAAGCCAGGGCCTATTTG
CAAGACTTGTAATATGCAACTTTGCAAATAAGCACTCAAAATTTACCATCTCACCTATCAGTGAGTCCCAGACCCCCAAAGCAACTGGCTTTCTTACTGA
CATCATTGTCTCATGTAAATAAGCACTCTCTGCATAGGCTCTTTTGGGTAACATTTGCAAAGTCCAGCTCAAATCTGTACTGTGATGGTTAAATATTTGC
TATATTTATATATCTTTGTAGAAAACAAAGTCACTTTCTGGTGAACCAATGAGGAAAAWAAAGTACTGTAGCCAATATCTTTAAAAATAAGATGACCTGT
GGCATTAATTGTGCACTCTTTTATGTCAGACACTGAGCTACTTTACTTTCATTATTTCCTGTCCCCACAATAACTTGGTGAGGTGAGGTTCACTGTATTC
ATTTCATGGCTGAGGCCCCTAGAGACCACGTGACTTCCCCAAATAGTTCGGGAATGGTTCCCTGCGAGGAGCAGGGCCTCATTTATAATAGCTCCTCTCC
TTCAGGCCACAAATCCACCCCTGTCACCTTCTCCCTGCCCTGCTCAGAAGGAATTCAGAGTGTGGGCAATTATGCTATATTCTTTTCTACWCTGCTCCTC
CTCCCATGACAGATTACTGGTGGTCTGTGGACAGACTGGCAACCTGCTCAGCCTCCTGTGGTAACCGGGGRGTTCAGCAGCCCCGCTTGAGGTGCCTGCT
GAACAGCACGGAGGTCAACCCTGCCCACTGCGCAGGGAAGGTTCGCCCTGCGGTGCAGCCCATCGCGTGCAACCGGAGAGACTGCCCTTCTCGGTGAGTG
CAGCGGACACTGGCTCAGACCTCCCCACCCTAGGARGAGCCCTCCCTGTTAGCGAAGTCAGTGGCCAGCCCTTCAGTAGCACTGTGCAGGGAGAGATGCC
AGCCAAGGAGCTGTTCTTCCCTCTAGGCACAGGCTTATCAGGCCTCTCCACCTTGCTGAAAATATCCTCAGACTATGCCACCTCTCTCAGCTTTGTTTAT
TCCTCACCCCACTAAYGGCCARCCAGGTTTCCCAAGTCCCTAACGGGGTCTGTTCAGGGAGCAAGAGCTTCCCAGGCCCTGGCAAGCCATAGACGCCCCC
CATCCTACAGTAATCAACTGACTCTGAGTTGTTTGTAGAAAGCAATGTCTTTTCAATCGAAGGGCTGAGGAAACAACGATTACTGGGTTCTGCCCACCCT
CCAAGTCTAACCTTAAATACCCATGCTAATCAGTACTCCAGTTCAGTTGGGGAAATCTTATCTTCCTCTTTTCTACAAAGGCTTGCGTCTCACTAAAGTT
GGAATAAATCTCTGTTTCTGACAGTAGCCTCATGCTCTGCATTTGGGTCCCTTGTGTGGCCCAGAGTGACACCTAAAGCCTCTGCCACCTTCCTTATGCT
TCAAGAGGCTATGAGTCCCCCTGTGCACCTCATCCTCTGTCCTCAGCAGTAGTTAAATGGATAATAGATGGGCTTGGAGTTGGCACTGGTGCRGTGCTGA
GAGCCTGGGGGGATGTGGCTCAGCTCTCAAATGCCCCTTTACTACCTATCTGTAGGACTTTCATACAATACTTAGGCAACTGCTTTCTGTTTTGCCAGCT
GAGTCATAAGGAGCAGCTGAAACCAGGAGAGATTCGATGAAATATGAAACATGCTCATTAATATCAGCAGTTTGACTTGCTGACGGGAAGGTTTCCACAG
GAATGATTAATGTCCTTTTATACCCTTCCTGAACTGTAACATAGCCTGGCCCGCTCCTTTCTCAAACCCCCCCCACCCCAGCTCCTGAAAAATTGCTGAA
ACGTATATTTGGAAATAAAAGTTGATGGAAATGCAGGCCTGACATTCACCAGGGATATAAGAGGCTGGAAAACTGCCCTTGCCAAGCTGTGCAAAATGAA
GAAGAGATCTTTGATGTGCCAGGAACTTTYTGACTTGATTTGGTGATGGTCAGAGTCAATCAGCTTAATTTACTTCTGCAAATGAAATAATAATGGCTCT
GTTTTCTTGGATTTCAATGCCCCCGGGAGTTTTTAAACACCTCTTGCCTGCTTCCTAAGTGGCTCTGCTCCTGTGGGTTGGAAATCTGCRTTCAGTCATC
CCTCCACAAGGCAAAAGAGCAGGGAAGTGGCCACAAAACTAAGTAAGTCACAGTCCAGATTTAGGAGGAATTTGCTCCCCTTCCCTGCTACATGCCTCTC
CTGAAAGCCAGATGTGGCGCCGCTTGGCTAGGACGWAGCCATAGGTTCACCTTTGACCCGTTTGCCTGCCAGGCATTTGGAACACTTAGTATCCTTCTTT
GCATGTGAACAAGTGTTGCCCTGGTTGTCTCTTTSAGATACAACTGGGTAACCCCGCTGYGACCCAGGYAGCTGTTTTTTAACCATTTTGTTAGATAAAT
TTTCTCCATCACTAAAACCAAAGAGTGGGATTTTTTTGTTCTAGATTACATGAGCAACAGTCTCGCGATTTCCCCAAGCTCTCTCCTTCTCTTYGAGAAT
TAYCACAGGGTGCACACATGCAACAAGAATCCCTGCMTGTTTGTATATGGACCGAGGATTTCMGAGTGTTCCTAGTTTACAGGTKGGCTTTGTGAGAAAA
GTCCATCGGTCACAGTCTCACTTTTGGAACCTAACATTCAGAGAACAACTATTTCTACCATGTATGCAGCCCTCTGAGAGGTATAAGACCTATGGACTGT
CACGCGGTCACGCCAAGAGATGGAACTTTACCTGTTTCTGAGAGATTGACCAAAATGTGCAGCAGGAAGTATACCGAGCACTACCAGACAAAACSTTGAC
TTCAGTGAGGCCCAGATTACTTTCCAGGTCAGGAGGTGACACRAATTTGGATCTGACTTCCCTAGAACAACTGTCTCTCCTGTCACATGCTTGGATCTCC
TTTAGGAAGTACCAACACTGCAGTTACAAAACAACAAATTTATTCTCTTACAAGTTTGARGGCCAAAAGTCCAAGATCAAGGTATCTATCAATCAGGAGG
ATCACATCACCTCCAAATCACCTCCAAAGGTTCTAGGAGAGAATCCACTTCTGGTGGCCCCAGGTGGCTTATGGCCACATCACTCCACATTCAGCCTTCA
TGGTCACATTGTCTCCTCCTCCACCTCTCTGTATGAACACTTGTTATGGCAGGCATTTAGGGCCCAGCCAGATAATCCAAGATAATCTTATCTCAAGTCC
ATAATTACATCTGGAAAGAACCTTGCCACATAGCATTCACAGGCACTAGGGATTTGACATGGATATCTTTTGGAGGAGTCATTTTTCAGCCTATCAATCA
TCTTTCCAAGTAAATACTGTAAAAAGGGCCTTGGCCCCAAATTAGTGGCAAGAGCAGGGATGTCGGTGGGGAGGAGGTCTCTTTTCCCCAGGGCCTGTCC
CTTTAGGGCTCTCCTGACACTTCTTCCTCTCCCCAGGTGGATGGTGACCTCCTGGTCTGCCTGTACCCGGAGCTGTGGGGGAGGTGTCCAGACCCGCAGG
GTGACCTGTCAAAAGCTGAAAGCCTCTGGGATCTCCACCCCTGTGTCCAATGACATGTGCACCCAGGTCGCCAAGCGGCCTGTGGACACCCAGGCCTGTA
ACCAGCAGCTGTGTGTGGAGTGGGCCTTCTCCAGCTGGGGCCAGGTGAGGAGCCAGAGAGGTTGTTATTTGAAAGCTAAATCTAAAGGAATGGACCCTGC
CACAGTAGGAAGTGAAATGCTATCACTGCCACTGCCACCTCCTCCTTTCACATTCTGATTGGCCAGGCATAGCTTTTGTGGGTTGTCCAGCTGAGACACC
CCCAGAGCAGCAGGCTTTTAATTCTTTGTGTAATTCTRTGAACCAATGTGATTGAATGAATGTTTTTAGGCAGTCAGCAACTCAAAACATCTTATAATTG
GCCATCTATACATTATTACATTTATGTCCTCCACTCCCACCCCCAGGTGTGTCCTTTGGAAAACAATCACCGGCGACTTTCTATTAAGTTAACACACTGT
GGCCACCTTTAATGAAAATCAAATGTTTTTGGCCATAGAGTTCACGTTCCATCTCGTAAGCCATTTGTGTCCCAGGTAAGTTGAAGCTACCGCTCAATGC
TAGCCAATCAAYATACCTAGCTGGAGACTCCTTTCTGGAGCTTCTACTAACCCCTCCTTATTTCCAGTGACATAATGTATATGCTTCATAATCAAACAGG
CATGAGCTCCCTTTGYCAGGGGGAATATCGTCTTTCTCCTACCTGGAAAAGCCTGCTTCTCATAGGTCACATTCATCTCAAGACAGCTCTGGTTCCAGGC
CCTCGAGGCTTATTGGCAGTTTGTAAAATTACAATAGCAAACAGATCCGGCTACAAATGACAGATGTTTCTGCACTGTGTCATCAAGGTCACTCAAGGAG
GGACGTATGGTGCACCAGTGATTATGTTTCCTAACAGAGAGAAAAATACATAGGTCTTGCTCCCTTTCTGCATTCCTTCCCCTCAAAAAATTCACCCCCT
CCTCCTCTTTTCTACAACCCTCCAGGCCAGTACGTGTCGAGCTTTAATGTGAATCACCTGGGAATCTTATTAAAGATGCAAATTCTAATATGGTAGGTCT
GAGGTAGAACTGGGGATGCTGAATTTCTCAAAACTTCTGGTAACATCAGTGCTGCTAGTCCAAGGGCTACGCTTGAAAGAGTAGCAAGGCTTGAGGCATT
ACAGATTGCAGACAAATACTTCATCTCACAATCCTGTTGATGTTTTTCTGCTGATAATATTGCTGATATTGTGCTTCAAACTGTAGATGCTTCTCAAACC
TCCACATTCCACTCCTGTGAGACACAAAAAAATCCTTTTGGAATAGTGTTATGCAAATGTTTTTTCTTCTGCCTACCTTCATGAAGTCTATGAAAACCAT
GCTGATTTTAGTCCAAGTAAAACTAAGACCACCTTCTTAGCTCCAACAATCTGGCTTCATGTAATAATTCAGCTTTCTCCTTTTAATCCAACATACATTT
ATGGGACACCTGTCTTGGGAGGGGAATGTGTCCCATATAAGCATGTGTGAAGAAATGAAGGGAAAAGCAGCCCACAATATTTGCAGGAGAATGAGGTGAC
AGAATAGAAATAGAAATGTGGCCTGGAAAGCAGGTGCAAGACCATAAAAGGSTCTTGTATGCTGTACAAAGAATTTGGATTTTATTGTAAGTGCAACTAC
AAAGATTTTTAAGAAGGAATGGCACAATCAGACTTTTAAGATTACTGTCTGGCCAGGCACAACGGCTCATGCCGGTAATCTCAGCTACTCAGGAGGCTGA
GGCAGAAGGATCACTTAAGAGGTTGAAGCTGCAACGAGCTGTGATCATACCACTTTCACTACTCCAGCCTGGGTGACAGAGCAAAACCTTGTCTTTTTTT
TTTTTTTTTTTTTTTTGAAAAAGGTATGCTGTCTGCAGTATAGTGATCAAATTGGCAAGTGAAAGGACTACAGAAAGAGAAACCTAATCTAGGTGAGCAA
TTATGGTGATGAGAATGAAGGTATTGAGCAGTACCAATGGAGAGGAATCCATTTCCTCTTTATAAGCGTGATTCGCATGGCTTCCATGATCCATTGGATA
TGAGGGATGAGAGAAAGGAAGGAAGTCAAAATTTGACTGGAGGTTCTGAATTGAACAACTAGATAGGAATACAGAAAAAAAAGAGGGTGGATTGTTGCTA
TATGGAATTGTTTGGGACATGTTTAGTATGAGATATCTAAGTACAGATGCTCATTAAGTAGTTGCACATAYAGGTCTGGGACTTAAAAGAGAGCTATGCT
AAACACTATCAATTTGAAAGTCATTAGTATACAAGTGGTGGCTAAGAATCATAGATGGTATCACCCAGAGAGAGGGAAAGGATCAGATTAAGAAAAGGCA
CAGGACAGAACCCTGAGGAACACAACACTAATTAAACTGGGGGAAAAAGAGGAAAAAGATTAACCTAATGAGTAGGAAAATTCACAGAGACCAGTGGAGG
AGCTTTTTCCAGAAGGAAGGAAGTCAATGGTATAAAAATACATCCAACAGAATAAACAAAATACAAATTAAGCATTGGCCTTATTTTATACATACGGTGC
ATATTCRAACTTGACTGACAGGCAGTTACCTGTAACTCTGTGAATGRCAGTTTCAGTGTAAAAGTAGGCACTGAAATCAAACCAGCAATAGGTTTAGTTA
CAAATGAGAGTGGAGGAAATAAGTGCTTCCAGGGACACATTACTCCTTCAAGAATTCCCAGTGTAGTCAAGGGACATTAGCAAAATGGCAAATTAGGACA
CTCCAAGTCCATGTTCTCTTATAGAAGCATCAAAAAAACAACTAGACACTGGCTAAACTAACCTTATAAGTGCTCTGGAAAACAGCCCAAGTTCTACAGC
AACCAAGCAAACAGCCAATAAAGAAACAGCCATCTTTAAGATGATAGGAAATTTCCTGGTWTTTTCGTTCATCCTTGCCCCACCCCCTCCCCCCATGTGG
CATGGWTTTGATCTTAACAACGTGGCAGCCACTACKTGTGAAATCTGCAGAAGGAACACAGACCTGCAGACACCTGGGAAAAGAGATTATGGGTGGAGAY
TGACCCTCTATGCAACTGACGCTCTAAAGTCCCAAGGACAGCCTTGAGTGAGACTCTGGGAAATTAAGACACTCAAAAGCAGCTATGTATATGGAGAAGG
CCCATACACACCACATAAAAGAAAGATCTGAGAAGACCTTACGCTTTCACCTCAGACTGATTACTATGCTCAGAGTATACCCAGCTAATCAGTGATGGAT
TGCCCAATCACAGAGCCAGTCTACAGAGAGTAGGAGAAATGGCTATTTTTCAAATGCCCAATTTTCAGCAATAAAATCACAAGCCATACAAAGAAATGGG
AAAATATGGCCCATTTTAAGGAAGAAAATAAACATAGGCATTGAACATTAAAGACAAACACTTTAAAACAACTATCTTAAATATGCTAAATTGGGAGCTG
AAAGTACTAGAACTGAATTGAAAATTTTACTGGCRGGATTCAACAGCAGATTTCGCAGGCAGCAGAAAGAATTTTCAAACTTGAAGATAGATAGGCCAAT
AAAAATAGAAGAAAATRAACAAACAGAGTCTAAAAGAGTTGTGASACACCCTCAAGTGAACCAACATATACATTTTGAGAGTCTCAGAAGAAGAAAGGAG
TTGAAAGATTATTTGCAGAAATAATGGCCAAAAACTTTCCAAATTTGATGAAAGACATGAATCTACAAATCCAAGAAGCTAAACAAACTCTAAGTTGAAA
AAGCCAAAGGGACCCACACTAAGATTAAAATCAGTCTTAAGAAACAAAGAGGGAATCTTGAAAGCAGCAAGAAAAGCAACTCATTGTGTACAAGAAATTC
TCAATAACTTTATAAACTGATTTCTCAGCAGAAACCTTGCAGGACAGAAGGCAGTGGAATTATGTATTTGAAGTGCAGAAAGAGGGGGAGGGGCCAAGAT
GGCTGATTAGAAGCAGCTGCAGTCCACAGCTCTCACAGAGAGGAATGAAAATGGGGAGTCAATTTGGCACCTTCATCTGAAATATCCAGGTTCTCTCATT
GGGACTGACTAGGCAATCAACTTGACCCATGGAGAATGAAGAAAAGCTGGGTAGGCCACTGGCCCACCTGGGAGCAGCACAGAGCCAAAAAACCTTCACC
CCCCAGCCAAGGGAAGTGGTAAGTGATTGCACAACCCCACCCAGGAAACCACACTTCTCCTACATATCTTTGCAATCAGTGGATCAGGAGATCCCCTAGT
GAGCCAATGCAACCAAGGCCTTGGGTTTGACACACAGAGCTGTGCAGTCTCAGCAGAGCAGTTGCTCAGGCTCACACAGAGACCCAGGAGTCTTTCAGAC
TCAGGCCCTGGGAATCCCAGCAGACAAGCAGCATCATTCTGCAGGCCCCACTTAACATGGCACCTCAGAAGTTAAGACCCACTGGCTTGGAATTCCAGCT
GCCTGCCGAGTGCATCAGGCTGGAGACTGCCTGAGACAGATTAGTTCCTGGGGGAGGGGTRGCCACCATTTCTGTGCTTAGGTCAACCCAGCTGTTCTAG
CCTGCCAGTTCCAGTGAGTCCTGGCAGCCCAGGTGAGGAGAAGTCCCTCACAACACACCTGCTGTGCCAGATAGTGGCCAGAATGATTGTTTAAGTGGGA
MCCTGATCCATCTGGCCTCCCTGCGGGAATTTCAGCAACTSCAACCTGGGTTATACTAACAGATGTCTGATCTCTCCCTGGGACAGAGCCCCCGGGGGAA
GGGGCAGTGAGTCTCTGCCCTTGAGTTACTCAGCCTTCCCAGGACTGCCAGGAGAGTCCAGGCAGTCTGGACAAGGAAGGGTTCCCCACAACACAGCACA
GCTGTTCTACCAAAAAAACAGCCAGACTGATTCTTTAACTGGGTTCCTGATCCCATCCCTCCTGACTGGGTGAGACCTCCCAACAGGGGTCTCCAGACAC
CTCCTACAGGAGCATCTGGGCCAGCAACAGGTCAGTACCCACCTGGGACAGAGCTCCTAGAGGAAGGGGCAGGCWGCCATCTTTGCTGTTTTGCAGACTT
CACTGGTGATACATCCAGGTAAGGGGAAAACCTAGGCAACTAGGGCCTGGAGTGATCCCCCAGCAAACTGCAGCAGCCCTACAGAAGAGTGGCCTATTAA
ATAGAAAACAATAACAACATCATCAACGAAAAAGACCCCACAAAATCTCCATTCAAAGGTCAGCAACCTCAACAAAGGTAGATAAGCCCACAAAGATGAG
AAAGAATTAACAAAAATGCTGAAAACTCAAAAAGCCAGAGTGCCTCTTCTCCTCTAAATGAATCCAACACTTCTCCTGCAAGGGCACAGAAGTGGGCTGA
GGCTGAGATGGTTGAATTGACATAAGTTGGCTTCAGACGGTGGATAGTAGGCTGGGTGTGGTGGCTCACATCTGTAATTCCAGCATTTTGGGAGGCCGAC
GCAGGTGGATCACAAGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGTAAAACCCCATCTCTACTAAAAATATCAAAAAAAAAAAAAAAGTTAGCCAG
GCATTGTGGCGGGCACCTGTAGCCCCAACTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAAGCAGAGGTTGCAGTGAGCTGAGATCATGC
CACTGCATTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAGAAGGTGGGTAATAACAAACTTCGCTGAGCTAAAGGAGCATGTTGTAACCCA
ATGCAAAGAAGCCGAGAATCACRATAAAACAGTAGAGGAGCTGGTAACCAGAATAGCCAGTTTAGAGGAGGAGCACAATGACCTGATGGAGCTGGAAAAC
ACAACACGAGAAATTCACAATGCAATCACAAGTATCAATAGCGGAATAGACCATGCAGAAGAAAGAACCTCAGAACTTGATGACTATCTTTCTGAAATAA
GACAGGCAGACAAGAATAGAGAAAAAAGAATGGAAAGGAACCAACAAGACCTCTGAGAAATATGGGACTATGTAAAAAGACCAAACCTATGACTGATTGG
GGTACTTGAAAGAGACAGGGAGAACAGAACCAAGTTGGAAAATCCAGCACCACATCAAAAAGCTTATCCACCATGATCAAGTTGGCTTCATCCCTGGGAT
ATAAGGTTGGGTCAATAAATGTCATTCCTCACATAAGAAGAACTAAAGACAAAAAACACAAGTATCTCAATAGACACAGGAAAGCCCTTTAATAAAATTC
AACATCAMCTTCATCTTAAAATCTCTCCAACTAGATATTGAAGGAACACACCTCAAAATAATAAGAGCCATATTTGACAAATCAGCAGTTGCTATTATAG
AGAATGGCAAAAAGCTGAGAGCATTCCCCTTGAAAACCAGCACAAGACAAGGATGCCCTCTCTCACCACTCCTAGGCAATGTAGTATTGGAAGTTCTCGC
CAGGGCAATCAGGCAAGAGAAAGAAAGMAAGCATATTCAAATAGAGAGGAAGTCAAATTATCTTTGTTTGCAGATGATATGACCCTTTATCTACAAAATC
CCATCGTCTCAGCCCAAAAGTTTCTTAAGCTGATAAGCAACTTCAGCAAAGTCCCAGGATACAAAATTAATGTGCAAAAATTGCTGGCATTCCTATACAC
CAACAACAGGCAAGCAGAGAGCCAAATCATGAATKAACTCCCATTCACAATTGCTACAAAAAGAATAAAATACCTAGGAATACAGCAAACAAGGGAAGTG
AGGGACCTCTTCAAGGAGATCTACAAACCACTGCTCGAGGAAATCAGAGAGGACACAAACAAATGGAGAAACATTTCATGCTCATTGATAGGAAAAATCA
GTATCATGAAAATGGCCATACTGCCCAAAGGAGTTTATAGATTCAATGCTATTCCCATTAAACTACCATTGACATTCATCACAGAATTAGAAAAAACTAT
TTTAAAATTCATATGAAACTGAAAAAGAGCCCGAGTAGTCAAGACAATCCTAAGCATAAAGGACAGAGCTGGAGGCATCACACTACCTGACTGCAAACTA
TACTACAGTAACAAAAAYAGGAGGGTACCGGTATAAGAACAGACATATAGACCAATGAAACCGAATAGAGAACTCAGAAATAAGATCACATACCTACAAC
CATCTGATCTTTGACAAACCTGACAAAAACRAGYAATGGAGAAAGGACTCCCTACTTAATAGATGGTGCTTGGATAACTGGCTAGCTGTATGCAGAAAAT
TGATACTGGACTCCTTCCACACACCTTATACAAAAATTAACTCAAGATGGATTAAAGACTTAAATGTAAAACCCCAAACTATAAAAACCCTAGAAGAAAA
TCGAGGCAATACCATTCAGAACATAGGCATAGGCAAAGATTTCATGATGTAGATGCCAAAAGCAATTGCAACAAAAGCAAAAATTGACAAATGAGTTCTA
ACTAAACTAAAGAGCTTCTGCTCATCAAAAGAAACTATCATTAGAGAGAACAGACAACCTACAGAATAGGAGAAAAATTTTGCAATCTATCCATCTGACA
AAGGTSTAAATCCAGTCAAGAGGAACTTAAAAAARTTTACAAGAAAATAACTCCATTAAAAAGCAAGCAAAGGACAYGAACAGACAGTTCTCAAAAGAAG
ACATTCATGTGGCCAACAGTCATATGAAAAAAAGCTCAACATCACTGATCATTAGAGAAATGCAAATCAAAACCACAATGAGATAACATCTCATGCCAGT
CAGAATGGCGATTATGAAAAAGTCAAGAAACAGATGCTGGTGAGGTTGCAGAGAAAAAGGAACACTTTCACACTGTTGGTGAGAATATAAATTAGTACAA
CCATTGTGGAAGACAGTATGGTGATTCATCAAAGATCTAGAGGCAGAAATACCATTTGACCCAGCAATCCCATTACTGGGTATACACCTAAAGGAATACA
AATCATTCTATTACAAAGATACATGCATATGTATGTTTACTGCAGCACTATTCACAATAGCAAAGGCATGGAATCAACCCAAATGCCCATCAAGGGTAGA
CTGGATAAAGGAAATGTGGTACATAAAACCATAATACTATGCAGCCATAAAAAGGAACAAGATCATGTCCTTTGCAAGGACATGGATAGAGCTGAAAGCG
TTATCCTCAGCAAACTAACCCAGGAACAGAAAACCAAACACCGTATATTTCCACTTATAAGTGAGAACTGAATGATGAGAACACATGGACACACTGGGGG
GAAACAACACACACTGGGGCCTATTGGCGGTGGGGGTGGGGGTGGGAGGAGGGAGAGCATCAAGACAAACAGCTAAAGGATTCTGGGCTTGATACCCAGC
TGATGGGATGGTCTGTGCAGCAAACCACCATGGCACAAATCTGCACATGTACTCCAGAACTTAAAGGTTGAAGGAAAAGAAAGAAATATCAAAGACTTGG
TAATGTAAAAATATAAGGACAGCCAAAAACAAAAGAGAGTCTGGTGCCTCCCTCCCGTCTCTTACCATGTGACAAGCCAGCTCCTCTTGCCTTCCTCTAT
GATTGTAAGCTTCCTGAGGCCTCACCACAAGCAGTTGCTGGTGCCATGCTTCTTATACTGCCTGTAAGACCATGAGCCAAATAAGCCCTTTTTCTTTATT
TAAAAAAAAAAAAGAAAAATTATAAAGTACAGAAAGAAAAAACTATTAACCAAGAATTATCTGGCAAAACTGTCCTTCAAAAATGAGGGGGAAGTTATGA
CATTCCAGGGAGCTTGTTGCCACTATTCCTGATTACAAGACATATTAAATGGAGTCCTTTGAGTTATAATAAAAAGATGSTAGTTAACTCCAAGCCACCT
GAACATATAAAGACTCTCCAATAAAGGTAAATAGACRGGCAGACATTAAAACCAGTATTATTTTGTTKCATAGCTCCACTTTTTATTTTCTATAGGATTT
CAAAGAAATGCATAAGAAGTAATTATAAATCTGTTAGTGAATATACAGCATATAGATATAATTCTCAAACCAATAATGTAAAGTGGGGATGGGAAACAGA
GTGGTATACATGTAGAGTTTTGTATGAAATTGATATCAAAATTCAAATTAGATTGTTATAACTTTGGGATATTATATGTAATCCCCATGGTAACAACAAA
GAAAATATGTATAGCCAAAGAAGAATGAGAAAGGAAGCAAAATTTGTCACTATAAAAAAACAACTAATCACAAAAGACAACATAAGTGGAGGGAATTACA
GGGGAAAGCTATAAGATGTACATAAAAACAAATAATAAAATGGCAAAAGTAAGTTCTTCCCTATCAGTAATTACTTTAAAGGAATCAAACCCCCAAAGGC
ATAGATTGGCCTAGTAGATGTTAAAAATAAAAAAGACATGATTCAACTCTATGCTGTCTACAGAATACTTGCTTGAGATCTAAAGAAAAAATTAGGTTGA
AAGTGAAGGAATGGAAAAAGTTATTCCATGTAAATAAAAACCAAAAGCTGAGGTAGCTATACTAAATCAAACAACATAGACTATACAGTGATAAAAGGGT
CAATATACCAAGAACATATAACAATTATAAACATGCATGCACCAAACATCAGAGCCCCAAAGTATATGAATCAAACATTGACAGAATTGATGGGAGAAAT
AATTAGTTCTATAATAGAAACTTCAGAAACCCACTTTCAACAATGGATAGGACAACTAAACAAAAGATCAGTAAAGAAACAGAGCAACTGAACAATACTA
TAAACCAATTGGAGCAACAGACATACAGAGGACTCCACCCAATAACAGCAGAATACTTGTTTTTTCTCAAGTGCACATGAAAAATTATCCAAAAAAGGAC
TATATGTTATGCCAAAAAATAATTCTTAATACAGTTCATAAGAATGAATGTATACAGAGTATCTTTTCCAACCACAGGGAAGGAAACTAGAAGTCAACAG
CAGAAGTAAACTGGAAAATTCACAAATACRTGGAAATCAAACAAAACACAAACAGTAAATCAGTCAGAAAAGAAATAACAAGGAAAATTAGAAAATACCT
TAAGACAAGTGAAAACAAAACCACAACATACCAAAATATATGGAGCACAGAGAAAATAGTGCTAAGAGAAAATTTTATGGCTGTAAATGCTTACATTAAA
AAAGAAAGACTTCAAATCAACAACTTAACTTCACACCTTAAAAATTTATAGAAAATGAGCAAACTAAACCTAACGCTAGCAGAAGAGGATAATAAAGATT
AGAGAATAGTAAAGAAAACTCAGCAAAACCAAAAGTAAATTCTTCAAAAAGACTAACCAAAATAGACAAACTTTTAGCTACATTGGCAAAGAAAAAAAGA
GAGAAGACTCGAATTCCTAAAATCAGAAATGAAAATGGAGACATTACTACCAGTCTTACAGAAATAAAAAGGATTGGCCAGGCACGGTGGCTCATACCTG
TAATCCCAACACTTTGGGAGTCTGAAGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAA
TACAAAAATTAGCCAGGTGTGTTGGTGGGTGCCTGTAGTCCCAGCTACTTGGGATGCTGAGGGTCAGGAATTGCTTGAACCCAGGAGGTGGAAGTTGCAG
TGAGCAGAGATCACACCACTGCATTCCAAGATTCTGTCTCAAAACAAAAACATAAAAAGAAAAAGAAAAAAGAAACCAAGTATTAATCAAAAGTAAAGTA
GACTGGAAAATTCAATCATGGTATGTTCATAAAATAAAGTGCTATACATCAATGAAAATGAACTTCAGTTATATACAYAATACAYAGTAAGAAAACACCA
AATACAAAACAAACATGAAATATGGTTCATTTATGTAAATTTCAAAAACAGGCATAAACTAAACTGTTTTAAAAGTTAAGTCTCAGTGGTTACATGTGCA
GATGAGGAAAGAGACTAGAGAGTAGACACAAAGTAGGCTCCTGAGTTGCTGACAGCATTTTATTTCTTCACGTGTATACAGGACTAGCTACATAATTTGT
GGGGCCCAGTGCAAAATGAAAATGTGGGGCTGCTTGTTCAAAAACTATAATGAATGTCAAGGTTGACAGTAGAGCATCAAACCAACCACAGTTTCCTTCT
AAGGGGGTAGAGACATCCATGCAGCTAGCTTTGCTTCTCTACAGTTGTCCCTTGGTATCCACAGGTGATTGATTGGTGTCAGGAGCACCTGCATATATCA
AAATCCACACAAACTCAAGTCCTGCAGTCAATCTCACAGAACCCGCATATACAAAAAGTTGGCCCTCCACATACATGGGTTTCACATCCCAAGACCTTTG
GTTGAAAAAAAAAAAAAATGTATAAGTGGACCTGCCCAGTTCAAACCCATGTTGTTCAAAGGTCAACTATACTCACTCTATAGTAACTCACTGAGATATA
CTTCATGTTTTAATCACTTTTTTTTTTTAGAGATGGGGTCTCACTATGTTGTCCAGGCTGGAGTGCAGTGGCTATTCACAGGCATGATCATGGTGCACTA
TAGCCTCAAATTCCTGGGCTCAAGCTTACTCTTGCCTCGGCTTTCTGCATAGCTGGGAATACAGGCATCCACCACCACACCTGGCTGTTAATCAGTTTTC
TGTATGCACACTGTACTGCACAATAAAAAGTTATTTTTTGGCCAGGCACGGTGGCTTACACCTGGACTCCCAGCACTTTGGGAGGCCAAGGCAGGCAGAT
CACCTGAGGTCAAGAATTCAAAACCAGCCTGACCAACATGGCGAAATCCTATCTCTACTAAAAATATAAAAATTAGCCGGGTGTGATGGCACATGCCTGT
AGTCCCAGCTACTTGGGAGGCTGAAACAGGATAATCACTTGTACCTGAGAGGCAGAGGTTGCAGTAAGCCGAGATTGCGCCACTGCACTCTAGCCTGGTG
ACAGTGAGACTCCATCTGAGAAAAAGAAAAAAAAAGTTATTTTTAAAAATACGGTTAAAGAGAGAAATTTTAGCCACTCAGGAGGCTGAGGTCGGGGGAT
CAATTGAGCCTGGGAGGTGAAGGCTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAAAGAGACCCTGCCTCAAAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAAAAAAGGTCCGTTTATGTGTATTTTACGATTTAAAAAAAATCCCAGTCATTGGTGTTAAGGGGGCTTTTTTTTTTTTTTT
TTTTACATTTACCCCAACCCTCCATGTGTTTGTGAATAATAGTGTCAAACTGGGCCCTTCAGAGTCCAGAAGAGCAATAATTCGCCTTGGGCACAGCTGT
CTGACCCAAGAGAGCTACTTTTACCTTAAATCCTGCTCTTTCAGTGGTTCTTAACCTTTGAGGTCATGGATCCCTCTGAGTACTTGATGAAAGCTAGAGG
GAACCTCTTGCTAGAAAAAAGCCAATAAACACAAAACTTTTGCTTATACTGTTAAGGATTAACACCCCAGCACCAYCCCCAGTGGAACCCTAGGGATCCA
AAGACCCCCAAGTTAAGAGCCTTTGTTCTAAAGTGACCTCCATGGGATGCGTATCCTCTTGTTTTACTGAAATAGCAGATGTTGGCTASATGTTGGCTAA
AGGCCTGCTGCTTTTGTATTTCACAGACAGTTGTTGCTAGGTGTATTTACTGTGACAGGGTCAGGCTCCATGAACTCTGGGGAAAGTTTAACAATCTCCA
TGAGCACATAGCAAGAGAATATGAGGGAGGACTCTGCATACCTRAGTCTGCTTTCTGTTCAGTCATCCTAGGTTTAACCTGCAGAAAATGAAGCCAGGGT
AAGAAAGGATGGAGTTGGTTATTTGGATGACTTTAGCAAGAAAACGATAAACCATATTACCCTCTCTGCACCGAAGGGGTGGAGCTATTTAAGGGTCTTC
AGTTCTAAAGTCTACTGCCACATTCCTAGCATATTATGCCAAAATATCTTTCATATGATTAATCTGAGAGGAGCTTGACKTTCTCTTACTGGTTCTACAC
TACCATTAGCCATTTGCTGGCAGAATGCCCACAGACCACAGGAAATCTAACCATCCCATAAAGAAAACGTATCAGTGAGTGTCTTTTAGTTAGCCCAAAG
AGGGGAAAGATGAATGGTCTGAGAGCCTCCAACAAGACCTACACAAGGATCGTGCATGCCATGCAGCCCAAGCACGGCGGCCTCCACCCTTGACTTGGCT
AATGTGCGGTATGTTACCTTTTTCTGCTTTCCAGTGCAATGGGCCTTGCATCGGGCCTCACCTAGCTGTGCAACACAGACAAGTCTTCTGCCAGACACGG
GATGGCATCACCTTACCATCAGAGCAGTGCAGTGCTCTTCCGAGGTAAGAGAAAGCCCTGAATCTCCTTTTCCCAGCCCCATGTCAACAGCACGGAAAGA
TGGTGCTGAGTGAATGTTTCTCCTCCAACTAACTTACCACAGTCCCAAGCCCTGCCTGGGACTCCATCTCCATTCACCGCAAGCCACTGGCCTCCCCAGA
GGCAGATGACTCAGTGTCGGTCTTGTGCTTATCTAATGGGCTAGGCTGGGCTTTTCTCTCTTAGTGATGAAGAGTGCAAGGGTGTTATTCTTCTGAGAGA
GGCCTCATACCTCGAGAGACCTGCACTAGCCCCAGGGTGGTCAGGAGGTGAGGTCTGCACAGCGGCCACCAAGTCTCAAAGGCTCAAGCCCCTCACTCTT
GTTGATCTCCCTCTAGAAGTTAGGCTAAGATGAGAGCCCTTGTTCCTGAGTCTCAACCTACCATTCCTATCCAGTCCCCATCCTTATGACACTTCCTTAT
AGATGTCCCCCTGGGGCACGGGGACTCACCACCCCCACCTAAGAGCCCAGCCTGTGAGACCAGGCTCTGCCGGTGTCCACATGGGGAGAGCTCATTCTTT
AGTCATGCAGTGAGATCCTTATTCATTACAGAGAAGAGCAGATGGAGGCCCAGTAAGAGGAAATAGTCTTCTTGAGATCATATGGCCTTTTAGTAACAGC
ACAGAAATCAGAATCCAGGTCTAGTAACGCTGAAAGTTCTTGAGGAACCACCTAACATTTCTGAGTTTGCAGCACTATTTTCACATCTGCCCTGATTCAG
CCCCCACAGAAGCAAACCTTAACCCTGCCACCATCCTCCTGCAGGCCTGTGAGCACCCAGAACTGCTGGTCAGAGGCCTGCAGTGTACACTGGAGAGTCA
GCCTGTGGACCCTGTGCACAGCTACCTGTGGCAACTACGGCTTCCAGTCCCGGCGTGTGGAGTGTGTGCATGCCCGCACCAACAAGGCAGTGCCTGAGCA
CCTGTGCTCCTGGGGGCCCCGGCCTGCCAACTGGCAGCGCTGCAACATCACCCCATGTGAAAACAGTATGTTCCAACCCCAAAGAACCTTCTGCAAATTC
CCCATAGAGCATCGAGTGCAGAGAGCAGTCCCTGGGACCGACCCTGAGCATAGGGCATGGGGTCAGCTTCCCCAGGGATTGTGAGCTGGTGGTGGAGTTG
AGCATTTTCAGTGGGGTGCATGGGTGTATGCAGAGAGGTGTATATAAGCATGACAGGGTATGCCCCAAGGGCTTCCAYGATCTCCATCCTGGCCCTGAGA
GAGCCAGGTGCTATTGGCCCAGTGCTGGAGGAAATCAGCCTCCAGTTCCCCTGCAGTCAGTCTGGCTGGTGCCCACAGGGTCTGACTCATCAACAACTCT
CAGGGGCCAGGCTACTAAACAGAAAATGCTGTTAACTCTAAAGGAGCACAGAGTGCCTCCTGCTCAGCCAACCAGATCTGCGCCCATCACACCTCTGCTT
CTCACCCAACAAGGACCAGCTGACCCCCTCCCTCCCAACCCCACAGGCATCCCCTGGAACTGTCCAGGACCCCCCAGCCTTGGAATTTGATACTCACTTC
ACTCCTTCCTCGTCATCCCAATACCATCATTTGTATTCCAGTTGGGAAGGAGTTTATTTTTTTCTTCCTCTGAACCCAAATCAGAGGTACTTACCCATGA
GAAAGGYGGCAAAGCTTGAGGCAAAGAGTAGGAAGTAAAAACCAAATGTAGCTGTGCAGTTTTCTCCCCAACTGGGCCTCMCTGAGCAATAAATTCCCAA
CACTAAGGCAGACGCCATGTAGGCAAATAGCCCACTTCTTTTTACACGCTGGGGGATGGATGATCTTTGTACTCGGGTAGTGTTAACCCATGTTTGTGTC
AGTGGCTCACCATGCTCAGAGAGCRCCAATATTCAACGCACATAGTTAAAACTTACCAAACCAAGTCAGCACAATATTTAAGACCATCTAGTCTGTGCCR
ACACTGAACTAGAACGTCCTGGTGCTGTGTTTAAGGCATGATGGGTAGAAGGAAGAGAGACTGGAGGGCACATGAAAATAAAGCTTAACAGAGAAAGTAG
GCCCAAGTGCCTGGGGATGGGGGCACCCGACGCAAGTCTCACTTCACACTCCTGCAAAGTYGGGGAGGATGCAGTGCTGGGAACCATCTTGAGGAGGAGA
GTCATTTACTTAAAATACCAAAACCCACGGGAAAAGGCAGGTTTGCCTAGGGGGAGAGGTGATCACCTAGGAGATGAGGTAATCCCAAGAAGATAGAGAA
AACAGGCACCTTCAGGAAGTAGAGGGAGCTGCAGAAAACAAGCAGACAGCCCAGGGAGGGGCCCCATCATTCAGCCAGACAGCTGCAGGCTGGTGCCACC
CCTGCTGTTGGCAGCCTTGGGGAGCAAGTGGCTGAGCTCTGTCAAAGTTAGGCTGGAGAGCGGTGGCCAAGGCAGACCCCAGGATGTACCCCAGTGGCTG
AAACCCCCGGCTGCACCTCACACAGGCTGCGTTCATTAGTCTCTGTTTCACATCTCTTTTCTGTCTCCTCTCCCGACCCCGTCCTCCTTTCCCAGTGGAG
TGCAGAGACACCACCAGGTACTGCGAGAAGGTGAAACAGCTGAAACTCTGCCAACTCAGCCAGTTTAAATCTCGCTGCTGTGGAACTTGTGGCAAAGCGT
GAAGATAGGGTGTGGGGAAAAACTCTACCCTGGCCACACGAAGGACTCACGCAACCACCTCGGACAGAACCTAAGCTTTCTTCATTTTATTTATTTATTT
CCCCCTCCCCACTCCACACACACCCTTCCAACCTCCTCCACCTCCACCTTCAAGCATAAGGACGTCCGCGTGTTTTCTCTTTCAGTTAGCTGGAGGACAG
GATGTTGGGAAAGGAAAGGACAGATGTCTAAAGGAGGTTGCAGAGCAGGCCAGGCAGACAGTGGGGGCTCCCTTGAAGAGCTTCCTCCCTCCCAAACCTG
GGTCTCAAAGACCTAGAAAGAGGCAGGCACAGCCCCTGCGGACAGCAGGGAGCCAGAAGGTTTGTAGCCTATTGGTGCAAACATTGGACAAATTCCTGTG
TCTTTCCTAGAAGCGCACTATCACAAACACAGGAGTGTTTTGCTCCTTTGTCTCCTCTTCCCCATCTATGTCCCTTTAGTCACAGTTAGGACAAATGGGG
AGGGGACACCATGCTGAGGCAGAAACTAGCCCAGAACTCACTCAGTTCTTCTAGTGGGTGAGTGCAGAGAGAGAAGAACTCAGATCACCAGTAGGGAGAG
GTAAAAAAGCAAACAAAGCAGGCTCTAAGGCACACAACATTGCAGAAAATGAGGAAGGGAGGGGAGGGAAGGGACAGAAGCAAAAAGGAGCCTGTGGTGT
TCCCCAGTGGGGCAGGGTGAGCAGGGGCTTCCAGGCTGCATGAGGCTCATGGACCAGCTCTGATCCCATGCATGTGCGCATGCTCAGAGCCCTGCTGCCC
ACAACAGAGCACTGCGCTGCGTGGGAGTCCCCACTTCCCARGCTATCAGAGTCAACGTCCTGCCTGTGCAGCTGCAGCAAAGCCAGTGAGAGGTGGGTCT
CGCCATGCAGTAAGGCCACCCTGGCACCTCTTTATCTAAATCCGAAGTCCCCTAGCCCCGCACTAACTAACTGCTGCTGTGGGCCAGGGCCATTTTGAGC
ATGAATGGCCCAGGTTTTTTGCCTTCTAGGACCTTTGCTGCTCCACCGAAGGGCCAGGGACTATGGTTAACTTATCAACATCAACCCATTAACTAGTCAC
TGTGCCAGAGAGTATCTGTCAGGCTGTCAGGCTGTCAGGTTGTAGCAACCTCTTCATTCCAGAGCTRGCCCAGGGACCGGGGTGGGACAATGGGTTTATG
CGTGTCCACAGTACACCCTCCCTCTCCCAGCCTCCACCCCAGGGTCTGCAGGTCCTCCGGCATGTAGTATTTATCTAGCAAGGCGGGGTGGTGGAGGCAG
CACCCTGGCAAAGCAGCTCACACACTGCAGCCACACTCATCAGCTGTGGTGAGGCGGCTGGAGCAAAGTCAAAGTCATGCAGCAAAATGAAAACTCTGGG
ACTCTTCGGCAAAATCCTCATTAAGCCGAGCAGCTTTGGCCAAGTAATTTTTGCCTCCTTCCCTCGCGTGGCCTGAGTTTAGGAGCAAGGGTGGCCAGAG
TCCCTTACCCACAGATAAGCCTCCCCTCATGAAATGCCACTCACCCCGGGCTACCATTGACATCAGGGCTGCATTTCCAGCCAGCCTGGAAGTAAAATTT
GAGAGGAAGACAATATTAATCTGTGTCCCCACCTAGTGAGCTGTGGACAGGTTTAAGTTGGGTCTCCTTCTTCTTCACCACAAAAACAGGCTCTAAGAAA
TCATGTTACTAAAAAATCAGTGTAAAGTCTGTTTAAAATAAAAAAGAATGTTTTCTATGTCTGTATATCTTTTGTGAATATTTATTAGGATTTCTTATTA
AAAAAGTGCAATATTAATAATTGTACATTGTCATCCAGAAACAAAACTATTGGGGGGACTTTATTAACTAACTTCCTGCAGTTSTKTTCCTGTAAACTCA
GTAGTGATTATTATATTTTTCCTATTTTTAATAGAACCTGGTGTTTAACTCTGGATCCATTCACTGTACAGGATGTGTTGTAAAAACTAACATGGGATGC
TGAGGCAGTAAGAGGGAATTCATTTGTGGCATAATAGTTATGCATGGAATGATAAAGACAGACAAATTCCATACTACTACTAATGTGGTTAATTATTTCT
AGTTCGATAGTGATTGAAAATCAGTGGTCACTATTTACATTTCCTAAAGAGCAAGCATCCTCCAGCTCCATGTTGGGTTGGAGCAGTTGGCAGTGGGTCT
CAGTGAGCTGGCAGAACCTAGGTTTGGGTGGGAAGCAGAATGCTCGTTGCATGAAATGAATGTACATTTAATGTTTGTTCTGTGAATTGCAACTCAGCAG
CACCACAAGACAATGAAGGCTGCTGGCTAATGTGGAAGGAGGCACTTTCTCCTCTAAAACACAAAACTGTATTTGTATTTTTTGTACAGATAATACAGCT
TATTTATTTAAATCTTGTCGTCTGAGTCTCTGTTAAACTCAGCCTTCCTTCCCCTGGTGGTTTATGCAGGGAGCAAGAGAAGTCCCTGTCAGTTGGGTGG
TTCCCAGCCAGTTATTTGCGTCTGGCTGAAGTGGAAGGATTGCAGTTTTCATCTTTACACAGGAAGCTGGGGGCCCATGCCTAGAAGTGCTAGCTCTGTA
AATAAACCCAAAGAAGCTGCGTTTGTAGATGTACACACATTCAGGCTGAGTGAGTGCAGCCAAATGAGACGACAGTTAACTCACTGACAGCCCTATGTGG
TGGGAAGATGGAAGCCACAGTACCTTCGGGAAGTGAAGCAAACAGGGACATCGCTTGGGAGAGATGCAGACTTGGGTGTGGAATTATCCTCACTCATCAG
GCTTCCTACCAACAGAGACACACACAGCGGGAGGCAGCTGCATGGTGAAAGTTCGGATGTATGCTATTAATAAAGACTAACACTTATAGATCACAACTAC
ATTTAATCCTCACATTAGCCCTATGATTATCTCCATTTACATATGGGAAAATAGCAGCCCAAAGAAGCCCAAGGTCACCCAGCTGGGGGAACTAGGATTG
AAAGTCAGGCAGTCCTACTCTAGCCGAAGACTCGATTTGACCCACCATGCTGCCTCCAACCCCGCTGCCTGCAACTGCTGTGCCACAGCCACCTTTGGCA
CGCATGCCATTCTTCCCTACTGCTTTAAGGTCGGTCAATGACAGTAACAGGACATTTTACTGAAATTGTCACTTTCTCCTACCCTAAAGGCAGTTCTTTT
ACCATGATAGCACTTCTAGCTCCCTATTTTTAAAGCATTTTAATAAAAACAGCTACTGTAGGAAGTGCGGGGGGGAAACAAGCACACCTGTAGAACTCTT
TATAAACAGGCCCTAGTGAAAGGGCAGCATGTTGCCGGGCGGAGAAGATGTCCATGCAGAGTCTATGGTGAGAGCTGCTCCAGAAAGCCCAACTCCAGCC
GGTCTGCCAGCAGCTCGCCCCGGCACACCACAGGCCTGTCGAACAGTGTGAAAATATACCAGAAAGCTCTTCTTGACATTTCAGTTACTTTTTTAAGAGG
TTTTAGGTTTTGCTTTAAAGAAAAAGCCAATGCTAAAACTATACCTATTCACAGACCAGCAACCAAACAATGTCTTACAGAGGCCCCACGGCAGGAGGGA
GGAGCTGGAAATGCCAGAGCAAAAACCCAGTAAGGCTCAAATGGTGGGAAGGGCCCCAATACAATGTATGTAAATTTTTCCAGCCAAAAGCACAGAGTCC
TTGCTTAGCCTCAAAGATTTCCAGGAAATCCCTGATCCCATTAAGATCAGAGTGGTCGACAGTCACTGAATCTCATTTATGCCTCAGTTTCTTCTTCCTG
CAACAGCATACCTCATCAGGTAGGGCTGTGTGAAAACCATTAGTTAATTCACATTGAACTGCTTGAACCCAGGAAGCAAAGGTTGCAGTAAGCCAAGATC
ACACCACTACACTCCAGCCTGGGTGACACAGCAAGACTCCATCTCAAAAAAAAAAAAAAGCTTGGGGGGTATCTGGCATATCATCGAAGCACTTATTGAC
TGTTAATTGCTATTATCATCAGCATCATCTAAGTTACCTTGGAAGAAACAGGGAGATGAAGGGCAGGGCTGACAGAATTTTTGATATTTTACATTACTTC
CCATTGTCAGCTTTGAAAGACTCTCCCATGTTTCCATTTTTAATTGAGAAGAAAATCAATTGCTCCTTCAAAGCTCAATACTACACAACAGCCAGGCACA
GTGGCTCACACCTCTAATCTCAGCATTTTGGAAGGCCAAGGCAGGAAGATCCCTCGAGGAGTCTGAGACCAGCCTAGACATGGCGAGACCATGTCTCTAC
AAAAAAATTTTTAATTACCTGGGTATGGTGGCTCACACCCGTAGTCCCCAGCTTCTCAAGAGCCCTGGAGCTCAAGGCTGCAGTCAGCTATGGCCAGGCT
ACTGCACTCCAGCATGGGTGACAGAGTTAGACCCTATCTCACAAAAAAAAAAAAAAAAAGAAAAAAAACTACACAAAAGTATAAACAAGAAAGACATCAA
TGAACCAAGTTCTATGTGTTGGAAGAAAACCTATCAATCCAGGTAGCCAACTCAAAACCTCACCAAAAAACTGACAAACTTCCAGAAATATTACCTCCCA
GGAGAAATGTTATAATTCCAATGTACTGCCTAGACTCAACTCAGAACACCCAAATGTACACATAACTACCATTTCCTTCAAGTAACTAAAAAGTATGGAG
AAATATTCATTCATGGGCAAATATACAAGTAAAAGCTAAAACTAAGGGTATTTCACTTGCAAGTGGTTGAGTTTTTCATAAATAACATGCAGTTATCCCC
TCACTTCATCCTGCAAATGAACCCAAAGAAATAGTCCACCTTTATTGATGGTTTTCAGCTAAAATGAGACAAGTTAGATTTCAATCATCTGTTAGTGGCA
TTCCCAAAAGAATTCAAAGCCATCTACAAAGGGTCAGGGAATGGTGGGGTAGAGAAAAAGATGGAGCACTTCAGAAGTAACCTAATGAAAACTGACCTGT
TAGGTGAATTAACCCAGGGAAGGATAAATCAGGAAACAAAATAAGGCATAACTCCCCTTTGGTCTTGTCTCTCTGTGTTCCTCATTTTGTTCCGTAAACC
CACTATAACGTATAGACTTCAGGATTCAGATTCAGTCTGCACTGAATGTGAGTTAAATCAGAGAAGGTTATATCTACCCACATCACATACTGCCAATTAG
GACAATATTGGTGTTGATTGATGTAAGGCCTTGAAGTAAACAGTAAAGACTTGAATACCCAAAGAATTCTACAATCCTCCAAGTTTAACCTCAAATTATT
GTCTGCTCCCCACTCACCCAGTTCACTTGGAGATGCTTTTACAAATCAAATGTGTATGAGCTTGTCAGAGACTGTTCTCTTTGGCCAAACCTCAGTTTAT
TCGTAGCACCCCAAGATTTTCAGCTGTTTTGTTGCTACCCCAAAACTGAAAGGCAGATATTGGTAATCAAGCCTTTGCTAAAAGAACTGGGCTGCTGCCT
TGTCAACTCGTTTTACAATTTCACTCAGATTCTGTAAAGCACCTGGTCCCAACCAAGCACGTGTCACACCTCTGATAACACAATATACAGATGTCACTCA
CCTCTGTGTTTTCAAAAGGCAAATTCCATCTCCAACCTAGGATTTCCCAGGCTGCCCCTAAASATATGGTTTATATGTGTATAAACAGAAATTAAATGTG
AGGTTTTATGTGAGTGAGGAAAAAGCAGACAGTCAGGAATGGTTCTCCTGCCGAACATAAATAATGTTTGTTTAAGCAGAATGCTTAGGAGAGCCTGAGA
GAYTGCATGATCAACATTCAGACCAGAAAGCAGAAAGCCTGGGAAACCTGCCTCCCTCTCCGGAACTTCATGATGGCCAGGGTGGCTATCGTTAGAATGT
TACGTTACAAATCCTGTGAAGCATAGTAGACAAGCTGTGAACAACTTAGTTACCAGGTGAGCAAGTTGAGGAAATGTCTAGTGGTGAAGCCCAGGAGTGT
AGTGATAAAGCTTGGTTTTCTTCTCCTAAGCCCTGATCATCATTTTTTAAATAACAGTAGAAGGGCCAGGAAATGGCTTGGCTGAGGCTAGTGAAGAATG
GCAAAATTGTTCTTCAGTCACCCATCTACAGACAATCCCTGAATTACGATGGTTTGACTTACAATTTCTCAACTTTACACAATGGTGCCAAAAAAATACA
CGTTCAGTATACTTCTTCACTGACAGTGGGGCTATGTCCAAATAAACTCGTCATAAATTTAAAATACTCTAAGTCAGAAACACACTTTTCATTTCTGATA
TTTTTGACTTATAATAGGTTTATCAAGACATAACTTGATTATTGAGGAACATCTGGGTTCTGTCTCATGGCTGGAGGTCAGCATGTCTCAGTGCCAGAGC
ACAGGGCAGGTGCCAGCTCCATGGACTCCTGAGCTGAGTTTCTTCAGCCTGCACACGCCCCTCCCTACTACAGTGAAGAGATTCAAGGTAACCCCCTAAA
AGCAGGCCCCCATGACCTGAATCCTCCACACTCTTTGCACAGTGAGGGTTTGCCTTCGTACTTGGCCAAGTATGAAGCAGGGATGGAAAACAACCAAAGT
CCTCATCTAGCCCTGGTGGTCCTCGCTCAACCCTTCCCAGATGAGTGTCCATCCCTTCTCATCTCATCTTCTTCTCCCTGATTTCTTTTTCCATGACATA
CCTTTCCTTTTCCTCAGAGTTTAACACACTTTGCTAAGCACCAACTCTGGGCTCCAAGGACACAGGGATGAGAGCCTAGTCCCTGCTATCAGGGAGCTCA
CAGTCTAATTGGGAAACAGACACATCCCACAGCAAATGACAGTGTGTCCTACCACAGTTATGAAGTCCAGGTTCTGAGGAATCTCCAGCTCTTCTCCCTC
ATTTGGCCCCTTCCACAGTCAGCACCCAGTGATTGCTCTATTTATTCGTAATCTTCTCTCATTGAGGCATTTGCAAAGGTCTTCTAACTGGATTATTTAA
ATCTACTCTGGTCTCTACCAATCCACTTTCCACACAACAGCTAAAACTATTGTTATATTGCCTATAAAACTTCAGTATAAACTGATATATATGTATAAAA
TTAACTTAAATCTGTACTCTTGGGGCAGTTAGATAACATTTAAAACACCCAATCATAAATCCACCCTCCAGAAGTGGCCATCCGAAGTATTTCAAATATT
ATTATCTAAATCTGCACTAGAAAGTTCATTAATTATACAAAGTTTATTAGTCACACAGTAGTAAAATACGCTGTGTTTGAGGACTGGAGAGAAGAAACGA
ACATGACTACCCTTGTACAGATAATCTGAGAATCCAGCTACTATCGTTTGAACGTGCCCCTACTCACTCCAAAATTCAGCTGTTGACAATGTGGTGGTAT
TAAGAGGTGAGGCTTTTAAGAGGCAATGAGGTCATGAGGGCTCCTCCTCTCATGAAGGGGGTTAAGCTCCCTAAAGAGACTTCACAGAGGGAGTCCATTT
CCTTTCTGCCCTTCTACCTTCTGTCATGTGAGGACACAGCATTCCTCCCTTCTGGAGGATGCAGCATCAAAGGCGCCATCTTGGAAGCAGAGAACAGTCC
TCACTGGCACCTTGATCTTGAACTTTCCAGCCTCCAAAACTGTGAGAAATAAATGTCTGCTCTTTATAAACTACCCAGTCCGTGGTACTCCTGAGAGCAC
AAATCAACTAAAACACCAGCAAACCCAGTAGCCTGATGATCCAAGTCTAGTGTTG


SNP Information

Context             (SEQ ID NO:22838):
TAATGCATAGTAATAGTCAGTCTGATTACAGTCAAGTCTTTAGGAATGGGACCCTTTCTATATTTTTAAGATAGTCTGTGTATAATTGTGTTGTCAGATG
M
CATTTTCCTTCTGGTAACATTCTCAAGACCTAATACAAATGCTATATGCATTTCTTACACCAAATTATATAATTAATTTTCTTAATAACAAAGACCAAGT
Celera SNP ID:            hCV1440491
SNP Position Genomic:     64320
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22839):
CAGAAGTGATTTAGTTTATTGGAAACCATGTGGCCAACTGAATGTTATAGAGCTGACTCTAGTAAAACAGAGGCTTATCAGGCTGGCTCTGGTACAAGCC
R
ATATTGCTGATTTAATTTGGCTCACATGTGCTGGGCACCTGCTCTGTCTGCCTGGCCCTGAGCTTCTGCAGGCATGTGCCTGGCCATTTCCTTCATCTAG
Celera SNP ID:            hCV2008489
SNP Position Genomic:     380501
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22840):
TTGCTATTAGGTACATAAGTTATGGATAAAATGTTTACTGAATGATGAAATGAATGAATAGATGAAGAATGCTCCTTATAGGCCCTGAAAATGCTGACTT
K
ACATCTTCCTGATATGTTTTTTATGGTTATAGGTCTTAATATCGTCCTAGTCTTGAAATGCAGTGAAACATCAATGTCTTTTTGATAGCCACACGTGCTG
Celera SNP ID:            hCV8020530
SNP Position Genomic:     287895
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22841):
ACATTTTTAAGTACAAGAGTAAAGCAAAGCTAAGAAAAAGATTAGAATATGGGACTTGTGAAACCCACAGGGATGGCTTGTCATCTAACTCCTCTTTCTC
K
CCCATGTGAGGTAAGACCACAAGTAACCATCTCTTATGCACAGACTCCAGTTCTAGTCCCTGGGTGTTCAGCATCCAGTCTGAACCACAGATGAAGACAG
Celera SNP ID:            hCV9273817
SNP Position Genomic:     54605
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22842):
ACAGCGAGAGTCCTACAGAACACAGGGACCTCCCACCAGCTGCCTTGTCTACACTTCATCACCCCCCACACACACACCCACTTTGCACTCTGGCCTGACC
R
TGTGATTTGTACACAGGTGTCCAGGAGGCTGTGGTGAGCTGCTTGAACAAACAGACTCGGGAGCCTGCTGAGGAGAACCTGTGCGTGACCAGCCGCCGGC
Celera SNP ID:            hCV25971169
SNP Position Genomic:     254247
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,24)   total(A,1|G,55)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22843):
TGTTTGGTGTTAGTATTAGCACAAAATGGCCTCAAACGATGAGTAGAGAAGTAATTGCTTGTCTTCTTTTTTTCTGGAAGAGATTGTATGGAATTGAATA
T
ATTTATTCTTTAAATGGCTGCTACCATGCCCCAGTGAAATTTTCTGGATCTGGAGATTTATTTTTCAGTATGTAACCTTATGAACTTATGGAACACCATT
Celera SNP ID:            hCV11259155
SNP Position Genomic:     162504
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22844):
TATAGAGCTGACTCTAGTAAAACAGAGGCTTATCAGGCTGGCTCTGGTACAAGCCGATATTGCTGATTTAATTTGGCTCACATGTGCTGGGCACCTGCTC
Y
GTCTGCCTGGCCCTGAGCTTCTGCAGGCATGTGCCTGGCCATTTCCTTCATCTAGTAAGAGGGGATCCCCATTGCACAGTAGAGTCAGCTGGGAAGTTTA
Celera SNP ID:            hCV2008490
SNP Position Genomic:     380546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:22845):
CAGTTGAAAAGTGAAAGCAGCCATAGACCATAAGTAAATGAATGGGTATGTCTGTGTTCCAGAAAACTTTATTTACAGAAACAGGACTGGATTTTGCACT
Y
GGGCCATTCCCTTTGATAATATCAGCCTATCTCAGATAAACGAAGCAAGAAAAAGGAAAGAGATTTTGCCAACTAATGAACCAAAACTAATGAAAAGAGC
Celera SNP ID:            hCV2008491
SNP Position Genomic:     381316
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22846):
GAGCTGAGCTATGGTCAAACCACATAACCTCAATGAGTCTGCCTTTCTCATCAACCTCAGCTCTATGTCACCAATGTGATACTTAGCCTATCACACCTTA
Y
ATTATTGGACATATTTCTTACGTCTGTCATGTCTCCCAGCTAGATCTAGGTCCTGGGGATAGAAGAGGCTGCATAAGTATTTTTAAGTGATTTAAAACAG
Celera SNP ID:            hCV2008492
SNP Position Genomic:     381533
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22847):
CAATGTGATACTTAGCCTATCACACCTTATATTATTGGACATATTTCTTACGTCTGTCATGTCTCCCAGCTAGATCTAGGTCCTGGGGATAGAAGAGGCT
R
CATAAGTATTTTTAAGTGATTTAAAACAGGACTAGGTGGCAGGGCCTTGACTTGGAAGGCCTCTTGAATTGTTTTCATCTCTCATTTCTATTCTAATTGT
Celera SNP ID:            hCV2008493
SNP Position Genomic:     381604
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,12)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22848):
CAGCAAGTTCTGATGGTCAAAGGTTAGGTAAAAATTAATCCACACTGCAGACCCACCCAACAGGTGGCAAGGAAGGTGATGCCAAGGAAGGACAGGGATG
Y
CGGGAAGGGGAGGACTGGCCCCCTTGAGGAGTGGGAAAGGAAGACGGAGGGAAAGGGAAGGACTCATGTCAAAGAGACACAAGTCAGCATCTGTTTCCTC
Celera SNP ID:            hCV2008494
SNP Position Genomic:     382036
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22849):
CAGATGGGGATTAGACAGGCCAAGACAGGAACATAGGTGAGAATTAGACATCTCTCCATGTGTGACTGCCCAACAGGTTGTTTTTGCCTGCTGGCCAGGT
K
GAGCCAATTTATTAAGACAGGGGCATTGCAGAGCCAGCTGAATGGGATACCAGCGTTTTAGTACTCAAATCAGTTCCCCCAAAATTTGGAGTCTAGGGTT
Celera SNP ID:            hCV2008496
SNP Position Genomic:     385692
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22850):
CTCAATTTTTTTTCAATTTTTTTCTGTTTTTCACAATGGATAATTTATGTGGAACTTCAAGTTTACTGACACTCCTGCCAGCTCTAATCTTCTGTTAAGA
Y
TGTCTAGTAAATTTTTCATTTCATTTTTCATATTGTTAAGCTCTAGAAGTTTTTATAGTTTCTACTTGTCTACTGATACACGCCATCTGTTCATTTATTA
Celera SNP ID:            hCV8769305
SNP Position Genomic:     402464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22851):
CAACAGGTTGTTTTTGCCTGCTGGCCAGGTGGAGCCAATTTATTAAGACAGGGGCATTGCAGAGCCAGCTGAATGGGATACCAGCGTTTTAGTACTCAAA
K
CAGTTCCCCCAAAATTTGGAGTCTAGGGTTTTTCAAGGATAGTTTGGTGGGTTAGGGAATGGGTACAGCTGATTGGTTAGGGATGCAATCCTAGGGTTGT
Celera SNP ID:            hCV2008497
SNP Position Genomic:     385762
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22852):
GATTTTAACCTGATGCACGTACATCTTCAGTTGGGCAAAATCTCAAGAGGAATTTATGCAGATTTTGGGAGCTCTTTTTCTGTGTAGCACCCTCAACTCC
R
GAATTCTGCTCAATAGTGTCCAGTTGCCTCCGCCTCTTCAAACTCTCTTCTTTGTCTCATCAATTTGTCTAGACTATTGTGCTCTGTTTGGGATATCCCT
Celera SNP ID:            hCV8769306
SNP Position Genomic:     401212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22853):
AAGAAATCAGCATTCAAATAAAACAAACTTACTGCGTTACAGACTTTGAGTTGTCTGTAGTATTTAATGGATAGACAAGACACTTATTTTCAGAGCAAAA
R
CTGGTTGGAGAAAGGGGGAAAATTGTTCAAATGTCATGCAACACATTCAAAGAACTGTAGAACAACCCCGTTTTCTGAGCCATCGGCAATTTCACCTTGG
Celera SNP ID:            hCV2008498
SNP Position Genomic:     389317
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22854):
AATGCTCTGGATGATCAACAATTACATTCCACTCTTGCTGGTCAGAACTCAAAGGCCTTCCAGCCCTATTTGAAGTTTGGAAAATATAAAGCTCACAGCT
Y
CCTGGTTGCTCTTTGCTAAACCTTGCAGATTTTAACCTGATGCACGTACATCTTCAGTTGGGCAAAATCTCAAGAGGAATTTATGCAGATTTTGGGAGCT
Celera SNP ID:            hCV8769307
SNP Position Genomic:     401084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22855):
TGACTGCTGATGCTAATGCCAGTCTCTTGATTAAAGTGGTATCTTCTGACCTTTTCCATTGCAGAAGTTAAGTTCCAAAGTTTTCCTTTGGAATTAATAC
K
TCTTTTGTGAGGAGGTCCCCTGGGACTGTGGCAAATATCTCATTCCTCATTGAACTTACCTGCATGAACTTGTGGCCTCCTGTCTTATCCAATGGGCTAT
Celera SNP ID:            hCV2008499
SNP Position Genomic:     390121
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,5)   total(G,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22856):
GGGCTCAGAGGAAAGAAAGCAGTATAGTAAAAGAATGCTGGGGAAACCAGCCTCCCAAATATTTTGGCCAAGAGCCCAACCATGAAGCTAAACACCTGAA
K
CCTAGGAGCTGAAAGAAACCATAGCAGTCATGCTTACCACCCTCCTTATCTAGGGACACAATCCTTTAGCCAAAACCACTGGGGCAGATGTCTTTCAGAT
Celera SNP ID:            hCV8020540
SNP Position Genomic:     280973
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,5)      total(G,5|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22857):
AGGGATTCTTCTGATATATTAACATTGTTTTCCATCTTGCTATTCCATTTATGAAGTGAAAGAGTTTCTATGGCTTAATAAAAAAACTTTTTGGAAAGTT
Y
TATCTGTTTAATTTTTCCTTTGAAATTAAGTGTAAGCTTCACAAAAATTGATGAGTTTGTTTTCCCAAAGAGATTCAGTGAAGTAAACAAGGCAGAGCAA
Celera SNP ID:            hCV284067
SNP Position Genomic:     117971
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22858):
AGATTCAGTGAAGTAAACAAGGCAGAGCAAATCTAAAATAGAAAACATTTTCAAATTTTATTATTTTTAGTGATGTATAGTTTTTTTAATATACTCATGC
S
CATCATTATGTGCTTCTTCTGCCAATTCTGTGGGATAACTTTATTTCCATTTTATAAATGAGGAAATTGAGGCTCATAGAAAGTCATACAACTGGAAAAA
Celera SNP ID:            hCV284068
SNP Position Genomic:     118142
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22859):
TGATGACTTTTTGCGAGCCTTCCCAGGCACTGGAGTTTTTCTGTTAATCTGCCGCACTAGGTCATAAAAGATCTCATTAACATTTATTTTGAATTTTGTA
K
AAGAATCTAAGAATGCACAGTTGTTCCATTGTCTTGCTAGATTTTTGACCTTCTTCCTTCCCTACAGCTCTTTCATCTTCCAAGTCATACTTATTACCAA
Celera SNP ID:            hCV27996411
SNP Position Genomic:     250816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22860):
ATATTCTGGTTTTGTTCACTTGAAAGATCTATGCAGAAAGCCAGATTAGACAGAGAGGAAGGTGATCGATGAATATCTAAGCTACCAAAGTAGCAGAAAC
W
CACAGCAGAAGAGAAAATAATAGCAAACTCAGAGCTAAGAGCACTAACTCATAATTCATGCACTGATAACAAGAGAACACTTATTTCCTGCAGAGGACAA
Celera SNP ID:            hCV27996412
SNP Position Genomic:     184194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22861):
CTACCTTTAAAAAAAAAAGTGTATGACTGTTATTAATTATAGCATTTGATAGCCTGGCCAGTGTGTGTTGAAAAGATTTGGTAAACGTATGTGGAGGAGG
R
GAATTAAGTAAGCAATGAAAGCCAGATGCTGAAAATGAAGGAAATTCCAAGCAATTTCTGCAGCTTTGTTCTAACATACTTTTTAAACTAAACTTTTATT
Celera SNP ID:            hCV838200
SNP Position Genomic:     259426
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:22862):
AAACTAGTACTTCTAGTTTAAAAGAAAACGTGATTTTTAAAAATTCAGGACTTAAATTTTATTAGATGTTTTTATTTAACTAAAGTCTTAATACTTAAGC
K
TCAGTCTGGGCGTGGTGGCTCACACCTGTAATCCCAGTACTTTGGGAGGCCAAGGCAGATGGATTGCTTAAGATCGGGAGTTCAAGACCAGCCTGGACAA
Celera SNP ID:            hCV838201
SNP Position Genomic:     258947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22863):
TTTACATGCACCTTAGAGCTTGCATAGCACTGTAGTTGGGAGCAGCCTCCGGAGCCAGAATGCCTGGCTCTGCCACTTGCTAATAATTGCATGACCTTGG
R
CAAATTATGGAAGTCCTCTCTGCCTTTGATTGTTAAAATGGAGGCAATAACTGCATATACCTCCAGGGTTTTTGAAAGGAATAAATGAGGCAGTATATGT
Celera SNP ID:            hCV8769314
SNP Position Genomic:     384661
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22864):
CAGCACATTGATTTAGACCTACTCTGTCACTTTCAGCTATCTGACCTTCAAGAGGCCATACACCTTTTGAATCCTCAATTTTCTCATCTCTGAAATAGGA
W
CATAGTAGGCACTCAAAAAAATTCATTATCTTCTCCTTTCTTTTCATTTTCAAACTAGTACTTCTAGTTTAAAAGAAAACGTGATTTTTAAAAATTCAGG
Celera SNP ID:            hCV838202
SNP Position Genomic:     258795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22865):
TGATTTTGCCATTTAATATTATGCACTAAAAATCTTTTACATCCCTGAGACACCAAAATAAAAGAACCAGCACATTGATTTAGACCTACTCTGTCACTTT
Y
AGCTATCTGACCTTCAAGAGGCCATACACCTTTTGAATCCTCAATTTTCTCATCTCTGAAATAGGAACATAGTAGGCACTCAAAAAAATTCATTATCTTC
Celera SNP ID:            hCV838203
SNP Position Genomic:     258728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22866):
CCATCTTCTTCAGTTCTAGTTCCTTCTTATACCCAGAGATAACCATTGTTAATGCTTTGCTACATACACTTCCAGATAGTTTTCTATGAATTTATATACA
Y
ATAAGAAGATATACAAATAGATAAAGCTTTTTCCCTTTGTAAATGGGATTTTATTTTGTATATTGTTGGGAAATTTGATTTTGCCATTTAATATTATGCA
Celera SNP ID:            hCV838204
SNP Position Genomic:     258552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22867):
CATTACCCAGGGAGGAGTTTGATTGTCGGGAAAGATGGAAAGTAGTATATGGAAGACAGATGTTAATCCCTTCACAACTTTGCCTAAGATTAACCATAAG
M
AGTTAGGACCATTTTTGCTTGTGAGCTGCCAGTGAGAATTTTCCATCAAAGTTAATGAGTAATTTGTGTGTCTAAAAGCCATATCATCCACCCAGTCCTT
Celera SNP ID:            hCV838205
SNP Position Genomic:     258152
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22868):
TGGCAAAGTATCCCCCAAGTAAGGATACAAGGACAAGCTTTAATAGAAAAGAGAGGGACAGATGGAGGTTAAGTAAGTTATAGGCATTACCCAGGGAGGA
R
TTTGATTGTCGGGAAAGATGGAAAGTAGTATATGGAAGACAGATGTTAATCCCTTCACAACTTTGCCTAAGATTAACCATAAGAAGTTAGGACCATTTTT
Celera SNP ID:            hCV838206
SNP Position Genomic:     258068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22869):
AGGCGTGAGCCACCGTGCCCGGCCAGGATTGAACCTTTTATGTTATCATGTATGTATGGCAAAGTATCCCCCAAGTAAGGATACAAGGACAAGCTTTAAT
W
GAAAAGAGAGGGACAGATGGAGGTTAAGTAAGTTATAGGCATTACCCAGGGAGGAGTTTGATTGTCGGGAAAGATGGAAAGTAGTATATGGAAGACAGAT
Celera SNP ID:            hCV838207
SNP Position Genomic:     258012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22870):
CATTGTCTCTCACCTTTACTAATTTTGTAAGGTTATATGAGGTTTTATTGAGTAACTCTTATAATGTAACTTTTACTAATCTAGTATCGCTAAGTAGAAT
R
TAATACCTGTTTTTATTTTTCATTAATTAGAAAAGAGACTATACCTACTGGTGCTTGATGATGGACATTTATTTTATTTCAAATGAATTAAAGTACTAGG
Celera SNP ID:            hCV8763435
SNP Position Genomic:     43436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22871):
AAGATTTTCAAGGCACAGATCAGGCCCTCCATGCAGCCTCTTGGAGCACCCCAGCCTGGAATGATCACTCTCTGCTGACTTCCTGAAGCACCTACTCTAG
M
CCAGAGTTGGGCAAACATTTTCTGTAAAGTGCCAGATAGGAAATAGTTTAGGCATTGTTGGCTATAAGGCCCCTGTTGCGGGTATTCAACTCTGCAGTTG
Celera SNP ID:            hCV8769320
SNP Position Genomic:     381121
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,11)      total(A,11|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22872):
AGGGAAAGAGAGAAAAGCTCTAAAGAGCCTGGAGTTTCCTCAGAATTAGATAGCCTCAGGTGGCTCCAGTTTAAAAATAAATAAATAAATAAATAAATAA
M
TAGGCTGGGCATGGTGATTCACACCTGTAATCCCAATGTTTTGGGAGGCTGAGATGGGAGGATTGCTTGAGGTCAAGCATTTAAGACCAGCCTGGGCAAC
Celera SNP ID:            hCV8769321
SNP Position Genomic:     370975
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22873):
ATGTGTTTAAAAAAATACCATAGCATTTTCAGTGGGACATAACAAAATGACATTTCAAGTCTTAGTCACTGGGCCTTTGTCTCTGAGAGGTCACCCCCTG
S
TTAAGATAAATAGCTTTCCCAGGCCGTTGTTAGTCCCACTGAACACCAGTTAGGGAGCCACTTTTTTTCTTGTATGTAGTCAGAATTATCAGATCACATG
Celera SNP ID:            hCV838210
SNP Position Genomic:     256931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22874):
AAACTCAATTCTCTGATTTCCCACCAGCCAGCTGTCAAGCCAACAGGCAAGACCTCTCACTGGGCACAGCCAGGAGTTTCTTGGGTCGACCATACACATT
K
AAACATTTGTAGAAGGTTGCTAATTGCAACAATAAAGGGGACCAAAGTATAATGGCCTAATCTCATCCAAGAGTCAAAACAGATTTTCCCCCTAAAAATG
Celera SNP ID:            hCV838211
SNP Position Genomic:     256429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,9)      total(G,4|T,9) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22875):
CTGTGACCCTTTTGTTGACTCACAGACAAGAACAGTTGTTGAGCTTAATGTTGTCGCATTTGCTCCAGATAAACTCAATTCTCTGATTTCCCACCAGCCA
R
CTGTCAAGCCAACAGGCAAGACCTCTCACTGGGCACAGCCAGGAGTTTCTTGGGTCGACCATACACATTTAAACATTTGTAGAAGGTTGCTAATTGCAAC
Celera SNP ID:            hCV838212
SNP Position Genomic:     256359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22876):
GCAGATACACTTATGCATGAGCAAGGAAGCAATTCACAGTGATGATCTACAGCTGCAGAAGCCTGAAAATGATTTACAAAAATTGTTACATCATTAAAAA
W
TTGTTTGAAAATATACATTTCTTGTTGTAGGCACCCACTGTATACATGACTATAAACATTGTTCCTTATGTAAACAGAAAAGGAAACATATAATAAGAAA
Celera SNP ID:            hCV8020700
SNP Position Genomic:     243848
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22877):
ACTGCTTGTATTATTTCCCAGCTGGCTAGATTCCTTTCTTTGGGACTTGGAGGGTACAGATCATAGTCCTCCTCCAATCACATGGAGGCACATCCCATGG
K
GACACTCCTCCTGCTAGTCACCAGAGTTGTTCTGTATGATGATCTGAATGGTGGACCAGGGCATTCCCCTCTTCAAATACAGAAGTTAAGAGGGCAACTC
Celera SNP ID:            hCV838213
SNP Position Genomic:     255386
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,8)      total(G,1|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22878):
CAGAATCTGGAAGATACCGTGCATTCACTTGAGCCTGTGGCATGGCTGGTATGTGTGTGTGCCACGCAGTTGCTTTCCCCTAAAGGGAACATGAGGTGAC
M
ACAGACTTCATGGGCTCTGCCACCTTTTAGCCTGTGTCCTAAGCACTCACACCATAGTAATGAACTGGTCTGTGAATTGCAGAATATAAGGGCCTGAAGC
Celera SNP ID:            hCV838214
SNP Position Genomic:     254692
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22879):
ATCCCTGCCCAGCAAGGTAAGGGATGTGTGGCCTGCCCTGCTGTCCAGGGGCACGTACAGAACTGGGCGCATCTTTCAGTGGGCAAGACTGTAACACTTA
K
TTGTTACTCAGTGTTTTGAAAACCAATTAGCATCAGTTCAAACTTTTAGTCAAATCCACTTAAGTTTAATTGAAACCAGGGCTTTGGAATTCTAGCCCAG
Celera SNP ID:            hCV838215
SNP Position Genomic:     254478
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,31)   caucasian(G,4|T,26)   total(G,5|T,57)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22880):
CCCTTCCAAATACAACGATTTCCTTTCAATTAAAATATAAGATGTGAAGGTTTTGGGCCCCTTTTTTGCCACCCTGTGCTCCTTGTTCATTGAAGTATCA
Y
GTTCCAGCATTGGTGGCATTAGCCTCGTGGCATTTTTTTAAGCATTTCAAGAGTCTAGGTAGCAGCCTCTCTTCTGTGGGGGAGTTGCCCTCCTCAAGGA
Celera SNP ID:            hCV838216
SNP Position Genomic:     253945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22881):
TCACGCCAGCACTATAGAACTAGGAGACTCACATGGAATTGTGGAGATGAATGAGAAAATGATGTCAAGTATCAGGACTCTGAGAAGTAGGTTGAGACAG
S
CAGAGCCTCATTATGATGCTTTGGAGCTGAGCACTGCAGAATGGGTGGGATTCAAATAGGCAGAAAGGAAGAGAAATGGGCACTCAAGGTGAGGAAGATT
Celera SNP ID:            hCV8769329
SNP Position Genomic:     364328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22882):
CCTGTTTCACTAGCTCTGAGTCAGGGCCTGCGGGTGTCAGTGGGAAGGTTGTTTTCCACGGCTGTGGTTATTATGCATCTTATTCTCCTTCTTTGTTCCA
R
CTTCCAAGGCTGCCCTAGGTCACAAAAGAAATGAACCAGAATCAGAAGGCAAACAGCAAAGACTGGAGTCCTAGATTCAAGACCTCAAGAGCCCAGCAGT
Celera SNP ID:            hCV838217
SNP Position Genomic:     253707
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22883):
CTCGAACTCCTGACTTCAGGTCATCCGTCCACCCTGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACTGTGCCTGGCTTTGTGGTTCTTTTTTTT
W
AAAAATGTTTAATTTCTCAGACTTACAAAGAAGAAAGGTGATTTGGACTCCAGCTGAGTCACTTTTTAAATGATGGCCTTCCTAAGTGGACTAGATCAAT
Celera SNP ID:            hCV838218
SNP Position Genomic:     252409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22884):
AGAAGGGCCTAAGTTCTATCAAGAAGGAGTTCACAAAGTGGAAACACAGGTCACATCACTTACACACCTTCACACACACACCTGATCCAGTCACTTTCAA
R
TAAAGCATGTGACAAGCCCACGGTCACTTCCTGCCTCAGGATCGTTGACCCAATTTCATAAGGTTTTCAACAGCTGAATAAAGGCAAAATATGTTTTATT
Celera SNP ID:            hCV838219
SNP Position Genomic:     251522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22885):
GCTCAGATCTGTATCCTGTGTCCAACTGTCACTTCCTTGTTAGATTTTAATTTCCCACATGTGAACTGATAGGTGTTATCAAGGAAAACAACTCTGAGCC
Y
GATCAGCTTTATTGTATTGAACTCCTAGACAGTAAAATCCACGTTAAAATCTAGCTGGGGGAATACTTGACATTGACTTCAGCAAAAATGGAAGATGAAG
Celera SNP ID:            hCV838220
SNP Position Genomic:     242489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22886):
TTCCAGGAAAGGAATGGAGAATTCCTGGAATTGAGGATCCTCCCCTTTTCAGACCATATAGGGTAACTTCCAGACATTGCTACGGCATTTGTAAACTGTC
R
TGGCACTGGTGGGAGTGTCTTTTAGTATGTGAATGTATTATAATTAGTGTATAATGAACAATAAGGACAACCAGAGCTTGCTTTCATTGCCATCTTGGTT
Celera SNP ID:            hCV838221
SNP Position Genomic:     238962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22887):
GGCTCACTGCAACCTCCACCTCCCGGGCCCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCATGCCCGGCTAATT
K
TTGTATCTTTATAGAGACAGGGCTTCACCATGTTGGCCAGGCTGGTCTCAGACTCCTGACCTCAGGTGATCTGCCTGCGTTGGCCTCCCAAAGTGCTGGG
Celera SNP ID:            hCV838223
SNP Position Genomic:     235634
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22888):
AGGTTGGTCTCAAACTCCTGACTTCAGGCGATCCGCCCACCTCAGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACTGTGCCCGATTTTAAACTCT
R
ATTTTTCTCACATATTATTCAGTTTATTCCCTTCTCTTTTCTCACCCTACTGTCATGCCACCACTCACATACACAAACATACACCAAATCAAACAGGTAA
Celera SNP ID:            hCV838224
SNP Position Genomic:     234231
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22889):
ATCCTTGAGTAAAGATATTTCCTAATAAGTTAGATTCTCATTTATGTGGAATGATTTAGGCGTGGTTCTAAGTAAATTTAGAGGGATATTTTGGATAAGT
M
TTATCTCAAAACTTTAATGCTCCAGCTATATTTTAAGAATGCCTTAATATTATAGATTTTACAAGTAATTTTAAAATTCCTAAAGTGATTCAATTGAAGA
Celera SNP ID:            hCV838225
SNP Position Genomic:     232848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22890):
CTCCTGCAGGGCGGCCAATCTTCATGGAGAGCTGACTGAGAGCACCCAGCTGCTGATCCTAGGTAAACACTTCAAAGCTGGCTGCCTCTGCTGCACCCTG
Y
TGGGAGTGACTATCTAACCCACCCTCTACCTCCTTTGTGCCCTAATCCAATTAAGGACATAAAAGGTAAAATTGATATCCCTTCACTTCTTCCCAATTTA
Celera SNP ID:            hCV8769338
SNP Position Genomic:     358932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22891):
GGATCATTATATTTTTGATTATTCTCCTGGGGCACCTTACAGTGCTGAAGATGCCTCATAGCCTAGGCTTGACACTTGAGGATTTGAGAAATCTATGAAA
M
GAAGTGGTGCTGTCAGATGTTTTGAGGAGTGATGTCCTAGAACCTTTGAAAAATTTTGCTTAGAGACCTCAATATGAGTTGCATAACTAGCATGATTTAT
Celera SNP ID:            hCV838226
SNP Position Genomic:     232577
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22892):
TTATTTCCTCTCAGTAATAAACATTTGTCTGTGTCATAAGCATAATTTTAATGGCTATATAATAGCCTATATTAAGAATATTATGTAATTTACCTAGACC
R
ACTCACATGTTTGAATTGTTAGCAGTTTTTCATTAAACAACTTTTTGCGTACATGTGCTTTCAGCTTACAAAATGCAGCCTCACATTCTTCCCAATCCTG
Celera SNP ID:            hCV8769339
SNP Position Genomic:     353057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22893):
GACAGGGACACTCAATCTTTTTCTTTTCAAGTAGTTGTATTGGTGGCTGCTTCAAAATTATCATTTGTTTTATTTTAATTTCCAGGATCATTATATTTTT
K
ATTATTCTCCTGGGGCACCTTACAGTGCTGAAGATGCCTCATAGCCTAGGCTTGACACTTGAGGATTTGAGAAATCTATGAAAAGAAGTGGTGCTGTCAG
Celera SNP ID:            hCV838227
SNP Position Genomic:     232493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22894):
TTAAGTAGACTATTTGCAAGGAAAAGCAAATTTTCAAATCATTTTCTGTTCATTTAGATCAGAAAAGCAAAGAGAAAGAAAGATGGTCTGAAACAAGTGT
M
ATATCCTCACTTTTCATTTCTGAAAGGAATAATTTGGCTTTATTTGTATCTGCTACGTGGAGTGAGTAGTCTTTCTTCCTTTTTTCCCAAAATTTTATGG
Celera SNP ID:            hCV838228
SNP Position Genomic:     225647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22895):
TAATTTCATTCCATGTAAAGAAGAAATGGTACATGAAAAGTATTGAGTTTCCAATATTTTAAATCTTTATCAAAGTCAGGGAAAATGTTATGCATTTAAA
S
TACATTCCAATATTAAGCTGAGAACTACAAATGCAGTGATAGCATTGTAAGCTGTGATGGCATCTGAGTCCCTGGGATGTGGCCTTTTAAGTAGACTATT
Celera SNP ID:            hCV838229
SNP Position Genomic:     225460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22896):
GGCTTATTTAAAGACGCTAGATAGGAAATGAGGACCTTGAGAAAACGCACTCACACTTGCTCCTGCCCTTTCCTGGCAGCAGGACACAATTCCCAGGCCC
M
TGTGCCCTCCCTGCCATGTCCAACAGGAATGATGTGAATGAGTTTCATGTCCCTGAAATAGACAGGGATTGAAAGTCCATCAGTGGGAAAACAAGGAACT
Celera SNP ID:            hCV11263214
SNP Position Genomic:     382660
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22897):
CTTTATTTCCTCTCAGTAATAAACATTTGTCTGTGTCATAAGCATAATTTTAATGGCTATATAATAGCCTATATTAAGAATATTATGTAATTTACCTAGA
M
CAACTCACATGTTTGAATTGTTAGCAGTTTTTCATTAAACAACTTTTTGCGTACATGTGCTTTCAGCTTACAAAATGCAGCCTCACATTCTTCCCAATCC
Celera SNP ID:            hCV8769340
SNP Position Genomic:     353055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22898):
AGTCATTTAACCCCATATGCCTCCATTTATCACCTGTGAAGTGAGGTAATCACTACCTCATAGGGTTCTTCTGAGGTTTAAGTTAATCTGTGTAAAGTAC
S
TGGTATGCAGGAAGTGCTATGTATATAAATTTTTGTTGTGATTAGGCCTTTTCTAGCATCATTCATTTTCCTAGAGAATCTTTAAGGGAGTTAAGATGTC
Celera SNP ID:            hCV838230
SNP Position Genomic:     224537
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,9)      total(G,3|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22899):
TTTGCAATGGTATTTCCTGCTTGGATCAGAGAACTAATTATAGTAAATGGTGCCCTTTCAAAGAACTTGCCCCATCCTAAAGCATATCCTGGCATAAAGA
W
ATAAAACTGTTTTAGTGTTGTTTTATAGATACAATTTATTAATGTTATTTTGCATTTGTATTAAAAATTTGTATAATGTAATCATTTAGTGTTTATTTTA
Celera SNP ID:            hCV27518600
SNP Position Genomic:     208392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22900):
ACACGGAGAAGCCTGCAGTCACAGTCGATATAGGAAGCACCATCAAAACAGTGCAGGGAGTGAATGTGACAATCAACTGCCAGGTTGCAGGTGAGAAATT
M
ATGTTCATTTGTTCACACGTTAATGGAGCCCTGTGCTAGGTTGGGGATACAAAGACAAATTAGACACAAATTCTACTCTCAGGGATATAGTGCTAGTAGG
Celera SNP ID:            hCV8769346
SNP Position Genomic:     349679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22901):
ACTTTTTCCTTTCCAATTTGAATGCCCTTTATATGGTTCTCTTAACTAATTGGTTTGGCTAAGACTTGCAGTACTATGTTGAAGAAAAGTGGTGAACATG
S
ATATTCTTGTCTGGTTCCAGATCTAAGAGGAAAAAATTTCAGTTATTCCCCATTCAGTATTATATTAGCTGTGGATTTGTCATATATGGCCTTTATATTC
Celera SNP ID:            hCV8769347
SNP Position Genomic:     346303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,9)      total(G,9|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22902):
GTAAAACATGCATTCTACATGAAGAGATCTTTGAACCTAACTTGAAAAATCAGTTTAGGTCACTTTTGTGTGGTCATATATAAAAACATTTGTGGAAAGC
Y
TCATTCTCACTCCCCACGTCAACACCCTTTAGGGCTAGAAAGTGCAGGGGCTGCTGTTCCCCATATCCTGTGAATAGAACATCTGTGTGAATAGGAAGCC
Celera SNP ID:            hCV8020585
SNP Position Genomic:     272420
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(T,24|C,60)   African-American(T,12|C,62)   Asians(T,22|C,60)   total(C,182|T,58) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22903):
CATATCTTCATGTTAAACCTCAAATTTGAACCCCTTGAACTTAATTAGGGATTTTAAAGTGACTTCCAATGTGTTTAGAGTACTTATAAACTGTTTTTTT
T
GCACTATCCTTAAAGTACATATGAGTTGGTATTTAGGAGGCAGTGACCATAATTAGCAACATAATAGGCCACACTGCTTGTGGTAGCTGGTGATGCTCTT
Celera SNP ID:            hCV11259342
SNP Position Genomic:     69633
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,8)   total(-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22904):
CCTTTTTAAAAAGGCTTATATGAGAAGGGGGATGGGGGAACAAGAAGCTAACAAGTTGTTTGACCCTAGAGAAAAATCTTTTAATTTTTCATGTCATTTC
R
CCTCTTCTCAGGTTGTTAAATGACAGTTGAAACTATAACATCAGGATTTTAAGAAGTGGAAGTTTAGATGGTGTATTATGCGTTAATGAGAGACAAATAA
Celera SNP ID:            hCV11259344
SNP Position Genomic:     60280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22905):
AATTTTAAAGTAAAGGAGCGATAAATCAAATGCATGCCCCTTTTTAAAAAGGCTTATATGAGAAGGGGGATGGGGGAACAAGAAGCTAACAAGTTGTTTG
R
CCCTAGAGAAAAATCTTTTAATTTTTCATGTCATTTCACCTCTTCTCAGGTTGTTAAATGACAGTTGAAACTATAACATCAGGATTTTAAGAAGTGGAAG
Celera SNP ID:            hCV11259345
SNP Position Genomic:     60242
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22906):
GGCTTTGGTTCAGCAGAAGAGAAATGAAATGGGATGTAGACAGGGCTGTGAGCGAAGGTTCTTTTTTTGTGTTGGGGTAAAGGGCGTTATTTCTTTTGCA
R
AGGCTCTCACCCAAAATCAGAGCAAAACTTAGCCTGAGTTCCTGAGGCATGCTGGCTCGGAGCTGCTGCTGGCTTTTGTTTTTCCTCCAAGCTGATCTGT
Celera SNP ID:            hCV3178439
SNP Position Genomic:     394704
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22907):
GTAGAATATCCTGCCTGTAACATGGTTAAAACAAAATTAAATCCACTTAACTTACAGAAGGTTAAGCTTGGGTTATATGAATATGATCTCATGGGGACCC
W
ACTTCCCCAAGGTGTTCAATGAATGAGTCTTTTCATTGTATTTTGTAGTCATGTGCATGAAGTTCTGTATTTTATTCCCAGCTGATAAAGGCCTATTAAA
Celera SNP ID:            hCV8769354
SNP Position Genomic:     343086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22908):
AGATGGCAAAGAAGTAGTACAGCTTTTGTGATGAAGTCTTGCAAGAATAACAAATGAAAGGAAAATGTCTCAGAGAACTGGTGAAGACAAAGGGTACAGG
R
TAAATAGAGCTGACTATTGGTCAAATGCTGACTCAGGAGGCTGGAAATAGATGTAAAGGAGGCCTTGCAAGAAGGTCAGCAGGGAGTTAAAAACTCCTGC
Celera SNP ID:            hCV8769355
SNP Position Genomic:     336779
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22909):
GCATGGAGATGGCCAGTGTTTCCCTCCCTACCTCCCTGGAACAGCCCATGGAACTCACAGCCATTTAGACCAAATGGCACAAAATTCCTCCCTCTAAATT
M
ACTTAGCTGGATGCCTGTTTCACTGCTCCAAGTGTAGATGAAAGTAGCTTAGGAGGGGAGGATTGCAGGGAGGAGATTATAGGAATGTCACCAAAATGTC
Celera SNP ID:            hCV8769356
SNP Position Genomic:     331568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22910):
AGGTCACACCTCTCCATCCCTTTAGGGTTGATCTCTGGCGTCTTGTCTGTTTGGTGCAGCCATATTTTCCTGAATGTTCTTGGTGCTTGTGAAAGAGCAA
Y
AATGTCTGTGCATTGAGGAATTAGGTAATTATTTTATTCTTCAAAGGGTGGTTTTCTTTGTGCTTGTCCTTCTTCAGAGGGCCTTCCAGGGATTCTAAGC
Celera SNP ID:            hCV16109135
SNP Position Genomic:     127571
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22911):
TTCCTATCCACAGAGTTGAGTTGAGTTGAGTTTTCCATCTTCAATTCAGCATCCATCCCTCCAGCTCCTCCCTCACCTCAACTACCAAAAAAAAAAAAAA
R
AAAGAAAAAGAAAGATTTCCTAATGCTACTTGCATAATTTATTGAATTATTCTTCGGTTTGGGCCCAATTTGTAGAAAATAGAAAAGAGTTATCTGACCC
Celera SNP ID:            hCV11259350
SNP Position Genomic:     48800
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22912):
GTTGACTGTGTATGTGTGAGTGTTTTTCTAGGTGTTCTATTGGTGTATATGTCTGTCTTTACACCAAGGTGTCTTTACACTGGCATATCTTTACACCAGT
R
CCATACTATTTTAATTTCTGTAGCTTATAAAATGTTTTGAAATCAGGAACTGTGATGCCTTCAGCTTTGTTCTCTCTCAATATTGTTCTGAACATTCCAG
Celera SNP ID:            hCV11259351
SNP Position Genomic:     46571
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22913):
ATTATAGTTGCAAGATATTTTAAGAACTAAGAGAAGTTCCCCCAGTTCTATAAATAATACATCTGTGGAACTGGGTTTTAAAAATATTTTATATGTATTG
K
TATTTTATTCTGGTAGCATCATTTTATATATTAATGCTTTCTTTTCCTAATTCAATTGTATGAATTCCTCCTTTTTTACAGTGCTTAGCACACAGCAGAC
Celera SNP ID:            hCV11259355
SNP Position Genomic:     45445
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22914):
CCTAAAGACAATATTTTCTTTCAGTGGTTAAGAAGGGTTGATAGAGAGAGGCCTTCTGCTGCCAGAACTCTCATTAGAAAGCAGCCTTGCCAAGTGCTGC
R
TCCTCCTCAGCCACCTCACTAACCCAAGCCCTTTAATAGCTGAGGCCTGGAGAGGAGACAGCACTGTCACTGCCTGCTGATGGCCTCTTTCCTGGGGTGG
Celera SNP ID:            hCV3178442
SNP Position Genomic:     398240
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22915):
CACACAGAGACATGCACATAAATATGTACATAAAATTACAGGGGCCTGTACTACATGTGCTGAGAATACCAATTCTGAACACAAAGTTTTTATAAAATAA
G
CTACGTATTTAGTTGAAAGCCTTGAAAAACAGATTAGTGACAGAAAAGGCAGATGGCTGACAATTTTGTTCATTTACTTTGGTTATAATTAATTTATTTT
Celera SNP ID:            hCV3178443
SNP Position Genomic:     398854
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,10)   total(G,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22916):
TTTTTTTCAATTTTTTTCTGTTTTTCACAATGGATAATTTATGTGGAACTTCAAGTTTACTGACACTCCTGCCAGCTCTAATCTTCTGTTAAGATTGTCT
R
GTAAATTTTTCATTTCATTTTTCATATTGTTAAGCTCTAGAAGTTTTTATAGTTTCTACTTGTCTACTGATACACGCCATCTGTTCATTTATTATGAGTG
Celera SNP ID:            hCV3178444
SNP Position Genomic:     402470
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22917):
GACATCTGAAAAACACTTCTCTTATACTATAACTTCAGCTGTTATATGACTTCAATTTTACAAAAAACTATCAAGCATTTCCTCAGCACCTACTTTTTTT
T
CATTTAATTTCATATAGCTTGACCTCTTGTTTTAACATTTGGAAAAAATATTTTCCAAGTACCCTGTATATGCGTGTCTCTGAGCAAATATAACTCTAGT
Celera SNP ID:            hCV11259358
SNP Position Genomic:     31861
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22918):
GAAAGGAGAGAGTTAAGAAACACGTCTGAAAGGTCACAGAGTCTTCTCTTTAAAAGCATACTTCAGAATGCCTATTTTATTATACACTAACAAAATCCAT
R
TATACTAGCAGCAAATGATTTCCAATTTCCAATTTTCTTTTATATTAGCTTACAATGGCTAGAGCAGAAGGTGCTGCCTTTTAACACAATCATATTTTAA
Celera SNP ID:            hCV8769504
SNP Position Genomic:     259814
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22919):
ATCTATTCATTCTGTTTTGCAAAATTTGAAGCATTGTTACTCAACCTCTTTTCTAATTCTTTATCTTCTTAATAACCCAGTTGTTAGTATACTTCTAAAT
R
TTCAAGATCCAGAAGTAAATGCTCTCCTAAATTATATAAAGAGATAGGTGTCCATGGCATTAAATGTAATATTTTGATTATACAAAATGCTTTAATTTCT
Celera SNP ID:            hCV3178447
SNP Position Genomic:     403459
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22920):
GGGAAGCTAGATTAGCCATCTGGAAAGTACTTGGGGTGCCTGGATTCAGAGCAAGGGAGATGGCTTGTGATGAATATTTCACGTGGGCAACAGAGAGAGA
Y
GCCTGATGGGCTCTCCCTGGCCCACAGCAAGATGCCTGCCATTGAGTTTGCCCCGTCCCGTAGATCTGGTGTCTTGCCAATTCTGCCTCTCAGATTCATT
Celera SNP ID:            hCV8769361
SNP Position Genomic:     331150
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22921):
ATAAAGAGATAGGTGTCCATGGCATTAAATGTAATATTTTGATTATACAAAATGCTTTAATTTCTGATTTCACTACCTTTGGATTTTTTATCATTCCAAC
R
TGAGTCAGAATGAAGTTCACCTTCTATATTACCAGAGGTGGGGAGCCTATTATTAGAAAAATATGTTTGGTCAGTTATTTTCATAAACAAATGAAACCAT
Celera SNP ID:            hCV3178448
SNP Position Genomic:     403595
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22922):
CATACAACAAAAGCCAACTTATGTTTACAGTGGGAGAGACTCCTTTTCAGGGACCAGGATGCTCACAAACCCTTTGTAGAGCAGCTCTCTGAATGTCTCA
R
TGTCAAATAGGGAAGCTAGATTAGCCATCTGGAAAGTACTTGGGGTGCCTGGATTCAGAGCAAGGGAGATGGCTTGTGATGAATATTTCACGTGGGCAAC
Celera SNP ID:            hCV8769362
SNP Position Genomic:     331040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22923):
TCTCTTCTGGGTTTAGCCATCCAGTGGAGCTACTGGGCTTCTGGCTGGTACTGAGGAGAGGCTGTGAAGAGTCTTGTGATGTGATTTGTCTTCAGGTCTC
K
CAGCCATGAATACCAGTACCTGCTCTGGTGGCAGTAGAAGGGGAGTGAAGTGGACTCTGTGAGGGTCCTTGGTTGTAGTTTTGTTTAGTGTGCTGGTTTT
Celera SNP ID:            hCV3178449
SNP Position Genomic:     410043
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22924):
CTGACTCAGAAAGTTCTCATGGAGATTAAATGCAATCATTCATAAAAAATGTTTATAATTGTGGCTGGCATGTAGCAGGCACTCAATATTTGTTAGCTAT
Y
ATTATTGAGAGAATAATACATACAACAAAAGCCAACTTATGTTTACAGTGGGAGAGACTCCTTTTCAGGGACCAGGATGCTCACAAACCCTTTGTAGAGC
Celera SNP ID:            hCV8769363
SNP Position Genomic:     330921
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22925):
GACTTCCTTCAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCACTTTTCCTTTGTAAAATACA
K
GAATTACCAGCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAGAAGATTATTATCACAGAAAAA
Celera SNP ID:            hCV11259360
SNP Position Genomic:     29321
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22926):
TTCCTTGGTGTTGGGCCTACATATTATTTTCCACTGGAGATTGGTTTTCTAAGTATAGGAAAAAGAAGAAAACAAAAAACAGCAACAGCAACCAGGAACA
R
TTGTTTCATTTTTAGAACTCCAGGTAAAATGGCTAACGTTTCACACCTGAGGTGAAATAGTATCAGGGTTTAAAATATCCCTATAGTCCAGGGGCCAGGA
Celera SNP ID:            hCV11259361
SNP Position Genomic:     29113
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22927):
AATGTGAGTCTTCACATGCTGCTCTGTACATCTGAGTGGAAGCTGCAAGTTAGTTTTGTCTCCTATCTGCCATTTTTCCCCTCAGGATTATTAGAATTTC
R
AAGCTTGGAGGAGAGGCCACAAGGAGCTGAGACTCAGAGCTCTGCAGGGAGTGGGAGGTGCCAGTTGCTGCTGGGATCTCTGAGAGGGCACAATAAGGCA
Celera SNP ID:            hCV3178450
SNP Position Genomic:     411291
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22928):
GTGCAGTGACACCACCATGGACCTCGTGGCATGTAGATGCCTAGATGCCGCCAGGAGCTTGTGGTGAGACTGCTTCTCCTGAGTACCTTGAATAAGGTGA
Y
ACAGGGCCAGGCAAGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAAGCTGAGGAGGGAGGATCACTTGAGGCCAGGAGTTCAAGACCAGCCTGGGCA
Celera SNP ID:            hCV3178451
SNP Position Genomic:     415154
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22929):
TGTCTTCACATGCTCTTCAAAAGCACAAAGAGACAAATAAGGGCTGAATTCACCCTTTTATAATGGCATTAATCCAACCCATGAGGACAGAGCCCTCATG
R
CCTGATCACCTCTTACTACTGTTACAATAGCAATTAAATTTCAACAGGAGTTTTGGAGGAGACAAATATCTGAACCATAGTAGCCTCCTTGGTTAAGTTT
Celera SNP ID:            hCV3178452
SNP Position Genomic:     417765
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22930):
TGCCACTGGACCGAACCTTCCTTCAGTGCTGACGTCTCCTCTGGGAACACAGCTGGTCCTGGATCCTGGGAATTCTGCTCTCCTTGGTGAGTCTAACCCT
Y
GGAAACATTGGGCAGAAAGCCAGGACTGGACAGGATTTATGGATGGGTGACTGTTTGCAGGTGGGAAGGAGGCAGCAGTCGGGGGTGGCCAACAGGAAAT
Celera SNP ID:            hCV11263244
SNP Position Genomic:     362425
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22931):
ATTCAGAGAATAAAAACATCTCCTGTTTGCTCAGGAATGGCAAATGTAATAAAAATGCCACAGACAAGGCCACATTGTGTGTACAATTTCTAGAGCCACA
M
AGACAGTAAACCAGTGCACCAGCAATGTGTTCCTTATGGCTTTACTAAGGCTTACTTCTTTTCCTCTCCTTCTAGGCTGCCCCATCAAAGGTCACCCTGT
Celera SNP ID:            hCV3178455
SNP Position Genomic:     420200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22932):
TGTGAGCACACCCTCTGCCACATATTGTGGAACCTACAGCAATAAATAAAACCTGTGTTTTGTGGTCCCTGATGCTTACAGAGGAGTGAAGGCAAGCGAT
S
GATACCCGGCTACCTAGAATTGGGAGAAAGTTGCAATTTACTTCAAATGTATGCATGGAGACCCTGCTTAGTAGGTTATAAGATATAATCTGAACATAAA
Celera SNP ID:            hCV8769370
SNP Position Genomic:     329933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,11)      total(G,11|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22933):
CCCTCTTTATACAGAGTCCAGATGCTCAGCACCAATCTTGTTAAATCTCTCCTGCCATCCACCCTCCAACCTGCTTTAGCAAGGGCACTGCTGACATCTT
K
CCACTTGCTGGCAGATAGTGGCTCTTGCAGGATTAATTCTCTTGTTTATATTAATCCAGATATGGTTCAGCTCTATCACAGACTAAATGCCCTTTGTTCA
Celera SNP ID:            hCV8769371
SNP Position Genomic:     329323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,6)      total(G,2|T,6) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22934):
CATCCTCTCAGATCTGGGCCATCCAGTCTTTGTGGCTGTGTTGCATGTGTTTGTATTTATTCTTTTCAATTGCTGCTCTCATCAGATGATTCAGTAGATG
S
TAGAAAAGCCAACATCACCCCACACTGACTTCATCTGTCCCTGCCAGGATTATGTTGTCATACTGTACTCCAGTCACACATGCTACCCCCTTGCATATCT
Celera SNP ID:            hCV8769372
SNP Position Genomic:     328911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22935):
TATGCTATATTCTTTTCTACACTGCTCCTCCTCCCATGACAGATTACTGGTGGTCTGTGGACAGACTGGCAACCTGCTCAGCCTCCTGTGGTAACCGGGG
R
GTTCAGCAGCCCCGCTTGAGGTGCCTGCTGAACAGCACGGAGGTCAACCCTGCCCACTGCGCAGGGAAGGTTCGCCCTGCGGTGCAGCCCATCGCGTGCA
Celera SNP ID:            hCV3178459
SNP Position Genomic:     422071
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:22936):
AGGAATGCAAGTGAACTTAAAGAATAATATGAAACTAGATGCTTGAAGAAAATACTTATTTCTTCCTGTGGGTGGGAGGTCACTCCCAGGTGATACTCCT
M
CTAACATGGAATCCTAGGGAAATGGCTAAGTCTAAGGAATTTCAGCCTTTTAATCCCTAAGCCTGTTCCCTGTTTTCCTTCTCTTCTGGGCCTAGGTGTT
Celera SNP ID:            hCV8769379
SNP Position Genomic:     318618
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,9)      total(A,9|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22937):
ACTCGATAATGTAACCTCTCCAGGGAAGGAATTGGGAGCATATGATTCTTTTTTCTCATTCAACAGATAATGTGCTAGGGGCCTTGGAGAGTTGAAACAC
W
ATTTAAAAAAAAAATAGTTTTTCAATCCCTGTCCTTTAAGAGATTTGGGGTAGAGAGAGGAAAATAATGTTTACAGAATACTTACTGTGTTCCAGGCTAT
Celera SNP ID:            hCV1746400
SNP Position Genomic:     166592
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,10)      total(A,2|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22938):
CCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCTGCAGTGGCAGAAGTCTGTAATCCCAGCTACTTGAGGCTGAGGCAGGAGAATCACTTGAACCCA
R
GGGGCGGAGGTTGCAGTGAGTCAAGATCACAATCATGCTACTGCACTCTAGCCTGGGTAACAAAGTGAGACTCCATCTCAAAAAACAAACAAACCAAAGA
Celera SNP ID:            hCV1746402
SNP Position Genomic:     166204
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22939):
CATGGTTCAGTCAACAAAGCCAGAATAGATTAGGGCAGATGCACTCAATCGTAAAACAGTGTGCCTTTGTAGGAAAGGGCACCCAGAGGAATGTGCAGCA
Y
GGTGGGAGAGGATGTGGCCCCTGCCTCGCCAGCTATACTAATGGCATTAATCACCAAGGAGGCAGGTGTTGCCACCAGATTGCTCTCACATCCTAAGAGA
Celera SNP ID:            hCV1746404
SNP Position Genomic:     164746
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22940):
ACGCAGAACATCCACATATGACAAGATTTTAAAATGAATATAAAATATTCTATATAGAAAGTTGTGTGATATACATATAGATAGATATTTTTTAAAGAAT
W
CTTTTAGGTACAGTCCTTGGGAAGAATTTTCTTGAGAAAAGACATTTGCAACCCATATCTGTGAAATGACAGAATTTATGATTCCCATGGAAATTTTGTT
Celera SNP ID:            hCV1746405
SNP Position Genomic:     164453
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22941):
GAAGAAGTAGCATTTTAAATGGAAAGGAAAAGATGAATAAAAGCCAAGCAAAGAGGGGAAAAAGGCACTAATGCCCTCACTCTCTGATGCCTAGACCAGA
Y
CCCCTGTCCTCCTTGCACCAGGCTTCTGCAGAAGCCAGGCCCCAGAACCTCAGAGAAAGACTCTAAGTGTATCCCAGGCCACCACTCATAGCCAACCTTG
Celera SNP ID:            hCV1746260
SNP Position Genomic:     282204
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22942):
GGTGTTAGTATTAGCACAAAATGGCCTCAAACGATGAGTAGAGAAGTAATTGCTTGTCTTCTTTTTTTCTGGAAGAGATTGTATGGAATTGAATATATTT
M
TTCTTTAAATGGCTGCTACCATGCCCCAGTGAAATTTTCTGGATCTGGAGATTTATTTTTCAGTATGTAACCTTATGAACTTATGGAACACCATTATAGT
Celera SNP ID:            hCV1746406
SNP Position Genomic:     162509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,8)      total(A,8|C,1) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22943):
GGACCATACAGTAAGAGAATTTTACCCAGTTGAGGGTTTCCTCTCTGAAGAAGTAGCATTTTAAATGGAAAGGAAAAGATGAATAAAAGCCAAGCAAAGA
S
GGGAAAAAGGCACTAATGCCCTCACTCTCTGATGCCTAGACCAGATCCCCTGTCCTCCTTGCACCAGGCTTCTGCAGAAGCCAGGCCCCAGAACCTCAGA
Celera SNP ID:            hCV1746261
SNP Position Genomic:     282158
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22944):
ACCTTGTCAAAAATCTATTGCCGTTTCTCTGAGGGTCTGTTTCTGGACTCTATTCTGCTATGTGTCTGTCCCTTCATCAATACTCCATTTTTTTTATTAC
Y
GTGGCTTTAAGGTAAATCTTAAAATGTGGTAGTGTGATTTCTCCAACTTTGTTCTTGTTTTCAAATTCATTTTGGCTATTCTATTCTGGGTCTTTGTCTT
Celera SNP ID:            hCV1746407
SNP Position Genomic:     161161
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22945):
TAAGTACGATATAAATGTTAGTATTACTATTGTTATTGGTGACCATGTGTGATGTCAGCTGGATTGTGGTCACGTCACAGTTTTTAGCTCATGCATGGCT
R
AGGGTGCTCTGCCCAGCCCAAGTTCAAGGGCTAGCCAGATCCAGGCAGAGAGACAGGACCACAGTCTAGTAGGCTGGACTTTAGGCAGAACTCCAGCACT
Celera SNP ID:            hCV1746262
SNP Position Genomic:     280487
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22946):
TTTTTTTCGTATAGACGCCCAATTCTTCCAGTACCATTTGTTGAAAAAGACAGCCTTTTCTCTTTTGAATTGTCTTTAAACCTTGTCAAAAATCTATTGC
Y
GTTTCTCTGAGGGTCTGTTTCTGGACTCTATTCTGCTATGTGTCTGTCCCTTCATCAATACTCCATTTTTTTTATTACCGTGGCTTTAAGGTAAATCTTA
Celera SNP ID:            hCV1746408
SNP Position Genomic:     161082
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22947):
AGAGGATAATAGTACCTATCTCAGGAAGCTGTGGACAGGAATAATGCATTTAAAGCAACTAGCACAGAATCTGGCTCATTTAAGTACGATATAAATGTTA
R
TATTACTATTGTTATTGGTGACCATGTGTGATGTCAGCTGGATTGTGGTCACGTCACAGTTTTTAGCTCATGCATGGCTAAGGGTGCTCTGCCCAGCCCA
Celera SNP ID:            hCV1746263
SNP Position Genomic:     280407
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22948):
CTATTCCTTTCATGTTTAGTAAATCTTGCTTGTAAAATTATGAGAAGAGATTTTCTTTGGGGGAAGATTTTTCATTACCGCTGAATTTTTTTTTTTTTTT
T
AAGTCTACATGCAGTATAGCCTAGTGCCCAAAGAATGAGTTTTGGAGGCAAACTGTCTAGATTCAGTCTCAGGTCTGACCTCCTAACTGTGTAGAAAGTC
Celera SNP ID:            hCV247114
SNP Position Genomic:     84260
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22949):
AAGGTGTAAGTTTGATAGGTAGCTTGAATTTTTTTTCGTATAGACGCCCAATTCTTCCAGTACCATTTGTTGAAAAAGACAGCCTTTTCTCTTTTGAATT
R
TCTTTAAACCTTGTCAAAAATCTATTGCCGTTTCTCTGAGGGTCTGTTTCTGGACTCTATTCTGCTATGTGTCTGTCCCTTCATCAATACTCCATTTTTT
Celera SNP ID:            hCV1746409
SNP Position Genomic:     161053
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22950):
TTAATACTTTGTTCTATTGACCTTAAGAGAGAGTATAATATAATAATTAGGCATGCAGGAGCCAGGCCGCCTAAGTTTGAATGCTGATTCTCTTGTTTAC
K
AGCTGTGTGACTTTGGACAGGTTACCTAACCTCTCAGAGTCTCTGTTAGCTGATCCTGTAAAATGGGGAAACTTACAGTACCTTTATCACTAGTAAATAA
Celera SNP ID:            hCV1746264
SNP Position Genomic:     279935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22951):
TCAATCCATATTCCCACCAGAATTATACTTGTTCTCTTTGCTTCATATCCTTGCCAGTGCTTGATATTGTAAGACCTTTTAATTTATTTTCCTATCTGTG
R
GTGCATTCCTAGAATATACCCAACTTGCTCATAATATATTATATTGTTTACATCTTGTTTTGGTTTCCTAATAATTTGTTTAGGACAATTTGCCTCTATG
Celera SNP ID:            hCV247115
SNP Position Genomic:     83947
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22952):
CACAAGATAAGTTTACATTTTTTGGAAATGCAAGTTTAGATGTACATTTTAAAATTTTAAATATTCAGTAACAGACTAGAAATATCATCTATAGCTTCCA
M
ACTAACAGAGAAAATCTGGAGAATAAAGACAGCCTTACCAATTTAATAGAAGCTAGGAAAAGAGAGAAAAGAATCAAAAAGGATGGTAGACAAAAAATAC
Celera SNP ID:            hCV247116
SNP Position Genomic:     83711
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22953):
GTAAAACGTCTCTCCATGTGTGTTTGCTTGATGTTTTCTTGTGATTTTTGAATTTTTGACAGAAATAACACAGAAGTGTGCTATGTTCTTCTTAGTACCT
Y
ATATCAGGAGACAGATGATGATGATGTGTCTCATTACTGGTGATGTTCACTCTTATCACTTGGTTAAGATGATGGCCAGCCAGGTGTTTCCACTGTAAAA
Celera SNP ID:            hCV1746266
SNP Position Genomic:     277692
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22954):
CAATCAAGGGACACTGTGACAGTCCCCAAGTTCTGTCTTTCTTGCTTTAGTGACCAACGAGTCTATGTGCCCTAAAACCTAAAATCTTGCTTCTCAAAAA
K
TAATCTGGGGTCCAGCAGCATCAACGTCAGCCTGGTTCCTGTGAGAAATGAATATCAAGTTTCATCTTTGGCCTGCAGAATCAAAATCTTCAGTTTAACA
Celera SNP ID:            hCV247117
SNP Position Genomic:     82532
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,9)   total(G,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22955):
TCCTGGGCTTTTGTCTGCTTTCTCCATCTTTGCTGAAAGCACCTTAAAGATGGTAAGCATGGTTTCCACTTCTGGATCTGTCACAATGCTTAGCAATGAA
W
GCTTAAATGAGAAACTAAGTTGAACATGTCACAAATGCCCTTCTCCTCAGTCTCCAAAACCTATGGCTACTTTCTCTGACTGACTTTAGGAAGCTGCCTC
Celera SNP ID:            hCV1746267
SNP Position Genomic:     277093
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22956):
GGAAGGTTCGCCCTGCGGTGCAGCCCATCGCGTGCAACCGGAGAGACTGCCCTTCTCGGTGAGTGCAGCGGACACTGGCTCAGACCTCCCCACCCTAGGA
R
GAGCCCTCCCTGTTAGCGAAGTCAGTGGCCAGCCCTTCAGTAGCACTGTGCAGGGAGAGATGCCAGCCAAGGAGCTGTTCTTCCCTCTAGGCACAGGCTT
Celera SNP ID:            hCV3178460
SNP Position Genomic:     422236
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22957):
TGAAATGTGGGTTTAAATGAGCTATGTTACTTTCTGGAGGAAGCAATCAAGGGACACTGTGACAGTCCCCAAGTTCTGTCTTTCTTGCTTTAGTGACCAA
Y
GAGTCTATGTGCCCTAAAACCTAAAATCTTGCTTCTCAAAAAGTAATCTGGGGTCCAGCAGCATCAACGTCAGCCTGGTTCCTGTGAGAAATGAATATCA
Celera SNP ID:            hCV247118
SNP Position Genomic:     82489
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,9)   total(C,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22958):
TCTAATATCTCCTTTGATCTTTTACTTTATCTTTTCTAGGCCTCTTTTAAGGGTTTTCTAGAATACAGTGGTTTTAAGGGAGGAGTAGCAAATCCATCTG
Y
GATCGCTGGGTATAACTGCTTTTCTGACTTTGTCTATTTCCCTCTCTCTGTAACCCTTCGTGATTCACTCCTCCAGTCCTTAGAGACTGAGCAGGGTAGA
Celera SNP ID:            hCV1746268
SNP Position Genomic:     276607
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22959):
AAGTTCCATGTCACCTGGACACTGGTAAAGTTTTAGGAGAAATATAAGTGGTGGCCTCTACCCCTGGAGAATTTACAGTTTTCCTGGGAAGAGCAAATGG
R
CATGCACTGAAAAGGAAAATTACTTTCAAAGCTGTAAGGACATTAGGAGGGGCCAACAATTGGCCCAAAAAGAGCTGATTGTTTTGAAGATGGAAAGTAC
Celera SNP ID:            hCV11263250
SNP Position Genomic:     360686
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22960):
CTTCCCTCTAGGCACAGGCTTATCAGGCCTCTCCACCTTGCTGAAAATATCCTCAGACTATGCCACCTCTCTCAGCTTTGTTTATTCCTCACCCCACTAA
Y
GGCCAGCCAGGTTTCCCAAGTCCCTAACGGGGTCTGTTCAGGGAGCAAGAGCTTCCCAGGCCCTGGCAAGCCATAGACGCCCCCCATCCTACAGTAATCA
Celera SNP ID:            hCV3178461
SNP Position Genomic:     422416
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22961):
AATGGGAACCAGAACTTAGAAGTTTTAATTAAATCAAGCTCTGTGTAGGTGAACAGGCACATTAGTATTTTTGGACAGTGGGATGTCATAGAAAAGTGTG
Y
TAGAGTGAGGGAAGGCTGAAGACACTTTATATAATTGGACCTAGTTTTGGTGTTATTCTGCTATTTGCCATGTTCTGTAAAGGAAGTAGGTTTAGATGCA
Celera SNP ID:            hCV1746269
SNP Position Genomic:     275965
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,12)      total(C,12|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22962):
TCTAGGCACAGGCTTATCAGGCCTCTCCACCTTGCTGAAAATATCCTCAGACTATGCCACCTCTCTCAGCTTTGTTTATTCCTCACCCCACTAATGGCCA
R
CCAGGTTTCCCAAGTCCCTAACGGGGTCTGTTCAGGGAGCAAGAGCTTCCCAGGCCCTGGCAAGCCATAGACGCCCCCCATCCTACAGTAATCAACTGAC
Celera SNP ID:            hCV3178462
SNP Position Genomic:     422422
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22963):
AAACTAAGTAAGTCACAGTCCAGATTTAGGAGGAATTTGCTCCCCTTCCCTGCTACATGCCTCTCCTGAAAGCCAGATGTGGCGCCGCTTGGCTAGGACG
W
AGCCATAGGTTCACCTTTGACCCGTTTGCCTGCCAGGCATTTGGAACACTTAGTATCCTTCTTTGCATGTGAACAAGTGTTGCCCTGGTTGTCTCTTTCA
Celera SNP ID:            hCV3178463
SNP Position Genomic:     423636
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22964):
CCAGGCATTTGGAACACTTAGTATCCTTCTTTGCATGTGAACAAGTGTTGCCCTGGTTGTCTCTTTCAGATACAACTGGGTAACCCCGCTGTGACCCAGG
Y
AGCTGTTTTTTAACCATTTTGTTAGATAAATTTTCTCCATCACTAAAACCAAAGAGTGGGATTTTTTTGTTCTAGATTACATGAGCAACAGTCTCGCGAT
Celera SNP ID:            hCV3178464
SNP Position Genomic:     423769
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22965):
TGTTCTAGATTACATGAGCAACAGTCTCGCGATTTCCCCAAGCTCTCTCCTTCTCTTCGAGAATTACCACAGGGTGCACACATGCAACAAGAATCCCTGC
M
TGTTTGTATATGGACCGAGGATTTCAGAGTGTTCCTAGTTTACAGGTTGGCTTTGTGAGAAAAGTCCATCGGTCACAGTCTCACTTTTGGAACCTAACAT
Celera SNP ID:            hCV3178465
SNP Position Genomic:     423937
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22966):
GACTGTCACGCGGTCACGCCAAGAGATGGAACTTTACCTGTTTCTGAGAGATTGACCAAAATGTGCAGCAGGAAGTATACCGAGCACTACCAGACAAAAC
S
TTGACTTCAGTGAGGCCCAGATTACTTTCCAGGTCAGGAGGTGACACAAATTTGGATCTGACTTCCCTAGAACAACTGTCTCTCCTGTCACATGCTTGGA
Celera SNP ID:            hCV3178466
SNP Position Genomic:     424195
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22967):
TTCTTTGTGCTCCAACTGTATGCCAGACATAGTGCTCAGTGCTTTAAAGGCATTATCTTGTTTAATTTTCCCTCAAGATCGTAGGAACTAGTAGGTACTA
Y
TGTAGTTACCACATCTTAGATAGAAAGCTGAGGGACAGAGGTTGGACCCACATAGAAACACTGGAAATGGTCTGAACACAGGCAGCATGCCCCAGAGCTT
Celera SNP ID:            hCV8769380
SNP Position Genomic:     311916
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22968):
AGATTGACCAAAATGTGCAGCAGGAAGTATACCGAGCACTACCAGACAAAACCTTGACTTCAGTGAGGCCCAGATTACTTTCCAGGTCAGGAGGTGACAC
R
AATTTGGATCTGACTTCCCTAGAACAACTGTCTCTCCTGTCACATGCTTGGATCTCCTTTAGGAAGTACCAACACTGCAGTTACAAAACAACAAATTTAT
Celera SNP ID:            hCV3178467
SNP Position Genomic:     424243
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22969):
CCTAGCTGGAGACTCCTTTCTGGAGCTTCTACTAACCCCTCCTTATTTCCAGTGACATAATGTATATGCTTCATAATCAAACAGGCATGAGCTCCCTTTG
Y
CAGGGGGAATATCGTCTTTCTCCTACCTGGAAAAGCCTGCTTCTCATAGGTCACATTCATCTCAAGACAGCTCTGGTTCCAGGCCCTCGAGGCTTATTGG
Celera SNP ID:            hCV3178468
SNP Position Genomic:     425616
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22970):
ATCATAAATAATGTATAGTATAATGTAGCACATATATACACATTTATATATTACATTATACATTATAATATACATTATATATAGATGTAATGTAGCATAT
M
TATACATTTCCATAGATATTATATATATAGTGTATATTGAAGTACATAGCTTCTGATGTATAGTAAAATAATTTGACAGAAGGTTCTTAGAACTTTTAAA
Celera SNP ID:            hCV15832946
SNP Position Genomic:     134505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22971):
TCATCTTTAAAGCCTACTGCTTTTCAAATCCAGAGTATTGTCAATTTCCTATTGGTTTCCTTCAGCATTATTCTCCTTCACTTGTGTTTCTTTTCTTTCT
R
ATTTCTCAAAACCTTAAACTAACTCTCTCAGTTTTCTCTATCTCCTTTTGAAAACTCTGGGAATACATTTCCTAATAGAGTTTCCTTCTGTATACTCAGC
Celera SNP ID:            hCV15832947
SNP Position Genomic:     133729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22972):
ACCTCTTTCTCTGTCCCTTCGGGTTCGCTCTCCTTCCAGGGCCCGGGCGGCCATCCACGAAGCACAGCCCGCACATCGCGGCCGCCAGGAAGGTCTACAT
M
CAGACTCGCAGGCAGAGGAAGCTGCACTTCGTGGTGGGGGGCTTCGCCTACCTGCTCCCCAAGACGGCGGTGGTGCTGCGCTGCCCGGCGCGCAGGGTCC
Celera SNP ID:            hCV8769387
SNP Position Genomic:     309276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:22973):
CGTCCTCCGGCACCTTCGTCTCTCCTTCTCTTCTCCACTCTGGCTCTTTCCTTTGCCCCTCTCTCCTGGCTGCATCTCACTCTGGGTTTTCTCTCTCCCC
W
CCTCTTTCTCTGTCCCTTCGGGTTCGCTCTCCTTCCAGGGCCCGGGCGGCCATCCACGAAGCACAGCCCGCACATCGCGGCCGCCAGGAAGGTCTACATC
Celera SNP ID:            hCV8769388
SNP Position Genomic:     309176
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,4)      total(A,4|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22974):
ATTTAAAATTTTCTGTCCCAGGGAGGAAAAAACTCTTAGGATGTTTATCTCATTTTCAATAGTGTATTTCATAAGGAAATGGACACTTGATCCTATCTTT
W
GAGGCAGCAATAAACATAGCAAAACAAATTGAAAGTCCAGCTTCACATGTGGTTGTTTTTGTTTGTATTTATTAGCAGGAAGTTCTTTGGCATAATTGCC
Celera SNP ID:            hCV8769389
SNP Position Genomic:     292052
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:22975):
AGCTGCTTTGCTGAAGATGGTGAGAGGCTGCCGCATTTACCAGTGGTATACCCAGGAACAATGTGGCAGATGTGGCCATTCAGATAAATGGCTATGAGAG
Y
AGACTGGGGGTGACATCTGTCAGTACATTAATTATTAGAGATGATCTGGCCATCATCTGGATAACTGGCTGACTTAGTATCCCCTCCCTCCCTTACCATG
Celera SNP ID:            hCV27869510
SNP Position Genomic:     183848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22976):
GAACTATCAGAAAAACACTTGCTTCAGGCATGCAATCTTGACAGTCTACACATTTTAAGGCAAGAGCATGTTTGTACTCAGCAATGGGTTCTGCACTCCA
Y
CTTGGGAAAGAAGAACAGAAAAGACAGCCTGCTTTTGGTGTAGGCCCAGAGACAGCATCAGGCCTCAGATGAGTTTCCCACGTAACTCTTCCTATATCCC
Celera SNP ID:            hCV27869511
SNP Position Genomic:     138234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22977):
TTCCATTAGCAACCTTAATTCCCCCTTGCCACATAATATTACACATTCACAGATTTAAGGACATATTTGGCAGGGGAGAGGGATACATTAGTCTACTTAC
S
ACAGTGTGCTTTGTTCATCTTTTGCATAGTGTCAGTTCAAGTCTGTTGCTCATTTTTAAAAAATGTGTTGCTTGACTTTCTCTTGTTGAGTTTTGGGAGT
Celera SNP ID:            hCV1746410
SNP Position Genomic:     160562
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22978):
CGAGTAATTTCTTCTATGATCTTGACCACCACAAGGAGAACAACCCTGGAACTATTTTTAACAAGAAATTTATACCTAGAAATCTAGACAAACCACCTAA
Y
ATATCAAACTCCTTGGAGTAAAAATAACTTTGCAGATCATCTACCCTACTAATTTGTTTCTCAAGAGGCTCATATCTGAATTATAACAGCCAGCAGGAAT
Celera SNP ID:            hCV1746270
SNP Position Genomic:     275716
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22979):
AAACAGCACAGAACAAAACAGACAAAATCCATTTATCTTCCTAGGAGCCATGGAAAAAACAAACCAGAGCAGGAGAACAGGAAATGGGTATAGGCTGCCA
S
CCACAGGTGATGCAGGGGAGCTGCAATTTTCAGTAAATTAATAAAGAAAGGACTCACTGATAACATGGCATTTAAACAAGGATCTAAGGGAAGTGAAAAG
Celera SNP ID:            hCV1746416
SNP Position Genomic:     158987
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,11)   total(G,11|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22980):
GAAAAAGGGTTCATTTAGTGGAAGGTTTTTAATGTGAAGATGCTAATCAGTTAATATTAAATAGAGACAAACTGCAATAAAACCCAAAATATGGTATTAG
R
GAAGAAACACAACAATAGAGGACACCATTCATGATGCGAGTAATTTCTTCTATGATCTTGACCACCACAAGGAGAACAACCCTGGAACTATTTTTAACAA
Celera SNP ID:            hCV1746271
SNP Position Genomic:     275579
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22981):
TCAACAGCACATATTTAATGGGCACCTGCTATATGCTGAGGAACTGTTCTAGGTGCTGGAAACAGCACAGAACAAAACAGACAAAATCCATTTATCTTCC
Y
AGGAGCCATGGAAAAAACAAACCAGAGCAGGAGAACAGGAAATGGGTATAGGCTGCCAGCCACAGGTGATGCAGGGGAGCTGCAATTTTCAGTAAATTAA
Celera SNP ID:            hCV1746417
SNP Position Genomic:     158928
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,12)   total(C,2|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22982):
CTGGCAGAAACTCACTCTGTATAAAGGAGGTAATTCTAGAAAAGAAAAAGGGTTCATTTAGTGGAAGGTTTTTAATGTGAAGATGCTAATCAGTTAATAT
W
AAATAGAGACAAACTGCAATAAAACCCAAAATATGGTATTAGAGAAGAAACACAACAATAGAGGACACCATTCATGATGCGAGTAATTTCTTCTATGATC
Celera SNP ID:            hCV1746272
SNP Position Genomic:     275536
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22983):
GCTCAAAGATTTTGAGGTAAAGTACGCTTATAATAAAACACAGGCCTCTATGTTATAAAGTACAAAATACATATGGATTTTTTAAAGAAAGCACAAAACA
Y
TAAAGAAATTTCCACCTGCCCCTGGCTGCTTTGGGCTATCCTCACAAGCCACTCAAGGATATATTCATTCAACAGCACATATTTAATGGGCACCTGCTAT
Celera SNP ID:            hCV1746418
SNP Position Genomic:     158759
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,10)      total(C,10|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22984):
GAGAAACATGGTGTATTGGGAAGCCAACAAGTGGCTGTGCCTGGCAGAAACTCACTCTGTATAAAGGAGGTAATTCTAGAAAAGAAAAAGGGTTCATTTA
R
TGGAAGGTTTTTAATGTGAAGATGCTAATCAGTTAATATTAAATAGAGACAAACTGCAATAAAACCCAAAATATGGTATTAGAGAAGAAACACAACAATA
Celera SNP ID:            hCV1746273
SNP Position Genomic:     275496
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22985):
ATACACAACCTGATGATTATACATACTGACAAAATGCAATTGATTCGTTTACCTTAGCACTGATGATGTCTCATGACAAAATGATTGATATCAATAAAGC
Y
CACCATATGCATGCACCTCACCACAATCTATAGCAGATGCTGAACAAACTGCCTCACTTATGTTTCTCTACTCTGGAAGAATCTTCCATCTTATATTTAC
Celera SNP ID:            hCV1746419
SNP Position Genomic:     157642
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,10)   total(C,10|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22986):
AAATATTATAACAATGATAGCAATAATAATGATGGCAGGTACCGCATGGTATTTTGTTTCCAACACCTGTACAAGCTAGAGGCTAGCAGGGAAAAACACA
R
TTAAGAACTCTGGAGTGAGACTACTTAGGGTCAAATCCTAGATCTCTTACAACTAGCTATGTGAACTCGGCCAAGTTACTTCAATTGCCCTATATATAAA
Celera SNP ID:            hCV1746275
SNP Position Genomic:     271697
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22987):
AAGCATAAGCAAAAAGGAACTCCAAAGACCAATTCTTTCTATTTTTCTCTCTTGTGTATGAGAAATATTATAACAATGATAGCAATAATAATGATGGCAG
S
TACCGCATGGTATTTTGTTTCCAACACCTGTACAAGCTAGAGGCTAGCAGGGAAAAACACAATTAAGAACTCTGGAGTGAGACTACTTAGGGTCAAATCC
Celera SNP ID:            hCV1746276
SNP Position Genomic:     271635
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,5)      total(G,5|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22988):
ATAAGAAAGGATTTTCTTACAGCCGTGCTGTGAGAAGTTTTGCGTTTTCTCTATATCTTAGTCTTTAAAACTATGGAAAGGAATTGAGTATGATAATGCA
R
TTACCCCAGGTAAAAATCTTCTATGCTTTCAAACATGTGCGTAGCCATCAATAAGAAAAGGATTCCTTGCTATCTGAGAGTGAAAAGTAGAGGGTAAGGG
Celera SNP ID:            hCV1746277
SNP Position Genomic:     271021
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:22989):
ACAGAATAAACAAAATACAAATTAAGCATTGGCCTTATTTTATACATACGGTGCATATTCAAACTTGACTGACAGGCAGTTACCTGTAACTCTGTGAATG
R
CAGTTTCAGTGTAAAAGTAGGCACTGAAATCAAACCAGCAATAGGTTTAGTTACAAATGAGAGTGGAGGAAATAAGTGCTTCCAGGGACACATTACTCCT
Celera SNP ID:            hCV3178470
SNP Position Genomic:     427547
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22990):
TAGGCCTTGGGAAGGCACATCCCAGGCACACCTAGAAACACCTTATGTGAAAATGGATAGTGTCAGGCACTTTATCTTTAACTTAATAGAAGTTGACAAT
R
TAACTGACCCATGGTGGAGTGAAGTGAAACCACATGTGGGCTGGATTGACCCTCCCTTGATCTAGAAAAGAAAAAGTGCTGTTTTCCAGCTCACCCTTGC
Celera SNP ID:            hCV1746278
SNP Position Genomic:     269202
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:22991):
ACCTTATAAGTGCTCTGGAAAACAGCCCAAGTTCTACAGCAACCAAGCAAACAGCCAATAAAGAAACAGCCATCTTTAAGATGATAGGAAATTTCCTGGT
W
TTTTCGTTCATCCTTGCCCCACCCCCTCCCCCCATGTGGCATGGTTTTGATCTTAACAACGTGGCAGCCACTACTTGTGAAATCTGCAGAAGGAACACAG
Celera SNP ID:            hCV3178471
SNP Position Genomic:     427861
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22992):
GCATGGTTTTGATCTTAACAACGTGGCAGCCACTACTTGTGAAATCTGCAGAAGGAACACAGACCTGCAGACACCTGGGAAAAGAGATTATGGGTGGAGA
Y
TGACCCTCTATGCAACTGACGCTCTAAAGTCCCAAGGACAGCCTTGAGTGAGACTCTGGGAAATTAAGACACTCAAAAGCAGCTATGTATATGGAGAAGG
Celera SNP ID:            hCV3178472
SNP Position Genomic:     428000
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22993):
TAGGCATTGAACATTAAAGACAAACACTTTAAAACAACTATCTTAAATATGCTAAATTGGGAGCTGAAAGTACTAGAACTGAATTGAAAATTTTACTGGC
R
GGATTCAACAGCAGATTTCGCAGGCAGCAGAAAGAATTTTCAAACTTGAAGATAGATAGGCCAATAAAAATAGAAGAAAATAAACAAACAGAGTCTAAAA
Celera SNP ID:            hCV3178474
SNP Position Genomic:     428435
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22994):
TCTTTTTGCCTCATAAATCACAAACTTGGAGTTCAAGAAGCTGGCTACTGGTAAACACCAATGAGTACCAAAAAAAAAAAAAAAAAAAAAAACAAACACC
M
GCTAGAAACCTTCTCTCTCTAACAAAAGGACTAGGAAAGGGGAAGCATAGCAAGACAGAAAACCTTTAGAAAATTCTACTCTATGCTAGCCAAATGCCAC
Celera SNP ID:            hCV11263264
SNP Position Genomic:     343476
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22995):
TTGGGTTTTCTTTTTGCCTCATAAATCACAAACTTGGAGTTCAAGAAGCTGGCTACTGGTAAACACCAATGAGTACCAAAAAAAAAAAAAAAAAAAAAAA
M
AAACACCAGCTAGAAACCTTCTCTCTCTAACAAAAGGACTAGGAAAGGGGAAGCATAGCAAGACAGAAAACCTTTAGAAAATTCTACTCTATGCTAGCCA
Celera SNP ID:            hCV11263265
SNP Position Genomic:     343468
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22996):
AGCAGATTTCGCAGGCAGCAGAAAGAATTTTCAAACTTGAAGATAGATAGGCCAATAAAAATAGAAGAAAATAAACAAACAGAGTCTAAAAGAGTTGTGA
S
ACACCCTCAAGTGAACCAACATATACATTTTGAGAGTCTCAGAAGAAGAAAGGAGTTGAAAGATTATTTGCAGAAATAATGGCCAAAAACTTTCCAAATT
Celera SNP ID:            hCV3178476
SNP Position Genomic:     428545
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,6)   total(G,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:22997):
ACCTCCCAACAGGGGTCTCCAGACACCTCCTACAGGAGCATCTGGGCCAGCAACAGGTCAGTACCCACCTGGGACAGAGCTCCTAGAGGAAGGGGCAGGC
W
GCCATCTTTGCTGTTTTGCAGACTTCACTGGTGATACATCCAGGTAAGGGGAAAACCTAGGCAACTAGGGCCTGGAGTGATCCCCCAGCAAACTGCAGCA
Celera SNP ID:            hCV3178479
SNP Position Genomic:     429975
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:22998):
ACCCTTTTATGCACAGGGTAATGTGTTCACAAGTACCGGGGATTGAGATGAAGATATCTTCGGGGGCCATTGTTCAGCCCATCACCACCTGCTATATTGT
S
AGTGAAGCACTTAGTCCCCACTAGCACAAGCTCCTTGAGATTGGGAACCTGTCTTCCACTACCCTTTTGCCTCTCTATATCTAATATATCAATGTATATA
Celera SNP ID:            hCV8769398
SNP Position Genomic:     291272
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:22999):
ACAGCTCACATACCATTGCCTTGTGCAGAAGGGTCTCCCATTTCCAGGCAGCCACGTGTCCTCTGTGCTTTCTCCTAATCATTTGGCAGAGCCCCTCCCT
Y
CTCCTTGCTCCTTGCCCATCTTGGAGCTGTGGTTTAGTAAAACACTCAAAGAATCAAATACTGATGAATAAGCAAAACACTAAGTATGAAGCCTCTGGCA
Celera SNP ID:            hCV8769399
SNP Position Genomic:     287106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23000):
TAGCAGGACTGGACAGAGCACCATTGTTTTGATAGCTTTCTGTTTTCACAGGTGCTACAGAGTCACTTTATGAGTCTTCACCATGACCCATGTCATAGAA
R
ACAAATATAGCTATAGTTTTGCTGAATCCAGGTTTAAAGTTCCTTGTTCAAACAAAAACATAATTTCTAAATCGGTCCAAAGCAAAGTTCAACGTCTTGA
Celera SNP ID:            hCV12097936
SNP Position Genomic:     206153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23001):
AAGACCGACAGTAGGTAAATTATATAATACACAACCTGATGATTATACATACTGACAAAATGCAATTGATTCGTTTACCTTAGCACTGATGATGTCTCAT
S
ACAAAATGATTGATATCAATAAAGCCCACCATATGCATGCACCTCACCACAATCTATAGCAGATGCTGAACAAACTGCCTCACTTATGTTTCTCTACTCT
Celera SNP ID:            hCV1746420
SNP Position Genomic:     157616
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,9)      total(G,9|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23002):
TATTCTAGGCACTGCAGCAGATACAGATAGAAATAAGACAGCCCTTGTATTAAGGACATGCATTTTTAGAATTATTTTGACATTGCTTGGCATATTGTCT
S
CAGATTTTGCTACTATGCAGAATCCTTCAATAGATCCCTGACTGAGTATTTCTTTCCATATGTCTCTCTGGTTTGGGAAATGAGAATGAATATCTTTACT
Celera SNP ID:            hCV1746421
SNP Position Genomic:     156461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,10)      total(G,2|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23003):
AACCTCTGCCACATGGAGGTATGAAGAAACGGCTATGGAAACATACAGCAATAAGGCAGTTACCTCTGGAATCTGGACAGGCTTTCTTGAGCAGACGCCT
R
ATTTGGGATTTGAAGGATGAGTAGGAGTTTGCCAAATAAAGAATAGGGAAAGAGTATTCTAGGCAAAAAATAATAGCATGTGCACAGAGGGCCAATTAAG
Celera SNP ID:            hCV1746428
SNP Position Genomic:     151734
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,7)   total(G,7|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23004):
GTCTAGACCAAGAATGCCCAGCCTTCATTATCTCCTCCTATTTGCTCTAATCCTTGGGAGGGTGGGCATTTTCTACTGGTTAAGAGAAAATCCAGCACAG
Y
TCAGCAAACATTTATAAAATTCTTACTGTGTCATAGGTTCTGGAGAAACAATAAAGTCTAGGACATAGACCCTGGGCCGCGCACTAACAGCTTATTAGGA
Celera SNP ID:            hCV1746285
SNP Position Genomic:     267205
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,6)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23005):
GAAAGGAATATCTTTACATCACCTGTTACATCAATCTTGAATCTGTGAGAAATGAGCTTTGATGATATCACTTTGCGGCTGGGCACAGTGGCTCACGCCT
R
TAATCCCAGCATTTTGGGAGGCCGAGGTGGGTGGATCATCTGAGATCAGGAGTTCGAGACCAGCCTGGCCAACGTGGCAAAAACCCGTCTCTACTAAAAA
Celera SNP ID:            hCV1746287
SNP Position Genomic:     260552
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23006):
CAGAGCGAGACTCCGTCTCAAAAAAAGAAGGTGGGTAATAACAAACTTCGCTGAGCTAAAGGAGCATGTTGTAACCCAATGCAAAGAAGCCGAGAATCAC
R
ATAAAACAGTAGAGGAGCTGGTAACCAGAATAGCCAGTTTAGAGGAGGAGCACAATGACCTGATGGAGCTGGAAAACACAACACGAGAAATTCACAATGC
Celera SNP ID:            hCV3178480
SNP Position Genomic:     430723
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23007):
CCCTAGAACAACTGTCTCTCCTGTCACATGCTTGGATCTCCTTTAGGAAGTACCAACACTGCAGTTACAAAACAACAAATTTATTCTCTTACAAGTTTGA
R
GGCCAAAAGTCCAAGATCAAGGTATCTATCAATCAGGAGGATCACATCACCTCCAAATCACCTCCAAAGGTTCTAGGAGAGAATCCACTTCTGGTGGCCC
Celera SNP ID:            hCV29146800
SNP Position Genomic:     424360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23008):
TTGAAACCAGGGCTTTGGAATTCTAGCCCAGTCAATGGTCATGCCAGAATCTGGAAGATACCGTGCATTCACTTGAGCCTGTGGCATGGCTGGTATGTGT
K
TGTGCCACGCAGTTGCTTTCCCCTAAAGGGAACATGAGGTGACAACAGACTTCATGGGCTCTGCCACCTTTTAGCCTGTGTCCTAAGCACTCACACCATA
Celera SNP ID:            hCV8769540
SNP Position Genomic:     254648
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23009):
TGGGTCAATAAATGTCATTCCTCACATAAGAAGAACTAAAGACAAAAAACACAAGTATCTCAATAGACACAGGAAAGCCCTTTAATAAAATTCAACATCA
M
CTTCATCTTAAAATCTCTCCAACTAGATATTGAAGGAACACACCTCAAAATAATAAGAGCCATATTTGACAAATCAGCAGTTGCTATTATAGAGAATGGC
Celera SNP ID:            hCV3178481
SNP Position Genomic:     431208
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23010):
TGGGACTGTATTGGCCCAGTGATCACAAATGTCCCCAGCAGCATTTTGACATCAACAAGGGTAAAGGTTATATGTTTATTTGCCTCAGGGCTAAAATGTT
Y
ATTTTTCCTAGATATTCTTTTCCATGTGTGAGCATGTGTGACCATGGAAAGGAATATCTTTACATCACCTGTTACATCAATCTTGAATCTGTGAGAAATG
Celera SNP ID:            hCV1746289
SNP Position Genomic:     260405
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23011):
CCTTGAAAACCAGCACAAGACAAGGATGCCCTCTCTCACCACTCCTAGGCAATGTAGTATTGGAAGTTCTCGCCAGGGCAATCAGGCAAGAGAAAGAAAG
M
AAGCATATTCAAATAGAGAGGAAGTCAAATTATCTTTGTTTGCAGATGATATGACCCTTTATCTACAAAATCCCATCGTCTCAGCCCAAAAGTTTCTTAA
Celera SNP ID:            hCV3178482
SNP Position Genomic:     431428
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23012):
TCTCCATCACTAAAACCAAAGAGTGGGATTTTTTTGTTCTAGATTACATGAGCAACAGTCTCGCGATTTCCCCAAGCTCTCTCCTTCTCTTCGAGAATTA
Y
CACAGGGTGCACACATGCAACAAGAATCCCTGCCTGTTTGTATATGGACCGAGGATTTCAGAGTGTTCCTAGTTTACAGGTTGGCTTTGTGAGAAAAGTC
Celera SNP ID:            hCV29146801
SNP Position Genomic:     423903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23013):
ATTTTGCAATCTATCCATCTGACAAAGGTCTAAATCCAGTCAAGAGGAACTTAAAAAAATTTACAAGAAAATAACTCCATTAAAAAGCAAGCAAAGGACA
Y
GAACAGACAGTTCTCAAAAGAAGACATTCATGTGGCCAACAGTCATATGAAAAAAAGCTCAACATCACTGATCATTAGAGAAATGCAAATCAAAACCACA
Celera SNP ID:            hCV3178483
SNP Position Genomic:     432577
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23014):
AAGACATATTAAATGGAGTCCTTTGAGTTATAATAAAAAGATGCTAGTTAACTCCAAGCCACCTGAACATATAAAGACTCTCCAATAAAGGTAAATAGAC
R
GGCAGACATTAAAACCAGTATTATTTTGTTTCATAGCTCCACTTTTTATTTTCTATAGGATTTCAAAGAAATGCATAAGAAGTAATTATAAATCTGTTAG
Celera SNP ID:            hCV3178484
SNP Position Genomic:     433837
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23015):
GAAGCCATAGGTTCACCTTTGACCCGTTTGCCTGCCAGGCATTTGGAACACTTAGTATCCTTCTTTGCATGTGAACAAGTGTTGCCCTGGTTGTCTCTTT
S
AGATACAACTGGGTAACCCCGCTGTGACCCAGGTAGCTGTTTTTTAACCATTTTGTTAGATAAATTTTCTCCATCACTAAAACCAAAGAGTGGGATTTTT
Celera SNP ID:            hCV29146803
SNP Position Genomic:     423735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23016):
AAGTATTAATCAAAAGTAAAGTAGACTGGAAAATTCAATCATGGTATGTTCATAAAATAAAGTGCTATACATCAATGAAAATGAACTTCAGTTATATACA
Y
AATACACAGTAAGAAAACACCAAATACAAAACAAACATGAAATATGGTTCATTTATGTAAATTTCAAAAACAGGCATAAACTAAACTGTTTTAAAAGTTA
Celera SNP ID:            hCV3178485
SNP Position Genomic:     435778
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23017):
AATGCAGGCCTGACATTCACCAGGGATATAAGAGGCTGGAAAACTGCCCTTGCCAAGCTGTGCAAAATGAAGAAGAGATCTTTGATGTGCCAGGAACTTT
Y
TGACTTGATTTGGTGATGGTCAGAGTCAATCAGCTTAATTTACTTCTGCAAATGAAATAATAATGGCTCTGTTTTCTTGGATTTCAATGCCCCCGGGAGT
Celera SNP ID:            hCV29146804
SNP Position Genomic:     423330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23018):
AATCAAAAGTAAAGTAGACTGGAAAATTCAATCATGGTATGTTCATAAAATAAAGTGCTATACATCAATGAAAATGAACTTCAGTTATATACATAATACA
Y
AGTAAGAAAACACCAAATACAAAACAAACATGAAATATGGTTCATTTATGTAAATTTCAAAAACAGGCATAAACTAAACTGTTTTAAAAGTTAAGTCTCA
Celera SNP ID:            hCV3178486
SNP Position Genomic:     435785
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23019):
CTTATGCTTCAAGAGGCTATGAGTCCCCCTGTGCACCTCATCCTCTGTCCTCAGCAGTAGTTAAATGGATAATAGATGGGCTTGGAGTTGGCACTGGTGC
R
GTGCTGAGAGCCTGGGGGGATGTGGCTCAGCTCTCAAATGCCCCTTTACTACCTATCTGTAGGACTTTCATACAATACTTAGGCAACTGCTTTCTGTTTT
Celera SNP ID:            hCV29146805
SNP Position Genomic:     422893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23020):
AAGTCTTGGGTAGACATTTGAGTTTATTATATCAAAATATGTTTGATGGCTCTGTAGATGTGTATAATATTGTACATGTCCAGTGCAGGCTTGGCAAAAG
Y
CTTCAGAAGACAAAGCCTTATGCAGAAAAAAGATCCATGTCTAAAATTGCTTTCCTAGTCTCTGATTGGAAAAATCTCATAACAAGTAAAATGAGGGAAT
Celera SNP ID:            hCV29146806
SNP Position Genomic:     419734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23021):
TAGTAAGGTTCATATTTACCGACTAAAATCTCATCAGCCTCACCAGGGCTGACCAAACAGGATTCATGGAGCCAGCACCTTGATAGCATATGGCCCTTTT
Y
TTTTCCTTCAAAGTAGATGTGATAGGGAGACACGCATTTGCCTATTTCAGTCAGGCTAAAAAGCTTTATTTGTTTCAGCTGCAGTTTCAAAAGTATATTT
Celera SNP ID:            hCV29146807
SNP Position Genomic:     414787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23022):
CTCTCAGAAAATCCTAAGGCAGTTGGGAAAATGAGGACTATGAGAAAATATGAAAGATTCCCTGACAAATGTGCTTAGGAGTAGTAAGGTTCATATTTAC
Y
GACTAAAATCTCATCAGCCTCACCAGGGCTGACCAAACAGGATTCATGGAGCCAGCACCTTGATAGCATATGGCCCTTTTTTTTTCCTTCAAAGTAGATG
Celera SNP ID:            hCV29146808
SNP Position Genomic:     414706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23023):
GGTATGCCTGTATTATGAAGGCAGCTTCTCAAAGGCCTGTTAGTTGCTTCTCCTGGGTCTTGAGTTCCAAGAACTCCACATCCATGGCAGGCCTGCCCTT
S
GAAGCATCTCTACCCTATTCTCATCTGCACGAGGAATAGCAGGCTGGGAGGCCCTGGGAACAGGACCAAGACCCAAGGCTCAGATGGGCCAAGAGAGGTT
Celera SNP ID:            hCV29146809
SNP Position Genomic:     414315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23024):
AGGTTATCCTGTGACCCTTTTGTTGACTCACAGACAAGAACAGTTGTTGAGCTTAATGTTGTCGCATTTGCTCCAGATAAACTCAATTCTCTGATTTCCC
M
CCAGCCAGCTGTCAAGCCAACAGGCAAGACCTCTCACTGGGCACAGCCAGGAGTTTCTTGGGTCGACCATACACATTTAAACATTTGTAGAAGGTTGCTA
Celera SNP ID:            hCV27931395
SNP Position Genomic:     256351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23025):
GCAACTGTACAGGACGGCATAGTGTGCATTATGTTTAGTTCTCTCATTTCTAGATTTATCTTTCTTACCTTTGCCTTTTTGCTCCATTCACTCATTTGTT
Y
TTGTGAATTTTATGGTTATTTATATGCTATAAATCTTTTTATTATTTAATGAAAGGTTAAGCATAAGCAAATTAATGAATATCTAAATCTTTTGAGGATG
Celera SNP ID:            hCV1746430
SNP Position Genomic:     149477
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23026):
ACTGATCTTACTCCCTTTCTACTCTCACCTGTTCTGAGGAAATAATCTGATTAAAACCCCTCACCCTAGATTGAGACCAAGCCTACCACCTATATGTATT
Y
GCAATAGCACCATAACAGCCAGCGTAATGCCTTATGCTCAGTTGATTTGGTCTAATTTAAGTATAATCAGCAACTTCATGTGTTACTCCTCCCAAGGGTA
Celera SNP ID:            hCV1746432
SNP Position Genomic:     147412
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23027):
TAGACTAGAGAGATGCTCATTGATGACACAGTGCTATTCAGCCTAGACTTCAACTCTGGTGACAACAAATCCTAGTAATGCGATTTGCGGCAAGTTGTGT
W
ATCTTTCTGTTTCAGGTTTATTTTTGTGAAATAGACACAATTGTAGCTAATTTTCAAGGTTATTACAAGAATTGTGTGAGAAGCTATGTATCTAAAAATA
Celera SNP ID:            hCV1746433
SNP Position Genomic:     147117
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23028):
AAAAAAACAATGCCATTAAAAGATGGGTAAAGGACATGAACAGGCACTTCTCAAAAGAAGACATTTATGTGACCAAAGAGCATATGGAAAAAAAGCTCAA
Y
ATCACTGATCATTAGAGAAATGCAAACCAAAACCACAATGAGATAGCATTTCACACCAGTCAGAATAGCTATTATTAGAAGGTCAAAAAATAACAGATGC
Celera SNP ID:            hCV1746434
SNP Position Genomic:     145807
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23029):
TACGCTTAATAAATATCAATGGAACAGAATAGAGAACCCAGAAATAAGACTGCACACCTACAACTGTCTGGTCTTTGACAAAAACAAGCAATGGGGAAAG
K
ATTCCTTATTCAATAAATGGTTCTGGGATAACTGTCTAGCCATATGCAGAAAATTGAAACTGGATCACTTCCTTACACCACATGCAAAAATTAATTCACG
Celera SNP ID:            hCV1746435
SNP Position Genomic:     145312
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23030):
GGTAAATTCAGATGTACTTACACTGTCTCTCTGTTTTCTTCCATTGATGGATAGGAATCTGCCATAGCCTGTTCCTTAATAGCTGGGCCTGACTGGGCCA
R
TGGGAGTCTCTTTTGTTTCTCTAGTGGGACTGTATTGGCCCAGTGATCACAAATGTCCCCAGCAGCATTTTGACATCAACAAGGGTAAAGGTTATATGTT
Celera SNP ID:            hCV1746290
SNP Position Genomic:     260280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23031):
CAGGAATCAGGAACTCAGTAGATCAAGTACAAAGTGAATCTACAGATCCAGAGTTGGTGTCAGAGTCAGGGCATGAAGCCTGGGGCACTGTGCCTAGCAG
R
AAAGAAGTCAGAGGGAGGTACACTTGGAAATAATGAGCATTTATGCCCCAAGGCAATTCTGGAGTAGTGGGTGAAGGACCAGAGACATAGCAGGCAAGGT
Celera SNP ID:            hCV1746436
SNP Position Genomic:     144802
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23032):
ACTACTGTCATCCCCCTTGGTAAATTCAGATGTACTTACACTGTCTCTCTGTTTTCTTCCATTGATGGATAGGAATCTGCCATAGCCTGTTCCTTAATAG
Y
TGGGCCTGACTGGGCCAATGGGAGTCTCTTTTGTTTCTCTAGTGGGACTGTATTGGCCCAGTGATCACAAATGTCCCCAGCAGCATTTTGACATCAACAA
Celera SNP ID:            hCV1746291
SNP Position Genomic:     260262
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23033):
CCATTAGATGGTTTAGATTCTTGACTTCAAGAAAGGCAATATAGGAAAAAATTATTTAAAATGTTTGCCATCTTAGCTCAAATAATAAAGGACAGAAATA
R
GACTCTTAAAAATTAGCACCTGGCAAAAGTTTATTCCTATGAAACCACGTCCTCCTCTATAATTTAACCACAGAGGCTGCCGAAGTTCCTACCCTTTGGT
Celera SNP ID:            hCV1746437
SNP Position Genomic:     144458
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23034):
TTACTACTGTCATCCCCCTTGGTAAATTCAGATGTACTTACACTGTCTCTCTGTTTTCTTCCATTGATGGATAGGAATCTGCCATAGCCTGTTCCTTAAT
R
GCTGGGCCTGACTGGGCCAATGGGAGTCTCTTTTGTTTCTCTAGTGGGACTGTATTGGCCCAGTGATCACAAATGTCCCCAGCAGCATTTTGACATCAAC
Celera SNP ID:            hCV1746292
SNP Position Genomic:     260260
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23035):
AGCACCTGAAGAGTTTTAATAAACGTTAGAAATCAGACTTACTTATTCTCTTTTTCCCTTTCAGAGTGTTTATCCAGCCATTAGATGGTTTAGATTCTTG
R
CTTCAAGAAAGGCAATATAGGAAAAAATTATTTAAAATGTTTGCCATCTTAGCTCAAATAATAAAGGACAGAAATAGGACTCTTAAAAATTAGCACCTGG
Celera SNP ID:            hCV1746438
SNP Position Genomic:     144381
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23036):
CAGTTCTAGTTCCTTCTTATACCCAGAGATAACCATTGTTAATGCTTTGCTACATACACTTCCAGATAGTTTTCTATGAATTTATATACATATAAGAAGA
W
ATACAAATAGATAAAGCTTTTTCCCTTTGTAAATGGGATTTTATTTTGTATATTGTTGGGAAATTTGATTTTGCCATTTAATATTATGCACTAAAAATCT
Celera SNP ID:            hCV1746293
SNP Position Genomic:     258562
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23037):
TTTAGCAAAAAATTTATGTAAGAATTTGTCCAAGACCCTGAAGTAAATAAGACGAGAACACAATAAATCAGACTGGGAGCACCTGAAGAGTTTTAATAAA
Y
GTTAGAAATCAGACTTACTTATTCTCTTTTTCCCTTTCAGAGTGTTTATCCAGCCATTAGATGGTTTAGATTCTTGACTTCAAGAAAGGCAATATAGGAA
Celera SNP ID:            hCV1746439
SNP Position Genomic:     144304
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23038):
GAAGATGTCTTCTCAAGCTGGAGGTATTCTGACTGTTCCAATTTGTGTGTTTGTGTGCATGTAGTGCCTACATTTTTTAGAACACTTTTTAAAAATAGTC
R
TTTTCTGTTAGAAGAGTACTAGATTTTAGAGTTCTTGCTATCAGCTTTGTGTCTGAATCCTCCTTTCTATATTTCTGACACCTAGTATAATGTTTGACAC
Celera SNP ID:            hCV1746297
SNP Position Genomic:     257302
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23039):
ATTTCAAGTCTTAGTCACTGGGCCTTTGTCTCTGAGAGGTCACCCCCTGCTTAAGATAAATAGCTTTCCCAGGCCGTTGTTAGTCCCACTGAACACCAGT
K
AGGGAGCCACTTTTTTTCTTGTATGTAGTCAGAATTATCAGATCACATGGAGAATACCAAAGGCCCTAGAGGGCAAGTCCAATCTGCTTAGCCAGGCTTT
Celera SNP ID:            hCV1746298
SNP Position Genomic:     256982
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23040):
CCTAGGGATCCAAAGACCCCCAAGTTAAGAGCCTTTGTTCTAAAGTGACCTCCATGGGATGCGTATCCTCTTGTTTTACTGAAATAGCAGATGTTGGCTA
S
ATGTTGGCTAAAGGCCTGCTGCTTTTGTATTTCACAGACAGTTGTTGCTAGGTGTATTTACTGTGACAGGGTCAGGCTCCATGAACTCTGGGGAAAGTTT
Celera SNP ID:            hCV3178491
SNP Position Genomic:     437589
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23041):
GTATGCACACACTGTTAGAAAATCATGCCAGTAGATTTGCTTAGCACAGGGTTGCCACAAACCTTCAATTTGTAACAAATGCAGGATCCATGAAGTGCAA
W
AAAGCAAAGTACAATAAAGTGAGGTATGCCTGTATTATGAAGGCAGCTTCTCAAAGGCCTGTTAGTTGCTTCTCCTGGGTCTTGAGTTCCAAGAACTCCA
Celera SNP ID:            hCV29146810
SNP Position Genomic:     414192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23042):
TTTTCAGTGGGACATAACAAAATGACATTTCAAGTCTTAGTCACTGGGCCTTTGTCTCTGAGAGGTCACCCCCTGCTTAAGATAAATAGCTTTCCCAGGC
M
GTTGTTAGTCCCACTGAACACCAGTTAGGGAGCCACTTTTTTTCTTGTATGTAGTCAGAATTATCAGATCACATGGAGAATACCAAAGGCCCTAGAGGGC
Celera SNP ID:            hCV1746299
SNP Position Genomic:     256956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23043):
TATTTACTGTGACAGGGTCAGGCTCCATGAACTCTGGGGAAAGTTTAACAATCTCCATGAGCACATAGCAAGAGAATATGAGGGAGGACTCTGCATACCT
R
AGTCTGCTTTCTGTTCAGTCATCCTAGGTTTAACCTGCAGAAAATGAAGCCAGGGTAAGAAAGGATGGAGTTGGTTATTTGGATGACTTTAGCAAGAAAA
Celera SNP ID:            hCV3178492
SNP Position Genomic:     437744
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23044):
GATTTAAAGTGAAAGATGTACAACTTTTTCTTTGTCTTGAACACTTAGATGCCACTGTAGGATTATTAATTAGCCTAATTTTAATATTGCTGCATCTCAG
R
GGATAGGGAGGTGGCCCCAGGAGAGGAAGCAAGATGGGCAAATGGCCATTCAGATGAGCAGTCAGAATACAAACATTTATCAATTAAGTTCATCTTTTTA
Celera SNP ID:            hCV29146811
SNP Position Genomic:     413871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23045):
TGGAGCTATTTAAGGGTCTTCAGTTCTAAAGTCTACTGCCACATTCCTAGCATATTATGCCAAAATATCTTTCATATGATTAATCTGAGAGGAGCTTGAC
K
TTCTCTTACTGGTTCTACACTACCATTAGCCATTTGCTGGCAGAATGCCCACAGACCACAGGAAATCTAACCATCCCATAAAGAAAACGTATCAGTGAGT
Celera SNP ID:            hCV3178493
SNP Position Genomic:     437980
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23046):
CTGTCATCCAGGCTTTGTTCTTCCATTTATAGAGCACAGGCAGATTAGATGTAACGTAATTCTTAAGGGACCCAGGATTGTTGGAACTAGAGATGACCAT
Y
GGCTTCACTTTAAAGTCACCAGGTGCATTATCCCCTAACAAGAGAGTCAGCCTGTCCTTTGAAGCTTTGAAGCCAGATATTGACTTCTCTCTAGTTATCA
Celera SNP ID:            hCV29146812
SNP Position Genomic:     413158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23047):
GCTATAGATAGGTATCTTTAAATGTAAGTATCTTTATATACACAGCTATGTATGTCTGAAGGCAAATTAGTGAGAATGTCCTGTCTTGCCTCTTCACTCA
M
ACTGAGCTCTGCTGAAATGATTCCAGACAAATGTCTAGGTTATTCCTAAAGATCTCCAGGGAAGTAGATATGACAGCCTCTTAATATTTTTAAATATTAA
Celera SNP ID:            hCV8769553
SNP Position Genomic:     252834
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23048):
CTGGAGGGCACATGAAAATAAAGCTTAACAGAGAAAGTAGGCCCAAGTGCCTGGGGATGGGGGCACCCGACGCAAGTCTCACTTCACACTCCTGCAAAGT
Y
GGGGAGGATGCAGTGCTGGGAACCATCTTGAGGAGGAGAGTCATTTACTTAAAATACCAAAACCCACGGGAAAAGGCAGGTTTGCCTAGGGGGAGAGGTG
Celera SNP ID:            hCV3178494
SNP Position Genomic:     440461
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23049):
TCTTAAAGAGTAAGACTTGAAAGTTGAAATCACTCCTTGATCCATGGGCTGCAGAATGGATGTTATGTTCGCAGAAATGAAAATAAGAATCTCCTTATAC
W
TCTCCATCAGAAGTCTTGGGTAGACAGGTGCATTGTCAATAACCAGTAATATTTTGAAAGAAGGCTTTTTCTCTGAGCAGTAGGTAACAAAATAGTGATC
Celera SNP ID:            hCV29146813
SNP Position Genomic:     412920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23050):
TGTGTTTGTCACAGAAAACAGAACCTAAAGGTCTTAACATTTTAACTTCATTGGTTTACCTTTGACTGCCTTTAGGTCCTATTTTTCTTAGGAAAGGTGG
R
AAGAACCAACACAATTTATTGAACAGAGGGGAATCATAGGAGACTCTGTAGAGGTTTTATGTCTGTACTAAGATGATATTGCATTATCAATTTAAAAACA
Celera SNP ID:            hCV7441840
SNP Position Genomic:     103792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23051):
CAACTACTGACAATGGAACCAGCTGCACTGCCAGGTTGAAAAGCCTAAATAACCTTCATATATAACATTTCTTCCATGACCCCATCATTGGCTTAGTTCC
S
TTTCACTATATGTCAACCCAAGCAATATAGATTTAAATAGGTCCACTTTGCCCTGGCACTTGGCTTTGTGGGAGAGAGAAGAGGAGGGGTGAGAATGAAT
Celera SNP ID:            hCV29146814
SNP Position Genomic:     411531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23052):
TTTGTATTTCTCTGATAATTAGTGATGTTGAGCATTTTTTCAAAAGTTTGTTGGCCATTTGTGTATCTTCTTTTGAGAATTGTCTATTCATGTCCTTAGC
S
CACTTATGGATAGGATTATTTGCATTCCTTATAGATTCTGGATATTAGTCCTTTGCCAGATGCATAGTTTGTGAAGATTTTCTCCCACTCTGCGAGCTTC
Celera SNP ID:            hCV29146815
SNP Position Genomic:     405586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23053):
GTTTTATGTGAGTGAGGAAAAAGCAGACAGTCAGGAATGGTTCTCCTGCCGAACATAAATAATGTTTGTTTAAGCAGAATGCTTAGGAGAGCCTGAGAGA
Y
TGCATGATCAACATTCAGACCAGAAAGCAGAAAGCCTGGGAAACCTGCCTCCCTCTCCGGAACTTCATGATGGCCAGGGTGGCTATCGTTAGAATGTTAC
Celera SNP ID:            hCV3178498
SNP Position Genomic:     446803
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 hmCS


Context             (SEQ ID NO:23054):
TTTCTGGACCCCTTGGCAGATGATTTTGGTTGTAGGCTTAAGGCCAAATGCGGCTGTAGCCAAGCCCCTTCAGGGACTGGGCTGTTTCTGGGCTTGAACC
M
AGAAGCAAGTTTGGCAGAGCAGATCTGTCAGCTGGGTATTGGTCTGCACTCTCAAAATGACCCTCCTAGGTCATGGGCTCTGCTAGGCTTTCACAGACTC
Celera SNP ID:            hCV15788755
SNP Position Genomic:     128540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23055):
ATATGTCAATCACACATTTTTAGAAGGGGGCAACTTCATGTATAATTTGGTTTTCTTATTGGGTACATCTGTCCCATTCTAAACTTTTCATACTTTCCAG
M
TATTTTTTAAAAAATAGATGAAACTAGGGAGAGGAAATCTTACACATATGTGAATCACACCTGGCTTTGGCTCAGTTTAGAACCACTTTAGGCCTAGGAA
Celera SNP ID:            hCV29146817
SNP Position Genomic:     398034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23056):
TGTGAATAGTGCCTCAATAAACATATGTCAATCACACATTTTTAGAAGGGGGCAACTTCATGTATAATTTGGTTTTCTTATTGGGTACATCTGTCCCATT
Y
TAAACTTTTCATACTTTCCAGCTATTTTTTAAAAAATAGATGAAACTAGGGAGAGGAAATCTTACACATATGTGAATCACACCTGGCTTTGGCTCAGTTT
Celera SNP ID:            hCV29146818
SNP Position Genomic:     398012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23057):
TACAAAGGACATGAACTCATCATTTTTTATGGCTGCATTGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCGTTGTTGGACATTTG
S
GTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCTCAATAAACATATGTCAATCACACATTTTTAGAAGGGGGCAACTTCATGTATAATTTGGTTTTCT
Celera SNP ID:            hCV29146819
SNP Position Genomic:     397889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23058):
CTAAATGGCTGGCACAGGAGTGGTCTCCGGTAACTGTGCCTTCTTTCTTTGTTCATTAGGAGAGTAAGTCCACTCTTCCCTCTCATCATCATGGCCCCAC
Y
GGGTACCCTGAGCAGCTCCACACTCTTCTTGAGGTGTCTAGAAGCCTACCAGCTTAGCTCCTGGAGTAGGAATGCCCCAAATCCAGCATGACCAAAAGTA
Celera SNP ID:            hCV25959661
SNP Position Genomic:     213272
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,34)   total(C,59|T,7)
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:23059):
GAAGCAAGGCCAGAGGTCAGGCCTTTGTATAATTTTGTTTCGCATTCTCCAGACACCCTAATTTTGGAAGCAGGGGAGGGAGAAGACAGCCTGCTAAAGA
R
CAGTCCCTGACCATCTGCTGAGAATGAATTGTAGTGTCTGTATGCACAAATGTCTATACCAGGATAGTTCTTAGGATTTTTGCTGAAGACTACTAAAGAA
Celera SNP ID:            hCV1746440
SNP Position Genomic:     144061
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23060):
CCATGATGTCACCACAATTCACAAAGAATTACAGTTAATGCCATGTGAAGTGAGGCCAAATTCAACACTTTCCCTCTTGGGTACTTCACAGTCTGAGAGA
M
AGAAGCAAGGCCAGAGGTCAGGCCTTTGTATAATTTTGTTTCGCATTCTCCAGACACCCTAATTTTGGAAGCAGGGGAGGGAGAAGACAGCCTGCTAAAG
Celera SNP ID:            hCV1746441
SNP Position Genomic:     143959
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23061):
TTAAAACTCTTTAAATATAAATTTCCAGAAAAATTTTCGGAGGTACACGTGTGAGTTCCAGCCATCATAGTAGAATAGCTACTTTGTGGTGACTTACTGA
R
CAGACACATTCCAGTAAGATCCACATTTGTACCAGGGCAGAATACCAGCTGCTATCCTGTCTTCTCAACAAAGGACTCTTGTGTTTAAACAAAAACTGTG
Celera SNP ID:            hCV1746442
SNP Position Genomic:     143707
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23062):
AGAACTGAACTCGTACTGAGAGTGATATATTCAAGCCATCACATCCAGGTTGAGTTGTTGGTTGCACCACAATGTCATGCTGCCTCTTTTGTGGTTTAGG
K
TTCCACATCACATAGATTCTTGGTATAAATAATGATGTTCCAGGGTAAGAAGTGGCCAGGGAAGTGAACATGTGGATCAAAAACTGAGATGCAGCACTAT
Celera SNP ID:            hCV1746443
SNP Position Genomic:     142709
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23063):
AGAGCTAAGGAAGGATGTTTTCAGAATTCTAAACATTTCTCTTTAATTTGAGTAGAATGCAGAGGAGATGATTTGCTACTCCACAGCAATTTCAGAAAAG
Y
ATTTTTCATTTCTAACAGAACCCTACCAGAGGTCATTTCCCAAAGAGCCAACCATGCTTGCTGGTATTCCATTGGCTACTTTAGCAGGGTAGAGGGAAGT
Celera SNP ID:            hCV1746444
SNP Position Genomic:     142020
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23064):
CTTTTCTCTTAGGATTTTGTGACTCCTGTTTGATTGGTTCATTGTTAATTCTGATTAATAAGAATTTAAATTCCCAACTTCCAGAAGACTACTTTTCCTT
Y
TAAAAAGATCGTAACTGATTTGCTTTTGGCTTATTCATTTAGATTCAGGGATTCTTCTCCATTAAAATAAATAAATTTTGAATATCCCTTATACTAAGAT
Celera SNP ID:            hCV1746445
SNP Position Genomic:     141553
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23065):
TCCAGCAGCTCACCTTTCATCTGGCTCTGGAAATTTGGGGATCATTAAAAATCAGCCAGCTCACTTTTCTCTTAGGATTTTGTGACTCCTGTTTGATTGG
Y
TCATTGTTAATTCTGATTAATAAGAATTTAAATTCCCAACTTCCAGAAGACTACTTTTCCTTTTAAAAAGATCGTAACTGATTTGCTTTTGGCTTATTCA
Celera SNP ID:            hCV1746446
SNP Position Genomic:     141490
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23066):
TCAGCTGGATTTAAACTAGACTATAGCAGGAAAGAAAAAGAATTCATTTCTATGCATGTGAGTGGGGGGTTAGTGGAATCTTAATCTTTCTGAATGGGAA
R
ATGTATGCAGTCCTTTCTTTTCATCTCAGCGCCTTTGAGTGAATTTGCTTTTGTCTAAAATGAAAGGAGAAACAGCTCATTTTTCCATTGTCATAATAGT
Celera SNP ID:            hCV1746447
SNP Position Genomic:     141179
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23067):
GTTTCAGCTGGATTTAAACTAGACTATAGCAGGAAAGAAAAAGAATTCATTTCTATGCATGTGAGTGGGGGGTTAGTGGAATCTTAATCTTTCTGAATGG
K
AAAATGTATGCAGTCCTTTCTTTTCATCTCAGCGCCTTTGAGTGAATTTGCTTTTGTCTAAAATGAAAGGAGAAACAGCTCATTTTTCCATTGTCATAAT
Celera SNP ID:            hCV1746448
SNP Position Genomic:     141176
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23068):
GGACCATTCACTGGTAAAATGGTAGGATACATGATACTGCCATTGCCACTTCTCCCGCAGTGCAGTCCCTCACACAGCCTAAAACCATCAGCACTACCAT
R
TACTCTTGTTCGAAGCTGCAAGGGACCAGAAAGCACCGCACTGTCACATTACTTCTACTTTCCTGTTGACTCCTGCAGATTCGTAACTCGGGCTCCGCTG
Celera SNP ID:            hCV8769706
SNP Position Genomic:     190246
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,11)   caucasian(A,16|G,20)   total(A,37|G,31)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23069):
GTTAGTTTTCTTTGGGAAAATGTACATGGGAATCATCTTGGCCCAGTTATTTGACCAGCTTATTGGGAGGTCCCAGAAATCGGAGTGAAAATTAAAGTTG
M
TTGTCTTCTCCCACAGCCTTCTAGGGTCCAGCTGACAAATGGAGGGAGTAACTGAGTTTTTCCAATATGAATTAATCATTCCTCTCAGCCAGCTGCTTGG
Celera SNP ID:            hCV29146820
SNP Position Genomic:     395997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23070):
GCACTAGGTCATAAAAGATCTCATTAACATTTATTTTGAATTTTGTAGAAGAATCTAAGAATGCACAGTTGTTCCATTGTCTTGCTAGATTTTTGACCTT
S
TTCCTTCCCTACAGCTCTTTCATCTTCCAAGTCATACTTATTACCAACAAGAATCATTGGAACATCATCAGTGTCTTTAACTCAAAGAATCTGTTCTCTC
Celera SNP ID:            hCV8769561
SNP Position Genomic:     250869
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23071):
ATTGAGATATTGTTCTCCCTTGCTCTGTGGCAACAGAACTCAGAAGATAATGATAGTGAAAGCTTATGCAAGGACCATTCACTGGTAAAATGGTAGGATA
M
ATGATACTGCCATTGCCACTTCTCCCGCAGTGCAGTCCCTCACACAGCCTAAAACCATCAGCACTACCATATACTCTTGTTCGAAGCTGCAAGGGACCAG
Celera SNP ID:            hCV8769707
SNP Position Genomic:     190175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23072):
CATCTTCTTCACCTGTAAGAGAATAACCAAGTCCTAGGGTATGGGTGAAGGTAGTAACCACACAGTAACCCAATCATTTTGGAAAATGCAAGGCCTTAAT
S
AAGTCATAAATCTGGATGGAGCTACTTTTCATGCTGAGAAATATATCAAGTTCTTCTACCAGATGCCCAGGATCATGGGAGACGTTAGCATACCCCCTGC
Celera SNP ID:            hCV29146821
SNP Position Genomic:     395702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23073):
ACATACCCCCTTTAAAAAAAAAAAGAAATTGCAATTTCCATTAAGTACCAGTTTTATTTAAAAGCAAATAAATTGTTTTTAAGTAAGTAATCGTTTTTAT
R
ACATAAATTTGTGTTTTCAGTTTGATTCTTAAACCATCAACATTTGAATTACCTAGTTCGCTGGGCATGGGCCCAGAAGTTTGCCTTTTAGCAAGCATCT
Celera SNP ID:            hCV8769708
SNP Position Genomic:     189707
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23074):
ATGTGAAACATCAATTTCATTCCTTACAGAATCTAATCTTGGTGTGCGTGATAGATAAGTATACACAGAGAGGGGAATTTCTGACCTAGGACTCTCCTCA
M
AAGTATGGTATGACCCAAGTATGATCCACATTCTAGAGTTCATTAAAAGGCCATCTCATCTGTGGATTGAAATTACTTCCTTAGCTCCAGGCAGCCTGCA
Celera SNP ID:            hCV29146822
SNP Position Genomic:     395095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23075):
GTGGTTTGAGACTTGGTTTCTTTCTTCTTTAATATACTTTTGTTTTGAAATAACTTCAATTTTACAAAAGAGTTGAAAGTGGAATACAAAGAACTTTTTC
K
ACCTCATCCATTCGGGAGTAAGTTGCTGACATAATACCTCATTGCCCAGTGCATATTCCTTCAAGGTTTCTCAGTTATCCCAATAATGTCTTTAGTAGCA
Celera SNP ID:            hCV29146823
SNP Position Genomic:     389638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23076):
AGTTTAAAAAGGATTTTGCTGACCATCTGCTGTTCTCTACCCATGAGAACCTATCAAAGCAAATCTTACAAAATAGATCAGGCCAGAGGTAGGGTAGGCC
M
AAGGAGAAAATGATGATAACAATAATTGTATTCGTGTTCTAGAAACATAACCTAGTAATATGTCTATATCTGTTTAAGAGTTCGAACTCTTTTATCCTTC
Celera SNP ID:            hCV29146824
SNP Position Genomic:     387933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23077):
TCCAAGTGCTCTGTTCAGGGTTGGCGTGGGGTTTTATACATTGGAATGATCCCATGGTTTGTGTCCTGTCTCTTCTGATTCTTCCCTTGGGGTGGGCTGT
R
GGCATGAGCAGTGGCCTGTCAACACTTGGGAAGGGCCACGTGTATAGTGTGTTTACTGAAGTTGTGGGCATGCTCACTTGAGGCGTTTTTCCCTTATCAG
Celera SNP ID:            hCV29146825
SNP Position Genomic:     384132
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23078):
AGGCAGACCCTACTGCCTTGGTTCCAAGCCAACTTTGTAGGAGACAGAGGACAGGGCACCTCAGTCAGAAAAGCTGTTTCCAAATCCTCAGCATCTGATT
S
CTCATAAATAAAGGCTCTTGGCCCTGCCTGCTTCTTGAAGTAGAGGGATCGGGTAAGTTAAGATTTCCCTTAGGGACCAGGTCCTGGAAGCAGAAATAAA
Celera SNP ID:            hCV29146826
SNP Position Genomic:     383051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23079):
TACAATTGACCATCCGTCTTGACTGGTGATTCTCGTTGAGGTTGTGAAAATTCATGGCATTCACAGAGTTGTTCATGTGGTTATTAACAGTGGGCGTAAG
K
TAAATTCCCATTTGGTCTATTTGTCTATTTTTCTCATAAGGCCTTTGTATATCACAAAGTCAGGAAACACTTGGTGCTTTATGTCAAGGATCAAATGGAA
Celera SNP ID:            hCV15788765
SNP Position Genomic:     71456
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23080):
GCATCTATTTACTATACCAGGCACTGTTCTAGGTACTGAGGACACAGTAATAAGCCAAACAAATTGATGTTTGTAGTCCTTTGCAGTGTGATTCCAGTGG
R
GGCACTTAGAGTCTGATGGGAAAGTTCAAGTAAGAAAAGCACGATGGAAATGGCAAGAGCTGGGGGCTTTTCAGGTCTCAGCTTGGCCAAGATTGCTTTG
Celera SNP ID:            hCV29146827
SNP Position Genomic:     378664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23081):
GCTTTAAGAACATATGCAACACTGGGTAATTTGGAAAAAAGAGATTTAATTGACTCACAGCTCTTCAGGGGTGGGGATTGTAAGTAGGAAACTTACAATC
R
TGGCAGAAGGGGAAGCAAACACATCTTTCTTCACAGATGTCAGGAGAAAGAAGAATGAGAACTGAGTGAAGGGAGAAGCCCCTTATAAAATCATCAGATC
Celera SNP ID:            hCV15788766
SNP Position Genomic:     68409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23082):
ATCCCTGCTAAGAGCGGCAAGGCTCTTGTTGACCCTAAATCTCATGCAAAAAGGTGAAGGAATTACTTCTTTCTCCAACACTGAGGTTAAGACTGGGACA
M
TATAATATAATATCACGCTGGTATGAAAACTGTGTTTGGAATACAGGACCCAGGCCTGGAGTCTAAAGGCAGAGCTCACAGTGTTCACATGTAACCCTCT
Celera SNP ID:            hCV29146828
SNP Position Genomic:     378229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23083):
ATTAGAATGTGCAAACTGATATAGTAGCTTTCATATGCTCTTAAAGGGTACCACCACAGGAAAGTCCATTTAAGATGCTGGTAGGTTTAACAAAGTTGGA
R
TGTTGGCACTATTGAATTGGACAACAGTTCTTCAGAGCTGACTCAGAGCTGCAATGCACTTAGTACATTAAAGCAGCTGACATGATGACTTTTTGCGAGC
Celera SNP ID:            hCV8769568
SNP Position Genomic:     250633
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23084):
TTTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCTTTTATTTTGAGCCTATGCATGTCTCTGC
R
CGTGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTTTGTCTTTTAATTGGAGCATTTAGTCCATTGACA
Celera SNP ID:            hCV29146829
SNP Position Genomic:     375367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23085):
CCTCTGAGTACAGAACATCCTCTCTGAGTGATCTTTTGAAGGTTCTAGAAAAAAATTCAATGGAGACAAAGCAGAATGAAAACACAGGTACACATTAAAT
R
TAAAAGCCTTCATTCTCAACAAGCAGTACTTGATACTGGAGAAAAAGTTCTGACCCAGGAACATACTGAGTAGAATCCTTTCCTTGGTTTCTCCCCTACC
Celera SNP ID:            hCV226975
SNP Position Genomic:     43113
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23086):
TATAGTTTCAGCTGGATTTAAACTAGACTATAGCAGGAAAGAAAAAGAATTCATTTCTATGCATGTGAGTGGGGGGTTAGTGGAATCTTAATCTTTCTGA
A
TGGGAAAATGTATGCAGTCCTTTCTTTTCATCTCAGCGCCTTTGAGTGAATTTGCTTTTGTCTAAAATGAAAGGAGAAACAGCTCATTTTTCCATTGTCA
Celera SNP ID:            hCV1746450
SNP Position Genomic:     141172
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23087):
GTACTATAATCTTGAACACTTTTGGTGCTAAAGCTGCCAATTTTCCTGATTTTGTGTAATTTTTTGAGGTTCACAAATAGAAACAAGTGTACAAATATTC
Y
ATTCACATGCTTTCTAAATGTTTTTATTTTACCTTTGACTGAAAGGGGTCAAAGCTGAGTATAAAGGTGCTTTGATATTGGAACACACTCTCCTTGCGTC
Celera SNP ID:            hCV1746451
SNP Position Genomic:     138459
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23088):
TGTATGTTCAAGTCCTTGTCTGCAATTCTTGTAGGTAGATAGGCGCAAAAGTAGCATTACAGAATCACGTGGTAATTGCATGTTTAATTTTTTTAGGAAC
R
GCCATACTGTTTTCTGCAGGGCTGCACCATTTTACATTCCCACCAGTTCTGCCTCCTACTCATGCCTACTCTTAGTTTATGAAGCCCTCTAGAGCATAGC
Celera SNP ID:            hCV1746452
SNP Position Genomic:     137518
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23089):
AAACTATTATTTCTAACACTTATGGTTTACTCTTTAACAAGAAGGAAAACTTTGAAGAGGAAACTTTCACTTTCTATGCTCCCCATTTTCCCCTCTTCCT
R
ACCCCCAGTAATCACCATCTATTTTCTTTCTCTATGAATTTGACTATTTGGGGTGCCTAGTATAATGAAATCATATAATATTTGTCCTTTTTTTGTCTGG
Celera SNP ID:            hCV1746453
SNP Position Genomic:     137122
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23090):
GGACAAAACGAAACTTCTGCTGCAAACATGAGCCTCCTCTCTTCTTTAGCCAAAAGTTCACCAGGGTTCAAACAATTTCTTAATGGATTCCAGCAAGATT
Y
TGTGGGGCTATAAGAAATGTTTCTGGTTTGCAGCGTAGAGGAATGTGTCTTGCACAGTACCAGCACTGGAATCAGGACCCACCTGGATTCAAGCCCCAGA
Celera SNP ID:            hCV1746455
SNP Position Genomic:     135099
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23091):
AAACACAGATGGAAGTGGATGGTATGTTGAAATTCAAAGTTCTGGGGCAGTCTGGTTCTTGACATTATGCTCACATGTCTCCTACTTAGTAAATACAACT
Y
AGGGATTTAGGCCAATTCATCAGTTCTATCAGATCCAAGTGTGTTTAAAAATAGTGTCCCAGGGATAAAAGTCCTAGCAATAAATGAGAATCATGGATAA
Celera SNP ID:            hCV11719603
SNP Position Genomic:     272098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23092):
ACAAGTGCCAGGGCAACTTTGAGGTCCTCAGCTACAGGTGTGCACAGATCTGGCAAAAAATAACTTAGCTCTAATCATATTCTGACTCTTTCTGTCTCCA
R
CCAATTTTCAAATTCCCAGGGAAGAGAGTCTGGCCTAGTCTAAGTGTCTCTATTACTGAATTAATTAGCCATGGCCAGGGGATGGAGTGACTAACACAGT
Celera SNP ID:            hCV1746456
SNP Position Genomic:     134156
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23093):
ATTCTTTTGGTTACAAGCAATAGAAATTTAGTCTGCTCAACCTAAGATCAAAAGGATGAATCATTGAAAGGATAAAGATTAATGACAAGAACATCAACTA
W
GTATTTAGCAAAATAAGTATTGGGCAACTAGAACCAAACAGAAAGCTCAAAGGCCAGGCCTCAAGAAGCACAAGTGCCAGGGCAACTTTGAGGTCCTCAG
Celera SNP ID:            hCV1746457
SNP Position Genomic:     133986
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23094):
TTAAACAAAAAATTTAAAGTACTTTATTTGGATTATTTATTCATTTTTGTTCGTCTCTTTTTATTTGGATTATTCATTTTTGTTTGTCCCTTTCACCATT
W
CTAAGTGCACTTCAGTCCCTGTGCTAAATTTCCCTCCCTTGTGGCCAGATGATCACAGGAACATTCCATTTACTTAAAAGTAGTTGTATTATTTAAAAAA
Celera SNP ID:            hCV1746458
SNP Position Genomic:     131215
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23095):
CATCATATATTTTTCACTAGGATAAGAAAGGATTTTCTTACAGCCGTGCTGTGAGAAGTTTTGCGTTTTCTCTATATCTTAGTCTTTAAAACTATGGAAA
R
GAATTGAGTATGATAATGCAGTTACCCCAGGTAAAAATCTTCTATGCTTTCAAACATGTGCGTAGCCATCAATAAGAAAAGGATTCCTTGCTATCTGAGA
Celera SNP ID:            hCV11719605
SNP Position Genomic:     271000
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23096):
TTTTAAGAACCTTTAAACAAAAAATTTAAAGTACTTTATTTGGATTATTTATTCATTTTTGTTCGTCTCTTTTTATTTGGATTATTCATTTTTGTTTGTC
Y
CTTTCACCATTACTAAGTGCACTTCAGTCCCTGTGCTAAATTTCCCTCCCTTGTGGCCAGATGATCACAGGAACATTCCATTTACTTAAAAGTAGTTGTA
Celera SNP ID:            hCV1746459
SNP Position Genomic:     131203
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23097):
TGGATGAAGAATGTCTCTTAGCAGTAATACTGGATGTAGTCTCTGCTTTTACCAGCTGCATAATCTAGGACTATTATATAAGTAAAAATCTCTCTTGTGA
W
GCTTGAAAGTGATTAGAATGTGCAAACTGATATAGTAGCTTTCATATGCTCTTAAAGGGTACCACCACAGGAAAGTCCATTTAAGATGCTGGTAGGTTTA
Celera SNP ID:            hCV8769570
SNP Position Genomic:     250521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23098):
TCAATTGTCCTTGGAACCTCCTTATAAAAAGTAGTCCAAACCTTGCCCAACAGTCTAAATGTTGTATCATTCTGTCTTCATGAAATTGTTGACATAAGGT
W
CTTTTTCCTTCTCTTCAGTTTATGTTTTCTCAACCTTGTACTCTTAAGAACCATTAAGGACTTGTCTCACATACCCCCTTTAAAAAAAAAAAGAAATTGC
Celera SNP ID:            hCV8769717
SNP Position Genomic:     189538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23099):
TATCTTTGTTCTTTTTATTTAGGATCACTTTGGCTATTCAGGCTCTTTTTTGGTTGCATATGAATTTTAGAATAGTTTTTTCTAATTCTGTGAAAAATGA
K
GTTGATAGTTTGATAATAATAGCATTAAATCTGTAGATTGCCTTGGGCAGTATGGCCATACTAATGATATTGGTTCTTCTAATCCATAAGCACGGAATGC
Celera SNP ID:            hCV29146830
SNP Position Genomic:     369073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23100):
GTTTCTCTCTTCCTTCTTTCCACCCCTCTCAGACTTTCTGAGAAACATTTCCATATTCCCATCTAAACTCCAAAAACTGATGTAGAGTTTAGCATCCATC
R
CTTTTTCTTGGCCCTGTTTCTTCAATATTCTTATTTTCCCCCTGCATCCGAGATGTTTAATCCACTTGTTAAATTAAGTAGCACAGAAATAGGGCTATTT
Celera SNP ID:            hCV8769718
SNP Position Genomic:     188864
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;(A,-|G,-)   Caucasian(G,39|A,45)   African-American(A,32|G,52)   Asians(G,25|A,59)   total(G,116|A,136)   (G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23101):
TATTACAAATCTGCTGTGAAATTCATGTACATTAATCTTTGTATGCACACATAGTTTCATTTCTCTTGGTTAAACACCTAGGAGTGAAATGACTTGCTCG
W
ATCATAGGTATATATTTAACATTTTAAGAAACAGCCAAACTGTTTTCCAAAGTAGTTGTACTACTTTACATTCCCGCCAGCAGTGTAAGAAAGTTCTGAG
Celera SNP ID:            hCV29146831
SNP Position Genomic:     367438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23102):
TAAGTTGCTTTAGGCAGTATGACCATTTTAACAATGTTGATTCTTCTTATCGATGAGCATGGAATGTTTTTCTATTTGTTTGTGTCATCTCTAATTTCTT
K
CAGCAGTGTTTTGCAGTTCTCTTTGTGGAGATCTTTCACCTTCTTTGTTATTCATTTATAAGATACAAATACTTCTTTATACGTTTGACCCATATTTGAC
Celera SNP ID:            hCV29146832
SNP Position Genomic:     366796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23103):
AATAGGGAATCCTTCCCCCATTTCTTGTTTTTGTCAGTTTATCGAAGATTAGATGGTAGTAGGTATATGGCCTTATTTCTGGGTTCTCTATTCTGTTCCA
Y
TGGCCTATGTGTCTGTTTTTGTACCAGCACCATGTTTTTTGGTGACCATAGCCCTGTAATATACTTTGAAGTTGGGTAGCGTGATGCCTCCAGCTTTGTT
Celera SNP ID:            hCV29146833
SNP Position Genomic:     366471
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23104):
AGTAAGGGGGGAAAGGAGAGTTGGAGTTTTTTAAGCCATGTGTCAGAGCTCATTCTTCTTCATTAAGTCTGGAGTGTTGAGATCCCCAGTAGGTGAGACT
R
TTCCAGAACTGGCTGTTTTAGTTATCGGACACCCTGGTATTGATTTCACCTCAAGCCACTGCTACAACTCTCCAAAGGGAATGTTGCCTGAGCAACACAT
Celera SNP ID:            hCV29146834
SNP Position Genomic:     365449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23105):
TGAACTTCTTTATTTTAGAATCACTATGAGAAACTCTCATAACTGTTCATCACAGCCTGGTCACAAGCAGGGTGGCAGCAATTGTTTATTTTCAAGTTCA
R
TAACTCTTTTGGGTCACTCAGGTGCCATTTAGCATGCTGGAAAAGTTAGCCTGTTCATATTTTTTCATGATAGCTTTACTTTCAGTCTCCCTTATTCTGG
Celera SNP ID:            hCV29146835
SNP Position Genomic:     363879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23106):
CCTCGGAAACATTGGGCAGAAAGCCAGGACTGGACAGGATTTATGGATGGGTGACTGTTTGCAGGTGGGAAGGAGGCAGCAGTCGGGGGTGGCCAACAGG
R
AATCACTAAATTGCCTACAGAATCCAGACTCACCAGTGGAAACTTGGCTGACTTTCCATATGAGGTGAATGCAGTTGTTAGTCTGGACTCTGTGGCTTGT
Celera SNP ID:            hCV29146836
SNP Position Genomic:     362522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23107):
GAAAAATATTTAAACTTTACACTTCTGTTTTCACACCGAGAGTTGAAGATATACCAACACATAGGTCCTTCTAGACCCTGCCCACTCAGATTTCAGAGAG
K
CCCAAACGGGTTTTCATCTCACTGGTGGCTGCATAAACCTCCAGCCATCTTAAGAAGCCACAGAAAACTGGCTCAGAGAAAGATGTTATTTGTTTTGCGC
Celera SNP ID:            hCV29146837
SNP Position Genomic:     359880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23108):
GAGCATCGCCAGTGGCCAAGCCACTTGTCCCATTTCTCAGTCACAACCCCTCCCCATTCATTCCACTGACTACTAACAGCATAGATTAATGTTACCAGGT
K
TTTTTTTTTTTACTTACGGAAAGGAAATTATACAGTATGTACTCTTGTGTCTGCCATCTCTTACTCAACATTATGTTTATTTCATGTAGTTTCATTTTCA
Celera SNP ID:            hCV29146838
SNP Position Genomic:     358204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23109):
TTTAACTTGCACTTTTATGTAAGAGAGACTGTTTCTTTCCTAAAACCTTATGAACCAACCTCTGCTAGCTTCCAACTTTTCCTCTGCAGCTTCCTCACGT
S
TCTCAGCCTTCATAGAATTGAAGAGAGGTAGTAGGGCTTGCTCTGGATTAGGCACTAGATTAAGGGAATGTTATAGCAGGTTTGATCTTCTAACCAGACC
Celera SNP ID:            hCV8020017
SNP Position Genomic:     413479
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23110):
CACAGGATGCTGGTGGGTCTGACATCTGGAACACATGCCTTCCAAGGTCTCCATAGGGGTTACCTCTATCCTATCAACCAGGAGAGGGGAAAACAGAATA
Y
GGAGGATGGTTGAGAAGGCTTTTAAGGGCCACGCCTGGAAGGAGCATACATTAAGACTTTTCACAATCCTTTAGTCACATGGCCACGCACAACTACAAAG
Celera SNP ID:            hCV29146839
SNP Position Genomic:     353857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23111):
TAATCTGAATGAAGTGAGAATGCTTTTTATGTGTGTTTTTAAGAACCTTTAAACAAAAAATTTAAAGTACTTTATTTGGATTATTTATTCATTTTTGTTC
R
TCTCTTTTTATTTGGATTATTCATTTTTGTTTGTCCCTTTCACCATTACTAAGTGCACTTCAGTCCCTGTGCTAAATTTCCCTCCCTTGTGGCCAGATGA
Celera SNP ID:            hCV1746460
SNP Position Genomic:     131167
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23112):
GGTATTATTCTTTCTGAAGCAATTGTGAATGGGAGTTCTCTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCA
Y
ATTTATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTAGCAGCTTAAGGAGATTTTGGGCTGAGACAGTGGGGTTTTCTAAATATACAATCATGTCATCT
Celera SNP ID:            hCV11463396
SNP Position Genomic:     56979
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23113):
GGAGTAATTTGTAATTTGGGATCTGCTGCCATCTACTCCTTATTTACCATGGCTTAGGATTAAATTGGATAATCTTCAGTCATATTTCTAATTATTTCAA
Y
TCTCTCTATTATTAATATGCTTATCAAGTTGTTGACCCTAAAATACTAGTCTTTCCAAAACTTGAAGTACAAGGTTTAAAAGTATATTAAAAATTTGAAA
Celera SNP ID:            hCV1746461
SNP Position Genomic:     130101
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23114):
GAGTCAATAAATCTCTCTGTTGGCTATTTTTGTCTCTTGATGACCAAGCCCTCCCTAAAACACATAAATTATTCATCTTAAATGTCTTTTTTATCTTTTA
R
TATATTTGTGCCTTGCTCTCATTTCCTTCAGGCTGTGAAACAGAGCCTGTTGATGTGAGCTAAATTTTGCTGTATTCTAGGCTAGGAGTAATTTGTAATT
Celera SNP ID:            hCV1746462
SNP Position Genomic:     129916
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23115):
GTGAACCTATGTGAGGTGATATTGTTACAATTTTATAGAGGAGGAAAATGAGGTTATGAGAGATTTTGTATTGTTGATTTATTCATTCAACAGATTTTTA
Y
TGAGCATCTACTAATGCTAGACATTATGCTAAAATACCAGAAATGCAACTATGAGTACAGGATGCAATGGGAACATACAGAAGAAGTGAAACACTGTAAT
Celera SNP ID:            hCV1746463
SNP Position Genomic:     129432
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23116):
TATGTGAACATTTCACATATGTTACCACCTTTAATCCTTGTGTGAACCTATGTGAGGTGATATTGTTACAATTTTATAGAGGAGGAAAATGAGGTTATGA
S
AGATTTTGTATTGTTGATTTATTCATTCAACAGATTTTTATTGAGCATCTACTAATGCTAGACATTATGCTAAAATACCAGAAATGCAACTATGAGTACA
Celera SNP ID:            hCV1746464
SNP Position Genomic:     129391
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23117):
CCATCATGTCTTTAAGAAGCTTATAATTGTGTAGTGATGAGATTCAAACAAAAATAACTATAATCAGCAGTACGTGGTGTGGGCTTTAATTTTGTATCCA
W
TCAGATACAAATTTGAAGTCCAGCTTCTGATCTTACTATCTGTGTGATCATGGACTAATTTACTAGGTTCTTTTAGCTTCAATTTTTTCATCTGTACAAA
Celera SNP ID:            hCV1746465
SNP Position Genomic:     129027
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,8)      total(A,8|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23118):
AGGTTACCTCCTATTCTGCTATCTTGGTGACATCATCCCCACAGAAGACAGTTTTGAAACTGAAAGGGAATTTGAAATTTTGTAGTTTAATATTTCCATT
T
ACATTTAAGATATCTGAAGCCTAAGTGGGTTCAATCAATTTTTAAAAAAGTTCTGCCGTGTGGGTCTGAATTAGGTTCAATGGGGACATGAACGTAAGTG
Celera SNP ID:            hCV1746466
SNP Position Genomic:     128821
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23119):
CTCAACCTGAAGAAAGAGACAGGTGGCTCCAGAGCAAGACTTGTAACGAATTCTCCCCAGGGAGAGAAATACCGAAAGTTTAGCTCACTCTTTCCTCCCA
Y
AAAGCACACTGAATGTTAACAGCTTGCTTCTGTCCAAGCTGGTGTCTTTTCAATTAAGTATTGTTAAATCCATACCATTTGGAATGATGCTTCAGACAGC
Celera SNP ID:            hCV27857260
SNP Position Genomic:     2700
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,1|T,37)   total(C,2|T,74)
SNP Type:                 hmCS


Context             (SEQ ID NO:23120):
ATTTTTCATCACACATCACAATCCAATCAAGAAATGGTTCCTTGTTGTCGCACAGAATAAGAGAAGATGACATTTCAAAATTATGATATTTTTTCTGATC
R
GCTCATGAGGTACCCACTTATCAAGCTTTATCATCTTTCCAATTTGCTTCAAATGCTGAATGTCCACAGATTGGTTGCCATTGAGTTATTTTGCAACTTC
Celera SNP ID:            hCV1746467
SNP Position Genomic:     125071
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23121):
TCCAATATGGAGGTCTGGAGTTCTAGAAAAACTAGAAAACTCTATAAGAAGTATAGAGGTAAAGTTGGGTACTAACATTTTTTAAAATCATTTTTAATCT
R
CTAATGCCTAATCTTAGCATTTCCAACTGTTAAAATTATCAGGTATTTCAAACAGTGAGACAACTGAATCTGTTTCATTCCCATAGTAAGTAGCATTTTG
Celera SNP ID:            hCV8769726
SNP Position Genomic:     186473
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23122):
TTTCCTGTCCTCCTCCTCCATCTGACCACTGGGACAATCCTTCAAGAAGGCTACAGTCTGCTTTGCCACTCAGTATCTCCTTCCTGACAAATCTTTGCCA
Y
CTTCTTCGTTCTTTAGACAACATTATACCTGTTGTTTCCAGAGAAGCATCTCTGATCTACTGCCCTACTCAAGGGTTGTGGGCAGCATTAATCATAACCC
Celera SNP ID:            hCV8769727
SNP Position Genomic:     186082
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23123):
ATATTAAAGGCAATCTGTTGAAGACATTATACTGAAAGGACTATCATATTTTAAAGACAAGATCACTGTCTCCATAGGTTTTTGAAACATTTTTAAAAAC
Y
ATATAGCTGTATTAATTAGAGCACTTATTTTCTACAATAATAGTGACCTTAAATTTCTTTAAAAAAATTACAATAAGCTACAAGTATCAAAGAAGCAAAG
Celera SNP ID:            hCV8769581
SNP Position Genomic:     250164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23124):
ATATTAGAGTATTAAAGAAATTTTAGAAAACACAGAAAAATTTAAGAGTCCAAAAAGGAAAGAAAACAGCTTGTTCAAAGTCGTTCTCTCCAAACTCAAC
M
ACAGCTGACATTTTATTAATTTCCTTAATGATTCCCTTTTATCCTGCTTTATTTCCTCTCAGTAATAAACATTTGTCTGTGTCATAAGCATAATTTTAAT
Celera SNP ID:            hCV29146840
SNP Position Genomic:     352908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23125):
ATAGACTGGATACCCAATGAATGTGTTAAGTGACTGCAAATTGGAAAACATTATACAAAAAGCGTGTTAACCAGGAAGCACTGCCCAGGACTCACTTTCC
S
CATTGGAGTGCTTATTGTACATTGTCTCATTAGATTTTTTGAGCAGTATGTTCAGAGCAGTTTCTGGCTTCGTTAGAAGCTGGGCATGACCTTTATGGTC
Celera SNP ID:            hCV8717575
SNP Position Genomic:     52468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23126):
TTGTGATGTTTCCCTTCCAGCCTCATCAGTGAAATCTAGAACCAAGTCCCTTCAGCCCCTGTACTCCTAGATAGGGAGTAAGACAAAACCCCTGACAGGG
R
TTGGCATGAATGAGCTACCCCTCTGTGCAGGGATTAATGGTGGTGCCAGTAGAGCCCTTTCTGCAGAACCATCACCCCTCAACACACACCTGATCACTAT
Celera SNP ID:            hCV29146841
SNP Position Genomic:     351405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23127):
CCCAATCCTGCCTCGCTCCCCACCACCACAATATTAAGTTCAGCTCTGGTCATTGGTTTCCTGTCCTCCTCCTCCATCTGACCACTGGGACAATCCTTCA
R
GAAGGCTACAGTCTGCTTTGCCACTCAGTATCTCCTTCCTGACAAATCTTTGCCATCTTCTTCGTTCTTTAGACAACATTATACCTGTTGTTTCCAGAGA
Celera SNP ID:            hCV8769728
SNP Position Genomic:     186026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23128):
AATAACTTTGATAAGAATCAGGGAGGCCACCATTTTTGTGTCTTTCACAGTGCCTTGCTTAGTACTAGTATAGACTGGATACCCAATGAATGTGTTAAGT
K
ACTGCAAATTGGAAAACATTATACAAAAAGCGTGTTAACCAGGAAGCACTGCCCAGGACTCACTTTCCGCATTGGAGTGCTTATTGTACATTGTCTCATT
Celera SNP ID:            hCV8717576
SNP Position Genomic:     52399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23129):
AACAGCCAAGTCTGATTTTCTCTGAAATATTCTGATAGCTTTAGGCTATCTGAAATATGGCCAGACCTGGTGGCTCACGCCTGTAATCTCAGCACTTTGG
K
AAGCTGAGGTGGGCAGATTACTTGAGCCCTGGAGTTGAAGACCAGCCTAGGCAACATGGCAAAACCTTGTCTCTACAAAAAAATACAAAAATTAGCCATG
Celera SNP ID:            hCV29146842
SNP Position Genomic:     350982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23130):
TTGCCCTCTCCTCAATCTCTGCCTTTTCAAATTCCTTCTGTATTTAATATTCAGATCATTCCTATGAGTTGTTCACCAGGCATTATGCTGTTGTGTGTTC
Y
ATTCTGATTCGTGTGGATTTGTTCAAGTAAATAATAACTTTGATAAGAATCAGGGAGGCCACCATTTTTGTGTCTTTCACAGTGCCTTGCTTAGTACTAG
Celera SNP ID:            hCV8717577
SNP Position Genomic:     52266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23131):
AGATATACCCCACAGTGGCATGGCCACACCAAACCCAGGTTCCCCGATCATACCCTGTCTGCAGAGTAGATAGGCAGTGGCACCCCATGCTTTGGTGGTT
K
CTTCATCTTAGATCTTCATCATATGAAGGTTTACCTCAATTTGTTACTTATAAGACATGAAAACCCATTTTAGAGTAAGTAGGAGGAATATCTTAACCTA
Celera SNP ID:            hCV29146843
SNP Position Genomic:     350762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23132):
GAGCCCTGTGCTAGGTTGGGGATACAAAGACAAATTAGACACAAATTCTACTCTCAGGGATATAGTGCTAGTAGGAAAGCCAAAGCATGAACCTCAGTCG
Y
TCTGAAAGTAGAAAGTGCTACAGAAATTTAGAGGAAGAAAGATTAATTCTGACTGGGACAGATAGGTAAAATTGATCTTTTTATGTGTATGTTTTTCTTT
Celera SNP ID:            hCV29146844
SNP Position Genomic:     349805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23133):
AAGAATTGCACAACAGAGTTTTTGTACTTTGGGCCAAGAAGTGGCACACTTCACGTCTGTTCATGTTCCATCTGCTAGAACTCAGTTCCATGCTCATAGC
Y
AACTGCAAAAAGGCTGGAAAATTATCTAGCTGTGTGCACAGGAAGAAGAGGAAAAGGGTTTGGCTGATAGCAAGTCACTCTCTGCCATGGCTTCTAAAAT
Celera SNP ID:            hCV29146845
SNP Position Genomic:     338790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23134):
TTGAAGTACAACTCATTTTTGATGGCAAAGACTAGGGGAAATTATTTTGAAGTATATTCGTGACTTACAATGTTAAAGGAATGGAAGGAAGACCCATTGG
W
TCCATCCATTCAGGGTCAACAAACGTTCATTAAGCCTGGGTTAAATGGCACTTACTAACTGTTACAGAAAAACAAACCTATAAATATATGATGGGTAAAA
Celera SNP ID:            hCV29146846
SNP Position Genomic:     338554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23135):
ATAGTGTGTCAAACAGGCCCAGAGATGCATAGATAAAGGAGACCCAGATCCCATCTTCAGGGAGTTTGTAATCTATAATTACAACAGCAGTGTAGTATGA
R
GTAGAATGAAGTGCTATAACTGATAACCAAATAGTATGCAAGGACAGTACATTCCTGCCAGGAGGTCTTAGGGTTGCAATGAGTGGAATTTTGATAAGAG
Celera SNP ID:            hCV29146847
SNP Position Genomic:     328116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23136):
TATCTTGTTTAATTTTCCCTCAAGATCGTAGGAACTAGTAGGTACTACTGTAGTTACCACATCTTAGATAGAAAGCTGAGGGACAGAGGTTGGACCCACA
Y
AGAAACACTGGAAATGGTCTGAACACAGGCAGCATGCCCCAGAGCTTGTGCTTTTAACCTGCCCCTCTGTCCACGCCCTCCAGCCCCCACAACTCATACT
Celera SNP ID:            hCV29146848
SNP Position Genomic:     311969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23137):
ATGTATCATTATCAGGATGACAGCATGTATCACTTCCTTGTCTCTCTGGGTCATAGCCATTCATAATGTAGAATCAATAGTGGTAGTAGAATTAATAATA
Y
TTTTTACCGCTACCTGTGCCTTACTTTGTACATATTTTGTCTCTTTTAATCTTTACAGGGGCCCTGGCAATGAAGATGGTTGTCATTAATTGATTAGTGA
Celera SNP ID:            hCV29146849
SNP Position Genomic:     311010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23138):
AGGAGTTATTCTTGAATTAAGGCCCTAAAACATCAATAATTCAGGATCTTCTCATCTCTCTTACTTTCTCCCCATCATTCCCTACCCTGCTCCCTATTCT
S
TCTCATTCTCTTTCTTTTACCCTTCTTTCTATTTGTATATCTGAACTTTGAAAACATCTTTACCCATGCTACCTTTTTTTCTTTCTTAGCTTGATTTAAA
Celera SNP ID:            hCV25965174
SNP Position Genomic:     154685
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,25|G,1)   total(C,58|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:23139):
CTGATTTTAATTATTTGAGTCTTCTCTATTTTTTTCTTTGTTAGCCTAACTAATGGTTTGTTGATGTTGTTTATCTTTTCAAAAACTCAACTTTTCGTTT
T
GTTGACCTTTTGTATTAGTTTTTAGTCTCAATTTCATTTATTTCTGCTCACATCTTCAGTATTTATTTTCTGCTACTAATTTAGGGTTTAGTTTGTTCTT
Celera SNP ID:            hCV1746470
SNP Position Genomic:     123171
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23140):
TAACAATATTAATTCTTCTAATCCATCAACATGGAATAGCTTTCCATTTTTTTGGTGGCCTCTTCAATTTCTGTCATCAATGTTTTAGTTTTACTTATAC
R
GATCTCTCACTTCTTTGGTTAAATTTATTCTAAGGTATTTTTTCTTTAGTAGCTATTTTAAATGGGATTGCTTTCTTGATTTATTTTTCAAATTGATCAC
Celera SNP ID:            hCV1746471
SNP Position Genomic:     121976
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23141):
GGCAACAGTCATCACCCTCTCTGAAAGAGCAGAGGAGCAAAACCTTGGCAACTCACATAATGAGCCCTTGTCCAAAGGAAGGCAAAAAAAAAAAAAAAAA
A
ATTCCTCCTTTTGTATAGCTAATACAAACACAAGCTGCCAAGAAGGGTCAACCATCATGGGTCGTTGATTACCCATATTAACCCTGATGGCTGCCTTTAC
Celera SNP ID:            hCV26507100
SNP Position Genomic:     279516
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23142):
TGAGAGGAGTCTCCCTCTGTCACCCAGGCTACAGTGCAATGGCGCAATCTCAGCTCATTGCAGCCTCCACCTCCCCGGTTCCAGCGATTCTCCTGCCTCG
S
CCTCCCAGGTAGCTGGGATTACAGGCACACAACACCAAGCCCAGATCATTTTTGTATTTTTAATAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCT
Celera SNP ID:            hCV26507101
SNP Position Genomic:     273319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23143):
GAAGAATCTAAGAATGCACAGTTGTTCCATTGTCTTGCTAGATTTTTGACCTTCTTCCTTCCCTACAGCTCTTTCATCTTCCAAGTCATACTTATTACCA
R
CAAGAATCATTGGAACATCATCAGTGTCTTTAACTCAAAGAATCTGTTCTCTCAAGTCTTGCAAATCATTAAATGTGGACTGTGCTTTGATGGAATAAAC
Celera SNP ID:            hCV11719621
SNP Position Genomic:     250916
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23144):
GAGAAGAGAGGAGCAAGAACTAGAGTTTTCCAAGGATTTACTAGGCTTTCTACTCAATGTTCCCTTCTTTTTTTTTTTTCTTTTTTCTTTTTTTTTTTTT
K
TTTGAGAGGAGTCTCCCTCTGTCACCCAGGCTACAGTGCAATGGCGCAATCTCAGCTCATTGCAGCCTCCACCTCCCCGGTTCCAGCGATTCTCCTGCCT
Celera SNP ID:            hCV26507102
SNP Position Genomic:     273216
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23145):
ATAATTATATCAAGGAGAGAAGAGAGGAGCAAGAACTAGAGTTTTCCAAGGATTTACTAGGCTTTCTACTCAATGTTCCCTTCTTTTTTTTTTTTCTTTT
W
TCTTTTTTTTTTTTTTTTTGAGAGGAGTCTCCCTCTGTCACCCAGGCTACAGTGCAATGGCGCAATCTCAGCTCATTGCAGCCTCCACCTCCCCGGTTCC
Celera SNP ID:            hCV26507103
SNP Position Genomic:     273200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23146):
TTAGGGAATCTGAAAAATCTTTAGGAATAGTAGAGAATTGTAAAGCAAATAGATTTAGAAAGGGGACTGTGTTGTAGGGAATGGCAAACAAAAGAATAAT
M
ACTCCCTATGTATGTATACTGTTTGAGTAAAAGCAAGGAAGATTTCCATTTTAGAAGTGAAAAAACTGAGGACCAGAAAATATGCTTGATCTCCTGAAAG
Celera SNP ID:            hCV169676
SNP Position Genomic:     108360
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,7)   total(A,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23147):
ACTCTCTCTGCCTGAAAGGCCAATTAAAAAGGTGAAGTACAGGCCAGGCGTGGTGGCTCACGCCTGTAATCCCAACACTTTGGAAGGCCGAGGCAGGTGG
R
TCACCTGAGGTCAGAGGTTTGAGACCAGCCTGACCAACATGGAGAAACCTTGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGATGGCACATGCCTG
Celera SNP ID:            hCV26507104
SNP Position Genomic:     269821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23148):
GTAGGGAATGGCAAACAAAAGAATAATAACTCCCTATGTATGTATACTGTTTGAGTAAAAGCAAGGAAGATTTCCATTTTAGAAGTGAAAAAACTGAGGA
S
CAGAAAATATGCTTGATCTCCTGAAAGCTGTATGTTTGGTCATGCCAGAAATGGGACTAAATTCCACATCTCCTGAGATCCCATTCAATGTTATTGCTAC
Celera SNP ID:            hCV169677
SNP Position Genomic:     108433
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23149):
TGTAATCATGGCTGACTACAGCCTCAACCTCCTGGGCTCATAAAGCTTATGTAACTGATGCACTTACTGGGGAAATTCTCTCAAATTAAAAAAAAAAAAA
A
TGTGTAGGTGGGCAACAGACCCCCCACCTCCTTCTACCATACTTTTCCTGCCTCAACTTCCACCCTAGACTAGTATGCCAACAAAAATCAGAGAATGTGA
Celera SNP ID:            hCV26507105
SNP Position Genomic:     268637
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,6)   total(A,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23150):
AGTGTAAATGGGAGGACACCGTAGATCATTACTGAATGTGCTCAGGATGCTCTTTGAGAAGTCAGACGGCATTCTTTTTTCTTTTTTTTTTTTTTTTTTT
T
GAGACAAGGTCTTGCTCTGTCGTCCAGGCTGGAATGCAGTGGTGTAATCATGGCTGACTACAGCCTCAACCTCCTGGGCTCATAAAGCTTATGTAACTGA
Celera SNP ID:            hCV26507106
SNP Position Genomic:     268494
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23151):
AGAATCCTATCTCAGTTGCTAAGGAATAAATTTCATATATAATAAATATGGAGTGATAGTACTGGACTTTGGGTTACAAGTATAAACATGCTTTAACTTA
K
GTTCTTATGAGTATGACAGATTTGAGAGCAAATACGGTATAATTTGTAAATTATACCGTATTTGAAAAGCATTGTAACTTATACGTAGAAATAATGACTG
Celera SNP ID:            hCV169679
SNP Position Genomic:     108782
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,10)   total(G,10|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23152):
CCCCTTTATCAGAGTCAAAAGTGTAAATGGGAGGACACCGTAGATCATTACTGAATGTGCTCAGGATGCTCTTTGAGAAGTCAGACGGCATTCTTTTTTC
Y
TTTTTTTTTTTTTTTTTTTGAGACAAGGTCTTGCTCTGTCGTCCAGGCTGGAATGCAGTGGTGTAATCATGGCTGACTACAGCCTCAACCTCCTGGGCTC
Celera SNP ID:            hCV26507107
SNP Position Genomic:     268475
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23153):
GATCCCTGCCCAATCCTGCCTCGCTCCCCACCACCACAATATTAAGTTCAGCTCTGGTCATTGGTTTCCTGTCCTCCTCCTCCATCTGACCACTGGGACA
R
TCCTTCAAGAAGGCTACAGTCTGCTTTGCCACTCAGTATCTCCTTCCTGACAAATCTTTGCCATCTTCTTCGTTCTTTAGACAACATTATACCTGTTGTT
Celera SNP ID:            hCV8769731
SNP Position Genomic:     186018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23154):
TACCCCTTTATCAGAGTCAAAAGTGTAAATGGGAGGACACCGTAGATCATTACTGAATGTGCTCAGGATGCTCTTTGAGAAGTCAGACGGCATTCTTTTT
T
CTTTTTTTTTTTTTTTTTTTTGAGACAAGGTCTTGCTCTGTCGTCCAGGCTGGAATGCAGTGGTGTAATCATGGCTGACTACAGCCTCAACCTCCTGGGC
Celera SNP ID:            hCV26507108
SNP Position Genomic:     268473
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23155):
CCAGGCATGGTGGTGTGTGCCTATATTCGCAGCTACTCAGGAGTCTGCGGCTGGAGGGTTGCTTGAGCCTGGGAGGCGGAGGCTGCAGTGAGCTGAGATC
W
TGCCACCAAACTCCAGCCTGGGTAACAGAGCATTTCAAAAAAAAAAAAAAAAAAAAAAAAAATATATATATATATATATATATATGACTGTGACTAAGAA
Celera SNP ID:            hCV15893043
SNP Position Genomic:     221312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23156):
CTTTGATGATATCACTTTGCGGCTGGGCACAGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGTGGATCATCTGAGATCAGGAGTTC
R
AGACCAGCCTGGCCAACGTGGCAAAAACCCGTCTCTACTAAAAATGCAAAAATTGGTCGGGTGTGGTGGCGTGCCCCTGTAACCCCAGCTACTCGGGACG
Celera SNP ID:            hCV26507109
SNP Position Genomic:     260608
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23157):
CAGATGGAAATGCAGAAATCACCCGTCTTCTGCGTAGCTCACGGTGGGAGTTGTAGACAGGAGCTGTTCCTATTCGGCCATCTTGGCTCCTCCCTCCTCC
R
TGGAATTTTATTGCCAAAATATCATTTTTGTTTCTTTAAAAGGAGAAGACTTTTTAGTGCAAAAGGAAGATTTTGTGACAGTGAGCAATTGTTATATATT
Celera SNP ID:            hCV8769733
SNP Position Genomic:     183239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23158):
TATGTATGTATATATATATATATATATATATAGAAACGTAGTCTCACTCTTGTCGCCCAGGCTGGAATGCAATGGCGTGATCTCGGCTCACTGCAATCTC
Y
ACCTCCTGGGTTCAAGCTATTCTCATGCCTCAGCCTCCCGCATAGCTGGGATTACAGGTGCCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAAA
Celera SNP ID:            hCV15893044
SNP Position Genomic:     220898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23159):
AGCCTCCCAAAGTACTGGGATTGCAGGCGTGAGCCACAGCGCCTGGCCCGGGAAAACACATATTTTTACTTAGAAGGATAATTAAGCAAACATAAATTAT
W
TCTGTACTGTAAAGTTACTACAGCAAACTTTTTGACTTCTTTGAGAAAAAGCAACTAACCACTGCAGAACTTTGGAGGAAAGGGAGTGATTAAAGATCAC
Celera SNP ID:            hCV15893045
SNP Position Genomic:     218960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23160):
AGCTCAGACTAATTCAAAGAATGTGTAACGAACAAGACTTTGCACCATTCTTGGAAACTTACACACAAAAATACCTCCTTATACATATAAATAAATCTCG
R
GAAGCATATTGAACAAAGAAAGTTACAGAATATGAGAGCCAGACTAAAAAAGAAACAAACTTCCTTAAATATCTCCAAGGGCTTATTTTGTTATCAGTAT
Celera SNP ID:            hCV8769591
SNP Position Genomic:     238472
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,13)      total(G,13|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23161):
CCGCCAACCCGGGGAGCCGCTACGACGACCTCGTCTCCCGGCTGCTGGAGCAGGGCGGCTGGCCCGGAGAGCTGCTGGCCTCGTGGGAGGCGCAGGACTC
Y
GCGGAAAGGAACACGACCTCGGAGGAGGACCCGGGTGCAGAGCAAGTGCTCCTGCACCTGCCCTTCACCATGGTGACCGAGCAGCGGCGCCTGGACGACA
Celera SNP ID:            hCV29146850
SNP Position Genomic:     309804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:23162):
AATCTGTTTTCTAAAGAGGCTGTATCATTTTACTTTCCCACCAGTAATGAGTGAAACTGCTAATTTTCCATATCCTCACCAACACTTGTTGTCTTTTTTT
W
TTATTATTATTATGGCCATTCTAGTGGATATGAAGTTGTATCTCATGGTGGTTTTGACTTATATTTCCCAAATGGACTATTTCATTTTAACAATGCATTT
Celera SNP ID:            hCV29146851
SNP Position Genomic:     307492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23163):
GAACTTGAGCCCTCTGTTCTGTCAAACTGTTCTGTCCCATGCCTGCCTTGGGACTCCTACACTGAAATTATTATCTTTTTTCTGGAAATTTCCCTGTCTC
Y
CATCTGATCCCTGTTTCTCTGCACCCACCCAGACTCCAATCATCTTCAAGACCTTGGTGAGGAAATCCCTAGTGTACTATAAGCATTACATTATTGTTAC
Celera SNP ID:            hCV29146852
SNP Position Genomic:     306887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23164):
GCCAAGTTGCCATGGTTCAAACAAGCTCAAGAGCTAGAAGAAGGAGCTGCTGTGTCAGAGGAGCCCTCGTAAGTTGTAAAAGCACAGACTGTTCTATATT
K
GAAACTGTTTTGTTTAAAGAAAGCAGTGTCTCACTGGTTGTAGCTTTCATGGGTTCTGAACTAAGTGTAATCATCTCACCAAAGCTTTTTGGCTCTCAAA
Celera SNP ID:            hCV15893049
SNP Position Genomic:     217520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:23165):
TGCTGGATCATATGGTAGTTCTGTTTTTCAAATTTTTTTAGAAATCTTTATACTGTTTTCTACAATGGCTGAATCAATTTACATTCCCACCCATAGTATC
M
AAGGGTTCCCTTTTCTCTACATCCGTGCCAATACTTACCTTTTGTCTTTTTGATAACAGCAATTCTATAAGGTGTAAGGTGATATTATAGTACTGAATGC
Celera SNP ID:            hCV8769738
SNP Position Genomic:     175744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23166):
TCCCTTCCATACAATGTTGCCAGATTAACCTTCTCAAAACACCTCTTTCATCATGTCACCCCCCTCTTCAGTGGCTTCCCACTGCCTTATGGACCAATTA
M
AAACCTCTTGTCTGAAAATTAAAGGTCTCCAAACTAACCCTCAAGCTCCTGACACTTAGAACTTGAGCCCTCTGTTCTGTCAAACTGTTCTGTCCCATGC
Celera SNP ID:            hCV29146853
SNP Position Genomic:     306728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23167):
TATCTCTTCAACATACTGATTTCATTTCCTTCGAGTATATACCCAGGAGTGAGATTGCTGGATCATATGGTAGTTCTGTTTTTCAAATTTTTTTAGAAAT
S
TTTATACTGTTTTCTACAATGGCTGAATCAATTTACATTCCCACCCATAGTATCCAAGGGTTCCCTTTTCTCTACATCCGTGCCAATACTTACCTTTTGT
Celera SNP ID:            hCV8769739
SNP Position Genomic:     175689
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23168):
TCCAGAGATATGGAAATTGAAGCTAGAGAAAGAGCTAGACTTGACCAAAGTCATAACCCAGTCTTCTGACCTGAAACTCTGTTTTTATGTTTCTACTTAG
Y
AGCCTTAAAACGACCATGCTCTTTTAAATTTTCAGGCTTCTTACTTCCATCCCACCTGATCCTTGGATTTAGCGCTGTCATTTACAATAAAATAAGGAAT
Celera SNP ID:            hCV29146854
SNP Position Genomic:     306228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23169):
CACAGAATCCCATAGAGACAGAATTAAGCCAAAGTTTTAGACATTTCAAATAAAATTACTTACAGATTCTATTCTGGAAGTAAGACCTCTCAAAAGGCCA
Y
ACTTCTTTTCTCTGAAAGAAACCCTCAATCTCCTGAAAGAGTTTGATATTAAATATTTTTAAATCCTATTTTATGGAAGTTGCTCCTTTCCCCCCAAAAA
Celera SNP ID:            hCV29146855
SNP Position Genomic:     305736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23170):
GGTCTTCCTCAAGAGGAAGTTCTATTTTGGGAACTGGGAGGAGGTAGCCCTTATCCAACGAATGTTACTAGCTTCTGAGCTATCTGGGTTAATGAATGGA
R
ATTCCAAACATTGAGGAGGGGCTGGGAATGGTGGGAAGTAATCACTGAATTGTTGGGATTAAACTCAAACTGGTGCCATATTGAAGTGCTCCTGGAGGTG
Celera SNP ID:            hCV29146856
SNP Position Genomic:     305359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23171):
GCACTCCATTTTTCTGCTGAGGAATCTCTGCCAAAACCAAACGTTCTTGTCAAGTTTTGGAACCCATTAGCCTTAGTCCATCCATCTTTCTTCGTGCAAC
R
TAACAGACAGTTGTTCTAAATCACCCCTCAGTCACATGAGAACTTAGTCTTCTCTGAATCACACAACATAATTACCATCATCCCCAGCATGCTCTGATTT
Celera SNP ID:            hCV15951311
SNP Position Genomic:     171128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23172):
GTGATCACATTTATGCTTTGAAAACGTCACTCTTGCTATGGTGTGGAGAATAGAGTGTAGAGAAGACAATATGGGGTTTCCAACAGGAGGAAGGAACTCT
Y
TTTCAAATGATCACATTTGAGTGTATCATCTATATCCTGCTAGAAACGCTATTTCTTAGTCCATTCCGGCTGCTAAAACAAAATACCGTAGACTGAGTAG
Celera SNP ID:            hCV29146857
SNP Position Genomic:     298903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23173):
TTATTATGTTGCCATCTATCTCATTACTTAAGTCTGGTAATGATTGTTTTATAAGTTTGGGAGCTCCAGTATTATGTGCATAGTTAGGATTATGATATTT
T
CCTGTTGGACTAGTCCTTTTATCATTATATATGTCTCTCTTTGTCTTTTTTAACTGCTGTTGCTTTAAAGTCTGTTTTGTCTGGTATAAGAATAGCTACT
Celera SNP ID:            hCV8020035
SNP Position Genomic:     408395
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23174):
GAAGGCCCTGTGGGAGAAACAAGCTTGACATGTTTGAGGAACAAAACAACAAAAAAAAAGTCTGGCTGGAGTACACAGGGAAAGGGGGGGTGTCGTAAAA
K
ATAAGATTACAGAGGTGTACAACGCTTCTCTTGCTCTGCTATACATTCACCTAGCTAGAACCATGCTTGGTTCATGATTGGCATTTAATAAATTTATGTG
Celera SNP ID:            hCV29146858
SNP Position Genomic:     298539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23175):
ACAATTATTATGTTGCCATCTATCTCATTACTTAAGTCTGGTAATGATTGTTTTATAAGTTTGGGAGCTCCAGTATTATGTGCATAGTTAGGATTATGAT
A
TTTTCCTGTTGGACTAGTCCTTTTATCATTATATATGTCTCTCTTTGTCTTTTTTAACTGCTGTTGCTTTAAAGTCTGTTTTGTCTGGTATAAGAATAGC
Celera SNP ID:            hCV8020036
SNP Position Genomic:     408391
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23176):
ACATTCTCTTTTAACACTCATTCGCTGCACTTGGCCTCTCTTGAGCCTCACAGCAACCTAGTGAGGAAACCAAGTCACAAGGCTGGTAAATGTGAAAGGG
K
CCCTGTGTGCTTCAAACTCATTTTCTTTTTCACTATGCAGTATGGCTTTCCCAAGACTTCTTTACTATCTGCTCTTAACTGTTAAACTGTGAAGACATCT
Celera SNP ID:            hCV29146859
SNP Position Genomic:     290611
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23177):
CAAAGATTGCACCATTGTACTCCAGCTTGGGTGACAAGAACAAAACTCCATCTCAAAAAAAAAAAAAAAAAAGGAAAAAAAAAGAAAGCCTTTGTGATAC
Y
GGGCAGCCTGTAAATCTTGGGTAGGATTGAAATACAATTAGTCCTCTACTTACAATAACCAACAACAAATTTTTTACTTTATTTTGGTGAAACAGCAATA
Celera SNP ID:            hCV12097995
SNP Position Genomic:     185112
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23178):
AACAATACAAGGAGTCTGGAGAGAAATCCCATGTCCAAAATAATGGGAATTTATTAAGTAAGTTTATAAAATTATATATATATATATATATATTTCCTTC
R
TTTAGCAGATGATTGATACATGAGGCAGATTGACCATCCTATATAGTATCTTCCCTCTCCTAGCTTATAATGTCATTTGGAAGATAAAAGACTAGATAGA
Celera SNP ID:            hCV12097996
SNP Position Genomic:     184633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23179):
GAATCCTATCTCAGTTGCTAAGGAATAAATTTCATATATAATAAATATGGAGTGATAGTACTGGACTTTGGGTTACAAGTATAAACATGCTTTAACTTAG
R
TTCTTATGAGTATGACAGATTTGAGAGCAAATACGGTATAATTTGTAAATTATACCGTATTTGAAAAGCATTGTAACTTATACGTAGAAATAATGACTGG
Celera SNP ID:            hCV169680
SNP Position Genomic:     108783
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,9)   total(G,9|A,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23180):
CCATGGAAAGGAATATCTTTACATCACCTGTTACATCAATCTTGAATCTGTGAGAAATGAGCTTTGATGATATCACTTTGCGGCTGGGCACAGTGGCTCA
Y
GCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGTGGATCATCTGAGATCAGGAGTTCGAGACCAGCCTGGCCAACGTGGCAAAAACCCGTCTCTACT
Celera SNP ID:            hCV26507110
SNP Position Genomic:     260547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23181):
GACGGGGTTTCACCATGTTAGCTAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
M
CGTGCCCGGCCAGGATTGAACCTTTTATGTTATCATGTATGTATGGCAAAGTATCCCCCAAGTAAGGATACAAGGACAAGCTTTAATAGAAAAGAGAGGG
Celera SNP ID:            hCV26507111
SNP Position Genomic:     257924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23182):
GGCTGTAGTGCAGTGGTGAGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTTACACCATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGAACTACAGG
Y
GCCCACCACCACGCCTGGCTAATATTTTGTATTTTTAGTAGGGACGGGGTTTCACCATGTTAGCTAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCC
Celera SNP ID:            hCV26507112
SNP Position Genomic:     257781
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23183):
GCTGTTGATCCTTTCCTTAAGCTTAAGGATTTAAATGCCAACTTAAAACATAAATAGCCTCAGGATTGAACCTTTTTTTTTTTCTTTTGAGACAGAGTCT
Y
GCTCTGTTGCCCAGGCTGTAGTGCAGTGGTGAGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTTACACCATTCTCCTGCTTCAGCCTCCCAAGTAG
Celera SNP ID:            hCV26507113
SNP Position Genomic:     257667
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23184):
TTGCAGAATATAAGGGCCTGAAGCAACTGGGTGGTATAATTGATCCACTGTGAAATCTATATGCACACAGCATGCAGATTCATCGTAGCATGCTCTGGGG
T
GTGTGTGTGTCATTCCACATGCGTAAAATCAATTAGAGCATTTCATTGTTCAGCCCTGCCTGGGTCTCATTATTAGCCAACATTGAGTCACAGCCTTGAT
Celera SNP ID:            hCV26507114
SNP Position Genomic:     254869
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23185):
CTTCTATCATAGGACATATTTTTCAACAAAAATTCCTTGAACAAATTGTACATTCAAAGCAGACTTTCCAACGCCTCCTGGGCCAAGAATGACTAGCTTA
Y
ACTCATGCATGATGCAAACTTGTCGAAACCTAGTACCTCTCACGCTGTCACCGGGTTCCCGCAGCCAGTGTCACTCCCTCCGGGTTGCTACTCTCGGCAC
Celera SNP ID:            hCV26507115
SNP Position Genomic:     251245
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23186):
AATAAACTAATGCAAAGCCTTGTCCATTTCTCATGTACAAATCCCTCCTTGCTATACATTGTTCCGTTCCTGCAGTATCCAAGATTGCAAGCATACACTG
Y
TGTGCATCTACTTCAACTTGCTTTCTATAAGAATCTTCTATCATAGGACATATTTTTCAACAAAAATTCCTTGAACAAATTGTACATTCAAAGCAGACTT
Celera SNP ID:            hCV26507116
SNP Position Genomic:     251110
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23187):
TTGCAAATCATTAAATGTGGACTGTGCTTTGATGGAATAAACTAATGCAAAGCCTTGTCCATTTCTCATGTACAAATCCCTCCTTGCTATACATTGTTCC
R
TTCCTGCAGTATCCAAGATTGCAAGCATACACTGTTGTGCATCTACTTCAACTTGCTTTCTATAAGAATCTTCTATCATAGGACATATTTTTCAACAAAA
Celera SNP ID:            hCV26507117
SNP Position Genomic:     251075
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23188):
TTACCAACAAGAATCATTGGAACATCATCAGTGTCTTTAACTCAAAGAATCTGTTCTCTCAAGTCTTGCAAATCATTAAATGTGGACTGTGCTTTGATGG
R
ATAAACTAATGCAAAGCCTTGTCCATTTCTCATGTACAAATCCCTCCTTGCTATACATTGTTCCGTTCCTGCAGTATCCAAGATTGCAAGCATACACTGT
Celera SNP ID:            hCV26507118
SNP Position Genomic:     251010
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23189):
ACTGGAGTTTTTCTGTTAATCTGCCGCACTAGGTCATAAAAGATCTCATTAACATTTATTTTGAATTTTGTAGAAGAATCTAAGAATGCACAGTTGTTCC
M
TTGTCTTGCTAGATTTTTGACCTTCTTCCTTCCCTACAGCTCTTTCATCTTCCAAGTCATACTTATTACCAACAAGAATCATTGGAACATCATCAGTGTC
Celera SNP ID:            hCV26507119
SNP Position Genomic:     250844
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,9)      total(A,9|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23190):
AACAAAATTTCTGATCCTGCACCAGGCATATATAATAATAACACAACTATTTTATCATAATTTCCTATCTAAAAATAATATGCATTTATCAAACGTTAAT
R
TTTTTGCATGCCTTTTAAAAACACAGGATTTTAGGTTGATTGCATACAATCTTATTTTGCAGTTTGCTCCCTATTAGGACATAAGACACTGCTTTAAAGG
Celera SNP ID:            hCV29146860
SNP Position Genomic:     286764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23191):
CATACAGCAGAAAGCCATCAGTGTGGTGCTTACACAGAGGCCATGACTATCTGGGTCTTCACAGAGAGCTATCCAACAGCTATCTGAAGATTTTTTTTTC
Y
TCAAGGCATGGCAGGATTTTATTTTTGAGATGTGGACATTCTCTTAAAACAGTGTAATTGAAACAAGTTCTCTTTTAATTTTTATTAATTAATTTTTAAT
Celera SNP ID:            hCV8769746
SNP Position Genomic:     174901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23192):
TTAAAGAAAGATAGAATAGGAAAGGAAGTTGCCTCTGTCCAGAAGTAATTGTCCACTTTTCAATTATCTGCCCCTCTGCCTGTAATTCTATCATTATAAT
R
AAAGCTTGACTTATGGTCTTAGCATCTGTCTTTCCCCTTTAAACTGGAAGCATCATAAAGGCAGGTACAATAATTGACTTTTTACTATAGCTGAGTACTT
Celera SNP ID:            hCV1115486
SNP Position Genomic:     88933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23193):
GATGGGAGGTCTCATCGATTTGCTCATTTAACCAATAACATTAACTATCTAAAAGGTGTTCTGATGGACCCTGCAAGTAATACAAAACTGACTCAGATGC
R
GGCCCTACATCAGGAGGTATACACTCTAGCAGTGCCCTTGACAGGTAGAATAACTGTAATACAACTGAGAAAATGGTCAGTGTCTGGAGCAAGTATGGAT
Celera SNP ID:            hCV29146861
SNP Position Genomic:     284364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23194):
AAGTGGAATAAACCAAACATACAGCAGAAAGCCATCAGTGTGGTGCTTACACAGAGGCCATGACTATCTGGGTCTTCACAGAGAGCTATCCAACAGCTAT
Y
TGAAGATTTTTTTTTCTTCAAGGCATGGCAGGATTTTATTTTTGAGATGTGGACATTCTCTTAAAACAGTGTAATTGAAACAAGTTCTCTTTTAATTTTT
Celera SNP ID:            hCV8769747
SNP Position Genomic:     174884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23195):
CTGGCAAGTTGATGCTGATTATTGGTGGGGAGGCTGCAGTTTCACACATGAACTTTCCTTAAGACTCTCTGGGTATTCTCATGACATCGTGGCTGGCTTC
S
CCACCACCGTGAGTGGGCAAAGAGAGAGCATCAAATTGGAAGCATTATCCTTTTTGTGACCTAGCCTTGGAAGTCACATAGCATCACTTCTGCCTCATTC
Celera SNP ID:            hCV29146862
SNP Position Genomic:     283675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23196):
AAATGTAAAGTTATTCTAAGATAGATTATGTAATTCTTAAATTAGTTTGCTTAAACTTTAAAAGGAGCCAGATTATTGAAGTACGTACAGAAAAAAAGAA
R
AAAATTATCTTTTTTCTAGTACTTCGTAATGAAACAACTTTCTCTTCCCTAATTTTCCTCAGAGAAATAGCTGAAAACAAGATATTACTATTATTTATCA
Celera SNP ID:            hCV8769748
SNP Position Genomic:     174394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23197):
TTGATAATCTTGGCTCTCACTATTTTTACGGAGCCAAAACCTCACAGCGTGCAGGCAGACTTCCAGGAGAAGTGTGGCTGTATCTACTATTTCCTGAGCC
R
TGCAAGTTACTGTTTGATAGACAGCCCCCGATTCTCATGGTGTGATTTATCATACATGTTTCTGGTTAATTTTTGGCTTTCAAACATATTTTTGCTCTTT
Celera SNP ID:            hCV29146863
SNP Position Genomic:     276402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23198):
CAGGTGATAGAATAGGGGACCCAGATGGTCACTAGACATCATATATTTTTCACTAGGATAAGAAAGGATTTTCTTACAGCCGTGCTGTGAGAAGTTTTGC
R
TTTTCTCTATATCTTAGTCTTTAAAACTATGGAAAGGAATTGAGTATGATAATGCAGTTACCCCAGGTAAAAATCTTCTATGCTTTCAAACATGTGCGTA
Celera SNP ID:            hCV29146864
SNP Position Genomic:     270964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23199):
TCCACAATTATTATGTTGCCATCTATCTCATTACTTAAGTCTGGTAATGATTGTTTTATAAGTTTGGGAGCTCCAGTATTATGTGCATAGTTAGGATTAT
G
ATATTTTCCTGTTGGACTAGTCCTTTTATCATTATATATGTCTCTCTTTGTCTTTTTTAACTGCTGTTGCTTTAAAGTCTGTTTTGTCTGGTATAAGAAT
Celera SNP ID:            hCV8020043
SNP Position Genomic:     408388
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,10)   total(G,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23200):
TCTTTATATACACAGCTATGTATGTCTGAAGGCAAATTAGTGAGAATGTCCTGTCTTGCCTCTTCACTCACACTGAGCTCTGCTGAAATGATTCCAGACA
R
ATGTCTAGGTTATTCCTAAAGATCTCCAGGGAAGTAGATATGACAGCCTCTTAATATTTTTAAATATTAAGTCTATCAGTCAGTACTAAGGGCACAGCCA
Celera SNP ID:            hCV29146866
SNP Position Genomic:     252864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23201):
GGAGCAGGTTAATTACCATGTATTTGCATGGTTTTGAAGGTTCCTTTTGGAGTTGATGTCCAATTTTCTTCCACTGTGGTCTGAGAGAGTACTTGATATA
R
TTTTGATTTTCTTAAATTTACTGAGACTTGTTTCATGGCCTGTAACATAGACTATCTTGGAGAATATTCCATGTGCTGATGAATAGAGTGTATATTCTGC
Celera SNP ID:            hCV8020044
SNP Position Genomic:     408059
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23202):
AAACCAACCTTAAATATTTTGGACCAAACCAGAATAAGATGAGGCAATCTAGTCTGCCCCCTTGGCTCATCTTTAATTAGAGGTACCTTGAGAAGGACAG
M
TGTAAGCCTCTTGATAAAATGGAATCAGATGCTCAGATCAGGCCTACAACTGCAAGATTTTCCCAAAACTAAGTTAATTGATGTCCTAGAAATATTTCTA
Celera SNP ID:            hCV15951321
SNP Position Genomic:     170556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23203):
GGTGCAACAGGAGATTATATCCCGCACCTGGCTCGGAGGGTCCTACGCCCACGGAGTCTCGCTGATTGCTAGCACAGCAATCTGAGATCAAACTGCAAGG
R
GGCAGCGAGGCTGGGGGAGGGGCGCCCGCCATTGCCCAGGCTTGCTTAGGTAAACAAAGCAGCTGGGAAGCTCGAACTGGGTGGAGCCCACCACAGCTCA
Celera SNP ID:            hCV29146867
SNP Position Genomic:     244372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23204):
TATATAACCTCCCCTAAGATAGACATTGCTCTCATGTTAAAGTCAGATGGGACATGTCTTTTCTAAGTCACTTGATGAAGGCTTGATTTGTACACTGATA
Y
AACAAAATTGGGAGCAGGCTCTCCTATCTTTCAGAGTCTGCATGCATTCTGCATTTGGACAGTCTCTAAAAGGCTATTACGATGTATGAGTGGCAGGCGC
Celera SNP ID:            hCV8765463
SNP Position Genomic:     73836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23205):
TTATAGACAAGCAGAGCTAAGAGTCTAGTTTGTGCATCATTTATATTCTAGATCTTATCTGGGGCTCGCTTTGAAAACACAAATCAAGTTGGCTACTTGT
S
ATATTCCATAAGCTTATATATGTGAAAAGAGATGGAAACTAAGACCTAAAATAAGTTTGAGGATTATCTATAGATCTCAATGCGTTTGTATCTCTACCAA
Celera SNP ID:            hCV29146868
SNP Position Genomic:     236701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23206):
CTGACCTCATATTACTTAAAATCCATAGCACTCCATGAGCCAAAATCTTTATAGCTTGTAGAATCAAGTTGATGCTGAATTTTTTTAATGAGAATCTAGA
W
TCTTCAAATAATTTGAAGCTTTATTTTCTTGCTTTTAGTGATAACAGAAGCAGCATTGCGAAAAAACACACAAAAAAAATTTTAAGAAAGAATATTTTCA
Celera SNP ID:            hCV8765464
SNP Position Genomic:     68763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23207):
TTCAGAGAAGAAAGTTCTAGAATAGAGATTAAATTCTTAGAAGCTTCATGTACACTGATGGTATTTGAAACTAGGAATCATTGATGAACACATTGGAAGA
Y
AGCACAAAGCCAAGTCCTGAGGCACTGCAATATTTTAATTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCTAGGCTGGAGTGCAGTGGCATGATGATC
Celera SNP ID:            hCV29146869
SNP Position Genomic:     230953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23208):
TTAATTTTTTGGTGATACAAGGGTTGCACTGGAACAGGAAGTGGATGAGGAGCAAGAAGTAATGAAGGCTTAAGCCTTCATTAGTAGTCACAGCTACTCA
Y
GAGGCTGAGGCAGGAGGATCCCTTTAGCCCAGGAGTTCAAGACCATCCTGGGGAGCATAGCAAAACCCTGTCTCTTATAAGAAAGAAGAAGAAGAAGGAG
Celera SNP ID:            hCV8765469
SNP Position Genomic:     66986
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23209):
TACTGGATGTAGTCTCTGCTTTTACCAGCTGCATAATCTAGGACTATTATATAAGTAAAAATCTCTCTTGTGAAGCTTGAAAGTGATTAGAATGTGCAAA
S
TGATATAGTAGCTTTCATATGCTCTTAAAGGGTACCACCACAGGAAAGTCCATTTAAGATGCTGGTAGGTTTAACAAAGTTGGAGTGTTGGCACTATTGA
Celera SNP ID:            hCV26507120
SNP Position Genomic:     250548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23210):
AATAGTGACCTTAAATTTCTTTAAAAAAATTACAATAAGCTACAAGTATCAAAGAAGCAAAGTCATCTAGAGTAGTCTACATAGGAGCTCTTTGGACTTT
S
TTTTATTATGGTAAAATAGTGGTGCTTTTAGGATTTACATTATTGTACTCTCCAATACAAAGTATGAGTGAGGGTTAGAGTATACAGTACACCATTTTCA
Celera SNP ID:            hCV26507121
SNP Position Genomic:     250303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23211):
AGGTTTTTGAAACATTTTTAAAAACTATATAGCTGTATTAATTAGAGCACTTATTTTCTACAATAATAGTGACCTTAAATTTCTTTAAAAAAATTACAAT
W
AGCTACAAGTATCAAAGAAGCAAAGTCATCTAGAGTAGTCTACATAGGAGCTCTTTGGACTTTCTTTTATTATGGTAAAATAGTGGTGCTTTTAGGATTT
Celera SNP ID:            hCV26507122
SNP Position Genomic:     250239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23212):
CAGCGCACCAGCATGGCACATGTATACCTATGTAACTAACCTGCACATTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATAATAATAATAATA
A
ATAAAATAAAATAAAATAAAAATTTTAAAAAAATAAAAAATAAAGAAATTTGAAAAGTCTGCCCATTTCCTTCCCAACAGATATTAAAGGCAATCTGTTG
Celera SNP ID:            hCV26507123
SNP Position Genomic:     249983
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1)   total(A,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23213):
ACAGCGCACCAGCATGGCACATGTATACCTATGTAACTAACCTGCACATTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATAATAATAATAAT
A
AATAAAATAAAATAAAATAAAAATTTTAAAAAAATAAAAAATAAAGAAATTTGAAAAGTCTGCCCATTTCCTTCCCAACAGATATTAAAGGCAATCTGTT
Celera SNP ID:            hCV26507124
SNP Position Genomic:     249982
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1)   total(A,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23214):
TACAGCGCACCAGCATGGCACATGTATACCTATGTAACTAACCTGCACATTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATAATAATAATAA
T
AAATAAAATAAAATAAAATAAAAATTTTAAAAAAATAAAAAATAAAGAAATTTGAAAAGTCTGCCCATTTCCTTCCCAACAGATATTAAAGGCAATCTGT
Celera SNP ID:            hCV26507125
SNP Position Genomic:     249981
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23215):
CACCAGTTAGAATGGCAATCATTAAAATGTCAGGAAACAATAGGTGCTGGAGAGGATGTGGAGAAATAGAAACACTTTTACACTGTTGGTGGGACTGTAA
W
CTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGATCCAGCCATCCCATTACTGGGTATATACCCAA
Celera SNP ID:            hCV26507126
SNP Position Genomic:     249377
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23216):
ACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAATGTCAGGAAACAATAGG
K
GCTGGAGAGGATGTGGAGAAATAGAAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGA
Celera SNP ID:            hCV26507127
SNP Position Genomic:     249321
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23217):
TCTTCAGTGTTTCTTTAGAAAACACTGGGAATCAAATAAATGTAAAGTTATTCTAAGATAGATTATGTAATTCTTAAATTAGTTTGCTTAAACTTTAAAA
K
GAGCCAGATTATTGAAGTACGTACAGAAAAAAAGAAGAAAATTATCTTTTTTCTAGTACTTCGTAATGAAACAACTTTCTCTTCCCTAATTTTCCTCAGA
Celera SNP ID:            hCV8769752
SNP Position Genomic:     174357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23218):
GCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAATGTCAGGAAACAA
Y
AGGTGCTGGAGAGGATGTGGAGAAATAGAAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCA
Celera SNP ID:            hCV26507128
SNP Position Genomic:     249317
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23219):
AGTTGGTGGCTATAGATTGTTTTTAAAATAGTTTGGATACAGTCATTGACTTATATAGGCTATCCTCAGTAAAAGAGAAAAACAAACTAATTATCCATCA
W
CTTGGTCAACTGATCATTCTTCCAATGGCAAGCTCTGTTTTCTTTTGTGCTGGCAAGAAAACTAAGTTGTTTCCTTCTATCAGAGCTTCCCTAGTCTTCA
Celera SNP ID:            hCV8769753
SNP Position Genomic:     172477
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,6)      total(A,6|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23220):
CACGTGAAAAAATGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAA
W
GTCAGGAAACAATAGGTGCTGGAGAGGATGTGGAGAAATAGAAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTG
Celera SNP ID:            hCV26507129
SNP Position Genomic:     249304
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23221):
TGTAATTAATAAAATAACCCCACCTAAGAGGCCAATGTATCATAAGTTGGTGGCTATAGATTGTTTTTAAAATAGTTTGGATACAGTCATTGACTTATAT
R
GGCTATCCTCAGTAAAAGAGAAAAACAAACTAATTATCCATCAACTTGGTCAACTGATCATTCTTCCAATGGCAAGCTCTGTTTTCTTTTGTGCTGGCAA
Celera SNP ID:            hCV8769754
SNP Position Genomic:     172433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23222):
TGTCAGTGGATCTACCATTCTGGGGTCTGCAGGATGGTGGCCTTCTTCTCACAGCTCCACTAGGCAGTGCCCCAGTTGAGACTCTGTGTGGGGCCTCCAA
W
CCCACATTTCCCATCCATACTGTTCTAGTAGAGGTTCTCCATGAGGTCTCTGTTCCTGCAACAGACTTCTGCCTTGATTTCCAAGCATTTCCGTACATCC
Celera SNP ID:            hCV29146870
SNP Position Genomic:     227503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23223):
TGGAGGTACAGGCATTGGGTAAATACACGCATTCTAAACGGGAGAAATTAGCCCAAACAAAGGGGTTACAGACCCCATGCAAGTCAGAAACCCAGCAGGG
Y
GGTCATTAAATCTTAAAGCTCCAAAATGATCTCCTTTGACTCCATGTGTCACATCCGGGCCACACTGATGCAAGGGGTGGGCTCCAAAGGCCTTGGGCAT
Celera SNP ID:            hCV29146871
SNP Position Genomic:     227248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23224):
GGAAAGGGAGTGATTAAAGATCACAGTGTAACCTTGGAATGAAAATATAAAGGCTTACAATTTTTTGCTTCTCCTCTGCCAGTACCTGATTTGACAGGCC
W
TTTTGTTGCTGAGGAGTAAATAAGCAGTTCTTTTTAGGGGGGCATTAATAACTTCTTAATCCAGTAAGGTCCTATTTAAGACACAGAAAGATGCTATGTA
Celera SNP ID:            hCV29146872
SNP Position Genomic:     219137
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23225):
AGACAAAGAGATACTGAGAATGGCTGGACCACTCACAGCAGATTTCATTGTCAAGGTGAGCCCTATTTAGATACCTCCTTTTCAAGCCACATCCCAAATG
R
TGTTACTTATAATTTCCTGAGCAGAGAGCGATTTTTGGTTCTGACATATGTTTGGAAAGCCCGTTTGTTACCCAGGAAATGTTTAATCTGAGGGTGTTGA
Celera SNP ID:            hCV8769758
SNP Position Genomic:     172145
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,39|G,1)   total(A,71|G,7)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23226):
ATAGATTTGATGCCAAAGTCTGAGCTGCTTTTCACACTCTCCCAGTTTTGCAATACAGTCACAAAAATTAAAGAGCAAGTAAAGTATACCTGAGGGCAAA
R
GAAGTTCATTAACTTTTCTTTTCCCTTTCTTCCTGGGATTGGTATCAGGGATGGACCTGCTTATTTGCCCCACTTGATTATGTCCCATGTCTACTCAATT
Celera SNP ID:            hCV29146873
SNP Position Genomic:     217907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23227):
GTGGTTGCCCTAGGAACATCTTTCTCTCATCTTCACGTGTTTGATCATATAGATCTGGAAACCAAAACCCTCCAGGGGACTAAAGGTGAAAACAGTCTCA
R
CTCCACAGGAACTTTCCTTGTGGACAATTCTAGTGTGGACTTCCAGAAATTTCCAGACAAAGAGATACTGAGAATGGCTGGACCACTCACAGCAGATTTC
Celera SNP ID:            hCV8769759
SNP Position Genomic:     171990
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(A,1|G,39)   total(A,6|G,70)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:23228):
GTCAAGTTTATGTTTTTCCTGTAAAGGCAACTCCTAGATTTCTGTTTTATCTGTGATCTCTCTTGTTTATATTTCTCTGGCATAACTAATGCCTATATTA
S
GTTAAAATTGATTTCTTATAGGTTGGGATTTTTCTCCAAATGCCTAAATCCCAATGGTATATTAAAACGATCCTCCTGGGTGTGTGTTTGTACTATGTCC
Celera SNP ID:            hCV29146874
SNP Position Genomic:     210339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23229):
TTTTTTCATGGATATAAGGTTAGGTAAAAAATTTTTAAAAAGGATGAAAAACATATACTATTAAAGTCCCAATAGTTAACACCAGGGTTTACCTTTTAAA
R
GCAAAATCTCACCATTGAATCTCCTCCGTTTTAATACCTTCAGTGGTTCCCCTTTGTGTATTACAAAGTTCAAAATTAGTAGGTATTTCACTCACCTACT
Celera SNP ID:            hCV8765470
SNP Position Genomic:     63113
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23230):
TTGATAAAGACAATAAATAGCTTTAGAATGTTCCTAATGTATCATTTTTCTGGTTTTATCCAGAACTCTTGACCTTGAAAAAATAATGAAATAGCAAAAA
M
TTAATTTTTTGAAGTAATGAAAATAGCAAATGATTAATTTAACTGAACTAAGATTTCATTTGGTTTCAATTTCTGTATCTGTGAAATAAATGTTCATAGG
Celera SNP ID:            hCV29146875
SNP Position Genomic:     210057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23231):
TAAAACTTCTGATCTCATCCAGTACTTAGTTTTTGCGGATGGCCAAACCTTGATGTAAGGTATTCAAGGTTACATAGAAAGAAAGTAGCAGAGAGGAGTA
Y
TGACCTTCCAACTCCCAGCCTCTCAGGTGATCCTTTTCCTCATTATGGCCAGATCCTCCATGCTTTGCTACTCACGAAATAGCAAAGTGCTTGTATGTCT
Celera SNP ID:            hCV29146876
SNP Position Genomic:     202593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23232):
GGTCTAGAAAGATGGTTCTCTGTTTGTTGTTTTAACAACAGGAACTGTAAGTCCTAGGAAAATATGATCTTGAGAGTAAATCACATTTATCAGATTTTTT
W
AAATATAATGATCACAAGAAATTAAGATAATTGGCAACTCCTGAAGTCTCAGTTCACAAGTGTCTGATAACCTCTACTTTACCAGCTGTGAGACATTGCC
Celera SNP ID:            hCV29146877
SNP Position Genomic:     200582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23233):
GGGTCTAGAAAGATGGTTCTCTGTTTGTTGTTTTAACAACAGGAACTGTAAGTCCTAGGAAAATATGATCTTGAGAGTAAATCACATTTATCAGATTTTT
W
TAAATATAATGATCACAAGAAATTAAGATAATTGGCAACTCCTGAAGTCTCAGTTCACAAGTGTCTGATAACCTCTACTTTACCAGCTGTGAGACATTGC
Celera SNP ID:            hCV29146878
SNP Position Genomic:     200581
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23234):
CTGCAGCAGCTATATAATGACTAAGATCACGGTTATGATGATGTTGATGTTAGCTGAGAGAAACTCTTAAGCTCTCCAGAAATCAGCTTTCTCATCCATG
R
AAGGAAAAGATGGAATTCTAGAATTCTGTATGGGTCTAGAAAGATGGTTCTCTGTTTGTTGTTTTAACAACAGGAACTGTAAGTCCTAGGAAAATATGAT
Celera SNP ID:            hCV29146879
SNP Position Genomic:     200449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23235):
TGTTTTGTTTAGGAAGCAGTATCTCTGTAATAATCCCTTGGCATTTGAACAGAGCTTTTGTACATTATTTCAGTTGGTGATCCTAACTTTGTGCATAGGC
W
TTCCTAAATTCATTTGGCAGGTAAGGAAACTAAGACCCTAAGAGAGCAAGAGGTTTATGCAAGTGGAAGAACAAAATCTATATCCCAGATCTTCAGGCTC
Celera SNP ID:            hCV8765475
SNP Position Genomic:     62888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23236):
TATTACATTTTTATATTAAAATATATTCTAATACTTATATTTTGTTCTTTCATACTTGACCCAGTTTCTGAGTTCATAATTGATATAGTTCTGAACTCCC
K
AAACACAGTGCTGTAACTATTTTATAGTTTATATTGGGAGGACATATTTATTTAAATCCTCTCTTATCATTTGTCTATAGCTTTTCTCAGACGTCATTTT
Celera SNP ID:            hCV8765476
SNP Position Genomic:     61475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23237):
CTAATGACATCTAAGCTAAAAGGAAAGGGCCTGAGGCCTTAGAATGGAAATTTTTACTTAGAGTAATAATTTAAAACTCCTTCTTGAGCTGTGTGGTCTA
Y
GACTAGATCTGTCTCCAAACTATAAAATATAAAGTACCATGGTAATATTTTTAATGAAAGATTTTATTTGACTATGAAAAGTGTTATGTATAGCAAGTAG
Celera SNP ID:            hCV8765477
SNP Position Genomic:     37610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23238):
TGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATCAATTCAAGATGGATTAAAGACTTAAACGTTAGACCTAAAA
S
CGTAAAAACCCTAGAGGAAAACCTAGGCATTACCATTCAGGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCC
Celera SNP ID:            hCV26507130
SNP Position Genomic:     248851
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23239):
TTTCAATGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAACCAAAAAAGAGCCCACATTGCC
M
AGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTACCTGACTTCAAGCCATACTACAAGGCTACAGTAACCAAAACAGCATGGTACTGGTA
Celera SNP ID:            hCV26507131
SNP Position Genomic:     248505
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23240):
AGAGAAGAAAGAATCAAAAGAAATGAGCAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAATCTATGTCTGATTGGTGTACCTGAAAGTGACG
K
GGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATTTAGCAAGGCAGGCCAACATTCAGATTCAGGAAATACAG
Celera SNP ID:            hCV26507132
SNP Position Genomic:     245364
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23241):
TTAGAGAAGAAAGAATCAAAAGAAATGAGCAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAATCTATGTCTGATTGGTGTACCTGAAAGTGA
Y
GGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATTTAGCAAGGCAGGCCAACATTCAGATTCAGGAAATAC
Celera SNP ID:            hCV26507133
SNP Position Genomic:     245362
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23242):
ATAACTAGAATAACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAACCAAGGCTCCAGAACTACGTGAAGAATGCAGAAGCCTCAGGAGCC
S
ATGCGATCAACTGGAAGAAAGGGTATCAGCGATGGAAGATGAAATGAATGAAATGAAGCGAGAAGGGAAGTTTAGAGAAGAAAGAATCAAAAGAAATGAG
Celera SNP ID:            hCV26507134
SNP Position Genomic:     245190
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23243):
GGATCACAGTTCCTCACCAGCAACGGAACAAAGCTGGACGGAGAATGACTTTGATGAGCTGAGAGAAGAAGGCTTCAGACAATCAAATTACTCCGAGCTA
Y
GGGAGGACATTCAAACCAAAGGCAAAGAAGTTGAAAACTTTGAAAAAAGATTTAGAAGAATGTATAACTAGAATAACCAATACAGAGAAGTGCTTAAAGG
Celera SNP ID:            hCV26507135
SNP Position Genomic:     245026
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23244):
GTGCGCGAGCCGAAGCAGGGCGAGGCATTGCCTCACTCGGGAAGCGCAAGGGGTCAGGGAGTTCCCTTTCCTAGTCAAAGAAAGGGGTGACAGACGGCAC
Y
TGGAAAATCGGGTCACTCCCACCCAAATACTGCGCTTTTCCGACGGGCTTAAAAAACGGTGCAACAGGAGATTATATCCCGCACCTGGCTCGGAGGGTCC
Celera SNP ID:            hCV26507136
SNP Position Genomic:     244214
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23245):
TCTGGGGCAAGGGAGTGAAGCCTGGCCTACTCTAGAAGAAAGTCTCCACAGACTTCATTTGAGAATCACTGGGCATTTAATTGAACACCAAGGTTTTCCA
S
TTGTTGATATTCTTTGCAATAGAGAACTACAAGTAGACCCCCTCTACAATAATGTAATACAAGTACTTTAGGTACTTGAGTGCCTCCAGAGACCTTAAAA
Celera SNP ID:            hCV8769760
SNP Position Genomic:     170901
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,7)      total(G,7|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23246):
TTTTTTTTTTACAAAATTGAACTATTTTAATTAAGGGTTTTAGTTTACATTTGGCCACCTCAAAGTAGTTGTAACATTGGGTTGGTCAATTTAAATACTG
K
GGCTCCTTGTTGGATGGACACAATCTTTACATCCAAACGTTAATGCATACAAAGCAACATGGCATTGTTAAACAAAACAGCAATACTTACTGAATATTGG
Celera SNP ID:            hCV26507137
SNP Position Genomic:     243501
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23247):
GAGATTATTGGTGTCTTTCTAGAAATGTAGCCCTTACTTTCCCCATTCCTTGCAGTCTTAGAAGGGCCTAAGTTTTTTTTTTTTTTTTTTTTTTTTTTTT
T
ACAAAATTGAACTATTTTAATTAAGGGTTTTAGTTTACATTTGGCCACCTCAAAGTAGTTGTAACATTGGGTTGGTCAATTTAAATACTGTGGCTCCTTG
Celera SNP ID:            hCV26507138
SNP Position Genomic:     243410
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23248):
GGAGATTATTGGTGTCTTTCTAGAAATGTAGCCCTTACTTTCCCCATTCCTTGCAGTCTTAGAAGGGCCTAAGTTTTTTTTTTTTTTTTTTTTTTTTTTT
T
TACAAAATTGAACTATTTTAATTAAGGGTTTTAGTTTACATTTGGCCACCTCAAAGTAGTTGTAACATTGGGTTGGTCAATTTAAATACTGTGGCTCCTT
Celera SNP ID:            hCV26507139
SNP Position Genomic:     243409
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23249):
ACAACGTGATTTCCTCCCTGCAATATTCCTTTAATGTGCCCTGTATTTTTCGGTGGGATCCCCTCTGTTCTGGGGCAAGGGAGTGAAGCCTGGCCTACTC
Y
AGAAGAAAGTCTCCACAGACTTCATTTGAGAATCACTGGGCATTTAATTGAACACCAAGGTTTTCCAGTTGTTGATATTCTTTGCAATAGAGAACTACAA
Celera SNP ID:            hCV8769765
SNP Position Genomic:     170833
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23250):
GTTGTCATGAGGAATACATGGCATAATACATTTAAAGAGCTTAGCAGAGTACCTGACTCATGATAAGCGCTCAATAAATGTTAGCTGCAGCAGCTATATA
R
TGACTAAGATCACGGTTATGATGATGTTGATGTTAGCTGAGAGAAACTCTTAAGCTCTCCAGAAATCAGCTTTCTCATCCATGAAAGGAAAAGATGGAAT
Celera SNP ID:            hCV29146880
SNP Position Genomic:     200365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23251):
TGAGGAATGAAGGCTGGAGGAAGGAGATTTAGTGCAGTTGCTTTCCCCTGATGACAACAACGTGATTTCCTCCCTGCAATATTCCTTTAATGTGCCCTGT
R
TTTTTCGGTGGGATCCCCTCTGTTCTGGGGCAAGGGAGTGAAGCCTGGCCTACTCTAGAAGAAAGTCTCCACAGACTTCATTTGAGAATCACTGGGCATT
Celera SNP ID:            hCV8769766
SNP Position Genomic:     170777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23252):
TTCATCCTACGAAGTGAGGATAATAACAATACTTACCTCATAAAGTTGTCATGAGGAATACATGGCATAATACATTTAAAGAGCTTAGCAGAGTACCTGA
S
TCATGATAAGCGCTCAATAAATGTTAGCTGCAGCAGCTATATAATGACTAAGATCACGGTTATGATGATGTTGATGTTAGCTGAGAGAAACTCTTAAGCT
Celera SNP ID:            hCV29146881
SNP Position Genomic:     200321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23253):
ATAGGAGTAGATTTAAGAGGGAAATTTATTTTTATAAATGTATTAGTCTCATAGATTTCATAATTATGTGATCACAAAGAAGCTGAAGAATTGGCCTTGT
K
TGATTTAATTATCCTAAAGATTTGATGAAAAGCAAACTGGAACCTGCTTTTTTCTCCCAACAAACATACTATTGGTAGCAAATGTATAGCTAAATCATTT
Celera SNP ID:            hCV8769767
SNP Position Genomic:     170242
SNP Source:               dbSNP
Population(Allele,Count): (G,-|T,-)   no_pop(T,-|G,-)   TSC_42_C(G,21|T,63)   TSC_42_AA(G,25|T,58)   total(G,46|T,121)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23254):
TACTGTCCGACCTAAAAAGACAGCCTTCCAAGGAGGGTAGAAAGTGCTCTTGGGGTTGGGTGTGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGC
S
GAGGCGGGTGGATCACCTGAGATCAGGAGTTTGAGACCTGCCTTGCCAACATGGCAAAACCTCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGG
Celera SNP ID:            hCV29146882
SNP Position Genomic:     186691
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23255):
AGCCCTCTTCACTATACTGTCCGACCTAAAAAGACAGCCTTCCAAGGAGGGTAGAAAGTGCTCTTGGGGTTGGGTGTGGTGGCTCACGCCTGTAATCCCA
R
CACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGATCAGGAGTTTGAGACCTGCCTTGCCAACATGGCAAAACCTCGTCTCTACTAAAAATACAAAAAA
Celera SNP ID:            hCV29146883
SNP Position Genomic:     186677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23256):
ACTGTTAAAATTATCAGGTATTTCAAACAGTGAGACAACTGAATCTGTTTCATTCCCATAGTAAGTAGCATTTTGGCAAGCCCTCTTCACTATACTGTCC
K
ACCTAAAAAGACAGCCTTCCAAGGAGGGTAGAAAGTGCTCTTGGGGTTGGGTGTGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCGGG
Celera SNP ID:            hCV29146884
SNP Position Genomic:     186599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23257):
GGCCTCAAACGATGAGTAGAGAAGTAATTGCTTGTCTTCTTTTTTTCTGGAAGAGATTGTATGGAATTGAATATATTTATTCTTTAAATGGCTGCTACCA
Y
GCCCCAGTGAAATTTTCTGGATCTGGAGATTTATTTTTCAGTATGTAACCTTATGAACTTATGGAACACCATTATAGTAACTATTTTAATATCCATTCTG
Celera SNP ID:            hCV29146885
SNP Position Genomic:     162531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23258):
GTTCATATCAGCAATTATTGATTTTAATTCAACTGGCTGTGAAATTGTGTTCTGTTGAAGCTTTCCAAAATGCCCAGAGGTTTCTCAGCAGTTTTCTAGA
W
GAGCTATAATCCAGGCTTGACCTTGGATAGAATACAAAATAAAATCAAGTTACCATAGTTCTGAAATGAAAACCTTACTGAAGTATTTGACATTGAACAG
Celera SNP ID:            hCV8765482
SNP Position Genomic:     29800
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   Caucasian(T,84)   African-American(A,25|T,59)   Asians(A,13|T,71)   total(A,38|T,214)   no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23259):
GTTAATCATTCATTTAATGAATATTCACTGAGACCGATTACGTATCTGGTGTTCTACAAGGCACTGCGCATATTCAGAGGCATATTCATCTTTGTCACAG
S
TCTTAAGAAGCACACAGTCCACTTCTGGGGATAGATGTGTAAACAAGTAACTATACTGGGTGGCTGACAAATGCTAAAATAGCCATTTGTATCAAGTCCT
Celera SNP ID:            hCV8765483
SNP Position Genomic:     25920
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,10)      total(G,1|C,10) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23260):
CAGCAGAAGCAGAATAGGTGGCAGAGGCAATTGATTGGAGGGAGGGAGAGGGGGTAGGTGAAGGGGATGAGGAGGAAGACAGAGGAGGCTGGAGAAAGGG
R
AATTGTTGTATAGCAATGTCTGTATGTTCATCACTATGCTAGGGGGAAAGACTGCTAAAATATTGGGGCCCCAAATAGCGAGCTTGGTTTTGGATGTGCT
Celera SNP ID:            hCV8765484
SNP Position Genomic:     22360
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23261):
AGGAGATTATTGGTGTCTTTCTAGAAATGTAGCCCTTACTTTCCCCATTCCTTGCAGTCTTAGAAGGGCCTAAGTTTTTTTTTTTTTTTTTTTTTTTTTT
T
TTACAAAATTGAACTATTTTAATTAAGGGTTTTAGTTTACATTTGGCCACCTCAAAGTAGTTGTAACATTGGGTTGGTCAATTTAAATACTGTGGCTCCT
Celera SNP ID:            hCV26507140
SNP Position Genomic:     243408
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23262):
ACCTAAGAGAGGAGATTATTGGTGTCTTTCTAGAAATGTAGCCCTTACTTTCCCCATTCCTTGCAGTCTTAGAAGGGCCTAAGTTTTTTTTTTTTTTTTT
K
TTTTTTTTTTTACAAAATTGAACTATTTTAATTAAGGGTTTTAGTTTACATTTGGCCACCTCAAAGTAGTTGTAACATTGGGTTGGTCAATTTAAATACT
Celera SNP ID:            hCV26507141
SNP Position Genomic:     243399
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23263):
TTTGACAAACCTAAGAGAGGAGATTATTGGTGTCTTTCTAGAAATGTAGCCCTTACTTTCCCCATTCCTTGCAGTCTTAGAAGGGCCTAAGTTTTTTTTT
K
TTTTTTTTTTTTTTTTTTTACAAAATTGAACTATTTTAATTAAGGGTTTTAGTTTACATTTGGCCACCTCAAAGTAGTTGTAACATTGGGTTGGTCAATT
Celera SNP ID:            hCV26507142
SNP Position Genomic:     243391
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23264):
ATCACAATTTCAATTTTGTCAGCTATATAAAGAATGATGTGTCTCCCTTACCTAGCTCTAAACATTGTTGCATGAAATGTGCTTGCCTGTGGTTGCCCTA
K
GAACATCTTTCTCTCATCTTCACGTGTTTGATCATATAGATCTGGAAACCAAAACCCTCCAGGGGACTAAAGGTGAAAACAGTCTCAGCTCCACAGGAAC
Celera SNP ID:            hCV25961077
SNP Position Genomic:     171902
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,1)   caucasian(G,23|T,1)   total(G,52|T,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23265):
TTGTGTTTGACAAACCTAAGAGAGGAGATTATTGGTGTCTTTCTAGAAATGTAGCCCTTACTTTCCCCATTCCTTGCAGTCTTAGAAGGGCCTAAGTTTT
K
TTTTTTTTTTTTTTTTTTTTTTTTACAAAATTGAACTATTTTAATTAAGGGTTTTAGTTTACATTTGGCCACCTCAAAGTAGTTGTAACATTGGGTTGGT
Celera SNP ID:            hCV26507143
SNP Position Genomic:     243386
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23266):
ATTCATATCAGTTACTTGTGAAGTTTACACCCATCTTTTAAAGAAATAATTTGTCAAACCATTCTTCATTCATCCAACAGTAGTGTTGCTAACAAAAAGA
R
TTTTTTTTTTTTTCAAGCCGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCGGTGGCACGATCTTGGCTCACTGCAACCTCCACCTCCCGGGCCCAAGCA
Celera SNP ID:            hCV26507144
SNP Position Genomic:     235468
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23267):
ATGGTGTTTGCTTACTTATTTTAGAGGGTTTATTTAAAACTTTTTTTTGACATCATTGAGAGGCATTAAATAACTAAAGAGTTTTTACACGAGATCTTCT
S
ATCTCATGTAAAAATGGGAAGTAGATAAGAGTAGAAATACAAAGAAGGTGTTTCCTTTTCTCTCTTCCAAGTTTCTTTCTCATCCAGTAGTAATTTTTTC
Celera SNP ID:            hCV26507145
SNP Position Genomic:     233075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23268):
TGGAGTGCAGTGGCATGATGATCTCGGCTCACTGCAACCTCCACCTCCTGAGTTCAAGTGATTCTCCTGCCTCAGTCTCCCAAGTAGCTTGGGCTTGCAG
R
TGTATGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCCGACCTCAAGTGATCT
Celera SNP ID:            hCV26507146
SNP Position Genomic:     231131
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23269):
GGAGTGCAGTGGTGTGATCTCAGCTCACTGCAAACTCCACCTCCCGGGTTCAAGTCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTG
Y
GCCGCCACACCCAGCTAATTTTTGTATTTTTTTTTAGTAGAGACGAGGTTTCACCATGTTGGCCAGGATGGTCTTCATCTCTTGACCTCGTGATCTGCCC
Celera SNP ID:            hCV26507147
SNP Position Genomic:     229731
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23270):
CACTCAAAAATAGTACTTTTGTGAGCAGTAACAGATACTGAAATAAAATATTCAGGCCAAGAACATCACCAAGTGGGGGACTGACTCTTCATTGCGGAAG
R
AAGAACCCATAGGAGTAGATTTAAGAGGGAAATTTATTTTTATAAATGTATTAGTCTCATAGATTTCATAATTATGTGATCACAAAGAAGCTGAAGAATT
Celera SNP ID:            hCV8769772
SNP Position Genomic:     170133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23271):
GAAATTCCAAAGTTTCCCTGATCTTCCTGCCTTCTCAAACTCTTCCAACCTCTGCCAGTTACCCAGTTCCAAAGTCATTTCCACATTTTCAGCTATCTTT
R
TAGCAATGCCCCACTTCTTGATAGCCATTTTCTGTATTAGTCTGTTCTCACATTGCTATAAAGGACTACCAGTACTGGGTAATTTCTTTAAAAAGAGGTT
Celera SNP ID:            hCV26507148
SNP Position Genomic:     228476
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23272):
TGGGCATCTCCACCCCTATGAAGTTGAGTGCCTGCAGCTTTTCTAGGTTCATGGTGCAAGCTGTCAGTGGATCTACCATTCTGGGGTCTGCAGGATGGTG
R
CCTTCTTCTCACAGCTCCACTAGGCAGTGCCCCAGTTGAGACTCTGTGTGGGGCCTCCAATCCCACATTTCCCATCCATACTGTTCTAGTAGAGGTTCTC
Celera SNP ID:            hCV26507149
SNP Position Genomic:     227442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23273):
CACATGTCAAAAGATAATGTATGTGTGTGTATTATTACCACTCAAATGATTCATTTTTCCCCATTTGAGAACTGGAGAGGGCTAACTGTCCACTAACTCT
S
CACTCAACTAACTCTCCACTCAAAAATAGTACTTTTGTGAGCAGTAACAGATACTGAAATAAAATATTCAGGCCAAGAACATCACCAAGTGGGGGACTGA
Celera SNP ID:            hCV8769773
SNP Position Genomic:     170016
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   no_pop(C,-|G,-)   (C,-|G,-)   Caucasian(G,4|C,80)   African-American(G,25|C,59)   Asians(G,4|C,80)   total(G,33|C,219)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23274):
AAAGGGCACCCAGAGGAATGTGCAGCACGGTGGGAGAGGATGTGGCCCCTGCCTCGCCAGCTATACTAATGGCATTAATCACCAAGGAGGCAGGTGTTGC
M
ACCAGATTGCTCTCACATCCTAAGAGATCTTAAACACCACTCTGTGCACAATATTGTAATAGATGCCAAGTAGAAGCATCTTCCAATCCATCCCAAATCA
Celera SNP ID:            hCV8769774
SNP Position Genomic:     164819
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;(A,-|C,-)   Caucasian(A,42|C,42)   African-American(C,29|A,55)   Asians(A,42|C,42)   total(A,139|C,113)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23275):
GCTGCTGTTCCCCATATCCTGTGAATAGAACATCTGTGTGAATAGGAAGCCTGTGCAAACAGCAGGCACTGCCCACAGGGGTGTGTATGTGTATGTATCA
Y
GCATATGCATGTGTATCAATGCCTGTGTGTATATGTGTGTACATGTCTACTATCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTCCCCAGCCCTG
Celera SNP ID:            hCV15890682
SNP Position Genomic:     272570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23276):
ATCCTCATCACCTTTCTCTGACACAGCTGTGAATCACGCAGAACATCCACATATGACAAGATTTTAAAATGAATATAAAATATTCTATATAGAAAGTTGT
R
TGATATACATATAGATAGATATTTTTTAAAGAATACTTTTAGGTACAGTCCTTGGGAAGAATTTTCTTGAGAAAAGACATTTGCAACCCATATCTGTGAA
Celera SNP ID:            hCV8769777
SNP Position Genomic:     164418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23277):
TTGTTTGGTGTTAGTATTAGCACAAAATGGCCTCAAACGATGAGTAGAGAAGTAATTGCTTGTCTTCTTTTTTTCTGGAAGAGATTGTATGGAATTGAAT
W
TATTTATTCTTTAAATGGCTGCTACCATGCCCCAGTGAAATTTTCTGGATCTGGAGATTTATTTTTCAGTATGTAACCTTATGAACTTATGGAACACCAT
Celera SNP ID:            hCV8769778
SNP Position Genomic:     162503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23278):
AAACCTAGGTTTGTTTTATGCCTGCATTTAAATTAAGTGGAAATCTGAGAGTTATGCTACAAAAGGAAGAACTGACTGATGTTTACATACATCCCTTTGC
M
AAGCAATAACAGCATTAGTAATAGCTGTCATGTATTTTGTGTCTGAATGTGGCTAGTTGTTTGAAAATCATTACAATAAATCCTTACAATAATCATACAG
Celera SNP ID:            hCV8765490
SNP Position Genomic:     8143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23279):
CTCTGTGAAAAATAGAGGATTGTAATGAAAATGCTGACAGGCCTGGAGCCAGCTCATGAAGTAATAATGCCACATCTTTCATACTTTTACACAGCATGTC
S
TAATCAGCCACAGCTTTCTTTTCCTTTAGAAAGCAGTTAAATACGTGAAAATTCCCAGAGTACTACTTTTTCTCCTCCTCTTTTAGATTGTATATTCTTA
Celera SNP ID:            hCV28035579
SNP Position Genomic:     396507
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23280):
ACATCTAGCAACTGTACAGGACGGCATAGTGTGCATTATGTTTAGTTCTCTCATTTCTAGATTTATCTTTCTTACCTTTGCCTTTTTGCTCCATTCACTC
W
TTTGTTCTTGTGAATTTTATGGTTATTTATATGCTATAAATCTTTTTATTATTTAATGAAAGGTTAAGCATAAGCAAATTAATGAATATCTAAATCTTTT
Celera SNP ID:            hCV29146896
SNP Position Genomic:     149470
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23281):
GGTGACCGCAGGTGTTGTTGGGGCTGAGCCCCTTCCCCTTCACTTGCTATATGTGCTTCTGAGGCACAGATCACAGATGAAACCATCGTTCATCCCTGTG
Y
GTAAGTGTAGCTCTAGAGGTAATGATCTTGATTAGAATATTCAAACTTGTTATTACCACTCACTATTGCCATATAAATATTGTATAGTATGCCTTTTCAT
Celera SNP ID:            hCV29146897
SNP Position Genomic:     148124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23282):
GGGAGGGGTAGGAGGTGACCGCAGGTGTTGTTGGGGCTGAGCCCCTTCCCCTTCACTTGCTATATGTGCTTCTGAGGCACAGATCACAGATGAAACCATC
R
TTCATCCCTGTGCGTAAGTGTAGCTCTAGAGGTAATGATCTTGATTAGAATATTCAAACTTGTTATTACCACTCACTATTGCCATATAAATATTGTATAG
Celera SNP ID:            hCV29146898
SNP Position Genomic:     148111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23283):
CCCCCAGTAATCACCATCTATTTTCTTTCTCTATGAATTTGACTATTTGGGGTGCCTAGTATAATGAAATCATATAATATTTGTCCTTTTTTTGTCTGGT
Y
TATTTTACTTAACCTAAGGTCTTCAAGGTTCTTCTATGTCATAGCAAGTCATAATTACATTCCTTTTTAGAGCTGAATAATATTTTGTTGTATGAATATA
Celera SNP ID:            hCV29146899
SNP Position Genomic:     137224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23284):
AAGTTAGTTACTTCCAGGATACAATGGAGGTACAGGCATTGGGTAAATACACGCATTCTAAACGGGAGAAATTAGCCCAAACAAAGGGGTTACAGACCCC
R
TGCAAGTCAGAAACCCAGCAGGGCGGTCATTAAATCTTAAAGCTCCAAAATGATCTCCTTTGACTCCATGTGTCACATCCGGGCCACACTGATGCAAGGG
Celera SNP ID:            hCV26507150
SNP Position Genomic:     227224
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23285):
TCCTCCAACACTGGGGATTATAATTTGACAGGAGATTTGGGCAAGGACACAAATCTGAGCCATATCATCCTGCCCCTGGCCCCTCCCAAATCTCATGCCC
W
TCTCATGTTGCAAAATACAATCATCCCTTCTCAACAATCTCCCAATTCTTAACTCACTTCGGCATTAACTCAAAAGTCCACAGTCCAAAATCTCATCTGA
Celera SNP ID:            hCV26507151
SNP Position Genomic:     226978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23286):
AATTGTGTGACATGTGTTTTTATATCCCTCCTCAAAATGTAGTGAACCAAACATCATTTATGGGTCCATATAGTGTTACTATTTATATTCTAAATATAAG
K
TACCTGAATTATATTCTCTTCATGAATCTCAGGCCACAGAAAAGTAACAATGAATATCTTGTTTATGTGTAGAAACAGGTGAGATGATTCATGATTCTTA
Celera SNP ID:            hCV26507152
SNP Position Genomic:     223151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23287):
GGGACAGGAAGGAAATTGTTCATTTCCTTAACTCCTTCAGGCAACTAACAGGCCACCTAATGCCCTAGAAGGTGTAATTTGCTAAGGGACTCATATTTTT
W
AAAAAAAAGGAAAAAGAAAAAAGAAAAAAAGGTATAGTCTGGATGCTTTAGGTGCTCTTCCTGATCTCCAAAACAAGGCATCCCAGGTAGAGAAAGTGAG
Celera SNP ID:            hCV26507153
SNP Position Genomic:     222208
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,6)   total(A,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23288):
GAAAAATCTCCAAATACATAATGAATTAGAATCCAAATAGAGGTCCCTTGACGTCATCTAGTGCAACTCCCCATTGATGCTTCATTCTCCCATTTCTTCC
Y
GAACAATCACAACCATATACCACAGATATGTTAAATATATATTTACGCAAATATGCATTCATATATTCAATGCATATGTATTCACACATGTATATACACA
Celera SNP ID:            hCV26507155
SNP Position Genomic:     209630
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23289):
TGAGCATGCCCAAAAGGCAGCATCCCTTTTCTTATACATTGTTACTGAAGGTTAATACACACACAGGCACACACACACACACACACACACAAACACACAC
A
TCATGAAAATTTTCTCACACAAATGAATATAAAAAACTTATTTACACAAATAAATACAGAAAATTTAGTCATGTAAAATAAATAAGTTAGTACTCCAATG
Celera SNP ID:            hCV26507157
SNP Position Genomic:     206915
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23290):
TTGAGCATGCCCAAAAGGCAGCATCCCTTTTCTTATACATTGTTACTGAAGGTTAATACACACACAGGCACACACACACACACACACACACAAACACACA
C
ATCATGAAAATTTTCTCACACAAATGAATATAAAAAACTTATTTACACAAATAAATACAGAAAATTTAGTCATGTAAAATAAATAAGTTAGTACTCCAAT
Celera SNP ID:            hCV26507158
SNP Position Genomic:     206914
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,10)   total(C,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23291):
TCAACACACACCTGATCACTATGGACACATGCTTTGGCGATGAAACACTGGTGATATGATGGACCATGTTGTGTATCTTCTTGAGAGGTGGAACTGGTAG
R
AGTAAAAGAATAGGGGAGGGGCCAGGCATGGGGACTCACACCTGTAATCACAGCACTTTGGGGGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTTG
Celera SNP ID:            hCV28035580
SNP Position Genomic:     351584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23292):
TGGGATTTTGAGCATGCCCAAAAGGCAGCATCCCTTTTCTTATACATTGTTACTGAAGGTTAATACACACACAGGCACACACACACACACACACACACAA
A
CACACACATCATGAAAATTTTCTCACACAAATGAATATAAAAAACTTATTTACACAAATAAATACAGAAAATTTAGTCATGTAAAATAAATAAGTTAGTA
Celera SNP ID:            hCV26507159
SNP Position Genomic:     206907
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,11)   total(A,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23293):
AACTGGTGAAGACAAAGGGTACAGGGTAAATAGAGCTGACTATTGGTCAAATGCTGACTCAGGAGGCTGGAAATAGATGTAAAGGAGGCCTTGCAAGAAG
K
TCAGCAGGGAGTTAAAAACTCCTGCACTATAAAATGCAAAAGACATTGGGAAGGAAAACTAGACTAAGAAAAGATCTTGCATGTTAATATAACTATTATT
Celera SNP ID:            hCV28035581
SNP Position Genomic:     336854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23294):
GATGTTTCTACTTTTTGGCTATTATGAATAAAGCTGCTATGAAGATTCACGTACATGTTTTTATGTGGACATATTTTTTATTTCTCTTGGTTATACACAC
S
TAGGAGTGAAATTTCTGGGTTGTTTGGCGCATTTATGTTTACTATTGAAGAAAGTGCCAACTATGTTTCAAAGAGACTGCACCACTTTACATTTCCACCA
Celera SNP ID:            hCV28035582
SNP Position Genomic:     335158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23295):
TATTCTTTTTTGTATTGTCTTTGTTTGGTGTTAGTATTAGCACAAAATGGCCTCAAACGATGAGTAGAGAAGTAATTGCTTGTCTTCTTTTTTTCTGGAA
R
AGATTGTATGGAATTGAATATATTTATTCTTTAAATGGCTGCTACCATGCCCCAGTGAAATTTTCTGGATCTGGAGATTTATTTTTCAGTATGTAACCTT
Celera SNP ID:            hCV8769785
SNP Position Genomic:     162483
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23296):
TCAACTGACAAAGTCCTGTGGTTTTTCTTCTTTAGATTGTTATTGTGATGAATTACATTAATTGGTTTTTAAATAACCAACTCTGCATTTCTGGGATAAA
S
TGTACTTGGTCATGGTGTATTATTCTTTATATAGATTTCTAGTTTGATTCGGCAGTATTTTGTTGAGGCTTTTTATCTGTGTTCATGAGAGATACTGGTC
Celera SNP ID:            hCV8769786
SNP Position Genomic:     162277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23297):
GAAACATGATTGATTTTTGTGTGTTAGCCGTGTATTATGTAAACTTGATACACTCACTCAATACCTCTGAGTTTTTTGGTAGATGACTGGGATTTTCTCA
R
TAAACAATCATGTTGTTTACAAGTAAGAGTGGTTTTGCCTCTTTTCAATTTGTAAGCCACTTTTTTTTTTGTAGTCTTATTGTACTGGCTACGCATGCAA
Celera SNP ID:            hCV8769787
SNP Position Genomic:     161864
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23298):
TTTTTTTATTTTGCTTGTTTGTTTGTATTATCTCATTTTATTTTTTTTTTTAGAGAAATGGTAGGTTCACAGCAAAATTGAGCAGAAAATAGAGAAGTTT
Y
CATATGTCTCTGCCTACCACATGTACAGTCTCCCCCACTATCAATGTCCTGTCCCAGAGTGGTACATTTGTTAGAATTAATGAGCTACATTGACACATGA
Celera SNP ID:            hCV221317
SNP Position Genomic:     87473
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23299):
AACAATATCTCTTCCCAGCTGTATCTAATATGCTTTTTATTCGACCTGAAAATTTATAAAAACATTTATATCTGCATGTATATGAGTTCTGTTTTTTTTT
W
AAATCTACATGATGACACCTGTTCTTTGGTTACTCTTTCAAAATTCTTCTTAAAAATGTCCATAAGCATGTTAAATTTTTTTATTTTGCATCCTGTGTCT
Celera SNP ID:            hCV221319
SNP Position Genomic:     86872
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23300):
AACAAAATTGGGAGCAGGCTCTCCTATCTTTCAGAGTCTGCATGCATTCTGCATTTGGACAGTCTCTAAAAGGCTATTACGATGTATGAGTGGCAGGCGC
R
GTGGCTCATGCCTGTAATCCCGGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTAAGACCAGCCTGGTCAACATGGTGAAACACCG
Celera SNP ID:            hCV26507300
SNP Position Genomic:     73937
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23301):
TTAGCCCTCCAAACTGTGCCAGCCTCTGCCAGTTACCCAGTTCTAAAGTCACTTCCACATTTTCAAGTATCCTTATAGCAGCACCCCACTCCTGATACCA
K
TTTACTGTATTAGTCCATTCTTATGCTGCTTTAAGAACATATGCAACACTGGGTAATTTGGAAAAAAGAGATTTAATTGACTCACAGCTCTTCAGGGGTG
Celera SNP ID:            hCV26507301
SNP Position Genomic:     68281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23302):
GACTTTGTTGCCTGTATCACTATCAGCATTTTGGTCAAAGCCATTCAACAAGACTGTAGGAAGTTCCGAATTTTCCCACATCTTCCTGTCTTCTGAGCCC
Y
CCAAGTATCTAGGAAGTTCCAACCTTTCCCACATTTTCCTGTCTTCTTCTTAGCCCTCCAAACTGTGCCAGCCTCTGCCAGTTACCCAGTTCTAAAGTCA
Celera SNP ID:            hCV26507302
SNP Position Genomic:     68131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23303):
CAGGATTTCATGGTTACAGTGAGCTATGATAGTGCCACTGCACTCCAGGCTGGGTAACAGAATGAGATGAGATGCTGTCTCAAAAAAGCAAAAGCAAAAA
S
AAAAAAACCAGATGGACCATCCTGCTTTAAAATTCTTTGCCATAAGTCCGTATTTGAAAAGCTAGTGATATTCAGGGAAATACAGTAACCCATTCTTGCT
Celera SNP ID:            hCV26507304
SNP Position Genomic:     59844
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23304):
AACAGCTTGCTTCTGTCCAAGCTGGTGTCTTTTCAATTAAGTATTGTTAAATCCATACCATTTGGAATGATGCTTCAGACAGCCCTGACACTCTCTCTCT
Y
GCTTCTGATTTCATTTCACCTAATATGTTGTGCATGGAGCCAGTAACCAGTATTATTCAGCTGCCACGGCTTCTGCTAGTGCTGCTGCTCACACACTTGC
Celera SNP ID:            hCV27849452
SNP Position Genomic:     2818
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(C,5|T,19)   total(C,7|T,51)
SNP Type:                 hmCS


Context             (SEQ ID NO:23305):
CAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAACTCTTATTATTTTGAGATATGTTCCATTGATACCTAGTTTATTGAGAGTT
Y
TTAGCATGAAGGGGTGTTGAATTTTATTGAAGGCCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTAC
Celera SNP ID:            hCV26507305
SNP Position Genomic:     57338
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23306):
CTCCTGCCTGATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTTTTGTGCCAGTTTTCAAAGGGAATGCT
K
CCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAACTCTTATTATTTTGAGATATGTTCCATTGATACCTAGTTTATTGAGAGT
Celera SNP ID:            hCV26507306
SNP Position Genomic:     57236
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23307):
GTGGGATTTTGAGCATGCCCAAAAGGCAGCATCCCTTTTCTTATACATTGTTACTGAAGGTTAATACACACACAGGCACACACACACACACACACACACA
M
ACACACACATCATGAAAATTTTCTCACACAAATGAATATAAAAAACTTATTTACACAAATAAATACAGAAAATTTAGTCATGTAAAATAAATAAGTTAGT
Celera SNP ID:            hCV26507160
SNP Position Genomic:     206906
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,8)      total(A,8|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23308):
TCAGTAAGACATGTATTTTGAGAGGATGAGGTGGGATGCCTTTTCTACTGATAGCACATCACTCCAGAATGATCACTTGCTCATGCTCACCTTCTCTTCT
T
ACCACCACAACCCCTGATGATGGGGATATTACATGGAGTCATGTTACTGCCCAGTGTAAGAGAAACAATGTAAGAACTGTGTGCCTGGTGGTCAGCATAA
Celera SNP ID:            hCV26507161
SNP Position Genomic:     205580
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23309):
TTCAGTAAGACATGTATTTTGAGAGGATGAGGTGGGATGCCTTTTCTACTGATAGCACATCACTCCAGAATGATCACTTGCTCATGCTCACCTTCTCTTC
T
TACCACCACAACCCCTGATGATGGGGATATTACATGGAGTCATGTTACTGCCCAGTGTAAGAGAAACAATGTAAGAACTGTGTGCCTGGTGGTCAGCATA
Celera SNP ID:            hCV26507162
SNP Position Genomic:     205579
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23310):
TTCCAGCTTCATCCATGTCCCTACATAGGACATGAACTCATCCTTTTTATGGCTGCATACTATTCCATGGTGTATATGCGCCACATTTTCTTAATCCAGT
Y
GATCATTCATGGACATTAGGTTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATATGTGTGCATGTGTCTTTATAGCAGTATGATTTA
Celera SNP ID:            hCV26507308
SNP Position Genomic:     55532
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23311):
ATTCAGTAAGACATGTATTTTGAGAGGATGAGGTGGGATGCCTTTTCTACTGATAGCACATCACTCCAGAATGATCACTTGCTCATGCTCACCTTCTCTT
C
TTACCACCACAACCCCTGATGATGGGGATATTACATGGAGTCATGTTACTGCCCAGTGTAAGAGAAACAATGTAAGAACTGTGTGCCTGGTGGTCAGCAT
Celera SNP ID:            hCV26507163
SNP Position Genomic:     205578
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23312):
CAATTCCCACCTATGAGTGAGAACATGCGATGTTTGTTTTTTTTTTCCCTGCAATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACA
W
AGGACATGAACTCATCCTTTTTATGGCTGCATACTATTCCATGGTGTATATGCGCCACATTTTCTTAATCCAGTTGATCATTCATGGACATTAGGTTTGG
Celera SNP ID:            hCV26507309
SNP Position Genomic:     55457
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4)   total(A,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23313):
CCAAGGTGGGCAGATCACGAGGGCAGGAGATCGAGACCATCCTGGCTAACAAGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTATCCGGGCGTGG
Y
GGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCCGAGGCAGGAGAATGGCGTGAACCTGAGAGGAGGAGTTTGCAGTGAGCCGAGATCGCACCTCTGCA
Celera SNP ID:            hCV26507164
SNP Position Genomic:     204586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23314):
CCATATAAATTTTACTATCTGCTTGTCCATATCTACAAAAAGTCTTGCTGGGATTTTTTTGTGTTAATTCTACAGATTGATTTGGAGGGGGTAGGAATTG
R
CATCTTTAGCATGTTAAGTCACTCAATCTATAAGGTATGAGAATTTTATGTCTCTGTTTACTTAGGTCTTATTTTATCTCTTTGATTAGCCTTTATTAGC
Celera SNP ID:            hCV8769791
SNP Position Genomic:     161363
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23315):
CATCCACTGGATTCCATGGTGGTGGATTAGTTCATCTACTAGTTCTTGAGGCTGAAGAGATTGTTGACATCTCGCCTATACTCTTCAAAATACTTTTTAT
R
TTTTCATGGCTTTTTTGCTGATTCTAAATGCTAACTTAGAAATATTGATAAGTTAAAAGACTGTAATGAAAACAATGAACTCACTAATAATCCCCAATGC
Celera SNP ID:            hCV26507168
SNP Position Genomic:     198509
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23316):
TATTTGAATTGGAAATATTTTCTCCATCATAGCTTTTTTATTCAAAATTGCTTAATGTTATCTTTCACAGAGCAAAAGCTTTTCATTTGGATGAAGACCA
S
GCTATCATTTTTTTTCTTTTACGGCTCATGCTTTTAATGTCATGTCTAAGAACTTCTTGCCTAAGACCAGGACACAAAGATTTTCTCCTGTGTTTTCTTG
Celera SNP ID:            hCV8769792
SNP Position Genomic:     160798
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,8)      total(G,1|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23317):
TATTTTCATTATTACTCAGCAAATATTTTTTGAGGGCCTACAATTGACCAAGCACTGTTCTCACTGCTTGGAATACATTAATTAACCCAATATACAAATC
R
CCCACCCTTACGCAGCATACGTTCTAACGAACCATGTGGAACATGGAGATCATTTATAAAATGTTTCCTGCTACCATTACCTCTTGGTTGTAGTTTTTGT
Celera SNP ID:            hCV8769793
SNP Position Genomic:     154456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23318):
CATTTCTCTAATAATTAACATCGGTGTACTTGGGAAATAGTCTCTAAAAAATAATAGCCCTTTACAGCAATTCTTGTTGATGCATCAGGGCAGAGGTTTA
S
GTTTAGCCTCTTGCTGTCATTTATGGTATGTCTGTTTCTTTGTGTGCACAGTTAAAAACACATGTACATATACATACCTACACACATGCATGCACACATT
Celera SNP ID:            hCV8769795
SNP Position Genomic:     150857
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23319):
AATAGAAGATTTGAAAATAGAGTTGTCTCAGAAATTCCAGGATAGTGGTCAGAGTTGTTATGTGCTAGGCAATGAACTGGATCTTTTTATATAAGCTATC
R
CCTCAAATCCTTAGAACAAGTATATAAAATAGGTTGGATTATATAACTCACAAGAGAACTGAACTCGTACTGAGAGTGATATATTCAAGCCATCACATCC
Celera SNP ID:            hCV8769796
SNP Position Genomic:     142554
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   no_pop(A,-|G,-)   (A,-|G,-)   Caucasian(A,84)   African-American(G,4|A,80)   Asians(A,84)   total(G,4|A,248)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23320):
ACCATAAAATTCGTGGTCAAATATGTTTTTCTATCGAATATGGCATTTGATAGACCCACTTTGTAGAATATGGGGACTTTTCAATTTAGATTCACATAGA
Y
ATATTGAAAAGAACGCATTGCATATTTTTTTTCAAATGACTCAAAATTTTTTTAATTGACGCTGTATTATGCAATACATTTGAAACTATAATCTTTGGTG
Celera SNP ID:            hCV8769797
SNP Position Genomic:     140129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23321):
ATGGCAATACCATGCTGTTTGGGTTACTGTAGCTTTATAGTATATTTTAAAATTAGGTGGTGTGATGCTTCCAGCTATGTACTTTTTTTTTTTTTTTTTT
T
GAGATGGAGTCTCACTCTGTCACCAGGCTGGAGTGCAGTGGCACAATCTCAGCTTACTGCAAACTCTGCCTCTTTGGTTCAAGTGATTCTCCTGCCTCAG
Celera SNP ID:            hCV8020237
SNP Position Genomic:     345418
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23322):
AAAGCTAATCGCAAATCAGTACCTTTGAAAGGGACCGTGGAGAAATTATCAGCTGAATCTCCTTATTTTGTTTTATTTTATTTTATATGAAACATAAAAT
R
TGACCAGCATCAGGGCAGGATGTGACTTACCCGAAGTCTCTCAACTAGCAAGTGGCAAAGCCAGAAACACTCAAACCTGGGTCTTCTGGCTCCAAGTCCA
Celera SNP ID:            hCV8769799
SNP Position Genomic:     130958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23323):
CTCTCTTGAAAGTTAGTTTTGCAGTGAACTTAACTCTACGTTGACAGTTATCTTGTCTCAACACTTCAAAGAGAATTATCCATTGACTTCTAACTACCAT
Y
GTTGCCATTGAGAAGCCAGCTGTCATTCTAATTTGTTTTTCCTGTATCTTTTCTGCCTGACTTCTTTTATTTATTGTTGGTGTTCAGTAGTTAGCTATGA
Celera SNP ID:            hCV221321
SNP Position Genomic:     86466
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23324):
CACTTTATTTGATCCCATTTTTTCTCAGATCATAGATCTTCAAATATTACTTTCCTTTTATCTGGAGTATATCCTTTAGACTTTCTGTTAGTGAGGGTTC
M
TTAGAAGTGAGTGCTTTTGGTTTTCTGTATTTTGTTTGTCTGAAATATTTGTATTTGGTGCTCTCTCTTGAAAGTTAGTTTTGCAGTGAACTTAACTCTA
Celera SNP ID:            hCV221322
SNP Position Genomic:     86303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23325):
AGAGAACATGTTTTCCTGCTCTGGAGTGTAAATTTCTATATGAGTATATCAAATGTTTTGAATGTGTTTATTAAATGTCCTAGTTCTTTAATAATTTTTT
W
AAAATACTTGAGAGAATGATATTTAAAATCTTCTTCTTTGTTAGGTTAATTTGCCAATTTCACCTTGTAGTCCGTTTGGGTTATTTTGGACTGTCTTATT
Celera SNP ID:            hCV221323
SNP Position Genomic:     85304
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,6)   total(A,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23326):
GGGCGCCCCTCCCCCAGCCTTGCTGCCGCATTGCAGTTTGATCTCAGACTGCCATGCTAGCAATCAGCAAGACTCTGTGGGCATAGGACCCTCCGAGCCA
K
GTGCGGGATATAATCTCCTGGTGCGCCGTTTTTTAAGCCTGTCGGAAAAGCGCAGTATTTGGGTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACC
Celera SNP ID:            hCV27505011
SNP Position Genomic:     377277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23327):
TCATTATCATTCAGTTCTAGGTATTTTTAAATTTCCATATGATTCCTTCAGGTCATAAATTACTTACAAATCTGTTCATTAACTTCTAAATACATGGGGC
R
TTTACATTTTTCTTTATTAATCGCTAACAATTGCATTATGATTTTTCCAAAATGGTCTTTTTATTCCATTTCTTTGGAATTTGTTGAGATTTTGTTTGAT
Celera SNP ID:            hCV221324
SNP Position Genomic:     85079
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23328):
AGCCCTAGAGAATAGTATTTAGACACCAAGATTTCAACATCAAGTAAGTTCATTGCTACTGATGTGTCACTGCTCTCAGTACCCAGAAGTTAAAAAAAAA
A
TGCATATATCTGTGCATGTATAGCCATATACACACACACTAATATAATCATTTCTATATTAATCTATACATTGAGTCATGAGTCCTCCCTTGTATGTCCA
Celera SNP ID:            hCV8020096
SNP Position Genomic:     390494
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23329):
CCCCAGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCACTGTTCAATTCCCACCTATGAGTGAGAACATGCGATGTTTGTTTTTTTTTTCCCTGC
R
ATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACATAGGACATGAACTCATCCTTTTTATGGCTGCATACTATTCCATGGTGTATATG
Celera SNP ID:            hCV26507310
SNP Position Genomic:     55409
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23330):
CACACCCCATGACAGGCCCCAGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCACTGTTCAATTCCCACCTATGAGTGAGAACATGCGATGTTTG
K
TTTTTTTTTCCCTGCAATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACATAGGACATGAACTCATCCTTTTTATGGCTGCATACTA
Celera SNP ID:            hCV26507311
SNP Position Genomic:     55393
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23331):
ACCATGAAGTGATTATTATGCATTGCATGCCTGTATCAAAACCTCTTCTGCACCCCATAAATACATACACCTACTAGATACCCAGAAAAATTAAAAATTT
W
AAAAAAGCATTGTCCTGAATAAATATATATTTATTCAATGTTTATTAAAAATAATTTAAATATGTTAATATTAATAAAGTACTCACTAGGGATGCATACT
Celera SNP ID:            hCV26507312
SNP Position Genomic:     54161
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,8)   total(A,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23332):
GGATAGATACCCATTTACCATGAAGTGATTATTATGCATTGCATGCCTGTATCAAAACCTCTTCTGCACCCCATAAATACATACACCTACTAGATACCCA
S
AAAAATTAAAAATTTAAAAAAAGCATTGTCCTGAATAAATATATATTTATTCAATGTTTATTAAAAATAATTTAAATATGTTAATATTAATAAAGTACTC
Celera SNP ID:            hCV26507313
SNP Position Genomic:     54145
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,8)   total(G,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23333):
CTACTGATGGATGATGCCTGGCAGCATGCCACCTTGTTGTTTCTTGTATTATTACAACAGAAAGCATTTTCAAAAGCCACATTTATCAAGTCATCATAAT
W
GTTTGGCTTGTATATCTATCTATTCAAAAAAAAAATTAATCTCTCCCTTAGTACTAATCTGTTTGAGCCATGTGATGTATCCCATGTAGAAAAGGCAGTG
Celera SNP ID:            hCV26507314
SNP Position Genomic:     53488
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23334):
ATTTTTGTGTCTTTCACAGTGCCTTGCTTAGTACTAGTATAGACTGGATACCCAATGAATGTGTTAAGTGACTGCAAATTGGAAAACATTATACAAAAAG
Y
GTGTTAACCAGGAAGCACTGCCCAGGACTCACTTTCCGCATTGGAGTGCTTATTGTACATTGTCTCATTAGATTTTTTGAGCAGTATGTTCAGAGCAGTT
Celera SNP ID:            hCV26507315
SNP Position Genomic:     52430
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23335):
AATTACTTTGATGTTCCATGGGAATACATTATTTTGATATTTTTACTAATGACTGGCATAGGAAATAGTTTCAAGGAAAGAATCTAAGGTTTGTTTTTTT
Y
TTAAAAAAAATGAAAACCATGCTTTGTGAGAAATAGCACTTCAGTTATATGCACACATAGAGCTGCTATTAGAGTGTGATGTCAGCAACCTTGATAATCG
Celera SNP ID:            hCV26507170
SNP Position Genomic:     192604
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23336):
GGAGTTCGAGACCAGTCTGGCCAACATGGTGAAATCCCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCGCGAGCCTGTAATCCCAGCT
R
CTTGGGAGGCTGAGGCATGAGAATTGCTTGAAACCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCACTGTACTCCAGCCTGGGTGACAGAGCAAG
Celera SNP ID:            hCV26507171
SNP Position Genomic:     192341
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23337):
GGAGGCCGACGCAGGTGGATCACAAGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGTAAAACCCCATCTCTACTAAAAATATCAAAAAAAAAAAAAA
A
GTTAGCCAGGCATTGTGGCGGGCACCTGTAGCCCCAACTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAAGCAGAGGTTGCAGTGAGCTG
Celera SNP ID:            hCV8019848
SNP Position Genomic:     430491
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23338):
CTGAACATTCCAGATTCTTTTTTGTTTCATATGAATTTTAGAACTGTTTTTTCCATTTCTATAATAATCAGTTACTGGGAGTTTGATAGGCAACGCATTG
T
ATCTATAGATCACATTGGGTAACATGGACATTTTAACAACATTACTCTTCCACTCCATGAACATGGAAGGTTTTACCATTTATTTGTGTCATCTTTAATT
Celera SNP ID:            hCV26507317
SNP Position Genomic:     46759
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23339):
ATTTCCCTACAGCAAATCATTTAGTTCCTTTAACTTTTATGCTTTTATAATACAATGAATAACTTAATACCTAAGTATTTTTCTCTTTTCAAATTATTTT
Y
TTGGTATAAATACTCAGGAGTGAGATTGTTAGATCAAGGAATTTCAGAATTTTTGTGGCTATTGGCACACATTACCAAATTCTTTCCAGAAGGATAACAA
Celera SNP ID:            hCV26507172
SNP Position Genomic:     191561
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23340):
TACTATTTTAATTTCTGTAGCTTATAAAATGTTTTGAAATCAGGAACTGTGATGCCTTCAGCTTTGTTCTCTCTCAATATTGTTCTGAACATTCCAGATT
S
TTTTTTGTTTCATATGAATTTTAGAACTGTTTTTTCCATTTCTATAATAATCAGTTACTGGGAGTTTGATAGGCAACGCATTGTATCTATAGATCACATT
Celera SNP ID:            hCV26507318
SNP Position Genomic:     46675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23341):
CGCCCGGCTAATTTTTTGTATTTTTAGTACGGACGGGGTTTCCCCGTGTTAGCCAGGATAGTCTCGATCTCCTGACCTCGTGATCCGCCCACCTCGGCCT
S
CCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGACCGAGGAAACAGTCTTTACTTCTCTCCTTGATTTTGTAGAAGGCCAGAGCTAGAAATATT
Celera SNP ID:            hCV26507173
SNP Position Genomic:     190916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23342):
CTCCTGAGTAGCTGGGACTGCAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTACGGACGGGGTTTCCCCGTGTTAGCCAGGATAGTCT
Y
GATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGACCGAGGAAACAGTCTTTACTTCTC
Celera SNP ID:            hCV26507174
SNP Position Genomic:     190880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23343):
CGAGGCCCTCCTGTAAGGCAGATACCTCCGCCAAGATGCCAAAGACATTTTCTGTCTGTAAAGTCCCATTAGAGGAAACAGTCTTTTTTTTTTTTTTTTT
T
GAGACAGAGTCTCGCACTGTCGCCCAGGCTGGAGTGCAGTGGCGCCATCTCGGCTCGCTGCAAGCTCCGCCTCCCGAGTTCACGCCATTCTCCTGCCTCA
Celera SNP ID:            hCV26507175
SNP Position Genomic:     190677
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23344):
TCTTCTGAACAGAGTGGAATCTCGAGGCCCTCCTGTAAGGCAGATACCTCCGCCAAGATGCCAAAGACATTTTCTGTCTGTAAAGTCCCATTAGAGGAAA
Y
AGTCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCACTGTCGCCCAGGCTGGAGTGCAGTGGCGCCATCTCGGCTCGCTGCAAGCTCCGCCTCCCGAG
Celera SNP ID:            hCV26507176
SNP Position Genomic:     190655
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23345):
GACTTGGCCAGGCACGGTGGCTCACGCCTGTTATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCGACCATCCTGGCTAACA
Y
TCTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCAGGCGTCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATGGT
Celera SNP ID:            hCV26507177
SNP Position Genomic:     189131
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23346):
TTTTAAAATAATCTGAAGGCCAAATCCATCCATTTATCCTACATTATGGGCAATTAAGAAAATGGTAAGACTTGGCCAGGCACGGTGGCTCACGCCTGTT
W
TCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCGACCATCCTGGCTAACATTCTGAAACCCCGTCTCTACTAAAAATACAAAA
Celera SNP ID:            hCV26507178
SNP Position Genomic:     189063
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23347):
ACTACATCCCTAAGCAAGCAATTAGGTACCCTTGTATCTGACACATAAAAATGAGAAATAGAAATCTATAGGCAGTGCTCTTTTTTTGTGAAAGACACTG
Y
ATTGCTTCAGCTGTTTTTCTTTTAAAGTAGGGAATGGTATCACTGTTTATTCTAATTAGAAAATACGTAAATGCTCTACAGGTCAAAATCCCAGGGTATG
Celera SNP ID:            hCV26507179
SNP Position Genomic:     188649
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23348):
CAAAGGGGTTACAGACCCCATGCAAGTCAGAAACCCAGCAGGGCGGTCATTAAATCTTAAAGCTCCAAAATGATCTCCTTTGACTCCATGTGTCACATCC
R
GGCCACACTGATGCAAGGGGTGGGCTCCAAAGGCCTTGGGCATCTCCACCCCTATGAAGTTGAGTGCCTGCAGCTTTTCTAGGTTCATGGTGCAAGCTGT
Celera SNP ID:            hCV27506902
SNP Position Genomic:     227305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23349):
TCCTATGTAGATTTCTTTGGAAGAAAAATAATCATTCAGCAACGAAAATAAAGTTTGAAAACACCTGCTTTATGATATCTCATAAGGTCTTCTAAATTTT
R
CGTGGCTATTTCTAGGTAAGAAATTCTCCAATAAATGTCTATTCTGTACAATTCTAATTGCCAAGAAGATGTTTCTTAGAGCAAAATGATGTGTACTTTC
Celera SNP ID:            hCV11718100
SNP Position Genomic:     79668
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23350):
TGGGCATGGTGGTGGACACCTATAATACCAGCTACTCAGGAGGTTGAGGCAGGAAAATTGCTTGAACCCAGGAGACAGAGGTTGCAGTGAGCTGAGATCA
Y
GCCACTTCGCTCCACCCTGGGTGACAGAGTGAGACTCCATCTCAAAACAAAGTGCTCTTGGATAAACATTGTTTTGTAATAATATTGCTTCCATTTATGA
Celera SNP ID:            hCV26507180
SNP Position Genomic:     186883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23351):
AGATGGTGAAACCCCATCTCTACTAAAACTACAAAAATTGGCTGGGCGTGGTGGCAGGCATCTGTGATCCCAGCTACTCGGGAGGCTGAGGCAGGAAAAT
Y
GCTTGAATCCAGGAGGCGGAGGTTACAAAGATTGCACCATTGTACTCCAGCTTGGGTGACAAGAACAAAACTCCATCTCAAAAAAAAAAAAAAAAAAGGA
Celera SNP ID:            hCV26507181
SNP Position Genomic:     184986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23352):
ATTATAAGAGGTAACAATACAAGGAGTCTGGAGAGAAATCCCATGTCCAAAATAATGGGAATTTATTAAGTAAGTTTATAAAATTATATATATATATATA
T
ATATTTCCTTCGTTTAGCAGATGATTGATACATGAGGCAGATTGACCATCCTATATAGTATCTTCCCTCTCCTAGCTTATAATGTCATTTGGAAGATAAA
Celera SNP ID:            hCV26507182
SNP Position Genomic:     184621
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,9)   total(T,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23353):
TATTATAAGAGGTAACAATACAAGGAGTCTGGAGAGAAATCCCATGTCCAAAATAATGGGAATTTATTAAGTAAGTTTATAAAATTATATATATATATAT
A
TATATTTCCTTCGTTTAGCAGATGATTGATACATGAGGCAGATTGACCATCCTATATAGTATCTTCCCTCTCCTAGCTTATAATGTCATTTGGAAGATAA
Celera SNP ID:            hCV26507183
SNP Position Genomic:     184620
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,9)   total(A,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23354):
ATGTTTTGGAATATCCTTCTCTTGCCACCTTTAAAACTAGACTGAATTCTCATCTTGCTTCCTAGAGCAGCGTTTCTTCTAAAAATTTTAAACTTGTTCC
R
TTGGCTCTACATACATTTTTGTCAATGCCAGTTTAGTGTGGTAGAATAGATAATCTGCTGCTTACTGGGTGTGTGACCTTAAGAATATTGCTTTGCCTCA
Celera SNP ID:            hCV26507184
SNP Position Genomic:     183458
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23355):
CCGTCTGTCACCCCTTTCCTTGGCCAGGAAAGGGAACTCCCTGACCCCTTGCACTTCCTGAGTGAGGCAATGCCTCGCCCTGCTTCGGCTCGTGCACAGC
R
CGCTGCACCCACTGACCTGCACCCACTGTCTGGCACTCCCTAGTGAGATGAACCCAGTACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGCGTAGC
Celera SNP ID:            hCV26507185
SNP Position Genomic:     183076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23356):
CCTTGCAGTTTGATCTCTGACTGCTTTGCTAGCAATCAGTGAGACTCCGTGGGCGTGGGACCCTCTGAGCCATGTGCGGGATATAATCTCCTGGTGTGCC
R
TTTCCTAAGCCCATCGGAAAAGTGCAGTGTTTGGGTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACCCCTTTCCTTGGCCAGGAAAGGGAACTCC
Celera SNP ID:            hCV26507186
SNP Position Genomic:     182915
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23357):
TACCTAAGCAAGCCTGGGCAATGGCGGGTGCCCATCCCCAAGCCTCGCTGCCGCCTTGCAGTTTGATCTCTGACTGCTTTGCTAGCAATCAGTGAGACTC
Y
GTGGGCGTGGGACCCTCTGAGCCATGTGCGGGATATAATCTCCTGGTGTGCCGTTTCCTAAGCCCATCGGAAAAGTGCAGTGTTTGGGTGGGAGTGACCC
Celera SNP ID:            hCV26507187
SNP Position Genomic:     182862
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23358):
TCCACCCAGTTCGAGCTTCCAGGCTGCTTTGTTTACCTAAGCAAGCCTGGGCAATGGCGGGTGCCCATCCCCAAGCCTCGCTGCCGCCTTGCAGTTTGAT
Y
TCTGACTGCTTTGCTAGCAATCAGTGAGACTCCGTGGGCGTGGGACCCTCTGAGCCATGTGCGGGATATAATCTCCTGGTGTGCCGTTTCCTAAGCCCAT
Celera SNP ID:            hCV26507188
SNP Position Genomic:     182829
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23359):
CTTGAGGAGGCAGTCTGCCCGTTCTCAGATCTCCAGCTGCGTGCTGGGAGAACCACTGCTCTCTTCAAAGCTGTCAGACAGGGACATTTAAGTCTGCAGA
S
GTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCATCAGAGGTGGAGCCTACAGAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTCG
Celera SNP ID:            hCV26507189
SNP Position Genomic:     182641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23360):
TTTCATTTTTCTAAACTGTCTGTTCTCATCTTTATAAGGAAATAGCAACATTGCCTACCCACTCCTATCCCTGTAGGATCCCAAAGATAAATGAGATACT
S
TCTGGATAGCTTTGAACTTTTGGCAGAAAGACATCATTCCAGGCCAAGGCATTATTATGTTACTACTCTGTAAGATGAACCATGGAAAAGCTTTGACACT
Celera SNP ID:            hCV15880308
SNP Position Genomic:     310625
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,228|C,1275)   total(G,228|C,1275) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23361):
AATTTAAAGTCAAAAGACATGAGTTGGGGCCAGGCACGGTGTCTCATGCCTGTAATCTGGGCATTTTGGTAGGCTGAGGAGGGCGGATCACTCGAGGTCC
R
GAGTTTGAGACCTGCCTGGCCAACACGGCGAAACCCTGTCTGTACTAAAAATACAAAAATTAGCCAGGCGTGATGGCAGGTGCTTGTATTCGCAGCTATT
Celera SNP ID:            hCV211581
SNP Position Genomic:     109972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23362):
GATCACTCGAGGTCCGGAGTTTGAGACCTGCCTGGCCAACACGGCGAAACCCTGTCTGTACTAAAAATACAAAAATTAGCCAGGCGTGATGGCAGGTGCT
Y
GTATTCGCAGCTATTTGGGAGGCTGAGGCAGGACAATGGCTTAAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCACCACTGTACTCCAGCCTGG
Celera SNP ID:            hCV211582
SNP Position Genomic:     110057
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23363):
CTGAGGCTTCTGCATTCTCCACGTAGTTCTCGCGCCTTGGCTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTGTATTGGTTATTCTAGTTATACATT
Y
GTCTAAATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATTTCCTCCTGTAGCTCGGAGTGGTTTGATCGTCTGAAGCCTTCTTCTCTCAAC
Celera SNP ID:            hCV26507190
SNP Position Genomic:     181976
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23364):
TGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCCATCACTTTCAGGTACACCAATCAGAC
R
CAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTTTGTTCGTTTCTTTTTATTCTTTTTTCTCTAAACTTCCTTTCTCGCTTCATTTCATTC
Celera SNP ID:            hCV26507191
SNP Position Genomic:     181724
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23365):
TTTCAGTTGGTGATCCTAACTTTGTGCATAGGCATTCCTAAATTCATTTGGCAGGTAAGGAAACTAAGACCCTAAGAGAGCAAGAGGTTTATGCAAGTGG
W
AGAACAAAATCTATATCCCAGATCTTCAGGCTCCTAATTCAGATTTGTTTCCATAATTTTTTTCATGGATATAAGGTTAGGTAAAAAATTTTTAAAAAGG
Celera SNP ID:            hCV11718118
SNP Position Genomic:     62955
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,5)      total(A,5|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23366):
TTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTATAAAGTATTTTATTTCTCCTTCACTGATGAAGCTT
R
GTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGTCCCCACTGTCTTCTGGCTTGTAGAGTTTCTGCCGAGAG
Celera SNP ID:            hCV26507192
SNP Position Genomic:     181342
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23367):
GTACTGGTTGTTCCTTTCCATGTTTAGCACTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTATAAAG
K
ATTTTATTTCTCCTTCACTGATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGTCCCCACTG
Celera SNP ID:            hCV26507193
SNP Position Genomic:     181312
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23368):
CGGCTGGTACTGGTTGTTCCTTTCCATGTTTAGCACTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCT
R
TAAAGTATTTTATTTCTCCTTCACTGATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGTCC
Celera SNP ID:            hCV26507194
SNP Position Genomic:     181306
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23369):
ATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCCGCTTGGTGCAGAGCTGAGTTCAATTCCTGGGTATCCTTTTTGACTTTCTGTCT
K
GTTGATCCGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTCTCTTTGTAGGTCACTCAGGACTTGCTTTATGA
Celera SNP ID:            hCV26507195
SNP Position Genomic:     180648
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23370):
AAGTATGTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAAAATGTACATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCC
R
CTTGGTGCAGAGCTGAGTTCAATTCCTGGGTATCCTTTTTGACTTTCTGTCTTGTTGATCCGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTAT
Celera SNP ID:            hCV26507196
SNP Position Genomic:     180595
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23371):
TTCTCGTTGGTTTCAAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGAGT
R
GTTTTGAGTGAGATTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGACAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGTGGAGA
Celera SNP ID:            hCV26507197
SNP Position Genomic:     180383
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23372):
TTTTTTCTTTATTAGTCTTCCTAGTGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAAGGGTTTTTTTTTCC
Y
CCATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTTCTTTTAATTGTGATAT
Celera SNP ID:            hCV26507198
SNP Position Genomic:     180067
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23373):
CTTTTTTTCTTTATTAGTCTTCCTAGTGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAAGGGTTTTTTTTT
Y
CCCCATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTTCTTTTAATTGTGAT
Celera SNP ID:            hCV26507199
SNP Position Genomic:     180065
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23374):
CTCATTGAACTTACCTGCATGAACTTGTGGCCTCCTGTCTTATCCAATGGGCTATAATCTATGCTATCCTAACTTCTTTTATTTTAAAGTAAAACATTCC
S
CAGATGCAGCCAATGTGACTTTAAGATGACTCATATCTTTTGACACGTTCATATCATTCTTTAAGAACTTCATTACTTTCTGGCACAAGAAGATATTCTA
Celera SNP ID:            hCV2008500
SNP Position Genomic:     390267
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23375):
TGGCCTCCTGTCTTATCCAATGGGCTATAATCTATGCTATCCTAACTTCTTTTATTTTAAAGTAAAACATTCCCCAGATGCAGCCAATGTGACTTTAAGA
W
GACTCATATCTTTTGACACGTTCATATCATTCTTTAAGAACTTCATTACTTTCTGGCACAAGAAGATATTCTAGGTTCATCTTGAACTTTCCCTGCTCCA
Celera SNP ID:            hCV2008501
SNP Position Genomic:     390294
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,5)   total(A,4|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23376):
GAGCTTTGTATTCTAGCAAGATAACTGGGAATGATGAAGAGGACAGACTGGTGGGAAGAGAGGCTGGAGGTCAAAAACACCAGATGGGAAGTCAATTGCA
R
AGTGCCAGGCATGAATGGTAGTACCAGAATTAAGTCAGTGAAAGTAAGATTGGACGGGGTGAGAATGGAAGAGAGAGGGATTTCAGAAATGGAATTGATA
Celera SNP ID:            hCV28978731
SNP Position Genomic:     26979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23377):
TAAACAGCCTCCTACCATTGCTGCCCCCACCCCCACACAGATGCTGTCCTCGCCTCACTCAGGTTCTACATCCCTCCTCAGGTCACCACTGCACCCCTGG
Y
TTAGATGCCCTTTTCACTCTGTTCAGCCTCAACATCCCATCCTGGACTACCACGGCTCCCTGTCTCCCTATGAACATTGATGAACATTGTCTTCTTTAGC
Celera SNP ID:            hCV2008503
SNP Position Genomic:     390803
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23378):
CATGCTAGCAATCAGCAAGACTCTGTGGGCATAGGACCCTCCGAGCCAGGTGCGGGATATAATCTCCTGGTGCGCCGTTTTTTAAGCCTGTCGGAAAAGC
R
CAGTATTTGGGTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACCCCTTTCTTTGACTAAGAAAGGGAACTCCCTGACCCCTTGCGCTTCCCGAGTG
Celera SNP ID:            hCV27530048
SNP Position Genomic:     377329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23379):
TGCCCTTTTCACTCTGTTCAGCCTCAACATCCCATCCTGGACTACCACGGCTCCCTGTCTCCCTATGAACATTGATGAACATTGTCTTCTTTAGCCTTGC
S
TAATGGGTTTCGACTGAACCATTTAAGAAAAGAAAGCAAAAGTATGAGGAATTGCTGAGGATTTCTGAACAGAAACCCTATTGTTTCCAGGCTTAGAAGC
Celera SNP ID:            hCV2008504
SNP Position Genomic:     390909
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23380):
TTGGGAACTCCATAAGCCCTCTAATATATGTGCAAATATGCTTTTCTCTGGTGAAAGAATCCAGAACTTTATTCAGTTTCTTAATAGATGCATTACCCAG
Y
AACATTAACTACTTGCTCTACATCAAAAGGTTGACAACAAATTCGGTCTTACCAATAATTAAAGAAAAGCAAATAAAATGAAATACTATTTGCCATAAAT
Celera SNP ID:            hCV2008505
SNP Position Genomic:     391382
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23381):
TCCAAAACAGATCTTACTGGGCTAAAATCAAGATTGACCAAGATGTTTCCTTCTGGAGGCTCTACGGGGAAATGTATTCGTCTTTTCCAGCTCCTCAAAG
Y
CACCTGCATCCCTTGGCTGTGGCCCTTCTCCCATCTGCAAGAATGGCAGCATAGCATCTTCACATTTCTCTCTGACTCGCTATCTTCCCCATTATAAGGC
Celera SNP ID:            hCV2008506
SNP Position Genomic:     391709
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23382):
CTACTTGCATAATCGAGGATAATCCCCCATCTCAGTATTCTTTCTTAATCACATTTGCAAAGTCCCTTTTGTCATGTGAGGTAGCATATTCATAGGTTTC
R
GGGATTAGGGTGTGGATTTCTTTAGGGGGGCAGTTATTCTGCCTATCAGAAGATCAAAGAATTAAATAATATATACTATCATGCATTGTTGCCCAAAACG
Celera SNP ID:            hCV2008507
SNP Position Genomic:     391930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23383):
CCAGGCAGTTAGTGGTTTTACTAGGCCATTTGTTCTCAGCATACAGAAACTCAAATGATCTCATACCCTCGACCAGGGGTTGGTCCTGAAGGCAAGTCTA
K
ACCACCACCCCTTTATAAATAAGATTTTAGTGGGGCACAGCCCCACCCATTTGTTTATGTATTGTCTATGGCTGATCTCAAGTTACAATGGCAGAGTTGA
Celera SNP ID:            hCV2008508
SNP Position Genomic:     392784
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23384):
CACTGTTCATTCCCAATTCCCACCCCCACCATCATAATTCAAAAATAAATTTTAAGGGGAAAAAATCTCATTACTGTAGGAAAAGGTTGGTTTTCCTTCT
Y
TATATTCTAGGGTTTCTCAGCTTTGGTCTTTAGAGAGATCTAAGAGCAAACTCTAATGAAATGCTAATTGTACATTTTAAAGCAGAATACAGGTGCCCAG
Celera SNP ID:            hCV2008509
SNP Position Genomic:     393181
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23385):
ATTCACACATAATAGCTTGTGATTGAGATTATTTCTATTTTTAAGAGAAGGAATTAAATCAAAATGTGACTGGGCAGGAGTAAAATGGTGATTAAGCAAA
Y
AAGGAATTTTTGTTGCAAATTTGAATTAGAATATATATATATGTATTCCACCCGCCCCCCTCAAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAATGCA
Celera SNP ID:            hCV11718120
SNP Position Genomic:     60531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23386):
TATACTAATCTCTTAAGTGAATTAAAGACTGAATAATTCACACATAATAGCTTGTGATTGAGATTATTTCTATTTTTAAGAGAAGGAATTAAATCAAAAT
S
TGACTGGGCAGGAGTAAAATGGTGATTAAGCAAACAAGGAATTTTTGTTGCAAATTTGAATTAGAATATATATATATGTATTCCACCCGCCCCCCTCAAG
Celera SNP ID:            hCV11718122
SNP Position Genomic:     60496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23387):
TTCCCAAGCAAGATAAAGTCTGCAAGACTTTCTGGAATTAGTTACTGCTATACAGTAATACTGATACTGAGACATGAACTTTGGGACATACTGCATGGAG
Y
TTGGGAGCTGAGGACTGTATATATGGTGGTGTGTATGCTTGGAATTTGGATAACAGACATCCTGAAATTAAACTCACTCACTGTGGTGTTCCTGGAATTT
Celera SNP ID:            hCV11718127
SNP Position Genomic:     6542
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23388):
GGCCTTTCCCCGGTTGCCATTAATATGGATCTAGATTACCTAAAGTTTTACATTACTTTTCCTAGGTGCTGAAAACGTTTTAGAAATGAGAAAGTCAAGA
S
ACATAGAAGCTGGAGGCTAAAATAAGATACTTTCCATCGTCAGGTAACATATACCCATGGTAAACCCTGGTAGCCTACTTTCCTTTTCCTATAAACATCC
Celera SNP ID:            hCV11718129
SNP Position Genomic:     3091
SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,22)   caucasian(C,17|G,19)   total(C,31|G,41)
SNP Type:                 hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:23389):
GGTACTCAGCCTAGTACCCAATAGCTATTTTTTCAGCTCCGCTCTCTCCTCCCACTCTCCACCCTCAAGTAAGCCCCAGGGTCTGTTGTTCCCCCTTCTT
Y
GTGTTCATGAATTCTCATCATTTAGTTCCCACTTATAAGTGAGCACATGCAGTACTTGGTTTTCTGTTCCTGTATTAGTTTGCCTCCAGCTCCATCCATG
Celera SNP ID:            hCV8020413
SNP Position Genomic:     334011
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23390):
ATTAAATAATTAGAAGAGGTAATGGTAGTAATCTGAGCAACCTGACCCACTGACATTGGCAAAAAAATATCTGAATATTGAAAGAGAATGGTAATGGAAA
S
AAGGATATGAGAAGGAAGGCATGCAGCCTGGGAATGTCTGGGAAAAGGCAGTCTAAGCCCTACCTACTTCCTCAAGTGCTAAGGGCCCTGTAATATTTAT
Celera SNP ID:            hCV8020414
SNP Position Genomic:     333454
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23391):
GCAGACATAAGCACAGAGATTGGAGAATCATCTTGGCTGTTAAATTCAGCACTCAGCCATCTTGCTCAGAAATCTTCCAAATCCGAATGGCCTAGGCAAA
S
TTTTGAAGGAAAGGAAGTAGTTTCCAGGTAAATTGCTTCAGTCTGGATCCGTGGAGTTTAGCTGTACTTACCAATGCAGATAAGGGCCTCTCCAGGTATG
Celera SNP ID:            hCV8020415
SNP Position Genomic:     331849
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,13)   total(G,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23392):
CTTTCTGTTTGTTAGTTTTCCTCTAACAGTCAGGCTCCTCTGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCCACTCCAGACCCTGTTTACCTGGGTATC
R
GCAGCGGAGGCTACAGAACAGCAAAGATTGCTGCCTGTTGCTTCCTCTGGAAGCTTCATCCCAGAGGGGCACCCACCAGATGCCAGCTGGAGCTCTCCTA
Celera SNP ID:            hCV137293
SNP Position Genomic:     96028
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23393):
GCCTGTTGCTTCCTCTGGAAGCTTCATCCCAGAGGGGCACCCACCAGATGCCAGCTGGAGCTCTCCTATATGAGGTGTCTGTTGACCCCTGCTGGAAGGT
R
TCTCTCAGTCAGGAGGCACAGGGGTTAGGGACCCACTTCACGAGGCAGCCTGTCCCTTAGTAGAGCTCTAGCGCTGTGCTGGGAGATCTGCTGTTCTCTT
Celera SNP ID:            hCV137294
SNP Position Genomic:     96161
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23394):
ACGAGGCAGCCTGTCCCTTAGTAGAGCTCTAGCGCTGTGCTGGGAGATCTGCTGTTCTCTTTAGAGCCAGCAGGCAGGAACGTTTAAGTCTGCTGAAGCC
R
CACCCACAGCCTCCCCTTCACCCAGGTGCTCTGTCCCAGGGAGATGGGAGTTTGATCTGTAAGCCCCTGACTGGGGCTGCTGCCTTTCCTTCAGAGATGC
Celera SNP ID:            hCV137295
SNP Position Genomic:     96301
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23395):
CAGGCCACCCCCAGAAGCTCTGACCCAAGTTTTTGTTTTAGAAAGACAGCTGGGATGGCCACATAGAGTGGAAAGGCCTGGAGAAGGGAGGCCAAAAGTT
W
CAAGATTATTACACCTCTCCTGGTGAGAAGCCACGAAGGCAGTAGCACCAGCAGCAGCAGTAGTGATGACAAAGAAGCGTAAACATCCAGCTGTAAGGCT
Celera SNP ID:            hCV28978740
SNP Position Genomic:     17848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23396):
ATTGCACCATTACACTCCAACCTGAGCAACAGAATGAGAGCCTGCCTCAAAAAAAAAAAAAAAAAAAGAGGATATAGGTCAGGTAAGAGCTGGGTCAGCA
M
ACAAGTAGCAGCTCTGTCCTATTCCAGGCCTTCAATCCATTGGCCAAGTGGAAAAGCTGGAAGATACCTCTCCCTAAATGTATCAGTTAGCTATCACCTC
Celera SNP ID:            hCV2008512
SNP Position Genomic:     415491
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23397):
AACAGACATGGTCCTAAAGATGAGTCCTTCTACATAGAATGTCGGTAAGGATTTGGCACAGGGGTGAGGAAGACAGGAATTAATTGGTCAGTACTTTCCA
K
TGGTTTTATGTTGCTGTCATGATATTATTTTCTTTAAACTGTATATTTAACTATTGCTGATGTAACGGGGTTTCTGCCTAAAGAAATAGACACATTAATT
Celera SNP ID:            hCV28978741
SNP Position Genomic:     16242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23398):
CACAGTTTGATGCCATTGCATACATCTACCTTGTTGTGCAGCTATCATCACTGTCTCCAGAATTTTTTCATCAACTGAAACTCTGCACTCCTCCTCCCTC
Y
CTTCTCCCAGCCTCTGGTAGCCACTATTCCACTTTCTGTTTCTATGAATTTGGCTGCTCCAGGTACCTCATATAAGTGGAATCATACAATATTTGTCCTT
Celera SNP ID:            hCV2008513
SNP Position Genomic:     416026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23399):
AGATTTGGTGGGAACGTTTTCAGAACTAGCCGGTTCTTTTTTTCTAGCTGTTATAACCATTTGTCACTGAGACCTAATATAATTTCCCTGATATACTACA
Y
ACTTTTAGTTCTTATTTGGGGCTTGTAACTGGTCTGAGATAACAAACATGCTTTGAAATTACTGTTATGAGGTTAATTGGCATTTAAATTCCCAGCCCAT
Celera SNP ID:            hCV28978742
SNP Position Genomic:     14902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23400):
CATTTGGAATTATATTTCTGTCAGTGCAATTACTATATGAGGTTGTATCTCCCATCCTCATTAGAATTATACCTAAAGTTCTTATTAAAATAAATTAATT
R
CAATAAGACCAAGATGACCTTGTGCATCAAAAGTAGGATAGTTGAAAGAAAGGGAATAGCAGAAAAATCACGTGCATGAACATATGCCGTTTATAATACA
Celera SNP ID:            hCV28978743
SNP Position Genomic:     14086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23401):
TAAGAGGTTGAAGCTGCAACGAGCTGTGATCATACCACTTTCACTACTCCAGCCTGGGTGACAGAGCAAAACCTTGTCTTTTTTTTTTTTTTTTTTTTTT
T
GAAAAAGGTATGCTGTCTGCAGTATAGTGATCAAATTGGCAAGTGAAAGGACTACAGAAAGAGAAACCTAATCTAGGTGAGCAATTATGGTGATGAGAAT
Celera SNP ID:            hCV2008516
SNP Position Genomic:     426816
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23402):
GAATTTATTCTTGCTAATTTAAGCAGAAAGTGATGTGTTATAGGATATTAAATAACACATAACATTTGAGTTACCAAAGAAAAAGACTCCAACTTGAGCT
Y
TCTGAAGATTCCAGTGCTGCTTTACAGAAACACATCACCATGGGAGTTGCTGCCTCTTCCACAGCCAGGAAGTCATCTGCTGCTGAATGGAAAAGCTGCA
Celera SNP ID:            hCV28978745
SNP Position Genomic:     1483
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:23403):
GTATTATTCAGCTGCCACGGCTTCTGCTAGTGCTGCTGCTCACACACTTGCAGACGGTTTTAATTTAGATACCTGAAGAGGAAAAAAGGAATTTGGCCAA
Y
GCCCTGCTCAGATGCCGTAAGTGGCCTTTCCCCGGTTGCCATTAATATGGATCTAGATTACCTAAAGTTTTACATTACTTTTCCTAGGTGCTGAAAACGT
Celera SNP ID:            hCV11718130
SNP Position Genomic:     2968
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,24|T,16)   total(C,54|T,24)   
SNP Type:                 TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,5)   caucasian(C,4|T,4)   total(C,25|T,9)
SNP Type:                 TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:23404):
TACCCTTACCTGAGTTTATCATCCACACCTGTGCCAATGTCTACACTCACAGTGTTAGGTGGTTCACCAGCTCCTGTTGTGAGCACACCCTCTGCCACAT
R
TTGTGGAACCTACAGCAATAAATAAAACCTGTGTTTTGTGGTCCCTGATGCTTACAGAGGAGTGAAGGCAAGCGATGGATACCCGGCTACCTAGAATTGG
Celera SNP ID:            hCV8020420
SNP Position Genomic:     329856
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23405):
GGGCTGCCTGGTGAAGTATGACTACAGACACCACACCCAGGGCATAGGGAGCTGCATCCTTGCACCTTAGCTGCTAGGGTTTGTATAGGTCTGCTGGAAA
R
TCTATCAAGCAGTCCCTCTAAAAACAAAGGCTCAAATGTACATTGCCTTAAGACTGTATTTGTACCCTTACCTGAGTTTATCATCCACACCTGTGCCAAT
Celera SNP ID:            hCV8020421
SNP Position Genomic:     329693
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;JBIC-allele(A,642|G,858)   total(G,858|A,642)
SNP Type:                 INTRON


Context             (SEQ ID NO:23406):
TAAGAACAGACATATAGACCAATGAAACCGAATAGAGAACTCAGAAATAAGATCACATACCTACAACCATCTGATCTTTGACAAACCTGACAAAAACAAG
Y
AATGGAGAAAGGACTCCCTACTTAATAGATGGTGCTTGGATAACTGGCTAGCTGTATGCAGAAAATTGATACTGGACTCCTTCCACACACCTTATACAAA
Celera SNP ID:            hCV27921410
SNP Position Genomic:     432134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23407):
TTGTTGGAACTAGAGATGACCATTGGCTTCACTTTAAAGTCACCAGGTGCATTATCCCCTAACAAGAGAGTCAGCCTGTCCTTTGAAGCTTTGAAGCCAG
R
TATTGACTTCTCTCTAGTTATCAAGCTCCTAGATAGCATCTTCTTCCAATAGAAGAGTGTTTCATCTACACTGAAAATCTCTTGTGTTTAACATAGCCAC
Celera SNP ID:            hCV27921411
SNP Position Genomic:     413235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23408):
TTTATGGGCATATTGTATGTATAATAACAGGAGTCAAATCCTCCCCCATCCCTGAAAGGACTTATGTCTTAGTGGATTTTAAGAGAGAGGGAAATAACAT
S
CAAATGGGCCAAATGTACAAAGAACACACTGTGGGCAGCTTTCTAATTACAAGAAGAAAGCACGACTAAACAGTTGAGTCTTATGGTGGTCCCAAAGGGA
Celera SNP ID:            hCV8020425
SNP Position Genomic:     323846
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23409):
GTCAGATATATTCCTAGATATTTTATTTTTGTGTATTTTTGTGTTGCTATTGTAAATGGCATTGCATTCTTGATTTGGCCCTCAGCTTGAAGGTTATTGA
Y
ATACAGAAATGTTACTGATTTTGTACATTGATTCTGTATCCTGAAACTTTACTGAAGTCATTTATCAATTCCAGGAGCCTTTTGGAAGTCTTTAGGGTTT
Celera SNP ID:            hCV27921412
SNP Position Genomic:     369356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23410):
CCTCCAGAACTACTGCTCCGCCTAGTGGCAGCCTTCAAGCCTTCATCTACCAATTTTATGGGCATATTGTATGTATAATAACAGGAGTCAAATCCTCCCC
Y
ATCCCTGAAAGGACTTATGTCTTAGTGGATTTTAAGAGAGAGGGAAATAACATCCAAATGGGCCAAATGTACAAAGAACACACTGTGGGCAGCTTTCTAA
Celera SNP ID:            hCV8020426
SNP Position Genomic:     323792
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23411):
CTGTTACATTACTTCTAACAGGAACTATAATCCAAAAGCTGTACTGTGGGTACAATGAGGTCTGAAGGAACCGTGCAAAAATGATTCTTGTAATGCTTCT
K
TTTCTGTGTCTGACTATCTTGGAGGGGCTTCACTTCTCATATTGGGCCTGATAAATTGAAACGCTTGCCTTTATTTCGGTTTCCTTATTTTTTCTTCAAT
Celera SNP ID:            hCV27921413
SNP Position Genomic:     339507
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23412):
TGTCTGGCTTCAGCAGCTCCCTGCGGACCTCCTCCACCGGGGACGCCGGGGGAGGCTCTCGAAGGCCACACCGCAAGCCCACCATCCTGCGCAAGATCTC
R
GCGGCCCAGCAGCTCTCAGCCTCGGAGGTGGTCACCCACCTGGGGCAGACGGTGGCCCTGGCCAGCGGGACACTGAGTGTTCTTCTGCACTGTGAGGCCA
Celera SNP ID:            hCV27921414
SNP Position Genomic:     310176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:23413):
TTGCTTTGAAGGTAACCAAATGAGTATTTATTATGTATTTATTTAGTGTGCCAGCACTATGCTGAATACTGAAGAGAGAACTATGAATGAGATAATAATT
K
ATAATCTCACTGAAGAAATGAGACACTGTTGATTGAAAAAGGCTTCGTAGTGGAGTTTTAACAACTAGATCAGGAAACAGACAGATTCTTGTGTAGTATA
Celera SNP ID:            hCV8020427
SNP Position Genomic:     322042
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,5)   total(G,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23414):
CACAATAGCAAAGACATGGAATCAACCTAAATGCCCATCAATGATAGACTGGATAAAGGAAATGTGGTAAAGAAACACCATGGAATATTATGCAGCCACA
R
AAAAGAATGAGATTATGTCCTTTGCAGGGACATGAATGGAGCTGGAGGCCATTATCCTTAACAAACTGACACAAGAACAAAAACAAAAAACAAACAAACA
Celera SNP ID:            hCV8021088
SNP Position Genomic:     146223
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23415):
CTGAGTACTTGATGAAAGCTAGAGGGAACCTCTTGCTAGAAAAAAGCCAATAAACACAAAACTTTTGCTTATACTGTTAAGGATTAACACCCCAGCACCA
Y
CCCCAGTGGAACCCTAGGGATCCAAAGACCCCCAAGTTAAGAGCCTTTGTTCTAAAGTGACCTCCATGGGATGCGTATCCTCTTGTTTTACTGAAATAGC
Celera SNP ID:            hCV2008526
SNP Position Genomic:     437476
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23416):
TCTCAAAAAGTAATCTGGGGTCCAGCAGCATCAACGTCAGCCTGGTTCCTGTGAGAAATGAATATCAAGTTTCATCTTTGGCCTGCAGAATCAAAATCTT
C
AGTTTAACAAGATCTCCAGGTGACTCGTATGCACATTAAAGGCTGAGAAGCTCTGTTCTATCAGATGGTCCTTCCTTTCCCAGCCTGGGTCACTGAGTTA
Celera SNP ID:            hCV7995496
SNP Position Genomic:     82623
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,8)   total(C,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23417):
GACATAGGAACTGGCAAAGATTTCATGATGAAGACGCCAAAACCAACAGAAGCAAAAATTGACAAATGGGATCTAATTAAGCTAACAAACTTCTACACAG
Y
GAAAGAAACTATCATCAGAGTGAACAGACAACCTACAGAATTGGAGAAAATATTTGCAAACTATGCATCTGACAAAGGTCTAACATCCAGCATCTATAAG
Celera SNP ID:            hCV8021090
SNP Position Genomic:     145586
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23418):
CAGGCACTTTTCTGTGTCCTTTAAATACATTAGCTTATACAGAACTCTCACAACAACCCTAGGTAGGTACTATCATTCTCATTTTATAAATGAGGAAACT
R
TCACTGAGAAGTTAAGTAAATTACTTGCCCAAGGCTACAGAGCTGCTAAGTGGCAAAGCGGGGATTTGATCCCATCATTAATGGCTCCGGAGTCTGTCCT
Celera SNP ID:            hCV8020434
SNP Position Genomic:     321789
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23419):
CTGGACATAGGAACTGGCAAAGATTTCATGATGAAGACGCCAAAACCAACAGAAGCAAAAATTGACAAATGGGATCTAATTAAGCTAACAAACTTCTACA
Y
AGCGAAAGAAACTATCATCAGAGTGAACAGACAACCTACAGAATTGGAGAAAATATTTGCAAACTATGCATCTGACAAAGGTCTAACATCCAGCATCTAT
Celera SNP ID:            hCV8021091
SNP Position Genomic:     145583
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23420):
CAAAAGAAAAGTATTGAGTGTCAACACAGTGGTCGCAGAAATGACCATCATGAATCATGCAGGTGAAGAGCACTGGAGGATAGTAGACAACCAGTGGCAA
M
CAGACAGTACTAGTGAGGCTTAGAGTCAGGCACTATCTATTCCCTGAAATGCTAGGGGATCTCCAGAGATCCCCCTAGCAGTTAGTTTACTCTTCCTGGA
Celera SNP ID:            hCV8020435
SNP Position Genomic:     319818
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,3)      total(A,3|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23421):
TAAATGATTATATTTCCCAGAAAGTTTTGTACAGTGTTCCAAAGTGGTGCTGAATAGGAGATGAATTAAGGCATATTTGGAAGTCTTTAACTTGGGCAAC
W
CAGAGTATCAGCAGATGGAAACTTCTCAGAATGGAAGTGAAGATCAGATGGGAAATTCCTCCAGGGTCAATTTCAGAACCATAGTTGTGAATAATTCTCT
Celera SNP ID:            hCV8020436
SNP Position Genomic:     319390
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,7)      total(A,3|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23422):
TGATACCAAAACCTGGCAGAGAGAGACACAACAAAAAAAGAAAACTTCAGATCAATATCCTTGATGAATATTGATGCAAAGATCCTCAACAAAATACTGG
M
AAACCCAATTTAGCATCACTTCAAAAAGCTAATTTAGCATGAGCAACTAGGCTTTATCCCAGAGATGCAAGGTTGATTCAATGTATGCAAGTCAATAAAT
Celera SNP ID:            hCV11780454
SNP Position Genomic:     118412
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23423):
CCAACACAAGACAAAGATGCCTTCTCTCACCACTCCTATTCAACATCATATTGGAAGTGCTGGCCAGAGCAATCAGGCAAGAGAAAAAGATAAAAAGCAT
S
CAAATAGGAAGAAAGGAAGTCACACTATCTCTGTTTGCAGACAACATGATTCTCTGTCTAGAAAACCACATGGGCTCAACCCAAAAGCTCCTTAAACCAA
Celera SNP ID:            hCV11780456
SNP Position Genomic:     118817
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23424):
AATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTATCAACAGAGTAAACAGATAACCCTACAGAATGGGTGAAAATATTTGCAAACTATGCAACTGA
M
AAACGTCTATTATCCAGCATGTATAAGGAACTTAAACAAGTTTATAAAACAAACCACCCCAAGAAACCCCATTAAAAAGTGAGTAAAGGGCATGAACAGG
Celera SNP ID:            hCV11780457
SNP Position Genomic:     119901
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23425):
CTATCAACAGAGTAAACAGATAACCCTACAGAATGGGTGAAAATATTTGCAAACTATGCAACTGACAAACGTCTATTATCCAGCATGTATAAGGAACTTA
M
ACAAGTTTATAAAACAAACCACCCCAAGAAACCCCATTAAAAAGTGAGTAAAGGGCATGAACAGGCACATTTCAAAAGATGACATACATGCAGCCAACAA
Celera SNP ID:            hCV11780458
SNP Position Genomic:     119936
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,7)   total(A,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23426):
CTTGGTTATACACACCTAGGAGTGAAATTTCTGGGTTGTTTGGCGCATTTATGTTTACTATTGAAGAAAGTGCCAACTATGTTTCAAAGAGACTGCACCA
Y
TTTACATTTCCACCAGCAATGTAGGATAGTTCAGTTTCTCCATATTCTCACCAACAGTTGTTTTCATCTATCATTTTAATTACAGCCAGCCTCATGAGCG
Celera SNP ID:            hCV27992022
SNP Position Genomic:     335243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23427):
TTATTTGAGGAACATCTAGGTAGTTGTTCAAAGAGTTGGGTTAGCAAGGTTTCTAGGAAAACAGCGTGATGGAGAATTATCAGCCTAAATCCAGGCATCA
Y
GAGGGGATGTTGATATTCTACTGACATTCTTTGCTATCATCTCTGAGCTGATAGGAAAGTGAAATCTGTAGCCTCTAAATGATTATATTTCCCAGAAAGT
Celera SNP ID:            hCV8020440
SNP Position Genomic:     319214
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23428):
AGAGTATAACACCCCTAGCCAAAGAACCTGGTAAATTTTCCTTCTCTACATCTAATACCAGGAGGCTTACGTAATATGGACAAATATATGTTCAGTATTC
Y
TACGTCTAAATCCAGTTCTAGAAACAATACCTGGAAGGGCAGTGCTGACTTCCTTGTAGAAGAGCCAGATTCTCCAAAATTGGCACTGCACATTGGATTA
Celera SNP ID:            hCV8020441
SNP Position Genomic:     318213
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23429):
TATCTAAAAGAGCACCGCTCATCATTGTCTATCCTTTTAACTCTATTTAGATAATTTTATTCTCTGATATGTTACATAAATATTTGTTGATTGCCTTTCC
R
CAAGGCTAAAGACTTTCTTTACGGCTGTATGCCCAGTAACCGGCACCAAACGTACTAAATAATAGTGAATGAATTAACAAATGAATGGAGCAAGGCAACA
Celera SNP ID:            hCV8020442
SNP Position Genomic:     314948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23430):
AGGCTTGACTAAGCTTTTCAATGCACGTTAATGGCATGTGGTAAGGAAAAATAAGACATTTCCCTTTCTGACCTTTGACATCACAATTTTTCCATTTTTG
Y
TGGCTGTTCAATAAGAAATACGGCTGGAGCTTAGTTTTCTCTATCTTTCAAGTTCTGTTTAAGAAAAGAGTGAATGTATCTGCACAGATCATGCAGGAGG
Celera SNP ID:            hCV8020446
SNP Position Genomic:     313876
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23431):
CTTTGGCCCTTTTAATTTTTACCTTAATGGGCATTGAGAGTCTAACTCCAATGGCTTTAAGATGGAGAAGGTTCAGTGGAATCTTGATAGAAACAGAGAC
K
TGGCAGCCAGGTGCAAAGAACACTAAAGCACTGGGCCTAGGCAAGCAGAGGGAAAGTCCTGGATTCTCCATCATCCAGGACATCGTTGTGGGGGAGGGTA
Celera SNP ID:            hCV8020447
SNP Position Genomic:     313590
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23432):
TCTTGAAATAGCACTTAGGAAACACACTTTGGCCCTTTTAATTTTTACCTTAATGGGCATTGAGAGTCTAACTCCAATGGCTTTAAGATGGAGAAGGTTC
R
GTGGAATCTTGATAGAAACAGAGACGTGGCAGCCAGGTGCAAAGAACACTAAAGCACTGGGCCTAGGCAAGCAGAGGGAAAGTCCTGGATTCTCCATCAT
Celera SNP ID:            hCV8020448
SNP Position Genomic:     313564
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23433):
AACTAGCTCTGTGGCCTAGGGCGAGGTGTCTGCCCTTTATGTTTCCACATCTGCAAAGTGAACTGGTTGTACCTGATGATCTGAGATCCCATGACTTGCT
Y
ACATGTCCCATGATTCTTTATTTTGTAGGCAGAAGCATTAAACAGCTACTCCTGCTGCTGTGTGCTAATCATTCCTGTAATTTCTGTTCTGCTTATTTGC
Celera SNP ID:            hCV25957719
SNP Position Genomic:     255930
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,33|T,1)   total(C,65|T,3)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:23434):
AATAGTAGGTCTTAAAGTAACAACTAATTTTAATTAATCTAATAGTTACTCAAAATCAACAGATTAAGATATGTCAAGTATGATTATCCTGATATCCCTG
S
AAACAATTTTCCACTTGGACCAAAGTAAGAACATTTTATCTGATATAAAGTATTCCACATTTTAAAAATAATTGAGTTAGAAGATTTTGGCATCTTGAAG
Celera SNP ID:            hCV11259202
SNP Position Genomic:     151974
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23435):
CACTAGTGGTATCTAAACAATGAAAACACTATTAATTTGGTAAGTTTCAGGGTGCTATTTTGCCTTTCTTTAAATTTTTCTTGGAGCTTCTTACTTTTTT
R
TTACCTGAGATTAAAATATTGCAAAATAAGCAACACTGTGCAGTGATTCTGGATGAGGATGAGGTCAGACCACTGCATCCAGCTGACACCTCATAGTGGA
Celera SNP ID:            hCV11259203
SNP Position Genomic:     150494
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23436):
CTATTATTTTGGTACTTTAATTATGGTGCTCCCGAGTGGTTTTTGATTTATTCATTTATTACACAAATATTCATTGTCTACTATAAAGAACACATTATTG
S
ATACATTTTCTAAAAGATCCAGTAGATTCTCTGACTCTTACAACTGCTTATGTGTTCCTATTTTCTAGGAAGCTCAAATCCAGATGTGACCTCCCCCCAC
Celera SNP ID:            hCV11259204
SNP Position Genomic:     149268
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23437):
TATAGACTCATAGAATGTTAGAATTAGAGAAGAATTAGTATATTTGGGTTGTCTGCCCTGTGCCAGGCATGGTACCTTATGACCTTTTGCCCCAAACTCA
Y
TCAATTCTCACCACTACCTTGAAAATTGGGCATTACCTTAATTATACAGATAAGGAAATTGGAACATTTAAAGACATGAAATGCCTTATTTAGGCTATAC
Celera SNP ID:            hCV8004412
SNP Position Genomic:     77897
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23438):
AAATGTGACTGGTTTTTACTTAACAGCATGTCTATGAGATGTTTTCATAATAGTAGGTAGAGGTCTATATTACCTTTTTTAACAGCTGATTACTGTTCCT
R
AATGCATTTAACTATCCCCCAACTGAAAATTATTTGGGATTTTTCTTTTTATTTTACTCTTTTAAGCATTCCAATGTGTGTTGTGACTTTCCAAGTGGAC
Celera SNP ID:            hCV8020452
SNP Position Genomic:     313281
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23439):
AGGGAAAAGATGGAAATTAACATCTTCCTACTTCCTCCTAAAAAGCTGTGGAACGAGACAGGGCAATGGGAAGGGGTCATCAGGACTCTGCTCAGCCTTT
K
CCTGCAGGGAGAACATTGAGCCCCTGGATTAGAGGTCCTGACAATTTCTTTGAGTGTTGGAGACTTTTTATGAAATCCAAGGCCCATGGCCCATCTAGGT
Celera SNP ID:            hCV8020453
SNP Position Genomic:     312487
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23440):
TTACTAAAGGTTGTATTTATTATGTGGCAGAGCTACGATATGCAACAAAAAGAACTTCCTTATGGGTAGTCACTTTAAAGAATCACGGAATCATAGTCCT
Y
TAGTCTAGATTCCTCATTTTAACCTTCTATCTTCTCAGAATCCAAGCATAATGCTCTTTTCATTAAGTCTATATCTAAATGCTATTGTTTGACTAATAGT
Celera SNP ID:            hCV8020454
SNP Position Genomic:     311321
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23441):
ATCTTTACAGGGGCCCTGGCAATGAAGATGGTTGTCATTAATTGATTAGTGACTATCTGCCAGGCAAATGTAAACTCTTTATGTGTTTTATCTCACTGAA
W
AGAAGTGGATACAATTTTTATCCACACCTTATAGAACAGGAAATACATAAAGTTAAGTAATTTACTAAAGGTTGTATTTATTATGTGGCAGAGCTACGAT
Celera SNP ID:            hCV8020458
SNP Position Genomic:     311159
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23442):
TTAGTTCTGATTGTGGTGGCAGCTTGATGGTCCACAGCCGGGAATGAGGTCCTCCCGAAAAACACAGGCAGTAAAGGATGGCCCCGGCCAAAATAAACCC
Y
GAAGAATACTTTCTCTCCCGTCCTCCGGCACCTTCGTCTCTCCTTCTCTTCTCCACTCTGGCTCTTTCCTTTGCCCCTCTCTCCTGGCTGCATCTCACTC
Celera SNP ID:            hCV8020459
SNP Position Genomic:     309057
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23443):
GGAGCTACCCAAGACCGTGGGGACCCACCTCTTGCATCAGAGTGATCCAGATATGAGACAGGAGTCAAAGGAAATCACTTTGGGGCTTTAAGATTTGACT
S
CCCTGGTGGATTTTGGACTTGAGTAGGGCCTGTAGTCCCTTTGTTTTGGCCAATTTCTCCCATTTGGAATGGCTGTATTTACCAAATGCCTGTATCCCCA
Celera SNP ID:            hCV11259213
SNP Position Genomic:     116506
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23444):
CCACAGGGGTGGGGCTGTCATGGAGAACCTCTGCTAGGGCAGTGCAGAAGGGAAATGTGAGGTCGGAGCCTCCACACAGAGTGCCTACTGGAACACCACC
K
AGGAAAGCTGTGAGACAAGGGCCACCATCCTCCAGACGCAGAATGGTAGATCCACTGACAGCTTGCACTGTGTGCCTGGATAAGCTGCAGTCACTCAACA
Celera SNP ID:            hCV11259215
SNP Position Genomic:     116251
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23445):
TTGCCACAGGGGTGGGGCTGTCATGGAGAACCTCTGCTAGGGCAGTGCAGAAGGGAAATGTGAGGTCGGAGCCTCCACACAGAGTGCCTACTGGAACACC
W
CCTAGGAAAGCTGTGAGACAAGGGCCACCATCCTCCAGACGCAGAATGGTAGATCCACTGACAGCTTGCACTGTGTGCCTGGATAAGCTGCAGTCACTCA
Celera SNP ID:            hCV11259216
SNP Position Genomic:     116248
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23446):
CTAGGCTGTCAGTATTTCTGCTGGTATGAAATTCTCAGAAATCACGTCAGTCTTTCTTGCAATTAACAGGTATCCAAGCCATCAAACAAGGGGGTCCTCT
R
CAGTTCTTTTCTGAATAACTGCATCTCTATTCCTGGCTTCTGCTAAGATGTTTGAGGGATTCATGGGTCACATGCCTAATTTCTTTAGCAAATGGTTATC
Celera SNP ID:            hCV11259217
SNP Position Genomic:     114762
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23447):
CCCAGGCTTCTGCATCTGTGCCTCAGACCTAAGAGTCATTCTTCTTTCACTTTGTCCCATCTCTGAGACATTTATTCTAGGCTGTCAGTATTTCTGCTGG
Y
ATGAAATTCTCAGAAATCACGTCAGTCTTTCTTGCAATTAACAGGTATCCAAGCCATCAAACAAGGGGGTCCTCTACAGTTCTTTTCTGAATAACTGCAT
Celera SNP ID:            hCV11259218
SNP Position Genomic:     114686
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23448):
CGGTGATAATGTAACTGATAATATTCATACATCAGTAAAGCCAAAAAGTATAAATTTAGAATGTTCCTGTTATTTAGTTTTCTCAAATTAGCATCCTTGA
R
TATTTTATAGAGGTGAGCCAAAACATGTGTCTCACAAAACTGATAAGAAACAAAGGGGAATTTTCATATTGTCTCAGTGATGTGTATGTCAGCTTGAGGT
Celera SNP ID:            hCV16154324
SNP Position Genomic:     38356
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23449):
AGCTCACTTGGGTGATGCTGACTGACAAGCAATCACCTATATTATTGTCTTGTGGATTGATGGCTAATGCCAAGCATCTACTTTCCTTGACTCAGTATGA
R
TAGGAATGCCTACTTGGCCAACCCGTAATTTCCCTCAATATTGCCATGATCAGTTGTTATATTGAGACCCACTCAGCTAGAGCTAACTCCTATTATTAAT
Celera SNP ID:            hCV8004422
SNP Position Genomic:     77431
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23450):
GAACTCTGCATCTCAGCTTCTAGGAGCAACAAGGCCCAGCAGGGAGACATTGGGTTGCCCACTGCATCTCATTAGTTCTGATTGTGGTGGCAGCTTGATG
K
TCCACAGCCGGGAATGAGGTCCTCCCGAAAAACACAGGCAGTAAAGGATGGCCCCGGCCAAAATAAACCCCGAAGAATACTTTCTCTCCCGTCCTCCGGC
Celera SNP ID:            hCV8020460
SNP Position Genomic:     308986
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23451):
ATGGAGGGCTGCAGGCAGGAGAGCTCAGCTGGAGACGGAAAAGGAATCTTAATTACACGTGGCCAGGCTAAATTCTCCTCTCCACTGGAAAAACAGTTTG
M
AGGGGGGTAGAGCAAAGTTCACTTGCTGGCATACAGAGATCTGGAAGCTGGAGGCAGTGTATTACTAATGATGTCTAATGTTATCCACTCTGGGGTTTTA
Celera SNP ID:            hCV8020467
SNP Position Genomic:     308552
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|C,6)      total(A,6|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23452):
TATGTGCATTTGGCCTTTCTTTCTCCACCAGTGTTCCACAAGCTGCGGGGAAGGCACCCAGACTCGAAGCGCCATTTGCCGAAAGATGCTGAAAACCGGC
M
TCTCAACGGTTGTCAATTCCACCCTGTGCCCGCCCCTGCCTTTCTCTTCCTCCATCAGGCCCTGTATGCTGGCAACCTGTGCAAGTAAGTATGTCAGGGC
Celera SNP ID:            hCV8020468
SNP Position Genomic:     308246
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|A,7)      total(A,7|C,4) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:23453):
TCTGTTTTCTAAAGAGGCTGTATCATTTTACTTTCCCACCAGTAATGAGTGAAACTGCTAATTTTCCATATCCTCACCAACACTTGTTGTCTTTTTTTTT
T
ATTATTATTATGGCCATTCTAGTGGATATGAAGTTGTATCTCATGGTGGTTTTGACTTATATTTCCCAAATGGACTATTTCATTTTAACAATGCATTTGG
Celera SNP ID:            hCV8020469
SNP Position Genomic:     307494
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23454):
TGTTTCTCTAGGCCCTAATTCAGTTTGGCTCAGCTATGACCTCGACTGTGTGCATAGCACCGTGTCTAACTGCCTTTGGGCTCCCTCAGTCTCACATGTT
K
CTAAGTTACCTCAAACTCCAAAGGTCTAACACCAAGCTTAATACATACCTGCCTGCCACCCCTTCCCCCATTAACCTGGTCTTTCATCATTGATCATTAT
Celera SNP ID:            hCV27948606
SNP Position Genomic:     292467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23455):
AATCACTATAAGAACTACTTACCTTGAAAAAACTGTTCAATGAATGAAGATTAATTGTATCTTTTTTTAAAGTTAGTATAGGGACATAAACAGAAAGAAA
Y
AGGTACTTTTGTTATCCAGTAATTTTACTTAATTGAATGAATCATAGTCACCCTCCTAGAAATTCAGAGAATAAAAACATCTCCTGTTTGCTCAGGAATG
Celera SNP ID:            hCV2950186
SNP Position Genomic:     420038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   TSC_42_C(C,31|T,43)   TSC_42_AA(C,20|T,62)   total(C,51|T,105) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23456):
ATAATGGCTCTGTTTTCTTGGATTTCAATGCCCCCGGGAGTTTTTAAACACCTCTTGCCTGCTTCCTAAGTGGCTCTGCTCCTGTGGGTTGGAAATCTGC
R
TTCAGTCATCCCTCCACAAGGCAAAAGAGCAGGGAAGTGGCCACAAAACTAAGTAAGTCACAGTCCAGATTTAGGAGGAATTTGCTCCCCTTCCCTGCTA
Celera SNP ID:            hCV2950187
SNP Position Genomic:     423490
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23457):
GTTTGCCTGCCAGGCATTTGGAACACTTAGTATCCTTCTTTGCATGTGAACAAGTGTTGCCCTGGTTGTCTCTTTCAGATACAACTGGGTAACCCCGCTG
Y
GACCCAGGTAGCTGTTTTTTAACCATTTTGTTAGATAAATTTTCTCCATCACTAAAACCAAAGAGTGGGATTTTTTTGTTCTAGATTACATGAGCAACAG
Celera SNP ID:            hCV2950188
SNP Position Genomic:     423760
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23458):
AGCAAACAGCCAATAAAGAAACAGCCATCTTTAAGATGATAGGAAATTTCCTGGTATTTTCGTTCATCCTTGCCCCACCCCCTCCCCCCATGTGGCATGG
W
TTTGATCTTAACAACGTGGCAGCCACTACTTGTGAAATCTGCAGAAGGAACACAGACCTGCAGACACCTGGGAAAAGAGATTATGGGTGGAGACTGACCC
Celera SNP ID:            hCV2950189
SNP Position Genomic:     427906
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,8)   total(A,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23459):
TGGACTGCTGAGGAAGGGACTTGTGTGTGTTATAATTGTCTTCCTGTGTTCCTGGAGTTTGTGGCCTTTGAAGCATATGAGACAGAGAAGATTCAGAAAA
Y
GTTCTTTTGTGCCTGCAGATTTGAGGGGGACCTTTGAGATTTTGGGACTAAGAAAAAGGTCCCATTGGTCCCATTAAGTACAGTAGGCCTTCAGAACAGT
Celera SNP ID:            hCV8020476
SNP Position Genomic:     304806
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23460):
CTTTTAACGAGGCTGCAGGGACCTGAGTTACGCAGCCAGCCCTTACCCAACAATCGGAAGCTTGGAATTGTAAATGGGCTCCTCGTGGAACAAAACCAGA
S
CTCATTGGTGCTGTTTTGGCCCCAGGATTCTTTTCCACACACTGGGTTCTTCTCCTTCTATCTCCACACCACCCCCTCCTCCTGACCTCCCTGTACCTCT
Celera SNP ID:            hCV8020477
SNP Position Genomic:     303472
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23461):
AAGCCCTGGAGACACAATAGAATTATCTGGGGAAAAATTACTTGGAAGAAGATTATACCGATATCTTTCTTAAAAACAAAACAAAAACTGGTACCTGGGA
S
CCACATCCCAGAATATCTGATTTGATGGGTCTGAAGTGAGGCCCAGGCATCGGTACTTTTTAAAAGCTCCCCAGGAGACCTTGAGGTGCATGCAAGGTTG
Celera SNP ID:            hCV8020478
SNP Position Genomic:     301434
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23462):
CCATCCATTCATCAATGTCTACTCTAGGTAGGGAATTAGTAAGGTGAAAAAGGGTTTGTATGTTTGTCATGTCTTTGCCATCTTTATTTTCAGGTCCACT
K
TTTGGATTAGGATTACCAGTCTAGTTTTTGGAGCAAGCAGTTGCTATTGTTTTTCTGTGTGCTGTATTTGACTATATGCTTTTATATTTCATGAAGCAGA
Celera SNP ID:            hCV11259237
SNP Position Genomic:     107638
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23463):
TAGGATTTCTTATTAAAAAAGTGCAATATTAATAATTGTACATTGTCATCCAGAAACAAAACTATTGGGGGGACTTTATTAACTAACTTCCTGCAGTTGT
K
TTCCTGTAAACTCAGTAGTGATTATTATATTTTTCCTATTTTTAATAGAACCTGGTGTTTAACTCTGGATCCATTCACTGTACAGGATGTGTTGTAAAAA
Celera SNP ID:            hCV11263112
SNP Position Genomic:     442886
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,11)   total(G,1|-,11|T,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:23464):
CAGTTAAATCTTTAAAACAGGATTACAAAAAGGTTTGATTTCTGGTATCCATCCATTCATCAATGTCTACTCTAGGTAGGGAATTAGTAAGGTGAAAAAG
R
GTTTGTATGTTTGTCATGTCTTTGCCATCTTTATTTTCAGGTCCACTTTTTGGATTAGGATTACCAGTCTAGTTTTTGGAGCAAGCAGTTGCTATTGTTT
Celera SNP ID:            hCV11259238
SNP Position Genomic:     107590
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23465):
TTAACTTATCAACATCAACCCATTAACTAGTCACTGTGCCAGAGAGTATCTGTCAGGCTGTCAGGCTGTCAGGTTGTAGCAACCTCTTCATTCCAGAGCT
R
GCCCAGGGACCGGGGTGGGACAATGGGTTTATGCGTGTCCACAGTACACCCTCCCTCTCCCAGCCTCCACCCCAGGGTCTGCAGGTCCTCCGGCATGTAG
Celera SNP ID:            hCV11263113
SNP Position Genomic:     442167
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:23466):
GCTACTTTACTATAATTTCCATTGTATTGAAAATTCAGACACACTGTAGAGAAAGTCATGGAAGAGCCAGCTAGGTTGGACTTAAGCCAGTTAAATCTTT
M
AAACAGGATTACAAAAAGGTTTGATTTCTGGTATCCATCCATTCATCAATGTCTACTCTAGGTAGGGAATTAGTAAGGTGAAAAAGGGTTTGTATGTTTG
Celera SNP ID:            hCV11259239
SNP Position Genomic:     107503
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23467):
TGAGGCTCATGGACCAGCTCTGATCCCATGCATGTGCGCATGCTCAGAGCCCTGCTGCCCACAACAGAGCACTGCGCTGCGTGGGAGTCCCCACTTCCCA
R
GCTATCAGAGTCAACGTCCTGCCTGTGCAGCTGCAGCAAAGCCAGTGAGAGGTGGGTCTCGCCATGCAGTAAGGCCACCCTGGCACCTCTTTATCTAAAT
Celera SNP ID:            hCV11263115
SNP Position Genomic:     441841
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:23468):
TTAAGATGATAGGAAATTTCCTGGTATTTTCGTTCATCCTTGCCCCACCCCCTCCCCCCATGTGGCATGGTTTTGATCTTAACAACGTGGCAGCCACTAC
K
TGTGAAATCTGCAGAAGGAACACAGACCTGCAGACACCTGGGAAAAGAGATTATGGGTGGAGACTGACCCTCTATGCAACTGACGCTCTAAAGTCCCAAG
Celera SNP ID:            hCV2950190
SNP Position Genomic:     427936
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23469):
AAATAGCCCACTTCTTTTTACACGCTGGGGGATGGATGATCTTTGTACTCGGGTAGTGTTAACCCATGTTTGTGTCAGTGGCTCACCATGCTCAGAGAGC
R
CCAATATTCAACGCACATAGTTAAAACTTACCAAACCAAGTCAGCACAATATTTAAGACCATCTAGTCTGTGCCGACACTGAACTAGAACGTCCTGGTGC
Celera SNP ID:            hCV8769242
SNP Position Genomic:     440225
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23470):
TTAGGATTTCTTATTAAAAAAGTGCAATATTAATAATTGTACATTGTCATCCAGAAACAAAACTATTGGGGGGACTTTATTAACTAACTTCCTGCAGTTG
T
GTTCCTGTAAACTCAGTAGTGATTATTATATTTTTCCTATTTTTAATAGAACCTGGTGTTTAACTCTGGATCCATTCACTGTACAGGATGTGTTGTAAAA
Celera SNP ID:            hCV1814954
SNP Position Genomic:     442885
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,11)   total(-,11|T,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:23471):
TCAGAGGTACTTACCCATGAGAAAGGTGGCAAAGCTTGAGGCAAAGAGTAGGAAGTAAAAACCAAATGTAGCTGTGCAGTTTTCTCCCCAACTGGGCCTC
M
CTGAGCAATAAATTCCCAACACTAAGGCAGACGCCATGTAGGCAAATAGCCCACTTCTTTTTACACGCTGGGGGATGGATGATCTTTGTACTCGGGTAGT
Celera SNP ID:            hCV8769243
SNP Position Genomic:     440081
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,3)      total(A,3|C,1) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23472):
ATGCCAGAAACTATGCTAGGTACTTCACATGTGTTCTCTCTGTTAATCACCATATTATGAGAAGTATCAATGTTCCCCCCACCCCCTTTTTTTTTTTTTT
K
GAGATGGGATTTTACTCTTGTTGCCCAGGCTGGAGTGCATTGGCCCGATCTCAGCTCACTGCAACCTTCACCTCCTGGGTTCAAGCGATTCTTGTGTCCC
Celera SNP ID:            hCV26078542
SNP Position Genomic:     30323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23473):
CAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCACTTTTCCTTTGTAAAATACATGAATTACC
A
GCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAGAAGATTATTATCACAGAAAAAGAGAAACAG
Celera SNP ID:            hCV26078547
SNP Position Genomic:     29330
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23474):
TCAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCACTTTTCCTTTGTAAAATACATGAATTAC
C
AGCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAGAAGATTATTATCACAGAAAAAGAGAAACA
Celera SNP ID:            hCV26078548
SNP Position Genomic:     29329
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23475):
TTCAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCACTTTTCCTTTGTAAAATACATGAATTA
C
CAGCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAGAAGATTATTATCACAGAAAAAGAGAAAC
Celera SNP ID:            hCV26078549
SNP Position Genomic:     29328
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23476):
GAGTAGGCATAGGGGAGAGGTCAGAGCTTAAAATTAAAATTTTTGATTTATCAGCACAAACTTGTTTCTTTCCAACAATTGTGGTTTCAGAAAAATTACA
R
TAAGTTCATGGAAGAATCTTAGTAATTCACAGAATGGAAAGTATTGTGGAGAATATAGTCCCCAAATTTGGCAAATCCTTAGGAGTCAGTAATCCACGTG
Celera SNP ID:            hCV8020485
SNP Position Genomic:     299737
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23477):
TTTGAGGTTTAGGAGATAATAATTTTATGAACCAGCTATTATTTCTCTCAGAGAAAAAAAATACACTGCATTTTCAACAGTGTAAATATTTATGAATCAT
T
ATCAAAACACCATATACTCCCAGAACTTATTGTAAAATGTCACTCCACTGTTCAGCTCATACCCTGACCACTTCCTTACTGGGAAACAAACAAATAATTA
Celera SNP ID:            hCV8020486
SNP Position Genomic:     297941
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,6)   total(T,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23478):
ATCTTTCCTGACCTACCCAGCTGAAAAACAGAAATTTCCCTCATACTATATAACCTCCCCTAAGATAGACATTGCTCTCATGTTAAAGTCAGATGGGACA
Y
GTCTTTTCTAAGTCACTTGATGAAGGCTTGATTTGTACACTGATATAACAAAATTGGGAGCAGGCTCTCCTATCTTTCAGAGTCTGCATGCATTCTGCAT
Celera SNP ID:            hCV8004449
SNP Position Genomic:     73790
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23479):
TGTGTGTGTGTGTGTGTGTGTGTATTTAGAGACTGGATTTTCATTGACTCAGTTTCAGAATAAATCAGGTAAGACCAATTCTAAAATCCCCAAGTAAACT
S
TAGGAAAACTTGCTACTTTACTATAATTTCCATTGTATTGAAAATTCAGACACACTGTAGAGAAAGTCATGGAAGAGCCAGCTAGGTTGGACTTAAGCCA
Celera SNP ID:            hCV11259243
SNP Position Genomic:     107391
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;JBIC-allele(G,658|C,799)   total(G,658|C,799)
SNP Type:                 INTRON


Context             (SEQ ID NO:23480):
GTAAATTTTAATCTGAAGGCTTGTAGAATAAGATAAACCTATCAAAAAGCCCTTCCAAGGGATAGGCAATATTTGCCTTTTTAAAATTAAATCTTACCTG
Y
TTTTACTGAGATTTATTATTCATTAGATAATGGCCATTGTTAGCCATAGTTTTACATTTTAAATTGCCCTTTATGAAACTTACATCAAAAAGATTCTTAT
Celera SNP ID:            hCV11259246
SNP Position Genomic:     105714
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23481):
AATCCTTCTTCCCCTTAATTTTTAAACATGTGTATTTCAAGGGAAATTTGATTCATATGTTTCTGATTCATTTACACTTAAATCATCAAAATGTTATTTT
T
GTAAAAGCTATTTGATGTCCAAGAAGCTTTCTGAACCTGTTTTATAAGTTTTCTTAAGTCCTTTTTCTTAAAACAGGAAGTTGCATTTTGCCAAGTACAA
Celera SNP ID:            hCV11259247
SNP Position Genomic:     103288
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23482):
ATTGTTCTTACTGATCTTACTTAGTTCAGCTGATCTAAGCTGGGTTTGGCTGGAGTGACTTGACTGTTCTCCACATTTCTCTCATCTTCCTCTTGGGATC
R
TCAGGCCAGTCCCGGCATGACTTTCTAATATAATGGCAAAGGCACAACAGCACAAGCAAAAGCTCCCAAGATCTCTTGTGGTCTAGGTTTGGAACTGGTA
Celera SNP ID:            hCV15851257
SNP Position Genomic:     415750
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23483):
TACAGTTCATAAGAATGAATGTATACAGAGTATCTTTTCCAACCACAGGGAAGGAAACTAGAAGTCAACAGCAGAAGTAAACTGGAAAATTCACAAATAC
R
TGGAAATCAAACAAAACACAAACAGTAAATCAGTCAGAAAAGAAATAACAAGGAAAATTAGAAAATACCTTAAGACAAGTGAAAACAAAACCACAACATA
Celera SNP ID:            hCV11263125
SNP Position Genomic:     434930
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23484):
AGTTGCATAGGCACCCACACATCCACAGAGGGTAGCCGCCTGTCTTAGTCCAGTCAGGCTGATATAACAGACATATAAAAACTAGTGGCTTATAAACAAA
C
AAAACAAATTTGTTTTTTACAGTTCTGGAGTCTGGCAAGTCCCAGGTCAGTGCAGCCGCAGATTTGATATCGGTGAGGGCTTGCTGTCTGCTTCATAGAT
Celera SNP ID:            hCV1814960
SNP Position Genomic:     418970
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23485):
TGCAGTGACTTCCTCAACACTGAAGTTTTGAACCCCTCAAAGTCATCCATGAGGGCTAGAATCAACCTCTCCCAAATTCCTGTTCATGTTGGTATTTTGA
Y
CTCCTCCCATGAATCATGAATGTCCTTAATGGCATCTAGAATGATGAATCCTTTCCAGAACATTTTCTATTTACTTTTCCCAGATCCATTTTAGAAATTA
Celera SNP ID:            hCV1814962
SNP Position Genomic:     412684
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23486):
ACACATGTTTCAGGGTTCCATGGGGGATATGATGCTGACCATTCTTTTGTTTCTCACAGAGTTCCAGGACCGCACGCTCCGAGGAGGACCGGGACGGCCT
R
TGGGATGCCTGGGGCCCATGGAGTGAATGCTCACGCACCTGCGGGGGTGGGGCCTCCTACTCTCTGAGGCGCTGCCTGAGCAGCAAGTAAGTCCTGCACC
Celera SNP ID:            hCV25960698
SNP Position Genomic:     36839
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,38)   total(A,72|G,4)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:23487):
TCCTCGTCATCCCAATACCATCATTTGTATTCCAGTTGGGAAGGAGTTTATTTTTTTCTTCCTCTGAACCCAAATCAGAGGTACTTACCCATGAGAAAGG
Y
GGCAAAGCTTGAGGCAAAGAGTAGGAAGTAAAAACCAAATGTAGCTGTGCAGTTTTCTCCCCAACTGGGCCTCACTGAGCAATAAATTCCCAACACTAAG
Celera SNP ID:            hCV8769252
SNP Position Genomic:     440007
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23488):
ATTGTGAGCTGGTGGTGGAGTTGAGCATTTTCAGTGGGGTGCATGGGTGTATGCAGAGAGGTGTATATAAGCATGACAGGGTATGCCCCAAGGGCTTCCA
Y
GATCTCCATCCTGGCCCTGAGAGAGCCAGGTGCTATTGGCCCAGTGCTGGAGGAAATCAGCCTCCAGTTCCCCTGCAGTCAGTCTGGCTGGTGCCCACAG
Celera SNP ID:            hCV8769253
SNP Position Genomic:     439578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23489):
CACCTCAGAAGTTAAGACCCACTGGCTTGGAATTCCAGCTGCCTGCCGAGTGCATCAGGCTGGAGACTGCCTGAGACAGATTAGTTCCTGGGGGAGGGGT
R
GCCACCATTTCTGTGCTTAGGTCAACCCAGCTGTTCTAGCCTGCCAGTTCCAGTGAGTCCTGGCAGCCCAGGTGAGGAGAAGTCCCTCACAACACACCTG
Celera SNP ID:            hCV8769254
SNP Position Genomic:     429461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23490):
CCTTCAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCACTTTTCCTTTGTAAAATACATGAAT
T
ACCAGCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAGAAGATTATTATCACAGAAAAAGAGAA
Celera SNP ID:            hCV26078550
SNP Position Genomic:     29326
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23491):
TCCTTCAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCACTTTTCCTTTGTAAAATACATGAA
T
TACCAGCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAGAAGATTATTATCACAGAAAAAGAGA
Celera SNP ID:            hCV26078551
SNP Position Genomic:     29325
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23492):
TGACTTCCTTCAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCACTTTTCCTTTGTAAAATAC
A
TGAATTACCAGCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAGAAGATTATTATCACAGAAAA
Celera SNP ID:            hCV26078552
SNP Position Genomic:     29320
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23493):
GGACTTTTGTACTTGCCGATCCCTCTGTTGAAGAAGCTCTTTCCTCAATATCATGGGCATTTTTATTATTCCACATTTCTCTTCCGCATTGCCCAGAAGA
Y
ATTCTCTATGAGGGCTCCACCCCTGCAGCAGACTTTTGCCTGGACATCCAGGCATTTTCATACATCCTCTGAAATCTAAGCAGAGGTTCCCAAACCTCAA
Celera SNP ID:            hCV72578
SNP Position Genomic:     67330
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23494):
ATGACTTCCTTCAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCACTTTTCCTTTGTAAAATA
C
ATGAATTACCAGCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAGAAGATTATTATCACAGAAA
Celera SNP ID:            hCV26078553
SNP Position Genomic:     29319
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23495):
TGGAGAGGACATAATGGGCAAGTTTGGAGGCAGGAATGTCTGAGCACTAGTTTCACCAGAGTTGAGTATAGCAGTATAAAAGAGAAGAATTGAAATATAT
Y
TTTGAGGTTATATCATAAAAAGATTCGAATGTTAGTCTTCAAAGTTTATATTAGTTCAGTGAATAATGGGAGTCACTAAGAGCAAGAGTATGATGTTACA
Celera SNP ID:            hCV72579
SNP Position Genomic:     66765
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23496):
GATGACTTCCTTCAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCACTTTTCCTTTGTAAAAT
A
CATGAATTACCAGCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAGAAGATTATTATCACAGAA
Celera SNP ID:            hCV26078554
SNP Position Genomic:     29318
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23497):
AGTGGCTCACGCCTGTAATTGCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAAGAGTTCAAGACAAGCCTGGCCAATATGGACAAACCC
S
ATTTCTACTAAAAATGCAAAAATTAGCTGGGCGTGGTAGCGGGTGCTTATAATTGCAGCTGCTAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCCAGA
Celera SNP ID:            hCV99729
SNP Position Genomic:     39982
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23498):
TGATGACTTCCTTCAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCACTTTTCCTTTGTAAAA
T
ACATGAATTACCAGCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAGAAGATTATTATCACAGA
Celera SNP ID:            hCV26078555
SNP Position Genomic:     29317
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23499):
TCTGCCAGTCTCAGGTGAAATATATCCAAGGCAGGAGAGGGATTTCTTAACCTCAGGTAGGAAGACTCTTAAGTGAGAAAGAAATTCTAATTGCAGGAAC
R
TTGATTTCTTCCTAATAAATGTGCCAAATCCCCCACCTACTAGAGAGGGCCTCCAAGAACCTGGCTGCTGCTTCACCCTGCCACAGACGCACTCTCTCCA
Celera SNP ID:            hCV8004450
SNP Position Genomic:     73541
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23500):
GTGATGACTTCCTTCAAAAACATGAAATAAATGAATTTTTTTAAATGACTGTAGTTTCTACAGGATACAGTTCTCCTGTTTTCCACTTTTCCTTTGTAAA
A
TACATGAATTACCAGCTTCAGGCTTCTACTCCTAATTGAGCACTCTCTAGGTCTAGAAGCTCAGCTATTATAGTTATTTTAAAGAAGATTATTATCACAG
Celera SNP ID:            hCV26078556
SNP Position Genomic:     29316
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23501):
TCTTCAAGAGGCCTTGGGATTCCTTCACTTCTAGTGATTGAGGGATGATTGTCACATGAAGAACTTGGTGCATGTCAAACTCTCATCACTTCCCAATAGG
S
TTTATTGGCACTATTAGTCCTATCGATACCAAAAGATCATATGGCTTCATTCTTTATATTCCAAAAAGCCAGAGTGGTAAGAAGTTTAGCTGAAAGATGT
Celera SNP ID:            hCV28018076
SNP Position Genomic:     270259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23502):
CTTGGCCCTGTTTCTTCAATATTCTTATTTTCCCCCTGCATCCGAGATGTTTAATCCACTTGTTAAATTAAGTAGCACAGAAATAGGGCTATTTTTAAAA
K
AATCTGAAGGCCAAATCCATCCATTTATCCTACATTATGGGCAATTAAGAAAATGGTAAGACTTGGCCAGGCACGGTGGCTCACGCCTGTTATCCCAGCA
Celera SNP ID:            hCV28018077
SNP Position Genomic:     188971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23503):
ACCATTTTTTATAAATCCCCAGCATCCAATACAGTGCCTAGCACTCAGTGGGTACTCAATAAATGTTTGGTGAAAGAATGAATGAGTGAATGAAGAAACA
M
GTGAAGTGAGTTGGAAGTTGTAAGCAGAGTGCAGAGTCCATTATGTTAAATGAAAAGTTGGCCTTACAAACAAAACATAAACATCACTTTGTGTTGGGTT
Celera SNP ID:            hCV8020495
SNP Position Genomic:     293535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,9)      total(A,9|C,4) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23504):
CATTAATTATTAGAGATGATCTGGCCATCATCTGGATAACTGGCTGACTTAGTATCCCCTCCCTCCCTTACCATGCCATGTGCATCTTTTCTGAAGCTGC
R
GACCCAAGGAAAGAGAATGACTTTCCCAGGTAGAAGAGTCCTCCTTAGTCATAGGTCCATTCTTCATTAGAACCTCCAACTCAGCTCTACCTGTTAAAGC
Celera SNP ID:            hCV28018078
SNP Position Genomic:     183974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23505):
ATTACATTGAGTCCACTCAGATCATCCAGGATAATCACTTAATTTTAAGGTGACCTGATTAGCAATCTTAATTCCATTAGCAACCTTAATTCCCCCTTGC
M
ACATAATATTACACATTCACAGATTTAAGGACATATTTGGCAGGGGAGAGGGATACATTAGTCTACTTACCACAGTGTGCTTTGTTCATCTTTTGCATAG
Celera SNP ID:            hCV28018079
SNP Position Genomic:     160491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23506):
CATAGCATCACTTCTGCCTCATTCTATTCATTAGAAGTGAGCCACTAAGTCTAGCCCATACTCAAGACTTCACCTTTGGAAGGAAGGCATGGCAAAGAAT
R
TATGGATGTATCTTAAAACCAATAACACCACAATGTTTTAAAGCTTATAATTAACTCAATCTAAGGGTTTAAAAATAAGAGAAGTTTATAGAAATTTACA
Celera SNP ID:            hCV8769400
SNP Position Genomic:     283852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23507):
CTATCATTAGAGAGAACAGACAACCTACAGAATAGGAGAAAAATTTTGCAATCTATCCATCTGACAAAGGTCTAAATCCAGTCAAGAGGAACTTAAAAAA
R
TTTACAAGAAAATAACTCCATTAAAAAGCAAGCAAAGGACATGAACAGACAGTTCTCAAAAGAAGACATTCATGTGGCCAACAGTCATATGAAAAAAAGC
Celera SNP ID:            hCV11263132
SNP Position Genomic:     432535
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23508):
TCCACACACCTTATACAAAAATTAACTCAAGATGGATTAAAGACTTAAATGTAAAACCCCAAACTATAAAAACCCTAGAAGAAAATCGAGGCAATACCAT
T
CAGAACATAGGCATAGGCAAAGATTTCATGATGTAGATGCCAAAAGCAATTGCAACAAAAGCAAAAATTGACAAATGAGTTCTAACTAAACTAAAGAGCT
Celera SNP ID:            hCV11263133
SNP Position Genomic:     432316
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23509):
AATCAAACTCAGATTTGACAAACTCATTCATTTATTCAACAAATATTATTCAGTGCCAACTATGTGTGAGGCACTACACCAGTACAAGAATAAATAACAT
R
TGGTCCCTGTTTTAAACATCTGTAGTATAGTAAGAGGTATAGAGAAAGAAGACAGATGTGCATTGCACATAACCACATTCTAGGAAAAAAATATCACAAA
Celera SNP ID:            hCV72580
SNP Position Genomic:     66431
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23510):
AAGCAACTTCAGCAAAGTCCCAGGATACAAAATTAATGTGCAAAAATTGCTGGCATTCCTATACACCAACAACAGGCAAGCAGAGAGCCAAATCATGAAT
K
AACTCCCATTCACAATTGCTACAAAAAGAATAAAATACCTAGGAATACAGCAAACAAGGGAAGTGAGGGACCTCTTCAAGGAGATCTACAAACCACTGCT
Celera SNP ID:            hCV11263135
SNP Position Genomic:     431635
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23511):
GCTCCTAACCCAGTGGATTAGTTTTGGCTTTTGAGCTTATGATATAAATCACACAGTATCAATTTTTGTGTTTCTGGCTTTGTTCATTCAATTTTATGTT
K
GTGAGATTCATTTATGTTGTTGCTTATTGTTGCAGTTTATTCTCATTGCTTTATATAATCTTGTGTGAATATATCATAATTTTTTATTCATTCATGTGCT
Celera SNP ID:            hCV8769406
SNP Position Genomic:     283146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23512):
ATCCAGCCCCTAGATCTAGCAAACACCCCAGAAGCCCACCCCACTCTACTCCTCTTCTAGTTTTTACCCACCGAGGGTAACCAATGTTCTGGCTCCTAAC
M
CAGTGGATTAGTTTTGGCTTTTGAGCTTATGATATAAATCACACAGTATCAATTTTTGTGTTTCTGGCTTTGTTCATTCAATTTTATGTTGGTGAGATTC
Celera SNP ID:            hCV8769407
SNP Position Genomic:     283055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23513):
CCTTCTCTTCGAGAATTACCACAGGGTGCACACATGCAACAAGAATCCCTGCCTGTTTGTATATGGACCGAGGATTTCAGAGTGTTCCTAGTTTACAGGT
K
GGCTTTGTGAGAAAAGTCCATCGGTCACAGTCTCACTTTTGGAACCTAACATTCAGAGAACAACTATTTCTACCATGTATGCAGCCCTCTGAGAGGTATA
Celera SNP ID:            hCV8769262
SNP Position Genomic:     423985
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23514):
ATAAAGACAAAAATATAGATAGGATTTGATGCAGAGTAAGTTACAAAAGTACAACAGAAGAGCTCAGAGGACATCTATGCAATCTATTAATATCTTAATA
W
CTATTCATCCTCTCCTTTCCAAGCAAGCAACAATCACAGATTAAATATAAAATGATAAAACCAGTGGCATAGCCAGGTTCAAAAGCAAGAGAAAAAGTCC
Celera SNP ID:            hCV15788607
SNP Position Genomic:     80004
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,5)   total(A,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23515):
TCGCGATTTCCCCAAGCTCTCTCCTTCTCTTCGAGAATTACCACAGGGTGCACACATGCAACAAGAATCCCTGCCTGTTTGTATATGGACCGAGGATTTC
M
GAGTGTTCCTAGTTTACAGGTTGGCTTTGTGAGAAAAGTCCATCGGTCACAGTCTCACTTTTGGAACCTAACATTCAGAGAACAACTATTTCTACCATGT
Celera SNP ID:            hCV8769263
SNP Position Genomic:     423963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23516):
GATAAATTTTCTCCATCACTAAAACCAAAGAGTGGGATTTTTTTGTTCTAGATTACATGAGCAACAGTCTCGCGATTTCCCCAAGCTCTCTCCTTCTCTT
Y
GAGAATTACCACAGGGTGCACACATGCAACAAGAATCCCTGCCTGTTTGTATATGGACCGAGGATTTCAGAGTGTTCCTAGTTTACAGGTTGGCTTTGTG
Celera SNP ID:            hCV8769264
SNP Position Genomic:     423894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23517):
CACGCCTGTAATCCCAGCACTTTGGGAGGCAGAAACGGGTGGATCACCTGAGGTCAGGAATCAAGACCAGCCTGGGGAACATGGTGAAACCCTGTCTCTA
Y
TAAAAATACAAAAATTACCCGGGCATGGTGGCGGGTGCCTGTAATCCCAACTACTCAGGAGGCTGAGACAGGCGAATCGCTTGAACCCAGAAGGTGGAGA
Celera SNP ID:            hCV26078564
SNP Position Genomic:     26162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23518):
TGCTAAAATAGCCATTTGTATCAAGTCCTAGCAATATGCTCAAAACACACAGGATGGCTGGGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGC
R
GAAACGGGTGGATCACCTGAGGTCAGGAATCAAGACCAGCCTGGGGAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTACCCGGGCATGGTG
Celera SNP ID:            hCV26078565
SNP Position Genomic:     26092
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23519):
CTCTCCAACCTTCCAGATGCTGTTGATCCTTTCCTTAAGCTTAAGGATTTAAATGCCAACTTAAAACATAAATAGCCTCAGGATTGAACCTTTTTTTTTT
T
CTTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGCTGTAGTGCAGTGGTGAGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTTACACCATTCTCCTG
Celera SNP ID:            hCV8020646
SNP Position Genomic:     257649
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23520):
AAGTCCCTCACAACACACCTGCTGTGCCAGATAGTGGCCAGAATGATTGTTTAAGTGGGAACCTGATCCATCTGGCCTCCCTGCGGGAATTTCAGCAACT
S
CAACCTGGGTTATACTAACAGATGTCTGATCTCTCCCTGGGACAGAGCCCCCGGGGGAAGGGGCAGTGAGTCTCTGCCCTTGAGTTACTCAGCCTTCCCA
Celera SNP ID:            hCV11263140
SNP Position Genomic:     429641
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23521):
CCTGCCAGTTCCAGTGAGTCCTGGCAGCCCAGGTGAGGAGAAGTCCCTCACAACACACCTGCTGTGCCAGATAGTGGCCAGAATGATTGTTTAAGTGGGA
M
CCTGATCCATCTGGCCTCCCTGCGGGAATTTCAGCAACTCCAACCTGGGTTATACTAACAGATGTCTGATCTCTCCCTGGGACAGAGCCCCCGGGGGAAG
Celera SNP ID:            hCV11263141
SNP Position Genomic:     429601
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23522):
ATCGATTTGGCTGTTGATGCTTGTGTATGCTTCACAAAGTTCTCATGCTCTGTTTATCAGCACCATCAGGTCATTTATGTTCTTCTCTAAACTGGTTATT
S
TAGTTAGCATTTTGTCTAACATTTTTCAAGGTTCTTAGCTTCCTTGCATTGGGTTAGAACATGCTCCTTTAGCTCAGAGGAGTTTGTTATCACCCACCTT
Celera SNP ID:            hCV11259268
SNP Position Genomic:     95597
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23523):
GACCAACCTGGGCAACATGGCAAAACCTCATCTCTAAGAAAAAATGCAAAAATTGGACAGGCATGGTAGTGCGTGCCTGTAGTCCTAGCTACTCAGGAGG
Y
TGAGGTGGGAGGATTGCTTGAGCTGGAGAGATGGAGGCTGCAGTGAGCCGAGATTGTGTTGACTGCACTCCAGCCTGGGTGACAAAGTGAGACCTTGTCT
Celera SNP ID:            hCV26078571
SNP Position Genomic:     18574
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23524):
TAGTCCCAGCTACTCGGGATGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGG
Y
GACAGAGCAAGACTCTGTCTCTGAAAAAAACAAAAACAAAACAAAACAAAAAACTCAAAGATCATTGTTGGCTTATAAATATCAGGGTGACCTGGCAAGA
Celera SNP ID:            hCV26078572
SNP Position Genomic:     15775
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23525):
AAAGGGGAATTTTCATATTGTCTCAGTGATGTGTATGTCAGCTTGAGGTAGGATCTTTTACTGAGTGAGAGACTGAGAAGCAATTTAGGGAATACATTAA
R
ATCACAAAATTCTGTCATTCAGCAAATAATCAAATATTGATGCCATGCGAAATTCAAAAATAAACAATTTTGCCACCTAGTAAGTTAAAGGTCTAGGTGT
Celera SNP ID:            hCV26078573
SNP Position Genomic:     38508
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23526):
GTTTCTGGCTTCCTTTTCCATTTGTTCCATTTGTACAACTTCGTGCCCACTTCAGTCATTGCCCAGGGCCCTTAAATTTAAATATCCCTCCCCCTGAACA
K
ATAGGCATTATGAAATGGAAAAGAATCCGAGAATCTGATTGCGCGTTTTCATTCCTAGCAAAGCCACCATGTACACACACGTACAGGCCAGTCACATTTT
Celera SNP ID:            hCV26078575
SNP Position Genomic:     36635
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23527):
TTGTAGGCAGAAGCATTAAACAGCTACTCCTGCTGCTGTGTGCTAATCATTCCTGTAATTTCTGTTCTGCTTATTTGCCATTATTTGAAAAACATGCAAA
A
GGGTCTTTCTAACCACATTCCTGTGTTGTAACAACACCCAAATGCTGAGGCAGTGCCGAGGAGTCAGTGCCTGGGACTTGCTTAAAACTGCTGGGACTCG
Celera SNP ID:            hCV1746300
SNP Position Genomic:     256053
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,10)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23528):
TTGATAATTTTTATTTGCAATCTAGATCTTTCACTATTAACAGAAATTCCTGGGTTACAGCCTCATGTTTCAAAAAGCTAGCTTTCAGCTATCAAAGTTC
W
TGGAGACACCTAGCATTCATTAAACTTTCAGTTATAGTCATGTATAAAAATTTTAATTTTCATTAAAATACATAACTCTAAGCAGTAAGAAATATTAAAT
Celera SNP ID:            hCV26078579
SNP Position Genomic:     40613
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23529):
CAGTCCCTACAATTTTATGGTGTCTTGAGAAACTTGCCTTCTAGATACTTCTTTTTGAGCAAATCTCATCTATGGGTTTGGAAGGGAGACGTTTAAGAAC
Y
AAATCCAGACTTTCAAATCTGCTGATGGAATGAAGAAATGTTGCTGAATAGGGTCAGATCCTAGATAAAAGGGGGAATGCTGATTTTGAATGATAGTTTT
Celera SNP ID:            hCV1746301
SNP Position Genomic:     255096
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23530):
CACTGCTCAAACTCCTGTTTCACTAGCTCTGAGTCAGGGCCTGCGGGTGTCAGTGGGAAGGTTGTTTTCCACGGCTGTGGTTATTATGCATCTTATTCTC
Y
TTCTTTGTTCCAACTTCCAAGGCTGCCCTAGGTCACAAAAGAAATGAACCAGAATCAGAAGGCAAACAGCAAAGACTGGAGTCCTAGATTCAAGACCTCA
Celera SNP ID:            hCV1746304
SNP Position Genomic:     253694
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23531):
TGGGCATCAAAATGAAATGTCTGGTCATTACATTGCTCATTTAAATGTCTCCACAAGGGGACCAGGTGCAATGGCTCACGCCTGTAATCCCAGCACTTTT
R
GAAGCCGAGGTGGGCAGATCACTTGAGGTCAGGAGTTCGAGACAGACTGACCAGCATGGTGAAACCCCATCTCTACTAAGAATACAAAAATTAGCCGGCC
Celera SNP ID:            hCV1746305
SNP Position Genomic:     253271
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23532):
TCTCGAACTCCTGACTTCAGGTCATCCGTCCACCCTGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACTGTGCCTGGCTTTGTGGTTCTTTTTTT
W
AAAAAATGTTTAATTTCTCAGACTTACAAAGAAGAAAGGTGATTTGGACTCCAGCTGAGTCACTTTTTAAATGATGGCCTTCCTAAGTGGACTAGATCAA
Celera SNP ID:            hCV1746307
SNP Position Genomic:     252408
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23533):
ACAATTATACTATTCTGGGAGATATAAACACTGAAAATCCCATTTTCTGGAAGATCGAACGCAAGCCTAACCTGCTCAGATCTGTATCCTGTGTCCAACT
R
TCACTTCCTTGTTAGATTTTAATTTCCCACATGTGAACTGATAGGTGTTATCAAGGAAAACAACTCTGAGCCTGATCAGCTTTATTGTATTGAACTCCTA
Celera SNP ID:            hCV1746308
SNP Position Genomic:     242416
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23534):
ACTAAAATTTATTTTGGTATATAGGACGTGTATATTTTCAAGTCTTTGTTCGACAGTAACATTTTACTGTATTATCAACTTTGATCTTTCACCAAAATGT
M
ACCCACAAGGTTATATATATTTTTAATTATTTCTTCTGAAGCCAACCAAAAATCTGCAGGATTAACAAATAGATTTTAAATCAATTTTGGGTTGTAGAGC
Celera SNP ID:            hCV1746309
SNP Position Genomic:     242052
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|A,9)      total(A,9|C,6) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23535):
TCCTTGTTAATTTTCTGTCTTGTTGATCTGTCTAATATTGACAGTGGGGTGTTAAAATCTCTCAATATTATTGTGTGGGATTCTAAGTCTCTTTTAGGTC
K
CTAAGAACTTTATGAATCTTGGTGCTCCTGAATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGCATTGATCCCTTTACCATTATGTAATG
Celera SNP ID:            hCV11259273
SNP Position Genomic:     94376
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23536):
TAGAGTTTTTATGGTTTTAGGTCTTATGTTTAAGTCTTATTCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGTGGTCCAGTTTCAGTTTTCTGC
W
TATGGCTAGCCTGTTTTCCCAACACCATTTATTAAATAGGGAACCCTTTCACTATTGCTTGTTTTTGTCAGGTTTGTCAAAGATCAGGTGGTTGTAGATT
Celera SNP ID:            hCV11259275
SNP Position Genomic:     91919
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23537):
TTCCAGAAGGAAGGAAGTCAATGGTATAAAAATACATCCAACAGAATAAACAAAATACAAATTAAGCATTGGCCTTATTTTATACATACGGTGCATATTC
R
AACTTGACTGACAGGCAGTTACCTGTAACTCTGTGAATGGCAGTTTCAGTGTAAAAGTAGGCACTGAAATCAAACCAGCAATAGGTTTAGTTACAAATGA
Celera SNP ID:            hCV11263153
SNP Position Genomic:     427507
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23538):
GCCAAAATCAAGTTCAAAATCAAGGTGTCAGCAGGACTGTACTCCCTCTGAAACCTATAAGGAGAGTCCTTCCTTGCTTCCTCTACTTTCTGGTGGCTCC
Y
GGCACTCTTCGGCATTCCTTGGCTTGTAGATGCATCGCTCCAGTCTCTGGCTCTGTCGTCGCATGGCATTTTGCCTGTGTGTCTCCCTCTTTTCTTATAA
Celera SNP ID:            hCV8769423
SNP Position Genomic:     281683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23539):
ACAGAAAAAAAAGAGGGTGGATTGTTGCTATATGGAATTGTTTGGGACATGTTTAGTATGAGATATCTAAGTACAGATGCTCATTAAGTAGTTGCACATA
Y
AGGTCTGGGACTTAAAAGAGAGCTATGCTAAACACTATCAATTTGAAAGTCATTAGTATACAAGTGGTGGCTAAGAATCATAGATGGTATCACCCAGAGA
Celera SNP ID:            hCV11263154
SNP Position Genomic:     427171
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23540):
CAGAAATGTCACACAAGTTTAAAGAATACTTCTAAAAAATAACTTCAGTTTACAATAACTTCAGTTTGCTCCTAACCAAAACTTCATTTTACATTTCTGA
M
TAAAGAAAAACTTTGCTGCAAAAGTCGAGGTAAAAGAAGGTTCTTAGGGCATAATAGCTCAGGGTGGGAAGGGTCTGCCATTAGAAATTATGAACATTTA
Celera SNP ID:            hCV8769424
SNP Position Genomic:     279287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23541):
GCTCCTCTCCTTCAGGCCACAAATCCACCCCTGTCACCTTCTCCCTGCCCTGCTCAGAAGGAATTCAGAGTGTGGGCAATTATGCTATATTCTTTTCTAC
W
CTGCTCCTCCTCCCATGACAGATTACTGGTGGTCTGTGGACAGACTGGCAACCTGCTCAGCCTCCTGTGGTAACCGGGGGGTTCAGCAGCCCCGCTTGAG
Celera SNP ID:            hCV11263157
SNP Position Genomic:     421991
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23542):
AGTCCAGTCAGGCTGATATAACAGACATATAAAAACTAGTGGCTTATAAACAAACAAAACAAATTTGTTTTTTACAGTTCTGGAGTCTGGCAAGTCCCAG
R
TCAGTGCAGCCGCAGATTTGATATCGGTGAGGGCTTGCTGTCTGCTTCATAGATGGCAGCTTCTCATTGTGTCCCACATGGTGGAAGGGCCAAGGCAGCT
Celera SNP ID:            hCV8769283
SNP Position Genomic:     419016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23543):
TCTGGACATGGTGGTGCACACCTGTAATTGTAGCTACTTGGGAGTTGGAGGTTGCTGTGAGCTACGATTGCACCACTGCACTCCAGCTTGGGTGACCGAG
Y
GAGACCCTGTCAACAAAGAAATGAAACATTAGAAAAAATCCCTTCTCTCTATAGTTGCATAGGCACCCACACATCCACAGAGGGTAGCCGCCTGTCTTAG
Celera SNP ID:            hCV11263159
SNP Position Genomic:     418817
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23544):
TGAGAAAAGCACAGTACTTGAGGTCTGCAAAAATTAATGAGCCTTCCAATTATGTGTCTTTTTTCCTGGAAATGACTAAGGCATTGGGGAATAATTTCCA
K
TGATGTGAGCTGGCCAAAATGCATAAAGAAATATATTGCATTGGCATGTACATTTAAACTTGCCTGGATGGTTTGATACTACAGGTTATCAGCTGACATC
Celera SNP ID:            hCV25968351
SNP Position Genomic:     194534
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(G,11|T,29)   total(G,11|T,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:23545):
CACTTGAGGCCAGGAGTTCAAGAACAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTTAAAAATATGTATGTGTATATATACATGTGAGTGTGTATGT
R
TATATATATATATATATATATATATATATATATATATATATATACACACACATACATATACATACATACAAGTATATACATACATACACACACACAGAAA
Celera SNP ID:            hCV8769285
SNP Position Genomic:     418613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23546):
TGTGTGTAATGAAAGTGTGGAGCAAGTCCCCTTTGGTATCTAAAGGGAATCAGACATTTTGGATGATTTCATTTTAGATGATTTATAGTCTCCTCCATAT
R
TAGTTTGAATGCATCTGCTCAGGATCCTCCATGGAAGTGTAGTTGTCTTCATTATCTTTTAAGTTGTCAAGCACCTAAGAAGCTATTTGTTTTCTTGATA
Celera SNP ID:            hCV26078584
SNP Position Genomic:     40418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23547):
AAGGCAAGCTTGGGGCTGGAGGGTCTGCATTCAAGGTAGCTCGCTCACATGGCTGGCAAGTTGATGCTGATTATTGGTGGGGAGGCTGCAGTTTCACACA
Y
GAACTTTCCTTAAGACTCTCTGGGTATTCTCATGACATCGTGGCTGGCTTCGCCACCACCGTGAGTGGGCAAAGAGAGAGCATCAAATTGGAAGCATTAT
Celera SNP ID:            hCV838175
SNP Position Genomic:     283623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23548):
TACTCAAGAGGCTGAGGCAGGAGGATCCCTTGAGCCCAGGAGGTCAAGGCTGCAATGATCGTGTCACTGCACTCCAGCCTGGGCAACAAAGTAAGACACG
S
TCTCAAAAAAAAAAAAAAAAAAAAGTAAAAGAGAAGAGAAATAAGCATGTGTTCTACCAGGGCCAGACACAAAATTTGTTTATAGTGAAGAAAGTCTTAA
Celera SNP ID:            hCV26078585
SNP Position Genomic:     33469
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,5)   total(G,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23549):
CATACAAAGAGGGTTCACCAGCATTGGCCATGGATGTTAGATTTTGTTTTACACCCACAACATTTTAGTATTTCCCTTGAGTGGAAAGAAAACCTTTTTT
K
AAGCATAATACCTGTAAGGAAAGTACACACAAATCCTATGTGTACACTTGGTGACTTTTCATAAAATGGACCCAGATCCAGCCCCTAGATCTAGCAAACA
Celera SNP ID:            hCV838176
SNP Position Genomic:     282879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23550):
GTGAGGATGTAAAGCCTCTACTTTGATGAGCTTAACCTTGGGACAGAATTAGCTGTGTAGGCAGCTATTTTATAAGACATACAAAGAGGGTTCACCAGCA
Y
TGGCCATGGATGTTAGATTTTGTTTTACACCCACAACATTTTAGTATTTCCCTTGAGTGGAAAGAAAACCTTTTTTGAAGCATAATACCTGTAAGGAAAG
Celera SNP ID:            hCV838177
SNP Position Genomic:     282802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23551):
CAATATTTTTTACCCAGAATCAGCAAAGTCCTTAATATACAGACAGCTTCTGCTGACCTCCGTCCTTGAGAATGCAGTGCACTTTTATCAGGGCAGGCAG
R
TATGTCTGTTTTGTGAGTTTTTCTGAGCAGTGCTCAAGTGGCCTCATGGCTGCCAAAAGGCCTCTGCTTCAAGGTCCCAGGGGCTAAATTTCTGCCAGAA
Celera SNP ID:            hCV838178
SNP Position Genomic:     282580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23552):
ACCAGATGATCCAAATTTCCTAAGCAAAGCCAGCAGCAAATATCATCTGGGAAGGCGCATGCCTCAGTATCCACACACTACGCTCTTTAAGAAAGTACAT
S
AAAAAGCTAATGGACTTTTACAAGAGCCCAGTTACTGCTTAATGTCTGTGAGCTCTCAGGAGCAGGGAATCACAACCCCTACCACATACAGTTGGCGGCA
Celera SNP ID:            hCV26078588
SNP Position Genomic:     31262
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,9)      total(G,1|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23553):
TCTTTTCTTATAAAAAACACAGTCGCATTGAATCAAGGGCTCACCCTACTCTAGTTTGACCTCATCTTAAGCGATTACATCTACAGTGACTCTATTTCCA
Y
GTAAGGTCACATTCTGAGGTACTAAGGGTTAGGACTCCAACATACCTTTTTTTGGAGACACAGGTCAACACATAACAAGTGGTAAACCAAAATAGACATA
Celera SNP ID:            hCV838179
SNP Position Genomic:     281871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23554):
AATAAAAAGATGCTAGTTAACTCCAAGCCACCTGAACATATAAAGACTCTCCAATAAAGGTAAATAGACGGGCAGACATTAAAACCAGTATTATTTTGTT
K
CATAGCTCCACTTTTTATTTTCTATAGGATTTCAAAGAAATGCATAAGAAGTAATTATAAATCTGTTAGTGAATATACAGCATATAGATATAATTCTCAA
Celera SNP ID:            hCV3082819
SNP Position Genomic:     433868
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,3)   total(G,1|-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23555):
TGAATTGAATGATCATTATTTCTAGTCTAAGACAAATGTGCTTTAAAAAATTATTTATGGTCTCTCAGTTATAGTTCTCAGTTACAAGTCAAGCCTGGAA
Y
TTTATGAACAGATGGAAAAAATAGATACAGTAATGGAATATCTAAATAACCAGATACCTTTTTCTTTAAGAGTCTAACCATTCTGCTGACCAACCAAGGG
Celera SNP ID:            hCV1746311
SNP Position Genomic:     241510
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23556):
TGTTTTCTCAGCAAAGATTCTTAATAACCGGTGGAAAAAAGCACTAAAATGATTTCCCAAAACTGTTTTCTAAACCATGATATTTTGGAAACTTTGAAAA
K
GCATCTTTTGTCATGATTGAGAACGTAAGAATAAATGCACCACACTGTTCACATGTAGTTGAAAAGGAATGAATAGTGGAACAAGTACTAGCAAAGAATC
Celera SNP ID:            hCV1746312
SNP Position Genomic:     240897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23557):
TGTCTTTTAGTATGTGAATGTATTATAATTAGTGTATAATGAACAATAAGGACAACCAGAGCTTGCTTTCATTGCCATCTTGGTTTGACAGGATCTGGCC
S
GCTTCTTTCCAGCATCCTATTTTATTAGTGGGGTCTTATAAAACAAATTCCTATCTCATTGGAATTTAGAGTGAGGAGAAGAAACCACCAATTCCCTGCT
Celera SNP ID:            hCV1746313
SNP Position Genomic:     239078
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23558):
TTTTCCCTATTTATCCAAAAGCCTCTTCAGATGCCAAAATGTGCAGCTTAGGTTTAGTTAACTGCACTTTATCCTAAGGTTTTTACTCCATTAATGTCTC
R
AGGATTGCCCAGAATCAGGGGAAGGATCAACTTTTCAAAGTTTAAAAAATATATATAAGAATGAAGATTGGGTTAAAAAATGATGAGGCAATATGGAATT
Celera SNP ID:            hCV1746315
SNP Position Genomic:     233271
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23559):
TTTGTAGAACCGCTACATATAACTTGTTGGGGAGTTCGTATTCCCCAGGGTAATATGAGGAGTAGAAAACATCTCCCCAGTTTCCCTTTTTTTTTTTTTT
T
CCTGAAAAGCAGCTCACAGGCTTTTAAAAATTTATTGCCAACCACTCTATAAGTAGTATGTCAATACAAGAAAGTTAAAGTTCCCATAATGTTTGCATAG
Celera SNP ID:            hCV8004489
SNP Position Genomic:     69156
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23560):
TGTAAATATAGCTTTTCCATGTGTTTTGCTGGGTTTTTTACTTTTTTTTTTTTTTTTTTTTGAGAGACTGGGTCTTTCTTTGTAGCCCAGGCTAGAGTGC
R
GTGGCACAATCAGAGCTCACTGTAACCTTGAACTCCTGGGTGCAAGAGATCCTCCCACCTTAGCCTTCCTGGTCACTGGGACTACAGGTGTGTGCTACCA
Celera SNP ID:            hCV1746316
SNP Position Genomic:     232083
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23561):
TTGTCATGAGAAAAAGTCTGTTTGTTACTTGGAAAATGCCTGTAAATATAGCTTTTCCATGTGTTTTGCTGGGTTTTTTACTTTTTTTTTTTTTTTTTTT
T
GAGAGACTGGGTCTTTCTTTGTAGCCCAGGCTAGAGTGCGGTGGCACAATCAGAGCTCACTGTAACCTTGAACTCCTGGGTGCAAGAGATCCTCCCACCT
Celera SNP ID:            hCV1746317
SNP Position Genomic:     232043
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23562):
TGATTTGCAAATATTTTCTCTCATTCTGTGAGTTGCTTTTTCACTCACTTGATGGTGTCTTATGATGTGTCAAAGATTTAAATTTTGATGGAATCCACTT
K
ATTTTTTCATTTGTTGCCTATATTTTAGTGTCATATCTAAGAAATCATTGCCAAACCCAATGTCATTAAAGTTTTCCCCTGCGATTTTTTTTAAGAGTTT
Celera SNP ID:            hCV11263160
SNP Position Genomic:     416881
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23563):
ATTAATTGAGCATCTTTTCATGTGTTTATTGGCCATTCATGTATCTCTTTTGGAGAAATGTCTGCTCAAGTCCTTTGCTTATTTGGGCATTTGCCTGAAC
Y
GGGTTGTTTGTTAGTTATCAAATTTTAAGAGTTCTTTTTATATTCTGGATATTAATCTCATCAGATCTATGATTTGCAAATATTTTCTCTCATTCTGTGA
Celera SNP ID:            hCV11263161
SNP Position Genomic:     416711
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23564):
ACACCTCTTTCATCATGTCACCCCCCTCTTCAGTGGCTTCCCACTGCCTTATGGACCAATTACAAACCTCTTGTCTGAAAATTAAAGGTCTCCAAACTAA
S
CCTCAAGCTCCTGACACTTAGAACTTGAGCCCTCTGTTCTGTCAAACTGTTCTGTCCCATGCCTGCCTTGGGACTCCTACACTGAAATTATTATCTTTTT
Celera SNP ID:            hCV11263307
SNP Position Genomic:     306766
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23565):
GCATTCTACTCTAAGGTAGTTTTCTCTTCTCTCTGGTTTATTTATTTATGAATTTCCACTTTGCTCAAAGGATTAAAATATATTACTATCAAATTGTCCC
M
GACAGGACCAGCAAAAGCCCTTTCAAGCTGGCCCCTATGCCCTTTTGACATATACCCCATCATTCTTTGAGCACTTCTCAATTTTCTGGTACAACATACT
Celera SNP ID:            hCV8769433
SNP Position Genomic:     278097
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,10)      total(A,1|C,10) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23566):
GATGATGGCCAGCCAGGTGTTTCCACTGTAAAATTAATAAATATGTAGCACTTAATAAGTAACAAAGAAGTATTTTATGGGGGACAATATGAGCTAAGTA
R
ATATCCTGTTCATCATTAACCTTTGACCCACTAGATTTAATATTGATTGATGATTACTGCCTGAGTCAATTATTATTATGATGATTGCCAAATGGTAACT
Celera SNP ID:            hCV8769434
SNP Position Genomic:     277860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23567):
CTGGCTTTTATTGGAAAATGGAACGAGCATTTTACTCCAGGCTACAATTAGGGTTGGAGGGTATAGGTGCCCGGATCCCAGGAGATCCCCAGTGGACTGA
Y
TTCTCTCCCCAAGGCCATTTCTACACTCATTTCAGAACAGGAGTGCAGTGACACCACCATGGACCTCGTGGCATGTAGATGCCTAGATGCCGCCAGGAGC
Celera SNP ID:            hCV8769293
SNP Position Genomic:     415011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23568):
GCACCTTAAAGATGGTAAGCATGGTTTCCACTTCTGGATCTGTCACAATGCTTAGCAATGAAAGCTTAAATGAGAAACTAAGTTGAACATGTCACAAATG
Y
CCTTCTCCTCAGTCTCCAAAACCTATGGCTACTTTCTCTGACTGACTTTAGGAAGCTGCCTCACTCTACTTACTTGTTTCCCATCCTCACAATAATCATC
Celera SNP ID:            hCV838180
SNP Position Genomic:     277131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23569):
GTTCCAAGAACTCCACATCCATGGCAGGCCTGCCCTTCGAAGCATCTCTACCCTATTCTCATCTGCACGAGGAATAGCAGGCTGGGAGGCCCTGGGAACA
R
GACCAAGACCCAAGGCTCAGATGGGCCAAGAGAGGTTTCCTGGCTACTCACTATGGCCTCTGATTCCAAGGAGGAGGGAGGAATTTGGATGTGATTTTTG
Celera SNP ID:            hCV8769294
SNP Position Genomic:     414378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23570):
ATTTAAGCAAAGAGAATTGTGTCAGATTAAATGCTATAGCAGTTTACTTAGAATAGCTGTGTAGTAAGTATTGCAGAATGTAAATGGAAGTAAATCCAAT
R
GAATCTCAAGGACGGTACAGTTGATGTGAGCTGGGATGGTGAGGGAAACCTTGCTGGAAGAGGAAGGGCTTGAATCAGTCCTTGATCTTGAGGTAGGAAC
Celera SNP ID:            hCV838181
SNP Position Genomic:     275253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23571):
TTTTCCCCTCAGGATTATTAGAATTTCAAAGCTTGGAGGAGAGGCCACAAGGAGCTGAGACTCAGAGCTCTGCAGGGAGTGGGAGGTGCCAGTTGCTGCT
R
GGATCTCTGAGAGGGCACAATAAGGCAGCCTCTGAAGTGTGGGAAAAGCAAATTGCAAACTAGGACCAACTACTGACAATGGAACCAGCTGCACTGCCAG
Celera SNP ID:            hCV8769295
SNP Position Genomic:     411364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23572):
AATGTCAAATTATTTCCTTAATCCCAAGGCACTTGATCCTAAATCTTAAATGCCTTGTGGTCTACTTGGGATGATAACTAGGGGGAAAAAAACATTTAAG
Y
AAAGAGAATTGTGTCAGATTAAATGCTATAGCAGTTTACTTAGAATAGCTGTGTAGTAAGTATTGCAGAATGTAAATGGAAGTAAATCCAATAGAATCTC
Celera SNP ID:            hCV838182
SNP Position Genomic:     275160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23573):
ATGAATTTGCTTCCAGCTTTTCTTGTGTAGGGTGTTCTTCAGGTTGCTACTTCAAGGTCAAGGTCTGATTCAAGCCCTTCCTCTTCCAGCAGTGTTGCCC
Y
CACCATCTCAACTCATTCAACTCAACCCTCCTTGCAATTTGATTGGATTTACTGCCATTTACATTCTACAATACTTACTATGTGGCTGTTCTAAGTAGAG
Celera SNP ID:            hCV838183
SNP Position Genomic:     274638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23574):
CCTTGCCTCTTCCTATCTTCTGATGGTCTGCCAGCAATCTTTAGCATCTGTCAGCCTGTGAATGTGTCCCTCTAATCCTCCTTTGCATGGCTATCTTCCC
Y
TCTGTGAATCTATGAATTTGCTTCCAGCTTTTCTTGTGTAGGGTGTTCTTCAGGTTGCTACTTCAAGGTCAAGGTCTGATTCAAGCCCTTCCTCTTCCAG
Celera SNP ID:            hCV838184
SNP Position Genomic:     274526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23575):
AAGGAATGAAAGTCAAGAAATAGGAATTCAGCTGACCTCCGTGTGGCTGGCTTGGGGTAGAAACACTCTCCATGTTTTTTTGCAACTTCTGTGTAATCCA
R
TGTTCTTATTCAGAATCTAATTGCTGAGTTGCCCCCACTGTTTCTGTTTTCCTAGCTGGAAAAATAGATAATCTGCTCTGAGGATCAGAGGGCAACTAGA
Celera SNP ID:            hCV838187
SNP Position Genomic:     271303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23576):
GTGGAGTGAAGTGAAACCACATGTGGGCTGGATTGACCCTCCCTTGATCTAGAAAAGAAAAAGTGCTGTTTTCCAGCTCACCCTTGCATACCTAACTCCT
Y
CAGCAGGGTAGCTCTGCATGACAAGGTTGGCAAGAGGTAGACTACTTTTTACCACACATGGTCTTACTGCAGTTGTGTGTTTGTATGTGTGTAGAAAGTG
Celera SNP ID:            hCV838189
SNP Position Genomic:     269316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23577):
AAGAGAAGGGGAAGCAGGCACATCTTACATGGCCAGAGAAGGAGGAAGAGGGCAAAGGGAGAGGTGATACACACTTTTAAGCAACCAGATCTCTTGAGAG
Y
TCACTATCACAAGAACAGCAAGGGGAAAATCCACTCCCATGGTCCAGTCACCTCCCACCAGGTCCCTCCTCCAATATTGGGGATTACAATTCAACAGGAG
Celera SNP ID:            hCV1746321
SNP Position Genomic:     228752
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23578):
CTTTTCTACCACATAGGCTGCAAATTTTCTAAACTTTTATTATCTGCTTCCCTTTTAAATATAAGTTCCAGTTTCAGGTTATGTCTTTGCTCATGCATGT
S
ATTATATGCTGTTAGAAGCATCCAGGTCACATCTGGAACACTTTGCTGCTTAGAAATTTCTTCCACCAGTTACCCTAAATTATCACTTTCAAGTTCAAGG
Celera SNP ID:            hCV1746323
SNP Position Genomic:     228173
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23579):
ATGGCTTGCACCTTCTGGAGCAGATGCCTGAGACATATCTGGAGCCCTTTTAGCCATGGCTGGAGCTGGAGCAGCTGGGACACAAGGAGCATTGTCCCAA
R
GTTGTGCAGGGCAGTGGAGCCCTGGGCCTGGCCCATAAAACCATTCTTCCCTCCTAGGCCTCCAGGCCTGTGATAGGAGGGACTGCCACAGCTCTGAAAT
Celera SNP ID:            hCV1746324
SNP Position Genomic:     227792
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23580):
GGGAGAAATCTGTCCCCATGATGTAATCACCTTCCCCAGCCCCCTCCTCCAACACTGGGGATTATAATTTGACAGGAGATTTGGGCAAGGACACAAATCT
R
AGCCATATCATCCTGCCCCTGGCCCCTCCCAAATCTCATGCCCTTCTCATGTTGCAAAATACAATCATCCCTTCTCAACAATCTCCCAATTCTTAACTCA
Celera SNP ID:            hCV1746325
SNP Position Genomic:     226934
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23581):
CTCCTTCAGGCAACTAACAGGCCACCTAATGCCCTAGAAGGTGTAATTTGCTAAGGGACTCATATTTTTTAAAAAAAAGGAAAAAGAAAAAAGAAAAAAA
R
GTATAGTCTGGATGCTTTAGGTGCTCTTCCTGATCTCCAAAACAAGGCATCCCAGGTAGAGAAAGTGAGGACCAGTGCGGCACTTAGGGAAGCCAGGTTC
Celera SNP ID:            hCV1746326
SNP Position Genomic:     222239
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23582):
CTTTCTAATTACAAGAAGAAAGCACGACTAAACAGTTGAGTCTTATGGTGGTCCCAAAGGGATTATAGGGTGGAAAAAAAAAAGTGCTGGACCAAAAACA
W
GAGATTCTACTTCAAATCCTGACTCTGCCCCCAAATAACTATGTACCCTTGAGCTAGACAGTTCCATTTTATAAATATAAGTGACTTTTATAAGTATACA
Celera SNP ID:            hCV1128283
SNP Position Genomic:     323985
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,7)   total(A,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23583):
GATACAACTGGGTAACCCCGCTGTGACCCAGGTAGCTGTTTTTTAACCATTTTGTTAGATAAATTTTCTCCATCACTAAAACCAAAGAGTGGGATTTTTT
T
GTTCTAGATTACATGAGCAACAGTCTCGCGATTTCCCCAAGCTCTCTCCTTCTCTTCGAGAATTACCACAGGGTGCACACATGCAACAAGAATCCCTGCC
Celera SNP ID:            hCV1128284
SNP Position Genomic:     423837
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23584):
TTTTGGAAACTCTCAAAAGTGTACATTTATTTGGTGGGGAATTGGAACTACAAAGTGGTAGTACAATTATATTTGTTAATCAGGTGGAAGCTAAAAAAAT
K
ACTGACAGGTTTCCCATCTCTTATTTTTATACCGTAGTTTTAGTCTTGGTTGAGATGTATGCATAAACATCACTATCACCTGACATGTATCACCCACGCA
Celera SNP ID:            hCV1746328
SNP Position Genomic:     221874
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23585):
GATTTAGGATACATCATTTAAATGCCAGATTGAGCCCATCTGGTTGCTTTCATGGAAAAATATATAGGAATAGCTTTCTAGGTCTTTTTGGAAACTCTCA
R
AAGTGTACATTTATTTGGTGGGGAATTGGAACTACAAAGTGGTAGTACAATTATATTTGTTAATCAGGTGGAAGCTAAAAAAATTACTGACAGGTTTCCC
Celera SNP ID:            hCV1746329
SNP Position Genomic:     221789
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23586):
GGCCCAGGCATCGGTACTTTTTAAAAGCTCCCCAGGAGACCTTGAGGTGCATGCAAGGTTGAGACCACTGAGTAAGAAGGTGAAAGCTGGGCTGCAGCTA
W
GTTCTGACTGTACCCAAGGACACTGGTATCACCATCATAACCTTGACTGCCGGCAAAAAACCCCATAGCCATTCTGAGTACAACTTACTAAACAAAGACC
Celera SNP ID:            hCV11263312
SNP Position Genomic:     301574
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23587):
GTATAAGAACAGACATATAGACCAATGAAACCGAATAGAGAACTCAGAAATAAGATCACATACCTACAACCATCTGATCTTTGACAAACCTGACAAAAAC
R
AGCAATGGAGAAAGGACTCCCTACTTAATAGATGGTGCTTGGATAACTGGCTAGCTGTATGCAGAAAATTGATACTGGACTCCTTCCACACACCTTATAC
Celera SNP ID:            hCV27970339
SNP Position Genomic:     432131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23588):
AGCTGAGAATGGAATTGAACCTGGATTATTCAAGAGACTCAGCCACATGAAGATCTAAGAGAAGAATGGTGCAGGTAGAGAGAACAGCAAATGCGAAGGC
S
CTGTGGGAGAAACAAGCTTGACATGTTTGAGGAACAAAACAACAAAAAAAAAGTCTGGCTGGAGTACACAGGGAAAGGGGGGGTGTCGTAAAAGATAAGA
Celera SNP ID:            hCV11263317
SNP Position Genomic:     298445
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23589):
ACTGATATAAACAAGACATTTATTGATGTAAAGCCACCAAAACTAGACTATTTATCAATGTTGCTTTCATGAGAAAATGATGCCAAAATTCTAATATGAA
S
TAGAGGCTGCTTTGGAGCCAGATCTCCCTCACAAGATGCGCCCCACTGTCCAGTTTGACTCTGTGGCTTTCGGGGGTTAGGGAGCATAAACGGTAGGCCA
Celera SNP ID:            hCV838190
SNP Position Genomic:     268895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23590):
TATGCCAACTGTTAAAAATGGATCAAATTAACTTTTATTAAACCTCTGTCCCTATGGACAACACTGGAACTTGAAGCCTCACAATTTATCTATAGCTTTC
R
TGTGTTCTCCAAGGTACCATGCTGCCTCAGACACCTCTCATGGCTCAGGACATGCAAGAGAGAGACCAAGAAGACAGGGAAATGTATTTATGTTGCATTT
Celera SNP ID:            hCV838191
SNP Position Genomic:     267818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23591):
AATCACACGTGTGATTGATATACTAATTAGATATTCCCCCAGAGTCCCAATCCAGGCTTTCCAAGAAACCTCAGGGCAGTTTTGTGCTGTGCCTTCCATC
M
CCTTTCAGTCTTCCAGGTAAGCCTAAAATTGCTTGATTCCACTGTGTAAGAGTATCTCTAGTTACTCTCAGTGACCAGGAAGCTGATAGATTTTTGTCCT
Celera SNP ID:            hCV838192
SNP Position Genomic:     267593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23592):
TTGTTCTTAGAGCTGGTAAAATATTTTTTCTTAAAAATCTAATCACACGTGTGATTGATATACTAATTAGATATTCCCCCAGAGTCCCAATCCAGGCTTT
Y
CAAGAAACCTCAGGGCAGTTTTGTGCTGTGCCTTCCATCCCCTTTCAGTCTTCCAGGTAAGCCTAAAATTGCTTGATTCCACTGTGTAAGAGTATCTCTA
Celera SNP ID:            hCV838193
SNP Position Genomic:     267553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23593):
TTCGTGGGCCGGGCCCAGGATCCCCATGCTGTGTGCACCCTAGGGACTTGGTGCCCTGCATCCCAGCTGCTCCAGCCATGGCTGAAAGGGGTCAAGGTAG
R
GCTCGGGCCGTAGCTTCAGAGGGTGCAAGCCCCATACCTTAGCAGCTTCCATGTGGTGTTGAGCCTGTGAGTGCACAGAAGTCAAGAATTAAGGTTTGGG
Celera SNP ID:            hCV97090
SNP Position Genomic:     115990
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23594):
TCATGCCTTATGACCTCTACCATCCCCTTCCTCGGTACGTAAATCAATCATCCTGATGTTAGAATTAGCAAATTAGTCTTCTGCTGCTTATCTATATATA
K
AGAGATATACATATACATAGAGAGAGAGATTATATGTTTTTAAGATGGTAGATGGTATATTTTGCAATCCATCCTGAGTTCTGCTTTTGAATAATACTAG
Celera SNP ID:            hCV25973051
SNP Position Genomic:     208657
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(G,3|T,31)   total(G,3|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:23595):
ATTTCTCAGAGCAGAGCCCAACACATAGGAAATGAAGCATGCTAAAAGAGGAGTCTAATAGAGCTAAAGTGAATGTCTTCAACCCCACCACTGAGTTATT
R
GGCAAAAAGCTCATTTCCTTAAAAAAATAGAAAGAAATACTAAGACATGCAGAGAGGTGCTTTGCTTATAGATCTGGAAGAAGCTTTGTATCTTTGTTCT
Celera SNP ID:            hCV838194
SNP Position Genomic:     266190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23596):
TCTTTTTTTACCAGATATGATTTTTCCCAATGGGGGAATCTTGGCAATTTTTAAGAATTGGGGAATTTCAGGAGGACAAGACCAAGAGGAGACTTGGCAA
K
GTCAAAGCTAAATATTCCCCACCAGGAGTAGAGATACTGCCTGGAAAAAAAGAAATATCATAGGGTTTTAAGATCAGACAGATGTTGGCTTTCTCACTTG
Celera SNP ID:            hCV838195
SNP Position Genomic:     263888
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,16)      total(G,2|T,16) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23597):
TTCAATTTTTACATGGGGAGTTACTGTCCTTGAGGCCTAGACACGCACAGACACAGGCCGTGGGCTGCATGCTGGAACAGCTGAAAGTGGTGTCTTCTCT
R
TAACTTACTGCTATTGACTCTGGTCACTGAGTGGATAGACACAGACACCTTTTCGGCTGCCTAAAGGAGCTACTATGTGATTCACAGAGGTAGAAAGGGC
Celera SNP ID:            hCV838196
SNP Position Genomic:     263554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23598):
CCCAGACCTGTAGATGCTCATTACCTTCTCATGAGGCTTCAATTTTTACATGGGGAGTTACTGTCCTTGAGGCCTAGACACGCACAGACACAGGCCGTGG
K
CTGCATGCTGGAACAGCTGAAAGTGGTGTCTTCTCTGTAACTTACTGCTATTGACTCTGGTCACTGAGTGGATAGACACAGACACCTTTTCGGCTGCCTA
Celera SNP ID:            hCV838197
SNP Position Genomic:     263517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23599):
ATAGTAACTTTATGAATAGGGCAAGCATGGAGTTCGGTGGAAGCTTGAGGCTGAGAGAAGGCTTCCTGGAGGAGGCAATGCCTATGCTGAATGGTAAGGC
M
TAAGTAGGAGTTATCCAAATGAAGAAGGAAGATGTTGCAGGCAGAAGGAAAACCATGAGCACAAAATGAAGGACAAAAAGTGGAAGCCAGTGTTAGAGAG
Celera SNP ID:            hCV838198
SNP Position Genomic:     261417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23600):
CTCTGGGAAATGTCTTTATATAGACCGTTGGTTAACGTTAACTTTCTGCACAAATATTAAAGCAGAGAGTGTTTTTGCATCCCAATTCAGAGAAAAAAAA
M
ACACACACACACACATAACAAGCATCTTTGTGTCTGCTTGTATTTGGTTGTCACGGATAACGAGAAGACAAAACCCTGTCCTAAAGGAGTTACCAGTTAA
Celera SNP ID:            hCV838199
SNP Position Genomic:     261196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23601):
GTACGGTGTTGCTGTGTTTAAAATGTTAGCAAATCATTTTGGCTTTGGCAGTTTTATATTTCTCACTTGCTTTGTTTTTTGACTATAAATAATTGCTGTG
Y
ATAGAGAACAAGAAGTGATGCCCCTAACTTAAAATAGTCAATTGTTTATTAGCTTTATCTTTACCAAGCCACTTCAGAGAAAGAAAAGCAGTTTGCAGTT
Celera SNP ID:            hCV1746330
SNP Position Genomic:     216369
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23602):
CCCAAAGTGCTAGGATTACAGGCGTGAGCCTCCACGCCCAGCCGACTGAGTCATTTACTGGGATAGTTGGAGTAGTTGTAAAATGATGTATGTATAGGTA
Y
GGTGTTGCTGTGTTTAAAATGTTAGCAAATCATTTTGGCTTTGGCAGTTTTATATTTCTCACTTGCTTTGTTTTTTGACTATAAATAATTGCTGTGCATA
Celera SNP ID:            hCV1746331
SNP Position Genomic:     216272
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23603):
ACTGAAAAAGAGCCCGAGTAGTCAAGACAATCCTAAGCATAAAGGACAGAGCTGGAGGCATCACACTACCTGACTGCAAACTATACTACAGTAACAAAAA
Y
AGGAGGGTACCGGTATAAGAACAGACATATAGACCAATGAAACCGAATAGAGAACTCAGAAATAAGATCACATACCTACAACCATCTGATCTTTGACAAA
Celera SNP ID:            hCV27970340
SNP Position Genomic:     432018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23604):
GCCAAACTGAATGCTTCCTTATTGAAAGACAGAGAGCTAACTATGCCACCAGAGACAGCTTCATTTACTGAGGTTTTTTTTGTTTTTTTTTTTTTGAGAC
R
GAGTCTCACTCTGTTGCCCAGGCTGGAGTTCAGTGGCGTGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGCTGAGGCGATTCTCCTACTTCAGCCTCC
Celera SNP ID:            hCV1746332
SNP Position Genomic:     215935
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23605):
TCTCCTTTTTTGTGTGTAATGAAAGTGTGGAGCAAGTCCCCTTTGGTATCTAAAGGGAATCAGACATTTTGGATGATTTCATTTTAGATGATTTATAGTC
W
CCTCCATATATAGTTTGAATGCATCTGCTCAGGATCCTCCATGGAAGTGTAGTTGTCTTCATTATCTTTTAAGTTGTCAAGCACCTAAGAAGCTATTTGT
Celera SNP ID:            hCV27966466
SNP Position Genomic:     40408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23606):
GATATATTCCTAGATATTTTATTTTTGTGTATTTTTGTGTTGCTATTGTAAATGGCATTGCATTCTTGATTTGGCCCTCAGCTTGAAGGTTATTGATATA
Y
AGAAATGTTACTGATTTTGTACATTGATTCTGTATCCTGAAACTTTACTGAAGTCATTTATCAATTCCAGGAGCCTTTTGGAAGTCTTTAGGGTTTTCTA
Celera SNP ID:            hCV27970341
SNP Position Genomic:     369360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23607):
TTTCTCCTCCCTGGTCCCATGCACAGCAAACCCTTTGTTCCCTTTCTATACACCCAATTTATGTTTTTTCATTGAAATCTCTACATTTCTCATTTCCCCA
Y
GTCTTCACGACATCTAGAATTTATAAGCCCTGGCATGAAGAGTGAATGGTAATGATCATGGCGATGTTAACAACTGTAACAAAATCATAATCACCTACAT
Celera SNP ID:            hCV27970342
SNP Position Genomic:     321565
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23608):
GAGGAGGTTGCCACAGGTGCGTCTGACAGGATTTAGTTCAAAACAGCAATAAAGTATTACAAGCTTACTATGAGTGCCAAACTGAATGCTTCCTTATTGA
R
AGACAGAGAGCTAACTATGCCACCAGAGACAGCTTCATTTACTGAGGTTTTTTTTGTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGCTG
Celera SNP ID:            hCV1746334
SNP Position Genomic:     215860
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23609):
CAGAAATCCTGATTAACTTTAATAAATGCATCTCTCTCGAAGCCTTGGTTTCCTCCTCTGTAAAATGGGTGTAATAATAGTATCTAAATCAGAGATCATG
Y
GTAGGTTAAATGAGATATAACATAAACAGGGTGGTTAACCTAGTGCCTGCAATATAGTAACTTCTACATACAGTAAGTTACTTTTAACTCCTGACTATCG
Celera SNP ID:            hCV1746335
SNP Position Genomic:     215640
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23610):
TAAATTAATGATATAAAAGGAAACAAAAAAAAACAGAAATCCTGATTAACTTTAATAAATGCATCTCTCTCGAAGCCTTGGTTTCCTCCTCTGTAAAATG
R
GTGTAATAATAGTATCTAAATCAGAGATCATGCGTAGGTTAAATGAGATATAACATAAACAGGGTGGTTAACCTAGTGCCTGCAATATAGTAACTTCTAC
Celera SNP ID:            hCV1746336
SNP Position Genomic:     215607
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23611):
GATATTCTAGAAATATATGTTTGATTTACTATCCACATTTCTTGCCTTTAAAAACAAGGGAGTGAACCCAAGTATGTCTATTTTGCTAAGGCTGAAGTAC
M
TTGGGAAGTCTCATACTTCAAACTGATGAAACAGAAAACTGTCACTTTTTATATTGAAAATTAAAACATTAATATGAGACTGAATTCCAGAACCATAATT
Celera SNP ID:            hCV1746337
SNP Position Genomic:     215040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23612):
GCCCCACCGGGTACCCTGAGCAGCTCCACACTCTTCTTGAGGTGTCTAGAAGCCTACCAGCTTAGCTCCTGGAGTAGGAATGCCCCAAATCCAGCATGAC
S
AAAAGTAAATGATGTTTTTTTAAAGTGTCTTTCTTCAAGTTTCTTCAAGAAGCCTCTATTGTTCCCCAGATAATGTTCCCTCAAATAGCACGGGGAAGCA
Celera SNP ID:            hCV1746338
SNP Position Genomic:     213365
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:23613):
TACCTTTATTTTGGTAGGAAATTTGCCTTTGCTAATAGTTGCCTACTATGTTCAGTAGTTTCCCCCTCCCCTTATAAAATACCCAAGTGGCTACTTTCCA
R
GTATTAGTGAAATCCCTAGATCTGCCAAGAGAAGAAACCTAGCTAATGCAGTTACATAGTATTGTCAATTCTGAAGTACATATTCTCCAGCTTGAATAGC
Celera SNP ID:            hCV1746339
SNP Position Genomic:     208010
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23614):
TTTGTATATGGCAAGAGATAGGGGTCTATTTTCATTACTCTGCATAGAGATATCCAGTTTTCCAAGCACCATTCATTGAAGAAACTGTCTTTTCCCCAGT
K
TATGTTCTTGGCACCTTTGTTGAAAATGAGTTCACTGTAGCTCTGTAGTTTTGTTTCTGGGTTCTCTATTCTATTCCATTGGTCTATATGTCTGTTTTCA
Celera SNP ID:            hCV11263322
SNP Position Genomic:     296190
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|G,8)   total(G,8|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23615):
ACTCTGTGCCCCAAGGAAATAGGGTAGAGGTCTGACTCATTTACTACTCTGTCTCCTTACATAAAGCCTGGCACACAAAAAGTGTTCAATAAATACTAAT
Y
AAATGGATAAATAAATGAATAGCATTTGTTACAGTATCTTATGGTTGTCTCTAAAAACCCGTAAAATCAAGAATATTTTGAAAATCTCTATGTCCCAATC
Celera SNP ID:            hCV8769451
SNP Position Genomic:     273861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23616):
AACTCAATCAGAAAATGTATTTTGAGGTGATTGCTTTATCAGATTTCTACATTTTGCAAGCCAAATAATCATATAACCTCTAAGATGATATTATAAGTTC
Y
ATCTATCATGACCAGGACATTTGTTTTGCTTTCTAAGACCTAAGCAGACCATATAGCTGCTCTGGTTTCATGTTTGGGGGTATCCTCCTAACCTTTGTAT
Celera SNP ID:            hCV25969183
SNP Position Genomic:     106600
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,32)   total(C,63|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:23617):
ATTAGTACTGCTGTTATTCATTTATTTTCATTATCCAAATTACCCCTATTTATATTTGTTGTAAAGCACAAAGCCGGTTTCTGTTTTAAATATATTTTTT
R
AAAGAGTAGCATAAATGTATGGACAGAACATGTGCTGCTGTTAAAAATAATTTTGAGGTTATTTTGAAAGCAAATAGAGAAAAGTATGTTTTATTTTTGT
Celera SNP ID:            hCV96448
SNP Position Genomic:     112605
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23618):
AGATGTTAGAATGATTGTAACATGAGGAACGATTGAGCTTTCACCTGATTTCTTATCATCTGTCAGAAGGTAGAAAAAAATAGGATGGTTCACTCAAAAA
A
CAGAAAAGGTTAAAGGCTGTTCATTTCATTCTTGTGTGAAGAACTGTGGGATTTTGAGCATGCCCAAAAGGCAGCATCCCTTTTCTTATACATTGTTACT
Celera SNP ID:            hCV1746342
SNP Position Genomic:     206760
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,8)   total(A,5|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23619):
TGTAAGAATGATTCTTACTAGATGTTAGAATGATTGTAACATGAGGAACGATTGAGCTTTCACCTGATTTCTTATCATCTGTCAGAAGGTAGAAAAAAAT
R
GGATGGTTCACTCAAAAAACAGAAAAGGTTAAAGGCTGTTCATTTCATTCTTGTGTGAAGAACTGTGGGATTTTGAGCATGCCCAAAAGGCAGCATCCCT
Celera SNP ID:            hCV1746343
SNP Position Genomic:     206741
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,9)      total(G,5|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23620):
GAACCGGCCGGGTGTGGTGGCTCATGCCTGTGAGGAGGCCAAGGTGGGCAGATCACGAGGGCAGGAGATCGAGACCATCCTGGCTAACAAGGTGAAACCC
Y
ATCTCTACTAAAAATACAAAAAATTATCCGGGCGTGGCGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCCGAGGCAGGAGAATGGCGTGAACCTGAG
Celera SNP ID:            hCV1746346
SNP Position Genomic:     204548
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23621):
TCTTTATGGTTCATTTTCATTATAAAAAGAACAGAACCGGCCGGGTGTGGTGGCTCATGCCTGTGAGGAGGCCAAGGTGGGCAGATCACGAGGGCAGGAG
W
TCGAGACCATCCTGGCTAACAAGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTATCCGGGCGTGGCGGCGGGCGCCTGTAGTCCCAGCTACTCAG
Celera SNP ID:            hCV1746347
SNP Position Genomic:     204515
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23622):
CTAACTTAGAAATATTGATAAGTTAAAAGACTGTAATGAAAACAATGAACTCACTAATAATCCCCAATGCCCGCAGATAACCTCTGTTAATGCTTTTGCT
R
TATTTCTTTCCAGTCTTGTCTATAGCTCATAACATAATTGAGATCATACTTTATACAGTAGATACTTGGCATTGAATAATTTGGCATTCTTGGTTCTCAT
Celera SNP ID:            hCV1746348
SNP Position Genomic:     198640
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23623):
TTTACATGAAAGTGATTAATGTACTGATTTAAAAACAAAAAAAAATTTCCCTCTATTTTAAAGGTCCCTCTTTAAAGCTTCTAGCTCAGCAAGTGCTGTT
Y
GAGATGAGACTTCTAAACATTAGAATTAAACCTCCTAACTCACTTGCCTGCCCTCTCACTGACCTCGCTTCCTCCCACTTGTGGCCAGAAAACTCAAGAT
Celera SNP ID:            hCV8769601
SNP Position Genomic:     235909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23624):
GCAGTCTGGTTCTTGACATTATGCTCACATGTCTCCTACTTAGTAAATACAACTTAGGGATTTAGGCCAATTCATCAGTTCTATCAGATCCAAGTGTGTT
K
AAAAATAGTGTCCCAGGGATAAAAGTCCTAGCAATAAATGAGAATCATGGATAATCAAAAACAAATGAGGGATTTAATAAGCCAATATAAATCCTAATAT
Celera SNP ID:            hCV8769461
SNP Position Genomic:     272144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23625):
GAAATGAAGGGAAAAGCAGCCCACAATATTTGCAGGAGAATGAGGTGACAGAATAGAAATAGAAATGTGGCCTGGAAAGCAGGTGCAAGACCATAAAAGG
S
TCTTGTATGCTGTACAAAGAATTTGGATTTTATTGTAAGTGCAACTACAAAGATTTTTAAGAAGGAATGGCACAATCAGACTTTTAAGATTACTGTCTGG
Celera SNP ID:            hCV27471554
SNP Position Genomic:     426552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23626):
AAGCTATAACCGTTTTTGCCCCCTGGACTAGGGACACCCTGCTGTTCTTCCCCCACTGAGTCTGGGTGCTAGGGAGATAAAGTTAAAAAAAAAAAAAAAA
W
TTTTTTTGGCTTTCTCAAAAAAAAGAGCAATTATTAGAGCACTTCTGCTCTAATTATGCTCTTTCTCACCTAGAGAAAGCTGTCATTCTAAGGAAAAAAG
Celera SNP ID:            hCV16110578
SNP Position Genomic:     359609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23627):
AGACTCCAGAAAATAGATCTGCTCTTCCATCAGACAGTGCAGAATCAAACCCCCAGGAAGCTGTTTTCTCACTCAGATTTAATGGTCTAATAGTAAAATC
R
AGAGTGAACAATGACATTCAACCAACACTTTTGTGTCCAAATTTAGAAATTCCCAAAAGGGAAAACCAACGTTCTTGGTATAAAGTCACATGTTTTTAAT
Celera SNP ID:            hCV1746350
SNP Position Genomic:     197106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23628):
TGCCTTTTCTATGTCCAGTGTTATTTTAAAACATTTATTACAGCACATGAGTAAATGTTGGGACAGTTGGCTATGTAAAAAAGAAAGACACAAAGAAAGA
Y
AAGTGAGAAAAGGGAAAAGAAAAAATAGGCAAATGTCAGGAAGCTGCTTTTTTTTATTGAAGAAGTAATTAGACAAAGCTGAGAAAATTAAGACTTAGCA
Celera SNP ID:            hCV1746352
SNP Position Genomic:     196727
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23629):
CTAATATGTATTTAGCAATAACCGTGTTCAACCCACCTGCTAGGGATAATGTATTTGGCAGATTGATTAGGGTAAGAATGATATAAAAGGCCTAATTTTT
W
AAAATTCTCTATGCACATTTATTTTTCACCCCGAGAATCTAAGTCTTGATCACCACCCTACCAGAAATCCACAGGACAATAAAAAGGCAGGTAGGAAAGA
Celera SNP ID:            hCV1746353
SNP Position Genomic:     193737
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,10)   total(A,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23630):
GGAAATAAAGGACGGAAAGGGAATACAGGCTTGGAATAAGATGATAGTGAAATCACAAATTGAGATATTGTTCTCCCTTGCTCTGTGGCAACAGAACTCA
K
AAGATAATGATAGTGAAAGCTTATGCAAGGACCATTCACTGGTAAAATGGTAGGATACATGATACTGCCATTGCCACTTCTCCCGCAGTGCAGTCCCTCA
Celera SNP ID:            hCV1746358
SNP Position Genomic:     190117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23631):
CTTAACCAAAACCAGTATCTTTTATTTTCTGCAGTATATAATTTTCTTAGAACAAATTGTCTATTTCTGAATCTACATTTTAAAATCCACATAATTTTAT
Y
TATTATACCAAAGAGGTTGGAAATAAAGGACGGAAAGGGAATACAGGCTTGGAATAAGATGATAGTGAAATCACAAATTGAGATATTGTTCTCCCTTGCT
Celera SNP ID:            hCV1746359
SNP Position Genomic:     189998
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23632):
AAGTACCAGTTTTATTTAAAAGCAAATAAATTGTTTTTAAGTAAGTAATCGTTTTTATAACATAAATTTGTGTTTTCAGTTTGATTCTTAAACCATCAAC
R
TTTGAATTACCTAGTTCGCTGGGCATGGGCCCAGAAGTTTGCCTTTTAGCAAGCATCTAGTTGGTAACTTCGCACACTAAATGGACAAGAAGCCCAATAT
Celera SNP ID:            hCV1746360
SNP Position Genomic:     189749
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23633):
CTTGTCTCACATACCCCCTTTAAAAAAAAAAAGAAATTGCAATTTCCATTAAGTACCAGTTTTATTTAAAAGCAAATAAATTGTTTTTAAGTAAGTAATC
R
TTTTTATAACATAAATTTGTGTTTTCAGTTTGATTCTTAAACCATCAACATTTGAATTACCTAGTTCGCTGGGCATGGGCCCAGAAGTTTGCCTTTTAGC
Celera SNP ID:            hCV1746361
SNP Position Genomic:     189699
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23634):
TGGGAGCTGAGGCAGGAGAACTGCTTGAGCTCAGGAGTTTGAGACTAGCCTGGGCAACTTAGTGAGACCCCATTTCTATGAAAAAGAAAAAAAAAAAAAA
A
CTCTGAGCTAGGGGCCTATGGGCTGAACTGCACTATTTTCCAATATGGAGGTCTGGAGTTCTAGAAAAACTAGAAAACTCTATAAGAAGTATAGAGGTAA
Celera SNP ID:            hCV1746362
SNP Position Genomic:     186334
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23635):
TATACCTGTTGTTTCCAGAGAAGCATCTCTGATCTACTGCCCTACTCAAGGGTTGTGGGCAGCATTAATCATAACCCTGAGCTAGGTAGGTTGGGCACAG
Y
GGCTTATGCCTGGAATGCTGGCACTTTTGGGAGCTGAGGCAGGAGAACTGCTTGAGCTCAGGAGTTTGAGACTAGCCTGGGCAACTTAGTGAGACCCCAT
Celera SNP ID:            hCV1746363
SNP Position Genomic:     186206
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23636):
TATTTTCAACTTAAGATGGGTTTATCAGGATATAACCCCATTGTAAGTTGAGGAGCATCTGTAACCAATTCCTTTATCCGCTGGAGGCTGAGGTTTGGCC
R
ATGTGTAATCCCAGATTGGTTTCACCCTGACACCCAGCCTGTTTCTAGACAGTCTCCCCATTTCAGTCAACCCATGCTTATAAAAGGGAAAACCATTGTC
Celera SNP ID:            hCV1746364
SNP Position Genomic:     185535
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23637):
TGACTACTCATGTCATTTGTATGAGATAGTCTTTTCATTTTGTTAAAGGAGATTGCATATTTTGGAACATATGCTTAAGAGTTTGCAGTTGCCTTCCTTT
Y
ACTTTTTGGGTTAAAGCCTAGTCTAAATATATTACCAAGACTTCTAATATTTCAGGTCATATATCTTAGGGGGGTGTATTGTTCCAAGATCTGATCTCCT
Celera SNP ID:            hCV7995127
SNP Position Genomic:     44861
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23638):
TGCCCAATTGTAGCCCAGCACATTTAAGGTAGGTGTGGGGAAGCTGGGATGTTTGGTAAGTGAGGTGTGTTAAATGCATTTTCAACTTACAATATTTTCA
R
CTTAAGATGGGTTTATCAGGATATAACCCCATTGTAAGTTGAGGAGCATCTGTAACCAATTCCTTTATCCGCTGGAGGCTGAGGTTTGGCCGATGTGTAA
Celera SNP ID:            hCV1746365
SNP Position Genomic:     185443
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23639):
TAGCCCTTCTAAAGTTTGTATATCTCCTCAATTTTAATTCATTCATTCAATAAATATTTATTGAATACCTACTATGTATTAAGCAAATTGGTAGGTATAA
Y
TAAGGATAGAAATCCCAAAGGGCCAGAGTCTCAAGAATTTACCAAATTATTAATTTGCCTCTGAGTTTCTACTGATTATAGTTGCAAGATATTTTAAGAA
Celera SNP ID:            hCV7995128
SNP Position Genomic:     45270
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23640):
TCTTCCCCCACTGAGTCTGGGTGCTAGGGAGATAAAGTTAAAAAAAAAAAAAAAATTTTTTTTGGCTTTCTCAAAAAAAAGAGCAATTATTAGAGCACTT
M
TGCTCTAATTATGCTCTTTCTCACCTAGAGAAAGCTGTCATTCTAAGGAAAAAAGGGAAAGATGTAAGAAATAATAATTCATGCCACACATACATACATA
Celera SNP ID:            hCV16108456
SNP Position Genomic:     359654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23641):
ACCATTCTTTTTTTCACTTTTAGCACAGTACTTAATAAATTATATGAAATATTCAGCACTTTATTATAAAACATGCTTTGTGTTAGATGATTTTGCCCAA
Y
TGTAGCCCAGCACATTTAAGGTAGGTGTGGGGAAGCTGGGATGTTTGGTAAGTGAGGTGTGTTAAATGCATTTTCAACTTACAATATTTTCAACTTAAGA
Celera SNP ID:            hCV1746366
SNP Position Genomic:     185350
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23642):
CAGCAATATGCATTCAGTAGAAAATTTATTTCAAGTACCCATACAACCATTCTTTTTTTCACTTTTAGCACAGTACTTAATAAATTATATGAAATATTCA
R
CACTTTATTATAAAACATGCTTTGTGTTAGATGATTTTGCCCAATTGTAGCCCAGCACATTTAAGGTAGGTGTGGGGAAGCTGGGATGTTTGGTAAGTGA
Celera SNP ID:            hCV1746367
SNP Position Genomic:     185305
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23643):
GAACAAAACTCCATCTCAAAAAAAAAAAAAAAAAAGGAAAAAAAAAGAAAGCCTTTGTGATACTGGGCAGCCTGTAAATCTTGGGTAGGATTGAAATACA
R
TTAGTCCTCTACTTACAATAACCAACAACAAATTTTTTACTTTATTTTGGTGAAACAGCAATATGCATTCAGTAGAAAATTTATTTCAAGTACCCATACA
Celera SNP ID:            hCV1746368
SNP Position Genomic:     185149
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23644):
TCCAGGAGGCGGAGGTTACAAAGATTGCACCATTGTACTCCAGCTTGGGTGACAAGAACAAAACTCCATCTCAAAAAAAAAAAAAAAAAAGGAAAAAAAA
A
GAAAGCCTTTGTGATACTGGGCAGCCTGTAAATCTTGGGTAGGATTGAAATACAATTAGTCCTCTACTTACAATAACCAACAACAAATTTTTTACTTTAT
Celera SNP ID:            hCV1746369
SNP Position Genomic:     185094
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23645):
TTTTCCTTATCTGTAAAACAAAGATAATTATCCCAACCACAGAGCAGGGTTGGTAAGGATGATCGCATATGTAAAACACTTAGCTAGTTCCTACCTCATA
K
AGCAGGCACTGATATAAATAAGGATTTGCTAACACTCTTACTTTTCTATGCAGGAAACCATATGATATAGACCTTCATAATAATTTTATACTCACCGAGT
Celera SNP ID:            hCV8769483
SNP Position Genomic:     264842
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23646):
CTACAAAAATTGGCTGGGCGTGGTGGCAGGCATCTGTGATCCCAGCTACTCGGGAGGCTGAGGCAGGAAAATCGCTTGAATCCAGGAGGCGGAGGTTACA
R
AGATTGCACCATTGTACTCCAGCTTGGGTGACAAGAACAAAACTCCATCTCAAAAAAAAAAAAAAAAAAGGAAAAAAAAAGAAAGCCTTTGTGATACTGG
Celera SNP ID:            hCV1746370
SNP Position Genomic:     185014
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23647):
AAACTACAAAAATTGGCTGGGCGTGGTGGCAGGCATCTGTGATCCCAGCTACTCGGGAGGCTGAGGCAGGAAAATCGCTTGAATCCAGGAGGCGGAGGTT
R
CAAAGATTGCACCATTGTACTCCAGCTTGGGTGACAAGAACAAAACTCCATCTCAAAAAAAAAAAAAAAAAAGGAAAAAAAAAGAAAGCCTTTGTGATAC
Celera SNP ID:            hCV1746371
SNP Position Genomic:     185011
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23648):
CTTCATTAGAACCTCCAACTCAGCTCTACCTGTTAAAGCAGCTAAGATATTTTGGTACATATTCTGGTTTTGTTCACTTGAAAGATCTATGCAGAAAGCC
R
GATTAGACAGAGAGGAAGGTGATCGATGAATATCTAAGCTACCAAAGTAGCAGAAACACACAGCAGAAGAGAAAATAATAGCAAACTCAGAGCTAAGAGC
Celera SNP ID:            hCV1746372
SNP Position Genomic:     184136
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23649):
TACCACAGAACAAAGGTTGGTGGAACCAATTCTACTTTTGCAGAATTAAGAAAATATTTCAGACTTAGACCTAGACTGAGCTGGGAAGGATCTTAGAGCT
M
ATCTCCTCTCTAATTCCCTCTTGGTTATTTCCCTTCCTCTTTTTATTTTTATTTTTTATTGTGGTAAGACAATTTAGCATGAGATCCACCATCTCAACCA
Celera SNP ID:            hCV7995135
SNP Position Genomic:     45786
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23650):
GTTCTAAAATAATGTTTTGGAATATCCTTCTCTTGCCACCTTTAAAACTAGACTGAATTCTCATCTTGCTTCCTAGAGCAGCGTTTCTTCTAAAAATTTT
R
AACTTGTTCCGTTGGCTCTACATACATTTTTGTCAATGCCAGTTTAGTGTGGTAGAATAGATAATCTGCTGCTTACTGGGTGTGTGACCTTAAGAATATT
Celera SNP ID:            hCV1746373
SNP Position Genomic:     183447
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23651):
TATAGCTGAGAGATCATTGCCAAATCAATATTAGGAAGCTTTGCCCCTGTATTTTCCAGTTGGAGTTTTATAGTTTCAAGTCTTATATTTAAGTCTATAG
Y
CCATTTTGAGTTAATTTTTGTCTATGGTGAAATTTTGATAGCAATTTTATTCTTTCACATGTGGATATCCAGTTTTCCCAGCACCTTTCCCCATTGTGTA
Celera SNP ID:            hCV7995136
SNP Position Genomic:     46345
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23652):
AGTACAATTATATTTGTTAATCAGGTGGAAGCTAAAAAAATTACTGACAGGTTTCCCATCTCTTATTTTTATACCGTAGTTTTAGTCTTGGTTGAGATGT
R
TGCATAAACATCACTATCACCTGACATGTATCACCCACGCAAGTACATAGTGTGACCCTTCTGACAGCTTAATTTCTTGAGGAAAAATGATACAATGATG
Celera SNP ID:            hCV8769630
SNP Position Genomic:     221933
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23653):
ATTGCAGAATATAAGGGCCTGAAGCAACTGGGTGGTATAATTGATCCACTGTGAAATCTATATGCACACAGCATGCAGATTCATCGTAGCATGCTCTGGG
K
TGTGTGTGTGTCATTCCACATGCGTAAAATCAATTAGAGCATTTCATTGTTCAGCCCTGCCTGGGTCTCATTATTAGCCAACATTGAGTCACAGCCTTGA
Celera SNP ID:            hCV11263360
SNP Position Genomic:     254868
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,6|G,7)      total(G,7|-,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23654):
AGGTGATATTATAGTACTGAATGCCTTTCCCTGATGATTAATGATGTTGAGCATTTTTAAATATGCCTGTTGGCCATTTGTATGTCTTCTCTTGAGAAAA
R
TCTATTCAGATCCTTTGTTTATTTTTCAGTCAGATTGTTTTCTTGCTATTGAGTTGTTTGAGTTTCTTGTATATTTTGGGTATTAGCCCCTTATCAGAAG
Celera SNP ID:            hCV1746378
SNP Position Genomic:     175921
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,6)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23655):
AGATTGAGCCCATCTGGTTGCTTTCATGGAAAAATATATAGGAATAGCTTTCTAGGTCTTTTTGGAAACTCTCAAAAGTGTACATTTATTTGGTGGGGAA
Y
TGGAACTACAAAGTGGTAGTACAATTATATTTGTTAATCAGGTGGAAGCTAAAAAAATTACTGACAGGTTTCCCATCTCTTATTTTTATACCGTAGTTTT
Celera SNP ID:            hCV8769631
SNP Position Genomic:     221815
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23656):
CAAGGCATGGCAGGATTTTATTTTTGAGATGTGGACATTCTCTTAAAACAGTGTAATTGAAACAAGTTCTCTTTTAATTTTTATTAATTAATTTTTAATT
R
ATGAGTAAAAACTAGATTCATCATATACAACATGTTTTCAAATATGTATACTTTGGGGAACAGCTGAACTGAGCTAATTAACATATGTGTTACTTCACAT
Celera SNP ID:            hCV1746379
SNP Position Genomic:     175003
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23657):
TCAAAGCAGACTTTCCAACGCCTCCTGGGCCAAGAATGACTAGCTTATACTCATGCATGATGCAAACTTGTCGAAACCTAGTACCTCTCACGCTGTCACC
R
GGTTCCCGCAGCCAGTGTCACTCCCTCCGGGTTGCTACTCTCGGCACCACAGCAGTCCTGCCGCTGCCGCCGCCGCTCCAGCTGGTTTACACACCTGACT
Celera SNP ID:            hCV11263364
SNP Position Genomic:     251298
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23658):
AGGCAATTTTTTAATATTCTTATTGTTCAAAACATTTTAGGAGACATTTTTTCTAAACAAAATTCAATGTGCTGCATTGCTTTTTTAAAGTACAGTACTT
Y
TGAAAACTAGAAAAAAGGTAATGAAAGTAACTCAGGAACTTTTAAAAGAAAGTGTTCCCTTTATAATATATTCATAAGAAAACCGGAGAAGCTGAAAAAT
Celera SNP ID:            hCV16021590
SNP Position Genomic:     209181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23659):
CAAAACCTTCCAGCTTACAAATCAATCAACAGTAGCAGAGTGGAGTTTCCCAAAATAAATCTTTTTTTTTTCTAAGTTTTTTGCTTTCCTTACAATCTAG
K
GTTTCCAAAGTCCTAAGGTAACAATTTAAGAGCAGGCAATAATTTGGCTGATGCTTTGAAATGATGATTATTGCTTCCTAAGTATACAAGATGCCTTCTT
Celera SNP ID:            hCV8769492
SNP Position Genomic:     262797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23660):
ACTGAACAAATGTCTATTGAATGCCTGCATTGTGCCAAGCATTGTGTGGGAGATACAGTAATGAACAAGACCCACTTTGTTCCCTGCAGCAGCCAAAGCC
V
GAGTTTGGGAATGGTCCTGGAGGGGTCACTCTATTTTCTAAATCTTGGATGCCTTAAGTGCTGCTCTTCTTAAGACACTTATTATCTTAAGCCTCCTGAG
Celera SNP ID:            hCV8769498
SNP Position Genomic:     262458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23661):
CAACAAAGAAGGAACAATTCTAATCAGAAAAATACCTTGAGTCAAATTTAAGTTCCAAAGACAAAGCACCTCTATTAGTTACAAAACAGGAACTGGCTTT
W
ACTATAAAGAGCCACGAGAAGTCTGCAGGGAGCAAGACCTACCTGGCCATAAGAAAAATGTAGGTGAAAGCATTCAGGCAGCAAGGATGGCTCAACATTG
Celera SNP ID:            hCV8769499
SNP Position Genomic:     262124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23662):
TACTGGCCTATGCTGCCTGAGTCATTTTCTACAAATTGGATCATGTTACCCCCTACTTTGAAACCCCTATTGATACCTCATGGTTTTAAGATTATGTCCA
R
AGGCACTTCACCATGTGCCCCTAATCTAATGTCTCAGAATAATTTTCCACCTACTCTTCTTCATGGACCCAAATGGTGCACCGTCTAAGGACTGCTCTGA
Celera SNP ID:            hCV221025
SNP Position Genomic:     293101
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23663):
TATGGCTTATTCTGGAAAATGTTCCATGTGTTGATAGGAAAAGTATGTATTCTGTAGCAGTTGGATGAAATATTCTGTAAATGTCTGTTACACCATTTGG
Y
CTAGAATATAGTTTAACCCTGATGCTTTTTTGTTAAATTTCTGTCTGGATGATCTGTCCATTGCTAAAAGTGGGGTGCCCTACTATTTTTGTATTGCCAT
Celera SNP ID:            hCV11780893
SNP Position Genomic:     123744
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23664):
AGTCATTTTCTACAAATTGGATCATGTTACCCCCTACTTTGAAACCCCTATTGATACCTCATGGTTTTAAGATTATGTCCAAAGGCACTTCACCATGTGC
Y
CCTAATCTAATGTCTCAGAATAATTTTCCACCTACTCTTCTTCATGGACCCAAATGGTGCACCGTCTAAGGACTGCTCTGAGTCATCAGAACATGCCATG
Celera SNP ID:            hCV221026
SNP Position Genomic:     293120
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23665):
TCATTGCCCAGGGCCCTTAAATTTAAATATCCCTCCCCCTGAACATATAGGCATTATGAAATGGAAAAGAATCCGAGAATCTGATTGCGCGTTTTCATTC
S
TAGCAAAGCCACCATGTACACACACGTACAGGCCAGTCACATTTTAGAACACATGTTTCAGGGTTCCATGGGGGATATGATGCTGACCATTCTTTTGTTT
Celera SNP ID:            hCV25961881
SNP Position Genomic:     36690
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|G,1)   total(C,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:23666):
CATCGTACCCACTCCCTGCTATAAACCCAAAGGTAACTTGACAGGTGCTCTATTACCAGCCTGTTAATTGTTGTGTGTAGTCAGGTGTGTTTTAAACTCC
Y
TGGAATATTTTTAAGTATCCCAAGTATTCTTAGTAAGAATTCTTTATAACTTAAACTCTACTAAAGGAATTTGATTATCTTAAAGAATCTTTCAAGTGAT
Celera SNP ID:            hCV25970849
SNP Position Genomic:     214714
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,20)   caucasian(T,18)   total(C,6|T,38)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23667):
CTTGCCTGAGTTCACACTGATGGGAAGCCAGCACTGAAAATCACATCTCTTTACTTCTGGTCCAGAACGCTTTTAATATTTTGTGTTGCTTCTAAGAGTA
K
ATATCTTTTTCTTCAGTGTTTCTTTAGAAAACACTGGGAATCAAATAAATGTAAAGTTATTCTAAGATAGATTATGTAATTCTTAAATTAGTTTGCTTAA
Celera SNP ID:            hCV1746382
SNP Position Genomic:     174247
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23668):
TACCCCAAATTTCTGTCTGTATCTCCCCACCTCTGTGTTCCTTGAGAGAAGAAACTGAATTGTATTTGTCTTCATATCTCCATAAGAAGAACCTAATAAG
Y
ACTAACAACTGCTGGATAAATAAAGAATTTTTGCCACACAACAATTGTTTAAATAGAGCAGATGCTGACATCTCTATTATACCCACAAGGAAACTTAGCT
Celera SNP ID:            hCV1746383
SNP Position Genomic:     174029
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23669):
CCCTGATTTTCCCTTCTATATGCCACCGGTCAGACTTCATCCAAACTATCTCTCAACATTGGTTTTTCTCCTCCATCCTTGCTGCCACTGCGTTAGCGCA
S
GCCTTTACTTTTTCTCATCTGAACTAGTACCATGGACCCTGAGCTAGTTTACCAGCCTCTGATTTCATTGCCTATGTTACCTTCAGAGTGCGTTTCCTAA
Celera SNP ID:            hCV1746384
SNP Position Genomic:     173507
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,10)      total(G,10|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23670):
TCACCCTGATTTTCCCTTCTATATGCCACCGGTCAGACTTCATCCAAACTATCTCTCAACATTGGTTTTTCTCCTCCATCCTTGCTGCCACTGCGTTAGC
R
CAGGCCTTTACTTTTTCTCATCTGAACTAGTACCATGGACCCTGAGCTAGTTTACCAGCCTCTGATTTCATTGCCTATGTTACCTTCAGAGTGCGTTTCC
Celera SNP ID:            hCV1746385
SNP Position Genomic:     173504
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,7)   total(G,7|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23671):
GGATTCAAGCAATATTGCTTACATTGGAACAGCTCACAGCATTGTCAAATGTGTTACATCTATCCAGTTGCCTTCTGCACATCACTGCTTGAATAACCCA
Y
AGGCACAACAAGCCCGACATGCGTAAGTTTAACTTGAGCCCCAGAAACCTGCTTTATCATCTTTATTTTTTTAATCTTATAAATGAAGACACTGTCTGCC
Celera SNP ID:            hCV1746386
SNP Position Genomic:     173280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23672):
AGTTAAATGATTTCTGTTAAGCAAGAAAATCCAGTAAAGAAGTGAAAGATGTCTTTATTCTTTGAAGCCCTTGGAGTACCATTAAATAGACCAAGTATAC
Y
ATAGTAATTTCCCTAGTGGCCTTGTGAGAGTTAATACACATACTGAAATTATATAACTGGATTCAAGCAATATTGCTTACATTGGAACAGCTCACAGCAT
Celera SNP ID:            hCV1746387
SNP Position Genomic:     173121
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23673):
CACATGAACGTGAGCAAGAAGCTACAAGCCATCCGAGGTAGCTCACAATAGAAATGATGCTGTAGGTAGTTAAATGATTTCTGTTAAGCAAGAAAATCCA
R
TAAAGAAGTGAAAGATGTCTTTATTCTTTGAAGCCCTTGGAGTACCATTAAATAGACCAAGTATACTATAGTAATTTCCCTAGTGGCCTTGTGAGAGTTA
Celera SNP ID:            hCV1746388
SNP Position Genomic:     173054
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23674):
AAGTGATTTAATTTTCAGCGAGCTTCACCTCAAATAGCCAAATAGAACAAAGATCCCTTGACTGGTAAGAAGTGGTATAAATTTACCAGGAGTCCTCGTG
W
GGGGGGGGGGGGGGCGGGGAAAAAGAAAACTTAGATTAAAAGTTTTCGATGGGAAGTGAAGAAAAGTAAACAAGGCTTTGCCTACGAGTCTCCTCTCTCT
Celera SNP ID:            hCV8769641
SNP Position Genomic:     214381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23675):
CACTCACAGCAGATTTCATTGTCAAGGTGAGCCCTATTTAGATACCTCCTTTTCAAGCCACATCCCAAATGATGTTACTTATAATTTCCTGAGCAGAGAG
Y
GATTTTTGGTTCTGACATATGTTTGGAAAGCCCGTTTGTTACCCAGGAAATGTTTAATCTGAGGGTGTTGAGCTAGCTGCATCCTGGACCTTATGAGGAC
Celera SNP ID:            hCV1746389
SNP Position Genomic:     172174
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,39|T,1)   total(C,65|T,3)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23676):
TGCTCATCATTTCCACTCCTGTAGAAATGCCGAGTGCAAACCCACTGCACCTGCACACCATAGTGATCTCAGGGTGGCCAAGAGCTGGTGGCTGACTAGT
S
CTGTGTGAGCATGGGTTTATAAATGCACTTGAGTACCAGTTTAGTTTCTTTGCCATCAGCGTTACAAGTGATTTAAGTAACAGATATTTCAGAGAAAGGG
Celera SNP ID:            hCV29146900
SNP Position Genomic:     131465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23677):
GCAATATAATTTAGCTATAATCGTAGTTTAAATTTTTTGATATCCATGTAGGGGTATTTCCCATATTTTTGGAAGTAGCGGTCATTAGCAAAGTAACTAA
R
TAAAATACAGTGCTGGTAGTCAAAATTAAGCACACTCTACAGTCTCTTTTCTCCTTTCTTCTTTTTGGTGCTTGGTTTGAGACTTTGCACACAGTGGGTA
Celera SNP ID:            hCV8769642
SNP Position Genomic:     214138
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   no_pop(A,-|G,-)   (A,-|G,-)   Caucasian(G,25|A,59)   African-American(G,13|A,71)   Asians(G,17|A,67)   total(G,55|A,197)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:23678):
TCTGATCTTTGACAAAGATGACAAACACAACCAATGAGGAAAGGACTCCCTATTCAATAAATGGTGCTGGGATAACTGGCTAGCCATATGCAGAAGACTG
R
AACTGGACCCCTTCCTTATATCATAGACAAAAATTAACTCAAGTAGATTAAAGACTTAAATGTAAAACTAAATACTATTAAAAAAAAACTGTGGAAGACA
Celera SNP ID:            hCV29146901
SNP Position Genomic:     119601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23679):
AAAATGAGGGGGAAGTTATGACATTCCAGGGAGCTTGTTGCCACTATTCCTGATTACAAGACATATTAAATGGAGTCCTTTGAGTTATAATAAAAAGATG
S
TAGTTAACTCCAAGCCACCTGAACATATAAAGACTCTCCAATAAAGGTAAATAGACGGGCAGACATTAAAACCAGTATTATTTTGTTTCATAGCTCCACT
Celera SNP ID:            hCV26507018
SNP Position Genomic:     433780
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23680):
AGCATGACCAAAAGTAAATGATGTTTTTTTAAAGTGTCTTTCTTCAAGTTTCTTCAAGAAGCCTCTATTGTTCCCCAGATAATGTTCCCTCAAATAGCAC
R
GGGAAGCAACTGCCTTTCAAGGGTAATTGAGGCTGAATGAATGATCCCGAATCTGTAAAAGCTGCTTTGATGATAGAGCTCAGTAGACCAGAAGTTTGAT
Celera SNP ID:            hCV8769643
SNP Position Genomic:     213457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:23681):
CTGCCCTTCCAGAATTTTCACTGTGAGAGGAGATAAGTAAATATGAAAGTGTACTATAGTCACTATACTATACTGCCCTCACTGTAAATGGGGACCTCTT
K
CTAAAATACAGATTTGGTTTCATTTATCATCTGCTTGAATCATTTCAATTGCATTTTTTTTTTGCCTTCAGGTTAAAAAAATCCCAAATTCCTTTACATG
Celera SNP ID:            hCV29146902
SNP Position Genomic:     113602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23682):
GATTGTAAGCTTCCTGAGGCCTCACCACAAGCAGTTGCTGGTGCCATGCTTCTTATACTGCCTGTAAGACCATGAGCCAAATAAGCCCTTTTTCTTTATT
T
AAAAAAAAAAAAGAAAAATTATAAAGTACAGAAAGAAAAAACTATTAACCAAGAATTATCTGGCAAAACTGTCCTTCAAAAATGAGGGGGAAGTTATGAC
Celera SNP ID:            hCV26507019
SNP Position Genomic:     433601
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23683):
ACTAGAAGGCAGAGAGTGCTGGTGTTTATCAACATTTTCTAATTATGCTCCTTACATTATTTCTTCAGTTTATCCCATGAGCTGAGATTTTGTCTAGCTG
Y
AATTCTGTCATTAATATTATGAAAACAATAGGTTTAATGAATATACCTTTTCAAACCACATTCTCCCCCTTTCTCTCCCTCTCTCCCTCCTAGATTCTGA
Celera SNP ID:            hCV29146903
SNP Position Genomic:     110931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23684):
TGGCATCCCAGAGGGAGTTGCCTCACACAGGCTGAGAATAGGGAGTTGTCAGAGAAGGAGACCAGGAAGTGACACTTGAGCTTTGAAGGAGTTAACCAGG
R
GAATAAGAGGTGACCATATTGGATCATGTCAGCCAGAGGAGTGAAACATTGAGAGAATGGCAAATATGCCAACATCAAGTGTGGGCTGGATGGTAACAAA
Celera SNP ID:            hCV29146904
SNP Position Genomic:     88432
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23685):
AGATCGTTTTTGACTACATGCAAAGCATTGCTCTAGGAGCAAATGAAAATAAGAAAATGTATGTAAGACTTTGTACTCTCAAATGTTTTAAAATTGGAGG
R
AGGAAGAGAATAAAGACAAAAATATAGATAGGATTTGATGCAGAGTAAGTTACAAAAGTACAACAGAAGAGCTCAGAGGACATCTATGCAATCTATTAAT
Celera SNP ID:            hCV29146905
SNP Position Genomic:     79894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23686):
ATCTTAGCCAAAAGGCCGAGAAGCGATAGTGAATGATTATGAAAGAAATAAAGCAGAGTAATGGGATAGAGAGTGACACAGGGATGGAGGGTTGCTCTAC
M
TGAGGTGGTCAGGAAATTCTCTCTGAGTTGACATTTAAATGTCCTTAGTATGTTTGGAAGGTGAGGCATGAAGGAGCCCAGCTTATTTGGGGGCCTGTGG
Celera SNP ID:            hCV29146906
SNP Position Genomic:     73125
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23687):
AGTTTCATATAGTGAATGATTATGCTACACTTGATCTTAGCCAAAAGGCCGAGAAGCGATAGTGAATGATTATGAAAGAAATAAAGCAGAGTAATGGGAT
R
GAGAGTGACACAGGGATGGAGGGTTGCTCTACATGAGGTGGTCAGGAAATTCTCTCTGAGTTGACATTTAAATGTCCTTAGTATGTTTGGAAGGTGAGGC
Celera SNP ID:            hCV29146907
SNP Position Genomic:     73092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23688):
GTCTGCATGAGTCAATTATCTCCACCTGGTTCTTCCCTTGACACGCAGGGATTATGGGAAGTACAACTTAAGATGAGATTTGGGTGGGGACACAGCCAAA
Y
CATATCAGACTCTGACCTCATATTACTTAAAATCCATAGCACTCCATGAGCCAAAATCTTTATAGCTTGTAGAATCAAGTTGATGCTGAATTTTTTTAAT
Celera SNP ID:            hCV29146908
SNP Position Genomic:     68651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23689):
TGTCAGGAGAAAGAAGAATGAGAACTGAGTGAAGGGAGAAGCCCCTTATAAAATCATCAGATCTTGTGAGAACTTACTATCATGAGAATAGCATGGGGAA
R
ATTGTCTGCATGAGTCAATTATCTCCACCTGGTTCTTCCCTTGACACGCAGGGATTATGGGAAGTACAACTTAAGATGAGATTTGGGTGGGGACACAGCC
Celera SNP ID:            hCV29146909
SNP Position Genomic:     68547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23690):
TTTTTGTATTTGAAATATAATTCAGCAAAATGAATGTGGGAGTGAAAGATACCCTGTTTCTCTTTTGCTCTTCACTCCCAGAAGCTGGTACAGTGTGAAA
S
CAACCTTAAATATTTTGGACCAAACCAGAATAAGATGAGGCAATCTAGTCTGCCCCCTTGGCTCATCTTTAATTAGAGGTACCTTGAGAAGGACAGCTGT
Celera SNP ID:            hCV1746390
SNP Position Genomic:     170459
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23691):
TATAGCTAAATCATTTTTCCTTGTGTGTTCTTTTTTTGTATTTGAAATATAATTCAGCAAAATGAATGTGGGAGTGAAAGATACCCTGTTTCTCTTTTGC
Y
CTTCACTCCCAGAAGCTGGTACAGTGTGAAACCAACCTTAAATATTTTGGACCAAACCAGAATAAGATGAGGCAATCTAGTCTGCCCCCTTGGCTCATCT
Celera SNP ID:            hCV1746391
SNP Position Genomic:     170427
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23692):
GCTGAAGAATTGGCCTTGTTTGATTTAATTATCCTAAAGATTTGATGAAAAGCAAACTGGAACCTGCTTTTTTCTCCCAACAAACATACTATTGGTAGCA
W
ATGTATAGCTAAATCATTTTTCCTTGTGTGTTCTTTTTTTGTATTTGAAATATAATTCAGCAAAATGAATGTGGGAGTGAAAGATACCCTGTTTCTCTTT
Celera SNP ID:            hCV1746392
SNP Position Genomic:     170323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,3)      total(A,3|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23693):
ACTAAAGAGCTTCTGCTCATCAAAAGAAACTATCATTAGAGAGAACAGACAACCTACAGAATAGGAGAAAAATTTTGCAATCTATCCATCTGACAAAGGT
S
TAAATCCAGTCAAGAGGAACTTAAAAAAATTTACAAGAAAATAACTCCATTAAAAAGCAAGCAAAGGACATGAACAGACAGTTCTCAAAAGAAGACATTC
Celera SNP ID:            hCV26507020
SNP Position Genomic:     432506
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23694):
AGGGGATATGGTAGCATTTTCTGTAAAATTCAGTTTCACTGAAAGGCTTCACTTCAGTTGGTTCCTTGAGCATTTCTGATTTCCTCCACTGTGATTGTTC
C
TGGGTTTCCACAAAGCCATCTATCGTCTGTCCTTTCTCCCCTCCCACACAAATGCCTGTGAAACCAATTTAGATAGCAAGTAGTATTTTTTAGTAGTTGG
Celera SNP ID:            hCV1746393
SNP Position Genomic:     169558
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23695):
GGAGCTGAAAGTACTAGAACTGAATTGAAAATTTTACTGGCGGGATTCAACAGCAGATTTCGCAGGCAGCAGAAAGAATTTTCAAACTTGAAGATAGATA
G
GCCAATAAAAATAGAAGAAAATAAACAAACAGAGTCTAAAAGAGTTGTGAGACACCCTCAAGTGAACCAACATATACATTTTGAGAGTCTCAGAAGAAGA
Celera SNP ID:            hCV26507021
SNP Position Genomic:     428494
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,6)   total(G,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23696):
CTGTGGTTGCAATTCCCTATGGAAGTAGACATATTCGCCTTGTCTTAAAAGGTCCTGATCACTTATGTAAGTAACTCCATTGTTTTCCTTTGGGAATTGG
K
AATTGTAGTCATTATTATTTATTTTGTCTTCCCAGAAAAGATTAAAACACAAGAATACAAATCTTTCTACTCTATCATAATATGATATTTTGAGTACCTC
Celera SNP ID:            hCV1746394
SNP Position Genomic:     168740
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23697):
GGGAGCTGAAAGTACTAGAACTGAATTGAAAATTTTACTGGCGGGATTCAACAGCAGATTTCGCAGGCAGCAGAAAGAATTTTCAAACTTGAAGATAGAT
A
GGCCAATAAAAATAGAAGAAAATAAACAAACAGAGTCTAAAAGAGTTGTGAGACACCCTCAAGTGAACCAACATATACATTTTGAGAGTCTCAGAAGAAG
Celera SNP ID:            hCV26507022
SNP Position Genomic:     428493
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23698):
TGGGAGCTGAAAGTACTAGAACTGAATTGAAAATTTTACTGGCGGGATTCAACAGCAGATTTCGCAGGCAGCAGAAAGAATTTTCAAACTTGAAGATAGA
T
AGGCCAATAAAAATAGAAGAAAATAAACAAACAGAGTCTAAAAGAGTTGTGAGACACCCTCAAGTGAACCAACATATACATTTTGAGAGTCTCAGAAGAA
Celera SNP ID:            hCV26507023
SNP Position Genomic:     428492
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23699):
TTGGGAGCTGAAAGTACTAGAACTGAATTGAAAATTTTACTGGCGGGATTCAACAGCAGATTTCGCAGGCAGCAGAAAGAATTTTCAAACTTGAAGATAG
A
TAGGCCAATAAAAATAGAAGAAAATAAACAAACAGAGTCTAAAAGAGTTGTGAGACACCCTCAAGTGAACCAACATATACATTTTGAGAGTCTCAGAAGA
Celera SNP ID:            hCV26507024
SNP Position Genomic:     428491
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23700):
GAGCGGATCATGAGGTCAGGAGTTCGAGACCAGTCTGGCCAATATAGTGAAACCCCATCTCAACTAAAAATACAAAAATTAGTCGGGCGTGATGGTGGGC
R
CCTATAATCCCAGCTACTTGGGAGGCTGAGGCAGAAGAATTGCTTGAACCCAGGAAACAGAGGTTGCAGTTGAGCCAAGATCACACCACTGCACTCCAGC
Celera SNP ID:            hCV1746397
SNP Position Genomic:     167400
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23701):
AAAGTCCCAAGGACAGCCTTGAGTGAGACTCTGGGAAATTAAGACACTCAAAAGCAGCTATGTATATGGAGAAGGCCCATACACACCACATAAAAGAAAG
A
TCTGAGAAGACCTTACGCTTTCACCTCAGACTGATTACTATGCTCAGAGTATACCCAGCTAATCAGTGATGGATTGCCCAATCACAGAGCCAGTCTACAG
Celera SNP ID:            hCV26507025
SNP Position Genomic:     428126
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23702):
TTTGGGAGGCTGAGGTGAGCGGATCATGAGGTCAGGAGTTCGAGACCAGTCTGGCCAATATAGTGAAACCCCATCTCAACTAAAAATACAAAAATTAGTC
R
GGCGTGATGGTGGGCGCCTATAATCCCAGCTACTTGGGAGGCTGAGGCAGAAGAATTGCTTGAACCCAGGAAACAGAGGTTGCAGTTGAGCCAAGATCAC
Celera SNP ID:            hCV1746398
SNP Position Genomic:     167384
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23703):
TAAAGTCCCAAGGACAGCCTTGAGTGAGACTCTGGGAAATTAAGACACTCAAAAGCAGCTATGTATATGGAGAAGGCCCATACACACCACATAAAAGAAA
G
ATCTGAGAAGACCTTACGCTTTCACCTCAGACTGATTACTATGCTCAGAGTATACCCAGCTAATCAGTGATGGATTGCCCAATCACAGAGCCAGTCTACA
Celera SNP ID:            hCV26507026
SNP Position Genomic:     428125
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23704):
CTCTTGAGCCCGGGAAGCTAAGGCTGCAGTGAGCTGTGATCACACTGTGATAGCGAGACCCTATCTCAAAATAATAATAAGGGCTGAGTGCAGTGGCTCA
Y
GCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGAGCGGATCATGAGGTCAGGAGTTCGAGACCAGTCTGGCCAATATAGTGAAACCCCATCTCAACTAA
Celera SNP ID:            hCV1746399
SNP Position Genomic:     167266
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23705):
TTTGGAAAAAAGAGATTTAATTGACTCACAGCTCTTCAGGGGTGGGGATTGTAAGTAGGAAACTTACAATCATGGCAGAAGGGGAAGCAAACACATCTTT
Y
TTCACAGATGTCAGGAGAAAGAAGAATGAGAACTGAGTGAAGGGAGAAGCCCCTTATAAAATCATCAGATCTTGTGAGAACTTACTATCATGAGAATAGC
Celera SNP ID:            hCV29146910
SNP Position Genomic:     68438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23706):
CTAAAGTCCCAAGGACAGCCTTGAGTGAGACTCTGGGAAATTAAGACACTCAAAAGCAGCTATGTATATGGAGAAGGCCCATACACACCACATAAAAGAA
A
GATCTGAGAAGACCTTACGCTTTCACCTCAGACTGATTACTATGCTCAGAGTATACCCAGCTAATCAGTGATGGATTGCCCAATCACAGAGCCAGTCTAC
Celera SNP ID:            hCV26507027
SNP Position Genomic:     428124
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23707):
ACCTAATACAAATGCTATATGCATTTCTTACACCAAATTATATAATTAATTTTCTTAATAACAAAGACCAAGTCATATTCATTCTTCTTTGTATTCTTCA
Y
AGTAATTTCATTGCCAAACACATCACAGAAGCTCTGTGGACGTTTATTGAATAAAAAAGTAAATTAGGAGGCATTAAAGCATTGTGATCATGAGTGTGTG
Celera SNP ID:            hCV29146911
SNP Position Genomic:     64448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23708):
TCTAAAGTCCCAAGGACAGCCTTGAGTGAGACTCTGGGAAATTAAGACACTCAAAAGCAGCTATGTATATGGAGAAGGCCCATACACACCACATAAAAGA
A
AGATCTGAGAAGACCTTACGCTTTCACCTCAGACTGATTACTATGCTCAGAGTATACCCAGCTAATCAGTGATGGATTGCCCAATCACAGAGCCAGTCTA
Celera SNP ID:            hCV26507028
SNP Position Genomic:     428123
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23709):
AATGCTGGGGAAACCAGCCTCCCAAATATTTTGGCCAAGAGCCCAACCATGAAGCTAAACACCTGAAGCCTAGGAGCTGAAAGAAACCATAGCAGTCATG
Y
TTACCACCCTCCTTATCTAGGGACACAATCCTTTAGCCAAAACCACTGGGGCAGATGTCTTTCAGATTCCAAATTTTTTTGTACTTTAGAAAGATGTTAG
Celera SNP ID:            hCV16020012
SNP Position Genomic:     281006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23710):
ATTTGGCCCTCAGGGAGTCAGCTGCTATTTAGAACCAAGGGTTTATATCAGATCATAAATGGTTGGAGTAATCCACAGCAGCCTGCTCCATCTCAAATTA
M
ACCAAGCCCAGAAAATAATTTTATTTTGAACTGTAAGGGTTTGATGGAAAAATCTCCAAATACATAATGAATTAGAATCCAAATAGAGGTCCCTTGACGT
Celera SNP ID:            hCV8769653
SNP Position Genomic:     209483
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,3)      total(A,3|C,3) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23711):
GTTGTTGAATTGATCCCTTTACCATTATGTAATAGCCTTCTTTGTCTCTTTTGATCTTTGTTGATTTAAAGTTTGTTTTATCAGAGACTAGGATTGCAAC
M
CCTGCCTTTGTTTTCCATTTGCCGCGTAGATCTTCCTCCATCCCTTTGTTTTGAGCCTATGTGTGTCTCTGCACATGAGATGGGTCTCCTGAATACAGCA
Celera SNP ID:            hCV29146912
SNP Position Genomic:     58963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23712):
TAAGGTAGAATCATGTTACACTGGAGTGAAAACAGTAATTCACTCTGATTAGATACAGTTTATGGGTTTATATTATGTCTTTCTTTCCCTCCCTTTGTTC
Y
TTCCTATTTTTCCTCTCAATAGGACCCTAGTCATTAAAGCACTGTTGCTAACTATTAAACAAACAAACACTGCCTAAAGTATTATTGCACTACCACTAAC
Celera SNP ID:            hCV8769654
SNP Position Genomic:     208896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23713):
TCCCTAGGGCCTTGTTAGTGCCTCTGGCACACTGGGATGAGCTAACATGGCACCAGGGATGTGTCTGTTCCCAGCCAGCTCACCTACTGATGGATGATGC
Y
TGGCAGCATGCCACCTTGTTGTTTCTTGTATTATTACAACAGAAAGCATTTTCAAAAGCCACATTTATCAAGTCATCATAATTGTTTGGCTTGTATATCT
Celera SNP ID:            hCV29146913
SNP Position Genomic:     53405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23714):
ATAATACTAGCCTGCTCAGACTGTAAGCTTATCATTCAAAAACCACTTTAAGGTAGAATCATGTTACACTGGAGTGAAAACAGTAATTCACTCTGATTAG
R
TACAGTTTATGGGTTTATATTATGTCTTTCTTTCCCTCCCTTTGTTCTTTCCTATTTTTCCTCTCAATAGGACCCTAGTCATTAAAGCACTGTTGCTAAC
Celera SNP ID:            hCV8769655
SNP Position Genomic:     208848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23715):
TATGCAAGGACCATTCACTGGTAAAATGGTAGGATACATGATACTGCCATTGCCACTTCTCCCGCAGTGCAGTCCCTCACACAGCCTAAAACCATCAGCA
Y
TACCATATACTCTTGTTCGAAGCTGCAAGGGACCAGAAAGCACCGCACTGTCACATTACTTCTACTTTCCTGTTGACTCCTGCAGATTCGTAACTCGGGC
Celera SNP ID:            hCV25966985
SNP Position Genomic:     190239
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,38)   total(C,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:23716):
AGAGCAAGTGCTCCTGCACCTGCCCTTCACCATGGTGACCGAGCAGCGGCGCCTGGACGACATCCTGGGGAACCTCTCCCAGCAGCCCGAGGAGCTGCGC
R
ACCTCTACAGCAAGCACCTGGTGGCCCAGCTGGCCCAGGAGATCTTCCGCAGCCACCTGGAGCACCAGGACACGCTCCTGAAGCCCTCGGAGCGCAGGAC
Celera SNP ID:            hCV16196067
SNP Position Genomic:     309943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:23717):
CCTGGTCTTAGCTCAGAAAAGTAAGTTCCTGCACAGGTAGGATGGTTCTCCTACTGCAGTGAAAGGGCCAGGGCTGAGACTGGACTTCTTGGAATCTGCT
K
TGGGACAGAAGTAGATGAGCCTGTCAGGGAGGCTCAGACTGCCAGGCTTGACGTATGGACAAGTCTCCCTCTAAGCTGGGATCTTAGCTGAGGAAGGCTG
Celera SNP ID:            hCV8769800
SNP Position Genomic:     128245
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23718):
AAAGTCCAGCTCAAATCTGTACTGTGATGGTTAAATATTTGCTATATTTATATATCTTTGTAGAAAACAAAGTCACTTTCTGGTGAACCAATGAGGAAAA
W
AAAGTACTGTAGCCAATATCTTTAAAAATAAGATGACCTGTGGCATTAATTGTGCACTCTTTTATGTCAGACACTGAGCTACTTTACTTTCATTATTTCC
Celera SNP ID:            hCV26507030
SNP Position Genomic:     421659
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;JBIC-allele(A,378|T,715)   total(A,378|T,715)
SNP Type:                 INTRON


Context             (SEQ ID NO:23719):
AAGTGTTGGTTGTGCAATATGCAGTCAGGCATTGTCATGAAGAAAAATTGGGCCCTTTCTGTTAACCAATGCCGGCTGCAGGTGTTGCAGTTTTCAGTGC
W
TCTCATTGATTTGCTAAGCATACTTCTTTGAGATAATGGTTTCACCAGGATTCAGAAAGCTGTAGTGGATCAGATTGGCAGCAAAACACCAGACAGTGAG
Celera SNP ID:            hCV8769801
SNP Position Genomic:     124768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23720):
TGCATAGGCACCCACACATCCACAGAGGGTAGCCGCCTGTCTTAGTCCAGTCAGGCTGATATAACAGACATATAAAAACTAGTGGCTTATAAACAAACAA
A
ACAAATTTGTTTTTTACAGTTCTGGAGTCTGGCAAGTCCCAGGTCAGTGCAGCCGCAGATTTGATATCGGTGAGGGCTTGCTGTCTGCTTCATAGATGGC
Celera SNP ID:            hCV26507031
SNP Position Genomic:     418973
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23721):
TTGCATAGGCACCCACACATCCACAGAGGGTAGCCGCCTGTCTTAGTCCAGTCAGGCTGATATAACAGACATATAAAAACTAGTGGCTTATAAACAAACA
A
AACAAATTTGTTTTTTACAGTTCTGGAGTCTGGCAAGTCCCAGGTCAGTGCAGCCGCAGATTTGATATCGGTGAGGGCTTGCTGTCTGCTTCATAGATGG
Celera SNP ID:            hCV26507032
SNP Position Genomic:     418972
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23722):
TTGGTTTCTATTTGCATGGAGTATCTTTTCCCATCCCTTCACTTTCAGTTTGTGTGCCCTTATAGGTGAAGTGAGCTTCTTGTTTACAGCGTATAGTTGG
R
CCTTATTATTTATTCCATTCAGCCACTCTTTATCTTTTAATTGAAGAATTTAGCCCATTTACATTTAATGTTATTATCGATAAGTAAGGACTTCTTATTG
Celera SNP ID:            hCV8769803
SNP Position Genomic:     124144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23723):
CTCTACTTAAAAATATGTATGTGTATATATACATGTGAGTGTGTATGTATATATATATATATATATATATATATATATATATATATATATATACACACAC
A
TACATATACATACATACAAGTATATACATACATACACACACACAGAAATTATCTGGACATGGTGGTGCACACCTGTAATTGTAGCTACTTGGGAGTTGGA
Celera SNP ID:            hCV26507033
SNP Position Genomic:     418665
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|A,8)   total(A,8|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23724):
TCTCTACTTAAAAATATGTATGTGTATATATACATGTGAGTGTGTATGTATATATATATATATATATATATATATATATATATATATATATATACACACA
C
ATACATATACATACATACAAGTATATACATACATACACACACACAGAAATTATCTGGACATGGTGGTGCACACCTGTAATTGTAGCTACTTGGGAGTTGG
Celera SNP ID:            hCV26507034
SNP Position Genomic:     418664
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|C,8)   total(C,8|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23725):
AACCTTGTCTCTACTTAAAAATATGTATGTGTATATATACATGTGAGTGTGTATGTATATATATATATATATATATATATATATATATATATATATATAT
A
CACACACATACATATACATACATACAAGTATATACATACATACACACACACAGAAATTATCTGGACATGGTGGTGCACACCTGTAATTGTAGCTACTTGG
Celera SNP ID:            hCV26507035
SNP Position Genomic:     418657
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,11)   total(A,11|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23726):
AAACCTTGTCTCTACTTAAAAATATGTATGTGTATATATACATGTGAGTGTGTATGTATATATATATATATATATATATATATATATATATATATATATA
T
ACACACACATACATATACATACATACAAGTATATACATACATACACACACACAGAAATTATCTGGACATGGTGGTGCACACCTGTAATTGTAGCTACTTG
Celera SNP ID:            hCV26507036
SNP Position Genomic:     418656
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,11)   total(T,11|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23727):
GAAACCTTGTCTCTACTTAAAAATATGTATGTGTATATATACATGTGAGTGTGTATGTATATATATATATATATATATATATATATATATATATATATAT
W
TACACACACATACATATACATACATACAAGTATATACATACATACACACACACAGAAATTATCTGGACATGGTGGTGCACACCTGTAATTGTAGCTACTT
Celera SNP ID:            hCV26507037
SNP Position Genomic:     418655
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,13)   total(A,2|-,13|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23728):
CTTTGCTAATAGTTGCCTACTATGTTCAGTAGTTTCCCCCTCCCCTTATAAAATACCCAAGTGGCTACTTTCCAAGTATTAGTGAAATCCCTAGATCTGC
S
AAGAGAAGAAACCTAGCTAATGCAGTTACATAGTATTGTCAATTCTGAAGTACATATTCTCCAGCTTGAATAGCTCTCTCTTTCATCAGAAGTGAGACAG
Celera SNP ID:            hCV8769662
SNP Position Genomic:     208036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23729):
GCTTAAAATCCAGTTAAAGTGACAGGCCAATCCAGGCACACTTGAGGCTGGGCAAAGGGCAGGAAGACTAATTCCAGCCATTAAGGTGGAGGGAGACCCT
M
TGTCTCCTGCCTGCCCCTGGTCAGAAGTCAGTTGTTCAGGTACTGGGCAGGGTCAAGCCAGGAGGGCTTCAGCTTGATCTGTCAACTCATGGAGGCTTTC
Celera SNP ID:            hCV16020022
SNP Position Genomic:     280728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23730):
TCTGCACTCCAACCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAATTAAATTTAATTAAAAAAAAGAACAGAACCCCGGTAAATTAGGTGCCCATGGA
R
TTAACTACTTTAGGATTTTTCTTGTAGAGAGAGATGTATCTCAATAGTTATATTCTACAACTGAGCAGTGTGAGCCCAATTTTGGCTTGTTTTTTTTTTT
Celera SNP ID:            hCV8769663
SNP Position Genomic:     204781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23731):
TGAGGCCAGGAGTTCAAGAACAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTTAAAAATATGTATGTGTATATATACATGTGAGTGTGTATGTATAT
R
TATATATATATATATATATATATATATATATATATATATACACACACATACATATACATACATACAAGTATATACATACATACACACACACAGAAATTAT
Celera SNP ID:            hCV26507038
SNP Position Genomic:     418617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23732):
ACTTGAGGCCAGGAGTTCAAGAACAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTTAAAAATATGTATGTGTATATATACATGTGAGTGTGTATGTA
K
ATATATATATATATATATATATATATATATATATATATATATACACACACATACATATACATACATACAAGTATATACATACATACACACACACAGAAAT
Celera SNP ID:            hCV26507039
SNP Position Genomic:     418614
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,15)   total(G,1|-,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23733):
CACAATGAAGTAATAATCATAGGAACAGTGTCTTATTTGAACTCACTGCTGAGGGAGAGTTGCTTTTTTAAAAAAATATACTTTAAATACTGGGATACAC
R
TGCAGAACGTGCAGGTTTGTTACATTGGTATACACGTGCCATGGTGGTTTGCTGCACCCATCAACCCATCATCTACATTAGTTATTTCTCCTAATGCTAT
Celera SNP ID:            hCV471547
SNP Position Genomic:     90747
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23734):
TCAAGTGGTTTGTTGGAGACTGGGAAGGAGAGAAGGTGAAGAGAAATGCTACAGTCTTCTACAAGCGGTCCATCATGGCATTTATCTTTTAATTGCTCTA
R
AAAGTGCCTTTTTCCATTTGTCTGATAAATGACTGGCATAAGAACCACATGTTCCATGAAGCAACTGCAATCTCCATATTTGCAATCTATCAATCTCACC
Celera SNP ID:            hCV471548
SNP Position Genomic:     90428
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23735):
TCACTTGAGGCCAGGAGTTCAAGAACAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTTAAAAATATGTATGTGTATATATACATGTGAGTGTGTATG
K
ATATATATATATATATATATATATATATATATATATATATATATACACACACATACATATACATACATACAAGTATATACATACATACACACACACAGAA
Celera SNP ID:            hCV26507040
SNP Position Genomic:     418612
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,13)   total(G,2|-,13|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23736):
CATTTTTGTCATCTAAATAACTCACATGGCCAAAGCCAAGAGGGGGAAGTATAACCGCTTTCTCATGGGAGGGCACTGTCAAGTGGCATGGGCTAGTCAG
Y
GGATACATGAAGGAGTGAAGAATTGGATCATATAACACTACATCCCATACTGAGCTTCCAGGGGTCCATTTTTAGGTTATCTTTTTAGAACCCTCCCTTC
Celera SNP ID:            hCV26507041
SNP Position Genomic:     418047
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23737):
GGTTGTTTAGTTATTCTGGGTTTTTGATATTCCATATAAATTTTAGCATGAGATTCTCTATTTGCAAAATATATCATTGGGATTTGATGGGGATTGCATT
S
AATCTGTAGATCACTATGAGTAGTATTGACATCCTAACAGTATTAAGTCTCCTAATCCGTAAACATGAGATGTCCTCCCATGAATTTATATCTTCTTTAA
Celera SNP ID:            hCV26507042
SNP Position Genomic:     417402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23738):
AGGGGCTGCTACCACTCCTTTTTCTGCCTAAATACTCTCTCAGAAAATCCTAAGGCAGTTGGGAAAATGAGGACTATGAGAAAATATGAAAGATTCCCTG
R
CAAATGTGCTTAGGAGTAGTAAGGTTCATATTTACCGACTAAAATCTCATCAGCCTCACCAGGGCTGACCAAACAGGATTCATGGAGCCAGCACCTTGAT
Celera SNP ID:            hCV26507043
SNP Position Genomic:     414670
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23739):
CTACCACATCTGCAGTGACTTCCTCAACACTGAAGTTTTGAACCCCTCAAAGTCATCCATGAGGGCTAGAATCAACCTCTCCCAAATTCCTGTTCATGTT
R
GTATTTTGACCTCCTCCCATGAATCATGAATGTCCTTAATGGCATCTAGAATGATGAATCCTTTCCAGAACATTTTCTATTTACTTTTCCCAGATCCATT
Celera SNP ID:            hCV26507044
SNP Position Genomic:     412674
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23740):
AAGGCAGATGGCTGACAATTTTGTTCATTTACTTTGGTTATAATTAATTTATTTTGATCTTTCCCTTTACTGTTGAAAGTGGACTTTCCTAAAAGTGTTT
Y
CAATTCAAGATGAACAGTCATGCTTATTAGAAGCACATTCCCTGAGGTCACTGTCCTGATGTGAAGGGAAATACAGTCACCTCTACAGCAGAGGGACATT
Celera SNP ID:            hCV11719562
SNP Position Genomic:     399000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23741):
ATTGTTTTATAAGTTTGGGAGCTCCAGTATTATGTGCATAGTTAGGATTATGATATTTTCCTGTTGGACTAGTCCTTTTATCATTATATATGTCTCTCTT
T
GTCTTTTTTAACTGCTGTTGCTTTAAAGTCTGTTTTGTCTGGTATAAGAATAGCTACTCCTGCTTGTTTGGGGTGTTCATTTGCATGGAATACCTTTTTC
Celera SNP ID:            hCV26507045
SNP Position Genomic:     408437
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23742):
CTCTGTTACAGTTCTGGAGGTCAGAAGTCCAAAACAGATCTTACTGGGCTAAAATCAAGATTGACCAAGATGTTTCCTTCTGGAGGCTCTACGGGGAAAT
R
TATTCGTCTTTTCCAGCTCCTCAAAGCCACCTGCATCCCTTGGCTGTGGCCCTTCTCCCATCTGCAAGAATGGCAGCATAGCATCTTCACATTTCTCTCT
Celera SNP ID:            hCV11719563
SNP Position Genomic:     391682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23743):
GATTGTTTTATAAGTTTGGGAGCTCCAGTATTATGTGCATAGTTAGGATTATGATATTTTCCTGTTGGACTAGTCCTTTTATCATTATATATGTCTCTCT
T
TGTCTTTTTTAACTGCTGTTGCTTTAAAGTCTGTTTTGTCTGGTATAAGAATAGCTACTCCTGCTTGTTTGGGGTGTTCATTTGCATGGAATACCTTTTT
Celera SNP ID:            hCV26507046
SNP Position Genomic:     408436
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23744):
ATAATACCTTATAAAATGTAAATGCTATGTAAATAATTGTTATACTATAATGTTTAGGGAATAATGGTGAGAGAAAACATCTGTACATATTCATTACAGA
Y
GCAACTATCCATTTTTTTTCTTCAAATATTTTCAGGCTATGGTTGAATCCGTGGACGCAGGACCCATGGATATAAAGGGCCAATAGTACACAGTTAAAAG
Celera SNP ID:            hCV8769671
SNP Position Genomic:     203778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23745):
TTTCTTTCCTTCCTTTCCTAACTAGCTTTTAAAAACTTGTTTTTGCTTTTTTGTTTTAATTTTGGATGTGGTTGCATTACTTGCCTTTGCATCTGCACAC
Y
GATGACATAAGTTCACTCAATGATTATTTACTAATCACCTGTGTGCAGAACACTGTCCTAAGAGATGCAGTAAAGAACCAATATAGCTTCTGCCTCATGG
Celera SNP ID:            hCV8769672
SNP Position Genomic:     203362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23746):
AAATCAAACAATGGCTAAATCACTCAGTACAGAAAGAAGTAAACAAAGACCAAGGAAATATTAGTCCCACTTATTTAAAAGCAGTTCAGAAATTACATTC
R
TTAATACCAAGAATGTTTAACCCCACAAATGTAGATGTGAGGAAGTATTCAATGATTTGACCCAAATTATTAAAACTCTTCAGTATTTAGTTTATTACAG
Celera SNP ID:            hCV8769673
SNP Position Genomic:     202017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23747):
GAAGAGTCTTTAGGGCTTTCTAGGTATATGATTATATCATTGGTGAACAGCAACAGTTTTACTTCCTCTTTACCGATTTGGATGCGCTTTCTTTCTTTTC
Y
TTCTCTTGTCTGATTGCTCCGGCTAGGGCTTCCAGTACTATGTTGAAGAGAAGCGGTAAAAGTGGGCATTCTTGTCTTGTTCTGGTTCTCAGGGAGAACT
Celera SNP ID:            hCV26507048
SNP Position Genomic:     406727
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23748):
AGCAGTTCTTTGGACTGAAATGCACATCCATAAATATAAAAAGACACCAGAGCATAAGTGACACTTAAAATAGTTGGACATGGAAAGCAAGGCAGTAAAT
S
TCACTGCCTAGCCACTGTTCTAAGCCATAGCGAGCACCCAGGCATGGGCTTATTTAAAGACGCTAGATAGGAAATGAGGACCTTGAGAAAACGCACTCAC
Celera SNP ID:            hCV11719567
SNP Position Genomic:     382513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23749):
GTCACACCTCTGATAACACAATATACAGATGTCACTCACCTCTGTGTTTTCAAAAGGCAAATTCCATCTCCAACCTAGGATTTCCCAGGCTGCCCCTAAA
S
ATATGGTTTATATGTGTATAAACAGAAATTAAATGTGAGGTTTTATGTGAGTGAGGAAAAAGCAGACAGTCAGGAATGGTTCTCCTGCCGAACATAAATA
Celera SNP ID:            hCV29146793
SNP Position Genomic:     446663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:23750):
ATTAGGATTTCTTATTAAAAAAGTGCAATATTAATAATTGTACATTGTCATCCAGAAACAAAACTATTGGGGGGACTTTATTAACTAACTTCCTGCAGTT
S
TGTTCCTGTAAACTCAGTAGTGATTATTATATTTTTCCTATTTTTAATAGAACCTGGTGTTTAACTCTGGATCCATTCACTGTACAGGATGTGTTGTAAA
Celera SNP ID:            hCV29146797
SNP Position Genomic:     442884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:23751):
ATGAAAATCAAATGTTTTTGGCCATAGAGTTCACGTTCCATCTCGTAAGCCATTTGTGTCCCAGGTAAGTTGAAGCTACCGCTCAATGCTAGCCAATCAA
Y
ATACCTAGCTGGAGACTCCTTTCTGGAGCTTCTACTAACCCCTCCTTATTTCCAGTGACATAATGTATATGCTTCATAATCAAACAGGCATGAGCTCCCT
Celera SNP ID:            hCV29146798
SNP Position Genomic:     425512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23752):
CCTCCTCCTTTCACATTCTGATTGGCCAGGCATAGCTTTTGTGGGTTGTCCAGCTGAGACACCCCCAGAGCAGCAGGCTTTTAATTCTTTGTGTAATTCT
R
TGAACCAATGTGATTGAATGAATGTTTTTAGGCAGTCAGCAACTCAAAACATCTTATAATTGGCCATCTATACATTATTACATTTATGTCCTCCACTCCC
Celera SNP ID:            hCV29146799
SNP Position Genomic:     425238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23753):
TTATTTCTAGTCTAAGACAAATGTGCTTTAAAAAATTATTTATGGTCTCTCAGTTATAGTTCTCAGTTACAAGTCAAGCCTGGAACTTTATGAACAGATG
S
AAAAAATAGATACAGTAATGGAATATCTAAATAACCAGATACCTTTTTCTTTAAGAGTCTAACCATTCTGCTGACCAACCAAGGGTATAAAATTTGAAGT
Celera SNP ID:            hCV11844144
SNP Position Genomic:     241525
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,7)      total(G,6|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23754):
TAAAGCCAGATTCAAGACCTTCCTTTTTCTAGCATATAAGCATTTGAATTTGCCTTCCTAACCCCAGTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTG
K
ATAGTATACAACTCACAGGAGGGAGCTGCTGCTGCTTGAAATACCTCACAGAGATACTTGCTTACAGAGGGCAAAGCGGCCTGTGAAAATTAAGATCCAG
Celera SNP ID:            hCV15849547
SNP Position Genomic:     304169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23755):
TTTCCCTTCCATTATAGCATTCCAAATGGTGTTTGCTTACTTATTTTAGAGGGTTTATTTAAAACTTTTTTTTGACATCATTGAGAGGCATTAAATAACT
R
AAGAGTTTTTACACGAGATCTTCTGATCTCATGTAAAAATGGGAAGTAGATAAGAGTAGAAATACAAAGAAGGTGTTTCCTTTTCTCTCTTCCAAGTTTC
Celera SNP ID:            hCV11844145
SNP Position Genomic:     233050
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23756):
CAGCTAATTTTTGTATTTTTTTTTAGTAGAGACGAGGTTTCACCATGTTGGCCAGGATGGTCTTCATCTCTTGACCTCGTGATCTGCCCACCTCAGCCCC
S
CCAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCAAAAATTTTATTTAACTCACAAATTATTGAGGAAGCCAATGTGATGTTAAAACTAGTTC
Celera SNP ID:            hCV11844146
SNP Position Genomic:     229843
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23757):
ATTCATATTTCCACAGGTGGTACAGGAGCCATGGCTGGGGAGGCCACAGGAAATTTACAATCATGATGGAAGAGAAGGGGAAGCAGGCACATCTTACATG
K
CCAGAGAAGGAGGAAGAGGGCAAAGGGAGAGGTGATACACACTTTTAAGCAACCAGATCTCTTGAGAGCTCACTATCACAAGAACAGCAAGGGGAAAATC
Celera SNP ID:            hCV11844148
SNP Position Genomic:     228683
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23758):
TCTACTAAATGTAACCACATGCTCCACACTTTCTTGCAAGGAAAGTTGGAAAAATCTCTATTCCAAGAAACTATGTACCTCAAGTTCAGAGGTTCTTTTC
C
AATAAGAGGAGGACAGATATGAAGGGACTAGCAGATTCTGCCACACACAGCAACCAACCTAAAGTTGTCAGAAGCAAAGGTATTGAGCACAAATGAAAGT
Celera SNP ID:            hCV26507050
SNP Position Genomic:     399556
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,12)   total(C,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23759):
TCTCCTAATGCTATCCCTCCCCGCTCCCCCCACCCCACAATAGGCCCCGGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTGTTCAATTCCC
R
CCTATGAGTGAAAACATGTGGTGTTTGGTTTTTTGTCCTTGCAATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGA
Celera SNP ID:            hCV26507051
SNP Position Genomic:     397702
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23760):
CCCATTAACTCGTCATTTAACATTAGGTATATCTCCTAATGCTATCCCTCCCCGCTCCCCCCACCCCACAATAGGCCCCGGTGTGTGATGTTCCCCTTCC
Y
GTGTCCAAGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAAAACATGTGGTGTTTGGTTTTTTGTCCTTGCAATAGTTTGCTGAGAATGATGGTTTCC
Celera SNP ID:            hCV26507052
SNP Position Genomic:     397671
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23761):
GGGTATTTAACCTGGGGTCCACAAGCTTTGGGAACTCCATAAGCCCTCTAATATATGTGCAAATATGCTTTTCTCTGGTGAAAGAATCCAGAACTTTATT
S
AGTTTCTTAATAGATGCATTACCCAGCAACATTAACTACTTGCTCTACATCAAAAGGTTGACAACAAATTCGGTCTTACCAATAATTAAAGAAAAGCAAA
Celera SNP ID:            hCV26507054
SNP Position Genomic:     391355
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23762):
GTTTTCTCCTAGGAGACTGCCTTTCCCTGGCACTGGATGCAACCAATTATCATTTTAGAGAGACAGTTTAACCACTGCCTGACCATCACCTAATGGTTGC
S
TGACATTGCTGAAGGGGTGCCCTCTTCTGCCTTGCTCGTGTCTGCCTAACTACCTACTCCAACAAATCCATCTAACCCTATGCTCTCTACTGGGGTCCTT
Celera SNP ID:            hCV26507055
SNP Position Genomic:     384462
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23763):
TGAGCACTTTCCTTTTGTCCTTTTCCTGTGGTTCTACTGATACTACCATTTCATGTTCTCTTGCTCTGAGAAGATATGCAGGCTTCCAAAAATACAAGCA
W
GTTTTCTACATAAGAGTGTCAACTCCAGTAGCAATCTAGCAGCTTCCATTTGTCTAGTTCATACATATATTTTAACGTTGTATAGCTTTGCACTTTTTAT
Celera SNP ID:            hCV11719573
SNP Position Genomic:     357917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23764):
TTTTACAACCACAGCAGAAACATTAATTCTGAAAGTAGAAAGGAATTAAGCCTTTGACAGTTCAGAAATAGTAAAGCAGCAGTTCAGATTTTCTCTCAAG
W
GTCAGGCTAGTATAATGGCAGGCGGTGTACACTTGTTAAGATGGGGACTGTTGGCATTAAAGGTATCTCAGTTTGAATCCCCACCCTGGCACTGGTGGGT
Celera SNP ID:            hCV11719574
SNP Position Genomic:     354887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23765):
TACAACAGGCCAGAGAGGGCTCACTGAGAAAGCAGTTCTTGAGCAAAGACATGAATGTGTGCTCTTGAGCCTTCACATGTCTGGAGAGAGAAGAGAGGAG
A
AGAGCATCCCAGGCACAGGAAGAATGAGTGCGGAGTTCCGCCTGCATGAAACGTGCATGCCTAGTGTGTTCCAGGAACAACAAAAAGGCCAGTGTGGCCA
Celera SNP ID:            hCV26507056
SNP Position Genomic:     380103
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23766):
TTTTTACCTCTTGGGTGAAAGGTCAGGTCCATCATGTGGCCAGAAAGCCTCAAAGTATAAGCCTGTGGTTCAGCAACAACTAAAAAGGCATAGCATGAAT
Y
CAGCTAATAAACACCTTGATGTTTCAAAGCAGCTTTAGATGTAAAATATACAACATTTAGCCTTACATATCTTAATCTGTGAGATGGTGAGACAGTTAAG
Celera SNP ID:            hCV8769682
SNP Position Genomic:     199466
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23767):
ATACAACAGGCCAGAGAGGGCTCACTGAGAAAGCAGTTCTTGAGCAAAGACATGAATGTGTGCTCTTGAGCCTTCACATGTCTGGAGAGAGAAGAGAGGA
G
AAGAGCATCCCAGGCACAGGAAGAATGAGTGCGGAGTTCCGCCTGCATGAAACGTGCATGCCTAGTGTGTTCCAGGAACAACAAAAAGGCCAGTGTGGCC
Celera SNP ID:            hCV26507057
SNP Position Genomic:     380102
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23768):
AATAGGGGAGGAAAGTGCAGCAAAACAAGGAAATGGGCATTTAAAGGAGATTGAGAGAACCAGAATCTGGTTGAGGAAGTATTTACGTTGGGGAGCCTAA
K
ATATTAAAACGAGCTTTGGCCACTCTATTGTGCCGCCTAGGGCCCTCTCTCTGGGACTTCATCCAGAGGCTCACTTGATAACCTTATAGTGAGAACCTGA
Celera SNP ID:            hCV11719576
SNP Position Genomic:     351999
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23769):
GCCGCATTGCAGTTTGATCTCAGACTGCCATGCTAGCAATCAGCAAGACTCTGTGGGCATAGGACCCTCCGAGCCAGGTGCGGGATATAATCTCCTGGTG
Y
GCCGTTTTTTAAGCCTGTCGGAAAAGCGCAGTATTTGGGTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACCCCTTTCTTTGACTAAGAAAGGGAA
Celera SNP ID:            hCV26507058
SNP Position Genomic:     377301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23770):
AGCCTGGGCAATAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAATAGGGGAGGAAAGTGCAGCAAAACAAGGAAATGGGCATTTAAAGGAGATTGAGAG
R
ACCAGAATCTGGTTGAGGAAGTATTTACGTTGGGGAGCCTAAGATATTAAAACGAGCTTTGGCCACTCTATTGTGCCGCCTAGGGCCCTCTCTCTGGGAC
Celera SNP ID:            hCV11719577
SNP Position Genomic:     351956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23771):
TTGGAAATCTTAAGGGTTTGAACTTTTTAGCCAAGACAGTTATAACCCATGCAATTTGATTTCATTTTAAAATTATTCTACTTATATATTTTTATGCATA
R
CTGTAATAGGAAGACCAGTGTGTGAAAGGCACAGTTATCCTAATTCAGACAGGTCAAGTCAGCCCTAGAGAGACCTTGAAAGTCTTTTACACATTTCCAT
Celera SNP ID:            hCV8769683
SNP Position Genomic:     196229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23772):
AGCACTTCTCTGTATTGGTTATTCTAGTTATACATTCGTGTAAATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATTTCCTCCTGTAGCTC
R
GAGTAGTTTGATCGTCTGAAGACTTCTTCTCTCAACTTGTCAAAGTCATTCTCCGTCCAGCTTTGTTCCATTCCTGGTGAGGAGCTGTGTTCCTTTGGAT
Celera SNP ID:            hCV26507059
SNP Position Genomic:     376430
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23773):
ATTACTTTGATGTTCCATGGGAATACATTATTTTGATATTTTTACTAATGACTGGCATAGGAAATAGTTTCAAGGAAAGAATCTAAGGTTTGTTTTTTTT
W
TAAAAAAAATGAAAACCATGCTTTGTGAGAAATAGCACTTCAGTTATATGCACACATAGAGCTGCTATTAGAGTGTGATGTCAGCAACCTTGATAATCGT
Celera SNP ID:            hCV8769684
SNP Position Genomic:     192605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23774):
TCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGTCCCCAGAGGTGGAGCCTACAGAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCA
M
CCAGTTCGAGCTTCCTGGCTGCTTTGTTTACCTAAGCAAGCCTGGGCAATGGCGGGCGCCCCTCCCCCAGCCTTGCTGCCGCATTGCAGTTTGATCTCAG
Celera SNP ID:            hCV27518007
SNP Position Genomic:     377123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23775):
AAGAATACGGATGTACCTGCTTAAAGGGAGACCAGATATTCTAGAAATATATGTTTGATTTACTATCCACATTTCTTGCCTTTAAAAACAAGGGAGTGAA
Y
CCAAGTATGTCTATTTTGCTAAGGCTGAAGTACATTGGGAAGTCTCATACTTCAAACTGATGAAACAGAAAACTGTCACTTTTTATATTGAAAATTAAAA
Celera SNP ID:            hCV11844150
SNP Position Genomic:     215006
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23776):
TTCTCATCTCTCTTACTTTCTCCCCATCATTCCCTACCCTGCTCCCTATTCTCTCTCATTCTCTTTCTTTTACCCTTCTTTCTATTTGTATATCTGAACT
K
TGAAAACATCTTTACCCATGCTACCTTTTTTTCTTTCTTAGCTTGATTTAAATTCCAGTTGAATTCAGTCCCCTTCACGGGGTATGTTTTAGGCCCCTCA
Celera SNP ID:            hCV25965270
SNP Position Genomic:     154733
SNP Source:               Applera
Population(Allele,Count): african american(G,8|T,24)   caucasian(G,2|T,28)   total(G,10|T,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:23777):
AACTTAGATTAAAAGTTTTCGATGGGAAGTGAAGAAAAGTAAACAAGGCTTTGCCTACGAGTCTCCTCTCTCTTGCAATCTCTTTCCAGTGCACAGTGAC
R
TGTGGCCAGGGCCTCAGATACCGTGTGGTCCTCTGCATCGACCATCGAGGAATGCACACAGGAGGCTGTAGCCCAAAAACAAAGCCCCACATAAAAGAGG
Celera SNP ID:            hCV11844151
SNP Position Genomic:     214509
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:23778):
TAACTACTTTAGGATTTTTCTTGTAGAGAGAGATGTATCTCAATAGTTATATTCTACAACTGAGCAGTGTGAGCCCAATTTTGGCTTGTTTTTTTTTTTT
T
AACACTGGGGACTCTGTTCTAAAGTAGCATCTTAGATCACTTCTGCACAGACTCAATGATCTTGAAGTAACGCATGGAATTTGAGGTGATGGCCTCATTT
Celera SNP ID:            hCV11844154
SNP Position Genomic:     204883
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,8)   total(-,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23779):
TAAAATTATTCTACTTATATATTTTTATGCATAACTGTAATAGGAAGACCAGTGTGTGAAAGGCACAGTTATCCTAATTCAGACAGGTCAAGTCAGCCCT
W
GAGAGACCTTGAAAGTCTTTTACACATTTCCATGAAAATTTGTACGTGTATTTCTAGGAGAAATGACAATTTCACTTCCCACAACTTCATAAAGCTTTTT
Celera SNP ID:            hCV11844155
SNP Position Genomic:     196296
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23780):
TTCAGAATTAACCAGGGAAATCGAACTTCACTGCATCCCTGTGGGGAAAACAAGGCTCAGATGCTGCCATAACCACTTCCTTAAAGAGGGGAGATTAGGC
M
CTGCCTAGCTCTTGAAATCCTCCCAGCCCTGAGTTCTTTCCAGGAGACCCTGTGTCCCCTATACACTGGTTTCTGCAGCTGACGGGCTAAGCAGAGAGGC
Celera SNP ID:            hCV8763949
SNP Position Genomic:     2500
SNP Source:               Applera
Population(Allele,Count): african american(A,24|C,2)   caucasian(A,23|C,1)   total(A,47|C,3)
SNP Type:                 TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:23781):
GCTTCAGCTGTTTTTCTTTTAAAGTAGGGAATGGTATCACTGTTTATTCTAATTAGAAAATACGTAAATGCTCTACAGGTCAAAATCCCAGGGTATGAGA
Y
ATTCTGTAGGGTTTCTCTCTTCCTTCTTTCCACCCCTCTCAGACTTTCTGAGAAACATTTCCATATTCCCATCTAAACTCCAAAAACTGATGTAGAGTTT
Celera SNP ID:            hCV11844156
SNP Position Genomic:     188753
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23782):
AAAAAGGAAAAGATGCTTTAACAGTGCTTTCTCTGGAAAAGCCTTTGTGTGCTTAATGATGTCTTCATGTGCTTATACTATCTCCTTGATTCCTTGAATT
Y
TACATGGAATTAAAGCTCAACCATAACCCCCCATACACATTTCTATGGCCCTCCAGCTCTGTCATGACAGTGCAGTCAATTGCTATGGAAAATTTTTGTC
Celera SNP ID:            hCV11844157
SNP Position Genomic:     187921
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23783):
CTCTTTTTTTCTTTATTAGTCTTCCTAGTGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAAGGGTTTTTTT
T
TCCCCCATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTTCTTTTAATTGTG
Celera SNP ID:            hCV26507200
SNP Position Genomic:     180063
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23784):
TATTTGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTCCTAGTGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTT
T
GAAGGGTTTTTTTTTCCCCCATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAG
Celera SNP ID:            hCV26507201
SNP Position Genomic:     180049
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23785):
AGCTATTGATTATTGCCACAATTTCAGATCCTGTTATTGGTCTACTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGAGAGTGTATGTGTCGAGGAAT
K
TATCCATTTCTTCTAGATTTTCTAGTTTATTTGTGTAGAGGTGCTTGTAGTATCCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGATATCCCC
Celera SNP ID:            hCV26507202
SNP Position Genomic:     179827
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23786):
TTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGTTCCTCCTTGTACCTCTGGTAAAATTTGGCTGTGAATCCATCTGGTCCTGG
R
CTCTTTTTGGTTGGTAAGCTATTGATTATTGCCACAATTTCAGATCCTGTTATTGGTCTACTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGAGAGT
Celera SNP ID:            hCV26507203
SNP Position Genomic:     179710
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23787):
GCCTCATCAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGTTCCTCCTTGTACCTCTGGTAAAATT
Y
GGCTGTGAATCCATCTGGTCCTGGACTCTTTTTGGTTGGTAAGCTATTGATTATTGCCACAATTTCAGATCCTGTTATTGGTCTACTCAGAGATTCAACT
Celera SNP ID:            hCV26507204
SNP Position Genomic:     179685
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23788):
GCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTCTCTGCC
Y
GGCTTTGGTATCAGGATGATGCAGGCCTCATCAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGTT
Celera SNP ID:            hCV26507205
SNP Position Genomic:     179560
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23789):
TTGATTTGCATATATTGAACCAGCCTTGCATCCCAAGGATGAAGCCCACTTGATCATGGTGGATAACTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGT
W
TTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTCTCTGCCCGGCTTTGGTATCAGGATGATGCA
Celera SNP ID:            hCV26507206
SNP Position Genomic:     179483
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4)   total(A,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23790):
TATCTTTGTGGTGTTCTCTGTATTTCCTGAATCTGAATGTTGCCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCA
R
CTTGGTTCCATTCTCCCCATCACTTTCAGGTACACCAATCAGACGTAGATGTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTTTGTTCATTTCTT
Celera SNP ID:            hCV26507060
SNP Position Genomic:     376069
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23791):
AAAGGCCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACATTTATTGATTTGCATATATTGAACCAG
M
CTTGCATCCCAAGGATGAAGCCCACTTGATCATGGTGGATAACTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCA
Celera SNP ID:            hCV26507207
SNP Position Genomic:     179406
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23792):
GGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCGAGGAGTATCTTTGTGGTGTTCTCTGTATTTCCTGAATCTGAATGTTGCCCTGCCTTGCT
R
GATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCCATCACTTTCAGGTACACCAATCAGACGTAGATGTGG
Celera SNP ID:            hCV26507061
SNP Position Genomic:     376023
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23793):
TAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTCCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCA
Y
AGATAGCTCTTATTATTTTGAGATACGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGC
Celera SNP ID:            hCV26507208
SNP Position Genomic:     179220
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23794):
AGAATGTTGAATATTGGTCCCCCCTCTCTTCTGGCTTGTAGAGTTTCTGCGGAGAGATCCGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCCGAC
S
TTTCTCTCTGGCTGCGTTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCGAGGAGTATCTTTGT
Celera SNP ID:            hCV26507062
SNP Position Genomic:     375877
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23795):
AGCTTAGTTTGCCTGGATATTAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGTCCCCCCTCTCTTCTGGCTTGTAGAGTTTCTGC
K
GAGAGATCCGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCTCTGGCTGCGTTTAACATTTTTTCCTTCATTTCAACTTTGGTGA
Celera SNP ID:            hCV26507063
SNP Position Genomic:     375827
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23796):
TCCTGCCTAATTGCCCTGGCCAGAACTTCCAGCACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTC
Y
CAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAGATACGTCCCATCAATACCTAATTTATTGAGAGTT
Celera SNP ID:            hCV26507209
SNP Position Genomic:     179176
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23797):
AGCAGGTTGTTCAGTTTCCATGTAGTTGAGCAGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGGGACAGTTTGTTA
Y
AATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCAAGTATGTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAAAATGTATACTCT
Celera SNP ID:            hCV26507064
SNP Position Genomic:     374846
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23798):
CAGAAATGACCATCATGAATCATGCAGGTGAAGAGCACTGGAGGATAGTAGACAACCAGTGGCAAACAGACAGTACTAGTGAGGCTTAGAGTCAGGCACT
R
TCTATTCCCTGAAATGCTAGGGGATCTCCAGAGATCCCCCTAGCAGTTAGTTTACTCTTCCTGGAAGAGTGGTCCTAGCACATGGCAGAGTTCCAGAAAA
Celera SNP ID:            hCV11719582
SNP Position Genomic:     319853
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23799):
TTTCTAGTTTATTTGCGTAGAGGTGTTTGTAGTACTCTCTGATGGTACTTTGTATTTCTGTGGGATCAGTGGTGATATCCCCTTTATCATTTTTTATTGC
S
TCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTT
Celera SNP ID:            hCV26507065
SNP Position Genomic:     374340
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23800):
ATCCATCTGATCCTGGACTCTTTTTGGTTGGTAAGCTATTGATTATTGTCACAATTTCAGTTCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTG
S
TTTAGTCTTGGGAGGGTGTATGTGTCGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCGTAGAGGTGTTTGTAGTACTCTCTGATGGTAC
Celera SNP ID:            hCV26507066
SNP Position Genomic:     374187
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23801):
TGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTCTTTTGGTTGTGTCTCTGCCCGGCTTTGGTATCAGG
R
TGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTTCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGTTCCTTCTTGTACCTCTG
Celera SNP ID:            hCV26507067
SNP Position Genomic:     373969
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23802):
CACTTGATTTTTTATTATAAAAGTAATAAAAGGGCTATAAAACAATTCAAATATCTAAATCTATAAAAAGTACAAGCCTCCCTCTTCCCCCCAATGCTCC
Y
AGAGGCTATCATTCTTAATAATTTGGTATACATCCTTTTAGAATGTTTATATATTTTACTGTATTACATAAAAAGCATATATGCACACATAGGATTTGGG
Celera SNP ID:            hCV11719586
SNP Position Genomic:     313051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23803):
TGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACATTTATTGATTTGC
R
TATATTGAACCAGACTTGCATCCCAAGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTG
Celera SNP ID:            hCV26507068
SNP Position Genomic:     373784
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23804):
TAGTCTCTTCATTTCATAAATGAGGAGACTGTACCATATCATCTGTGACATCCCTCCTACCTCCTTCCCTCATTTACGGAAGGCCACGGAAGGTTAAAAC
Y
CATATGCTGATGGGAGAACCTTGACCACAGTAACTTCAGAAGTTGTGGCACAAGTTGTTTCTAAATGCTCCACAAACAGGCTCAGTGATCACAAGAGTTT
Celera SNP ID:            hCV11719587
SNP Position Genomic:     312781
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23805):
TGAATACCCTTTATTTCCTTCTCCTGCCGAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGC
S
AGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGTTAGTTCTTATTATTTTGAGATACATCCCATTA
Celera SNP ID:            hCV26507069
SNP Position Genomic:     373547
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23806):
GGCAGAGGTTGCAGTGAGCCAAGATCATGCCACTGTACTCCAGCCTGGGTGACAGAGCAAGACCCTGTCTCAAAAAAAGAAGAAAGAAAGAAGGAAAATC
R
CTTTGTTTAAAAATGAACTGTCAATTACTTTGATGTTCCATGGGAATACATTATTTTGATATTTTTACTAATGACTGGCATAGGAAATAGTTTCAAGGAA
Celera SNP ID:            hCV8769694
SNP Position Genomic:     192481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23807):
CTCTGGGTTTTCTCTCTCCCCACCTCTTTCTCTGTCCCTTCGGGTTCGCTCTCCTTCCAGGGCCCGGGCGGCCATCCACGAAGCACAGCCCGCACATCGC
R
GCCGCCAGGAAGGTCTACATCCAGACTCGCAGGCAGAGGAAGCTGCACTTCGTGGTGGGGGGCTTCGCCTACCTGCTCCCCAAGACGGCGGTGGTGCTGC
Celera SNP ID:            hCV11719589
SNP Position Genomic:     309255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:23808):
TGTCCAGTGTTCATTACTAATCACGTGTTATTAGTACCCATACTCCTTGCTCTGGCTGCTATGCGAGGCCATCTCGGAGTCTACAGACTCCCCTTTTATA
R
AGCAGCAGGTGACATGCTCTTCAGAGTCATTTTCTCTTCTGATTTCCTTTCATTCTGGTTCCTTGTTTCTTTCCTTAACAAGGTCCAGGCCAATGGACCA
Celera SNP ID:            hCV307157
SNP Position Genomic:     194978
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23809):
TTTTAAAAGGGTTCGTAATGGCATATAAAATAGGAATGTCACTTCAGTCTATAGCATCTTAGGTTTGATGCAATGCTGTATCAGTCTTTCCAATATCTAA
Y
GAATAGAAGCAAAGCTAGGCTTAAGATTCAGATGCAGAAATACGATTATGGAACCCTCTCATTCCCTATCATCTGATGTGGATTATTCCCGCCTTTATTT
Celera SNP ID:            hCV15937919
SNP Position Genomic:     20047
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23810):
GCTGAGACAATGGGGTTTTCTAGATATACAATCATGTCATCTTCAAACAGGGATAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCT
M
CTGCCTAATTGCCCTGGCCAGAACTTCCAGCACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTCCC
Celera SNP ID:            hCV26507210
SNP Position Genomic:     179077
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23811):
TAAGAATGCTTGTGATTTTTGTACATTGATTTTGTATCTTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTT
Y
CTAGATATACAATCATGTCATCTTCAAACAGGGATAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGGC
Celera SNP ID:            hCV26507211
SNP Position Genomic:     178995
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23812):
AATGGTTGCACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTTCTATTTCTCCACATCTTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTG
Y
CATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGAGGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCA
Celera SNP ID:            hCV26507212
SNP Position Genomic:     177763
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23813):
GTTCAATTCCCATCTATGAGTGAGAACATGCAGTGTTTGGTTTTTTGTCCTTGCGATAGTTTACTGAGAATGATGATTTCCAATTTCATCCATGTCCCTA
Y
AAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGT
Celera SNP ID:            hCV26507213
SNP Position Genomic:     177391
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23814):
ACAGAAGTATTATTAATATCACGCAGTATTTGTCTTTCTGGGCCTAGCTTATTTCATTTAACATAATGTTCTCCAGGTTCATCCACATTGTCACAATGAC
R
GGATTTTCTTCTTTTTTCAAAGCTGAATAGTATTCCATTGTGCATACATATTACATTTTGTTTATCTGTCTGTTGATGAACACCTAGGTTGATTTCACAT
Celera SNP ID:            hCV26507214
SNP Position Genomic:     175444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23815):
CCTGGGTGACAGAGCGAGATTCCTCAAAAAAAAAAAAAGAATATGTAAATATATATATATATATTTATATATATAAATATGTATGTAAATATATATTTAA
A
TATATATATTAAATAAAAAAGATAAGTATGAACAAAGAATCACACAGGGCTTCTGAATATGCTGGTAAATATTTTAAAACCTGCCTTTCTCTTGTCTTCT
Celera SNP ID:            hCV26507215
SNP Position Genomic:     167600
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23816):
GTTGCAGTTGAGCCAAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCGAGATTCCTCAAAAAAAAAAAAAGAATATGTAAATATATATATATATA
T
TTATATATATAAATATGTATGTAAATATATATTTAAATATATATATTAAATAAAAAAGATAAGTATGAACAAAGAATCACACAGGGCTTCTGAATATGCT
Celera SNP ID:            hCV26507216
SNP Position Genomic:     167563
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23817):
CTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATA
M
CCTTTATTTCCTTCTCCTGCCGAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTT
Celera SNP ID:            hCV26507070
SNP Position Genomic:     373453
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23818):
GGTTGCAGTTGAGCCAAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCGAGATTCCTCAAAAAAAAAAAAAGAATATGTAAATATATATATATAT
A
TTTATATATATAAATATGTATGTAAATATATATTTAAATATATATATTAAATAAAAAAGATAAGTATGAACAAAGAATCACACAGGGCTTCTGAATATGC
Celera SNP ID:            hCV26507217
SNP Position Genomic:     167562
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23819):
CCCACCCCACAACAGTCCCCAGAGTGTAATGTTCCCCTTCCTGTGTACATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTG
K
TTTTTTGTCTTTACAATAGTTTACTGAGAATGATGATTTCCAATTTCATGCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTA
Celera SNP ID:            hCV26507071
SNP Position Genomic:     371721
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23820):
TCTTTCCTTTGCCCCTCTCTCCTGGCTGCATCTCACTCTGGGTTTTCTCTCTCCCCACCTCTTTCTCTGTCCCTTCGGGTTCGCTCTCCTTCCAGGGCCC
R
GGCGGCCATCCACGAAGCACAGCCCGCACATCGCGGCCGCCAGGAAGGTCTACATCCAGACTCGCAGGCAGAGGAAGCTGCACTTCGTGGTGGGGGGCTT
Celera SNP ID:            hCV11719590
SNP Position Genomic:     309220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:23821):
CCAATGTTTTGGGAGGCTGAGATGGGAGGATTGCTTGAGGTCAAGCATTTAAGACCAGCCTGGGCAACACAGCAAGACCTTATCACTACAAAAATTTTTT
T
AAAATATAACTAGGCATGGTGGTGCAGGCCTGTAGTCCAAGCTGCTTGGGAGGCTGAGGTGTAGTCCTAGCTGCTTGGGAGGCTGAGGTGGGAGGATCAC
Celera SNP ID:            hCV26507072
SNP Position Genomic:     371108
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23822):
CCTCTCCAGGGAAGGAATTGGGAGCATATGATTCTTTTTTCTCATTCAACAGATAATGTGCTAGGGGCCTTGGAGAGTTGAAACACTATTTAAAAAAAAA
A
TAGTTTTTCAATCCCTGTCCTTTAAGAGATTTGGGGTAGAGAGAGGAAAATAATGTTTACAGAATACTTACTGTGTTCCAGGCTATACATCCCTATATCT
Celera SNP ID:            hCV26507218
SNP Position Genomic:     166606
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23823):
TGTAATCCCAATGTTTTGGGAGGCTGAGATGGGAGGATTGCTTGAGGTCAAGCATTTAAGACCAGCCTGGGCAACACAGCAAGACCTTATCACTACAAAA
M
TTTTTTTAAAATATAACTAGGCATGGTGGTGCAGGCCTGTAGTCCAAGCTGCTTGGGAGGCTGAGGTGTAGTCCTAGCTGCTTGGGAGGCTGAGGTGGGA
Celera SNP ID:            hCV26507073
SNP Position Genomic:     371101
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23824):
AATCATGGGCTGGCTCCTGCCAGTCAGGGATGGTCACAAGAGTGGAAGCTAAGAATTGAATGGCAAAGCCCAGTTGGGTGAAAGACTAAGACCAGGCTCT
Y
GGCAGGCTTGGTGCTGATCAGGCTGGGAGCCCTCCTCATGAAGCAACGGTCACACTACCCTCCATTGGGTCTGCAAGCACGCAGGAGTTGCTACAACCAC
Celera SNP ID:            hCV11719591
SNP Position Genomic:     300637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23825):
TCTAGAAAGTCCCATTGTTTTAACTGCTTTGAGTTTCTTTTGCAAACTTAAAAAGTCATGTCTTTATGCAAGGCGTTTAAAGCTCTGTAGGCCCAGTCTC
S
GCCGGGTGTGGTGGCTCACTCCAGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGTGGATCACAAGGTCAGGAGTTCAAGACCTGCCTGGCCAAGATGGT
Celera SNP ID:            hCV26507219
SNP Position Genomic:     165999
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,10)      total(G,10|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23826):
CTACTCTCCAACCTGAATCATGGGCTGGCTCCTGCCAGTCAGGGATGGTCACAAGAGTGGAAGCTAAGAATTGAATGGCAAAGCCCAGTTGGGTGAAAGA
S
TAAGACCAGGCTCTCGGCAGGCTTGGTGCTGATCAGGCTGGGAGCCCTCCTCATGAAGCAACGGTCACACTACCCTCCATTGGGTCTGCAAGCACGCAGG
Celera SNP ID:            hCV11719592
SNP Position Genomic:     300622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23827):
GTGGTTTTAATTTGCATTCCCTTAATTACTAGTAGTGTTGAACATGTATTCATGTGTTTATTTGCCATCCTGATTTCTTCTTTGGTAAAATGTCTGCTCA
R
TTTTTTGGACCTTTATTTAAACATTGAGTTGTTTACTTATATCAAATTTTCAGTGTTTTAATATATTTTGAATGTAAGTCTTTTAATGAGATATGTAATT
Celera SNP ID:            hCV26507074
SNP Position Genomic:     367721
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23828):
ATAATCAGTGACGTTGAGTTTTTTTCATGTGATTGTTGGACGCATGTATATCTTCTTTTGAAAAGCGTATGTTCACATCTTTGCCCACTTTTTAATGCAA
Y
TGTGTTTTTTTGTAAATTTAAGTTCCTTATAGATGCTGGATGTTAGACATTTGTCAGATGTATACTTTGCAAAAATTTTCTCCCATTCTGTAGGTTGTGT
Celera SNP ID:            hCV26507075
SNP Position Genomic:     365982
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23829):
CAGAATTAATAGAAGCTTCAAATTGCATATTGCCTTTGGCTTACAAATAGTAAACTGACTCCCAGTGAAATGTGCGTTGTGAACTTCTTTATTTTAGAAT
Y
ACTATGAGAAACTCTCATAACTGTTCATCACAGCCTGGTCACAAGCAGGGTGGCAGCAATTGTTTATTTTCAAGTTCAGTAACTCTTTTGGGTCACTCAG
Celera SNP ID:            hCV26507076
SNP Position Genomic:     363800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23830):
GCTAACCAATGTCCTTATTCTCTTTATTCTATGTGTCAACACATACTTTGTCATGGATTGGCCTGCTGTCTGCCAGTCACTTTCCTTGAAACACAAAGAT
R
AACAAGACAGTCTTACTCCCCAGGAAGCTCACAGGCACCAAAGTTTTTAAAAAATAATAGACCGAGGCAGAGCAGAGGATATGAGTTTCTGTAGTAGCAC
Celera SNP ID:            hCV269502
SNP Position Genomic:     17406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23831):
ACTCATTTTTCCTTGTTCTTTCAGGAGAAAAATAGCTAAGAGTGCATTTCTTCAATTTACTTCTGAGGCTGTCTCCTAAATGCCGTGGATTTTTTTTTTT
T
AAATGGGAAAAAAACTAAGCTCAGGGTCCAAAGTCCAAGCTGGCATGGACAGGCATCATGATGCTCTTGCTCTCCCTAGTGGTGCTGCAATGAAAAATCA
Celera SNP ID:            hCV26507077
SNP Position Genomic:     356621
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23832):
CATGACAATTTTCCATCTTGACAAGGAAACTGAGGCACAGAGAGGTTATGTAACATGCCTAAGATCACTCAGTCGGTAGGGGAAGAGTACAGATTCGAAC
Y
GAGGCAGAGTTCATTCATGTCTCAACTCTCCGGTTTTCTTTTACCAGTACAAGAAATTAAAGGTCATTTGAAAAAGCCAAAAGTCCCAGGTACATGATTT
Celera SNP ID:            hCV269503
SNP Position Genomic:     17163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23833):
CATGCCACTGCACTCCAGCCTAGGTGACAGAGCAAGACTCCATCTCAATAAGAAAGAAAAGGAAGGAAGGAAGGAAAGAAGGAAGGAAGGAACGAAGGAA
S
GAAGGAAGGAAGGAAGGGGAAGGAAAAGAGGAAAAGGGTTTGCAGGAACTCATTTTTCCTTGTTCTTTCAGGAGAAAAATAGCTAAGAGTGCATTTCTTC
Celera SNP ID:            hCV26507078
SNP Position Genomic:     356473
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23834):
CCCTATGGATGGAGCCATGACAATTTTCCATCTTGACAAGGAAACTGAGGCACAGAGAGGTTATGTAACATGCCTAAGATCACTCAGTCGGTAGGGGAAG
R
GTACAGATTCGAACCGAGGCAGAGTTCATTCATGTCTCAACTCTCCGGTTTTCTTTTACCAGTACAAGAAATTAAAGGTCATTTGAAAAAGCCAAAAGTC
Celera SNP ID:            hCV269504
SNP Position Genomic:     17148
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23835):
AAATACAACAGGCCAGAGAGGGCTCACTGAGAAAGCAGTTCTTGAGCAAAGACATGAATGTGTGCTCTTGAGCCTTCACATGTCTGGAGAGAGAAGAGAG
G
AGAAGAGCATCCCAGGCACAGGAAGAATGAGTGCGGAGTTCCGCCTGCATGAAACGTGCATGCCTAGTGTGTTCCAGGAACAACAAAAAGGCCAGTGTGG
Celera SNP ID:            hCV8020142
SNP Position Genomic:     380100
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23836):
ATGTTGTTTACAAGTAAGAGTGGTTTTGCCTCTTTTCAATTTGTAAGCCACTTTTTTTTTTGTAGTCTTATTGTACTGGCTACGCATGCAATACAATAGT
R
AATAGGAATGATGACAATGGAGGTCCTTATCTTATTCCTAATCTTAAGAGGAAAGCATTCAGTTTCTCACCATTGAGTATGATGTTAGCTGTAGGTTTTT
Celera SNP ID:            hCV26507220
SNP Position Genomic:     161974
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23837):
TTCTTTCTGTCTTTCTTCCTTCCTTCCTTCCTTCCTTCCTTTCTTTCTTTTCTTTTTTTCTTTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTTCTTTT
Y
TTTTTCTTTCTTTCTTCTTTTTTTCTTTTATTGAAACAGGGTCTCACTCTGTCACTGAGGCTTCAGTGCAGTGGCACTATCACAGCTCAGCTCATTGCAG
Celera SNP ID:            hCV26507221
SNP Position Genomic:     159649
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1|-,9)   total(C,1|-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23838):
TTTATTTTCTTTCTTTCTTTCTTTCTTTCTTACTTTCTTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTGTCTTTCTTCCTTCCTTCCTTCCTTCCTTCCT
T
TCTTTCTTTTCTTTTTTTCTTTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTTCTTTTCTTTTTCTTTCTTTCTTCTTTTTTTCTTTTATTGAAACAGG
Celera SNP ID:            hCV26507222
SNP Position Genomic:     159589
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23839):
ATTTATTTTCTTTCTTTCTTTCTTTCTTTCTTACTTTCTTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTGTCTTTCTTCCTTCCTTCCTTCCTTCCTTCC
T
TTCTTTCTTTTCTTTTTTTCTTTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTTCTTTTCTTTTTCTTTCTTTCTTCTTTTTTTCTTTTATTGAAACAG
Celera SNP ID:            hCV26507223
SNP Position Genomic:     159588
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23840):
TATTTATTTTCTTTCTTTCTTTCTTTCTTTCTTACTTTCTTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTGTCTTTCTTCCTTCCTTCCTTCCTTCCTTC
C
TTTCTTTCTTTTCTTTTTTTCTTTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTTCTTTTCTTTTTCTTTCTTTCTTCTTTTTTTCTTTTATTGAAACA
Celera SNP ID:            hCV26507224
SNP Position Genomic:     159587
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23841):
GTATTTATTTTCTTTCTTTCTTTCTTTCTTTCTTACTTTCTTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTGTCTTTCTTCCTTCCTTCCTTCCTTCCTT
C
CTTTCTTTCTTTTCTTTTTTTCTTTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTTCTTTTCTTTTTCTTTCTTTCTTCTTTTTTTCTTTTATTGAAAC
Celera SNP ID:            hCV26507225
SNP Position Genomic:     159586
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23842):
AAGTGATCCAATCATAGATATACTGCACCTGTATTTATTTTCTTTCTTTCTTTCTTTCTTTCTTACTTTCTTTTTCTTTCTTTCTTTCTTTCTTTCTTTC
Y
GTCTTTCTTCCTTCCTTCCTTCCTTCCTTCCTTTCTTTCTTTTCTTTTTTTCTTTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTTCTTTTCTTTTTCT
Celera SNP ID:            hCV26507226
SNP Position Genomic:     159556
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2|-,7)   total(C,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23843):
ACTGTACCAGTAGCTGTGGAAATGATGAGAAGTGATCCAATCATAGATATACTGCACCTGTATTTATTTTCTTTCTTTCTTTCTTTCTTTCTTACTTTCT
Y
TTTCTTTCTTTCTTTCTTTCTTTCTTTCTGTCTTTCTTCCTTCCTTCCTTCCTTCCTTCCTTTCTTTCTTTTCTTTTTTTCTTTTTCTTTCTTTCTTTCC
Celera SNP ID:            hCV26507227
SNP Position Genomic:     159527
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23844):
GGACTGTACCAGTAGCTGTGGAAATGATGAGAAGTGATCCAATCATAGATATACTGCACCTGTATTTATTTTCTTTCTTTCTTTCTTTCTTTCTTACTTT
Y
TTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTGTCTTTCTTCCTTCCTTCCTTCCTTCCTTCCTTTCTTTCTTTTCTTTTTTTCTTTTTCTTTCTTTCTTT
Celera SNP ID:            hCV26507228
SNP Position Genomic:     159525
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23845):
GGCTTGGACTGTACCAGTAGCTGTGGAAATGATGAGAAGTGATCCAATCATAGATATACTGCACCTGTATTTATTTTCTTTCTTTCTTTCTTTCTTTCTT
W
CTTTCTTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTGTCTTTCTTCCTTCCTTCCTTCCTTCCTTCCTTTCTTTCTTTTCTTTTTTTCTTTTTCTTTCTT
Celera SNP ID:            hCV26507229
SNP Position Genomic:     159520
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23846):
CCTTCACATGTGACAAATATTCACCTGATCCCAATATCCCAAAAGTTTTAACCCATTTCAGAGTCAACTGTAACTCTAAAATATTATCAACTCAGAAAGT
K
CCAAATTCTATCAGCTGAATCAGCTATGGGTGAGACTTGGATATAGTGCATCCTGGGACATCATTTGTCTCCATCTGTGCACATTTGAAACCAAAAATAA
Celera SNP ID:            hCV289837
SNP Position Genomic:     114248
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23847):
AAACACAATGTACACAGGACTTCGACTTCTGGAAAGATGGCATAGTTACACTTTTCCCTATTCTTACTGCTAAGTACCACTAAAGGCCCTGTACATTATA
W
ATAAAACACACATAAGGAGAATAAAAAGTAAAGGGAAGAAAGCCAACTGACCAAAGACCTTGGAAATCAAACTGTAAATTTGTTGGGTTTTCTTTTTGCC
Celera SNP ID:            hCV26507084
SNP Position Genomic:     343285
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23848):
TGAGTTCTTTGTGTATGTAAAAGATAGTACTGTTGTTTCTGCCTCTCAGGGTTGTTATCCAAAAAATCCAGATAATGCACATAGCACACCATATAAACAC
W
TTTTCACTTAACAGATACTTATTGAGAATCTACTAGGCGCCAGGCCTAGGTGATAGAAATAAAGAAGACAAGAGAGATGTGATCTCTGATGTTATCAAAA
Celera SNP ID:            hCV26507085
SNP Position Genomic:     341423
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,5)   total(A,3|-,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23849):
TGAAGTCTTGCAAGAATAACAAATGAAAGGAAAATGTCTCAGAGAACTGGTGAAGACAAAGGGTACAGGGTAAATAGAGCTGACTATTGGTCAAATGCTG
M
CTCAGGAGGCTGGAAATAGATGTAAAGGAGGCCTTGCAAGAAGGTCAGCAGGGAGTTAAAAACTCCTGCACTATAAAATGCAAAAGACATTGGGAAGGAA
Celera SNP ID:            hCV26507086
SNP Position Genomic:     336810
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23850):
CCATCCATGTTCCTGCAAAAGACATGATCTTGTTCCTTTTTATGGCTGCATAGTATTCCATGATGTATATATACCATGTTTTCTTTAGCCAGTCTGTCAT
K
GATTGGCATTTAGGTTGGCTCCATGTCTTTGCTATTGTGAAGAGTGCTGCAGTGAACATTTGTGTGTGTGTGCCTTTATGATAGAATGATTTTATATTCC
Celera SNP ID:            hCV26507087
SNP Position Genomic:     334203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23851):
TCTCCTTGTTCCACCTGTTGCAAGAAAGACTACGACCCATAAATAATTGGAATTCTGTGGTCATGGCTTGAAGCAGGAGTGTTCCCCAGTACTTCTCTCT
S
AGTCTGCTTTATTTCATCCTCTTGCTCTAATGCACTGCCAACATTCCCCTTTATCCATTGAGGTTAGACAATACATTCTGCACATGGTGACTTAAGAACA
Celera SNP ID:            hCV26507088
SNP Position Genomic:     328434
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23852):
GTGCAAATCAGTAGCATGTTGGAACATGAATTGTGAATTATAATCATTGAAGACTCTTTTGGATCCTGTCATCTCCTTGTTCCACCTGTTGCAAGAAAGA
Y
TACGACCCATAAATAATTGGAATTCTGTGGTCATGGCTTGAAGCAGGAGTGTTCCCCAGTACTTCTCTCTGAGTCTGCTTTATTTCATCCTCTTGCTCTA
Celera SNP ID:            hCV26507089
SNP Position Genomic:     328363
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23853):
GCTTCTCAAAAAGTAATCTGGGGTCCAGCAGCATCAACGTCAGCCTGGTTCCTGTGAGAAATGAATATCAAGTTTCATCTTTGGCCTGCAGAATCAAAAT
C
TTCAGTTTAACAAGATCTCCAGGTGACTCGTATGCACATTAAAGGCTGAGAAGCTCTGTTCTATCAGATGGTCCTTCCTTTCCCAGCCTGGGTCACTGAG
Celera SNP ID:            hCV7995503
SNP Position Genomic:     82620
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,8)   total(C,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23854):
CAATGGCTTGGACTGTACCAGTAGCTGTGGAAATGATGAGAAGTGATCCAATCATAGATATACTGCACCTGTATTTATTTTCTTTCTTTCTTTCTTTCTT
W
CTTACTTTCTTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTGTCTTTCTTCCTTCCTTCCTTCCTTCCTTCCTTTCTTTCTTTTCTTTTTTTCTTTTTCTT
Celera SNP ID:            hCV26507230
SNP Position Genomic:     159516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23855):
CTGTCAGCTCGCCACATGCTCTCTTCAAACTTCTGGCACTCAGATTCCCCACATTGAACTCACTTTCTTTCTGAACTTATATCCAAGTTTTTTTTTTTTT
Y
CCCTTATGTTATCAAGCCTCAGAGGAACAAAGCAAAAACAGGAAAGTGGAGAAAAACCATGGTAGAATGTGCCAGAAGGATAAAGAGAAGTAGGAGAAGT
Celera SNP ID:            hCV26507231
SNP Position Genomic:     157974
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23856):
GTCTGCAAATAAATACCTCAATGAAAAGTGCCCTATTCAAGACCGACAGTAGGTAAATTATATAATACACAACCTGATGATTATACATACTGACAAAATG
S
AATTGATTCGTTTACCTTAGCACTGATGATGTCTCATGACAAAATGATTGATATCAATAAAGCCCACCATATGCATGCACCTCACCACAATCTATAGCAG
Celera SNP ID:            hCV26507232
SNP Position Genomic:     157578
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,9)      total(G,4|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23857):
AATGGACAAGAAGCCCAATATGTGTCTCTGAATGGGAAGTGTTATTTAATTCTTCAACTCGTCTTTTTTCTTAACCAAAACCAGTATCTTTTATTTTCTG
Y
AGTATATAATTTTCTTAGAACAAATTGTCTATTTCTGAATCTACATTTTAAAATCCACATAATTTTATCTATTATACCAAAGAGGTTGGAAATAAAGGAC
Celera SNP ID:            hCV16111914
SNP Position Genomic:     189929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23858):
GTAGAGTCAATAATGCTTTGAATGTTGCCTAAATTAAAACTGTCATGCTTTCTCAAAGGATTTGGTCCCTCCAAGGCAATTAGGTTATCAGTTTTCTGAT
W
TTTTTTTTTTTTTTTTTTTTTGGCCAACTTGGTTTTTTGCTTCCTCTCCAATTAGTTAGTATCCAGGCATTTCTAAAGGACATGGTGAACCTCATGTGAC
Celera SNP ID:            hCV26507233
SNP Position Genomic:     152705
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8|-,9)   total(A,1|-,9|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23859):
AGTAGAGTCAATAATGCTTTGAATGTTGCCTAAATTAAAACTGTCATGCTTTCTCAAAGGATTTGGTCCCTCCAAGGCAATTAGGTTATCAGTTTTCTGA
T
TTTTTTTTTTTTTTTTTTTTTTGGCCAACTTGGTTTTTTGCTTCCTCTCCAATTAGTTAGTATCCAGGCATTTCTAAAGGACATGGTGAACCTCATGTGA
Celera SNP ID:            hCV26507234
SNP Position Genomic:     152704
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23860):
ACCTATGTAACAAAGCTGCACATCATGCACATGTACCCCTGAACTTAAAAGTTAAAAATTAAATATTATGACTGAGGAGAAATACAGCTTTAAATAGTCT
K
ATCAAAGTAGATCTTATTGAGAAGGTATTAATTTTCTCAAACGAAGACTTCAAAGAGTCAGACAACTGCCGTCGAAGTGCCTGAGAAAGAGTGTTACAGC
Celera SNP ID:            hCV26507235
SNP Position Genomic:     146627
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23861):
TTTTAGAATTCAATTACCTTGTAAATTTACCATCAGCTGGAACCTAGCTCTCATATTGTTGGAGTCAGAAACCTGATATTTTTCAGCAATAGCACCAAGA
W
CACATCCTTTTCTTAGGGGTGTACTCACAATAACTCAGCCCATGAGATGAATATTTCAAACTAGAATGCCAGTTGATTAATTTACAGCAAATAACAGAAC
Celera SNP ID:            hCV16111918
SNP Position Genomic:     63777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23862):
CCACTTAGTATTGTGAGTCTACTTTTATCTCTCTGAACCTTGGTTTTCTTATTAGTTAAACTAAAATGATACTAGTACAATTAGGCACTTTGATTCTGCC
C
TTCGGACTAGCAGAAGTGCAAAGAACAGAAATAATGTCTGTAACGTGCCTGACACACAGTGGATACTCATTTGCCAGTATCCAAAATCATTGTCATTTAG
Celera SNP ID:            hCV26507090
SNP Position Genomic:     318954
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,9)   total(C,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23863):
AAGGGGAACAACAGACACTGGTGCCTACTTAAGGGTGAAGGGTGAGAGGAGGGACAGGATCAGAAAAAAACTATTGGGTACTAGGCTTAGTACCTGGGCA
R
TGAAGTAATCTGTACAATATAGCCCACGACACGCATATACCTATGTAACAAAGCTGCACATCATGCACATGTACCCCTGAACTTAAAAGTTAAAAATTAA
Celera SNP ID:            hCV26507236
SNP Position Genomic:     146488
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23864):
GGGATGCCTTTTCTACTGATAGCACATCACTCCAGAATGATCACTTGCTCATGCTCACCTTCTCTTCTTACCACCACAACCCCTGATGATGGGGATATTA
S
ATGGAGTCATGTTACTGCCCAGTGTAAGAGAAACAATGTAAGAACTGTGTGCCTGGTGGTCAGCATAATGAAGGCACTGGAGAATGAGTTTTACCCCCAA
Celera SNP ID:            hCV16111919
SNP Position Genomic:     205612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23865):
CTTTTCTTTTCAAAAGGAATGCAAGTGAACTTAAAGAATAATATGAAACTAGATGCTTGAAGAAAATACTTATTTCTTCCTGTGGGTGGGAGGTCACTCC
C
AGGTGATACTCCTACTAACATGGAATCCTAGGGAAATGGCTAAGTCTAAGGAATTTCAGCCTTTTAATCCCTAAGCCTGTTCCCTGTTTTCCTTCTCTTC
Celera SNP ID:            hCV26507091
SNP Position Genomic:     318604
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23866):
AGTTTCAGCTGGATTTAAACTAGACTATAGCAGGAAAGAAAAAGAATTCATTTCTATGCATGTGAGTGGGGGGTTAGTGGAATCTTAATCTTTCTGAATG
G
GAAAATGTATGCAGTCCTTTCTTTTCATCTCAGCGCCTTTGAGTGAATTTGCTTTTGTCTAAAATGAAAGGAGAAACAGCTCATTTTTCCATTGTCATAA
Celera SNP ID:            hCV26507237
SNP Position Genomic:     141175
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23867):
GCTTTAAAGGCATTATCTTGTTTAATTTTCCCTCAAGATCGTAGGAACTAGTAGGTACTACTGTAGTTACCACATCTTAGATAGAAAGCTGAGGGACAGA
K
GTTGGACCCACATAGAAACACTGGAAATGGTCTGAACACAGGCAGCATGCCCCAGAGCTTGTGCTTTTAACCTGCCCCTCTGTCCACGCCCTCCAGCCCC
Celera SNP ID:            hCV26507092
SNP Position Genomic:     311956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23868):
TAGTTTCAGCTGGATTTAAACTAGACTATAGCAGGAAAGAAAAAGAATTCATTTCTATGCATGTGAGTGGGGGGTTAGTGGAATCTTAATCTTTCTGAAT
G
GGAAAATGTATGCAGTCCTTTCTTTTCATCTCAGCGCCTTTGAGTGAATTTGCTTTTGTCTAAAATGAAAGGAGAAACAGCTCATTTTTCCATTGTCATA
Celera SNP ID:            hCV26507238
SNP Position Genomic:     141174
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23869):
TGTTCACTGTTGAACATAGAGAAATACTGATTTTGGTATGTTGATTTTGTACCCTACAAATTTACTGAATTTAAATTTCTTTACCAGTTCTAATAGTTTT
S
TTGTGGAGTCTTTAGGTTTTTCCAAATATAAGATCATATCATCTGCAAACAAGGATAATTTGACTTCTTTCTTTCCAATTTGGATGCCATTTATATCCTT
Celera SNP ID:            hCV26507093
SNP Position Genomic:     296824
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,5)      total(G,4|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23870):
ATATTCTGAAACTGACACCCAATTTGCTAACAGCCTAAAACTTTCCTAAATAGGTAAGTGCAAGGAAGAACAAAGAATTTGCTTACAAAAGGTTTAAGGA
R
GCAATAACATTTCCAAATAAGGAAGGGGCATAGGCTGCAAGCTGGAACGTGCCTGTGAGCATGTCCAACAATTACATAGGGTAGGGCTTAACAAAGAGTT
Celera SNP ID:            hCV26507239
SNP Position Genomic:     136876
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23871):
GTTCATCTGTACGTTGGCTTCCTATTGCTGCTGTAAAAAATTACCACAAACTTGGTGGCTTAAAACAACACAAACTTACTCTCTTATAGTTCTGGAGATC
R
GAAGTCCCAACTCAATCTCACCTAGCTAAATTCAGGGGAACCGCAGGCCTGCGTGCCCTCTGGAGATCAAGGGGAGGGTCTCTTTGTCTTTTCTGGCTTC
Celera SNP ID:            hCV26507095
SNP Position Genomic:     290875
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23872):
CAGTGATGATGTTTAAACGTAAGACAGAGACGTTTCTATGCAGCAATGGAACTTTAAAGGAAGCTGGAGCCAATGACCTTTCACTTTGAAGCCAAAGAAT
Y
ACAAGCATAAAATTTTCAGTCTTGCTAAGAATTGGGGCTGGAGAAATTAGCAGAAAGTCCTCTTTAAGCCCCACAATTCAGTATGTGGTGCCCAAAGCCT
Celera SNP ID:            hCV26507096
SNP Position Genomic:     285296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23873):
AAGACACAACTAGAAAACCATGGGGCATAACTGGAGAATAACAAACAGATTATTACAGATATGGCTAAGCTTAGTGTAGATGAAAGGAGGTAGTGGAAAC
M
GGTTGGAAAGTTAGTTACATGTCAGAGCAGTAGGAAAAGATTGAGTGCATACACTTAATATTACAGTCTGATGAAAAACATTAAGGCCAAAAAATTTTCA
Celera SNP ID:            hCV26507097
SNP Position Genomic:     284671
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23874):
GCAACAGTCATCACCCTCTCTGAAAGAGCAGAGGAGCAAAACCTTGGCAACTCACATAATGAGCCCTTGTCCAAAGGAAGGCAAAAAAAAAAAAAAAAAA
A
TTCCTCCTTTTGTATAGCTAATACAAACACAAGCTGCCAAGAAGGGTCAACCATCATGGGTCGTTGATTACCCATATTAACCCTGATGGCTGCCTTTACA
Celera SNP ID:            hCV26507099
SNP Position Genomic:     279517
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23875):
TCGGCCATCTTGGCTCAAGTGTCGGCAGCACACTCTCCTTAGTGAGCAAGCTCCCATGCCTCCTTCAGAGGAACTCCTCACAAATCTCCATTGGAGGCAC
R
TGTCAGCCCCACAGAAAGCAAACAGCACCAGCCTTTTCTCATGCCTTGTGATTTACCAAGAGGAGGAAGATGTGGGCAGTCATTCCAACCTGAGTGTACA
Celera SNP ID:            hCV8020162
SNP Position Genomic:     377702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23876):
GGAATTGCAGGAGGTATAATTCAAATGAGATTTGGGTGGGGACACAGCCAAACCATATTACACACACACACACACACACACACACACACACACACACACA
M
GCAAAAACCTAGAGGAGTAGAAATTGTCCTCAGGAAGGTAGGGAAAGAGAGAAAAGCTCTAAAGAGCCTGGAGTTTCCTCAGAATTAGATAGCCTCAGGT
Celera SNP ID:            hCV8020163
SNP Position Genomic:     370835
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23877):
GAGTTAATCCCTTTGGGGGTGTATTGATTGTAGAAAATCTGCATCTCCAAGGACAATTTAAAGATCTACAGTGACTAAGTAAATACCTTTATAATAATAC
Y
AAATAAGTATGTTAACCCATTGAATGTTCCTGGATGCTATAATGCTGATTTTTAAAATATTAGTTGGTGCAAAAGTAATTGCAGTTTTTGCTATTACCTT
Celera SNP ID:            hCV39086
SNP Position Genomic:     39411
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23878):
CAAGCAACCCAGAAACAGTGGCAAAATCGCTTATGAACTAAACTGAAGCGCCATCACAGGACAGGGTGGAGGAGCCCTGAGTACCCCTGGGACAGCTCTG
R
GCACTGGAGGCAGGTGGGATGCAGCCCCTCACAGCCCCCATGGCTTCCTGCCTGGGGCTTCTCATCCTGTCCTCTTGTTTGCTTGCCGACTGCAGGTTCA
Celera SNP ID:            hCV25964658
SNP Position Genomic:     239371
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,24)   caucasian(G,30)   total(A,4|G,54)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23879):
TATTCCAGCCCTTTCATTTTGCAGATAATTTAATTTAAAATAAATGTCTGTAAAGAGATTCGAGTTATATTTATCACGAGCATCTAGTACATAGGATCCA
K
ATACTGGAATCTTGTGCTGTTTCCTTGTGTCTGTTCTCCTTCTATTGAGTTCATTCTCCTGTATTATACTGTGTGGCCCCTTTAGGACCTTTAAATAACA
Celera SNP ID:            hCV16111920
SNP Position Genomic:     15300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23880):
CAAAAGATCTCTCAGCAAGGCAATCTTTACTTTCTGCAGAAAGGGTGCTCAGTCGCAGATGGAACAATGGCGAGAGCACACCTGAACAAAGGAAAAGCAG
R
CATATTTATCCCTATGCATTTGGGTTGTCCTTACTGCTGTGTCCTGCATCCATTGGCTGGAGCTGGACCTCATATTCTGAAACTGACACCCAATTTGCTA
Celera SNP ID:            hCV26507240
SNP Position Genomic:     136704
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23881):
TTAGTTGCTTCTGTGTCTGTTGCTTTTCTGCCTCCTATTCTTTTTTTATTATAGTAAAATGTAACATAGATTTTACCATTTGAACCCTTTTAAGTATATA
S
TTCAGGGACATTAAATACATTCACGTTGTTGTGCCATCTCCAGGACTTTTTCATCTTCCCAAACTGACACTCTATGCCTATTAACCAATAACTCCCTGTT
Celera SNP ID:            hCV26507241
SNP Position Genomic:     136442
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23882):
ATTCAGATTTAGATCCATCTGTCTCCAAAGCTATATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTAGCTATGCTATGCTATGCTAT
G
CTATACTGTGCTATACTGTACTATGCAGTATTGTTGGGTCCATATATGTCTTGCTCAGTAGAAGAACAGTGAGTGCAAACACATGGAGTTTTGTCCACAT
Celera SNP ID:            hCV26507242
SNP Position Genomic:     136103
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,7)   total(G,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23883):
GATTCAGATTTAGATCCATCTGTCTCCAAAGCTATATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTAGCTATGCTATGCTATGCTA
T
GCTATACTGTGCTATACTGTACTATGCAGTATTGTTGGGTCCATATATGTCTTGCTCAGTAGAAGAACAGTGAGTGCAAACACATGGAGTTTTGTCCACA
Celera SNP ID:            hCV26507243
SNP Position Genomic:     136102
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23884):
AGATTCAGATTTAGATCCATCTGTCTCCAAAGCTATATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTAGCTATGCTATGCTATGCT
A
TGCTATACTGTGCTATACTGTACTATGCAGTATTGTTGGGTCCATATATGTCTTGCTCAGTAGAAGAACAGTGAGTGCAAACACATGGAGTTTTGTCCAC
Celera SNP ID:            hCV26507244
SNP Position Genomic:     136101
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23885):
TAGATTCAGATTTAGATCCATCTGTCTCCAAAGCTATATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTAGCTATGCTATGCTATGC
T
ATGCTATACTGTGCTATACTGTACTATGCAGTATTGTTGGGTCCATATATGTCTTGCTCAGTAGAAGAACAGTGAGTGCAAACACATGGAGTTTTGTCCA
Celera SNP ID:            hCV26507245
SNP Position Genomic:     136100
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23886):
TTAGATTCAGATTTAGATCCATCTGTCTCCAAAGCTATATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTAGCTATGCTATGCTATG
C
TATGCTATACTGTGCTATACTGTACTATGCAGTATTGTTGGGTCCATATATGTCTTGCTCAGTAGAAGAACAGTGAGTGCAAACACATGGAGTTTTGTCC
Celera SNP ID:            hCV26507246
SNP Position Genomic:     136099
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,7)   total(C,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23887):
AAATAGCAGAACTTAGATTCAGATTTAGATCCATCTGTCTCCAAAGCTATATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTAGCTA
T
GCTATGCTATGCTATGCTATACTGTGCTATACTGTACTATGCAGTATTGTTGGGTCCATATATGTCTTGCTCAGTAGAAGAACAGTGAGTGCAAACACAT
Celera SNP ID:            hCV26507247
SNP Position Genomic:     136087
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23888):
TTGGCCTCTCTTGAGCCTCACAGCAACCTAGTGAGGAAACCAAGTCACAAGGCTGGTAAATGTGAAAGGGGCCCTGTGTGCTTCAAACTCATTTTCTTTT
Y
CACTATGCAGTATGGCTTTCCCAAGACTTCTTTACTATCTGCTCTTAACTGTTAAACTGTGAAGACATCTGGTAACAGTCCTAAAATCAGCAGTTTACAG
Celera SNP ID:            hCV16144411
SNP Position Genomic:     290641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23889):
TAAATAGCAGAACTTAGATTCAGATTTAGATCCATCTGTCTCCAAAGCTATATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTAGCT
A
TGCTATGCTATGCTATGCTATACTGTGCTATACTGTACTATGCAGTATTGTTGGGTCCATATATGTCTTGCTCAGTAGAAGAACAGTGAGTGCAAACACA
Celera SNP ID:            hCV26507248
SNP Position Genomic:     136086
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23890):
AATAAATAGCAGAACTTAGATTCAGATTTAGATCCATCTGTCTCCAAAGCTATATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTAG
C
TATGCTATGCTATGCTATGCTATACTGTGCTATACTGTACTATGCAGTATTGTTGGGTCCATATATGTCTTGCTCAGTAGAAGAACAGTGAGTGCAAACA
Celera SNP ID:            hCV26507249
SNP Position Genomic:     136084
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,6)   total(C,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23891):
AAGAGGGGAGATTAGGCACTGCCTAGCTCTTGAAATCCTCCCAGCCCTGAGTTCTTTCCAGGAGACCCTGTGTCCCCTATACACTGGTTTCTGCAGCTGA
Y
GGGCTAAGCAGAGAGGCTCAACCTGAAGAAAGAGACAGGTGGCTCCAGAGCAAGACTTGTAACGAATTCTCCCCAGGGAGAGAAATACCGAAAGTTTAGC
Celera SNP ID:            hCV1440421
SNP Position Genomic:     2583
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,19)   caucasian(C,17|T,17)   total(C,36|T,36)
SNP Type:                 hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:23892):
AACCAGAGTGTTCTGGGCAGGCAGCTTAGTAAACCTCATCTGAAGGTTTGATTCCAAAATTTGCACACACTGATCCAAACAAATGTGATTGTAGTTTTTC
Y
TGTCACATTTATAACATGCCAGAACTTCCTCAGAAGGTAACAAGGCAGGAAGAGAACAAGGTAAAAATGTAGCAAATGAATAGGTTGCATTGATTCCTTG
Celera SNP ID:            hCV1440423
SNP Position Genomic:     7175
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:23893):
TAATAAATAGCAGAACTTAGATTCAGATTTAGATCCATCTGTCTCCAAAGCTATATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTA
G
CTATGCTATGCTATGCTATGCTATACTGTGCTATACTGTACTATGCAGTATTGTTGGGTCCATATATGTCTTGCTCAGTAGAAGAACAGTGAGTGCAAAC
Celera SNP ID:            hCV26507250
SNP Position Genomic:     136083
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,4)   total(G,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23894):
TGAGAGACAAAGAGAATGAATAAATAAATGCATGTATGTATTTGTGCATTTGTATGTTTTAATACATGTTGATGCCCATTTACTATTATGTATGTATAAA
Y
TGGAAAGCAGTCTTCTAACACACCATGGAGTAGGCTATTACTCTAACTTAGGAGATTCACATCTCCTAAGTTGATTCTATCCTACTAACAATATTACAGT
Celera SNP ID:            hCV1440424
SNP Position Genomic:     10056
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23895):
GCAGCTAATAAATAGCAGAACTTAGATTCAGATTTAGATCCATCTGTCTCCAAAGCTATATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTA
Y
GCTAGCTATGCTATGCTATGCTATGCTATACTGTGCTATACTGTACTATGCAGTATTGTTGGGTCCATATATGTCTTGCTCAGTAGAAGAACAGTGAGTG
Celera SNP ID:            hCV26507251
SNP Position Genomic:     136078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23896):
AGGCTATTACTCTAACTTAGGAGATTCACATCTCCTAAGTTGATTCTATCCTACTAACAATATTACAGTTAGGGTTTGCAATTTTTATCAGTTAAGTGTC
R
TTAACTCTATACAAGTTACTCATGTTTTTTAAAAACTTAGTTTACTTGGGCTGTATTTTGCTTGGGGATTATATTAGCATGAGACATGGTCTGGTGTTTT
Celera SNP ID:            hCV1440425
SNP Position Genomic:     10188
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23897):
TGGCTGGGTTTGTTGTTGTAATCATTAATAGTAATGGTAGGTGTTCCATGATTAAACTCTGAGAGCTTTCTATTCCTTTGTTGAATCCTTATAACAACAA
C
TCTTGGAGGTATGATTGGTACCATTTTACAGGTGAAGAAACCAAGGCCTAGAAAGATGAGGTGACTTGGAAAAAGTTATGCAGCTAATAAATAGCAGAAC
Celera SNP ID:            hCV26507252
SNP Position Genomic:     135898
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23898):
CATATTCTACTGTTTCTGTGGTCTCATGAGTAGAGTGACCCAGAAGTGACCTCTTCGTAGCATAAGGACCGGAGCCTTTTCTTGAGTGAGAGCATTCCTT
S
AATCACCATGAATAACCTACTGGTTAACTGTATTGAGATAATCACAGGAAAATGTGTCTAAATCAAGTTTTACAGTCTTGTCATTGTTACTAACTTTCTT
Celera SNP ID:            hCV1440426
SNP Position Genomic:     10725
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23899):
TATGGCTGGGTTTGTTGTTGTAATCATTAATAGTAATGGTAGGTGTTCCATGATTAAACTCTGAGAGCTTTCTATTCCTTTGTTGAATCCTTATAACAAC
A
ACTCTTGGAGGTATGATTGGTACCATTTTACAGGTGAAGAAACCAAGGCCTAGAAAGATGAGGTGACTTGGAAAAAGTTATGCAGCTAATAAATAGCAGA
Celera SNP ID:            hCV26507253
SNP Position Genomic:     135896
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23900):
CAAGTCATCAACGCTAAGAAACGCAAAAGAGGTATATATTCTGTATTCCTTTCTCTGTCTTTTAAATATACGTAGCCACACACTGAACAACAATTAACCC
S
TTTTGCTCTTGTTAATTAGAATGAATCATTTTGGATGTTTCATATATTTTTTATCCATTTAGTTCTCAAATATTTTTCCTTTTTCAAAACTTGTCCTCAG
Celera SNP ID:            hCV1440427
SNP Position Genomic:     11972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|G,8)      total(G,8|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23901):
ACCAAAGAGGCAAGGCTGTGGTGAAACAGTTGAAATCTCCTGGGACAGAGTGGGATCAAACAGTGAGGCCAAGAACATAGAAGCACACAGATCCAAGGGG
R
AGGCGAATATAACAGAAAAAGATGCTGAGAAGCTGAAACCAGGGTGCAACACTGAAACTGCTCCAAGGGCAGAATGTCAGAAAATCAGAGTGAACAATTC
Celera SNP ID:            hCV1440428
SNP Position Genomic:     12976
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23902):
CAAATTCCCAGGGAAGAGAGTCTGGCCTAGTCTAAGTGTCTCTATTACTGAATTAATTAGCCATGGCCAGGGGATGGAGTGACTAACACAGTCATGGCCA
S
TGAGGATTTCCTAGGGATGCTATAAGTGACCATGGGCATAGTGCCAGGTCTGTAATTATTTTTGTATATTTATTTCTAAATTAGGGATTTGGTCTATATG
Celera SNP ID:            hCV26507254
SNP Position Genomic:     134265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23903):
AGAGGCAAGGCTGTGGTGAAACAGTTGAAATCTCCTGGGACAGAGTGGGATCAAACAGTGAGGCCAAGAACATAGAAGCACACAGATCCAAGGGGAAGGC
R
AATATAACAGAAAAAGATGCTGAGAAGCTGAAACCAGGGTGCAACACTGAAACTGCTCCAAGGGCAGAATGTCAGAAAATCAGAGTGAACAATTCACAGA
Celera SNP ID:            hCV1440429
SNP Position Genomic:     12981
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23904):
ATTTTCAAATTCCCAGGGAAGAGAGTCTGGCCTAGTCTAAGTGTCTCTATTACTGAATTAATTAGCCATGGCCAGGGGATGGAGTGACTAACACAGTCAT
R
GCCAGTGAGGATTTCCTAGGGATGCTATAAGTGACCATGGGCATAGTGCCAGGTCTGTAATTATTTTTGTATATTTATTTCTAAATTAGGGATTTGGTCT
Celera SNP ID:            hCV26507255
SNP Position Genomic:     134260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23905):
CACTTGTGTTTCTTTTCTTTCTGATTTCTCAAAACCTTAAACTAACTCTCTCAGTTTTCTCTATCTCCTTTTGAAAACTCTGGGAATACATTTCCTAATA
R
AGTTTCCTTCTGTATACTCAGCTCCAGAATAGGACAATAAGTGCCCTTCCTGGTGAAATACATATACTCTATTTTAGGATTCTTTTGGTTACAAGCAATA
Celera SNP ID:            hCV26507256
SNP Position Genomic:     133807
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23906):
AGGCGGGCAGATCAGAAGGTCAGGAAATCGAGATCATCCTGGCTAACATGGTGAAACCTCGTCTCTACTAAAAATACAAAAAAAAAAAAAAAAAAAAAAA
A
TTCGGATCTGCAGCATTTGGTCTGTACTCCAATACAGCAAACATCTGATAGAGCTGAAATGACACTGCTGCCTTGAGATGCTGCATACTCTTTGGGGCCT
Celera SNP ID:            hCV26507257
SNP Position Genomic:     132715
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23907):
GAATATACCCAGTGTTTTGTTTTCCCAAGTTTTTGACTATACTTCATACTGTCCTCTCTGCCCCACAGGTTCTCATGGTGGGGGAGGATTTCTGTCTCCT
Y
CCTACTCCTGAGGGTGACTGTCAACTTCTGAGGCAGAAATCTCAGTATTAGGGTTGATTGACAGAAAGATTTATTAATTTGTTGATGCACCCATCCATGC
Celera SNP ID:            hCV26507258
SNP Position Genomic:     131726
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23908):
GTAAAATTTGAAGTCAGATAATGTGATTCCTCAGTTTTGTTCTTTTTGCTCAGGATAGCTTTGGCTATTCTGGGTCTTTTGTGGTTCCATGTACATCTTA
R
GATTGTTTTTTCTATTTCTGTGAAGAATGTCTTTGGTATTTTGACAGAGATTGCAATGAATCTGTAGATTGTTTTGAATAGTATAGACATTTTAACAATA
Celera SNP ID:            hCV26507259
SNP Position Genomic:     125427
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23909):
GTAGTCCCAATGGGCATTCCCAGAAGTCCAGAGACACACCCTCCTGCATGTCAGGGATCTACCACGTTTGTTTTCTGCTTCATACATTTAACACTATGTT
M
TGTATGCTTTCCCATGTGACTAAGACATTTAGGATCTAGTAAAATGTAAAATCCTCTCTTGTGCCTACCATGGTATAAGCAAAGCTTCTGTCTTACGCCA
Celera SNP ID:            hCV16150841
SNP Position Genomic:     199226
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,13)      total(A,1|C,13) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23910):
AGAAGTTGCAGCGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCCAGAAAAAAGAAAAAACAAAAAGGTTTTGGCCTGAAGAGTATAGA
R
TTGACATTGGGTTGGGGAATGCTGCAGGGAGAACAGATTTCATGGGGATAGCAGGAGGATCAGGGATTCAGGTTTGGACATGATGAGTTTCCAGTGTCTT
Celera SNP ID:            hCV498919
SNP Position Genomic:     100195
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23911):
CAGATACTGGAATCTTGTGCTGTTTCCTTGTGTCTGTTCTCCTTCTATTGAGTTCATTCTCCTGTATTATACTGTGTGGCCCCTTTAGGACCTTTAAATA
R
CAGCCATCATGCTGGCTTTGGTAGAGAGGGATTGAAATGTTGAAATGTCACATGCGGAAGAAACCAAGGATCGAATGAAGCTGCTGCAAAACAATCTTGA
Celera SNP ID:            hCV1440430
SNP Position Genomic:     15398
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23912):
GTTCATTCTCCTGTATTATACTGTGTGGCCCCTTTAGGACCTTTAAATAACAGCCATCATGCTGGCTTTGGTAGAGAGGGATTGAAATGTTGAAATGTCA
S
ATGCGGAAGAAACCAAGGATCGAATGAAGCTGCTGCAAAACAATCTTGAGTTAAAACTCAAAGATCGGCGTGGCGCGCTGGCTCACACCTGTAATCCCAG
Celera SNP ID:            hCV1440431
SNP Position Genomic:     15449
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23913):
TCACATGCGGAAGAAACCAAGGATCGAATGAAGCTGCTGCAAAACAATCTTGAGTTAAAACTCAAAGATCGGCGTGGCGCGCTGGCTCACACCTGTAATC
S
CAGCACTTTGGGAGTCCAAGGCAGGTGGATCAGGAGGTCAGGAGATCGAGACCATCCTCGCTAACACGGTGAAACCCTATCTCTACTAAAAATACAAAAA
Celera SNP ID:            hCV1440432
SNP Position Genomic:     15546
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23914):
CCAAAATAGGAGCCATTACAATCAGTACATTTTGGCCAATGAGAAATAAGTTTGTTTATTCCTGTAGCATAAAAATTCATGCTTCAGGATTTGACTAACT
S
TTGGAAAGCATTTTCTGCATCCTGCTGGTTGTGGAGGCATTTTCCCTGCAAAAAGTTATCGAGATGCTTGAAGAAGTGGTAAGCAGTTGGCAAGAGTTCA
Celera SNP ID:            hCV26507260
SNP Position Genomic:     124516
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23915):
CAACTTTCTAAGATTTAAAGGCCCCAGAAATTCCTGGATGCTCTAGTTAAATACCTGGGATTAAGAGTGGAGAGGGTAGATCTTGCTACAAAATTCATCT
S
AAAGAGAAGAAACAAAATCCTTTGGGCCGATTCCTGGTTTTTCTTCTTCTTCTGGATTTTTTTTTCTTCCTTTACTCTGCCAAATTAAGATAAGAATTAG
Celera SNP ID:            hCV27490564
SNP Position Genomic:     302874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23916):
TTTAGATCCCACTGTTTAGCATAGAACCAGGGCTTGGAACTGAGTCAGTGTTCAACAAATGTTTGCTGAATGAAAGTGTGAAAGAGTTAGTAATTTTATT
S
AAGGCCTCCCAGTTAAAATTTTTGACCTACAGTTAGGGATTATTTTTCCCAAATTATTGAAGGTATTCGGGAACAACCAATGTATCTGTATCCTAAAAAG
Celera SNP ID:            hCV1440434
SNP Position Genomic:     18148
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23917):
TGATTTTTCTCTAATATTAGGTTGGTGCAAAAGTTATTGTGGTTTTGGACCATAAATTTTAAATCACTGTAACTAGGCTCAAACACATCTTTATTAACCA
R
AATAGGAGCCATTACAATCAGTACATTTTGGCCAATGAGAAATAAGTTTGTTTATTCCTGTAGCATAAAAATTCATGCTTCAGGATTTGACTAACTCTTG
Celera SNP ID:            hCV26507261
SNP Position Genomic:     124419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23918):
TTTTATTCAAGGCCTCCCAGTTAAAATTTTTGACCTACAGTTAGGGATTATTTTTCCCAAATTATTGAAGGTATTCGGGAACAACCAATGTATCTGTATC
S
TAAAAAGTTAAGAACTTTCTGTCATTCAGCAAAGTGTGAATTCAGGCCCAAGTTTTCTGAAGAGACTGCCAAACTGTTGTGACTTAACCCTTTATTCACT
Celera SNP ID:            hCV1440435
SNP Position Genomic:     18241
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23919):
ATTGATTTCTAGTTTTATTTCATTGTGGTCAAAAAAGATACTTGATATAATTTGAATAATTTTGAATTTTTTAAGATTTGTTGTGTGTCCTAATATATGG
Y
TTATTCTGGAAAATGTTCCATGTGTTGATAGGAAAAGTATGTATTCTGTAGCAGTTGGATGAAATATTCTGTAAATGTCTGTTACACCATTTGGTCTAGA
Celera SNP ID:            hCV26507262
SNP Position Genomic:     123649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23920):
AACCCTTTATTCACTCTCAGCGAGCTTTTAAAAATAGAGGCTATTTCAAAAGGGCAATCCTGGCCTAGCCAGCATGGTGGCCCACACCTGTAGTCTCAGC
W
CTTTGGGAGGCCAAGGCAGGAGGATCGCTTGAGCCCAGGAGTTCAAGACCAACCTGGGCAACATGGCAAAACCTCATCTCTAAGAAAAAATGCAAAAATT
Celera SNP ID:            hCV1440436
SNP Position Genomic:     18427
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23921):
CTTTGGGAGGCCAAGGCAGGAGGATCGCTTGAGCCCAGGAGTTCAAGACCAACCTGGGCAACATGGCAAAACCTCATCTCTAAGAAAAAATGCAAAAATT
R
GACAGGCATGGTAGTGCGTGCCTGTAGTCCTAGCTACTCAGGAGGCTGAGGTGGGAGGATTGCTTGAGCTGGAGAGATGGAGGCTGCAGTGAGCCGAGAT
Celera SNP ID:            hCV1440437
SNP Position Genomic:     18528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23922):
ACATTGTACTTCCGTTTTCATGTTTCTCAAGAATTTTTAAAAATTCCTTCTTTATGTATTGACTCAGTAAGCATTCAGGAGCATATTTAATTTCCATGTA
Y
TTGTATAGTTTCCAAAGTTCGTCTATATTTGTATAGTTTTGAAAGTTATTGATTTCTAGTTTTATTTCATTGTGGTCAAAAAAGATACTTGATATAATTT
Celera SNP ID:            hCV26507263
SNP Position Genomic:     123501
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23923):
CCTTTTTGTTTTCTTTGCTGTGCAGAAGTTTTTAGCTTAATGTAATCTATGTGTCTGTTTTTGCTTTTGTTTTCTGTGCTTTTGAGATCTTATCCAAAAA
M
TCTTTGCCCAGATCCTTGTTGTGGAGCATTTCCCTAATCTTTTCTTCTAGTAATTTTACAATTTCAAGTCTTACATTTAAGTCTTTAATCAATATTGGGT
Celera SNP ID:            hCV26507264
SNP Position Genomic:     121218
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23924):
GTGTCATATAAGCCTGACCACAGATCACAACCCATTTTACCGGTAAGAAAACTGAGTACCAAAACCTAAAAGGTGTTATGAATTTCCTAACTTTTCATGT
R
TGCGTATTCAGTGCTTAGAGCAAACAAATCTTATTGAAATATGCAGTACAGATTATTTTCCATGTTGTTTGAACTATGTTTTTGGCCTTGGTTAGCAGGA
Celera SNP ID:            hCV1440439
SNP Position Genomic:     19682
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23925):
TTTTCTATAATGAGTGTACTACTTCACATTCCCACCAACAGTGTGCAAGTGTTTCTCTTACTTTGCATCCTCACCAGCATTTGCTATTTTTGTCCTTTTA
R
TAATAGCCACTCTGAGGCGAAATGATACATTATTGTGGTTTTGATTCGCATTTCCCTGATGATTTGTAATGTTGAGCATTTTTTTACATGCCTGTCAGCT
Celera SNP ID:            hCV26507265
SNP Position Genomic:     120848
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23926):
GCTCCCACATATGAGTGAGAACATGCAATATTTGTCTTTCTGTGCCTGGTTTATTTCACTTAATGACCTCCAGTTCCATCCATATTGCTGCAAATGACAG
S
ATTTCATTTTTTATGACTGAATAATATTCCATTGTGTATATATACCATGTGTCATAACCATTTATTAATTGATGAACACTTAGGTTGATTATATATCTTG
Celera SNP ID:            hCV26507266
SNP Position Genomic:     120501
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23927):
CCAGAAATTTCAATACAGGCAGAATTTATTAATGTGCTTATCATGGGAAAATCTTTAAAAGTACAGGACACTTGGGCCATTGTATTTTTTGTGTAGAGAC
R
TAATTGTTTTCCTTATTGTGTATTTTTTACTTTTCTTATAAAACGAACCCATGACCTCATATCATGAAACGTGTATGGCAGCTGGTATAAGCAATATAGA
Celera SNP ID:            hCV15818877
SNP Position Genomic:     293804
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23928):
CTAGAAAAAAAACTATTTTAAAATTCATATGGAATTTTAAAAAGAGCCCCATAGTCAAGGCAATCCTAGACAAAAAGAACAAAACTGAATGCATCACATT
R
CCTGACTTCAAACTATAGTACAGGACTACAGTGACCAAAACAGCATGGTACTGGTTCAAGAACAGACACATAGACCAATGGAACAGAATAGAGAGCCCAG
Celera SNP ID:            hCV26507267
SNP Position Genomic:     119375
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,8)   total(G,5|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23929):
AGACGCAGAATGGTAGATCCACTGACAGCTTGCACTGTGTGCCTGGATAAGCTGCAGTCACTCAACACCAGCCAGTAAAAGCAGCCGGGAAGGAGGCTGT
R
CCCTGCAGAGCCACCAGGACGGAGCTACCCAAGACCGTGGGGACCCACCTCTTGCATCAGAGTGATCCAGATATGAGACAGGAGTCAAAGGAAATCACTT
Celera SNP ID:            hCV26507269
SNP Position Genomic:     116385
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23930):
TCGCATCACCTGGGATCTTGTTTGAAATGCAAATTATTAAGCCTCACCCCAGGTCTACTGAATTAGAAGCTCTGGAGGGTGGGGCCCCAACAATCCTGTA
K
TTTAAAAAGGCCTTCAGGTGATTTTGATGTACGTTTAAGTTTGAAAACCACTGCTTTAAAGTTTTTGACTAGGCTGGGCAAGGTGGCTCATGCCGTTAAT
Celera SNP ID:            hCV498920
SNP Position Genomic:     99808
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23931):
GAAAAAGAACAAAAGCAAGGAGTTTTAAACTATACCTAGTATACATGAAAATATGGTGCCCTAAGCCATTTAATCCTAGTTATGAAAAAAAAAAAAAAAA
A
GCCTGTTGGCCTTTTCAAAAAGGAGGGAAAATTAGCCAAGAACGGCCTTTACCTGCTATGGCACCATCCTCCAAAACTGACCCCACTTTCTGTTCTTTGC
Celera SNP ID:            hCV498921
SNP Position Genomic:     98282
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23932):
AAGTTGAAAACTTTGAAAAAAGATTTAGAAGAATGTATAACTAGAATAACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAACCAAGGCTC
M
AGAACTACGTGAAGAATGCAGAAGCCTCAGGAGCCGATGCGATCAACTGGAAGAAAGGGTATCAGCGATGGAAGATGAAATGAATGAAATGAAGCGAGAA
Celera SNP ID:            hCV8784194
SNP Position Genomic:     245154
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23933):
GTTATTTTCCAAAAGACTTGAGAGTTTGGGGGAAAAGTAAAAGAAATCTGTAAACCTTTTGCACCAGGAAAAAGAACAAAAGCAAGGAGTTTTAAACTAT
R
CCTAGTATACATGAAAATATGGTGCCCTAAGCCATTTAATCCTAGTTATGAAAAAAAAAAAAAAAAAGCCTGTTGGCCTTTTCAAAAAGGAGGGAAAATT
Celera SNP ID:            hCV498922
SNP Position Genomic:     98215
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23934):
TAGAGCAAGGAAGGTGGGATTGATGATTCATTATATCACACATTTCATATCTTTTATGTCTGGACCTGAATGAAGACATTGGAACAGTTTAAAGCTTTCA
R
TATACCTGTAACTAGTGTTCTCTTAGTAAACACATAGTAGGGCACACCCAAAGTTTGAATATATTAGAAAGAGTTCCATATTATTTTCAAGGTCATAGAG
Celera SNP ID:            hCV498923
SNP Position Genomic:     97915
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23935):
GGGGTACCTCAGTTGGAAATGCCGAAATCACCTGGCTTCTATGTTGATCTCGCTGGGAGCTGCAGACCAGAGCTGTTCCTATTCTGCCATCTTGCCAGCC
S
CTGCCTCACTTGTAAATAGAAACATAAGGAACTTGTTTTGCAACAGACCCAAGGAATAGTGGCAAGGAATTTATGTGCTGAAATAGCTCTCCTATACTAG
Celera SNP ID:            hCV498924
SNP Position Genomic:     97169
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23936):
CTGCCCTTTATGTTTCCACATCTGCAAAGTGAACTGGTTGTACCTGATGATCTGAGATCCCATGACTTGCTCACATGTCCCATGATTCTTTATTTTGTAG
K
CAGAAGCATTAAACAGCTACTCCTGCTGCTGTGTGCTAATCATTCCTGTAATTTCTGTTCTGCTTATTTGCCATTATTTGAAAAACATGCAAAAGGGTCT
Celera SNP ID:            hCV25958262
SNP Position Genomic:     255959
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,34)   total(G,67|T,1)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:23937):
ATTGAAAATTTTACTGGCGGGATTCAACAGCAGATTTCGCAGGCAGCAGAAAGAATTTTCAAACTTGAAGATAGATAGGCCAATAAAAATAGAAGAAAAT
R
AACAAACAGAGTCTAAAAGAGTTGTGAGACACCCTCAAGTGAACCAACATATACATTTTGAGAGTCTCAGAAGAAGAAAGGAGTTGAAAGATTATTTGCA
Celera SNP ID:            hCV16118496
SNP Position Genomic:     428517
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23938):
TTTTACCGGTAAGAAAACTGAGTACCAAAACCTAAAAGGTGTTATGAATTTCCTAACTTTTCATGTATGCGTATTCAGTGCTTAGAGCAAACAAATCTTA
Y
TGAAATATGCAGTACAGATTATTTTCCATGTTGTTTGAACTATGTTTTTGGCCTTGGTTAGCAGGAGCCTCCCCAGTGTGCTGAGCGATTTCCACAGCTT
Celera SNP ID:            hCV1440440
SNP Position Genomic:     19716
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23939):
CAAAAACTTAGGAGCCCCTTGTCCCTAAAACAGGGATAATATACTGATTCCAGGAACTCCTGTAGTCAATGTGAATGCACTTTGTAAATTGTTAAGTCTA
Y
ATGTGAGAGGAAGCATTCTGGTGCCTAATGTGAAGATGATCATCCGATCCTGTTACATAGCATGCACAAAGAGATTCAGAAATCCTCCAGTTACCAGGAT
Celera SNP ID:            hCV1440441
SNP Position Genomic:     21340
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23940):
GAATAGGACTATGAACCTCTTTCCCGTTATAAACAGAGGGATTTAAATAGCTGCTCTCTTGGGTCTCTTTTAGACCCAAGAGTTCTATGAATCTCTTGCA
Y
ATATAATAATGAATGATAGCATTCTCTACCATGACTATCAACTATTAACTCCCTTTACCTGAAATTCTGACGTTGAAAATTGACTCTGTTGTATTTTGGG
Celera SNP ID:            hCV2008439
SNP Position Genomic:     336566
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23941):
ACCTGGCTTTGTCTCCTACCCTTTAACAGAAACCTCATTTCCCCTTTTTTCCTAAAATGCCCATAAACCTTCAGTGCCTCATAGTAGTATTATGAGGATC
R
AATAAGTACGTGTAAGTACTTTGAAAACTGTAAAACCTTAGTCATCTCGTGCTCAAAAGCCTTCACTGTCTCCAGCTGTCTGGAGTCTACTCAAGGACCA
Celera SNP ID:            hCV1440442
SNP Position Genomic:     21933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,12)      total(G,2|A,12) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23942):
GCTGAAAATGCTTACACGTTGAAAGCACAATTAAGCTTTATAAACTCTCAAAGTATTTGCTTCTACTCTGCAAGCATTGAGAGCCAGAGATGGCTCACAA
R
AATCACAAAAAATCATGTCATGTTTCATGTACTGTTAATAATAAACATTTAATAAGTGGTTTTGCAGATGGCTCCTTAACATGATCATTTAATTTATAAA
Celera SNP ID:            hCV1440443
SNP Position Genomic:     23514
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23943):
CTCAAAGTATTTGCTTCTACTCTGCAAGCATTGAGAGCCAGAGATGGCTCACAAAAATCACAAAAAATCATGTCATGTTTCATGTACTGTTAATAATAAA
Y
ATTTAATAAGTGGTTTTGCAGATGGCTCCTTAACATGATCATTTAATTTATAAATTAGAAGATGGTAGTCCTTCCCATATATACAATATCTGGATTATAT
Celera SNP ID:            hCV1440444
SNP Position Genomic:     23560
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23944):
GGAATATCACACGCTGGGGACTGTGGTGGGGAGGGGGGAGGGGGGAGGGATAGCATTGGGAGATATACCTAATGCTAGATGACGAGTTAGTGGGTGCAGC
R
CACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTAAAACTTAAAGTATAATTAAAAAATAAATAAATAAAAAAAA
Celera SNP ID:            hCV26507271
SNP Position Genomic:     112114
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23945):
CCTTCAGTGCGTACACACAATCTTGCTATGCCAGCATCCTCATCTCCCTGGAAACTGCTCATGTGTCACTGCTGTCTAGAGCTTCCCTAATTTTCCCAGA
K
AGATTTAATTGCACTCTTTGTTGTATTCCCTTTTTGTAAAACTGATCACATTGTATAGTAAGTTTTTCTCCCTCACTGGACTGCAAATATCTGAGGCTTA
Celera SNP ID:            hCV15818881
SNP Position Genomic:     293331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23946):
TCAAGAGTTGCTTTGTAACAAAACAATTCTTAGGACTGAAGCTGTAGGACTGCCTCTACTTGGATTTCATTTATTAATTGCACTGCACAACGTTTTTTCA
Y
GTATTAGCACTTATATTTAAAAAAATAACTCTATGAGTTACACAGAGCAAATGCTTATGTTCCATTTTACAAATTAGAAAATTGATTTGTAAATGTGCTT
Celera SNP ID:            hCV1440445
SNP Position Genomic:     24580
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23947):
GTAGGACTGCCTCTACTTGGATTTCATTTATTAATTGCACTGCACAACGTTTTTTCATGTATTAGCACTTATATTTAAAAAAATAACTCTATGAGTTACA
Y
AGAGCAAATGCTTATGTTCCATTTTACAAATTAGAAAATTGATTTGTAAATGTGCTTAAATGAAATAGACTAATTTAGAATCATAGACATTTTTGTAGCT
Celera SNP ID:            hCV1440446
SNP Position Genomic:     24623
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23948):
TTCCACATCTCCTGAGATCCCATTCAATGTTATTGCTACTATATTACCCTGCTGAATGAACCAAAATAAACAAGACAGCTCAGCAAATTAGGTTTCATTT
R
TTTCTTTTGCATGGGAGTTCAACGTGGCATATTTTTTCCTAAACTAATCCTGCCAGCAGGCCTCATGGTACCTTAGCAACTGAAAGAGAATCCTATCTCA
Celera SNP ID:            hCV26507272
SNP Position Genomic:     108595
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23949):
AGTGATTAACTTGTTGGTTGCCATCTCTACCTTACATGGTTTCCTAGCCCCAGAGCACCTCCTAGATAGCTAAGAGACTAGGTTGGTTTGCTTTACATTC
R
TAATGGGAAAGTATGACCAGAACCTCAAAATCAACCTACTCCCAAAACTGCAAAATTTGCCAGAGTGTTCCAAATATCCAGGCTACTGCCTGTAGTTACA
Celera SNP ID:            hCV1440447
SNP Position Genomic:     27487
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23950):
GAATAGTGTTTATCAATTATGTACTAGACTTTGAAATTATCCCCTGGATTGGCTATTCCTGAAGTGTGTGTTTGTGTTTGTGTGTGTGTGTGTGTGTGTG
T
ATTTAGAGACTGGATTTTCATTGACTCAGTTTCAGAATAAATCAGGTAAGACCAATTCTAAAATCCCCAAGTAAACTGTAGGAAAACTTGCTACTTTACT
Celera SNP ID:            hCV26507273
SNP Position Genomic:     107313
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23951):
TTGTTGGTTGCCATCTCTACCTTACATGGTTTCCTAGCCCCAGAGCACCTCCTAGATAGCTAAGAGACTAGGTTGGTTTGCTTTACATTCATAATGGGAA
R
GTATGACCAGAACCTCAAAATCAACCTACTCCCAAAACTGCAAAATTTGCCAGAGTGTTCCAAATATCCAGGCTACTGCCTGTAGTTACAGCTACAGGTT
Celera SNP ID:            hCV1440448
SNP Position Genomic:     27497
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23952):
TGAATAGTGTTTATCAATTATGTACTAGACTTTGAAATTATCCCCTGGATTGGCTATTCCTGAAGTGTGTGTTTGTGTTTGTGTGTGTGTGTGTGTGTGT
G
TATTTAGAGACTGGATTTTCATTGACTCAGTTTCAGAATAAATCAGGTAAGACCAATTCTAAAATCCCCAAGTAAACTGTAGGAAAACTTGCTACTTTAC
Celera SNP ID:            hCV26507274
SNP Position Genomic:     107312
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23953):
GAAGAAAGTCCCTGAAATTGAAATTACTTGGCAATTTTAAGTGACTGGATATTTCTCATGGTCTTGCTTTCTCCCCCACTTTATGCTTACTCTATGCCCT
M
TGTACCTTTTTGAGAGACAAATGACAAATATGTAAACATTTAAAATAAAACGTATTTCCAGGCATTTCATCATTGATTAAATATTTGTTGAAATCTTACA
Celera SNP ID:            hCV1440449
SNP Position Genomic:     27870
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23954):
CTGTTTTATAAGTTTTCTTAAGTCCTTTTTCTTAAAACAGGAAGTTGCATTTTGCCAAGTACAAATAAACTCAAACACTAAAAAGGTTCAAGTTCAGTTT
Y
CAACTCTGAACTCCAGGTTTAAATGCATTCTCAATTTAGCAAAATATATTTTCCCACCCCTACAAAAATATGGGTGGAAGGAAAGACAGTAGTGATAAAA
Celera SNP ID:            hCV26507276
SNP Position Genomic:     103425
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23955):
GGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTTG
S
TTGAAAATTCTTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTAGGGTTTCTGCAGAGAGATCTGCTGTTAGACTGATGGGCTTCCCTT
Celera SNP ID:            hCV26507278
SNP Position Genomic:     95008
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23956):
TTGCCCATTAGTTGATGCAGTTTCTTCATAGTGTCAATGGTGTTCACAATTTGGTATGTTTTTGCATTGGCTGGTACCGGTTTTTTCTTTCCATGTTTAG
Y
GCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGATTTTATTTCTCCTTCACTTATGAAGC
Celera SNP ID:            hCV26507279
SNP Position Genomic:     94880
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23957):
AATATGAGCAGGTTACCTCCTATTCTGCTATCTTGGTGACATCATCCCCACAGAAGACAGTTTTGAAACTGAAAGGGAATTTGAAATTTTGTAGTTTAAT
R
TTTCCATTTACATTTAAGATATCTGAAGCCTAAGTGGGTTCAATCAATTTTTAAAAAAGTTCTGCCGTGTGGGTCTGAATTAGGTTCAATGGGGACATGA
Celera SNP ID:            hCV15938781
SNP Position Genomic:     128812
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23958):
AGTAGTACAGCTTTTGTGATGAAGTCTTGCAAGAATAACAAATGAAAGGAAAATGTCTCAGAGAACTGGTGAAGACAAAGGGTACAGGGTAAATAGAGCT
S
ACTATTGGTCAAATGCTGACTCAGGAGGCTGGAAATAGATGTAAAGGAGGCCTTGCAAGAAGGTCAGCAGGGAGTTAAAAACTCCTGCACTATAAAATGC
Celera SNP ID:            hCV2008440
SNP Position Genomic:     336791
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23959):
TGCTTTCTGTGTTTTCTGTATTCATCAGAAGGTCCCAGCACTGCTCCTCACAGAGTTTTGCCATTGTGTTATAGCAGAGATAGTGCTGGTGATAGCTAGC
R
TTTATTCAAACTTCCTGCTGTGCTAAGCCGTTGTTCTTACAGCTTTGCATGCATCCATTTACTTACTCCTCTCAGCCACTGTAGAAGTAGAAAACTGAGG
Celera SNP ID:            hCV2008441
SNP Position Genomic:     337919
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23960):
TTTAAATAACTTGCCTAAGGGTACTTAGCTATACTATGCAGAGATGAGCTCGGGACACCTAACCTGTAGACAGCCCTTTCTCCTGCCCCTGCCCCTGCCC
M
CTGCAGGCATCACTAGCTCATCGTGTGTTTTTGCTCTTCAGCCCTTATGAATGTAACTCGGAATCCGTATCTGCACAGTACTCCAGGAAAACTCTGTCAG
Celera SNP ID:            hCV2008442
SNP Position Genomic:     338127
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,5)   total(A,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23961):
CGTGTGTTTTTGCTCTTCAGCCCTTATGAATGTAACTCGGAATCCGTATCTGCACAGTACTCCAGGAAAACTCTGTCAGTCATTAGATTTGGCTTCAGGA
Y
CTCAAACCTGTTTGCTGTTCGTGGGCCCTTTCTGAAGCTCTCATGAAATCTCCAAACCTGCCAAATCTGCCCAGCCTGCGGTCCTTGTGTCTGTTGTTGC
Celera SNP ID:            hCV2008443
SNP Position Genomic:     338249
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23962):
TTAGCCAAACAGAGAATCTAAGTCCTTGAAGTACAACTCATTTTTGATGGCAAAGACTAGGGGAAATTATTTTGAAGTATATTCGTGACTTACAATGTTA
R
AGGAATGGAAGGAAGACCCATTGGATCCATCCATTCAGGGTCAACAAACGTTCATTAAGCCTGGGTTAAATGGCACTTACTAACTGTTACAGAAAAACAA
Celera SNP ID:            hCV2008444
SNP Position Genomic:     338529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23963):
AAGAGGAAAAGGGTTTGGCTGATAGCAAGTCACTCTCTGCCATGGCTTCTAAAATGGAAGGCGGCATGGCAGTTTAAACAAAGTTTCTATTAGCAGAGGC
M
TGGGATTCAGCCCTGAGTAAACAGTGCTTACAATGCTCTCTACTCTTGGCTTCATTCAAAAAACAAACTTTCCATCTCCTCTGGCTTCTCTCTCAATCAC
Celera SNP ID:            hCV2008445
SNP Position Genomic:     338936
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23964):
ATCAAAATGGTGCCTGGTTGGCTGAACACTTCTGTTTTAAAGGCATCACAAGGCCATGCTCCTTCCTTAATGGCCTTCACATCCTTGGATGCTGACGTAC
R
AGTTTTAGCCATATGTCAGGCTCTCCTGTTGTGTAAGAGCTGCCCTCGTTTACTGTGAGGCTCTATTTCCCCTGTTACATTACTTCTAACAGGAACTATA
Celera SNP ID:            hCV2008446
SNP Position Genomic:     339335
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23965):
CTTCTGTTTTAAAGGCATCACAAGGCCATGCTCCTTCCTTAATGGCCTTCACATCCTTGGATGCTGACGTACGAGTTTTAGCCATATGTCAGGCTCTCCT
K
TTGTGTAAGAGCTGCCCTCGTTTACTGTGAGGCTCTATTTCCCCTGTTACATTACTTCTAACAGGAACTATAATCCAAAAGCTGTACTGTGGGTACAATG
Celera SNP ID:            hCV2008447
SNP Position Genomic:     339363
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23966):
AAGTGACTGGATATTTCTCATGGTCTTGCTTTCTCCCCCACTTTATGCTTACTCTATGCCCTATGTACCTTTTTGAGAGACAAATGACAAATATGTAAAC
R
TTTAAAATAAAACGTATTTCCAGGCATTTCATCATTGATTAAATATTTGTTGAAATCTTACATTTTCTTCAAAATGACATTCTTAATAATTATTTCAATA
Celera SNP ID:            hCV1440450
SNP Position Genomic:     27908
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23967):
CTTAGTTCTACAGATGGTTTGTAAATTCATTTCAGCTCAATTTGCCAGTGCTGCAGAAAGTATCTATGGCTGATTGGAGTCACAGTTTGGACGGACCTCT
R
GTTAGATTAGATGGAAGTGGAAACTAAAACTTCTAACTGGCTCACCAGGAAGTTGGGAATTCACAAAAAGAGCAGAGAGAGAATTTCGTTTGAGGGGGTG
Celera SNP ID:            hCV1440451
SNP Position Genomic:     28847
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:23968):
GAGTTTTAGCCATATGTCAGGCTCTCCTGTTGTGTAAGAGCTGCCCTCGTTTACTGTGAGGCTCTATTTCCCCTGTTACATTACTTCTAACAGGAACTAT
R
ATCCAAAAGCTGTACTGTGGGTACAATGAGGTCTGAAGGAACCGTGCAAAAATGATTCTTGTAATGCTTCTGTTTCTGTGTCTGACTATCTTGGAGGGGC
Celera SNP ID:            hCV2008449
SNP Position Genomic:     339435
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23969):
TCTATTTCGTTAATCTTTAAAAAAAAAAACAGCTCCTGGATTCATTGATTTTTTTGAAGGGTTTTTTATGTCTCTATCTCCTTCAGCTCTGCCCTGATCT
Y
AGTTATTTCTTATCTTCTGCTAGCTTTTGAATTCCTGTTCCTGTTTTGAAATCCGTTCCTGTTTGCTCTTGCTTCCCTAGGTCTTGTAATTGTGATATTA
Celera SNP ID:            hCV26507280
SNP Position Genomic:     93721
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23970):
ATCCCCCTTATCATTGTTTATTGCGTCTATTTGATTCTTCTCTCTTTTTTTCTTTATTAGTCTGGCTAGTGCTCTATTTCGTTAATCTTTAAAAAAAAAA
A
CAGCTCCTGGATTCATTGATTTTTTTGAAGGGTTTTTTATGTCTCTATCTCCTTCAGCTCTGCCCTGATCTTAGTTATTTCTTATCTTCTGCTAGCTTTT
Celera SNP ID:            hCV26507281
SNP Position Genomic:     93649
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,8)   total(A,4|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23971):
TGTTCGTGGTGGATAAGCTTTTTGATGTGCTACTGGATTCAGTTTGCCAGTATTTTGTTGAAGATGTTCACATCAATGTTCATCAGGGATATTGGCCTGA
W
ATTTTCTTTTTTGTTGTTGTTTATCTGCCAGGCTTTGGTATCAGGATGATGCAGGCCTCATAAAATGAGTTAGGGAGGAGTCCTTCATTTTCTGTTGTTT
Celera SNP ID:            hCV26507282
SNP Position Genomic:     93161
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23972):
ATCCTGAGACTTTGCTAAAGTTGCTTATCAGCTTAAGGAGATTTGGGTCTGAGACAGTGGGGTTTTCTAAATATACAATTATGTCATCTGCAAACAGAGA
S
AATTTGACTTCCCCTTTTCCTATTTGTATACCCTTTATTTCTTTCTCTTGCCTGATTGCCCGGGCCAGAACTTCCAATATTATGTTGAATAGGAGTGGTG
Celera SNP ID:            hCV26507283
SNP Position Genomic:     92659
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23973):
ATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGGTTTTGGTGTTTTAGTCGTGAAGTCTTTGCCCATGTTTATGTCCTGAATGGTATTGCCTA
R
GTTTTCTTCTAGAGTTTTTATGGTTTTAGGTCTTATGTTTAAGTCTTATTCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGTGGTCCAGTTTCA
Celera SNP ID:            hCV26507284
SNP Position Genomic:     91809
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23974):
GTGAGAACATTCAGTGTCTGGTTTTCTGTTCTTGTGTTAGTTTGCTGAGAATGATGGTTTCCAGCTTTATCCATGTGCCTGCACAGGACATGAACTCATC
M
TTTTTTATGGCTACATAGTATTACATGTTATATATGTGTCACATTTTCTTAATCCAGTCTATCATTGATGGGCATTTGGGTTGGTTCCAAGTCTCTGCTC
Celera SNP ID:            hCV26507285
SNP Position Genomic:     91042
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23975):
GGTTCTTGATACTATCAGATACCAATATTGATTCTACACATAAAAGCATTAATAGGATGGCACTCATATAATAGGTTAAATGAAACAACAAAATTAATAG
R
ATAGGACTACCACTGAATATTTAAGGGAAGAGGAAAAACAGAGGTATGTCTCTCTAAAGGAAAATGCCTTCTTTAAAAAGAATGAAAATAAAGAAAAATT
Celera SNP ID:            hCV234544
SNP Position Genomic:     101579
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23976):
AACTACCAGTCTTTTTATTGTCTCCTTAGTTTGGTGTTTTTTAGGAGCTGAGTATCATTTTCTTTTCCTAGTTTATTCCTTCTCTGAGGGTTTTGCCTTA
S
AGTCCTGGCATTACGAGCAGATATTCATCTTCTTCCACAACTTGCCGTTCATAGACTTTATCCCCTGTTCCCTGCTTATAAAGACTGTTAGAATGGAAAG
Celera SNP ID:            hCV26507286
SNP Position Genomic:     87850
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23977):
AAGGTTTTCTTAGGTCATATCTTCATGTTAAACCTCAAATTTGAACCCCTTGAACTTAATTAGGGATTTTAAAGTGACTTCCAATGTGTTTAGAGTACTT
R
TAAACTGTTTTTTTTGCACTATCCTTAAAGTACATATGAGTTGGTATTTAGGAGGCAGTGACCATAATTAGCAACATAATAGGCCACACTGCTTGTGGTA
Celera SNP ID:            hCV410962
SNP Position Genomic:     69618
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,6)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23978):
AATGAGATATTTGTACTGTGCCTGATACAGGACAGGGTAAGGCAAATGACAGGGTCTTAGTGGTATTCATCCCTGCTGCCCTTCATGCAACCGTCCTCTT
M
CACACACACACACACACACACACACACACACACACACACACACAGTAAGTTTGTATCTGTTTGCTGATTCTCTCCTCTTTTTTAAGCTGGAGTACTAGCT
Celera SNP ID:            hCV11718067
SNP Position Genomic:     154244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23979):
GGAGAGTGAGTGATTAGGACAGTGTGGAGGGGCAGTATGGGGTTTAAGTACATTTCTAAGAGAGGAAAATTAAGTCAGAAGCATGGATTTTTTTTTTTTT
Y
GGTTACTACAGTACATGTAGTCATCTGAATATGATTTCCAAGGTTCTTGATACTATCAGATACCAATATTGATTCTACACATAAAAGCATTAATAGGATG
Celera SNP ID:            hCV234545
SNP Position Genomic:     101437
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23980):
GTTAGAATTAATGAGCTACATTGACACATGATCAGCTAAAGCCCATAGTTTACGTCAAGGTTTACTCTTGTGTTGTACATTCTATGGGTTTTCACAAATA
T
GTAAGGAACATATATCCACCTCTGTAGTATCATACAGGATAGTTTCACTACCTTAAAAATCTTCTGTGCTCCACCTGTTCATCCTCACCTCCCCATAACC
Celera SNP ID:            hCV26507287
SNP Position Genomic:     87643
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:23981):
TAGAGTCAATAATGCTTTGAATGTTGCCTAAATTAAAACTGTCATGCTTTCTCAAAGGATTTGGTCCCTCCAAGGCAATTAGGTTATCAGTTTTCTGATT
W
TTTTTTTTTTTTTTTTTTTTGGCCAACTTGGTTTTTTGCTTCCTCTCCAATTAGTTAGTATCCAGGCATTTCTAAAGGACATGGTGAACCTCATGTGACA
Celera SNP ID:            hCV11718068
SNP Position Genomic:     152706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23982):
TGGAGAGTGAGTGATTAGGACAGTGTGGAGGGGCAGTATGGGGTTTAAGTACATTTCTAAGAGAGGAAAATTAAGTCAGAAGCATGGATTTTTTTTTTTT
T
CGGTTACTACAGTACATGTAGTCATCTGAATATGATTTCCAAGGTTCTTGATACTATCAGATACCAATATTGATTCTACACATAAAAGCATTAATAGGAT
Celera SNP ID:            hCV234546
SNP Position Genomic:     101436
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23983):
TCCATATGTCTCTGCCTACCACATGTACAGTCTCCCCCACTATCAATGTCCTGTCCCAGAGTGGTACATTTGTTAGAATTAATGAGCTACATTGACACAT
S
ATCAGCTAAAGCCCATAGTTTACGTCAAGGTTTACTCTTGTGTTGTACATTCTATGGGTTTTCACAAATATGTAAGGAACATATATCCACCTCTGTAGTA
Celera SNP ID:            hCV26507288
SNP Position Genomic:     87572
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23984):
AAACCTCAAATTTGAACCCCTTGAACTTAATTAGGGATTTTAAAGTGACTTCCAATGTGTTTAGAGTACTTATAAACTGTTTTTTTTGCACTATCCTTAA
R
GTACATATGAGTTGGTATTTAGGAGGCAGTGACCATAATTAGCAACATAATAGGCCACACTGCTTGTGGTAGCTGGTGATGCTCTTAATTTCTTTATTAA
Celera SNP ID:            hCV410964
SNP Position Genomic:     69647
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23985):
AAGTTACTCATGTTTTTTAAAAACTTAGTTTACTTGGGCTGTATTTTGCTTGGGGATTATATTAGCATGAGACATGGTCTGGTGTTTTGGTTCTCCCCTT
Y
ATTATGGCTTACTCAGAATATAATTTTAAACTCTTCCAGGAAAAATACTGGGTCCTATGAATTTCTGCTTTTCCCGAAGCACCTAGTAGAGTGCCGTGTA
Celera SNP ID:            hCV28031712
SNP Position Genomic:     10301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:23986):
TAGAGGATATATTTTCCAGAACATTTATCCATTTATTATAGAGCAGCCTTTTATGGTAATCTTTTCTGGTTTTACTGTCAGTAAATTGAGGATTCCTAAT
A
TTTTGAGGGTAAAACAACTGGTAACATTTTCTAACATCATCCAGTAGCTGGTAAATTTCCACGTATGTTTTTATCATAACGTGGTTATCCGCAGTTGTTG
Celera SNP ID:            hCV234547
SNP Position Genomic:     101173
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23987):
TGAAGGAAACTTCTACCCCCAACCTTTACCCGTAGCCAACCTGAGATAAGCAAGTTTTCCTTATTATTTCTTTATGCGGATCTGAGTGGTTTTTTTTTTT
T
ATTTTGCTTGTTTGTTTGTATTATCTCATTTTATTTTTTTTTTTAGAGAAATGGTAGGTTCACAGCAAAATTGAGCAGAAAATAGAGAAGTTTCCATATG
Celera SNP ID:            hCV26507289
SNP Position Genomic:     87379
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23988):
CCTCAAATTTGAACCCCTTGAACTTAATTAGGGATTTTAAAGTGACTTCCAATGTGTTTAGAGTACTTATAAACTGTTTTTTTTGCACTATCCTTAAAGT
W
CATATGAGTTGGTATTTAGGAGGCAGTGACCATAATTAGCAACATAATAGGCCACACTGCTTGTGGTAGCTGGTGATGCTCTTAATTTCTTTATTAAATT
Celera SNP ID:            hCV410965
SNP Position Genomic:     69650
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,10)      total(A,10|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23989):
ACATGCTGTAATAAAACTTAAGTGAATGTGATCTCTCTTTCATTCTCTCAAAATATCTTATTGTACTGTGCTCACCTGTTCTCAAACTGTGGGTGACTGT
S
TGTAACTAAAACCCCAGAAAGCAAAACCACAGACAAGGGGGACTACTGTATATAAGTCTGAATTTCAAGCGAGGAGGTCTGAGTTGCAAATAGAAATTGA
Celera SNP ID:            hCV234548
SNP Position Genomic:     100788
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23990):
TTTGGGTATGTTCTAGAGATAGAATGGCTTTTCCTAAGTTACGGTGCCTCATCCTCAATTTGACATGATTCACTCTTGTGATCTCCAGCATTGTTGTGTG
R
AACAGGAGGCAAAGGCCGCGGCATTATAGCCAGAGAGAACAGAATGATCATGGCAAGTTTATAATTTCTTTGAGCCTCAGTTTCTACACTCAAACAGTGA
Celera SNP ID:            hCV410966
SNP Position Genomic:     71019
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23991):
TTGTCTATTTTTCTCATAAGGCCTTTGTATATCACAAAGTCAGGAAACACTTGGTGCTTTATGTCAAGGATCAAATGGAACATATGGAAGAAACAATGAC
K
CTGCTACAGGTCTTCCTTGGTCAGAATTTGAAAGAAACTGTTGAAACAACATTCAGACCAGAGAAATACCCCTGAAGTCTAGAGAGATGCTCTAGTAAAT
Celera SNP ID:            hCV410967
SNP Position Genomic:     71577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23992):
CTGAAGTCTAGAGAGATGCTCTAGTAAATAATAACAACTGCAAGAGTTGGTCAGTGAGCCAACTCTTTCCAGCCAACGCTTGGCTCTTTCCAGCCAAGAG
S
CACTCTAAGATGGGAAGTAGGCTACTAAACTTTCCCATACTCTAGTCCTTATTATTCTAGCAGTTGAAAATAAGGCATGATGCTACTTGCCAGGGCCATT
Celera SNP ID:            hCV410968
SNP Position Genomic:     71749
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23993):
TAAAGAGATAGGCAGCCTGCCCTTGGGGGAAGTCAGAGGCTAGGAGAAAAGACAAATACACAAACACAAAACTAAATAAAGTATGACGCACGCTATCAGT
R
TGGAGGTAAGAACAAAGTGCTAAGTCATGGAAGGACCATGTCTGATTCTTTCACCGCTGCATACTCAGGGTCTGGCATTCAGTGTCTGACACCATGCCTC
Celera SNP ID:            hCV410969
SNP Position Genomic:     72063
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23994):
AAATATATTAATACATGTAAGCATATTTAAACCATAATTCATTTGTTTTATTCTTTATTTTAAATATGCCAATTTAAAGTTTATTATTCTTACCACTAGG
R
TATGATGAGAGCAGAAATCCCACATTATATATATTTAGTACATTCTACATTCAGTATTCCTTAAAGAAAACTACCTATCATGGTTAAAACTGATTACTTG
Celera SNP ID:            hCV401066
SNP Position Genomic:     102555
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23995):
ACTTGCCTGGAGAATGAAGGGCGAGACCCCATTCGCCACAAAAGGAAAAAAAAAAAAAGACCAAAAAAACCCACAAAAGGATCAGGAAGTATAATGGTTT
Y
ATGGACCAATTTATAATTATAAACCAAAACCTTTGTAGATGGTAAATCTCTATACAAATTATTTTTATTAGCATACTTGTGGAACAAGAGGCTACAATGA
Celera SNP ID:            hCV401067
SNP Position Genomic:     102976
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23996):
AAAAAAAGACCAAAAAAACCCACAAAAGGATCAGGAAGTATAATGGTTTCATGGACCAATTTATAATTATAAACCAAAACCTTTGTAGATGGTAAATCTC
Y
ATACAAATTATTTTTATTAGCATACTTGTGGAACAAGAGGCTACAATGACTACTTGAGTTTCCACTCTTGCAGCTGGATGATCCCAGATGCATTAGGGGT
Celera SNP ID:            hCV401068
SNP Position Genomic:     103027
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23997):
AAGAGAGATGTGATCTCTGATGTTATCAAAATTACATAATGAAGTAGCAGGGGCTGGGGGGAGATACACAAATATAGAAGATAAATTCTGTTAGTTCTAG
K
GCTTATGAAAAAAGTAAAGTTGTCCCCATCTAAAGTATACATCTCTTCACCTCCATACCACACACAGGGATGCATGCTTTATATGGAGTGGTTAGAAAAG
Celera SNP ID:            hCV2008451
SNP Position Genomic:     341593
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:23998):
GAGGGAAGAGTGAAAGTCAGAAGACCAGTTAGTCTGTATAGTAGTCCAGCCAGAGATTATGGTAGCATTAGATCATAGCAACAGAGATGCTGGTGAGATG
Y
AGGGGTAGATTTGGAGTCAGAGCTGGGTAGCTCTAACTCTGAGTAGGGAGGTGAGGTCATGTATACCAGTGCTAATTCAGTATCATTCCAACTGCTTCCT
Celera SNP ID:            hCV2008452
SNP Position Genomic:     342463
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:23999):
TAAGGAGAATAAAAAGTAAAGGGAAGAAAGCCAACTGACCAAAGACCTTGGAAATCAAACTGTAAATTTGTTGGGTTTTCTTTTTGCCTCATAAATCACA
R
ACTTGGAGTTCAAGAAGCTGGCTACTGGTAAACACCAATGAGTACCAAAAAAAAAAAAAAAAAAAAAAACAAACACCAGCTAGAAACCTTCTCTCTCTAA
Celera SNP ID:            hCV2008453
SNP Position Genomic:     343398
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24000):
TTGCCTCATAAATCACAAACTTGGAGTTCAAGAAGCTGGCTACTGGTAAACACCAATGAGTACCAAAAAAAAAAAAAAAAAAAAAAACAAACACCAGCTA
R
AAACCTTCTCTCTCTAACAAAAGGACTAGGAAAGGGGAAGCATAGCAAGACAGAAAACCTTTAGAAAATTCTACTCTATGCTAGCCAAATGCCACCGAAA
Celera SNP ID:            hCV2008456
SNP Position Genomic:     343481
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24001):
AGGACTAGGAAAGGGGAAGCATAGCAAGACAGAAAACCTTTAGAAAATTCTACTCTATGCTAGCCAAATGCCACCGAAAACAGTGTGTCCACCACTACCT
R
CACCAGCAAAGGCTGAGCAGGGAGCCTAGATTCCCCACCAGCCAGCCTCAAATGAGGTGCCCCCCAACCCTCATGGAGGGGAGTATCAGAGATTTTCAGT
Celera SNP ID:            hCV2008457
SNP Position Genomic:     343603
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24002):
ATAATTGGCACTAATATGCCAGAAACTATGCTAGGTACTTCACATGTGTTCTCTCTGTTAATCACCATATTATGAGAAGTATCAATGTTCCCCCCACCCC
Y
TTTTTTTTTTTTTTTGAGATGGGATTTTACTCTTGTTGCCCAGGCTGGAGTGCATTGGCCCGATCTCAGCTCACTGCAACCTTCACCTCCTGGGTTCAAG
Celera SNP ID:            hCV1440460
SNP Position Genomic:     30308
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24003):
ATTCCTGTCATAATCTTACTAATATTTTATACATGTAGAGAAGATTATTCTAAAATGTATATGAAAAAGCAAAGGAACTAGAATAGCAAAGAGGCAGGAG
W
AATCAGCCAACCTAATTTCAGAATTAGTTATATAGCTACAATAAATAATATTGTGTGATATTGGTAGAGGGACAGACACATAGATCAGTGGAACAGAATA
Celera SNP ID:            hCV2008458
SNP Position Genomic:     344583
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,6)      total(A,2|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24004):
ACGATCATTTGTCTAAATCCTGGCATGCTTCCTGGCATGCAGGTACTTAAGAAACCCCAGTTTTCCCTCACCATCAACTCTCCAGGCTTAGTGCAGTTAG
K
CGCCTTAACAGGAATGCGCAAAAGCGCACTGGAATGTGTGCATAGATGCTGAGAAAGCAAAAGGGAGACAGGTACCCAAAAGTCCTCCTTGGCCTGTATA
Celera SNP ID:            hCV1440461
SNP Position Genomic:     30926
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,5)      total(G,5|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24005):
TTGCTATCAAAAGCATAATCCTGTTTTTGCTTTTGTTGCCTATGTTTTTGGGATCTTATCTAAAAAATTGCTGCCCAGACTAATGTCATGAAGTGTTTCC
K
CTATGTTTTTTCCTAGTAGTTTTATCATTTTGGGTCTTACATTTAAATCTTTGATCCATTTTTAATTTTTATGTAGTAAGAACTAGGGGTCTAGCTTCAG
Celera SNP ID:            hCV2008459
SNP Position Genomic:     345074
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,11)   total(G,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24006):
AATGTGTGCATAGATGCTGAGAAAGCAAAAGGGAGACAGGTACCCAAAAGTCCTCCTTGGCCTGTATAGCTTTTACACCCTGTTACAGAATTGACTTTTC
K
CTTCAGTAGCAAGGGACAGGCTTCATGCAGTGGCCTCTGAAAGACCATGCACTGTGTCACTGGCAGTTCATCATATCTCCCAACAGTGCAGCTGTGATAA
Celera SNP ID:            hCV1440462
SNP Position Genomic:     31059
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:24007):
GAAGCCAAGGATTAGATAAGATTTATAGAGACCTGATGTGGGTAGGGCAGCTAAAAATGGAATCTGCAGATTTGTTTCCAAAGCTTCAGACATGGCCAGG
M
TGTTTCTGTGTATAGATTGCTCCACTTCGCATGGGCAGACCACAGGAAAAATGGTTCTCTCATCACTGGGGGAGTTGCCCCTCTTTTTAATATAGAAGTG
Celera SNP ID:            hCV1440463
SNP Position Genomic:     31487
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24008):
TGTTTCCAAAGCTTCAGACATGGCCAGGATGTTTCTGTGTATAGATTGCTCCACTTCGCATGGGCAGACCACAGGAAAAATGGTTCTCTCATCACTGGGG
R
AGTTGCCCCTCTTTTTAATATAGAAGTGTGTGACATCCATTTGATACAGCCACATACACAGCTCCAGATAACTTAAGCTAAATGCTGTCTGTCTGGAAGT
Celera SNP ID:            hCV1440464
SNP Position Genomic:     31559
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24009):
TCGGGGGGCAGTTCTCTCCCTCCCTTTAGTAAATCTGAAAGAAGAATAAAGAAAAATCATCAGTGTTAAGTGTGCTTGCTCAACTCAAAAATAAGACAAG
K
GGCTGCGTATCTTTGTACACATATATGTATATAAGAGAGGGTACAAAAAGCATACATTTAAGATATGAAAGCAGAAATTGATAACCCACTAGTGGTATCT
Celera SNP ID:            hCV11718071
SNP Position Genomic:     150307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24010):
TTCAAAGAGAATTATCCATTGACTTCTAACTACCATTGTTGCCATTGAGAAGCCAGCTGTCATTCTAATTTGTTTTTCCTGTATCTTTTCTGCCTGACTT
S
TTTTATTTATTGTTGGTGTTCAGTAGTTAGCTATGATCTTTGTAGAAATGAATCATTATTTTATTTTATTCTCATTAGACTTCTGAATCTGAGGATTTGT
Celera SNP ID:            hCV26507290
SNP Position Genomic:     86530
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24011):
AACTTTCTCTTCAACTCTGGCTGTATCTGCATCTGTCTCCCTATTTGCATCTCTAATGGTGTTTGGGATTTCTTCTTTGTTAAGAAAGAAGAAATTCAAA
M
TTCATCATTTAATGAAATTTGTCAGAATTTATTTTATTAATCTTTTCAAGTAGCAGCCTTTGGCTTTGTTGAGCCTATGGTTTTTATATTTTCCACTTCA
Celera SNP ID:            hCV26507291
SNP Position Genomic:     84703
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24012):
AGTTCCTTGTCATTGATATTAACAGCTAAAGACCATCATCTCACATGACATTGCTGCTGAAATTTCCAGCAGTGGGGTCAGGGATAATCTTTTGATCACT
R
TGTTCAATAGCATCCATAACCTTCCTTTTGAGACATTGAATTAAAATATTACATTTATCTGACGAAAATCATTGAAAAACATTGGCTGGCCTGTATAGAA
Celera SNP ID:            hCV1440466
SNP Position Genomic:     32921
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24013):
ATTTCCTTCACAGAAGAAGCAGGACCTAAGCCAGGTAGAAAACTTGATGTCAGGAGTTTCGAGGAGGCTCTCTGTTGTGAAGAGCGGCTGTATATATATA
W
AAAAAAAAAAAAAAAAAAAAAGACAGTTGCCAGTTGCCTAGAATGAGAGTTTTCTCTGAAATTGTGTGTCTAAAAGAGGCTGTTTGATAGACATAGATAC
Celera SNP ID:            hCV26507292
SNP Position Genomic:     80331
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24014):
ATCCACACACCGTACTTCATAAACACCACAATTCCTTCCCCCCCAGTTTTCTTATTTATTGCCTCTTCTCGGCCTCAAGTTTGGTAAGTGAGAACCATCC
R
CTGCTGCAGTCTATAATTTCCTAATGTAATTTCCCACTCTTCAGAATAATTGTGGCTCACAGTATTTATTTTCTCCCTTCCTGCCAACTGAGATACAACC
Celera SNP ID:            hCV11718074
SNP Position Genomic:     139515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24015):
AATAAAGACAAAAATATAGATAGGATTTGATGCAGAGTAAGTTACAAAAGTACAACAGAAGAGCTCAGAGGACATCTATGCAATCTATTAATATCTTAAT
A
TCTATTCATCCTCTCCTTTCCAAGCAAGCAACAATCACAGATTAAATATAAAATGATAAAACCAGTGGCATAGCCAGGTTCAAAAGCAAGAGAAAAAGTC
Celera SNP ID:            hCV26507293
SNP Position Genomic:     80003
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24016):
TTAAGTTTTCTTCTTAAATATCCTCCTTCACCATTTGGCTTTTCAGACAGGAAAACAAATGTTTTCAGACAAGAAAACAAATTTTCTTGGAGCCAGCTAG
Y
CTCTGCTGAAAACCAGAAGCCAGGGCCTATTTGCAAGACTTGTAATATGCAACTTTGCAAATAAGCACTCAAAATTTACCATCTCACCTATCAGTGAGTC
Celera SNP ID:            hCV27500057
SNP Position Genomic:     421367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24017):
GTTGCAGAGTTTGTTTTACAGGCTTCACGAACTCTGTAAAACACCTGACAGGACTTGATCCACACACCGTACTTCATAAACACCACAATTCCTTCCCCCC
M
AGTTTTCTTATTTATTGCCTCTTCTCGGCCTCAAGTTTGGTAAGTGAGAACCATCCGCTGCTGCAGTCTATAATTTCCTAATGTAATTTCCCACTCTTCA
Celera SNP ID:            hCV11718075
SNP Position Genomic:     139458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24018):
AGCTATATGGGTGATCTGGACTAATTCTCATTTAGTAAACAGCAAAACTGAGATCCAAAAAGTTTAAGGCTCAAGCATTTTTACAACATATGCTTTTTTT
W
TTAAGAAAAGAGATATTCAAACAAGTCTATTATAGCAATTATAATTCTTCAAGGCTAGAAGTATATGAACTGCTGAGAATTTTTAATGTGCAAATTAAAT
Celera SNP ID:            hCV26507294
SNP Position Genomic:     78165
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,7)      total(A,2|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24019):
ATTAATGGTGCTGTAAACAGAAATTAAGAGCCTCTGATCCAACTCACTGTAGTCATTCAACACATAGGATGAATAAAAAAATGCATGACATTCTAAATAA
R
GTGACAGTTGAGCTGAGCTTTAAAAGATGAAAGGGATTTTTTCAGGCTGCAATGAGAAAGAGAAAGAGAGAGGGAGAGTTAGTTTTCTGAAAAATGGAAG
Celera SNP ID:            hCV410970
SNP Position Genomic:     72740
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24020):
GTTGAGAAGAACTGCTGTTGCTAGAACAAAAGGATGTTCTTTAGGCAACACATCTGCAAAAAATCCTAATTTCTCTGATTTGACCCACAGCTTTTTTTTT
T
AATGCTAAAATTAGATAACAAAGGGAAACAATGTTTCTGAAAAGAGAAATGATGAGTGACTTTGATTGTTTCTCTGAGGGCAGAGCCCCTATCCACCCTG
Celera SNP ID:            hCV26507295
SNP Position Genomic:     76054
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24021):
TTTGATGGATGTGCAGCTGCTTGCTTCACACCATAACAAGAATGTAAAACCTTGAAGGTACAGTGTACACCCCTTGTACTTCCAGAGTCAAGAAAGCTTG
M
GACTAGATGAACAAGGGAATTCTAATCCCCAAAATGGCTGAAGTAAGACTTCTGTTCTCATTTTAATAATTATGTTTAGTAAGTGAGATTCCAGTTCTCA
Celera SNP ID:            hCV8020504
SNP Position Genomic:     292258
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24022):
GAGACTAAATCCCAATTCTGTCATTTTCTAGATAGGTGATATAGGCAGTTGCTTTGGTTTTGTCACCTGTTCAGTTGCAGAGTTTGTTTTACAGGCTTCA
Y
GAACTCTGTAAAACACCTGACAGGACTTGATCCACACACCGTACTTCATAAACACCACAATTCCTTCCCCCCCAGTTTTCTTATTTATTGCCTCTTCTCG
Celera SNP ID:            hCV11718076
SNP Position Genomic:     139385
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24023):
TGCTTTTATAGTGTTTTAATTTTTTATAATGAACACATATTCCTGTATTTGTAGTATAATTTTAAAGAAAATACAAAACAAAAGAAGATGAGGTTGGGAG
R
AAACATTTTATACATAATTGAGTTTTTATTTGTTTTTGAAACAAAGAAAAAAAATACCACCTCCCAGAGTTCTGCTGAGGATTATGTGAGAAAATGTCTA
Celera SNP ID:            hCV410972
SNP Position Genomic:     74916
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24024):
AAACCTGTGAGTTCTTCCAAATTATCTTGTTAAAAGTTTAAAAAAGCAAATTGTGGAGTAATAACCTATAGTATGATCTCAGTTTTTAATAATCCCCAGA
M
TGAAATGTGTCTGGTTGTGTGGCACCATCCCAAGGCATTGAAGGACACACATCCAACTGATCACCTAATACAGAGCAGGGAGGGACTGAATAAGTTAGGG
Celera SNP ID:            hCV26507296
SNP Position Genomic:     74692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24025):
AAATGCCTGAGAATTAAAGTTTTCATTTTCTAGATTTAAACATACATACATACCTTCAAGCAAAGACAAAAATACCTTTGGTTTGGATTAGAGAACTGAA
Y
TCTGGCAGAGTCACATAGTAATCAGTTTTGTTATATTCCAGTGACTAAAATGTAAATCCACATAAGTTAGAGGCTATATTTATTTAAAATTTTCTGTCCC
Celera SNP ID:            hCV8020505
SNP Position Genomic:     291870
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,10)      total(C,3|T,10) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24026):
TTTATAGTGTTTTAATTTTTTATAATGAACACATATTCCTGTATTTGTAGTATAATTTTAAAGAAAATACAAAACAAAAGAAGATGAGGTTGGGAGAAAA
Y
ATTTTATACATAATTGAGTTTTTATTTGTTTTTGAAACAAAGAAAAAAAATACCACCTCCCAGAGTTCTGCTGAGGATTATGTGAGAAAATGTCTAAAAT
Celera SNP ID:            hCV410973
SNP Position Genomic:     74920
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24027):
CAGTGTTATGTAGCAGAAAGAACATGGGCCCTCTTGAATCCTGAGCTGCCACTTACCAGTTATGTGCTTTCAAACGCGTTTATTAACCTCTCTCAGTCTC
R
GTTTTCTTGCATATAAAAATATCGTTCTAATATATGTACAAACAGAAAATGTTAATACAATGTTAATGGTAATTTTAAAATTGGAAACAAATGGAGGATG
Celera SNP ID:            hCV26507297
SNP Position Genomic:     74410
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24028):
TTCTACAGCTGGAGAGTCGACGACAGTCTTCCATGGTAAATTTTAATCTGAAGGCTTGTAGAATAAGATAAACCTATCAAAAAGCCCTTCCAAGGGATAG
R
CAATATTTGCCTTTTTAAAATTAAATCTTACCTGCTTTTACTGAGATTTATTATTCATTAGATAATGGCCATTGTTAGCCATAGTTTTACATTTTAAATT
Celera SNP ID:            hCV401070
SNP Position Genomic:     105679
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24029):
GCAGGAGAATCGCGTGAAACCAGGAGGTGGAGGTCGCAGTGAGCTGAGATCGTGTCATTGCACTCCAGACTGGGCAACAAGAGCAAAACTCCATCTCAAA
R
AAAAAAAAAAAAAATTTATGGGTGGGAGGAGTGTGGAGAGTAATTTAAAGGATCTATTTTTCACTTTTTCAATCCCATGGATAATGAGGACTTAAAGCAG
Celera SNP ID:            hCV26507298
SNP Position Genomic:     74212
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24030):
GGCCAGCATGAGTTCGTGAACTTCTCACAACAACCTTGAGAGCTGTGCAGAGTTATTGCCTCTGTTCTAACACAAGACTAGGCTTCCCTGTGTTAGAATA
R
GGGCAATAACTCTGCACTGCATTGCAGCCACCCACCCATCTAAGGAGGAAGTCCATGCTCTTTCCATTCTGCCATGCTGCCTTAAGCCAAAGCAATTCAT
Celera SNP ID:            hCV401071
SNP Position Genomic:     106057
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24031):
GAAGAACTGCTGTTGCTAGAACAAAAGGATGTTCTTTAGGCAACACATCTGCAAAAAATCCTAATTTCTCTGATTTGACCCACAGCTTTTTTTTTTAATG
S
TAAAATTAGATAACAAAGGGAAACAATGTTTCTGAAAAGAGAAATGATGAGTGACTTTGATTGTTTCTCTGAGGGCAGAGCCCCTATCCACCCTGTGATA
Celera SNP ID:            hCV410975
SNP Position Genomic:     76059
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24032):
TCCTATCTTTCAGAGTCTGCATGCATTCTGCATTTGGACAGTCTCTAAAAGGCTATTACGATGTATGAGTGGCAGGCGCAGTGGCTCATGCCTGTAATCC
Y
GGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTAAGACCAGCCTGGTCAACATGGTGAAACACCGTCTCTACTAAAAATATAAAAA
Celera SNP ID:            hCV26507299
SNP Position Genomic:     73958
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24033):
TGTATTTTGAGGTGATTGCTTTATCAGATTTCTACATTTTGCAAGCCAAATAATCATATAACCTCTAAGATGATATTATAAGTTCCATCTATCATGACCA
S
GACATTTGTTTTGCTTTCTAAGACCTAAGCAGACCATATAGCTGCTCTGGTTTCATGTTTGGGGGTATCCTCCTAACCTTTGTATGTCCTTTCTCTCTTT
Celera SNP ID:            hCV401072
SNP Position Genomic:     106615
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,30)   caucasian(C,8|G,18)   total(C,14|G,48)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24034):
AATTAATCTCTAAATGCAATTGTACAGCATGCCATGTGGACAACTGGAGGTTGACTTTGGTTCAAAACACATCATTTCTTTTTCGCTAGTTAAACACTGA
R
CATTCAGAGTAATGGTTGAAAATATTTGCAGCAATTACTCTGGGAAAAAAAATCCTCATATTTTATGACTAACTGTTTTATCATTTGTGGCATAAAGAAA
Celera SNP ID:            hCV410976
SNP Position Genomic:     76298
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24035):
GTCAGTGGAAAGAATACAGGCTTGGGGGCTCTGTTACTTACTAACTTTGTGGTTTGGGGCAAGCTCTTCAACTTCTCGTAGCCTCAGTTTCCTCAATCTT
R
AAGTGGAAATAATAGTAATGCTCAGTTATAGTATTCCTTTATAGAAATCAGTGCAACAATGGAAATACATGGGAAATAACAAATTTTAGTTCTTTCTTCC
Celera SNP ID:            hCV410977
SNP Position Genomic:     76819
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24036):
TTTGTGGTTTGGGGCAAGCTCTTCAACTTCTCGTAGCCTCAGTTTCCTCAATCTTGAAGTGGAAATAATAGTAATGCTCAGTTATAGTATTCCTTTATAG
R
AATCAGTGCAACAATGGAAATACATGGGAAATAACAAATTTTAGTTCTTTCTTCCACATTGCCTTGGTAAAAGCTAAGTGAGTGACACTCTTACAAGAAA
Celera SNP ID:            hCV410978
SNP Position Genomic:     76864
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24037):
GTCTCCACATGTACCCCTAAACATAAGAACCCCTGATTAAAGACTCTGGCATGGCTCCTGGTATAAAATGGGTGCTTAAAAATAATTGCTGGGACACCAT
Y
CACCATCTGATTATTGCCCAGTTCTGGACTCAGCCATGTTGCAAGCTATAACCGTTTTTGCCCCCTGGACTAGGGACACCCTGCTGTTCTTCCCCCACTG
Celera SNP ID:            hCV994277
SNP Position Genomic:     359466
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(G,16|A,66)   total(G,16|A,66)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24038):
TAATTTCCCTCAATATTGCCATGATCAGTTGTTATATTGAGACCCACTCAGCTAGAGCTAACTCCTATTATTAATGACAGAGTGATGACTAAATGCATGT
W
TGAAGAAAAGAAAAATCATTCAACAGCTCAACTTTCAACTGATGAAGAGAATTAAGAATGAGACCATCATTTCCACAGGGTTGAAAATTATTAGATTGAG
Celera SNP ID:            hCV410979
SNP Position Genomic:     77557
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24039):
TAGATCATTACTGAATGTGCTCAGGATGCTCTTTGAGAAGTCAGACGGCATTCTTTTTTCTTTTTTTTTTTTTTTTTTTTGAGACAAGGTCTTGCTCTGT
Y
GTCCAGGCTGGAATGCAGTGGTGTAATCATGGCTGACTACAGCCTCAACCTCCTGGGCTCATAAAGCTTATGTAACTGATGCACTTACTGGGGAAATTCT
Celera SNP ID:            hCV16045833
SNP Position Genomic:     268515
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24040):
CCAAGTGTCCATCAACAGATGAATGGATAAAGAAAATATGGTATATATGTACAGTGGAATACTTTTCCACCATTAAAAAAAAAAAAGAAAAAGAATGAGG
R
CAGGCGTGGTGGCTCATGCCTGTAATCCCAGCCCTTTGAGAGGCTGAGGTGGGTGGATCGCTTGAGCCCAGCCAGGAGTTTGAAACTAGCCTGGGCAACA
Celera SNP ID:            hCV2008460
SNP Position Genomic:     347837
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24041):
AGTAGCTGGGATTACAGGTGCATGCCACCACACCCGGTTAATTTTTGTATTTTTAGTAGAGACGGGATTTCACCATGTTGGCCAGGCTAGTCTCAAACTC
Y
TGGCCTCAAGTGATCGACCCACCTCAGCCTCCCAAAGTGCTGGGACTACAGGCATGAGCCACTGCACCCAGCACTCTCTATTATTTCTTATAACTGCAAG
Celera SNP ID:            hCV2008461
SNP Position Genomic:     348894
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24042):
TAGAATGTGAACCTGCAAAGATGGGGGCAAGGAGTTCCAAGTGGACACAGGAGAGTGATAAATTCATGGAAGTAGAAAATCCTCTAGGCTGTAGAGAGAA
Y
TGGGTGAGCTTTGGTCTGGGTGGAGCCCAGAGTGCAGAAATGCAGGTGGGAAGTGACATTAAAGAGCCATGCTTCCAAAAGACAAAGCCACCAGCATTGA
Celera SNP ID:            hCV2008462
SNP Position Genomic:     350027
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24043):
CCTTGCAAACTCAGAGGTCAACAGGGACCAGGAAGGCACAGTGAAGCAAGGAGTAGTAGACAAGAGGGGGTGGTAATATGCTCTGTATAAAAATATTTAC
Y
TTCAATTAAAAGACAGAAAACACCTACATATAGCAGAATGAGGCCCAGCTACTATTTTTCCCTTCATGTAGACCACTCATTTGTCATGTGTGCCCTAGGG
Celera SNP ID:            hCV2008463
SNP Position Genomic:     350481
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24044):
CCTTGAGATGTTGACACACCGCCATGGTGCAGGCAGCCTTCCAAATGTAATAAGGGATCCAGTTAACAAGAATACCCTGTCTGGGACTTTTTAAAAAAGA
R
TATTTTAGCATCACCCTACCTGGCAGCTCCATGGACATCAAAGGCACTGGACCTTGTAATCATATCAAGTTACCACCCAGTATGACTAAGCTCTTTTACT
Celera SNP ID:            hCV2008464
SNP Position Genomic:     354334
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24045):
ATCTAGGTCCTACTTAGGCATAAAAATCCAAACCACAAAGCAAATTAACTCACCAACTTCACAACTGCATCTTTTGCTTCATAGAAAAGGGTCCTTTTAA
R
TAAGAAATTCCCGTGGTGTTTATCTGTGTGGACAATAACAGAGTGCCTCATTCTGAAGACTGTTACTAGAGCTAAATGAAAAATGGACTGAAATGTATTT
Celera SNP ID:            hCV2008466
SNP Position Genomic:     361805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24046):
AATTATTCCTGTGGCTCAAAGTTTAAAGCTTCTGTATTCTTTTACCCACCAACTAGCAAGGAACAGGAGGCCAGTGGGTTCCCAGTCGTATTGGTGATGA
Y
TTATCAACATGGCCACAGGGGCCTGGTATCTTTAGGATTAGAGCACAGAAACATGACCCTCAATTTTCGTTTTCATCTGAAACTTGCAAAGAATCTTCAC
Celera SNP ID:            hCV2008467
SNP Position Genomic:     363457
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24047):
CTGAGTTTTTCTATATCTTGTTGATCAGAATTAATAGAAGCTTCAAATTGCATATTGCCTTTGGCTTACAAATAGTAAACTGACTCCCAGTGAAATGTGC
R
TTGTGAACTTCTTTATTTTAGAATCACTATGAGAAACTCTCATAACTGTTCATCACAGCCTGGTCACAAGCAGGGTGGCAGCAATTGTTTATTTTCAAGT
Celera SNP ID:            hCV2008468
SNP Position Genomic:     363775
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24048):
GACAAGCTCCCATCCCTGACTCCTATAGGTGGCCCTTTCAGACCACAGTGTGCGCTCTGGGTATGAGAAATAAGCCAGGGAGGCTGGAGAGGAGGTTTTG
Y
GTAGGGTTGCTGAGAAATTAACATCAAACTGTGGAAGCCATGAATATAAAACAAAGGAAGTAGATGTACTACCTGGGGAACGGGAACAAATCTTTCGAGG
Celera SNP ID:            hCV2008469
SNP Position Genomic:     364793
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24049):
GTTTCTCACAGAGTTCCAGGACCGCACGCTCCGAGGAGGACCGGGACGGCCTATGGGATGCCTGGGGCCCATGGAGTGAATGCTCACGCACCTGCGGGGG
W
GGGGCCTCCTACTCTCTGAGGCGCTGCCTGAGCAGCAAGTAAGTCCTGCACCCGTTGGGGGTCTTTGTGAGAACCAGAGGTAGCCGGTTTGAGGCATGCT
Celera SNP ID:            hCV1440472
SNP Position Genomic:     36887
SNP Source:               Applera
Population(Allele,Count): african american(A,27|T,11)   caucasian(A,22|T,14)   total(A,49|T,25)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24050):
AGGGAATACATTAAAATCACAAAATTCTGTCATTCAGCAAATAATCAAATATTGATGCCATGCGAAATTCAAAAATAAACAATTTTGCCACCTAGTAAGT
K
AAAGGTCTAGGTGTTAGGGCTCTATTATGATACTACAAAAGATATCAGTTGTCTTCTACTTATAAAGTATTAGAAAAGTAGAATGTAAATGCTGAAATTA
Celera SNP ID:            hCV1440473
SNP Position Genomic:     38594
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24051):
TTCTGTCATTCAGCAAATAATCAAATATTGATGCCATGCGAAATTCAAAAATAAACAATTTTGCCACCTAGTAAGTTAAAGGTCTAGGTGTTAGGGCTCT
R
TTATGATACTACAAAAGATATCAGTTGTCTTCTACTTATAAAGTATTAGAAAAGTAGAATGTAAATGCTGAAATTATAAACATATAGAAGATATGTCCCT
Celera SNP ID:            hCV1440474
SNP Position Genomic:     38618
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24052):
ATAGAAGATATGTCCCTATTTTACTTTCAAGTATTAAAAATATATATTCAGTAATCTCATACAAGGCTGACCAAGAAGCTTAAAAAATGGGGCGGAGGTT
S
ACTACCCATTCTTTAGGAATTTGAAGAAGAAAAAAAGCCTCCAAATAGAAGGCATTTCCAAATCCAACAAGAATATAAAGAAATATTAGTTTCTTAAAAA
Celera SNP ID:            hCV1440475
SNP Position Genomic:     38802
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24053):
TACTTTTAAATTCTAGTCATTCTTTAGCAAATCAAAAACTTGTCATCATCATTAAACTCTGGAACAATCTGGATAGAAAATGTAATATATATTTTTAATT
K
TGAAAGAACTATTTATATATGCCCTATCATATATTTTGACATCATTCTTCAATAGGATTTGTATTATTAGGCTAAACTGTATTAATTCTGATCCTTGTAA
Celera SNP ID:            hCV1440476
SNP Position Genomic:     39050
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24054):
CCTGGTATATTAGGTGACCTAGTGTAATAGGAATGACATTTTTTAAAGAGACTAAATCCCAATTCTGTCATTTTCTAGATAGGTGATATAGGCAGTTGCT
Y
TGGTTTTGTCACCTGTTCAGTTGCAGAGTTTGTTTTACAGGCTTCACGAACTCTGTAAAACACCTGACAGGACTTGATCCACACACCGTACTTCATAAAC
Celera SNP ID:            hCV11718083
SNP Position Genomic:     139338
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24055):
TGGTCCAGATAAAGACCCTTTCCTACTTAGGGAGAGAACCACATGTTGTGGGAACCAGAATTTGTAGCAGTGAGTTTCATTGCCTACTTTGTGGATTATT
M
CTTCTATTTTATTTTTCATAAAACTACTGATTTTGAATATTGGCACCACTGTTCTCTACTTGTATGACATTGGACTAGATTTTAGTTTCTCTGGGATTTT
Celera SNP ID:            hCV1440477
SNP Position Genomic:     49280
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,9)   total(A,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24056):
CGAGTCAATGCTGAAGCCAAGCTATAGGCAAGCATTGAAAATAAATTTTCAAGGGGGTTGTTTTCATATTATTAGGAAAAGCCTTGGAATCTTTTTGAAA
R
TTTTTGTTTCCTGAGAAACTGCCCTTTGGGAATATCTTTGTTTTTTGAGTGCCTTTAGCTTGGTGCTGAGAAATAAACTTAGGAAATATGATTGAGATGT
Celera SNP ID:            hCV11718084
SNP Position Genomic:     138995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24057):
TTTTTGTTCTAAAAATTAAATTGAAACAAGGAATTAAAGAAAAAAGGTGCTGAAGGGTTAAACTGAAAAGAATTGGTCCACTTTGAAACACAATTTATAT
W
TCTCTATATTGCATATGTTTTATGTTCAAGATTGCGTCCACCCAACTGTACACACATGTTGCACACATCTGTGCAGAGACAGAAACAATTGCCACAATCT
Celera SNP ID:            hCV8020512
SNP Position Genomic:     291500
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,6)      total(A,5|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24058):
GAATTTGTAGCAGTGAGTTTCATTGCCTACTTTGTGGATTATTACTTCTATTTTATTTTTCATAAAACTACTGATTTTGAATATTGGCACCACTGTTCTC
K
ACTTGTATGACATTGGACTAGATTTTAGTTTCTCTGGGATTTTGTTTGCTTATCTGTGAAATCAAGTGGGCAGTGCCTGGAACAGAACAAGTGTTCCATA
Celera SNP ID:            hCV1440478
SNP Position Genomic:     49337
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,7)   total(G,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24059):
CTCCTGGCTAGCTCCACGAGCTTAGGCAGACAGCTTTCATCTCTTTCTGCCACAATCCCCGTTATTGAAAATGACAGATAAAGACTGATTACATACCTCA
R
AGAGAACCTGGCAAAGTTATAGACTCATAGAATGTTAGAATTAGAGAAGAATTAGTATATTTGGGTTGTCTGCCCTGTGCCAGGCATGGTACCTTATGAC
Celera SNP ID:            hCV410980
SNP Position Genomic:     77779
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24060):
TTAAATACACTCATCATCATCCTCCTCCTCCTCCTCCTCCTCCTCTTTGGTGTTGGTTATAAGTGACTTATTGCACACCTCATAAGGGATCATATCCCAC
R
GGTGAGTTACAACACTGTGATTGAGAATCACTGTTACCTATACCACAATTTAGTCTGAAACACTTTGATCATGACAGTCTACTGCTAGGATTTTTCTCAG
Celera SNP ID:            hCV8020513
SNP Position Genomic:     289815
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24061):
AATGTTGTGACTCTCCAGACCCCTGTTTTGCAATGAACATCTGGGTGACATGGAAGGATTGGAGAACTTTTGTCTCTAGCCAAAATAATTCATAAATTTC
Y
AGCTCAAGGCTTGTATCAGGAGAGGTTGTTAGAGTCCTAGAGTTTCATAATATACATTTTCCTCAAGGGGAAGATGGAAAAGTTGGACTTGATGTTGCTA
Celera SNP ID:            hCV1440479
SNP Position Genomic:     49696
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24062):
GAATGTTAGAATTAGAGAAGAATTAGTATATTTGGGTTGTCTGCCCTGTGCCAGGCATGGTACCTTATGACCTTTTGCCCCAAACTCATTCAATTCTCAC
M
ACTACCTTGAAAATTGGGCATTACCTTAATTATACAGATAAGGAAATTGGAACATTTAAAGACATGAAATGCCTTATTTAGGCTATACAGCTAAGGAGTG
Celera SNP ID:            hCV410981
SNP Position Genomic:     77909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24063):
GCATCTTCTGCAATTTATTAAATACACTCATCATCATCCTCCTCCTCCTCCTCCTCCTCCTCTTTGGTGTTGGTTATAAGTGACTTATTGCACACCTCAT
R
AGGGATCATATCCCACGGGTGAGTTACAACACTGTGATTGAGAATCACTGTTACCTATACCACAATTTAGTCTGAAACACTTTGATCATGACAGTCTACT
Celera SNP ID:            hCV8020514
SNP Position Genomic:     289798
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24064):
TTTGGCTCACATGTGCTGGGCACCTGCTCTGTCTGCCTGGCCCTGAGCTTCTGCAGGCATGTGCCTGGCCATTTCCTTCATCTAGTAAGAGGGGATCCCC
R
TTGCACAGTAGAGTCAGCTGGGAAGTTTAGAAAAAAATATTCCAACAGAGACCAATTAATTCGAGATCTCAGGATGGGACAAGGCATCAGTACTTTTAAA
Celera SNP ID:            hCV994280
SNP Position Genomic:     380617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24065):
CCTTTGAGCGTCTCTGCCTGTCAAGAGGATATAAATTTATTAAGTCAATACTCCTCAGAATTTACTTTCTCAAGTCCTAGTTTCTGAATTTCATAAAAAG
R
ATGCTGGCCTCTAGTGAACCAGATAGAAGCTTGAAGCAGGGATTTGAGAATAATTTAGAAAGAAATTACTACTGCAGTTCATCCCTTGGCAAGGCCCTAC
Celera SNP ID:            hCV410983
SNP Position Genomic:     78421
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24066):
AACAGGACTAGGTGGCAGGGCCTTGACTTGGAAGGCCTCTTGAATTGTTTTCATCTCTCATTTCTATTCTAATTGTAGCTTTATCATCCGTCCCACATAC
Y
TCCACCCTTCACCCCACCCGCACATTTCCTATAGCCTGGATTTTTCTTGTACAGCCTGGATCGGGCACTTCCTGGATCCAATTATGTGATAATGCAAACA
Celera SNP ID:            hCV994282
SNP Position Genomic:     381729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24067):
AACCACATGCTCCACACTTTCTTGCAAGGAAAGTTGGAAAAATCTCTATTCCAAGAAACTATGTACCTCAAGTTCAGAGGTTCTTTTCCAATAAGAGGAG
R
ACAGATATGAAGGGACTAGCAGATTCTGCCACACACAGCAACCAACCTAAAGTTGTCAGAAGCAAAGGTATTGAGCACAAATGAAAGTAATCTCTGAATG
Celera SNP ID:            hCV994283
SNP Position Genomic:     399568
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   TSC_42_C(A,0|G,84)   total(G,84) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24068):
AACCACATGTTCCATGAAGCAACTGCAATCTCCATATTTGCAATCTATCAATCTCACCCTTTCTCACTTGTCTTTTTTTTCTATTTAGCATGTTTCATTG
Y
AGATTAAACAGATTTTATTCCCTGTTGCCTGGTAATTATATATAATTAAAAAGCACAGAGGAATGGGCATAAAAGCACAATGAAGTAATAATCATAGGAA
Celera SNP ID:            hCV46657
SNP Position Genomic:     90571
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24069):
CAAGAAAGCTGTGATGTGCCTTATGGAGAAAATGTGTGTGTTAGATAAGCTTCCTTCAGGCCTGAATTACAGTGCTGTTGGATGTGAGTTTCATGTTAAT
S
AATCAACAATCTCTACAAGGAGTGTTTAAAAAGAAACATACATTAAATAAGGTTATCTACAGATCAGTTAATTAAAATGTTGTGACCAGAGACTTGAAGG
Celera SNP ID:            hCV410985
SNP Position Genomic:     81214
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24070):
CAGTGGCTCACCATGCTCAGAGAGCGCCAATATTCAACGCACATAGTTAAAACTTACCAAACCAAGTCAGCACAATATTTAAGACCATCTAGTCTGTGCC
R
ACACTGAACTAGAACGTCCTGGTGCTGTGTTTAAGGCATGATGGGTAGAAGGAAGAGAGACTGGAGGGCACATGAAAATAAAGCTTAACAGAGAAAGTAG
Celera SNP ID:            hCV994284
SNP Position Genomic:     440300
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24071):
ACCCTATTTTGAGGATAACAGAATTCTAGACCAAGGTGGAAATACATGGCAAAGATACTGTTAATCACTCCTCCCACAGCCAAGACATCCCTAGTCAGTC
R
TGACATTCTTTTTCACTCAGCTCAGGCACTGCCTTGGAATTCATTTTAATGTTCTTACCAAGCCTGGTGGTAGTTGATATATACAGGATGAAAGCCATTC
Celera SNP ID:            hCV2008470
SNP Position Genomic:     365094
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24072):
CCACTACTGCTCCCACCCTAGGTGAACACTGATCTGATTTATGTCGGGGTAAACTAGACTGCACTTTATAGAATGGTATAGAAAAGGACTAATGCCTTTG
R
GATATTTTATTTCTTTCACTCAGAATAATTACTTTGACATTCATCCATATTGTAACATGGATCAACAGGGCATTTCTATTGCTAATTAGTATTTCATTGT
Celera SNP ID:            hCV2008471
SNP Position Genomic:     367172
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24073):
TAATTACTAGTAGTGTTGAACATGTATTCATGTGTTTATTTGCCATCCTGATTTCTTCTTTGGTAAAATGTCTGCTCAATTTTTTGGACCTTTATTTAAA
M
ATTGAGTTGTTTACTTATATCAAATTTTCAGTGTTTTAATATATTTTGAATGTAAGTCTTTTAATGAGATATGTAATTTCCCAATACTTTGTCCCAGTCA
Celera SNP ID:            hCV2008473
SNP Position Genomic:     367743
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24074):
TTCTTCTTTGGTAAAATGTCTGCTCAATTTTTTGGACCTTTATTTAAACATTGAGTTGTTTACTTATATCAAATTTTCAGTGTTTTAATATATTTTGAAT
R
TAAGTCTTTTAATGAGATATGTAATTTCCCAATACTTTGTCCCAGTCAGCAGCTATATTTTCATTCTCTTAACAGTGTCTTACAAAGAGTAGAAGATTTT
Celera SNP ID:            hCV2008474
SNP Position Genomic:     367795
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24075):
TAAAGTTACTGAAATCTCTTAGGTCTTTAAATGTCAACAACTGAACCTACTTACCTTCAGTTATGTCACTGTGCCAAGGTAATATATTTAAGCCTAAAAA
R
TTAGAGTCGAAAATTCCAAAGTGATGAAAATATGCTTGGGTTATATGGTCCATATGATGCCCATATGCACTAAAATTTATTTTGGTATATAGGACGTGTA
Celera SNP ID:            hCV16087156
SNP Position Genomic:     241883
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24076):
GAGGCTCAACTTACCCTTTTCTTAATTTTTTAAAATAATTTCAACTTTTATTTTAGATTCAGGAGGTACACGTGCAGGTGTGTTACATGGGTATATTTCC
Y
AATGCTGAGATTTGAGGTATGATTGATCCCATCACCCAGATACTGAATATAGTACCCAATAGTTTTTCAGCTCTTGCCCTGTTCCTTTCCTCTCTCATTA
Celera SNP ID:            hCV2008475
SNP Position Genomic:     368005
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24077):
ATTCTTGATTTGGCCCTCAGCTTGAAGGTTATTGATATACAGAAATGTTACTGATTTTGTACATTGATTCTGTATCCTGAAACTTTACTGAAGTCATTTA
Y
CAATTCCAGGAGCCTTTTGGAAGTCTTTAGGGTTTTCTAGATGTATAATCATATAGTCAGTGAAGAGAGATAGTTTGACTTATTTTCTTATTGGGATGCC
Celera SNP ID:            hCV2008476
SNP Position Genomic:     369421
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24078):
AATGTTACTGATTTTGTACATTGATTCTGTATCCTGAAACTTTACTGAAGTCATTTATCAATTCCAGGAGCCTTTTGGAAGTCTTTAGGGTTTTCTAGAT
R
TATAATCATATAGTCAGTGAAGAGAGATAGTTTGACTTATTTTCTTATTGGGATGCCTTTTATTTCTTTCTCTTGCCTGATGGCTCTCACTAAGACTTTC
Celera SNP ID:            hCV2008477
SNP Position Genomic:     369464
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24079):
ATGAATGTGTTAAGTGACTGCAAATTGGAAAACATTATACAAAAAGCGTGTTAACCAGGAAGCACTGCCCAGGACTCACTTTCCGCATTGGAGTGCTTAT
Y
GTACATTGTCTCATTAGATTTTTTGAGCAGTATGTTCAGAGCAGTTTCTGGCTTCGTTAGAAGCTGGGCATGACCTTTATGGTCTACAGTGTCATCATTC
Celera SNP ID:            hCV1440480
SNP Position Genomic:     52484
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24080):
ACATTGATTCTGTATCCTGAAACTTTACTGAAGTCATTTATCAATTCCAGGAGCCTTTTGGAAGTCTTTAGGGTTTTCTAGATGTATAATCATATAGTCA
R
TGAAGAGAGATAGTTTGACTTATTTTCTTATTGGGATGCCTTTTATTTCTTTCTCTTGCCTGATGGCTCTCACTAAGACTTTCCATTTATTCTTTTAGGG
Celera SNP ID:            hCV2008478
SNP Position Genomic:     369481
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24081):
CTTGTTTGGAAAAAAAAATTGGCAGTGATTTTTCTAGTTATAGTTTAGACATACCAAACAGTCATAATAGCAAAAAGCCAATTTGAAACTTAAAGGACAA
R
CTCCACAATTCAGCCTATAATATTCTCATGTGGGTCTAAATTTTAATTTACCAGCTTTGCAGCCTCCTAACTGTTGCTCAAAAATCTGTAAAAGTGCAGA
Celera SNP ID:            hCV1440481
SNP Position Genomic:     52816
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24082):
TCTTATGGGAGTCGTGACATATTCCCTGTTTCTAAGGATCACATCTTTCCTACTGTATCTCTGTGTCCTTCATCCTGTCACTGGCTTAGGCCTCCATGAG
R
TCAAAGACCCTAAAAGATGCACTATATTAGCCTGTTTTCATGCTGCTGTTTTCTTCCCGAGACTGGGAAGAAGAAGAGGTTTAATGGACTTACAGTTCCA
Celera SNP ID:            hCV2008479
SNP Position Genomic:     370415
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24083):
TTTAAGTCTAGTTCACAAGTTACAGCACCATTTTTCAATCTGGACCTTCACTCTCCTCTGATCAGTTTAAAATTGCTTTGAGAATGCGGCTTTAAGGCTG
R
CTTTTCTTTTGGCTCCCTAGGGCCTTGTTAGTGCCTCTGGCACACTGGGATGAGCTAACATGGCACCAGGGATGTGTCTGTTCCCAGCCAGCTCACCTAC
Celera SNP ID:            hCV1440482
SNP Position Genomic:     53291
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24084):
GCTTTAAGGCTGACTTTTCTTTTGGCTCCCTAGGGCCTTGTTAGTGCCTCTGGCACACTGGGATGAGCTAACATGGCACCAGGGATGTGTCTGTTCCCAG
S
CAGCTCACCTACTGATGGATGATGCCTGGCAGCATGCCACCTTGTTGTTTCTTGTATTATTACAACAGAAAGCATTTTCAAAAGCCACATTTATCAAGTC
Celera SNP ID:            hCV1440483
SNP Position Genomic:     53379
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24085):
GGGACTTGCTTTGTCTCAGATGAGACGATGGACTGTGGGCTTTTGAGTTAATGCTGAAATGAGTTAAGACTTTGGGGGACTGTTGAGAAGGATGATTGTA
W
TTTGCAATATGAGAAGGGGATGAGGTTTGGGAGGGGCTAGAGTGGAATGATGTGTTTTGGCTGTGTCCCCACCCTAATCTTACCTTGAATTGTAACTCCC
Celera SNP ID:            hCV11718090
SNP Position Genomic:     116760
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24086):
GAGGGGGTGGTGAGCTGAAAAACTACCTAACAGGTACTATGCTCACTACCTGGTGACAGGATCATCCCTAACCCATACCTCAGCATCATGCAGTATACCC
R
TGTAACAAACCTGCACTTGTACCCGAGTCTAAAATAAAAGTTGAAATTATTTAAAATAATAATAACAATGTATCTGCAGAAAATGAAAAGAAGCTGACAG
Celera SNP ID:            hCV1440484
SNP Position Genomic:     54954
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24087):
TTTTCAAATATTTACAGTTCTGCATGTTAGACATCATTATCCTTATTTCACAGATGAGGAAACTGGAGGCTCAGGTCGATTTTATATCTTGCCCAGAGAC
W
CCCAGCTCTGTCTGAGTTCAAAACTCCTATTCTTTCCAGCGAGGCCAGGTATACAGAGGCGCAGACCATTTGGTAATGGTCCCCAGATTTGGCTGCCTAT
Celera SNP ID:            hCV11718091
SNP Position Genomic:     109627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24088):
TTTGTTACATATGTATATATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTTATTTACATTAAGTATATCCCCTAATGCTATCCCGCCCCCCTCCCC
M
CACCCCATGACAGGCCCCAGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCACTGTTCAATTCCCACCTATGAGTGAGAACATGCGATGTTTGTT
Celera SNP ID:            hCV1440485
SNP Position Genomic:     55294
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24089):
AAAATCTTTAGGAATAGTAGAGAATTGTAAAGCAAATAGATTTAGAAAGGGGACTGTGTTGTAGGGAATGGCAAACAAAAGAATAATAACTCCCTATGTA
Y
GTATACTGTTTGAGTAAAAGCAAGGAAGATTTCCATTTTAGAAGTGAAAAAACTGAGGACCAGAAAATATGCTTGATCTCCTGAAAGCTGTATGTTTGGT
Celera SNP ID:            hCV11718092
SNP Position Genomic:     108373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24090):
GAAACTGATGTCATATAGGAGTTTGTCACTGATGAAACATATCTTAAGGTTTCCTTATATACAAGAGATATATGAATTTCAGGTGTAAATTTGAATGTGG
M
ATTTTACTATTTTAAAGCTAGAAAGGGCCTTAGAGTTATTCAATCAACATTCTAAAAAGCAATATATCTGAATAAATCATTTCTGATCTTTGCTATTTAC
Celera SNP ID:            hCV11718093
SNP Position Genomic:     108122
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,8)      total(A,8|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24091):
TGTCTGACAAATGGCAAATAGCCAATATTTACACATTCTGCAGGTCCGGAGAGGACCTAGCATGGAGTTCAAGTATTGATGTTAAGATCTTGTTTTAGAA
M
TTAAGCAGAAATGAAACAGAAATCTAATTCTAGCTTTGGTTGTTAGGGGACCATTTTTATTTCAGTTCTTCCTCTTAATACTCTGCCCTTTGCTTTTCCT
Celera SNP ID:            hCV8020521
SNP Position Genomic:     289474
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4|-,5)   total(A,4|C,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24092):
CTGCATAGTATTCCATGGTGTATATGGACCACATTTTCTTTTTCCAGTCAATAATTAGTGGCCATTTGGGTTGATTACATGTCTTTGCTATTGTGAATAG
K
GCTAGAAGAAACATACCTGTGCATATTACATTTTTATATTAAAATATATTCTAATACTTATATTTTGTTCTTTCATACTTGACCCAGTTTCTGAGTTCAT
Celera SNP ID:            hCV1440488
SNP Position Genomic:     61351
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24093):
CTGAATCACTCATCTTTACACTTTTTAGAGTTTGTAAATGGTGAAAGATTTGAAAATTAAGCTATGATTTCAGTGAAAAGTACCAAGTGTTGTATTGTGC
R
AAGGAAAAGTAGACTAGAGTTATTTTTCTTTCCTTGAGTGTCACTTGAATATAAAAGAATAAAAATTTTTGAATAGTGTTTATCAATTATGTACTAGACT
Celera SNP ID:            hCV11718094
SNP Position Genomic:     107142
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,26)   caucasian(A,11|G,25)   total(A,15|G,51)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24094):
ATGCCTGTAAAATTTGTGTAGGTATTTGCAGGTTAAAATATCGGGGAAAAGGCTCATTTAAACTATTGAAACAAGTATTTTTCTGCTTTGTTTTGTTTAG
S
AAGCAGTATCTCTGTAATAATCCCTTGGCATTTGAACAGAGCTTTTGTACATTATTTCAGTTGGTGATCCTAACTTTGTGCATAGGCATTCCTAAATTCA
Celera SNP ID:            hCV1440489
SNP Position Genomic:     62800
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24095):
TCAATGTCTTTGTGTAAATGGTTTACATAGTCTCACTCTCTGAATCACTCATCTTTACACTTTTTAGAGTTTGTAAATGGTGAAAGATTTGAAAATTAAG
S
TATGATTTCAGTGAAAAGTACCAAGTGTTGTATTGTGCAAAGGAAAAGTAGACTAGAGTTATTTTTCTTTCCTTGAGTGTCACTTGAATATAAAAGAATA
Celera SNP ID:            hCV11718095
SNP Position Genomic:     107103
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,27)   caucasian(C,11|G,23)   total(C,12|G,50)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24096):
GAAAGGAAAATTGACTTTGGAGCCTAATACTATTCAGGATGAGGCTGGTGCTAAGAAGCTATGCTATAAGCCTCAAAGGACAATCTAAAAGCACTGGGTT
K
TAGAGGTCAGAAAACACATTTCTCTATTTTTTAAGTTTCTTAAAATATGTCCATGCTCCAAGATCAACAAACTAAGAAGTATGAGCACATTTGAACAAAG
Celera SNP ID:            hCV11718098
SNP Position Genomic:     89309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24097):
TGGAGGCTGCCAACAAGTTCAAAGCCAGGGAAGAGAGACAGAGCAGCCAAAGAGGCACCAGGGAAGGGGAGGAGAGGGGCTGCCTGGTGAAGTATGACTA
Y
AGACACCACACCCAGGGCATAGGGAGCTGCATCCTTGCACCTTAGCTGCTAGGGTTTGTATAGGTCTGCTGGAAAGTCTATCAAGCAGTCCCTCTAAAAA
Celera SNP ID:            hCV15880296
SNP Position Genomic:     329617
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,212|C,1285)   total(C,1285|T,212) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24098):
ACTACCACAGTCACATTAATCAAAGAGGCAAGAGAGCACAGGTTCTTGATTGTCCTTGTAGCTGGTTTGTCTCTGTTGTTAAAACAGGGTTCTGCATACA
Y
CCTGAGGTTCCTTCCTGCCTTACCAATATTGAATGCCAAAAAGGAGTCAACTGACTTGACCAGGTCTATATTTCTTTTCTGTCGCTCCAGGATTCTTCTA
Celera SNP ID:            hCV15880297
SNP Position Genomic:     327741
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,389|C,1104)   total(C,1104|T,389) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24099):
CCATCATCCACCGATGGAGGGAGACGGATTTCTTTCCTTGCTCAGCAACCTGTGGAGGAGGTAATGGTGTTCACTTAGTCTAAAAACTGTTGGCTTCTGT
R
AGGAAATACTTGGGTATTATAAGAGTAGAGTTACTTCAGCATGGAAGAAATTTTGTGCTGTCTTGGACCAGATCCTTTCTTCTGAACAGAGTGGAATCTC
Celera SNP ID:            hCV25964875
SNP Position Genomic:     190477
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24100):
GACATCATTCCAGGCCAAGGCATTATTATGTTACTACTCTGTAAGATGAACCATGGAAAAGCTTTGACACTGGAACACTGACTCCGTGTGTGTGGTCCCC
M
AGGGCTGGGCAGAGAATGCAGCCAGCACCTGCTGTTTCCCATGGGTGAGCCCATCGTGTATCTGTGCTGGACAAGGCTGTTTGTTCCAGAAAGCTTTTAT
Celera SNP ID:            hCV15880298
SNP Position Genomic:     310755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24101):
ATGGACTTACAGTTCCACATGGCTGGGGAGGCCTCACAATCATGGCAGAAGGCAAGGAGAAGCAAGTCACGTCTTACATGGATGGTGGCAGGCAAAGAGA
R
AGCTTATGCAGGGAAAACTCTCATTTTTAAAACCATCAGATCTCATGAGACTCATTCATTATCACAAGAACAGCATGGGAAAGACCTGCCCCCATGATTC
Celera SNP ID:            hCV2008480
SNP Position Genomic:     370599
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24102):
AGACAGGCAGCTTATGCATTTTTTTCTCTGCTTATTCCTCTGCTGAGAATTGCAGAACCCAGCTGGCATGAGATGCAGTTCAGACATCCCTGCTAAGAGC
R
GCAAGGCTCTTGTTGACCCTAAATCTCATGCAAAAAGGTGAAGGAATTACTTCTTTCTCCAACACTGAGGTTAAGACTGGGACACTATAATATAATATCA
Celera SNP ID:            hCV2008482
SNP Position Genomic:     378144
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24103):
AGAGGTTACCCAGGTGAGGAGAGGGGACGAGCGCTTCAGGTAGAGGAGCCGGCAGAGGTTATAAAGAATGAAAATAGAAAACCTTTCAAGAACCTTTTTG
S
TCAGAGGTAAGGGGGAGTGGCCTTAGACAAGGTTAAAGAGGGAGGTGGAGCAAATTGCTGGTGCTCTGTAAGATATTTACACTTTGCCCTAAGTGCAATG
Celera SNP ID:            hCV2008483
SNP Position Genomic:     378901
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24104):
TGCACAGGAAATCAAAAGGAACAGGAGTGGGGACTGCTTTCTTTGATGAAAGGGTAATTGGGGTGGGGGTAGGGGGCATTTAACAGAGGAACTGCTCAAG
Y
TCAGCCTCAAAGGATGAGGCAAAGTATTCCATGCACTGATACAACAGACACACTTACTGAGTTCCTTCCATGTTTTCAGCACCATTGAAGGCAGCAGAGA
Celera SNP ID:            hCV2008484
SNP Position Genomic:     379723
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24105):
TTTCTTTGATGAAAGGGTAATTGGGGTGGGGGTAGGGGGCATTTAACAGAGGAACTGCTCAAGCTCAGCCTCAAAGGATGAGGCAAAGTATTCCATGCAC
Y
GATACAACAGACACACTTACTGAGTTCCTTCCATGTTTTCAGCACCATTGAAGGCAGCAGAGACAAAACAGACAAAAGTCCCTCCTCTCATAGAACTGAT
Celera SNP ID:            hCV2008485
SNP Position Genomic:     379760
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24106):
TCAATGGGACATGCAGGACTTGAAATTCATTCGCCTTTTGTCTAGGACATTGCTGGACTGGACACTGACACACATGTGTCTTTGTCATGCTCCTTATTTC
Y
ATGGTTTCAATGTGTGGCCAGCCATTCCTTTTCTATTTTTAATGCATAGTAATAGTCAGTCTGATTACAGTCAAGTCTTTAGGAATGGGACCCTTTCTAT
Celera SNP ID:            hCV1440490
SNP Position Genomic:     64180
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 78
Celera Gene:                 hCG1818813 - 104000117711665
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W0QP(43513846..43537443)
Chromosome:                  Chr14
OMIM number:                 113503
OMIM Information:            BRADYKININ RECEPTOR B2;BDKRB2


Genomic Sequence (SEQ ID NO:12238):
AGACCTAACTGGGAGTTGTAACTATAGGAATGGCATTTAAAGCCACAAGGCTGGATGAAATCACCAAGGGAGAGAGTAGATAAAAGAGCAGAAGTTGCAC
AGCTGCCGGTTGACAGATCAACAGGAGACATGGGAAATTATGATTTGGTGGTTGTGAAATGTCCATGGCACATGGAAGCTGAGCAGTCCCCACCCAGAGC
ATAATATGGAGGAGGCTGGAGGCTCTTGTTACAATAGTTTGGTCATTTTTTGCAGGGCATAAATCCAAAACTATGTGTATTTTATCATTTGGCAATACTT
AAAGAATTTGAAATAAACCCTTTTGGAGTAATGAGCTAAAAAACAAATATTTAATGGAAATTTAAGTACTGCACTTCTGTTGCTCAAGGAAGTTGTTGAT
GAGCAGATAGCTTGCATAGAACGTTTGTTGACATTTGCATCACTATGGGGTCTGTAGCAATTTCACTGATTGCAAGAAAACCTAAGACACAGAGCTGCTA
CTTTAGAAATTAGTAATTTTAAGAACATTGCACCAGGCTGGGCGTGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCATG
AGGTCAGGAGTTCAAGACCAGCCTGGCCAAGATGGTGAAACCCTGTATGTACTAAAAATACAAAAACTAGCTGGGTGTGATGGCAGGTGCCTGTAATTCC
AGCTACTTGGGAGGCTGAGGCAGAGAATTGCTTGAACCTAGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCACCAGTACACTCCAGCCTGGGTGACAGAG
TGAGACTCTGTCTCAAAAAAAAAAAAAAAAAATTGCACCCTAAGACACGGTTCTCATCCATGTAGCTGCAAAAGATGCTGATATAAGATCATTCTGAGAG
GCATGACTTTTCCCTTAGATCAAATGACTGTTCTTTAAGTTAACTCAGCTCACATTTAATTCCAGCTTTTCTTGTGCACGTGCAACAGTGGAAGTGATGG
CTGACTGTGTGTTGGCTCCATAAGAAGAACATCACAGAAAGCAAAATGGTGCCAGCTCAACACCAGTATCCTCGGACTCTTCAGACAGAAAAACCTGTTA
ATTCCAATCACAATTCATTCTTTCATTCAGCTCATGGAAGCCAAGCAGGGCTTTGGGACATTCATTCTGGCAAAGTGAAACAACTGACTTTTTGTGAATG
CTATTTAAGTTGTTTAAATTTTCCACATTGGAAATAAAGTCATTGCATTTTTGTGAGGATAAAACACAAATTGTGGTGGAGTCCAGCGTCATGGTAACAA
TAATATTCCTACTAAATTAAGACACTAATGAAACAGAAATGTGATTGGAACAGGTCATGGTGCACACACAATTTGTTATTGCATATAAATAAATGTCAAT
ATTCTATAAATTGACATTTATAGACGTACGTGACAAAATTTACAAAATGTTAAAACATATGCACAGATTTACTGAACTACAAACTTGTGATAAAGTTGTT
CATGAATTTTTTTAAAAAACTGGACTTTCACATGTGTTTTCTCTTTTATTTTCCCATTATCAATCAATTTTAGTGGACATTGAGTCTCAGCATCCTAAAA
TGTTATTAAACAGTGTATTAAAACAGATCTATAAATTTTCGTTGAATTTTGTTCCAAATCAGTTGGAAATATTTAGTCAAGTTATTCAATGAATAGAGCA
GCAAAACGTCAACTTTCAAAGCTTTTAGTGAATTATAAATATTGAAAACAAAGCTGGTATGCAGAAAAATTATAAAATGTATCAGAAAATGATCAAAATC
AAATGCTGTACAAGAGTTAATTTTGAAATTCTAAAATGAGCTCTGGAACATTTCAGCTTGTGGGAAGAATCTTTTTAATTGGATAAATTCATGTTCTGTA
TGAAATGAGATGAAATTGAGAAAGCCAATGATTTTTTTTTTTTTTGCAGTATCTGAATCTGACAAAACATTCAAAACTTATAAGTAGGTACAACTTATTT
GAAAGGTTTAATCTGGTTAAAAAAAAATACGTGTGGGCTGGGCACGGTGTGGCTCATGCCTGTAATCCCTGCACTTTGGGAGGCTGAGGCAGGTGGATCA
CATGAGGTCAGGAGTTCAAGACCAACCTGGCCAACATGGTGAAACTTTGTCTCTACTGAAAACACAAAAATTAGCCGGGCATGGTGGCAGGCGCCTGTAA
TCCCAGCTACACAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAAGCGGAGGTTGTGGCGAGCCAAGATCGCACCACTACATTCCAAACTAAGGCA
CAAAGACAGCACCTGTGAAAATATCTGGGCTAAAATATTTATGCAATTCCATATGCAAAGAATTGGACTTGAGAACAGCCTCTGCCTGGCAGAATTTGCT
GAGAGCTTATCACTCAGAACCTGCACAGGGAACATTTTCTCAATATATTATGGTTCAAGAGAAGAGTCAATTGAAGGTACTAATTTAAATTTGTTAATTG
TAAAATTTGTGGAAAAAAGATTTCAGGCAATTATATGGAAAAATTAAAAATAACAAGACCCCACTGAAGAAAATACATTCTTGTGAAAAATGCCAGTGAC
AGGGTATCAGTCAGGTACAAGAAACTGTAGCATGTGAATATACAACAAGAACAATTATTTTGCTTATCTTATTTTTAAATGTTCAGTTGATTAACATAAA
CATGTTTTCTTTTGCTTTAATATTCATAGGTGTATGCATATATATTTAAAGACTTTTTTGAAAATAGTTTTTATCTAGAACTACTTTATAACACCATCAA
TATAATATAACCATTTTGTTGGATTTTTTCCCCTTCCTTCCTTCCTTCCCTTCATTCCCTCCTTCTCTCCTTCCCTCCCTACCCTCCTTCCCTCCTTCCT
TCCTTCCTTCCTCCATCCCTCCCTTCCTCCCTCCCTTCTTCCCTCCCTCCCATCCTGCTTTCCTTCCTTCCTTCCTTCCCTTCCTTCTTTCCTTCCTTCC
TTCTTTCCTCTCTCTTTCTACCTGTAAATACTAATTTTTGGGGGAAATAATTTTTGACTATTGGGGTGCCCCGGCAGTGTGCACACACATGGCCTGACCA
TCCCTCTCCTAGCTATCTCTGATGATGGCCAGGAAGCTGAGGTCTATGGTGACAGAGGCTGGCAGGTGGGAATCTGTAGAATTCCCCGGCGATTGGTTGG
GATTTCTCAGGGAGAAAGGAGGCGAGGTCCTGACCTGTGGTGGAGGGGCTGGGGCATTGAGAGTTTGAGAAGAGATGGGAGGGTGTTGAGCACTGATATG
GTTTGGCTGTGTCCCCACCCAAATCTCATCTTGAGTTGTAGCTCCCATAATTCTCTCGTGTTGTGTGAGGGACTTGGTGGGAGATAATTGAATCATGGGG
ATGGAGAACAAAGCCAAGCCAATATCTTGACTTTAGCTCAGCGAGACTGAGTTTGAACTCCTGATCTCCAGAACTGTAAGATAATAACTTGCATCGTTTT
AAGCCACTCACTTTGTGATAATTAATTATAGCAGCCTTAGGAAACCAGCACGGGGGTGAGGYTGCACCCTGCCCAGGAAGCCAGAGACGACCAGCTACGC
AGGGACTTTAGCTCGAACCTGATTAGGTCAGTGGACACCGCCCCCATCCCCAGGACGGGGAGGTGGCTGGGGCCACTGCAGCCACAGCATGTGTCTGCTC
ACATGGGGCTTATTTTTAAAGGGATTGTCCTCACCTGCTGCTGTCTGTGTTTATAAAGTTGGCTAGAGAGGAGAAATCTTCCTTTGCCAGTTTTCAGCTT
TAGCTCTGATATTTGCCTGGAACATAGTAGGTGCTCAATAAACAATATCTCTGGATATTGTTAGTAATATGTGACCCTATTTGAAGAACTCAGAAGGGGC
ACTGGGCAAGTCTACAAGAGATGGCAATTCTGTAATTCCTGTGTGGTATTTTCTGAATTCTGCACATTTTAACCTAGGCTATGAGACAGTGTGACTTTCT
TCAACAAATTAGTTAATTCTTCAAATTAACTCCAATTTCAACAGCATGGTGATGTTAAAGGCATTGGAAATTCAGCCACAGATGTTAAAGACCATCAGCA
CGGTCACATAGTAAGATGCTACTTTCAAGCCACGAATAACCCAACCAGTTATTGGTCTTATGAAATCTTGTAAGCCATCCCAGAGAGACTAATTTAATTT
TTATGATTCAGAATTTGCAGGCTGTAACTGGTCAGTCCATGCGAACTCTGGTGGCTGCATTCAGCCCTGACATGTTTCACCTGACTTTGATATAAGGAGC
TACTGGAACCTTCCTACGAGTTCTAAAACCTTTCCCTCCTCCTCCTGTTCTGGAAAAGCAATTAAGACCCAAACTAGGCATGAAATAAAAGTCTCTTAAA
TTGATTTAGAATTATTTTTAAAAAGTACCCTCACAGAAGTGGAAAATTTTGCCAATAGGTAGGTGTAAAAGGAAGTTTTTTGTTTTTCTAAGAGACACAG
ATTTCCTCTCATATTGTACTCTCATAAAAGAAAAAAAAAAGGTGGTCATTTACTTACTCAGGCAGAAAATGAAGGCGTTCACAACTGTAGTTGGGTTTTC
TGATAGTGAGAGCTGCTTTTGGAGGAGTTTTCTCTTCTGGGAAGTGCTGTGGAGATGTGGTTGCTTTAAATTATATAACCTCCGCTCCAGTGATGTCATT
GTGGGGATTGCCGCAAAAGTGAGTCTTTCGGGACTCACTCCAAGTGGATTTGGAAGGAAAAATCCACTCTCATTTCACTTTGCACTTTAGGGATGATAAG
AGATTATTCAGCTACCATCTCCCCCTTTACTTTGGTACCATCTGCAGAGGTCTGCAATCCTGCCCAAGACCTGTATGTTGGCAAACACGCCCTAAAAACA
TGTTTTGACATCGCCAACTTGCCCCAAGGCTCGCAAAGTGTCAGTGAACATTGAGGGATGGCTTTTGGCCCCTTCACTATTGGCTTCTGAATGTCTGGGG
CTCTGCAGCAGCTTTTGTGGGAGCCACTTCGAATGGCCTCTTTTGAATTTTGGTCATGAAAGATACATCGCCAAGAATCCATCAGAGTGGACCCATCACA
CAAACAGAGAGCTAGGAAAACGTTTGACTCATGCAATGTTCAGAGTTGAGTAAGACCAGATACATTTTTTCCTAATCCTCCTTGGCGTCTCTCAAATTAT
GTCTGCATGGGTCAAGTTGAACTACTCAAGACCTCATGTTTCAGACAGTAAGATATTTTTGGCTTTGAGAATCAGGTGACAAGATTCTCCAACTGAAGGC
CCCTTACCTGTCAACTTACAAATTAAGATCTTTCCAGGCCACCCCCTACACGTAGGAGAACTCATTCATGCCAGAATTCAGGACTTCGAGTCTGACTTCT
GGAAAGGTGACCCTCCAAATGTTTGGAGCAGAAGGTGTCACCTCTGTCTTTAGAATCTTGCCTTTTGCTTGTGTTCCCTTTTTCTGCTAGTGACATCTCA
GCGGGAGCCAACTGCACTTCAAGTTTTCCTGCTGTCTTCTCCTGTTGCTGAAGACCTTAAAACTGTGGAAGTAGGTGGAACAAATAGCATTCTGAGGCTC
AGTAGCGGATGTACATTTCAGGGAAGAAGCTGGAATTTGCCTTAGAGGATAGGATGGTCCCCTCCTATCAGGAGAGACCTCCTGGGTGGGATTTTTAATA
AAAAAAAATTGTCAACAGGCAAGCATCTTCCATTACTCCCGGGATAGATCTGAACCGGAGGAAGGCTCCAAATCTTAGCCTTTCCTGTTACTTAGTAATG
TAGGCGGGGGTCTCTCCAGCCCGTGGCTGGCTTATTCTCCCTTCAGTATGAGTTTAGACTATACTGTTTCTGAGAAGCGTTTGTTCTTAGGAGATGTCTC
CCTGTTTATTCACCCAGGAGTGCGTATAAGGCCAGCTCTGCCACAAAGAGCACGTGCAGGTCTCATCTCTGCTTTGCCTCTTGCTGGAAGACAGTCTGTG
AAGAGAGCTGGCCTGAGTGAGCTGGACTTCGGAGATGCATCTGGCTGCCTTGCCAAGGTGGTGGAGGGCGGAAAGGAAAGTTCTTTAAGAAGACCCACGT
TTCCCCTTGTTGCTCATCTCCACGGGAAATGCGAGACAGGCCCGGGCTCAGGGGAGCAGAGGGTCTCCTACTGTCTCTGGGGCCAAGGGAGTGGGGCTGA
GGGCAGGGGGAGGGGACCCCAAATCTGTGAAAGAAAAGCAGGTCCCTATAGTGTGGCAGAAGATAGCAGGGGACTAAGAAGTGGGTAGGCACTGAGGACC
CTCTTCTGAGGCTTCGCTTGCCTTTTTTCTTTTTTTTTTGAGACTGAGTTTCGCTCTTGTTGCTCAGGCTGGAGTGCAATGGAGCGATCTCGGCTCACTG
CAACCTTCGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACACACCACCACACCCAGCTAATTTTGTATTTT
TAGTAGAGACGGGGTTTCTCCATGTTGGTTAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGACACCGTGCCCGGCCAATGCTTGCCTTTTCTGAATTTAGTTGTTTGTAATTCCCACAGCCTCTATAAGGTTTGGTTAAACCTTACAGTCTGATG
TGTGCTGTGCTTGATGAAGTCCCCTGGGTACTTGGGTGAAGAGGTGGTCACAGAGGATAAAGGCCTGCCTCTGGAAATAGAGGACAGGCCAACCTTCCCT
GGSGTGTCCTAAATACTAGTGAGGGGGCACTCCAGGCAGGCTGGACTCCCTGTAGTATGCGTGGGCTTGGGCCATACTGGATGTGTATTCAAGGGAAGGT
GAGCTCTGGAGTTTGYGGCCCCTGGGGACATGCAGTCCCAGTGCCCACTGTGACATCAAGGGCCACTTTTCAGTTCTCTCATCCATCAGTCCTGGAGTTT
TTTTCTCCTTTACTTTTCTAGTCATATCCAGCAGGTTCTTCAAAATGAAAGACTCTAGTACATGTCACCCAGCAGACCTCTACAAATAGCACCCAGATGC
TGAGCCTCTCCAGGGTTCGTTCTTAGTCCTTACACGACATCTGATGTCTCCAGTATTCTCCCAATTGTAGACGGAGGACAGAAAGCCACAGCTGGGCAGA
ATTCTTGCCAGGATGAAATGCAGCACCCTCACTGTGGTCCAGCTCGTGTCCTTTCACCCCCGACCAAGGCTGTTGGCGGTCACACCTTTCTTCCCATCAC
AGGGTTTAGAAACTCATGCAACGTACATACAAGTCTGCAACAAAGGACTGTAAACCAATCTCCTGGCTTTCTGATTCCTTTCCTTCAGTCTATCCTTCTG
CTGGATTAATATTCTGGAAACACCTGGATTTTGTCATGCCACAGGACAACGACCCAACCCCTTGGAATTCAAGAGCTCCCCAACGGTCTTGCTGTAACAC
CCAGAGCCACCCTCCATGCTGAGCGAGTGACTCATGGGCTCTGAATGCATCCTGCTTGTGAGCATTTGCTGAAAATGACCTCCTCCTCCTCGCACTGTTC
AGTGTTCATCCATCACTCAAGTCCTGGTGTAATCCTCTGCTTTTCTCTAAGCACGGGGCCTGAGTGCTTTCCCCTTTATTTTAAAAACACATATGGAGCA
CCCAGCTGGTGCCAGGCAAATGCCACCCTAGAAGAGCATGCGTGTCTAGCACATAGGAAGCGGGGAATGGATGGGGTGAACAGACGGTGTCTAAGTGTAA
GGGGGGAGGTAAGCAGAAAATCCCAAATATACATTTAGCAAAGCACAAACACTTGGAGATCTACAGGATGACAGGGTGGACATGARCACGTCCTGGGCAT
TCAGGCAGCTCCAGGTGCTGCCATGGCCTGGCAGCCAGCCCAGAAGTGAAGGGTCCTGGGTGCTGGCTCTGGGGTGGGAAGGTGCCCACTTAGCAGATAA
AGCTCCACTGGGCCAGGGGTTCCTCCCCGCCCTTGTGTGGCCCTGCTTTGGGAGATGAAAGCCTTCTCGCCCAGGCAGAGCAGRGGATCACGAGACCTTC
CTCTTTAGGGAGCCTCGAGAATCCCAGGAGTGCACATGCTCTCAGAAGGGGCTTGTACCAGGAAAATCAGCTGCATTTCTCTGTCTCCTAAAGCCGAAGC
CAGGCCGTCTCAYGTCTCTTCTCGAACTCCTCTGCTGCTGTCTCAGGCCCAGGAAAACAGAGACCTTACGGCGGCAAGGTTGCACATGCGCAGACCCAGC
TGTCCCCCAGAGCACATGCGTAGACCCAGCTGTCTCCCAGAGCACATGCGCAGACCCAGCTGCCTCCCAGAGCACACGCGCAAACCCAGCTGTCTCCCAG
GGCACATGCACAGACCCAGCCGCCTCCCAGAGCACTCGTCTCATGGTGCCTGGCTGCCCTGGCTTCCTCGAGCTGTGTTTTTTGTTTTTTGACACAAGGT
CTCACTATGTCGCCTAGGCTGGTCTCAAATTCCTGGGGGCCCAAGCCATCCTCCCACCTCGGCCTCCCAAAATGCTGGGATTACAGGCACTCCCCACTAT
GCCCAGCCTTTCCTCTCTGTTTTGAATGTACCACCTCCTCTCCCACCTCAGGGCCTTTGCACTGTCCGTTCCCCTACATGGAGCACCTTCCCATCGAGAG
CCCCATGCTTGCTCCCCCAGGTCCTTCTGGTCCTCACCAATCCTCCCTTGTCAGAGAGACCTTTCCTGAAATAACCTCTCCTCCTCTTGGCCTGCTCCAC
TGCTCTTCACAGCCCTATTGCCACCTGCTCCACCAGGCAACGGATTTATCTCTTTTGATTAGGTTCATCTTCCCAACTTGTACAACAGGGCTGATAAGTA
GCACGTGCTCAAATATTTGCTGAGTGTATTCATAACTATGTATTACAAATAAGTATATAATAGCAATAGCTTGTCTTATGTCAACAAACATGTGCCAAAC
CCCTTGTGGGGGCCAGGCCCTGTGTGGGCACAGGGGGTGCATAGACGAACACAGCCCACTCCGTGCCCACTTAAGGAGCTCTTGGGATGGCTGAGGACAG
GGACAAGCTGACATCCAGTGACAACATGTTGTAGAAAGCAGAGTGGCAATGAAGTTCTGAGGCTGTGTCTGAGTGTGAGGTTTGAAAAAAATGAGTTCTG
CTCGAGGTGGAGTGGGATGGGTAATTTATGTGTCATGCTGACTGGGCCATGGGGTGCCCAGATATTTGGTTAAACATGGTTTCTGGGGGGGCCGTGAGCG
AGTTTAACCTTCCTAGGTTAATTTGAATGATTAATGTTTGAATTGGTAGACTGAGTAAGGCAGATTGTCTTCCCTGACATGGTGGGTGGCATCCAACTTG
TCGGAGGCCTGAATACAACCAAAAGGAGCAGCAAGGGAGAATTGGTTCTCTCCGCCTGGCTGTTTTCAAGCTGGGACATCTGTCTTCTCCCACCTTCTCG
CTGGCCATCCTGGGTCTCTGGCCTTCACAATCCCACTGGAACTACATCACTGGTCCTCCTGGGTCTCCAGCTTGCAGACAGCAGATGGTGGGACTTCTCA
GCCTCCATAATTGCATAAACCAATTCCTTATAACAAATCTATCTATATTTATCTATTTTCTGTTGGTTATGTTTCTCTAGAGAACCTCGACTATTATGCA
GAGTTGGGGAAGAATTCATGGCAGGGGATTATTTAAACTAGGTTTTCAGGGCTGAATAGGAGTTTGGAAGGCAAGCAAGCTGAGAAAACCATCGCAGGTG
GGGGGACCAGCATTTGTATTATAACGCACACATGTTCATAAGCCTTTGTGGAAGGCTCACTTGGAACTTGGGGTCAGAAAGCCCAGGTTCAAGCCCCACA
CCCCACTTACTCACGCTATCCATGAATATCCCATATCCCCTACCCTCCAGCAGGCCCTGTGCAGCTCTTGGTTTGGTTCAGGGAAGAGAATTGAATGATA
GTTTTAGCCCAGAGTAAGGGTGTTTTGAGAGAGCAGGTGCATAAAGTTTTGCAGCTCATGGAAGCAATTTCCATTTCCCTGTACTTGGAGTTTTATAGCT
CTAACTGCATGATCTATTCTAAAGATAAATGCTCACGGCAGGTGGAGCCCACCTGCAGGGCTTCCAGAAGAGAGCAGGGCCGGTGGTCCTGGAATGCTCT
GGTCCTGCCTGCTTCTGAGAGTTGCTGTGAGGATCAAATAACTGTGTGGGAAATGTCAGTATCGTGCTGTATAGATGTTCCCAGGATAAGATGAATATGT
ACATGTTGATGCATCTTTTCTCAGTATTATGACCTTCTTTCTTAATCTAGCAGCAAGTGCCATATGGAAAAGCTCTTTCATCATTTTTCAATCAGCCTAG
ATGCCTAATTAAGCCATGTGTACAGCAAAGAATGGGGGTATGGAATAAGATGTTTTCCTTAGRAACCAGTAGTTCCTTTATGATGTTTTAAAGAGATGGA
ATTGGATTACCRTATTATAAAGTTGATGCTGTGAGCATTTATCTTTCATATAAATCATATTGGTCCCCATGATGGGGATGCAAAACTCCGGATCCAGGGA
AACTGAAATTGCTTCTGTGAGCTGCAGAACTCTGAGTATAGGGGAACTGAAATTGCTGAAGATAACCATAACTTTTCTTGAAGACTTGGGGTCATTCTYG
ACTGTCCCAGCCCTCATGGGGGCTACAGACTTGGGATAGAGACAGACTAACAGAGAAACCTGTACAGGATYGTGATTGTGAGTTCTATGAAGAAACAGAA
CAGGATCCAGTGGTCTTCAAAACAGAAAGGAATGAGGCTCTGTACAGCAGTTCCCCCTTAGGCATGGGGAAAACGTTCCAAGACCCCCAGTGGATGCCTG
AAACTGCAGATAGTACCAAACCTTATAACACTATGCTTTTTGCTRTACAGTAATGGKGGGTAGCTTATATAGCATGGGTACATTGGACAAAGGGACAACT
CATGTCCCAGGTGGGACAAAGCAGGAYGGGGCGAGGTTTCATCACRCTGCTCAGACTGGTGCATAATTTAAAACGTATTAATTGCTTTTTTCTGGAATTT
TCCATTTAATATTTTCAGACCTATATTGGCCACAGGTAATTGAAACCATGGATAAAGGGGGGGACTACTGTACTTAGGGAGGTCAGGRAGACAGTGAGCA
AATCTGACTGCAAAAACAAGTSCCGTCCCTGGTCCTTAAGGTCTGATTTGGAAGTCCAGGCAGGCAGGTGTACGGTGTGGAGCTGCCTCAGCAGCGTTGA
CACCCTAGCTCCGTCACTGCTGAGAAGGTGAATCTGGACCATTTTCTTCTTCCTCTTCTTCTTCTTCTTTTTTTTTTTTGTGAAAGAGACAATTTAATGG
GAAATTATGGTAGAAAGCAACACATTTTTTGTGTGCAATTGGAGAATCTGGACCATTTTCAATTCCACCTTCCAGAGCCTCAGTCTGTAAAGTGGAGCAT
GTTGTAGAATTTGGTAATCACATGGGATAATGTGGTGATGCAACTGGCCTTTAGTAGGCACCCCACAGTAACTGTTCCTGATTTTATCATTTTACTGTTG
CACAAGACGATGGTAGTGTCATTATGAGGAGGGCCCACACACACCGTGCTCTGTCTTGGCCAGAACTGAAGAGAGGAAACAGACACTCATTGCTCGCYGG
CTGAGTGGACGGCAAAGGGTGACTCAGCATGAAGGGAGGCATCCAGAGAGTCTCAGAACCCCATCTTTGACCATCTTTCAGGGTTGTCTATAAGTAGCCT
CCCACCTGGGTGGGGTTGGTGGCTGGGCTGTCTGGAAGCTGGGAGCTGGGCTCTGAGGCCATTTATTTATTTATTTGAATCCTGGTCTGAGACTCTTTGA
ATTGGCCTGCCTTTTGGTTCTGGGGAAGGAAGAAAGAATCAGCAGATCCCAGGTCCTAGGTCCGCAAGGATGGGCATTTACACTCAGCACCCGGGGCCCA
TGATTCACGCTCTGGGGGCTTGGGCTGGCCCGCAATATGGGAAAGGCCTCAGTATCTTCCATTTGAAAAAAATCCTCTACAATTTAGTAAGATGGCATTT
GGTATTATTTCTTAGGAAATCTGCACGAACAAGTATCTCTAACCCTAAAAAGACCTGAGAAAAACATCCAGTGTGCCCTCTCATTGTTGAGAGAAGGGGC
CTGCAGGTACCTTAATGGGCAACTGGATGGTGAGYATGTGCTCAAAAAGACTAAAATACCTGTATCCATTTGCTCAGGGCTCCATACAAAGTATCAAAAC
CTAAGTGGCCTAAACAATGAACATTTGTCCTCTCACAGTTCTGGAGGCCAGAAGTCCAAAATCAAGGTGCTGGCAGTGTTGGTTCCTCCTGGAGGGTCTG
AAGGAGAAGCCACTCCTTGCTTCTTCCTCCCTTCTGGTGATTCTGGGCAATCCTTCACATTTCTTGGCTTGTGGAAGCATCGCTCCAGTCTCTGCCTCCA
TCTCTCTCTGTGTCTCTGTGTGTTTTTCTCCTCTTCTTATAAGGACACCAGTTATTGGATTTAAGGGTCACCTTAGTCCAGTACAGGTTGGGGATCCCTT
ATCCAGAAATGCTTGGGACCAGAAGTTTTTGTGTTTTGCATTTTGAATGTTTTTGGATTTTGGAGTATTTGCAGAATACRTACTAGCTGACCATCCTTAA
TCCAGAAATCCAAAATCTAAAATGTTCCAATAACATGTCCTTTGAGCATCATGTCAGTGCTCAAAAAGTTGTGGATTTRGGGGCATTTGTGATTCCAGAT
TTTTGGATTAGGAATGCTCAACCTGTGTAACCTCATCTTAATTTAACTACTTCTGCAAAGACCCTATTCCCAAATAAGGTCATATTCTGAAGTTCCATGT
GGACATGAGTTGGGGTGGRGGGATACTCTTCAACTCATCACAACATCTTTATCTCACTGAATCTTCACAATACTTGGATCTTCATTTAATAGATGAGAAA
AGAGACACTCAGAGAAATTCACTGACCTTCTTCAAATTCCCACAGCTGGGAAGTGGCAGAGGTAAGATGTGAACCAGGAACCTGCCTCCAAGCCCCTGTA
CTGTTGGTGCTGGGGCCTTCGTAAACTATAGAGGACAGCATCAACATCACATAAGGCAGTCCTTCGAGACCACTGATCTACATGCCAGAAACCTGTTAGA
GTCATGACTTATTATCTCTCCACTTGACAGACGAGMAAACTAAGGCCAAAGGTGGTGGGAGGGAAGATGAGTAAAGTGGCTTGCTGAGATCACACAAGTG
GCATGGTAGGGAACCCATGGACTGGTCCCCARAATTCTCCCCCAACAATTAAACATTCTAGCTCAGTGTTAGGAGGTAAAAGGAGCTAGACACAAAAGGC
ATGTGTTATAGGCTCTACAGAGACAGCATCCTACAACATGTGCCTGGCTTCTTTCACAACAGGTAAATCTAGAGACAGAAAGATTAGTGGTTGCCCAAAG
CCATGAGGAAGGGAGAATGGGAYGTGACTGTTAATGAATATGCGATTTCTTGGGGGATGATGAAAGTGTTCTGGAATTAGACAGTAGTGATGGTTGCATG
AATTGGTTATTAAGTAAAAGCTGAAGTGGGTAAACTCTACGGCATGTGAATTACATCCACCAGCTCTGGGAAGGTGATCTGCAGGAAGCAAGTATGCACA
AGGCCTATGAGATGCAAAGCTTTTATTGTGGCAGAAATAGCCCAAGCCCTGGGTCATAAGCTCGTCATGCAAGAAGGCACTTCGAGGACTTTTCCTGTGA
CAGAATTTGTATCCTCGGTTTGTTAAGGCATGAACACCCCAAGAACAGAGAGAATTTCCAGAGCACCCTCCTTAAGAACTGCATGGCCTTGGAAAGTTAC
TTCCCTCTCTGGGCCCCAGTTTCCATACCATGAACCAGTGATCATGCAAACTCCCAGAGTGGTTGTGAGCGTGAAGTATTTTGATGGGGTYCCTTTGACC
TGGGACTATTTTGCCTCAGCCAGCAAAACAAAATAAAAAACTAAAACCAGAATAAAACTCTCATGAACAAACGATTAAACTTTCAGCCATTGCTGTTGCC
AAATCATGACCTCTGTTGCTCATCCCTGCTCCCCACCCTMATCCTTGGTGAAGGATCAGAGCTACRTAAGGGTCAGGAATTGGGTAACAAGGAGATAATG
CAGCACATGGCTGGGATCTACACAATGGAGACACTCCCCCTCTGAGTCATGAAGGCTGTGCTCAAGAGGCTCCAGCACTAGCATGAATTCCCATGAGGTC
ATCTGGTGTCCAGTTTGCATCTCTGCATCCTATTCTCACCCCTCTGTGGCCAGGGAAGACTCAGGAGCTAGGCCCCTTGCCTGGTCTCCTGAGCCCACCT
GGACTTCTTCTCATTGCRCCAGCTTGCTGGAGCCAGAGAGGGTCAGGAGTTGAGGGGCTGCTCCTGTTGCCTCGCTGGGGAGGCTCTCCCAGCATTTTTT
TTTTCTTTTTTTGCCTGCTAAGAGCCCTGCTCAGGTTTCCAGGCATGTGGTTTCCCCTGGATTGCAGACTMCCTTGAGTAATGCAGGCATCTGTGAACAA
AATTCCCTGGAGGAGTGAGCTCCCTTGGGCACTTGTGGACAACTTCCTCCAAGTTCAGGGCACTTAGTGAGGGGGTGCAGTCTGGGTGGGAAGAGTGGGC
ACTGGAGGCAGAATGAAATATCTTCTGGGATCTGTCTAGGTTCTTGTGTCCAAATGGCTGGAGGGTAGAGAATGAGCCTGGAGCAGAGAGAGGGAGACAT
AGAGACAAGACAGGGACCAGATCATGAAGGGTCTTGCAAGCCATGTTACAGCTGTAGAACYTTATCGCAAGAGGGGTGGGACACTATGGAAGGGTTTCCC
TTGGAGGATGCCCCCATCACACTCACTGCCAACACCACCACCACATCATCATCATCATCATCATCATCATCATHAAAGCTAGTACATGTTCAGTGCCAAC
TATGTACCAGGCACTGTGCTAGATGCTTTCATACATTAATCCTATTAACAATTTTATGAGGTAGATACCATTATTATCCCCATTTTGCAGACAAGGAAAT
GTTGACTCAGAAAGGATAACTGAGGTACCCAAGACTACACAGCAAATAAGAGCCCAAGGCTGAACCACAAGTGGAATCCAGGTCTACCTAATCCTAAAGT
CTTGGCTCCTGAACACAGTTCTCTATGTTTATAGCCTCCCCATGAATGTATTTGCATTCTTAAAAGACCATGTTGGCTGCAGAGTGAAGAATAAGAATTG
GGASATGGTAGTAGTTAGTATTGGAGGCACCCATGACAGACGATGGTTGGACATAGAAGGAAACATAGATTTAGGAAACACTTAGTGAGTAGAATCTAAA
AGAGGTGCTGATCCTATTACTGGGTATATACCCAAAGGAATATAAATCATTCTATCATAAATACACATGCACATGAGTGCTCACTGCAGCACTATTCACA
ATGGCAAAGGCATGGARTCAATGTAAGTGCCCATCAATTATAGACTGGATAAAGAAAATGCGGTACATATACAACCATGGAACACTATGCAGCCRTAAAA
AAGAATGAGATCATGTCCTCTGCGGGRACATGGATGGAGCTGGAGGCCATTATTCTTAGCGAACTAACCCAAGAACAGAAAACCAAATACCACATGTTCT
CATTTGTAAGTGGGAGCTAAATGGTGAGAACACATGGACACAAAGWAGGGAACAACAGACACTGAGGTCTAGTGGAGGGTGGGGGTTGGGAGGAGGGAGA
GGAGCAGGAAAAATAACTAATGGGTAGTAGGCTTAATGYTTGGGTGATGAAATAATCTGTACAACAAACCCCCATGACCCAAGTTTATCTATGTAACAAA
CCTGCACGTGTACCCCTGAACTCAAAATAAAAGTTAGAAAAAAATAAAAGAGGTGCTGACCCACCAGATGGAACAGATGAAGGAGAGGGTACGTTGAGCG
ATGAGCCCCAGGTTYCTGGCATGGATGGATGGATGCATGGATGGAGGAGGGGCATTTATGGAGACAGACTAGGCAARTTTTGTTTAATAAATGAGTGAAG
GAATGAATACATGAATAATGAAGGGATCCCAAAGTGGCATGGATAATGAATTCCCCATCACTGGGAGTATGAAACAAGTGGCTTTTCATCAGGATATTGT
AGAAGATACTCCTGATTTGAAGGGAAGTCAAGTGGTAGGCACTCAGTAAGTCTATATTGCATGAATAAATGATTGAATCGCTGCTGCGCCTATGATTCTA
GGCCTCATGAGGGTCTCACATTCATGTAGTGGGAACTTGGTAATGAGTTATCCCTGCAGAAATGTAAGATGGAAGGAAATATTCAAGCACTGTTAATATT
TTTTTTTTTTACATCTTCTTTCTTAAATTTCTACTGGTTGATTATATTTTAGAATGTACATCTTCATACAGATTAATAAGTATACATACYGGGTATGCAT
AATCAATTCTTTTTTTCCTATAGGAATATACAATCACAAAAGCTTGGAGACCACTGATCTACATGCCAGAAGCCTGTTAACAGATTGAGCAGAAATGAAT
AGCACCCCTTCCCAAAGGCTTCTGAGTGTGCAAGGCGGTACCCCAGGGACCAAACTCGGGGGTTTCGGGAGTTGTAACAAATGCTAGAGCTATGCAAAAA
CCTCATCCATTTATTATGCTCTACAGAAAAGACACATGTTTACATGATTTTCTCGTTTGGATGTGAAATGCTTCCTGTTTACAACATAACAGCTCATTGA
GTCTTTCACAGGACAGATGTTCTTTATCAGGGCATCTACACCATGCATAGGGCCGCTCTTCTCCCGCAGACTCAGTTGCCCCTCAGACCAGGTGTGGATC
CCCACATGGCCATTGCGGCAGAGCTCTGCTCCTAAGAGAGTCTCAGACCATCACGTGCTCTGGTGCTGAATGACTGCCCTGTGTGACAAAACACAGCCTC
TTTTTTTTTTTTTCATTCACCATGTGTGGCACAGTTTGACTTCATTCTAATACTAATACTAAATGGTTTTTACTTCTTCTTTCACCTGTTTTCTTCCTCC
AGATACTTACTGAGGCAGAGGAGAGTGGGTGGTGGGAAAAAAGAGTGGGTTGGGGGTAAGGAGGGAATCTTTTTTTTSACGCTTTTGCTTTAAAATTCAG
AGTTGGATTGGTCAGGATTTATGGGCTCTTTGCCATGTAAATTTTTCTCATTCTCCAGGTTCTAGCCCTCCAGGTTCATTCCCTCCAGGTTCTAGCTTGC
CAGGTTCTAGCCTGCCGGGTTCTAGCTCTCCATGTTCTAGCTCTACAGGTTCTAGCCCTTCCAGGTTCTAGCCCTCCAGGTTCTGGCTCTCCAGGTTCTA
GCCCTTCTAGGTTCTAACCTGCCAGGTTCTAGCCCTCCAGGTTCTAGCCCTTCTAGGTTCTAGCCCTCCAGGTTCTAGCCCTCCAGGTTCTAGCTCTCCA
GATTCCAGCCCTCCAGGTTCTAGCCCTTCTAGGTTCTAGCCCTCCAGGTTCTAGCCCTCCAGGTTCTAGCTCTCCAGATTCCAGCCCTCCAGGTTCTAGC
CCTTCTAGGTTCTAGCTCTCCAGGTTCTAGCCCTCCAGGTTCTAGCTCTCCAGATTCTAGCCCTCCAGGTTCTAGCTCTCCAGATTCTAGCCCTCCAGGT
TCTAGCCCTCCAGGTTCTAGCTCTCCAGATTCCAGCCCTCCAGGTTCTAGTCCTCCAGCTTCTAGCTCAGGTTTTAGCTTCTCTAGGTTCTAGCCCCTCC
AGGTTCTAGCCCTTCTTGGTTCTAGCCTCTCCAGGTTCTAGCCCTCCAGGTTCTAGTTCTCCAGGTTCTAGCTCTCCAGGTTCTAGCTCTCCAACCAGCT
AATAAATATTCATTTATCAAGTGAATGAGTGCTGCCCTGGCACTGCCGATGGTGAACACCATTGCCATTCCTTTTCACACTCTTCTAGGGCTCATACTGG
GCCACCTTCCAATAAACCATTGATTGACAGGAACAATCCCTTGGTTGCTGAGACAGGAACAGTCCCTGAGCAGGCCTGCACTCTCCCCCTTCCCAGGTAC
CGGCTGGTGGTGGGGGGTCTCAGCACTGTGATCCTCTGGGCAAGACCGATTAGAAATATCTTCCTCTGCCTCATCACAAATCAGACTTTGAAGACATGGC
CTTCTCTCCAAATGCTCCTGTGTGTGTGGCGGTTGGGGCCTCAGGGTGGTGGGAATGACAGGTGGAAGGGAGCCAATGAGCACCTACTGTGTGCCAGACA
CTGGTGCTTCACACCGCCACCGGCTCCCAATACTGATTCTGCTCCACGGAGCTATTTCTAGAMCTCAGTGTCTTTTCCTTATAGTAAACATATCCCAGTT
ACGTCTGCGTAAWGATGCCTCACATGTACGTAGCACCCTTTGCTTTTCTAAGTACTTTATACCTGTTACTGCCTTTAACCCTCACAACGACTTCATGTTA
CAGAAGAGGGAACTGAGGCAGGGACAGRTGGTTGTGCAATAGTTATTGGTTGAGCTGGAACCTTGGTCTCCCCCTTCTGCTGTCCATATCACCCACAGCA
CCCTGCTCGACCGTCTCGTCGAACAGCTTTCTGGTGGTGGCAGTGCCCAGTCGTTCCCACTTGAGTCTTTGAGTTCCTTCAAGATGGAGATGGCTCCTTC
TCTTTCTTCCCTCTTGCCTACAGTGCTCAATACTGCATATACAGCAAGTGCTCAATATGTGCTTATTGGATTCTTCTTTGGCACAGACCTCCTTGTCCAT
CAGTGAGGGGAGCCATAAAATCCTGGTCTCCAGGTTGTTATCAGGGACCCCTCAGGGCTTAACCTTTATTAATGCAAGAAATTGTCCTTCAAAGTTCTAG
CTGAATAGATTAAAGAAACCCAGGGCAACAACTCACTTGTGCACTCAGCCATTGCACCAAAGCTGGATGGCAGTTCTCCTGGAGATCTAAGTTGTCTTGC
TGGGGCAGGGACGGAGAACACACGGGAGGGAAGCTCAGTCACTCCTCTCCCTGCCCCCAGGCCTCCTCCACTCCTGGGAAGGAGCAGGCTGGCTCAGGTG
TGGCAGCAAATAAGAACAGTAATGCTGTTGTGATTTTGGAGTCCTTGGCTGTGCGTGAGTTCACCCCATCCTCACAGCCATGCTCCCTGCAAAATTGGGC
AGGGCAGGAATTAGTCTCCGGTGTTTTACCGGAGACATCAACTCATTTCCCAAGGTCGTGCATAGATGTCTCCTTGGCATTCCTGGGCCCATGCTGAAAA
GCAACTGTCCCTCAATCCTTACACAAATTCACAGCAGCCCTGCTGGCGTTTGCTCACTGTCTGCTCCCTGCCCAGTCCTGCAGTTTGTGAATCTGGCGTT
CCACGGAGATGGAGGTCCGCAGTGTGCCCATGGAGTTCTCCATCTGAATGGGTTCTGACCTGCAGCCCYCTTTCTGGCACACTCCCTGGTACACCTCCCA
AGACTTCTTTCGGAAGCGCTTGCCCACGATCACGTACACCAGTGGGTTGAGGCAGCTGTTGCTGTAGGCCATGAAGGAGGCGATCTGTGTGATTACRTCG
ATGATGCGCTCGTCCTGGCAGCTGGAGAGGATGCCGAGGCGATGCAGCGTATCCAGGAAGGTGCTGATCTGGAAGGGCAGCCAGCAGATGATGAATAGCA
GCAGCACAACCAGGACTAGCACCGTGGCCCTCCTCTCYGTCTGGATCTCCTTGAACTTCTGCATCTCGTTGTTCCGCAGCACCTGCATGATCTGCATCGT
GCAGAAGGTGATGACACTCAGGGGCAGCAGGAAGCCCACGACATTCAGGAGCATGTTGGTGAACACTTCCCAGATGAGGGATGGGTAGCTGATGACACAA
GCGGTGACGTTGTGGCCCTCATCGCTGTACTCCTTCATGGTCCGGAACACCAGCATGGGTGAGCTCAGGAGCAGCGTACACCCCCAGATCACCAAGCTGT
AGAGCTTGGCCCAGCGCACGCCGCGCATCCGGCCCATGGACATGGTTTTCACCAGGGCCAGGTAGCGGTCGATGCTCACCAGCATCAGGAAACAGATGCT
GCTGTACAGGTTCATGGAGATAATGGCATTCACCACGCGGCAGAGCGTCTCCCCAAAGAGCCAGTCGAAGTTGTTGGAGATGGTGATGGCCCAGAAGGGC
AGCCCGCAGGCCAGGATCAGGTCTGCTGCGGCCAGGTTCCCCAGGTAGATCTCTGCCACCGTGCAGCTGCTCTTGTGCAGGCAGAAGACGCTGAGGACAA
AGATGTTCTCTAGGGTGGCCAGCACGAACAGCACCCAGAGGAAGGGGGGCTGGATGGTGTTGAGCCAGCCCAGCCACTCCACTTGGGGGCATTTGCTCTG
GGCAAAGGTCCCGTTAAGAGTGGGCCCTTGCAAGGTGACATTGAGCATGTCGGCGCTGAAAGAAAGTGGAAAAGAGGCTGTTACCCCTCAGGGTCACAAG
GGAAGGACAAAAACTGGTCCAGAAGGAGACAGGGGTTAAGGACAACCAGCCAGGGCAAGGAGAAGCCGAGGTGGAGCTCAGGCTGTTTTCTGCAGCCCGC
GCTCCAGTGCACCTGACTCCCCTGGGTCTTACAGAGCCCCCTCTGATCCTTGGATCTAAACGGGGGCCTCATGTTCTTCATCTCGAGGCTCCACTGGGAT
ATTTCCTTGGCCAGTATCCACCAACAGCACTAACAATCTCAAGTGTTGGACCCTTGACCTCCTTGAAGCTTCCGTGATGGGAGGATTCACATTCCTTCCT
TATCAACCGGGGCCCTCCCAAGGGAGTTGGTCAMCTTTGAGCCTCTCAAAGCCGTGTGGTGGGTGAGTTAATTTATTAAAAGAGAAAAATGATATCATTC
CAGACCTGGAGATTCCAGTCTGGCTTGGAGACCATGGCCAGCCCATCTGCCTAGTTTCTGTCTTCCTGGACAGTCTGTGGCATCGTATTTCCGTACCTTC
TATCAGCAAAGCACTGAAGATGATTGGAGGATACAGATGGCGAGGGAGGGTGGGGACTTTGCAGCCAGATAGTCCTACTGGGTTCACATCCTGGCTGCCT
TACTTATAAGCCGTGTGACGCTGGGGAAGTTACTTAACGTCCTTGAACCACAATGACCTCACCTGTAAAATGGGAGTTAAAAAAACTACCTCTCAGGGTT
GTGATAGGGATCAGAGACAATGTGCAAAATGCCCCAAGCACTGCACTAGGCTCAATAAACATTAGTAATTAACAATTCTTGCAAACCCATTAAAATAACC
AGTGGTAAACTCCAACACCACCGTTTGTTGGTGACCTCATCTTTAACCCACTGGCTCCTCTTTCATTCTTAGGCAAGACTCACAGACCATAGGGCAGGCA
CCTTTCTAGACTTGTTGCTGTAATTCATCTCTACCTTCAGCAGAGGCGTGGGGCTTGGACAGCCATGAGTTCCACTCCTAGCTGTGTGGTCTTGGGCAAA
TTGCTTGACCTCTCTGAGCTTCTATTTTGCCTTCTTTGGAGTAGGGTATTGCTCTCATCCTGAATCGCTTTGCATTTCTTTTTTCATGGCTGTTGCAACA
TTCAAGCTGAAGAGTGGATGCGAAGACACACTGAAAAGTCCAAAGCACAACCCAGAGGGCAGGACTCATTGGGCATTTTCCCAGTGCCCTGTGCTGTGGG
TGAGAGAAGGAAAAGGGGCTCTTTCTGGAAGGTCCACTGATAGTCAGGCTCATGGAGGAAGAGCTGAACTACGAGTCACGGGAGAGATACTGATCATCAC
CTCTGGGATTTCCCAGGAAAAGTCCGTTTGCTTCTAGGAGCAGCTGGCTGGCATCCTGGAGCCAGACTGGGGGACCCACAAATCAATGCTTCTATCCTTT
AAATGTTTTTTGAGCGTCTGCTCTGTGCTGAGCTCTGCCCTGAGTGCAAGAACACAAAGAAGACACCACCCGGCCCCTGCCCTGCCTGACTCCTGACAAC
TGTGGCCCAGAGGGTGGAGGGTGCCCTGGAGGGAGCAGGGGGSTTGTGGGACACAGACTTGGAGAGGRGGCTGGTGGGTAAGGGGYTGGAGGTGACTCTA
GAGCTGGGTCTTGAAGGATAAGAAGCATTTTGACGGGACAAGAAGGAGGACAAGTGGACCAGGCAGGGGGAACAGCCTGAGCAGAGGCACAGAACTGGGG
AAGCTGTTGGTATGTTCTGGAAAGTGACACTAGATGTTGGACAGGAGAGGTGGGAAGTAGCAAGAGGTTGAGTGAGGGAGTAAGCGTGGTCTTCACTGGG
TGCTAAGGAAGTGAGGCTTTGCCCCTGAGTCTTAAGGAACTACAGTGATGGTATAAGAAGTATGCTCTAAAAAGATCCCTGTGGTGTGTGGTGGCTTTCA
TATGCCCCCCGAATTACTTGATATTCTTCATTTCAAAAGGAGGAATCTGCTTCCTCTTCTCCTGGACGTGGGCTGGACTTCTTACTAATGGTGGCAGGGA
TGGTGTGTGATTTCTGAGGCTAGGTCATAACATGCTTTGCAGCATCTTTCTTGGCCTTTTGCATTGCTTACTTGGAAGGATGTGAGCCGCCATGTGAGGA
TACTCAAGCAGCCACATGGGGGGAACCAACTTGCCACCTTGAAAGTGGATCCTCTGGCCCCAGTTACGCTTTTGGTGGCTCCTGGTTTCCTAGCCTTTGA
ATCTTCCAACCAAGGCCCCAGACATCTTGGAACAGAGATAAGCTGTCTCTACTGGGCTCTGAATTCTTGACCCATGAAAACTTGCAGCCTCCTTTCCAGA
GTCCTCTGAAGGTAAGACTTCCCCTGGGTAGTCCCCTTGGTCCAACCCTCAACCCCATTTCTGTAGCTACAGAAAACCCATTTCCTGCRTACCCCTGGCT
TGGAGAGTCTGTCATCTTTCATGAGCTAACTCACTAGAGACCAAAGTATAGCACCAGATGCTGCTTATTAATTTCTCAGCAAGACAGTAGCCAAGGGGAT
GGATCCTGGCCCATCCCTGGCTCTGAGAAGCCATCGGATCATCAGAAAGATGCCTGCTGAGTGCGGAATTGGAAACTATAGGTCCAGTGCACTGTGGCCC
CAGCTGAGATGGCCATCTGCTCATCTTCATCATAGGCAGCACCTGCAGCAGGGTGGAGAGGTTGGAGTGGACCCCTCAGCCTTGTTTCTTGCAAATGCTG
TCCCCAAGAACAGATCTCCCTATCCTCTGCTTCTACTCTGGCTCAGGTCCTCCTCCCCCTCCCCTTAAATTCTCTCTTTAGGGTGTTCTGATCTCCCACC
AAATGTCAGCCATGTGTTGGAGATATTTTGTCTCCAAGGCAATCTGGCACATTGCTGTCTGATCCACTGGGTATTTACTTTAATGTTTAACTCTCTTCCC
TTCACTTCCAAGTTCATCTGGGATAGATCACATATGACAACCAGGAATGTGCCCTTCTTCTCCCTGAGCCCCTCTTCCTCTAGTTCCGCAGAACATTCCC
TCTGCTCCCAACAGGCCTACAGGGACTTGGACACCTGAGAGGTTTTGTCTTTGGGCTTAACATCACTGGTTCCTTCAACTGTTGTCCGGGGCATGAG


SNP Information

Context             (SEQ ID NO:24107):
TATATTGGCCACAGGTAATTGAAACCATGGATAAAGGGGGGGACTACTGTACTTAGGGAGGTCAGGAAGACAGTGAGCAAATCTGACTGCAAAAACAAGT
S
CCGTCCCTGGTCCTTAAGGTCTGATTTGGAAGTCCAGGCAGGCAGGTGTACGGTGTGGAGCTGCCTCAGCAGCGTTGACACCCTAGCTCCGTCACTGCTG
Celera SNP ID:            hCV15859382
SNP Position Genomic:     11222
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,4|C,32)   PGA-EUR(EAN-PANEL(G,8|C,30)   total(G,12|C,62) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24108):
ACTTTTCTTGAAGACTTGGGGTCATTCTTGACTGTCCCAGCCCTCATGGGGGCTACAGACTTGGGATAGAGACAGACTAACAGAGAAACCTGTACAGGAT
Y
GTGATTGTGAGTTCTATGAAGAAACAGAACAGGATCCAGTGGTCTTCAAAACAGAAAGGAATGAGGCTCTGTACAGCAGTTCCCCCTTAGGCATGGGGAA
Celera SNP ID:            hCV15859439
SNP Position Genomic:     10771
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,4|C,44)   PGA-EUR(EAN-PANEL(T,6|C,40)   total(C,84|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24109):
CAACCTGTGTAACCTCATCTTAATTTAACTACTTCTGCAAAGACCCTATTCCCAAATAAGGTCATATTCTGAAGTTCCATGTGGACATGAGTTGGGGTGG
R
GGGATACTCTTCAACTCATCACAACATCTTTATCTCACTGAATCTTCACAATACTTGGATCTTCATTTAATAGATGAGAAAAGAGACACTCAGAGAAATT
Celera SNP ID:            hCV15859383
SNP Position Genomic:     12919
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,7|A,39)   PGA-EUR(EAN-PANEL(G,4|A,42)   total(G,11|A,81) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24110):
CAATCTCAAGTGTTGGACCCTTGACCTCCTTGAAGCTTCCGTGATGGGAGGATTCACATTCCTTCCTTATCAACCGGGGCCCTCCCAAGGGAGTTGGTCA
M
CTTTGAGCCTCTCAAAGCCGTGTGGTGGGTGAGTTAATTTATTAAAAGAGAAAAATGATATCATTCCAGACCTGGAGATTCCAGTCTGGCTTGGAGACCA
Celera SNP ID:            hCV1772904
SNP Position Genomic:     20834
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,7)   total(A,3|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24111):
ATCTCTAACCCTAAAAAGACCTGAGAAAAACATCCAGTGTGCCCTCTCATTGTTGAGAGAAGGGGCCTGCAGGTACCTTAATGGGCAACTGGATGGTGAG
Y
ATGTGCTCAAAAAGACTAAAATACCTGTATCCATTTGCTCAGGGCTCCATACAAAGTATCAAAACCTAAGTGGCCTAAACAATGAACATTTGTCCTCTCA
Celera SNP ID:            hCV11664562
SNP Position Genomic:     12235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24112):
CATACTAGCTGACCATCCTTAATCCAGAAATCCAAAATCTAAAATGTTCCAATAACATGTCCTTTGAGCATCATGTCAGTGCTCAAAAAGTTGTGGATTT
R
GGGGCATTTGTGATTCCAGATTTTTGGATTAGGAATGCTCAACCTGTGTAACCTCATCTTAATTTAACTACTTCTGCAAAGACCCTATTCCCAAATAAGG
Celera SNP ID:            hCV26351361
SNP Position Genomic:     12779
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|G,44)   PGA-EUR(EAN-PANEL(A,6|G,40)   total(G,84|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24113):
CGAGAAAACTAAGGCCAAAGGTGGTGGGAGGGAAGATGAGTAAAGTGGCTTGCTGAGATCACACAAGTGGCATGGTAGGGAACCCATGGACTGGTCCCCA
R
AATTCTCCCCCAACAATTAAACATTCTAGCTCAGTGTTAGGAGGTAAAAGGAGCTAGACACAAAAGGCATGTGTTATAGGCTCTACAGAGACAGCATCCT
Celera SNP ID:            hCV16175250
SNP Position Genomic:     13332
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,45)   total(G,1|A,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24114):
AGTACAGGTTGGGGATCCCTTATCCAGAAATGCTTGGGACCAGAAGTTTTTGTGTTTTGCATTTTGAATGTTTTTGGATTTTGGAGTATTTGCAGAATAC
R
TACTAGCTGACCATCCTTAATCCAGAAATCCAAAATCTAAAATGTTCCAATAACATGTCCTTTGAGCATCATGTCAGTGCTCAAAAAGTTGTGGATTTGG
Celera SNP ID:            hCV26351362
SNP Position Genomic:     12680
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,1|A,45)   total(G,1|A,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24115):
CCCAAGACTTCTTTCGGAAGCGCTTGCCCACGATCACGTACACCAGTGGGTTGAGGCAGCTGTTGCTGTAGGCCATGAAGGAGGCGATCTGTGTGATTAC
R
TCGATGATGCGCTCGTCCTGGCAGCTGGAGAGGATGCCGAGGCGATGCAGCGTATCCAGGAAGGTGCTGATCTGGAAGGGCAGCCAGCAGATGATGAATA
Celera SNP ID:            hCV16172279
SNP Position Genomic:     19597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24116):
AACACTATGCTTTTTGCTATACAGTAATGGTGGGTAGCTTATATAGCATGGGTACATTGGACAAAGGGACAACTCATGTCCCAGGTGGGACAAAGCAGGA
Y
GGGGCGAGGTTTCATCACACTGCTCAGACTGGTGCATAATTTAAAACGTATTAATTGCTTTTTTCTGGAATTTTCCATTTAATATTTTCAGACCTATATT
Celera SNP ID:            hCV16175238
SNP Position Genomic:     11027
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24117):
GGCGATGCAGCGTATCCAGGAAGGTGCTGATCTGGAAGGGCAGCCAGCAGATGATGAATAGCAGCAGCACAACCAGGACTAGCACCGTGGCCCTCCTCTC
Y
GTCTGGATCTCCTTGAACTTCTGCATCTCGTTGTTCCGCAGCACCTGCATGATCTGCATCGTGCAGAAGGTGATGACACTCAGGGGCAGCAGGAAGCCCA
Celera SNP ID:            hCV11664568
SNP Position Genomic:     19738
SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(C,29|T,9)   total(C,55|T,9)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,18)   caucasian(C,27|T,9)   total(C,45|T,9)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,27|T,9)   total(C,57|T,9)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(T,14|C,133)      total(C,133|T,14) ;JBIC-allele(T,278|C,1029)   total(C,1029|T,278)   (T,-|C,-)   HYP3(T,15|C,133)   total(C,133|T,15) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24118):
ACGTAGCACCCTTTGCTTTTCTAAGTACTTTATACCTGTTACTGCCTTTAACCCTCACAACGACTTCATGTTACAGAAGAGGGAACTGAGGCAGGGACAG
R
TGGTTGTGCAATAGTTATTGGTTGAGCTGGAACCTTGGTCTCCCCCTTCTGCTGTCCATATCACCCACAGCACCCTGCTCGACCGTCTCGTCGAACAGCT
Celera SNP ID:            hCV15969680
SNP Position Genomic:     18528
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   PGA-EUR(EAN-PANEL(A,4|G,42)   total(G,42|A,4)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:24119):
ACAGCATCCTACAACATGTGCCTGGCTTCTTTCACAACAGGTAAATCTAGAGACAGAAAGATTAGTGGTTGCCCAAAGCCATGAGGAAGGGAGAATGGGA
Y
GTGACTGTTAATGAATATGCGATTTCTTGGGGGATGATGAAAGTGTTCTGGAATTAGACAGTAGTGATGGTTGCATGAATTGGTTATTAAGTAAAAGCTG
Celera SNP ID:            hCV16175257
SNP Position Genomic:     13523
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,46)   total(C,46|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24120):
AGCCATGTGTACAGCAAAGAATGGGGGTATGGAATAAGATGTTTTCCTTAGAAACCAGTAGTTCCTTTATGATGTTTTAAAGAGATGGAATTGGATTACC
R
TATTATAAAGTTGATGCTGTGAGCATTTATCTTTCATATAAATCATATTGGTCCCCATGATGGGGATGCAAAACTCCGGATCCAGGGAAACTGAAATTGC
Celera SNP ID:            hCV15969667
SNP Position Genomic:     10512
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,4|G,42)   total(G,42|A,4)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24121):
GGAAAGTTACTTCCCTCTCTGGGCCCCAGTTTCCATACCATGAACCAGTGATCATGCAAACTCCCAGAGTGGTTGTGAGCGTGAAGTATTTTGATGGGGT
Y
CCTTTGACCTGGGACTATTTTGCCTCAGCCAGCAAAACAAAATAAAAAACTAAAACCAGAATAAAACTCTCATGAACAAACGATTAAACTTTCAGCCATT
Celera SNP ID:            hCV16175259
SNP Position Genomic:     13991
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,42)   total(C,42|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24122):
AACAAACGATTAAACTTTCAGCCATTGCTGTTGCCAAATCATGACCTCTGTTGCTCATCCCTGCTCCCCACCCTCATCCTTGGTGAAGGATCAGAGCTAC
R
TAAGGGTCAGGAATTGGGTAACAAGGAGATAATGCAGCACATGGCTGGGATCTACACAATGGAGACACTCCCCCTCTGAGTCATGAAGGCTGTGCTCAAG
Celera SNP ID:            hCV15969668
SNP Position Genomic:     14166
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,2|G,34)   total(G,34|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24123):
CCTGAACTCAAAATAAAAGTTAGAAAAAAATAAAAGAGGTGCTGACCCACCAGATGGAACAGATGAAGGAGAGGGTACGTTGAGCGATGAGCCCCAGGTT
Y
CTGGCATGGATGGATGGATGCATGGATGGAGGAGGGGCATTTATGGAGACAGACTAGGCAAGTTTTGTTTAATAAATGAGTGAAGGAATGAATACATGAA
Celera SNP ID:            hCV15859405
SNP Position Genomic:     16015
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,4|C,44)   PGA-EUR(EAN-PANEL(T,1|C,41)   total(C,85|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24124):
TGCCCAGTCCTGCAGTTTGTGAATCTGGCGTTCCACGGAGATGGAGGTCCGCAGTGTGCCCATGGAGTTCTCCATCTGAATGGGTTCTGACCTGCAGCCC
Y
CTTTCTGGCACACTCCCTGGTACACCTCCCAAGACTTCTTTCGGAAGCGCTTGCCCACGATCACGTACACCAGTGGGTTGAGGCAGCTGTTGCTGTAGGC
Celera SNP ID:            hCV16175292
SNP Position Genomic:     19469
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,40)   total(C,71|T,3)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,40)   total(C,71|T,3)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   PGA-AFRICAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24125):
TGTTACAGCTGTAGAACCTTATCGCAAGAGGGGTGGGACACTATGGAAGGGTTTCCCTTGGAGGATGCCCCCATCACACTCACTGCCAACACCACCACCA
C
ATCATCATCATCATCATCATCATCATCATCAAAGCTAGTACATGTTCAGTGCCAACTATGTACCAGGCACTGTGCTAGATGCTTTCATACATTAATCCTA
Celera SNP ID:            hCV15969669
SNP Position Genomic:     14944
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,6)   total(C,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24126):
ATGAAGGAGAGGGTACGTTGAGCGATGAGCCCCAGGTTCCTGGCATGGATGGATGGATGCATGGATGGAGGAGGGGCATTTATGGAGACAGACTAGGCAA
R
TTTTGTTTAATAAATGAGTGAAGGAATGAATACATGAATAATGAAGGGATCCCAAAGTGGCATGGATAATGAATTCCCCATCACTGGGAGTATGAAACAA
Celera SNP ID:            hCV15859406
SNP Position Genomic:     16077
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,7|G,41)   PGA-EUR(EAN-PANEL(A,9|G,37)   total(G,78|A,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24127):
TTGCACAAGACGATGGTAGTGTCATTATGAGGAGGGCCCACACACACCGTGCTCTGTCTTGGCCAGAACTGAAGAGAGGAAACAGACACTCATTGCTCGC
Y
GGCTGAGTGGACGGCAAAGGGTGACTCAGCATGAAGGGAGGCATCCAGAGAGTCTCAGAACCCCATCTTTGACCATCTTTCAGGGTTGTCTATAAGTAGC
Celera SNP ID:            hCV1772897
SNP Position Genomic:     11698
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;PGA-AFRICAN-PANEL(T,4|C,44)   PGA-EUR(EAN-PANEL(T,8|C,36)   total(C,80|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:24128):
TACAGTAATGGTGGGTAGCTTATATAGCATGGGTACATTGGACAAAGGGACAACTCATGTCCCAGGTGGGACAAAGCAGGACGGGGCGAGGTTTCATCAC
R
CTGCTCAGACTGGTGCATAATTTAAAACGTATTAATTGCTTTTTTCTGGAATTTTCCATTTAATATTTTCAGACCTATATTGGCCACAGGTAATTGAAAC
Celera SNP ID:            hCV324416
SNP Position Genomic:     11046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;PGA-AFRICAN-PANEL(G,5|A,39)   PGA-EUR(EAN-PANEL(G,9|A,35)   total(G,14|A,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:24129):
CTGTTAATATTTTTTTTTTTTACATCTTCTTTCTTAAATTTCTACTGGTTGATTATATTTTAGAATGTACATCTTCATACAGATTAATAAGTATACATAC
Y
GGGTATGCATAATCAATTCTTTTTTTCCTATAGGAATATACAATCACAAAAGCTTGGAGACCACTGATCTACATGCCAGAAGCCTGTTAACAGATTGAGC
Celera SNP ID:            hCV15859407
SNP Position Genomic:     16490
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,1|T,41)   total(C,1|T,41) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:24130):
CTAGTGAGGGGGCACTCCAGGCAGGCTGGACTCCCTGTAGTATGCGTGGGCTTGGGCCATACTGGATGTGTATTCAAGGGAAGGTGAGCTCTGGAGTTTG
Y
GGCCCCTGGGGACATGCAGTCCCAGTGCCCACTGTGACATCAAGGGCCACTTTTCAGTTCTCTCATCCATCAGTCCTGGAGTTTTTTTCTCCTTTACTTT
Celera SNP ID:            hCV8421315
SNP Position Genomic:     6916
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24131):
CAGCAGTTCCCCCTTAGGCATGGGGAAAACGTTCCAAGACCCCCAGTGGATGCCTGAAACTGCAGATAGTACCAAACCTTATAACACTATGCTTTTTGCT
R
TACAGTAATGGTGGGTAGCTTATATAGCATGGGTACATTGGACAAAGGGACAACTCATGTCCCAGGTGGGACAAAGCAGGACGGGGCGAGGTTTCATCAC
Celera SNP ID:            hCV15859440
SNP Position Genomic:     10945
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,44)   PGA-EUR(EAN-PANEL(G,8|A,36)   total(G,10|A,80) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24132):
TTTTCTGGAATTTTCCATTTAATATTTTCAGACCTATATTGGCCACAGGTAATTGAAACCATGGATAAAGGGGGGGACTACTGTACTTAGGGAGGTCAGG
R
AGACAGTGAGCAAATCTGACTGCAAAAACAAGTCCCGTCCCTGGTCCTTAAGGTCTGATTTGGAAGTCCAGGCAGGCAGGTGTACGGTGTGGAGCTGCCT
Celera SNP ID:            hCV15859441
SNP Position Genomic:     11188
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,5|A,37)   PGA-EUR(EAN-PANEL(G,3|A,31)   total(G,8|A,68) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24133):
TATGGAAAAGCTCTTTCATCATTTTTCAATCAGCCTAGATGCCTAATTAAGCCATGTGTACAGCAAAGAATGGGGGTATGGAATAAGATGTTTTCCTTAG
R
AACCAGTAGTTCCTTTATGATGTTTTAAAGAGATGGAATTGGATTACCGTATTATAAAGTTGATGCTGTGAGCATTTATCTTTCATATAAATCATATTGG
Celera SNP ID:            hCV15859428
SNP Position Genomic:     10463
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,6|A,42)   PGA-EUR(EAN-PANEL(G,9|A,37)   total(G,15|A,79) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24134):
TGATCTCCAGAACTGTAAGATAATAACTTGCATCGTTTTAAGCCACTCACTTTGTGATAATTAATTATAGCAGCCTTAGGAAACCAGCACGGGGGTGAGG
Y
TGCACCCTGCCCAGGAAGCCAGAGACGACCAGCTACGCAGGGACTTTAGCTCGAACCTGATTAGGTCAGTGGACACCGCCCCCATCCCCAGGACGGGGAG
Celera SNP ID:            hCV16151627
SNP Position Genomic:     3562
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24135):
GAAACTGAAATTGCTTCTGTGAGCTGCAGAACTCTGAGTATAGGGGAACTGAAATTGCTGAAGATAACCATAACTTTTCTTGAAGACTTGGGGTCATTCT
Y
GACTGTCCCAGCCCTCATGGGGGCTACAGACTTGGGATAGAGACAGACTAACAGAGAAACCTGTACAGGATCGTGATTGTGAGTTCTATGAAGAAACAGA
Celera SNP ID:            hCV15859429
SNP Position Genomic:     10699
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,1|T,45)   total(C,1|T,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24136):
AGTGCAAGAACACAAAGAAGACACCACCCGGCCCCTGCCCTGCCTGACTCCTGACAACTGTGGCCCAGAGGGTGGAGGGTGCCCTGGAGGGAGCAGGGGG
S
TTGTGGGACACAGACTTGGAGAGGGGGCTGGTGGGTAAGGGGTTGGAGGTGACTCTAGAGCTGGGTCTTGAAGGATAAGAAGCATTTTGACGGGACAAGA
Celera SNP ID:            hCV15859358
SNP Position Genomic:     22043
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,19)      total(G,19|C,2) ;(G,-|C,-)   PGA-AFRICAN-PANEL(C,7|G,41)   PGA-EUR(EAN-PANEL(C,9|G,37)   total(G,78|C,16)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24137):
ACCCGGCCCCTGCCCTGCCTGACTCCTGACAACTGTGGCCCAGAGGGTGGAGGGTGCCCTGGAGGGAGCAGGGGGGTTGTGGGACACAGACTTGGAGAGG
R
GGCTGGTGGGTAAGGGGTTGGAGGTGACTCTAGAGCTGGGTCTTGAAGGATAAGAAGCATTTTGACGGGACAAGAAGGAGGACAAGTGGACCAGGCAGGG
Celera SNP ID:            hCV15859359
SNP Position Genomic:     22068
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24138):
ACTAAAACCAGAATAAAACTCTCATGAACAAACGATTAAACTTTCAGCCATTGCTGTTGCCAAATCATGACCTCTGTTGCTCATCCCTGCTCCCCACCCT
M
ATCCTTGGTGAAGGATCAGAGCTACGTAAGGGTCAGGAATTGGGTAACAAGGAGATAATGCAGCACATGGCTGGGATCTACACAATGGAGACACTCCCCC
Celera SNP ID:            hCV15859393
SNP Position Genomic:     14140
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,10|C,32)   PGA-EUR(EAN-PANEL(A,11|C,25)   total(A,21|C,57) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24139):
CATCTCTGCATCCTATTCTCACCCCTCTGTGGCCAGGGAAGACTCAGGAGCTAGGCCCCTTGCCTGGTCTCCTGAGCCCACCTGGACTTCTTCTCATTGC
R
CCAGCTTGCTGGAGCCAGAGAGGGTCAGGAGTTGAGGGGCTGCTCCTGTTGCCTCGCTGGGGAGGCTCTCCCAGCATTTTTTTTTTCTTTTTTTGCCTGC
Celera SNP ID:            hCV15859394
SNP Position Genomic:     14418
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|G,41)   PGA-EUR(EAN-PANEL(A,4|G,34)   total(G,75|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24140):
CTCGCTGGGGAGGCTCTCCCAGCATTTTTTTTTTCTTTTTTTGCCTGCTAAGAGCCCTGCTCAGGTTTCCAGGCATGTGGTTTCCCCTGGATTGCAGACT
M
CCTTGAGTAATGCAGGCATCTGTGAACAAAATTCCCTGGAGGAGTGAGCTCCCTTGGGCACTTGTGGACAACTTCCTCCAAGTTCAGGGCACTTAGTGAG
Celera SNP ID:            hCV15859395
SNP Position Genomic:     14571
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,7|C,39)   PGA-EUR(EAN-PANEL(A,4|C,42)   total(A,11|C,81) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24141):
TGCTGTGCTTGATGAAGTCCCCTGGGTACTTGGGTGAAGAGGTGGTCACAGAGGATAAAGGCCTGCCTCTGGAAATAGAGGACAGGCCAACCTTCCCTGG
S
GTGTCCTAAATACTAGTGAGGGGGCACTCCAGGCAGGCTGGACTCCCTGTAGTATGCGTGGGCTTGGGCCATACTGGATGTGTATTCAAGGGAAGGTGAG
Celera SNP ID:            hCV150152
SNP Position Genomic:     6803
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24142):
CTTAGGCATGGGGAAAACGTTCCAAGACCCCCAGTGGATGCCTGAAACTGCAGATAGTACCAAACCTTATAACACTATGCTTTTTGCTATACAGTAATGG
K
GGGTAGCTTATATAGCATGGGTACATTGGACAAAGGGACAACTCATGTCCCAGGTGGGACAAAGCAGGACGGGGCGAGGTTTCATCACACTGCTCAGACT
Celera SNP ID:            hCV15842494
SNP Position Genomic:     10957
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,11)      total(G,1|T,11) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24143):
GTTACAGCTGTAGAACCTTATCGCAAGAGGGGTGGGACACTATGGAAGGGTTTCCCTTGGAGGATGCCCCCATCACACTCACTGCCAACACCACCACCAC
A
TCATCATCATCATCATCATCATCATCATCAAAGCTAGTACATGTTCAGTGCCAACTATGTACCAGGCACTGTGCTAGATGCTTTCATACATTAATCCTAT
Celera SNP ID:            hCV16223008
SNP Position Genomic:     14945
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24144):
ACCGCCACCGGCTCCCAATACTGATTCTGCTCCACGGAGCTATTTCTAGACCTCAGTGTCTTTTCCTTATAGTAAACATATCCCAGTTACGTCTGCGTAA
W
GATGCCTCACATGTACGTAGCACCCTTTGCTTTTCTAAGTACTTTATACCTGTTACTGCCTTTAACCCTCACAACGACTTCATGTTACAGAAGAGGGAAC
Celera SNP ID:            hCV11469530
SNP Position Genomic:     18413
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,4)      total(A,4|T,4) ;PGA-AFRICAN-PANEL(A,10|T,38)   PGA-EUR(EAN-PANEL(A,12|T,34)   total(A,22|T,72)
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:24145):
CACAAAGAAGGGAACAACAGACACTGAGGTCTAGTGGAGGGTGGGGGTTGGGAGGAGGGAGAGGAGCAGGAAAAATAACTAATGGGTAGTAGGCTTAATG
Y
TTGGGTGATGAAATAATCTGTACAACAAACCCCCATGACCCAAGTTTATCTATGTAACAAACCTGCACGTGTACCCCTGAACTCAAAATAAAAGTTAGAA
Celera SNP ID:            hCV26351354
SNP Position Genomic:     15839
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,6|C,40)   total(C,40|T,6)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24146):
CCTCGAGAATCCCAGGAGTGCACATGCTCTCAGAAGGGGCTTGTACCAGGAAAATCAGCTGCATTTCTCTGTCTCCTAAAGCCGAAGCCAGGCCGTCTCA
Y
GTCTCTTCTCGAACTCCTCTGCTGCTGTCTCAGGCCCAGGAAAACAGAGACCTTACGGCGGCAAGGTTGCACATGCGCAGACCCAGCTGTCCCCCAGAGC
Celera SNP ID:            hCV29078142
SNP Position Genomic:     8213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24147):
TCTTTCACCTGTTTTCTTCCTCCAGATACTTACTGAGGCAGAGGAGAGTGGGTGGTGGGAAAAAAGAGTGGGTTGGGGGTAAGGAGGGAATCTTTTTTTT
S
ACGCTTTTGCTTTAAAATTCAGAGTTGGATTGGTCAGGATTTATGGGCTCTTTGCCATGTAAATTTTTCTCATTCTCCAGGTTCTAGCCCTCCAGGTTCA
Celera SNP ID:            hCV7565923
SNP Position Genomic:     17178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:24148):
GCCATTATTCTTAGCGAACTAACCCAAGAACAGAAAACCAAATACCACATGTTCTCATTTGTAAGTGGGAGCTAAATGGTGAGAACACATGGACACAAAG
W
AGGGAACAACAGACACTGAGGTCTAGTGGAGGGTGGGGGTTGGGAGGAGGGAGAGGAGCAGGAAAAATAACTAATGGGTAGTAGGCTTAATGCTTGGGTG
Celera SNP ID:            hCV26351355
SNP Position Genomic:     15746
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|A,46)   total(A,46|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24149):
GCCCACTTAGCAGATAAAGCTCCACTGGGCCAGGGGTTCCTCCCCGCCCTTGTGTGGCCCTGCTTTGGGAGATGAAAGCCTTCTCGCCCAGGCAGAGCAG
R
GGATCACGAGACCTTCCTCTTTAGGGAGCCTCGAGAATCCCAGGAGTGCACATGCTCTCAGAAGGGGCTTGTACCAGGAAAATCAGCTGCATTTCTCTGT
Celera SNP ID:            hCV29078143
SNP Position Genomic:     8084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24150):
GGTGTCTAAGTGTAAGGGGGGAGGTAAGCAGAAAATCCCAAATATACATTTAGCAAAGCACAAACACTTGGAGATCTACAGGATGACAGGGTGGACATGA
R
CACGTCCTGGGCATTCAGGCAGCTCCAGGTGCTGCCATGGCCTGGCAGCCAGCCCAGAAGTGAAGGGTCCTGGGTGCTGGCTCTGGGGTGGGAAGGTGCC
Celera SNP ID:            hCV29078144
SNP Position Genomic:     7886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24151):
CTCCTTTCCAGAGTCCTCTGAAGGTAAGACTTCCCCTGGGTAGTCCCCTTGGTCCAACCCTCAACCCCATTTCTGTAGCTACAGAAAACCCATTTCCTGC
R
TACCCCTGGCTTGGAGAGTCTGTCATCTTTCATGAGCTAACTCACTAGAGACCAAAGTATAGCACCAGATGCTGCTTATTAATTTCTCAGCAAGACAGTA
Celera SNP ID:            hCV7565908
SNP Position Genomic:     22889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24152):
GTGCCCATCAATTATAGACTGGATAAAGAAAATGCGGTACATATACAACCATGGAACACTATGCAGCCATAAAAAAGAATGAGATCATGTCCTCTGCGGG
R
ACATGGATGGAGCTGGAGGCCATTATTCTTAGCGAACTAACCCAAGAACAGAAAACCAAATACCACATGTTCTCATTTGTAAGTGGGAGCTAAATGGTGA
Celera SNP ID:            hCV26351356
SNP Position Genomic:     15627
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,44)   total(G,44|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24153):
TTCACAATGGCAAAGGCATGGAGTCAATGTAAGTGCCCATCAATTATAGACTGGATAAAGAAAATGCGGTACATATACAACCATGGAACACTATGCAGCC
R
TAAAAAAGAATGAGATCATGTCCTCTGCGGGGACATGGATGGAGCTGGAGGCCATTATTCTTAGCGAACTAACCCAAGAACAGAAAACCAAATACCACAT
Celera SNP ID:            hCV26351357
SNP Position Genomic:     15595
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,44)   total(G,2|A,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24154):
TTACTGGGTATATACCCAAAGGAATATAAATCATTCTATCATAAATACACATGCACATGAGTGCTCACTGCAGCACTATTCACAATGGCAAAGGCATGGA
R
TCAATGTAAGTGCCCATCAATTATAGACTGGATAAAGAAAATGCGGTACATATACAACCATGGAACACTATGCAGCCATAAAAAAGAATGAGATCATGTC
Celera SNP ID:            hCV26351358
SNP Position Genomic:     15517
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,44)   total(G,44|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24155):
GGGTGGGACACTATGGAAGGGTTTCCCTTGGAGGATGCCCCCATCACACTCACTGCCAACACCACCACCACATCATCATCATCATCATCATCATCATCAT
H
AAAGCTAGTACATGTTCAGTGCCAACTATGTACCAGGCACTGTGCTAGATGCTTTCATACATTAATCCTATTAACAATTTTATGAGGTAGATACCATTAT
Celera SNP ID:            hCV26351359
SNP Position Genomic:     14974
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3|A,3|-,9)   total(A,3|C,3|-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24156):
CAGCATCAACATCACATAAGGCAGTCCTTCGAGACCACTGATCTACATGCCAGAAACCTGTTAGAGTCATGACTTATTATCTCTCCACTTGACAGACGAG
M
AAACTAAGGCCAAAGGTGGTGGGAGGGAAGATGAGTAAAGTGGCTTGCTGAGATCACACAAGTGGCATGGTAGGGAACCCATGGACTGGTCCCCAAAATT
Celera SNP ID:            hCV16175249
SNP Position Genomic:     13236
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|A,45)   total(A,45|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24157):
GAGGGTAGAGAATGAGCCTGGAGCAGAGAGAGGGAGACATAGAGACAAGACAGGGACCAGATCATGAAGGGTCTTGCAAGCCATGTTACAGCTGTAGAAC
Y
TTATCGCAAGAGGGGTGGGACACTATGGAAGGGTTTCCCTTGGAGGATGCCCCCATCACACTCACTGCCAACACCACCACCACATCATCATCATCATCAT
Celera SNP ID:            hCV16175266
SNP Position Genomic:     14861
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24158):
GGCTCCTGAACACAGTTCTCTATGTTTATAGCCTCCCCATGAATGTATTTGCATTCTTAAAAGACCATGTTGGCTGCAGAGTGAAGAATAAGAATTGGGA
S
ATGGTAGTAGTTAGTATTGGAGGCACCCATGACAGACGATGGTTGGACATAGAAGGAAACATAGATTTAGGAAACACTTAGTGAGTAGAATCTAAAAGAG
Celera SNP ID:            hCV16175267
SNP Position Genomic:     15304
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|G,46)   total(G,46|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24159):
CTGACTCCTGACAACTGTGGCCCAGAGGGTGGAGGGTGCCCTGGAGGGAGCAGGGGGGTTGTGGGACACAGACTTGGAGAGGGGGCTGGTGGGTAAGGGG
Y
TGGAGGTGACTCTAGAGCTGGGTCTTGAAGGATAAGAAGCATTTTGACGGGACAAGAAGGAGGACAAGTGGACCAGGCAGGGGGAACAGCCTGAGCAGAG
Celera SNP ID:            hCV15859360
SNP Position Genomic:     22086
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,1|T,45)   total(C,1|T,45) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24160):
TGGAAGGGAGCCAATGAGCACCTACTGTGTGCCAGACACTGGTGCTTCACACCGCCACCGGCTCCCAATACTGATTCTGCTCCACGGAGCTATTTCTAGA
M
CTCAGTGTCTTTTCCTTATAGTAAACATATCCCAGTTACGTCTGCGTAATGATGCCTCACATGTACGTAGCACCCTTTGCTTTTCTAAGTACTTTATACC
Celera SNP ID:            hCV15859417
SNP Position Genomic:     18363
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|C,44)   PGA-EUR(EAN-PANEL(A,2|C,44)   total(A,6|C,88) 
SNP Type:                 UTR 3;TFBS


Gene Number:                 79
Celera Gene:                 hCG18685 - 207000006902319
Gene Symbol:                 ABCB8
Protein Name:                ATP-binding cassette, sub-family B (MDR/TAP), member 8;EST328128;M-ABC1;MABC1
Celera Genomic Axis:         GA_x5YUV32VSYK(1717317..1748473)
Chromosome:                  Chr7
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12239):
GGGATTACAGGTGTGAACCACTATGCCCGGCCTAATTTTAATTTTTTATAAGGTAAAATGTGGATAGATACGACTCCCATAAACAAAAGCTTTTCAGGAT
TCTCAACCAATTTTAAGTGTATTAAGATACACTTAATGCACTGTAATTAAGATACACTTAAAAGGCCGGGCACAGTGGCTCACACCTGTAATCCCAGCAC
TTTGGGAGGCCAAAGTGGGTGGATCACCTGAGGCCAGGAGTTCCAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACACGTGGTGG
TGCACGCCTATAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGACCTCACCATTGCACT
CCAGCCTGAGCAACAAGAGTGAAACTCTGTCTTAAAAAAAAAAAAGATATACTTAATACACTTTAAGTACAACTTAATACACTTAAGTACAACTTAAAGT
ATATTAAGTGTATTTTTGGTCCTAAGACCAAAAGCTTTGAGAACTGCTGATCTAGATGACGGGACAAAGTGGGGCTCCCGTCTACTCCTCTACCCACTGC
CCATGCTTCACCCCCAGGGCCCCACCAGGTTGTCACTAACCTCTCAGCACACTGGGCTGAGGGTAGGATGGCATCTGACAGGGTCACTTTGCTGTGGAAC
GGCCCAGGTCTGGTATGGTTACTTGGTTGGTTGGCAAAGAGAACATTGTAATCCACGCATCGAAGGAGGAAGGTTGTGAAGGTGACAATGAAAATAAATT
GTCTGCCGGGAGGAAGGGGGGGTGCCGGGATGCTGCAGTGATCAGGGACAGCCAGGTGGGCTCCTGCCCCAGCCCCCAGAGCAGCCCATGGTTATCCTCC
CTGACCCTGCCCCTGCTGAGCCCTTGGGCTGCTCGGGAAAGCATGGGATGGAAGCAGCTGGCACAATTAAGGAAGCAAAATGACAGAAGGAAGCCATGGG
CCCAGGGGACCGAGTTCCGGGCCCGGGCTAAGCGTCTCACCCCAGCTGGAAGACATCCTCCAGCAAGATGCAGGCAAAGCCATTCCGCTGGTGGTAGCTG
TAGATGTGGCTGCGTGTCAAGGAACAAGCCTGAGGCACGGGGGGCCTCTCCTGAGGACACCTCCCCTCAGCCCCAACAAGTCTCCCACCCATGACGCCCT
CACGGAGTCTCCCTGCCAAGAACAGTGCCAGCTCCAAGAGGACCTTCCCATGCCACCTCTGCAGGCCTAGCGCAAAGGATATCTTGGTGAAGAAACTGTC
CAGGTTCTGGATGTGATGCCAGGAGCCTGGGCACAGAGGGGAGAGTGTCAGCCCCTGGCATGTGATCAATTCTCCACGTTCTCAACCCGCTGCCAGAGGC
CCAGCCTGGGGTAAGTACTGGAGCTCCCAGGCACCACTAACCCTCTCCCACCCACACCCACACACATACCTCGGAGCCCTTCAGGGACATGAAGCAGGGG
TTGCTGCTCCTCCCCGTGGATGGGTGAGTCTTGGGACCCCTCAGGGTCACAGTCCTCCAGCCGCTCATAATCCTGTTCAGGGATCAAAGGGCCTACCCGC
AGCCCAGGAGAGTCCTGGGGGCACTGCTGTGAGGGAGTGGGGGTTGCCGGGGCCAGGGGTGGGGTGGAGTGGGATCCCCAGGAGGGAGATGCAGAGGCAG
GTGTCATTGCAGGTTGAGCCTGTGTTGGGGGGGTGGCTGGGATAGGGAGAGCACTGTGGCAAGACTGAGAAGCCCCTGTCCCCTGTAGCACTGAGCAAGG
GGGCCCTGCGGTGGGAGGGGAAAATGAGGAGGGGGAGCTTCTTGTATGAGGGGCAGGGGACAGAGAGAAGATGGAGATCCTCCCTCCCCCAGGTCCCCGG
CATGAAGGAGGAGGAGGAGGTGGCAGTGGCATGGGGAGGAGGGGCACCGATCCGGGCCCCAGATCTCCCCACCGCCCCAGCCGCCTTCTTCTCCCCYCCC
AGCCCATTCGGCTCACCATCAGGCCACGGCTTCTCCAGAAAGGTTGGAAGGATGGGAGCTGTTGTTGCTTCCACAAAGGTCTGTGACACTGAGCTGGGAC
TTCAACAGGAACAATGACAACAACATTACTAGGTGACTCAGCCTAGGCAGGCCTCAGGCGTCCCAGCTCTCAGTCACCTGTCTGATCACTCACACCCCTT
CCAGGGCAACCTGAGGCCAAATCCCTCAGGGCCTGAGAGGGGCATCAGTTTAAGAGGAGGGGCCAAAGAGCACATTGAGATGAGAAGATTCCTATTATCT
CCATCTTCAGACCTTGAATGAATGAAAGATAAAAAGAACAGCAGCCAAAATGACAAAAGCAAAAAGCAAAATCGTGTTAGAGCCAGGTGTGGTGATGTGT
GCTTGTGTTCCTAGCTACTCAAGAGACTGAGGTGGGAGGATGGCTTGGTGCAGGTTACACTGGAACAGTATAGGTTACAGTGAGCTAGATCCTGCCCCCT
GCCACCCCCCCCAAAAACATCCTATTAAAGGATTGTAGCAGGGCGCAGTACCTCACACTTGTAATCAATCTCAGCACTTTGGGAAGCCGAGGAAAGAGGA
TTGCTTGAGGCCAGGAGTTCAAGACCAGCCTGGGGAACAGAATGAGAAGACTCCATCTCTACAACAAATCTTAGGGCCAAGATGTTAACTATTTCATTTC
TTAAGAGTGTACCTCCCCCACTTCCCTCCACACACACACTACAGTGATCAACAGAGAAATGTTTTGTGACCAAAACAGAAAAGAAGAAGTAAAGGGGCCA
GGCATGTTGGCTTACACCCGTAATCCCAGGACTTTGGGAGGCCCGGGCGAGAGGATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGAGCAACTTAGGGA
AACACCATCTCTACAAAATCTAAAAAACAAACAAAATAATTTTTTTTCTTTTTGAGGCAGTCTCACTCTGTCACCCAGACTGGAGTATAGTGGCACAATC
TCGGCTCACTGCAACCTCCGCCTCCCAAGTTCAAGTGATTCTTCTGCTTCAGCCTCCTGAGTAGCTGAGACTACAGGTGTGTGCCACCACACCCAGCTAA
TTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCGCCTTGGCCTCCCAAAGTGCT
GGCATTACAGGCGTGAGCCACTGCGCCTGGTCAAAAATAAATTTTTTAAAAAGAATAAGAAAAGGTTGCATGTTTTATTGGTCTGAGGTGCTAAGGAAGA
GAAGAGGGGAGGCTGACTTTGCAGCCAAGTTGGGGAAAACTAAGAAGAGGAGGTGAAGAAAGGAAAGGCAGCTATCTTGGATTTGAGAGTTGGTTTGGAG
AACTTAGAGTAGAAAATTGGGGTTCTCTGAAAGTTCCATTCCGTTTGCATCCTTATCATTTTCAACTGTGACATTCTCTCAAGTCCGGATCCCACTTCTG
GGACCCCCTGAAAAGCATCAGGGCTGAATCAGAAGGGAGGACAGCTGTGAGTCTGGGACTTGGAAGGATAATTTGGATACCCAGGGAGGAGCTGAACTGA
GTTCCTTGTTGTCACCTCAACAAGGAGGAGGAGACCCAGGCAGCTGGTCTGGTGGCTTGCCCAACGCCATTCTTGAGGCCCTGAATCACCAGGTTTCCTT
CTAAAGCCCATTACTGAGATACTGACTCAGCCACCAGGTGTCAAGGTCTCTAGGGCTTAGGCCTAAGGGCTGATGTTGGGGCCAGTACCCCTGAAATGGC
GATATGGACACTGTGCTTCCCAGATTGTTCACTGGAGGCAATCATGGAATCACCCACAAAACTTGAATCCAGATGTGCCTGATTTTCTCCTTCTGTGTGG
GGTATTGTAGTAGTAGCTCAGGTCTTGCATGCCTTTATCTCAGAGTAGGAGGCAGAGCTATGAAAACAAGACCCTGTCCTTCTAGAGGTAGCAAAATGGA
ATCCCACATTGCAGAGGGGCCAGGAAATTCCCATAATCTTTCTGAGACATCTGTCAAGATGGGTTATGTGGGGTGTTGTCTAGTCTCTCCCCCACCTCAC
TCGCCCAATGTCACTCAGTATCGTGGCTATTCCACCATAGTCACAATAGGACCCCCCCATACACCAAGAGCTCCCCAGCTCAACCCCAAACTAATCCTGG
GACATTGTCCTACCTAGTTTCACCCTGAATTCATTCTCATTGACAGCCTCCCTACCACCACTCCCAATTCAAGTCGATTTATTTTAAAGGGCACTTTTCC
TTGCCAAGCATTTGGAAGGGAAGAGGACAGATGAATAAAACAGAGCCACTACCCAAGAAGCTGCAGCCCAGTGGGGAGACAAATACGCAAACAAGTAATT
ACAGGGAAGAAACGAGTGGTGCAAACTCTTTGGCAGGAGCCTGAGGCAAGTCATTCTGACCCGGGTGAGGAAGGTATCTGCGAGGCAGACAGATCTGAGG
CCGCGCCTTGATAAATTACAGGCCCTCCATACCAATAGTTCTCAATGGCTGAGGCGTAGGGCAAGAGTGTCAGAATCACCGGGGGAGTTCTTCCCCAAGT
ACACSTGACTGTGGGGAAAAGAAAGAGAGATCAGATTGTTCCTGTGTCTGTGTAGAAAGAAGTAGACATAGGAGACTCCATTTTGTTCTGTACTAAGAAA
AATTCTTCTGCCTTGAGATGCTGTTGATCTGTAACCCTACCCCCAACCCTGTGCTCCCTGAAACATGTGCTGTGTCAACTCAGGGTTAAATGGATTAAGG
GCTGTGCACGGTGTGCTTTGTTAAACAAATTCTTGAAGGCAGCATGCTTCTTAAGAGTCATCACCACTCCCTAATCTCAAACCACTCCCTAATCTCAAAC
CACTCCCTAATCTCAAGTACCCAGACACAAAACACTGCGGAAGGCTGCAGGGACCTCTGCCTAGGAAAGCTAGGTATTGTCCAAGGTTTCCAGCCCGACA
CCCATAAAGGGTCTGTACTGAGGAGGATTAGTAAAAGAGGAAGGAATGCCTCTTTGCAGTTGAGATAAAAGAAAGGCTTCTGTCTCCTGCTCGTCCCTGG
GCAATGGAATGTCTCGGTGTAAAGCCTATCTCTACTGAGATAGGGGAAAACCGCCTTAGGGCTGGAGGTGGGACAGGCTGGCAGCAATACTGCTTCTTAA
GGCATTGTGATGTTTATGTGTATGCACATCAAAAGCACAGCATTTTTTTTTTTACCTTGTTTACGATGCAGAGACGTTTGTTCACGTGTTTACCTTCTGA
CCTTCTCTCCACTATTATCCTATTATCCTGCCATACCCGATAATGATCAATAAATACTAAGGGAACTCAGAGGCTGGTGCCGGCGTGGATCTTCCGTAAA
CTGAACTCCGGTCTCCTGGGCCCATTTTTCTTTCTCTATACTTTGTCTCTCTGTCTCTTTCTTTTCCAAGTCTCTCCTTCCACCTAATGAGAAACGCCCA
CAGGTGTGGAGGGGCAACCCACCCCTTCACGTGACAGATGTCCCAGCAGTTCTGACGCACCTAGGAGAGCGGGGTGGGTGGCAGGGCATATGTACGTGTT
TTGAAAAAACTCCCAGTCGATTTTTGTTCATTCCTCCCCCAAAACCCGCGTTCTACACGCCCTTGAGACGACGGGACATCTAGAGATCCTGGAGCCTTGG
GAAAATGGCCCGAGGTCGGCGGCTGACGCGTTACTATGGATACTCCATAGCTTGGAGGGCCAGTCGGGCCACACCCTTTGGACGTCACCCGGAGCCCACA
GGAGCACCTGGCAAAAGCCAGGCCCACTTCCTGCTCGGCTCCGCCCAGAGCAGGGGGCGGGCGGATAGGCGATTCCCTCCAATCACAGTTCCAAAAGGAG
GGGGCTGACAACATATCCTCCAATCACAGCTTGAAGTGAGATTGATGTGTCTTTTCACCAATCACCGCCAAGGCGCGAGGGGGTTGTCGGGATGGGGGCG
GGAGCCAACATAGAGCCCTCAGTGGGATGAGGGTGAAACTGCTATTGCCGGCGGCTCCTGTTTTACCGCGTCAGCATGCTGGTGCATTTATTTCGGGTCG
GGATTCGGGGTGGCCCATTCCCAGGCAGGCTGCTACCGCCCCTCCGCTTCCAGACATTCTCAGCTGTCAGGTAAAAACGGAAAAACCTACTCAGMGCGGG
CCATTGACCGCCCGGCAGGGCAGTGCCGGCCCGCCGGGAGATGGAGTCCACGAGCTTGCGCGAGGCTTGCTGGGAGCTGTAGGCCAGGCCTACCGGGGTG
GAATGTCACTCCGCGGGTGTTGGCCTCAATTATTTATAGTGACACTCCAGTCGCCAGCAGGAGGCTCCTGCGTCTGCAGCCGCGTGTCAGCCAGAAGGAG
GGGACGCTCGGGGTCAGTGACCACGCCCAGTCCGCACTCCCGACYGGGGGTCCCCTTTCCTGGCCCTGGAGGTGATTGCGCGATTTGGACGAAAATTCTT
ATTAGTATGAAGAGACATTTAATGTAGTGGTGCTTCCAGGATTCAAAGTGAGTCGAAGAAGAACTAGAGATGTTCAGCAGGGATAAAGAGCCAATCTAAT
AGGCCGGGCGCGGTGGCTCGCTCCTGTAATCCCAGCACTTTGGAAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGCAAAACCTCGTCTCTACTAAA
AAATACAAAAATTTGCCGTGATTGGTGGCACGCGCCTGTAATTCCAACTACTTGGAAGGCTGGGGCAGGAGAATCGCTTCAACCCGGGAGGCGGAGGTTG
CAGTGAGCTGAGATCATGGCCACTGCACTCCAGCCCGGGTGATAGAGTGAGACTCTGCCTCAGAAAAAAAAAAAAAAGAGTCAATCTAGTAACTTGTACA
TGTGTGTTTTTCGCAAAACACTCTACACAGGTTGGTCGAGAGAGAGAGACAGACAGACAGACAGATGGGAAACAAACAAGGACCCTGAAACTACAACTCG
AATGTAAATGCTTTATGAGAAGGGACTGATTCCTTTTTTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCT
CTGTCACCCAGGCTGGAGTGCAGTGGCATGGTCTCGACTGACTGCAACCTCTGCCTCCTGGTTTCAAGCAATTCTCATGCTTCAGCCACCCAAGTAGCTG
GGATTACAGATGTGCACCACACCCGGCTAATGTTTGTATTTTTAGTAGAGACGGGGTTTCATCATATTGGTGGGCAGACTGGTCTTCAACTCCTGACCTC
GGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCTCACCTGGCCATCCTTTCTAATCCTAGAGTGAATTASTTGGGGG
CCAAACAGATAGAAGATTCCCAAGGGCAGGTGGATGTGGAGTTGTGTCATTTGGAAAGCCCATCTGACTGATGGAGGGCAAGAGCTGGATCGAGCTGGAG
CTGGAAGTCTTGGTACTGGGAAGTAATCCACATGCTCTTGGCAACGACCAAGACTTTCTTAGAGTCTTAGTTTGGAGACAATGCAAGAAGCTGGAAAAAG
ACCATGCTAAATTATTGAAAGGTTTAAAAACAGTTCTTAGGAAAGAGTAAGGGTGTTGATGTTATTTAAACCAGAGAGAAACCCAAGGAAAGACATAAAA
TAATATTCAAGTATATATGTGTTCATTAGTCAGTATTTTTCAATAGATTATGAAATGCATTTAGTTGGTCAGGACCATTTAAAAGTAAATATAGGCTGGG
CACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGATCACCTGAGGTCAGAAGTTTAAGACCAGCCTGGCCAACGTGGTGAAAC
CCCGTCTCTGCTAAAAATACAAAAATTAGCCAGGCGTGGTTGCACGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTCAAACCTG
GGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCGCTCCAGCATGACAGAGCAAGACTCCGTCTCAAATAAATAAATAAATAAATAAATAAAAGT
AAATGTAGGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGGGGCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCCGG
CCAACATGGTGAAACCCCATACAAAACTTAGCCGGGTGYGTTGGCTCACGCCTGTAATCCCAGCACTTTGAGGGGCCGGGGCAGGCAGATCACTTGAGGT
CAGGAGTTCAAGACCAGCCTAGCCAACATGGTGAAGCCCTGTCTGTACTAAAAATACAAAAATTAACCAGGCATGGTGGTGGGCGCCTGTAGTCCCAGCT
ACTCGAGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTCAGCCAGCATAGCRCCACTGCTCTCCAGCCGGGGCAAAAGAGTGA
GACCCTGTCTTGAAAAGAAAAGAAAAGAATCAGAATACATGTTAAGAATTAGAGAAAATGTTATTTTGTGAAGCATTTCCATTTTGTGTGGCATGTATGT
GTTCATTGTACTGGGTTGCAAGTAAGATATGTTTCTTGCTGTAGGCCACAGTAAGTCTAAACATTTGCAAAACCCTGTAGTAGTTAGGTCAGATTGTCCT
GCACCTCTAATGAGGGCATGCATGTGCTCAACAAGCATAAACATTTGCGGAACATCTATTATGTACCGGAGTTCTGCCAGTGCTGTCTAAGATATAATTT
CCTGCCTTTCAGAAACACATGGCGTAATGGGAAAACTGGACAGTTACACAAGGCAGAAGGAGAGTAAGCGTCTCTATCTTTCTAATAGAAACAAGAACAC
AGTGGAAAACAAGACATAAAAACCTGGCAGTTGGAATGGGGTGGGAGAAGGCCTCATGTAGGCAAAAGGCACAGGCCTTCCTGAAAGCAGGGGAAGGATG
AGATGAAGACTGCAATTAGAAGGGTCTAGGGATGTGAAAGGCCATGATGGTAAAGAGAAAAGCTCACACTACTCTTTTTTTAAACCTTTCCCCATCAGTA
AGCTTATCTAGATCTTCTAGATCTCACCATCCTCTCCTGGCTGGATAACTTCTGCTCCCTACAACCAGTCCTGTCTGCCTCCAGCCCATGCCCCTCTGCT
ATGATCTTTTTTTTTTTTTTCAAGACAGAGTCTTGCTCTGTTGTCCAGGCTGGAGTACGGTAGCACGATCTTGGCTCGCTGTGACCTCCTCCTCCCAGGT
TCAAGTGATTCTCTGCCTCAGCCTCCCAAGTAGCTGGGACCACAGGCACACACCACCACATCCAGCTAATTTTTAGTAGAGACAAGGTTTCAACATGTTG
ATCTAGAACTCCTGGCCTCAAATGATCCACCCGCCTCAGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCATGCTACGATCTTTA
AAATGAAAACCTAATCTTGGCACATCTCGGCCTAAAAATCACCATGACCCTTATTGCCCCCCAAGTCCAGGAGCTTTATAAGAACTAGAAAACTGCCCCT
CCCGCAAGTCTCATGTCTCTTTTCCCTTCTTGTAGGTCAGGCTTCAGCCATACAATTCCTGAAATTTCTCTCCCATCCTTTCTTACTGGAGATACCYGCA
CTTGCTTTTCCTCTGCCTAGAGCTCTCCCCTTTACACTCCACCCCCACCTGTGCCTGGCCTGTTCCCCCTCACAGGTTCCCCCTTACCTAGAAGGCCTTT
CCTGACTCCCTCTGAGGAGAAGGAGGAGCAGGGCTTCAAGCTGTTTTGTGCCTCTGATTTCCAGTTAACTGTGAGTCTCCCGCACTCAAGCATGACTGCT
GTGAGGGGAGTTACTTCAGCTGTCATGTAACTCCATAACTCCGAGCAGAGCACCTGCACACAGTAGGTTCAAAATGTGTAGAATAGGCCAGGCACGGTGG
CTCATACCTGGAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCATGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATAAAGCGAAACCCCATCTCT
ACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCTCGTGCCTGTAGTCCCAGCTGCTCAGGAGGCTGAGGCAGGAGAATCTCTTGAACCCGGGAGGCAGA
GGTTGCAGTGAGCCGAGATTGTGCCGCTTCACTCCAGCCGGGGTGACGGAGCRAGACTCTGTCTCAAAAAAAAAAAAAACACAATGTCTAGAATAGTGGA
ATCGATGTTAGCATTTTATAGATGTGGCAGCTGAAGGAAAGAGAAGGTAATTGTCCTATTCAAGATGACAAGATAAGTTATTAGAATTCTTATTTTTCTC
TGTTTCCTCCTTCAGCTGTGGAGAGGGAGTGTGTGTCATGGCGCCCCAGGCCAGGGAGGGGAGGTAGGGTAATGGGCCTGGGACATCAGAAGACATGGCA
CACTGGCAGAGTAGAGCCAGCCTGGGTGCTGGAGTCAGACTGCAGACTTGGTTCCCTGCTCGTCCCAGTTCTGCTGCCTGCGGACAAGTTATTTCAGCTC
TCTTAGCTCCACATGATTTTTTTCATCTGTCAGGTGAGAATAATGGCACCTCCCTCCCAGGGAGGTGAGGATCAAGGGAAGTAGCCCATTAGCTCCAGGA
GGTGRGGCTGTGTCTGCCCTGGTGGCTGCTGTGAGCAAGTCCAGTGCCGGGCACAGGAGCAGCTCTCTTTCCTCACCTCTCTGCACCGTGGTCCCTTAAA
CCCCCGGCCCCTTCCTGTCCAGGCAGTGTGTGGCCATCTAACGTGCCATCCAGTTCTTCAGGCTGTCATTCTGTCAGAGCCTGGAGTCGAGGCTGCGAGG
GCCCTGGCTGGCTGGGTGTTGCCTGAGAGTTGCCCAGGGGAATAAGACTTTTAAGACTAGATTTTGTGCTCAGTGCCTCATTCCTCTGCGACTTTGCCCA
TGGACATGTCTTAGAAACTGAAGTTGCTTCAGAACAGCCCTGAGAAGGGCAGGGGCAAGGGCCTGACAGAAGAGGAAGTGCTCCTTCCAGAGGGCTCAGC
CAGAGCCCCATGGGTGTGCTGGTCAGCAGGAGGGCAGTCGGAGCCTCAAGCCATCCATGCCTCTCTCTCCTTACAGGTACTCTGATGGCTACCGCARCTC
CTCCCTCCTCCGGGCCGTGGCCCACCTGCGGTCCCAGCTCTGGGCCCACCTCCCTCGAGCCCCCCTAGCTCCCAGATGGAGCCCCTCTGCCTGGTGCTGG
GTTGGGGGAGCCCTGCTAGGCCCCATGGTACTGAGTAAGCATCCCCACCTCTGCCTTGTGGCCCTGTGTGAGGCAGAAGAGGCCCCTCCTGCCAGCTCCA
CACCCCATGTCGTGGGGTCTCGCTTTAACTGGAAGCTCTTCTGGCAGTTTCTGCACCCCCACCTGCTGGTCCTGGGGGTAGCCRTCGTGGTGAGGCTTTC
CCCACTTCTCCATCCTGGGGACAGGGCAGGACCCAGAGCTGCAAAGGGATGGCATTCCTGCCTCGCTGCCTCTCAGGGGAGAGCTCAGGGGAGCAGCAAG
GGCTAGCCAGGGGTCCAGGGGTGCCAGGAGCATCAACACTGGGTGGCTGGGTGGGCAGGGTTCCGTGGGGACTGGAAGCCAGGGTTTGAACCTCTGAGAG
GCACTGATGTGTCCACATGACCAGCCACAACCTGGACAAGCGCAGTGCTCAGTAGTGGGAGAGGAAGGGCCAAGATCTGGCTGGGGATGGGGAGGAGTGG
CTCCCCCACTTAAAACATTTGTSCCCTCTGTCTCCCCATTCCAGCTGGCCTTGGGTGCGGCACTCGTGAATGTACAGATCCCCCTGCTCCTGGGCCAGCT
GGTAGAGGTCGTGGCCAAGTACACAAGGGACCACGTAGGGAGTTTCATGACTGAGTCCCAGAATCTCAGCACCCACCTGCTTATCCTCTATGGTGTCCAG
GTAYAGCCGGGAGTGGGGCTGGGGACCGCCGAGGAGCCACCCGAGGCATCCCTGAGTGCACTGGGCTCTTTCGCAGGGACTGCTGACCTTCGGGTACCTG
GTGCTGCTGTCCCACGTTGGCGAGCGCATGGCTGTGGACATGCGGAGGGCCCTCTTCAGCTCCCTGCTCCGGTACTGCCAGCYGCAGGGTGCAGAGTTGG
GGTGACTGATGGCCTGAGGGGTCTGGGGGTAGGACCTTATCCTGAAGTAATGTCTCCCTCTTCTGCCCTCCTTATTGGTTCTTGTCCCATGCCAGACAAR
ACATCACCTTCTTTGACGCCAATAAGACAGGGCAGCTGGTGAGCCGCTTGACAACTGACGTGCAGGAGTTTAAGTCATCCTTCAAGCTTGTCATCTCCCA
GGTCAGTGGCCCAGTGGCCCCCACCACGTCCACACACACACTTTCCCATGTGGATTCACCAGGCCAGCMCTGCCCGCCCCAGCCCTGATGTTGGGCTGAC
AGGCGCATGCTGACTCGAGAAACCCACTGCCTGTGAGGGCATGGGTGAGGGACCATGGAAGTTCATGGAAGGAAAGTGTAGAGGCAGTGTCCAAGGTCAG
GACAGGCTGCTTCTCCACTGCTCTGAAACCGAATCTTCCCTGGAAAGCCTTCCCAAGCACTCAGACAAGAGCCTTTCCTGGCAAGAGCAAAATCACTTCG
CCTGCCTTGTCCCCAGAGTGCCTGGATTGCTGACAAGCATTGAGCATGTGCAGTGGCCTACCGAACACAGATGCCCTCCCCTTATCCGCCCACACCGACT
CTGACTGCTGGATCATGCCACACACTGGCCTAGGCAGTCACTGGTGTACCCCCATGCAGTTCTCTTTGTTCAGTTCCTAGAACAGAAAGAGAAGCAAGCT
GGGATTTGTCTAGGGGAAGGATGCCACAGTTCATAGCATTCTCGCTCRGCCCCCTCAGGCCTGCTGCTCGCACCCCAACTGGCCGAGTTAGGGTTACGTA
CTGTGACCGGTGGACTGCCACTGGGCCTCCCAGGGGCCAAGACCTGGGCCTTGGCCGTGGGAGTGCAGAGCTACAGTCAGCTGACCCTTGGAAAAGTCCT
TCCTGTCATGGTGCRGACGCCGTAGCCTCCCGCCTTCCCTCCCACTCCCTAGGGGCTGCGAAGCTGCACCCAGGTGGCAGGCTGCCTGGTGTCCCTGTCC
ATGCTGTCGACACGCCTCACGCTGCTGCTGATGGTGGCCACACCAGCCCTGATGGGAGTGGGCACCCTGATGGGCTCAGGCCTCCGAAAATTGTCTYGCC
AGTGTCAGGAGCAGGTACCGGCATTCCTGGCCATCCTCTTCACCCTSCCCACACCGTTTCTCTTTCCACTCCCCGGAACTCCTCCCTGTCCCCATCCTGG
ACTCCTTGTCCTGTTTYCTGGACTCCTTGTCCTGTTTCCTGGACTCCTTGCAGATCGCCAGGGCAATGGGCGTAGCAGACGAGGCCCTGGGCAATGTGCG
GACTGTGCGWGCCTTCGCCATGGAGCAACGGGAAGAGGAGTGAGTCCTGGGAGGGCGGAGCACAAAGCAGAGATGCCCCCCACACCCTGCCAACCCTTCG
TGCCAGCCCAGCTGCCTCCTGAATGCACTGGTCTCTCTCACCAGGCGCTATGGGGCAGAGCTGGAAGCCTGCCGCTGCCGGGCAGAGGAGCTGGGCCGCG
GCATCGCCTTGTTCCAAGGGCTTTCCAACATCGCCTTCAACTGTGAGTGAGCCATYTGGGGGCTGGAGGGGCGCTTGTGGGCTGGGGAGGAGCTGGGAGC
AGCCAAGGCAGGCAAAGGCCCTCCCTTCATCTGCTGGCTGCCTGCATTCGCCTCGGGCCAGCTGCTAACTCTTGCAGGTAAAGGGAGGGTGCCGATGTCC
CAACCCAGCTATGGGACTCCATGTGGAACGCTACAGGGCCACCCTCAAGGAGGCCATGGAGGCGTGCCCACCCCAACTTGCTCTTCCGAGGAGGAAGCCA
ACGCTGGGACCAGTCATGCGCCTCACCTGACTCTCCCAGTCAGCAGTGGCAGAGCAGGCCCAGGGCTGTTTCCTCTGCCCTGGCTTCGTCCTCCCTCACT
TCCCCTCTCCTGCAGGCATGGTCTTGGGTACCCTATTTATTGGGGGCTCCCTTGTGGCCGGACAGCAGCTGACAGGGGGAGACCTCATGTCCTTCCTGGT
GGCCTCCCAGACAGTGCAAAGGTAAGTGGGGGCCGTTCCCATTGCTACAGAGCCCCCTGCCGCCCTCCAGAGCCCTGCTGGGTTAGGGGACACGGGTGCC
AGCCTTCTCTGGGGGCCGACTGCTGTGCAGCTCCAGGCCTGCCCAGCTTCCCCAGGGATGCATAGGGTGGGGAGAGAGAGCCCCTCAGGGCCCATAACAA
CCCTCCTGGCTGGGGCAGTGGCGCTGCAGCAGGCAGGTGCTTGTCATCTTCAGCCTTCCAAAGGACCCAGAAGTTTCCTTGACAGGCTTTTTAAAAATTT
GTTTCAACTGTGGTAAAGTACACAAAACATAAAATACAGCATTTTAACCATTTTGAAGTGTGCAGCTCATGGGCAGTGGGTGCACTCACATTGCTGTGCG
GCTGTTGTCACCGTCCGCCTCCAGAACTCTTACCTGGCAGAGCGGAAACTATCCCCATGACATGGGAATCCCCATTTGCCCTCCCCCAGCCCCTGGCACC
CACCATTCCACTTTCTGTCCTTATGATTTGACAACTCTAGGGACGTCCTCTAAGTGGAGTCAGACTATGTCCTTTTGTGACTGCGTTTTGTCACTCCACA
TTGTGTCCTCAGCTTCCTCCGTGTTGCACCCTGTCCGAATTCCCTTCCGCTGCAGGCTGTGACAYTCCATGCATGGAAGGACCATCCTTGACAGGCTGTG
TGAGCTGCCCTTCCCCATGCCTGCCACTTCCAGGGATGACAAGCTGACCCCTGTCCCCACACACCCCACCCTTATAGCTTATTGCTTTGCGTTGGTCCAA
AACCACCCGCTCAGCTGAGCCTCTGGGATGACCAGAGCTGATCACCAGACAGCTCAAGGCGGGCCTCCCCCCTCCTATCTCTTTCCAAGCTAAACACAAG
CAGTTCTACATAAATATGTTATGGTAAATAATGAGATAGTAAATATGCTGTAACAGATCATCAAAGGGTGAAGACCCGTCTCCACGAACCGTGCATCACC
TCTGCCACCCCATCCCTCCCCCCACGACCCCCCTGCTCTTCCACCGGGGCCCCCACCCCATTCTACTGAGGCATGTGTCCTCGCCCTGCTGCATGGTGCA
CCCCTGCGTGTGTGTCCGCCGGATCAGAACCCCTCACTGCAGGGTGTACTGTCCCAGGAAGCGGGAGGCGGACGGAGACAGGCTCCCATTTTCAGCCCCA
AACCTGACATTCCACAGAGACGTTCCTCCCATTTCCGCAGCTGCATGGACAYCCTCGCGTGCCCCRTTTCTGCTCGTGCTCCCTAATCTGAGCACCTTCA
GACCCTTTCTGGTCCCGGGCTCAGGCCTCCTTGGCAGCCTCGCCCTCCTCCAGCCCAAGGAGCTGTTCTGTCGTGGCTTTGGAATTCAGATGCTCTCACT
GTGATAGAGATGGGGTCTTGGGGGGCTGGGAGCTGTTCTGTCGTGGCTTTGGAGTTCAGATGCTCTCACTGTGATAGAGATGGGGTCTTGGGGGGCTGCC
TCCACCACTGCCTGCCCTGCTCAGCGCTGACCCACTTCCCTTGACCAGAGTTTTGGCCTCTCTGAATGGGACGGTCGTTTTAGTCCTGAGGGCCCATAAG
AAGCCCAGTGGCGGCTGGGTGCGGTGGCGCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCGTGAAGTTAAGAGATCGAGACCATCC
TGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTAGTCCCAGCTACTCGGGAGGCTGAGGCAAGAGAATCGCT
TGAACCTGGTAGGCAGAGGTTGCAGTGACCTGAGATTGCGCCACTGCAYCCCAGCCTGGCAACAGCAAGACTCCGTCTCAAAAAAAAAAAAAGAAGCCCA
GTGGCTCCCTTAATAAAATCACCCCTTAGCCCTCTGTGGTGGGCAGTGGTGGGACAGTCTCCCTGTGGGGAGGGTGGCTGCACTGTCCAGCCCCAACCCT
CCCGCTTCGGGACCCCCACTTCCCCTTTAGGGCCTGAGACTCTGACTTTACCTCCCACCGTACTGCTTGGCCATCCAGCAGCTTTATGACACACACAAGA
ACCCCCAGGGGCTTGTCTGTGCTGTTTCGCTGGCTGCTCCCACAGCCACAGGCCCTAGACCCATCCTCTTGGAGGTCCTTCTAGCGCTGCCTATGTGGAG
ATTCTTCCCCACTCATCTTGGGGGTTTGGATTTGTTGCATAAAGCAGCTGATGTGTTTCCCACAGGGTCCTGCCAGCTAAGCCAAGGGCCCATGCATTGG
CACTGGGGTCTAGCAGAGAGAGGGGAGCAGGATGGCCCGGCCTACCTCAGGCAGCCTAACCTATGAGCCCATCCTGAGTACTCCTGATGGAGATGGGGAG
GTGCCCAGACAGACAGCAAGTGGGGCCCAGCCGCCTCATCAGAATCAGGGCCAGGCTCCACCTGGGAACAGGCCCGTAGCCTACAGCCCACGGCCCCTGA
GAGCAGGGTCATCACACTCCAATGAGTCATGTGCATTTTGAATTTCAGTTGCTGCCCAGCCCCTTTGCCAGGCCCTAATGTCTTCCAGATCTCTGGTGGA
GAATGTGCCCCTGCTCATCAACAGATAGCTGGCTGGGCTGGCTCCTTCCTGCCTGGTGCCTCCCCMRGCTGCCTTTAGCAAGTGCTGACTGCACTGAGTC
CACTGGGACCTTTTCCTTTTGGGTTTCGAGGCTCCTCCCACTCACCCCCACCCTAGTGCTGGAAGAAGTGAGTCTGCAGCTGAAGGGTTGCTGGGGAGTC
AGTCTTTCCTCTTACTTAGGAGGGGACCAGGCATACACACACTGTCACAGGTCAGCCAGGCCAGTCAGGGACCAGTGACTCACCTTCCTCCTCAGCCTCC
TGGCAGCCGGCCAGCCCTACCCCGGCCCTGCCGGGACGAAGGAGGCCACCCACTGTCTAGACAGATAACACTGTGGGTATACTTATCTGCAGGGCAAGCT
CATGAGAAAAATTTTTTTCAGGGAATTTTGTTTTGGGGTCTCCTGAGAGTTCCCCTGTGGCCCAGTGTCTTCTGTTTTCTTCTTTCTCCAAAAAGATTTA
ACATCACTTCTTCCACCTAAATGTCTGCCAAAGTCATTGCTTCCCCAAGAGTCTGCAGCATTAGATCTGCTCTCCCCTTCTAAGCCACGCACCCTTGATC
TCTGTTCATGGTGGCGGCCTCCGCATCCTCAGGGCCGAGCAGGGAGTCCRTGGGTCAGCTGGGCTCCCTTCCTCGTGGGCTGATATCACCGCTGCATGTG
TGCACAGGCCTCACCCTGCAGACCACAGGCCAGGGCACTGGAGGACACCCACAGAGGCCTGTGCCTTCACTTCCATTTCCTCGTGGAGCACCCCCTCCCA
GGGGCTTGGGCTGAGCTGAGGGACAGCTGTCATCCTCATCTGGCCAAGGAGGGAGCCAGGGCTCAGCGATCTGGTGTTGCTACGTCCCAGGGCTCTACGC
CCCCATGGTGCAGGAGCAGTCTCTGCATTTGGCCACAGGCCACCTGCTTCCTTGCTCCCCCGCCCCACCGTGGCTTCCTTCCCCTCCTCTGGCTCTTCTT
GTTCCCATCTATTCCACCCCTCTCTCCTTTTTCTGACAGGTCCATGGCCAACCTCTCTGTCCTGTTTGGGCAGGTGAGTGGCCGGTAGGGTGGAGGGCCT
GGGGTGTGGAGTTTGTGCCGTGTGTGCCGCTGTGGGAGCTGCCTATTGACTGGGTGTGGGCGGGCAGAGGAGCTGGGGAGACCCCAGCCCAGAGCCATGG
CCACTCCCTGGAGATGCTGTTGTCACCCCTAYTCCTGCCTCCCTGCGGACTTTGGATCCCCTCCCACAGGTGGTCCGGGGGCTGAGTGCAGGTGCCCGGG
TCTTTGAGTACATGGCCCTGAACCCCTGCATCCCACTGTCTGGGGGCTGCTGCGTCCCCAAAGAGCAGCTGCKTGGCTCCGTTACATTTCAGAACGTCTG
CTTCAGGTCAGCACGGGTGAGCAGGCGTGGGGATGGGTCCCTGGGCCGGGGATGAGGCGAGTGGATTCGGGGGTGGAGGTCTGGACTAATGTCCCCCATA
AACAGGCCCTCTCAGAGGGCTACAGGGAGACTTCAGGAGGGACCCGGGCAACAAGGGCTGGGAGCCTGGTCTGACTGGGGGTCTCTCGGCTCCTCCCAGC
TACCCCTGCCGCCCCGGCTTCGAGGTGCTGAAAGACTTCACCCTGACGCTGCCCCCTGGCAAGATCGTGGCCCTCGTGGGCCAGTCTGGCGGAGGTAAGG
GGAGCCCACCACCTCTTCACCCTCTGACTCTTCTCTAGCAGCCACTCAGAGCAAGGCCGGGAGCAGTGAGCCCCCGGTGGGGTCCCTTCCTCCACTGCCA
CAAGGGGCCTTCTTTCCTGGGACAATCCCTAGAATCCCTGGCCTCCCTCCCTCTCAACCCAATTCCCCAGGAAAGACCACCGTGGCTTCCCTGCTGGAGC
GCTTCTACGACCCCACRGCAGGCGTGGTGATGCTGGATGGGCGGGACCTGCGCACCCTTGACCCCTCCTGGCTCCGGGGCCAGGTTGTCGGCTTCATCAG
CCAGGTGCGGGGCCACATGGGCAGCCCTTGGCTCCCACTGCCCGTCCTCCCCTGGGCCCTGCCCCCTTAGTCCTCAGGTGCCTTTTCTTTCTTTCCCACC
CTCATCCTTGCTGCTCTCGGGAGACCCTGGCCGTCTTCACATGTCCTCAGCTGTTGTCTGGGTGAGGCATCCCTGTCGTGGGAGCAGCCACAGCTCTGCC
TGGTCTCCCAGAGCAGGGACGCTTTGTCCGCATTTACAGCAGTCTACACAGATGGGGAATCCCTCAGATTCTCTGCAAATCCCATAGCATCCAGGTCTAG
AGAAGCCTATAGTGGAGGTGCTGAGCTGCAGCCGTTCTCCCTCTGCTTGAGGTGGCACTGCCCAGCGAGGGTCCACCCTTCCCTTTGAGGGCCGTGAATG
AAGAGGGCATGCCTGCTGTCCGCCAGGGAGAGTGCCTGTGCAGAAGAAAGGCAAATGCAAGCCCCCAACTCCCAGCGCCCTGCCCTGCCAGCTCCTCCCA
CTCCCACTCCTGGGGAGGGATTCTGGGCCCTTGGTAGGAAGTCGAACTGTCCTTCCCTTTTGGGGGCCACTCTGCATCCTCACTTCACCTCTGACTTTGA
ACGTCTGATTCTTCAAGAGATCCTAATCTAATCCACCAGATAGACTGTCCCATTGTGTATGGTGGCCCCTCCAGTTTCTGGGGCAAAGAGAATGTTTCTA
TGGACTCTGTCTCCATAACCCCTCACCCACAGGAGCCCRTCCTGTTTGGGACGACCATCATGGAAAACATCCGCTTTGGGAAGCTGGAAGCTTSCGATGA
AGAGGTGTACACAGCCGCCCGGGAAGCGAATGCTCACGAGTTCATCACCAGYTTCCCCGAGGGCTACAACACGGTCGTCGGTGGGTGCTCGGGTCTGCCG
GGAACCAGGTGGTGAGGCACTGGGACACAGGATTCCACAGGAGCAGTGAGCAGCCCAGTGGGACTGAGGGCAGCAGGGACAGCTGGGGAGAAAGACAGTT
GTGTCAGGGAAGACSAGAACCACAGCCAAAGGGGACAGAGTCGTTGTGTGGGGACAGGGGAGTCCAGGCCAGTGTGGTTCAGAACCAGCAGACCAGGCAG
GCTGCAGAGACAGGACGGGCTCTAGGAGGAGCTGGAGAATGCGACAGAGGGCATATGACAGGCTCCTGGCCAGGGACACAGTGATGCATGGTGTTTGGAG
TCCTCACCGAGTCTAAAAGGCCGCCACTTCCCCAGACTGAACAGAAGAAATGGGGGGCTGCCTCCTCTCCACCATCCATCCCCCTCTGGCTCCTGTTTCC
TTCCTGTGCTTTTCATCTCTAAAGTCGTTTCTCATTAGAATCGGGGTGACTGGATGGGCCCCAGGAGAGGGCTCTGGTGGTTCTGAACTAGGAACACGCA
GCCTGGCACTGCAGGGCGTGCACCTTGCAGCTTGACGTGCGGAGCTCCCAGGTCTTTTTCCAGCCTTCGGGGCCATGTTTCTCGGCCAGTGTCTTGGCTC
TGTTGCACAGTGTTTCAGCACTTCTCAGGATACAGGGATACCTGGGCTTCTCAACTCTGGTCAGTCTGAGTCCAGCCTTCTGAGCTGTGGGGCCAGTGTC
CCCAGCCCAGCCATCGTGTTCTAGATGGCTCCTCCAGCCGTGTTGATACACTGTCCAGATGCCAGCTGTCCTCACTGGGTGCTCTCCCACATCTCTTTTG
GGTGGCACTTTCCTTGTGTCTCTGATCCTAGTACTTTCTGCTCATTTGGGCCTTCTTGGGGCTGCGTCCTTACTGACCTGTCACCCTGCTGTCACCTTGA
GGTTCTTTTTGGCTCCCAGGCTGCCACTTGTGCTGTCCTCTGTGGGCTTCGAATCCCACCTCCCTGGAGTCACTGGACCCCAGAGCCCATGTTTGGGTGC
TGGATGTTCCCCACAGCCACAGAGACCCGGGAGGCTGGGAAGGTGGCTTGGAACTGCAGGCACAGGGCAGGGTGTGGGTCATCCTGGCCTGAGGCACTGC
CATGGCTGGGGAGGGGCATTTGGCAACTCCCTTGGAGTGCACCAAGCCCTGCTGGCGGTGTCACACCACCCTCAGAGGCAGGGCAAGTGTGCACAGTGGC
TGAGGGACCCAGAGGTGGGATGAGCCAGTGCAGGGGGAACCCAGAGGAGGAGTGTACACAGTGTGGGGTGGGGGGTCAGAGGCAGGAGGAGGGTGCACAG
TGCGGGGTGGGGGTCAGAGACAGGACTAGGGTGCACAGTGCGGGGTGGAGGGTCAGAGACAGGACTAGGGTGCACAGTGTGGGGTGGAGGGTCAGAGACA
GGACTAGGGTGCACAGTGCGGGGTGGAGGGTCAGAGACAGGACTAGGGTGCACAGTGTGGGGTGGAGGGTCAGAGGCAGGACTAGGGTGCACAGTGCAAG
GTGGAGGGTCAGAGGCAGGACGAGCGTACACAGTGCGGGGTAGAGGGTCAGAGGCAGGACGAGGGTGCACAGTGCGGGGTGGGGGGTCAGAGGCAGGAGG
AGGGTGCACAGTGCGGGGTGGGGGTCAGAGGCAGGAGGAGGGTGCACGGTGTGGGGTGGGGGGTCAGAGGCAGGAGGAGGATGCACAGTGCGGGGTGGGG
GTCAGAGGCAGGAGGAGGGTGCACAGTGCTGAGAGGGGCACTTAGAGGATCTTGATGGGCGTTCAGGAAGGACCCTGTGCCCCTTTGTGGGCCACCCTCA
AGTGCACAGCTTCAGGCTCCTGCCCTGCCCCTCCCTTCCCAGGTGAACGGGGCACTACCCTGTCTGGGGGCCAGAAGCAGCGCCTGGCCATCGCCCGAGC
CCTTATCAAGCAGCCCACGGTGCTGATACTGGATGAAGCTACCAGCGCGCTGGATGCAGAGTCCGAGCGGGTTGTACAGGAGGCCCTGGACCGGGCCAGT
GCAGGCCGCACGGTGCTGGTAATTGCCCACCGGCTCAGCACTGTCCGTGGGGCCCACTGCATTGTCGTCATGGCCGATGGCCGTGTCTGGGAGGTTAGTT
GTCCTGGGGGCGTGGATCAGTGGGTTGAGGATGGCTTCATCACGGACAGTGGCACAATGCTGCAATGAGTTATATGAAGTTGTGGCCTGGCCCCAGGGCC
TTGGGGGCTATATTCTGGAAGCAGCGTCCCATATAGAGTCAGGAGTTCCTGCATTCAGCCAAGCCCTGGCCTCTCAGGCCCTCAGTTTCTTCTTCTGTCC
CCTGGGATAGTATAATTGCACCATCAGCTCCCAGGATCAAAAGGAAAAGTACTAGCCGGGTGCCTGTAATCCCAGCACTTTGGGAAGCCAAGGCAGAAGG
ATCTCTTGAGGCTAGCCTGGGCAGCATAGCGGGACCCTGTCTCTACAAAATACCAAAAAAAAAAAATTAGCCGGATGTGGTGGCATGCACCTGTACTCCC
AGCTACTCTGGAGGCGGAGGCGGGAGGATTACTTGAGCCCCAGAGGTTGAGGCTGCAGTGAACAATGATTGTGCCATTGCGCTCCAGCCTGGCATCAGAA
TGAGACCCTGTCTCAAAAAACAAAAAGGAAACATACTCAGAGTATGGTGCTGGGAGCAAGGAGCAGGGCTAGCTGCCCAGGGTATCAGGTGCAGGAGAAG
CAGCGCCAAGGAACCTGTGCAGGGAGTCAGGAGTAGGACCCCAGAGGCCGTGTGGCGTTGGCTAACAGCCACTCATTCAAGCCAAGGCTGAGGGGCTCGT
GCAGGGAGACGGATCCTGAGTTGGAGCCTTGGGCTCTGTRAGGGGGACAGAGGGAATCATGTTCTTCCAAAATTCAGCTAAGTAAGGAAGTGGCAGTAAC
TAATGCAGCATGCCAGTGGCGGTTCCTTTCAGATTGGGCATTGGTTTCAGAGTGTCCCCAGAAGGGACACCGGCCTAAGTGACCATGGGCCCAATGGCTG
ATAGAGAGGCTCAGCTCTCTGAGGGTTCTGAAGCCTGCATGCCTTGGAGCAACCATCCGCCCTTCCCTCCCATCTTCCAGGCTGGGACACATGAAGAGCT
CCTGAAGAAAGGCGGGCTATACGCCGAGCTCATCCGGAGGCAGGCCCTGGATGCCCCGAGGACAGCGGCCCCMCCGCCCAAAAAGCCAGAAGKCCCCAGG
AGCCACCAGCACAAGTCCTGAGAAGGGCCCCCTGAGGTGTGGTCGCTGCCAAGCATCAGTGTTAGGGCTGGGGCTCAGCCTGGGGGAGCCTACTGGGGAC
TGAGCCCCCAGGAGGGCCAGCATGTGGAGAGTCGCTGCGGCTGCTCCTGCTCACAATAAAGCCGGGGCCGAGCAGCTGGCAGGGGAGGCCAATCCCTCCC
TCCCCTCCCCAGTCCTGCCGGCTGCCTCCCTCCCACCAGAGTCTGCCAGAGTCATTGGGCTGCAATGGGCAGAGACAGAGTTCCMCGAGACACCTCCACT
CTATTCTCCCTTTGCCCAGACCCCTCCAGACCTCTCAAGAGACGTTCTGGCCAGTCTCCCTGCCCCACCCAGCAGCTTCAAATTGGCCAGGCCTACAGTA
GCTCCAGGGAATTTTTAAAAATCAGGGTCTGGAAGTGGGCCTGGGAATTCAAACCTAGGCTCTTCCCACACCCTTGCTAGGACCTCACTTCCCTAGACTG
GCGACTGACTCCCTCTCCTGTGTCCCCACTCCCTCCATGGGAGAAGGAGCCTATCCCCTGGCTCACCCCRGGACCCACAGTCCCCATCTTCCAAACAACC
TCCCTCCTTTCTCCCTGCACAGTGAACACAGTCCTGATTTCTAGATTTCACCTCCCCTCCCCACCCACAAGGGACACAGGCCTAACAGGGCCCAACACTT
GGGTCAGGGTAGGAGGGACGGGGCCACAATGGCCAGTTCCCACGAGAAGCGCCAGCCTGCCTGGCTGTCTTCCACCGGCCCTGCCCTGTGTGCCTGGCGT
CTTTCACCCACTGAGATTGTGAACCAGCCTCCATCTACACCAAGAACACCCAGCACTGAAGGAGATGGGAGGGGCTGATGCCCACCTGGAGCTCTCTGCT
TCCTGCCCACAGTGCTGACGAGTACAGAGCTAAATGGAGCAGCTACTGCAGAATCCAGTACAGAATCGGTCCAGGAGGGTGCGGCTGTGGACAGGCCAGC
ATCCCCAGCAGGTTCTGGGAGGCGCACCTTGAAAGGGGAAGGCAGACATCCTGAGTGATGGGCGCCTGTGGCCCTGAGACTGTGGATGAGGGGGCTAGGC
TCCAGCTGGCTTCTGAGGGGCCTGGAAAGGCACACAAGTAGGTCCTTGGCTGAACTGGTGCCCCAGCAGGACCTCGTGTCCCTGCACTGCTGCAGATGCA
TCAGCCCTCCCCATGTTGGTGCCGCTGTCACTTCCTACTGGGATCCTTCCCCTATCCAGCCACATCCAGGCTGTGGGACTACACGGTGCCCTGTTCCCCT
GGGCAGGAGAAGAGGTGGTACCTGCAATGCACCTTCACAGCCAGGCAAGCATTCTGGATTTACCCTGTGTAAAGAAGGGTGGTACCCTCTTTCAGGGGTG
TGATRCAGTGCATTGATGGAGCAGCTGGTGCTGCTGGGAGGCCAGCCTGGAAGAGGCAGCAGTGGCTCAAGTTTGCGTGCAGGAGCCAGAGTGGGACCCA
CGGGCTCTTGTGGGTGTGGTTTAGAACTAGATGGTGCTTTGGGGACAAGCCATCCAAAAACCCCAGGCCCACATCCACCCTGATTTGATATCCCACTTCC
TGACAGATCAGAGGCTGTGTCTTTARGCAGTGGAGGTCCAGGAGCAGAGCCTGGGGCTGGTTCACAGCTAAACCCCTCCTTAGGGCAGCCCAGAGTAGGG
CCTCAGCTGGCAAGTCCACAAGCCCTGCTGGGGCCCTGCTTGTTGGCCTGACCCCTCCCTCACCAGGCAGCCAGCCAAGGTGGTTCCTGCTTCACCCACT
CAGTCATCAGCCTCAGGCTGCCCAAAATGCCTCTGACACCAGATTTATATCTTCTGGGCGGCTTCTTTAAATCCAGCCCTTCACCCGCCCCCTAGAGAAG
CAGTGAAACCCCTTGGCTAGTCCAGCTGGAAGAGCTAGACCGCAGGAGCCGCGCCGTCTTCCTAACCTCGCCTCGGCCTTCGCTCCACAGTGGAGAGTGG
GAGCCTAGCTGTGCTTGATGCTGAATGCCTGTTTTGAGAGTGTGAGTGGGATCATCTACAGTAAATACTTGCAAAGCATGGCACTGTGGCTCTGGGGAGC
TGGTACGCCTGTGCTGTAACCATGGTACTCAGTCCTTCCAAAGTGTTTATTAATCAAGCACCTGTCATGTGCCATTGAGCCCACGATGGGGAATGAGGAC
AGTCCCTGCCCCCATGAAGCTTGTGTCCTGTTGGGAGGACAGACAGGTGGCCCAGCAGTTGCAGCATGGTGTGTGCACACGTTTGGCTGGTGGAACCATG
TTTCTACCACTCATGGTCAAAAAAAGCCCACCAAAGTCCTGGGAGTTCACATCTGTGTGATGATACGGCAACATTGTTTGTAATGGAAAGACTGGACACC
CCCAGTGCCCATCAGTGGGGGAGTCATTAAATAAACTATGGTATGTGCACATAATGGGTGGTATGCAGCCCTTTGGAAAAATGTAGGTTTTCCAGGTCCT
GGATATAGCAGCGTAAGATGGGAAATCACAGAATACCCATGTTGTGCCTGAGATGGCAGGTGGGGTACCCGTGGTACCCGGGAGGGTGGCAGGTGGGGCA
CCCATGTTCTACCTGGGGTGGCAGGTGAGCCCATAACCATTGTAGAGGCCAACATCCTCAGAGGCCTGAGTGTGGGGAGGTAGGCTTTGACTCCCTAGGG
AGAGAGGGACACTTAGGAAACAGACGGGCCCTGGAAGTGGGACATGAAGAGTGCCCTGGCCATCCAGTGTAGGCTGAGATGCTAGGGGCACAGAAAGAAG
AGATCTGCTGATGCCAGCCTTCCAACCATTTCCCAGCTTGGCCAAGAGCCAGCTCTGGTATTCGTGAAGGAACAGATCCTGGGTGAAGCTAGAGGGAAGG
CCGCAGAGGCAAAAGGAGAGAGGAGCTAGGCCAGGGGTCAGCGACTGACCCTCGCGGCCAGTGTACAGGGGTTGCAACTGGGAGCCTAGGGGGCCCCAAG
GCATCTCCAGGCCCAATCTACCTCTGGGCTTTTCTCAAGCTCTCCCTAGGATTACTGCGGTTTCCTCCTGGCGCCTCTCGTCTTGGACAGCCATGCCCCC
CTCCATGCTGCACTAATGGCTCAGCCTGGGGCCCTAGGGACCTCTCCTACCCCCCAGACTGCTCTGTCGGCCCCCTTTCCCCCCTACTGCTGAAACCCAA
TCCTCTGCAGCAGCGCCGGCTCAGCACCGCCGGCTCAGCACCGCTCCGCAGCCCCTGCCTGCCACGGTCAGCTACGTCCCACCTGGTCTGCTGCGGAGTC
CCCAGCCCAGTGCCTAGCCCAGTGGAGCCACCGCCTGTTCCTCGGGAAGGAACAGTGGGACCTGACCGGCCAGATCACCTCCTCCAATCCTGCCAGGCTA
GTGCCTCCCTGCCTTCCAACCTTGGCTGTCTCCCACCCTCTCTTCTCCTCTCCTTGCCTGGCCTCCTGAATCCTATCTTAGCCTCCTTAGCCCCCTGACT
GACTCTCTCTCGCTTCTTCCAAGCCTCTGTAGCTGGTTCCGCTCCTGGGTTCTGGCCATGAAGCCCACCTCAGGCCCAGAGGAGGCCCGGCGGCCAGCCT
CGGACATCCGCGTGTTCGCCAGCAACTGCTCGATGCACGGGCTGGGCCACGTCTTCGGGCCAGGCAGCCTGAGCCTGCGCCGGGGGATGTGGGCAGCGGC
CGTGGTCCTGTCAGTGGCCACCTTCCTCTACCAGGTGGCTGAGAGGGTGCGCTACTACAGGGAGTTMCACCACMAGACTGCCCTGGATGAGCGAGAAAGC
CACCGGCTCATCTTCCCGGCTGTCACCCTGTGCAACATCAACCCACTGCGCCRCTCGCGCCTAACGCCCAACGACCTGCACTGGGCTGGGTCTGCGCTGC
TGGGCCTGGATCCCGCAGAGCAYGCCGCCTTCCTGCGCGCCCTGGGCCGGCCCCCTGCACCGCCCGGCTTCATGCCCAGTCCCACCTTTGACATGGCGCA
ACTCTATGCCCGTGCTGGGCACTCCCTGGATGACATGCTGCTGGACTGTCGCTTCCGTGGCCAACCTTGTGGGCCTGAGAACTTCACCACGGTGAGCTGA
CCTCCCTACCTATCCTGCCAGGGACCCAGAGAGCCGACCAGTCCCTGCCCAGCACCCACAATTCCCTAGCCAGCACAGGCTCCCCCAAAGCCAGGGGACC
TCTTCCTTCCTACCAGCCATGGACTCCCCACCCCCCAGTGCCACTCCGTGCAGCCCAGGAAGCTGTCCTCCTTGGGGCTTTCTCTGTCTCCCAGCCCGAG
GGGAGCATGTGAGGCCACACTGACCCCGGCTGGCCCTAGGCCTGAGGTCTGGCCCAGGGAGGCCCTGCTCCTGGGGCTGGGGGTCCTCCATGGTGGGACC
ATTCTGGGGCAGAAGACCCCTATCTCTGCCAGGAGGTGGGGGGGGCTTGCTTTCCCTCTGCCTTTTCAACATACTGCCAGCCCCGGAGGACAGCCACAGG
GGCCCATTTCCTTTTCCTGCAGTTCCCAGAGAAACYCAGAAAAACCTGTAGGCTGTGCCCTGGGCTTTGGTGGGGATTGGCGGGGTGGAGGRGCTGAGTT
GATGGGCTCCCAAGAGCGTCCTGCAACATGTGCCCACTGGAGCGTGGGGCTGGGGGCATTGAGATGCGGGCTTCAGTATTCAAAGAAGAGACGCAAACAT
ACCATGAGGTGGGGAGAGGTCCCATGACCATGTGCCTGCCTGGGGGAGATGGCCATCACCCTGTCTGCCCGCCCCAGATCTTCACCCGGATGGGAAAGTG
CTACACATTTAACTCTGGCGCTGATGGGGCAGAGCTGCTCACCACTACTAGGGGTGGCATGGGCAATGGGCTGGACATCATGCTGGACGTGCAGCAGGAG
GAATATCTACCTGTGTGGAGGGACARTGGTAGGGAGCACACAAATGAGGCTGGGGGAGGGCACGGATGGAGTGCAAAAGGCTAGGGGAAGGAGAGGAGGA
GAGGAGGTGTCAGGGTGTTCCCCCAGAACCTGTGAAAGGGGCTGGGCTGGCTCATCCCAGTCCTGGGGAGAGGGGCTGCAGTGAGAGGTCTTGTCTGGTT
GGGCAGGAGACCTGACCACACAGGTCAGGCCTCACAGGTCCCTCCCCGACAGAGGAGACCCCGTTTGAGGTGGGGATCCGAGTGCAGATCCACAGCCAGG
AGGAGCCGCCCATCATCGATCAGCTGGGCTTGGGKGTGTCCCCGGGCTACCAGACCTTTGTTTCTTGCCAGCAGCAGCAGGTACCCTTCCGTGTGCCTCC
ACACCTACTACTTCAAGCCCACACCACCTCGGACCCTAAACCCTCAGCTCCTCAGACCTGTCTAGGGGCCTCTCCCCAGCTGGCCTCTCACGCTCTCCGG
GAAGCCTCCTTAACCCTGTCCCCCCACAGCTGAGCTTCCTGCCACCGCCCTGGGGCGATTGCAGTTCAGCATCTCTGAACCCCAACTATGAGCCAGAGCC
CTCTGATCCCCTAGGCTCCCCMAGCCCCAGCCCCAGCCCTCCCTATACCCTTATGGGGTGTCGCCTGGCCTGCGAAACCCGCTACGTGGCTCGGAAGTGC
GGCTGCCGAATGGTGTACATGCCAGGTGAGGGGCTGGGGTTTTCGTCCCATGGCGGGCAGGGCCCAGGGAGCTGAGGCTGCTTCTAAAGCCATCTCCCCG
GTACCCGCAGGCGACGTGCCAGTGTGCAGCCCCCAGCAGTACAAGAACTGTGCCCACCCGGCCATAGGTAAGGGCGAGCCTCCCCCACCTCCCGTCCGCC
CCGCTCCGCCCGCGGGCGTCTGACGCGGCCCGGTGGCCCGCAGATGCCATGCTTCGCAAGGACTCGTGCGCCTGCCCCAACCCGTGCGCCAGCACGCGCT
ACGCCAAGGAGCTCTCCATGGTGCGGATCCCGAGCCGCGCCGCCGCGCGCTTCCTGGCCCGGAAGCTCAACCGCAGCGAGGCCTACATCGCGTGAGCTGC
GCGGGGCGGGCGGGCTCCTCCGAGCCGGGGGCTCCCGACGGGGCGGAACGGGGCAGGCCAGGCCGTAGCCCTAGTGCGCACAGCCCGGGCGGAGGCAGCC
TCCGCAGCCTCACTGGCTCTGGGGCTCCGTGCTGGTTGCTTAATCTTTCTGGCCCCGGGGGATGCTGACGCCTCCTCCCAGGGGTCTGTTTTTTTTTCCT
TTCCTTTTATTTTTTAATCTTTACTTTTAAAAAACAGAGACGGCGGGGGGCGGGGGAGGGGAGGGGAGGGGACTCGCTGTATTGCCCAGGCTGGTCTCAA
ACTCCTGGCCTCAAGATCCTCCCTCCTCATCCTCCCAAAGTGCAGGGAGTACAGGTGTGAGCCACCGTGCCCGGCCTCTCCCAGGGTTCTTGAAAGGAGT
GGGAGAACCCACAGCTGCTTCTTGCCAGCAGTGGGCACCAGGCGGTGGCCAGCCCACATTTGAGGCCATTCTTGTCCTCAGGGAGAACGTGCTGGCCCTG
GACATCTTCTTTGAGGCCCTCAACTATGAGACCGTGGAGCAGAAGAAGGCCTATGAGATGTCAGAGCTGCTTGGTGTGTGTGCAGGGCCCCCAGGGCTGG
GGGGGTGTGGGCAGGCAGGTGGCTGTAAGTTGAAGGGTGACCCTGTCTCCACAGGTGACATTGGGGGCCAGATGGGGCTGTTCATCGGGGCCAGCCTGCT
CACCATCCTCGAGATCCTAGACTACCTCTGTGAGGTGGGCCAGGGCCCCCACTGCAGGGGGTGGGAGGTGGGAATCAGGGCCCCTAGGATGAGGGRGAAG
GTGTGCACTGGCCACCTCCCATCCTGCTTGCCTCCAGGTGTTCCGAGACAAGGTCCTGGGATATTTCTGGAACCGACAGCACTCCCAAAGGCACTCCAGC
ACCAATCTGGTAACAGCCCCTCTTCTGGAGCCCTTGCCTGCTCCAAGGGTGCTAGGGCCCACCCCTGAAGCCTAGACCACCATCCCGCCCCAGCTGAGGA
GAAACAGGCAGGAGGGTGTGCAGTGACCTCGACTGGTCCCTGGGAGGAGGACCACTCCCCACCTCTGACCCTCTCGTCCTCACACAGCTTCAGGAAGGGC
TGGGCAGCCATCGAACCCAAGTTCCCCACCTCAGCCTGGGCCCCAGGTAACACATAATGGCCCCCTAAAATCAAGGGAGGGCAGGGGCAGGCTCAGGACA
GTGGGTGTGCCCGTTCCCACCCCAGCACTCTGCTCTGTTCCGAAGACCTCCCACCCCTCCCTGTGCCGTCACCAAGACTCTCTCCGCCTCCCACCGCACC
TGCTACCTTGTCACACAGCTCTAGACCTGCTGTCTGTGTCCTCGGAGCCCCGCCCTGACATCCTGGACATGCCTAGCCTGCACGTAGCTTTTCCGTCTTC
ACCCCAAATAAAGTCCTAATGCATCAGCCTCAYCTGTTTCTCTTACAGGGCAGAGACTAGCCAAGCCAAGGTCAGCCCAACTTAGGCATTGGAAGTCTTC
TGCCAGCCATCATCCAGCTGGACGTGGCTTCTGAAATGTGGAGCTGGGCCCTTGAACCCCCATGAATCTCTAGGGGAGAATGGTAGCAAGAGGTTATCAG
TCATTTGCACCTCAGTGTGAGTGAGTTTAGCCGACTGACATCTTAGAGAGAAGGGAGGACAGGTATCCTCCAAGCCCGGGTTAGGTGTGAGGTGCAGAAT
CACAGTCAGCAATAAAGGTATAACTGGAAGAAAACTCTGCCCAGAGCTCAGCAAGAAGAGGCAGGGAGAAGACGGGGTGACTCCACTTTCAAGAACACCT
GTGTCCTGCCTTACATCCTGACTCCTTTCCCACATTTGGGACCAAGTGCGGCACACAGCCTGTCTCCATACAAACAAGTTCTGCCTCCTCAGCCTCCCCA
CAAGAGCTAAAGGCCCCAGGCTTGAGACGGTGGGGGTGGGGGTGGGGGTAGGCGGAGCCCTCCCTTCCTCTTCCTGCCAGTAAGGACACACCAGGCCCCA
GCCACAGGCCCAACTTCCCTCTCTTTCACTGGACCCCAAACATTGGGAAACTGACAAATAGGGAGTGGGAGGGGGTGTTCCTGATGGAACCATATCTTTG
GGGCTCTCCTGTGCCAGCCTGCAGGCCTTGGTATGGGGGGGATGATGAGGGAAAGGACAAGAGGATCCACCTGAGATATGGAGAACCACAAGGAGAGGCC
CAGCCCTTTCCTCTCCACCCTGGTGGGGAGCCCATCCTTGCTCCCCTCACTCTGAG


SNP Information

Context             (SEQ ID NO:24161):
AGCCACAACCTGGACAAGCGCAGTGCTCAGTAGTGGGAGAGGAAGGGCCAAGATCTGGCTGGGGATGGGGAGGAGTGGCTCCCCCACTTAAAACATTTGT
S
CCCTCTGTCTCCCCATTCCAGCTGGCCTTGGGTGCGGCACTCGTGAATGTACAGATCCCCCTGCTCCTGGGCCAGCTGGTAGAGGTCGTGGCCAAGTACA
Celera SNP ID:            hCV15972934
SNP Position Genomic:     11823
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,2)   caucasian(C,15|G,9)   total(C,25|G,11)
SNP Type:                 INTRON;UTR 3

SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   JBIC-allele(G,364|C,1092)   total(G,364|C,1092)   no_pop(C,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:24162):
AGGCGGACGGAGACAGGCTCCCATTTTCAGCCCCAAACCTGACATTCCACAGAGACGTTCCTCCCATTTCCGCAGCTGCATGGACACCCTCGCGTGCCCC
R
TTTCTGCTCGTGCTCCCTAATCTGAGCACCTTCAGACCCTTTCTGGTCCCGGGCTCAGGCCTCCTTGGCAGCCTCGCCCTCCTCCAGCCCAAGGAGCTGT
Celera SNP ID:            hCV7599630
SNP Position Genomic:     15466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24163):
TGCCAGGCCCTAATGTCTTCCAGATCTCTGGTGGAGAATGTGCCCCTGCTCATCAACAGATAGCTGGCTGGGCTGGCTCCTTCCTGCCTGGTGCCTCCCC
M
GGCTGCCTTTAGCAAGTGCTGACTGCACTGAGTCCACTGGGACCTTTTCCTTTTGGGTTTCGAGGCTCCTCCCACTCACCCCCACCCTAGTGCTGGAAGA
Celera SNP ID:            hCV26653810
SNP Position Genomic:     16866
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,12)   total(A,2|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24164):
TCTCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCGCTTCACTCCAGCCGGGGTGACGGAGCGAGACTCTGTCTCAAAAAAAAAAAAA
A
CACAATGTCTAGAATAGTGGAATCGATGTTAGCATTTTATAGATGTGGCAGCTGAAGGAAAGAGAAGGTAATTGTCCTATTCAAGATGACAAGATAAGTT
Celera SNP ID:            hCV26653811
SNP Position Genomic:     10279
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24165):
ATCTCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCGCTTCACTCCAGCCGGGGTGACGGAGCGAGACTCTGTCTCAAAAAAAAAAAA
A
ACACAATGTCTAGAATAGTGGAATCGATGTTAGCATTTTATAGATGTGGCAGCTGAAGGAAAGAGAAGGTAATTGTCCTATTCAAGATGACAAGATAAGT
Celera SNP ID:            hCV26653812
SNP Position Genomic:     10278
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24166):
AATTGCTCAAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCGCTCCAGCATGACAGAGCAAGACTCCGTCTCAAATAAATAAATAAA
T
AAATAAATAAAAGTAAATGTAGGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGGGGCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTT
Celera SNP ID:            hCV26653813
SNP Position Genomic:     8086
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24167):
GGAAACAAACAAGGACCCTGAAACTACAACTCGAATGTAAATGCTTTATGAGAAGGGACTGATTCCTTTTTTTTTCTTTTCTTTTCTTTTCTTTTCTTTT
C
TTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGGTCTCGACTGACTGCAACCTCTGCCTCCTGGTTTCAAG
Celera SNP ID:            hCV26653814
SNP Position Genomic:     7068
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24168):
AGAGGTCGTGGCCAAGTACACAAGGGACCACGTAGGGAGTTTCATGACTGAGTCCCAGAATCTCAGCACCCACCTGCTTATCCTCTATGGTGTCCAGGTA
Y
AGCCGGGAGTGGGGCTGGGGACCGCCGAGGAGCCACCCGAGGCATCCCTGAGTGCACTGGGCTCTTTCGCAGGGACTGCTGACCTTCGGGTACCTGGTGC
Celera SNP ID:            hCV25953164
SNP Position Genomic:     12004
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,32)   total(C,58|T,4)
SNP Type:                 INTRON;NONSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:24169):
CCTGTTTTCTGGACTCCTTGTCCTGTTTCCTGGACTCCTTGCAGATCGCCAGGGCAATGGGCGTAGCAGACGAGGCCCTGGGCAATGTGCGGACTGTGCG
W
GCCTTCGCCATGGAGCAACGGGAAGAGGAGTGAGTCCTGGGAGGGCGGAGCACAAAGCAGAGATGCCCCCCACACCCTGCCAACCCTTCGTGCCAGCCCA
Celera SNP ID:            hCV2951304
SNP Position Genomic:     13510
SNP Source:               Applera
Population(Allele,Count): african american(A,10|T,24)   caucasian(A,10|T,28)   total(A,20|T,52)
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,4)   caucasian(A,6|T,22)   total(A,10|T,26)   
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,9)      total(A,4|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:24170):
CAGAGCTGGAAGCCTGCCGCTGCCGGGCAGAGGAGCTGGGCCGCGGCATCGCCTTGTTCCAAGGGCTTTCCAACATCGCCTTCAACTGTGAGTGAGCCAT
Y
TGGGGGCTGGAGGGGCGCTTGTGGGCTGGGGAGGAGCTGGGAGCAGCCAAGGCAGGCAAAGGCCCTCCCTTCATCTGCTGGCTGCCTGCATTCGCCTCGG
Celera SNP ID:            hCV25593851
SNP Position Genomic:     13756
SNP Source:               Applera
Population(Allele,Count): african american(T,6)   caucasian(C,1|T,21)   total(C,1|T,27)
SNP Type:                 INTRON


Context             (SEQ ID NO:24171):
GATAGACTGTCCCATTGTGTATGGTGGCCCCTCCAGTTTCTGGGGCAAAGAGAATGTTTCTATGGACTCTGTCTCCATAACCCCTCACCCACAGGAGCCC
R
TCCTGTTTGGGACGACCATCATGGAAAACATCCGCTTTGGGAAGCTGGAAGCTTCCGATGAAGAGGTGTACACAGCCGCCCGGGAAGCGAATGCTCACGA
Celera SNP ID:            hCV25593852
SNP Position Genomic:     19539
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,29)   total(A,1|G,61)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:24172):
CGACCATCATGGAAAACATCCGCTTTGGGAAGCTGGAAGCTTCCGATGAAGAGGTGTACACAGCCGCCCGGGAAGCGAATGCTCACGAGTTCATCACCAG
Y
TTCCCCGAGGGCTACAACACGGTCGTCGGTGGGTGCTCGGGTCTGCCGGGAACCAGGTGGTGAGGCACTGGGACACAGGATTCCACAGGAGCAGTGAGCA
Celera SNP ID:            hCV11631018
SNP Position Genomic:     19652
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:24173):
CCCTCCTGCCAGCTCCACACCCCATGTCGTGGGGTCTCGCTTTAACTGGAAGCTCTTCTGGCAGTTTCTGCACCCCCACCTGCTGGTCCTGGGGGTAGCC
R
TCGTGGTGAGGCTTTCCCCACTTCTCCATCCTGGGGACAGGGCAGGACCCAGAGCTGCAAAGGGATGGCATTCCTGCCTCGCTGCCTCTCAGGGGAGAGC
Celera SNP ID:            hCV25593853
SNP Position Genomic:     11484
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(A,2|G,28)   total(A,3|G,57)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:24174):
GGGGCAGAGCTGCTCACCACTACTAGGGGTGGCATGGGCAATGGGCTGGACATCATGCTGGACGTGCAGCAGGAGGAATATCTACCTGTGTGGAGGGACA
R
TGGTAGGGAGCACACAAATGAGGCTGGGGGAGGGCACGGATGGAGTGCAAAAGGCTAGGGGAAGGAGAGGAGGAGAGGAGGTGTCAGGGTGTTCCCCCAG
Celera SNP ID:            hCV11631019
SNP Position Genomic:     27826
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,13)      total(G,1|A,13) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24175):
CTGACCTTCGGGTACCTGGTGCTGCTGTCCCACGTTGGCGAGCGCATGGCTGTGGACATGCGGAGGGCCCTCTTCAGCTCCCTGCTCCGGTACTGCCAGC
Y
GCAGGGTGCAGAGTTGGGGTGACTGATGGCCTGAGGGGTCTGGGGGTAGGACCTTATCCTGAAGTAATGTCTCCCTCTTCTGCCCTCCTTATTGGTTCTT
Celera SNP ID:            hCV15972944
SNP Position Genomic:     12183
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,35|T,1)   total(C,67|T,3)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,26|T,2)   total(C,55|T,3)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,381|C,1104)   total(C,1104|T,381) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24176):
GTTTCTATGGACTCTGTCTCCATAACCCCTCACCCACAGGAGCCCGTCCTGTTTGGGACGACCATCATGGAAAACATCCGCTTTGGGAAGCTGGAAGCTT
S
CGATGAAGAGGTGTACACAGCCGCCCGGGAAGCGAATGCTCACGAGTTCATCACCAGCTTCCCCGAGGGCTACAACACGGTCGTCGGTGGGTGCTCGGGT
Celera SNP ID:            hCV15972945
SNP Position Genomic:     19594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:24177):
AGTCTGCAGCATTAGATCTGCTCTCCCCTTCTAAGCCACGCACCCTTGATCTCTGTTCATGGTGGCGGCCTCCGCATCCTCAGGGCCGAGCAGGGAGTCC
R
TGGGTCAGCTGGGCTCCCTTCCTCGTGGGCTGATATCACCGCTGCATGTGTGCACAGGCCTCACCCTGCAGACCACAGGCCAGGGCACTGGAGGACACCC
Celera SNP ID:            hCV2073099
SNP Position Genomic:     17450
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,18)      total(G,18|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24178):
AGGCACTGGGACACAGGATTCCACAGGAGCAGTGAGCAGCCCAGTGGGACTGAGGGCAGCAGGGACAGCTGGGGAGAAAGACAGTTGTGTCAGGGAAGAC
S
AGAACCACAGCCAAAGGGGACAGAGTCGTTGTGTGGGGACAGGGGAGTCCAGGCCAGTGTGGTTCAGAACCAGCAGACCAGGCAGGCTGCAGAGACAGGA
Celera SNP ID:            hCV15972946
SNP Position Genomic:     19815
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,390|C,1105)   total(G,390|C,1105)no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24179):
GCCTTGATAAATTACAGGCCCTCCATACCAATAGTTCTCAATGGCTGAGGCGTAGGGCAAGAGTGTCAGAATCACCGGGGGAGTTCTTCCCCAAGTACAC
S
TGACTGTGGGGAAAAGAAAGAGAGATCAGATTGTTCCTGTGTCTGTGTAGAAAGAAGTAGACATAGGAGACTCCATTTTGTTCTGTACTAAGAAAAATTC
Celera SNP ID:            hCV26653820
SNP Position Genomic:     4605
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,11)   total(G,11|C,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:24180):
CAGCACTTTGGGGGGCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCCGGCCAACATGGTGAAACCCCATACAAAACTTAGCCGGGTG
Y
GTTGGCTCACGCCTGTAATCCCAGCACTTTGAGGGGCCGGGGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATGGTGAAGCCC
Celera SNP ID:            hCV11436093
SNP Position Genomic:     8239
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,10)   total(C,10|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24181):
AGGCATGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTCAGCCAGCATAGC
R
CCACTGCTCTCCAGCCGGGGCAAAAGAGTGAGACCCTGTCTTGAAAAGAAAAGAAAAGAATCAGAATACATGTTAAGAATTAGAGAAAATGTTATTTTGT
Celera SNP ID:            hCV11436094
SNP Position Genomic:     8469
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24182):
CCGGCATGAAGGAGGAGGAGGAGGTGGCAGTGGCATGGGGAGGAGGGGCACCGATCCGGGCCCCAGATCTCCCCACCGCCCCAGCCGCCTTCTTCTCCCC
Y
CCCAGCCCATTCGGCTCACCATCAGGCCACGGCTTCTCCAGAAAGGTTGGAAGGATGGGAGCTGTTGTTGCTTCCACAAAGGTCTGTGACACTGAGCTGG
Celera SNP ID:            hCV27848289
SNP Position Genomic:     1997
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,2)   caucasian(C,10)   total(C,12|T,2)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24183):
AGCTCCACATGATTTTTTTCATCTGTCAGGTGAGAATAATGGCACCTCCCTCCCAGGGAGGTGAGGATCAAGGGAAGTAGCCCATTAGCTCCAGGAGGTG
R
GGCTGTGTCTGCCCTGGTGGCTGCTGTGAGCAAGTCCAGTGCCGGGCACAGGAGCAGCTCTCTTTCCTCACCTCTCTGCACCGTGGTCCCTTAAACCCCC
Celera SNP ID:            hCV11436096
SNP Position Genomic:     10705
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24184):
GCCAGGCCCTAATGTCTTCCAGATCTCTGGTGGAGAATGTGCCCCTGCTCATCAACAGATAGCTGGCTGGGCTGGCTCCTTCCTGCCTGGTGCCTCCCCC
R
GCTGCCTTTAGCAAGTGCTGACTGCACTGAGTCCACTGGGACCTTTTCCTTTTGGGTTTCGAGGCTCCTCCCACTCACCCCCACCCTAGTGCTGGAAGAA
Celera SNP ID:            hCV11436098
SNP Position Genomic:     16867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24185):
GGGTGACTGATGGCCTGAGGGGTCTGGGGGTAGGACCTTATCCTGAAGTAATGTCTCCCTCTTCTGCCCTCCTTATTGGTTCTTGTCCCATGCCAGACAA
R
ACATCACCTTCTTTGACGCCAATAAGACAGGGCAGCTGGTGAGCCGCTTGACAACTGACGTGCAGGAGTTTAAGTCATCCTTCAAGCTTGTCATCTCCCA
Celera SNP ID:            hCV25593861
SNP Position Genomic:     12300
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(A,2|G,30)   total(A,3|G,59)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24186):
TTTAAGTCATCCTTCAAGCTTGTCATCTCCCAGGTCAGTGGCCCAGTGGCCCCCACCACGTCCACACACACACTTTCCCATGTGGATTCACCAGGCCAGC
M
CTGCCCGCCCCAGCCCTGATGTTGGGCTGACAGGCGCATGCTGACTCGAGAAACCCACTGCCTGTGAGGGCATGGGTGAGGGACCATGGAAGTTCATGGA
Celera SNP ID:            hCV25593862
SNP Position Genomic:     12469
SNP Source:               Applera
Population(Allele,Count): african american(C,20)   caucasian(A,1|C,35)   total(A,1|C,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:24187):
AGGGCTCAGCAGGGGCAGGGTCAGGGAGGATAACCATGGGCTGCTCTGGGGGCTGGGGCAGGAGCCCACCTGGCTGTCCCTGATCACTGCAGCATCCCGG
Y
ACCCCCCCTTCCTCCCGGCAGACAATTTATTTTCATTGTCACCTTCACAACCTTCCTCCTTCGATGCGTGGATTACAATGTTCTCTTTGCCAACCAACCA
Celera SNP ID:            hCV25973533
SNP Position Genomic:     30333
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,34)   total(C,65|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24188):
CCCTGATGGGAGTGGGCACCCTGATGGGCTCAGGCCTCCGAAAATTGTCTCGCCAGTGTCAGGAGCAGGTACCGGCATTCCTGGCCATCCTCTTCACCCT
S
CCCACACCGTTTCTCTTTCCACTCCCCGGAACTCCTCCCTGTCCCCATCCTGGACTCCTTGTCCTGTTTTCTGGACTCCTTGTCCTGTTTCCTGGACTCC
Celera SNP ID:            hCV25593863
SNP Position Genomic:     13347
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,36)   total(C,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:24189):
GAGGCCAATCCCTCCCTCCCCTCCCCAGTCCTGCCGGCTGCCTCCCTCCCACCAGAGTCTGCCAGAGTCATTGGGCTGCAATGGGCAGAGACAGAGTTCC
M
CGAGACACCTCCACTCTATTCTCCCTTTGCCCAGACCCCTCCAGACCTCTCAAGAGACGTTCTGGCCAGTCTCCCTGCCCCACCCAGCAGCTTCAAATTG
Celera SNP ID:            hCV7599618
SNP Position Genomic:     23185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:24190):
TGGGCATGGTGGTAGTCCCAGCTACTCGGGAGGCTGAGGCAAGAGAATCGCTTGAACCTGGTAGGCAGAGGTTGCAGTGACCTGAGATTGCGCCACTGCA
Y
CCCAGCCTGGCAACAGCAAGACTCCGTCTCAAAAAAAAAAAAAGAAGCCCAGTGGCTCCCTTAATAAAATCACCCCTTAGCCCTCTGTGGTGGGCAGTGG
Celera SNP ID:            hCV3216741
SNP Position Genomic:     16049
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,11)   total(C,11|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24191):
CTGCTCACCATCCTCGAGATCCTAGACTACCTCTGTGAGGTGGGCCAGGGCCCCCACTGCAGGGGGTGGGAGGTGGGAATCAGGGCCCCTAGGATGAGGG
R
GAAGGTGTGCACTGGCCACCTCCCATCCTGCTTGCCTCCAGGTGTTCCGAGACAAGGTCCTGGGATATTTCTGGAACCGACAGCACTCCCAAAGGCACTC
Celera SNP ID:            hCV29193867
SNP Position Genomic:     29696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24192):
GTGGGAGCTGCCTATTGACTGGGTGTGGGCGGGCAGAGGAGCTGGGGAGACCCCAGCCCAGAGCCATGGCCACTCCCTGGAGATGCTGTTGTCACCCCTA
Y
TCCTGCCTCCCTGCGGACTTTGGATCCCCTCCCACAGGTGGTCCGGGGGCTGAGTGCAGGTGCCCGGGTCTTTGAGTACATGGCCCTGAACCCCTGCATC
Celera SNP ID:            hCV3216742
SNP Position Genomic:     18032
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24193):
CCCAGAGGCCGTGTGGCGTTGGCTAACAGCCACTCATTCAAGCCAAGGCTGAGGGGCTCGTGCAGGGAGACGGATCCTGAGTTGGAGCCTTGGGCTCTGT
R
AGGGGGACAGAGGGAATCATGTTCTTCCAAAATTCAGCTAAGTAAGGAAGTGGCAGTAACTAATGCAGCATGCCAGTGGCGGTTCCTTTCAGATTGGGCA
Celera SNP ID:            hCV3216743
SNP Position Genomic:     22540
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24194):
ACTAGATGGTGCTTTGGGGACAAGCCATCCAAAAACCCCAGGCCCACATCCACCCTGATTTGATATCCCACTTCCTGACAGATCAGAGGCTGTGTCTTTA
R
GCAGTGGAGGTCCAGGAGCAGAGCCTGGGGCTGGTTCACAGCTAAACCCCTCCTTAGGGCAGCCCAGAGTAGGGCCTCAGCTGGCAAGTCCACAAGCCCT
Celera SNP ID:            hCV29193869
SNP Position Genomic:     24526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:24195):
ACCCTTGCTAGGACCTCACTTCCCTAGACTGGCGACTGACTCCCTCTCCTGTGTCCCCACTCCCTCCATGGGAGAAGGAGCCTATCCCCTGGCTCACCCC
R
GGACCCACAGTCCCCATCTTCCAAACAACCTCCCTCCTTTCTCCCTGCACAGTGAACACAGTCCTGATTTCTAGATTTCACCTCCCCTCCCCACCCACAA
Celera SNP ID:            hCV3216744
SNP Position Genomic:     23470
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:24196):
CTGGGACAATCCCTAGAATCCCTGGCCTCCCTCCCTCTCAACCCAATTCCCCAGGAAAGACCACCGTGGCTTCCCTGCTGGAGCGCTTCTACGACCCCAC
R
GCAGGCGTGGTGATGCTGGATGGGCGGGACCTGCGCACCCTTGACCCCTCCTGGCTCCGGGGCCAGGTTGTCGGCTTCATCAGCCAGGTGCGGGGCCACA
Celera SNP ID:            hCV25953216
SNP Position Genomic:     18717
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,7)   caucasian(G,34)   total(A,1|G,41)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:24197):
GCCTGAGCCTGCGCCGGGGGATGTGGGCAGCGGCCGTGGTCCTGTCAGTGGCCACCTTCCTCTACCAGGTGGCTGAGAGGGTGCGCTACTACAGGGAGTT
M
CACCACCAGACTGCCCTGGATGAGCGAGAAAGCCACCGGCTCATCTTCCCGGCTGTCACCCTGTGCAACATCAACCCACTGCGCCGCTCGCGCCTAACGC
Celera SNP ID:            hCV25645288
SNP Position Genomic:     26667
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,38)   total(A,1|C,71)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24198):
CCTGCGCCGGGGGATGTGGGCAGCGGCCGTGGTCCTGTCAGTGGCCACCTTCCTCTACCAGGTGGCTGAGAGGGTGCGCTACTACAGGGAGTTCCACCAC
M
AGACTGCCCTGGATGAGCGAGAAAGCCACCGGCTCATCTTCCCGGCTGTCACCCTGTGCAACATCAACCCACTGCGCCGCTCGCGCCTAACGCCCAACGA
Celera SNP ID:            hCV25645289
SNP Position Genomic:     26674
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(A,1|C,37)   total(A,1|C,71)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24199):
CCCCACAGCTGAGCTTCCTGCCACCGCCCTGGGGCGATTGCAGTTCAGCATCTCTGAACCCCAACTATGAGCCAGAGCCCTCTGATCCCCTAGGCTCCCC
M
AGCCCCAGCCCCAGCCCTCCCTATACCCTTATGGGGTGTCGCCTGGCCTGCGAAACCCGCTACGTGGCTCGGAAGTGCGGCTGCCGAATGGTGTACATGC
Celera SNP ID:            hCV2073102
SNP Position Genomic:     28422
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,26)   caucasian(A,9|C,29)   total(A,15|C,55)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,8)   total(A,5|C,8) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24200):
CTATGTCCTTTTGTGACTGCGTTTTGTCACTCCACATTGTGTCCTCAGCTTCCTCCGTGTTGCACCCTGTCCGAATTCCCTTCCGCTGCAGGCTGTGACA
Y
TCCATGCATGGAAGGACCATCCTTGACAGGCTGTGTGAGCTGCCCTTCCCCATGCCTGCCACTTCCAGGGATGACAAGCTGACCCCTGTCCCCACACACC
Celera SNP ID:            hCV3219439
SNP Position Genomic:     14865
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;MISSENSE MUTATION;UTR 3


Context             (SEQ ID NO:24201):
GAAGAGCTCCTGAAGAAAGGCGGGCTATACGCCGAGCTCATCCGGAGGCAGGCCCTGGATGCCCCGAGGACAGCGGCCCCACCGCCCAAAAAGCCAGAAG
K
CCCCAGGAGCCACCAGCACAAGTCCTGAGAAGGGCCCCCTGAGGTGTGGTCGCTGCCAAGCATCAGTGTTAGGGCTGGGGCTCAGCCTGGGGGAGCCTAC
Celera SNP ID:            hCV25951871
SNP Position Genomic:     22893
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(G,37|T,1)   total(G,71|T,1)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:24202):
GTCCATGCTGTCGACACGCCTCACGCTGCTGCTGATGGTGGCCACACCAGCCCTGATGGGAGTGGGCACCCTGATGGGCTCAGGCCTCCGAAAATTGTCT
Y
GCCAGTGTCAGGAGCAGGTACCGGCATTCCTGGCCATCCTCTTCACCCTCCCCACACCGTTTCTCTTTCCACTCCCCGGAACTCCTCCCTGTCCCCATCC
Celera SNP ID:            hCV25593870
SNP Position Genomic:     13297
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,35|T,3)   total(C,68|T,4)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:24203):
CTGCCACTGGGCCTCCCAGGGGCCAAGACCTGGGCCTTGGCCGTGGGAGTGCAGAGCTACAGTCAGCTGACCCTTGGAAAAGTCCTTCCTGTCATGGTGC
R
GACGCCGTAGCCTCCCGCCTTCCCTCCCACTCCCTAGGGGCTGCGAAGCTGCACCCAGGTGGCAGGCTGCCTGGTGTCCCTGTCCATGCTGTCGACACGC
Celera SNP ID:            hCV25593871
SNP Position Genomic:     13115
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,3|G,31)   total(A,3|G,39)
SNP Type:                 INTRON


Context             (SEQ ID NO:24204):
GTCCGGGGGCTGAGTGCAGGTGCCCGGGTCTTTGAGTACATGGCCCTGAACCCCTGCATCCCACTGTCTGGGGGCTGCTGCGTCCCCAAAGAGCAGCTGC
K
TGGCTCCGTTACATTTCAGAACGTCTGCTTCAGGTCAGCACGGGTGAGCAGGCGTGGGGATGGGTCCCTGGGCCGGGGATGAGGCGAGTGGATTCGGGGG
Celera SNP ID:            hCV25593872
SNP Position Genomic:     18173
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,1)   caucasian(G,28)   total(G,57|T,1)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:24205):
AGGAGAAGAGGTGGTACCTGCAATGCACCTTCACAGCCAGGCAAGCATTCTGGATTTACCCTGTGTAAAGAAGGGTGGTACCCTCTTTCAGGGGTGTGAT
R
CAGTGCATTGATGGAGCAGCTGGTGCTGCTGGGAGGCCAGCCTGGAAGAGGCAGCAGTGGCTCAAGTTTGCGTGCAGGAGCCAGAGTGGGACCCACGGGC
Celera SNP ID:            hCV29193870
SNP Position Genomic:     24305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:24206):
ACCGGCATTCCTGGCCATCCTCTTCACCCTCCCCACACCGTTTCTCTTTCCACTCCCCGGAACTCCTCCCTGTCCCCATCCTGGACTCCTTGTCCTGTTT
Y
CTGGACTCCTTGTCCTGTTTCCTGGACTCCTTGCAGATCGCCAGGGCAATGGGCGTAGCAGACGAGGCCCTGGGCAATGTGCGGACTGTGCGTGCCTTCG
Celera SNP ID:            hCV29193871
SNP Position Genomic:     13417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24207):
CAGCCAGAGCCCCATGGGTGTGCTGGTCAGCAGGAGGGCAGTCGGAGCCTCAAGCCATCCATGCCTCTCTCTCCTTACAGGTACTCTGATGGCTACCGCA
R
CTCCTCCCTCCTCCGGGCCGTGGCCCACCTGCGGTCCCAGCTCTGGGCCCACCTCCCTCGAGCCCCCCTAGCTCCCAGATGGAGCCCCTCTGCCTGGTGC
Celera SNP ID:            hCV29193872
SNP Position Genomic:     11197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;UTR 5;hmCS


Context             (SEQ ID NO:24208):
TACTACAGGGAGTTCCACCACCAGACTGCCCTGGATGAGCGAGAAAGCCACCGGCTCATCTTCCCGGCTGTCACCCTGTGCAACATCAACCCACTGCGCC
R
CTCGCGCCTAACGCCCAACGACCTGCACTGGGCTGGGTCTGCGCTGCTGGGCCTGGATCCCGCAGAGCACGCCGCCTTCCTGCGCGCCCTGGGCCGGCCC
Celera SNP ID:            hCV25645290
SNP Position Genomic:     26753
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24209):
CCCTCCCGCAAGTCTCATGTCTCTTTTCCCTTCTTGTAGGTCAGGCTTCAGCCATACAATTCCTGAAATTTCTCTCCCATCCTTTCTTACTGGAGATACC
Y
GCACTTGCTTTTCCTCTGCCTAGAGCTCTCCCCTTTACACTCCACCCCCACCTGTGCCTGGCCTGTTCCCCCTCACAGGTTCCCCCTTACCTAGAAGGCC
Celera SNP ID:            hCV29193873
SNP Position Genomic:     9697
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24210):
TAGGCCTAAGCCCTAGAGACCTTGACACCTGGTGGCTGAGTCAGTATCTCAGTAATGGGCTTTAGAAGGAAACCTGGTGATTCAGGGCCTCAAGAATGGC
R
TTGGGCAAGCCACCAGACCAGCTGCCTGGGTCTCCTCCTCCTTGTTGAGGTGACAACAAGGAACTCAGTTCAGCTCCTCCCTGGGTATCCAAATTATCCT
Celera SNP ID:            hCV27477736
SNP Position Genomic:     27492
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,43|G,1244)   total(G,1244|A,43) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:24211):
TCCCAGGAAGCGGGAGGCGGACGGAGACAGGCTCCCATTTTCAGCCCCAAACCTGACATTCCACAGAGACGTTCCTCCCATTTCCGCAGCTGCATGGACA
Y
CCTCGCGTGCCCCGTTTCTGCTCGTGCTCCCTAATCTGAGCACCTTCAGACCCTTTCTGGTCCCGGGCTCAGGCCTCCTTGGCAGCCTCGCCCTCCTCCA
Celera SNP ID:            hCV28036141
SNP Position Genomic:     15452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24212):
ACCCCCATGCAGTTCTCTTTGTTCAGTTCCTAGAACAGAAAGAGAAGCAAGCTGGGATTTGTCTAGGGGAAGGATGCCACAGTTCATAGCATTCTCGCTC
R
GCCCCCTCAGGCCTGCTGCTCGCACCCCAACTGGCCGAGTTAGGGTTACGTACTGTGACCGGTGGACTGCCACTGGGCCTCCCAGGGGCCAAGACCTGGG
Celera SNP ID:            hCV3219440
SNP Position Genomic:     12948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,10)      total(G,10|A,5) ;JBIC-allele(A,523|G,964)   total(G,964|A,523)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24213):
CTGCTCAGGAGGCTGAGGCAGGAGAATCTCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCGCTTCACTCCAGCCGGGGTGACGGAGC
R
AGACTCTGTCTCAAAAAAAAAAAAAACACAATGTCTAGAATAGTGGAATCGATGTTAGCATTTTATAGATGTGGCAGCTGAAGGAAAGAGAAGGTAATTG
Celera SNP ID:            hCV3219442
SNP Position Genomic:     10253
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24214):
TCACCCTGTGCAACATCAACCCACTGCGCCGCTCGCGCCTAACGCCCAACGACCTGCACTGGGCTGGGTCTGCGCTGCTGGGCCTGGATCCCGCAGAGCA
Y
GCCGCCTTCCTGCGCGCCCTGGGCCGGCCCCCTGCACCGCCCGGCTTCATGCCCAGTCCCACCTTTGACATGGCGCAACTCTATGCCCGTGCTGGGCACT
Celera SNP ID:            hCV25645298
SNP Position Genomic:     26823
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,37|T,1)   total(C,70|T,2)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,39|T,1)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24215):
CTGACCTCGGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCTCACCTGGCCATCCTTTCTAATCCTAGAGTGAATTA
S
TTGGGGGCCAAACAGATAGAAGATTCCCAAGGGCAGGTGGATGTGGAGTTGTGTCATTTGGAAAGCCCATCTGACTGATGGAGGGCAAGAGCTGGATCGA
Celera SNP ID:            hCV3219444
SNP Position Genomic:     7393
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24216):
GCGGCTTCTTTAAATCCAGCCCTTCACCCGCCCCCTAGAGAAGCAGTGAAACCCCTTGGCTAGTCCAGCTGGAAGAGCTAGACCGCAGGAGCCGCGCCGT
C
TTCCTAACCTCGCCTCGGCCTTCGCTCCACAGTGGAGAGTGGGAGCCTAGCTGTGCTTGATGCTGAATGCCTGTTTTGAGAGTGTGAGTGGGATCATCTA
Celera SNP ID:            hCV26653804
SNP Position Genomic:     24858
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,8)   total(C,8|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:24217):
CAGGTCCCTCCCCGACAGAGGAGACCCCGTTTGAGGTGGGGATCCGAGTGCAGATCCACAGCCAGGAGGAGCCGCCCATCATCGATCAGCTGGGCTTGGG
K
GTGTCCCCGGGCTACCAGACCTTTGTTTCTTGCCAGCAGCAGCAGGTACCCTTCCGTGTGCCTCCACACCTACTACTTCAAGCCCACACCACCTCGGACC
Celera SNP ID:            hCV25645299
SNP Position Genomic:     28135
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,37|T,3)   total(G,70|T,4)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24218):
CTCCAGTCGCCAGCAGGAGGCTCCTGCGTCTGCAGCCGCGTGTCAGCCAGAAGGAGGGGACGCTCGGGGTCAGTGACCACGCCCAGTCCGCACTCCCGAC
Y
GGGGGTCCCCTTTCCTGGCCCTGGAGGTGATTGCGCGATTTGGACGAAAATTCTTATTAGTATGAAGAGACATTTAATGTAGTGGTGCTTCCAGGATTCA
Celera SNP ID:            hCV3219445
SNP Position Genomic:     6445
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24219):
GGCGGCTTCTTTAAATCCAGCCCTTCACCCGCCCCCTAGAGAAGCAGTGAAACCCCTTGGCTAGTCCAGCTGGAAGAGCTAGACCGCAGGAGCCGCGCCG
T
CTTCCTAACCTCGCCTCGGCCTTCGCTCCACAGTGGAGAGTGGGAGCCTAGCTGTGCTTGATGCTGAATGCCTGTTTTGAGAGTGTGAGTGGGATCATCT
Celera SNP ID:            hCV26653805
SNP Position Genomic:     24857
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:24220):
GGGTCGGGATTCGGGGTGGCCCATTCCCAGGCAGGCTGCTACCGCCCCTCCGCTTCCAGACATTCTCAGCTGTCAGGTAAAAACGGAAAAACCTACTCAG
M
GCGGGCCATTGACCGCCCGGCAGGGCAGTGCCGGCCCGCCGGGAGATGGAGTCCACGAGCTTGCGCGAGGCTTGCTGGGAGCTGTAGGCCAGGCCTACCG
Celera SNP ID:            hCV3219446
SNP Position Genomic:     6195
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,2)   caucasian(A,22|C,10)   total(A,26|C,12)
SNP Type:                 INTRON;UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,7)      total(A,7|C,2) ;JBIC-allele(C,465|A,1035)   total(A,1035|C,465)
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24221):
GGGCGGCTTCTTTAAATCCAGCCCTTCACCCGCCCCCTAGAGAAGCAGTGAAACCCCTTGGCTAGTCCAGCTGGAAGAGCTAGACCGCAGGAGCCGCGCC
G
TCTTCCTAACCTCGCCTCGGCCTTCGCTCCACAGTGGAGAGTGGGAGCCTAGCTGTGCTTGATGCTGAATGCCTGTTTTGAGAGTGTGAGTGGGATCATC
Celera SNP ID:            hCV26653806
SNP Position Genomic:     24856
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,8)   total(G,8|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:24222):
TCTTCCAGGCTGGGACACATGAAGAGCTCCTGAAGAAAGGCGGGCTATACGCCGAGCTCATCCGGAGGCAGGCCCTGGATGCCCCGAGGACAGCGGCCCC
M
CCGCCCAAAAAGCCAGAAGGCCCCAGGAGCCACCAGCACAAGTCCTGAGAAGGGCCCCCTGAGGTGTGGTCGCTGCCAAGCATCAGTGTTAGGGCTGGGG
Celera SNP ID:            hCV25951910
SNP Position Genomic:     22873
SNP Source:               Applera
Population(Allele,Count): african american(A,31|C,1)   caucasian(A,37|C,3)   total(A,68|C,4)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:24223):
CACCACCTCTTCACCCTCTGACTCTTCTCTAGCAGCCACTCAGAGCAAGGCCGGGAGCAGTGAGCCCCCGGTGGGGTCCCTTCCTCCACTGCCACAAGGG
G
CCTTCTTTCCTGGGACAATCCCTAGAATCCCTGGCCTCCCTCCCTCTCAACCCAATTCCCCAGGAAAGACCACCGTGGCTTCCCTGCTGGAGCGCTTCTA
Celera SNP ID:            hCV26653808
SNP Position Genomic:     18607
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,9)   total(G,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24224):
GGGAAGCACAGTGTCCATATCGCCATTTCAGGGGTACTGGCCCCAACATCAGCCCTTAGGCCTAAGCCCTAGAGACCTTGACACCTGGTGGCTGAGTCAG
Y
ATCTCAGTAATGGGCTTTAGAAGGAAACCTGGTGATTCAGGGCCTCAAGAATGGCGTTGGGCAAGCCACCAGACCAGCTGCCTGGGTCTCCTCCTCCTTG
Celera SNP ID:            hCV27830763
SNP Position Genomic:     27436
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,34|T,2)   total(C,68|T,2)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:24225):
CCAGGCCCTAATGTCTTCCAGATCTCTGGTGGAGAATGTGCCCCTGCTCATCAACAGATAGCTGGCTGGGCTGGCTCCTTCCTGCCTGGTGCCTCCCCCG
G
CTGCCTTTAGCAAGTGCTGACTGCACTGAGTCCACTGGGACCTTTTCCTTTTGGGTTTCGAGGCTCCTCCCACTCACCCCCACCCTAGTGCTGGAAGAAG
Celera SNP ID:            hCV26653809
SNP Position Genomic:     16868
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,14)   total(G,14|-,2) 
SNP Type:                 INTRON


Gene Number:                 80
Celera Gene:                 hCG18905 - 63000132530418
Gene Symbol:                 PSMB4
Protein Name:                proteasome (prosome, macropain) subunit, beta type, 4;HN3;HsN3;PROS26
Celera Genomic Axis:         GA_x5YUV32VSLS(9982015..9996406)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12240):
CAGGTCAGTAGAAAATACTCAAACTGAAGGACAGAGATTTAAAAAAGAATAAAAAAGAAAAAGAAAGGAGGAAGATTAGGGGTAAGCTAAAATATCTACC
ATACATACATCTGGAGTCTCAAAAGGAGAGAAGAAAGATTATTGGGCAAAAGCAATATTGGAAGAGATAAAAACAGTAGTGCAGCCATGGATAAACTGGA
CATGTTTTCTTTCTTATCTTCCTTTTATAGCCCCTGAGGCCAGATAATTTTCCAAACTGATGAAAGATATCAACTCACAGAGTCAAGAAGCTCAGCAAAC
CCAAGCAGGGCAGATACAAACAAAACAATTCCTAAGAATATACTAGTAATGCTATTAAACACTGGCCAGGCATGGTGGCTTATGCCTGTAATCCCAGCAC
TTTGGGAGGCTGAGGTAGATGGATTACCTGAGGTCAGGAGTTCAACACCAGCCTGGCCAACATGAACCCCATCTCTACTAAAAATACAAAAATTAGTCGG
TCATAGTGGTGTGTGCCTGTAATCCCAGCTACCTGGGCAGGCAGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCATTGAGCCAAGATCATG
TCATTGCACTCCAGCCTGGGCAACAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACACAAAAAACAAACAAACAAAAAAAA
CTATTAAACATCTTAAAGAAGTCAGAGGAAAAAAAGCCACATTACCTTCAAAGAAACAATATGACTAACAGGTAACTTTTCAACAAAAACAACAGAAGTT
TGCTGGGTGCAGTGGCTCACACCTGTAGTCCTAGTACTTTGGGAGGTTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGTCTGGCCAATAT
TATGAAAACCCTTCTCTACTAAAAATTGAAAAATCAGCTGGGCGTGGTGGCACATACCTGTAAACCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCT
TGAACCCAGGAGGTAGAGGTTGCAGTAAGCTGAGATTGCACCACTGCACTCCAGCCTGGGCAATAGAGTAAGACTTTGTCTCAAAAAAGAAAACAAAACA
AAACAAAAACCGAAAAACAAACAAACAAAAAACCAATGGAAGCCAGGAGACAATGAAATAACACATTTAAAGCTCCAAAAGAAAATAACTATCAACCTGT
GCCAAAGGATAAATGCTACAAAAATAAAAGTTTAAGAAAGACACTTTTACCAAAACAATCTTGAAGAAGAACAAAGTTATAGGTCTCACATTTCCTGATT
TCAAAACTTATGACAAAGCTACAGTAATCAAAACAGTGTGGTACTGTCATAAAGACAGACACACTGGCCAGGTGCGGTGGCTCACGCCTATAATCCCAGC
ACTTTGGGAAGCCAAACTGGGAGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAAATACAAAAAATC
AGCCAGGCGTGGTGGTGGGCGCCTGTAGTCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCCGGGAGGCAGAGCTTGCAGTGAGCCGAG
ATCGCACCACTGCACTCCAGCCTGGGCAAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAGACAGACATACAGACCAATGGAATAGAATAGAG
AGCCCAGAAATAAACATTCACATACATGATCAAATGAGTTTTGGGCTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTTGCTCAGGCTGGAA
TGCAGTGGTGCAATCATAGCTTATTGCAGCCTTGAACTCTTGAGCTCAAGCAATCCTCCTGTCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACATGCC
ACCACACCCGGCTAATTTTTAATGTTTTTGTAGATATAGGGTCTCATTAGATTGCCCAGGCTGGTCTTGAATTCTTGAGCCCAAGCAATCCTCCTACCTT
GGCCCCCCAATGTGCTGGAATTACAGATGTGAACCATTACACCCAGCCTCAAATGAGTTTTGGCAAGGGAGCCAAGACCATTCAATGGGGAAAGTAGAGT
CTTTTCAACAAACAGTAGTGGGAAAACTGGATATCCACATGCACAAGAATGAAGTTACAGCAATACAAAAATTAATTGGAAATGAATCAAAGATTTAAAC
TAACAGCTAAAACTGAACTGTTAGAACACGGGAAAAGCTTCATGACATTGCATTTGGCAACGATTTCTGGAAATGACACCAAAGTCAGGACAAGAAAAGA
AAATAAATAGGACTACATCAAAATTAAAAGCTTTTGTGCATCAAAGGACACTTTGCAAGACAAACTCAGTTCCTGCCTTTATGGAACTTTTAGCTTAGTA
AGGCAGTCTTTCAAGTTATGACGAATGCTATGAGAGGTGTTATAGAATTGAATTACAGAGGATATAAAACTTCAAAAATCCTCAGGGGATCCTCAAGGGG
GACTCACATACTAGTGCAGCCATGGATACATTGGATATGTTTTCTTTCTCATCTTTCTGTTCTAGTCCCTTGGGACAGACCTTGCGTAGGTCAAGAAAGA
ATCCTTAACTGTATTGGAGTTGAAGGTTCAAATCCCATTCTCTTAAAAAGTGGAGTAGTGGCCCGGGCACGTTGGCTGACGCCTGTAATCCCAGCACTTT
GGGAGGCCAAGGCGGGCAGATCACCTGAAGTCAGGAGTTCGAGACCAGCTTGGCCAACATGGTGAAACTCCATCTCTACCAAAAATACAAAAATTAGCCA
GGCATGGTGGTGGGCACCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGGGCCAAGATGTCT
TATGTCTTGTTCTCACGGTTCTCACGTTCTTTTGAATATTGCATCATCAGTAGTTAGCAGTTTGCTTTCTCTGACATCCTACTCTCAGGAGGGATGACKC
TGGATCCKCTCATTTAAAAAATTATTTTATATATAGATAAAATATATAGCTATATTACCCCACCGGTAACATAGCTTCTAAAAGCTCAGGGTCACATCCC
TGAGGTGACCCTCTCCTGCCTTAAAGTGTCTGCCTGAGAAAACTCAAGGCTGCCAAAATAATTTACRTTGTTCCAGCCAATACCTGAGAATAGGCCAGGG
GCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGTGGGCAGCTTTCTCTCTCTTTCGTTCTTCCTTTCCTTCCTTTCCTTTCCCTCCCTCCCTCTCTCT
CTTCTCTTCCTTCCTTTCCTTTTCCTTCCTTTCCTTTCCCTTCCTTTCTTTCTTCCTTTCTTTTTCTTTCTGTCTGTCTCTCTTTCCTTTCTTTCTTTCC
TTCCTTCCTTTCCTTTCCTTCTTTCCTTTCTTTTCTTTCCTTTTTTTGAGACAGCGTTTCGTTAGTTCTGTCACTCAGGCTGGAGTGCAGTGGTGCAATC
TTGGCTCACTGCAACCTCTGTCTCCTGGGTTCAAACAAATCTCCTGCCTCAACCTCCCAAGTACCTGGGATTACAGGCGTGTGCCACCACACCCGGCTAA
TTTTTGTATTTTTTGTAGAGATGGGGTTTCATCACGTTGGCCATGCTGGTCTTGAATTCCTGACCTCAGGTGATCCGCCCATCTAAGTCTCCCAAAGTCC
TGGGATTACAGGCATGAGCCACCGCGCCCGGCCTGAGGTGGGCAGATTTCTTGAGCTCAGGAGTTTGAAACTAGCCTGGGCAACATGGTGAGATCTCTCC
TGGTCTCTACAAAAAAATACAAAAATTAGGCCGGTCGTGGTGTCTCACGCCTGTAATTCCATCACTTTGGGAGGCTGGGGTGAGAGGATTACCTGAGGTC
AGGAGTTTGAGACCAACCTGGCCAGTGTGATGAAACCCCATCTCTACTAAAAATACAACAACAACAACAAAAAAAAATTAGCTGGGCATGGTTGTGCACC
CCTGTAATCCCAGCTACTGAGGAGGCTGAGGCTGGAGAATCGCTTGAACCAGGGAGGCGGAGGCTGCTTTGAGTTGAGATCGTGCCACTGCACTCCAGCC
TGTGCAACAGAGCAAGACTCCCTCTCAAAATAAGAAAAAAAGAAAAAAAACAAAAACAAAAATTAGCCGGGTGTGGCATCTGTAGTCCCCAGCTACTCGA
GAGGTTGCAGCTGGAGGATCGCTGGAGCCGGGGAGGCAAGGGTCGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCCAGACCTT
GTCTCAAAAAACAAACAAACAAAAGACACCTAAGGACAGRGTTGAGGYTGGTAYCCTCACCAGTCTCTGTGGGAGGATGGAATCCTAACTTCCATAAATG
CCAGCTAGCAGACATCATTGACCTAAGCACATTTACATTGACTAATTCTGTAAATGTTCACTTCCCTGACTCTACTGACCCTCTGTCTCACTGTCCCCTA
ACCTCATTTTCCCTATAAAATACCCATTACTTGCATACAAATTGCAGTTGAGTTCAGTTCATGCTGAACTGTTTTTCCTTATTGTAGTAGTTATTACTGA
TTGAAATCTGTCCTTTCCACTTTAGTGTCCGGCTTTGTTTATCTTTGACAAAATTCACCAGTTTGATTCAAGACAGTTTCCAGCCCCTGCTATGGAGTTA
CACTGAGAAGGAAACCCCTGGAATTTAGTTTCACCCCTACACTTCCAATGGAATTTTTCTGTTTCTTTAGAGGTGGGCAAGGGCCCTTGACAATAAGGAA
ACTTTCAGACTTGTCTAAGGTCCCACAGAGAGTGCTTGATCCACCTGAGCTATCACACCCCACAGGGTATACACAAGTGTATTCTTTTTTTTTTTTTTTT
TTTTTGTGACAGGGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCCACCTTGGCTCACTGCAACCTCCCTCGGGTTCAGGCGATTCTCCCACCTC
ACCCTCCCAAGTAGCTGGAATTACAGGCCTGGCTAATTTTTTGTTTTGTTTTGTTTTGTAGAGGTGAGGTCTCACCATGTTGCCAAGGCTGGTCTTGAAT
TCCTGGGTTCAAGTGATCCTCCCGTCTTGGCCTCCCAAAGTTCTGGGATTACAGGCATGAGCCACCGCACCCGGCCCTGATTCCTTTTTTTATTCTAGCT
TCAAGATTCAGTTCTACCGTTATCGGCTGTGTGACTGGGTAAATCACTACACCGCAAGCCTCGGTTTCCTATTTACCAAATGGGTCGAATAATGCCTGCC
ACATGGGGCTGCTCTGAGGAGTACAGATGTAAGAGATCCTGTGTTCACTGATATTTTCATGTGGGCTTTTTGATAATGATACAAAAGGAACATGAGAACW
GTGACTTCTAGGCCGGGCGAGGCGGCTTACTCCTGTAATCCCAGCACTTTGGGAGTCCGAGGCAGGCGGATCACCTGAGATCCGGAGTTCGAGACCAGCC
TGGCCAACATGGTGAAACCCCATCTCTAGCAAAAATACAAAAAATTAGCCAGGCGTGGTGGCAGGCGCCTGTAATCCCAGCTACTCGGGAGGCTAAGGCA
CGAGAATCGCTTGAATCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCATTCCAGCCTGGGGGCCAGAGCGAGACTCCGTCTCAAAAAAA
AAAAAAATAAAATAAAAAATTGTGACGTCTCACTCAGGATCAGCGTCTTTAAGTGGCCACCTCCCCACCCCACCTTCATGCCTCCCTCCTCCTTGAATCG
TGTGTTAGAACGCTGTGATCTGGTCCAAACTCCACGGAGATGCGATGCGATGCGAAGCGATGTTGGGCAATTTCAACTCCCTGTCTCGGTCGCCACCTAG
GATTACTGCATGTTCAGCTACGACCTCATCAACATGGCTGCTGGAAGTCGTCTACAGGAAAAAGAAAGAAATGACACTGAMGGATCACTTCCGCTTCCGT
TGGCGCAAGCGCTTTCATTTTTTYTGCTACCGTGACTAAGATGGAAGCGTTTTTGGGGTCGCGGTCCGGACTTTGGGCGGGGGGTCCGGCCCCAGGACAG
TTTTACCGCATTCCRTCCACTCCCGATTCCTTCATGGATCCGGCGTCTGCACTTTACAGAGGTCCAATCACGCGGACCCAGTAAGTTCTCGGCGCTTTCG
TTTGCGTAGCGGGAGGGACCGTGGGGCCTGGTGCTGCCGGCTGGTTTTGAGAGCCCGGGAAGGTGAGGCGGGGACCCCGGGGGCGCGCGAACGGCAGGGG
AGCTCAGGGCGCGGAGTCCTGGAGAATGCAGAATAATTGGAAGGAATTATAGAAAATCAGAAGCGCAGCTCAGTGCGCGGAAAGAGGGCGCAGTCCATCC
CCCCTCTCAGCTCCCACCGTTCTCACTCTTTAGGAACCCCATGGTGACCGGGACCTCAGTCCTCGGCGTTAAGTTCGAGGGCGGAGTGGTGATTGCCGCA
GACATGCTGGGATCCTACGGCTCCTTGGCTCGTTTCCGCAACATCTCTCGCATTATGCGAGTCAACAACAGTACCATKCTGGGTGCCTCTGGCGACTACG
CTGATTTCCAGTATTTGAAGCAAGTTCTCGGCCAGATGGTGTAAGTCATCCAGAGRACAGGAGAGTGGTTCCCAAGTAGAGAGGGGAGTCCCCTGTTTTT
TATTCCCTTCGATGGGATGGGGGGACTTGTTGCAGCGGGGGACTGGRAGAGTTGTTGGAGGTGGGCGATCTGTGTTTGCAATAAAGTTTTTGGCATTAGG
TGTAAAATGGGGGAAGGTGTGGTAACTTCTTTTGGGGATGGGTGGAGACCCCGACTTAATTCTCTCCCTTTTCTCACAACCAATTCCTTTTAAGGATTGA
TGAGGAGCTTCTGGGAGATGGACACAGCTATAGTCCTAGAGCTATTCATTCATGGCTGACCAGGGCCATGTACAGCCGGCGCTCGAAGATGWACCCYTTG
TGGAACACCATGGTCATCGGAGGCTATGCTGATGGAGAGAGGTTCATATGAATACAAATAACTTATTTCCTTTACCACCCAACCTAGTACCTGTGTAGTA
TCYCTTCTGTCTCTTCTCCCCAAGTGAATCCCACTTTAASTCAGACCCCATGGTCCCCTTCTTCAGCTAAGATGAAYCTAAGGTGAAATGAGTTTTGACC
CATTGTGTCCTGTTAGCTTCCTCGGTTATGTGGACATGCTTGGTGTAGCCTATGAAGCCCCTTCRCTGGCCACTGGTTATGGTGCATACTTGGCTCAGGT
AAGTAGTAAGTCTAGAGGTGGGGGAAAGGGAAGACAAAAGGAAATGGATTAGTGGTTGTCTGCTTTTCTCCTGAAATTCTGATATGAGGGATGGGCTGGG
ATCGCTATTACTGGGCAGATGGTTTTCTTTGTAGTCTGGGGGCTGTAGGTGTTGACACTGATTCCAGTGACAAGATGACATGACTGGGAGTCAGTAGACA
TGCAAAGAGAGGACACCCTAGAACTTCTTCCTGAAGTGGCTCTTAGCTTATTTTCTAAGCAGAGTTCATTCTGGTGAGGCAAGAAGTAGAATGTCATCTT
TCACTCTAATGCTTTTTATACCATAGATTTGAGACAACTAGCCTGTTATTCAGCCCAATATCCCCCCATGGTTTTCCCCCAATCTCCCTAGCCTCTGCTG
CGAGAAGTTCTGGAGAAGCAGCCAGTGCTAAGCCAGACCGAGGCCCGCGACTTAGTAGAACGCTGCATGCGAGTGCTGTACTACCGAGATGCCCGTTCTT
ACAACCGGGTGAGGGATGTGCTGGGAACCTAATTGGCGGGCTCTGGCTACTTGCAATCCCTGGGTCTCTATRCTTTGAAGAACAGATTGCCTTACTTGTG
TGACTCCTATTTTCACATTGGGGAAGACCTCCACCTGACCTTTCATTTAAGGACTTAAGGCGTGGGCATTATTGAATGCTCTGCTTTCTTCCAGTTTCAA
AYCGCCACTGTCACCGAAAAAGGTGTTGAAATAGAGGGACCATTGTCTACAGAGACCAACTGGGATATTGCCCACATGATCAGGTGAGTAATAGGGAAAA
AATTGGTGACAGACTTGGGAGGTCTTTGGCTTACACTAAGCTGGGCTTTTCTGGGAGGCTCACCCAGGAAAATTTTCTGGGTGGAAAGTTTTGGTTGGAC
AGTACAGCTATTTTTAGGAATTGATCCCTTTATGCTTCACAATTTTATTATTCTGTCTTCCTTTTTTAGTGGCTTTGAATGAAATACAGATGCATTATCC
AGAAMTGAAGTTGCCCTACTTTTAACTTTGAACTTGGCTAGTTCAAAGATAGACTCTTCTTTTGTAAAGTAAATAAATTCTTCAAAATGCTTGCTGAGTG
GTTTTTGTCTGACTGGGTCACACCAAGTGCAAAACTGCTGAGTACTGCCATGTGCCATCTCCCTCCCTGGTCGGAGAACCCTTGTGGTCTTGCAGCACAC
ACAGAAATTCTCTCTGCACAACACAGAAAGACACACTAGCGTCATTTGGAGCTGTATTAGAAGCAGAGCTTCCTGTAGAAGCCAGACTTAATTTTTGTGT
GCTAACTGGCTTTTGTGTTCAAATTCCCCTCCCAAATCTTCCTCCACTGCACTGGATTATCAAATACAGATTTCTTAATGTTGGCTGTGATTTTCATTAA
AATACCACTTTAAAAATAATCTAGTAGAACTATTCTGCATCAGGTTGCCCTCAAGTCAGCTGGGGCATCAGCCATCCCTGGAATGGTTCTAAACCTGAAT
ATTTTAGAGACAAAAGTCTCATTCTGTTGCCCAGGCTGGCGTGCAGTGGCATGATCATAGCCTACTACAGCCTTGAATTTCTGAGCTCAAGCAACCTCCT
GCCTCAGCCTCCCAAGTGCTGGGATTACTGGCATGAGCCATCATGCCCAGCTTGAATTTTTAAAATGAACACTGTAGGCGATTCTGACACATATCCTCTC
CAAACTTCTTGAGAAAGAAAATATAGGCAGCAAATTCAAAGTACAGAAATTCAGTGAGAACTGAAGGAAAAAATAAAACCATCCCTCCATTTGCATTGTC
CGTTAACAACAAACTTGTAAAGCCAAACAATGAGCTTTCAATCTGAAACCTCCACACATTCAGTCTCAACACAGGAAACAGTCAATAAATACATGTTTAT
TGATTAAACTGAATTATAAAAAACAAAACCAAAAAAAAATTTCCTTCTACTACTAAGCCATGCAGGCAGAGTCCACAAAGACAACTTCCTGGCCAAAACC
CAGCTGATCCACTGTTGGTATAATCTTAAAAAAAATTACCCATCAAGAAAGTCAATCGTGTGCAGAAGACAGGAACCCCAGCTCTGCTAAGGCTGTGGCT
GCTGCAGAGACTACCAAAGAGTAGGATTAGGTTGTAGATAGACGTGACCAACCATAGTTCTTGAACTTTCTCAAAGGCAAAGGCTGACTTCAAAGTCCAT
TGTCTGTCAATAAAATGGCATCAGGCAAAAAGCTGGGGAAGAGAAGCCCAGATGGATCCTTGGTTGTTTTCAGATGTCAAAGGTTCACAAAGCTGGCCAA
GCTGTTTCTGGAAGGGACTTTTCCAGTTCACTATATTATAGTGTGCTGGGGGATGAAAAAACAAACAAACAAAAAAGCAGGGTGGGGTGGGAGAAATGGG
TGGTAACAAATGTCACACCTGTACCACCAGGCCCATCACATCTTGAGCATTCCCCAGTCTGTGAAAGCCTATTAAACAGGGTCACCTAGAAAAAAAACAA
GTTTATAAATCCATTTCCCCTCATTTTATTAAATGTTCCACTTATGTACATTTTAAAGACGAACCATTTACAAGCTTGTGCAGTTTGCCTCCTTGGCTCA
CAGGAGGGGAACATTGTGGAAAGCCTCAGGATAAACAGAAGACTTGGTTTTTTGCTCCTTTTCTCTGTACGGTACAGTACGTTTTGGTTTACAACCATGA
GTACATACAATTAAAAAAATCCCTCATGCAAATTGTAGAAAAAATTTTCTTTCCTTGAAGCTGGCAGTGAAAAATAAAGATTCATGTCATTTTCTTTGTG
CACACCCCTGTGCGCTTCTTCCTGTCAGATTCTTCCCTAAGTATTAAGAGAAATAGGGGAAAGCCACAGAGCACGCTGGATTTCAACAAGTGGTCTTGTC
TTTTTAAAGTTCAACACTTCTTGAACAATTAGCTCCTGGCTGTAGGACCAGTAATCCCTTAAACAGGCATGCTCTCCATCTAACAGGATGAAGTTCAGTA
AAGCAGGGACTGCCCCTGGGGGCTTACAGGATGAAGACTCAAACTGGGAATGGCTTCCACCCTAAAACTGTTTGATCGCTTCAGTATCTCTTGCTTGCTA
ATAACACCTGTATGATCCTTTGTCCAGAGGGATGGATGGTGTTGAGAATGGGGAAAGGGGCCAAGGATCACAAGTGCAAAAAATATTGTTTATGTCATGT
TTTGGAGGGAAGGTGGTGAGGAAAAGACAAATCTATTCATTCTGGATAATTAAAGGTGGTTTCATGCATTTTTAAAGCCACAATTTTATATCTAGGGTTG
CTGTAGAAACCAACATCTCTGGAGAGGGAAGGAAAGAAAAGGAGAAGGAAGAGAGAGTTCAGTGGGACTTTTTTTCCATTTTCATTTTTATATAAAAGTG
TTAAGACCACAATGAAAAAAGTTTTTTATCCATATATATAATAAACCAGTTTGTGAGCTACATAATTTGTCTTTCCCATCTTCAGAAATGTTCTCACATT
AACAATGATTAGATAGCATCATGCCCAAAGACATTGGCCACACAATAAAACAAACAAAAAAACCCAGTACTATGATACAATTGAGGTAAAAGGGGAAACA
AAAAAATTTAACATTTGCCCACAAATAATTTTTTTTCTTTTTCTTAATTTTGTCAGAAAAATACCAAACACAGTGATTTAAATTTAAAAAAAAAAAAAGT
CACAAAAACCTGTTTTTAGCAGAAGTGAATGACCAATGGGCCAGCTCCTTGGCTCAGACGTGATTACTATTGGTTTTCCTAATTAATCCACAAATCCACA
GGGAAGTGTAAGTCAACTTCAGGGGGGAGTGGTGGTATAAAATTAAAAAATAGAAACCAAATACCCCACCTGGTATGCCCCCTTTTCCCTAAGCCCCTTT
ACCCTCCCTCACATGTTCCCACCCCCACTCCACACCCCCTCATGACCCCAACACTCAAATCTCCATCAGATCTAGGTCAGCTTCTTCAAAGCCATAGAAA
GACTCGGTCTCACTTTCACCCTCAAAGAGCTGGTGAAGACTTTCAGGCTCAATTGTCTCTTCAGGAGATGATCTGGGTCGTGGAGTGGAAGACTCAGAAT
GTTCCCCACTCAGCTTCAGTTGCTCCTCTAGGGAGGCAATTAGCTCCTCCTGCATGTCAGCATTTCTTGTAGGTGAGTTAATGTTGCCATCGGGGCCAGG
CAGAACACTAGCCACCAGGAAGGAGCGCTGAACTAGCTCTGGACAGTCCCCAATGACACCTAGCACTTCACCCAGCCAGACAAGCACCAGCTGAAGCAGG
ACATCAGAATCACATGCAGTATCTGCCATTTCCCGAGCCTGTTCCTTCCATTTTTTATGCAGGAAGTTCTTGACAGTTCTTTTGATGCATACATCTAATG
GCTGAATTTTGGAGCTACAGCCTGCTGGGACCACTGCAGGCAAAGTGCTAGAGGCACTAAGCATAGCCAGTACCTCTTCTGACAAGTGAGTGCGATGACA
GTCCATCACAAGCATGCCTTTGCTGCGCTGGCAAGCTGTGTGCTTCTGCCACACTCGAGTTGACCACAGCTCCATGATCTCGTCATCACTGTAGCCACTC
TCCTTTGCCTCTAGCAATATGGAGTCTGGCATGTTAGCAGGCTGATCCATCTGCCCTCTGTAGAAAACCAGGGTGGGAAGGACAGTGCCATCTGCCAGAA
TGGCTAGGACTACATCACACCAAGGTTCCCCTGTGCCCACTGTCTGCAGGGCATTCTCCTTTCGATCATCACTGCTCAGCACCTCTGTATCCAGGAACAA
AGAGATCTCATCAATAGCCACAATCATAGACAAGGGTAAGTCCTGGTTGTGAATCTGCCGTTGTACAAAATCAATGAAGAGTCCTGCATTCTCTGCTACA
TCCTTAGGTAGGGTGTGGGCCACAGCTCGCCGGGCATGGGGAGTCAGGTGGTGCCGCAGCATGAAACGCACAGCCCACTCATAGGAGATCTTAAACCCCC
CTTCCAAAGAACGTCCTATTTTGGTGGCCTTCTGGAACAAGGTCTCCTCATTTACAGGTAGCTGTTGTTCGCGCTGGGTTAGCACCCACTCAGCCAGTTT
CTCTTCTGCCTCAAAGCTCAGATATTTGCCCTCTAGATTCTCCCCCTGGGAGGCCTGGAAACGTCGAAGCCAACGGCGAATACGTCGCTGGGGATTTCGG
AAGTGTTCAGCTGCCTGTTCTGTATTGCAGCATAGAGCAAACAGTACTACTCGAAGCTTCTTCACAGACAGCTGCTCCTTTTTGCCAACTCCACCACTAC
CACCACCACCTGATGCTAGCTCAGGTTCTTGGGTGACTGGGCTCCCTTCATCCTGATCATCAACATTCAGACATTCGGCTCCCTCTGTAGCCAGCGGTGG
AAGGGCTAAAGCCTGCGGGTGAGTGGGGGTTGGTGGTGGGGTTGCAGTTGAGGCTGGTGATGGGAGTGCTGGGGCTAAGGGAGTTAGTAGCTCTTCAGGC
TCAGCTGGGGTGGCCCCCGCAGATTTCACAGTGGCAGCTTTGTTAGTGGGGAAGGAAGGAGGAGGGTACATATTCTTCACGTTCCGGTCATGCACTCGGT
CACGAGTCTGGCCATGCCTAAAGGGGTGAGGAGCAAAGAGAAGAGGAGAAATCTCAGTTCAACTAGGAAATTGAAACAATAATATGATAATAATAATAAT
AATAACAGAGTAAACACACTGCAAACCAGAAATTAAATTGTGAGGTGAGTTTTTGTTACCTTGAGTGAGCTATCCAAGTGAGTCCTATGGAAAATGAAAC
AACAAAAATAGTTAGCTCAGTGAAAAAATAAGCCCTCCAAAGACAGTGCCCTGGGATTCAACTTACTACATACAAATACGCTGTTCGCAGTGACCAGCTT
TCCCAGTTTTATATAAACTTCAGGTCGGAAGGTTTCTAATTAGGTCCAGCACATCTCAACAGTGAATGAGTGAGGCCAAGTAGGTATGCTCCTGATGCAT
ACAGTACGAACCTGTATCTTTTTTCCTCCCCTTGCTCAACTAATCCCCTTCTCTCCTACTTACCCCGTGGCAGGATGCTGCTGGATCTGTGAGAGGGGTT
GAATACCAAATGCTTGGCCATAGCATCGCCCACAGAGGTAACAAAGGTACATGAAGTGCAGGCCAGCTTGATTCCACTAAAAAAGAGAATTGAGACTATG
TAAGACAAACACAGCAGTGACACTTGAGACCATTAAGCTTTGAGGCTTAAGAAAGAAAAGGAATGCCCTCCCACTTTCTCCTTTTTCTGAAATTAATTCA
CATAACCACCTCTCCAAATAATGAAAAACCTGAAAATTAATGTAAAAACCTGAAAAATTAAGATGCTGCCAATAAGTTTTTTCTTACCTCACAGAATTTT
TAAACAAAGCCAAATACTTGGGGCTCTTCCGTGGAACATGATTGCTGAGAAAGACAAAGAAGTGGTATGAGTTACGGAGTTCTGCTGGCTAAGCTAGAGA
TCACCAGCCAGTGACAATGCCCCCAACAAAAGAGACACTTCTTCAGTGCACCCTAATCTCAACCTAAGCCAGTTTTCCTGTCACCATGCTTCTTAAACTT
TAATATGCATACAAGTCACTGAGGATCTATTAAAATTCACATTCTGGTTCAGTAGGCCTAGGGCGGGGCTGAGAGTCAGCATTTCTAACAAGCTCCCACC
TAATACTACTGGTACTTGAATAGCAAGGCCCTATGAAATTAGAGCACAGACCATCAAAACCGAAAAAACAGAGCCTCTCACTCTGCTAGGAGAGAAGAAC
AAATAGCTCTAAGAGTTGAAGGAGGAAACATATTAGAAGCAGGGGAGAAAATGAAATGAGTGCTCAAGAATCTGGCTGGGGCCGGGCGCAGTGGCTCATG
TCTGTAATCCCAGCACTTTAGGGAGGCCGAGGCAGGTGGATCACCTGAGCTCAGGAGTTTGAGACCAGCCTGGCCAACAAGGTGAAACCCCGTCTCTACT
AAAAATACAAAAAAATCAGCCAGGCATGGTGGTGCACACCTATAATCCCAGCTACTTGGGAGGCTGAGACAGGAGAATCACTTGAACCCAG


SNP Information

Context             (SEQ ID NO:24226):
AGGGCGGAGTGGTGATTGCCGCAGACATGCTGGGATCCTACGGCTCCTTGGCTCGTTTCCGCAACATCTCTCGCATTATGCGAGTCAACAACAGTACCAT
K
CTGGGTGCCTCTGGCGACTACGCTGATTTCCAGTATTTGAAGCAAGTTCTCGGCCAGATGGTGTAAGTCATCCAGAGAACAGGAGAGTGGTTCCCAAGTA
Celera SNP ID:            hCV8719300
SNP Position Genomic:     6578
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24227):
CAGCTATTTTTAGGAATTGATCCCTTTATGCTTCACAATTTTATTATTCTGTCTTCCTTTTTTAGTGGCTTTGAATGAAATACAGATGCATTATCCAGAA
M
TGAAGTTGCCCTACTTTTAACTTTGAACTTGGCTAGTTCAAAGATAGACTCTTCTTTTGTAAAGTAAATAAATTCTTCAAAATGCTTGCTGAGTGGTTTT
Celera SNP ID:            hCV8719310
SNP Position Genomic:     8305
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:24228):
ACATTAACTCACCTACAAGAAATGCTGACATGCAGGAGGAGCTAATTGCCTCCCTAGAGGAGCAACTGAAGCTGAGTGGGGAACATTCTGAGTCTTCCAC
K
CCACGACCCAGATCATCTCCTGAAGAGACAATTGAGCCTGAAAGTCTTCACCAGCTCTTTGAGGGTGAAAGTGAGACCGAGTCTTTCTATGGCTTTGAAG
Celera SNP ID:            hCV8719311
SNP Position Genomic:     3008
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,26)   caucasian(T,28)   total(G,6|T,54)
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(T,-|G,-)   
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:24229):
GAACACCATGGTCATCGGAGGCTATGCTGATGGAGAGAGGTTCATATGAATACAAATAACTTATTTCCTTTACCACCCAACCTAGTACCTGTGTAGTATC
Y
CTTCTGTCTCTTCTCCCCAAGTGAATCCCACTTTAACTCAGACCCCATGGTCCCCTTCTTCAGCTAAGATGAACCTAAGGTGAAATGAGTTTTGACCCAT
Celera SNP ID:            hCV8719304
SNP Position Genomic:     7103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24230):
AGGGAAGAATCTGACAGGAAGAAGCGCACAGGGGTGTGCACAAAGAAAATGACATGAATCTTTATTTTTCACTGCCAGCTTCAAGGAAAGAAAATTTTTT
Y
TACAATTTGCATGAGGGATTTTTTTAATTGTATGTACTCATGGTTGTAAACCAAAACGTACTGTACCGTACAGAGAAAAGGAGCAAAAAACCAAGTCTTC
Celera SNP ID:            hCV16007856
SNP Position Genomic:     4354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:24231):
AGCTAAGATGAACCTAAGGTGAAATGAGTTTTGACCCATTGTGTCCTGTTAGCTTCCTCGGTTATGTGGACATGCTTGGTGTAGCCTATGAAGCCCCTTC
R
CTGGCCACTGGTTATGGTGCATACTTGGCTCAGGTAAGTAGTAAGTCTAGAGGTGGGGGAAAGGGAAGACAAAAGGAAATGGATTAGTGGTTGTCTGCTT
Celera SNP ID:            hCV8719305
SNP Position Genomic:     7265
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24232):
AAGGATTGATGAGGAGCTTCTGGGAGATGGACACAGCTATAGTCCTAGAGCTATTCATTCATGGCTGACCAGGGCCATGTACAGCCGGCGCTCGAAGATG
W
ACCCTTTGTGGAACACCATGGTCATCGGAGGCTATGCTGATGGAGAGAGGTTCATATGAATACAAATAACTTATTTCCTTTACCACCCAACCTAGTACCT
Celera SNP ID:            hCV27483695
SNP Position Genomic:     6992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24233):
AGTGCTGTACTACCGAGATGCCCGTTCTTACAACCGGGTGAGGGATGTGCTGGGAACCTAATTGGCGGGCTCTGGCTACTTGCAATCCCTGGGTCTCTAT
R
CTTTGAAGAACAGATTGCCTTACTTGTGTGACTCCTATTTTCACATTGGGGAAGACCTCCACCTGACCTTTCATTTAAGGACTTAAGGCGTGGGCATTAT
Celera SNP ID:            hCV25594203
SNP Position Genomic:     7872
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:24234):
TTGATGAGGAGCTTCTGGGAGATGGACACAGCTATAGTCCTAGAGCTATTCATTCATGGCTGACCAGGGCCATGTACAGCCGGCGCTCGAAGATGAACCC
Y
TTGTGGAACACCATGGTCATCGGAGGCTATGCTGATGGAGAGAGGTTCATATGAATACAAATAACTTATTTCCTTTACCACCCAACCTAGTACCTGTGTA
Celera SNP ID:            hCV11489569
SNP Position Genomic:     6997
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24235):
GACTCCTATTTTCACATTGGGGAAGACCTCCACCTGACCTTTCATTTAAGGACTTAAGGCGTGGGCATTATTGAATGCTCTGCTTTCTTCCAGTTTCAAA
Y
CGCCACTGTCACCGAAAAAGGTGTTGAAATAGAGGGACCATTGTCTACAGAGACCAACTGGGATATTGCCCACATGATCAGGTGAGTAATAGGGAAAAAA
Celera SNP ID:            hCV8719309
SNP Position Genomic:     8002
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,8|T,32)   total(C,9|T,69)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(T,30)   caucasian(C,2|T,20)   total(C,2|T,50)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24236):
TTGAGGGTGAAAGTGAGACCGAGTCTTTCTATGGCTTTGAAGAAGCTGACCTAGATCTGATGGAGATTTGAGTGTTGGGGTCATGAGGGGGTGTGGAGTG
R
GGGTGGGAACATGTGAGGGAGGGTAAAGGGGCTTAGGGAAAAGGGGGCATACCAGGTGGGGTATTTGGTTTCTATTTTTTAATTTTATACCACCACTCCC
Celera SNP ID:            hCV29003736
SNP Position Genomic:     3167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:24237):
AGGTTCATATGAATACAAATAACTTATTTCCTTTACCACCCAACCTAGTACCTGTGTAGTATCTCTTCTGTCTCTTCTCCCCAAGTGAATCCCACTTTAA
S
TCAGACCCCATGGTCCCCTTCTTCAGCTAAGATGAACCTAAGGTGAAATGAGTTTTGACCCATTGTGTCCTGTTAGCTTCCTCGGTTATGTGGACATGCT
Celera SNP ID:            hCV25594207
SNP Position Genomic:     7140
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,40)   total(C,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:24238):
TGCGAGTCAACAACAGTACCATGCTGGGTGCCTCTGGCGACTACGCTGATTTCCAGTATTTGAAGCAAGTTCTCGGCCAGATGGTGTAAGTCATCCAGAG
R
ACAGGAGAGTGGTTCCCAAGTAGAGAGGGGAGTCCCCTGTTTTTTATTCCCTTCGATGGGATGGGGGGACTTGTTGCAGCGGGGGACTGGGAGAGTTGTT
Celera SNP ID:            hCV25594208
SNP Position Genomic:     6656
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,33|G,1)   total(A,67|G,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24239):
CCTCATCAACATGGCTGCTGGAAGTCGTCTACAGGAAAAAGAAAGAAATGACACTGAAGGATCACTTCCGCTTCCGTTGGCGCAAGCGCTTTCATTTTTT
Y
TGCTACCGTGACTAAGATGGAAGCGTTTTTGGGGTCGCGGTCCGGACTTTGGGCGGGGGGTCCGGCCCCAGGACAGTTTTACCGCATTCCGTCCACTCCC
Celera SNP ID:            hCV16185026
SNP Position Genomic:     6024
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 UTR 5;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,457|C,472)   total(C,472|T,457) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:24240):
CTGTCTCGGTCGCCACCTAGGATTACTGCATGTTCAGCTACGACCTCATCAACATGGCTGCTGGAAGTCGTCTACAGGAAAAAGAAAGAAATGACACTGA
M
GGATCACTTCCGCTTCCGTTGGCGCAAGCGCTTTCATTTTTTCTGCTACCGTGACTAAGATGGAAGCGTTTTTGGGGTCGCGGTCCGGACTTTGGGCGGG
Celera SNP ID:            hCV25762609
SNP Position Genomic:     5981
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,40)   total(A,77|C,1)
SNP Type:                 hmCS


Context             (SEQ ID NO:24241):
AAATGGAGGGATGGTTTTATTTTTTCCTTCAGTTCTCACTGAATTTCTGTACTTTGAATTTGCTGCCTATATTTTCTTTCTCAAGAAGTTTGGAGAGGAT
W
TGTGTCAGAATCGCCTACAGTGTTCATTTTAAAAATTCAAGCTGGGCATGATGGCTCATGCCAGTAATCCCAGCACTTGGGAGGCTGAGGCAGGAGGTTG
Celera SNP ID:            hCV16244396
SNP Position Genomic:     5400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:24242):
CCGATGGCAACATTAACTCACCTACAAGAAATGCTGACATGCAGGAGGAGCTAATTGCCTCCCTAGAGGAGCAACTGAAGCTGAGTGGGGAACATTCTGA
K
TCTTCCACTCCACGACCCAGATCATCTCCTGAAGAGACAATTGAGCCTGAAAGTCTTCACCAGCTCTTTGAGGGTGAAAGTGAGACCGAGTCTTTCTATG
Celera SNP ID:            hCV26000109
SNP Position Genomic:     2999
SNP Source:               Applera
Population(Allele,Count): african american(G,30|T,2)   caucasian(G,32)   total(G,62|T,2)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:24243):
TCATTTTTTCTGCTACCGTGACTAAGATGGAAGCGTTTTTGGGGTCGCGGTCCGGACTTTGGGCGGGGGGTCCGGCCCCAGGACAGTTTTACCGCATTCC
R
TCCACTCCCGATTCCTTCATGGATCCGGCGTCTGCACTTTACAGAGGTCCAATCACGCGGACCCAGTAAGTTCTCGGCGCTTTCGTTTGCGTAGCGGGAG
Celera SNP ID:            hCV8719299
SNP Position Genomic:     6115
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,20)   caucasian(A,31|G,9)   total(A,47|G,29)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;JBIC-allele(A,306|G,1169)   total(G,1169|A,306)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24244):
ATACTTAGGGAAGAATCTGACAGGAAGAAGCGCACAGGGGTGTGCACAAAGAAAATGACATGAATCTTTATTTTTCACTGCCAGCTTCAAGGAAAGAAAA
Y
TTTTTCTACAATTTGCATGAGGGATTTTTTTAATTGTATGTACTCATGGTTGTAAACCAAAACGTACTGTACCGTACAGAGAAAAGGAGCAAAAAACCAA
Celera SNP ID:            hCV2017822
SNP Position Genomic:     4348
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:24245):
TTCTCTTAATACTTAGGGAAGAATCTGACAGGAAGAAGCGCACAGGGGTGTGCACAAAGAAAATGACATGAATCTTTATTTTTCACTGCCAGCTTCAAGG
R
AAGAAAATTTTTTCTACAATTTGCATGAGGGATTTTTTTAATTGTATGTACTCATGGTTGTAAACCAAAACGTACTGTACCGTACAGAGAAAAGGAGCAA
Celera SNP ID:            hCV2017823
SNP Position Genomic:     4340
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:24246):
ACCCAACCTAGTACCTGTGTAGTATCTCTTCTGTCTCTTCTCCCCAAGTGAATCCCACTTTAACTCAGACCCCATGGTCCCCTTCTTCAGCTAAGATGAA
Y
CTAAGGTGAAATGAGTTTTGACCCATTGTGTCCTGTTAGCTTCCTCGGTTATGTGGACATGCTTGGTGTAGCCTATGAAGCCCCTTCGCTGGCCACTGGT
Celera SNP ID:            hCV15887222
SNP Position Genomic:     7177
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,3)   caucasian(C,37|T,1)   total(C,62|T,4)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,38)   total(C,70|T,2)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24247):
CATCCAGAGAACAGGAGAGTGGTTCCCAAGTAGAGAGGGGAGTCCCCTGTTTTTTATTCCCTTCGATGGGATGGGGGGACTTGTTGCAGCGGGGGACTGG
R
AGAGTTGTTGGAGGTGGGCGATCTGTGTTTGCAATAAAGTTTTTGGCATTAGGTGTAAAATGGGGGAAGGTGTGGTAACTTCTTTTGGGGATGGGTGGAG
Celera SNP ID:            hCV15887223
SNP Position Genomic:     6747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 81
Celera Gene:                 hCG18962 - 64000127257053
Gene Symbol:                 HAP1
Protein Name:                huntingtin-associated protein 1 (neuroan 1);HAP2;HIP5;HLP;hHLP1
Celera Genomic Axis:         GA_x5YUV32VU68(3395195..3419300)
Chromosome:                  Chr17
OMIM number:                 600947
OMIM Information:            HUNTINGTIN-ASSOCIATED PROTEIN 1;HAP1


Genomic Sequence (SEQ ID NO:12241):
AATCCCACAAATTGTCCCTGGAAGGGCTCAGAGCCTGGACATGGACGCAGGGATGAGAGGGAATTGCTGACTCTGGGGACAGAGGTCAGGGAGCGAAGGG
CTCCTTGGTGTTATCCCTGAGCCTGGAGGTAGCTCAGGGAGGCCAAAGGGCCAGAACATCCTTCTAGGCTCGCCACCACCTGGTATTGCCTGTCCAGCAG
GCTGGACGCAGCTGACGGTCCTGCCCTCCTCACAGAGGGTGCTGTGGTCCCCCCACTCCCAGCTGCTTCCCGTGGAGCTTCCCAGGTCAGGGCACTGCCG
ACCTGCTGGACCCAGCTCCATATCAGGCCAGCCCAGGCCTCCTGCTCTGGTCCCTGGGGAAAGGAGCGGGGCTGGGCTGAGGGCTCTAGGGAAGAAGTGG
GCACCTGGCTGTGCCAAGGCTCACTCCCTGGGGATCTGTGGCTCACATCCTGGCCGGTCTCCACCCTCTCCCACAGGTGCCCCTGGAGGGTTCCTGGTGG
CGCTCACCTGTGCCAGGGGATGTGGAGCCCTGGTTTGGGAGTCCAGAGTCCTAGGATCTCACCCTTACCGGAAGTCACTTCCCCAGGGCGATTACCACTC
CCACCATCCATACCCAGAGAATCCACTGATGTGTTCATTCAACAAATATTTATTGGATGCCTCATTAGAGTCCTGAGAATACAAAAGTGAGCAAAACAGA
TACTGCTCTCATTGTTACTAAATAGATCATCTTGTCAATGACATCATCTTACCCTGTGAGCGGGCAGAGTCGGGAGAGAATGCCAGGGGAGGGGAGGACA
CAGAGAGGCCTGATCTGGCACAGGATACCTAACACAGGTGAGCCCCACCAGGGAGGGCTTCTCAGAGGAGGAGTCAGACATCAGAACCAAGAGCAGGAGT
GAGCCTGTGTGGGAGGCGGGGCCTTCCTCCAGGATAGGAGCCCCCAGGTGGGGAAGAACTTCAGAGTGGGGGTCAGTACTCTCCACCTGAGGTCCCAGCC
ACCTCAGCCCCTTGCCCTCGTCCCCGGCACTTGCTCTCTGTCCTTTCTCTCCTTGCCTCTCTCCCTTTCGGTCCTGGCCAGCAGCGGGGCCATGGAAGAC
AGCAGGCAGAGGGCTCAGACCCCCAGCTGCCCCCAGCACCTCGTTACCTCCTTGTTCCAGGCCAGAGGGGCTCAGTGGCCCAGGAGTTGGGCTGGGCTCT
TTAAGAAGAGGAGAAAAGTTAAAGGGAGCCAGGTGTGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCGAGGCTAGATGGATCACTTGAGGTCC
GGAGTTCAAGACCAACCTGGGCAAAATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGATGGGTATGGTGGCATGTGCCTGTAGTCCCAGCTAC
TCGGGAGGCTAAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGCTGCAGTGAGCTGAGATCATGCCACTGATCTCCAGCCTGGGCGACAGAGTGAGA
CTCCCTCTCAAAAAAACAAAAAGAAAAGTTAAAGGGGAACCTCTGAGGGCCTAGGCCCTCAAGTCCCCCATTCTCTGCTGATGTAAGGAGGGACTGTACC
TGGGTTCTGGGGTGGGGGTGAGGGCTATGGCGGCCACTGCCTGGTTCTGGAGGGGAAGGCCTGGATCAGAGATGGGGGAGGGCCCCCGAAAGGCCTGCAG
GAGACAGCAGGACTGCGGCGGGGGTGAGGAGGTCTCCCCTGTTCCTAGTTCAGGGTGCCCCTCCACCCTGCTCCCCTGCAGAAAGTAACCCCGGTGCCTG
TCCCCCCCAGGTCCCTGGCACCGACCCTTAGGGGCTCTTTCTATGACCTACCCTGTTCCAGGTGTTTTTTTTCCCAGGGTCAGGCCAGGGGAGGGGGCAG
GAGGAGGGGCCTGAGCCACCTGTGTGCTGCCCAGGGCTGGGCACTGGAGTGAATGTGCCCCAGGTTCAGGGGGTGTGCACAATTAGGTGGTGGGTGGTCT
GGCTTTGCAGCCTGGCAAGTCTTCTGCACCCTCCCATCCTCTTTCGGATCCAGGAGGGTCCATGGATGCACACTGGGAGGGAGGACAGGAGGCCAAGGGT
CTTTGCTGTGTCTGATTTCTCCCCCTAGATGAGAAGCAGGAGAGGGAGGGGGTGGTTGACAGAGGAAAACCACTTGAGAGGCCTGGATCAGAGACTACCC
CCAGTCTCCTGGACAGCCCTAGGCTGTCGAAAGGCAGATATCTGTCAGCCAGGCCAAAATGCTTACTTCCAGAATGACGGGCCCTGAGCCCTGGTTTCTC
CATTTGTAAAATGGAGTCTCTGTCCCTACTCCACTTTCTGTGGGGCGACTGAGCCTGTAGGTGAGGAAGCCACGTGGGGAGGTATACGGGCTGACACTGC
CCTCTGGTGGCCGTAGCCAGAGTTGCTGGCTGCCAGTGCGCTGACCTAGAGGGTGTGGTCAGCTGGGGGAGCTTTCAGGGTCTCCTAACTTCATCTCTGT
CTTCTCCATCCCACTGCCTCTGCCTTCTTCCCCGTCAAACTCTCCAGGGGTTTCCCAGGGCTTCTTCCTCATGGGGCCAGAAACAATTTAATTCAGCAGG
AGTGTAATAGGCTTCTTCTGTATGCCCTGTTCTGTGCTTGGTGGTTGGGGCTGCAGAGATGTCCAAGGCACAGAGAGACAGTCCAGGAAGCTGGGCTGTG
GGAGGACCACTCGGCAGAGCCTATGGAGCTGTAGCCTCACGGAAGCCTGGGCTGTGCCGATGCCCGAACAGCCACCTCCTTATGTTCTTCAACCTCACTG
TCGTAGCAAACCCTGGGGTTGTGTGTCTCCTTCAAGCTTTCTGCTGACAAAGAAACCATAGGAAACATGCAGACTTTGGGCTGGGCACAGTGGCTCACGC
CTGTAATCCCAGCACTTTGGGAGACCAAGGGGGAGGCGGATCACGTGAGGTCGGGAGTTCGAGACCAGCCTAACCAACATGGAGAAACCCCGTCTCTACT
AAAAAGACAAAAGTAGCCGGATGTGGTGACGCATGTTATTGGGGAGGCTGAGGCAGAGGCAGGAGAATTGCTTGAACACGGGAGGTGGAGGATGTGGTGA
GCCGAGATCGTGCCATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTCCCTCCCTCCCTCCCTCCCTCCCGCC
TTCCTTCCTTCCTTCCGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGCCTCGACCTGTGCTCAGGTGATCCTCCCACCTCAGCCCCTGAAGTAG
TACAGGTATGCACCACCATGCCCAGCTATGTTTTTTTTTTTGAGACGGAGTTTCGCTCTTGTTGCCCAGGTTGGAGTGCAATGGCGCAATCTCGGCTCAC
TGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGAGTACCTGGGATTACAGGCACCCGTCACCATGCTCAACTAATTTTTTGTATTTTTAGTTGAGA
CGGGGTTTCACTATGTTGGCCAGGCTGGTATCAAAATCCTGACCTCAGGCGATCCACCCGCCTAGGCTTCCCAAAGTGCTGGGATTACAGGTGTGAGTCA
CTGCGCCCGGCCAATTCTTGTATTTTTTTGTAGCGAAAGGGTTTTGCCATGTTGCCCAGGTTGGCCTCAAATTCCTGGGCTCAAGCAATTCACCCTCCTA
AGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACAGCGCCTAGCCTTCTTTCTGTTTTCATTTTGTTACCTCTCGTTATTTCCTCACTCCTCTTTGG
TCTCTCTCACCCCCTCTACCAAGACCGCTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCA
ATCTCGGCTCACTGAAACTTCTGCCTCCTGGGTTCAAGCAATTCCCCTGCCTCAGCCTTCCAAGTAGCTGGGCTTACAGGCTTGTTCCACCACACCGAGC
TAATTTTTGTATTTTAGTAGAGATGGGGTTTCACTATGTTGGCTGGGTTGGTCTCAAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCTTCCCAGAGT
GCTAGGATTACAGGTGTGAGCCACTGTGCCTGGCCCCGCAAGACCGCTCTTGCCGAGGCCATGACCCCAGCTCACCAAGGTTGCCCATGACCCCAGTTTG
CCAAGCTGAGTCTCTGTCCTCAGTCTTTGCCTGGCCCAACAGCACCACCCAACACAGGTGGCCACTCTCTACATGAAACATTTTCTTTACTTTCTAGGAC
CCAACTTTCCTGGTTTTCCTCTACTTCACTGCCCCACTCATCCCAGTCTTCCTTTGATGCCTCCTCTTCTTCTTTCTGCCCTCTGAATCCTAGGGGGTTA
GTCCTGGGCGCTCTTACCTGTCTTCTCTCAGTCTCTTGGGGATCTCACCAGTCTCATAGCTTTAAATGGTCATCAAAGAACAATGACTCCTACATTTAAA
TCTCCAGCCCGGTCTCTCCCCTACATTCAGATTTATACATCTAATTGTCTACCCAACATTTCCAGTAGGATACTTAAAAAAAAAGTATTCTATTTATTTA
TTTATTTTGAGGGGTAGGCTCGCTCTGTAGCCCCAGCTGGAATGCATTGGCACAATTTCGGTTCACTGCAACCTCTACCTTCCAGGTTCAAGCAATTCTC
CTGCCTCAGCCTCTTGAGTAGCTGGGACTACAGGCACACGCCACCATGCTTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCAGGTGGCCAG
GCTTGTCTGGAACTCCTGACCTCAGGTGATTCGCCTGCCCCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCTACAGGGAGACT
TTTAAGAGGCGTCTCCCAAGGAGAACAGGGGTTCGCCAGCATGGCAAGAGGAGGGCAAAGCGAATTAAGGTTGGAGGTGAAGAACAGTTAATCCAATCAA
ATGGAAGACGTCGAGTGGCGCGAGCACTGGGGTGTGAGCGCGAGGGTCAGGGTTGCAGCGCCAGGCAGGGTTGCAGCGCCAGGCAGGGTTGCAGCGCCAG
GCAGGGTTGCAGCGCCAGGCAGGGTTGCAGCACGTTGGAAGCGCACTGGAGTTTGGAATGTCTCTCCCAGTCAACCGGGAAAGACGCAGCGCTGCCCTAA
TGCACTGGCCACCCCAGACCGTATGCACAACGTTGGGTTGGCAGCTTCTACACCAGGGAAGGCACCCGAAACCCCGGCGCGGCAGCTGGGGAGGGKCTGC
CCCCAGCCAGGGACCCGCGAGTGCTGGGGCAGCCGCGGCTTTGGGCAGAACCATTCTCCGGAGATGGAGAGGGCAGAAAAAATCTTTCGCTCCCATCCCA
ACTCGGAGCCATCCGGAACTTGCACTCGCCCTTCTTGCCCTGCTTTTCTTACTGTGCTCTGTTCCGTCACCACTAGCTCCCCTCCCGCGYGGCTCTGAGT
CCCGCTTGCCACTAGTTGCTTCTCGGCMGCCCCCACCCCTACGCGTGGTCCGGCCCGGCGGCTGGCGCAGGTTAYAAAGGTCCCGCCGCAGCAGCGSACG
GCWGACTCGAGATGCGCCCGARGAGGTTGGGCCGGTGCTGCGCGGGGAGCCGGCTCGGACCCGGGGACCCAGCAGCACTCACCTRTGCACCTTCGCCCTC
AGCCAGTCCCGCTCCGGAGCCCTCTGCGCAGCCGCAGGCACGGGGCACTGGACAGAGAGTAGGATCCCGAGCCACCTCTGGAWCCCAGTTCCTCTCGGAA
GCCCGCACCGGAGCTCGCCCGGCCTCGGAGGCTGGAGCCAAGGCAGGAGCCCGGCGCCCGTCCGCATTCTCGGCCATCCAAGGGGATGTCCGGTCTATGC
CCGACAATTCGGACGCGCCGTGGACCCGCTTCGTATTCCAAGGGCCGTTTGGTTCCCGGGCCACTGGCCGGGGGACTGGAAAGGCAGCGGGCATCTGGAA
GACGCCAGCCGCCTACGTTGGCCGGCGACCCGGGGTGTCCGGCCCTGAGCGCGCCGCCTTTATTCGGGAGCTGGAGGAAGGTAAATCGGGCCCCCGGGGT
CCTGGACCGGGTGGGGACTGGGGCAACTCCAGGGAGGAAGTGGCCCCATCGGGTCCAGGCACCCCGCCCCCTCTAGCACTCAGTGTCACCCGTCCACCAC
CCCCGCGATGTCACTGCGGTGTCTGTCTGGTCGCCCCTTCTCCATCTCCTCCTCTGCTCTTGTCCCCTGGTTTGTGCCCGTGAGTCAGGTTCTGGGGCCT
GCACGCTCGCCCACCCACCTCCACGCGCCTCTTGCTGCGGCAGATCTGCACCCCYTCAGCGCCCCTCTCCTGGGTCTACCGCAGTGCCAGGAGAGGGGCG
GGGGGCTGCGGGAGGGCGCTGTCCCGCGCGCTCTGAGYCTGCGCTGGCCGACCGGGCTTGCGTGCGATGGAGGGGTGGGTGGGCGGGCGGAGGGGGAAGT
TTTGCCCACTTTTTGGTTGCGGGTATGGGGGCAAAGTCGCGCTCTTTTCCTGCCCCTTGTCTCTCCTATCCTCCTGCGGGTCGGGGGAGATCTCTGGATT
GGGCCTAGAGGCTCGAGTGTCTCCTAATCTGGTGAAGTCTTCCTCCTGTCCTCTGCACACGCAACAGGTGCAGGGTGAGTGGCTGCGTCTGTTTGTATGA
CCCAGGAGACTCCATTGCACTGCCTCCTGGGTAGGGGGTGATRAGCCAGTCTGAGGCTGTACTTCCCCTGGCTGTCTCCATTCTAGGCGCCAGGGACCCA
GGTGTCCGGAGAGCCCAGTTTCTGAGCCTGGAGGACTGTGACCCCCTTACCTCAGGCTCCTCCRGGGGTAAAAAAAAAAAAAAAAAAAAAAAAAAGCCGG
GCGCGGTGGCTGACGCCTGTAATCCCAGCCAGCACTTTGGCAGGCCGAGGCGGGCGGATCACTAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTG
AAACCCCGTCTCTACTAAAAATACAAAAATAAGCTGGGCGTGGTGGCGGGCGTGTATAACCCCAGCTACTCGGGAGGTTGAGGCAGGAGAATTGCTTGAA
TCTGGGAGGCAGACGTTGCAGTGAGCTGAGATCTCGCCATCGCACTCCAGCCTGGAGGACAAGAGCAAGGCTTTGTCTAAAAAAAAAAAAAAAAACCAAA
AAAAAAAAAAAAACCAAAAAAAACCCCAAAAACCTAAAAACCCTGTCCACTTGGCCCTGGGAGCAGGGAAGGGAGTGTTGAGTGCCGAGGGGTAAGGGGA
GGATGTGGGGGGCAGGAGGGGAGCCCAGTCTTCTCTCCCGATGACCCTTGTTGGAGAACTGACGATAGGACGGGAAACAGCTGTTTGCTGGTAGCATCTG
CTCCTTTTTCCTGACCTGGCTGGGCCTTTTCTCCCCACCTGCCGCCTCCTGCAGCACTGTGTCCTAACCTACCTCCGCCAGTCAAAAAGATCACCCAGGA
AGACGTCAAAGTGATGTTATATTTGCTGGAGGAGGTGTGTACTGCCTTCCTGATCCAGKCAAGCCCTTATTCTAGTTTTGTCCTGTAGGGGTGGGGGTCT
TGTTTATTTCCTGATTGGCAGTCTCTCTGGGGCCCCAGGTTAGGGTCCTTCTTATGGAAGACAGGTCGATGTGGGATGTTCAGGCTGGAAGAGCTCTCAG
AGCCAATCTGGTCTGATCTTCTTTTTCCATGAGGGGAAACTGAGCCAGGTTCCACAGTGGGTTAATGGCAGACTCTGGTCTGGTACCCTAGAGAACTAGG
GGATGGGGAAGGTTCTCTTAGGGGCCTAGCCTCTCTCTGACCCCTGTGTCCCCCCCAGCTTCTCCCACCTGTCTGGGAGAGCGTTACCTATGGGATGGTC
CTGCAGAGAGAGAGGGACCTGAACACTGCAGCTCGCATCGGCCAGTCCCTGGTGAAACAGAACAGTGTTTTGATGGAGGAGAACAGCAAGCTGGAAGCCC
TGCTGGGCTCAGCCAAGGAGGAGGTAACCGGGTGGGGAGGAGAGGATAGSGGGCCAATCTACACCTGCCTCATGCCAGGACCCTCTCCTGTCCCTGCCCA
CTCCCAACCCATGGCTCCTCTCTCTTCCTGCCAGATTTTATACCTCAGACACCAGGTGAACTTGCGGGATGAGCTCCTCCAGCTCTACTCAGATTCTGAT
GAGGAGGATGAGGATGAAGAAGAGGAGGAGGAAGAAAAGGAGGCAGAAGAGGAACAGGAAGAAGAAGAAGCAGAGGAAGACCTGCAGTGTGCTCATCCCT
GTGATGCCCCTAAGCTGTGAGTTCCTGCCTTTGCACCTGCAAGTCCTTTCTCTGAGCCTCAATTTCCTCATTTGTTAAGAGGGACACAGGTGATGTGCTT
GCYGGCAGGGTTGCTGGAACTAATTGAGAACACTGCCCTTAGCCCTGGTGGGCTGGGAACTGGGAAGCCCCACTCCCTGCACCCTGACTCCCATTSCTCC
CTCCCCTAGGATTTCGCAGGAGGCATTGCTGCACCAGCACCACTGCCCACAGCTGGAAGCCTTGCAGGAGAAGCTGAGGCTGCTGGAGGAGGAGAATCAT
CAGCTGAGAGAAGAGGTGAGAATGGGGGAGGAGGGCGTCCCTGCTAGCAGGGGGTGTTGACTTCCCTGTCCCTTCCTCTTTGTCTCCCTCCAGGCCTCTC
AACTCGACACTCTTGAGGATGAGGAACAGATGCTCATTCTGGAGTGTGTGGAGCAGTTTTGTACGTAATGTTGTCACTCGGGGTGGGGGGTTGTCCCAAG
GAGCAGAGAAAAGAACTCAAGATGTGGAGTATGGAGATCCAAGTTCAAGTCCCAGATCTGGCACTCCTAGCTGTGTGAACTTGGATACATTCCTTGACCT
CTCTGAACCTTTGTCTTTAGAATGGGGATTAATTTTCTCAGCCCCACTGATCTCTCCAGGGTTTATGAAGATTAAGAGTGTCAACAGCTGAGGAAGTACT
TTGTGCAAACTATAAAGAGCTATACAGAAATTGTGGGTCTCAGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAACAGTTTGGGAGGCTGAGGCCGGCG
GATCACCTGAGGTCAGGAGTTTGAGACCAGCCTAACCAACTTAGAGAAACCCTATCTCTACTAAAAATACAAAAATTAGCCAGATGCAGTGGCACAAGCC
TGTAGTCCCAGCTCCTTGGGAGGCTGAGGTGGGAGAATTGCTTGAACCTGGGAGACAGAGTTTGCAGTGAGCCTAGATCACGCCACTGCACCCCAGCCTG
GGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAGGTGGGTCTCCTCCAAGCCTGTCTTCTCTTATTTGGGGCAGGCAAGAGGGAGCCATGAGCTGCC
AGAGACCAGGCACCCAGGGCTGGGACAGTTCAGAGTCATGCACGGGGCAGTGGCTGTGCCTGGCATCGTCCTAGGCACTGTGTGTTTATGAAGATGAGTG
AGGAGCAGTGTTTGTGCCTGAGGAGTTCAAGTGTAGCTGGTGAGATGCAAACGCAAAGTGGCAACAGCTGAACTCCTGCTGTTCCCTTTACCCCAGAACT
GACCTTCCTTCCTGCTGGGTTCTGCAACTCCCTGAATGGCCCCACTGGTCCCCAGGCTACTGGAGTAGGAACCAGTCCCCAAGCTCTGCTGCTTTTACCT
CCTAGGAATGGCTTAAGTCTTTTTCCCCCTCCCCACTCGGGCTGCCTCTAGCCCAAGATACCTCTTAACTGGTCGCACTGCCTCTACTCGCGCCCTACCA
GGAACTTCTGCACACAGCCTTAATGAGTTTTCTAAAACCAAACCTGGCCAGGTGCAGGGGCTCCCACCTGTGGTCCCAGCTACTCAGGAGGCTGAGGTGG
GAGGATTGCTTGAGCCTGTGAATTCTGGGCTGTAGTACACTATGCCGACAGGGTCAGTATGGTCCAGGGAGTGGAGTACCACTGGGTTGCCTGAGGAGGG
GTGAACTGGCTCAGGTCAGAAACAGAGCAGGTCAAAACTCCCATGCTGATCAGTAATAGGATCGCACCTATGAATAGCCACTGTACTCCAGCCCCAGCCT
GGGAACCTGGCAAGACCTCATTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTT
TCTTTCTTTCTTYCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCT
CTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCCTCCTGG
GTTCAAGTGATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGACTACTGGTGTGTGCCATCACGCCTGGCAAATTTTTTTTTTTTTTTTTTTTGACGGAGT
CTCACTGTCGCCCAGCTAGAGCAATGTCATGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCT
GGGATTACAGGCCTGTGCTACCGTGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGTTGGTCTTGAATTCCTGACCT
CAAGTGATCCTCCCGCCTTGGCCTCCCACAAGTGCTAGGATTACAGGTGTGAGCCACCACGCCCGGCCAAGACCGCATTTCCTTTTTTTTTTTTTTTTTT
TGAGATGGAGGCTCGCTCTGTAACCCAGGCTGGAGTGCAGTGGTGTGGTCTTTGCTCACTGCAACCTCCACCTCCCGAGTTTAAGCGATTCTCCTGCCTC
AGCCTCCCGAGTAGCTGGGATTACAGGCATGGGCCACCATGCACAGCTAATTTTGGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGT
GTTGAACTCCTGACCTCAAGCGATCCATCCCCCTCGGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACTGTGCCTGTCCCAAGACCTCATTTCTTA
AAAAACAAGTAGCCGGGTGCAGTGGCTCACCCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCAGGTGGATCTCTTGAGGTCAGGAGTTTGAGACCAGCC
TGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAACTGGGCGTGGTGGCGCATGCCTGTAATCCCAAGTACTCGGGAGGCTGAGGCAG
GAAAATCGCTTGGACTCGGGCGGCAGTTACAGTGAGCCAAGATTGCACCATTGCACTCCTGCCTGGACGACAGAGATTCGGTCTCAAATAAATAAATAAA
CCAACAAACCCAAGTCTGACCACGTCATTACTGTGCCTAAAACTCCCAAATAGCTTTCCATTGGCCAAAGGATAAACCCCACCCCCTTGCCCACTACTGT
GGTCTGGCCTGTGTGCACTGTTCTGGGCCCTCCCCSTCCCAGTGTCTTATGATGGCCTCTGGGCCTTTCCAGTCAGCTTGGACCCATGTTTTTCCTTCTT
TGCCTGGGTGAGCTTCACTTGCCCTGTGGTCTTAGCTTAGTGGTTCCTTTTTCCAGGAATCCTTCCTTACCTTGCAGGTCGGGTTGGGTGCTGTAGCTGT
GATGCCCCTGCCCTGTACACCCTTGACATTTGCCCATCATGGCCTGTATGATGTGTGACTGTGGTCTGTCTCCCCACCAACTTTACCTCAGTGTGGCGGC
TGGGTCTTACTGACCACTCACCCTGGTGCCCTGCTCAGTATCAGTCAATGAACATTTCTTGAATGGAAGACCTGAGTGAGGAATGCAAAGCCCTGCAGGA
CCCACTGGCACAGCRCAGCAGCCGAGGGTGGGGGAGACAGAGGCATCTGGGAGGGCCAGAGCTGGTCCCTGAAGGCCAGGGGAGCCAGGGCTGACCTGTC
CTCTGCCCTCCCCAGYGGAGGCCAGCCAACAGATGGCTGAGCTGTCGGAGGTGCTGGTGCTCAGGCTGGAAAACTATGAACGGCAGCAGCAGGAGGTCGC
TCGGCTGCAGGCCCAGGTGCTGAAGCTGCAGCAGCGCTGCCGGATGGTGAGTCGGGTGTGTGTGGAACCCTCTTGTCGTRGCCCCATGGGACCCTAGCTT
CCTTCTTCCTGCCTCCACTCGGCTCCACCAGGCCTGAGGTCCCTTTCTGTGTCAGAGTCAGAGACCTCAGAGAGCCCCTTATCTTGACCCCTTGTTATCT
TGAGGAGACCAAGGCCCAGAGAGGGTCCTGGAGTCTTCTAGGAACCAGGCTGYGTGACTCCCCTGCCTTCTTTGCCCTCCTTCCGTGTGACTTGTCATTT
CATGGGCTGCCAAGGACTCACTGATGTGCCTGGGAAGACTTGCTGGAAGCAGGGGGTGCCCTGAGTGGGTAGGCCTCAGATGGGGGTTCACTGGTTTTGG
GTCCTTCSAGTATGGGGCTGAGACTGAAAAGTTKCAGAAGCAGCTGGCTTCGGAGAAGGAAATCCAGATGCAGCTCCAGGAAGAGGTGAGTCTCGCTGCC
GGCTTCTGCCCCCACCCTGGAGAGCCRCTGGCCCAGAGTGGGGACCCCAGGCCCTTGGCAGCTACCTGACTCTGGAGAGGACTAGCAGGAACTGAGTCTT
GTCCGTTTCCACCCCCTCCATGCCTGGCACAGCCCAGCAGGTGACAGTTCCATCAAGGTCTGAGTGGTGTGGAGTGCAGGGACCTGCCCTGGGTCCCCCA
CATGACACTYGGAGTCCAGAACCTGGGCCTCTGGCCTCAGCCTGAGAGCAGATAGGCAGGAGTGCTGGACTGGGTGTRCCTGGGTCCCAGCAGAGCGTGT
GGGTGGGTTCCCAGCTGCAGGACCTGYGGGAGAAGTACATGGATTGTGGGGGCATGCTGATTGAGATGCAGGAGGAGGTGAAGACCCTCCGCCAGCAACC
CCCRGTGTCCACTGGGTCTGCCACCCATTACCCATACAGYGTGCCTCTGGTGAGGACCCTCCCCTGGCTGCCCACTTTCCTACGTCYGTGCCTGTGTCTC
AGCCTTGGTGGCTGATTGAGATCCCAGTTCCCTTCTGTGCCTGAGCCTATGGGTGGGGGTTCTGTGGGGGTCCTCTGGTAACGTCTGTTCTCTCCACCAT
AGGAGACTCTTCCTGGTTTCCAGGAGACGCTGGCTGAGGAGCTCAGAAYGTCTCTAAGGAGGATGATCTCAGACCCTGTGTATTTTATGGAGAGGTGCGT
GGCTGGGGCCCTCCCTTGCCCCRTAGGCCATGGCCTTTCCTGTAGTGGGGAGGGGGTTTGCCCTCACACTCTGACCTTCCACGCTTCCCTATACCCGCCT
CGTTCACTGCATCAGCCCCTCCACTCATTGCTTCTCTATGAATATGGACCCATCACTTCCCCCTGAGGTATTTTTTTTTTTTTTGAGATGGAGTCTTGCT
CTGTCACCCAAGCTGGAGTGCAATGGTATGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCTTCAGCCTTCCGAGTAGCTG
GGATTACAGGCATGTGCCATCACGCCCGGCTACTTTTTGTATTTTTAGTAGAGACACAGTTTCACCCTGTTGGCCAGGCTGGTCTCAAGCTCCTGACCTC
AGGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATCATGCCCAGCCTGAGGTTTTTTTTTTTTTTTGAGACGAGTCTCAC
TCTGTCACCTGGACTGGAGTGCAGTGGCGAGATCTTGGCTCACTGCAACCTCCATCTCCTGGGTTCAAGCGAGTCTCCTGCCTCAGCCTTCCAAGTAGTT
GGGACTACAGGCACGAGCCTGGCTAATTTTTTTTTTKTTTTTTTGAGATGGAGTCTTGTTTTGTTGTCCAGGTTGGCGTGATCTCGGCTTACTGCAACCT
CCGCCTCCTGGGTTCAAGCGATTCTCCTACCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGGCCATCACCACGCCCGGCTAATTTTTGTATTTTTAGTA
GAGATGGGCCAGTAGAGATGTTGGCCAGGCTAGTCTTGAACTCCTGACCTTGTGATCCACCCGCCTGGGCCTCTCAAAGTGTTGGGATTATAGGCGTGAG
CCACTGCACCTGGCCAAGCCCAGCTAATTTTTGTAGTTTTAGTAGAGACGGGGTTTTACCATGTTGGCTAGGCTGGTCTTGAACTCCTGACCTCAGGTGA
CCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCTCATGGCCACTACCTAAGGTTCTTCAGCTTGACCAAGCCCCAGGGACT
GCAGTTTCGGCTTCCATTGTCTCATAATGAAGGTCCTTTTCTCTTTGAAGGAATTATGAGATGCCCAGAGGGGACACATCCAGCCTAAGGTAAGCCTGCC
AGGGGCTCCCCTACAACCTGCCCTCAGCTTTCAGCAGSCAGACAGCCCACCTGCCTCTGGTTCTGCCACCCTGCAACTCCGGAGAAGGCCCTGCTATCTC
GGCTGGCTGARCTGAGAACTGTTCTGGGAAGGAGCTGCCCCACTTTTCCTTCAAATCTTGCCCCCTGGGTGGCCGTCTGATTCCAGGCAGCTCTGAGTGG
GGACTGAAGCTTTCTTTTCAACTGACTATGGGCTGAGAGGTGACAGGCACTGGCTTAGGAGCTGGGAACACCTGGGACTAAGGCCCAGCGTGGTCCCTTT
CCTGACTGTGTGTCCTTGGGCAAGTCATTTGACCTGTCTGAGCCTGTCTAGAATGGATTTGTTCCTATGKCAAGTAGCTGTGGGGTGGGCTATGAAGGTT
AAATCATGCAGGAGGGAGGCAGAAGTGGGTGTTAACCCTGTTGGTGTATTCCGTGCAGGGTCAGGGACATAAAAGAAGATGGGGCCTATGCAGTGTTGGT
GACCATTCTTCCTCCCTCCCACCAGGGGGATGGGCTGGGTATTTGAAGCCTTGGAGCTGGTACCTAGCTCCCCTCTCCCCTGGCTGGGACAGAACCAGGA
GGAACCATCAGGGTCTRTGTGGAGACGGGTGGGGGTGGGCCTGGGGGGTTGGACTTTCCAGCCCCTCAAAAGATGTCGCTATCTCCCGCCCAGGTATGAT
TTTCGCTACAGTGAGGATCGAGAGCAGGTGCGGGGGTTTGAGGCTGAGGAAGGGTTGATGCTGGCAGCGGATATCATGCGGGGGGAAGATTTCACGCCTG
YGGAGGAGTTSGTGCCCCAGGAGGAGCTGGGGGCTGCCAAGAAGGTGCCRGCTGAGGAAGGGGTGATGGAAGAGGCAGAGCTGGTGTCAGAGGAGACCGA
GGGCTGGGAGGAGGTGGAACTGGAGCTGGATGAGGCAACGCGGATGAACGTGGTGACATCAGCCCTGGAGGCCAGCGGCTTGGGCCCTTCACACCTGGAC
ATGAATTATGTCCTCCAGCAGCTGGCCAACTGGCAAGATGCCCATTACAGGCGGCAGCTGAGGTGGAAGATGCTCCAGAAAGGTGAGTGCCCCCACRGGG
CCCTCCCTGCCGCCAGCCGGACAAGCTGCAGATMGTCGTGCCGATGAAAAGAGAGGGTGGATAAGCTCCCCGAGTGCTCACCTGCCCCAGCCTGGCTCTA
CCTGCTGTGCTTATTTGCATGGACTTTGCATATCATTTGCATAGACACCTCTGATCCCCTTCAGTGGGAACCGTAGTGTCAGTGCTCATTTATGTGGCAT
TTGCTTAGGATTCCAGATCTCCATCCACTTTTCTCCTGGGGGCTGGGCTGGGGGTTAGGGCTGGGACTGTGCCCCCACACTGCGCCTCAGCTTCCCATCT
CTGCCCGCTTGCTTCCCCTRCCCCCAACCCCTGCCTCCTCTATMCCCCAGGCTCTCCAACTCTGCAGCAGTGGCAGCAGCAGTCAAAACAAACACGGGGG
GCGGTGGGTGGGATGGTGGAGCAGCCTGGGGGCTGACCCAGGCTGGAGGACAGGACCAGCCACCCTCCCACGGCCTGGGAGGAAGAGAGGCCTTCTGGGA
CTGCCCAGGCTATGGGGACAAAGGCCTTCACCAGCAAGGGCCACAGTTGGAACAGTCCCCTGGGTGTCAGAAGGTGGGCTAGGGCCTCCTGCAGGGTTGT
GGGGTGGAACAGGGTCTCCTCTCCCCAGCCAGAAACCCCAAAGTCTGGGAGCTGCACCTKCCGAGTGCAGGCCATGTGAGCCCTGCCTCTTTAAGGAGCC
GCAGGACATGAAAGATGACCTTGTGACACTCATGCACAGCAGCCATTGCACGTGCATCAGCTCCCATCAGCCTCATTCCGTGGCAGGTGATGTGTCCCCA
TTGGTTAGGTGAGGAGGGTGAGGCTCAGAGAGCTAAGGACACTTGTTTGGGGCCACACAGCCGGGGTAGATCTGAGCCCGTCCTCTCTACTCCTGTGCTG
TAGCACCTTCACTGGCCCATCCCTCCCCTCTAGTGCTGTCCTGGTACCCGTCCCAGCCTGTCCCCATTCTCATGGCCCTTTGGTCACTGCCGGGTGGAAT
AGCACTGGCTTCAGCAGGCGTGTCATGTAAGCTTGTGCAGGTTATAAACTGAACCATGACCTTTATGGCGCATGCAGGGGGCAACCTGCATAATTATCAA
TGGCGACTTTCCGTGTCCTTCTGATACAGTTGATCAGACCCCTGCCCACCGCCCAGGCCAGGCCTGTGGTCATCAATGCCCCAGTTCACATCCACCTGCT
TCTCTTCCAGGCTTTGCTGTTCCCCAGCAGCCTGCAGAGGCCCCACAGACAGCTTGAGGCCCCTCCTGCTGCCTGGCCAAGCCCCACACCCGCAGACCCT
CCTTCCCATCCTCTGAAATGGGACCCTGTGTCTGTCACCAGCCCACCCTCTGTGTTCATGAACCTGGGCTGGAGCTTGGGGACCCCTCCCTGCCCCTGGC
TTCCTCTTCCATGTTCTGCCCTTTCCCACATGTTGGAGGCTTTTCCAACGTCTTCAGGGACAGGCGGTAGGAACCCCGGCCCTCGCTCTGCAGCTGGTGC
AAAAGCTGTGGCTGCCAGGYCTGGGCCACATGGCAGCCCAGGGGGCAGGAGAAGCCCGGGAGAGGCCCRCTGGCTACCAGACTCAGCCCTGAGCAGGGAA
CAGGGCCCAGCTTCCACCGGCAGGGAGTTGTGAGCGCCTTCCCAACAATGTGCCCCTCACCCCTTGATGCCCATGCTAATGGTAGCCACCCTGGTTCTTG
TTGACTTGAGGGACCTGGCTGTCTTCCCTGTTCTTCATCCTTTCTTCTCAGTCCCTACCTACTGTTTGTAACCACAAGTGTCTCTGTGTGTGGGTGGGTG
AGGGCCCCTCTGCCCAGTGGTGTGTCTCCTCTCCCTCCCTCCCTCTTCTGCCAGTGGCCTGGGGGTGTCCAGGCTCCCATCCRTGGCCCAGCCCCTCTCC
CCTCTGTCTTGATCCCCCCCTCCCTGCCCCTGGCTTCCTCTTCCATGTTCTGCCCTTTCCCACACCTTTGTTCCTCAATAGCTGGGGGCTGGGACTGAGG
CCTCCTGCAGGTACCTGCCCCCCTTCACACAGCACCTCTCAATCTCCTATTGCTTGTCAGCCTGTGTGCGTGTGGTGCAGGAAATAAAGGATCTATACCC
TCCTGGCCCAGCCTCCAGCTGTCTCTCTAGGGAGTGTGTGTGTGCACTTGGCAGGGCGAAGTTGTAGAGAAAGGGTGGATGCTAATATTGAAGTATGTGC
CGAGGACTCCTATTAAATACGCCGTTTAATCATAGCAGCAGCTCCTAGAGGGCGGTGGGTGATGTCATAAGTGTCTGTTGGATGGAGAAACTCAGGCCAG
AGTAGGTTAAGTGATGCCCTCACCAGCAGATCATGGCTAGTGTGGAGCTGGGATTTGAGCTCATGCTTCCCTGATCCTTTCACCCCAGAGACTGACTCAG
TGGCCTGGCTGTGAAAGATAGGATGGGAGAGAGTCACCCACTGTCTTAGGGTGAAGTCCCCAGAGCAGACCTGGAACAGGGTTTAGGAACAAGTATAGTC
GCCCTCCGTATCCTCAGGCTCTGCATCCGTGGAGTCAACTAACCACAGATAGAAAATATTTGGGGGAGGCTGGGTGCAGTGGCTCATGCCTGTAATCCTA
GCACTTTGGGAGGCCGAGGTGGGTGGATCATTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCCACTAAAAATACAAAAA
TTAGCTGGGCGTGGTGGTGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGGATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCGGA
GATCATGCCACTGCACTCCAGTCTGGGCAACAACAGCGAGACTCCATTTGAAAACACAAGAAAATATCTGGGGGAGGCCAGGCGCGGTGGCTCATGCCTG
TAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGTCAACATGGTGAAACCCCGTCTCTACTAAAAA
TACAAAAAAAATTAGCTGGGCATGGTGGCAGCCCCTGTAATCCCAGCTACTTGGGAGGCTGAGGTGAGAGGATCACTTGAGCTTGGAAGGTTGAGGTTGC
AGTGAGCTGAGGTTGCACCACTGTACTCCAACCTGGGTGACAGAGTAAGACCCTGTCTCAAAAAAAGAGAAAAGAAAATGACAGACAAACCAGACATGGG
GGAAATTGCCAGCTTTGATAAAGCTTTGAAGGAAACGGAGATGCAGGAGAACACCTTGTGGACCAGAGACCACTGAGCAGGAGAAGCAGTGAAATTTCCT
AAAATCTGGAGGATTCCCTGCCCCTGTTATCTTCAAGTCCCCAGTGGTGATGTGGAAGAAAAGCAACCTGCAAGGTGGATGCAAGCCACAAGCTGCTCTG
TGAACCTGGGCACCTCACACAGATGCCACTGGCCTGTGGGTCTCTGAGGGGACCCGCRAATGGGACTGCCAAATTCTCTGGTTTGCTCCAGGTTATTATA
GAAAATTATTTATATGAATAGTAAAAATAAAACACACTTTGTGGCCCCCCTGCCAAAAGAATATCATTGAGAAGATTATTGCTGTGGCTAACCGGGTCTC
AGTCCTGCTGGGAACTCTGGGGGACAGTAGAATATATCTCAGAGTAGCCTGGGTGAGGTGGCTCACACCTGTAATCCCAGCACATTGGGAGGGCGAGGCA
GGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAATGGAGAAACCCCGTCTCCACTAAAGATACAAAATTAACTGGGCATGGTGGCACACAT
GCCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAATCCAGGAGGTGGAGGTTGCGGTGAGCTGAGATTGCACCATTACACCCCAGC
CTGGGCAATAAGAGTGAAACTCCGTCTCAAGGAAAAAAAAAAAAAAGAATATATCTCAGAGTTATCCCACCCCTTGGGTGGGGGAGCTGGGGTATTTATC
CTCTAACTGTCATCTGACACTGTCTGAGAGATGCTTCTGGAGGCATTTAACTGCCCTGCACTTGGCCCTGAAGGAAATTAGAATGTGTTACCTCCAAATA
TGCCACTTTGGCATAAGGACTATTTTGAGCTGAAGGCAATTGAGAAGAAGCAGATACAAGAAAAGCTCCCTACCCTCCTATTTGCATAAAAACAGGACAT
ACATTTTCAACTGTGTCCATCTACCAGGAAGGATAAAAGTTAAATCTCTGGGCTGGGCACGGTGGCTCATGCCTGTAATCCTAACACTTTGGGAGGCCGA
GGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGAGCAACATGGAGAAACCCTGTCTCTACTGAAAATACAAAATTAGCCAGGTGTGGTGGC
ACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAAAAGAATTGCTTGCACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCCCCATTGCACTC
CAGCCTGGGCAACAACAGCGAAACTCTGTGTCAAAAATAAATAAATAAATAAATAAAGCTGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGA
GGCCAAGGTGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGCCTCTACTAAAAATACAAAAAATTAGCCAGGCGT
GGTGGTGGGCGCCTGTAATCCCAGCTACTTGGGACGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGTAGTGAGCTAAGATCGTGCCACT
GCACTCCAGCCTGGGCAACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAGTTAAATATCTGGAGACAACTTTATTTTTTATTATTTTTTTGGTT
TCCATAATTTGGACTTATTTTATTGATACTCATTAGTGAATAAAATGTTGATTTTTGATGCATTACAATACACTTTTTGGTAGTGGTTGCACAATGTTGA
TCATTTATTTGTTTACTAAATACTGCAATCTCCAAATTGCCTTTTTTTTTTTGAGACAGAGTCTCGCCCTGTCTCCCAGGCTGGAGTGCAATGGCGTGAT
CTCAGCTCACTGCAAGCTCTGCCTCCTGGGCTCAAGCAATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGATGCATAACACCATGCCCAGCTA
ATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTATTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTTGGCTTCCCAAAGTG
CTGGGATGACAGACGTGAGCCACTGTGGCTGGCCAAATTGCCAATTTTTACATGGTATTTCTGGCAATGATGGTGGCTCGTCTCTCTGAATACATAAAAT
GGTCCATTCAATCCATGGTTTTCATATTCCTTTGTTATTCTATCTACTGCTTTAAAATACATTCAGGCTGAGTGCAGCGGCTCACACCTAGAGAATCCCA
GCACTTTGGGAGGCTGAGGCGGGTGGATCACGGGGTCAGGAGTTCAGGACCAGCCTAGACAACATGGTGAAACCCCACCTCTACTAAAAAGTACAAAAAT
TAGCCTGGCATGGTGGTGCCCGCCTATAATCCCAGCTACTTGAGRGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAG
ATGGCACTACTGCAATCCAGCCTGGGTGGCAGAGCAAGACTCTGTCTCAAAAAAATAAAATACATTCAAATAAAAAAATATAAGTTACTTTCAACAAGTG
CACACTTAGAACAGCGAGGAGAGCTGAGAACATAATTAACCAGTACTCTTGTGTTCAGAGCATAAATAGTCTGAAACCGTGGGACTGAAGCTTGCTCCTC
ATAGACTTTCTCCAAGTATCCTTGGTGGACGTAAGGTTACCCTCACTCAACGGAAGGACACATCTGCTGCTGTGGTGGGAGGACACAGAATGACAATTTC
ATTTACGTAGGACGTTTTCCTTCCATAATGTCTGGAACAAGTCGGAGACAACTTTAGACCCCTTTCAGCCTGGAGTGGCACCAGTGCAATCTAATAACAA
ACTTGACTCACTAGCCTTTATCTACCATTCGTTTTCCATATAGCTGCTTTCCCATGCACAGTTAGCCACCCTTGGAAGTCCAACCTAGGCTGGAGCTTGG
GGGCCTGGACCTCAGCCCTCTTCTGGGACAGGCGGTAGGATCCCCAGCCCTTGTTCTGCAGCTGGCACAAGAGCTGTGACTGCCGGATGTGGGTCACATG
GCAGCCCAGGGGGGCAGGAGAAGCCGGGGGAGGCCCACTGGCTACCAGACCCAGCCCTGAGAGGGGACAGGGCTCAGCTCCCACGGGCAGAAAGCTGTTT
CCCACACACAGTTAGCCACCCTTGGAAGTCTAAAAATTGCTGTCCTTTATCTTGCCTACAAATGTATTGTTCTTTGTTGAAGATGCTCTGTGAGCCTGAA
TTCTCCCATCTGAGTACTAACCAGGCCCCACCGTGCTTAGTTTCCAAGATCAGACAAGATCGGGCGCGTTCAGGGTGGTATGGCCGTAGACAGTGTGAGC
CTGAATTCTAAGCTACCTCTCTGAGTTACTCAACTCTGGGTACTCTGTGTGTTAAATGTGTGATACACATGTTAATAAACTTGTTTGCTTTTCTCTTGTA
ATCTGTCTTTTATTACAGAGCCCCAGCCGWGGACCTAAGATGGGTAGAGAAAACACTTTCCCTCCTCTACAGCCCTCAGGTGGCGGGTAGCTCAAGGTAA
TGGTGTCAACAGGCACAAGAACAATGATGGAATGGAGTGAGACACCAGCAATGCCTGCATCAGCCACTCATGAGCAATTATTTACAAATATTTATTGGGT
TCCTCCTATTCTTGCCACCGGTGATACAGAAGGGAGGAGGGACTTGTCACGCTCCCAGTTTCCTGTTTTGCCCGAGAGGCAGACAATAAACTGGCAAACA
AAACAACTACAGATTGTGAAATGTGTTCTAAAGAAAATATTCTGCTATTGTGAGACAAAGCAACAAACATTAAGAAGCTGTGTTTGCTCCTTTCTGCTTG
TCGGCACAGTTTCACAAAGCACCTGACTCTGTGACTAGAGACAGACGTGCAGCCCTCCGGAAAGATGCTTTGAAGACAGCACAGGAGAGAGCCTGAGGCC
CTCCCATGTCTCTTGGCTGAGTCACTACTTTTCTTTTCTTCTTCTTTTTTTTTTTCTTTGAAAGAGAGTCTTGTTCTGTTGCCCAGGCTGGAGTGTCATG
GCGCAATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCCAGGACTACAGGCACATGCCTGGCTAA
ATTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTGGCCAGGCTGGTCTCGAGCACCTGACCTAAAGTGATCCACCCTCCTCGGCCTCCCAAACTGC
TGGGATTACAGATGTGAGCCACTGCGCCCGGCTTGAGTCTTCACGTTTCTTAAAAGAGAAATAATCCTAGTCCCTGGCTTTTCTGACACAGAACATTTCC
AAGATGACATCTGACGAGGTTAGTGATGATGCCTCTGTGATCTAGGACCCAAATCTTGCTGTGATTCTGCTGTCATGTAATTCTGAGCAAGTCTGATGGG
ATTTTGCACATACGGAACCTCCACCTTTAGCCCCCAGATGTATATAAGCAATGGGCTGAAACATTGTGCCAGAGCCTGCTCCTGGGCTGGAGGCCTCAAT
CTATAGTCCTCTGTAAGACTTCTGAATACAACTAGCATTCATTCTTTAAAAAGCTTAATTTTTTCTCTTTTATTTGACCCTGTGGTAGAGAATAACTGGG
TCTATGTGTGAAGGGTGAGGAGCAGAAAGGGTAGGTCTCTCAGGAAGAGGCATTTCACCCAAGAGCTAAGGAGGAAAGGGGAGCCCACCATATTTGTGCC
TGGGGAAGAGCGTTGCAGGCACAGGGAATGGCAAGGTCGGAGGCTCTGAGCAAGAGAGAACATGGCGTGTCTGTGTAAGGGAAAGGACCGAGAGGACAAA
GAGAA


SNP Information

Context             (SEQ ID NO:24248):
GGCTCACTGCAACCTCCATCTCCTGGGTTCAAGCGAGTCTCCTGCCTCAGCCTTCCAAGTAGTTGGGACTACAGGCACGAGCCTGGCTAATTTTTTTTTT
K
TTTTTTTGAGATGGAGTCTTGTTTTGTTGTCCAGGTTGGCGTGATCTCGGCTTACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTACCTCAGCC
Celera SNP ID:            hCV26835680
SNP Position Genomic:     14337
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24249):
CTACAACCTGCCCTCAGCTTTCAGCAGCCAGACAGCCCACCTGCCTCTGGTTCTGCCACCCTGCAACTCCGGAGAAGGCCCTGCTATCTCGGCTGGCTGA
R
CTGAGAACTGTTCTGGGAAGGAGCTGCCCCACTTTTCCTTCAAATCTTGCCCCCTGGGTGGCCGTCTGATTCCAGGCAGCTCTGAGTGGGGACTGAAGCT
Celera SNP ID:            hCV25594396
SNP Position Genomic:     15011
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,3)   caucasian(A,38)   total(A,67|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:24250):
ATGGGTGGGGGTTCTGTGGGGGTCCTCTGGTAACGTCTGTTCTCTCCACCATAGGAGACTCTTCCTGGTTTCCAGGAGACGCTGGCTGAGGAGCTCAGAA
Y
GTCTCTAAGGAGGATGATCTCAGACCCTGTGTATTTTATGGAGAGGTGCGTGGCTGGGGCCCTCCCTTGCCCCATAGGCCATGGCCTTTCCTGTAGTGGG
Celera SNP ID:            hCV25594397
SNP Position Genomic:     13649
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,37|T,3)   total(C,71|T,3)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24251):
CTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTT
T
GAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGACTACTG
Celera SNP ID:            hCV26835681
SNP Position Genomic:     10748
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24252):
TCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTT
T
TGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGACTACT
Celera SNP ID:            hCV26835682
SNP Position Genomic:     10747
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24253):
CTCCGCCAGCAACCCCCGGTGTCCACTGGGTCTGCCACCCATTACCCATACAGCGTGCCTCTGGTGAGGACCCTCCCCTGGCTGCCCACTTTCCTACGTC
Y
GTGCCTGTGTCTCAGCCTTGGTGGCTGATTGAGATCCCAGTTCCCTTCTGTGCCTGAGCCTATGGGTGGGGGTTCTGTGGGGGTCCTCTGGTAACGTCTG
Celera SNP ID:            hCV25594398
SNP Position Genomic:     13487
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,29)   caucasian(T,40)   total(C,3|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:24254):
TTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTT
T
TTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGACTAC
Celera SNP ID:            hCV26835683
SNP Position Genomic:     10746
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24255):
TTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTT
C
TTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCTTCCTGAGTAGC
Celera SNP ID:            hCV26835684
SNP Position Genomic:     10737
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24256):
CTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCT
C
TCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCA
Celera SNP ID:            hCV26835685
SNP Position Genomic:     10723
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24257):
TTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCT
C
TCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCT
Celera SNP ID:            hCV26835686
SNP Position Genomic:     10721
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24258):
TTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTC
T
CTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGTGATTCTCCTGCC
Celera SNP ID:            hCV26835687
SNP Position Genomic:     10720
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24259):
TTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCT
C
TCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGTGATTCTCCTGC
Celera SNP ID:            hCV26835688
SNP Position Genomic:     10719
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24260):
CAGAGTCAGAGACCTCAGAGAGCCCCTTATCTTGACCCCTTGTTATCTTGAGGAGACCAAGGCCCAGAGAGGGTCCTGGAGTCTTCTAGGAACCAGGCTG
Y
GTGACTCCCCTGCCTTCTTTGCCCTCCTTCCGTGTGACTTGTCATTTCATGGGCTGCCAAGGACTCACTGATGTGCCTGGGAAGACTTGCTGGAAGCAGG
Celera SNP ID:            hCV1844840
SNP Position Genomic:     12753
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24261):
CTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTC
T
CTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGTGATTCTCCTG
Celera SNP ID:            hCV26835689
SNP Position Genomic:     10718
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24262):
TGCCAAGGACTCACTGATGTGCCTGGGAAGACTTGCTGGAAGCAGGGGGTGCCCTGAGTGGGTAGGCCTCAGATGGGGGTTCACTGGTTTTGGGTCCTTC
S
AGTATGGGGCTGAGACTGAAAAGTTGCAGAAGCAGCTGGCTTCGGAGAAGGAAATCCAGATGCAGCTCCAGGAAGAGGTGAGTCTCGCTGCCGGCTTCTG
Celera SNP ID:            hCV1844841
SNP Position Genomic:     12908
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,14)   caucasian(G,18)   total(C,8|G,32)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,2)   caucasian(G,10)   total(C,6|G,12)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,9)      total(G,9|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24263):
AAAAGTTGCAGAAGCAGCTGGCTTCGGAGAAGGAAATCCAGATGCAGCTCCAGGAAGAGGTGAGTCTCGCTGCCGGCTTCTGCCCCCACCCTGGAGAGCC
R
CTGGCCCAGAGTGGGGACCCCAGGCCCTTGGCAGCTACCTGACTCTGGAGAGGACTAGCAGGAACTGAGTCTTGTCCGTTTCCACCCCCTCCATGCCTGG
Celera SNP ID:            hCV1844842
SNP Position Genomic:     13027
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,9)   caucasian(A,25|G,9)   total(A,50|G,18)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24264):
CACCCCCTCCATGCCTGGCACAGCCCAGCAGGTGACAGTTCCATCAAGGTCTGAGTGGTGTGGAGTGCAGGGACCTGCCCTGGGTCCCCCACATGACACT
Y
GGAGTCCAGAACCTGGGCCTCTGGCCTCAGCCTGAGAGCAGATAGGCAGGAGTGCTGGACTGGGTGTGCCTGGGTCCCAGCAGAGCGTGTGGGTGGGTTC
Celera SNP ID:            hCV1844843
SNP Position Genomic:     13210
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,10)   caucasian(C,34|T,2)   total(C,60|T,12)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24265):
AGGGACCTGCCCTGGGTCCCCCACATGACACTCGGAGTCCAGAACCTGGGCCTCTGGCCTCAGCCTGAGAGCAGATAGGCAGGAGTGCTGGACTGGGTGT
R
CCTGGGTCCCAGCAGAGCGTGTGGGTGGGTTCCCAGCTGCAGGACCTGCGGGAGAAGTACATGGATTGTGGGGGCATGCTGATTGAGATGCAGGAGGAGG
Celera SNP ID:            hCV1844844
SNP Position Genomic:     13278
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,25)   caucasian(A,1|G,37)   total(A,10|G,62)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24266):
GCCTCTGGCCTCAGCCTGAGAGCAGATAGGCAGGAGTGCTGGACTGGGTGTGCCTGGGTCCCAGCAGAGCGTGTGGGTGGGTTCCCAGCTGCAGGACCTG
Y
GGGAGAAGTACATGGATTGTGGGGGCATGCTGATTGAGATGCAGGAGGAGGTGAAGACCCTCCGCCAGCAACCCCCGGTGTCCACTGGGTCTGCCACCCA
Celera SNP ID:            hCV1844845
SNP Position Genomic:     13327
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,10)   caucasian(C,16|T,18)   total(C,40|T,28)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,6)   caucasian(C,19|T,21)   total(C,39|T,27)   
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:24267):
TGGGTTCCCAGCTGCAGGACCTGCGGGAGAAGTACATGGATTGTGGGGGCATGCTGATTGAGATGCAGGAGGAGGTGAAGACCCTCCGCCAGCAACCCCC
R
GTGTCCACTGGGTCTGCCACCCATTACCCATACAGCGTGCCTCTGGTGAGGACCCTCCCCTGGCTGCCCACTTTCCTACGTCTGTGCCTGTGTCTCAGCC
Celera SNP ID:            hCV1844846
SNP Position Genomic:     13404
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,19)   caucasian(A,13|G,23)   total(A,22|G,42)
SNP Type:                 SILENT MUTATION;INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;INTRON;TFBS


Context             (SEQ ID NO:24268):
GAGTCCCGCTTGCCACTAGTTGCTTCTCGGCAGCCCCCACCCCTACGCGTGGTCCGGCCCGGCGGCTGGCGCAGGTTATAAAGGTCCCGCCGCAGCAGCG
S
ACGGCAGACTCGAGATGCGCCCGAGGAGGTTGGGCCGGTGCTGCGCGGGGAGCCGGCTCGGACCCGGGGACCCAGCAGCACTCACCTGTGCACCTTCGCC
Celera SNP ID:            hCV25594323
SNP Position Genomic:     5997
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(G,40)   total(C,1|G,71)
SNP Type:                 hmCS


Context             (SEQ ID NO:24269):
AGCTCCCCTCCCGCGCGGCTCTGAGTCCCGCTTGCCACTAGTTGCTTCTCGGCAGCCCCCACCCCTACGCGTGGTCCGGCCCGGCGGCTGGCGCAGGTTA
Y
AAAGGTCCCGCCGCAGCAGCGGACGGCAGACTCGAGATGCGCCCGAGGAGGTTGGGCCGGTGCTGCGCGGGGAGCCGGCTCGGACCCGGGGACCCAGCAG
Celera SNP ID:            hCV25594324
SNP Position Genomic:     5975
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(T,34)   total(C,2|T,66)
SNP Type:                 hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(T,40)   total(C,2|T,72)   
SNP Type:                 hmCS


Context             (SEQ ID NO:24270):
CTGTGCACCTTCGCCCTCAGCCAGTCCCGCTCCGGAGCCCTCTGCGCAGCCGCAGGCACGGGGCACTGGACAGAGAGTAGGATCCCGAGCCACCTCTGGA
W
CCCAGTTCCTCTCGGAAGCCCGCACCGGAGCTCGCCCGGCCTCGGAGGCTGGAGCCAAGGCAGGAGCCCGGCGCCCGTCCGCATTCTCGGCCATCCAAGG
Celera SNP ID:            hCV25594325
SNP Position Genomic:     6183
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,4)   caucasian(A,16|T,2)   total(A,22|T,6)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:24271):
CCTAATGCACTGGCCACCCCAGACCGTATGCACAACGTTGGGTTGGCAGCTTCTACACCAGGGAAGGCACCCGAAACCCCGGCGCGGCAGCTGGGGAGGG
K
CTGCCCCCAGCCAGGGACCCGCGAGTGCTGGGGCAGCCGCGGCTTTGGGCAGAACCATTCTCCGGAGATGGAGAGGGCAGAAAAAATCTTTCGCTCCCAT
Celera SNP ID:            hCV27840714
SNP Position Genomic:     5696
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,38)   total(G,73|T,1)
SNP Type:                 TFBS


Context             (SEQ ID NO:24272):
ACCTGGGACTAAGGCCCAGCGTGGTCCCTTTCCTGACTGTGTGTCCTTGGGCAAGTCATTTGACCTGTCTGAGCCTGTCTAGAATGGATTTGTTCCTATG
K
CAAGTAGCTGTGGGGTGGGCTATGAAGGTTAAATCATGCAGGAGGGAGGCAGAAGTGGGTGTTAACCCTGTTGGTGTATTCCGTGCAGGGTCAGGGACAT
Celera SNP ID:            hCV1844849
SNP Position Genomic:     15270
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24273):
AATTGCTTGAACCTGGGAGACAGAGTTTGCAGTGAGCCTAGATCACGCCACTGCACCCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAA
A
GGTGGGTCTCCTCCAAGCCTGTCTTCTCTTATTTGGGGCAGGCAAGAGGGAGCCATGAGCTGCCAGAGACCAGGCACCCAGGGCTGGGACAGTTCAGAGT
Celera SNP ID:            hCV9249040
SNP Position Genomic:     9736
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24274):
GCCCTTCTTGCCCTGCTTTTCTTACTGTGCTCTGTTCCGTCACCACTAGCTCCCCTCCCGCGCGGCTCTGAGTCCCGCTTGCCACTAGTTGCTTCTCGGC
M
GCCCCCACCCCTACGCGTGGTCCGGCCCGGCGGCTGGCGCAGGTTATAAAGGTCCCGCCGCAGCAGCGGACGGCAGACTCGAGATGCGCCCGAGGAGGTT
Celera SNP ID:            hCV25594367
SNP Position Genomic:     5928
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,3)   caucasian(A,40)   total(A,73|C,3)
SNP Type:                 TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,28|C,2)   caucasian(A,38)   total(A,66|C,2)   
SNP Type:                 TFBS


Context             (SEQ ID NO:24275):
CTCCCATCCCAACTCGGAGCCATCCGGAACTTGCACTCGCCCTTCTTGCCCTGCTTTTCTTACTGTGCTCTGTTCCGTCACCACTAGCTCCCCTCCCGCG
Y
GGCTCTGAGTCCCGCTTGCCACTAGTTGCTTCTCGGCAGCCCCCACCCCTACGCGTGGTCCGGCCCGGCGGCTGGCGCAGGTTATAAAGGTCCCGCCGCA
Celera SNP ID:            hCV25594368
SNP Position Genomic:     5890
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,35|T,1)   total(C,65|T,1)   
SNP Type:                 TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 TFBS


Context             (SEQ ID NO:24276):
TGCAACCTCCATCTCCTGGGTTCAAGCGAGTCTCCTGCCTCAGCCTTCCAAGTAGTTGGGACTACAGGCACGAGCCTGGCTAATTTTTTTTTTTTTTTTT
T
GAGATGGAGTCTTGTTTTGTTGTCCAGGTTGGCGTGATCTCGGCTTACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTACCTCAGCCTCCTGAG
Celera SNP ID:            hCV11615914
SNP Position Genomic:     14344
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24277):
TCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCT
C
TCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGTGATTCTCCT
Celera SNP ID:            hCV26835690
SNP Position Genomic:     10717
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24278):
CTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCT
T
CTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTGCC
Celera SNP ID:            hCV26835691
SNP Position Genomic:     10694
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24279):
TTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTC
C
TTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCCTG
Celera SNP ID:            hCV26835692
SNP Position Genomic:     10692
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24280):
TTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTT
T
CCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCCC
Celera SNP ID:            hCV26835693
SNP Position Genomic:     10690
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24281):
CTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCT
T
TCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAACCC
Celera SNP ID:            hCV26835694
SNP Position Genomic:     10689
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24282):
TTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTT
T
CTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCAA
Celera SNP ID:            hCV26835695
SNP Position Genomic:     10686
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24283):
CTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCT
T
TCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACTGCA
Celera SNP ID:            hCV26835696
SNP Position Genomic:     10685
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24284):
TTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTT
T
CTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCACT
Celera SNP ID:            hCV26835697
SNP Position Genomic:     10682
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24285):
TCAACTCTGGGTACTCTGTGTGTTAAATGTGTGATACACATGTTAATAAACTTGTTTGCTTTTCTCTTGTAATCTGTCTTTTATTACAGAGCCCCAGCCG
W
GGACCTAAGATGGGTAGAGAAAACACTTTCCCTCCTCTACAGCCCTCAGGTGGCGGGTAGCTCAAGGTAATGGTGTCAACAGGCACAAGAACAATGATGG
Celera SNP ID:            hCV254519
SNP Position Genomic:     22730
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:24286):
CTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTT
T
TCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGCTCAC
Celera SNP ID:            hCV26835698
SNP Position Genomic:     10681
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24287):
CTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTT
T
CTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGGC
Celera SNP ID:            hCV26835699
SNP Position Genomic:     10677
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24288):
GTGAGGATCGAGAGCAGGTGCGGGGGTTTGAGGCTGAGGAAGGGTTGATGCTGGCAGCGGATATCATGCGGGGGGAAGATTTCACGCCTGCGGAGGAGTT
S
GTGCCCCAGGAGGAGCTGGGGGCTGCCAAGAAGGTGCCGGCTGAGGAAGGGGTGATGGAAGAGGCAGAGCTGGTGTCAGAGGAGACCGAGGGCTGGGAGG
Celera SNP ID:            hCV1844850
SNP Position Genomic:     15711
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,32)   caucasian(C,1|G,37)   total(C,3|G,69)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,2)   total(G,2|C,2) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24289):
TGGGCTGGGGGTTAGGGCTGGGACTGTGCCCCCACACTGCGCCTCAGCTTCCCATCTCTGCCCGCTTGCTTCCCCTACCCCCAACCCCTGCCTCCTCTAT
M
CCCCAGGCTCTCCAACTCTGCAGCAGTGGCAGCAGCAGTCAAAACAAACACGGGGGGCGGTGGGTGGGATGGTGGAGCAGCCTGGGGGCTGACCCAGGCT
Celera SNP ID:            hCV1844851
SNP Position Genomic:     16344
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,4)      total(A,4|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:24290):
CCTTTCCCACATGTTGGAGGCTTTTCCAACGTCTTCAGGGACAGGCGGTAGGAACCCCGGCCCTCGCTCTGCAGCTGGTGCAAAAGCTGTGGCTGCCAGG
Y
CTGGGCCACATGGCAGCCCAGGGGGCAGGAGAAGCCCGGGAGAGGCCCGCTGGCTACCAGACTCAGCCCTGAGCAGGGAACAGGGCCCAGCTTCCACCGG
Celera SNP ID:            hCV1844852
SNP Position Genomic:     17520
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:24291):
AGGAACCCCGGCCCTCGCTCTGCAGCTGGTGCAAAAGCTGTGGCTGCCAGGCCTGGGCCACATGGCAGCCCAGGGGGCAGGAGAAGCCCGGGAGAGGCCC
R
CTGGCTACCAGACTCAGCCCTGAGCAGGGAACAGGGCCCAGCTTCCACCGGCAGGGAGTTGTGAGCGCCTTCCCAACAATGTGCCCCTCACCCCTTGATG
Celera SNP ID:            hCV1844853
SNP Position Genomic:     17569
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:24292):
TCTGTGTGTGGGTGGGTGAGGGCCCCTCTGCCCAGTGGTGTGTCTCCTCTCCCTCCCTCCCTCTTCTGCCAGTGGCCTGGGGGTGTCCAGGCTCCCATCC
R
TGGCCCAGCCCCTCTCCCCTCTGTCTTGATCCCCCCCTCCCTGCCCCTGGCTTCCTCTTCCATGTTCTGCCCTTTCCCACACCTTTGTTCCTCAATAGCT
Celera SNP ID:            hCV1844854
SNP Position Genomic:     17883
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:24293):
CGGCAGATCTGCACCCCCTCAGCGCCCCTCTCCTGGGTCTACCGCAGTGCCAGGAGAGGGGCGGGGGGCTGCGGGAGGGCGCTGTCCCGCGCGCTCTGAG
Y
CTGCGCTGGCCGACCGGGCTTGCGTGCGATGGAGGGGTGGGTGGGCGGGCGGAGGGGGAAGTTTTGCCCACTTTTTGGTTGCGGGTATGGGGGCAAAGTC
Celera SNP ID:            hCV27977212
SNP Position Genomic:     6838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24294):
TGGATTGTGGGGGCATGCTGATTGAGATGCAGGAGGAGGTGAAGACCCTCCGCCAGCAACCCCCGGTGTCCACTGGGTCTGCCACCCATTACCCATACAG
Y
GTGCCTCTGGTGAGGACCCTCCCCTGGCTGCCCACTTTCCTACGTCTGTGCCTGTGTCTCAGCCTTGGTGGCTGATTGAGATCCCAGTTCCCTTCTGTGC
Celera SNP ID:            hCV25594406
SNP Position Genomic:     13440
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,4)   caucasian(C,32|T,8)   total(C,60|T,12)
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:24295):
GGAGACGCTGGCTGAGGAGCTCAGAACGTCTCTAAGGAGGATGATCTCAGACCCTGTGTATTTTATGGAGAGGTGCGTGGCTGGGGCCCTCCCTTGCCCC
R
TAGGCCATGGCCTTTCCTGTAGTGGGGAGGGGGTTTGCCCTCACACTCTGACCTTCCACGCTTCCCTATACCCGCCTCGTTCACTGCATCAGCCCCTCCA
Celera SNP ID:            hCV25594407
SNP Position Genomic:     13723
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,8)   caucasian(A,37|G,1)   total(A,61|G,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:24296):
GGACATGAATTATGTCCTCCAGCAGCTGGCCAACTGGCAAGATGCCCATTACAGGCGGCAGCTGAGGTGGAAGATGCTCCAGAAAGGTGAGTGCCCCCAC
R
GGGCCCTCCCTGCCGCCAGCCGGACAAGCTGCAGATCGTCGTGCCGATGAAAAGAGAGGGTGGATAAGCTCCCCGAGTGCTCACCTGCCCCAGCCTGGCT
Celera SNP ID:            hCV25594377
SNP Position Genomic:     15997
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,38)   total(A,2|G,70)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24297):
AAGGGTTGATGCTGGCAGCGGATATCATGCGGGGGGAAGATTTCACGCCTGCGGAGGAGTTGGTGCCCCAGGAGGAGCTGGGGGCTGCCAAGAAGGTGCC
R
GCTGAGGAAGGGGTGATGGAAGAGGCAGAGCTGGTGTCAGAGGAGACCGAGGGCTGGGAGGAGGTGGAACTGGAGCTGGATGAGGCAACGCGGATGAACG
Celera SNP ID:            hCV25594378
SNP Position Genomic:     15750
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(G,34)   total(A,2|G,64)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24298):
TTTCGCTACAGTGAGGATCGAGAGCAGGTGCGGGGGTTTGAGGCTGAGGAAGGGTTGATGCTGGCAGCGGATATCATGCGGGGGGAAGATTTCACGCCTG
Y
GGAGGAGTTGGTGCCCCAGGAGGAGCTGGGGGCTGCCAAGAAGGTGCCGGCTGAGGAAGGGGTGATGGAAGAGGCAGAGCTGGTGTCAGAGGAGACCGAG
Celera SNP ID:            hCV25594379
SNP Position Genomic:     15701
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,36)   total(C,67|T,3)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:24299):
TGCTCTTGTCCCCTGGTTTGTGCCCGTGAGTCAGGTTCTGGGGCCTGCACGCTCGCCCACCCACCTCCACGCGCCTCTTGCTGCGGCAGATCTGCACCCC
Y
TCAGCGCCCCTCTCCTGGGTCTACCGCAGTGCCAGGAGAGGGGCGGGGGGCTGCGGGAGGGCGCTGTCCCGCGCGCTCTGAGCCTGCGCTGGCCGACCGG
Celera SNP ID:            hCV28020481
SNP Position Genomic:     6755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24300):
CTGGGTGTCAGAAGGTGGGCTAGGGCCTCCTGCAGGGTTGTGGGGTGGAACAGGGTCTCCTCTCCCCAGCCAGAAACCCCAAAGTCTGGGAGCTGCACCT
K
CCGAGTGCAGGCCATGTGAGCCCTGCCTCTTTAAGGAGCCGCAGGACATGAAAGATGACCTTGTGACACTCATGCACAGCAGCCATTGCACGTGCATCAG
Celera SNP ID:            hCV27955697
SNP Position Genomic:     16660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:24301):
TCCATCCACTTTTCTCCTGGGGGCTGGGCTGGGGGTTAGGGCTGGGACTGTGCCCCCACACTGCGCCTCAGCTTCCCATCTCTGCCCGCTTGCTTCCCCT
R
CCCCCAACCCCTGCCTCCTCTATACCCCAGGCTCTCCAACTCTGCAGCAGTGGCAGCAGCAGTCAAAACAAACACGGGGGGCGGTGGGTGGGATGGTGGA
Celera SNP ID:            hCV27955698
SNP Position Genomic:     16320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:24302):
CAGGACCAGCCTAGACAACATGGTGAAACCCCACCTCTACTAAAAAGTACAAAAATTAGCCTGGCATGGTGGTGCCCGCCTATAATCCCAGCTACTTGAG
R
GGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGGCACTACTGCAATCCAGCCTGGGTGGCAGAGCAAGACTCTGT
Celera SNP ID:            hCV1844862
SNP Position Genomic:     21645
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:24303):
TCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCT
T
TCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTGG
Celera SNP ID:            hCV26835700
SNP Position Genomic:     10676
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24304):
TTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTC
T
TTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCTTG
Celera SNP ID:            hCV26835701
SNP Position Genomic:     10675
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24305):
CTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTT
T
CTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTTTTTTTTTGAGATGGAGTACAGTGTTGCAGTCT
Celera SNP ID:            hCV26835702
SNP Position Genomic:     10673
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24306):
ACCTCATTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTC
T
TTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTCTC
Celera SNP ID:            hCV26835703
SNP Position Genomic:     10615
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24307):
AGACCTCATTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTT
Y
CTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCTCTCTCTCTC
Celera SNP ID:            hCV26835704
SNP Position Genomic:     10613
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3|C,3)   total(C,3|T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24308):
AACCTGGCAAGACCTCATTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCT
T
TCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTCT
Celera SNP ID:            hCV26835705
SNP Position Genomic:     10604
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24309):
GAACCTGGCAAGACCTCATTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTC
T
TTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCTC
Celera SNP ID:            hCV26835706
SNP Position Genomic:     10603
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24310):
GGAACCTGGCAAGACCTCATTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTT
C
TTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCCTTCTCTCTCT
Celera SNP ID:            hCV26835707
SNP Position Genomic:     10602
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24311):
GACCCAGGTGTCCGGAGAGCCCAGTTTCTGAGCCTGGAGGACTGTGACCCCCTTACCTCAGGCTCCTCCAGGGGTAAAAAAAAAAAAAAAAAAAAAAAAA
A
GCCGGGCGCGGTGGCTGACGCCTGTAATCCCAGCCAGCACTTTGGCAGGCCGAGGCGGGCGGATCACTAGGTCAGGAGTTCGAGACCAGCCTGGCCAACA
Celera SNP ID:            hCV26835708
SNP Position Genomic:     7295
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24312):
GGACCCAGGTGTCCGGAGAGCCCAGTTTCTGAGCCTGGAGGACTGTGACCCCCTTACCTCAGGCTCCTCCAGGGGTAAAAAAAAAAAAAAAAAAAAAAAA
A
AGCCGGGCGCGGTGGCTGACGCCTGTAATCCCAGCCAGCACTTTGGCAGGCCGAGGCGGGCGGATCACTAGGTCAGGAGTTCGAGACCAGCCTGGCCAAC
Celera SNP ID:            hCV26835709
SNP Position Genomic:     7294
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24313):
CAAGATGCCCATTACAGGCGGCAGCTGAGGTGGAAGATGCTCCAGAAAGGTGAGTGCCCCCACGGGGCCCTCCCTGCCGCCAGCCGGACAAGCTGCAGAT
M
GTCGTGCCGATGAAAAGAGAGGGTGGATAAGCTCCCCGAGTGCTCACCTGCCCCAGCCTGGCTCTACCTGCTGTGCTTATTTGCATGGACTTTGCATATC
Celera SNP ID:            hCV25594386
SNP Position Genomic:     16034
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,27)   caucasian(C,34)   total(A,5|C,61)
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:24314):
GAAGACTTGCTGGAAGCAGGGGGTGCCCTGAGTGGGTAGGCCTCAGATGGGGGTTCACTGGTTTTGGGTCCTTCGAGTATGGGGCTGAGACTGAAAAGTT
K
CAGAAGCAGCTGGCTTCGGAGAAGGAAATCCAGATGCAGCTCCAGGAAGAGGTGAGTCTCGCTGCCGGCTTCTGCCCCCACCCTGGAGAGCCACTGGCCC
Celera SNP ID:            hCV25594387
SNP Position Genomic:     12934
SNP Source:               Applera
Population(Allele,Count): african american(G,30|T,6)   caucasian(G,18|T,20)   total(G,48|T,26)   
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,7)   caucasian(G,17|T,17)   total(G,46|T,24)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:24315):
TCCCACCAGGGGGATGGGCTGGGTATTTGAAGCCTTGGAGCTGGTACCTAGCTCCCCTCTCCCCTGGCTGGGACAGAACCAGGAGGAACCATCAGGGTCT
R
TGTGGAGACGGGTGGGGGTGGGCCTGGGGGGTTGGACTTTCCAGCCCCTCAAAAGATGTCGCTATCTCCCGCCCAGGTATGATTTTCGCTACAGTGAGGA
Celera SNP ID:            hCV25594388
SNP Position Genomic:     15517
SNP Source:               Applera
Population(Allele,Count): african american(G,16)   caucasian(A,4|G,10)   total(A,4|G,26)
SNP Type:                 INTRON


Context             (SEQ ID NO:24316):
TGCTTGCCGGCAGGGTTGCTGGAACTAATTGAGAACACTGCCCTTAGCCCTGGTGGGCTGGGAACTGGGAAGCCCCACTCCCTGCACCCTGACTCCCATT
S
CTCCCTCCCCTAGGATTTCGCAGGAGGCATTGCTGCACCAGCACCACTGCCCACAGCTGGAAGCCTTGCAGGAGAAGCTGAGGCTGCTGGAGGAGGAGAA
Celera SNP ID:            hCV25594311
SNP Position Genomic:     8896
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|G,1)   total(C,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:24317):
GTGTCCTAACCTACCTCCGCCAGTCAAAAAGATCACCCAGGAAGACGTCAAAGTGATGTTATATTTGCTGGAGGAGGTGTGTACTGCCTTCCTGATCCAG
K
CAAGCCCTTATTCTAGTTTTGTCCTGTAGGGGTGGGGGTCTTGTTTATTTCCTGATTGGCAGTCTCTCTGGGGCCCCAGGTTAGGGTCCTTCTTATGGAA
Celera SNP ID:            hCV25594312
SNP Position Genomic:     7959
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,32)   total(G,65|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:24318):
GATGCCCCTAAGCTGTGAGTTCCTGCCTTTGCACCTGCAAGTCCTTTCTCTGAGCCTCAATTTCCTCATTTGTTAAGAGGGACACAGGTGATGTGCTTGC
Y
GGCAGGGTTGCTGGAACTAATTGAGAACACTGCCCTTAGCCCTGGTGGGCTGGGAACTGGGAAGCCCCACTCCCTGCACCCTGACTCCCATTCCTCCCTC
Celera SNP ID:            hCV1844836
SNP Position Genomic:     8803
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,26|T,8)   total(C,53|T,17)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24319):
CCTAAAACTCCCAAATAGCTTTCCATTGGCCAAAGGATAAACCCCACCCCCTTGCCCACTACTGTGGTCTGGCCTGTGTGCACTGTTCTGGGCCCTCCCC
S
TCCCAGTGTCTTATGATGGCCTCTGGGCCTTTCCAGTCAGCTTGGACCCATGTTTTTCCTTCTTTGCCTGGGTGAGCTTCACTTGCCCTGTGGTCTTAGC
Celera SNP ID:            hCV1844838
SNP Position Genomic:     11936
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:24320):
GCCGCAGCAGCGGACGGCAGACTCGAGATGCGCCCGAGGAGGTTGGGCCGGTGCTGCGCGGGGAGCCGGCTCGGACCCGGGGACCCAGCAGCACTCACCT
R
TGCACCTTCGCCCTCAGCCAGTCCCGCTCCGGAGCCCTCTGCGCAGCCGCAGGCACGGGGCACTGGACAGAGAGTAGGATCCCGAGCCACCTCTGGAACC
Celera SNP ID:            hCV25594316
SNP Position Genomic:     6085
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,40)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS


Context             (SEQ ID NO:24321):
CACTCACCCTGGTGCCCTGCTCAGTATCAGTCAATGAACATTTCTTGAATGGAAGACCTGAGTGAGGAATGCAAAGCCCTGCAGGACCCACTGGCACAGC
R
CAGCAGCCGAGGGTGGGGGAGACAGAGGCATCTGGGAGGGCCAGAGCTGGTCCCTGAAGGCCAGGGGAGCCAGGGCTGACCTGTCCTCTGCCCTCCCCAG
Celera SNP ID:            hCV1844839
SNP Position Genomic:     12315
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24322):
CTCGGCAGCCCCCACCCCTACGCGTGGTCCGGCCCGGCGGCTGGCGCAGGTTATAAAGGTCCCGCCGCAGCAGCGGACGGCAGACTCGAGATGCGCCCGA
R
GAGGTTGGGCCGGTGCTGCGCGGGGAGCCGGCTCGGACCCGGGGACCCAGCAGCACTCACCTGTGCACCTTCGCCCTCAGCCAGTCCCGCTCCGGAGCCC
Celera SNP ID:            hCV25594317
SNP Position Genomic:     6022
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,6)   caucasian(A,26|G,12)   total(A,54|G,18)
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:24323):
CGCTTGCCACTAGTTGCTTCTCGGCAGCCCCCACCCCTACGCGTGGTCCGGCCCGGCGGCTGGCGCAGGTTATAAAGGTCCCGCCGCAGCAGCGGACGGC
W
GACTCGAGATGCGCCCGAGGAGGTTGGGCCGGTGCTGCGCGGGGAGCCGGCTCGGACCCGGGGACCCAGCAGCACTCACCTGTGCACCTTCGCCCTCAGC
Celera SNP ID:            hCV25594318
SNP Position Genomic:     6003
SNP Source:               Applera
Population(Allele,Count): african american(A,25|T,9)   caucasian(A,40)   total(A,65|T,9)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:24324):
CTCCTGTCCTCTGCACACGCAACAGGTGCAGGGTGAGTGGCTGCGTCTGTTTGTATGACCCAGGAGACTCCATTGCACTGCCTCCTGGGTAGGGGGTGAT
R
AGCCAGTCTGAGGCTGTACTTCCCCTGGCTGTCTCCATTCTAGGCGCCAGGGACCCAGGTGTCCGGAGAGCCCAGTTTCTGAGCCTGGAGGACTGTGACC
Celera SNP ID:            hCV904073
SNP Position Genomic:     7143
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24325):
TCCCCTGGCTGTCTCCATTCTAGGCGCCAGGGACCCAGGTGTCCGGAGAGCCCAGTTTCTGAGCCTGGAGGACTGTGACCCCCTTACCTCAGGCTCCTCC
R
GGGGTAAAAAAAAAAAAAAAAAAAAAAAAAAGCCGGGCGCGGTGGCTGACGCCTGTAATCCCAGCCAGCACTTTGGCAGGCCGAGGCGGGCGGATCACTA
Celera SNP ID:            hCV904074
SNP Position Genomic:     7264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24326):
GGGACCCAGGTGTCCGGAGAGCCCAGTTTCTGAGCCTGGAGGACTGTGACCCCCTTACCTCAGGCTCCTCCAGGGGTAAAAAAAAAAAAAAAAAAAAAAA
A
AAGCCGGGCGCGGTGGCTGACGCCTGTAATCCCAGCCAGCACTTTGGCAGGCCGAGGCGGGCGGATCACTAGGTCAGGAGTTCGAGACCAGCCTGGCCAA
Celera SNP ID:            hCV26835710
SNP Position Genomic:     7293
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24327):
TGGTGAAACAGAACAGTGTTTTGATGGAGGAGAACAGCAAGCTGGAAGCCCTGCTGGGCTCAGCCAAGGAGGAGGTAACCGGGTGGGGAGGAGAGGATAG
S
GGGCCAATCTACACCTGCCTCATGCCAGGACCCTCTCCTGTCCCTGCCCACTCCCAACCCATGGCTCCTCTCTCTTCCTGCCAGATTTTATACCTCAGAC
Celera SNP ID:            hCV8723992
SNP Position Genomic:     8450
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,27)   caucasian(C,9|G,29)   total(C,18|G,56)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24328):
GAAAAGCAACCTGCAAGGTGGATGCAAGCCACAAGCTGCTCTGTGAACCTGGGCACCTCACACAGATGCCACTGGCCTGTGGGTCTCTGAGGGGACCCGC
R
AATGGGACTGCCAAATTCTCTGGTTTGCTCCAGGTTATTATAGAAAATTATTTATATGAATAGTAAAAATAAAACACACTTTGTGGCCCCCCTGCCAAAA
Celera SNP ID:            hCV27876714
SNP Position Genomic:     19458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:24329):
ACGGCAGCAGCAGGAGGTCGCTCGGCTGCAGGCCCAGGTGCTGAAGCTGCAGCAGCGCTGCCGGATGGTGAGTCGGGTGTGTGTGGAACCCTCTTGTCGT
R
GCCCCATGGGACCCTAGCTTCCTTCTTCCTGCCTCCACTCGGCTCCACCAGGCCTGAGGTCCCTTTCTGTGTCAGAGTCAGAGACCTCAGAGAGCCCCTT
Celera SNP ID:            hCV27876715
SNP Position Genomic:     12580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24330):
CAGCAGCCGAGGGTGGGGGAGACAGAGGCATCTGGGAGGGCCAGAGCTGGTCCCTGAAGGCCAGGGGAGCCAGGGCTGACCTGTCCTCTGCCCTCCCCAG
Y
GGAGGCCAGCCAACAGATGGCTGAGCTGTCGGAGGTGCTGGTGCTCAGGCTGGAAAACTATGAACGGCAGCAGCAGGAGGTCGCTCGGCTGCAGGCCCAG
Celera SNP ID:            hCV27876716
SNP Position Genomic:     12416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:24331):
TTTCTCTTTGAAGGAATTATGAGATGCCCAGAGGGGACACATCCAGCCTAAGGTAAGCCTGCCAGGGGCTCCCCTACAACCTGCCCTCAGCTTTCAGCAG
S
CAGACAGCCCACCTGCCTCTGGTTCTGCCACCCTGCAACTCCGGAGAAGGCCCTGCTATCTCGGCTGGCTGAACTGAGAACTGTTCTGGGAAGGAGCTGC
Celera SNP ID:            hCV25594395
SNP Position Genomic:     14938
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,3)   caucasian(C,40)   total(C,73|G,3)
SNP Type:                 INTRON


Gene Number:                 82
Celera Gene:                 hCG19119 - 30000035318963
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VT9V(25705990..25727598)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12242):
ATCATTATCAATCTGTCTTTCAAGAAGACATAGGTAGTGAGAATAAAAGTGAGAACTCCCACTAATGAGTGAGATTCTCAAAGGGGGTGAATAAGTGAGG
CGACCACCCCTCATATTGTCTTATGCCCAATTTCTGCCTCCAAAGAAAGAAAAAGTAAAAGCTAAAAGGCAGAAATGAAATCCACAGGCAGACAGCCTGG
TGTTGCACCCTGGGTCTGGTTAAAGATTGACCCCCGACCTAACCGGTTATGTTATCTATAGATTCCAGACATTGTGTGGAAAAACACTGTGAAAATCCCT
GTTCTGTTCTGATTACTGGTGCATGCAGCTGCCAGTCACATACCCCCACTTGCTCAGTCGATCATGACCCTCTCACACAGACCCCCTTAGAGTTGCAAGC
CCTTAAAAGGGACAGGAATTGCTCACTCAGGGAGCTCGGTTTTTGGAGATGTGAGTCTTGCCAAAGCTCCCAGCTGAATAAAGCCCTTCCTTCTTTAACT
CAGTGTCTGAGGGGTTTTGTCTGTAGCTTGTCCTGCTACAAAAATAAGTGTTAAACATGAGTTTTATATTACCTCATAGGTGGAAGAAGACAGGCCAAAA
AAGCTGTTTTAACAACAACAAAATGCACAAATATTTATACTAACAAGACAGATATCCATTGCAGTATGACACGAGAAACAAATAAATGAGACAAGCAGTC
AATTCAGACATTTTAGGAAGTGATTTTTACAGAACATAGTGACAATTGCTGAGATCTGGTAGCCTTGCAAGATTCCTTTGTTATAATAAAAATAACATTG
GCAAAGACCATTTTATGATGCAGACTTCTGCTTTTTTAAAGTTTGGGGGGAAGGGGAAACATTTTTATTCTATAATGCTGAAATTTCATTTTTCTTTTCT
CTTTTTTAAGACCAAGTCTTGCTCTCTCACCAAGGCTAGAGTGCAGTGGCGTGATCTCAGTTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCC
TGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCATGCCCGGCTAGGATAACATTTTTTGTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGA
GTAGTCTAGAACTCCTGACCTCAAGTGATCTGCCCGCCTCATCCTCCCGAAGTGCTGAGATTACAGGTGTGAGGTACAGCATCTGGCCTCATGCTGAGAT
TTCTTTCATTACCAGTTCAAACACCTTTCACTTTTCAAGGCACAAGGAGAGGAATTCCATGTGTTGACACTGGGAGGAAGGGTACAGACCTACTTAAAAG
ATTCAAAACTTCTATGACAGTAAAAGAAATGTATATCAAGTTCCTTAGGGCTGCCGTAACAAAGTACTATCAACTGGGTGGCTTAGAACAAAAGAAATTT
ATTCTCTCACAGTTACGTAGGCCAGTTGAGATCAAGGTATTATCAGGGCCAAGATCCCTCTGTAGCCTCTGGGGAAGGATTCTTTCTTGCCTGTTTCCAC
TTCTAGCAGCTTCCTGTGTTTGGTTTGTGGCAGCATAACTCCAATCTCTGCCTCCATCTCTACCTGGCCATCATCCCTCTGTGTCTGTGAGGACCCCAGT
CATTGGTTGGAGGACTCACCCTATTCCACTATAATCTCTTCTTAACCAGTGAACTCACCGTATTCCAGATAAGGTCAGGTTCACAGCTACTGAGGGTTAG
GACAGAGTATCTTTTGGGGAGATGCAATTCATCCCATAAGTGGGTGGAAAAGGATGATTAACAAGTGGTATGTGGGGATGTATTGTTTTGCATCTACGTA
GCTCTCACCCCATTTCTTTCCACAACACACATTTGTCACTCTATTCTTTATTAGGTTTACAGAGAAAAGTAGATCTTCAACCACTTTCCTGGGATGTGGA
TACAGCTCTTTTTTTGGAGACAGGGTCTCATTCTGTCACCTAGACTGGTGTGCAGTAGCACTATCATGGCTGACTACAGCCTCAATGTCCCAGGCTTAAG
TGATCTTCCCAACCTCCTGAGTGGCTGGGACCACAAGTGTGTGCCACCACACCTGACTAATTTTATTTTTYAATTGTTTTGTGAAGACAGCATCTCCCTA
TGTTTCCCAGGCTGGTCTTGAATTCCTGGGCTCAAGCCATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCAAGAGCCTCCATGCCTGGCCT
TCAACTCTTGACCTTATGAACACAGCCCTATACCAGTTCCCTTCATGCATGTGCCTATAAGCTAAACCCTTTCCCAAGTGTACATGAAAATCTGAACCCC
AACAAATATGGCCTAATTCTAAATCTGACTTTCCCAGGAGTAATTTTTGTCATTTCCAGCTTACCAGCCTTTGTGAGTGTTGAATTTCAGCATTTCTGTT
TGCTTGCAGCAGAAGGTGGAGCCAGGATAGGGTGGCTCAAGATTAGAGTTTCTTCCTTAACAGTTCAGTCAACTTTTTAATCTTGGATTTATAGCTTCCT
ACCTGCTCTCTTAAAGGTGAAATGATCTATTCACCTTCAGACCATTTGCCCTCGGGGTCTCACTGAGCAATCTATGGCTTAAGTCTTCTAAGTCTCTTAA
TGGCCAAATACAATGGACAATTTTCAGGTATATCTGACACCATTTCTCTGCAGCCTTTGGCACCTATAACCACTCCATGGCTTCCACAATGTGATTGGTC
ATTTCTTTTTTGTTTATATGACAAGTTTTTATTCTTCTTCTGCCTGTTAAATGCGCCTGACCCCCAGTGTTCTGATTTTCACTATTTTTCTTAAAAAAAA
AAGTTTAAATGAAAAAAGTTTCTTATGAAAATATTAAAACATATACAAAAATAGAATAGACATTGATAATAGATCCTAAAATTCCTAGGGAAATTCAGCA
GACTGAGAATAGCTAATATAGTCTTCCAAAAAAAGATCAAATTTGAAGTTGAGAAACTTCTTGAATTCAATTTACTAAAAAGCTATAGTAATCAAGACAG
TGTAGTCCTGACATAAAGATAGGATTATAGTCTGGGTGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACCTGAGGT
CAGGAGTTCCAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAACCAGGCATGGTGGCAGGTACCTGTAATCCCAGCT
GCTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGAGGAGCCAGTGGCCGGGATTGGGCCACTGCACTCCAACCTGGGCAATAGAGTGAGGCT
CTGTCAAAAAAAAAAAAAGATAGGATTATAGATTATAGCATAATGGGATAAAATTGAGACTCCAGAAATAAACTCTCACATTTATGGTAGATTGATTTTT
GATAAGGGTGCCAAAACACTTCAATGAAAAAAGAGTCTTCTCAACAAGTGATGGTGGAACAACTGAATAACCACATTTTTGTTCTATCTGGGGCCCTGAT
TCAAAAACCCAGGCAAAGATGGAGAGAAATCAGAACTCTCATACACTGCTGATAGGAGGATAAAATGCTTACTTTGGAAAAGAATGTGGCAATTCCTCAA
AAGGTTAAACAGTGTTACCATATGACCCAGCAAACCCACTTCTAGATATATAACCAAAAGAAATCAAAACATAAGTCTACAAAAAAACTTGTACATAAAT
GTTTATAACAGCACTATTCCCAATAGCCATAAAGTAGAAACAAACCAATGTCCATCGGCTGATGAATGAATAAATAAAATATGTTGTGGTATGTCCTTAT
AATAGATATTATTGGTCCATGAAAAACATACATAAAAACATTATGCTAAATGAAAGAAGCCAGTCACGGCAAAGCAATATATTATATGCCTCTATGTATA
CTAAATGTTCCAAATAGAAAGAAAGTAGATTAAAGATTGTCTAGGGCTGGGAGGGGAGGAGGAGGAGAATGGAGGAATCTGGGAGGCGATGAATTAAGGG
TACTGAATTAGGGGAACATGGTTTCTTTTTGGGGAGATAGAAATGTAAAATTTTGGTAATGGTTGCACATCTCTGTAAATATACTAAAATCCATTAATTT
TTGCATTTTATTTTATTTATTTTATTTTTGAGACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACCACAACCTCCGC
CTCCCAGGTTCAAGCGATTCTCCTGTCTCAGCTTCCCGAGTAGCTGGAATTACAGGTGCATGCCACCACACCCAGCTAATTTTTTTTTTTTGAGATGAAG
TCTTGCTCTTGTCTCCCATGCTGGAGTGTGATGGCACGATCTTAGCTCACTGCAACCTACGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCTAA
TGTAGCTGGGATTACAGTTGCCTGCTATCACGCCCGGCTAATTTTTGTATTTTTAGTAAAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACCC
CTGATCTCAGGTGATCTGCCTTCCTCGGCCGCCCAAAGTGCTGGGATTACAAGCGTGAGCCACTGAGCYGGGCCAATTTTTGCATTTTACATAGATGAAT
TATATGGTATGCTAATTATATCTTACCAAAAATTGAAAAAAAGGAATAGTACTATCAGCCCCAATGTGCCCATCATCAATATTCTACATGTTTCCAATGT
TATTGTATCTGTTTGCCTACAGTCGAGGCCCTGATATCCTGTTTGATTTTCTTGAATTGCCAAAATTTGCATACATGCTTACAAAAATAATGCCTGTTGA
ATTTGCTAGATATGTAAAGGTTTGGAGCAAATCAGGTGTATTAAATTTATTAATATTGTTTGAAATGTCTAAGGCAATAATTCCCAAACTTCGTTGAGGG
AGAAGGAAAGCTTTTAAAATCCCATTGCCCAGGTGGCATCCCATACTGTTACTGGGAATTATGCATTGGGATGGATCCTTTAACCGAGGAGATTATTATA
GCCGGAGCTCTGAACCAGCAATCTCAGTTCTTGTGATAGTGAGCAAAGAACTACAAACTAACACCAAAATGCAAGCTTAAAGCAAAGTTTATTGAAGCAC
AATAATACACTCTGAGGGACAGCGGGCTTATTTCTGCGAAGTGAACTCAGCACTTCTTTACAGAGCTCAAGGTGCTTTTATGGGGTTTGTGGGGAGGAGT
TGAGGTTTGGGCTGTATCTGAGTGACAGGATGATGTTATTTGATTGAAGTGTATAGCTATACAATCTAAAATTAAACTGTGCATGGTCTTACCTATAATT
TGTTAAGAAAAGCCTCCCAGGGATGGGGGGGCAAAACTGTATGTAAATTCTATTATAATGATGGCATGATGAACTTGGGGTGAACTTGAAGACAGGCTTT
TGTGTTGTTGGGCATGTGCCACCTTAGGGAATTTCCACCTGTACCCTCCTTTCTCTTTCTCCAGGATATTTTGGCCACAGACTTTATCATAAACTCCATC
CCTTAGGGTGGCATTAGGGTAGTCTTGGGCCTGAATTTAGGTGGGCCAGTGGCTGTCTTAGTGACAGCCTTTCCGCTCTCTTCTGTCATCCCCTCCCAAC
TGCTAATGTCTAACTACCTAACAATTACCCATTAAATCAGTGTGTCTGGGGTTAGGAGCAGGCCTCAATATGTTTAATCATTCTCCAGATAATCCCAATA
CTGTAAAGTTTGTGAAACACTTGTCAGATAATTCAATTATGAAGGCTGTGGAAGGTGTTTCAGTAGGATCTAATTGGTTAATGTTATGACTTAATTAATT
TGAATCAAAAAACAAAATGAAAAAGCTTTATATTTCTAAGTCAAATAAGACATAAGTTGGTCTAAGGTTGAGATAAAATTTTTAAATGTATGATTGAATT
TTGAAAATCATAAATATTTAAATATCTAAAGTTCAGATCAGAACATTGCGAAGCTACTTTCCCCAATCAACAACACCCCTTCAGGATTTAAAAACCAAGG
GGGACACTGGATCACCTAGTGTTTCACAAGCAGGTACCTTCTGCTGTAGGAGAGAGAGAACTAAAGTTCTGAAAGACCTGTTGCTTTTCACCAGGAAGTT
TTACTGGGCATCTCCTGAGCCTAGGCAATAGCTGTAGGGTGACTTCTGGAGCCATCCCCGTTTCCCCGCCCCCCAAAAGAAGCGGAGATTTAACGGGGAC
GTGCGGCCAGAGCTGGGGAAATGGGCCCGCGAGCCAGGCCGGCGCTTCTCCTCCTGATGCTTTTGCAGACCGCGGTCCTGCAGGGGCGCTTGCTGCGTGA
GTCCGAGGGCTGCGGGCGAACTAGGGGCGCGGCGGGGGTGGAAAAATCGAAACTAGCTTTTTCTTTGCGCTTGGGAGTTTGCTAACTTTGGAGGACCTGC
TCAACCCTATCCGCAAGCCCCTCTCCCTACTTTCTGCGTCCAGACCCCGTGAGGGAGTGCCTACCACTGAACTGCAGATAGGGGTCCCTCGCCCCAGGAC
CTGCCCCCTCCCCCGGCTGTCCCGGCTCTGCGGAGTGACTTTTGGAACCGCCCACTCCCTTCCCCCAACTAGAATGCTTTTAAATAAATCTCGTAGTTCC
TCACTTGAGCTGAGCTAAGCCTGGGGCTCCTTGAACCTGGAACTCGGGTTTATTTCCAATGTCAGCTGTGCAGTTTTTTCCCCAGTCATCTCCAAACAGG
AAGTTCTTCCCTGAGTGCTTGCCGAGAAGGCTGAGCAAACCCACAGCAGGATCCGCACGGGGTTTCCACCTCAGAACGAATGCGTTGGGCGGTGGGGGCG
CGAAAGAGTGGCGTTGGGGATCTGAATTCTTCACCATTCCWCCCACTTTTGGTGAGACCTGGGGTGGAGGTCTCTAGGGTGGGAGGCTCCTGAGAGAGGC
CTACCTCGGGCCTTTCCCCACTCTTGGCAATTGTTCTTTTGCCTGGAAAATTAAGTATRTGTTAGTTTTGAACGTTTGAACTGAACAATTCTCTTTTCGG
CTAGGCTTTATTGATTTGCAATGTGCTGTGTAATTAAGAGGCCTCTCTACAAAGTACTGATAATGAACATGTAAGCAATGCACTCACTTCTAAGTTACAT
TCATATCTGATCTTATTTGATTTTCACTAGGCATAGGGAGGTAGGAGCTAATAATACGTTTATTTTACTAGAAGTTAACTGGAATTCAGATTATATAACT
CTTTTCAGGTTACAAAGAACATAAATAATCTGGTTTTCTGATGTTATTTCAAGTACTACAGCTGCTTCTAATCTTAGTTGACAGTGATTTTGCCCTGTAG
TGTAGCACAGTGTTCTGTGGGTCACACGCCGGCCTCAGCACAGCACTTTGAGTTTTGGTACTACGTGTATCCACATTTTACACATGACAAGAATGAGGCA
TGGCACGGCCTGCTTCCTGGCAAATTTATTCAATGGTACACKGGGCTTTGGTGGCAGAGCTCATGTCTCCACTTCATAGCTATGATTCTTAAACATCACA
CTGCATTAGAGGTTGAATAATAAAATTTCATGTTGAGCAGAAATATTCATTGTTTACAAGTGTAAATGAGTCCCAGCCATGTGTTGCACTGTTCAAGCCC
CAAGGGAGAGAGCAGGGAAACAAGTCTTTACCCTTTGATATTTTGCATTCTAGTGGGAGAGATGACAATAAGCAAATGAGCAGAAAGATATACAACATCA
GGAAATCATGGGTGTTGTGAGAAGCAGAGAAGTCAGGGCAAGTCACTCTGGGGCTGACACTTGAGCAGAGACATGAAGGAAATAAGAATGATATTGACTG
GGAGCAGTATTTCCCAGGCAAACTGAGTGGGCCTGGCAAGTTGGATTAAAAAGCGGGTTTTCTCAGCACTACTCATGTGTGTGTGTGTGGSGGGGGGGGC
GGCGTGGGGGTGGGAAGGGGGACTACCATCTGCATGTAGGATGTCTAGCAGTATCCTGTCCTCCCTACTCACTAGGTGCTAGGAGCACTCCCCCAGTCTT
GACAACCAAAAATGTCTCTAAACTTTGCCACATGTCACCTAGTAGACAAACTCCTGGTTAAGAAGCTCGGGTTGAAAAAAATAAACAAGTAGTGCTGGGG
AGTAGAGGCCAAGAAGTAGGTAATGGGCTCAGAAGAGGAGCCACAAACAAGGTTGTGCAGGCGCCTGTAGGCTGTGGTGTGAATTCTAGCCAAGGAGTAA
CAGTGATCTGTCACAGGCTTTTAAAAGATTGCTCTGGCTGCTATGTGGAAAGCAGAATGAAGGGAGCAACAGTAAAAGCAGGGAGCCCAGCCAGGAAGCT
GTTACACAGTCCAGGCAAGAGGTAGTGGAGTGGGCTGGGTGGGAACAGAAAAGGGAGTGACAAACCATTGTCTCCTGAATATATTCTGAAGGAAGTTGCT
GAAGGATTCTATGTTGTGTGAGAGAAAGAGAAGAATTGGCTGGGTGTAGTAGCTCATGCCAAGGAGGAGGCCAAGGAGAGCAGATTCCTGAGCTCAGGAG
TTCAAGACCAGCCTGGGCAACACAGCAAAACCCCTTCTCTACAAAAAATACAAAAATTAGCTGGGTGTGGTGGCATGCACCTGTGATCCTAGCTACTCGG
GAGGCTGAGGTGGAGGGTATTGCTTGAGCCCAGGAAGTTGAGGCTGCAGTGAGCCATGACTGTGCCACTGTACTTCAGCCTAGGTGACAGAGCAAGACCC
TGTCTCCCCTGACCCCCTGAAAAAGAGAAGAGTTAAAGTTGACTTTGTTCTTTATTTTAATTTTATTGGCCTGAGCAGTGGGGTAATTGGCAATGCCATT
TCTGAGATGGTGAAGGCAGAKGAAAGAGCAGTTTGGGGTAAATCAAGGATCTGCATTTGGACATGTTAAGTTTGAGATTCCAGTCAGGCTTCCAAGTGGT
GAGGCCACATAGGCAGTTCAGTGTAAGAATTCAGGACCAAGGCWGGGCACGGTGGCTCACTTCTGTAATCCCAGCACTTTGGTGGCTGAGGCAGGTAGAT
CAYTTGAGGTCAGGAGTTTGAGACAAGCTTGGCCAACATGGTGAAACCCCATGTCTACTAAAAATACAAAAATTAGCCTGGTGTGGTGGCGCACGCCTAT
AGTCCCAGGTTTTCAGGAGGCTTAGGTAGGAGAATCCCTTGAACCCAGGAGGTGCAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGT
GATAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAACTGAAGGAATTATTCCTCAGGATTTGGGTCTAATTTGCCCTGAGCACCAA
CTCCTGAGTTCAACTACCATGGCTAGACACACCTTAACATTTTCTAGAATCCACCAGCTTTAGTGGAGTCTGTCTAATCATGAGTATTGGAATAGGATCT
GGGGGCAGTGAGGGGGTGGCAGCCACGTGTGGCAGAGAAAAGCACACAAGGAAAGAGCACCCAGGACTGTCATATGGAAGAAAGACAGGACTGCAACTCA
CCCTTCACAAAATGAGGACCAGACACAGCTGATGGTATGAGTTGATGCAGGTGYGTGGAGCCTCAACATCCTGCTCCCCTCCTACTACACATGGTTAAGG
CCTGTTGCTCTGTCTCCAGGTTCACACTCTCTGCACTACCTCTTCAYGGGTGCCTCAGAGCAGGACCTTGGTCTTTCCTTGTTTGAAGCTTTGGGCTACR
TGGATGACCAGCTGTTCRTGTTCTATGATSAYGAGWGTCGCCGTGTGGAGCCCYGAACTCCATGGGTTTCCAGTAGAATTTCAAGCCAGATGTGGCTGCA
GCTGAGTCAGAGTCTGAAASGGTGGGATCACATGTTCACTGTTGACTTCTGGACTATTATGGAAAATCACAACCACAGCAAGGGTAYGTGGAGAGGGGGC
CTCACCTTCCTGAGGTTGTCAGAGCTTTTCATCTTTTCATGCATCTTGAAGGAAACAGCTGGAAGTCTGAGGTCTTGTGGGAGCAGGGAAGAGGGAAGGA
ATTTGCTTCCTGAGATCATTTGGTCCTTGGGGATGGTGGAAATAGGGACCTATTCCTTTGGTTGCAGTTAACAAGGCTGGGGATTTTTCCAGAGTCCCAC
ACCCTGCAGGTCATCCTGGGCTGTGAAATGCAMGAAGACAACAGTACCGAGGGCTACTGGAAGTACGGGTATGATGGGCAGGACCACCTTGAATTCTGCC
CTGACACACTGGATTGGAGAGCAGCAGAACCCAGGGCCTGGCCCACCAAGCTGKAGTRGGAAAGGCACAAGATTCGGGCCAGGCAGAACAGGGCCTACCT
GGAGAGGGACTGCCCTGCACAGCTGCAGCAGTTGCTGGAGCTGGGGAGAGGTGTTTTGGACCAACAAGGTATGGTGGAAACACACTTCTGCCCCTATAYT
CTAGTGGCAGAGTGGAGGAGGTTGCAGGGCACGGAATCCCTGGTTGGAGTTTCAGAGGTGGCTGAGGCTGTGTGCCTCTCCAAATTCTGGGAAGGGACTT
TCTCAATCCTAGAGTCTCTACCTTATAATTGAGATGTATGAGACAGCCACAAGTCATGGGTTTAATTTCTTTTCTCCATGCATATGGCTCAAAGGGAAGT
GTCTATGGCCCTTGCTTTTTATTTAACCAATAATCTTTTGTATATTTATACCTGTTAAAAATTCAGAAATGTCAAGGCCGGGCACGGTGGCTCACCCRTG
TAATCCCAGCACTTTGGGAGKCCGAGGCGGGTGGTCACAAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACCCGTCTCTAAAAAAATACAA
AAATTAGCTGGTCACAGTCATGCGCACCTGTAGTCCCAGCTAATTGGAAGGCTGAGGCAGGAGCATCGCTTGAACCTGGGAAGCGGAAGTTGCACTGAGC
CAAGATCGCGCCACTGCACTCCAGCCTAGGCAGCAGAGTGAGACTCCATCTTAAAAAAAAAAAAAAAAAAAAAAGAGAATTCAGAGATCTCAGCTATCAT
ATGAATACCAGGACAAAATATCAAGTGAGGCCACTTATCAGAGTAGAAGAATCCTTTAGGTTAAAAGTTTCTTTCATAGAACATAGCAATAATCACTGAA
GCTACCTATCTTACAAGTCCGCTTCTTATAACAATGCCTCCTAGGTTGACCCAGGTGAAACTGACCATCTGTATTCAATCATTTTCAATGCACATAAAGG
GCAATTTTATCTATCAGAACAAAGAACATGGGTAACAGATATGTATATTTACATGTGAGGAGAACAAGCTGATCTGACTGCTCTCCAAGTGACACTGTGT
TAGAGTCCAATCTTAGGACACAAAATGGTGTCTCTCCTGTAGCTTGTTTTYTTCTGAAAAGGGTATTTCCTTCCTCCAACCTATAGAAGGAAGTGAAAGT
TCCAGTCTTCCTGGSAAGGGTAAACAGATCCCCTCTCCTCATCCTTCCTCTTTCCTGTCAAGTGCCTCCTTTGGTGAAGGTGACACATCATGTGACCTCT
TCAGTGACCACTCTACGGTGTCGGGCCTTGAACTACTACCCCCAGAACATCACCATGAAGTGGCTGAAGGATAAGCAGCCAATGGATGCCAAGGAGTTCG
AACCTAAAGACGTATTGCCCAATGGGGATGGGACCTACCAGGGCTGGATAACCTTGGCTGTACCCCCTGGGGAAGAGCAGAGATATAYGTVCCAGGTGGA
GCACCCAGGCCTGGATCAGCCCCTCATTGTGATCTGGGGTATGTGACTGATGAGAGCCAGGAGCTGAGAAAATCTATTGGGGGTTRAGAGGAGTGCCTGA
GGAGGTAATTATGGCAGTGAGATGAGGATCTGCTCTTTGTTAGGGGRTGGGCYGAGGGTGGCAATCAAAGGCTTTAACTTGCTTTTTCTGTTTTAGAGCC
CTCACCGTCTGGCACCCTAGTCATTGGAGTCATCAGTGGAATTGCTGTTTTTGTCGTCATCTTGTTCATTGGAATTTTGTTCATAATATTAAKGAAGAGG
CAGGGTTCAAGTGAGTAGGAACAAGGGGGAAGTCTCTTAGTACCTCTGCCCCAGGGCACAGTGGGAAGAGGGGCAGAGGGGATCTGGCATCCATGGGAAG
CATTTTTCTCATTTATATTCTTTGGGGACACCAGCAGCTCCCTGGGAGACAGAAAATAATGGTTCTCCCCAGAATGAAAGTCTCTAATTCAACAAACATC
TTCAGAGCACCTACTATTTTGCAAGAGCTGTTTAAGGTAGTACAGGGGCTTTGAGGTTGAGAAGTCACTGTGGCTATTCTCAGAACCCAAATCTGGTAGG
GAATGAAATTGATAGCAAGTAAATGTAGTTAAAGAAGACCCCATGAGGTCCTAAAGCAGGCAGGAAGCAAATGCTTAGGGTGTCAAAGGAAAGAATGATC
ACATTCAGCTGGGGATCAAGATAGCCTTCTGGATCTTGAAGGAGAAGCTGGATTCCATTAGGTGAGGTTGAAGATGATGGGAGGTCTACACAGACGGAGC
AACCATGCCAAGTAGGAGAGTATAAGGCATACTGGGAGATTAGAAATAATTACTGTACCTTAACCCTGAGTTTGCKTAGCTATCACTCACCAATTATGCA
TTTCTACCCCCTGAACATCTGTGGTGTAGGGAAAAGAGAATCAGAAAGAAGCCAGCTCATACAGAGTCCAAGGGTCTTTYGGGATATTGGGTTATGATCA
CTGGGGTGTCATTGAAGGATCCTAAGAAAGGAGGACCACGATCTCCCTTATATGGTGAATGTGTTGTTAAGAAGTTAGATGAGAGGTGAGGAGACCAGTT
AGAAAGCCAATAAGCATTTCCAGATGAGAGATAATGGTTCTTGAAATCCAATAGTGCCCAGGTCTAAATTGAGATGGGTGAATGAGGAAAATAAGGAAGA
GAGAAGAGGCAAGATGRTGCCTAGGTTTGTGATGCCTCTTTCCTGGGTCTCTTGTCTCCACAGGAGGAGCCATGGGGCACTAYGTCTTAGCTGAACGTGA
GTGACACGCAGCCTGCAGACTCACTGTGGGAAGGAGACAAAACTAGAGACTCAAAGAGGGAGTGCATTTATGAGCTCTTCATGTTTCAGGAGAGAGTTGA
ACCTAAACATAGAAATTGCCTGACGAACTCCTTGATTTTAGCCTTCTCTGTTCATTTCCTCAAAAAGATTTCCCCATTTAGGTTTCTGAGTTCCTGCATG
CCGGTGATCCCTAGCTGTGACCTCTCCCCTGGAACTGTCTCTCATGAACCTCAAGCTGCATCTAGAGGCTTCCTTCATTTCCTCCGTCACCTCAGAGACA
TACACCTATGTCATTTCATTTCCTATTTTTGGAAGAGGACTCCTTAAATTTGGGGGACTTACATGATTCATTTTAACATCTGAGAAAAGCTTTGAACCCT
GGGACGTGGCTAGTCATAACCTTACCAGATTTTTACACATGTATCTATGCATTTTCTGGACCCGTTCAACTTTTCCTTTGAATCCTCTCTCTGTGTTACC
CAGTAACTCATCTGTCACYAAGCCTTGGGGATTCTTCCATCTGATTGTGATGTGAGTTGCACAGCTATGAAGGCTGTRCACTGCACGAATGGAAGAGGCA
CCTGTCCCAGAAAAAGCATCATGGCTATCTGTGGGTAGTATGATGGGTGTTTTTAGCAGGTAGGAGGCAAATATCTTGAAAGGGGTTGTGAAGAGGTGTT
TTTTCTAATTGGCATGAAGGTGTCATACAGATTTGCAAAGTTTAATGGTGCCTTCATTTGGGATGCTACTCTAGTATTCCAGACCTGAAGAATCACAATA
ATTTTCTACCTGGTCTCTCCTTGTTCTGATAATGAAAATTATGATAAGGATGATAAAAGCACTTACTTCGTGTCCGACTCTTCTGAGCACCTACTTACAT
GCATTACTGCATGCACTTCTTACAATAATTCTATGAGATAGGTACTATTATCCCCATTTCTTTTTTAAATGAAGAAAGTGAAGTAGGCCGGGCACGGTGG
CTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAAGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCT
AATAAAAATACAAAAAATTAGCTGGGCGTGGTGGCAGACGCCTGTAGTCCCAGCTACTCGGAAGGCTGAGGCAGGAGAATGGCATGAACCCARGAGGCAG
AGCTTGCAGTGAGCCGAGTTTGCGCCACTGCACTCCAGCCTAGGTGACAGAGTGAGACTCCATCTCAAAAAAATAAAAATAAAAATAAAAAAATGAAAAA
AAAAAGAAAGTGAAGTATAGAGTATCTCATAGTTTGTCAGTGATAGAAACAGGTTTCAAACTCAGTCAATCTGACCGTTTGATACATCTCAGACACCACT
ACATTCAGTAGTTTAGATGCCTAGAATAAATAGAGAAGGAAGGAGATGGCTCTTCTCTTGTCTCATTGTGTTTCTTCTGAYTGAGCTTGAATCACATGAA
GGGGAACAGCAGAAAACAACCAACTGATCCTCAGCTGTCATGTTTCCTTTAAAAGTCCCTGAAGGAAGGTCCTGGAATGTGACTCCCTTGCTCCTCTGTT
GCTCTCTTTGGCATTCATTTCTTTGGACCCTACGCAAGGACTGTAATTGGTGGGGACAGCTAGTGGCCCTGCTGGGCTTCACACACGGTGTCCTCCCTAG
GCCAGTGCCTCTGGAGTCAGAACTCTGGTGGTATTTCCCTCAATGAAGTGGAGTAAGCTCTCTCATTTTGAGATGGTATAATGGAAGCCACCAAGTGGCT
TAGAGGATGCCCAGGTCCTTCCATGGAGCCACTGGGGTTCCGGTGCACATTAAAAAAAAAATCTAACCAGGACATTCAGGAATTGCTAGATTCTGGGAAA
TCAGTTCACCATGTTCAAAAGAGTCTTTTTTTTTTTTTTGAGACTCTATTGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGTAACCTCTGCC
TCCCAGGTTCAAGCGATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGTGCACCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGAC
AGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCAC
CCTGCCCAGCCGTCAAAAGAGTCTTAATATATATATCCAGATGGCATGTGTTTACTTTATGTTACTACATGCACTTGGCTGCATAAATGTGGTACAASCA
TTCTGTCTTGAAGGGCAGGTGCTTCAGGATACCATATACAGCTCAGAAGTTTCTTCTTTAGGCATTAAATTTTAGCAAAGATATCTCATCTCTTCTTTTA
AACCATTTTCTTTTTTTGTGGTTAGAAAAGTTATGTAGAAAAAAGTAAATGTGATTTACGCTCATTGTAGAAAAGCTATAAAATGAATACAATTAAAGCT
GTTATTTAATTAGCCAGTGAAAAACTATTAACAACTTGTCTATTACCTGTTAGTATTATTGTTGCATTAAAAATGCATATACTTTAATAAATGTAYATTG
TATTGTATACTGCATGATTTTATTGAAGTTCTTGTTCATCTTGTGTATATACTTAATCGCTTTGTCATTTTGGAGACATTTATTTTGCTTCTAATTTCTT
TACATTTTGTCTTACGGAATATTTTCATTCAACTGTGGTAGCCGAATTAATCGTGTTTCTTCACTCTAGGGACATTGTCGTCTAAGTTGTAAGACATTGG
TTATTTTACCAGCAAACCATTCTGAAAGCATATGACAAATTATTTCTCTCTTAATATCTTACTATACTGAAAGCAGACTGCTATAAGGCTTCACTTACTC
TTCTACCTCATAAGGAATATGTTACAATTAATTTATTAGGTAAGCATTTGTTTTATATTGGTTTTATTTCACCTGGGCTGAGATTTCAAGAAACACCCCA
GTCTTCACAGTAACACATTTCACTAACACATTTACTAAACATCAGCAACTGTGGCCTGTTAATTTTTTTAATAGAAATTTTAAGTCCTCATTTTCTTTCG
GTGTTTTTTAAGCTTAATTTTTCTGGCTTTATTCATAAATTCTTAAGGTCAACTACATTTGAAAAATCAAAGACCTGCATTTTAAATTCTTATTCACCTC
TGGCAAAACCATTCACAAACCATGGTAGTAAAGAGAAGGGTGACACCTGGTGGCCATAGGTAAATGTACCACGGTGGTCCGGTGACCAGAGATGCAGCGC
TGAGGGTTTTCCTGAAGGTAAAGGAATAAAGAATGGGTGGAGGGGCGTGCACTGGAAATCACTTGTAGAGAAAAGCCCCTGAAAATTTGAGAAAACAAAC
AAGAAACTACTTACCAGCTATTTGAATTGCTGGAATCACAGGCCATTGCTGAGCTGCCTGAACTGGGAACACAACAGAAGGAAAACAAACCACTCTGATA
ATCATTGAGTCAAGTACAGCAGGTGATTGAGGACTGCTGAGAGGTACAGGCCAAAATTCTTATGTTGTATTATAATAATGTCATCTTATAATACTGTCAG
TATTTTATAAAACATTCTTCACAAACTCACACACATTTAAAAACAAAACACTGTCTCTAAAATCCCCAAATTTTTCATAAACTCAGTTTTAAACTAACTT
TTTTTCAAACCACAATCTGATTTAACAATGACTATCATTTAAATATTTCTGACTTTCAAATTAAAGATTTTCACATGCAGGCTGATATTTGTAATTGTGA
TTCTCTCTGTAGGCTTTGGGTATAATGTGTTCTTTTCCTTTTTTGCATCAGCGATTAACTTCTACACTCTAACATGTAGAATGTTACTACAATATTAAAG
TATTTTGTATGACAATTTTATTTGAAAGCCTAGGATGCGTTGACATCCTGCATGCATTTATTACTTGATATGCATGCATTCTGGTATCTCAAGCATTCTA
TTTCTGAGTAATTGTTTAAGGTGTAGAAGAGATAGATATGGTGGATTTGGAGTTGATACTTATATATTTTCTATTTCTTGGATGGATGAATTTGTACATT
AAAAGTTTTCCATGGCAGAAATCTTTTCAAAAACTTTTTTTTTCCGGGATGGATTGAAGGCCCTGATTTCACCACAATGCAATATATTAATGTAGCAAAA
TTGTACTTGTACCCCATGAATATATATAATCTTAAGAAAATTTTTTTAGCCAATTATTATTACTTACTAGATATTAGGCTGTGTTCTGAATCTTAATTTA
ATTCCTCCAAAGAATCTTATGAGGTAGGTAGGAGCTATTGCTGCTATTCTGTTATGCTTATGTTGCTGTTATGAAACCAAGGCACAGAGAGGTTAGTTAA
CTTGCTGAAGAAAATGATGTGCTGGATTTTTATTCTAGCTATTCTGGAATAACAACTACACAACCTTATGTCTGAGCCAAGGAAACATACGGTGTGGCAA
CAGTTACCATGTTTTTAGGAACAGCAGCACTCCTAATGTTTGCTGCAGGGAAAAAGGAATCTCAGAATTTGCCTGATCCCTATAATTTTTTTCCTAAATA
TTTTGAAATATCTTTCAGATGTATTTTAAAATTTAAGGATATTTTGTTCAGTTCATACAGAATTTTTTTTTTTTTCTCGAGATGGAGTCTCACTCTATCA
CCCAGGCTGGAATGCAGTGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTTTCCTGCCTCAGCCTCCCAAGTGGCTGAGACTA
CAGGCGCATGCCACCATGCACGGCTAAGTTTTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAA
TGATCCGCCCTTTTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTACCGCGCCCAGCCAAATTTCTAACTTGTTTTGTTGTTGTTGAGACAGGGT
CTCAGTCTGACACCAAGGCTGGTGTGCAGTACTGCGATCACGGCTCACTGCAGTCTCGACCTCCTGAGCTCAAGTGATCCTCCCACCTCAGCCTACTGAG
TAGCTGGGACCACCACGCCTGGCTCATTTTTTTCTATTATTTATTGAAACGGGTTCTGGCTATGTTGCCCAGGTTGGTCTTGAACTCCGGAGCTCATGCG
ATCCACCCACCTCAGCGTCCGAAAGGATTATCAGGAGTGAGCCACCGTGCCCGGCCAAATTTCTAACTTTTGAATTGACATATTCATTTATTCTCTTTAT
CATTCAGGGAGAAATTTGGGGATGGATAGCCTTGAAGCATCATCCACCAAGTTATTTTATACACCAGATTTAGATACAAAGTATTTTTTTATTATTTAAA
AAAATCAAATTCTAGCTTTTACTCTGAAGATTCTAAAAAGAATTTTGGAGTCTTTAATTCATACTTCAGGGGCAGGGGAATAAGTACCAATATTCGTATA
ACTTTCAGTGCAAGTCACGTTAGCTAACTGTAGTCTATTGAGTTAAATATCCTTGATTTATTCCTTAAAACTGAGTCACTATGACGGCACTTTTTTGTTT
TTTTTTTTCGAGACGGAGCTCGCCCTGTCTCCCAGGCTGGAGTGCGGTGGTGCGATCTCGGCTCACTGCAATCTCCGCCTCCCAGGTTCAAGCGATTCTC
CTGCCCCAGCCTCCTGAGTAGCTGGGACTACAGGCACACACCACCACGCCCAGCTAATGTTTGTATTTTTAGTAGAGACAGGGTTTCATCATTTTGGTCA
GGCTGGTCTTGAACTCCTGACCTCGTGATCAGCCTGCCTCGACCTCCCAAAGTGCTGGGATTACAGTCATGAGCCACTGCACCCGGCTGAATGGCACTTT
CATAAAACAGTAAATAACCAACTTCACTACTGCCCCCAAGAGTTTTACTATGTATATGAGGGCATCTGTTTTAAGTATGGGTATAATGTTACGGGTTTTT
CTTTGTGTAAGTTTGGGTTCACAATTTCATCATTAAAACAAATGTAAAATACTTTGTGCTTTCTGTGTGCTATTAAGAAAGTATTCAAGGGAATTTTGAA
AATCAAATTTAATTACTCTCATGTTTGTAAAATTTTTGAAACAAATGTTTAAGAGAGGATAATGTTAGAAATTATCTTTCCAGCCAGACCTGGTGGCTCA
CGCCAGTAATCCTAGCATTTTGGGAGGACAAGGTGGGCAGATCACTTAAGCCCAGGAATTCAAGACCAGCCTGGACAACACAGGGAAAGCCCATCTCTAC
AAAATATACAAAATTAGTGGCCGAGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCCA
GACCAGCCTCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCTGGGCGTGGTGATGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAG
GCAGGAGAATTGCTTGAACCTGGGAGGTAGAGGTTGCGGTGAGCCGAGATCCCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAA
AAACAAAACAAACAAATAAACAAAATTAGTCAGGTGTGGTTGTGCACACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCG
GGGAAGTGTAGGCTACCATGAGCCATCATGGTGCCACTGTACTCCAGTCTAGGAAAAAAATAAACATTAAAAATTTTAAAATCTTAAAAAAAGAAAAGAA
ATTTTCTGTCCAGATATCTTTATTTTTAACAAATCGAAGTGTATTAATAGTGTTTATGGGAGCGTGCCCACACAAGGACAGCAAGCCTAGGAAGTGCAAG
TCAAGAAAACTTTTTGTGAAATAATTTAAACTGAAAAGAAAAAGCAGAGATTTTTTTCTAGAAAAGTAAGGAGTGGAGGTAAAAAAAAAACACAGCAGAG
ACACAGGTATGCTACGGAACCAAAGGTGTGCCAATGGTACTGACAGTTTAATTCAGAAAAAAATGAATCAGAAAATGGATATTTTTAAATAAGTTAGGTT
GCTGAAAAAGAGAAATGCAGTGAAGCCTTAGATGGGAGTGAGATAAATCAGCCATTGGCTAGAGGAGTTTCTTGCCCAAGACCAGTGGTGATGTCCCCAA
ATGCCTGGAAACAACTGTTGTGACATTATAAAGCCCCCATAGTCTAAGTTGGGTGAGACTATACTTATGCATTTTCTCACCTGTAATATAGCTTAAAAGT
ATTTCTACTCTGGGATTTCTTTACATTTTACTAAAGCGCAATTATATACTTAAAACTGATAGTGTATGCTGGGCTGCTAGTCATTCTCAACCCTGGCCAA
TTATCAGAATTGTTTGTTGAATATATAGGTGCCATATATAGGTGCATACACACACACACACACACACATACACACACACACACACACACACACACCATAT
TTCATTCCTCATATCGAATATTCTGAGAGAGTTAGTTTGTGGAGGGTAGTTCTGGACAATTTATATTTTCATAACACCTCTGGTTATTTTTTTTTAAGTA
GAGATGAAGACTTGCTATGTTGCCCAAAATGGTCTTGAACTCCTGAGCTCAAGCGATTCTCCCAACTCAGCCTCCTGAAGTGCTGGGATTACAGCCGTGA
GCCACTGCATTAACCTCTGATTAATATCATAGATTAACCTCTGATTAATATCATAGATTTATTTGTTTGAATGCTTCATGTATCCTCTCAACCACAACTT
GTTTGCAGAGTTTTAATCTGAAGGGCTTAGGTCTCTTGTTCAATGAATGAGTTTGATCTGATGGGTGAGAGGAAGGTGAAATGGAAAGCGAACGAGAAGC
CATACAGATTAGGCGAGTGAGCCTAATCTCTCCCTAACCATAAGATTGAGTATGCCTGAATTCTTCCCAGAGTGGAAGAATCCATTTTAAATATATATAT
CTACATGTACAGATCCTTTAAATATTTGTTCTGACATTCATTGTTTTTGAGTCACTGTCATTGAGAAAAGTTTAGAAAGGAGATATTAGGAGCAGGAAAT
AGAAAGTAAATAAAATATCAAAATAAAAATGGGGTTTTATAAATGATATAATAGGCAAAATAAAGGAAAGGCATCCTAGACCTCTGGTTAAAATGAAGAT
GGCACTTGGCGAGATGTGTTCCAGGGTAGTTCACATGATGTATGTTTTCAGAGAATTGTCATATTGCATATGCTGCTATATTTTTTATTTTCATGAATTA
AAAGGCATGTTGAGATTTCAGAGTTTTACTTATGATCTCAGACTCTGCATTTTTTCTCTGTAATGTTTGACATTTCTTCCTAGCTAAGTCTCTAGTTATA
AGGTCTGTGTTGTGGCATGTGGACAGTGAGTGGAAGAACCTAAGAACTCAATTTGGGGCAGAAGAATGTAATCAATTATTTCAGAAGTGATACAAACAAT
ATGACATGTAGAGCATTCTGGCCTTTCCTGGGTCTTTTTTCTCCATTCCTGGATTTCTTCTCTTCATGTGAGCAAGTCTGAGGTTACTATATAATGTCTC
TCACAGGC


SNP Information

Context             (SEQ ID NO:24332):
TACGTGCCAGGTGGAGCACCCAGGCCTGGATCAGCCCCTCATTGTGATCTGGGGTATGTGACTGATGAGAGCCAGGAGCTGAGAAAATCTATTGGGGGTT
R
AGAGGAGTGCCTGAGGAGGTAATTATGGCAGTGAGATGAGGATCTGCTCTTTGTTAGGGGGTGGGCTGAGGGTGGCAATCAAAGGCTTTAACTTGCTTTT
Celera SNP ID:            hCV7579279
SNP Position Genomic:     11786
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,6|G,32)   total(A,12|G,64)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Normal patients(A,24|G,201)      total(G,201|A,24) ;(A,-|G,-)   JBIC-allele(A,135|G,1348)   total(G,1348|A,135) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24333):
AAGCTGTTATTTAATTAGCCAGTGAAAAACTATTAACAACTTGTCTATTACCTGTTAGTATTATTGTTGCATTAAAAATGCATATACTTTAATAAATGTA
Y
ATTGTATTGTATACTGCATGATTTTATTGAAGTTCTTGTTCATCTTGTGTATATACTTAATCGCTTTGTCATTTTGGAGACATTTATTTTGCTTCTAATT
Celera SNP ID:            hCV3266648
SNP Position Genomic:     15596
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:24334):
GCCAAGGAGTTCGAACCTAAAGACGTATTGCCCAATGGGGATGGGACCTACCAGGGCTGGATAACCTTGGCTGTACCCCCTGGGGAAGAGCAGAGATATA
Y
GTGCCAGGTGGAGCACCCAGGCCTGGATCAGCCCCTCATTGTGATCTGGGGTATGTGACTGATGAGAGCCAGGAGCTGAGAAAATCTATTGGGGGTTGAG
Celera SNP ID:            hCV27529793
SNP Position Genomic:     11688
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:24335):
CCATCTCTAATAAAAATACAAAAAATTAGCTGGGCGTGGTGGCAGACGCCTGTAGTCCCAGCTACTCGGAAGGCTGAGGCAGGAGAATGGCATGAACCCA
R
GAGGCAGAGCTTGCAGTGAGCCGAGTTTGCGCCACTGCACTCCAGCCTAGGTGACAGAGTGAGACTCCATCTCAAAAAAATAAAAATAAAAATAAAAAAA
Celera SNP ID:            hCV3266649
SNP Position Genomic:     14193
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24336):
AGAGCCAGGAGCTGAGAAAATCTATTGGGGGTTGAGAGGAGTGCCTGAGGAGGTAATTATGGCAGTGAGATGAGGATCTGCTCTTTGTTAGGGGGTGGGC
Y
GAGGGTGGCAATCAAAGGCTTTAACTTGCTTTTTCTGTTTTAGAGCCCTCACCGTCTGGCACCCTAGTCATTGGAGTCATCAGTGGAATTGCTGTTTTTG
Celera SNP ID:            hCV11686667
SNP Position Genomic:     11853
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,7|T,31)   total(C,10|T,66)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(T,483|C,976)   total(C,976|T,483)
SNP Type:                 INTRON


Context             (SEQ ID NO:24337):
GTTCTATGATCATGAGAGTCGCCGTGTGGAGCCCCGAACTCCATGGGTTTCCAGTAGAATTTCAAGCCAGATGTGGCTGCAGCTGAGTCAGAGTCTGAAA
S
GGTGGGATCACATGTTCACTGTTGACTTCTGGACTATTATGGAAAATCACAACCACAGCAAGGGTATGTGGAGAGGGGGCCTCACCTTCCTGAGGTTGTC
Celera SNP ID:            hCV27541479
SNP Position Genomic:     9820
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:24338):
TTCACCATGTTGGCCAGGCTGGTCTCGAACCCCTGATCTCAGGTGATCTGCCTTCCTCGGCCGCCCAAAGTGCTGGGATTACAAGCGTGAGCCACTGAGC
Y
GGGCCAATTTTTGCATTTTACATAGATGAATTATATGGTATGCTAATTATATCTTACCAAAAATTGAAAAAAAGGAATAGTACTATCAGCCCCAATGTGC
Celera SNP ID:            hCV26297975
SNP Position Genomic:     4569
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:24339):
CTGATGAGAGCCAGGAGCTGAGAAAATCTATTGGGGGTTGAGAGGAGTGCCTGAGGAGGTAATTATGGCAGTGAGATGAGGATCTGCTCTTTGTTAGGGG
R
TGGGCTGAGGGTGGCAATCAAAGGCTTTAACTTGCTTTTTCTGTTTTAGAGCCCTCACCGTCTGGCACCCTAGTCATTGGAGTCATCAGTGGAATTGCTG
Celera SNP ID:            hCV16116963
SNP Position Genomic:     11847
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24340):
AGCACTTTGAGTTTTGGTACTACGTGTATCCACATTTTACACATGACAAGAATGAGGCATGGCACGGCCTGCTTCCTGGCAAATTTATTCAATGGTACAC
K
GGGCTTTGGTGGCAGAGCTCATGTCTCCACTTCATAGCTATGATTCTTAAACATCACACTGCATTAGAGGTTGAATAATAAAATTTCATGTTGAGCAGAA
Celera SNP ID:            hCV16116964
SNP Position Genomic:     7442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24341):
TGACTACAGCCTCAATGTCCCAGGCTTAAGTGATCTTCCCAACCTCCTGAGTGGCTGGGACCACAAGTGTGTGCCACCACACCTGACTAATTTTATTTTT
Y
AATTGTTTTGTGAAGACAGCATCTCCCTATGTTTCCCAGGCTGGTCTTGAATTCCTGGGCTCAAGCCATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGA
Celera SNP ID:            hCV2185328
SNP Position Genomic:     2071
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:24342):
CTGGGGTGGAGGTCTCTAGGGTGGGAGGCTCCTGAGAGAGGCCTACCTCGGGCCTTTCCCCACTCTTGGCAATTGTTCTTTTGCCTGGAAAATTAAGTAT
R
TGTTAGTTTTGAACGTTTGAACTGAACAATTCTCTTTTCGGCTAGGCTTTATTGATTTGCAATGTGCTGTGTAATTAAGAGGCCTCTCTACAAAGTACTG
Celera SNP ID:            hCV27502914
SNP Position Genomic:     6959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24343):
CTCAGAGCAGGACCTTGGTCTTTCCTTGTTTGAAGCTTTGGGCTACGTGGATGACCAGCTGTTCGTGTTCTATGATCATGAGAGTCGCCGTGTGGAGCCC
Y
GAACTCCATGGGTTTCCAGTAGAATTTCAAGCCAGATGTGGCTGCAGCTGAGTCAGAGTCTGAAAGGGTGGGATCACATGTTCACTGTTGACTTCTGGAC
Celera SNP ID:            hCV27528459
SNP Position Genomic:     9754
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24344):
TTGAATCCTCTCTCTGTGTTACCCAGTAACTCATCTGTCACCAAGCCTTGGGGATTCTTCCATCTGATTGTGATGTGAGTTGCACAGCTATGAAGGCTGT
R
CACTGCACGAATGGAAGAGGCACCTGTCCCAGAAAAAGCATCATGGCTATCTGTGGGTAGTATGATGGGTGTTTTTAGCAGGTAGGAGGCAAATATCTTG
Celera SNP ID:            hCV7579280
SNP Position Genomic:     13578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:24345):
GATACATCTCAGACACCACTACATTCAGTAGTTTAGATGCCTAGAATAAATAGAGAAGGAAGGAGATGGCTCTTCTCTTGTCTCATTGTGTTTCTTCTGA
Y
TGAGCTTGAATCACATGAAGGGGAACAGCAGAAAACAACCAACTGATCCTCAGCTGTCATGTTTCCTTTAAAAGTCCCTGAAGGAAGGTCCTGGAATGTG
Celera SNP ID:            hCV7579281
SNP Position Genomic:     14481
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,110|C,1383)   total(C,1383|T,110)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24346):
CTGGAGAGGGACTGCCCTGCACAGCTGCAGCAGTTGCTGGAGCTGGGGAGAGGTGTTTTGGACCAACAAGGTATGGTGGAAACACACTTCTGCCCCTATA
Y
TCTAGTGGCAGAGTGGAGGAGGTTGCAGGGCACGGAATCCCTGGTTGGAGTTTCAGAGGTGGCTGAGGCTGTGTGCCTCTCCAAATTCTGGGAAGGGACT
Celera SNP ID:            hCV15956705
SNP Position Genomic:     10399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24347):
CACCCTGCCCAGCCGTCAAAAGAGTCTTAATATATATATCCAGATGGCATGTGTTTACTTTATGTTACTACATGCACTTGGCTGCATAAATGTGGTACAA
S
CATTCTGTCTTGAAGGGCAGGTGCTTCAGGATACCATATACAGCTCAGAAGTTTCTTCTTTAGGCATTAAATTTTAGCAAAGATATCTCATCTCTTCTTT
Celera SNP ID:            hCV7579284
SNP Position Genomic:     15298
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3


Context             (SEQ ID NO:24348):
AGAGCACCCAGGACTGTCATATGGAAGAAAGACAGGACTGCAACTCACCCTTCACAAAATGAGGACCAGACACAGCTGATGGTATGAGTTGATGCAGGTG
Y
GTGGAGCCTCAACATCCTGCTCCCCTCCTACTACACATGGTTAAGGCCTGTTGCTCTGTCTCCAGGTTCACACTCTCTGCACTACCTCTTCATGGGTGCC
Celera SNP ID:            hCV15956706
SNP Position Genomic:     9554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24349):
GATGGGAGGTCTACACAGACGGAGCAACCATGCCAAGTAGGAGAGTATAAGGCATACTGGGAGATTAGAAATAATTACTGTACCTTAACCCTGAGTTTGC
K
TAGCTATCACTCACCAATTATGCATTTCTACCCCCTGAACATCTGTGGTGTAGGGAAAAGAGAATCAGAAAGAAGCCAGCTCATACAGAGTCCAAGGGTC
Celera SNP ID:            hCV16138130
SNP Position Genomic:     12576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24350):
AGGTTCACACTCTCTGCACTACCTCTTCATGGGTGCCTCAGAGCAGGACCTTGGTCTTTCCTTGTTTGAAGCTTTGGGCTACGTGGATGACCAGCTGTTC
R
TGTTCTATGATCATGAGAGTCGCCGTGTGGAGCCCCGAACTCCATGGGTTTCCAGTAGAATTTCAAGCCAGATGTGGCTGCAGCTGAGTCAGAGTCTGAA
Celera SNP ID:            hCV27541640
SNP Position Genomic:     9718
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24351):
CAAGGATCTGCATTTGGACATGTTAAGTTTGAGATTCCAGTCAGGCTTCCAAGTGGTGAGGCCACATAGGCAGTTCAGTGTAAGAATTCAGGACCAAGGC
W
GGGCACGGTGGCTCACTTCTGTAATCCCAGCACTTTGGTGGCTGAGGCAGGTAGATCATTTGAGGTCAGGAGTTTGAGACAAGCTTGGCCAACATGGTGA
Celera SNP ID:            hCV16138131
SNP Position Genomic:     8944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24352):
TTTCCAGATGAGAGATAATGGTTCTTGAAATCCAATAGTGCCCAGGTCTAAATTGAGATGGGTGAATGAGGAAAATAAGGAAGAGAGAAGAGGCAAGATG
R
TGCCTAGGTTTGTGATGCCTCTTTCCTGGGTCTCTTGTCTCCACAGGAGGAGCCATGGGGCACTACGTCTTAGCTGAACGTGAGTGACACGCAGCCTGCA
Celera SNP ID:            hCV3266650
SNP Position Genomic:     12917
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,14)   caucasian(A,24|G,16)   total(A,46|G,30)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   JBIG-allele(G,205|A,1098)   total(G,205|A,1098)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24353):
CAGATGTGGCTGCAGCTGAGTCAGAGTCTGAAAGGGTGGGATCACATGTTCACTGTTGACTTCTGGACTATTATGGAAAATCACAACCACAGCAAGGGTA
Y
GTGGAGAGGGGGCCTCACCTTCCTGAGGTTGTCAGAGCTTTTCATCTTTTCATGCATCTTGAAGGAAACAGCTGGAAGTCTGAGGTCTTGTGGGAGCAGG
Celera SNP ID:            hCV3266651
SNP Position Genomic:     9887
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,5)   caucasian(C,6|T,10)   total(C,11|T,15)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24354):
TCTGCACTACCTCTTCATGGGTGCCTCAGAGCAGGACCTTGGTCTTTCCTTGTTTGAAGCTTTGGGCTACGTGGATGACCAGCTGTTCGTGTTCTATGAT
S
ATGAGAGTCGCCGTGTGGAGCCCCGAACTCCATGGGTTTCCAGTAGAATTTCAAGCCAGATGTGGCTGCAGCTGAGTCAGAGTCTGAAAGGGTGGGATCA
Celera SNP ID:            hCV1085600
SNP Position Genomic:     9730
SNP Source:               Applera
Population(Allele,Count): african american(C,32|G,4)   caucasian(C,32|G,4)   total(C,64|G,8)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): Southern Chinese(G,5|C,188)   Australian Aboriginal(G,9|C,171|C,202|G,-)   Northern Chinese(G,4|C,129)      total(G,18|C,690) ;(C,-|G,-)   ;(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24355):
GGCCACATAGGCAGTTCAGTGTAAGAATTCAGGACCAAGGCTGGGCACGGTGGCTCACTTCTGTAATCCCAGCACTTTGGTGGCTGAGGCAGGTAGATCA
Y
TTGAGGTCAGGAGTTTGAGACAAGCTTGGCCAACATGGTGAAACCCCATGTCTACTAAAAATACAAAAATTAGCCTGGTGTGGTGGCGCACGCCTATAGT
Celera SNP ID:            hCV3266652
SNP Position Genomic:     9003
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24356):
ACCTTACCAGATTTTTACACATGTATCTATGCATTTTCTGGACCCGTTCAACTTTTCCTTTGAATCCTCTCTCTGTGTTACCCAGTAACTCATCTGTCAC
Y
AAGCCTTGGGGATTCTTCCATCTGATTGTGATGTGAGTTGCACAGCTATGAAGGCTGTACACTGCACGAATGGAAGAGGCACCTGTCCCAGAAAAAGCAT
Celera SNP ID:            hCV27465032
SNP Position Genomic:     13519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:24357):
AAAAGAGAAGAGTTAAAGTTGACTTTGTTCTTTATTTTAATTTTATTGGCCTGAGCAGTGGGGTAATTGGCAATGCCATTTCTGAGATGGTGAAGGCAGA
K
GAAAGAGCAGTTTGGGGTAAATCAAGGATCTGCATTTGGACATGTTAAGTTTGAGATTCCAGTCAGGCTTCCAAGTGGTGAGGCCACATAGGCAGTTCAG
Celera SNP ID:            hCV3266653
SNP Position Genomic:     8821
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24358):
GCAGGTGTGTGGAGCCTCAACATCCTGCTCCCCTCCTACTACACATGGTTAAGGCCTGTTGCTCTGTCTCCAGGTTCACACTCTCTGCACTACCTCTTCA
Y
GGGTGCCTCAGAGCAGGACCTTGGTCTTTCCTTGTTTGAAGCTTTGGGCTACGTGGATGACCAGCTGTTCGTGTTCTATGATCATGAGAGTCGCCGTGTG
Celera SNP ID:            hCV16175202
SNP Position Genomic:     9647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:24359):
GCCTGTTGCTCTGTCTCCAGGTTCACACTCTCTGCACTACCTCTTCATGGGTGCCTCAGAGCAGGACCTTGGTCTTTCCTTGTTTGAAGCTTTGGGCTAC
R
TGGATGACCAGCTGTTCGTGTTCTATGATCATGAGAGTCGCCGTGTGGAGCCCCGAACTCCATGGGTTTCCAGTAGAATTTCAAGCCAGATGTGGCTGCA
Celera SNP ID:            hCV27529784
SNP Position Genomic:     9700
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:24360):
TGCACTACCTCTTCATGGGTGCCTCAGAGCAGGACCTTGGTCTTTCCTTGTTTGAAGCTTTGGGCTACGTGGATGACCAGCTGTTCGTGTTCTATGATCA
Y
GAGAGTCGCCGTGTGGAGCCCCGAACTCCATGGGTTTCCAGTAGAATTTCAAGCCAGATGTGGCTGCAGCTGAGTCAGAGTCTGAAAGGGTGGGATCACA
Celera SNP ID:            hCV27529785
SNP Position Genomic:     9732
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24361):
ATATTGACTGGGAGCAGTATTTCCCAGGCAAACTGAGTGGGCCTGGCAAGTTGGATTAAAAAGCGGGTTTTCTCAGCACTACTCATGTGTGTGTGTGTGG
S
GGGGGGGGCGGCGTGGGGGTGGGAAGGGGGACTACCATCTGCATGTAGGATGTCTAGCAGTATCCTGTCCTCCCTACTCACTAGGTGCTAGGAGCACTCC
Celera SNP ID:            hCV26297984
SNP Position Genomic:     7891
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24362):
CTACTGGAAGTACGGGTATGATGGGCAGGACCACCTTGAATTCTGCCCTGACACACTGGATTGGAGAGCAGCAGAACCCAGGGCCTGGCCCACCAAGCTG
K
AGTGGGAAAGGCACAAGATTCGGGCCAGGCAGAACAGGGCCTACCTGGAGAGGGACTGCCCTGCACAGCTGCAGCAGTTGCTGGAGCTGGGGAGAGGTGT
Celera SNP ID:            hCV27530977
SNP Position Genomic:     10254
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 NONSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:24363):
ATGGTGGAAATAGGGACCTATTCCTTTGGTTGCAGTTAACAAGGCTGGGGATTTTTCCAGAGTCCCACACCCTGCAGGTCATCCTGGGCTGTGAAATGCA
M
GAAGACAACAGTACCGAGGGCTACTGGAAGTACGGGTATGATGGGCAGGACCACCTTGAATTCTGCCCTGACACACTGGATTGGAGAGCAGCAGAACCCA
Celera SNP ID:            hCV27532033
SNP Position Genomic:     10133
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24364):
TGGAAGTACGGGTATGATGGGCAGGACCACCTTGAATTCTGCCCTGACACACTGGATTGGAGAGCAGCAGAACCCAGGGCCTGGCCCACCAAGCTGGAGT
R
GGAAAGGCACAAGATTCGGGCCAGGCAGAACAGGGCCTACCTGGAGAGGGACTGCCCTGCACAGCTGCAGCAGTTGCTGGAGCTGGGGAGAGGTGTTTTG
Celera SNP ID:            hCV27540410
SNP Position Genomic:     10258
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24365):
ACATGTGAGGAGAACAAGCTGATCTGACTGCTCTCCAAGTGACACTGTGTTAGAGTCCAATCTTAGGACACAAAATGGTGTCTCTCCTGTAGCTTGTTTT
Y
TTCTGAAAAGGGTATTTCCTTCCTCCAACCTATAGAAGGAAGTGAAAGTTCCAGTCTTCCTGGCAAGGGTAAACAGATCCCCTCTCCTCATCCTTCCTCT
Celera SNP ID:            hCV25595081
SNP Position Genomic:     11351
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:24366):
TGAGGAAAATAAGGAAGAGAGAAGAGGCAAGATGGTGCCTAGGTTTGTGATGCCTCTTTCCTGGGTCTCTTGTCTCCACAGGAGGAGCCATGGGGCACTA
Y
GTCTTAGCTGAACGTGAGTGACACGCAGCCTGCAGACTCACTGTGGGAAGGAGACAAAACTAGAGACTCAAAGAGGGAGTGCATTTATGAGCTCTTCATG
Celera SNP ID:            hCV25595082
SNP Position Genomic:     12983
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,40)   total(C,72|T,2)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24367):
CTATCACTCACCAATTATGCATTTCTACCCCCTGAACATCTGTGGTGTAGGGAAAAGAGAATCAGAAAGAAGCCAGCTCATACAGAGTCCAAGGGTCTTT
Y
GGGATATTGGGTTATGATCACTGGGGTGTCATTGAAGGATCCTAAGAAAGGAGGACCACGATCTCCCTTATATGGTGAATGTGTTGTTAAGAAGTTAGAT
Celera SNP ID:            hCV15861204
SNP Position Genomic:     12680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24368):
AAGGAGTTCGAACCTAAAGACGTATTGCCCAATGGGGATGGGACCTACCAGGGCTGGATAACCTTGGCTGTACCCCCTGGGGAAGAGCAGAGATATACGT
V
CCAGGTGGAGCACCCAGGCCTGGATCAGCCCCTCATTGTGATCTGGGGTATGTGACTGATGAGAGCCAGGAGCTGAGAAAATCTATTGGGGGTTGAGAGG
Celera SNP ID:            hCV1085595
SNP Position Genomic:     11691
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): UNKNOWN(A,-|G,-)    ;(A,-|G,-)   (C,-|G,-)    ;(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:24369):
CTACCTCTTCATGGGTGCCTCAGAGCAGGACCTTGGTCTTTCCTTGTTTGAAGCTTTGGGCTACGTGGATGACCAGCTGTTCGTGTTCTATGATCATGAG
W
GTCGCCGTGTGGAGCCCCGAACTCCATGGGTTTCCAGTAGAATTTCAAGCCAGATGTGGCTGCAGCTGAGTCAGAGTCTGAAAGGGTGGGATCACATGTT
Celera SNP ID:            hCV1085599
SNP Position Genomic:     9736
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24370):
TTAGAGCCCTCACCGTCTGGCACCCTAGTCATTGGAGTCATCAGTGGAATTGCTGTTTTTGTCGTCATCTTGTTCATTGGAATTTTGTTCATAATATTAA
K
GAAGAGGCAGGGTTCAAGTGAGTAGGAACAAGGGGGAAGTCTCTTAGTACCTCTGCCCCAGGGCACAGTGGGAAGAGGGGCAGAGGGGATCTGGCATCCA
Celera SNP ID:            hCV27862610
SNP Position Genomic:     11993
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24371):
ATTTAACCAATAATCTTTTGTATATTTATACCTGTTAAAAATTCAGAAATGTCAAGGCCGGGCACGGTGGCTCACCCCTGTAATCCCAGCACTTTGGGAG
K
CCGAGGCGGGTGGTCACAAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACCCGTCTCTAAAAAAATACAAAAATTAGCTGGTCACAGTCAT
Celera SNP ID:            hCV11686534
SNP Position Genomic:     10721
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24372):
CCACAGCAGGATCCGCACGGGGTTTCCACCTCAGAACGAATGCGTTGGGCGGTGGGGGCGCGAAAGAGTGGCGTTGGGGATCTGAATTCTTCACCATTCC
W
CCCACTTTTGGTGAGACCTGGGGTGGAGGTCTCTAGGGTGGGAGGCTCCTGAGAGAGGCCTACCTCGGGCCTTTCCCCACTCTTGGCAATTGTTCTTTTG
Celera SNP ID:            hCV7579275
SNP Position Genomic:     6841
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   no_pop(A,-|T,-)   SC_12_AA(A,1|T,22)   total(A,1|T,22)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24373):
AGTGTCTATGGCCCTTGCTTTTTATTTAACCAATAATCTTTTGTATATTTATACCTGTTAAAAATTCAGAAATGTCAAGGCCGGGCACGGTGGCTCACCC
R
TGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGTCACAAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACCCGTCTCTAAAAAAATAC
Celera SNP ID:            hCV7579276
SNP Position Genomic:     10698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24374):
AGGACACAAAATGGTGTCTCTCCTGTAGCTTGTTTTTTTCTGAAAAGGGTATTTCCTTCCTCCAACCTATAGAAGGAAGTGAAAGTTCCAGTCTTCCTGG
S
AAGGGTAAACAGATCCCCTCTCCTCATCCTTCCTCTTTCCTGTCAAGTGCCTCCTTTGGTGAAGGTGACACATCATGTGACCTCTTCAGTGACCACTCTA
Celera SNP ID:            hCV7579277
SNP Position Genomic:     11415
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,3)   caucasian(C,40)   total(C,75|G,3)
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;SILENT MUTATION


Gene Number:                 83
Celera Gene:                 hCG19216 - 104000117400494
Gene Symbol:                 ACHE
Protein Name:                acetylcholinesterase (YT blood group);YT
Celera Genomic Axis:         GA_x5YUV32VYJC(82086..100742)
Chromosome:                  Chr7
OMIM number:                 100740
OMIM Information:            ACETYLCHOLINESTERASE;ACHE


Genomic Sequence (SEQ ID NO:12243):
GTTCAAGACCAGCCCGGCCAACATGGTAAAACCCCGTCTCTACTAAAAATACAAAAATGAGCTGGGTATGGTGGCACGCGTCTGTAATCCCAGCTACTCA
GGAGGCTGAGGCAGGAGATTCGCTTGAACCCGGGAGGCAGAAGTTGCAATAAGGGGAAATCGCACCACTGAACTCCAGCCTGGGCAATAGAGTGAGACTC
TGTCTCAAAAAAAAAAAAAAAAAAAAGAGGAGGAAGAACTTGGGGGAGAATGGGAGGCAGAAGATAATCATCTCCCAGGAAGCACAGGGACTTGGGCAGG
GACCCCCACCCCGCAACAATGCACACACCCCACACCTCTCTCCTTGGAAGGGAGGGGCCAGGAGGGCCTGAGAGACTCTACTTGATTTTCCAGAAGTTAC
AGGAGAGAGTCGCTGCAAAACAGCCCAGCCCATCCAGGTCAGAGTTCTCACCCAAAGTCCAAAGCCTGCAATTTACCAGCTGATGAAACGAAACAACCTC
TGTATGATTACCTGTATGTTAATGCCTCTGGGCATCAGTTTCAGTTTCCCAGCTGTTAAATTGTACTAAAAATAGCCTGGGTGTGGTGGCTTATGCTCAT
AATCTCAGCACTTTGGGAGGCCAAGGCAGGTGGATCAGCTGAGGTCAGGAGTTGGAGACCAGCCTGGCCAACAGGGTGAAACCCCGTTACTACTCAAAAT
GCAAAAATTAGCTGGGCGTGATGGCAGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATCGCTTGAACCCAGGAGGTAGTGAGCCGAGA
TCACACCATTGTACTCCAGCCTGGGTGACAGAGTGAGACTCTATCTCAAAAAAAAAAAAACAAATTGTAATGAAAATACAGCCTACCCACTGGGGCTGGG
CGCAGTGGCTCACGCCCGTAATCCCAACACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAA
CCCCGTCTCTACTTAAAATACAAAAAATTAGCCGGGCGTGGTGGTATGCACCTATAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACC
CGGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCATTGCACTCCAGCCTGGGCAACAAAAGCGAGACTTCGTCTAAAAAAAAAAAAAAAAAAGGCAAA
GAAAATACAGCCTACCCCATTTGAATGCTACAAGTGAGAATTAAATGAAATGATATTTAGCAAAGCATTCAGGAAGCGGCTGGCAAACAAGCTCTTCTTC
CCCATACATGCTACTGTGAAAGCAACATTGGATCTGGGCTACTCTTCCACTCCACCCTGTTGTCCCCAGTGTTGTGGACATTTAAGGGATCCAGCTGACC
ACTGGGCCAACCTCACAGCCAGCCTGCACTGTCCCCAAGCCAGGTGGCAGAATCCCAAACCAGTCCTCCTCACTTCTGCACCAATCTTGTGTTAAATACT
CAGTGTCCCTGGAAACCCCAGCCAAGGTCATCTATGGAACCTGTGCTTCCGGCACAGCTCTCACTTGGCCACTTGATACCTGCAGGGCAGCCAGGAGTGA
CCAGGAGCTCTCTGGGTGTCAAACATCTATAGCACCTAGTGTAACCTCACCAGCTATTTCCAAGAAGCCATTCAAGATGCACTGCTAACATTTAAACTGA
AAACCGAGTCAGGGTTGGCTGGAACCTGTGAGACCAGGAACTGACAGCCAGTTGGACCAGCATGCCAGGGACCATGTCAGATGGATGTCAGGTCATACCA
GGGAAGATGAGTGGCAACATGGCGTTCAATGTACTACTGGTGAATTAAATTGCATATTTCACTCCTTTCAGAAGCACTCAAGTTCATGGGCAAAAAGGAA
TGCCAAGAAAAGTACTGATCAGTTCTGATGGCCGGGCGCAGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCAGAGGTGGGAGGATCGCTTGAGCC
CAGGAGTTCAAGACCAGCCTGGGCAACATAGCAAGACCCCGTCTCTACAAATTAATAAAATATTTAAAAATTAGCTGGGCATGGTGGTGCCACCTGTGGT
CCCAGCTATTCAGAAGGCTGAAGGAGGGTTACTGCTTGAGCCCAGGACTTCAAGGCTGCAATGAGATATGATCACACCATTTCACTCCAACCCCGGGTGA
CAGAATGAGACCAAAAAAAAAAAAATTCTGAGCACAAGGGTATGCCACCCGCACTCCACTCTACCCCCGGCCAGAAAAGAGGCTAAACTAAGCAAAAGGT
TATTTGGCGAATTGCATGGGAAATACTGTATACTCGTTAAATAAATAACAAAATTGTGAAAATAAAGTAAGACTTTGTAGAGACAAGCTATAAAAAATGT
GTGAAATGCTCATAACTAGCAAGAGAGAAAAGGGTAAAAAGGATGGATAAGCCGCAAAGAGAAATCATCCTATCCTGTGTAGGATGACGTAACTTGGATC
CAGCAGGAAGGCTGGCCCAACATTAAGTAGGGGACATAGGAAGGGGTGGGTAGAGGGAGGAAAGTCCTTTGTGTGGCCTCAGGCTCCCAATTCTGCCAGG
TTACAATCTCGATTAATGGGGGGTTGGGCAAAGGCTCATCATTAAAGGAAGAGTTCGGCCGGATATGGTTGCTCAGGCCTGTAATCCCAGCACTTTGGGA
GGCTGAGGCAGGTGGATCACTTAAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGCAATCTCATCTCTACTAAAAATACAAAAAATTAACCAGGC
ATGGTGGTGCGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGTGGGAGAATCACTTGAACCTGGGAAGTGGAGGTTGCAGTGAGCCGAGTGCCACTGC
ACTCCAGCCTGGGGCGACAGAGTGAGACTCTGTCAAATAAATAAATAAATAGGAGATACTGTTCTTCAGCCCCTCCTCCTTCCTGCTGGCTGGAATGTAG
ATGTGATGGCTGATGTTCCAGCAGCCATTCTATGCCATGCGGTAGAAGTCACATGCTGAAGATGGTGCAGTAACAAGATACTGTGCAAGGAGCAACAGGG
TTCCGTGTAAAGAAGCCTGGACCCTGACATTGAGGGCACCATGCCAACCCTGCAAGACTCATTTCTAGGTCTCTTTTTTTTTTTTTTTAAGACAGAGTCT
CCCTCTGTCACCCAAGCTGGAGTGCAGTGGCGAGATCTTGGCCCACTGCAATCTCCGCCTCCCAGGTTCAAGCAATTCTTGTGCCTCAGCCTCCCAAGTA
GCTAGGAGTACACGCACGCACCACCATACCAAGCTAATTTTTGTATTTTTAGTACAGACAAGGTTTTACCATGCTGCCCAGGCTGGTCTCAAACTCCTGG
CCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAGTAGCTAGAACTATAAGTATGCACCACCACACCCAGCTAATTATTTTTATTTTTTGTAGAGACAGGGT
CTCACCACATTGGCCATGCTGGCCTCATACTCCTGGCCTCAAGTGATCCTCTCTCCTTGTCCTCCCAAAGTTCTGGGACGACAGTCACTGCACCTGGCCC
AAGAAATACATTTCTATTATTTTTTTTTTTTTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTACAATGGCATGATTTCCGCTCACTGCACCC
TCCACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAAGCATGGGCCACCATGCCCAGCTAATTTTTTTGTATTTTTA
GTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCCAACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAAATACTGGGATTACAACAG
GCATGAGCCACCATGCCCGGCCTCTATTATATCTTGTTAAAGCCATTATTTGGTTTTTGGTCTCATACAGCTGAATTGAATATTAACCAATAAATAGAGG
AAATAAGAATCTTTTGTGTTAGAAGATGTGGATCAAGGTCTGTAATAGAAGTGGGGTTCCCTGCCAGGCATGGCAGCTCATGCCTGTAATCCCAACACTT
TGGGAGGCTGAGGCAGGAGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCACCTCTGCTAAATATACAAAAATTAGCC
AGGTGTGGTGGCAGGCGCCTCTAGTCCCAGCTACTCAGGAGGCTGGGAAAGGAGAATCCTTGAGCCCAGGAGGCAGAGGTTGCAGCGAGCTGAGATGGCA
TCATCTCTACACTCTAGCCTGGGCGACAGAGCGAGACTCTGTCTAAAAAAAAAAAATGGCGCTTCCTTCCAAGGTGGGAGACAGAGATAAAAGAGGGGTA
GGGAAATTCTCTGAATTGGCAGAACTGGTAGTAGAAGCAAGGCTCATTCCTGGATAAACAGAAATGGTGAGAGAAGAAATGGGAAAAATCAAGGACATCC
CTGCAGTGACAGCTGTGGAGGGTGGGGAGTTTACTATGCTAGACTATGTAGGGAAACGCCTCCTGGCTTGACAGGTTAGGTGCCTGTGTTGACAACGGTT
GCTGAGAGCTCAAGGTGAAAAGAGGGATAGTTCCAGGAAATGATAACCCTGGTGATAAACTATCCCTGCCCTCCCTATCTTCATTGTACAGGCCTAGAAA
CTCGTGACGACAGAGGTTAGGTGACACCTGCGTGGCACAGTTCGTCTGGAGGGTGACAGGGGCAAGCCTTCATCACTAGCAGGGCCAAAAATCCCTAAAG
CCTCAGGACTGGGGCAGGCCTCAGAGCACTCGTTCACAGTTTGTTTCCATCATTTTATTTTTTTGCGGAGAAGGGAGTCTCGCTATGTTGCCCAGGCTAG
TCTCCAACTCCTGGACTGAAGCGATCCTCCTGTCTCGGCCTCCCAGAGTGCTGGGATTACAGGCACCGCACTAGGGGCCACACGCGGCCCCATCATTTTA
ATAATTCATAATTACCACGCTTAGAAACCTGCCTCAGATTCATTCCCCCCGCAGCAACACCCACCATCCACCCTCCTGTCCCCTCCCCCATGCACAGCCC
TTACATCTGCTCTTCAGGGATCTCAACTAGGGCACATGGTCTGGCCAGTGAGGAGCCTTCAACTAGTGCGGCCAGAACGCTGAAGGCCGGATACAAGGAG
CCTCGGTGTCCAGGCAGGGGATTTGGGGTTGCCTGAGATTGGGGCGGGGAAAGCCGGAGACAGTGGGCACAGATGGCGAGGGGTTCACCTCCCCAACACC
CCCAACCCAGCCCAGTCTCCGAGGCCCGAGTGGCTGCTTTTTGCGCCACCTGGCGGCCGTCTCCAGCGAGCGGAGCGCGGGTGACCGTGCCTGCGGGACC
CGGTTCCCGTGGGGCGAGCGGGCGTGGGGCCCGCCCAGCTTGGAGAGCCGGGAACCGCGCGGCCCAGGGACTGGCAAGACTCCGGATTCAACCCCTGCGA
GGCCCCGCAACCCGGTGCCCGCGGTCCCTGGCGGCGGCGCCCGCGTGCCCGAGGCGCTGCGGGGCGCTGCGGGGCGCGCGGCGGTTAGAGCGAGCGTGTG
CGCACGCGCCCACCCCACGCCGCGCCCCGCACCGCCGCGCGCGCGCACGCACGCCCGACGCTGGCCTGCGCCGGCCGCTCTCCCACGCGGGGTCTCGGGG
GCTCCTGAGCCGGCCGCCTCCAGGAAGCAGGCGCCGCGCGGTATTGCCGCATGCACCTCGGTCGTGGGGACCCCGCTGCAGCAGCCCTGTCCACACGGGT
GAACTCCTGGAGGGCGGGGCGGGGGGCAATCTGCGCGGGTCAGGCCCCTCGGAGCAGGCTGGGGGCGCCCGAGCCAGGCCGCTCCCACCTGCCAGCCGCG
TGGCCAATGAATGCTAGGCCTGGTGATGTCATGCCCCGACCGGACCCTGGTGACGAAAGTCCGAAGTCACCCGTCAGGGAACCAGCACAGACCCACCCGC
GGGGGTTCCAGAAGTTTCCACTGCCGCCGCGGAGTGCGGCCTCGCCCAGCAGCCTTGCGCGTGCTACCACGCTGTCCTGCCTTCTCAGGTGTCCCAAGTC
ACCCCTTCCTCCCCCAGGGGTCTCCTGTCTCCATGCCCTCCCACCTCATTTCCACTAGCGATCCCATTTTACATCTCCATTCCCACAGGTGTCCTTTCAT
CCCCAGGAGTGTCCCACGTCACCTTTTCTGCACCCGTGCCACCTGGACCCCTAAGGGGACGGTMCTCTGCCACACTCCCACATGCCTCTCCTCCCATGCC
ACCCGTCTGTGTCGTGGCCGGGGATGCATGACCCCTTGGCCTTGCGCTAACTTCACCAGCCTCGAGCGAGACCGACAGGGTGTCCAAGTGTGTCCGTCCG
TCTGTGAAAGTCGTCCCTGCGTTTGTCTGTGCCTGTCACTGCATGAGGTCGTCCGTCTGCGCGTGTCTGTCTCCACGGGCTTCTGTCCGTCTGTCTGTCA
CGTGGGTGTCTACTCCGCCGCTGCAGGTCTTTGGGTCGCGTCTGTCACTGCGCTCTGTCGTCGGTCGGCGTCTGGCACTGGAGTGCGTCTGGGCCCCGGG
GTCTCCGGGTCTCGGCTCCAAGGGAGGGAGAGAGAGGGGAGGTGGCCACCCGGGAGAGCGGGGAGGGGCGGGGGCGGAGACAGTGGGCGGGGGCGGGCGG
GGGCGCTGTGAGGCCCGGAGGGGGTGTGTGCGGGGGGCCGGAGGCGGCGGCTGTCAGAGTCGGCTCAGCCTGCGCCGGGGAACATCGGCCGCCTCCAGCT
CCCGGCGCGGCCCGGCCCGGCCCGGCTCGGCCGCCTCAGGTGAGTCTCCCTCCCCGCCCGGGACTCTCCTTAAGGCCCGGGTCCGGGGCACCGTGCGCTC
CCCGAGGGGTCCAGGCCCCCCTAACGGGACGGCTCCCGCTTCCCCGGGCCTGCCCCGCGCCGCCCTCCGCTGCCCCGCACTCGTCCGGAACTCTTCCCCG
GCCGCCTCACACTCACCGACGCCCACGCAGGAGCCCGAGCCCGCGGGAACGGCCGCCGCCTCTGCGCTCCGATTCCCGCGGGGACCCCCGAGCACCCCTT
CCCCGATCGCTCCCTAGTCCGGGGCCACTGGAAGACACCCCCTAATTGGGGCGGTACCCGAGCTGCGCAGGTTCCCGGCGCCGGGCTGGGCACCCCCATC
CCCAGGGCCACAAGCCCAGCGCCCCTGCGCAGCGCCCCGCAGAGGCCCCCTCCGAGGCCCAGGACGCCCCCTCCCGCGGAGACTCCATCTCTATTTTTTG
GGAAGGGGAGGCTCGGCGGAAGCCCCGAGTTATAATTAGCGCCACTCGGGTTTCCTAGTTAATCTCCAGCAGCACCACCACCCMCCGCTCAGGGCGGCGG
GGGCTGGGCTAGGAGTGACCGGCGGGAGAGGGGGGAGTTCCCACCCGGGGAATTTTGATCCTTTGGCTGGAGATGCCGGAACCGTAGCAGCTGCTGCCCC
CAAAATAGCGCCCCCGCCCCTGCAGCCGGGGATCTCCGGAGTCCCGGGAACGCAGGMGTCCCGGCTCGCCCTTCAGGCGGCTCTGCAAGGCCCTCGAGCC
CCCAGGCCCCCTCCCCAAGTTCCCGGCTCCTGGCTCGGGGCGGGGAGCGCCGACCTTTTCTCGGTCTCTACTGCCCTCCGCCGGCGGCGGCGTGYACGGC
AGCTTCAGACGGATGGGGGGCTCTCGAGTCCTGGGGGACGCGGGCTGGCGAGCCTGTTTGCTGGGGCTGSGCTGGGAGCGTGCGCAGCTGATGGGAACCC
GCGGGCATCAGCGCTCGGTGCCAGACATTGGATGAGAAGGGGCAGGGTTGGGTGGGGAGTGGACTAGGCAGGATTTGGGGGACCCCGGGACCTGAGGCTT
CCACACCCTGAATGCCCAGCCCACCGCCCCCCAGGGCCCCRGGTCTGGCCGACCCAGGAGAGCGRGGMTGCGCCTTCAGGCCGCCGCAAGCTCCCCCAGC
GGCGCTGCCCGTCCGTGAGGCCGCGCCCCTGTCGGGTGGCCTGTTCGTGGACTGAGGCTTCTGGTGCCCTCACTGCACGAGCTGGGCCCGGCCCAGTTCC
GGGAAGAGGTGAGGGCAGTGGACCCCTGCGGAGCAGARAGGGTGCTCCTCTCTGTTCCCTGCATTTGTCTGGATATGGGTGTCTGCCTGATCTCTTTCCC
CTCCTGCCCGCTGGCCTGTGTCCTTGTCTCTGCCTGTCTCCTTCCCTCCCTCCCTCTCTCCCCTCATCTTTGCCAACCTGCCCCACCTCCTCTGCAGCTG
AGCGATAACCCTTGGGCCGACAGTGCCCTAATCTCCTCCCTCCTGGCTTCTCGACCGACCCTTCACCCTTTCCCTTTCTTTCTCCCAGCAGACGCCGCCT
GCCCTGCAGCCATGAGGCCCCCGCAGTGTCTGCTGCACACGCCTTCCCTGGCTTCCCCACTCCTTCTCCTCCTCCTCTGGCTCCTGGGTGGAGGAGTGGG
GGCTGAGGGCCGGGAGGATGCAGAGCTGCTGGTGACGGTGCGTGGGGGCCGGCTGCGGGGCATTCGCCTGAAGACCCCCGGGGGCCCTGTCTCTGCTTTC
CTGGGCATCCCCTTTGCGGAGCCACCCATGGGACCCCGTCGCTTTCTGCCACCGGAGCCCAAGCAGCCTTGGTCAGGGGTGGTAGACGCTACAACCTTCC
AGAGTGTCTGCTACYAATATGTGGACACCCTATACCCAGGTTTTSAGGGCACCGAGATGTGGAACCCCAACCGTGAGCTGAGCGAGGACTGCCTGTACCT
CAACGTGTGGACACCATACCCCCGGCCTACATCCCCCACCCCTGTCCTCGTCTGGATCTATGGGGGTGGCTTCTACAGTGGGGCCTCCTCCTTGGACGTG
TACGATGGCCGCTTCTTGGTACAGGCCGAGAGGACTGTGCTGGTGTCCATGAACTACCGGGTGGGAGCCTTTGGCTTCCTGGCCCTGCCGGGGAGCCGAG
AGGCCCCGGGCAATGTGGGTCTCCTGGATCAGAGGCTGGCCCTGCAGTGGGTGCAGGAGAACGTGGCAGCCTTCGGGGGTGACCCGACATCAGTGACGCT
GTTTGGGGAGAGCGCGGGAGCCGCCTCGGTGGGCATGCACCTGCTGTCCCCGCCCAGCCGGGGCCTGTTCCACAGGGCCGTGCTGCAGAGCGGTGCCCCC
AATGGACCCTGGGCCACRGTGGGCATGGGAGAGGCCCGTCGCAGGGCCACGCAGCTGGCCCACCTTGTGGGCTGTCCTCCAGGCGGCACTGGTGGGAATG
ACACAGAGCTGGTAGCCTGCCTTCGGACACGACCAGCGCAGGTCCTGGTGAACCACGAATGGCACGTGCTGCCTCAAGAAAGCGTCTTCCGGTTCTCCTT
CGTGCCTGWGGTAGATGGAGACTTCCTCAGTGACACCCCAGAGGCCCTCATCAACGCGGGAGACTTCMACGGCCTGCAGGTAACTAGTGGCTAGCTGGCR
TGAAGCTGGCTCCTCTGGGTCCCAACGGTCCCTCCCCTCCCTGCAGGGACCCAGGCATGAGGGCTTCTCCAGGCCCATTCCCAGAAGTCCCAGAAGTCCT
CCCTGAGGGCTCAGATCCCAGGGTGGTCAGCAGGGCAGACAGGAAAGCCACCATGGGTCTATTTTCTCTTTCTCTGCATCCCTCCCCTGATCTCGTCCTC
TCTCTGTCCATGGTTCCGGGTCTGTAACTGTTCATCTCTCTGGCTCTTTSTCTGTCCATCTGTTTCTGTCTACTTGTCTGTCTGTGCCTGTCGCTCCATC
CCACCCCCCTCTCCCTCACCCCCAGGTGCTGGTGGGTGTGGTGAAGGATGAGGGCTCGTATTTTCTGGTTTACGGGGCCCCAGGCTTCAGCAAAGACAAC
GAGTCTCTCATCAGCCGGGCCGAGTTCCTGGCCGGGGTGCGGGTCGGGGTTCCCCAGGTAAGTGACCTGGCAGCCGAGGCTGTGGTCCTGCATTACACAG
ACTGGCTGCATCCCGAGGACCCGGCACGCCTGAGGGAGGCCCTGAGCGATGTGGTGGGCGACCACAATGTCGTGTGCCCCGTGGCCCAGCTGGSTGGGCG
ACTGGCTGCCCAGGGTGCCCGGGTCTACGCCTACGTCTTTGAACACCGTGCTTCCACGCTCTCCTGGCCCCTGTGGATGGGGGTGCCYCACGGCTACGAG
ATCGAGTTCATCTTTGGGATCCCCCTGGACCCCTCTCGAAACTACACGGCAGAGGAGAAAATCTTCGCCCAGCGACTGATGCGATACTGGGCCAACTTTG
CCCGCACAGGGTCAGCAGTGCAGAGGGAGAGAAGGCTGGGGAGGACAGGAGTCGGGGGCGGGAGGACACACAAAGGCAGACACACGGAGACAGAAAGGAC
GGGTGGGACAGGGGCAGGATAGAACAGCCAGAGAGGGATATGCTCACAAAGTAGATAAAAGGGGAGAGAAAAAGAAAGGAGACAGAGAAGGCAGAGGGGG
TCTTGCAGAGACAGAGGCAAAGGAAAGTGAGGAGGAGACGAGGTAGACATGGAGGGGGCGGGGCACAGTGGCTCACCCCTGTAATTCCAGCCCTTTGGGA
GGCCAAGGTGGGAGGATCCCCTGAGRCCAGGAGTTTGAGACCAGACTGGACAACATAACAAGACCCCGACTCTTAAAAAGAAAAAAAATACAAAACTTAG
CCAGGCACGGTGGCTCGTGCCTCTAGTCCCAGCTACTTGGGAAGGTGAGGCAGGAGGATTGCTTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTATGATG
GCACCACTGCACTCCAGCCTGAGTGGCCCTATCTCTGGAAAAAAAAAAAAAAAAAAAAAAGGGAGACCAAGACAAAGGAGTTGGAGCTGGATTAAGTCAA
ACCAGTGATGATTCACTAGCAGTGACACATTCTCTCACACACACAYCAGTTTACCTGGATCGAGAAGAGGACAATGAAATCTAGCATTGGATGGGTGTTG
TTAAAAAATGTGATGTTTGTAGACATAGGACCCGTCCTGGTTATTTAGGAAAGTCTCAAGACATCCTAGCCATTTTTTTAGTGAGAGAAACAAAGATGGA
ACAGAAAAGCTGAGGGAAACGGAAGGAGACGGAGCGCTTGAGGAAGGGAAGACCCCAATGACCGCGCACATTGGAGAAAGTGGTGGGAGGGAGGGGACGG
GTTCTCTGGGGCTCTCCGCTGAGCTGAAGAGTCCGGGATCCCGTGGAGTTGGGGGCCACCTCCTCCCACTGCCCGTCTGGACTGAGCCTTCCCTTCCTTC
CGCAGGGATCCCAATGAGCCCCGAGACCCCAAGGCCCCACAATGGCCCCCGTACACGGCGGGGGCTCAGCAGTACGTTAGTCTGGACCTGCGGCCGCTGG
AGGTGCGGCGGGGGCTGCGCGCCCAGGCCTGCGCCTTCTGGAACCGCTTCCTCCCCAAATTGCTCAGCGCCACCGGTATGCAGGGGCCAGCGGGCAGCGG
CTGGGAGGAGGGGAGTGGGAGCCCGCCAGGTGTAACCCCTCTCTTCTCCCCCTAGCCTCGGAGGCTCCCAGCACCTGCCCAGGCTTCACCCATGGGGAGG
CTGCTCSGAGGCCCGGCCTCCCCCTGCCCCTCCTCCTCCTCCACCAGCTTCTCCTCCTCTTCCTCTCCCACCTCCGGCGGCTGTGAACACGGCCTCTTCC
CCTACGGCCACAGGGGCCCCTCCTCTAATGAGTGGTCGGACCGTGGGGAAGGGCCCCACTCAGGGATCTCAGACCTAGTGCTCCCTTCCTCCTCAAACCG
AGAGACTCACACTGGACAGGGCAGGAGGAGGGGGCCGTGCCTCCCACCCTTCTCAGGGACCCCCACGCCTTTGTTGTTTGAATGGAAATGGAAAAGCCAG
TATTCTTTTATAAAATTATCTTTTGGAACCTGAGCCTGACATTGGGGGGAAGTGGGAGGCCCCGGACGGGGTAGCACCCCCCATTGGGGCTATAACGGTC
AACCATTTCTGTCTCTTCTTTTTCCCCCAACCTCCCCCTCCTGTCCCCTCTGTTCCCGTCTTCCGGTCATTCTTTTCTCCTCCTCTCTCCTTCCTGCTGT
CCTTCTCCGGCCCCGCCTCTGCCCTCATCCTCCCTCTCGTCTTTCGCACATTCTCCTGATCCTCTTGCCACCGTCCCACGTGGTCGCCTGCATTTCTCCG
TGCGTCCTCCCTGCACTCATACCCCCCCTTCAACCCGCCCAAATGTCCGATCCCCGACCTTCCTCGTGCCGTCCTCCCCTCCCGCCTCGCTGGGCGCCCT
GGCCGCAGACACGCTCGACGAGGCGGAGCGCCAGTGGAAGGCCGAGTTCCACCGCTGGAGCTCCTACATGGTGCACTGGAAGAACCAGTTCGACCACTAC
AGCAAGCAGGATCGCTGCTCAGACCTGTGACCCCGGCGGGACCCCCATGTCCTCCGCTCCGCCCGGCCCCCTAGCTGTATATACTATTTATTTCAGGGCT
GGGCTATAACACAGACGAGCCCCAGACTCTGCCCATCCCCACCCCACCCCGACGTCCCCCGGGGCTCCCGGTCCTCTGCATGTCTCAGGCTGAGCTCCCT
CCCCCGCGGTGCCTTCGCCCCTCTGGGCTGCCAATAAACTGTTACAGCCACGGGAGTGTGCGCGACTAGGGAGCCAGGGGTAGAGGCAGAACGCCGGAAT
CACGGGGGCCGAGTCTATGCAGGAGCGGGGCTGGAGGGCAAGAAACAGGCGAGCTCCGAGGCGGGCGCAAGGCAAAGGCCAACCCCTAGCCCTGCCCTGC
CGGGCGGAGCTCGCGCCTGCGTAATGAGGCCCGCAGGCAGGCTAGCTGGCACGGCGGAGGGGAGGAGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGGMGG
GGCGGGGCGGGGCGCGGCGGAGCATTGTGGGAGCTCCTCGGTCGGTGCCGGTCGGTGGCTGCCTATTGCGGCCTGCGGTGATCAACGAGGCCCGGGGAGC
GCGTCCCCAGTCTGCGCGCCGGTCCTGCGGCAGCTGGCCCAAGACCCGGAGCCGAAAGGAAGTGTTGGAGCCTGAGGTCGCTCCGCGCCGCTAGGAGGAC
GCTGTGCCTGGCCTGGGACCTCCGCTCCCGCCCACCGCCCTGGAGCCGCTGAGGGACGTCCACGTGGGCCTGTCCCCGCCGAGCCGCGGCCCTGTCCGCC
TGGCGCTGCTCTCGGGCCACTACCTCTACTACCACTACGGCTGCGACGGCCTGGACGACCGCGGCTGGGGCTGCGGCTACCGCACTCTGCAGACGCTGTG
CTCGTGGCCAGAGGGCCAGCCCGCGGGCGTACCTGGACTGGCCGCCGTACAGGCGGCCCTGGAGGACATGGGCGACAAGCCCCCCGGCTTCCGGGGCTCC
CGGGACTGGATCGGCTGCGTGGAGGCCAGCCTCTGCCTCGCTCACTTCGGAGGGCCCCAGGGACGCCTCTGCCACGTACCCCGGGGAGTGGGGCTGCACG
GGGAGCTGGAGAGGCTTTACTCGCACTTCGCAGGGGGTGGGGGCCCAGTCATGGTTGGGGGGGACGCAGATGCCAGGTCCAAGGCCTTGCTGGGAGTCTG
CGTAGGGTCAGGCACGGAAGCCTATGTCCTGGTATTGGACCCTCACTACTGGGGCACTCCAAAAAGCCCCAGTGAACTACAGGCTGCTGGGTGGGTGGGC
TGGCAAGAGGTGAGTGCAGCCTTTGACCCCAACTCCTTCTACAACCTGTGCTTGACCAGCCTTAGCTCCCAACAGCAGCAGCGCACCTTGGACTGAGGAC
GAAGTTACAGAACTGAGATTCTCGGGTCCCAGACACGCACCTATGTACCTCCCACTGGTGTCCCTGCAAAGCCTGGCGCTTTTGACATCAATAATAAAAG
TGGCAGGGCTGAGCAACACCTCAGGAGTTACTCTGGAAGGATGGAGGAGTTATGTAACACACGAGAGTCAGGAGCCCTGTGGAAGTGCTTTTATTAGCAG
TAAGGCTGATCGTACAAAAAATTCTCAGAGCTTCATAGGACAAGGTAGTACAAGTATGGATGATACAGGACTGAGGAACGGGGGACGGCTCAAAAGAAAT
CWACATCGTCTGGGGCATCCAGGTCCCGATATTCCACAATGGCCCTTGGRTCTCCACGAACCATCCTGTGAAGTGAGAGGTACAGGATGAGAGCTGAGGG
CTCCCAAAAGGGAGTCTGCAGGCGGCAACAAAGCTTGGGCGTCTGCCCTCCTCACCTGTTGCGAGGTTTCCCAGGATAACCTCCCTGGCCTCGGAAGGCA
TCATAGTTCCCTCGACCAGCACCATACGGGGCATGGGGGTATGGAGGGCCTCCTGTGGGGACTGCAGGGCGGACAGCACCAGCTATGACAGAGATCAGTG
TTGAGTTGCAAAACTATGTCCTCAATTCCATCCTCTGTTTTCTTCTCCCAAAGCCACACACTCACCAAGCCCCTTCATCTCCCTCCTGTACTTACCTCCA
TAGCCCAAGATCGGGGGCCGGGGCTGACCATAGGGCATCAGGCCCTGGGGAGTCTGGTGTGGGTAGGGGAGTCCTGGGGTCAAACCTGGGGGGAGTACAA
CACGGACAGGGACATGAATTACTGCGGGGGCGGGGAGGGGGATACGGGTACAATTGACTTCTAGGGCTATGGCCTGAGGATGGGGCAGAAACTTCTCGGG
GTGACACGTTAAAGAGAAACAGGAGTCCCTGGGTAGTCAAGGAAGAGGGCACATGCGACCTTCATGGATCGTATCTTACTCTGGGCGGGGCCAGGTGGCT
GGGCTGGCTTGATCTCAGGCAGAGCTGGGCGCTTAGCATCAGTGAGGAAGTTGTTAAAAAACGCGACTTCCTTTTTCACTTCCTCAATTTTCTCTGCATG
CTTGTTGAAGATATGTTTGCGCACAAACTCAGGACCCTGGGTGGAGAGAGGAGAGGGGTCAGGACAGCCACATAAGGGTTGCCTCGCTCCCAGGCCCGAG
CTGGAAGGATTCCCAGCTCCCGCCTGCCAGTGCAGTAAGCAGTTCCCCCACCCCTGCCCAGGGGGCTTCCTGTCTCAACCCCACCTCCCACCACCGTAGC
ACGGCCATTCTCCAACATCCCACACCTTGAATTTCTTGCCACTGAGAGGACACAGCCACTTATCCTTGCCCAGTTCCTGCGTGTTGGAGGTGACGAACTT
CTCCACTTCCTGCTCTGGGTCTTTGCGCCCCATCTTCTGGGCCTCTTCCTCTGAGAGTGACTCCCGCACACTCAGCAACGGCGTGAGCTTCTCCTCAAAA
GTCTTCTGCCACTCCAGCACTGTGGTTTGGGAACAGAGGAAGGAAGGTTGGCAAGGGAGCCAGAAGGAAGGATGGTGGCAAGGGGCTGGAGGACCAAGGC
CAGGGGCAGCCGGGAACAAAGGGGAACCTGGAGCTCACCTTCCCCGTGACTGATGCGGTTGGGTGGCATGGGCCCCCGAACGTGGATGATCCCACAGCGA
TTGGGCATCTCGTCCTCGTTGGGGTACTCACAGGTGTTGTAATAATCCAAGGAATGCACGATGCGCAGGTAAAGGAGGAGCTTGTCCAAGACCTAAGGGA
AGTGAATGCGAGCGTTCAGCTCCTGCCCTCACCGCCCGAGCCCCCACGTGCCCCGCGCTGCCACTGGCACCTTAATCAACTTCTCATCCCGCTCCACGTT
GATCTCTGCCGGGTTCCCTTCCTTAGGAGGCTCCTCAGGAGGAGCGCCCCCGCTGCTCCCCAGCAGCTCCTCCTCCTCGGCGCTTACTTCCTCGATCAGG
TAGTCGGTGATATTCTTCAAGATCGGGTTTTGCGAGGGCAGGCTCTGATGGGAGGAAGAGAAGCAAGTAAGGCAGAGAAGACCTTCAGAGGAGGTAACCT
GAGACTTTCCACAAGTGAAAGAGCAGCGAGGGGACAGGAGTTCACCGGACATAAATGGCACCTTTTGCCCCCTTGAGATTTGTCTTTATTTTAGCTTTTG
TTCCACCCCAGCCACAAATGATCACTAGCATCCCCCCAGTTCTGCTGGAATCTGGAGGTGCTGCTACCCACACACGAAGGGGCAAATGAGTGAGCAGGCG
AGTGGGTGCAAGGGTTCAAGGCTACAGATAGGTAAGGTCAGAGGTGCCCACAGCAGAGGCACTACCAGTTGCTTCTGACAAAGTCCTTTGGGGAGTCACT
GACCGTGGGCAGGGGAGGCGTCCCTGGTTCTGAGGCCCAAAGCTGTGTCCTGTCATCCAGCGTGTGGATCAGCTTGGCCGCCAGCTTGATGTCGTTGCGC
ACAATCTGCTTGTGCTGGGTGATGCCGTTGATGTTGCGAACGCGCCGGGTCAGGTCCCTGTTCACACCAGGGCTCAGCTCACACTCCCGGAGCTGGAGGG
CAGACATCATCAGCAGCTTACCCCACTTACCCCGCTTGCCAGAGAAACAGCAGCTCTAAGACCCTTCCCTCTTGAGCACCAGCGATTGATCAGACTGCGA
GCTCCCTGGGGACGGGGACCACATAGGTTCCGTCCATGCTAACGCCCTAGAGCCTTGCCCAGAGACAACGTAGCCAGACAAAACGGTCAAAGAGTGTGCA
GAACAACCAAACTATCAGATGAACAAAGTCACACAGAGGTCCCGTGTGGCACAGAGTCTCCCTTCCTCTTCCCCACAGTCCCACCCCCAGCACTCACACG
GATGTTCTGCAGGTTCCAACAGATCTCTTTAATGTTAACACTGCGGTCGAAGGTCACCCAGCCACGACGGAAAAACCTACACAAGAAAGAAAATGTTAGC
ATAGTCAAGCGAGGGAGTTGGTGTTGGCCATTAACGTTCCCCTGCACTTTTCCCTCCAACGCACCGAGTTACTCACCTCCTCTCTGGCTGGGGCTCTGAG
AGCGCCACCCGCATAAAGCCTGGGTACCTTTTACAAAGCTGCAAGAAGCAGAAAAGCAGCCCCACAGTGACTCAAGGATTCATTCGCTTCTTCCTCCAAT
CCCCCACTGCCCTCAGAACCCTAGGGACTAACTGCCTTATCACTCTTCCCATCCTTGGGCAGGGAAAAACCACTAAAGGGCTTCAGAACACCAGCACCTG
AAAGCCAATGGCGCTATCAGGACTAGTCCTCGGAGGCCATGGAACCTGGGGAAGGGGCCTCCCTAGCAGGTGAAACGGGGGCATCTGTCACAGGCAGGGC
CCCACTGCCTTCCCTCTACCCTCCACTTCTCCATCAGCCCTGCCCTGACTCCACGGGTCCCCACTCACGGAGATGATCTCGGCCCGGGAGATGTTGGGCG
CGATGTTGCGCATGAAGAGGGAGCAGGTCTTATGCAGCGGCCGCGGCTTGCACTCCAGCCCCGCGGCGTCCTTGGGCTTCTCCCATTCTTCTTCCTTGGG
CTTCTCCTTCTCCTTGAGCGCTTCTTCTAGGCAGGAAGGGGGGTAGGAAGGAGTTGGTGCATTTTTATTACTGATTGTGGTGGGGAGGATACAGAAGCTT
TCCCCTAAAAGCCACCCACCCTCCCGTCAATGTCGCCAACCTCTCACCTCCCCACCCGCATTAGGAGAACGCACTTTAAAGCAGAAAAGAAACCCTACCG
GCCTCCTCCTTCTCCTCCTCAGCCTGGCCGCTCTCTGACTCCGACTCAGACTCTGACACGCTGCCCTCGTCAAAGCTGTCGTCACCACTGTGCTTCCGGT
TCCGCTTCTTGCTACTCTGTGTGAGCCACAGCAGAGGGGACAAGTCAGCGTGCCAGAACCCCAGCCCCAACACTCTGACCCCAGGCCACAGACACCTCAC
CTTTTTGGCTTCCTTCTCGGAGTCTTCTTTCTTCTCTTCCTTGTCCCCATCACCCTCCGACTTCTTTGTTTTGTCATCATTAGAACTGTCATTCTCAGCC
TATGGTAAGAGACAACCACTGGGGATGTCAAACCTCCCCTCCCACCTTTATCAGAGGGCCCCCACCCCCACAGCTGAGGCCACAGGTTCATTTTCCCCAG
CCCCCTACTTCTAGCTCCTATGGACCCCTACCCGCCCCCCTCCCCCAGGCTGCCAGGGACAACACTAGGAGACCCAGGGCTCGGACCTGCTTGCCGTCTT
CCTTCTTCTCATCCTTGTCGTTGGTTTTGCGCTCCCCGTCCCCTAGGCCTGCTCCAGCCCGTCCTTCTTCTTTCTTGCTGGGCTCCCCAGGCTTTCCTGC
CTGCTCCTCCTCCTCCTCCTGCTCCAGGATGCGRAGATCATTCTCCGTGCCTCCTTCCATCTTAATCACGGCTACCAACAAAGGGAACAGAGGTCATGAC
CCCAGGGCCCTGGCTCCTGTCAACCGGCTTCTACCTGATCCCCAGACACCCCCACCCCCATGGGGCCCAGATGCCTGCCACCCCTCCAAATCCGCACACC
TGCATCCAGCATCTTGACAATGGCATCAGCTTTGTCTATGTCCAGGAGAAGGTTATCAAACCAGCCAGTCTCCATGAGGGACAGGAAGACCCTCAGTCGG
TTTTGCAGGGCCCCCCGGGCCTCCTGCCGACGCTTCCCCACCTCATCTGGGTGGTACTTAGACCGAAACCTGGGAACGAAGCGGGGGAGGGAAAGACAAA
ACAGTTATTGGAAGCCAAGGCCAGGATGTGGGAAGGGGCCCAGGAAAGACAGGGCA


SNP Information

Context             (SEQ ID NO:24375):
TCGTGCCTGTGGTAGATGGAGACTTCCTCAGTGACACCCCAGAGGCCCTCATCAACGCGGGAGACTTCCACGGCCTGCAGGTAACTAGTGGCTAGCTGGC
R
TGAAGCTGGCTCCTCTGGGTCCCAACGGTCCCTCCCCTCCCTGCAGGGACCCAGGCATGAGGGCTTCTCCAGGCCCATTCCCAGAAGTCCCAGAAGTCCT
Celera SNP ID:            hCV25595368
SNP Position Genomic:     9500
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24376):
GAGCCGCCTCGGTGGGCATGCACCTGCTGTCCCCGCCCAGCCGGGGCCTGTTCCACAGGGCCGTGCTGCAGAGCGGTGCCCCCAATGGACCCTGGGCCAC
R
GTGGGCATGGGAGAGGCCCGTCGCAGGGCCACGCAGCTGGCCCACCTTGTGGGCTGTCCTCCAGGCGGCACTGGTGGGAATGACACAGAGCTGGTAGCCT
Celera SNP ID:            hCV25595369
SNP Position Genomic:     9218
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24377):
ACTGCCCTCCGCCGGCGGCGGCGTGCACGGCAGCTTCAGACGGATGGGGGGCTCTCGAGTCCTGGGGGACGCGGGCTGGCGAGCCTGTTTGCTGGGGCTG
S
GCTGGGAGCGTGCGCAGCTGATGGGAACCCGCGGGCATCAGCGCTCGGTGCCAGACATTGGATGAGAAGGGGCAGGGTTGGGTGGGGAGTGGACTAGGCA
Celera SNP ID:            hCV27168949
SNP Position Genomic:     7770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24378):
GCTGCCTCAAGAAAGCGTCTTCCGGTTCTCCTTCGTGCCTGTGGTAGATGGAGACTTCCTCAGTGACACCCCAGAGGCCCTCATCAACGCGGGAGACTTC
M
ACGGCCTGCAGGTAACTAGTGGCTAGCTGGCGTGAAGCTGGCTCCTCTGGGTCCCAACGGTCCCTCCCCTCCCTGCAGGGACCCAGGCATGAGGGCTTCT
Celera SNP ID:            hCV8786419
SNP Position Genomic:     9468
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(A,3|C,37)   total(A,4|C,74)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): European(C,-|A,-)   Middle East(C,-|A,-)    ;(C,-|A,-)   ;(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24379):
AGCTGGCTGGGCGACTGGCTGCCCAGGGTGCCCGGGTCTACGCCTACGTCTTTGAACACCGTGCTTCCACGCTCTCCTGGCCCCTGTGGATGGGGGTGCC
Y
CACGGCTACGAGATCGAGTTCATCTTTGGGATCCCCCTGGACCCCTCTCGAAACTACACGGCAGAGGAGAAAATCTTCGCCCAGCGACTGATGCGATACT
Celera SNP ID:            hCV8786526
SNP Position Genomic:     10188
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,12)   caucasian(C,37|T,3)   total(C,63|T,15)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): European(T,-|C,-)   Middle East(T,-|C,-)    ;(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24380):
TGCGGAGCCACCCATGGGACCCCGTCGCTTTCTGCCACCGGAGCCCAAGCAGCCTTGGTCAGGGGTGGTAGACGCTACAACCTTCCAGAGTGTCTGCTAC
Y
AATATGTGGACACCCTATACCCAGGTTTTGAGGGCACCGAGATGTGGAACCCCAACCGTGAGCTGAGCGAGGACTGCCTGTACCTCAACGTGTGGACACC
Celera SNP ID:            hCV8786518
SNP Position Genomic:     8715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:24381):
CTGGTAGCCTGCCTTCGGACACGACCAGCGCAGGTCCTGGTGAACCACGAATGGCACGTGCTGCCTCAAGAAAGCGTCTTCCGGTTCTCCTTCGTGCCTG
W
GGTAGATGGAGACTTCCTCAGTGACACCCCAGAGGCCCTCATCAACGCGGGAGACTTCCACGGCCTGCAGGTAACTAGTGGCTAGCTGGCGTGAAGCTGG
Celera SNP ID:            hCV8786519
SNP Position Genomic:     9409
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24382):
ACAAGTATGGATGATACAGGACTGAGGAACGGGGGACGGCTCAAAAGAAATCAACATCGTCTGGGGCATCCAGGTCCCGATATTCCACAATGGCCCTTGG
R
TCTCCACGAACCATCCTGTGAAGTGAGAGGTACAGGATGAGAGCTGAGGGCTCCCAAAAGGGAGTCTGCAGGCGGCAACAAAGCTTGGGCGTCTGCCCTC
Celera SNP ID:            hCV8786528
SNP Position Genomic:     14150
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,5)   caucasian(A,2|G,30)   total(A,5|G,35)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24383):
CCCCGTCCCCTAGGCCTGCTCCAGCCCGTCCTTCTTCTTTCTTGCTGGGCTCCCCAGGCTTTCCTGCCTGCTCCTCCTCCTCCTCCTGCTCCAGGATGCG
R
AGATCATTCTCCGTGCCTCCTTCCATCTTAATCACGGCTACCAACAAAGGGAACAGAGGTCATGACCCCAGGGCCCTGGCTCCTGTCAACCGGCTTCTAC
Celera SNP ID:            hCV8786536
SNP Position Genomic:     18234
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24384):
TCCATCTCTATTTTTTGGGAAGGGGAGGCTCGGCGGAAGCCCCGAGTTATAATTAGCGCCACTCGGGTTTCCTAGTTAATCTCCAGCAGCACCACCACCC
M
CCGCTCAGGGCGGCGGGGGCTGGGCTAGGAGTGACCGGCGGGAGAGGGGGGAGTTCCCACCCGGGGAATTTTGATCCTTTGGCTGGAGATGCCGGAACCG
Celera SNP ID:            hCV27845103
SNP Position Genomic:     7384
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,17)   caucasian(C,30)   total(A,1|C,47)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,25)   caucasian(C,36)   total(A,1|C,61)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24385):
AAGGCTGATCGTACAAAAAATTCTCAGAGCTTCATAGGACAAGGTAGTACAAGTATGGATGATACAGGACTGAGGAACGGGGGACGGCTCAAAAGAAATC
W
ACATCGTCTGGGGCATCCAGGTCCCGATATTCCACAATGGCCCTTGGGTCTCCACGAACCATCCTGTGAAGTGAGAGGTACAGGATGAGAGCTGAGGGCT
Celera SNP ID:            hCV16069074
SNP Position Genomic:     14102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24386):
CGAGCCCCCAGGCCCCCTCCCCAAGTTCCCGGCTCCTGGCTCGGGGCGGGGAGCGCCGACCTTTTCTCGGTCTCTACTGCCCTCCGCCGGCGGCGGCGTG
Y
ACGGCAGCTTCAGACGGATGGGGGGCTCTCGAGTCCTGGGGGACGCGGGCTGGCGAGCCTGTTTGCTGGGGCTGGGCTGGGAGCGTGCGCAGCTGATGGG
Celera SNP ID:            hCV2607820
SNP Position Genomic:     7695
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24387):
CCATTTTACATCTCCATTCCCACAGGTGTCCTTTCATCCCCAGGAGTGTCCCACGTCACCTTTTCTGCACCCGTGCCACCTGGACCCCTAAGGGGACGGT
M
CTCTGCCACACTCCCACATGCCTCTCCTCCCATGCCACCCGTCTGTGTCGTGGCCGGGGATGCATGACCCCTTGGCCTTGCGCTAACTTCACCAGCCTCG
Celera SNP ID:            hCV2607821
SNP Position Genomic:     6264
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,3)      total(A,3|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24388):
ACCATGGGTCTATTTTCTCTTTCTCTGCATCCCTCCCCTGATCTCGTCCTCTCTCTGTCCATGGTTCCGGGTCTGTAACTGTTCATCTCTCTGGCTCTTT
S
TCTGTCCATCTGTTTCTGTCTACTTGTCTGTCTGTGCCTGTCGCTCCATCCCACCCCCCTCTCCCTCACCCCCAGGTGCTGGTGGGTGTGGTGAAGGATG
Celera SNP ID:            hCV25595370
SNP Position Genomic:     9750
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,40)   total(C,1|G,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24389):
GATCCTTTGGCTGGAGATGCCGGAACCGTAGCAGCTGCTGCCCCCAAAATAGCGCCCCCGCCCCTGCAGCCGGGGATCTCCGGAGTCCCGGGAACGCAGG
M
GTCCCGGCTCGCCCTTCAGGCGGCTCTGCAAGGCCCTCGAGCCCCCAGGCCCCCTCCCCAAGTTCCCGGCTCCTGGCTCGGGGCGGGGAGCGCCGACCTT
Celera SNP ID:            hCV15924991
SNP Position Genomic:     7557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:24390):
TAGGCAGGATTTGGGGGACCCCGGGACCTGAGGCTTCCACACCCTGAATGCCCAGCCCACCGCCCCCCAGGGCCCCGGGTCTGGCCGACCCAGGAGAGCG
R
GGCTGCGCCTTCAGGCCGCCGCAAGCTCCCCCAGCGGCGCTGCCCGTCCGTGAGGCCGCGCCCCTGTCGGGTGGCCTGTTCGTGGACTGAGGCTTCTGGT
Celera SNP ID:            hCV27492099
SNP Position Genomic:     7965
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24391):
GCAGGATTTGGGGGACCCCGGGACCTGAGGCTTCCACACCCTGAATGCCCAGCCCACCGCCCCCCAGGGCCCCGGGTCTGGCCGACCCAGGAGAGCGGGG
M
TGCGCCTTCAGGCCGCCGCAAGCTCCCCCAGCGGCGCTGCCCGTCCGTGAGGCCGCGCCCCTGTCGGGTGGCCTGTTCGTGGACTGAGGCTTCTGGTGCC
Celera SNP ID:            hCV15924992
SNP Position Genomic:     7968
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24392):
AGTGAGGAGGAGACGAGGTAGACATGGAGGGGGCGGGGCACAGTGGCTCACCCCTGTAATTCCAGCCCTTTGGGAGGCCAAGGTGGGAGGATCCCCTGAG
R
CCAGGAGTTTGAGACCAGACTGGACAACATAACAAGACCCCGACTCTTAAAAAGAAAAAAAATACAAAACTTAGCCAGGCACGGTGGCTCGTGCCTCTAG
Celera SNP ID:            hCV27168950
SNP Position Genomic:     10626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24393):
AAGGTGAGGCAGGAGGATTGCTTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTATGATGGCACCACTGCACTCCAGCCTGAGTGGCCCTATCTCTGGAAA
A
AAAAAAAAAAAAAAAAAAGGGAGACCAAGACAAAGGAGTTGGAGCTGGATTAAGTCAAACCAGTGATGATTCACTAGCAGTGACACATTCTCTCACACAC
Celera SNP ID:            hCV27168951
SNP Position Genomic:     10842
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24394):
TACACAGACTGGCTGCATCCCGAGGACCCGGCACGCCTGAGGGAGGCCCTGAGCGATGTGGTGGGCGACCACAATGTCGTGTGCCCCGTGGCCCAGCTGG
S
TGGGCGACTGGCTGCCCAGGGTGCCCGGGTCTACGCCTACGTCTTTGAACACCGTGCTTCCACGCTCTCCTGGCCCCTGTGGATGGGGGTGCCCCACGGC
Celera SNP ID:            hCV25595380
SNP Position Genomic:     10094
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24395):
AAAAAAAAAAAAAAAGGGAGACCAAGACAAAGGAGTTGGAGCTGGATTAAGTCAAACCAGTGATGATTCACTAGCAGTGACACATTCTCTCACACACACA
Y
CAGTTTACCTGGATCGAGAAGAGGACAATGAAATCTAGCATTGGATGGGTGTTGTTAAAAAATGTGATGTTTGTAGACATAGGACCCGTCCTGGTTATTT
Celera SNP ID:            hCV27168952
SNP Position Genomic:     10946
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24396):
TCTGCCACCGGAGCCCAAGCAGCCTTGGTCAGGGGTGGTAGACGCTACAACCTTCCAGAGTGTCTGCTACCAATATGTGGACACCCTATACCCAGGTTTT
S
AGGGCACCGAGATGTGGAACCCCAACCGTGAGCTGAGCGAGGACTGCCTGTACCTCAACGTGTGGACACCATACCCCCGGCCTACATCCCCCACCCCTGT
Celera SNP ID:            hCV25595357
SNP Position Genomic:     8745
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,39)   total(C,1|G,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24397):
GGCAGGGTTGGGTGGGGAGTGGACTAGGCAGGATTTGGGGGACCCCGGGACCTGAGGCTTCCACACCCTGAATGCCCAGCCCACCGCCCCCCAGGGCCCC
R
GGTCTGGCCGACCCAGGAGAGCGGGGCTGCGCCTTCAGGCCGCCGCAAGCTCCCCCAGCGGCGCTGCCCGTCCGTGAGGCCGCGCCCCTGTCGGGTGGCC
Celera SNP ID:            hCV2607818
SNP Position Genomic:     7941
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24398):
GGAGGGGAGTGGGAGCCCGCCAGGTGTAACCCCTCTCTTCTCCCCCTAGCCTCGGAGGCTCCCAGCACCTGCCCAGGCTTCACCCATGGGGAGGCTGCTC
S
GAGGCCCGGCCTCCCCCTGCCCCTCCTCCTCCTCCACCAGCTTCTCCTCCTCTTCCTCTCCCACCTCCGGCGGCTGTGAACACGGCCTCTTCCCCTACGG
Celera SNP ID:            hCV27168953
SNP Position Genomic:     11607
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24399):
GGCCTGTTCGTGGACTGAGGCTTCTGGTGCCCTCACTGCACGAGCTGGGCCCGGCCCAGTTCCGGGAAGAGGTGAGGGCAGTGGACCCCTGCGGAGCAGA
R
AGGGTGCTCCTCTCTGTTCCCTGCATTTGTCTGGATATGGGTGTCTGCCTGATCTCTTTCCCCTCCTGCCCGCTGGCCTGTGTCCTTGTCTCTGCCTGTC
Celera SNP ID:            hCV16047118
SNP Position Genomic:     8138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24400):
CGGTCTCTACTGCCCTCCGCCGGCGGCGGCGTGCACGGCAGCTTCAGACGGATGGGGGGCTCTCGAGTCCTGGGGGACGCGGGCTGGCGAGCCTGTTTGC
T
GGGGCTGGGCTGGGAGCGTGCGCAGCTGATGGGAACCCGCGGGCATCAGCGCTCGGTGCCAGACATTGGATGAGAAGGGGCAGGGTTGGGTGGGGAGTGG
Celera SNP ID:            hCV2607819
SNP Position Genomic:     7762
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24401):
TGCCGGGCGGAGCTCGCGCCTGCGTAATGAGGCCCGCAGGCAGGCTAGCTGGCACGGCGGAGGGGAGGAGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGG
M
GGGGCGGGGCGGGGCGCGGCGGAGCATTGTGGGAGCTCCTCGGTCGGTGCCGGTCGGTGGCTGCCTATTGCGGCCTGCGGTGATCAACGAGGCCCGGGGA
Celera SNP ID:            hCV16047126
SNP Position Genomic:     12898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 TFBS


Gene Number:                 84
Celera Gene:                 hCG19417 - 79000075877786
Gene Symbol:                 CHUK
Protein Name:                conserved helix-loop-helix ubiquitous kinase;IKBKA;IKK-alpha;IKK1;IKKA;NFKBIKA;TCF16
Celera Genomic Axis:         GA_x54KRFTF114(32123434..32176762)
Chromosome:                  Chr10
OMIM number:                 600664
OMIM Information:            CONSERVED HELIX-LOOP-HELIX UBIQUITOUS KINASE;CHUK


Genomic Sequence (SEQ ID NO:12244):
ACATGGGACAATTGATAAAAAGCTAAATTGTAAACAGTCCTTGCCCCAGAGGACCCATGGTCTTAGGGCAGATGTTTACATATATGACAGTAATGTAATG
TAGAATGTGAAGAGTACCATGACAGAGTTTTGGAGAACAATGTGCTGTAGAAATTCAGAAAAGGGACAGCTCATTTCTAGTTGGTGAAAGCCTTCATGAA
AGTGGCAAAGTTGAACCTGAGAGGCATATTTAGAGGGCAAAGATTGAGGTGAGGGCATTCTAGCCAGAAGTGCTAGGGAACTTTAATTGAGCACATACTC
TGTGCCAAGAACTGTACCAAGAACTTTACACATACATGACTCATTTAATCTTCATAACTCTGTAAGGTAGGTACTGTCATCCCGATTTACCAGTGTGGAA
AATGAGGCTCTAGAGCAGTGCCCGGTAGACTTTTCACAACGATGGAAATGCTCAAATATCTGCACTGTCCAATACAGTTGTGACTAGCCACTTGTGGCCA
CTGAGTGCTGAAATGTGGCTAATGTGACTGAGGAACTAAATTTTTGATTTTATTTAATTAATTAGAATTTAAATTTAAATAGCCATACCTGGCTAATGGT
TACCCCACTGGATAGCAGGCTGTAGAGAGCTTAGGTAGCTTGTCCTAGTCACACAGTGGTAGGTTCAAACCCAGGCCTGTTGGACCTCAAAACTTGAGGT
CTTAACCTCAGTGTTCTACAGTATGGTAAAGGCCTAGAGGAGGCTTCAGTTCTGTTCCTCGTATCAGGCAAAACATGACTGCAAAACCATAGAGGGAGTA
ACATAACTTAAGCAAAGATTGAAGATGGGAAGTTGCTGGCAAGAAGATACAGTTTGAAGGGGAGTGGAAAATGTGTAGAACAGAGTATCTGATGCTGGTG
TCTGTGATTTGCAGCTGTTTTTTCTCCCCTAGTTAAAAATGGGCTTTGAGTGAGCCTTGAACCTGTCTTGGACTAATTCAGAAAGCCTCCAAGAGATTGC
CCCCTTAGATAAGTCCAGTAAATGTAGTTGTCTACATTTTTCAAAAAGATAAATGGGAACAAGTGTGCTACGAGATTCAGACATCTGACGTGATGTTTTC
GTTGTTGCCTCAGCAACAGATGCGGTTATGAACATTGACAACATAAGCACACGATTGCAGATACACATAGGCGTATAAAGCACACAAAAAGAAGATTCTC
TGAATGGTTTTGTGCTTATGATGTATTTTCAATATTGAGTAATTATCAAGATACTAATTTATAGTTATATAGCATTTTATAGTTAACAAAATATTTGAAA
TGGCATATTTTTTTCAGCTGTACAAGAAAGGTAGTTCTATTTTCCTTTTATATTTGAAATAGGCTCAAAGTTTGCCCAGGGAGCTTAGGTTCTTTGACTT
ATAGAGAATTCATGATTTGTTTCTAACTCTTCTATTTACTGTAACTTCAAAGTGGAAAATGAACCATATAAATGTGTAATAGAATTATTTCTAATATATC
AAAATAAGTAAAAATAAAAATATAAAGCAATGGCGATTAGAAGGCAGCTTGTGTGTGAGTGTGTCTGTATGTAGTTATTCTTTAGTCCTAAGAGCCAAGA
TAGTTGTTTTGTTGACATTGGGCTTGTGCTGCTGTTACGTGGGCCTGAGTCCCCTAGAAGGAGAGGCAGAGGAATTTTAAATCAGAGTGGGTATGACTAG
GCTCCTGACTCTGCAAACTCATGTCTAGTTGAGGTGACAAAACTACAGTTTAAGGCAGGTTGTAATCACAGCTAATATGGCACTTTGACTGTGTTATCTC
TGTACCTCACAAAAACCCTGTATGGTGGGTGTTCTTATTTGCATTTCATAGGTGAGGAAATCAAGACTCAGAGATGAAATCATCTGTCTAGATCATAGAT
AGCAAGTGGCAAAGCTGGAAATGGGATCCAGTCTCTGATCTTTCTCACACCAGGGCCTGCCCTTTTTCTATGTGGTGTTGCTTCTCTAAGTACCAATAAT
ATAGTTCCAAGTTTTTTAAGAGAGGGAGAAGCAAGTGGGGTTTGAAGGATCAGGAAATATATAGTACCTGAGCTGGTCATTTAAAACGGGTATGATTTTG
ATCAATAGTATGGCAGAGATGGCACTCAGGGCAGGAGAGCAAAGTCAGAGAAATTTGCATACCTCCTTTGGGTGATGTTGAGGAGAGCTCAGGCTGATAG
TTTCCATTTTGACTTCTTTGTGCTATTTCTGCAGGGAGGTCCTGGCCAGTGAAGCCATCCTTAATGTTCCTGATAAGTCTGACTGGAGGCAGTGTCAGAT
CAGCAAGGAAGACGAGGAGACCCTGGCTCRCCGCTTCCRGAAAGACTTTGAGCCCTATGACTTTACTCTGGATGACTAAAACAAAGGGAAGAACTTTTTA
TGAACTCCACAGGAAGTAGTAAAGCTTTTTTTTTTTTTTAATTAAAAGAATTTTTTTTGAGACAAAGTCTCGCTCTGTCACCCAAGCAGGATTGCAGTGG
CATAACTGTGGCTCACTGTAGCCTCAACCTCCTGGGCTCTAGAGTTCCTCCCACCTCAGCCTCATGAGTAGCTGGGACCACAGGCGCATGCTACCATGCC
TGGCAAACTTTTTTGATTTTTTATAGAGACAGGAGGGTCTCCCTGTGTTGCCCAGGCTGGTCTGTAATGCCTAGGCTCAAGGGATCCTCTGCCTTGGCTT
CTTAACCTGCTGGGATTACAAGCATGAGACACCATTCCTGGCCTAGAAGCCTATTTTTAAAGAAACTACAATCTCCCATGGGGACTGTTTCCCTGCCTCT
TTTGTGCAGTCCCATGGAACTTGCCTACAGCAAGAGGCCTAAGATTGAATCTTTTTGGGGAAAAGTCATTCTAGGATGAAAATCCTATGTTAAGGCCGGG
CGCAGTGGCTCACGCCTGTAATCCCAGTACTTTGGGAAGCCGAGGCAGGTGGATCACCTGAGGTGAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAA
CCCCGTCTTTACTAAAGCTACAAAAATTAGCTGGGCGTGGTGCCAGGCACTTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAGCCT
GGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCTCCATTGCACTCCAGCCTGGGTGACAGTGAAACTCCATCTCAAAAATAAAAGAATAAAAGTATGTCTG
TCATCCAGCTCCTATGTCTGTTATCCAGCTCCAAGTACAGCTTGTGTATATCAACATTTTCAAAAACCTTTAAACTACCAAATGAAATCCAGATGTTTTT
CCATGGTTGAGAAGTGTCTTGTGTTCATGTTGCCTGTGACCGTTGAAATGAAGTAGTATGTGTAATAGCAGGGGCTAGAGCTTTAGGCCCAGCTGTTACT
CCAAAATCACACAGGGCAGTTTCTCCCTGAACAACCCAAAGTGGAAAAGGGATCCAAGGCTTTTGCTATTTTTCTCTTAAAGCATTCATCTTATTCATAG
ATAAGAGCCCATTTAGTCCTTCGGATATTTAACTCCTATGTGCCAGGCATTTTTCTAAGCTCCAGGACCATAGTCATGTCCCAATATGGTCCCTGTTGTC
CCAGAGATTACAGTTTAATGGGGAATAGAAGGGACAGATTTAAGAAAAAAAAGATAATTCTCCTTTGGATATTGTTTTAGGTGCTTGATATATCTAATAT
GTGTCTGTTGTGCTGCTGGGCAGTTCTAAACTCATCAGTACCTGGGTTGGTTACAGGGCTTTGGGGATCATCAGGGTATAGGCCATAGGTGAAATTAAGA
TAGGGTAAATACAGTCCTGAGCTGAAGATGATTACCTGAGAAATATCAGTATTTAAGGAGTGCTTGAAAATAGTGATCTAACATTTACATAGAGAAGGAG
CAAAGAGAATGCTACATATTAGGCGCAAAAAGAAAAATATTTTTACCTTTATATTGGGCACTTATGGTCCAGACACTGTTTCATTTAATCTTCACAAAAT
CTCTGTGAGGTAGGTATTACCTCTATTTTACTCATGAAAAAAAAACTGAGACTCGGAAAATTGAAGATTGTGGAGCCTGGGGTCAACAGGCTTAGGCTTT
TTAAAAAACAGGCCAGGTGGCTCATGCCTGTGATTGCAGCACTTTGGGAGGCTGAGGCAGGCAGATGACCTGAGATCAGGAGTTTGAGACCAGCCTAGCC
AACACGGTGAAACCCCGTCTCTACTAAAAATGCAAAAAATTAGCTGGGCGTGGTTGCATGCGCCTGTAATGCCAGCTACTCGGGAGGCTGAGGCAGTAGA
ATTGCTTGAACCCTGGAGGTGGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGTGACAAGAGTGAAACTCCATCTCAAACAATAACA
ACAACAACAACAAAAAACAACTCAAATTACTCATGGCCCTGGGAATGGGGGCATTTAAAAAGTTAACCAAGGGAACCAACCTGGTTTCCACAAAGATGGC
CACTTCTGGGTCAGCCCAATCATCAGTATCCCTGGGTCCTCAGCATCCCTTCCTACCTCTTTTGACTGGGAATTACGAGATTACAGCCCCACCTACGGAA
ATTGAGCACATTAGCACTGGCCATGCTGTACATACAGCAAATGAGAGGGCTTCATACTGTTACAACAATCTGTACCACAATTCTCTGTGCGGTCTGCCCA
GCTCTAAATGACATGTCCTCAGAGGCATCATCATCTCCAAGTCCATGGAAACCATGCACTTACAGAAACCAGAACCTCCCATACCACATGTTACTAATGA
CCTACAACATCGACTTCGTCTGTATCATGCAGTGCTCAACATTCTGGTTGCAGCATCACATTTATCAATAATTTGATTCCATGCTGATTCCTTTACTTGG
AGTATTGAGATCCCCCAGGTACAGTGAAGGTATGACCCTCTTAAATGGAAGACCAGGAGTTGTTTCCCCTATGCTATGGCAATCCGCCACCCGGAAGCAC
TTGCTGCACCAACAGCATTCCCAAAGCTTGCCTCTGCAGCCCTGTAGCACCCATTAGAAACACTTCTCACAATGAACTACTGTGCTGGCAAACCCATAAC
TGGACTGCCGGACAGCAAGCTCTGTGAGGCATCTAGGAAAAAAGCTCGCGAAATCCCGAGAAACACTCTTCACTCCGGAATAGCGTCACATTCTTGAGTC
ATTTGGGATGACAGGGGATATCCTGGAGCAGGTGTATTGGGAAGTCAGTGAACAAGAAGGCTAATTCATTAGTGGGCCTGCTAGCGTAGTATTTTAACGA
TTTCGCAGCCTTTAAATCATTGGTGGTCTTTAGCGTGCCGGATCAGCTGGTGGTGGAGTTGGAGGATAGATGGCAGGGATCTGAAGAAAGGTGAAGTGTA
GATAGGAGTAGAGACAATATGAAGTTTAGAAAAGACTAATTGCTGGACGCGGTGGCTCATGTCTATAATCCCAGCACTCTGGGATGCCAAGGTGGGAGGA
CTACTTGAGACCAGGAGTTCGGGACCAGCCTGGGCAACGTAGCAAGACCATGTCTCTACAAAAAATAAAAAATTAGCCAAGCGAGGTGGTGCGCGCCTGC
AATCCCAGCTACTCGGGAGGTGAGAAGATCGCTTAATTCCGGGAGGTCGAGGCTGCAGTGAGCCGTGATCGTGCCATTGCACTCCAGCCTGGGCAACGGA
GCGAGACCCCATCTTAATTAAAAAGAAAAAAATACAGGAGAGACTGGGCTGCTTTGAAAAGTGGATTTGACGGGAATGTGGGGTTTGGAGAGATCTTATG
TTTTCCAAGACTAGAAAAACATTGTGGTTCCGTTCAGCCCTCCCGGAAAATACGTAGGGGACTTAAAGAGCGGACCGAGTACCTGTTTGTTTCCCCATCC
CTTAGCCGGCAGGGCTCTGGCAGCGCCCTGGGAGAACTTAGGGAAGGGCCTTCTCGCAGCGGTTACCGGAAGTGACGCATTCATTCTCGCGAGAACAAAG
ACGCGCGAGCATCGGCGGCCCGGAACCGGCCTTGGAACAACTGTGGAACCTGAGGCCGCTTGCCCTCCCGCCCCATGGAGCGGCCCCCGGGGCTGCGGCC
GGGCGCGGGCGGGCCCTGGGAGATGCGGGAGCGGCTGGGCACCGGCGGCTTCGGGAACGTCTGTCTGTACCAGCATCGGGTGAGGCGGGGCRTGAGAGGG
AGCGGCGGTGGGTTGGAGCGGCGGTGGGTTTGAGCGTCTGTGGAACACAGGGCTGACAGTGTGGGATAGATGGTTGGTGGGACCTTGGGCAGTATTTGGG
GGCCAGTGGGCTTGTGTGTGTGTATTAGAGAGAAAGATACTATGCCTGYGTGTCCAAAGTTGTATTTGAGGTACTGGGCATAGATAGAGCTGTTGCGGGG
AACTTGGGTATGACTGTCAGGCTGTGACCAGGTGTTTAGTGAGTGTGACAGTGCGTGTGTGTCTCTGTGAATGTGGAGTGTCAGGGTGTGTGAGGCAGAT
GCACGTCACAGTGTGTATGTAGGAGCACGAATGTGTGAGAAGAGGGCTGAAGGGGACTGCCTTTGGGAATGTGTGCGTCCGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGYGCGCGCGCGCGCGCGCTTGGAGGCCATATGATATCAGTGGGGACTGGAGTAGACAAGGAAGGCTTCATGATGGGTCCAGAGTTAAG
CCTTTGGAAGCATGGATGGGCTTTGGAATTGGGGATGTATTCCAGGTCGGGACAGTATGAGGGTGAGTTGGTGCAGAGCATGGCTTCAAACGAAAGGCTA
TATTAGTAGATGGAGATGGGGGGCGCTCTAGTAGGTGGAGGACAGTTAACATCAGACTCAAGAATTTTACTTTGATTTAATAGAGAATGTTTAACCATTG
TAGTAGCAGTTAAAAAATCATATTTGGGTCTTGTTTGTTTGTTTTTGTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAATGCAGGGCGCGATC
TCGGCTCACTGCAGCCTCCTCCTCCCGAGTTCAAGCGATTCTCCTGCCACAGCCTCCTGAGTAGCTGGGATTACAGGCGCCCGCCACCGTGCCTGGCTAA
TTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGCGATCCACCTGTCTCAGGCTCCCAAAGT
GCAGAGATTATAGGCGTGAGCCACGGCACCAGGCCTGGGACATGTATTTTTTGATATACCGATAAAAGCTGTGAACCCTTTCCCCAGAAAAATGCACAGA
TGCACATTCACACAACCATGCATTGCCATTTGAGAGGTTCGTGCCTTCCTAAAGGACATTTTAGGTAAATAGACCCTGGACTAATAATTCCTGTAATATA
GGCTTTGTTTTGTTGCCTGTAAAGTAAGTATAGTATAATAATTACATGCATCATGGATTTGAGAGTTAAATAAAATAGTAATGTGTGTAAAGCTAAATAC
GGTACCTGACCCATGAAAGCCCTCAACTGTTAGCACCTGCTGCTACTTTGTTGTTGTTGCTGCTATGATCATAATGCTCCTCATTAATTGGCCTTAAGGA
AATGTCAAGATAAAAAGTGTTGTTCTAGGAAAATGGTTTTGTAAAGGATAAATTTGAGTGGAACAACATATGGGACAAGATGAACAGGTAAGATCTTACT
AAAATGCCTGGGCTTGGCTTGTGAATAGAGAAGTTAATTCAAGAGGAAAAGTAATAATTTGTTATCTAAAGGAACATGGGTGTAGTGAGAAAGCTCGTAA
TTTGGGGTGGGAGAAAGGGGAGATAGGAGTCTACCTTGGGAAAATAGGCATATTTAGGGTAATTAGAATGACAACTGAAACTGTTAGAACTGAGGAAGTT
TTGTGAACCAGGTTTCTAGATAGGGCATAGGAGAAAATCTTGGAGAAAGAGAATGGAAGGTGAAGGACTAAGGCATTAAGTCCTGTGATAGCAGGATAAG
TAGTAAATTTAATAATTCTCACCATCAGAGGGAACATAACACACTAAAAAAAAAAAAAAGTGGGAGCCAAGTGCTTCCAGTGGCATGTTGCCTGTGTTAC
CTAAGCCTGCCTATCCGCCTGGTCATAAGGAAAAAGGATGCATGCTGGCAGCTTTTGTGACTTCTTTTCTTGGTCCCTGGGTGGGGATGGATGAATTAAT
CACTTTTTGTTTTATTATGGTAAAGTATACATKACACAACATTTATCACTTTATTTTTAAGTGTACAGTTAGGTGGCATTAAGTACATTGACGTTGTTGT
ACAGCCATMACCCTATCTCCAGAATATTCCGACTTTTTTGTTGTTGTTGTACATCTATAAACTTCCCATAGAATATTCTTTGTGAAAAGGTAGAATTTCA
CAGAGTTGATGAAATATAAATTAAGGAGTTGAAGGATCTTACAAAGTGGGATTTTTGAAATAGATAACTTATTGCTCCATTAACATGAGCATTCAGGGCT
CAGTGTTGTTCATGGTTGTGCCTGATTCTCATTTCCATGGTGGTAAAGGCCTGCATGGGACATAGATATAACTGGTCACCTGCTCATAACAAAAGGAAGA
TTGAAGGGAGTGAGAACYGTGGGTAGGCTAGCATGCAGTCTATCCTAGTTTCCTTCTTCTCTATGCACCAGGTATCATCTTATCTCTAGCTTCTTTTTTC
CTCTCACCCTCCAATTCACACTACCCTATCCAAGCTATGTCTTSCTTCCCCACCTATAATATATTTTTTCTGTCCTGGCCCCTGGGCTCTTCTCTCTGTA
TTCATACACAGCCTTTATTACAACTCTGGTTTGTGTCAGAGATTACATATGTTGGAAATTCTTTTGAACTCTCCTTGTGATATCAGAAACATAGTGTAGC
CTGTTTAGCCCTGACTGCTATTTCTGAGCTGCATTATTAATGTTGCCAGAATATGATGGGGTCTGGCTATTTCCTGTAATATGCATCAGAATGGGTTTAA
TTTCAGTCAGAATTGGCTAAATTACTAGTCACAGGCAAGAGATGTTAGGTTCATTATGTAGCTATGGAAGCAGAAGTACACTCATTGGTAGGATTTTTTT
TCTTCATGTCATTTGAAATGCATACATTAGGATTGGAGTTTTTTGCTTTAGGCTTGGTTATATTAAAACTTTCTCTTGCTGTTTGGAGTCCAGGAAGCCC
TGAATTACCTTCTTCATTTTAGTTATGCTAGAAGCTGGGGCACATATTAGTTGTCTTGATTAAGCTCTGAAAGGGGTTTGCTGAGGAGACAGGATCTTTT
TTTTTCTAACATTATATATGAGAGAGAGTTCTGAAAAGACCTGTTATAAAATCAGTTTCAGGCACTTTTCCCTTGTATGCTGTTGTGTGTTTGAAGGTCA
GTTTTAAAGCATKGGTGTAATAGTCTCATGGTTTATCTTTTTAAAAAGCATTGCCTCAAGAGAGCTGTGGATAAATATATTTAATTAGTAAAGCTAAAAA
GTTTTGTTGTCTTAAGTTATTTCTTTGGTAGCAAATAAATCTTCACAAGAACCTAATTTTTTTTTTCTGTTGATTTTCTATTTTGGCAGGAACTTGATCT
CAAAATAGCAATTAAGTCTTGTCGCCTAGAGCTAAGTACCAAAAACAGAGAACGATGGTGCCATGAAATCCAGATTATGAAGAAGTAAGTGTATTCCTTG
ACTTACATTTCCCTGGTTCTACAGCCCAACCAGATGTCATCATGGGGAAAGAGGCCAGGAATCCACTCTTCTCAGGATCTTTTTGGGAACATATATTTTT
TTCTCTCATTAAATATATTCTATTTCAAATAATAATATCACATTAAGATTAAGAAGGTTTAGTTAAAATCAGCTAGGACACTTACACACTGTTGGTGGGA
ATGTAAAATTGTGCAACTGTTACGGAAAACAGTACGGTGATTCCTAAAAAATTAAAAATAGAATTACCATATGATCCAGCAATTCCATTTCTGGGTATAT
ACAAAAATGAATTGAAAGCAGGGACTTAAAGAGTAATTTGTACACTCATATTCATAACATTATTATTCACAATAGCTGAAAGGTAAAAGCAACCCAGTAT
CTACCAGCAGAGACATGTATAAACAAAATGTGGTATATTCATGAAACGGAATATCATGCAGCCTTAAAAAGGAATGAAACTCTGACACATGCCACAGCAT
GGATGAATCTTGTGGACATTATGCTAAATGAAATAAGCCAGTCACAAAAAGACAAATACTGTGTCATTCCACTTATGTGTGGTACCTAGAGTAGTCAAAC
TCACAGTGAAAGAAAGTAGAATGGTGTTTGCCAGAGGGTGAAGGGACCAGCAAATAGAGAATAATTTTTAATAGGTGCGGAGTTTCAGCTTTGCAGAATT
AAACAGTTTTGTGCAGTATAGTGATAGTAGCAAAACATTGTGAAAGTATTTGATGCCAGGCTGGGCATGTTGGCTCACACTGTAATTCCAACACTTTGAG
AGGCTGAGGTGGGTGGATTGCTTGAGCTCAGGAGTTCGAGACCAGCCTGGGCAACATGGCAAAACCCCATCTCTACAAAAAATATAAAAACTAGCTATGT
GTGGTGGTGCATGCCCGTAGTCCCAGTTACTTGGGAGGCTGAGGTGGGAAGATTGCTTGAGCCCAGGAGGTCAAGGCTACAGTGAGCTGAGATCATACCA
CTGTACTCCAGCCTGGGTGACAAGAGCAAGACCCTGTCTGAAAAAAAAGGAAAGCATCTTGATGCCACTAAACTGTACACTTAAAAATGGTTAAGGTGGT
AAATTTTATGCTATGTGTRTTTTACCACAATCAAAAAACTATTTCATTTCAGTTAACAAAAGTCAGCTAGGGCCGGGCGTGGTGGCTCACACCTATAATC
CCAGCACTTTGGGAGGCCAAGGCGGATGGATTACCTGAGGTCAGGAGTTTGAGACCAGCCCGGTCAACATGGCAAAACCCCATCTCTACTAAAAATACAA
AAATTAGCCAGGTGTGGTGGCGGGTGCCTGTAATCCCAGCTACTTGGGAGGCCGARGGAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCGGTAAGC
TGAGATCATACCACTGCACTCCAGCCTGGGCGACTCCGTCTCTAAATAAATAAATAAATAATAAAAAATAAATTACCCCAACATTTAGTGGCTTAAAATA
GCAAACATTTAGTATCTTATAGTTTCTGTGACTTAGGAATTTGGGAGTGGCTTAGCTGGGTGATTCTAGCTTAGAGTCTTTCCTGAGACATCTCAGGATA
TTGGTCGGAGCTGCAGTAATCCAAAGGCTTGACTGGGGCTGGAGTATCTGCTTCCATGCTCACTTATATGAATGTTGGCCAAAAGCATCAGTTCTTCGCC
ATGTGGGCCTCTTCATGGGGAAGCTTGAATGTTTTCATGACATGGAAGCTAGCTTTCCCCAGAAAGATCTTTTCCTCAGAAAGAGTGAGTGATCTRAGAG
AGAGAGAGAGAGAGAGAGAGTGAACGAGCGAGCAAGATGAAAACCGAYGTATCTTTTATGATCTTTACTTGGAAGTGAGACTCCATCCTTTTCCACCACA
TTCTGTTTGTTACAGTGAGTCACTAAGTACAGCCTACATTCAAGGGGAGGAGAGTTAAGCTCTTAAAAAGAGAAGTAGACATATTTTAAAACTTCCACAG
GTAGTGTGCTAAGTACTTTACAGATCATTCTTCCAGTTATCACAGCAATCTTATATTTAGGTATTATTTTGCAAATGAGGAAGTTGAAGCTTATAGAATC
ACATAGCTGGTGGTTGGTRAAGTGTGGATTTGAAATAAATACTTTCTGACTCTAATATCTGTGCTTAATTCCATTTTGATTCTCAAACTTGGTTATGTGG
CAGAATCACCAGGAAAGCTTAATAGTATAAATTATCAGGTCCTACATGTACATGGAAATTCTGTTTGCTTCTTTTTCTTTTTTTCTTTTTTTTTTTAAAA
GAGATGTGGTCTTGCTATGTTACCCAGGCTTGACTTGAACTCCTGGGCTCAAGCAGTCCTCCCACCTCAGCCTCTGGAGTAGCTGGGACTATAGGCATGC
GCCACCACACCCGGCTAATTTTTAATTTTTTGTAGAGATGAGGTCTCACTGTGTTACCCATGCTGATCTCGAACTCCTGGCCTCAAGCAATCCTCCCACC
TCAGCCTCCCAAATTGTTGGGATTACAGTTACAACTACACCCAGCCTAGAACGCCAGATTTGACTTACTCACTGTGTGATCTTGTTACTTAGCCAATTTG
TGCTTCAATTTTCTCCTGTGTGGTGAAAGTATTAATAAATCTACCTATAATAGGATTATTGTGACAAGTAACTGAGTTAATATATTTAAAATGTTTACTG
CTTGGCACTTAGAAATGTAATAGTAGTAATAGTGATGGTATTTTTATGTGTGTTTTCTTTTAAAAAATTACTAATTTTTAATTATACAAATCAGAAATTA
GAATATTATAAATAATACTGATCTTTCCCCCTCTGTTCATCCACCCACAATTAAGTAGCATTTCAAATCCAGTCCCTTTTTATTGGAAATAATTTTTTTT
ATTGTAATGTTTTTCTTTCTTATTAGGTTGAACCATGCCAATGTTGTAAAGGCCTGTGATGTTCCTGAAGAATTGAATATTTTGATTCATGATGTGCCTC
TTCTAGCAATGGAATACTGTTCTGGAGGAGATCTCCGAAAGGTAGTGTGGATGTTTTGAGATGAGAGAGAGTAMATCACAAACTTTAGCAATGTTTGAAT
CATGTTAAATATAATAAACTAGAATAAGAATCGGAAAAACTATGGTCTGCTTCCTGTTTTGTAAATMAAGTTTTATTGGAACACAGCCACATTCATTTCT
TTACACATTGTCTATGGCTGCTTTCTTATGGCTGCAGAAGTGAGTAGTTTTAACAGAGACTATGTGACTTGCAAAACCTAAAGTATTTACCATATGGTTC
CTTACAGAAAATGTTGACTCCTGATTTAGAAAATGCATTTTTGTTGTTGCTGTTTGATGGGACTATAGCAATGGTGTTAGATGAAAATTTCAGTGGTTAA
GGTGCTTATAAAAAGTTGTTTTCTGTATTGCAATCTTTTTTTTCTACCTAATTTTAAATGTGCCCATATGACCATTTTTATATATATCCATGAGATTTGT
CAGCCTTTTCCAGTTTCAAATGCTTTTTGCCTCTTTTTACTTTTATGAGCCTTATCATGAAATTTACATGCCCTCAGTATGGATTTGGWAATTTTATTCC
CTTGTATTTTATTATGACTTATTTTCTCATTTGAATATTCTTTTAGAGTATARTAATTAATGTGTGGTCACTATTGCAGCCCAGCAATTTGCAGAACAGA
TTTTTAGATTTCTTTCTTTTTTTAGCTGCTCAACAAACCAGAAAATTGTTGTGGACTTAAAGAAAGCCAGATACTTTCTTTACTAAGTGATATAGGTACG
TATCAGTATTAAAATACCATTGTAATGTAATGTCCCTTTGGCCCATAAAAGATCTTTTTGGGAATTCAGGAGAATTGTTGATACACTATACAAAGTCTAT
AGAATTTCAACATCTATAAGAAGTTATAAAAATCTATTACTATTGATGCTAAATTAAAACTAGGATATTTTGGCTAGGTGCGGTGGCTCACGCCTGTAAT
CCCAGCACTTTGGGAGGCCAAGGTAGGCGGATCACAAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAACCCCATCTCTACTAAAAATACAAA
AATTAGCTGGGCACAATGCCGCATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGATAGAGGTTGCAGTGAGCC
GAGATTGCACCACTGCACTCCAGCTTGGACAACAGAGTGAGACTTTGTCACACACACACAAAAAGAAACTAGGATATTTTATTATTTATTTGTGGCTAAG
AGTCCTTTTTTTGTCTAATAGATGTTCCAATAGCTGACAAAAAAATCATGTGAAATGACCTTACTCAATTTCTCTCCCCCCCTACCATTGACATAGTAAT
TTTGTTTACAGTGGAATTACATCTCCTTGAGGGATGGGTCCTCAAGTCAACTCTTTTTTGTTTGTTTGTTTTGAGACGGAGTCTAGCTCTGTTGCCCAGG
CTGGAGTGCAGTGGTGCGATCTCAGCTTACTGTAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTG
CCCGCCATCACACCTGGCTAATTTTTGTATTTTTAACAGAGACGGGGTTTCACTGTGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGTGATCTGCCCG
CCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGCACCCAGCCAAGTCAACTCTTCAGGGTGAAAAATCTCTGCTTAATCAGAATGACTCC
AGAAAAATTCCTAAAATAACCAGTACCTAACCTTTTGGAGGAACCTCAAAAACCAAAAATTTGTTTCCCCATAGATTTTGGTTTTGCCTCTTTTCCAAGG
TCATGAGGGCTAAAGTCCAATTGAAATGAGTGATTTAGGTGGGAGAAAGAGGCTTATAAGAGTTTCAGGGATTTTCCCAATTGCTTGTTGCATTTCTATT
TGGTGTTAATTCTAATGAGTTAAATGAACATATAGTATAATTTTGTAGTATTTGTTTAATGTTACTTTTTTTTCTGTGAAGAAAACCTGGACACTGTAGT
ATTAGTTGTGTAGTTACGATGATCCATATAAACTTGAGCATCAGAGTAGATTTGTACAAAATGTGAGGTGAATTTTTCTTTTAACTCAATGATTTCTGTT
ACTTYAAAGTATATTTTAAACTTTATTTAGGRTCTGGGATTCGATATTTGCATGAAAACAAAATTATACATCGAGATCTAAAACCTGAAAACATAGTTCT
TCAGGATGTTGGTGGAAAGGTAGGTGAAACCTGAAGTAATGTTTCATGCCTATTGAATATAGTCTCTCTGATATAGTTAGTCCTTGAGCTTTGGTGTCTT
TGCTGTATGCCCATAACAGTCTTACTTTTTCCATTTCAGACCTCACCACACTGAACTGTAGTTTTGTGTTTAGTTTTTTTGTCCCTTCTGCTAAACAGTG
GTTCCATCAGAGAAGGAACAGCACCTGCTTTTTTTTTCTTTTTCTTTTTTTTCATTTTTCATACTTAACCCAGCTCCTAGACTTCACCTGTCTTGTTCAA
GTCTGTTTTTCCATCATAGTATCTAGCAAAGATACAGGCTGTGAATACATAATATGTTAACACTTATTATTTTATTCTTATGAAGCACATCCAAAACACA
TACATGCACATCCTGGGTCCACTTTAAGAAAAAAAAGAAAGTATATATATTTTTAAAACTTATTTTCCTTCCCCCAATTTAAATGAGTCATCTGGAGAAG
AACCAGAAATTGTGAATTGACTCTTAAAATGTTCATTTCATTGGTAACTTAAGCAGTTTTCTTGTTTCCAGCATCCAAATTTCATTCCAATAAAGACTTA
AAGGCCAAGAGTCTGAACCTTGTGTTGAGTTGTGTGTGCCGTCTCTTTAGTTAGTGAAAATAGTTGTTGGCCTCTTGGAGGTGTTGGAACCTTGGTGATG
CCTCTTCTCTTAGGAACCTTTCACGTATGCTTGGCACCAAATATCTCTGCTTTTTTTTTTTTTAATCCAAAGACTTCAGGACATTCCTGAAGTTAGATCT
AAGTATTTACTCACATTTAATCTACTATAAGGAGGTATGATGCTTCTTCAAGTTTGGAAGTCACCCTTGCCTTTACTTTCCRGTTTAATGGATTGAGCTT
ATTTTGAATATAGTAAAATAAAAATTAATAGCCCACCTGTATTCAATTTTTACCATGTACCAAGCACTGTGTTACCTTCTTTACTTTCGTTATTTCATTG
GATCCTAATAACAATTCTGTGAAGCAGGGACTGTTAGTCATCCAATTAGATTACTGAGAGAGGTTAAATAACTTGGTAGATCACATGCCTAGTTAAGTGG
TGGCACTCAGACTTGAAATATTTTTGTGTTATTACAGAGCCCAAGGTCCTCACCACTACCCTGTCTACAGCCTCGTAAGGATATTGTTGTCTTTCCTTTT
TAAATTTCTCTACCATTTAATACTTAATCTGTCTTATTATTTTGCAGATAATACATAAAATAATTGATCTGGGATATGCCAAAGATGTTGATCAAGGAAG
TCTGTGTACATCTTTTGTGGGAACACTGCAGTATCTGGTGAGACCTGTTTTGTTTCTTTGAATTTAAGTGTGTATAGGATTCTCTTATTTCTGAAGATCA
TGAATATAGTAGGTCAAAAATAAAGTAGCTTTTCCCATACAGTGTTGGTGTTTAAAGCATTTTCTCTTTTGAAGGCCCCAGAGCTCTTTGAGAATAAGCC
TTACACAGCCACTGTTGATTATTGGAGCTTTGGGACCATGGTATTTGAATGTATTGCTGGATATAGGCCTTTTTTGCATCATCTGCAGCCATTTACCTGG
TAAGAAATGGATGAGAACTTGGGCATGCTTAATGGGAATGGAAATTTTTTCATTTGTCTTTTTTTTTCTTTCTTTAAKTGTTTAATTGCCTTTGAAATAT
ACAATTAAATATAATTAAATGGCAAGAAATCTTAATTTGTGAGAATCACTTTGTCAACTGAGGTAGCTTTTGATTTTATAGGCATGAGAAGATTAAGAAG
AAGGATCCAAAGTGTATATTTGCATGTGAAGAGATGTCAGGAGAAGTTCGGTTTAGTAGCCATTTACCTCAACCAAATAGCCTTTGTAGGTAAGTATATT
TTAGTTAAGGAAGTTTGCCTCAGTTTCTCCAGAGTTGTAAAGGAGCAGGAGAGTAGTTGTCTGTTTCAAGTTGCATTATCCAGTAGAACTTTYTGTGATG
ATGTAGAAACCTTCTATATTTCTGTTGGCCACATGAGGTTATTGACTACTTGACATGTAGCTAGTTTGGCTAGAGAACGAATTTTGAATAAATAGTAAAT
ATAAATAGCCACTTGGGACTAGTGGCTACCATTTTGGACAGCACAGGTCTGGTGGAAACAAGAACTGCCATTTAACTGTTTGACATATGTCCTAAGAAGG
CTCTTAGGATAATGAAGTAAATGGGTTATTTGCAGAATGGATTTGGACTCATCCRTCAGARTTGTCAGTAACTAACATATGTGGAGTTTTGAGTAGTTTT
TGATGGAAAAAAGTTTGTCCCCTGTCATTTCATGAATTTGAAAGTAATTTATGAAATGGTACAGACAAGTGATGTGGGAAAGAAAATGGACAACCTGCAA
AATTACCTTTCTAACAGTATAAAGGGAAATTGGAACATAATGATTTGATTTTCACCCTATTTTGTATGTTTTCTAGTTTARTAGTAGAACCCATGGAAAA
CTGGCTACASTTGATGTTGAATTGGGACCCTCAGCAGAGAGGAGGACCTGTTGACCTTACTTTGAAGCAGCCAAGATGTTTTGTATTAATGGATCACATT
TTGAATTTGAAGGTTAGTCTTAATGGGTCTACTGCATAAGACCAGCATTGAAAGTAACAAGTTTATTTGGAAAATTAGCATAAATACAGTTTAATAATCT
TTTCCTGTTGCTTATTTATTTATTTATTTTGAGACAGGGTCTCACTCTGTCACCTAGGCTGGAGTGCAGTGGCATGTTTTTGGCTCACTGCMACCTGCGC
CTCCCAGGTTCAAGCGATTCTCTTGCCTCAGCCTCCCGAGTAGTTGGGACTAAAGGTGTGCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGG
TAGGGTTTCGCTATGTTGTCCAGGCTGGTCTCGCACTCCTGACCTCAGGTGATCTGCCCGCCTCCACCTCCCAAAGTGGGATTACAGGCGTGAGCCATTG
CRTCCAGCCCTGATGCTTATTTGAAAAAGAAAATTATATTCTTAGAGCTGATTTTTTAAAAAGTTTATTTAGCAAGCTGTCTCAGTTTGCTTCTCTGTGG
TCTTTGTTAATTACTCCTTTGAAGCAACTTTTTTATTTACCTTTTCCCATGTTGTTGCCATTATCCTCGATTCATTTATGTCTAGTCATACTGGATTTGA
TTTGGTAAGGAAGGTTCCTATCTGCCTTTCATGGCTCTGCACTTACTCCTTAACCTATAGTTCATTCAATATGTACTACCTATCTCATCTTCTGAAAATG
CTTTTTTATTCTTCTGCCCAAGAAACTAACATAGTTCTTTTTTTTTTTTTTTTTAACAAGTCAAGTGTAAACTGATCTGCTTGGTTTTTTGGGGGGGCTT
TCCCTAACCAAGTTTTGCCTTGTACCTGCTTCTCTTAACCTTTACCTCATACAAGACCAGCTTGTCACTGCTCCTTATGCCTCAAACCCGTTATCTACCT
TTGTGCTTTGACAGATGCTATCCTTCTGCCTGGDTATCCATTTCTGTGTATCTTCTCACCTACACTGGCATATCTTTAAGAGCTTTTCTTTAAATGGTCT
CTGCCACAAAATTTGTCATTTAAAGGCTATATTCTCTTTCTCGTCTTCCATTCATGCATCTTCATATAGACTGTTGTCTTCTTCAATGTTGGGATTGTTT
TACTTCTTTTATTAACAATCACCCACCCTACCCTTCCTAACCATGGCATTCTGTACAGAGCAGGGCATGTATCAGGTTCTTAGTAAATTATTTATTGATA
TGAATGAGAGCTATAGATAGTTCTATTATGCAGTGTACCCAGAAACAACTCTCATCAATAGTSTTTACATTTGTATTGATTGTTTGTAGTATACAGGTTT
CTAAAATTGAAATGAGAAATTATAATCATGTAATGTTGGAGTACATGGCGAGATAGCTCACTTTAGTCTGCAACCCCTGAGCTCAAGTGATTCTCCTGCT
TCAGCCTCCAGAGTAAATGGGACTACAGGTGTGCGCCACCTCTCCTGCCTAATTTTTAAATTTTTGGTAGAAATGGGGTCTCACTGTGTTGAGCAGGTTG
GTTTTGAACTCCTGGCCTCAAGTAATCCTCCTACCTCGACTTCCCAAAGTGCTGAGATTACAGATGTGGGCTACTGTGCCCGACCTTGGCATACTTTATT
AAATAGAAACTTGAGGCCATGTGGATGTCATTCTTGGCTAACACTGAAAAGATACCTGGCTTCTTCTTGATTTGGTTTCCTTCTAATGTGCCAAAGAATA
AATTATCCCTCAGTGTGTTAGGAAAGCAGGGCTTTAGTTCTGTGTTGCCTCTGAAACATTTCAGCTGTGAATGAACCACATCTCGCATTTGTTTCATACT
TGTCATAGGAATCATAGCATAGTTTCTGCTCTGAAGGGCATCTGTGAGCCTCTTGTTATAGGGCACGGGGAAAGAGTMCACATTATGGAGTTTATAGTTT
ACAGACTTTAATTCAGTTTGCAGCACCACTATTTACCTATCTGTGAACCTGAGCAAATGTCTCTCTATCTCAAGGACAGTAATATCTTCCTCAAAGCATC
AATATTATTATGAGGTTATGCAGAATAAGGTATGTATAAGGTACTAGTTATAGTAGTTCAAGAAGCTTCAAGGATGCTTGTTAGACATGATAATAGGACT
GAATTTTGAAGAATGAGAGTTTTTAGGGAAAGGGTGAGGGCGGGAGAGATTTATAGGCAGCAGAGCATCATGAGCAAAAGTACAGAAGCATGAACTGCAA
AACAGCTTGGTGTTACTGTAGGACATTTTCCCAAAATGTTTATATATATTGTACAAGAAAGGAATGATGTCTGTTTGATTTTCACTTAAAAAAGGAAGCA
ACAAAACAGTTACTGAAATATTTCCCTTTTGAAAAAATAGCTTAGCAAGTCTGATTGTATGCATATTTTCCAAYTGTTTATTATGAAYATCTTTAGATAT
GTAGAAGAGTTGAAAGAAGTGTACTGAACCTACCACTAAAAATAATGATGAAACAGTAGCATTTAATTATTATTTTTTTTTGCCTCCTCTTTCAYGCCCC
TAAATGTAACTATATTCTGAGTCTCTTCTTGGTTCTCTCTTTTTCCATTACATTTCCTTTCTTTTATTAGGCAGCCTCTTCAACTGTATAGCTTTACTTA
TAAACTACATATGGCTAACTCCTAAAGTTATTTATCTCTGTAGCTGTGACTCTTCTGCCAAGGACTTATAACTGCTGTATAACTGTATAACTACCTGGCT
GTTCCACTGGCACTTACAACTTAATTTATTAAAAACTGAACATATTTGTTCTATCCATTAAATCTACTTCTTTTTTTTTTTTTTTTTTTTTTGATATGGA
GCCTCACTCTGTCTCACGATCTCAACTCACTGCAACCTACACCTCCTGGGTTCAAGTGATTCTCGTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTG
CCTGCCACCGTGTCCAGCTAATTTTTATATTTTTGGTAGAAATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGACACCCTGACCTCAGGTGATCTGCT
CACCTCGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCTGGCCCATTAAATCTACCTCTATAGATTTCCTACACTTCTTATTTGCACTG
TCACCTTTCCAGTTACCCAGGTGGGAAACTTTGGATGTGTTGACTCTTCCTTTCTCTTCAATCGATATATCCAATTATTTTATCAAATTTATCTTTTGAA
TATCTTAACAATTTTGAGCTTGCCAGGTTCTCAATTTAGAAAGGCTTGCATAGTTTTCTTTCACTTATTGAATAAAGTCCAGASCCTTTCATTGGTACTC
AAAACCTATCTTGGTTTCATATCAACTTACACTCCTGGACTTATCTCTTACTAATGCCCTGAGAGGCCATCATTTTAGGTACATTTGAACTGGATTAATT
GTATTCTCTGATTATGCCCATCCCTTTCTACTTTTCTGCTTCTGCTCACCTTGTTTTCTGCCTAAAGGAACTCTTTTCAGTCTTTTCCCATTTCAGTCTT
TCATTTCAAAGTTTAGCTCAAGTAGTGCCTCCTTTATGAAGTGCCTGCTTCCTACTGCCAAGTGTATGATACTTTACACTGATTATAACACCTATCACAT
TTTGCCTGGTACCTTAGTTCTCTTAGTATATCTTAATATCTTCTGTTTGACTATAACTGTATGGAAGGCAAGGATCATAAGGTACTCAGTTTGTATACCC
ACTACTACCACCACAACACACTTAATAGTATGTACCAATAGTATGTACCTACCAATAGTAGGTACTCATTAAATATTATAGTGAGCAAAAAGATAAATTT
AGGTTGTATTTCCTCTTCTTTCTTTTGCTTCCTTCTGGCCTGGAGCTTTGGTAGTGAGATGCCATGATGACATACTCTAATATCCTGTGTAAAAGTAGAT
GTCCATTATAGGATTTTCTATTGCTATAAGTGGCAGCTGTCATAGTGTGAAATCTGCCTAAATTGGGAAGGCATGGAAAGTCTCARGTAGTATAATTGTA
TTGCAAATCCGTATCAGTTTTGAAGATTTCCCTACTCCCCTTTTAAACATAAAGATTTATATTAAAGAAAAGTCTCTTAATAAGAGAAATACTGGCAATT
GTGTTATGACATTTGGAATTCACATGAAAAGGATCAGCTTCAGGTTATAAAAACAGTTTGGTATTTCTTTTTTAAAATTTTGTTGATACAGGTGTGGTGG
CTCATGCCTGTAATCCCAGCACTTTGGGAGGTGGAGGCAGGCAGATCACTTGAGGTCTGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCT
CTACTAAGAATACAAAAATTAGCCAGGGATGGTGGTGCATGCCTGTAGTCCCAGCTACACGGGAGGCTGAGGCAGAAGAGTTGCTTGAACCTGGGAGGTG
GAGGCTGCATTGAACCAAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGAGAGACTCTGTCTCAAAAACAAACAAACAAAATTGTTAATACGCTTT
TAATTTTTTTTTTTTTTTTTGAGATAAGAGTCTTGTTCTATCACCCAGGCTAGAGTACCATGGTGCAATCTCCACTCACTGCAACTTTCACCTCCCAGAC
TCAAGTGATTCTCTCGTGCCTCAGCCTCCCGCGTAGTTGGAATTACAGGTGTGCGCCATCATGGCCAACTAATTTTTTGTGTGTTTTTAGTAGAGACAGG
GTTTTGCCATGTTGGCCAGGATGTTCTCAAACTCCTGTCCTCAAGTGATCTACCTGTCTTGGCCTCCCAAAGGGCTGGGATTACAGGTGTGAGCCACCGC
GCCCAGCCTAATTTTTTAAATTGACAAATAATTATACAAATTAATGGGGTAAATAGTGATGTTTCAATACATGCACTGTGTAGTGATCAGATTAGGGTAA
TTAGCATATCCATCAGCTAAAACATAATTTCTCTGTGTTGGGAATATTCAGTATCCCTTTCTTTTTTCTTTTTTTTTCTTTTTCTTCTTTCTTTTTTTTT
TTTTTTGAGACAAAGTCTCACTCTGTCGCCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAGCCTTGATCTCCCAGGTTCAGGCGATTCTCCTGCCTC
AGCCTTCTGAGTAGCTGGGATTATAGGCGTTGTGCCACCAAGCCCAGCTAATTTTTGTGTTTTTAGTAGAGACAAGGTTTCACCATGTTGGCCAGGCTGG
TCTTGAACTCCTGACCTTAAGTGATCTACTTGTCTTGTAATCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCAGCCTCAGTTTAGTATTTCT
GTAGCACCACTTATTTGGGCATCTGTGTTAGGATTTGTAAGTGGAAATAATAGTGGGCCTTCAAACTAAAAAGTGTACAGTAGAAAAAATAATCAACAAA
ACGAAAAAGCAACCCAACCCATGGATTGGGAAAAGATATTTGCATACCATACATCCAATAAGAAATTAATATCCTAAATTTATAAGAAACTCATGCAACT
CAATACCAAAAATGTAAATAACCCAATTTAAAAATGTGCAAAGGACCTGAATTAGACACTTCTCAAAAGAAGAAATTCAGATGGTCAACAAACATATGAA
AAGGTGCTCAACAACTCTTAGCATCAGGGCGATGCAAATCAAAACCACACTAAGATATCACCCCCCACCTGTTGGGATGGCTATTATCCAAAAGAAAAAA
GATAAGCGTTAGTGAGGATGTGGGAGAAAAGAAATCCCTTGTACACTGTTGGTGGGAATGTAAATTATTACAGCTATTGTGGGAAACAGTACAAAGGTTC
CTCAAAATTAAAAATAGAACTACTGGCCGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTTGAGACAGGTGGATCACATGAGGCCAGGA
GTTCGAGACCAGACTGGGCAACATGCAGAAACCCCATCTCAACTAAAATTACAAAAATTAGCTGGGCATGGTGGTGCACATCTGTAATCCCAGCTACTCC
GTAGGCTGAGGCAGGATAATTGCTTGAATTCAGGAGGTGGAAGTTGTAGTGAGCTGAGAGATCATGCCACTGCACATCAGCCTGCGTGACACAGCAAGAC
TCTGTCTCAAAAGAAAAAAAAAAAAAATAGAACTGTAAGATTCAACAATGTCATTTCTTGGTATATATCCAAAGGATTTTAAAGCAGGCTTGTGAAGAGA
TATTTGCACTCCCATGTTCATTGCAGCATTATTCACAATAGTCAAGATCTGGAAATAGCCTAAATGTCCTTTGACAGATGAATGGATAGGGAAAAAGTGG
TATATATACACAGTGGAATAGTATTCAACCTTAAGAAAAAGAAGGAAATTCTGCCATTTAGGACAATGTGGATGAACCTGGAGGACATGTTAAGTAAAAT
AAGCAAGTCACAGAAAGAGAAATACTGCGTGATCTCACTTACATGTGGAATCTATAATAGTTAAATTTAATAGAAGCAGACCATAGCATCATAGTTGCCA
GGGGCTGCAGGGATGCGGGTGCGGGGGTGTATGTAGAGATGTTTATCAAAAGGTCCAAAAATTACGGCAGCAAAAGAAAAAAAAGGTACAAAAATGACAA
CTATGAAGAGGTGACAGATATATTAATTAGCTGAAATGTGATAATTTCACAACGTATATCAAAACATCAAGTTGTATAACTCAAATATATAACATTTTTA
TATGTCAAATTAAATTGTCACAAAATAAAATATGTAAAAGATAAAGCAATAAATCAGGAGAGGGGGCTATGATAGATGAAACAAGATAGGCTCTATGTAA
ATGATGGTTGAAACTAGGTGAGGCATTCACAGGGTTGGGAGGGGGCTTATTGTACTGTTGTCTATAGTTTTGTGTCTTTGAAAACATCAATTCAGATTTG
TGTTTTAAAGGGAAAAAAATAATAGTGGACTTGGATTAATGCCTTACCTTTGTAGTAAGGATTTTCAGCAGAGAGAATTTTAATCATTTGCATATACTAG
TCAATGTAAGGCATGGAGAATGTAGGCATTAATTTCGTATGGCTTTTCTAAGGATACTGGAAGGAAGAGAATTTAAAATCATGTTCTTTTCAAAAGACTG
AAGTCCAACTCTGTGGCTGTCCGCGCTGACAGGTGGGGACAGAGCCCCACCTGACTCAGCCTCACACTCACTTGGCATGTATCAGGCTACTTTTACTGGG
GCTTTAGGTGAGAGTGATAAAACGGTTCTTACTTGATTTGGGGCCCTTAAGCAGGTTGCTGCTCTGGGATTAGGTTGTCTTATAAAAAGGTAACTCACCA
CSCATAACAATGCTTTTTCCTGTTTAAAGAGAGACCTAGTTCTTCTATCAGATGATTTCTTAAGGCAGCATGAAGTAGCCAGACACAAAAAGAGTTAAGA
TCCAAGCTCTACCAGTTATTAGCTGTGTGATCCCTAACAAGTTATTTAACTTAGAACTCTGGTTTCTTTCTCTGTTTAAAATGGAGATTAAAAGATCTAA
TTATTGGGGATGTTATGTGAAAGTGGTTTATGCCTGTGGTTGTCTTCTGTTAGGCACTTCATGAATTGGAATGTTTCCTTTTCGGTCTATGATAATGTTT
TTTTCAAAATAAATAACTTAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGA
GACCATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGG
CTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCT
CAAAAAAAAAAAAAAAAAATAAATAAATAAATAAATAAATAAATAAATAAATAACTTGTTCTTTTAAATTGGGATTTTTCTTAATTTTGAAAATTTCTTA
ACTTTGAAATTTTATTGTTGGAACTAACATCTATTGTAGAAAAGGAAATTGTTCAGTTTTCAGAATGTCATTTTATAATTATAAAAGGAGATCTCACTTT
GGAGAATGAGTGAGCCTTGTTTAATGTAGAAATAATGCCTTTTGCCCATATTCACCTTTTAGTATCTGGCAGCGAATCTTTTATGTAACAAATAATCAAT
AACTTTACCTTTTTTTCTTATTTATACAGATAGTACACATCCTAAATATGACTTCTGCAAAGATAATTTCTTTTCTGTTACCACCTGATGAAAGTCTTCA
TTCACTACAGTCTCGTATTGAGCGTGAAACTGGAATAAATACTGGTTCTCAAGAACTTCTTTCAGAGACAGGAATTTCTCTGGATCCTCGGAAACCAGCC
TCTCAATGTGTTCTAGATGGAGTTGTAAGAAAATTAATTATAATATCCCTAGAGTATGTGAAATCTAGAGGGATTGCGTGCCCTGCAATTTTTATGCATA
CTTGGAATTCCTTGGGAGGCCGCACATTTTGTTTTGGTTTTGTCCTTCTCCCAACTCTTATCATTGCTTTGCAAGGTGAACAGGATAGAAATGAAACATT
TGTTGTTTTGAACTTTGCAAGACTTTTTCTTTGGTGCCAGTTTTCTGCTCCTGTTCCCAGACCAAACTGAGGGTCAGGCTGCTTACTCTCGCGGCCCAAT
AACGAGATGCAGATGAATTGGGAGAGATGGGAGTTTTTATTTCTGTAACCAGTTACAGGTAGAAGGCCTGGAAATTACCGCCAGACCAACTCAAAATTAC
AAAGTTTTTCCGTAGTTTRTTTATCTTCTAAGCTATATGTCTATGTGTAAGTTTGCATTCATCTAAAGACATAAGTGATTAACTTCTTTTAATCTGTAGC
TGAGGTCTGAGTCTTGAAGACATTCCTCTGGAGCCTCAGTAAATTTACTTACTCTAAATGGGTCCAGGTGCTGGGGTGATTACCCTTATCTTGTCTCCTA
TTAAATCACAGAGGTTTAAGGAGTTCCTTCAGACCCCCAATAAACTTGTTTGTGGAGGCCTGGGGTTTCTTCAGACCCCCAATAAAACTTATTTAATTCT
GAACGGGTCCTGTTAAGAATTCCTTTGTTATTTTGCTTTTAGGCCTGGGAAAGGCCTGGGCAGAACTCTTGGTAGGCTTTGGCTACATTTCAGCCTTTGT
GTAAGGGCACTGGCTCTTCCAGTTTTTTTTTTTTTTAGACAGTCTTGCTCTGTTGCCCAGGCTGAAGTGCAATGGCACAATCTCAGCTCACTGCAACCTC
CGCCTCCTGGGTTCAAGTGATTCTCCCTGCCACAGCCTCCCAAGTAGCTGGGATTATAGGTGCCCACCACCATGCCTAGCTAATTTTTTGTATCTTTAGT
AGAGACGGGGTTTTGCCACTCCTGACCGACCTCAGGCGATCTGCCTACCTCGGCCTCCTGAAGTGTTGGGATTACAGGCGTGAGCCACTGCACCCGGCCA
CTCTTTCAGCTTTTAATATTTAACTTCACCACTCAGTCGTGCTGAAACAGTTGTTATTTAGGCCTGCATTAGTGAGACCTGGCCTGCCACACTCCCAGTT
AATATTCCTTCTTGGCTTGGTGCAGTGGCCCATGCCTGTAATCCCGGGACTTTGGGAACCCAAGGTGGGTGGATTGCTGAGTTCAAGAGTTCGAGACCTG
CCTGAGCAACATGTTGAAGCCCTGTCTCTACAAAAACTACAAAAATTAGCGGGGTTTGGTGGTGCACCCCTGTAGTCCTAGCTACTTGGGAGATTGAGGT
GGGAGAATCACTTGAGCCCAGGGAGGTTGAGGCTGCAATGAGCCATGATCACGCCGCTGCACTCCAGCATGGGTGACAGAGCAAGACCCTGTCTCAAAAA
AAAAAATTTCTTTTTGTATTTGAAGCCCAGTACTCTGAAACTACTGTGAGAACAGCAGTCTCATAGGTCCTGCCAAAGGATAAATGGGTGGTAAAATATG
ACTGTGGTCATGACTTTTTCCCCCATTTTTCTTTTTATGACTTTATTGAGGCATATTATCATGTTAGTTCCCATTTAAGGTGTACAATATAGTGATTTTT
TATTTCTTTTTTATTAACTTGTCACTGACTTGATGCTCAATTACAGTGATTTTTTTTTAAAGTAAATTTACCAAATTTTGCAGCTGTCACCATAAATCAG
CTTAAAAACATTTCCATTAACAGTCCATTAACTGTTAATCTCCATTCTGTCCACCCCAGGAAACCAGGAATCTATTTTTTATCTCCACAAGTTTGCCTTT
TCTGAACATTCCATATAAATGGAATTATGTAATATATAGTCTTGTGTCTGACTTTTTTTACTTGCYTTGTATTTTTGAAGCCCGTGCATGTTGTAGCATG
TATCAGTACTTCATTCGTTTTGATTACCGATTAGTTTTTTCACTGTATATATCTTTTTGCATTTGTTCTTTGGGTTTTGGTGATTGTTCACTTTAGCCCA
TACAAAAGTTTGGGTCTTTTTTCCTCAACAAAAGTTTGGACTCTGTTATCTGTAAGAGATATGSTAATACACATTGATTTTGTTCATTTGCATTTCAAAG
TAGGAAATCTGGTGCATAAGTATTTAGAAAACCTAGGATTTTCAAAGATCCTTGAACAGGATTTTAACTGTTTGTTTCTTTTTCAGAGAGGCTGTGATAG
CTATATGGTTTATTTGTTTGATAAAAGTAAAACTGTATATGAAGGGCCATTTGCTTCCAGAAGTTTATCTGATTGTGTAAATTATATTGGTAAGTCCAGT
CCATTTAGTGGCTGAGCTTTAAACATGAATTAATATAACTTTGACTCTCAGTATGATTAGTAGAAATGGACTTTTGGTGTTGTGTTCTGTATCTCATACT
TGAAGTTTCTATATGGAGTTATATGAGAACTCTGAAAAATGGATTTATATARTTTGGAAGGTGAAAAGGTAGATATTAAATCTCCATGAGATCATTCAAG
AGAAGATTTACTTTCTTGAGGATAGGGCTCTCACAGGAGAATGAAACTTCACTATTAGTTGAACCTGCTTTTTAATTGTCTCTTCATAGTCTAAGCATGT
TCAAGTATTTATTTCATTTTTCCTGTGAATACTGCTTGATGTTCAAATGTTTTAATTTATCCTGTGAAAATTATTCTTTTCTTTTGAACAAGTTAAGTGT
TTGATCACTGTATATCTGTCCAAATAAAGTAAAGCACAAAATTGTAAAATCAAGAACAAAATTGAGCAGAGGGGCTAAAATGTATGTAATCTTACTTTTT
TAAAAGTCTTTTTATTAGTTTTCTTTTGAATTTTTCTTTTAAATTGAGGCAGTTTACATAGAGTGAAATTCACAGATCATATAGTTTGATAACTTTTGAC
AAATTTAGATACTTGTGTAATCCACACCACAGTCATCATGTAGAACATTTCTTTCACCTTAGAAAGTTCCCTCATGTCTCTTTTCAGTCAACTCCCCTTG
CCCCAGACTTTATTACTATTTTACTAATGGACTTTTTTTTTTTAAGAATGGTTTTAGATTTGCCAAAAAATTGGGCAGATAGTACAGAGTTCTCATATAA
CTCCCCTCACTCACGCATGTAGTTTTTCCTATTGTTAACATTTTACCTGGGAGGCGGAGGTTGCAGTGAGCCAATGTCACACCACTGCACTTCAGCCTGG
GCAACAGAGTGAGACCTTTCTCAAAAAAATAAATAAAAAACATAAAATATTTAAAAATATTAAAAAGTAAAAAAAAATCTATTTTACATTAGTATGATGT
ATTTGTTACATTTAATGAACCCATTTATTATTAATTGAAGCCCATACTTTATTCACATTTCCTTCATTTTTACCTAATATCCTTTTTCTGTTCTAAGATC
TCATCTTAGAACACATTACATTTGGTTGTCATGTCTCTTTAGCTCCTCTTTGCTGTGACATTTTGTCAGACTTCAAATAGTCCTTGTTTTTGATGACCTT
GACAATGACCTGAGGAATACTAGTCAAGTATTTTGTAAGATGTCCCTCTGCTGAAATTTGTCTTTTTGTTTTTGTTTTTGTTTTGTTTTTGAGATGGAGT
TTCACTCTTGTCGCCCAGGCTGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCCCCACCTCCCGGGTACAAGCGATTCTCCTGTCTCAGTCTCCCGA
GTAGCTGGGATTATAGGYGCACACCACCACGCCCAGCTAATTTTTGCATTTTTAGTAGAGACAGGGTTTCACCGTGTTGGCCAGGCTGCTCTTGAACTCC
TGACCTCAAGGGATCTGCCCGCCTTGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATCACACCTGGCTCTTGTGTGTATTCTTAAACCTGGATTG
TTGGTCCAGAATATGAAATTTATTATTCAGAGGTAGGAAAGACTCAGAGGAGATGGGACTTGATTTAGAACTTGAAAGAAATAATTTGGATTAGCAGAGA
GAAAAAGAGTATTCCAGGTTGCAGAAAAGCAAGCAAAAAAGACAGATACAGGAATAATCTCAAGCTCTGTGAGTGTAGCGATTGTGTCATTTTTATTTCC
CCCCTTGTATGTGGAGCGGGGCTTAAGTATTGCAGGTGCTCTGTAAATGTATATTGAACTGAATTAAATGGAAACAAGTGGTTCTTTTAGCATCAGTTTC
TAGCATCTATGGGAATCCTGTTTGTGTGGACAGGAAATCACAAAGAATGATAAATCAACTCTAAAATCCTCAAAAGTAACTAACCTCCCTTGCCCTTTTT
CTCATCTTCTTGTATATAGTACAGGACAGCAAAATACAGCTTCCAATTATACAGCTGCGTAAAGTGTGGGCTGAAGCAGTGCACTATGTGTCTGGACTAA
AAGAAGACTATAGCAGGCTCTTTCAGGGRCAAAGGGCAGCAATGTAAGTGGATTCTGTTGTTTATAAGCACAATGCAATGTGCATCATATACTCAAGAAT
TAATCTTGCCGGTTTTCACTAATCAATATTGCATGTAATAGTAACATACTGGGCCAATTTGAAGTGTAATGTTCTGATAAACTTGTAGAATTCTTACTAA
TGGACTGAGACCATTCTATTGTAATGGCTTGAGGGTAATAATTCCCATACGGTCCTAGTATAAAAAGATTGTTTATCACAAAATATTATAGGCAGGAAGT
CTTTAGAGATCAGATTCTAGAGCTCAGTTATTTCTCATAGATTGATAATAGAAACTTAGGCTTTGGCCTTGTGGCAGTTTATGTTTTTACATTATTGTTC
AATGTTTCTGAATGCTGATAATATCTTTTTTCTTTTTCTTTTTTTTCTTGCTGTGGTTTAGGTTAAGTCTTCTTAGATATAATGCTAACTTAACAAAAAT
GAAGAACACTTTGATCTCAGCATCACAACAACTGAAAGCTAAATTGGAGTTTTTTCACAAAAGYATTCAGCTTGACTTGGAGAGATACAGCGAGCAGATG
ACGTATGGRATATGTAAGTGTCTGTGTAATGTATTTGAAAGGAGCATCTGGTTTCTTGAAGCCATCTGTTATTTTGCCTTCTTAACTCAGCCAGTTGTTT
TACTTACCTTCACATTAGAACAAGAGACAGGACAACTTAAATTAACATAAACCATGTTTGTTTTGAATGTTACCTCTTTTTTTAAATTTGCTTAGTTGAG
CAATTTAGCTTCACAATTGGGCTAAAATTATTTAGCTCTAAAAAAATACAGGTGCGATTTAATAATCTTGAATTTCAAACCTGATTTTAAAATAAATACA
AAATCTGGACTTCTTAGCCAGTGCTGTGGACTGAATGTATCCCCCCCAAAATACATATGTTGAAATTCTGACCCTGAAGGTGAAGGTGTTGGTAGGTGGA
GCCTTTGGGAAGTGATTAGGTCATGAGAGTAGAGCCTTCCTGTTTGGGATTAATGCTCTTACAAAAGAGACCTGAATGAGATCCCTCATCCCTTCTGCAT
GTGAGGACAGAGCAAGAAGATGGTCATCTAGGAACCAGAAAGCAGGCCCTCAAATCTRCCTTGTTCTTGGACTTCCCAGCCTCCAGAACTATAAGAAATA
AATTTCTGTTGTTTTTATGGCACTTAGTCTATGGTATTTTGTTATAGTAGTCCAAATGGACTAAGACAACCAGGGGAGTCTTAAACTGCTTACTTTTCTG
TAAATAATGACACAAATATTCTAAGGCTATGTTTTTTTCAAACCATCTACTGTGGAGTCCTACTATTTTTTAGTGTACACAGTCTCCAAATTTTCCATAT
TTGACTCCAAGCTTATCTCCTTCAGATGTACTAAGGAAGTGTAAAAAAACAGAGTTAAAATATGAGTAAATTGAAGGAGTCATACTACCAGCATTTCTGT
TTTCTTTTATAAAACAAATCCTTTTTAGGAAACAAATACTTGTTTCCTAAAAACATATACTTGTCCTGAGCAAACTMTGTGTATCTCAGAGTAAACAATC
AATAGTGTCCAGTTGGGTGAATGAATTTACTCTCCAGAACTGGTTTTATTAATATTATTGATATTTTATTTCTATTTATATATTATTGATATTTTATTTC
TATTTGTATATTATTGACATTCTGGTGAGTGATAAAACATTATAATTATTTCATTAAAATATCTTAGACTTGTCAAAGGCTTATTATACAATTGTTAAAG
AAAAATGAGGTAGATCTATATGTGCTTTTATTAAAAGATCACCTAAGTCTTTAGTTGACAGTTTTAAATTGTGGGAAAAAATAAAGAGTATACAGATGTT
TTCACTTGTGAGGGAGCAGGCTATGTGTCTATGTAACAGATAATCATAGTAAGGTCCCTTGAGGTGGATGGTAGAGGGGTAGAAGAGAGAGTCTTTTCTG
TTTATATCCTTTTATAGTATTTAATTTTTAAAAATCATATTCAAGTATTAAATTTCTTTTCTGGCCAGGTGGTGACTCACGCCTGTAATCCCAACACTTT
GGGAGGCCAAAGCAGGTGGATCCCTTGAGCTCAGGAATTCAAGACTAACCTGGGCAACATGGGGTAGAACGCCATCTCTACAAAAAATGTAAAAATTAGC
CGGGCATGGTGGTGCACACCTCAGCTATTCAGGAGGCTAAGGTGGGAGGATCGCTTGAGCCCTGGAGATAGAGGTTGCGGTGAGCTGAGATCATGCCACT
GCACTCCAGCCTGGGTGACAGAGTGAGACTCTACCTCAAAAAAAAAWTTTTTTTGTTGTTTTTTCCTTTATCCACCCATCTGCACACTGGTATAAATATA
TATATTTTTAAGAAAAAAGTCATCTGTATTCATTTCCTAAGGGTTCCATAACAAAATCCCATAAACTGAGTGGCTTAAGCAATGGAAACTTACTGTCTCA
CAGCCCTGGAGGCTAAAAGTCCAAAATTGAGGTGTTGGCAGGGCCATGTTTTCTCTGAAATCTGTAGAGAAGAATCTTTCCTTGTTTCTCTCTAGCTTCT
TATGGTCTGCTAGCCATCATTGGCATTCCTTGGCTTACAGCTGCAGCACCTCAATCTGTCTCCATTGTCACAGAGCATTCTCCCCTGTGTATCTGTATCC
TGTGTCTCTTCTAAGTACACTGGTCGTACTGGACTAAGGGCCCAGACCATTCCAGTATGAGTATTAATTTATCTGATTACTTCTGTAATGACCTTATTTC
CAAATAGGTCACATTCTGAGGTATTAGGGGTTAGGAATTCCACATATCTTTTGGGGGACCACAATTCAACTCATAACACATCTTTGATGTTGATATGGCA
AGGAGGCAGGCAGCCAGTAATTAAAGATATGGCTATTTCTGAGATAACCAATTTAGACTTTTCTTTTAGCTTCAGAAAAAATGCTAAAAGCATGGAAAGA
AATGGAAGAAAAGGCCATCCACTATGCTGAGGTAAAATCATTGACGTCATTCTGTATACTTATTAATTCTTGATGTCTCCATTAGAAACTATCTTTGGTT
TTGATATATAAAGAGCATTTTTCATGTCATTCCTGAAATTCAGACAAAATTCTAGTAGATGCTTTGTATATAAAGAGGGATGTATCATAGTGATTAAAAA
CAAGGGCTTTGGGAAAATTACCTAGTGCCTCACTGAGCTTCAGTTTCCTTTATTTATTTATTTTTTGAAACAGGGTCTCACTCTGTTGCCCAGGTTGGAG
TGTAGTGGCATGATCAAAGCTCACTGCAGCCTCGACTTCCCAGGCTCAAGCAGTCCTCCCATCTTAGCCTCCTGTGTAGCTGGGACAAGAGGTGCACCAC
CATGCCTGGCTAACTTTTACATTTTTTGTAGAGAMGGGGTCTCACTATGTTGTCCAGGCTTGTATCAAACTCCTGGGCTTAAGCAATCCTCCCACCTCAG
CCTCCCATAGAGCTGGGATTATAGGCATGAGCCACCACATCCAGCTAGTTTCCATATTATAGGGACAATTTCTTTTCTAGTAGGGTTATGAAGATTAAAT
GGGAGTCAGTAATGGTAGTTGTCACTATTATTTTTGTGACTGGTTTAGATAGGATGGCTGCACATCCTGGTTTACCTGGGACTGTCCCAGTTTATACTTA
ATGTCTTGCCATAATTATCAGTAGTAGTCCCTTTCACTCTCAAAATTATGCCGGTTTGGACAATAAATTATATGGTGTCCCTAGGTATAGCTCATTCTCT
AGGTGGCAGATTTTTTCCCCTTATCCTGTACATTTGTCCACGGTCCTAAGTTATTACACTCCTTAATGTCAGTACTTACCCTGAGGATGTGGGTGGGGAT
ACCCATGGTRTCCTGGGGTGGGAAATCCAAGTTCTTTATCTTTTTGTGTCCCTATTCAAGGTAGTGGGGACCAGGGGGCAGTCAAAATCATAGAGCCAAG
ATACAAGTAATACCAATGGTTTTGGTGGTCCTTTTTCTTTCTTGTTAGTTGATACCTGTTGTAGCTTTTTGCTTCTCCGGAGGTAAAAGCAAATACTAGT
AGTTTACTGTTGTCAGGAGAGAAAAGAGAGAAGACTAAGACTAAGTATGTTCTTATGTGAAAGATTAAGTGTCAGAATCTGAAGAATAGAAAGGCTTTAA
CAAAATCAGTGTTTCGTATTATATTATTTAGTTCTCTAATGAAGCAGCAAGTCATTCTGTATCCTTAAGATCTGAATTTTGTTTCCTATGATGTAGTGGT
AAGCCTTTCATTTCCTTTGTATTTTCATCATATTTTAGGTTGGTGTCATTGGATACCTGGAGGATCAGATTATGTCTTTGCATGCTGAAATCATGGAGCT
ACAGAAGAGCCCCTATGGAAGACGTCAGGGAGACTTGATGGAATCTCTGTAAGGATGCACTTGTGTTGTTGGTCTTGACATCTGTAATATTTTGTATTCT
TTCTGCTTACATCTGGCAAATTAAACCTCTAGTGGTTCTTTTCTATAGTTTTCCTTTCCCCAAATATATTGGCATTATATTTAAAATGGAAGCTTTTTCT
CAGTCACAGGAAACTTCGGAAATAATTCTTTGGGTTGGCCTTTTTTGGTTTTTAATAAAAGCATTTATTTCATAGGAGTGTTAAGAATTTTCCAAGTATA
ACTAAGTTACAAACTATTTCCCTACTCATTATAYCTCTGGTCCAAGGTATTGACTCTTAAATGCCCTAAAACTTGAAATTTTTTCTGAATTAAAGTTCTG
GATTAAAAACTTCAGATATTTTCTCGAATTATAGGTCATAATTTTTGTCTTTTTAAGTGTCTGTGGTGCAGAGATGTCCCCATGATAGATCAGAATAGAT
ATGAACTATATTAAACTTTGCATTTTAAGAACTTGTATAGTTCTTATTACTCAATACAATGCTCTGTGAAATACTTGTTGGCAATATGAACTTGCTTTAA
AATGGGTTCATTATTCAAATAAAATATTGTTTCAAGTTGTAGATTAYTGAAGTCATTAAATTACCTTCACTTATCAGAGCGTGTTTTCTCTTTTATAGGG
AACAGCGTGCCATTGATCTATATAAGCAGTTAAAACACAGACCTTCAGGTAAGACACTTCTACCACAGTGCTTGAAGGCATTTTAGGTAACTATCACTAG
CCTAACAAATGTGGGGGATCTAATATTTTTAAGTTAAAAATTTTCTTAAAGCTGCAGAATAAATTCCAGTTTTGGTATTGCCATTGAGACATGGTATAAT
AAGCTTTAAGATTGTGAGAATTTAGGAGATGATAAAGAGAAAGTAACAGAGAACGTGAGGTAGAAAAATTTTAGAAGGGGACGTGAAAAGAAAGAATGGA
AGACAGAAAAAAGGAACTCAGAGAGGAAAAAGCAGCAAGAAAATGTTTAGAAAGATGGAAAAAATAAGTGTTGCTTAAGATTAGAGAGGTTGGGCCAGTT
GTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAAACCAGCTTGGCCAACATGGTGAAAC
CCCATCTCTACTAAAAATAGAAAAGTTAGCTGGGCATGTTGGCATGTGCCTGTAATCCCAGCTACTTGGGAGGATGAGGCAGGAGAATCGCTTGAACCTG
GGAAGAGGAGGTTGCAGTGAGCCAAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCGAGATTCTGTCTCAAAACAAAACAAAAAAATATTATAGA
GGTTGGAAAGAATTTGAGGCAGTGGGTTCAGGTATGGAATGGTTAGAGGGAAGGCCTGTGCTGTTCTAGGCCAAAGCAGATTGCTTTGAAAATAATGCCT
TCATCTGCACTGGTCACTGATGACTTGTTTTGTTGGCAAAATAATTCCAGTTGAACATCTGCTAAATACTGAGCAAGGTCTGCTGGAAAGAGTACTGGAT
GGGGAATCAGAGGCTTGAATTCTAGATTGAGTAATTTACTGACCGTTACCTCAGGCAAATCTGCGTTTCCCATTTCCTYCTTCTGCAAAATGGGGTTGAA
ACCTARCTTTCCTACTCAGTGAGTATATTGTGACAGTGTATTTAAGAGGATGTTTGTGAAAATGCTTTGAAAACTATAAACTATTATGTACTTGCAAGAT
ATTATCATTTAGTTAAAAATTTGTTTTGAAGGGTAACAGAAGAAATAAAGTCTGTGCCCTAATGTGCATTATACTTAAATGCATGTTAAAAAAAGATATA
CTTTTACACTTTAAAATTTGTAGACACATAGCAACACATGCAAATTAATAYACATGTGAAATTGTATTTCATATACTATTTTCACATTTAAAAAATAACA
TTATCTCCTCTTATACTGCTTTTATTTTACTGAAATGTATTCAGTTTAGTCTGACCAGCAGTTCTCAAAATGTGGCATATGGACCTGTGAGAATCCTTGA
AACTTTGTCAGAGAGTCTGTGAGGTTAGAACCATTTTCATAATAAGATGTTATTTGCATTTTTCACCATGTTGACATTTTCATTGATGGTGCAACATAAA
ATGGCTTTCACCTTAGTATGAATCAAGGCACTAGCGCCAAACTRTGCTAGTAGCCGTTATATTTTTTACCACCATGCAGTCACAGTTTTTAAAAAATGAC
AGTTTCACTTACAAATGTCCTTGATAAAGCAGTAAAAATATTATTTTATTTAAATCTCAACGCTTGAGTATGGGTTTTTAATATTTTGTGTGATGAAATG
GGAAGTACTCATAAAGTGTTTCTTCTATACAGTGAAGTATGATGGTTGTCTTAAGGAAAACCACTTCAGTAATTGTTTACGTTGCTAGTTGTCTGGCCTC
TTTCAGGGAAGATACCATTTTTACTTGGAAGAGCAACTGTCAGGCAAACTATGATTATTCAGATTTGCATACGTGAGATAATTTCTAAGAAATTAAATGA
AAATAAAAAGTATAGCACACTTATTACTTTAAGGGAAAAAAGCAGTATTTGTTGTCAATGATAAAATTCCATGTTTCAAGCAAAAAGAATTTTAGAAAAC
TTGTATTTACCAGCTGGAATGACAGCTTCTCAGTACTTAAAAACTTTTCTGATGAGATTAGTGGTGATATCAGAAAGGTTTGCAAAAATGTAAAACAGTG
CAAGTGTTCTCACTCAAATTTTTTTGTTTTAGAAAATATCGTTTTTTGGTTTTTGTTTTTAGAGGTGGGCTCTTGCTATGTTGACCAGGCTGGCCTTGGA
CTCCCTGGGTTCAAGTGATCCTTCCACTTCAGGCTTCCAAGTATCTCAAGTAGCAGTAACCAGTGAAAGGAGGTGGCTCTCGTAGATATGAGTATACTGT
GTAGACACATGTATGTATAGCACTTAGCATGTCTGAGGAAATGCAGTATGACTGGAGTGTAGAGTTTCAGGAGAGAGAAAACCTAAATATAGGAGAGAGA
GAAAACSTAAATATAGGTTTTTTTGTTTGTTTTTAATAAAAACATGTTAATGGGCAATAGGTTTGTTATTTTTAAATGAATTAAGACACGAGTATTTTTA
AATTTCTGTTTAATTCCTGAAAAACCCTTTGGGGTTCTCAAGAATTTTCTAGTGTAAAGGKGTCCTGAGACCAAAAAGTTTGAGAACTGCTTATCTAGAC
TATTCTCAGAAGCTTGGCTGCTCAGGAAAGAAGAGAGGTGGGTGAGTAGCTAAAAGTTGATGTAGAGTCAAGGGAGGTCACTTCTCAGAAGGAAGACTTA
AACATGAGGTGCCACATGATGATGTTTTGGTTAACAACAAATTGTGTATACTATGGTAGTCCCATAAGATTATACTACTRTATTTTTACTATGTATTTTC
TATGTTTACATGCACAAATACTTACCATTGTGTTACAGTTGCCTACAGTATTCAGTACAGTCACTTGCTGAACAGGTATGTAGCCTATTGTCAAAAGGCT
ATACCATACAGCTTAAGTGTATAGCAGGCTGTACCATCAGGGTTTGTATAAGTATTCACACAGTGACGAAAGTGCCCAATGATGCACTTCTCAGAACATA
TGCTCAGGGCCAAAAAAGCCTGTGGAGAGGGAGGTCCCTGAACAAGTTGAGAGATTGGCTCCAAAGAACAGTAGGAGGGATTAGCCTTGATACTATTGAT
ATTGGAAAGAGAATGAGTGTGGATACAGATACTTTTTTGGGAGTAGAGGTTGGAAGATCAGGGTCTTACTGCCTTATGGCCTCTTATCCTGCAGTGGTAA
GTGAGGTTAACTGAAATGGAAGAGGTGACGACCTCATAGATTTGAATAGAGTGCTAAAGACTTCTAAAAGCCACTGTGTGCAGTGGAAGATGTTGTTGAC
CCAAAACATTCATTAAGAATCCAGGCCAGGTGGCTCATACCTGTGATACTAGCGCTTTGGGAGGCTGAGACAGGAGGATCGTTTGAGGCCAACAGTTTGA
GACCAGTCTGGGCAACATAGTGAGACCCTGTCTCTACAAAAAAATAAATCAATAAAATTTTTAAAAAGCTGGGTGTGGTAGTGTATGCCTGTAGTCCCAG
CTACTCAGGAGGCTGAAGTAGCAGGATCGCTTGAGGCCCAGGAGGTCGAGGCTGCAGTGAGCCAAGATTACACTACTGCACTTCAGCCTGGGTTGACAGA
GCAAGACTTTCTTAAAAAAAAAAAAAAAAAAAACCCAGAGCAGAAATGAAAAACCTGTGAATTAGCAGTGACAAATAGTGAACAGTAATATTAATTTTTT
GTTGATAATTTAGTAGCTTGGATACAGGAACTGATAGAGCAGATGGTTGGATTAATCCAAGGTTAGGATTTTGCTGATGGAATAAGAGGATAAAAAGGTT
GAAGATGTTAACAAATAGTGATTTAAGTGATAGAAGTTGTAGCTAGAGTAAAATATTAAAATCTAAGATTTCAAATRGAGCAAGTCCAATTCTTTTTCTT
TAATCAATATTTCTGGGCCAGGCGTCGTGGCACATGCCTGTAATCCCAGCCACTTTGGAGGCTGAGGCAGGAGAATTGCTTGAACCAGGGAGGCAGAGGT
TGCAGTGAACCAAGACTGTGCCACTGCACTCTAGCCTGGGTGACAGAGCTAGACTCCATTTCAAAAAAAAAATTCTGACTCCCAGTTTTCTGGCTAATGA
ATCAGATACCACAGATACACAGTGATAGCATTTGTTTAGGTTATATTTTTTAAAACTTTGAGGYAGCCCTGTCAACATACCATGAAGCTCAGAAATAAAC
TGCTACCCAGGTAGCTTCTTTGAGTGTCACCTTGAGTGACAAACTGTAACAAGATTGTGTCTGTCATTGGGGCCTATTATATAATCACACTTGATTTGTG
GCCTCTATTGTCTTTTCTAGCTTAGAGTTGACTTGAATCTCTTGTTCATCTGAAATGGTTAAAACCAGCTTTCTTCATTATCCTGGAGAAGGCTAAAGTT
CTGAGGGCTTTCACTGTCTTAAGGAGCTAGTTATATGAGAAAGCTCTTGGCTTGGTCCATGGTATTTAGGAAGGAATGCTGTTTGGAGAAGAACCTTTTT
GGAGCCTTGCATTTGATTGTTGGTGAGGAGGAGACAACAGAGATGTGTGGGGAATAAAGTTGGGCTATGGGGGAAGTATTTGGAGTGATAGATAACAAAG
GACACAACGTTTTTTAAACCTCCTTTGATGCTCATCATTTCCTTTTTGGTAAAATGGGGGTAACAAAAGTAGTCTTCTCACATGACTGCTGTGAGGATTA
AATGGGAAAATTATAAGCAGAGAGTAGCAAATATTATTATTATTGCATTTAGGCTTAATTATTGTCCAAAGAAWATACCAGCATGATGCATAAGCAACTT
TCAACTCCTTTAGCCATTTTCTGAAATATAACAATTAATGATTTTTTTTTAAAATCGAGGTCACATTTTAAACTGTAGAACCCATTGTGACCAACAGCCA
TCCCATTTGAGGGTATCTGGCTGCTGCCAGTTGGCTTTAAGATGTCATACTGCCCTCAAATGGAACTTTCAGGATGTCTACAGGTCCCTTTACTAGTTGG
TTTCAATGAGCTTTTTTCAAAGTTTTTCTGGGTTGTAAACAGACGGATAAACATGAAATTCCAAGCAACCTAGTTCAAGGGCCTCCTTCCTTTAGGTAAT
GAAAGTTTGATGAATTGTCCTACTGTTTCTAAATATGTGGTTARTCATCCAAGAAAAATTGTTCCCTTGGCCAGAGGCTGCATTTGTGTCTAGGGCTTGG
GTTAGTATGGGTTAAAGATAGCCAAGACTATTGTTCTCAAGCACAGGCAACTAAGGTCTCTTACTGATAAATTTATATATACATTATACACCTGCAAACT
TTATTTTTTATATATAACTAGATTTTATTTATAGGTAATCTTTATATCTTTTATCTTAACCCAATTTTTAATTTAAATGGAGATGTTTATTAATTAAAAT
TAGTTTCAGAGTTTCAGGGATTTTTGAGRAATTTTTTGTTYGGAGGCTGATATGTTACAGAAGAAAGGTTATATCCACTGACTGATGTCTTTTATAGATC
ACTCCTACAGTGACAGCACAGAGATGGTGAAAATCATTGTGCACACTGTGCAGAGTCAGGACCGTGTGCTCAAGGAGCTGTTTGGTCATTTGAGGTAGGA
AAATTGCTTCATTTCCTACTGAAAAACCAGGATACGTTTATCTTGTTCCTCTCAAAGTACAAAAGCCCTCTTTGGTAAAGTATACTTACCCAGGAAGAAT
TCTGAAGGTACCTTGGGTAGCTTGGCCATAGCTATCTGCATTTATGTGTCCTTTTGTATGCATTACTTTGGAGATAAGTCATTAAATCTGATGCTGATTG
TGGTTCATTTCCTCMGCTGGGTTTTGGGAATATGGTGTACAGTCTTGGGGCATGTGAAAGTGTCTGACACTGATTTAATCTCTCCAGCAAGTTGTTGGGC
TGTAAGCAGAAGATTATTGATCTACTCCCTAAGGTGGAAGTGGCCCTCAGTAATATCAAAGAAGCTGACAATACTGTCATGTTCATGCAGGGAAAAAGGC
AGAAAGAAATATGGCATCTCCTTAAAATTGCCTGTGTAAGTAATTATTAATGAATTATTTAATGTGACATKGAGTTGCTATTATTCCTTGCAAAGGGGAT
TTTTATCAGCATGAGGTGGGCCCTCTTGAAGACATGTATATTTTGCATTGGGATGACATCCATGTTCCTTGCTTGGTGTCCAGACTAGCAATTGAGATGC
AGGACTTATTATCATCTCTCCTTTCCAATTTCTCTGTTGTTATACTCCTCTTAGCCCTTGACTACTGTGGTATTCCAACCTAACTTGGGGATAGATGTAC
CTGCCTAGATAATGAAATTGACCATCTATTCAACTGGGTTTTTTTTTTCTTTCTTCAACTAAAATGGTATAAGATGAGTGGATATATTTGGTTTTAGTCA
ATGAAGAAAGGGTCCAAGGACAGGTTACTAATGGTGTGTAAAGGTGGGAAYAGTTTTGTACTGAAATACTCTGGTTGTGCATATAAGTAGTAACRGAAAT
GTAAGTCTTAGGAATATGATAAGAAATTGTGTGAATCAACAGAGATGCTTGCCTGTAATCTTTTGATGTTTTTTTCTTTTCCTTCAGACACAGAGTTCTG
CCCGGTCCCTTGTAGGATCCAGTCTAGAAGGTGCAGTAACCCCTCAGACATCAGCATGGCTGCCCCCGACTTCAGCAGAACATGATCATTCTCTGTCATG
TGTGGTAACTCCTCAAGATGGGTGGGTTTACTTTGTAACAATAGATAGCTGTGTTTTCATAGCAGTGGTATAGGAATGAGGCAGTAGTTGTTAAGGTAGT
CTTCTGTGCCTTCAGACCAGGGTTGAGTCCTGACTATCCCTTTGTAATAATCTTAGGCAACTTACTTGACTTTTTTGATGTTCATATTTCCTCACCTGTA
AAACAGGAATGTCTCATAGAACTKCTGTGGAAATTTGATTAGACAATGTATATAAAGTGCTTGGGAAATAAATGTTCAGCAAATGTTGCGTATTATTAGC
TCAAATGTTGCTTATTATTAGCTAAGTCCAAGTTCTAAGTCCTTTCTTTTATTGGCTTATTACTTTCTTTTACTCAAACCTTACTCCTTCATTAACAGTT
TATGAGAAATTATGCTATCATTTTGCATTTATCATTTTGGGGATCCTTGATTACCCTTCTAATAAATTTTTGAGATCTATTTTATAACTTTGTATTTCTA
AGATTAGACTTTTTTCAGTGTTTTAAATCAGTTTTGCAAGAACTCAGATTCCAAGCCCTRTATTTTATTAATTCCTACTCTTTTGCTAAAAGCTGAATGA
CTATCCATTTCTGTTATTTTCTCAGCTTAAGATGTGCCGTATCCAAAGCCAGTGGCTCTTTGCTAGCTTGTGTATTGTCGCTTTTCTCACAACTCATGGA
GACCTCTACAGCACCAGCATTTCCTGGAAGCTCTGCCCATAATTAGTTTTGCAGAAGTGCAGCCATGTTACATCACTGCTCAGGAGGTCATGCAGTTGCA
CATTCTGTACTCTACTTTTATGAGAGAAAAGCACATGGCAGGAAGGCAAGCTGATATCAGGTATTTTATTTTTTTAAAGAAAGCAAGTTCCAGGGTATAT
ATCTTGGGGTCATTATACATGTGGCCCAATGCAGTACACCTACAACTGTAGCACAGGCTATAATTAAATATATAGACTTTACAAAATACTCCAGTAATCA
GAGTTGAAGGAAGTAAAATTTAATACTTTACTTACTTTTTTGCCTTTATTAAAGGCATTTAAGTTTTTTAGCGGATGTTAATGTTTACARATGTCACCAC
AATACAGGTAATTTCCAATTTGAAGTGTAGTTGCTTGCAAAAGTATATCTGACAGACATTTTCAATGTATTTTCTAGAAGGAACACATTATATTTTGTTT
TGAGACGGAGTCTCATTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAGTCTTGGCTCATTGCAACCTCCGCCTCCCAGATTCAAGCAGTTCTCCTGCTTC
AGCTTCCCGAGTAGCTGGGATTTCAGGTGCGTGCCACCATACCTGGCTAATTTTTGTATTTTAGTAAAGACGGAGTTTCACCATGTTGGCCAGGCTGGTC
TCGAACTCCTGACCTCAAGTAATCCACCTGCCTCGGCCTCCAAAAGTGCTGGAATTACAGGCATGAGCCACCATGTCCAGCCAGAATACATTGTATAAGA
AAATTGATTTCAATTATAATGTACCTGTGGTACTTAACTACCAAGGATTGGGAACCGTTTGACCATAATTTTTCCATCTGTTGGATAAGAGCTGAATCAG
AATGTCATTCTAAGCTAATAGTGGCTATCATCCATGACCTAAAACGGACTCTTGTTAGGGGACTGAAGATTGGCAAAGGGAGAAGCTAGAGGCCATATAG
AAGAGGAAAGCATGAAGGTAGAAACCACAATCAGGACTGCCTTCAAATATGAACTTCCAGGGATACTTCTTGGTTCTGGGTAGCTCCCCCACCACACTGT
TTTCTTTTGCTGTCCTCAGGAATCAGCTTGCTTGTTTCGTTTCATTGCTATCATCTGTAGTTTCTAATGAGTTTTTCACTTTCTGTGATCTCTACAGAAC
AGATTTTACTTTTCTCTCTTCTCCCCTACATTTGTGTCTGTGAAGTATGCATGCTGGTGTTTTTACTACTTTTAAGGAAAGAGAAGTATTTAGAAACAAA
AACGTATTTCATCTGTCTTTGCCACAAGGATTTTTTCCTCCCTAGTTACATTTTCACGGGAAAAACAAGTTGTACATAAGTGCATCTTACATTTCAGAGG
AAAGTCAGACTGGAGTTATAGTGGACTTCTTATCATTAGTTAGGTAGAGGTAGAGGCAGCAGCCTGGTCTTAACAGGACTCTGCCTCTGTAGGGAGGGAT
GAGGAAACTAAAGACTACAGGAGTCAACTGCACTGGGGTACTGGGTTACAGGAAGGCTAGTGATCTTGCTAACCTAGAAGACTAGAAAGTAGAGGAAATT
CATATGCCCTTTTCCTGAGTTTGAAAAGGCTTTGTTCTTTCATCTCACAGGGAGACTTCAGCACAAATGATAGAAGAAAATTTGAACTGCCTTGGCCATT
TAAGCACTATTATTCATGAGGCAAATGAGGAACAGGGCAATAGTATGATGGTAAGTTTTGTGTGGATATGGGTGCCTGCTTTGGCTATGTTGGGTGCAAA
AGGTTTAACTTTCCATGCTAGCCTTATCTGGCATTTGGGATGCATATGGGAAATAGAAGAACTCAAGAGGAAAGAGCATTTGGGGAATATCCTCAACCTT
AAATCCTTATCTGCCGTTACTCAGGGATATACTAGGATTATGTCATCAATTATCTTCAATAATAGCATTTTTGGTCAAATTAAATGAGTGGTAAGCTTCT
TCACAATGTGACCATTGAAATTGAATGGTTTGTTCTGTACCTTTTTGCTTCAGCAATCAATTTTCTCCATTAAGATGGGACTTGTACTTTAATTCAGATA
TGGTACCTCCCGAATAGAAAATAAATTATGTTAATATAGTTGTAATAATAAGTGTGTGTTAAGATTTGGTTACTATAAACTACTGATTTGTTAAAACTTG
AGGAAATTACCATAAAATGTCTACTGAATCAATTTTTCCTGCATTTAGTCTTAATGTCAATTCTGTAYATTTCCTCTTTCATTAAGAAAAATAGCAGTGG
CCAGGCATGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGTGGATTGCTTGAGCCCAGGAGTTTGAGACTAGCCTGGCCAACATGG
GAAACCCTGTCTTTATAAAAAATATAAAAATTGGCCAGGTGTGGTGGCACACACCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAGGAAGATCGCTTGA
GTTCAAGAGTTTCAGGCTGCAGTGAGCCGTAATCCTGCCATTGCACTCCAGCCTGTGACAGAGTGAGACTTTGTCTCGGGGAAAAAAAAAAAAAAAAAGG
ATAATGGTGGCCAGCCATATGACATGTACCTGTAGTCCGAGTTACTAGGGAGGCTGAGGCAGAAGGATTGCATGAGCCCAGGAGTTCAAGGCTGCAGTGC
ATTATGATTGGACTTGTGAATAGCCACTGTACTCCAGCTTGGCAACATAGCAAGATCCTGCTCTCTTAAGAAAAAAAAAAAAAAAGAAAAGAAAAGGAAA
GAATAATTGTTTACTTCAAATATTTATGAAAAAAACTCTGAAATTTTTTTAAATCAGGAAATAAGGTAAATGAAATGATTTTTCAACTTTTGATTATGAA
ATGTCCAAACAGAAAACTTGCAAAAATGAACACCCATATACTTATAACTTATAGTCAACATCTAATTGTAACTTTTTCATGCCTGGTTTTAGAATCTTGA
TTGGAGTTGGTTAACAGAATGAGTTGTCACTTGTTCACTGTCCCCAAACCTATGGAAGTTGTTGCTATACATGTTGGAAATGTGTTTTTCCCCCATGAAA
CCATTCTTCAGACATCAGTCAATGGAAGAAATGGCTATGAACAGAAACTACATTTCTACTATGATCAGAAGAACATGATTTTACAAGTATAACAGTTTTG
AGTAATTCAAGCCTCTAAACAGACAGGAATTTAGAAAAAGTCAATGTACTTGTTTGAATATTTGTTTTAATACCACAGCTATTTAGAAGCATCATCACGA
CACATTTGCCTTCAGTCTTGGTAAAACATTACTTATTTAACTGATTAAAAATACCTTCTATGTATTAGTGTCAACTTTTAACTTTTGGGCGTAAGACCAA
ATGTAGTTTTGTATACAGAGAAGAAAACCTCAAGTAATAGGCATTTTAAGTAAAAGTCTACCTGTGTTTTTTTCTAAAAAGGCTGCTCACAAGTTCTATT
TCTTGAAGAATAAATTCTACCTCCTTGTGTTGCACTGAACAGGTTCTCTTCCTGGCATCATAAGGAGTTGGTGTAATCATTTTAAATTCCACTGAAAATT
TAACAGTATCCCCTTCTCATCGAAGGGATTGTGTATCTGTGCTTCTAATMTTAGTTGGCTTTCATAAATCATGTTGKTGTGTGTATATGTATTTAAGATG
TACATTTAATAATATCAAAGAGAAGATGCCTGTTAATTTATAATGTATTTGAAAATTACATGTTTTTTCATTTGTAAAAATGAGTCATTTGTTTAAACAA
TCTTTCATGTCTTGTCATACAAATTTATAAAGGTCTGCACTCCTTTATCTGTAATTGTAATTCCAAAATCCAAAAAGCTCTGAAAACAAGGTTTCCATAA
GCTTGGTGACAAAATTCATTTGCTTGCAATCTAATCTGAACTGACCTTGAATCTTTTTATCCCATTTAGTGTGAATATTCCTTTATTTTGCTGCTTGATG
ATGAGAGGGAGGGCTGCTGCCACAKACTGTGGTGAGGGCTGGTTAATGTAGTATGGTATATGCACAAAACTACTTTTCTAAAATCTAAAATTTCATAATT
CTGAAACAACTTGCCCCAAGGGTTTCAGAGAAAGGACTGTGGACCTCTATCATCTGCTAAGTAATTTAGAAGATATTATTTGTCTTAAAAAATGTGAAAT
GCTTTTATATTCTAATAGTTTTTCACTTTGTGTATTAAATGGTTTTTAAATTACTTTCTTGATCTCTATTCATTATAAAAATCAGATTATAATAAAACAG
TTGAATATGGCTTAGGAAAATATGAAGGTTCCATGAAGTGGAATTAAGAGCATAGAATAACTGTACTTTCCTTAGGAATAATAGGACTTATGGTAAAGGT
AGTATTGGGCAACTTCTTTAAGAGTGTTTTCCTCTGAAATGTCCTATCACCACTATCTACATCTAAAAAACATGCTCGATTCTTGCCCTATAAACTGATG
TCACAGCCCCACCATCCCCATTTTTGCTAGTGGTATCATTTTCCTAGTCAACCAAATTTTTTAGTCATCACATATCACTGTTCGTCATCTATTATAATAG
GCAGTCTCTCTCTTGTTTCCCTGGTTTTAGAAGATTTTAGTAATAAACATTTATTGGGTACCTGTTACTTGGAGGGTATTAAGCTAGATGGCAAGATCTG
AAACAACATAGGCAGTATAGTAAAAGTGCTTATCTGGGAGTCTGAACATTACAAGCCATCCAAGCATTGCAATTATTGTTAAGGATTATTTTCAATGGTC
ATGCATTTTCTAATATTTTAATAATTGGTTAAAGATTTGTTATAGCGTGGGGGCCGCTGCTGGTGTGTGGCTGGGGTTATGTCAGGGCAGCCTGATCTAT
ATAATTTGGGCAGATGGTGTGAGTCAGAACAGACTATTATAGTGGGATCCCCAAACTTGCTTTTGATGCATGAGTTGGACCACTATTTTTTGGTGGGTAA
CAACTTTTCAGAGGGGAATGGCAGTTGTGAATTGTATACATTTCATTCTTTAAGCAATATTATGAAAAACTTCAGAGAATGTCTACAGAAAACAGGGTAT
GGAGCAAGTTATTTTCCATTCTTTTTGCTTTTTGGAAGTTAAAATAGCTAAGCTCTGCAAATATCATTTATTTGGAACAGATAAGGTCCCAGACATTCCT
AGATAATAAAAATCAAATGAATGATACAGGTAAGTGTATTTATTGAAGGGTGTGGGTAGAGTGGTCTGGGAAGTCTTGCTTTAATGAAGACGGATTGATT
CTATTTACCTCTTCTTACTTCCACTACTAAGTAACCCTGGGCCTGCAGTTTCCTAACCACTTGACTTCCTTGCCAACAGTCTGTCTCCACTTTCAGCCGT
TTTATAGATTCATTGGCCCTAAAGCACTGCTTTCCCATACTTCCCTACCCAAGAGGGCAGGGGTCCCCAAGCCCTGGGCCGCGGACCGGAACCAGACAGT
GGCCTGTTAGGAACCAAGCCGGATAGCAGGAGGTGAGCGGCGGGCGAGTGAGCATTATCGCCTTGAGCTCTGCCTGCTGTCAGATTAGCGAGTGGCATCA
GATTCTCATAGGCACGCGAACCCTATTGTGAACTGCACATGTGAGGTTTGCCGGCTCCCTGTGAGAATCTAATGCCTGATGATCTGAAGTGGAACAGTTT
CATCCCCAACCCACACACACCCCCACCCCGTCCGCTGGGTTAGAGGACTTTACAACCCTAGTCCACCTTGTCCAGTTATAGTTCCACCTCTAGCCTTTCA
AGGCTTAAACCATTAATGTCCTTAATTTCTCTTGTATTCATCTATCTCCCAACTATACCTTTTTCCTTCCCTTTTTTATTTTTGGCAATATGTGCCCATG
GTTTTTTAATTTAAAACGAACAGAATATGTAGTGACGCCTACCATAGCACTCCTTCCCATCACACAAGCCTTCAAGGAAACTGAAGTACTTACTTTGGTC
TCCCTGGAGGATTCCCTCCGCCTCCCGCCCCATGTGCTTAGCAATTCTGTTCCTGTAGTCTGGATGGCCTTCATAAAGCCCTCACTGGACCAGCATTCTG
GCACATAATAGGAACACTTAAAAAACGAGAGAATGATGCCGTTATATCTAATATCTTCCTCTTCTGAACTTTCACAGCACTTTATTTGCAACAAGTTTAG
TTGCTCCTGAAGGGCAGGATCTCTGCCGGAAGCAAGTGCGTGCCACACAGTGGGGCTCCGCATACACTGCAAAAGGACAAATAAACCGAACAGCTACCGT
TTGAGAGTGAGCGAGTGGGTTCTCTGCACAAGAACAAACCAACCAGTCCCTTGTCCGAAAGGGCGTCTCCTTTTCTCTGCTTCGCTGCTCACTCCAGACT
GCGGGCTGTCCTCTTCCGAAGCAGTTAACCAGCAGTGTACAGAAAGCGACTTGCCTCCAAAGGAGCCTGCGCGGCCCGCGGCTAGGAGAATTTTGTCCCA
TGCGCTCCCCGTCTCACTAGCCGCGGGCCGGGGCTACGCCGTGTGCGTCCCCGCGCAGCCGCAGTGCTGGGCGAGTGGGCGGGGCCGGCTGTTGGCGGCG
GTTGGCTCGGCGCGGGAGTCGGCTGCACGTGCGGGCGGGGGCGATGCGTCACTGATCGGTGAGGCGCGGCCGAGGGGTCGGCTTTCCTCGCGAGCCTGCG
GCTGGGCTTCTTCTCAGTTAGTGCCTTCCACCCGGGAGCGACCCTTGGGAGAGGGAGTTTCAGGAAGCTCACCGAGCAGGGGCGGCCCACTGGCCTCCGG
GGGCGGAGGAGTTGGCAAGGGGTCAGCGGGCTCAGCCAGAAGGGAAGAATGAGGGGACAGGGGTACTGGACTCCCCGGCTCAGCCTGCGAGAGAGCGCCA
AGTTTCCGGAGGGAGAGGGTAGAAACTGGAGGGGGTGGACCTGTCACTCACGGGACTGAGGGTCCTTTTCTCCCGCTCCCAGGAGGAACGAGAATGAATA
TGACTCAAGCCCGGGTTCTGGTGGCTGCAGTGGTGGGGTTGGTGGCTGTCCTGCTCTACGCCTCCATCCACAAGATTGAGGAGGGCCATCTGGCTGTGTA
CTACAGGTGAGCGGCATGTGCAGTCAGTTAGGGCTCTAGAGCAGATTAAAAGGGTACTCCAGAGTGGAGTCTGGGAAGTTGTTCCCTCTGCAACGTTCGG
GGGCGCATGTCCCATCTCTAGGGAGAGCACGGGGGTCGAAGCGGGCTTTTGCGGAGCACCCTCCAGATGTTGGACAGTTTTAGTGCTATGTTCGTTTTGT
TGCAGAGATTAAGTCTCCCTACGGTTATTCCTATACACAGCAAACTCAATTATTTGTAGAAAAATGAAGAAGGAAGAAAGGAAGTAGTCACTCTACCTCT
AACTGAAGAGATGGATAAATTATAGTTCGTTCAACTGTACAGGCTTTAGTTTGCCGCTGTAGATGCTGTATGTTTATGGTTGTTTCTTAGACTTTTTCAT
TTAAAAGCTTCCAGTGTCTGGTTACGTCTTGTAACACCATGATGACTGTGATGGTGCTTATGTCCCTGGACCTCCAGGGACATAAGCACAACACTGATGG
GCCATGCTCCTCCCTCCTTACTGTTGCTGTTCAAGTTGGGGACAGGAGTGGTGTGGGAGCTGTTGCTCTCTTGTTGAGCTCGCTTAGCTTTTCCTTCAGC
CTAATTACCACAAGTTCCTTTTGATACAGACTAGTAAGAGAGGCCAGTTTGTGGAGAAATTGGGATAATGGTGTATTCAAAAAGAGCGTCAACTTTTTGC
TTGTTTCCACTATCCCTCAAAACTGATATTTCTACTTTCAAATCCATCCTGAATCCTAGAAAAAGAGCAATTTTAATGGTATATCTTAGCAGATGGAGCT
CTACATAAGAAATTACAGATTAGTCCAGATTTCCTTCCAGTTTAAAAGCATTGTCTTTCTGACAGTAAAACCAGAGAAAGGACATTTCAAGGAATGACTC
AAAGAATTAGTAATGAACCTCAAACAGTTCATCTTTCCTTGTTATTATGACCTTGCAAATGTGTTTATATTTTCAAGACCGGTAGCTAAGTTCTATGAAT
TTACAAGGTGCAAAATAGGACTTTGTTTTCTTTGCTCCCCAAATGCCTCCTTTTTATAATTTCCAGGGCTTGCTTTCATAGTTTTCACATTCCAGGATTT
GGTTAACAAGCCCTTATGCTATTTATTTGTATAGTCTTGTCACCCTTCATCTTTTCATGCTAATTTTTTGTTTTTATATAGAAATTTTATGTTCCCAGTA
TTTTAATTACCTTGTAGATAGATCGAAAGAATTATAAGCCTCAGAAATTTTCTCTTTACTTCAAAGTTTGCATTGTCTTTTTTTCAACCTGGTGATTAAA
TGTATTATATATTTTGATTTGGCTCTTGTTATGTACTATTAATGTACCTCTACTGAAAGCCATTAGAATTTTTTAAACAAATATTTCTCAGAAGGTTAAA
GACCGAGGAGAATCCTTTGAACCTTAGAGCAGTGCTGGAGACCCAGAGGTACGGTTGGTTGAGCTTATGAAACAAGGTGTAACATTGGCAGTTTAATTTG
ATCTTTTTCCCTTTTTAGGTGTGGAGGTATTTTAAGCAGTTGTTCATTATGAGCAATTCATATTAGTGAGGCTTTAGTAGGTCAGCAGCATGAGCAAGAG
TGAGTATTTATTATAGCATTTTAGATTTGGAAAGATAATTTTTCTTTTTATAATTTTGTCAAATTGAAACATCTTTTTGCAGGGGAGGAGCTTTACTAAC
TAGCCCCAGTGGACCAGGCTATCATATCATGTTGCCTTTCATTACTACGTTCAGATCTGTGCAGGTGAGTGATTCCTAGGGGAAGCCTCCATACCAGATA
GACAGGCATGACAGGAGTTACCACACTTGTGGGTGGAGATAGATTTCCTTATTGCTTAAGCAGATGGTGGTATTTACTTAAATGCAGAAGTTAACGTTCA
GAGTACAGTTGTTACAACACAAGTTATGATGTTAAACCACCTCACTTACTTGAAATGAATTAAAGGTATGAACCAGGAAGCTTGGAAGGACTGACTTCTA
CCATCTATATCGTGGTATATAGCAAATTTTCTGTTGCTGCTGTCACAATAAAAGTAAGAATTAGAAACACAACTAGACATACAAACCAGTGATTATGTGG
TTTAGAACAGTGTTTAGTTTCCATAGAGGCAGGCTCCTGGGCTACTGTTAACATGGAGGATCAAAATTTTTATACACAGCCTTTCTGCCTCATGTTTTTT
TGCCTGGTATATTAAGCACAATTTTATGTGGAACCTTAGTGAATGTTATATTTTGATGGCATCCCGGGATATTTGAAATAAGTGTCTAATCCTCGAAAAG
TGTCTTGGCCATGGGAGACAATAAAATAAGTATCTTTCAATGTAACAAGATGACAAAACCAGGATTAGGCTGTGACCACTTTCGCAAGCCCAGTGTGATC
ATAAATCTTTGGATTCAGAAGTTTGTCTGCCATCTGCTGCTAATTTTTCAGGACTCAGGAAAATTCTGTGTTATTTAATCTTGTAATCTTATGTCTAGGC
TTCCTGCTAAGTGAGAGTTTAATTATAAATTCTTAAATCCCCTAGGTTTTCTTCCTGTCCCCTTTTAGATGGCTTAGGGAAAGAATTGTGTCTACTGAAG
TGAAATGTATTCTTCCCCTAATCAGACTGATTTCCATATGTTGTTCCATATTTATTTTACCCATTCTTTCCTTAGTTCATGCCATCACTTCTTTATCTGC
CATCTCACTCTCCATTCCTTCTCTCCTGTCTAAATCTTGCCAGGCTTTTAAAGGCTCATCCCAGATTCTTCCTCTTCTGATCTATAGCTCTTAAAGTCTA
TATTGTAAATTTTGGCCCTTTGTCTTATTTTCTTTAATATTGTTGTCTTGCATTGTTTGCTAAGTTTTTTTATGTGTTTTCTTTCCAGAAAGGCTCCAGT
TTTCTTAAAGGCAGGAGTTGTAACACATTTATATTTCTGGCTTTCTATTTATGGTGGAAGTTGTTAAATTGAGCTGATTTCTCAGGAAGCAATGTGGTGT
AATGAACATGGGGACCCAGCGTTACCGCCAGTTGGTGGCATGACTTTGGAAAAATTGCTTAACTGTCATAGACTTCAGTTAGTCTTCTGTGAAAGGAGGA
ATTTTAATTACATAACCTCATCAACAGCCGAAACAATCTATAATAATGTTAGCAATGGCAGCATTAGACCCTTAAAAATCAAGACTCTAAGGCCCGGCGC
AGTGGCTCATGCCTGTAATCCGAGCACT


SNP Information

Context             (SEQ ID NO:24402):
CATTCCTGAAGTTAGATCTAAGTATTTACTCACATTTAATCTACTATAAGGAGGTATGATGCTTCTTCAAGTTTGGAAGTCACCCTTGCCTTTACTTTCC
R
GTTTAATGGATTGAGCTTATTTTGAATATAGTAAAATAAAAATTAATAGCCCACCTGTATTCAATTTTTACCATGTACCAAGCACTGTGTTACCTTCTTT
Celera SNP ID:            hCV1345897
SNP Position Genomic:     15882
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24403):
AGAAAATGGACAACCTGCAAAATTACCTTTCTAACAGTATAAAGGGAAATTGGAACATAATGATTTGATTTTCACCCTATTTTGTATGTTTTCTAGTTTA
R
TAGTAGAACCCATGGAAAACTGGCTACAGTTGATGTTGAATTGGGACCCTCAGCAGAGAGGAGGACCTGTTGACCTTACTTTGAAGCAGCCAAGATGTTT
Celera SNP ID:            hCV1345898
SNP Position Genomic:     17481
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,11)   caucasian(A,17|G,19)   total(A,42|G,30)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): (G,1|A,2)      total(G,1|A,2)Caucasian(A,148|G,160)   Chinese(G,14|A,18)   Japanese(A,4|G,10)   African(G,28|A,72)    ;(G,-|A,-)   ;JBIC-allele(A,632|G,663)   total(G,663|A,632)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24404):
AGGGTTTCGCTATGTTGTCCAGGCTGGTCTCGCACTCCTGACCTCAGGTGATCTGCCCGCCTCCACCTCCCAAAGTGGGATTACAGGCGTGAGCCATTGC
R
TCCAGCCCTGATGCTTATTTGAAAAAGAAAATTATATTCTTAGAGCTGATTTTTTAAAAAGTTTATTTAGCAAGCTGTCTCAGTTTGCTTCTCTGTGGTC
Celera SNP ID:            hCV1345899
SNP Position Genomic:     18002
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24405):
GGATAATTGCTTGAATTCAGGAGGTGGAAGTTGTAGTGAGCTGAGAGATCATGCCACTGCACATCAGCCTGCGTGACACAGCAAGACTCTGTCTCAAAAG
A
AAAAAAAAAAAAATAGAACTGTAAGATTCAACAATGTCATTTCTTGGTATATATCCAAAGGATTTTAAAGCAGGCTTGTGAAGAGATATTTGCACTCCCA
Celera SNP ID:            hCV27434011
SNP Position Genomic:     23714
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24406):
GGGTAGCTTGGCCATAGCTATCTGCATTTATGTGTCCTTTTGTATGCATTACTTTGGAGATAAGTCATTAAATCTGATGCTGATTGTGGTTCATTTCCTC
M
GCTGGGTTTTGGGAATATGGTGTACAGTCTTGGGGCATGTGAAAGTGTCTGACACTGATTTAATCTCTCCAGCAAGTTGTTGGGCTGTAAGCAGAAGATT
Celera SNP ID:            hCV11753627
SNP Position Genomic:     41415
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24407):
TGGGAGAGATGGGAGTTTTTATTTCTGTAACCAGTTACAGGTAGAAGGCCTGGAAATTACCGCCAGACCAACTCAAAATTACAAAGTTTTTCCGTAGTTT
R
TTTATCTTCTAAGCTATATGTCTATGTGTAAGTTTGCATTCATCTAAAGACATAAGTGATTAACTTCTTTTAATCTGTAGCTGAGGTCTGAGTCTTGAAG
Celera SNP ID:            hCV27434012
SNP Position Genomic:     26419
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24408):
ACTTCTCAGAAGGAAGACTTAAACATGAGGTGCCACATGATGATGTTTTGGTTAACAACAAATTGTGTATACTATGGTAGTCCCATAAGATTATACTACT
R
TATTTTTACTATGTATTTTCTATGTTTACATGCACAAATACTTACCATTGTGTTACAGTTGCCTACAGTATTCAGTACAGTCACTTGCTGAACAGGTATG
Celera SNP ID:            hCV11753629
SNP Position Genomic:     38380
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24409):
AGGATCGCTTGAGCCCTGGAGATAGAGGTTGCGGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTACCTCAAAAAAAAA
W
TTTTTTTGTTGTTTTTTCCTTTATCCACCCATCTGCACACTGGTATAAATATATATATTTTTAAGAAAAAAGTCATCTGTATTCATTTCCTAAGGGTTCC
Celera SNP ID:            hCV27434014
SNP Position Genomic:     32847
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24410):
TGAAGTAGCAGGATCGCTTGAGGCCCAGGAGGTCGAGGCTGCAGTGAGCCAAGATTACACTACTGCACTTCAGCCTGGGTTGACAGAGCAAGACTTTCTT
A
AAAAAAAAAAAAAAAAAAACCCAGAGCAGAAATGAAAAACCTGTGAATTAGCAGTGACAAATAGTGAACAGTAATATTAATTTTTTGTTGATAATTTAGT
Celera SNP ID:            hCV27434015
SNP Position Genomic:     39214
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24411):
AAATTCCACTGAAAATTTAACAGTATCCCCTTCTCATCGAAGGGATTGTGTATCTGTGCTTCTAATATTAGTTGGCTTTCATAAATCATGTTGTTGTGTG
T
ATATGTATTTAAGATGTACATTTAATAATATCAAAGAGAAGATGCCTGTTAATTTATAATGTATTTGAAAATTACATGTTTTTTCATTTGTAAAAATGAG
Celera SNP ID:            hCV27434016
SNP Position Genomic:     46684
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:24412):
AATTCCACTGAAAATTTAACAGTATCCCCTTCTCATCGAAGGGATTGTGTATCTGTGCTTCTAATATTAGTTGGCTTTCATAAATCATGTTGTTGTGTGT
A
TATGTATTTAAGATGTACATTTAATAATATCAAAGAGAAGATGCCTGTTAATTTATAATGTATTTGAAAATTACATGTTTTTTCATTTGTAAAAATGAGT
Celera SNP ID:            hCV27434017
SNP Position Genomic:     46685
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:24413):
AAGGACTGACTTCTACCATCTATATCGTGGTATATAGCAAATTTTCTGTTGCTGCTGTCACAATAAAAGTAAGAATTAGAAACACAACTAGACATACAAA
C
CAGTGATTATGTGGTTTAGAACAGTGTTTAGTTTCCATAGAGGCAGGCTCCTGGGCTACTGTTAACATGGAGGATCAAAATTTTTATACACAGCCTTTCT
Celera SNP ID:            hCV27434018
SNP Position Genomic:     52186
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24414):
AGAACTGCCATTTAACTGTTTGACATATGTCCTAAGAAGGCTCTTAGGATAATGAAGTAAATGGGTTATTTGCAGAATGGATTTGGACTCATCCGTCAGA
R
TTGTCAGTAACTAACATATGTGGAGTTTTGAGTAGTTTTTGATGGAAAAAAGTTTGTCCCCTGTCATTTCATGAATTTGAAAGTAATTTATGAAATGGTA
Celera SNP ID:            hCV25592830
SNP Position Genomic:     17261
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:24415):
ATACTGTCATGTTCATGCAGGGAAAAAGGCAGAAAGAAATATGGCATCTCCTTAAAATTGCCTGTGTAAGTAATTATTAATGAATTATTTAATGTGACAT
K
GAGTTGCTATTATTCCTTGCAAAGGGGATTTTTATCAGCATGAGGTGGGCCCTCTTGAAGACATGTATATTTTGCATTGGGATGACATCCATGTTCCTTG
Celera SNP ID:            hCV1858710
SNP Position Genomic:     41671
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24416):
TAATAAATTTTTGAGATCTATTTTATAACTTTGTATTTCTAAGATTAGACTTTTTTCAGTGTTTTAAATCAGTTTTGCAAGAACTCAGATTCCAAGCCCT
R
TATTTTATTAATTCCTACTCTTTTGCTAAAAGCTGAATGACTATCCATTTCTGTTATTTTCTCAGCTTAAGATGTGCCGTATCCAAAGCCAGTGGCTCTT
Celera SNP ID:            hCV1858711
SNP Position Genomic:     42860
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;SC_12_A(G,0|A,23)   SC_12_AA(G,1|A,22)   total(G,1|A,45)   (G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24417):
TCCAGTAATCAGAGTTGAAGGAAGTAAAATTTAATACTTTACTTACTTTTTTGCCTTTATTAAAGGCATTTAAGTTTTTTAGCGGATGTTAATGTTTACA
R
ATGTCACCACAATACAGGTAATTTCCAATTTGAAGTGTAGTTGCTTGCAAAAGTATATCTGACAGACATTTTCAATGTATTTTCTAGAAGGAACACATTA
Celera SNP ID:            hCV1858712
SNP Position Genomic:     43390
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24418):
ATCATCTGCAGCCATTTACCTGGTAAGAAATGGATGAGAACTTGGGCATGCTTAATGGGAATGGAAATTTTTTCATTTGTCTTTTTTTTTCTTTCTTTAA
K
TGTTTAATTGCCTTTGAAATATACAATTAAATATAATTAAATGGCAAGAAATCTTAATTTGTGAGAATCACTTTGTCAACTGAGGTAGCTTTTGATTTTA
Celera SNP ID:            hCV25592832
SNP Position Genomic:     16678
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,20)   caucasian(G,2|T,32)   total(G,6|T,52)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24419):
ACTTGAGCATCAGAGTAGATTTGTACAAAATGTGAGGTGAATTTTTCTTTTAACTCAATGATTTCTGTTACTTCAAAGTATATTTTAAACTTTATTTAGG
R
TCTGGGATTCGATATTTGCATGAAAACAAAATTATACATCGAGATCTAAAACCTGAAAACATAGTTCTTCAGGATGTTGGTGGAAAGGTAGGTGAAACCT
Celera SNP ID:            hCV25592833
SNP Position Genomic:     14932
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,37)   total(A,1|G,71)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24420):
TGCAATCTAATCTGAACTGACCTTGAATCTTTTTATCCCATTTAGTGTGAATATTCCTTTATTTTGCTGCTTGATGATGAGAGGGAGGGCTGCTGCCACA
K
ACTGTGGTGAGGGCTGGTTAATGTAGTATGGTATATGCACAAAACTACTTTTCTAAAATCTAAAATTTCATAATTCTGAAACAACTTGCCCCAAGGGTTT
Celera SNP ID:            hCV8734131
SNP Position Genomic:     47025
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:24421):
TCATTTTAAATTCCACTGAAAATTTAACAGTATCCCCTTCTCATCGAAGGGATTGTGTATCTGTGCTTCTAATATTAGTTGGCTTTCATAAATCATGTTG
K
TGTGTGTATATGTATTTAAGATGTACATTTAATAATATCAAAGAGAAGATGCCTGTTAATTTATAATGTATTTGAAAATTACATGTTTTTTCATTTGTAA
Celera SNP ID:            hCV1858714
SNP Position Genomic:     46677
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:24422):
CATGAGATTTGTCAGCCTTTTCCAGTTTCAAATGCTTTTTGCCTCTTTTTACTTTTATGAGCCTTATCATGAAATTTACATGCCCTCAGTATGGATTTGG
W
AATTTTATTCCCTTGTATTTTATTATGACTTATTTTCTCATTTGAATATTCTTTTAGAGTATAGTAATTAATGTGTGGTCACTATTGCAGCCCAGCAATT
Celera SNP ID:            hCV25592834
SNP Position Genomic:     13289
SNP Source:               Applera
Population(Allele,Count): african american(T,30)   caucasian(A,1|T,7)   total(A,1|T,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:24423):
TATCATGAAATTTACATGCCCTCAGTATGGATTTGGTAATTTTATTCCCTTGTATTTTATTATGACTTATTTTCTCATTTGAATATTCTTTTAGAGTATA
R
TAATTAATGTGTGGTCACTATTGCAGCCCAGCAATTTGCAGAACAGATTTTTAGATTTCTTTCTTTTTTTAGCTGCTCAACAAACCAGAAAATTGTTGTG
Celera SNP ID:            hCV25592835
SNP Position Genomic:     13353
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,28)   total(A,1|G,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:24424):
TGAATATTTTGATTCATGATGTGCCTCTTCTAGCAATGGAATACTGTTCTGGAGGAGATCTCCGAAAGGTAGTGTGGATGTTTTGAGATGAGAGAGAGTA
M
ATCACAAACTTTAGCAATGTTTGAATCATGTTAAATATAATAAACTAGAATAAGAATCGGAAAAACTATGGTCTGCTTCCTGTTTTGTAAATAAAGTTTT
Celera SNP ID:            hCV25592836
SNP Position Genomic:     12774
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|C,3)   total(A,75|C,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:24425):
GAGAGTAAATCACAAACTTTAGCAATGTTTGAATCATGTTAAATATAATAAACTAGAATAAGAATCGGAAAAACTATGGTCTGCTTCCTGTTTTGTAAAT
M
AAGTTTTATTGGAACACAGCCACATTCATTTCTTTACACATTGTCTATGGCTGCTTTCTTATGGCTGCAGAAGTGAGTAGTTTTAACAGAGACTATGTGA
Celera SNP ID:            hCV25592837
SNP Position Genomic:     12867
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,34)   total(A,71|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:24426):
AGTATATTTTAGTTAAGGAAGTTTGCCTCAGTTTCTCCAGAGTTGTAAAGGAGCAGGAGAGTAGTTGTCTGTTTCAAGTTGCATTATCCAGTAGAACTTT
Y
TGTGATGATGTAGAAACCTTCTATATTTCTGTTGGCCACATGAGGTTATTGACTACTTGACATGTAGCTAGTTTGGCTAGAGAACGAATTTTGAATAAAT
Celera SNP ID:            hCV22273180
SNP Position Genomic:     16993
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,3)   caucasian(C,2)   total(C,15|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:24427):
AAGATGTTATTTGCATTTTTCACCATGTTGACATTTTCATTGATGGTGCAACATAAAATGGCTTTCACCTTAGTATGAATCAAGGCACTAGCGCCAAACT
R
TGCTAGTAGCCGTTATATTTTTTACCACCATGCAGTCACAGTTTTTAAAAAATGACAGTTTCACTTACAAATGTCCTTGATAAAGCAGTAAAAATATTAT
Celera SNP ID:            hCV27957931
SNP Position Genomic:     37144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24428):
TAGTCAATGAAGAAAGGGTCCAAGGACAGGTTACTAATGGTGTGTAAAGGTGGGAATAGTTTTGTACTGAAATACTCTGGTTGTGCATATAAGTAGTAAC
R
GAAATGTAAGTCTTAGGAATATGATAAGAAATTGTGTGAATCAACAGAGATGCTTGCCTGTAATCTTTTGATGTTTTTTTCTTTTCCTTCAGACACAGAG
Celera SNP ID:            hCV16180968
SNP Position Genomic:     42095
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(A,1|G,35)   total(A,3|G,67)
SNP Type:                 INTRON;TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24429):
AAAGGATGCATGCTGGCAGCTTTTGTGACTTCTTTTCTTGGTCCCTGGGTGGGGATGGATGAATTAATCACTTTTTGTTTTATTATGGTAAAGTATACAT
K
ACACAACATTTATCACTTTATTTTTAAGTGTACAGTTAGGTGGCATTAAGTACATTGACGTTGTTGTACAGCCATAACCCTATCTCCAGAATATTCCGAC
Celera SNP ID:            hCV8734317
SNP Position Genomic:     8233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24430):
GAAACAAGAACTGCCATTTAACTGTTTGACATATGTCCTAAGAAGGCTCTTAGGATAATGAAGTAAATGGGTTATTTGCAGAATGGATTTGGACTCATCC
R
TCAGAGTTGTCAGTAACTAACATATGTGGAGTTTTGAGTAGTTTTTGATGGAAAAAAGTTTGTCCCCTGTCATTTCATGAATTTGAAAGTAATTTATGAA
Celera SNP ID:            hCV16180969
SNP Position Genomic:     17255
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24431):
CAGCCCGGTCAACATGGCAAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCGGGTGCCTGTAATCCCAGCTACTTGGGAGGCCGA
R
GGAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCGGTAAGCTGAGATCATACCACTGCACTCCAGCCTGGGCGACTCCGTCTCTAAATAAATAAATA
Celera SNP ID:            hCV27104635
SNP Position Genomic:     11056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24432):
TAATAATCTTTTCCTGTTGCTTATTTATTTATTTATTTTGAGACAGGGTCTCACTCTGTCACCTAGGCTGGAGTGCAGTGGCATGTTTTTGGCTCACTGC
M
ACCTGCGCCTCCCAGGTTCAAGCGATTCTCTTGCCTCAGCCTCCCGAGTAGTTGGGACTAAAGGTGTGCACCACCATGCCCAGCTAATTTTTGTATTTTT
Celera SNP ID:            hCV27104636
SNP Position Genomic:     17792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24433):
GTTTGTTATTTTTAAATGAATTAAGACACGAGTATTTTTAAATTTCTGTTTAATTCCTGAAAAACCCTTTGGGGTTCTCAAGAATTTTCTAGTGTAAAGG
K
GTCCTGAGACCAAAAAGTTTGAGAACTGCTTATCTAGACTATTCTCAGAAGCTTGGCTGCTCAGGAAAGAAGAGAGGTGGGTGAGTAGCTAAAAGTTGAT
Celera SNP ID:            hCV11753630
SNP Position Genomic:     38161
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,5)   total(G,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24434):
GAGTCATACTACCAGCATTTCTGTTTTCTTTTATAAAACAAATCCTTTTTAGGAAACAAATACTTGTTTCCTAAAAACATATACTTGTCCTGAGCAAACT
M
TGTGTATCTCAGAGTAAACAATCAATAGTGTCCAGTTGGGTGAATGAATTTACTCTCCAGAACTGGTTTTATTAATATTATTGATATTTTATTTCTATTT
Celera SNP ID:            hCV11753633
SNP Position Genomic:     32077
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,5)   total(A,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24435):
GGGCATGTATCAGGTTCTTAGTAAATTATTTATTGATATGAATGAGAGCTATAGATAGTTCTATTATGCAGTGTACCCAGAAACAACTCTCATCAATAGT
S
TTTACATTTGTATTGATTGTTTGTAGTATACAGGTTTCTAAAATTGAAATGAGAAATTATAATCATGTAATGTTGGAGTACATGGCGAGATAGCTCACTT
Celera SNP ID:            hCV1345902
SNP Position Genomic:     18863
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,6)   total(G,5|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24436):
AAAAAAGGAAGCAACAAAACAGTTACTGAAATATTTCCCTTTTGAAAAAATAGCTTAGCAAGTCTGATTGTATGCATATTTTCCAACTGTTTATTATGAA
Y
ATCTTTAGATATGTAGAAGAGTTGAAAGAAGTGTACTGAACCTACCACTAAAAATAATGATGAAACAGTAGCATTTAATTATTATTTTTTTTTGCCTCCT
Celera SNP ID:            hCV1345903
SNP Position Genomic:     19988
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24437):
CAAATTTATCTTTTGAATATCTTAACAATTTTGAGCTTGCCAGGTTCTCAATTTAGAAAGGCTTGCATAGTTTTCTTTCACTTATTGAATAAAGTCCAGA
S
CCTTTCATTGGTACTCAAAACCTATCTTGGTTTCATATCAACTTACACTCCTGGACTTATCTCTTACTAATGCCCTGAGAGGCCATCATTTTAGGTACAT
Celera SNP ID:            hCV1345904
SNP Position Genomic:     20884
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24438):
TGTGTAAAAGTAGATGTCCATTATAGGATTTTCTATTGCTATAAGTGGCAGCTGTCATAGTGTGAAATCTGCCTAAATTGGGAAGGCATGGAAAGTCTCA
R
GTAGTATAATTGTATTGCAAATCCGTATCAGTTTTGAAGATTTCCCTACTCCCCTTTTAAACATAAAGATTTATATTAAAGAAAAGTCTCTTAATAAGAG
Celera SNP ID:            hCV1345905
SNP Position Genomic:     21586
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24439):
CTTTAGGTGAGAGTGATAAAACGGTTCTTACTTGATTTGGGGCCCTTAAGCAGGTTGCTGCTCTGGGATTAGGTTGTCTTATAAAAAGGTAACTCACCAC
S
CATAACAATGCTTTTTCCTGTTTAAAGAGAGACCTAGTTCTTCTATCAGATGATTTCTTAAGGCAGCATGAAGTAGCCAGACACAAAAAGAGTTAAGATC
Celera SNP ID:            hCV1345906
SNP Position Genomic:     24902
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24440):
CTTACAAAAGAGACCTGAATGAGATCCCTCATCCCTTCTGCATGTGAGGACAGAGCAAGAAGATGGTCATCTAGGAACCAGAAAGCAGGCCCTCAAATCT
R
CCTTGTTCTTGGACTTCCCAGCCTCCAGAACTATAAGAAATAAATTTCTGTTGTTTTTATGGCACTTAGTCTATGGTATTTTGTTATAGTAGTCCAAATG
Celera SNP ID:            hCV1404612
SNP Position Genomic:     31658
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24441):
ACATCTCGCATTTGTTTCATACTTGTCATAGGAATCATAGCATAGTTTCTGCTCTGAAGGGCATCTGTGAGCCTCTTGTTATAGGGCACGGGGAAAGAGT
M
CACATTATGGAGTTTATAGTTTACAGACTTTAATTCAGTTTGCAGCACCACTATTTACCTATCTGTGAACCTGAGCAAATGTCTCTCTATCTCAAGGACA
Celera SNP ID:            hCV27883377
SNP Position Genomic:     19478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24442):
GGTTACTATAAACTACTGATTTGTTAAAACTTGAGGAAATTACCATAAAATGTCTACTGAATCAATTTTTCCTGCATTTAGTCTTAATGTCAATTCTGTA
Y
ATTTCCTCTTTCATTAAGAAAAATAGCAGTGGCCAGGCATGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGTGGATTGCTTGAGC
Celera SNP ID:            hCV27883378
SNP Position Genomic:     45268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24443):
TATATATGAGAGAGAGTTCTGAAAAGACCTGTTATAAAATCAGTTTCAGGCACTTTTCCCTTGTATGCTGTTGTGTGTTTGAAGGTCAGTTTTAAAGCAT
K
GGTGTAATAGTCTCATGGTTTATCTTTTTAAAAAGCATTGCCTCAAGAGAGCTGTGGATAAATATATTTAATTAGTAAAGCTAAAAAGTTTTGTTGTCTT
Celera SNP ID:            hCV25592841
SNP Position Genomic:     9413
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,31)   caucasian(G,1|T,31)   total(G,2|T,62)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24444):
GCTGCGGCCGGGCGCGGGCGGGCCCTGGGAGATGCGGGAGCGGCTGGGCACCGGCGGCTTCGGGAACGTCTGTCTGTACCAGCATCGGGTGAGGCGGGGC
R
TGAGAGGGAGCGGCGGTGGGTTGGAGCGGCGGTGGGTTTGAGCGTCTGTGGAACACAGGGCTGACAGTGTGGGATAGATGGTTGGTGGGACCTTGGGCAG
Celera SNP ID:            hCV25592842
SNP Position Genomic:     6192
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,30)   total(A,1|G,55)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,36)   total(A,1|G,73)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24445):
TTCTTCAACTAAAATGGTATAAGATGAGTGGATATATTTGGTTTTAGTCAATGAAGAAAGGGTCCAAGGACAGGTTACTAATGGTGTGTAAAGGTGGGAA
Y
AGTTTTGTACTGAAATACTCTGGTTGTGCATATAAGTAGTAACGGAAATGTAAGTCTTAGGAATATGATAAGAAATTGTGTGAATCAACAGAGATGCTTG
Celera SNP ID:            hCV25592843
SNP Position Genomic:     42051
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(T,34)   total(C,2|T,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:24446):
GGCTGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCCCCACCTCCCGGGTACAAGCGATTCTCCTGTCTCAGTCTCCCGAGTAGCTGGGATTATAGG
Y
GCACACCACCACGCCCAGCTAATTTTTGCATTTTTAGTAGAGACAGGGTTTCACCGTGTTGGCCAGGCTGCTCTTGAACTCCTGACCTCAAGGGATCTGC
Celera SNP ID:            hCV3091050
SNP Position Genomic:     29818
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24447):
TTTATATCTTTTATCTTAACCCAATTTTTAATTTAAATGGAGATGTTTATTAATTAAAATTAGTTTCAGAGTTTCAGGGATTTTTGAGGAATTTTTTGTT
Y
GGAGGCTGATATGTTACAGAAGAAAGGTTATATCCACTGACTGATGTCTTTTATAGATCACTCCTACAGTGACAGCACAGAGATGGTGAAAATCATTGTG
Celera SNP ID:            hCV25592847
SNP Position Genomic:     41041
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:24448):
TTACTCAATACAATGCTCTGTGAAATACTTGTTGGCAATATGAACTTGCTTTAAAATGGGTTCATTATTCAAATAAAATATTGTTTCAAGTTGTAGATTA
Y
TGAAGTCATTAAATTACCTTCACTTATCAGAGCGTGTTTTCTCTTTTATAGGGAACAGCGTGCCATTGATCTATATAAGCAGTTAAAACACAGACCTTCA
Celera SNP ID:            hCV25592848
SNP Position Genomic:     35547
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,36)   total(C,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:24449):
TAAGTCTTCTTAGATATAATGCTAACTTAACAAAAATGAAGAACACTTTGATCTCAGCATCACAACAACTGAAAGCTAAATTGGAGTTTTTTCACAAAAG
Y
ATTCAGCTTGACTTGGAGAGATACAGCGAGCAGATGACGTATGGGATATGTAAGTGTCTGTGTAATGTATTTGAAAGGAGCATCTGGTTTCTTGAAGCCA
Celera SNP ID:            hCV25592849
SNP Position Genomic:     31064
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,27|T,5)   total(C,65|T,5)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24450):
AGGGCTGACAGTGTGGGATAGATGGTTGGTGGGACCTTGGGCAGTATTTGGGGGCCAGTGGGCTTGTGTGTGTGTATTAGAGAGAAAGATACTATGCCTG
Y
GTGTCCAAAGTTGTATTTGAGGTACTGGGCATAGATAGAGCTGTTGCGGGGAACTTGGGTATGACTGTCAGGCTGTGACCAGGTGTTTAGTGAGTGTGAC
Celera SNP ID:            hCV16180979
SNP Position Genomic:     6349
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(C,21|T,1474)   total(C,21|T,1474)
SNP Type:                 INTRON


Context             (SEQ ID NO:24451):
ATGGAATAAGAGGATAAAAAGGTTGAAGATGTTAACAAATAGTGATTTAAGTGATAGAAGTTGTAGCTAGAGTAAAATATTAAAATCTAAGATTTCAAAT
R
GAGCAAGTCCAATTCTTTTTCTTTAATCAATATTTCTGGGCCAGGCGTCGTGGCACATGCCTGTAATCCCAGCCACTTTGGAGGCTGAGGCAGGAGAATT
Celera SNP ID:            hCV262540
SNP Position Genomic:     39477
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24452):
ATTTTTTCCCCTTATCCTGTACATTTGTCCACGGTCCTAAGTTATTACACTCCTTAATGTCAGTACTTACCCTGAGGATGTGGGTGGGGATACCCATGGT
R
TCCTGGGGTGGGAAATCCAAGTTCTTTATCTTTTTGTGTCCCTATTCAAGGTAGTGGGGACCAGGGGGCAGTCAAAATCATAGAGCCAAGATACAAGTAA
Celera SNP ID:            hCV1858698
SNP Position Genomic:     34410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,1)      total(G,1|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24453):
GTTGGCCTTTTTTGGTTTTTAATAAAAGCATTTATTTCATAGGAGTGTTAAGAATTTTCCAAGTATAACTAAGTTACAAACTATTTCCCTACTCATTATA
Y
CTCTGGTCCAAGGTATTGACTCTTAAATGCCCTAAAACTTGAAATTTTTTCTGAATTAAAGTTCTGGATTAAAAACTTCAGATATTTTCTCGAATTATAG
Celera SNP ID:            hCV1858699
SNP Position Genomic:     35234
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24454):
AGGAATCTATTTTTTATCTCCACAAGTTTGCCTTTTCTGAACATTCCATATAAATGGAATTATGTAATATATAGTCTTGTGTCTGACTTTTTTTACTTGC
Y
TTGTATTTTTGAAGCCCGTGCATGTTGTAGCATGTATCAGTACTTCATTCGTTTTGATTACCGATTAGTTTTTTCACTGTATATATCTTTTTGCATTTGT
Celera SNP ID:            hCV1345911
SNP Position Genomic:     27966
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24455):
TGTTCTTTGGGTTTTGGTGATTGTTCACTTTAGCCCATACAAAAGTTTGGGTCTTTTTTCCTCAACAAAAGTTTGGACTCTGTTATCTGTAAGAGATATG
S
TAATACACATTGATTTTGTTCATTTGCATTTCAAAGTAGGAAATCTGGTGCATAAGTATTTAGAAAACCTAGGATTTTCAAAGATCCTTGAACAGGATTT
Celera SNP ID:            hCV1345912
SNP Position Genomic:     28164
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24456):
TATGATTAGTAGAAATGGACTTTTGGTGTTGTGTTCTGTATCTCATACTTGAAGTTTCTATATGGAGTTATATGAGAACTCTGAAAAATGGATTTATATA
R
TTTGGAAGGTGAAAAGGTAGATATTAAATCTCCATGAGATCATTCAAGAGAAGATTTACTTTCTTGAGGATAGGGCTCTCACAGGAGAATGAAACTTCAC
Celera SNP ID:            hCV1345913
SNP Position Genomic:     28552
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,22)   caucasian(G,24)   total(A,4|G,46)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24457):
GTCCTGGCCAGTGAAGCCATCCTTAATGTTCCTGATAAGTCTGACTGGAGGCAGTGTCAGATCAGCAAGGAAGACGAGGAGACCCTGGCTCGCCGCTTCC
R
GAAAGACTTTGAGCCCTATGACTTTACTCTGGATGACTAAAACAAAGGGAAGAACTTTTTATGAACTCCACAGGAAGTAGTAAAGCTTTTTTTTTTTTTT
Celera SNP ID:            hCV25592814
SNP Position Genomic:     2339
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(G,10)   total(A,2|G,30)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,38)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24458):
TCCTGGCATCATAAGGAGTTGGTGTAATCATTTTAAATTCCACTGAAAATTTAACAGTATCCCCTTCTCATCGAAGGGATTGTGTATCTGTGCTTCTAAT
M
TTAGTTGGCTTTCATAAATCATGTTGTTGTGTGTATATGTATTTAAGATGTACATTTAATAATATCAAAGAGAAGATGCCTGTTAATTTATAATGTATTT
Celera SNP ID:            hCV27833379
SNP Position Genomic:     46650
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,35|C,1)   total(A,69|C,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:24459):
GTTGTGTAGTTACGATGATCCATATAAACTTGAGCATCAGAGTAGATTTGTACAAAATGTGAGGTGAATTTTTCTTTTAACTCAATGATTTCTGTTACTT
Y
AAAGTATATTTTAAACTTTATTTAGGGTCTGGGATTCGATATTTGCATGAAAACAAAATTATACATCGAGATCTAAAACCTGAAAACATAGTTCTTCAGG
Celera SNP ID:            hCV8734154
SNP Position Genomic:     14905
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,38)   total(C,72|T,2)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24460):
GTGCCTGATTCTCATTTCCATGGTGGTAAAGGCCTGCATGGGACATAGATATAACTGGTCACCTGCTCATAACAAAAGGAAGATTGAAGGGAGTGAGAAC
Y
GTGGGTAGGCTAGCATGCAGTCTATCCTAGTTTCCTTCTTCTCTATGCACCAGGTATCATCTTATCTCTAGCTTCTTTTTTCCTCTCACCCTCCAATTCA
Celera SNP ID:            hCV29348494
SNP Position Genomic:     8618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24461):
CCTAGTTTCCTTCTTCTCTATGCACCAGGTATCATCTTATCTCTAGCTTCTTTTTTCCTCTCACCCTCCAATTCACACTACCCTATCCAAGCTATGTCTT
S
CTTCCCCACCTATAATATATTTTTTCTGTCCTGGCCCCTGGGCTCTTCTCTCTGTATTCATACACAGCCTTTATTACAACTCTGGTTTGTGTCAGAGATT
Celera SNP ID:            hCV29348495
SNP Position Genomic:     8744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24462):
TTTGATTTTCACTTAAAAAAGGAAGCAACAAAACAGTTACTGAAATATTTCCCTTTTGAAAAAATAGCTTAGCAAGTCTGATTGTATGCATATTTTCCAA
Y
TGTTTATTATGAACATCTTTAGATATGTAGAAGAGTTGAAAGAAGTGTACTGAACCTACCACTAAAAATAATGATGAAACAGTAGCATTTAATTATTATT
Celera SNP ID:            hCV29348496
SNP Position Genomic:     19974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24463):
AGATATGTAGAAGAGTTGAAAGAAGTGTACTGAACCTACCACTAAAAATAATGATGAAACAGTAGCATTTAATTATTATTTTTTTTTGCCTCCTCTTTCA
Y
GCCCCTAAATGTAACTATATTCTGAGTCTCTTCTTGGTTCTCTCTTTTTCCATTACATTTCCTTTCTTTTATTAGGCAGCCTCTTCAACTGTATAGCTTT
Celera SNP ID:            hCV29348497
SNP Position Genomic:     20095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24464):
ACTTCCCAGGCTCAAGCAGTCCTCCCATCTTAGCCTCCTGTGTAGCTGGGACAAGAGGTGCACCACCATGCCTGGCTAACTTTTACATTTTTTGTAGAGA
M
GGGGTCTCACTATGTTGTCCAGGCTTGTATCAAACTCCTGGGCTTAAGCAATCCTCCCACCTCAGCCTCCCATAGAGCTGGGATTATAGGCATGAGCCAC
Celera SNP ID:            hCV29348498
SNP Position Genomic:     33935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24465):
TGTATGTAGGAGCACGAATGTGTGAGAAGAGGGCTGAAGGGGACTGCCTTTGGGAATGTGTGCGTCCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
Y
GCGCGCGCGCGCGCGCTTGGAGGCCATATGATATCAGTGGGGACTGGAGTAGACAAGGAAGGCTTCATGATGGGTCCAGAGTTAAGCCTTTGGAAGCATG
Celera SNP ID:            hCV27434004
SNP Position Genomic:     6614
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24466):
TGAGTCCTGACTATCCCTTTGTAATAATCTTAGGCAACTTACTTGACTTTTTTGATGTTCATATTTCCTCACCTGTAAAACAGGAATGTCTCATAGAACT
K
CTGTGGAAATTTGATTAGACAATGTATATAAAGTGCTTGGGAAATAAATGTTCAGCAAATGTTGCGTATTATTAGCTCAAATGTTGCTTATTATTAGCTA
Celera SNP ID:            hCV29348499
SNP Position Genomic:     42524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24467):
GAGCCCAGGAGGTCAAGGCTACAGTGAGCTGAGATCATACCACTGTACTCCAGCCTGGGTGACAAGAGCAAGACCCTGTCTGAAAAAAAAGGAAAGCATC
T
TGATGCCACTAAACTGTACACTTAAAAATGGTTAAGGTGGTAAATTTTATGCTATGTGTGTTTTACCACAATCAAAAAACTATTTCATTTCAGTTAACAA
Celera SNP ID:            hCV27434005
SNP Position Genomic:     10759
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24468):
TCGCCATGTGGGCCTCTTCATGGGGAAGCTTGAATGTTTTCATGACATGGAAGCTAGCTTTCCCCAGAAAGATCTTTTCCTCAGAAAGAGTGAGTGATCT
R
AGAGAGAGAGAGAGAGAGAGAGAGTGAACGAGCGAGCAAGATGAAAACCGACGTATCTTTTATGATCTTTACTTGGAAGTGAGACTCCATCCTTTTCCAC
Celera SNP ID:            hCV27434006
SNP Position Genomic:     11496
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,2|A,2)   total(G,2|A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24469):
TTTCCATTTCAGACCTCACCACACTGAACTGTAGTTTTGTGTTTAGTTTTTTTGTCCCTTCTGCTAAACAGTGGTTCCATCAGAGAAGGAACAGCACCTG
C
TTTTTTTTTCTTTTTCTTTTTTTTCATTTTTCATACTTAACCCAGCTCCTAGACTTCACCTGTCTTGTTCAAGTCTGTTTTTCCATCATAGTATCTAGCA
Celera SNP ID:            hCV27434007
SNP Position Genomic:     15228
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,4)   total(C,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24470):
TTAGTGAAAATAGTTGTTGGCCTCTTGGAGGTGTTGGAACCTTGGTGATGCCTCTTCTCTTAGGAACCTTTCACGTATGCTTGGCACCAAATATCTCTGC
T
TTTTTTTTTTTTAATCCAAAGACTTCAGGACATTCCTGAAGTTAGATCTAAGTATTTACTCACATTTAATCTACTATAAGGAGGTATGATGCTTCTTCAA
Celera SNP ID:            hCV27434008
SNP Position Genomic:     15751
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24471):
CTTAACCTTTACCTCATACAAGACCAGCTTGTCACTGCTCCTTATGCCTCAAACCCGTTATCTACCTTTGTGCTTTGACAGATGCTATCCTTCTGCCTGG
D
TATCCATTTCTGTGTATCTTCTCACCTACACTGGCATATCTTTAAGAGCTTTTCTTTAAATGGTCTCTGCCACAAAATTTGTCATTTAAAGGCTATATTC
Celera SNP ID:            hCV27434009
SNP Position Genomic:     18534
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|A,1|-,4)   total(G,1|A,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24472):
TCTGCTGGAAAGAGTACTGGATGGGGAATCAGAGGCTTGAATTCTAGATTGAGTAATTTACTGACCGTTACCTCAGGCAAATCTGCGTTTCCCATTTCCT
Y
CTTCTGCAAAATGGGGTTGAAACCTAACTTTCCTACTCAGTGAGTATATTGTGACAGTGTATTTAAGAGGATGTTTGTGAAAATGCTTTGAAAACTATAA
Celera SNP ID:            hCV1858700
SNP Position Genomic:     36579
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24473):
ATCAGAGGCTTGAATTCTAGATTGAGTAATTTACTGACCGTTACCTCAGGCAAATCTGCGTTTCCCATTTCCTCCTTCTGCAAAATGGGGTTGAAACCTA
R
CTTTCCTACTCAGTGAGTATATTGTGACAGTGTATTTAAGAGGATGTTTGTGAAAATGCTTTGAAAACTATAAACTATTATGTACTTGCAAGATATTATC
Celera SNP ID:            hCV1858701
SNP Position Genomic:     36606
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24474):
TCTGTGCCCTAATGTGCATTATACTTAAATGCATGTTAAAAAAAGATATACTTTTACACTTTAAAATTTGTAGACACATAGCAACACATGCAAATTAATA
Y
ACATGTGAAATTGTATTTCATATACTATTTTCACATTTAAAAAATAACATTATCTCCTCTTATACTGCTTTTATTTTACTGAAATGTATTCAGTTTAGTC
Celera SNP ID:            hCV1858702
SNP Position Genomic:     36851
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24475):
ACATGTATGTATAGCACTTAGCATGTCTGAGGAAATGCAGTATGACTGGAGTGTAGAGTTTCAGGAGAGAGAAAACCTAAATATAGGAGAGAGAGAAAAC
S
TAAATATAGGTTTTTTTGTTTGTTTTTAATAAAAACATGTTAATGGGCAATAGGTTTGTTATTTTTAAATGAATTAAGACACGAGTATTTTTAAATTTCT
Celera SNP ID:            hCV1858703
SNP Position Genomic:     38007
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24476):
CTTTGATCTCAGCATCACAACAACTGAAAGCTAAATTGGAGTTTTTTCACAAAAGCATTCAGCTTGACTTGGAGAGATACAGCGAGCAGATGACGTATGG
R
ATATGTAAGTGTCTGTGTAATGTATTTGAAAGGAGCATCTGGTTTCTTGAAGCCATCTGTTATTTTGCCTTCTTAACTCAGCCAGTTGTTTTACTTACCT
Celera SNP ID:            hCV15836819
SNP Position Genomic:     31109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24477):
TGCAGGGAGGTCCTGGCCAGTGAAGCCATCCTTAATGTTCCTGATAAGTCTGACTGGAGGCAGTGTCAGATCAGCAAGGAAGACGAGGAGACCCTGGCTC
R
CCGCTTCCGGAAAGACTTTGAGCCCTATGACTTTACTCTGGATGACTAAAACAAAGGGAAGAACTTTTTATGAACTCCACAGGAAGTAGTAAAGCTTTTT
Celera SNP ID:            hCV25592823
SNP Position Genomic:     2330
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,36)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24478):
AAAAAAAAATTCTGACTCCCAGTTTTCTGGCTAATGAATCAGATACCACAGATACACAGTGATAGCATTTGTTTAGGTTATATTTTTTAAAACTTTGAGG
Y
AGCCCTGTCAACATACCATGAAGCTCAGAAATAAACTGCTACCCAGGTAGCTTCTTTGAGTGTCACCTTGAGTGACAAACTGTAACAAGATTGTGTCTGT
Celera SNP ID:            hCV1858706
SNP Position Genomic:     39764
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24479):
CTTCTCACATGACTGCTGTGAGGATTAAATGGGAAAATTATAAGCAGAGAGTAGCAAATATTATTATTATTGCATTTAGGCTTAATTATTGTCCAAAGAA
W
ATACCAGCATGATGCATAAGCAACTTTCAACTCCTTTAGCCATTTTCTGAAATATAACAATTAATGATTTTTTTTTAAAATCGAGGTCACATTTTAAACT
Celera SNP ID:            hCV1858707
SNP Position Genomic:     40374
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,3)      total(A,3|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24480):
TACAGATCATTCTTCCAGTTATCACAGCAATCTTATATTTAGGTATTATTTTGCAAATGAGGAAGTTGAAGCTTATAGAATCACATAGCTGGTGGTTGGT
R
AAGTGTGGATTTGAAATAAATACTTTCTGACTCTAATATCTGTGCTTAATTCCATTTTGATTCTCAAACTTGGTTATGTGGCAGAATCACCAGGAAAGCT
Celera SNP ID:            hCV8734124
SNP Position Genomic:     11819
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24481):
CGGATAAACATGAAATTCCAAGCAACCTAGTTCAAGGGCCTCCTTCCTTTAGGTAATGAAAGTTTGATGAATTGTCCTACTGTTTCTAAATATGTGGTTA
R
TCATCCAAGAAAAATTGTTCCCTTGGCCAGAGGCTGCATTTGTGTCTAGGGCTTGGGTTAGTATGGGTTAAAGATAGCCAAGACTATTGTTCTCAAGCAC
Celera SNP ID:            hCV1858708
SNP Position Genomic:     40744
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24482):
GCAAAATACAGCTTCCAATTATACAGCTGCGTAAAGTGTGGGCTGAAGCAGTGCACTATGTGTCTGGACTAAAAGAAGACTATAGCAGGCTCTTTCAGGG
R
CAAAGGGCAGCAATGTAAGTGGATTCTGTTGTTTATAAGCACAATGCAATGTGCATCATATACTCAAGAATTAATCTTGCCGGTTTTCACTAATCAATAT
Celera SNP ID:            hCV25592828
SNP Position Genomic:     30529
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,40)   total(A,73|G,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24483):
GTTTTATTATGGTAAAGTATACATAACACAACATTTATCACTTTATTTTTAAGTGTACAGTTAGGTGGCATTAAGTACATTGACGTTGTTGTACAGCCAT
M
ACCCTATCTCCAGAATATTCCGACTTTTTTGTTGTTGTTGTACATCTATAAACTTCCCATAGAATATTCTTTGTGAAAAGGTAGAATTTCACAGAGTTGA
Celera SNP ID:            hCV1345892
SNP Position Genomic:     8309
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24484):
TTATAGGTAATCTTTATATCTTTTATCTTAACCCAATTTTTAATTTAAATGGAGATGTTTATTAATTAAAATTAGTTTCAGAGTTTCAGGGATTTTTGAG
R
AATTTTTTGTTTGGAGGCTGATATGTTACAGAAGAAAGGTTATATCCACTGACTGATGTCTTTTATAGATCACTCCTACAGTGACAGCACAGAGATGGTG
Celera SNP ID:            hCV1858709
SNP Position Genomic:     41029
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(A,1|G,39)   total(A,6|G,70)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24485):
TCTAACAGTATAAAGGGAAATTGGAACATAATGATTTGATTTTCACCCTATTTTGTATGTTTTCTAGTTTAGTAGTAGAACCCATGGAAAACTGGCTACA
S
TTGATGTTGAATTGGGACCCTCAGCAGAGAGGAGGACCTGTTGACCTTACTTTGAAGCAGCCAAGATGTTTTGTATTAATGGATCACATTTTGAATTTGA
Celera SNP ID:            hCV25592829
SNP Position Genomic:     17510
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,39)   total(C,1|G,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24486):
GACAAGAGCAAGACCCTGTCTGAAAAAAAAGGAAAGCATCTTGATGCCACTAAACTGTACACTTAAAAATGGTTAAGGTGGTAAATTTTATGCTATGTGT
R
TTTTACCACAATCAAAAAACTATTTCATTTCAGTTAACAAAAGTCAGCTAGGGCCGGGCGTGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCCA
Celera SNP ID:            hCV1345894
SNP Position Genomic:     10819
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24487):
GCTAGCTTTCCCCAGAAAGATCTTTTCCTCAGAAAGAGTGAGTGATCTGAGAGAGAGAGAGAGAGAGAGAGAGTGAACGAGCGAGCAAGATGAAAACCGA
Y
GTATCTTTTATGATCTTTACTTGGAAGTGAGACTCCATCCTTTTCCACCACATTCTGTTTGTTACAGTGAGTCACTAAGTACAGCCTACATTCAAGGGGA
Celera SNP ID:            hCV1345895
SNP Position Genomic:     11548
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON;TFBS


Gene Number:                 85
Celera Gene:                 hCG19460 - 104000117855400
Gene Symbol:                 FLJ34633
Protein Name:                hypothetical protein FLJ34633
Celera Genomic Axis:         GA_x5YUV32W802(56194928..56217779)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12245):
ACTAAAAATACAAAAAATTAGCCAGGTGTGGCAGCACACGCCTGTAGTCCTAGCTACTAGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGG
AGGTTGCAGTGAGCCAAGATCACGCCACTCCACTCTAGCCTGGGAGACAGAGCAAGACTCTGTCTCAAAAAAAAGAAAGAAACCCAGACACAGCTGTAAG
GGCTTGGAGGAGGGCACAGTGAGGAACATTGTATGGGGAGTCAGAAAGATGGGGTTCCCACCCAGCTTTACTACTCATTAGAAGTGTGGCCTTGAGCAAA
TGGTCTAACCTTGATGGCCTCAGTTTCCCCACTTGTAAAAATGAATATGACATTGCCAACCTCATAGGGCTGTAATATGGATCAAGTAAAAAATGTGTTT
GTTTTGTAAAGTGTAAAGGAAAGCGCACAGGAGAGGCAGGTTGTGACCCGGAAAACTCACCCCAGTAGACCTCTCTCTCCTTTGTCGGCTGAATGATGGA
CCTATAAGGTACTCTGTTTTGCTTCAAAGAGTGTCAATTTTTTGTTTGTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGTAGGGAGGGGGTTGGT
TTTGTTATTTTTTGTTTATTTATTTTTATTTACTTATTTATTTTGAGACAGATTTTCGCTCTGGCGTCCAGGCTGGAGTGCAATGGCGCAATCTCACTGC
AACCTCCGCCACCTGGGTTCAAGCTACTCTCCTGCCTCAGCCTCCCGATTAGCTGGGATTACAGGCATGAGCCACCACGCCTGGCTAATTTTTTTGTATT
TTTACCAGGGACGGGGTTTCACCATGTCAGTCAGGCTGGTCTCGAACTCCTGGCCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGTTGAGATTACA
GGGTGAGCCACCGCGCCTGGCTTGTTTTGTTATTTATTTATTTATTTATTTATTTATTTAAAAAATTTTATTTATTTACTTAAATTGACTAATAAAAATT
TATTTACTTAAATTGATTAATAAAATTATTAGTATTTTTATTATTGTTTGGTTTTTAATTGTGGGAAAATACTTCTACATAAAATCTGCCATTTAAACTA
TTTTAAAATATAAATTCAGTGGCATTAATTACATTCACAGTGTTGTGCAACCATCACAACTATCTATTTCCAAAACTTTTTTTTATCACTCCAAACAGAG
ACTCTGTACCCATTAAGCAGTAACTACCCATTCCCCTCTCCCTCCAGCCCCTGATAACGGCTAACCTTTCTGTCTCTATTAATTTGACTATTCTAGATAT
TTCATGTAAGTGAGAATCATACAATATTTGTCCTTTGTGTCTGGCTTATTTCACTTAGCATAATGTCTTCAAGGTTCATACCTATTGTTGCATGTGTCAG
AACTTCATTGTTTTTATGACTGAATAATATTCCCTTGTACGTATATATCACATTTTGTTCATCCATTCATCTGTTGGGTTGTTTCTACCTTTTGGCTATT
GTGAATAATGCTGCAATGAACACTGGCATACAAGTATCTGTTTGAAGCCCTGTTCTGATTATTTTGTGTATGTATCTAGAGTGTCATTGATTTTTTTTGG
GTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTCACCTAGGCTGGAGTGCAATGGAGTGTTCTTGGCTCATTGCAACCTCCGCCTCCCAGGTTCAAGCGAT
TCTCCTGCCTCAGCCTCCTGAGTAGCTGCAATTACAGGCTTCTGCCACCATGCCTGTCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTG
GCCAGGCTGGTCTCAGACTCCCGATCTTAGGTGATCTGCCAGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGCCCACTACCACGCCTGGCTAATTTT
GTATTTTCAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTTTCGAACTTCTGATCTCAAGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTAGGA
TTACAGGCATGAGCCACTGTGCCTGGCCCAAGTGTCATTGATTTTTGACAGACTTTTTGAATACGCACCGTGGCAATGGGAAGGACCCTTCGGAACAGGG
CCCAGTATCTTTGAGTGAGGGAGGGAGACGAGCAGAGAAAGGGGAGGTTTCAGTGTGGCTATAATTAGAATAACAGCTACCTTGTGCCTATTGCAAAACT
CTTCACAAAACACTCACCAGAAAGCGTAGCCAGAGGTTCAGAGATCATATTTATTTATTTCCTTCCTTCCTTCCTTCCTTCCTTTCTTCCTTTATTCTTT
CTAGGCAAGGAAAGTAGCTCTGAGCTGCTTCAGTCATCATATTCTTATTAATCTACAGCATTTTAGGTACCACAGAATTAGAATTTTGTAGAGCAATTGT
GCACTTCTACAGCTAAAGTTCTGGAAAAAGCAAAACTATGGAAACAGAAGAAAGATCAGTGGTTGTTAAGGGCTGGAGTCAAGGGGAGGAACTGACCACA
GAGGGGTTCAGGGGAATTTCTGGGAGGTGATGGAACTGATCTATATCTTGATTGCTGTGGCAGTTGTGCCATTGTATGCATTTTTCAAAACTCACAAAAC
TGTACACTAAAAAGGGTGAATTTTACTATAGGTAAATTATACCTTAATTTTTTCTTTTTAAAAAAAGAATGAATAAATAAATGGGGAGAAAACTAAATAA
TACTTAATACTCCCAGCTACTCGGGAGGCTGAGGTGGGAGGATTCCTTGAACCCAGGAGGCGGAGGCTACTGTGAGCCAAGATCACATCTCTGCACTTCA
GACTGGGTGACAAAGTGAGACCCTGTCTCAAACAACAGCAACAACAACAACAACAACAAAAACTAAATAAGAACCTAGGCCAGGCGCAGTGGCTCACGCC
TGTAATCCCAGCACTTTGGGAGGTCGACGCAGGCGGATCATTGAGGTCAAGAGATTGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAA
ATAAAAAAATTAGCTGGGCATGGTGGTGCACACCTGCAGTCCCAGCTACTTGGGAGGCTGAGGCAGAACTGCTTGAACCCGGGAGGCAGAGGTTGCAGCG
AGCCGAGATCGTGCCACTGCACTCCAGCCTGGTGACAAAGCGAGACTCCATCTCAAAAAAATAAAATAAAATAAAATAAAATAAAATAAATAAGACCCTA
GGCTCTCATGTGTTTGCGTATCTTGAGAACTTTGCAAGTGACACTAACTCTAATTATTTAGCATTAGAGCATAAACTTCTATTTTTTCATTCATTCATTA
TAAAATGAAAGCCCCTGAATCCACTATTCACAAAAACCAGAACATTGCTAAAAATTAAATCTACCTATGGGTTTCTCTCCCACAGGTAGATTTAATAGGA
GGATCCCTGCATCCTCCCCCAGGTAATTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTGTGTTCCAGGCTGGAGGGC
AGGGCAGTGGTGTTAATATGGTTCACTGCAGCCTTGACCTCCTGGGCTCAAGCAATCCTCCTGCCACAGCCTCCCAAGTAGCTGGGACCACAGATGCATG
ACCAGCCTTTTTTTTTTTTTTTTTTTCCTTCCATAGAGACAGGTCCTTCTATGTTGCCCAGGCTGGTCTTGAAGTCCTGGGCTCAACCAAACCTCCCAAA
TCCTTGGCTTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCATGCCTAGCCCCCCAGGTATTCATTATTCTGAACTTTGTGTTTCTCATTCCCTTGCT
CTTTTCTTTCTTTTCTTTTTTGAGATAGGGTCTTGCTATGTTGCCCAGGCTGGTCTTGAACTCCTTGGCTCAAGAGATTCTCTTGCCTCAGCCTCCCAAG
TAGCTGGGATTACAGGCCCAGGCTATTGCACCCAACGCCTTGCTCTTTTCTTAGTTTTTTTTCACGTAAAAATTAGGCTGAAGCACATGAATCTGCCATT
ACTTTTAGATCAAAACAGGTCAAATAACAGCAAATTCATATGGTTCAACCAAATATTATGCTTAGATGCAGTAGTTCTAGTTATTTTTGAATCATATATA
AAGGATGTCATTCCATATGTAGTCTTCTGAGATTTGCCTTTTTTCAATCCAATATTATATTACCATGATCCAACCATGTTGCTATTTTTCATTCATTTTC
TACTGCTCTATAATTAATTCCTTTGCATGAATATCCCACATTTCTCTATCTCCTGTCAGTAGCATTTCCGTGTTTTCGGTTTGGGGCTACCACAAACAAT
GTTTCTAGTAACATTCTTGTATACATTCTCTCCTGGTGCATTGCACAAGAGCTTACTGTGGCTGTACCATAGGAATGGACTTGCTAGGTTTTAGAGTACA
CAGATGTTCAACTGCACAAGATGTGACTGTGAAGTGAGGATGTGACTCATTCTCTGAGCTCCAAATAAGAATACAATGTGCACTTTCCTCAGGAGGGAAT
GTGGACAAGATGTGGTGGGAGGCGCTGGGATGGAGGGTCTCTGGTGGAAATTGAACACCTATGCCTAATGCATCCCAGTGATATCTTCCTGTTGCATCCA
TGATCTCTTTTAATCCTCCCAGTTAAAGAGAGGTACTACTATCTCCAGAGATTAGGTTTAGAGAAGGAAAGTGCCTTGCCAAAAGTCAGTTTGTGCCAAC
TGCCTGAGCAAACAATGTCCCCTCTCTAAGCTTCAGTTTCCTCTTACTGTAAAATGGATATGATAATACCTGACCCACTTCACAGATTAACGGCTTCGGC
ATGCATGGCTCCTGGAGATGCTCCCTAAAAGTCACTTGTTTGTTTGTTTGTTTTGTTTATTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCA
ATGGCGCGATCTCGGCTCACTGCAACCTCTGCCTGCTGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACTTGCTACCA
TGCTAGGCTAATTTTTTGTATTTTTAGTAGAGACTGGGTTTCACTATGTTGGCCAGGCTGGTCTCAAACTCCCACCTCGCGATCCTCCCGCCTCGGCCTC
CCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCGGCCAAGTCACTTGTTTATTAATGCTATTGTTAAGTTATTGAGTTGTTATTAATATTAAGGG
GAACAGTAACCCAGAATAGTCTGAGCCTTGCCTTATTGACATTCAATGGTGTTGCCTCTTGCAGAGACCTTTTTTGGATGTAGTGACCATGGCCCATTTT
GGCCACCACTTCTGATCCTGGATGTATCTTTCAGAGCTGCATATCCGGTCMCCCTCCTCTACCCTACTCGGGGCCTCAGAGCTGAGGTTCCTGTCTTTAC
CTGCAGATTTCTCTGAACAAAAGAAAAGGTAAACTGATCAGCGGCCCAGGCTCCCAGTTCTGCCTCAGGGCAAAGGGAGAAATTGGGGCCCAGGGCCTCA
TTCAGTGGAAAATATTTGTTGAACACCTAGTATGTGCCAGGACCTGTGCTGAGCACCAGGAACACAGGGGAACAAGACCAAACCCTGCAAGGTAGGAGGC
TAAAGGAGGAGACAGAAGACAACAAAACGACAGTGTGCTGAGTACAGGGACTGTTCTAACCAACAGAAAAACAGACAGGATCAGGGAAAGCTTCCCAGAA
GAGAGCTTCCCTTTGAGTTGGAGCTTTACGGCCGGGCAGAAGTTCCACAGGTGCTCAGAGACTGACAGGACCACCAGCCTGTTGAACAGAAGAGGAGACT
GAGCCCCAGCGCCTCTCGACCCCTCCCCGCCACACCTCACCTACCCGGACTAGGCTGAACGGGCCGAGCACTCGAGCGGGGACGCGCAGCTCTGCAGAGC
CCCGGGGCGGGGCCTCGGTCCAGGTGCGCGGTAGCGCTTCGCGGAGGCAGGAAGTGTGTCCCTAGCGGCGGCCCGTGCAGCGCTCCCGCGAGACGCTCAC
CTGCGCCCCAGGTGAGCGGCGAGGGGGCGGGGGAGGGGCTGAGCCGGAGGCGGCTCACCTGGCGGGACAGGTAAGCCCGGCGCGGGCCCAGGGGGGCGCA
AGCCAGGGCGGCGCCGGTGTCGGGAGCCCCCCGAAGCTGAGCCCGGACAGGAGAGGGTCCCGGGCCCGGTTCCTCGGGGGCCACCCTCCTACTTCCGGGG
TGCGCGGGCCGGGCTGGGGAGCGGCCTGAGCGGGCGCCCGGGCTGGGCGCGCAGAATGGGGTGAGGGGCCGCGTTCGCCCTTAGGGCTGCACTGGCTGGG
TGCGGGGGCCGCACTCACCGGGGGGCAGCGTCGGGATGGGACAAACGCTGGTGCTCACCCCGAGGAACAGCGTCGGGACGGGAGGGAGGCTGGGTCCGCC
CGCGGGGTAGGGCCCTTGCAGCTGGAGAGGGTAGTGCTCGCCCCGAGGGCAGAGTTGGTGTAGGGGCTGTGGTAGCCCGGGGGACAGTGCCAGGATCTGG
TTCTTCCTTGTCCCCAGGACTAGCTGCCCGCGGATATGGGACTCTCGGGCTGCACCTTTGGGGCAGGAGGCCGAGGGTGCACTGAGCCGACGGCTGTTTC
TCGAGCAGGACTGGGGTGGTCCTCCCCGGCCGGGTGTCCGAGGCTTGGCACTGGGCTGGGGGCAGAGGCTGGTGCGGCCGGGCCTGTCCTGGGGACCCTC
GGAGGAGGGGACGGTACATAGACCCTTGAGTGTGTGTGTGTGTTCGCGGGACTAAGGGGGAAGAGGAAAGCATCAACGAGAAATCCAGGGAGGGCGGGCC
GGGACCCTCTGACCCCCGGGAACATCCTTGCGGTGCCTTAGATCGCCTAGTGACCTAGCCCCTCCCATGGGCAAGGCCACTGCGGGAAGCCCCCTGCACT
CAATATTTCATTTAAATCTCACGGGATTGGCGGGGCATGAAGATACTAGTCTCTCCTTATTTAAAGATGAGGAAAGTGAGGTTAAGAATCTTGCCTCAAG
CCACAATAGGGACAGGGAGTCTCCCCTCACTAAACCAAGTGACCAGGTTCCTAGGATTGGGCGGGGTGGTGGCGGGGCGGTGGCAGCAGGGTCGGGGAGA
TACAGCCTGGAAGAAACTGCCTGAGTTTGACTTCAGGAGGGTTCAATGGCTGGAGGGAAGTGGGGAACTGAGGCAGGCATTGTCCTTATCCCAGGTCTTC
TCTTCTCATCCCACCACCGCTGGAGATGTGTGGCACACACAAAGTACGCAGGCTTCAGAGCCTGGCGGGCCACAGTGCAAATCTTACTCCAGCCCTCTCT
TGCTAGGTGTCTCTGGGCCAGTCACTTCACCTTTCTGAGCTTCAGATTCCTGATCTGTGAAATGGAGATATACTACTTATTTTCAGAGCAATTGTGAGAG
TCAAATAAGGTGAAAGTCCTCTGGCCCATTCACTGCTGTTTTCTCAGCATTTAGCACAACGCTGGGCACCTCGTTGTATTAATTTAATCAATAATAGAGA
GTCCTAAAGCTTTGGAGGTTGGGGAGAAGACAATAGCCAGTCCATCCTCAGGAGCCCCACGTACTTCCGAGCTCAGCATGGTTAACTGTAGATCTGTCCA
CTCTCCTGAAGGCTTGAGCCTGGAAGACAGGGCTCCCAACATGGGCTCTCTCTGGGCACACGCTGGTCCATGGAGCTGGCAGCTTTGACTGCCTCTTTTC
TCCCAAGTAATAGATGGGATGGGGTAGTGGATAAGAGTCTGGGGCCAGGCCAATTGTGTACAGATAGATGTATGGCTTTGGACAACTTATTTAACCTGTC
TGTGCTTTAGTATAATAATACAGGTAATAATATTACAAAGAGGGTTGTGAAAATTAATTGGTTATTATGTCTGAAGTACTTAGAACAGTGTAAGCCATCA
ATAATCAACTCTCACTGGATTGTAAACTCCTGAGGTTGAGGGATTTTGTCTGTTTTATCACTTTATCCATAGAATTTAGAACAGCTAGGCCGGGCGCGGT
GGCTCACGCCTGTAATCCCAGTACTTTGAGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGATCAGACCATCCTGACTAACATGGTGAAACCCCATCTC
TACTAAAAATACAAAAAATTAGCCAGGCGTGGCACGCGCCTGTAGTCCCAGCCACTCAGGAGGCTGAGGCAGGAGAATCGCTTGCACCCGGGAGGCAGAG
GTTGCAGTGAGCCAAGACCACGCCACTGCACTCCACTCCAGACTGGGCAACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAGAATTTAGAAC
AGCTGGCTGGGCGCGGTGGCTTATGCCTGTAATGTCAGCACTTTGGGAGGCTGAGGCAGGTGGATACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAA
CATGGTGAAACCCCATCTCTATTAAAAATACAAAAAAATTAGCTGGGTGTGGTGGCATGCACCTGTAATTCCAGCTACTCAGGAGGCTGAGGCATGAGAA
TTGCCTCCACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCATGCACTCCAGCGTTGGTGACAGAGTAAGACTGTCTCAAATAATAATAATAAT
AATAATAAATCCAGCATGTGGCACACAGTGGGCCCTCAGTAAATATCTGTTAATTGCGTGAATGTGTGAATCCATACCCCACATTTCTCAAACTAAAGCA
AAGATTTTTAACCACTTAGCTCAGATTGCAAGGGAATTTAAAATCACCTGTTAGAATTTTATTTGGGATACCGTTGCAGATGGGATTTCACTCTCTCCCT
CACCTCCTATCCCCCATCCATACTCTGGTCAACGTAGAGCCTAAGTCTTTTTTTCTTTGTACCCAGTGGCGCTGGTTCTACCCTGAGGCAACCTGAAATC
TGTCAGTCCCCTGAGGCACCTAGTGTACCAAACCCTGTTCCAGACCCTGAGGCAGAAAAGAATTACACACAGTCCCTGCACTTCAGGGTCATGGTCCTTG
GGGACATAGACTTATCCTCAAACAATCAGTACAAGGCTGACCCAGCTGACAGCCCAGCAGAAGGCCATGGGGAGAGGGCCTCCCATCTGACTAGTGGTTC
CAGAAGGTCCCTGGAGAAGGAGTGCTGAGTAAGGCCAGGAGAGTAGGTTAAAGAGTTGTAGGAATGGTTAAAGAACTGTATCCTAGGCCAGGCACAGAGG
CTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAGGGCAGGAGATCACTTGAGGCCAGGAATTCAAGACCACCTGAGCAACATAGCAAGATCCCATTTCT
ACCAAAAAACAAAACAAAACAAAAAACTAGTGGGGCAGGGTGGTATGCACCTATAGTCCTAGCTACTCAAGTGGCTGAGGCAGGAGGATCACTTGAGCCC
TGTTGTTTGAGGCTTCATTGAGCTAGGGTTGCACCACTGCACTCCAATCTGGGTAACAGAGGGAGACCTTATCTCTAAAAATAAAATAAAATAAATAAAA
GAACTGTATCCTTCACATCCCCATTTACCATGGGCAACATTCCCTCTTTCCCTTTCTCTACACACACATAACTTTTGTTCTTTTGTGTTTGAACCATTTG
AGATTAGGTTGCAGATAATCCTGCCCCTTTATCCCCAAGTGCTTCAATGTATGTTTCCTAAGAATAGAACATTATCTTATATAACCACAGTAATCAAATT
CAGAAAATGTAACATTGATATAATACTATCAAATAACATATTTCACCAGTTATTCACATTATCCAATTTCCAATTTTTTCCTCCCAATCCAGGATCCTTT
CTAGGATCACACTGCATTTAGTTGTCATGTTTCTCAACTTGGGCTTGTCTATTATTTCCTCATTATTACATTCAGGTTATGCATTTTTGACAGGAATACT
TCGTGAGTTGTATCCTCCTTAGTACATAGTATCAGGAGGAACTTGATGTCAATTCATCCCATTATGGTGATATTATCTTTGATCATTTGATTAAAGTGGT
GTCTGCCGTGTTCCTCTAAACATTTTAAAGTTTTTACTTGCTACAGCAAGTAAGAGGGAATGGAAGTGGCCAGAATGGCGGCTGTGACAGTATTTGGGTG
AGAGATAATGATGGCCCTCTTTAGGGAGGTGGCATTAATTTTCCCAAGTGCCAAATCTGGGGTTAGATTAGGGCCAGAACTGGAACTAAAACACAGATAT
CCCGATGCCCAGTTCCACATTCCTCACACACCCCYGGTTTAAGACCCCAGTGCCATTAATTCAGGAATAAAAGGATAAGGGATCAGTGTCTCAGAAAATC
CAAGCTAAGGATAGTTACTGCCTGGCAAACCCCTACATGAGATCAAGGACCTTCCCAAATACACTACTGCATAATCTTCCTTGACTCTGTCAGGCAGAGT
TATTTACTCCCATGATGCTTCATATATCCTACATGCTCCATCTTACAAACTTTGTTTGTTTGTTTGAGATGGAGTCTCACTCTGTTGCATAGGCTGGAGT
GCAGTGGTGCGATCTGGGCTCACTGCAACCTCCGCCTCCCAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGCATAGCTGGGATTACAGGCACGCTCCA
CCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAAATCCTGACCTCGTGATCCACCCGCCTCAGC
CTCCCAAAGTGCTGGGATTACCGGCATGAGCCACTGTGCCCGGCCCTCATCTTACAAACTTTTAAGCATCTGTTTTCCCTGCAAAACCATATGTGAATCA
TCAAGAACAGGATCTGTAATTCATTCATCTTTGGTTCTACGGTACCCAGCACAGGGCCAGCCTCAGTGTTTATGAAGTAAAGGAAGTCCTAGCTCTGAGC
TTCCTAGCAACCAGGTCAGAATGGGAAAGAAGACATATTTTGTGGCTCAGCTTTTTTATCTAATCAAAGGACACCAACAGTGGTTGGTGTTAAATGTTGC
TAGCAGGGCAAATGTGAGTAAGACTGAAATATTGACAGACCTTGTAAATTCCCATATCTGATTTGAAGGACCAGGAGAGGGAAAAAGGTATTAATGATCA
GGTTCCATAGCAAGTCTTATGGAAAGGCATTTGTTGAGCAGCCACAGAGGCTCTCAACAAGAAAAACTTACCAACAGCAGGAAGAAACTGGGGGAAACCA
CTTCACAGAAAGTGAGATCCAGGAGATCTTTCTGTAAAATAGCTATAAAAGTTACCATAGTAGGCTGGGTGCAGTGGCTCATGCCTGTAATCCCAGCACT
TTGGGAGGTTGAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTACTAAAAATGCAAAAATTAGC
TGGGCGTGGTAGCGGACGTCTGTAATCCCAGCTACTCCGAGGCTGAGGCAAGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGAATGC
GCCATTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAGGTAACTTATTAACTTTTTTTTTTTTTTTGAGACAGAGTCTTGCC
ACTCTGTCACCCAGGCTGGAGTGCAATGGCGCCATCTCGGCTCACTTCAACTTCTGCCTCCTGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTCAGTAG
CTGAGATTACACGTGCCCATCACCATACCTAGCTAATTTTTGTATTTTTAGTAAAGACAGGATTTCACCATGTTGGCCATACTGGTCTAGAACTCCTGAC
CTCAAATCATCCGCCCACCTCAGCCGCCCAAAGTGCTGGGATTACAGGCATTAGCCACTGCGCCTGGCCTAACCTTTTTTTAAAGAAACCACATTTGGCC
AGGCGCAGTGGCTCATTCCTGTAATTTCAGTACTTTGGGAGGCTGAGGTGGGGAGATCACCTGAGGTCAGCAGTTTGAGACCAGCCTAGCCAACATGGTG
AAATCCTGTCTCTACTAAAAATACAAAACTTAGCTGGGCGTGGTGGCACGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAAGAGAATCACTTGAA
CCCAGGAGGCAGAGGTTGTAGTGAGCCGAGATGGTACCACTGTACTCCAGCCTCAGTAACGGAGTGAGACTCCGTTTCAAAAAAAAAAAAAAAAACATAT
TTAAGCATCATTCCCATATTTAAGCATCATTCCTGTGGCATTAAATACATTCACATTGTTGTACAACTATTGCCACCATCCATCTCCAGACCTTTTTCAT
CTACCCCAGCTGAAACTCCCTACCCATTCAACACTAACTCCCCAGTCCCCTCTGCCCCCAGCACCAGGCAACTACCATTCTACTTTGTGTCTCTATGAAT
TTGACTATTCTAGAGATGTCATATAAGTGGAATCTTACAATATTTGTCTTTTTTTTTTTTTTTTTGAGACAGGGTCTGGCTTTGTTGCCCAGGCTGGAGT
GCAATGGCACGATCTCAGCTCACTGCAACCTCCACCTCCAAGGCTCAAGTGGTCCTCCCACCTCAGTCCCCCAGGTAACTAGGACTACAGGTGTGCACCA
CCACGCCCAGCTAATTTTTGTATTTTCAGTAGGGATGGGCTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGCGCTCAAGTGATCCACCCATCCCA
GCCTCCCAAATTGCTGGGATCACAGGCATGAGCCACCGCACCCGGGCTATTTGTCCTTTTGTGTCTGGCTTATTTCACTTAGCATAAGTTCTTCAAGGTT
CATCCATGTTGCAGCATGTATAAGAATTTCCTTTCCTTTTTAAGGCTGAGTAATATTCCATTGTATGTATATACCACATTTTGTTTAGTCATTCATCCAT
TGGTAGACACTGGGATTGTTTCCACCTTTTGGCTATTGTGAATAATGCTGCTGTGAACATTGTCTAAACATCTGAGTCCCTGCTCTCAATTAGATTGGGT
ATGTACCCAGAAGTGGAATTGCTGGGTCGTGTGGTAATTCGATGTTTAATTTTTGGAGGAACCACCGTACTGTTTTCCATAGCAGCTGCACCATTTTACA
TTCCCACCAGAAATGCACAAGGGTTCCAGTTTTTCCACATTATTGCCAACACTCATTATTTTCTGGGAGAAGGGAGATTATTTTTAAATACAGATTGAGA
GATTGAGTATCCCTAATCCAAAAATCCAAAACACTCCAAAATCTGAAAGTTGAGCACCAGCATGATACTTAAAGGAATGCTCATTGGAGCATTTCAGATT
TTTGGATGAGGAATGCTTAACAGGTAAGTATAATGTATACAATCCACAATTCAGAATCCAAAACATTTCTGGACCCAAGCATTTCAGATAAGATGTTCAA
CCTTTCTTTTTTTCTTTTTCTTTCTTTTTTTTTTTTGAGACACAGTCTCGCCCTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAAC
CTCTGCCACCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCCACCACTATACCTGGCTAATTTTTTTTGTATTTT
TAGTAGAGACGGAGTTTCACCATGTTAGTCAGGTTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGCCACCACGCCCGGCCAATGTTCAACCTTTCATAGCCATCCCAATAGGTCTAAGTCACAGGGAATTTTGAAATCTGGGTTAGACCACAGAGACTT
TCTCTTTGTGGAGGGASGGCCACAAGAGATAAGGGTTTTTGGGCATACTTGGGTCCATCCACATCCCAGGCAAGGGTTTTTGGGCATACTTGGGTCCATC
CACATCCCAGGCCTCTCAGAAACTAGAAATGTGAAGCTGCTCAAGTCAGCCCAGGAGTTTGTCCCTCACCTCTGATCCTGACTCCTTCCTGGCCTCTCCC
CACGCAGGTGCCTGGCTGCTACAAACCATGCAATGAGCCATGCCCCGCCCTGGACACCCCCGCCCAGCATCTGGGCCTCCACGCTTGGGACCGTGGGAGC
GGCCAACAGAGCTATGTCTGGAGACATATGATAAACCACCTCAGCCCCCACCAAGCCGCCGCACCCGTAGACCAGACCCCAAGGACCCTGGCCACCATGG
GCCAGAGAGCATTACCTTCATCTCTGGCTCTGCTGAGCCGGCCCTTGAGTCCCCCACCTGCTGCCTGCTCTGGCGACCCTGGGTGTGGGAGTGGTGCCGG
GCTGCCTTCTGCTTCCGCCGCTGCCGGGATTGCCTCCRGCGCTGTGGAGCCTGTGTGYGGGGATGCAGCCCCTGCCTGTCTACTGAGGAYTCCACTGAGG
GGACTGCTGAAGCCAACTGGGCCAAGGAGCACAATGGAGTGCCCCCCAGCCCTGATCGTGCACCCCCCAGCCGGCGGGATGGCCAGCGGCTCAAGTCAAC
CATGGGCAGCAGCTTCAGCTACCCCGATGTTAAGCTCAAAGGCATCCCTGTGTATCCCTACCCGAGGGCCACCTCCCCAGCCCCTGATGCGGACTCCTGC
TGCARGGAGCCACTGGCCGATCCCCCACCCATGCGACACAGCCTGCCCAGCACCTTTGCCAGTAGTCCTCGTGGCTCCGAGGAGTACTATTCTTTCCATG
AGTCGGACCTGGACCTGCCGGAGATGGGCAGTGGCTCCATGTCGAGCCGAGAAATTGATGTGCTCATCTTCAAGAAGCTGACAGAGCTGTTCAGCGTACA
CCAGATCGATGAGCTGGCCAAGTGCACATCAGACACTGTGTTCCTGGAGAAGACCAGTAAGATCTCGGACCTTATCAGCAGCATCACGCAGGACTACCAC
CTGGATGAGCAGGATGCTGAGGGCCGCCTGGTACGCGGCATCATTCGCATTAGTACCCGAAAGAGCCGTGCTCGCCCACAGACCTCGGAGGGTCGTTCAA
CTCGGGCTGCTGCCCCAACCGCTGCTGCCCCTGACAGTGGCCATGAGACCATGGTGGGCTCAGGTCTCAGCCAGGATGGTAGGTGGGGGCCCCATGGGGC
TGAGGGGCAGAGTAGGGGAGGCTCTGGCCAGGGGAGGGTTGGAATGGGGTCTTTAGTCACTGTGGGTCTACCCCTCAGCCAGTCCCTGCCTTTCCTCCTC
CTTTCTGTCAACTCTTGCATCCCCTCTCCCCAGCTCCCACTCTGGCCCTTCCTGGTGAGGTCCGAGCAAGGCTGAGAGAAGCATGCAGACCCTGGGAGAG
CTCTCTGGCCATCGCTGCTGTCCCCAGAAAGGTCAAGGTTCCCTCTGCATTCAACAAGTTTACCCAAAAGGCTCCTCTCCTCTGCTGTCTCCTGCCAGAG
TAGCTTCTAGGCCTGGTCTGGTGAACAGGACCTAGGGACCCACATGAATTTGGGCCTCTGACCTGTTCTGGGCTAACCAAAACTCCCACTCATCCATCAC
TCTGCGCATGCACACGTTGTCTATGTCTCTGTCTTTAAGCATTATTTTTCTAGCCCTGCCCAGGAGTGAGTGGCTCCTCCCTCATCGGGCTGGGAACAGA
AGTAGGAAATAGGGTTGAAAGAACGTGCTAATGACCACTGCTTGCCTCACGTTCCCTCCCTAGAGCTGACAGTGCAGATCTCCCAGGAGACGACTGCAGA
TGCCATCGCCCGGAAGCTGAGGCCTTATGGAGCTCCAGGTGTGGTCTTGACCTAATGAGGGGTGTGGAGGGTGGGGGACTACCCTAGGGGCCCCTCACCT
GCTGCTCTCCCAGCTTTCTTTTGGGGTGATGAGGATGACATCAAAAAGGGACGGGGACCTAAGCAGCCACAGACCTGTCTCCATCTAGCAAGCTGGCTTA
AAGTGGGTGCAGGTGCCCAGAACAGGCAAGCTGAAAGTGATCAGACCCCAACCTTCAAGCCCAGATGACTAGGAAAGTAGTGGGTGGGGAGCCATCCAGC
ATGGTGCTGGAAAGACACCCGTGTGGTTCTGTTGYGGTCTTCTTGCCCTTGACAACAACCCCCTGGGAGTGGAATCATTATCCTTTTACAGAAAGGGAGG
CTAGGGCTCAGAGAGGTCAATAAACTGAGTGGGTCATCCAGCCAGGATCAGACTGACCCAGGCTCAAGTCCCACTCTGCTCCTTCTCARCAGGCTTCTCC
CTGGTCATGGGATCTGGATGAGCTCCTTCCCCTGAGCCTGTTTCCTCCTCTCCTCTCCTTCCTACCAGGGTACCCAGCAAGCCATGACTCATCCTTCCAG
GGCACCGACACAGACTCGTCGGGGGCACCCTTGCTCCAGGTGTACTGCTAACCCCTGCCAGGCCCAGCTGCCACACCCTTTCTGGGAGAAGCATGGCCTA
CAGAATGAAGAGGGGGACCAGGAACCCCTGTGGGAGAGGCTTAGACCTGAAGCAGTGCCCACTCTGGCTCCTCCTGCCTTGGCTGACTGGGTTCCTGGAC
CATGTGCATTTCACTGGGCCATGGGATCTACATCTCCTTGCATCCCCAGCTGGTCTGATCCCTGCCAGGGCCCCTTCCTTCCTGCTCATGGTCTTCAGGT
GGCCTGATCATGGAAAGTAAGGAGTTAGGCATTACCTTCTGGGAGTGAACCCTGACTCCATCCCCCTATTGCCACCCTAACCAATCATGCAAACTTCTCC
CTCCCTGGGGTAATTCAACAGTTAAAAGAAGCTTATCTTAAATGTATTGTATTGGGGGGTGGGCAGGGCCCACTCTATGTTATGTTAAGGAGTTGGTTCT
GGTTCTTGGCTGATGTTCTGTATCTTAACATGACCACAGTTTGTAAGTACAAAGGTAATTGGTATCTGCCTGCTTTCTTGGCTGTCCTTTCTCTCCCATC
TGCCTCACTTAACTGCTGCCCAGAGCAGGAGACAGGATATGTGTCCAGCCTGGCTTAGTGCCCTGCAGTTAAAGTAGGAAGGATAAAATGGGAGTAATGC
TGCCCCCATTTCAGGTTCACTGTGAGTTCCAGGAGATAAAGAACCAAGCACAGAGTCTGTGCCTGAGAAAGGTTGGATAAATGGTTTCTGACATTGTTTG
AGAGGTTCTTCTAGGGAGGCCTGTCCGAACTGCCTCTGCTCTCCCAGTCCACTGCCTGCAGGCTGGCCTGCTTCTGCCCAGCCCACAGTTTCCCCAAAGC
CTTGATCATTTGTTGGCCCTACCCAGCCTTGGACCTGCTGCTCCCCTTCCACTCTCTCTGTGGTAGTAACAGAGCACTGTGGTTTTTTTTTTTTTTTTTT
TTTTTTTGAGATGGAGTTTTTGCTCTTGTTGCCCAAGCTGCTGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCTCCGCCTCTCGGGTTCAAGCGAT
TCTTCTAACTTAGCCTCCCGAGCAGTTGGGATTACAGGCATGCGCCACCACGCACAAATAATTTTGTATTTTTTAGTAGAGACAGGGTTTCTCCATGTTG
GTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCCGGGATTAGAGGCGTGAGCCACCGCGCCTGGCCAGCACT
GTGGTTTTCACCAGTATCTTCTTGGCCTCTCCAATAACGTTGGAGAAAGGACATTATTCTTTCACAGAGAGGAAACGTGGGGCTCACAGTGAGGTCAAGG
AACTTAGTGGGACACGCAGTTAGTAACTGTGGCTCTGGCCTTGCTGGGGCAGATGCAGAATCCCTTCATTAGGTAGCAGAGCCCAGATGAGTTCAGAAGG
ATCCTACTTGGCTGCTCCTCACACACAGGCTTATCTACTGGTCCTCTTTCAGCAGAGAGGCCGGGGCAGGCCCACCAGCCCATTCTTAATTAACAAACAA
GCTAGAAAGTGTTGAGGATCCCCCCACTCCAGCTCCCATCTGACCTGCTGCCCCCACCGCCCTTTTTATTGTTCCGAAAGGCACCCTTTGGAAAGTAACT
ACTAGACAAATTGTACTTGTTTGTCCAGTTTCCTAAGGGAAACAGGATGATCTCTCAGGGCTATGAACATAGGGTTCAGTTCTAACTCCAGGCTCTGCTG
TCGCATCCGGGTCAAGGCCTCCAAAAGATTAAAATGACCACGGGGCAGAACAGGAGTACAGAGCGGTAGAGTGACACCACGAACCAAGCCTCAGCCCTAG
AGCACCATTTTCCAAACCTAGCCTTTTAAACCATTATTTGCATTCCCAGGAAAAAAAAAAAGGTTTAGCAAGTTTGGAAAACAGACAAAGCTATGTACTG
CATAGCCTCTCTGAAATCTTTAACAAGCTATTCTGAATTTTTTTTTTCCCCGAGACAGAGTCTCGCTCTATTGCCCAGGCTGGAGTGCAGTGGCACGATC
TTGGCTCGCCACAACCTCAGCCTCCCAGGTTCAAGTGATTCGCCTGCCTCAGCCTCCCAAGTAGCTGTGATTACAGGCACGTGCCACCACACCCAGCTTT
TTCTTTTCTTTTTGGAGACGGAGTCTCACTCTGTTGCTCAGGCTGGAGTGCAGTGGCGCGATATCTGCTCACTGCAAGCTCCACCTCCTGGGTTCACACC
ATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATG
TTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGGTCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCCTGGGCCACCGCACCCGGCCAACAC
CCAGCTAACTTTTTATATTTTTGGCAGAAATGGAGTTTCTCCATGTTGGCCAGGCTGGTTTCGAACTCCTGACGTCAAGTGATCTGCCTGCCTTGGCCTC
CCAAAGTGCTGGGATTACAGGCGTGAGCTACTGTGCCCAGCTATTCTCAAATTCTAAAAAAAACATCTGTGTTCCAGAAATTTAGGAGCCAAAGAACTAA
GCACTCACAGCAAGTCAACCTAGACATTCTTGCTATAACCTCTGTGGCCCAAGCATTCTGACCTCCACTCTCTAGCCAAAGTGGGGCAGGGGTCAGCTCT
GTGGGCTGGATCTGAGCAAAGGGGAGCACCTCTTCAGCCCTGGGAGCTGGCTTTGAGAAGGCCTAGAATCTGCAGAGGTCCAGGTCTGAGATACAAACAA
TGGAGCCTCACTGGACTTTACTCTGTCCTCCTGGTAAGGTCCCTGTACCACACACACCAGATCTGAGGCCTGAGCTGTCCTCCTGGTACCCCTCCCCTGA
GCCAGGCAGTGTCACCTTGGCCCTTGCTGCTCTTCTGCCCTGGGACACAATAGTCTCTAGTTTCAAGAATACTTGATTCACGGCTAGAGGGCAGACCCGC
TGCAGTGGGAAGTAAAAATCAGATCAACAAGTCCAGCGGTCTTAAAACTTTTTTGGGTCATGCGCCCCTTTGAGAATCTGACATGTGTTCTGGTCTCTGT
AGCCAGAAAAACTCAACCTTTGCTCAGAAACATACATAGACTAAAAGCCTTGTTTTATTTATTTATTTTTTTGAGATGGAGTCTCTGTCACCCATGCTGG
AGTGAAGTAGTGCAATCTCGGCTCACTGCAACCTCCGCCACCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTGCA
CCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGACTGGGTTTCTCCATGTTGGCCAAGCTGGTCTCAAACTCCTGACATCAGGTGATCTGCTCCCC
TCAGCCTCCCAAAGTGCTGGGATTACAGACATGAACCATCACACCCGGCCAAGCCTTGTTTTAATCTTTAAGTAATGAGAAACTGAGGCCCAGAGAGGGG
CAAGGATGTGCCCTAGGTCACATGGCAGAATCTGGGCTAGAAGCCAAACTCCCAGTTCCCAGCAGCAGCCGTAAGAGGCCTGTGCCCCAGAGAAAGGCCA
GAGGCAAGAGAGGACACAGAAGGAGCTGGGCAAATCGTTTTAATGTGTAACAGTAGGCCAACTGGGGAGGACAAGGTCCCAAGACCCAGCCTTTCTCCTG
ATGCCCCGGGACCTGTGTGCCTGGGCCAGTCCCATGCCTGCCCCAAGCCCTGAGGCCCACAAGTCCCAGAGAAGAGTGGGAAAGAAAGTTGGGTGGTTGC
AGCTCAGCCCCAAGAGTTCAGGGAGGAAAAAACAGGGGCTAGTTGAATTTAGCCTTGGAAAAATCCATCTCCGGATGTTGATCCATGAACCTGGAGAAAC
GGAAGCAAGATGAAACAGCTCATCCTTCTCTTCTAAAGCTGTCCCTTCTCCCAGCACCCCCGTGTCAAGTCTAATCTCTTTAGACCTCAGCAACACCAAG
CCAGGCTGGGCAGGAGCAGGGCCCAGGGTATCTGAGACGCATTTGAGTCCCGAGGCTGGAAGCTGAGGCACCAACACTGGCATTGTTTTCCTGTAGGTGG
CAATGACCGCCTGTTACCCCTTCCCTCCTATCATGCACCATGAGCCGGCCTTGCCCTCAAGATGACCTCAGCAAATGACAAGAGTAGGCAAGCCAAAGCC
ATAAAGCCATAAACATGGCTGGAAAGGGGGCAGGGCAGCTCCTGAGGCAGCGCAGTGATCCACTCACTGCTGTCACCGAAGTCTAAGCCCCCAGGCACCC
ACGGTCCCCCAACCCCGTCTCTGAATTGCTCACTTCTTCAGAATCTCCTGTTTCTTCTGTTCGTCTGAAGTTGGCAGCCCCATGGACTTCTGTCGCTGGT
CATACATCATYTTTTCCACCATGCTGCGAGTCTCACTGTCCAGGTCTGACAGCTGAGGGCAGGCAGTGACAGGAATCGGTGAAGCTCTGGAAACAACGAG
GCCCCTCACCTTCCTGCTGAAGCTCCCCCAACCAGCCAGGGCTCACCTTGGAATTCTCAGGGTTAATCTTCTTGGTGTTGATCTCAGGGTCACTGGACAC
CAAGCGGCTCCACCACTCCATCTTATTGATCTGTGAAGAGAACAACCAGAGGGTGGGAGGTGGCCTGCTCTGTGCACCAGGAATCACCCCTTAACCCTTT
CACAACCAAACTCTCTCCCATCCACATCCTGCACCTGAGACCCTTGCAGGCCTACACTGGATCCAGAGGTACAAGACTGTGCCCTTCCTGCAGCTAGGGG
AGACACAGAGGCAAAGAGTTACAAATCAGTGTGATAAGGGAAAGAAGAAAGCAGAAAGGGAGATATTCATCCAGGGTGGAGGGAGAAAAGTTTGAAAGTG
ACACTCGGGCTGAGTCTTAAGACACAAAGCAGTATTCCAGATTTAAAATGGGAAGAAAATAAATATATATATTTTTTGAGATGGAGTCTTGTTCTTCTTG
TCCAGGCTGGAGTGCTGTGGCACCATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCGGCCTCAGCCTCCCGAGTAACTGGGATTA
TAGGCATGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGCTTCACCATATTGGGCCAGGCTGGTCTCAAACTCCTGACCTCAGATG
ATCTGCCTGCCTCAGTCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCACCATGTGCAGTGGTGCAGTCAGCTCACTGCAACCTCCACCTCCTGGGTTCA
AGCGATTCTCCTGCCTCAGACTCCCAAGTAGCTGGGATTACAGGCGCCCACCACCATGCCCAGCTAATTTTTTGTATTTTTATTAGAGATGGGGTTTGCC
ATCTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGTGATCTGCCCACCTCAGCCTCCCAAAGCGCTAGGATTACAGGCATGAGCTACCACGCCCAGCCAG
AAAAAGTTTTTAAGCAGGGAAGTGCCAGGTGCAGTGGCGCCTACCTGTAATCCCAACACTTTGGGAAGCCAAGGCAGGAAGATCCCTTGAGCCCAGGAGT
TTCAGACCAGCCTGGGCAACATGAGACCCTGTCTTTACAAAAAACATTTAAAAATTAGCCAGGTAGGGTGGCGCTCGCAGTTACTCAGGAAGCTGAGGTG
GGAGGGTCGTTTGAGCCCGGGAGGTCAAGGCTGCAGTAAGCCGTGATTGCGCCACTGCATTCCAGCCTGGGTGAGAACAAGACCCTGTCTCAAAAAATAA
AAAATAAATTTAAAAGGCAGGGAAAGGGCTGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACAAGGTCAGGA
GATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAAATAGAAAACAAAACAGACAAAAAAAAAAATACAGGCATGGTGGCGGGCGCC
TGTAGTCCCAGCTACACTGGAGGCTGAAGCAGGAGAATGGCATGAACCCAGGAGGCGGAGCTCGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTG
GGCGACAAAGCAAGTGCAGAGGCATGGAGGGGTGAGTGAGTGAAGGCAGCCAGTGCCAGTCGGACAGGCTGTTACAGGGTCTTATGTGCCCTGGGAAGTT
CTCCTCAGACCCTTGGCCCTTTTCAGACCACCTTTATTTACTGATCTCTGTGTCCTACCTCTCTGTAAAGGCAGTGAGGTTGAGAATGAAGGCTTCCTGA
GGGCACATATTTTCCTATGTTTTGTTCACTGTTCTCTTTCCAGCACTTAGAACAAGAACAGTACCAGGCACAGAGCAGGTGTTCAAGTATTTGATGAATT
GAATGCATGTACAAACCTAGTGAAAAAGAAGTGGCTTTAGAAACTAAGACT


SNP Information

Context             (SEQ ID NO:24488):
GTTGCCTCTTGCAGAGACCTTTTTTGGATGTAGTGACCATGGCCCATTTTGGCCACCACTTCTGATCCTGGATGTATCTTTCAGAGCTGCATATCCGGTC
M
CCCTCCTCTACCCTACTCGGGGCCTCAGAGCTGAGGTTCCTGTCTTTACCTGCAGATTTCTCTGAACAAAAGAAAAGGTAAACTGATCAGCGGCCCAGGC
Celera SNP ID:            hCV1745624
SNP Position Genomic:     5351
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 TFBS


Context             (SEQ ID NO:24489):
CGGCCAATGTTCAACCTTTCATAGCCATCCCAATAGGTCTAAGTCACAGGGAATTTTGAAATCTGGGTTAGACCACAGAGACTTTCTCTTTGTGGAGGGA
S
GGCCACAAGAGATAAGGGTTTTTGGGCATACTTGGGTCCATCCACATCCCAGGCAAGGGTTTTTGGGCATACTTGGGTCCATCCACATCCCAGGCCTCTC
Celera SNP ID:            hCV27828159
SNP Position Genomic:     13817
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,23)   caucasian(G,38)   total(C,1|G,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:24490):
GGCAGCAGCTTCAGCTACCCCGATGTTAAGCTCAAAGGCATCCCTGTGTATCCCTACCCGAGGGCCACCTCCCCAGCCCCTGATGCGGACTCCTGCTGCA
R
GGAGCCACTGGCCGATCCCCCACCCATGCGACACAGCCTGCCCAGCACCTTTGCCAGTAGTCCTCGTGGCTCCGAGGAGTACTATTCTTTCCATGAGTCG
Celera SNP ID:            hCV25965960
SNP Position Genomic:     14605
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24491):
CTGCTGCCTGCTCTGGCGACCCTGGGTGTGGGAGTGGTGCCGGGCTGCCTTCTGCTTCCGCCGCTGCCGGGATTGCCTCCAGCGCTGTGGAGCCTGTGTG
Y
GGGGATGCAGCCCCTGCCTGTCTACTGAGGACTCCACTGAGGGGACTGCTGAAGCCAACTGGGCCAAGGAGCACAATGGAGTGCCCCCCAGCCCTGATCG
Celera SNP ID:            hCV15971990
SNP Position Genomic:     14358
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,24|T,6)   total(C,56|T,6)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,6)   caucasian(C,15|T,5)   total(C,21|T,5)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24492):
AGTGGTGCCGGGCTGCCTTCTGCTTCCGCCGCTGCCGGGATTGCCTCCAGCGCTGTGGAGCCTGTGTGCGGGGATGCAGCCCCTGCCTGTCTACTGAGGA
Y
TCCACTGAGGGGACTGCTGAAGCCAACTGGGCCAAGGAGCACAATGGAGTGCCCCCCAGCCCTGATCGTGCACCCCCCAGCCGGCGGGATGGCCAGCGGC
Celera SNP ID:            hCV15971991
SNP Position Genomic:     14390
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,23|T,13)   total(C,53|T,15)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24493):
TTAATTTTCCCAAGTGCCAAATCTGGGGTTAGATTAGGGCCAGAACTGGAACTAAAACACAGATATCCCGATGCCCAGTTCCACATTCCTCACACACCCC
Y
GGTTTAAGACCCCAGTGCCATTAATTCAGGAATAAAAGGATAAGGGATCAGTGTCTCAGAAAATCCAAGCTAAGGATAGTTACTGCCTGGCAAACCCCTA
Celera SNP ID:            hCV9889160
SNP Position Genomic:     10235
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24494):
AAGTGATCAGACCCCAACCTTCAAGCCCAGATGACTAGGAAAGTAGTGGGTGGGGAGCCATCCAGCATGGTGCTGGAAAGACACCCGTGTGGTTCTGTTG
Y
GGTCTTCTTGCCCTTGACAACAACCCCCTGGGAGTGGAATCATTATCCTTTTACAGAAAGGGAGGCTAGGGCTCAGAGAGGTCAATAAACTGAGTGGGTC
Celera SNP ID:            hCV9889152
SNP Position Genomic:     16035
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24495):
AACCCCGTCTCTGAATTGCTCACTTCTTCAGAATCTCCTGTTTCTTCTGTTCGTCTGAAGTTGGCAGCCCCATGGACTTCTGTCGCTGGTCATACATCAT
Y
TTTTCCACCATGCTGCGAGTCTCACTGTCCAGGTCTGACAGCTGAGGGCAGGCAGTGACAGGAATCGGTGAAGCTCTGGAAACAACGAGGCCCCTCACCT
Celera SNP ID:            hCV26185805
SNP Position Genomic:     20811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24496):
CAGAAAGGGAGGCTAGGGCTCAGAGAGGTCAATAAACTGAGTGGGTCATCCAGCCAGGATCAGACTGACCCAGGCTCAAGTCCCACTCTGCTCCTTCTCA
R
CAGGCTTCTCCCTGGTCATGGGATCTGGATGAGCTCCTTCCCCTGAGCCTGTTTCCTCCTCTCCTCTCCTTCCTACCAGGGTACCCAGCAAGCCATGACT
Celera SNP ID:            hCV262128
SNP Position Genomic:     16189
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24497):
CCGGCCCTTGAGTCCCCCACCTGCTGCCTGCTCTGGCGACCCTGGGTGTGGGAGTGGTGCCGGGCTGCCTTCTGCTTCCGCCGCTGCCGGGATTGCCTCC
R
GCGCTGTGGAGCCTGTGTGCGGGGATGCAGCCCCTGCCTGTCTACTGAGGACTCCACTGAGGGGACTGCTGAAGCCAACTGGGCCAAGGAGCACAATGGA
Celera SNP ID:            hCV1745622
SNP Position Genomic:     14338
SNP Source:               Applera
Population(Allele,Count): african american(A,24)   caucasian(A,31|G,1)   total(A,55|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Gene Number:                 86
Celera Gene:                 hCG19516 - 145000147807632
Gene Symbol:                 FABP3
Protein Name:                fatty acid binding protein 3, muscle and heart (mammary-derived growth inhibitor);FABP11;MDGI;O-FABP
Celera Genomic Axis:         GA_x5YUV32W802(51776353..51796536)
Chromosome:                  Chr1
OMIM number:                 134651
OMIM Information:            FATTY ACID-BINDING PROTEIN 3;FABP3


Genomic Sequence (SEQ ID NO:12246):
GAGGAAGAGCACTGCTGGCAAACATAAAGAGAGAAACATGGTGTCCCCTCAAGGTACAAAAAGGTCAGAATGGCTGCAGTGTGTGTGGAAAGCTGGGAGA
GGCAGGTAGGGGCTAGAGTGTGTGGGCTGTGATGCTTAGGTTGTGGCTATGGGGTCATGTCAAAGAAAGTGGGTCTTGTGCTAAGGACCACAGGCAGCCA
AGGAAGGAGGCTGGAAGAGAAAAAACATAAACCAGGTACGCCTGTCCCAGCTACTGGAGAGGCTGAGGCAGGAGGATCGCTTGAGGCCAGGAGTTGGAGA
AACATCCTTTGTGCTGCATTCCTCAATTTGTCCTCCCCTAGCTTCTCAGAGTCCTTGGGAGGCTGGCTAGGTGAGAATAGTGATAATGCTCTTTGCAGAT
TTAGAAACTGAGACCCAGTGAGATCATGACTTGCCCGAGGTCACACAGCTGTTGTATACATATGGCAAGACTGGAACCCAAGTCTCACTCCAGAGCCCCT
AAAACTAGGGAGGTAGATAGATTCTCTCCTTCACTCACTCATTTGTTCATTCATTCAATATACTGTACCTGTCTACAACCATACCACCCTGAATGCACCC
GATCTTGTCAATATACTATACCTTATTCTCCGCCAGAAACTCTTCTTAAAAAGGATTTCAGCAACAAATTAGACCAAGGAAATAGATGAGACCAGGCTAT
ACAGTCTGGGCTTTCTTCTGTCAGCAACAGGGAGAGGATGGCTTCTGAGAAGGCAGATTGCCCCTCCCCACTGAGGTACCCCCTGTCCCCCAGGGCAGGG
AGGGTCATTGTTCTCATTTCAGGGAGCATTCTGCCACAGGCAGCAGTTTCTTAGAAGCAAATTGGTGTTGAGTAAACCTCTACCTTCTGCCATCATTTGT
TCTCTCCAGCCCACAGTATCTGGAACTCTTGGGGAACAAGGAAGCAGATTTCCTAGTGGCAGAAAGAACACTCCACCCACTGTAGCTGCAATCCCCCTGC
ACTGTGAGCTAAGTGAGAGCAGGGAGCTCTCCTGTTCACCCTGGATCCTCACTGAGCCTAGCACAGTGCCTGGCCATAGGAGGTGCTCAATTAAGATTGG
TAGAATGAATGAATATTTAAAGAGAGAGAAAGGGAAATATGAGGAAACTTATGTCCAAGATCTGAAGGCCACTCTGTGACCTCAATGAAGAGGAGTTGGC
CATATACTTGAATCCTTTCCTACTTATTCAGGGTCTCAAAGGGCCTTGGCTTACTCAAATATCCCGGGGAAAAGAACTGGAAGGAGGAAAGGAGAAAGGA
GTTACTATTCCTTCAATATTAGTGCACGGTAGGCTTTCCATTTGTTATCTCTTTTAATCGTCCTAACAACCCTGAGAAGTTGATGGCCTTCCTCTATTTG
GGAGAAAACAAGACTCAGAAGGGGGAAAGGGAGCTTGTTCTAGGTCTCTAGCTAGTAAATGCAGGCCTGGAGTTTAGAATCAGGGCTCTTTCCAAAGACA
CTGCATCTGAAGATGTCAGAGGCATTCTAACCAGAGTGACTCCATCTTGAATAGAGGCTGGATAAAATGAAGCTGAGACCTGGCTGGGATGCATTCCCAC
AAGGTGAAACATTCTTAGTCACAAAATGTTTACAGTTAAGAGTTAAGGGAACAGGTTAATAATTTACTAAACAGACATTTCTTTACTTCTCTAATAAACT
TGCTTTTACTTTATTCTGCGGATTTGCCCCGAATTCTTTCTTGTGTGAGATGCAAGAACTCTCTCTTGGGGTCTGGATTGGGACCCCTTTCTGGTAACAA
AGACCCCATGGACCAAGGGCATAAAAAGAAGGGATGTCTAAGACTTGCTGGTTCTATGGCAGGCAGAGGCAGAAAGAGCCCCACCATCATTCCCAGCAAA
TGGGAAAAGTTCCCAGTTGCAGATATTAGGGGTGGGATGGGGCGGGGGTAGTCAGCATCCATAGACTTAGACCCTGAAGAGGCAAAAAAGGAGGGCCATG
TTCTTGGGTCAGCAGAGCTTCTACTCAGCTTCTTCAGCCTCTAGCTCTTTCCTGGTGCTAGTAGCACATTCTCTAGTGGAGGCATCCAGATGGCAGGGAG
GGTCCAGGAAACAGCTGAACATGCTGAGCAGGCCTCCCTTGTCCCCGCTCCCCATGGCCCCATGGATCATCCGGTGCTGCAGCTCATCTCATTGGCTGGC
TTCTGGTTACTCATCTCTCCTCTTCTCCATCTTCCCAGCCTGTGGTTGCCGTGGAAACATAGAACAGTGACCTCACCATAGGATGAGGGCTGGGGAGATG
CTGTTCTTGGCAGGCGCTGGTCTTGCTGCCTGCCAGATGTTATATCCACATCTGGATCTGCCAAGGGCAAGACAGAGGAGTACAAAAAGGGACAGGGCTC
ACATTCTTCCCCAAATGTAGTCAGCATAACAGAGGAAGAGGATGCAGGTAGATCAGAGGGATGAGGAGAGAACTGTACATACTTAGAAGGGAGAAGGGTG
TAAACCAGGAGGAAAGGAGATGGGGTGTGGCTTATGGGTTAACCTCGGTGACCCAGGTCTGAGCACCATGGCGAGGTGAGGGAAGGGCAGTGAGGGTAGT
TGGTCTGAGGTTTGTCGAGTAGAGCTCCTCAAAGCCCCGTGCTGCTCAATTTGGACAGGCCCAAGAGAGGGAGCAAATGGATTTTCTGGCAGTGACCCCA
CCCCAACCCATTCTGAAAAACCTCTATAGCCCCTTTTTCAGTTGAAGCCCTTTCTAATCCTGTCCCAGAAATAATAAAACTGAGGATTAAAGAAGCAAAG
CAATCTGCCTCAGGTAACTAACTCAGTAGGTAGTGGCAGAGCTCAGACTAGGTCTTAGGTGTCTGCACTATCCCTGGAGACAATAACAATAGCAGCAGGA
GGAGCAGCAGCAGTGAACTTTCGTAAGTCAACCATGCTTAGCATTTAAATGTATTATCTCGGGCCAGGTGTCGTGGCTCACACCTGTAGTCTCAGCACTT
TGGAAGCCGAGGCAAGCAGATTGCTTGAGGCCAGGAGTCCAACACCAGCCTGGGCAACACGGCAAAACCCTGTCTCTACCAAAAAAATGCACAAAAAATT
AGCCAGGCGTGGTGCCATGCGCCTGTAGTCCTAACTACTCAGGAGGCTGAGGTGGGAGGATCCCTTGAGTCTGGGAGGTCAAGAATGCCATGAGCTGAGA
TCATGCCACTGCACTCCAGCCTGAGTGACAGAGTGAGACTCTCTCCAAATAAATAAATAGGCCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTG
GGAGGCCAAGGCAGGCGGATCACTTGAGGTCAGGAGTTCAAGGCCAGCCTGGCCAATATGGTGAAACCCCGTCTCTACTAAAAATATAAAAATTAGCCTG
GCGCGGTGGCCCGCGCCTATAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGG
GAGGCAGAGGTTGCAGTGAGCTGAGATAACACCATTGCACTCCAGCCTGGGTGACAGAGTGCAAGACTCCATCTCCAAAAAAAAATCCCTTCATTTTAAA
GATGAAACTGAAGCTGGCGTGGTGGCTCATGCCTGTAATCCCAGAACTTTAGGAGGTCCAGGTGGGCAGATCACCTGAGGTCAGGAGTTTAAGACCAGCC
TGGCCAACATGGCGAAACCCCGTCTCTACTAAAAATACAAAAATTATCCAGATGTGGTGGCAGTTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAG
GAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCACACCACTGCACTTCAGCCTGGGCAACGAGACTCCTTCTCAAAAAAAAAAAAA
AAAAAATGGAGACTCAGAATGGCTTAAGTGAATTGCCCAAGGCCACACAGCTAGTACCCAACAAAATTCAGATCAGAACGCAGATCTGCCAGCAGCCATT
AGCCCAGCCCCAGCTCTCCATCATTGCATTACAAGGGCCACATAAGGAGTCAGTTCTAGTTCCTGGCCACACAGTCCTTGAGAGGAGGCCCTATGTGTGA
GGGCTGCGACCTTGAGTCAGAAATCATCTTTTCCCCCTCCTCCTCTCCTGGCACCTGTTCCAACAGTGAGATCACCAAGGCTCCATGCCCAGCCCTGAAG
CCTGTCCCTATAGCTTTGGCAGAAATGAGCCTCTGAGTCTTCTGGCAACTGGACCGTCCAAAGGAATCAAGATCTTAGGGTGGGGAGAGGGCTCTTCYTC
CCTGGCCTTGTTCTCAGAACAGTCCAGGGAAGGGAGGCAGGGTTTGCACATGGAGAAACAGAGTCCCAGGAAGGAGGGCCTGCCATACTCTACGCACGTG
GCAGGCCTCTGGGCTCCTGTGTTGGCTCCTGCAGGCCCACCCTGGACAGGCTGCTGCTGGCTGAAATTCAGTTCGGCACTACTCCTTGGTGTGCAGGGCC
TCCTGCCATCCCTCAGAAATTCATTTATACCTCACTTCCTTTGAGAAGTCTACATTGGGCCCTCAGGTCAGGACAGGACAGGACTCCCTTTAGAGGCACC
ACGCTAGTTTTATGTCTGGCTGCCCAGAGGTGAATGTGTGTCTTGTTCCCTGTTGTCTCTCTCCAAAGCAGGGCCTGGCACAAAGTAGGTGCTTTATTAA
CTGCTGAATTAATGAGTGAGCTCCTCAGAGCTTCAACTTGTTCACCTTTTTAAAAAGAGAAAATAATACAGTAACACCTACTTCATGGATTTTGCTTTAA
AAGTCCAATGAGGCCAGGTGTGGTGGCGTGTGCCTATAGTCCCAGCTGCTGGGGAGGCTAAGGTAGGAGGATCCCCTGAGCCCCGGAGTTTGAGGCTGCA
GTGAGCTATGATGGCGTCACAGTACTCCAGCCTGGGAGACACAGCGAGAGACTTTGTCTCTAAAAAATAATAATAAAATAAAAAGTTCAATGAAACAATA
CACCCAAAGCCCTCAGCATGCAATAAATAGCAAGACAAGGCAGGTCTTATTTTTACTGAAAGTGCTTAGTAAACTATACAGTGACAAACCACCGCACAAC
AGGCTCTCGAAAGGAGGCAGCAAATTACCCAAAAGTGCAGGCGGCTTGCTAGTGTGCACAGGCCAAAGAAAGGGCGGCAGGTGGGGAAGGCAGCCATGGG
CCTTGAAGAGCTGACCGAATTGGCAGAATTTCTGCAGGAGGGGAGCTGGGAACGACCTGAGCTAAAGCTCGGAGCTGTGCGAAGAAACCGGAAAAGCCCA
GAGCACTTGCAGGGGCGGGTGGGGAGCTAGATGGTGGGGTGGGGTGGGGACGGAGGAGGGCCAGCAGGAGACATTCCGCAGGGAGGGGCAAGCACGTGTG
AGGCGGGCGGGGCGCGAAGGGTCAGGCTTTTGCTCAAAACAGGCAGAGGACAAGGTCAGCTCAGCCGCAGACCGAGCCGCTGGTGACTGTCTCCGCCACC
AGGCAGTGAGAGTGAAGGGAGAGCGCGAGCTCTGAAGCCCGCTAGACTAAGCTTGCAATCTGAGCTCCATTCACCCCCTCCTATTTCTTGAGACCTTGTC
AGTTCCCCTGTGAGCCTCGGACTCCTCACTTGTAAAACGAGGACAGATGCCCGTGCCAGAAGTCAACCAGAGCTTTCCCCGGCGTGGGCACCAGCCCAAG
GGCGTTTTGCTTTTCTAGTCTCATCTCTGCTCTGACGCTAAGCTCAAAGAGGGACTGGGGGACGGGAAGATATCCACCATGGCATGCGCCCTAGCTCTCG
GGCTGGTGTTGGCTGCTTCCTTCTCAGATTCCAGAGTGCCTAGAGGCCAGGAAAGGGAGAAGGTCCTACCAGCCTGGGGTAGGGACTCGGGGGCCAGGCA
CTGGCGCTGACGCAGGCTAGCAGGGCGCCACTGGCTGGTCCCCACCCACCTCGGTGGGTTGGGGGATGGGCGCACCAGCCCCTCCTGGGTGAGCCCTAGC
CTGGGGCTTCCTATTTCGGGAGCCGGGGGCGTGGGCCACGTCTCCTCATGTGATGCGAGGGCTATTTAAAGCGGCAGCCCGGGCAGGGAGCCGCCGTCGG
AGCCCTTGCACGCCTGCTCTCTTGTAGCTTCTCTCAGCCTAGCCCAGCATCRCTATGGTGGACGCTTTCCTGGGCACCTGGAAGCTAGTGGACAGCAAGA
ATTTCGATGACTACATGAAGTCACTCGGTGAGCAAGCCGCGGGGCTCAGGATGTTGGCTTGGGGACTGGCTGGTGGCGTGCCTAKCCCCACGCAGCACTC
CTGCCGCATCCCTCCTGGTTAAGACTGGGSAATAGGGGAGCGCGGAGATGGCAGCCTGGCCTAGAGCAGGTGGGGCCTGTTCAGAGGGGGCTTTGGTGGT
CCAAATCTGGTTAGAGACCACGGTAGGGAGGTGGTGGAAGGAGGCAGCTGTGTGGGAGGCTCTTTCCAGGAAGAGGGATATGTGATTTGGAGGTAGGAGG
AGGGTTTGGATAAAGAACACTGATCACAGGAAAGGGAGTGTAGCCAGGGGAGAAAAAGAACAGGGGCATGGGTAGTTTAGAAATTGGAGGAGACTGAACC
CAGAAAGGGAATGGGGCAGCCAGGGAGTGTACAATGATGTAAACAAGTAGGAAATACCTAGGAGGAAAAAGATTAGTGGGGAAAAAACTGTGGATCAGTG
AATCAGATATGAGAAGGACGTAAGACAGGAACCTGCAGTAAGCAGCAATCCCCATCTCTGCTTGGTTAGGGAAGAGAATTCTTGCTGGAGAATGCCCTTT
CTCACCAGCCAGTCTGACCTTGTCCTGCAGTCTATGTATCCAGGCCTTCATCACTGTCTGTGAGCCTCGTGGTAGGGTGGGGCAAGAGGCCCATGATCAG
CTGGGCCTTTCCTGCAACCCAAGGCTCACCTATCTGTGCGAGGGGTAGGCAGAGAAAGCCATTGGACTTCTGATGTGCAGTAGAGGGTCCCAAGGCAAGG
TCAAGACCTGGGAGGGAGGATCACTGGTTTAGGAGGATGTGGAGAACTGCTGTGGTGTTGGGATGGAGAAGAATCAGGATTCAAAGAATCTCACAGGTGA
GGAACTTGGAGATTCCCATACCATCTAGTTCAACAGGGAAACTGAAACCAGGAGAGTAGAAATGTATTATAACAATTCCACAGCAGAGCCAATATGAAAA
TCTAAGGTTTCTAGATCTGTAACCCAGAGCTCTTCCCACTACCCTACAGGCCCTGCGAGTGGGAAGAAAAGTAGAAACTGCTTAGCTAATGATTGACCTC
AGCCCTTCTTCTACTGCTTTGGGCTTAGATGGAGAGGTCAAAGCTCTCAAYGGCCTCTACCCTATCTTGGGCGCTATGCCCAGTAATTCTAGGCAGGCAG
TCATTCTTAGAGGAGCAGCCCCCAGCCCCCACGAACACAGCCCAGCAGCTATTGGGAAGTTGGAATGCCCAGATTTAGTTCCTCCTTCCAAAGCTGGGCC
AGAGCTGAGTCTTGAATTGAGCTGCAACAACTTTACCATTCTTGTTCCCTTATTCTGCCCCGAGTTGGGTCAGCGGGCTGGTCTCCCTGAAGTCCTGTTA
TCTTTCAGCAGCTTATGTTAAGGCAGCCAGCATTCTCATCGTAGGAATGGAAAGCCTGGGAAAATACCCTCCTCAGCTCTCAGTAAGTAGTGCTGGCTTC
ATTTCTAAGTAGAACCCAGATCTCCCTGAGTCTCCTAAATTCTGTCAGCTCAATATTCTTAGTTTCTCTTGGTTCAGACCCTCACTCATCCCGCAGTGGT
TTCCTTTTCAAACACTCCATACCTCTGGGTAGATCCTAAGTGAACAGAGCTCCCAGTGCCGTGACAAGGTCCTGCTCTGTGCAAGGGAGTGTGATTGGCC
TGACTCATCCTGATACCAAGGGGCAATGCCAAGTTCCTCACTGGCCAAGCAAGGGTGGGCTGACAGCATAACAGCAGAGGCAGCCCCTGCCCCTCCTGCT
GTAGACCTAGGGCTCTCAAGGGGCAAAGAGGTCCCGTCTAGTACCAGTGACCACAGGCACAACTGCTGGCCTGGATTGAGTATGTGCTGGACAGAATCGC
CCAGTGAAAATAGTCAACAGTTTTGGAGCCGAGGTTCAAATCTATGTCAGTAGTTTATTCTCTTTGAATTTCGACAAGACACTTCGCACTCTTCATTGTA
AACTGGGGATAATCTACGCTTCGAGGCTGTTACAAGCATTAAGTAAAACAACCCATGTAGGGCATGTGCAGAGTACCTAGCTTCCAGCAAGCACTATGTA
GCCAGGTACATTTGGAGACTTTACACACACCACCTCACTACACTGGGCTGCCTCCTGCCTCACCTTTGCCTTGGAAGACAGTTCAATGTTAAGCTGCTGG
GGGGAGAGGGGGCAGTCATGATTAGTTCTTTGTTCTTTACTTGGTTGCAGGACACTTAGGACTTTGCCCAGTACCCAAGGAAGCCATGCTTGGGTCAGGA
AGAGAGTCTCTGTAAAGCCTTAGACTGGGAGTCAGGAGACGGGTTTGAGTCTAACTCATTGTTGCTACCGCTTTAGGCTCCTCCTGAATCTGCACAATAG
GACAAATACTTCCTTTGTACCTAACTCCTAGATCATAGATAACAGGCTTTGAAAATGATGGGTTGCCATGTATAAGGGACAAGAGCACTAACACTTCTTA
GTTTCAGGGTAAAAACTTCCAAAGTTGGAAAACTCCTATGCCTAAGGCTTTGGAAGGGAAAGTCTATGTTTCTCTTCTTTCCTCAGCCTTATTCCTAAGG
CTTTGAGAGCTTTTCAGGTGCCCTGGAAGGCAGCCTTATGCTCCAGCCTTGGGAGGTAGTATAGCTGAGCACTTAAGCAAGCTCTGGACTCAGACAATTC
TGGGCTTCAATCTCAGATTTGTGACCCTGGGCTTTACCTCTGTTTTTGTATCTGTAACGTGGAAACAGTCTTCAGAAGAACAGGAAGAACTAAATGAGAT
AACATGTACAGTTCTTACTACACAAAAAGCTCATAGTACTTAATAGTAGCTTTTTTTTTTTTTTTTTGAGATGGAATCTCACTCTGTTGGCTAGGCTGGA
GTGCAGTGGCACAATCTCGACTCACTGCAACCTCCACCTCCTAGGTTCAAGCAATTCTCAGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACATACC
ACCACATCTGGCTAATTTTTTGTAKTTTTAGTAGAGACGGGTTTCACCATATTGGCCAGGCTGGTCTTAAACTCCTGGCCTCATGTGATCCGCCTGCCTT
GGCCTCCCAAAGTGTGATTACAGGCGTGAGCCACCACACTTGGCCCAATAGTAGCTTATTCTAATCCCWGCTCTGCCACTGACTTGCTATGGCACTGCTG
TTCCTTAAGTATCTCTCATCTAATGGGATCAGTTATCTGTGTTCACCAAACAGAACTAAGCGCAAGACTGAATTTTAAAATTCCCATGCAAAGGCTTTGA
AAGATACAGTCCTCCACTTCCCCATACCCAGGCCTGAGAGTTATTCATTGAGTTTCTTGTACACTGCTTCTCTACCCCAGCTCATATACTCATAACCTTC
CCCCTACCCTCAGGTGTGGGTTTTGCTACCAGGCAGGTGGCCAGCATGACCAAGCCTACCACAATCATCGAAAAGAATGGGGACATTCTCACCCTAARAA
CACACAGCACCTTCAAGAACACAGAGATCAGCTTTAAGTTGGGGGTGGAGTTCGATGAGACAACAGCAGATGACAGGAAGGTCAAGGTAAGTCAGGGAAA
CAGGGGTGGGGAATGGAGAGTGCTGAGACTCTAAAAGAGAATAGGCTGGTAGTCTTGGCTCCCTRGTATTGCACCCTGAGGGGCAGACTATCATGGGGAA
TTTAAATGAAACAAGATTCATAAAGCCTGTGTAGTGCTGGAATGCCACTGATGCTAAATACATGTCAGTTCTGTCCTCTTGTTTTCTTCCCTCCCTTCTT
GGGATTCATCTATTGTCTGCCTCGGAATGGGCAGCACAGAGCCAGGATGTTCTTCTGACCTCAGTATCTACTCCAGCTCCAGCTGGGTGACCCTGTGCAA
GGTATGCAGTAGCTCTAGGTTTCTTTCCCCTTCCATAGATGGCAGAGTTATGTGGCCATGGCTGTGACCTGAAGTGCTTTAGGAATGATGCCCAGAAGTC
AGGGCCCTCCACTGAGTGAGGTCATTGTGACCTCCAGCAGCAAAAAAGGCAGCCAGGAACTAGAAGCACCTACTCAGATGCCGCTTCAACTTCTAACTCC
CAGACATGGCCAATGACCCTGACAAACTATTTCCAGTGTTGCCAGCTGACAGGCAGGAAGAGCTATGTTCCGTGATAGGGCATTCACCTTGTCATGAATG
TGTTTGCAGTGTCTTCCCACCAAGCCTTAGCCCCTCCTCCCAGGGTTCTATCACCCTGCAGTGGCTGTCTTGGCAGCTTGCCTCAGCCTTCCAGGCCAGG
CATGGGAGCGAGAGAACTTAAGGGCTTTGACCTCTATAGGGTGTCCCTATAGCAGTGTTCTATCATGACACTATCATTCAGCCCCATCAGCTGTTTCCTC
TTCCTCATAGCTGTCCCCAGAAAGAACAGGATCACACAGGTGGCTGGCAGCAGAGCTGGGGATGGTGCCCAAAGATGGCAGTCTACCTTGGATAAAGGTG
GCTGCCCCACCACCTGCTCATACCTCCTTGGACTTGCCTACTTTCTCAAGGGGCAAGAACCCCAATTAAACACAATAGCCCTGTGGAATGCCTAGGGCAA
AAATATCTACTCTGAGTAGGCAAAAAAAACTAGGGGAATGAGAACAAGGAGTAAGGTAAGGATAAAAAAGAGCACACTAAGAGACAGGCCTCATACCCCT
TATCACCTAAACAATACACAGAACCTTCTCAGATTCTCCTACTGAACCACCTTGCTCATCAGGATCCCTTAGCCTGGCCTTGTGGCCCCCAAACTCCTAG
GAAAGAGAGCTGGAAGAGCTGCCAAATGAGAACCAGCTGATGTATGTATGCTGGCAGCACCCAGAGCTGAGGAACCACTTCAAGGGCATCCAGTCACAGG
ACTTTGTGGTTGCTGCCCTCTTGTTGGCTAAAGAGGTCACATGATGTGGACCAAGAAAAGGTGTAGGAATACAGGGCAGGAAGTCTAATTATCCAATACT
TCCTATCACTAAGGGTCTTTTAGACATTATGTGGACTAACCACAAGGCTGGATAAAGATTCTCAGGACTACTCCTCCTCCTCAGTCAGTCTTTCCCAGGG
ATAGACTAGTAAATCCCACCTGTATCTGAGGGGACCAGGCTACGGGAATCACCTAGAGTACAGATAAGTGTCTGTCTTGAAGGCTTGTGGTACTTCTCAG
AGCCAGGCTCTCTGGCTCCACCATACTGCCTGCCTCTCCCTCCTTGCCTAATATCTGAAGGCCTCTTCCCCAGAAAGGCAGTAGTGGAGCAGAGGCTGGA
GGTGAACTAGATGTCTTGCAGGGATAGCTGGGAGGCGGATTGCCTGAGCTCTTGTCCTCACACCATCACTAGTTTGGGTCAAAGGCTGTGTSCTCTGTGG
CCCAGTGTCCAGACCCCACCCTGCCCCTCAATTCCTGACTAAGATCACAGCTCAGGCCTCTACCCTCTTTCCACAGTCCATTGTGACACTGGATGGAGGG
AAACTTGTTCACCTGCAGAAATGGGACGGGCAAGAGACCACACTTGTGCGGGAGCTAATTGATGGAAAACTCATCCTGGTAAGATGGGCAACTTTGGAGC
TATATCTGATTGGTTATTACTACTGCTCTTTCAGCCAAGCCTGTTCTAAAAAGCCAAGTCCTCCCCTGAGAGCTGTAGAAGCTGGGACAAGAGAGTGGTT
GTGGGTCAGGGTGGTATCAGGTGGGAATTTTCTGTGTAGTGGCTTTGGACTCACACAGGCCGGAACTCAAATCTTACCTTATAGGCTACATGACTGTGGG
CAAATCACCTTTTCCAAGTGCAACTGTAAAACGGGTATTAATAATACCAACCTTGTAGGGCTGCTGGGAAGCCTGTAAGAGACAGTGTATGCACAGCACA
AAGCATCACTGATTGAGGAACACAGCAGGTGCTCCATGTCCTTTGTTTGCTCTTCCTGTGTTTCTACCTTGCCTCACCTCAGGAAGAAGTAGAAAACAGG
GCCAAATCTGATCCCAGGCCCTCTAGGAGGGGCTCCCATTGCCTATCTCAGCATTCCCTTTCCTCTCCTCCCTAGGACTGCATTGTCACTTGCAGGGACA
GGCTCGTGACTGGTGGGGACACTGAATGACAGTACAGTCCTTTCTTCCCCATTCTAGTCCTACCCCATTTTCATGCTTTCTATGTCTGGCCTACTGAAAC
TACTTGACTACTGCTTGGGTAGGAAGTACCACAGCCAGGCTGGCAGATCTGTTCAAGCTTGGGGACTTCACTTGGAGAATCTAGCCTTGACTGAATTCCC
CCCAGACCCAGGGAGAGCAGCCAACTGTGGATTCTGCCTAACCACAGGGCCTCAGGTTTTCACCTAGGCATCTTCACTGCACACCTTCTTGGGTCAGCAT
AACCTGTTAACTGCATTCTTGTACTCATGTGGGACAGGGGTCCCCTTGAAGTTTGGAATGAGGTGCCTAGCTTTGGTGGGGATGTGATATGCAGGACCAA
ATTCTCAGTGGCAGCTGAACTATGGTGAGGCCATGGGTCTGGCTCTATGATGCCAGACCGGATAGTGGGAGGTACAGGGCTCTGGCCCTGGCACTACTCT
AAGTTAGGGAAGGATTGGAGTTAGTASCCAAACACAGTCCTTTCCTGAGTCTCTGGATATTTTTCCTATTTGTCAACTATATGCCAGGCACCATCTTAGA
CACTAAGGATGAAGGAAGCCAAATGGTATAAGGGAAGGAAAAACACTCAGGATCTTGACCAAATTACTTCCTCTCTAAAGGCTCGTTTTTTCCAAATCTC
TAAAATAAGAATTACAATGCCTRTCTTAAGGATTTGCTGTGCATATCAGAAAAAAAAAATTATGTATGTATACACACACACACACACACACACACACATA
CATACATATAGCCGGCACATAGTAGGTACTCAAGTGACAATTATCAGGAGGAAGGGAGGGTAGAATGCTCGCAATGGTGTTCCTGGCTCCACCCCCCATC
TCACTCTGTCTTTCCTTCCAGACACTCACCCACGGCACTGCAGTTTGCACTCGCACTTATGAGAAAGAGGCATGACCTGACTGCACTGTTGCTGACTACT
ACTCTGCCAATCGGCTACCCCTCGACTCAGCACCACATTGCCTCATTTCTTCCTCTGCATTTTGTACAAATCCACGAATTCTTCTGGGGTCAGGTGCCAC
TGACCGGGATCCAGTTCCAGTTCCCATGGTGTATGTGGTTTTTTTTTTTTTTTTTTTAACTGCACTCATAGGGTGCTCTGAGGTCAATAAAGCAGAGCCA
AGGCCACCCAGTTGCCTTTTTGCCTTTGGTAACATAACTCTGGGAGTCTTGGTTTATCCTGTGTGTCAGAGAGTGGGCAGAAATAACGGCCTGAAGGTTA
CTGAGGAAGAAGCACTGGATGGGAGACTGAAATGGACAGTCTCGGAGCCTGTTAATCAGCTGATCACCTTACACATTTAATAATAAAAGAGCTGTACCTA
CACGTTGCCTTTACACTGCCCCCCCTCCATGGTCAAATGACCTAGTTCAGTCAGTGATGGGGCTTCCCCAGGTTTGGCTATTGAACTGTCACTTCAGGCC
CATCCTACACTGAAAGCTCTTGGGTCTGGCTGTTCTCTGTGAAATGCTGTAGTCTCTCCCTTTCCAGAATTCAGGTTCAGGGCACAGAACCCAGGCTTGT
ACCATGGTGGTGGGAGAAAATGACCACTGGCCAAGAGGACTGCTGACCTGTGCACCAGGCTAGTACTTATGACTACAAATTCTTACTGCTTCTCTAATCA
ACTCTGAGGGAAGAGGGCATCTGATCATTACAAAAGGGAGGGCTTATAAGTGATCTCCCAAGAAGGCAGTGATCTGCTAGTGCCTTTGGCTCTGTACCTC
TGCTGGGCATCTCTCCAAGGTCTAAGGTAACATATTAAATGTTTTTGTCAGCTAATGCAGGCTCAGTGACTTTAAGTCTGTAAGTTACCCAGGAAGAAGG
ATTATAGGAAAAATAACTCAGTAAGTTTAAAACCAAACACATTTCCATTTAGTGACAGGAATTTAAGCAAGGACCTGAAGTAGAATCAACTGATTCACAC
AGTAGTAAATACAAAGTAGAACAATGATCTTGGCTTCGCTGTCTGGTTCAGTGGTCTGCTGGAATGCAATACACAAGTTAAGTCACACTGCAGACTGTTT
TCTAGCTGTGGCCGCTGGATGCCACTTCTAGCATAGTAGAACTATGTTAGGAGGAATGGGAAAAGTGAGCACCACTTCTCACCATGTTCCCCCCTCCTGC
TGCCAGTCTCTGCTCCCATGTTGGATGCAGCAGAGATCACCCACCAGTTGGCCCAGGACAGACCAATAGGAAGGGTCCAATCACTCTAACTACAGCCGAA
CTCACCTCCACAACAGTCTCTGTGGCTCTAGCCTGGACTCCTTTACAGGAATCCAGCTCTGGCAGTGGCAGCTGGAGAGGGTAATAGGACCTCCTGCTGA
ATGAAGGAAGTTGGGTGAATGAATGGGTGAGCTGCAGGGTTCACTTGCAAAGGGACCAGGAGTGATAAGGAAACAACAACTCATTCAGGCAGCTGCTTTT
GACCTCTAACTCCCAAACCTGCCTGTTGCATGAGGGGAAGCCATCTCCCATGGGAGCGAAGTTAATGGGGTGGGAGGCTATATTCTCACTATTGAGTCTT
TCCAGGAGTCTCAAGGCACAAGGCTCCTGGTTTCTTACTCTCAACCACCCCCTACACTCTTTATACTCTCACTCCTTGTGCTTCTTCTTGTGCTTCTTCT
TCTTTTTCTTCTTCTTTGCTGCCTTGCTGTCTTTTGATGTGTGCCTTGCCCTCTTGCCTGTATCACTCTCAGAGTCTGAGCTGTCAGAGTCAGATGACTT
CCTATCTCTATGTTTCTTTTTCTTCTTCTCCTGAAAAGAAAATTTTAAAAATCAACACTGTATGTGTATATTTGCTTTTAACAATCATAGCACATAATTG
GCCAGGTGCAGTGGCTCACACCTGTAATCCTAGTACTTTGGGAAGCCGAGGTGGGAGGAATGCTTGAGGCCAGGAGTTCAAGATCAACCTGGCTAACATA
GCAAGATCTCATCTCTAAAAAGAGAAAAAAAGAAAAATTATAGCACACAATCAATAGGGGACCACTTAATTTTCTTTTAGACAGTCTCGCTCTGTTGCCC
AGGCTAGAGTGCAGTGCAGTGGCACGATCACAGCTCACTGCAACCTCAACCTCTTGGGCTCAAGCAATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGAC
CACAGGTATGCACCACCACACCCTGCTAATTTTTATGGAGTTGGGTTTCTCCATGTTGCCCAGGCTGGCCTCAAACTCCTAAGCTCAAGCAATCTGCCCA
CCTTGGCCTCCCGAAGTGCTGTGATTACAGGTGTGAGACACCATGTCCAGCCAACACTTAATAAAGTATAAGACATTGTGGCCAGGTGCGGTGGCTCACG
CCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAA
AATACAAAATATTAGCCAGGCGTGGTGGCAGGTGCTTGTAGTCCCAGCTACTCGGGAGGCTGAGACAGGAGAATGGTGTGAACCCAGGAGGCGGAGCTTG
CAGTGAGCTAAGATTGTGCCACTGCACTCCAGCCTTGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAGTATAAGACATTGCAAACAAT
AAAGTAAATCTTTAAGTGCCAACAAGAAAAAAATAGCTAAAACATGTTAAGTAAAAGAACCAAGACATAATATGTATTGTAGGTTCCAGTGCGTATAACA
TATACATGTGTATTTATATATATATGCACATGATATAAACTGTGTATGTTACACACACTTGTGTATATTTAGTATACACAGAGAACACTGAAAAGGATAC
ATCAAACTGGTAATAAGTGTTACACATTGGGAATGAACTGAATGGGGGAAAGGATATGGGTCTTTCACTTTTTCCTTCAAATACTTCTGTCTAATTTGAT
TTTTTTTAAACAAGTATCTTATTACTTTCATTTTTTAAAGTGCAGGACATTAAAGCTGAAAGGCGCCCCTAAAGACTAGCCAGTCTATCTAGAAACAGTG
ACTCACATATCCAAGGTCAAAGAATAGGAGTAAAAGATTTAGAACTCCTGACTGCTATTCTGGTTTCTATTAGATCCTGGTGCCAGGGGAAATAACTGCC
ATCAAATAATAAGCCTGTACTTGCTACCCTTGAATATTCATCATCTCTAACTTTACAGCCACCTCACAAGATTATACTCATAAAGAAAAGAGCTGAGAAA
GAACATTCCCAAAACTATACCCACCACATCATGCTACCAAAGTAACAGTACAAACCCATACAAAAGACGAGAGGCAGATTCCCAGGTGTCTAATGGGGCA
GTATGAGCAGATTTTAAGCACGGCATAAATCTCTTCTTTGAATTTCAAATACCTATATTGCCTCTGTAAGGTTTCTAAGAAGAGGGAGAAAGTATGGGAG
GAGAAAGAGAGCAGAAAAGGATGCCAGCTTCCAACCAGCAGCCTCAGAGCTATAAATCTAGCTGAATGATACACCAGGTCTTAGAAGCTGGCTGTGAAAA
ATGGTGGAAAGAACACTGAAGCAGGTGTTAGATAGACCTGGACCTGAGTTCTGGCTCTGCCATTTACTATTCTGCATCCGTGGGCAAGTCATCTGAACTC
ACTGAGGCCTGTTCCCTTCAAATGTAAACTGGGGATAAGAATAACATCTACTGGCTGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTCTGGGAGGCC
AAGGCAGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTGGCCGGGTGTGGTTA
CGCGGGCCTGTAGTCCCAGCTACTCAGGAAGCTGAGGTGGGAGGATCGCTTGAGCCCAAGAGCTGGAAGTTGCAGTGAGCCATAATCCTGCCACTGCACT
CCAGGCTGGGCAACTGAGCAAGACCCTGTCTCAAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAATCTCCCCCTCTCCCCAAAAAAAACA
CCTATGGTGACAAGTTAATGAGATAGTATCTAAGGCTTGGACAAGTTGAAAGCCACTTGTCCCAGATCGCATAGGCGCAGTTGGGATCTTCATGTAGATC
ATATGAATGGAAATCTCCTGAGTTTTCCTATGTAGCACATGGCCCCTCTTTCTGTATGGTAACAGGAGGCCTCATGGTATGGTCATTAGAACAACAAATT
TTGGAATAAGATAGAATTAAGTTCAAATTCTAGCTCTGCAACTTAACTCACTATGTGACTTAGAACAAGGGATTTAACTTTTTTGAACCTCAGTTTTCTT
TTCAGTAAACTGGAAATAATAAGTACCTATTTCAAAGGATGCTATGAGGTTTAAACAAGATAAGCACTAACTATAGTGCCTGACACATTATAGGCACTTA
GTGGGAGCTATATGTATTTTTCTCTCATTAACTCCCAGGATGTTCTGACAGCCTGGCCAAGCATCTACAGGAGACAAGTCAAAGTTTTAAGAGAAGATGA
AATAACAATTCTTCCTTGGCATCTCCAATGGAGTAGAGAGAAGGCAACAAAGCTTCTCAGACCCACATTACCGAGCTATAACAACCATGGCTGGGAGGAG
CTGAGAGTTGGCAAATCAATAGTTTAGCTATGTTGCTGAACCTTCCTGGATGGCAAGACCATGGAAGTCCATCACAAGATATTATGGGGTCAGGAGCCTC
ACTGGGTTCTGCCCCTTATATAGGTGAATATCCTGGGAAAGTAAAAATGAAAATACAGAGTCTGGCACCAGTTCCCTGCAAGCCTGGTCCAGCCTGGATA
AAGAAGTGAGGAGAGTAATAATACTGCCTTACACCTAAACAGTGCTTTAGTTTATCAAGCTTTTTGCATCCTTATCTTACAATAATAGTCTGTAGAGTCA
AACTTCATGAGTTATTATTCCCATTTTACAGATGGAAAAACTGCAACTCAGAAATGTAAAGTGAGTCGACCAAGGCTAAAGCGGCAAAACCACTATACTT
TATAACACAGAGTTTGGCACTATTTCCACTTTGTTCTCTCTCAAAGATGAAGGCTCAGGAGGAGGGAAGATAAAAACAAATCACTGGAGAGTCCTGGCAT
GCTGGAACATGGACTCTAGCTAGCAAGAAGGGCTCAAGGAGGTGGCCTTCTCCTAGACCTCAACTTTGATGCAAAAGCTGTTTTGCAGCCTGAACAAAGA
CAATCCAATCCTCCAGCAAATGGCGTCATTTTCCCTACGTGTCTAGCCTTGAGCTACAGAACAAAAGAACAATCACATCCGAAGTTGTAGTTCGCCTGGT
TGCGGTGGCTCACGCCTGTGATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGGTCGAGACTAGCCTGACCAACATGAAGAAA
CCCCATCTCTACTAAAAATACAAAATTAGCTGGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAGCGTG
GGAGGCGGAGGTTTTGGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTGTCTCAAAACAAAACAAAACAAAACACGCA
CACACAAAAACAAAATTAGCCGGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGAGGCAGAGG
TTGGGGTCAGCCAAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGATGGAAACTCCGTCTCAAAAAAAAAAAAAAGGTTGTAGTTCAAAAGCAAAGT
TGGGAGTTGGGGTGGGGGAAGACTGAGAGCCAGAAGATGAACCAAGCTTCTGCTCTCTCAACTTCATTCAAGTGAGAAGGGAAACAGAAGATAATGGGTT
AAAAAAAAATGACATGGATTCAAGTATCAGATGGAAATAGAAAATTAAACATAAAACAGTTTTTAAATGGCATAGGAGTGTGAGCCCATGGCGCAGGTCA
AGGGGGCACTGGAAGGAAGCCACTGGTCAAACATCTCAAAGACTGCTCTCTAGGAAAAGCACATATCCCTTGTTAGAGCAGCTAGTCTACCCATTTTCAC
TATAGTTCTGAAACAGGATAGCAGCAGCCCAGTGTGACAGAAAAACAAAAATAAAAGCAAAAACTGAAAAAAGAGAATATAGCAGTGAACATTTATTGAG
TACTTAATTTTCTATTTTATTTATTTACTTATTTTTAGGATGGAGTCTTGCTTTGTCACTCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGGAGC
ATCTGGCTCCTGGGTTCAGGCAATTCTCCTTGAATCGCTTGTAGTCCCAAGTAGCTGGGACTACAGGCGCATGCCACCACACCCAGCTAAGTTTTGTATT
TTTTTTTAACTAGAGTCGGGGTTTCACCATATTAGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGCCTCATCCTCCCAAAGTGCTGGGA
TTACAGGCATGAGCCACCACACCCAGCCAGTACTTAATTTTCTAAAGGCAGGTGGATCTCTTGAGCCTAGGAGTTCAAGACCAGCCTGGAAAACATAGTG
AGACCCTGTCTCTACAAAAACAAACAAACAAAATTACCAGTAACCTCCACGTGGCCAAATCTAGTGGTCAATTATTGGGTCTTATTTACTTGGTCAGTCA
AGATGGATACAGACCATCTTACCTAGAACACATTCATGGTATTTCTACCACATTTTACATTCTCTTACTTTTCTACAAACTTC


SNP Information

Context             (SEQ ID NO:24498):
GAGGCCATGGGTCTGGCTCTATGATGCCAGACCGGATAGTGGGAGGTACAGGGCTCTGGCCCTGGCACTACTCTAAGTTAGGGAAGGATTGGAGTTAGTA
S
CCAAACACAGTCCTTTCCTGAGTCTCTGGATATTTTTCCTATTTGTCAACTATATGCCAGGCACCATCTTAGACACTAAGGATGAAGGAAGCCAAATGGT
Celera SNP ID:            hCV11344688
SNP Position Genomic:     12827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24499):
CTGCAACCTCCACCTCCTAGGTTCAAGCAATTCTCAGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACATACCACCACATCTGGCTAATTTTTTGTA
K
TTTTAGTAGAGACGGGTTTCACCATATTGGCCAGGCTGGTCTTAAACTCCTGGCCTCATGTGATCCGCCTGCCTTGGCCTCCCAAAGTGTGATTACAGGC
Celera SNP ID:            hCV27468880
SNP Position Genomic:     9225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24500):
CTAGTGGACAGCAAGAATTTCGATGACTACATGAAGTCACTCGGTGAGCAAGCCGCGGGGCTCAGGATGTTGGCTTGGGGACTGGCTGGTGGCGTGCCTA
K
CCCCACGCAGCACTCCTGCCGCATCCCTCCTGGTTAAGACTGGGGAATAGGGGAGCGCGGAGATGGCAGCCTGGCCTAGAGCAGGTGGGGCCTGTTCAGA
Celera SNP ID:            hCV25593022
SNP Position Genomic:     6285
SNP Source:               Applera
Population(Allele,Count): african american(G,13|T,3)   caucasian(G,26|T,2)   total(G,39|T,5)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24501):
GAGCAAGCCGCGGGGCTCAGGATGTTGGCTTGGGGACTGGCTGGTGGCGTGCCTAGCCCCACGCAGCACTCCTGCCGCATCCCTCCTGGTTAAGACTGGG
S
AATAGGGGAGCGCGGAGATGGCAGCCTGGCCTAGAGCAGGTGGGGCCTGTTCAGAGGGGGCTTTGGTGGTCCAAATCTGGTTAGAGACCACGGTAGGGAG
Celera SNP ID:            hCV15968825
SNP Position Genomic:     6330
SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   JBIC-allele(C,234|G,1257)   total(G,1257|C,234)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24502):
AAACTCCTGGCCTCATGTGATCCGCCTGCCTTGGCCTCCCAAAGTGTGATTACAGGCGTGAGCCACCACACTTGGCCCAATAGTAGCTTATTCTAATCCC
W
GCTCTGCCACTGACTTGCTATGGCACTGCTGTTCCTTAAGTATCTCTCATCTAATGGGATCAGTTATCTGTGTTCACCAAACAGAACTAAGCGCAAGACT
Celera SNP ID:            hCV11344689
SNP Position Genomic:     9369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24503):
ATGGTATAAGGGAAGGAAAAACACTCAGGATCTTGACCAAATTACTTCCTCTCTAAAGGCTCGTTTTTTCCAAATCTCTAAAATAAGAATTACAATGCCT
R
TCTTAAGGATTTGCTGTGCATATCAGAAAAAAAAAATTATGTATGTATACACACACACACACACACACACACACATACATACATATAGCCGGCACATAGT
Celera SNP ID:            hCV8732493
SNP Position Genomic:     13023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24504):
CCCTGCGAGTGGGAAGAAAAGTAGAAACTGCTTAGCTAATGATTGACCTCAGCCCTTCTTCTACTGCTTTGGGCTTAGATGGAGAGGTCAAAGCTCTCAA
Y
GGCCTCTACCCTATCTTGGGCGCTATGCCCAGTAATTCTAGGCAGGCAGTCATTCTTAGAGGAGCAGCCCCCAGCCCCCACGAACACAGCCCAGCAGCTA
Celera SNP ID:            hCV1496702
SNP Position Genomic:     7351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24505):
GAGGCTGGAGGTGAACTAGATGTCTTGCAGGGATAGCTGGGAGGCGGATTGCCTGAGCTCTTGTCCTCACACCATCACTAGTTTGGGTCAAAGGCTGTGT
S
CTCTGTGGCCCAGTGTCCAGACCCCACCCTGCCCCTCAATTCCTGACTAAGATCACAGCTCAGGCCTCTACCCTCTTTCCACAGTCCATTGTGACACTGG
Celera SNP ID:            hCV1496696
SNP Position Genomic:     11592
SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,22)   caucasian(C,22|G,16)   total(C,36|G,38)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   JBIC-allele(C,236|G,1245)   total(G,1245|C,236)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24506):
AGCAGATGACAGGAAGGTCAAGGTAAGTCAGGGAAACAGGGGTGGGGAATGGAGAGTGCTGAGACTCTAAAAGAGAATAGGCTGGTAGTCTTGGCTCCCT
R
GTATTGCACCCTGAGGGGCAGACTATCATGGGGAATTTAAATGAAACAAGATTCATAAAGCCTGTGTAGTGCTGGAATGCCACTGATGCTAAATACATGT
Celera SNP ID:            hCV1496697
SNP Position Genomic:     9865
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,3|G,37)   total(A,5|G,73)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:24507):
TTCCCCCTACCCTCAGGTGTGGGTTTTGCTACCAGGCAGGTGGCCAGCATGACCAAGCCTACCACAATCATCGAAAAGAATGGGGACATTCTCACCCTAA
R
AACACACAGCACCTTCAAGAACACAGAGATCAGCTTTAAGTTGGGGGTGGAGTTCGATGAGACAACAGCAGATGACAGGAAGGTCAAGGTAAGTCAGGGA
Celera SNP ID:            hCV1496698
SNP Position Genomic:     9698
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24508):
GATGCGAGGGCTATTTAAAGCGGCAGCCCGGGCAGGGAGCCGCCGTCGGAGCCCTTGCACGCCTGCTCTCTTGTAGCTTCTCTCAGCCTAGCCCAGCATC
R
CTATGGTGGACGCTTTCCTGGGCACCTGGAAGCTAGTGGACAGCAAGAATTTCGATGACTACATGAAGTCACTCGGTGAGCAAGCCGCGGGGCTCAGGAT
Celera SNP ID:            hCV25593021
SNP Position Genomic:     6152
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,5)   caucasian(A,40)   total(A,73|G,5)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:24509):
AAGCCTGTCCCTATAGCTTTGGCAGAAATGAGCCTCTGAGTCTTCTGGCAACTGGACCGTCCAAAGGAATCAAGATCTTAGGGTGGGGAGAGGGCTCTTC
Y
TCCCTGGCCTTGTTCTCAGAACAGTCCAGGGAAGGGAGGCAGGGTTTGCACATGGAGAAACAGAGTCCCAGGAAGGAGGGCCTGCCATACTCTACGCACG
Celera SNP ID:            hCV27847958
SNP Position Genomic:     4298
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 hmCS


Gene Number:                 87
Celera Gene:                 hCG19607 - 84000313611334
Gene Symbol:                 F2
Protein Name:                coagulation factor II (thrombin);PT;THROMBIN
Celera Genomic Axis:         GA_x5YUV32VW1T(4103717..4136049)
Chromosome:                  Chr11
OMIM number:                 176930
OMIM Information:            COAGULATION FACTOR II;F2


Genomic Sequence (SEQ ID NO:12247):
GGCACATGGTGAGCAATTACTAAATTGTAGGCCTAGTCCCTATAATCCCAGCACTTTTGGAGAACAAGGTAGGGGAATCGCTTGAAGCCAGGAGTTCCAG
ACCAGCCTGGCCAACATAGTGAGACTGTGTTTCTATAAAATAAAAAAAAAAAATACCCAAGCTTGGTGGTGCAGGCCTGTAGTCCCGGCTACTTGGGAGT
CTGAGTCAGGAGGATTGCTTGAGCCCAGGAGTTCAAGGTTGTAGTAAGCTATGATTGCACCACTGCACTCCAGCCTGGCGACAGAGCATGACCCTGTCTC
TAAAAATATAAAATTAGGCCAGGCACAGTGGTTCATGCCTGTAATTCCAACATTTTGGGAGGCCAAGGCAGGTGGATCACTGTGAGCTCAGCAGTTCGAG
ACCAGCCTGGGCAACAAGGCAAAATCCTGTCTCTACTAAAATTACAAAAATTAGCCAGGAGAGGTGGTACACGCCTGTAATCCCAGTTACTGGGGAAGCT
GAAGCAGGAGAATTGCTTGAACCCGGGAGGCGAAGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTGCAGCCTAGGAGACAGAGCGAGACTCGATCTCA
ATAAATAAATAAATTAATTAATTAATAAAAAAATAAGTTGGGCATGGTGGCACCTGCCTGTAGTCCAAGCTACTCAGGAGGCTGAGGTGGGAGGATCACT
TGAGCCAGGAGTTCTAGGCTGCAGTGAGCTATTATCACGCCACCATACTCCAGCCTGCTGTATGTACTCCAGCCTGGGCAACAGAGTGACACCCTGTCTC
AAAGTAAAGTAAAATAAAAATTAAAAAACAAATTACTAAATTGTACTTAACAGTATTGTCATCAGTCTTCCTAAATAGGAGGACAGGCAAAATTAAGGGA
CTTAACATGTGCCCTCAGGTATAGTAGTTTGGGGCAGGCCAGCATCACCCGCACAGTAGTTCTGTACTGTAGGTGCGTGTTCTCTGGGTCAACTTTATGG
CCCAGTGAGGCCGTACTCTACCAGAATGTCAGGGGACAAGGGTTGGGAGAGGCAAAAGTGCTGGTCTGAAGCAGGAGTCTGGGTTTCCATCCTAGCTCTA
CCACCAATTCTGTATGACCGTGCCCCCTCCATTTCCTCCATGACCACATAGAGACATGGGGCAGTTGGATGAAATCAATGATTCCCAGTCTTGGCTCTAT
CATGGAACCATTTGCTAACTTCTTTTTTTCTCTTATGGATCCCATATTTTTAAAGATTTTTACTAAATAGAAATTGACTTATACTTTTCCAAGCTGGAGT
GTGGTGGCATGATTTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGTGCTCACCA
GGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACAGAATTTCACCATGTTGGCCAGGCTGATTTCAAACTCCTGACCTCAAGTGATCTGCTCACCTCAG
CCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCACTATGCCCAGCCGCTTACTCACATTTTCTAGTCAAAATAGAAAACTGCTTAAGTCACTGTCTGCAG
AAGAGCAAAAAAAAAAAAAGAAATAAAAAATTGAAAACTGCTGATCAGATTGAGAAAAACATAAGATTATTCACCACCTAAAGAGAAAAAATTTCAGTCG
AAAGGGAAAAAAATTCATTTTTGTCTTAATAAGGCAAATTCACAATTTTTGAGGTTTTAACAAAATATATGCAGAAAGACAAGGCCACCCCGTAGAACGT
GCACACAGCCCTAGGCTTGGAAATGGCTGGATTTAATAATATCTGGTCTTTCTTTGAGCCCTGAAATTCTCTAACACTATGTCTTGGAACATAATTTTAC
TGTTTTCAGTGGTTATAGAGATTTGCTTTACAATTTAGCATTGGTCTTTACCCATGATTTTGTTTGACGCCAACTTGTTGGGCAGGAATGCACCCCCTGC
CCCCCGCTTTGTTATGGCCTTGCTCCTATAGGGCAAGAATATCTGCTTTAAGGCCGGGTGTGGTGGCTCAGGCCTGTAATCCCAGCACTTTGAGGGGCCA
AGGCGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAGTATGGTGAAATCCTGTCTCTACTAAAAATAACAAAAATTAGCTGGGTGTGGT
GGCACACACCTGTAATCCCAGCTATTTGGGAGGCCGAAACAAGAGAACCACTTGAACCCAGGAGGCGGAGGTTGCGGTGAGCCGAGATTATGCCACTGCA
CTCCAGCCTGGGAAACAGAGCAAGATTCCGTCTCACACACAAAAAATATATATATGTCTGCTTTAAGTATGCAGGCCGTGTTTGTGCTGAACGGCAGGAA
TGCCAAACTTGGCTGCATGGTACCAACTAGGGACCTCAGAGTTCCAAGGAGAACAAACAGTTGGTTCCTGGAGGCTGGGGGCTTGTATCAGACCCTGAAG
ACTAAGCATGTGCTGGGTCCATTGTTGTCCTGCACCCATGGTAGTGCACTAAACACCTAACCTATATTTAAGTGTTTTTGTTTGTCCAAAAAATGTCTTT
TTTTTTTGGGAGTCAAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGACACGATCTCAGCTCACTGCAGCCTCCGCCTCCCGGGTTCAAGCTATTC
TCCTGTCTCAGCCTCCCAAATAGCTGAGACTATAGGCACGCACATCCATGCCCAGCTAATTTTTTTATTTTTAGTAGAGACGAGGTGTCTCCATGGTGGC
CAGGTTGGTCTTGAACTCCTGTCCTCAAGTGATCCACCTGCCTCGGCCTCCCAAAGTGGTGGGATTGCAGGCATGAGACACCGCGCCCGGCCTGCCTTGT
CCCTTCTTAAAATGAGTTGTCCATTTGTAAGCTGCTGATTTCTTTGGGACATTGTCTCCGTAAACTTTTCATAAAGCATCAGTGATTTCACCATTCTTCC
ACCCAAGCTTCACCGTAAATTTGTTGTTTGTTCTTGCTTCAATTTCAGCAGAATTCATTTAGCTCTGATAAGGGCTCGCTTCAAACTGATGTCTTATCCT
TCTTAGTGCCTCAAACTACATCCTGTTCACTCATGTTATAGCAAGTTAGTGTGAGTTTATTTTGGTGCACAAAAATTTTTTTAAATCCATGCAGTCTTTT
TTCATAATACGCATTTTCCATGAACTTTTCGAAGACCCCTTGTAGATGTCTGTTGTTTAAACCACCCAGTTTACAGTAATTTTTTTTTTTTTTTGAGATG
AAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCATTGGCACACTCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTTTTCTGTCTCAGTCTCC
CGAGTAGCTGGGATTACAGGTGTGTGCCACCATGCCTAGCTAATTTATGTGTTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAAC
TCCTCACCTTGTGATCGGCCCGCCTCGGCCTCCCAAAGTATTGGGATTACAGGCGTGAGACTCTTGCACTTGGCCTACAGTAATTTTATAGCAGCCTAGG
CTAAGATAGCCATTTCTGGGTATAAGAATGTCATATACTGAACAGGCCTGCAACTGTGAGTAAAAGTCTGCAAAGAGGCCGGGCAGTGGCTCATACCTGT
AATCCCAGCACTTTGGGGGGCCGAGGCAGGTGGATCACCTGAGGTCAGCAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAAT
ACAAAATTAGCTGGGCGTGGTAGTGCATGCTTGTAATCCCTAGCATGCACTTGGGAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGTACTCAGGAG
GCCGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCTTTCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAACAAAACAAAACAAAACAAAAACA
AACAAAAAAACCCAACAGGTAGGTAGCAGTGGTTCACGCCTGTAATCCCCACTTTGGGAGGCTAAAGTGGGCAGATCACCTGAGGTCAGGAGTTCACGTC
CAGCCTGGGCAACATGGTGAAACTCTGTCTCTACAAAAATACAAAAATTAGCCAGGCATGATGGCGGGTGCCTGTAGTTCCAGCTATTCGGGAGGCTGAG
GCAGGAGAATCGCTTGAACCTAGGAGGTAGAGGTTGCAGTGAGCCGAGTTCACGCTATTGCACTCCAGCCTCCATCTCAAAAACAAAACAACAAAAACCC
AAAATATATATTATAATTTTATTTTATTTATTCAATTTTATTTTATTTTATTTTATTTTTCTAGGAACAGGTCTCATTCAGGCCAGGCATGGTGCTCACG
CCTGTAATCCCAGCACTTGGGAGGCCGAGGTGGAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGCCATCCTGGTCAATGTGGCGAAACCCCATCTCT
ACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCACACGCCTGTAATTCCAGCTACTTGGGATACTGAGTCAGGAGAATCACTTGAACAGGGAGATGGAA
ATTGCAGTGAGCCGAGATTGTTCCACTGCACTCCAGCCTGGGTGACAGGGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAGAAAGA
AAGAAACAGGATCTTACTCTGTTACCCAGGCTGGAGTACAGTGGTGCAATCATAGCTCACTGCAGCCTGGAACTCCTGGGCTCAAGTGATCCTCCTGATT
TTTTTTGGTAGAGATGAGGGTCTTGCTTGTTGCCCAGGCTGGTCTCAAACTCCTGGCCTCAAGCGATCCTGCCATGTCGGCCTCCCAAAGTGTTGGGATT
ACAAGTGTGAGCCACTATGCCTGGCCTAAAAATATATATATGAAAATATATAAGAAATGGGCCTCCCAGGAATTAAGGTGTTTGCGGGAGTCCTGGTCCC
CAGTTTTTCTGCCAACACTCCCTGTTCCCACACATGACCTGGTCCAGACCCCAAACAGCCAGGCCCAAAGGACAGGTGAGGCGAGGCGAGAACTTGTGCC
TCCCCGTGTTCCTGCTCTTTGTCCCTCTGTCCTACTTAGACTAATATTTGCCTTGGGTACTGCAAACAGGAAATGGGGGAGGGACAGGAGTAGGGCGGAG
GGTAGGGTAGGACCAGAAGCCTCTCTAGGCCTGCCATGGGGCAGGCAGCCAGGGAGAAGGAGGGCCCCTCAGTGGAGACCCAGGGATTTCAGTAGCCCCT
GTTCCGGGACAGGCGCAGGTCCTGGGAGGTGACAGAAGATAGACTAAAGGCCCAAGAGTCCCTGGACCTGACTCCTCCCAGGCAGCTGCCACACACAAAC
ACACCTCCAGGCACCCTGGACAGGAAGGAGGAGAAATGGGCCCCTCCTCCAGTGGCTGAGAAGCTGGGGCAAATGTTGGCTGTTCCTATCCCTGGTGCAT
CCCATGGCGAGGGGCAACTTCCATCAGGCCACACCTTTTATCTTTGTCTCTATTTTTGATATCTGTGTATTATGATTATACAAACCCCCACATTGGCCTA
TATGTGCAGATCTGATTAAGAACTTACGATATTCCATGGACATTCCATTCCTAATCTCCTTTAGTCCTCACAACAAAGTATTATTCCCATTGTATAGATG
AGGAAACTGAGGCACACAGAGATGACAAGCAACCACCGCTATATGTTAGGATTCGAAGGAGCTCCAGGAAAGTCTCATAGCCCCACTGGCCAGAATGGGC
TAAATCTCAGAGGGGGAGGGTGGGAGATGGGGGTGACAGTGACCTTTTTTGTGACTCCTCCTAGACCATCCATCCCTGCTCCCAGGAGGACCTGTCCTCC
CAGATGGTGGAGATGGACAGGAGGACTATCTACCCACCCGTCCCCACGGCCCTGACCCTCTGACCTCACCCTCTCCGCTGATTTCTTCATGTTAGTTCAA
CATTAACCCAGAGGGGTCAGGACAGACAATTCCTCAGTGACCCAGGAGCTGACACACTATGGCGCACGTCCGAGGCTTGCAGCTGCCTGGCTGCCTGGCC
CTGGCTGCCCTGTGTAGCCTTGTGCACAGCCAGCATGGTAAGGRAGYGCTTGCAGGCTGGAACAGGCTGGAGGACTGGGGTGTGGGCCCATGGGCTGGGG
TCTCCTGGCTGGACAGAGCACACAGAGCTGGCCCCTAAGTAGGTCTCAGCCCCAGGCGGCCAGCTTAGGGAAGAAGTCAGGAGCTCAGGGCTGGAAAGAG
AATGGCTGCTTCTCTCTTCCAATATAGGGAGCAGGCTGGGGGCAAGGGGCAGTGTAGGAGGGGCACAGGGGGCCACATTTAGCAGCCTTCCAGGCACTTC
CACCAGCCCAGACAGCCTCTCTCAGAAGCCAGCAGGGGAGGGTGGGCTTGCTTCATGCCCCCAGAATGGCCAAGACTGCCTGTTCCTGAGGCCGCTGTCC
CATGACCCCCCCACCGCCTTACAGTGTTCCTGGCTCCTCAGCAAGCACGGTCGCTGCTCCAGCGGGTCYGGCRAGCCAACACCTTCTTGGAGRAGGTGCG
CAAGGGCAACCTGGAGCGAGAGTGCGTGGAGGAGACGTGCAGCTACGAGGAGGCCTTCGAGGCTCTGGAGTCCTCCACGGCTACGGTGAGCCTGGGCTGC
TCGGACGGTGCCGGGGCCTCAGACCGGGCCCAACTCTAGACACTTCCACAGAGAAGCAAGCGAGGAAYGCCACAGCCCCTTCGCTGCTCACAGCCTCATT
TCAACTCTGAGCCCCTCCTCACAGGGCTGGCAAGAGGAGCGGCCTCAGCCTTTCCTGGGGGTCTCTGTGCCTGGACTGTGTCCCTGTGCAGCTCCATGAC
ATGGGGAGGCCTCCACAGTCTTCAGACATCCACCTGCCCTGGAGCTCTGTGTCCACATGGCCTCCTCAGCGGCAGACTCCCACACCACCCTTGAGGGGTG
GGACTCTGGGGAGGCCACCACAAGCCCCCGGGCTCAAGACTCAGTGTTCCTGGAGCTCTGTGTCGCCTTTCCTGTCTGTAGGGCTCTGCCAGGGTCCCAC
TGCCCCCTCTCCTCCCATCTCCCCCAGCCTCTTTCAGTCTCGGTGTGTGTGTTGGAGGAACTCCCCTATCCTCAAATATTCTTCTCCTTTTGGAAACAAA
AGTAGGAAACTCTGCCACAAACCTCCCCAGAGCCTGCCCCCTGCGTGACCAGGRTAAAGGAAAGTGTGAGGAGGAGACATAACATTTACTAAAACAACAC
AAAACAGGAGCTGCCGTAGCCTCACTCCCAGCCCTTGTTTTTCAGGATGTGTTCTGGGCCAAGTRCACAGGTGAGCACCGGGAAGGATTTGCCCCAGGAA
GGGAGGCCTGGGGACCCCAGTGAGAGAATTCTACCCAGAGAATCTTCTGCTGCACCTAGCCATCCACCCATCCACCCCTTCCCCACTCCTTCCTTGGTCC
CTCCCATCTGTTCATCCATCTYTCTGTTTCTCACCAACATCCCATCCACCCTGACTCCAGCTCATCCTGGCCATACCCCAATCCCAAAGGTAAACACCTG
GGTCTTTTCCAGCTTGTGAGACAGCGAGGACGCCTCGAGATAAGCTTGCTGCATGTCTGGAAGGTGAGCAACTGACACGGGTTTGGGGAGCAGGACATRG
AGGGGAGCCTGGGAGAAGAGCTCAGGGGTGGGTTTGGAGTGTGGCTGGTGGAGGCCGAGGCAGTCCCCAGCATCTGACATTGCTCCCATTCCTGGGGTCA
AGATGTCTCTTTGTACCTGGCTCTGTGTCTGGCATGCGAACGAATGAATGAATGAATGGACTAATGAATTAATGTTTTTTTTTTTGAGACAGAGTCTCGC
TCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGTAAACTCCGCCTCCCGGGTTCAAGCAATTCTCTGCCTCAACCTCCCAAGTAGCTG
GGATTACAGGTGCTCGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTC
GTGATCCACCCACCTCGGCCTCAAAGTGCTGGGATTATAGAAGTGAGCCACCGCGCCTGGCCATGAATTCATGTTTAAGGCTTCATTCTCCTTTGCCTGA
CCCGAGTCTCTGCCCCCACCTAGTCAGAGCTTTGATGATGTCACATTCCCCTTCTAGCTTTAGGTGTCACTGAACCAAACAGGAACCCAAACCCCCAGCT
GCTCTGACACCAAGGACTTCCCTAAGCATGCCAAGGTGTTTCTAGCACCTGGCCTTGCATATGTTGTCAATTTCCTCTGGAGCGACCATCACATCTACTG
AACACTTTCCTATCCTTCAAGGACTGCTTCAAATGTCACCACTTTTGCTGAGACTTCAGGGAGCACCCTCCCTCCTGCACTGTGTTCTGAAGGCACCTTT
AGCACGACAAAAATGGAACYCTTTGTTTATTTATAAGAGACAGGGTCTCCCTTTTTTGCCCAGGCTGATCTTGAACTCCTGGGCTCAGGCAATTCTCCCA
TCTCAGTCTCCCAAAGGAGTAGGATTATAAGTGTGAGCCACCATGCCTGGCTGCCATACTTTCATTTTTTTTTTTTTTTTTTTGAGGTGGAGTCTCACTC
TGTCGCCTAGGCTGGAGTGCAGCAGCGCGATCTCGGCTCGCTGCAACCTCCGCCTAGCGGATTCAAGTGATTCTCCTGCCTTAGCCTCCTGAGTAGCTGG
GATTACAGGCACACACTACCATGCCCAGCTAATTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCACAAACTCCTGACCT
CAGGTGATCCACCAGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGTGTAATCCACTGCGCCCAGCCTCATTTGTTAAATTACGTACTCAACAGACATTT
TACAAAGTTCCTGCTACGTGCCAGGCACTATATCAGGTGCTGGGGATTTTAAGAGAATCAAATACAGTCTCTGCCTTCAAGGAATTCAAAATCTCAAAAG
AGAACAAAAATACAAAATATTAAAATGATTGCGGCCGGGTGTGGTGGCTCAAGCCTGTAATCCTAGCACTTTGGGAGCTGAGGTGGGCGCCCAGGCCAGG
GGTTTGAGACCATCCTGGCCAACATAGTGAAACCCCCAACCTCTACTAAAAATACAAAAATTAGCTGGGGTGTGGTGGCACGCGCCTGTAATCCTAGCTA
CTAGGGAGGCTGATGGGGGAGAATTTCTTGAATCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTTCAGTCTCGGCAACAGAACAAG
ACTCATCTCAAAATACATAAATAAAAATAAATAATTCAATAAAGTGATTGCAAGAAAAGTTCTGTTCAAGGCACCAAGAGACCACAGGAAAATGAGTGTC
TGGTTTGCCAGAAAAATGAGAGATGGCTTCCCAGGAGAGGCAGAGTTCTGCCTGGCCTGGTGGGATGCATGGATGAACAAACAAGTGGGCATTCCAGTCA
GAAGAAACAATCCGTGGAAAGACCCAGAGGCATGAGAAGCYGAGCTAGCAGGGACAGGTAGACCAGGGCCAGTTGAAAAGGACCTTCATCACTTTTTCAT
CCTGCTGGCCAAGAGAAGCCACAGAATGGAAGCTCCATGAGGRCAGGGCTGTGACTGTCCTATTGGTTGATGTGTACTGAGCACCCGACAGTGCCTGTCA
YATGGTAGGCACTTAGCGAATATTTGGAGGCCACTGTTGAGTGAATGGGAGAACTGCTGGTTGCAGAGGAAGAGGGGCTGGGTGAATGCAGGTTCAGGAT
TGTGGACCTGCATGAGCTGGGAGGTGGGGGATAGACAACTTTGCAGGGAGAGAGGAAATAAGTCCCCAGGCTCCAAGGCTGACCGGGGTGGGGTCTCCGC
AGGTAACTGTGCTGAGGGTCTGGGTACGAACTACCGAGGGCATGTGAACATCACCCGGTCAGGCATTGAGTGCCAGCTATGGAGGAGTCGCTACCCACAT
AAGCCTGAGTGAGTGAGGGGCCGGCCTTCCCACCATGGGCTGAGAACAGGGAGCAAGCGTACCTCAAGCCCAACAGCCTCCTGTTGGGCAATTTCCTSTT
CCAGAATCAACTCCACTACCCATCCTGGGGCCGACCTACAGGAGAATTTCTGCCGCAACCCYKACAGCAGCACCAYGGGACCCTGGTGCTACACTACAGA
CCCCACCGTGAGGAGGCAGGAATRCAGCATCCCTGTCTGTGGTAAGCTGGGGGCAGTGGGGCGGCCCRTGGCCAAGGCCCGGGGGCTTCATGGGGCCTGG
CAGCCTGGGATGGGAACCAAGAATACTGGCTACCCAGGCACAGTGGCTCATGCCCGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACCTGAG
GTCAGGGGTTTGAGACCAGCTGGGCCAACATGGCAAAACCCCGTCTCTACTAAAAATACAAAAATTGCCAGGCGTGGTGGTGGGCGCCTGTAATCCCAAC
TACTCTGGAGGCTGAGGCACGAGAATCGCTTGAACCCGGGAGGCGGAGTTTGCAGTGAGCTGAGATCCTGCCACTGTACTTCAGCCTGGGCGACAAGAGC
AAAACTCTGTCTCAAAGAAAAAAAAAAGATGCTGGCCACCTTCAGAGCTGGCGTCAGTCATTCAGATCATATCTGTGCCTATTGCTCAGTAAAGTCAGGG
AATCAGGGGATCTGAGTGGGGGGATCTGCCAGCCTCCTCCTCCCCCTCCCCACTCTTGACTTCCTTATGGTCCAGGCTGTGGCTCATTCCAAACATGCCT
CCTTTCTGATCAAGGCACTCCTCCCTCCGGGAAGCCCTCCCTAGCCATTTCAGTCCACACACCCTGTTCTGAGTATCACAGAGCAAGCCTTGTGCAGTTT
GGCCCTGCGGGATTCTGTCATTATTATTTCCTTGGTGTGTTAAGTAGCTATAGCCACCCCTTCCCTGAGGCAGACCACAATAAGCATTTCTTTTTCCCAT
GAGGGTTGGCAGGTGTGGCTGCACTCGCTAATGCGTCTGTAGGGTCAACTGACGGAGGTTGGCCCTGGCTGGGTGGCTCTGATTCAAATAATGGGTCCAG
CTGAGTCTGGCTCCTCGTTGAGGGTTGGGCCTAGATCTGCTCCACGTGCGTTCATGCTGGGGCTGAGGCTGAAAGAAGGTACCTGGGAAAACTCTTCTTA
TGCTGATGACAGACACAGAAAACAATGAACAGAAAAGCGTCTTCTGTCCTGAAGGCCTGGCTCAGAACAGGCACAGTCAGCCCTGCCCACGTTCCATTGG
CCAGAGCAAGTATATGTTCAAGGCCAGGGTCAAGAGGTAAACTACACCTCAGCCTGTAAAATCACAGAGCAAGGGATGTGGATGCAGGCAGGGGTAAAGA
ATTTGTGCCGATTACCAGTCCACAAACATGSGTTAGTGTTTGTTCTCTAGGCATCCCTGTCGGGCCCATTGCTCATTCCTGGGGTTGGTCTTTTTTTTTT
TTTCTTTCTAAGATGGAGTCTCACTCCCTTGCCCAGGCTGTTGGAGTGCAGTGGCCCTATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGAT
TCCCCTGCTTCAGCCTCCTGAGTAGCTAGGATTACAGGCGTGTGCCACCACTCCTGGCTAATTTTTTTTTATGTTAGTAGAGACGGGGTTTCACCATGTT
GGCCAGGCTGATCTCAAACTCCTGACCTTGTGATCCTCCCGCCTCGGCCTCCCAAACTGCTGAGATTACAGGGGTGAGGCACTGCGCCCRGCCWTTTTTT
TTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATAATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAGGCGATT
CTCTGCCTCAGCCTCTCATATAGCTGGGATTACAGGCACACGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCTTCATGTTGGC
CTGGCTGATCTTGAACTCCTGACCTCCGGTGATCTGCCCAGCTCGGCCTCCCAAAGTTCTGGGATTACAGGTGTAAGCCACTGCGCCTGGCCCCTGGAAT
TGGTCTTATAGCAAGTTTATCCCAACAAAAACAGCTACTATTTACTCCCCAACCCCCATACACACGCACACACATTGATGATAAATAAGTTGCAGGCTTG
CAGAAATTGACCCATCCAGGTGAACAGCCTAGTGATCCSAGCAAGCGTCCTGCTGTGCAGCTATAAAAACATGACTCCTCCAGCAGCTCCAGGCAGCCAC
TACCAGTTAATTACAGATGGCCTAGGAGGCCAAACCTGGTTACTATCTCTGGTTTATTATGTGCCAGACACTTATGCTGTATATTTTGTTTAATCCTCTC
AACAAACCTGCAAAAGTGGCATTAGTAACCCCTTTAAAGGCAAACGGTCAGAAGCCCAGAGAGGTTAAGTAACCTGAGGTCACACAGGCAGAAAGCAGCA
AGACCGGGGTTCACACCCCTGTCTGTTCCGGTCCATGTGTGGTCTCACTCACTCTGCTGCCTCCTTGCCCCTCACCCACCAGGCCAGGATCAAGTCACTG
TAGCGATGACTCCACGCTCCRAAGGCTCCAGTGTGAATCTGTCACCTCCATTGGAGCAGTGTGTCCCTGATCGGGGGCAGCAGTACCAGGGGCGCCTGGC
GGTGACCACACATGGGCTCCCCTGCCTGGCCTGGGCCAGCGCACAGGCCAAGGCCCTGAGCAAGCACCAGGACTTCAACTCAGCTGTGCAGCTGGTGGAG
AACTTCTGCCGCAACCCAGACGGGGATGAGGAGGGYGTGTGGTGCTATGTGGCCGGGAAGCCTGGCGACTTTGGGTACTGCGACCTCAACTATTGTGGTG
AGCTGCCTGGGTAGGGGGCCTGAGTTGCAGGGACAAATCCTGGTGGGAATAACAACAGCCGCTTCTGCTTATCGAACGCTTACCTCATTGAGTGCGCTCA
TTACAGCCTTACAGTAACCAGGTGGGGGGTAAGGTCCTGTGCCCATTTCACAGATAAGTACACTGAGGCCCCAGGAGGTTATTGCCTAGTAGCCCAACTG
TGCATGCACGCTTAACCTCTGCACCAAATGGCCTCCAAGGCCCGTAGGGGAAYTGGGGGGATCTAGGGGATGGGTGAGGAATGGCCCAGCCCAGTCCCAG
CCGGTGCCTGGGTCCCAACAGAGGAGGCCGTGGAGGAGGAGACAGGAGATGGGCTGGATGAGGACTCAGACAGGGCCATCGAAGGGYRTACCGCCACCAG
TGAGTACCAGACTTTCTTCAATCCGAGGACCTTTGGCTCGGGAGAGGCAGGTGAGGTAGTGGGCATCYGAGGGGATGCGGGGCTGCGGGGCTGGTGGCCA
GGACTTGCCCCTCACTGCTTGGCTTGCTCTGCAGACTGTGGGCTGCGACCTCTGTTCGAGAAGAAGTCGCTGGAGGACAAAACCRAAAGAGAGCTCCTGG
AATCCTACATCGACRGGCRCATTGTGGAGGGCTCGGATGCAGAGATCRGCATGTCACCTTGGTGTGTCCTGGAGCCCTGCGCTACCATTCACTCCTGGGG
GCAGGTGTGCTGCTGGACCCCCACCCTCAGGCCCTGCCTGCAGGCCTGGGCTTTACAGATGACAACAGCTGAGCATCCAGGATCCCACCAACTCCACACA
GCAGCCACATGAGATGGGTTGTTTACTTCTTTTTTTTTGTTTCTTAGATGGAGTCTTGCTCTGTCACCTAGGCTGGAGTGCAGTGCTGCAATCTCGGCTC
ACTACCTCGATCTCAGCTCACTGCAACTTCTGCCTTCCGGGTTCAAACGATTCTCTTGCCTCAGCCTCCTGAGTAGCTGAATTTACAGACATGCGCCACC
ACACCCGGCTAATTTTTGTATTTTAAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCTGCCTCAGC
CTCCCAAAGTGCCGGGATTACAGGCATGAGCCACCACACCCGGCCCATGGGTCCTTTACTTCTAAGCAGATGGTAAAGCTGAGACTGACGGAGCTGGTGG
CTCACCTCCGCGCACAGCTAATGGGTTTGAATCCAGTTCTTCTGATTCCAGAGCTGTGCTACGCTATGTGAACTCTGGACTGGAAGGACCTAGTTAGGGG
GTGCAAAAAGCAGGAGGCAGGTCAGGTGCAGTGGCTCACCCCTGTAATCCCAGCACTTTGGGAGGCCAAGACAGGAAGATCACTTGAGGGCAGGAGTTCG
AGGCCAGCCTGGGCAAAATGGTAAAACCCCGTCTCTACTAAAAATGCAAAAATTAGCCAGGTGTAGCAGCATGTCCCTGTAGTCCCAGCTACTAAGGAGG
CTGAGGCGGGAGGATCGCCTGAGCCCAGGAGGCTGAGGCTTCAGTAAGCTGTGACTGTACCATTGCACTCCAGCCTGGGTGACAAGAGTGAGACCCTGTC
TCAAAAATAAATAAATAAATAAATAAAAAAGTGTGAGGCAGCCCCTCAGCATCACACGGAGGCTCCAGGCCCCAAAGGCGGCCAGCCCAAGCTTGGATCT
GGGCCCCGGAGGCAGCTCTGCCCAGCTGGGTTCTTAGACCTGGGATTGTTACTTCTAGGGCTGGTGTAGAGGCAGCCCCCTCATCCTCAGCTCCTAATGC
TTCCTGCTGCCCCTCCCAGGCAGGTGAYGCTTTTCYGGAAGAGTMCCCAGGAGCTGCTGTGTGGGGCCAGCCTCATCMGTGACCGCTGKGTCCTCACCGC
CGCCCACTGCCTCCTGTACCCRCCCTGGGACAAGAACTTCACCGAGAATGACCTTCTGGTGCGCATTGGCAAGCACTCCCRCACCAGGTACAGAACTGGT
GGCCCGTGGGTGTCTGGCAGGGGTCTGAGTCCTCCAAAGCGATCATGAGGGGCCCTGGTGGCTCCGGGACACATAGGATGTTCTGTATACCCCCCAGRAT
ATAACATCCCAGCAGTCTCTGCTGGAAAGCCCATTTGGTCACGTCCTGACTGAGGCTTGGAGCTGCGGGGAGAAATCCGTCTGTCTCCTGGTCCCTCCAA
CACTAGGATATAGCCCATGTGGGAGTCTCTGAAAATAGAGTCTGTCTGGACTAGGGCGTGCAGCCTGTGCCCCTGTCCCCGTCCTCCAGGCTGTCTGACT
CCAAAGCCCTGCACGGCTTTAGGCCCAGGAAGAAACASCCAGGGGGCTGCCATGGCAGGAACCAGCCCTATCCCCTCCCTGGTGGCCTGCAGGACACACT
GTCTCCCAGACCCCAAGGGCAGGCAGTTTCCTGCTCCTTGCTGGGTGAACCTGCAGCTTCTCCATTTCTTTCTTGGGGTCTCTGCAGGTACGAGCGAAAC
ATTGAAAAGATATCCATGTTGGAAAAGATCTACATCCACCCCAGGTACAACTGGCGGGAGAACCTGGACYGGGACATTGCCCTGATGAAGCTGAAGAAGC
CTGTTGCCTTCAGTGACTACATTCACCCTGTGTGTCTGCCCGACAGGGAGACGGCAGCCAGGTGGGCCACCAGATGCTTGTTAGCTGAGGGGCAGAAGCC
AAGTTCTGGGCCTGGCTCTGATACCAAGTAGCCTTGCAAGAGCCCCTTTCCCTTTTCCAGGCCTCGGTTTCTTGGAGTGAACCCAAAAGTTCTTTTCAGT
ACTGGCGTTTTATTTTTTATTTATATTTATTTATTTACTGACGGAGTTCCACTCTTGTCTCCCAGGCTGGAGTGTAGTTGTGCGATCTTGGCTCACTGCA
ACCCCACCTCCYGGGTTCAAGCGACTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGATTACAGGCTAATTTTTGTATTTTTAGTAGAGACTGGTGGGTTTC
ACCGTGTCGGCCAGGTTGGTCTCGAACCCCTGACCTCAAGTGATTCACCCGCCTCGGCCTCCCAAAGTGCCGAGACCACAGGCGTGAACGTCYGTGCCCA
GCCAGCTCTGGCGTTTTAGATTCTGGTCTCTAAGAAATGGCGTTGGGGCCAGGCGGCTCCTGTGGGGGTTGGCTCTCACTAGGCCCTTCTTCCTTCCCCA
AAGCTTGCTCCAGGCTGGATACAAGGGGCGGGTGACAGGCTGGGGCAACCTGAAGGMGACGTGGACAGCCAACGTTGGTAAGGGGCAGCCCAGTGTCCTG
CAGGTGGTGAACCTGCCCATTGTGGAGCGGCCRGTCTGCAAGGACTCCACCCGGATCCGCATCACTGACAACATGTTCTGTGCTGGCAAGTCTGTGCAGG
GCGGGCTGAGGGAACAGTGGGGCCCAAGCTGGGAGAACTGAGTTGTGCCTGGGTTCARGCCATGTGACTTTGAGCAAGTTGCCTAACCTCTTGGTGGCTC
AGTTTCTTCCTCTGTAAAATGGAGGTAAAAGTCTCTATCCCATAAGGTTATGGGAGGGTTAAATGAAGTAGTATATATTAATGTACTTGGCATAGTATCA
GTCACCAGTGAGCTCAGATAGCAGCAAGAGGCTGCGGGTAGGGAAATGCCATTCATTCAGTCACTCAGCAAATAYTTATTGAGCGCCTATCACGTTCCAG
GCAGCGTTCTAGGGTATACAGCAGGGACCCAGACGGACAATGTCTGTGCCCTCAGAGAGCTTCCTTCCTAGGAGGGCACATCCATAAACAGATCTAAAAC
AGCAATCCCTGACCAGTGCTGTGAAGAAAAATGAAGCACARGGAGAGAGAACGGCTGATGAAGTGGGCTTCTAAATAGGGTGGCCAGACAAGGTGGGCAG
ATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGTCATGGTGACGCATGCCT
GTAGTCGCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAGCCAGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGGGCATCATTGCACTCCAGCTG
GGCAACACAGCAAGACTCCATTGATCGATCGATCAATCAATCAATCAGGTGGCCAGAGAAGGTTGGAGAAGGCCTCCCTGAGAAGGTGATGTCTGGGCAG
GGACTGGAAGAGGGGAAGGAAGGAGTGAGCAGGCATATCTAGGGGAGGAGCACCGCAGGCTGGGGGCATGGCAGGCACTAAGGCCCTGAGGTGGGAGCAC
TCTTGGCTTGTCTGGGGAGCAGTAGGGAGGCCTGGGGGGCTGAGGAGGGGCAGCAGTGGGTGAGGGGAGAGAGGGGGGCAGGCAGAGGACAGCCACTTCC
TTTAGGGCCTGGAAGGACTTTATTGAGTGAGATGGGAAGTTATTGAGGGGCTTGAGGCAGGTTAAGAAATGATGTGACTGACTTTAAAAGTAAAAAATAA
AAAAATTTAGTGTAATTTCAGACTCACAGAAAAGTTGTAAAAATAATACAAAGATTTCCTGTATACTGTCATCCAGATTGTCCTCCATTCTGTGGATGTG
TGGGAATTTTTATATATATATATGCATAGTTTGAGAGCAAATCATGAATATGGTTTCTTTTTACCCATAAATACTTGAGTATTTCCAAAAAAAAAAAAAA
TACCCAAGGATGTTCTCTTATGCAACCACAATACAAATATTAAAACCCGGAAATTTTTTTTTGACATAGCTTCGCTGTCACCCAGGCTTGAGTGCAGTGG
CACAATCTCGGCTCACTGCAACCTCCTGCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAATCACAGGCATGTACTACCATGCC
TAGCTAATTTTTGTATTTGTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCC
AAAGTGCTGGGATTACAGGCGTGAACCACTGTACTCGGCCAAAACCAGGAAATTTTTTTTTTTTTTTGAGATGGAATCTTGCTCTGTTGCCCAGGCTAGA
GTGCAGTGGCATGGTCTCGGCTTACTTGGAATTACAGGTGCCTGCCACCACGCCCGGCTAACTTTTTGTATTTTTAGTATTTTTAGTAGTGATGGGGTTT
CACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGGGTAATCCACCCACCTCGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACAGCACCT
GGCCCAAAACCAGGAAATTAATGATGATACAATATTATTGTCTAATCTATAGACCTTATTCAAATTTTTGTTAGTCTTGCTAATGTCTTTTATAGGGAAA
AAAAAAAAAAAAAGCGTGTTTCTCACCCAGGATTCAATGAAGGATCTTTCTTTGTCTTCTATGACCTTGACATGTCTGATGAGTGCAGTCTGGTTATTTT
GTACACTGGCCCTGAATCCGGGTTTGTCTAAGGTTTCCTCACGGTCAGGTTCGGGCTCAGTGGTGCCATGTCCTTCTTGGTGCATCCTGTTAACTGGCAC
ATGAGAACAATTTGTCTCATATGTGGTGAGTCTAACTCTGACCTCTTGAGGAAGGCAATGTCTGCCAAGTTTCTTGCTGTAACTTCTGTTTTTCCCTTTG
TAATTAATAAGAATCTGGTAAAGAGACACTTTGATGTTTTTTTTTTTTTTTTTTTTTGTGATGGAGTCTCCCTCTATCACCCGGGCTGGAGTGTGTGGTG
CGATCTCGGCTCACTGCAACCTCCATCCCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCAGGGATTACAGGCATGTGCCACCACACCCA
GCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGAACTCCTGACCTTGTGATCCGTCTGCCTCAGCCTCCCAAAG
TGCTGGGATTACAGGTGTGAGCCAATACGCCTGGCCTACTTTGATATTTTGTATTCTGTTTGCATCAAAACCTTCTCCCAACTAGGGTGACTACCAAATG
GCACTTATCTAATTCTGTCATTCCTTCTACATTTGTTAGTTACTTTATTGCTTTCCTTCCTTTCATTCTATCAGTGTGGACTTAAGGATCCTTACTTTAT
TCTAAGGGTTCACCTTTTTTTTTCTTTTTTTTTGAGATGGAGTTTCGCCCATGTTGCCCAGGCTGGATGGAGTGCAATGGCGTGATCTCGGCTCACTGCA
ACGTCCTCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCACCACGCCTGGCTAATTTTTTGTATTTT
TAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCGCCTCAGCCTTCCAAGGTTCTGGGATTATAGG
CGTGAGCTCTACCGTGCCAGGCCATACTTTGTTACTACTGTTATTTTTTCTGATGCTCAGATGATCCCAAGTTTGGCCTGTGGAAGTCCCTTCAAGCTGG
CTTCTGTGACTTGGGGAGATGTTCTGTCATTCTTTGAGTACTTTCTTTCTTTCTGGCACAGCAAAATGATTCAGGTTAATCCTACTTTCCTTACTGTAGT
GTTGGAACCAGCCATTTCTCCAGGGAACCCTTGTAGTCAAGAGTGGAATTTAGAACTGAGATCTGGGTGCTGGCGTGTGCACATTGCTAGTGGGATGTCA
TTACTTCTAGGCTCTCTTAGTGGACAGAACCAGAAAAAAATTATATGATGCATATACCAATATCTCTATCATCTATATAAAAAACCATGAGTTCCTACTG
AAACCTCCAATTCCATTCTAACACCACAGGATTAATTTTAGCTTTTCCTTTTCCATATTTGTAACTCTCTCTGTTGACAGTGAGAAACCTGACCCTCATT
ATCTGTAATGCATTTGCCTATTTGAACAATACTAGAATATAGTTTCAAAATCCTCCATCCATAACACTATTAAAACCAATCCTATGGCTGGGCTCAGCCC
ACTGCAACCTCTGCCTCCTGGACTCAAGCCAGCCTCCCACTTTAGCCTCCCGAGTAGCCAGGGCTACAGGCACACACCACCATGCCCAGCTAATTTTTGT
ATTTTTTGTAGAGACTGGGTCTCACTGTGTTGCCCAGACAGGTCTTGAACTCTGAGCTCAAGTGATCCATCCAACTCAGCCTCCCAAAGTGCTAGGATTA
CAGGTGTGAGCCACCATGCCTGGCCTCTCCTAGTAAATTTTTAGAAGTGGTGTTGTTAGGTCAAAAGGCAAACATGTATGTCATTTTTTAGAGATTTTTA
AATTTCTTTCCATAAGGGTTGTACCAGTTTGCATTTCCATCACAGTGTATGAGAATGCCTGTTTCCCCACAACCTTGCCAAAAGAATGTCACAGTTTTAA
ATTTTTACCAATCTGAGAGGTGAGAAATAGTATCTTGAAATTGTTTTAACGGACATCTTTCAAATTGAAAATGAGGTTGAACATCGTATCATATGATTAA
GGACCTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCCCTCTGTCACCTAGGCTGGAGTGCAATGGCACGATTTTGGCTCACTGCAACTTCCGCC
TTCTGGGTTCAAGCGATTCTCCTGCTTCAGCCTCCCAAGCAGCTGGGACTCCAGGCGCGAGTCACCATGCCCGCTAATTTTTGTATTTTTAGTAGAGACA
GGGTTTTACCAGATTGGCCAGGCTGGTCTCGAACTCCTTACCTTGTGATCCTCCCGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACCAC
GCCTGGCCTAAGGACCATTTTTATATAATTTTTTTTTTGAGACAGAGTCTTGCTTTGTCACCCAGGCTGGAGTGCAATGGTGCAATCTTGGCTCACTGCA
GCCTCCACTTCCCTGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGTTCCACAGGTGCGTGCCTGGCTAGTATTTGTATTATATAATTTTT
TTGTGAATTGTCTCTTCATGGTTTTTTGCCCATTTTTTGGTCCCTTTCTTATCAATTTTTGTGAGTTCTTCGTATTTATATTAGGCCTTTATTTGTGATA
TACATTGCAAATGTTTTCTCCTAGTTTGTCAGTTTTTTTAACCTCATGTATAATTTTTCTGGCCATGCAGTTTAAAAAATTACTAGGTAGTCAAATTTAT
CAATCATTTATTTTATTAAATCTGGATTTTGAATCAGAGATAAACTTTTCCTGGCCAGGTGTGGTGTCTTACACCTGTAATCCCAGCACTCTGAGAGGCT
GAGGTGGGGGATCACCTGAGGTCAGAAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTG
GCTGATGCCTGTAGTCCCAGCTACTCAGGAGACTGAGGCTGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCAGAGATCGTGCCGCTGCAC
TCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAACAAAACGACAAAAAACAACAACAGAAAAGCCTTTCCTGATAGCTAGGTCATTGAGGAATTCA
CTCATGTTTTCTTCTAGTACCTGATTTCATTTTTCTGCACTTAGATTCCTGACTCATATGGAGTTTATTTTTGTATCTGATGTGAGGCATAGATCTAATT
TATTATTTTCCAAATGGCTAACTAGCTGTCTCTAAACCCTTTATTAAAAATTATTGGCCAAGTGCGGTAGCTCACACCTGTAATCCCAGCAGTTTGGAAG
GCTGAGGCAGGATTGCTTGAGGCCAGGAATTCAAAACCAGCCCAGACAACATAGCAAGACCCTGTCTCTACAAGAAAATATTGGTCAGGTGTGGTGGCTC
ACGCCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCATGAGGTCAGGAGATAGAGACCATCCTGGCCAACATGGTGAAACCCTCGTCTCTAC
TAAAATACAAAAAATTAGCTGGGTGTGGTGGCGCATGCCTGTAGTACCAGCTACTCAGGAGGCTGAGGCAGGGGAATCATTTGAACCCAGGAGGTGGAGG
TTGCAGTGAGCTGAGATCACGCCATTGAACTCCAGCCTGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAGGAAAAAGAAAATATTTTAAAAATTAGC
TGGGCATGGTGGCATGTGCCTTGTAGTCTCAGCTACTTGAGAGGCTGAGTTAGGAGGATTGCTTGAGCCTAGGAGTTCAATACTGCAGTGAGCTATGACC
GCACCATTGCACTCCAGCCTGGGCAACAGAGTGAGACCCTGTTTCTATTAAAAAAAAAAAATCGGCTGGGCGCGGTGGCTCACGCCTGTAATCCTAGCAC
TTTGGGAGGCCGAGGCGAGCGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGAAAAACCCTGTCTCTGCTAAAAATACAAAATTAGC
CAGACATGGAGGCACATGTCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGACGGAGGTTGCAGTGAGCTGAGATCC
CTCCATTGCACTCCAGCCTGGGCAACAAGAGTAAAAACTCCGTTTCGCCAGGTGCGGTGACTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGG
GTGAATCACAAGGTCAGGAGTTTGAGACAAGCCTGGCCGACATGGTGAAACCCCATCTCTACTAAAATACAAAAAATTAGCCTGGCATGGTGGTGTGCGC
CTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGGGAATCACTTGAACCTGGGAGGAGGAGGTTGCAGTGAGCCGAGATGGTGCCACTGCACTCCAGCCT
GGCAACAGAGCGAGACTCTATCTCAAAATCAATCAATCAATCAATCAATCTTTGAACTAGTGATTTGAGATTTCACCTTTATCACATTCTAGATTGTATC
TTATTTTCATTTATTTATTTGAAATATAGACAAGTCTCCCTGTGCTGCCCAGGCTGATTTCAAACTCCTGGCTGGGCTCGAGCAAGTCTCCCGCCTTGGC
CTCCCAAACTGCTGGGATTACAGACGTGAGCCACCATACCTGACCTAGGTTTTATTTTTTAGTTTTATTTTTTCCTGCATCCAGCTAATTTGATTTGATT
TGTAGAGACGGGGTCTTGCTATGTTACCTAGGCTGGTCTCGAACTCCTGGGCTCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGTGTTGGGATTACCAGC
ATGAGCCACGGTGCCCAGCCCCACGTTCTAGATTTCTATGGATAGAGTATGCTTAAGGATGAGTATGTTTCTGGATGTTCGACTCGGCTTTCCTGGTCTG
TTGTCTGTCTGTGTACAGCGTCACATTGTTTTAATGATAGAGGCTTTAGCGTACATAGCTGGGAAGGCTAATGTTCTCTTTTAGTTTTTCTTTCCAGTGG
TTTCCTGGCAATTCTTGCATGTTTGTTTTTCCATATGAACTTTAGTGTCAACATGCCTAGGTCTATAAAAAAGCTTGGTGGTAATTTTATTGGGATTATG
ACACTTCAACAAATTAACTGGGAGAATGGACATATTTTTGATGTTGAGTCATTTTATCCAAGGATAAGAAACGTTTTCCTATTTGCTCAAGTCTATTATT
GTATCTTTCTTGACTGCTGCAATGTATTCTCTTATAATTTTTTCTATTGGTATCTTATTTTATGTATTTGTAATATCTTATTTTTCTTGAGTAAATTAGT
TAATGGCTTGCCGGTTTTCTCAAAACAAATATCTAGGGATTTGATTTATGAAATTATTAGGCCTATTATTTTTCTTTTTTTTGAGATGGAGTCTCACTCT
GTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGG
GTTACAGGTGCACGCCACCATGCCCGGCTAATTTTTTTATATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGCTGGTCTCGAACTCCTGACCTC
ATGATCCGACTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGT
CACCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGAAAGCTCCACCTCCCGGGTTCACGCCATCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGAC
TACAGGTGTACACTGCCACGCCCAGCTAATTTTTTGTATTTAGTAGAGACAGGGTTTCACCGCGTTCGCCAGGATGGTCTCGATCTCCTGACCTTGTGAT
CCGCCTGCCTCAGCCTCCCAAAGTGCTGGTATTACGGGCGTGAGCCACTGCGCCCGGCCAGGCCTATTATTTTTCTATTGTGGTTCATTAATTTCTGCTT
TTTTCTCTTAAAAAGTTTGCTTACGTTTTTGTCTGGTTTACTTTGCTGTTCTCTTGCTAGCTTTTTTTTTTTTCAGATAGGGTCTTGCTCTGTTGCCCAG
GCTGGAGTGCAGTGGCACAGTCATAGCTCACTGCAGCCTTGAACTCCTGGGCTCAAGCAATCCTCTTCTTGCTTCAGCCTCCCACGTAGCTAGGATCAGA
GGTACATGCCACCATGTCCGGCTAATTTTTTTTTTTCGAGACAGAGTCTTGTTCTGTCGCTCAGGCGGTAGTGCAGTGGTGCAATCCCGGCTCACTGCAA
CCTCCACCTCCACCTCCCAGGTTCAAGCAATTCTACCTCAGTCTCCTGAGTAGCTGGGATTATAGGCGCACACCAACATGTCTGGCTAATTTTTGTATTT
TTAGTAGAGACAGGGTTTCACCACGTTGGCCAGGCTGGTCTTAAACTCCTGACTTCATGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGT
GTGAGCCACAGCACCTAGTGAAAGTGTGGTTTTTTTGTGTAGGTTTTACTGTTGTTAGTGTTGTTCTGTATTGTTTGTAGAGGATACGTGGGGAGATTTG
GATAAAAGCAACTATCATTATTATCCTCATCAGACTTGTAGGTCTAACTTTTTAATTTTTTAATTTTTAATTTAAATTTTTTTCTTGGTCTTTTATCATT
AATTAATTTTTTCGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGTGGTGACATGATCACGGCTCACTGCAGCCTTAACCTCCCAGGTGCAAGTGA
TCCTCCTCTCTTAGCCTCCCGAGTAGCTGGGACTCCAGGCATGTGCCACCATGCCCAGCTAATTTTTTGTAGAGAGAGGGTTTTGCCATATTGCCCAGGC
TGGTCTTGAACTGCTGAGCTCAAGTGATCCACCCGGCTTGGGCATGAGCCACCTCCCCTGGTCTGGTCCAACTTTTTAAAAGCATTATTCTGCCTGTTGG
GTGGAGAATAGACTGTAGGTGGGCAAAGAATGAAGGAAACTAGTGGGTTCAGGAGCTCGAGCTAGAAGTGGTGAGAAGGGTTTGGATTTGGGGTCTATGC
TGAAGGTAGAGCCGACAAGATTTGCTAGGATTGGATGTGTAGGGTGAGGAAGTGGGGACAGCAAGAATGACTGGAGGGGTAAGTGGACTCTCACCAGCTG
TGTCTCGTGAAGGGGCGTGGCTGGGCTATGAGCTATGCTCCTGAGCACAGACGGCTGTTCTCTTTCAAGGTTACAAGCCTGATGAAGGGAAACGAGGGGA
TGCCTGTGAAGGTGACAGTGGGGGACCCTTTGTCATGAAGGTAAGCTTCTCTAAAGCCCAGGGCCTGGTGAACACATCTTCTGGGGGTGGGGAGAAACTC
TAGTATCTAGAAACAGTTGCCTGGCAGRGGAATACTGATGTGACCTTGAACTTGACTCTATTGGAAACCTCATCTTTCTTCTTCAGAGCCCCTTTAACAA
CYGCTGGTATCAAATGGGCATCGTCTCATGGGSTGAAGGCTGTGACCGGGATGGGAMATATGKCTTCTACACACRTGTGTTCCGCCTGAAGAAGTRGATA
CAGAAGGTCATTGATCAGTTTGGAGAGTAGGGGGCCACTCATATTCTGGGCTCCTGGAACCAATCCCGTGAAAGAATTATTTTTGTGTTTCTAAAACTAT
GGTTCCCAATAAAAGTGACTCTCAGCRAGCCTCAATGCTCCCAGTGCTATTCATGGGCAGCTCTCTGGGCTCAGGAAGAGCCAGTAATACTACTGGATAA
AGAAGACTTAAGAATCCACCACCTGGTGCACGCTGGTAGTCCGAGCACTCGGGAGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGAGGTGGAGGCTGCAG
TGAGCCACTGCACCCCAGCCTGGGTGACAGAGTGAGACCCTGTCCCAAAAGAATCCACTATCTATCTTCAGAGCAGGGCCAGGTGAGAGGAAAGATGGCA
GGTTGAATTTACAGGCATTAAAGATGTTCCACCCTCTGGGTTTTAATGGATTATCTCATTTAATCCTCACAAGAGGTAGGTGAGTAAACTGAGATTTGGA
GAAGTACCTTGTCCAAAGTCACATGGCTAAGAAAGCTCAAAGTAGGACTTCAAATATAGAAAATATTGAGTGAGGACGGTGCTTTTTTAGTTAACTCCCT
ACATCTTCCCTTGTATCATTAAAATGATATCAGATCAGGTAGGGCATGGTGGCTCACACCTGTAATCTCAGCAATTTAGGAGACTAAGGTTGAGGCTAGG
AATGCGAGATCAGTCTGGGCAATGTGGTGAGACCCCAAAAAATAAAATTAGCTAGGCGTGGTGGCATGTGCCTGTAGTCAAGGTTACTTGGGAGGATCAC
TTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCCATGATCATGTCACTACACCTGCACTGCAGCCTGGGTGACAGTGAAACCCTGTTTATAAAAATCAGGGC
TGGGCACGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGATGGATCACAAGGTCAGGAGATTGAGACCATCCTGGTGAACACGGTGA
AACCCTGTCTCTACCAAAAATACAAAAAATTAGCCAGGCGTGGTGGTGGACGCCTGTAGTCCCAGCTACGTGGGAGGCTGAGGCAGGAGAATGGCATGAA
CCTGGGAGGTGGAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCAATGGTGCGATCTCGGCTCACTGCAATCTCCGCCTCT
TAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCCGCCACCACGCCTGGCTAGTTTTTGTATTTTTAGTAGAGATGGG
GTTTCAACGTGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTTATCCACCCATCGGGGCCTCCCAAAGTGTTGGGATTACAGACATGAGCCACCCT
GCCCGGCCTTCCCATATACTTCAAATCATCTCTAGATGACTTACACCCAATAGAACGTAAATACTATGTAAATAGTTATACTGTATTATTTTAAAATTTG
TATTATTTTTATTGTTTTCTTTCCCCACAAATATTTTCAATCTGCAGTTGGTTGAATCTGCAGATGCAAAACCCACAGATCTGGAAGGCCACCTGTATAT
TAAAAGGTGTATATAACGACATTACTTACCTCATACGGTTATGAGGATTAAATGAAAGAACTTACATGGTGCCTTAGCACAATGCCTAGTGCCTAGTAAG
CTGTGAATCACTACCACTCGTATTCTCACTATTGCCTGGGAACTGGACCGGGCATTGGGCCTGTTGAAAGTTCCTCTGCCGCTTACCTCGTCCCTCTCTT
GGGCCCTGGAAATAGCCCATCAGTGGGGTAGTTGCTTCCTGGAATGTTTCCTCACACAGCAGTTCCCAGCTGGAACAATTTATTTTTCCAAGAAATGGGA
CCTCTAAGTTATAAGAGTCATGGGCTGGGCATGGTGGCTCACGCCTGTAATCCCATCACTTTGGGAGGCTGAGGCTGGTGGATCACCTGAGGTCAGGAGT
TGGAGACCAGCCTGGCCAACATGGTAAAATCCCGTCTCTACTAAAAATACAAAAACTAGCCGGGTGTGGTGGTGGGCACCTGTAATCCCAGCTTCTCAGC
TGCTTGGGAGGCTGAGGCAGGAGAATTGGCTGAACTCAGGAGGCAGAGGTTGTAGTGAGGAGAGAGGCATGCCACTGCATGCCATCCAGCCTGAGCGACA
CAGCAAGAGTCCCTTGCAAAAAAAAGAATCATAGAACTTCAAAGATACCCTTTCAGAGCACATTCTTCACGGTTACTGTTGGCAGAGGTCACAGGTGTGG
GATGGAGCATGGCTCCGTCTTGAGAAGTCTCATCCATGAGCTCAGGGAAAGAATGAAGATCAACGTCTGCCTCAGGCACAGGATAGTGGAGTGGAGCAGG
GAAACCCTGTGGCTACAGTACCTGGCCTAGGATCTTCTAACGTGGTTTTCCACGGGAAGGGACCTGAGATAGGGATCTTTAGCACCCTCCTCATAACGTT
TTTTTTTTTTTCTCATTTTTCAACACATCAGAAAACAAACAGGACAGAGTTCCTTGGCCTCATTCTTTGGTTCTGGTTGACTGAAAGGCAGTGAGCTTGC
AGGATTTGGCAGCCCAGGGCATCAACTCGATCAAGGGGGAAGGGATTCAGAATTACTTGTGACATGCAGGACCTGCTTTTTAAACAAGAACACACATTCT
CATAAGTCTGTTTTCTTCCGACATAGCGGTCAGTGTTGTAAGCTCTAGGGACTTGGGTTTTTCCAGTCAGCTGTGCTAATTCCAGACAGGAGTACAGCCA
CTCTTTTTTTTCCTCTTCTTTTGTTTCCCTCCTCTTTTTTGAGACAAGGTCTTGCTCTGTTGCCCAGGCTGTAGTGGAGTGATCATGGCTCACTGCAGCC
TTGACCTCCTGGGCTCAGGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTACAGGCTTGAGCCACTATACCCAGCTAATTTTTGTATTTTTTTG
GTAGAGCCATGTTGCCCATGTTGGTCTTGAACTCCTGGGCTCAAGTGATTCACCCACCTTAGCCTCCCAAAATGCTACGGTTGTATGAGTGAGCCACCAG
GCCCAGCCTTTGTAGCCATTCTTTCTAAATATGTCTTTCCACTATAGCAGCAAACGCCTCCATCATCCCTTCAGTGAACAAATACCCACTCCCATGTTCC
CACTATAAAGGAGAGACAAGTTTAATTTCAGGAGGCTCCGGGGCCACCTGAAAACGATGACTGGAACCTTTACAGGATTAATCTTCCATCAATCTTTCAT
TTCTTGGACATCAATTGAATTGAAGGTGGGCTACAATAGGAAAGTTCCTTTGAACTTTATAACTGCCCAAAATCTCCTCCTGAATCCAGAACCTTTTCAT
CCTGAAGAGTTTTTCTGACTGTGGAGGGAGGTCCTGTGGAATTTATTCCAGAGGTGAATACTCAGCTCACTTTCTCATCCTTACTCTGACTGAATGTGAA
GCAACTGTTAGCCTGGACCAAAAGAGACTCATACAACCAAGCAGCAAACCACTAAGATTTCCCAAACTCCATTAGTCAAATGAACACAAATCTAGTTGTA
GTGTGAGAACCACTGAAGCCCAGCCAATCTCTGGGCGCAATCTTGTGTGCCTTTGGTCAGCAAAGTGGTAGGATGCCCAAGAGCTTCTTGAAACGACTGG
TGATAATTGGAGGGAAATCATGACCAAAATCTCAAAACAAGGAAGGATGAGATTTTTCTGCTCCCTAGGAGCTGTTTGTGGAGAGCAGGGAAGGAGAGTT
CCTTCCATTCCAAAGGAATAAAAGACAGCTCCAAGTCTGTGAGCCAAGAAAAAGGGAAGCTCTGTAAGCAGTAATTAACCTTTCTCTAACTGGCTGAATA
CCCAGCTGGTACCAAAAGTTAAAAAATTGCTGCCCAACACTCCATGATATGGAGCATCTTGGGAGTCAGGTATAGTTAATGCAAACTTTATTTATAAAAG
ACTCTTAAATTAGTTGTATCATGCCATGCATTCATACAGAATACAGTGACCCTTCAGGGCGACAGAGAAGAGCTCACAAACTGAAAGGAAAACTATTAAA
GAGTTTCTAATATTAACTATTAAAAAGCTAGGAAAGATTAGGACAATTTTACAAATGAGCAATTAAAAAGAAAAGGATCTGGGAACTAGACTGAGCAGAG
AGGGGGCAGCTGTTTACAAGTCTGTACACTAAACTCATCCACGGACAGTCTTCTAGAGCAGCAGGACGCTGACAGAGAGAAGCAGAGTATGTACAAATAC
TTGTGCCACAATGACTCCTCCCCCTAGCTCCACGGCATGATACATACAACCAGTTTGTATACACTAGGCCTGCTGAGGCCATTTTAAACTATGAGGACTT
CTAGTTTAGTAAACTAAAGCTGCAGGGTGCCGGGGGAGTGGGGCAGCTTCATTTGCGACTGCTCTTTATTCTCTCCAGTCTTTTTTTCAAGTCGTCTATG
TTAGCTGTGGMGGAGGAGGAGGTCACAGTTCCTGAAGAGTGAGTCTGGTTAGAATCCAGGTCTGAATGCTGGTGCTGCTCCCGTGACTCCCGGAGCTGAG
AGAGTTTGCTGTGGAGCATGTCTGTGGAAGAGGCGACAGTAGGAACTGCTGGTTTGGAGAGCAAAGAGGTCAAAGGAGGTCGGTCATCTTGCTATTGAGA
GAAGGAGAGAGATTGTCTAAGGTCAGGTCAAGCAGGTCAAGATGCAGCTCCAGAACTACAGCAAGACTAAGCCACTTCTCTGTGGGCCAGCCTGCCTCGG
ACCTGCTTGTGACTACCCTCCCTGAACTGCACAGAAGAAAAGGAGCAGTACCTTTGTGTTGTCCAGACCACATCGCTGTCGGAGGATCTTTAGCCTTTCC
AAGTAGACAGATGGCCCCACTTCTTCCCCATTTGTGTTACCTATGGAGGACACTGTGCTTGTGGGCGTGGGCACACATGTGACTTCCATCTGAGGGGAGA
TGCCTAGAGGGGAAAAAGTAGAAAGAATATTCAGATATCCACATATCCCCCTTCTAAAGTGCCTTGGTTAATCTCCCACCAAAAAGAACAATTAAGAATT
TCCTATACTTGAAAACGACAAATTCCACAAGAATCTACCTGGAGTTGGTGATAAGGGTGCTCTGAAATATACAATATAAGCTTCTTGAGAATGCAAAAAA
CTGATATAGAAAGGCAGAATGTAAATTGGGTCATCCATCTGCATCCTGGGTTATGCAGGGGATTGTACTCCAGTAATCCCAGGGCTGACTTGGGCAATCC
AAAAAGCTGAAGCTACTCCTAAGCATACTGTAATTGCCCAACTGAAAAACCCGAGGACCTTAAATGTTTGGAAGAATTAGATTAAGTTTGGACCAATGTC
ACATAGGAGAAACTCATTTGAACCTGTGAAGGAAGCAAGGTGTCCAAGGCTATGGTGTATTCATGGGGAAGAGAAGGTGTCCAACAATTATCTAAAGAGG
GCATAGAACTGGAGTGTCTGTAACCCTACCACTAAGATCAATATTCTGGCAGGAGAGAGGAAAACCAAAACAACAAAAAATCCATCACACTTCCTAAATT
TCTGAGAATGAACAATGATACAATGCGGGCCTTTAAAATATTTCACTTGGTATCAATGCAAATGCATTCCACAGGCCCCAAAGGTAAGGTACTGGGAGGA
AACACTGCCTTATGGTAAATAGAAAAGTAGAAAGGTTACTCCAGGGAAAAAGGACTCCTTTAATGTAAAGATGAGGAGAATCCTCTGAGGGGGTGAAAAA
TGAATGAAGAATTATGTAAAAGCCAGCAATATGAGATGTCTGAATACTCTAAGGCACAAAATCAATTTAATAATCAGTGGGAATACATGCTTGGGTTGCA
AATGTGCTGTTTAGGCCAAAATTATCACACGT


SNP Information

Context             (SEQ ID NO:24510):
GGTGGCCCGTGGGTGTCTGGCAGGGGTCTGAGTCCTCCAAAGCGATCATGAGGGGCCCTGGTGGCTCCGGGACACATAGGATGTTCTGTATACCCCCCAG
R
ATATAACATCCCAGCAGTCTCTGCTGGAAAGCCCATTTGGTCACGTCCTGACTGAGGCTTGGAGCTGCGGGGAGAAATCCGTCTGTCTCCTGGTCCCTCC
Celera SNP ID:            hCV27855309
SNP Position Genomic:     15098
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,1)   caucasian(A,30)   total(A,49|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:24511):
GCCAAGACTGCCTGTTCCTGAGGCCGCTGTCCCATGACCCCCCCACCGCCTTACAGTGTTCCTGGCTCCTCAGCAAGCACGGTCGCTGCTCCAGCGGGTC
Y
GGCGAGCCAACACCTTCTTGGAGGAGGTGCGCAAGGGCAACCTGGAGCGAGAGTGCGTGGAGGAGACGTGCAGCTACGAGGAGGCCTTCGAGGCTCTGGA
Celera SNP ID:            hCV27530929
SNP Position Genomic:     6569
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24512):
CTGCTTGGCTTGCTCTGCAGACTGTGGGCTGCGACCTCTGTTCGAGAAGAAGTCGCTGGAGGACAAAACCGAAAGAGAGCTCCTGGAATCCTACATCGAC
R
GGCGCATTGTGGAGGGCTCGGATGCAGAGATCGGCATGTCACCTTGGTGTGTCCTGGAGCCCTGCGCTACCATTCACTCCTGGGGGCAGGTGTGCTGCTG
Celera SNP ID:            hCV27537180
SNP Position Genomic:     13615
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24513):
TACTGATGTGACCTTGAACTTGACTCTATTGGAAACCTCATCTTTCTTCTTCAGAGCCCCTTTAACAACCGCTGGTATCAAATGGGCATCGTCTCATGGG
S
TGAAGGCTGTGACCGGGATGGGAAATATGGCTTCTACACACATGTGTTCCGCCTGAAGAAGTGGATACAGAAGGTCATTGATCAGTTTGGAGAGTAGGGG
Celera SNP ID:            hCV27528436
SNP Position Genomic:     26133
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:24514):
GGGGTAAAGAATTTGTGCCGATTACCAGTCCACAAACATGGGTTAGTGTTTGTTCTCTAGGCATCCCTGTCGGGCCCATTGCTCATTCCTGGGGTTGGTC
T
TTTTTTTTTTTTCTTTCTAAGATGGAGTCTCACTCCCTTGCCCAGGCTGTTGGAGTGCAGTGGCCCTATCTCAGCTCACTGCAACCTCCGCCTCCTGGGT
Celera SNP ID:            hCV26049423
SNP Position Genomic:     11591
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24515):
CCATGTTGGCCAGGCTGATCTCAAACTCCTGACCTTGTGATCCTCCCGCCTCGGCCTCCCAAACTGCTGAGATTACAGGGGTGAGGCACTGCGCCCGGCC
W
TTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATAATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAG
Celera SNP ID:            hCV26049424
SNP Position Genomic:     11894
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,3)   total(A,2|-,3|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24516):
TGTGATCCTCCCGCCTCGGCCTCCCAAACTGCTGAGATTACAGGGGTGAGGCACTGCGCCCGGCCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTC
T
GTCACCCAGGCTGGAGTGCAGTGGCATAATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAGGCGATTCTCTGCCTCAGCCTCTCATATAGCTGGGA
Celera SNP ID:            hCV26049425
SNP Position Genomic:     11929
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24517):
TGACAGGCTGGGGCAACCTGAAGGAGACGTGGACAGCCAACGTTGGTAAGGGGCAGCCCAGTGTCCTGCAGGTGGTGAACCTGCCCATTGTGGAGCGGCC
R
GTCTGCAAGGACTCCACCCGGATCCGCATCACTGACAACATGTTCTGTGCTGGCAAGTCTGTGCAGGGCGGGCTGAGGGAACAGTGGGGCCCAAGCTGGG
Celera SNP ID:            hCV11381367
SNP Position Genomic:     16333
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,1|G,35)   total(A,1|G,63)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,-|G,-)    ;(A,-|G,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24518):
GTGATCCTCCCGCCTCGGCCTCCCAAACTGCTGAGATTACAGGGGTGAGGCACTGCGCCCGGCCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCT
G
TCACCCAGGCTGGAGTGCAGTGGCATAATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAGGCGATTCTCTGCCTCAGCCTCTCATATAGCTGGGAT
Celera SNP ID:            hCV26049426
SNP Position Genomic:     11930
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,7)   total(G,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24519):
CCTGGCCCAAAACCAGGAAATTAATGATGATACAATATTATTGTCTAATCTATAGACCTTATTCAAATTTTTGTTAGTCTTGCTAATGTCTTTTATAGGG
A
AAAAAAAAAAAAAAAGCGTGTTTCTCACCCAGGATTCAATGAAGGATCTTTCTTTGTCTTCTATGACCTTGACATGTCTGATGAGTGCAGTCTGGTTATT
Celera SNP ID:            hCV26049428
SNP Position Genomic:     18398
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24520):
TACCAATCTGAGAGGTGAGAAATAGTATCTTGAAATTGTTTTAACGGACATCTTTCAAATTGAAAATGAGGTTGAACATCGTATCATATGATTAAGGACC
T
TTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCCCTCTGTCACCTAGGCTGGAGTGCAATGGCACGATTTTGGCTCACTGCAACTTCCGCCTTCTGG
Celera SNP ID:            hCV26049429
SNP Position Genomic:     20606
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24521):
TCTATTGGAAACCTCATCTTTCTTCTTCAGAGCCCCTTTAACAACCGCTGGTATCAAATGGGCATCGTCTCATGGGGTGAAGGCTGTGACCGGGATGGGA
M
ATATGGCTTCTACACACATGTGTTCCGCCTGAAGAAGTGGATACAGAAGGTCATTGATCAGTTTGGAGAGTAGGGGGCCACTCATATTCTGGGCTCCTGG
Celera SNP ID:            hCV27536135
SNP Position Genomic:     26157
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:24522):
GTCTGTTCCGGTCCATGTGTGGTCTCACTCACTCTGCTGCCTCCTTGCCCCTCACCCACCAGGCCAGGATCAAGTCACTGTAGCGATGACTCCACGCTCC
R
AAGGCTCCAGTGTGAATCTGTCACCTCCATTGGAGCAGTGTGTCCCTGATCGGGGGCAGCAGTACCAGGGGCGCCTGGCGGTGACCACACATGGGCTCCC
Celera SNP ID:            hCV27845480
SNP Position Genomic:     12721
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,1|G,37)   total(A,1|G,65)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24523):
CTTTGTCATGAAGGTAAGCTTCTCTAAAGCCCAGGGCCTGGTGAACACATCTTCTGGGGGTGGGGAGAAACTCTAGTATCTAGAAACAGTTGCCTGGCAG
R
GGAATACTGATGTGACCTTGAACTTGACTCTATTGGAAACCTCATCTTTCTTCTTCAGAGCCCCTTTAACAACCGCTGGTATCAAATGGGCATCGTCTCA
Celera SNP ID:            hCV11661574
SNP Position Genomic:     26028
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(A,16|G,16)   total(A,18|G,46)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24524):
TGTCTGTGCCCTCAGAGAGCTTCCTTCCTAGGAGGGCACATCCATAAACAGATCTAAAACAGCAATCCCTGACCAGTGCTGTGAAGAAAAATGAAGCACA
R
GGAGAGAGAACGGCTGATGAAGTGGGCTTCTAAATAGGGTGGCCAGACAAGGTGGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACAT
Celera SNP ID:            hCV11661576
SNP Position Genomic:     16841
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24525):
TGGGTTTCACCGTGTCGGCCAGGTTGGTCTCGAACCCCTGACCTCAAGTGATTCACCCGCCTCGGCCTCCCAAAGTGCCGAGACCACAGGCGTGAACGTC
Y
GTGCCCAGCCAGCTCTGGCGTTTTAGATTCTGGTCTCTAAGAAATGGCGTTGGGGCCAGGCGGCTCCTGTGGGGGTTGGCTCTCACTAGGCCCTTCTTCC
Celera SNP ID:            hCV11661577
SNP Position Genomic:     16093
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24526):
ATTTTTTATTTATATTTATTTATTTACTGACGGAGTTCCACTCTTGTCTCCCAGGCTGGAGTGTAGTTGTGCGATCTTGGCTCACTGCAACCCCACCTCC
Y
GGGTTCAAGCGACTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGATTACAGGCTAATTTTTGTATTTTTAGTAGAGACTGGTGGGTTTCACCGTGTCGGCC
Celera SNP ID:            hCV11661578
SNP Position Genomic:     15912
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24527):
GTAGGGGGCCACTCATATTCTGGGCTCCTGGAACCAATCCCGTGAAAGAATTATTTTTGTGTTTCTAAAACTATGGTTCCCAATAAAAGTGACTCTCAGC
R
AGCCTCAATGCTCCCAGTGCTATTCATGGGCAGCTCTCTGGGCTCAGGAAGAGCCAGTAATACTACTGGATAAAGAAGACTTAAGAATCCACCACCTGGT
Celera SNP ID:            hCV8726802
SNP Position Genomic:     26327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:24528):
TATTTACTCCCCAACCCCCATACACACGCACACACATTGATGATAAATAAGTTGCAGGCTTGCAGAAATTGACCCATCCAGGTGAACAGCCTAGTGATCC
S
AGCAAGCGTCCTGCTGTGCAGCTATAAAAACATGACTCCTCCAGCAGCTCCAGGCAGCCACTACCAGTTAATTACAGATGGCCTAGGAGGCCAAACCTGG
Celera SNP ID:            hCV11661579
SNP Position Genomic:     12339
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,6)   total(G,5|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24529):
TGTGAGGAGGAGACATAACATTTACTAAAACAACACAAAACAGGAGCTGCCGTAGCCTCACTCCCAGCCCTTGTTTTTCAGGATGTGTTCTGGGCCAAGT
R
CACAGGTGAGCACCGGGAAGGATTTGCCCCAGGAAGGGAGGCCTGGGGACCCCAGTGAGAGAATTCTACCCAGAGAATCTTCTGCTGCACCTAGCCATCC
Celera SNP ID:            hCV27861954
SNP Position Genomic:     7365
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24530):
ATATTAATGTACTTGGCATAGTATCAGTCACCAGTGAGCTCAGATAGCAGCAAGAGGCTGCGGGTAGGGAAATGCCATTCATTCAGTCACTCAGCAAATA
Y
TTATTGAGCGCCTATCACGTTCCAGGCAGCGTTCTAGGGTATACAGCAGGGACCCAGACGGACAATGTCTGTGCCCTCAGAGAGCTTCCTTCCTAGGAGG
Celera SNP ID:            hCV8726803
SNP Position Genomic:     16675
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24531):
CCTGGGGCCGACCTACAGGAGAATTTCTGCCGCAACCCCGACAGCAGCACCACGGGACCCTGGTGCTACACTACAGACCCCACCGTGAGGAGGCAGGAAT
R
CAGCATCCCTGTCTGTGGTAAGCTGGGGGCAGTGGGGCGGCCCATGGCCAAGGCCCGGGGGCTTCATGGGGCCTGGCAGCCTGGGATGGGAACCAAGAAT
Celera SNP ID:            hCV27861955
SNP Position Genomic:     10324
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24532):
TTGGCTTGCTCTGCAGACTGTGGGCTGCGACCTCTGTTCGAGAAGAAGTCGCTGGAGGACAAAACCGAAAGAGAGCTCCTGGAATCCTACATCGACGGGC
R
CATTGTGGAGGGCTCGGATGCAGAGATCGGCATGTCACCTTGGTGTGTCCTGGAGCCCTGCGCTACCATTCACTCCTGGGGGCAGGTGTGCTGCTGGACC
Celera SNP ID:            hCV27530798
SNP Position Genomic:     13619
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24533):
ACCTCTGTTCGAGAAGAAGTCGCTGGAGGACAAAACCGAAAGAGAGCTCCTGGAATCCTACATCGACGGGCGCATTGTGGAGGGCTCGGATGCAGAGATC
R
GCATGTCACCTTGGTGTGTCCTGGAGCCCTGCGCTACCATTCACTCCTGGGGGCAGGTGTGCTGCTGGACCCCCACCCTCAGGCCCTGCCTGCAGGCCTG
Celera SNP ID:            hCV27861956
SNP Position Genomic:     13648
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24534):
GGGTTCTTAGACCTGGGATTGTTACTTCTAGGGCTGGTGTAGAGGCAGCCCCCTCATCCTCAGCTCCTAATGCTTCCTGCTGCCCCTCCCAGGCAGGTGA
Y
GCTTTTCCGGAAGAGTCCCCAGGAGCTGCTGTGTGGGGCCAGCCTCATCAGTGACCGCTGGGTCCTCACCGCCGCCCACTGCCTCCTGTACCCGCCCTGG
Celera SNP ID:            hCV27861957
SNP Position Genomic:     14828
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24535):
AGACCTGGGATTGTTACTTCTAGGGCTGGTGTAGAGGCAGCCCCCTCATCCTCAGCTCCTAATGCTTCCTGCTGCCCCTCCCAGGCAGGTGATGCTTTTC
Y
GGAAGAGTCCCCAGGAGCTGCTGTGTGGGGCCAGCCTCATCAGTGACCGCTGGGTCCTCACCGCCGCCCACTGCCTCCTGTACCCGCCCTGGGACAAGAA
Celera SNP ID:            hCV27861958
SNP Position Genomic:     14836
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24536):
GACCGCTGGGTCCTCACCGCCGCCCACTGCCTCCTGTACCCGCCCTGGGACAAGAACTTCACCGAGAATGACCTTCTGGTGCGCATTGGCAAGCACTCCC
R
CACCAGGTACAGAACTGGTGGCCCGTGGGTGTCTGGCAGGGGTCTGAGTCCTCCAAAGCGATCATGAGGGGCCCTGGTGGCTCCGGGACACATAGGATGT
Celera SNP ID:            hCV27861959
SNP Position Genomic:     14981
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24537):
GATAAGTACACTGAGGCCCCAGGAGGTTATTGCCTAGTAGCCCAACTGTGCATGCACGCTTAACCTCTGCACCAAATGGCCTCCAAGGCCCGTAGGGGAA
Y
TGGGGGGATCTAGGGGATGGGTGAGGAATGGCCCAGCCCAGTCCCAGCCGGTGCCTGGGTCCCAACAGAGGAGGCCGTGGAGGAGGAGACAGGAGATGGG
Celera SNP ID:            hCV27831831
SNP Position Genomic:     13253
SNP Source:               Applera
Population(Allele,Count): african american(T,16)   caucasian(C,3|T,21)   total(C,3|T,37)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,46)   PGA-EUR(EAN-PANEL(C,3|T,43)   total(C,5|T,89) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24538):
AGCTGACACACTATGGCGCACGTCCGAGGCTTGCAGCTGCCTGGCTGCCTGGCCCTGGCTGCCCTGTGTAGCCTTGTGCACAGCCAGCATGGTAAGGGAG
Y
GCTTGCAGGCTGGAACAGGCTGGAGGACTGGGGTGTGGGCCCATGGGCTGGGGTCTCCTGGCTGGACAGAGCACACAGAGCTGGCCCCTAAGTAGGTCTC
Celera SNP ID:            hCV25630571
SNP Position Genomic:     6147
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:24539):
CGCATCACTGACAACATGTTCTGTGCTGGCAAGTCTGTGCAGGGCGGGCTGAGGGAACAGTGGGGCCCAAGCTGGGAGAACTGAGTTGTGCCTGGGTTCA
R
GCCATGTGACTTTGAGCAAGTTGCCTAACCTCTTGGTGGCTCAGTTTCTTCCTCTGTAAAATGGAGGTAAAAGTCTCTATCCCATAAGGTTATGGGAGGG
Celera SNP ID:            hCV27827958
SNP Position Genomic:     16458
SNP Source:               Applera
Population(Allele,Count): african american(A,30)   caucasian(A,39|G,1)   total(A,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:24540):
AGGTGATGCTTTTCCGGAAGAGTCCCCAGGAGCTGCTGTGTGGGGCCAGCCTCATCAGTGACCGCTGGGTCCTCACCGCCGCCCACTGCCTCCTGTACCC
R
CCCTGGGACAAGAACTTCACCGAGAATGACCTTCTGGTGCGCATTGGCAAGCACTCCCGCACCAGGTACAGAACTGGTGGCCCGTGGGTGTCTGGCAGGG
Celera SNP ID:            hCV11381372
SNP Position Genomic:     14922
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,2|G,36)   total(A,2|G,70)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,-|G,-)    ;(A,-|G,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24541):
ATTGTTACTTCTAGGGCTGGTGTAGAGGCAGCCCCCTCATCCTCAGCTCCTAATGCTTCCTGCTGCCCCTCCCAGGCAGGTGATGCTTTTCCGGAAGAGT
M
CCCAGGAGCTGCTGTGTGGGGCCAGCCTCATCAGTGACCGCTGGGTCCTCACCGCCGCCCACTGCCTCCTGTACCCGCCCTGGGACAAGAACTTCACCGA
Celera SNP ID:            hCV11381373
SNP Position Genomic:     14845
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,-|C,-)    ;(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24542):
AGGAGCTGACACACTATGGCGCACGTCCGAGGCTTGCAGCTGCCTGGCTGCCTGGCCCTGGCTGCCCTGTGTAGCCTTGTGCACAGCCAGCATGGTAAGG
R
AGTGCTTGCAGGCTGGAACAGGCTGGAGGACTGGGGTGTGGGCCCATGGGCTGGGGTCTCCTGGCTGGACAGAGCACACAGAGCTGGCCCCTAAGTAGGT
Celera SNP ID:            hCV25630575
SNP Position Genomic:     6144
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,38)   total(A,2|G,72)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24543):
GAGAGAATTCTACCCAGAGAATCTTCTGCTGCACCTAGCCATCCACCCATCCACCCCTTCCCCACTCCTTCCTTGGTCCCTCCCATCTGTTCATCCATCT
Y
TCTGTTTCTCACCAACATCCCATCCACCCTGACTCCAGCTCATCCTGGCCATACCCCAATCCCAAAGGTAAACACCTGGGTCTTTTCCAGCTTGTGAGAC
Celera SNP ID:            hCV25630576
SNP Position Genomic:     7522
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,1|T,39)   total(C,2|T,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:24544):
AGACAGGGCCATCGAAGGGCGTACCGCCACCAGTGAGTACCAGACTTTCTTCAATCCGAGGACCTTTGGCTCGGGAGAGGCAGGTGAGGTAGTGGGCATC
Y
GAGGGGATGCGGGGCTGCGGGGCTGGTGGCCAGGACTTGCCCCTCACTGCTTGGCTTGCTCTGCAGACTGTGGGCTGCGACCTCTGTTCGAGAAGAAGTC
Celera SNP ID:            hCV25630577
SNP Position Genomic:     13468
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:24545):
GCGGGGCTGGTGGCCAGGACTTGCCCCTCACTGCTTGGCTTGCTCTGCAGACTGTGGGCTGCGACCTCTGTTCGAGAAGAAGTCGCTGGAGGACAAAACC
R
AAAGAGAGCTCCTGGAATCCTACATCGACGGGCGCATTGTGGAGGGCTCGGATGCAGAGATCGGCATGTCACCTTGGTGTGTCCTGGAGCCCTGCGCTAC
Celera SNP ID:            hCV27535881
SNP Position Genomic:     13585
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24546):
TTCACCATGTTGGCCAGGCTGATCTCAAACTCCTGACCTTGTGATCCTCCCGCCTCGGCCTCCCAAACTGCTGAGATTACAGGGGTGAGGCACTGCGCCC
R
GCCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATAATCTTGGCTCACTGCAACCTCCACCTCCTGGGT
Celera SNP ID:            hCV11661580
SNP Position Genomic:     11890
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24547):
CAGCACCACGGGACCCTGGTGCTACACTACAGACCCCACCGTGAGGAGGCAGGAATGCAGCATCCCTGTCTGTGGTAAGCTGGGGGCAGTGGGGCGGCCC
R
TGGCCAAGGCCCGGGGGCTTCATGGGGCCTGGCAGCCTGGGATGGGAACCAAGAATACTGGCTACCCAGGCACAGTGGCTCATGCCCGTAATCCCAGCAC
Celera SNP ID:            hCV15746450
SNP Position Genomic:     10368
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,38)   total(A,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:24548):
CAAGAGGTAAACTACACCTCAGCCTGTAAAATCACAGAGCAAGGGATGTGGATGCAGGCAGGGGTAAAGAATTTGTGCCGATTACCAGTCCACAAACATG
S
GTTAGTGTTTGTTCTCTAGGCATCCCTGTCGGGCCCATTGCTCATTCCTGGGGTTGGTCTTTTTTTTTTTTTCTTTCTAAGATGGAGTCTCACTCCCTTG
Celera SNP ID:            hCV11661584
SNP Position Genomic:     11531
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24549):
TTTCTTCTTCAGAGCCCCTTTAACAACCGCTGGTATCAAATGGGCATCGTCTCATGGGGTGAAGGCTGTGACCGGGATGGGAAATATGGCTTCTACACAC
R
TGTGTTCCGCCTGAAGAAGTGGATACAGAAGGTCATTGATCAGTTTGGAGAGTAGGGGGCCACTCATATTCTGGGCTCCTGGAACCAATCCCGTGAAAGA
Celera SNP ID:            hCV27859213
SNP Position Genomic:     26175
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:24550):
CCTGCTGGCCAAGAGAAGCCACAGAATGGAAGCTCCATGAGGGCAGGGCTGTGACTGTCCTATTGGTTGATGTGTACTGAGCACCCGACAGTGCCTGTCA
Y
ATGGTAGGCACTTAGCGAATATTTGGAGGCCACTGTTGAGTGAATGGGAGAACTGCTGGTTGCAGAGGAAGAGGGGCTGGGTGAATGCAGGTTCAGGATT
Celera SNP ID:            hCV11661585
SNP Position Genomic:     9801
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;JBIC-allele(T,583|C,890)   total(C,890|T,583)
SNP Type:                 INTRON


Context             (SEQ ID NO:24551):
AAACTAAAGCTGCAGGGTGCCGGGGGAGTGGGGCAGCTTCATTTGCGACTGCTCTTTATTCTCTCCAGTCTTTTTTTCAAGTCGTCTATGTTAGCTGTGG
M
GGAGGAGGAGGTCACAGTTCCTGAAGAGTGAGTCTGGTTAGAATCCAGGTCTGAATGCTGGTGCTGCTCCCGTGACTCCCGGAGCTGAGAGAGTTTGCTG
Celera SNP ID:            hCV26325799
SNP Position Genomic:     30911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24552):
AGCTAGCAGGGACAGGTAGACCAGGGCCAGTTGAAAAGGACCTTCATCACTTTTTCATCCTGCTGGCCAAGAGAAGCCACAGAATGGAAGCTCCATGAGG
R
CAGGGCTGTGACTGTCCTATTGGTTGATGTGTACTGAGCACCCGACAGTGCCTGTCATATGGTAGGCACTTAGCGAATATTTGGAGGCCACTGTTGAGTG
Celera SNP ID:            hCV11661586
SNP Position Genomic:     9743
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24553):
AGTATCTAGAAACAGTTGCCTGGCAGAGGAATACTGATGTGACCTTGAACTTGACTCTATTGGAAACCTCATCTTTCTTCTTCAGAGCCCCTTTAACAAC
Y
GCTGGTATCAAATGGGCATCGTCTCATGGGGTGAAGGCTGTGACCGGGATGGGAAATATGGCTTCTACACACATGTGTTCCGCCTGAAGAAGTGGATACA
Celera SNP ID:            hCV27861960
SNP Position Genomic:     26102
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:24554):
CAGAGTTCTGCCTGGCCTGGTGGGATGCATGGATGAACAAACAAGTGGGCATTCCAGTCAGAAGAAACAATCCGTGGAAAGACCCAGAGGCATGAGAAGC
Y
GAGCTAGCAGGGACAGGTAGACCAGGGCCAGTTGAAAAGGACCTTCATCACTTTTTCATCCTGCTGGCCAAGAGAAGCCACAGAATGGAAGCTCCATGAG
Celera SNP ID:            hCV11661589
SNP Position Genomic:     9641
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24555):
CTCAAGCCCAACAGCCTCCTGTTGGGCAATTTCCTCTTCCAGAATCAACTCCACTACCCATCCTGGGGCCGACCTACAGGAGAATTTCTGCCGCAACCCC
K
ACAGCAGCACCACGGGACCCTGGTGCTACACTACAGACCCCACCGTGAGGAGGCAGGAATGCAGCATCCCTGTCTGTGGTAAGCTGGGGGCAGTGGGGCG
Celera SNP ID:            hCV27528165
SNP Position Genomic:     10263
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24556):
CCCTCATCCTCAGCTCCTAATGCTTCCTGCTGCCCCTCCCAGGCAGGTGATGCTTTTCCGGAAGAGTCCCCAGGAGCTGCTGTGTGGGGCCAGCCTCATC
M
GTGACCGCTGGGTCCTCACCGCCGCCCACTGCCTCCTGTACCCGCCCTGGGACAAGAACTTCACCGAGAATGACCTTCTGGTGCGCATTGGCAAGCACTC
Celera SNP ID:            hCV27528166
SNP Position Genomic:     14878
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24557):
CCAGCGCACAGGCCAAGGCCCTGAGCAAGCACCAGGACTTCAACTCAGCTGTGCAGCTGGTGGAGAACTTCTGCCGCAACCCAGACGGGGATGAGGAGGG
Y
GTGTGGTGCTATGTGGCCGGGAAGCCTGGCGACTTTGGGTACTGCGACCTCAACTATTGTGGTGAGCTGCCTGGGTAGGGGGCCTGAGTTGCAGGGACAA
Celera SNP ID:            hCV11381381
SNP Position Genomic:     12936
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(C,-|T,-)    ;WIAF-CSNP-P(1(T,3|C,123)   total(C,123|T,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24558):
GCCTCCTGTTGGGCAATTTCCTCTTCCAGAATCAACTCCACTACCCATCCTGGGGCCGACCTACAGGAGAATTTCTGCCGCAACCCCGACAGCAGCACCA
Y
GGGACCCTGGTGCTACACTACAGACCCCACCGTGAGGAGGCAGGAATGCAGCATCCCTGTCTGTGGTAAGCTGGGGGCAGTGGGGCGGCCCATGGCCAAG
Celera SNP ID:            hCV11381382
SNP Position Genomic:     10276
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,35|T,3)   total(C,67|T,3)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,6|C,107)      total(C,107|T,6) ;WIAF-CSNP-P(1(T,13|C,113)   total(C,113|T,13)(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24559):
GAGTCTGTCTGGACTAGGGCGTGCAGCCTGTGCCCCTGTCCCCGTCCTCCAGGCTGTCTGACTCCAAAGCCCTGCACGGCTTTAGGCCCAGGAAGAAACA
S
CCAGGGGGCTGCCATGGCAGGAACCAGCCCTATCCCCTCCCTGGTGGCCTGCAGGACACACTGTCTCCCAGACCCCAAGGGCAGGCAGTTTCCTGCTCCT
Celera SNP ID:            hCV27843460
SNP Position Genomic:     15338
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,27|G,1)   total(C,35|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:24560):
AGCTCCTAATGCTTCCTGCTGCCCCTCCCAGGCAGGTGATGCTTTTCCGGAAGAGTCCCCAGGAGCTGCTGTGTGGGGCCAGCCTCATCAGTGACCGCTG
K
GTCCTCACCGCCGCCCACTGCCTCCTGTACCCGCCCTGGGACAAGAACTTCACCGAGAATGACCTTCTGGTGCGCATTGGCAAGCACTCCCGCACCAGGT
Celera SNP ID:            hCV27536836
SNP Position Genomic:     14889
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24561):
TTCTTGGGGTCTCTGCAGGTACGAGCGAAACATTGAAAAGATATCCATGTTGGAAAAGATCTACATCCACCCCAGGTACAACTGGCGGGAGAACCTGGAC
Y
GGGACATTGCCCTGATGAAGCTGAAGAAGCCTGTTGCCTTCAGTGACTACATTCACCCTGTGTGTCTGCCCGACAGGGAGACGGCAGCCAGGTGGGCCAC
Celera SNP ID:            hCV27528205
SNP Position Genomic:     15570
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24562):
GGAAACCTCATCTTTCTTCTTCAGAGCCCCTTTAACAACCGCTGGTATCAAATGGGCATCGTCTCATGGGGTGAAGGCTGTGACCGGGATGGGAAATATG
K
CTTCTACACACATGTGTTCCGCCTGAAGAAGTGGATACAGAAGGTCATTGATCAGTTTGGAGAGTAGGGGGCCACTCATATTCTGGGCTCCTGGAACCAA
Celera SNP ID:            hCV27528206
SNP Position Genomic:     26163
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:24563):
AGGACTGCTTCAAATGTCACCACTTTTGCTGAGACTTCAGGGAGCACCCTCCCTCCTGCACTGTGTTCTGAAGGCACCTTTAGCACGACAAAAATGGAAC
Y
CTTTGTTTATTTATAAGAGACAGGGTCTCCCTTTTTTGCCCAGGCTGATCTTGAACTCCTGGGCTCAGGCAATTCTCCCATCTCAGTCTCCCAAAGGAGT
Celera SNP ID:            hCV11661590
SNP Position Genomic:     8520
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24564):
TGGGTCTTTTCCAGCTTGTGAGACAGCGAGGACGCCTCGAGATAAGCTTGCTGCATGTCTGGAAGGTGAGCAACTGACACGGGTTTGGGGAGCAGGACAT
R
GAGGGGAGCCTGGGAGAAGAGCTCAGGGGTGGGTTTGGAGTGTGGCTGGTGGAGGCCGAGGCAGTCCCCAGCATCTGACATTGCTCCCATTCCTGGGGTC
Celera SNP ID:            hCV11661591
SNP Position Genomic:     7699
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,3|G,37)   total(A,13|G,65)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24565):
GAGTCCTCCACGGCTACGGTGAGCCTGGGCTGCTCGGACGGTGCCGGGGCCTCAGACCGGGCCCAACTCTAGACACTTCCACAGAGAAGCAAGCGAGGAA
Y
GCCACAGCCCCTTCGCTGCTCACAGCCTCATTTCAACTCTGAGCCCCTCCTCACAGGGCTGGCAAGAGGAGCGGCCTCAGCCTTTCCTGGGGGTCTCTGT
Celera SNP ID:            hCV11661592
SNP Position Genomic:     6768
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,34|T,4)   total(C,66|T,4)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;JBIC-allele(C,485|T,636)   total(C,485|T,636)
SNP Type:                 INTRON


Context             (SEQ ID NO:24566):
CCTCAAGCCCAACAGCCTCCTGTTGGGCAATTTCCTCTTCCAGAATCAACTCCACTACCCATCCTGGGGCCGACCTACAGGAGAATTTCTGCCGCAACCC
Y
GACAGCAGCACCACGGGACCCTGGTGCTACACTACAGACCCCACCGTGAGGAGGCAGGAATGCAGCATCCCTGTCTGTGGTAAGCTGGGGGCAGTGGGGC
Celera SNP ID:            hCV15746468
SNP Position Genomic:     10262
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,38)   total(C,63|T,7)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24567):
CATAAGCCTGAGTGAGTGAGGGGCCGGCCTTCCCACCATGGGCTGAGAACAGGGAGCAAGCGTACCTCAAGCCCAACAGCCTCCTGTTGGGCAATTTCCT
S
TTCCAGAATCAACTCCACTACCCATCCTGGGGCCGACCTACAGGAGAATTTCTGCCGCAACCCCGACAGCAGCACCACGGGACCCTGGTGCTACACTACA
Celera SNP ID:            hCV15746469
SNP Position Genomic:     10198
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,24)   caucasian(C,30|G,8)   total(C,38|G,32)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   JBIC-allele(C,446|G,1029)   total(G,1029|C,446) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:24568):
GGAGGAACTCCCCTATCCTCAAATATTCTTCTCCTTTTGGAAACAAAAGTAGGAAACTCTGCCACAAACCTCCCCAGAGCCTGCCCCCTGCGTGACCAGG
R
TAAAGGAAAGTGTGAGGAGGAGACATAACATTTACTAAAACAACACAAAACAGGAGCTGCCGTAGCCTCACTCCCAGCCCTTGTTTTTCAGGATGTGTTC
Celera SNP ID:            hCV27849392
SNP Position Genomic:     7254
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,39)   total(A,1|G,73)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24569):
AGCCCAGTCCCAGCCGGTGCCTGGGTCCCAACAGAGGAGGCCGTGGAGGAGGAGACAGGAGATGGGCTGGATGAGGACTCAGACAGGGCCATCGAAGGGC
R
TACCGCCACCAGTGAGTACCAGACTTTCTTCAATCCGAGGACCTTTGGCTCGGGAGAGGCAGGTGAGGTAGTGGGCATCCGAGGGGATGCGGGGCTGCGG
Celera SNP ID:            hCV27536590
SNP Position Genomic:     13388
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:24570):
AGACTGCCTGTTCCTGAGGCCGCTGTCCCATGACCCCCCCACCGCCTTACAGTGTTCCTGGCTCCTCAGCAAGCACGGTCGCTGCTCCAGCGGGTCCGGC
R
AGCCAACACCTTCTTGGAGGAGGTGCGCAAGGGCAACCTGGAGCGAGAGTGCGTGGAGGAGACGTGCAGCTACGAGGAGGCCTTCGAGGCTCTGGAGTCC
Celera SNP ID:            hCV27540360
SNP Position Genomic:     6573
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24571):
CTCCTGTGGGGGTTGGCTCTCACTAGGCCCTTCTTCCTTCCCCAAAGCTTGCTCCAGGCTGGATACAAGGGGCGGGTGACAGGCTGGGGCAACCTGAAGG
M
GACGTGGACAGCCAACGTTGGTAAGGGGCAGCCCAGTGTCCTGCAGGTGGTGAACCTGCCCATTGTGGAGCGGCCGGTCTGCAAGGACTCCACCCGGATC
Celera SNP ID:            hCV27536591
SNP Position Genomic:     16257
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24572):
CGCTGTCCCATGACCCCCCCACCGCCTTACAGTGTTCCTGGCTCCTCAGCAAGCACGGTCGCTGCTCCAGCGGGTCCGGCGAGCCAACACCTTCTTGGAG
R
AGGTGCGCAAGGGCAACCTGGAGCGAGAGTGCGTGGAGGAGACGTGCAGCTACGAGGAGGCCTTCGAGGCTCTGGAGTCCTCCACGGCTACGGTGAGCCT
Celera SNP ID:            hCV27532237
SNP Position Genomic:     6593
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24573):
CAGCCCAGTCCCAGCCGGTGCCTGGGTCCCAACAGAGGAGGCCGTGGAGGAGGAGACAGGAGATGGGCTGGATGAGGACTCAGACAGGGCCATCGAAGGG
Y
GTACCGCCACCAGTGAGTACCAGACTTTCTTCAATCCGAGGACCTTTGGCTCGGGAGAGGCAGGTGAGGTAGTGGGCATCCGAGGGGATGCGGGGCTGCG
Celera SNP ID:            hCV27531438
SNP Position Genomic:     13387
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:24574):
AACAACCGCTGGTATCAAATGGGCATCGTCTCATGGGGTGAAGGCTGTGACCGGGATGGGAAATATGGCTTCTACACACATGTGTTCCGCCTGAAGAAGT
R
GATACAGAAGGTCATTGATCAGTTTGGAGAGTAGGGGGCCACTCATATTCTGGGCTCCTGGAACCAATCCCGTGAAAGAATTATTTTTGTGTTTCTAAAA
Celera SNP ID:            hCV27859912
SNP Position Genomic:     26196
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;UTR 3;TFBS;hmCS


Gene Number:                 88
Celera Gene:                 hCG1980720 - 206000044665913
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VUFE(34807281..34821252)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12248):
TGAAGATTGAAACATTTTAAATTTCTCCATTAGCTTCCATGTCTATAGCCTTAGCAGAAACCGTGACAACCAAGAAGCAGTGACATTCCCTGAGATTTTT
GCCTCATTGAGCAAATGCAGAACAATACCACCCAAAAGAGCATGGGTCCCAACTCAAACATATTTTTAGTGCTTGGTCCAGAACTTTTACCTGGGTGTGG
CAAAGTTGAGCTAAGCTTTTTTCTTTTTTTATTTTCTTTTCTTTTTTCCTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTTTCGCCCAGGCTGGAGT
GCAGTGGGGCGATCTCCGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTGGCTGGGACTACAGGCGCGTGCCA
CCACGCCCGGCTAATTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCTTGACCTCGTGATCCACCCACCTCG
GCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCGAGCTAAGCTTTTAAATTAAGGCTTGGGTTTGCAGAGGCCAGGGCTGAAACCAC
CTTGAGACCCCTCTTCTCCTTCTTCCCTTCCCCAGGATTGTCAAAACAAGTACTACTGTGAAAGAAGCTTCCAATAAGAGATAAGTTCTCAGTAAAATAT
CACCAAGCAAATGAAGATTGACACCATGAAAAAGAGACTCAACAAATAAAAGAATTGTTTTATCTACTATAAGAAATTGAAATTCGAAACAATATGGCAA
GAACTTAAACGTAAAAGACTCAAACAACAAAGAAGGAAATAGCAATTTTGAAACAAGAACAAATAGTTGTGAAAACTTGCCAAATGAAAGTTTTCAAAAG
AAAATTGTAATTTCTCAAAGAAAAAAATGCAGTACGTTATGTGAATCTCAGGTTGGGGCCTACCATATATATCAGAACAGCAAGAATAAATTTAAGAATC
TAAAAGAGAGTAAAGAAGTTTACGGATAAAAGAATGAGAAGTAGACTGACATTGTACTTTTCATCAACGTGTTGAATGCCTAAAGAATGGAAGGAAAATA
AGCTTAAAATTTTGAATCTATGATAAAGAAAACTATTGATTAACCATATGCATATTTGACATTAAAATAATTCATAATTAGGACTAACAGATTTCTGGCT
TAAAAAATCTAACAATTACTTTAAGAAGCAAAAGACATTTCCAGAATAAAGTAGGGGGATATATAGAAAAGTTGGTACCTTTTTTAAACAGAGTCTTCTT
TTGTAAGGAAGTAGAATTTATTCATCAAAGGAGATTTATGAAAAGTATGGTGGTATAGTGAGTGGCCTCACTAGTTTTAATGATTGATATTTGAATATAG
CTTAGTCTTATAACAACTCCCCAAATAAAAATTTAAAATTCATTTGTATCCCTTTGATTTTCAGTGCTAAAAACTAGATTGTGAATGTCAAGGAAATATT
TAAGTTATTTCTGAACTAATGTATTTGTAGAGAGAAGAAAGGAGTGTGCACGTGATCGAGAATTATGTTTTGAAAATAAATGAATGATTGGCTATTAAAA
AAATTTTTAAGCCTTTGGGATCTTGCAAATTTTATTTAATCTTGATATCATTAAGACTAACCCAAGTTCAACAGAAGTACCAATTAGAGGCCAGAGAATT
TAAATACCAATTTCAGAAAGTTAATTTGATGTACAAAAAAGTCTTATATTTAATTTCTTCTTTGTCCCTGAAATCAAAGATATAAATAAGCTCAATTTGG
AACCAACTTGGAGATTAATACATAATTTTACAGTTCTCCAAGTTTCCACAAGTCTCAAGATGCAAAGGGAGACATTAAATAAAAAATTGCCTCTATAGGG
AATTATTCTTCATACTCCACCCCTTTCTGAATACAGATAGTTCTTTTAAAATTCAATGTGTAGATCAGGTCCAAATAAACAAGTTTGTAAGTCCTTACAG
CATTATTTTATTTCCCAAATAATTTAAAATTTATTTATTTAACAAATATAAACTGAGTGTCTACTATGAATGAGGCATTGTGCTATTTGCTGGAAATACC
ACTGTGAATAAACCAGAAACAGACTCTACCTTCAAGTTGTTTAGAGTCTAGTAAGGTCATTTTATATATTCTAGAATGAGGGAAGGGAGTAAAATTTTTC
CTTCTCTTACTTTTTGATAATTGGAATACTGGTGAGATCGATTTGTAAATATTTTACAATAATGAATTAGCCTGCCTAGAAGAAAAATTACTAGAAAATT
ATTAATAACCCTTTTACCTTGTGCCAGGCATTTAGTTCGTGGAATTCCAAAACGTGGCAACACTAGTTAGTACTGTACATGTGGTACTCTCTCTGTTCTG
TATTTAATGAAATATCCAGATGAATATGTTTTTGGAAGTTGTCTTCAAATAAAAGGGTAAAAGGTTTCTAACTGCCCTGAAAGAGAAGCAGCTTTGAACC
AAGAGTAAGATGTGATTGTTTCCCACCTTCAAATTTAGTATAGATTATCTTTTCTGGCTTTGCTAAATTCTATTCATTTTCTCAACAATGTATAAGTCCA
GTACATCTAAAAACTAAATTACAAATGGTATCTGTTCTTCTATCTTCAGTGTCTAAATGACTCAGCATATTGCCTTTTGAACTTTAGTCTCCGATCATAT
ACCATATTAGTCCCCAAAAGAACTGCCCTCTATATTTTCCACAGTTGAGTACTTCCCTGGCTCTGATACCACCTGGGACTAAGGTAATCAAAGAGAGAGA
AATCTTGATCAGAATTCTATGCCTTTTCCTGATATTCATGGAAAATCAGCTACGTATGCAAAGAAGAAAAATATCTGACCAAAACAGCCAGATTCAAACA
TCTCTATAAAGTACTTAAAGTGAAAGGAAATATTATATTAATTTTCCTCTGACTATTAAAGATTCACATATTTGGCTGGGCATGGTGGTTCATACCTGTT
AATCCTAGCACTTTGGGAAGTGGAGGCAGGAGGATCCCTTGAGCACAGGAGTTCCAGACCAGCCTGGGCAACATGGGGAAACCCCATTTCTACAAATAAA
TTTTTTTTGTTGTTAAATAGCTGGGTGTGGTGGCACACACCTATGGTCCCAGCTACTCTGGAGGCTGAGGTGGTCAGATCCCTTGAGCCCAGGAGATTGA
GACTGCAGTGAGCCATGATTGTACCACTGCACTCCAGCCTGGGCAACAGAGCAAGGCCCTGTCTCAAAAATTTTTTTTAAAAAGTATTTATGAATTTGAT
GCTGTTACATAAAATTACACCATTTAAATGTGATAATAACTACACTTTAACATATGTTTGAAAGCATGTCAATCTTAAACTCTTGCTTTTTGGGGAATTT
TTAAAATCTTTGAGAAATTCTCTTTTCTCTAGTCATGAGTATTTAATTGCTAGAAAGTTATATGGATGTTCTGTGGGTGAAGAAATGCTTGTAAGAAGAA
AATTAATTTTTTCCTAATACACTTCCCTAATTAGGAGCTAAATATTTTGTCGCTTAAAATAAGTTTTTTTATTTTACTCAAGATAACCATAAGATTCCAT
GTTTTGGTTGCTTCCAGATTTTATTCTTAGTTGTAGCTAATTTAGAGTTTCACAACGATATTGCCCTCTCCTTTTTAGAACTTTCTATTCTTGTACATCT
TCTTTTAATTACATTGCAGGAGGTAGGATGCTGATAAGGATGGACAGTTTCTATCCCAGAAAGACCATATATAATCCTAAATCATGTCAGGTTAAAATCT
GAAGGAGGGAACCAAGACAGGAAAAAAAGAAAATATCTTTCTCCTATATCATCATACAAGTGGCAAGTAGGTATTAATAATAAAATAGGACTGGGCCGGG
CGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCTAAAACGGTGAAACC
CCGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCG
GGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAT
AGGACTGGATAGGACACCACTTTTACCTTGAAGCATTTAGATATCATATACCCATGTATTTTCTTGAAATTAAAAATTGTCTCTCAGATTCATAACACTT
ACATCTCAGAATTTATGAAACAAATAGTTGTTCCACCAGATGTCTTACTAAACAACGTTTTTGTGTCAAATGGAAAAGAACAGTCAGTTTTTTAAATGGC
ATAGGTTTAATTTTTTTCCTCAGTCATCATGAACACACTTTAGATAAACCAAAGGGTAATTACCCATATTAGTCTATATTTGTGTCCATATTTTGGCCAA
TATAAGCACATAAAATATTGAAATATTAATTGCAAATGTCAACACAGAAAATGAACTAAATTACTTTCATTTGAGTACTATATCCCTAAAAAGATGATAT
ATTACTATTTATTAAAGAAAACACATTCTTGTCTATCCTTAAAACTTTGTTAACTATAGACAAAGCTGCTTTGGGCATATTATAGAACACATTATATGAA
TATATTCAACAAGGGAAATTATAAAATTGGTGGTTTGGAACTCTCTCTACATTGCTTTATAATGTAAAATTTGAATGGAGTTATTTTAATAAGCTATTTG
AAATCACTATTAAAAGACAGTGAATTTCTTTTTGCTCCCCATTAGAAAAAAAAAAGGCGGAATTAAGACTGCGTTGGCAAGCCAGGATGAAAGGAGAATA
TGCAAGGATTAACTACAGAAAAAGTAGAATCAATATATAAACAAAATGTTCTATCGACTAAGGATTCTCGATTGAAATACAAAACATTCAGAGCCACACA
ACTACTTTCCAGTACTGTTAATGAAACCTAAGCCATCCCTGGATTTGATATTTTGCTCTATTCTTGCTACTTGCCTTGAACCAGACCAAAAAAGACCTCT
CCAATGGACAAAGCAGTAAAAAAGGACTTTCCACAGATTAACTAAGACGAGGCTCAGTAGATCCTTATTAACACTTAACTGAATTCAAAGCTCTTCCTGA
AACTGGGATTTGCCTCGCTAACCCTCTCTGCACCCTGAGCAACGAAGTTGGGGATAATTGGCTTCAGGAACTTGAACTCATTTGTCCCGGAGCCTCCAGT
CAGACACACCTCGTATTGGTAGCTCTGGGACAGGGTCCCGGTGCCGCTCACGTCCACCATCTGCCCTGGAAAGGGGCCCTCGGGCACCGAGCAGCGACCC
ACCGAGGCCGCCCTGCTCCTCCTGCACAGCCGCACCGCCACGAACAGGAGCACCGAAAAGAGGAAGAGCGAAGACACCGAGGCCAATGCCACCACCAGGT
AGACGGTGAGCAAGTCGGCCTGGGCCTGGGCCGGTGCCGCCTCCGGGAGAGGCAGGTAGGGCTGGGAGAAGCCGTCCACCAGGAGCACATGCAGCGTGGC
GGTGGCCGAGCGCGGAGGCTCGCCATTGTCCTTGACCAGCACCACCAGCCTGTGCTTGGCCGCGTCGCGCTCGCTCAGCAGCCTGGCGGTGCGCACTTCG
CCATTGTGCGCCCACACGCCGAACAGCCCGGGCTCCGTGGCCTTGAGCAGCTGGTACGACAGCCAGGCGTTCTGGCCCGAGTCGCCGTCCACCGCCACCA
CCTTGGTCACCAGGTAGCCCGGCTCAGCCGCCCGGGGCACCAGCTCGGTGCAGGGCGCGGAGCCGTTCTGCAGCGGGTACAGCACGAAGGGCGAGTTGTC
GTTGGCGTCCAGCACCAGCACGCGCACCAGCGCCTCGCTGCTCAAAGCCGGGGAGCCACGGTCTGTGGCGCCCACGCGGAACTCGAACGCCTGCAGGGCC
TCGTAGTCCAGCGACCTGAGGGCRAACAGGTGGCCGTTGTCCGYGTTGATGGAGACCAGGGAAGAGAGGGGCAGGTGCGGGTCCTGGGGCGGCAGCAGCG
AGTAGGTTACCTGGGCGTTGGTGCCTGAGTCTCTGTCTGTGGCGCTGACACTGCCGATGTGCAGGGCGGGGCTGTTGTTCTCGCGGACGAACAGGGTGTA
GGAGRTTTGGGTGAAGGCGGGGGCGTTGTCATTGACGTCGGAGACCAGCACGGTTATGTTGTACTTGGTTTTCAGCCTGGGTGTCCCCAGGTCAGTGATA
GTGATGGTAATGTTGTACTCGGAWCTGGTCTCTCTGTCCAGCGCGCCTTCTGACACTAGGGTGTAAAAATTCTCTACAGATGGTTTCAGGAAGAAGGGGA
GATTGTTCTCAATGGAACACATCACTCTTCCGTTGTCTCCAGAGTCTAGATCAGAAACACTGAAAACAGCCAGTWCAGTCTCTCCCGAGTTCTCAGGAAT
AGGGCTGTTTACTGAAGACAAGGTCAGTTCCGGTGGGTTGTCGTTGACATCAACCACCTGGACTATGACTGTAGACTTTCCGGATAGGCCTCCGCCATCC
TTGGCCTCGATGTCGACTTCATAACTATTAATCGCTTCAAAATTCAAATATTTGACCAGTTGCATAYCACCAGTAATTGGATTTAGCTGAAAAGTTTTGC
GAATTTCTTCAGAAGCATGAAAAAATGCATATGATATTGTCCCAAAACTTCCTGTATCTAAGTCAGAAGCCGAGACAGTGACAATGACAGAGTTAACGGG
GGTATTCTCTAGAACTGCAACCTCATAGAGCGGCTGTGCAAATTCTGGTGCATTGTCGTTTATATCTAAGACCTGGATGTTTATCTGGGCTGTCCCAGAC
CGAGGGGGAGAGCCGCCGTCCAGCGCGGTGAGCGTTAAGCTGAGTTYCGGCTGCTCCTCCCGATCGAGCGCTTTATCCAGTACTAGTTCCGGGTACTTCC
TTCCGTCCCTACGACTGCGAGTGAGTACGTGGAAGTGGGAATTCGGAGTGATAGTGTAGTTTTGGAGGCTGTTTCTTCCCACATCCAAGTCCTCAGCATT
TCCCAAAGGAATTACTGTTCCTGGCAGAGTGCTTTCTAGGATTTTCAGATGCATTTCATTTTCAAAGAATACCGGAGAATGGTCATTTACATCTATGATA
CGGAGCTCGTTTGTAACGAAYTGCAAAGGGTTTTGCAGTAATATCTGAAAATGTAGTATGCATGGTTCTGTGGGGCCGCATAGCTCCTCCCGGTCCAATT
TCTCATTCAGGAGCAAATCACCTRTCTGATGACTGAGCTGAAAATGCTGTTTGTTCCCTTTGGACACAACTTGGGCCCCCCTCGCGGCCAGTTCCTCTAC
CCTTAGTCCCAGATCCTTTGCTAGGTTGGCTATTAAAAAGCCCYTCTCTTTTTCCTCAGCCACAGAATAGCGTCTTGACTCGGACCCAGCCAGAGACCCT
CCCAGAAAAACAAAGAGAAGCAASACTTGCCTTTGTCTAAGAAATCGCTCTCCTCCCGCCTCCATTGCACTTTCCGTCACGCTCTTCCAGGGAATGTCGC
CAAGCTGAACCTCAGACAGMGCTGGGAAACAGTCTTTTGCCCCACAACCTTTGTAGACGGCCTAGTGAATAAGCCTTTCCAGAGGCTCAGASTTGCTGGS
TCAAAAATCTGCCTGGGCTCTCAACCGCTGGTTTACCACACTGGATCCGTGCGTCACCGAGCATGCACAATGCCTGTGGTTTAATTCGCCTTCTTAGTCA
ACAGCGCCACCATGCGTTCGCTTGCAGTTACAAAATCTTGGAGAAGGTGTTTTTATTTTGCTTTATCGATTATTCTTATCAACCCTAGTTGACGCTACTG
GAGGAGTTTCTCATGTTATATGAATTAAATAAATGCAATCTAGGGAAATAAAATGCACTTTTATCTACGAGCAGCGATTCTTCCTGGTAGAGTCCTCATT
TACACGATTTAACGGAAGTGTACACATACTAGTTTACCCCTCCCCTTTTGTAATAATTACACACAAACTTCAAAAGATTTTTGCTCTAGATGATAGCATG
CTTCACTATCCTATTTATGTTTTTCTTTTTTTCCTAAACTTTGTGAAATGAGCCCGAATTGCATATACCAGAAAAATACAAGGAAAAGACACCTCCTGCA
AGGTGGTAAAAAAGAAAATATATCATGTCAGAGGTGGATCCAGAGGACTACAAATACCTAATTTCTTCCAGATTATCATGCTCAAGGAACACTTAAAGTG
CTTTCTCTTCTTATTTCAGAGCAAATTTACAATTATTCATTTCATCTGTATTAGTTTATTTCCACAGATAATTGTTGAGTTTGTAGAAGTTAGGCAAGTG
GTGGTAACAAGACAATGTCTGTATATCTTACAACAATTTTCCATCTAGTGGGTGTACAGTCTTTAAACAGATGTTTAAACAGTGTGAAAAGTGCTACATA
GAAAAGGTACTGAGTGCACTGAAAGTATGCAATACGGGGACCTAACTTAATGGAGAGTGATTAAGAAAGTTTCCCCCAAGGTGCACCATTTAATCTGAAA
CATGAAATAGGAGAAGTGTGCCAGGCTAAGACTGTAGAATGTGTGAAGGCCCTGAGAGAGCAAAGCATAGCTATTAATAGATAATGAATGAAGGACAGTG
AATACAAAACTTAATGTCTCAAGAGTAAGTGGAAAGGAAGGCTGAAAAGGTAAACCAAGGCCAAATAATGGGCGCTTGGATTTTATTATTCTAAGAACAA
AAGGAAGCCATTGCAAGGTTGTTGGTACAGAAATAAAACAGTGCAAATATGTGTTCAATGTAGCCGCTTTTGTACTTCTACACAATTATCAAGAATGTTT
GCTCTTAATACTAGTGATACTAAAAATAACAGCAATTTCACTTTTATGTCTTTATATTGAGTATAACTGCAAGCTATTCAAATACCTGCTATCATTTGGG
TAGAAGAAAAGAAACTTTGTGACTCATCCAAAATCCTACAGGTAATGAGTTGGTTGATCAGAGACTTTTGATACCAACACAGCGCTCTACACCATTGCTA
ATCTCAAAACAAGACCTTCAAAGTTAATATTAAAATTTTAATAGGATAGCTCATTCAAATGTATGTAAAAATGATATAAAAATATAAAGATAGACTGAGT
AACATTAAGAATTAAGATTTGTTTTAATGTATGGATCAGAAAGTAAACTGCAAGAAATGAAAACAGTTGGGTGAGTCATTTAGGGAACTATGGAAGGAAA
TTTAAGTAATAAAATTAAAAGCCATCTGTATTCCTTAAGCCAGTGGACAGGAAAGGAGGCTCAATTTAAGCATTAAGAGAAAAAGTAAAAATATGTTGAA
GGAAAGCGACAACAGAATGATAACTGCATGTTCAAACAATGGTAACCAATTCAATTAATAACAAAATTATAATTCATTGTACACCAAAGAGTATTTGATT
CCAGCAAAATGTTTTCCTTTAAGTGTTCTAGTTTATTTAAATATCAATATATCACAGGTAAAATACTTTTCTCTCTTTCAATCATTCAAAAATTTTATTA
AGAGCCTATAATATTCCAGTGACTGTGTGAATCATTCAATAAATGAGGGAGCTGTTGAGAAACAGAACTCAAGCACCTTTATAAAAAAGCATTGAAAAGT
CTAGGGAAATGAAAGGGGGAAAAATAGAAGTAGTCAGTGCAAAAAAATAGAGTGAGTGGTGCTAGATAAATTTTTCTCCCTAAAGGCTTGTTTCTAAGTG
AATCCTAAATGCTCCAGAAAATTTTAAAAACAGCAATACCAAGCTATGTTTGAGGGTTCTAAAGGTAAAGGACAAAGACATGTACTCCCTCAAATTTTTT
GGATTTTAATGAAGTGCTCAAAGTTAATAGGTTATTAATAATTTTAAAAGATTTTAAAGGGGGGGACTGGAATAAGCAGAGGGCTCTTAAAAAAACTATT
TGAAAGAGAAAGCATGATGAATTAGCATGCCTTTGAAAATTGCTAGACATGTATTATTTATCTACATTTTTGAATATTAATGATTGACTTTTGACAAAAA
TTTATTAGAGCACTTATGATGTTAGTGCCTTGTAGAATCCAACAGTTAAAATTCTTACAATCTCTAAAGACTAATACTTTTCATATGTCAACACTTGAAA
GAAGTATACATATTGGACTGGGGGGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACCTAAGGTCAGGAGTTCAAGA
CCAACCTGACCAACATGGAGACACCCTGTCTCTACTAAAAATACAAAATTAGCCGGGCATAATGATGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGA
GGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCGGCGAGCCGAGATTGCGCCATTGCACTCCACTACAGCCTGAGCAACAAGTGCAAAACTCCAT
CTCAAAAAAAAAAAAAAATTACATATATTGAAAAACGTAAGGACGGTGCTTGCTATATTATTCATAAATATACCTATTTAAAGGGTTAGCCAATGTGAAT
TCACAGGATAGAATTTACACTAGCCTAAGAGGATATAAAAAACACAAATATTCTGGGCTGGAAAATATAACTCATGTAATGATAACAAATATTTTCAAAT
GTAGGACTTCAAAATTATCTAGGACCATAGACTGTGAGGTCTGGAAAAGATGCTCTAACTTAAAGATTTCTGAAAATACAAAATTTACTTTTACACTTTA
AATGCAATTAAATTGCAATGAAACTAACCAACAATTAGAATACAAAGAAAATTTACATTTATTATACCGCAAAAAAACTCATACATTTATAAATACCAGT
AACATGCATAGAATTGGAATAAGATGGTTACTTTCTAATAAAAGGAGACACCTCCAATGGGCAAAGCAGTAAAAAAGGACTTTCCACAAATTAAACGAGA
CTAGCCTCAGTAGATCCTTATTAACACTTAAGTGAATTCAAAGCTCTTCCTGAAACTGGGATTTGCCTCGCTAACCCTCTCTGCACCCTGAGCAACGAAG
TTGGGGATAATTGGCTTCAGGAACTTGAACTCATTTGTCCCGGAGCCTCCAGTCAGACACACCTCGTACTGGTAGCTCTGGGACAGGGTCCCGGTGCCGC
TCACGTCCACCATCTGCCCTGGAAAGGGGCCCTCGGGCACCGAGCAGCGACCCACCGAGGCCGCCCTGCTCCTCCTGCACAGCCGCACCGCCACGAACAG
GAGCACCGAGAAGAGGAAGAGCGAAGACACCGAGGCCAACGCCACCACCAGGTAGACGGTGAGCAAGTCGGCCTGGGCCTGGGCCGGTGCCGCCTCCGGG
AGCAGCAGGTAGGGCTGGGAGAAGCCGTCCACCAGGAGCACGTGCAGCGTGGCGGTGGCCGAGCGCGGAGGCTCGCCATTGTCCTTGACCAGCACCACCA
GCCTCTGCTTGGCAGCGTCGCGCTCCCTCAGCAGCCTGGCGGTGCGCACCTCGCCATTGTGCGCCCACACGCCGAACAGCCCGGGCTCCGTGGCCTTGAG
CAGCTGGTACGACAGCCAGGCGTTCTGGCCCGAGTCGCCGTCCACCGCCACCACCTTGGTCACCAGGTAGCCCGGCTCGGCCGCCCGGGGCACCAGCTCG
GTGCAGGGCGCGGAGCCGTTCTGCAGCGGGTACAGCACGAAGGGCGAGTTGTCGTTGGCGTCCAGCACCAGCACGCGCACCAGCGCCTCGCTGCTCAACG
CCGGGGAGCCGCGGTCTGCGGCGCCCACGCGGAACTCGAACGCCTGCAGGGCCTCGTAGTCCAGCGACTGGAGAGCGAACAGGTGGCCGTTGTCCGCGTT
GATGGAGACCAGGGAGGCGAGGGGCAGGTGCGGGTCCTGGGGCGGCAGCAGCGAGTAGGTGACCTGGGCGTTGGTGCCCGAGTCTCTGTCTGTGGCGCTG
ACGCTGCCGATGTGCAGGGCGGGGCTGTTGTTCTCGCGGACGAACAGGGTGTAGGAGGTTTGGGTGAAGGCGGGGGCGTTGTCATTGACGTCGGAGACCA
GCACGGTTATGTTGTGCTCGGTTTTCAGCCTGGGTGTCCCGAAGTCGGTGACGGTGATGGTGATGTTGTATTCGGATCTGGTCTCCCGGTCCAGGGCCGT
GCTTATCACCAGAGTGTAAAAGTTCTCAACAGAAGGTTTCAAGAAAAAAGGAAGATCATCTTGGATGGAGCACACCATCCTTCCGTTGTCTCCGGAGTCA
GGATCTGAAACGCTGAATACAGCAATGAGGGTGTCCTGCAAGTTTTCTGGGATCTGATTGATAAGTGTCGACATAGTTAGTTCCGGAGGATTGTCATTCA
AATCCATCACTTGGACAAATACCACACAAGTTCCAGATAGGCCCCCACCATCTGTCGCCTGAATATTTACTGTGTATGTCTGGATGGATTCGAAATCCAG
TTTCTGTCTTAAAAGCAGTTCTCCCGATTTTGCACTTAATCGAAACGTTTTGCGAATGTCTTCAGATGCTTGGGAAAATGCATAAGATATTTCTCCATTA
GTTCCAATGTCTAAATCCCTGGCAGAGACGATGGCAACCTGGGATCCAACGGGGCTGTCCTCCGGGATCTGCACCTCATAGAGCAGCTTTGCAAACTCTG
GGACGTTGTCATTGATGTCCACAACTTCAATCCGTACCAGGGCCGTGCCGGACCTGGGTGGACTCCCGCCATCTAGCGCTGTGAGGGTTAACCTGATCTC
AGGCTGCTCCTCGCGATCCAGGGCTCTGTTCAGCACCAGCTGTGGTAATATTATGCCATCGAGACTGTCTTGTAAATTAAGATGAAAGTGGAAATTGGGA
CTGATTGTGTAATTTTGGAGACTGTTGGTTCCTACATCCAAGTCCTGGGCACGTTCTATTAAGAAAGTAGTTCCAGGAGTGATACTTTCTGGAATTTTCA
AAAGTATTTCTTTGTCTAGGAAAACTGGGGAATGATCATTTACGTCCCTAATCCGTAGCTCCGCCTGAAAAAACTGCAAGGGATTTTCTAGTAACACCTG
GAAAGGTAGGACACAGGGCTCTGTGGGGCCGCACAGCTCCTCCCGGTCCAATTTCTCATTTAACAACAAATCCCCGGTCTGCCTATCGAACTGCAAATGC
ATTTTTTTTCCTTTGGAAACGACCCTGGCCCCCCTCACAGCAAGTTCTCCTATCTCCAGCCCCAGGTCTTTTAACAAATTGGCCACAAAGGAGCCACTCT
CCGTTTCCTCGGCCACTGAATAGTGCCTAGGCTGGCAACTAGCCTGAGCTATGCCCAGCAAAACAAAGAATATCAGGACTTGCCTTTGTTTCGGAACGCG
CTCCTTCCCCTCTCCGGCCTCCATTGCTTTCTGGTCTCTCACCAAACGTGCTCCAGCTCTGGCTCACGTTGTCGCTAACTCTATCTCCCCGTATCTCGCT
GATACTGGGATGAGTGGACAATCCTAGGGCCCGGATTTCCCGGAGCGACCGCCTTAGAAAGCCTCCTCTTCCTGCTTGCTGCTTCTTTAGCTGAGTATCT
GGGTAAGGGAGCGTCGGCTGGGTGCTTTGTTTCTGCTACTTCTAAGGCTGCAGCGCCACCCCGCGTCTCTTCCGAGTATTTATTTTCTCCTAAACTTTAA
GAAAATCCCAGTGCTTTCTTTCAGGCTGATGGCAATCGAAATTGAGTATTTTCAAGTAGTGTCTCTCAGTGTACCGAAGTCTTATTGGCGTTTCGAAAGG
CTCTTCATTGCACCCATAGAGACAGGGCAAGAATAAATAAATCTTCACTTCCCTCACAAATCCAAGCTTTTTTTTTTTTTCAAACTGGAAAAAATAAATT
TCAGAACCTGGAAGGGAGTGATCTCAGTCCTAGCATGCTTCGGAAAGAAGGCTTAGACTAAGAAAGTTCTA


SNP Information

Context             (SEQ ID NO:24575):
CGTTGTCATTGACGTCGGAGACCAGCACGGTTATGTTGTACTTGGTTTTCAGCCTGGGTGTCCCCAGGTCAGTGATAGTGATGGTAATGTTGTACTCGGA
W
CTGGTCTCTCTGTCCAGCGCGCCTTCTGACACTAGGGTGTAAAAATTCTCTACAGATGGTTTCAGGAAGAAGGGGAGATTGTTCTCAATGGAACACATCA
Celera SNP ID:            hCV10011992
SNP Position Genomic:     6324
SNP Source:               Applera
Population(Allele,Count): african american(A,5|T,25)   caucasian(A,6|T,32)   total(A,11|T,57)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,27)   caucasian(A,7|T,29)   total(A,14|T,56)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24576):
GACTGTAGACTTTCCGGATAGGCCTCCGCCATCCTTGGCCTCGATGTCGACTTCATAACTATTAATCGCTTCAAAATTCAAATATTTGACCAGTTGCATA
Y
CACCAGTAATTGGATTTAGCTGAAAAGTTTTGCGAATTTCTTCAGAAGCATGAAAAAATGCATATGATATTGTCCCAAAACTTCCTGTATCTAAGTCAGA
Celera SNP ID:            hCV25935111
SNP Position Genomic:     6667
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24577):
TACAGATGGTTTCAGGAAGAAGGGGAGATTGTTCTCAATGGAACACATCACTCTTCCGTTGTCTCCAGAGTCTAGATCAGAAACACTGAAAACAGCCAGT
W
CAGTCTCTCCCGAGTTCTCAGGAATAGGGCTGTTTACTGAAGACAAGGTCAGTTCCGGTGGGTTGTCGTTGACATCAACCACCTGGACTATGACTGTAGA
Celera SNP ID:            hCV29063526
SNP Position Genomic:     6475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24578):
GCACCAGCGCCTCGCTGCTCAAAGCCGGGGAGCCACGGTCTGTGGCGCCCACGCGGAACTCGAACGCCTGCAGGGCCTCGTAGTCCAGCGACCTGAGGGC
R
AACAGGTGGCCGTTGTCCGCGTTGATGGAGACCAGGGAAGAGAGGGGCAGGTGCGGGTCCTGGGGCGGCAGCAGCGAGTAGGTTACCTGGGCGTTGGTGC
Celera SNP ID:            hCV25940579
SNP Position Genomic:     6024
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(A,7|G,25)   total(A,8|G,52)
SNP Type:                 MISSENSE MUTATION;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24579):
ATGCTGTTTGTTCCCTTTGGACACAACTTGGGCCCCCCTCGCGGCCAGTTCCTCTACCCTTAGTCCCAGATCCTTTGCTAGGTTGGCTATTAAAAAGCCC
Y
TCTCTTTTTCCTCAGCCACAGAATAGCGTCTTGACTCGGACCCAGCCAGAGACCCTCCCAGAAAAACAAAGAGAAGCAAGACTTGCCTTTGTCTAAGAAA
Celera SNP ID:            hCV985775
SNP Position Genomic:     7444
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(C,4|T,32)   total(C,8|T,64)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,17)   caucasian(C,1|T,21)   total(C,4|T,38)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24580):
GCAAGACTTGCCTTTGTCTAAGAAATCGCTCTCCTCCCGCCTCCATTGCACTTTCCGTCACGCTCTTCCAGGGAATGTCGCCAAGCTGAACCTCAGACAG
M
GCTGGGAAACAGTCTTTTGCCCCACAACCTTTGTAGACGGCCTAGTGAATAAGCCTTTCCAGAGGCTCAGACTTGCTGGCTCAAAAATCTGCCTGGGCTC
Celera SNP ID:            hCV8939774
SNP Position Genomic:     7620
SNP Source:               Applera
Population(Allele,Count): african american(A,36|C,2)   caucasian(A,34|C,6)   total(A,70|C,8)
SNP Type:                 UTR 3;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:24581):
CTGGCAGAGTGCTTTCTAGGATTTTCAGATGCATTTCATTTTCAAAGAATACCGGAGAATGGTCATTTACATCTATGATACGGAGCTCGTTTGTAACGAA
Y
TGCAAAGGGTTTTGCAGTAATATCTGAAAATGTAGTATGCATGGTTCTGTGGGGCCGCATAGCTCCTCCCGGTCCAATTTCTCATTCAGGAGCAAATCAC
Celera SNP ID:            hCV25939465
SNP Position Genomic:     7221
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(C,3|T,29)   total(C,5|T,65)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24582):
GGTTACCTGGGCGTTGGTGCCTGAGTCTCTGTCTGTGGCGCTGACACTGCCGATGTGCAGGGCGGGGCTGTTGTTCTCGCGGACGAACAGGGTGTAGGAG
R
TTTGGGTGAAGGCGGGGGCGTTGTCATTGACGTCGGAGACCAGCACGGTTATGTTGTACTTGGTTTTCAGCCTGGGTGTCCCCAGGTCAGTGATAGTGAT
Celera SNP ID:            hCV25934309
SNP Position Genomic:     6205
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,2)   caucasian(A,28|G,4)   total(A,44|G,6)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,34|G,6)   total(A,68|G,8)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24583):
AAAGCCGGGGAGCCACGGTCTGTGGCGCCCACGCGGAACTCGAACGCCTGCAGGGCCTCGTAGTCCAGCGACCTGAGGGCAAACAGGTGGCCGTTGTCCG
Y
GTTGATGGAGACCAGGGAAGAGAGGGGCAGGTGCGGGTCCTGGGGCGGCAGCAGCGAGTAGGTTACCTGGGCGTTGGTGCCTGAGTCTCTGTCTGTGGCG
Celera SNP ID:            hCV25940562
SNP Position Genomic:     6044
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24584):
GGTTGGCTATTAAAAAGCCCTTCTCTTTTTCCTCAGCCACAGAATAGCGTCTTGACTCGGACCCAGCCAGAGACCCTCCCAGAAAAACAAAGAGAAGCAA
S
ACTTGCCTTTGTCTAAGAAATCGCTCTCCTCCCGCCTCCATTGCACTTTCCGTCACGCTCTTCCAGGGAATGTCGCCAAGCTGAACCTCAGACAGAGCTG
Celera SNP ID:            hCV25936769
SNP Position Genomic:     7524
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 MISSENSE MUTATION;SILENT MUTATION;TFBS


Context             (SEQ ID NO:24585):
TTTACCACACTGGATCCGTGCGTCACCGAGCATGCACAATGCCTGTGGTTTAATTCGCCTTCTTAGTCAACAGCGCCACCATGCGTTCGCTTGCAGTTAC
A
AAATCTTGGAGAAGGTGTTTTTATTTTGCTTTATCGATTATTCTTATCAACCCTAGTTGACGCTACTGGAGGAGTTTCTCATGTTATATGAATTAAATAA
Celera SNP ID:            hCV26312422
SNP Position Genomic:     7832
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:24586):
GAATGTCGCCAAGCTGAACCTCAGACAGAGCTGGGAAACAGTCTTTTGCCCCACAACCTTTGTAGACGGCCTAGTGAATAAGCCTTTCCAGAGGCTCAGA
S
TTGCTGGCTCAAAAATCTGCCTGGGCTCTCAACCGCTGGTTTACCACACTGGATCCGTGCGTCACCGAGCATGCACAATGCCTGTGGTTTAATTCGCCTT
Celera SNP ID:            hCV8939779
SNP Position Genomic:     7692
SNP Source:               Applera
Population(Allele,Count): african american(C,24|G,2)   caucasian(C,23|G,5)   total(C,47|G,7)
SNP Type:                 UTR 3;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:24587):
GGTGCATTGTCGTTTATATCTAAGACCTGGATGTTTATCTGGGCTGTCCCAGACCGAGGGGGAGAGCCGCCGTCCAGCGCGGTGAGCGTTAAGCTGAGTT
Y
CGGCTGCTCCTCCCGATCGAGCGCTTTATCCAGTACTAGTTCCGGGTACTTCCTTCCGTCCCTACGACTGCGAGTGAGTACGTGGAAGTGGGAATTCGGA
Celera SNP ID:            hCV3169656
SNP Position Genomic:     6947
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,7)   caucasian(C,32|T,8)   total(C,59|T,15)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24588):
CCAAGCTGAACCTCAGACAGAGCTGGGAAACAGTCTTTTGCCCCACAACCTTTGTAGACGGCCTAGTGAATAAGCCTTTCCAGAGGCTCAGACTTGCTGG
S
TCAAAAATCTGCCTGGGCTCTCAACCGCTGGTTTACCACACTGGATCCGTGCGTCACCGAGCATGCACAATGCCTGTGGTTTAATTCGCCTTCTTAGTCA
Celera SNP ID:            hCV25937542
SNP Position Genomic:     7700
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,1)   caucasian(C,28)   total(C,53|G,1)
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:24589):
CAAAGGGTTTTGCAGTAATATCTGAAAATGTAGTATGCATGGTTCTGTGGGGCCGCATAGCTCCTCCCGGTCCAATTTCTCATTCAGGAGCAAATCACCT
R
TCTGATGACTGAGCTGAAAATGCTGTTTGTTCCCTTTGGACACAACTTGGGCCCCCCTCGCGGCCAGTTCCTCTACCCTTAGTCCCAGATCCTTTGCTAG
Celera SNP ID:            hCV25939841
SNP Position Genomic:     7324
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,31)   total(A,1|G,65)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Gene Number:                 89
Celera Gene:                 hCG1981326 - 67000128986396
Gene Symbol:                 DJ465N24.2.1
Protein Name:                hypothetical protein dJ465N24.2.1
Celera Genomic Axis:         GA_x5YUV32W3P1(8363739..8380986)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12249):
CCAGCTACTCGGGAGGCTGAGTCAGGAAAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGACCGTGCAGCCTGGGCAATAAGAGCGAAACT
CCATCTCAAAAACAAACAAACAAAAAAACAAAACAATGGGATAGACCAATTTCTAGTACTTCTAAACTATGGAATACGATACAGCTGATAAACCAAAACA
CATTAGATCTATGTGATTTCTCTTAAAGGATGTTGATTATAAGTTTCAACTTGTTTAGAACGAGCCCATATTCATCAAAAATTCTGTATGCACCGATGTG
GTGGCTCATGCCTGTAATCCCAGCAGTTTGGGAAGCCAAAGTGGACAGATCCCCTGAAGTCAAGAGGTCGAGACCAGCCTGGCCAACATGGTGAAACCCC
TTCTTGTGGAGTAAAAGTTAAATATTAAATTTGAACTCAATTGGACTTGAACACAAGGAATGGTTACGTGCCAGAAATCTGTCCCTGGGCACTTGCTCAG
GAACGGATGGACATACTGATTGTTCTTGATAAATACATCATCTGCCTCGAGGCAATAAACAAAACCTTGAAAATAGGCTGACCTTTCCGTGTTCCTTGAG
TCCAATGACAAAAGGCCCTTGTGCCTAGGCCTCATGCCAAAAAGAATACTATAAAAAGGTCAGGCCAGGTGCGATGGCTCATGCCTGTAATCCCAGCACT
TTGGGAGGCCAAGGTGGGCGGATCACCTGAGGTCAGAGGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCCATCCTACTAAAAATACCAAAAATTAG
CTGGGCGTAGTTGCTGGCGCCTGTAATCCCAGCTACTCAGGAGACTCAGACAGGAGAATCCCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATC
GTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAGGTCAGGGTCCCAGACTACGCTGAAGCTCCACGAGA
CCTCTCCTTCTCTGTGCATGGACCAGTGGCTGACTCTGGAGCCCAGGCTGTTGCTTCCCGGTCTGGTGATGAATCCTCCATTGTCTGGTGAGTGTATATA
TGCTGATTGTTTTTTTTTCCTCACTGCTATTTGCTCAATGCACCTTCTATTTTATACTTAAATGAACCTAAAGTAGTTTACAATCTGCACTTATGTGTGA
GTGCTGTGTGTTTGCTTGTACCTGTGCACTCCCCACACAGAACATGTCTCTACTAAAAAAAAAAAAATTAGCCAGCTGTGGTGCATGTGCCTGTAATCCC
TGCTACTTGGGAGGCTGAGGCACGAGAATCACTTGAACCTGGGAGAGGGAGGTTGCAGTGAACCGAGATCATGCCACTGCACTCCAGCCTGAGTGAGAGA
GTGAGACTCTGTCTCACAAAACAACAACAGCAACAAAAATTAGCCAGGCGTGGTGGCGTGCACCTGTACTCCCAGCTGCTTGGGAGGCTGGGGCATGGGA
ATCACTTGAACCAGGGAGGCAGAGGTGGCAGTAAGTCGAGATTGCACCACTGCACTTCAGTCTGGGCAAGAGAGCGAGACTCTGTCTCAAAAAAAAAAAA
AAAATCTATATGTGGGTATATTTGACATGTCTTGAAGAAAACTGTGGAAGGGCACTCGTTAAACTGTTAACATTGGTTATCTCTAAGATATGAGGAAGAA
GGATGGAGACCTCTTTTAGAGGATTCTATACCTCTAGGGAATGATCGTTAGCTTGTATACATCTTTGGATTCCTTTACCTGATAAAAAATTAGTTTTGTC
ATTAAAATTAACAAAAATATTAACTTTGAGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTTGAGGTGGGCGGATCACCTGAGGTT
GGGAGTTGGAGATCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATAAGCCAGGCATGATGGCACAAGCCTGTAATCCCAGCTAC
TCAGGAGGCTGAGGCAGGAGAATTGCTTGAATCCGGGAGGCAGAGGTTGCAGTAAGCCAAGATCAAGCCATTGCACTGCAGCCTGGGCAACAGAGTGAAA
CTCCGTCTCAAAAAAGAAAAAAAAAAGGAAAACTATAAATTATACTGAATGTTTTATTTTCCTATTGCTGTGGTAATAAATAACCATAATGTTAGTGGCT
TAAAACAACCTAAATTTAATATCTCATAGTTCTATAGGTGAGGAGTCTCACCAGATTAAAGTCAAGGTGTCAGTCACATTTTGTTTCTTTTTGGAGGCTC
TAGGGGAAGATCCCCAACACTAGCTCATCCATGTGTTGGCCGAATTCAGTTCTATGATGTGGGATTGAGGTCTGTTTCCTGGCTGTCAGCTGGAAGCCAC
CATTAGCCCCTAGAGTTCTTTCCCTGCCCTTGCACATAAGCCCCTACATTTCTTTCTTTCTTTTTTTTTTTTAATTATTTTTTTCTTTGAGATGGAGTCT
CGCTGTGTTGCCCAGGCTGAAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCCGCCTCCTGGATTCAAGTGATTCTCTTGCCTCAGCCTCCTGAGTA
GCTGGGATTACAGGCGGACGCCACCTCGCCCGGCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCAAGTTGACCAGGCTGGTCTCAAATGCCTGA
CCTGGTGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCCGCCCCTACATTTCAGAAGCAGCAACAGGGCA
TGGAATTCTTCTCATGCTTTGACTCTCTCCTGAGATTAGATTGGGCCTACCCAGATACTTCAGAATAATCTCATCTCCAGATCCTTAACCTTAATTACAT
CTGCATAATTCCTTTTGTCACCTTAAGGTAACATATTCACAGGTTCCAGGAAATTAGGGAATGGACATGTTTGGGAGGCGATTGGTTTGCCAACCATAAT
GAAGGACATAAACAAAAAACCAACTTAAATGGCACATTTAAAACTTGTTGTGATACCCTACCTTGTTTAAACCTGAGTGACTCTCTCCTAGCAGACAGAG
CCGGACAGACTCCATTTTAGTTTCTTTGCTTGCAGCCCTCTTTATCCCCCTAAGGGAGTAACTAGTGCAAGCTGACTCCAAGCACATCCAGGAATTCACC
TGCTGATAAGATATTGAGGCAAGCTGTACCAGCAGCTCCTGGGAATGTGCTCGGTGGAAGGTACCTAAAGCCCCCGCATTTATCTCTTAGTGATAGTTTA
AGCCCCTGTACCTGGAACTGTTTATTTTTTGTAACTGCTTCTATAACCAATTAACTTTTTTAACTTTTTGCCTATTCTGCTTCTGTAAAACTGCTTCAGT
TAAACCCCCCTCCCCTATTTAGACCTTAGTATAAAAGAAAATCTAGCCCCTTCTTCAGGGCCGAGAGAATTTTGAGCGCTAGCTGTCTCCCGGTTGCCGG
CTAATAAAGGACTCCACAATTTGTCTCCAAGTGTGGCGTTTCTCTATCTCGCTTGGTTACAACATTGTCACATTCTTAGATGGGAAGATTTGCTATTGTA
AAGATGTTATTTCTGCCTACATTAGCCTACAAATTCGGTGCTAGATGTTCTAATAACTAAAGTTGAATTTTTTTCATTAGGTGAGTGGATAGATGCTCAG
AGAATATATACTGTTTAGAGAAATAAAGGAAGGTGACTTTGCAGACTTTAACTCAGGTAGACCGCGTATGTTTTTGAGACAAATACACCAGCATTCTGCA
CGAGGGCAAAGTAATGTTTCCCACTGTTTCCAAAATCCTGTTAATATCCAGGATTTGCTGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAG
GCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAAACCCATCTCTACTAAAAATACAAAAAAAATTAGCTGGG
CATGATGGTGCACGTCTGTAAACCCAGATGCTCGGGAGACTGAGGCACAAGAATTGTGTGAACCCAGTACGCAGAGGTTGCAGTGAGCCCAAGATCACAC
CACTGCATTCCAGCCTGGGCGCCAAAGCGAGACTGTCTTAAAAAAAAAAAATTAGGATTTTTCTGGTCACCATTTTTTAGGCACACATTGACTGATACTT
TGAACTGTCTACGGAGACTTGTTCCATCCTTTCCTATTCATAACCAAGAGCTCAAAACTGTATCGTAAGTATACTTTAGTTCCCCAACACATCATTTTTA
TACTTGTCAAATGTGAAACTCGTGTTGTTATTATTATTATTTGTTTCCAGACGGAGTTTTGCTCCTGTTGCCCAGGTTGGGTTGCAGTGTTGCAATCTCA
GCTCACTGCAACCTCCGCCTCTCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCCCGCCACCATGTCAAGCTAATTT
TTGCATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGATCTCGAACTCCTGATCTTAGGTGATCTTCCCGCTTCGGCCTCCCAAAGTGCTGG
AATTACAAGCGTGAGCCACCGCGACTGGCCTCGTGTTATTTTTCTGTCCACTCACACAGCTTTATGAGAACTTTCGGCAAAGGTTTCTGATGGATGGGCA
TTGTATCTTCACTGTCTTGAGATTTAGAGAAGAAACTGTTTAAGAACTACTTCCATCATGATGCATCCTCAGGAGATGTGGATGAACTGCGGAGATGTGG
GGTGAAGATGAACAAGAGATGAGTGAGTTTGTGTCTCCCTCTAAAGAAAGTGGCTTTTGTCAAAATGTACTTGTAAAGAAGTGTATAGGCTGGGCAAAGT
GGCTCACGCCTGTAATCCCAAAACTTCAGGAGGCTGAGGCGGAAGAATCGCTTGAGCCCAGGAGTTGGAGACCAGCCTGGGCAACACAGTTAGATCCCGT
GGGTAAAAAAGTGCAAAAATTAGCATGGTGGTGCATGCCTGTAGTTCCAGCTCTTCGGGAGCCTGGGCTGCAGTGAGCCGTGATGGCCCCACCACACTCC
AGCCTGGGCGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAGGCAATTAACCCACAATTTTCAAGGCAATTGTTATGCTTTATTACAAGAAGTGT
TTGAAATGCATCCCATTTGTAGATCCCTAGAAGTAAAATAGTCACCTTTGTTTACACTCACACCAAACACAGTTTTTGGAAGAGATATCGCAGACTTCAT
TATTATCCCCAGATTAAAGGTCAGTTTTGAGTCTTTTTATTTTGTCTCGACCTTATTACCTTCCTAGCCAAAACATGGAAGTAAAACATCTTTTCTACGT
TAATACTGCATTTCCAGGGGTCTTGGGGTGTTCCGGGGGAGGGTGAGGTCCCCTCTCTGTCATGGCGGGGTGTGGACGCGGTCGCCTTCTCCTGGCGCCG
CGGTACCTAGGACAGGAGGAAGAGGCCAGGAAGGGTCCAGGGAGGCTCAGGCCGGGTCTGCGACTTGCCGGTGGGTGGCGGCAACGACCCTGTGGGCACC
AGCCCGTCAGACGGCCCCAGCTCCGAGCCCGGCTGCGAGCCCTCTCCAGCCTGCAGCCGCTCCTCTCCCGGCCCTACTCCCCGCCCGGCACTGACGTCCA
GCCCCGCCCGTGCAGTGAGGCCAGAGCCTGGTGTAGCCCCACGCGGGGCCGTTCCATCTTCGAAGTTTTCTGGTGACTGGGTCGGTCCCGCAATTATCTC
AGATCAGGGGGGAAGCCAAGGGCAACGGGACACCCTGATGTATCAAACACCTCCCCCTGGAGCCCCATCGCGCATGCGCACCCTGGAGGCAAGCGCTCGA
GGCACAGGGCGCGGCTTGGGGAGGGAGGAGGCAGGGCGGTGGTTGGGCAAGAGAAGAGCCGCGCCCACCACGGAACATCTCTGCGCATGCGCCGGGGGCC
AGCTTCTGGTACTTTTGACGCGTCTGCTAACGTAGTCCCTCAGTGCGCATCCGGACGTAGGAGGTGGAGGTTGTGGAATTCGCCGTTCGAAAGCAGGGAC
TAAAAGCCCCACTTCGTCTTACGTTCCGAAAGGAAGGCGTCTGTTGAGCCTTTCTCTCAGTCGTGAGGGAGGCGTCGACGGCGTGCGGTWAGTTTTCTGC
TGACGGGGTCTCTCAGGACCACCGCAGTGGTCTCTCAGGAGTGAGGGACGGGAAACGTGCCGGGCCCCGCGTTTGGGGAACGCAGCGTTTCGCTTCAAGG
CCGCGGCCTCAGGGCGCCGAGCGGGGTTTCTAGGGCTCGGTTCCTGTCGCGGCGGTCGCCGCCCGCGCCGTGGCTCCGCCTCCCGGAGGTTCCCCGACTG
TGGCTTCCGGGTGGCCAGGCGCCGGCTTCCGCGACTCGACTTGTTTTTTCTCTCTTGGTTTTTTAGGAAGTCCTGAGTTGAGGCTTGCGGGATCCTTTCC
GGAGAAAGCGCAGGCTAAAGCCGCAGGTGAAGATGTCCAACTACGTGAACGACATGTGGCCGGGCTCGCCKCAGGAGAAGGATTCGCCCTCKACCTCGCG
GTCGGGCGGGTCCAGCCGGCTGTCGTCGCGGTCTAGGAGCCGCTCTTTTTCCAGAAGCTCTCGGTCCCATTCCCGCGTCTCGAGCCGGTTTTCGTCCAGG
AGTCGGAGGAGCAAGTCCAGGTCCCGTTCCCGAAGGCGCCACCAGCGGAAGTACAGGCGCTACTCGCGGTCATACTCGCGGAGCCGGTCGCGATCCCGCA
GCCGCCGTTACCGAGAGAGGCGCTACGGGTTCACCAGGAGATACTACCGGTCTCCTTCGCGGTACCGGTCCCGGTCCCGTAGCAGGTCGCGCTCTCGGGG
AAGGTCGTACTGCGGAAGGGCGTACGCGATCGCGCGGGGACAGCGCTACTACGGCTTTGGTCGCACAGTGYACCCGGAGGAGCACAGCAGATGGAGGGAC
AGMTCCAGGACGAGGTCGCGGAGCAGAACCCCCTTTCGCTTAAGTGAAAAAGGTGGGTGGGTCATTTACCTTTCCATTTGTGGTAATGTATGGTGGCAGT
ATATGAGTAGGCTAGGGAACCAACGTTGCTGTGTAGTTTCAATATTAGTTCCTTTAGTGCCCGAAATCTTTTTGGAGGAAAGAGGGAGGACATTACCTGT
ATTTAAGTGGACAGCATTCTCTTTAGGGTTAAAGGTCAACTGGATGTTAAATGGCTCAGGATGTAGGGAACTTTTTTTCCTATTGGCTGACTGTTCTTAG
TGGGTGGAGCCTTTTAAATGTTATGATTAAGTTAAAGGTTCTAAGTTAACGTGATTGGGAAGAACAATATCAAAACACGCCTTCTTTTAGTTGACATTAT
TACTGAATAAAATTGGATTGTCGAGTATCCTAAGTGACCTAGGAGGCCGGGCGCGGCGGCTCACCTCTGTAATCCCAGCACTTGGGGAGGCGGAGGCGGA
GGCGGGTGGGTCACTTGAGGCCAGGCGTTCCATACCAGCCTGGCCAACATAGCTCACTATCTAGTAAAAGTACAAAAATTAGCCGGGGGTGGTGGTAGAA
ATACACTTTAGTAGTGTATCAGTATTGGTTCAGTGGTTGTGATAATTATATAAAGAATCTACAGCAGAAAAACCTGGTTTTCAGAAATACATCTTTGAAG
AGAAAGCAAAATAATATCACTATTAGCTAGAGAAAATTAAGTACAACAAAAAGACAAAATAATAGGACGCTCAGGCCTTTAGTCAAGAAAACAAAACTAA
TTGTTGAGATAATTTAAGAATTTTATTCTTTTCAGCAAGAAATGAGCTGGAGAATAGAATTTTCAGTGAATAAAGTTACACAGTTGTCCCTCTGTTCACT
CGGGGGATTGGTGCCAGGATGCATATGGAACCCTCGCGCACACTTGGGGTTTACAGTCTCTCAAACACTGTGGTACTTTCTATCTGCATTTAGTAAGGGG
GAGAAAAAACAAGTATAAAGTGGACCAGCGCAGCTACTAGTGTTCAAGGGYAACCTTAGTTTACCTATTATAAAACAAGTGACTTAATATATTTAATACC
ACAAAATAACATATTTATTGTGTAATTCTGAGTTCTCTTGGGAAATAACTACCAGATTAATGAGTATTTTAAAATCTCTCTCTTTTTTTTTTAGATCGAA
TGGAGCTGTTAGAAATAGCAAAAACCAATGCAGCGAAAGCTCTAGGAACAACCAACATTGACTTGCCAGCTAGTCTCAGAACTGTTCCTTCAGCCAAAGA
AACAAGCCGTGGAATAGGTGTATCAAGTAATGGTGCAAAGCCTGAAGTAAGTATTCTAGGTTTGTCGGAACAAAACTTTCAGAAAGCCAACTGTCAAATC
TGATTAGCCACTTATATCTTAGACTATACTTTTTGGGAAGTCTAGAGATGTATATAATGTGCTAAATTCAAAGTAGCAAATCTGAAGATAGGCAATGTCA
AACCCATGAAAATGGGAGATTAATGAGCTTTATTTGGCCGTGCATGRTGCCTCATGCCTGTAATGAGGCAGATGGCTTGAGTCCAGGAGTTCAAGACTAG
CCTGGGCAATGTGGCAAAACCGCGTGTTTACAAAAAATACAAAAATTAGCCAGGCATGGTGGTGCATGCCTGTAGTCCCAGCTGTTTGGGAGGCTGAGGC
AGGAGGATCTTTGAGCCTAGGATGCTAAGGTTGCAGTGAGCCAAGATGGCACCATTGCACTCTAGCCTGGGCAGCAGAGCGAGACCCTGTCTCAAAAAAT
ACATTTATTTTTTTCATTTTCAGTTAACAGTGTACTCTTATAACACCGTTATTAGCTGGTACTTTGGTGATTTCTATTACTAGTTTTTCTAAGCTATTTA
CAGAGTGTTTGTAGCTTTCATTTGCAGCATTATGTTCCCACAAATTCTGTACTCAGCATATACAGTATAGTTTATCTGCTCTATTTCTGTCTTATAGAAA
TCATGAATGTGGTCTGCAGACATTGATGAAGAAAATCTGTTGGTAATTGATACATGGGCTAAAGCATCAGAGGTTTAATTTGAAGTTTATGTTCACACAC
TGAAAACTTAGTTTTTTTGTTGGTAGATCCATGTGCATGCTAGAATTTGGGACAGGYACTATTTGCATAAAGTATTAAAGTCAATTTTTAAACTAAGCAA
AGGTACACGTTGTAACGGTGGGGCATCTGTGAAAAAGATGTCCCTTTCATAATATATGCAATATATTCCAGATGTTTTGAGAGATTACAGAAGAGGAGGC
CTGCTTCACTTGCAGATAAGTTTATTATAATTCTCCAGAAATGTGCAGGATGTGCATTAGCAAATTGCACTGTACTTTTCACTCCAGCCTGGGTGACAGA
GCAAGACTCCCGTCTCGGGGGCTTAAAAAAAAAAAAATGCTGTATCTAAATGAATCTGTGTAATTGGGCCCAGATGTGGGTTTGCTCAGTATTAGTAGAC
AAGGTCTTTGTTCAGACGATTAGGTGCCTAACTGGCAAATGCCTTAGTTTCTTAAAACGTATTTTCTGATGTGGCTTTACATTTCAAAAGTGAACTTGAT
TCAACCTGAGAAAACTGATTAAAAAATTAGTTTAAATTTGCCAGCAGGGAAGTAAAATAATTATGGGAAGAGTGTCTTAAGCCTAATATTAAATCAGTTT
TGTTAAGGGGAAAACTCAATAGTTCTGTTACTTAGGCTGTTAGATCCAAGTTGATTTTTGTGTCTACAGCTAAATTTTGTTTACAATTAGGCTATTTTTT
AATATAGGATTTAGAAACCAAGGGTATGTGTTTTAAAATTACACTTTTTCTTAACCTGTCTAGCTGTCGGAAAAGGTAACAGAAGATGGAACTCGAAATC
CCAATGRAAAACCTACCCAGCAAAGAAGCATAGCTTTTAGCTCTAATGTAAGTATATCCAGGCATTGAACACTCAAAAATTGGATTTAGGATGTATTTTT
GCATCTTTGTGTTTTTATCTTTGTGGTGATAGTTGGGGGCCTACTGACACACTTTTTAAATAGAATTAAAATCATTTGTTTTTGAGCCACTTTTATAAGT
GGCCATTATAATGGGTTTGTAATATATATAACATTCACGTTAGTTCCGATATTTTGCCATTCTTTTAAGTGTCCCCCCTTTTTTATTGAAATATTTTAAA
GGGAAATCTTTAGAATACTCCTTAATCACAATGTTTTAAAATAAGAGTTTCAAAAACGAAGCCTCAAAATCATTATACCTTGTGTATCTTGTGTATGTCC
AGTGTCTCCCTGCTGCCCCAGTATCTTCACTTCACTTTTTGAATCAAGCTACAATTAAGGTTCACACTATGTGTTTGGTTGATAATCCTTTTTTTTTTGT
TTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGTAGTGGTGCAATCTTGGCTCACTGCAGCTTCTGCCTGCCTCCTGGGTTCAAGCGATTCTCC
TGCCTCAGCCTCCCGAGTAGCTGAGACTACTGGCGCATGCCACCACGCCCGGCTAATTTTTGTATTTTTAGGAGACAGGGTTTCACCATGTTGGCCAGGA
TGGTCTACATCTGACCTCGTGATCCGCCCGTGTCAGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCAATTGATAATATCTCTAAG
GCTCATACATGGGATTATTTAATGTACTTTTTTTTGTGAAAAAAGTGTACAATGTATGTTTGGGAAGCTGACTGAATTTGTTCTTTTACAGAATTCTGTA
GCAAAGCCAATACAAAAATCAGCTAAAGCTGCCACAGAAGAGGCATCTTCAAGATCACCAAAAATAGATCAGAAAAAAAGTCCATATGGACTGTGGATAC
CTATCTAAAAGAAGAAAACTGATGGCTAAGTTTGCATGAAAACTGCACTTTATTGCAAGTTAGTGTTTCTAGCATTATCCCATCCCTTTGAGCCATTCAG
GGGTACTTGTGCATTTAAAAACCAACACAAAAAGATGTAAATACTTAACACTCAAATATTAACATTTTAGGTTTCTCTTGCAGATATGAGAGATAGCACA
GATGGACCAAAGGTTATGCACAGGTGGGAGTCTTTTGTATATAGTTGTAAATATTGTCTTGGTTATGTAAAAATGAAATTTTTTAGACACAGTAATTGAA
CTGTATTCCTGTTTTGTATATTTAATAAATTTCTTGTTTTCATTCTTAGTCTTTATTGTATATATATAACCTAATGGATCTTTATTTAATGTAGAGATAT
AAGGTGGTGTGTGTTGATTAAAGCCCTGTTAATCCCAAGTCCAAGGCTGACTGGCCCTACCTGAGATTTTGAGAAATGCTGAATCTCAAGTCCCTACCCT
AGACCTGCTGAATTAGAAACTGAATTTTAACAATATTCCCAACTGAGGTCAATACTTCAACTTGAAAAATTGCCCTAAAAAATTTATGGAATACTGGGCT
TCAAGGCAAGAAACTAAGCCAGAAAGAGGAGGAATAGAATGCCTCATTAAGCTGTAAAATCTGAGGTATAGTTAAAATTATTATGCTTTTAAAAAAGCAT
TCTAAGTAAACTTTTTTTTTGAGATGGAGTGCAGTGGTGCGATCTGGGCTCACTGCAAGCTCCACCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTC
CCGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGGATGGTCTCGATCT
CCTGACCTTGTGATCCACCCGCCTTGGCCTCCCAAAGAGCTGGGATTACACGTGTGAGCCACTGCACCCGGCCAAAGTATTCTAAATAAACTCTTAATTT
GAAATGTATTGGTGCTACTGTAACTGGGAATGATTTTTTTTTGGAGACCGAGTCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAGTCTCCACTCA
CTGCAACTTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGTGCCCCCATACCCAGCTAGTTTTTGTA
TTTTTAGTAGAGACGGGGTTTTGCCATCTTGGCCTGGCTGGTCTAGAACTCCTGACCTCGGGTGATCCACCCTGCTCAGCCTCCCGAAGTGCTGGGATTA
CAGGTGTGAGCCACTGCACCCGGCTGGGAAGAATATGAAGCACGTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGC
AGTGCAATGGCACAATCCTGGCTCATCGCAACCTCCACCTCCTGGGTTCAAGCGATTATCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCTTGTA
TTTTTAGTAGAGATGGGGTTTGTCCATGTTGGTCAGGCTGGTCTGGAACTCCTGACTTCAGGGGATTCACCAGCCTCGGCCTCCGAAAGTGCTGGGATTA
CAGGCGTGAGCCACTGCGCCTGACCGTTAAGCACATAAAATTTTAAGTGGGTATTACACTTTATGAACTGGAGAATCTTGACAGCTGGTCTAAGTAAGAC
TGATTTTTATAGACACTTTATTTTTTAGAGAAGGGGTTTCTTGCTCCATCACCCAGGCTGTAGTGCACAGTCACAGCTTGCTGCAACCTTGAACTCCAGG
GCTCAGGGAATCCTGCCACAGCCTCTACCATACAGGCTTATGCCATCGCACCTGGCTAATTTTTTGGGGGTAAAGATGAGTGGGATTTCTGTTACCCTAG
GCTGGTCTTCAAGCAGTCCTCCTGCTTCGGCGCCCCCAAAGTGTAGGCATTACAGGCGTGAGCCACTGTGCCTGGCCTAAAATAATAGTTTCACCAAATG
TTTTAACTTTCTTACAAGGATATTTGGTTTTTGAAGGATGGCATTTTACAGAATGTTATTAAAGATCAGTGTCTATCTCCATGGTTTTGTTCCCATAAAT
GCACCTGGGCTATGCAATAGAGCGTGGAACAGGAAAGCACCTGTAATTGTGACCACTTCTGGGGAAGAAGAGGGACTAGGGTGAATTTCCTGTAGTCATT
GTCACCTTCCTTTCACTACCTACATAGCTTGCAAGAAAAATTAGCACCCTACCTCTGAAGCTCCCAAGGTCAACTCTAGGCTTCACATTAAACACAAACA
GAAGACAACCCAAGTGAATAATATACAGATAAACGTGGAAATATACACATTAGAACATTTCTTTACAAACTACAAACGCGCACGGACCTGGCCAGGCGGC
AGGTCTGAGCTGGTGTCCGAGACTATGCATCCGTTTCCGGCGCAGCGCACGGGATCTGCGCAGTCTCCGTTCGCGCTTCTGGGCTCCGTAAGGAGAAGCG
TCTTCAGACGGGGTGGCTTGGCTTCCGAGGCCCTCTGCTGGCGACCCAGTCCCAGTGTCTGCGTCTCCCTCTCCCCTGGCATCGTCTCCTCCTCTAGGAC
AGACGTAGCCACAAACGTCCCTACCTCGATACCCCCAGGGAAGGGCCTGCCACCCATCTTGTCAGCCACAGTCTCCGCCCTCCCCTGGCAACGCTTCCCT
CCACTTCCGGTAACAATTAACTGGAACCCCGGGCCTCACTTTTCCGGACGTAACCCGGCCCTTCCTGGGGGACCCAGGCAATCCCCACCCCTGGCAGTCC
TGGGCTGCGTCCGACTGGGCTAGGCCTGTGCGCAGGCGCATTGGGTGGAGAAACCCGGACCTGTGCTGGAGACGCGAGGACGCAGTGAGCTATGATCTCA
GCCTCTCAGCCTGGGTGACAGTGAGACCTATCTCAAAAACAAAACTCTGAAGGCAGACTATCCCTCTCCTTCCTCAGATTTCCTTAAATGCCTTTCTTTA
GGGAAGCCAGCTCACCACTTTAAAAGTCAGTTTCCTCTGTTACAGCTCTTCATACATTTTTACATTTTCTTCTTTGCAGCACTTACATACATGTAATTAC
ATAAGTGTGGAGTTGCTTGTTTAATGTAGTTAATTTGGGGTTTTTTTGAACCCCAAATTTTGAACGGATCTCGCTCTATCGCCCAGGTTGGAGTGCAGTG
GCGCGATCTCAGCTCACGGCAACCTCTGCCGCTTGGGTTCAAGTGATTCTCCTGTCTCAGCCTCCCGAGCAGCTAGAATTACAGGCGCCCGCCACCACGC
CCGGCTAAATTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGCCTGGAATTCCTGACCTCAAGTGATCCGCCCACCTAGGCCTTA
CAAAGTGCTGGGATTACAGGCATAAGCCACTGAGCCCGGCCTAATGTAGTTAATTTAAATGAGACATTTCTTAACCTCTATTAAAATAGCAAATATTTGG
CCAGGCACTGTGGCTTACTCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGAGGATTACCTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACAGAG
CAAGACCCCGTCCCCTACCTCTGACCCTGCCAGCCCCTCAAAATTGAAGTATTAGCCGGACATAGTTGCAGGTGCCTGTAGTCGCAGCTACTCGGGAGGC
TGAGATGGGAGTATCCTCTAGGAGGCAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCCCTCCAGCCTAGCCAACAGAGCAAGACCTTGTCTCAAAAAA
AAAAAAAAAAAAAAAAAAAAAAGCAAATATAGCAGAGTAACAGGAATTTTCTCTATGTTATAGATGATTTGATAGAGCAATATTACAGGTATTTACATTC
TTTAAGAATACAAAAATGTCAATTATAAACCAGGCATGGTGGCTCATGCCTGTAATCCCAACTACTCAGAGGAAGAGTCTGAGGATGGAGGATCACTTGA
GGCTGGGATTTCAAAACCAGCCTAAATAACATAATGAGACCCTGTCTTTTAAAAATAAAGTCAATTATAAAATTATTTTCAGTAAGATCACTTATCAGAA
TTACAGGTTTTGAAAGTTATGTTACTAGGCTTACATATGCTAAGTAATTAAGGAGAGCTTAATAAAGGGACTGTTTACAAAGTTGTAGACTGGGTAAGAA
AAACCAACCAGAGTGAAGCATACCAGCGCTATCAACAGGGGGATCCCTCACTACTACTACCCCAAAAGAGGCAAAAGAAGGGAGCAGCAATGGGAATCCA
GAAAGTATAGGGTTAGGCCGGGCGCGGTGGCTCACGCCTGTAATCTCAACACTTTAGGAGACCGAGGCGGGTGGATCACCTGAGGTCAGGTGTTTGAGAC
CAGCCTGATCAACAAGGTGAAACTGTCTCTACTAAAAATACAAAAATGAGCCGGGCATGTTGGCAGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGA
CAGGAGGGATAGAAGATAGTCTTCAGACATAAGCGGTGACTACGGAAATATACCAAATCCGTAATCCAGCCAGGGAATAAATACCTTGACCTCATTTCTT
CCAAACCTCTGATCTTATGTAGGTACTGTGCATTGGCAGGACCCAAGAAGGTAGAGGGCAAGAGAGTTTACTGATGCAGTTCATTCAGGCTAGCACTCAG
GGACACAGAACATGGAGACCAATGGAGAGTAGTTCTAACAGGGCAGACAGAAAATATGTAGCACAAATTCTTTTTCAACAGGACATGGCAACAATTTAAA
AAATTGGAGTCTTATAAGAAGTCTGTTCAAATTATATTTATACATATTTATTAACAAAGAACAGAACAAGTGATGTGTCTAATTGAATTTTTCTAGATGC
TGGAAGATCTTCCATTCTATGTGCTAGTCTTACAATGTAACATTGGCACTCCTTCTATCTAGAAGTAGAGTCTGTATCCCTAATCCTTGAATCTGTGACT
ATGGAGGGAGTGACACTGTGAATTCTGAGACTAAGTCATAAAAAGTGAAACAGATTCCACCTAGTTCTCTTGGGATACTTGTTCTTAAAACCCAGCCCCC
ATGCTTTGAGGAAGTCCAGGCCAATGGAGAGGCCAGGTGTGGGCGTTCAGGCCTACAGCCAACATCAACCACAAGACTTCTGAGTGAGGAAACCTTTACA
ATGATTCCAGCCCCAGCCCCTAATCTGACTGCAACTGCATGAGAGACCCTGTGTGAGAACCACACCAATTCTCAGACCTATGAGAGATAATAATAAAATA
ATATTTGTGCTAAGGTACCAAGTTTTGGGATGATTTGTTATGCCACAATAGAGAAATGATACAGTTCATAACAGTTTTTTTTTTGTTTGTTTGTTTTATT
TTGAGCCGGACTCTTGCTGTGTCGCCCAGGCTGGAGTGCAGTGGCGCCATCTGAGCTCACTGCAACCTCCGCCTTCTGGATTCAAGTGATTCTCCTGCCT
CACCCTCCCGAGTAGCTGGGACTACAGGCGCACGCAGTCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTGACCAGGCTG
GTGTGAAACTCCTGAGCTCAGGCAAATCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTAGCCAGCCCAGTTTTTAAAAATC
ACACAAATTATCATATTGCACAGAAAAGCAATGTTGAAAATCCTGTGAATACTCTTAATAAATCCTTACAAAATCAGTTGAGCAATTTTTACCACACATC
TTTCCTTTCTATACTGCTTATCACTTCCAGAAACTTTAGTTAATTACAAACATTTCCATTTTTTTAAGTCCAGACTTGCAGATTTTAATTTGCAATATAA
ACAAATTGGTAATATAGAGCCCAATTTTACTGGCAGGAATAGGATTTTTTTTTTTTTTTTTCAAGACAGGGTCTCGCTCTGTCACCCAGGCTGAAGTGCA
GTGGTGTGATCAGGGCTCACTGCAGCCTTGACCTCCCAGGCTCAAGCAATCCTCTCACCTCAGCCTCTCGAGTAGCTGGGACTACGGGGGCAGGCTACCA
TGCGTAGAGATGAGGTCTCGCTATGTTGCCAGGGCTGGTCTTGGACTCCTGCGCTCAAAGGATTCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAG
GCTTGAGCCACCGTGCCAGCCAGGATTCTTAATAACAGTAAAATAAGAAGGATGTAAGCACTACTCTTCCCCAATAACTGAAATCCAAGAGGCACAAAAC
CACATGTAATTGTGTGGTTTTTTTTTTTTTTTTTTTGAGACGGAATC


SNP Information

Context             (SEQ ID NO:24590):
TTACAGTCTCTCAAACACTGTGGTACTTTCTATCTGCATTTAGTAAGGGGGAGAAAAAACAAGTATAAAGTGGACCAGCGCAGCTACTAGTGTTCAAGGG
Y
AACCTTAGTTTACCTATTATAAAACAAGTGACTTAATATATTTAATACCACAAAATAACATATTTATTGTGTAATTCTGAGTTCTCTTGGGAAATAACTA
Celera SNP ID:            hCV25990464
SNP Position Genomic:     8051
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:24591):
CCGGTCCCGTAGCAGGTCGCGCTCTCGGGGAAGGTCGTACTGCGGAAGGGCGTACGCGATCGCGCGGGGACAGCGCTACTACGGCTTTGGTCGCACAGTG
Y
ACCCGGAGGAGCACAGCAGATGGAGGGACAGATCCAGGACGAGGTCGCGGAGCAGAACCCCCTTTCGCTTAAGTGAAAAAGGTGGGTGGGTCATTTACCT
Celera SNP ID:            hCV25940434
SNP Position Genomic:     6971
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,2|T,36)   total(C,2|T,70)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24592):
GATGTATATAATGTGCTAAATTCAAAGTAGCAAATCTGAAGATAGGCAATGTCAAACCCATGAAAATGGGAGATTAATGAGCTTTATTTGGCCGTGCATG
R
TGCCTCATGCCTGTAATGAGGCAGATGGCTTGAGTCCAGGAGTTCAAGACTAGCCTGGGCAATGTGGCAAAACCGCGTGTTTACAAAAAATACAAAAATT
Celera SNP ID:            hCV11645287
SNP Position Genomic:     8547
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:24593):
GGCTAAAGCATCAGAGGTTTAATTTGAAGTTTATGTTCACACACTGAAAACTTAGTTTTTTTGTTGGTAGATCCATGTGCATGCTAGAATTTGGGACAGG
Y
ACTATTTGCATAAAGTATTAAAGTCAATTTTTAAACTAAGCAAAGGTACACGTTGTAACGGTGGGGCATCTGTGAAAAAGATGTCCCTTTCATAATATAT
Celera SNP ID:            hCV11645288
SNP Position Genomic:     9157
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:24594):
AAAGCAGGGACTAAAAGCCCCACTTCGTCTTACGTTCCGAAAGGAAGGCGTCTGTTGAGCCTTTCTCTCAGTCGTGAGGGAGGCGTCGACGGCGTGCGGT
W
AGTTTTCTGCTGACGGGGTCTCTCAGGACCACCGCAGTGGTCTCTCAGGAGTGAGGGACGGGAAACGTGCCGGGCCCCGCGTTTGGGGAACGCAGCGTTT
Celera SNP ID:            hCV27834874
SNP Position Genomic:     6190
SNP Source:               Applera
Population(Allele,Count): african american(A,17|T,9)   caucasian(A,36)   total(A,53|T,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:24595):
ATCCTTTCCGGAGAAAGCGCAGGCTAAAGCCGCAGGTGAAGATGTCCAACTACGTGAACGACATGTGGCCGGGCTCGCCGCAGGAGAAGGATTCGCCCTC
K
ACCTCGCGGTCGGGCGGGTCCAGCCGGCTGTCGTCGCGGTCTAGGAGCCGCTCTTTTTCCAGAAGCTCTCGGTCCCATTCCCGCGTCTCGAGCCGGTTTT
Celera SNP ID:            hCV25991219
SNP Position Genomic:     6592
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,38)   total(G,73|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24596):
GGATTTAGAAACCAAGGGTATGTGTTTTAAAATTACACTTTTTCTTAACCTGTCTAGCTGTCGGAAAAGGTAACAGAAGATGGAACTCGAAATCCCAATG
R
AAAACCTACCCAGCAAAGAAGCATAGCTTTTAGCTCTAATGTAAGTATATCCAGGCATTGAACACTCAAAAATTGGATTTAGGATGTATTTTTGCATCTT
Celera SNP ID:            hCV2509975
SNP Position Genomic:     9907
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;UTR 3


Context             (SEQ ID NO:24597):
GGTCGTACTGCGGAAGGGCGTACGCGATCGCGCGGGGACAGCGCTACTACGGCTTTGGTCGCACAGTGTACCCGGAGGAGCACAGCAGATGGAGGGACAG
M
TCCAGGACGAGGTCGCGGAGCAGAACCCCCTTTCGCTTAAGTGAAAAAGGTGGGTGGGTCATTTACCTTTCCATTTGTGGTAATGTATGGTGGCAGTATA
Celera SNP ID:            hCV25940385
SNP Position Genomic:     7003
SNP Source:               Applera
Population(Allele,Count): african american(A,31|C,1)   caucasian(A,36)   total(A,67|C,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24598):
GGCATGGTGGTGCATGCCTGTAGTCCCAGCTGTTTGGGAGGCTGAGGCAGGAGGATCTTTGAGCCTAGGATGCTAAGGTTGCAGTGAGCCAAGATGGCAC
C
ATTGCACTCTAGCCTGGGCAGCAGAGCGAGACCCTGTCTCAAAAAATACATTTATTTTTTTCATTTTCAGTTAACAGTGTACTCTTATAACACCGTTATT
Celera SNP ID:            hCV26762656
SNP Position Genomic:     8753
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,8)   total(C,1|-,8) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:24599):
TCCTGAGTTGAGGCTTGCGGGATCCTTTCCGGAGAAAGCGCAGGCTAAAGCCGCAGGTGAAGATGTCCAACTACGTGAACGACATGTGGCCGGGCTCGCC
K
CAGGAGAAGGATTCGCCCTCGACCTCGCGGTCGGGCGGGTCCAGCCGGCTGTCGTCGCGGTCTAGGAGCCGCTCTTTTTCCAGAAGCTCTCGGTCCCATT
Celera SNP ID:            hCV25991262
SNP Position Genomic:     6571
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,40)   total(G,75|T,3)
SNP Type:                 SILENT MUTATION;hmCS


Gene Number:                 90
Celera Gene:                 hCG1982192 - 30000034447346
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VUFE(34897184..35135502)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12250):
AATTGGGTCTTTTTTTGATTCACTTAGTCAGTTTTTTTTTCTCTTTCTTTTTCTTTTCTTTTCTTTCTTTCTTTTTTTTTTTTGAGACAGGGTTTTGCTC
TGTCACTCAGGCTAGAGTGCAGTGATATGGTGTTGGCTCACTGCAGCCTTGATCTCTCAGGCTCAAGTGATCCTCCCACCTCACCCTCCTAAGTAACTGA
GAGTACAGGTGCATGCCACCATGTCCAGCTAATTTTGTTTATTTTTTGTAGAGACAAGGTCTTACTATGTTGCCTAGGTTGGTCTTGAACCCCTGGGCTC
AAGAAATCCTCCCACTTTGGCCTTCCAAAATGTTGGAATTACAGGCACAAGCCTCTACACCTAGCCTAAGATTTTTTCTTTTTCATTTATTTTCAAAAGT
TTGCCTGTTATATGCCTTGGTGTGGAGTCTTTGGAGTTCACTCACCTCTCTATATTGTTTATCAAATTTGGGAACTTTTTAGCCATTTTTTGAGTTATTT
TTAGCCTTGTCTTCTTTGCCTTTTCTTTCAGTACTCCACTGACATGAATGTTGGAGCTTTTGTTAAGTTCCCACATGTCCCCAAGGTACTGTTCTTTTTT
ATTCTTTTAGTCTATTTTGTTGCTGTTTTTCAAATTGCGTAATTTTTATTTATTTACTTATTTGTTATGTTTTTAGAGATGGGGTCATGCTCTGTTGCCC
TGGCTGGAGTGCAGTGGCATGATCATACTGCACCATAACCTCAAACTCCTGGGCTTAAGCAATCCTCCCACCTTCACCTCCCAAAGTGCTGTGATTACAG
GTGTGAGCCACTGTGCCCTGCCCAGATTCAGTATTTTCTATTTTTCTTTTAGTTTCCTTATTCTCTTTTTTGACCACTCCATTCTTCTATTTGGGTTTTT
ATTTTGGTTATTGTACTTTTTTCCAAAATTTTCATTTGGTTCTTTTCATCATCTATTTATTTGCTGAGACTTTCTGTTTCATTGCTGAGGGTTTCTATTT
TTTTATTTGTTTCAAGCATATTTGCAATTGCTCATTGAAGCATTTTCATGGTGACTGCTTTAAAATTTTTATCACAGAATTCTAACAGCTCTTTCATCTC
ATTGTTGGCATTGGTATGTTATTTTTTAAATTTAATTTATCTTCTTGGTTATTGGAATAATGAGTAATTTCTTCATATTGAAACTTGAACATTTTTATAT
CATGTTTTGAGACTCTAGAGCTTACTTATTCTATTTTAGCTAGTTTCTCCTGACACTGTTCTGTCAGAGAGAGCATTGGCACTACCTCATTACTGTCACT
TGAAGATAAAGCCCAAGTTTCCCATAGGCCTACATTGACAAATGCATGGACATGTCCTCTATACTTCTAGGTGGGGTGGAAGTTTTGGCCCCACCATGTG
TTCTCCATAGACACTAAGGTAGAGATGCCCTTGTTATCACATGGTGAAAGGTCTTGGCTCTCCACTAAAACCTCCTCTGACATCACCTGATATGGTTTGG
ATATTTGTCCTCTTCAAATCTCATGTTGAATTGTGATGCCTAATGTTGGAGTTGAGGCTATCAGGAGGTGTTTGGGTCATAAGAGTGCATCCCTCATGAA
TGACTTGGTGCTATTCTTGGGGTAGTGAGTGAGCTCCCACTCTGTGAGTTCACACAAGATCTAGTTGCTTAAAAGAGTGTGGTATCTCCTTCCTTTTCCT
CTTGCTCTCTCTCTAATCATGTGATATGCTGGTTTTCCCTTCGTGTTCAGCCATGATTGGCAGCTTCCTGAGGCCTTCACCAGAAGCAGATGCCAACACC
CTGCTTCCTGTACAGCATGCAGGACCATGAGGCAAATAAACCTCCTTTCTTTATAGATTACCCAGTCTCAGATATTACTTCATAGCAACACAAAATGAAC
TAATACAGAAAATTGGTACCAAAGACTGGGGTGTTCCTATAAAGATATCTGAAGATGTGGAAGCAGCTTTGGAGCTGGGTAACGGGCTGCGATTGGAAGA
ATCTGGAGGTCTCAGAAAAGACAGGAAGATGAGGGAAAGTTTGGAACTTCTTAGAGACTTGTTAAGTGGTTGTGACAAAAATGCTGATAGAACTATGGAT
AGCAAAGGCCAAGCTGATGAGTTCTCAGATGGAAATTAGGAATTTATTGGGAACTGGAGCAAAGGTCACTCTTGTTATGCCTTAGCAAAGAACTTGGCTG
CATTGTGTCAATGTCCTGGGGATTTATGGAGGGTTGAACTTAAGTATGATTACCTAGGATATCCAGTGGAAGAAATTTCTTTCTTCTTTTTTTTTTTTTT
TTTTTTTTGAGGCGGAGTCTCGCTCTCTAGCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAAGCTCCATCTCCCGGGTTCATGACATTCTTCT
GTCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCCACCACGGCTGGCTAATTTTTTTTTTTTGTATTTTTTTAGTAGAGACAGAGTTTCACCGTG
TTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCACCTTGGCTTCCCAAAGTGCTGGGATTACAGGCATAAGCCACTGCGCCCAGCCAGGTG
GAAGAAATTTCTAAGCAGTGAAGCATTCAAGATGTGTCATGGCTGCTTCTAACAACCTATGATTAGATATGGGAGCAAATAAATGACTTAAAGTTGGAAC
TTATATTTAAAAGTGAAGTGGAGTGTAAAAATTTGGACAAGTCACAACCTGGCCACGTAGTAACAGAAGGAAAAAGCATTTTCAGGAAATAGATTCAAGA
GGGCTACAGAGAAACCACTTGCCATGGAGATTAGCATGACTAAAAGGGAGGCAAGTGCTAATACCTAAGATAATGGGGAAAAGGCCTCTAAGCCATTTCA
GAAATCTTCCAGGTAGTCCCTCCCATCACAGATCCAGAGACCTAGGAGGAGAGAATGAGTTTGAGGACCAGGCCCAAGGCCCTGCTGGCATGTGAAACCT
TGGGACACTGCTCCCAGGATCCTGACTGCCTTGGCTCCAGCTGGTACAGGTACAGGCCACAGGTACAGCTCTGGCCACTGCGCTGGAGAGTGCAGGCCAC
CATAAACCTTGATGGTTTCCACATGGTGTTAAGCCTGTAGGCGCACAGAATGCAAGTGTGAAGGAGGCTTGGCAGCTTCCACCTAGATTTCAGAGGATGT
ATCAGAAAGCCTGGATGCCTAGGCAGAAGCCTGCCATAGGGTGGAGCTCCTGTAAAGAACTTCTACTAGAGCAATTCCCAGGAGAAATGTGGAGCTGGAG
CTCTCCCACCGAGTTTTCACCAGCATACTTTCTAATGGAGCTGTGGGAAGGGGGCCGCTATCCTCTAGATCCGAGAATAATATGAGAATGCCACCAGCAG
CTTGCACCCTGAGCCTGGAGAAGCTGCAGGCATTCAATTCCAAGCCATGATATCAGCCATGGGTGTTGCACCCTACAAAGGCATGGAGGTGGGGCTGCTC
AATGCCTTAGGAGTCTGCTCTGTGCACCAGTATGCCCTGGATGCAGGACATGGGGTCAATAATTATTTTGGAGCTTTAAGATTTAATGTCTGCCCTGTGT
GGTTTCAGATTTGTGTGGGGCCTGTTCCTTTCTTTTGGCTGTTTTCTCCCTTTTAGAATGGAAATGTTTACCCAATGCAATGCCTGTACCACCATTGTAT
CTTTTTTTTTTTTTAAAATCTTACAGGCTCTTAGGTAGAAGGAACTTGCCTTGAGTCTCAGATGGGACTTGGGACTTTTGATTGAGTTGGTGCTGGAACA
AGTTAAGACTTTGGGAGAACTATTGGTAAGGAATGATTGGATTATGCAATGTGAGAAGGACATGAGATTTGGAGGGCTGGGGTGGAATGATATGGTTTGG
ATATTTGGCTCCTCCGAATCTCTTGTTGAAAAGTGATCTCCAATGTTGGAGGTGAACCTAGTTGTGGGTGTTTGTGTCATGGGGGCGGATTCCTCATGAA
TGGCTTGGTGCTTGGTAATGAGTGAGTTACCACTCTATGAGTTCACATGATATATATTTTTTAAGAGTGTGGCACCTCCTCCCTCTCTCTCTTGTTTTCT
CTCTCTCTTACCATGAGCTATGCTGGCTCCCCCTTTGCTATCAGTTGTGATTGGAAGCTTCCAGAGGCCCTCACCAAAGGCAGATGCTGGCACTATGCTT
CTTACGTAGCCTGGAGAACCGTGAGCCAAATAAACCTCTTTTCTTTATAGATTACCCGCCTCAGGTATTCCTTTATAGCAATGCAAAATGGACTAATGCA
CCACCCCAGCAGAGAGGGGGAGGTGGCACCGTGTTATTTTCTGCACAGTCCAGGCTGTCCACATGGTCTCCTCTGATACCACAACTGTGGAGCTTGCTAG
CAGTTGGGGGAATGAAAGTCTCAGTTTCATTTTTTGGCCTGATCTGATACCACCAGAAGTATTGGGATTCCTCATTAACAGCTTTGCAAGAGCGTTAATC
TAGATTCCCCACTCAACTTTTGCTGGTGTGGGGCCACAGTTTTTTTCTGTGGTGATTACCTGGAGTAAATGATTATCTAGGAGCTTTTTGTCTTGCTAGG
CTGCCTATTTCCTGGTCCTTTGTCTAGAGAAAGCATGCTTTTTTTTTTGAGCTTTTTGCATCAGTACCCAATAATGTTTCTGGTTGTTGGCTTCTTCTGG
TCCAAGTCTGGAATAGATAAGGCAAAAACCCAGAGATTTCACCACTGTGTCAGTCTTCAAAATTTATAACACTTTAAAGTATTTTGCACTTCCAAATGTT
GACAATGTTCTCTAAATCTGCTAACCTTTAGAATGTTTCCAAGTTTAAAGTTTGCTTCACTTTTAGACTAAGAGAATATTCATGTATCTTATGTTGCTCT
ATCTTTTGTAATAAAGTAATTACTACATTGAACTGTTAAAATACATAAACTGCTTGTTAAAAATAAAATAGCTCCATGTTTTGTCTATATCTTAATTATC
AAGTAAACAAGGATTTAGGCTTTCTGATTATGAAGACATACTGGATTAAATAATCCTTATTCACATTAATGTCCTTAACTATTCTTAGTACTTAAAATAT
AAACATTATGGCCATTCCTTTAAAAAAAAACTAGTGATAGCTTATTCTGATCACATTTCTTAGTCAAACTAAGATGTAGCTATGGGATTCTGATTATGAA
TTGGACTGAAATTGAAAGAGAGGTTTATTAATAGGTAGGTTATTCTCAAATTATTTTTTAAATATATCTTTGCATTAGATTTACATTTTTCTTTTGACTA
TGGATTATATAAAGATTCTCAGTACGTGTCTCTGATATTGCGATTCAATATCCATATGATTTTTGTTGTAATATGACAATGTTTGGTCTTGATAAGAAAA
AAGCATGGATGAAAATTTAACATAGGAATAAAAGATCTAGTGGACACCGATTCAATTAGGAATACTGAGTTTTGGAAGTCAGAGTTATAAGTTCAATACT
TAGGTCATTATGTTATATAACAACAAGGGAAAATGTCACAAATATCTTTATTCTAACAGTTAAAGTATCAGAAAATGATGAAGTTGTTCATACCACATTA
AAGGAATTTTACATGTGTTCAGAAATTTTCCAAAAATGTCATCTGTAAGTACCTGATAACTATATATACATGTGCATATGTACGTGTGTGTGTATAATAT
CATTTAAAAAAAAACACCCAAGCTATCCTAGAATAAGGTGAATCATATCAGTCAAACTACCTTATTTTAAAACTTTGACATTCAGTTGCAAATATTTAAT
AATAAAAATATATAAGCTGATAAATCGTTTTAAATAAAATGATGTAAGGAGAGGTTAAGTAGATCTTAAAGTTTCTAATTCAATTGTAATATGTTTGTAA
TCATTACTAAAAGAAAATACTGGATTACACACTCTCCAATGAGATTTGAAATGTCCTGGGTCTTAAAAGGACATAAAATTGAAAATGATTGCATTTAACA
AATTRCAGACRGATATAGATTGCATTTKGAAAATCAACGAATGGATCTAAARTTTACATTGGCCACATGATGTCGCTGTACACCACAAAGTCTTGTCAAT
AGAAGGGAGCTACTGATCACTAAAAGTGAAGGAGGAAGCTCCATTTTGTCACCGCCTGAGAGAAGACAGAAACGGTAAAGAGATAAATGATTGGAAATAT
TAGATAAAATGGCATGATTTTGAAGTAAGAGGAGAGCATAAGAAAGGTGTAGTCYTTTTGCAATGGTGTTTTCTAGGAGAGGGGGCCTGGGAGCCCGGGA
TCTGCTTCTTTGGCTTCTGCTCCTCGCAGCCTGGGAGGTGGGGAGCGGCCAGCTCCACTACTCGATCCCGGAGGAAGCCAAACACGGCACCTTCGTTGGC
CGCGTTGCTCAGGACCTGGGACTGGAGCTGGCGGAGCTGGTGCCTCGCCTGTTCCGGGTGGCGTCCAAAACACACAGGGACCTTCTGGAGGTAAATCTGC
AGAATGGCATTTTGTTTGTGAATTCTCGGATCGATCGCGAGGAGCTGTGCCAGTGGAGCGCGGAGTGCAGCATCCACCTGGAGTTGATCGCCGACAGGCC
GCTGCAGGTTTTCCATGTGGAGGTGAAGGTGAAAGACATTAACGATAATCCACCCGTCTTCAGGGGCAGAGAACAAATAATATTTATTCCTGAATCTAGA
CTCCTGAATTCGCGTTTTCCGATAGAAGGAGCTGCTGATGCAGACATTGGTGCTAACGCTCTTCTAACGTACACGCTCAGCCCGAGTGATTATTTCTCTT
TGGATGTAGAGGCAAGTGATGAACTGAGTAAATCTCTTTGGCTTGAATTGAGAAAATATTTGGATAGAGAAGAAACACCAGAACTTCACTTATTACTGAC
TGCCACTGATGGGGGCAAACCGGAGCTGCAAGGTACAGTTGAGCTGCTGATCACCGTCCTCGACGTTAATGATAACGCCCCACTGTTTGACCAGGCCGTA
TACAGAGTCCACTTGTTAGAGACTACAGCAAATGGAACATTAGTGACCACATTAAATGCCTCTGATGCTGACGAAGGTGTAAATGGTGAAGTCGTCTTTT
CCTTTGACAGTGGTATTTCTCGTGACATTCAAGAAAAATTCAAAGTTGATTCCAGCTCAGGAGAAATTAGGTTAATTGATAAACTGGATTATGAAGAAAC
AAAATCCTACGAAATTCAAGTAAAGGCAGTTGATAAAGGAAGTCCTCCGATGTCAAATCACTGTAAGGTTTTGGTGAAAGTGCTGGATGTAAATGATAAT
GCTCCAGAACTGGCGGTCACTTCATTGTATTTGCCTATCRGAGAGGACGCTCCACTCAGCACCGTCATCGCCCTCATCACCGTGTCTGACCGTGACTCAG
GTGCCAACGGGCAGGTGACTTGCTCCTTAATGCCCCACGTCCCCTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGTTGGACAGCGCCCT
GGATCGCGAGAGCCTGTCGGTCTATGAGCTGGTGGTGACCGCGCGGGACGGGGGCTCGCCTYCGCTGTGGGCCACGGCCAGGGTGTCCGTGGAGGTGGCC
GACGTGMATGACAACGCGCCTGCGTTCGCGCAGCCCGAGTACACAGTATTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCTGCGC
GGGACGCGGACGCGCAGGAGAACGCSCTGGTGTCCTATTCGCTGGTGGAACGGCGGGTGGGCGAGCGCGCGCTGTCGAACTACGTGTCAGTGCACGCGGA
GARCGGCAAGGTGTACGCACTGCAGCCCCTGGACCACGAGGAGCTGGAGYTGCTGCAGTTCCAGGTGAGCGCGCGGGATGCGGGCGTGCCGCCTCTGGGC
AGCAACRTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCSGGCGCTGCTGGCGCCTCGAGTGGGTGGCACTATTGGTGCAGTCAGTGAGC
TGGTGCCGCGATTGGTGGGTGCGGGTCATGTGGTGGCGAAGGTGCGCGCAGTGGACGCCGACTCGGGCTACAACGCGTGGCTGTCCTATGAACTGCAGCC
GGCAGCAGGCGGCGCGCGCATCCCGTTCCGCGTGGGGCTGTACACGGGCGAGATCAGCACGACTCGTGTCCTGGACGAGGCTGACTTGTCGCGCTACCGC
CTTCTGGTGCTAGTGAAGGATCACGGTGAGCCGGCGCTGACAGCCACGGCCACTGTGCTTGTATCTCTGGTGGAGAGCGGCCAGGCGCCAAAGGCGTCTT
CGCGGGCGTCGGTGGGTGTCGCGGGCCCAGAGGCGGCGCTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGCGCGGTGTCCAGCCTGCTGGTGCT
CACACTGCTGCTGTACACGGCGCTGCGGTGCTCAGTGCCGCCCACTGAGGGTGCRTRTGTGCCGGGCAAGCCCAYTCTGGTGTGCTCCAGCGCGTTGGGG
AGCTGGTCGAACTCACAGCAGAGGCGGCAGAGGGTGTKCTCTAGCGAGGGCCCACCCAAGACCGACCTCATGGCCTTCAGCCCAGGCCTATCTCCAAGTC
TTAACACGTCAGAAAGAAATGAACAACCAGAAGCAAATTTGGATCTTTCTGGTAATGTAAGTCCAACTTTCGAGTTTYGGCTTTAAATATTTTTCATATT
TAACTTGTCTAATCATCTTTTCAAATATCACTTTAAAAAATGTCTTCAAGGTGTTCACTAACGTTGAAATAAATCATACCATTGAATGTAGATATCCTAT
TAATGGCAGTTTTGTCTTGAATGGAACTAGAAAGCAAAGAAAAATGTAGGGACAAATTGTCGTATTTCTTGATTTAAATGGCAGGTTAAAAAAGCTACAA
TACAAGGTACAATAAAAGGTAATGTTGGTCATATTTAACACAATATCTCAATGTAGTAAAATAACAGTGACATATTCGGGGTAACTTATTATGTTATCTT
TTCTGGTGAAATGTCAAGCCCCGGACAAACAATTCTTGACAAAGTTACAGAAATCATCTGCCTTCCCTTTACGTGGCTAAGTTTCAAAGTGAACAATAAA
CTGAAGTTTTAAGCAAACGTAATTTAAAATACATTTATTGGCTGGGGGCGGTGGCTTATGCCTGTAATCCCAAAACTTTGGGAGGCCGAGGAGGGCGTAT
CACCTGAGATCAGGAGTTTGAGACTAGCCTGGACAACATGGTGAAACCCCGTCTCAACTAAAAATACAAAAACATTGGCCAGGCCTGGTGGTGGGCGCCT
GTAATCCCAGCTAATGGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGTAGTGAACCGAAGTCGCACCATTGCACTCTAACCTGG
GCGACAGAGTGAGACTCTGTCAAAACAAAAACAAAAACAAACCAAAACCGACCAACCAAACAAACAAAAAACACCATTTATTGGGCGATTTGTTTAATTT
CTTTATGAAAACATACAACCACGACTTCATTGTCATTGTGAACAATTTCCTGATGCCATTAACCTTGAATTCCCCTGGGTCTAGAAGGCTTAGCATTGCA
TGTATTTGCTATTTCGGGGATCCAGTTAGGAAACACTTATTAAGCACCTCCCATTCCTCCCATTCACTCACAAATGTTCTAAAACSCTTTACTTTTTTAG
CTCATTCGATCCTTCCAACGATTTTATGAAGTGAAGACTTTMGTCACATTTTGTGGATAAAGGTGCTGAGGCTCGCAAAACCTAAGTTCAGTATTATTAC
TAAGTTTTCTTCAAATTTCCCGAGGATATCCAAAAACTTGCTTGCTGTTAATACAGTTCTTTACCTTTCCTAAAATGTTTAAGGTGGCTTACAGTGGAAG
AAATTTGTGAAAGCAAATTATTAAAAAATCTGCTTAAGGTCAAAGTAAAAGATCAAGAGAAAGGTGGGAGTCATTATTTCAAAAATCAACCCTAGGCTGA
GTGAAAATCCCAATACTTACCTTCCTGTAAGTCAATATAGAAGTATGAAAAAATAACAATAAAAGGAAATTCTCTATACCATTTCTTCAAGAGAGAAAAA
ATAGCCTCTTCCTGCTGCAAAATCAAGGAAGATTTGATTACTGATGATTGTGTAAAGGTTGAGAAATATACTGGGCAGCACGTTTTATAGCAGTTTTGCA
AAACCCACGGAAATATCCTTGATGTAGACATCATTGTRTTTGGTAGTCATTCAGTCAAGGGCATAATGTTAAATTTTATTTCCTATGTTTGCTTCTGAAG
TTACTTAAATATTAAATGAATATATTTTTGTTTGTCAAACTTTCAAACATACATGAATGTCCCCTTGTGAAGACATTCTATGAGAAATTAATATAATTTG
CTAGTTAAGTTTCCAGAGATTTGAGTTGATACAGAGTTGTTGCTTAGAGTATTGTAAAAAATAGGCTGTAAACATGTTCTGTAACTTTTAATATATTATC
GTACTCAGCCTTTTGGCAAGAATCAGAAAAAAATAATCTTAGCATCACGTTGCCAAGAAAATGTCCCAGTTCCTCAAAATATGAGACAAACTTTGCAGGA
TTATAAAATTGGAAAAAATAGATCAGAAAATCACAAAATAATTTCTCTTTCCAAYTCACATTACTGTGTCCCCAAAGCTTCATTTGCTAACAGTATTAAT
GGCCAGGCTTAGGATTGCCTTTACATACATTCAATATTTCTTTATTTAGTTTTCTAGGTTAGTTGAGTGTATTAACCTGAAGGTGAATCACAAATAATAG
TGAATTACTATTAAACCAAAAATAAATGGGCGTAGGAGTACAAAATTTGAAAAGTAATTTTTATGAAAAGGTAATTCTAGAATGGAGGAAAAAATGATTG
TGGAGTGGTATTGTCACTTAGTGTTTATTTTAATGTAAATATGAATGGATTTCCCATTGGTAGTTAAAGTTCTTGCTCCATTCCAAATCTTCATATAGTT
AACACAACTTTCAACAGGTTTATCTTTCTTCACAAGATTTCTTCCACAAACTAGTAAGGTATCATTTGAGGGACCTTAGAGACTTGTGGTCAGTGAAGGA
TGCAAATAGATGAAAATGAGAAATAGTTTATATTGCTAGCCACTACCGATATTCCTCTGAGAATGCTGGAGGATTTCACTTTTCTGTTATTTTGAGGTAG
CACGATTGTGTAATTTCCTTTGGCCAATGAAATGTGAATGGTGTGTCACTTCCAAGCAGAATTATGTAACTGCCAGTGAAAGACTCTTCTGCTATCTTTT
CCTGTTACAGCAATTACATAAGCACTGGTTGATACTGAGACACCATAAAGTCAAAGCAATCCAGGATGCTGAGCCAACATGTGGAGAAAAGCTGTCATAG
GAAGTCCCCAATAACTACAAAGGACTCTGCAGCAGCAAGAAATAAAATTATGTTTATTTTAGAGGAAAAACTGAATGTTAACTCACAACAGCATATGTAT
TGAGGTCCCACTGCCATTAAGCTAATATGAACCAGATAAATTTTAAGAGGGGGGCATTTTTTTTTACAACAGGAAATACAATTGTAGGAGAACATTATTG
TTGACACTTTTTACTAAGACATCTGACCGTTAAGCAGATTAGATAACTTGAATTCCATGGAAAAAATCTACTGTGTTTTGATTTCTTTTTCTTAAATATA
AAAGGTAGCAGAAGAAAAATAATAAACTGAAATTTAAAATGTCATAGATATTCCTTCTTTTTTCTTGCTTAGCATCCACTCCCCTTGTTGTTTTTTTCTT
CTGGGGTCTTCTAGTAGTTTTGTGAAAGATTAGGTTGAAGGTTTTGCAAGAATGAGTGCTTGGACATGTAAACGTTAAGGGATATACAGTTCCATAGATA
GGTGCAAAGGGTATAATTTTAGCAATGGGTACTATATTAATTTCCTTGGGCTGATGCAACAAATTACCACAGACTTGGTGGCTTGAAATAACAGAAATTT
ATTTTCTTACAGAGTCTCTGTAAGAATAAATTTCTTCTCTCTTATGGAGGCCAGAAGTCCAAAATCAGCGTGTTTCCTGGGCCGCATTTCTTCTGAAGAC
TTTAGGGGAAATTTTTTTCTTGGATCTTCCAGCTTCTGGTAGCTCTTGGCATTGCTTGGCTTGTGGCAGCATAACTCYAGTTCCTGCCTCTGTCTTCACA
TTTCCTTCTTTCCTGTGTTACTATATGCCTTCTCTTTTTCTGTCTTTTATAAGGGGCAACCATCATTGGATTTATGGCCTTCTGTAATCTAGGATGATCT
CATATCAAGATCCTCATCTTTGTTACATCTGCAAAGACCTTTATTCCAAATAAGGTCACTTATTTAAACCTCAGAAAAGTGATGTCTTTTGGGGTRTCTT
TGACCCAAAACAGGTACCAAGAGATATCAAGTGCAGTGGGAGGAAGGATATTTGCTGAGCATGGCTTCTTAATCTCTTTTCCCCGTTGTGGGGGAAATGT
ACTTGCATATCTGGCAATAGTATTCTATCTCCGGGGGAAGGGGGAAATATTCCATATTCTCAGAAATCCTAAATAACAGCACAAAATGCCTCTTATACCC
CCACATATGTCATTCTGAATATCCGGTATAATTAATTACCTTATATGATTGCAGAAATTGTCTCAAGCAAGCCATGTTTCCTGAAGCTAGCATCTGGATT
CTAGGTATAATTCCTTCTATGTGTCAACAGTGGTCAATGTTGGCTATAGATTAAATAATAATTACTGGGTATCATACATATGCAATTGCTTTGCAACTAC
ATAATGCTGTAACGAGCAGTTCTGAAGCTATCTGCCATCTGTTTAAGCTCCAGGAGAATTTGGGTACATGCCATGACCTCCACTTTTCAGTTCACATAAA
AACCAACCTCCCACTTTTCAGTTCACATAATTTAGGTGGAGCTGATTTCATTTCCTGGCTTCAAGAATGAGCAAGTGGACCCATGTCTAGCCAATGTGAG
AAAAATCACAATTATTGACTAAAGGAAATTTACATCATCCAAACTGGGCTGTAGGAAGTAATATCCAGGATTTTTGCTGGACTATTAGAAAAGAGCACTT
TCTGGTAAGAGTCATCAAACTGGTAATTTTTAGTCTAGAAAGCTACTTTGGCCATTTTGCCAGCAGATGGGAAAAGTCTATCTGAGAAGAAGTTCAGCAG
GGGAAAAGGAATTATAAATGTGGAGATTATTTTCCTTATGGAATTATGGAAGGGTGTAGACCCAGCTCTGTCTGAAACCAGTAATTAATTACCCATTTCC
ATGTAYGAGTCAGTACAGGATTCTCTGGTTTATTTTTGCTTAAATCGGTTAACTTGGGATTTACTGTTAGAGTATGATTAACATAAATACACATTTCCAT
AGATGGTACAAATGAGTATCTTAAGATACTGTACATGAGGGAAAAAAATTGTTATTGGAAAAAAAGCTAGCTTTTCTTAACAAGAGCTTTGCTTTTCTCT
TACGGACATTGCAAATTTTGCAATTAATTTTACTTCTCTCTTTGCTCTAGGAAGCTGAAAACAAAATTGGTGACATGGTTAGAGTAACTGAAGGTGACCC
TTTATTATGGATTTTGTATGCTATCCCACTCCTTGATTCATTTTATTTCATCCTCATCTTATCTTTATTCTATTTTCATTTTTTTACTGTGAAGGGATCA
GCTAAAAATTAACAAAAGAAGATATTCTCAAGTAATTAACACAAAAAAAGAGATCGATTGTATTGTTCTTGCATAAAAGTCTAAATGTAATGGAAAAGGA
ATATTCTAAAGTAATAGTACATTATCCAAATGAGAAACAAATAAATTATTAATTTCAAAACATTTGCAAACAATTCAAAAATCAAAATTAAATCACAAAA
CAACAGTATATATACACATATATTTTCAATGGACTAAAATACCTTTGATTACTATGTTCTTCATTTGAAGAAATAGTGAAAAATRCTAATATATCCAAAA
GAATTGAAAGCAGGGTCTCAAAGAAATATATGCACACCCATGTTCATGGCAGCACTGTTCACAACAGTCAAGAAATGGAAGCAACTCAAATGTCCACGAA
TACTTGAATGAATAAACAAAACGTGGTGTATACATATGTTGGACTATTATTCAGCCTTAAAAAGGAAAGAAGTCCTGTCACATGTTACAATATGGATGAA
CCTTGAGGAACCATCCACGGATGCTTGAATGAATAAACAAAACGTGGTGTATACATACGATGGACTAGTATTCAGCCTTAAAAAGGAAATAAATCTTGTC
ACATGCTACAACATGGATGAACCTTGAGGACATTGTGCTAAGTGAAATAGGCCAGTCACAAAAAGACAAATACTTTACGAGTCCACTTACACGAAATATC
TAAAGTAGTGAAATTCATAGAAATAGAAAATAGGACTGTGGTTACCAGAGACTGGAGTGACGGTGAAAAGCGGAGTTGTTGTCTAATGGGTATAGAGTTT
CTGTTTTCCAAGATGAAAAATTTGTAACAATGTGAATATACTTAACATTACTGAAATGTACATTTAATCATAGTTAATATGGTAATTTTAAATATTATGT
TGTGTGTTTTTTAACCAGAGTAAAAAAGGGTAAAAAGGTAATATATTTTAGGGCTTAAAATAGTTATTTTTTTCCAAGATGAAAGCTATGAGTAAACTTA
AACCAGAAAATCGACTAGTTTTAAATCTACAGAATAAACAGTAGAGCCTTCCTTTTAGCCACATGATGTCGCTGTCCACCATAGMGTGTTCTCTAGGAAG
GAAAATACCCAGAGCCCCTTTGTTACTTCAGAGAAGCGGAGGAATAAGAGAAGCAGCAGGACTTTAACAGAGACTAGAATATTTAAATTTTTGCAAAACA
TGCTCTTCTAATTTGATCAAAACATTGAGGATTGGTAATGGCGTCTTCTATCAGAAGGGGCCGAGGGGCCTGGACACGGCTGCTCTCGCTTCTGCTCCTC
GCAGCCTGGRAGGTGGGGAGCGGCCAGCTCCGCTACTCCGTCCCCGAGGAGGCCAAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGG
AGCTGGAGGAGCTGGTGCCGCGCCTGTTCCGGGTGGCGTCCAAAAGACACGGGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTC
TCGGATCGACCGGGAGGAGCTGTGCGGGCGGAGCGCGGAATGTAGCATCCACSTGGAGGTGATCGTGGACAGGMCGCTGCAGGTTTTCCATGTGGAAGTG
GAGGTGAAGGACATTAACGACAACCCGCCAATATTTCCAATGACAGTAAAGACTATSCGGTTTCCCGAATCAAGGCTGCTTGATTCTCGGTTTCCTCTAG
AGGGAGCATCTGATGCAGATATAGGAGTAAATGCTCTTCTCTCCTACAAGCTCAGCTCCAGTGAGTTTTTCTTCCTAGATATACAGGCAAATGATGAACT
AAGCGAATCTTTGTCTCTCGTGCTGGGGAAATCGCTGGACAGAGAGGAAACTGCTGAGGTTAATTTGTTACTGGTGGCTACTGATGGGGGCAAACCTGAG
CTCACGGGCACCGTTCAAATACTTATTAAGGTATTAGATGTAAATGACAATGAACCAACTTTTGCCCAATCAGTTTACAAAGTAAAATTGTTAGAGAATA
CGGCAAATGGGACCTTAGTGGTTAAGTTAAACGCTTCTGATGCAGATGAAGGACCGAACAGCGAGATTGTGTATTCACTCGGTAGTGATGTGTCCTCCAC
TATACAGACTAAGTTTACCATAGATCCCATCTCAGGGGAAATCAGAACTAAGGGAAAATTAGATTATGAAGAAGCAAAGTCCTACGAGATTCAGGTCACT
GCAACTGACAAAGGAACCCCTTCAATGTCAGGACATTGTAAAATTTCATTAAAACTTGTGGACATCAATGATAACACACCAGAAGTCTCAATAACGTCTC
TCTCACTTCCCATCTCAGAGAACGCTTCCCTGGGCACTGTCATTGCTCTCATCACGGTGTCGGATCGCGACTCTGGTACGAATGGACATGTCACCTGCTC
CCTGACGCCCCACGTCCCTTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGCGCCCTGGACCGCGAGAGCGTGTCAGCCTAT
GAGCTGGTGGTGACCGCACGGGACGGGGGCTCGCCTTCACTGTGGGCCACCACCAGCGTGTCCATCGAGGTGGCCGACGTGAACGACAACGCGCCGGCGT
TCGCACAGCCTGAGTACACRGTATTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCAGCGTGGGATGCGGACGCGCAGGAGAACGC
GCTGGTGTCCTACTCGCTGGTGGAGCGGCGGGTGGGCGAGCGCRCGTTGTCGAGCTACGTTTCGGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAG
CCGCTGGACCACGAGGAAGTGGAGCTGCTGCAGTTCCAGGTGAGCGCGCGGGATGCGGGCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCG
TGCTGGACGAGAACGACAACGCGCCGGCACTGTTGGCGCCTAGGGCTGGCACCGCTGCTGGCGCAGTGAGTGAGCTGGTGCCGTGGTCGGTGGGTGCAGG
GCACGTGGTGGCGAAGGTGCGCGCAGTGGACGCTGACTCAGGCTACAACGCGTGGCTTTCGTACGAGCTTCAGCTGGGTACTGGCAGCGCTCGCATCCCG
TTCCGCGTGGGGCTATACACGGGTGAGATCAGCACGACACGTGCCCTAGACGAGGCTGACTCCCCTCGACACCGCCTACTCGTGCTGGTGAAGGACCACG
GCGAACCAGCGTTGACAGCCACGGCCACCGTGTTAGTGTCGTTGGTGGAAAGTGGCCAGGCACCCAAGGCCTCGTCGCGRGCGTGGGTGGGCGCCGCGGG
CTCAGAGGCTACGCTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGCGCGGTATCCAGCCTGTTGGTGCTCACGGTGCTGCTGTACACTGCGCTG
CGGTGCTCGGTGCCACCCACCGAGGGTGCGCGCGCGCCAGGAAAGCCCACGCTGGTGTGCTCCAGCGCCGTGGGGAGCTGGTCTTACTCGCAGCAGAGGC
GGCAGAGGGTGTGCTCTGGGGAGGACCYCCCCAAGACGGACCTCATGGCCTTCAGCCCTAGCTTATCTCAAGGTCCAGACTCCGCAGAAGAGAAACAGCT
CTCAGAATCAGAATACGTAGGAAAGGTGAGTCTTTTACTTTTTCTTGCCAATTCTAAAATTGTTCTTTTTAAAAAATTCTATATGATTTCTACTAGTTAT
TTAGATTCATAGTTCTTCATTTATTTTATATCATCCTACCGTGCGATTTTGAATATGAATTAGAGATCAATTTATTGCATTTACTGAACAATTTATTTAA
ACAATCTACATAACTGTTTTCTTATTTTTACATTTTGGCACTTCCATCATTAAGTCATAAGTAATAGACCATGAAACACTGAAAAACACCTCAGCAAAAT
TTGTAAATTAAACATTTCCCATAAATATTTTCTCTCTTAAAAATTGAAAATCACAATCGGAAGAAATTAAAGAATTTGATTATATAATACGTATTTTCAA
CTGACACTGTCTATCCAATCTGTCGGATAGTGTTTGGAATAACCTATATCCTGGACATTTCTTAGATTGTTCTTTGGATCAACAATGCCCTTGTCTATGC
AATAGTTAATAAGCTACATTTTTTKTTTGTTTGTTTGTTTTTGTTGAGACAGTCTTGCTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCA
CTATAACCTCTGCCACCCGGGTTCAAGTGATTGTCTTGCCTCAGCCTCCTTAGTAACTGGGATTACAGGCGCCCACCACCACGCCCGGCTATTTTCTTTT
TTAAATTTTTTATTTTTAGTAGAGACGGGGTTGGTCTCAACTAAATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCCACCCTCCTAGGCC
TCCCAAAGTGCTGGGATTACAGGAGTGAGCCACTGCACCTGGTCTTTTTATTTGTATTTGAAAGCAGCCTGAGTGGATATTTTAACACCAGAATTTCCAA
AAGTATGTAGCACAGGTTGTTACAACAAAATGACAGCACTTAGGAATAACTGCTAATCTTAAGTATGTTTTTTATAAGTAAAATAACCCATTATTTGGTA
TAAAGATTTCACACTGATAACATTTTTGAGTTATCAGGCAAAAATAGAGAGTATTGAGAAAAGAGACCCTCTCAATTTTGTTTAATTTGAAAATATTAAC
ATTTAAAAATCACACTGGGGTTTTTCAGGYGGTGGGACTTTTTCTTCATTTAAGTGGAGACTACCCAGTCTTTATGTTAATSGTTGATAAATCATCCTTT
CAGTATCATTATCATTAGGCCAATGTGTGCAGGCCTCCCACTGCAGAGATTGAYTACTTTTTTCTGGCATCTAATTCTATGCGTGGGAATACATTTTCCA
TTAATGTGAGCTCACTCAATTTTACCTGGAAGCATCCATATTCCTAATGAAATTGGAATTTTTCCAAAAGATGAGGCCTGGTCTTGGATGACTACATTTT
CACTTGAAACATTTATTTTGGGTAATTRTAACACYGAACTCGACAAGTAAATGTTACACTTGGAAAGAACTTTTTTAGCTTTTCCAACCAAAGGCAGATG
TATTGCAATAAAATAACTGTCTTAAACGGTCCTCTACTATTTAGTTCTTAGTTATTTGCTGTTTATTCTAAATATATGTGCATATTGATAAATCATAGAA
ATAACTTCCACTAGTGATCTTACCTTTAGCCATTTCATAGTTAGGTCAGAATATCCATTTCCAAGTAATACTTGACCACTATGTTTCTACCATAGGTAAA
TGATAAGCTTCTAAAATTATATTCACATATATCCAAATCTCCAGGAGTCACAATCTGTTGCTCTATAAGTTTTTTCAAAACATTCTTATTTACATTTTTT
CTTGGTTGTCTAAGTGACATCTAGGTGGTAGTAGAAATTATTCACTGATACTTTATCTACAAAATGGCTCAATCTTCTAAACTCATAGTTCCTTTAATAT
TACCTTTATCTCTTAATAATCAGTATGGAGTCTACTCTGCTATAAATTCTCATGTGACATTCCATTTTGCAATTAGTATAACTCTTAAAGGTACTGAAAA
GTGCAGTATTACAATAAGTTGTCAAAGGCATCTCATTACTATGAAGTCCATGAAGTTTAAAAATTTTAAATTTATCTCTTATTTTCAAACTAGCTACCAT
CTTTAAAAATTCAGCAAAGTGGTAACTGGAATATTAATAGCTATAATTATTTCTTAGGTCCATGCTTTTCAGAAATAATGCTTAAATGTTTACTTACTTC
TTCATAATATAGCACAATATAATCATTTAGAAATTATGTAAGTTTGATATTAACAAATATCATTAACTTACATTTTTATTTATCTTGCTTGAAAAAGTTA
ATTCAAAATATTAATTTATTTATTCATGAAAACAACAATTGATAATTTATCCTATTCTAAATATGAATGATAAAATCTGAGTAAGTTGCAGTCCTGGCTT
CCATTTCATGAATACACAGGAAACAAAAGCTGAAATGAAAACTTTTCCCCTAAATATTTAAATCACATGTTTGATTTCATTTTTAAATGGTCTGGGTATA
AGCAAAAATTTGTACATTATTTTATTTCTCTAAATTTGACCTCTTTCCATAAATTTTCTTTGCCCCACTTCCAAATGCGGCGAGAATTCATGCTTCTCAT
TGAATTCACAGATATCTTTAGAATGTTTTATTGCTTAGTGTTAAATATGTTGAGTAAATACTGGCTTATGTTCCTAGGTTACTTTTCTCCCTTCACTGTT
TAGTTAAATAATCAATTCTTTCAAGTAACAACTTTTAAAAAAACTGGAATCTAGAAATTCATCAGGAGTGGAGATCATCAAAAACGTAATTACTTTATAT
TGTTAACATTTTAGTATATACAGGTAAATTCAAATACATAAAGAGTGTGGAAAAATTAAACCTAATATATTCTTAATTGATGTGATGTGAGTGTAACAAA
TATACAAATCACATTCCCACAATAGGAAACAAATTTCCTGTTTGAATTTCTCTGTAAAGGACCGACTTCTGAAATCTTTATGTAAGTTACAGTCAAGACA
GTTGATGAGGCTATAGTTCTTGAAAAAGGGGCATGGGAGGGAATTACAGACATTCTACAAATTTAAAAAACCATAAATGTACATATTTTAAGAAATTAAC
AGTTGCTGTAATAACATAAAAGTAGATATATGTATGTTTTAATATATACAGCACACACACACTTTTAAATACTTCAACATCTCAATGTTTTGATGATCAT
AAATCTGAAAGGATCTGATTTTTCTATAAAATGTAACTTGGGTGGTRAAGAGGTTAATGGTAAGTTGTCTTGAATCAGATTGAAATCCCATCGTACCAAG
AGATAATATCGTTTTACTTAACCTCTATGTGTTTATAAAAAGCGAATAATATTAAAACTTATTTCAGAGGATTGTGATAATTTAACGGGATAATTCCATT
AAGACAAATAGAAAAGTGGCTGTCACATGGGAAATATTTCCAATAGATGTCCACTGTTAAAACAGGAATCACAATATTTTAGTGTATGTCATGAATTAGC
ACAATTGATAGTGAATTAGTATAAAAGTTCTAAGGAAAKATTTAGATAAAATATAAGGACTTTGAGGAGTGACCGAAGGATATTACAATTGAAACTAGAA
ATTTTGGGAAAGTTCAAACGACATRCAAGGAAAAGAAGATACGTTTACRTATTTAATASTTACACGTTTAGCCACATGATGTCGCTGTCCACCACAAGGT
CTTTCTCCACAAAAGAAATAACAGCGTGCATTACGTATTCAGATACTGCTTTGCTTCATCCTCTCTAAAATTTAACACCGAGGAGTTTAAGAAATGAAGA
TAAGGAACTCGAATTATTTTTAAAYTTTGGATCAATGTAAAGGCAATCTAATATTTGGAAAATACTTGCAATGTTGTTCTCCTGGCGAGAAGATCCTGGA
GCCCAGTGCCTGCTGCTTTCTCTTCTGCTCCTCGCAGCCTCGGAGGTGGGGAGCGGCCAGCTCCACTACTCCGTCTCTGAGGAGGCCAAGCATGGCACCT
TCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCMGCGCCTGTTCCGGGTGGCGTCCAAAAGACACGGGGACCTTCTGGAGGT
AAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATAGACCGCGAGGAACTGTGCGGGCGGAGCGCGGAGTGCAGCATYCACCTGGAGGTGATCGTG
GACAGGCCGCTGCAGGTTTTCCATGTGGAGGTGGAAGTGAAGGACATTAATGACAACGCGCCAGTTTTTCCAATGGCTGTRAAGAATCTGTTTATTTCCG
AATCCCGACAGCCTGGCTCTCGGTTTTCGCTAGAGGGCGCATCAGATGCAGATATCGGAACAAATTSGTTGTTGACTTACAGTCTTGATTCCACTGAATA
TTTTACCTTGGACGTTAAAAGAAATGATGAGGAAATTAAATCCCTTGGACTCGTGTTGAAAAAAAATTTAAATCGAGAGGACACTCCTAAGCATTATTTA
CTAATAACAGCAATTGATGGTGGGAAACCAGAGCTCACTGGCACGACTCAACTAAAGATCACTGTTTTAGAYGTAAACGACAACGCCCCAGCGTTTGAGA
GGACGATCTATAAAGTCAGATTACTCGAAAATGCACCAAATGGTACCCTAGTGGTGACCGTTAACGCCACCGATTTGGATGAAGGAGTAAATAAGGATAT
CGCGTATTCTTTCAATACGGACATGTCAGCAGATAYTCTGTCAAAATTCCATTTAGATCCAGTCAATGGACAAATCAGTGTAAAGGGTAACATAGATTTC
GAGGAAAGTAAGTCATATGAARTCCAGGTAGAAGCCACGGATAAAGGAAATCCCCCAATGTCAGATCACTGCACAGTTCTACTCGAAATTGTGGACATCA
ATGATAATGTACCTGAGTTAGTTATTCAATCRCTATCTTTACCTGTATTAGAAGACTCTCCACTTAGCACAGTCATCGCYCTGATCAGCGTGTCCGACCG
CGACTCAGGAGTCAATGGACAGGTCACCTGCTCGCTGACGCCCCACGTCCCCTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCATTGGTGCTGGAC
AGCCCTCTGGACCGCGAGAGCGTGTCGGCCTATGAGCTGGTGGTGACTGCTCGGGACGGGGGCTCGCCTTCACTGTGGGCCACGGCCAKCGTGTCCGTGG
AGGTGGCCGACGTGAACGACAATGCGCCGGCATTCTCGCAGTCCGAGTACACGGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGT
GTCTGCGCGGGACGCGGACGCGCAGGAGAACGCCCTGGTGTCCTACTCGCTGGTGGAACGGCGGGTGGGGGAGCGCGCGCTGTCGAGCTACGTGTCGGTA
CACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTCCAGGTGAGTGCGCGCGATGCGGGCGTGCCGC
CTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCCGGCACTGCTGATGCCTCGGGTGGGTGGCATCGGTGGCGCAGT
GAGCGAGCTGGTGCCGCGGTCAGTGGGTGCGGGCCACGTGGTAGCGAAGGTGCGCGCAGTGGATGCAGACTCAGGCTACAACGCGTGGCTTTCGTATGAG
CTGCAGCCTGGGACCGGCGGTGCGCGCATCCCGTTTCGCGTGGGGCTGTACACGGGAGAGATCAGCACGACCCGTGCCCTGGACGAGGTGGACGCCCCGC
GCCATCGCCTACTGGTGCTGGTGAAGGACCACGGTGAACCCTCATTGACCGCCACGGCCACTGTGCTGGTGTCGCTGGTGGAGAGTGGCCAGGCACCCAA
GGCCTCKTCCCAGGCGTCCGCTGGCGCCACGGGCCCGGAAGCTGCACTGGTGGATGTCAACGTGTACTTGATCGTCGCCATCTGCGCGGTGTCCAGTCTG
TTGGTGCTCACACTGCTGCTATATACTGCTCTGCGGTGCTCCGCGCCGCCAACCGAAGGCGACTGTGGGCCGGGCAAGCCCACGCTGGTGTGCTCCAGCG
CGGTGGGGAGCTGGTCATACTCGCAGCAGAGGCAGCAGAGGGTGTRCTCTGGAGAGGGGTTGCCCAAGACCGACCTCATGGCTTTTAGCCCTAGCCTTCC
TCCTTGTCCAATTAGCCGGGATAGAGAGGAGAAACAGGATGTGGACGTTGATCTCTCAGCCAAAGTGAGTAATTTTTATTTATTCTTTCCAAAATGTCTT
TGTTTTTCATTCCTCAATGTTTCCACTCCTCTGGAAATACATTAATAGTTAAKTATGAATTATGTGATTCATAATTAGACTTTTCCAGTTTTGTGGTTTT
GTGGTTAAAACSSTAAGATTTTTGTTGCTAATTTTTGAACCAAATCAGCAGTAAGTTATGATATCCACACTTGTAATTTTGTTTTGTTATTAGGTGCAGT
AGTAGAATTATTTTATTGCTAAATGCCTGGGTATAAGACAAATATTTTTTCTTAGATGAATTGCATTATTTAGAGAATCTGACTTCGACTTGTTTTATAC
TTATCCCTATACAATGCTTCTTCAATATCTTTTGCCACTTTTCATTTGGACTTCCTACTACCTGTTAGTACARATGTTACTTGCTCATTTTATGAGTTCA
CCTAATGCTTATAACTCCCTATTGATTATGCTTTTCCACCTTCAGTYTCAAAAATTAGATCATTACACCTGTTGTCTTTTATGGAACCTCTTTTATTCTC
TTATTCACTTGTTTGGAGTCTCAATCCTTATTTTTTACTTGAATATGATTCATTTTAGGCCTTGTGCTCTAATTTGGCAATACCGTTTATTGTTTCTTGA
TTTCCCAGTTKGGAAAAAAATCGAGAATAACAATTGCATTTAGAATTGCATCTTTGTTCATCTTTAGTTTATCACTACTTTATTTAATACTACTTTAATA
ATACTACTGTATTATATGTTAAAATTTATTACTAATAACTAAAATATCAATATGAAGTGAAAATTTAATAGTTGTATAGTATATTTATATATTCATTTTA
AAAGAATGTTTTAAATCTTGTTAAAAATAATTTTCAATCTGAACAATATCTTGAAAATAATTATGGTATCTAATTTTAAAACTATCCCTACTAGCAAAAC
TTTTTATTCATTAGTGTCTTTTGCATACCATACTAAGGATGCTAATATGAAATAAGTTTGATAAGCCAATGTTATAATGTTATTACTGGTTAACTTCTCT
GAATAGCATCCTGCCTATTAATGTGTGCCATGCAATAAGTAGAAAACTCCAAATAACCAGAACCAAATGAAATTGAAGGTAGACTTTTTTCTAATCACTA
CCCCTACATATTTGGTTATCTCCTCTAGCAATTAGTTGGACTCCCATTTAAGTTTCCCTACCACTGGAGAGAAATAGTAACCAACTGAAACCTGGTTAAT
ACTCATTGACAGTGTGGGAGGTCTAACACRTAAAATAGATATTTTTCTTGACTCCTCTCCTTCCCCTCACTTCCATTTTCTTTATTTCCTTTTTTGGCAC
TATCCTTTGTTGCTCCCTTGTCCATGAAGTAGTAGCCATAGTGTGTCCATCTCAGGTCAGTATTTTAAAAATTTAGTTCTGTTATCAGCTTCTTGAATAT
AATAGAGTCAGCCAAAGTACTTGTCTTCCCAGATATGGAACTTCAATCTTCAAATCCAGCTTGCCTCTTGAAACTATTGTCTAACAAGACTCTTGGCAAA
GACATTTTGAAGACTTTGGAATTTTCACTTCACAGATGTACTGATGCTATGCCAAATAAATATTGAATAGCTACCAAATAAACATTGTTTTCTATTCTGC
TGCATTCCCCATCTGTACATTAAAATACCTGGTAAATGAAAATATTACAAATGAAATGGGTGAAAATGGAATTCTTCCTCCTTTTTTCCAATGTGCTTGA
TGTCAATGATCATTTTGTAAAAATATAGTTTGGGTCCCCACATAGTGAAAGTACTCTGGTTTCTGTTTGATTCAGAAATTTGGTGGGTTTTTTGTTGTTG
TTTTGGTTTTTGTGTGTGTGTGTTTGTGTGAGTGTAGTTCTTCAATAGAGAGGGAGCGTAAAGCTATTTTCACTAGATTGATTTTTTGTTTAGACAAACA
GGATGAAAATAACTTTATGRATATAGGAGGCAAGGAAAGTTTTTAAATGGCTACCATTATGTCTTTATATATTAAATTTCTTTATGTAAGAAAATGTATT
GTGGTTTATTTATTGGGAAGTCTTCATTCCCCATTAATACCCAGGATGATTCAAAGATCRTGATTACCAAGAATTAGAATAAAAATTAAGCTAAAACCCA
AGTTTTCAACATTGAACTTGAAATACATCTTAATTGGGGAAATGTCTAGAGACTTTTTTTGTATCTTTAGAAAATCATAGAGGCTATTGAAACACCACAT
TTTCCCAACTAGATATGCGATCACCTTAAATTAATRCATTTTATTAGGCAATGGAAGGAARCAAACATTTTCTGCAGGGTAAATATTTAGGAAATATTAG
GTAAGTCCCTCTGAGCTATTAAACAATTAAGATACAACTATTCCCTTTAAAATATATATTCCAAAAAAGGACACACATACTCAAATGCTTATAAGAGATA
AATTAATGTAATAAATGGCCCACGCGATTCCACCCTGGTGCTGCAGTTTGTAAAAGAAGAAAAAATACCTGTTCAATTGGTTTGATCATGACATTCTTCA
TGGGTCAGGGAAGTTTTAAGTGGTTATAAAATGGGGTAAATTGGCTTTAGAAGAGTTTAGAAATGATGTGGATTACTTATAGACAGGACAAAATGAACAT
GCTTGTTTATTAAAAAAAGCTATTGGAAGCAGGAAATATTCAGTTTGGCTAAAATATATAAGCACTATAGGAGAAAATAGAAGCTTAGGCACATTACATA
CTGGAGAACAAGCAAGTACTTATAAACTGTAAGAGTCAAAATGAGAATACCAGCGTTTCTCATGGGAGCAAATGAGTTCCAATGAATAAAATTATTTGGA
ATGCTTTTCCATGCAAGCTATTTGCTATAACTTCCTGCTTCCTTGCACTTTCAGCCCTGACATGACTCAAGGAAGACATCTAATTAAATGCTGATGGTCT
TTGATCCTTTTATAAAACATCTGCAAATTTCCCTGTCAATAGCTTGTTCTTGGCACCAGAAGTTCCCTAGAGACCAGTCCCCTCAAGTCAACAACACCAG
AAATACTAGGGTGAAAGAGGGTGTTATCATTAATAAAAAAAAACCCTGGAATTCTTGGGAACACAGGAATCTGTAATGAATTTTTCTAATCAACAGTTTA
CAGTTACATGTTTACAAAGTGTATAGTTAGGTCTCTGTAATACTTAAAACCTGTGTTGAAAAAATTATTTCTACTGAAGTAAAAGTTGCCCCTATGGCGA
AACTAAGGACCACACTCAATCAATCASTGGTACAATGTGTACCACAGTAGTACAAAATGTATTCCTATTCTCCGAAACGACTGAAATAATAAATAAAACC
AAGTAGTTTACAGTAGAGTGTGTGGGGGTTTCCACAATTGCTACTTACGGTTTGGAGCCACATGATGTCGCTCTTTACCACAAAATACATGAGAGAAGGA
GGAAGAAGGGAAAATTCCTTCTATTCTTACTGGAAGGAACCATATRCACTCTTTGGAGTCTGAAATATGGAGGATGCAGCTGCACTTGACTGACCGATTA
AAAGATTTCCCTTGACTTTGAGAAACGATATTTAATCAGAACAAAATACTGTGCACTAAAGATGGAGTTTTCCTGGGGAAGCGGCCAGGAATCCCGGCGT
CTGCTGCTCTTACTTCTTCTCCTCGCAGCCTGGGAGGCAGGGAACGGTCAGCTCCACTACTCGGTCTCCGAGGAGGCCAAACACGGCACCTTCGTGGGCC
GCATCGCGCAGGACCTGGGACTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCGGGTGGCGTCCAAAAGGCACCGGGGCCTTCTGGAGGTAAATCTGCA
GAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGGGAGGAGCTGTGCCGGCGGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGTGGACAGGCCG
CTGCAGGTTTTCCATGTGGACGTGGAGGTGAGGGACATTAACGATAACCCGCCGGTGTTCCCAGCAACACAAAAGAACCTGTCCATCGCGGAATCCAGGC
CGCTTGACTCTCGGTTTCCACTAGAGGGCGCCTCGGATGCAGATATCGGGGAGAACGCCCTGCTCACTTACAGACTGAGCCCAAATGAATACTTTTCTCT
GGAAAAACCAYCTGATGACGAGCTGGTAAAAGGTCTTGGGCTTATATTACGGAAATCTTTAGACAGAGAAGAAGCTCCGGAGATTTTTTTAGTGCTCACA
GCCACTGATGGAGGCAAACCCGAGTTGACTGGCACCGTTCAGTTACTCATCACAGTACTGGATGCCAATGACAATGCCCCAGCTTTTGACAGAACCATTT
ATAAGGTGAGATTACTAGAAAATGTTCCTAATGGAACATTGGTAATTAAACTTAACGCCTCAGATTTAGACGAAGGATTGAATGGGGACATTGTTTATTC
ATTCTCAAATGATATTTCGCCAAATGTGAAATCCAAGTTTCACATAGATCCAATTACTGGACAAATTATTGTAAAGGGATATATTGACTTTGAAGAAAGC
AAATCCTATGAAATTATTGTAGAGGGCATTGATAAGGGACAGCTCCCACTTTCTGGCCATTGTAGAGTTATTGTGGAAGTAGAAGACAACAACGATAATG
TCCCAGATTTGGAATTCAAGTCTTTATCACTTCCAATTAGAGAGGACGCTCCACTGGGTACAGTCATCGCCCTGATCAGCGTGTCCGACAAAGACATGGG
TGTCAATGGGCTGGTCACCTGCTCCTTGACGTCCCACGTCCCCTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGTGCCCTG
GACCGCGAGAGYGTGTCAGCCTATGAGCTGGTGGTGACCGCGCGAGACGGGGGCTCGCCTTCGCTGTGGGCCACGGCCAGTGTTTCTGTGGAGGTGGCTG
ATGTGAACGACAACGCTCCGGCGTTCGCGCAGCCCGAGTACACAGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACTGTGTCTGCGTG
GGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTGGTAGAGCGGCGGGTAGGGGAGCGCGCGCTGTCGAGCTACGTTTCGGTGCATGCGGAG
AGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTTCAGGTGACCGCKCGCGATGCCGGCGTGCCRCCTCTGGGCA
GCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAAAACGACAACGCGCCAGCACTGCTAGCGCCTCGGGCGGGTGGCACTGGTGGCGCAGTGAGCGAGCT
GGTGCCATGGTCGGTGGGTGTGGGCCACGTGGTGGCAAAGGTGCGCGCGGTGGATGCTGACTCSGGCTACAACGCGTGGCTTTCGTACGAGCTGCAGCCG
GGGACTGGTGGCGCGCGCATCCCGTTCCGCGTGGGGCTGTACACTGGCGAGATCAGCACAACGCGTGCCCTGGACGAAACGGACGCTCCGCGCCACCGCC
TACTGGTACTGGTGAAGGACCACGGCGAGCCCGCGCTGACGGCCACGGCCACTGTGCTGGTGTCACTTGTGGAGAGTGGACAGGCGCCAAAGGCCTCCTC
ACGGGCGTTGGTGGGCGCTGTGGGTCCCGATGCTGCGCTGGTGGATGTCAACGTATACCTGATCATTGCCATCTGCGCGGTGTCCAGCCTTTTGGTGCTC
ACGCTGCTGCTGTACACCGCGCTGCGGTGCTCTGCGCTGCCCACCGAGGGCGCGTGCGCTCCGGGCAAGCCCACGCTGGTGTGCTCCAGTGCGGTGGGGA
GCTGGTCATACTCGCAGCAGAGGAGGCCGAGGGTGTGCTCTGGTGAGGGCCCACCCAAGACCGACCTCATGGCCTTCAGCCCCAGTTTACCTGACTCTAG
GGACAGAGAAGATCAGCTGCAGACAACTGAGGAATCCTTTGCAAAGGTTAGTGTATAACATCCTTTTGTTTAATTTTCGTATTGTTTTTCTCTATCAACT
TCTTCGTAAATTTATTTCTAAGAGTCAAATTTCCCTGGGTTAAAATTTTACCTCTTTTTACATATCCATTTTAACTAAAGTCTTTTGGAATTATAGGACA
TCAGAGCAATATATATTGCCTTCCTTCATTTTATGCTGCATTATTCAATGCATATTAACAGAACTGTAATTTCTAGTAAATTTTCACTATATTCACCCTC
TTTGTTTTTGGTAATAATCAACATTTTAGAAAACATTTTACTATTATTTAACCTATTACATATAAACAAATGTGCACAGGCTGAAATAATAAAGCTCCAT
AAATTGTATGAAAGTGAAAAGCTCCGTTGCCTCCATCGCTGAAGCCCCTCGCATGCACCTGCCAAATCACTTCCCTTATTTTTCCTCCAGTGTAACCGCA
CATTTGCCTTTTATAACTGTTTGTTCGGGGCCTGTTTTGGGAACGTTATCTAATTGGACTTGCACAACATGTATTGTCTGTGCATTTGTGTGTTATTTGT
ATTTATCACTCATTGTTTATGAAATTATCCATGTTGTTATATGTAGTTGTAGTTTATTTATTTCTGTTTCTAGTACTATTTCATAAATATACTATACCTT
ATTTATTCTACTGTTCAGGAATTTGCATTGTGCCTCAATGTCTATTTCAAATAATGCCATCATAAATATATTGTACATTTCTTTGATGCCCATGTACACA
GATTTCTCTCAGGTTTTTGCCTAAGAGTTGTGTTTGTGGGTCACAGAATATGTGTGTATCTTTGTCTTTTGTAGCTAACACCAACCAATTTTCCAAGATG
TTTTTACCTGTTTACATTCCTAGTAGTGCATAAGGCTTTCTGCTGGGCCACATCATCTCTACATTTGTCAGGTTATTTTCATGTTAGCCATTTTACTGGG
TGACTTTTGTAATCTCATTTTGAAATTATTTTATATTTAAATGAAGTTGAGTACCTTTCTATTTTATTTTGGCAATTTTTATACCTTATTTTGTGCAATA
GCTGCTCAAATCTCCTATTTCTCTAGTCTGTTGTTTTTCTTTTCTTTTTTCTCTTCTTTTTGCTTCCATAGAACTTTATTTATTTCCTTATCTTGTTTTT
CTTATTACTTAAACAAATCTTGTATTCTGAACATAACTCCTTTTTTTAGTAGTTTTCAACCTCATGGCTAGTTTTTAATTCTTTTTTGTCTTTTGGTGAA
TAGAAAGTCATAATTTTGATTAAACTCAATTTATCAATTTTTGCTTCTGATCCTATTTCACAAAGATAATTTTCTGTGGTATCTTTTATTTCATTGTTTA
CATTACATCTACAATCCATTTGGAATATACATATTTTTATCATTGTTGTGAGGTAGGGGTCAAGATTTATTTTTATTTCTTCTTATTATTTTTATTATAC
TTTAAGTTCTAGGATACATGTGCACAACGTGCAGGTTTGTTACATAGGTATACATGTGTGCCATGTTCGTTTGCTGCACCCATCAACTCATCATTTACAT
TAGGTATTTCTCCTAATGCTATCCCTCCCCCAGTCCCCCACACCTCAACAGGCCCCAGTGTGTGATGTTCCCCACCCTGTGTCCAAGTGCTCTCGTTGTT
CAATTCCCACCTATGAGTGAGAACATGCAGTGTTTGGTTTTCTGTGCTTGTGATAGTTTGCTCAGAATGACGGTTTCCAGCTTCATCCATGTCTCTACAA
AGGACATGAACTCACCCTTTTTTACGGCTGCATAGTCTTCCATGGTGTATATGTGTCACATTTTCTTAATCCGGTCTATCATTGATGGACATTTGGGTTG
GTTCCAAGTCTTTGCTATTGTGAATAGTGTCGCAATAAACATACATGTGCATGTGTCTTTATAGTAGCATGATTTATAATCCTTTAGATATATACCCAGT
AATGGGTCAAATGGTATTTCTAGTTCCAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACACTCCCACCAACGGTGTAAAA
GCGTTACTATTTCTCCACATCCTCTCCAGCAYGTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTRGTTTT
GATTTGCATTTCTCTGATGACCAGTGATGATGGGCATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTT
GCCCACTTTTTGATAGGGTTTTTTGTTTTTTTCTTGTAAATGTGTTTARGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGGGTAGATTGCAA
AAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATTGTAGTTTCTTTTGAAGATTTATTTTTTACTACCATTTTTTTTGTTGGACTTTTAAAATG
AGTTTGGAAGTGTTCCCTCTCCTTCAATTTTTTTTTTTTTGGAAGAGTTTGAAAACAATTATCATTGATTCTTCTTTAAAAGTTTGGTAGAATTCTCCAG
GAAAGATATCTGGTTTTGGGCTTTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTAGGAGGTTTGGATTACTGATTCAATCTCCTTACTAGTTACAGCTT
TGTTTAGATTTTTTATGATTATGTCTTGGTAGTTTGTATGTTTCTAGGAATTAATCAATTTCTTCTAGGTTATTGAATTTTTTGGTATATGATTTTAAWA
GCCTCTTATAATTGTGGCATCAGGTGTAATGCCACCTCTTTTGTTTCTGACTTCCAGTCTTTTTGTTTTTTTCTTAGTCTAGCTAAGGGGCTTGTCAGTT
TTGTTGTTTTTTCAAAAAATCAACTAAGTTTAAAAACTTAATTTAAACTTTTTTTCATTTATTTTTGCTCTAATCTTTATTATAGTATTTCCTCCCTTTG
CTTTGGGCTTCCTCATTTGTCCTTTTTTTCTAGTTCCTTGAGTTGTTAAGTTTTTTATTTGAGATCTTTCTTCTTTCTTCATTTTTAGTGTAGGCATTTA
CAACTCCCTTCTTTGTTTTTGTTTTCATGTTTAAGAGACAAGATCTCACTATGATGTACAGAGGCACGATCATAGCTCCCTGCAAGTGATCCTTGTGCCT
TGGATTCCCAAAGCACTGGGATTACAGGCGTGAGCCACTGAGCTTGCCCAGCTTAATATTCCTTCTTAGTACTGCTTTTGTTGTATCCTGTAAGTTTTTA
TTGTGTTGTGTTTTCATTTTTGTTTATCTTAACATATTTTCTAATTCATCTTTTGATTTCCCCTTTCATTCAAATGAAATTTTGAACAGAATTTCGTTCA
AAATTCTGTTGTTTAATTTCTACATATTTGCAGATTTTCCAGTTTTAATTCCAGTATTGATTTCTAGTTTTATTCCACTGTGGTCAGAAAAGATATTTAG
TAGGATTTCAACCTTCTTGAATTTGTTAAGACTTGTTTTGTGACCTGAYGTGTGATTTATCCTGGAAAATGCTCTGAGTGTGCTTGAGAAGACTGTATAT
TTGCTGCTGTTGGGTGGAATTTTCTGTATATGTCTGTTAGTTCCATTTCAGCTATAGTGTTGTTCAAGTCCTCTGCTTCCTTGCTGATTTTCTGTCTGAA
TGTTCTATTCCTTATTGAAAGTAGGATACCAAAATCTCCTACTACAGTCATTGGAGATACATTCTGAGAATTGTATCATTCTGAGATTTCATCACTGTGC
AAACATGAGAGTGTACTTACATATTTACACAAACCTAGATAGTATAGCCTACTACAGACCTAGGTTACATGATCTATTGCTTCTAGGCTACAAACCTGTA
CATATGTTAACTGTACTGAATACTATAGGGAATTGTAACACAATGGTAAGTATTTGTATACCTAAATATATCTAAACATCTAAAAGGTACAGTAAAAACA
TTGTACAGATTTTTAAAATGGTACACCTGAATAGGGTACTTACCCTATGAATGGAGACTGCGGGGCTGGAAATTTATCTGCATGAGTCAATGAGTGAATG
GTGAGTGAATGTGAAGGCCCAGGACATTACTGTGCACTAATGTAGACTTTAAAGCACTATACATTTAGGCTACACTCAATTTATCAAAAAATTTTCTTTT
TACAGGCTGGTCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGAAGGAGGATCACTTAAGCCCAGGAGTTCAAGACCAGCCTGGGCA
ATATAGTGAGACCCTGTCTCTAGAAAATAATTTTTAAAAATTAGCTAGGTGTGGTGACACACACTTGTAGTTCCAGCTACTCAGGAGGCTGAAGTGGGAG
GATCCTTGACTTGAGGAGGTCAAGGCTACAGTGAGCTATGGTCGTGCCACTGCACTCCAGCCTGAGCAACAGAGTGAGACTCTGTCTCAATTTTTTTTCT
TTCTTCAGTAATAAATTAACCTTAGCTTACTGTAACTTTTCAACTTTGTAAACTTAAATTTTTTAACCTTTTGACTCTTTTGTAATAACGCTTAGCTTAA
AACACAAACACATTGTACAGCTGTACAAAAATATTTTCTCTTTATATCCTTATTTTACAAGTTTTTTTGACTTTTAATTTTTTTATTTTTTTCACTTTTA
CTTAGTGTTTTTTTTTGTTGTTGTTGTTAAAAATGAAGATATAAACACCCATACTAGCCTAGGACTGTATTGGGTCAGGATCATCAATATCATTGTCTTC
CACCTCCATATCTTGTCCCACTGGAAGGTCTTCTGGGGCAGTTACACATGCGATGCTATCATCTCCTATGATAACAATATCTTCTAGTGGAATACTTCCC
AAAAGACTTTCCTGAGGCTGTTTTGTGGTGACCTTTTTTCTTTTTTTTTTTTGAGTTAATGTATTTTTTATAAGTAGAAAGAGTACACTGTAAAATACCA
CTAAAAAGTATAGTAAATACATAAAGCAGTAACATTTACTATCTGTATCAAGTATTATGTACTGTAAATTACTGTACATAATTGTATGTGCTATCTTGTA
CTTTTATATAACTGGTAGTGCAATAGGTTTGTTTACACCAACATCACCACAAACATGTGAGTAATGTGCTACAACATTATGACTGCTACATCATCACTAG
GTGATAGGAATTTTTCAGCTCCATTATAATCTTATGGGACTACTCTTGTACATGTGGTCTGTTATTGGTTGAAACGTTGTTATACAACACTTGACTTTAT
TGTATTGCTATCTATTTCTCCATTTCTGTGAATGTTTGCCTCATATATTTAGGTGTTTTAATGTTGGGTGCATATGTATTTATAATTGCTATGTCCTTCT
GGTGAATTGACCTTTTATCATTATATAATGTCCTTCTTTGTCTCTTATGACACTTTTTGACTTAAAGACTATTTTGTGTGATGTAGCTGTTTCCACATTT
GCACTCTTTTGGTTACAATTTGCATGAAATTTTTTTAATATCCTTTAACTTTCAGGCTATCCAGGTCTTTAAATCTAAAGCAAATCTCTTGTAGTTAGCA
TATAATTGGGTCTTTAAAAAAAATCAATTCAACCACTTTGTATCTTTTGATTGGGGGAGTTTATCCCATTTTTATTTAAAGTAATTATTGATAGGGCATA
ACTTACTGTTGCCTCTTTGTTAATTGTTGTTTGCAGCTTGTAGACTTTTTGCTCCTCTTTCCTYCTCTTACTGTCTTCCTTTGTGTTTTATTGAGAATTG
TAATGCTATGTTTTTGTTCCTTTCCTGTTTTCTTTTGTATATCTTCCATAGGTATTTTCTTTGTGGTTACCATGGGGCTTACATTTTAAAACTCTTATAA
AAATGTATTTTAAACTGATARCATCTTTACTACAATCACAAAACAAAACTCATTATGTTTACTTCTCCCCTACCCAAATTTTATGTTATTGATGTCATAA
ATACATCTTTTTATATTGTGTATACATTAACATTATTTTATAGTTAGTTTTTCTGTACTTTTGTCTTTTAATCAGATTTTAAAATATCAGATTTTAAAGT
GACTTTTGTACCACCATTACAGTATTATAGTATTCTGTTTTTATCTATATATTTATCTTTACTAGTGAGCTTTATACTTTAATAAAATACCTATGTATTT
CTGTTTAGCATCCCCTAATTTTAACTCAAAAGGCCCCCTCTTAACATTTCTTGTAAGGCAAGTCTAATTGTGATCACCTTCAGCTTTTGTTTAACTGGGA
AGGTCTTTATCTCTTTTTCATTTTTGAAGACAAACTTTGGTGGATTTGGTATTCTTGGCTGGCAGTTCTTTTTCTTTTCAGCACTTTCAGTATAACATCT
CACCCCTTTCTGGATGGCAAGGTTTCTACTGAGAAATCTACTGGTAGAGTTAGGGGTGTTCTTTTGTACGTGATGAGGCATTTTTCTTTTGCTGCTTTCT
AAATTCTTAACATTTCTTGGATCTTGATGTCCATTTCCTTCCTCATATTTGGGAAGTTTTCAGATGTAATTTTAAAAAATAAGCTGTCTGTCCTTTTCTC
TTATGGCTTCTTCTTTTGAAACTGTCATAATGAGTAGAGCAGCCTGCTCGAGGATGTCCTATCAATTTCTTAGGCTTTCTTTACTCTCTTTCATTTCTTG
CTCTTTTTGCTACTCTGTCTGGATAATTTCAAATGATGTGTCCTTGAGTTCACTGACTCATTCTTCTACTTGATTAAGTCTGCTGTTGAACATGTCTGTA
AAATTTTCAGTTCAATTATTGTATTCTTCAGTTCCAAAATTTCTTTTTAGTTCTTTTGAATATTTTCTATCTGCTGAAATTCTGATTCTGCTTATGCATT
ATTTTCCTGAGCTCACTGAACATCTTTATGACAATTATTTTGAATACTTTGTCAAGTAATTCACATAGCTCTATTTCTTTAGGTTTGGTTTCTGGAGGTG
TGTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGGGCACGCACTATTTGATTGGGCCATGTTTCCTGTTTTCTCATATTCCTTATTACTTTGTGTTGATATC
TATACATTTCAAAAAAACAAAAAACAACAACACACCAGCTACCTCTTCCAGTCTTTATGGACTGGATTTGTACATGGAAAGATCTTTACTAATCAGGCTG
GCTAGAGATTCTAGGGACCTCTCAAACCTTTTCTGTGGATGCATCTTCTATGGACTTGTGTGTATAATTCCTAATTAGAGGGATCTGCCAGCTTTTTTTT
TTAAGATGCTCTAATCTTTTTCCCTCTGTGGTGTCTGTGTGCTGTACTGTGGGCCCTCTGGAGCAGCAGTATTCACTCAGCTCTTTTAGGTTCTGAGAAG
CCCTCAGTTATAGATTCTGCTGAATCCTATCAGTGCCTGGAGTCAAGTGAGACAGAAACTTGGACTGCCCACTAAAATTCAGGAACTTTGGATGCATTTT
ACTCTCTCTTTCCCTCATGAGAGAGAGAGTGCTGAGCTGAGTTTCTCTCTGTGTGCTGTATCACAGGTCCTGAGGAGCATCAGCCCGCCACCCAGCTCTT
TATTATTCTGAGCTGCCCTCAGGATTTTAGAATATGCCAGGTTCCATCAGTGCTCTGAGATATGCAAGACAGCTCCCCTGAAAAGTCAGAACACTGAATG
CATGCTTTACTTTCTCTTTCCCTTCTCAGGGAGAAGACAGGAGCTGGGAATTTCCCCCTGTTTGAATGGAACTGTGCTGCTGGATGGGACTATAGGGAAA
GTGCCCCAGAAAAGTGCCCAGCTAGTTTTACACTTGCTTGGAGCCCAGGACCCTCTTAACTGGTTTCGGCACTTATCACCATGGGAATTGGTCCTTGTAT
TGTTGTTGAGTTGGTATACCTGTGGAGGGTCTGGGGATTCCTATAACAGCATCTTGCTGATGTCACTACCTCTGTTATCTTTTTAAGCTATATATGCTTT
TACAAATTATTTTATTGATTTCCTCTTTTGTTGATTATAACACACATCCTTGACTTATTACCTCAATTAAATCAATAATTTTAATAATTCCAGGCAACGC
TAAGACCTTGAATCATTATACCATTTACTTGTACCMTACTTTTTGTTACTGATATGCCTTTCAATTATTTATATGTTCTAGACACACAGTACATTATTAT
CATTGTTTTGTTAACACCTATATATGTTTCTTTCTGGGATCATTTTCCTTCTGAAGAAATTAACATTTCCTTTAGTGTGGCCTGCTGGTAAAGAAACCTT
TACGTTTTTATATATCTGGAAATGTCTTAATTTTACTATCACTTTTGAGAAACAGTTTTGGGTATTGAATGAAAGTTATTTTTGCCAGCACTTTTAAGAT
GACATTCCATGGTCTTCTTTTGAGATGATGGCTGTCAAGTTTATTGTTCAATTAGTGTGTCTTTTTTTCTGTCTAGCTACTTTGTATACTTACTCTGTTT
TTCACTTTTAACAGCTTTACTATCATGTGCCCAGTGTTAATTTGCTTTGTTTTTAATCTCGCTTGCAGTTTTCAAAGCTTCTTATATCTGTGGGTTGATA
ATATTTTATCAGTTTAAGAGAAGATTTAGCAGTATGCCTTCAAATACGGCTTCTACTTCATATTTTCTCTTATATTCTTCTGTGACTATAAGTACATGTA
TGTTAAATCTTTTCACCATATTCCTTGTCTTTTATGTGCCATTTCTGTTTTTAAATCACTTTTTCTCTTTGTTTCATAATCCATGTTTTATTCTGACCCA
TCTTTTACTTTAGGAATTTTATCTTGTTATTCTAGGCCACTGTCAAAGTCATTGATTGAATTCTTAACTTGAATCGTGGCATTTTTCCATTTTAGAATTT
TATTTTCCTTTTTAAAAATATATTTCTAACTTGGGTACTGGCTAATGTCAAAAGAAACTTTCCTCCCACAAAGTTTTCACTCACTTGATCTTGGATTTTA
AAATCAGATATAACCTGAGAGATTATCATTTTTCTCCRTTTAATAATGAATCAGGCCAGGCATGGTGGCTCATGCCTATAATCCCAACACCTGTGTGGGC
CATGACAGGAGGATTGCTTGAGCCCAGGAGTTCAAGATGAGCCTGAGCAATATAGGGAGACTCCATCTTTACAAAAAATGAAAAAAATTAGCTAGATGTG
GTGGTGCACACCTGTGGTCCCAGCTACTTGGGAGGCTGAAGTTGGAGGATGGCTTGAGCCTGAGGCTGCAATGAACTTTGACTGTACCACTGCACTCCAG
CCTCGGTCAGAGTGAGACTCTTTGTCACCCAGTTGTATAGAATCAACTATAGGTAGAGGCATAAAAAAGATGCCTGAGATTGCATCTCTTGAATTTAGCT
TCATTGTCCCTTTCTATTAAGTGAGATTATTTGACATGAACATTGATATTCACTATCTCAGGGATATGTTAGAACTATTCTCATATTTTCTATCCACAGA
GGATATATAATATGGATATTTTAGCACATTCCCTTATAGGGCAGTTATACCTTCCTCTGTGACTCATTATACAGGCAGCGCTAAGATGTGTATTATATGC
TCATGGTATCCTTTCTTACTATCCTTATAATAGAATAAATTAATTTTTATACAGAATTAATTTTTGAAGAATCAAATGACATATGTGCATAAATTATTTA
TACATTTTTATACAATTGCTTCAACATTTCCTCTTCTCTGCAATCTGGTATATCTATATAATTTCTATAGATAAGAGAAGAAAAATATAGCTTATTAAAA
TTTTATTCTGGGTTTTGTAAGGAATAAAGGACATTTGTACCCTTATGAAGATTAAATTTTCTTGTGTTAGTATATTTCTAAAGGCTTTTAGTGAATTAAA
TGGAGACACTTTAATATACTACACAGTTTTAAATCTAAATTTTTTTCTCAAGRAAGAACTTCTGTTTACACAATGATGCTTAAACATGACTGAAATATCT
AAAGGAGAGGTTAACTGGATCAGTCAAGAAAATAATCTGTAACATTTGATTGAAGAAAATAGCTTAGAAGAAGATTTTTTAAAATGTTCTTTTCCTGTGG
AGTCTCCCATGAAATTCAGATTGGATAATCTATAGTTACTGAGAAAGGAATATTCAAAATAAGAGTTGATCACTGTAGCACAAATGCAAGTGATAATTTA
AAAAGTAAATATAATTTAACAGATATGAAAGTGAATCAAAAGTCAAGAGTCTTGTTTCCTCCTGAAATATCTATATAAGTACATGAGATATTTTTTCCAG
ACTGAGAGGAGCATGTGAACTGATATTGTTGATGACTTTTTCTCCATTGAGTATATCTTTTAAAATACTCAGTATTTATCATAATACTCTGCAGATTACA
ATGTACACATTGTTAATACTACATTGTTAATTTGCCTTTTAAATACTTAATATTTACTTTTTTCAAAGGTTATCTTTGTGTATTTTGTATAAAATTCTAC
TATAATTTATTCCATAGCTTTGTAGTTTTACATTATTTACTGTTATATAATAGAAAGTGGCTAACATCAGCTAATGCTGTTTTCTAAATATTTATTATCA
TTTTCTTATGTTTTTAACCATTGTGTATTAAAATATTTCAAAATTATCAGTATGAAAACTATTAGGCAAATAGTCTGGGAAATTGATTTGTGTTTCAACG
ATCCAAATATTAGTGAAAAGTCATGATAATAGAGATAGTAAAAATCTTATAAGGGAACTGGTAAATATATCTTTAAAGATTGTATCAGAAACAATTCTRT
GACAATATCTTGTTTCTTTACAAGTTTGAATTCCAGAAATCAAGTGAATTTCCTCTGACTTTGCATTTTCTGGTAATTTCTTTTTTCTTATCAAGCTATA
TTTTAAATGTAAAAGTATCCAACAATAGAATTGCTAATCTCTTGGTCCCTCTTGTCTTCACAGGTAAGGGATATTTTGTAATATTTAAGGAATTTTATGG
AGTATATATACAAGCAGAATGTTAGCTATTTCTTCAATAGAAAACTTGGTGATATTTTCTTTTGCCCATATTTATTAAGTGAAGTTTACTAAATTTTCTA
GGTCGTGTTCAAATCATACCATCCAGTAAACAGTTGGGAGATTAAAAAGTAATTAAACTAATATAAAGATAGCCTGGTTAATAAAATGATATTCTTTTCA
ACATGATTATATTTACTGGAACCTAAACATTTTGTGAAATAGTATGTCATATAGACAATATTAGGATTTTGACTTGTTATGTAAGTACAAAGGTATGTAT
TTTACAATTTTTAATAATTGCTTTATCAGTAATAGCAACGTGAAGAAATGCTATCTAGATGCTTCTAATTTGAAAATAGTGCAAAGACGATTTACCAAAG
TCGTTCTATTATGCTTTTGATTTCTAGAAAGCTGAAATATCCCCATTACAGTTTTTGAGTCAATACAAAAAGTAGATAGGTGTTATAGATAAAGAAATAG
GTTTTCATCGATTTGAAAATTAGAMCTCCGAGAAGAAACTCAGGTAAGAATGCCATTAAAATAGTTTTAGTTGTTTTTGAAAATAACATCAACAAAATGT
CACTATTAAACAGTGAAATTGGAATAAAAATTTGTTTTATGAGTAACACGGAGATAGCATACAAACATTCCATTGACTAATACAGAAAAAACTCAAAAGT
TTTAATTAGATATGTTTAAATAGAGATGAGRAAAGTCAAAACTTTAACTCTTAAAAGTTATTTTTATCAGTTTGGAAATATATAAACTCCTCCCTATATA
AAATACACCAGCACAAATTTCTCTAGTAAGGATTGGGGTTTCATGACTTTAGATGTATTTTTCTGTAATATTTTAATGACGCACTTATATTGACGCATTT
TAAGATAGAGTTTAATGATATATTTTGACTAGAGATAAGTGATTTAAAGAATAAGAATCATGTCATTGAAAGTGAGAATACTTGAGAAATATTGACGAAT
ATAAGCTAAATAAAGCAAAACAAAATAAAACACTTACCCTTTCATCCACATGATGTCGCTGGACACCGGAAGGTTTTTCTCCCTTCCCAGCCTCAAAGGA
ATACAGTGAGTAGATTTTCCTTAGACAGAAAGRAAAAGAACCTTCCATTTTTGGCTGTGCCAAGAAGCTCAGAAAGGYGATAATATAAAAAATATATAGT
TAATTSGGAATTGAATTTACAAAATACATTGTGTGGTGATGCAATAGAAAGYTCATAATTGGAACGAGATTGAGATGGTATATTCCCGGAGAGGAAGTCT
GGGATCCCGGCTCCTGCTGCTCTGGCTTCTCYTYGCCTACTGGAAGGCAGGGAGCGGCCAGCTCCACTACTCGATCCCGGAGGAAGCCAAACACGGAACC
TTCGTTGGCCGCATCGCGCAGGACCTAGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCGGGTGGCGTCCAAGGGCCGCGGGGACCTTCTGGAGG
TAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGGGAGGAGCTGTGCCGGCGGAGGGCGGAGTGCAGCATCCACCTGGAGGTGATCGT
GGACAGGCCGCTGCAGGTTTTCCATGTGGAGGTGGCAGTGAAGGACATCAATGACAATCCGCCCAGGTTCTCCAGACAAGAACAAAGATTATTCATTTTA
GAGTCAAGAATGCCAGATTCGCGGTTTCCGCTAGAGGGCGCGTCGGATTTGGATATTGGAGCAAATGCACAATTGAGATACAGGTTAAATCCAAACGAAT
ATTTTGACTTAGATGTTAAAACAAATGAAGAARAAACGAACTTTTTAGAGCTGGTTTTGAGGAAATCCTTAGATAGAGAAGAAACACAAGAACACCGTTT
ATTAGTGATTGCAACTGATGGAGGAAAACCCGAACTAACAGGTACAGTTCAGTTGTTGATCAATGTATTGGATGCTAATGATAACGCCCCAGAATTTGAT
AAATCCATTTATAATGTCAGATTGTTGGAAAATGCACCAAGTGGGRCATTAGTTATTAAACTGAACGCCTCAGATGCAGATGAGGGCATCAATAAGGAAA
TAGTGTATTTCTTTAGTAATCTTGTTCTTGACGATGTAAAGTCCAAATTTATAATTAATTCTAATACTGGTGAAATAAAAGTTAACGGGGAACTGGATTA
TGAAGACTATAACTCATATGAAATTAATATTGATGCCATGGATAAAAGTACATTCCCATTATCAGGACACTGTAAAGTAGTAGTGAAACTCCTGGATGTG
AATGATAATACCCCAGAGATGGCCATAACCAMCCTTTTCCTGCCTGTCAAAGAGGACGCTCCACTCAGCACGGTCATTGCTCTGATCAGCGTGTCTGACC
GTGACTCAGGTGCCAACGGGCAGGTGACCTGCTCCCTAATGCCCCACGTTCCCTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGA
CAGYGCCCTGGACCGCGAGAGCGTGTCGGTCTATGAGCTGGTGGTGACCGCGCGRGACGGGGGCTCGCCTTCGCTGTGGGCCACCGCCAGCGTGTCTGTG
GAAGTGGCCGACGTGAACGACAAYGCTCCGGCGTTCGCGCAGCCCCAGTATACCGTGTTCGTGAAGGAGAACAACCCGCCAGGCTGCCACATCTTCACGG
TGTCTGCACGGGACGCGGACGCGCAGGAGAACGCCCTGGTGTCCTACTCGCTKGTGGAGCGGCGGGTGGGCGAGCGCCCGCTGTCGAGTTACGTTTCGGT
GCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAAGTGGAGCTGCTGCAGTTCCAGGTGAGCGCGCGCGACGCGGGCGTGCCG
CCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCCGGCGCTGCTGGTGCCTCGAGTGGGTGGCACCGGCGGCGCAG
TGAGCGAGCTGGTGCCGAGGTCAGTGGGTGCGGGCCACGTGGTGGCGAAGGTRCGCGCAGTGGACCCTGATTCGGGCTACAACGCTTGGCTTTCGTATGA
GCTGCAGCCAGCGCCTGGCAGTGCGCGCATCCCGTTCCGCGTGGGGCTGTACACAGGCGAGATCAGCACAACACGCTCTCTGGATGAGACCGAAGCACCG
CGCCACCGCCTTCTGGTGCTGGTGAAGGACCATGGAGAGCCCCCGCTGACAGCCACAGCCACAGTGCTGGTGTCGCTGGTGGAAAGTGGCCAGGCGCCGA
AGGCCTCATCGCGGGCGTCGGCGGGCGCTGTGGGTCCCGAGGCTGYCCTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGTGCGGTGTCCAGCCT
GCTGGTGCTCACGCTGCTGCTGTACACCGCGCTGCGGTGCTCGGCGCAGCCCACCGAGGCCGTGTGCACACGGGGCAAGCCCACTCTGTTGTGCTCCAGC
GCGGTGGGGAGCTGGTCGTACTCGCAGCAGAGGAGACAGAGGGTGTGCTCTGGGGAAGCTCCACCCAAAACAGACCTCATGGCCTTCAGTCCAAGCCTTC
CTCAGGGTCCCACCTCTACAGACAACGTGAGTTTTCTAATATTAACATCCATCTTTCCCTCCCAATTTTCAAATATTAAATGTCACATTCACCCACTTTT
TTTGTATTTAAAAATTATGTCTTAGTACACAAATATTGTGGTACACAATTATTGCACTAATTCATGTATTATATGCTTTTTATGAGGCTTTTCTGCTGGG
GTAATAGATTCATCAGCTTTCTGTGATATTAAGTGTTTTTAAAATAATATTTTATATTAGCATTTGAATTTTGCATCTCTAAAAATGTAGGATAATAATT
GTAAGACATAGTTTGGAGTCATTCTCAAAGTTTCAGTTTATGACTACATGAAAATTTATTTTATTTTATTGTTATTTTTTAGAGACCCTTTGTTGCTTAG
TCTGCAGTGATCTGATCATAGCTCACCGAAGCCTGAAACTCCTGGGCTCAAGTGATCCTCCTATCTCAGCCGCCCAAGTAGCTGGACTACATGCACATGC
TAATTAAAGTTTTTTTTTTTTTTTTTTTTTTTTTTTCTGTAGAGATAGGGGTCTTGCTACTTTGCCCAGGCTGGTCTTGAACTCCTGGTTTGAAGCCATG
CTCCCGTCTCAGCCTCCCGAAGTACTAAGATTACAGGATTGAGCAAGAGTGCCTGGCCTATAAAAATGTTTTAACACCACCCTTCCAATTTTGCCTTTTT
GTTTCTATTGAATTTAAATTAATTATTATTTTATTACACTAATTTAGTTTGTTTTCAATTGTATTTTTGCAGCATATGGTTTATTTCAACTTTGCCTAAG
CAGTTCACCTGTATACCCATGATGAATTTGATAATTGTAATTTAAAAATTATATTTTTCATTTTATTGATTTTTTGAATAGGAAACACATATACATGGTT
TACTGTTCTAAAGGTGCAAAAGAATACAGTTAAATTTTCCCTTTCACCTCCTTCATGAAGCCAGAACATTCTCTGGTATCCTTCTAGAGATTTTTTTCAT
ATACAAATAAACTTCCCTACCCCCTTAAAAAACATATGAGTATTGATTTTAATCTTGCTTTTTTCATTTACTAATGTATCTTGATGATCATGAATTATCA
TTACTGAAGTAGATTTGTTTTTCTTTTATCTGGATCTATGGTGTTCCATTGTGTAGGTATGTGATTGGTTATTTTTCCCTTAACATTAACATTTAGTGGA
ACAATGATTTAATTTTCTGGAAATTTGCATATTTTTCAATATATCTAATATATATTAGATATATAAATATCTAAAATATCTAATATATATCTAATATATT
ATATATTTTATATAATATATATAATAAATATATAATAATAATATATATCAGATATTTTGATACAGAATTTTGCTCTTGTTGCCCAAACGAGTGCAATGGT
ACAATCTTGGCCTCCCAGGTTCAAGCGATTCTCCTGCCTTATCTTCCCAAGTAGCTGGGATTACAGGCATGTGCCCACACCTGGCTAATTTTTTGTATTT
ACTAGAGACGGGGTTTCACCATGTTGGTCATGGTGGTCTCGAACTCCTAATCTCAGGTGATTTACCCGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGGC
ATGAGCCATCGCGCCTGGCCTAAATTATTATATTGATGAGGAGTAACTGTGAATCTCCTCAGTTGTGCAAATTCTACTATATTTTGGTTGGGAAATTTTA
CTGCTTGTTGTTACTTTTAGATTAAAAAAATAAATATACCATGATACAAACTCCCCTCTTGAGTTGTTTACAAAGAGTTGTTTATTAAAGCTGTATGTTT
GAGACTACGCTAGACAGGTGTCCTCTCCATCTGAAATAATGAGAACCATTTGTCTACTCTTTTGAGGGGAAAAGTATGGATTTATAGGTAGTAAATAGTC
CACACTTTACATGATAAAATGTGAATTCCCTATTTCTGTTGCTTTGCCTGTTTCTTTTATTCTCATATGCATTCAATTTTATAAGTACCCTTCTATCATG
CTATTTATATATTCCTAATATCCTGAGCTACTTTGAGGAAGTCCTAGAAATTGAGAAATAGTTTTTGTCATTCTATAAATCTAAAGTTAACAATGGTCAC
ATTTTAAAAAATCAAGTTTTGTGATATAAACTATTTATATATCTCTTTATATATCAAGTCTTTATGTATATTTTGTGCAGCTTGTCTTTTTTATAGGAAC
CTCTTGTTTTGGGGATTGTTTTTGGTTAAGAAATTGAACCCTTTGTTTGCCCAAAATAACTGCAATAGAAAGTCAGTGATAAGAACTACTAAATAGATCC
AGGTTAATTATTTTAAGATAGAATTTCACATGGAAGAAAAGGCTTTGTGTCACAATCATCTGTGAGGCATTTTACTGTATATCAGAATTTTGGAGTAAGG
TGAAGATGATCATGTCATTTGAAAAGTCTTATTGGTGACTCTATTTTTCTCCTTTGAAGGAGGGGTTTAATCACTTCAAATGGATAACATTAAGGTTAAA
TTAAGGGCGAAGTTGATATTTGGCCCTGACTTTTATATGAAGGTAACATTTTTGCAAGTAAATTGTAGACGTAATTWAAAAAACCCAGCTAAAACAAAGG
TGGTATTGAGAAAGAGGAAGAGCAAGTGGTCTATATTGTCAGAAAAATAAGATTCATATTGGAGAGTAATTGAAAATAACCTGCAAAAAGTTGATTACCT
AACATGTGATTACATATTAGGTTACTAGAAGTTTCTCAAGTGTCTTGCAATTTCTAGGTTTAGTAAAATTCAATGAAAGCTGTACTCATAAAGATAAATA
TGATAGCATGTGAAAGACAGATGGACTTAGGTGGATGTGGAATAAGGCAAGCCAGGGAAAAGGAGTAATTTAAAAAGTAATATAGGTGACATGGGAAATG
CTCATGTCATTAAAAATATGAATTTAAAAATTTGAATTTGGGGATTATTAATAATTGCTCATGCCTTGCTATTTAACAAACTATTTTCTAGGAGTCAGCA
TGTATAGGTGAAAGTGACAATTAGAAACATAGAAAGAAGGGATGCAGATATGGATTTTTAAATACCTCAATAAAAGTCTTATTCAAAACTTGGAAGTGAG
TGAGAACAATTAAAGGAAAGGATATGGGACAGGGTTGAAGTTGAGAGAGAAAAACGAGATCATTTAGGAACAGCTGAAGAATCAAAAACAGCAAAGCACA
ATGGGTAGAAATTCCACTAGAATTTGAAGTGGTGAAGTATATGAAAAGAAAATATTTTAAGCAAGAATCCTAATATAAGCTGCAGATAAATTAAATGTGA
TAAAGAATATGCTCTAGAATTTTATCTTCCATCATTACACAGAAGAACCTTAAGAGCATCTGATATTTATTGAACAAAGAAAGCATGGACTTCAATAATC
TATAAGGCTTTAAAAATTCAACCAAAATTTGATAATTTTAAGTTACATTTTTTCCCTAGAGCACTATATAATAGCATGTCCTAGGAAAGACAGATGTGGG
CAAGTTTCTTTTCTACCAAGAGTGTAGAATAGTTTACATTTCTGATTTAAAAAGCAGTTCCGTTAACACTTAAATTTGCTGAACTGGTTGATATTAATGT
TGCAAATATTGGTAGAAAAGTTGTTTAGCTGTGAATAATTAGATCCCTTACTTTAAATTAATAAAAGAAGTCGGGATAACACTGACCGTGCAAATTACAA
ACGTGAGGAGGGTTTACTATAAAAGTAGAGAAAAGAAGATACTGTTTTAAAAATATATGGTATAGCACTGTTACGTGAATTGATTTCTTACCTTTTGGAG
CCGCATGATGTCGCTGTCTACCATGAAGTTATAGCTAGCCAACATTCAAATTTCTTCTATTACTGCATCATTCCCTGACTGTTGAATGATGGCGGACGCA
GAAGAAATGGATTAATAAATTCCGGAACATACAGTATTTTATCTTTATGCGGAAGATCTTCTAATGGAAATAAAACCAGAGGTATTTGACATGGTGTTTA
CCCCGGAGGATAGATTGGGAAAGCAATGTCTGCTCCTCCCGCTTCTGCTCCTCGCAGCCTGGAAGGTGGGGAGCGGCCAGCTCCACTACTCCGTACCCGA
GGAGGCCAAACACGGCACCTTCGTGGGCCGGATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCAGGATGGCCTCCAAAGAC
CGCGAGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAGTGCAGCA
TCCACCTGGAGGTGATCGTGGACAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAGGGACATTAACGACAACCCGCCCTTGTTCCCGGTAGAGGA
ACAAAGAGTGCTGATTTACGARTCTAGGCTGCCAGATTCTGTGTTTCCACTGGAGGGCGCGTCCGATGCAGATGTTGGCTCAAATTCCATCTTAACCTAT
AAACTCAGTTCTAGCGAATACTTCGGGCTAGATGTGAAAATAAACAGTGATGACAATAAACAAATTGGGCTCTTATTAAAGAAATCCTTGGACAGAGAGG
AAGCTCCTGCACACAACTTATTCCTGACAGCCACAGATGGGGGCAAACCTGAGCTCACAGGCACTGTTCAGCTGCTGGTCACAGTGCTGGATGTGAATGA
TAATGCTCCCACTTTCGAACAGTCTGAATACGAAGTAAGAATATTCGAAAAYGCAGACAACGGAACAACAGTTATCAGACTGAATGCTTCTGATCGGGAT
GAAGGAGCSAATGGGGCAATTTCATATTCTTTTAATAGCCTTGTTGCAGCCATGGTTATTGACCACTTTAGCATAGATCGAAATACGGGAGAAATAGTGA
TTCGGGGTAATTTGGATTTTGAACAAGAAAACTTATACAAAATCCTCATTGACGCCACGGACAAAGGCCATCCTCCCATGGCGGGTCATTGCACCGTTTT
AGTGAGAATTTTGGATAAAAATGATAACGTCCCTGAGATAGCACTGACTTCCTTATCCTTGCCTGTRCGTGAAGACGCTCAATTTGGTACTGTCATCGCC
CTAATTAGCGTGAACGACCTCGATTCAGGTGCCAACGGGCAGGTGAMCTGCTCGCTGACGCCTCAYGTCCCTTTCAAGCTGGTGTCCACCTTCAAGAATT
ACTACTCGTTGGTGCTGGACAGYGCCCTGGACCGCGAGAGMGTGTCGGCCTATGAGTTGGTGGTAACCGCGCGGGACGGGGGCTCGCCTTCGCTGTGGGC
CACCGCCAGCTTGTCTGTGGAGGTGGCCGACATGAATGACAATGCTCCGGCGTTCGCGCAGCCCGAGTACACAGTGTTCGTGAAGGAGAACAACCCGCCG
GGCTGCCACATCTTCACGGTGTCTGCGCGAGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTGGTGGAGCGGCGRGTGGGCGAGCGCGCGT
TGTCGAGCTACATTTCGGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTTCAGGTGAGMGC
GCGCGACGCGGGCGTGCCGCCTCTGGGCAGCAAMGTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCCGGCGCTGCTGGCGCCTCGGGTG
GGTGGTACTGGTGGTGCAGTGAGCGAGCTGGTGCCGCGGTCASTGGGTGCAGGCCAAGTGGTGGCGAAGGTGCGCGCAGTKGACGCCGACTCAGGCTACA
ACGCGTGGCTTTCGTATGAGCTGCAGCCCCCGGCAAGCAGCGCTCGCTTCCCGTTTCGCGTGGGGCTGTACACGGGCGAGATCAGCACCACTCGTGTCCT
GGACGARGCGGACTCTCCGCGCCACCGGCTGCTGGTGCTGGTGAAAGACCACGGTGAGCCGGCGCTGACAGCGACGGCCACGGTTCTGGTGTCGCTGGTG
GAGAGTGGCCAGGCTCCAAAGGCGTCATCACGGGCGTCGGTGGGCGCCGCGGGCCCAGAGGCGGCGCTGGTGGATGTCAACGTGTACCTGATCATCGCCA
TCTGCGCGGTATCCAGCCTGCTGGTCCTCACGCTACTGCTGTACACAGCGCTGCGGTGCTCGGCGCCACCCACCGAGGGCGCGTGCACGGCGGACAAGCC
CACGCTGGTGTGCTCCAGCGCAGTGGGGAGCTGGTCGTACTCGCAGCAGAGGCGGCAGAGGGTGTGCTCCGGGGAGGGCCCACCCAAGATGGATCTCATG
GCCTTTAGCCCCAGCCTTTCACCTTGTCCTATTATGATGGGTAAGGCGGAGAATCAGGATTTAAATGAAGATCATGATGCCAAAGTAAGTGAATTTTCAT
AATTAACAGTTAATTTTTATTTTAAATTTATAATTGTTTTCCTCATATTTGTCTTCTATATTTCTGTTTTTAATTTTTAATTAATTTTACAAAATTACAT
ATTTTCATTTTATTGTGTTTCTTATTTTAATCTCTTTGCTTCTTTAATATTCATAATTTAASTGAAATTAGAAATCACTGTCCACAATCTGCACCTCAGA
ATTTTTGTCTTCAAACCAAAATATTCTTGGATATGTCGTTTTCTGTTGCATTTTAATTCAGAATCATAGTAGCATTTTTTTCTGATTAATTATATGGGAT
TTTCATTTGTTTGCCTTTGAGCTTTAGGATAATTTTTTTACATATACTCTTTTTTGATCATATATTGAAATTTGAGCACCAGTGTATCACTTATGTTTTT
ACACTTTCCATTTCAATGTTTTTCTGTCGACACTTTTATTAAGCTAACGCTTTGATTTTATCCATTTTGTGTAAGAACTCTGATCATCATAGTTTTTATC
TGTGGTTCCCTTTTCAGACTTGTGATTCCRGGAGGCAATAGTGTTCATTTATTGTCCCCCTTTTAAACCATTGAGGAATAAAGGACAAAAACAATAGTTA
TCAGCCTGAATACTTCTGGTTGTTATGGTTATTGATTTATTTACTACCGATCTAAATAATGGAAAAATAGTGAYTCAACAGAATTTAGACCTTGTGATCA
AGTAAATTTATATGAAAACTGCATTCCTCTGGCATTGCGGCTCTCTTATTTCTGTTTGAATTTCACTTGATGGTCTTCTCTTCATGGAGTCTAAATCTAT
TTCTTTGTATTAGTGTTTTCATTGTTTCTACMCAGTAATTTAAACTATTCACTATTTTGTATGTGTGTGTGTGTGTGTGTGACAGGGTCTTGCTCTGTCA
CCCATGCTGGAGTACAGTGGTGCAATAATGGCTCACTGCACCCTCGAATGCCTGGGCTCAAGTGATTCTCTCACCTCAGCCTCTGGAGTAGCTGGGACTA
CACACGAGCACCACCATGCCCCCCACCTTTTTTTTTTTTTTTTTTTTAAGAGATGGGGTTTCTCCATGTTGCCCAGGCTGGTCTCAAACTACTGGGTGCA
AGTGATCTGCCCACCTTGGCCTCCCAAAGTACTAAGATTATAGGTGTGAGCCACTATGCTTGGCTAGTCATTATTTCTTTGAATGAAAAGCAGCAAAAAG
TAGTGATTAAGTGTGAGTTTTGGTGTTATCCTCCCTTGCCTAAATTTCATCGCTACCAATTTTGTTTTGTGGATGGATTGTTTCACCTCTATTTCAGTTT
CTTCTGTAAAGTTGGAATGATAAACACTAGTTTCAATGATAGAATTGTCATAAAGCTTTAGTAAGTTGATATTGTAAGGCGCTTATAACTGTGTTTGCCA
AATAGCAAGTGCTTAAAAAATTTGCTACTAGTTTTCCGAAGAGGAAAAGAAAAACTTTATGTCATTTTATGCTAGGAAACTCTCATTACGGATTCCATAT
TGTTTTCATTTTACGTAAAGATTGAATTTTTGTTATTCATAGTGAGGCCATAATTACCAATTTAATCTGAGATGTCTCTAACATTTTAAATGCCATGTTC
TACATTAAAAGCAATTTAAAATGTGTGTTTCAAAGTTGAAAATTGAATTAAGACTTGGACAGTGGAAAAGTTTTATGAATTCAAAAGACATTTAACCTGC
TGAGTCCTCAGTGATTTCCTGGAGTTGGTTTTGACTTTTTGTGTTGTCCATGTTCCCAGGAAATATTAGACTACATTAAGCATGAATGGTGTATTTGCCC
ACATTTAAAAGTTGCTTAAGGGCCATTAGAGGACTGAGTTGTGGTTTGTGTTTCCTAATGTGAGCATTTTCCATTCTTGAAATGGCAGAAACTGGTAGTG
GTATTTTCTGTTTTCTAAAAGAAGTACATGATAATTTTTAAGCGTGTAATTAATATTGCACTAAAATTTAAAAAAACTAACTCTACATACTTAAGAGTGG
CAGAATTGTCTCTGATTATACTGAAGATCACCATTTGTGTAGCTAATGATATCTAACAGCCTCAAAACAGCATACTTTCTTAGGAAGTAGAGAACTATAG
CGTTGCTAGTGAGTAAATGTTTTTTAAAAAGTTCCTAGGAGGGTCTTTAAGAGTATCACACTGTGCCTGCTGAGAATCATCGAATTAACAAGACCTGGCT
TCAAATTTAATAGATAAATAAAGGTAAGTATCCTRCATAAATACGATGATAGTAAAAGCAAGAATATTGTAAGAGGTGCTAGAAAGGTACATCATAGTGT
TATTGGAATTGGAAAAAAATCTTTGCCTTTTTCCCTTGTTGAAGGAGACCGTGAAGAGTCATGATGTTTTACTGGTTATAAAATGGAAAGAGTTTTCCCT
GGGAGAATATGGAGACTAACAGGTATTCATGAGAAGAGAGTAACTTAAGTGAGTAYACAGAAAATTCCAAATGTACCTAGAAATGAGGAATAGTCCACTT
TGGGTAAAGCACATGGTTCCCATAAGAGAGAGTGTGATATAAAGCAAGAAAAGTAATATGAGAAAAACCTTTTGTATAACTTTGAGTACTAGAYGAGTAA
TTTTGACACTCTTCAAAGTCATTTGAAAGCTGTCAAAAAGTGTGAAGCAATACGAATAAAAAGTATTAACGGAAGATGACTGCAAGGATTAAATGAAGGA
GAATGAAATAGGAATGGACAGGTTACACAATAAGAAGCTACTGCAATACACCAGGAGAGCAGCAATTATAAAAACTTATTTAGGAAAGCATCTGAATACA
GACATAATTATTTTACATGCCATTGGGAACATTGGAGTGAAACATTCCAGAAAACGAACACAGTAAGGTAGATCCAAAAAGGATGAAATACCTCAAGACT
TGATCAAAGGGCTGCTGTATGTGAGATGGCTGAGCACTGAAATTTATCTAATAAAATAAACTTACATTTTAAAAGAAATAATACAAATCATATTTGAGAT
TGTAAAAATAGGCATATATTCATAACACACAAGTGTTCGAAAGGATAGAATGAGGAAACAAATATAAAATGATGAACTCCTGAAACAGTATATATAGATT
CTGCTAAAGCAAAAAATTCAGAATACTTCCTCCTCAAAAAGTTCACATGATACAAATTCTTCCCCTTCAAAGATTCCCCAAACCTTCTCTTATTTTGTTT
TCCCAAGAGAAGTGTCTGGATAGTTGCTAATGTTTCTTGCCTCCTAAAAAGAAAACACACACACACACACACCGCTTTCTAAGTTTCTCTTTCATCAATC
AGTAGATTCTTGAGATCCTGGGTCCCTAAAAGAGTACAGGATTTTTCTTAACAAGCGATACTGAATCAAGAATATGAAGTTTCCTGGGATCTAGATCAAA
GGAATTTAAACTTGCAGTTGTTTAAATTCATGTTGTCACTTAGGTTTCTATCTTTATTTAAAACTGTGTGAAAAAAAAGTTTTTCTAAGGCATGAGGAAG
CTACAGTTCTGGTAACACTGAGTATTCAAAAGCCATCAGTCGCCTAAGAATGCTTCTAACAATCATGAGAAATGCTATTTTAACCTTTAACAACAATGAA
GAAAAAAATTCAGAGTTTGAAATAAAACTTTTCATCTGATTAATAGTTTGTAATGGTTTGTAATTCTTACTTACATGATGGCCACATGATGTCGCTCTTT
ACCGCAAATTCTTTCRTAATCAGCRAAAGGAAGTCATTCCTTTTCGCACTGGAAAGACGCTCCACTCTCTTTCACTCTTTGGATGCACAACAATGGCCAC
ACATMGAGATTGAAATGAAGGGATAAAAACATTCCTATAAATTCGAAGGCAAGTTTTGCTGACTAGAAAAACAAGCCAATAATTTGAAATGGTGTGCCCG
AATGGATACGACCCAGGGGGCCGACATCTACTGCTGTTTATTATAATTCTAGCAGCTTGGGAGGCAGGGAGAGGCCAGCTCCACTACTCGGTCCCCGAGG
AGGCTAAACATGGCAACTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCGGGCGGTGTGCAAATTCCG
TGGGGATCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTSTCGGATCGACCGCGAGGAGCTGTGCSGGCGGAGCGCGGAGTGCAGCATC
CACCTGGAGGTGATCGTRGAAAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGARGGACATTAACGACAACCCTCCRGTGTTCCCAGCGACACAAA
RGAATCTGTTCATCGCGGAATCCAGGCCGCTTGACTCTCGGTTTCCACTAGAGGGCGCGTCCGATGCAGATATCGGGGAGAACGCCCTGCTCACTTACAG
ACTGAGCCCCAATGAGTATTTCTTCCTGGACGTGCCAACCAGCAACCAGCAGGTAAAACCTCTTGGACTTGTATTACGGAAACTTTTAGACAGAGAAGAA
ACTCCGGAGCTTCATTTATTGCTCACGGYCACCGATGGAGGCAAACCCGAGCTGACTGGCACCGTTCAATTACTCATCACGGTACTGGACAACAATGACA
AYGCCCCAGTGTTCGACAGAACCCTGTATACGGTGAAATTACCAGAAAACGTTTCTATCGGAACGCTGGTGATTCACCCCAATGCCTCAGATTTAGACGA
AGGYTTGAATGGGGATATTATTTACTCCTTCTCCAGTGATGTTTCTCCAGATATAAAATCCAAGTTCCACATGGACCCCTTAAGTGGGGCAATCACAGTG
ATAGGACATATGGATTTTGAAGAAAGTAGAGCACACAAGATCCCAGTCGAGGCTGTCGATAAAGGCTTCCCACCCCTGGCTGGTCATTGTACAGTTCTTG
TGGAAGTTGTGGATRTAAATGACAATGCTCCACAGTTGACTCTCACTTCCCTGTCTCTCCCTATTCCAGAGGACGCCCAACCAGGTACCGTCATCACATT
GATTAGCGTGTTTGACCGAGATTTTGGAGTCAACGGACAGGTTACCTGCTCCCTGACGCCCCGCGTTCCCTTCAAGTTGGTGTCCACCTTCAAGAATTAC
TATTCATTGGTGCTGGACAGCGCTCTGGACCGCGAGAGTGTGTCCGCCTATGAGCTGGTGGTTACCGCGCGGGACGGGGGCTCGCCTTCTCTGTGGGCCA
CTGCTAGCGTGTCCGTGGAGGTGGCCGACGTGAACGACAACGCCCCGGCGTTCGCGCAGCCCGAGTATACGGTGTTCGTGAAGGAGAACAACCCGCCGGG
CTGCCACATCTTCACTGTGTCGGCGGGGGACGCGGACGCGCAGAAGAACGCGCTGGTGTCCTACTCGCTGGTGGAGCTGCGGGTGGGCGAGCGCGCGCTG
TCGAGCTACGTGTCAGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGYTGGACCACGAGGAGCTGGAGCTGTTGCAGTTCCAGGTGAGCGCGC
GCGATGCGGGCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCCGGCACTGCTGGCGCCTCGGGTGGG
TGGCACTGGTGGCGCAGTGAGAGAGCTTGTGCCGCGGTCTGTGGGCGCGGGCCATGTGGTGGCGAAGGTACGTGCAGTTGACGCTGACTCAGGCTACAAC
GCGTGGCTTTCGTATGAGTTGCAACCGGTGGCGGCCGGTGCGAGCATCCCGTTCCGCGTGGGGCTGTACACTGGTGAGATCAGCACGACACGAGCCCTAG
ATGAGACGGACGCACCGCGCCACCGCCTTCTGGTGCTTGTGAAGGACCACGGGGAGCCCTCGCTGACAGCCACAGSCACCGTGCTGGTGTCGCTGGTGGA
AAGCGGCCAGGCACCAAAGGCGTCGTCGCGGGCATCGTTGGGCATTGCAGGCCCAGAGACCRAGCTGGTGGATGTCAACGTGTACCTGATCATCGCCATC
TGCGCGGTGTCCAGTCTGTTGGTGCTTACCCTGCTGCTGTACACRGCGTTGCGGTGCTCAGCGCCGTCCTCTGAGGGCGCATGTAGTTTGGTAAAGCCCA
CTCTGGTGTGCTCCAGCGCGGTGGGGAGCTGGTCATTCTCCCAGCAGAGGCGGCAGAGGGTGTGCTCTGGGGAGGGCCCACCCAAGACAGACCTCATGGC
CTTCAGTCCCAGCCTTCCTCAGGGTCCATCCTCTACAGACAATGTGAGTCATAAATAATCTTGTTTCCAACAATTTTAAAACAATTAGTTCAATTGGTCT
CCTTAAATTTTCTTTCATAATTTCTTTTTTAGTTGATAGCTTTATGTATAATTATTATTTTTTAATGTTATGCTGTATTTGCACTAATTATTTGGAAGTA
CGTTTAATATACACTTTTGTTTTGGGATGCGTAATACTATAGATCAAAATCTATGGTTTATGTTGGCTACTCTYCATTTTTGGAGGAGGACTTTGCTAAC
TGGAGCAATGGATTCACCTTTCTTCTATAGTGTATTTACAAAATCAAATATTTACATTTCCATATTTTGATAATCAATACCTATAAATGTTATAGTAAAC
AAATTTAATATATATGTTACCTAATATTTTATTCTATGTATTGTCCTCATTTTATAAAATATASCTGTGTCAAAATCATCTGTTCAATTTTGCCTTTTTA
TCTTTAGTCTAGAACTTGAATTTTAAGCATTTCTTTTACATCTATTTATCTTCTTTTTATCATATTTGTGTAGCACTGACTTCTTTTTAACTTACTTTGT
TGARATGTATTTGCCATGTTCATGAAGAATTAATATGAACAATTTAAAATAGTTTAAATGGCAGTTTAATAGTATTTTTTATTTTGTTCCTTGTTTGTAT
AAGAAATATATTCACATTCAAAATTTCAAAGAGTGAAATCTAGTACGTAGTAAAAAATCTCCTTGCCTCCTCAAACCCCAAACCATTTACTTTACCTTTC
TGAATTTCTGAAGCAGTTTACGTTTTTTTGTATATTCCCAAGATTATTATTGCCAAATTATATAAATATATTTACAATCACCAAATTGTAAATCGCCAAT
ATATATATTTTATAATTTGCCCCTTCCTTCCTTCCTTCCTTTCTTTCTTTCTTTCTTCCTTTTTCTTTCATTCTTTTTCTTTTTTCTTTCTTCTTTCAAG
ACACGCTCTCACTCCATCACCCAGGCTGCTGAAATGCAGTGGTGGGATTATAGCCCACTGCAACCTGAAAGTCCTGGGCTCACAGGATCCTCCCATCTCA
GCCTCTGGAGTAGCTGGGAATACAGTTTGCATGTCATTGTGCCTGGCTAATTTTATTTTATTTTTGTAGAGACAGGGTGGAGTCTTGTTTCCCAGGCTGG
TCTTGAACTCCTGGCTTCAAGCGATCCTCCTACCTTGGCCTCCCAAAGTATTGGGATTACAGACACGAACAACCACACCCAGCCTGCCTTTCATCTTTCC
TTTTTTTTAAAAAAAGAAGTGATTACAGTAGAAACCTACCTTTCTGCACTTTTTGGTTTTCCACTTTAAGTTATATTATATAGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGACAGAGTTTTACTCTGTCGCCCTCTCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAAAAT
CCGCCTCTCTGGTACAAGCAGTTCTCATGCCTCAGTCTCCCAAGTAGCTGGGATTAAAGACGCCAACAACCAAGCCATGCTAATTTTTTTTTTTTTTTTG
TATTTTTAGTAGAAACAGAGTTTCACCATGTTGCCCCGGCTGGTCTCGAAATCTGGGACTCAAGTGATCTGACTGCCTCAGCCTCCCAATGTGCTGGGAT
TACAGGAGTGAGCCACCGCATCCGGCCTAAATTATATATTGGGTTTTGTGGCATATTATTTCATTAGCGCTTATTCCTTGTTTTTGATTATTTGCTTTCT
TATTTTTAAAAGTATTTGCATCTTATTTTCTTTTATGGATATATCATGATTTATTCATCCAGTACTGTATTAGGGACATTAATGAAACAATAACCGAATT
GTCTAGACTTTTAAAAATTTTTTACAAATAATTTGGTTGGTCAAAAAAATGATAGTTAACGGGGCATGGTGGCACACACCTTTAACCCCAACATTTCGGG
AGGCCGAGGCAGGAGGATTGCTTCAGTCTAGTAGTTTGAGACCAGCTTRTGCATCTTTTGTAGAGACTTTGTAAAATTAGCTATGCATGGTGATGCATGT
CTGTAGTTTCAGCTACTCAAGAAACTGAGGTGGGAGGATCACTTAAGCCAGGGAGGTCCAAGCTGCAGTTATCATGCCACTGAACTCCAGCCTAGGTGAC
AGAGCAATACCTTGCCTCAAAAATAAAATAAAATGAAATAATAAAATAAAATAAAATAAAAACCCAGAACTGACAATTTTCACTGTTCCTAATATTCTAA
TATACTTTAGTAAATTATTTTAGGATATGTTACTGTTTTCTTTTCAACGTGAATAAGGATAGAGGTATGCAAAGTCAAAAACCTGTCTGATAATCAATAG
AATTATTTACCATTAAGCCATAATATGTCATTCACATAAGCAGACCAAGTTTGCTGCTCTTGTTGAAAGAATATTCAGTTTTGTGGAAAAATCTATAAAT
ATCTTTGACCTTCAAAGATGGTAACTGTAATCTGTTTTTATTGCTTTGYTTTTATGCTTACATGCATGTATATTTAAAACCTTCCTAGCATATTATTAAA
GTTTTAAATATCCTATTTATATTGGGAAATACCTGAAGTTGATAGGGGATCCTCCTTAGCCACCTAAGCTGTATTCATCAATTATTATGATGATGATGAT
TATTATTTTTGAGACAGGGTCTCACTCTGTAGCCCAGACTGCAGTGCAGTGGCACAATCTGGGCTTACTGCAATCTCTGCCTCCTGGGCTCAAGTGATCT
TCCTACCTCAGCCTCTCAAGTTGCTGGGACTATAGGCACACACCACCATGCCCAACTAATTTTTGTATTTTTTGTAGAGATGGGGTCTTACCATGTTGCC
CAGGCTGGTCTCAAACTCYTGAGATATCGAGAAATACTATTTTCTTTACAAATTGTTTGCTACTATTTAGAGTCAACTACAGAGATTTTTTTGGGTAAAT
AATGTGATGACAAATTTAAATCATTTCACAGAAAATACCCTTATTYGCCTTTCCTATTTAACCTACGTTTTTGGTAAGAATTTTGTAGAAATTTGGAGGA
GCTCTTAATTGCCTACTATGAAGGCATTCATGATGAATCCATGGAGAATTTACTTTTGAGGTGGACTTTGAAAGATGAATAGAATTTTGACAGAAAAAGA
TGAAGTAATAGAAGAAAAACCTTGAACAAAGAGTGTGCCAAGAAGGAGACAACATATTTTCTGTAAAATATGACTCCTATTGGAAAGTGGTTAGCCTTAG
CACTGAGAAGATTGGCTCATGGTCACGTAGCGTATCTCCCAGATGGAAGTCTAATGTCTTGACAATTAGTCAATAGAAAGATAAACTTGTTGAAGATTTT
AGTGAAATCGAGTGAAAGCTGTACTAATAAGGACAGAAATTATCACACGTGAAAGGAGAGATGGGATGTATACAAATTTTAAATATGGTAGGCAAAGGAA
AAGAAGTCATAAAAATACATATGAGTAAATGTGGAGAATCACTATGCTATAAAAATTGTGATTTTTTAATGATTTGGGTTTTGGGTGATTATTGATTAGA
TATTCTTTTAACTTTGGTCGACTCATTTTCTAGGCAATGTTAGGGTATACAGGTAAAAATGTCAGGTAGAAAATGAAAATAGGGGGTTGCAGATATGGAG
TTAAGAATACTTCAAATAATAGGCTAGTTTAAAGCCGTGGAAATAGAAACGTTAAATAAAAAGTTGGGGAAAAAAGTTTAAAGGCATAATTCTGGTAAAT
ACTCACTTTTTGGAGCAGAAGAAAGATGAAGAACTAACAAGCCAATGATGGCAATACTGCTAGAGTTTGGCATGTCAGAGAAATCATAAAGGAAAATGTT
TTAAGTGAGAGGCTGAATTTAACAAGCTATAGAGATATAGAGAAATAGTGTAAAGAATATGCACATACATTTTTATTACTTTAGTAAATAAAACGGTTCA
GGCAATTTGACATTTATTGAATAAAGAAAAGCAAAAATTTAACAATAAGAACACAAGAAGATAAAATGTAGAAAAGTTAGAATTATATGCTCACCTCAGA
GTAATATATACCAGTGTTTCTGGTGACCAAATAAATATTAATGCATTTCTTCCACACGAAACTATGGAGGACAGTTTACATTTCTGATATCCATGACATA
CAGGTCATACTTAAATTTATTATTAATTGATACGATATTTGAAATATTGGGAAGAAATTCCTTTCCTTATGAAGAAGAAATCCCTAGCTGAAACTAATGT
AAGGAGCCAGACAGTATGAATGCCTCTGCAATTGATAAAGTTAAGGATTTACTATTAAATTATGATAAAGAAATAGAAAGTGCATAGAAGAACCCAGATA
TTGCGGAAGTAATTCATGTAATCATTACCTTTTGAAGCCACATGATGTCGCTGTCTACCAAGAAGTTCTGGTTGGTCAATGTTCAAAGTCTTTTCTCTGA
CAGCATCTGTCTCTAAAGGCCGAACAACGGGAGATGCAGCGGAATTGGATTAAAAGACTCTGAAAGTACAGTCGTTCATCTTYATATTAAGATAATATTT
TCTGATAGGAAACGACTATTTAACATGGATTATCACTGGCGAGGAGAGCTGRGATCCTGGCGACTACTACTCTTGCTTCTGCTCCTCGCAGCCTGGAAGG
TGGGGAGCGGCCAGCTCCACTACTCCGTCCCCGAGGAGGCCAAACACGGCACCTTCGTGGGCCGGATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCT
GGTGCCGCGCCTGTTSCGGGTGGCGTCCAAAAGACACCGGGACCTTCTGGAGGTAARTCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGC
GAGGAGCTGTGCGGGCGGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGTGGACAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAAGGATG
TTAATGACAACCCGCCAGTGTTCCGGGTAAAAGACCAAAAGCTGTTTGTTTCAGAATCCAGAATGCCAGACTCTCGGTTTCCGCTAGAGGGCGCGTCCGA
TGCAGATGTTGGAKCTAACTCCGTGTTAACCTACAGGCTTAGCTCTCATGATTACTTCATGCTAGATGTGAATTCAAAGAACGATGAGAATAAACTGGTT
GAGCTCKTATTAAGAAAATCCTTGGACAGAGAGGACGCTCCTGCGCACCACTTATTCCTGACAGCCACAGATGGGGGCAAACCTGAGCTCACAGGCACTG
TTCAGCTGCTGGTCACAGTGCTGGATGTGAATGATAATGCTCCCACTTTCGAACAGTCTGAATACGAAGTAAGAATATTCGAAAACGCAGACAACGGAAC
AACAGTTATCARACTGAATGCTTCTGATCSGGATGAAGGAGCCAATGGGGCAATTTCATATTCTTTTAATAGCCTTGTTGAAACTATGGTTATTGACCAC
TTTAGCATAGATCGAAATACGGGAGAAATAGTGATTCGGGGTAATTTGGATTTTGAACAAGAAAACTTATACAAAATCCTCATTGACGCCACGGACAAAG
GCCATCCTCCCATGGCGGGTCATTGCACCGTTTTAGTGAGAATTTTGGATAAAAATGATAACGTCCCTGAGATAGCACTGACTTCCTTATCCTTGCCTGT
ACGTGAAGACGCTCAATTTGGTACTGTCATCGCCCTAATTAGCGTGAACGACCTCGATTCAGGTGCCAACGGGCAGGTGAMCTGCTCSCTGATGCCCCAY
GTCCCCTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGCGCCCTGGACCGCGAGAGCGTGTCGGCCTATGAGTTGGTGGTAA
CCGCGCGGGACGGGGGCTCGCCTTCGCTGTGGGCCACCGCCAGCTTGTCTGTGGAGGTGGCCGACGTGAACGACAATGCTCCGGCGTTCGCGCAGCCCGA
GTACACGGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCWGCGYGRGAYGCGGACGCGCAGGAGAACGCGCTGGTGTCCTAC
TCGCTKGTGGAGCGGCGGGTGGGCGAGCGCKCGYTGTCGAGCTACRTKTCGGTGCACRCGGAGAGCGGCAAGGTGTACKCGCTGCAGCCGCTGGACCACG
AGGAGCTRGAGCTGCTGCAGTTCCAGGTGAGCGCGCGCGACGCGGGCGTGCMGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAA
YGACAACGCGCCGGCACTGCTGGAGCCTCGGGTGGGTGGCAYTGGTGGCGCAGCGAGCRAGCTGGTGCCGCGGTCTGTGGGCGCGGGCCACGTGGTAGCG
AAGGTGCGCGCAGTGGACGCSGACTCGGGCTACAACGCGTGGCTTTCGTATGAGCWGCAGCCAGCTGCAAGCAGCCCTCGCATCCCGTTCCGCGTGGGGC
TGTACACGGGMGAGATCAGCACCACTCGTGTCCTGGACGAAGYGGACTCTCCGCGCCACCGTCTGCTGGTSCTGGTGAAGGATCATGGTGAACCTGCGCT
GACCGCCACGGCCACGGTTCTGGTGTCGCTGGTGGAGAGCGGCCAGGCTCCAAAAGCGTCATCGAGGCAGTCGGCTGGCGTTTTGGGTCCGGAAGCGGCR
CTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGCGCGGTATCCAGCCTGCTGGTGCTCACGCTGCTGCTGTACACTGCKCTGCGGTGCTCAGCAC
TGCCCACTGAGGGCGGGTGCCGGGCGGGCAAGCCCACTCTGGTGTGCTCCAGTGCGGTGGGGAGCTGGTCATACTCGCAACAACAGCCGCAGAGGGTGTG
CTCTGGTGAGGGGCCACCGAAGACGGACCTCATGGCCTTCAGCCCCTGCCTTCCTCCTGATCTGGGATCAGTTGATGTAGGCGAAGAGCAAGATTTAAAT
GTTGATCATGGCCTCAAAGTAAGTCCATTTAAATTTAGAACTCATAAATTCTATTTGTGGAAATTGTAGTTACTTTAAAAGTGTTTCAGATTTAGTTTTT
CACCGTATTTTATAGTGAAAATTTAAACATTGTTTAGTTTTTAGAAACCTTTTATAATTAATTGAATTTTCTCAGTGGCATAATACAGTATTAATCATTC
TCCACAAGTTGGGTCTATCTTGAAACTCAAGTTATGGTTGGATGATATCCATTTTTTACTGAATATTTATTTTGGCCTGCCTTACAGCCGTCTTCTCTGA
ACAATACTCTAAGGACGTTCAGGGCATTTTGATCTTTGGTGAAAGTATTCCCCCAAAGCGTTTATTCTTTTGTCCTTAGGCACTGAACTCTTAATCTTAC
TCCATATGCTGTACTTTGAAATGCATGTTTTAAATATGTTGTCTTTATATTTACTTTTATTCACTTTAAGATCTCGGTTTATTCATCTTATCTGACTTTT
TAGTGTCTGGTAGTCACAAATATCTTTGGTGTTTCACTATTGCCGTTTTAAGCAGTGTAGTGATAAAATACAGAATGATAGTGTTTTTCAAAATTTGATA
GTTTTCATATTCTTCCTAATTTTATTATAAACTAGTTAAAAAGTAAAATCAAGAGGGAAGAGATTTGTAATCCTTCTTTTAATTCATTATTTAGACCATT
TTACCATTTGGAGACATGTTTTTTATTCTACATGATTTTTACAGTTGTATTGTCGCCAACTTAACATTTTTTGAGCCTCTATGTTTAGGAAATGATTACT
TTATTCTTGCAAGTATCTTCTAAACTCTAATCATTCAACCCTTTGTTCATGAGTTGGAATATTTTCAATAATATTCCACATTAAAGTGATATTTAATATA
TGACTTAGAAAAATGTTTTCATCAGAAAAACTATACATGATAATTTCATTCTTGCAAACCAAACATATAATTTATAAATCCTTATTATACAGAATATTTG
GGATTATCATGGCCCATTAGTTCGTGTAAAAATATTTAGTATTATGGGATAAATCTTTGAAAAATCCAAGATACTTTATTTTGGTATCTTTCAACATTTT
CTTTCTTTTATTTCTTCTTGTCTTTTTACACGTTTGCTTCTTGTGACTGTTGGACCTGCCTGGATATTAAATACCCATTAGACTTCGTGCATATTGCTTT
GGAGAGAATGGTAGAAATTGATGGAAGGGAATGAACGATTTCTGGGACTCTGAATTCTTACAGTTTGTTATTAGTATTGTTTTAAATCTTTTAATCACTT
ATGAACAAATAATGTAATCATTTATGGGCATATTTTAGCCCCCTTGTCCAACTGAAGGTAACCTCAAAGCAGCATTGTTTTGTAGTTTATTTTACAGTTC
TCTTAATGCCTGTCCATGTTTAGCATTTTATTTGACTATTTGAACACATTGTGTAAAAGCGAATTGTTTTCATTTTAGTCCTTTAAAAAATATGATTGTT
TTCATTTAAGTCCTTTTAAAAAATATGATTATCTTTATTATCCTGTTTGAATAATATGTGTTTTCCTTTGTGAAAGTAATATTTCCTATCCTGTCTATGT
CTACCTGGTTCTCAGGTATTACTTTAATTACTGAATTCTCCTAAACATTTAATTGACTTTTACAAAATATCATAAATAGGAGGATTCTTTCCACCACCTA
GCATTGTATTTGGCAATTTATCATTTAAGTCATTTTAGTTCTGTTTTTCTTCAACTCTCTGATATTTGAATTTGGGGTTGTGCTTTCACAGTGAGAAAGT
CTAAACCTATTTCTTGTACATTAATACTTTTCACTATTCTAATTATGGTGATGCYTTTAGCTATTAAGAATTTCTGGGATTGAAATGTGTCAGAAGTTAG
TTATTARGTATTGTGGATTCTGAAGCTCTCTAAATCAAGTCCTCCCTTTACCAATTTTTGTATGTGTAGCCATTGGTAAAGGATTTGTTATTCAGTTCCT
TGGCATTATATGTATGCATGATAAATGTGAATTCTACTTTATAGATTTATTTGTATCAAGTAAGTTAATAGTTATAAATTATTAATAATAAACTCTGGCA
AGTGATAGGTACATAATAAAATTTAGTTATTACCATTCTTAAGAGAAAAGAAGTTAGTGATTGCAGAAAGGCAACCTAAAATGTCAGAAAGTCGTTATGG
CCTTCCATATTAATCTTATTTTTGTGTAAAACTATCTTCTGTAAAGTCATTTTTTAGATTAACCTAGGATGTTTCAATATTTTGAATGTTGTGTGGTGGA
ATGAAAAAAATCTAAAAGTTATTACGAGTTTAGGAAAGTCAAGTTAACACCACCTATGTGGGAAAACAGTTTTTTGGAAAGGTTAAAGTCCTTCCAAGGA
ATGTGTAGACTATCTTACTTTGATAGTTGTATGTTTCCCATATTTAAAAGTTGCCTGAGATCCTGCAGAGGCCTGAGTAGGCGTTTGAGTTCTTTGTATG
TATGAGATCTTTCCATTAATAGTATTTTTCTTAAAAAGAAGTATACAATAATGTTTTGATGATGATTTAAAGTCAATTTATGTTGTAGTTCTATGAATTA
AGTAAACCATTTATGTAGAGTGTTGTAAATAGCCTTTTAAAGTGCTTTCTCTTTTTTCTTTTCTTTTCTTTCTTTTTTTTTTTTTTTTTTTTTGAGACGG
AGTCTCGCTCTATCTCCCAGGCTGGAATGCAGTGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAATGATTCTCCTTCCTCAGCCTCCC
AAGTAGCTGGGATTACAGGTGCATGCCACCATGCCCTGCTAATTTTTTGTATTTTTAGTAGAGTCGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATC
TCCTGACCTCCTGATCCGCCCACTTCGGCCTCCTAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCTAAAATGCTTTCTTAGCAAGTAGAGA
AGATTGTAATAACCAGTCTTCATTAAACATTAAATAGGACCCTTACAGATCTCTAACAGCATATCATCATGTCAGGAATTATTACTGAGCCCCAGCCCCT
GGCTTTAAAATTTGAGGTCAAATAAAGAATATGAGTCACACAATGCAAGGCAAGATAATGTAACAGGTACAAGAGGTAAATCAGAATGACGTTGAAGTTG
AAAGACAATCATTTCCTATTTGAATTTTTGAAGAAATACTTGAAGGGGCATGGTGTGTTTCAGTGGTTTTAAAATAAGTAAGTTCCCCCCGGGAGAATAT
TGAGAATGATAGACATTTCTTGGAAAGAGAAAACATAAGGAAAGTTGAAGACACAGAAAGCATCAATATGACAAGTAGAAAAGTCCACTTTGGTTAAAAC
ACACAGTCTGCAGAGAATGAAAGCAGGAAAACCAATGTAAGAAGATCTCTTGATTTCTGAGTAATAAACTAAAGGGCCATGAGTGATTAAGGAATTTGGC
CACTCTTTAGAATTAATTGGGAGCTATTTAACTACCTTGAGCAAAATAAATCACGACTTTTGAAAGAAGGTTGAACGGGAAGACAAACTCAGAAGCTCCT
GCAGTAATCAAGGACAGAAGCAATTGTTAAATGCACCTCTTAGGCTGTTATCAGTAGAAATACGAAATAAAAGATAAATATGCAAAAACATTAATGGCAC
AATAAACACTCACGGTTTTGCCTTTAGACTTGAGATACACTAAAATCTAGATTTAATTAATCGACTTGGACGTTGGAATAAGATAGTAAAACTCACAACA
AAACTTTGTAGAACTTAGTCAGGAAAAGAATCTCAAGCATAGCTTTAAAAACAGAAATTGCCCCGAGTACTAAGGATGAGCAATAATGAAATTAAAACAT
ATTGTAATAACATTACACAAACTATATTGGAGAYTACAAAGAAGAGATTATTCATAGATTATAAAGCTTGGAAAGAATCAAAACAACACATTTCTGGAAA
CAGATTGTATAAATGCTACAAAAGAGAAAAATATATTTTCTCCCCACGCAACACAAGACCTTAAAGTCAATTCTCGCTTTTCTTGCAATATTTTATACCT
TTTCAATTCATAGAATTACTCAAGAAAACTACCTCAGTTGGTTGCTACTTTTTGTTGATTCCTTTTACCAGACATGACTAAGTTTCTTTTTCATCAGTAG
ATTTCTGGGCTCCTATATTCACTAGAGATTGCAACTCCTGGATTTCTCTTACACTAGAATCCTATTTCGAGCCATATGGGAGATTCTGAATTCCAGAACA
AAAGAATTTTGTAATTTAAAATTCGTGATTGCTCAATGGAATCATTTTAATTGTTACTTCATTTCTGTCGTTATTTAAAACTTAAGTGGAGAGTTTTCTC
AGGGATAAGAAAACCACAATCAAGGTCATACAAAACTTTTAGAGGCAGTCAGTCTGCTAAGAAGGCTCCAGCAAGAGAAACGGGATCTTCTGTTTCAACA
ATCATTACTTAAGAAAAAATTAAGAAAATGAAATAAGTTTTGCAGAATAACTGTGAAATTTTTATTCATGAAATATGTACTTACACTTTGGRCCACGTGA
TGTCACTCTTTGSCGCGATGTTCTCTCTGAATCCAGACAAATACAGCCCTTTTCCCATGGGAAAGAGGCTCAATTCTTTTTCACTCTYTCTGTGCTGAAC
GATGGCKAACACAGMAGAATGGGACTGACGAAATCAGATGATTTCTTCTAATTTGGAGGCAATTTTCACTAATTAGAAGAAGACTGAGTATTTGAAATGT
TATACTCAAGTCGAGGAGATCCAGAGGGTCAGCCTCTACTGCTCTCGCTTCTGATCCTCGCAATGTGGGTGGTGGGGAGMGGCCAGCTCCACTACTCSGT
CCCSGAGGARGCCRAACAYGGCAMCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTSCAGTTGGATTSC
AAAKGCCGYGGGGAYCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAGT
GCAGCATCCACCTGGAGGTGATCGTRGAMAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAAGGACATTAACGACAACCCTCCRGTGTTCCCAGC
GACACAAAAGAATCTGTTCATCGCGGAATCCAGGCCGCTTGACTCTCGGTTTCCACTAGAGGGCGCGTCCGATGCAGATATCGGGGAGAACGCCCTGCTC
ACTTACAGACTGAGCCCCAATGAGTATTTCTTCCTGGACGTGCCAACCAGCAACCAGCAGGTAAAACCTCTTGGACTTGTATTACGGAAACTTTTAGACA
GAGAAGAAACTCCGGAGCTTCATTTATTGCTCACGGCCACCGATGGAGGCAAACCCGAGCTGACTGGCACCGTTCAATTACTCATCACGGTACTGGACAA
CAATGACAATGCCCCAGTGTTCGACAGAACCCTGTATACGGTGAAATTACCAGAAAACGTTTCTATCGGAACGCTGGTGATTCACCCCAATGCCTCAGAT
TTAGACGAAGGCTTGAATGGGGATATTATTTACTCCTTCTCCAGTGATGTTTCTCCAGATATAAAATCCAAGTTCCACATGGACCCCTTAAGTGGGGCAA
TCACAGTGATAGGACATATGGATTTTGAAGAAAGTAGAGCACACAAGATCCCAGTCGAGGCTGTCGATAAAGGCTTCCCACCCCTGGCTGGTCATTGTAC
ASTTCTTGTGGAAGTTGTGGATGTAAATGACAATGCTCCACAGTTGACTATCAAAACGCTCTCGGTTCCTGTAAAAGAGGACGCACAACTGGGGACAGTT
ATTGCCCTGATTAGTGTGATCGACCTAGACGCAGATGCCAACGGGCAGGTKACCTGCTCCCTGACGCCCCACGTCCCCTTCAAGCTGGTGTCCACCTACA
AGAATTACTACTCGTTGGTGCTGGACAGAGCYCTGGACCGCGAGAGTGTGTCCGCCTAYGAGCTGGTGGTTACCGCGCGGGACSGGGGCTCGCCTTCACT
GTGGGCCACGGCCAGGGTGTCTGTGGAGGTGGCCGACGTGAACGACAACGCACCAGCGTTCGCGCAGTCCGAGTACACGGTGTTCGTGAAGGAGAACAAC
CCGCCGGGCTGCCACATCTTCACKGTGTCTGCGCGGGACGCKGACGCGCAGGAGAACGCCCTGGTGTCCTACTCGCTGGTGGAGCGGCGGKTGGGCSAGC
GCTCGCTGTCGAGCTACGTGTCAGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGTTGGACCACGAGGAGCTGGAGCTGCTACAGTTCCAGGT
GAGCGCGCGCGACGCGGGCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAATGCGCCGGCGCTGCTGACACCT
CGGATGAGGGGCACTGACGGCGCAGTGAGCGAGATGGTGCTGCGGTCGGTGGGCGCCGGCGTAGTGGTGGGGAAGGTGCGCGCAGTGGACGCCGACTCGG
GCTACAACGCGTGGCTTTCATACGAGCTGCAGCCAGAAACSGCCAGCGCGAGCATCCCGTTCCGCGTGGGGCTGTACACGGGCGAGATCAGCACAACGCG
TGCCCTGGACGAAACGGACGCACCGCGCCAGCGCCTACTGGTGCTGGTGAAAGACCACGGGGAGCCAGCGCTGACGGCCACGGCCACTGTGCTGGTGTCG
CTGGTGGAGAGCGGCCAGGCGCCAAAGTCATCGTCGCRGGCGTCAGTGGGTGCCACGGGCCCCGAGGTGACGCTGGTGGATGTCAACGTGTACCTGATCA
TCGCCATCTGCGCGGTGTCTAGCCTGTTGGTTCTCACGCTGCTGCTGTACACTGTGCTGCGGTGCTCGGCGATGCCCACCGAGGGCGAGTGCGCGCCTGG
CAAGCCGACGCTGGTGTGTTCTAGCGCGGTGGGGAGTTGGTCGTACTCGCAGCAGAGGAGGCAGAGGGTGTGCTCTGGCGAGGGTMMGCAGAAGACCGAC
CTCATGGCCTTCAGCCCGGGCCTTTCTCCTTGTGCTGGATCTACAGAGCGAACGGGAGAACCCTCTGCTTCCTCAGATTCAACTGGGAAGGTGGGTTTTT
CTAGCATTTTATTTATTTATATAATTTTTTTTCTTGAAAGATATTATCRATTACTCCCAGGGGCCGTTCAAATAGTTTTATTCATTTTTCTAGAAATCCA
GCAGATTTTTTTTCTGATAAAGTAAACCCCTTAACATTGGAGCCGACTTTGTCTTGACTTCTAGTGAGAATTATAAACTGTATATTAAATAGATATTTTT
TGGGTGCTGAATCAATTTTATTTAAATTTGTGATTAAAGTGACATTGAATTTCTGATGCTATGCTGCCATAACACTTGAAAACCAATTTAGTTGTTAGTC
ATTCATTAAACATTAACATCACTATCATTTATTTATTGCTAAATGATGCATAGTATTTTAGTCTACTTGTATTGTTTATAAGAAACCCAAGCAAAAATAT
ATAGCAATTGTTACCTTGTTAAGTTTGTAGTTCTCTACATTTCTCTGGATGGAGACTGTGAACATCTGATTGTTCAGCAACCTTCAGTATCTATTATTTT
AATAAGAAAGAAACTTCCCCTAAACTTTAGAAAACAGTTGCTCCACTTTAGGAATCAAATTATGTCAATAAATGTTATAAACACAGCCTTCATTTCAACT
TATATAAAATATGTTTTAAAATGCCTGACAATGTAGATAATTCAAGAAATGTTGACTGAAATTTTGTCTACACTTAGAACATTTTTTGAAATTCAGTTTA
CAGAAATTGGAGAAAATGCTTTTTAAACAAGTGTTTCCTTTCTTCAAGAAGAYATTCTCCTTTTAATYGAAATTTTCTCCATTCAGTGATAAAATGATCA
GCCATGTGAAGATTCGAAACTTCGAGTTCTTTTGAAATTCAGAGTCTGTAACTTAAAACATTACCCTTATGAATTTAGATGAGAATTCACTTGTTCTGTC
AGTAATCCATAAGACAGAAATCTGTTTTTTTAAAAATATCTTTTTCTCCTCTCAGCTCATACATAACACAAGGCAGAAATCTGGATATGAGATTTGCCTC
TTTAATGTCACTACATGTTATGTTTCCTGAATTGTAGTATGTGACTTTCAAAATGGTGGTTTTCCACACTCTACCTTTAGTGCAAGCTATTTGTTTGTTT
TCTAATTTATAGTTTTAAAAACTTCGCTTATTGAGTTTTTGTTATGTGGTTTATATTTTTCTTTCTCTTTCAGCTATTTTATTTAATATTGTGTCAGATA
TTTTACAAGGTATGACCTAATTAAAAACTCAGTAGAGAAAGATCAGAATGGCCTTGAGAATAGAGCCACAAAAATAACTATGAAAATGCCAGTAACGTTT
ATTTAAAACAAAATATTTTAATTTTTAAATTTTCCCTTAAAACACACTTTTGGAATATGCTACAATATTACATGTTTTTTGTCTTTTTATTTTTCTGAGA
CGGAGTCGTTTTCTGCCACCCAGGCTGGAGTACAGTGGCATGATCTTGGCTCACTGCAACGTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCT
CCTGAGTAGCTGGGATTATAGGCACATGCCACCGCGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAGGTTGGTCTCGA
ACTCCTGACCTTGTGATGCTCCCACCTCGGCCTCCCAAAGTGCTGGGATTAAAGCTGTGAGCCACTGTGCCAAGGCTTTTTTATTTTTTTTTTTTGTCAT
TTTCTTTCAAAACTTGAGTGGTCTCTGAGCTCCTGTCATTAAACCTATCTATATCTGTCTATCAGCACAACTCACCTTGAATATAGTCTTATACTTTCAA
GTATCTTTGTCTTTGCACGTTTTTCAAGTTTCATGTGCCATTTAAACTTGGACCCAGGTATCTGATTATTTGATGTGAATAGAGGGATGCTACAGATGTC
ATTTGTCTCCCGCCCTAAGTCCTCCAGTCTCCTTAGAGCTAGTACTTACTAAGCATTTACTATGTCATCAATAATCATAAAACGTATTTTTTTTTTTGAG
TCAGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCCATCTTGGCTCACTCCAAGCTCCCCCTCCCGTGTTCACGCCATTCTCCTGCCTCAGCC
TCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCCGCCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGTCAGGATGGTCT
CGATCTCCTGACCTCATGATCCTCCCGCCTCAGCCTCCCAAAATGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCTAAAATGTGTTCTTTATTATT
GACGGCTGTATTGATGGGATTGGTAATTTAGTCCTTCATATTAATCTCTATTCTCTCTCAGAGTACAAGCTCTCATCATATGCAAATTCTCAGAAGGGCT
GTGAACACCTTAGTAATAAATTTATCTTTTGAGGTCATTAGCAAACATGAACTCACAGGGATCCASAGATGGTAAAATTCAAAACAGCCTGTCAAGTTCA
AAACAGAGAGGTGAAAGCAGAAGAGACACTTTCCTATTTTGCCTAATAGGTCTCCTTATATGCATCTGTAGTTAACATTCCTCAATTCAAGTTAGAATCA
TGAAACAATAATGAAGCTCCTCCTATGTCTCTTTTCAAGTTGTAATTACTATATAGGAAAAACTAAGTTGTCACCCAATATCTTAGACACTTTGAGAGCA
AAGGGGGTGCTGTAAATAAGTATACAAGATCACAGACCTAAATTGAGCCTGTTCCAGACAAATTGGGGCCTATGGTCAACCTATCCTTAGACCTGCTAAC
GCATTAGCATTAGCAGCACCTAAGTCCTCATTGAATGTTCTGGTTCAAGGCTCCACCTCAGAAATTCTGAAATGGGTAGTAAGAGCAAATTTTCATTTTA
AAGCACACCTGAGATGATTCTCATACAACCGAAATTTTAGATCCATAGCCCTATTTGATACTTGACAGTGCAAGTTTCTGTAATTTAAAAAGATGTGGTG
GCCTGACACCTGCAATCCCAACATTTTGGGAGGCCAAGGTGGGAGGGTCCCTTCCTTGAGCCCAGCAGTTTGAGACCAATGTAGTGAGACTCATCTCTGC
CAAAAAAAAAAAATTAGCCGGGCATGGTGGCACACATCTCTAGTCCCAATTACTCAGGAGGCTGAGGCGAGAGAATCGCTTGAGCCTGGGACATTGAGGC
TGCAGTGAACTGTGATGGCACAACTGCATTTCAGCCCGGGWGACAGCAAGATTCTGTCTCAAAAAAAAAAAAAAAAAAAAGAGTAGTTTAACTACTCCCT
ACTTTTTATTCAATATTGGACATCTACATTGGGATATTTATGTTATCACTTGGTATAAAATGTACATTAGTAGAAATTGAGTTTAGTTTTTATTATTTTG
TGCGTGGAGATGATTGATCAATGGCAAACTTATTTTACGCTCCAGATAGCTAAAACAAACRTTGATATTTTGATACATAACTCATTACATTTTAMTTCAG
GGTTTATAAAAAAGTAATCTCTAAAATCAGAATTTGAATGAATTTTGATGCAAGAGGCATTCCAGAGGAGTAGAGAAGTATAGAAACAGAATTTAGTAGG
ACACATAAACTGATGGATTAAGTGACACCCATTTCTGTCAGTTTTCTTATTCATAAATATTGTTGCTCTGTCATTCAGATTTTAATAAAAAAAGTTTAAA
GTAATTGACACATTTAAAAATATTCTTTAGAAAAGTCAAAACATCATTAAATAAAATAAATTAACCCTTGCATAAGACCAATATGTCTGTTGTTAAGTTT
TCCTTTCTTGGAAAGACAGAAAACTCAAGTTTTTTTCAGCAGCACAGATATATTACATTTTCATTCCTGAATATTTGATTTCAAGAACTTTGAGAGAGAA
AAAAATATTTTTACTGCAAGTGGTGATGAAAAACTTCACTGACATTGATAAAATTACTAGATATATTTCAGAACTGTGTCTTTTGGGCATTTGAAAAGCG
TAAATATAACAGGGTTGAAAGCATTTGCCTCTGAAAGCAGAAATAATAAATTTCTTAATTACTTTATTCAGAATTATAATTAAGATTCTTTTTGCCCGTG
TAAGATATTATAAAATGAAACTTCTTGTATAAAGGATTTTTCTGTAATAGTACTTTTCTGTTTTCTTAAATACAGAAACCACCACTCTCAGCCTGTGCAG
TAGCAATAATTAAGGCATTCTATAGGTAATAATTTTGCCTGATGAGCCAAATTTGGTATTGAGCCTCATGAAAACAAATGTGGCCAAATTGAGGCCTGAG
AATAGTTTCCATTTATGAAGCACTCATTCTCCTTAAGGTACTATTGCAAGCACTTACTATATTATAATTCACTCAACCACCRTATTACTATTAGGCCAAA
GTTATAAAATTGGAACATGAGGGAGGGAGAGGTTAAACGATTTTCCCAAGTCATGTGGCTAGTGAGTAGGATAATAGGAATCTAAATGGAGAAATGTCTG
ATGTTGAAGCTAATGATCTCTAAATTCTAGTGATGACTAGATCTTCGGAGTTATAAACACCTCACAGATAGTTGATGCTTGACATTAGTGTCTARATAAA
CCTTATTAAATCTCAAAATAATGAGAAAGAGAAGTAAGTTAAGTGTCAGAACTTAAATGGAACTAAAGTTGTCATTTAATAAAATATTAGTATACTCAGT
AGTATGCAAATATTAAGGGCATTTTGAAATTCGGCTATTGATAATCATGTGGTTAGGGAAGAAATCACTACTCTGAGAGTCTACATTTAAGAAAACATTG
CACGTGGGATCAACATTTATTGTTATTAACTATAAAGAGACGTAATGTGAGGCTTTGAAAGTCCATAGACATAAAAATACGTAAAAAAAGAATTAACATA
TGAATGAAAGAAAAGTTGTGAACTCATGGAATCGTACTTACACCTAAAGCCACCGGATGTCGCTGTCGTCCACAAAATAGCTTTTTAGAACAAAGGCATC
AGCCAGTTTCTCAAGGACTAGGAAGTAGCGTCATTCTGAGATCTCAGCCATTTCGAYAAAAAATAGATATAAGAAATAGGACAGAAAATGTCAGATCGTA
TGTGCGTTCTAGACCGCTGATTCGTCGATTTGTAAAACAAGAGAAGGATAAGATGGTTTCCAGATGTAGCTGCCTGGGGGTCCAGTGTCTGCTGCTCTCG
CTTCTTCTCCTCGCAGCCTGGGAGGTGGGGAGCGGCCAGCTCCACTACTCAGTCTACGAGGAGGCCAGACACGGCACCYTCGTGGGCCGCATCGCGCAGG
ACCTGGGGCTGGAGCTGGCGGAGCTGGTGCAGCGCCTGTTCCGGGTGGCGTCCAAAAGACACGGGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTT
GTTTGTGAATTCTCGGATTGACCGCGAGGAGCTGTGCGGGCGGAGCGTGGAGTGCAGCATCCACCTGGAGGTGATCGTGGACAGGCCGCTGCAGGTTTTC
CATGTGGACGTGGAAGTGAAGGACATTAACGACAACCCGCCCAGGTTCTCCGTAACAGAACAAAAGCTCTCAATACCTGAATCCAGACTGCTTGACTCTC
GATTTCCACTAGAAGGCGCATCTGATGCGGATGTTGGAGAGAACGCATTGCTTACTTACAAACTCAGTCCAAATGAGTATTTTGTTCTTGATATTATAAA
CAAAAAAGACAAAGACAAATTCCCAGTGCTTGTTCTGCGGAAGCTGCTGGATCGTGAAGAAAATYCTCAGCTAAAGTTGTTGTTGACAGCAACTGATGGA
GGCAAACCTGAATTTACCGGATCTGTTTCTCTGCTGATCCTGGTGTTAGATGCCAATGATAACGCCCCTATCTTTGACAGACCGGTTTATGAAGTTAAGA
TGTATGAAAATCAAGTGAACCAAACATTAGTAATACGGCTCAACGCTTCTGATTCGGATGAAGGAATAAACAAGGAAATGATGTATTCATTTAGCTCTTT
GGTCCCACCCACGATAAGAAGGAAATTTTGGATAAACGAAAGGACGGGAGAAATAAAAGTAAATGATGCTATTGACTTTGAGGACAGTAACACTTATGAA
ATTCATGTAGATGTTACAGATAAGGGAAACCCACCTATGGTTGGTCACTGCACGGTCCTAGTGGAACTACTGGATGAAAATGATAATTCACCTGAGGTGA
TTGTCACTTCTCTGTCTCTCCCAGTGAAAGAAGATGCTCAAGTGGGCACCGTCATTGCCCTAATCAGCGTTTCTGACCATGATTCAGGAGCCAACGGACA
GGTCACCTGCTCTCTGACGCCTCACGTTCCGTTCAAGCTGGTGTCCACCTACAAGAATTACTACTCATTGGTGCTGGACAGCGCTCTGGACCGCGAGAGG
GTGTCGGCCTATGAGCTGGTGGTGACCGCGCGGGACGGGGGCTCGCCTCCGCTGTGGGCCACGGCCAGSGTGTCTGTGGAGGTGGCCGACGTGAACGACA
ACGCGCCTGCGTTCGCGCAGTCCGAGTACACGGTGTTCGTGAAGGAGAACAACCCGCCAGGCTGCCACATCTTCACGGTGTCTGCGTGGGACGCGGACGC
GCAGGAGAACGCCCTGGTGTCCTACTCKCTGGTGGAGCGGCGGTTGGGCGAGCGCTCGCTGTCGAGCTACGTGTCRRTGCACGCGGAGAGCGGCAAGGTG
TACGCGCTGCAGCCGCTGGACCACGAGGAGCTGGAGCTGCTACAGTTCCAGGTGAGCGCGCGCGATGGGGGCGTGCCGCCTCTGGGCAGCAACKTGACGC
TGCAGGTGTTCGTGCTGGACGAGAACGACAACGCTCCCGCGCTGCTGGCGTCTCCSGCTGGCAGCGCGGGCGGTGCAGTCAGTGAGCTGGTGCTGCGGTC
GGTGGKTGCGGGTCACGTGGTGGCTAAGGTGCGCGCAGTGGACGCTGACTCTGGATACAACGCGTGGCTGTCGTATGAATTGCAGTCGGCGGCGGTTGGT
GCACGCATCCCGTTTCGCGTGGGGCTGTACACGGGCGAGATCAGTACGACGCGCGCTCTGGATGAGRCTGACTCGCCACGCCAGCGCCTACTGGTGCTGG
TGAAGGACCATGGCGAGCCGTCGCTGACGGCCACGGCCACTGTGCTTGTGTCGCTTGTGGAGGGCAGCCAGGCACCCAAGGCCTCGTCGCGGGCTTCAGT
GGGCGTGGCGCCCGAGGTGGCCCTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGCGCGGTGTCCAGCTTGCTGGTGCTCACGCTGCTGCTGTAC
ACTGCACTGAGGTGCTCGGCGGCGCCCACCGAGGGCGCATGTGGSCCGGTGAAGCCCACGCTGGTGTGCTCTAGCGCGGTGGGGAGCTGGTCTTACTCGC
AGCAGAGGCGGCAGAGGGTGTGTTCTGGGGAGGGCCTGCCCAAGGCGGACCTCATGGCCTTCAGCCCCAGCCTTCCACCATGCCCARTGGTAGATGTGGA
CGGGGAAGATCAGTCTATTGGAGGGGACCACTCTAGGAAGGTGGGTTATTACGTTTTCATTTTCCTTTTGTGCYTTATGAATAATATTTTCTCTTACCGC
ATTTTCTCAAATATGTATCAGAATATTTCATTTTTGTCTACAWTCCATTTATGCTTGAATATTTCTAGTGATACCTTTGTAATATAATTTATTCCAGGAG
TTTTRAAATTTTTTTATCCTACCCAGTGTGTCAGCCTTTGATTGGTACTTAAATTTTTTTAAATAACAATTTATTCTGAATACACTAATATTTTCCAATA
CAAATATGTGATATAGGTTGCAGTTCTGACGATTTACTTTCATAATCACTTTTCGTTACAAATATTTGTGAGATTAGTACTTCATGTTATTTCATTTCCA
ATCTAAATTTTGATTTGATTGTATTTGCATTACCAAAAAATTCCACTGATCTATATCTCTTCAGTGAAAATGTGTTTTCCTCCATGTGTAGAATATGTGT
AGCGTACCACAGCTTATACTGCCATAGTAGATTTCAATGTTCAGTGATTACAGCTTTTTCTCAATAGTGCAGTAAGTAGGTGGGCAGTTCATTGGTAAAA
ATTTCTTAATCTTAGCAATTAAGTTAAATGCTTTGAACTTTAAAAACGTTTTCCATTTTTATTTTAGTTGTAGTGGTACCTGTGTCAGTGTGTATTATTC
ACTTAGCAGAAGAAAATGTATGTTTCTTTTATTTACATAATTTTATCCAGTAGCTCTTCATTATCTGCTCCTTTATCAGCATTAGGCATTGCTTATGATA
TTCAGGTATTAGCTCTTTCACTTTAAGGAAGGAGTCATGCTTATGTTTAATAATGAAGAGAATTTGAACACTTTTTACTTTTGAGACTGAAAATACTTTA
GTATGAATTAATATTAAAAGTTTGAGGAGAAAATAAAATTAATGTTTTCTACTGATCTGATATATTGTATAGTTTAATAGCTTCTCTAGTCATCTTAAAC
AGGGTTGGGTTAGATGATATAGACTCAGAAATGAAAGCTAACTTAGTTGCAGAGTGACAAAACTACACTATCAATTGTGTTTTCCTGAAATTGGTTGTTA
CCTGATACCCATGATTTCATTTTTAAAAAAAATTTATTAATTCTAGTGTTACCAAACACCAATGCCATGAATTTGTCATCTTGCCTATGGCTCTTAGCAA
TTACTTTTTTCTTTCCTTTCTCTTTGAGTATGGAGATTGAATTTGTTACTCAGTACGTGCTTCACAAATAGCTTCAAATAAAATTAAAATTATTGTTCAA
GTTTAGGAACACCAAAAAAAAATTGTGGCAAGAATTTAAGCATGGCATTCTTTCAGTGTTAATACTCTCCATGCCCTGTCTCCAGCTCTTAGAAATTATA
GATGCTAAGTTAATGCAGAGTTTAGAAGTGTATTTGTTATTWTATCAAATAGGTTTATGAAATATATACTTCCCCCTCTGATATTTTGAAAAAAAATCTT
CCTTAATGTCTTATATTATAAGTAATATAAAAAACTTAGTAAAAACTCATATCAATTGTAAAAGTCTCAGGTATACAAGTGCATTAATCTCTCCATCAAT
ACTAACTTAAGGCCAGGCATGGTGGCTCACACCTGTAATCCCAGCATTTTGAGAGGCCAAGGTGGGAGGATGGTTTGAGGCCAGGAGTTCAAGACCAACC
TGGGCGACATAGGGATATCTTGTACTGTGTGTGTGTGTATATATATGTATATATGTGTATATATATATGTATATATATATGATGGGCTCTCCTTACATAT
ATATMTATATATGTACTTATGTATATATAAGCCAGGCATGGTGGTACATGCCTTTAGTCCCTACTGTAGTGCTACTTGGGAGGGTGAGGTGGGAGGACGG
CTTGAGCCTGGGAAGTTGAGGCTGCAGTGACCCATGATTGTGCCACTGCACTCCAGCCTGGATGACAAAGTGAGACCCTATTTCAAAAATTGAAAAAAGC
AAAAGCAATAGTAACACCATTATCCTGCAAATATGATCTTTTTCATATTAATTCACGTGATAATACAGTTGGTGCAGTAGTACTTTATTTAGGATGTCTA
CATACAAGATAAAACTCTTCATGGAATTCTGATTTGTAAGACAAACCCACCTTTGAAGAGGTACTGATCATACACAAGAAGGTATAGGAAAGGAGTTGGA
AGCTCACAAAGAGAAACATAAACATATGCAGGAATCAGGAACGAAGAAGATAAGTGAAATAATATGAAATCAAATGCACTTATGTTTTGAGCGACAGGAT
ATTGTTGTTCTCCATGAAAAGTTTTTTTGGTTTTTTTGTTTTTTATTTTTTATTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTG
GCACGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCYATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGACTACAGGTGCCCGCCAACACGC
CAGGCTAATTTTTTGTATTTTTAGTAGAGACGAGGTTTCACCGTGTTAGCCAGGATGGTCTAGATCTCCTGACCTCGTGATCCACCGGCCTCGGCYTCCC
AAAGTGCTGGCCGAGTGCCACCGCACCCGGCCGAAAGGTATTTTTTTTAACAGAAGAAAATCAGATTATTCCTAGATCAGAAAGAAGCTCCATTGTTCCT
GTACTTTAAAAACTACAAACACCCATTAAGACCACTTGGAACCTCAGGAACAAGGACCAAAAGGTCTCAGAGGAACTAAGTCTTTCTAGTCATGAAATAT
TGTTTTACTAACCAAAAGAGAGGCATAATTTTAGCTGCTAGACAAAGTGGCCAGGAATCCCGGAGCCTACAGCACTGGCTTCTGCTCCTTGAATTTTGTG
AAGCGGGAAAGGACCAGTTCCACTACACCATCCTGGAAGAGGCCAAGGACGGCACATAGCGTCTTCGCGGTCCCTATTGCGCAGGACCTGGGTCTGGAGC
TTGTGGAGCTGATACCGCGCCTGTTTCAGTTGGATTCCAAAAGCCKCAGAAACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTTGTGAGTTCTCTGAT
AGACCTCGAGGAGCTGTGTGGGAGGATCTCGGAGTGCAGCATCCACCTGGAAGTGATCGTGGACAAGCTGCTACAGGTTTTCCATGTGGAGGTGAAAGTG
AAGAACAATAAAGACAACCTGCCAGTGTTCTCAGCAACACAAAAGAATCTGTTTCTGAAACGAGAGCTCTTGATTATCGTGTTTCACTAGAGGGTGTCTG
TGATGCCGACGTCGGGGCCAATGCTCTGATGACTTACATACTGTGCCGCAATGATTATTTTTCCCTGGAAATACCAACAAGAGCAGGTAAAACCACTTGA
AGGTGTATTTTAAAAATTCTTTCAGATAGGTAAGTCACTTCAGAGCTACTCTTGGTGCTCAAAGCAACTGATGGGGGCGAAGCTGAGCTGACAGGCACCA
AAGCATTATATATCACAGCGCTGGATGTAAATGATGATGCCCAGTGTTTGACAAAGGAGTCTATCATGTGAAATTACTGGAAAATGCAAGAGAAGGTACA
CTGGTTATTAGACTTAACCCCTTGGATTTTGACGAGGGTTCAAACCGTCACATTGTTTCTTTGCAACTGATGTCTCCCCTAACATAGAAGCCCTTTTTCG
CATAGATTCAGACAGTGGATAAATAAATGTAAAGATAGGTTTTGAGGAAACTAAATAATGAAAGATTCAAATACAGGCAGTTGACACAGGCAATTCCCCA
ATGTTTGATCACTGCACAGACTTGATAGAAGTCTTGGACATCAATGATAGTGTTCCAGAGTTAGCAGTAAGTCACTATCATTCCCTGTACAGGAGGACGC
TCCACTGGGTACCGTCATAGCCCTAATCAGTGTAATTGACCCTAACTTCAGTGCCAAGGGACAGACGACCCGCACCCTGACTCCTCACGTCTCTTCAAGC
TGGTGTCTACCTTCAAAAGGCGCTGCCCAGAAACTATTCGTTGGTACTCCACAGCGCCCTGGACCAAGAGAGCAAATCTATCCATTGTTGGTAATCGCTC
GGAATGGGGACTCGCTTTCATTGTTGGCCACAGCCATCGGGTCCGTGGAAGTGGCCGAACAGTGAACCACAATGCCCTGGCGTTCCAGCAGCCCGAGTAC
ATGGTGTTCGTGAAAGGTAACAACCCGCGGGGCTGCCACGACTTCACAGTGTCCGCGCGGGACCGGGACGCGCAGGAGAACGTGCTGGTGTCCTACTCGT
TGATGGAACAGCGGGTGGGCGAGTGCGCGCTGTCTAGCTATGTGTGGGTGCACGCGGAGAGCGGCAAGAGGTACGCGTTGCAGCCACTGGACTACGAGGA
GCTGGAGCTGCTGCAGTTCTAGGTGAGAGCGCGCGACGCGGGCATGCCGCCTCTGAGCAGCAATGTGACGCTGCCAGGTATTAGTGCTGGAACGACAACT
WTGTCTGCGYTGCTGGCGCCTTGGGTGGGCTGGCGGCGCTGTGAGTGAGCTGGTGCGGTATTCAGTGGATGCAGGCCACTTGGTGGCGAAGGTGCGCACG
GTGGACTCCAGCTATGACGCCTGGTTGTCGCAACAGCTGCATCTGTCAGCTGGCAGCACCCGTTCCACGTGGGGCTCTGCACGGGCGAGATCAGCACGAC
GAGTACCCTGGACGAGGCGAAAGCTACGCGCCACCGCCTGCTGGTGCTGGTGAAGGACCACTGCGAGCTGGCGCTGACTGCCACCGTCACCGTGGTGGCG
TCGCTGGCGGAGAGCAGCCAAGCGAGGAAGGTCCCATCGCGGGCTTTGGCGGGCGTCGAGGTCCGGGAGGCAGCGCTGGTGGATGTCAACGTGTACCTGA
TCATCGCCATCTGCGTGGTGTCCAGCCTGTTAGTGCTCACGTTGCTGCTGTACACGACGCTGCGGTGCTTGGCGCAGCTCACCGAGAGCTCGTGCATGCC
GGGCAAGCCCACGCTGGTGTACCGCAGCGTAGTGGGATCTGGTCTTACTCGCAGCAAAGGAGATTTTACTCTGGAGAGTCGCCTCCCAAGGTCAACATTA
CGGCTTTTAGTCCTAGTGTTCTCCCATGGTTCAGATTTTGGAGATGGACTTCAATAGGAAATTTTTGAGAATATAAGTACTGTAATCCTGGAAAGTATTT
CATTCCTATTAATGTCCCTCATAGTGACATTGATAATGTTCACCAAGTTATTAATTTGATTGCTTTATTTATTTTGCTTTTGCTTTTTCTTTTGAGATGC
TTTATTTAAAGTACACTGGGGCCGGGTGCGGTAGCTCATGCCTATTTGTAATCCCGGCACTTTGGGAAGCCGAGGCGGGCGGATCACTCGAGGCCAGGAG
TTTGAGACCAGCCTGGCCAACATGGTGAAACTCCATCTCTACTAAAGATATAAAAAAATTAGCTGGGTGTGGTGGTGCGCACCTGTAATCCCAGCTACTC
AGGAGGCTGAGGCACAAGAATTGCTTGAACCTAGGAGGCAGAGGTTGCGGTGAGCCTAGATTAGGCCACTGCACTACAGCCTGGGAGACAGGGTGAAACT
CTGTCTTAAAAAAAAAAGTACATTGGAAGTCTAGCCATCTTAATCACTTTTTACTACAGTCACCATGAACATTCTTTAGGAATATTCTTCAGTTGATAAG
TATAATGATAATAGTAATAATGAATTAGACTGAGTGGCTGTTTCCTGTAAATGAGAAAGTTAAATCTTACCGGAAGGATCATGATGAATAATGATCCTTA
TGAGAAGGTCAAATCTTCTCAATTTTGAAGCAAGTTCTTTATTCCTATTCATTTTCTTATTCTGATTTGTGTCCTCCATTCCTTATTGTTTTTATGTATT
CAAAAATACCATGACAATATTTAATATCATAATTATTTGAGTTTAAAACATGTTTAAATGTTTATCTTTCTATAATCGATAAGTTTATCTCTCACAAATG
GTGATGAGCAGGGTTGAGGCAGCTTCGTCCACAAACAATTTTGTTTCTTCATGATCAATATCCATCTTTTTTGAGATGTTGATTGCAGTGGGTGGAATTT
TAGCCTTGCCTTTAAAGGTGATTTTACTTCTTAATTTTTGTCTTCAATCTTCTTATAATTTCATTTTAGGTCATTGTCTTCACAATCTTCAACTACTTCA
GATAGCCAACAACTTTGTTCTTTTTTAAAAAGAAAACAAAACAAAACAATGTCAGCTCTACTTAATTACCTGTTGACTTAATTGCTGCTGTCCTCCAGTT
TAAGTTGTTGAGCTCTTCTACTATTTTGGGAAGATTTCTTTGAGCACCGATTATACTCATTTTTCTTTCATTTTTGGTACCTGGCTGTATGAAAATATTT
TAGGGTAGGAAAATTCACACTTATTTGGGCTTTAAGTATAAGAGAGTCTTCCCATACATGATGAAGGGTGATACCATTGTCTGTGTTCATTAAGCTGCAT
GGTCTTCAGAATGGCATTGCTGAGCTTGGCAGGGTGTCTCAGGCCTGTAATCCCAGCATTTTGGGAAGCCGAGGGAGGAGGATCGCTTGAGACCAGGAGT
TTGAGACCAGCCTCGGCAACATAGTGAGACCCCCATCTCTACCAAAAAATGTCATTGTTTTTAATAACTTAAGTATAAGAACCATGGGATATTAATAAAG
GCACTTCCACTTGACAATTGTGGTGTTAATTATACCTTAGAATTTAACATTGTATACTTTTGATATATTTGATGCAAAATATTTTTTGCCTTCACACCAT
ATTAATGTGAATTGCTTTCTTTAAAGGGATCCCAGAGAACACGTATTTATAGCTGTAAGGATGTGTATCAAATTATATGTAAAATTACTTTGCTCTTTTT
GGCTCTAATTACAAATGAGATGGCCTTTAATTCTGTGTAAAGAAATAGTATATTTACATATTGCAGGATAACCATGTTATAGGTAGGGTAAAGTTAATAT
AAATGCTGAAAAGGAATTAGTAGTGTCTACCTAGAAAAATAACTTCTGAGAAGATGATTTCTATGAAGATAAACATTAAGGAAATCTTCAGAAAAGGGAA
AACCCTGTCCTACTTTATGGTGCTGGAATTCTCTTCATCCATAGCTATAGGACAAGAGCCAATATTGATCAGTAACTCATGATAATAAATCACCATTGTT
TGAGCAGTTTATTAATATATTTGTTAGACATCATGAAGGGACTTAAATACATTATTTCATTTAATACTTATAACAATTTCTAAAGTACATATGACTGTTC
CAATTTGAAAGATAAAATAAGAGAAGCTGAGATGTGTATCTATTTTATCCAGTGCCAGTACATGGTGGAGATATTATTCAAATGTGTATCTTTCAGGCTT
CAGACTCATTCTTTTATCCACTATAATGTAGAGCTTTCTTTAGTAAGTCATTTCTCTGCTCAAACATGGTCTCGGCTAGGAAAATCAAGCACAAATTGTG
TACAGGCAAATCTTTCTTTCTGTTGTGCTTAGAAGAAACTTCATGATTGTCTTCATCATTAATTTTGTACAATGTGTGATTGAGATGGCACTAAGTTTTT
TTATGTTAAGTGATTTTTTTCTTGTAAGAGTTCGTGATCATCATTATCATTTGTTTTAATCAATGCCACACTGAGATAGGTATTTTGGTTATGTAATTGT
TAAGTAATTAAGAGTTGCCTTATAAGAACTACGTATCTGTTGTTTGGAAGTGATATAAGTAAGAATCGTTTAACATGTAAGAAAAGTCAGAAAACTGTGG
TTTCCAATATCCTTGTGGAACACCTAAACTAAATACTATATACCAAAAATGACACCCTTCTTTCTTTACTGTGAATAAAGACAGTGTTTGGGACAAGTAT
AGATGTTGATATTATTATTTCAGGGACCCTGAACTTGGCCAAAGGATTCAAGAAATGTTTACAATATTGCATACTTCAATAACAATTTTAAAGACATAGA
TTCCCATGAAAATCTTCAAATGTGTGTAGGTCTTTCAGTCTTCTTCAGTCTTATTGTTGGCTGGGAAGCTCATAACAACTGACAAATGATTTGTGACCAA
ATAACTGTTTTTACTTGACTAAGCCATGATAGAGCAGAATTAGCATCACGGRATAAATCCTATAATTTTGTTAATACAGTGGTTGGATAATGTAATTCTA
ATCTGTTGGTTTTGGAGAACCTCCTGGGGTTCTGACAACGGTGTCAAAATTTATTTATGTGTTTTCAAGAAATAATAGCACTAGGTCTGTTAGAATATCA
GTGGATGAYGTGCACTAGTAAGACATTAAACTATGCACTCTAATACTTATATGACTAACAGGACATACAGGCAGATTGTATGTCCTGACTGATATAGTAA
AAGTCAGGCACAAAGTTCCTTAATCTTCAATTGATTTTACAAAATCAGTTAACAATAACTGTATTGAAATGACTTCTTGGTATTAGCCTATACCCAGATA
TTAGGCTGATCCTCAAAGATGAGTTCAAAGGGCGCATAATCTCTTCACTAGGGGCTGGTTGAGATGGTGACATCTGAAATATCACAGCCAAAATGCAAAA
GATGGGTCATTGATTCATACACTATATCAAACTCTTTTATGACTTGGCGTTTGTTCAGTACTACTTTATATATTCACAAAATACTGTATTGTTGGAAATT
AACACCTAAATTAACATATTGTTTTAATTCAAATATGTGATATTATCATTTTTCCAGAGTAAACCTTCTAAGGTTCATTTCCCTACCTCGCAAGACTCCA
CATTCCATGTAACATCTTCATCCCCAATTCCCATAATAAGGTGATTGAGGATCTGTTGTTTCCTTTTGTTCAAAATAAACCTGATGTGCTTCAAATATCA
TGTTGAATATACTGTCATCTGGTCTAATGTTATGTTTTGATTAGAGGCTACTATGATTGATTATTTTACAGATGCGTAATGGAATTAACGGTTATAAAAG
TTGATATGTCTCCTTTAATTTTTTAATACAGAATTTTGCATTTACCTGAATTAGAGTTCTAGTGTTATGACAACATTGGGAAAAGAGTAAATATGAAAAA
AGTAGAACAAAATCTCAAATTAATAGTTGAATATATRTATAAAATATTAGCATACACATATGATAACTTTTTCATATGCCCTTGCAGTATTTTTAGATTG
GAGATAAACCATCAAAACTATAGAACAAAATATTTAAGCTAGAGTGATATTTATTCTAAATCACTTTCTACTCTAAAATTTTGTTGCATCTTCTTTTTTT
CCTCCTAAATCCTAAGGGTATATGAAAAGACAAAGAAAATTCAAGCAAGTTACAACTTCAGGCAAAGAAAACTCTSATAAGCAATTCCTGTATTTTACTT
AGCATTTTCTATGAAATTCCATTTCCACAAGCACTAAGGTAATTTACCATTTAGTTGAATTGTTTGATTAATTTTCTATGTTTTAAGCACAATATCAGGT
ACTTACAGAAGGTATAATTAAAAATCACTTCCCTTGTTTTCCATGAACTTCTGCTCCCAAACCCAAAATTCTTTCAACAAGAAACAAACTATTTTCATGA
ATATAACTGAATTAGATTAAGGAAACCAATGTTGGTGACTTGGAAATACCAATATGGCACAAAGATGTTCAGGGTGATTTTATTTATTTTATAAAATGAT
AATAAAATTTATTTTATAGTTGAAAAGCCTATTTCTGTCATATCATTGATTCTGTTACATAAAGTGCTAAATTTTGATAYCTCATATTATGCTACTATGG
CTTACATTAGAAATAATATATGTCAAATAAAAWCTCATCTAGATCAATAGACTTTTCCTTTGTGGATTCTTTTTTAAAACTACCAAGTTTGAGAATATGA
ATATATTTGTTTTTCATATTGTTCTGCAATGAATATAAAGTCACTTATAATCAGAAAGCAATTAAATGTAAATAACAGTAAAGAATGAGAACTATAGAAA
ATAGATATGAAAATGCAAGCCCACAGAGATGAGAATAGATCATGTGGAACATAAACACTAAAGAGCTGCTTTTATAAAACTTCAATTTTTTCTTTGAGTT
CCCTAGCAGCCAAAGTAACAAGGGAGACTGAAAGTAAAACAATTCAAATTTGATAGTATTTTTATATGAGGAACAACACTTTCAGGAAATGTTTAACCCT
AGTTTTTCATGAGGCCACCTTAACAACTGAATTCTCTTTCTCTCTCACTCTGTGTATAAGTATTTTAGATAAGTAAAAGAACAATGTTATAATGTTAAGT
CAAACATAGACACAATAATTTAAATTTGATGTTAATCGAGAAATACAATGCCATTTCCATATATATTTAGTTTCAATATGACTTATAATCTGAATATTCC
ATAAATAAGCACGTTGGAAATATTTGGGGGAAGAAACCCAAAACACGTGAAATTCTGTGGTGGTAAATGCAGTGCACAGTACTCACAGTTTTAGGCGCAA
GGTGTCGCTCTTTACTTGGTGGAAAGTTCATTTAAAGGTTGGTCTGAACAGTGAGGCACTYCCATACAAAGGAACTCCATCATACCGGATGCCACCGTTT
AAGGATCCTTTGAAACTTCTTAAGAATTCAACGAGATTTTTAACCTGARACTGAAGAATCTGGTACTGTAAGTGTAAAGAAGCTTATTTTGGAAGCCAAT
TTCGTATGCGATGTTTGGTTTTCAGAGAAGGGGATTGGGCACCCCACGACTACAGCTCTGGCTTCTCCTCCTCGAATTCTGGGAGGTGGGGAGCGGCCAG
CTCCACTACTCCGTCTCGGAGGAGGCYAAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCAGCGCCTGT
TCCGGGTGGCGTCCAAAACACATGGGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGG
GCAGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGTGGACAGGCCGCTGCAGGTTTTCCATGTGAACGTGGAGGTGAAGGACATTAACGACAACCCG
CCGGTGTTCTCGCTCAGAGAACAAAAGCTGCTGATTGCGGAATCTAAGCAATCGGACTCGCGTTTTCCACTAGAGGGAGCTTCTGATGCTGACATTGAAG
AGAATGCTCTATTGACCTACAGGCTAAGTAAAAATGAGTATTTTTCTTTAGATTCACCAACAAATGGTAAGCAGATTAAAAGACTGTCACTTATTTTAAA
GAAGTCTCTGGATAGAGAGAAAACTCCGGAACTTAATTTGCTGCTAACAGCTACAGACGGGGGAAAACCAGAGCTTACTGGCACCGTTCGGCTGTTAGTC
CAAGTCTTGGATGTCAACGACAATGATCCAGAGTTTGATAAATCAGAATATAAGGTGAGCCTTATGGAAAATGCTGCTAAAGAAACTCTTGTGCTCAAAC
TAAACGCCACAGACCGAGACGAAGGAGTCAATGGAGAGGTAACATACTCCTTAATGTCAATTAAGCCCAATGGAAGACACTTATTTACACTAGATCAAAA
TAATGGAGAAGTGAGGGTCAATGGAACTTTAGATTATGAAGAAAACAAGTTTTATAAAATTGAAGTACAGGCTACAGATAAGGGGACTCCCCCAATGGCA
GGTCACTGTACAGTCTGGGTGGAAATCTTGGACACCAACGATAACTCTCCTGAAGTCGCCGTGACTTCCTTGTCCCTCCCAGTACGAGAGGACGCTCAGC
CCAGCACSGTCATTGCCCTGATCAGCGTGTCTGACCGTGACTCAGGTGTCAACGGACAGGTGACCTGCTCGCTGACSCCCCACGTTCCCTTCAAGCTGGT
GTCCAYCTTCAAGAATTACTACTCGTTGGTGCTGGACAGCGCCCTGGACCGCGAGAACGTGTGGGCCTATGAACTGGTGGTGACTGCGCGGGATGGGGGT
TCGCCTTCTCTGTGGGCCACGGCCAGGGTATCCGTGGAGGTGGCCGACGTGAACGACAATGCGCCTGCGTTCGCACAGCCCGAGTACACCGTGTTCGTGA
AGGAGAACAACCCACCAGGCTGCCACATCTTCACAGTGTCGGCGCGGGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTGGTGGAGCGGCG
GTTGGGCGACCGCGCGCTGTCGAGCTACGTGTCGGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGYTGGACCACGAGGAGCTGGAGCTGCTA
CAGTTCCAGGTGAGCGCGCGCGATGCGGGCGTGCCGCCTCTGAGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCCGGCAC
TGCTGGCGACTCAGGCTGGCAGCGCGGGAGGCGCAGTTAACAAGCTAGTACCGCGGTCGGTGGGTGCGGGCCACGTGGTGGCGAAGGTGCGCKCAGTGGA
TGCGGACTCAGGCTACAACGCGTGGCTTTCATATGAATTGCAGCCGGCGGCGGGCGGCTCGCGCATCCCGTTCCGCGTGGGGCTGTACACGGGCGAGATA
AGCACAACGCGTGCCCTGGACGAGGCAGACTCGCCGCGCCACCGACTTCTAGTACTGGTGAAGGATCACGGTGAGCCGGCGCTGACGGCCACGGCCACCG
TGCTGGTGTCRTTGGTGGAGAGCGGACAGGCGCCAAAGGCCTCTTCCCGGACTTTGGCGGGCGCCGCGAGCCCAGAGGCTGCGCTGGTGGATGTCAACGT
GTACCTGATMATCGCCATCTGCGTGGTGTCCAGCCTCCTGGTACTCACGCTGCTGCTGTATACGGCGCTGTGGTGGTCGGCAACGCCCACTGAGGGCGCG
TGCGCGCCGGGGAAGCCCACGCTGGTGTGCTCCCGCGCGGTGGGGAGCTGGTCATACTCGCAGCAGAGGCGGCAGAGGGTGTGCTCTGAGGAGGGCCCAC
CTAAGASGGACCTCATGGCCTTCAGCCCCAGTCTTCCTCTAGGTCTGAATAAAGAGGAGGAAGGGGAAAGACAGGAGCCAGGGTCAAATCACCCCGGACA
GGTGAGTTTTCTACAGATTCCACCTATCAGGAAGTGTATGTGAAATTATTTAAAATCCAGTTTTTTTTCACGGATTTTTTAAGGGAAAGTTTTATGAATA
ACCAGTGTTTTGAATATTGTTTTAGATAACAATGTCTGTTCATAAAATACCAAATGATACACATCTTCAGTCTTTTAATCATATGAATAATCTGGCTTCT
TTAACCAATAAATGTCCTATTTCTCTTAATATTTGGTTAGCAAATCCTAAAAGAAATGAGATGCAAGAGTGACTCTTCTGTAGTCACTTGAGTAGAAATA
ATTACTATTTTCACTAAAGTACCCATGCCCCTTCATCTCTAAACTTCAATTATGACCATAATAACTATGGATTATTTAAATTTGCTCCTCTTTGTCTTTT
AGCAGAGTTTTGCCTTGATATTTCCACATTGTTAGATCAACTGGCTTTGTTTTTCTAAAGGGAGGAGGTCTTCCTATGATGTCCAGGTTGGACTGCAGTG
GCTATTTACAGGTGACCTGTAGCCTGGAACTGCTAAGCTCAAAGAATTCTCCCACTTCAGCCTCCAGAGTAGCTGGGAATGCAGTGCCACTGCACTTAGT
CCATTGGCTTTCCTAACTTCAGGCTTGTATCAAAGCTAGAATACTCCATTAGTATGACATGATTTACTTTTCTTTTTTTTTTTTACAGTGTTAAACGTTC
ATCATAAATTCATTATATATGAAACAATCTTTACTTTTGTCTTTATTCCTGTGATAATACTTGTTTTCATATTGTTTGAAGAAAAAAGTTAAGCCTTGCA
TTCTTATATGCTGCTTTATGGAAATAATATGACTAAAATTCTACATGTTCTTGCCAGGCAAAGTGGTTCAGGCCTGTAATCCCAGCTATTTGGGAGGCTG
AGGCAGGAGAATTGCTTGAGCCCAAGAGTTCGAGGCCTGCCTGGACAACATAGCGAGATCCTGTCTCTATAAAAAATTAAAAAATTAGCCAGACCTAGTG
GTGCATGCCTGTAGTCCCAGTTTCTTGGGAGGCTGACATGAGAGGATCCCCTGAACCCAGGGGTTCAGGGCTGCAGTGACCTATCATCGTGAGACCCCCA
TCTGAAAAAATAATTTTTTTTGCCTGTTCTTGATTTTGTTCCATGAAAAGGCAAGAGATTTGTCAACTATTGGATACTCAAACAAAATGGCATGATTTAT
GATTCCAAAGGAAACTAGGTAAATAAAATTATTCAAATTATCTAAACTTGCTAAAGACATGCATATAGGGCTATATTATCTATAATATATGCTAGTTGGC
ATTCTTCCATAAGTTTTTCAGATTCATCTAGCAGAGAAAAAATTAAATATATTAATGTGAGTACCTACTGACAATTATCAGTTTCATTCATCTCACTTTG
TAACTGCTCTATCTTGTAATGCCTTATCTCTAATGTTTTTGAAATTTTCTTTCCACGTAGTATCATCCCATCTGAAGATTTGAGCAAAGATCATTTACTT
CTGAGTCATTCTTCATATTTAGTTATTCTTACTACAYGTAGAGTGGTGGTATTACAGACTTTCTTGAGAATCATATCTAGCTATTTCCCCCCCGTATAGA
GGCATAACATACCATTTGGCACAATATTCAAAGAGTCTATGCTGAAGCCTATTCATAGACTTTAGATCGAGAGCTTTTGTATCATAATATTCATTGGCTA
AAAACATTCTTTAAGTATTAAAGAGAAGGCAACAATATAAAAATATAAAATATTTCAGACTCAAAAGTGATTAAACCATCATACCACTTATGAAACTTTA
TAAATATAATAAAGGTGAATATTAGATAGGGCATACATTACTCATCTCCAGATGAARTTTTTGGAATAACTGAAGATCTTTKAAAGACTTGGGAATGTTT
TCAGTACAGGTTAAAATTTTGTAAATTATTATTTTATATCACATAAATAACAAATTTGCATTTTAGATAATTCAAATTACTTGGACTGATTTCTGCAAAG
TTGTGTCTTTTATACTTAATGCCAAGATTGCATTCTATGGTATAAAATTATAATTTCAATTTATTTTCTAGTTTGGTTGTTTAAGTATTAAGCTAAACTT
AGATGTTCCTATTGGCTTAACAATTTGTTTAGGTCAAAGAGTATGTGAGAACTACATAACACACTATTATTATTTGTTTCTTTTTGAGATAGAGTCTTGC
TCTATCACCCAGGCTGGTGTGCAGTGGCGCAATCTCAGCTCACTGCAATCTCCACCTCCCATGTTCAAGCAATTCTCCTGCCTCAGCTTTCCGAGAAGCT
GGGACTACAGGCATGCACCACCACTCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGTTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCT
CAGGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTAAGTCACTGAGCCCAGCCTATTTTTTAAAATTAAAGTTCCTTAGCATGTAT
GGTACATTGACCACTTTTGAAAATGAAAAATAGGAAAGAAACTTGGTGATGATATTAGACAATTTAAATAATTAGCCTGATGACATCAAAATTCAAATAT
GTTTTTAATTRCTTAACGTTTTATAGTTTATTTAAGTTATCTTATACTTGTAGAGCCATTCTTGGTTACTCTTTCCTGGTGTTGTAAAGGTGTCATATTT
CAGTTGCCYTTATTATTATATGCAGTAGGAATGAATGGCAACAAATTATTGGTTTAAAGATTTTGACTTGAGTATTAATAGACTTACAAAATCTATGTGT
ACTTGTTCACAATGAGTTGTAGGATCTTATCTGTTTTTTTCTCTTAAAGCTGATCTTGAATTAATGAATAAACTCATGAAAGGTCTTTTGATGCCCCCTT
GCATAACAGTCACCATTCTGATTTTCTGAAGAGAAGCATGTCCTAACTACTAAATGACCTGTAGGGGAAGATTTAGAGAAAAAGCAAAAGGTTGATATCA
AGTTCACATTCTCTTGACTTTAGTCAATGAGATTAGGCTCCAAAACCCTTTAAGAGATCTTTCGCATTTTAGTGCTCCATTGTTGCTTTGGGATAGTGTG
AAATTTGGAGGCTTCAACTAAACATTTTACATTAAAGTGCTTTACTTTTGCTAGAGTAAAACTTTCCAGAATCTATTCCTGAGATTTGTTTTAACATGTT
ATGGAAATGAGAGCAGTTATGTGAAAAGTTATCACATTCAAGCATCAAGGAACCAAACAATAACGCTCTCCATATTTATGATGAATTCTAACTTTCATCA
GATTTATGAATAAGACAATTTATATAAATGAAATATTGTTTGGTATTAGACATATTTTAGTTTCTTATCCTTTGTTAAATACAAATTCCTAACTTTCTCT
AAAATCTTACGATGGAGTGCTTGTGAAGGTTAAAAGTTATTGAAACAGCGGAATTGTAAGCTATATAAGGGGAGGGGTGCTGTATATTATTCTGTATATC
ATTTTCCATGATAAAGTGTAGGTTCTGGCCTACTGTATTTGAAAGATTTCTACTTTGAAGCAGAAAACATTTTTAAGCTACAGCGTAATAAAATTGTTGA
TGTTTTGTTACTAATATCATGTATATTAACTAAACCCGCATTTATAAATGATCCGTGAAAAATAACCCAAAGTCGAAACATTAGAATTAAGAGTGACCCA
GGAAGTGGCTAAACCGAAAAGAACCTCAGGATCTTTCTTGTACTTACATAATCAGTCACATGATGTCGCTCTACACTCAGAAGGTGAAACAGGAAAATTT
TTTTCTCCGCACCCACATTCCAATCATTCACGGAATAGGATCGACTCCATAATGACTGTGATGCTGGAAAAAATTTACTAAATATGTACTTACAGAAAAG
GGTGAYTGCTCATAAAATACCTCAGGCAAGCGATCCCTTAAAACTGATTGTCCCAACTCAGAGGCCCTCATTTTCTGCAATGGTGATTATCGGACCAAGA
GGCCCGGGATCCCAGCGTCTGCTGCTCTCGCTTCTGCTCCTTGCAGCCTGGGAGGTGGGGAGCGGCCAGCTCCACTACTCCGTCTACGAGGAGGCCAAAC
ACGGCACCTTCGTGGGCCGCATCGCTCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCGGGTGGCGTCCAAAAGACACSGGGACCT
TCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGAAGCTGTGCGGGCGGAGCGCGGAGTGCAGTATCCACCTGGAG
GTGAYCGTGGACAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAAGGACATTAACGACAACCCGCCGGTGTTCAGAGAAAGGGAACAAAAGGTAC
CTGTTTCTGAATCTGCGCCTCTGGACTCTCATTTTCCTCTAGAGGGCGCTTCTGATGCGGATATCGGCGTAAACTCTCTTTTGACCTATGCGTTAAGTCT
AAATGAGAATTTTGAGCTTAAAATAAAAACAAAAAAAGATAAAAGTATATTGCCTGAATTAGTTCTTCGGAAGTTATTGGACAGAGAGCAAACGCCAAAA
CTCAATTTATTGCTGATGGTAATCGATGGCGGTAAACCAGAACTAACAGGGTSTGTCCAGATTCAAATAACCGTCCTGGATGTGAATGACAATGGTCCGG
CGTTTGATAAGCCMAGCTATAAAGTAGTGTTGTCTGAAAATGTCCAAAACGACACAAGAGTGATCCAACTAAATGCTTCCGATCCAGACGAAGGACTTAA
TGGAGAAATTTCCTATGGGATCAAAATGATTTTGCCAGTGAGTGAGAAATGTATGTTTTCAATAAATCCAGACACAGGTGAAATTAGAATTTATGGTGAA
CTGGATTTTGAAGAGAATAATGCCTATGAAATTCAGGTTAACGCCATTGATAAAGGGATTCCTTCCATGGCAGGTCACAGCATGGTCCTGGTGGAAGTTC
TGGACGTGAATGACAATGTCCCTGAAGTAATGGTTACTTCACTGTCGCTCCCTGTGCAAGAGGATGCTCAGGTGGGTACCGTCATTGCCCTGATTAGCGT
GTCGGATCGTGACTCTGGAGCCAATGGACAGGTCATCTGCTCACTGACACCTCATGTTCCCTTCAAGCTGGTGTCCACCTACAAGAATTACTACTCGTTG
GTGCTGGACAGCGCCCTGGACCGCGAGAGCGTGTCGGCCTATGAGCTGGTGGTGACTGCGCGGGATGGGGGYTCGCCTTCGCTGTGGGCCACGGCTAGAG
TGTCCGTGGAGGTGGCCGACGTGAACGACAATGCGCCTGCGTTCGCGCAGCCCGAGTACACAGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCACAT
CTTCACGGTGTCGGCATGGGACGCGGACGCGCAGAAGAACGCGCTGGTGTCCTACTCGCTGGTGGAGCGGCGGGTGGGCGAGCACGCACTGTCGAGCTAC
GTGTCGGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTAGACCACGAGGAGCTGGAGCTGCTGCAGTTCCAGGTGAGCGCGCGCGACGCCG
GCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCCGGCACTGCTGGCGACTCCGGCTGGCAGCGCAGG
AGGCGCAGTTAGCGAGTTGGTACCGCGGTCGGTGGGTGCGGGCCACGTGGTGGCGAAAGTGCGCGCGGTGGACGCTGACTCCGGCTATAACGCTTGGCTG
TCCTACGAGTTGCAACCGGCGGCGGTCGGCGCGCACATCCCGTTCCACGTGGGGCTGTACACTGGCGAGATCAGCACGACACGCATCCTGGATGAGGCGG
ACGCTCCGCGCCACCGCCTGCTGGTGCTGGTGAAGGACCACGGTGAGCCCGCGCTGACGTCCACGGCCACGGTGCTGGTGTCGCTGGTGGAGAACGGCCA
GGCCCCAAAGACGTCGTCGCGGGCCTCAGTGGGCGCTGTGGATCCCGAAGCGGCTCTGGTGGATATTAACGTGTACCTCATCATCGCCATCTGTGCGGTG
TCCAGCCTGCTGGTGCTCACGCTGCTGCTGTACACTGCGCTGCGTTGCTCAGCGCCGCCCACCGTGAGCCGGTGCGCGCCGGGCAAGCCCACGCTGGTGT
GCTCCAGCGCYGYGGGGAGTTGGTCTTACTCGCAGCAGAGGAGGCAGAGGGTGTGCTCTGCAGAGAGCCCGCCCAAGACGGACCTCATGGCCTTCAGCCC
AAGCCTTCAGCTGTCTCGAGAAGATTGTTTAAATCCTCCCAGTGAAGTAAGTTATTAATATTATTTAGATATATTTGTTTCCTTGAAGAACTTCCGTTTA
GGTTATAACTACATTCTCTCATTTTTCTTTATGATTCTATCCTTTAAACTATCGAATGTCTCATCTTTCTTGGTCATTCTTACTCATTTTGAACTTTTAT
GTATTTGTCTAAYATTAATGAAGGAAATATGTAGGTACAATGGAGGCCATGGAGCACCACACTTAATATTTTTCTTTTTCTATAATATTTTATATGACTG
ATGAACCTTGAAAAAAACAGTATATTAGATTAAAAAGTGGCCAGATGTTTGATAACTTAAAAATTTAATTTGTTCATAATTTCAAGATTACAGGTAAGTT
GCAAGAATGGTACAAAGAGTTCCTAGATCCCATTAATGGATTCTTTAACTCTTCCTCACGTGCTTAGGCTTTTAAAATAGCCTTCTTGATCACTATTCTA
ATTTCAGTACAATCTAGACATTTTCACATTATATTCCAGGTATTATCACAATAATATAAATGATATGTCTGACATATGATGAATGATTTTCTTCATTGCT
CACAAAATATCTTCTTTATTTCAAGTAGGAATAGATACTGTACTATTCTTATTTACATGAAATATAATAAAATCATTTCTCAATTTAAAAATATTTAACC
ATCTGTACGATACAGTACAGTTGGTAACCAACTGTGGCTCAAACCAGTTTCAGATGATCCCAAACTTATCATAGTATACCACTGCCCTGTGCCTATTACC
AAGTGAATCTTCTAATGTGCATTTTACATATTTTAACTTTCTATTTCTACAAAAATATCCAGAGGCTTCTCTTTAACCAGGGAATAAAGTCTTACATACC
CCAGCCTGGTAGTAAAGGCATTAAAATTTCCAGCCTTATATCTACTTTCTTACATATCTTTAGTTTAGGATCTGGAATATAGTATATGTTCAATCACTTT
TTAAAAACATATGGGGGTCTTGCTATGTTGCACAGGCTGGWCTWGAACTTCTGGGTTCAACTGATCCTCCATTTCAGCCTTTCAAGTAGCTGAGACTACA
GGCAGGCTCCACCACTCCCAGCTTCAATCAATAATTTTAAATAAATATATGGTATTGAAATGTATTACCTGGACATTCCCCTCTATCTTAGAAATGAGAG
TATGCCCTAGAAATCAGATAATGTTTTATTGAAGAGTGTCTTGAAAGATAGACAACATTTTACCAAGAAAGTGTTAAGAGAGATAAGTAGGAACAACTGC
ACAGTATATGGTGTAATTGAAGGATTAGAGCAGGGGAGATTGTGAAGGCAGGAAAGCTATTTCTTTTTTAATAAATTAGGTATCAAGTAATGGAGACTTA
AATTATGGCAGTAGAAATGAATTGAAAAAGACATATACAAGAGGCACTGGCAAAGTAGAAGCAGCCAGATAATGACAGACTCAATACAAATGATAAGAGA
AAAACAAAAGTAGAAGTTGACTCTCACTTTTTTAGTTTGTTCARCTGAGAAGATGACATTGCCATTAACCAACCTGCAGAACAAGGTTGGAGAAACAGTT
TGTGTGTAYTTGAGCAGGTAGGGAATGGAGATGAACATTTAAGAAAATGTTACTTTGAAGTCCTAAGAGAATACCGTTGTGATTGGAAATATGGGTCTGG
ATCTCAGAAGAGATTATTGATATAGATTTTGGGAACAACTCCTTTAGAGAAAAAAATAATCCATGAAAGAATAAAATTGCCAAGACAGACATTGAAAAGT
GAAAAACAATGTGTCCAGGTACTTAGGTGGGTAAGTGTGTCGCTTCCTGTGGCTGCTATAACAAACGAACACAAACTGGGTGCTGTAAAACAGCAAAAGT
TTATTATTTCTCAGTATTGGAGACCAGAAGTCCAAAATCAAGGTGTTGTCAAGGCTATACTCTCTTTGGAGGCCCCAGGGAAGAATCTGGTTTTTGTTTC
TTCCAGTTTCTATTGGCTGTTGGTGTTCCCTGGCTTGTGGCTGTACCACTCCCATCTCAGCCTTCTCAGCTTTCATGGTCACATTGCCTCCTCCTCTCCA
TGTCTCTCTCTATGTGTTGGTTTTACAAAGGTACATGTGATTGTATTTAGGGCCCATCTGGATAATCCAGGATAAACTCCTTTCAAGATCCTTAACTTAA
TCATATTATTCACCATATAAAGTAAAATCCACAAGTTCCAGGGATTAAGATGTGGGCATAACTTTTTGGGGACCACAATTCAACCTATTATAGTAGGCTT
AAAATCATAGAAGGATAGACAACAGGAAGCTGAAATAAAGCTCAAAGTGCAATATATCAAGTATATGTTAGAAGTTAAACATGAAGGGAAAAAGATAAAC
AGAAGAGGTTTTCCACCAGAAGTAGAACATTTAAATTAGTGTATGTGCGTGTGTGTATGTATACATATTTTAGTTAAAGAAGTTTGACTATCTTCATAGT
GTGAGTGAAAGAAACAAGTAAAAAATAAGATACTAAAAATAAGACAGGCAGCAGGTGAATTTAGATGAAAACCATGAGAGAATAGAAAATAATTTTTAAG
AGCATATGGTTGACCTTAAAAGCGGGAACAGTTTTTCCTTACAACTAGTAGAAAATGAAAACAGATAATATAAGGAAAAATGACACAAGAAGAGAGCAAT
TGAATTTCTGTTTGGTCACATCTCTCAATGTGTGAATCATCTGAAAGTGAACTGATGGAAATGAGGTTGAGAATTTGAGAAGAGAGGAAAGAGAATATGG
AAGAATCTCTGTAAGCAAGAGGGAGGAGTTAATTATCAATTCACTTGAGAGCCCAACTGAGGTAAAGGTGAGAGTAAATTTGAAGAGAATAGTCATGGTT
AAGTGACAATGTTGAGCAGCTTAATAGGAAGCATAGAGAAAATGGATTGTCAGTGTAACTGCGTGTTGGAGGCTAAAAAGAATGTTAGAGGAGTAATATA
AATAGGTGAATGACTCTAGAGTRTCTGGAAGGGCATATTTTAAATGGTTGACTATGTAGTCTAATTATGTGAAGAGGTAAATAAAGAAATGTAGGGCCAG
ATAGAAAGAATTAGAAGAGAAATACTATGTTAGTAAAAGTAATGGAGCAGGAGAGGATGATGAGGGTAAGAGAATACCAAATACTCTGCCTAAATTTTCA
GAGGAGAGCAGAGCTATGGAAATAAACCCAACAGTCATTTCCTATAGAGTTGTGCACAGAACAGGCCAGATAATTATTGGAGCTATGATATATTTTTCAT
TACACCATTTGGCCTGGGATTTTGTGGCTTGGTAGAGATAGTTATAACAATAGATAAAAGTAAGATCCTCTTCCTCTTTTCCTTGCTAAAGATATGTTAA
CATCTTTGTCTAGCTGTTGTTTCTTGGAAAATTAAAGTCAATTTAAATGACGGCAAGGTTTTACTCAGTGATGATGAAGTAAGATGGAGAGAGAAAATGG
AAACTTTAACCTCCTGGTTAAATTCTATTTAACCAGGACGCCGATTCGGGCTACAATGCGTGGCTTTCGTATGAATTGCAGCCGGCGGCGGTAAGTTAAA
TTCTATTAAATCAATAGGATATTAGTTCCAGGCATATTTTATAAAAACAGAATCCAAAACCTTAGAGCATTGTTGTGGCTAAATTATTGTGTTTATGCAC
ATACACACACTCACATACAAAATCCCACACATATTGACTGAACACTTTCTTTTGAATATAAATATCTTATCTACATCTCAAGTCACATTGAGGGAAATTT
ATTAATATGATGTGCTTATTCAAAATCTGATATATCAGTTACCAATATTTTTCACCYTCACCGATTTTATTCTTATGTGATTGTTATGTTTCCTTTTGGA
GTCAATGGCTGTTGTGTGAGGAGGTCTTGAAAAATATTACAGGAAGAGGACAGTACCACAAAAACCTACATGACTATGCAGAACTACCGATCAATTGTCC
CAAAACGAGTGTCGAATATTCTTTGTCTTAAAGTTCTGCATGGAATTCTTACACATGGAAAAATAAATTTGTGGCAAAATGAAACTCATCAACCAATTGT
CAGCTAATATAAAATGTTGAGCAGAATGCAGTGATTTGCTGTTTCTGGGAAGGTAAACATTTAATCTTCAATTACATATTTGCAGTGAAAATGTCAGGAA
ATGCAAGGGGCAAAAAAATACTACATCAATGGAAAATATGAAGACTGAGTCATACTTACACTTACACGTTCATGCGCATGGTGTCGCTCTTCACTGAGMA
CGTTTCCGCGAAGAAAGCCGCCGTTTCTTTCTTCCTGCAGAAAATATAGCAGAAAGCGGAATACCTCTTGCGAATCCTTCCGCACTAGGAAGCCATAAAA
ATTGGGCCTTGAGAGACAGTTTGAGGTAAGGCGTTGTATATATTGCAGATAGCTCTGAGGTTTTTGGAGTGTACCATGCTGTCTTCCTGGCAAGGAGGCC
CAAGACCGCGGCAACTACTGCTCTGGCTTCTGATCCTCGCAGCCTGGGAGACGGGTAGTGGCCAGCTCCACTACTCCGTCCCCGAGGAAGCAAAACACGG
CACCTTCGTGGGCCGCATCGCTCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCGGGTGGCGTCCAAAAGACACGGGGACCTTCTG
GAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGTGGGCGGAGCGCGGAGTGCAGCATCCACCTGGAGGTGA
TCGTGGACAGGCCTCTGCAGGTTTTCCATGTGGAGGTGAAGGTGAGGGACATTAACGACAACCCGCCCATATTCCCTGAAAGCAAGAAACGAATAATCAT
TGCAGAATCTAGACCTCCGGAAACTCGATTTCCACTAGATGGCGCATCCGATGCAGATATTGGAGTAAACTCGGCATTGACCTACCGACTGGATCCCAAC
GATTATTTCACTTTGGACGCACAAAACAGTCTTGAGCAAATGTCTTCATTATCACTTGTACTGAGGAAAACACTGGACAGAGAGGAAATTCAGGAACATA
GTTTATTACTGACWGCCAGTGATGGAGGTAAACCCGAGCTGACTGGCACAGTTCAGCTGCTCATCACGATTCTGGACGTGAATGACAACGCCCCGGAATT
TTACCAATCCGTTTATAAAGTGACGGTGTTAGAGAACGCCTTCAATGGAACATTAGTGATCAAGCTAAATGCCACAGATCCTGATGATGGTACAAATGGA
GATATAGTTTACTCATTTAGAAGGCCTGTATGGCCTGCAGTGGTATATGCATTTACCATAAATCCGAACAATGGAGAAATTAGGACAAAAGGCAAACTAG
ATTTCGAAGAAAAGAAATTATATGAAATATCCGTGGAGGCAGTTGACAAAGGAAATATTCCAATGGCGGGTCATTGTACCCTTTTGGTGGAAGTACTAGA
TGTAAATGATAACGCCCCAGAGGTTACCATCACTTCTTTGTCACTCCCCATCAGAGAAGACACTCAGCCTAGMGCCATTATTGCCCTAATCAGTGTGTCC
GATCGTGACTCTGGCTCAAATGGACAGGTCACCTGCACCTTGACGCCGCATGTCCCCTTCAAGCTGGTGTCCACCTACAAGAACTACTACTCATTAGTGC
TGGACAGCGCCCTGGACCGCGAGAGCGTATCAGCCTATGAACTGGTGGTGACCGCGCGGGACGGGGGCTCGCCTTCGCTGTGGGCCACGGCCAGCGTGTC
GGTGGGGGTGGCCGACGTGAACGACAACGCGCCGGCGTTCGCGCAGCCCGAGTACACGGTGTTCGTGAAGGAAAACAATCCGCCGGGCTGCCACATCTTC
ACGGTGTCTGCKCAGGACGCGGACGCACAGGAGAACGCGCTGGTCTCCTACTCGCTGGTGGAGCGGCGGGTGGGCGAGCGTGCGCTGTCGAGCTACGTGT
CGGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGTTGGACCACGAGGAGCTGGAGCTGTTGCAGTTCCAGGTGAGCGCGCGCGACTCTGGCGT
GCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCTCCGGCGCTGCTGACGCCCGGGGCTGGCAGCGCGGGAGGC
ACAGTGAGCGAGCTGATGCCGCGGTCKGTGGGTGCAGGCCACGTGGTGGCGAAGGTGCGCGCGGTGGACGCCGATTCGGGCTACAATGCGTGGCTTTCGT
ATGAATTGCAGCTGGCGGCGGTCGGCGCGCGCATCCCGTTCCGCGTGGGGCTGTACACTGGCGAGATCAGCACGACGCGCCCTCTGGACGAGGTGGACGC
GCCGCACCACCGCCTTCTGGTGCTGGTGAAGGACCACGGTGAGCCCGCGCTGACGGCCACGGCAACGGTGCTGTTGTCGCTGGTGGAGAGCGGCCAAGCG
CCACAGGCTTCGTCGAGGGCGTCGGCAGGCGCTGTGGGTCCAGAAGCGGCGCTGGTGGATGTCAATGTTTACTTGATCATTGCCATCTGCGCGGTGTCCA
GCCTGTTGGTGCTCACGTTGCTGCTGTATACTGCGCTGCGGTGCTCGGCACCGCCCACCGAGGGCGCGTGCGCGCCGGGCAAGCCCACTCTAGTGTGCTC
CAGCGCGGCAGGSAGTTGGTCGTACTCGCAGCAGAGGCGGCCGAGGGTGTGCTCTGGGGAGGGCCCGCATAAGACGGACCTCATGGCCTTCAGTCCCAGC
CTTCCTCCTTGTCTGGGTTCTGCAGAGGGAACAGGCCAGAGGGAGGAGGACTCAGAATGCTTGAAAGAGGTAAGCTTATATTTTAAAAAATTGTCTTAGT
AAACACTTTAGCCTTCCTTGCAGTTGTTTGTTTAAGACATCTTTCCTGCCAATTTCAAATTATTCTTTWCTTTAATTTTAATTTTGCTAGTTGTTATCGA
ATTTAACAACTCTGCTGTGGACATTATGTGTTGGATTATCCTTCAGAGTGAAATCTTAACTCACAAACCATAATGAAATGTGCAAAACAAGAATATTTTG
TTTCTGTTGTATTCTTAATAGTTCTAAGTATTTATCTTGCAATTGAGCATTTACAAAAAATTCCTCACGTTGTGAGAACTTAAACATTTAGAAAATGTTT
GTTTTAATGAGGCTAATCGTAATCTTAAATTTAAAAAATTTTTAGTTTAATGTATACATATACCCACAAGATATTATTTTAAAGAGCCCCATAACTTTTC
ACATAAATGCTTTTTTTAAGTGCACTTTTCTTTCTTTCTTTTTTTAAACTGTTTTGATTGTCTCTACTTTTTTGTCCTCTAGGCACATCAGTGTTCCCCT
CTCATATATCCCATGAAAAATATCTTGTGATTCTGCTTTCAATTTTTTATTTGCATTCAGATAATTACTCATACATRTATATATACATATATAGAGAGAG
ACCTGGTAGGCTTTTTGYTATTATTTCTTTTCCAAAGTTTGAAGGGATTTCCAAAAGGTACTGGTGACTGAAAGTACCTTTTGGCAGTCCCTGCAAATCT
AATGGTTTTAATAGCTGTGTAGTATTCCACAGTGTAAGTGTGCAATTATATATTATTTACCTAATGATGGGCAATCACTTTGTGTCAAGTGTTCTGTTAT
CTTCATGAACCATGCTGTGCTATCATTTCATATATTTCCCAAAATATTGGTGTTATTTCTACGAAATTGATTGTCAGATGTGGAATTGATGCATCAAAGA
TATTAATAATTTTAATTATAAAATATGTCACTGGATTGCCTTCCAAGTATTTTGGAACCAACCAGTTATGAGCACTCTTTCTATCTCAAGAAGCAATAGT
GGTTTTACTTTCTGCTAATGTGATCTCTGTGAAATGATATTTCACTGTTACTTTAATTTTAAATTCCTGTATAGTATTAGTGAATTTGAGCATATTGTCA
TATGTATTTTGTTGATTTGTATTTGATCTTCTTTGATTTATCCATTAAGTTATTTGCCTACTTTTCTATTGAAAAAAAATTTTTAGTTTCAGTTTGGAAA
AGTTCTCTGTACCTTATAGATATTAACTGTTTATCTATTTTTTGACATTTTTAATTAAAATTTTTATTTTGAGATAATTATAGATTCGCATGTGGTTGAA
AGAAATAGTAAAGGGAGATGCTATGTATTCTTCACTAAGTTTTCCCCAATAGTAACATCTTACAAAAGCGTAGGGCCATACCACAACCTGGATATTGACA
TTGATACAGTAAAGAAGTAACATAGTTCCGTAACAACCAGATTCTTGATATCACCTTTTTATAGCCACATCTGCTTCCCTGCCTAATGCTGGCAAGCAGT
AATCTGTTCTCCATTTCTCTAATTTTGTTACTTTTACTTCAGAAATAAATAAAAGTATCTCTATTTATAGATAAAATTTTTTAAAATTATTTTTATATTT
ATTTATTTTTTATTACACTTTAAGTTCTGGGATACATGTGCAGAACGTGCAGGTTTGTTACATAGGTGTACATGCCATGGTGTGCTTATCTATTATCTGC
ATCACAAATATGTTTTCCTCCTATATTATTTCTATTCATTTGTTTGTACTAATTTTGTCATATATAAATGTTTTTAAAATGTATGAATTAAAATATATCT
TTTTCCTTTTATGGATTTTAAGGTCTGCATATTCAGTTAGAAAGGTCTTCCCAGCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCC
AAGGTGGGCGGATCAGGAGATCAGGAGTCCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCGAGGCATGGTGG
CACGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAAGCAAGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGATGAGATCATGCTACTGTACT
CCAGCTCTGGGTGACAGAGCAAGACTTCGTCTTGAAAAAAAAAAAAARAARAAAGAAAGGTCTTCCCAACTCCTATATTGAACATTCATTAATTAAATGC
ATTTAATAAATACTTATTGAGTGTTCTCTATGTGCCAGGCATGTTCTACACATTAGACATTTAGCAACGAAATTTATTATTTTGTAAATCCAAATTTCCA
GTTGGTATCACTTTCCTACTGCCTGAAAAATTTCTTTAATATTTTTTATAGTGCATATGTTCTGGCAACAAATTCACTCAGCTTTTGTCTGAGAAATATC
TTTATCTCTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTACAGTGGCGTGATCTCGGCTCACTGCAAGCTCCACCTCCCGGGT
TCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACTACCGGCGCCCGCCACCACGCCCTGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTT
CATCTTGTTAGCCAGGATAGTCTCGAACTCCTGACCTCGTGATCCACCTGGCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCGG
CTCTTTATCTCATTTTTATTTTTGAAAAAGTATTTTCACTGGGCATAGTTGACAGTTTTTTAAAAGATATAATTCAGTTGTCTTCTGGCTTGCATAGTTT
CTAATAAGATGTTTGCTTTTTTATATATGAGTCTTCCTCTCCCCACCCCTCATGGTTACTGTTAAAACTTTTCTTTTTATCCTGACTTTTGCAGATTGAT
TGTGATGTGCTTTAGTATGGTTTTCTTTATGTTAGTCTGTTGGGGTTTGTTGATATTCTTGGATCTGTGGATTTATCATTTTCATCAAATTCAGGAAAAA
ATCAACCATACTTCTTCTAATAGTTTTTTCTTTCCTTCCATCCTTTCTGAGACTCCAGTAACACATATGTTACAATGACACAGGTCATTGAAGCGTTCTT
TATTTTTGTCCATTTCTTTCTCTGTGCCTCATTTTGAATATCTTTTATTGACATATTTTCCAAGTTCACTAATTTTTCCTTTTGTAGTATCATATCTGTT
AATCCTAAACAGTGTATTCTTCATTTCAGAGACCATATTTATTTCTTATCTGTATAAGATTCTTTTTGTCTCTTTTAAAATTTATTTTACATGTCTCCAC
CGAATAGTCATCTTTTTATCTATATGTTTGAGCATATTAGTACATGTATAATAGATGTTTTAACTTTCTTGTCTGCTAATTTCAACATTTTTGTCCTTAG
TTTGCTTCTTTTAATCTATCTTCTTCTATGGATATATTTTCTTGCTGTTTTGCATGACTGGTAATCTCTAATAAGATGCTAGACATTGTGAATTTTACAT
TGTCGGATGCTGGATTTTGTGTGTGTGTGCATGTGTGTGCGTGTTCCTTTAAAGCAGTAGTTCTTGATAAGAAACAGTTTTGTCCCCTCTACCCCCTACC
CAGGAGATAATTTGGCAATGCCTGGATACATTTTTGGTTATTACAACTAGGGAATTGCTACTGGCATCTAATAATGGAGCTCTGAGATGCTGCTAAACAC
CATCCAATTGCTGCCAAACATCCTACCGTGCACAGGACAGCCGCCCAACAATAAAGAATTAGCTCAAAATGTCAGTAGTTCCACTGTTGAGAAACTCTGC
TTTAAAGAGTCTTGGACTTAGTTCTGACGTGAAGTTAAGTTGCTCAGTACCAATTTATTCCTTTCAAGGCTTCATTTTAAGATTTGTTAGTACACATTCA
GAGCAGCTTTTAGTGTAGCACTAATTCGGCCTTCTATTACAGCAATACTTTCCTGAGGACACCACCTAATGCCCTGTGCATTAAGAGGTCTCTCTTCTCT
GATTGGTAGGAATGTGAAATATTTCCAGCCCTTTGTGAGCTCTAGGAATTATTCTACCCACTTTTTTTTTTAATTTTGAAGGGATAGCCTGATCTGGGGA
GGTTGATCAGTGATCTGTGATCTGTGATCACATCACTCCACTGCAGCCTGGTGACAGAGTGAGACCATGTCTCAACATAAAAATTAAAACATTAGAATTG
AGGTTTAATGTTATCAAATATTTTATCTGCATCTTTTGAGGGAGGTATAAATTTTTTCTTTGGCAATGTTAATGTGTTGAATTTATGATTTATGATTTTC
TTATGGCAAACCAACCTCTACTTCCTTGGATAACCGTAATTTGATTATAATTTATAATCCTTTTAATATACTACTTATTTTGTTAAATTTTCAAAACAAT
TTTTTCATCTTTATTCCAGGTGATACTGATATGTCCTAGTTTTTCTTCCTAATTTCTTCTTTGTTAAGTATTCAAGTTATAAATAAGAATCTAGCATAAC
TTGAATACTTAACAAAGAAGAATAGTCTTTGAAAACTTCCAGAAAATTTTCTGTTTCCTGTAAAAGTTTGTATAATCTTTGAATTACTTCTTATTTGATT
GGAGAACTCACTGTTGAAGTTATCTGTATCAGGATTTTGATTGGTGGGAATATTTCTGATTACTGACTCAATTTTAATAGTATAAGGACCATTCAGAGTT
TAATTTACTCGAGTCAGTTACGTAGATAATATTTTTTCAGGTATTTTCCTGTTTAATCTAAATTTTCAGTTATATGCTCATACTTTCTACAGAATCTATA
GTGATATTTCCCTTTCCATTCTTGATATTATTTTTGCTTCCTGTCTAATTTACTTTTCTTCAGAATTCTGCTTTCTGATTTTTGTTTTTGCTTTGAAATA
TTTTTATATTAATTATACTGATTCATTTCTCTTCTTTTRATTTGTGTTTGCAGGAGATGTCCTCTTCCCAGCCTTTTATTTTAAACCTTTTAGTATTATG
GGCATATTCCACAAGTTCTTTGCTACTGTCTCACTGAGTAGCAGAGTCTAATTTTTCTTTCCTTGAACTTTGACTGGTCTTAATATTGGAAGTAACATTC
TGGGATTTATGAAGTCAGGTCATAAGAAGTCTTACAGTATGCTTTGGTCTCTGAGAATATTTGTTTTGGGGGAAGCCTGCCACCATGTAAGAATTCTGAC
TACCTTGAGATTGTCATACTGTAAAGAAGCTCAAGCTGGACTTGTGAGAAGCCAAATGGATAGAAAAATTACTATCCAGTCTCCAGTTGTCTTAGCTTTC
CAAGCTTAGGTGCCAGAAAAATGTAGAAGGCTTCAGGTGACTGTAGTGTGTTGGAGCTGGCTCTTTTACTGGCTTATGAGAACTGATAATGCAAATTTAT
TCCCAACTCTGGATTCAATGATGTCACTTTGGTAGCTTGAAATTGGCCATGGTAGGAGTATTTCTGCCACAGAAATAGGCAAATGCTACAAAACAGAGTT
TTTTGTTTTTCTTTTTTCCCAGAGACCTAGTTGTTAAGCATTTACCAGTACACTACTGCACCTGATTGCAAGCAAGAACCACTCAGTTGAGTCAGAACCA
GGAGAGGTAATATTAAGTTGTTTTAAGATATTAGGTAGTTGGGATGGTTTACTATATAGCAATGGATAACCTGAACAAGTACTCTTTCTTAGATAATCTA
TAAATTTTAACTTGAATATTTATTTAGTTTATATTTACAATACCTAGTGATATCTTTAGGCACAAATATTTCAATTTTTTGTGCGTTATTTTTGTCTCAC
CATTTTTATGTCTCTATTTCCTTCCTTTGTTGATCTTCTTTTGAAATGACTGAGTACTTTTTATTGTTCCATTTCCTTCTGTATTATTTGGAAGCCCTTT
TCCGAATAGCTAGTGCTTACCCTAGAAAATTAAGCATGTATCCTTGATATATCAAAATCAAAAGTTAACTGAAACCCTTCCTCCTTCTGGGAAATGCAGG
GACCTTACATTTTTAAAATCTTTTTAATCCCTTTTGACTTATATACTATTTCTGTCATGCTTTAAAAATATTTTAAAACCCCATAAGATATTAGTATTAT
TTTATACAATCAACATTGTTTTAAATGTACTTACATATTTACCAGTTTTGTTTCTCTTCCTTACTTCTTGCCCCTCTGACCTTTCATCAGGGATTATTGT
CTTTCCATGTTAGAATAATTTGAGAGTTTCCTTTAGTCCAAAGATGCTGGTGAGGAATGATTTCAGGTTTTGTTTTTCTGAAAATGTCTTTATTTCATCA
TAATTATTGAAAAGCATTTTTTCTGAGGGTATAATCTTAGGTGTGACCCCCACAGCACATAGTAAATATTATTCCAGTGTCTACTGGTTTCCATTGTTGC
TGTCAAGAATTTAGCTGTCAATCTAAATGTCATTCCTTTAAAGGTATTCTGTTTATTTTCCTTTGGCTGCTTTTCAGATTTTCTGTGTGTCTGATATTTT
GCAGTTTTACCATGCTGTGTCTTTATAATCATCCTGTTCTGGATTCAGTAGGATTTTTTTTAATTTTTAATTTTTCCGTAAGTTATTGGGGGTACAGGTG
GTATTTGATTACATGAGTAAGTTCTTTGGTGGTGATTTGTGAGATTTTGGTGCATCCATCACCTGAGCAGTATACRTTGCACCATATTTGCAATCTTTTA
TCCCTCGCCACCCCCCACTCTTGCCCCCAAGTCCCCAAYGTCCATTGTATAGGATTTTTGAATTTGTGAATTAATGCCTTTACATCACTTTGAGCATATC
CTCAGCTATAATGTTCTCCAATGTTGCTTCTGTTCCATTGTATTTCTATAGTATTATTTTAGTACTCTAATTAAACATATTTTAATCTTATTACTCTATC
CCATCTATTTCTACCTTTTATTTTAACACCTTTTGCTCTTTGGGCTTTATTGTGGATAGTTCACCCACCTTAAAGTTTAATAATTCTCTCTTCTTGCTGT
TGTCTGAATTTGTACCCCCAAATTCATGTGTTGAAAATTCAATCCCTTATACAACAGTGTTGGGAGGTGGGGAATTTCAGGAAATGTTTAGATTATGAGG
GATCTGCCCTCATGAATAAATTAACGGCACTGTAAAAGGACTTGATGGAAGGAGCCTGTCCCTCTCTTATGCTTTTGGCTCTGTCATGTGACGATGCAGC
AAGAAGATCTTCACCAGATGCTGGTGCCTTGATCTTGGACTTCCCCTAGGCTCCAGAATTGTGAGAAGTAAATTTCCGTTCTCATAAATTACTCAGTCTG
TGGCATTCTGTTATAGCAGCACAAATGGTCTAAGATACTTTTATTTATTCTTTTTCAAATTTATTGTTACTTTGTATAATTTCTAGTTTCCTCTCGAAAC
TTTCAAGCTTGGCATTTATATCTGGAACACAATAAGCTCATGGTTTTAGCGTCTATTTCTGATATGTCCAGTAACTGGGATCCTCATGGGTCTATTCCTG
TGGTGTGTTTTAAAATTGTATCTTTATGGTGTTTTGTCTCCACATAAACCTGGTTATCTTTGATTTTGTGCTGAAAGTTGTATTAAACACTTCTTCCTGG
AAATAATTTGGGGCTTATAACATTTTCTTTCTCCAGAATGGATTTTAATTGACTTTTGCCAGGCATCTTGGGGCACTAGCAATCATGGGTAATCTTAATC
TATTTCAAGCTTCAGGTATTCTAGATAAAACCTCATTATCTAAAATTTACATGTATTCTTTAAGTACGGTTATTCAGTTTCCTAGCCAAACATGAGAGAT
TGTTTAAGAAGTTCCACCATGACTGGTAGACTCAGGATTCTGACTTTTGTTTCTCTAGTCCTTGGAGACTGTCAAAAGTATATCTCAGTATTCATTCACC
TATTTTTTTCCTTTTATTTCCAGTTGGTACATAATAATTGTACATATTTATAGGATACAGAGTGACATTTTGATACATATATACAATGTATAATAATAAA
ATCAGGGTAATTAGCATATTCATAATCTCAAACATTTACCATTTTTGCATGGTGAACATTTAAAATCCACTCTTCTAGCTTCTTGAAAATATGTAAGAAA
TTATAGTTAACCATATTTATCCTACAGTGCTACAGTGCTGCAAAACACCACAACCCATTCCTCCTGTGTAGCTATAATTTCGTATCCATTAACCAACCTT
TCCCCATCCTCCTTTTCCTTCACCCTTCCCAGCCTCTGATAAGCACAATACTACTTCCATGAGCTCAATAAAATTTTGTAGCTGCCGTATAAGTGAGAAC
ATGTATTTATTTTTCTGTGCCTGACTTATTTCACTTAACATATGCCCTCCAGGCTCAGCCATACTGCCATGAATAACAGGATTTCATTCTTTTTTATGGC
TGGATAATATTCCGTTGTGCATATACACCACATTTTCTTTATCCACTCATCTGTTGATGGATATTGAGGTTGATTCCACATAGTAGCTATTGTGAATAGT
GCTGCAGTAAGTATGGGAGGTGCAGGTATCACTTTGACATACTGGTTTCCTTTTCTTTGGATAAATGCCCAATAGTGGAATTGCTGGATGATATGGTAGT
TCTATTTGTAGTTTTTTGAGGGACTCCCATACTGTTTTCCTTAGTGGCAGTGCTAATTTACATGCCCACCAACAGCATTTATGGGACAGTGGCTCATGCC
TGTAATCCCAGCACTTAGGGAGGCAGAGGCAGGAAGATCGCTTGAAGCCAGGAGTTCAAGACCAGCCTGGGCAACATAGCAAGACCCTGTTCTTCACAAA
AAAGAAAAAAAAAGCAGTTGTAGAACTCCTTTAAGTATTTCTTGTAGGACTTATCTAGTTGTAGTGTACTTCCTCAGTTTTTGCTTGTTKGGGAAATACT
TYATTTCTCCTTCATTTCTGAAGTATAGCTCTGCTTGGTATAGTATTTTTGGCTGATAGTTTTAAAAAATTTCAGCACTTTGGATATATCATCTCATTCT
ATCCTAGCCTGTAAAGCTTCTGCTGAGAAATCTGCTGTTAGTCTGATGGGAATTTTCTTATAGGTGACTTGTCACTTTTCTTTTACCGTTTTTAGAATTC
CCTCCTTGTCTTGAGTCTGGTACCGTAGACTACTCAGCCATCCTGATGCCCTACCTCTTGTATAGAAACAACCCAGATCCAAAGTGGCCAGAAAGTTACT
TTACCTTCTGAATTTGTGGTCTTTTTCAGAATCTCTACCTGTTAATTCTSCATGACTTTATTAGTCATTAGATACTTTTATAATTTTAAAATATCTCCAA
TTGTATGGTTGGTTCAAATTACCAGTTCTGCATACTGGTAATGTAAGTCCTCTGTTGAATTGATTTTTAAATACATTTATTTTATTCCAGTATCTTCTAG
CTCCTGGTGTTGCAGATGAGAAGTTTCAAATAACTTGAAATAATTCCCTTCTATGTAATTATCCCTGATTTTGACTTTCTTTCCATAGTTATATATTTTT
TCTATGCTATTATATTCTCATTTTAAAGATGTTGAATGACAATGTAATTTTCTTTTCTTTACAAGTGGTAGCTTATTTACAAGTATTTTTGAAGTTTATT
TTCCTGGAAAGTTTTCTTAAATTATAGATTTTAGTATTTCTTCTGTTTTATTACTTCAGATTTCTTCTTCAATGGCTCCAATTATATTTGTATTAGATAT
TCTTTGCTTTTCTTTTGTAGCTAACACTCCTAAATCCTACCTAGCTCTTTTTTAAAAAATATTTTACTTTTTATTCTTGTTTTCATCTTATAGTTTTCTT
TAGGCATTATCCATAGTGTTTATATGCTGTTATGTGCCTTCTGGTTTAGTGTTTACTTCTGAAAAAATTATTTTCCTTTTTTTTAATATTTTACTGAGTT
TTCTCATCTCTCTTTTCAAAGCTTTTCTTCTCCAATCATATCATTACTGAGTCTCTCTAATTCTGATTTGTGTATTCTTGCATAGCTTTTCATTATTTTC
TAAAAATGTTTAAGTTGTTTTCAAATATTACRTAGCAATTTGTGGAATTTTTTTTCTTGTGTGTATTTATTTCCTTTAGTGTAATTATTTGTCCTCTCCT
TTAAAAATAATTTTATATCAGATTTGCCCATAATCCTTTTCTTATGCTCATTTTTATATGAAAAGTGCTCCCCCATAATTTTAGAAGAAACAGACCAGGA
TAATTTTCCTATCTTTGTTGCTCTATAGATTTCTATTCAGCTATTGTCATGAAATGATAAAAATATAATTTTTTAATGTCTTACTTTGTGACATCCTTTA
CCCTTTTTACTTGGACCTTTTTCCTTTGTTTAATTGTCCCCCACCCACACCATTCTGCTTCATATGGACTCAATTCCTATCAGTTCCTCCTCAGTATAGG
GGTTTTTGCTACAAGAAGACATTTGTTAGTTGACAAGTTCATAGGGCTAAGACAGGTTTAGCACAATCCAATCTATTTGTAGTCCCTTCTGCTAAGTTTT
GAATTTGCTTTTATTTCTAATATTTTACTGAGTTTTCTCATCTCTCTTTTCAAAGCTTTCTTTTTTTTCTTACTCAGGGATAATTGAATTAGGACCTTCG
ATTTCCCCCCTTCCACCCATGACTATTGTTCTCAAATTGTTTTACTATGCTTTCCAGTGAGTACTTATTGGCACTTTTTGGAGTTCTTCAATTCTCAACA
CCATCAAAAGCCCCATAACCTTCTTTTGCTTCCTCCTGAGACTCTTTTCATGTGCTTATTGGTCATTTCTTTATCCTCTTCGGAGAAATACCTATTCAGA
ACTTTTGCCCAATTTTTAATTGGTTTATTCGTTTTTCAATTGTTGAGTTGTAAGAGTTCTTTATATATTCTAGATGCAATTACTTTATTAGATATATAAT
TTGCAAAGATTTTCTCATTGAGGGTGTTGTCTTTTCACATTCTTTTTTAGCTCCCACTTATAAGTGAGAACATGTAGTATTTGGTTTTCTGTTTCTATAT
TAATTCACTTGGGATAATGGCCTGCACCTCCATTCAATGGGCTGCAAAGGGCATGATCTTTTTCTTTCTTTATGGCTGCATAGTATTCAATGACGTATAT
GTACAATACTGTATTGTATTGTATTGTATTTTTTTCAGACAAAGTCTCACTCTTGTACCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAAC
CTCCGCGTCCCGGGCTCAACAATTATCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGTCACCAGGCCTAGCTAATTTTTGTATTTTAAGT
AGAGACAGGGTTTCTCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAACATGCTGGGATTACAGRCGTG
AGCCACTGTGCCTGGCCAATGTACTGCATTTTATTTATCCAGTGCACCATTGATGGGCATTTAGGATTATTCTCTGTCTTTGCTATTGTGAATAGTGCCA
TGATGAACATACACATACATGTGTCTTTATAGTAGAATGACTTATATTCCTTTGGTTATGTACACAGTTATGGGATTTGCTGGCTTGAATGGTAAGTTCT
TTGAGAAATCTTCAAACTGCTTTCCACAGTGGCTAAACTAATTTATATTCCCGCCAGCAGTGTATAAGCATTCCCTTTTCTCTGCAACCTCACCAGCATC
TGTTATTTTTGACTTTTTAGTAATAGCCATTCTGACTGGTGTGACTGCAACCTCCACCTCCTGGGTTCAAGCGGTTCTCCTGCCTCAGCCTCCTGAGTAG
CTGGGACTGTGCAGGCACACACCACAAAGCCCAGCTATTTTTCTTTTTTTTTTTTGTATTTTAAGTAGAGATGGGGTTTTGACGTGTTGGCCAGGCTGGT
CTCGAACTCCTGGTCTTAAGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTAGTATTACAGGCATGAGTCACTGTGCCCGGCCCTTTGCCCATTTTTTGA
TGAGGTTGTTTGTTTTTTGCTTGTTAATTTGTTTAAGTTCCTTATAGATTCTGGATATTAGACCTTTGTTGGATGCATAGTTTGCTGATATTTTCTCCCA
TCCTGTAGGTTGTCTGTTTACTCTGTTCATAGTTGTTTTTATTTTTTAATTTTATGGGTACATAATAAGTGTACATATTTATGGGGTATATGAGACATTT
TGATACAAGCATGCAATGCACAATAATCACATCATGGAAAATGGAATGGCCATTCCCTTAAACATTTATTCTTTGCACAAACAAACCAGTTATGCTCTTT
TAGTTATTTTTAAATATACAACTAAATTATTTAGACCATAGTCACCCTATTCTGCTGTCAAATACTATGTCTTATTCATTTTTTCTATTTTTTATCCTCA
TTAAAAATCTCCACTTTCTGTCCACACCCCACTAAACTTTCTAGCCTTTGTTAACCATTCTTCTACTGTCTATCTCCATGGGTTCAAAAAATATATTTTT
TTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCGTCA
TTTAGCATTAGGTATATCTCCTAAAGCTATCCCTCCCCCCTCCCCCCACCCCACAACTGTCCCCAGAGTGTGATGTTCCCTTCCCCTTCCTGTGTCCATG
TGTTCTCATTGTTCAATTCCCATCTATGAGTGAGAACATGCAGTGTTTGGTTTTTTGTCCTTGCGATAGTTTACTGAGAATGATGATTTCCAATTTCAAC
CATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTCTTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTGTCATTGTTG
GACATTTGGGTTGGTTCCAAGTCTTTACTATTGTGTATAGTGCCACAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGG
GCATATACCCAGTAATGGGATGGCTGGGTCAAATAGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTA
GAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGA
GATGGTATCTCATTGTGGTTTTGATTTGCGTTTCTCTGATGGCCAGTGATGATTAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGA
GAAGTGTCTGTTCATATCCTTTGCCCACTTTTKGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCT
TTGTCAGATGAGTAGGTTGCGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACGCTGATGGTGGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAA
TTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTAAGTTCTGAATGGTAATGCCTAG
GTTTTCTTCTAGGGTTTTTATGGTTTTGGGTCTAACGTTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTC
AGCTTTCTACATACGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGAT
AGTTGTAGATATGCGGCGTTATTTCTGAGGGCTCTGTTCTGTTCCATTTATCTATGTCTCTGTTTTGGTACCAGTGCCATGCTGTTTTGGTTACTGTAGC
CTTGTAGTATAGTTTGAAGTCAGGTAGCATAATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGTGTTGCGGGCTGTTTTTTGGTTCCATATG
AACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCTGTAAATTACCTTGGGCAGTATGGCCATTT
TCACGATACTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTCTTTGTATCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAA
GAGGTCCTTCACRTCCCTTGTAAGTTGGATTCCTAAGTATTTTATTCTCTTTGAAGCAGTTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGT
CTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGTACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTG
AGATAATGGGGTTTTCTAGATATACAATCATGTCTTCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTG
CCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGGCAGTTTTCAAAGGGAATACTTCCAGT
TTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAGATATGTCCCATCAATACCTAATTTATTGAGAGTTTTTA
GCATGAAGGGTTGTTGAATTTTGTCAAAGGTCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACATT
TATTGATTTGCATATATTSYATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATT
GAGGACTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTATTTGGTTGTGTCTCTGCCCGGCTTTGGTATCAGGATGATGCTGGCCTCA
TAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGTTCCTCCTTTTACCTCTGGTATAATTCGGCTG
TGAATCCAATATTTTGTTTTGTTTTTCCTTTTTGAGACAGGTCTTGCTGTGTCACCCAGGCTGGAGTGCAGTGGTATTAACAGAACTCAGTGCAGCCTTG
ACATCCTGGGCTCAAGCAATCCTCCTGCCTCAGCCTCCTGAATAGCTGGGACCACAGGCATGTGCTGCCATGCCCAGCTACTTTTTTGATTTTTTTTGTA
GAGATGAGGTCTCACTTTGTTACCCAGTTTGGCCTTGAATTCCTGGGCTCAAGTGATCCTTTAACCTCAGCCTCCAAAAGTGCTGCAGTTACAAGCATGC
GCCACCATACCTGGCCTTGTTTTGATTTTTAGGTACCACAAATAAGTAAGAACATAYGATATTTGTCTTTCTGTGCCTGGTTTATGTCACTTATAATGAC
ATCCAGTTTCATCCAGGTTGTTGCAAATGACTGGATCTTGTTTTTTTTATGGCTGAATAGTACTCCATTGTGTATATGTACCACACTTTCTTTTCTGTTT
TTTTAGACAGTCTCACTTTTGTCGCCCAGGCTGGAGTACCGTGGCGCAATCTTGGCTCACCGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCT
CAGCCTCCCAAGTAGCTGGGATTATAGGCACGTGCCACCACGGCCGGCTAATTTTTTATTTTTAGTAGACACGGAGTTTCTCCATGTTGGTCAGACTGGT
CTCAAATTCCCAGCCTCAGGTGATCTGCCCACCTCGGCTTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACGGCACCGGCCCATTTTCTTTACCCGTTC
ATCTGATGATGGACATGTAGATTGCTTCCAAATCTTGGCTATTGTGAACACTGCTGCAATGAACAATGGGAGTGCAGTTATCTCTTCAATATACTGATTT
CCGTTCTTTTGGAAAGAAAGGAAATCCTACCTAGCAGTGGGATTTCTGGATCACTTGGTAGCTCTATTTTTGGCTTTTTGAGGAAACTCCAAACTGTTCT
CCATAGTGCTTGTACTAATTTACATTCCCACCAACAATGTACAAAGKTTCCCTTTTTTTCACCTCTCCAGCATTTTTTATTGCCTGTCATTTGGATAAAA
GCCATTTTAACTGTGGTAAGATGATATCTCATTGTAGTTTTGATTTGCATTTCTCTGATTATCAGTGATGTTGAGTATCTTTTCCTATACCTGTTTGCTA
TTAGTATGTCTTCTTTTGAGAAACATCTATTCAACTCTTTTGCCCATTTTAAAATTAGATTATTAGATTTTTTTTTCTATAGAGTTGTTTGAGCTCCTTC
TACATTCTGGTTATTCATCACTTGTTAGATGGGTAGATTGTAAATATTTTCTCTCAATCTGTGGGTTGTCTCTTCACTTTGTTGATTGTTTGCTTTTCTG
TGCAGAAGGTTTTTAAGTTGATGTGATCCCATATATCCATTTTTTTCCTTTGGTTCCCTGTGATTGTGGGGTATTACTCAAGAAATTTTTGCCCAGACTG
ATGTTCCGGAGAGTTTCCCCAATGTTTTCTTGTAGTCGTTTTATAGTTTGATGTCTTAGATTTAAGTCTTTAATCCATTTTAATTCAATATTTGTATATG
GTGAGAGATAGGGGTCTAGTTTCATTCCTCTGCATATGGATATCTAGTTTCCCAGCACAGACTGTCTTTTCTCGAGTTTATGTTCTTGGCACCTTCATCG
AAAATGAGTTCATTATAGATATGTGGATTTGTTTTTTGGTTCTCTATTCTGTTCCATTCATCTATGTGTCTGTTTTTATGCCAGTGCCATGATGTTTTGG
TTACTATATCTCTATGGTATAATTTGAAGTCAGGTAATGTGATTCTTCCGGTTTTGTTCTTTTTGCTCAAGATACCTTTAGGTATTATGGGTATTTTGTA
GTTCTATATACATTTTCAGATTGTCTTTTCTATTTCTGTGAAGAATGTCCATGGTATTTTGACAGGGATTGCATTGAATTTGTAGATTACTTTGGGTAGT
ATGAACATTTTTACAATATTGATTCTTCCAGTCCATAAACATGCAATATCTTTCCATTTTTTTGTGTCCTCTTCAATTTCTTTCATCAGCATTTTATATT
TTTCATTGTGGAGATCTTTCACTTCTTTGGTTAATTCCTAGGTATATTTAGTTTTATTCGTGGCTATCGTAAATGGGATTACTTTTTAATTTCATTTTCA
GATTGTTCACTGTTGGGACATATAGAAATACTACTAATTTTTGTATGTTGATTTTGTATCCTGCAACTTTACTGAATTTATTGTTTTAATAGTTTTTTGG
AGTCTTTAGATTTTTTTAAAACTGAGATTATATCATCTGCAAACAAGGATAATTTGATTTCTTCCTTTCTAATTTGGATGTCCTTTATGTCTTCTCTCTC
TCTCTCTTTCTTTTTTTTTTTTTTTTTTGAGATGAGGACTTGCTTTGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGCAATCCTCCTGCCTCAGCC
TCCCAAAGTGCTGGGATTACAGGTGTAACTCACTTCGCCTGGCCTAGGAAGCCCTTTATTTCTTTCTCTTGTCTAATTGCTCTAGCTAAGAGTACTATGT
TGAATACTATGTTGAATAACAGTGGTGAAAGTGGGCATCCTTGTCATATTCTAGATCCTAGAGAAAAGGCTTTGAGTTTTTGCCTGCTCAGTATGATACT
AGCTGTGAGTCTGTCATATATGGTTTTTATTATGTTGAGGTATGTTCCTTCTATACCCAGATTTTTGAGGGTTTTTAAGATTTCAATAGTTTTGGGAAAC
AGGTCGTTTTCAGTTACATGGGTAAGTTATTTAGTGGTGATTTCTGAGATTTTGGTGCACCTGTCACCCAAGCAGTGTACACCGTACCTAATATGTGTAG
TCTTTTATCTTTCACTCCCCTCCCACCCTTCCCTCCAAGTCCCCCAAATCCATTATATCATTCTTATGTCTTTGCATTCTCATAGCTTAGCTCTCACTTG
TATGTGAGAATATACAATATTTGGTTTTCGATTTCTGAGTTACTTCACTTAGRAAAATGGCGTCCAGGTCCACCCAAGCTGCTGCAAAAGCTATTATTTT
ATTTAGTTTATGGCTGAGTAGTATTGCATGGTGTATATATACCACATTTTCTTTATCCACTTGTTGGCTGATGGGCATTTAGGTTGGTTCCATATTTTTG
CAATTGTGAATTGTGCTGCTATCAACATGGCTTGCACATGTGTCTTTTTCATGTAATGACTTCTTTTCCTTTGGGTAGATACCTGATAGTGGCATTGCTG
GATCAAATAATAGCTCTACTTCTAAATCTTTAAGAAATCTCCAAACTGTTTTCCATAGTGGTTGTGCTGGTTTACATTCCCACCAATAGTATAAAAGAGT
GTCCTTTTCACCACATTCATGCCAACATCTATTACTTTTTGATTTTTAAATTATAGTAATTCTTGCAGGAGTGAGGTAGTGTCTCATTGTGCATTAGGAA
ATTTAGTATACAATAAAGACAGCATTTTTATTGAGGAAAGGATGCATTTTAAAAAACAAGTTTTTCAAAAATATAGGGAGGATTGTGGTTACTTCTAGAA
ACAGTAGTGCAGTCAGGRAAAATTCAGCACAATATGTATCAGTGGAATTCATCTGATCAAACTTAAAATATTATTCCTTGCATTATAGTTCTGAGCAGGT
ACCATAGATAATAGTTCTATTGTGTTGTTCACTTTAAACTAGAGCAAGAAACTTTTCTAATAAGTGGAATTGGGAGCTGTCTAGCTGGTGTTGGCCTGAT
AAATGCTTAATACACATGAATGTGCATGCATATGTATGCATATACCATATACATATATTATAAATTTAACTGATATAAAAGATGTTTGGTAAATAGTTTA
AAATAGTAATAAAATATACAATTCTCCCTATTATCAATTATTACAGAATGTTTCCCTTGATTTTTGCTGAACTTTTCTATCCATAAACTATCTATGGTTG
TAATTGACAAGTATAGTTCTCACATGAATGTCTGTTGGTATTTTCATTTATCTTAACAAATAATATAGAGTAAAATGACAAAGACATTGAATCTTGACCT
GTTTGTCAATGATGTGACTTCCTTGCTGCATTGGATAATACCTCTTAAATACTGGAAAATTATTTGTTGATTTTTGGTCTATTCACAATGTAACAGCTAC
AAATATGATACACTTTAAAAAATAATGGTATAATTTAACTTTTTAATTTTTTTATTTCAATGGGTTTTTGGGGAACAGTATTTGGTTACATGAATAACTA
CTTTAGTGGTCATTGCTGAGATTTTGGTGCACCCATCACCCGAGCAGTATACATTGCACCCAGTTTGTAGTCTTTTATTCCTCACCCCCTTCCCACCCTT
TCCCCCTAAGTCCCCAAAGTCCATTGTATTATACTTATGCCTTTGCATCCTCATAGCTTAGCTCCCACTTATGAATGAGAAMATGTGGTGTTTGGTTTTC
CATTCCTGAGTTTCTTCACTTAGAATAATGGTCTCCAGTTCCATCCAGGTTGCTGAGAATGCCATTATTTCATTCCTTTTTATGGCTGAGTAGTATTCCA
TGGTGTATTATATATATAATACATATATTTTATATATATGTATATTACAATTYCTTTATACACTTGTTGATTGGTGGCTATTTGGTCTGATTCCAAATTT
TTACAATTGTGAATTGTGCTGCTATAAACTTGTGTGTTCAAGTATCTTTTTCATATAATGACTTTTTTTTCCTCTGGGTAGACACCCAGTAGTGGGACTG
CTGGATCAAATAGTAGTTTTACTTTTAGTTCTTTAAGGAATCTCCACACTGTTTTCCATAGTGGTTGTACTAGTTTACATTCCCACCAGCAGTGTAAAAT
TGTTCCCTTTTCACCACATTCTGGCCAACATCTATTATTTTTTTATTATGACCATTTTTGCAAGAATAAGATGGTATCACATTATTGTTTTAATTTGCAT
TTTCCTGATAATTAGTGATGTTGAGCATTTTTTTATATGTTTCATATCTTCTTCTGAGAATTGTCTGTTTATGTCCTTAGCTCACTTTTTGATGGGATTT
GTTTTTCTTACTGATTTGTTTGACTTCCTTGTAGGTTCTGGATATTAGTCCTTTGTCTGATGCAGAATTTGTGACTATTTTCTCCCACTCTGTGGGTTGT
CTGTTTACTTTGCTAATTCTTTTCTATGCAGAAGCTTTTTAGTTTAATTAGGTCCCATTTATTTATTTTTGTTGTAGTTGCACTTTCTTTTGGGTTCTCA
GTCATGAATTGTTTGCCTAAGCCAATGTCTAGAAGAGTTTTTCTGCTGTTATATTTTAGAATTTTCATGGTTTCAGGTTTTAGATTTAAGTCTTTGATCC
ATCTTGAGTTGATTTTTGTGTAAGGTGAGAGATGAGGATCCAGTTTCATTCTTCCACATGAGGCTTGGCAGTTATCCCAGTACCATTTCTTGAATAAGGT
GTCCTTTCCACACTTTGTGTTTGTATGCTTTGTTGAAGATCAGTTGGCTGTAAGTATTTGACTATATTTCTGGTTCTCTGTTCTGTTTCATAGGTCTGTG
TGCCTATTTTTATACCAGTACCATGCTGGTTTGATAACTACAGCCTTTTAGTATAATTTAAAGTCAGGTAATGTGATGCCTTCAGATTTCTTCTTTTTGT
TTTGTATTGCCTTGGGGATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAGGATTGTGTTTTTCTAGTCATGTGAAGAATGATAATGATATTTTGCTGG
GAATTGCATTGAATCTATAGATTGCTTTTGACAGTATGGTCAGTTTCACAGTATTGATTCCTGTCATCCATTAACATGGAACATATTCCATTTGTTTGTG
TCATTTATGATTTCCTTCAGCAGTGTTTTGTAGTTTTCCTTGTAGAGATCTTTCACCTCCTTGGTTAAGTATATTCCGAAGTGTATTAGTCAGGGTTCTC
TAGAGGGACAGAATTAATAGGCTAGATGTGTATATAAAGGGGAGTTTATTAAGGAGTATTAACTCACACAMTCACAAGGCCCAACAATAGGCCATCTGCA
AGCTGAGGAGCAAGGAATCCAATCTGAGTCCCAAAGCTGAAGAACTTGGAATCCGATGTTCAAGGGGAGGAAGATCCAGCATGGGAGAAAGATGTAGGCT
GGGAGGCTAAGCCAGTCTAATCTCTCCACGTTCTTCTGTCTGCTTTTATTCTGGCTGCACTGGCAGCTGATTAGATCGCACCCACCCAGACTGAGRGTAA
GTGTGTCTTTCCCAGTCCACTGACACAAATGTTAGTCTCCTTTGATAACACCCTCACAGACACACCCAGGAACAATACTTTGCATCCTTCAATCCAATCA
AGTTGACACTCAGTATTAACCATCACAAGTCCTCCCCTTGTCAACTTGAACCCATACACACCTCCTGAAATTATAGATAATCTTCAAATTAAGACAATAA
TAAGGTCATAATTATTCCCAACATGATACAACTATCCTTCATACAACCAAGAATGCACCAATTCCCAACCCAAATGCTATTACATAAAGTTAACATTTAA
ATTTTCATATGAAGTCAATAAATCTTATGTCACATGATAAACAAGAAAGGAAATAAAATGAAGATATTTTCTTAGTACAAATGTATAAATGCACAAACAT
GTTTTTAACAAAGAAGGAGGAAATACTCACGACAATTAAARTCCTCATTTCTGCAACTGGTTGTGTGGTTCATAGCTGGTATTGATGACTACCTTCCTCT
ACTACTCATTCTGTATTCCCTTTGCCTTCAGCAAGCACCTCAGCAGGTAGTGGTTTTTTCCTGGTGTAGTGACCCAAACCTTCATTCCTGAAGGATCTGG
GCCATTTGTAGTCCTGCCTGGATTGTGCTGTTGTAGTTTCCCATTGACACAGGGCATGGTAATACTAAGAGACACCCTAAGGGATCTTGTGTATTCCATG
CATACTCTTCCTTACCTCCACTGTGGAGTAGTAGACTGATTTCATCTTGAGAGTCTGGGTCAGTCACCCCAGCCAACACTGTAACTTCCTTCTTAGATTG
TTGGTTTAAAGGTAGGAGGAGCCCAAAAAGTGTCCCGGTGTCAATCTTAATTTCCAGTTTAATGGAATCGTGGTTGTGTCTTCTGGTGGCAGCATTCCTC
CCTCTGGAACTAAGAMCTCTAGGCCAGCAGAACATAATGTCACAGGGACAGTAAGCAAAAATTTTACTAGTGGGTCACTAGGGGTGATGGTAAGTGGTGC
CACTTCCACTTCCACYCCTTGATTCCTGGACCTGTGAATTCCGGCTATGGGAGAAACAGTACCATATATTGGATGCTGATTCAGAGCATACACAACCTTC
TGGAGAATTTTGCCCCAGCCCTGCAAAGTATTGTCACCTAGTTGACATTGTAATTGTGACTTCAAAAGGCCATTCCATCATTCTATCAATCCAGCTGCTT
CAGGATGATGGGGAACATGTAAAGACCAGTGAATTCCATATGCATGAGCCCGCTGCTGCACTTCTTTAGTCGTAAAGTGAGTGCCTTGGTCAAAGGCAAT
GCTGTGTGGAATACCACGATGGTGGATAAGGCATTCTGTGAGTCCACAGATGGTAATCTTGGCAGAAGCAATGTGTGCAGGATAGGCAAACCCATATCCA
GAGTAAGTGTCTATTCCAGTGAGGACAAATCGCTGCCCTTTCTATGATGGAAGAGGTCCAATATAATCAACTTGCCACCAGGTAGCTGGCTGATCACCCT
GAGGAATGGTGCCATATCAAGGGCTCAGTGTTGGTCTCTGCTGCTGGCAAATTGGGCACTCAGCAGTGGCTGTAGCCAGGTCAGCCTTGGTGAGTGGAAG
TCCCTGTTGCTGAGCCCATGTGTAACCTCCATCCCTGCCACCATGGCCACTTTGTTCATGGGCCCATTGGGTGATGACAGGGGTGGCTGGGGAAAGAGGC
TAAGTGGTGTCCACAGAACGAGTCATCCTATCCACTTGTTTATTAAAATCCTCCTCTGCTGAGGCCAGCCGTTGGTGAGCACTCACATGGGATACAAATA
TCTTCACAGTTTTTGACCACTCAGAGAGGTCCATTCACATACCTTTTCCCCAAATTTCTTTGTCACCAATTTTCCAATCATGCTTCTTCCAAGTCCTTAA
CCATCCAGCCAAACCACTGGCTACAGCCCATTAATCAGTATATAATTGCACATCCGGCCATTTCTCCTTCATGAAAAGTGCACAACCAGGTGCACTGATT
GAAGTTCTGTCCACTGGGAAGATTTCCCTTCACTGCTGTCCTTCAGGTATGTCCTAGGAAGGGGCTGTAGTGCTGCAGCTGTCCACTTTCAGGTGGTGGA
CATATCATGCAGAACCATCTGTGAACCAGTCCTTAGTCTTCTCTTCCTCATCAACTGATCATAGGGAACTCCCCATGAGGCCATTGTTGCAAGCTGGGGA
AGAGAAGGAAGGGCGGCAGGAGTGGAGACCATGGGAATTTGAGCCACTACCTCATGTAACTTACTTGTGCCTTCAGGACCTGCTCGAGCCCGATCACATA
TATACCACTTCCATTTGATGATGGAATGCTGCTGTGCGCACCCCACTTTATGGCTAGATGGATCAGAAAGCACCCAGTTCATGATAGGCAGTTCAGGTTG
CTTGGTGACTTGATGACCCATAGTCAAATGTTCAGTTTCCACCAAAGCCCAGTAATAGGCCAAGAGCTGTCTCTCAAAAGGAGAGTAGTTAGCTGCAGAA
GATGGAAGGGCCTTGCTCCAAAATCCTTGAGGTCTCCACTGTGATTCACTTATGGGGGCCTGCCAAAGGCTCCAAATAGCATCCCTATCTGCCACTGACA
CCTCAAGCACCATTGGATCTGCTGGGTCATATGGCTCGAGAAACAGAGCAACTTGCACACAGCCTGGACGTGTTGTAGAGTCTTCTCCTGTTCTGTACTA
CATTAAAAAGTGAGAGCCTTTTKGGTTACTCGATAAATGGGCTGGAGTAACATACCCAAATGAGGAATGTGTTGCCTCCAAAATCCAATAGTCCCAAATA
AGCCTCTTTCGTGGTTGTAGGAGGGGCCAAATGCAGCAACTTATCCTTCACCTTAGAAGGAATATCTTGATAGGCCCCACTCCACTGGACCCCTAGAAAT
TTTACTGAGGTAGAAGGTTCCTGAATTTTAGTCATTTATTTTCCATACTCTGGCATGCAAATGTCTCACCAATAAGCCCAGTGTGTTTGCTACTTCTCAC
TCACTGGGTCCAATCAGCAAAATGTCATCAAGGTAATGAACCAGTGTGATATCTTATGGAAGGGAAAATCAATCAAGTTCTCTCCAAACAAGATTATGAC
ACAAAGCCRGAGAGTTGATATACCCCTGAGGTAGGATGGTAAAGATATATTGCTGGCCTTGCTGACTGAAGGCAAATTGCTTCTGGTGGGCCTTATGGAC
AGGAATGGAGAAAAAGGCATTTGCCAAATCAATGGTTGCATACCAGGTACCAAGAGATGTGTTAATTTGTTCAAGCAATGAAACCACATCTAGTACAGCA
GCTGCAATTGCAGTTACCATTTGGTTAAACTTATGATAATCCACTGTCATTCTCCAAGATCCATCTGTCTTCTTCACAGGCTAAATAGGAGAGCTGAACG
GGGATGTGGTGGGAATCACAACCCCTGCACATTTTGAGTCCTTGATGGTGGCACTAATCTCTGCAACCCATCCAGAGATGTGATATGTTTTTTGATTTAC
TATTTTTCTAGGTAGAGGCAGCTCTAATTGGTCTTCCTATTTTGTCTTTTCCATCATAATAGCCCTCACTCTACCAGTCAGGGAGCCAATGTGGGGGTTC
TGCTAGCTGCTAAGTATACSTATGCCAATTATGCATTCTGGCACTGGGGAAATGACCACAGGATGAGTCCAGGGACCCACTGGACCCACTCTAAGTCAGA
CTTCAGCTAAAACTCCATAAGCCCCTACTTTAACTGGAGGACCACCAGGACGTTTTCGGTCCCCTGGAGTCAACGTCAGCTTAGAGACACTGTTCAGTAG
TCCCTGAAATGGCAATCATTTCCCTTTCCCCAATCACAGTTACTCTGGTAAAAAGCCGTAGGTCTCCATGGGGAAGGATGGGAGAAAGACTAACAGCATA
AATTGTTGTCAGTGTCATCCTTGTATCCCTGGGATAAATCCCACTTGGTCATAATAAGTGATCTTTTAACAGCGTAAATTGTTGTCAAGGGGAACCAGCC
TCCCCTTCATTTAAGGGATTCTAGGTCTGTAAACTGGTTTAAGTCTGGAAATTGATTGAGGGGAAATTGATCCTCTGTTTTTATAATTCAAATTAGTCTT
TTGTCCACTTGACCTGGAAGTTTTCTGCTTATATAAATTAAATAAGAATGCAATAGGCTTCCTATCATTTTCACTTCTAGGAACACCATGATTAATCAAC
AGATGCCAGAGATCTACATGAGTCAGACTATTGTGATTGCTGCTTTGCCTCTGCTGTCCATTATGGTAGCTATGCCCACCTTGCCTTTGACAGTTGACTG
GCCCCTGCCACCTCGAGATCCAATTATTCCCATTGCATTTAAGTTTTGTAGTTGAGTGACTGTGGTTCCTACTGTAAAATCTGGCATACAGAGAAGAGCA
ATCACAAAGCTCTTCAAGGATGCAGGTACTCCCCTCACAAATCTATTTTGCAAAGTATTAGTCAAGGATATATTTTCTGGATCCTCCCAGCTGGGATGAG
TAGGTCTAAACTGACTAATCCACTCCACCATCCCAATCTCCCTAAACCTTTTGATCCCTTCCTCTACATTAAACCAAGGGAGATCAGGCATTTCCAGCTT
GCTCACAGTGGGCCATCTTTTAATCCATATTTCAGCTAACCAAGCACATAAATTATCAGAACCTTTTTAAACTCCCCAAGCTGCAACATTAAATGCAGAA
TCCCTGCTTAGTGGGCCCAAATCAATAAATTCAGCCTGATCCAATGCCTTGGATCTATGTTCCATCCACCATTATCCCACACCCTTAATATCCATTCCTA
TGCCTGTCCTCCAGATTTTTGCTTATATAAATAAGAAAGCTCAAGCAGTTCTTTTCGAGTGTAGCACACCTCCTCATGGGTTATACTCTGAACCTCACCC
CTAGGGCCCTCCTGGGACTTTAGTCTAGTTATAGGTCTAGAAGCAAACAGGGGTGGTGGGGGGTGGGTCCTGAGGAGAATCAACATTATCTTGCCTGGCA
ACTGCCTCAGGGGAAGCCATCACTRTTGCCTCAGGCAGTGCAGGGTTTTTCTCCTCAGACAAATGTGGAAAGGCTGATGGCAGTGTGGGTTGGGGAGGAC
ATGTTGCCACTACTGGGGATGAGAAAGCTGTTTCTTCTGGCAAAAAAAGTTTCATCAGAATTTAYAATCTCAGTGTCCCCAGCTTCATCAGGGTCCTTTT
ACATATCCCCATTCCAAGTTTCAGGATCCCATTCTTTTCCAATCAATGCCCTCATTTCAACAGTAGACACCTGGCAAGGCTGTGCATGCACCTTTCATTG
CAGGTCAGCCACTGGTATGATAAGAACTTGTGTCCAATTTCCCGCAATTTYAGCTCTTTCTCTACAGGAGATAAGACTCTCACTCAGGGCAATCTTAGCA
GGTTTGAGGTTCAGTATCTGCTTCTGAAGCTAGGAATTAGAATCCCTAAGTTCATCATTTTCTTTCATCACTTTGTCCAGTGAACTTAGGAGGAACCAAC
CAACTTCATTATGTTCCTTAGTTCCCCACATATGGTCAAAGGTATTACATATAGAGTTACTAAACTCCTTGCCTCTCACGAACCGTGCATCAGGAGTGTC
AAATGAATTTATTTTGTGTAACTCTGTAAACAGTTCGTGCCAAGGACTATCAGTGTTCTCCATACTATTAGAAGTACAGTCCTTAGCATTTTTGGGTCTA
ATCATATTAAGCAGCCTTCTCCAGAAACCCCAAAACCAATGAAAGAACTCCATCCTTAATAGTCTGTTCTTCTGGAACCACTCCTGGGACCAAAATCTGT
ATTAGTCAGAGCTCTCTAGAGGACAGAACTAATAGGATAGATGTATATATAAAGGGGAGGTTACTAAGGAGTATTAACTCACATGATCACAAGGTCCCAC
AATAGGCCATCTGCAAGCTGAGGAGCAAGCAAGCCAATCCAAGTCCCAAAGCTGAAGAACTTGGAGTCCAATGTTCAAGGGCAGGAAGCATTCAGCACAG
GAGAAAGATGTAGGCTGGGAGGCTAAGTCAGTCTAATCTCTCCATGTTCTTCTGCCTGTTTTTATTCTGGCTGTGCTGGCAGCTGATTAGATTGTGCCCA
CCCAGATTGAGGGTAGATCTGCCTTTCCCAGTCCACTGACTCAAATGTTAATCTCCTTTGATGACACCCTCACAGATATACCCAGGAACAATACTTTGCC
TCCTGTAATCCAGTCAAGTTGACCCTCAGTATTAACCAGTACACTAAGTATTTTTTTTTTTTTTTGCAGCTGTTGTAAAAGGGATTGAGTTCTTAATTTG
ATTCTCAGCTTGGTTATTATTGGTGTATAGCAGTGTTGCTGATTTGTGTGCATTGATTTTGTATCCTGGAACTTTACTGAATTCATTTATCAGATCTAGG
AGCTTTTTGGATGAATCTTTAGGGTTTTCAGAGTACATGATCATATTGTCAGCAAACAGCAACAGTTTTAACTTCCTCTTTTCCAATTTGGATGCCCTTT
ATTTCTTCCTCTTGTCTGATTACTCTGGATGAGACTTTCAGTACTATGTTGAATAGAAGTGGTGAAAATGGGCATCCTTGACTTATTCCAGGTCTCAGGG
GGAATGCTTTCAACTTTTCTCCATTCAATATGATGTTGGCTGTGGGTCTGTCATAGATGGCTTTTATTACTTTGAGGTATGTCCCTTCTATGCCAATTTT
CTTGAGGGTTTTTATCATAAAGGGATTTTGAATTTTATTAAATGCTTTTTCAGCATCAATTGAAATGATATATGGTTTTTGGTCTTCATTCTGTTGATAT
GATGTATCATATTGATTGATTTGTGTATGTTGAATCATCCTTGTATCCCTGGGATAAATCCCACTTGGTCTTTTAACTGTATTGTTGAATTCAGTTTGCT
AGTATTTTGTTGAGGATTTTTGCATCAATATTCATCAGATATATTGGCCTGGAGTTTTATTTTATTTTGATGTGTCATTGTTTGGTATCAGGATAATACT
GGCCTCATAGAATCAGTTTGGAAGTTAACCCCTCCTCTACTTTTTGGAATAGTTTGAGTAGGATTGGTATTAGTTCTTCTTTAAATGTTTGGTAGAATTT
GGCAGTGAAGCCAATGGGTCCCAGGCTTTACTTTGCTGGGAGACTTTTTGTTACAACTTTGATCTAATTACTTGTTATTGGTCTGTTTAGGTTTTAATTT
CTTCATAGATCAACCTTGGTAAGTTGTATGTGTCTAGGAATTTATCCATTTCCTCTAGATTTTTAAATTTATTGGCATATAGTGGCTCATCATAGCCACT
AATGATCCTTTGAATTCCTGCAGTATCAGTTGTAATGCCTCCTTTTTCAGCTCCGATTTTATTTACTTGGGTCTTCTCTCTTTTTTTCTTCATTAGTCTG
TTTAAAACTTTGTCAATTTTATTTATCTTTTCAAAAGATTGACTTTTTGTTTTGTTGATCTCTTGTATTTTCATCATTTCAAATATATTTCTGCTTTGAT
CTTTATTATTTTCTCTACTAATTTTGGATTCAGTTTGCTGCTGCTTTTCTAGTTCTTTAAGATGTATAGTTAGGTTATTTAAAATGAGGTTTTCATTCTT
TTCCAATGTAGGCAATTACAGCTACAAATTTCCCTCTAATAGTACTCCTTTTGTTGTATCTCATAGGTTTTGGCATGTTGTGTTTCCATTATCATTTGTT
TGAATCAAATTTTCAATTTCCTTTTAAATTTCTTTATTGACCCACTGGTCATTCAGGAGCATATTGTTTAATTTCCATGTGTTCATGTAGTTTCCAAAAT
TCCCCTTTTTTATTTCTAATTTTACTTCATTGTGGTCAGAGAAGAATCTTGATATGATATCATTTTTAAAAAAATATTTTAGGACTTGTATTGTGACTAG
CATATGGTCTATCTTTGAGAATGATCCACGTGCTGAGAAGAATGTGTATTCTGCAGCTGTTGGATGAAATGCTCCATAACTATCTATTAGGTCAATTTGT
TCTATAGTGCAGATTAAGTCTGATGTTTCTTTGTTGAGTTTTTGTCTGTCAGTTCTGTCCAATACGGAAAGTGGGGTGTTGAATTCTCCACCTATTATTG
TATTGTGATCTCTATCTCTCTTTTAGCTCTAATACTATTTGCTTTTTATATCTGGGTGCTTCAATGGTGGGTGCATATATATTTATAATTGTTATATCCT
CTTGCTGAATTGACCCCATTATCATTGTACAAAGACCTTCTTTGTCTCTTTTTGGAGTTTTTGTCTTGAGATCTATTTTATCTGTTATAAGTGTAGTTAC
CCCTGCTCCTGTTTTGTTTCCATTAGCAAGGAATATCTTTTCCCATGTCTTTATTTTCCAGTCTATGTGTATCTTCATAGGTGAAGTGTTTCTTGTGGGC
AACAGATCAYTGGGTCATGTTTTTTCATCCATTCAGCCACTTTATTTCTTTTTATTGGAGAGTTTAGTCCATTTACATTCAATAWTTTCATTTAAGTAGG
AACTTCCTCCTGCCATTTTGTAATTTGTTTTCTCGTGGTTTCATGGTCATCTCTCCCTTCTTTCCATCTTCTTTTTCATGAAAATAATTTTCTCTGGTGG
TATGATTTAATTTCTTGTTTTTTATTTTTTGTGTATCCATTGTATGTTTTTCCATTTGAGGTTACATGAGGTTTATGACTTATCTTATGACCCATTATTT
TAAACTGATGGCAACTTAACAGACTGCATAAACAAAAAACAAACACACAAAAGGAAGACTAATAAAAGTTCTACACTTTAACTGTATCCTCCTGCTTTTA
ACTTTGTGTTGTTTCTCTGTGTCTTATTGTACTATGTTGTGAAAAGTTGTCTTTTTTTTTTTTTTTTTTCTGAGTCAGAGTCTTGCTCTGCTACCAGGCT
GGAGTGCAGTGGCCTGATCTTGGCTCACTGCAACTTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTTAGCCTACTGAGTAGCTGGGACTATGGGCACG
CACCACCACAACACCCACCTAATTTTTATATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATAGTCTCGATCTCTTGACCTAGTGATCCGCCC
ATCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCTGGCCAGGTTGTTATTATTTTTGACCAGTTCATCATTTACTCTTTCTACTTA
AGATAAGTTTACATACCACAATTACAGTGTTATAATATTCTGTGTTTTTCTGTATGCCTATTCTTACCAGTAAGTGTCTCGGCATTGAAGAGCTAGGTAT
TTCTTATAGTCTTTGCAGTCTGGGCTTGTTTATCCCTGTCCTTCTTGAGAAGGTTTTCCAGAAGGTTTTTATTTGAAGGAGCTTGGGCCTCAATCCCAAT
AATACTGTGGTTTTTGCAGACTAGTAGAGGTACCATCTTGGAGGTCTTGAATAAGATCCAGAATGATTATCTGGATTGCCAGGCAAAAGCACTTGTTCTT
TTCCCTTACTTTCTGTCAAACAGTCTCTTTCTGTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCAAGGTGCTGGGCCATCTTGAACTAGGGGTATGGTGAT
GCAAGCACTCCTGTGGCCCCCACTTTGGATTGTGCTGGGTCAGACCTATAGCCAGCACAGCCCTGGGTCTTGTCCAAGGCCTGCTGTAACCACTACCTGA
CTACCACCTATGTTCACTCAAGGCCCTAGGGCTCTAAGATCAGCAGGGGGTGACACCAGCCAAGTTTGCATCCTTCCCTTTAGGGTAGCAAGTTCCCCCT
GGCCCTGGGCAGGCCCAGAGATGCTACTTGGGAGTCAGGGATTGGAGTCAAAATACTTAGAAATTTGCCTGATATTTTATTTGACTAYGGCTAAGCTGGC
ACTCAAACCACAAGACAAAGTCTTTCCCATTCTTCCCTCCCCTTTCCACAGGCAGAGGTGCCTCTCCCTGTGGCCAGTACTACCACTGGTCCACAGGGAA
TCTGCCTGGCCACTGCTGATGTTCACTTAAAGCTTAAGGGCTGTTCAGTTGTGTTGTGGTGAATGCTGCCAGGCCTGGGACTCTTCAAGGAAGTGGGCAC
CCCTCTGCCCTGGGGAAGATCCAAATATGCTTTCCAGGAGCCAAAGCCTGGACTTGGGGACCCCAAGAGCATGCTTGTTGCTCTACTCCACGTGGCCAAA
CTGGTACCAAAGGTGCAAGACAAAGTCCCCTTTACTTTTTCCTCTGTTTCTGTCAAACAGAAGGAGTCTTTCACTGTAGCCACCACAACTAGGAATGTGC
TGGATCACACCTGAAGTCAGCACATCTCAGAACCTAAGGCCCACAGTATACTACCTGGATATCACTGCTGGTTATTTGGTGCCCAAGGGCTCTTTAGTCA
GCAGGTGATTAATCTTGCCAAGACTGGGTCCTTCCCACCAAGGCAATGGGTTTTCTATTTGTCCAGGGTGTGTCTAGAAATGTCATCCATGAGCTAGGGC
CTGGAATGCGGGCCTCATGACTCTACTCAATGCCCTATCCTACTGTGGCTGAGCTGGTATCCAAGATGCAAGACAAAGTCCTCTTTACTCTTTKCTCTCC
TCTCCTTAAGCAGAAGGAAGGAGTGACTTTTGTTGCTGCAAGCTTCACTGCCTGGGATTAGGGGAGGGGTGGCACAAGCACTCCCTTAGCTGCCCCAGCT
GATGACTTCCTAGGTCATGTGCCACCCCTATCCCTCTGGTTCTGAGCCCAGCCCAGCACTAGGAGTTACCTAGGAATTGCAATCCTTGTGTCCTAGACTG
TCTTTCAAGTTTACCTAGAACCTCAGAGCACTTAAGCATATAGTGGTGAGGCTTGCTGAGTTCTGACTGCTGGGATGAGTGATTCGCCTCTGGCCAGGCC
TGTTCCAAAATCTCCCTTCATGTGCAGCTGCTGGCTGAGTCCAGCACAGTGTTGTTCCCTGCTACGACAGCACCGAGTTTAATGTAAAGTTCCCCAGTTG
CTGTGCTTTACTTCCTCCAAGTGCGCAGACTCCCCACGTTGCTCAGCTGCTGCTGGGGGATATGGGAGGGSTGATGGTGGTGATCCCAGAGTGTCTCTCC
AACCCTCTTCAATGCCTCTTTTAGTGATACGTTGTTAAATCTAGGTACTACGATTGCTCACCTGATGTTTGGTTTTTGTAATGACGCTTTTCYGTGTGCA
GATAGTTGTTACAATTTGGTGTTCATGTGGCGGGGGRGGGGGGGGATGGTGTAGGCTTCTGTTCCACTATCTTGCTCCACCTCAATAGTCTGATGTGCAG
AAGYTCTTTAGTTTAATTAGGCCCCATTTGCCAATTTTTGTTTTTGCTGCAAGWGCGTTTGGCATCTTTGTCATGAAATCTTTGCCAGGGCCTATGCCCA
GAATGATATTTTCTAGGTTTTATTCTACGGTTTGTATAGTTTTAGGTTTTACATTTAACTCTTTAATCCATCTCAGGCTGATTTTTGTTCATGCTGAAAG
GAAGGGGTCCAGTTTTCAGTCTTCTGCATATGGTTAGCTAGTTATCCCAGCAATATTGAGTAGGAAGTCCTTTCTCCATTGCTTGTTTTTGTTGAAGATC
AGATAATTGTAGGTGTGCAGCTTTATTTCTGGGTTCTCTAACCTGTCCCATTGGTCTATGTGTCTGTTTTTGTATTAGTACCATGTTGTTTTGGTTACTG
TAGCCTTGCAGTATAGTTGAAGTTGGGTAGTGTGATGTCCTTCTTGTTCTTTTTGCTTAGGATTGCTTTGACTATTTGGGCTCTTTTTTTTTTCCATATG
AATGTTAGGATAGTTTGTTTTTCTAATTCTATGAAAAATAATRTTGGTAGTTTGATAGGAACATCATTGAATCTGTGAATTGCTTTGGACAGTATGGTTA
TCTTAACAATGTTGTTTCTTCCTACCCATGAGCGTGGAAGGTCTTTCCATTTGTTTTATCATCTCTGATTTCTTTCAGTAGTGTTTTATAATTCTTTTTA
TAGAGATCTTTCACATCCTTGATTAGCCATATTCCTAGGTATTTTCTTTTTGTGTATGTCTATTGTAAATGGCATTGTGTTCTTGATTTGGCCCTCAGCT
TGGATGTTGTTGGTGTACAGAAATGCTGATTTTTGTACATTGATTTTGTATGCTGAAACTTTGCTGGAGGTTTTATCAGATGTAGGAGCTTTTTGGCAGA
GAATATAGGGTTTTCTAGGTATAAAATTATATTGTCTGCTAAGAGAGATAGGTTGACTTCCTCTCTGCCTATTTGGATGCCTTTTATTTCTTTCTCTTGC
CTGATTTCTCTGGCCAGGACTTCCAGTAGGATGTTGAATAGGAGTGGTGACAGTGGGCATCCTTGTCTTATTCCAAGTCTCAAGGGGAATGCTTTGGATG
GTACCAATCCTTTTAAACTTATTGAGGATTGTTTTAGATAATGTTCCATGTGCAATTGAGAAGAATGTATATTATGCTGCTATTGGCTATATGTTCTATA
GATGTTGCTATGATATGAATGTTTGTGTTCCCCAAATTCATAAATTGAAACCTAATTCTCATGTTGATGGTATGAAGAGGTGAGACCTTTCAAACATAAT
TAAGTCATGAGGGCAGAGCCCTCATGAATGGGATTGGTGCCCTTATAAAAGAGGCCCAGAGAGGTGCCTTGCCTCTTTCACCATGTGAGGACACAGCAAR
AATGTGACATCCATGAACCAAAAAGTGGCCCCTCCCCAGACACTAAATCTGCTGGTGCCTGAATCATGAACTTTCAAGCCTCTAGAACAGTGAAAAATAA
ATCTCTCTTGTTTATTAACTACACAGCATATGGCATTTTGTTATAATATCCTKAACAGACTAAGACAGATATCGTTTAGGTTAGTTGGTTTTTAGTGTTG
TTCACATCTTTCATTTCCTAGTGATCTTCTGCCTAGTTGTTGTCCATTATTGGAAGTGGAGTATTAAAGTCTCCAGTTATGACTATTGAATTGTCTATTT
CTCCCTTCATTTCTGCCAGTTTTTGCTTCATGTGTTTTGGGGCTCTATTATTAGATGCAAGTATGTTTTTAGTTGCTATATCTTCCTGATTGGTCCTTTT
GTCATTATAAAATGTCCTTCTTGATTTCTAGTAACRCTTTTTGTCTTGTCTGTTTTGTCTGATATTAGTGTAGTCACTCCAGCTATCTTGTGGTTGCTGT
TTGTACAATATATGTTTTCCCATTCTTTTACTTTCAATCTGTTTGTATCTTTGAATCTAAAAGTGTCTCCTGCAGACAACACATAGTTGGATGTTGTTTT
CCTAAAAACTCTAGACTGACAATTCTGCCTTTTGATTGGGTTCTTTAATGTATTCACATGATGTTACTATTGATATATTTGGATTTATGTTTGTTATTTT
ACTCCTTTTTCTATATGTTTTAATTCTCTTTTTTTCCTATACTTTTCATTTACTGATTTATATTAAGTGAATATTTTAGAATGTAACATGGTAATTTTTA
AAATAAATTTTAAACTGTATCTTTTGAGTTATTTTCACAGTAGTTTCTCTAGAGTTTACCATATATATTTTAGCTTATTGGTATCTGCTTCAGATTTATA
TTAACTTAATTCTAGTGAGATATAAATATGTTACTTCTAGATAGCTTTATTTCTCTTCTGCCTTTTGTATTACTGTTACACATATTACATCTTGTGGTGG
ATTGAATTGTGGGCCTCAAAAATATATGTCCACATAGTAACCTTTGGAACCTGTGACCTCATTTGGAAATAAGTCTTTGAAGACATAATTATATTAGAGA
TTTGGGGATGAAATTACCCTAAATTTTCAGGTGGGGGCTAATTCCAGTGAAAAGTTTGTTTTGTTTTTTAAATAAGAGATAGAAGATGAGAAAACAGACA
CAGAGGAAAAGGCCATGCGAAGATGGAGACAGAGATTGGAGTGATGTCAACAGCCACCAACACCTGGAAAAGGCAGAAACAGATTCTCCGTAGAGCCTCT
AAAGGGAGTGCAACCTTGCCAACATCTTGAGTTTTAATTCTCCTCTCCAAACCTGGGAGAAAAACTGTCTTAAGCAACCCAGTGTGTAGTAATTTGTCAC
AGCAGCCACAGAAAACCAATGCACATTTATAGTATTATATACCCAACAATACATCGCTATAATAATTATTACTTTATGTAATCTTATATTTTTTAGAGGC
ACTAAGAGAAAAAAGGAGAAAATTATATATTTATGGCATTTCTTATTTGTCATTGCTAGTTCTATTCATTTATTCTTGTGGATTCATATTACCATCTGGT
GTCTTTTTTTAATCAGATACAGCTGTTCTCCCACACACCTCTTTTATACTGTAATTGACAAATTTGTTATATTTCTGTATGTTTTTGGTCCAACAATAGA
GTTCTACATACTGTTTTATGCAATTCGTTAGACTCAGGTTTTCTATTTCACCTTCGAAGTGTGGCCCTTAGGCCAGGAGCAGTGGCTCACGCCTGTAATC
CCAGCACTTTGGGAGGCCGAGGCGGATGGATCACAAGGTCAAGAGATTGAGACCATCCTTGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAC
ATTAGCTTGGCATGGTGGTGTGCGCCTGCAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTACACCTGGGAGGTGGAGGTTGCAGGGAACCA
AGATCACGCCACTGCACTCCAGCCTGGCGACGGAGCAAGACCAAATCTAAAAAAAAAAAAAAAAACAAACAAACTGTGGCCCTTAGAACTTAAAGTCATA
TTTTGGTTCTCAAATCAGTTCCAAGAGTAGGTGATCTAGCCCTTTCATTCTAAACACTACACATGTAGTACTAGAGTAYAATATTGTATTTGCTTATTTT
TTCAGAGTCAGGGTCTTGCTATGTTTTCTAGACTGGGGTGCAGTGGGGCAATCATAGCTCACTCTAACCTTGAACTCTTGGGCTCAAGAGAATCCTCCTG
CCTCAGTCTCCTAAGTAGCTAGGACTACAGGTGCACACCACTACACCCAGCTAATGCATTTTTTTTTAACACACATAAAGCACAGTTTTTTCACAATAGA
TTGACAACGATAATTCACGTCTTTTTTGCTAGATGATATTAAGCCACAGATCAAAAAGTCCTAGACTTTTATACTTACTTGAAAAAAACCTCAAATTTGC
TGAATGCCATTGTATTAAGAGCTAATCTGTCTGGTCCAATCACATAATATATTTGCCTATATTCAAGTTTCATATTTCTACATATTTGATAAACATTCAC
ACTAGATTTTCCTCTGTGCTGCAGACAAAAATTTTCTTCAATGGTGTCTGAAAAGGGAGGCCTGCAACCACTACCAAACCACTCTACCTGAGATTAGTTT
ATTAGATAGTGCCTAACCTGAAATAAAAATCTGCTGATAGAACATTCTGCAAAAAAAGCTCTATTATGTTATAGTAGAGCTCATACTATATTATGGTTTC
AAAGGTAATAAGAAAAATATCATCAGATCATCATTATGGTAGCTATTTTAAGGGAAYTTAATAAAAATTTAACAGTTATCATCAAACACTGGCCACCTCA
ATTTTAAACAGTAAACACACGAATTACTCCCATAAAAATTATAAGCATAACAGGACACTTCTTGGCTACTATTCAATACTGACTTGGATGTTCTAGATAA
CACAAGATAAGATACATGTGTGAATATCTATACACATATAGACATATTTATAGATGTGTGTGTATATATACAGTATATATATAAGATTTTAGAAAGGAGG
ATAAATATATATTACATGATAAAACTTATAGTCAATATAATTTTACACTTGTAAAATCCCAGARAACCAAAGGAAAAAATAGAACTAAAAAAGAGTTCAA
TGAAATGATTAGTTTAAAAAAATAAATATAAAAAATGTAATTTTCCCACATACCTTCAAAATGTAGCAATCCCACTAAGCAAAAAGTGGTATTTCTACCA
ACTATAGATAAATGAAAATTCACCTTTAAATGTCTCTTATCCTCCATGAAACTCATCAAAAACAACAAAAAGTACAGCAGACAAAAAAAAAGTCTTATCT
TTAATGAAACTTTGTAAAACATTTGAACCTCAACCATGATGTGTATGAAGATAAGTTACTAAGTGCCATGAAGATTGGACCAAGATATGAAAATGCTAGG
AGAGGATACCTTTCACTGAAGATCTTGGAAAGGGTTGGTATATTGGTATTTTCTAGAGTAGTGATTCTCACTGAGATGCAAAACCAAAGACTCCTTGTTT
TGGATTAAAAAGATCTAGGTACAGAGGCTGAGGGCAGAACTCTCTCATTATCCTATTTGTCAACACAAAATAGGAGAGAAGGCAGGACTAAATCTGAGAG
TGAGCAGATGCACCATTATTTCAAGATTGAACCTAAGGATGTGGCAAGGTAAGGAGAAAAGTCAGGATGACAAGTTGCCCTGYAGCCGCCAGTTCTCATC
AGTTGAAGATATATTAAAACTATGGTACACATAAGCCACTCCATCAAACAGTAAATATGGCTATACTGCAAGCAGTAAAAAAGTGAACAGGCTCTGCTTC
CATACAGTCAAGAACAAAAAGAAACACTTGACAAGGTTGAGAAAAATAAATGGAAAAAAATAAAGAATTTAAAAGAACTGGAGAGAAAACTGTAGCTTTG
GAATACAGAAAAAGGAGATACAGCATACTGCTAATAGATGTCCTCAAAGAGACCAAATACATAGACAAGGGGAAAAAATCCAAAGACATCATTCAAGAAA
AAATTTTGAGATACAAATAAACTTCAGACTTTTACTTCCAGCAATGGAAATCCAGTTTGTCTTCAGCCAGTGGCATATCTCAGACAATAGGCAAGCCATG
AGAATGGTTGTTGGACTGCAGTTTCGGACTCTATTACTACATGTATAGTATTTAGAATAAAAGAGCTAGGTCTCCTCATGTCAGCACTTATTTGACCAAT
GGGAGTATGATTTTAAGTTTTTAGGGTCACACTTTGAAGGTGGAATATAAAAAAAATTATAGAAAGATAAATTTTTGTTCAGATGCATCTACTGCAGCAA
TTTGGGAGGCTAAGGTGAAAGGATCGTTTGAGCMSRRWMGTTTGAGACCAGCTGGGCAACATAGTGAGACCTTGTCTCTACAAAAAATTAAAAATTAGCT
GGGCGTGGGGGCGCTTGGCCTAGAAGTTCAAGGACAGTTTGGGCAACATAGTGGGACCCTATCTTTATAAAATATTTTTAAAAATTAGTTGGGCATGGTG
GTGTGTGCCTATAATCCTGGCTACTTGGGAGGCTGGGGTGGGAGGATCACCTGAGCCCAGAGAGGTAGGGGCTGCAGTGAGCCATCTTCACACCACTGCA
CTCCAGCCTGGATGATGAAGTGAGATTCTGTCCCAAAAAAAGGACAAAATGAAATATCAGCAATGAAAGGTCCTGCTAAAGAGAAGGTTTGTTAATTCAT
AATTTTAATGTTTATCTGGTCATCTTATCCAAAAGGCAAAAATCTTTAGCCTCCCTTATCTTTGGGATATCGTTCTCTCTTAAATGTTGCTTTCTCACAA
ATCCCAATTTACTTGAATAAGAATGCAATGTTATGCCAAAAGTTAGGGAGGCATATGGTGGGACAAATCCTACTGGGTGGATGGTTTCTTCATTCTTTTC
ACAAATGAAATCTTCTGAAAATAGACGTCAGTGGCAGTTTAAATAGAGAAATGGGAAAAAGGGAAGCCAAAAATCTGAGAAGCGTGTGAAAGAGGAGGAG
TTTCTGTGAAGATTTCCCATACTGTTCTCTGTATGCATTTTTCCTTTTTTCCTCACGCCCTAATCTATACCCACACATACTATCCCTCTAGGTGCAGCTC
AGAATTCCTAAACCTGGTATAATTGGAGGCATGGCTGCAGACCTAAAAGTTCGGTACATCTTTACAGTTGTATTTCATCTGTTTAAGGCAGAAAGAATAA
ATTTTCATTCCAAAGCAGTTAGCTTGCTTAGCAGCATTAATTTAAAATGAAGAAATGCACATCCTAATCTCTGGCACTGAAGCAGAAAATTAGTTTTGGT
TTAGAAATTTGGTGAAGAATAAGTTCAATTTTTATGGGCTGTTTTGCATCCTGGTGAGATCTAATGAGGTCTGTACTTGTGACTACCTAATAGGCTGACA
TGTTTCCTCCTTTAATTTTATCTGAGACTTGGTGTCAATGATTTTTTGGTTTCTTAATTCAAAAAGGCAAACTAGCCAAGGGGTATTTACTACTTATATT
GCCTTATATCACAGTGTGCCCTTTCTAGTTCCCTAGAAGAGATAACGAATGGGTTTGTGTGTTTAGGGAGGTAACTGGTTTTTAGTGGAACACTGGCATT
ATCAATCCCACTCTTAGTGTTAAAAAGAGAATGCCCGAGCTACCCCTCTCCCCACCATTTTAATCAGCAATTTTTAAATGTTTTCAAATATTATAGAAAT
ATGCAGGCTGATGCCAGGTGCGGTGGCATGGGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCCAATCACTTGAGGTCAGGAGTTCGA
GACCAGCTTGTGCAACATGGCGAAACCTCACCTCTAATAAAAATACAAAAATTAACCGAGCATGGTGGTGCGCGCTTGTAGTCCTAGCTACTTAGGAGGC
TGAGGCAAGAGAATCGCTTGAACCTGGGAGGGGGAGGTTGCAGGGAGCTCAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGAACCTGTCTC
AAAAAAAAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAAAGTTAAAAAAAAAATGCAAGGTGAGTGCAGTGGCTCATGTCTGTAATCCTAGCA
CTTTAGGAGGCTGAGATAAGATGGGAGGATCGCTTGAGCCCAGAAGTTTGAGACCAGACTGGGCAACAAAGCAACACGCTCATCTGGAAAGGAAGGAAGG
AAGGAAGGAAGGAGGGAAGGAAGGAAGGAAAAAAAATTTCAAACATACACAAAAGTTGAGAGAATTGTGTAATTGACCCCAATGTACCATCACCCAGCTT
CAATAATTATCGATACTTTTAGGCAGGTTTCTACCAGAAAATATGTCCTGGAAACTTTAATTCTTGATCTGTGTTCAGATTTTGCCTTTCAAATGTTTCA
TTATTGGGGCTTTGGACATATTGCACCTGTATTAAAAGAAGGATTTGAGTGAGGRATTTAGTGCTTCATAGTCAATAGTCAATGAGTCTCCTTTTGGCTC
GCCTCCTTCTTAGGGAAAGGAACTGGTTGTAGGGTGTTAGGCAGAATTTGGGTGTATCTGTTGTGGCTCAGAGATGTTTCTCATAGAACTGATCACTGTC
CCAATATCCACGCAAAAGACCAAATTAAAAGCGAGGAGAAATACCTAATGTAAATGACAAGTTAATGGGTGCAGCACACCAACATGGCGCATGTATACAT
ATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAATAATAATAATAATAATAATAATAATAWTAAAGCGAGGGTGGGT
ATCTAGCCTATTCTTATCCTGCCTCATGGTGTTTTCTAAATATTTACAGAAAGAAAATTTACAGAGTAGTTTCCTGGTCAAACTCTAATGAGTATCTCAG
TACTTTCCCCTCCACTTCTCACGTCTTCTTTGGGGACGGGTCGTCAAGTCTTTGAGTTTCTAGTTATTGCTATTGACTGGTTTATAACCTCCTCTTTCAC
CCAGATCGTCAAGGGCCGTTTGCAAAGCACTCCCAAGTAGAGCCTCTTGGAGAAGGAGAAACTGCTATCACGCAAAAAAAAAGCCTTGAGCTCGCTGGCT
CCGCTGCCTCGAAAAGCCAGAGTCCGGAGGCAGTTTGATGCGGACACTATTCCCCAACCTTCTTCCCCTCCTTGTCGTCTCTATTGCCCTCTTGGCAGCT
CCTGGGATACAAGAGGGTGCAGGACAGACTTCAACCCGCAGCAGGATCCAGCGCGGAAAGCTCTGCAGCAGGATCCAGCGCGGAAAGCCCCCCGCAGCAC
TTCTTTCGGGGGGCTCCTGTTTCCTTAAGCCTAGAAGGTGTGGTCGCTCACGTTCACCGTCCCGCCTCTCGCCGCCTCCGCTCGGCAGCTCCACGCTGAG
TCCCGCCCTCTCCGCCGGAGAGGTGCGCCGGGGTCAGAGCGCCGGGACCCGACGCGCGGCTCCCAAAGGGCGGCAGGAAGAGCCCAGCTGGGCTCAGCCA
CAGTTATCAGCAATCTGCGGGCAGAGGATGTGGAGGTTAAGATCTGGGCAGCCTCAGGGCGTTGTCCTAGAAAACACCGTTTAAGGAGAGAAGTGTTAGT
GTCTCGGGGCGTCTCCCAGGCTCCGCCCTGCGCCCGCAGCCAGCGTKGTGGTCGAGACCCCAGCCCGCTGCTACTGGAGACAGCACCTCTCGCGCCCGGG
CGGGCGGCCTCGTCTCTGCACCCCTAGGCGGCGCTGCGCTCCTCAACACCCGGCCGGCTCCGCTTTCCCAGACGGCTGCCCAGCCTCCAGCCTAGCAAGC
CCGGCTCCCAGCTGGCCAGCCCCGGCAATGCCGGCGTTCGGGAGGCGCAACGTCGGCGGTCGCTGAGTATCCAGCCCGCAGCAGTGACGGCCGGCAGGAG
CGTGCTCTTCCCCGCGGCTCGTGCTCTCCAGGAGTCCGGAGCATGGTCCTGGGTCACCGTTGGTGTAGCGTGTTGGTGGAACGTGGACGCCTAGAGGGAG
GATGGTGGGCTGTGGGGTGGCAGTTTTATGTTTGTGGGTTTCCTGCGGCGCTGCAGCGGGACAGCTCGAGTACTCAGTGCCGGAGGAGACGGAGCGGGGC
GTAGCCGTAGGCAATCTCTCCGCGGACTTGAGGMTGCCAGCGGCCGCTATGTYCTCGCGGAACTTTCGCTTCCTTTCCAGCCACCGCGAGCTCTACTTCG
GGGTGGATCTACCCAGCGGCAATTTGGTGGTCAGAGAGCCGGCGGACCGCGAACAGCTGTGCAGGGCCAAAGCTGCCTGCGTCTTGACCTACGACCTGGT
GCTCGAGGACCCGCTGGAGCTGCACAAGATTCGGATTCACGTCCTGGACACCAATGACAACTCACCTCTCTTTCCTGCCGGCGACGTGCAGCTGCACATC
CCCGAGTTCCTGACGCCCGGAGCCCGYTTTACTCTCCCGAATGCCCAAGATGACGACGAGGGAAGCAATGGGATACTAAGCTACAGCCTAAGCCCCAGTC
AGCACTTTCGCCTGGACATGGGATCRCGGGTTGACGGCAGCGAATACCCGGAGTTGGTGTTGGAGAAAGCACTGGATCGCGAACAGCGCGCCACCCACCT
GCTGGTGCTTACAGCTCGGGACGGCGGGCTACCTGCCCGCTCAGGAGACGCACAAGTCACCATCATTGTGGTGGACACAAATGACAACGCGCCTGTATTT
GAGCGCTCCGTATACCRCACCAAGGTTCCAGAGACTGCACCCAATGGGACTGTGTTATTCCGAGTTCAAGCCTTGGATCCAGATGAAGGGTCCAATGGGG
AAGTCCARTACTCCCTAAGCAACAGCACGCAAGCAGAGCTGCGACACCGCTTTCACGTKCACCCTAAAAGTGGGGAGGTKCAAGTAGCTGCTTCACTAGG
YCCGCCTGAAACGCTCTTGGAGGCATACATTGAGGCGAGGGACGAAGGTGTCTTTGGTTTAGCTAGCACCGCTAAACTGCTGGTGGAGGTGACTGACGTG
AACGATCATGCCCCCGAACTGGACTTCCTGACTCTTTCGAACCCAGTACCTGAGGACGCTGCCCCTGGCACAGTGATTGCTCTCTTTAGTGTAAAGGATG
AAGACCTCGATTCTAATGGTAGGGTCATTTGTGGCATGTCTAGTGCAGGCCCTTTTCAGCTGACGGCTTCCTTTGACAACTACTACAGCCTGCTGATTGA
TGGGCCCCTGGACCGGGAGCAGATCAGTGAATACCAAGTCCTGATCACGGCCTCAGATAGTGGCTCACCSCCACTTAGCACCCGAAGGACAATCACTGTG
TCAGTTGCTGATGTGAATGACAATACACCAAACTTTCCTCAACCCCRGCAGGAACTTTTCGTTGCTGAAAACAATGGCCCTGGGGCCTCTCTAGGCCGAG
TGTTTGCCCAGGACCCCGACCTGGGGAAGAATGGCCTTGTCTCTTATGAGCTGTTGGATGTTATCTCTGAAGGGCCATCAGCCTCTARCTTGSTGGCAGT
GGAATCATCCAGTGGGGCCATCACTGCCAAAACTTCCTTTGACTTTGAGCAGCTCAGGGGGTTTCATTTCCAAGTAGAAGGCCGGGATGGTGGCATTCCT
CCCAGAAGTGCAACAGTGACTATAAACTTGTTTGTGGTAGATAGGAATGACAATTATCCGGTTATCTTGTTTCCCTTGCCCAGAAATGGTTCTGTCCCAG
TGGAAATTGTGCCCCGCTCTGCCAGGACTGGACACTTGGTCACAAAAGTGGTAGCAGAGGATGCTGACAGTGGTTCTAATGCCTGGCTTTCCTACCACAT
CTCCCGGGCGTCTGACTCTAGTCTCTTTAGAATTTCAGCCAATATAGGTGAGCTCCGTACTGCTCGCTTAGTTCTTCCCACTGATGCAGTTAAGCAGAGG
GTGGTGGTAGTGGTTCGGGACCATGGAGACCCACCACTTTCCTCCTCTGTCACTCTGGGTGTGCTGTTGAGCAACTCTGTCCCTCAGTTACTTCCAGACT
TTGAAGATGTCTGGGAACCAGGAGGGCAGCTTTCTGCCCAGAACTTGTATTTAGTAATTGCCTTGGCTTGTATTTCCTTTTTATTTCTGGGGTGCTTACT
TTTCTTCGTGTGTACCAAGTTGCACCAGAGCCCAGGCTGTTGCKCTCAGAGCTGCTGTCGCTCTACAGAGGATCTGAGGTATGGAAGTAAGATGGTTTCA
AATCYTTGCATGACATCAGCCACCATAGATGTCACTACAGTTGAGAGACTTTCTCAGACTTATCTCTATCGGGCCTCTCTGGGACTTGGTTCTGATAATA
ACAGTTTGCTGTTGCGTGGGGAGTACAATGCTGCCGACCTGCGAAATCTTGCCACTGGGGTAGGACTGAATTTGCCAATATCCTGTATTCAGATTCGGAA
TAGGAAAGGGGATCACGCTAATGTCAATGCCATGGTAAGCAAATTTTATGGAATTTGATTCCTTTGGCCCGGAGATGGCTGCTAGCTGTGTTTTGAAATA
TTTCTTAGACAAGCCTTTCACAACATTTCATCAATTGAAYTAAACACTCCTTCTTAGCACTTCCTGTGCCAAGAAATCTGGAAGTATAGAAGTATTAGAA
GATTGCCCTAGGCCTCAAGGGACTTATAGTTTATTTTTGAGAAACAARGGCAAAAATTAAAACCTATTTAAGAACAATAAAAGTAATATGACATAAAGGT
CTAAAATTAAAAATAAAATACCAAAATATTTTATAAGCAACAGATGTGTAAGGCACTCTAATATTTAAAGTGAAGAATGAAAAATATGTAAGAGTCTGCT
TTATATGAATATAATATGGAAGGTGAAACATTTACTTAAACTATTGCAATGCATTATTAAAAGATGACGATAACCACAAAAGATGTAAAAATAAATTACA
ATGGGGGTTAAAAGAAGGGAGAAAGGGAACATAAGAGAACATTTGAGTGAGGAGGAAGGAGTCAGAGAAGGCTTTGTGATAGAGATCACAGATTTAGTTG
GATCTTTAATAYGATATACCATTTAATAAAAAACAGTGTATTCTCTAGCCTATACTTTTAATGAATACCATTTTGGTGAAGGTGTCTTCTTTGGGAATGA
CACCCTAAAACATAGCTGATAGCTCCATAGCAGTGTTTTGTAACTGCTTTGGAGTTTTTGCTTACACAAAAACTGTAAGCCTCTCTCATAACATCTATTT
ATACWGATAGGAGATCATATTGTTGGATATAGGACTTGACAACCTTTTGTTTTGTGTTTCTATTGATAATATTTTACAAAGAGGAAAGATGAGTAATTTT
TATGTCAGAAATATTTATGTGTTCAAAGGTGCACTTACCATCCAAAGTCCATTCAACTTGGATTTAATTTCTTTTATTTTAGGGGACAAATACACTTAAC
AAATAAGTAAATATCATATTTGAGAGTAATGTATCTAATGAAAGTTAAGTGATTCAAATATTTCAATTTATCTGTTAGTGGCCCTTGGCATTTCAAAACT
TCTTTTTTTTTTTTGAGACAGGGGTCTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTAGCCTCAAGTGATCCTCCCACCTAGGCCTCCCAAAGTGCTG
GGATTACAGGCATGAGCCACTGCAGCTGGCCCTCAAACTTCTTGAGTGCAGTTAGGACAACATTTTGAAGCAATTCTACGGTATTACTTTTTGACTTCTC
ATAGAAATCCTAGATGCAAGAGAAGGAGGTGTGTAGAAATTAAGGAAGGAAAATGAAGCATTCCTTGTTTTACTATTCTAGGCAATAAGGGGAAAAGTGG
CTTGTAAGTTATTCTTCCTCAAGTAATGATGTTAACTGCAAATAAAATAAATTTACATATGTTAAAATTTTCTGTACTTAATATTTTCACAATATAATRG
AATCCAGCATATAAGATATGCTTAGTAAATGCTGACTGAATGAATAAATATGTGCATATATGAATTGGATGGTAACACTGTTCAACACAGAGGGAAAAAC
TTTAACTTACTTTTCTACTTTAGATGTGTATATGTGGTTAACAGTTTAAAGGTCACTTTCAAATGTACTGTTTCAATGATTATTTTCTTCCTCATGACCT
ACACTAATAACATAACAGAGGAATTTTCTGATTGTAGAGCTAGCAAGAAAAACTTCAATGCTGTGTCTGGGACTAAGTATGAGTCCAGTTCTACAGATGA
CAAAGGAATTAATAGGTATGCACATCATTACATTGTGATATTTGCAGTGGATACTATTTAATAGAATCTCAGTTAATTTTAGGGAAGGAAATTGGTGCAC
TACAATGCTAGTATTTCAGGTATCAGAGCACTTAATATGTGAACACTTTTCCTACCAAGAAATTTCACTATTTATTTCTTTTATTTTCATTGCTTTCTGT
AACAAAAAGAGAGGAGAATACCAGTAATGGCTGTAAAGTTTGGGAGTGAGGAATTTTTTTTAGAAACACATTTTCACTAGACTAGAAAGGAAACATAAGT
AAGCGATAGGAAGGCTGATGAATCTAGAAGTTAGAAGGAAAATTAGCTATTTAAAAGGAAAAATATAGGAATGACAGAGGAAAAAACAACCCTTCAAACC
AAATTTTTAAACATATATGAATGATTAACAAAATAATAGAGATATACTGTTCATATGTGCAGGAATATTGTACCATCCCATTCATTCAGTTGAACAGTCT
TTTTCCATCATTGTTGATATTTTGCTTTTTAGGTAGCTCATTGGTCTGCTAATAATTGTTGTGGGCTGGATATTTCCTTATAAATAAATGAATTGTGATT
CATAAAACCATGAATAAAATAACTTCTATAAATATGGGGTATTTGTAATTCACAAAGGCATTTGTTATTTACTTCTTCCTGTTCAATTACCTATTGATCT
GATCTTAATTCTTTAGAAAAGAATTCTTGTCATAGTATCCTGAATGCCTTAATAACAACAGGATTCTAGAAATAAAATATTTATTGCTTTCATTTTATTT
CAAATCATTTGAAAAGCATGACATTTAACAATGATTATAATGTGTGTCTGAGTCTTACAGAATCATGTTGATGCATATGTGTTTATATTTTGCTCAAATT
CTAAGTTCTTTCATTTTAGTTTACGGTAAGTTTACAGTATATATTAACATAGCCTGTAATACTAAAAATTATCAGTTTAAGAAATTCAGGAAAACATGGT
TTTTATCTCTGTATTTCCAATTGATAATATTTAAGATATAAACAAAATTGATTCACTGATTGTATAACAATTAGACAATGTGTACCTCATGTCCATTTTT
TTCTGTTAATATTCTTGATGGGCAATTTAAATTTTTTAGAATGGTATCTAAGAGGGTACCTCTGAGATATAAATTTCTACTTATTAAAAACTGCATTGAC
AATTTTTAAAGGTATAAATATATTAATGTAGCAAAAATGCATGAAACACTTACCATACAACTGGCCTTATTAAATTTCCACATGAAAGTTATACATAGTT
TCAACATACCAATGTTATATTAGTGTATTGTTCACCTGGAATTAAAGCATCTTCTTTTTTGCCAGGGTATATAGGAAATAGGATATCTCCTCTTTGCAAT
GTCATTTGTTAACAGTAGTAGAATGTTTGTGGCATTCAAGGTGCTTTATTTAACATACATTCCACAAGTAGACTTTCCCATAGGGTAATTAGATGTTTTG
TATATCTATTTTGACTTTGAAGCTGATAACCACACTAAAAAACTTTAGAATGATGAAACTAAGGAAGTTTGCATGACATATGAAATATATTCAAATTAAA
AAACTCATATAGACAACACAATAATATTGTATAATATAGACCCTCAAATCAGTAAAAAGGAAAGAAAAAGAACATTATAATTTGAGTGGACATAAGAGAA
AAGCAATACCTTGGAAACATATAAGTGGGAAAGTATTGACAATGTGTCTCATAATGTTAATGACTTATTGTCTTTTGTTGTCTTCAATATTTTCAGTTAG
AGGGAAACAATAATATTTCAACAACTAAATTAACTTAGCTAGGTTGGAATGAAGGTGGACTAAATTGCTGAAAGGTTTTTACAATGCTCAAATGCATGTC
ATATGAATATCGGAAATATTAACACTTGGCAGAACTTCAAGTGAATATGGATTACAGTCCAGGATCCTGACTAAAGTATTATGGGAAGTAAGGAATTTGT
TGGTAAAGGTTGTTCTTAAGAAACAAAGCTAAATAATAAAGGTAGATAGCCACTCATTTTGTTCCCAATTTTAATTGATGGCATAAGATAATGGTTCAGG
ATATAAATAAATTACATGTCTGTTATATTGCATTTATGAAAAAGAAAGGACTATAAACACAAAAGGTTATTATATATTCATTTGGAACTTGTTTTGGAAT
CTGGAAATAAATATGCAATCTCGTATTCTCCTGTGCTGTAGAGAAAGATAAACACTTTATTTCTAACCCATCCCAAATTCCTTGGCTGTTCCTAGAGCCA
TCTGGTTACCATCTACAGATATTCTGTGTTCATAGGGGCACTCTAATGACATACCTTCAAAATATACTCTGAATTCAAACACATTATGGTTATTCTTTAG
AATTGTTAAGCAAAGACTACAGCTGTTTTGTTTAAACTCAAAATAATGTTAATATAAAATAAAAACCAATTAAGAAGTCTTAATAGTGGGTTTTTAGGTT
GATTTGTCTTTTTCTTTTCTTATTAGGTTAGGCTGGCCCTGTTAAACAAGTTGGAAATCCTGTCTCTCTCTCTGTCTCTCTCACATTTTTTTTCCTATTC
CTCGGACACATTTACTGAGATTGGTGATACAGCTTTCTTAAATATTTGGTAGAATTCACTAGTGAAGCTCTCTGTACCTACAGTTTTCTTTGTAGGAAAA
TTTTAATTGAGATCAAATTTCTTTGTATTTTTATTGCTCCTATTTCATTCCTGTACCTTTAATTTTTTCAGATATATGTTAGTTTTATCTGTACTTTTGA
ATATTTTGGCATAAAGTTGTTTATAATGTCCTGTTGTGACTTTTTTTCACATCTGCAGGATCTGTAGTGATGTTTCCCTTTTCAATCCTGGTGTTAGTGT
CACCTCTCATTTTTCTTGACTAGACTTGGAAGTAGTTTATTAATGATATTAGTCTTTCCAAGGCTAACTTTTGGTGTTTTGGGTTCGCTTTGTTGTATGT
TTGCTTTCTATTTTATTAATTTTCATACTTTATTAATTTATTTCCTTCCTTATATGTTTATATTTCAGTGTGCAACAGAAGTACTCTAAACATACTTTTC
ATTTCTATTTCCTCACACAAAATGTTTAAAAGATTTGTACTTAATTGTGGAGATTTATCAAAATTAATAATAATCAGTGCTTCATCAAGGGCATTCTTAC
TGGTATTTTTCTTACTGCAAATGTCCAATCATGAATGTAATAACCACCAGTACAGTGTGGAGCCACTGCTTTGACTCCTTCTGTGGTTCTATGGTGGCCA
GCTTTACCCACCAATGCTTTTGCATTATCAATGCAAGTGTAAATATAGTGAAAAATGCAAATAATGTTTTAACATTATTTTGAAAATTATATTCACCTCA
TAAACACCCAAAGSGTCCATAGACCACACTTCGAGAGCTACCGTTCTAATTCTATCATTTCTTCTTTTTTTTAATTAATTGTAACATTTCTGTAATGGGT
CTTCAACTATTTGATTAGCCTGAGGTACAGTTCACACAGGAAAGGCAGGATAAATGTTTGATTCTTCCCCTTTGTTTAGCAGTATTCAAAACAATGAATT
GATKCCTGGCCATCTTACAAAAAGGACCAAGGCCTTTTTTAGGTGTCATTATGAACTCATTGACTTAAACATATTTGATATGGCCCAATCCATGTCAATT
ATCTTTTTAATGATCAAATTATGCTAACTTTGGCAAGTTGGGAACTGTTCAGCTTTGCTCCTGAGTCTTTGTGAGTGTGTTTGTGTATCTTGTTTTAAAC
CTTTTATTTTGGAATAATTATGGATTCACATAAAGTTACAAAACTAGTATAGAGAGATCCCATGTGCTTGTCACCCACTTTTCCCCAGTGATAACACCCT
GAATCCTTTTCATGTGAGTCTTAATAGTCTTTTGAATGCTTCCTTGATTTCTGGTATTACAAGATGTTCAGATTATCTTGTACATTTCCTTTCCCAGAAT
CAGCCATTTTTCAAAGAGCTTTCACTTATTTTTAGTGAAAGATGATACTTAGAGATATAATCTCAACAACAGGTGTGCTTATTGCTGCTGGGTCAGTTGC
TGTTTCTAGGTATCTTCAGCTACTGAGCTAAGGGATGTCTATTTTTTAAAAGATAAAATACATCACATGTTTATACTAATCTAATAAAGTTCAGCACTCC
GAGGTTTTTACTTAACTTCATCAATCTTACATTCCTATTTCTCCCATACGTCAAATCCCAGTTTTCATTAACGTCAACAGAATTACTCATTTGTTATCCC
ACGGGACTCAAACAATGGACTTAGRAAACAATTTCAGCACTACAGAAATAATATGATACTGTAGCAGTTTAAGTTTTTGTCATTCTTTTCATTTATAAGG
CACATCCTTACAAATGCCCAGTAGGCATGTACAGTCAAATTATTGTGTTTTAAAGTATCTTGGAAAAGTTCCTCTCTGTGTAGTTAAGCCACCAGCTAGA
TACAGAGCTAGGCTTTTTTCAAGTCGCTTTCAAATTTAGGGCTTGCTTTTTAAATTTTAATTTTCTTTTATAATTATGTGAAATATTTACATGGCTCCAA
AATAAACTTATAAAACAAAATATATTTAGAGAAGTCTAGTATCTATTATTCCATACAATACACATTCTTCCCCACTTTGAGTTTTTTCACTTAAAAATAT
AAACGAGATTATTTCATAGTAGTATAGTATTTACACATATTCCATACTKCTTAATGGTGTCTTTTGATTAGCAATTAATGAGCTCCAATTTATCAATATT
ATCTTTTTTTTTTTTTTTTGAGACAGATTCTCATTCTGTTGCCCAGGCTGGAGTAAAGTGGTACAATCTTGGCTCACTGCAATCTCTGCCTCCYGGGTTC
AAGCGATTCTCCCACCTCAGCCTCCCGAGTAGCGGGGATTACAGGCACCCACCACCACACCCGGCTAATTTTTATACTTTTAGTAGAGACAGGGTTTCAC
CATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTTAAGTGATCTGCCCGCCTTGGCCTCCTAAAGTGCTGGGATTAGAGGCCTAAACCACCACGCCCAGC
CAAAGTTGTCTTTTTTATTTAGTATTCTTTCTATCCTTTTAAAGAAAACATATCCTGCTTCAAGTCATGAAGATATATTCCTGTGTTTTCTTCTATAACA
TTGCTATCCAATAGAACTTTCTGACATGCTATAAATTTTCTCTATCTGCATATATGGAATGTGTAGCTACTGAGCACTTGAAATGTGGCTAGTGAAACTG
GGCTACTCAATTTTTAATGTTACTAATTTTAATTAATTTAAGCTTAAATAACCACATCTGTTTAGTGGTTGCTGTAGTTCTGGAAGCTTTCTTGTTTTAA
CTTGCACATTTAGATCTTAAATTACCTGAAATTGCTTTTGAATATAGTGCAATGTAGAAGTCAAGATTTATATTTTCCACTTGTAAATCCAGTTAGATTG
CCTACTTTCCTCGCTGCTACTGTGCAGTGCTACCTTTGTCATAAGCAACGTGACTTTATATATTCTGTTTCTGGACTGTCTATTCTGTTTCATTGGTCAA
CTTGTCTATTCTTGTGCCAATACATTCTGTGTTAAATATAGTAACTTTTCATTTGTATTGATATCTAATTGTGTAAGTTCTCTCACTTTGTTATTCTGCT
TCAAGATTAACTTAGCTATTTTTGGCCCTTTGCATTTCTATATAAATTGTAGATTCAGCTTCTCAGTTTCTATTTTAAAAAACCCTGCTTTGATTTTAAT
TGGCACTATATTGAATCTGTAGAAAATATGGGGTATATTGAAAATATCTTATTTTGATCTTTATTGAATCTATAAAAATATGAAGCTTGTTAACATTGAC
AATATTGAGACAGACAACCGATTAACAAGGTATATTCTTCCATTTATCTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTG
CAGTGGCGCAGTCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCAC
CATGCCCGGCTAATTTTTTGTATTTTTTGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATTCACCCGCTTCGGC
CTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCTTCTTCCATTTATTTTATTATTTTATCTTAATGTTTATGTGTGTGTATGTGTATAT
AGGGGTATTGCACAACTTTTATTAGATAGCTGATATTTTAATGCTATTTTAAAAGTTTAATTTTATAATACAAAAATTAGCTGGACATGTTGGCACATAC
CCGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGCGAGGCAGAGGTTGCAGTGAGCTGGGATCGCGTCACTGCACTCTAGCCT
GGGCAACAGAGTGATACTCCATCTAAAAAGAAAAAGAAAGGCAGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGAT
CACGAGGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGTCGGGCGTGGTGGCGGGCGTATGTA
GTCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATGGCATGAACCTGGAAGGCGGAACTTGGAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCG
ACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAGTTTAATTTGATAATTGGCTTTTGTTGAAAGTATATAGAAATAATACTGATTTTATGTTAACTT
TGTATCCAATGTTCTTGCTAAATAGTAAAATCTCATATTTTTATATTTTGGGTTTTCTACATATACTGTCATGCTATTCCCAAATAATGTTAGTTTTATT
ATTGTATTTTTTACTTTCTCTCTTTTTTTAAAAAAATAGAGATAGAGTCTCACTACATTGCCCAGGCTAGTCTGGAGCTCCTGGGCTCAAGCAATCCTCC
CACGCCAGCCTCCCAAAGTGCTGGGATTACAGGCATAGGCCACCATGCCTGGTCTTTTAAAAACTTTCTAATCACATAGTTTTCTTGCTTTCTGTCATTG
CCTATGAAATTCAGTATAAAATTGAATAGAAGTAATGTTAATGGATAATCTTGTCTTATTCCTGGTCTCAGAGAGGAAGTTTTTAAATATTTAATATGAA
ATACATTGTTTGATTGGGTTTATTTGCAAAAATCCTTTATCAGATTTATTAAGTTCCCTTTGTTTTTTAATTTATTATGTTTTTTAAAAATCATGAATAG
GCATTGAATTTATCACATATTTTCTGTTATTGAATGGATAATATGGATTTTTATCCTTTTATTAATAGCATGCATTATATTGGTTGATTTGTTAATGATA
AACCAATCTTGCATTCTTGGAATAAACTCAGGTTGCTTATGATGTATAATCCTTCTTTATATCATTAGACTTAGTTTCCTAACATTTTCTTTACAGTTTT
TAAATATATGTTTATGATAGAAACGCGTTTCTACAGAAAAAAATAATTATTTTTAAAGGCATAGTTATTGGGTACTAGACTTAGTACCTGAATGATGAAA
TAATCGGTACCACAAACCCCTGTGACATGAGTTTGCGTTATAACAAACCTGCCCATGTACCCCTGAACTTAAAAGTTAAGAAGCAACACACACACACACA
GATGCGCACACACACACACGCACAAGAAATTGGCTTTTAACTTTCCATTCTTATAATGCTCTAGTCGGAGTTTGGCATCAAGGCTATCCTGGCTTTATAT
AGTAAGTTAAGAAGTGTTACTTTTCTTTTACTTATTCGGAAGAGTTGTCTTAGTCCATTTGGGCTGCTATATCAAAATAGCATAAACTGGGTGGCTTAAA
AACAATAGAAATTTATTTTTCACAATTCTGGAAGCTGGAAAGTTGATGATCAAGGTCCTGGCAGATTTGTGTCTGGTAATGGCCCACTCCCTGGTTCATA
AAACAGAATGTCACCTTCTTGCTGTCTCTTCACCTTCTGGAAGGAGCAAGGTAGCTCTCTGGAACCTCTTTTATGAGAGCTGTGCCCTCGTGATCTAATC
ATCTCTACAAAAGCCCTACCTCCTAATATCATAATCTTAGGGGTTAGCATTTCAACTTATGATTGCAAAGGAGGAGGGAACACAAACATTCAGATCATAG
CAAGTTTGTGTAAATCAGCATTTTTTTCTTCCATAAGCATTTGAAGAATTAAGAGTGAAATTTATAGGCCTAGAATTCTCTTCATGAGAATGTTAATTAT
AAATTCAATGTCTATAACATTAATAGTTATAGAATTATACAGAGCCTCTATTTCTTGTTGTATTAGTTTGGTTAATCAAAATGGAAAATTTTAACATACC
TTGCTCAAAAACAGAACAAGGAGACAAAAGAAAATCAATAAGGGTACTGAAAACTTCAATAACAGGAATAACCAACTTGTATGTATGTGTGTGTTGCTGG
ACATTATCATTTGTGAGATACATTTATATTGTTGTGTGTAGCTGTGTATCATTCATTGTCATTATATAGTATTTCAGGGTGTGAATGGTCAATTTCTATA
AATGTTCTGCATGTTCAAGAAAAAGCAGTATTCTGACATTGCTTGTTGTTGTGTTCTGTATATGTCCATTAGGTCATCTTTGCTAGTTGTGTTGTTCAAA
TATTCTGCATTCTTTTTTATTCTTTTTGTTTGCTTATTTTATCAGTTACTGAGAAAATTATGTTAAAGTGTTCCACGATGAATAGTGAATTGTTTCTCCT
TGGATTTTGTCAATTTTTTGTGTCATATGTTTTAAGGCTATTTTATTTTATTAGATTCTTAACCAAATATAAATATGTGATATCTTTCTGCTAAATTGAA
ACTTTTAGCGTTATGTATTATTTACCTCTATTTCTGCTAGTGATAAACTATTATAGTTTTTGTTTGCCTGAAATGTCATTCTTGATAGATATTTTTACAT
GGGTGTAAAATTCAAGATTGGCATTTATTTCATTTTGGTACATTAAAGTTACCTCCTCAATATCTTCTGGGTTCCACTGTTGTCTCATTGTGCTGCTTCA
TCAGTAATTTATTATCTTTCTTCCAATTTTACTAATTTTGTCTTCTTGTGTGTCCAACATGCTATTAAAAGTATTCCTTGAGTTGTTAATTTTGGTTATT
GTGTTTTTCATTTTAAAAATTATAATTATTACTGATCAAGTCWGCCATGATATTTTTTATAGGTTTCTGTTCCCTGCAATTTTTTTTTTCAAGACAAGTC
TTGCTCCGTCGCTCAGGCGTGATCATAGCTCACTGCAATCTTGAATTCCTGGGCTCAAGTGATTCTCCTACCTTGGCTCCCAAAGTGTTGGGATTTCAGG
CATGAGCCGCTGCTCCTGGCTCCTGCAAATATTCTTAAGCTTGTCATTTATTTATTTAAATATATTAAATCTTCATCTGATAATTCCAGAGTCTGAAGTC
TGCAAGTGTATACCTGCTGTGTGCTGTTTCAGCTGGACAGCTCCATATTTTTATGTGTGCCAACTTTTATTTGACTTTTGATGGTCCATATCCTGAAAAT
GATATTTGCCAGGATATCCTGAGATCTTGGATGGAAATACCTTTCTTCAYGATAGATTTTTATACACCTTCCAGTGAGTGAATACTACTGCTAGTAAACC
ACTTTAAATCAAGTTCAAGACTTGAAGCTCCTTGGCTACTTARACTACGTATTCTCAGATAAAAATATGCAGGATATCTGGTATCTAGTTACAAGTTTAT
AGGATTAAATTTTCCTTTCCTATTTTCCTTCTGGCCTTTTTGGTGCCAAGTCAAATTCCCCAGCAGTTTTCTGGGCTGGAGAGTAGGTGGGTTTAGTTTT
CACATACTATTACTGGAAAGATTAGTCCTTTGAAGTTCCAGCTTAATGTAGTTTGGAGGCCCCATAAGACTCCCCATCTTGAACATCCTGCTTCTTTTTT
TTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTCTTTCTTTCTTTCTTTCCTTCCTTCCTTTCTCTTT
CTTTCTTTCTTTTTCTTCTTTCTCTTTTTTTTTTTTTTCAGATGGAGTCTCGCTCTGTTGCCTAGGCTGGAGTGTAGTGACAGGATTTTGGCTCACTGCA
ACCTCCGCCTCCCGGRTTCAAGCAATTCTCTGCCTCAGCCTCGGGAGTAGCTGGGATTACAGGCGCCCACCACCACGCCTGGCTAATTTTTTGTATTTTT
AGTAGAGACGAGGTTTCACCATCTTGACCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCATTCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGCCAT
GAGCCATGGTGCCCAGCCCATCCTGCTTCTTAATTTCTGTCTTCCTACAACTTATGTCCAATTTTATGTCAAGTTCAATATTCTGTTTACCTCTTTGGGC
TTAGCTTTCCTCCACAATTTGTCCTAGCAGTTCCCCATTATCTTATCAGATTTTCAGTGCTTTTAAGATAATTGTTTTAATGTTTTACCCAAGAATATTT
AGTTGATTTCAGTAGGATGACTGCTGTAAATAATTTAGGCTGCCATTACCTGATATTCCCTATCATAGAGTTCTATCACCAGTGACTAGCATCTAAGTAA
CATTGAAATGCTTTTATGTATATCTTAAAATATTTGAATTACTTTTGTTTTGAAAACAATAGTATCTTTACTTTCCCTAAACCTTGATAAGGGATTCATA
TCTCTTATTATYAATTTTGGGAAAAAATAATTCATAAACCTGGTCTATTATGAAATGTTTGCTAATTGAGCCAAGAGAGCACATGCATTCATCTAAAACA
TTCATATAATCAAACTTTATTAAAGGTGATATTTGTGGCTTTACTTGACATAAAACAGCTTCCATATTTCTCTATTCCAGACATTTTATTTAAAATACAT
TTTTGAGCATAAGATATTTAAAATGTGTAGGCAAATAAGATATCCATATCATTAAAAGATATCTAAAGCTGGTAATGGTGGCTCATGCCTGTAATCCTAG
CTACTTGGGAGGTCGAGGCACAAGAATCACTTGAACCAGAGGGAGGCGGAGGTTGCAGTTAACGGAGATTGCACCACTGCATTCCAGCCTGGGCGACAGA
TGAGACTCTGTTTAAAAAAAAAAAAGATATCTAACAATAAACAAGTAAACTATCAATTATAATACAATCAAATTCAAGCTACAACTGAAATAAATACATG
GTATCTAGGAAACTCAGAGGGGAAGCAACTAACTCAGTATGGTGGGGGGTAGGGGGTTGAGGCAGAAAAATCTTCCCATATAGGATGTCACATATAATTA
TAGTGTTTATATTTGCCAATTGTAAAAAAAAAAATGGCAAAAGAGATCTCATTCAGAAAAGCAATAAGCACAAAAGTTTTAGGAATAACTTTAATGAGAA
ATATGAAGTAAAAGTATGAAATTTTGTTGAAAAATATTTTAAAATCTTGTATAAATGAGATGGCATAATGTATTTTTAGGCAGAATATTACAAAGGCATG
TTTTCCACAAACTAGTTGGATTTGGCCCTGTGTCAATAAAAATTCCAGTAAGATGATTATTTTGCTTTAGCATGACAACTTTTTTCCTAAAATTTATCTC
TAAGAATAAGCGTGAAGAAAAAAAAAATTGAAAAAGAGTTTAAAGTGTAGACGTTCTGTTATCAGAATTAAATTTTGGGGCTGGGTGTGGTGGCTCATGC
CTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCATTTGAGGTCAGGAGTTCAAGAACAGCCTGACCAACATGGTGAAATCCTGCCTCTACTAA
AAAATACAAAAATTAGCCAGGTGTGGTAGTGGGTGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAAAATCGCTTGAACCCTGGAGGTGGAGGCT
GCAGTAAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTCACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAARAAAGAAAGAATTAAATTT
TGGGAAGTCATTATTAGCAATATTGTGTAGTATCCATTGGACAGGATGAGAGTAGAGGAAAGGAGATCATTAAAATATACAGGTAAGAAATTATGGATAT
TTAAATTCAGACTAGAGGCAAGGGCTTTAATATGATATAAAGGATAGAATTGATAAGGCTAAATGTGGGAGATACAGTAAAATAATAAATAGATGCTATC
AAGGTTCATGGAAATGTTGAGTTCAGTATGCAAAATGTCATGTAAATAGACGTAGACAATAATCAKTTTAATTTGTTGATCTGAGTGGGGCTGAATTCTA
AATATAGACTTTGATTCATCTGCATAAGGAAGCTGGATTATGGATAAAACCATCTATGAACAATGTATAAAGTGTGAAAAAAAGGGATAAGGTCAAAATA
TTGTGGAACACATTTAAAGGTCTGAGAGAATGAAAGTCCACAGTCTAAAAGCAGTAGGAGATGTAGGAAAAAAACTAGGAAGTGGTCCTTTATGCAAAGC
AAAAGAGGAAAGTTTGAAGAAAATGAGTTGATTGAAGTTGTAAGATGTCACAGAAGTCAAGAAGAGGTCTCTGAAGTGTTCATTGGACTGGTCATTATGA
TGTCATGAGCACTTTAGCATGAGCAGCTTTAGAAGTGTGGTTATAGGAGAAGCAGTGAATTAAAGAGTTAAAGTAATTAAGAAAACAGAGACAGAACTAC
TGAGTACCCCCCAAAAGCAATTATCTTCAAAATATGGAAAACCAGATTGGGATACARAAAGGTTTCTTGTTAAAGATAAAGGAGGCCTGAGTAAGTTTAT
ATCTCATGGGAAAATGGTACCAGAGAAGAAAAGGTTGAAGATTAGAAGAGTTGAAAATTAAAGGGCCAAGGCTGGTTTTTTGTTGGTTTGTWTTGTTTTG
TTTTGTTTTTAAAGAGGGTTTTACTCTGTCGCTCAGGCTGGAGTGCAGTGATGTGATCACTGCTCACTGCAGCCTTGACACCCCGGGCTCAAGCRATCCT
CCTACCTCAGCCTCCTGAGTAGCTGGGATTACAAGCACGTGCCACCACACCTGGCTAATTTTTAATTTTTTATAGAGATGGAGTCTCACTGTGTTATCCA
GGCTGGTCTCGAACTCCTGATCTGAAGTGGTCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTATGAGGCACTGGACTGAGGCTTCTTAAATG
GTGGCAAGGAACATATTTTGTGCTTTAAATGATTTAAGTATTTAAAGATCATAGTTTTCCTGGCAACTTACTGTAGAGATCACTTCAGAATTTCCCTGGG
TAGAGTAGTGTGCTGTAGAAGTATAGTGTTGTAAGCCAGTGTGGATTGGGAGTCCATACCCCTTATTTATCTATTCTGTGTATCCTATTAATAACAGTAA
TTATCAGGTTATTTTGCCTTTGAACACSTTAGTAAGTCTGAGCATTTACATGGAAAAAATGCTGGGTTTATTCCTCCTGTTATTGTATTTTACAAGTCTG
TCGAGGGTCCACAGTGATCTTTGCCCCATAATTGTAAAATGAGATATTARAATCATCCTTATTTATCTTAACCACCTACTCCACTGTACAGTTCCTATAA
TTCCACAAACWTCTCTTTATATTGGTTTATGCCTTCTTTAGATGATTGTGAATAAGAGTATTATCTTAACCTCTCTGGTGGGTCTACTTCTGTAACGGWT
GTGGGTCATGAATTATTTTTTACTCAGACATAATTATCTTTGGTCTTATATAAAGAAAACCCTACAGACTCCACMAAAACACTCTTGGAACTAATAAACA
AAATAAAGTTGAAAGATAAAAAATCAAYKTACAAAAATCAATAGCATTTCTATACACTATTGAACTAYCTGAAAAATAAATCAAGAAAACCATGCTATTT
ACAATAGCTATGAGAAAATAAAAATACTTAGGAATAAATTTAACCAAGAGGATGAAAGACCTGCAAGTTGAAAACTTTAAAACATTGATGAAAGAAATTG
AAGAAGACACAAATAAATGGAAATATATTTTATGTTCATAGCTTGGAAAAATTAATACTGTTTAAAATGTCCATATTACCCAAAGCAATATACAAATTCA
ATACAATTCGTATCAAAATTTCAATGAAKTTTTTACAGAAATATAAAAAACTTCCCTAAAATTTGCATGGAACCACAAAACACCYCAAATACCCAAAGCA
ATATTGAGCAAAGTAAATAAATAAATAAAACAAAACATACAAACAAAAAAATRAAGCTGAAGACATCATACTACCTGGCTTCAAAATATACTTCAAAGCT
ATAATAATCAAAACAGCATGGTACTGGCATAAAAGACATGTAGACCAATGGAGCAGAATACAGCTCCCAGAAATAAATCCACACAGTTACTGTCCACTGA
TTTGCAACAAAAGTATCAAGAATATACAATGGAAAAAGGACAGCCTCTTCAATAAATGGTGGTGGGACAATTTGATATCCAGATGCAGAAAAATGAAACT
AGACCCTTATCTCACACTGTATACAAAAGTCAACTCAAAATGGATTAAAGACTTAAACATAGACCTGAAATTGTAAAACTAACAAAGAAAACACAGTGGG
AAAGATGAAAGATCAATAACACTGATCTGAGCAATGATGTTTTTTATATGACCCTGAAAGCACAGGCAATAAAAGCAAAAATAGACTAATGGATTGCATC
ARACTAAAAAGCTCCTGCRCAGCAAAGAAAACAAGAGTGAAGGGACAATCCACAGAATGGGAGAAAATATTTGCAAACCAYAGATCTGATAAGGAGTTAA
CATACCAAATATATAAGGAACTCAAACAACTCAATAGTAAGAAAACAAATAACACGATTTAAAAGATGGGTAAAGGATGTGAATAGACATTTCTCAAAAG
AAAGCACACAAATGACCAACAGGTATACTAAAAAATGCTCAACATCATGAATCATCAGAAAAATGCGAATTAAAACCCCAATGAGATATCACCTCACACC
TGGTAGAATGGCTATTATTGAAAGAGGAAAGATAACAAGTGATGGAGAGGATGTGGAGAAAAGGGAACTCTTGCACACGGTTGGTAGGAATGTAAATTAG
TACAATCATAGAAAACAATATGGAGGTTACTCAAAAATTGAGACTAAAACAACTATCCAGCAATCCCACTACTGGGTATATATCCAAAGGAAATGAAATC
AGTATGTCAAAGACCTATCCGCACTCCCATGTTCATTGCAGCATTATTCATGATAGTTCAGATATAGAATCAACTTARGTGTTCATAGTGGATGAATAGA
TAAAGAAAATGTGAAATATATATATATATATATATACCAATGGAATACTCATCAGCCATTAGAAAGAATGAAATCCTGTCATTCGTGACAATATGGATGA
ATCTGGAGGWCATTATGTTTAGTTAAATAAGCCAGGCACAGAAAGACAAATACTGCATGATCTCATTCATGTGGAATGTAAAAAAGCTGATCTTATAGAA
GCAGAGAGTATAACAGTGATTACCAGAGATGGRTAGGGCAGTAGTAAGGAGGAGAGATTGAGGAGAGGTTGGTCAATGGGTACRAAGTTACAATTAGATA
GGAAGAATAAGTTCTGGTGTTTTATTGAACAGTAGAGTGTAGTTAAGAATAATGTATATTTCAAAATATTATAGAATAGAGGATTTTGAGTGTTCTAACT
TCAAAGAAATGATAAATGTTTGAGGTAATGGATATACTAATTACCCTGATTTGATCATTACACAGTGTATATATGTATTGAAACATCAGACTGTAGCCCA
TAAATAGGTACGTGTCAATTAAAATAATAAAAATAGTAAAATGTATAGTTACTTCCACGGGGTAGAAAATGTGGTATATATTCATGGTATACTACACAGC
CTTAAAAAAAGAAAATCCTGTCATTTATGACAGGAAAAAAAAATAAGATAATCCAATGTACCATTTGTTGAAAATACTTKTTCTTTTTATTGCATTATCT
TGACATCTTTGTAAAAAGTCGGTTGACCATAAATGTGTGGGCTTAATTCTGGACTCTATTTCACTCCTTTGATCTATATGTTTATCCTTTCACTAAAAGT
AGACTGTCTTGATATTGTAGCTTTATAAATTTGAAAATCASCTGTGAAATCCTCCAACCTTGTTCTACTTGTAAACATTGTTTTGGCTATTATAGGTCAT
TTAAATTTTCATATAAATTTTAGAATCAACTTTTCAATTTCTACAAAGAATTCCGCTGGGATTTATATTGGGAATGTTTTTAACATTTAGATCAATTTAG
GGAAGATTTGGTATCTTAACAATATTGAGTCATCAGATCGTATGAACATATATACCTCCATTTACTTGGGTCTTTAAAAAATTGTCTCAGCATGTTCTGT
AGTTTTAAGTATTGAGGTTTCAAAAGTTTTTTGTAATACCTATTCTTATGTATTTTATGGTTTAAAAAATTCTATTGTAAATGGATTTTAAACAGACTTT
TAATTTGCAGAGACTATTTCTTCCTTTCCAATATTAATATTTGTTTATTTATTTTGTCATTATAATGGCTAGGACTTCCAGGACAATATAAACAGAAGTG
GTGAGAGCAGACATTCTTGCCTTAACCCTGATCTTATGAGAAAAGTGTTCCATATTTTACAATTAAGTATGTGCTACTCATAGGTTTTTCCCAAATACTT
TATTAAATTKAGGAAGTACCCTTTTCYGGTTTGCTCAGAGTTTTATCATGATTCATTGTTGAATTTCATCAATTTTCTTTTAATCTATTGATATGAGCAT
ATGATTTTTCTTCGTTTTACTAATATGTTGGATTACACTAATTGATTTTTGAATGTTGGAAAAAACCTTCCATTCCTAGGGTAAATCCCACTTAGTCATG
ATATATTATCTTTTCAAACATTGTTAGATTTAACTTGTATTTTAGTAAATATTTTTACATCTGTGTTCATGTAGAATATCTGTAAATAATTTTGTAAAGA
ATATCTTTTCTTCTTGAGGGRTAATGTTTTCATTAGGTTTTAGTATTTCTAACCTAATAAAATGACTTAGGAGGTGTTCCTTCCTCTATTTTCTGAAAGG
TTGTGTAATATTGGTGTTATTTCTTCCTTCAGTGAAACATTCTGTGCCAGGGATTTTCTTTTAGGGAAAGTTTCTGATAATAAATTCAATTTCTTTCATA
GACTTTCTATTAAAAATGTTAACACTATTTATATTTTATTTCATGCTCTGTCAATTTTGTTAAGTTGTATTTTTTAAAGGATTTGTCAGTTTCATTCAAT
TTATCATATTTTTGGCACAAAGTTGTTAATAATATTCTCTCATCTTTTAACGTCTGTATAATCTGTAGTGATAACATCTTTTTCATTTTTGATATTGGTG
ATTTGTGTTCTATCCTCTTTTTTATCAATAAGTCTAGCTGAGAATTTATCAATTTTGYTGATTTTTTTCGAATAGCCAGCTTTTGGCTTTGTTGATATAT
TTTCTATTGTTTGGTTTCTATTTCATTAATTTCTGCTTTTGTCTGTATTATTTGCCTTCTTATATTACTTCGGGTTTACTTTGCTCTCTTTTAGATTTTA
AGTGGATTCTTAGGTAACTGATTAGGTAACTGACATTTCTTCTAATATAAAAAAATTAAAGCCACGAATTTATTAGTATGAACTGCTTTATTTGCATTTT
ACTAATTTTTATATGTGATGTTTTTATTTTTATTCATTTAAAAGTATGTTCTAATTTCCATTATGATTTAACTCTTTCACCCATTTATTACTTAGGAGTG
TGATCAAGTTTACAAATATTTTTGGTTTTCCTAGCTATCTTGTTGCTTTTGATTTCTAATCTAATTCTCTTTTGGTCAGAGAACATACTCTGCATGATTT
CAGTCTTTTAAAAATCTGTTTAGACTTGTTCTGTGGCCCAGCAACAGTCTATCTTGATGAACATATCACGTGCACTTGAAAAGAATGTATATTCTGTAAT
TGTTGGGTGTAATGATTTATAAATATAAATTATTGTTATCCAGATTTTCTGTGTCTTTATTTTTTTGTCTAGTTGTCCTATCAATTGCTCAGAGAGCAGT
GTTAAAAATCACCTATCATCATTGTGTTTATCTCTTTGTGCCCATTTTTGCTTCATGTAATTTGAAGCCCTGTTATTAGGCACACACATTGATGATTATT
ATAATTTCCTGATTTATTGATCCTTTTATCTTCATAAAATATCGATTTGTTGCTGGTCATACTTTTTTTCTTGTAGTAGCTTTTGTGTGATATTAATGTG
GCCATTCTAGTCTCATGTTTTCTGTTTTCATGGCATATTGCTTTTTGTTCATTTTACTTTTGTTTCTTTAAAGTATGCCCTTGTWGAAGCGTATTGTTGG
ATCTTGCTGTTTTACCCATTTTGATAATATCTGCTTTTTAACTGAAGTGCTTAGCCCATTCACATTAGTGTAATATTTGATATGTTTAGATTTGTGTCCT
TCAATACATTATTTGCTTTCTATTTGTCCCCTCTGATTTTGTTCTTCTGTTTCCGCTTATCTGTTGTCTTTTGAATTATTTGGGTATTCCTCAGAATCTC
TTTTAATTTTTAGATATAACTATTTTTAGATTTTTTTTAATTTGCATTTTTTAGTGGTTGCTGTAAGGATTACAGCATACATACTTAACTTTTCTCAGTC
CACTTAATAGTGTACAACCTTCATAAAATATAGAAAAGTTACAACCATATAAGACTATTTAGCTCTTCCTGTGCCATTGCTTATGCTATAGTTTTCATTT
GTATTAAATCTCATACAATACAAAACCCACAAGACACAGTTATAATTTTTGTTTAAGCAGTTATTATGTACTTTAGAGAATTAAGAAGGAAAAAAATAGT
CATTTCTGTTTACCTAGTCATTTACCATTTCTAGTGCCATTAATTTGTTCCTAAAGAGCTGAGTTTATCCATAATGTCTTTTTGCTTCAACCTGAAAAAC
TTTAYTTAGCAGTTTTTGTAATGCATATATGCTGCAGTGATTTATCTTAGTTTTCCTTTATCTGAAGATCTATTTATCTTCCATTTGAATGATAYAGAAT
TCTGGGGGATTGACAGATTTTATTTTCTTCCAYKTAAAAAAAATGTTATTCTACTGTCTTCTAATGCTCATAGTTTCTGATGAGAAGTGTGTAGTCATTT
AAGTCATTATTCCCTGTGTGCGATATGATTGTTTTTGTTGCTCTTGCATGGCTGGGGGGACACTTATTTTAAGGTTTTCTACTTACCTTTGGTTTAGAAG
TTTGACTATGATGTGCTTATTTATGCTTTTCTTTATTTTTATCCTGTTTATGGTTGGCTGAGTTTATCAAACATGTACATGTATATTGTTAACCAAATTT
GACAAATTTTTGTTCCTTATATCCTTAAATTTTTTAATCCTAATTTCTCTCTATCCTTTCTGGACTCCAATTACATACATATGGTACTTTTTAAATATTG
TCTGGTTTTACCATAGTAGGGTTAAAGTTTGGTCCTTTAAGACTATACATTTCTTTCATATTCTTGTATATTCTATATTGTTCAATAGGTCTCTGAGATT
TATTTTATTTTTATTTTATTTCAGTTCTTTTTCTTTTCTTCAGATTGGATCATTTCTATTGATCTATTTTCAGATTCATTGACTTTTGCCTCTTTTAGCT
CCATTTTTCCCAAGATCAGGCAGTGAGTTTTAATTTCAAATATTATATTTTTATTGCTAAAATTTCCATTGGCTTTYTTATATTTTCCTTTTTTTCTGAT
AAGATTTCCTTTATTTTCATTCCTTACCAATAAGTTTTCCTTTATCTTATTGAATAWDTAGTAGCTACTTTAAAGTCATTGTCCGCTAATTCCCACATCT
GTGTCATCTCAGGTTTGGATTCTTGATGGTCTTTACCTTTAGGAATGCATCACATTTTTCTGGTATTCTATGTTAGGTAATTTTGGATTATATCTTGATA
TTATTAATGTGTTATTCTTGAGATTCATCATTCTGTTTGTRTTAGTCCATTATTGCACTGTTATAAAGAAACACCCAAGACTCRGTAATTTATAAAGAAA
AGAGGTTTAATTGGCTCACAGTTCCACAGGCTGTAGGAAGCATGATGCCGGCCATCTGCTTGGCTTCTGGGGAGCCTTCAAGAATCATGGTGGAAGGCAA
AAGGAAAGCGGCTCATCTTACATGGCCGGTGCAGGAGCAAGGGASGGGGGGAWGTGCTACGCACTTTTAAACAACCAGATTTCACGAGATCTCTCTCACT
GTTATGAGAATAGCACCAAGGGGGAAACCTGCCCCATGATCTAATCACCTCCCACCAGGGCCTGCCTACAAAATTGGGGATTACAATGTGACATGAGCTT
TGGGCGGGGACACAGATCCAAACCATGTCATTCTGCCACTGCCCTCACCCTCCYCGAAATCTCATGACGTTCTTACATTGCAAAATACAATTATCCCTTC
CCAATGGTCCCTCAAAGTCTGAACTCATTCCAGCATTAAGCCAAAAGTCCAAAGTCCAAAGTCTCATCTGAGACAAGGCAACTCTCTTCTGCCTATGAGC
CTGTAAAATAAAAAACAAGTTAGTTACTCCCAAGATACAGTGCGGGTACAGGCATTGGGTAAATACTCCTGTTCCAAAAGGGAAAAACCAGCCAAAAGAA
AGAATTATAGGCCCCATGCAAGTCCGAAATCCAGTAGGGCAGTTATTAAATCTTAAAGCTCCAAATAATCTTCATTGACTCCATGTCTCACATCCAGGGC
ACACTCGTGTGAGGGRTGGGCTCCCAAGGCCTTGGGAAGCTCCACTCCTGTGGCTTTGTGGGGTTCAGTTCCTGCAGCTGCTCTCATGGGTTGGTGTTGA
ATGCCTGCAGCTTTTCCAGGCACAGTGTGCAAGCTGCTTAGAACTGCTGGTGGATTCCCATTYTGGGGTCTTGAGGGTGGTGGCCCTCTTCTCACAGCCA
TTKCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAGAAAGAAAGAAATTTCCTCTGCCAGRTACCCTAAACTCATCATTCTC
AAATTTAATGTTCCGCAGATTCCTACAGCACAGGCATAATACAGCCAGGCTCTTTGCTAAAGCATAAGGAAAGTGACMTTTGCTCCAGTCCTCAGTAAGT
TCCTCATCTCCATCTGAGACCTCCTCAGMCTGGACTTCTTTGTCCATTTCACTATCAGCACTTCGGTCCCAATCATTCAAGTAGTCTCTAGGAAGTTCTA
AGCTCTCCCTCATCTTCCCTCCACACTATTCCAACCTGTGCCTGGTTACCCAGTTCCAAAGTCACTTTCACATTTTCAGGATCTTTATAGCAATATCCCA
CTCTCAGTATCAATTTTCTGTACTAGTCTTTTCTCACACTGCTATAAAAACACCTGAGACTGGATAATTTAGAAAGAAAAGAGGTTTAACTGGCTCGCAG
TTCTGCAGGCTGTACAGGAYGCATGATGCTGGCCATCTGCTTGTCTTCTGGGGAGGCCTCAGGAAACTTACAATCATGGTGGAAGGCAAAGGGGAATCAA
GCTCATCTTACATGGCATGAGCAGGAGCAGGAGCAAGAGAGAGAGAAGGGGGAAGTGATAMACACTTTTAAACAACAAGATCTCATGAGAACTCTCTCAC
TATTATGAGAACAACATTAAGGGGGAAATCCACCCCCATGATCCAATCACCTCTCACAGGCCCCATCTCCAACATTGGGGATTACAATTTGACATGAGAT
TTGGGCAGGGACACAGATCTAAACCGTATCACTGTTATATTTCTATGAAGGGTGTTGACATTTTTGTTTTAGTAGAGAATAAACTTGATTAGACTAAAAA
TGCAAAATCTTTCTTGCTTCTGCTTYGTAGCAGTTCAAACTTCAGTTTAGTTCTTTTAGCTTTAGCCTTTGCTCTTTATATGTGATTCAGGGACGGCAGA
GATGTGGGAAGAATTTGATCATAGAATTTAGGGCTCACCTTCTTTTGTTCTGTGCACTCAAGGATTCTCTACCCCTCTCAGTTGTGGATTACAGTGCTGT
TGCTCCTGGCTCCTCCCCTTTGTCCTTAAGCTGGAGAAACTAGGGATTATCTGTCAGAGTTTTAACTTCCTCATGCTGTGTCACAACCTTGATCAGCTAT
TAGGCCAAAGCAACAAAAACRGGAAACTCACTTCATGCTGATTCTTTTCTCCAAGTTTTAGTGCCCTSCTCTCCCAAAACTGCCTCCTTTTGTTTATTCC
CCAGAGTCCTTAGATATTTGCTTTATGTATTTTGGCCAGRAGCTATAGTTGTTATCTCTGGAAGGGTCTGTTTATTATGAGCTTACTTTGATCTACTAGA
CTGAGCTTCAGACATTGTGTTTTGAAATTTTTGCTTAACATTACATTTATCCAAGAATTAAATTTAATATTTATTTATTTTTTTCTTCAACTTTTAAGTT
CTGAGGTGCATGTGCTAGTTGTGCAGGTTTGTTACCCAGGTAAACATGTGCCATGGTGGTTTGCTGCACAGATCAACCCATCACCTAGGTATTAAGCCCA
GCATCCATTAGGTATTCTTCCTGATGRTCTCCCTCCCATTGCTCCCCCAACAGGCCCCAGTGTGTGTTGTTCCCCTTCATATTTTCATGTGTACTCATCA
TTCAGCTCCCACACRTAGTGGGACGATGTGGTATTTGGTTTTCTGTTCCTGCATTATTATGCTGAGGATAATGGCTTCCAGCTCCATCCATGTCCCTGCA
AAGGACAAGATCTTGTTCSTTTTTATGGATGCATAGTATTCCATGGTGTATATGTACCACATTTTCTTTATCCAGTCTATCWTTGATGGGCATTTGGGTT
GATCCCATGTTTTTGCTATTGTGAATAGTGCTGCAATGAACATACACATGCAGGTATCTTTATAATAGGATGATTTATATTCCTTTGGGTACATACCCAG
TAATGGGATTGCTGCGTCAAATGGTATTTCTGCCTCTAGATCTTTGAGGAATCGCCACACAGTCTYCCACAATGAGTGAACTAATTTACAACCCCACCAA
CAGKGTAAARGTGTTCCTTTTTCTCCATCTGTTGTTTCTGGACTTGTTAATAATTGCCATTCTGACTGGTGTGAGAAGATATTTCATTGTGGTTTTGATT
TGCATTTACCTAATGATCAGTGATGTTGAGGTTTTTTTCATATGTTTGTTGGCTGCATGACTGTCTTCTTTTCAGAAGTGTCTGTTCATGTTCTTTGCCC
ACTTTTTAATGGGCTTGTTTGGGTTTTTCTTGTAAATTTGTTTAAGTTCCTTGTAGACTCTGGATATTAGACTTTTGTCAGATGGATAGACTACAAAATT
TTTCTCCCATTCTGTAGGTTGTCTTTTCACTCTGATGATAGTTTCTTTTGCTGTGCAGAAGCTCTTTAATTTAATTAGATCTCATTTGTCAATTTTTGCT
TTTGTTGAAATTGCTTTAGGCACTTTTGTCATGAAATCTTTGCCTGTGCCTATGTCCTGAATGGTATTGCCTAGCTTTTCTTCTAGGGTTTTTATAGTTT
CATACTTTTATGAATTAMGTCTTTAATTAATCTTGAGTTAATTTTTGTATAAGATGTAAGGAAAGGGTCCAGTTTCAATTTTCTGCATATGGCTAGCCAA
TTCTCCCAGCACCATTTATTAAATAGGGAATCTTTTCCTCATTGCTTGTTTTTGTCAGGTTTGTTGAAGATCAGATGGTTGTAGGTGTGTGGTGTTATTT
CTGAGTTCTCTATTCTGTTCCACTGGTCTACACGTCTGTTTTTGTACCAGTACCGTGCTGTTTTGGTTACTGTAGTTTTGTGGTRTATATGAAGTCAATC
AAGTAGCATGATGCCTCCAGCTTTGTTCTTTTGCTTAGGATCGGCTTGGCTATAAAGGCTCTTTTTTGGTTCCATATTGATATGGTTTGGCTGTGTCCCC
ACCCAAATCTCACCTTGAATTGTAGTTCCCATAATCCCCACATGTTGTGRGAGGGACCCAGTGGGAGGTAAYTGAATCATGGGGGCAATTATCCCATACA
GTTCTCATGATAGTGAGTGAGTTCTCATTAGGTCTGATGGTTTTATAAGGGCTTTTYCCTTTTTGCTTGGCACCTCTCCTTCCTGCCACCATGTGAAGAA
AGACGTGTTTGCTTTCCCTTCCACCATGATTCTAAGTTTCTTGAGGCCTCCCCAGCCATACTGAACTGTGAGTCAATTAAACCTCTTTCTTTTATAAATT
ACCCAGTCTCAGGCAGTTCTTTATAGCAGTGTGAGAACARATTAATACACATATGAATTTTAACATAGTTTTTTCGAAATCTGTGATGAATGTCAATGGA
AGTTTAATAGGAATACCATTGAATCTATAAATTACTTTGAGCATTATTGCCATAACACTGATTCTGTCTATCCATGAGCATGGAATGTTTTTCTATTTGT
TTGTGTCCACTGTGATTTCCTTGAGCAGTGGTTTGTCATTCTCCTTGAAGAGGTCCTTCACTTCCCTTTTTAGCTGTATTCCTAGGTRTTTTATTCTCTT
TGTAGCAATTGTGAATGGGAGTTCATTCATAATATGGCTGTCTACTTGCTTGTTGTTTGTGCATAGGAATGCTAGCAATTTTTGCACAYTGATTTTGTAT
CCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGAAGCTTTTGGGCTGAGACAATGGGGTTTTCCAGATATAGGATCATGTCATCTGCAAACAAAGATA
ATTTGATTTCCTCTCTTCCTATTTGAATACCCTTTATTTCTTTCTCTTTCCTAATTGCCATAGCCAGAACTTCCAATACTATGCTGAATAGGAGTGGTGA
AAGAGGGCATMCTTGTCTTGTGCTGGTTTTCAAGGGGAATGCTTCCAGGTTTTGCCCATTCAGTGTGGTATTGGCTGTGGGTTTATCATATATATGGCTC
TTATTATTTTGAGRTATGTTCCTTCAATACCTAGTTTATTGAGCATTTTTAACATGAAGGGATGTTGAATTTTATCGAAGGCCTTTTCTGAATCCATTGA
GATAATCATGTGGGTTTTGTCTTTAGTTCTGCTTATGTGATGAATTACATTTATTGATTTGCATATGTTGAACCAGTCTTGCATCCCAGGGATGAAGCCT
ACTTGATCATGGTGAATAAGCTTTTTGATGTGCTGCTGGATTTGGTTTGCCAGTATCTTATTGAGGATTTTTGCATTGATGYTTATCAGGGATATCAGCT
GGAAGTTTTCCTTTTTGTTGCATCTCTGCCAGGTTTTGGTATCAGGATGATGCTGGCCTTAAAGGAGTTAGGGAGGAGTACCTCCTTTTCYATTGTTTGG
AATAGCTTCAGAAGAATTGGTACCAGCTCCTCTTTGTACCTCTGATAGAATTCAGCTGTAAATCTGTCTGGTCCTGGGCTTTGTTTGCTTGGTGGGCTAT
TTATTATTGCTTCAATTTSTAATTTAATATTTTTAAATCTTGGGTTAAATGGTTGAATGAATGTGTGAAAAGTTAGATATCAATGAATGAATATTCTTAA
ATGTATAAACTTTAATCTTGCTGGATATAGGATAAAATTTACATTAAAACACTGTAATTHGTCAATTTAAGTAAAATAAATTCAAGGAAGTGGTCTGAAT
TTCTCAGTGAGCATTTAGATATTTATGGGAGTCATATAAAATAAWTTATAAATGTGACTGAGGGCTTTTTATTAAGGAAAATGAAATATTGCTATGGACA
TGATTCTGTGTGTTTCTTTACTACACTATGAACTAAAAATTTTGGAGACAAATCTAAGTATATAAATTGGTTTATTGATGACCGATTGGGAATATAAATA
GGCACAAAAATTTGGCGAAGCATTTTGGCATGTCTACCTAAAATTTAAATATGTAAGCACTAGTCCCCCCTTACCTGCAGTTTCACTCTGAGCAGTTTCA
GAAAATAGGTGAGCACAGTACAGTAAGATATTTTGAGAGAGAGACCACATTCATAAAACTTTTATTATAGTGTATTGTTATAATTGTCCTAATTTATTAT
TATTGTTGTTAATCTTTTACTGTGCCTAATTTATAAATCACACTTTATCATAGGTATGTATGTATAGGAAAAAACATAGTATATGTAGAATTCAGTATTA
TCCTTGGTTTCAGACATTCAGTGGGGATCTTAGAAAGTATTCTCTGTGGAAAAGGAGGGACTACTGTACTTTTAACAAAGCACTTCCCAGAATAAACACA
CAGACATATACATGCACACACTTTCAGAAATGCACTTAAATATTCAATCATGGAGTAAAAATTAATTATGAAATATCTAGACAATGAAYATTATGTAGTT
TTTATTAAGAAAGAAGCAGAATTATATATACTGACATGAAAGGATGTTCATTATATATGTTAAGTAAAAACTAAGTTCATCATATATGTTAAGTAAAAAA
AAGTCACAAATTAAGAGAAAGTGTTAATTGATTTGAGAGTTTGTGTATTTTTTTTTCCTATTTTGTGCTGAAAAGCTGAAGTTGGCATCAACCAAGGCAT
ATTGTTATCTATGTATCAAGCTAAATAATTTAAAGATCTTTAAGACTATTAATTCAGAGATGCTGTATAAATAGAATCAGTGCCAGATTTTTTGTTTCAA
TTCTATCAGCCAAGTATACTATGCTTTCTTTGCTTGTGATAGAAAAAAGAGAGAAAAAACACAGAAGCAAAAAGTAAAGTTGTACAATAGTGTGTAGAGT
GTGGTTCCATTTTGTAAAATGTATCAGTGTGTATATTTATATAGCATAGTCAAAAGCCTGGAGTGATATAAATTTTCTGTTACTGGTCTAGTATACAAGG
GAATTAGATTTTAAAGGACTTTCATTGTTTTTAACAATTCTGAACAAATTTAATTTGGTACAAGAAGTATATATTTTAAATATTATTGAACTTAATTAAA
ATAAATTAGAGCTCAAAAAATAAATAAATCACAGGAAGTTCACAGTCTGACTTTATCAGGAATGTTGCTATTTTCTTAACAGGTCATCAAACATTATCAC
TGATGCTTGGAAAGAAGCACTTTTTATAATTTAAAAATACCTTTTATTCTTCAACTTCTGCTGGCTTAAAGAGCACTAARTCCACATATCCTAGGAGGCA
TGGCTGTCCAATATATACTATGTGTACATTGATTTATGAACCAATAAATGTTTCATACACAGTTGAGATTTTAAATGAGCTTATGATAATTGGATCAAAG
GAATACTAGTCCAGCTTGAGAGTACTGCAGAAAACCAATCACAGAAAGCTATGATGAAATTTTAATTATAAAGGATATTGAATATCCTAGAGTGACAACT
CTGTTATAATAAATGTAACACTGAATGGGAAAGAGAGAAAGGAGATTTTTACCCATTTCTGTTTGAAATCAACTTTCTATTTCTAGTAAATTATCACACC
ATTCTGTTTTAATTTTTATATCTTAAAGTTATCATTCCAGTGTCTTTGGTTTACTGGGTTTATAAAAGAATTGACCAGTAGCTATATAATAGATAYAGAA
AAGTCTGCCTGGGTGTRGTGGCTCATACTTGTAATAATATTATATTATAATTGTTCTATTTTATTATTAGTTATTGTTGCTAATCTTTTACTGTACCTAA
TTTATACATTAAGCTTTATCATGGGTATGTATGTATAGGAAAAAATGCAGTATATATAGAATTCAGTATTATCCTTGGTTTCGGACATTCAGCAGGGGTC
CGAAGGTGGGCGAGGTGAGCCCACTTTGGGAGGCCAAAGTGGGCAGATTGCTTGAYCCCAGGAGTTCAGGACCAGTCTGGGCAACATGGTGAAATGCTGT
CCTTACAAAAAATACAAAAATTATCTGGGCATGATAGTGCATGACTGTAGTCCCAGCTACCCAGGAGCCTGAGGTGGGAGCATCACTGAGCCCGGTGGTT
GAAGCTGCAATAAGTTTTGATTATGCTACTGCACTCCAGCGGGACAACTGAGTGAGACCCTGTCTCAAAAAAAAAAGTCACAAATTAAGATAAAGTGTTG
ATTGATCTGAGAATTTGTGTATTTTTTTCTATTTTGTGCTGAAAAGCTGAAGTTGGCATCAATCAAGGCATATTGTTATATATGGATCAAACTAAAAAAT
TTTAAGATCTTTAAGACCATTAATTCAGAGATGCTGTATAAATAGAATCAGTACTAGATTTTTTGTTTCAATTCTATCAGCCAAGTATAACATGCTTTTC
TTGCTTGTGATAGAAAAAAAGAGAGAAAAAACACAGAAGCAAAATTGAAGAATTTGTAAATCATTTCTAAATAATTTCAATAAAATGAGCTTTGAAAGGG
AAAAWTTTTAGATAACATTATCTCATCAAAATGCCTTAAAGTATATTTTAATATTCAGTAAGAACAGTGTATATTAACATGGCTAATTTAGAGGATTTAT
ATTTTACCCACATGATAATGTATTATGCCTGTAACTGCTAAAGGAATTATGTAGCAAAATCTGTCAAGGAATACACGAGTGGGATTTATATCAGAAAAAT
CAAAGCCATTTGTAAAGCCCCATTACTTAGGCAGAATATCATAGGTAGGAGGTAGATGTTACTGAAAGAAGAAGTTGGGATATGAAATACAAATCTATTT
TGCATCATGATTTTGTTAAGTCCGGCTGTTTATTATTAAAAACATGTACAGAAGATTCAATTGAAGTTTCTAAAAGAGAAAGAAACTTGTAGTTGTGGGA
ACAATAGTATTCCTTATGAAATACTTAGATATTAATAGCTTGAGACTGATAATACAATTCTTAAGTTAGGGGTTGCATGTGTAGTGGTCAGATGTTATTT
CAGGATCTCAAGAAACAGAGCCATGGTAAAAAGAAGCTTCCTGGAGCTTCTGATAAATTCCGTCACCTTTTTGGGACCCAGTTTCTTCATCMATACCAAC
CTCATTAGGGTCCTGTGAGAAGTACATGAGGTGAGATATGTACTGAAATAATATGCCAACTCTTAAGTGCCAAGACATTAGGATGCAAGGGGGGGTGCCC
AAAAAGTCAACAATTACTTGATACTCTAGATATATGTATGGATAATTTTGAGAAGTAATCCTTCTTACACAGAGGTGTAGGTTTGTTTGTTCCAAGCAGC
AAACATAATGGGTATAGGAAAGAGAAACTGTGGCCTTCATATAGACTGAGCTTAGGAAAACAGTTGGAAAACAGTTCAAATTCAAGGTACTTCAACAATA
TCTAGTGTGTTTTTGAAATATATTTTTAAAACCCCTATCCAAATCAATGAATGCTTTGGCTAAAACCTACTTGGGAATGAGGGTGTTCTTTAGTGCCAAA
TACTCATCTKATTTTAGTCCATGGCTAAAATCCCAAGAGTTACAGAGGAGAAATAGGGCCAAACAAGGTTTCTATTAAAATAAGAGGTCCCAAGTGATGA
ATGGAAACTTGGAACAGGTTTAATGGCAACTATAAGCCAGAAATTAGCTGAAATACACACTAATGAATTTGGGGCATATCTTGAGTTTCAGATAGAAAAT
TGGTACTAAGTTTAGTGAATTAGAAACATAGCTTAACCTAGGCAGTTGCAATTCTTGTTCCAAAAATGCTCAATTTGCTGCTGGACTGCATGGACACTTG
CTACCTCCTTGTTTTGAGTCATTAACAAAATGTTGAATGGGATATCTGGAGTATCAAGTAATTGTTGACTTTTTGGTCACCCAACCCCCTTGCATCTTAA
TGTCTTGGCACTTAAGAGTTGGCATATTATTTCAGTACATATCTAACCTTATGTACTCCTCACAGGACCCTAGTGAGGTTGGTATTGATGAAGAAACTGG
GTCCCAAAAAGGTGAYGGAATTTATCCGAAGCTCCAGGAAGCTTCTTTTTACCATGGCTSTGTTTCTTGAGGTTAAAGAACATGATTTACCAGGCTCTGT
TTCTTGAGAGACCAAGAGTGGATCCCTGTAGTCCCCATTAGAATTCTCCTTCTAGTTTGAACTATTCCATTAGTAAACACTTTTTGGCATGTTATTTAAA
CAATTACAAAATCACCTAACTACACTGTCTTGCAGCTGCCTTTCTTTTTTTGTCTTGTCCACGTGAGTATATTGGGAGACTYTGTTTAATGTCTCCACRA
ATTCTAGATAGACTGTTCCTGCAGCATTTCTTTTTTTAAATTTTGTTTTGATAAGCATTTATTTTGGCAATGATTCTAGTAAATGAAACTAAAGTGCCCA
TATGAAAAACAATCTTAAGTCTATGTGGTTAGTTTGAAGTTACCAGTTTTTAATTAAGCCGGAGTAGTCCTTAGTATGAATGCCTTCATTTCTAAGTGCT
CATAAACAATCACTTTAGTAATATTACAGTTTTGAAGGAATTTATATCAAGCTTAATGGCACTTTTTAAAAGATAGGAAATTGGGTTCTCTAGTCACATC
TGTAAGTTATTTCAGTGCCTTGGAAGATCATTTATCTGGCCACAGATAATTGACTTACTTACATCAGTTTTTTTTTTTTTTGAGATGGAGTCTYGCTCTG
TTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCACGCCATTGTCCTGCCTCAGCTTCCCGAGTAGCTGGGA
CTACAGGCACCCACCACCATGCCTGGCTAATTTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTAACCTT
GGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCGGCCACTTATATCACTTTTATGCTTCCTATCTCCTTATTGATCTTGAGGT
TCAAGTTTCACTTAACCATTTTCTTCAATGAAAAATAATTTTATAATTTAAAAAACCTCAACCTTTAATATTCTATGATTCTTGTTAGGCCATCTCAATT
GAGAATACTGATAAAGAAGTAAAACTCCCCCCAATACTGGCTAGTTTGATTTTATCTGTTAATATTACGCAATCTGCCCCAAACCTGTCTCTCCCTTTTT
ATTGTTACTTATCCAAAGATGGCTTGAATCTCTTATGGCTTGAATCTCTTTGTTTATTCTAAGCAATTTTCAGACACCTCAGCCAACTATCAATAATATA
TTAGTTTTTTAGAACTAAAAATGTAGAGGATCTCCCCCTAAAAGCCAATTGTTAATGCCAAATATTTGACTGATATATTTCTTCTGGAGGAAGGGAGATG
TGAAAAAATTTAGCCATCAAGTTATGTGAAAACTTTTTCATCTTCCCATCCACTGGATGTTTTATCTGTAAATAATGCTATAATCATATTGGAAAGTATT
TTCCTTCTGGGGATGCATGAAGATCAGGAATCCTATTCGTTTTTAACAAGATGGAATTTTTAAAAACTACTTTGGACAACTCTAAACATCAGAGATGACC
ATTTGTCTCTTTTTTATTATATAACTTGTGCTCGGTTTGTAGAGCAACATAAATACATGAATTAAAAAATGAAAACTAGCTCCTTCCCTATTTGACAGAT
ACTTCTCAACCTCCTCTCCATAAGATATGCTCTATCCCTATATAGGAAATTTTTCTGTAGCAGCTTGAGTTTACTAAAAATAAGATCTGAAGAAAATGAA
GCAATTAACATTTATTGAGAGTCTATAAGGGTTTCTACATTGTGAAGGAGACAGAAATATAAGACATGGCTCCTGCTTTCAGGTTGCTTATAATTAAAGA
GATAATATTAAATTATTTGGATGAATTTAAAAATGACACATGCCATCTTACAGATATGCTGTAGACTGTGAAAATGAAAAAAAAAACCTCGTGTTTAGAG
TAGACACTGTTTSATGGATTAGGTAGGTTTTCATCTGGACTTTGAAATGTATGTAAGATTTTATAAGGAGGAGAGAAAATAAGAAGCTGTTTGTATTAGA
ATTACACAGATAAATTTGTAAATTTAGTTCTTTTCAAAGAACATTAATTGAGCACCTCTGTGCCAAGCTCCCTACTGGATGCTGTAGATTACAGCATGTT
TAGGAACTAACTTCATACTCTGTTGCTAAAGTATTTCTGTGTTTTCTAAAAAGGTAAATCTCTTGTGAGGAAACAAATCTCTTGAAGGGGTTCTCATAAC
AGAAGTCCCATTTACTTCATGATATAAAAAGGGGCTGTTTTCTGGTTTTGTTCTCAAAATGTAGGATATAGTTCTAGACGTAATTGGGAAAGCTTAACTT
TGTTGCATACGCATCTTCCCTATCATGGTTGATTTCCTATATGGCATAGTTAAATGTGTTTATCCGTGTTTGATATCTAAAGGGCCATGCTACATATAGA
CTGCCAACTAAGGTTTTATCTGATGATAATAAATTGTTGTATTTCATGACGACAGCAACAACAACARTAATGTACTTAACTAGTCACTGTGCAAATTGCT
TTACATACATTTTCTCATGTAATCATAATAATAACCGTATGAGTTTTGCTTACTATTGTTTTCCTTAATTAAAATGAGTAAAGTGAAGCTTAGGCTAAGT
AACATGTCCATAGCCAAACAGTTAGTCACTGGCAGGAGTGTGACTGACTCCAAAGTCTATATTCCTAATTACTGTGTTCTACTTTTTAATAGRGAGCTCT
TGAAGGTCCAAGGAAAGGAATGCRTAATGGTGTGGTCAAGGCATTAGTGTTAATATTTGTAGAAAGGGTAATTAACAACAGTCTGAGCAATCACATTCTA
ACAACTAGTAAGGTTGGCAGGAGCCTCAGTATAATGGTGTGAGGAACGAAATCATTATAGTGCCAAATAGAGTATACCATCTCTTTAGTACAATGTCTTT
CAAAATGAGGCTGATTGTGTTGGCTTTATATTTGACTCCTTAATAATTAAGGCAGTAAATTCTAGCTGGAGCTAAATACCTACAAGGCCTAAAACAGCAT
AATGGACAACCTGGCAGGTGTCCTTGCTGGAAGATGACAAGAGTGCTGAAAGGAGAGTCCTGGTTTTTCTCCCAAGACATGACATTTGGGGGCTTCCATT
AAAAAATTACCAAGCCTCTGCCACTGTAATCTCTTCCTTAAGTGCCTATGATTTTTTCACAGTCACAGGTCTATGCCTGGTCAATACCCAGTGGCCAGGT
CTCTGAGCTGCGTGCAGAGATGGCAGCGACTTGGAGGGCTGGGAGGAGATAAGGGGAGGAAAGATCACTTTTCATGACAACTTACAACTTGATTCCACTT
ATAAGCCATTTATTTTCAGAAACAAGTAATGGGTGARGACACAGGCCAGGTCCACAATTTGTGCACTTGAGAGATTAAGGCCTCCGAGATCAAATTACCA
CAGCAAACTGAGACAGAATTATTGTAGGGATGTTTGGGGAGGATGCAGAGAGAAGAGGAAGAAGCCAGAGACCCAAGAAAGGAGACAGGAATAGATTTTG
ATGAAAATTGCTTCCTACTCTGTACCCTTGAGGAAACAAAGAGGACAAATAAGAAGCAGCAGTGATAGGAGGCTGGGCGCTTCTCTGGAATAACACTGGC
TAGGTAGTGGAGCATTGATAGTGAGTGTGCTTGGTTGGTGGAACGAAGGGATGTGCTAGTTCAGGCCTTTGAATTCTGGGTGTCAGGATCACAACCTTGG
CTCCTTTAACTGTCCGCTCTAGGAGGGAAGCATGCCAAATGTCAGGTCTCACTCTGACTTTGTTCCAGTCCATAGCTAGAAAATGACCCATAGAGGAAGA
TCTACAGATGACAGAATACTGGGAGATGAAGAGAAAGGACGTTTTAGTGAGTGCTTTTTTTGCACATGAGGCAATAGATTTCAAATTCCTGTGGAAGAAA
TGTGAGAACCTGGGAAGASTGAATATTCAGAACTGAGCAGCAGAGGCAATGACACAGCATGGAAAGATTTCCTCTGATCCTTCTACCTTCTCTTTTACTG
AAGTGAATTTGTTGTCTCTGTGTTGCCTCTATAGCAGTACAAGAGGAAACTTGGGGACACAGAAGAACAGAAGTCTAAGGAGTCTTATATTTAAGGAAGA
TAAGCTGCAGTCATTGAAATTGCTGGTTATTGTAAGATAAATCCCAGACTCCCACATTTTGCTTAATGACAGCAGATTTTTTTTTTTTTTTAACTGCAAA
GCATTAATGGAATCCAAATTCCAGCCTGGCTTAGGAGATCAACAGTAACGCTCTTGATTTAATGGTTTTGCAGACTCTTGAAGACATTGTCATCCATTAA
AGAAAAAATTTTAAATTACTCTTGAAAGAAAATGTCTTGGGTGATAAATGTAAAAGATTTGAAGCAAGATTAGAAAAAGCTTGAGAGAAGAATCTCTTTA
AAAATTTTACCAGATTTTCCCCATTGTCGCCAAAATGGGTCAAATAATAGATTTGCCTACAGCTTCATGGAGACTATTTTTTTAAACAGAGCATTTTAAA
CATTTAAATATTGGTTATTTGCCAAGGCACACACTGAAAATAAGGGCCACTTGGCCGAGAGCAGAATTGAGTCTTGGATCCCAGGATGCTGGTTTTAGGC
TTGCTCCCGGAAAGAGGGCAGCATTTGCCATCCCCCTCCTTTTGCCCTAGGAGTTGAGCACTTTCTGCAGTACTTAAGAGTGTCCAGGGAAGATGTGGGA
GTCAGGTGAATAGTTCCCATCGCCAGTAACCCCAGAGCGCCTCCCCCTGCGTTGTTTCCTTTTAATGTTAGATCCGCCGCCTGGGTGCCCATACTTAGCT
AAGGCCCCTCAGTTTATTTTCCTGAATTGCGCTTGGAGATCTTTTCCTGGGGAGCTGATAGCCAGACTTCTAGGGGCTTGACTGCTTTTCCCAGACTAAT
CTCCTTAAAGACCCGTTAAGCAGGGGAGAGACGGTGGAGACTGGATGAACTGGACAGTGGGGGTAGGGAGAAAGGGAGTGGCCGTGTTCCTGCGGTCCGC
TGGGATCCGGCAGGTCCAGGGTGAAGGAGATGGGGCWGGAGAGGCTGAGCAGTCCGGGTTCGCTGTCCGCCACTTCGGCGCGGAATCAGAGCAGGACTTG
CTGAGCCCTCCTACCGCTCCCTTTCCCCCTCCCCCTCTGTCTTCCCTTCTGTTTCCTTTTCCCTCCCCCTGGAGCTGTAGCGGCAGCAGCAGCAGGAAGC
CGAGCCGGGTTGAGCGACTCGGAGGCGAGCGGAGGAGCTGGAATATGGGGAGTCAGCGAGGACGGTGGGGCCAGGAGCCCTTGGGAGGGCCTACGGAGGG
AGCGGCCCCAGGCGCTTTCTAGAGCGTGAGCGGTGGGGGAGCAGGCGCAGGGTGGCACGAGCGGAGGCGGGGCCCGGGCGTGGGGCACGGCTGGGGAAGC
TGCCGCCTCCGGCCCTGCCCGGCTGCCTCCGCCGCGGCCAGTGGCTATGGAGCAGGCGGGCACCAGACCTGCGGCGACAGAGCATCCACGRCTCCGGCGG
CCCATGCCCTGGCTGCTGCTACTGCCTCTCCTGCTGCTGTTGCTGCTGCTGCTACCTGGCCCWGCGGCCTCCCAGCTGCGATACTCTGTGCCAGAGGAGC
AGGCACCCGGCGCGCTCGTGGGCAACGTGGCTCGCGCGCTGGGGCTTGAGCTGCGGCGCTTGGGGCCGGGTTGCTTGCGCATCAACCATCTGGGTGCGCC
CAGTCCGCGCTACCTGGAGYTGGACCTGACGAGTGGAGCGCTCTTCGTCAACGAGCGCATTGATMGGGAGGCGCTGTGTGAGCAGCGGCCTCGCTGCCTG
CTCAGCYTGGAAGTGCTGGCGCACAACCCCGTGGCGGTGAGCGCCGTTGAGGTGGAAATATTGGACATCAACGACAACTCACCGCGTTTCCCGCGGCCCA
ACTACCAGCTTCAGGTAAGCGAATCGGTGGCGCCTGGAGCGCGCTTTCACATAGAGAGTGCGCASGACCCCGACGTGGGCGCCAACTCAGTACAGACCTA
CGAGCTCAGCCCCAGCGAGCACTTCGAGCTGGACCTTAAGCCCCTGCAGGAGAACAGTAAAGTGCTTGAGSTGGTGCTGCGTAAGGGCCTWGACCGGGAG
CAGGCAGCCTTGCACCACCTGGTTCTCACAGCCGTGGATGGGGGCATYCCAGCCCGCTCGGGTACGGCACAGATCTCTGTGCGTGTCCTGGACACTAACG
ACAACTCTCCTGCCTTTGACCAGTCCACTTATCGCGTCCAGCTACGGGAGGACTCACCCCCAGGCACATTGGTGGTGAAGCTGAATGCCTCAGACCCGGA
TGAGGGCTCCAATGGTGAGCTCAGGTACTCCTTGAGCAGCTACACGTCGGACCGGGAGAGGCAGCTCTTCAGCATAGATGCCAGTACCGGGGAAGTGCGA
GTAATTGGGGGGCTGGATTATGAGGAAGCCTCCTCCTACCAGATCTATGTGCAGGCGACTGACCGGGGTCCAGTGCCCATGGCAGGTCACTGYAAGGTGC
TGGTGGACATCGTGGACGTGAATGACAATGCCCCAGAGGTGGTGCTCACGGACCTGTATAGCCCAGTGCCTGAGAATGCTACACCCAACACCATTGTGGC
CGTTCTCAGTGTCAATGACCAAGACTCAGGCCCCAACCGGAAAGTGAGCCTGGGTCTGGAGGCCACACTGCCTTTCCGACTGAATGGCTTTGGAAACTCC
TATACACTGGTGGTGAGCGGCCCACTGGACCGAGAGCGGGTGGCTGTCTACAACATCACGGTGACAGCCACAGATGGGGGAATACCGCAGCTCACATCCC
TGCGTACACTGAAGGTTGAGATCTCTGACATCAATGACAATCCACCAAGCTTCCTGGAGGACTCCTATTCCATCTACATACAGGAGAACAATTTGCCAGG
TGTGTTGCTCTGTACTGTGCAAGCCACAGACCCAGATGAAAAGGAGAATGCAGAGGTGACCTACTCYCTTCTGGAGAGGGAGATTCAAGGGCTGCCAGTC
ACCTCCTATGTCTCCATTAACAGTGCCAGTGGCAGCCTTTATGCTGTCAACTCCTTTGACTATGAGAAGTTTCGGGAGTTCTTTGTGACTGTGGAGGCTC
AGGACAAGGGGAGCCCACCACTGAGCAGCACTGTGACTGCCAACGTATATGTGGTGGACATGAATGACCATGCCCCTCACATTCTGTACCCTACCTCAAC
CAACTCGTCAGCAGCCTTCGAGATGGTGCCTCGAACTGCCCCTGCTGGCTACCTGGTCACCAAAGTCATAGCTATGGACTCAGACTCTGGGCAAAATGCT
TGGCTTTTTTACCATCTAGCCCAGACTTCTGACCTGGACCTCTTTAAGGTAGAGCTGCACACAGGAGAAATTAGGACTACCAGGAAGATGGGAGATGAGA
GTGGTAGCACTTTCAACCTGACCGTGGTGGTCCGAGATAATGGAGAGCCATCACTATCAGCCTCTGTGGCCATTACAGTAGCTGTGGTGGATAGGGTTTC
CAAAATCCTCCCTGACACTCAGAGGCATGTTAAGAGCCCTCGGACATACTCTGAAATTACCCTTTATCTAATAATAGCATTAAGCACAGTGTCTTTTATA
TTTCTTTTGACAATCATCATTTTGAGCATCATCAAGTGCTACCGCTACACTGCRTATGGCACTGCATGCTGTGGAGGCTTCTGTGGAGTAAGGGAAAGGT
CCCCTGCAGAACTGTACAAACAAGCCAACAACAATATTGATGCCAGGATACCGCATGGCCTCAAAGTGCAGCCTCACTTCATTGAAGTTCGAGGGAATGG
CTCCCTCACCAAGACCTACTGCTACAAGGCCTGTCTGACAGCAGGCTCAGGGAGTGACACTTTCATGTTTTACAATACAGGGGCCCAGACAGGACCAGGG
CCTTCGGGAGCCCAAGCAGCAGTGACTGACAGCAGGAATCTCACAGGCCAAAGTGGTCAGAATGCTGGGAACCTGATTATTCTCAAAAATGAGGCTGTTT
CTCAAAATGAGGTGAGACAGTGGTCAGGGGGTCTTCTACAAACTCATGCATTTGTTACACATCCCCCAATATCCTGTGATTTGGCTTTATTGAGTCATTA
ACAGTGACAAGAGTTATCTGGTAAACTGAGTATATATAGTATCCACAATTTGATCATAATCTGCTATTTCCTCTCTAGAAAAATAGCACTAAAGAATTGT
TTTATTTTTCATTTTCAGAGGCATGAAGCCTTGTCCATAAAATTGTTTGAGAAGTGAGGATTAGTCTTAATATTTAATGCTAAAACACAGATTTGTAGAG
AAACAGGACAGGCCTTGGAATAGGGATTATGTTTTAGGGAGTAATGTTATGAGACTCAAGGAGAAATGGCCTCTGCTGTATCATCTACAGGGAAATTTTT
CTTTTGAAATCCTATATGAGTGATGTTTCTTAAAAAGCTCTGAGGCCTCTAGGGGCTATCATAGTCACCACTATCTGCTGTCTCTGTTTATACTCTGGAC
TGTCTACAGTGGAAATTATCTAGTTAATATTTCTGGTACTTGCACTGAACCTATGTGATAGGATCCTCTGGAAATGCATGTCACAAGTGATAAAGCTGTA
GTATTTAGACATCATACTGAAGCTAAAGTTTGCTTTGGCTGTATGATGTGGCARCTCTTCTGTAGAGGGCTGTCAGAGGGAGTGGATGATGGTGAGGCAG
AGAGATTAAGTACCAATTTGTCTGGTTGGTCCAGGGAGGTATTAGAATGAGTGGATTAGGGGTGTGGGGGGATGGTGAAGACCAAGAGAAGCTGGGATTA
GAAGGAAGAGAAGGGAAAAAGAATTCTCCCAATAGTCACCTTTCTTGGCATACTCTGAATTCATTGTAAGAGGATTTCCCTGAATTTAGCTTAAATGCAG
CCTGTAATCTTCTGATTTTCTGTTGACAGTTTCTRTGGTTTTGATGAGATGTAAAGTAGCCTTTTCAAGTCCTTCATGTCTTTAAGTTAAATGACAGTAC
TTCCAAAGCATGCATTCATTTTCTGGATCTAAAATTTGATTTGCTATAGCTTCAAAAGGCTGGCTTGGAAAGTGGATGGCTTACCCTACAGTAAGGTGTA
GAGGCAGGTGTTAGTATATGCACTAGTTTTGAGATTTAAGTAGGTATAAGGCCAGCTTGTTCATTATTATGAAGAATGTACATAAATTATTAGAAAGTAG
ATGAATATGTGTGTGTGTTTGTGTTGTGTGTTCGTCTCCATATGTATGCTTGAAATAACAGAGATATGCTTTGTGATACTTAAAACTTGGATTTCAAAAG
CCAAAATTTTGTACCATAAATAGTGATGAATTGTTATCTTTCCAAATAACTACTTTGTAGAAAGGGCTTTTAGAGCTACTACACAATGTGTGAACAATAT
TTGTCTCTCCTCTATTTTTTGCAATATATTTTCATTGACATATTGCTGTACATACATATTGTATGTAATATCCATATTGTTACATTTCAAGTTCATGGTA
ATCTTGAGGAATGTAATGCACAGGCACAAAAGTTCCATTCCTGATTGAGAGTAGATTTTTCTCATGGACATTTCAGATAGATTTATTCATTTATCAGAAG
TGCCTGGTGTTAGTCAATGCTGAGAAACCATGGGARGCAKATTGTAGATTAAGAAAAATGGGGGAATAAATCAAAGAGTTTCCAGAAGTCTTTAGATCGT
AGCATTTGAAAGCACGTAAAAGGGTTTAGCTTTAAATAAGGTTGCTGTAGACATTTGCTTAACAAATTCTTGTGAAGCCCTTTGGGATTGGGGTGGGCTA
CAGGTGGTGAAGAGGCATGAACAAGTCAGGCCAGGCTCAGCTTTGCCACCAGCTGTAAGCCGGAAGCTCAGAGGAAAGACACTGTTACCCTCCCTCTCCT
GACTCAAAGCTTGGGGCAATTTGATACATAAACTATTTCTGTCTTACACTGACCTGTATATTAATATGTACTTYGGTACACAAACATTTAATCTAGGGAG
AAAATTATTTCAGAAAGTGCTTGCTTTTGGGAGATTTTGCCAGGAGAGTGCATGACTTTAATAAAGGCAAATTTCTGCCAGGCACTTTTGGAAATCCAGT
GAAGAACCCCAAGATCTACAGCTCCAGAAATTTTTGCAGTTATAGGGAGAGAGTGTCACATTGTTACAGTGTGGCAAGATAGGAGCAAAAGCCACTCAGT
TCTGAAAGTCATCATTGCCAGATCAACCTGTTAAATTCCCATGTTGGGCTTTCTTTTTTTCCTACCTAGTTACTACAGATGGCAGGAGAGTCCTGGGGTA
CAATTAGTACCATGTGCCTACATTAAAAGTAGATGGGAATTAGAGAGGAAGAGTAAGGGAATTTGTACTCACTAACCACCCTGCTATATAGATATATGTA
TATCATACATATACACATACATATATCTCATATTACTGAATCTTGAATATTATTCAAGATTATTCAATATATTGAATATTATAATATTGAATACATATAT
GATTTCATTACCTGCAAGTCATGCGTTAAATATTTGTTAACATCTAGCATATGAGGAAATAAGCTCAGGGAGGTTAGGTAATCTACACAGCCACACTGCT
AGTGTTATTTTAAGTTGTATCCATCTGACTCCAAAAACTTTTTTTCAATACTATGAGTAGACAGAAGTTCCAATGTTTATATTCCCTTTTATATGGGATA
TTCAGGCATTTAAGCTATCACTAATTCACCTAGTCGTATATATTAACTGCTTTTGGAAAAAGAGTAATTTCTGGCATAGAAGCAGGTAACAAATGGGAAT
ATCAGTGAGTTACTACTATTTTTTTATTTTTATTTTTTTGAGACAGAGTCTTGGCCTGTCACCCAGGCTGGAGTATAGGTGTGAATATGGCTCACTGCAG
CCTCGACCTTCTGGGCTCAAGCAATCCTCACACATCAGCYTCCTGAGTAGCTTGGACCATAGATGTGCGCCACCGTGTCTGACTAGTTTTTAGGTGTTTT
TTTTTTTTGGAAGAGATGGGGGTCTCACTATGTTGCACATGCTGTTAGTATATTTGTATTTGTTTATTTGCTTCACTATTGGCAAACCCTGTTAAGATCT
TTTATTTTTATTATTTCACTGATTTTTCTCTTGTTGCTTATTAAACATCAGCATTTAACCCCAGACTCTAATCTGTTGGTAGATTTTACCCCCAGTGAGC
TTATTTCATAAATCACTTGTGCAGTGAGGATTYTGAAGTAACTATTTGGCAATAGGGCAGAATTTCTCTTTGGAAATTTCTGAACTTGATACTGAATGTT
GTTGGCACTCCCTTCAGAGTCTCCATAAAAAGAAACCAAATTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCAGGCTGGAGTGCAG
TGGCGTAATCCCGGCTCACTGCAACCTCCGCCTCCCAAGTTAAAGTGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGCACGCGCCACCAC
GCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTGTCCAGGATGGTCTCGATCTCTTGACCTTGTGATCCACCCGCCTTGGCCTCC
CAAAGTGCTGGGATTACAGATGTGAGCCACCATGCCCGGCAAAGGAAACCAAATCTTAAGGTAGATTCTGTGCATTTGTGGTCGTGGTGTTGTGATTGTT
AATGAGTCACTTTGAGTACTCTAGTAGATTTGTCCAACAGTGTCTCAGTGGGCCCAGCTGGCACAACATGTAGAAATTATGAAAGAGTAGCAGAGATGAA
TTAAGTTTGCATTCACTTTCACTTATTTTAAAGCAATTTGTAGTCACCAAACCTTCAGTTATTTCTGCCACTATGTGTGCATATTCACCCTAATTCCAGG
TATAGTGACCTGAAAGAGTTAATTCTTCTTTCAGTGGCACCTACTTTTATTTCCCCCAGCACTGATTTTTCTATCTGATGACTCTATCCTGGAACAGAGT
TTACACTCGTTGTAAAGTGACATAGTAGTGAATTTATAAAAATTGCACAATGGTCAGAATAGACAAAGAAATCATATCTATGAGCTTCCACTCCAGTTTT
TCATCCTCTGATGGTCACTTTATAATGACTGGGGCTGTTTTAGTTTGCAAATTTCATATTGGTCACAGGACTCTTCTTCTGAGAAAAAGTTTATTTTCTT
TGGTCTGATGATACAATAATTTATTTCAATTACCTCTTTCCTCAATTTTTCTACAGACTGCTGAGCCAGATGGAATTATGGCTGAGCTCTTCTCTGTTTC
TGTATCTTGTACACATTCTGACTGAAGAAGAAATCTATTTATTGTAGCTTGAATGTCATTGGCCTACTGTTTCCTTCTGACCCAGGAGTGAGCCATCACA
TGGGCATCTGGTCTAACTCAGAACACTCTGCAGGGACACAGCCTGGCATATTATAGGTTGCCTATTGGCATGCTGTCTACTTGACAGAATAGCAAAGTCA
GTTCTGGGTACTTGCTTGTTGCCTACCAATTTTTGCTCTCAATGAGAGGTCAGAATAATGTCAATTTGCAAATGTTTGAGGAAACATTCCTGTCACCAAA
CCCAGAGGTTTAGCTGAATATGATGGCATTTTACAGGTGTCTTTAAATGTGGCTTTTACAGAACTTCACCTGGATCAATGTTTTGTGCATGTGATAATAC
AACTATAAATTTAGCTTATTAATATGATAATATTTGGAGCAGTATAATCTATAACCATGACTTCAAAAATCAAAGGTTAAAAGTATTCTTTTGCAGTGTT
TTAAATCTGCTAACCTGAAAACTATACAAGGGTTTTTCTTTCAAGAATTTTAACTTGACAAATGCAAAGGAATATCCAACATTGCAAAGGTAAAGAGAAA
TCTTAGTTCCTTGGCATATAAGCACCATCAGTTCCTTTCTGGCCTTCCAGGGTCAGAACTCTGGGCTCCAAGGAGGTACAACTGTGAGTGAGAGAGTAGC
TRCTGTGCTAGCAGGCTATGCATCCAGAACTAAACAGACCTAGCACTTTCTGTTGTACTGGAACCCATTAGGTATGTTCTAAAGTTATGTTTATTTTACT
TTCCTGGTTTGTAAATTAGCATTTTAAATGACTACATTCAGAGGAAAGTATTCCACCCAGAATTCTCAAATGTATTACCTTTGTGTTTTATTTTATTTTA
GTTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCAGGGTTCAAGCGATTCT
CCTGCCTCAACCTCCCGAGTAGCTGAGATTACAGGCATGCGCCACCATGCCTGGCTAATTTTGTATTTTTGGGTTTCACCATGTTGTTCAAGCTGCTCTC
GAACTCCTGTCTCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCACTGCGCCCAGCCCTCATTTTGATATACTAGAAGACCAATATGCAA
CATAATGATTATTTTAAATGTTATATTCCCTTTTGCCTTAATGCGGAACAGTCTATGTATCCCTTTTCTGATGATTTGTAACAAATTACCACAAGTAAGT
TGTTTAAAACACCACCTATTTGTTATCTCACAGTCCTGTACCATGTGGCTGAGTTGTCCGCTCAGGTATTCTCAAGGCTGAAATGAACACAGCTGGGCTG
TGTTGTCCTTTGCAGGCTCTTAGGAAGAATCTACTATCGAGCTCATTCAGATTGTTGGCAGAATCCAGTTGTTTGGGGACTGAGATCTCTGTTTTCCTAC
TTACTATTGGCCTGGGGTCACTCTCAGTTCCTAGAGAACTGAGGACTCAGGACTCTTGTCCCATGGTCTGCTCCATCTTCATGGCTGGCACTGGAGAATC
TTCCCTCACATGGAATCCCTCTTATGCTTCAGATCTCTCTGATTTCTGTCTCTGACCTCTAGACCCAGATTTAAAGAGCTCATGTGATTATGTCAGTCCC
ATCCAGATGATCTCCCTTTCTTAAAGCCAACTGTGCTACATAGCATAATGTAATCATGGGAATAAGATCCATCACAATCACAGTCTTGGAGACTATTCAG
GGTGTGCACACCAGGATATAGGGATCTTGGGGCCATCTTGGAATTCTGCCTATCAGTTTATATCAATGTTCATAAAATAGCACTATGCAAAATCTGCAGT
GGATATATTCTTAATACAGTCCTATTAGGAAGGAAAAGGAGATATTATATGCAGTCTCATGTCCCAGAGGGCAATTTGTTGATGTCTTCCACATGGATTT
CCATGGTACGAAGATAGCATATTATTTCATTGAGTAGTTGTGTGAGTTTATTAATAAAATAGGGTATTTTAAACTTATTTTACTTTAAATCTTAGAAGAG
GTGATTCATCCTTCTGTAGCTCAAATATTCTATGTCATAAATCACAGATAATACCATTACAAGATAAATTAAATCTTTTTTATAATTTTAATAGGAACTG
AAGTGTATTCTTATTCTTCAGTAATACTACATCACCCATATGGACTACCTAATTGATTTTTTCCACATATGGAGTTTTGTGACCATTATTCTACCAAAAG
ACTAACCTTTGAAGCAATAGGACATATTAGAGTTCTTCACCAATAGAAAGTAAGCATAGTCCTGGGAGGTACCATCTAAGTATTAAAGAACTAAATAATC
ACAGTTATTTCAACTGTGATTGAAATTGTGATAGTAATATATGTCTTACTGTGTCAGATATATCAGTAGTCAACTTTTCAACTTGAATTTTTCCAAGTTT
AATCAAGTTCTGGATGAAACTCATGTACATTTTACTACTTTTAGTTTTGTATTGTTTTAAATCAATATCCTGGAAACTCAGAAGTAAAAAAGAGAAAGAA
GAAAAATATATGTCATTTCATGTAAATTTATTTAAAACACAGACTTTTGGCAAGGCACAGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
AGGGTGGATTGCCTGAGGTCAGGTGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATTCAAAAATTAGCCAGGTACGGTGGCA
GATGCCTGTAATCCCAGCTACTAGGGAGGCTGGGGAAGAAGAATTGCTTGAATCCGGGAGGCAGAGGTTGCAGGGAGCCAAGATCGCGCCACTGCACACC
AGCCTAAATGACAGAGTAAGACCCTATCTCATAAATAAATAAATAAATATAAATAAAACACAGACTTTTGTGTTAAGGGGACCTAAACATGACTGTCAGC
TGAACTCAGCAATCAGACAAGTAATTTAATCTCTCCAAAGTTCAGATGTCTCATTTTTGCAATTTAAGTACAATAATGTTGACTTTGCATTATAGTTCAT
TTATTTAAACACATTTTAAAAACCTCCCAGATGCCAGAAGCCTGCTAGACTCTGACTATATAGCTACGCTTTTATGAATATCTGAAGATATGCATGTGTC
TAATGAGCAAARCAGATATAATCCCTTTCATAGAGTTTACTGTCTGACAAAGAAAGAATTAGGATACATGCAACAGTATGTAATAAAGTGCAAAATCTAG
TACTGTGTAGCTACTTAAAACATATTATATGYTTTCTTCCTTTCCTTTTCCCTGCCTGATCTTACTGCCATAAGAAATCTTGTAACTGTGATTCTGTCAA
ATGAATCTAAGAAGGATGTTGTTGCTGATGGACTAGTATAGAAAATAGCAGCATGACAAATTAAATGTGTCATTGGGGAAGTGAGATTGTATAATGAACT
GAGTTTCCTGGTCAGTCCTGCTGGAACTGTGCCTTTCRGCAAAATGAGTTTGATGATTTCATTCCAAAGATCAAGTTGCAGCAATTTTCATCATGAATGT
TACCCAATCATAGAAAAATTGGCAACATTTCTCAGCAGATGTTACAGTCTTTCTCAAAGGAAGGTTCTCTCAGCTGACAAGCTAACGATAGTGCTCCTGA
TGGCGAGGGGAGAGACGGTGATGATGACTGATTGATAAAAAGTATTTTAGTCATATTTCCAGGTTTATAAAATGATTTGCAAACATTTTCTTTTGTTCCC
TCTAACACCGCTAGTAGATAATGGAAACTCCTTTGATTTGGTCTGTAGATAATTTTATGCTKTGTTATATGGAATATCCACAGCATTTTGTGAACTTGAA
AACAAAGGAGGAAGCAGCTTGCATATGCATATCTTGCTAGCAGATTGGTAGAATAGAGAGAGCAGTTAGCATGTGAGGACCATTGAGGTAAAGTATCCCA
GAGTTGTAACTTTTTCTGGGCCTTGACTTTGGCTAATTCTCTGCATGCCAAATATCATGTAGCCATCCAGAAATCTGTCTGAATATTGAGATGGTGATCA
TTTCTCTCCTGGGTGTTATGAAGAAATGTGTTTATTAAATACTTTGCATCCCTTAAAGGAACTATATGAATGATAGGAATAAGAATTATTGACAGTTTTG
AATGGTCTATTGATATTACTATGGCTTTGTTTCTACCAAATATGGTAAGTATAATGTAGAGGAAAATACAAAATACAACTTTTATCCCCCATTTTTTTCA
TTCAACTATACCTCAATATTCAGTGACAGGGCCACCTYAATCTCCGCCCATGAAAACGCATCTAGAGGAGTGTCACAAGTTTTTCACAGTGACATTTTTG
CTTACTGATACAAGACAGTGATGGTGACTGATGATGTCCCAGTGATTTCTGAGTAGCTTCTAACCAGCACATAACTCCCCCAACAGTCTTTAAGTCTTTA
GGTGCCCATATTTTCCTCTTTGTTCTCCCCCTTCAGACTGAGAGTTTGTAGAGAGAGGGCAACAGATCTTTTCAATACACAACTAATGCAAAATGTATCA
GGTTTTTCTTGGATTTCAGCTACTCCCTGTTAAACAATCAGAGCTTAGTGAACAGTGATTCAGTGAGGAGGGAAAGCACTCAGGAAGGAGCAGGAACAAG
TACAAGTTTATGAAAAGGATTAGCTAGCAAAACAAGGTCAAACTCTGCAATAGTTTGTTTTCCTCTCCCTAGTATCCCTCTTCAATCAGAAAAGAGACTG
TTATCAGTTGCTGGTGTTATGACTGGGCACATCCGCCCTGGGTCAAATATGCTGCAGTCTGCAAAGCCAGCAGCAGATTGCAGTCCTCTGCAGTCCAGCC
AGGCCAGCAGAACTTGTGTAGCCATGTGCCCTGTTATAGCTGTAATACTGAATTGGGAATGTTCCCTTAATGGGGCACTTGAGGGCAAAAGCAGTGAAAG
CTTTTCCTTTCTCAAAGCAGACTGTTCTTCCCGTAGTGTTTTAAGAACACAGACATGTATTGGGCAAGGCAAAGCCAAAGGTGGCCTTTACAAGATTATT
AAATCTGGTCTTCCAGGGTATCTAATCTGTGTGAGGACCCTGATGAACTAATTTTCTTCTMAAGTGCTATATATGTAGATATCATCATAGAGTTACACAT
GAAATGGCTCATTCAATACTTTTTTAGATGCCTGGAAATATTTAAGGGAGTAACTAATCAATTAGCAGCATTCCTGGGAGAACATTGTCTTGTCATTTTA
ACAGAAAACTCTCTTTGTGATTTTGCAGCCACGACAGCCCAACCCTGACTGGCGTTACTCTGCCTCCCTGAGAGCAGGCATGCACAGGTATGTATTTCCC
TCCTCATTCACTCAGAAGTAACCTTAACTTGGTATGGCTCAGATAAACTGCATCTCCMTAGGCCAGAAGCAGCTGTCAAAACTAAAAAGCTTTAGGTACT
TTGCCAGGAAAATGCAATTATTTTGTCCCCATGTTTATTCCTTGAAAGATCGCAAATGGTCAGTGCCAGATGCTTATCAAGTGCTGGCATATAAGAGTCC
TCTGTAAAATCACAGAAACAGGCTGCTATGTATTTTCTCCCATCAAAATTTCTACAGGGAAGTAATTTCAACCTCCTTCATCCCTCTCTACCTATGCTTT
CTTTTCCTCCTTTAAAAACTGTAATTAATACTCATGCTTTGAGACTTGGGTACATTGTGCAATGTATACATACATGTTGTCTACCTTGTTTTTTTTTTAA
TCTCACATTGGCTATTACATCCTATTACCCTCAATAATTGATTGCTATTGTTGTTTGTGTTCACACCTATTAGAGCCTCCTCATCTTTCCCATCTGTTGC
TATCTTATTGTCATCAATGACATGGTTCTTCAGAAGATGAGCCATGTAAAGGGCTCCAAATCTAGCTTACTTTAAATTAACCTAGAGTAACGGTATTAGT
CTAAGACTCAGATTAAATATAATTTTGCTTTCTCTACTTTGTCTCTCTGACAGTAATTGATTAACTACCATTATTTCTGGAGGTGATCCAGTATCCATGC
CATGGGGCCAAATAAAAGATTCATTATTTGCGAATGTCTTTGGAAACCAAATGGGAAGGACCAAGAAACAAATGATCACAACTATCAAAAGGATTTAATT
TTAAAGAAGAAATAATCTTCAAACTTAAGCCCCTCAAAATATCTGGGCAACTATCAAGTGAATATTCACCAAACTTAGATCAGTTCGTAAAGAGAAAGCC
TACAAAGTATGTGTAGAGTTAATGTGAAATTAGTTTTAGCCCATTAAAATGCATTAGATTGAAATAAATTAACATACTCTCAAGCATTACAAATGAGCAG
AAATCATTACATTGGGTGCTATTTCTGATTCAGAAGCAATCAGTGAAGGGCTGAAGATTAGTAGTTGGCTTGGTAAGATGTCACATTGGAACCTGGGTCA
TAATTTTAGGCCAGAAACATTCATGCATATACCAGAATATTAGGTATCAGAAGAAATTCTTTATATTTATTAGAGACCAACTTGTGCTTTTGCCTGCATC
TGAGCTGTTGGTGGAGACATGCAATGGGTAAAAGCATGGTTTACAGTACCAACTCTTGAAAAGTACCAAAGCTATGAGTTGTGCCTTAAAAACTACATTT
GAAATAAAACATTAAAACATAACTTCCTGGACTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCATGAGGTCA
AGAGATCGAGACCATCCTGGACAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGATGGCATGTGCCTGTAGTTCCAGCTAC
TAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAAGTTGCAGTGAGCCAAGATCGAGCCACTGCACTCCAGCCTGGCGACAGTGCGAGAC
TCTGTCTCAGAAGAATAAATAAATGAATAAAATAACATAACTTCCTTATCCCATTTTCAAATTGAAAAAAAAAAGCCAAATGTGCTCCTATKCGGGTTTC
AATTAAGATATTATGAGATTTGAGTAGGGTAAGAAATAAAATAAAAATTGAAATTAAAATGCCATTTCTTTTTTGCATTGTAATACATTGAACATATTAA
ATGAGTTGTGAACCTAAATAATACTAATCTTTTTCGTATGTGTGCTTGGGTGTTCTCGGTCTTTCCAGTCTTGGACATCATGTAACTATTCTTTAAAAAA
TTCTGCTTTGAGCTGAGCTGGCTCCAGGATAGTTACACCTTCATGAATCTGACTGAGCCCACACAATTTGCTAGTAGGATCCAGGAACACTTGAAGGCTG
TTAATATTTGGGGAAAAAAAACAGATAATTCTAGAGTGTAGACAAGGGGAAGAATAGTAAAAGGTCAGAGTTTAATGAGTGAATTTCTACTGGATATGTT
GTTTGAAGTCAAAGAGTGAGAAAACATTGAACTTATATGTTGCCTTCCCTCTAATAGTTCAAGTTTGCCTGCTCTGTTGCCTCATATAACCCCTTTAGTC
AGTAGTCTAAATTTTATTTTAGAAATTTAACTTTCAAGATAAGCAAATGTCTAGTTTAAAAGGGTCCTCTAGTCTAGGTGTAGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGGTGAGGCAGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGTCAATATGGTGAAAACCTGTCTCTACTAAAAATACA
AAAATGAGCCAGGCATGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAG
CTGAGATCGTGCCACTGTACTCCAGCCTGAGTGACAGAGTGAGGCTTTGTCTCAAAAATAAATAAAATAAAACAAAATGTTCCTCTAATTTTGATGAGGG
TTTTCTTGGACATTTTCTCTTAGGATCCCACTTATTTCTTCCTTCCTTTCTTCCTTCCTCCCTTCCATCATTCATTCATTCATTCATTCATTCATCCAAC
AAATATTTGAGAGATTAATATGAGTTAGTATTAGACATACATAAATGAATACTGCACCATGTTCTCTTTTCCCTTGAACAGTTTATGTTCTATCTCTGCT
TGCCTCTAAAGGTCTCCCAGTTTGTATCTCACTCCCAGCAATGTTTTATGCTGAATTAATCTCTTCTGAGCGGGGATCTGTGAGTGGTGGTGATCAAGTT
TCTCTAGTCTCAGGAAATATAGGGTGGGTCATCTATGCATAAAAGATATAGAAAGAGTAAAATAGAAAATAAGGTTAAGAATTAATTAGATAGCCAAATT
GGAACAATACTCCAATTATCAGAAAATATTTTAGTGTGTTTTCTTCTTTAGAGTAGAGAACCTAGGAACAAGAGAACCTGCAAGAGAGGCTTGGAACTTT
TGAGAACAAGCCCTCCTCATCTGCTTCAGTATCGAGATGTTAAAATGGCTTAGTCCTCTGATGGGCTTCCTGTTAGATTTAGTGAGCGCCACATGGCGTT
AATAAAAAACAGAATTGCCATAAAGATAGAACATGTGTGTTCCTGGAATAGTATAGCAGGCAATAAGTAAGTCAGCAATGCTTCTGCAGTTTATGCAGGG
TGACTGCTCAGCAGTAATTGCTTCAGTTCAAGCATGAGCAGAATGTGTTAGCTGCAGCCCTGGCTTCATAGTTGTAAGCAATTTCTGAGGGTGGAAGAAG
AGATGGGAAAGAATTTATGATCTAACCRTTATCTGGGTCTGTGTGTTTATTCAGCTCTGTGCACCTAGAGGAGGCTGGCATTCTACGGGCTGGTCCAGGA
GGGCCTGATCAGCAGTGGCCAACAGTATCCAGTGCAACACCAGGTAAAGAGCTGGGGTCTCTCCATTCTTTCTTGGTTTCTGGAAAGTGATCAGATGACC
TACTTTTGTAAGATCAGGAATGTTGATGGCTCTTTTTCTTTTATATTTTTGTTATTCCCTTTTTTCCATACATACATGATTTCCTTACATATATGATTAT
TTTGATTTTATACCTAATGCTCTTCAGGAGTTGAAAAAGGATAACAAGGAAAGTGTGTGTGCACGCATGTGTGCATGTGTGTGTGTGTGTATGAAGTTTT
TGGGGTTTGTTTGTTTGTTTAAATCAGGTACCTTTCAAATGCTTAGGTCATCCAAGCCATGCAGAGAAGATCTGGTGGCCTTATGCACAGAGATGACACT
GTTAACAAAGATCTTTTGGTTGAAGACTATGGAAACCCACCCAAAGTAGTAAGGAAAGAAAGAGAAAAAGAAGGAAAGAAAGAAAAAGGAAGGAAGGAAG
GAAGATGGTTTCTCATGGAAGTGGAAAATTATCGGAACCAAGGCATTGTTTTGAGTTCAAGTCAAAGTCAATCTGCTTCTCTCTGCACATCAACAACATT
CTGCAGACTGACTTTTAGTGCCTTGGCATGCATGTTGCCAAACATGACCGCCTCACAATTTCTTAGTTTAGAGGGATAATAGGGACTATTTCCTAATCCA
AACTTTCAGGAAAGAGAACCTGCTAAGTTGTGTAAAAAACCTAATGGCTGGGTGAGTATAGGAAAATTGCTTAAACTCACATTTGCTTGGTATCCTTATT
CTTGCCCTATCACTAAAGCAGGGTCATGTAATAGAAATATGGCTTTGGAGGCCCATCGCTGTGGCAGTTTTCAGAAAGGGAAGATTAAGTGTTGGTAGAG
ACCACAAATTGTGTCTACTCTAATCCTCTATTAATAGAACATCATGATGATAATAGTAGTTACTAATTATTAAGCCATAATATGCCTAGACACTGTGCCA
AGTACATTGTATGTGTGGTCTCATTTATTCCTTAAGTCAAGCTTGCAAGGGATTTATTACATCTATTCTACATATGAGAAACTGGAGAGGCAGAGAGATT
AAGAAATGTACCCAAGTTCACGTAGCTTGTAAGTGGCAGAGGGTAGGATTCAAACCCAGATGTGTTTAGTTTCAAATCCAAGTATATCTAGCACTTATAT
TCATAACATGGCTGGCTTGCAATAATCCATTCAAATTCAAATACATATCTACATACATAACAGATGACAGAATGTGTGTGTAAAAGGTTTTTTCCCAAAA
ATAATCAGATGCCTTTCAAATTATTAAGTAACATGCAGCTAAGGGCCCATTTTTACTGGCAACTTTAAGGGCATTCRTTGATTCTAATCAGCCAGGATTT
GCTATTTATGGATGTTGCACAATTCAACTAAAAGTCACATTTGTCCAAAAAATATACGAGTTGAAGCAATTCATTAGAGAGCTAATATTGCCAGATTGCA
AGGGGAAAAACATAAAATAGTTCATTGACAAATCTGTACCCTCAGTGCCAACGATGGAGTGAAGAAATGATGGAGGAGGAAGTGGTTTTAGACTGCCAAG
TGTTGCAGGATGTGGAGGCATCTGGGAAGGTGAGAACTTCCCAAAGAAGCCACGTGAAATCATGACTTTCTACCTTGCCTTTATTTCAGAGTTTTTCTTG
CTCTTATGGAGGCATTGTAGGTCGACCTGGTAAGCCACAAACTAACTTTGAATACATTCTCCCTCCCATTGGTGATGCTGGTTGGTGTGTATTCCTAGGC
AAATGTGGAATAGGAACCATGTATTGATATTTCATACATCTGGCCAAGTCCCTCTTTCAGATTCAAAAAATGTTGAGAACCTATCTTTTTTACAGAGATA
GAGAAGGGGATCTCCCTTGTTCCCTTTCTTACTGTCCCAGCCCCTCTTGTATAACCCATTTTATCCAGAACTGTGCCTGGCTGCTGATGCATGAGTCACA
GTCTTCATGGACTGTGCTGGATAGAGCTTACATCTTCCAACTACTCCATGGCAACCTAATCATACTTTTCAATACATACCTCTGCATCAGTGGTGTAAAG
TTAAAGGGATTCTCTGCCTTCTCCCTGTCCTTCTGGTACTTTTAGGTTTTTAGGACTCAATATATGTTCTGCACTGCTTGGAGGGAATATGGCATAAAGA
TTAAGATTATGATTTAGAGTCAGATTTGAGTTGAATTCTAATCCCAAGCTTACTTGCTGGGTGAGCATAGACAAACTGCCTGAATTCATATTTTCTTAAT
TACCCTTTCTGTAAATTGGGTGTAGTAATAATAATAACACCTATTTTATTGAGTTMCCATGAGAACTAAAGGAGAAAAAAAGAACTGAGCATAGTGCTTG
ACATATAGTTAATAAATGTCTAATCTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCCCCCAGGCTGGAGTCCAGTGGCACGATATCGGCTCACAGCAACC
TCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGACTACAGGCGTGTGCCACCAAGCCTGGCTAATTTTTTGTGTTTTTAG
TAAAGACGGGGTTTCACCGTGTTAGCCAGGATTGTCTCAATCTCCTGACCTCGTAATCCGCCTGCCTCGGTCTCCCAAAGTGTTGGGATTACAGGCGTGA
GCCACCGCGCCTGGCCTAATCTTCTTACTCTTTTTTCTTTCTGGACTACTTTTCTGCAATCTATGATATAGTGTTGGCTGATAGCCTGGTGGCCAGAATT
CAGTAGTTCTCATTTGCAGGCCCAGATATAGACCCTCTGAGGTTATCTGGGTCTATATAATCCAGTCACCCCAACTGTTCCCCTGGAAATGGAGTGAGGA
GGATTTATTAGTTGCTGCCTGAAGAAAAGGGAAATGCTCCAAAAAATTTGGTTGTTTCCAGACTCAAATAGAGCCTGCCTTTCATTGAYTCTGTTGCCCT
TAAAGCTTCACGGTGAAGATGCAGTTGCTTCCAAAAGGCTTCTTTCTGGTGCCTAAGCCTCCTTATACTTGCTTCAGAGCCCTTTCCGTGAACCAGCTGT
GTATTGCTCTTCTCATCCCAACACTTGCAATGGCTGAATAAAGGAAGTGGGGCCTGCCTTACGCTAATCCTCGTTCATATGTGTTTCTTAAAGTTATTTT
TCCTTCACTGATGAATTCCTTTTTTTTTTTTTTTTTTTTGAGACAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACAACAA
GCTCTGCCTCCCGGGTTCATGCCACTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACTCCCGTCTAATTTTTTGTATTTTT
AGTAGAGCCGGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGT
GAGCCACTGCGCCTGGCCTCACTGATGAATTCTTTTGCTTTTTAAAGAAACTGTTCATTTATTTTCACAGTCTGCAAAAGCCTAAGATAAAGATGCCACA
CTCTGAAAGGATCAACAAGGGCATCACCAAGTAATGTTTTCTGCAGGATAAACAAGTCAGGCATTAAATTGGTTAATCCTGATTACTGGCCCCTTTCTCT
AGCCTCCCCTCTGTGTGAGCAGACCCGGACCACAGGCTTTCTTATTTCCTTTCAGCTTCCCTTGAGACTGAGCAGAGAGAGAAAATTAGCTAAATCAGGA
ATGCAGGGAATACAGTTGCAGCCTCTTCTTCAGATGGAGGAATGCGTTTTGGGGGGAGGGACATTAAAGGGCCAGTCGCTCATGTTACAGCTCTTTTTAA
CTTCATGAGTACTAATGCCCTGAAGAGGTTTTAATGAATGCCCTCTTGTGATCAGTTCCTAGGGCAATCCCAGGTTATAAAAGGACTGCCCCTGCCTGTG
AGGGAACTGGCCTGGCTTCAGTGGGCCAGGCTGCTTTGTTATCTGTTATTGGTTTTTCCAGCTCCTCTTTCTACATTTCAAGGGATCTCAGGCCTTACCT
AAGGCAACAGTACATTAGTTTTAGAGTGGGAGATGCTCACAGTTTTCAGAAGAGTTCAGAAAGTTTCAAAACACACAGCACTGCAGAAGATAACATTATA
GCTTCTCAAGACCCCAGGGGATCTGGGACTAAACAGTGAAAGATTAATTAGGTAGCGGAAGCCACTAAGGCAGTGAGTCTTAGTTAGAGAACTTTGGTTT
AGACAATGGTTCTCAAAGGGGCAGCAACACCAACAATACCCGGAAACTTGTTAGAAATGCAAATTCTTAGGCCCTATCCTAGACTAATGAATCAGAAATT
CTCAGGATGGAGGCTGGGTGTGGTCGCTCATGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGTCATGAGTTCGAGACCAGC
CTGGTCAACATGGCGAAACCCCATCTCTACTAAAGTTACAAAAATGAGCTGGGCGTGGTGGCAGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCA
GGAGAATTGCTTGAACTCGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAA
AAAAAAATAATAAATAAAGAAAGAAAGACATTCTCAGGAATGGGACCCGGCAGTCTATGTTTTAACAAGCCTTCTATGTGATACCAATGTACTGTRAAGT
TTTAAGAACTGGTCTAAGGTAAATATTCCTGAGGTTGTCTTATATCATTACAGGGTCAGAATGCATGCAAGGAAGCCATCTGTTTATGGTTCTTGTGAGA
AGCAGGGGGCCTTTCCCCATGCCCGAGAGATAATTGTTAAGAGCTCAAGCTTGGGAGTCAGTGACCCTTTCTGAATTCTACCTCTGCCACTCAGTAATTG
TATGTTCCTGGGACCATTACTTAACTTTCCTGATTCTCAGTTTCTTTCTCTATAAAATGGGGAGAATAGTGGTGTCTACCTTATAGGGTTCTTGGAAGAA
TTAGATGAGATAATGCACACATATTGCAGAATCTGAAGAACAATCAGGGTTTAGTAAATAGTAGCTATTTTTAAATGATTTTTCCAGGTATGAGTCTATC
CTACAGCTTCAAAATTTAGACCCAGGTTGTTCTGAGTATTCTCTGTGGGAAGAATCTGCTATAGAGAAGATTTTTTTAAAGTGCCTGTCTCTTTGTTTCC
TTAGGGGATTGCTTTTGCCCTGATTTGCCACATCTCTTTACTCTGTGGAAAATGGACAGTTTATGTGCCCTAGTTTTATATGGGGATTTATATTCTTAAT
TGTCTCAAGGATTCTTACCTGTCTGACAAAACCAACTCCCCATGGAAAGACTCCATGGAGACTCCATCTCTGATCCTTCCCCAGAAAGAAAGCATGATTC
TTAAGTTTTTTAGAATCTGTTTAGGAGCACTGTCAACATGAATTTTTCTATTTCATGAGTGAGTGCAGCCTCGGGCCTTGTTGGAGAATTTAGAAAGCAT
GCTGTTCCACTAACCTGTTCAACCTCAACTTCTGCCGTTGTCATAGCAATGACAGTCCTGGGAGGTGTGTGCATATCCTTATTAGGAAAAAAAAATGAGA
TCAGGGATCTATGTGAGTGGGGCAGCTCCCGCCTGTGAGTATCCTTCGCTGTCACCTGCCATCTGACAGCCCAGGAGTGCCAGCTTGGCTTGGCTTTCTC
TACCCGAGGAAAGTAAGTCCTTTTAAGATGCACTTTTACTTTCTGGGGTTGTGAAACTCATTGTGTTTGCCAGAGTTCTCTTCGCAGCTTATGTAAAGAA
TTTGTTTGTTTTGGATTGACCTGAAGGGAGGAAGCAAGGGTGTGGGAAGGGGAATTAGCATCCCCTACCTAGGAGAAGCCATGAAGCTTACTTAAGTCTC
TGCTGGCTCCATCCATTCATGACTTTCTTCATCTTCTTCTTGGGAAAACACTCTGTACCTTCCACTTTTAATGGTCATGTAAATAAAAGACTAGAATGGA
GATGTCCTGGTTTTCTGAAATTAAACATTTTTGTTTATGAATAGACTCTAAGATAATTCTTTCCCTAGACGCTCTGTATTTTCTTGGACCTCTCATTTGC
CCCATAGTAATTATTCTAGGATTGGTGGCCTGGGCAGAATACAGTCATGGTTAAGACCATGATACATAATAGAAGAATTTCTTCCGTAACAGTAGCCCCA
AACAGAGATCACGTGTCTCCTGAAACCTATCCAGTCTCATGTGCACTCAGATGTACGATCCTGGATATAACATTTTAGAGGGTGTAGTGAGGAGAATAGA
ACAACACTGTTCTCTTAGGCTGCAGTTTCCTTCAAGCCCCACGATGGAGAGAAGCAGGCTAATGCAGGGTAAGGAAATAGAGACTTATTATAGTTTCTTC
AGTTATCATTGATTCCTTTAATATGCCAGCTACATTGAGGCAATACAGTCTGGCCTCTGAAAACCTTGTCAGGAGAAACAACTTTTGAATATATCTTAGA
AAAATAAGACACTTTATCCCTTCTTTTGTTTAAGAGTGTTGCATAAAACAGGAGAGTTTCTGAATTACCCTCCCTTCTAGCTTTCTTTATACACCATTCT
TTGTAGCTGAAGTTTTAAGCCCCTTGTCAAAAGGGAGATTCAAGTTTCTGCTGRGGACATCTCAGTGTCACAAAGGGCCAAGGAAGTAGGGTCTCACCAA
CTTTGCCACCTGACTCAGCTCAAAGGTGATAGGTCACCTGTGTGACTGAGAGCTTTGTGGGAAAGATGATATGGAGGGTGGAGAGTCTGCACTTCACTCT
GTGGGAAAAATTGCTGAGGTTGTTTAGAATTGTTAGGCTTGGAACTCCTCCTGGGAGGTGCTTGAACAAGAAAGACCTGCTTATAACCTGAGTTGAGGGC
AGAGGAGGAAGATAGTTTGTAATTCCTTTACGTTTTGTGGCTCCGGCAAGCCCTGTCCTCAGCCTCACTGACACAAGTAAACTAAAAATGAAAGTCTGTC
CTAGTGACAGCAAGGGTCTTTCATGGCAATATTTTAAAAGAAACTCTGCCCAGATTTCAAAGGAACGTGAAAATTTTATCTTCAGAGGCAGTCAGCTTTG
CAGTTGAAAAGGYCATTGCCTAATCTGGAGAAACATATTCAGTTCAAGCACTGGCTAGAGACTAGAGGCCCCCAGGAAAGGGCCRTAAGATTGGTCACTG
CCAGGAAGCCTGTCAATGAGTGTGTGGACTGGAGAGGAATCTTTCTCTGCCTCAGCACTTGGAGTCTCCGTTATTCACAATCAGAAAAAGAGGGAGAGCA
GAGATAGATGACATTCCACGTTTTTCTCGGTGAGACCAAGAGCTTCCTCAGCAACAGCCCTGCCTGAAATTGTCTATCTCCAAGGGCGTGGGCTAGGCAA
AGGATGGGAGAAGTCAGTCCTGAAGATGGTAATACTTAAAGGAAATAAGGGGGACAAAGGATGYTTGTGCTACTATTGAAACAGGAAATTGAGAGCTCTG
TAGAAGTCAGACTCAAGAGGCATAATAATAGAAAGTTAGGGTATGAAAAGGTGACTTTTAAGAACCAAATGTGGACCCGAAAGAGAACAAAGAGAAGTTT
ATTGTAACTAGCGTTGTATTCCTTGTCTGCTGGATACCAAACAATGTACCCCGGGTCTTGAGATTATCGATGCCATTGTCTGTAAAAAACCAACCAAACA
AACTTTAAAAATAAGTAAAGCCTGCCCTGTACAGAAAATCTAATAAAGCAAATTTGTTGGTGATGTTCCAAGAAGGTTCACCAGCTTGGGCTTTCAACCA
GCATTRACCCAATCTTGTGTCCAGAGCTGTTGCTGTAGGTGGTATCATGTATCAAGCTGAATAGTGAGGTGACATTCCCCAAGTCTTCTCTCTTGTCTTT
TTTGACTGTGCATCATAGATACTGTATTACCCAAGAACACACACCTGTTCGATCTCTTTTCCTATAATCACCTGGAGTCAGATGAATACCGTAAAGGTCT
GTGGTAAGACTAGAAGCCTCAGCCAGTATGAATGATTTACATTAGATGCACACCAAGCTGCTTTCGGAGAGTCCAGATTTATGGGGATAAGAGCATCACT
AGGTATATCAACAGCCCTAGGGTGGATACCTTTRAGCCTGTAAATTTGGCTCTGTGTTGGACGATGAACCATGGAATACAGAAGAAGCTCCCTTCTCTCA
GCTAAAGCCTATTAGCAAAAATAGAGCCCTGAGGACATTGTATTTTAAGTGTATGTTCCAGTGAGTGGGTCGTTGCTGGGTCAAGTTTTATAAGTCTTTA
AATCCCATACTGTTGCCTCCTGGACTGTAGAAATAGTCTCTTAGAACAAGAGAAAGGAAGACRATAGCTACCATTTATTGAGAACTGTGATAAGCACTTT
ACATATGTTGCATACTTAACTTTGAGAGAAGTACATTATTATTCCCATGTTTCAGATAAAAAAATTAAAGCTCATAAGAATTAAGTGGCTTTCTTACATT
CACACAGCTAGTAAAAATGTTTTTTGCTCACCATTGTATTCCCATTGTCAAGCAGGATGCCTRGCACACAATGATGCTCAATAAATTTTGTTAAATTCAT
TAATAAATGCAGTGGTAAAGGCAGTATTTGAACTCATGTCTGCTTGCTGCTGAACTCTATACACTTAACACATTACTATTATCTTGTCCCGCATGATACA
TGAAGGGAATAGCTTGGTAACTTGGAAAAGACTATTTACTGTCTGAGTTCTAGGCCAACTGTAGGGTGTCTGTATTTATTTCCCATTATGCTATAACAAA
TTAACCATAAACTTCATGGCTTAAAACAACACAATGTATTATCTTACAGTTCTGGAAGTCAGAAGTCCACAGTGAGTTTCACTGGCTAAAATCAAGGTGT
GTTCTTGCCACTATATAACAAGGATCCACTTTCCTTTAGTTTCCAATAACAGGCTCCTTATTTCTACCTGAGCCCTCACTGGCAGCACCTTTAATGCCAT
ATTTGTAATAACAATCTGTTCATGACAATTTAGGTTTGCTCCTCACTTTTTTCTGAGTCCTCTCTAGTAGAGCCATTAATATGCATATTGCTACTAGCAG
CCTGTTCAAGGTAATGTAGGCTCTTTCTATCATGCTCTTCAAAATTCTTCTAGACTCTGCCCATTTCCCAATCTCAAGGCCACTTCCGCATTTTTAGGCA
TTTATAACGGCAGAACCGCACTTCCAGATACCAAAATCTGTATTAGTTTCCTAGGGCTGCCATAACAAATTAACACAAAATCCCTTTTGCCATGTAACAT
AACATATTCACAAGTTCTAAAATTAGAATGCAGTCATTTTGGTGGGGCCATTATTCTGCCTACCACCCGGTCTTTCATGTTCAGGCAGAGGTGGCTCTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAAGTTAATTTCAGTAGAGAATGAGCTAGAGTAGAGAAAGAGAATTAAGGTGAGATGTGTCATGGAA
GAACAGTGACTGATGATGCTAACTTTGCTCAATCAAGAAGTGTGATCCATTTAAATCATGCTTTCAGTGATCTATCCAATCAGATAAACTACTCTCCCTT
CCTGGGAAGAGTAAGGAAGGAAGTAGAGCTAAAGATGAAAGTTCTTTTCGTAGCACATCCCTGCAAAGGATGGGAGTATTGTTTTGGTGGGCATTCCCTT
TTCTAAGAGCAAAGATGGAAATGTGGAGAGAGGAGAAAAATGGTTCCCATTACATTATTGTGTTCTGGACTTAGAGATATTGTTCTGCCCCAGGTYTAAG
AATATTGTTCCAAGAGTTGGGAGCAGGCAGCAGAGGACAGTACTCTTTAGATCACCCAGAGGCCAATCTGTAAGGATTCAATCCTGGGGCATGGTAGCTA
ATGGAAAAGTCACTGTCACAAGTGATGCCAGGAGATGGGGCAACACATATTGCCTGCCTTGTATGCATCTAGCGTCTGTGTCTAAGTGAAAGCAGATTAT
ATCCAGAACTTCCCTGRAAAATAGAAGAAAGAGCCTGATTGGTGTGTATGTGTGTGTTAGGGGTTGAGGGGTGGGTAATGTTCCTGCCAGTATTCGTAAA
TCCCACCTGCTTTTCCTGTGATGCTTCCTGTGTTGGGGATAGGAGGGTGGGATGGTTCAGGGTCAATTTTATGGATCCATATGTATCTAAGGATGTGTTT
GTTTTTTGGGAACATTTTGTATAACAACCAGTTTCACTCTAGCTCCCTCCTTGATATTCTAAACAAGCTGGATATCTCCAAAGCTTAGGCCCTCTCCATA
CTTACAGCAGCTCTGACTGGAGATTAAATCACCCCTTATACTGCTGACAATGATTAGGCCATGGGACCCATGAAAGAGCCTCCCCAGAGTCCAGCATCCC
CTGTGGGCTCCGTGTGTCATCAAGATGTCAATCCAACTGCTGTTCCTGCAGTCTGCAATCAGCAGGGCTATGTTTATTCAGCGGTCAGTGTCACATCAAT
TTCCTTCTGTTGCAACAAGTATAAATGGATTCTAAATATTTGCCTTTGGGAAATTTCTTTAGAGGGAAACTCACTAAAGCTAATTTTTTTAGCTTTTTGG
TATGTTCTCTCTGAATCTGGGGATTTAGATATATAAATTAGCTTCTTTGGTCTTTTCTTGCCCAGGGTCACAACCTTGCCTCCAGGATAATACCTTCTAA
GTGTTTGTGATTTGAAGGGCACTACGAAGATCCTCACAAAAACTACCTCCCAGCCGGGTCCCTGAAACTCCATCATTAACCACCTTCATCAGCATTTCTC
TTTTAAAATCCTTATTCATTCCTGTTCTCCTTCTTTCTTTCTCACACACACACACACACACACACACACACACACACACACACACACACGGGGAGAGAGA
GACAGAGAGAGAGAGAGATAGAGAAGTGAAGTATATAGTATCCTTTCTAGGGATGCTTTTCTTGGCTTGGCTCCAATAGAGAATTTTGTTGGGACCCTCT
ATATATAGTCGTGTACCAAATAATGACACTTTGGTTAACAATGGACCACATATGTGACAGCTGTCCCATAAGATTGTAATACCATATTTTTACTGTACCT
TTTCTATGTTTAGATACACAAATACTTGCCATTATATTACAATTGCGCAGTATTTTGTACAGTAACATGCTGTGCAGGTTTGTAGCCTAGGAGCAATAGG
CTATACCATATAGCCTAGGTATGTAGTAGGCTATGCCATCTAGGTTTGTGTAAGTACGCTCTATGATGTCCATACAACAAAAATGCCTAGTGATGCATTT
CTCAGAACATATCCCCATTGTTAAGTGATACATGACTGTAGTCATCATCAAACATTTATTAAGCACTTAGGTCAGGCCAGGCTCTGTTCTAGGTGATGCA
GATATAATATTAAATATAACACAGTCCTGCCCTTATAAATCTAATGGTGAAGGGAGAAATGTAAAGAAATATGATGGAAATATTACATTGTCATGTGATA
AGGGCGACAATAATGCCCTACGTAGGTAGGGTCAACGAAGGGGAAGGAAGCTGGGACAAACCACCAGGGCCTGTTGGTCCAGAATGGGACCCAGGGTCTG
TCTATGTTATAATCAATTCAAACCCTAGGTAAATAAGGTAAGCTAGGCTGCCTTTCTTGAGACAGTCCCCAGATTGTTTTCAYAGGGCCCAAACACTCTC
AGCAACCATGAACAGTGGATGTTGTGGGACCTCAGAAGATGGAATTGGAAATTCAGGGGACTAAGTCAGAGATTATTTGACATTTAATACTGGATATTGA
GGCCGGGCGCAGTGGCTCACACCTGTGATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATTGCCTGAACCCAGGAGTTTGAGAACAGCCTGGGCAACAT
GGCAAAACCCCATCTCTACAAAAAAAATATAAAAATTAGCCGGGTGTGGTGGCATGCACTTGTAGTCTCAGCTACTTGGGAGGCTGAGGCACGAGAGTCA
CTTGAACCTGGAAGGTGGAGGTTGCAGTGAGCTGAGATCACACTACTGCACTCCAGCCTGGGTGACAGAATGAGACCCTGTCTCAAAAAAAAATTTAAAA
TACTGGGTATTGCAGGATGGCAAGTAGGATGTGGAGAGGAAGAGAATTCCAGGCAAAGGAAACAATGCGTGCATGCAAAAACAAAATACAAAAAACTGAA
TTGTGTAGTCTGGGTTAATAAGATGAGTGCATTTGATGGATGTGGTAGAATAAAGAGATGTTAGGAAATGAGATCAGAAATGTAGACTGGAATCAGATTT
TGTAGGACCTTAAACATCCTGCTAAATAATTTGTAGTTTCATTTGTTGGCCATGGAGACCCACTAGAAGGTTAGTTGGTTTGTTTATATTTAGGAAAGAA
GATTCTTTTAAGTTTCCTTAACTCTACTGAATTTTCAAAAATCAACCTACAGCAATCCAAACTTATCTGTGGAGATACATTCCAAGACCCTCAGTGGATG
CCTGAAACCTCATTTAGTACTGACCTTTATATACATTATGTTCTTTCATAGGTGCACCTATGATAAAGTTTAATTTATAAATTAGGCACAATACTCTTGT
GCTTTGGGGCCAGTATTAAGTAAAATAAGGGTACTTGAATACAAGCCCTTTGATACCAAAACAGCCAGTCGGATACCAAGACACTTTCTAAGTGAACTAA
CAGGTGAGTAGTGTAGACGGCATGGATAGGTCGGACAGAGGGATGATTCACGTACTGGGCAGGATAAAGCGGGATGGCTCGAGATTTCATCACATTACTC
AGAACAGCTTGCAATTTAAAACTTATGAATTGTTTATTTTTGAAATTTTTCATTTAATATTTTCAGACTAAGGTTGACTGTGGGTAACTGAAGCCTCAGA
AATCAAACCTCAAATAAGGGGCGATCACTGTACTGAATAATATGTCAAGATGAGCTATGAGCTTTTAACTTAGTGTTTTTCTTCTCCCAAACCAAATATT
GGAAACTTTGGAGTGTTTAGAAAAGGAGAATCGAAAAGGGAAGTAAATGCAGCATTTTTTTTAATTGTTAAATAAAGGGCTGGGCTTGGAAATGTTCTTA
GGTAATCCTGGTGGATTTGGTATATCATGTYTGAGAAAATGTGGAGAGTGAAGGGCAGGTTTAAAATTTGTCTCATGTTAGTTTCTGAAGGGAGATAGCC
TGGCATTGCACAGTGCCTCACATTTCTATCGTATCACTTAATAATTGTGCAACCTGTGCTTCAGATTTATCAATGTATAAAAGAGGAGAGACCATAGGCT
GTTGTAAGTATTAAATGACATAATGCACGCAAAATGCTTAGAACCATGCTTAGTTCATGGTAGCCACTCAAAAATGTCGTCAGAACTATTACTACTCAGT
TTAATGCTCCTAGCACTTAACACAGTGCTTGGCACACAGTAAAGAGGATTCAAGATGTTTTTGCTAGATTACATGGAATGGTATGGAAGTGTGCAGGGTG
GTGTAGAGGGTTCTCCCATTATCTTGCCTTCCTTATACTGCAATGTGCTGACAGCACCTCCATTTTATACCCTCAATGCAAGGATATCACTACTTGTCTA
GAAATGGTTGCTCAAGGCTGAGAAGTGACAGCAACACAGAGCCTGGGATTGCTGCCAAATTTCAAGAAGCACAGATTGTAACAAAGTAAGGGGGGAGGGT
AGAGAAGAAAAGTTTGAAAACCCAACCAAAGTCAGAAGCCATTTTGTTGTCGGCTGAAATAATGCCTCATAGAGTTTCAGGTGGGGCAGGCAGTGTGAAA
ACTTTGGGAATAGTCAGTGTCAAGTTGTGGTGCTAAGGGAGGAACCCAGTAGTGCTCAGGCCTGGGCAAGTCTGGCTTCTTGGGGCCCAGCATTTAGAAA
GGCCCTGTGTGTTTTGATATTATGCTGTCACTATCTTGAAGTTCTTGATAATTTGTTAACAAGGGCCGCCTCCCCCCATTTTCATTTGGCAAATTTCACT
GGTTCCTGCAAATTATGTAGTTAATCCTGGGTGCAGGCTAGTTTTTGAACCATGTTGGGCTAGTATTCTTCTGAACCTCTATCTCTTTGATTTAATTACA
GAAGAAACAAAAGTCATAACAAATTATATCTGTGCAGGACTAAAATAAAATGAGTAGTGCCTCACTCCCTACATCCAATCATGCTTTCCAAAAGTAACCA
CTACCAATAATTTAGCGTGCATCTTCAGAATTCTTTATATGCCTACATTTTAATGTATTTTTAAATAAAATAGAATTACATTGTTGAAGTAAATATTAAA
AAATATAGCATTTTTGCATAGAAATATTTATTTCCCTCAATCCCACTCCCCTTTGGTGAAGCAACCACTGTTAACAATTTTGTGTGTATCCTCCAATATT
TTTTTGAAATTAATGAACTTTACTTTTTAGAGCAGTTTTAGGTTCACAGGAAAGTTGAGTAGAAAGTGCAGAGTTCTCATGCACTCCTGCTCTCCCACAT
ACACAATGCCCCCACACCCCCGCCACAGTGACATCCTGCCCAGAGTGGTACATTCATGACAATTGATGAAACTATATTGACATCATTATTGAAACTATCA
TTACCACCCAACTTCCATGTTTACTTTAGGGTTCACTCTTCCAAATATTTCTTGCATCACTTAACAATGGGGATACACTGAGAAATGTGTCTTTAGGCAG
TTTTTTCGTTGTACAAATATCATAGAATGTACTTACATAAACCTAGATGATATAGCATACTACACACTTAGGCTCTATCGTATGGCCTATTTCTCCTAGG
CTACAAACCTGTATATCATGTTACTATACTGAATACTGTAGGCAATTTTTACACAATGATAAGTATTTGTGTATCTCAACATACCTAAACGCAGAAAAAG
TACAATAAAAATACATTATTATAATCTTACAGGACAACTGTCATATGTGTGGTCCGTTGTTGACTGAAACATGATTATGGGGCGCATGACTATATAGAGA
TTTTCAAAAAGCAAAATGGGATAATGCAATATGTATTATTATACAGCTTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTTAACAAACACCTTTCTACGTC
AGTACATATAGATTTGCCACAATCTTCTTGAGTAAGGATATAGCACTATGTTGTATACCTATATTATAATTTATCCAATTTGCTGTTGGTATCTATGTTT
TCTAAACAATACAATATACATTCTTATACATATTTCTTATGCATGCTTGCTAGTATTTATACAGGATAAATTTCMAGAAGTAGAATTACAGAATCATAGG
ATATAAAAATATCAAATTGGCAAATTGGCATTCACGTACCTGTGGTTGGACTGCACTTGTTACATACTTCCCTCTGAGCCTTCCATCCCCACCTCGAGCT
AGTGCTATATGTCACTTAACTCAGTGACATCATCATCAACAGACTTAGCCTCTGCAGTTGAAAATGCTAGAGCAAACAGAGGAGAAAATTTACTTGTGAA
TCATAATAGCTAACCTGTACTGAACAGTTAAGCCATGTGCCAAGTATTATTCTAAGCACTTTACAAGTATTAACTCCTTTAATCTGTATAACCACACCCA
GAAATTTGTGCATTATTATACTCATTTTACTGCTAAGAAAACTGACACCCATAGGATTAAATCAGATCACACATTTAGTAAGGGCACCAGGATCTGAAGC
AGGATTGTTTGACTTCTGAGTCTGTGCTCTTAACCACTGCACACACCGTCTCTAGAAAGTTTAATGCCATCTTTATGCCAAAGTTTATCTACCTGGTTTA
TCCTTTAACACTATTATTGTATTTATTCATTTACTTGTCTTTTCCTCCCACTGTGCTGTAACTCTTTGAGAACAGGGTACTTGTCCTAATATTATTCATA
TTTATATCCCTAATTCCTAATTTAATGTCTAATTTATTGTAAATAAGTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAAT
GGCACAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAAGCTTGCACCACCACG
CTAGGCTAATTTTGTATTTTTAGAAGAGACACAGTTTCACTATGTTGGTCAGGCTGGTCTGGAACCCCTGACCTCAGGTGATCTGCCTGCCTTGGCCTCC
CAAAGTGCTGGATTACTGGTGTGAGCCACATGCCTGGCCTTGTAAATAATAAGTTTAGTTGAATAAATAACAATGCCTCCGGGAGGTAGCTATTATATCC
ATTTTACAGATGAAGAAACTGTAAGTCAATGTTAATCAAATAGTATCCTAGAAAATAGTAGAAAGCAGAATGCTGGAGCTGAGATTTGAACCCAAGACTT
TTGATACTTCGTCCAGTGTGCTTTCCACCATGCCTAAGTAGTCTCCTTCACTTCCTCCTTCAGAGGGCTATGGAGAGTAACCTAGCAACCATTTCTAAGC
TGGAAAATGTCACAGCCGGAAGTCTTCAGTCCCCTAGAAGGAAAAGAGCCTGATGGGGAGAGGGTCCTTGGAAAAGAGAATTTCTGGAAGTACTACATTT
GAGAATAGGTGGTTAAAGTGGGAGTTGGATTAGTAAAGGAATACTGCATAGTAGTAATACCCATTCTTTATTTCAGAATTTCTTCATGACAGACATTGAT
CTGTGTGATTTATAAGCCTTGTCTCTTTTTAATGTTCACAATCCCATTAGATGGTTATTGTTATCTTTGTTTTGCATATGAAAGAATGGGAGCTAAGAGG
CCAAGTACCTTGCCTCTTATTCGTTCAACGAATAAGTGGTGAAGCAGATTCCAACTCAAGTCTATGTTACCCAAGAACCTACATTTTAAGCATTTTGTTA
CCCCCTGGATATGACAGCCAATGAAGAGGGGGTATTTTGAGAAGAGACTATAAAGGGAAATTGCCTTCCCTACATCCTGGGGGACCTTATCAACCAGGAA
ACAAGGTAGAGAAAACTGTGCAGCCTGAGCCCTGCTGGGTTGCGGGGGGCTCACAGAAAGAAGAAATGTGATTTTTTTTTAGCTAACTACGGAGACCAGC
CATTCCAATGTTTGAATCTGGGTTCGCAGCACATGATGTCTTTATACTCTTAACCTAGAAATGGCAGAGTTATTTTGGGCACAAAGCAAGAGCTGTGGCT
TTAAAAATATGCCAAGTGTATTTATCTCTTCCGCTCCAAGATTACTGAAAATTAGCCCAGCTGTAGCTTGGGACACCAAACAGCCAAAAAATCTTCTTCC
AGCTCAACTCATTCCACCCAAAGAGGGTGAAATACCCAGGAGTAGCAGCTCTAGCGGCCTCTGGGTAGTGGTATTAGATTGGCCTCCCCATTGCTAAGCC
TGACATCCAATCACACACACACCACTCTCCCAGCTGCTCTGTAGATCACAATGCTAGGCCTGTGAATGGAGCTCAACTCCGTCTCTTCCCTCATCCCCAA
GGCTTCACAAGAAGTAAACAAAACAAACAAAAACTATTTGATTATTGAGCCAAGGAGTCAATGTGAGAATAGTTTTTCACCTTCATTATCAAAWGCCTGT
GTGGAGCTGAATGTGGTGGCTGACACCTGTGATCCTAGCACTTTGGGGAGGCAGAGGTGGGAATATTGCTTGAGGCCAGGAGTTCAAGACCAGCTTGGGC
AACACAGCAAGGCCCTATCTCTCTCTCTGTCTCTCTCTGTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTATATATATATATATATATATATATTTTT
TTTTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTTGCCCAAGCTGGAGTGCAATGGTAAGATCTCGGCTCACTGCAACCTCCTTCTCCAGGGTT
CAAGTGATTCTCMTGCCTCAAACTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCA
CCATGTTGGGCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGG
CCCCTATCTCTGTATATTAAAAAAAAAAAATCTTAGCCAGGCATAGTGGCGCACACCTGTATTCCTAGCTACTCAGAAGGCTGAGGTGGGAGGATCACTT
GAGTCCAGGAGATCCAGTCTGGCAGTCAGCCATGACCTCACCATTGTACTCCAACCTGGGCAACAGATATAGACGCTGTCTCTAAAAAAAAAAATCCTGT
GTGATTTAGGACAAATTATCTTGCTGTAATTTAAGCCTTCATATTCCTTTTTTATAAAATAAATATGCTTTAAATATGTATTTAGATATACACTTATAAT
AATAGCTTTAATTAATTGTAATTAAATCATTTAAAATTAAATACATGCAAAATACCCCATAAACTGTCTAATCCATAATAAGCAATCAATAGTCCTTAAA
CAAATGAATCTTCTGTTGCTCTGATCTTAATAAGTAAAATTTAACGAGTTTTTACTTTGCACCATGCACTTATGCTATGTGCTGTATAAGGATAGTTACA
TTTAATCTATAAATCAACCCTATGGGGCGGGCACTCTTAKGAACTTTTTTTACGGATGAAAACTGAGGCCCAGAGATATGAAATAATTWGCCAAACATCA
CCATAATTTACATGATGTAGCCAGGTTTAAGCCTACTATTCTGATTACAGAGCCTAAGATCCTACAGAGAACAGGGAGTATATTTTTACATTCCCTTGTT
TCCATGGAAAAGTCTTTCCACTGTCAATTGAAGGACTAAGCAGCAGCGGGGAAGTGCTGGAAATGCTAGCCCAGGTGGGCTTAGCTTTCTCCCTCTCTCT
CTGATCCTGGACAGGATTTGGGTTTCAGACCACGATTCTCCTGTGTTTTGTGGGCTGTGATTACTCAGATTAGGTTTGCCCAATTCATAAAGGACTGGCG
GGGGTTGGGGGTGAAGGTGTGGGAGAAGGCGGAGCTTGTCCAGTCGGTCCAACAAACCCCACAGATGGCGAAATAGGGGGCGGGGAAGGAGCTTGAGATA
TTTTACAACCTGGGCTGTTTCAGTGGTTGATGGCGGATGGTTTTTGCCTTTTGGTCAGCCTGAGTATATACTATCATTCTACAATCGGCCAAATTCTGAC
AGAGAGGGAGACAGAGAGAGAGGTTGATTAAATTGATGCCCAAAACCAAGAAGGAGCAAAGAAATCGGGGCTGTTTGAAAAAGACTGCAGTGGCTGACTT
GGGTGGTGAGCGGAAATAAGGAGGAGGGAGAGGCGGGGTGTCTCTGCGCGGAAAGCCTGGAAGTTCACTTGCAAACACAGAATCTGCACAGCCTTCGGTG
CCCTGACTCTTTCCTGGGCATCCAGAGGCAGCAGCAGCCGCCAGCGCCAAAGAACGAGCAGTCCAGGGGCTGGGCCGGAAACGGCTATAATCATTTAATA
GCCTTTGCCGGCTGCACTGACTTAGCAGAGTGGGCGGTAGGCAGGCTCCAGAGTGCTGTCTGGCAAGATAGTCCCCGGCTTTAATCAAAATGATGGGTTT
TCTGGAAGCTCTTTATTAACCTCAGCACTGAAATCCCAGAGCTGGTAACAAAGGGATGAATGGGGAGCAAAGGGGCGGGGCCGAAACCTGGAGGCCGGGC
TGCATCCGCACCCCTTCCCCCACCTCCACTCCTTTCAACTCATTCTGGCTTAGGGCTCCTGCTGGCATCTCTGTGCCTCCCAAATAGTAGTAACAAAACA
GGCAATAACCATAATAATTGGCACATTTGTATAACGCTTTAGCATTTTCAAAGGATGACCTTGTTATACAGCTCAGGATCTGAGTCTCCTAGCTGGAGTC
AGACTCCCTAGATTTGAGTCCCAGGATCCACCAGTTAGTGACCATGTGACCATTAGTCCTTAGTCCCCTCATCTATAAAACAGACACATAACACAGACAG
AGATACTAGAAATGTCTACTTCATAGGGCTCTTGTCAGGACCAAAACCTATACGACGTGCAGATTTGTTTAACTCTGTTGCACACACATAGGAAGGGCAC
AGTAAATGTTAACTACATCGACAACCCTGTGATGTAGACAGGAAGGGGATCATCTCCATTTTATGGATGAGGAAACTGAGGCTCAGAGATATTTATGTAA
ATGGCCCAGGACTATGCACTAGTGAGAGAACCAGGGCAAGTCCTCAAGAACAGAAAGAGAACAAAGCAAGATGAAGAGAAGATCAGAAAAGTGAACACCC
TCCAACACCCTCCAGCACATGCCCCTCTGAGAGCTTTCCTGAAAATAGTATCCTTGGTCAAAATGAGTTTATGTTCTATTAGGGAAAGTCAGTGTAAATC
AGAAAAGCCCTCCTGGCCTTAACAGAACAGTTCCAAATGCAGATGAGGGTGAGTTTAACAGGCCTGGCATTTGCTTCACAATCTTCTGGCCCTTTCCTGG
CATTTGCCTTGGCAAAGACTCTGACCTGATCAATCCTAGTCCCTGAGGCTCAACTCCATCAACTCAGGCAGCCAGGGTTAGTTTAGCATGAAAGAGGAAA
GCTGGAAATTTTGCCAAAAAGATTCCTGGGCAGTGCCTAAGGGAAGTGCCCAAATTGGATTATAGGATTACATGAAGTGGCCAGCTACTTCCAGAGGGCA
GGGTTTTTTGTTTGTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGAAACCTCCGCCTCCCGGGTTCGAGTGATTCTTATGC
CTCAGCCTCCCAAGTAGATGAAATTACAGGCGTGCACCACCACAGTCTCGCTAATTTTTATAGTTTTAGTAGAGATGGGGTTTCACCATGTTCCCTAGGC
TGGTCTTGAACTCCTGGCTTCAAGTGATCCACCTGCCTCAGACTCCCAAAGTGCTGGGATTTTAGATGTGAGCCACCATTCCCGGCCCCAGAGGGCAGTT
TTTAAAGTAGAAGTGAAGATCTGTATGCATTTATTAAAATATATGTTGTTCTGATTTTAAAATATATCCCTACCAATTGTGAAGATATCGGCTAATCCAA
TAAAAAAGCAAAACCATATTTTGTAKAATTATGGTCGTATTCTGTTAAATAAACTTTTAAATCCTATTGGGTTGTAATCTGTAGTCTGGGAAGGGCTCTG
CCTAACGATTCAGACCCCTACCAGATTTATATGTGTCTGAAATCCTCCTTCTAGCCTCTTAACAGGCCCATTCATTTGGGTCTTGACTGCATCCTCAGTC
TTGTCTTTGCCTGAGGGTGAGCTAGGACCCTGGGAGCATAAGGGAGGGGACTTGCCGGAGATCCTAGAAGGGAAAGGAGGCAGCACTGAAAGAAGAAACA
TTTCCTTGATTGATCATTTGCTGATACTGGCCCCTGGTTGGGGTTAGGGGTAGAAATGTGCTTCTTCCGTTTTCATCTTCTTCAAAAGGGAGTATCTCCA
TGATTCTGCCCCAAAGGCATGACATTTTATAGGCAAAGCCAGCCAAGTGTCTTGAGTGCTCTTAACCAAAAGGAATTCAGATTAGGAGGTCAGTCAGTGT
TTGTCAGATCCTTAAGCTTTTGTTTTACTGGAATGAGTCACAGTCTACATGCTGCTGAGCTCTCAGAGATGTTTGTTTTATACAACAACCAGAACAGGTG
AGGCACAGTGGTCTGTGAGGGACTGGAGAGACCACACCTTGTTCTGCTCTGCGGAAGCTGGACATGTGGAGGAGGCACCTGACTAGATCTCTGCCTCCTG
GAGTTTAGGCTGAGTCATATAGAACCAGGAAGCTCAGTGACATGTTAAAGTGGATTAACTCTTGGCAGTCCTGCTGTGAGGGGCTCCCTCTGCCAATACA
CACAGCCATTAATGTCCTTTAACTGTGCAAGATGAACATATCTCTGTGTTCTGCATCTCCAGATGACAGTGCTTAGGCCTCATGCAGAGTCCTGGTTATG
GTTGAAGAAAAATTTCCATTTTGGGCTCTGAGGGCAACTAAAGGACTGTGGAGTGGTGCTGAAACCCAGTTTTAGGTGCCGAATCAGAGGTTTTTAAATA
CATTTCTCTCTTTTGTCTCAGTCTCTTAGAGACAGGACCTGTATTTTAAAGGTAAACAGGCAGATTCTGGCTGAGCTCAATTGCAGATTTGATTAACTTA
GATAGATCAAAGTCATTAGTCTCAGAGAAAAAATTTGTTTCTCATCCCTAAAGTGCTATTGTGTCAGCTCTGCCAGGGTGTAAGGAAAAGGGTTTGGAAG
AGAGAAGAAAATTTCTTACCCTCTCTCGTCACTGCCTGCTGTAAATTTGCAGTATCATTATCTTGGTCTCCTAAGCCCTGAGAGCTGCATTATATATAAT
TGCCCATATGTGATACCATTTACTGAATTCTTGCATTGTGCTAAGGATCAAGCTTAGTACTTTACATGCATTACATCATTGTCTTTAGGGACCCCAAAAG
TGCCTCATTGGAGAGTTGTTTGGTCTGCTAAAGAGTGGGTACCACTTTCACTTCTCACATCAGTCCTTTCATTCATTCATCCAGCAAGTATTTACTAAAC
ACCTGTTATGGGCCAGGAATTGTGCTAGGCACTGGTGATACATTGGTGAATAAACAGATACATTTTTTGCCTTTGTGAATCTTACAGTGGTAGAGAATAA
TAGGCCAAGGGGGTGCTGCTTGGCTAGGAATGTCATAGAATGCCTKTCCAAGGAGGTTACATTTAATACAGACTTGAAGAGTGAGGAGTCATGCTAAGAA
TGGATGAGAGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGACGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAA
ACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCGCGTGCCTGTAGTCCCAGCTACACAGGAGGCTGAGGCAGGAGAATGGCGTGAACC
CGGGAGGCGGAGCTTGCAGTGAGTCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAA
AAAAAAGAATGGATGAGAAATCATTCAAGACAAAAGCAAACCAGATGTGTAAAGATCCTGAGGCAAAAACAACTCCAAGGAGCCAGGTATGGTGGCCTGT
AGTCCCAGCCACTTGGGAGGCTGAGACAGGAGGGTCGATTGAGTCCAGGAGTTTGAGGTTACATCAAGCAATGATTGCACCACTGCACTTCAGCCTGGTT
GACAGAGTGAGAACCTATCTCTAACAAACAACAATAAAAAAACAATTCCAAAGAGTGTTTGAGGATCTGAAAGAAGGCCTGTATGGTTGGAGTATAATAG
TAAGAGGGAGATTTGTAGATGAGAGTGGAGAAGAAATAAAAATCAGATTATTGAAGGGACTTATGTATCATGGTAAGGAGTTTTTTTTTTTTTTCTCAAG
GCAGTAGAAAGCTTAAGCAGAGGAGTGATATAATCTGATTTATATTTTTAAAAGAGTTTGCTATATGTATGTTATGCCTCATTTTTTTTTAAATTTTTTA
TTTTTAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGACTGCAGTGGCACGATCTCAGCTCACTGCAAGCTCCACTTCCCGGGTTCATGCCATTCTCCTGC
CTCAGCCTCCTGAGTAGCTGGGACTATAGGCGCCCACCACCACGCCCGGCTAAGTTTTTTCTATTTTTTAGTAGAGACGCGGTTTCACTGTGTTAGCCAG
GATGGTCTCAATCTCCTGACCTCGAGATCTGCCTGTCTCGGCCTCCCAAAGTGCTGGGATTACATGTGTGAGCCACCGCGCCTGGCTGTTATACATCAGT
TTTTAAAGAGAGACATTAAGAAATAAAGATGACTCTGGCTACTGTGTGGAGGGTTGGAGAGAAGCAAAAGTGGAAGCAGACTGAATAAGGAGACTATTGC
TGCAATTCATATAAGAGATGATGGTGTCCTGAAAGAGTGGTGGCAGTGAAAATTGGGAGAAGAGGACAGAGTCAAGATATATTTAGGAGGCAGAAATGAC
AGGTCTTGATGATGTATTATAAATGGAGAATGAAGAATAGAATAGAGAAAAATGAATAATTAGCTTTGAACTTTCTGGCTTGAGAAATGGGGTAAATGGG
GTGTAATTTACTGAAACTGGAAAGATTTAGAAAGGAATAGATTCGAGGAATCAAGAGTTTGATTTCAGATTTCTTCAGTTTGGGATGCCCATGAGATTTC
CAACTGGGGATACCAGATAGGCAGTTATACATGAGATTGGAGCACAGAGAGATGTGGGCTTAAAATATAAGTCTGCATCTCATCAGCTTATTCATATGGT
ATTTATATCTATGGATATGGCTGAGATCCCAAAAGGAGAGAGTGAAGAGAAAATAGAGAAGAGAGTCTAGGGCCAAACCCAAGGAAGCTTCAACACACAG
ATGAGGAGACTGACAAAGGAAACTGTCAAAGAACAGTCAGAGAGAAAGGTCAGGAGAATGTTTTGATGGTGGGGGCCAGAATATGCTGTCCCAAAATAAG
AAGGATTGTTGAGCTGAAGGCAAGTTAAAAGAAGCAGATACAGGCTGGGTGCAGTGGGCTCATGCCTGTAATCTTAGCATTTTGGGAGGCTAAAGTGGRC
AGATTGCCTGAGCTCAGGAGTTCGAGACCAGCCTGGGCAACATGATGGAACMCCATCTCTACTAAAATACAAAAAAAAAAAAAAAAAAAAAAATTAGCCA
GGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCACGAGAATTACTTGGACCTAGGAGGCAGAGACTGCAGTGAGCTGATATCTCG
CCACTGCACTCCAGCTTGGGCAACAGAGCAAGGCTCTATCTCAAATTTAAAAAATAATAATCATGATAATAATAAAAGAAGCAGATATAGGAGAGGTCTT
CTGCCCTCCCTGTATTTGCCTAAAAAACCATAAATTTACAAAGACAAAAGTTATCCTACTTCCACCTCCCTCCTCTGCCTCCCACCACCAGGGAGAACAA
AGGTTAACCACTGAAGATAACTTTGGACTCTTATTGGCCTGGAAATGGTACTGCTTTACAAATTAGCCTTTATCTGCCATTCATTTGCCTTCCCCCAAGT
AGCTACCCATTAGAGACTCAAAGTCCTTAAAGGTCTTTTCCTTTGTCTTACACTTCTTTAAAAATTTATTGTTCTTTGTTGAAGATGCTATATAAGCTGG
AATTCTAAGCCACCTTTTTGAGAACTGCTCATTCTCTGGGTGTCTGTCATGTATATATGAAATGTACATGTTAATAAACTTCTGTTTCCTTTTTTTTCTT
GTTAATCTGCCTTTTGTAACAGGGGTCCAGTCCATCTAAGAACTTATTGGGGTTATTCTACATGACAAAGAACTCATGAGAATAAGTGTTTCAAGAAGGG
GATGACAAATGCTGCTGAGAGGTTTGATAAGATGAGGACTAAAATGTGACCATTGATTGTGGAAGTAATATAATGAACTTGACATGAGTTATGTTAGAAA
ATTACTGCTCAGGGACACCAAATTAGAGGAGACTGAGAAGTAATAGGAAATTGAAATAGCAGTTGTACCCAACCCTAAACTGTAATTGAACATAAACAGT
TTATTTGATGGAGCTTTTCACGTGTCAACCAAAGGAGCAGTGTTAGATACATAAACATTGCTATGATGTCAGAGTTCCAATGTCATGGCCACTGGGATCA
CTTTGCCCAGACAGACCATTACCCTTCCTCTCCAGCTCTGACTTCTACTCTTCTAGAAGTCACTGGTATACTTTATGGTGTGTCTTCCAATCAGACTCTT
GGGAATGTCTTTTATTGAAAACTCCTGTGGATGCATAATCATTTTCCCAAGACTCAGGGCAGATTTCACCTCCTCTGGAACCCCATTAACTTTCTCAAGT
ATAATTAACAATTTCTTCTTCTGGAGTCCCACAATACTTTACATATACTTTAGTTATTGCATGTATTAAGTTRGTTTCTAGTTGCTTGAGTGTATGTCCA
ACTAGACTGTGAGCACACTGAGGGAAGGAATTTGGCTTGGAAAGTAAAATTGGCTCCCAGTGTTTTATCTAAACAAATAGGCTCAATTTACAACAGGATT
CCATCCTCTTACGCTGTGTATTCCCATCTCTTCCATGCTGCATCCCACCACCCTTCAATGTTATTACAATAAAATTAAGATCAAATAATTTATTCARCTA
ATTTTTCTTGTTTTGGACAAAATAGACATCCTAATACATTTATAGCCAAAGTTTAATCTAGACACTAAAAGGAGCATATTTTGCCTTTAGGCTCTGTATT
TCCCATCCCGTTCCCAGTCAAGATAATCACAACTGTATTCTTTAGGAAATTCTTCACAAAGAACCAAACATATGTTACTATGAAACTAGATTCTTGGTAT
CCTGGTGAAAAAACCTGCCCTCTTGCTTGTCTGTAAATACTGGCCTTGGCTGGGTGTGGTAGCTCATGTCTATGATTCCAACACTTTGGGAGGCCAAGGT
GGGAGGATCTCTTGAGCTTCAGTGTTTGAGACCAGCCTGGGCAACATAGTGAGATCCCATTTCTATAAAATTTTTTTTAAAAAGCTAGCCTGGCATGGGA
GCTTGTGCCTGTAGTTCCAGCTACTTGGGAGGCTAAGATGGGAGGATTGATTGAGCACAGGAGGTCGAGGCTGCAGTGACTGCATTTCAGCCTGGGTGAC
AGAGGGAAATCCTGTCTCAAAAAAATTAAACAAATAAATAAATAAGTAAACACTTGCCTTGCCCTCAGACTTGAACAAACAACTCGTGATTTTTCTGGGG
AGGTTCAGCCTGCCTATGCAGTACTCCTGTACTCTACCAGCAGTGTGGCATCAAGAGCATGTGTTGACCCTGTTAATGATTTGTAATGTTTTGTCTTTCA
GAACCAGAGGCAGGAGAAGTGTCCCCTCCAGTCGGTGCGGGTGTCAACAGCAACAGCTGGACCTTTAAATACGGACCAGGCAACCCCAAACAATCCGGTC
CCGGTGAGTTGCCCGMCAAATTCATTATCCCAGGATCTCCTGCAATCATCTCCATCCGGCAGGAGCCTACTAACAGCCAAATTGACAAAAGTGACTTCAT
AACCTTCGGCAAAAAGGAGGAGACCAAGAAAAAGAAGAAAAAGAAGAAGGGTAACAAGACCCAGGAGAAAAAAGAGAAAGGGAACAGCACGACTGACAAC
AGTGACCAGTGAGGTCCTCAAATGGRAACAAGCCACTTAGCCAGTTTTTGTAATAATGGCAAATCTCTCCCATGTAGCAATTCCCTGCTCCTTTTTCCTA
TCTACATGAGCCCTCTTAGAGACCTCAGAAATCTGCAGAAAGTTCCCTGTGTCTGTCTAGAACGCATTTAACAGGTTTTGTCGTAAAAGCTTTACTAAGT
CTGGTGTTAACTCTTTCTCTCCACTCTGGCTTGTTTTCAGAACCTAAAAAGCAGACCCAAGTTTCCTTTCTCCTCCGCCGCAAAGGAGAGGCTTCCCAGC
CCCGCCAGTGAGAGGTTGGACTCTCTGCCCTGTGCTCCGGGGATCCTGTCTTGATGACACTTGCAGGGCAGGCTGAAAAGTTTTGAGATTGAGCAGCTTG
GGAGTTTGTGGCCACTGGGTATGTGTGGCTACCGCGGGTATGCGAGTGCCAGATATTGGCTGAGACGAGCCAGCTTAGACTAATTGGTACAAGGAAGGCA
AGAAAACAAAGACAAATAAACAGCGGAAGTTATCAGTATGGAGGGGAAGTGTAAACTTAAAGGGACCAGACTTTCTAAATCTTACAACTCAAGAGGTGGC
AGCCACCCTCTAGGAGACAAAACTACCCCCACTGACAAGGCTTTAGGAGACCCTAAAGTCTGTTGGCTGTGACGTCATTATACCTAAAATCTGCATCATA
CCTGCAAGCCAACAGTTCAGTGTTTTAACAGAGAACCACCCTGGGAAACAGAAGCAGATCTGATGTGTTTCCTATACATGTCCTGTGCTCACTTTATTAA
AAATTCTTTTGCACACAATGTTTATGAAAAGGCCAGATCCTTTTCCAATACTTATGCAAAAGCAAAAGAAAACCCCGACACCTCACCTTTCGCTGTTTGT
TGTTTCATAGATTTATTTAAAAAAAGAGAAAGTCTATAGCTATAAATCTTTAAAGAGAAATATGAATACAATTCCCCTAAACTCTCCTCAAAAGAGAATT
CAGTCTACAGCCATTTAAATGATCATTGCTGCTACAGAAGTGCTTTAAGAGAATTGCCTGAAACATCTGTATTATATCGGCCACCTGCCAATCACAGCTT
TACTCTTTCAGGTCACTCTGGGGCTGCCTCTTGCATGTATTACTAAATAAAATGATCTCTCTTTCTCTCTCTCTCTCTCTTTTCTAAGAAACAATTATGT
GCACTTTGATACACAACCTTCTCTAACCAACTATATATCAAGACCCAAAAATTGAAGAAAAATATTGTTTTCTCATACAGTGAGCAGATTTTTCAATCTA
CTAATTCTGTGACTTGTCTTGGTGTGCTAGCCTACACCTTCTCTTTGGTTTAGTTTTCCTTTTCTATAACACTCTGAATTGCTAATCTTACTAACACCTA
TGATGTTACCTKAAATCAATCTCCCATATGTATGCTGTATGCTATGCTAAGACTCCTGAAATATACTTACTCTGTGCTTGTGTATGTGAATGTTAATGCA
ACTATTACCTAGAGTGAACTTTAAGCTTTATTGTTGAATGTAATTCCATTATATTTCCTTTTGTACACCTGTGAAAAAGTGGAGTAGTGTTTTTTTAACC
ATTGTTAATCAGCTTTTGTGTATGAAAGACACAGTAAAATTTCTTTCTTAAATCAAGATACTGGTGATTCAAGGAATTTTATTTATGGTCCAGCCAAGAG
CCATCTCGTGCCAAGACTTCTGCTGGCAAGGGAATGGATAAAGCTGTTTTGTTCTAGTAACAATTTTGGAATGAATACTGACAATATTCCATGAGGGTGT
GCAAGCACAAATTTTACCAATCTGACCTCTTTGAAGTTGCAGAATGCTTTGAAATTCTAATGGTATCTGAAATATCAGCTCATAGAAAGTAACAAAATTT
GCTGTCACCTTAAATAAGACATTTTAATTTTGTTATAATGTACAATTTAGAAGTTTGATTAATTRTATTATCTATTTAGGCATTAATATAAAAGAGGTAG
GAGTCTGTTATTTAAAAAAAGCATTAAATTTAAAAAAAAACTGTCTTGTCTACTTTTAGCTTCATTCTCCCATATTTTGAAGGGTGTGTAACTTCAGCTC
TGCAGGATTGCATGGGGTAAAACTTGTTACCAACACATGTGAACCATTGCTACATTGTAGGTTGTGATCATTTTGCCCCACTGAAGCCCATGTATCTGAC
CTTACGTGCCTTTTGAACTAGGAGAATCGGGCTAATTTATTAATGATGATAATTATAATGTATCTGTACAGCACTTTTTACATTTGCGAAGTGCTTTCCA
ATCCATKTTAGTTACTAGTTATTACAGCTGTAAGGATAAAACACGTCATGTGGATTCATTTTGAATTGGTGCTATTGGTATTTCCTCTGTTATTGCTAAT
AAATGAAAATGGTGGTATGAAAGAAATGGTGGTCATTTCTAAGAATAGGAGGAAATAGAACACTGATAAGCAATTAATACTGAAGAAGATTGCTGCAGTA
TGAAACTCACTGTAACACTCTCTTATCACGTTAGCTTTTATGTCCATTACTAAGGCAAAAGCCCCAGTGGAATCAAGATTCAAACTTCATATCATTAGAA
TGGGCAGCCAGGAGGTTGCTGCGTCACTTTGTAGTTACACTATTTCAGTTTTCTCTAATAAGAATTGCAACAAACCCATTTTTATCACAAGAGCCCTTCT
AGGCATCTTTTTCATTACTTGTTTAGCCCTTGCACCTCTCTACAATTGGAAAGCCAAGTGACACCCCAAAGAAATGAACTTTTAGGTCAGGGATAGTGGC
TCTTGCCTGTAATCTCAGAACTTTGGAAGGCCAAGGCCAGAGGATGGCTTGAGGCCAGGAGTTCAAGATCAGCCTGGGCAGCATAGCGAGATCCCATCTG
TACAAAAAGAAATAACTTTTATTGAGTACAGGGTGTATGCCAGCCACACTACTGCATAGGTTCAGCTGTGACAAATAGATTGTTTTGTCCTTTTGTAGTT
AAATTTGTATAAATATAAGCTTTAGATGCTGTAGGTTCTCAGTTAGGAGCAATTTTGCCCTCCTGGGGACATTTGGCAACGTCTGAAGTCATTGTTGCTT
TTCATTACTTGAAGTGGAGGGTGCTATTGGCATCTACTGGGTAGGGGGCAACGATGCTGTGAAACACCTGGCAATGCACAGGACAGCCCCCTATAACAAA
GGATCTTACAGCCCAACATGTCAATGTCTCAAATCAAGATTGAGAAACCTTGAGATAGAGTGACCATATAATTTGTGTAGTCCACTTTTGAAATGGAACA
GGAGACACCATTCGTTATTACTTCAGGATTCAAGATGTAAACTGGGACTGTCCCAGGCTAACTGGGATTTATAGGGACTCTATAAATAAACTGGTATAGC
TGTGCCACTAACTAGATGGGGAATTTGAGGCAAACCACTACTTCTCTCAGTTTTTCAGTCATCTCTAAACTGGTCATAATTATAATACAGACCTTATAGA
TTTGTGAGGTAATCTTAAAAGGTTTTAGCAGGTCTGGCACACCATAGTACTCAATAAATATTATTATTTATTAATCCTTTTCTTCCATTTCCTTACCCCC
TTTTCAGAGATTTAGCTATTAGACCCAGGGAACTTTTCCTACTGACTAAAATGTGAATGAGGGATGGCCAAAAAAATCAACATAGTCTTGGCAATAAAAA
TATTTTATTTACTCCTCCGCTCTTTTGCTCACCCCAGGAGGAAAAGAAATAAAGTCAGTTTCATAACTCCTTACCTATTTCTATCATAATAATAATCAAA
TCCCTAAGTAGTCAAGTGGCCAGTCTGTTTGCAGCTATTTCACCTCAATTATTGGTGATCTGAAAGCCAGAAACCAAAGGGTTTGAAGTACAACAGCTTG
AGAGAGAAAGAGAAGAGTCACCTCCAACAACTTCTTTCGGCAGATGAGCAAAACAGAAATGCCAAATTACCCACAGACTTGCCTGGGATTTCACAGGCAA
TAAAGGACAAGACAGGTGCATCTCTCTCAAGGGTCAGGCTACTTGATATAAGTCTCACATATACAGAGTGCAGGATTCATTCTTTAGAAATATTGCAATT
GATCTAATTTTAAAGGATGAGATTCTCCAATGAGTGTCTAGAGCCTTGGCTTTGAATTTTAGGCTCCTAGGTAAGATTGTAAGTGCCAGGATCTCATGTT
AATGTATTTTACGTTTAAATTATAAACATTATGTTTGTTATAAACCCCAATCTAAAGTACAAATGTAACTGACCAAACACTAATGCAATTTTACTGTTAA
ATCTAGATTTAAAAACCATGCAAACATTAAGAGATACAATAAAACAAGTAAACAAACAAAACTACAGATACAGTTCCTCAAGACTTTCAGTCCCTGGAGC
TTTTCCAGGAAATGGAAATGGAAATAAGTTGGCCACTCTTTGACCTATTTCATCATATTTTCATGTGCTTCCTTTCCTTGTAGAAAAAGCTGATTATGTT
ATTTCCCTCAAAATTACCTTGACTGTTGGCTGGCAGGACACAACTTGCAACCTGAGAAATTTCTTCTGGCTTTATGCACACACACACACACACGCGCACA
CACACACGCGTGCGCACAGTCATACGTGCACACACGCGTGCACACACATGCACACGCACACATGCTGACACACATGCACATGCACAGAGGTTCTTACTGT
AACTAGGAGGGGGCTTTAGCAAATGAGCATGGTGCTGTCCTCCTTTTGAAACTGTGCCTAAGAGTGGTACATAGCAACCTTTTTGTTATAATCAGTCAGG
TAAAATGTTTGCTGGGTCCCATTTTCTCTTGGGGTTGATCCATTGGGAAATGCCTGCTGACGTATGAAATCTTAAAAGTTTTTTGCCTAATAAAGTCTAT
CACCTTGTCTTTGAACTTAAGCTCCTCTGAGCTGGACACTAGTAAATTTACTTTCATAATATGAGTCTAGTTTGCATAAAGAAATAAGAAAGAGTAGGTA
GTGAAAAACATAAAGTCCAGCATTTTGTTAGGTTACACAATTGTCGGGTGACTTGGGGATCATCAATCCACAAAGAACATGAGCAAGTCAGACAACCACT
CAGCCAGTAGCTGGTCTTAGAGCAGAGCTAAAACAATTGGCACCCGAAGCATAAATATATGGGAGACTGACACAACAGTTCTCGTTTTAGAGTTTGCTTT
CACTAGACTTACTTTATTTAGTTTTATGTGAAATTGAATTTTTATTATAAAAGGTAATACGTGTTCTTTAAAATAAATCAAATAAACCAGAGATATATAA
AGAAAAATTATTAATCTCACCATCTTCTTTCAATTCTCTCTTACATGGGTATCCAATTTTAACAATTTCAAATGTGTTTCTCTGCATTTTTCTCTATACA
CACACATTTATATCACATACACATAGTTTTAAAAATAATTGTTTTCCTTTTTTTTCTTTGAGACAGGATCTCACTCTGTTGCCTAGGCTAGAGTGCAGTG
GTGCGATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGTGTGCCACCAGGC
CCAGATAATTTCTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCCGCCTCGGCC
TCCCAAAGTGCTAGGATTACAGGCATGAGCCACCGCGCCCAGCCTGTTTTCTTTTTTATATAAAAACAAAATGATGCCATGCTTGTTGCCCTGTAGATTT
TTCTTTTAATTTACAATAACATGAAGATTTTTTTCAGTTCAACTCTACATCACTCTTTTTAATGCCTGTATAAATTCCACATAATGGCCAGATCATAATG
TCATAAGGCATTTAATTTTTCTAGATTTTTGCTACTCAAAACCAAAAATAGCACTTGTTCACAATTATAAATTTAGCACCTGAGCTTTATAAAACCTGGT
CTAGGTGTATTACAAAAAGGACGTTTGGAAGACTATTATGAACTTTATGTGACTCCCTCCACAATAATCACATTCCTTTACTGGAACTCACTCAGTTCTA
GTATTCAACGTTGAATTGTGGCTCTATTTGTAGATGAATGGTGAAAAACAGACATTCACAAGAAAAACAGAAAAATGTTAGAAAGATATGTCTTCATTTA
CTTATCCAGAATAATTTCATGGGAGCTTCATTTCATCCAAAGACTTCTCCATTCAATCACAGATTGAAATGTATGTATGAAAGAAGAAGTCTCAAAGACA
ATTCAAATACTTGCTTAGACCTGTGATATTTTAATATAATCTGGTTGAACATTGGGTAGAAAGCAGTCTAACTTTTTTCTAGGTTGTTACATGTTACCTG
AGGGTAGACATATTAACTTTGTACCAGTGGAGCTTATTTCATTTTAAGAAAAACAAATTGCTTATCAAGTAATGAATCCAAGACAGCCAAAAATCAAGGC
AGCCATTCATGTATTTAAAAAATCTCAGTTACAAAACCATCTGGCTATAAACTTCAGGAAACCTTCCTTATGAAATTATTGATACTATTTTATCCCTTAA
ATCAGCCTTTCAAGACGTAATTCCAGTCTGGGTTCAGTGGCTAATGCCTGTAATCCCAACACTTTTGGAGGCTGAGGCAGGAGGATTGCTTGAGCCCAGG
AGTTTGAGATTACAGTGAGCTATAATCAGTCACATCACTGTACTCCAGCCTGGGTTACAGAGCAATACACTGTCTCAAAGAAAAAAAAGAAAGAACTGCA
TTCCTAAATCAGGTTTATTCCATTCTCTATGGCTAATAGAATTCATCAGCCAGACACAGCACACATTTCTTCCCAACTGCTGTAGCTTTCCAGATCACCT
TCCTCTTGGTCCTCCTCAAGCCTATGATCAATTTTTCAGAAATCTTGGAGTCTGGAAGTCCTAGCCTTCCTTTCACACTTTTCACAGTAGTATGCTAGCT
TAGAGCCCAACCAGATATCTGGTAAGTCGGTTCTAGGACATAGGTGGGTGGTCCATATACTTGGGATCAGTAGCTGGGATAGGCAGTGCTAGATTTTTCC
TGGGGATGCTTATAGGATGGGGAGGAAGCCTTGTACAGGTTAAACAAATAAAATTAGGATCATTCAGGTACTTTCTTTGCATAGATTTGGAATGATAGGG
CCAAGGGGCTATGGAATGAGACCATTTTTGCTGACAGAGATGTGCATTTTAAAATAGATTCTTGGGTTGTGAGTTAAAGAAACCAACACCATCTAGTTTA
AGCTAAAAAGGATGATTTATTATAAGGACACAAATTTGTTTCATTGAAACTAAGAATGGGAGTAAGTTTAGGCCTCTGGAACCAGTAACTTGGAAGCCAG
AAAAATTCCTTTTTAAATTTATCTTCTCTAATTATCTCTCTTAATCTGTTTCATTCTTCCTGTCTCTACAGATCAGCTCCCTCTCCTTCTCTTTGCCACA
GCTTCTAAATTTATACACACTAGGTTCTAGTGGCCCATAAAAACCTACGTTCTGTTTCTTTTTTCTCTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGAC
GGAGTCTCGCTCTCACCCAGGCTGGAGTGCAATGGCGCAATCTCAGCTCACTGCAAACTCCTCCTCTCGGATTCAAGTGATTCTCCTGCCTCAGCCTCCC
GAGTAGCTGGGACTACAGGCGCTCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATATTGGCCAGGCTGGTCTCAAACA
CCTGACCTTGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCGCCGCACCCGGCCACATACTTTCTGTTTCTAATTCCTAGT
TCTAACTTCTTCCTGGAAAGAAAAACTAATTGGATCACCTTGAGTCAGGTAGCCCATCAGCCATGGGCCAGAGGACTGTGGGTAGGAAGGAGAATTCTCA
GAAAAAAGGAGATCGGATACTTAGAGACAACTTTAATAGCTTGCTGATAGCTGATATTCCCCAGATACTGTTAGTATATTAAACATCAGTGTATAGAATC
TTAGAAACTTAGGGCCCCAAGGAAACTTATTTAACAAATGAGAAAATTGAGGCTCACAGAAAGGGGAATGACTCATTCAATGTTACACAGCTAGTCAATG
ACAAGGCAGCTATTCTCCTGTTACCACTCTACTGCACAGCTAGAGGCCACCAGGAGTGAATGACAATACTCATTTCATTATATGTTTGAGAGCCAAAAGT
AGTACAATTTAGGGAGGTCATGTTAATTTTATATAGAGAGTAGTATTTCATTGTTATATATGTTTTATTAATCTTTTTATTCAAGATGAAATATCAATAT
TGATTTCCCTTTATTGAT


SNP Information

Context             (SEQ ID NO:24600):
CCGGGGAAGCCCACGCTGGTGTGCTCCCGCGCGGTGGGGAGCTGGTCATACTCGCAGCAGAGGCGGCAGAGGGTGTGCTCTGAGGAGGGCCCACCTAAGA
S
GGACCTCATGGCCTTCAGCCCCAGTCTTCCTCTAGGTCTGAATAAAGAGGAGGAAGGGGAAAGACAGGAGCCAGGGTCAAATCACCCCGGACAGGTGAGT
Celera SNP ID:            hCV25957804
SNP Position Genomic:     91407
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,38)   total(C,73|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24601):
AGCAAGCTGGTGCCGCGGTCTGTGGGCGCGGGCCACGTGGTAGCGAAGGTGCGCGCAGTGGACGCCGACTCGGGCTACAACGCGTGGCTTTCGTATGAGC
W
GCAGCCAGCTGCAAGCAGCCCTCGCATCCCGTTCCGCGTGGGGCTGTACACGGGCGAGATCAGCACCACTCGTGTCCTGGACGAAGCGGACTCTCCGCGC
Celera SNP ID:            hCV25964954
SNP Position Genomic:     63156
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,3|T,35)   total(A,3|T,73)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24602):
TGGACGCACAAAACAGTCTTGAGCAAATGTCTTCATTATCACTTGTACTGAGGAAAACACTGGACAGAGAGGAAATTCAGGAACATAGTTTATTACTGAC
W
GCCAGTGATGGAGGTAAACCCGAGCTGACTGGCACAGTTCAGCTGCTCATCACGATTCTGGACGTGAATGACAACGCCCCGGAATTTTACCAATCCGTTT
Celera SNP ID:            hCV11840421
SNP Position Genomic:     102914
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,3)   caucasian(A,32|T,6)   total(A,65|T,9)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:24603):
TCCACTACTCCGTCCCCGAGGAGGCCAAACACGGCACCTTCGTGGGCCGGATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTT
S
CGGGTGGCGTCCAAAAGACACCGGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGC
Celera SNP ID:            hCV25969030
SNP Position Genomic:     61516
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|G,3)   total(C,71|G,3)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24604):
GATGCCATGGATAAAAGTACATTCCCATTATCAGGACACTGTAAAGTAGTAGTGAAACTCCTGGATGTGAATGATAATACCCCAGAGATGGCCATAACCA
M
CCTTTTCCTGCCTGTCAAAGAGGACGCTCCACTCAGCACGGTCATTGCTCTGATCAGCGTGTCTGACCGTGACTCAGGTGCCAACGGGCAGGTGACCTGC
Celera SNP ID:            hCV25765747
SNP Position Genomic:     42832
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,22)   caucasian(C,40)   total(A,2|C,62)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24605):
AAGCCGAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCAGTTGGATTCCAAAGGCCG
Y
GGGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAGTGCAGCATCC
Celera SNP ID:            hCV25968230
SNP Position Genomic:     68709
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,31|T,1)   total(C,63|T,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24606):
GACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTATTCGCTGGTGGAACGGCGGGTGGGCGAGCGCGCGCTGTCGAACTACGTGTCAGTGCACGCGGAGA
R
CGGCAAGGTGTACGCACTGCAGCCCCTGGACCACGAGGAGCTGGAGTTGCTGCAGTTCCAGGTGAGCGCGCGGGATGCGGGCGTGCCGCCTCTGGGCAGC
Celera SNP ID:            hCV27509391
SNP Position Genomic:     7803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24607):
ATGATAGTTAACGGGGCATGGTGGCACACACCTTTAACCCCAACATTTCGGGAGGCCGAGGCAGGAGGATTGCTTCAGTCTAGTAGTTTGAGACCAGCTT
R
TGCATCTTTTGTAGAGACTTTGTAAAATTAGCTATGCATGGTGATGCATGTCTGTAGTTTCAGCTACTCAAGAAACTGAGGTGGGAGGATCACTTAAGCC
Celera SNP ID:            hCV11840431
SNP Position Genomic:     58749
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24608):
TTGTAGTTTCTTTTGAAGATTTATTTTTTACTACCATTTTTTTTGTTGGACTTTTAAAATGAGTTTGGAAGTGTTCCCTCTCCTTCAATTTTTTTTTTTT
T
GGAAGAGTTTGAAAACAATTATCATTGATTCTTCTTTAAAAGTTTGGTAGAATTCTCCAGGAAAGATATCTGGTTTTGGGCTTTTGTTGTTGTTGTTGTT
Celera SNP ID:            hCV11840432
SNP Position Genomic:     32040
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24609):
TCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCACTTTTTGATAGGGTTTTTTGTTTTTTTCTTGTAAATGTGTTTA
R
GTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGGGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATTGTAGTTTC
Celera SNP ID:            hCV11840433
SNP Position Genomic:     31849
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24610):
TTATATTAGAGATTTGGGGATGAAATTACCCTAAATTTTCAGGTGGGGGCTAATTCCAGTGAAAAGTTTGTTTTGTTTTTTAAATAAGAGATAGAAGATG
A
GAAAACAGACACAGAGGAAAAGGCCATGCGAAGATGGAGACAGAGATTGGAGTGATGTCAACAGCCACCAACACCTGGAAAAGGCAGAAACAGATTCTCC
Celera SNP ID:            hCV11840361
SNP Position Genomic:     139989
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,7)   total(A,7|-,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24611):
TTGGTGCTGGACAGCCCTCTGGACCGCGAGAGCGTGTCGGCCTATGAGCTGGTGGTGACTGCTCGGGACGGGGGCTCGCCTTCACTGTGGGCCACGGCCA
K
CGTGTCCGTGGAGGTGGCCGACGTGAACGACAATGCGCCGGCATTCTCGCAGTCCGAGTACACGGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCAC
Celera SNP ID:            hCV11840434
SNP Position Genomic:     22489
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,22)   caucasian(G,21|T,17)   total(G,25|T,39)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|T,8)   total(G,6|T,8) 
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24612):
TACTCGAAATTGTGGACATCAATGATAATGTACCTGAGTTAGTTATTCAATCACTATCTTTACCTGTATTAGAAGACTCTCCACTTAGCACAGTCATCGC
Y
CTGATCAGCGTGTCCGACCGCGACTCAGGAGTCAATGGACAGGTCACCTGCTCGCTGACGCCCCACGTCCCCTTCAAGCTGGTGTCCACCTTCAAGAATT
Celera SNP ID:            hCV11840435
SNP Position Genomic:     22280
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,6)   caucasian(C,16|T,22)   total(C,46|T,28)   
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,6)   caucasian(C,17|T,23)   total(C,45|T,29)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(T,-|C,-)   JBIC-allele(C,698|T,797)   total(C,698|T,797) 
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24613):
GCAAGTTCCCCCTGGCCCTGGGCAGGCCCAGAGATGCTACTTGGGAGTCAGGGATTGGAGTCAAAATACTTAGAAATTTGCCTGATATTTTATTTGACTA
Y
GGCTAAGCTGGCACTCAAACCACAAGACAAAGTCTTTCCCATTCTTCCCTCCCCTTTCCACAGGCAGAGGTGCCTCTCCCTGTGGCCAGTACTACCACTG
Celera SNP ID:            hCV11840363
SNP Position Genomic:     135988
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,13)   total(C,13|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24614):
GCTATGAGTAAACTTAAACCAGAAAATCGACTAGTTTTAAATCTACAGAATAAACAGTAGAGCCTTCCTTTTAGCCACATGATGTCGCTGTCCACCATAG
M
GTGTTCTCTAGGAAGGAAAATACCCAGAGCCCCTTTGTTACTTCAGAGAAGCGGAGGAATAAGAGAAGCAGCAGGACTTTAACAGAGACTAGAATATTTA
Celera SNP ID:            hCV11840436
SNP Position Genomic:     14785
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON;UTR 5;hmCS


Context             (SEQ ID NO:24615):
GAGGAGCCCAAAAAGTGTCCCGGTGTCAATCTTAATTTCCAGTTTAATGGAATCGTGGTTGTGTCTTCTGGTGGCAGCATTCCTCCCTCTGGAACTAAGA
M
CTCTAGGCCAGCAGAACATAATGTCACAGGGACAGTAAGCAAAAATTTTACTAGTGGGTCACTAGGGGTGATGGTAAGTGGTGCCACTTCCACTTCCACC
Celera SNP ID:            hCV15847513
SNP Position Genomic:     127016
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,9)      total(A,2|C,9) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24616):
GGTTTATAAAATGATTTGCAAACATTTTCTTTTGTTCCCTCTAACACCGCTAGTAGATAATGGAAACTCCTTTGATTTGGTCTGTAGATAATTTTATGCT
K
TGTTATATGGAATATCCACAGCATTTTGTGAACTTGAAAACAAAGGAGGAAGCAGCTTGCATATGCATATCTTGCTAGCAGATTGGTAGAATAGAGAGAG
Celera SNP ID:            hCV27482845
SNP Position Genomic:     197462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24617):
GAAAGACACTGTTACCCTCCCTCTCCTGACTCAAAGCTTGGGGCAATTTGATACATAAACTATTTCTGTCTTACACTGACCTGTATATTAATATGTACTT
Y
GGTACACAAACATTTAATCTAGGGAGAAAATTATTTCAGAAAGTGCTTGCTTTTGGGAGATTTTGCCAGGAGAGTGCATGACTTTAATAAAGGCAAATTT
Celera SNP ID:            hCV27482846
SNP Position Genomic:     191274
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,30|T,1443)   total(C,30|T,1443) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24618):
TAAAATTTCCATTGGCTTTTTTATATTTTCCTTTTTTTCTGATAAGATTTCCTTTATTTTCATTCCTTACCAATAAGTTTTCCTTTATCTTATTGAATAT
D
TAGTAGCTACTTTAAAGTCATTGTCCGCTAATTCCCACATCTGTGTCATCTCAGGTTTGGATTCTTGATGGTCTTTACCTTTAGGAATGCATCACATTTT
Celera SNP ID:            hCV10012459
SNP Position Genomic:     171158
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5|T,5|-,9)   total(G,5|A,5|-,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24619):
GGAGGAAGCCGAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCAGTTGGATTCCAAA
K
GCCGCGGGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAGTGCAG
Celera SNP ID:            hCV25968253
SNP Position Genomic:     68704
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(G,31|T,1)   total(G,63|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24620):
GAAGGGGATTGGGCACCCCACGACTACAGCTCTGGCTTCTCCTCCTCGAATTCTGGGAGGTGGGGAGCGGCCAGCTCCACTACTCCGTCTCGGAGGAGGC
Y
AAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCAGCGCCTGTTCCGGGTGGCGTCCAAAACACATGGGG
Celera SNP ID:            hCV25967452
SNP Position Genomic:     89227
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,26)   total(C,57|T,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24621):
TGCGGTCGGTGGGCGCCGGCGTAGTGGTGGGGAAGGTGCGCGCAGTGGACGCCGACTCGGGCTACAACGCGTGGCTTTCATACGAGCTGCAGCCAGAAAC
S
GCCAGCGCGAGCATCCCGTTCCGCGTGGGGCTGTACACGGGCGAGATCAGCACAACGCGTGCCCTGGACGAAACGGACGCACCGCGCCAGCGCCTACTGG
Celera SNP ID:            hCV25971403
SNP Position Genomic:     70341
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,26)   caucasian(G,34)   total(C,10|G,60)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24622):
GTCCCGGAGGAAGCCGAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCAGTTGGATT
S
CAAAGGCCGCGGGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAG
Celera SNP ID:            hCV25968258
SNP Position Genomic:     68699
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,31|G,1)   total(C,63|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24623):
GAGAATCTGACTTCGACTTGTTTTATACTTATCCCTATACAATGCTTCTTCAATATCTTTTGCCACTTTTCATTTGGACTTCCTACTACCTGTTAGTACA
R
ATGTTACTTGCTCATTTTATGAGTTCACCTAATGCTTATAACTCCCTATTGATTATGCTTTTCCACCTTCAGTCTCAAAAATTAGATCATTACACCTGTT
Celera SNP ID:            hCV15871586
SNP Position Genomic:     23973
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24624):
GCGGGCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAATGACAACGCGCCGGCACTGCTGGAGCCTCGGGTGGGTGGCA
Y
TGGTGGCGCAGCGAGCAAGCTGGTGCCGCGGTCTGTGGGCGCGGGCCACGTGGTAGCGAAGGTGCGCGCAGTGGACGCCGACTCGGGCTACAACGCGTGG
Celera SNP ID:            hCV25996814
SNP Position Genomic:     63042
SNP Source:               Applera
Population(Allele,Count): african american(C,2)   caucasian(C,7|T,1)   total(C,9|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24625):
TGCTGCGTCAAATGGTATTTCTGCCTCTAGATCTTTGAGGAATCGCCACACAGTCTCCCACAATGAGTGAACTAATTTACAACCCCACCAACAGGGTAAA
R
GTGTTCCTTTTTCTCCATCTGTTGTTTCTGGACTTGTTAATAATTGCCATTCTGACTGGTGTGAGAAGATATTTCATTGTGGTTTTGATTTGCATTTACC
Celera SNP ID:            hCV11158010
SNP Position Genomic:     174410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24626):
CACCTGGAGGTGATCGTGGAAAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAAGGACATTAACGACAACCCTCCGGTGTTCCCAGCGACACAAA
R
GAATCTGTTCATCGCGGAATCCAGGCCGCTTGACTCTCGGTTTCCACTAGAGGGCGCGTCCGATGCAGATATCGGGGAGAACGCCCTGCTCACTTACAGA
Celera SNP ID:            hCV11158011
SNP Position Genomic:     54801
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,19)   caucasian(A,20|G,18)   total(A,35|G,37)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,8)   caucasian(A,20|G,12)   total(A,36|G,20)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24627):
GGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGTGGAAAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAAGGACATTAACGACAACCCTCC
R
GTGTTCCCAGCGACACAAAAGAATCTGTTCATCGCGGAATCCAGGCCGCTTGACTCTCGGTTTCCACTAGAGGGCGCGTCCGATGCAGATATCGGGGAGA
Celera SNP ID:            hCV11158012
SNP Position Genomic:     54781
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,34)   total(A,2|G,72)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24628):
TTTGTTTTATGAGTAACACGGAGATAGCATACAAACATTCCATTGACTAATACAGAAAAAACTCAAAAGTTTTAATTAGATATGTTTAAATAGAGATGAG
R
AAAGTCAAAACTTTAACTCTTAAAAGTTATTTTTATCAGTTTGGAAATATATAAACTCCTCCCTATATAAAATACACCAGCACAAATTTCTCTAGTAAGG
Celera SNP ID:            hCV27853745
SNP Position Genomic:     41231
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:24629):
CGAACGGGAGAACCCTCTGCTTCCTCAGATTCAACTGGGAAGGTGGGTTTTTCTAGCATTTTATTTATTTATATAATTTTTTTTCTTGAAAGATATTATC
R
ATTACTCCCAGGGGCCGTTCAAATAGTTTTATTCATTTTTCTAGAAATCCAGCAGATTTTTTTTCTGATAAAGTAAACCCCTTAACATTGGAGCCGACTT
Celera SNP ID:            hCV25990863
SNP Position Genomic:     70949
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,2|G,26)   total(A,2|G,54)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:24630):
CGGGACGGCGGGCTACCTGCCCGCTCAGGAGACGCACAAGTCACCATCATTGTGGTGGACACAAATGACAACGCGCCTGTATTTGAGCGCTCCGTATACC
R
CACCAAGGTTCCAGAGACTGCACCCAATGGGACTGTGTTATTCCGAGTTCAAGCCTTGGATCCAGATGAAGGGTCCAATGGGGAAGTCCAATACTCCCTA
Celera SNP ID:            hCV25966809
SNP Position Genomic:     147617
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24631):
CTCAATGTTTCCACTCCTCTGGAAATACATTAATAGTTAAGTATGAATTATGTGATTCATAATTAGACTTTTCCAGTTTTGTGGTTTTGTGGTTAAAACG
S
TAAGATTTTTGTTGCTAATTTTTGAACCAAATCAGCAGTAAGTTATGATATCCACACTTGTAATTTTGTTTTGTTATTAGGTGCAGTAGTAGAATTATTT
Celera SNP ID:            hCV15871596
SNP Position Genomic:     23713
SNP Source:               Applera
Population(Allele,Count): african american(C,17|G,5)   caucasian(C,15|G,23)   total(C,32|G,28)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(C,-|G,-)   JBIC-allele(C,686|G,793)   total(G,793|C,686) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24632):
CCGCCAACCGAAGGCGACTGTGGGCCGGGCAAGCCCACGCTGGTGTGCTCCAGCGCGGTGGGGAGCTGGTCATACTCGCAGCAGAGGCAGCAGAGGGTGT
R
CTCTGGAGAGGGGTTGCCCAAGACCGACCTCATGGCTTTTAGCCCTAGCCTTCCTCCTTGTCCAATTAGCCGGGATAGAGAGGAGAAACAGGATGTGGAC
Celera SNP ID:            hCV15871597
SNP Position Genomic:     23446
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,10)   caucasian(A,17|G,23)   total(A,35|G,33)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,16)   caucasian(A,15|G,21)   total(A,29|G,37)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;JBIC-allele(A,611|G,704)   total(G,704|A,611)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24633):
CCGCCCACTGAGGGTGCGTGTGTGCCGGGCAAGCCCACTCTGGTGTGCTCCAGCGCGTTGGGGAGCTGGTCGAACTCACAGCAGAGGCGGCAGAGGGTGT
K
CTCTAGCGAGGGCCCACCCAAGACCGACCTCATGGCCTTCAGCCCAGGCCTATCTCCAAGTCTTAACACGTCAGAAAGAAATGAACAACCAGAAGCAAAT
Celera SNP ID:            hCV15871598
SNP Position Genomic:     8538
SNP Source:               Applera
Population(Allele,Count): african american(G,16|T,22)   caucasian(G,25|T,15)   total(G,41|T,37)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24634):
AGATTCGGATTCACGTCCTGGACACCAATGACAACTCACCTCTCTTTCCTGCCGGCGACGTGCAGCTGCACATCCCCGAGTTCCTGACGCCCGGAGCCCG
Y
TTTACTCTCCCGAATGCCCAAGATGACGACGAGGGAAGCAATGGGATACTAAGCTACAGCCTAAGCCCCAGTCAGCACTTTCGCCTGGACATGGGATCGC
Celera SNP ID:            hCV25963185
SNP Position Genomic:     147327
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24635):
TCAAAACGCTCTCGGTTCCTGTAAAAGAGGACGCACAACTGGGGACAGTTATTGCCCTGATTAGTGTGATCGACCTAGACGCAGATGCCAACGGGCAGGT
K
ACCTGCTCCCTGACGCCCCACGTCCCCTTCAAGCTGGTGTCCACCTACAAGAATTACTACTCGTTGGTGCTGGACAGAGCTCTGGACCGCGAGAGTGTGT
Celera SNP ID:            hCV25996823
SNP Position Genomic:     69651
SNP Source:               Applera
Population(Allele,Count): african american(T,30)   caucasian(G,1|T,17)   total(G,1|T,47)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24636):
TCCACTACTCCGTCCCGGAGGAAGCCGAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTT
S
CAGTTGGATTCCAAAGGCCGCGGGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGC
Celera SNP ID:            hCV25968274
SNP Position Genomic:     68688
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,1)   caucasian(C,32)   total(C,63|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24637):
GTACTAGTCTTTTCTCACACTGCTATAAAAACACCTGAGACTGGATAATTTAGAAAGAAAAGAGGTTTAACTGGCTCGCAGTTCTGCAGGCTGTACAGGA
Y
GCATGATGCTGGCCATCTGCTTGTCTTCTGGGGAGGCCTCAGGAAACTTACAATCATGGTGGAAGGCAAAGGGGAATCAAGCTCATCTTACATGGCATGA
Celera SNP ID:            hCV2269598
SNP Position Genomic:     172820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24638):
CTAAAACATAGCTGATAGCTCCATAGCAGTGTTTTGTAACTGCTTTGGAGTTTTTGCTTACACAAAAACTGTAAGCCTCTCTCATAACATCTATTTATAC
W
GATAGGAGATCATATTGTTGGATATAGGACTTGACAACCTTTTGTTTTGTGTTTCTATTGATAATATTTTACAAAGAGGAAAGATGAGTAATTTTTATGT
Celera SNP ID:            hCV27479937
SNP Position Genomic:     150105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24639):
GTTCAGTTCCTGCAGCTGCTCTCATGGGTTGGTGTTGAATGCCTGCAGCTTTTCCAGGCACAGTGTGCAAGCTGCTTAGAACTGCTGGTGGATTCCCATT
Y
TGGGGTCTTGAGGGTGGTGGCCCTCTTCTCACAGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAGAAAGAAAGA
Celera SNP ID:            hCV3297600
SNP Position Genomic:     172263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24640):
TGTCCTTAAGCTGGAGAAACTAGGGATTATCTGTCAGAGTTTTAACTTCCTCATGCTGTGTCACAACCTTGATCAGCTATTAGGCCAAAGCAACAAAAAC
R
GGAAACTCACTTCATGCTGATTCTTTTCTCCAAGTTTTAGTGCCCTGCTCTCCCAAAACTGCCTCCTTTTGTTTATTCCCCAGAGTCCTTAGATATTTGC
Celera SNP ID:            hCV3297602
SNP Position Genomic:     173521
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24641):
TCCTCATGCTGTGTCACAACCTTGATCAGCTATTAGGCCAAAGCAACAAAAACAGGAAACTCACTTCATGCTGATTCTTTTCTCCAAGTTTTAGTGCCCT
S
CTCTCCCAAAACTGCCTCCTTTTGTTTATTCCCCAGAGTCCTTAGATATTTGCTTTATGTATTTTGGCCAGAAGCTATAGTTGTTATCTCTGGAAGGGTC
Celera SNP ID:            hCV3297603
SNP Position Genomic:     173568
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,8)      total(G,8|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24642):
GATTCTTTTCTCCAAGTTTTAGTGCCCTGCTCTCCCAAAACTGCCTCCTTTTGTTTATTCCCCAGAGTCCTTAGATATTTGCTTTATGTATTTTGGCCAG
R
AGCTATAGTTGTTATCTCTGGAAGGGTCTGTTTATTATGAGCTTACTTTGATCTACTAGACTGAGCTTCAGACATTGTGTTTTGAAATTTTTGCTTAACA
Celera SNP ID:            hCV3297604
SNP Position Genomic:     173640
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24643):
TAAAACACTGTAATTAGTCAATTTAAGTAAAATAAATTCAAGGAAGTGGTCTGAATTTCTCAGTGAGCATTTAGATATTTATGGGAGTCATATAAAATAA
W
TTATAAATGTGACTGAGGGCTTTTTATTAAGGAAAATGAAATATTGCTATGGACATGATTCTGTGTGTTTCTTTACTACACTATGAACTAAAAATTTTGG
Celera SNP ID:            hCV3297605
SNP Position Genomic:     177045
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|T,10)      total(A,6|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24644):
GCGATGTTCTCTCTGAATCCAGACAAATACAGCCCTTTTCCCATGGGAAAGAGGCTCAATTCTTTTTCACTCTCTCTGTGCTGAACGATGGCGAACACAG
M
AGAATGGGACTGACGAAATCAGATGATTTCTTCTAATTTGGAGGCAATTTTCACTAATTAGAAGAAGACTGAGTATTTGAAATGTTATACTCAAGTCGAG
Celera SNP ID:            hCV27917773
SNP Position Genomic:     68415
SNP Source:               dbSNP
Population(Allele,Count): Myers-Chimp(A,0|C,20)   Myers-AT(A,0|C,48)   total(C,68) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24645):
AGAATAAACACACAGACATATACATGCACACACTTTCAGAAATGCACTTAAATATTCAATCATGGAGTAAAAATTAATTATGAAATATCTAGACAATGAA
Y
ATTATGTAGTTTTTATTAAGAAAGAAGCAGAATTATATATACTGACATGAAAGGATGTTCATTATATATGTTAAGTAAAAACTAAGTTCATCATATATGT
Celera SNP ID:            hCV3297606
SNP Position Genomic:     177689
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24646):
TCTTTGCCGCGATGTTCTCTCTGAATCCAGACAAATACAGCCCTTTTCCCATGGGAAAGAGGCTCAATTCTTTTTCACTCTCTCTGTGCTGAACGATGGC
K
AACACAGCAGAATGGGACTGACGAAATCAGATGATTTCTTCTAATTTGGAGGCAATTTTCACTAATTAGAAGAAGACTGAGTATTTGAAATGTTATACTC
Celera SNP ID:            hCV27917774
SNP Position Genomic:     68407
SNP Source:               dbSNP
Population(Allele,Count): Pcdh-Pygmy(T,3|G,39)   Myers-Chimp(G,0|T,20)   Myers-AT(G,0|T,48)   total(G,39|T,71) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24647):
ACACCATTCTGTTTTAATTTTTATATCTTAAAGTTATCATTCCAGTGTCTTTGGTTTACTGGGTTTATAAAAGAATTGACCAGTAGCTATATAATAGATA
Y
AGAAAAGTCTGCCTGGGTGTGGTGGCTCATACTTGTAATAATATTATATTATAATTGTTCTATTTTATTATTAGTTATTGTTGCTAATCTTTTACTGTAC
Celera SNP ID:            hCV3297607
SNP Position Genomic:     178896
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24648):
TTGGGCCACGTGATGTCACTCTTTGCCGCGATGTTCTCTCTGAATCCAGACAAATACAGCCCTTTTCCCATGGGAAAGAGGCTCAATTCTTTTTCACTCT
Y
TCTGTGCTGAACGATGGCGAACACAGCAGAATGGGACTGACGAAATCAGATGATTTCTTCTAATTTGGAGGCAATTTTCACTAATTAGAAGAAGACTGAG
Celera SNP ID:            hCV27917775
SNP Position Genomic:     68388
SNP Source:               dbSNP
Population(Allele,Count): Myers-Chimp(T,0|C,20)   Myers-AT(T,0|C,48)   total(C,68) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24649):
TATATCTTAAAGTTATCATTCCAGTGTCTTTGGTTTACTGGGTTTATAAAAGAATTGACCAGTAGCTATATAATAGATATAGAAAAGTCTGCCTGGGTGT
R
GTGGCTCATACTTGTAATAATATTATATTATAATTGTTCTATTTTATTATTAGTTATTGTTGCTAATCTTTTACTGTACCTAATTTATACATTAAGCTTT
Celera SNP ID:            hCV3297608
SNP Position Genomic:     178917
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24650):
GAAAAAATTAAGAAAATGAAATAAGTTTTGCAGAATAACTGTGAAATTTTTATTCATGAAATATGTACTTACACTTTGGGCCACGTGATGTCACTCTTTG
S
CGCGATGTTCTCTCTGAATCCAGACAAATACAGCCCTTTTCCCATGGGAAAGAGGCTCAATTCTTTTTCACTCTCTCTGTGCTGAACGATGGCGAACACA
Celera SNP ID:            hCV27917776
SNP Position Genomic:     68313
SNP Source:               dbSNP
Population(Allele,Count): Pcdh-Pygmy(G,1|C,41)   total(G,1|C,41) 
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:24651):
GCAGCGGGACAGCTCGAGTACTCAGTGCCGGAGGAGACGGAGCGGGGCGTAGCCGTAGGCAATCTCTCCGCGGACTTGAGGCTGCCAGCGGCCGCTATGT
Y
CTCGCGGAACTTTCGCTTCCTTTCCAGCCACCGCGAGCTCTACTTCGGGGTGGATCTACCCAGCGGCAATTTGGTGGTCAGAGAGCCGGCGGACCGCGAA
Celera SNP ID:            hCV25958669
SNP Position Genomic:     147053
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,1)   total(C,73|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24652):
TCGGTTTCCACTAGAGGGCGCCTCGGATGCAGATATCGGGGAGAACGCCCTGCTCACTTACAGACTGAGCCCAAATGAATACTTTTCTCTGGAAAAACCA
Y
CTGATGACGAGCTGGTAAAAGGTCTTGGGCTTATATTACGGAAATCTTTAGACAGAGAAGAAGCTCCGGAGATTTTTTTAGTGCTCACAGCCACTGATGG
Celera SNP ID:            hCV27506173
SNP Position Genomic:     27711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24653):
TCAAGCATGAGCAGAATGTGTTAGCTGCAGCCCTGGCTTCATAGTTGTAAGCAATTTCTGAGGGTGGAAGAAGAGATGGGAAAGAATTTATGATCTAACC
R
TTATCTGGGTCTGTGTGTTTATTCAGCTCTGTGCACCTAGAGGAGGCTGGCATTCTACGGGCTGGTCCAGGAGGGCCTGATCAGCAGTGGCCAACAGTAT
Celera SNP ID:            hCV25997717
SNP Position Genomic:     202428
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,22)   caucasian(G,12)   total(A,2|G,34)
SNP Type:                 INTRON


Context             (SEQ ID NO:24654):
TAAAAATAAGTAAAGCCTGCCCTGTACAGAAAATCTAATAAAGCAAATTTGTTGGTGATGTTCCAAGAAGGTTCACCAGCTTGGGCTTTCAACCAGCATT
R
ACCCAATCTTGTGTCCAGAGCTGTTGCTGTAGGTGGTATCATGTATCAAGCTGAATAGTGAGGTGACATTCCCCAAGTCTTCTCTCTTGTCTTTTTTGAC
Celera SNP ID:            hCV27474937
SNP Position Genomic:     210406
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,713|G,774)   total(G,774|A,713) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24655):
CTGGTCTTACTCGCAGCAGAGGCGGCAGAGGGTGTGTTCTGGGGAGGGCCTGCCCAAGGCGGACCTCATGGCCTTCAGCCCCAGCCTTCCACCATGCCCA
R
TGGTAGATGTGGACGGGGAAGATCAGTCTATTGGAGGGGACCACTCTAGGAAGGTGGGTTATTACGTTTTCATTTTCCTTTTGTGCTTTATGAATAATAT
Celera SNP ID:            hCV25631132
SNP Position Genomic:     78387
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,37|G,1)   total(A,73|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24656):
AAAAGACTCTGAAAGTACAGTCGTTCATCTTTATATTAAGATAATATTTTCTGATAGGAAACGACTATTTAACATGGATTATCACTGGCGAGGAGAGCTG
R
GATCCTGGCGACTACTACTCTTGCTTCTGCTCCTCGCAGCCTGGAAGGTGGGGAGCGGCCAGCTCCACTACTCCGTCCCCGAGGAGGCCAAACACGGCAC
Celera SNP ID:            hCV27474938
SNP Position Genomic:     61352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:24657):
TCCACCATGCCCAATGGTAGATGTGGACGGGGAAGATCAGTCTATTGGAGGGGACCACTCTAGGAAGGTGGGTTATTACGTTTTCATTTTCCTTTTGTGC
Y
TTATGAATAATATTTTCTCTTACCGCATTTTCTCAAATATGTATCAGAATATTTCATTTTTGTCTACATTCCATTTATGCTTGAATATTTCTAGTGATAC
Celera SNP ID:            hCV25631133
SNP Position Genomic:     78474
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,25)   caucasian(T,38)   total(C,3|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:24658):
GGGTTATTACGTTTTCATTTTCCTTTTGTGCTTTATGAATAATATTTTCTCTTACCGCATTTTCTCAAATATGTATCAGAATATTTCATTTTTGTCTACA
W
TCCATTTATGCTTGAATATTTCTAGTGATACCTTTGTAATATAATTTATTCCAGGAGTTTTAAAATTTTTTTATCCTACCCAGTGTGTCAGCCTTTGATT
Celera SNP ID:            hCV25631134
SNP Position Genomic:     78543
SNP Source:               Applera
Population(Allele,Count): african american(T,28)   caucasian(A,1|T,37)   total(A,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:24659):
TTTGAAATAAAACTTTTCATCTGATTAATAGTTTGTAATGGTTTGTAATTCTTACTTACATGATGGCCACATGATGTCGCTCTTTACCGCAAATTCTTTC
R
TAATCAGCAAAAGGAAGTCATTCCTTTTCGCACTGGAAAGACGCTCCACTCTCTTTCACTCTTTGGATGCACAACAATGGCCACACATCGAGATTGAAAT
Celera SNP ID:            hCV27474939
SNP Position Genomic:     54216
SNP Source:               Applera
Population(Allele,Count): african american(A,6)   caucasian(A,11|G,19)   total(A,17|G,19)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   Myers-Ghimp(G,0|A,20)   Myers-AA(G,24|A,24)   total(G,24|A,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24660):
TGATCATCGCCATCTGCGCGGTGTCCAGCTTGCTGGTGCTCACGCTGCTGCTGTACACTGCACTGAGGTGCTCGGCGGCGCCCACCGAGGGCGCATGTGG
S
CCGGTGAAGCCCACGCTGGTGTGCTCTAGCGCGGTGGGGAGCTGGTCTTACTCGCAGCAGAGGCGGCAGAGGGTGTGTTCTGGGGAGGGCCTGCCCAAGG
Celera SNP ID:            hCV25631135
SNP Position Genomic:     78245
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(G,26)   total(C,1|G,57)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24661):
GGTGTCTGCGTGGGACGCGGACGCGCAGGAGAACGCCCTGGTGTCCTACTCTCTGGTGGAGCGGCGGTTGGGCGAGCGCTCGCTGTCGAGCTACGTGTCG
R
TGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTGGAGCTGCTACAGTTCCAGGTGAGCGCGCGCGATGGGGGCGTGCC
Celera SNP ID:            hCV25631136
SNP Position Genomic:     77577
SNP Source:               Applera
Population(Allele,Count): african american(G,16)   caucasian(A,1|G,31)   total(A,1|G,47)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(A,1|G,37)   total(A,2|G,68)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24662):
CAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTGGAGCTGCTACAGTTCCAGGTGAGCGCGCGCGATGGGGGCGTGCCGCCTCTGGGCAGCAAC
K
TGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCTCCCGCGCTGCTGGCGTCTCCCGCTGGCAGCGCGGGCGGTGCAGTCAGTGAGCTGGTGCT
Celera SNP ID:            hCV25631137
SNP Position Genomic:     77694
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(G,1|T,37)   total(G,1|T,71)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24663):
GCGCGCGCGATGGGGGCGTGCCGCCTCTGGGCAGCAACTTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCTCCCGCGCTGCTGGCGTCTCC
S
GCTGGCAGCGCGGGCGGTGCAGTCAGTGAGCTGGTGCTGCGGTCGGTGGTTGCGGGTCACGTGGTGGCTAAGGTGCGCGCAGTGGACGCTGACTCTGGAT
Celera SNP ID:            hCV25631138
SNP Position Genomic:     77756
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,38)   total(C,71|G,1)
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24664):
CAGTCCAAATGAGTATTTTGTTCTTGATATTATAAACAAAAAAGACAAAGACAAATTCCCAGTGCTTGTTCTGCGGAAGCTGCTGGATCGTGAAGAAAAT
Y
CTCAGCTAAAGTTGTTGTTGACAGCAACTGATGGAGGCAAACCTGAATTTACCGGATCTGTTTCTCTGCTGATCCTGGTGTTAGATGCCAATGATAACGC
Celera SNP ID:            hCV25631139
SNP Position Genomic:     76665
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:24665):
AACAATTACAAAATCACCTAACTACACTGTCTTGCAGCTGCCTTTCTTTTTTTGTCTTGTCCACGTGAGTATATTGGGAGACTTTGTTTAATGTCTCCAC
R
AATTCTAGATAGACTGTTCCTGCAGCATTTCTTTTTTTAAATTTTGTTTTGATAAGCATTTATTTTGGCAATGATTCTAGTAAATGAAACTAAAGTGCCC
Celera SNP ID:            hCV3297612
SNP Position Genomic:     181499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24666):
TGTTTGATATCTAAAGGGCCATGCTACATATAGACTGCCAACTAAGGTTTTATCTGATGATAATAAATTGTTGTATTTCATGACGACAGCAACAACAACA
R
TAATGTACTTAACTAGTCACTGTGCAAATTGCTTTACATACATTTTCTCATGTAATCATAATAATAACCGTATGAGTTTTGCTTACTATTGTTTTCCTTA
Celera SNP ID:            hCV3297614
SNP Position Genomic:     183767
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,11)      total(G,6|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24667):
GGCTAAGTAACATGTCCATAGCCAAACAGTTAGTCACTGGCAGGAGTGTGACTGACTCCAAAGTCTATATTCCTAATTACTGTGTTCTACTTTTTAATAG
R
GAGCTCTTGAAGGTCCAAGGAAAGGAATGCATAATGGTGTGGTCAAGGCATTAGTGTTAATATTTGTAGAAAGGGTAATTAACAACAGTCTGAGCAATCA
Celera SNP ID:            hCV3297615
SNP Position Genomic:     183993
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24668):
AGGAGAACAGTAAAGTGCTTGAGCTGGTGCTGCGTAAGGGCCTAGACCGGGAGCAGGCAGCCTTGCACCACCTGGTTCTCACAGCCGTGGATGGGGGCAT
Y
CCAGCCCGCTCGGGTACGGCACAGATCTCTGTGCGTGTCCTGGACACTAACGACAACTCTCCTGCCTTTGACCAGTCCACTTATCGCGTCCAGCTACGGG
Celera SNP ID:            hCV3297616
SNP Position Genomic:     187448
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,19|T,5)   total(C,48|T,12)
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,11)      total(C,11|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24669):
CCTGATTGAGAGTAGATTTTTCTCATGGACATTTCAGATAGATTTATTCATTTATCAGAAGTGCCTGGTGTTAGTCAATGCTGAGAAACCATGGGAGGCA
K
ATTGTAGATTAAGAAAAATGGGGGAATAAATCAAAGAGTTTCCAGAAGTCTTTAGATCGTAGCATTTGAAAGCACGTAAAAGGGTTTAGCTTTAAATAAG
Celera SNP ID:            hCV3297617
SNP Position Genomic:     190940
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,13)      total(G,13|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24670):
CTTAGTTCCTTGGCATATAAGCACCATCAGTTCCTTTCTGGCCTTCCAGGGTCAGAACTCTGGGCTCCAAGGAGGTACAACTGTGAGTGAGAGAGTAGCT
R
CTGTGCTAGCAGGCTATGCATCCAGAACTAAACAGACCTAGCACTTTCTGTTGTACTGGAACCCATTAGGTATGTTCTAAAGTTATGTTTATTTTACTTT
Celera SNP ID:            hCV3297618
SNP Position Genomic:     194302
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,13)   total(G,13|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24671):
CTAGGAGGGTCTTTAAGAGTATCACACTGTGCCTGCTGAGAATCATCGAATTAACAAGACCTGGCTTCAAATTTAATAGATAAATAAAGGTAAGTATCCT
R
CATAAATACGATGATAGTAAAAGCAAGAATATTGTAAGAGGTGCTAGAAAGGTACATCATAGTGTTATTGGAATTGGAAAAAAATCTTTGCCTTTTTCCC
Celera SNP ID:            hCV27474940
SNP Position Genomic:     52735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24672):
TTAGGTCTCTGTAATACTTAAAACCTGTGTTGAAAAAATTATTTCTACTGAAGTAAAAGTTGCCCCTATGGCGAAACTAAGGACCACACTCAATCAATCA
S
TGGTACAATGTGTACCACAGTAGTACAAAATGTATTCCTATTCTCCGAAACGACTGAAATAATAAATAAAACCAAGTAGTTTACAGTAGAGTGTGTGGGG
Celera SNP ID:            hCV27474941
SNP Position Genomic:     26827
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,696|G,789)   total(G,789|C,696) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24673):
TCCAATAGATGTCCACTGTTAAAACAGGAATCACAATATTTTAGTGTATGTCATGAATTAGCACAATTGATAGTGAATTAGTATAAAAGTTCTAAGGAAA
K
ATTTAGATAAAATATAAGGACTTTGAGGAGTGACCGAAGGATATTACAATTGAAACTAGAAATTTTGGGAAAGTTCAAACGACATGCAAGGAAAAGAAGA
Celera SNP ID:            hCV27474942
SNP Position Genomic:     20839
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,7)   caucasian(G,17|T,23)   total(G,48|T,30)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)   Myers-Ghimp(G,0|T,20)   Myers-TT(T,24|G,24)   total(T,44|G,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24674):
GGTCCAGTGTCTGCTGCTCTCGCTTCTTCTCCTCGCAGCCTGGGAGGTGGGGAGCGGCCAGCTCCACTACTCAGTCTACGAGGAGGCCAGACACGGCACC
Y
TCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCAGCGCCTGTTCCGGGTGGCGTCCAAAAGACACGGGGACCTTCTGGAGGT
Celera SNP ID:            hCV25631140
SNP Position Genomic:     76179
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24675):
TTGCAGGCCCAGAGACCGAGCTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGCGCGGTGTCCAGTCTGTTGGTGCTTACCCTGCTGCTGTACAC
R
GCGTTGCGGTGCTCAGCGCCGTCCTCTGAGGGCGCATGTAGTTTGGTAAAGCCCACTCTGGTGTGCTCCAGCGCGGTGGGGAGCTGGTCATTCTCCCAGC
Celera SNP ID:            hCV25631141
SNP Position Genomic:     56545
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(G,40)   total(A,2|G,70)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24676):
CCCCAGTGTTCGACAGAACCCTGTATACGGTGAAATTACCAGAAAACGTTTCTATCGGAACGCTGGTGATTCACCCCAATGCCTCAGATTTAGACGAAGG
Y
TTGAATGGGGATATTATTTACTCCTTCTCCAGTGATGTTTCTCCAGATATAAAATCCAAGTTCCACATGGACCCCTTAAGTGGGGCAATCACAGTGATAG
Celera SNP ID:            hCV25631142
SNP Position Genomic:     55204
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,4)   caucasian(C,22)   total(C,44|T,4)   
SNP Type:                 INTRON;SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,40)   total(C,70|T,8)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24677):
TTTTGAAGAAAGTAGAGCACACAAGATCCCAGTCGAGGCTGTCGATAAAGGCTTCCCACCCCTGGCTGGTCATTGTACAGTTCTTGTGGAAGTTGTGGAT
R
TAAATGACAATGCTCCACAGTTGACTCTCACTTCCCTGTCTCTCCCTATTCCAGAGGACGCCCAACCAGGTACCGTCATCACATTGATTAGCGTGTTTGA
Celera SNP ID:            hCV25631143
SNP Position Genomic:     55415
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)   
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,29)   total(A,1|G,63)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24678):
GCTGACAGCCACAGCCACCGTGCTGGTGTCGCTGGTGGAAAGCGGCCAGGCACCAAAGGCGTCGTCGCGGGCATCGTTGGGCATTGCAGGCCCAGAGACC
R
AGCTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGCGCGGTGTCCAGTCTGTTGGTGCTTACCCTGCTGCTGTACACGGCGTTGCGGTGCTCAGC
Celera SNP ID:            hCV25631144
SNP Position Genomic:     56462
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,24)   caucasian(A,1|G,15)   total(A,3|G,39)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24679):
GAGATCAGCACGACACGAGCCCTAGATGAGACGGACGCACCGCGCCACCGCCTTCTGGTGCTTGTGAAGGACCACGGGGAGCCCTCGCTGACAGCCACAG
S
CACCGTGCTGGTGTCGCTGGTGGAAAGCGGCCAGGCACCAAAGGCGTCGTCGCGGGCATCGTTGGGCATTGCAGGCCCAGAGACCGAGCTGGTGGATGTC
Celera SNP ID:            hCV25631145
SNP Position Genomic:     56376
SNP Source:               Applera
Population(Allele,Count): african american(C,22|G,6)   caucasian(C,16)   total(C,38|G,6)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24680):
GACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGTGGAAAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGA
R
GGACATTAACGACAACCCTCCGGTGTTCCCAGCGACACAAAAGAATCTGTTCATCGCGGAATCCAGGCCGCTTGACTCTCGGTTTCCACTAGAGGGCGCG
Celera SNP ID:            hCV25631146
SNP Position Genomic:     54759
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,2)   caucasian(A,36)   total(A,66|G,2)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24681):
TAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGT
R
GAAAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAAGGACATTAACGACAACCCTCCGGTGTTCCCAGCGACACAAAAGAATCTGTTCATCGCGG
Celera SNP ID:            hCV25631147
SNP Position Genomic:     54718
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,21)   caucasian(A,2|G,34)   total(A,7|G,55)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24682):
GTTCCGGGCGGTGTGCAAATTCCGTGGGGATCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGC
S
GGCGGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGTGGAAAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAAGGACATTAACGACAACCC
Celera SNP ID:            hCV25631148
SNP Position Genomic:     54677
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(C,5|G,35)   total(C,6|G,70)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24683):
TACAGACCTACGAGCTCAGCCCCAGCGAGCACTTCGAGCTGGACCTTAAGCCCCTGCAGGAGAACAGTAAAGTGCTTGAGCTGGTGCTGCGTAAGGGCCT
W
GACCGGGAGCAGGCAGCCTTGCACCACCTGGTTCTCACAGCCGTGGATGGGGGCATCCCAGCCCGCTCGGGTACGGCACAGATCTCTGTGCGTGTCCTGG
Celera SNP ID:            hCV25991842
SNP Position Genomic:     187391
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,26)   total(A,63|T,1)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24684):
GAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCGGGCGGTGTGCAAATTCCGTGGGGATCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATT
S
TCGGATCGACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGTGGAAAGGCCGCTGCAGGTTTTCCATGTGGACGTG
Celera SNP ID:            hCV25631149
SNP Position Genomic:     54651
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|G,3)   total(C,73|G,3)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24685):
TGGCCGACGTGAACGACAATGCTCCGGCGTTCGCGCAGCCCGAGTACACGGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTC
W
GCGCGAGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTTGTGGAGCGGCGGGTGGGCGAGCGCTCGCTGTCGAGCTACATTTCGGTGCACA
Celera SNP ID:            hCV25965101
SNP Position Genomic:     62758
SNP Source:               Applera
Population(Allele,Count): african american(A,9|T,21)   caucasian(A,5|T,15)   total(A,14|T,36)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24686):
ACTTGTCTTGGTGTGCTAGCCTACACCTTCTCTTTGGTTTAGTTTTCCTTTTCTATAACACTCTGAATTGCTAATCTTACTAACACCTATGATGTTACCT
K
AAATCAATCTCCCATATGTATGCTGTATGCTATGCTAAGACTCCTGAAATATACTTACTCTGTGCTTGTGTATGTGAATGTTAATGCAACTATTACCTAG
Celera SNP ID:            hCV985842
SNP Position Genomic:     231312
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;TSC_42_A(T,0|G,84)   TSC_42_AA(T,0|G,84)   total(G,168)   no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:24687):
CTCTGGAACCCCATTAACTTTCTCAAGTATAATTAACAATTTCTTCTTCTGGAGTCCCACAATACTTTACATATACTTTAGTTATTGCATGTATTAAGTT
R
GTTTCTAGTTGCTTGAGTGTATGTCCAACTAGACTGTGAGCACACTGAGGGAAGGAATTTGGCTTGGAAAGTAAAATTGGCTCCCAGTGTTTTATCTAAA
Celera SNP ID:            hCV985843
SNP Position Genomic:     228673
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   (G,-|A,-)   no_pop(A,-|G,-)   no_pop(G,-|A,-)   TSC_42_C(A,0|G,84)   TSC_42_AA(A,4|G,79)   total(G,163|A,4)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24688):
TCGAAAAGGGAAGTAAATGCAGCATTTTTTTTAATTGTTAAATAAAGGGCTGGGCTTGGAAATGTTCTTAGGTAATCCTGGTGGATTTGGTATATCATGT
Y
TGAGAAAATGTGGAGAGTGAAGGGCAGGTTTAAAATTTGTCTCATGTTAGTTTCTGAAGGGAGATAGCCTGGCATTGCACAGTGCCTCACATTTCTATCG
Celera SNP ID:            hCV985846
SNP Position Genomic:     215731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24689):
CACAAGTGATGCCAGGAGATGGGGCAACACATATTGCCTGCCTTGTATGCATCTAGCGTCTGTGTCTAAGTGAAAGCAGATTATATCCAGAACTTCCCTG
R
AAAATAGAAGAAAGAGCCTGATTGGTGTGTATGTGTGTGTTAGGGGTTGAGGGGTGGGTAATGTTCCTGCCAGTATTCGTAAATCCCACCTGCTTTTCCT
Celera SNP ID:            hCV985847
SNP Position Genomic:     212617
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,420|A,1075)   total(G,420|A,1075)   no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24690):
CTGAAATTGTCTATCTCCAAGGGCGTGGGCTAGGCAAAGGATGGGAGAAGTCAGTCCTGAAGATGGTAATACTTAAAGGAAATAAGGGGGACAAAGGATG
Y
TTGTGCTACTATTGAAACAGGAAATTGAGAGCTCTGTAGAAGTCAGACTCAAGAGGCATAATAATAGAAAGTTAGGGTATGAAAAGGTGACTTTTAAGAA
Celera SNP ID:            hCV985848
SNP Position Genomic:     210064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24691):
AGGGTCTTTCATGGCAATATTTTAAAAGAAACTCTGCCCAGATTTCAAAGGAACGTGAAAATTTTATCTTCAGAGGCAGTCAGCTTTGCAGTTGAAAAGG
Y
CATTGCCTAATCTGGAGAAACATATTCAGTTCAAGCACTGGCTAGAGACTAGAGGCCCCCAGGAAAGGGCCATAAGATTGGTCACTGCCAGGAAGCCTGT
Celera SNP ID:            hCV985849
SNP Position Genomic:     209713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)   JBIC-allele(C,74|T,1423)   total(C,74|T,1423)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24692):
AGGAGCTAGAGCTGCTGCAGTTCCAGGTGAGCGCGCGCGACGCGGGCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAA
Y
GACAACGCGCCGGCACTGCTGGAGCCTCGGGTGGGTGGCACTGGTGGCGCAGCGAGCAAGCTGGTGCCGCGGTCTGTGGGCGCGGGCCACGTGGTAGCGA
Celera SNP ID:            hCV25963296
SNP Position Genomic:     63001
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,26)   caucasian(C,11|T,29)   total(C,21|T,55)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24693):
ATCTGAAATATCAGCTCATAGAAAGTAACAAAATTTGCTGTCACCTTAAATAAGACATTTTAATTTTGTTATAATGTACAATTTAGAAGTTTGATTAATT
R
TATTATCTATTTAGGCATTAATATAAAAGAGGTAGGAGTCTGTTATTTAAAAAAAGCATTAAATTTAAAAAAAAACTGTCTTGTCTACTTTTAGCTTCAT
Celera SNP ID:            hCV3169711
SNP Position Genomic:     231865
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:24694):
CAGTGGGCTCATGCCTGTAATCTTAGCATTTTGGGAGGCTAAAGTGGACAGATTGCCTGAGCTCAGGAGTTCGAGACCAGCCTGGGCAACATGATGGAAC
M
CCATCTCTACTAAAATACAAAAAAAAAAAAAAAAAAAAAAATTAGCCAGGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCACGA
Celera SNP ID:            hCV3169712
SNP Position Genomic:     227352
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24695):
AGAAGGATTGTTGAGCTGAAGGCAAGTTAAAAGAAGCAGATACAGGCTGGGTGCAGTGGGCTCATGCCTGTAATCTTAGCATTTTGGGAGGCTAAAGTGG
R
CAGATTGCCTGAGCTCAGGAGTTCGAGACCAGCCTGGGCAACATGATGGAACACCATCTCTACTAAAATACAAAAAAAAAAAAAAAAAAAAAAATTAGCC
Celera SNP ID:            hCV3169713
SNP Position Genomic:     227299
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24696):
AAGTGCGAGTAATTGGGGGGCTGGATTATGAGGAAGCCTCCTCCTACCAGATCTATGTGCAGGCGACTGACCGGGGTCCAGTGCCCATGGCAGGTCACTG
Y
AAGGTGCTGGTGGACATCGTGGACGTGAATGACAATGCCCCAGAGGTGGTGCTCACGGACCTGTATAGCCCAGTGCCTGAGAATGCTACACCCAACACCA
Celera SNP ID:            hCV25996790
SNP Position Genomic:     187793
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,7|T,1)   total(C,38|T,4)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24697):
GTGAATAAACAGATACATTTTTTGCCTTTGTGAATCTTACAGTGGTAGAGAATAATAGGCCAAGGGGGTGCTGCTTGGCTAGGAATGTCATAGAATGCCT
K
TCCAAGGAGGTTACATTTAATACAGACTTGAAGAGTGAGGAGTCATGCTAAGAATGGATGAGAGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGA
Celera SNP ID:            hCV3169714
SNP Position Genomic:     225346
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24698):
CAAATTCTTTCGTAATCAGCAAAAGGAAGTCATTCCTTTTCGCACTGGAAAGACGCTCCACTCTCTTTCACTCTTTGGATGCACAACAATGGCCACACAT
M
GAGATTGAAATGAAGGGATAAAAACATTCCTATAAATTCGAAGGCAAGTTTTGCTGACTAGAAAAACAAGCCAATAATTTGAAATGGTGTGCCCGAATGG
Celera SNP ID:            hCV25631150
SNP Position Genomic:     54305
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,38)   total(A,1|C,75)
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24699):
AGGATAGTTACATTTAATCTATAAATCAACCCTATGGGGCGGGCACTCTTATGAACTTTTTTTACGGATGAAAACTGAGGCCCAGAGATATGAAATAATT
W
GCCAAACATCACCATAATTTACATGATGTAGCCAGGTTTAAGCCTACTATTCTGATTACAGAGCCTAAGATCCTACAGAGAACAGGGAGTATATTTTTAC
Celera SNP ID:            hCV3169715
SNP Position Genomic:     221289
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,15)   total(A,1|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24700):
TCTCCCTTCCCAGCCTCAAAGGAATACAGTGAGTAGATTTTCCTTAGACAGAAAGGAAAAGAACCTTCCATTTTTGGCTGTGCCAAGAAGCTCAGAAAGG
Y
GATAATATAAAAAATATATAGTTAATTGGGAATTGAATTTACAAAATACATTGTGTGGTGATGCAATAGAAAGCTCATAATTGGAACGAGATTGAGATGG
Celera SNP ID:            hCV25631151
SNP Position Genomic:     41678
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,19)   caucasian(C,22|T,16)   total(C,29|T,35)   
SNP Type:                 INTRON;UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,23|T,17)   total(C,30|T,48)
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): Myers-Chimp(C,0|T,20)   Myers-AT(C,24|T,24)   total(C,24|T,44) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24701):
GTGAGTAGATTTTCCTTAGACAGAAAGGAAAAGAACCTTCCATTTTTGGCTGTGCCAAGAAGCTCAGAAAGGTGATAATATAAAAAATATATAGTTAATT
S
GGAATTGAATTTACAAAATACATTGTGTGGTGATGCAATAGAAAGCTCATAATTGGAACGAGATTGAGATGGTATATTCCCGGAGAGGAAGTCTGGGATC
Celera SNP ID:            hCV25631152
SNP Position Genomic:     41706
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,29)   caucasian(G,40)   total(C,9|G,69)
SNP Type:                 INTRON;UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,24)   caucasian(G,40)   total(C,4|G,64)   
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): Myers-Chimp(C,0|G,20)   Myers-AT(C,0|G,48)   total(G,68) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24702):
TAACTCTTTGAGAACAGGGTACTTGTCCTAATATTATTCATATTTATATCCCTAATTCCTAATTTAATGTCTAATTTATTGTAAATAAGTTTTTTTTTTT
T
GAGACAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTC
Celera SNP ID:            hCV3169717
SNP Position Genomic:     218559
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,10)   total(-,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24703):
TGGCTGTGCCAAGAAGCTCAGAAAGGTGATAATATAAAAAATATATAGTTAATTGGGAATTGAATTTACAAAATACATTGTGTGGTGATGCAATAGAAAG
Y
TCATAATTGGAACGAGATTGAGATGGTATATTCCCGGAGAGGAAGTCTGGGATCCCGGCTCCTGCTGCTCTGGCTTCTCCTCGCCTACTGGAAGGCAGGG
Celera SNP ID:            hCV25631153
SNP Position Genomic:     41752
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): Myers-Chimp(T,0|C,20)   Myers-AT(T,0|C,48)   total(C,68) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24704):
CCAATTTGCTGTTGGTATCTATGTTTTCTAAACAATACAATATACATTCTTATACATATTTCTTATGCATGCTTGCTAGTATTTATACAGGATAAATTTC
M
AGAAGTAGAATTACAGAATCATAGGATATAAAAATATCAAATTGGCAAATTGGCATTCACGTACCTGTGGTTGGACTGCACTTGTTACATACTTCCCTCT
Celera SNP ID:            hCV3169718
SNP Position Genomic:     217875
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,9)   total(A,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24705):
TGTGGTGATGCAATAGAAAGCTCATAATTGGAACGAGATTGAGATGGTATATTCCCGGAGAGGAAGTCTGGGATCCCGGCTCCTGCTGCTCTGGCTTCTC
Y
TCGCCTACTGGAAGGCAGGGAGCGGCCAGCTCCACTACTCGATCCCGGAGGAAGCCAAACACGGAACCTTCGTTGGCCGCATCGCGCAGGACCTAGGGCT
Celera SNP ID:            hCV25631154
SNP Position Genomic:     41832
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,40)   total(C,69|T,7)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24706):
AATGGGACCCAGGGTCTGTCTATGTTATAATCAATTCAAACCCTAGGTAAATAAGGTAAGCTAGGCTGCCTTTCTTGAGACAGTCCCCAGATTGTTTTCA
Y
AGGGCCCAAACACTCTCAGCAACCATGAACAGTGGATGTTGTGGGACCTCAGAAGATGGAATTGGAAATTCAGGGGACTAAGTCAGAGATTATTTGACAT
Celera SNP ID:            hCV3169719
SNP Position Genomic:     214283
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24707):
TGGTGATGCAATAGAAAGCTCATAATTGGAACGAGATTGAGATGGTATATTCCCGGAGAGGAAGTCTGGGATCCCGGCTCCTGCTGCTCTGGCTTCTCCT
Y
GCCTACTGGAAGGCAGGGAGCGGCCAGCTCCACTACTCGATCCCGGAGGAAGCCAAACACGGAACCTTCGTTGGCCGCATCGCGCAGGACCTAGGGCTGG
Celera SNP ID:            hCV25631155
SNP Position Genomic:     41834
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,17|T,23)   total(C,46|T,28)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24708):
CTTACCCTTTCATCCACATGATGTCGCTGGACACCGGAAGGTTTTTCTCCCTTCCCAGCCTCAAAGGAATACAGTGAGTAGATTTTCCTTAGACAGAAAG
R
AAAAGAACCTTCCATTTTTGGCTGTGCCAAGAAGCTCAGAAAGGTGATAATATAAAAAATATATAGTTAATTGGGAATTGAATTTACAAAATACATTGTG
Celera SNP ID:            hCV25631156
SNP Position Genomic:     41633
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,38)   total(A,2|G,76)
SNP Type:                 INTRON;UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,38)   total(A,2|G,76)   
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24709):
TGTCGGTCTATGAGCTGGTGGTGACCGCGCGGGACGGGGGCTCGCCTTCGCTGTGGGCCACCGCCAGCGTGTCTGTGGAAGTGGCCGACGTGAACGACAA
Y
GCTCCGGCGTTCGCGCAGCCCCAGTATACCGTGTTCGTGAAGGAGAACAACCCGCCAGGCTGCCACATCTTCACGGTGTCTGCACGGGACGCGGACGCGC
Celera SNP ID:            hCV25631157
SNP Position Genomic:     43124
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,6)   caucasian(C,25|T,13)   total(C,51|T,19)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24710):
AATGTGTGAAAAGTTAGATATCAATGAATGAATATTCTTAAATGTATAAACTTTAATCTTGCTGGATATAGGATAAAATTTACATTAAAACACTGTAATT
H
GTCAATTTAAGTAAAATAAATTCAAGGAAGTGGTCTGAATTTCTCAGTGAGCATTTAGATATTTATGGGAGTCATATAAAATAATTTATAAATGTGACTG
Celera SNP ID:            hCV2925548
SNP Position Genomic:     176960
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,5|T,5|-,9)   total(A,5|C,5|-,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24711):
CCGTGTTCGTGAAGGAGAACAACCCGCCAGGCTGCCACATCTTCACGGTGTCTGCACGGGACGCGGACGCGCAGGAGAACGCCCTGGTGTCCTACTCGCT
K
GTGGAGCGGCGGGTGGGCGAGCGCCCGCTGTCGAGTTACGTTTCGGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAAG
Celera SNP ID:            hCV25631158
SNP Position Genomic:     43253
SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,3)   caucasian(G,34|T,2)   total(G,57|T,5)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24712):
GTGGGCCGGATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCGGGTGGCGTCCAAAAGACACCGGGACCTTCTGGAGGTAA
R
TCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGTGGAC
Celera SNP ID:            hCV25968525
SNP Position Genomic:     61557
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,7)   caucasian(A,13|G,23)   total(A,42|G,30)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24713):
TGTGTAAAAGGTTTTTTCCCAAAAATAATCAGATGCCTTTCAAATTATTAAGTAACATGCAGCTAAGGGCCCATTTTTACTGGCAACTTTAAGGGCATTC
R
TTGATTCTAATCAGCCAGGATTTGCTATTTATGGATGTTGCACAATTCAACTAAAAGTCACATTTGTCCAAAAAATATACGAGTTGAAGCAATTCATTAG
Celera SNP ID:            hCV985850
SNP Position Genomic:     203877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24714):
ACTCAGGTGCCAACGGGCAGGTGACCTGCTCCCTAATGCCCCACGTTCCCTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAG
Y
GCCCTGGACCGCGAGAGCGTGTCGGTCTATGAGCTGGTGGTGACCGCGCGGGACGGGGGCTCGCCTTCGCTGTGGGCCACCGCCAGCGTGTCTGTGGAAG
Celera SNP ID:            hCV25631159
SNP Position Genomic:     43004
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,40)   total(C,69|T,3)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,40)   total(C,73|T,3)   
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24715):
GGCCAAACACGGCACCTTCGTGGGCCGCATCGCTCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCGGGTGGCGTCCAAAAGACAC
S
GGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGAAGCTGTGCGGGCGGAGCGCGGAGTGCAGTATCCA
Celera SNP ID:            hCV25959705
SNP Position Genomic:     95693
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,39)   total(C,1|G,77)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24716):
CACCGAGTTTAATGTAAAGTTCCCCAGTTGCTGTGCTTTACTTCCTCCAAGTGCGCAGACTCCCCACGTTGCTCAGCTGCTGCTGGGGGATATGGGAGGG
S
TGATGGTGGTGATCCCAGAGTGTCTCTCCAACCCTCTTCAATGCCTCTTTTAGTGATACGTTGTTAAATCTAGGTACTACGATTGCTCACCTGATGTTTG
Celera SNP ID:            hCV3297561
SNP Position Genomic:     137171
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24717):
GTCTCTCCAACCCTCTTCAATGCCTCTTTTAGTGATACGTTGTTAAATCTAGGTACTACGATTGCTCACCTGATGTTTGGTTTTTGTAATGACGCTTTTC
Y
GTGTGCAGATAGTTGTTACAATTTGGTGTTCATGTGGCGGGGGAGGGGGGGGATGGTGTAGGCTTCTGTTCCACTATCTTGCTCCACCTCAATAGTCTGA
Celera SNP ID:            hCV3297562
SNP Position Genomic:     137293
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24718):
AAATCTAGGTACTACGATTGCTCACCTGATGTTTGGTTTTTGTAATGACGCTTTTCCGTGTGCAGATAGTTGTTACAATTTGGTGTTCATGTGGCGGGGG
R
GGGGGGGGATGGTGTAGGCTTCTGTTCCACTATCTTGCTCCACCTCAATAGTCTGATGTGCAGAAGCTCTTTAGTTTAATTAGGCCCCATTTGCCAATTT
Celera SNP ID:            hCV3297563
SNP Position Genomic:     137337
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24719):
CGACGTGGGCGCCAACTCAGTACAGACCTACGAGCTCAGCCCCAGCGAGCACTTCGAGCTGGACCTTAAGCCCCTGCAGGAGAACAGTAAAGTGCTTGAG
S
TGGTGCTGCGTAAGGGCCTAGACCGGGAGCAGGCAGCCTTGCACCACCTGGTTCTCACAGCCGTGGATGGGGGCATCCCAGCCCGCTCGGGTACGGCACA
Celera SNP ID:            hCV25991787
SNP Position Genomic:     187371
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,20)   total(C,56|G,2)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24720):
GGCTTCTGTTCCACTATCTTGCTCCACCTCAATAGTCTGATGTGCAGAAGCTCTTTAGTTTAATTAGGCCCCATTTGCCAATTTTTGTTTTTGCTGCAAG
W
GCGTTTGGCATCTTTGTCATGAAATCTTTGCCAGGGCCTATGCCCAGAATGATATTTTCTAGGTTTTATTCTACGGTTTGTATAGTTTTAGGTTTTACAT
Celera SNP ID:            hCV3297564
SNP Position Genomic:     137454
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,6)      total(A,5|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24721):
CAATATTATCTTTTTTTTTTTTTTTTGAGACAGATTCTCATTCTGTTGCCCAGGCTGGAGTAAAGTGGTACAATCTTGGCTCACTGCAATCTCTGCCTCC
Y
GGGTTCAAGCGATTCTCCCACCTCAGCCTCCCGAGTAGCGGGGATTACAGGCACCCACCACCACACCCGGCTAATTTTTATACTTTTAGTAGAGACAGGG
Celera SNP ID:            hCV26312500
SNP Position Genomic:     155994
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24722):
TTAAGTCATGAGGGCAGAGCCCTCATGAATGGGATTGGTGCCCTTATAAAAGAGGCCCAGAGAGGTGCCTTGCCTCTTTCACCATGTGAGGACACAGCAA
R
AATGTGACATCCATGAACCAAAAAGTGGCCCCTCCCCAGACACTAAATCTGCTGGTGCCTGAATCATGAACTTTCAAGCCTCTAGAACAGTGAAAAATAA
Celera SNP ID:            hCV3297565
SNP Position Genomic:     138800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24723):
GCGCATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAATAATAATAATAATAATAATAATAATAATA
A
AGCGAGGGTGGGTATCTAGCCTATTCTTATCCTGCCTCATGGTGTTTTCTAAATATTTACAGAAAGAAAATTTACAGAGTAGTTTCCTGGTCAAACTCTA
Celera SNP ID:            hCV26312501
SNP Position Genomic:     145687
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24724):
TGGTGCCTGAATCATGAACTTTCAAGCCTCTAGAACAGTGAAAAATAAATCTCTCTTGTTTATTAACTACACAGCATATGGCATTTTGTTATAATATCCT
K
AACAGACTAAGACAGATATCGTTTAGGTTAGTTGGTTTTTAGTGTTGTTCACATCTTTCATTTCCTAGTGATCTTCTGCCTAGTTGTTGTCCATTATTGG
Celera SNP ID:            hCV3297566
SNP Position Genomic:     138953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,10)      total(G,10|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24725):
GGCGCATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAATAATAATAATAATAATAATAATAATAAT
A
AAGCGAGGGTGGGTATCTAGCCTATTCTTATCCTGCCTCATGGTGTTTTCTAAATATTTACAGAAAGAAAATTTACAGAGTAGTTTCCTGGTCAAACTCT
Celera SNP ID:            hCV26312502
SNP Position Genomic:     145686
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24726):
AGCTCTATTATGTTATAGTAGAGCTCATACTATATTATGGTTTCAAAGGTAATAAGAAAAATATCATCAGATCATCATTATGGTAGCTATTTTAAGGGAA
Y
TTAATAAAAATTTAACAGTTATCATCAAACACTGGCCACCTCAATTTTAAACAGTAAACACACGAATTACTCCCATAAAAATTATAAGCATAACAGGACA
Celera SNP ID:            hCV3297567
SNP Position Genomic:     141657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24727):
TGGCGCATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAATAATAATAATAATAATAATAATAATAA
T
AAAGCGAGGGTGGGTATCTAGCCTATTCTTATCCTGCCTCATGGTGTTTTCTAAATATTTACAGAAAGAAAATTTACAGAGTAGTTTCCTGGTCAAACTC
Celera SNP ID:            hCV26312503
SNP Position Genomic:     145685
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24728):
ATATATACAGTATATATATAAGATTTTAGAAAGGAGGATAAATATATATTACATGATAAAACTTATAGTCAATATAATTTTACACTTGTAAAATCCCAGA
R
AACCAAAGGAAAAAATAGAACTAAAAAAGAGTTCAATGAAATGATTAGTTTAAAAAAATAAATATAAAAAATGTAATTTTCCCACATACCTTCAAAATGT
Celera SNP ID:            hCV3297568
SNP Position Genomic:     141964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,8)      total(G,6|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24729):
ATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGTAGA
M
AGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAAGGACATTAACGACAACCCTCCAGTGTTCCCAGCGACACAAAAGAATCTGTTCATCGCGGAAT
Celera SNP ID:            hCV25967589
SNP Position Genomic:     68829
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(A,13|C,15)   total(A,13|C,49)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24730):
ATGGCGCATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAATAATAATAATAATAATAATAATAATA
W
TAAAGCGAGGGTGGGTATCTAGCCTATTCTTATCCTGCCTCATGGTGTTTTCTAAATATTTACAGAAAGAAAATTTACAGAGTAGTTTCCTGGTCAAACT
Celera SNP ID:            hCV26312504
SNP Position Genomic:     145684
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,5)   total(A,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24731):
CTGCCTAGTTGTTGTCCATTATTGGAAGTGGAGTATTAAAGTCTCCAGTTATGACTATTGAATTGTCTATTTCTCCCTTCATTTCTGCCAGTTTTTGCTT
C
ATGTGTTTTGGGGCTCTATTATTAGATGCAAGTATGTTTTTAGTTGCTATATCTTCCTGATTGGTCCTTTTGTCATTATAAAATGTCCTTCTTGATTTCT
Celera SNP ID:            hCV26312505
SNP Position Genomic:     139129
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,13)   total(C,1|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24732):
CTAGGGCCTGGAATGCGGGCCTCATGACTCTACTCAATGCCCTATCCTACTGTGGCTGAGCTGGTATCCAAGATGCAAGACAAAGTCCTCTTTACTCTTT
K
CTCTCCTCTCCTTAAGCAGAAGGAAGGAGTGACTTTTGTTGCTGCAAGCTTCACTGCCTGGGATTAGGGGAGGGGTGGCACAAGCACTCCCTTAGCTGCC
Celera SNP ID:            hCV26312506
SNP Position Genomic:     136694
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,3)      total(G,3|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24733):
CTCATTTCAACAGTAGACACCTGGCAAGGCTGTGCATGCACCTTTCATTGCAGGTCAGCCACTGGTATGATAAGAACTTGTGTCCAATTTCCCGCAATTT
Y
AGCTCTTTCTCTACAGGAGATAAGACTCTCACTCAGGGCAATCTTAGCAGGTTTGAGGTTCAGTATCTGCTTCTGAAGCTAGGAATTAGAATCCCTAAGT
Celera SNP ID:            hCV26312507
SNP Position Genomic:     131451
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24734):
GTGGAAAGGCTGATGGCAGTGTGGGTTGGGGAGGACATGTTGCCACTACTGGGGATGAGAAAGCTGTTTCTTCTGGCAAAAAAAGTTTCATCAGAATTTA
Y
AATCTCAGTGTCCCCAGCTTCATCAGGGTCCTTTTACATATCCCCATTCCAAGTTTCAGGATCCCATTCTTTTCCAATCAATGCCCTCATTTCAACAGTA
Celera SNP ID:            hCV26312508
SNP Position Genomic:     131265
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24735):
TGGGTCATATGGCTCGAGAAACAGAGCAACTTGCACACAGCCTGGACGTGTTGTAGAGTCTTCTCCTGTTCTGTACTACATTAAAAAGTGAGAGCCTTTT
K
GGTTACTCGATAAATGGGCTGGAGTAACATACCCAAATGAGGAATGTGTTGCCTCCAAAATCCAATAGTCCCAAATAAGCCTCTTTCGTGGTTGTAGGAG
Celera SNP ID:            hCV26312509
SNP Position Genomic:     128823
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,8)      total(G,8|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24736):
CCCTTTTCTAAGAGCAAAGATGGAAATGTGGAGAGAGGAGAAAAATGGTTCCCATTACATTATTGTGTTCTGGACTTAGAGATATTGTTCTGCCCCAGGT
Y
TAAGAATATTGTTCCAAGAGTTGGGAGCAGGCAGCAGAGGACAGTACTCTTTAGATCACCCAGAGGCCAATCTGTAAGGATTCAATCCTGGGGCATGGTA
Celera SNP ID:            hCV3169720
SNP Position Genomic:     212396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24737):
AATTAAAGCTCATAAGAATTAAGTGGCTTTCTTACATTCACACAGCTAGTAAAAATGTTTTTTGCTCACCATTGTATTCCCATTGTCAAGCAGGATGCCT
R
GCACACAATGATGCTCAATAAATTTTGTTAAATTCATTAATAAATGCAGTGGTAAAGGCAGTATTTGAACTCATGTCTGCTTGCTGCTGAACTCTATACA
Celera SNP ID:            hCV3169721
SNP Position Genomic:     211163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24738):
GAGTGGGTCGTTGCTGGGTCAAGTTTTATAAGTCTTTAAATCCCATACTGTTGCCTCCTGGACTGTAGAAATAGTCTCTTAGAACAAGAGAAAGGAAGAC
R
ATAGCTACCATTTATTGAGAACTGTGATAAGCACTTTACATATGTTGCATACTTAACTTTGAGAGAAGTACATTATTATTCCCATGTTTCAGATAAAAAA
Celera SNP ID:            hCV3169722
SNP Position Genomic:     210963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24739):
TCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGCGCCCTGGACCGCGAGAGCGTGTCGGTCTATGAGCTGGTGGTGACCGCGCG
R
GACGGGGGCTCGCCTTCGCTGTGGGCCACCGCCAGCGTGTCTGTGGAAGTGGCCGACGTGAACGACAACGCTCCGGCGTTCGCGCAGCCCCAGTATACCG
Celera SNP ID:            hCV25631160
SNP Position Genomic:     43055
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,40)   total(A,3|G,73)   
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(G,40)   total(A,5|G,69)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24740):
CTGACAGCCACAGCCACAGTGCTGGTGTCGCTGGTGGAAAGTGGCCAGGCGCCGAAGGCCTCATCGCGGGCGTCGGCGGGCGCTGTGGGTCCCGAGGCTG
Y
CCTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGTGCGGTGTCCAGCCTGCTGGTGCTCACGCTGCTGCTGTACACCGCGCTGCGGTGCTCGGCG
Celera SNP ID:            hCV25631161
SNP Position Genomic:     43846
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,16)   caucasian(C,22|T,16)   total(C,36|T,32)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24741):
ACGCGCCGGCGCTGCTGGTGCCTCGAGTGGGTGGCACCGGCGGCGCAGTGAGCGAGCTGGTGCCGAGGTCAGTGGGTGCGGGCCACGTGGTGGCGAAGGT
R
CGCGCAGTGGACCCTGATTCGGGCTACAACGCTTGGCTTTCGTATGAGCTGCAGCCAGCGCCTGGCAGTGCGCGCATCCCGTTCCGCGTGGGGCTGTACA
Celera SNP ID:            hCV25631162
SNP Position Genomic:     43553
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,28)   caucasian(G,38)   total(A,8|G,66)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24742):
AGAGGGCGCGTCGGATTTGGATATTGGAGCAAATGCACAATTGAGATACAGGTTAAATCCAAACGAATATTTTGACTTAGATGTTAAAACAAATGAAGAA
R
AAACGAACTTTTTAGAGCTGGTTTTGAGGAAATCCTTAGATAGAGAAGAAACACAAGAACACCGTTTATTAGTGATTGCAACTGATGGAGGAAAACCCGA
Celera SNP ID:            hCV25631163
SNP Position Genomic:     42333
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24743):
AGTTCAGTTGTTGATCAATGTATTGGATGCTAATGATAACGCCCCAGAATTTGATAAATCCATTTATAATGTCAGATTGTTGGAAAATGCACCAAGTGGG
R
CATTAGTTATTAAACTGAACGCCTCAGATGCAGATGAGGGCATCAATAAGGAAATAGTGTATTTCTTTAGTAATCTTGTTCTTGACGATGTAAAGTCCAA
Celera SNP ID:            hCV25631164
SNP Position Genomic:     42546
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24744):
CTCTCAGCCAAAGTGAGTAATTTTTATTTATTCTTTCCAAAATGTCTTTGTTTTTCATTCCTCAATGTTTCCACTCCTCTGGAAATACATTAATAGTTAA
K
TATGAATTATGTGATTCATAATTAGACTTTTCCAGTTTTGTGGTTTTGTGGTTAAAACGCTAAGATTTTTGTTGCTAATTTTTGAACCAAATCAGCAGTA
Celera SNP ID:            hCV25631165
SNP Position Genomic:     23653
SNP Source:               Applera
Population(Allele,Count): african american(G,21|T,5)   caucasian(G,40)   total(G,61|T,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24745):
CCTCAATGTTTCCACTCCTCTGGAAATACATTAATAGTTAAGTATGAATTATGTGATTCATAATTAGACTTTTCCAGTTTTGTGGTTTTGTGGTTAAAAC
S
CTAAGATTTTTGTTGCTAATTTTTGAACCAAATCAGCAGTAAGTTATGATATCCACACTTGTAATTTTGTTTTGTTATTAGGTGCAGTAGTAGAATTATT
Celera SNP ID:            hCV25631166
SNP Position Genomic:     23712
SNP Source:               Applera
Population(Allele,Count): african american(G,20)   caucasian(C,1|G,37)   total(C,1|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:24746):
GCCTACTGGTGCTGGTGAAGGACCACGGTGAACCCTCATTGACCGCCACGGCCACTGTGCTGGTGTCGCTGGTGGAGAGTGGCCAGGCACCCAAGGCCTC
K
TCCCAGGCGTCCGCTGGCGCCACGGGCCCGGAAGCTGCACTGGTGGATGTCAACGTGTACTTGATCGTCGCCATCTGCGCGGTGTCCAGTCTGTTGGTGC
Celera SNP ID:            hCV25631167
SNP Position Genomic:     23207
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,39|T,1)   total(G,77|T,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24747):
CCAAATGGTACCCTAGTGGTGACCGTTAACGCCACCGATTTGGATGAAGGAGTAAATAAGGATATCGCGTATTCTTTCAATACGGACATGTCAGCAGATA
Y
TCTGTCAAAATTCCATTTAGATCCAGTCAATGGACAAATCAGTGTAAAGGGTAACATAGATTTCGAGGAAAGTAAGTCATATGAAATCCAGGTAGAAGCC
Celera SNP ID:            hCV25631168
SNP Position Genomic:     22036
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(C,6|T,34)   total(C,7|T,65)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24748):
CATGTCAGCAGATATTCTGTCAAAATTCCATTTAGATCCAGTCAATGGACAAATCAGTGTAAAGGGTAACATAGATTTCGAGGAAAGTAAGTCATATGAA
R
TCCAGGTAGAAGCCACGGATAAAGGAAATCCCCCAATGTCAGATCACTGCACAGTTCTACTCGAAATTGTGGACATCAATGATAATGTACCTGAGTTAGT
Celera SNP ID:            hCV25631169
SNP Position Genomic:     22122
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,19)   caucasian(A,23|G,17)   total(A,38|G,36)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,698|A,797)   total(G,698|A,797)no_pop(G,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24749):
AAGCTGATCTTATAGAAGCAGAGAGTATAACAGTGATTACCAGAGATGGGTAGGGCAGTAGTAAGGAGGAGAGATTGAGGAGAGGTTGGTCAATGGGTAC
R
AAGTTACAATTAGATAGGAAGAATAAGTTCTGGTGTTTTATTGAACAGTAGAGTGTAGTTAAGAATAATGTATATTTCAAAATATTATAGAATAGAGGAT
Celera SNP ID:            hCV8940003
SNP Position Genomic:     166884
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,8)      total(G,8|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24750):
CAGGCACAGAAAGACAAATACTGCATGATCTCATTCATGTGGAATGTAAAAAAGCTGATCTTATAGAAGCAGAGAGTATAACAGTGATTACCAGAGATGG
R
TAGGGCAGTAGTAAGGAGGAGAGATTGAGGAGAGGTTGGTCAATGGGTACGAAGTTACAATTAGATAGGAAGAATAAGTTCTGGTGTTTTATTGAACAGT
Celera SNP ID:            hCV8940004
SNP Position Genomic:     166833
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,7)      total(G,7|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24751):
GGCAGCCTCAGGGCGTTGTCCTAGAAAACACCGTTTAAGGAGAGAAGTGTTAGTGTCTCGGGGCGTCTCCCAGGCTCCGCCCTGCGCCCGCAGCCAGCGT
K
GTGGTCGAGACCCCAGCCCGCTGCTACTGGAGACAGCACCTCTCGCGCCCGGGCGGGCGGCCTCGTCTCTGCACCCCTAGGCGGCGCTGCGCTCCTCAAC
Celera SNP ID:            hCV3297570
SNP Position Genomic:     146547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24752):
CCGTATACCGCACCAAGGTTCCAGAGACTGCACCCAATGGGACTGTGTTATTCCGAGTTCAAGCCTTGGATCCAGATGAAGGGTCCAATGGGGAAGTCCA
R
TACTCCCTAAGCAACAGCACGCAAGCAGAGCTGCGACACCGCTTTCACGTGCACCCTAAAAGTGGGGAGGTGCAAGTAGCTGCTTCACTAGGTCCGCCTG
Celera SNP ID:            hCV3297571
SNP Position Genomic:     147708
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,8)   caucasian(A,15|G,23)   total(A,41|G,31)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24753):
AAGTCCAATACTCCCTAAGCAACAGCACGCAAGCAGAGCTGCGACACCGCTTTCACGTGCACCCTAAAAGTGGGGAGGTGCAAGTAGCTGCTTCACTAGG
Y
CCGCCTGAAACGCTCTTGGAGGCATACATTGAGGCGAGGGACGAAGGTGTCTTTGGTTTAGCTAGCACCGCTAAACTGCTGGTGGAGGTGACTGACGTGA
Celera SNP ID:            hCV3297572
SNP Position Genomic:     147801
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24754):
CCTTTGACAACTACTACAGCCTGCTGATTGATGGGCCCCTGGACCGGGAGCAGATCAGTGAATACCAAGTCCTGATCACGGCCTCAGATAGTGGCTCACC
S
CCACTTAGCACCCGAAGGACAATCACTGTGTCAGTTGCTGATGTGAATGACAATACACCAAACTTTCCTCAACCCCAGCAGGAACTTTTCGTTGCTGAAA
Celera SNP ID:            hCV3297573
SNP Position Genomic:     148170
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,9)   caucasian(C,31|G,7)   total(C,56|G,16)
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,5)      total(G,4|C,5) ;(C,-|G,-)   no_pop(C,-|G,-)   JBIC-allele(G,744|C,747)   total(G,744|C,747)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24755):
AGGCCGAGTGTTTGCCCAGGACCCCGACCTGGGGAAGAATGGCCTTGTCTCTTATGAGCTGTTGGATGTTATCTCTGAAGGGCCATCAGCCTCTAGCTTG
S
TGGCAGTGGAATCATCCAGTGGGGCCATCACTGCCAAAACTTCCTTTGACTTTGAGCAGCTCAGGGGGTTTCATTTCCAAGTAGAAGGCCGGGATGGTGG
Celera SNP ID:            hCV3297574
SNP Position Genomic:     148393
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,27)   caucasian(C,21|G,17)   total(C,28|G,44)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;(C,-|G,-)   JBIC-allele(C,659|G,822)   total(G,822|C,659)   no_pop(C,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24756):
TCCTTCTTAGCACTTCCTGTGCCAAGAAATCTGGAAGTATAGAAGTATTAGAAGATTGCCCTAGGCCTCAAGGGACTTATAGTTTATTTTTGAGAAACAA
R
GGCAAAAATTAAAACCTATTTAAGAACAATAAAAGTAATATGACATAAAGGTCTAAAATTAAAAATAAAATACCAAAATATTTTATAAGCAACAGATGTG
Celera SNP ID:            hCV3297575
SNP Position Genomic:     149548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:24757):
ACAAGAAAGGAAATAAAATGAAGATATTTTCTTAGTACAAATGTATAAATGCACAAACATGTTTTTAACAAAGAAGGAGGAAATACTCACGACAATTAAA
R
TCCTCATTTCTGCAACTGGTTGTGTGGTTCATAGCTGGTATTGATGACTACCTTCCTCTACTACTCATTCTGTATTCCCTTTGCCTTCAGCAAGCACCTC
Celera SNP ID:            hCV26312510
SNP Position Genomic:     126541
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24758):
AAGAAGGGAGAAAGGGAACATAAGAGAACATTTGAGTGAGGAGGAAGGAGTCAGAGAAGGCTTTGTGATAGAGATCACAGATTTAGTTGGATCTTTAATA
Y
GATATACCATTTAATAAAAAACAGTGTATTCTCTAGCCTATACTTTTAATGAATACCATTTTGGTGAAGGTGTCTTCTTTGGGAATGACACCCTAAAACA
Celera SNP ID:            hCV3297576
SNP Position Genomic:     149912
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24759):
TCACCCCCTTCCCACCCTTTCCCCCTAAGTCCCCAAAGTCCATTGTATTATACTTATGCCTTTGCATCCTCATAGCTTAGCTCCCACTTATGAATGAGAA
M
ATGTGGTGTTTGGTTTTCCATTCCTGAGTTTCTTCACTTAGAATAATGGTCTCCAGTTCCATCCAGGTTGCTGAGAATGCCATTATTTCATTCCTTTTTA
Celera SNP ID:            hCV26312511
SNP Position Genomic:     124282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24760):
ATGCTTTTGCATTATCAATGCAAGTGTAAATATAGTGAAAAATGCAAATAATGTTTTAACATTATTTTGAAAATTATATTCACCTCATAAACACCCAAAG
S
GTCCATAGACCACACTTCGAGAGCTACCGTTCTAATTCTATCATTTCTTCTTTTTTTTAATTAATTGTAACATTTCTGTAATGGGTCTTCAACTATTTGA
Celera SNP ID:            hCV3297577
SNP Position Genomic:     154514
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24761):
GACAGCATTTTTATTGAGGAAAGGATGCATTTTAAAAAACAAGTTTTTCAAAAATATAGGGAGGATTGTGGTTACTTCTAGAAACAGTAGTGCAGTCAGG
R
AAAATTCAGCACAATATGTATCAGTGGAATTCATCTGATCAAACTTAAAATATTATTCCTTGCATTATAGTTCTGAGCAGGTACCATAGATAATAGTTCT
Celera SNP ID:            hCV26312512
SNP Position Genomic:     123418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24762):
CAACTATTTGATTAGCCTGAGGTACAGTTCACACAGGAAAGGCAGGATAAATGTTTGATTCTTCCCCTTTGTTTAGCAGTATTCAAAACAATGAATTGAT
K
CCTGGCCATCTTACAAAAAGGACCAAGGCCTTTTTTAGGTGTCATTATGAACTCATTGACTTAAACATATTTGATATGGCCCAATCCATGTCAATTATCT
Celera SNP ID:            hCV3297578
SNP Position Genomic:     154704
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24763):
TAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGT
R
GACAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAAGGACATTAACGACAACCCTCCAGTGTTCCCAGCGACACAAAAGAATCTGTTCATCGCGG
Celera SNP ID:            hCV25967599
SNP Position Genomic:     68826
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,15|G,13)   total(A,49|G,13)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24764):
TCTTACATTCCTATTTCTCCCATACGTCAAATCCCAGTTTTCATTAACGTCAACAGAATTACTCATTTGTTATCCCACGGGACTCAAACAATGGACTTAG
R
AAACAATTTCAGCACTACAGAAATAATATGATACTGTAGCAGTTTAAGTTTTTGTCATTCTTTTCATTTATAAGGCACATCCTTACAAATGCCCAGTAGG
Celera SNP ID:            hCV3297579
SNP Position Genomic:     155425
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24765):
TTTGTCAAAGGTCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACATTTATTGATTTGCATATATTG
Y
ATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGACTTTTGCATCAATGT
Celera SNP ID:            hCV26312514
SNP Position Genomic:     119520
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24766):
TTTTGTCAAAGGTCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACATTTATTGATTTGCATATATT
S
CATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGACTTTTGCATCAATG
Celera SNP ID:            hCV26312515
SNP Position Genomic:     119519
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,9)      total(G,9|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24767):
TTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTCTTTGTATCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCAC
R
TCCCTTGTAAGTTGGATTCCTAAGTATTTTATTCTCTTTGAAGCAGTTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGT
Celera SNP ID:            hCV26312516
SNP Position Genomic:     118913
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24768):
TCTCTGATGGCCAGTGATGATTAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCACTTTT
K
GATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCC
Celera SNP ID:            hCV26312517
SNP Position Genomic:     118033
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24769):
AATAGGAAGCATAGAGAAAATGGATTGTCAGTGTAACTGCGTGTTGGAGGCTAAAAAGAATGTTAGAGGAGTAATATAAATAGGTGAATGACTCTAGAGT
R
TCTGGAAGGGCATATTTTAAATGGTTGACTATGTAGTCTAATTATGTGAAGAGGTAAATAAAGAAATGTAGGGCCAGATAGAAAGAATTAGAAGAGAAAT
Celera SNP ID:            hCV27503951
SNP Position Genomic:     100823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24770):
TAAGTAGAGACAGGGTTTCTCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAACATGCTGGGATTACAG
R
CGTGAGCCACTGTGCCTGGCCAATGTACTGCATTTTATTTATCCAGTGCACCATTGATGGGCATTTAGGATTATTCTCTGTCTTTGCTATTGTGAATAGT
Celera SNP ID:            hCV26312518
SNP Position Genomic:     116096
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24771):
ATGTCGCTGTCGTCCACAAAATAGCTTTTTAGAACAAAGGCATCAGCCAGTTTCTCAAGGACTAGGAAGTAGCGTCATTCTGAGATCTCAGCCATTTCGA
Y
AAAAAATAGATATAAGAAATAGGACAGAAAATGTCAGATCGTATGTGCGTTCTAGACCGCTGATTCGTCGATTTGTAAAACAAGAGAAGGATAAGATGGT
Celera SNP ID:            hCV27503952
SNP Position Genomic:     75957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24772):
AACATCCTACCGTGCACAGGACAGCCGCCCAACAATAAAGAATTAGCTCAAAATGTCAGTAGTTCCACTGTTGAGAAACTCTGCTTTAAAGAGTCTTGGA
C
TTAGTTCTGACGTGAAGTTAAGTTGCTCAGTACCAATTTATTCCTTTCAAGGCTTCATTTTAAGATTTGTTAGTACACATTCAGAGCAGCTTTTAGTGTA
Celera SNP ID:            hCV26312519
SNP Position Genomic:     108517
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,13)   total(C,1|-,13) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24773):
AAGCCACGGATAAAGGAAATCCCCCAATGTCAGATCACTGCACAGTTCTACTCGAAATTGTGGACATCAATGATAATGTACCTGAGTTAGTTATTCAATC
R
CTATCTTTACCTGTATTAGAAGACTCTCCACTTAGCACAGTCATCGCCCTGATCAGCGTGTCCGACCGCGACTCAGGAGTCAATGGACAGGTCACCTGCT
Celera SNP ID:            hCV25631170
SNP Position Genomic:     22232
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,38)   total(A,70|G,4)   
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,5)   caucasian(A,40)   total(A,69|G,5)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24774):
TTTCCAATGGCTGTAAAGAATCTGTTTATTTCCGAATCCCGACAGCCTGGCTCTCGGTTTTCGCTAGAGGGCGCATCAGATGCAGATATCGGAACAAATT
S
GTTGTTGACTTACAGTCTTGATTCCACTGAATATTTTACCTTGGACGTTAAAAGAAATGATGAGGAAATTAAATCCCTTGGACTCGTGTTGAAAAAAAAT
Celera SNP ID:            hCV25631171
SNP Position Genomic:     21667
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24775):
TCCACCTGGAGGTGATCGTGGACAGGCCGCTGCAGGTTTTCCATGTGGAGGTGGAAGTGAAGGACATTAATGACAACGCGCCAGTTTTTCCAATGGCTGT
R
AAGAATCTGTTTATTTCCGAATCCCGACAGCCTGGCTCTCGGTTTTCGCTAGAGGGCGCATCAGATGCAGATATCGGAACAAATTCGTTGTTGACTTACA
Celera SNP ID:            hCV25631172
SNP Position Genomic:     21581
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,36|G,2)   total(A,74|G,2)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24776):
AGCGGCCAGCTCCACTACTCCGTCTCTGAGGAGGCCAAGCATGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGC
M
GCGCCTGTTCCGGGTGGCGTCCAAAAGACACGGGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATAGACCGCGAGGAA
Celera SNP ID:            hCV25631173
SNP Position Genomic:     21352
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,21)   caucasian(C,30)   total(A,7|C,51)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24777):
CGTGCATTACGTATTCAGATACTGCTTTGCTTCATCCTCTCTAAAATTTAACACCGAGGAGTTTAAGAAATGAAGATAAGGAACTCGAATTATTTTTAAA
Y
TTTGGATCAATGTAAAGGCAATCTAATATTTGGAAAATACTTGCAATGTTGTTCTCCTGGCGAGAAGATCCTGGAGCCCAGTGCCTGCTGCTTTCTCTTC
Celera SNP ID:            hCV25631174
SNP Position Genomic:     21125
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,15)   caucasian(C,4|T,4)   total(C,5|T,19)   
SNP Type:                 INTRON;UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,23|T,15)   total(C,30|T,46)
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): Myers-Chimp(C,0|T,20)   Myers-TT(T,24|C,24)   total(C,24|T,44)no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24778):
TCGTGCTGGTGAAGGACCACGGCGAACCAGCGTTGACAGCCACGGCCACCGTGTTAGTGTCGTTGGTGGAAAGTGGCCAGGCACCCAAGGCCTCGTCGCG
R
GCGTGGGTGGGCGCCGCGGGCTCAGAGGCTACGCTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGCGCGGTATCCAGCCTGTTGGTGCTCACGG
Celera SNP ID:            hCV25631175
SNP Position Genomic:     16980
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24779):
GGGACGGGGGCTCGCCTTCACTGTGGGCCACCACCAGCGTGTCCATCGAGGTGGCCGACGTGAACGACAACGCGCCGGCGTTCGCACAGCCTGAGTACAC
R
GTATTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCAGCGTGGGATGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTGG
Celera SNP ID:            hCV25631176
SNP Position Genomic:     16320
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,37|G,3)   total(A,73|G,3)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24780):
GCCGGGCTGCCACATCTTCACGGTGTCAGCGTGGGATGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTGGTGGAGCGGCGGGTGGGCGAGCGC
R
CGTTGTCGAGCTACGTTTCGGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAAGTGGAGCTGCTGCAGTTCCAGGTGAG
Celera SNP ID:            hCV25631177
SNP Position Genomic:     16444
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24781):
AGGTGATCGTGGACAGGCCGCTGCAGGTTTTCCATGTGGAAGTGGAGGTGAAGGACATTAACGACAACCCGCCAATATTTCCAATGACAGTAAAGACTAT
S
CGGTTTCCCGAATCAAGGCTGCTTGATTCTCGGTTTCCTCTAGAGGGAGCATCTGATGCAGATATAGGAGTAAATGCTCTTCTCTCCTACAAGCTCAGCT
Celera SNP ID:            hCV25631178
SNP Position Genomic:     15357
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24782):
AATTTGATCAAAACATTGAGGATTGGTAATGGCGTCTTCTATCAGAAGGGGCCGAGGGGCCTGGACACGGCTGCTCTCGCTTCTGCTCCTCGCAGCCTGG
R
AGGTGGGGAGCGGCCAGCTCCGCTACTCCGTCCCCGAGGAGGCCAAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGAGGA
Celera SNP ID:            hCV25631179
SNP Position Genomic:     15010
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,14)   caucasian(A,17|G,23)   total(A,39|G,37)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24783):
GGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCTGCGCGGGACGCTGACGCGCAGGAGAACGCCCTGGTGTCCTACTCGCTGGTGGAGCGGCGG
K
TGGGCGAGCGCTCGCTGTCGAGCTACGTGTCAGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGTTGGACCACGAGGAGCTGGAGCTGCTACA
Celera SNP ID:            hCV25992678
SNP Position Genomic:     69991
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,22)   caucasian(G,1|T,1)   total(G,7|T,23)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24784):
GCAATATACAAATTCAATACAATTCGTATCAAAATTTCAATGAATTTTTTACAGAAATATAAAAAACTTCCCTAAAATTTGCATGGAACCACAAAACACC
Y
CAAATACCCAAAGCAATATTGAGCAAAGTAAATAAATAAATAAAACAAAACATACAAACAAAAAAATAAAGCTGAAGACATCATACTACCTGGCTTCAAA
Celera SNP ID:            hCV8940015
SNP Position Genomic:     165485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24785):
TTCCATACAATACACATTCTTCCCCACTTTGAGTTTTTTCACTTAAAAATATAAACGAGATTATTTCATAGTAGTATAGTATTTACACATATTCCATACT
K
CTTAATGGTGTCTTTTGATTAGCAATTAATGAGCTCCAATTTATCAATATTATCTTTTTTTTTTTTTTTTGAGACAGATTCTCATTCTGTTGCCCAGGCT
Celera SNP ID:            hCV3297580
SNP Position Genomic:     155849
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24786):
TTCTTGTGTGTCCAACATGCTATTAAAAGTATTCCTTGAGTTGTTAATTTTGGTTATTGTGTTTTTCATTTTAAAAATTATAATTATTACTGATCAAGTC
W
GCCATGATATTTTTTATAGGTTTCTGTTCCCTGCAATTTTTTTTTTCAAGACAAGTCTTGCTCCGTCGCTCAGGCGTGATCATAGCTCACTGCAATCTTG
Celera SNP ID:            hCV3297582
SNP Position Genomic:     160443
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,7)      total(A,4|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24787):
AACCCTGGAGGTGGAGGCTGCAGTAAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTCACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAA
R
AAAGAAAGAATTAAATTTTGGGAAGTCATTATTAGCAATATTGTGTAGTATCCATTGGACAGGATGAGAGTAGAGGAAAGGAGATCATTAAAATATACAG
Celera SNP ID:            hCV3297583
SNP Position Genomic:     163282
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24788):
TGGGAGATACAGTAAAATAATAAATAGATGCTATCAAGGTTCATGGAAATGTTGAGTTCAGTATGCAAAATGTCATGTAAATAGACGTAGACAATAATCA
K
TTTAATTTGTTGATCTGAGTGGGGCTGAATTCTAAATATAGACTTTGATTCATCTGCATAAGGAAGCTGGATTATGGATAAAACCATCTATGAACAATGT
Celera SNP ID:            hCV3297584
SNP Position Genomic:     163566
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,6)      total(G,5|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24789):
GCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGATGAGATCATGCTACTGTACTCCAGCTCTGGGTGACAGAGCAAGACTTCGTCTTGAAAAAAAAAAAAA
R
AAAAAAGAAAGGTCTTCCCAACTCCTATATTGAACATTCATTAATTAAATGCATTTAATAAATACTTATTGAGTGTTCTCTATGTGCCAGGCATGTTCTA
Celera SNP ID:            hCV26312520
SNP Position Genomic:     106848
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24790):
GAATTAAAGAGTTAAAGTAATTAAGAAAACAGAGACAGAACTACTGAGTACCCCCCAAAAGCAATTATCTTCAAAATATGGAAAACCAGATTGGGATACA
R
AAAGGTTTCTTGTTAAAGATAAAGGAGGCCTGAGTAAGTTTATATCTCATGGGAAAATGGTACCAGAGAAGAAAAGGTTGAAGATTAGAAGAGTTGAAAA
Celera SNP ID:            hCV3297585
SNP Position Genomic:     164057
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24791):
CTGGGGAAGCTGCCGCCTCCGGCCCTGCCCGGCTGCCTCCGCCGCGGCCAGTGGCTATGGAGCAGGCGGGCACCAGACCTGCGGCGACAGAGCATCCACG
R
CTCCGGCGGCCCATGCCCTGGCTGCTGCTACTGCCTCTCCTGCTGCTGTTGCTGCTGCTGCTACCTGGCCCTGCGGCCTCCCAGCTGCGATACTCTGTGC
Celera SNP ID:            hCV25970751
SNP Position Genomic:     186791
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,36)   total(A,1|G,63)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24792):
TAAGTTTATATCTCATGGGAAAATGGTACCAGAGAAGAAAAGGTTGAAGATTAGAAGAGTTGAAAATTAAAGGGCCAAGGCTGGTTTTTTGTTGGTTTGT
W
TTGTTTTGTTTTGTTTTTAAAGAGGGTTTTACTCTGTCGCTCAGGCTGGAGTGCAGTGATGTGATCACTGCTCACTGCAGCCTTGACACCCCGGGCTCAA
Celera SNP ID:            hCV3297586
SNP Position Genomic:     164192
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,7)      total(A,7|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24793):
CACGCCAGGCTAATTTTTTGTATTTTTAGTAGAGACGAGGTTTCACCGTGTTAGCCAGGATGGTCTAGATCTCCTGACCTCGTGATCCACCGGCCTCGGC
Y
TCCCAAAGTGCTGGCCGAGTGCCACCGCACCCGGCCGAAAGGTATTTTTTTTAACAGAAGAAAATCAGATTATTCCTAGATCAGAAAGAAGCTCCATTGT
Celera SNP ID:            hCV26312522
SNP Position Genomic:     80996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24794):
GTTTTGTTTTGTTTTTAAAGAGGGTTTTACTCTGTCGCTCAGGCTGGAGTGCAGTGATGTGATCACTGCTCACTGCAGCCTTGACACCCCGGGCTCAAGC
R
ATCCTCCTACCTCAGCCTCCTGAGTAGCTGGGATTACAAGCACGTGCCACCACACCTGGCTAATTTTTAATTTTTTATAGAGATGGAGTCTCACTGTGTT
Celera SNP ID:            hCV3297587
SNP Position Genomic:     164295
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,8)      total(G,8|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24795):
ATTTTTTATTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGC
Y
ATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGACTACAGGTGCCCGCCAACACGCCAGGCTAATTTTTTGTATTTTTAGTAGAGACGAGGTTTCACCGTG
Celera SNP ID:            hCV26312523
SNP Position Genomic:     80845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24796):
GCCATCCTCCCATGGCGGGTCATTGCACCGTTTTAGTGAGAATTTTGGATAAAAATGATAACGTCCCTGAGATAGCACTGACTTCCTTATCCTTGCCTGT
R
CGTGAAGACGCTCAATTTGGTACTGTCATCGCCCTAATTAGCGTGAACGACCTCGATTCAGGTGCCAACGGGCAGGTGAACTGCTCGCTGACGCCTCACG
Celera SNP ID:            hCV25962594
SNP Position Genomic:     49167
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,40)   total(A,72|G,2)   
SNP Type:                 SILENT MUTATION;INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,5)   caucasian(A,24)   total(A,51|G,5)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24797):
GGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGGGAGGAGCTGTGCGGGCGGAGCGCGGAATGTAGCATCCAC
S
TGGAGGTGATCGTGGACAGGCCGCTGCAGGTTTTCCATGTGGAAGTGGAGGTGAAGGACATTAACGACAACCCGCCAATATTTCCAATGACAGTAAAGAC
Celera SNP ID:            hCV25631180
SNP Position Genomic:     15253
SNP Source:               Applera
Population(Allele,Count): african american(C,24|G,6)   caucasian(C,13|G,19)   total(C,37|G,25)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,11|G,7)   caucasian(C,6|G,14)   total(C,17|G,21)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24798):
GGCTTTCGTATGAGCTGCAGCCCCCGGCAAGCAGCGCTCGCTTCCCGTTTCGCGTGGGGCTGTACACGGGCGAGATCAGCACCACTCGTGTCCTGGACGA
R
GCGGACTCTCCGCGCCACCGGCTGCTGGTGCTGGTGAAAGACCACGGTGAGCCGGCGCTGACAGCGACGGCCACGGTTCTGGTGTCGCTGGTGGAGAGTG
Celera SNP ID:            hCV25631181
SNP Position Genomic:     50007
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,8)   caucasian(A,34)   total(A,60|G,8)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24799):
ACTCCACAAAAACACTCTTGGAACTAATAAACAAAATAAAGTTGAAAGATAAAAAATCAACGTACAAAAATCAATAGCATTTCTATACACTATTGAACTA
Y
CTGAAAAATAAATCAAGAAAACCATGCTATTTACAATAGCTATGAGAAAATAAAAATACTTAGGAATAAATTTAACCAAGAGGATGAAAGACCTGCAAGT
Celera SNP ID:            hCV8940023
SNP Position Genomic:     165168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24800):
CATAATTATCTTTGGTCTTATATAAAGAAAACCCTACAGACTCCACAAAAACACTCTTGGAACTAATAAACAAAATAAAGTTGAAAGATAAAAAATCAAC
K
TACAAAAATCAATAGCATTTCTATACACTATTGAACTACCTGAAAAATAAATCAAGAAAACCATGCTATTTACAATAGCTATGAGAAAATAAAAATACTT
Celera SNP ID:            hCV8940024
SNP Position Genomic:     165129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24801):
ATAGACTAATGGATTGCATCAAACTAAAAAGCTCCTGCACAGCAAAGAAAACAAGAGTGAAGGGACAATCCACAGAATGGGAGAAAATATTTGCAAACCA
Y
AGATCTGATAAGGAGTTAACATACCAAATATATAAGGAACTCAAACAACTCAATAGTAAGAAAACAAATAACACGATTTAAAAGATGGGTAAAGGATGTG
Celera SNP ID:            hCV3297590
SNP Position Genomic:     166081
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24802):
TGTCTTGTGCTGGTTTTCAAGGGGAATGCTTCCAGGTTTTGCCCATTCAGTGTGGTATTGGCTGTGGGTTTATCATATATATGGCTCTTATTATTTTGAG
R
TATGTTCCTTCAATACCTAGTTTATTGAGCATTTTTAACATGAAGGGATGTTGAATTTTATCGAAGGCCTTTTCTGAATCCATTGAGATAATCATGTGGG
Celera SNP ID:            hCV11651089
SNP Position Genomic:     176314
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24803):
GACATTCTTGCCTTAACCCTGATCTTATGAGAAAAGTGTTCCATATTTTACAATTAAGTATGTGCTACTCATAGGTTTTTCCCAAATACTTTATTAAATT
K
AGGAAGTACCCTTTTCTGGTTTGCTCAGAGTTTTATCATGATTCATTGTTGAATTTCATCAATTTTCTTTTAATCTATTGATATGAGCATATGATTTTTC
Celera SNP ID:            hCV3297591
SNP Position Genomic:     168010
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,8|T,9)      total(G,8|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24804):
TGGAGCCTCGGGTGGGTGGCACTGGTGGCGCAGCGAGCAAGCTGGTGCCGCGGTCTGTGGGCGCGGGCCACGTGGTAGCGAAGGTGCGCGCAGTGGACGC
S
GACTCGGGCTACAACGCGTGGCTTTCGTATGAGCTGCAGCCAGCTGCAAGCAGCCCTCGCATCCCGTTCCGCGTGGGGCTGTACACGGGCGAGATCAGCA
Celera SNP ID:            hCV25961000
SNP Position Genomic:     63121
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,1)   caucasian(C,38)   total(C,69|G,1)   
SNP Type:                 INTRON;SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,24)   total(C,59|G,1)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24805):
TTGTTAGATTTAACTTGTATTTTAGTAAATATTTTTACATCTGTGTTCATGTAGAATATCTGTAAATAATTTTGTAAAGAATATCTTTTCTTCTTGAGGG
R
TAATGTTTTCATTAGGTTTTAGTATTTCTAACCTAATAAAATGACTTAGGAGGTGTTCCTTCCTCTATTTTCTGAAAGGTTGTGTAATATTGGTGTTATT
Celera SNP ID:            hCV3297592
SNP Position Genomic:     168321
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24806):
ATAATCTGTAGTGATAACATCTTTTTCATTTTTGATATTGGTGATTTGTGTTCTATCCTCTTTTTTATCAATAAGTCTAGCTGAGAATTTATCAATTTTG
Y
TGATTTTTTTCGAATAGCCAGCTTTTGGCTTTGTTGATATATTTTCTATTGTTTGGTTTCTATTTCATTAATTTCTGCTTTTGTCTGTATTATTTGCCTT
Celera SNP ID:            hCV3297593
SNP Position Genomic:     168758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,11)      total(C,11|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24807):
GTGTGATATTAATGTGGCCATTCTAGTCTCATGTTTTCTGTTTTCATGGCATATTGCTTTTTGTTCATTTTACTTTTGTTTCTTTAAAGTATGCCCTTGT
W
GAAGCGTATTGTTGGATCTTGCTGTTTTACCCATTTTGATAATATCTGCTTTTTAACTGAAGTGCTTAGCCCATTCACATTAGTGTAATATTTGATATGT
Celera SNP ID:            hCV3297594
SNP Position Genomic:     169685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,8|A,10)      total(A,10|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24808):
TCTGTTTACCTAGTCATTTACCATTTCTAGTGCCATTAATTTGTTCCTAAAGAGCTGAGTTTATCCATAATGTCTTTTTGCTTCAACCTGAAAAACTTTA
Y
TTAGCAGTTTTTGTAATGCATATATGCTGCAGTGATTTATCTTAGTTTTCCTTTATCTGAAGATCTATTTATCTTCCATTTGAATGATATAGAATTCTGG
Celera SNP ID:            hCV3297595
SNP Position Genomic:     170305
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24809):
TGCAGTGATTTATCTTAGTTTTCCTTTATCTGAAGATCTATTTATCTTCCATTTGAATGATATAGAATTCTGGGGGATTGACAGATTTTATTTTCTTCCA
Y
TTAAAAAAAATGTTATTCTACTGTCTTCTAATGCTCATAGTTTCTGATGAGAAGTGTGTAGTCATTTAAGTCATTATTCCCTGTGTGCGATATGATTGTT
Celera SNP ID:            hCV3297596
SNP Position Genomic:     170433
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24810):
GCAGTGATTTATCTTAGTTTTCCTTTATCTGAAGATCTATTTATCTTCCATTTGAATGATATAGAATTCTGGGGGATTGACAGATTTTATTTTCTTCCAC
K
TAAAAAAAATGTTATTCTACTGTCTTCTAATGCTCATAGTTTCTGATGAGAAGTGTGTAGTCATTTAAGTCATTATTCCCTGTGTGCGATATGATTGTTT
Celera SNP ID:            hCV3297597
SNP Position Genomic:     170434
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,6)      total(G,5|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24811):
CATTGACTTTTGCCTCTTTTAGCTCCATTTTTCCCAAGATCAGGCAGTGAGTTTTAATTTCAAATATTATATTTTTATTGCTAAAATTTCCATTGGCTTT
Y
TTATATTTTCCTTTTTTTCTGATAAGATTTCCTTTATTTTCATTCCTTACCAATAAGTTTTCCTTTATCTTATTGAATATATAGTAGCTACTTTAAAGTC
Celera SNP ID:            hCV3297598
SNP Position Genomic:     171077
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,9)      total(C,5|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24812):
TTTAACGAGTTTTTACTTTGCACCATGCACTTATGCTATGTGCTGTATAAGGATAGTTACATTTAATCTATAAATCAACCCTATGGGGCGGGCACTCTTA
K
GAACTTTTTTTACGGATGAAAACTGAGGCCCAGAGATATGAAATAATTTGCCAAACATCACCATAATTTACATGATGTAGCCAGGTTTAAGCCTACTATT
Celera SNP ID:            hCV26312461
SNP Position Genomic:     221240
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,13)   total(G,3|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24813):
ATGCAAGTCCGAAATCCAGTAGGGCAGTTATTAAATCTTAAAGCTCCAAATAATCTTCATTGACTCCATGTCTCACATCCAGGGCACACTCGTGTGAGGG
R
TGGGCTCCCAAGGCCTTGGGAAGCTCCACTCCTGTGGCTTTGTGGGGTTCAGTTCCTGCAGCTGCTCTCATGGGTTGGTGTTGAATGCCTGCAGCTTTTC
Celera SNP ID:            hCV3297599
SNP Position Genomic:     172116
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24814):
TTTTTTTGAGACAGAGTTTTGCTCTTGTTGCCCAAGCTGGAGTGCAATGGTAAGATCTCGGCTCACTGCAACCTCCTTCTCCAGGGTTCAAGTGATTCTC
M
TGCCTCAAACTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGGCAG
Celera SNP ID:            hCV26312462
SNP Position Genomic:     220513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24815):
GATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATTGCCTGAACCCAGGAGTTTGAGAACAGCCTGGGCAACATGGCAAAACCCCATCTCTACAAAAAAA
A
TATAAAAATTAGCCGGGTGTGGTGGCATGCACTTGTAGTCTCAGCTACTTGGGAGGCTGAGGCACGAGAGTCACTTGAACCTGGAAGGTGGAGGTTGCAG
Celera SNP ID:            hCV26312463
SNP Position Genomic:     214527
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24816):
AGTCATTTTGGTGGGGCCATTATTCTGCCTACCACCCGGTCTTTCATGTTCAGGCAGAGGTGGCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GTAAGTTAATTTCAGTAGAGAATGAGCTAGAGTAGAGAAAGAGAATTAAGGTGAGATGTGTCATGGAAGAACAGTGACTGATGATGCTAACTTTGCTCAA
Celera SNP ID:            hCV26312464
SNP Position Genomic:     212032
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24817):
CAGTCATTTTGGTGGGGCCATTATTCTGCCTACCACCCGGTCTTTCATGTTCAGGCAGAGGTGGCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTAAGTTAATTTCAGTAGAGAATGAGCTAGAGTAGAGAAAGAGAATTAAGGTGAGATGTGTCATGGAAGAACAGTGACTGATGATGCTAACTTTGCTCA
Celera SNP ID:            hCV26312465
SNP Position Genomic:     212031
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24818):
CTTTAATTCTTGATCTGTGTTCAGATTTTGCCTTTCAAATGTTTCATTATTGGGGCTTTGGACATATTGCACCTGTATTAAAAGAAGGATTTGAGTGAGG
R
ATTTAGTGCTTCATAGTCAATAGTCAATGAGTCTCCTTTTGGCTCGCCTCCTTCTTAGGGAAAGGAACTGGTTGTAGGGTGTTAGGCAGAATTTGGGTGT
Celera SNP ID:            hCV28012568
SNP Position Genomic:     145355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24819):
GTGCGAGACTCTGTCTCAGAAGAATAAATAAATGAATAAAATAACATAACTTCCTTATCCCATTTTCAAATTGAAAAAAAAAAGCCAAATGTGCTCCTAT
K
CGGGTTTCAATTAAGATATTATGAGATTTGAGTAGGGTAAGAAATAAAATAAAAATTGAAATTAAAATGCCATTTCTTTTTTGCATTGTAATACATTGAA
Celera SNP ID:            hCV26312467
SNP Position Genomic:     200692
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24820):
ATCTGTGTGAGGACCCTGATGAACTAATTTTCTTCTAAAGTGCTATATATGTAGATATCATCATAGAGTTACACATGAAATGGCTCATTCAATACTTTTT
T
AGATGCCTGGAAATATTTAAGGGAGTAACTAATCAATTAGCAGCATTCCTGGGAGAACATTGTCTTGTCATTTTAACAGAAAACTCTCTTTGTGATTTTG
Celera SNP ID:            hCV26312469
SNP Position Genomic:     198825
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24821):
TGTCCACCTACAAGAATTACTACTCGTTGGTGCTGGACAGCGCCCTGGACCGCGAGAGCGTGTCGGCCTATGAGCTGGTGGTGACTGCGCGGGATGGGGG
Y
TCGCCTTCGCTGTGGGCCACGGCTAGAGTGTCCGTGGAGGTGGCCGACGTGAACGACAATGCGCCTGCGTTCGCGCAGCCCGAGTACACAGTGTTCGTGA
Celera SNP ID:            hCV25991961
SNP Position Genomic:     96772
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,24)   total(C,53|T,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24822):
GGTGTCCTACTCGCTGGTGGAGCGGCGGTTGGGCGACCGCGCGCTGTCGAGCTACGTGTCGGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCG
Y
TGGACCACGAGGAGCTGGAGCTGCTACAGTTCCAGGTGAGCGCGCGCGATGCGGGCGTGCCGCCTCTGAGCAGCAACGTGACGCTGCAGGTGTTCGTGCT
Celera SNP ID:            hCV8940101
SNP Position Genomic:     90674
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,15)   caucasian(C,24|T,14)   total(C,37|T,29)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24823):
AAGAAAAAGAAGAAAAAGAAGAAGGGTAACAAGACCCAGGAGAAAAAAGAGAAAGGGAACAGCACGACTGACAACAGTGACCAGTGAGGTCCTCAAATGG
R
AACAAGCCACTTAGCCAGTTTTTGTAATAATGGCAAATCTCTCCCATGTAGCAATTCCCTGCTCCTTTTTCCTATCTACATGAGCCCTCTTAGAGACCTC
Celera SNP ID:            hCV15972195
SNP Position Genomic:     229926
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,144|A,1351)   total(G,144|A,1351) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:24824):
TGGTAAATGCAGTGCACAGTACTCACAGTTTTAGGCGCAAGGTGTCGCTCTTTACTTGGTGGAAAGTTCATTTAAAGGTTGGTCTGAACAGTGAGGCACT
Y
CCATACAAAGGAACTCCATCATACCGGATGCCACCGTTTAAGGATCCTTTGAAACTTCTTAAGAATTCAACGAGATTTTTAACCTGAAACTGAAGAATCT
Celera SNP ID:            hCV8940105
SNP Position Genomic:     88961
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)   Myers-Chimp(T,0|C,20)   Myers-TT(T,23|C,24)   total(C,44|T,23)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:24825):
ACATAATTATCTTTGGTCTTATATAAAGAAAACCCTACAGACTCCACAAAAACACTCTTGGAACTAATAAACAAAATAAAGTTGAAAGATAAAAAATCAA
Y
GTACAAAAATCAATAGCATTTCTATACACTATTGAACTACCTGAAAAATAAATCAAGAAAACCATGCTATTTACAATAGCTATGAGAAAATAAAAATACT
Celera SNP ID:            hCV8940032
SNP Position Genomic:     165128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24826):
AAACTTTTCATCTGATTAATAGTTTGTAATGGTTTGTAATTCTTACTTACATGATGGCCACATGATGTCGCTCTTTACCGCAAATTCTTTCGTAATCAGC
R
AAAGGAAGTCATTCCTTTTCGCACTGGAAAGACGCTCCACTCTCTTTCACTCTTTGGATGCACAACAATGGCCACACATCGAGATTGAAATGAAGGGATA
Celera SNP ID:            hCV27969128
SNP Position Genomic:     54225
SNP Source:               dbSNP
Population(Allele,Count): Myers-Chimp(G,0|A,20)   Myers-AT(G,0|A,48)   total(A,68) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24827):
CTGGTGCTGGTGAAAGACCACGGGGAGCCAGCGCTGACGGCCACGGCCACTGTGCTGGTGTCGCTGGTGGAGAGCGGCCAGGCGCCAAAGTCATCGTCGC
R
GGCGTCAGTGGGTGCCACGGGCCCCGAGGTGACGCTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGCGCGGTGTCTAGCCTGTTGGTTCTCACG
Celera SNP ID:            hCV25958870
SNP Position Genomic:     70538
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,25)   caucasian(G,24)   total(A,5|G,49)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(G,34)   total(A,5|G,65)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24828):
CTGGTGGGTCTACTTCTGTAACGGTTGTGGGTCATGAATTATTTTTTACTCAGACATAATTATCTTTGGTCTTATATAAAGAAAACCCTACAGACTCCAC
M
AAAACACTCTTGGAACTAATAAACAAAATAAAGTTGAAAGATAAAAAATCAACGTACAAAAATCAATAGCATTTCTATACACTATTGAACTACCTGAAAA
Celera SNP ID:            hCV8940033
SNP Position Genomic:     165075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24829):
TGTCCTGGGTCTTAAAAGGACATAAAATTGAAAATGATTGCATTTAACAAATTGCAGACAGATATAGATTGCATTTTGAAAATCAACGAATGGATCTAAA
R
TTTACATTGGCCACATGATGTCGCTGTACACCACAAAGTCTTGTCAATAGAAGGGAGCTACTGATCACTAAAAGTGAAGGAGGAAGCTCCATTTTGTCAC
Celera SNP ID:            hCV27969129
SNP Position Genomic:     6052
SNP Source:               dbSNP
Population(Allele,Count): Myers-Chimp(G,0|A,20)   Myers-AT(G,0|A,48)   total(A,68) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:24830):
AATTCCACAAACTTCTCTTTATATTGGTTTATGCCTTCTTTAGATGATTGTGAATAAGAGTATTATCTTAACCTCTCTGGTGGGTCTACTTCTGTAACGG
W
TGTGGGTCATGAATTATTTTTTACTCAGACATAATTATCTTTGGTCTTATATAAAGAAAACCCTACAGACTCCACAAAAACACTCTTGGAACTAATAAAC
Celera SNP ID:            hCV8940034
SNP Position Genomic:     164999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24831):
TCACATCTGTAAGTTATTTCAGTGCCTTGGAAGATCATTTATCTGGCCACAGATAATTGACTTACTTACATCAGTTTTTTTTTTTTTTGAGATGGAGTCT
Y
GCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCACGCCATTGTCCTGCCTCAGCTTCCCGAGTAG
Celera SNP ID:            hCV26312470
SNP Position Genomic:     181894
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24832):
TCACAGGACCCTAGTGAGGTTGGTATTGATGAAGAAACTGGGTCCCAAAAAGGTGATGGAATTTATCCGAAGCTCCAGGAAGCTTCTTTTTACCATGGCT
S
TGTTTCTTGAGGTTAAAGAACATGATTTACCAGGCTCTGTTTCTTGAGAGACCAAGAGTGGATCCCTGTAGTCCCCATTAGAATTCTCCTTCTAGTTTGA
Celera SNP ID:            hCV26312471
SNP Position Genomic:     181260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24833):
GAGTTGGCATATTATTTCAGTACATATCTAACCTTATGTACTCCTCACAGGACCCTAGTGAGGTTGGTATTGATGAAGAAACTGGGTCCCAAAAAGGTGA
Y
GGAATTTATCCGAAGCTCCAGGAAGCTTCTTTTTACCATGGCTGTGTTTCTTGAGGTTAAAGAACATGATTTACCAGGCTCTGTTTCTTGAGAGACCAAG
Celera SNP ID:            hCV26312472
SNP Position Genomic:     181216
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24834):
ATAGAATTCAGTATTATCCTTGGTTTCGGACATTCAGCAGGGGTCCGAAGGTGGGCGAGGTGAGCCCACTTTGGGAGGCCAAAGTGGGCAGATTGCTTGA
Y
CCCAGGAGTTCAGGACCAGTCTGGGCAACATGGTGAAATGCTGTCCTTACAAAAAATACAAAAATTATCTGGGCATGATAGTGCATGACTGTAGTCCCAG
Celera SNP ID:            hCV26312474
SNP Position Genomic:     179156
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24835):
TTTACTGGGTTTATAAAAGAATTGACCAGTAGCTATATAATAGATATAGAAAAGTCTGCCTGGGTGTGGTGGCTCATACTTGTAATAATATTATATTATA
A
TTGTTCTATTTTATTATTAGTTATTGTTGCTAATCTTTTACTGTACCTAATTTATACATTAAGCTTTATCATGGGTATGTATGTATAGGAAAAAATGCAG
Celera SNP ID:            hCV26312475
SNP Position Genomic:     178950
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,6)   total(A,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24836):
CTCTCTTCCTATTTGAATACCCTTTATTTCTTTCTCTTTCCTAATTGCCATAGCCAGAACTTCCAATACTATGCTGAATAGGAGTGGTGAAAGAGGGCAT
M
CTTGTCTTGTGCTGGTTTTCAAGGGGAATGCTTCCAGGTTTTGCCCATTCAGTGTGGTATTGGCTGTGGGTTTATCATATATATGGCTCTTATTATTTTG
Celera SNP ID:            hCV26312477
SNP Position Genomic:     176211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,7)      total(A,7|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24837):
CTTGAGGCCTCCCCAGCCATACTGAACTGTGAGTCAATTAAACCTCTTTCTTTTATAAATTACCCAGTCTCAGGCAGTTCTTTATAGCAGTGTGAGAACA
R
ATTAATACACATATGAATTTTAACATAGTTTTTTCGAAATCTGTGATGAATGTCAATGGAAGTTTAATAGGAATACCATTGAATCTATAAATTACTTTGA
Celera SNP ID:            hCV26312478
SNP Position Genomic:     175640
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24838):
CCCAGTGGGAGGTAATTGAATCATGGGGGCAATTATCCCATACAGTTCTCATGATAGTGAGTGAGTTCTCATTAGGTCTGATGGTTTTATAAGGGCTTTT
Y
CCTTTTTGCTTGGCACCTCTCCTTCCTGCCACCATGTGAAGAAAGACGTGTTTGCTTTCCCTTCCACCATGATTCTAAGTTTCTTGAGGCCTCCCCAGCC
Celera SNP ID:            hCV26312479
SNP Position Genomic:     175457
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24839):
CTAGTTATAGGTCTAGAAGCAAACAGGGGTGGTGGGGGGTGGGTCCTGAGGAGAATCAACATTATCTTGCCTGGCAACTGCCTCAGGGGAAGCCATCACT
R
TTGCCTCAGGCAGTGCAGGGTTTTTCTCCTCAGACAAATGTGGAAAGGCTGATGGCAGTGTGGGTTGGGGAGGACATGTTGCCACTACTGGGGATGAGAA
Celera SNP ID:            hCV10012777
SNP Position Genomic:     131125
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24840):
TCCAATCAGCAAAATGTCATCAAGGTAATGAACCAGTGTGATATCTTATGGAAGGGAAAATCAATCAAGTTCTCTCCAAACAAGATTATGACACAAAGCC
R
GAGAGTTGATATACCCCTGAGGTAGGATGGTAAAGATATATTGCTGGCCTTGCTGACTGAAGGCAAATTGCTTCTGGTGGGCCTTATGGACAGGAATGGA
Celera SNP ID:            hCV10012778
SNP Position Genomic:     129209
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,12)      total(G,12|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24841):
ACGGCCTCAGATAGTGGCTCACCCCCACTTAGCACCCGAAGGACAATCACTGTGTCAGTTGCTGATGTGAATGACAATACACCAAACTTTCCTCAACCCC
R
GCAGGAACTTTTCGTTGCTGAAAACAATGGCCCTGGGGCCTCTCTAGGCCGAGTGTTTGCCCAGGACCCCGACCTGGGGAAGAATGGCCTTGTCTCTTAT
Celera SNP ID:            hCV25969442
SNP Position Genomic:     148247
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24842):
CACACTCTCCAATGAGATTTGAAATGTCCTGGGTCTTAAAAGGACATAAAATTGAAAATGATTGCATTTAACAAATTGCAGACAGATATAGATTGCATTT
K
GAAAATCAACGAATGGATCTAAAATTTACATTGGCCACATGATGTCGCTGTACACCACAAAGTCTTGTCAATAGAAGGGAGCTACTGATCACTAAAAGTG
Celera SNP ID:            hCV27969130
SNP Position Genomic:     6028
SNP Source:               dbSNP
Population(Allele,Count): Myers-Chimp(G,0|T,20)   Myers-AT(G,0|T,48)   total(T,68) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:24843):
GGGCTGCCACATCTTCACGGTGTCTGCGCGAGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTTGTGGAGCGGCGGGTGGGCGAGCGCTCG
Y
TGTCGAGCTACATTTCGGTGCACACGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTCCAGGTGAGCGC
Celera SNP ID:            hCV25964500
SNP Position Genomic:     62834
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,11)   caucasian(C,21|T,7)   total(C,36|T,18)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24844):
GCCGGGCTGCCACATCTTCACGGTGTCTGCGCGAGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTTGTGGAGCGGCGGGTGGGCGAGCGC
K
CGCTGTCGAGCTACATTTCGGTGCACACGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTCCAGGTGAG
Celera SNP ID:            hCV25964501
SNP Position Genomic:     62831
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(G,4|T,34)   total(G,4|T,70)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24845):
ACAGTGATCTTTGCCCCATAATTGTAAAATGAGATATTAGAATCATCCTTATTTATCTTAACCACCTACTCCACTGTACAGTTCCTATAATTCCACAAAC
W
TCTCTTTATATTGGTTTATGCCTTCTTTAGATGATTGTGAATAAGAGTATTATCTTAACCTCTCTGGTGGGTCTACTTCTGTAACGGTTGTGGGTCATGA
Celera SNP ID:            hCV8940041
SNP Position Genomic:     164911
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,654|A,811)   total(A,811|T,654)   (A,-|T,-)   no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24846):
ATGGAAAAAATGCTGGGTTTATTCCTCCTGTTATTGTATTTTACAAGTCTGTCGAGGGTCCACAGTGATCTTTGCCCCATAATTGTAAAATGAGATATTA
R
AATCATCCTTATTTATCTTAACCACCTACTCCACTGTACAGTTCCTATAATTCCACAAACTTCTCTTTATATTGGTTTATGCCTTCTTTAGATGATTGTG
Celera SNP ID:            hCV8940042
SNP Position Genomic:     164850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24847):
GTTGTAAGCCAGTGTGGATTGGGAGTCCATACCCCTTATTTATCTATTCTGTGTATCCTATTAATAACAGTAATTATCAGGTTATTTTGCCTTTGAACAC
S
TTAGTAAGTCTGAGCATTTACATGGAAAAAATGCTGGGTTTATTCCTCCTGTTATTGTATTTTACAAGTCTGTCGAGGGTCCACAGTGATCTTTGCCCCA
Celera SNP ID:            hCV8940043
SNP Position Genomic:     164728
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   JBIC-allele(C,675|G,822)   total(G,822|C,675)   no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24848):
GAGTCATGATGTTTTACTGGTTATAAAATGGAAAGAGTTTTCCCTGGGAGAATATGGAGACTAACAGGTATTCATGAGAAGAGAGTAACTTAAGTGAGTA
Y
ACAGAAAATTCCAAATGTACCTAGAAATGAGGAATAGTCCACTTTGGGTAAAGCACATGGTTCCCATAAGAGAGAGTGTGATATAAAGCAAGAAAAGTAA
Celera SNP ID:            hCV27486441
SNP Position Genomic:     52956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24849):
GTACAGTCTGGGTGGAAATCTTGGACACCAACGATAACTCTCCTGAAGTCGCCGTGACTTCCTTGTCCCTCCCAGTACGAGAGGACGCTCAGCCCAGCAC
S
GTCATTGCCCTGATCAGCGTGTCTGACCGTGACTCAGGTGTCAACGGACAGGTGACCTGCTCGCTGACGCCCCACGTTCCCTTCAAGCTGGTGTCCACCT
Celera SNP ID:            hCV25972381
SNP Position Genomic:     90208
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(C,1|G,25)   total(C,1|G,53)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24850):
GATTTACATTAGATGCACACCAAGCTGCTTTCGGAGAGTCCAGATTTATGGGGATAAGAGCATCACTAGGTATATCAACAGCCCTAGGGTGGATACCTTT
R
AGCCTGTAAATTTGGCTCTGTGTTGGACGATGAACCATGGAATACAGAAGAAGCTCCCTTCTCTCAGCTAAAGCCTATTAGCAAAAATAGAGCCCTGAGG
Celera SNP ID:            hCV27495337
SNP Position Genomic:     210734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24851):
CAACCCGCCGGGCTGCCACATCTTCACGGTGTCTGCGCGGGACGCTGACGCGCAGGAGAACGCCCTGGTGTCCTACTCGCTGGTGGAGCGGCGGTTGGGC
S
AGCGCTCGCTGTCGAGCTACGTGTCAGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGTTGGACCACGAGGAGCTGGAGCTGCTACAGTTCCA
Celera SNP ID:            hCV25961023
SNP Position Genomic:     69997
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,27)   caucasian(G,38)   total(C,9|G,65)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,19)   caucasian(G,4)   total(C,7|G,23)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24852):
CTATTTCTTGTACATTAATACTTTTCACTATTCTAATTATGGTGATGCCTTTAGCTATTAAGAATTTCTGGGATTGAAATGTGTCAGAAGTTAGTTATTA
R
GTATTGTGGATTCTGAAGCTCTCTAAATCAAGTCCTCCCTTTACCAATTTTTGTATGTGTAGCCATTGGTAAAGGATTTGTTATTCAGTTCCTTGGCATT
Celera SNP ID:            hCV27495338
SNP Position Genomic:     65607
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24853):
CCATATTGATATGGTTTGGCTGTGTCCCCACCCAAATCTCACCTTGAATTGTAGTTCCCATAATCCCCACATGTTGTGGGAGGGACCCAGTGGGAGGTAA
Y
TGAATCATGGGGGCAATTATCCCATACAGTTCTCATGATAGTGAGTGAGTTCTCATTAGGTCTGATGGTTTTATAAGGGCTTTTTCCTTTTTGCTTGGCA
Celera SNP ID:            hCV26312480
SNP Position Genomic:     175372
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24854):
ACGTGAACGACAATGCTCCGGCGTTCGCGCAGCCCGAGTACACGGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCTGCGCG
R
GACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTTGTGGAGCGGCGGGTGGGCGAGCGCTCGCTGTCGAGCTACATTTCGGTGCACACGGAGA
Celera SNP ID:            hCV25965097
SNP Position Genomic:     62764
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,1)   caucasian(A,5|G,5)   total(A,8|G,6)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24855):
CTATAAAGGCTCTTTTTTGGTTCCATATTGATATGGTTTGGCTGTGTCCCCACCCAAATCTCACCTTGAATTGTAGTTCCCATAATCCCCACATGTTGTG
R
GAGGGACCCAGTGGGAGGTAATTGAATCATGGGGGCAATTATCCCATACAGTTCTCATGATAGTGAGTGAGTTCTCATTAGGTCTGATGGTTTTATAAGG
Celera SNP ID:            hCV26312481
SNP Position Genomic:     175350
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24856):
CGACGTGAACGACAATGCTCCGGCGTTCGCGCAGCCCGAGTACACGGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCTGCG
Y
GAGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTTGTGGAGCGGCGGGTGGGCGAGCGCTCGCTGTCGAGCTACATTTCGGTGCACACGGA
Celera SNP ID:            hCV25965098
SNP Position Genomic:     62762
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,1)   caucasian(C,2|T,2)   total(C,3|T,3)
SNP Type:                 INTRON;NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:24857):
GTGTGTGGTGTTATTTCTGAGTTCTCTATTCTGTTCCACTGGTCTACACGTCTGTTTTTGTACCAGTACCGTGCTGTTTTGGTTACTGTAGTTTTGTGGT
R
TATATGAAGTCAATCAAGTAGCATGATGCCTCCAGCTTTGTTCTTTTGCTTAGGATCGGCTTGGCTATAAAGGCTCTTTTTTGGTTCCATATTGATATGG
Celera SNP ID:            hCV26312482
SNP Position Genomic:     175185
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24858):
AGGCACTTTTGTCATGAAATCTTTGCCTGTGCCTATGTCCTGAATGGTATTGCCTAGCTTTTCTTCTAGGGTTTTTATAGTTTCATACTTTTATGAATTA
M
GTCTTTAATTAATCTTGAGTTAATTTTTGTATAAGATGTAAGGAAAGGGTCCAGTTTCAATTTTCTGCATATGGCTAGCCAATTCTCCCAGCACCATTTA
Celera SNP ID:            hCV26312483
SNP Position Genomic:     174918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24859):
GCCGGCACTGCTGGCGACTCAGGCTGGCAGCGCGGGAGGCGCAGTTAACAAGCTAGTACCGCGGTCGGTGGGTGCGGGCCACGTGGTGGCGAAGGTGCGC
K
CAGTGGATGCGGACTCAGGCTACAACGCGTGGCTTTCATATGAATTGCAGCCGGCGGCGGGCGGCTCGCGCATCCCGTTCCGCGTGGGGCTGTACACGGG
Celera SNP ID:            hCV25970787
SNP Position Genomic:     90893
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,1)   caucasian(G,40)   total(G,71|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,1)   caucasian(G,22)   total(G,47|T,1)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24860):
TGGGATTGCTGCGTCAAATGGTATTTCTGCCTCTAGATCTTTGAGGAATCGCCACACAGTCTCCCACAATGAGTGAACTAATTTACAACCCCACCAACAG
K
GTAAAGGTGTTCCTTTTTCTCCATCTGTTGTTTCTGGACTTGTTAATAATTGCCATTCTGACTGGTGTGAGAAGATATTTCATTGTGGTTTTGATTTGCA
Celera SNP ID:            hCV26312484
SNP Position Genomic:     174404
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24861):
CTCTGCCTCCCTGAGAGCAGGCATGCACAGGTATGTATTTCCCTCCTCATTCACTCAGAAGTAACCTTAACTTGGTATGGCTCAGATAAACTGCATCTCC
M
TAGGCCAGAAGCAGCTGTCAAAACTAAAAAGCTTTAGGTACTTTGCCAGGAAAATGCAATTATTTTGTCCCCATGTTTATTCCTTGAAAGATCGCAAATG
Celera SNP ID:            hCV16176677
SNP Position Genomic:     199058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24862):
TAGGATGATTTATATTCCTTTGGGTACATACCCAGTAATGGGATTGCTGCGTCAAATGGTATTTCTGCCTCTAGATCTTTGAGGAATCGCCACACAGTCT
Y
CCACAATGAGTGAACTAATTTACAACCCCACCAACAGGGTAAAGGTGTTCCTTTTTCTCCATCTGTTGTTTCTGGACTTGTTAATAATTGCCATTCTGAC
Celera SNP ID:            hCV26312485
SNP Position Genomic:     174366
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24863):
AGGAAACTTACAATCATGGTGGAAGGCAAAGGGGAATCAAGCTCATCTTACATGGCATGAGCAGGAGCAGGAGCAAGAGAGAGAGAAGGGGGAAGTGATA
M
ACACTTTTAAACAACAAGATCTCATGAGAACTCTCTCACTATTATGAGAACAACATTAAGGGGGAAATCCACCCCCATGATCCAATCACCTCTCACAGGC
Celera SNP ID:            hCV26312486
SNP Position Genomic:     172961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24864):
GCCTGCAGCTTTTCCAGGCACAGTGTGCAAGCTGCTTAGAACTGCTGGTGGATTCCCATTTTGGGGTCTTGAGGGTGGTGGCCCTCTTCTCACAGCCATT
K
CACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAGAAAGAAAGAAATTTCCTCTGCCAGATACCCTAAACTCATCATTCTCAAA
Celera SNP ID:            hCV26312487
SNP Position Genomic:     172303
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,5)   total(G,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24865):
TGGATTATATCTTGATATTATTAATGTGTTATTCTTGAGATTCATCATTCTGTTTGTATTAGTCCATTATTGCACTGTTATAAAGAAACACCCAAGACTC
R
GTAATTTATAAAGAAAAGAGGTTTAATTGGCTCACAGTTCCACAGGCTGTAGGAAGCATGATGCCGGCCATCTGCTTGGCTTCTGGGGAGCCTTCAAGAA
Celera SNP ID:            hCV26312488
SNP Position Genomic:     171384
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24866):
CTAAAATTTCCATTGGCTTTTTTATATTTTCCTTTTTTTCTGATAAGATTTCCTTTATTTTCATTCCTTACCAATAAGTTTTCCTTTATCTTATTGAATA
W
ATAGTAGCTACTTTAAAGTCATTGTCCGCTAATTCCCACATCTGTGTCATCTCAGGTTTGGATTCTTGATGGTCTTTACCTTTAGGAATGCATCACATTT
Celera SNP ID:            hCV26312489
SNP Position Genomic:     171157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24867):
AGGCTGGGAGGCTAAGCCAGTCTAATCTCTCCACGTTCTTCTGTCTGCTTTTATTCTGGCTGCACTGGCAGCTGATTAGATCGCACCCACCCAGACTGAG
R
GTAAGTGTGTCTTTCCCAGTCCACTGACACAAATGTTAGTCTCCTTTGATAACACCCTCACAGACACACCCAGGAACAATACTTTGCATCCTTCAATCCA
Celera SNP ID:            hCV10012786
SNP Position Genomic:     126096
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24868):
ACATCAACGACAACTCACCGCGTTTCCCGCGGCCCAACTACCAGCTTCAGGTAAGCGAATCGGTGGCGCCTGGAGCGCGCTTTCACATAGAGAGTGCGCA
S
GACCCCGACGTGGGCGCCAACTCAGTACAGACCTACGAGCTCAGCCCCAGCGAGCACTTCGAGCTGGACCTTAAGCCCCTGCAGGAGAACAGTAAAGTGC
Celera SNP ID:            hCV25991046
SNP Position Genomic:     187265
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(C,2|G,10)   total(C,2|G,46)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24869):
GCCAGTGTTCCGGGTAAAAGACCAAAAGCTGTTTGTTTCAGAATCCAGAATGCCAGACTCTCGGTTTCCGCTAGAGGGCGCGTCCGATGCAGATGTTGGA
K
CTAACTCCGTGTTAACCTACAGGCTTAGCTCTCATGATTACTTCATGCTAGATGTGAATTCAAAGAACGATGAGAATAAACTGGTTGAGCTCGTATTAAG
Celera SNP ID:            hCV25973333
SNP Position Genomic:     61814
SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,6)   caucasian(G,28|T,8)   total(G,54|T,14)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24870):
TGCGCGAGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTTGTGGAGCGGCGGGTGGGCGAGCGCTCGCTGTCGAGCTACATTTCGGTGCAC
R
CGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTCCAGGTGAGCGCGCGCGACGCGGGCGTGCCGCCTCT
Celera SNP ID:            hCV25964441
SNP Position Genomic:     62858
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,12)   caucasian(A,17|G,11)   total(A,31|G,23)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24871):
CCTGATCTTATGAGAAAAGTGTTCCATATTTTACAATTAAGTATGTGCTACTCATAGGTTTTTCCCAAATACTTTATTAAATTTAGGAAGTACCCTTTTC
Y
GGTTTGCTCAGAGTTTTATCATGATTCATTGTTGAATTTCATCAATTTTCTTTTAATCTATTGATATGAGCATATGATTTTTCTTCGTTTTACTAATATG
Celera SNP ID:            hCV26312490
SNP Position Genomic:     168027
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5|-,12)   total(C,5|-,12|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24872):
TGTGAAATATATATATATATATATATACCAATGGAATACTCATCAGCCATTAGAAAGAATGAAATCCTGTCATTCGTGACAATATGGATGAATCTGGAGG
W
CATTATGTTTAGTTAAATAAGCCAGGCACAGAAAGACAAATACTGCATGATCTCATTCATGTGGAATGTAAAAAAGCTGATCTTATAGAAGCAGAGAGTA
Celera SNP ID:            hCV26312491
SNP Position Genomic:     166710
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|T,6)      total(A,6|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24873):
ATATATCCAAAGGAAATGAAATCAGTATGTCAAAGACCTATCCGCACTCCCATGTTCATTGCAGCATTATTCATGATAGTTCAGATATAGAATCAACTTA
R
GTGTTCATAGTGGATGAATAGATAAAGAAAATGTGAAATATATATATATATATATATACCAATGGAATACTCATCAGCCATTAGAAAGAATGAAATCCTG
Celera SNP ID:            hCV26312492
SNP Position Genomic:     166578
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,8)      total(G,8|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24874):
ACACTGATCTGAGCAATGATGTTTTTTATATGACCCTGAAAGCACAGGCAATAAAAGCAAAAATAGACTAATGGATTGCATCAAACTAAAAAGCTCCTGC
R
CAGCAAAGAAAACAAGAGTGAAGGGACAATCCACAGAATGGGAGAAAATATTTGCAAACCATAGATCTGATAAGGAGTTAACATACCAAATATATAAGGA
Celera SNP ID:            hCV26312493
SNP Position Genomic:     166019
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24875):
TGCATTTATTAAAATATATGTTGTTCTGATTTTAAAATATATCCCTACCAATTGTGAAGATATCGGCTAATCCAATAAAAAAGCAAAACCATATTTTGTA
K
AATTATGGTCGTATTCTGTTAAATAAACTTTTAAATCCTATTGGGTTGTAATCTGTAGTCTGGGAAGGGCTCTGCCTAACGATTCAGACCCCTACCAGAT
Celera SNP ID:            hCV27521787
SNP Position Genomic:     223726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24876):
AAGATGAAAGATCAATAACACTGATCTGAGCAATGATGTTTTTTATATGACCCTGAAAGCACAGGCAATAAAAGCAAAAATAGACTAATGGATTGCATCA
R
ACTAAAAAGCTCCTGCACAGCAAAGAAAACAAGAGTGAAGGGACAATCCACAGAATGGGAGAAAATATTTGCAAACCATAGATCTGATAAGGAGTTAACA
Celera SNP ID:            hCV26312494
SNP Position Genomic:     166002
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24877):
TCCCTAAAATTTGCATGGAACCACAAAACACCCCAAATACCCAAAGCAATATTGAGCAAAGTAAATAAATAAATAAAACAAAACATACAAACAAAAAAAT
R
AAGCTGAAGACATCATACTACCTGGCTTCAAAATATACTTCAAAGCTATAATAATCAAAACAGCATGGTACTGGCATAAAAGACATGTAGACCAATGGAG
Celera SNP ID:            hCV26312495
SNP Position Genomic:     165553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24878):
TTTATGTTCATAGCTTGGAAAAATTAATACTGTTTAAAATGTCCATATTACCCAAAGCAATATACAAATTCAATACAATTCGTATCAAAATTTCAATGAA
K
TTTTTACAGAAATATAAAAAACTTCCCTAAAATTTGCATGGAACCACAAAACACCCCAAATACCCAAAGCAATATTGAGCAAAGTAAATAAATAAATAAA
Celera SNP ID:            hCV26312496
SNP Position Genomic:     165429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24879):
TTCTTTCTCTTTTTTTTTTTTTTCAGATGGAGTCTCGCTCTGTTGCCTAGGCTGGAGTGTAGTGACAGGATTTTGGCTCACTGCAACCTCCGCCTCCCGG
R
TTCAAGCAATTCTCTGCCTCAGCCTCGGGAGTAGCTGGGATTACAGGCGCCCACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGAGGTTT
Celera SNP ID:            hCV26312497
SNP Position Genomic:     161416
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24880):
TTGAATCTATAAAAATATGAAGCTTGTTAACATTGACAATATTGAGACAGACAACCGATTAACAAGGTATATTCTTCCATTTATCTTTTTTTTTTTTTTT
T
GAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAGTCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCA
Celera SNP ID:            hCV26312499
SNP Position Genomic:     157064
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24881):
TACTAAAAGAAAATACTGGATTACACACTCTCCAATGAGATTTGAAATGTCCTGGGTCTTAAAAGGACATAAAATTGAAAATGATTGCATTTAACAAATT
R
CAGACAGATATAGATTGCATTTTGAAAATCAACGAATGGATCTAAAATTTACATTGGCCACATGATGTCGCTGTACACCACAAAGTCTTGTCAATAGAAG
Celera SNP ID:            hCV27836222
SNP Position Genomic:     6005
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(G,38)   total(A,5|G,67)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(G,36)   total(A,5|G,65)   
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): Myers-Chimp(A,0|G,20)   Myers-AT(A,0|G,48)   total(G,68) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:24882):
GTGGGTTTCCTGCGGCGCTGCAGCGGGACAGCTCGAGTACTCAGTGCCGGAGGAGACGGAGCGGGGCGTAGCCGTAGGCAATCTCTCCGCGGACTTGAGG
M
TGCCAGCGGCCGCTATGTCCTCGCGGAACTTTCGCTTCCTTTCCAGCCACCGCGAGCTCTACTTCGGGGTGGATCTACCCAGCGGCAATTTGGTGGTCAG
Celera SNP ID:            hCV25993669
SNP Position Genomic:     147034
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,36)   total(A,1|C,69)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24883):
AGTTGTTACAATTTGGTGTTCATGTGGCGGGGGAGGGGGGGGATGGTGTAGGCTTCTGTTCCACTATCTTGCTCCACCTCAATAGTCTGATGTGCAGAAG
Y
TCTTTAGTTTAATTAGGCCCCATTTGCCAATTTTTGTTTTTGCTGCAAGTGCGTTTGGCATCTTTGTCATGAAATCTTTGCCAGGGCCTATGCCCAGAAT
Celera SNP ID:            hCV8940063
SNP Position Genomic:     137404
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24884):
CGAGTGCGCGCCTGGCAAGCCGACGCTGGTGTGTTCTAGCGCGGTGGGGAGTTGGTCGTACTCGCAGCAGAGGAGGCAGAGGGTGTGCTCTGGCGAGGGT
M
CGCAGAAGACCGACCTCATGGCCTTCAGCCCGGGCCTTTCTCCTTGTGCTGGATCTACAGAGCGAACGGGAGAACCCTCTGCTTCCTCAGATTCAACTGG
Celera SNP ID:            hCV8940138
SNP Position Genomic:     70786
SNP Source:               Applera
Population(Allele,Count): african american(C,20)   caucasian(A,1|C,23)   total(A,1|C,43)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24885):
ATTTCTACCAACTATAGATAAATGAAAATTCACCTTTAAATGTCTCTTATCCTCCATGAAACTCATCAAAAACAACAAAAAGTACAGCAGACAAAAAAAA
A
GTCTTATCTTTAATGAAACTTTGTAAAACATTTGAACCTCAACCATGATGTGTATGAAGATAAGTTACTAAGTGCCATGAAGATTGGACCAAGATATGAA
Celera SNP ID:            hCV1585517
SNP Position Genomic:     142191
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,11)   total(A,11|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24886):
GGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAATGACAACGCGCCGGCACTGCTGGAGCCTCGGGTGGGTGGCACTGGTGGCGCAGCGAGC
R
AGCTGGTGCCGCGGTCTGTGGGCGCGGGCCACGTGGTAGCGAAGGTGCGCGCAGTGGACGCCGACTCGGGCTACAACGCGTGGCTTTCGTATGAGCTGCA
Celera SNP ID:            hCV25961117
SNP Position Genomic:     63059
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,11)   caucasian(A,12|G,8)   total(A,17|G,19)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24887):
ACTCAAGTCGAGGAGATCCAGAGGGTCAGCCTCTACTGCTCTCGCTTCTGATCCTCGCAATGTGGGTGGTGGGGAGCGGCCAGCTCCACTACTCCGTCCC
S
GAGGAAGCCGAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCAGTTGGATTCCAAAG
Celera SNP ID:            hCV25968812
SNP Position Genomic:     68604
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(C,1|G,31)   total(C,1|G,61)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24888):
TAGAAAGCTGAAATATCCCCATTACAGTTTTTGAGTCAATACAAAAAGTAGATAGGTGTTATAGATAAAGAAATAGGTTTTCATCGATTTGAAAATTAGA
M
CTCCGAGAAGAAACTCAGGTAAGAATGCCATTAAAATAGTTTTAGTTGTTTTTGAAAATAACATCAACAAAATGTCACTATTAAACAGTGAAATTGGAAT
Celera SNP ID:            hCV29063403
SNP Position Genomic:     41025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24889):
TAAATTTTCTTGTGTTAGTATATTTCTAAAGGCTTTTAGTGAATTAAATGGAGACACTTTAATATACTACACAGTTTTAAATCTAAATTTTTTTCTCAAG
R
AAGAACTTCTGTTTACACAATGATGCTTAAACATGACTGAAATATCTAAAGGAGAGGTTAACTGGATCAGTCAAGAAAATAATCTGTAACATTTGATTGA
Celera SNP ID:            hCV29063404
SNP Position Genomic:     39453
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24890):
TGGTCACCTGCTCCTTGACGTCCCACGTCCCCTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGTGCCCTGGACCGCGAGAG
Y
GTGTCAGCCTATGAGCTGGTGGTGACCGCGCGAGACGGGGGCTCGCCTTCGCTGTGGGCCACGGCCAGTGTTTCTGTGGAGGTGGCTGATGTGAACGACA
Celera SNP ID:            hCV29063405
SNP Position Genomic:     28412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24891):
GTTTGGAGTCTCAATCCTTATTTTTTACTTGAATATGATTCATTTTAGGCCTTGTGCTCTAATTTGGCAATACCGTTTATTGTTTCTTGATTTCCCAGTT
K
GGAAAAAAATCGAGAATAACAATTGCATTTAGAATTGCATCTTTGTTCATCTTTAGTTTATCACTACTTTATTTAATACTACTTTAATAATACTACTGTA
Celera SNP ID:            hCV29063406
SNP Position Genomic:     24211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24892):
TTCTTCCTGATGTTCTCCCTCCCATTGCTCCCCCAACAGGCCCCAGTGTGTGTTGTTCCCCTTCATATTTTCATGTGTACTCATCATTCAGCTCCCACAC
R
TAGTGGGACGATGTGGTATTTGGTTTTCTGTTCCTGCATTATTATGCTGAGGATAATGGCTTCCAGCTCCATCCATGTCCCTGCAAAGGACAAGATCTTG
Celera SNP ID:            hCV2417200
SNP Position Genomic:     174015
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24893):
CAGATGAAGGGTCCAATGGGGAAGTCCAATACTCCCTAAGCAACAGCACGCAAGCAGAGCTGCGACACCGCTTTCACGTGCACCCTAAAAGTGGGGAGGT
K
CAAGTAGCTGCTTCACTAGGTCCGCCTGAAACGCTCTTGGAGGCATACATTGAGGCGAGGGACGAAGGTGTCTTTGGTTTAGCTAGCACCGCTAAACTGC
Celera SNP ID:            hCV25967944
SNP Position Genomic:     147780
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24894):
CATCCCAGGGATGAAGCCTACTTGATCATGGTGAATAAGCTTTTTGATGTGCTGCTGGATTTGGTTTGCCAGTATCTTATTGAGGATTTTTGCATTGATG
Y
TTATCAGGGATATCAGCTGGAAGTTTTCCTTTTTGTTGCATCTCTGCCAGGTTTTGGTATCAGGATGATGCTGGCCTTAAAGGAGTTAGGGAGGAGTACC
Celera SNP ID:            hCV2417201
SNP Position Genomic:     176582
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24895):
TGGACTTCCTACTACCTGTTAGTACAGATGTTACTTGCTCATTTTATGAGTTCACCTAATGCTTATAACTCCCTATTGATTATGCTTTTCCACCTTCAGT
Y
TCAAAAATTAGATCATTACACCTGTTGTCTTTTATGGAACCTCTTTTATTCTCTTATTCACTTGTTTGGAGTCTCAATCCTTATTTTTTACTTGAATATG
Celera SNP ID:            hCV29063407
SNP Position Genomic:     24047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24896):
GATATCAGCTGGAAGTTTTCCTTTTTGTTGCATCTCTGCCAGGTTTTGGTATCAGGATGATGCTGGCCTTAAAGGAGTTAGGGAGGAGTACCTCCTTTTC
Y
ATTGTTTGGAATAGCTTCAGAAGAATTGGTACCAGCTCCTCTTTGTACCTCTGATAGAATTCAGCTGTAAATCTGTCTGGTCCTGGGCTTTGTTTGCTTG
Celera SNP ID:            hCV2417202
SNP Position Genomic:     176691
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24897):
TACAGCACACACACACTTTTAAATACTTCAACATCTCAATGTTTTGATGATCATAAATCTGAAAGGATCTGATTTTTCTATAAAATGTAACTTGGGTGGT
R
AAGAGGTTAATGGTAAGTTGTCTTGAATCAGATTGAAATCCCATCGTACCAAGAGATAATATCGTTTTACTTAACCTCTATGTGTTTATAAAAAGCGAAT
Celera SNP ID:            hCV29063408
SNP Position Genomic:     20547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24898):
CAGGTCATCAAACATTATCACTGATGCTTGGAAAGAAGCACTTTTTATAATTTAAAAATACCTTTTATTCTTCAACTTCTGCTGGCTTAAAGAGCACTAA
R
TCCACATATCCTAGGAGGCATGGCTGTCCAATATATACTATGTGTACATTGATTTATGAACCAATAAATGTTTCATACACAGTTGAGATTTTAAATGAGC
Celera SNP ID:            hCV2417203
SNP Position Genomic:     178480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24899):
TCCATATTCCTAATGAAATTGGAATTTTTCCAAAAGATGAGGCCTGGTCTTGGATGACTACATTTTCACTTGAAACATTTATTTTGGGTAATTATAACAC
Y
GAACTCGACAAGTAAATGTTACACTTGGAAAGAACTTTTTTAGCTTTTCCAACCAAAGGCAGATGTATTGCAATAAAATAACTGTCTTAAACGGTCCTCT
Celera SNP ID:            hCV29063409
SNP Position Genomic:     18735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24900):
CACAGTGATAGGACATATGGATTTTGAAGAAAGTAGAGCACACAAGATCCCAGTCGAGGCTGTCGATAAAGGCTTCCCACCCCTGGCTGGTCATTGTACA
S
TTCTTGTGGAAGTTGTGGATGTAAATGACAATGCTCCACAGTTGACTATCAAAACGCTCTCGGTTCCTGTAAAAGAGGACGCACAACTGGGGACAGTTAT
Celera SNP ID:            hCV8940144
SNP Position Genomic:     69502
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,25)   caucasian(C,3|G,7)   total(C,8|G,32)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24901):
TTGTGATAGAAAAAAAGAGAGAAAAAACACAGAAGCAAAATTGAAGAATTTGTAAATCATTTCTAAATAATTTCAATAAAATGAGCTTTGAAAGGGAAAA
W
TTTTAGATAACATTATCTCATCAAAATGCCTTAAAGTATATTTTAATATTCAGTAAGAACAGTGTATATTAACATGGCTAATTTAGAGGATTTATATTTT
Celera SNP ID:            hCV2417205
SNP Position Genomic:     179705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24902):
TCACGGTGTCTGCGCGAGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTTGTGGAGCGGCGGGTGGGCGAGCGCTCGCTGTCGAGCTACAT
K
TCGGTGCACACGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTCCAGGTGAGCGCGCGCGACGCGGGCG
Celera SNP ID:            hCV25964461
SNP Position Genomic:     62848
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,31)   caucasian(T,40)   total(G,7|T,71)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24903):
ATGTTATTTCAGGATCTCAAGAAACAGAGCCATGGTAAAAAGAAGCTTCCTGGAGCTTCTGATAAATTCCGTCACCTTTTTGGGACCCAGTTTCTTCATC
M
ATACCAACCTCATTAGGGTCCTGTGAGAAGTACATGAGGTGAGATATGTACTGAAATAATATGCCAACTCTTAAGTGCCAAGACATTAGGATGCAAGGGG
Celera SNP ID:            hCV2417206
SNP Position Genomic:     180292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24904):
TTTTTGAAATATATTTTTAAAACCCCTATCCAAATCAATGAATGCTTTGGCTAAAACCTACTTGGGAATGAGGGTGTTCTTTAGTGCCAAATACTCATCT
K
ATTTTAGTCCATGGCTAAAATCCCAAGAGTTACAGAGGAGAAATAGGGCCAAACAAGGTTTCTATTAAAATAAGAGGTCCCAAGTGATGAATGGAAACTT
Celera SNP ID:            hCV2417207
SNP Position Genomic:     180710
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24905):
TCTCTAGGCCGAGTGTTTGCCCAGGACCCCGACCTGGGGAAGAATGGCCTTGTCTCTTATGAGCTGTTGGATGTTATCTCTGAAGGGCCATCAGCCTCTA
R
CTTGGTGGCAGTGGAATCATCCAGTGGGGCCATCACTGCCAAAACTTCCTTTGACTTTGAGCAGCTCAGGGGGTTTCATTTCCAAGTAGAAGGCCGGGAT
Celera SNP ID:            hCV25957245
SNP Position Genomic:     148388
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24906):
TGCGCGGTGTCCAGCCTGCTGGTGCTCACACTGCTGCTGTACACGGCGCTGCGGTGCTCAGTGCCGCCCACTGAGGGTGCGTGTGTGCCGGGCAAGCCCA
Y
TCTGGTGTGCTCCAGCGCGTTGGGGAGCTGGTCGAACTCACAGCAGAGGCGGCAGAGGGTGTTCTCTAGCGAGGGCCCACCCAAGACCGACCTCATGGCC
Celera SNP ID:            hCV25638133
SNP Position Genomic:     8475
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24907):
CTTCACGGTGTCTGCGCGAGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTTGTGGAGCGGCGGGTGGGCGAGCGCTCGCTGTCGAGCTAC
R
TTTCGGTGCACACGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTCCAGGTGAGCGCGCGCGACGCGGG
Celera SNP ID:            hCV25964463
SNP Position Genomic:     62846
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,10)   caucasian(A,20|G,16)   total(A,44|G,26)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24908):
TTATTTGGATGAATTTAAAAATGACACATGCCATCTTACAGATATGCTGTAGACTGTGAAAATGAAAAAAAAAACCTCGTGTTTAGAGTAGACACTGTTT
S
ATGGATTAGGTAGGTTTTCATCTGGACTTTGAAATGTATGTAAGATTTTATAAGGAGGAGAGAAAATAAGAAGCTGTTTGTATTAGAATTACACAGATAA
Celera SNP ID:            hCV2417208
SNP Position Genomic:     183213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24909):
TGTACCTGATCATCGCCATCTGCGCGGTGTCCAGCCTGCTGGTGCTCACACTGCTGCTGTACACGGCGCTGCGGTGCTCAGTGCCGCCCACTGAGGGTGC
R
TGTGTGCCGGGCAAGCCCACTCTGGTGTGCTCCAGCGCGTTGGGGAGCTGGTCGAACTCACAGCAGAGGCGGCAGAGGGTGTTCTCTAGCGAGGGCCCAC
Celera SNP ID:            hCV25638134
SNP Position Genomic:     8455
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,36)   total(A,2|G,74)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:24910):
AGTCACTGGCAGGAGTGTGACTGACTCCAAAGTCTATATTCCTAATTACTGTGTTCTACTTTTTAATAGAGAGCTCTTGAAGGTCCAAGGAAAGGAATGC
R
TAATGGTGTGGTCAAGGCATTAGTGTTAATATTTGTAGAAAGGGTAATTAACAACAGTCTGAGCAATCACATTCTAACAACTAGTAAGGTTGGCAGGAGC
Celera SNP ID:            hCV2417209
SNP Position Genomic:     184024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24911):
TTATATCATTCTTATGTCTTTGCATTCTCATAGCTTAGCTCTCACTTGTATGTGAGAATATACAATATTTGGTTTTCGATTTCTGAGTTACTTCACTTAG
R
AAAATGGCGTCCAGGTCCACCCAAGCTGCTGCAAAAGCTATTATTTTATTTAGTTTATGGCTGAGTAGTATTGCATGGTGTATATATACCACATTTTCTT
Celera SNP ID:            hCV8940076
SNP Position Genomic:     122853
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24912):
CAGCCCAGGCCTATCTCCAAGTCTTAACACGTCAGAAAGAAATGAACAACCAGAAGCAAATTTGGATCTTTCTGGTAATGTAAGTCCAACTTTCGAGTTT
Y
GGCTTTAAATATTTTTCATATTTAACTTGTCTAATCATCTTTTCAAATATCACTTTAAAAAATGTCTTCAAGGTGTTCACTAACGTTGAAATAAATCATA
Celera SNP ID:            hCV25638135
SNP Position Genomic:     8678
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:24913):
CAAGGTGTACGCACTGCAGCCCCTGGACCACGAGGAGCTGGAGTTGCTGCAGTTCCAGGTGAGCGCGCGGGATGCGGGCGTGCCGCCTCTGGGCAGCAAC
R
TGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCCGGCGCTGCTGGCGCCTCGAGTGGGTGGCACTATTGGTGCAGTCAGTGAGCTGGTGCC
Celera SNP ID:            hCV25638136
SNP Position Genomic:     7907
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24914):
ACGGCGGGTGGGCGAGCGCGCGCTGTCGAACTACGTGTCAGTGCACGCGGAGAGCGGCAAGGTGTACGCACTGCAGCCCCTGGACCACGAGGAGCTGGAG
Y
TGCTGCAGTTCCAGGTGAGCGCGCGGGATGCGGGCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCC
Celera SNP ID:            hCV25638137
SNP Position Genomic:     7850
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,22)   caucasian(C,24|T,14)   total(C,40|T,36)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,526|C,573)   total(C,573|T,526) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24915):
TCGCGCAGCCCGAGTACACAGTATTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCTGCGCGGGACGCGGACGCGCAGGAGAACGC
S
CTGGTGTCCTATTCGCTGGTGGAACGGCGGGTGGGCGAGCGCGCGCTGTCGAACTACGTGTCAGTGCACGCGGAGAGCGGCAAGGTGTACGCACTGCAGC
Celera SNP ID:            hCV25638138
SNP Position Genomic:     7726
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,38)   total(C,1|G,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24916):
CGAGAGCCTGTCGGTCTATGAGCTGGTGGTGACCGCGCGGGACGGGGGCTCGCCTTCGCTGTGGGCCACGGCCAGGGTGTCCGTGGAGGTGGCCGACGTG
M
ATGACAACGCGCCTGCGTTCGCGCAGCCCGAGTACACAGTATTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCTGCGCGGGACGC
Celera SNP ID:            hCV25638139
SNP Position Genomic:     7607
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|C,1)   total(A,75|C,1)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,15|A,1472)   total(A,1472|C,15) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24917):
CAGTGGACGCCGACTCGGGCTACAACGCGTGGCTTTCGTATGAGCTGCAGCCAGCTGCAAGCAGCCCTCGCATCCCGTTCCGCGTGGGGCTGTACACGGG
M
GAGATCAGCACCACTCGTGTCCTGGACGAAGCGGACTCTCCGCGCCACCGTCTGCTGGTCCTGGTGAAGGATCATGGTGAACCTGCGCTGACCGCCACGG
Celera SNP ID:            hCV25960326
SNP Position Genomic:     63211
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(A,3|C,15)   total(A,3|C,49)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24918):
TGTTATACTCAAGTCGAGGAGATCCAGAGGGTCAGCCTCTACTGCTCTCGCTTCTGATCCTCGCAATGTGGGTGGTGGGGAGCGGCCAGCTCCACTACTC
S
GTCCCGGAGGAAGCCGAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCAGTTGGATT
Celera SNP ID:            hCV25968821
SNP Position Genomic:     68598
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,29|G,1)   total(C,63|G,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24919):
GGAAGCATCCATATTCCTAATGAAATTGGAATTTTTCCAAAAGATGAGGCCTGGTCTTGGATGACTACATTTTCACTTGAAACATTTATTTTGGGTAATT
R
TAACACTGAACTCGACAAGTAAATGTTACACTTGGAAAGAACTTTTTTAGCTTTTCCAACCAAAGGCAGATGTATTGCAATAAAATAACTGTCTTAAACG
Celera SNP ID:            hCV29063410
SNP Position Genomic:     18728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24920):
GTGGAGACTACCCAGTCTTTATGTTAATGGTTGATAAATCATCCTTTCAGTATCATTATCATTAGGCCAATGTGTGCAGGCCTCCCACTGCAGAGATTGA
Y
TACTTTTTTCTGGCATCTAATTCTATGCGTGGGAATACATTTTCCATTAATGTGAGCTCACTCAATTTTACCTGGAAGCATCCATATTCCTAATGAAATT
Celera SNP ID:            hCV29063411
SNP Position Genomic:     18554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24921):
TTAATTTGAAAATATTAACATTTAAAAATCACACTGGGGTTTTTCAGGTGGTGGGACTTTTTCTTCATTTAAGTGGAGACTACCCAGTCTTTATGTTAAT
S
GTTGATAAATCATCCTTTCAGTATCATTATCATTAGGCCAATGTGTGCAGGCCTCCCACTGCAGAGATTGACTACTTTTTTCTGGCATCTAATTCTATGC
Celera SNP ID:            hCV29063412
SNP Position Genomic:     18482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24922):
GTTATCAGGCAAAAATAGAGAGTATTGAGAAAAGAGACCCTCTCAATTTTGTTTAATTTGAAAATATTAACATTTAAAAATCACACTGGGGTTTTTCAGG
Y
GGTGGGACTTTTTCTTCATTTAAGTGGAGACTACCCAGTCTTTATGTTAATGGTTGATAAATCATCCTTTCAGTATCATTATCATTAGGCCAATGTGTGC
Celera SNP ID:            hCV29063413
SNP Position Genomic:     18430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24923):
GCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGGGAGGAGCTGTGCGGGCGGAGCGCGGAATGTAGCATCCACCTGGAGGTGATCGTGGACAGG
M
CGCTGCAGGTTTTCCATGTGGAAGTGGAGGTGAAGGACATTAACGACAACCCGCCAATATTTCCAATGACAGTAAAGACTATCCGGTTTCCCGAATCAAG
Celera SNP ID:            hCV29063414
SNP Position Genomic:     15274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24924):
GATCTCATATCAAGATCCTCATCTTTGTTACATCTGCAAAGACCTTTATTCCAAATAAGGTCACTTATTTAAACCTCAGAAAAGTGATGTCTTTTGGGGT
R
TCTTTGACCCAAAACAGGTACCAAGAGATATCAAGTGCAGTGGGAGGAAGGATATTTGCTGAGCATGGCTTCTTAATCTCTTTTCCCCGTTGTGGGGGAA
Celera SNP ID:            hCV29063415
SNP Position Genomic:     12396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24925):
CCAGACCTGCGGCGACAGAGCATCCACGGCTCCGGCGGCCCATGCCCTGGCTGCTGCTACTGCCTCTCCTGCTGCTGTTGCTGCTGCTGCTACCTGGCCC
W
GCGGCCTCCCAGCTGCGATACTCTGTGCCAGAGGAGCAGGCACCCGGCGCGCTCGTGGGCAACGTGGCTCGCGCGCTGGGGCTTGAGCTGCGGCGCTTGG
Celera SNP ID:            hCV2417210
SNP Position Genomic:     186863
SNP Source:               Applera
Population(Allele,Count): african american(A,27|T,9)   caucasian(A,16|T,22)   total(A,43|T,31)
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,24|T,6)   caucasian(A,11|T,17)   total(A,35|T,23)   
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   JBIC-allele(T,661|A,826)   total(A,826|T,661)   no_pop(A,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24926):
GAGGCAGTCAGCTTTGCAGTTGAAAAGGTCATTGCCTAATCTGGAGAAACATATTCAGTTCAAGCACTGGCTAGAGACTAGAGGCCCCCAGGAAAGGGCC
R
TAAGATTGGTCACTGCCAGGAAGCCTGTCAATGAGTGTGTGGACTGGAGAGGAATCTTTCTCTGCCTCAGCACTTGGAGTCTCCGTTATTCACAATCAGA
Celera SNP ID:            hCV27499583
SNP Position Genomic:     209785
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,191|A,1298)   total(G,191|A,1298) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24927):
TGGGCCGCATTTCTTCTGAAGACTTTAGGGGAAATTTTTTTCTTGGATCTTCCAGCTTCTGGTAGCTCTTGGCATTGCTTGGCTTGTGGCAGCATAACTC
Y
AGTTCCTGCCTCTGTCTTCACATTTCCTTCTTTCCTGTGTTACTATATGCCTTCTCTTTTTCTGTCTTTTATAAGGGGCAACCATCATTGGATTTATGGC
Celera SNP ID:            hCV29063416
SNP Position Genomic:     12178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24928):
GCCGGGTTGCTTGCGCATCAACCATCTGGGTGCGCCCAGTCCGCGCTACCTGGAGCTGGACCTGACGAGTGGAGCGCTCTTCGTCAACGAGCGCATTGAT
M
GGGAGGCGCTGTGTGAGCAGCGGCCTCGCTGCCTGCTCAGCTTGGAAGTGCTGGCGCACAACCCCGTGGCGGTGAGCGCCGTTGAGGTGGAAATATTGGA
Celera SNP ID:            hCV2417211
SNP Position Genomic:     187065
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,30)   caucasian(C,26)   total(A,2|C,56)
SNP Type:                 INTRON;SILENT MUTATION;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS


Context             (SEQ ID NO:24929):
AAGAAAATGTCCCAGTTCCTCAAAATATGAGACAAACTTTGCAGGATTATAAAATTGGAAAAAATAGATCAGAAAATCACAAAATAATTTCTCTTTCCAA
Y
TCACATTACTGTGTCCCCAAAGCTTCATTTGCTAACAGTATTAATGGCCAGGCTTAGGATTGCCTTTACATACATTCAATATTTCTTTATTTAGTTTTCT
Celera SNP ID:            hCV29063417
SNP Position Genomic:     10655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24930):
GCGCTACCTGGAGCTGGACCTGACGAGTGGAGCGCTCTTCGTCAACGAGCGCATTGATCGGGAGGCGCTGTGTGAGCAGCGGCCTCGCTGCCTGCTCAGC
Y
TGGAAGTGCTGGCGCACAACCCCGTGGCGGTGAGCGCCGTTGAGGTGGAAATATTGGACATCAACGACAACTCACCGCGTTTCCCGCGGCCCAACTACCA
Celera SNP ID:            hCV2417212
SNP Position Genomic:     187107
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,23)   caucasian(C,1|T,13)   total(C,4|T,36)
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24931):
TTACTGATGATTGTGTAAAGGTTGAGAAATATACTGGGCAGCACGTTTTATAGCAGTTTTGCAAAACCCACGGAAATATCCTTGATGTAGACATCATTGT
R
TTTGGTAGTCATTCAGTCAAGGGCATAATGTTAAATTTTATTTCCTATGTTTGCTTCTGAAGTTACTTAAATATTAAATGAATATATTTTTGTTTGTCAA
Celera SNP ID:            hCV29063418
SNP Position Genomic:     10238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24932):
AAGACTGAGTATTTGAAATGTTATACTCAAGTCGAGGAGATCCAGAGGGTCAGCCTCTACTGCTCTCGCTTCTGATCCTCGCAATGTGGGTGGTGGGGAG
M
GGCCAGCTCCACTACTCCGTCCCGGAGGAAGCCGAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGC
Celera SNP ID:            hCV8940153
SNP Position Genomic:     68580
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,19)   caucasian(A,27|C,3)   total(A,34|C,22)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(A,11|C,12)   SC_12_C(A,11|C,12)   SC_12_AA(A,6|C,18)   total(C,42|A,28)no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24933):
GTCACCTTTCTTGGCATACTCTGAATTCATTGTAAGAGGATTTCCCTGAATTTAGCTTAAATGCAGCCTGTAATCTTCTGATTTTCTGTTGACAGTTTCT
R
TGGTTTTGATGAGATGTAAAGTAGCCTTTTCAAGTCCTTCATGTCTTTAAGTTAAATGACAGTACTTCCAAAGCATGCATTCATTTTCTGGATCTAAAAT
Celera SNP ID:            hCV2417213
SNP Position Genomic:     190235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24934):
AAGCACCTCCCATTCCTCCCATTCACTCACAAATGTTCTAAAACCCTTTACTTTTTTAGCTCATTCGATCCTTCCAACGATTTTATGAAGTGAAGACTTT
M
GTCACATTTTGTGGATAAAGGTGCTGAGGCTCGCAAAACCTAAGTTCAGTATTATTACTAAGTTTTCTTCAAATTTCCCGAGGATATCCAAAAACTTGCT
Celera SNP ID:            hCV29063419
SNP Position Genomic:     9742
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24935):
CTTCAAGAATTACTACTCGTTGGTGTTGGACAGCGCCCTGGATCGCGAGAGCCTGTCGGTCTATGAGCTGGTGGTGACCGCGCGGGACGGGGGCTCGCCT
Y
CGCTGTGGGCCACGGCCAGGGTGTCCGTGGAGGTGGCCGACGTGAATGACAACGCGCCTGCGTTCGCGCAGCCCGAGTACACAGTATTCGTGAAGGAGAA
Celera SNP ID:            hCV25638140
SNP Position Genomic:     7562
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(T,38)   total(C,2|T,68)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,40)   total(C,3|T,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24936):
GTTTCAACAATCATTACTTAAGAAAAAATTAAGAAAATGAAATAAGTTTTGCAGAATAACTGTGAAATTTTTATTCATGAAATATGTACTTACACTTTGG
R
CCACGTGATGTCACTCTTTGCCGCGATGTTCTCTCTGAATCCAGACAAATACAGCCCTTTTCCCATGGGAAAGAGGCTCAATTCTTTTTCACTCTCTCTG
Celera SNP ID:            hCV8940154
SNP Position Genomic:     68292
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;Pcdh-Pygmy(G,21|A,21)   Myers-Ghimp(A,0|G,20)   total(G,41|A,21)no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:24937):
GAGACAGAGTCTTGGCCTGTCACCCAGGCTGGAGTATAGGTGTGAATATGGCTCACTGCAGCCTCGACCTTCTGGGCTCAAGCAATCCTCACACATCAGC
Y
TCCTGAGTAGCTTGGACCATAGATGTGCGCCACCGTGTCTGACTAGTTTTTAGGTGTTTTTTTTTTTTGGAAGAGATGGGGGTCTCACTATGTTGCACAT
Celera SNP ID:            hCV2417214
SNP Position Genomic:     192240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24938):
TTGCTGCAGTTCCAGGTGAGCGCGCGGGATGCGGGCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGC
S
GGCGCTGCTGGCGCCTCGAGTGGGTGGCACTATTGGTGCAGTCAGTGAGCTGGTGCCGCGATTGGTGGGTGCGGGTCATGTGGTGGCGAAGGTGCGCGCA
Celera SNP ID:            hCV25638141
SNP Position Genomic:     7950
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|G,1)   total(C,75|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24939):
GTTGCTTATTAAACATCAGCATTTAACCCCAGACTCTAATCTGTTGGTAGATTTTACCCCCAGTGAGCTTATTTCATAAATCACTTGTGCAGTGAGGATT
Y
TGAAGTAACTATTTGGCAATAGGGCAGAATTTCTCTTTGGAAATTTCTGAACTTGATACTGAATGTTGTTGGCACTCCCTTCAGAGTCTCCATAAAAAGA
Celera SNP ID:            hCV2417215
SNP Position Genomic:     192533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24940):
CATTTTAAAAACCTCCCAGATGCCAGAAGCCTGCTAGACTCTGACTATATAGCTACGCTTTTATGAATATCTGAAGATATGCATGTGTCTAATGAGCAAA
R
CAGATATAATCCCTTTCATAGAGTTTACTGTCTGACAAAGAAAGAATTAGGATACATGCAACAGTATGTAATAAAGTGCAAAATCTAGTACTGTGTAGCT
Celera SNP ID:            hCV2417216
SNP Position Genomic:     196812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24941):
AAGTCCTCCGATGTCAAATCACTGTAAGGTTTTGGTGAAAGTGCTGGATGTAAATGATAATGCTCCAGAACTGGCGGTCACTTCATTGTATTTGCCTATC
R
GAGAGGACGCTCCACTCAGCACCGTCATCGCCCTCATCACCGTGTCTGACCGTGACTCAGGTGCCAACGGGCAGGTGACTTGCTCCTTAATGCCCCACGT
Celera SNP ID:            hCV25638142
SNP Position Genomic:     7340
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,38)   total(A,70|G,4)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24942):
AGAGTTTACTGTCTGACAAAGAAAGAATTAGGATACATGCAACAGTATGTAATAAAGTGCAAAATCTAGTACTGTGTAGCTACTTAAAACATATTATATG
Y
TTTCTTCCTTTCCTTTTCCCTGCCTGATCTTACTGCCATAAGAAATCTTGTAACTGTGATTCTGTCAAATGAATCTAAGAAGGATGTTGTTGCTGATGGA
Celera SNP ID:            hCV2417217
SNP Position Genomic:     196932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24943):
CCTGAGAGAAGACAGAAACGGTAAAGAGATAAATGATTGGAAATATTAGATAAAATGGCATGATTTTGAAGTAAGAGGAGAGCATAAGAAAGGTGTAGTC
Y
TTTTGCAATGGTGTTTTCTAGGAGAGGGGGCCTGGGAGCCCGGGATCTGCTTCTTTGGCTTCTGCTCCTCGCAGCCTGGGAGGTGGGGAGCGGCCAGCTC
Celera SNP ID:            hCV25638143
SNP Position Genomic:     6255
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,36)   total(C,69|T,1)   
SNP Type:                 UTR 5;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:24944):
GAAGTGTCCCCTCCAGTCGGTGCGGGTGTCAACAGCAACAGCTGGACCTTTAAATACGGACCAGGCAACCCCAAACAATCCGGTCCCGGTGAGTTGCCCG
M
CAAATTCATTATCCCAGGATCTCCTGCAATCATCTCCATCCGGCAGGAGCCTACTAACAGCCAAATTGACAAAAGTGACTTCATAACCTTCGGCAAAAAG
Celera SNP ID:            hCV8939908
SNP Position Genomic:     229716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:24945):
CGTTGGTGGAGAGCGGACAGGCGCCAAAGGCCTCTTCCCGGACTTTGGCGGGCGCCGCGAGCCCAGAGGCTGCGCTGGTGGATGTCAACGTGTACCTGAT
M
ATCGCCATCTGCGTGGTGTCCAGCCTCCTGGTACTCACGCTGCTGCTGTATACGGCGCTGTGGTGGTCGGCAACGCCCACTGAGGGCGCGTGCGCGCCGG
Celera SNP ID:            hCV25969704
SNP Position Genomic:     91210
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,29)   caucasian(C,24)   total(A,1|C,53)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24946):
AGGCTTAGCATTGCATGTATTTGCTATTTCGGGGATCCAGTTAGGAAACACTTATTAAGCACCTCCCATTCCTCCCATTCACTCACAAATGTTCTAAAAC
S
CTTTACTTTTTTAGCTCATTCGATCCTTCCAACGATTTTATGAAGTGAAGACTTTCGTCACATTTTGTGGATAAAGGTGCTGAGGCTCGCAAAACCTAAG
Celera SNP ID:            hCV29063420
SNP Position Genomic:     9686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24947):
GCTGTCGTATGAATTGCAGTCGGCGGCGGTTGGTGCACGCATCCCGTTTCGCGTGGGGCTGTACACGGGCGAGATCAGTACGACGCGCGCTCTGGATGAG
R
CTGACTCGCCACGCCAGCGCCTACTGGTGCTGGTGAAGGACCATGGCGAGCCGTCGCTGACGGCCACGGCCACTGTGCTTGTGTCGCTTGTGGAGGGCAG
Celera SNP ID:            hCV3163200
SNP Position Genomic:     77967
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24948):
ATGGCATTCTTTCAGTGTTAATACTCTCCATGCCCTGTCTCCAGCTCTTAGAAATTATAGATGCTAAGTTAATGCAGAGTTTAGAAGTGTATTTGTTATT
W
TATCAAATAGGTTTATGAAATATATACTTCCCCCTCTGATATTTTGAAAAAAAATCTTCCTTAATGTCTTATATTATAAGTAATATAAAAAACTTAGTAA
Celera SNP ID:            hCV3163201
SNP Position Genomic:     79842
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,9)      total(A,9|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24949):
CGACATAGGGATATCTTGTACTGTGTGTGTGTGTATATATATGTATATATGTGTATATATATATGTATATATATATGATGGGCTCTCCTTACATATATAT
M
TATATATGTACTTATGTATATATAAGCCAGGCATGGTGGTACATGCCTTTAGTCCCTACTGTAGTGCTACTTGGGAGGGTGAGGTGGGAGGACGGCTTGA
Celera SNP ID:            hCV3163202
SNP Position Genomic:     80205
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,7)      total(A,7|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24950):
AGGACGGCACATAGCGTCTTCGCGGTCCCTATTGCGCAGGACCTGGGTCTGGAGCTTGTGGAGCTGATACCGCGCCTGTTTCAGTTGGATTCCAAAAGCC
K
CAGAAACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTTGTGAGTTCTCTGATAGACCTCGAGGAGCTGTGTGGGAGGATCTCGGAGTGCAGCATCCAC
Celera SNP ID:            hCV3163203
SNP Position Genomic:     81446
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,4)      total(G,4|T,4) ;no_pop(G,-|T,-)   JBIC-allele(T,721|G,754)   total(G,754|T,721)   SC_12_A(G,8|T,8)   SC_12_C(T,7|G,14)   SC_12_AA(T,5|G,16)   total(G,38|T,20)no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:24951):
TATTGTTGGCTGGGAAGCTCATAACAACTGACAAATGATTTGTGACCAAATAACTGTTTTTACTTGACTAAGCCATGATAGAGCAGAATTAGCATCACGG
R
ATAAATCCTATAATTTTGTTAATACAGTGGTTGGATAATGTAATTCTAATCTGTTGGTTTTGGAGAACCTCCTGGGGTTCTGACAACGGTGTCAAAATTT
Celera SNP ID:            hCV3163204
SNP Position Genomic:     86552
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24952):
AAATTTTGTTGCATCTTCTTTTTTTCCTCCTAAATCCTAAGGGTATATGAAAAGACAAAGAAAATTCAAGCAAGTTACAACTTCAGGCAAAGAAAACTCT
S
ATAAGCAATTCCTGTATTTTACTTAGCATTTTCTATGAAATTCCATTTCCACAAGCACTAAGGTAATTTACCATTTAGTTGAATTGTTTGATTAATTTTC
Celera SNP ID:            hCV3163205
SNP Position Genomic:     87776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24953):
CATTCCTGATTGAGAGTAGATTTTTCTCATGGACATTTCAGATAGATTTATTCATTTATCAGAAGTGCCTGGTGTTAGTCAATGCTGAGAAACCATGGGA
R
GCAGATTGTAGATTAAGAAAAATGGGGGAATAAATCAAAGAGTTTCCAGAAGTCTTTAGATCGTAGCATTTGAAAGCACGTAAAAGGGTTTAGCTTTAAA
Celera SNP ID:            hCV27499592
SNP Position Genomic:     190936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24954):
AAATTACCCTTTATCTAATAATAGCATTAAGCACAGTGTCTTTTATATTTCTTTTGACAATCATCATTTTGAGCATCATCAAGTGCTACCGCTACACTGC
R
TATGGCACTGCATGCTGTGGAGGCTTCTGTGGAGTAAGGGAAAGGTCCCCTGCAGAACTGTACAAACAAGCCAACAACAATATTGATGCCAGGATACCGC
Celera SNP ID:            hCV25991084
SNP Position Genomic:     188954
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,14)   total(A,1|G,45)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:24955):
CCACTTTTGAAAATGAAAAATAGGAAAGAAACTTGGTGATGATATTAGACAATTTAAATAATTAGCCTGATGACATCAAAATTCAAATATGTTTTTAATT
R
CTTAACGTTTTATAGTTTATTTAAGTTATCTTATACTTGTAGAGCCATTCTTGGTTACTCTTTCCTGGTGTTGTAAAGGTGTCATATTTCAGTTGCCTTT
Celera SNP ID:            hCV3163207
SNP Position Genomic:     94111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24956):
TTACTTAACGTTTTATAGTTTATTTAAGTTATCTTATACTTGTAGAGCCATTCTTGGTTACTCTTTCCTGGTGTTGTAAAGGTGTCATATTTCAGTTGCC
Y
TTATTATTATATGCAGTAGGAATGAATGGCAACAAATTATTGGTTTAAAGATTTTGACTTGAGTATTAATAGACTTACAAAATCTATGTGTACTTGTTCA
Celera SNP ID:            hCV3163208
SNP Position Genomic:     94209
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24957):
TGATGGTAATCGATGGCGGTAAACCAGAACTAACAGGGTCTGTCCAGATTCAAATAACCGTCCTGGATGTGAATGACAATGGTCCGGCGTTTGATAAGCC
M
AGCTATAAAGTAGTGTTGTCTGAAAATGTCCAAAACGACACAAGAGTGATCCAACTAAATGCTTCCGATCCAGACGAAGGACTTAATGGAGAAATTTCCT
Celera SNP ID:            hCV8940094
SNP Position Genomic:     96214
SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,20)   caucasian(A,25|C,15)   total(A,37|C,35)   
SNP Type:                 INTRON;SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,14|C,24)   caucasian(A,23|C,15)   total(A,37|C,39)
SNP Type:                 INTRON;SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|C,6)      total(A,6|C,6) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24958):
CGGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCTGCGCGAGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCT
K
GTGGAGCGGCGGGTGGGCGAGCGCTCGCTGTCGAGCTACATTTCGGTGCACACGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGC
Celera SNP ID:            hCV25964556
SNP Position Genomic:     62806
SNP Source:               Applera
Population(Allele,Count): african american(G,11|T,19)   caucasian(G,6|T,26)   total(G,17|T,45)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24959):
GAGTGCGCGCCTGGCAAGCCGACGCTGGTGTGTTCTAGCGCGGTGGGGAGTTGGTCGTACTCGCAGCAGAGGAGGCAGAGGGTGTGCTCTGGCGAGGGTC
M
GCAGAAGACCGACCTCATGGCCTTCAGCCCGGGCCTTTCTCCTTGTGCTGGATCTACAGAGCGAACGGGAGAACCCTCTGCTTCCTCAGATTCAACTGGG
Celera SNP ID:            hCV26311941
SNP Position Genomic:     70787
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24960):
ACGACAACGCACCAGCGTTCGCGCAGTCCGAGTACACGGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCTGCGCGGGACGC
K
GACGCGCAGGAGAACGCCCTGGTGTCCTACTCGCTGGTGGAGCGGCGGTTGGGCGAGCGCTCGCTGTCGAGCTACGTGTCAGTGCACGCGGAGAGCGGCA
Celera SNP ID:            hCV26311943
SNP Position Genomic:     69942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24961):
GACGTGCCAACCAGCAACCAGCAGGTAAAACCTCTTGGACTTGTATTACGGAAACTTTTAGACAGAGAAGAAACTCCGGAGCTTCATTTATTGCTCACGG
Y
CACCGATGGAGGCAAACCCGAGCTGACTGGCACCGTTCAATTACTCATCACGGTACTGGACAACAATGACAATGCCCCAGTGTTCGACAGAACCCTGTAT
Celera SNP ID:            hCV26311945
SNP Position Genomic:     55029
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24962):
TTCTGTTTTTAATTTTTAATTAATTTTACAAAATTACATATTTTCATTTTATTGTGTTTCTTATTTTAATCTCTTTGCTTCTTTAATATTCATAATTTAA
S
TGAAATTAGAAATCACTGTCCACAATCTGCACCTCAGAATTTTTGTCTTCAAACCAAAATATTCTTGGATATGTCGTTTTCTGTTGCATTTTAATTCAGA
Celera SNP ID:            hCV25766072
SNP Position Genomic:     50662
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,17)   caucasian(G,4)   total(C,1|G,21)
SNP Type:                 INTRON


Context             (SEQ ID NO:24963):
CTTTCGTATGAGCTGCAGCCAGCTGCAAGCAGCCCTCGCATCCCGTTCCGCGTGGGGCTGTACACGGGCGAGATCAGCACCACTCGTGTCCTGGACGAAG
Y
GGACTCTCCGCGCCACCGTCTGCTGGTCCTGGTGAAGGATCATGGTGAACCTGCGCTGACCGCCACGGCCACGGTTCTGGTGTCGCTGGTGGAGAGCGGC
Celera SNP ID:            hCV25995377
SNP Position Genomic:     63243
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,23|T,1)   total(C,59|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24964):
ATTCTCTCATTTTTCTTTATGATTCTATCCTTTAAACTATCGAATGTCTCATCTTTCTTGGTCATTCTTACTCATTTTGAACTTTTATGTATTTGTCTAA
Y
ATTAATGAAGGAAATATGTAGGTACAATGGAGGCCATGGAGCACCACACTTAATATTTTTCTTTTTCTATAATATTTTATATGACTGATGAACCTTGAAA
Celera SNP ID:            hCV3163210
SNP Position Genomic:     98013
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   SC_12_AA(C,5|T,12)   total(C,5|T,12)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24965):
GCACTGGCAAAGTAGAAGCAGCCAGATAATGACAGACTCAATACAAATGATAAGAGAAAAACAAAAGTAGAAGTTGACTCTCACTTTTTTAGTTTGTTCA
R
CTGAGAAGATGACATTGCCATTAACCAACCTGCAGAACAAGGTTGGAGAAACAGTTTGTGTGTATTTGAGCAGGTAGGGAATGGAGATGAACATTTAAGA
Celera SNP ID:            hCV3163211
SNP Position Genomic:     99344
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24966):
AAATTAAATCACAAAACAACAGTATATATACACATATATTTTCAATGGACTAAAATACCTTTGATTACTATGTTCTTCATTTGAAGAAATAGTGAAAAAT
R
CTAATATATCCAAAAGAATTGAAAGCAGGGTCTCAAAGAAATATATGCACACCCATGTTCATGGCAGCACTGTTCACAACAGTCAAGAAATGGAAGCAAC
Celera SNP ID:            hCV7430702
SNP Position Genomic:     13985
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24967):
CCGACGTGAACGACAACGCGCCGGCGTTCGCGCAGCCCGAGTACACGGTGTTCGTGAAGGAAAACAATCCGCCGGGCTGCCACATCTTCACGGTGTCTGC
K
CAGGACGCGGACGCACAGGAGAACGCGCTGGTCTCCTACTCGCTGGTGGAGCGGCGGGTGGGCGAGCGTGCGCTGTCGAGCTACGTGTCGGTGCACGCGG
Celera SNP ID:            hCV3163213
SNP Position Genomic:     103712
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,5)      total(G,4|T,5) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24968):
GAGGGTCAGCCTCTACTGCTCTCGCTTCTGATCCTCGCAATGTGGGTGGTGGGGAGCGGCCAGCTCCACTACTCCGTCCCGGAGGAAGCCGAACACGGCA
M
CTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCAGTTGGATTCCAAAGGCCGCGGGGACCTTCTGGAG
Celera SNP ID:            hCV25968773
SNP Position Genomic:     68624
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(A,1|C,31)   total(A,1|C,59)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24969):
TGAACCCGGGAGGTGGAGGTTGCAGTGAGATGAGATCATGCTACTGTACTCCAGCTCTGGGTGACAGAGCAAGACTTCGTCTTGAAAAAAAAAAAAAAAA
R
AAAGAAAGGTCTTCCCAACTCCTATATTGAACATTCATTAATTAAATGCATTTAATAAATACTTATTGAGTGTTCTCTATGTGCCAGGCATGTTCTACAC
Celera SNP ID:            hCV3163215
SNP Position Genomic:     106851
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24970):
CCGTAAGTTATTGGGGGTACAGGTGGTATTTGATTACATGAGTAAGTTCTTTGGTGGTGATTTGTGAGATTTTGGTGCATCCATCACCTGAGCAGTATAC
R
TTGCACCATATTTGCAATCTTTTATCCCTCGCCACCCCCCACTCTTGCCCCCAAGTCCCCAACGTCCATTGTATAGGATTTTTGAATTTGTGAATTAATG
Celera SNP ID:            hCV3163216
SNP Position Genomic:     111376
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,9)   total(G,5|A,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:24971):
ATCCAGAGGGTCAGCCTCTACTGCTCTCGCTTCTGATCCTCGCAATGTGGGTGGTGGGGAGCGGCCAGCTCCACTACTCCGTCCCGGAGGAAGCCGAACA
Y
GGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCAGTTGGATTCCAAAGGCCGCGGGGACCTTC
Celera SNP ID:            hCV25968776
SNP Position Genomic:     68619
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,31|T,1)   total(C,61|T,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24972):
GTGAGATTTTGGTGCATCCATCACCTGAGCAGTATACATTGCACCATATTTGCAATCTTTTATCCCTCGCCACCCCCCACTCTTGCCCCCAAGTCCCCAA
Y
GTCCATTGTATAGGATTTTTGAATTTGTGAATTAATGCCTTTACATCACTTTGAGCATATCCTCAGCTATAATGTTCTCCAATGTTGCTTCTGTTCCATT
Celera SNP ID:            hCV3163217
SNP Position Genomic:     111439
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24973):
AAGAAAAAAAAAGCAGTTGTAGAACTCCTTTAAGTATTTCTTGTAGGACTTATCTAGTTGTAGTGTACTTCCTCAGTTTTTGCTTGTTTGGGAAATACTT
Y
ATTTCTCCTTCATTTCTGAAGTATAGCTCTGCTTGGTATAGTATTTTTGGCTGATAGTTTTAAAAAATTTCAGCACTTTGGATATATCATCTCATTCTAT
Celera SNP ID:            hCV3163218
SNP Position Genomic:     113602
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24974):
CCAATCATATCATTACTGAGTCTCTCTAATTCTGATTTGTGTATTCTTGCATAGCTTTTCATTATTTTCTAAAAATGTTTAAGTTGTTTTCAAATATTAC
R
TAGCAATTTGTGGAATTTTTTTTCTTGTGTGTATTTATTTCCTTTAGTGTAATTATTTGTCCTCTCCTTTAAAAATAATTTTATATCAGATTTGCCCATA
Celera SNP ID:            hCV3163219
SNP Position Genomic:     114732
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,11)   total(G,11|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24975):
TGAACGACAATGCTCCGGCGTTCGCGCAGCCCGAGTACACGGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCTGCGCGAGA
Y
GCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTTGTGGAGCGGCGGGTGGGCGAGCGCTCGCTGTCGAGCTACATTTCGGTGCACACGGAGAGCG
Celera SNP ID:            hCV25964636
SNP Position Genomic:     62767
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,15)   caucasian(C,19|T,21)   total(C,36|T,36)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24976):
TACGTGAAGACGCTCAATTTGGTACTGTCATCGCCCTAATTAGCGTGAACGACCTCGATTCAGGTGCCAACGGGCAGGTGACCTGCTCCCTGATGCCCCA
Y
GTCCCCTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGCGCCCTGGACCGCGAGAGCGTGTCGGCCTATGAGTTGGTGGTAA
Celera SNP ID:            hCV26311950
SNP Position Genomic:     62500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24977):
TATCCTTGCCTGTACGTGAAGACGCTCAATTTGGTACTGTCATCGCCCTAATTAGCGTGAACGACCTCGATTCAGGTGCCAACGGGCAGGTGACCTGCTC
S
CTGATGCCCCATGTCCCCTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGCGCCCTGGACCGCGAGAGCGTGTCGGCCTATG
Celera SNP ID:            hCV26311951
SNP Position Genomic:     62488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24978):
ACTTCCTTATCCTTGCCTGTACGTGAAGACGCTCAATTTGGTACTGTCATCGCCCTAATTAGCGTGAACGACCTCGATTCAGGTGCCAACGGGCAGGTGA
M
CTGCTCCCTGATGCCCCATGTCCCCTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGCGCCCTGGACCGCGAGAGCGTGTCG
Celera SNP ID:            hCV26311952
SNP Position Genomic:     62481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24979):
AATGATAATGCTCCCACTTTCGAACAGTCTGAATACGAAGTAAGAATATTCGAAAACGCAGACAACGGAACAACAGTTATCAAACTGAATGCTTCTGATC
S
GGATGAAGGAGCCAATGGGGCAATTTCATATTCTTTTAATAGCCTTGTTGAAACTATGGTTATTGACCACTTTAGCATAGATCGAAATACGGGAGAAATA
Celera SNP ID:            hCV26311954
SNP Position Genomic:     62130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24980):
GTCACAGTGCTGGATGTGAATGATAATGCTCCCACTTTCGAACAGTCTGAATACGAAGTAAGAATATTCGAAAACGCAGACAACGGAACAACAGTTATCA
R
ACTGAATGCTTCTGATCCGGATGAAGGAGCCAATGGGGCAATTTCATATTCTTTTAATAGCCTTGTTGAAACTATGGTTATTGACCACTTTAGCATAGAT
Celera SNP ID:            hCV26311955
SNP Position Genomic:     62112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:24981):
ACAGTAGAAACCTACCTTTCTGCACTTTTTGGTTTTCCACTTTAAGTTATATTATATAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTGTGTGTTTGACAGAGTTTTACTCTGTCGCCCTCTCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAAAATCCGCCTCTCTGGTACAAGCAGTTCT
Celera SNP ID:            hCV26311956
SNP Position Genomic:     58125
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24982):
CGTTGTCGAGCTACATTTCGGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTTCAGGTGAG
M
GCGCGCGACGCGGGCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCCGGCGCTGCTGGCGCCTCGGG
Celera SNP ID:            hCV25627674
SNP Position Genomic:     49698
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,36)   total(A,1|C,73)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:24983):
TACGTGAAGACGCTCAATTTGGTACTGTCATCGCCCTAATTAGCGTGAACGACCTCGATTCAGGTGCCAACGGGCAGGTGAACTGCTCGCTGACGCCTCA
Y
GTCCCTTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGTGCCCTGGACCGCGAGAGCGTGTCGGCCTATGAGTTGGTGGTAA
Celera SNP ID:            hCV26311958
SNP Position Genomic:     49266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:24984):
GCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTTCAGGTGAGCGCGCGCGACGCGGGCGTGCCGCCTCTGGGCAGCAA
M
GTGACGCTGCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCCGGCGCTGCTGGCGCCTCGGGTGGGTGGTACTGGTGGTGCAGTGAGCGAGCTGGTGC
Celera SNP ID:            hCV25627675
SNP Position Genomic:     49734
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,35)   total(A,1|C,73)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:24985):
TGGGCAAGGCAAAGCCAAAGGTGGCCTTTACAAGATTATTAAATCTGGTCTTCCAGGGTATCTAATCTGTGTGAGGACCCTGATGAACTAATTTTCTTCT
M
AAGTGCTATATATGTAGATATCATCATAGAGTTACACATGAAATGGCTCATTCAATACTTTTTTAGATGCCTGGAAATATTTAAGGGAGTAACTAATCAA
Celera SNP ID:            hCV8939926
SNP Position Genomic:     198761
SNP Source:               Applera
Population(Allele,Count): african american(A,27|C,1)   caucasian(A,22)   total(A,49|C,1)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,10)      total(A,10|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:24986):
CCACTTTCGAACAGTCTGAATACGAAGTAAGAATATTCGAAAATGCAGACAACGGAACAACAGTTATCAGACTGAATGCTTCTGATCGGGATGAAGGAGC
S
AATGGGGCAATTTCATATTCTTTTAATAGCCTTGTTGCAGCCATGGTTATTGACCACTTTAGCATAGATCGAAATACGGGAGAAATAGTGATTCGGGGTA
Celera SNP ID:            hCV26311959
SNP Position Genomic:     48909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24987):
TGGATCACTTGGTAGCTCTATTTTTGGCTTTTTGAGGAAACTCCAAACTGTTCTCCATAGTGCTTGTACTAATTTACATTCCCACCAACAATGTACAAAG
K
TTCCCTTTTTTTCACCTCTCCAGCATTTTTTATTGCCTGTCATTTGGATAAAAGCCATTTTAACTGTGGTAAGATGATATCTCATTGTAGTTTTGATTTG
Celera SNP ID:            hCV3163221
SNP Position Genomic:     120847
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|T,9)   total(G,6|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24988):
GTGCTCACGCTGCTGCTGTACACTGCGCTGCGTTGCTCAGCGCCGCCCACCGTGAGCCGGTGCGCGCCGGGCAAGCCCACGCTGGTGTGCTCCAGCGCCG
Y
GGGGAGTTGGTCTTACTCGCAGCAGAGGAGGCAGAGGGTGTGCTCTGCAGAGAGCCCGCCCAAGACGGACCTCATGGCCTTCAGCCCAAGCCTTCAGCTG
Celera SNP ID:            hCV25973603
SNP Position Genomic:     97713
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,40)   total(C,2|T,74)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24989):
CTGAGAATGCCATTATTTCATTCCTTTTTATGGCTGAGTAGTATTCCATGGTGTATTATATATATAATACATATATTTTATATATATGTATATTACAATT
Y
CTTTATACACTTGTTGATTGGTGGCTATTTGGTCTGATTCCAAATTTTTACAATTGTGAATTGTGCTGCTATAAACTTGTGTGTTCAAGTATCTTTTTCA
Celera SNP ID:            hCV3163222
SNP Position Genomic:     124453
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24990):
AGTGTTTCTTGTGGGCAACAGATCATTGGGTCATGTTTTTTCATCCATTCAGCCACTTTATTTCTTTTTATTGGAGAGTTTAGTCCATTTACATTCAATA
W
TTTCATTTAAGTAGGAACTTCCTCCTGCCATTTTGTAATTTGTTTTCTCGTGGTTTCATGGTCATCTCTCCCTTCTTTCCATCTTCTTTTTCATGAAAAT
Celera SNP ID:            hCV3163223
SNP Position Genomic:     134585
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,15)   total(A,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:24991):
CAGATGCCAACGGGCAGGTTACCTGCTCCCTGACGCCCCACGTCCCCTTCAAGCTGGTGTCCACCTACAAGAATTACTACTCGTTGGTGCTGGACAGAGC
Y
CTGGACCGCGAGAGTGTGTCCGCCTACGAGCTGGTGGTTACCGCGCGGGACCGGGGCTCGCCTTCACTGTGGGCCACGGCCAGGGTGTCTGTGGAGGTGG
Celera SNP ID:            hCV25970122
SNP Position Genomic:     69732
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,27)   caucasian(T,26)   total(C,9|T,53)
SNP Type:                 INTRON;SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:24992):
AGGAGATCCAGAGGGTCAGCCTCTACTGCTCTCGCTTCTGATCCTCGCAATGTGGGTGGTGGGGAGCGGCCAGCTCCACTACTCCGTCCCGGAGGAAGCC
R
AACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCAGTTGGATTCCAAAGGCCGCGGGGA
Celera SNP ID:            hCV25968789
SNP Position Genomic:     68614
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,31)   total(A,1|G,65)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24993):
ACGGTCATTGCCCTGATCAGCGTGTCTGACCGTGACTCAGGTGTCAACGGACAGGTGACCTGCTCGCTGACGCCCCACGTTCCCTTCAAGCTGGTGTCCA
Y
CTTCAAGAATTACTACTCGTTGGTGCTGGACAGCGCCCTGGACCGCGAGAACGTGTGGGCCTATGAACTGGTGGTGACTGCGCGGGATGGGGGTTCGCCT
Celera SNP ID:            hCV25961302
SNP Position Genomic:     90306
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,25|T,1)   total(C,55|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24994):
TCCCAGTACGAGAGGACGCTCAGCCCAGCACGGTCATTGCCCTGATCAGCGTGTCTGACCGTGACTCAGGTGTCAACGGACAGGTGACCTGCTCGCTGAC
S
CCCCACGTTCCCTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGCGCCCTGGACCGCGAGAACGTGTGGGCCTATGAACTGG
Celera SNP ID:            hCV25961232
SNP Position Genomic:     90277
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,29)   caucasian(C,1|G,25)   total(C,2|G,54)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:24995):
GCTTTACTCTCCCGAATGCCCAAGATGACGACGAGGGAAGCAATGGGATACTAAGCTACAGCCTAAGCCCCAGTCAGCACTTTCGCCTGGACATGGGATC
R
CGGGTTGACGGCAGCGAATACCCGGAGTTGGTGTTGGAGAAAGCACTGGATCGCGAACAGCGCGCCACCCACCTGCTGGTGCTTACAGCTCGGGACGGCG
Celera SNP ID:            hCV25963774
SNP Position Genomic:     147426
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,1|G,39)   total(A,3|G,73)
SNP Type:                 INTRON;SILENT MUTATION;TFBS


Context             (SEQ ID NO:24996):
AGCTCACAGGCACTGTTCAGCTGCTGGTCACAGTGCTGGATGTGAATGATAATGCTCCCACTTTCGAACAGTCTGAATACGAAGTAAGAATATTCGAAAA
Y
GCAGACAACGGAACAACAGTTATCAGACTGAATGCTTCTGATCGGGATGAAGGAGCGAATGGGGCAATTTCATATTCTTTTAATAGCCTTGTTGCAGCCA
Celera SNP ID:            hCV26311960
SNP Position Genomic:     48852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:24997):
TACGGTTTGGAGCCACATGATGTCGCTCTTTACCACAAAATACATGAGAGAAGGAGGAAGAAGGGAAAATTCCTTCTATTCTTACTGGAAGGAACCATAT
R
CACTCTTTGGAGTCTGAAATATGGAGGATGCAGCTGCACTTGACTGACCGATTAAAAGATTTCCCTTGACTTTGAGAAACGATATTTAATCAGAACAAAA
Celera SNP ID:            hCV27947352
SNP Position Genomic:     27046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:24998):
ACTTTGAGGAGTGACCGAAGGATATTACAATTGAAACTAGAAATTTTGGGAAAGTTCAAACGACATGCAAGGAAAAGAAGATACGTTTACGTATTTAATA
S
TTACACGTTTAGCCACATGATGTCGCTGTCCACCACAAGGTCTTTCTCCACAAAAGAAATAACAGCGTGCATTACGTATTCAGATACTGCTTTGCTTCAT
Celera SNP ID:            hCV27841899
SNP Position Genomic:     20959
SNP Source:               Applera
Population(Allele,Count): african american(C,28|G,8)   caucasian(C,40)   total(C,68|G,8)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,9)   caucasian(C,38)   total(C,67|G,9)   
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): Myers-Chimp(G,0|C,20)   Myers-AT(G,0|C,48)   total(C,68)no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:24999):
CAATTATTTTGAATACTTTGTCAAGTAATTCACATAGCTCTATTTCTTTAGGTTTGGTTTCTGGAGGTGTGTTTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
GGCACGCACTATTTGATTGGGCCATGTTTCCTGTTTTCTCATATTCCTTATTACTTTGTGTTGATATCTATACATTTCAAAAAAACAAAAAACAACAACA
Celera SNP ID:            hCV26311961
SNP Position Genomic:     36532
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|G,8)   total(G,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25000):
ACAATTATTTTGAATACTTTGTCAAGTAATTCACATAGCTCTATTTCTTTAGGTTTGGTTTCTGGAGGTGTGTTTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GGGCACGCACTATTTGATTGGGCCATGTTTCCTGTTTTCTCATATTCCTTATTACTTTGTGTTGATATCTATACATTTCAAAAAAACAAAAAACAACAAC
Celera SNP ID:            hCV26311962
SNP Position Genomic:     36531
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,8)   total(T,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25001):
GTAAAAGCGTTACTATTTCTCCACATCCTCTCCAGCACGTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGT
R
GTTTTGATTTGCATTTCTCTGATGACCAGTGATGATGGGCATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATAT
Celera SNP ID:            hCV26311963
SNP Position Genomic:     31695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25002):
CCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACACTCCCACCAACGGTGTAAAAGCGTTACTATTTCTCCACATCCTCTCCAGCA
Y
GTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTAGTTTTGATTTGCATTTCTCTGATGACCAGTGATGATG
Celera SNP ID:            hCV26311964
SNP Position Genomic:     31632
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25003):
CGGTGTCTGCGTGGGACGCGGACGCGCAGGAGAACGCCCTGGTGTCCTACTCTCTGGTGGAGCGGCGGTTGGGCGAGCGCTCGCTGTCGAGCTACGTGTC
R
GTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTGGAGCTGCTACAGTTCCAGGTGAGCGCGCGCGATGGGGGCGTGC
Celera SNP ID:            hCV25767034
SNP Position Genomic:     77576
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,38)   total(A,1|G,69)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25004):
GCAGGTGTTCGTGCTGGACGAGAACGACAACGCGCCGGCGCTGCTGGCGCCTCGGGTGGGTGGTACTGGTGGTGCAGTGAGCGAGCTGGTGCCGCGGTCA
S
TGGGTGCAGGCCAAGTGGTGGCGAAGGTGCGCGCAGTGGACGCCGACTCAGGCTACAACGCGTGGCTTTCGTATGAGCTGCAGCCCCCGGCAAGCAGCGC
Celera SNP ID:            hCV25627682
SNP Position Genomic:     49843
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,3)   caucasian(C,36)   total(C,65|G,3)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:25005):
CGCTGCTGGCGCCTCGGGTGGGTGGTACTGGTGGTGCAGTGAGCGAGCTGGTGCCGCGGTCACTGGGTGCAGGCCAAGTGGTGGCGAAGGTGCGCGCAGT
K
GACGCCGACTCAGGCTACAACGCGTGGCTTTCGTATGAGCTGCAGCCCCCGGCAAGCAGCGCTCGCTTCCCGTTTCGCGTGGGGCTGTACACGGGCGAGA
Celera SNP ID:            hCV25627683
SNP Position Genomic:     49881
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,3)   caucasian(G,9|T,19)   total(G,38|T,22)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,18|T,4)   caucasian(G,6|T,8)   total(G,24|T,12)   
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:25006):
CTCGGGCGGGTGGCACTGGTGGCGCAGTGAGCGAGCTGGTGCCATGGTCGGTGGGTGTGGGCCACGTGGTGGCAAAGGTGCGCGCGGTGGATGCTGACTC
S
GGCTACAACGCGTGGCTTTCGTACGAGCTGCAGCCGGGGACTGGTGGCGCGCGCATCCCGTTCCGCGTGGGGCTGTACACTGGCGAGATCAGCACAACGC
Celera SNP ID:            hCV26311966
SNP Position Genomic:     28964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25007):
AGGAGAACAACCCGCCGGGCTGCCACATCTTCACGGTGTCTGCGCGAGACGCGGACGCGCAGGAGAACGCGCTGGTGTCCTACTCGCTGGTGGAGCGGCG
R
GTGGGCGAGCGCGCGTTGTCGAGCTACATTTCGGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGC
Celera SNP ID:            hCV25627684
SNP Position Genomic:     49584
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,35)   total(A,2|G,72)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:25008):
TGCATGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTTCAGGTGACCGCTCGCGATGCCGGCGTGCC
R
CCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAAAACGACAACGCGCCAGCACTGCTAGCGCCTCGGGCGGGTGGCACTGGTGGCGCAG
Celera SNP ID:            hCV26311967
SNP Position Genomic:     28790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:25009):
TGTCGAGCTACGTTTCGGTGCATGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTTCAGGTGACCGC
K
CGCGATGCCGGCGTGCCACCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAAAACGACAACGCGCCAGCACTGCTAGCGCCTCGGGCGG
Celera SNP ID:            hCV26311968
SNP Position Genomic:     28772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25010):
AATTAGTTGGACTCCCATTTAAGTTTCCCTACCACTGGAGAGAAATAGTAACCAACTGAAACCTGGTTAATACTCATTGACAGTGTGGGAGGTCTAACAC
R
TAAAATAGATATTTTTCTTGACTCCTCTCCTTCCCCTCACTTCCATTTTCTTTATTTCCTTTTTTGGCACTATCCTTTGTTGCTCCCTTGTCCATGAAGT
Celera SNP ID:            hCV26311969
SNP Position Genomic:     24830
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25011):
CTCCGGAGCTTCATTTATTGCTCACGGCCACCGATGGAGGCAAACCCGAGCTGACTGGCACCGTTCAATTACTCATCACGGTACTGGACAACAATGACAA
Y
GCCCCAGTGTTCGACAGAACCCTGTATACGGTGAAATTACCAGAAAACGTTTCTATCGGAACGCTGGTGATTCACCCCAATGCCTCAGATTTAGACGAAG
Celera SNP ID:            hCV25991250
SNP Position Genomic:     55102
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,24)   total(C,1|T,55)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:25012):
ACTTCCTTATCCTTGCCTGTACGTGAAGACGCTCAATTTGGTACTGTCATCGCCCTAATTAGCGTGAACGACCTCGATTCAGGTGCCAACGGGCAGGTGA
M
CTGCTCGCTGACGCCTCACGTCCCTTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGTGCCCTGGACCGCGAGAGCGTGTCG
Celera SNP ID:            hCV977302
SNP Position Genomic:     49247
SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,13)   caucasian(A,18|C,16)   total(A,35|C,29)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:25013):
ATTCAGGTGCCAACGGGCAGGTGAACTGCTCGCTGACGCCTCACGTCCCTTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAG
Y
GCCCTGGACCGCGAGAGCGTGTCGGCCTATGAGTTGGTGGTAACCGCGCGGGACGGGGGCTCGCCTTCGCTGTGGGCCACCGCCAGCTTGTCTGTGGAGG
Celera SNP ID:            hCV977306
SNP Position Genomic:     49323
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,26)   caucasian(C,2|T,38)   total(C,14|T,64)
SNP Type:                 SILENT MUTATION;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:25014):
TCCCCAAGGCTTCACAAGAAGTAAACAAAACAAACAAAAACTATTTGATTATTGAGCCAAGGAGTCAATGTGAGAATAGTTTTTCACCTTCATTATCAAA
W
GCCTGTGTGGAGCTGAATGTGGTGGCTGACACCTGTGATCCTAGCACTTTGGGGAGGCAGAGGTGGGAATATTGCTTGAGGCCAGGAGTTCAAGACCAGC
Celera SNP ID:            hCV1005541
SNP Position Genomic:     220194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25015):
GTCGAGGAGATCCAGAGGGTCAGCCTCTACTGCTCTCGCTTCTGATCCTCGCAATGTGGGTGGTGGGGAGCGGCCAGCTCCACTACTCCGTCCCGGAGGA
R
GCCGAACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCAGTTGGATTCCAAAGGCCGCG
Celera SNP ID:            hCV25968792
SNP Position Genomic:     68610
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,31|G,1)   total(A,65|G,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25016):
TTCGTGTGTACCAAGTTGCACCAGAGCCCAGGCTGTTGCGCTCAGAGCTGCTGTCGCTCTACAGAGGATCTGAGGTATGGAAGTAAGATGGTTTCAAATC
Y
TTGCATGACATCAGCCACCATAGATGTCACTACAGTTGAGAGACTTTCTCAGACTTATCTCTATCGGGCCTCTCTGGGACTTGGTTCTGATAATAACAGT
Celera SNP ID:            hCV25965522
SNP Position Genomic:     149105
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:25017):
TGTATTTGCACTAATTATTTGGAAGTACGTTTAATATACACTTTTGTTTTGGGATGCGTAATACTATAGATCAAAATCTATGGTTTATGTTGGCTACTCT
Y
CATTTTTGGAGGAGGACTTTGCTAACTGGAGCAATGGATTCACCTTTCTTCTATAGTGTATTTACAAAATCAAATATTTACATTTCCATATTTTGATAAT
Celera SNP ID:            hCV977308
SNP Position Genomic:     56974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   TSC_42_C(T,0|C,84)   TSC_42_AA(T,0|C,84)   total(C,168)no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25018):
TGGAGGTGGCCGACGTGAACGACAACGCACCAGCGTTCGCGCAGTCCGAGTACACGGTGTTCGTGAAGGAGAACAACCCGCCGGGCTGCCACATCTTCAC
K
GTGTCTGCGCGGGACGCTGACGCGCAGGAGAACGCCCTGGTGTCCTACTCGCTGGTGGAGCGGCGGTTGGGCGAGCGCTCGCTGTCGAGCTACGTGTCAG
Celera SNP ID:            hCV25968867
SNP Position Genomic:     69924
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,38)   total(G,75|T,1)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:25019):
ATTTTGATAATCAATACCTATAAATGTTATAGTAAACAAATTTAATATATATGTTACCTAATATTTTATTCTATGTATTGTCCTCATTTTATAAAATATA
S
CTGTGTCAAAATCATCTGTTCAATTTTGCCTTTTTATCTTTAGTCTAGAACTTGAATTTTAAGCATTTCTTTTACATCTATTTATCTTCTTTTTATCATA
Celera SNP ID:            hCV977309
SNP Position Genomic:     57164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   TSC_42_A(G,0|C,84)   TSC_42_C(G,0|C,84)   TSC_42_AA(G,0|C,84)   total(C,252) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25020):
TGTTGGAGCTAACTCCGTGTTAACCTACAGGCTTAGCTCTCATGATTACTTCATGCTAGATGTGAATTCAAAGAACGATGAGAATAAACTGGTTGAGCTC
K
TATTAAGAAAATCCTTGGACAGAGAGGACGCTCCTGCGCACCACTTATTCCTGACAGCCACAGATGGGGGCAAACCTGAGCTCACAGGCACTGTTCAGCT
Celera SNP ID:            hCV25972743
SNP Position Genomic:     61907
SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,10)   caucasian(G,33|T,3)   total(G,57|T,13)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25021):
TTTGGGGCTCTATTATTAGATGCAAGTATGTTTTTAGTTGCTATATCTTCCTGATTGGTCCTTTTGTCATTATAAAATGTCCTTCTTGATTTCTAGTAAC
R
CTTTTTGTCTTGTCTGTTTTGTCTGATATTAGTGTAGTCACTCCAGCTATCTTGTGGTTGCTGTTTGTACAATATATGTTTTCCCATTCTTTTACTTTCA
Celera SNP ID:            hCV2417181
SNP Position Genomic:     139236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25022):
GCCCTTAGAACTTAAAGTCATATTTTGGTTCTCAAATCAGTTCCAAGAGTAGGTGATCTAGCCCTTTCATTCTAAACACTACACATGTAGTACTAGAGTA
Y
AATATTGTATTTGCTTATTTTTTCAGAGTCAGGGTCTTGCTATGTTTTCTAGACTGGGGTGCAGTGGGGCAATCATAGCTCACTCTAACCTTGAACTCTT
Celera SNP ID:            hCV2417182
SNP Position Genomic:     140979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25023):
CAGGACTAAATCTGAGAGTGAGCAGATGCACCATTATTTCAAGATTGAACCTAAGGATGTGGCAAGGTAAGGAGAAAAGTCAGGATGACAAGTTGCCCTG
Y
AGCCGCCAGTTCTCATCAGTTGAAGATATATTAAAACTATGGTACACATAAGCCACTCCATCAAACAGTAAATATGGCTATACTGCAAGCAGTAAAAAAG
Celera SNP ID:            hCV2417183
SNP Position Genomic:     142583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)   JBIC-allele(C,734|T,739)   total(C,734|T,739) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25024):
TCCGAGTTCAAGCCTTGGATCCAGATGAAGGGTCCAATGGGGAAGTCCAATACTCCCTAAGCAACAGCACGCAAGCAGAGCTGCGACACCGCTTTCACGT
K
CACCCTAAAAGTGGGGAGGTGCAAGTAGCTGCTTCACTAGGTCCGCCTGAAACGCTCTTGGAGGCATACATTGAGGCGAGGGACGAAGGTGTCTTTGGTT
Celera SNP ID:            hCV2417185
SNP Position Genomic:     147759
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:25025):
ACGGGGACCTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATAGACCGCGAGGAACTGTGCGGGCGGAGCGCGGAGTGCAGCAT
Y
CACCTGGAGGTGATCGTGGACAGGCCGCTGCAGGTTTTCCATGTGGAGGTGGAAGTGAAGGACATTAATGACAACGCGCCAGTTTTTCCAATGGCTGTAA
Celera SNP ID:            hCV26311970
SNP Position Genomic:     21482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25026):
CAAATTTTATGGAATTTGATTCCTTTGGCCCGGAGATGGCTGCTAGCTGTGTTTTGAAATATTTCTTAGACAAGCCTTTCACAACATTTCATCAATTGAA
Y
TAAACACTCCTTCTTAGCACTTCCTGTGCCAAGAAATCTGGAAGTATAGAAGTATTAGAAGATTGCCCTAGGCCTCAAGGGACTTATAGTTTATTTTTGA
Celera SNP ID:            hCV2417186
SNP Position Genomic:     149440
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:25027):
AAATATCTTGTGATTCTGCTTTCAATTTTTTATTTGCATTCAGATAATTACTCATACATGTATATATACATATATAGAGAGAGACCTGGTAGGCTTTTTG
Y
TATTATTTCTTTTCCAAAGTTTGAAGGGATTTCCAAAAGGTACTGGTGACTGAAAGTACCTTTTGGCAGTCCCTGCAAATCTAATGGTTTTAATAGCTGT
Celera SNP ID:            hCV27514849
SNP Position Genomic:     105318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25028):
AAATATAAGGACTTTGAGGAGTGACCGAAGGATATTACAATTGAAACTAGAAATTTTGGGAAAGTTCAAACGACATGCAAGGAAAAGAAGATACGTTTAC
R
TATTTAATACTTACACGTTTAGCCACATGATGTCGCTGTCCACCACAAGGTCTTTCTCCACAAAAGAAATAACAGCGTGCATTACGTATTCAGATACTGC
Celera SNP ID:            hCV27512164
SNP Position Genomic:     20949
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,23|G,15)   total(A,30|G,46)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,23|G,17)   total(A,30|G,48)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,691|A,768)   total(G,691|A,768)   no_pop(G,-|A,-)   Myers-Ghimp(G,0|A,20)   Myers-AA(G,24|A,24)   total(G,24|A,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25029):
GGATAGTGTTTGGAATAACCTATATCCTGGACATTTCTTAGATTGTTCTTTGGATCAACAATGCCCTTGTCTATGCAATAGTTAATAAGCTACATTTTTT
K
TTTGTTTGTTTGTTTTTGTTGAGACAGTCTTGCTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTATAACCTCTGCCACCCGGGTTCA
Celera SNP ID:            hCV26311971
SNP Position Genomic:     17825
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25030):
GGCTTGTAAGTTATTCTTCCTCAAGTAATGATGTTAACTGCAAATAAAATAAATTTACATATGTTAAAATTTTCTGTACTTAATATTTTCACAATATAAT
R
GAATCCAGCATATAAGATATGCTTAGTAAATGCTGACTGAATGAATAAATATGTGCATATATGAATTGGATGGTAACACTGTTCAACACAGAGGGAAAAA
Celera SNP ID:            hCV2417187
SNP Position Genomic:     150799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25031):
AAGGAATTATAAATGTGGAGATTATTTTCCTTATGGAATTATGGAAGGGTGTAGACCCAGCTCTGTCTGAAACCAGTAATTAATTACCCATTTCCATGTA
Y
GAGTCAGTACAGGATTCTCTGGTTTATTTTTGCTTAAATCGGTTAACTTGGGATTTACTGTTAGAGTATGATTAACATAAATACACATTTCCATAGATGG
Celera SNP ID:            hCV26311972
SNP Position Genomic:     13306
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25032):
ACAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAGGGACATTAACGACAACCCGCCCTTGTTCCCGGTAGAGGAACAAAGAGTGCTGATTTACGA
R
TCTAGGCTGCCAGATTCTGTGTTTCCACTGGAGGGCGCGTCCGATGCAGATGTTGGCTCAAATTCCATCTTAACCTATAAACTCAGTTCTAGCGAATACT
Celera SNP ID:            hCV25627692
SNP Position Genomic:     48522
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,6)   total(A,35|G,1)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:25033):
GGGCAACGTGGCTCGCGCGCTGGGGCTTGAGCTGCGGCGCTTGGGGCCGGGTTGCTTGCGCATCAACCATCTGGGTGCGCCCAGTCCGCGCTACCTGGAG
Y
TGGACCTGACGAGTGGAGCGCTCTTCGTCAACGAGCGCATTGATCGGGAGGCGCTGTGTGAGCAGCGGCCTCGCTGCCTGCTCAGCTTGGAAGTGCTGGC
Celera SNP ID:            hCV8939944
SNP Position Genomic:     187020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:25034):
ATGGAGTGAGGAGGATTTATTAGTTGCTGCCTGAAGAAAAGGGAAATGCTCCAAAAAATTTGGTTGTTTCCAGACTCAAATAGAGCCTGCCTTTCATTGA
Y
TCTGTTGCCCTTAAAGCTTCACGGTGAAGATGCAGTTGCTTCCAAAAGGCTTCTTTCTGGTGCCTAAGCCTCCTTATACTTGCTTCAGAGCCCTTTCCGT
Celera SNP ID:            hCV29063530
SNP Position Genomic:     205489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25035):
GCTGGGTGAGCATAGACAAACTGCCTGAATTCATATTTTCTTAATTACCCTTTCTGTAAATTGGGTGTAGTAATAATAATAACACCTATTTTATTGAGTT
M
CCATGAGAACTAAAGGAGAAAAAAAGAACTGAGCATAGTGCTTGACATATAGTTAATAAATGTCTAATCTTTTTTTTTTGAGACAGAGTCTCGCTCTGTC
Celera SNP ID:            hCV29063531
SNP Position Genomic:     204856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25036):
ATAGAAAATAGCAGCATGACAAATTAAATGTGTCATTGGGGAAGTGAGATTGTATAATGAACTGAGTTTCCTGGTCAGTCCTGCTGGAACTGTGCCTTTC
R
GCAAAATGAGTTTGATGATTTCATTCCAAAGATCAAGTTGCAGCAATTTTCATCATGAATGTTACCCAATCATAGAAAAATTGGCAACATTTCTCAGCAG
Celera SNP ID:            hCV29063532
SNP Position Genomic:     197138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25037):
CTCTCTGATATTTGAATTTGGGGTTGTGCTTTCACAGTGAGAAAGTCTAAACCTATTTCTTGTACATTAATACTTTTCACTATTCTAATTATGGTGATGC
Y
TTTAGCTATTAAGAATTTCTGGGATTGAAATGTGTCAGAAGTTAGTTATTAAGTATTGTGGATTCTGAAGCTCTCTAAATCAAGTCCTCCCTTTACCAAT
Celera SNP ID:            hCV977317
SNP Position Genomic:     65555
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|C,10)      total(C,10|T,7) ;no_pop(C,-|T,-)   (T,-|C,-)   no_pop(T,-|C,-)   JBIC-allele(C,714|T,769)   total(C,714|T,769)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25038):
ATTCCATCTACATACAGGAGAACAATTTGCCAGGTGTGTTGCTCTGTACTGTGCAAGCCACAGACCCAGATGAAAAGGAGAATGCAGAGGTGACCTACTC
Y
CTTCTGGAGAGGGAGATTCAAGGGCTGCCAGTCACCTCCTATGTCTCCATTAACAGTGCCAGTGGCAGCCTTTATGCTGTCAACTCCTTTGACTATGAGA
Celera SNP ID:            hCV29063534
SNP Position Genomic:     188267
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:25039):
CTGGGAGATGAAGAGAAAGGACGTTTTAGTGAGTGCTTTTTTTGCACATGAGGCAATAGATTTCAAATTCCTGTGGAAGAAATGTGAGAACCTGGGAAGA
S
TGAATATTCAGAACTGAGCAGCAGAGGCAATGACACAGCATGGAAAGATTTCCTCTGATCCTTCTACCTTCTCTTTTACTGAAGTGAATTTGTTGTCTCT
Celera SNP ID:            hCV29063535
SNP Position Genomic:     185219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25040):
GGAGAACGCGCTGGTGTCCTACTCGCTTGTGGAGCGGCGGGTGGGCGAGCGCTCGCTGTCGAGCTACATTTCGGTGCACACGGAGAGCGGCAAGGTGTAC
K
CGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTCCAGGTGAGCGCGCGCGACGCGGGCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCA
Celera SNP ID:            hCV25963930
SNP Position Genomic:     62879
SNP Source:               Applera
Population(Allele,Count): african american(G,30|T,6)   caucasian(G,40)   total(G,70|T,6)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25041):
TTTTGGCATGTTATTTAAACAATTACAAAATCACCTAACTACACTGTCTTGCAGCTGCCTTTCTTTTTTTGTCTTGTCCACGTGAGTATATTGGGAGACT
Y
TGTTTAATGTCTCCACGAATTCTAGATAGACTGTTCCTGCAGCATTTCTTTTTTTAAATTTTGTTTTGATAAGCATTTATTTTGGCAATGATTCTAGTAA
Celera SNP ID:            hCV29063536
SNP Position Genomic:     181482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25042):
GTTTGTTACCCAGGTAAACATGTGCCATGGTGGTTTGCTGCACAGATCAACCCATCACCTAGGTATTAAGCCCAGCATCCATTAGGTATTCTTCCTGATG
R
TCTCCCTCCCATTGCTCCCCCAACAGGCCCCAGTGTGTGTTGTTCCCCTTCATATTTTCATGTGTACTCATCATTCAGCTCCCACACGTAGTGGGACGAT
Celera SNP ID:            hCV29063537
SNP Position Genomic:     173927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25043):
ACCAGGGCCTGCCTACAAAATTGGGGATTACAATGTGACATGAGCTTTGGGCGGGGACACAGATCCAAACCATGTCATTCTGCCACTGCCCTCACCCTCC
Y
CGAAATCTCATGACGTTCTTACATTGCAAAATACAATTATCCCTTCCCAATGGTCCCTCAAAGTCTGAACTCATTCCAGCATTAAGCCAAAAGTCCAAAG
Celera SNP ID:            hCV29063538
SNP Position Genomic:     171754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25044):
CTTGTATTTAGTAATTGCCTTGGCTTGTATTTCCTTTTTATTTCTGGGGTGCTTACTTTTCTTCGTGTGTACCAAGTTGCACCAGAGCCCAGGCTGTTGC
K
CTCAGAGCTGCTGTCGCTCTACAGAGGATCTGAGGTATGGAAGTAAGATGGTTTCAAATCCTTGCATGACATCAGCCACCATAGATGTCACTACAGTTGA
Celera SNP ID:            hCV29063539
SNP Position Genomic:     149044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:25045):
AAAAACTTTACTTAGCAGTTTTTGTAATGCATATATGCTGCAGTGATTTATCTTAGTTTTCCTTTATCTGAAGATCTATTTATCTTCCATTTGAATGATA
Y
AGAATTCTGGGGGATTGACAGATTTTATTTTCTTCCACTTAAAAAAAATGTTATTCTACTGTCTTCTAATGCTCATAGTTTCTGATGAGAAGTGTGTAGT
Celera SNP ID:            hCV2417190
SNP Position Genomic:     170395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25046):
AGGAATGCATCACATTTTTCTGGTATTCTATGTTAGGTAATTTTGGATTATATCTTGATATTATTAATGTGTTATTCTTGAGATTCATCATTCTGTTTGT
R
TTAGTCCATTATTGCACTGTTATAAAGAAACACCCAAGACTCGGTAATTTATAAAGAAAAGAGGTTTAATTGGCTCACAGTTCCACAGGCTGTAGGAAGC
Celera SNP ID:            hCV2417191
SNP Position Genomic:     171341
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25047):
CCCTGACGCCCCACGTCCCCTTCAAGCTGGTGTCCACCTACAAGAATTACTACTCGTTGGTGCTGGACAGAGCTCTGGACCGCGAGAGTGTGTCCGCCTA
Y
GAGCTGGTGGTTACCGCGCGGGACCGGGGCTCGCCTTCACTGTGGGCCACGGCCAGGGTGTCTGTGGAGGTGGCCGACGTGAACGACAACGCACCAGCGT
Celera SNP ID:            hCV25970071
SNP Position Genomic:     69759
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,20)   total(C,52|T,2)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:25048):
TTTGTTTAGATTTTTTATGATTATGTCTTGGTAGTTTGTATGTTTCTAGGAATTAATCAATTTCTTCTAGGTTATTGAATTTTTTGGTATATGATTTTAA
W
AGCCTCTTATAATTGTGGCATCAGGTGTAATGCCACCTCTTTTGTTTCTGACTTCCAGTCTTTTTGTTTTTTTCTTAGTCTAGCTAAGGGGCTTGTCAGT
Celera SNP ID:            hCV3163178
SNP Position Genomic:     32299
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25049):
ATGCCGGCCATCTGCTTGGCTTCTGGGGAGCCTTCAAGAATCATGGTGGAAGGCAAAAGGAAAGCGGCTCATCTTACATGGCCGGTGCAGGAGCAAGGGA
S
GGGGGGAAGTGCTACGCACTTTTAAACAACCAGATTTCACGAGATCTCTCTCACTGTTATGAGAATAGCACCAAGGGGGAAACCTGCCCCATGATCTAAT
Celera SNP ID:            hCV2417193
SNP Position Genomic:     171545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25050):
TTCCAGTATTGATTTCTAGTTTTATTCCACTGTGGTCAGAAAAGATATTTAGTAGGATTTCAACCTTCTTGAATTTGTTAAGACTTGTTTTGTGACCTGA
Y
GTGTGATTTATCCTGGAAAATGCTCTGAGTGTGCTTGAGAAGACTGTATATTTGCTGCTGTTGGGTGGAATTTTCTGTATATGTCTGTTAGTTCCATTTC
Celera SNP ID:            hCV3163179
SNP Position Genomic:     33049
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25051):
CATCTGCTTGGCTTCTGGGGAGCCTTCAAGAATCATGGTGGAAGGCAAAAGGAAAGCGGCTCATCTTACATGGCCGGTGCAGGAGCAAGGGAGGGGGGGA
W
GTGCTACGCACTTTTAAACAACCAGATTTCACGAGATCTCTCTCACTGTTATGAGAATAGCACCAAGGGGGAAACCTGCCCCATGATCTAATCACCTCCC
Celera SNP ID:            hCV2417194
SNP Position Genomic:     171553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25052):
TTAGTCTAGAACTTGAATTTTAAGCATTTCTTTTACATCTATTTATCTTCTTTTTATCATATTTGTGTAGCACTGACTTCTTTTTAACTTACTTTGTTGA
R
ATGTATTTGCCATGTTCATGAAGAATTAATATGAACAATTTAAAATAGTTTAAATGGCAGTTTAATAGTATTTTTTATTTTGTTCCTTGTTTGTATAAGA
Celera SNP ID:            hCV29063399
SNP Position Genomic:     57304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25053):
CACAGGCATAATACAGCCAGGCTCTTTGCTAAAGCATAAGGAAAGTGACCTTTGCTCCAGTCCTCAGTAAGTTCCTCATCTCCATCTGAGACCTCCTCAG
M
CTGGACTTCTTTGTCCATTTCACTATCAGCACTTCGGTCCCAATCATTCAAGTAGTCTCTAGGAAGTTCTAAGCTCTCCCTCATCTTCCCTCCACACTAT
Celera SNP ID:            hCV2417195
SNP Position Genomic:     172529
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25054):
GTGCACACGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCTAGAGCTGCTGCAGTTCCAGGTGAGCGCGCGCGACGCGGGCGTGC
M
GCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAATGACAACGCGCCGGCACTGCTGGAGCCTCGGGTGGGTGGCACTGGTGGCGCA
Celera SNP ID:            hCV25963796
SNP Position Genomic:     62952
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,40)   total(A,2|C,76)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25055):
TGGAGCGGCGGGTGGGCGAGCGCTCGCTGTCGAGCTACATTTCGGTGCACACGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGGAGCT
R
GAGCTGCTGCAGTTCCAGGTGAGCGCGCGCGACGCGGGCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCTGGACGAGAATGACAACG
Celera SNP ID:            hCV25963869
SNP Position Genomic:     62908
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,4)   caucasian(A,8|G,8)   total(A,16|G,12)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25056):
AAAAAAAAAAAATAATAAATAAAGAAAGAAAGACATTCTCAGGAATGGGACCCGGCAGTCTATGTTTTAACAAGCCTTCTATGTGATACCAATGTACTGT
R
AAGTTTTAAGAACTGGTCTAAGGTAAATATTCCTGAGGTTGTCTTATATCATTACAGGGTCAGAATGCATGCAAGGAAGCCATCTGTTTATGGTTCTTGT
Celera SNP ID:            hCV3191731
SNP Position Genomic:     207296
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25057):
GATTCCATCCTCTTACGCTGTGTATTCCCATCTCTTCCATGCTGCATCCCACCACCCTTCAATGTTATTACAATAAAATTAAGATCAAATAATTTATTCA
R
CTAATTTTTCTTGTTTTGGACAAAATAGACATCCTAATACATTTATAGCCAAAGTTTAATCTAGACACTAAAAGGAGCATATTTTGCCTTTAGGCTCTGT
Celera SNP ID:            hCV3191733
SNP Position Genomic:     228897
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25058):
AAGGTGGAATATAAAAAAAATTATAGAAAGATAAATTTTTGTTCAGATGCATCTACTGCAGCAATTTGGGAGGCTAAGGTGAAAGGATCGTTTGAGCCCA
R
AAGTTTGAGACCAGCTGGGCAACATAGTGAGACCTTGTCTCTACAAAAAATTAAAAATTAGCTGGGCGTGGGGGCGCTTGGCCTAGAAGTTCAAGGACAG
Celera SNP ID:            hCV15769700
SNP Position Genomic:     143237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25059):
TGACTGAAATTTTGTCTACACTTAGAACATTTTTTGAAATTCAGTTTACAGAAATTGGAGAAAATGCTTTTTAAACAAGTGTTTCCTTTCTTCAAGAAGA
Y
ATTCTCCTTTTAATTGAAATTTTCTCCATTCAGTGATAAAATGATCAGCCATGTGAAGATTCGAAACTTCGAGTTCTTTTGAAATTCAGAGTCTGTAACT
Celera SNP ID:            hCV977320
SNP Position Genomic:     71653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:25060):
CTACACTTAGAACATTTTTTGAAATTCAGTTTACAGAAATTGGAGAAAATGCTTTTTAAACAAGTGTTTCCTTTCTTCAAGAAGACATTCTCCTTTTAAT
Y
GAAATTTTCTCCATTCAGTGATAAAATGATCAGCCATGTGAAGATTCGAAACTTCGAGTTCTTTTGAAATTCAGAGTCTGTAACTTAAAACATTACCCTT
Celera SNP ID:            hCV977321
SNP Position Genomic:     71668
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:25061):
TAGTCCCAATTACTCAGGAGGCTGAGGCGAGAGAATCGCTTGAGCCTGGGACATTGAGGCTGCAGTGAACTGTGATGGCACAACTGCATTTCAGCCCGGG
W
GACAGCAAGATTCTGTCTCAAAAAAAAAAAAAAAAAAAAGAGTAGTTTAACTACTCCCTACTTTTTATTCAATATTGGACATCTACATTGGGATATTTAT
Celera SNP ID:            hCV977322
SNP Position Genomic:     74141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:25062):
TGCCTTTTGAACTAGGAGAATCGGGCTAATTTATTAATGATGATAATTATAATGTATCTGTACAGCACTTTTTACATTTGCGAAGTGCTTTCCAATCCAT
K
TTAGTTACTAGTTATTACAGCTGTAAGGATAAAACACGTCATGTGGATTCATTTTGAATTGGTGCTATTGGTATTTCCTCTGTTATTGCTAATAAATGAA
Celera SNP ID:            hCV11157837
SNP Position Genomic:     232207
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:25063):
ATTTTGTGCGTGGAGATGATTGATCAATGGCAAACTTATTTTACGCTCCAGATAGCTAAAACAAACGTTGATATTTTGATACATAACTCATTACATTTTA
M
TTCAGGGTTTATAAAAAAGTAATCTCTAAAATCAGAATTTGAATGAATTTTGATGCAAGAGGCATTCCAGAGGAGTAGAGAAGTATAGAAACAGAATTTA
Celera SNP ID:            hCV977323
SNP Position Genomic:     74395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25064):
AGCTCTAATTGGTCTTCCTATTTTGTCTTTTCCATCATAATAGCCCTCACTCTACCAGTCAGGGAGCCAATGTGGGGGTTCTGCTAGCTGCTAAGTATAC
S
TATGCCAATTATGCATTCTGGCACTGGGGAAATGACCACAGGATGAGTCCAGGGACCCACTGGACCCACTCTAAGTCAGACTTCAGCTAAAACTCCATAA
Celera SNP ID:            hCV29063541
SNP Position Genomic:     129720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25065):
TGGTGCTGGACAGCGCTCTGGACCGCGAGAGGGTGTCGGCCTATGAGCTGGTGGTGACCGCGCGGGACGGGGGCTCGCCTCCGCTGTGGGCCACGGCCAG
S
GTGTCTGTGGAGGTGGCCGACGTGAACGACAACGCGCCTGCGTTCGCGCAGTCCGAGTACACGGTGTTCGTGAAGGAGAACAACCCGCCAGGCTGCCACA
Celera SNP ID:            hCV977324
SNP Position Genomic:     77369
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,10)   caucasian(C,5|G,27)   total(C,17|G,37)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25066):
ACACGGTGTTCGTGAAGGAGAACAACCCGCCAGGCTGCCACATCTTCACGGTGTCTGCGTGGGACGCGGACGCGCAGGAGAACGCCCTGGTGTCCTACTC
K
CTGGTGGAGCGGCGGTTGGGCGAGCGCTCGCTGTCGAGCTACGTGTCGGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCGCTGGACCACGAGG
Celera SNP ID:            hCV977325
SNP Position Genomic:     77528
SNP Source:               Applera
Population(Allele,Count): african american(G,8|T,18)   caucasian(G,17|T,9)   total(G,25|T,27)
SNP Type:                 INTRON;SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:25067):
CCTCTAGGCCAGCAGAACATAATGTCACAGGGACAGTAAGCAAAAATTTTACTAGTGGGTCACTAGGGGTGATGGTAAGTGGTGCCACTTCCACTTCCAC
Y
CCTTGATTCCTGGACCTGTGAATTCCGGCTATGGGAGAAACAGTACCATATATTGGATGCTGATTCAGAGCATACACAACCTTCTGGAGAATTTTGCCCC
Celera SNP ID:            hCV29063542
SNP Position Genomic:     127116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25068):
GAAGGTGGAATATAAAAAAAATTATAGAAAGATAAATTTTTGTTCAGATGCATCTACTGCAGCAATTTGGGAGGCTAAGGTGAAAGGATCGTTTGAGCCC
R
GAAGTTTGAGACCAGCTGGGCAACATAGTGAGACCTTGTCTCTACAAAAAATTAAAAATTAGCTGGGCGTGGGGGCGCTTGGCCTAGAAGTTCAAGGACA
Celera SNP ID:            hCV15769707
SNP Position Genomic:     143236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25069):
GTGTTCGTGCTGGACGAGAACGACAACGCTCCCGCGCTGCTGGCGTCTCCCGCTGGCAGCGCGGGCGGTGCAGTCAGTGAGCTGGTGCTGCGGTCGGTGG
K
TGCGGGTCACGTGGTGGCTAAGGTGCGCGCAGTGGACGCTGACTCTGGATACAACGCGTGGCTGTCGTATGAATTGCAGTCGGCGGCGGTTGGTGCACGC
Celera SNP ID:            hCV977327
SNP Position Genomic:     77806
SNP Source:               Applera
Population(Allele,Count): african american(G,15|T,13)   caucasian(G,26|T,12)   total(G,41|T,25)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25070):
ACTTTCTTACATATCTTTAGTTTAGGATCTGGAATATAGTATATGTTCAATCACTTTTTAAAAACATATGGGGGTCTTGCTATGTTGCACAGGCTGGACT
W
GAACTTCTGGGTTCAACTGATCCTCCATTTCAGCCTTTCAAGTAGCTGAGACTACAGGCAGGCTCCACCACTCCCAGCTTCAATCAATAATTTTAAATAA
Celera SNP ID:            hCV29063544
SNP Position Genomic:     98844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25071):
TCTACTTTCTTACATATCTTTAGTTTAGGATCTGGAATATAGTATATGTTCAATCACTTTTTAAAAACATATGGGGGTCTTGCTATGTTGCACAGGCTGG
W
CTAGAACTTCTGGGTTCAACTGATCCTCCATTTCAGCCTTTCAAGTAGCTGAGACTACAGGCAGGCTCCACCACTCCCAGCTTCAATCAATAATTTTAAA
Celera SNP ID:            hCV29063545
SNP Position Genomic:     98841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25072):
TCCCATTTTTATTTAAAGTAATTATTGATAGGGCATAACTTACTGTTGCCTCTTTGTTAATTGTTGTTTGCAGCTTGTAGACTTTTTGCTCCTCTTTCCT
Y
CTCTTACTGTCTTCCTTTGTGTTTTATTGAGAATTGTAATGCTATGTTTTTGTTCCTTTCCTGTTTTCTTTTGTATATCTTCCATAGGTATTTTCTTTGT
Celera SNP ID:            hCV3163180
SNP Position Genomic:     35264
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,9)      total(C,6|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25073):
TTCTGTCATATCATTGATTCTGTTACATAAAGTGCTAAATTTTGATATCTCATATTATGCTACTATGGCTTACATTAGAAATAATATATGTCAAATAAAA
W
CTCATCTAGATCAATAGACTTTTCCTTTGTGGATTCTTTTTTAAAACTACCAAGTTTGAGAATATGAATATATTTGTTTTTCATATTGTTCTGCAATGAA
Celera SNP ID:            hCV29063546
SNP Position Genomic:     88233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:25074):
TATAACACACATCCTTGACTTATTACCTCAATTAAATCAATAATTTTAATAATTCCAGGCAACGCTAAGACCTTGAATCATTATACCATTTACTTGTACC
M
TACTTTTTGTTACTGATATGCCTTTCAATTATTTATATGTTCTAGACACACAGTACATTATTATCATTGTTTTGTTAACACCTATATATGTTTCTTTCTG
Celera SNP ID:            hCV3163181
SNP Position Genomic:     37636
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,8)   total(A,8|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25075):
TTATTTATTTTATAAAATGATAATAAAATTTATTTTATAGTTGAAAAGCCTATTTCTGTCATATCATTGATTCTGTTACATAAAGTGCTAAATTTTGATA
Y
CTCATATTATGCTACTATGGCTTACATTAGAAATAATATATGTCAAATAAAAACTCATCTAGATCAATAGACTTTTCCTTTGTGGATTCTTTTTTAAAAC
Celera SNP ID:            hCV29063547
SNP Position Genomic:     88180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25076):
CAAATGGATAACATTAAGGTTAAATTAAGGGCGAAGTTGATATTTGGCCCTGACTTTTATATGAAGGTAACATTTTTGCAAGTAAATTGTAGACGTAATT
W
AAAAAACCCAGCTAAAACAAAGGTGGTATTGAGAAAGAGGAAGAGCAAGTGGTCTATATTGTCAGAAAAATAAGATTCATATTGGAGAGTAATTGAAAAT
Celera SNP ID:            hCV3163182
SNP Position Genomic:     46677
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,5)      total(A,5|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25077):
TGCAGGTGTTCGTGCTGGACGAGAACGACAACGCTCCGGCGCTGCTGACGCCCGGGGCTGGCAGCGCGGGAGGCACAGTGAGCGAGCTGATGCCGCGGTC
K
GTGGGTGCAGGCCACGTGGTGGCGAAGGTGCGCGCGGTGGACGCCGATTCGGGCTACAATGCGTGGCTTTCGTATGAATTGCAGCTGGCGGCGGTCGGCG
Celera SNP ID:            hCV25973638
SNP Position Genomic:     104027
SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,5)   caucasian(G,2|T,2)   total(G,11|T,7)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:25078):
GCTGCAGTTCTAGGTGAGAGCGCGCGACGCGGGCATGCCGCCTCTGAGCAGCAATGTGACGCTGCCAGGTATTAGTGCTGGAACGACAACTTTGTCTGCG
Y
TGCTGGCGCCTTGGGTGGGCTGGCGGCGCTGTGAGTGAGCTGGTGCGGTATTCAGTGGATGCAGGCCACTTGGTGGCGAAGGTGCGCACGGTGGACTCCA
Celera SNP ID:            hCV29063548
SNP Position Genomic:     82910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25079):
ACACTTTTATTAAGCTAACGCTTTGATTTTATCCATTTTGTGTAAGAACTCTGATCATCATAGTTTTTATCTGTGGTTCCCTTTTCAGACTTGTGATTCC
R
GGAGGCAATAGTGTTCATTTATTGTCCCCCTTTTAAACCATTGAGGAATAAAGGACAAAAACAATAGTTATCAGCCTGAATACTTCTGGTTGTTATGGTT
Celera SNP ID:            hCV3163183
SNP Position Genomic:     51030
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,8)   total(G,5|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25080):
TCTCAAATATGTATCAGAATATTTCATTTTTGTCTACATTCCATTTATGCTTGAATATTTCTAGTGATACCTTTGTAATATAATTTATTCCAGGAGTTTT
R
AAATTTTTTTATCCTACCCAGTGTGTCAGCCTTTGATTGGTACTTAAATTTTTTTAAATAACAATTTATTCTGAATACACTAATATTTTCCAATACAAAT
Celera SNP ID:            hCV29063549
SNP Position Genomic:     78605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25081):
AGGAATAAAGGACAAAAACAATAGTTATCAGCCTGAATACTTCTGGTTGTTATGGTTATTGATTTATTTACTACCGATCTAAATAATGGAAAAATAGTGA
Y
TCAACAGAATTTAGACCTTGTGATCAAGTAAATTTATATGAAAACTGCATTCCTCTGGCATTGCGGCTCTCTTATTTCTGTTTGAATTTCACTTGATGGT
Celera SNP ID:            hCV3163184
SNP Position Genomic:     51174
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,9)   total(C,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25082):
GCATTGCGGCTCTCTTATTTCTGTTTGAATTTCACTTGATGGTCTTCTCTTCATGGAGTCTAAATCTATTTCTTTGTATTAGTGTTTTCATTGTTTCTAC
M
CAGTAATTTAAACTATTCACTATTTTGTATGTGTGTGTGTGTGTGTGTGACAGGGTCTTGCTCTGTCACCCATGCTGGAGTACAGTGGTGCAATAATGGC
Celera SNP ID:            hCV3163185
SNP Position Genomic:     51332
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,10)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25083):
AAAGTCAAAAACCTGTCTGATAATCAATAGAATTATTTACCATTAAGCCATAATATGTCATTCACATAAGCAGACCAAGTTTGCTGCTCTTGTTGAAAGA
A
TATTCAGTTTTGTGGAAAAATCTATAAATATCTTTGACCTTCAAAGATGGTAACTGTAATCTGTTTTTATTGCTTTGTTTTTATGCTTACATGCATGTAT
Celera SNP ID:            hCV3163186
SNP Position Genomic:     59171
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,6)   total(A,6|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25084):
TAATATGTCATTCACATAAGCAGACCAAGTTTGCTGCTCTTGTTGAAAGAATATTCAGTTTTGTGGAAAAATCTATAAATATCTTTGACCTTCAAAGATG
G
TAACTGTAATCTGTTTTTATTGCTTTGTTTTTATGCTTACATGCATGTATATTTAAAACCTTCCTAGCATATTATTAAAGTTTTAAATATCCTATTTATA
Celera SNP ID:            hCV3163187
SNP Position Genomic:     59221
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,6)   total(G,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25085):
GTTTGCTGCTCTTGTTGAAAGAATATTCAGTTTTGTGGAAAAATCTATAAATATCTTTGACCTTCAAAGATGGTAACTGTAATCTGTTTTTATTGCTTTG
Y
TTTTATGCTTACATGCATGTATATTTAAAACCTTCCTAGCATATTATTAAAGTTTTAAATATCCTATTTATATTGGGAAATACCTGAAGTTGATAGGGGA
Celera SNP ID:            hCV3163188
SNP Position Genomic:     59249
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,8)   total(C,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25086):
TCACGTTGCTGCTGTATACTGCGCTGCGGTGCTCGGCACCGCCCACCGAGGGCGCGTGCGCGCCGGGCAAGCCCACTCTAGTGTGCTCCAGCGCGGCAGG
S
AGTTGGTCGTACTCGCAGCAGAGGCGGCCGAGGGTGTGCTCTGGGGAGGGCCCGCATAAGACGGACCTCATGGCCTTCAGTCCCAGCCTTCCTCCTTGTC
Celera SNP ID:            hCV25972769
SNP Position Genomic:     104513
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,33)   caucasian(G,40)   total(C,3|G,73)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:25087):
AGTTGCTGGGACTATAGGCACACACCACCATGCCCAACTAATTTTTGTATTTTTTGTAGAGATGGGGTCTTACCATGTTGCCCAGGCTGGTCTCAAACTC
Y
TGAGATATCGAGAAATACTATTTTCTTTACAAATTGTTTGCTACTATTTAGAGTCAACTACAGAGATTTTTTTGGGTAAATAATGTGATGACAAATTTAA
Celera SNP ID:            hCV3163189
SNP Position Genomic:     59619
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25088):
TCCGCACCCACATTCCAATCATTCACGGAATAGGATCGACTCCATAATGACTGTGATGCTGGAAAAAATTTACTAAATATGTACTTACAGAAAAGGGTGA
Y
TGCTCATAAAATACCTCAGGCAAGCGATCCCTTAAAACTGATTGTCCCAACTCAGAGGCCCTCATTTTCTGCAATGGTGATTATCGGACCAAGAGGCCCG
Celera SNP ID:            hCV25961191
SNP Position Genomic:     95406
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|T,1)   total(C,71|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:25089):
ATTGTACCCTTTTGGTGGAAGTACTAGATGTAAATGATAACGCCCCAGAGGTTACCATCACTTCTTTGTCACTCCCCATCAGAGAAGACACTCAGCCTAG
M
GCCATTATTGCCCTAATCAGTGTGTCCGATCGTGACTCTGGCTCAAATGGACAGGTCACCTGCACCTTGACGCCGCATGTCCCCTTCAAGCTGGTGTCCA
Celera SNP ID:            hCV25970086
SNP Position Genomic:     103373
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,31)   caucasian(C,24)   total(A,1|C,55)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,29)   caucasian(C,26)   total(A,1|C,55)   
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:25090):
AAATATGGTAAGTATAATGTAGAGGAAAATACAAAATACAACTTTTATCCCCCATTTTTTTCATTCAACTATACCTCAATATTCAGTGACAGGGCCACCT
Y
AATCTCCGCCCATGAAAACGCATCTAGAGGAGTGTCACAAGTTTTTCACAGTGACATTTTTGCTTACTGATACAAGACAGTGATGGTGACTGATGATGTC
Celera SNP ID:            hCV11157840
SNP Position Genomic:     197938
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25091):
CCTGAATTAGTTCTTCGGAAGTTATTGGACAGAGAGCAAACGCCAAAACTCAATTTATTGCTGATGGTAATCGATGGCGGTAAACCAGAACTAACAGGGT
S
TGTCCAGATTCAAATAACCGTCCTGGATGTGAATGACAATGGTCCGGCGTTTGATAAGCCCAGCTATAAAGTAGTGTTGTCTGAAAATGTCCAAAACGAC
Celera SNP ID:            hCV25995495
SNP Position Genomic:     96153
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,1)   caucasian(C,38)   total(C,69|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25092):
ATTCATGGTATACTACACAGCCTTAAAAAAAGAAAATCCTGTCATTTATGACAGGAAAAAAAAATAAGATAATCCAATGTACCATTTGTTGAAAATACTT
K
TTCTTTTTATTGCATTATCTTGACATCTTTGTAAAAAGTCGGTTGACCATAAATGTGTGGGCTTAATTCTGGACTCTATTTCACTCCTTTGATCTATATG
Celera SNP ID:            hCV11157844
SNP Position Genomic:     167280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|G,10)      total(G,10|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25093):
GCTGGAGCTGCTGCAGTTCTAGGTGAGAGCGCGCGACGCGGGCATGCCGCCTCTGAGCAGCAATGTGACGCTGCCAGGTATTAGTGCTGGAACGACAACT
W
TGTCTGCGCTGCTGGCGCCTTGGGTGGGCTGGCGGCGCTGTGAGTGAGCTGGTGCGGTATTCAGTGGATGCAGGCCACTTGGTGGCGAAGGTGCGCACGG
Celera SNP ID:            hCV977330
SNP Position Genomic:     82901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25094):
GTTTTGGAGAACCTCCTGGGGTTCTGACAACGGTGTCAAAATTTATTTATGTGTTTTCAAGAAATAATAGCACTAGGTCTGTTAGAATATCAGTGGATGA
Y
GTGCACTAGTAAGACATTAAACTATGCACTCTAATACTTATATGACTAACAGGACATACAGGCAGATTGTATGTCCTGACTGATATAGTAAAAGTCAGGC
Celera SNP ID:            hCV977331
SNP Position Genomic:     86709
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,726|C,765)   total(C,765|T,726)   no_pop(C,-|T,-)   (T,-|C,-)   SC_12_C(C,1|T,19)   total(C,1|T,19)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25095):
TTTTGAAATTTTCTTTCCACGTAGTATCATCCCATCTGAAGATTTGAGCAAAGATCATTTACTTCTGAGTCATTCTTCATATTTAGTTATTCTTACTACA
Y
GTAGAGTGGTGGTATTACAGACTTTCTTGAGAATCATATCTAGCTATTTCCCCCCCGTATAGAGGCATAACATACCATTTGGCACAATATTCAAAGAGTC
Celera SNP ID:            hCV977333
SNP Position Genomic:     93037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)   SC_12_A(C,7|T,7)   SC_12_C(T,6|C,10)   SC_12_AA(T,6|C,14)   total(C,31|T,19) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25096):
AGACTCAAAAGTGATTAAACCATCATACCACTTATGAAACTTTATAAATATAATAAAGGTGAATATTAGATAGGGCATACATTACTCATCTCCAGATGAA
R
TTTTTGGAATAACTGAAGATCTTTTAAAGACTTGGGAATGTTTTCAGTACAGGTTAAAATTTTGTAAATTATTATTTTATATCACATAAATAACAAATTT
Celera SNP ID:            hCV977334
SNP Position Genomic:     93357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25097):
TACCACTTATGAAACTTTATAAATATAATAAAGGTGAATATTAGATAGGGCATACATTACTCATCTCCAGATGAAGTTTTTGGAATAACTGAAGATCTTT
K
AAAGACTTGGGAATGTTTTCAGTACAGGTTAAAATTTTGTAAATTATTATTTTATATCACATAAATAACAAATTTGCATTTTAGATAATTCAAATTACTT
Celera SNP ID:            hCV977335
SNP Position Genomic:     93382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25098):
AGTAGAAGTTGACTCTCACTTTTTTAGTTTGTTCAACTGAGAAGATGACATTGCCATTAACCAACCTGCAGAACAAGGTTGGAGAAACAGTTTGTGTGTA
Y
TTGAGCAGGTAGGGAATGGAGATGAACATTTAAGAAAATGTTACTTTGAAGTCCTAAGAGAATACCGTTGTGATTGGAAATATGGGTCTGGATCTCAGAA
Celera SNP ID:            hCV977337
SNP Position Genomic:     99409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:25099):
TATAAATATCTTATCTACATCTCAAGTCACATTGAGGGAAATTTATTAATATGATGTGCTTATTCAAAATCTGATATATCAGTTACCAATATTTTTCACC
Y
TCACCGATTTTATTCTTATGTGATTGTTATGTTTCCTTTTGGAGTCAATGGCTGTTGTGTGAGGAGGTCTTGAAAAATATTACAGGAAGAGGACAGTACC
Celera SNP ID:            hCV977338
SNP Position Genomic:     101657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25100):
TTACAAATTGTTTGCTACTATTTAGAGTCAACTACAGAGATTTTTTTGGGTAAATAATGTGATGACAAATTTAAATCATTTCACAGAAAATACCCTTATT
Y
GCCTTTCCTATTTAACCTACGTTTTTGGTAAGAATTTTGTAGAAATTTGGAGGAGCTCTTAATTGCCTACTATGAAGGCATTCATGATGAATCCATGGAG
Celera SNP ID:            hCV3163190
SNP Position Genomic:     59746
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25101):
GGTTTACTGGGTTTATAAAAGAATTGACCAGTAGCTATATAATAGATATAGAAAAGTCTGCCTGGGTGTGGTGGCTCATACTTGTAATAATATTATATTA
T
AATTGTTCTATTTTATTATTAGTTATTGTTGCTAATCTTTTACTGTACCTAATTTATACATTAAGCTTTATCATGGGTATGTATGTATAGGAAAAAATGC
Celera SNP ID:            hCV2576157
SNP Position Genomic:     178948
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25102):
CAAGCATAGCTTTAAAAACAGAAATTGCCCCGAGTACTAAGGATGAGCAATAATGAAATTAAAACATATTGTAATAACATTACACAAACTATATTGGAGA
Y
TACAAAGAAGAGATTATTCATAGATTATAAAGCTTGGAAAGAATCAAAACAACACATTTCTGGAAACAGATTGTATAAATGCTACAAAAGAGAAAAATAT
Celera SNP ID:            hCV3163191
SNP Position Genomic:     67634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25103):
AAATGCAAGGGGCAAAAAAATACTACATCAATGGAAAATATGAAGACTGAGTCATACTTACACTTACACGTTCATGCGCATGGTGTCGCTCTTCACTGAG
M
ACGTTTCCGCGAAGAAAGCCGCCGTTTCTTTCTTCCTGCAGAAAATATAGCAGAAAGCGGAATACCTCTTGCGAATCCTTCCGCACTAGGAAGCCATAAA
Celera SNP ID:            hCV977339
SNP Position Genomic:     102099
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   (C,-|A,-)   (A,-|C,-)   Caucasian(A,24|C,58)   Asians(C,34|A,48)   total(A,72|C,92)   no_pop(A,-|C,-)   JBIC-allele(A,521|C,532)   total(A,521|C,532)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25104):
TATGTTAAGTAAAAACTAAGTTCATCATATATGTTAAGTAAAAAAAAGTCACAAATTAAGAGAAAGTGTTAATTGATTTGAGAGTTTGTGTATTTTTTTT
T
CCTATTTTGTGCTGAAAAGCTGAAGTTGGCATCAACCAAGGCATATTGTTATCTATGTATCAAGCTAAATAATTTAAAGATCTTTAAGACTATTAATTCA
Celera SNP ID:            hCV2576158
SNP Position Genomic:     177856
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25105):
GGTACCAGCTCCTCTTTGTACCTCTGATAGAATTCAGCTGTAAATCTGTCTGGTCCTGGGCTTTGTTTGCTTGGTGGGCTATTTATTATTGCTTCAATTT
S
TAATTTAATATTTTTAAATCTTGGGTTAAATGGTTGAATGAATGTGTGAAAAGTTAGATATCAATGAATGAATATTCTTAAATGTATAAACTTTAATCTT
Celera SNP ID:            hCV2576159
SNP Position Genomic:     176819
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,8)      total(G,6|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25106):
GCTGGTGTCCACCTACAAGAATTACTACTCGTTGGTGCTGGACAGAGCTCTGGACCGCGAGAGTGTGTCCGCCTACGAGCTGGTGGTTACCGCGCGGGAC
S
GGGGCTCGCCTTCACTGTGGGCCACGGCCAGGGTGTCTGTGGAGGTGGCCGACGTGAACGACAACGCACCAGCGTTCGCGCAGTCCGAGTACACGGTGTT
Celera SNP ID:            hCV3163193
SNP Position Genomic:     69784
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,28)   caucasian(C,24|G,8)   total(C,34|G,36)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25107):
CAAGCTCTCATCATATGCAAATTCTCAGAAGGGCTGTGAACACCTTAGTAATAAATTTATCTTTTGAGGTCATTAGCAAACATGAACTCACAGGGATCCA
S
AGATGGTAAAATTCAAAACAGCCTGTCAAGTTCAAAACAGAGAGGTGAAAGCAGAAGAGACACTTTCCTATTTTGCCTAATAGGTCTCCTTATATGCATC
Celera SNP ID:            hCV3163196
SNP Position Genomic:     73366
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|G,7)      total(G,7|C,7) ;no_pop(C,-|G,-)   SC_12_A(G,11|C,12)   SC_12_C(G,9|C,12)   SC_12_AA(G,7|C,14)   total(G,27|C,38) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:25108):
TGTACATTAGTAGAAATTGAGTTTAGTTTTTATTATTTTGTGCGTGGAGATGATTGATCAATGGCAAACTTATTTTACGCTCCAGATAGCTAAAACAAAC
R
TTGATATTTTGATACATAACTCATTACATTTTAATTCAGGGTTTATAAAAAAGTAATCTCTAAAATCAGAATTTGAATGAATTTTGATGCAAGAGGCATT
Celera SNP ID:            hCV3163197
SNP Position Genomic:     74361
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25109):
GGCCAAATTGAGGCCTGAGAATAGTTTCCATTTATGAAGCACTCATTCTCCTTAAGGTACTATTGCAAGCACTTACTATATTATAATTCACTCAACCACC
R
TATTACTATTAGGCCAAAGTTATAAAATTGGAACATGAGGGAGGGAGAGGTTAAACGATTTTCCCAAGTCATGTGGCTAGTGAGTAGGATAATAGGAATC
Celera SNP ID:            hCV3163198
SNP Position Genomic:     75282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,10)      total(G,6|A,10) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25110):
CTGGCTAATGTCAAAAGAAACTTTCCTCCCACAAAGTTTTCACTCACTTGATCTTGGATTTTAAAATCAGATATAACCTGAGAGATTATCATTTTTCTCC
R
TTTAATAATGAATCAGGCCAGGCATGGTGGCTCATGCCTATAATCCCAACACCTGTGTGGGCCATGACAGGAGGATTGCTTGAGCCCAGGAGTTCAAGAT
Celera SNP ID:            hCV7430688
SNP Position Genomic:     38538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25111):
TGTCTGATGTTGAAGCTAATGATCTCTAAATTCTAGTGATGACTAGATCTTCGGAGTTATAAACACCTCACAGATAGTTGATGCTTGACATTAGTGTCTA
R
ATAAACCTTATTAAATCTCAAAATAATGAGAAAGAGAAGTAAGTTAAGTGTCAGAACTTAAATGGAACTAAAGTTGTCATTTAATAAAATATTAGTATAC
Celera SNP ID:            hCV3163199
SNP Position Genomic:     75495
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   JBIC-allele(G,647|A,650)   total(G,647|A,650)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25112):
GTATCACTGTTATATTTCTATGAAGGGTGTTGACATTTTTGTTTTAGTAGAGAATAAACTTGATTAGACTAAAAATGCAAAATCTTTCTTGCTTCTGCTT
Y
GTAGCAGTTCAAACTTCAGTTTAGTTCTTTTAGCTTTAGCCTTTGCTCTTTATATGTGATTCAGGGACGGCAGAGATGTGGGAAGAATTTGATCATAGAA
Celera SNP ID:            hCV8939978
SNP Position Genomic:     173226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25113):
GGTAAGCTTATATTTTAAAAAATTGTCTTAGTAAACACTTTAGCCTTCCTTGCAGTTGTTTGTTTAAGACATCTTTCCTGCCAATTTCAAATTATTCTTT
W
CTTTAATTTTAATTTTGCTAGTTGTTATCGAATTTAACAACTCTGCTGTGGACATTATGTGTTGGATTATCCTTCAGAGTGAAATCTTAACTCACAAACC
Celera SNP ID:            hCV977340
SNP Position Genomic:     104769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25114):
CTCTAGGCACATCAGTGTTCCCCTCTCATATATCCCATGAAAAATATCTTGTGATTCTGCTTTCAATTTTTTATTTGCATTCAGATAATTACTCATACAT
R
TATATATACATATATAGAGAGAGACCTGGTAGGCTTTTTGTTATTATTTCTTTTCCAAAGTTTGAAGGGATTTCCAAAAGGTACTGGTGACTGAAAGTAC
Celera SNP ID:            hCV977341
SNP Position Genomic:     105277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25115):
TCCTGTCTAATTTACTTTTCTTCAGAATTCTGCTTTCTGATTTTTGTTTTTGCTTTGAAATATTTTTATATTAATTATACTGATTCATTTCTCTTCTTTT
R
ATTTGTGTTTGCAGGAGATGTCCTCTTCCCAGCCTTTTATTTTAAACCTTTTAGTATTATGGGCATATTCCACAAGTTCTTTGCTACTGTCTCACTGAGT
Celera SNP ID:            hCV977342
SNP Position Genomic:     109639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25116):
TTCTTCACAAAAAAGAAAAAAAAAGCAGTTGTAGAACTCCTTTAAGTATTTCTTGTAGGACTTATCTAGTTGTAGTGTACTTCCTCAGTTTTTGCTTGTT
K
GGGAAATACTTTATTTCTCCTTCATTTCTGAAGTATAGCTCTGCTTGGTATAGTATTTTTGGCTGATAGTTTTAAAAAATTTCAGCACTTTGGATATATC
Celera SNP ID:            hCV977343
SNP Position Genomic:     113590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25117):
CCTACCTCTTGTATAGAAACAACCCAGATCCAAAGTGGCCAGAAAGTTACTTTACCTTCTGAATTTGTGGTCTTTTTCAGAATCTCTACCTGTTAATTCT
S
CATGACTTTATTAGTCATTAGATACTTTTATAATTTTAAAATATCTCCAATTGTATGGTTGGTTCAAATTACCAGTTCTGCATACTGGTAATGTAAGTCC
Celera SNP ID:            hCV977344
SNP Position Genomic:     113950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25118):
TCCTTTAACCTCAGCCTCCAAAAGTGCTGCAGTTACAAGCATGCGCCACCATACCTGGCCTTGTTTTGATTTTTAGGTACCACAAATAAGTAAGAACATA
Y
GATATTTGTCTTTCTGTGCCTGGTTTATGTCACTTATAATGACATCCAGTTTCATCCAGGTTGTTGCAAATGACTGGATCTTGTTTTTTTTATGGCTGAA
Celera SNP ID:            hCV977345
SNP Position Genomic:     120157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25119):
GATACCCTAAACTCATCATTCTCAAATTTAATGTTCCGCAGATTCCTACAGCACAGGCATAATACAGCCAGGCTCTTTGCTAAAGCATAAGGAAAGTGAC
M
TTTGCTCCAGTCCTCAGTAAGTTCCTCATCTCCATCTGAGACCTCCTCAGCCTGGACTTCTTTGTCCATTTCACTATCAGCACTTCGGTCCCAATCATTC
Celera SNP ID:            hCV2576165
SNP Position Genomic:     172478
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,6)   total(A,4|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25120):
GGTGGCCCTCTTCTCACAGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAGAAAGAAAGAAATTTCCTCTGCCAG
R
TACCCTAAACTCATCATTCTCAAATTTAATGTTCCGCAGATTCCTACAGCACAGGCATAATACAGCCAGGCTCTTTGCTAAAGCATAAGGAAAGTGACCT
Celera SNP ID:            hCV2576166
SNP Position Genomic:     172379
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25121):
TGAAGGTGGAATATAAAAAAAATTATAGAAAGATAAATTTTTGTTCAGATGCATCTACTGCAGCAATTTGGGAGGCTAAGGTGAAAGGATCGTTTGAGCC
S
AGAAGTTTGAGACCAGCTGGGCAACATAGTGAGACCTTGTCTCTACAAAAAATTAAAAATTAGCTGGGCGTGGGGGCGCTTGGCCTAGAAGTTCAAGGAC
Celera SNP ID:            hCV15769656
SNP Position Genomic:     143235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25122):
ATATTCCGAAGTGTATTAGTCAGGGTTCTCTAGAGGGACAGAATTAATAGGCTAGATGTGTATATAAAGGGGAGTTTATTAAGGAGTATTAACTCACACA
M
TCACAAGGCCCAACAATAGGCCATCTGCAAGCTGAGGAGCAAGGAATCCAATCTGAGTCCCAAAGCTGAAGAACTTGGAATCCGATGTTCAAGGGGAGGA
Celera SNP ID:            hCV977348
SNP Position Genomic:     125871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25123):
TTTTATGTATATCTTAAAATATTTGAATTACTTTTGTTTTGAAAACAATAGTATCTTTACTTTCCCTAAACCTTGATAAGGGATTCATATCTCTTATTAT
Y
AATTTTGGGAAAAAATAATTCATAAACCTGGTCTATTATGAAATGTTTGCTAATTGAGCCAAGAGAGCACATGCATTCATCTAAAACATTCATATAATCA
Celera SNP ID:            hCV2576167
SNP Position Genomic:     162012
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25124):
TTGAAGGTGGAATATAAAAAAAATTATAGAAAGATAAATTTTTGTTCAGATGCATCTACTGCAGCAATTTGGGAGGCTAAGGTGAAAGGATCGTTTGAGC
M
CAGAAGTTTGAGACCAGCTGGGCAACATAGTGAGACCTTGTCTCTACAAAAAATTAAAAATTAGCTGGGCGTGGGGGCGCTTGGCCTAGAAGTTCAAGGA
Celera SNP ID:            hCV15769657
SNP Position Genomic:     143234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25125):
GTATCTTTAGAAAATCATAGAGGCTATTGAAACACCACATTTTCCCAACTAGATATGCGATCACCTTAAATTAATACATTTTATTAGGCAATGGAAGGAA
R
CAAACATTTTCTGCAGGGTAAATATTTAGGAAATATTAGGTAAGTCCCTCTGAGCTATTAAACAATTAAGATACAACTATTCCCTTTAAAATATATATTC
Celera SNP ID:            hCV7430692
SNP Position Genomic:     25861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIG-allele(A,716|G,765)   total(G,765|A,716) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25126):
TGACCGCCACGGCCACGGTTCTGGTGTCGCTGGTGGAGAGCGGCCAGGCTCCAAAAGCGTCATCGAGGCAGTCGGCTGGCGTTTTGGGTCCGGAAGCGGC
R
CTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGCGCGGTATCCAGCCTGCTGGTGCTCACGCTGCTGCTGTACACTGCGCTGCGGTGCTCAGCAC
Celera SNP ID:            hCV25959077
SNP Position Genomic:     63400
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,3|G,15)   total(A,3|G,49)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:25127):
GGGGAAATGTCTAGAGACTTTTTTTGTATCTTTAGAAAATCATAGAGGCTATTGAAACACCACATTTTCCCAACTAGATATGCGATCACCTTAAATTAAT
R
CATTTTATTAGGCAATGGAAGGAAACAAACATTTTCTGCAGGGTAAATATTTAGGAAATATTAGGTAAGTCCCTCTGAGCTATTAAACAATTAAGATACA
Celera SNP ID:            hCV7430696
SNP Position Genomic:     25836
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   JBIG-allele(A,633|G,676)   total(G,676|A,633) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25128):
TGTCTTTATATATTAAATTTCTTTATGTAAGAAAATGTATTGTGGTTTATTTATTGGGAAGTCTTCATTCCCCATTAATACCCAGGATGATTCAAAGATC
R
TGATTACCAAGAATTAGAATAAAAATTAAGCTAAAACCCAAGTTTTCAACATTGAACTTGAAATACATCTTAATTGGGGAAATGTCTAGAGACTTTTTTT
Celera SNP ID:            hCV7430697
SNP Position Genomic:     25660
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;JBIG-allele(G,703|A,772)   total(G,703|A,772)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25129):
GTGTTTGTGTGAGTGTAGTTCTTCAATAGAGAGGGAGCGTAAAGCTATTTTCACTAGATTGATTTTTTGTTTAGACAAACAGGATGAAAATAACTTTATG
R
ATATAGGAGGCAAGGAAAGTTTTTAAATGGCTACCATTATGTCTTTATATATTAAATTTCTTTATGTAAGAAAATGTATTGTGGTTTATTTATTGGGAAG
Celera SNP ID:            hCV7430698
SNP Position Genomic:     25520
SNP Source:               dbSNP
Population(Allele,Count): JBIG-allele(A,633|G,674)   total(G,674|A,633)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25130):
AGGTGAACTGCTCGCTGACGCCTCACGTCCCTTTCAAGCTGGTGTCCACCTTCAAGAATTACTACTCGTTGGTGCTGGACAGTGCCCTGGACCGCGAGAG
M
GTGTCGGCCTATGAGTTGGTGGTAACCGCGCGGGACGGGGGCTCGCCTTCGCTGTGGGCCACCGCCAGCTTGTCTGTGGAGGTGGCCGACATGAATGACA
Celera SNP ID:            hCV25961281
SNP Position Genomic:     49341
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,27)   caucasian(C,24)   total(A,3|C,51)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,21|C,17)   caucasian(A,17|C,23)   total(A,38|C,40)   
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:25131):
CAGTGAGGCACTTCCATACAAAGGAACTCCATCATACCGGATGCCACCGTTTAAGGATCCTTTGAAACTTCTTAAGAATTCAACGAGATTTTTAACCTGA
R
ACTGAAGAATCTGGTACTGTAAGTGTAAAGAAGCTTATTTTGGAAGCCAATTTCGTATGCGATGTTTGGTTTTCAGAGAAGGGGATTGGGCACCCCACGA
Celera SNP ID:            hCV25997327
SNP Position Genomic:     89049
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,26)   total(A,57|G,1)
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:25132):
TGTTTTGTTTCCATTAGCAAGGAATATCTTTTCCCATGTCTTTATTTTCCAGTCTATGTGTATCTTCATAGGTGAAGTGTTTCTTGTGGGCAACAGATCA
Y
TGGGTCATGTTTTTTCATCCATTCAGCCACTTTATTTCTTTTTATTGGAGAGTTTAGTCCATTTACATTCAATAATTTCATTTAAGTAGGAACTTCCTCC
Celera SNP ID:            hCV15835873
SNP Position Genomic:     134510
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,13)      total(C,1|T,13) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25133):
TGGGTCCGGAAGCGGCGCTGGTGGATGTCAACGTGTACCTGATCATCGCCATCTGCGCGGTATCCAGCCTGCTGGTGCTCACGCTGCTGCTGTACACTGC
K
CTGCGGTGCTCAGCACTGCCCACTGAGGGCGGGTGCCGGGCGGGCAAGCCCACTCTGGTGTGCTCCAGTGCGGTGGGGAGCTGGTCATACTCGCAACAAC
Celera SNP ID:            hCV25996387
SNP Position Genomic:     63484
SNP Source:               Applera
Population(Allele,Count): african american(G,17|T,1)   caucasian(G,5|T,1)   total(G,22|T,2)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25134):
GCAGCCCTCGCATCCCGTTCCGCGTGGGGCTGTACACGGGCGAGATCAGCACCACTCGTGTCCTGGACGAAGCGGACTCTCCGCGCCACCGTCTGCTGGT
S
CTGGTGAAGGATCATGGTGAACCTGCGCTGACCGCCACGGCCACGGTTCTGGTGTCGCTGGTGGAGAGCGGCCAGGCTCCAAAAGCGTCATCGAGGCAGT
Celera SNP ID:            hCV25994856
SNP Position Genomic:     63271
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,2)   caucasian(C,22|G,2)   total(C,56|G,4)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:25135):
TTCTTCATGATAGATTTTTATACACCTTCCAGTGAGTGAATACTACTGCTAGTAAACCACTTTAAATCAAGTTCAAGACTTGAAGCTCCTTGGCTACTTA
R
ACTACGTATTCTCAGATAAAAATATGCAGGATATCTGGTATCTAGTTACAAGTTTATAGGATTAAATTTTCCTTTCCTATTTTCCTTCTGGCCTTTTTGG
Celera SNP ID:            hCV2576170
SNP Position Genomic:     160943
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25136):
TTTATGTGTGCCAACTTTTATTTGACTTTTGATGGTCCATATCCTGAAAATGATATTTGCCAGGATATCCTGAGATCTTGGATGGAAATACCTTTCTTCA
Y
GATAGATTTTTATACACCTTCCAGTGAGTGAATACTACTGCTAGTAAACCACTTTAAATCAAGTTCAAGACTTGAAGCTCCTTGGCTACTTAAACTACGT
Celera SNP ID:            hCV2576171
SNP Position Genomic:     160850
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25137):
TTTTCACTAGACTAGAAAGGAAACATAAGTAAGCGATAGGAAGGCTGATGAATCTAGAAGTTAGAAGGAAAATTAGCTATTTAAAAGGAAAAATATAGGA
A
TGACAGAGGAAAAAACAACCCTTCAAACCAAATTTTTAAACATATATGAATGATTAACAAAATAATAGAGATATACTGTTCATATGTGCAGGAATATTGT
Celera SNP ID:            hCV2576173
SNP Position Genomic:     151471
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,9)   total(A,4|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25138):
GATTGGTGCCCTTATAAAAGAGGCCCAGAGAGGTGCCTTGCCTCTTTCACCATGTGAGGACACAGCAAAAATGTGACATCCATGAACCAAAAAGTGGCCC
C
TCCCCAGACACTAAATCTGCTGGTGCCTGAATCATGAACTTTCAAGCCTCTAGAACAGTGAAAAATAAATCTCTCTTGTTTATTAACTACACAGCATATG
Celera SNP ID:            hCV2576178
SNP Position Genomic:     138832
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|-,8)   total(C,4|-,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25139):
GTGCCCTGGACGAGGCAGACTCGCCGCGCCACCGACTTCTAGTACTGGTGAAGGATCACGGTGAGCCGGCGCTGACGGCCACGGCCACCGTGCTGGTGTC
R
TTGGTGGAGAGCGGACAGGCGCCAAAGGCCTCTTCCCGGACTTTGGCGGGCGCCGCGAGCCCAGAGGCTGCGCTGGTGGATGTCAACGTGTACCTGATCA
Celera SNP ID:            hCV25970325
SNP Position Genomic:     91111
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,1|G,23)   total(A,1|G,53)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:25140):
CTTGTTCTTTTTGCTTAGGATTGCTTTGACTATTTGGGCTCTTTTTTTTTTCCATATGAATGTTAGGATAGTTTGTTTTTCTAATTCTATGAAAAATAAT
R
TTGGTAGTTTGATAGGAACATCATTGAATCTGTGAATTGCTTTGGACAGTATGGTTATCTTAACAATGTTGTTTCTTCCTACCCATGAGCGTGGAAGGTC
Celera SNP ID:            hCV2576179
SNP Position Genomic:     137943
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25141):
ATTTCTCTTTGGAAATTTCTGAACTTGATACTGAATGTTGTTGGCACTCCCTTCAGAGTCTCCATAAAAAGAAACCAAATTTTTTTTTTTTTTTTTTTTT
T
GAGATGGAGTCTCACTCTGTTGCCAGGCTGGAGTGCAGTGGCGTAATCCCGGCTCACTGCAACCTCCGCCTCCCAAGTTAAAGTGATTCTTCTGCCTCAG
Celera SNP ID:            hCV11840312
SNP Position Genomic:     192662
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25142):
TGTGATAGGATCCTCTGGAAATGCATGTCACAAGTGATAAAGCTGTAGTATTTAGACATCATACTGAAGCTAAAGTTTGCTTTGGCTGTATGATGTGGCA
R
CTCTTCTGTAGAGGGCTGTCAGAGGGAGTGGATGATGGTGAGGCAGAGAGATTAAGTACCAATTTGTCTGGTTGGTCCAGGGAGGTATTAGAATGAGTGG
Celera SNP ID:            hCV11840313
SNP Position Genomic:     189954
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,15)   total(G,1|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25143):
GCGCGCGCGCCAGGAAAGCCCACGCTGGTGTGCTCCAGCGCCGTGGGGAGCTGGTCTTACTCGCAGCAGAGGCGGCAGAGGGTGTGCTCTGGGGAGGACC
Y
CCCCAAGACGGACCTCATGGCCTTCAGCCCTAGCTTATCTCAAGGTCCAGACTCCGCAGAAGAGAAACAGCTCTCAGAATCAGAATACGTAGGAAAGGTG
Celera SNP ID:            hCV25766501
SNP Position Genomic:     17228
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25144):
GGCTGGGAGGAGATAAGGGGAGGAAAGATCACTTTTCATGACAACTTACAACTTGATTCCACTTATAAGCCATTTATTTTCAGAAACAAGTAATGGGTGA
R
GACACAGGCCAGGTCCACAATTTGTGCACTTGAGAGATTAAGGCCTCCGAGATCAAATTACCACAGCAAACTGAGACAGAATTATTGTAGGGATGTTTGG
Celera SNP ID:            hCV15859622
SNP Position Genomic:     184637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25145):
GCTTAATTCTGGACTCTATTTCACTCCTTTGATCTATATGTTTATCCTTTCACTAAAAGTAGACTGTCTTGATATTGTAGCTTTATAAATTTGAAAATCA
S
CTGTGAAATCCTCCAACCTTGTTCTACTTGTAAACATTGTTTTGGCTATTATAGGTCATTTAAATTTTCATATAAATTTTAGAATCAACTTTTCAATTTC
Celera SNP ID:            hCV8939995
SNP Position Genomic:     167441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25146):
GGAGCGCGGAGTGCAGCATCCACCTGGAGGTGATCGTAGACAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAAGGACATTAACGACAACCCTCC
R
GTGTTCCCAGCGACACAAAAGAATCTGTTCATCGCGGAATCCAGGCCGCTTGACTCTCGGTTTCCACTAGAGGGCGCGTCCGATGCAGATATCGGGGAGA
Celera SNP ID:            hCV11157872
SNP Position Genomic:     68889
SNP Source:               Applera
Population(Allele,Count): african american(A,10)   caucasian(A,15|G,1)   total(A,25|G,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25147):
AACACGGCACCTTCGTGGGCCGCATCGCGCAGGACCTGGGGCTGGAGCTGGCGGAGCTGGTGCCGCGCCTGTTCCAGTTGGATTCCAAAGGCCGCGGGGA
Y
CTTCTGGAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGGAGCTGTGCGGGCGGAGCGCGGAGTGCAGCATCCACCTGG
Celera SNP ID:            hCV11157873
SNP Position Genomic:     68715
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,31|T,1)   total(C,61|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25148):
TTTCCTGTTTTCTTTTGTATATCTTCCATAGGTATTTTCTTTGTGGTTACCATGGGGCTTACATTTTAAAACTCTTATAAAAATGTATTTTAAACTGATA
R
CATCTTTACTACAATCACAAAACAAAACTCATTATGTTTACTTCTCCCCTACCCAAATTTTATGTTATTGATGTCATAAATACATCTTTTTATATTGTGT
Celera SNP ID:            hCV977298
SNP Position Genomic:     35421
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25149):
CGATCCAAATATTAGTGAAAAGTCATGATAATAGAGATAGTAAAAATCTTATAAGGGAACTGGTAAATATATCTTTAAAGATTGTATCAGAAACAATTCT
R
TGACAATATCTTGTTTCTTTACAAGTTTGAATTCCAGAAATCAAGTGAATTTCCTCTGACTTTGCATTTTCTGGTAATTTCTTTTTTCTTATCAAGCTAT
Celera SNP ID:            hCV977299
SNP Position Genomic:     40299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   TSC_42_A(A,0|G,84)   TSC_42_C(A,0|G,84)   TSC_42_AA(A,0|G,84)   total(G,252)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25150):
TGCATTTACCTGAATTAGAGTTCTAGTGTTATGACAACATTGGGAAAAGAGTAAATATGAAAAAAGTAGAACAAAATCTCAAATTAATAGTTGAATATAT
R
TATAAAATATTAGCATACACATATGATAACTTTTTCATATGCCCTTGCAGTATTTTTAGATTGGAGATAAACCATCAAAACTATAGAACAAAATATTTAA
Celera SNP ID:            hCV27487593
SNP Position Genomic:     87537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25151):
TTTTATTCTCTTTGTAGCAATTGTGAATGGGAGTTCATTCATAATATGGCTGTCTACTTGCTTGTTGTTTGTGCATAGGAATGCTAGCAATTTTTGCACA
Y
TGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGAAGCTTTTGGGCTGAGACAATGGGGTTTTCCAGATATAGGATCATGTCATCTGC
Celera SNP ID:            hCV11840322
SNP Position Genomic:     175989
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25152):
TTTTTCTATTTGTTTGTGTCCACTGTGATTTCCTTGAGCAGTGGTTTGTCATTCTCCTTGAAGAGGTCCTTCACTTCCCTTTTTAGCTGTATTCCTAGGT
R
TTTTATTCTCTTTGTAGCAATTGTGAATGGGAGTTCATTCATAATATGGCTGTCTACTTGCTTGTTGTTTGTGCATAGGAATGCTAGCAATTTTTGCACA
Celera SNP ID:            hCV11840323
SNP Position Genomic:     175888
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25153):
CTCCATCCATGTCCCTGCAAAGGACAAGATCTTGTTCCTTTTTATGGATGCATAGTATTCCATGGTGTATATGTACCACATTTTCTTTATCCAGTCTATC
W
TTGATGGGCATTTGGGTTGATCCCATGTTTTTGCTATTGTGAATAGTGCTGCAATGAACATACACATGCAGGTATCTTTATAATAGGATGATTTATATTC
Celera SNP ID:            hCV11840324
SNP Position Genomic:     174182
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,5)   total(A,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25154):
TGGGACGATGTGGTATTTGGTTTTCTGTTCCTGCATTATTATGCTGAGGATAATGGCTTCCAGCTCCATCCATGTCCCTGCAAAGGACAAGATCTTGTTC
S
TTTTTATGGATGCATAGTATTCCATGGTGTATATGTACCACATTTTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGATCCCATGTTTTTGCTAT
Celera SNP ID:            hCV11840328
SNP Position Genomic:     174119
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,5)   total(G,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25155):
GGTGTCCTACTCGCTGGTGGAGCTGCGGGTGGGCGAGCGCGCGCTGTCGAGCTACGTGTCAGTGCACGCGGAGAGCGGCAAGGTGTACGCGCTGCAGCCG
Y
TGGACCACGAGGAGCTGGAGCTGTTGCAGTTCCAGGTGAGCGCGCGCGATGCGGGCGTGCCGCCTCTGGGCAGCAACGTGACGCTGCAGGTGTTCGTGCT
Celera SNP ID:            hCV25764777
SNP Position Genomic:     55955
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25156):
GAGTTTCTGAATTACCCTCCCTTCTAGCTTTCTTTATACACCATTCTTTGTAGCTGAAGTTTTAAGCCCCTTGTCAAAAGGGAGATTCAAGTTTCTGCTG
R
GGACATCTCAGTGTCACAAAGGGCCAAGGAAGTAGGGTCTCACCAACTTTGCCACCTGACTCAGCTCAAAGGTGATAGGTCACCTGTGTGACTGAGAGCT
Celera SNP ID:            hCV27496633
SNP Position Genomic:     209254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(A,714|G,769)   total(G,769|A,714) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25157):
GAGACTGGATGAACTGGACAGTGGGGGTAGGGAGAAAGGGAGTGGCCGTGTTCCTGCGGTCCGCTGGGATCCGGCAGGTCCAGGGTGAAGGAGATGGGGC
W
GGAGAGGCTGAGCAGTCCGGGTTCGCTGTCCGCCACTTCGGCGCGGAATCAGAGCAGGACTTGCTGAGCCCTCCTACCGCTCCCTTTCCCCCTCCCCCTC
Celera SNP ID:            hCV27496634
SNP Position Genomic:     186337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25158):
AAGTTCTAAGGAAAGATTTAGATAAAATATAAGGACTTTGAGGAGTGACCGAAGGATATTACAATTGAAACTAGAAATTTTGGGAAAGTTCAAACGACAT
R
CAAGGAAAAGAAGATACGTTTACGTATTTAATACTTACACGTTTAGCCACATGATGTCGCTGTCCACCACAAGGTCTTTCTCCACAAAAGAAATAACAGC
Celera SNP ID:            hCV27496635
SNP Position Genomic:     20925
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,20)   caucasian(A,17|G,15)   total(A,31|G,35)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,22)   caucasian(A,23|G,17)   total(A,39|G,39)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)   Pcdh-Pygmy(A,17|G,25)   Myers-Ghimp(G,0|A,20)   Myers-AA(G,24|A,24)   total(G,49|A,61) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25159):
TACCTGATCATCGCCATCTGCGCGGTGTCCAGCCTGCTGGTGCTCACACTGCTGCTGTACACGGCGCTGCGGTGCTCAGTGCCGCCCACTGAGGGTGCGT
R
TGTGCCGGGCAAGCCCACTCTGGTGTGCTCCAGCGCGTTGGGGAGCTGGTCGAACTCACAGCAGAGGCGGCAGAGGGTGTTCTCTAGCGAGGGCCCACCC
Celera SNP ID:            hCV15871608
SNP Position Genomic:     8457
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,22)   caucasian(A,23|G,15)   total(A,39|G,37)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,706|A,787)   total(G,706|A,787) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25160):
AAGAAAATACTGGATTACACACTCTCCAATGAGATTTGAAATGTCCTGGGTCTTAAAAGGACATAAAATTGAAAATGATTGCATTTAACAAATTGCAGAC
R
GATATAGATTGCATTTTGAAAATCAACGAATGGATCTAAAATTTACATTGGCCACATGATGTCGCTGTACACCACAAAGTCTTGTCAATAGAAGGGAGCT
Celera SNP ID:            hCV27496636
SNP Position Genomic:     6011
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,14)   caucasian(A,15|G,21)   total(A,35|G,35)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,14)   caucasian(A,16|G,20)   total(A,36|G,34)   
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): Myers-Ghimp(A,0|G,20)   Myers-AA(G,24|A,24)   total(G,44|A,24)no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:25161):
TCAAAGTCTTTTCTCTGACAGCATCTGTCTCTAAAGGCCGAACAACGGGAGATGCAGCGGAATTGGATTAAAAGACTCTGAAAGTACAGTCGTTCATCTT
Y
ATATTAAGATAATATTTTCTGATAGGAAACGACTATTTAACATGGATTATCACTGGCGAGGAGAGCTGGGATCCTGGCGACTACTACTCTTGCTTCTGCT
Celera SNP ID:            hCV25970341
SNP Position Genomic:     61283
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(T,32)   total(C,3|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:25162):
CACCTCCTGGGTTCAAGCGGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTGTGCAGGCACACACCACAAAGCCCAGCTATTTTTCTTTTTTTTTTT
T
GTATTTTAAGTAGAGATGGGGTTTTGACGTGTTGGCCAGGCTGGTCTCGAACTCCTGGTCTTAAGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTAGTA
Celera SNP ID:            hCV11840404
SNP Position Genomic:     116555
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25163):
TGGTGCTCACGCTGCTGCTGTACACTGCGCTGCGTTGCTCAGCGCCGCCCACCGTGAGCCGGTGCGCGCCGGGCAAGCCCACGCTGGTGTGCTCCAGCGC
Y
GTGGGGAGTTGGTCTTACTCGCAGCAGAGGAGGCAGAGGGTGTGCTCTGCAGAGAGCCCGCCCAAGACGGACCTCATGGCCTTCAGCCCAAGCCTTCAGC
Celera SNP ID:            hCV26000223
SNP Position Genomic:     97711
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25164):
TCCACTTTGGGTAAAGCACATGGTTCCCATAAGAGAGAGTGTGATATAAAGCAAGAAAAGTAATATGAGAAAAACCTTTTGTATAACTTTGAGTACTAGA
Y
GAGTAATTTTGACACTCTTCAAAGTCATTTGAAAGCTGTCAAAAAGTGTGAAGCAATACGAATAAAAAGTATTAACGGAAGATGACTGCAAGGATTAAAT
Celera SNP ID:            hCV27519202
SNP Position Genomic:     53094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25165):
GAGGTAAATCTGCAGAATGGCATTTTGTTTGTGAATTCTCGGATCGACCGCGAGAAGCTGTGCGGGCGGAGCGCGGAGTGCAGTATCCACCTGGAGGTGA
Y
CGTGGACAGGCCGCTGCAGGTTTTCCATGTGGACGTGGAGGTGAAGGACATTAACGACAACCCGCCGGTGTTCAGAGAAAGGGAACAAAAGGTACCTGTT
Celera SNP ID:            hCV25964947
SNP Position Genomic:     95805
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25166):
GGTGGAATATAAAAAAAATTATAGAAAGATAAATTTTTGTTCAGATGCATCTACTGCAGCAATTTGGGAGGCTAAGGTGAAAGGATCGTTTGAGCCCAGA
M
GTTTGAGACCAGCTGGGCAACATAGTGAGACCTTGTCTCTACAAAAAATTAAAAATTAGCTGGGCGTGGGGGCGCTTGGCCTAGAAGTTCAAGGACAGTT
Celera SNP ID:            hCV15769698
SNP Position Genomic:     143239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25167):
AGGTGGAATATAAAAAAAATTATAGAAAGATAAATTTTTGTTCAGATGCATCTACTGCAGCAATTTGGGAGGCTAAGGTGAAAGGATCGTTTGAGCCCAG
W
AGTTTGAGACCAGCTGGGCAACATAGTGAGACCTTGTCTCTACAAAAAATTAAAAATTAGCTGGGCGTGGGGGCGCTTGGCCTAGAAGTTCAAGGACAGT
Celera SNP ID:            hCV15769699
SNP Position Genomic:     143238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25168):
ATCGAGAGGACACTCCTAAGCATTATTTACTAATAACAGCAATTGATGGTGGGAAACCAGAGCTCACTGGCACGACTCAACTAAAGATCACTGTTTTAGA
Y
GTAAACGACAACGCCCCAGCGTTTGAGAGGACGATCTATAAAGTCAGATTACTCGAAAATGCACCAAATGGTACCCTAGTGGTGACCGTTAACGCCACCG
Celera SNP ID:            hCV25765661
SNP Position Genomic:     21872
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,40)   total(C,2|T,76)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Gene Number:                 91
Celera Gene:                 hCG1984906 - 67000129032891
Gene Symbol:                 IL4R
Protein Name:                interleukin 4 receptor;CD124;IL4RA
Celera Genomic Axis:         GA_x5YUV32VTB5(953619..1000815)
Chromosome:                  Chr16
OMIM number:                 147781
OMIM Information:            INTERLEUKIN 4 RECEPTOR;IL4R


Genomic Sequence (SEQ ID NO:12251):
CCTTGGATTGGGTCCATGGTTAAGTGAGTGAGTGAGGCTCAAGGGCTTCTTTTTTTTTTTTTAGAGATAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGC
AGTGGCATGATCACAGTTCACTGCAGCTGCGACCTCGTGGGCTCAAGCCATCCTCCTGCCTCATCTCCCTTAGTAGCTGGGACTACAGGCATGTGCCACC
ATGCCTGGCAATTTTTTTTTGTATTTTTGGTAGAGACGGGGTCTTGCCATGTTACCCAGGCTGGTCTTGAACTCCTGGACTCAAGTGATCTACCTGCCTC
AGCCTCCCAAATGGCTGTGATTACAGGTAGGAGCCACCGCGCCCAGCCTTCAAGTGCTTTTTTTTGTTAGTGAGACTGGTACAACCAATGCCAAGGCTGG
TGAGCAAAGTTGCACCCAGTTGGGGAGGGGCGAAACCAAGGGCAGAAGGGCCCAGGGCATGGCCTCTCATGGCTGAAGGAAGAGGGGACACGTGGCCAGT
CACAGTGACCTCTGCAGACCTCAAGAAGGAGGCCAGCTAGGAGCCATAGCTGTCACTAAGACAGTCAAAATCTAATCAGCACCCTGGCGCCAAGAGGCCA
TTGTCCGCTGCTCAGGACAGTGAGTGATAGTCGATAACCAGCTCTCTGGAGGTCAGGGCCCCGAGGTGGCTGAGATCTGTGCCTGCATTAGGACATTTAA
GGGGACTCCAAGCCAGGATTTGCTAGTGTTTGCCCAGCAGGGAGAGGTGGAAAATTGGGGATGACCAACCAGGCCTCCCTGCTCACAGCCAGGGGAATTC
ATCCTGTCGTTCTTCCATTCAGCAAATATTCATGGAGCACCTGCTGTGTGCCAGGCACCGTGCTAGGCTCTGGGGAGATGGCTGTGAGCGGGATCGACAC
TGGCCTTGTGTGAGCTGGCCTTGCAGTAGGGGATATGAGCACCAAACACATAAGGCCCGAGTGTGCAATATGCCACAAAGATTGCAGAGAAATAAAGCAA
GATAACAGGTTGCAGAAAGATGGAGGCCAGGCTGGCTGCTGTTCCTGGGTAGGTGGCTTCTGGACACAGTTTCCTCAGGCTCTGTTTCCTCCTTTGGGCC
TCTGGAATCTTCTGAAGACAGGCCTGGCTTCCAGGATCCCGGATGGAGTTGCCTGTTGACTGTGTGGACTCAAAGTGTCCACAGTGCGCCGGAGCGCGTG
GTCTTCCCCAGCAAATCTGCTTCTCTTCTCGGCTCTCCATCGTGGGAAGGGTCCCTGGGATCCTCCCCACCACCCCAGCCTGAGGCCACTTTCCCTCTGT
CCCCGCTCTCCCCAGCCTGCTTTCCCCACCAAGCGCCACCAAGTCCCTGCTGCCTCCTCCTCCCAAACAGGCTCAAACCTGCCCCCTCTTCGCCAGCTCT
CAGCTCAGCCCGCTCCTCTCCTGCTTAAGAGCCTTCACTGGCTCCCCACTGCCCTAGAGACAGAGTTTGAGTCTACTGCCATGGCTTGGCAGACGGTGTT
GTCCCTGGCCTGCCAACCTTCCAGCTGCCATCCCAGCCAGTCCTTCTCCCCCTTGCTCCAGCCAAGGGCCCCGCTTGTAGGGTGGGAAGTGGGCCGTGCC
CTCCCTCCTGCCTGCCTATTCGCTGGGTCTTCCCTCATTCCCTCCCTCACCCCGCCCTCTCATAAGAACCTTCAGAATCTGCCAGACGCAGTGGCTCACG
CCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCTTGGCCAACATGGCAAAACCCTGTGTCTGCTA
AAAATACAAAAAAATTAGCTGGGCGTTGTTGTGGGCACCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAACTACTTGAACCTGGGAGACAGAGG
TTGCAGTGAACTGAGATCCCACCATTGCACTCCAGCCTGGACTACACAGTGAGACTCTGTCTCAAAAAAAAAAAAAGAACCTTCAGAATCATAAAATGGG
TTTAATAATTATACTTATCTCATAGGGAGGGCTTAAAGCACCTAGGCCAGTGTCTGGCACCAAGGAAACACTGTATACCTGTTAAAATAAGAATAAAATA
AAATACACATGCTCACTTATTGAGTGCCTGCTGTATGTCGGGCCCCTCCCCGAGAGAACTCTGGTGCATCCCCGATAAAGAAACCTGACCCTCTAGGATG
AGGGAGGGTCTTCCCTGAGCGCCTGCTAACAGCCTCCTCTGCTAATCTGAAGTCCTGCAGCTTGCCCAGCAGGCTGGCTTGTCACACGGGCTACCCCCAC
AGGCCGCCATCTTGGAAAAGGCCAATGGCTGTGGAATCATTCTTGACTCCTATTAGCCTTCCTGTTCTCTCTCCCGCCCCACAGCATCCATCCTGTCAGC
AAATCCTGTGGGCTCTGTCTTCAACACAGATCTAGAATTCAGCCCCTTCTCAACCTCCCCATCTCCGCAGCCTGGTGTGAGCCCTGGCACCTCTCTCTGG
GGCCAGTGTGGTAGCCTCCTCACTGCTACCCACTTCTACCCGTGCCCCCACCACCCAAGCAAGAGAGGTCTTTTTTAAAGTCTCATCATGTCACTTCTTT
GCTCAAAACGCTCTGGCAACTTCTTCCTTGCTCAAATATTTGTTAAAAGAAGAAAGGAATGAATGAATGAATGGCCTGTTTGCATCTGTAATAGCCAGCA
CATAGGCAGTACTTGGAAAACACCCACAGCAAGAATAAATGAGGAGATGGCTGGACACGGCAGCTCATGCCTGTAGCATGTTGGAAGGCCGAGGCAGGAG
GTTTGCTTGAGGCCAGGAGTTTGAGGTTGCAGTGAGCTATGATTGTGCCATAGCACTCCAGCTTGGGCCACAGAGAGAGATCCCCATCTCTACAAAAATT
TAAAAATTATTCGAGCATGGTGGTGTGTGCCTGTAGTCACAACTACTTGGGAGGCTAAGGCAGGAGGATCACTTGAGCCCAGGAGTTCAAGGCTGCACTG
AGCCRTGACGGTGCGACTGCATTCTAGCCACAGAATGAGACCCTGTCTCTAAAGCAAAAAAGAGAAGGAGAATAAGTGAGGTACTTGAGCAAGTGGGTGA
GGATGGTTGAGCCACAGCAGGCCCACAGGGAGGCTGGTGGGTGCTGTTGGTGGAGGGGGCCGATTTGTGTTCCTGGTGGCTGCAGAGCCAGTCTGTTGCC
TCCCCTCCCTCCCACTGGCTGGGCTGGGGACGGAGCCAACCAGGCAGATCCCGGGCCATTCTGGGGCCCTGGCCTGGCCTGCCTTACTATCCCAGTGGGG
CCACCGACGTGGCTGCCATTTCTGGAAACCCCAGTTCTAGGTAGGTTACTGTCCCAGGAAGAAGTGCATGCCTAGCTTCCTGCCAGCCCAGCCCAGCTGT
CCCAGAAGCCAGAGGAAGCTCTGGGCTGGTTTCTTATAAGTAGCATGACTAACTGATTGCGCCACAGGAGCTGAGGTTTCAGGCCAGTTTCTGTCGTGGA
GTTTCAGGGGTCAGCGGCTCCAAAGCCCCAGCCCCCACCCGAGGCCCCTGCTGTCCCTGGATTCCTCTCCACATGCCACCTGTCACAGAGGTGCTTGCAT
CCTGTCTGCAGAACCAGCCCCTCCTCCAAGCCAGGTTTCCTGCCCAGAGGGAAGAAGAGCAGAAGGCCTGTACCGCCCCCTGTGCGCCCCCAGTCCTCCG
CCCCCTGCCCCCCTGCCACCCGCTGTGGGTTCGGGAAGAGTCCTGCTGGGTCGCTTCCAGGCTGCTGCTGGCTTCTGACATTTCAAGGCTTAATCACTTA
ATCTCCCCCGAGTTTTTTAAAAAAAGTGAGTCAAGTGTGTTCTCCTGGTGGCGGGCGTGTTTTCCCAGGCCCATGCTTCTGCTCATTTCCTGGCTGCGGC
CTTCACTGACTTTGCTGCTTCCTAACTCTGTGACCTTGGCCTTGTCACTTGCTGTCTCTGGGTCTCAGGCCAATGGGTCTCAGGCCAGTGGGGCTCCCCG
GACAAAGTTCCAGGGTTTTGGGGACTGCATTTCAAGGGTCAGCAACCACAGTCCTTAAACACGTGGATTTTGGAGTGACAATGCCTAGGTTATGGTTCTG
TGACCACCAGCAAGTGCTCTAGCCTTTTTGTGCCTCAGTCTTCTCATCAGTAAAATGGGAATGTTAATGGCACCTACCTCATAGGGTCGTTGGGAGAACC
AAATTGATTAATATATTGTAAGTACTTAGAACAGGGCCAGGCACAAAATAAGTACTGCATATACAGTTAACTATGGACAAAAGCTTGGGACCTGGTTCAT
GTTTAAAAATGATTATTGAGGCCAGGTGCGGTAGCTCATGCCTGTAATCCCAGCACTATGGGAGGCTGAGGCAGGCGGATCAGGAGGTCAAGAGATCGAG
ACCATCCTGGCCAACATGGTGAAATCCCGTTTCTACTAAAAATACAAAAATTAGCCAGGTGTGATGGCGTGCTCCTGTAGTCCCAGCTACTCAGGAGGCT
GAGGCAGGAGAATCACTTGAACCCACGCGGAGGTTGCAGTGAGCTGATATCGTGCCACTGCACTCCAGACTGGTGACAAAGCTAGGCTCCATCTCAAAAA
AAAAAAAAAAAAAGATTGTTGAATTTATTATTGCTGAATTTTTTTTTTTTTGAGACAGAACTTTGCTCTATTGCCCGGGCTGGAGTGCAATGGTGTGATC
TCAACTCATTGCAGCCTCTGCCTCTTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCAGCCTCCCGAGTAGCTGGGAATACAGGCACCCACCATCATGC
CCGGCTAATTTTTGTATTTTTGTAGAGATGGGGTTTCACCATGTTGGTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGA
TTACAGGCGTGAGCCACTGTGCCCAGCCTATTATTGCTGACTTTTAAACCATTCATTCATTTAATATATGTTTATTGTACACATGCTATGCCTGTGTCAG
GCACTGTTTCAGGCACTGGGGATAAAGCAGTGAGCACAGCAGACATAAAGCTCTGCCCTCATGGGGCTTGTGGTCTCTCAGAGGGAGGCAAACAATGCAT
TTATAGACAAATACATAATTTAAATTTGAGGTTACCTATTATACTCCCAACTTGAAAAACTAGCAGTATATTGAGGTGGCTATTTCACATCTGATGGAGG
AATATGTCTTTTGTGAACCATTTATGTTCTTTGCCTATTTTTCTTAAAGGGATGTTTGTCTTATTGATTTGTAAGAACTCTTCATATATTAAGGCCATTA
ACCGTTCATAATGTAGATTGCTACCTTTTTCTAGTCTTTTGCTTGCTGATATAGTTGGGATGTCATCCTCTCTAAATCTCTTGTTGAAATGTGATCCCCA
GTGTTGGAGGTGGGTCCTGGTGGGAGATGTTGGGTCATGGGGACGGGTCCCTCATGGTTTGGTTCTGTCCTTGCCATAGTGAGTGAGTTCTCACAAGATC
TGGTTGTTTAGAAGTGTGCGGCACCTCCCTCCTCTCTCTTGCCCTGGCTGTCACCATGTACGCCTGCTCCCCTCTTGCCTTCCCCGTGAATAAAAGCTCC
CTGAGGCCTCCCCAGAAGCCAAGTAGATACGGGTGCTATGCTTCCTGTACAGCCTGCAGAGCCATAAGCCAATTAAACCTCTTTTCTTTGTAAATTACTC
AGTCTCAGATATTTCTTTATAGCAATGCAAAAATGGACTAACACACTTGAGTTCTGTCTTTTTCTTATGGCATATTTTAATCTAGGCCAGACACAGTGGC
TCATGCCTGTAATCCCAGCACTTTGGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTTAAGACCAGCCTGGCCAACATGGGGAAACCCTGTCTCT
ACTAAAAACACAAAAAATTAGTTGGGTGTGGTGGCACACACCTGTAATTCCAGCTACTCGAGAGGCTGAGACACAAGAATCGCTTGAACCCGGGAGGTGG
AGGTTGCAGTGAGCCGACATCACGCCACTGCTCTCCAGCTTGGGGAACAGAGCAAACCTCCGTCTCAAAAAAAAAAAAAAAAATCTAGGGAAGTTGAAAA
CATTTTGCAGTCAAAGCTATCTTTGCTRTCTGCATCTTGAAATAAAATAAACATTCATACATGTAACCTCATTAATCTGATTAGAGATAGTGATAAGTAC
TGGGACAGACATAAACAGGGTGCTGTGATAAGAAGTCACAGGGAGGGCCCGCATTAGTTGAGGGGGGTCAGAGAAGGCTTCTGAAGTGTTTCTGGTGCAA
ATGCTTGGAAAAGGGAGAGCTGGGAGTGTATCCCAGGGCTGAGGCCAATGGAGGATTGCAGAAGAGGGAGAGGGGATAGGAGGGGAATGTTAGAGGGATA
AGCAGGGGAATTGGCTCTTTTCTTCATTTTCTTAAATTAAACTTTTTATTTTCAGATAATTAAAGATTTACACACAGCTGGAAGAAATCATAGAGAAGCC
GGGCGTGGTGGCTCATGCCTATAATCCCAGCACTTTTGGAGGCTGAGGCGGGCAGATCACTTGAGATCAGGAGTTCGAGACCAGCCTGGTCAGTATGATG
AAACCCCATCTCTACTAAAAAYACAAAAATTAGTTGGGCATGGTGGCTTGCCTGTAGTCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCACTTGAGCC
TAGGAGGTAGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAGAAAAGAAAA
AGAAAAAGAAATCACAGAGAGACCCCTGCTTCTATGCTGTTCCCCCCGAGGGCAAGATTGTAGAAATCTGTAATACAGTATCACAGCTGGGATACTGACA
CTGATATAAGCTACTGACCTTATTGGGATTTCCCGATTTACTTGTACTCATTTTTGTGTTTGCGTACGCATGTGTGGTTTAGTGCTATGCAATTTTATCA
CGGCATAGGTTTGTGTATGCAGCCAGGATCCAGCACAGTTCTATCATCACAAGGATGGCTCAAATTCTCCTTTTATAGCCACATCCAACTCCCTTCCTGA
CCCACCCCCTCAGCCCCTGGCACCCACTGATGTGTTTTCCATTTCCATGGTTATGTGATTTCAAGTATGTTACATAAATGGAGTCACGGGGTGTGTACTC
TGGGAACTGGCTTTTTTCACTCTAGGGCTTGGATTTTATTCTAAGTCAGAGATGCTTCTCTAATGAGCTGTGAACCCCCTGGGGATCTGTGGCCCCTGTG
AAGAAGCCCTTTAGGAGCCAGGGGGCATTGGATGTGTGAGCTGGCCCTGGTCTCATTTCTGATTTTAAAATGGCTCTGGCTGTGATGTGGAGAAGAGGCA
GGGTGAGCCTCATCTGCAGCAACTGCTAACTGCCCACATCCCCCCRGMCTTCTCAAAAATTTGCCACTCCCCTGCTCAAAGACCCTCAAAAGCTGCCCAC
TGCTTAGAGGACAGGCCTTTGACCTGAGGTCCTCACTTGGGCTTCAGGGATTCTGTGAACCCCTAAAATGGAATGCAGAATTAAGTGTATGCACCTTGCC
AGAAACAGGGTTTGGGGTTTACATTAGATGCTCAGATAGGTCATTGATCCCCAAAACACTAAGGWCTCTGACTTCTAGACAGATAGTAGTTAAGAACCAA
AGCTTTGGAGCTTGAGTGCTGGATTTAAGACCCATGACTGTCACAGCTGTGCAACCTCAGACAAATCACTCAGCCTTTCTGTGCCTTGGTTTCCTCATCT
GAAAATGGAGAAAATAATATTACCTATTTCATAGATTATTAAATGCATTCTTGTATGTAAAAGATGTAAAAGAAAACTTGGCATGTGGTAAACTCTGTGT
GTTTAAGTGAATGGTGAGGCTGCCCAGTATAGGAGGGCAGAGCTTTCCAGGTAAAGACTTTCTAGGCCTCCTGGGATTATCAGGCCCTCTCTGTGTTGGT
TGTTGTCATACATGACAGCAGTATTCCTTCCAAAGGGATGCCAAGTTGTGGTTGCACACTGCACTTAGATCCAGTTGATTGACAGCACTGTTCAAGTCAA
CTGTGTCCTTACTGATTTCTGCCTGCTGGATCTGTCGATTACCAAAAGAGTTGAAGTAATAGTAATAATACTATTATTATCCAATAATAGTATTATTCAG
AATAATCACACAGATTTCTCTATTTCTCCTTGCTGCTCTCAGTTTTTGCCTTACATATTTTGACCCTTTGTTGTTAGTTGCCTACACATTAAGGATTGTT
ATTTACATCTTCTTGGAGAATTAACTCCCGAATCATTATATAGTGCCACTTTTTTTTAATTTAAAAATTTTATTTTTTATTTTTTGAGACAGGATCTTTC
TCTGTTGCCCAGGCTGGAGTTCAGTGGCATGAACACAGCCCACTGCAGCCTTAACCTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTTCCCAGTAGCT
GGGGCTACAGGCATGTGCCACCTCTAATAACTTTTCTTTAATTTACARTAGTATTAGTTTGTTCTCATGCTGCTCTAAGGACAYGCCCAAGACTGGGTAA
TTTATAAAGGAAAGAGGTTTGACTCACAGTTCTGCAGGGCTGGGGAGGCTTCAGGAAACATATTATCATGGCGGAAAGGGAAGCAAAGACATCCTTTTTC
ACATGACGTCAGGAAGGAGACACGCCAAGGAAAGGGGGGGAAAGCCCTTTATAAAACCATCAGATCTCAGGAGAACTCACTCACTGTCACGAAAACAGCA
TGGGGGAACTGCTCCCGTAATCTAATCACCTCCCATGAGGTCCTTCCCCCAACACGTGGGGATTACAATTCATATTACAATTCAAGGTGAGATTTGGGTG
GGGACACAGAGCCAGGCCATATCACATTATTATTAATTAGTGCCTTCTCTCTCATTTTTTTGATTCGCCTAGGTAGAGATTTATCAATTTCATTGATCTT
TTCGAAGAACCAATTTTTGATTTCATTGATTYTCCTCGATTAATTTTCTATTTTTAATTTCATTGATGTATGCTCCAATTTTGTATTTTTTTCTTCTGCT
TGTTTTAGACATATATTGCTTTTCTGTTTCTAGTACTCTAGATGGAAACAGATTATTGATTTTAGAACTTTCTTTCTAAGATATACATTCAATAATATAA
ATTTCCCTCTAAGCACTGCTTTTGCTACGTCTCACCGATTTTGATAGGCTATATTTTCATTTTTATTKAGTTAAAAATATTTTTAGTTTCTCTTGTGATT
TCTTCTTTGATCCATATGTTATTCGGAAGTGTGTTTTTAAATCTCCAAATACTTGGAAATTTTCTGGCTTTCTTCCTGCTAGTGACTTCTAATTTGAATC
CATTGTGGCCTAAGAGCATATGTTGTGTGATTTCTAATGTTTTCAATCTCTTAAGGTTGTTTTATGTCCCAGAATGTGGTCTGTCTTGGTGATTATTCCA
CATGAACCTGAGGAGAATGTATATTCTGCTGTTGTGAGATGTAACAGTCTATAAATGGATACCTCTGTTAATATGACCTCGGGTGACTCTTTTTTTTTTT
TTAAGTTGCTGCTTCACCATTGGCTTTTGGAGATTTTGCAGATGATAAAATCCTCAGGACTTTTCTGCTGCTCAGTCAGATTTTCTTATCCTACACTTGC
GGAACTGTTGTTTGAAATTGACAAGCAGGATGGCCAACTCTGCCCGGCTCATTTTATTTCATCTTATTGGGTTCAGCCTGCAGTTTTAGGAGATGAGATT
GAAGGAACTGGTATACTGGAATCCACGGTGGGCTCGGAAGCAAACAAACGTGGGTTCTGATTCTAGCTCTGACCTTTTACCAGCTGTGGGACCTGGTGGA
TGGGTTATTTGGCCTCTCTGGCCTCAGTTTCCTTAGCTAGACAGTTGGGATAACAGCCTACCTTTCAGGATTCTTGTGTGGATTCGGTGAGGTAATACTT
CTAAAGCACCTAGCAAAGTGTCAAGTACAAGGTAAGTGCTGGGCAAGCAGGGATTTTGTTCACACAAAGCCTTGACTCAACATAAGGAGGCTGTTTCCAA
TGGCTCTGCTTAACTGAGACCTGAGAGTGATTGCTCCATCTGTGGTGGCATATGGGCTGAAACTGCCTAGCAGCATGTCAGARGTGGGGYGTTCGCAGGA
CATCCTTGTCCAGGTTGGCAGTTGAGCTTGGCAGGTGACCGCTGAGACCCCTTCCAACTCCACCACTTCAGGAATCTCTTTTTTTTTTTTCTGAGACAGT
CTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCTCAATCTTGGCTCACTGCAAGCTCCGCCTCCCGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCTGAG
TAGCTGGGACTACAGGCACCYGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACTGAGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCC
TGACCTCATGATCTGCCTGCCTCAGCCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCAGGAGTCTCTTGATTTAGAATGGGAACTT
GAAATCATCTCCTCTTGCCGTGTACTTGAACGCGATAACCTGGCACTTATCTTTTTAATTCTTTTACTCACCTGCATCTTTGTTCTTTTTGCCTCTGATG
TTCAGGGAAGCCTCTTCTCCCACTGCATCTGTGATCTCTCCTGAAATGTAGCACCCACACATCCCTGAGAAGCTAGCTGCGGCACGTGTGTGTGCACATG
GGCATGCRTAAGTCTGGGCGTGCCTTCCACAACAGATTAAGGATATCAATCCTGACGCCATGCTGGGATGTTTTAGTGAATCTTGACAGGGTTGTTGACT
CCCCTGTTTCCCTGGAGGACTTTACCATGAAAGTCTTCTGCTGTGTGACTTTGGACAGGCGTCTTGGCCTCTCTGTTTCTCTTTATTCATAATTGAGGCT
AAAGTGACACCTTTGCCATCTCTGCCACAGGATACTGTGGGCATCTGTGTAGTTGTGAGAGTAAAAGTTACTAGGACTTGCCAAGGAAATCAGTGTCAGG
AACCCACCACCCCATTCCCGCCCCTCCTTTACTTGAGACTTTACTTTTGTAACTCTCAGCAAGGAAGACGAGTTCAACCTTTGAGCCGATACAGAGCCTT
CCCCTAGAGAGAGCTTTGCAGCCTCATGCTGAGCCAGTTAGGGGCCCCACATCATGTCCAAAATGAATTTAATCAACAAACAGTTACTGAACACGTCCTA
TGTGCCAGGCACCGTTGTAGATACTGGGGACTCGGCAGTGAATGGGACAGACCCTGGCTGTCAGGATGACAGACAATTTAAAAAGGGACAGATGTCCCAC
GCTGGCTTGTCCTTTGCACCCCYGGCACTTCGTGAGGAGCAGCGGCCAGTTCTTGTATATAGACTGGCCCTTGGTGTACATTTGTCTGACGTTTCCAAAT
GATGTATGCATCCTTGGCAGGAACCCAGGAAAAGACATGCTGTGCTCTTCTCAGGAATTGTTTCAGGGAGGTGATGTTGGGGATTTGTCCCATTCTTGTT
GGTGAGTTTAGATCACTTGGTGAAGGTGGTGTCTGCCAGGTTTCTGTATTGTAACGTTCATTGATATGTATTTTCACTCATTAGTTAATATACAATACAA
GTTTTGCAGGGAGTTACTTTGAGGCTGTCATAGTAAAATAGAGCTTTCCCTTCTTCCCTGTTTATTTATTTATTAGAGATGAAGTCTGACTCTGTTGCCC
AGGCTGGAGTGCGGTGGTGCGATCATAGCTCACTGCAGCCTCCAACTCCCAGGCTCAAGCCATCCTCCTGCCTCAGCCTCCCAAGAAGTTGGGATTACAG
GCACACACCACACTGCACCCGGCCTCCTCCATTTATTGATCTATGTCAATACAGACTCCTGGACTTTAACTCCAAGGGTTACAAGTGGATACCATAATAT
TCATTTTGATGCTCAAAATGTGCCTGTTTTGTCCAGGTCAGGCTAGCTGCTGAGTACTTCCTTATTGTCTGGCACAAGAATTCCAAGCCTATCTGGTACT
TTTCCTTCTCCTGGAATCAGCTATTTCTCTAAGGCGCTCTGGTTCCTTTCAGTACAGAATAGTATTTAGAAGCCAAGACCTGGTCACTAGGAAGGCATGA
TAATCAAATGTGATGAATGATCTTGGATTGCATCCTGGACGTATAAAGGGCATTATTGAGGCAATTAGCAAAACATAAATAGGGGCCGTGGATGAGATAG
TGGTGATGCATCACTGTTAATTTCCTGATTTCGATGGTTGTATTGTGATTATGCAGAGAATGTCCTTGTTTTTCTGACATGCACACTGAGGTATTGGGGT
AATTTATTCATTATGGAGATATGTGAGTGTGTTTATGTGTCTCATACACAGATGTTTCTTAATGATGGGGTTTTGTCCCCATAAACTCATCATAAGTTGA
AAATATTATTAAGTCAGAAATGTACTTCATACTCCTAACCTACTGAACGTTATAGCTTAACTTAGCTCGGAACACTTGCATTAGCCTACAGTTGGGCAAA
GTCATCTAACACAAAGCCTGTTTTGTTATAAAGTGTTGAATAGCTTGTGTAGTTTATGGAATACTGAGAGTGAAAAACAGAATGGTCGTATGGGTGCTCC
AAGTACTGCTTCTACTGAACACCCATTGATTTTGCACCATCATAAATTAGGGGAAGAGAGGAAAAGCACGCGTAAGGGAGGAAGGGCCGGGTACAGTGGC
TCACGCCTGTAATCCCAGCACTTTGGGAGACCAAGGTGGGCAGATCGCTTGAACTCAGGAGTTCGAGACCAGCCTGGGCAACATAATGAGACCCCATCTC
TATCAAAAATACAAACACTTAGCCAGGCCTCATGGTGCACATCTGTGGTCCCAGCTACTCAGGAGGCTGAGGTGGGAAGATTGCTTGAGCCCGGGAGGTG
GAGGTTGCAGGGAGTCGAGGTTGTGCCACTACACTCTAGCTTGGGTAACAGAGTAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAGGAAAGGGAGGAAG
GGAAGGTCCCTCCAGGTGGAGGGGACAGAGAGAGAAAAGGCATGGAGGTGGGACTGAGTTTGGTGTGTTTAAGAAGTGCAGGTGGCAGCCGGGCTCAGTG
GCTCACGCCTGTAATCCCAGCACTTTGGGAGGCYGAGGCAGGCGGATCACCTGGGGTCGGGAGTTCAAGACCAGCCTGACCAGCATGGAGAAACCCTGTC
TCTACTAAAAATACAAAATTAGTTGGGTGTGTGGCCCATGCCTGTAATCCCAGCTACTCAGAAGGCTGAGGCAGGAGAATCGCTTGAACCYGGGAGGCGG
AGGTTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCAAAAAAATAAAATGAAATAAAATAAAATAAAAT
GTTAAAAAACAAAAAAGAAGAAGAAGTGTAGGTGGCAGGCGTAGGATGCATGGGTGCTGGGCCCAGGTGGAGAGGGAGGTGGAGCCCTGCTGGGGGGAGG
GCCTTCAAGTGTGCCCAAGTCACTCGGAGAGCATCCAGCAGGGGCCTAGAGCTCCTGAGGTGGCCTTAAGTTCTTATGATGCCCCAGACACTGCACACAG
TRCTTCAGAGGCAACACCTCCGTTCCTGTTTGCTGCAAGCCTGTGAGGTTAGCCTTGGAACCATTCCTGTGCCACAGAAACACAGCCAGAGCACCAAAAG
AGAAATGCTGTTAATGGCAAAGAACTACTCACTAGCAGAACAAAGCCTGGGAGCTGCTTTTTTGAATAAGATCCCAGGAGAGAGACCCAAGCGGGAAGTG
AAGGATGGGCACTTGAAATGTTGCAGGGAATATAACCCAGCGCGTGCTGTTTTCTTTTTTTCTTTTTCTTTTTTTTTTTTTTCTCTTTTTGCAACAGGGT
CTCACTGTGTCGCCCAGCCTAGAGTGCAGTGGTGCCATCTCGGCTCACCACAACCTCCACCTCCTAGGCTCAAGCGATTTTCCTGCCTCAGCCTCCTGAG
TAGCTGGGACTACAGGCACGCGCCACTACCGCCCGGCTAATTTTTTTTTGTATTTTTGGTAGAGACAGGTTTCACCATGTTGGCCAGGCTGGTTGTGAAC
TCCTAAAGTGCTGGGATTACAGATGTGAGCCACCACGCCYGGCCCCAGTACACACTTTTTGGAGGGTATTTGACGTTATGTACCAGGAGTGCTGGGGAAA
AGTACACACTTGACTCCGTGAGATTCTGCTTCTTAGCATTTTTTTCTTTTCCTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGA
GTGCAATGGCATGGTCTCGGCTCGCTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCCACCTCGGCCTCCCGTGTAGCTGGGACTACAGGTGTGCGC
CACCACACTCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGTGATCCGCCCACCTCA
GCCTCCCAAACTTTCTGTTTTCTTTTCTTTTCTTTTTTTTTTATGACAGGGTCTTGCTGGAGTGCAGTGGTACGGTCTTGGCTTACTGCAGCCTTGACAT
CCCAGGCTCAAACGATCTTCCCACCTCAACCTCCCAAGTAGCTAGGATTACAGGCATGCACCACCGTGCCTGGCTGATTTTGTTTAATTTTTGTAGAGAT
AAGGTCTCACTCTGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGCCATCCTCCCTCCTTAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCAC
CACACCTGGCTTCTGAACATTTTTTCTTAATGATAATAGCTGGTGCTATGGGCTGAATGTGTTCCCCCAAATTCATATGTTGAAACTTCATCCCATTGTA
GTCATATTAAGAGATGGGGCCTTTGGAGAAGTGATTAAGTCATGAGGGCTCTGTGGTTGGTCATGAATGGGGTTAGTGCCCTYATGAACGGGCTGAAGGA
AGTGTGTTTGCCCCTTCTGTCATATGAAGACACAGCAGCATGGCATCGTCCGTGAGGAATGGGCTCTCACCAGATCTGGATCTCCTAGTGTCGTGATCTT
GGACTTCCCAGTCTCCAGAACTATGCATTAGAAAATTTATTTATTTATTATTTATTTATTTTGAGATGGAGTCTTGCTCTTGTCGCCCAGGCTGGAGTAC
AATGACGCGATCTCGACTCACTGCAACCTCTGCCTACCCCAGTTCAAGCGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGAATTACAGGTGCCCGCCAC
CACACTCGGCTAGTTTTTGTATTTTTAGTACAGACGGGGTTTCTCCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCAGGTGATCCACCCACCTTGG
CTCCCCAAAGTGCTGGAAATACAGGTGTGAGCTACTGTGTCTGGCCTGAATAATAAAATTTAAAACAATTTTTCAAAAATTCACCATGAGGTCTCACTAT
ATTCCCTAGGCTGGTCTCAAACCCCTGGACTCCAAGTGATCCACCCCACCTTCCCGAGTAGCTGGGACTAGAGATGCACACCATTGCACCCAATAGAGCA
ATACGTTTCTGTTCTTTGTAAATTACCTGCTCTAAGGTATTTTTGTTATAGCAGCCTRTATGGACTAAGCTGACTTGTAACGTTACTTGAGACTTTAAAG
TGTTCCGGTCACTGTTGGAGGGCTCTGTCTGTGTTAGCTCATTTAATCCCCACAACACCTCAATCAGATGGGGCTATTCTTAGTCCCACTTTATAGATAA
GGAAACTGAGGCATGGAAGCACAGCTTGCTCAAGGTTCACATCTAGTCAGTGACAGAGCAGGTATTTAAACCTCAGGAAATAATCAGAGAAACATGTGTA
GAGGGTTGTCCAAGGAAGGCCACATCCAGAAGCATCTCCCAGGACAGTTGTTGTGTAGCTCACCCTCTGGACTTTGTGGGTCTGGGTGTTGTTTCATGWT
TATAGAGAGAGCTCTGTGAACGTGGAGGACCTGTTGTCGGCAGAGACACAAATGGCCAGGGCATGGCTGGGCAGCCGCAGTGGCTCAGGCCTGTAATCCC
AGCACTTCGAGAAGACCAGAGGGGCAGATCATGAGGTCAGAAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAT
TAGCCAGGTGTGGTGGTGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCRCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAG
ATTGCACCRCTGCACTCCAGCCTTGGAGACAGAGCGAGACTCTGTCTCGGAAAAACAAACAAACAAGCAAACAAACAAACAAATAAATGGCCAGGGCAGG
GGAGGGTTGCATATTGAATAAGATGAGCTCTGCTGGAAGCACAGGTCAGCACTAACCTGCTTCCTCTCTCTCTGCAGGTGCCTTGGCATCTCCCAATGGG
GTGGCTTTGCTCTGGGCTCCTGTTCCCTGTGAGCTGCCTGGTCCTGCTGCAGGTGGCAAGCTCTGGTAAGTCACCACTTCTCAATCATTCATTTGTTGGC
TATTAATGGCGTGCCAGGGTCCTGCAGTATGTCACCTGGCCTTATGGAGATTACACTGCAGTGGGAGGGGACAGCCAATGACAAGTGGCCCTGATTATCA
GTAAATTCTAAAGATTGTTAGAAAGTGATGGGAGCCGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTCAGGAGGCCGAGGCAGGAGGATCGCTTGA
GCCCAGGAGTTCGAGGTCAGCTTGGGCAACATAGGGAGACCTTGTCTCTACAAATAATAAAATATTAGCCAGRTGTGGCAGTGCACGCCTGTAGCCCCAG
CTACTCAGGAGGCCGAGGTGGGAGGATCCCTTGAACTCAGGAGGTCAAGGCTGCAGTGAACTGTGATCGCGCCACTCCACTCCAGCCTGCGTGAGAAAGT
GAGACCCTGTCAAAMAAAAAGAGAAGGTGATGGGGAAAGAACACAGAACAGCATAAGAGGGGGTTGGGGAAGCTGGGTGGAGTGGGGGGGAYTGCAGTTG
AAAGTAGGGAAGTCAGGGAAGGCCTCATTGAGCTGACTTGGAGGAAGCGGGAMCCGTGCAGATGTCTGGGGAAGGCTCATTCTTGGCAGAGAGGCCCTGC
ACTGAGCCTGGCGGGAGGGTTGAGCACAGGAGGGAATGTGGTGGAGGAGAGTGAGCAGCAGGAGGGAGCAGTGAAGGTCAGCAAGGTGACAGAGTGGCTG
AATCAAAAAAGACCTTGCAGTGTTTGAGCAGAGGATCCATATCATCCATTATGTTCCAAAGGACTCTTCAGGATGCCGTGTGGAGAAAGGAAGAGGGTGG
AAGCCAGGAGGTCTGGAGGGAGGTCTGGAGTGGAGGAGATGAGAGGCTCCGGATCCCTCTGGGAGGTAGATTTGAGGACAGATTGGAATTGAGGTGAAAG
ACAGAGAAAGAGAAGTGGCCAGGATGACTCCAAGATTTCTGACCTAAACTACTGGGAAGGACGCGGTTGTCATTTCTGAAATGCAGAAGGATGCCAGAAG
AGAAGGTACTTTGGGGAGGGGCGGGAATCAGGAGTTAGTTTTGGACATGAGATAAGCTTGGAATATTTATTTGCTATCTAAGAYAGCTCCTTAACATGGT
AAGCCCTTATGCAAGTTGTTGTCAGCTGAGATGGGCGTGGCACTGAGCATGGGAGCATGGAGGCGCCTGAGTGGTCTCATGCTCAGGTGRTTTAGCAAAC
TCAGTGTACATCCTGCCAATTCCAGTCCTGCCATGGCCACTGACAAGCTAGGAGGGYGCTGAAAGGAGAAGGACCCCGATGTCTCCTCCAGCCCATCCAT
CTCCTSTCWCCCATTGGCCAAACCCAACCGGAAACYAAAGGCCAAGGGTACCCGGTGATGAAGACTGTGGTATCAGCCTCCTGAGCACAGAGAGGGCAGA
AAGGGGTGGAGACAAAGAGGGGCGCAGATAGTGGGCAAATGGGGAAGTGGCACTTCCCCTAGCTCGAGGGCAGAGGCTTGGTGTGATGGAATGGCACTCC
TTAAACTGCTACATATTTTCCCTTTAATTTGGCCAAGAACAAGTTGTCAAGTTTGTGTRAGATAAAGGTGCACTTGGTTCGTTCTTGTCTAATGGCCCCC
RCACCCATGGGTATTTCTTCAGCTTCCACAGTCATCCCRACACTAGCTGGGAAGCTCCAGCAGCCCTGGTCCTGGCCCCAGCTCTGTGGGCGCTGGCCCT
CAACTTTGCCTGCACTGTGCTTTTGTGYTATTCCCCTTGGTCCTGTTTGGGTGCAAGTCCCCCTCACGCATTGAGTTCCTGGGCCGCTCAGGCTGCTCCT
GTGTCTCCCCAGGGAACATGAAGGTCTTGCAGGAGCCCACCTGCGTCTCCGACTACATGAGCATCTCTACTTGCGAGTGGAAGATGAATGGTCCCACCAA
TTGCAGCACCGAGCTCCGCCTGTTGTACCAGCTGGTTTTTCTGCTCTCCGAGTAAGCCTGCGCTGGAGCTGGAGGTTTGGGGAGGTTGTGCCCAAAGGGT
TTGCCCCAAGAGTGAGCTGGGTCCAGGTGGTGCGCTGGAGTGCAGGATGCTGAGTATGGTTTGCTGCTGTTTATATGGTGTTAGAGGGGAGGTCCCATCT
CCAGGGACATGTTATGTAAGATACAGTGGAGCGCATGGTGGGAGTGTTGGTCCACRTGGCACATGGATACGGCTGGAATACTGGACTAGACCAGCAGTTC
TCACACTTTTTGGTCTCAGGACCCTTTTTCACACTTAAAAATGAGTGAGGACCCAAAGGGCTTTGGTGTAGGTAACACATCATTCTATGTTTACCTAATT
AGAACTTGCAATGAAGAAATGGTGTAATTTTTAAAAAATTAAAACAATTAAAAATTTTTTTTCTTACTGAAATGGAGGTCTCACTGTGTTGCCCAGGCTG
CTCTCAAACTCCTGGGCTCCAGTGATCCTCCTGCCTCMGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCGCTGTATCCGGCCCAAAATGGAGAAATT
TTAAGTCCCAACAACATGCAAGCCCGCATTCAACAAATCTTCAGATCAATTACATGATCACAGGTCATGTAGCCTCTAGAAAATTCCACTGTACGCCAGT
GAGAGAGAGTGAAAAGGCAAATAACGTCCCTGTATTATGATGAAAAGAGTTTTACCTGGTGGGCCCAGACCACACTTTGAGAACCACTGGACTAGACCCT
TGATTGAGGAGTACGGTGTTGAGAGTGGAGTYCTCTGTGATGGTGGATGGACCAGGACACATGGCATAGGAGTCAGGTGGTTCCCTGGGCTACTCCATGG
TGCACAGGATGCTTCGTTACACTGGTGCCCAGGACATAATCACGTACACAAGACACACAGTTACGGGGCAGACTGGGGATATACGGCACACCAGCATGCA
GSGTTCACCAGTAAAGGTGGTATTCCATGATTATTCTAAGGTAGATGGGCTGTGCTTTGTTTCCATTGGCTTAGTCCAGGGATTGGCAAACTATGGCCCG
TGAGCCAAATCCGGCCCACTGCTTGTTTTTGTAAATAAAGTTTTATTGGAACACACTGGCTGCTGTAGTTGTAACAGAAACTGCATGGCCCTCCTTTATG
TTTTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTTCTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGC
AACCTCTGCCTCSCGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCCGAGTAGTTGGGATTAATGGTGCCTGCCACCACACCCGGCTAATTTTTCGTATTT
TTAGTAGAGACCGGTTTTCAYCATGTTGGCCAAGCTGGTCTCGAACTCCTGAACTCAGGTGATCCACCCGCCTCRGCSTCCCAAAGTGCTGGGATTACAG
GCATGAGCCACTGAGCCCGGCCTYCTCCTTTATCTTAATTGAAATAATTCAGAAATGGAAAGTCAAATACTGCATGTTCTCACTTATAAGTAAGAGTTAA
ATAATGTGTACACATGGGCATTATTCCATGTACCATGGAATAACAGACATTGAAGACTTGGGAGGGTGGGAGAGGGGTGAAGGAAGAGAAGTTACTTAAT
GGGCATAGTGTACACCATTTGGGTGACGGACCCACCAGAACCCCAGACTTCACCACTAKGCAGCATATCCAGTGAGAACAGATCTGAGGCTTGCCATCAA
AATTGCACTTGTAAGGCCGGGCRCTGTGGTGGCTCRCGGCTGTAATCCCAGCCCTTTGGGAGGCCGAGGTGGGCAGATCACTTGAGGTCAGGAGTTCGAG
ACCRGCCTGGCCAACATGGTGAAGCTCCATCTCTACTAAAAATACAACAATTAACTGGGTGTAGTGGCGCACACCTGTAATCCCAGCTACTAGGGAGGCT
GAGGCGGGAGAATTGCTTGAGCCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCACATCACTGTACTCTAGCCTGGGTGACAGTGAGACTTTGTCTCAGG
AAAAAAAAACAAAAACAAAAAACAAAAAACTCGTACCCCCTAAATTTATACAAATAACCAAAAAAAAAAAAAAAAAAGGAAATTGTGTGGCCTTTGAAGT
CCAAAATATTAACTATCTGGCCTGTTACAGAAAAAGTTTGCAGACCCCTGGCCTAGCCCGTGAGATGTGGGTTGGCTGTTAAGGTGGAACATTGGAATTA
TCTTACGATGGCCAAACTGTGCGATGCAGAGCTTATGTTGTTCTAAATTAATTAGTGCCACCGGTTCTTCCCTTTCATGGGCTTTCAGGAACAAGCTAAG
TCCCAGGACCAGGGCCGGCAGCTAGGCAGGTGTGAGGAGCATCCTTGGTGCATGTGGTAAGAGGCTGTGGCCAGCAAGAGAGGCAACCCTAGTCGGCTGC
CCCAGCACACCCTGGCCGCTCCCAAGCCCCCAGATCTGTCCTCACATCCGTGATCGGGAAGCTGGAAGAGTCTGATGCGGTTCCTGGAGGCATGTCCCGG
ACACAGCTGTGGGGCCCAGCCAGCCTACAGGTGACCAGCCTAACCCAGCCCCTGTGTCTGCAGAGCCCACACGTGTNTCCCTGAGAACAACGGAGGCGCG
GGGTGCGTGTGCCACCTGCTCATGGATGACGTGGTCAGTGCGGATAACTATACACTGGACCTGTGGGCTGGGCAGCAGCTGCTGTGGAAGGGCTCCTTCA
AGCCCAGCGAGCATGGTGAGCAGGGCGGAGTGYGGCAGGGGTGGCTGGGTGTGTTCCCACAGCTGCCTGGGYTGAGGGTGGGGTGRGCAGGGGAGGAGGT
GGGGTCATAGCAACAGCAGGAGGAAGCCGCCTGTATTTTCCCAAATCTGATGGGATTCCTGCCCCTGCCTGGGCCTCAGTCCTCCCACCTTTGAAACGGA
GCTGGTCGCAGTAGACCACCAAGCCCCCTTCAGCCCAGCTGTTTCCACCCCTGAACTTAAGTGCCCAGGAAGGCGTATTGRGATGAGGTGTGCTTGCTGG
AAGGCATGCCTGCTGCTGATTGAAAACCGAACTGGGAACAKTCCTTCCATTCTDTGTCCACTSGTCAGCTGCTGCGGCTTTGGATGGTCTTGACCGTGGA
AGGCTGACCTTCTTYTGGTACCCGGAGTCCCTGCAGGAATCCCCCTTGAGCTTGCTGGGCTGTGGTGACAGGAGTTTAAAACATGCGTTGTATTCCAGTG
ATGCATGATATGACATGCATCACAGGAATAAAAACCTGAGGTCTCATGGATATGATTGCTTCAAARGAGACCAAGTTTTAAAACAGATGAATCAAAATAA
AGAAAAATACTCAGTAAATCATCATAAAGTACAGAGATGTGGCCAAAGGTGTGAAGGATGCAGCTGTAAAAGCTGAAGTTTGAGGCYGGGTGTGGTGGTT
CATGCCTATAATCCCAGCACTTTGGGAGGCCGAGCCCRGCGGATCACCGGAGGTCAGGAGTTCGAGACCAGCCTGGACAACRTGGTAAAACCCCGTCTCT
ACTAAAAATACAAAAAATTAGTCTGGCATGGTGGCAGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGTAGGAGAATGGCTTGAACCCAGGAGAAGG
AGGTTGCAGTGAGCTTAGATCATGCTACTGCCCTCCAGCCTGGGCGACAGAGYGAGATTACGTCTCAAAAAAATAAAAATAAATAAAAATAAAAAGATTT
TTTAAAAGGCTGAAGTTTGGGTTACTTTGGCTCATACACTTTGCCTTCACTGTAGAAAGGTGGTTAGTAAAGACCAGGCGCGGTGGCTCATGCCTGGAAT
CCCAGCACTTTGGGAGCCCAGCGCAGGCAGATCACTTGAGCCCTGGGCTATTGAGGCTGCAGTGAGCTGGGATTGTGCCACTGCACTCCAGCCTGGGCAA
CAGARTGGGACCCTGTCTCAAAAAAGAAGAAAAAAAGGGTAATTAATAAACACTAAAGTTCTATGTAGAATTTTAGCAACATTATTGTTATTATAATCTT
CTTTGCTATGGCTCTGAATCTGTGTGGTGCTCCAGAAGTATGCTATGGAGGTTTTGTCGACCAAAAATCTGGGTGGTGGCTGTGGTTTGTAGGCCGGGGC
TGGGCTGGGTGATGGGGGAGTCACTGCATAGATCCTCACATAGAGGCCGCTTCTCCCRCAGTGAAACCCAGGGCCCCAGGAAACCTGACAGKTCACACCA
ATGTCTCCGACACTCTGCTGCTGACCTGGAGCAACCCGTATCCCCCTGACAATTACCTGTATAATCATCTCACCTATGCAGTCAACATTTGGAGTGAAAA
YGACCCGGCAGATGTGAGTGGGCATGCTTTGACGTTTTTCTGTGACCTCTGGGGAACAGGGTGGGTGACCAGCAGAGGCCCAGTCCCTGGAGCCAGGAGC
CTGGGAGGCAAGCYCTGGGGCTGGATAGCAAWTCCCAGGAGCTAGAGACCTGGCTTCTCACCTGGCTCTGCMCTAGGCAAGTCCCTTTGCTTCCTGGCCC
CCCRCYCCTCACATCAGAGAAGGGGAGTTATCTCTGCATGCCGCTCCTCCTCTGTAAAGGTAGRGCTGTGGGCCACRTCTGTGTTTCCCAGTTTGGGGGA
CACAAGTGATCGTAGGTGGCACATTGACAGCTCACTTGAATAACCCTATTATTGAAGAGAATAATACTGACTCAAGAGACAGTGACCCGTGTCAGTTCCC
TTTTGAGGCCAACGGGTTAAGGAGRAAGTCCCCATACAGCTGACTCGTTTACTAATTCCTCTTAATGAAGAGAGCAGAGGCCACACCCCAGGCTTAGACT
TTCCCAAGAAAACAAGATCAGTTTGTTGGTTGTTCCCCATGGAAGCTGGTCCTGACATTCCCTTCACAGTAGTGTTGGTGGAGTTTTTGTTGTTGTTTGT
TTTGAGACAGAGTCTCACTCTGTCACCCAGGGTGGAACACAGTGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCTAGCGATTCTCCTGCC
TCAGCCTCCTGAGCAGCYGGGACTACAGGCACCTGCCACCGTGCCCAGCTAATTTTTGTATATTTAGTAGAGATGGGGTTTCACTGCGTTGGCCAGGCTG
GTCTCAAACTCYTGACCTCAGATGATCCACTCGCCTYGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCTGGCCAGTGGAGTTCCTTCT
TAAGTACATGTATTGACATCTTTAAAAAGGGCRAGAGGATTTACAGGAAACTATCAGGTCARTAATGGCAGGGGCCGTCCACAGTGGGTGGCTGAGTCCC
CCTATTTTTCTGCTGGTGTGCRGGGAGGTCATTTCCTGCCACCCATGTTTCCCCACCCTGAATCCACCTTCCTCACATTCCCATTGGAGGGACAMTCTCT
GGACATATGGGACCTGGGGTCCCACAGGGCTGCAWTCCAATGCCTGCTGTGCCACTCGCCAGCTGTGTGATGTTGGGCATATCCCATAACCTCTTTGTGC
CTCAGTTTCCTCATCTGTAACACAGGAGTGACAAGAGCACCCGCCCACAGGGCTATGACAGTACAAGKTGTGTGATACAGATGAGCTCCCCTGTTTGGCC
CACATGTGTCCTAAAAGCCATGTGCCCTTTCTCTTGAGTGCCCCAGGCCACAGAGATCCCCATCTGCCCRCTGTCCCACACACTGGTCTGTCATTTGTTC
CTTGAGGTTTGTGAGGGCCGGCTCTGTGCATCCCAGGGGCCCAGGCTGGGCCTGGTTGGCTCTCAGGGAGCAGGCACCCGCCACCTTAAGCTCCCATGCT
GGTGTCTGTCACTGCTTCCTCTCAATCTGGCCAAGCCAGGGGTGTCGATTTATATCTCTCAGGTCTGGTTTCCCCTTTGGCACTGGGCCAGGTATGGGGA
AAGAGCAGGAATGGGGCAGTTGGCTCACACAGCAGAGGCTCAGAAAGCRGGGGGCATGGGGGGAAGGAGTGCACAGATGCTAGAGAGTGGGGCAAGTTTT
GTTTGGTCAATAAATCTCCTTCTCATGCCCCAGGCCTGTGCAAGACCTACAGAGAGTCCCAAGGATGGGCTGGGGGGAAGAGAAAGGTACCACCTTCAGA
GTCCAAAGATATGTTATTTAATATTTTCATATTTCTAGATCTGCCTTCAGGCATGGCTGGATCCAGCTTCTAGGAACCTGTCCAGCTCTGCGCCCTGCTT
TATTCTGTACTGGCTTCRTTTTTAGGCAGGCTCTTCCCTCATGTAGTGGCAGATATGCCTACTAGTTGCTCCAGGCCTACATCCCAAAGCCACAGTGGGA
AAAGGGTTTTTTTTCTTGACGGTTCTAATAAGAGTCCTAAGGCTGCTGCTCAGTGGCCTGGCTTCGATGCTGTGCCAGCCTCTGAACCAATCACTGGCTG
TGGGTGGAGAGAGGRTGCTGGTGGAGGGCCCTGCTTGTCCAGGGAGGAGTCACATACCYGCCTCTAGGGCTGCAGGTGGGCTCAGCTCCATCCAAACCAG
ATGAACTGAAAATAAGGCAGGAGTGGCTTCCCCAGGGGAAACTGGGGAAGAGGAAGCAGGACTGTGCTGGCTAAAATGCCAGCCAGGTTTAAGACGTGGC
ACCAGATGCCAGTCATGGGATTGGATTGGTCAGCATGCCTGGGCTATGGCTTAGGGGTATGTTGGTGCTCAGGGATGCCACAGGCCTCCAGATACCAGGT
CTGAGGCAGAAGAATGAAGTCCAGCTTCTCTTGTGGGTGGAACAGTGGCAACTGAGATACCCCATCTCTCCCTTCCCAAGAACAGAGCTGAACATAAAGA
ATTTAGTGATTGGCCAGAGCTTGGCCACATGCTCCCCTCTGATGAATGATAGGCCAGGTGATGGGATTGGCACAATTGGCTTAGACTAATGAGGGTTGGC
CCTGGAGTTGCAGGCAGTGGAGTTCTGTCCTAAGCAGTGGGCACCTAAACCCGATGGCATAAAAGCTGGGCGGGTGTCCACCTGCATCTGCCACAGCACT
RYAGGCACCAACTGTGGCTCATACTGAGTGGGATAAATTCCAGAAAGAAACATTAGGAACTTACTATAGAATTTTGGGGCTAGAGCTACTCATTCATTCC
CCTAGATAATTTCTAGGCAAGGTTCCATAGTGGAGGGGGAGTTTTGGCTTGGGCATTGAAGGATGCATAGGAGTTTTCTAGATGGGGAAAGAAGGGAACG
GTAGACCAGGCAGAGGGAACTGCATGATAWAAGGTTTATGGGTGTGAAAATTCATGGAATGTTTGAGGATTATGGGGTTGGGGGATGTGGGAATATGTGT
AGCGAWAAAGCACCAAACAAAGCCAAAAGTTTAGTTAGAGCCCTGAATGCCTGCCTCATAATGGTTTCCATATTTTATATGCCTACTATGTGCCAGGCAC
ATTGCTCAGGGTCACACAGCTGGAARTGGCAGGGCTGAGTTTTTGTTGTTGTTGTTGTTGTTGAGACAGAGTCTCACTCTATCACCCAGGCTGGAATGCA
GGGGCGTGATCATGGCTCACTGCATCCTTGACTTCCTGGGMTCAGGTGATTCTCCCACCTCTGCCTCCCAGGTAGCTGGGACTACAGGCACAGGCCACCA
CGCCAGGCTAATTTTTTGTATTTTTAGTAGCGACAGGGTCTCGCCATGTTGTCCGGGCTGGTCTGGATCTCCTGGCTTCAAGTGATMCCCCTGGCTCAGC
CTCCCAAGGTRCTGGGATTACAGGCTTGAGCCACCRCATCCAGCCCAGATCTGAGATTTGCACCCAGTATTTGAACTCCCAAGCCTGTGCTCTTTTTCCT
CCCATGGACATTTCTCTCAGAGATGGTCTCCCAAACACCTGTCCTTCTTGTTAAAAAACAGACAAACCGCAAGTAGTTCTTTGGAAGCTCAGATTTCTCT
TTTGTTTCTTAGTAAAACATTTCCCAGTTCCCAGCTCCCTTCCAGGGTGTRAGATTTCTTCGGTAACTTACATCTAGCTGTTGCTTCTTGTTTGCTCATG
TTTAGAAAGAAAGACAAAAGAGAGTGAGAATTTTCTCTCCCTTCCCCAGTCTCCCCACAACTCACACCCCACCCTCAGCTCCCTCTGTAATAGGAAAATC
TCTGAACTCTCTGTAGTTGCTCCAGCAATCTTTTGGAACTTTGCTTCTTTCTTGTGAAAAAACCTCYCCTTGGCTCACTTTGCACCAGGTTTCCCCAAAT
GTGCTTCCAACCACAAGCAGAAATGGAGCTGCCAGTAACCAGGAAGAAACTGCCGGGGGCTGAGGAAGAGGAGAGGGAGGTGCATAGCCCTGGATCTCGC
AGGGAGAGGGGTGACAGGATGAGAACTCAGGTTGCTCACTTGCCATCAGGGTCAGTCATGAATATAGCGTTCATGTATCACTTTTTAAAGCTTTTTTGGA
GGGTAAAAGTAATAGTTACACAAAATAAAAATACAAATGGTACAAAAGGACTTAGAATGGAAACATGTTTCTCTCCCGACTCCAGCCTCCTGTTTTTCTT
CCCAGAGACTGACCACTGCTGTCTGTCTCTTGCCAGAAGGGAAAGGGAGGCAAGGTTAGGGCAGGCAGAGGGCATGTGCATCCTTTAGAGAGAGCTTATG
TCTATACAAGCAAATGTGTGTGTTCAGTCATCGCTGTCTTAGTTTTCTATTGCTGCATAATAATGGTACTACCAGCTTCACAGCTTTAAACAACACCCAT
TTATTATCTCATAGTTTCTGTGGTTGGGAGTCTGGACATAGCTTAGCCAGGTTCTCTGCTTTAGAGTCTCGTGAGGCTATAATCAAGGTGTGGGATGGGG
CTGCAGTTTCATCTGAGGCTCARTTGGGGAAGGGTCACTTCTAAGCTCATACAATATTGGTGACATTCAGTCCCTGGCAGGCTGTTGAACTGAGAGCCTC
AGTTTCSTGCTGGCTGTTGGTTGTAGTTAACCCTGAATTCCTTCCCATGTGCCCTTTGCAAAGCCATCAAGGCAGAGAGACTTGCCTAGCAAGTAGGATA
TTACAGTCTTCTGTAATATAATCACATCCATGAAATCCTCTATATATCCCATCACCTTTACCATATTCTGTGGGTTAGAAACAAGTAGCAGGTCCTGCCC
ACACTCGAGAAGACCAGATGACACAAAGATGTGATTCAAAGTGGGGATCATCGGGGCCATCTTAGGTTTGTCTGCAGTGATCACTGTGCCATCTCTCTCT
CTCTCTTTTTTTTTTTTTTTTTTYGAGACGAAGTCGTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTTACCACAATCTCTGCCTCCC
AGGTTCAAATGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGAG
TTTCACCATGTTRGCCAGRCTGGTCTTGAACTCCTCACCTCAAGTGATCCACCCACTTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATG
CCCAGCCCCATCTCTCTTTAAAAAACAAACAAACAAACAAAAAACATAAAAAGAAGCAGAGAACACATACACATCTGCATCTTCCCTTGTTTACTTAACA
AYAGATCTTGGAAGTCACTTCTCAGTAGAGGCTAGGYTGGGCAGAGCATTGGATTCTAGGCCAGTGAGTTTGGACTTGACCATGGAGACACTAGGAAGCC
CATGAAGGACAGAGAGAGATGCCTCGACCCTGCCAGTCCTTTAGAAAGATCACCCAGTGCTTTTTRTATACCAAACCCTATTTGAAATACTTACGTATAT
TAACCCATTTCCTTATCACCACAACCCTGCGGGAAGGGAGATAGGCACTTTTATTATCTTCATTTTGCAGATGASGACATTGAGGTCCAGAGAGGTTATG
TCACTTACTTAAGGTCACACAGCCAGGAAGTGGTAGTAGGGACTCTTACCCTTGTTTTACAGATGAGATTGAATTATCTCACRAAAACTCAGAAAGGTTA
AACAACTTGCCTAAGTAACATACAGCTAATTAGTCGAGGAGCCTGACGCATGTTGCTSTAGCCTGGTCACAGTTACAGAGGTGGCAAGCAATGGCCTGAA
CAGGAYGAACAACCAAATACCCAGGCTGGTGGCTCTTAAACATGGTGGGGTCAGCTAACGACAGCAACCAGGGTGGGCACTGGTGCCCCTCGCCCCCGGC
TGGTGCCCTAACATCTCCCTTTTCTCTACCAGTTCAGAATCTATAACGTGACCTACCTAGAACCCTCCCTCCGCATCGCAGCCAGCACCCTGAAGTCTGG
GATTTCCTACAGGGCACGGGTGAGGGCCTGGGCTCAGTGCTATAACACCACCTGGAGTGAGTGGAGCCCCAGCACCAAGTGGCACAACTGTGAGTATCAA
GAGGCCTAAGCAATGGTAATCTCCACTCTCCATTCTTCCCCTGTGGCCAGACACTTCCCCTGGCTGAGTCTCTGGGCTTTTATATCATAGGATGCCTCTA
ATGGCAATCCTGCCATTAGATACACCTGCYGTGGTGTATCTGCCAGGTAGGCAGGCTAGGCTGCAGTAACAMACAAGCCCACAATTTCCATGGCTTAACA
CTATRGGAATATATTTCTTGCTCAYGTAACAAGCTAACGTGAATGTTGCTGGTTTGTAGGTGGTTTCCCTCCCTGTAGAAATCTGGGGAGTGAGGTTCTT
TCCATCTTGTGGTGCCRTCATTCTCCMGGACAAAGATTCTTACCTACTTTTGTGTCCTGGTTTCCTTTGGCAGCCTGGTGAAGCCTATGGACCTCATTTC
AGAATATTTWTAAATACATAAAATCCCAGCCTGGGCAATATAGWGAAACCCCCATCTGTACAAAAATTAGCCAGGCATGGTGGCATGCACCTGTAGTCCC
AGGTACTGGGAAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGRGTTTGAGGCTGCAGTGAGCCGTGATCGTACCACTTTACTCCCACCTGGGTGACAGA
GCAAGAGCCCATCTCTAAAAATAAATAAATACAATGAAATAAAATAAAATAAATAGAACTACAGAGGAAACTAATTGTATTGAAATGCAGTTATAAAACA
TTTAAACACATTTTTAATCTAGAGATATATGTGCTTCTTTATTAAGATCTATAAATAATAAGTTCTAGGGGTAGCTCRCATAAATACTGTAATTTCAAAG
TAGATAAGCATAAATAATACTTTATGATACTGAAATTGTGATGTGATATGAGAATAGCTGTGAGTTTTGTTTTGCTGGGGACAGGATCASTGATGCTGTC
ATTACTGGGGTCTCTTCCCTCCATTCTTTTTTTAAAATTGTATTTTATTTTATTTTTAAAATTTTAAAATAAATAGAGACAGGGTATCACTATGTTGCCC
AGGCTGCTTTTGACCTCCTGGGCTCCAGTGATCTTCCCATCTTGGCTTYCCAAAGTGCTGGGATTACAAGTGGGAGCCAGTGTTCCTGGYCCCTTCCTCC
ATTCTTAATGGAAGGAGATGCTAGGTGTGAGAGGTTAGGGAAAGTAAAGATGTAATTTCTTTCCCATCCAAGTTCTCAGACCCCTGAATTCTACCTGCAG
CCATGTTGGTCCATCAACCCCAAGTGAAGAATCCCTGCTCTAGGGCCCCACCATTGTCTGTATCCAGCCAGCAGAAGAGGCGTGATTATGGAGATCACAT
CTGCTTCTTGAAAGCAGACAGCCCGGAAGTGGGCCGCATCACTTCCTCTCAAATTCTATTGGTGAAAATGGTCACATGACTACACATAGCCACAAAGGAG
GCTGGGAACTTTCTCACTTGGAACSTACATCCCAGAAACRACTCTTTTCAGTGAGGTATCCCACAGGTCTTTCGCAGTAGAAATATTGATTATCTCACAT
AAAATGAAGTCTTACAAATGGACCTACTGGGTTTTGTACAGCAGCCAAGTGATATCTCTTCCCTTCTGCTGTCTTCCCTTCTGCCRTCCTTCACATGGTG
GCATTGTATCCTTAGACTTGCCACCCATGCCCTCAGGTTGGCCRTTGCACAYTRTCTTACATAAAGCAGGAAGGAAAGGAAAGGCTGCTACGAGAGAGTG
TACCTTGTGCATCTCTTTTTTAATCAGGAAGCAAACATCTTTCTAGAAGCTTCCCTAGCAAAATTCCCCTTACATCTCATTGGCCAAGACTGTTACATRT
TACATGGTTACTGTTATTACTTGCTCATTGCAAGGAAGACTGGGAACTCAAATGCCTGGAAAAAGGAACAGGATAATCGTGATTGGCTCAAGCCTTAGGG
TGGGCATGGCTCCCTGACAAGGGAGAGAGGAAAAAGCTGTTGAGTGAAGAAGACTGCTTCAGTTTCCCCATCTGTATAATGGGAGGAGTAAGGGCTGTCG
TRAAAACTCAATGAAAGAAGATTCTTCAACGTGGTAGGTGCAGTGGCAGCTGGCAGTACCCTGACCCTGCCACCGCACAGCCCTCTCAGCATTGCTCRTC
CTGCACTGTGGATATCARTTGAGCCACGTGTCTCCTGCCCTGGGCTGTGAGCTCCATAGGCAGGGTCTCCATGGCTGTATCTCCAGAACCCAGCACAGAA
CCAGGTGCTTGGGAAAGTTTTGAATTGATTCTCATCTGCCATTGGCATGGGGAAGGGAACTAGCTTGYATGAAACAGATAACAATGTATGGGACCCTCAT
TCATTATTTCAGCAAATATTTGCTGAGTTCCTCCTACATGGCTAGCCCTGTGCTAGACACTGGGGAATCRGCGATGAACAAAGCAGATAGAAATCCCCAC
TCTTGTGGAGCTGACATTCTGGAGGGAGAGACAAAAAGCAAACATATAAAGAAAGAAAGAAATCACATGGRTCTGGATGACAGTGAGTGCTGGGAAGAAA
ATAAAAGCAGAGGAAGGGGATGGAGCGATGGGCRGGGGGCAACGGTAGGGAGGGTGTCGGGGAAAACTTTTTGGAGAATGTGACGATGAAAGTGAACAAG
GAGAAGTCAACCGTGTTGAGATGATGGCAGCTAATGATGTGGACAGGCCACTCTGTTCTGAGTGCATTATCTATTGATTCATCATGTCATCCTCGCAACA
GCCCTGCACGATCAATTCTGTCATTAACCCCATAGTACAGATGAGGATGCGGAGGCACAGAGAAGATAAGGGACTTGTCCTGTGTCACACAGCAAGGAGC
CATCCGGCTCCTAAGTTGGTGCATTTGACTTCTGTGCTTCYGGAAAGAAAGAGCAGCAAGTTTAAGATCTGGAGGTGGCACTGAGCTTTGGAGGAGCAGG
GGGCAATGAGGTGGCCGGTGTGACGAGGACTCAATGTGCAAGAGGGAGAGTGGYGGGGAGATGAGGTGGAGGGGTGGTCGGCGGTCAGATCGTGGAGGGT
CTCGGACGAGGGTCCTGACCCTGGGTCTCCAGTCCTGGGAAGTGGAGCCCAGGCTGTACCATGGCKGACCTCAGCTCATGGCTTCCCCTCCCACTTCCAG
CCTACAGGGAGCCCTTCGAGCAGCACCTCCTGCTGGGCGTCAGCGTTTCCTGCATTGTCATCCTGGCCGTCTGCCTGTTGTGCTATGTCAGCATCACSAA
GTGAGTCCTGGGCCCAGTGCTGCCGAGCAGTCCCTCTGGAGTGCAGGGTGGCAGGGACTTGCCCCTCTAGTCTGCCCCTTTGCAGTCCTCTCAGTCAATA
ATACGYATTTACTGAGCAGCTACTACACACCTTGAGAGTAGAGCTGAGAACATATCGACAAGGACCCCACTTTTTTCTTTTTTTYTTTTTTTTTTTTTTT
TGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTATAGTGGCACAATCTTGCCTAACAGTAACCTCCGCCTCCCGGGTTCAAGCAATTCTTCTGCYTC
AGCCTCCAGAGTAGCTGGGATTACAGGCGCATGCCACTATGCCYRGCTAATTTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGG
TCTCGAACTCCTGACCTCATGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCCAACCAGGACTCCACATTTCTAA
AACCGSCATCCTACTGGGGAGACTGAAAATACATATCAATCACAAACAGGTGGTTTTCCATAGTGACCCACTCTCTGAATGCACTAGACCAGGGTGSAGG
CCAGAGATSTTCTGGGGTGCTTTTTGCAAGGGGSACCAGGATAAGGCTCTCCAAGGAGGGAAAATTTGAGGGGGGCCYTGACTGGGGAGAATGAGCTGGC
CAGGGATAAGCAAGATGGAGTCATCCCACATCCCCTTACAACRCTGGGTGCCTGGGCAACTGGGGGCATYTGGGGGCATGTGGTAGGAGCCAGAGGAATT
TGCGACGATTGCCCTGATGGAGTCAGGAGACCTGGGTTTGAATCCTGGCCTTGGAGCTTGGTAGCTGGYGGCCGACAAGTTGCTGAAACCCCTGAGCCTG
GGGTTCCTGCTTTGCAGAGTGACAGTGATGGTGAGAACATATTTCATCAGCCAGAAGAGGCCAAATCACAGTAAAGGCTGAGGGAGGAGATGAGTGGCGA
GTGGCTGGGAGGTGGTGGAAGGAGCCTCGTTTCCAGAGAGCTCTTGCCAGCCCTTGGAATCATGGTGTCTCAGAGCCTCAGTCCTCCCATCTCTGAAATG
GGACTAGCAAGCTCAACCTCACTAAGTCAGGATTAGAGGTGGCTAAGGATTATTAACATGATTGATGAAAGTGCCCACTCTTGGCCCAGCACACACTAGG
TAGGCAGGGAATGCAAATTCCCCTCCATATCTTGTCACTGATGCCTCCGAGCAACCTTGGACTGATCGCCTTGCTCTGAGCCTCAGTTTCCCCATCACCT
GTACCTCTTCCCACTCCCCATCACTATATCCCAGCATGCCAGCCTCTTTGCTGTTCTTTGTCTTTGGTTTCTTGTTTTGTTCTGTTTTTTAGACAGGGTC
TCACTCTGTTAGCCAGGCTGAAGTGCAGTGGCGCGGTTACGGCTCACTGCAGCCTCCAATTCCTGGGCTAAAGAGATCCTCCCATTTCAACTTCCAGAGC
AGCTGGGACAACAGGYGCTTGCCACCACACCTGGCTAATTTTCTTATTTTAATTTAATTTWATTTTATTTTTTGGGACAGAGTGGAGTCTCAAAAACCAA
GCTRGAGTGCAGTGGTGCGATCTCGACTCACTGCAATCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCCGACTAGCTGGGATTACAGGC
GTGTGCCACGACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTTGAACTCCTGACCTCAAGTGATCCAC
CCACCTCGTTCTCCCAAGGTGCTGGGTACAGGCATGAGCCACTGTGCCTGGCCAATTTTCTTACATTTTGTAGAGACTGGCTGTCACTTATGTAGCCCAG
GCTGATCTTGAACTTCTACCCCTTTATCTTTATTCATGGCACTTATTACCATGAATGAATGACCTCATATAAGCATTTCTTTCGTTTTTTTTTTTTTTTC
TTTGAGATGGAGTCTCATGTTGTCCCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCGCCTTCCGGGTTCAAGCGATTCTCCTGCC
TCAGCCTCCTGAGTAGCTGGGATTGCAGGCGCCTGCCACCATGCCTGGCTAAGTTTTGCATTTTTAGTAGAGACGGTGTTTCACCATATTGGCCAGGCTG
GTCTCGAACTTCTGACCTCAGGTGATACACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACARGCRTGAGCCRCCATGCCTGGCCTCATATAAGCATTTC
TGTCTCCATTTATCATCCATCTTTCCCTCTTGAAGGTCAGTTTCACCAAGGCAGGCATCTTTGTCTCGTTCACTGTTGTRGCCTCAGGGCCAGGCACAGT
GAGTCAAACATAGAAGGTGCTCAATAAATATGTGTTTATTTATTGAAACCATGGGCAGAGGCTAATTCAGAAGCGGTCTGAGGACCTTACCTCCCAGTGA
TGATGCACCRTGGCCCCAGGCAGGCCAGGAAGAGAGAAGGGTTGTGTTTCTCCGTAGGTCCCCCAGCTTCCCAGGCCATCCCAGGCCATTCCCTGGTCAT
TTGCCCTCAGCTGCTCTGAAAAAGGGATTGTTGAGGGGAACCTAGAATCCTCTCTCTGCAGTTTGAGTCTTTCCTAATCCCCTGGGGTCTCATTCCCACT
GAGGACATAGGTGGCCTCCTCAGGAACTCTGTGCTGGGTAACAGAATGCGGGAGTGTGAACCTGGCTCTGCCACCTACCAGCTGTCACTCCACCTCCTTG
GGCCTCACTCTCCTCATCTGTAGAATAGGGTTAGCAATAGAATCCATGTCACCAGGTTAGAATGATGAGTCAGTGGTTTGACCTCCAGAAACTAATCAGC
CTGATCTCTGATGCCAAATAAGTATTGGTGATAACGACCACTTTTATGGGAGGAGCGTTCACCTGTCAATAATTCAGAGATCAACACCTTTTCCTTTTGT
TTTTCAGGATTAAGAAAGAATGGTGGGATCAGATTCCCAACCCAGCCCGCAGCCGCCTSGTGGCTATAATAATCCAGGATGCTCAGGTAGGAGTAGGCGT
GGATGAGGACATGTGGGACTGTGTACATGAAGAAGTGTGGTTCAGAACACCTGGGCTGTTAAGGACCTTCACTGGCTTCTGGAATGGCAAATAGACAGTC
AGGAGGGTTGCAGGGGAGACAGAGRCAGAAGCCGAATGAGGTCATTAGCAGACCAGAGGCTTTCCCGCCCTTCCCCTTGGCAATCCCAGCCTGGGGTGGG
CTTCTCTGGGGTTGGTTTCCTGTTTTTTTCCCTCCCCTTGGGAGAATGACCCTTGGGTCATCATCACTGTGTCATTCCCTGGGGAGGTGCCAGTACCAGG
GCTAGAGGCCAGAAGGAGTGGAGGAAGGAGAGGGTGACAGGCTTTCTGTGTCTTCTTCTTAAGCATAGGAAACTGCCCCCGAAGCACTAGCAAATCCCTT
CCGGGTTCTCATTGGCCTGAAATGTATCCCACCCCTAAGCCAGGGGTGGAGTCAGCTTCCCCAAGGCGATGGTCCTGTGGGTGAGTGGGTGGGGTTTGCC
TGAGCAAGATGAGAGTTCTCTAGGTAGGAGAAAGGGGGATTATAGGTCCTGTCTAGAAGAGAAGGTCTGAGGGTCCTTGCTTTTCCAGGGACTCTGGAAT
CTAGTGGTGTTGGCTTTGAATCCTGACTCTGCCACTCACTGGCAGTGTGGACTTGAGCAAGTTGCTTAATTCTCTGAGCCTCAGTTTCCTCTTGTGGGTT
ATAACAGTGTTTACCTGGTAGGACAGATATTGGAATTTATTGAGACAATACATATAAAGTGCATATTCCAGCCTCTTGCAAATACCAAGTGCCATTTATG
TATCAGTTAGTGTTTGCTGTGTAACAAAYGACCCCGAAATGTAGAGGGTTACAACAACTTTATTTAGCTTATGCTTCTGCAGGCTGGCATTTGGGGCTGG
GCTCAGCAGTGAGGGTGGYGGGGGAGGCTGGGCTGGGCTGGGCTGGGCAGATCTGAATTGAGCTGACCCGTCCCCGTAGCCTCCCTCCGTGTCTGACAGT
TGGCTTTTTTTTTTTTTTTCTTTTTCTGAGACGGAGTTTTGCTCTTATTGCCCAGGAGTGCAATGGCRTGATCTTGGCTCACTGCAACCTSTGCYTCCTG
GGTTCAAGCAATTTTCTTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCACGCCAGGCTAATTTTGTATTTTTAATAGAGATGGGGTT
TCTTCATGTYGGTCAGGCTGGTCTGGAACTCCTAATATCAGRTGATCCACCCAYYTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACC
CAGCCTAGTTGGCTGACTTTTACCTGGGACAGTGCAGGTGCCTGAGCCATGTGCCTCTCACTCTCCAGCAGGCCGGCCCAGGCTTGTTTACAGAGTGGCT
CAGTTTTCAAGGGTGGGAAGTCCCAAGGCTTCTTGAGGCCTAGGCGCAGCACTGGCATGATATCACTTCCATCACATTCTATGGGCCCAAGCAAGTCCCA
GGGCCAGTGTAGATTCAAGGGATGGGAGGAGATTCAGAGCACTCCTCTGTGGCCACTTTTGCCATCGACCACAGTCCCTGTAAATATTAGGACAATGTAA
TTAATTCCCAGGAATCTGARGCTCAGAAAGCGTAAGTGACCTGTTGGACTTCTGATCTGTGTGATGTCGAGGCTTGTACCCCTTCCTGAGCATTGCCGTA
CTCCAGGCCGGGCTGCAAGGCCACTCTGCTCTTTCATTGGCTGTCTCTGTATTTTAGGGGTCACAGTGGGAGAAGCGGTCCCGAGGCCAGGAACCAGCCA
AGTGCCCGTATGTATCTGAACTTAGGTCACAGCCTGCATGCATTGGGAAGGTGATAGAATTGGAGAGGCAAGCCCCTAGCTCCATGTCTGCCTTCTCTTC
CCTGCATTCGGTAATTGCCCTGTGACATTAGCCTTCAAGGGACGGCAGGAGGAGGGGTGTTCTGGAAACGTGGACTGCTGGCCAAGMCCCCTGAGTTTCA
CTGGTGTGTCAGGTACATGGTGATACCCCTTGGGAGTGCTGTTATAGTTAACAACCAGAGCAGCCKTGCCTGTTGTTAAAATCTTGACCTAATTGTATAC
TTGTCGGCAAATAGCCACTATCCTGAACACTCCCCTCCTTTTTTTTAATATACAGGATCTCACTCTGTGGCCCAGGCTGGTGTGCAGTGGTGCRATCATA
GCTCACTGCACCTTCAAACTCCTGAGCTCAAGTGATCCTCCCATCTTAGCCTCCCGAGTAGCTGATACTACAGATGTGCATTACCACGCCTGGCTATTTT
AAAAGGTTTTTGCCTGTAATDCCAGCTACTCAGGAGGCTGAGGCATGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCGCAGATTGTGCCAC
TGCACTCCAGCCTGGGCGACAGAGTGAGACTCTTGTCTCAAAAAAAATAATACCAAAAAAAGTTTTTGTAAAGACAAGCTCTCGCTGTGTTGCCCCGCCA
CTGTGGCCTCCTTAGCTTCTTCCCTGGGGCCTGCTGGACCTTTCCATACTCCAGAAACTAAAGGGGGTCCAGGACCCTGCTTCAACCCTAGGATCCCGCA
TCTTTTTTTTTTTTTTTTTTTTTTGGACGCAGGGTCTTGCTGTGTCCCTCAGGCTGGAGTGCAGTGATTCACTGCAGCCTCAAACTCGTGGGCTCAAGTG
ATTCTCTAGCCTCAGCCTTCTAAGTAGCTGGGACTACAGTCATACACCAACATGCCCAGCTAATTTTCCTTTTTTTTAATTCTTGTAGAGATGTTTGAGA
CRGCTTGGGCTCTGTTGCCCAGGCTGTTCTCAAACTCCTGAGCTCAAGCRATCCTCCCTCCTCAGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCAC
CGCACCCGGCTTCCATATCCTTTCTAATTGGTCATGRCTTGGGATAATGGTGTTGCTTTTAATTATCATCATCCATAAAGACTTTTTCTTACTCAACAGA
YCTGAGCTTGTATTTGGTGCCCAGGACATGTGCTGGGTTCCCGAAATCCCAAAGACACAGACCCTACCCTCAGGGATTTCTCATTCTAGCAACATAGACT
GATCAATTACTGATTATAACGTTAGAAGGCATGTCTGMAGTAGACAGCCATCAGGACATGGTGATTTCAGGCTGGGCTTTGAAGAATGAATAGGAGTTTT
TCAAGTGTCGAAACTGAACCCTGACCAAMCTTTGCTTTTGCAGACACTGGAAGAATTGTCTTACCAAGCTCTTGCCCTGTTTYCTGGAGCACAACATGAA
AAGGGATGAAGATCCTCACAAGGCTGCCAAAGAGATGCCTTTCCAGGGCTCTGGAAAATCAGCATGGTGCCCAGTGGAGATCAGCAAGACAGTCCTCTGG
CCAGAGAGCATCAGCGTGGTGCGATGTGTGGAGTTGTTTGAGGCCCCGGTGGAGTGTGAGGAGGAGGAGGAGGTAGAGGAAGAAAAAGGGAGCTTCTGTG
CATCGCCTGAGAGCAGCAGGGATGACTTCCAGGAGGGAAGGGMGGGCATTGTGGCCCGGCTAACAGAGAGCCTGTTCCTGGACCTKCTYGGAGAGGAGAA
TGGGGGCTTTTGCCAGCAGGACATGGGGGAGTCAYGYCTYCTYCCACCTTYGGGAAGTACGAGTGCTCACATGCCCTGGGATGAGTTCCCAAGTGCAGGG
CCCAAGGAGGCACCTCCCTGGGGCAAGGAGCAGCCTCTCCACCTGGAGCCAAGTCCTCCTGCCAGCCCGACCCAGAGTCCAGACAACCTGACTTGCACAG
AGACGCCCCTCGTCATCGCAGGCAACCCTGCTTACCGCAGCTTCAGCAACYCCCTGAGCCAGTCACCGTGTCCCAGAGAGCTGGGTCCAGACCCACTGCT
GGCCAGACACCTGGAGGAAGTAGAACCCGAGATGCCCTGTGTCCCCCAGCTCTCTGAGCCAACCACTGTGCCCCAACCTGAGCCAGAAACCTGGGAGCAG
ATCCTCCGCCGAAATGTCCTCCAGCATGGGGCAGCTGCAGCCCCCGTCTCGGCCCCCACCAGTGGCTATCRGGAGTTTRTACATGCGGTGGAGCAGGGTG
GCACCCAGGCCAGTGCGGTGGTGGGCTTGGGTCCCCCAGGAGAGGCTGGTTACAAGGCCTTCTCAAGCCTGCTTGCCAGCAGTGCTGTGTCCCCAGAGAA
ATGTGGGTTTGGGGCTAGCAGTGGGGAAGAGGGGTATAAGCCTTTCCAAGACCTCATTCCTGGCTGCCCTGGGGACCCTGCCCCAGTCCCTGTCCCCTTG
TTCACCTTTGGACTGGACAGGGAGCCACCTCGCAGTCCGCAGAGCTCACATCTCCCAAGCAGCTCCYCAGAGCACCTGGGTCTGGAGCCGGGGGAAAAGG
TAGAGGACATGCCAAAGCCCCCACTTCCCCAGGAGCAGGCCACAGACCCCCTTGTGGACAGCCTGGGCAGTGGCATTGTCTACTCAGCCCTTACCTGCCA
CCTGTGCGGCCACCTGAAACAGTGTCATGGCCAGGAGGATGGTGGCCAGACCCCTGTCATGGCCAGTCCTTGCTGTGGCTGCTGCTGTGGAGACAGGKCC
TCGCCCCCTACAACCCCCCTGAGGGCCCCAGACCCCTCTCCAGGTGGGGTTCCACTGGAGGCCAGTCTGTGTCCGGCCTCCCTGGCACCCTCGGGCATCY
CAGAGAAGAGTAAATCCTCATCATCCTTCCATCCTGCCCCYGGCAATGCTCAGAGCTCAAGCCAGACCCCCAAAATCGTGAACTTTGTCTCCGTGGGACC
CACATACATGAGGGTCTCTTAGGTGCAYGYCCTCTTGTTGCTGAGTCTGCAGATGAGGACTAGGGCTTATYCATGCCTGGGAAATGCCACCTCCTGGAAG
GCAGCCAGGSTGGCAGATTTCCAAAAGACTTGAAGAACCATGGTATGAAGGTGATTGGCCCCACTGACGTTGGCCTAACACTGGGCTGCAGAGACTGGAC
CCCGCCCAGCATTGGGCTGGGCTCGCCACATCCCATGAGAGTAGAGGGCACTGGGTCGCCGTGCCCCACGGCAGGCCCCTGCAGGAAAACTGARGCCCTT
GGGMACCTCGACTTGTGAACGAGTTGTTGGCTGCTCCCTCCACAGCTTCTGCAGCAGACTGTCCCTGTTGTAACTGCCCAAGGCATGTTTTGCCCACCAG
ATCATGGCCCACRTGGAGGCCCACCTGCCTCTGTCTCACTGAACTAGAAGCCGAGCCTAGAAACTAACACAGCCATCAAGGGAATGACTTGGGCGGCCTT
GGGAAATCGATGAGAAATTGAACTTCAGGGAGGGTGGTCATTGCCTAGAGGTGCTCATTCATTTAACAGAGCTTCCTTAGGTTGATGCTGGAGGCAGAAT
CCCGGCTGTCAAGGGGTGTTCAGTTAAGGGGAGCAACAGAGGACATGAAAAATTGCTRTGACTAAAGCAGGGACAATTTGCTGCCAAACACCCATGCCCA
GCTGTATGGCTGGGGGCTCCTCGTATGCATGSAACCCCCAGAATAAATATGCTCAGCCAYCCTGTGGGCCGGGCAATCCAGACAGCAGGCATAAGGCACC
AGTTACCCTGCATGTTGGCCCAGACCTCAGGTGCTAGGGAAGGCGGGAACCTTGGGTTGAGTAATGCTCGTCTGTGTGTTTTAGTTTCATCACCTGTTAT
CTGTGTTTGCTGAGGAGAGTGGAACAGAAGGGGTGGAGTTTTGTATAAATAAAGTTTCTTTGTCTCTTTATTTTTTATGTATTAACCAAACATACCTCCA
GACACTGCTGTGAGTGCTGTGTCTCTGTTAACTCCTGGAATTCACCCATCCAGAGGAACCAGGATGCAAGAGGTTAAGAAACTTGCCGTCTGGGTTTGGG
TTCCCCATACAAGGATTCAAATAGTTGATTTAGGAAGTAATCCCGGGAAACCCTGCTAAGGTAGTGGGGAACTGAGGCAGGGAAGGACACAAACCAAGAA
AGTGTTACCTGAAAGGGGTCCAGATGCAGACCCCAAAAGAGGGTTCTTGAATCTCATGCAAGAAAGAATTCAGAGCGAGTCCATAGAGTCAGTGAAAGCA
AGTTAATGAGGAAAGTAAAGGAATAAAAGAATGGCTACTCCGTAGACAGAGCAGCCCTGAGGGTTGCTGGCTGCCTATTTTTATGGTTATTGATTAATTA
TATTCCAAACAAGGGGTGGATTATTATGCCTCCCTTTTAGACCATATAGGGTAACTTCCTGATGTTGCCATGGCATTTGTAAACTGTCATGGCGCTGTTG
GGAGTGTAGCAGTGAGGACAACCAGAGGTCACTCTTGTTGCCATCTTGGTTTTGGTGGGTTAGAGCCATCTTCTTTACTGCAACCTGTTTTATCAGCAAG
GTCTTTATGACTTGTATCGGTGACGACCTCCTGTCTCATTCTATGACTAAGAATGCCCTAACCTCCCAGGAATGCAGCCCAGTAAGTCTCAGCCTCATTT
TACCCAGCCCCTCTTCAAAGCTCCAGTTTAAATAAACCTCTGACAAAAGGGTGAGTTATTCAACAGATTACCAGCATGAGTAACTGATGCTTACCTGCCG
GGGATCTCTGGAAGACCATGCATGGCACATGCCCAGTTATGCCTGCAAAGGAGAGGGAGCTGGGGTATTTGTCCACCAGCTCCCATCTGTCATTGGCTGA
GAGCTGCTTCCAGGAGCATTAATTCTCCAGCACTTCCAGCTACTCCAGGAAAAAAAAAATTCTTCAACTGAGAGTTGGAGGTGTTGAGAGACTCTGGCAC
ACCAAGAAGACAGGAACAGGACACCAACAGTGGCTGATGATACACTGCCAAGGTCACACAGCTAGTTAGCAACAGATCTATAGTGGAATCCAGACAGTGT
CTCCATCACCCAGGCTCTCTGTAGTGATCTGCGCTTCACATCCGAGGCAGGCAGAGGGATGGTGTGGGCCTTAGATGGGAAGGCTGGGAACCTGAAGCTC
CTATGTCTGTATCACTTTTGCTTCTCTGAGTAGCTGCCCTGATTTCACACTTGAGGGGCTTGGCCATTTTAGATTCCTTCCTGCTCTAGGAGCCTACATA
CTACACTGGAAATGATGGGGAGCTCTCTACCTCACATGCAGCCTGATGTTTGTTAGAAACACCTCCTTGCGCCAGGCATGATGGCTCATGGCTGTAATCC
CAGCAATTTGGGAGGCTGAGGCGGGTGTATCACTTGAGGTGAGGAGTTCAAGACCAGCCTGGCCAATATGGTGAAACCCTATCTCTACCAAAAAATAAAA
AATTAGCCGGGTGTGGTGGTGGGTGCCTGTAATCTCAGCTACTTGGGAGGCTGAGTTGGTAGAATTGCTTCAACCTGGGACGCGGAGGTTGCAGTGAGCT
GAGATTGTGCCATTGCACTCCAGCTTGGATGACAGAGTGAGACCCTGTCTCAGGAAAAAAAAAAAAAAACAAAAAAAACCTTGTTCTAAGCCAAAATCAA
TCCCTTTAGCTGCCCAAATCACACAGTTTACAGATGGAGAAACAGTTTTAGAGAGGAAAAGGGACTTGCCCAAAGTCACCCAGAGAATGGCAGAGCCTGA
ACTAGCCTTCTGGACTTCTTGCCTCCAAAAGCTCTTTATAATAAAATATAATTTTAAATAAAAATAGTTATCTGTTTAGGGCCAAGCAATATGCTAAGTG
CCGTCCAGCCACTGTGTCATTTACGTCTCCAAACAGCTCTAGTTGGGAGGCTCAATGATTATCCCAATTTTACAGATAAGGAAACAGGTCCAGAGAGGTT
GAGGATTAGCCTAGAACCACACAGCTAGGAAATCCTGGAGYCAGGATTTGAACCCGGGTCTGACCTAAGAGCTCCCAGCCGCCGTGATATATCAGCTTAT
GTCATCCTGACACCTACGCRGATGTCGGCTCGAATCCACTTTGCCTGAGCATTGTCTCAGAGAAATCTAATTTAAAAATTAGGCAGCAAATAGAAAATAT
ATTTGACTGCTAGAGATGCAATGGGACTGGGAGCCCAACAAAGGATCTTAGGCAAAAGAAATCCAAGTTGTTGGCCTCAGCAACTATTACTGAACTGGCT
GGGCTTTGGGAAGCTACAGAGGGATGAGAAGACCTGGTGGATCAGGTGGGCCCAACTCAGGCTGGCCCCCACCCTGCAGGAAGTAGGAAAAGTCCAGGGT
CATAGGCCCAGTGAGATGCCGGCTGCGGGAGTTTCAGCCTCCGGGGCTGGACCAGAGGGCAGGAGGGGACGCCCCTGGGTAGCAGCGCCAGAGTGGGCTG
AGTGGCCTGGGCCCCTGCGGGGGAGCTTTCAGAGATGTTGATTTGGGGGTACTCCCTCAGCCCTGCCTTTACACAGAATTTGTGGGGGATGAGGGGAGGG
GGAAAGGGGGGAGGAAGGCAGTGAGTGCATCTGAATTTTTTTTTTTTTTTTACAAAAAGTGGCTTATTGCATTTTTCTGATTACTCTATCAGCACGTGCA
GACCTTTTCCTATTCAGAGAAAGCCTGAAGATATAAAGAGGAAAGTGAAGAAAAACCACCGGAAATCCCATCCCCGCCCCAGCATCTGGCACTGTGTGGG
CGATCACGAAATGAGCGCTTGTTTTTGAAGGCGTAGTATCTCCGTGAACATCCGGTTGAACAACCTTTCTGACTTTATTTTTCCCACGAAAGTTATTAAT
TAAAAAACAAAAAGCAAAACACCGAAAAAACAAAAAACCCAGCAAGTGTTTGAGCTCCCACCACGAGGGAGGCCTGACGTCACTGGATCCTCCCGGCAGC
CGATGAGGCTGCATGGGACTTGCCCACGATGTGCTGTTACCGAGTGGCATAGCCAGGCTTCAAACCAGAGTCCTAGCTAACCGCCCTGTATATACCATGG
GCTCATCATCTTCCCTGGTTCCAGCTCAGAACAGAGACTCAGAGGAACAAGGGCTCTGCGCTCACCCTGCCTGGTTAGGTCCAGCCTTTCCAATTCCAAG
CTGTGTGACCATGGGAAAAGTGTTTGCCCACTCTGGGCCTAAATTTCCTCCTTGGTAAAAGGCACACAAGAGCAGTACTCTGCACGCCACAGTGGTGGGG
TGAGCAGCAGATGACGTGGTGGGTGGAGGCCAGGTGACACCAGGCTGCTCTCAAGCTTAACTTGCCTGTGATGGTGGCGGGACCGTGTCAGTTCTTCCAC
CAAATCCCACCTGTTTCCACGACGTTTATTGACAAGTCAGGGGCACCGCCCCGGGTGGAGGGGGTGTGAAGAGGAAGTCAGCTCCCTGGTCCCTGCTGCC
CTCTGGTGACCACATCAGCATCAGCACCTGCTCCATCCCAGCAGCTCCAGGTCCAGGCCGTGCCCAGAAAACTTGGCCTGGGAGATTCCCCACCCGCCCT
GCCCCGATCCCACCTCTCTTCCATCTCTGCATTTTCCAGAAATTCCCCCAGCACCAGACAAAAGAGCCTAATGTCCATTAGATATGCTGTGTGGCGCCAG
GCCAGCGTGTAACCTCTCTGTGCTTGATTCGTTATCTGTAAAATGGGAATCATTATAATATCTGCCTCATGTAGCTATTGTGAGAATTAAATATGTTAGT
ACCTGTGAGGTCCTTAGAACTATGCCTGCGGCTGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTATGGGAGGCCAAGGTGGGCAGATTGCCTGAGGT
AGGCGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTATTAAAAATACAAAAATCAGCCAGACATGGTGGCGGGTGCCTGTAATCCCAGCTA
CTCGGGAGGATGAGGCAGGAGAATTGCCTGAACCCAGGAGGCAGAGGTTGCAGCAAGCGGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAAGTGGGA
CTCTGTCTCAAAAAAAAAGAACTATGCCTGCAAATAGTTAATGCCTTAAAAGTATTTGCTAACATTCTTCTTCTTCTTCTTTTTTTTTTTTTTTTGAGAC
AGGGTCTTTCTCTGTCACCCAGGCTGGAGCGCAGTGGCCCAATCCCGGCTCACTGCAGCCTTGAACACCTGGGCTCATGTGATTCTCCCACTTCAGCCTC
TCAAGTAGCTGTGACCACAGGTGCACACACCACTAAGCCTGGCTAATTTGTTTTTTAATTTTTTGTAGAGACAGGGAATCACTATGTTGCCTAGGCTAGT
CCCAGACTCCTAGGGTTCAAGCAATCCATCCACCTCGGCCTCCCAAAGTGCTAGGATTACAGATGTGAGCCACCATGCCTAGTCTGCTAACATTATCCTT
AATATTACACTGAATATGTCTGTGGATTTTGTGGGAGGTGAGGGTATAAAACATAATTAGAGGAAATAATGACATTCTAAATTTAATTTGACTTTATTAC
AAAAAGGGCAGAATGGAGCAACAGTAATCCAGGACAAAAAATTGTCCCAATCCCATCATTCAACCCACTTGTGTTTGTATCTGTTTGTGCCACTTCTGTG
TGTTGTTTACATGCAGAGTCAGTGTTTGCGTATTTGCGGTTTTATATCATTCATTTCTCATCATACATACATATATTTATATTCCTGACATTTTTCTAGG
GAATATCTTTATATTCCTGACATTTTTCTCTTTTTCCCTTATGTTCTTCCATACCGGGACTTATAGGACCTTGCCCAGACTCAACTTCCCTCTTCCCCAT
GGACCCAAGTTGCTGAGCTTCCAACAGGTGTTTACAGCAAAGGAGAATGAGACAGAGAGAAGCAGAGATGCAGAGAGAAAGACAGACAGAGAAGACTAAA
CTGATTGATCCCAACTCCATTATGATATCTGACTCCAACCACAGAATGACCCTGATCCAGCCACAGACTGACTTCTGATCCTGGCCACAGTCCACCTCCT
GTCCTCAGCCACAGAACAGCTCTGACTCAAGCCAGGAACTGAGTCCCGACCCATGTTACTGACTTACTCATGATCCTGGTTGCAGGCTGGCCCCAGCCAC
ATGCTGACCCCTGACCCTCACCACAGATGGATCTTTGATCCCAGCTATAGGCTGATCTCTGATTCTGGCTGCCCTGAACCACCACTCCTATATACTGATG
ACCCACCTTAGCGTGATCCCACCCAGGAACTGGCATTTCCTGGGACAGGCTCTTGGCCACCTGCTGCTCTGCCCTGGGCACACCAGGCCCTACGCATCCT
CCCCCTTCCACCACCATCCATGATTTCCTGATTTCTAGCAGCAAATTTAGCTTGAGTTGGTCAACATAGCTGGGCTGCCTGACCTTCCTCTCTGCCATGG
AACCACAGAGCAAGTCAGCAGTTCTCCTTCCTAATCAAAAAGCAGCATGGAGGAGAAGGCTCCTTTGCCACCTTCCTTTCTGCTTTGGATGGTGCTTTTG
CAATCATGAGGAGACAAGCCTGGAGATGAAAGGAGGCATTCTGAATATGGTGGAGTGGAAGAAGAAGAAGGCCTGCCTGGGGCTTTGATTACATCACCAA
GTGATCAAACCAACCTTAAATTCTTAAATAAACTGTAAGTGTGCTTTTCTTTAAACCACTGTGAGTTTTCTTTTGCAGTCATAAAGCAACCTTAAAAATT
GTAGTAGGTACAATAATGAACCCCCCAAGATGTCCATGTCCCAATCCCTGGAACCTGTGAACATGTTACATTACATGGCAAGGGGGGGATTAAGGTTACA
GATGGAAGCAGGGTTGCTAATCAACTGAACCTGAGATGTAGAGGGAGATTATCCTTAATTATCCAGACAGGCCCAATATAATCCCAAGGATCTTCA


SNP Information

Context             (SEQ ID NO:25169):
GCTGTTTCCAATGGCTCTGCTTAACTGAGACCTGAGAGTGATTGCTCCATCTGTGGTGGCATATGGGCTGAAACTGCCTAGCAGCATGTCAGAAGTGGGG
Y
GTTCGCAGGACATCCTTGTCCAGGTTGGCAGTTGAGCTTGGCAGGTGACCGCTGAGACCCCTTCCAACTCCACCACTTCAGGAATCTCTTTTTTTTTTTT
Celera SNP ID:            hCV29336881
SNP Position Genomic:     10190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25170):
AATTATTCGAGCATGGTGGTGTGTGCCTGTAGTCACAACTACTTGGGAGGCTAAGGCAGGAGGATCACTTGAGCCCAGGAGTTCAAGGCTGCACTGAGCC
R
TGACGGTGCGACTGCATTCTAGCCACAGAATGAGACCCTGTCTCTAAAGCAAAAAAGAGAAGGAGAATAAGTGAGGTACTTGAGCAAGTGGGTGAGGATG
Celera SNP ID:            hCV29336882
SNP Position Genomic:     3005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:25171):
GCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCTGGCCAGTGGAGTTCCTTCTTAAGTACATGTATTGACATCTTTAAAAAGGGC
R
AGAGGATTTACAGGAAACTATCAGGTCAGTAATGGCAGGGGCCGTCCACAGTGGGTGGCTGAGTCCCCCTATTTTTCTGCTGGTGTGCGGGGAGGTCATT
Celera SNP ID:            hCV15983930
SNP Position Genomic:     23933
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25172):
AAAATGGAATGCAGAATTAAGTGTATGCACCTTGCCAGAAACAGGGTTTGGGGTTTACATTAGATGCTCAGATAGGTCATTGATCCCCAAAACACTAAGG
W
CTCTGACTTCTAGACAGATAGTAGTTAAGAACCAAAGCTTTGGAGCTTGAGTGCTGGATTTAAGACCCATGACTGTCACAGCTGTGCAACCTCAGACAAA
Celera SNP ID:            hCV2769580
SNP Position Genomic:     7665
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25173):
AGGTGTGAGCCACCGCACCTGGCCAGTGGAGTTCCTTCTTAAGTACATGTATTGACATCTTTAAAAAGGGCGAGAGGATTTACAGGAAACTATCAGGTCA
R
TAATGGCAGGGGCCGTCCACAGTGGGTGGCTGAGTCCCCCTATTTTTCTGCTGGTGTGCGGGGAGGTCATTTCCTGCCACCCATGTTTCCCCACCCTGAA
Celera SNP ID:            hCV15983931
SNP Position Genomic:     23962
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRIGAN-PANEL(A,10|G,36)   PGA-EUR(EAN-PANEL(A,3|G,43)   total(G,79|A,13)JBIC-allele(A,255|G,1248)   total(G,1248|A,255)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25174):
TGGTCTCATTTCTGATTTTAAAATGGCTCTGGCTGTGATGTGGAGAAGAGGCAGGGTGAGCCTCATCTGCAGCAACTGCTAACTGCCCACATCCCCCCAG
M
CTTCTCAAAAATTTGCCACTCCCCTGCTCAAAGACCCTCAAAAGCTGCCCACTGCTTAGAGGACAGGCCTTTGACCTGAGGTCCTCACTTGGGCTTCAGG
Celera SNP ID:            hCV2769582
SNP Position Genomic:     7448
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25175):
CCTGGTCTCATTTCTGATTTTAAAATGGCTCTGGCTGTGATGTGGAGAAGAGGCAGGGTGAGCCTCATCTGCAGCAACTGCTAACTGCCCACATCCCCCC
R
GACTTCTCAAAAATTTGCCACTCCCCTGCTCAAAGACCCTCAAAAGCTGCCCACTGCTTAGAGGACAGGCCTTTGACCTGAGGTCCTCACTTGGGCTTCA
Celera SNP ID:            hCV2769583
SNP Position Genomic:     7446
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25176):
TAATCCCAGCACTTTTGGAGGCTGAGGCGGGCAGATCACTTGAGATCAGGAGTTCGAGACCAGCCTGGTCAGTATGATGAAACCCCATCTCTACTAAAAA
Y
ACAAAAATTAGTTGGGCATGGTGGCTTGCCTGTAGTCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCACTTGAGCCTAGGAGGTAGAGGTTGCAGTGA
Celera SNP ID:            hCV2769584
SNP Position Genomic:     6622
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25177):
TAATTTCAAAGTAGATAAGCATAAATAATACTTTATGATACTGAAATTGTGATGTGATATGAGAATAGCTGTGAGTTTTGTTTTGCTGGGGACAGGATCA
S
TGATGCTGTCATTACTGGGGTCTCTTCCCTCCATTCTTTTTTTAAAATTGTATTTTATTTTATTTTTAAAATTTTAAAATAAATAGAGACAGGGTATCAC
Celera SNP ID:            hCV15984010
SNP Position Genomic:     29990
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,8|C,40)   PGA-EUR(EAN-PANEL(G,4|C,42)   total(G,12|C,82) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25178):
CTGCTCTCCAGCTTGGGGAACAGAGCAAACCTCCGTCTCAAAAAAAAAAAAAAAAATCTAGGGAAGTTGAAAACATTTTGCAGTCAAAGCTATCTTTGCT
R
TCTGCATCTTGAAATAAAATAAACATTCATACATGTAACCTCATTAATCTGATTAGAGATAGTGATAAGTACTGGGACAGACATAAACAGGGTGCTGTGA
Celera SNP ID:            hCV2769585
SNP Position Genomic:     6128
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:25179):
GCCAAGTGATATCTCTTCCCTTCTGCTGTCTTCCCTTCTGCCATCCTTCACATGGTGGCATTGTATCCTTAGACTTGCCACCCATGCCCTCAGGTTGGCC
R
TTGCACACTGTCTTACATAAAGCAGGAAGGAAAGGAAAGGCTGCTACGAGAGAGTGTACCTTGTGCATCTCTTTTTTAATCAGGAAGCAAACATCTTTCT
Celera SNP ID:            hCV15984011
SNP Position Genomic:     30744
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,43)   total(G,43|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25180):
AGTCCCCCTATTTTTCTGCTGGTGTGCGGGGAGGTCATTTCCTGCCACCCATGTTTCCCCACCCTGAATCCACCTTCCTCACATTCCCATTGGAGGGACA
M
TCTCTGGACATATGGGACCTGGGGTCCCACAGGGCTGCATTCCAATGCCTGCTGTGCCACTCGCCAGCTGTGTGATGTTGGGCATATCCCATAACCTCTT
Celera SNP ID:            hCV15983938
SNP Position Genomic:     24095
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   JBIC-allele(A,710|C,791)   total(A,710|C,791)   PCA-AFRICAN-PANEL(A,23|C,25)   PCA-EUR(EAN-PANEL(A,22|C,24)   total(C,49|A,45)   (C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25181):
CCTGCCACCCATGTTTCCCCACCCTGAATCCACCTTCCTCACATTCCCATTGGAGGGACACTCTCTGGACATATGGGACCTGGGGTCCCACAGGGCTGCA
W
TCCAATGCCTGCTGTGCCACTCGCCAGCTGTGTGATGTTGGGCATATCCCATAACCTCTTTGTGCCTCAGTTTCCTCATCTGTAACACAGGAGTGACAAG
Celera SNP ID:            hCV15983939
SNP Position Genomic:     24135
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   no_pop(A,-|T,-)   PGA-AFRICAN-PANEL(A,21|T,21)   PGA-EUR(EAN-PANEL(T,21|A,23)   total(A,44|T,42)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25182):
CATCCTGCCCCTGGCAATGCTCAGAGCTCAAGCCAGACCCCCAAAATCGTGAACTTTGTCTCCGTGGGACCCACATACATGAGGGTCTCTTAGGTGCATG
Y
CCTCTTGTTGCTGAGTCTGCAGATGAGGACTAGGGCTTATCCATGCCTGGGAAATGCCACCTCCTGGAAGGCAGCCAGGCTGGCAGATTTCCAAAAGACT
Celera SNP ID:            hCV22272125
SNP Position Genomic:     40230
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,19)   caucasian(T,28)   total(C,9|T,47)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,7|T,39)   total(C,7|T,39)   (C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25183):
TCCATCCTGCCCCTGGCAATGCTCAGAGCTCAAGCCAGACCCCCAAAATCGTGAACTTTGTCTCCGTGGGACCCACATACATGAGGGTCTCTTAGGTGCA
Y
GTCCTCTTGTTGCTGAGTCTGCAGATGAGGACTAGGGCTTATCCATGCCTGGGAAATGCCACCTCCTGGAAGGCAGCCAGGCTGGCAGATTTCCAAAAGA
Celera SNP ID:            hCV22272126
SNP Position Genomic:     40228
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,14)   caucasian(C,1|T,25)   total(C,9|T,39)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25184):
TGGGACAACAGGCGCTTGCCACCACACCTGGCTAATTTTCTTATTTTAATTTAATTTTATTTTATTTTTTGGGACAGAGTGGAGTCTCAAAAACCAAGCT
R
GAGTGCAGTGGTGCGATCTCGACTCACTGCAATCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCCGACTAGCTGGGATTACAGGCGTGT
Celera SNP ID:            hCV27077100
SNP Position Genomic:     33904
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;PGA-AFRICAN-PANEL(A,18|G,24)   PGA-EUR(EAN-PANEL(G,8|A,38)   total(G,32|A,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:25185):
TCCTGGGCTAAAGAGATCCTCCCATTTCAACTTCCAGAGCAGCTGGGACAACAGGCGCTTGCCACCACACCTGGCTAATTTTCTTATTTTAATTTAATTT
W
ATTTTATTTTTTGGGACAGAGTGGAGTCTCAAAAACCAAGCTAGAGTGCAGTGGTGCGATCTCGACTCACTGCAATCTCTGCCTCCCGGGTTCAAGCGAT
Celera SNP ID:            hCV27077101
SNP Position Genomic:     33861
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;no_pop(A,-|T,-)   PGA-AFRICAN-PANEL(T,19|A,23)   PGA-EUR(EAN-PANEL(A,8|T,38)   total(A,31|T,57) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25186):
CTGACAAAAGGGTGAGTTATTCAACAGATTACCAGCATGAGTAACTGATGCTTACCTGCCGGGGATCTCTGGAAGACCATGCATGGCACATGCCCAGTTA
T
GCCTGCAAAGGAGAGGGAGCTGGGGTATTTGTCCACCAGCTCCCATCTGTCATTGGCTGAGAGCTGCTTCCAGGAGCATTAATTCTCCAGCACTTCCAGC
Celera SNP ID:            hCV11771665
SNP Position Genomic:     42040
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:25187):
ACAATCTTGCCTAACAGTAACCTCCGCCTCCCGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGCGCATGCCACTATGCCC
R
GCTAATTTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCATGATCTGCCTGCCTCAGCCTCCCAAA
Celera SNP ID:            hCV27077103
SNP Position Genomic:     32645
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25188):
CACAATCTTGCCTAACAGTAACCTCCGCCTCCCGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGCGCATGCCACTATGCC
Y
GGCTAATTTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCATGATCTGCCTGCCTCAGCCTCCCAA
Celera SNP ID:            hCV27077104
SNP Position Genomic:     32644
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25189):
TGAAACAGATAACAATGTATGGGACCCTCATTCATTATTTCAGCAAATATTTGCTGAGTTCCTCCTACATGGCTAGCCCTGTGCTAGACACTGGGGAATC
R
GCGATGAACAAAGCAGATAGAAATCCCCACTCTTGTGGAGCTGACATTCTGGAGGGAGAGACAAAAAGCAAACATATAAAGAAAGAAAGAAATCACATGG
Celera SNP ID:            hCV15984231
SNP Position Genomic:     31470
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,43)   total(G,43|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25190):
TCCTACTGGGGAGACTGAAAATACATATCAATCACAAACAGGTGGTTTTCCATAGTGACCCACTCTCTGAATGCACTAGACCAGGGTGGAGGCCAGAGAT
S
TTCTGGGGTGCTTTTTGCAAGGGGGACCAGGATAAGGCTCTCCAAGGAGGGAAAATTTGAGGGGGGCCCTGACTGGGGAGAATGAGCTGGCCAGGGATAA
Celera SNP ID:            hCV15984232
SNP Position Genomic:     32909
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,1|C,45)   total(G,1|C,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25191):
TTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTATAGTGGCACAATCTTGCCTAACAGTAACCTCCGCCTCCCGGGTTCAAGCAATTCTTCTGC
Y
TCAGCCTCCAGAGTAGCTGGGATTACAGGCGCATGCCACTATGCCCGGCTAATTTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTGGTCAGGCT
Celera SNP ID:            hCV27077105
SNP Position Genomic:     32598
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25192):
ATTGGAATTTATTGAGACAATACATATAAAGTGCATATTCCAGCCTCTTGCAAATACCAAGTGCCATTTATGTATCAGTTAGTGTTTGCTGTGTAACAAA
Y
GACCCCGAAATGTAGAGGGTTACAACAACTTTATTTAGCTTATGCTTCTGCAGGCTGGCATTTGGGGCTGGGCTCAGCAGTGAGGGTGGCGGGGGAGGCT
Celera SNP ID:            hCV2769510
SNP Position Genomic:     36229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;PGA-AFRICAN-PANEL(T,22|C,26)   PGA-EUR(EAN-PANEL(C,8|T,38)   total(C,34|T,60)
SNP Type:                 INTRON


Context             (SEQ ID NO:25193):
ATACGTATTTACTGAGCAGCTACTACACACCTTGAGAGTAGAGCTGAGAACATATCGACAAGGACCCCACTTTTTTCTTTTTTTTTTTTTTTTTTTTTTT
T
GAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTATAGTGGCACAATCTTGCCTAACAGTAACCTCCGCCTCCCGGGTTCAAGCAATTCTTCTGCCTCA
Celera SNP ID:            hCV27077106
SNP Position Genomic:     32501
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25194):
CTGGCCTCATATAAGCATTTCTGTCTCCATTTATCATCCATCTTTCCCTCTTGAAGGTCAGTTTCACCAAGGCAGGCATCTTTGTCTCGTTCACTGTTGT
R
GCCTCAGGGCCAGGCACAGTGAGTCAAACATAGAAGGTGCTCAATAAATATGTGTTTATTTATTGAAACCATGGGCAGAGGCTAATTCAGAAGCGGTCTG
Celera SNP ID:            hCV2769511
SNP Position Genomic:     34680
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;(A,-|G,-)   PGA-AFRICAN-PANEL(A,6|G,40)   PGA-EUR(EAN-PANEL(A,9|G,33)   total(G,73|A,15)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25195):
CCTGAGCTCAAGCGATCCTCCCTCCTCAGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCTTCCATATCCTTTCTAATTGGTCATG
R
CTTGGGATAATGGTGTTGCTTTTAATTATCATCATCCATAAAGACTTTTTCTTACTCAACAGATCTGAGCTTGTATTTGGTGCCCAGGACATGTGCTGGG
Celera SNP ID:            hCV15984162
SNP Position Genomic:     38337
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,46)   total(G,46|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25196):
GTCCTCTCAGTCAATAATACGTATTTACTGAGCAGCTACTACACACCTTGAGAGTAGAGCTGAGAACATATCGACAAGGACCCCACTTTTTTCTTTTTTT
Y
TTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTATAGTGGCACAATCTTGCCTAACAGTAACCTCCGCCTCCCGGGTTCAAG
Celera SNP ID:            hCV27077107
SNP Position Genomic:     32485
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25197):
CGCACCCGGCTTCCATATCCTTTCTAATTGGTCATGGCTTGGGATAATGGTGTTGCTTTTAATTATCATCATCCATAAAGACTTTTTCTTACTCAACAGA
Y
CTGAGCTTGTATTTGGTGCCCAGGACATGTGCTGGGTTCCCGAAATCCCAAAGACACAGACCCTACCCTCAGGGATTTCTCATTCTAGCAACATAGACTG
Celera SNP ID:            hCV15984163
SNP Position Genomic:     38401
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   total(C,1|T,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25198):
TTCCCGAAATCCCAAAGACACAGACCCTACCCTCAGGGATTTCTCATTCTAGCAACATAGACTGATCAATTACTGATTATAACGTTAGAAGGCATGTCTG
M
AGTAGACAGCCATCAGGACATGGTGATTTCAGGCTGGGCTTTGAAGAATGAATAGGAGTTTTTCAAGTGTCGAAACTGAACCCTGACCAACCTTTGCTTT
Celera SNP ID:            hCV15984164
SNP Position Genomic:     38538
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,7|A,37)   total(A,37|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25199):
AAGGCTCTCCAAGGAGGGAAAATTTGAGGGGGGCCCTGACTGGGGAGAATGAGCTGGCCAGGGATAAGCAAGATGGAGTCATCCCACATCCCCTTACAAC
R
CTGGGTGCCTGGGCAACTGGGGGCATTTGGGGGCATGTGGTAGGAGCCAGAGGAATTTGCGACGATTGCCCTGATGGAGTCAGGAGACCTGGGTTTGAAT
Celera SNP ID:            hCV2769514
SNP Position Genomic:     33043
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;PGA-AFRICAN-PANEL(G,16|A,30)   PGA-EUR(EAN-PANEL(G,8|A,38)   total(G,24|A,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:25200):
GGCTGAAGTGCAGTGGCGCGGTTACGGCTCACTGCAGCCTCCAATTCCTGGGCTAAAGAGATCCTCCCATTTCAACTTCCAGAGCAGCTGGGACAACAGG
Y
GCTTGCCACCACACCTGGCTAATTTTCTTATTTTAATTTAATTTTATTTTATTTTTTGGGACAGAGTGGAGTCTCAAAAACCAAGCTAGAGTGCAGTGGT
Celera SNP ID:            hCV15984092
SNP Position Genomic:     33816
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25201):
CTAAAACCGGCATCCTACTGGGGAGACTGAAAATACATATCAATCACAAACAGGTGGTTTTCCATAGTGACCCACTCTCTGAATGCACTAGACCAGGGTG
S
AGGCCAGAGATCTTCTGGGGTGCTTTTTGCAAGGGGGACCAGGATAAGGCTCTCCAAGGAGGGAAAATTTGAGGGGGGCCCTGACTGGGGAGAATGAGCT
Celera SNP ID:            hCV2769515
SNP Position Genomic:     32897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,9)      total(G,9|C,2) ;PGA-AFRICAN-PANEL(C,15|G,27)   PGA-EUR(EAN-PANEL(C,8|G,38)   total(G,65|C,23)
SNP Type:                 INTRON


Context             (SEQ ID NO:25202):
TCCTGGGCCCAGTGCTGCCGAGCAGTCCCTCTGGAGTGCAGGGTGGCAGGGACTTGCCCCTCTAGTCTGCCCCTTTGCAGTCCTCTCAGTCAATAATACG
Y
ATTTACTGAGCAGCTACTACACACCTTGAGAGTAGAGCTGAGAACATATCGACAAGGACCCCACTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTGAGAC
Celera SNP ID:            hCV2769517
SNP Position Genomic:     32406
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25203):
CAGCAAGTTTAAGATCTGGAGGTGGCACTGAGCTTTGGAGGAGCAGGGGGCAATGAGGTGGCCGGTGTGACGAGGACTCAATGTGCAAGAGGGAGAGTGG
Y
GGGGAGATGAGGTGGAGGGGTGGTCGGCGGTCAGATCGTGGAGGGTCTCGGACGAGGGTCCTGACCCTGGGTCTCCAGTCCTGGGAAGTGGAGCCCAGGC
Celera SNP ID:            hCV2769518
SNP Position Genomic:     32054
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;PGA-AFRICAN-PANEL(C,2|T,40)   PGA-EUR(EAN-PANEL(C,2|T,40)   total(C,4|T,80)
SNP Type:                 INTRON


Context             (SEQ ID NO:25204):
AAAAGCAAACATATAAAGAAAGAAAGAAATCACATGGATCTGGATGACAGTGAGTGCTGGGAAGAAAATAAAAGCAGAGGAAGGGGATGGAGCGATGGGC
R
GGGGGCAACGGTAGGGAGGGTGTCGGGGAAAACTTTTTGGAGAATGTGACGATGAAAGTGAACAAGGAGAAGTCAACCGTGTTGAGATGATGGCAGCTAA
Celera SNP ID:            hCV2769519
SNP Position Genomic:     31634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,11)      total(G,2|A,11) ;no_pop(A,-|G,-)   PGA-AFRICAN-PANEL(G,16|A,28)   PGA-EUR(EAN-PANEL(G,7|A,37)   total(G,23|A,65) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25205):
ACTGGGGACTCGGCAGTGAATGGGACAGACCCTGGCTGTCAGGATGACAGACAATTTAAAAAGGGACAGATGTCCCACGCTGGCTTGTCCTTTGCACCCC
Y
GGCACTTCGTGAGGAGCAGCGGCCAGTTCTTGTATATAGACTGGCCCTTGGTGTACATTTGTCTGACGTTTCCAAATGATGTATGCATCCTTGGCAGGAA
Celera SNP ID:            hCV15959169
SNP Position Genomic:     11423
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,523|C,772)   total(C,772|T,523) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25206):
TGAACTCCTGACCTCAAGTGATCCACCCACCTCGTTCTCCCAAGGTGCTGGGTACAGGCATGAGCCACTGTGCCTGGCCAATTTTCTTACATTTTGTAGA
G
ACTGGCTGTCACTTATGTAGCCCAGGCTGATCTTGAACTTCTACCCCTTTATCTTTATTCATGGCACTTATTACCATGAATGAATGACCTCATATAAGCA
Celera SNP ID:            hCV15776782
SNP Position Genomic:     34175
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25207):
TGATGTTGGGCATATCCCATAACCTCTTTGTGCCTCAGTTTCCTCATCTGTAACACAGGAGTGACAAGAGCACCCGCCCACAGGGCTATGACAGTACAAG
K
TGTGTGATACAGATGAGCTCCCCTGTTTGGCCCACATGTGTCCTAAAAGCCATGTGCCCTTTCTCTTGAGTGCCCCAGGCCACAGAGATCCCCATCTGCC
Celera SNP ID:            hCV15983940
SNP Position Genomic:     24268
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,6|G,38)   total(G,38|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25208):
GGTCAGTGCGGATAACTATACACTGGACCTGTGGGCTGGGCAGCAGCTGCTGTGGAAGGGCTCCTTCAAGCCCAGCGAGCATGGTGAGCAGGGCGGAGTG
Y
GGCAGGGGTGGCTGGGTGTGTTCCCACAGCTGCCTGGGCTGAGGGTGGGGTGGGCAGGGGAGGAGGTGGGGTCATAGCAACAGCAGGAGGAAGCCGCCTG
Celera SNP ID:            hCV15983870
SNP Position Genomic:     21433
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,330|C,421)   total(C,421|T,330)   PCT-TFRICTN-PTNEL(T,14|C,32)   PCT-EUR(ETN-PTNEL(T,18|C,28)   total(C,60|T,32) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25209):
GCAGCAGCTGCTGTGGAAGGGCTCCTTCAAGCCCAGCGAGCATGGTGAGCAGGGCGGAGTGCGGCAGGGGTGGCTGGGTGTGTTCCCACAGCTGCCTGGG
Y
TGAGGGTGGGGTGGGCAGGGGAGGAGGTGGGGTCATAGCAACAGCAGGAGGAAGCCGCCTGTATTTTCCCAAATCTGATGGGATTCCTGCCCCTGCCTGG
Celera SNP ID:            hCV15983871
SNP Position Genomic:     21472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   PCT-TFRICTN-PTNEL(T,17|C,29)   PCT-EUR(ETN-PTNEL(T,18|C,28)   total(C,57|T,35) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25210):
ATATCTCTTCCCTTCTGCTGTCTTCCCTTCTGCCATCCTTCACATGGTGGCATTGTATCCTTAGACTTGCCACCCATGCCCTCAGGTTGGCCGTTGCACA
Y
TGTCTTACATAAAGCAGGAAGGAAAGGAAAGGCTGCTACGAGAGAGTGTACCTTGTGCATCTCTTTTTTAATCAGGAAGCAAACATCTTTCTAGAAGCTT
Celera SNP ID:            hCV15984021
SNP Position Genomic:     30752
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25211):
CCTCCCACCTTTGAAACGGAGCTGGTCGCAGTAGACCACCAAGCCCCCTTCAGCCCAGCTGTTTCCACCCCTGAACTTAAGTGCCCAGGAAGGCGTATTG
R
GATGAGGTGTGCTTGCTGGAAGGCATGCCTGCTGCTGATTGAAAACCGAACTGGGAACATTCCTTCCATTCTGTGTCCACTGGTCAGCTGCTGCGGCTTT
Celera SNP ID:            hCV15983872
SNP Position Genomic:     21681
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,46)   total(G,2|A,46) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25212):
ATCTCTTCCCTTCTGCTGTCTTCCCTTCTGCCATCCTTCACATGGTGGCATTGTATCCTTAGACTTGCCACCCATGCCCTCAGGTTGGCCGTTGCACACT
R
TCTTACATAAAGCAGGAAGGAAAGGAAAGGCTGCTACGAGAGAGTGTACCTTGTGCATCTCTTTTTTAATCAGGAAGCAAACATCTTTCTAGAAGCTTCC
Celera SNP ID:            hCV15984022
SNP Position Genomic:     30754
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,43)   total(G,43|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25213):
TTTATATCTCTCAGGTCTGGTTTCCCCTTTGGCACTGGGCCAGGTATGGGGAAAGAGCAGGAATGGGGCAGTTGGCTCACACAGCAGAGGCTCAGAAAGC
R
GGGGGCATGGGGGGAAGGAGTGCACAGATGCTAGAGAGTGGGGCAAGTTTTGTTTGGTCAATAAATCTCCTTCTCATGCCCCAGGCCTGTGCAAGACCTA
Celera SNP ID:            hCV15983947
SNP Position Genomic:     24649
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25214):
TGTACCTTGTGCATCTCTTTTTTAATCAGGAAGCAAACATCTTTCTAGAAGCTTCCCTAGCAAAATTCCCCTTACATCTCATTGGCCAAGACTGTTACAT
R
TTACATGGTTACTGTTATTACTTGCTCATTGCAAGGAAGACTGGGAACTCAAATGCCTGGAAAAAGGAACAGGATAATCGTGATTGGCTCAAGCCTTAGG
Celera SNP ID:            hCV15984023
SNP Position Genomic:     30899
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25215):
CTTGACGGTTCTAATAAGAGTCCTAAGGCTGCTGCTCAGTGGCCTGGCTTCGATGCTGTGCCAGCCTCTGAACCAATCACTGGCTGTGGGTGGAGAGAGG
R
TGCTGGTGGAGGGCCCTGCTTGTCCAGGGAGGAGTCACATACCTGCCTCTAGGGCTGCAGGTGGGCTCAGCTCCATCCAAACCAGATGAACTGAAAATAA
Celera SNP ID:            hCV15983948
SNP Position Genomic:     25115
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,44)   PGA-EUR(EAN-PANEL(A,7|G,39)   total(G,83|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25216):
TGGCTTCGATGCTGTGCCAGCCTCTGAACCAATCACTGGCTGTGGGTGGAGAGAGGGTGCTGGTGGAGGGCCCTGCTTGTCCAGGGAGGAGTCACATACC
Y
GCCTCTAGGGCTGCAGGTGGGCTCAGCTCCATCCAAACCAGATGAACTGAAAATAAGGCAGGAGTGGCTTCCCCAGGGGAAACTGGGGAAGAGGAAGCAG
Celera SNP ID:            hCV15983949
SNP Position Genomic:     25159
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,45)   total(C,1|T,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25217):
TGTATACTTGTCGGCAAATAGCCACTATCCTGAACACTCCCCTCCTTTTTTTTAATATACAGGATCTCACTCTGTGGCCCAGGCTGGTGTGCAGTGGTGC
R
ATCATAGCTCACTGCACCTTCAAACTCCTGAGCTCAAGTGATCCTCCCATCTTAGCCTCCCGAGTAGCTGATACTACAGATGTGCATTACCACGCCTGGC
Celera SNP ID:            hCV15984240
SNP Position Genomic:     37594
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,4|G,42)   total(G,42|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25218):
CCCCAACCTGAGCCAGAAACCTGGGAGCAGATCCTCCGCCGAAATGTCCTCCAGCATGGGGCAGCTGCAGCCCCCGTCTCGGCCCCCACCAGTGGCTATC
R
GGAGTTTGTACATGCGGTGGAGCAGGGTGGCACCCAGGCCAGTGCGGTGGTGGGCTTGGGTCCCCCAGGAGAGGCTGGTTACAAGGCCTTCTCAAGCCTG
Celera SNP ID:            hCV2351160
SNP Position Genomic:     39471
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): IB| family(A,-|G,-)   Hutterites, South |akota(G,249|A,1138)      total(G,249|A,1138) ;(A,-|G,-)   ;(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25219):
ACATGCCCAGCTAATTTTCCTTTTTTTTAATTCTTGTAGAGATGTTTGAGACGGCTTGGGCTCTGTTGCCCAGGCTGTTCTCAAACTCCTGAGCTCAAGC
R
ATCCTCCCTCCTCAGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCTTCCATATCCTTTCTAATTGGTCATGGCTTGGGATAATGG
Celera SNP ID:            hCV15984242
SNP Position Genomic:     38250
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25220):
TGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGAGTTTCACCATGTTGGCCAG
R
CTGGTCTTGAACTCCTCACCTCAAGTGATCCACCCACTTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGCCCCATCTCTCTTT
Celera SNP ID:            hCV27077115
SNP Position Genomic:     28119
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;PGA-AFRICAN-PANEL(A,2|G,42)   PGA-EUR(EAN-PANEL(A,3|G,41)   total(G,83|A,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:25221):
GCGATGAACAAAGCAGATAGAAATCCCCACTCTTGTGGAGCTGACATTCTGGAGGGAGAGACAAAAAGCAAACATATAAAGAAAGAAAGAAATCACATGG
R
TCTGGATGACAGTGAGTGCTGGGAAGAAAATAAAAGCAGAGGAAGGGGATGGAGCGATGGGCAGGGGGCAACGGTAGGGAGGGTGTCGGGGAAAACTTTT
Celera SNP ID:            hCV2769520
SNP Position Genomic:     31571
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,11)      total(G,2|A,11) ;PGA-AFRICAN-PANEL(G,2|A,46)   PGA-EUR(EAN-PANEL(G,3|A,41)   total(G,5|A,87)
SNP Type:                 INTRON


Context             (SEQ ID NO:25222):
TCCATGGCTGTATCTCCAGAACCCAGCACAGAACCAGGTGCTTGGGAAAGTTTTGAATTGATTCTCATCTGCCATTGGCATGGGGAAGGGAACTAGCTTG
Y
ATGAAACAGATAACAATGTATGGGACCCTCATTCATTATTTCAGCAAATATTTGCTGAGTTCCTCCTACATGGCTAGCCCTGTGCTAGACACTGGGGAAT
Celera SNP ID:            hCV2769521
SNP Position Genomic:     31368
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;PGA-AFRICAN-PANEL(C,3|T,43)   PGA-EUR(EAN-PANEL(C,4|T,42)   total(C,7|T,85)
SNP Type:                 INTRON


Context             (SEQ ID NO:25223):
TTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGAGTTTCACCATGTT
R
GCCAGGCTGGTCTTGAACTCCTCACCTCAAGTGATCCACCCACTTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGCCCCATCT
Celera SNP ID:            hCV27077116
SNP Position Genomic:     28113
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;PGA-AFRICAN-PANEL(A,2|G,42)   PGA-EUR(EAN-PANEL(A,3|G,41)   total(G,83|A,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:25224):
TCGTGAAAACTCAATGAAAGAAGATTCTTCAACGTGGTAGGTGCAGTGGCAGCTGGCAGTACCCTGACCCTGCCACCGCACAGCCCTCTCAGCATTGCTC
R
TCCTGCACTGTGGATATCAGTTGAGCCACGTGTCTCCTGCCCTGGGCTGTGAGCTCCATAGGCAGGGTCTCCATGGCTGTATCTCCAGAACCCAGCACAG
Celera SNP ID:            hCV2769522
SNP Position Genomic:     31198
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,8)      total(G,6|A,8) ;PGA-AFRICAN-PANEL(G,2|A,44)   PGA-EUR(EAN-PANEL(G,3|A,43)   total(G,5|A,87)
SNP Type:                 INTRON


Context             (SEQ ID NO:25225):
CAAAGATGTGATTCAAAGTGGGGATCATCGGGGCCATCTTAGGTTTGTCTGCAGTGATCACTGTGCCATCTCTCTCTCTCTCTTTTTTTTTTTTTTTTTT
Y
GAGACGAAGTCGTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTTACCACAATCTCTGCCTCCCAGGTTCAAATGATTCTTCTGCCTC
Celera SNP ID:            hCV27077117
SNP Position Genomic:     27924
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|-,8)      total(C,4|-,8) ;PGA-AFRICAN-PANEL(T,14|C,28)   PGA-EUR(EAN-PANEL(C,20|T,22)   total(C,48|T,36)
SNP Type:                 INTRON


Context             (SEQ ID NO:25226):
ACAAGTTGTCAAGTTTGTGTGAGATAAAGGTGCACTTGGTTCGTTCTTGTCTAATGGCCCCCGCACCCATGGGTATTTCTTCAGCTTCCACAGTCATCCC
R
ACACTAGCTGGGAAGCTCCAGCAGCCCTGGTCCTGGCCCCAGCTCTGTGGGCGCTGGCCCTCAACTTTGCCTGCACTGTGCTTTTGTGCTATTCCCCTTG
Celera SNP ID:            hCV15984172
SNP Position Genomic:     18339
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,2|G,44)   total(G,44|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25227):
TTGATTATCTCACATAAAATGAAGTCTTACAAATGGACCTACTGGGTTTTGTACAGCAGCCAAGTGATATCTCTTCCCTTCTGCTGTCTTCCCTTCTGCC
R
TCCTTCACATGGTGGCATTGTATCCTTAGACTTGCCACCCATGCCCTCAGGTTGGCCGTTGCACACTGTCTTACATAAAGCAGGAAGGAAAGGAAAGGCT
Celera SNP ID:            hCV2769523
SNP Position Genomic:     30686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;PGA-AFRICAN-PANEL(G,11|A,37)   PGA-EUR(EAN-PANEL(G,19|A,27)   total(G,30|A,64)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25228):
ACAAAGATGTGATTCAAAGTGGGGATCATCGGGGCCATCTTAGGTTTGTCTGCAGTGATCACTGTGCCATCTCTCTCTCTCTCTTTTTTTTTTTTTTTTT
T
CGAGACGAAGTCGTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTTACCACAATCTCTGCCTCCCAGGTTCAAATGATTCTTCTGCCT
Celera SNP ID:            hCV27077118
SNP Position Genomic:     27923
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25229):
GCAGAGGCCCAGTCCCTGGAGCCAGGAGCCTGGGAGGCAAGCCCTGGGGCTGGATAGCAAATCCCAGGAGCTAGAGACCTGGCTTCTCACCTGGCTCTGC
M
CTAGGCAAGTCCCTTTGCTTCCTGGCCCCCCACCCCTCACATCAGAGAAGGGGAGTTATCTCTGCATGCCGCTCCTCCTCTGTAAAGGTAGGGCTGTGGG
Celera SNP ID:            hCV15984173
SNP Position Genomic:     23172
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,120|C,1383)   total(A,120|C,1383)   no_pop(C,-|A,-)   PCA-EUR(EAN-PANEL(A,4|C,42)   total(C,42|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25230):
CACTTCCTCTCAAATTCTATTGGTGAAAATGGTCACATGACTACACATAGCCACAAAGGAGGCTGGGAACTTTCTCACTTGGAACCTACATCCCAGAAAC
R
ACTCTTTTCAGTGAGGTATCCCACAGGTCTTTCGCAGTAGAAATATTGATTATCTCACATAAAATGAAGTCTTACAAATGGACCTACTGGGTTTTGTACA
Celera SNP ID:            hCV2769524
SNP Position Genomic:     30540
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;PGA-AFRICAN-PANEL(G,2|A,46)   PGA-EUR(EAN-PANEL(G,3|A,43)   total(G,5|A,89)
SNP Type:                 INTRON


Context             (SEQ ID NO:25231):
GGAAGTGGGCCGCATCACTTCCTCTCAAATTCTATTGGTGAAAATGGTCACATGACTACACATAGCCACAAAGGAGGCTGGGAACTTTCTCACTTGGAAC
S
TACATCCCAGAAACAACTCTTTTCAGTGAGGTATCCCACAGGTCTTTCGCAGTAGAAATATTGATTATCTCACATAAAATGAAGTCTTACAAATGGACCT
Celera SNP ID:            hCV2769525
SNP Position Genomic:     30525
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;PGA-AFRICAN-PANEL(G,14|C,34)   PGA-EUR(EAN-PANEL(G,20|C,26)   total(G,34|C,60)
SNP Type:                 INTRON


Context             (SEQ ID NO:25232):
CTATGTTGCCCAGGCTGCTTTTGACCTCCTGGGCTCCAGTGATCTTCCCATCTTGGCTTCCCAAAGTGCTGGGATTACAAGTGGGAGCCAGTGTTCCTGG
Y
CCCTTCCTCCATTCTTAATGGAAGGAGATGCTAGGTGTGAGAGGTTAGGGAAAGTAAAGATGTAATTTCTTTCCCATCCAAGTTCTCAGACCCCTGAATT
Celera SNP ID:            hCV2769526
SNP Position Genomic:     30190
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;PGA-AFRICAN-PANEL(T,1|C,47)   PGA-EUR(EAN-PANEL(T,3|C,43)   total(C,90|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:25233):
TATTGAAATGCAGTTATAAAACATTTAAACACATTTTTAATCTAGAGATATATGTGCTTCTTTATTAAGATCTATAAATAATAAGTTCTAGGGGTAGCTC
R
CATAAATACTGTAATTTCAAAGTAGATAAGCATAAATAATACTTTATGATACTGAAATTGTGATGTGATATGAGAATAGCTGTGAGTTTTGTTTTGCTGG
Celera SNP ID:            hCV2769527
SNP Position Genomic:     29878
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,7)      total(G,7|A,7) ;PGA-AFRICAN-PANEL(A,14|G,34)   PGA-EUR(EAN-PANEL(A,20|G,26)   total(G,60|A,34)
SNP Type:                 INTRON


Context             (SEQ ID NO:25234):
TGAGCCAGAAACCTGGGAGCAGATCCTCCGCCGAAATGTCCTCCAGCATGGGGCAGCTGCAGCCCCCGTCTCGGCCCCCACCAGTGGCTATCAGGAGTTT
R
TACATGCGGTGGAGCAGGGTGGCACCCAGGCCAGTGCGGTGGTGGGCTTGGGTCCCCCAGGAGAGGCTGGTTACAAGGCCTTCTCAAGCCTGCTTGCCAG
Celera SNP ID:            hCV15984178
SNP Position Genomic:     39479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25235):
TGAAACCCCCATCTGTACAAAAATTAGCCAGGCATGGTGGCATGCACCTGTAGTCCCAGGTACTGGGAAGGCTGAGGTGGGAGGATCACTTGAGCCCAGG
R
GTTTGAGGCTGCAGTGAGCCGTGATCGTACCACTTTACTCCCACCTGGGTGACAGAGCAAGAGCCCATCTCTAAAAATAAATAAATACAATGAAATAAAA
Celera SNP ID:            hCV2769528
SNP Position Genomic:     29644
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;PGA-AFRICAN-PANEL(G,3|A,45)   total(G,3|A,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:25236):
CCCTGGGGACCCTGCCCCAGTCCCTGTCCCCTTGTTCACCTTTGGACTGGACAGGGAGCCACCTCGCAGTCCGCAGAGCTCACATCTCCCAAGCAGCTCC
Y
CAGAGCACCTGGGTCTGGAGCCGGGGGAAAAGGTAGAGGACATGCCAAAGCCCCCACTTCCCCAGGAGCAGGCCACAGACCCCCTTGTGGACAGCCTGGG
Celera SNP ID:            hCV15984179
SNP Position Genomic:     39767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:25237):
CCTGCCGTGGTGTATCTGCCAGGTAGGCAGGCTAGGCTGCAGTAACACACAAGCCCACAATTTCCATGGCTTAACACTATAGGAATATATTTCTTGCTCA
Y
GTAACAAGCTAACGTGAATGTTGCTGGTTTGTAGGTGGTTTCCCTCCCTGTAGAAATCTGGGGAGTGAGGTTCTTTCCATCTTGTGGTGCCATCATTCTC
Celera SNP ID:            hCV2769529
SNP Position Genomic:     29325
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;PGA-AFRICAN-PANEL(T,11|C,37)   PGA-EUR(EAN-PANEL(T,19|C,25)   total(C,62|T,30)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25238):
TAAGGAGGCTGTTTCCAATGGCTCTGCTTAACTGAGACCTGAGAGTGATTGCTCCATCTGTGGTGGCATATGGGCTGAAACTGCCTAGCAGCATGTCAGA
R
GTGGGGTGTTCGCAGGACATCCTTGTCCAGGTTGGCAGTTGAGCTTGGCAGGTGACCGCTGAGACCCCTTCCAACTCCACCACTTCAGGAATCTCTTTTT
Celera SNP ID:            hCV11771605
SNP Position Genomic:     10183
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25239):
AAGCCTCTTCTCCCACTGCATCTGTGATCTCTCCTGAAATGTAGCACCCACACATCCCTGAGAAGCTAGCTGCGGCACGTGTGTGTGCACATGGGCATGC
R
TAAGTCTGGGCGTGCCTTCCACAACAGATTAAGGATATCAATCCTGACGCCATGCTGGGATGTTTTAGTGAATCTTGACAGGGTTGTTGACTCCCCTGTT
Celera SNP ID:            hCV11771606
SNP Position Genomic:     10808
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25240):
CCTTCAAGTGTGCCCAAGTCACTCGGAGAGCATCCAGCAGGGGCCTAGAGCTCCTGAGGTGGCCTTAAGTTCTTATGATGCCCCAGACACTGCACACAGT
R
CTTCAGAGGCAACACCTCCGTTCCTGTTTGCTGCAAGCCTGTGAGGTTAGCCTTGGAACCATTCCTGTGCCACAGAAACACAGCCAGAGCACCAAAAGAG
Celera SNP ID:            hCV11771608
SNP Position Genomic:     13702
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25241):
AACTTAAGTGCCCAGGAAGGCGTATTGAGATGAGGTGTGCTTGCTGGAAGGCATGCCTGCTGCTGATTGAAAACCGAACTGGGAACATTCCTTCCATTCT
D
TGTCCACTGGTCAGCTGCTGCGGCTTTGGATGGTCTTGACCGTGGAAGGCTGACCTTCTTCTGGTACCCGGAGTCCCTGCAGGAATCCCCCTTGAGCTTG
Celera SNP ID:            hCV15983882
SNP Position Genomic:     21754
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,43)   PGA-EUR(EAN-PANEL(T,1|G,43)   total(G,86|A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25242):
GTGGAGGGGGAGTTTTGGCTTGGGCATTGAAGGATGCATAGGAGTTTTCTAGATGGGGAAAGAAGGGAACGGTAGACCAGGCAGAGGGAACTGCATGATA
W
AAGGTTTATGGGTGTGAAAATTCATGGAATGTTTGAGGATTATGGGGTTGGGGGATGTGGGAATATGTGTAGCGATAAAGCACCAAACAAAGCCAAAAGT
Celera SNP ID:            hCV15983956
SNP Position Genomic:     25930
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,4|A,44)   total(A,44|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25243):
GCCCAGGAAGGCGTATTGAGATGAGGTGTGCTTGCTGGAAGGCATGCCTGCTGCTGATTGAAAACCGAACTGGGAACATTCCTTCCATTCTGTGTCCACT
S
GTCAGCTGCTGCGGCTTTGGATGGTCTTGACCGTGGAAGGCTGACCTTCTTCTGGTACCCGGAGTCCCTGCAGGAATCCCCCTTGAGCTTGCTGGGCTGT
Celera SNP ID:            hCV15983883
SNP Position Genomic:     21763
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|G,46)   total(G,46|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25244):
ATAGAAGGTGCTCAATAAATATGTGTTTATTTATTGAAACCATGGGCAGAGGCTAATTCAGAAGCGGTCTGAGGACCTTACCTCCCAGTGATGATGCACC
R
TGGCCCCAGGCAGGCCAGGAAGAGAGAAGGGTTGTGTTTCTCCGTAGGTCCCCCAGCTTCCCAGGCCATCCCAGGCCATTCCCTGGTCATTTGCCCTCAG
Celera SNP ID:            hCV15984105
SNP Position Genomic:     34810
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,45)   total(G,1|A,45) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25245):
CCAGGCAGAGGGAACTGCATGATAAAAGGTTTATGGGTGTGAAAATTCATGGAATGTTTGAGGATTATGGGGTTGGGGGATGTGGGAATATGTGTAGCGA
W
AAAGCACCAAACAAAGCCAAAAGTTTAGTTAGAGCCCTGAATGCCTGCCTCATAATGGTTTCCATATTTTATATGCCTACTATGTGCCAGGCACATTGCT
Celera SNP ID:            hCV15983957
SNP Position Genomic:     26006
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|T,38)   total(A,4|T,38) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25246):
GCTGATTGAAAACCGAACTGGGAACATTCCTTCCATTCTGTGTCCACTGGTCAGCTGCTGCGGCTTTGGATGGTCTTGACCGTGGAAGGCTGACCTTCTT
Y
TGGTACCCGGAGTCCCTGCAGGAATCCCCCTTGAGCTTGCTGGGCTGTGGTGACAGGAGTTTAAAACATGCGTTGTATTCCAGTGATGCATGATATGACA
Celera SNP ID:            hCV15983884
SNP Position Genomic:     21815
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25247):
ACATGAAGAAGTGTGGTTCAGAACACCTGGGCTGTTAAGGACCTTCACTGGCTTCTGGAATGGCAAATAGACAGTCAGGAGGGTTGCAGGGGAGACAGAG
R
CAGAAGCCGAATGAGGTCATTAGCAGACCAGAGGCTTTCCCGCCCTTCCCCTTGGCAATCCCAGCCTGGGGTGGGCTTCTCTGGGGTTGGTTTCCTGTTT
Celera SNP ID:            hCV15984106
SNP Position Genomic:     35525
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,11|G,35)   PGA-EUR(EAN-PANEL(A,4|G,40)   total(G,75|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25248):
GGGCATGGCTCCCTGACAAGGGAGAGAGGAAAAAGCTGTTGAGTGAAGAAGACTGCTTCAGTTTCCCCATCTGTATAATGGGAGGAGTAAGGGCTGTCGT
R
AAAACTCAATGAAAGAAGATTCTTCAACGTGGTAGGTGCAGTGGCAGCTGGCAGTACCCTGACCCTGCCACCGCACAGCCCTCTCAGCATTGCTCATCCT
Celera SNP ID:            hCV15984033
SNP Position Genomic:     31102
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,7|G,37)   PGA-EUR(EAN-PANEL(A,3|G,39)   total(G,76|A,10)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25249):
AAGATTCTTCAACGTGGTAGGTGCAGTGGCAGCTGGCAGTACCCTGACCCTGCCACCGCACAGCCCTCTCAGCATTGCTCATCCTGCACTGTGGATATCA
R
TTGAGCCACGTGTCTCCTGCCCTGGGCTGTGAGCTCCATAGGCAGGGTCTCCATGGCTGTATCTCCAGAACCCAGCACAGAACCAGGTGCTTGGGAAAGT
Celera SNP ID:            hCV15984034
SNP Position Genomic:     31218
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25250):
ATGAGGATGCGGAGGCACAGAGAAGATAAGGGACTTGTCCTGTGTCACACAGCAAGGAGCCATCCGGCTCCTAAGTTGGTGCATTTGACTTCTGTGCTTC
Y
GGAAAGAAAGAGCAGCAAGTTTAAGATCTGGAGGTGGCACTGAGCTTTGGAGGAGCAGGGGGCAATGAGGTGGCCGGTGTGACGAGGACTCAATGTGCAA
Celera SNP ID:            hCV15984035
SNP Position Genomic:     31941
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,9|C,39)   total(C,39|T,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25251):
CACCGTGCCCAGCTAATTTTTGTATATTTAGTAGAGATGGGGTTTCACTGCGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGATGATCCACTCGCCT
Y
GGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCTGGCCAGTGGAGTTCCTTCTTAAGTACATGTATTGACATCTTTAAAAAGGGCGAGAG
Celera SNP ID:            hCV27077120
SNP Position Genomic:     23837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;PCT-TFRICTN-PTNEL(T,17|C,29)   PCT-EUR(ETN-PTNEL(T,22|C,24)   total(C,53|T,39)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25252):
AGCAGCCGGGACTACAGGCACCTGCCACCGTGCCCAGCTAATTTTTGTATATTTAGTAGAGATGGGGTTTCACTGCGTTGGCCAGGCTGGTCTCAAACTC
Y
TGACCTCAGATGATCCACTCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCTGGCCAGTGGAGTTCCTTCTTAAGTACATGTA
Celera SNP ID:            hCV27077121
SNP Position Genomic:     23812
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25253):
CTCTGTCACCCAGGGTGGAACACAGTGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCTAGCGATTCTCCTGCCTCAGCCTCCTGAGCAGC
Y
GGGACTACAGGCACCTGCCACCGTGCCCAGCTAATTTTTGTATATTTAGTAGAGATGGGGTTTCACTGCGTTGGCCAGGCTGGTCTCAAACTCCTGACCT
Celera SNP ID:            hCV27077122
SNP Position Genomic:     23718
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25254):
GCTACTTGGGAGGCTGAGGTAGGAGAATGGCTTGAACCCAGGAGAAGGAGGTTGCAGTGAGCTTAGATCATGCTACTGCCCTCCAGCCTGGGCGACAGAG
Y
GAGATTACGTCTCAAAAAAATAAAAATAAATAAAAATAAAAAGATTTTTTAAAAGGCTGAAGTTTGGGTTACTTTGGCTCATACACTTTGCCTTCACTGT
Celera SNP ID:            hCV27077123
SNP Position Genomic:     22353
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,44)   total(C,2|T,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25255):
GAGGCCGGGTGTGGTGGTTCATGCCTATAATCCCAGCACTTTGGGAGGCCGAGCCCAGCGGATCACCGGAGGTCAGGAGTTCGAGACCAGCCTGGACAAC
R
TGGTAAAACCCCGTCTCTACTAAAAATACAAAAAATTAGTCTGGCATGGTGGCAGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGTAGGAGAATGG
Celera SNP ID:            hCV27077124
SNP Position Genomic:     22182
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,38)   total(G,2|A,38) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25256):
CTGGGCTTTTATATCATAGGATGCCTCTAATGGCAATCCTGCCATTAGATACACCTGCCGTGGTGTATCTGCCAGGTAGGCAGGCTAGGCTGCAGTAACA
M
ACAAGCCCACAATTTCCATGGCTTAACACTATAGGAATATATTTCTTGCTCACGTAACAAGCTAACGTGAATGTTGCTGGTTTGTAGGTGGTTTCCCTCC
Celera SNP ID:            hCV2769530
SNP Position Genomic:     29272
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,7)      total(A,4|C,7) ;PGA-AFRICAN-PANEL(A,20|C,28)   PGA-EUR(EAN-PANEL(A,7|C,37)   total(A,27|C,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:25257):
TGTGGCCAAAGGTGTGAAGGATGCAGCTGTAAAAGCTGAAGTTTGAGGCCGGGTGTGGTGGTTCATGCCTATAATCCCAGCACTTTGGGAGGCCGAGCCC
R
GCGGATCACCGGAGGTCAGGAGTTCGAGACCAGCCTGGACAACATGGTAAAACCCCGTCTCTACTAAAAATACAAAAAATTAGTCTGGCATGGTGGCAGG
Celera SNP ID:            hCV27077125
SNP Position Genomic:     22138
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,42)   total(G,2|A,42) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25258):
CCATTCTTCCCCTGTGGCCAGACACTTCCCCTGGCTGAGTCTCTGGGCTTTTATATCATAGGATGCCTCTAATGGCAATCCTGCCATTAGATACACCTGC
Y
GTGGTGTATCTGCCAGGTAGGCAGGCTAGGCTGCAGTAACACACAAGCCCACAATTTCCATGGCTTAACACTATAGGAATATATTTCTTGCTCACGTAAC
Celera SNP ID:            hCV2769531
SNP Position Genomic:     29230
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;(T,-|C,-)   PGA-AFRICAN-PANEL(T,11|C,37)   PGA-EUR(EAN-PANEL(T,19|C,25)   total(C,62|T,30)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25259):
ATGAATCAAAATAAAGAAAAATACTCAGTAAATCATCATAAAGTACAGAGATGTGGCCAAAGGTGTGAAGGATGCAGCTGTAAAAGCTGAAGTTTGAGGC
Y
GGGTGTGGTGGTTCATGCCTATAATCCCAGCACTTTGGGAGGCCGAGCCCAGCGGATCACCGGAGGTCAGGAGTTCGAGACCAGCCTGGACAACATGGTA
Celera SNP ID:            hCV27077126
SNP Position Genomic:     22087
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25260):
GTGACAGTGAGACTTTGTCTCAGGAAAAAAAAACAAAAACAAAAAACAAAAAACTCGTACCCCCTAAATTTATACAAATAACCAAAAAAAAAAAAAAAAA
A
GGAAATTGTGTGGCCTTTGAAGTCCAAAATATTAACTATCTGGCCTGTTACAGAAAAAGTTTGCAGACCCCTGGCCTAGCCCGTGAGATGTGGGTTGGCT
Celera SNP ID:            hCV27077128
SNP Position Genomic:     20777
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,10)   total(A,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25261):
GGTGACAGTGAGACTTTGTCTCAGGAAAAAAAAACAAAAACAAAAAACAAAAAACTCGTACCCCCTAAATTTATACAAATAACCAAAAAAAAAAAAAAAA
A
AGGAAATTGTGTGGCCTTTGAAGTCCAAAATATTAACTATCTGGCCTGTTACAGAAAAAGTTTGCAGACCCCTGGCCTAGCCCGTGAGATGTGGGTTGGC
Celera SNP ID:            hCV27077129
SNP Position Genomic:     20776
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,10)   total(A,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25262):
TAGAGGGTTGTCCAAGGAAGGCCACATCCAGAAGCATCTCCCAGGACAGTTGTTGTGTAGCTCACCCTCTGGACTTTGTGGGTCTGGGTGTTGTTTCATG
W
TTATAGAGAGAGCTCTGTGAACGTGGAGGACCTGTTGTCGGCAGAGACACAAATGGCCAGGGCATGGCTGGGCAGCCGCAGTGGCTCAGGCCTGTAATCC
Celera SNP ID:            hCV15983812
SNP Position Genomic:     16099
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|A,41)   total(A,41|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25263):
TTTCATCTGAGGCTCAATTGGGGAAGGGTCACTTCTAAGCTCATACAATATTGGTGACATTCAGTCCCTGGCAGGCTGTTGAACTGAGAGCCTCAGTTTC
S
TGCTGGCTGTTGGTTGTAGTTAACCCTGAATTCCTTCCCATGTGCCCTTTGCAAAGCCATCAAGGCAGAGAGACTTGCCTAGCAAGTAGGATATTACAGT
Celera SNP ID:            hCV2769537
SNP Position Genomic:     27607
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,7)      total(G,7|C,2) ;PGA-AFRICAN-PANEL(C,2|G,44)   PGA-EUR(EAN-PANEL(C,3|G,37)   total(G,81|C,5)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25264):
AGGAGGCCGAGGCAGGAGGATCGCTTGAGCCCAGGAGTTCGAGGTCAGCTTGGGCAACATAGGGAGACCTTGTCTCTACAAATAATAAAATATTAGCCAG
R
TGTGGCAGTGCACGCCTGTAGCCCCAGCTACTCAGGAGGCCGAGGTGGGAGGATCCCTTGAACTCAGGAGGTCAAGGCTGCAGTGAACTGTGATCGCGCC
Celera SNP ID:            hCV15983814
SNP Position Genomic:     16973
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,43)   total(G,43|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25265):
GGCACAGGCCACCACGCCAGGCTAATTTTTTGTATTTTTAGTAGCGACAGGGTCTCGCCATGTTGTCCGGGCTGGTCTGGATCTCCTGGCTTCAAGTGAT
M
CCCCTGGCTCAGCCTCCCAAGGTGCTGGGATTACAGGCTTGAGCCACCGCATCCAGCCCAGATCTGAGATTTGCACCCAGTATTTGAACTCCCAAGCCTG
Celera SNP ID:            hCV2769538
SNP Position Genomic:     26387
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;PGA-AFRICAN-PANEL(A,2|C,40)   PGA-EUR(EAN-PANEL(A,2|C,42)   total(A,4|C,82)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25266):
TTTTGTTGTTGTTGTTGTTGTTGAGACAGAGTCTCACTCTATCACCCAGGCTGGAATGCAGGGGCGTGATCATGGCTCACTGCATCCTTGACTTCCTGGG
M
TCAGGTGATTCTCCCACCTCTGCCTCCCAGGTAGCTGGGACTACAGGCACAGGCCACCACGCCAGGCTAATTTTTTGTATTTTTAGTAGCGACAGGGTCT
Celera SNP ID:            hCV2769539
SNP Position Genomic:     26241
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;PGA-AFRICAN-PANEL(C,14|A,24)   PGA-EUR(EAN-PANEL(C,21|A,23)   total(A,47|C,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:25267):
GTGACGGACCCACCAGAACCCCAGACTTCACCACTAGGCAGCATATCCAGTGAGAACAGATCTGAGGCTTGCCATCAAAATTGCACTTGTAAGGCCGGGC
R
CTGTGGTGGCTCGCGGCTGTAATCCCAGCCCTTTGGGAGGCCGAGGTGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCGGCCTGGCCAACATGGTGAA
Celera SNP ID:            hCV11771617
SNP Position Genomic:     20423
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;PGA-AFRICAN-PANEL(G,11|A,35)   PGA-EUR(EAN-PANEL(G,6|A,38)   total(G,17|A,73)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25268):
GTTTCCACCCCTGAACTTAAGTGCCCAGGAAGGCGTATTGAGATGAGGTGTGCTTGCTGGAAGGCATGCCTGCTGCTGATTGAAAACCGAACTGGGAACA
K
TCCTTCCATTCTGTGTCCACTGGTCAGCTGCTGCGGCTTTGGATGGTCTTGACCGTGGAAGGCTGACCTTCTTCTGGTACCCGGAGTCCCTGCAGGAATC
Celera SNP ID:            hCV11771619
SNP Position Genomic:     21741
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(G,2|T,7) ;PGA-AFRICAN-PANEL(G,21|T,27)   PGA-EUR(EAN-PANEL(G,18|T,26)   total(G,39|T,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:25269):
ATTTTTTGTATTTTTAGTAGCGACAGGGTCTCGCCATGTTGTCCGGGCTGGTCTGGATCTCCTGGCTTCAAGTGATCCCCCTGGCTCAGCCTCCCAAGGT
R
CTGGGATTACAGGCTTGAGCCACCGCATCCAGCCCAGATCTGAGATTTGCACCCAGTATTTGAACTCCCAAGCCTGTGCTCTTTTTCCTCCCATGGACAT
Celera SNP ID:            hCV15983964
SNP Position Genomic:     26411
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,38)   total(G,38|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25270):
GGGTCTCGCCATGTTGTCCGGGCTGGTCTGGATCTCCTGGCTTCAAGTGATCCCCCTGGCTCAGCCTCCCAAGGTGCTGGGATTACAGGCTTGAGCCACC
R
CATCCAGCCCAGATCTGAGATTTGCACCCAGTATTTGAACTCCCAAGCCTGTGCTCTTTTTCCTCCCATGGACATTTCTCTCAGAGATGGTCTCCCAAAC
Celera SNP ID:            hCV15983965
SNP Position Genomic:     26436
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,254|G,1237)   total(G,1237|A,254)   PGA-AFRIGAN-PANEL(A,4|G,36)   PGA-EUR(EAN-PANEL(A,3|G,39)   total(G,75|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25271):
TTAAAAAACAGACAAACCGCAAGTAGTTCTTTGGAAGCTCAGATTTCTCTTTTGTTTCTTAGTAAAACATTTCCCAGTTCCCAGCTCCCTTCCAGGGTGT
R
AGATTTCTTCGGTAACTTACATCTAGCTGTTGCTTCTTGTTTGCTCATGTTTAGAAAGAAAGACAAAAGAGAGTGAGAATTTTCTCTCCCTTCCCCAGTC
Celera SNP ID:            hCV15983966
SNP Position Genomic:     26651
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,44)   total(G,2|A,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25272):
TGACAGGAGTTTAAAACATGCGTTGTATTCCAGTGATGCATGATATGACATGCATCACAGGAATAAAAACCTGAGGTCTCATGGATATGATTGCTTCAAA
R
GAGACCAAGTTTTAAAACAGATGAATCAAAATAAAGAAAAATACTCAGTAAATCATCATAAAGTACAGAGATGTGGCCAAAGGTGTGAAGGATGCAGCTG
Celera SNP ID:            hCV15983893
SNP Position Genomic:     21966
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,7|G,41)   total(G,41|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25273):
CAGGTGGGGTTCCACTGGAGGCCAGTCTGTGTCCGGCCTCCCTGGCACCCTCGGGCATCTCAGAGAAGAGTAAATCCTCATCATCCTTCCATCCTGCCCC
Y
GGCAATGCTCAGAGCTCAAGCCAGACCCCCAAAATCGTGAACTTTGTCTCCGTGGGACCCACATACATGAGGGTCTCTTAGGTGCATGTCCTCTTGTTGC
Celera SNP ID:            hCV22272152
SNP Position Genomic:     40141
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,25)   caucasian(T,20)   total(C,5|T,45)
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:25274):
GTGTAACAAATGACCCCGAAATGTAGAGGGTTACAACAACTTTATTTAGCTTATGCTTCTGCAGGCTGGCATTTGGGGCTGGGCTCAGCAGTGAGGGTGG
Y
GGGGGAGGCTGGGCTGGGCTGGGCTGGGCAGATCTGAATTGAGCTGACCCGTCCCCGTAGCCTCCCTCCGTGTCTGACAGTTGGCTTTTTTTTTTTTTTT
Celera SNP ID:            hCV15984116
SNP Position Genomic:     36319
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|C,45)   total(C,45|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25275):
GTGGAGGGGTGGTCGGCGGTCAGATCGTGGAGGGTCTCGGACGAGGGTCCTGACCCTGGGTCTCCAGTCCTGGGAAGTGGAGCCCAGGCTGTACCATGGC
K
GACCTCAGCTCATGGCTTCCCCTCCCACTTCCAGCCTACAGGGAGCCCTTCGAGCAGCACCTCCTGCTGGGCGTCAGCGTTTCCTGCATTGTCATCCTGG
Celera SNP ID:            hCV15984045
SNP Position Genomic:     32166
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|T,41)   total(G,1|T,41) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25276):
CAGCCTACAGGGAGCCCTTCGAGCAGCACCTCCTGCTGGGCGTCAGCGTTTCCTGCATTGTCATCCTGGCCGTCTGCCTGTTGTGCTATGTCAGCATCAC
S
AAGTGAGTCCTGGGCCCAGTGCTGCCGAGCAGTCCCTCTGGAGTGCAGGGTGGCAGGGACTTGCCCCTCTAGTCTGCCCCTTTGCAGTCCTCTCAGTCAA
Celera SNP ID:            hCV15984046
SNP Position Genomic:     32298
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|C,34)   total(G,2|C,34) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:25277):
TGCACTTGTAAGGCCGGGCACTGTGGTGGCTCGCGGCTGTAATCCCAGCCCTTTGGGAGGCCGAGGTGGGCAGATCACTTGAGGTCAGGAGTTCGAGACC
R
GCCTGGCCAACATGGTGAAGCTCCATCTCTACTAAAAATACAACAATTAACTGGGTGTAGTGGCGCACACCTGTAATCCCAGCTACTAGGGAGGCTGAGG
Celera SNP ID:            hCV27077130
SNP Position Genomic:     20504
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,42)   total(G,42|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25278):
GCATGTCTGAAGTAGACAGCCATCAGGACATGGTGATTTCAGGCTGGGCTTTGAAGAATGAATAGGAGTTTTTCAAGTGTCGAAACTGAACCCTGACCAA
M
CTTTGCTTTTGCAGACACTGGAAGAATTGTCTTACCAAGCTCTTGCCCTGTTTTCTGGAGCACAACATGAAAAGGGATGAAGATCCTCACAAGGCTGCCA
Celera SNP ID:            hCV22272514
SNP Position Genomic:     38629
SNP Source:               Applera
Population(Allele,Count): african american(A,11|C,25)   caucasian(A,1|C,35)   total(A,12|C,60)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,22|C,22)   PGA-EUR(EAN-PANEL(A,10|C,32)   total(A,32|C,54) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25279):
CAGAACCCCAGACTTCACCACTAGGCAGCATATCCAGTGAGAACAGATCTGAGGCTTGCCATCAAAATTGCACTTGTAAGGCCGGGCACTGTGGTGGCTC
R
CGGCTGTAATCCCAGCCCTTTGGGAGGCCGAGGTGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCGGCCTGGCCAACATGGTGAAGCTCCATCTCTAC
Celera SNP ID:            hCV27077131
SNP Position Genomic:     20436
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;PGA-AFRICAN-PANEL(A,16|G,30)   PGA-EUR(EAN-PANEL(A,15|G,29)   total(G,59|A,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:25280):
TGTTGGCCAAGCTGGTCTCGAACTCCTGAACTCAGGTGATCCACCCGCCTCAGCGTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGAGCCCGGCCT
Y
CTCCTTTATCTTAATTGAAATAATTCAGAAATGGAAAGTCAAATACTGCATGTTCTCACTTATAAGTAAGAGTTAAATAATGTGTACACATGGGCATTAT
Celera SNP ID:            hCV27077132
SNP Position Genomic:     20124
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,39)   total(C,39|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25281):
CACCCGGCTAATTTTTCGTATTTTTAGTAGAGACCGGTTTTCATCATGTTGGCCAAGCTGGTCTCGAACTCCTGAACTCAGGTGATCCACCCGCCTCAGC
S
TCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGAGCCCGGCCTCCTCCTTTATCTTAATTGAAATAATTCAGAAATGGAAAGTCAAATACTGCATGTT
Celera SNP ID:            hCV27077133
SNP Position Genomic:     20078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;PGA-AFRICAN-PANEL(G,16|C,26)   PGA-EUR(EAN-PANEL(C,21|G,25)   total(G,41|C,47)   (C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25282):
CCACACCCGGCTAATTTTTCGTATTTTTAGTAGAGACCGGTTTTCATCATGTTGGCCAAGCTGGTCTCGAACTCCTGAACTCAGGTGATCCACCCGCCTC
R
GCGTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGAGCCCGGCCTCCTCCTTTATCTTAATTGAAATAATTCAGAAATGGAAAGTCAAATACTGCAT
Celera SNP ID:            hCV27077134
SNP Position Genomic:     20075
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,41)   total(G,1|A,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25283):
AAAGTTTAGTTAGAGCCCTGAATGCCTGCCTCATAATGGTTTCCATATTTTATATGCCTACTATGTGCCAGGCACATTGCTCAGGGTCACACAGCTGGAA
R
TGGCAGGGCTGAGTTTTTGTTGTTGTTGTTGTTGTTGAGACAGAGTCTCACTCTATCACCCAGGCTGGAATGCAGGGGCGTGATCATGGCTCACTGCATC
Celera SNP ID:            hCV2769540
SNP Position Genomic:     26126
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;PGA-AFRICAN-PANEL(G,2|A,38)   PGA-EUR(EAN-PANEL(G,1|A,41)   total(G,3|A,79)
SNP Type:                 INTRON


Context             (SEQ ID NO:25284):
AAGCGATTCTCCTGTCTCAGCCTCCCGAGTAGTTGGGATTAATGGTGCCTGCCACCACACCCGGCTAATTTTTCGTATTTTTAGTAGAGACCGGTTTTCA
Y
CATGTTGGCCAAGCTGGTCTCGAACTCCTGAACTCAGGTGATCCACCCGCCTCAGCGTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGAGCCCGGC
Celera SNP ID:            hCV27077135
SNP Position Genomic:     20021
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,8|T,34)   PGA-EUR(EAN-PANEL(C,6|T,40)   total(C,14|T,74) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25285):
TGTTTGTTTGTTTGTTTGTTTTCTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTGCCTC
S
CGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCCGAGTAGTTGGGATTAATGGTGCCTGCCACCACACCCGGCTAATTTTTCGTATTTTTAGTAGAGACCG
Celera SNP ID:            hCV27077136
SNP Position Genomic:     19913
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,4|C,44)   total(G,4|C,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25286):
CTGGAGTTGCAGGCAGTGGAGTTCTGTCCTAAGCAGTGGGCACCTAAACCCGATGGCATAAAAGCTGGGCGGGTGTCCACCTGCATCTGCCACAGCACTG
Y
AGGCACCAACTGTGGCTCATACTGAGTGGGATAAATTCCAGAAAGAAACATTAGGAACTTACTATAGAATTTTGGGGCTAGAGCTACTCATTCATTCCCC
Celera SNP ID:            hCV2769541
SNP Position Genomic:     25702
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;(T,-|C,-)   PGA-AFRICAN-PANEL(C,24|T,24)   PGA-EUR(EAN-PANEL(T,20|C,26)   total(C,50|T,44)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25287):
ATCCGGCCCACTGCTTGTTTTTGTAAATAAAGTTTTATTGGAACACACTGGCTGCTGTAGTTGTAACAGAAACTGCATGGCCCTCCTTTATGTTTTTTTT
T
GTTTGTTTGTTTGTTTGTTTGTTTTCTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTGC
Celera SNP ID:            hCV27077137
SNP Position Genomic:     19809
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25288):
CCTGGAGTTGCAGGCAGTGGAGTTCTGTCCTAAGCAGTGGGCACCTAAACCCGATGGCATAAAAGCTGGGCGGGTGTCCACCTGCATCTGCCACAGCACT
R
CAGGCACCAACTGTGGCTCATACTGAGTGGGATAAATTCCAGAAAGAAACATTAGGAACTTACTATAGAATTTTGGGGCTAGAGCTACTCATTCATTCCC
Celera SNP ID:            hCV2769542
SNP Position Genomic:     25701
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;(A,-|G,-)   PGA-AFRICAN-PANEL(A,24|G,24)   PGA-EUR(EAN-PANEL(A,20|G,26)   total(G,50|A,44)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25289):
AATCCGGCCCACTGCTTGTTTTTGTAAATAAAGTTTTATTGGAACACACTGGCTGCTGTAGTTGTAACAGAAACTGCATGGCCCTCCTTTATGTTTTTTT
T
TGTTTGTTTGTTTGTTTGTTTGTTTTCTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTG
Celera SNP ID:            hCV27077138
SNP Position Genomic:     19808
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25290):
GAGGTGGGAGGATCCCTTGAACTCAGGAGGTCAAGGCTGCAGTGAACTGTGATCGCGCCACTCCACTCCAGCCTGCGTGAGAAAGTGAGACCCTGTCAAA
M
AAAAAGAGAAGGTGATGGGGAAAGAACACAGAACAGCATAAGAGGGGGTTGGGGAAGCTGGGTGGAGTGGGGGGGATTGCAGTTGAAAGTAGGGAAGTCA
Celera SNP ID:            hCV15983821
SNP Position Genomic:     17115
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|A,41)   total(A,41|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25291):
AAATCCGGCCCACTGCTTGTTTTTGTAAATAAAGTTTTATTGGAACACACTGGCTGCTGTAGTTGTAACAGAAACTGCATGGCCCTCCTTTATGTTTTTT
T
TTGTTTGTTTGTTTGTTTGTTTGTTTTCTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCT
Celera SNP ID:            hCV27077139
SNP Position Genomic:     19807
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25292):
TTAATATTTTCATATTTCTAGATCTGCCTTCAGGCATGGCTGGATCCAGCTTCTAGGAACCTGTCCAGCTCTGCGCCCTGCTTTATTCTGTACTGGCTTC
R
TTTTTAGGCAGGCTCTTCCCTCATGTAGTGGCAGATATGCCTACTAGTTGCTCCAGGCCTACATCCCAAAGCCACAGTGGGAAAAGGGTTTTTTTTCTTG
Celera SNP ID:            hCV2769544
SNP Position Genomic:     24918
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;PGA-AFRICAN-PANEL(A,21|G,25)   PGA-EUR(EAN-PANEL(G,21|A,23)   total(G,46|A,44)
SNP Type:                 INTRON


Context             (SEQ ID NO:25293):
TGAGAAAGTGAGACCCTGTCAAAAAAAAAGAGAAGGTGATGGGGAAAGAACACAGAACAGCATAAGAGGGGGTTGGGGAAGCTGGGTGGAGTGGGGGGGA
Y
TGCAGTTGAAAGTAGGGAAGTCAGGGAAGGCCTCATTGAGCTGACTTGGAGGAAGCGGGAACCGTGCAGATGTCTGGGGAAGGCTCATTCTTGGCAGAGA
Celera SNP ID:            hCV15983822
SNP Position Genomic:     17192
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,44)   total(C,2|T,44) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25294):
GTGTGATACAGATGAGCTCCCCTGTTTGGCCCACATGTGTCCTAAAAGCCATGTGCCCTTTCTCTTGAGTGCCCCAGGCCACAGAGATCCCCATCTGCCC
R
CTGTCCCACACACTGGTCTGTCATTTGTTCCTTGAGGTTTGTGAGGGCCGGCTCTGTGCATCCCAGGGGCCCAGGCTGGGCCTGGTTGGCTCTCAGGGAG
Celera SNP ID:            hCV2769545
SNP Position Genomic:     24370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;PGA-AFRICAN-PANEL(A,4|G,40)   PGA-EUR(EAN-PANEL(A,3|G,39)   total(G,79|A,7)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25295):
CAAAATCGTGAACTTTGTCTCCGTGGGACCCACATACATGAGGGTCTCTTAGGTGCATGTCCTCTTGTTGCTGAGTCTGCAGATGAGGACTAGGGCTTAT
Y
CATGCCTGGGAAATGCCACCTCCTGGAAGGCAGCCAGGCTGGCAGATTTCCAAAAGACTTGAAGAACCATGGTATGAAGGTGATTGGCCCCACTGACGTT
Celera SNP ID:            hCV15984195
SNP Position Genomic:     40271
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,28)   total(C,57|T,1)
SNP Type:                 UTR 3;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:25296):
ACTGGACCCCGCCCAGCATTGGGCTGGGCTCGCCACATCCCATGAGAGTAGAGGGCACTGGGTCGCCGTGCCCCACGGCAGGCCCCTGCAGGAAAACTGA
R
GCCCTTGGGCACCTCGACTTGTGAACGAGTTGTTGGCTGCTCCCTCCACAGCTTCTGCAGCAGACTGTCCCTGTTGTAACTGCCCAAGGCATGTTTTGCC
Celera SNP ID:            hCV15984196
SNP Position Genomic:     40494
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:25297):
ATGGAGGCGCCTGAGTGGTCTCATGCTCAGGTGGTTTAGCAAACTCAGTGTACATCCTGCCAATTCCAGTCCTGCCATGGCCACTGACAAGCTAGGAGGG
Y
GCTGAAAGGAGAAGGACCCCGATGTCTCCTCCAGCCCATCCATCTCCTCTCTCCCATTGGCCAAACCCAACCGGAAACTAAAGGCCAAGGGTACCCGGTG
Celera SNP ID:            hCV15983823
SNP Position Genomic:     17957
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,46)   total(C,46|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25298):
GCCCAGCATTGGGCTGGGCTCGCCACATCCCATGAGAGTAGAGGGCACTGGGTCGCCGTGCCCCACGGCAGGCCCCTGCAGGAAAACTGAGGCCCTTGGG
M
ACCTCGACTTGTGAACGAGTTGTTGGCTGCTCCCTCCACAGCTTCTGCAGCAGACTGTCCCTGTTGTAACTGCCCAAGGCATGTTTTGCCCACCAGATCA
Celera SNP ID:            hCV15984197
SNP Position Genomic:     40504
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|C,45)   total(A,1|C,45) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:25299):
TGACAGCTCACTTGAATAACCCTATTATTGAAGAGAATAATACTGACTCAAGAGACAGTGACCCGTGTCAGTTCCCTTTTGAGGCCAACGGGTTAAGGAG
R
AAGTCCCCATACAGCTGACTCGTTTACTAATTCCTCTTAATGAAGAGAGCAGAGGCCACACCCCAGGCTTAGACTTTCCCAAGAAAACAAGATCAGTTTG
Celera SNP ID:            hCV2769548
SNP Position Genomic:     23425
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;PGA-AFRICAN-PANEL(A,2|G,44)   PGA-EUR(EAN-PANEL(A,3|G,43)   total(G,87|A,5)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25300):
GCAAGTCCCTTTGCTTCCTGGCCCCCCACCCCTCACATCAGAGAAGGGGAGTTATCTCTGCATGCCGCTCCTCCTCTGTAAAGGTAGGGCTGTGGGCCAC
R
TCTGTGTTTCCCAGTTTGGGGGACACAAGTGATCGTAGGTGGCACATTGACAGCTCACTTGAATAACCCTATTATTGAAGAGAATAATACTGACTCAAGA
Celera SNP ID:            hCV2769549
SNP Position Genomic:     23277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;(G,-|A,-)   PGA-AFRICAN-PANEL(G,22|A,24)   PGA-EUR(EAN-PANEL(A,22|G,24)   total(G,46|A,46)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25301):
GTACATCCTGCCAATTCCAGTCCTGCCATGGCCACTGACAAGCTAGGAGGGCGCTGAAAGGAGAAGGACCCCGATGTCTCCTCCAGCCCATCCATCTCCT
S
TCTCCCATTGGCCAAACCCAACCGGAAACTAAAGGCCAAGGGTACCCGGTGATGAAGACTGTGGTATCAGCCTCCTGAGCACAGAGAGGGCAGAAAGGGG
Celera SNP ID:            hCV15983829
SNP Position Genomic:     18006
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|C,46)   total(G,2|C,46) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25302):
CCCCACCCTCAGCTCCCTCTGTAATAGGAAAATCTCTGAACTCTCTGTAGTTGCTCCAGCAATCTTTTGGAACTTTGCTTCTTTCTTGTGAAAAAACCTC
Y
CCTTGGCTCACTTTGCACCAGGTTTCCCCAAATGTGCTTCCAACCACAAGCAGAAATGGAGCTGCCAGTAACCAGGAAGAAACTGCCGGGGGCTGAGGAA
Celera SNP ID:            hCV15983973
SNP Position Genomic:     26867
SNP Source:               dbSNP
Population(Allele,Count): PCT-TFRICTN-PTNEL(T,5|C,37)   PCT-EUR(ETN-PTNEL(T,2|C,40)   total(C,77|T,7)   JBIC-allele(T,259|C,1228)   total(C,1228|T,259)   (T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25303):
GTTGGGAGTCTGGACATAGCTTAGCCAGGTTCTCTGCTTTAGAGTCTCGTGAGGCTATAATCAAGGTGTGGGATGGGGCTGCAGTTTCATCTGAGGCTCA
R
TTGGGGAAGGGTCACTTCTAAGCTCATACAATATTGGTGACATTCAGTCCCTGGCAGGCTGTTGAACTGAGAGCCTCAGTTTCGTGCTGGCTGTTGGTTG
Celera SNP ID:            hCV15983974
SNP Position Genomic:     27523
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,44)   total(G,2|A,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25304):
GACTAAAGCAGGGACAATTTGCTGCCAAACACCCATGCCCAGCTGTATGGCTGGGGGCTCCTCGTATGCATGGAACCCCCAGAATAAATATGCTCAGCCA
Y
CCTGTGGGCCGGGCAATCCAGACAGCAGGCATAAGGCACCAGTTACCCTGCATGTTGGCCCAGACCTCAGGTGCTAGGGAAGGCGGGAACCTTGGGTTGA
Celera SNP ID:            hCV8903081
SNP Position Genomic:     40960
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:25305):
CAAATCCGGCCCACTGCTTGTTTTTGTAAATAAAGTTTTATTGGAACACACTGGCTGCTGTAGTTGTAACAGAAACTGCATGGCCCTCCTTTATGTTTTT
T
TTTGTTTGTTTGTTTGTTTGTTTGTTTTCTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTC
Celera SNP ID:            hCV27077140
SNP Position Genomic:     19806
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,6)   total(T,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25306):
ATTTTTTTTTGTATTTTTGGTAGAGACAGGTTTCACCATGTTGGCCAGGCTGGTTGTGAACTCCTAAAGTGCTGGGATTACAGATGTGAGCCACCACGCC
Y
GGCCCCAGTACACACTTTTTGGAGGGTATTTGACGTTATGTACCAGGAGTGCTGGGGAAAAGTACACACTTGACTCCGTGAGATTCTGCTTCTTAGCATT
Celera SNP ID:            hCV27500778
SNP Position Genomic:     14240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25307):
TTCATTTAACAGAGCTTCCTTAGGTTGATGCTGGAGGCAGAATCCCGGCTGTCAAGGGGTGTTCAGTTAAGGGGAGCAACAGAGGACATGAAAAATTGCT
R
TGACTAAAGCAGGGACAATTTGCTGCCAAACACCCATGCCCAGCTGTATGGCTGGGGGCTCCTCGTATGCATGGAACCCCCAGAATAAATATGCTCAGCC
Celera SNP ID:            hCV8903085
SNP Position Genomic:     40858
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): IB| family(G,16|A,31)      total(G,16|A,31) ;(A,-|G,-)   PGA-AFRICAN-PANEL(G,14|A,32)   PGA-EUR(EAN-PANEL(G,21|A,23)   total(G,35|A,55)   POOLE|_CEPH(A,79|G,109)   total(G,109|A,79)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25308):
TTGTGAACGAGTTGTTGGCTGCTCCCTCCACAGCTTCTGCAGCAGACTGTCCCTGTTGTAACTGCCCAAGGCATGTTTTGCCCACCAGATCATGGCCCAC
R
TGGAGGCCCACCTGCCTCTGTCTCACTGAACTAGAAGCCGAGCCTAGAAACTAACACAGCCATCAAGGGAATGACTTGGGCGGCCTTGGGAAATCGATGA
Celera SNP ID:            hCV8903086
SNP Position Genomic:     40613
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): IB| family(G,18|A,29)      total(G,18|A,29) ;(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:25309):
CTCGCCCCCTACAACCCCCCTGAGGGCCCCAGACCCCTCTCCAGGTGGGGTTCCACTGGAGGCCAGTCTGTGTCCGGCCTCCCTGGCACCCTCGGGCATC
Y
CAGAGAAGAGTAAATCCTCATCATCCTTCCATCCTGCCCCTGGCAATGCTCAGAGCTCAAGCCAGACCCCCAAAATCGTGAACTTTGTCTCCGTGGGACC
Celera SNP ID:            hCV8903087
SNP Position Genomic:     40100
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Hutterites, South |akota(C,12|T,1375)      total(C,12|T,1375) ;(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25310):
TGTGGTGGTGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCACC
R
CTGCACTCCAGCCTTGGAGACAGAGCGAGACTCTGTCTCGGAAAAACAAACAAACAAGCAAACAAACAAACAAATAAATGGCCAGGGCAGGGGAGGGTTG
Celera SNP ID:            hCV27077143
SNP Position Genomic:     16409
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,12)   caucasian(A,20|G,20)   total(A,40|G,32)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25311):
CATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGTGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATC
R
CTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCACCGCTGCACTCCAGCCTTGGAGACAGAGCGAGACTCTGTCTCGGAAAAACAAACAAAC
Celera SNP ID:            hCV27077144
SNP Position Genomic:     16364
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,46)   total(G,46|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25312):
GGCTCTGCCCTAGGCAAGTCCCTTTGCTTCCTGGCCCCCCACCCCTCACATCAGAGAAGGGGAGTTATCTCTGCATGCCGCTCCTCCTCTGTAAAGGTAG
R
GCTGTGGGCCACATCTGTGTTTCCCAGTTTGGGGGACACAAGTGATCGTAGGTGGCACATTGACAGCTCACTTGAATAACCCTATTATTGAAGAGAATAA
Celera SNP ID:            hCV2769550
SNP Position Genomic:     23264
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;(G,-|A,-)   PGA-AFRICAN-PANEL(A,4|G,42)   PGA-EUR(EAN-PANEL(A,3|G,43)   total(G,85|A,7)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25313):
TGGTCTTGAACTCCTGGGCTCAAGCCATCCTCCCTCCTTAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACACCTGGCTTCTGAACATTTTT
T
CTTAATGATAATAGCTGGTGCTATGGGCTGAATGTGTTCCCCCAAATTCATATGTTGAAACTTCATCCCATTGTAGTCATATTAAGAGATGGGGCCTTTG
Celera SNP ID:            hCV27077145
SNP Position Genomic:     14925
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,8)   total(-,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25314):
AGGCAAGCCCTGGGGCTGGATAGCAAATCCCAGGAGCTAGAGACCTGGCTTCTCACCTGGCTCTGCCCTAGGCAAGTCCCTTTGCTTCCTGGCCCCCCAC
Y
CCTCACATCAGAGAAGGGGAGTTATCTCTGCATGCCGCTCCTCCTCTGTAAAGGTAGGGCTGTGGGCCACATCTGTGTTTCCCAGTTTGGGGGACACAAG
Celera SNP ID:            hCV2769551
SNP Position Genomic:     23206
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;PGA-AFRICAN-PANEL(T,14|C,34)   PGA-EUR(EAN-PANEL(T,21|C,25)   total(C,59|T,35)   (T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25315):
CATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCAAAAAAATAAAATGAAATAAAATAAAATAAAATGTTAAAAAACAAAAAAGAAGAAGAA
G
TGTAGGTGGCAGGCGTAGGATGCATGGGTGCTGGGCCCAGGTGGAGAGGGAGGTGGAGCCCTGCTGGGGGGAGGGCCTTCAAGTGTGCCCAAGTCACTCG
Celera SNP ID:            hCV27077146
SNP Position Genomic:     13526
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25316):
ATGTCTCCGACACTCTGCTGCTGACCTGGAGCAACCCGTATCCCCCTGACAATTACCTGTATAATCATCTCACCTATGCAGTCAACATTTGGAGTGAAAA
Y
GACCCGGCAGATGTGAGTGGGCATGCTTTGACGTTTTTCTGTGACCTCTGGGGAACAGGGTGGGTGACCAGCAGAGGCCCAGTCCCTGGAGCCAGGAGCC
Celera SNP ID:            hCV2769552
SNP Position Genomic:     23001
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:25317):
CCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCAAAAAAATAAAATGAAATAAAATAAAATAAAATGTTAAAAAACAAAAAAGAAGAAGA
A
GTGTAGGTGGCAGGCGTAGGATGCATGGGTGCTGGGCCCAGGTGGAGAGGGAGGTGGAGCCCTGCTGGGGGGAGGGCCTTCAAGTGTGCCCAAGTCACTC
Celera SNP ID:            hCV27077147
SNP Position Genomic:     13525
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25318):
CGACCAAAAATCTGGGTGGTGGCTGTGGTTTGTAGGCCGGGGCTGGGCTGGGTGATGGGGGAGTCACTGCATAGATCCTCACATAGAGGCCGCTTCTCCC
R
CAGTGAAACCCAGGGCCCCAGGAAACCTGACAGTTCACACCAATGTCTCCGACACTCTGCTGCTGACCTGGAGCAACCCGTATCCCCCTGACAATTACCT
Celera SNP ID:            hCV2769553
SNP Position Genomic:     22858
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;PGA-AFRICAN-PANEL(A,2|G,46)   PGA-EUR(EAN-PANEL(A,2|G,36)   total(G,82|A,4)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25319):
CATCCTGCCAATTCCAGTCCTGCCATGGCCACTGACAAGCTAGGAGGGCGCTGAAAGGAGAAGGACCCCGATGTCTCCTCCAGCCCATCCATCTCCTCTC
W
CCCATTGGCCAAACCCAACCGGAAACTAAAGGCCAAGGGTACCCGGTGATGAAGACTGTGGTATCAGCCTCCTGAGCACAGAGAGGGCAGAAAGGGGTGG
Celera SNP ID:            hCV15983830
SNP Position Genomic:     18009
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|T,46)   total(A,2|T,46) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25320):
GCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCAAAAAAATAAAATGAAATAAAATAAAATAAAATGTTAAAAAACAAAAAAGAAGAAG
A
AGTGTAGGTGGCAGGCGTAGGATGCATGGGTGCTGGGCCCAGGTGGAGAGGGAGGTGGAGCCCTGCTGGGGGGAGGGCCTTCAAGTGTGCCCAAGTCACT
Celera SNP ID:            hCV27077148
SNP Position Genomic:     13524
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25321):
GCGGTTCCTGGAGGCATGTCCCGGACACAGCTGTGGGGCCCAGCCAGCCTACAGGTGACCAGCCTAACCCAGCCCCTGTGTCTGCAGAGCCCACACGTGT
N
TCCCTGAGAACAACGGAGGCGCGGGGTGCGTGTGCCACCTGCTCATGGATGACGTGGTCAGTGCGGATAACTATACACTGGACCTGTGGGCTGGGCAGCA
Celera SNP ID:            hCV2769554
SNP Position Genomic:     21277
SNP Source:               Celera;HGMD;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25322):
GGCCGGGGCTGGGCTGGGTGATGGGGGAGTCACTGCATAGATCCTCACATAGAGGCCGCTTCTCCCGCAGTGAAACCCAGGGCCCCAGGAAACCTGACAG
K
TCACACCAATGTCTCCGACACTCTGCTGCTGACCTGGAGCAACCCGTATCCCCCTGACAATTACCTGTATAATCATCTCACCTATGCAGTCAACATTTGG
Celera SNP ID:            hCV27957686
SNP Position Genomic:     22892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25323):
GCCACTGACAAGCTAGGAGGGCGCTGAAAGGAGAAGGACCCCGATGTCTCCTCCAGCCCATCCATCTCCTCTCTCCCATTGGCCAAACCCAACCGGAAAC
Y
AAAGGCCAAGGGTACCCGGTGATGAAGACTGTGGTATCAGCCTCCTGAGCACAGAGAGGGCAGAAAGGGGTGGAGACAAAGAGGGGCGCAGATAGTGGGC
Celera SNP ID:            hCV15983831
SNP Position Genomic:     18036
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,46)   total(C,2|T,46) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25324):
GGAGTGCAGTGGCTCAATCTTGGCTCACTGCAAGCTCCGCCTCCCGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACC
Y
GCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACTGAGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCTGCC
Celera SNP ID:            hCV27077149
SNP Position Genomic:     10421
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25325):
TCACCTGTCAATAATTCAGAGATCAACACCTTTTCCTTTTGTTTTTCAGGATTAAGAAAGAATGGTGGGATCAGATTCCCAACCCAGCCCGCAGCCGCCT
S
GTGGCTATAATAATCCAGGATGCTCAGGTAGGAGTAGGCGTGGATGAGGACATGTGGGACTGTGTACATGAAGAAGTGTGGTTCAGAACACCTGGGCTGT
Celera SNP ID:            hCV11715747
SNP Position Genomic:     35359
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:25326):
AGAATGAATAGGAGTTTTTCAAGTGTCGAAACTGAACCCTGACCAACCTTTGCTTTTGCAGACACTGGAAGAATTGTCTTACCAAGCTCTTGCCCTGTTT
Y
CTGGAGCACAACATGAAAAGGGATGAAGATCCTCACAAGGCTGCCAAAGAGATGCCTTTCCAGGGCTCTGGAAAATCAGCATGGTGCCCAGTGGAGATCA
Celera SNP ID:            hCV11715748
SNP Position Genomic:     38683
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,39)   total(C,1|T,75)
SNP Type:                 SILENT MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): IB| family(C,1|T,40)      total(C,1|T,40) ;PGA-EUR(EAN-PANEL(C,2|T,40)   total(C,2|T,40)(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:25327):
GCACTTTGGGAGCCCAGCGCAGGCAGATCACTTGAGCCCTGGGCTATTGAGGCTGCAGTGAGCTGGGATTGTGCCACTGCACTCCAGCCTGGGCAACAGA
R
TGGGACCCTGTCTCAAAAAAGAAGAAAAAAAGGGTAATTAATAAACACTAAAGTTCTATGTAGAATTTTAGCAACATTATTGTTATTATAATCTTCTTTG
Celera SNP ID:            hCV15983907
SNP Position Genomic:     22605
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,41)   total(G,41|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25328):
TGGGAGGGTGGGAGAGGGGTGAAGGAAGAGAAGTTACTTAATGGGCATAGTGTACACCATTTGGGTGACGGACCCACCAGAACCCCAGACTTCACCACTA
K
GCAGCATATCCAGTGAGAACAGATCTGAGGCTTGCCATCAAAATTGCACTTGTAAGGCCGGGCACTGTGGTGGCTCGCGGCTGTAATCCCAGCCCTTTGG
Celera SNP ID:            hCV2769557
SNP Position Genomic:     20359
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;PGA-AFRICAN-PANEL(T,8|G,36)   PGA-EUR(EAN-PANEL(T,6|G,36)   total(G,72|T,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:25329):
TTAAAAAGGGCGAGAGGATTTACAGGAAACTATCAGGTCAGTAATGGCAGGGGCCGTCCACAGTGGGTGGCTGAGTCCCCCTATTTTTCTGCTGGTGTGC
R
GGGAGGTCATTTCCTGCCACCCATGTTTCCCCACCCTGAATCCACCTTCCTCACATTCCCATTGGAGGGACACTCTCTGGACATATGGGACCTGGGGTCC
Celera SNP ID:            hCV11771632
SNP Position Genomic:     24022
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;PGA-AFRIGAN-PANEL(A,14|G,34)   PGA-EUR(EAN-PANEL(A,19|G,27)   total(G,61|A,33)   JBIC-allele(A,214|G,493)   total(G,493|A,214)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25330):
CTAGCTCGAGGGCAGAGGCTTGGTGTGATGGAATGGCACTCCTTAAACTGCTACATATTTTCCCTTTAATTTGGCCAAGAACAAGTTGTCAAGTTTGTGT
R
AGATAAAGGTGCACTTGGTTCGTTCTTGTCTAATGGCCCCCGCACCCATGGGTATTTCTTCAGCTTCCACAGTCATCCCGACACTAGCTGGGAAGCTCCA
Celera SNP ID:            hCV15983838
SNP Position Genomic:     18259
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25331):
ATGGTTTGCTGCTGTTTATATGGTGTTAGAGGGGAGGTCCCATCTCCAGGGACATGTTATGTAAGATACAGTGGAGCGCATGGTGGGAGTGTTGGTCCAC
R
TGGCACATGGATACGGCTGGAATACTGGACTAGACCAGCAGTTCTCACACTTTTTGGTCTCAGGACCCTTTTTCACACTTAAAAATGAGTGAGGACCCAA
Celera SNP ID:            hCV15983839
SNP Position Genomic:     18856
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|G,41)   total(G,41|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25332):
CTGAAAATAAGGCAGGAGTGGCTTCCCCAGGGGAAACTGGGGAAGAGGAAGCAGGACTGTGCTGGCTAAAATGCCAGCCAGGTTTAAGACGTGGCACCAG
A
TGCCAGTCATGGGATTGGATTGGTCAGCATGCCTGGGCTATGGCTTAGGGGTATGTTGGTGCTCAGGGATGCCACAGGCCTCCAGATACCAGGTCTGAGG
Celera SNP ID:            hCV11771637
SNP Position Genomic:     25306
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25333):
CCAGCCCCATCTCTCTTTAAAAAACAAACAAACAAACAAAAAACATAAAAAGAAGCAGAGAACACATACACATCTGCATCTTCCCTTGTTTACTTAACAA
Y
AGATCTTGGAAGTCACTTCTCAGTAGAGGCTAGGTTGGGCAGAGCATTGGATTCTAGGCCAGTGAGTTTGGACTTGACCATGGAGACACTAGGAAGCCCA
Celera SNP ID:            hCV15983982
SNP Position Genomic:     28302
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,41)   PGA-EUR(EAN-PANEL(C,2|T,38)   total(C,3|T,79) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25334):
ACAAAAAACATAAAAAGAAGCAGAGAACACATACACATCTGCATCTTCCCTTGTTTACTTAACAATAGATCTTGGAAGTCACTTCTCAGTAGAGGCTAGG
Y
TGGGCAGAGCATTGGATTCTAGGCCAGTGAGTTTGGACTTGACCATGGAGACACTAGGAAGCCCATGAAGGACAGAGAGAGATGCCTCGACCCTGCCAGT
Celera SNP ID:            hCV15983983
SNP Position Genomic:     28337
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,40)   total(C,2|T,40) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25335):
ACCCTATTTGAAATACTTACGTATATTAACCCATTTCCTTATCACCACAACCCTGCGGGAAGGGAGATAGGCACTTTTATTATCTTCATTTTGCAGATGA
S
GACATTGAGGTCCAGAGAGGTTATGTCACTTACTTAAGGTCACACAGCCAGGAAGTGGTAGTAGGGACTCTTACCCTTGTTTTACAGATGAGATTGAATT
Celera SNP ID:            hCV15983984
SNP Position Genomic:     28575
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|G,45)   total(G,45|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25336):
CCACCTGTGCGGCCACCTGAAACAGTGTCATGGCCAGGAGGATGGTGGCCAGACCCCTGTCATGGCCAGTCCTTGCTGTGGCTGCTGCTGTGGAGACAGG
K
CCTCGCCCCCTACAACCCCCCTGAGGGCCCCAGACCCCTCTCCAGGTGGGGTTCCACTGGAGGCCAGTCTGTGTCCGGCCTCCCTGGCACCCTCGGGCAT
Celera SNP ID:            hCV8903091
SNP Position Genomic:     39998
SNP Source:               Applera
Population(Allele,Count): african american(G,13|T,19)   caucasian(G,1|T,17)   total(G,14|T,36)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): IB| family(G,1|T,88)      total(G,1|T,88) ;(G,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25337):
GGATGGGAGGAGATTCAGAGCACTCCTCTGTGGCCACTTTTGCCATCGACCACAGTCCCTGTAAATATTAGGACAATGTAATTAATTCCCAGGAATCTGA
R
GCTCAGAAAGCGTAAGTGACCTGTTGGACTTCTGATCTGTGTGATGTCGAGGCTTGTACCCCTTCCTGAGCATTGCCGTACTCCAGGCCGGGCTGCAAGG
Celera SNP ID:            hCV15984139
SNP Position Genomic:     37020
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,18|G,30)   PGA-EUR(EAN-PANEL(A,4|G,40)   total(G,70|A,22) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25338):
AAGTCCTCCTGCCAGCCCGACCCAGAGTCCAGACAACCTGACTTGCACAGAGACGCCCCTCGTCATCGCAGGCAACCCTGCTTACCGCAGCTTCAGCAAC
Y
CCCTGAGCCAGTCACCGTGTCCCAGAGAGCTGGGTCCAGACCCACTGCTGGCCAGACACCTGGAGGAAGTAGAACCCGAGATGCCCTGTGTCCCCCAGCT
Celera SNP ID:            hCV8903092
SNP Position Genomic:     39251
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): IB| family(T,11|C,58)   Hutterites, South |akota(C,287|T,1100)      total(C,345|T,1111) ;(C,-|T,-)   ;(C,-|T,-)   PGA-AFRICAN-PANEL(C,15|T,33)   PGA-EUR(EAN-PANEL(C,9|T,35)   total(C,24|T,68) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25339):
GTGGCCCGGCTAACAGAGAGCCTGTTCCTGGACCTGCTCGGAGAGGAGAATGGGGGCTTTTGCCAGCAGGACATGGGGGAGTCATGCCTTCTTCCACCTT
Y
GGGAAGTACGAGTGCTCACATGCCCTGGGATGAGTTCCCAAGTGCAGGGCCCAAGGAGGCACCTCCCTGGGGCAAGGAGCAGCCTCTCCACCTGGAGCCA
Celera SNP ID:            hCV8903093
SNP Position Genomic:     39051
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): IB| family(T,1|C,88)   Hutterites, South |akota(T,91|C,1296)      total(C,1384|T,92) ;(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25340):
CAGCCTTCCCAGTAGCTGGGGCTACAGGCATGTGCCACCTCTAATAACTTTTCTTTAATTTACAATAGTATTAGTTTGTTCTCATGCTGCTCTAAGGACA
Y
GCCCAAGACTGGGTAATTTATAAAGGAAAGAGGTTTGACTCACAGTTCTGCAGGGCTGGGGAGGCTTCAGGAAACATATTATCATGGCGGAAAGGGAAGC
Celera SNP ID:            hCV27077150
SNP Position Genomic:     8584
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,8)   total(C,5|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25341):
AACTCCTGACCTCATGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCCAACCAGGACTCCACATTTCTAAAACCG
S
CATCCTACTGGGGAGACTGAAAATACATATCAATCACAAACAGGTGGTTTTCCATAGTGACCCACTCTCTGAATGCACTAGACCAGGGTGGAGGCCAGAG
Celera SNP ID:            hCV15984068
SNP Position Genomic:     32806
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,6|G,36)   total(G,36|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25342):
TCTCATTTCTGATTTTAAAATGGCTCTGGCTGTGATGTGGAGAAGAGGCAGGGTGAGCCTCATCTGCAGCAACTGCTAACTGCCCACATCCCCCCAGACT
T
CTCAAAAATTTGCCACTCCCCTGCTCAAAGACCCTCAAAAGCTGCCCACTGCTTAGAGGACAGGCCTTTGACCTGAGGTCCTCACTTGGGCTTCAGGGAT
Celera SNP ID:            hCV27077151
SNP Position Genomic:     7451
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25343):
CTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGACATCACGCCACTGCTCTCCAGCTTGGGGAACAGAGCAAACCTCCGTCTCAAAAAAAAAAAAAAAA
A
TCTAGGGAAGTTGAAAACATTTTGCAGTCAAAGCTATCTTTGCTATCTGCATCTTGAAATAAAATAAACATTCATACATGTAACCTCATTAATCTGATTA
Celera SNP ID:            hCV27077152
SNP Position Genomic:     6083
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:25344):
AAGGGAGCTTCTGTGCATCGCCTGAGAGCAGCAGGGATGACTTCCAGGAGGGAAGGGAGGGCATTGTGGCCCGGCTAACAGAGAGCCTGTTCCTGGACCT
K
CTCGGAGAGGAGAATGGGGGCTTTTGCCAGCAGGACATGGGGGAGTCATGCCTTCTTCCACCTTCGGGAAGTACGAGTGCTCACATGCCCTGGGATGAGT
Celera SNP ID:            hCV11715750
SNP Position Genomic:     38986
SNP Source:               Applera
Population(Allele,Count): african american(G,16|T,18)   caucasian(G,38)   total(G,54|T,18)
SNP Type:                 SILENT MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): IB| family(T,8|G,83)      total(G,83|T,8) ;(G,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:25345):
GGGAAGGGAGGGCATTGTGGCCCGGCTAACAGAGAGCCTGTTCCTGGACCTGCTCGGAGAGGAGAATGGGGGCTTTTGCCAGCAGGACATGGGGGAGTCA
Y
GCCTTCTTCCACCTTCGGGAAGTACGAGTGCTCACATGCCCTGGGATGAGTTCCCAAGTGCAGGGCCCAAGGAGGCACCTCCCTGGGGCAAGGAGCAGCC
Celera SNP ID:            hCV8903097
SNP Position Genomic:     39035
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): Hutterites, South |akota(C,174|T,1213)      total(C,174|T,1213) ;(C,-|T,-)   ;PGA-AFRICAN-PANEL(C,4|T,40)   PGA-EUR(EAN-PANEL(C,6|T,40)   total(C,10|T,80)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25346):
GCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGACATCACGCCACTGCTCTCCAGCTTGGGGAACAGAGCAAACCTCCGTCTCAAAAAAAAAAAAAAA
A
ATCTAGGGAAGTTGAAAACATTTTGCAGTCAAAGCTATCTTTGCTATCTGCATCTTGAAATAAAATAAACATTCATACATGTAACCTCATTAATCTGATT
Celera SNP ID:            hCV27077153
SNP Position Genomic:     6082
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:25347):
GAAGGGAGGGCATTGTGGCCCGGCTAACAGAGAGCCTGTTCCTGGACCTGCTCGGAGAGGAGAATGGGGGCTTTTGCCAGCAGGACATGGGGGAGTCATG
Y
CTTCTTCCACCTTCGGGAAGTACGAGTGCTCACATGCCCTGGGATGAGTTCCCAAGTGCAGGGCCCAAGGAGGCACCTCCCTGGGGCAAGGAGCAGCCTC
Celera SNP ID:            hCV11715751
SNP Position Genomic:     39037
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:25348):
GCCCCGGTGGAGTGTGAGGAGGAGGAGGAGGTAGAGGAAGAAAAAGGGAGCTTCTGTGCATCGCCTGAGAGCAGCAGGGATGACTTCCAGGAGGGAAGGG
M
GGGCATTGTGGCCCGGCTAACAGAGAGCCTGTTCCTGGACCTGCTCGGAGAGGAGAATGGGGGCTTTTGCCAGCAGGACATGGGGGAGTCATGCCTTCTT
Celera SNP ID:            hCV8903098
SNP Position Genomic:     38943
SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,21)   caucasian(A,40)   total(A,57|C,21)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): IB| family(C,8|A,67)   Hutterites, South |akota(A,670|C,717)      total(A,737|C,725) ;(A,-|C,-)   ;(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25349):
GGGAGGGCATTGTGGCCCGGCTAACAGAGAGCCTGTTCCTGGACCTGCTCGGAGAGGAGAATGGGGGCTTTTGCCAGCAGGACATGGGGGAGTCATGCCT
Y
CTTCCACCTTCGGGAAGTACGAGTGCTCACATGCCCTGGGATGAGTTCCCAAGTGCAGGGCCCAAGGAGGCACCTCCCTGGGGCAAGGAGCAGCCTCTCC
Celera SNP ID:            hCV11715752
SNP Position Genomic:     39040
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): IB| family(C,6|T,79)      total(C,6|T,79) ;(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:25350):
AGGGCATTGTGGCCCGGCTAACAGAGAGCCTGTTCCTGGACCTGCTCGGAGAGGAGAATGGGGGCTTTTGCCAGCAGGACATGGGGGAGTCATGCCTTCT
Y
CCACCTTCGGGAAGTACGAGTGCTCACATGCCCTGGGATGAGTTCCCAAGTGCAGGGCCCAAGGAGGCACCTCCCTGGGGCAAGGAGCAGCCTCTCCACC
Celera SNP ID:            hCV11715753
SNP Position Genomic:     39043
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:25351):
GCACAGGATGCTTCGTTACACTGGTGCCCAGGACATAATCACGTACACAAGACACACAGTTACGGGGCAGACTGGGGATATACGGCACACCAGCATGCAG
S
GTTCACCAGTAAAGGTGGTATTCCATGATTATTCTAAGGTAGATGGGCTGTGCTTTGTTTCCATTGGCTTAGTCCAGGGATTGGCAAACTATGGCCCGTG
Celera SNP ID:            hCV2769561
SNP Position Genomic:     19602
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,9)      total(G,9|C,4) ;PGA-AFRICAN-PANEL(C,15|G,29)   PGA-EUR(EAN-PANEL(G,20|C,24)   total(G,49|C,39)   (C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25352):
ATTAAAACAATTAAAAATTTTTTTTCTTACTGAAATGGAGGTCTCACTGTGTTGCCCAGGCTGCTCTCAAACTCCTGGGCTCCAGTGATCCTCCTGCCTC
M
GCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCGCTGTATCCGGCCCAAAATGGAGAAATTTTAAGTCCCAACAACATGCAAGCCCGCATTCAACAAAT
Celera SNP ID:            hCV2769562
SNP Position Genomic:     19138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,10)      total(A,1|C,10) ;PGA-AFRICAN-PANEL(A,8|C,38)   PGA-EUR(EAN-PANEL(A,6|C,40)   total(A,14|C,78)
SNP Type:                 INTRON


Context             (SEQ ID NO:25353):
GAGGGTCTCTTAGGTGCATGTCCTCTTGTTGCTGAGTCTGCAGATGAGGACTAGGGCTTATCCATGCCTGGGAAATGCCACCTCCTGGAAGGCAGCCAGG
S
TGGCAGATTTCCAAAAGACTTGAAGAACCATGGTATGAAGGTGATTGGCCCCACTGACGTTGGCCTAACACTGGGCTGCAGAGACTGGACCCCGCCCAGC
Celera SNP ID:            hCV11715754
SNP Position Genomic:     40310
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): IB| family(G,1|C,80)      total(G,1|C,80) ;(C,-|G,-)   PGA-EUR(EAN-PANEL(G,4|C,42)   total(G,4|C,42) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:25354):
GTATTATGATGAAAAGAGTTTTACCTGGTGGGCCCAGACCACACTTTGAGAACCACTGGACTAGACCCTTGATTGAGGAGTACGGTGTTGAGAGTGGAGT
Y
CTCTGTGATGGTGGATGGACCAGGACACATGGCATAGGAGTCAGGTGGTTCCCTGGGCTACTCCATGGTGCACAGGATGCTTCGTTACACTGGTGCCCAG
Celera SNP ID:            hCV15983840
SNP Position Genomic:     19432
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,9|C,35)   PGA-EUR(EAN-PANEL(T,6|C,36)   total(C,71|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25355):
ACAGTCATCCCGACACTAGCTGGGAAGCTCCAGCAGCCCTGGTCCTGGCCCCAGCTCTGTGGGCGCTGGCCCTCAACTTTGCCTGCACTGTGCTTTTGTG
Y
TATTCCCCTTGGTCCTGTTTGGGTGCAAGTCCCCCTCACGCATTGAGTTCCTGGGCCGCTCAGGCTGCTCCTGTGTCTCCCCAGGGAACATGAAGGTCTT
Celera SNP ID:            hCV2769563
SNP Position Genomic:     18428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;PGA-AFRICAN-PANEL(T,6|C,40)   PGA-EUR(EAN-PANEL(T,6|C,40)   total(C,80|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:25356):
TTAAACTGCTACATATTTTCCCTTTAATTTGGCCAAGAACAAGTTGTCAAGTTTGTGTGAGATAAAGGTGCACTTGGTTCGTTCTTGTCTAATGGCCCCC
R
CACCCATGGGTATTTCTTCAGCTTCCACAGTCATCCCGACACTAGCTGGGAAGCTCCAGCAGCCCTGGTCCTGGCCCCAGCTCTGTGGGCGCTGGCCCTC
Celera SNP ID:            hCV2769564
SNP Position Genomic:     18301
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;PGA-AFRICAN-PANEL(A,10|G,38)   PGA-EUR(EAN-PANEL(A,6|G,40)   total(G,78|A,16)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25357):
CTTAACATGGTAAGCCCTTATGCAAGTTGTTGTCAGCTGAGATGGGCGTGGCACTGAGCATGGGAGCATGGAGGCGCCTGAGTGGTCTCATGCTCAGGTG
R
TTTAGCAAACTCAGTGTACATCCTGCCAATTCCAGTCCTGCCATGGCCACTGACAAGCTAGGAGGGCGCTGAAAGGAGAAGGACCCCGATGTCTCCTCCA
Celera SNP ID:            hCV2769565
SNP Position Genomic:     17890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;PGA-AFRICAN-PANEL(A,7|G,39)   PGA-EUR(EAN-PANEL(A,6|G,40)   total(G,79|A,13)
SNP Type:                 INTRON


Context             (SEQ ID NO:25358):
CAGAAGGATGCCAGAAGAGAAGGTACTTTGGGGAGGGGCGGGAATCAGGAGTTAGTTTTGGACATGAGATAAGCTTGGAATATTTATTTGCTATCTAAGA
Y
AGCTCCTTAACATGGTAAGCCCTTATGCAAGTTGTTGTCAGCTGAGATGGGCGTGGCACTGAGCATGGGAGCATGGAGGCGCCTGAGTGGTCTCATGCTC
Celera SNP ID:            hCV2769566
SNP Position Genomic:     17784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;PGA-AFRICAN-PANEL(T,5|C,35)   PGA-EUR(EAN-PANEL(T,5|C,37)   total(C,72|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:25359):
TGCCACCACGCCAGGCTAATTTTGTATTTTTAATAGAGATGGGGTTTCTTCATGTTGGTCAGGCTGGTCTGGAACTCCTAATATCAGATGATCCACCCAC
Y
TCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCTAGTTGGCTGACTTTTACCTGGGACAGTGCAGGTGCCTGAGCCATGTGCC
Celera SNP ID:            hCV27077089
SNP Position Genomic:     36655
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,22|T,24)   PGA-EUR(EAN-PANEL(T,4|C,40)   total(C,62|T,28) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25360):
GTGAGTGGGCATGCTTTGACGTTTTTCTGTGACCTCTGGGGAACAGGGTGGGTGACCAGCAGAGGCCCAGTCCCTGGAGCCAGGAGCCTGGGAGGCAAGC
Y
CTGGGGCTGGATAGCAAATCCCAGGAGCTAGAGACCTGGCTTCTCACCTGGCTCTGCCCTAGGCAAGTCCCTTTGCTTCCTGGCCCCCCACCCCTCACAT
Celera SNP ID:            hCV15983917
SNP Position Genomic:     23114
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25361):
ATAAGAGGGGGTTGGGGAAGCTGGGTGGAGTGGGGGGGATTGCAGTTGAAAGTAGGGAAGTCAGGGAAGGCCTCATTGAGCTGACTTGGAGGAAGCGGGA
M
CCGTGCAGATGTCTGGGGAAGGCTCATTCTTGGCAGAGAGGCCCTGCACTGAGCCTGGCGGGAGGGTTGAGCACAGGAGGGAATGTGGTGGAGGAGAGTG
Celera SNP ID:            hCV2769567
SNP Position Genomic:     17253
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25362):
ACGTTTTTCTGTGACCTCTGGGGAACAGGGTGGGTGACCAGCAGAGGCCCAGTCCCTGGAGCCAGGAGCCTGGGAGGCAAGCCCTGGGGCTGGATAGCAA
W
TCCCAGGAGCTAGAGACCTGGCTTCTCACCTGGCTCTGCCCTAGGCAAGTCCCTTTGCTTCCTGGCCCCCCACCCCTCACATCAGAGAAGGGGAGTTATC
Celera SNP ID:            hCV15983918
SNP Position Genomic:     23132
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|A,47)   total(A,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25363):
GTAGCTGGGACTAGAGATGCACACCATTGCACCCAATAGAGCAATACGTTTCTGTTCTTTGTAAATTACCTGCTCTAAGGTATTTTTGTTATAGCAGCCT
R
TATGGACTAAGCTGACTTGTAACGTTACTTGAGACTTTAAAGTGTTCCGGTCACTGTTGGAGGGCTCTGTCTGTGTTAGCTCATTTAATCCCCACAACAC
Celera SNP ID:            hCV2769568
SNP Position Genomic:     15758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;(A,-|G,-)   PGA-AFRICAN-PANEL(A,17|G,25)   PGA-EUR(EAN-PANEL(A,19|G,19)   total(G,44|A,36)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25364):
GGAGGCAAGCCCTGGGGCTGGATAGCAAATCCCAGGAGCTAGAGACCTGGCTTCTCACCTGGCTCTGCCCTAGGCAAGTCCCTTTGCTTCCTGGCCCCCC
R
CCCCTCACATCAGAGAAGGGGAGTTATCTCTGCATGCCGCTCCTCCTCTGTAAAGGTAGGGCTGTGGGCCACATCTGTGTTTCCCAGTTTGGGGGACACA
Celera SNP ID:            hCV15983919
SNP Position Genomic:     23204
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25365):
AAACTTCATCCCATTGTAGTCATATTAAGAGATGGGGCCTTTGGAGAAGTGATTAAGTCATGAGGGCTCTGTGGTTGGTCATGAATGGGGTTAGTGCCCT
Y
ATGAACGGGCTGAAGGAAGTGTGTTTGCCCCTTCTGTCATATGAAGACACAGCAGCATGGCATCGTCCGTGAGGAATGGGCTCTCACCAGATCTGGATCT
Celera SNP ID:            hCV2769569
SNP Position Genomic:     15083
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25366):
AGGTCCAGAGAGGTTATGTCACTTACTTAAGGTCACACAGCCAGGAAGTGGTAGTAGGGACTCTTACCCTTGTTTTACAGATGAGATTGAATTATCTCAC
R
AAAACTCAGAAAGGTTAAACAACTTGCCTAAGTAACATACAGCTAATTAGTCGAGGAGCCTGACGCATGTTGCTCTAGCCTGGTCACAGTTACAGAGGTG
Celera SNP ID:            hCV11771649
SNP Position Genomic:     28683
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;PGA-AFRICAN-PANEL(A,2|G,46)   PGA-EUR(EAN-PANEL(A,4|G,42)   total(G,88|A,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:25367):
TACAGATGAGATTGAATTATCTCACGAAAACTCAGAAAGGTTAAACAACTTGCCTAAGTAACATACAGCTAATTAGTCGAGGAGCCTGACGCATGTTGCT
S
TAGCCTGGTCACAGTTACAGAGGTGGCAAGCAATGGCCTGAACAGGACGAACAACCAAATACCCAGGCTGGTGGCTCTTAAACATGGTGGGGTCAGCTAA
Celera SNP ID:            hCV15983991
SNP Position Genomic:     28758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   PGA-AFRICAN-PANEL(G,8|C,40)   PGA-EUR(EAN-PANEL(G,4|C,42)   total(G,12|C,82) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25368):
CTTGCCTAAGTAACATACAGCTAATTAGTCGAGGAGCCTGACGCATGTTGCTCTAGCCTGGTCACAGTTACAGAGGTGGCAAGCAATGGCCTGAACAGGA
Y
GAACAACCAAATACCCAGGCTGGTGGCTCTTAAACATGGTGGGGTCAGCTAACGACAGCAACCAGGGTGGGCACTGGTGCCCCTCGCCCCCGGCTGGTGC
Celera SNP ID:            hCV15983992
SNP Position Genomic:     28806
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,38)   total(C,38|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25369):
TCTGCCTTCTCTTCCCTGCATTCGGTAATTGCCCTGTGACATTAGCCTTCAAGGGACGGCAGGAGGAGGGGTGTTCTGGAAACGTGGACTGCTGGCCAAG
M
CCCCTGAGTTTCACTGGTGTGTCAGGTACATGGTGATACCCCTTGGGAGTGCTGTTATAGTTAACAACCAGAGCAGCCGTGCCTGTTGTTAAAATCTTGA
Celera SNP ID:            hCV15984140
SNP Position Genomic:     37387
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|C,46)   total(A,2|C,46) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25370):
CAATCCTGCCATTAGATACACCTGCCGTGGTGTATCTGCCAGGTAGGCAGGCTAGGCTGCAGTAACACACAAGCCCACAATTTCCATGGCTTAACACTAT
R
GGAATATATTTCTTGCTCACGTAACAAGCTAACGTGAATGTTGCTGGTTTGTAGGTGGTTTCCCTCCCTGTAGAAATCTGGGGAGTGAGGTTCTTTCCAT
Celera SNP ID:            hCV15983993
SNP Position Genomic:     29305
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,18|A,30)   PGA-EUR(EAN-PANEL(G,4|A,40)   total(G,22|A,70) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25371):
TATCAATCACAAACAGGTGGTTTTCCATAGTGACCCACTCTCTGAATGCACTAGACCAGGGTGGAGGCCAGAGATCTTCTGGGGTGCTTTTTGCAAGGGG
S
ACCAGGATAAGGCTCTCCAAGGAGGGAAAATTTGAGGGGGGCCCTGACTGGGGAGAATGAGCTGGCCAGGGATAAGCAAGATGGAGTCATCCCACATCCC
Celera SNP ID:            hCV15984070
SNP Position Genomic:     32934
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|G,40)   total(G,40|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25372):
GGAAGGGCTCCTTCAAGCCCAGCGAGCATGGTGAGCAGGGCGGAGTGCGGCAGGGGTGGCTGGGTGTGTTCCCACAGCTGCCTGGGCTGAGGGTGGGGTG
R
GCAGGGGAGGAGGTGGGGTCATAGCAACAGCAGGAGGAAGCCGCCTGTATTTTCCCAAATCTGATGGGATTCCTGCCCCTGCCTGGGCCTCAGTCCTCCC
Celera SNP ID:            hCV16164586
SNP Position Genomic:     21486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25373):
GTGCCACCACGCCAGGCTAATTTTGTATTTTTAATAGAGATGGGGTTTCTTCATGTTGGTCAGGCTGGTCTGGAACTCCTAATATCAGATGATCCACCCA
Y
CTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCTAGTTGGCTGACTTTTACCTGGGACAGTGCAGGTGCCTGAGCCATGTGC
Celera SNP ID:            hCV27077090
SNP Position Genomic:     36654
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25374):
GGAGCTTCTGTGCATCGCCTGAGAGCAGCAGGGATGACTTCCAGGAGGGAAGGGAGGGCATTGTGGCCCGGCTAACAGAGAGCCTGTTCCTGGACCTGCT
Y
GGAGAGGAGAATGGGGGCTTTTGCCAGCAGGACATGGGGGAGTCATGCCTTCTTCCACCTTCGGGAAGTACGAGTGCTCACATGCCCTGGGATGAGTTCC
Celera SNP ID:            hCV25649682
SNP Position Genomic:     38989
SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(C,39|T,1)   total(C,65|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:25375):
GATTACAGGCATGTGCCACCACGCCAGGCTAATTTTGTATTTTTAATAGAGATGGGGTTTCTTCATGTTGGTCAGGCTGGTCTGGAACTCCTAATATCAG
R
TGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCTAGTTGGCTGACTTTTACCTGGGACAGTGCAGGTGCC
Celera SNP ID:            hCV27077091
SNP Position Genomic:     36642
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,20|G,26)   PGA-EUR(EAN-PANEL(G,9|A,35)   total(G,35|A,55) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25376):
AATTTTCTTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCACGCCAGGCTAATTTTGTATTTTTAATAGAGATGGGGTTTCTTCATGT
Y
GGTCAGGCTGGTCTGGAACTCCTAATATCAGATGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCTAGTT
Celera SNP ID:            hCV27077092
SNP Position Genomic:     36610
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,22|C,24)   PGA-EUR(EAN-PANEL(C,4|T,38)   total(C,28|T,60) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25377):
GACAGTTGGCTTTTTTTTTTTTTTTCTTTTTCTGAGACGGAGTTTTGCTCTTATTGCCCAGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCTGC
Y
TCCTGGGTTCAAGCAATTTTCTTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCACGCCAGGCTAATTTTGTATTTTTAATAGAGATG
Celera SNP ID:            hCV27077093
SNP Position Genomic:     36495
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,12|C,32)   PGA-EUR(EAN-PANEL(T,4|C,40)   total(C,72|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25378):
GTCTGACAGTTGGCTTTTTTTTTTTTTTTCTTTTTCTGAGACGGAGTTTTGCTCTTATTGCCCAGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCT
S
TGCCTCCTGGGTTCAAGCAATTTTCTTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCACGCCAGGCTAATTTTGTATTTTTAATAGA
Celera SNP ID:            hCV27077094
SNP Position Genomic:     36491
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|C,44)   total(G,2|C,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25379):
CCGTCCCCGTAGCCTCCCTCCGTGTCTGACAGTTGGCTTTTTTTTTTTTTTTCTTTTTCTGAGACGGAGTTTTGCTCTTATTGCCCAGGAGTGCAATGGC
R
TGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTTTCTTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCACGCCAG
Celera SNP ID:            hCV27077095
SNP Position Genomic:     36468
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;PGA-AFRICAN-PANEL(A,13|G,33)   PGA-EUR(EAN-PANEL(A,14|G,26)   total(G,59|A,27)
SNP Type:                 INTRON


Context             (SEQ ID NO:25380):
AAACCCTGTCTCTACTAAAAATACAAAATTAGTTGGGTGTGTGGCCCATGCCTGTAATCCCAGCTACTCAGAAGGCTGAGGCAGGAGAATCGCTTGAACC
Y
GGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCAAAAAAATAAAATGAAATAAAATA
Celera SNP ID:            hCV2769573
SNP Position Genomic:     13391
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25381):
CTTGCTCACGTAACAAGCTAACGTGAATGTTGCTGGTTTGTAGGTGGTTTCCCTCCCTGTAGAAATCTGGGGAGTGAGGTTCTTTCCATCTTGTGGTGCC
R
TCATTCTCCAGGACAAAGATTCTTACCTACTTTTGTGTCCTGGTTTCCTTTGGCAGCCTGGTGAAGCCTATGGACCTCATTTCAGAATATTTTTAAATAC
Celera SNP ID:            hCV15984000
SNP Position Genomic:     29417
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,18|A,30)   PGA-EUR(EAN-PANEL(G,4|A,42)   total(G,22|A,72) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25382):
ACGGTGTTTCACCATATTGGCCAGGCTGGTCTCGAACTTCTGACCTCAGGTGATACACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCC
R
CCATGCCTGGCCTCATATAAGCATTTCTGTCTCCATTTATCATCCATCTTTCCCTCTTGAAGGTCAGTTTCACCAAGGCAGGCATCTTTGTCTCGTTCAC
Celera SNP ID:            hCV27077096
SNP Position Genomic:     34573
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,22|A,24)   PGA-EUR(EAN-PANEL(A,4|G,40)   total(G,62|A,28) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25383):
GAAAAGGCATGGAGGTGGGACTGAGTTTGGTGTGTTTAAGAAGTGCAGGTGGCAGCCGGGCTCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGC
Y
GAGGCAGGCGGATCACCTGGGGTCGGGAGTTCAAGACCAGCCTGACCAGCATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGTTGGGTGTGTGG
Celera SNP ID:            hCV2769574
SNP Position Genomic:     13234
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25384):
TAACAAGCTAACGTGAATGTTGCTGGTTTGTAGGTGGTTTCCCTCCCTGTAGAAATCTGGGGAGTGAGGTTCTTTCCATCTTGTGGTGCCATCATTCTCC
M
GGACAAAGATTCTTACCTACTTTTGTGTCCTGGTTTCCTTTGGCAGCCTGGTGAAGCCTATGGACCTCATTTCAGAATATTTTTAAATACATAAAATCCC
Celera SNP ID:            hCV15984001
SNP Position Genomic:     29427
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|A,46)   total(A,46|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25385):
AGTAGAGACGGTGTTTCACCATATTGGCCAGGCTGGTCTCGAACTTCTGACCTCAGGTGATACACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGC
R
TGAGCCGCCATGCCTGGCCTCATATAAGCATTTCTGTCTCCATTTATCATCCATCTTTCCCTCTTGAAGGTCAGTTTCACCAAGGCAGGCATCTTTGTCT
Celera SNP ID:            hCV27077097
SNP Position Genomic:     34566
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25386):
CTACTTTTGTGTCCTGGTTTCCTTTGGCAGCCTGGTGAAGCCTATGGACCTCATTTCAGAATATTTTTAAATACATAAAATCCCAGCCTGGGCAATATAG
W
GAAACCCCCATCTGTACAAAAATTAGCCAGGCATGGTGGCATGCACCTGTAGTCCCAGGTACTGGGAAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGA
Celera SNP ID:            hCV15984002
SNP Position Genomic:     29544
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|T,45)   total(A,3|T,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25387):
TTTAGTAGAGACGGTGTTTCACCATATTGGCCAGGCTGGTCTCGAACTTCTGACCTCAGGTGATACACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACA
R
GCGTGAGCCGCCATGCCTGGCCTCATATAAGCATTTCTGTCTCCATTTATCATCCATCTTTCCCTCTTGAAGGTCAGTTTCACCAAGGCAGGCATCTTTG
Celera SNP ID:            hCV27077098
SNP Position Genomic:     34563
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,13|G,33)   PGA-EUR(EAN-PANEL(A,4|G,40)   total(G,73|A,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25388):
CTTTCTTTCTAAGATATACATTCAATAATATAAATTTCCCTCTAAGCACTGCTTTTGCTACGTCTCACCGATTTTGATAGGCTATATTTTCATTTTTATT
K
AGTTAAAAATATTTTTAGTTTCTCTTGTGATTTCTTCTTTGATCCATATGTTATTCGGAAGTGTGTTTTTAAATCTCCAAATACTTGGAAATTTTCTGGC
Celera SNP ID:            hCV2769576
SNP Position Genomic:     9268
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25389):
GAACTCCTGACCTCAAGTGATCCACCCACCTCGTTCTCCCAAGGTGCTGGGTACAGGCATGAGCCACTGTGCCTGGCCAATTTTCTTACATTTTGTAGAG
A
CTGGCTGTCACTTATGTAGCCCAGGCTGATCTTGAACTTCTACCCCTTTATCTTTATTCATGGCACTTATTACCATGAATGAATGACCTCATATAAGCAT
Celera SNP ID:            hCV27077099
SNP Position Genomic:     34176
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25390):
ATTAATTAGTGCCTTCTCTCTCATTTTTTTGATTCGCCTAGGTAGAGATTTATCAATTTCATTGATCTTTTCGAAGAACCAATTTTTGATTTCATTGATT
Y
TCCTCGATTAATTTTCTATTTTTAATTTCATTGATGTATGCTCCAATTTTGTATTTTTTTCTTCTGCTTGTTTTAGACATATATTGCTTTTCTGTTTCTA
Celera SNP ID:            hCV2769577
SNP Position Genomic:     9032
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25391):
GCCTTAACCTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTTCCCAGTAGCTGGGGCTACAGGCATGTGCCACCTCTAATAACTTTTCTTTAATTTACA
R
TAGTATTAGTTTGTTCTCATGCTGCTCTAAGGACATGCCCAAGACTGGGTAATTTATAAAGGAAAGAGGTTTGACTCACAGTTCTGCAGGGCTGGGGAGG
Celera SNP ID:            hCV2769579
SNP Position Genomic:     8548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,8)      total(G,6|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25392):
GAGTTTGGACTTGACCATGGAGACACTAGGAAGCCCATGAAGGACAGAGAGAGATGCCTCGACCCTGCCAGTCCTTTAGAAAGATCACCCAGTGCTTTTT
R
TATACCAAACCCTATTTGAAATACTTACGTATATTAACCCATTTCCTTATCACCACAACCCTGCGGGAAGGGAGATAGGCACTTTTATTATCTTCATTTT
Celera SNP ID:            hCV15984222
SNP Position Genomic:     28466
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,43)   total(G,43|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25393):
TGGTGCCATCATTCTCCAGGACAAAGATTCTTACCTACTTTTGTGTCCTGGTTTCCTTTGGCAGCCTGGTGAAGCCTATGGACCTCATTTCAGAATATTT
W
TAAATACATAAAATCCCAGCCTGGGCAATATAGTGAAACCCCCATCTGTACAAAAATTAGCCAGGCATGGTGGCATGCACCTGTAGTCCCAGGTACTGGG
Celera SNP ID:            hCV15984223
SNP Position Genomic:     29510
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|T,45)   total(A,1|T,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25394):
AGCAACAGAGGACATGAAAAATTGCTGTGACTAAAGCAGGGACAATTTGCTGCCAAACACCCATGCCCAGCTGTATGGCTGGGGGCTCCTCGTATGCATG
S
AACCCCCAGAATAAATATGCTCAGCCACCCTGTGGGCCGGGCAATCCAGACAGCAGGCATAAGGCACCAGTTACCCTGCATGTTGGCCCAGACCTCAGGT
Celera SNP ID:            hCV27535828
SNP Position Genomic:     40932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25395):
AAACGTGGACTGCTGGCCAAGCCCCCTGAGTTTCACTGGTGTGTCAGGTACATGGTGATACCCCTTGGGAGTGCTGTTATAGTTAACAACCAGAGCAGCC
K
TGCCTGTTGTTAAAATCTTGACCTAATTGTATACTTGTCGGCAAATAGCCACTATCCTGAACACTCCCCTCCTTTTTTTTAATATACAGGATCTCACTCT
Celera SNP ID:            hCV15984150
SNP Position Genomic:     37466
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,5|G,41)   total(G,41|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25396):
TTTATTTTTAAAATTTTAAAATAAATAGAGACAGGGTATCACTATGTTGCCCAGGCTGCTTTTGACCTCCTGGGCTCCAGTGATCTTCCCATCTTGGCTT
Y
CCAAAGTGCTGGGATTACAAGTGGGAGCCAGTGTTCCTGGCCCCTTCCTCCATTCTTAATGGAAGGAGATGCTAGGTGTGAGAGGTTAGGGAAAGTAAAG
Celera SNP ID:            hCV15984224
SNP Position Genomic:     30149
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,3|C,43)   total(C,43|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25397):
CCTGAGCTCAAGTGATCCTCCCATCTTAGCCTCCCGAGTAGCTGATACTACAGATGTGCATTACCACGCCTGGCTATTTTAAAAGGTTTTTGCCTGTAAT
D
CCAGCTACTCAGGAGGCTGAGGCATGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCGCAGATTGTGCCACTGCACTCCAGCCTGGGCGACA
Celera SNP ID:            hCV15984151
SNP Position Genomic:     37721
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,3|T,43)   PGA-EUR(EAN-PANEL(G,4|T,42)   total(G,7|T,85)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25398):
TTCTCTAGCCTCAGCCTTCTAAGTAGCTGGGACTACAGTCATACACCAACATGCCCAGCTAATTTTCCTTTTTTTTAATTCTTGTAGAGATGTTTGAGAC
R
GCTTGGGCTCTGTTGCCCAGGCTGTTCTCAAACTCCTGAGCTCAAGCGATCCTCCCTCCTCAGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACCG
Celera SNP ID:            hCV15984152
SNP Position Genomic:     38202
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,16|G,32)   PGA-EUR(EAN-PANEL(A,4|G,42)   total(G,74|A,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25399):
AATGCACTAGACCAGGGTGGAGGCCAGAGATCTTCTGGGGTGCTTTTTGCAAGGGGGACCAGGATAAGGCTCTCCAAGGAGGGAAAATTTGAGGGGGGCC
Y
TGACTGGGGAGAATGAGCTGGCCAGGGATAAGCAAGATGGAGTCATCCCACATCCCCTTACAACACTGGGTGCCTGGGCAACTGGGGGCATTTGGGGGCA
Celera SNP ID:            hCV15984080
SNP Position Genomic:     32978
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25400):
CACAGCTAGGAAATCCTGGAGCCAGGATTTGAACCCGGGTCTGACCTAAGAGCTCCCAGCCGCCGTGATATATCAGCTTATGTCATCCTGACACCTACGC
R
GATGTCGGCTCGAATCCACTTTGCCTGAGCATTGTCTCAGAGAAATCTAATTTAAAAATTAGGCAGCAAATAGAAAATATATTTGACTGCTAGAGATGCA
Celera SNP ID:            hCV2769503
SNP Position Genomic:     43320
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:25401):
GGGGGGCCCTGACTGGGGAGAATGAGCTGGCCAGGGATAAGCAAGATGGAGTCATCCCACATCCCCTTACAACACTGGGTGCCTGGGCAACTGGGGGCAT
Y
TGGGGGCATGTGGTAGGAGCCAGAGGAATTTGCGACGATTGCCCTGATGGAGTCAGGAGACCTGGGTTTGAATCCTGGCCTTGGAGCTTGGTAGCTGGCG
Celera SNP ID:            hCV15984081
SNP Position Genomic:     33070
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,12|T,34)   PGA-EUR(EAN-PANEL(C,4|T,42)   total(C,16|T,76) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25402):
AGTTGGGAGGCTCAATGATTATCCCAATTTTACAGATAAGGAAACAGGTCCAGAGAGGTTGAGGATTAGCCTAGAACCACACAGCTAGGAAATCCTGGAG
Y
CAGGATTTGAACCCGGGTCTGACCTAAGAGCTCCCAGCCGCCGTGATATATCAGCTTATGTCATCCTGACACCTACGCAGATGTCGGCTCGAATCCACTT
Celera SNP ID:            hCV2769504
SNP Position Genomic:     43241
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:25403):
TTTGGGGGCATGTGGTAGGAGCCAGAGGAATTTGCGACGATTGCCCTGATGGAGTCAGGAGACCTGGGTTTGAATCCTGGCCTTGGAGCTTGGTAGCTGG
Y
GGCCGACAAGTTGCTGAAACCCCTGAGCCTGGGGTTCCTGCTTTGCAGAGTGACAGTGATGGTGAGAACATATTTCATCAGCCAGAAGAGGCCAAATCAC
Celera SNP ID:            hCV15984082
SNP Position Genomic:     33169
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,40)   total(C,40|T,2) 
SNP Type:                 INTRON


Gene Number:                 92
Celera Gene:                 hCG1985715 - 106000122189513
Gene Symbol:                 APOH
Protein Name:                apolipoprotein H (beta-2-glycoprotein I);B2G1;BG
Celera Genomic Axis:         GA_x5YUV32W262(1279583..1336093)
Chromosome:                  Chr17
OMIM number:                 138700
OMIM Information:            APOLIPOPROTEIN H;APOH


Genomic Sequence (SEQ ID NO:12252):
GGTGGCTCGTGCCTGTACTCCCAGCATTTTGGGAGGGTGAGGTGGGTGGATTGCTTGAGGTCAGGAGTTTGAGACTAGCCTGGCCAACACAGTGAAACCC
TGTCTACTAAAAATACAAAAAATAGCCTGGTGTCATGGCACAAACCTGTAATCACAGCTACTCAGGAGGCTGAGGCAAGAGAATCAATTGAACTCGGGAG
GCAGAGGTTGCAGTGAGCAGAGATGGCACCATTGCACTCCAGCCTGCGCAACACAGCAAGACTCTGTCTCAAAAAATTAAAAAAAAAAAAAGAAAAAGAA
CATGCAGATTTTCCTTCAGTGTCGGGCATGGCGGTGGGACTGGAGACTGCATTTCTTTTCTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGG
AATGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGCCTTCCAGGTTCAAGTGAGTCTCCTACCTCAGCCTCTGGAGTAGCTGGGACTACAGGTGCCCG
CCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCTGCTT
CGGCTTCCCAAAGTGCTGAGATTACAGGCGTGAGTCACTGCGCCGAGCCTGGAGACTGCATTTCTTACCAGCTCTGAGGTGATGGATGATACTTGCTTCT
GCTGCTGATGTCCCTGTTCCAGAGACCACACCTTTAATGGCAAGGGTGAGGGGATTCTGGAATCCGAATACCTGAGTCTAAATCCTAGCTCTACCCCATA
ACAACTGCATGACCCTGGGCAAAATACTTAACCTCTGAGAGCCTCAGTTTCTGAATCTGAGAAAGGGGGAAATAATAGGACTTAGCGAATTGTGAGAATC
ACATAAGATAAGGTATAGAAAGCACTTAGCACGATGCCTGGCACATAGTAGGAACTGTACACTAAGATTAATAAGCAGATTGGGCCTCGTGCGGTGGCTC
ATGGCTGTAATCCCAGCACTATGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTA
CTAAAAGTACAAAAATTTGCCAGGTGTGGTAGTGGTTGCCTGTAATCACAGCTACTCTGGAGGCTGAGGCAAGATAATCGCTTGAGCTTGGGAGGTGGAG
GTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGAGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAGAGCAGATTGGGCCTGG
TGAAGTGGCTCACACCTGTAATCTCAGCACTTTGGGAAGCCAAGGAGGCAGGATCACTCGAGGCCAAGAATTCAAGTCCAGCCTGGGTAATATAGGAACA
CCCCATCTCTTAAAAAAAAACAAATTTAGCCAGGTGTGATGGTGCATACCTGTAGTCCCAGCCACTCCAGAGGTTGAGATGGGAGGATTGGCATGAGCCC
AGGAGTTTAAGGTTGCAGTGAGCTATGGCTGTGCCATTATACTCCAGCCTGGGTGACACAGTGAGACATTCTCTCTAAAATAAAAAATAAAGCAGATTGA
AGAAAGCGGGCTTCTAGTAGAAACAGAGACAGGAAAAAAGGCAGAAAGTAACTTCCAGATCAAGAACTGAGCTGGCCTCTGGGCATGGCTGTCTCTTCTA
CTGCTTTTTTGTTCAACCACCTCATGTGTTAGCCCACATGGAAAATGCTTCTGCTTTGTAATCTGCACTTTTTATGGGGCTTGTTCAGATGGTGCTGGTA
TAAAGGCTGAAACCCACATTGCTGGTGGGAACTACCTATGGGGTTTCCTTGAATTTGGTGCCACCGCACCTGCTCAGCGACCGTGCCTTGATGTGCTTTA
GATCAGCCATCCCTAAATTGCTATCCTGTCGCTTCAGTCCAAGCAGAAAGAAGCGAGTAATGAGTCCATCCTGATGAACAATTCAGGGAGGAACATTCTT
TTCTTCCCCTGGTGAGACTTCATTGACTACCCAGGCAAGAAGCAGCAGGAGCTCTGAATTACCGTGATCTTGTTAGCAGCTATGGCTTGCCATTGGTGGA
GCAGGTACATCTTGTGCTGAAGGATGCTGGTAGGGCAGAACACTCATGAAAGGCTACTGGCCTGATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCCAA
TTCAAGAGAATTGTCTGTACAACTCTTAGTCTTAGTCTTATTTCTCCTGGACATTCAAGACTCTAATAGTAGGCTAACTCATTTTTTATTTGTAACTAAC
TATCAAAGCCTGGTATAACTCAGTGAGAAAAAAAAAATCCTGGTTAGAAATGTTGCAAACAAACAAAAAAAATCTTCTCTAATATGTGACCAATCCCACA
GTAGCCACAATGGCTTAGAAGGCATTTGAAGTCTCTTCTACAGCAGTCTCATGGGGCCTTTTTTATTGTATCAGAAGGATGAAAGATGGGTCAGCTCCTC
CAGGATTCTTATCTTTTATTTCAGGAGTCTTCAGTTAAACCTGAGCTTCAGACCTTTTCCATGTAATTGGATCCAAGTCAGGACCTCAGTCTCTGTTTCC
CACCTTTGAGTTTAGGAGAGCAAGCTCTAGGGCTGCATGAAACAAGAGGTCCTTTTACCAATAAAAAAGAGAGGCCAGGTGCAGTGGCTCATGCCTGTAA
TCCCAGCACTTTGGGAAGCTGAGGAGGGCAGACCACCTGAGGTCAGGAGTTCGAGACCAGCCCGGCCAGCATGGCAAAAATCCCATCTCTACTAAAAATA
CAAAAAGTGGCTAGGTGTGGTGGCACACGCCTGTAGATCTAGCTACTCAGGAGGCTGAGGCAGGAGAATCTCTTGAACCTGGGAGGTGGAGGTTGCAGTG
AGCCGAGATCACTGCCACTGCACTCCAGCCTGGGCGACACAGCAAAACTCCATCACAAAACAAAACAAAAAACACACACACACAATAAAGATGGGACAAA
AAGAAGTGTCTTGGTCTGTTCCTGCTGCTATAACACAAATACCTTGAATAGGTTCATTTATAAACAGCAGGAATTCATTTTTCACAGTTCTGGAGGCTGG
GAAGTTCAAGATCAAGGCACCTGCAGATTCAGTGTCTGGTGACGGCTGGTCTCTGATTCCAACATGGAGTCTTGTCACTGAATCCTCACGTGGCAGAAGG
CATGAATTCTTACTACATCCTTTCATGGCAGAAAGGCTAATACTGGCTGAACTTTCTTCCTCAAACCCTTTTATAAGGGCATTCATCACTTCATAAAGGT
CCTGCCTCTTAATACTGTTGAATTGGGGATTAAGTTTTGACATGCCTTTTTTTTTTTTTTTTTTGAGACAGATCCTCACTCTGTCACCCAGGCTTGAGTG
CAGAGGCGCGATCTCTGCTCTCTGCAACTTCTACCTCCCAGGTTCAAGTGATTCTCCTGCTTCAGCCACCCGAGTAGCTGGGATTACAGGCAACTGCCAG
CTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTAGAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCTA
AAGTGCTGGGATTACAGGCGTGAACAACTGCGCCTGACCTATGCCTTTTTTTTTTTTTTTTTGAGACAGAGCCTTGGTCTGTCACCCAGGCTGGAACGCA
GTGGCGCAGTCTTGGCTCACTGCAACCTCCACCTCCGGGGTTCAAGTACTTCTCCTGCCTCAGCCTCCTGAGCAGCTGGGATTATTGGTACCCGCCACCA
TGACCGACTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGTCTGGTCTCAGACACCTGACCTCAGGTGATCCGCCCGCCTCAGCC
TCCCAAAGTGCTGGGATTACAAGCATGAGCCACCTCACCGGGCCTTGACATGCATTTTGGAGGCACACAAACATTCAGCCATATCAGGAAGGTTCAGCAG
TCCGAGTCCAAATTGGTTTCAGGCAATAGCAGCCCTGATGAATGTAATATTCCAGATGGATCAGTTGCACAGGTAACCTATAGCTTGTGTCTTGAGTCAA
CACATTTCTCATTTTAACCATTTCTCATGCAGATCTTTTTGAAATGCACTTCACACACTTTAATATGGAAAATTCAATCTATTTTCCATGGATTTTGTAA
TCATCATTACGATATTCTTTATTCTAGTTACAAGCTCAGGAATTGTTGAAGTGTAGACCCATACACAAAACAGCCTCAGACCCTCAACTTTTATAACTAA
TCTTTATTGCTTTTTTAATTACAAAGTGATACGGTCTTAAGTTTTTTTTAAGTTATGCATTTTTTTGTGTAGTTTTTACTATCTCCTTCTAGACTATTCG
CCTGGCATGTTGTCACTTTTGTCTCTCTTTAATGTATTTCTAGCAGCATCCCTCTCATTTATAATCATTCATCTAGATTTTGGCTGGAAAACTGCACAAT
CAGGCTAATTACAATTGTGTGTGAAGAATACCCTTAAGACAAACGCTTAGCCAACCAATATGACTGTTAGGATAGAAGGATAGAACTTACCAGTGGATTT
GGCATGAAGTTTACACTGTGGAATCAGATAGGCCCAAGTGTAAAGTGCCTCTTATTGGTATTGGGAGCTTCAACAAATGACCTTATCATCCTCAGTTTCC
TCGGTGTACCTTCAGTTTCCTTAATGTAAAATTTAAAAAACAAGGCTGGGCACAGTAGGTCATGCCTATAATCCTAGCATCTTTTGGCCGAGGCAGGTGG
ATCACCTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACTAGGCGAAACCCCCATCTCTACTAAAAATACAAACATGACAGACGTGGTGGTGCACATCTG
TAATCCCAGCTACTGGGGAGGCTGAGACACAACAATCGCTTAAACCCGGGAGGCAGAAGTTGTGGTGAGCCAAGATCACACCACTATACTCCAGCCTGGG
TGACAGAGTGAGACTCTGTCTCTAGATAAATAAATAAATAAATAATAAACAAAACAAAACAGAACACCTAACTTGCATGGCTATTGTGAGGATTAAAGGG
AATAGGATGTAAAACACTCATGACAGTGTTTGGCTCGTGATGGTGACTCGAGGAACACTAGTTTCCTCTCTCATGCATCCCTCCCATGTATCAGGATATT
GTGGCAGAATGTGTCTAGGACAATAGTTCTCAAACTTGAACTTGCATCAGAATCTCCTAGAGGACTTGTTAAAATATAGATTGCTGAGCTGGGTGTGGTG
GCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCTGGCGGATCACGAGGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCGTCGC
TACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGCATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCTCTTGAACCCAGCAGGCAG
AGGTTGCAGTGAGCCGAGATCGAGTCACTGCACTCCAGCCTGGTGACAGAGCAAGACTCCATCTCAAAAAATATATCTATATCTATATCTATATATAGAT
ATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATATAGATTGCTGGGCCACAACCCCAGAATGTCTACTTTAGGAGGAGCAGGTTGGGTCCT
GAAAAATGTTTCATAAAAAATTTCCAGGTTATACTAGTGATGGTGATGCTGCTGGTCTGGGGGCCATACATCGAGAACCATCAGTCTAGGAGGTAGATAT
ACTTGCATCCAAATTCCTGCTTGGCCCCTTGGCAGTTGTGTTAATTTGGGCAAGTTATTTAACTTTTCTGAGCCACAGTTTCCTAATCTGAAACAGGGGC
ACGATAACTTTTGCCTGATAAAATGTTGTAACGTGATATGGCAGTTGGGAAAGATCTAGTACTTAATAAATCTTTTTTTTTTCTTTTTCTTTTTTTTTTT
AGATGGAGTCTCGCTTTGTCACTCAGGCTGGAGTGAAGTGGCATGATCTTGGTTCACTGCAACCACTGCCTCCCAGGTTCAAGCAATCCTCCTGCCTCAG
CCTCCGGAGTAGCTGGGATTACAGGTGCCTGCCACCATGCCCGGCTAATTTTGTGTGTGTTTTTAGTAGAGACGGGATTAAGTCACGTTGGCCAGGCTGG
TCTCAAACTCCTGGTCTCAAGTGATCCACACACCTTGGCCTCCAAAAATGCTGGGATTACAGGCGTGAGCCACCGCGCCTAGCCAATAAATCTTCATTAA
TCTCAATGTTGCCTTCTTTGTGGCAGAGTCTCTTCCTGTTTAGCTTAAGGACTTGTAGTGTTCCAAGGAACTACAGCGACTAGATGATACTGCCCCTAAA
ATTATGTACATCTTATCTTAGAACCTTTAAAATAAGACATCTGTCATTTCTCAAGAAGGACAATAATAAGATCTGTAGTAGGTAGCAAATTTTGATCCTG
AGCAGGTAGCTTAGGACGCCAATTTCATTAACTTCCCACCGGTTTATCTTCTGGGGCAATGAAGGATTAATTTAAAAAGTACTACATCCTGAAGACTGAA
AAGAGTTTTACGGAAGAGCATATACAAGTTCATGAGTACCTTCTCTATTGGGTATATGTGGGCTGTGGGCTGTGGGTTGAGAGCAGCTACCCAGAGGCAT
AAAAGCATTCTCATAAGTTGCAAAGCAGGTACAACGCTAATTGAATTTGTTCTGCTCAGATGACATACTCTCCAGGAAAGAAAAAAAAAATGTTTTCCTG
CTGTGAAATTGGTTTGCTGGTGTTCTGACAAATGAAAGCCTTATAGTAAAGGCATCAACTTTAATTATTCATTTCTATTTGCTTAAAGACATATTCTTAT
GTGACATACATATGCTCATACATTTCCTTGTTGTAACAACATGAACTAAATAAGTCACTTTCACACATAAATGAAACTCCATGAATTATTATTGCTAACG
CACGTTCTCTATATTATTCAGCTGGAGAAAAAGTAATGTTTGTGTAATGGGGAAGAATTACAGAGCGAAAGATGAGGATCTTTTTAGTGTTTTTTTCAGG
TAGACAGGAAAAAAGGCAAAGGCTACCATCTGCTATTACTGATGATATTACTGAGGAATTGATACATTTCTATCTATAGAGATTTATTAATGTACAACTG
GTTCTACAACTTTATTTGTTCAGTCTACATAACCAAAATGAGGCTTCAAGTCCGGAAGTTCCCTGTTACCCAAGGCAAACGTATTAGGGTCTGTTCTGCC
ATCTGGTGTTCTTTGAAGGAAACATCCACAGAGGCATTATGAGATAAATAGCCAGTGTTGCCTATGTTGGTGGTGGGTGTTACAACCTCGATGAAAAGCA
ATTCCAGAATCTCTGCCAAATTCCAATAGGAGATAATTTGAGAATATATATTAAGAAGAAAAATATACATACCCTTGGAGTACCAATTTCACTTTTATGA
ATTCATCTTTTGGATATATTTATACATGTGCACAAAGAAATGTATATAAAAATATTCCTAGCAGTACTGTTGGTAATAGCAGAAGATTGGAAACAAGCTA
AACATCCATGAGTAGGGTACCAGTTAAATAAATTGTGACATATTCCTACAATGGATATAGTATAGCATGTTGTTGTTTGAAAAAAAAGTCAAATCTATAT
TTACAGATATGAAATGATCACCAAGACACACACACACACACACACACACACACACACACACACACACATATATATATGTGTATATATATATATTTTGTTT
TGTTTTGTTTTGTTTTGTTTTAGATAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCACTGGTGTGATCTTGGCTCACTGCATCCTCCGCCACCCTGGTT
CAAGTGATTCTCCTGGCTCAGCCTCCCAAGTAGCTGGGACTACAGATGCATGCCACCACACCCGGGTAATTTTTGTATTTTTGGTAGAGACAGAGTTTCG
CCATGTTGGCTAGGCTGGTCTCGAACTCCYGACTTCAGGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCTGG
CACCAAAACATTGTTAAGTGAAATAAACATGATCAAGAACAATGTGTATCGGTAGGGTGTGGTGGCTCACACCTGTAGTTCCAGCACTTTGGGAGGCCAA
GGGGGGCGAATAATCTGAGGTCAGGAGTTCGAGACCGGCTTGGCACCAACATGGCAAAACCCCGTCTCCACCAGAAATACAAAAATTAGCCAGTCATGGT
GCATGCGCCTGTAGTCTCAACTACCCTGGAGGTTGATGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTTCAGTGAGTCAAGATCATGCCACTGCAC
TCCAGCCTCGGCAACAGAGCAAGACTATCTCAAAGAGAGAGAGAGAAAAAAAGTAACAACATGTGTAATATGCTGAAATTTGTATAAAAATGTTCATAAT
GCATAGGATATTTCTAGAAGGTTTAATCAAAAATAAAATTTTGAAGGCCTCCCCACAACCATAGGAATGGACTTCCTCCTTGGCCAGGACACCTAAAATT
TAGCCTGAAAGACTTGTTCAGGCCATGATGGGGAAGTGGGGGTCAGATATGCCTCATTATACCCCTCCAGCATTAACATCAATGCAGACTTTTAAGTCTG
ATATGAAACATTTACAATCTAGTCTCACTGAAGCCTGTTACTGCTACTTGGAGGCTTCATCTGCAGGATAAAACTTTGGTCTCCACAACCCTTTATCTTT
TTTTTCTTTTTGAGACGTAATCTTGCTCTGTCACCCAGGCTGGAGTGTAGTGGCGCAATCTCGGCTTACTGCAACCTCCGCCTCCTGGGTTCAAGCGATT
CTGCTGCCTCAGCCTCTGAAGTAGCTGGGATTACAGGCGCCCATCACCATGCCTGGCTAATTTTTGTATCTTTTAGTAGAGACAGGGTTTTGCCATGTTG
GCCATGTTGGTCTTGAACTCCTGATCTCAGGTGATCCACCTGCCTCRGCCTCCCAAGGTGTTGGGATTACAGGCACGAGCCATCATGCCYGGCTTCACAA
TCCCTTATCTTAATCACAGTATAATTAAATCTACCTATGACCTGGAAGCACCCCCTMATCTGCCACTGCTTCAACTTGTCCCACCCTTCCAGATCAAACC
AATGTTAATCTTACATGTATTGATTGATGTATTGTGTCTCCCTAAAATGTATAAAAGCAAGCTGCACCCCCAACCCCATCCCCTGCTGACCACCTTGGGC
ACATGTCATCAGGACCTCTGAGGCTGTGTCAGTTGCATCCTTAACCTTGGCAAAAATAAACTTTCTAAATTTGTTGAGATTTGACTCAGATACTTTTTGG
TTTACCAAGGATACTCAAGAAAGTGGTTGGCCGGGTGTGGTGGCTCACACCTGTCATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCATGAGGTCAG
GAGATCGAGACCATCCTGGCTAACAAGGTGAAACCCCTCTCTACTAAAAATACAAAAAAATTAGCCAGGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTAC
TCGGGAGGCTGAGGCCGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGA
CTCCGTCTCAAAAAAAAAAAAAAAAGAGTGGCAACCGTGATTGACTTTGAGGGCAAGAACCAAGGTGATCACCAGTGAGAAGGTAACTTCTCTCTCACTA
TTTACATATTGTACTGTAGAAATACTTTTCTTTTTTCTTTTTTTCTTTTTTGAGACAGAGTCTCACTCTTGTTTCCCAGTCTGGAGTGCAGTGGCATGAC
CTCTACTCACTGCAATCTCCGTCTCTTGGGTTCAAGTGATTCTTCTGCATCAGCCTCCCAAGTAGCTGGGATTACAGGCTCCTGCCACCACACCCGGCTA
ATTTTTTTGTATTCTTAGTAGAGATGGGGTTTCATCGTGTTGGCCAGGCTGGTCTCAAACCTGTGACTTCAGGTGATCCACCTGCCTCAGCCTCCCAAAG
TGCTGGGATTACAGGCATGAGCCATCGCACCCAGCCTAGAAATACTTTTTAACATGTGCTTGTATTACCAAACCCTAATATGTATGCTTGGATGACAATG
AACTAAGCTGACTTGAAGCCTCATTTTGGTTTTATAGACTAAATAAATTGTACAACATTGTGTGTGTGTGTGTGTKTGTCTTTTACAGAGTTTCACTCTT
GTTGTCCAGGCTGGAGTGCAATGGCATGATCTCAGCTCATTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCGTCCCACATATCTGAG
GTTACAGGTGCCTGCCACCATGCCCAGCTAATTTTTGTAGGTTTAGTAAAGGTGGGGTTTCACCATGTTGGCCAGACTGGTCTCGAACTCCTGACCTCAG
GTGATCCACCTGACTCAGACTCCCAAAGTGCTGAGATTACAGGTATGAGCCACAACACCCGGCCAGAACTTTAATACATCTCTATAGATAGAGATGTTTC
ATCAGTATTGCCTAACACATGTTAAAAAGTTCAAATAACTTTTAAAAACTAGTGTCCTGCTGTAGTTCTAGATTGTCATGACTATTACCAACAAATTCAC
TGAAAAATATATTTTTTAAAGAAAAAAAAGAGAATTCATCCCAGTAAACAGTTTGTAAACCAGGGAGATGCAGTCTTTGGTACAAAACAAAGGTGCATTC
TGAGAGAATAAAGAGAGAAGTTATCTTTTATAGAGAAAGTTCCCTCCCAGGTTCCCACTCTGGTCTGCTTATGCAAATGAAGGATGCAAATTTATGTAGT
TCTGATTGGTCAACACTTGCTGAGTTCCAGTTGGCTGATGCAGATCACAGTCTATTGACTGATTTAGGTCATGTAAATAGAAATAGACAATTCACACTAC
TATATGGCCCAAATGTTAAATACGTAAAATTCAAGACAAAAAATTTTTCTCTTATGTCCATTGCTGTGATCTAGTGTTAGCCATGGTCTTTTGTTCAAAT
AACATGAAATGAGGGCATAAGATTTTTTTTTTTTTTTGAGACAATCTCACTCTGTCGCCCAGGCCGGAGTGCAGTGGCACAATCTCAGCTCACTACCACC
TCCACCTCCTGGGTTCAAGTGATTCTCATGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCATGTGCCACCATGCCTGGGTAATTTTTTGTACTTTTTA
GTAGAGACTGGGTTTTGTCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGAGCCACCTGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCG
TGAGCCACCATGCCTAGCTGAGATTTTTATATTTATCATGCTGATTTTGATAAATACATCTCAGGGACTAACATCTACGTGTGGAAGAAAAGGAGGGTCA
GGAGTTATAGTAATTTCTTCCCCCATTTACAGCCACATGAAGCTCTATCTTGCTACTAGCTGAAGACAAGCAGTAAATAATAAACTGCATTGGCTTATTT
TGAAAAATGACTTTGAGAAAGGTTAAGAAACACTATTCAGTGGCAATCTTATCTTTTAACTGAGGCTTTGCAAGCAGCTGCTGCTGGGGCCTCAAGAGAT
GTGATAAGATGACAAGATTAACTTTGGTTATGTAGGGGAAGAAAAATAATTTTCTTTCTACCCTCCATAGTTCTTAACTGGGACTCCCTGAGCAGATTAA
CAAGAGAAAAACAAACAAAAGTTTATTAGCGTGTATACCTCATGTACGCATGGAAGAAAACCGTGGAGAAATGCATAAACCTCCAGAGTAGATCTCCAAG
GAAAAGTTTAATCTTCAGGTTTAAATGCTGCCCTTTTTATTAAACAAAGAAAGAAAGGTGTGGGGAAAGACCCCACAGTCTTTCAAGATGGCCAGAAAAA
GCACTGAAAAGCAAGGGTCAGTTTTGTTGTTTTGTTTTGTTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAATGGCGGGATCTTGGC
TCACTGCAAGCTCCGCCTCCTGGGTTCAAGGGATTCTCTTGCCTCAGCTTTCCGAGTAGCTGGGATTACAAGGATGCGCCACAGCACCAGGCTAATTTTT
GTATTCTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCCTGAACCCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGA
GTACAGGCGTGAGCCACCACTGCTCCTGRCCAAGGGTCAGGTTTGTTATGCAGAGTTAAGTCCAGGCCTTCTCCATCCTTTAGGAGTTTCTAGTGATTTT
CTTTATAGATGTAAATTTCCTTACAAAAGGGCGACTTTTCTGAAATACTCCTGTGTCTGCAGTTTCTCAAAATAACCAGCTCGAAATAACCCATACATAA
AAGAGACATATTTTGGGGTAGCATATTCTGGTCTCCTGCAGTCATATTTGGGGGTGGTGTGTCCTGAGACCTATCAGTCACCTTTTCTAAATCTTTTCCA
GTTCTGCCCTCTCTCTCTTTGGGCCACCACACTGGCTCTCCTTCCATACTTTGACTCTTTTGTTCCAGCTTCACTGAGGCCTAGAACTCCCTTCAAGGTA
TTCCTCCTGGGCCAGGTGCGGTGGCTTGTGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCAGTTGACCTGTAATTCCAGCTACTCGGGA
GGCTGAGGCAGGAGAATTGCTTGAACCAGGAATTGGAGGTTGCAGTGAGCAGAGATTGCGCCACTGCACTTCAGCCTGGGTGACAAGAGCAAGACTCCAT
CTCAAAAAAATAAAAAGATATCCCGGCCAGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCGGAGGCAGGCAGATCACAAAGTCAGGAGA
TTGAGACCATCCCGGCCAACATGGTGAAACCCTATCTCTACTAAAAATACAAAAGTTAGCTGGRCGTGGTGGCGTGTGCCTGTAATCCCAGCTACTCGAG
AGGCTGAGGCAGGAGAATTGCTTGAACCAGGAATTGGAGGTTGCAGTGAGCAGAGATCGCGCCACTGCCCTCCAGCCTGGGCGACAGAGCAAGATTCTGC
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATCCCTTCTGTTTCAACCAAAATGCTTACCTTTTGAATGCTACTCTATCTGCTATATGTAGGTCATCTG
ATTAAATTAGTTCATTCATATTACAATATGAATGAGGCTTAACTTTTCCAGGACATATTTATATTTGTATTTTCTTTTTTTCTTTCTTTCTTTTTTTTTT
TTTGAGACGGAGTCTTACTCTTTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCTGCTCACTGCAACCTCTGCCTCCCGGTTTCAAGCTGATTCTCCTGC
CTCAGCCTCCCTCAGCCTCCCGAGTAGCTGGGATTACCGGCGTCCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATCT
TGGCCAGGCTGGTCTTGGACTCTTGATCTTGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTACACCTGGCCTTTTTT
TTTTTTAAGGTAGGGTCTTGCTCTGTCACCCAGGCTGGAGTATGGTGGCACTATCACAGCTCACTGCATCCTTGAACTGGGATCATGCCATTCTCTCACC
TCAGCCTCCTGGTTAGTTGGGACCACAGGTGCATGCCATCATGCCTGGCTAATTTTTTTCTTTTGCAGTTTTTTCGTGGAGATGGAGGTTTGCCATGTTG
CCCAGGCTGTATCTGTATTTTCCAAAGAGAATTTTATTAGCGGAAGTGAACTTCCAGTTGGCAAGTGTTGCCAGGGAAATGGCTCTGAGCAACGACATTA
CTTCCCTCMTTGCTTCCCTTATCAGTCAGTTAATAGCTATTTCTGGAGCACTGACTGTGTCAGGCACTGGTCTACGTGCTGGGGATGCAGCCAGTAAAGA
CAGAGTCAGCCCTTGAGAGGCATGTGTTGTGTGGGACATTTATTGGCCRTAATAAGGATGGCACCATGTCTGAGAGGCTGAAAAAGAGACCCAGAGCCAG
TGAGCGAGACATAGGGTTTATTGAGGACTTCTACATGGAGTGGTCCAGGGGCAGTGAGCTGGACAGGAGAACCGTGACCTGCCACCACACCCAGCTAATT
TTTGTATTTTTTATAGAGACGGGGTTTTGCCATGTTGCCCAGGCTAGTCTTGAACTCCTGAGCTCAAGTGGTCCATCAGCCTCAGCCTCAGCCTCCTAAA
GTGCTAGGATGACAGGTGTGAGCCATCGCGCCTGGCCTGCCCTGCTCATTTTTCTACATAGCACTTACCTTAACCCTTCATCTATTTGTTTATTATTTAT
TTATTTTTGTCTTTCTTCTCCCACTATGATGTCAGCAACTTCAGGGTAGAGATTTTGCCTGCTGTGTTCACAACTGTGCCAGCACATGGCTGACCTTGAA
GAACAGTCCTGGAGTAAATGAATACTTGGATGAAAAGTAGGAAAAGGGAGAAAGCTGCTGATACAGGTCAGCAGAGCCAGATCACACAGGGCCTAGTAGA
CCAGGATGGGGAGTTTGCATTTTGTTCTAATTTTTTTTTTTTTTTTTTTTTGGAGACAGAGTCTCACTCTGTCGCCCAGGCTGGGGTGCAATGGCGTGAT
CTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACACCATTCTCTTGCCTCAGCCTCCTGAGCAGCTGGGACTACAGGCGCTTACCACCACGCACAGCTA
ATTTTTTGTATTTTTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACTTCGTGATCTGCCTGCCTTGGCCTCCCAAAG
TGTTGGGATTACAGGCGTGGGCCACCATGCCTGGCCTTTGTTCTAATTTTAATGTGAAGCCATGGAGCATCTAAGCAGAAGAGTGACCCAATATGTTATT
TTAGGATGATCACTCAGTTGAACTTCCAGGGCCTAGAACTTGATGTTATGATTGACAGGATGCACATCACTTTTTGAAGAAACCCACTTCATTGCTGAAA
GTCTTTAATTATTAAACATTAGGGCAGGCGCCGTGGCTCACACCTGTAATCCCAGCACTTTGGAAGGCCGAGACAGGCAGATTACTTGAGCTCAGAAGTT
CAAGATCAGCCTGGGCAACATGGTGAAATCCGTCTTTACAAAAAAATACAAAAATTAGCCAGGCGTGGTGGCAAGCACCTATAGTCCCAACTACTTGGGG
TGGGGGCTGAGGCAGGAGGATCGTTTGAACCCCAGAAGTCGAGGCTGCAGTGAACTGAGATTGTGCCACTGTACTCCAGCCTGGAGGACAAAGTGAGACC
CTGTCTCGAAAAAAAAAAGAAAAAGAAAAAAATCCATTTTTTCACACATTGAATCTTTCTTTCTTCTCTAAAACTGGTACCCATTAACCCAAAGTCTGTG
CTCAGAATCCACTGARAACAAGTTTAAAACTCCTTCCACATAATGGTTTTTGAAATATTTGGAGACTTTCTTAGTCTTCTCCAGGGTAGGCTTTCATGAT
ACTTTGACTTATTATCCTGTTACATGACTTTCAGAGTTTTCATTGTCCTTCAGAGAGGTCTGGCTTTTCAGTATGCTCCTGAAGAACTGCCAAACTTTGG
TCTGACCAACACAGTGCAAAGCAGTAATTGTGTTCAAGACTGGAGTTTTCTGTGTCTGAACACAGCCTAATTCAATTACACTTCAGCTGTGTCACTAGCA
GGTCAGGCTAAACTTGTGGTTGATGGAAACATCTGGAACTTCTTCAAGCTSATGCTGCTTCCTCCTCCACTTCACCTGCATGCTGAGATTTGCAGTGATC
TTGTGAAATGTATCCTGTGGTTTCCGGCTGAAGTGGTAAGGTTTTTGAGATCAACTCTCTCTGCGTTCTCTCAGTTGCGTAACATCTGAAAATTTGTAGT
TTTGTTCTTATACTTTTTTTTTTTTTTTTTTTGAGATGGAGTCCTGCTCTGTCACCTAGGCTGGAGTGCAATGGCGCCATCTTGGCTCACTGCAACCTCT
GCCTCCCAGGTTCAAGCAATTCTCTGCCTCAGCCTCCCGAATAGCTGGGATTACAGGTGCCTACCACCACGCCCAGCTAATTTTTGTAGTTTTAGTAGAG
GCAGGGTTTCACCGTCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCACCTTGGCCTCCCAAAGTCCTGGGATTACAGGCATGAACCAC
CACGCCTGGCTCTTGTTTTTATTCTTTATCCAATTTGTTGAAGATATTGAACAGAATAGGACTGTGGAAATAATTCTATAGTCTTGTTTTTTTTTTTACA
CAGTCTCACTCTGTTGTCCAGGCTAGCGTGCAGTGGTGTGATCTTAGCTCACTGCAACCTCCACCTTTCAGGTTCAAGAGATTCTTATGCCTCGGCCTCC
TAAGTAGCTGGCATTACAGGCATGCGCCACTACACTCAGTTAATTTTTTGTATTTTTAGGAGAGATGGGGTTTCATAATGTTGGCCAGGCTGGTCTTGAA
CTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTGCTGCATCCAGCCTATTGTCTTATTCTTGAAATTTT
TTCTTCTTCGTTTTCTTTTCCAAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCGCAATCTCTGCTCACTGCAACCTCTGCCTCCCAGGT
TCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTATAGGTGCCCACCACCATACCGGGCTAATTTTTGTATTTTTAGTAGAAACAGGATTTC
ACCATGTTGGGCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCCCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAGTGTGCCTG
GCCTGAAATTTTTTCTTAACTGTCAGCTTTTAAAATAATGAACTGGGGGGTAGAGGAGTATATTTGTGTGTATGTAGTGTGAGGTTCCTTAGCTGTGGGA
TATTGGCAGACAGACAAAAGTGAAGGTTTTCAAACAGAGCCAGTAGATGAAGGGGACATGCCATGGTGAAGAAAATTAATGAGAGAACACATAGAAACAA
AGGGGAAAGCACAGATATTCTTGACAGGTTAAATAATAAGTTGAATTTCCTTTGATCTAGGAGACAAGGGCAGTCATCTGTCAAGCTCCTTGACGTATTT
TTGCTTGTTCACATATCCAGACATTGTGAACCCAGAAAATCTGAGGCAGGTCTCAGTTAATTTAGAAAGTTTATTTTGCCAAGGTTGAGGATGTGCCTGC
GCCCGTGACACAGCCTCAGGAAGTCCTGACGACATGCGCCCAAGGTGGTCGGGGCACAGCCTGGCTTTATACATTTTAGGGAGACATGAGACATTAATTG
CTTTATGTAAGAAGTACATTGGTTCGGTCTGGAAAGGCGGGACAACTTGAAGCAAAGGCAGGAAGACTCAAAGCAGAGAAGTTACATTCTTTTGAGTTTC
TGATTAGTTTTTCCAAAGGAGGCAATCAGATATGCATCTATCTCAGTGAGCAGAGGGGTGACTTTGAATAGAATGGGGGGCAAGTTTGCCCTAAGCAGTT
TCCAGCTTGAGGTTTCCTTAGTGATTTTGGGGGCTGAAGATATTTTACTTTCACAATATCATAAGACTGCTTCTTAAGATCCATGGTCCTCTCGAAGAGG
CCAGTATGAATCAACATCGGTGGGTGTTCATACTCACTTTAAACTTAAAGATTTAGGCCAGGTGGGGTGGCTCAAGCCTGTAATCTCAGCACTTTGGGAG
GCTGAGGCCGGCAGATTGCTTGAGGCCAGGAGTTCAAGACCAGCCTGGGCAACATGGCAAAACGCAGTTTCTACCAAAAAACAAAAGAAAACAAAACAAA
ACCCAAAATTAGTTGGGTGTGGTGACTTACACCTGTAGTCCCAGCTACTTGAGAGGCTGAGGATCACTTGAGTTTGGGAAGTTGAAGATACAGAGAGTGG
AGATCATCCCACTGTATTCYAGCCTGGGTGACAGAGTGAGACCCTGTTTCAAAAATAAATATAAATAAATATATATAAAGATTTAAGCTTAAGGCCGGGC
GCAGTGGCTCACACCTGTAATCCCAGAACTTTGGGAGGCCGAGGTGGGTGGATCACAAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACCC
CATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTAGGGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGTAGGAGAATTGCTTTAATCTGGG
AGGCGGAGGTTTGCAGTGAGCTGAGATCGTGTCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTGAAAAAAAAAAAAAAAAAAAGATTTAAG
CTTAAAACAAAAAGCAATAGATGATATTTGTGGGAGACATTCATGCCTCTACTCTCTTAAAAAATAATGAATCATTCCCCAAGTCCTCATTTTACTTTCA
TATAATCTAGACCTATGGCAGCTAATAAACCTCTGTGGAGTTTGGGTGTTTCATGTTATAGCTATTGAGCAGAACTTTTCATATACAGTTTGTACAAGCA
GCTGTCAAATCACTTAGAAGTACCATATCCCAAGCCACAGTTCRGTATSTTACTCCCAAGGATGCCAGTAGATAACTCATCAAATGCTTTACTAAAAGAG
GGATATACAYTGTAGCTAAAGTGTTGCCCTTTTCTACTAACCTAATAACAATGTCAAAAAACATAWTTGGATTTAATTTGTTGAAACCTTCAAATGTTTT
GAAGAGAGTTCATATTATTTTTCAGTCATCATTTCACATTCATCTACATACCCATAAACCATTTGTTTAACAATTCATACCATTGGGCTGTGGATTTATG
TCAAACTTACTGAGGCTTGGCTGTCAGAATCTATTGCTTTTCCTTCTGTGTCTTCAGGCATCTTTGTGTTCATCGTTTTTGAAAATGTTTTTTTCTCCCA
TCATGAAATAATACAAACACATTACATAAAATTTGGAAGCAGAGAAAACAAGAAAAAAAAATCTCCTTCTAACTCAAATACTCAATATTTTGGTACACTA
ACTTCCAGCATTTTTTCTAGATATATTCTTTTTAAAAAAATTTTTAGGCCGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGTTG
AGCGGATCACAAGGTCAAGAGATGGAGACCATCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACACAC
CTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCTCTTGAACTGGAGAGGCTGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCT
GGCAACAGAGAGAGAGACCCCATCTCAAAAAAAAGAAAATCTTTATGTTAAGTTCCAGGGTACATGTGCAGAATGTGCAGGTTTGTGTATGTGGGTATAT
ATTCTTAACAGTATCACAGTGTTGTACATGTATTTTTTTTAATTGAGACAGGTTTTAGCTCTGTTGCCCAGGCTGGAGTGCAGTTGTGTGATCTCAGCTG
ACTGCAACCTCTGCCTCTGAGTTCARGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTAGGACTACAAGCGTGTGCCACCATGCGTGGCTAATTTTTGTA
TTTTTGGTAGAGATGGGGTTTCACTATGTTGCCCGGGATGGTTTCAAACTCTTGAGCTCAAATGATCTGTCAGCCTCAGCCTCCCAAAGGTCTGAGATTA
CAGGCATGAGCCACCTCACCCAGCCAATTGTACATGAATTTTAAAATACAATTTTCATTTTATTAGATTGTCCTCCTTACCATCCTATATTGTAAATATT
GTTGATAGTGAACTTCCCAGGGTCACAATTACACGTTTTAACAACTTGGAATATGTTTTCCTGGGTTTCTAGCCCCTAAATTCATTTTGGACAGCTAGTT
TCTTGTATTATTTTCTAGCTGGACTTTTATTCCATCTTCCTGATATACATTTTTATTTTTCAGTGTGAGTGTAATTTCTTTCTTTCTTTCTTTTTTTTTT
TTTTTTTTGCTATATAGGTGTTTTAGTCTGTTCTTGGGTTGCTGTGAAGAAATATCTGAGACTAGAAAATTTACAGAGAAAACAGTTTTAATTGGCTTAT
GGTTCTGCAGGCTGTTTACACAGCCAGCATTTGCTGGGCTTCTGGAGAGGCCTCCAGGAAATTTTATTCATGGTAGAAGGTGAAGAGGGAGCAGGGAGCA
AGAGAAGGAGCTGGGAGGAGGTGCCACACACTTAAACAACCAGATCTCATGAGGACTCAACTCACACGTGCCAAGGAAATGGTGCTACTCYATTCCTGAG
AAATCTGCCCATAATCCATTCACCTCTCACCAGGTCACACCTTCAACCCTGGGAATTACACTTCAGCATGAGATTTGGGGGCACAAATATTCAAACTCTA
CCAATAAGTCAGAAGAAAACTAACAATTAAATAATCGGTCTCTCTCTTTGTCAGCTTTCAACCTTAKGTTTAGAAACTTCATCCTTGTAAATCGGAACAA
AAATTGGGCTAACCTTTCAGGAAGGCAACTAGGCAGTATGTTTGAAGATTCTTAAATGTTTTACCCTTTGCTTAAGTAATTCCACATCTAGGACTCTATC
CTAAGGAAACAATTTATTCAAAAATTTTATAAAAGGGCCGAGTGAGGTGGCTTATGCCTATAATCCCAGCACTTTGGGAGGCTGACGTGGGCGGATCACT
TGAGGCCAGGAATCCGAGACCAGTCTGGCCAACATGGTGAAACCCTGCTTTTGTAAAAATACAAAAAATTAGCCAGGTATGGGYGGTGGGCACCTGTAAT
CCCAGTTACTTGGGAGGCTGAGACAGGAGAACAGCTTGAACCCAGGAGGCGGAAGTTGCAGTGAATAAGATAGCACCATTGCATCTGCACTCCAGCCTGG
GTGACAGAGCAAGACTCTGTTTCAATGAAAAAAAATTTGTAAAAGAATCTTGGTTGCTCTGCCTATGGGGAAGCCATTCTTTTACTCCTTTACTTTCCTA
ATAAACTTACTTTCACTTAAAAAAAAAAAGAATCTTAACTGTACCTTTATTCATAATGGTGAAAGATAGCACCCAAATATCCCAAAGTAAAGAAATGGTC
AAAATAGAGAGCATCTACATGATGTAAGATTGTGTAGACATTAAAGAAAAAAGCAAGCTTTGAAGACACAAATAATAATCTGGGAAAGTGCTCATGATAT
GAAAATAAAATAYACAACAATATACCGAATATGATTCCAATTCTGATTATGACATATACAAATGCTGAAAAGAAATAACCCTAAATGGTGATATTATAGG
ATTTTTAGTCATTTCCTGTTTGTTTTCCAGATTGATTTAAATGATACTGTATTACTCTCATAATGAGAAAAGTATAATTCCATATGTACGAATCATCTTC
CTTGTGAAATACAATAACTCTTCCTTCCTCTTTCCATCCTGACTTCTACACTTTATTGTCTTTGCATTTTTTCTGATCTTTATCACATCTTGGATTTAGT
TTAGTCAGCTGAGCTCCTGACATTTTATGGACTTGGTTTATACTGTACTTCGTTTTTTTTTTTTTAATTTTTTTTGAGACAGAGTCTTACTCTGTCACCT
AGGCTAGAGTGCAATGGCACTATTGCTGCTCATTGCAACCTCCACTTCCTGGGCTCAAGCGATTCTCGTGCCTCAGCCTCCTGAGTAGCTGGGATTACAG
ACGTGCACCACCATGCCTGGCTAATTTTTTTTTATTTTTAGTAGAGACGGGGTTTCTTCATGTTGACCAGGCTTGTTTCGAACTCCTGGTCTCATGTGAT
CCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCTCTATGCTGTACTTCGAATYCATCCCATGTAATATTCCCCT
TCCTCCATCCTTTTTTTTTCTTTCCCAACCTGAGCTCATCAGAAAAACTTCCTGGGAAGTCAYATTAGTTTCTCTGGCTGCCTCCTCATCTTCTGCACCA
GATCGTCAGCAAATGCATTTCCAGAATCTTATTATCARGCTCTCATCTGTTAAACCTCATTCCCTTTTAGGTTTTCTGGTGATGAGATCATCCCCATAAT
TTCTTTCTAATTCTCACAATATGTTTTTCTAAATAGTCCGTGACACTTGTGTGAAAGGTCTCAATGTTCTCTTCTTCTTTCTTTCGAGATGGAGTCTCAC
TCTGTCACCCAGGCTGGAATGTAGTGGTGCGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCTTCAGTCTCCTGAGTAGCT
AGGACTACAGGTGCGCACCATCATGCCCAGCTAGTTTTTGTATTTTTAGTTGAGACAGAGTTTCACCTTGTTGGCCAGGCTGGTCTCCATCTCCTGACCT
CATGGGATCTGCCCGCCTCGACCTCCCAAAATGCTGGGATTACAGGTGTGAGCCCCCATGCCCGGCCTCAGTGTTCTCTTCTTTGTATTCCAAAGCATCA
TGGCCTTTTTGTCTCAAACTTGTCCTAACTCAGAACTTCTTGTGAAGCAGGAAAATGAAGTGAGCTGGGGGGCTGATACCAGACTCTCACACTGGGACTG
GACAGAGGGCTGAGATGATCCAGCCAGCTGAACAGCTGACTCTGGAGGGACTGGCTGCAATTTGTGGTGGTCATTGGCTGAGAGTTGGGTGACATAATGA
CCCTACTGAATGTCGCAGAAACATCTATATTATTTTCTATACCAAGATAAGTTGGGGAGACTTACAATTTTGCTACTCATGGGGACTAAAACCGGGTAAG
CAGTATCATTATGGGACGCTCATTTAACCTGCATGAACCACATGCCTACCTTTGTGTGATTTTGTGTAGGAATTTCAAATTCTTTGGAGTAAGACATCAG
AGGCATGTATATTAATGACAAGAAGAATGTTAATGAGAACTAACTTTCATTAAACACTCATTATAATATCACCACTTAGGGTTATTTCTTTCAGCATTTG
TATATGTCATAATCAAAATTGGAACCATATTCAGTATATAATTATGTATTTTATTTTCATGCCATAAGCAATTTCCCAGATCATTATTTGTGTTTTCAAA
GATTGCTTTTTTTTCTTTAATGACTACATAATCTTACATCTTGGAGATGCTCTCTATTTTAACCATTTCTTTGCTTTGGGATATTTTGGTGCTTACTTTC
ACCATTATGAATAAAGCTACAGTTAAGTATCCTGCCTGCATTCTAATTGAATCCTGACTACACCCATTTGAAGGGGGATTTGTTTATTTATTTATTATTT
ATTTTTTGAGACAGAGTCTTGCTCTGTTGTCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAACGATTCTCCT
GCCTCAACCTCCTGAGTAGCTGAAACTACAGGTGTGTGCCACCATGTCCAACTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGG
ATGGTCTCCATCTCTTGACCTCGTGAGCCACCCCTGTTGGTCTCCCAAAGTGCCAAGATGACAGGCATGAGCCACCTGCACCTGGCTGGGGGTTTTATTT
ATTATCTCCATTTTAGACATGAAAACTTGACTAGAGAATGTTACTTGCCCAAGATGACACAGCTACTAAGAGGCAGAGCCAGGACTCCAACTCAAGTATA
CGGTGATTAAAACCTCTGTCCTTAGCCATGACACCATGGTCTTGCCACAGTGATGAACTTGCCCCCATTCTCTGATGGGGTCACTCTATGAAGAGCCAGA
GACTATGCTCCTTTTTCTATTTGGTGCACACCATCCTCCACAGACTCAATATCACAATTATATCTAAGCACCTTTCTCCAAATCCAATCTAACACGTAAC
ATATGGGTTGGTGAATTTGCCTAGCAAAATTCCTGCCAGTTTCTAAGTAAAGACTTTGGCCCCTAGCTAGGACTCCGTTCCTCTGGCATTTCAGGCCTTG
ATTTCGGGGAAAAGGGGAAGGAAATTCCTTCCTTCTAATGTATGCTTCACAAGAGCAGCACATGTTCTGGTTCATCAGAATGGCCAGTTTCATATTGTTC
ATCTCACAGATGAACACCACAGAAGATGCCATTGGTTTGGAGAGTGGAATKAATGGAAGATGAGTTTATGTGGCAACATACTACGGTTTTTCTTCTTCCA
GTCTCTCTTTCTCCCTGCACTACTCTCTGATCCCAGTGTGTCTTCTACACTGCTATCGATATACTTTCGAAAATACAAACCTGATCCGGTTCCTCCCCTT
CACCGCCTTCAAGATAAGTTCTAATTCCTAAACGTGGCTTACAAGAGCCTTTGCCAGCTGGGTGCGGTGGCTCATGCTTGTAATCCCAGCTCTTTGGGAG
GCCAAGGCAGGTGGATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAAGATGGCAAAACCCCGTCTCTACTAAAAATACAAAAATTAGGCCCAGTG
TTGTAGCTCCGTAGCTAAGGTTCTCTCCTTTCACAGTGGTGGCCCGTGTTCGATTCCTGGCTTAGAGAATGAGTACTTTCTGGTTAATATCTGTGTGACT
TTTGGGGCTGGGTATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGTCAGAAGTTTGAGACCAGCTTGGCC
AACATGGTGAAACCCTGTCTCTACAAAAATACAAAAATTAGCCAGGTGTGCTGGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTAAGGCAGGAGAATTG
CTTGAACCCAGAAGGCAGAGGTTGCAGTGAGCCAAGATCACACCACTGCATTCTAGCCTGGGCAACAGAGTGARACACTGTCTCAAAACAAAACAAAACA
AAACAAAAAACAAACAAAAAAAACAAAAGAGCCTTTATCATCTAGTTCCTACCCACTCTCCACCTTTGTTTGCTGCTATTCCTTACCTGAAATATTCTGC
ACCAGCAACACTCAACAATTTGCAACTGTTGGGTGCATGATGCTGTTTTATGCCTTTGCTCTTTGGCAACAACCTGGAACATCCTCATCATTGCCACTAC
ATCCTTATGTGCGGGGATACACATGCATCTGACACTTTCTTCTATGATTGTAATTGTAGCATTGTACCTCAGTCTTAGTAAACTGCGAACTCCTTATAGC
CAGTAGTCAACTCTTGTTTATTTCTGAAATTCTGCTATCAACCACAAATTACAGCTTAGTAAGGGCTTAGTAGCAGTTTGTAAAAAAATAAAATAAAATA
AAAAAGAAAGCCTGGGCACGGTGGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACTTGAGATCARGAGTTTATGACCAGCCT
GGGCAACATAGGGAGACCCCCATCTCTACAAAAAATAAAGAAATAAGAAATAAGGCTGGGCGTGGTGGCTCACGCTTGTAATCCCAGCACTTCGGGAGGC
AGAGGTGGGCAGATGACTTGAGGCCAGGAGTTCGAGACCAGCCTGGACAATATGGCAAAACGCTGTCTCTACCAAAAATACAAAAAATTAGCCAGACATG
GTGGTGCAATGACTTGTGATCACGCCACTGCACTCCAACCTGGGTGACAGAGTGAGACACTGTCAAAAACAAACAAACAAACAAAAAACACCCAAATAAA
TAAATAAATAAAAGCATTAATGGCACTTAGGAGAAAATGCACAAGAGACTCAGAGCTGTGTCATATTCAAAGTACAGAAAATAGTCTCACTTGGCAAGGG
AGAAAATGTATGTGGTAGAACCGTATTAGCTGAACTTGTCTTAGGTGAACATTGACGTGCTAGATCAGTGGATCTTTATCCTTACTTCAATCATACTTAC
CTGGACAATTGTTTTAAAAATCACTATACCGGCCGGCCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCATGAGGTC
AGGAGATCGAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGCGGGCGCCTGTAGTCTCAGCT
ACTCGGGAGGCTGAGGCTGGAGAATGGCGTAAACCCAGGGGGCGGAGCCTGCAGTGAGCAGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGCGA
GACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAGCACTATACCCAGAAATTATGAGTATTGGTATTTTTAACAAACAATTGGGAACATCTACTATGCAG
CCAAGGATAAGACTAACTACTCTAGATAAAAATAGAAATTGCAACATATGGATATTAGTTTTTTCAAGGTAAAAGCTACCTGTATTCAGAGGATCCCAGT
GTCCACACAAAAATGTCCCAGTGCTGACTTAGGCCCATTATTGATTTCTAGACATATTTAATCATGCCCATTAAGCCCTGTGACATGTTTATACCCCTTA
TAAATGCATATCTAGTTCCTGACATATTTTATCATAAAGAGAAGGCATTTGAATCTTTTCTCTGAAATGTGGTTGGTAGATATTGACTAGAATTCCAACT
CAGAAGGAGACAACATTGAAAGTAGGTTTTTAAACAAATAGTCTAAACTGTTGCTAAATGTTTAATATCATGGTCAAAGTCTCTGCTTGGGAAGTAAATA
AGAAAGTTTTTGAACATGTGATGCAATGTGGTTTCAGGAATACAAAAACCTTGGACTCTGAATCCAGGTCTCTATAGTTTAATTTACAAATTAGCGTAAG
AAACGCTATAAAGTCATTAACAGTTTCAAAAGACGAGGTCCCATGTTACTTGTGATAAAAATGTTGTTATTTTATATATTCTTAAATTCTCAGGTATTCT
TGATCATGCTTGTATATATATATACGTATATTTTATATATTATATATATTATATATACATATATATTATATATATATTTTCAGATGGAGTTTCACTCTTG
TTGCCCAGGCTGGAGTGCAATGAGTGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAATGATTCTCCTGTCTTAGCTTCCCAAGTAGCTGGGAT
TACAGGCGCCCRCCACTACACCCGGCTACTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTCAAG
TGATCCACCTGCCTCATCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATACCCGGCCTGTTAAAATATATTAATAGCATGTTAAGTGTAACATT
AAACCCAAGAGTTGCCAATCTTTACTGATGAGTATAAACCCTGAAAATACAAGACAGCCACTTGATTTGCCAAAATTCCATATTTTTTAACAGTTTTTCC
ACTTGCTCTGCCAAATAAAACTTCAATGGTAAGTTTAAATGTGTCTTTAAAACTGTCATTTAACATTGGTAAGCAGCCAGCTCCTCAGTTATTATCATAG
GTTAGTTTTGGGAATGTGAATCGAAGTGCGTGGAGGGAAGATAGATCAGTTAACTGATCAACCAGATGGTGCTAAAGTTATGTGGCCCAATGTGTCACAA
ACTGGAAGGTGAAAATAATTGAAAGGTGCAATTGCATCTTATCTCTCCAAAGACTTCTTCATTAGGGCCATGTGTGTTTCTGGAAGAGTTTTAGGAATAC
CTTGTAGTTCTCTCTCTTTTTTTTTTTTTTTTTTTTTGGAGATGGAGTCTCGCTCTGTCACCCAGGCTAGAGTGTAGTGGCGCAATCTTGGCTCACTGCA
AGCTCCGCCTCCCGGGTTCACGCCGTTCTCCTGCCTCAGCCTCCTGAGTGGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAACTTTTTTTTTGTA
TTTTTAGTAGAGACGGGGTTTCACCGTGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
CGCGCCCGGCCAGGAATACCCTGTAGTTCTCAGACATGTTCAAGTTCAGCCGGAGGTAATGGCTCACACCTGTAATCTCAGCACTTTGGGAAGCTGAGGC
AGGCGGATCACTTCAGTCCAAGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACTCTGGCTCTACTAAAAATACAAAAATTAGCTGAGCATGGTGGCCA
GCTGATAATCATCATAATCCCAAAATTATGATTATGAATAAATTAATCATAATTATACTCATAATTTATTAATTATGCAGATTACCATTTATTATCTTTG
TATTTAATTGTTCAAACAAGGGAAATTTTTACCAGCCGAAGAGTAAACATGAAAGTTGTAATTACAAATGCATGTAACAGCCCACAAAAGCCGTCAAACT
AAGTTTGATTTAGTGGTTTCTCCATTTTCCTGTCACTGTTATTTTGCATAATTTTTCAAAGCTCAGTAGCTGGCAAATAGGAGCTGAGTGTCAATGATGG
CGGTGGGGTGGGGGCCAAGCTTGTATTCCTCTTTAGGGGGCGATGCAAATAAAATTTGAGGCCTCGTATGATCCAGTTTAAAAATCACATCTCAATAGAA
GGACTTTCAAGGAAACCACAAAAAGCGTCCTTCCTTCCTTCCTTCTTTTCTTCCTTCCTTCCTTCCTTCCCCTTCCTTCCTTCTTTCTTTTTCTTTCTTG
TGCTCTCTCTCTCCTTCTTTCCTTCTTTCTTTCTCTCTCTTTCTTTCTTCTTTTTCTTTTTCGTTATTTTTTAAATGATTTCAAATTACAAACATACAGA
AAAGTTGTAAGAATAGAACAAAAACTTCCTTGTTCTCTTTACCCAGAGACCCTAGACCCTTCCATTCAAGTGTCACCAAATGCCCCTTCGGGCCCACACT
GTGCACCCAGTTCTCATGTCCACCTGGGTTCCCTAAGTCTTTCTTTGCCTTTCATGGCTTTTGCCCTTTTGAAGATGACAGGGCAGTCATTTTGCATAAC
GTCCTTCAATTTGTGTGTGTACAGTGCCTTCTCATGACACAATCCAGGTTACTAAGCTTTTGGCAGGAATATCACAGAAGTGACGCTGTGTCCTTCTCAT
TGCATCCTCTTGGTGGAGGACATACATGCCAATTTATCCCATTAGTGGTGACATTAATTTTGATTACTTAATTAAGATGGTGTCTGCCAGGTTCTTCCCC
TCTAAGTTTCTCTTTGTCYCCTTTATAATAAATAGTTATTTTATGTGGAGACATGTTTAAGGCTGTATGAACATTTCTCATCCTACTTGTATCCCCTGAT
TCTAGCATCAATTGATACTTCTTTGCCAGAATTAAATCGTTTCATAATTATTTCCAAATTACAATTCTCTAAGTCCAGTATTCCTCTATATTAATTGCTT
GGCATTATACTCTAAGGAATAACTTTCTTATCTCTTCACATAATTGTTAATGTGTTTATTACTATCACTGTGGACTCACTGATTCCTATTTTATTCAGTG
GAGTATAATCCATTACTATTATTACTTATTTGGACAAACTGTCACATATTTGACCAGAGAAAGCACCCCCCGCCCCCCGCTTTTTTTTTTTTTTTTTTTT
TTTTTTTTTTTTTTGAGATGGAATCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGTCACGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAGGTG
ATTCCCCTGCCTCAGCCTCCTAGCTGGCATAACAGGTACACGCCACCATGCCCTGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTCACCATGTTGGC
CAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCTGAACTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGTCAAGAAAGC
CACTTTCAAATGGCTTCTCTGTCCTTTGGACATGTCCCTATCATTCTCTGAGCATTACCTAAGTTGTTCAAGATGGTGTTCCAGGCTCATCTTGTACTTT
TCCTTGACCCAGTTCAAGAATCAGCCAATTTTCTAAGGAGCTTTGGTGCCTTTCGATGGTGGATTGCATTTATTTATTTATTTAGATAGTGTCTCGCTCT
GTTGCCTAGGCTGGAGTGCAGTGTTGCAATCTCATTGGCTCACTGCAACCCCTGCCTTCTGGGTTCAAATGATTATCTTGCCTCAGCCTCCCAAGTAGCT
GGGATTACAGGCACCTGCCATCATGCCTGGCTAGGTTTTGTAGTTTTTGTAAAGACAGGGTTTCACCMTGTTGGCTAGGCTGGTCTTGAACTCCTGACCT
CAAGCGATCTTTCTTTCTTCCTGAAGTGCTGGGATTACAGGCATTAGCCACCACGGCCTGGCCAAGAATTGCATTTAACAACCAATATTTAGGCACTGTG
TGTGCTCATTGCTACTGGATGTACTACTGCTATTATCCTAGTGGACAGAACTAAGAATTATATGTATATTCAGGCATACATTCACACACATGTACATACC
ATTATATCTATATTGATTTCTGTATCTGTTTATATATACGCACAATTTGTACTGTCTCCATTTTCAATCCAACACCTCAAGGTTCATGCTAACTTTCCTT
CTTTCCGCATTGTTACTTCTCTTGTTAGTGAGAAACCTGACCCCCATTATCCTCAATATATTTGCTTGTTTGCTCAATCTCCTATATGTAGCTAAGCTTG
TGACACCATCACGCTGCCATCCTTACACAGATAAGCATGACTTTCCCCTTGAGGCCTTCCTTGTGACTTTTAGACTGAGTTAGGATGAAAAGAAGGAGGA
AGGGAGGAAGAGAGGAAGGGAGGAAAGGAGAAAGAGAGGAAGGGAGGGAGGAAGGAAGGAAGGAAGGGAAGAAAGGAGGGAGGGAGGAAGGGAGGGAAAA
AGGGAGGGGAGAAGGGAGGGAAGGAAGGAGAAGGGAGGGAGGGAAGGAAGAAGGGAGGGAGGGAAGAAGGAGGAAAGGAGTGCATAGTTTTCCARTTGAA
GTATAATCAAGTAAACACACAGATCTTAAATATTTGGCTTGATGGCTTTTGAAAATTGCATGTAGCCAAGTAACAACCACCTAAAATAGAATATAAACTA
TTTCGACACCCCTACCCCAAGTTTCCTAATGCAAGGGAGCCCAGCCACCAGGAAACATCATTAAAAACCCTTCTCCTTGTCCTCTCTCAATATCAGGCAC
TCAGTTTGTAGCTGTTGCTGAAAATATTCTCGTCTCAATTTTAACCTTTTCTCAAATTTTCTTTAACTGATGCCCGACCTCTTTGGTTTCTCTCTCCTTT
TCCCCTTCTACTTCAGATCTTACTATACAGAACGACTTGGCTCCTCCTGACTTCATTAGTTTTCTTTCTTCTTCATTCATCAAGGAGATTCTCCACAATA
AAGCGGAACCTGGGAATTATCCAGAGAACAAGAATCTCCTTCCCCTTAGAAGGACAAATAGGGAAGGACCACTGTTATTTCACATTAGTGGCAGCACACT
CTTCTTATCATGGAACACAATGTTCATTAGGATCGTAATTTAAGAATCATCTGCCTGACAGATGGAGATTTCTCAAGCTGATGTGTCTCAGGGAATTTTA
GACCTCTGGATATAAACCAAGATCACCCAAATGAGAGCAAGCGGAGGTTATTTATTCAGAGCTTGCTATAGSAAGGGAGGCAGCCATTAACAGTTGTGTT
TGGCAGAGACTCAAAGTCAAAGTCAGACAGAGGAGTGGGAAAGCTTTATAATAGAAAAAAGGAAAGGCTTCAGGTGTGCTCCAACGGATTGTTGGTATGG
GGAGGATGGAAGGAAACTAACTAGAAGTGAGGTGTCCATGTGATTGGTTAGAGAAATATGTTTGGATTTCTCTGGTTGGCCTTAAGTTGGGCCAACTGCT
ATAGAGGTTGTAGGTTTGGCTTTCTAGACCTGTTGCTACAGATGTGTGGGTCAGAGTTCTGTTTTCACATATGGCCTGGCTATTGTCCATTTATATATCC
TTTTTTTTTTTTTTAGAGCAAATGATGTAGAAGAGAACTAGGGAATCAAAGACAACCCCCCTTCCGAACCCTCTCAAGCAACAACATCAGCACTGGCCCA
TTATCTTATCCTACTCAAGTTTTTTTTTCTTCTTCGAGTCCCAAGTTGTTAATTTCAAATCAATTTTCAAATTCCTGAAACAGATCTAGAAACCTGTCTA
GACAGATCCAAGACATAYTAAGAATGGATGAGGAGGACTTTGTATTGATCTGACGTAAGAGAAGATAGAGAATTCAAGGATAGCTCTAAGGTCCTAACTG
GAGCTATAGGAGCTTGCAAGAGAGGATGTTGAGCTCAGTTTGTAGGGAATTAAAGTTGTAAGTGCCTCCTGGAAGACATTCTTTGTAATTATACATCTGA
AAACTGGAACATCATTTTAGAGAGGTGGAGACTGAGAACAGAGAGTAGGTGTTTGTCCAAAGTTTATATGCCAAGGCTGTGAGTGAAACAGGAGCTTYGA
TCTTTTGGTGTTCCATCTACAACATACACAAAACAAAAGATGGAGAATGAGAAGTCCAGGCAACCCCGGAAACAACAAGTTTCTGTCAAAAGCAATAATG
AACTGTTTTGTGCCATTAACAAAAACGTTATGAAGACAGAAACCATCTCCCAAAGATTTCATAACAGAGCCACATAAGTGGAAAGTAAATGATTAAAGAA
TGTGGGTCTCAGAGTTCCATTCAAATCAYGATACTTTATCTTCTATTTACAAAGATAAAAGTACACCAGAAAATGGTTAATGTTTAAGCGCTTTCATATT
TGGCTCTGTCTTTTTAGCAGACRAAAACMACTTTGGTAGTGCCAGTGTGACTCATCCACAATGATTTCTCCAGYGCTCATCTTGTTCTCGAGTTTTCTCT
GCCATGTTGCTATTGCAGGACGGAGTAAGTACTTTTTGCTTTTGAAAAAATAATTAATATATCCAACCCCTTCGTATATGTCAGGGATCAATAATGATAA
GTAGGCCGGGCGTGCTTGCTCACATCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGTCTGGCCAA
CATGGTGAAACCCCGTCTTTATGAAAAATACAAAAATTAGCTGGGCATCATGGCCGAGGTGGGCGAATCAGTTGAGGTCAGGAATTCGAGCCCAGCCTGG
GCAACATAGTGAAACCCTGTCTTTACTAAAAACACAAAAATTAGCCGGGCGTGATGGCAGGCGCCTGTAATCCCAGCCACTCGGGAGGCTGAGGCAGGAG
AATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGGTCCCCCCATTGCACTCCAGTCTGGGCAACAAGAGCAAAACTCAGTCAACAATAATAAT
AATAAGAAGAAGAATAATTAAATTCTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCAGGCTGAAGTGCAGTGGTGCGATCTCGGCTCACTGC
AAGCTCCGCCTCCTGGGTTCACTCCATTCTCCTGCTTCAGCTTCCCGAGTAGCTGGGACCACAGGCGCCCGCCACCACACCCGGCTAATTTTTTGTATTT
TTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGTTGGTCTCTATCTCCTGACCTCGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGT
GTGAGCAACTGCGCCCAGCTGATAACTAAATTCTCTTTAGAGTGGATGCTGGAGGGACTGGATTGATACTGATTCTTTAATATTGCCATGTGTAAAGCTC
CTCTGTAAGATACGTAGCCAATTTAAGCCTCAGCATACTGACCTGTAAAATGGGGATAATTATAATACCTCCTTCAAATGGTTGTTGAGGGGATTAGATG
AGATAGTGTATATGAGGTATTTGGCATGCAACTTGGTATGCTTATAATTGGTAACAGTACACACATTTTTCATTTGTGGGCTTAGCTGAACTTTAAAATG
CAAATAGAGATTTGTTAACCATCTGCTTTGTGCCCTCTTTCAGCCTGTCCCAAGCCAGATGATTTACCATTTTCCACAGTGGTCCCRTTAAAAACATTCT
ATGAGCCAGGAGAAGAGATTACGTATTCCTGCAAGCCGGGCTATGTGTCCCGAGGAGGGATGAGAAAGTTTATCTGCCCTCTCACAGGACTGTGGCCCAT
CAACACTCTGAAATGTACACGTAAGTCAGTACCTTCTCTCACATTCTCTTCCCTCATTTGGATTCTGGGTATTTTGGAGGAATAAGCTACCTCGTCATGC
TCAGAGTGCAGAGGGCCAGTAGATGCTGCAGAAAGCCAGGTTGGAGAGAAATGAGAAGGTCTTGGGGAGTTCTCTCTGTGCAAAGAGAGTAAGGGTAATA
GGTGCTATTGATAGAAGAGGAGAAGATCATAGCCTGAAACTAGGGTAGGTTTAAAAATGAGATCTGGTGTGGCAAAAGGAGAAAGAAACACTACAGAAGT
TAAAAGAACAGTGGAGAGGCTTTGAAATGTCAACTGATGCCAAAGAGACATTTGGAAAAACAAAATTTGGGGAATCATCATATCTTTGGACTTCACCTGA
AAATGAAAGCGGACTTAATAGTTACTGAAATGAATACAAATTTCATCTACATTATGTATATATTATATTATAATGAAATACAAGAAAAGAGGTCAAATTA
AAATAATAATATAACGTAAAATATATCAATCTCACTATGGCTTTACTGTAAATGGTTGCTTTTATTTATTTCTTAGAACATGGTTCTATGATATCATGCT
AGCATTATTCTTTACAGTCAAGTATTATGCAATCAACCAGATTGAATTTATGGTACATTTAATTATATGTAGAAGTTAAGCAGTAAAAATAGATGTATGG
ATCTGGTGATTTTGGTTATATGAACAGGACCTTTGTCAAAGTTATGCATGTTCATGCAAGTTGATTTTACTATGCTTTTTTGCTTAAAGAGCCTAAACAT
AATTTTTAGTAAAAAGCCAATGTAACATCATTAGGGAAAATTTTTCTTTAAATCAGGGCCAGGTGCGGTGGCTCACACCTGTAATCCCAGCGCTTTGGGA
ACCTAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAGCATGGTGAAACCTCGTCTCTACTAAAAATAAAAAAAATTAGCCGGGC
ATGCTGGCATGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACCTGGGAGGCAGAGGTTGTAGTGAGCTGAGATTGTGCCACTGCAC
TCCAGCCTGGGCAGCAGAGTGAGACTCTGTCTCAAAAAAAAAAATAAATAAATAAATAAAATAAAAATCAGCTATAACTCTGGAACACTAAAAATTTCAT
TTTTTTATTTTCCATGCATATCTTTTTGCATTACTGCAGAGAGCAGGTATAATTTTGTATTTTTCTGTTTTCATCAGCATATCATAAAAATTGTATCTCC
ACATATTTCACAATTCATATTTTATTGGCTACATAATAGTTCAACTTTTGATTTACCATGATTAATTAAAACAGTCCCCTGATGAACCCTTAGACTATCC
AATTTTTTTTTTTTTTTTGGAGACGGAGTCTCACTCTATTGCCCAGTGCAGTGGTGCCATCTTGGCACCCTCTGCCTCCTGGGTTCAAGCTATTCTCCTG
CCTCAGCATCCAGAGTAGCTGGGACTACAGGCACCCACCATCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTCAGGCTGG
TCTCAAATTCCTGACCTCAAGTGATCCACCCTCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCTCCCCGCCTGTCCAAATTCTGTTA
TTAGGAGAAACAGTATAATGAACGCTTTTGTACATATATCACTTGTCTTATTTTGAATTGCTTTCTTAGAATAGTTACCAGTAAAGTTATTGAACCAAAG
GATGAAAATGAATTTATATGTTTCATTTAATGAAAAATTCTATAAATAGAAATTTACCTGTTTATGTTTTTTTTTAGCCCAAAGAAAAGTAACATTTTTT
ATCTTTGTATCACAGCCAGAGTATGTCCTTTTGCTGGAATCTTAGRAAATGGAGCCGTACGCTATACGACTTTTGAATATCCCAACACGATCAGTTTTTC
TTGTAACACTGGGTAAGAACTTTCATGGAACTAAGCAGTTAACAGACTGAGCACATTTTTGTATCCTTAAGCTAAACATCAAGACTGGTCTATATTTTGT
TTTCAGCCTTTAGGTTGGACTTTCAAATGCAAATCGATTTTAGTCCTGCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGCGC
AGTGGTGCAGTCTCGGCTCACTGCAAGCTCCACCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACTGGCGCCCGCCACC
ACGCCCGGCTAATTTTTTGTGTTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTTGTAGCATTGAGGGTGGGGTAAGGATTGGAGAATA
TAACAACTAGTGCAATACGTAGTCACCACTGTATCTAATTTTTCTGCTCCTGATTAATTATCTCAGAGGAGGTACATTAAAATGATTGAACCTGGATGAT
AATTCCATATGATCTCTGGGCCAAATCTTGGATAGGGTTAAAATACTTTAGGAATAAGACTTGGGCTTTAGTTATTAGGCTAATTTGATTGACCAACCTG
GTAGTCTCTAGAAGAGAATTCTATGGAGAAGGTTGGGAGTGTGACAGTGGAGAATGCAATGCAGTTCCACATCCCCAGGAAGCAATCACTTGTGGTGGGC
ACAGGCTCATCTGGGAGCAAAGGGAGGCAGTCACTTAACGGTGGGCATAGACTCATAAGGAGCAAAGGCACCCCTGTGACATTATTGAGAGCACATTGGC
TATCCACTAGGGTAAGTTTCTACTGGGATTGGAGGTTAAGGAATACTACATGTGAGAGAGAAATACACACCTTTCATCTGAAACACCAATCTACCAATGG
GTCTGGTAACAAATGACCTTAAGAAAATTGGCTTCGAAGACATAATGTTACATTTTTCTTTCTTTTTTTTTTTTTCCTTTCTTTTTGCTCTGTCACCCAG
GCTAGAGTGCAGTGGTGCGATCTYGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGATTACAGGC
GCCTACCACCACACCCAGATAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATCTTGGCCAGGCTGGTCTTGGACTCCTGACCTTGTGATCCACCC
TCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGGCATCCTGCTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTT
TCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCT
TCTCTTCCTTTCTTCTTTCTTTCTTTCTTTTTCTTTCTTTCTTTCTCTTTCCCTCCCTCCCTTCCTTCCGTCTTTCTTTTCTTTTCTTTCTTTCTTTGTC
TGTCTCTCTCCTTCCTTACTTTTTCCTTCCTTTCCTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTACAGGATCTTCCTCTGTTGCTCAGTCTAGAG
TGCAGTGGCACAATCATGGCTCACTGCAGCCTCGACCTCCCAGGTTAAATCCTTTTGAATCCTTCCTTCCACCTCTACCTCTCGAGTAGCTTGGACTATA
GGCACACACTACCACGGCCTGGTGACTTTTTGTAGAAATTGGGCCTTTGCCACATTGCCCAGGCTCAAACTCTTGGGCTCAAGTGATCCGCCCATCTCGG
CCTCCCAAAGTGCTGGGATTACAGGCATGAGCCAAAGTACCCAGTCAGAATGCTATATTTTCATTGGAAATAGACTGCATTGCTTTTATTCATTGGTGTC
AGTAGGCYGTAAGAAAATGAATAATGAAGATTACTCAGTTTGGTTCACTTTTGTCATCCTGAAAAAGAGATGGTTCTTTGCTTTATATTAGAAACAGTCA
TCTTGGCCAACTCTTTAAAGATGAGGGATTTAAGGGTTTGGATTCTCCACTCACCAGCTGTGGAASCCTGCAGTGATTCACCTGCATCATTGGTTGGGAG
GCTCCATGAGCYATAGATGAGTACTAAGTTTGTCAGGAAGACAGCATTATACGATGGAAAAGAAGTCAATAGCATTAACATGAARCAATGCTCAATGGAG
AAGATATTTGAGATGTCAGTGATGGATTATTTTACTCCTTGATAGAATGAATTTTCCTTTTGCAGGTTTTATCTGAATGGCGCTGATTCTGCCAAGTGCA
CTGAGGAAGGAAAATGGAGCCCRGAGCTTCCTGTCTGTGCTCGTAAGTCTGTGGGCAAGGTGATCAGCTGGTTTGCCCAGAACCTTTCTGGTTTTAGCAC
TCAAAGTCTCACATCTGGAATCTCTTCAGTCACAGCTCAATGAGATGAATGGTCACCCTTGTGGGGGATATTCATCCTGGTATCTTGCTCTAGAAGATGA
AACAACCACTTTGGAATGACAGAAGGGAAGCATTTTACTCACGGACACATTCTGTATTCTCCACCTCGCGGTCATTACTCTATCTAAGCCAGTCATTTCT
GGGTGTGTTGACTCCAATGCTCTCATAGTGCTTTGGAAGTGGCTTGGATATGTGTGGCATTGGTATATCAGGGACTGTCACCACTTAACTAGAGGAACTT
CTGCAAACAGTGAGATCAAACAAACATCTTCCTCCCACTCTGGAATTCATTCATTCATTTATTAACTTATTCAATAAACATGAATTGAGGATCTACTGTA
TGCTGGATCCTCTTGTTAGCACTGAGGCTGCAAGGCCAAAGGAGGCAGCTTTGCCTTCAGAGAGTAAGCCTAGTGACTTACGGGACAGACGAGGAGGAAA
GTCACCCTCACAGTAAGCCAACAGCCCATCAAAGGGGCTTGCATCCTAGGAGCTGATTGGCATTCCTCCAAAAAGCACTGTTGTTTTTTCAGAGGATCCT
CAGCCAAGCTGTCAGAGTCATCTCTGGGCTTTGCTTATGTAGGGAAGGACGTTCTTATGTTCCCCAACTTGTGATTTATACATCTTTGACCAGGAGGCCC
AGGCATTTCAATACTAATTATAGTTCTTCAACATGTCAGTGARGTCTGTCTTTAGCAAAAGCAAGAGGAGGGCAGGTGCAGTGGTTCACGCCTGTAATGC
CAGCACTTTGGGAGTCCGAGGAGGGTGGCTCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACTCCGTCTCTACTAAAAATATAAA
ATCAGCTGGGCATGGTGGCGCATGCCTCTAATCCCAGCCAATTGGGAGGCTGAGGCAAGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTG
AGATCGCACCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAGCAAGTGGAAAGTAAAGCAATTTCAAAT
AAATAATTGTTTAAGAAGACCTGAACAAGCAAAAACGAAAGTTTTTAAAGKACAAATTAAGTAAAATTTTCACTCAGCAGTAGGAATCACGATGGTTCCT
ACAGTTTTCACTTAAAACAGATTTATACCGATTATGTAAATTTGCTTCTTTATTTAGAGGTAGGGTCTTGCTCTGTTGCCCAGGCCGGAGTGCAGTGGYG
TGATCACAGCTCACTGTAACTTCGATCTCCTGGGGCCAAGTGATCCTCTCAGTCTCCTGAGCAGCTGAGACTATAGATGAGCGCCACCAGATCTGGCTAG
TTTTTAAAAATTTTGGTGGAGACAGGGTCTTGCTCTGTTGCCCAGACTGGTCTTGAACTCTTGGTTTCAAGCAACCTTACCTGCCTCAGCCTCTCAGGGC
TCTGGGATTACAGGCGTGAACCACGGTGCCTAGCCATAAACTCACTTTCCAAAAGGGTTGTAAATAGAAAGACTGCTTGAGCTTTAATCTAATTTAAATG
AGTATTTCTCATACTTGAATGCACATATGAGTCTCCTGGGCACCTTGTTAAAATGTAGATTCTGATTCAGGCACCTGCAGTGGGGTCTGAGCTTCTGCAT
TTCCAACAAGCTATTTTCCCAGGCTATGCCCGTGCTGCTAGCCCCTGGACCACATTTTGAGCAGCAGGGATCTAGGGAAKTCAAGGTAAATCGCATTTTG
GTCAGCACTATCTTCTTTTATGCTAGTATAACTTGTTGAAGCTCCATAGTACTCAGGTCAGGGTGACAAGCCACTACTATCTCTCTGGGTTCCTGAAGCT
ACTTGGGTAAGCTCCATCCATACCAAGAATCCAAAAGCAGGGAGGTATTCAGCAGAAACAGACTGAACTGGTAATGGAACTCATTCCCAAACTACTATGT
ACCAAGTTGCTGTCACCAGCCATTATTTCAGGATGGTCCCTCAGCACTGAGGGACAAATTCTGCCTTCCAGAAGCATCTTCCAAGGTAGTATATGAATAA
AAGATTTTATAAAACCTAACCATTGTGTTGTTGCAAAAGGCAGTGGCAAGACTTAAATTTCCTTCATTTTTTTGGTGTTTTGACTGGTTTGGACATCTGA
CTTGAGGGCTTCCTTCCTTCCTTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTCCCTCCCTCCCCTCCCCTCCCCTCCTCTTTCTTTCTTTCCT
TTCTTTCTTTCTTTCCTTCCTTTCTTCCCTCCCTCCCTCCCTTCTGACTTCCTTCCTTCCTTCCTTCCTTCCTTTCTTTCTCTCTCTCTCTTTCTTTCTG
TCTTTATTTATTTATTTATTTATTTCCTTCCTTCTTTCTTTCTCTTTTCTGAGACAGACTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATTTTG
GCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTGGAGTAGCTGGGACCACAGACACACACCTCCATGCCTGGCTCATTT
TTGTATTTTTGGTAGAGACGGGGTTTCACCATGTTGACCAGGCTGGTCTGAAATTCCTGACTTCTAGTGATCTGCCCACCTCAGCCTCCCAAAGTGTTGG
GATTACAGGCGTGAGCCACCGTGCCCGGCAGGTCATATTTTCCTATTAGGCATCCACAATTGACAATTTTTACCCTGCTAATTTGATCAGTTTGCATTTT
CTCAAGTTTATCCTTAGGGTTTTTTTTTTCTTTCTGGAAAGAGTATATTTAAAAGCCTTAACTATTTTCATAGAAATGATAGTTCTTTATTTTCCCAGCC
ATCATCTGCCCTCCACCATCCATACCTACGTTTGCAACACTTCGTGTTTATAAGCCATCAGCTGGAAACAATTCCCTCTATCGGGACACAGCAGTTTTTG
AATGTTTGCCACAACATGCGATGTTTGGAAATGATACAATTACCTGCACGACACATGGAAATTGGACTAAATTACCAGAATGCAGGGGTAAGTGCAATGA
TCAGACAAAATACGYATGGTAGGGCAMGATCCCATTTGTGAAAGGTATTGAAAATTCTGACTATCATRGAGTGTTTCCAATGAACTCATTCAACAGCTGT
TTATTGAGCATCTACCATGTGCCAGGCAGTGTGCTGGGCACTGTGGATTCCCGATGAATGAGACCTGGCTTCTGACCCAAGGGAATTATAAATAATGCAA
TTAACTGTCTGGAGCTGCCTGGGACAGCTTCCCATAGGTGGTGACCTTTGAAATGGGTCTTGGAGGAGCAGTAGAGAATGAGGAGAAGGCATACCACACA
TGGGGGAGACATGAAAGGCAGGATGTATCCATGGACAGCTGGACATTTCAGCGAGGCTGGTGAAGTTCTCTTCTGGGTGAAGTTCCTGGGTTAAATTGGA
GAGTCCTAGGAGATGAAGGTTAAGACTGGGTTGCTGTCTGATTGTTACACATTTTAAAAATCTTTACCCAAGTTTAAGAATCACAGAAATATTTGATTTT
TAAGAAATTATGAAAATTATTTCGTCTCTAACTTGACCTGTCATTACTATCTTCAAGTTTGTCAGCTGCATAACAAACAGACAAATTATAAAGTTTATCA
TGTGCACAAATAGTTTGTTTTTTTCTTTTTTTTGAGATAGTCTCACTCTGTCACTCAGGCTGGAGTGCAGTGGGGTGATTTTGGCTTACTGCCACCTGGG
TTCAAGCGATTCTCATGCCTTGGCCTCCCAAGTAGCCGGGATTACAGGTGCCCGTCACCATACTTGGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTT
CACCATGATCATCYGGCTGGTCTGAAATGCCTGACCTCAAGTAATCTGCCTGCCTCAGTCTCTCAAAGTGCTGGGCTTACAGGTGTAAGCCACTGCTCCT
GGCCAAGAGTTATTCTCGTGACTATTAACTTCTCCAGTGGTAGATATTACAGATATCCAGTGAACGATTCAAAACATAAGTGATTTTCAGCATGGAGGAG
CTACCAATAACAGTAGTAACTTGTACCTTTCTGGGCACTCAACTATGGGCCAGGCACTGGTCTCCTGCTACATATGTGTCATCTGACYTCATTCTCCCAA
GTCCTAAAAAGTAGGTTCCTTTTTTTTTCAATTTCACCTAGACGTATCAACTGTTAATATGTTGTAACATTTTTCTCTCTGTTTCTCCATAGAAAGATCC
CTTTTATTTCCTGCATCATCTGAAAATAAGTTGTATATATTACGATACTTGCCCATAAAGMCTTCAGCCTGAATATACTAAGAACAAGGACATTTTATAT
CATCACTTCATATGTTTTGGATTATTAACAATAATAATCCAAACCATTCTAATAACATAACAACAACGATATCATGCAACATTTATCTCAGATGCAAATT
TTCCCAATTGACCCAGAAGKATCTCTTATACATGAGTTTTGTTTTATGCAGGATCTAATCAAGAATCACACCTTTAATTTAGTTGTCATGTCTCTCTAGT
CTCCTATAATAATAATTATTATTATTATTTTGAAATGGTGTCTCACTCTGTCACCCAGGCTGGAGTGCASTGGTGCAATTTTGGCTCACTGCAACATCTA
YCTCCCAGGTTTGAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAATATAGGCACCTGCCACCACGCCCAGCTAATTTTTATAATTTTAGTAGAG
ATGGGATTTCACTGTGTTGGCCAGGCTGGTCTCAAACTCCCGAACTAAAATGATCCGCCTGCCTCAGCCTCCCAAACTGCTGGGATTACAGGCGTGAGCC
TAGTCTCCTATAATTAAGAATAAGTCCTTGCCTCTTTTGTTGTCTTTCATTGACATTTTTGAAGAGTACAGGCTAGTTGTCTTGTAGAATGTTCCATAAT
CTGAACTTGATTGGTTATTTACTCATGATTAGATTCATGTTAAATATTACTGTTAAGAATACATTCTGCACTTTGGGAGGCCGAGGCAGGTGGATCATGG
GGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCGTGCGCCTGTAGTCTCA
GCTGCTCAGGAGGTTGAGGCAGGAGAATCGCTTGAACCAGGAGGGGGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGT
GAGACTCTGTGTCAAAAAAAAAAAATACATTCTGTCATATCAGGAAGCACATAGTGTCAGCTGTTCCATCACTGGCCATGCTTAGTTTGATACTTAGTCA
GTTGAGGGGTGCTAGATCACCTTTTGGTAAAGGCACTGCTTTTTCTTTGGAATAGTAAGCAACCTGTGGGTGATACTTTGAAACCATGYGAATATCCACT
GTTGGGCAGTCATGGTAGAATCCAATGATGATCCTTGAATCTGTCAATTATGACATTGGAGGCTGAAAAATGGTGACTTTCTAATTCTATCTTTTCCTTC
TACATTTATTCACTGGCTTCCCTCTATAGAGAAGAGCTTTCCCTCCATCCACCAKTTTTTAGTATTATTATAGACACATGGATTCTTATTTTTTTTTTGA
GTTGGAGTCTCACTCTGTTGCCCAGGCTGGAGCATAATGGTGCAATCTCAGCTCACTGCAAGCTTCACCTCCTGGGTTTGAGTGATTCTCCTGCCTTAGC
CTCCTGAGTGGCTGGGATTACAGGTGCAYGCCACCACACCCGGCTAATTTTTGTTAGTAGAGATGGGGTTTTGTCATGTTGGCCAGGCTGGTCTTGAACT
TCTGACCTCCTCAGCATCCACCTCAGCCTCCCAAAGTGCCRGGATGACCGAAGTGAGCCACTGTGCCTGGCCACATGAATTCTGTTTTATTTAATGTGTG
GTAGAACCAAAATTGAGCCAAGCAGTCTGACTCTGGAGTTTGTACCCTTAATTACCTCCTTAAACTACCTCTGAGAATATTGTGCTCCTGGCTCCAGCCT
TGCTTTCTCGCACTGCAGCTCATAAGGACGTGGGTTTGGGCCTCTACTGTTGAGGATCTTAAGGAGGCCAGGAAGCAGCACCATTTTTCTTTGACGTATT
TCCTGCTGGCTTCTTCCATAGTCTGAATTGAATAACAGTAAGATTTACTATTTTAAAGCCAAATAATGGTGTACTAAGTGTGAATGGGGGGGGGGGTTCA
GTCTTTGCATTTTAATTTTATGGTTTGTTAGAAATAGACTTTGCTTTTCTTCTTTCAAACCCACCATCTTAGACTGTGTAGAGATGAAGTTTGCAATAAA
TAATACCTTATGATTATATGTGAAAACCCAGAGAACTTAGTGAAGTCTCATTAATTTACTTTCAAAGTGTGGTTGTTTCTTTTTTAATATCCAGGGTACC
ACAGATATAAGAGGAGTGGGGACAGAATTAAGCACAAGGTAACTATAAATTGCATTCCAGTTACAGGAACACACAGTGATTCAGTGGTGTGACAGAGACA
AGGATGTAACTATTTCATGACTATTSGATAGCACTATTTATTACTAATATGTCTYATTGAATAAATGTTTTAGAAGTAAAATGCCCATTCCCATCAAGAC
CAGACAATGGATTTGTGAACTATCCTGCAAAACCAACACTTTATTACAAGGATAAAGCCACATTTGGCTGCCATGATGGATATTCTCTGGATGGCCCGGA
AGAAATAGAATGTACCAAACTGGGAAACTGGTCTGCCATGCCAAGTTGTAAAGGTATGGAAATATAGGCGAGGTCCTGTAAGATCTCTGAATTGATACAG
TGGATCACCTTTACTTGCTATTTTCTTGTTCCAACACTTTTCCACTTGTTGCTCAGACTTGCTAGGAAACTGCTGGCATGTGACTTCAGGACTCACAGGT
GCATGGGGAAGCCTCATGCTTAGGAAGTATCCTTGACCTTAAACAGTATGAAATAAACAGATCCTTTGTAAGCATTGGTGATATGGTGGGAGATCATGTG
GGCTTTCTTTATTTGCTTTTAAGTCTTTGCCTCTGAGCACTCTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAATGGCGT
GATCTCGGCTCACTGCCACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTACCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCCACCACCACACCTG
GCTAATTTTTGTATTTTTAATAGAGATGGGGCTTTGCCACGTTGGCCAGGCTAATTTCGAACTCCTGACCTCAGGTGATCCGCCCGCCTCAGCCTCTGTA
GAGAAGAGCTTTTCTTCCATCCATCATTTTTTAGTATTATTGTAGACACATGGAGTCTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCTAGC
TGGAGTGTAATGGTGGAATCTCAGTTCCCTGCAACYTTCACCTCCCAGGTTCGAGTGATTACAGATGTGAGCCACCATGCCCACCCCTTTTTGTGCTCTG
TCTAGCCAAGGCTCTTCTCATTGCAAAAACCAACCACACATTCGAGTGAGTTCAAGGAAATTGGGGATATTATAAGGAGGCAACAGGCAAGTCGATCATG
TGGGCATTGAAGATGAAGACATGAAATACAACTGATACTCCTGAAGATTGGAACTGAAAGGCAGGAACTATTCCTACTTTTTCYGTATCTCAATGGTCTC
TCCCATTTCCGTCTCTCTGCTTATTCATCTTGAACATGGCTTGATATACACCAGACCCTCTCAGTTACAGGATTCATCACCAACTGGCATCTTTCCTGGA
GACACTGGTTCCTTTTGAGTTAGGTGTCTACCCTTGATCCCATCAGTGTCATGCATAAGTAAAGAACAACAACAGCCTAGCATTAGAACTCTGCTCAGGT
CACTATGGGCTGGACAGTTTAAGCAGAAAGAGGAACTCTGGGGCAGCAGGCAAGATGACAAATAACTAGCATCTTAGGTTACAGTTCCCTAGAAGCAGAG
CCTGAGACGGGGATTCGAGTACAGTTGATTTAGTGAATGTCTCAGGAGAAGAAAGAGTGAGGCAGATTTGCGAGGGTAAGGCACCGGTTCTCAAACTTCG
CTGTGGATCAGCAACACCTGGAAGGCTTGTTTTAACACAGGATTTTTGAGCTCCACTCTTAGAGTTTCTGATTTGGTAGATCTGGGATGGGGCCTGACAA
TTTGCATTTATGCCAGGTTCCCTGGTGATGCTAATGCTGCCGAGCCAGGGAGAAATGTGGTCTCTGCTAAAATGAGGTTCAGTTTGATCCCACTGGGAGC
TCTGGAGTGTGAATTCCACCCTTGAGTTAATCCCACTAAGAGCCAAGGGGACCTGCTTTTTATATTCCCTCATCAGTCAGTCTTTGGCTTTGAGCTGCTC
CCTTCCCTGACCCTGGGGGTGGTTTGCATAAACTCCTGGGAGAGGTGGCTTCCCTATGGCTGAAGGCAATTTTTCAGAGTATTTATGAGCTGTTATCAGC
CAACACTCACAATGGCTGGTGGATAGATGCACCTGCTTAATGAATGCAATCTGAGAGGGCAGAGTAGGCTTACATGAAATGTCAATATCTGTTAGTTGCT
TTTTTTTTTTTTTTTCACTGAAATGGAGGCTCTGATGCTTCTGTTCTGACCTTCTGTGGCTACTGTAGGGGAAGAGAAGGCCATCTTGGAAGCTATGAAT
AATGGTTCTATTGACAGAGAACTGCAATTAGCAATCATATTACCATTACTTACTATATATATTYTTGGATTTTTCTTGCCTTGACCAATTTGTGTAGGTG
TACTCATCTACTGTTTCAAATGCTATACTCTCTTTCAGAAAGACTTCCTGAACTCTTAAGTCCTGATTACAAGTATTCTCTCTTTCAGCATCTTGTAAAK
TACCTGTGAAAAAAGCCACTGTGGTGTACCAAGGAGAGAGAGTAAAGATTCAGGAAAAATTTAAGAATGGAATGCTACATGGTGATAAAGTTTCTTTCTT
CTGCAAAAATAAGGAAAAGAAGTGTAGCTATACAGAGGATGCTCAGTGTATAGATGGCACTATCRAAGTCCCCAAAKGCTTCAAGGGTAAGTCTGCATTG
GAACGTTTAGCTAGGACTCCCACTTGCCYGTCATCATAATCAGAGCCTTTGTTCTATAATGATTGTCAAAAACCAGATGAGGCCAGGTGCGGTGGGTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCASGAGTTTGAGAGCAGCCTGGCCAAAAAGGTGAAAGTCTGTCTCTACT
AAAAATACAAAAATTAATTGCTGTGGTGCCGGGTGCCTGTAATCGCAGCTACTTGGGAGGCTGAGGCAGGAGCATCACTTGAACCTGGGAGGTGGAGGTT
GCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAGAGCGAAACTCCGTCTCAAAACAAAAACAAACAAAACACAGATGAATTTGGCCACT
GGGTTTTTAAAAAGAGGGGTGAGAGGGAGAAACAATGATATGAAGCAGTGAGCTGCAGATGGCGTCCCCACTTGCATTTTCCTTTCCAATTTTTTTTTTT
TTTGAGACAAGGTCTCACTGTCACCCAGGCTGAAGTGCAGTGKTGCGATCACATCTCATTGCAGCCTCTACTTTCTGGGCTCAAGTGACCCTTTCACCTC
AGCCTTCTGAGTAGCTGAGATTACATGCACGCACCACCATGTCCAGCTATTTTTTATATTTTTATTAGAGAAGAGATTATGCCATGTTGCCAAGGCTGGT
TTTGAACCCTTGGACTCAAGCAATCCACCTGTCTCAGTCTCCCAAAGTGCCAGGATTACAGGCATGAGCTACGCGCCCAGCCTCTTTTCTAAGTCTTTTC
TGTAAAACTCAGGGTTGTGGTTATATTCAATGAATGCTGAGGTGAATGATGCCATCTTGTATAATTCCAAGTTGAGCTTGAATAATAATGAACCAAATAT
TGAATAATAAAATATCTACCTCATCTTGGTCCCACATTATAGAGAACTCACCCCAAGTGACAAAACAACTCATGGCAATGATAATTGGTCTAAAGATCTA
ACATTTCCCCTTTCTCMAGCAATTCGTAGAGTTTGAAAAGTATCCATTAGAGCAAAGTATCCATTAGAGCAAAATATTTTAAGGAGAATGATACCAGGTT
TGTGTGAGATAAAGAAGTGTGTAATGGCCAGCGTTTAGAGCTGCTAACCTTTTAAGGTTTCAGATTTAGGGTTGAAATGTCTCTGATGCCAGAAAGTAAG
AACCAGCCAGAGGCTGAAGCTGTCCTTGGCTCTAGGTTTAGAAATCTTTCAAAAACATTGACAATCTTGTTTTAGCAGSTGGGAGAGGACAGTAGGGAGC
AGACAAAGCTAAGAAGAGAGGAGTCTGAGAAGTGTCCAGCTAGTGGGAGAGAAGGGAATGATAACTGATTAAAAATACCCACCTCATGGGGTTGGTTTGA
TTATTAGAAATATGCATGACATGGAGGAATATAATTTTAATTGTAAATAGTTACAAATGCACTGAATAAATTGCCATTATTCAAAAGACAGCAGAGCCCT
GGTGAGATGTTAAATACAAAACATGACAAAATACAATAAGCTTAAATAAAAATCAGTAGAAAAAATGTGAGAAAAGAATAATTGAAAAAAGTCTTAGCTT
TGTTGATATATTTCTTCAGGATCTTCTCCCTTATGGTCTTTGGACAGATGCAGTACTGTAAAGGGCCGATACTGTTTTTTCCCCTTTAATCTTGACTGTT
ATAGAACAGTCTTCACTGTATATAGAACCTTTAATTTTATCTCTTGAAAATGAGGATCTTGGCCAGGCGCAGTGGCTCACACTTGTAATCCCAGCACTTT
GGGAGGCCAAGGCGGGCGGATCACTTGAGGTCAGGAGGCCAGCCTGGCCAACATGGTGAAACCCAGTCTCTACTAAAAATACAAAGATTAGCCAGGCATG
GTGGCACGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCACTTGAACCTGGGAGGTAGAGGTTGCAGTGAGCTGAGATTGTGCCACTG
CACTCCAACCTGGGCAACAGGGCGAGACTCTGTCTTAAAAAAAGGAAAAAGAAAAAGAAAAAGAAAATGAGGGTCTTATCATTTCCCTAATGTTTTCTCC
CATCACTTAAACCTCACACTAAATGGTTTCATTCACATAATCACATGTATTCTATATACTYGTAAAATGTATTTGGTTTGGCTTAGCTATTTACYACATT
TAAGAAATGATTGTTTCTCTTAGAATGTTTATCTTTTTCTCCCCCAACAGAACACAGTTCTCTGGCTTTTTSGAAAACTGATGCATCCGATGTAAAGCCA
TGCTAAGGTGGTTTTCAGATTCCACAYAAAATGTCACACTTGTTTCTTGTTCATCCAAGGAACCTAATTGAAATTTAAAAATAAAGCTACTGAATTTATT
GCCGCACCCATTGCAGTGTTAGCTTCATGGTAGCTTACTTTTAGTTATGTCATTTGGTTAAGAAATGCAAATATTTGGAACGTCATCATTCTATGGCTGT
GAAGTTGGCAGTATAAACAATTGTCTGGGTGTCCCACTTTTCCTGTGCGTAACCCTGATCTCGGCTGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACT
TTGGGAGGCAGAAGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGAGCAGCCTGGGCAACATGGTGAAACCCTGTCTGTACTAAAAATACAAAAATTAGC
TGGGCATGGTGATGTGGGCCTGTAATCCCAGCTACTCGGGAGACTGAGGTAAGAAAATTGCTTGAATCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGG
TGCCACTGCATTCCAGCCTGGGCGATAGAGTGAGACTGCATCTCAATAAATAAAYAAATAAACAAACAAACAAACAAACAAACAAATCCTACTTTCAAGC
ACTTTCACGTAAAACACCTGCAATACAATATTTTTCATAGAATGGGCCACAGACCCCCTCCTTCCGTTACTATTACCTATCTGCTTATTTCAAAGAACAA
GTGTTGTGCCCCAGAATTGTTAAGAATGGCCCAGAGTTCTGCATTTATGACAAAGTTTCCAGATAGTTCTTGCGCATCCTCAAGTTTGAGAAGCATTGCC
ATACAGAAGTAAGCATGGACTTCCAGGTCAATAGGACTGAATTTGCATCCTTGATGCTGGGTTTACATAGTGCCAAAAAATTTTTTCTGTATCCACTACA
ATTCCATGACCCATCATTGACGTCGTTCCTTTGCATATATTCAACTCCCTTGCTCTTCTCTCCTTTGGTAGTGTTTGCTGGCCAAACTCATCCCTGGCAC
CATCTGCCTTCCTTATGCCTGCACCTAAGGAACTGAACGTGGCTGGAAAAAAAAGAGAAACTCACAACCATGCCAATAGGTCCCATTTTAAATTCATAAA
CACAAACTTTACATGGGCCTCCAGCTCTACCCGACAATCCTATTATATTTCTCTAGTTTGTTCACTCCCTTACTCTCTAAAGTGGCTATTTCACTTCTCA
ACCTTTCTCAAGCCACCTTCCTTCTCCTCACCCTTAGCTGATAACTTGGCTCCTTATTTCACTGAGAAAATGGAAAAGATCAAAAGATCATTTTTTTTTA
ATCTTTCCACTCCCGAATCCATCATTCTACCAGCATCGGCAACCACAGAATCTGCCTTCTGTCAGGTTACAATGGATGAACATCTAAGGACAAACCCTCT
CTTTATGTGCTAGGTCCCATTTTCTCTCTCCTACTTAAGGATTTTACTCCTCTAATTAATGCTTATCCATGTTTATTTTTTCCTTTCTATTGGAACACTT
CAATCAGCATACAGATATACAGTAATATCACCCATTAAAAAAAGAAGCCCTGTTACTTCACATCTTTCTTCCAGCTACTGCTCCAACTCTTTAGTCCCTG
TTTTTACAAAAGTCCTGGAGTTATTTCCTCTGCCATCTGCACTAGGTACTACCCATCACTTCTCCACAATCTGCATTCTCCATAGGATTTCCCCACCCAT
GCCTCTTTCTCAGAACTTAACCCGATTCCGTGTGATGTGGACCAGATCTTTTCTCCAAGATGCTTCTCTGCTCCTCCTCCTTTTACAGAAACCAGAGTGG
CTCCCCTCCCTTCTAGGCTTTCATTCAAAAGCTCCAAATTCCCTTTACTTAACCTTAAAAAACAATTTTATGGGCAGGTGTGGTGGCTCACACCTGTAAT
CCCAGCACTTTTGGAGGCCAAGGCAAGTGGATCATCTGAGGTCAGGAGGTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTAGAAAAATACAA
AAAATTAGCTGGGCATGGTGGCAGGTGCCTGTAGCCCCAGCTACTTGGGTGGCTGAGGCAGGAGAATCGCTTGAACCTGGCAGGTGGAGGTTGCAGTGAG
TCGAGATGGCGCCATTGCACTTTAGCCTGGGCGACAAGAGCGAAACTCTGTCTCAAAACAAACAAACAAACAAATAACAACAACAACAAAATTTTACTTT
TTCTTCCTCAATTCTTTCCTTCAGACTCTGTGTATGTGTGTGTGTGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAA
GGTGGAGTTTGAGAGGTTGTGGTATTTCCCCTTTGTAAACCAAAAGCCCTATTTAGGGATTTTTGCCAAACAAAAAACCATCTGCTCTGGTTTCCTCCTC
TCAAAGCACAAAGCTTTAGAACCATTGTTTTCTTTAATTTGTTGCATGTCAGTTTAAAAATAGACCTCTCTTATCCTACCTAACAGCTCTAGACATGGAA
GGAGGGCAGTAAGCATTTAGAATGTCTTCTCTTGCCCACACATAGTCACTGCATTGGCTCTGAAAAAGGGGAGAGAATATTTTTGTATTATCCCACCTTT
TGTTGCAAATGCTTCATAATTCATTTTATTGTTTTTAAATTTAAAATATATGTTGGAACTAATAAACAAATTCAGTAAATTTCCAGGATATGAAATTAAC
ATACAAAAATCATAGCATTTCTATACACTAATAGCAAACCGTCTGAAAAACAAATTAAGAAAACTCCCATTCACATAGCTACAAAAATATATAAATATAC
TTAGGAAGAAATTTAGCCAAGGAGGCGAAAGACTTGTATGCTGAAAAATATAAAATATTGATGAAAGGAATTTAAAAAGACACAAATAAATGGAATAATA
TTAATGTTCATAGATTGGAAGAATTAATATTGTTAAAATGTCCATGTTACCCAAAGTGATCTACAGATTTAGTGCAATCCCTATCAAAATTCCAATGACA
TTTTTCACAGAAATAGAAAAAACAATTTGTATGAAACTACAAAGGCCCCTGAAGAGCCAAAGCGATCTTGAATGAAAAGAACAAAGCTACAGTCATCACA
TTATCTAACTTCAAAATATACTACAAAGCTATAGTAATCAAATCAGCTGGTAAAAATACAGACACATAGACCAATGTAAGAGAATAGGCAGGTCAAAAAT
AAACTCACACATTATAGTCAATTGATTTTCTACAGAATGTCAGGGGTTGGCCAGGGCTGCAGTCTTATCTGAAGGGTCAAGTGGAGGAGGATTCACTTCC
AAGCTCACTCAGTGGTTGTTGGCATGATTCAATTCCCTTTGGGCTATTGGAAGAGAGCCTCAATTTTTTACTGTTTACCTGTGACTTCCCTCAATTCATT
GCCCTTCAGTCCTTAAAGGAAAATTGGATGGCACAGTACAGTACCCATGACAATACACTCTTTTTTTTTTTTGCTTGATCCACTGCTTTGTATGCTTTCT
GAGAATAGCTCCTCCAGGATTCTGATAGACCTCTTTTCTTGGGTGAAACTCAGTAGAGTAAGGTTAGTGAGATAAACTACAACACCTGATGCTGCAGTTG
GCCTTCGAACTGCAACTGATACTCATCTTCTTCCTCCACCACCATCCATTTCGTATTCTCCTCAYCCTTGGCTGGCTCTTCTGTTGGTCTCAGTGGCTCT
TCTGGTGGTGTGACAAAGACCTTCATCCTTGAGGGGTCTGAAAGGCCTCTATGCCTTTCTGATGTTTCTATGATTTTTATAATCAAAATTGTATCAAGGA
GTACTGAGGAGGCAGCAGCCCTATTTGCTCCTGATGATCAGAGTCAATGACCCTTTCTAAGATGGTGAGATCTTTGCTTGCTGGTTCCTTGGCAAAAGGA
GCCCAAAGTTGCCAGGCACCATCTGTAGTTTATAGTTCAATAGGACTTGCTGTGCCCCTAGTGGAAGTGTTTCCCTTTTGGAAACAAGGCCTTTTAAACT
ATTTATAGATTTCAGATGTGGAACAAAAGCATAAGTGTCCCCAAGTGAGTCAAGGGGAGAGATAATAACTTGGCCACTGCTGCTTCAAATCCTTGATTCC
CAGACCCATGTATTGTTCCTACTGGGGAGACAATGAAGATGTTTGATTTAAAGTATATACTTCATCATAGAGGATCATATCTCAAAGCTGGTGCTTTGAT
TATGCTTTCAACAGGCCATTTCAAGGTTCTATCAGCTGGCAGCTTCTGGATGGTTTGGTAGGTAATGTGATCAGTTGGTCCTGTGGTCAGGGGCCTATTG
TCATACCTCCTTTACTATAAAATGGGTTATCTGGTCTGATACAATGTTATGTGGGATCCTGTATCAGTGGATTCGAACTCCGTAAGTCCTCAGATAGTGA
TGCAGGAAAAACAAATGCATATCCAAATAAGTATTGATTCCCAGCATAATGGATCTGTACTCCTTCAGTAGAAGTAGGTCCAATGCAGTCAACTTGATAC
CTTATGTGCCAGTGGATCTGCTTGTGAGATGGTGTCATCTTGGAGGCTCAACATTGGCCTCTGGTCTCTGTTGCTTGCCAGGTTGGACATTCAACCAAGG
CAGCATCCAGATCAATCTATATAAGTAGGAGACCATGCTGTTGGGCCTATGAATTATCTCCATCCTTGTTACCATAGCCATTTCAGTCATGTGGCCATTA
TGCCAGCACTGGGGTGGCCAGTGTTAGAGGCCAGATGCTGTCAACTGGCTGAGTCTTTTTCTCTATCTGGTTATGTAGTACCTTGCTAGTGGGAGTTAAC
ATGTGCATCAAAGATCTTCACACTTTGTGCCCACCCCATTTATTCATTCACATGCCTCTACTCCTAGTCCTCTTTGTACCTGATCTACCCATCTTTCTTC
TCACCTCTCAGACTCTGTCAAGCCACTACCTATGAGTTCATATATATTCTAATCATAAGCCACTTCTTTTTCCACACAAGGAAGATGACCATCCAAAATT
CTTCCCATGGGGAGGACTTTTTCTCACCACTGTTTTTCAAGATGCTCTTTGAATAAGCTGTATTGTAGCTGTCATCCTTTTTTTTACCTACACACATGTA
CAGACCTTCATATCCATGAACCAAGCTCAGGCTTTTTCCTCCGCTCTAAGCTGGTCCTACGGGATCATATGGGGTCATATGGCTATAGATGTGCACTTAG
GAATGCCATTAGTACAACAGTGATGGATGATGTGGAGTTTTGACCTTCTGATCACGTAGCTTCAGGGTATATCCATTATCATCTTATCATGAGTTGTTGC
TAGGCACACTTGACCTCATGACTTGGTGGGTATGACAGAATATAGCTGGTGATGGGCAGCTGTAACTGCCTGGTCACTTGGTGCCAAGCATCTAGTATAT
TAGAAATTGTTTCTCAAGTGGCATCTAATTCTCCACTGTAGATGAGATGGCCCTGCTTTTTAGTCTTCTTAGATCTAGAAGAGTTCTTCCATTTTTCTTC
CTCCTTTCTTACAATCTATATATATTTGAGATGGAGTCTTGCTCTGTTGTCCTGGCTGGAGTACAGTGGTGTGATCTCACTCACTGCAACTTCTCCTGCC
TCAGCTTCCCAAGTAGCTGGGATTACAGGTGCCCACCACCATGCCTATTTAATTTTTTTTTTTTTTTTTAGTTGAGACAGGGTTTCACCATGTTGGCCAG
GCTAGTCTTGAACTCATGACCTCAAGAGATTTGCCCACCTTGGCCTCTCAAAGTGCTGGGATGACAGGGGTGAGACACTGTGCCCCCTCACAATCTTAAT
ATTTTTAAAGAGTAGAGGACAATCATTTGGGTTTGTCTGAAGTTATGTTATGACGCGATTTCAGTTGTATTGTTGCCGGGATTACAAGAGAAGTGAGATT
GTAATCTTCTTAGTGCATCATATCAGGAAGTACATGATATCAATTTATGCCATTACTATTGGTAATGTTAACTATGATTACTTGGCTAGAAATCTGATGT
CTGCCAGATTTCTACATTGTAATCTTACTATATTGTCCTTTGTAATTAATTAATCAGTATCTCATGGGGAGATACTTCACAACTATGTGGATATCCTGTT
TTTCATCAAA


SNP Information

Context             (SEQ ID NO:25404):
AAATCATGATACTTTATCTTCTATTTACAAAGATAAAAGTACACCAGAAAATGGTTAATGTTTAAGCGCTTTCATATTTGGCTCTGTCTTTTTAGCAGAC
R
AAAACCACTTTGGTAGTGCCAGTGTGACTCATCCACAATGATTTCTCCAGTGCTCATCTTGTTCTCGAGTTTTCTCTGCCATGTTGCTATTGCAGGACGG
Celera SNP ID:            hCV27834659
SNP Position Genomic:     33123
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:25405):
GTTGTAACATTTTTCTCTCTGTTTCTCCATAGAAAGATCCCTTTTATTTCCTGCATCATCTGAAAATAAGTTGTATATATTACGATACTTGCCCATAAAG
M
CTTCAGCCTGAATATACTAAGAACAAGGACATTTTATATCATCACTTCATATGTTTTGGATTATTAACAATAATAATCCAAACCATTCTAATAACATAAC
Celera SNP ID:            hCV310521
SNP Position Genomic:     43261
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25406):
GGTGTTGGGATTACAGGCACGAGCCATCATGCCCGGCTTCACAATCCCTTATCTTAATCACAGTATAATTAAATCTACCTATGACCTGGAAGCACCCCCT
M
ATCTGCCACTGCTTCAACTTGTCCCACCCTTCCAGATCAAACCAATGTTAATCTTACATGTATTGATTGATGTATTGTGTCTCCCTAAAATGTATAAAAG
Celera SNP ID:            hCV15855512
SNP Position Genomic:     9157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25407):
TAGTGAGATAAACTACAACACCTGATGCTGCAGTTGGCCTTCGAACTGCAACTGATACTCATCTTCTTCCTCCACCACCATCCATTTCGTATTCTCCTCA
Y
CCTTGGCTGGCTCTTCTGTTGGTCTCAGTGGCTCTTCTGGTGGTGTGACAAAGACCTTCATCCTTGAGGGGTCTGAAAGGCCTCTATGCCTTTCTGATGT
Celera SNP ID:            hCV2658434
SNP Position Genomic:     54065
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:25408):
AAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTG
G
CGGGCGCCTGTAGTCTCAGCTACTCGGGAGGCTGAGGCTGGAGAATGGCGTAAACCCAGGGGGCGGAGCCTGCAGTGAGCAGAGATCGCGCCACTGCACT
Celera SNP ID:            hCV26589455
SNP Position Genomic:     26379
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,5)   total(G,1|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25409):
GGAAAAAGGGAGGGGAGAAGGGAGGGAAGGAAGGAGAAGGGAGGGAGGGAAGGAAGAAGGGAGGGAGGGAAGAAGGAGGAAAGGAGTGCATAGTTTTCCA
R
TTGAAGTATAATCAAGTAAACACACAGATCTTAAATATTTGGCTTGATGGCTTTTGAAAATTGCATGTAGCCAAGTAACAACCACCTAAAATAGAATATA
Celera SNP ID:            hCV328429
SNP Position Genomic:     31295
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25410):
ACTCAGGAGGCTAAGGCAGGAGAATTGCTTGAACCCAGAAGGCAGAGGTTGCAGTGAGCCAAGATCACACCACTGCATTCTAGCCTGGGCAACAGAGTGA
R
ACACTGTCTCAAAACAAAACAAAACAAAACAAAAAACAAACAAAAAAAACAAAAGAGCCTTTATCATCTAGTTCCTACCCACTCTCCACCTTTGTTTGCT
Celera SNP ID:            hCV26589456
SNP Position Genomic:     25174
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25411):
TTTCATGTTATAGCTATTGAGCAGAACTTTTCATATACAGTTTGTACAAGCAGCTGTCAAATCACTTAGAAGTACCATATCCCAAGCCACAGTTCGGTAT
S
TTACTCCCAAGGATGCCAGTAGATAACTCATCAAATGCTTTACTAAAAGAGGGATATACATTGTAGCTAAAGTGTTGCCCTTTTCTACTAACCTAATAAC
Celera SNP ID:            hCV26589457
SNP Position Genomic:     18849
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25412):
TGAAAACTGGAACATCATTTTAGAGAGGTGGAGACTGAGAACAGAGAGTAGGTGTTTGTCCAAAGTTTATATGCCAAGGCTGTGAGTGAAACAGGAGCTT
Y
GATCTTTTGGTGTTCCATCTACAACATACACAAAACAAAAGATGGAGAATGAGAAGTCCAGGCAACCCCGGAAACAACAAGTTTCTGTCAAAAGCAATAA
Celera SNP ID:            hCV27850199
SNP Position Genomic:     32798
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,34)   total(C,66|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:25413):
GTCTCTGATGCCAGAAAGTAAGAACCAGCCAGAGGCTGAAGCTGTCCTTGGCTCTAGGTTTAGAAATCTTTCAAAAACATTGACAATCTTGTTTTAGCAG
S
TGGGAGAGGACAGTAGGGAGCAGACAAAGCTAAGAAGAGAGGAGTCTGAGAAGTGTCCAGCTAGTGGGAGAGAAGGGAATGATAACTGATTAAAAATACC
Celera SNP ID:            hCV336594
SNP Position Genomic:     49379
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,5)      total(G,4|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25414):
TGATACTTTATCTTCTATTTACAAAGATAAAAGTACACCAGAAAATGGTTAATGTTTAAGCGCTTTCATATTTGGCTCTGTCTTTTTAGCAGACGAAAAC
M
ACTTTGGTAGTGCCAGTGTGACTCATCCACAATGATTTCTCCAGTGCTCATCTTGTTCTCGAGTTTTCTCTGCCATGTTGCTATTGCAGGACGGAGTAAG
Celera SNP ID:            hCV27842286
SNP Position Genomic:     33129
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,33)   caucasian(A,1|C,37)   total(A,6|C,70)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:25415):
CTCAAGCTGATGTGTCTCAGGGAATTTTAGACCTCTGGATATAAACCAAGATCACCCAAATGAGAGCAAGCGGAGGTTATTTATTCAGAGCTTGCTATAG
S
AAGGGAGGCAGCCATTAACAGTTGTGTTTGGCAGAGACTCAAAGTCAAAGTCAGACAGAGGAGTGGGAAAGCTTTATAATAGAAAAAAGGAAAGGCTTCA
Celera SNP ID:            hCV27478331
SNP Position Genomic:     31972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25416):
TATGAAGACAGAAACCATCTCCCAAAGATTTCATAACAGAGCCACATAAGTGGAAAGTAAATGATTAAAGAATGTGGGTCTCAGAGTTCCATTCAAATCA
Y
GATACTTTATCTTCTATTTACAAAGATAAAAGTACACCAGAAAATGGTTAATGTTTAAGCGCTTTCATATTTGGCTCTGTCTTTTTAGCAGACGAAAACC
Celera SNP ID:            hCV27834660
SNP Position Genomic:     33029
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:25417):
CAGGCAAGTCGATCATGTGGGCATTGAAGATGAAGACATGAAATACAACTGATACTCCTGAAGATTGGAACTGAAAGGCAGGAACTATTCCTACTTTTTC
Y
GTATCTCAATGGTCTCTCCCATTTCCGTCTCTCTGCTTATTCATCTTGAACATGGCTTGATATACACCAGACCCTCTCAGTTACAGGATTCATCACCAAC
Celera SNP ID:            hCV16090146
SNP Position Genomic:     46684
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25418):
TCTTTAAAGATGAGGGATTTAAGGGTTTGGATTCTCCACTCACCAGCTGTGGAACCCTGCAGTGATTCACCTGCATCATTGGTTGGGAGGCTCCATGAGC
Y
ATAGATGAGTACTAAGTTTGTCAGGAAGACAGCATTATACGATGGAAAAGAAGTCAATAGCATTAACATGAAGCAATGCTCAATGGAGAAGATATTTGAG
Celera SNP ID:            hCV25610354
SNP Position Genomic:     38612
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,37|T,1)   total(C,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:25419):
CATCATTGGTTGGGAGGCTCCATGAGCCATAGATGAGTACTAAGTTTGTCAGGAAGACAGCATTATACGATGGAAAAGAAGTCAATAGCATTAACATGAA
R
CAATGCTCAATGGAGAAGATATTTGAGATGTCAGTGATGGATTATTTTACTCCTTGATAGAATGAATTTTCCTTTTGCAGGTTTTATCTGAATGGCGCTG
Celera SNP ID:            hCV25610355
SNP Position Genomic:     38685
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:25420):
TATACAGAGGATGCTCAGTGTATAGATGGCACTATCGAAGTCCCCAAATGCTTCAAGGGTAAGTCTGCATTGGAACGTTTAGCTAGGACTCCCACTTGCC
Y
GTCATCATAATCAGAGCCTTTGTTCTATAATGATTGTCAAAAACCAGATGAGGCCAGGTGCGGTGGGTCACGCCTGTAATCCCAGCACTTTGGGAGGCTG
Celera SNP ID:            hCV7567304
SNP Position Genomic:     48129
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;(T,-|C,-)   Caucasian(T,29|C,55)   African-American(C,84)   Asians(T,13|C,71)   total(C,210|T,42)
SNP Type:                 INTRON


Context             (SEQ ID NO:25421):
TAAATTACCAGAATGCAGGGGTAAGTGCAATGATCAGACAAAATACGCATGGTAGGGCAAGATCCCATTTGTGAAAGGTATTGAAAATTCTGACTATCAT
R
GAGTGTTTCCAATGAACTCATTCAACAGCTGTTTATTGAGCATCTACCATGTGCCAGGCAGTGTGCTGGGCACTGTGGATTCCCGATGAATGAGACCTGG
Celera SNP ID:            hCV25610356
SNP Position Genomic:     42068
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(G,40)   total(A,4|G,70)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(G,40)   total(A,5|G,73)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25422):
AAAAAATAAAATAAAATAAAAAAGAAAGCCTGGGCACGGTGGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACTTGAGATCA
R
GAGTTTATGACCAGCCTGGGCAACATAGGGAGACCCCCATCTCTACAAAAAATAAAGAAATAAGAAATAAGGCTGGGCGTGGTGGCTCACGCTTGTAATC
Celera SNP ID:            hCV2658400
SNP Position Genomic:     25683
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25423):
GGAGTGCAATGAGTGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAATGATTCTCCTGTCTTAGCTTCCCAAGTAGCTGGGATTACAGGCGCCC
R
CCACTACACCCGGCTACTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCACCTGC
Celera SNP ID:            hCV2658402
SNP Position Genomic:     27412
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25424):
GACATACATGCCAATTTATCCCATTAGTGGTGACATTAATTTTGATTACTTAATTAAGATGGTGTCTGCCAGGTTCTTCCCCTCTAAGTTTCTCTTTGTC
Y
CCTTTATAATAAATAGTTATTTTATGTGGAGACATGTTTAAGGCTGTATGAACATTTCTCATCCTACTTGTATCCCCTGATTCTAGCATCAATTGATACT
Celera SNP ID:            hCV2658403
SNP Position Genomic:     29519
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25425):
AATGATTATCTTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCTGCCATCATGCCTGGCTAGGTTTTGTAGTTTTTGTAAAGACAGGGTTTCACC
M
TGTTGGCTAGGCTGGTCTTGAACTCCTGACCTCAAGCGATCTTTCTTTCTTCCTGAAGTGCTGGGATTACAGGCATTAGCCACCACGGCCTGGCCAAGAA
Celera SNP ID:            hCV2658404
SNP Position Genomic:     30568
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25426):
AGTTTTTTTTTCTTCTTCGAGTCCCAAGTTGTTAATTTCAAATCAATTTTCAAATTCCTGAAACAGATCTAGAAACCTGTCTAGACAGATCCAAGACATA
Y
TAAGAATGGATGAGGAGGACTTTGTATTGATCTGACGTAAGAGAAGATAGAGAATTCAAGGATAGCTCTAAGGTCCTAACTGGAGCTATAGGAGCTTGCA
Celera SNP ID:            hCV2658405
SNP Position Genomic:     32518
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;JBIC-allele(T,350|C,1133)   total(C,1133|T,350)
SNP Type:                 INTRON


Context             (SEQ ID NO:25427):
AAGTGCTGGGATTACAGGCATGAGCCAAAGTACCCAGTCAGAATGCTATATTTTCATTGGAAATAGACTGCATTGCTTTTATTCATTGGTGTCAGTAGGC
Y
GTAAGAAAATGAATAATGAAGATTACTCAGTTTGGTTCACTTTTGTCATCCTGAAAAAGAGATGGTTCTTTGCTTTATATTAGAAACAGTCATCTTGGCC
Celera SNP ID:            hCV2658407
SNP Position Genomic:     38408
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25428):
GGAAATGATACAATTACCTGCACGACACATGGAAATTGGACTAAATTACCAGAATGCAGGGGTAAGTGCAATGATCAGACAAAATACGCATGGTAGGGCA
M
GATCCCATTTGTGAAAGGTATTGAAAATTCTGACTATCATGGAGTGTTTCCAATGAACTCATTCAACAGCTGTTTATTGAGCATCTACCATGTGCCAGGC
Celera SNP ID:            hCV25610395
SNP Position Genomic:     42027
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|C,1)   total(A,77|C,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,39|C,1)   total(A,73|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:25429):
TGGGAGGCGGAGGCAGGCAGATCACAAAGTCAGGAGATTGAGACCATCCCGGCCAACATGGTGAAACCCTATCTCTACTAAAAATACAAAAGTTAGCTGG
R
CGTGGTGGCGTGTGCCTGTAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATTGCTTGAACCAGGAATTGGAGGTTGCAGTGAGCAGAGATCGCGCCA
Celera SNP ID:            hCV26589460
SNP Position Genomic:     13064
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25430):
CAAAAAAAAAAAAAAAAAAAAAGCAAGTGGAAAGTAAAGCAATTTCAAATAAATAATTGTTTAAGAAGACCTGAACAAGCAAAAACGAAAGTTTTTAAAG
K
ACAAATTAAGTAAAATTTTCACTCAGCAGTAGGAATCACGATGGTTCCTACAGTTTTCACTTAAAACAGATTTATACCGATTATGTAAATTTGCTTCTTT
Celera SNP ID:            hCV2658408
SNP Position Genomic:     40051
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25431):
AATTAAGCACAAGGTAACTATAAATTGCATTCCAGTTACAGGAACACACAGTGATTCAGTGGTGTGACAGAGACAAGGATGTAACTATTTCATGACTATT
S
GATAGCACTATTTATTACTAATATGTCTTATTGAATAAATGTTTTAGAAGTAAAATGCCCATTCCCATCAAGACCAGACAATGGATTTGTGAACTATCCT
Celera SNP ID:            hCV25610396
SNP Position Genomic:     45526
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,32)   caucasian(G,38)   total(C,2|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:25432):
TTGCCATGTTGGCCATGTTGGTCTTGAACTCCTGATCTCAGGTGATCCACCTGCCTCGGCCTCCCAAGGTGTTGGGATTACAGGCACGAGCCATCATGCC
Y
GGCTTCACAATCCCTTATCTTAATCACAGTATAATTAAATCTACCTATGACCTGGAAGCACCCCCTAATCTGCCACTGCTTCAACTTGTCCCACCCTTCC
Celera SNP ID:            hCV26589461
SNP Position Genomic:     9090
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25433):
CTACAGTTTTCACTTAAAACAGATTTATACCGATTATGTAAATTTGCTTCTTTATTTAGAGGTAGGGTCTTGCTCTGTTGCCCAGGCCGGAGTGCAGTGG
Y
GTGATCACAGCTCACTGTAACTTCGATCTCCTGGGGCCAAGTGATCCTCTCAGTCTCCTGAGCAGCTGAGACTATAGATGAGCGCCACCAGATCTGGCTA
Celera SNP ID:            hCV2658409
SNP Position Genomic:     40199
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25434):
TGTAGGGGAAGAGAAGGCCATCTTGGAAGCTATGAATAATGGTTCTATTGACAGAGAACTGCAATTAGCAATCATATTACCATTACTTACTATATATATT
Y
TTGGATTTTTCTTGCCTTGACCAATTTGTGTAGGTGTACTCATCTACTGTTTCAAATGCTATACTCTCTTTCAGAAAGACTTCCTGAACTCTTAAGTCCT
Celera SNP ID:            hCV25610397
SNP Position Genomic:     47764
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,40)   total(C,72|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:25435):
ATGTTGGCCAGGCTGGTCCTGAACCCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGAGTACAGGCGTGAGCCACCACTGCTCCTG
R
CCAAGGGTCAGGTTTGTTATGCAGAGTTAAGTCCAGGCCTTCTCCATCCTTTAGGAGTTTCTAGTGATTTTCTTTATAGATGTAAATTTCCTTACAAAAG
Celera SNP ID:            hCV11886026
SNP Position Genomic:     12329
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25436):
TGAACTTTAAAATGCAAATAGAGATTTGTTAACCATCTGCTTTGTGCCCTCTTTCAGCCTGTCCCAAGCCAGATGATTTACCATTTTCCACAGTGGTCCC
R
TTAAAAACATTCTATGAGCCAGGAGAAGAGATTACGTATTCCTGCAAGCCGGGCTATGTGTCCCGAGGAGGGATGAGAAAGTTTATCTGCCCTCTCACAG
Celera SNP ID:            hCV11939503
SNP Position Genomic:     34387
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:25437):
ATAGAAATTTACCTGTTTATGTTTTTTTTTAGCCCAAAGAAAAGTAACATTTTTTATCTTTGTATCACAGCCAGAGTATGTCCTTTTGCTGGAATCTTAG
R
AAATGGAGCCGTACGCTATACGACTTTTGAATATCCCAACACGATCAGTTTTTCTTGTAACACTGGGTAAGAACTTTCATGGAACTAAGCAGTTAACAGA
Celera SNP ID:            hCV11939508
SNP Position Genomic:     36446
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25438):
TTCCAGTTACAGGAACACACAGTGATTCAGTGGTGTGACAGAGACAAGGATGTAACTATTTCATGACTATTGGATAGCACTATTTATTACTAATATGTCT
Y
ATTGAATAAATGTTTTAGAAGTAAAATGCCCATTCCCATCAAGACCAGACAATGGATTTGTGAACTATCCTGCAAAACCAACACTTTATTACAAGGATAA
Celera SNP ID:            hCV11939509
SNP Position Genomic:     45555
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,27)   caucasian(C,9|T,25)   total(C,10|T,52)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:25439):
AAGAAAATGAGGGTCTTATCATTTCCCTAATGTTTTCTCCCATCACTTAAACCTCACACTAAATGGTTTCATTCACATAATCACATGTATTCTATATACT
Y
GTAAAATGTATTTGGTTTGGCTTAGCTATTTACCACATTTAAGAAATGATTGTTTCTCTTAGAATGTTTATCTTTTTCTCCCCCAACAGAACACAGTTCT
Celera SNP ID:            hCV7567310
SNP Position Genomic:     50261
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,15)   caucasian(C,16|T,22)   total(C,21|T,37)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:25440):
GTTTATCTTTTTCTCCCCCAACAGAACACAGTTCTCTGGCTTTTTGGAAAACTGATGCATCCGATGTAAAGCCATGCTAAGGTGGTTTTCAGATTCCACA
Y
AAAATGTCACACTTGTTTCTTGTTCATCCAAGGAACCTAATTGAAATTTAAAAATAAAGCTACTGAATTTATTGCCGCACCCATTGCAGTGTTAGCTTCA
Celera SNP ID:            hCV7567311
SNP Position Genomic:     50427
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,15)   caucasian(C,17|T,23)   total(C,22|T,38)
SNP Type:                 UTR 3

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25441):
ACATGTATTTTTTTTAATTGAGACAGGTTTTAGCTCTGTTGCCCAGGCTGGAGTGCAGTTGTGTGATCTCAGCTGACTGCAACCTCTGCCTCTGAGTTCA
R
GTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTAGGACTACAAGCGTGTGCCACCATGCGTGGCTAATTTTTGTATTTTTGGTAGAGATGGGGTTTCACTA
Celera SNP ID:            hCV29176918
SNP Position Genomic:     19826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25442):
GTGGGGTCTGAGCTTCTGCATTTCCAACAAGCTATTTTCCCAGGCTATGCCCGTGCTGCTAGCCCCTGGACCACATTTTGAGCAGCAGGGATCTAGGGAA
K
TCAAGGTAAATCGCATTTTGGTCAGCACTATCTTCTTTTATGCTAGTATAACTTGTTGAAGCTCCATAGTACTCAGGTCAGGGTGACAAGCCACTACTAT
Celera SNP ID:            hCV2658410
SNP Position Genomic:     40680
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25443):
CATGCGATGTTTGGAAATGATACAATTACCTGCACGACACATGGAAATTGGACTAAATTACCAGAATGCAGGGGTAAGTGCAATGATCAGACAAAATACG
Y
ATGGTAGGGCAAGATCCCATTTGTGAAAGGTATTGAAAATTCTGACTATCATGGAGTGTTTCCAATGAACTCATTCAACAGCTGTTTATTGAGCATCTAC
Celera SNP ID:            hCV2658411
SNP Position Genomic:     42015
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(C,14|T,18)   total(C,18|T,50)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,29)   caucasian(C,13|T,25)   total(C,16|T,54)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25444):
CATGCCTTGGCCTCCCAAGTAGCCGGGATTACAGGTGCCCGTCACCATACTTGGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATGATCATC
Y
GGCTGGTCTGAAATGCCTGACCTCAAGTAATCTGCCTGCCTCAGTCTCTCAAAGTGCTGGGCTTACAGGTGTAAGCCACTGCTCCTGGCCAAGAGTTATT
Celera SNP ID:            hCV2658412
SNP Position Genomic:     42814
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25445):
CAGCATGGAGGAGCTACCAATAACAGTAGTAACTTGTACCTTTCTGGGCACTCAACTATGGGCCAGGCACTGGTCTCCTGCTACATATGTGTCATCTGAC
Y
TCATTCTCCCAAGTCCTAAAAAGTAGGTTCCTTTTTTTTTCAATTTCACCTAGACGTATCAACTGTTAATATGTTGTAACATTTTTCTCTCTGTTTCTCC
Celera SNP ID:            hCV2658413
SNP Position Genomic:     43088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25446):
GATTATTAACAATAATAATCCAAACCATTCTAATAACATAACAACAACGATATCATGCAACATTTATCTCAGATGCAAATTTTCCCAATTGACCCAGAAG
K
ATCTCTTATACATGAGTTTTGTTTTATGCAGGATCTAATCAAGAATCACACCTTTAATTTAGTTGTCATGTCTCTCTAGTCTCCTATAATAATAATTATT
Celera SNP ID:            hCV2658414
SNP Position Genomic:     43420
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25447):
ACCTTTAATTTAGTTGTCATGTCTCTCTAGTCTCCTATAATAATAATTATTATTATTATTTTGAAATGGTGTCTCACTCTGTCACCCAGGCTGGAGTGCA
S
TGGTGCAATTTTGGCTCACTGCAACATCTACCTCCCAGGTTTGAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAATATAGGCACCTGCCACCAC
Celera SNP ID:            hCV2658415
SNP Position Genomic:     43570
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25448):
CTCCTATAATAATAATTATTATTATTATTTTGAAATGGTGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATTTTGGCTCACTGCAACATCTA
Y
CTCCCAGGTTTGAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAATATAGGCACCTGCCACCACGCCCAGCTAATTTTTATAATTTTAGTAGAGA
Celera SNP ID:            hCV2658416
SNP Position Genomic:     43601
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25449):
GATACTTAGTCAGTTGAGGGGTGCTAGATCACCTTTTGGTAAAGGCACTGCTTTTTCTTTGGAATAGTAAGCAACCTGTGGGTGATACTTTGAAACCATG
Y
GAATATCCACTGTTGGGCAGTCATGGTAGAATCCAATGATGATCCTTGAATCTGTCAATTATGACATTGGAGGCTGAAAAATGGTGACTTTCTAATTCTA
Celera SNP ID:            hCV2658417
SNP Position Genomic:     44389
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25450):
ATTGGAGGCTGAAAAATGGTGACTTTCTAATTCTATCTTTTCCTTCTACATTTATTCACTGGCTTCCCTCTATAGAGAAGAGCTTTCCCTCCATCCACCA
K
TTTTTAGTATTATTATAGACACATGGATTCTTATTTTTTTTTTGAGTTGGAGTCTCACTCTGTTGCCCAGGCTGGAGCATAATGGTGCAATCTCAGCTCA
Celera SNP ID:            hCV2658418
SNP Position Genomic:     44555
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25451):
TTGAATCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGGTGCCACTGCATTCCAGCCTGGGCGATAGAGTGAGACTGCATCTCAATAAATAAATAAATAA
A
CAAACAAACAAACAAACAAACAAATCCTACTTTCAAGCACTTTCACGTAAAACACCTGCAATACAATATTTTTCATAGAATGGGCCACAGACCCCCTCCT
Celera SNP ID:            hCV26589439
SNP Position Genomic:     50962
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:25452):
GGAGCATAATGGTGCAATCTCAGCTCACTGCAAGCTTCACCTCCTGGGTTTGAGTGATTCTCCTGCCTTAGCCTCCTGAGTGGCTGGGATTACAGGTGCA
Y
GCCACCACACCCGGCTAATTTTTGTTAGTAGAGATGGGGTTTTGTCATGTTGGCCAGGCTGGTCTTGAACTTCTGACCTCCTCAGCATCCACCTCAGCCT
Celera SNP ID:            hCV2658419
SNP Position Genomic:     44729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25453):
GTAGCTGGGACTACAGATGCATGCCACCACACCCGGGTAATTTTTGTATTTTTGGTAGAGACAGAGTTTCGCCATGTTGGCTAGGCTGGTCTCGAACTCC
Y
GACTTCAGGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCTGGCACCAAAACATTGTTAAGTGAAATAAACAT
Celera SNP ID:            hCV2658381
SNP Position Genomic:     8030
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25454):
TAATATGTATGCTTGGATGACAATGAACTAAGCTGACTTGAAGCCTCATTTTGGTTTTATAGACTAAATAAATTGTACAACATTGTGTGTGTGTGTGTGT
K
TGTCTTTTACAGAGTTTCACTCTTGTTGTCCAGGCTGGAGTGCAATGGCATGATCTCAGCTCATTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCT
Celera SNP ID:            hCV2658383
SNP Position Genomic:     10276
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25455):
GGAAGGACGTTCTTATGTTCCCCAACTTGTGATTTATACATCTTTGACCAGGAGGCCCAGGCATTTCAATACTAATTATAGTTCTTCAACATGTCAGTGA
R
GTCTGTCTTTAGCAAAAGCAAGAGGAGGGCAGGTGCAGTGGTTCACGCCTGTAATGCCAGCACTTTGGGAGTCCGAGGAGGGTGGCTCACCTGAGGTCAG
Celera SNP ID:            hCV27485243
SNP Position Genomic:     39643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:25456):
TGGATTATTTTACTCCTTGATAGAATGAATTTTCCTTTTGCAGGTTTTATCTGAATGGCGCTGATTCTGCCAAGTGCACTGAGGAAGGAAAATGGAGCCC
R
GAGCTTCCTGTCTGTGCTCGTAAGTCTGTGGGCAAGGTGATCAGCTGGTTTGCCCAGAACCTTTCTGGTTTTAGCACTCAAAGTCTCACATCTGGAATCT
Celera SNP ID:            hCV15757561
SNP Position Genomic:     38823
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,40)   total(A,2|G,72)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25457):
GTATCTGTATTTTCCAAAGAGAATTTTATTAGCGGAAGTGAACTTCCAGTTGGCAAGTGTTGCCAGGGAAATGGCTCTGAGCAACGACATTACTTCCCTC
M
TTGCTTCCCTTATCAGTCAGTTAATAGCTATTTCTGGAGCACTGACTGTGTCAGGCACTGGTCTACGTGCTGGGGATGCAGCCAGTAAAGACAGAGTCAG
Celera SNP ID:            hCV2658385
SNP Position Genomic:     14009
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25458):
CACTGACTGTGTCAGGCACTGGTCTACGTGCTGGGGATGCAGCCAGTAAAGACAGAGTCAGCCCTTGAGAGGCATGTGTTGTGTGGGACATTTATTGGCC
R
TAATAAGGATGGCACCATGTCTGAGAGGCTGAAAAAGAGACCCAGAGCCAGTGAGCGAGACATAGGGTTTATTGAGGACTTCTACATGGAGTGGTCCAGG
Celera SNP ID:            hCV2658386
SNP Position Genomic:     14149
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25459):
TGTGTCTGAACACAGCCTAATTCAATTACACTTCAGCTGTGTCACTAGCAGGTCAGGCTAAACTTGTGGTTGATGGAAACATCTGGAACTTCTTCAAGCT
S
ATGCTGCTTCCTCCTCCACTTCACCTGCATGCTGAGATTTGCAGTGATCTTGTGAAATGTATCCTGTGGTTTCCGGCTGAAGTGGTAAGGTTTTTGAGAT
Celera SNP ID:            hCV2658388
SNP Position Genomic:     15951
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25460):
GGGTGTTTCATGTTATAGCTATTGAGCAGAACTTTTCATATACAGTTTGTACAAGCAGCTGTCAAATCACTTAGAAGTACCATATCCCAAGCCACAGTTC
R
GTATCTTACTCCCAAGGATGCCAGTAGATAACTCATCAAATGCTTTACTAAAAGAGGGATATACATTGTAGCTAAAGTGTTGCCCTTTTCTACTAACCTA
Celera SNP ID:            hCV2658389
SNP Position Genomic:     18844
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25461):
AAAGAAAAAGAAAAAAATCCATTTTTTCACACATTGAATCTTTCTTTCTTCTCTAAAACTGGTACCCATTAACCCAAAGTCTGTGCTCAGAATCCACTGA
R
AACAAGTTTAAAACTCCTTCCACATAATGGTTTTTGAAATATTTGGAGACTTTCTTAGTCTTCTCCAGGGTAGGCTTTCATGATACTTTGACTTATTATC
Celera SNP ID:            hCV11886035
SNP Position Genomic:     15616
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25462):
TCACTTAGAAGTACCATATCCCAAGCCACAGTTCGGTATCTTACTCCCAAGGATGCCAGTAGATAACTCATCAAATGCTTTACTAAAAGAGGGATATACA
Y
TGTAGCTAAAGTGTTGCCCTTTTCTACTAACCTAATAACAATGTCAAAAAACATAATTGGATTTAATTTGTTGAAACCTTCAAATGTTTTGAAGAGAGTT
Celera SNP ID:            hCV2303843
SNP Position Genomic:     18910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25463):
CAGTAGATAACTCATCAAATGCTTTACTAAAAGAGGGATATACATTGTAGCTAAAGTGTTGCCCTTTTCTACTAACCTAATAACAATGTCAAAAAACATA
W
TTGGATTTAATTTGTTGAAACCTTCAAATGTTTTGAAGAGAGTTCATATTATTTTTCAGTCATCATTTCACATTCATCTACATACCCATAAACCATTTGT
Celera SNP ID:            hCV2303844
SNP Position Genomic:     18966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25464):
CCATGCCTGGCTAATTTTTGTATCTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCATGTTGGTCTTGAACTCCTGATCTCAGGTGATCCACCTGCCTC
R
GCCTCCCAAGGTGTTGGGATTACAGGCACGAGCCATCATGCCCGGCTTCACAATCCCTTATCTTAATCACAGTATAATTAAATCTACCTATGACCTGGAA
Celera SNP ID:            hCV16153228
SNP Position Genomic:     9047
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25465):
TGGTGACTTACACCTGTAGTCCCAGCTACTTGAGAGGCTGAGGATCACTTGAGTTTGGGAAGTTGAAGATACAGAGAGTGGAGATCATCCCACTGTATTC
Y
AGCCTGGGTGACAGAGTGAGACCCTGTTTCAAAAATAAATATAAATAAATATATATAAAGATTTAAGCTTAAGGCCGGGCGCAGTGGCTCACACCTGTAA
Celera SNP ID:            hCV11886039
SNP Position Genomic:     18220
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25466):
GAATGGAATGCTACATGGTGATAAAGTTTCTTTCTTCTGCAAAAATAAGGAAAAGAAGTGTAGCTATACAGAGGATGCTCAGTGTATAGATGGCACTATC
R
AAGTCCCCAAATGCTTCAAGGGTAAGTCTGCATTGGAACGTTTAGCTAGGACTCCCACTTGCCCGTCATCATAATCAGAGCCTTTGTTCTATAATGATTG
Celera SNP ID:            hCV25610408
SNP Position Genomic:     48065
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25467):
TTCTCCCATCACTTAAACCTCACACTAAATGGTTTCATTCACATAATCACATGTATTCTATATACTTGTAAAATGTATTTGGTTTGGCTTAGCTATTTAC
Y
ACATTTAAGAAATGATTGTTTCTCTTAGAATGTTTATCTTTTTCTCCCCCAACAGAACACAGTTCTCTGGCTTTTTGGAAAACTGATGCATCCGATGTAA
Celera SNP ID:            hCV25610409
SNP Position Genomic:     50295
SNP Source:               Applera
Population(Allele,Count): african american(C,20)   caucasian(C,39|T,1)   total(C,59|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:25468):
CGGCTAATTTTTGTTAGTAGAGATGGGGTTTTGTCATGTTGGCCAGGCTGGTCTTGAACTTCTGACCTCCTCAGCATCCACCTCAGCCTCCCAAAGTGCC
R
GGATGACCGAAGTGAGCCACTGTGCCTGGCCACATGAATTCTGTTTTATTTAATGTGTGGTAGAACCAAAATTGAGCCAAGCAGTCTGACTCTGGAGTTT
Celera SNP ID:            hCV2658420
SNP Position Genomic:     44841
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25469):
CTTGAATCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGGTGCCACTGCATTCCAGCCTGGGCGATAGAGTGAGACTGCATCTCAATAAATAAATAAATA
A
ACAAACAAACAAACAAACAAACAAATCCTACTTTCAAGCACTTTCACGTAAAACACCTGCAATACAATATTTTTCATAGAATGGGCCACAGACCCCCTCC
Celera SNP ID:            hCV26589440
SNP Position Genomic:     50961
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:25470):
GTACTCATCTACTGTTTCAAATGCTATACTCTCTTTCAGAAAGACTTCCTGAACTCTTAAGTCCTGATTACAAGTATTCTCTCTTTCAGCATCTTGTAAA
K
TACCTGTGAAAAAAGCCACTGTGGTGTACCAAGGAGAGAGAGTAAAGATTCAGGAAAAATTTAAGAATGGAATGCTACATGGTGATAAAGTTTCTTTCTT
Celera SNP ID:            hCV2658421
SNP Position Genomic:     47900
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,14)   caucasian(G,26|T,12)   total(G,38|T,26)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;HGMD;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;Caucasian(T,16|G,51)      total(G,51|T,16);(T,-|G,-)   ;;JBIC-allele(G,336|T,1151)   total(G,336|T,1151)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25471):
GCTTGAATCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGGTGCCACTGCATTCCAGCCTGGGCGATAGAGTGAGACTGCATCTCAATAAATAAATAAAT
A
AACAAACAAACAAACAAACAAACAAATCCTACTTTCAAGCACTTTCACGTAAAACACCTGCAATACAATATTTTTCATAGAATGGGCCACAGACCCCCTC
Celera SNP ID:            hCV26589441
SNP Position Genomic:     50960
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:25472):
CTATAATGATTGTCAAAAACCAGATGAGGCCAGGTGCGGTGGGTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCA
S
GAGTTTGAGAGCAGCCTGGCCAAAAAGGTGAAAGTCTGTCTCTACTAAAAATACAAAAATTAATTGCTGTGGTGCCGGGTGCCTGTAATCGCAGCTACTT
Celera SNP ID:            hCV2658422
SNP Position Genomic:     48254
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25473):
TGCTTGAATCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGGTGCCACTGCATTCCAGCCTGGGCGATAGAGTGAGACTGCATCTCAATAAATAAATAAA
T
AAACAAACAAACAAACAAACAAACAAATCCTACTTTCAAGCACTTTCACGTAAAACACCTGCAATACAATATTTTTCATAGAATGGGCCACAGACCCCCT
Celera SNP ID:            hCV26589442
SNP Position Genomic:     50959
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:25474):
AAGCAGTGAGCTGCAGATGGCGTCCCCACTTGCATTTTCCTTTCCAATTTTTTTTTTTTTTGAGACAAGGTCTCACTGTCACCCAGGCTGAAGTGCAGTG
K
TGCGATCACATCTCATTGCAGCCTCTACTTTCTGGGCTCAAGTGACCCTTTCACCTCAGCCTTCTGAGTAGCTGAGATTACATGCACGCACCACCATGTC
Celera SNP ID:            hCV2658423
SNP Position Genomic:     48643
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25475):
AAATTGCTTGAATCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGGTGCCACTGCATTCCAGCCTGGGCGATAGAGTGAGACTGCATCTCAATAAATAAA
Y
AAATAAACAAACAAACAAACAAACAAACAAATCCTACTTTCAAGCACTTTCACGTAAAACACCTGCAATACAATATTTTTCATAGAATGGGCCACAGACC
Celera SNP ID:            hCV26589443
SNP Position Genomic:     50955
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:25476):
TTTGGTTTGGCTTAGCTATTTACCACATTTAAGAAATGATTGTTTCTCTTAGAATGTTTATCTTTTTCTCCCCCAACAGAACACAGTTCTCTGGCTTTTT
S
GAAAACTGATGCATCCGATGTAAAGCCATGCTAAGGTGGTTTTCAGATTCCACATAAAATGTCACACTTGTTTCTTGTTCATCCAAGGAACCTAATTGAA
Celera SNP ID:            hCV26589444
SNP Position Genomic:     50372
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): Non-Hispanic Whites, Colorado(C,45|G,864)      total(G,864|C,45) ;(G,-|C,-)   ;(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25477):
TACCTCATCTTGGTCCCACATTATAGAGAACTCACCCCAAGTGACAAAACAACTCATGGCAATGATAATTGGTCTAAAGATCTAACATTTCCCCTTTCTC
M
AGCAATTCGTAGAGTTTGAAAAGTATCCATTAGAGCAAAGTATCCATTAGAGCAAAATATTTTAAGGAGAATGATACCAGGTTTGTGTGAGATAAAGAAG
Celera SNP ID:            hCV2658424
SNP Position Genomic:     49117
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,5)      total(A,2|C,5) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25478):
ATTATTGTAGACACATGGAGTCTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCTAGCTGGAGTGTAATGGTGGAATCTCAGTTCCCTGCAAC
Y
TTCACCTCCCAGGTTCGAGTGATTACAGATGTGAGCCACCATGCCCACCCCTTTTTGTGCTCTGTCTAGCCAAGGCTCTTCTCATTGCAAAAACCAACCA
Celera SNP ID:            hCV26589445
SNP Position Genomic:     46436
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25479):
AAAATTGGCTTCGAAGACATAATGTTACATTTTTCTTTCTTTTTTTTTTTTTCCTTTCTTTTTGCTCTGTCACCCAGGCTAGAGTGCAGTGGTGCGATCT
Y
GGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGATTACAGGCGCCTACCACCACACCCAGATAATT
Celera SNP ID:            hCV26589447
SNP Position Genomic:     37524
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25480):
ATCCTTAAGCTAAACATCAAGACTGGTCTATATTTTGTTTTCAGCCTTTAGGTTGGACTTTCAAATGCAAATCGATTTTAGTCCTGCTTTTTTTTTTTTT
T
GAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGCGCAGTGGTGCAGTCTCGGCTCACTGCAAGCTCCACCTCCTGGGTTCACACCATTCTCCTGCCTCA
Celera SNP ID:            hCV26589449
SNP Position Genomic:     36663
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25481):
TGGTTAATGTTTAAGCGCTTTCATATTTGGCTCTGTCTTTTTAGCAGACGAAAACCACTTTGGTAGTGCCAGTGTGACTCATCCACAATGATTTCTCCAG
Y
GCTCATCTTGTTCTCGAGTTTTCTCTGCCATGTTGCTATTGCAGGACGGAGTAAGTACTTTTTGCTTTTGAAAAAATAATTAATATATCCAACCCCTTCG
Celera SNP ID:            hCV27492180
SNP Position Genomic:     33174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25482):
GCAGGGAGCAAGAGAAGGAGCTGGGAGGAGGTGCCACACACTTAAACAACCAGATCTCATGAGGACTCAACTCACACGTGCCAAGGAAATGGTGCTACTC
Y
ATTCCTGAGAAATCTGCCCATAATCCATTCACCTCTCACCAGGTCACACCTTCAACCCTGGGAATTACACTTCAGCATGAGATTTGGGGGCACAAATATT
Celera SNP ID:            hCV2658391
SNP Position Genomic:     20591
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25483):
CATGAGATTTGGGGGCACAAATATTCAAACTCTACCAATAAGTCAGAAGAAAACTAACAATTAAATAATCGGTCTCTCTCTTTGTCAGCTTTCAACCTTA
K
GTTTAGAAACTTCATCCTTGTAAATCGGAACAAAAATTGGGCTAACCTTTCAGGAAGGCAACTAGGCAGTATGTTTGAAGATTCTTAAATGTTTTACCCT
Celera SNP ID:            hCV2658392
SNP Position Genomic:     20767
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25484):
GACGTGGGCGGATCACTTGAGGCCAGGAATCCGAGACCAGTCTGGCCAACATGGTGAAACCCTGCTTTTGTAAAAATACAAAAAATTAGCCAGGTATGGG
Y
GGTGGGCACCTGTAATCCCAGTTACTTGGGAGGCTGAGACAGGAGAACAGCTTGAACCCAGGAGGCGGAAGTTGCAGTGAATAAGATAGCACCATTGCAT
Celera SNP ID:            hCV2658393
SNP Position Genomic:     21084
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25485):
ACATGGTGATAAAGTTTCTTTCTTCTGCAAAAATAAGGAAAAGAAGTGTAGCTATACAGAGGATGCTCAGTGTATAGATGGCACTATCGAAGTCCCCAAA
K
GCTTCAAGGGTAAGTCTGCATTGGAACGTTTAGCTAGGACTCCCACTTGCCCGTCATCATAATCAGAGCCTTTGTTCTATAATGATTGTCAAAAACCAGA
Celera SNP ID:            hCV27861075
SNP Position Genomic:     48077
SNP Source:               HGMD;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25486):
ATCTACATGATGTAAGATTGTGTAGACATTAAAGAAAAAAGCAAGCTTTGAAGACACAAATAATAATCTGGGAAAGTGCTCATGATATGAAAATAAAATA
Y
ACAACAATATACCGAATATGATTCCAATTCTGATTATGACATATACAAATGCTGAAAAGAAATAACCCTAAATGGTGATATTATAGGATTTTTAGTCATT
Celera SNP ID:            hCV2658394
SNP Position Genomic:     21513
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25487):
CGAACTCCTGGTCTCATGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCTCTATGCTGTACTTCGAAT
Y
CATCCCATGTAATATTCCCCTTCCTCCATCCTTTTTTTTTCTTTCCCAACCTGAGCTCATCAGAAAAACTTCCTGGGAAGTCATATTAGTTTCTCTGGCT
Celera SNP ID:            hCV2658395
SNP Position Genomic:     22179
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25488):
ATGCTGTACTTCGAATTCATCCCATGTAATATTCCCCTTCCTCCATCCTTTTTTTTTCTTTCCCAACCTGAGCTCATCAGAAAAACTTCCTGGGAAGTCA
Y
ATTAGTTTCTCTGGCTGCCTCCTCATCTTCTGCACCAGATCGTCAGCAAATGCATTTCCAGAATCTTATTATCAAGCTCTCATCTGTTAAACCTCATTCC
Celera SNP ID:            hCV2658396
SNP Position Genomic:     22263
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25489):
ATCAGAAAAACTTCCTGGGAAGTCATATTAGTTTCTCTGGCTGCCTCCTCATCTTCTGCACCAGATCGTCAGCAAATGCATTTCCAGAATCTTATTATCA
R
GCTCTCATCTGTTAAACCTCATTCCCTTTTAGGTTTTCTGGTGATGAGATCATCCCCATAATTTCTTTCTAATTCTCACAATATGTTTTTCTAAATAGTC
Celera SNP ID:            hCV2658397
SNP Position Genomic:     22338
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25490):
AGAGATGGTTCTTTGCTTTATATTAGAAACAGTCATCTTGGCCAACTCTTTAAAGATGAGGGATTTAAGGGTTTGGATTCTCCACTCACCAGCTGTGGAA
S
CCTGCAGTGATTCACCTGCATCATTGGTTGGGAGGCTCCATGAGCCATAGATGAGTACTAAGTTTGTCAGGAAGACAGCATTATACGATGGAAAAGAAGT
Celera SNP ID:            hCV27505168
SNP Position Genomic:     38566
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,107|C,1356)   total(G,107|C,1356) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25491):
AAGAGCAGCACATGTTCTGGTTCATCAGAATGGCCAGTTTCATATTGTTCATCTCACAGATGAACACCACAGAAGATGCCATTGGTTTGGAGAGTGGAAT
K
AATGGAAGATGAGTTTATGTGGCAACATACTACGGTTTTTCTTCTTCCAGTCTCTCTTTCTCCCTGCACTACTCTCTGATCCCAGTGTGTCTTCTACACT
Celera SNP ID:            hCV2658398
SNP Position Genomic:     24451
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Gene Number:                 93
Celera Gene:                 hCG1986921 - 208000027364706
Gene Symbol:                 ASB3
Protein Name:                ankyrin repeat and SOCS box-containing 3;ASB-3;FLJ10123;FLJ10421;MGC12531;MGC996
Celera Genomic Axis:         GA_x5YUV32W5TR(33028501..33157512)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12253):
ACCCAGGCTGAGTGCAGTGACATGATCACAGCTCACTGCAGCCTGACCTCCTGGACTCAGGTGATCCTCCCGCCTTAGCCTCCCTAGTAGCTGGGACTAC
AGGTACATGCCACCATGCCCCGGTAATTTTTCTGTAGAGAAGGGGTTTTATCCTCTTGCCCAGGTGGGTCTCAAACTCCTAGGCTCAAGCCATCCGTCAG
CCTCTGTCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACTGCCCTGGCCTAACAACTGTTTAACTATAATAAAACCAGTACTACTTGGCACCACTGTA
ATCCTAAACACAAAAGCAAATTACAGCATTTTCCCTAAGACAAAAAAAACAAAACAAAGCAGTAAGTACTAGCTGTATTAGTTCTAGGACAGTACTGTTT
TAAGTGTTTTACATTCATTAACTCATTAATCCTCAAAACAAGTATGATGCTCATTTTTACGGAAACAGACACTAACGCCCAGGGCTTCAACCATTTGTCC
AAGGTTAAAAAACCTAGAAGTAGCAGAGGCCAGAGAATTCAAACAGATTGGCTCCATATTCTGTGAGCTTTTAAATATTTTAACATATTTGAATCAGCTT
TCACAAACTTCTCCTAGATTACTATGCAGACTTGAATTATGGCCAAGGATACTTGTTTAAAAAGCCACTGTAAGTAAGATGTGCACCTGTAATCTCAGCT
ACTCAGGAGGCTGAGGCGGGAGAACTGCTTGACCCCAGCCTGGGCAACTTATTAAAAAAAAAAAAAAAAAGGCCTGGCGCGGTGGCTCACGCCGGTAATC
CCAGCACTTTGGGAGGCCGAAACGGGCGGATCAGATAGAGGGCAGGAGATCCAGACTATCCTGGCTAAGACGGTGAAACCCTGTCTCTACTAAAAATACA
AAAAAAATTTAGCCGGCCGTGGTGGCGGGCGCCTGTACTCCCAGCTACTCGGGAGGCTGAGGCAGGTGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAG
AGAGCTGAGACCTCGCCACTGCACTCTAGCCTGGGCGAAAGAGCGAGGCTCCGTCTTTTTTTTTTTTTTTTTTTTTTTTTAAAAGAGCATTATAGATGAT
GAGGGAATCAAAGAGATTTGAAAGTAACAGTTGCAAAGCTAAACTTATGATAAAGAATTTCTTAGAAACATTTATTCAATTGTGCCAACGATTTGCTATG
AGACATAACATTTGTAATTCCTTTCAAAATGGTCTCCAAAATGCTTCAAATGTAAAAAGAAACTGCTTGTTTGGAACCACAGCAAAAAAGGGAAGACAAT
TCTTGATGCAAATAATAGTCTTTCATTAGTTTAGGAAAGGCTGCTTTCCCAATAAAATAAGCCAAATAGCAATTCTATCTGAAAACTCTGCTGAAATAGT
GAGTCACTTATTGGGACCACAAAATATATTTTTAGCAAACTTTACTTTTTGGTAACAGGAATTACGGAGAAAAAGTTTATCTTTTATAATTTTTCTAAAA
ATTCGGATCCACTAAAATCAGGATTCTGATTGTATAAAACAGGTTTTACTTTAAGAAAACAAAATATAATAAATTCTGAATGTACAGAATTAGATAGTAT
AAAAAACTTACTTTACATAACAAGGTATTTTCAGTGGAAGAGGAAATTAGCGATTTGACACAAAGTCAAATTTTATTAGAGATCTGACAAAGTCAAATTT
TATTAGAGATTTGACATAAAGTCAAATTTTAATATAGTGAAACTAATCAGAGGTGCTGGGGTACTTTAAAAGTTAAGGAACTTAAAAAATATCTTGGCAT
GAGAGGAACTCCTAATGTTTGACGTGGGTCTGGAGGAATTAGGTTGGTTAGAGGATGAGAGAACTTCTATTCTGGTAGAGGCTATAAAATACACTTGTTG
GTAGAACCTGTCAATGTATATGACATGCTATAAACCATGGAGTTGGTCAAATAGTAGTGCTTGGGAAAATCTGAGTAAAATATATTCTACATCAACAACA
GAAGTAGACAGAAAATTAGACTGATTTGTGGTTTAATTTGGTGAAATCTCTGAACTCTATAAAGTAATGAATAATTAAACATAACGACAGAGGTGATACT
TCAGAAGGAAAATATTAACACAAAAACAAAACTGAGTGCTAAACATCAATAAGCAAAGAATATCATAATTATTAACTCTAGTTAATGTACACATCAAAAA
TACACAAATTTTTTGGCCAGGTGAGGTGGCTCATGCCTATAATCCCAGCGCTTTAAGAGGCTGAGACCAGAGGATAGTTTTGACCAGGAGTTTGAAACCA
GCATGAGCAACATAGGGAAACTATCTCTACCAAAACACACAAACAACCCCCATTTTACAGTTTTGGTGCTTAATACTTTTTCTAAGCAAATCTGAAAGCA
AGATTGTAAATAATTATATATTGTTTTGATATATCTGAATGGGAAGACAATTTAAAGCAGACAATTTTAAAGCTTAAAAAATTCAGATCTTCTAATCCAG
TCTCTTCCAATTTCAGTTAGTAAACAGACAAAGGACCTTATCCTATTTCATACAGCTGCATATTAGTTAGATACAAATGTCCAACCCGCGGCCAGGCACG
GTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACTTGAGTTCAGGAGTTTGAGACCAGCCTGGCCAAAATGGTGAAACCTC
ATCTCTACTAAAAATACAAAAAAAAATTAGCCAGGTGTGGTAGCGCACGCTTACAATCCCAGCTACTGGGGAGGCTGGGCAACAAGAATCGCTTGAACCC
GGGAGGCAGAAGTTGCAGTAAGCTGAGATGGCGCCATTGTACTCTAGCCTGGGTGACAGAGCGAGACTCTGTCACAAACACAAATGTCCAACCAACTGGC
CCATTAAAAAAAATGGCAGCGCCAGGTGAGGAGAGTAGTGGTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTGAGACAGACTCCTCTGTCGCCCAGGATGG
AGTGCAGTGGCATGATCTCGGATCACTGCAACTTCTGCCTCCAAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAACTACAGACATGTG
CCACCATGCCCGGCTAATTTTTTTATTTTTAGTAGAGACAAGGTTTCGCCATGTTGCCTAGGCTAGTCTCAAACTCCTGGGCTCAAGTAATCCACCCAGC
TCGGCCTCCCAAAATGTTGGGATTATAGGCGTCAGCCACTGTGCCCAGCCAGTAATTTCAGTTAAATGCAAAGGGAAGCCTTAAGGTTATAGAAGTATTA
AAAAAAATCAAAAGACCAATGATAATGACTATTGTGGCTTATTTTTACATAAAGGACATAGGCCTTGTGACAATTCACAGAACACTCTAGATTTTTCTCA
AAGTAGCACAGACTTAAAGAAAAAAAAGCCAGATGCAATGGTGACCACCTGTAGTCCTCGCTGTTCAGGAGGCTGAGGCAGAAGGATGGCTTGAGCCCAG
GAGTTTGAGGCTGTAGTGAGCATAATCATGCCTATAAATACCTACTGCACTCCAGCTTCTAAAAAAAGAATTTTTTTTTTTTTTTTTTTTTTTGAGACAG
AGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCAGTGCAACCTCCACCTCCCGGGTTTAAGCGATTCTCCTGCCTCGGCCTCCC
AAGTAGCTGGGAGCACTGGTGTGCACCACCACGCCCAGCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCACGTTGGTCAGGCTTGTCTTGAATT
CCTGACCTCATAATCCGCCTGCCTCTGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCGCCGCACATGGCCAAAGCATTTTTTTTTTGAAATAAAATT
GTTAGATACGTGAAAAGTTGGTGTAGCAAATGCTAAGACTGAAAGAAAATGGAATGACAATTTGGTAGTGACCTCTAAAAATGCTAGTTTTAGTCGCTCG
CTTATAGTAAGTTTTCAGGGCTGCATATCAGCAAGTTTTTTTAAATTAAAAAAAACACAGGTGCCAAGAGTAAAAAATTTTAATGACATAATTCTTCAAA
CATCTGCCATATTCACTCCAAGTGTGCTCTTTGGATACAACAACAGGTATTAAAGTATTCTCTTCCAAGCCTGCTAAAGTTATATCTGATTCATAACAAA
ATTTTACATAGGTATTTCAATGTATCAATATTTTGTGGCATTAATACAAAGAGAAATTTGACGTCCCAGAAAAATATTTACCTAGATAAATTCAGAACAT
TTGGTTCACACATGTAATCCCAGTATTCTGGGAGGCTCAGGCACGAGGATTGCTTGAGCCCAGGAGTTCGAGACCAGCCTAGGCAACATAGTGAGACCCT
GCCTCTAGAAAAAAAAAAAAAAATTAGCCAGGAGTGGTGGGATTTCCCTATAGTCCCAGCTACTGGGAAGCTGAGGAGATCTCTTGAGCCCAGGAGGTCG
AGGCTGCAGCCAGTGGTGACCGTACCACTGCACTTCAGAATGGGCAACAGACTGAGACCCTGTCTCAAAAAACAAACAAAAACAGAAAAACCCAAACCAA
ACCAAACCAAACCAAAAAACCCCTAACACTTGCAAATAGAAAGCTATGTGGTAATAACATCCATTAACTTGACACATCTTGTTTTGACATCATAGTGTCA
CTTACTGTTTCAATGAAATGGTAATGAAAGAATATAATAAAGTATTGCAAGTTGAATGCTTGAAGGTAATTGGAATAAAAAGTTTAAAAAAATTTTGCTT
TTTCCGGGACTTCAATTTGAAGTAAATGAGTTAATTACTACATGGTAAGTGTCATAAGAGTACAATATTTATTAGCCTGCAGTAGGTACACGTGGACAGG
AAGACTTTTCAGCGGTCCACTCCCCCAAGAGGGAATTTTCATTTCCGCGAGGTTACAAATGTTCTTCACTACAGGAAAACTCAACATAGAAGCTCATGTT
CTGGGGACTCAAATAACAGTCGTAATACATGAAAACTGTAAAGGATATTCTGCATAAAGGGTCGTTAACATCTCACAGGCCAAATAGCCCTCTCAGAAAC
AACTAGGAAAGGAAAAAGTTCCCTTGGAGCTGTGCGTTTGCGTATGTCCGTGTGTGTATACAACTGAGGGAGAACGAATACGAGAGAGGGAACTCGAGTC
TGAAGTACTGTGGTGTGGGCAGGGTGACATGTAATACTGAAGGAAAGAAGTCTGCTGGTGAAGTAAGAGCCACAGTTAATTTTCCGAAAGGAAGATGAGT
AAGTGCACCTGACGTTATTCTACGAAAGCTGCTTCTGCAGGGTGGGAATGTTGGGAAGCAAGGTCTAGTGCGACAGAATTGAAAAGGTGGAGAGCAGGTG
ATTGCTGGATCCCTAATGCTCAGCAAGGGGGACGCATCCACATAACGTGAGAACGAACGAATGAATGAACGCTGCATAAAAGCAGCTTTGGCTTGGGGAA
GGTAAGAGTCTGCAGAGAAGGTCTTGGGGAGAAAAAGCAAAGAAAACCGAGGGAAGAGGCCGAACCCTTAGTGTCAGGAGGAGGGGTGGCTGCGGGGTTA
GTGAGGGCACTGACCAGAGAGAACTCGGTGCCGGGCCAGTTGACTCGGAAAGGGATGTCATCGCTGAGTTGAGGAAGGGCTCGGCCGCCGCCGGACGCCT
CCAGGAGGCCGCAGAGGACCAGTAACACCGGCCCGCCCGGGACCAGACTCCGTACGCCGCCGCCTCCTTCCTCCATCCTCCGCCGCCGCTTTCTCCAGCC
ACCGCCACAACCTCCTCTGCTCCAGGAGGAGAGGAGGAGGAGGAGGAGGTGGAGGAGGAGGCGGCGGGACTATAAAGCGCCCGGGTATCACCGGCCCAAC
CGCCGCCACGTCTCCTTCCGGAGAGCCCGGCAACGCCGCCTCCGCCCCCTTGAGCCTCCTGTCACCGTTTCCGGGGCAGACGACATATCAACATCCGGGG
GTCGCGGAGCCGTCCGCCTACGGGGGCCGGGACGTCGCCTGCGCGTCTCTCGTTTTCGGACGGCTGCAGCATCGCGGTGGGRATCGAAAGCGGGGGCTTC
TGGGACGCAGCTCTGGAGACGCGGCCTCGGACCAGCCATTTCGGTGTAGAAGTGGCAGCACGGCAGGTCGGTGAGTCTCGGAGGCGGCAGCCGCTTCCTG
AAGCCATTCCCGCTGCTCTCCAGTGGGCAGGCAGAGGTTTGACCCACACGGAGTGATAGCGGGAAGAAGACAGTGTGAACCRTGCGGGTGCGGGTCCTTA
GATGAGAAAATTCGAAGTAGCGATGAGATGTGAGAAATGGCGGTGTTCCTGACTGACCTGCCTTCTTGCAGCTTTTCTTCTTTTTCTCCGCATTTGGCAT
TTGTACACTTCATTTTTCCCGCTTGAGGCTTATCTCCATCTCTTCTGCTGTGGACCGTGGCCATCTCGTTACTTAACAGCTTCTGACTAACGCAGGGCAG
TTTGTTCAGCGACTGCAACTCTGTGTTAGGGGAAACCTGGGGTGAGGTAGCCCGCCATCTCCCCGTAGGTGAATACCGCRAGCCTCCGAATTTGGCRTGG
TGGGCGACTCTCGTGGAATGGGCAGCTAGACATCACAACCCTACATTTTTACCCTCCATCTCTAGATTGAAGTGTTGGGGTGTTGTTTTATCAAGGAAGC
TGGTAAGGTTCCTTATGTGAGGTTTAGCGCCAGATGAATGTGTGTGTTTATGAACTAAGTCACGTCTGACTGCATCCCCAAATTAGACAAAAAGTTTTGT
TTTTCCCTCCCCCTCTTTAGAAAAAATGCCATTGTCTGTTTTGATCTCCAATATAATGGACATAGAGTGTTGGCTTTAGAGAAATTACCATTCCCTAAAG
CTCGACAGTCTTGCTAGATCTGTTAAAGACTGGTCGCCCCCACTTCCTCAGATTTGAACCAAATCAAAAAGCAGGAAGGACAGTCCCATATTCTATCTTA
AAAATTTTTTTTTAACATCAGGAATCCATAGTATCAAAGAAGATAACTTTCTTCAGAATTGTTATTCGCTAATTATATTCAGCACTTCTTATTAATGCTT
AATGTGATCCAGACTCCTGGGATTTTTGTTGTTGTTGTTTGTTTTGAGACAAAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGAGGCATAATCTTGGCT
CACTGCAACCTCCRCCTCTGGAGTTCAAGGGATTCTCCTTTTTCTCAGCCTTCCGAGTAGTTGGGATTACAGGCGCGCGCCGCTACACCCTAATTTTTGT
ATTTTTAGTAGAGGCAGGGTTTCACCACGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGGGTGATCCGCCCTCCTCGGCCTTCCAAAGTGCTGGGATT
ACAGGCCTGAGCCACTGTGCCTGGCCCCCCTGGGCTTGGTAAAATGCCAAATAAATGGGTTTCTGTCTTTGGTCACACAGTCTAGGCAGGGAGATTGTAC
AAACAAATAATTGCAAACTATTATAGTAGTAATAGTCAATTTTTTTTTTTTTTAGCATTTATTCTGTGCTAAGCACTAGTCTTAAGTCATGAAGGAAAAG
AGATGTATTTGACGGAATAAAAATGAAAACTGTCTGTGAGGTCCTGTTTTAGCATTTAGGGCTATAGTGATTGAATCTGTGTTCAATAGAGCTGATGTTC
AAGTAAGAGGGGAACTTAAATAAGTAAAATAATTTCTAGTATTGGTAAGTGCTGCAAAGAAACTAAGGTTATGTGAAAGACAATACCTGTAGGATGTGTT
GCTTTTAGTACGTAAGTCAGAGGAGACTTCTGTGAGGAAGTGACATTTGAATTGTGACTTGAATGATGAAAAGAAGGGAGCCAGACAAATTTCTAGGCAG
AGGCCCTGAGGCAGGAATGAGCTTGATGTGTTGGAGTGATAGAAAGAAGGCCAGTGTGGCTGGAGTGTAAGAGGAAAGTGGTAGAAGAAGTTTGAGAAGC
AGAAAGAGGCCAGGGAGACAGCTCTGTAGGCAGGAGAGTGGACAGGACCCGATGTACATTTGTGAAGATCATTGTGGCTGCTGTGTGGAAAATTGATTGT
AGGGGGTGTTGTGGGTTGAATTGTGTTCCCCAAAAAGACATGTTTAAGTCCTATCCCCTAGAACCTGTGAGTGTGAACTACTTGGGATAGGGTCTTTGCA
AATATAATTCAAGTAAGGATGAGGTCATACTGAATCAAAGGGGGCCCTAATCTGGTGACTGGTATCTTTATAAGAAGAGGGAAATTTGGATACACATGGA
CACACAGGGAGAATGCCATGCCAGGAAGGAGGAGGCAGCAAGATTGCAGTATGTGTCTATAAGACAAGGAATGCTAAAGATTGCCAGTAATCACCACAAG
CTAGGAAGAGGCAAGGAAGAATCCTTCTTTAGAGCTTTCAGAGAGAGAGAATAGCCCTGCTGACATCTTGATTTCTGACCTCTAGTTTCTAGAATTGTGA
GACAATCAATTTATGCTGTCTAAGCTGCTCAGTTTGTGGTCATTTGTTACAGCAGCCTCAGGAAGGTAATAGAGGATGAAAACCAAAAAGTAGTTGAGAC
AAGTCTCAACCAGTTTAGAAGTTTATTTTGCCAAGGTTAAGGACGTGTCACAGACAGCCTCAGGAGGTCCTGACAGCATGTGCCCAAAGTGGTCGGGCTA
CACTTGGGTTTTACACATTTTAAGGAGCCACAGGACATCAATCARTACAAGTCTTTTATGCTTTATTTATAGGTTGATTCTTAAACATTGAAAACTTATC
AACTATTTACCATATTGTAATTATACAATCATCATTCGCTATAAAACTATTAAGTATGATTGCATCTGCAGAGAAAAAATGTAATTCTACCTCTGCCAAT
TAAGGTATCCTATTAGCTTCCTAATAATGGCACCATGTTTGCTAAAATAAACTCATTTTGCTCCTGAAGCTGTATTTCCAGCTCTCACACATGTAATTTA
GACTAGTTGCTTTACAAGTCAGTTGCATACCTGTTTACTGAGATTTTTTTGTATCATGCCTGGGTTAGGTCTACTGCTTTATGTATTCCATGTCCTCATT
TGTCATAGATTTTTTTCCCACCTTGTAGGGGTATAACTAATTTCAAGCAATTTTTTTCAGGAAGGATTAAACAGGTAATTTAATTTCCACAGACTTCATA
TGTCTGAAAATGCCTTTACCTTGCCTGCTCATTTAATGATAGCTTGGGAATAGACTTAGTCCACAATCATTTTGTTTTCTTCAAAACTCTGAAGACATTC
TCTTGCTTTTTGTGTCTAGTGTATCTGATGACAAGTCTAATGCCAGTCTCTTTCTTTTGCAGGTATCATACTTTTTTCTCTGGAAGATTTTATTAGACTG
TTTTCTTTATCATTGGTTCTGTGATATTTTATCAGTGTTTCTAGGTGGTGAATCTTTTTTCATTCATCCTTCTTGGCACTCTATGAATCCTATTTTTCAC
TTCTGGGAAATTTTCTTCAATTATTTCTTTAATTATGTTCTTGACATTTTCTCTGTTCTATTCAGAATTTAGATAGGTTCTTCCAAATACATTTAGATAG
ATTCTTCCAAATACAGAGGAAAAATATAAAAAGAAAAAATACATAATACGAAGGATCAATCCAAGAGGTCCATTTCCTTGATTTTCAGTTCTTTTCACTT
TCTTTTTTCAGTGGTTTTTTCCCCACAGTTTCTAGTCATCTAGTTATTTTTAATGGATGCATTGTTCTCATGACATGAATTTCTTTGAGGATAACACTTA
TAACTTTTAAATATTTATGTCCCATTCCCGGAAATAGCTCTGCTTCTTTCAGGTCAGTTGTTTATTTTCATCCTTTCTGTCTGTTGTGCTTTTACTTCAA
AAAAAAAAATTCTTGGCGGGGCATAGTGGCTCACACCGGTAATTCCAGCACTTTGAGAGATCACCTGAGGTCTGGAAGGTCAAGACCAGCCTGGCCAACA
TGGTGAAACCCTGTCTCTCCGAAAATAAAAAAATTAGCCGGAAGTCTTGGCAGGCTTCTGTAATCCCAGCTACTCAAGAGGCTGGGGCAGGAGAATCACT
TAAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTCCAGCCTGGATGACAAAAGTGAAACTTCATCTAAAAAAAAAAAAATTATT
GAGCTCTTTTGTAAGTGAGCAGGGTACTAGCTGTTGGGTCTAACTTTAGGGTCCTTGAGTGAAGTGCAAGAAACGAGTTRCCTCTTTCCTCCTCTCCTTC
CACCCTGTACCCAAATAAGGAATGCTTTGTTATGGAACATGAAGATGCTCAAAGGCTTCCAGGGTAGACTGTTAAATTAAAAAGAGCAATAACAACAAAA
TAGATGTGGTTTTAGCCAGAAACAAATACTGTTGCTGCCAGGCGTTTTGTGTGTAAAGGGCTGTGGTAAAAAGTTTGGCTTGCTGTTTCATATAAATATT
ATAATAATTCTGATTTTAGTCCTACGTCCTTCCTCTGCTTGTTTCTAAGATTGGTACCTCTCCAGGCTCTGCTGGCAAGAATGTCTTCTACATTGCTATA
GCCTTCTCATGTATGCATGTGTGTGTGTTCTGGACTGCAGTTTTCTCTGCACTGGCTTAATCCTCAGCATAATCCTACCTGCTTTCTCTTCCAGAATGAA
TGAGTGCATTTCAGTGCGATTTTGTTAGGAAGCGGAGGAAAATGTATGTGCTTAGTTTGCCTTGCATAGAGTGAGTAATCCATTGTTTTTTTGTTTGTTT
GTTTRTTTTTGAGACAGGGTCTCGCTTTGTCACCCGGGCTAGAGTGCAGTTGCATGATCACTGCTCACTGCCATCCCAACCTCTGGGGCTCAAGCGATCC
TCCCATCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTGCACCAGCCTGCCTAGCTAATTTTTTTATTTTTTGAATTCTTGGTTTCCCAGAGTGTT
GGGATTACAGATGTGAGCCATGGCACCCAGCCAGTACTTGTTGAATAAATCAATGCTGTTGAAAAAATTGGGCAAGGCATACTGTTGTTTAAAAAGAAAA
TTATGGCTGTAGGAGATAAGTAATTAGGTGAATCTTTTAAATCCTGTTTTAAAAAGTCCTATTTTATTTTGTCCTAATTAAAAAAGAATCTCCGCCGGGC
GTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACCTGAGGTTGGGAATTCAAGACCAGCCTGACCAACCTGGAGAAAC
CCTGTCTCTCCTGAAARTAGAAAATTAGACAGGCGTGGTGGCTCATGCCTGTAATCTCAGCTACTCTGGAGGCTGAAGCAGGAGAATCACTTGAACCTGG
GAGGCAGACATTGTGGTGAGCCAAGATGGCGCCATTGTACTCCAGACTGGGCAACAAGAGTGAAACTCTGTCTCAAAAGAAAAAAAAAATGGAAAGAATC
TCAAAGGGGTTAAGCCCTACCAATGGAGGTACAAAATGAGATAACTACCATCTCTCACTTTTTTTTTTTTTTTTGGAGACAGAGTCTCACTTTGTTGCCT
AGACTAGAGTGCAATGGCATGGTTTTGGCTCATTGTAGCCTCAACCTCCTGGGCTAAAGTGATCCTCCCACCTCAGCCTTCTCAGTAGCTGGAACTACAG
GTGTGCACCACCACGCCTGGCTAATTTTTTTTGTATTTTTTGTAAGAGATAGGGTTTTGCCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGTG
ATTTGCCCCCTCAAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTTGCCCGGCTTCCTTTTTTGTTCTTTTTAAAATTGTAGGCCTTAATTTCA
TTTTGTTCCTGTTCAGTGCTTAGCACAGTTCCTGGCATGTTGTAAATGTTCAATAAATGATACTACATTTGTTTTACTTAAGCAATTTTCATCATCGTAG
AAAATAAGGATTAAATGAGTTAATATACATAAAGCACTTGGAATAGAATCTAGCATATAGTTAGTGCTACATAAGTGTTAACCATTATTCTCTGACACAT
GAACACCTTTTTGTTTTTTCTATGAAGCTTTCTCTGATTCTGCTACTTTGAATTGGTAATTTGCCTTTCTGTATTCTGGTTGTATTTTATTTATTTGTTA
TTAGTTTTAGAGACAGAGTATTGCTGTGTTGTTCAGGCTGAAGTGTAGGGGCCTTATGATAGCTCACTGCAGCCTTGAACTTCTGGGCTCAAGAGATCCT
TCTGCTTTATCCTCCAGAGTGGCTAGGACTGCAGACATGTGCCACTATGCCCAGCTAATTTTTACATTTTTGTAGAGACATGGTCTCACTATATTGCCCA
GGCTGGTCTCAAACTACTGACTTCAAGTGATCCCCTTGCTTTGGCCTCCCAAATTGCTGAGATTACAGGCAYGAGCACCATACCCACCCCTCTGCTTGTA
TTTTATATCACATCTTTTATATTAAATAACATAGATTTGTTTGCTTGTGTGTTTCTCCACCAAATATGATTCTTGATAGCCGGGGACTATCTTATTTATT
TTGGTGGTCTCAGTGCATAGTCATTGCTTGCCACATAACATTAGTTCGCTCATTTGAGCTAGGTCTTAAAGAATGAGGAGGGTGGTGTGATTGGAGCATG
AGGGGCAGGGGAGTACGTCAGTGGGAAGTGAAATTTGACAAATACACTGATACCAGATTGACCAGATGGTAAGTAGTTGAATGCCAGATTAAAGGATTTG
AATTTATTTTATATGCAGCAGGAAGACATTTTGATTACTGACCTCAGTTTCATATTTTAGGTAAGTAATTCTGAGTGCACAGTAGAGCGTGTATTGGAAA
GAGGAAAAGAGATTGGAAACAAGAAGAATATGTAAGAAACTCTGGCTCTTGAKGTATGATAAGGCTCTTTAGTTGAGAATCTTTCAGCATGTAACCTTTT
ACTATCATGTAATCTTTTAAGCCTTATCACAAAAAGCCTTCAGGGCTTCCTTGGTAACTTCATTTTGACTTTGTTAAAAGAAAAACTTTAGACGAAATCA
ATTTATCAGAATTTGTTTTTGTGTTAAAGGATTAATGAATTTGGCAGCACCCAAAATTAGAAGTAGTTCAGGGAGCTCTTGTTTTAACAGAGTAAGCGGC
AGACCTTTGCAGGCTGAATGTGGAAGCGAAGTAAAGAAATTACTTGATTGGACTGGGCATAGTGGCTCATACCTGTAATCCCATCATTTTGGGAGGCTGA
GGTAGGTGGATCACTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATGGTGAAACTCCATCTCTACAAAAAATGCAAAAATTAGCCAGGCATGGTGG
CACATGCCAGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTTGAGCCTGGGAGGTTGAGGCTGCAGTGAGTTGTGATTGTGCCACTGCACT
CCAGCCTGGGCAACAGAGCGAGACCCTGTCTTGAAAAAAAAAAAATTACTTGATTGTCATAGCTACTTGTTTGTCTTATTTGGGTACAATCTGGCAGAAA
GTTGCTTGTTAGAGAATAGTTGTTGGTTTCTGATTAAAATTAAGTTGTGACATCCTATGGATTGGGAGGAAATATTTGCAAGCCATACATGAGATAAGGG
ATTAAAATTCAGAATATAAAAGGAACTCAAATAACTCTATAGAAAGAATACAAATAATCCAGTTAAAAAATGGGCAAGGAACCTGTATAGACATTTCTCA
AAAGAAGACATACAAATGGCCAACAGATACATGAAAAAATGTTCAACATTACTAATCATCAGGGAAATGCAAATTAAAACCACTATGAGATATCACCCCA
ATATGTGTCAGAATGGCTACTATCAAACAGATGAAAGATAAGTGTTGGCAAGGCATGTGGAGAAAGGGGAACCTCTGTACACTGTTAATGGCAATGTAAA
TTAGTACAACCGTTATGGAAAACARTGGCAGTTCCTCAAAAAACTAAAAATAGAATTACCATATGATCCAGCAATCCAACTTCTGGGTATTTACCTAAAA
GATTGGAAATCAGTATGTTGAAGAGATATCTGCACTCCCATGTTCATTGCAGCATTAATCACAATAGCCAAGATACGGAATCAACCTAAGGGTCCTTAGA
CAGATGAATGGATAAAGAAAAATCTGGTGTACATACGTAGTGGAATACTATTCAGCCTTAAAAATGAAAGAAACTTTGTCATTTGTGACGACATGGATGG
ATTGGAGAACATTAAGCTAAATGAGATAAGCCAAGTACAAGCAGACAAACAACATATGTGCTTACTTATATATTTAATCTAAAACCGTTGAACTAAAAGA
AGCAGAGAGTAGAACAGTGGTTACCAGGGTTGGAGGGAAGGCATGGGGGAATGGGGAGATGATAGTCAAAGGGGAGGAATTTTTTTCTTTGAGATATGTT
GCACAGTATGGTGAATATAGTGACTAATAATGTACTTTATACTTGCTAAGAGTAACTTTTAAAAGTTTTCACTACAAAAAAAATTTGAGGTCATGGATAT
GTTAACTAGATTTAATTATTCCACATTGTATTCATAAATCATCACTTTGTACCTCATAAATATATAACTATAGTCAGTTTATAATTAAAAAATAAAAAGC
AAAGATTAAGTTTTGTTTCACTGTTTACATTGGGCTTCAGTTTGCTTACATAGGAACCCAGAGTCCTAGGACCATCTTAGCCAAATGGCCTCCAATTAAA
GATTGCTTACACTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAAGAATCCTGCTCTGTTGCGCAGGCTGGAGTGCAGTGGCGCCATCTTGGCTCACTGCA
ACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGGCTTAGCCTCCCAAGTAGCTGGGACTACAGGTGCCCGCCACCACACCTGGCTAATTTTTTTGTATTT
TTGGTAGAGACGGGGTTTCACCATATTGGTCAGGCAGGTCTCGAACTCCTGACTTCAGGCGATCCACCCGCCTTGGTCTCCCAAAGTGCTGGGATTACAG
GCGTTAGCTACCACACCTGGCCAAGATTGCTTACACTTTTTAAAAAATGTTATATTGTTTTTAGTAAAACAAAGGGTAAAATTTAATAAAAAGGCACAAA
CACATTTTGTGTATATTGTGAAAATACCATCTATTTCCTCCAAAAGCTTATAAATTGATATGAGTATCATAAACCTGTTTATTTTTCTCCTGGACTAAGT
ATTGTTCAACGTTTAATGTGTATTATGTACAGGGAGGTAATGTGGGACCAGATTTTCTGGTTGGGAAAGGAGATGAGTACTGGTTTTAGTACAATAAGTT
TCCATGCTTGTGTAGCACAACTGGAGATGCCTTCATGTAACAGACATATGAAGAGGTTGAGAGAGTAGGCTGGAGATTGGAAGCTATCCAAGTAAAATTG
AAGCCTAGGATTTGATGASTTTGTGTATTTGATAAAGAATAGTGTAAGAGTTGTAACTGGAAACACAATGAAATGTTTTTGTCTTTGGCTTTAGTGACAT
GGGATGCTTGATCACTAGTGTCTGATGCACCAGAGAAGCATGAAAATTGCAATCTTTGGGTTCAGTGAGGAAGTGGTCATTGGAGACTTGATACTATAAT
GATTGGGTGGTATGGCAGAGTAAAGTTGAATTGGAAAGGGATTAAGACGAGTTGATAAGGAAGTGAAGCACTGTGTAGTTAAAAAATTTCTGTGAAGAAT
AAGAAAGCTGGAAGAACACAAGAAACTGTAGGATTAGTGGTGGTTTTTCCAGTTACAGTGTGTGTACATGTGTGGGCGAACCATTTATAAAGAGAAGGAG
GCTCAGTACAATTAAGTAAAACAACCAAGAAAATGAAACTGAAATATAGTATTTTAGAAAGGTAAAATGAACCATAGGAATGAAAAGTCCCTGAAATCCA
ATAAAGCTAATTTTCATCATATAAATTTGACATACAGAAGAAAAATTTTGGTATTTTAATTGTCTTTGGAAGAGTTAAAATTCTTCAACATAGTAGCCAC
AGGATTACAAAATCTTTGAGTCTGTAATATATGCTTAGAGTGAATTCAAGGTTTTATTTTAGTTTTTTGAGACAGGGTCTTGCTCTGTTGCCCAGCCTGG
AGTGCAGTGGTGTGATCATGGCTCACTGCAGCCTCRAACTCCTGGGTTCAGGCAATAGTTCTGCCTCAGCTTCCTGAGTAGCTGGGCCTACAGGTGCATG
CCACTACACCTGGCTAATTTTTAAATTTTTTATAGAGATGGTGCTCYTCTGTTGCTCTGGCTGGTCTCTAGCTCCTAACCTGAAGTGATCCTCCCTTCAC
AGCATCCCATCACAGCACTCCAGAGTACTATGATGACAGGTGTGAGCCACTACACTGGCCAAATTCAAGGTTTTAGAAATCCATAAAAATAGATTGCCAA
AAGCTGAATAAATTAATAGACAATACAGTCAGTATTTTTGCTGAAAAAAGATAGGCATAACAGGAACATTTGATAGGTAACTTTTAGCGTGATGTGATGA
AGAGAATTTTAAAGCACATTTATCATCTAATTGCCTGGAAAGAAAGAACCAGGGATGGTAAATTAGAAATTTAATAAATTTATCACCCTTTCTGTTTTAC
AGGACAAGTGAAATGCCGTCTGGAAAACTAATATTTAAAATGTTGGAAGATATTTAAAGTAGATATGTAGCTGAGTAAATTACTAAGATGTTAATAAATA
GGAAAACATGAAAAGGACATGTAGGACAGCTTTATGTGAAAAACTTCTGTACTAATTATTAGTCATGCCTGAGTTTAAGGAGCTTTTAGTAAGTATATTG
TGTTTAGTTTTATACTGAAGTTCTTATGGTGAAAGATTCTAGAGAGATTATATGTCCTCTTGAGAAAGAAATAACCTATAATCAGGAATAACCTGAATGG
TTTGAATCAAAGTTAATTCTATGTGAGTTAATAACTTGTTTCCTAGTTGAGTAGCAGCATACACCCAATTGATACTCTTCTTTAGGTGACAAAATAAAGA
AAAAAGTTACSTACAAATAATCAGGTAATGCCACTTCTTAAAAAAATACAATCTATGCAGGTAACAAAATGGCACTTGTAGCCCATAAATTTGTACAAAT
AAAAAATTATAGGCCGGGCATGGTGGCTCACACCTGTAATCCTAGCACTTTGGGAGGCTGAGGCTGGTGGATCACCTGAGGTCAGGAGATCGAGACCAGC
TTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCACATGCCTGTAATCCCAGCTACGCGGGAGGCTGAGGCA
GGAGAATTCCTTGAACCTGGGAGGTGAAGGCTGCAGTGAGCTGAGGTTGGCACCACTGCACTCCAGCCTAGGCAACAGAGCGATACTCCGTCTCAAAAAA
CAAAACAAAATTATAATTCCAGGAGGTGCCTGTTCTTGGCTTCTGCCAGAGGTTACACTTTCCAGCCTGTGGGATGGCCAGACGCAGGCTGCAAAGAAAA
AAAAAATTTTATATGTATATWTATGTATATACACACACACACACACAAATTGAGATAGTGACAGACAAAGAATTCCAAAAGCTGTTTTAAAAACTAAATT
TTCATTATATGTGCCATTAATTTGTAGTATCAGCCCATCTTTTTCAGTTTTGGTATAAGATTAATACAAAGTGAATGACAGACTACATCATTAGTGATCA
TGATTTGTATAATGTAATTTATGCTTTAGTGAGTTATTTTCCATATAGTAAAATGYCTTTATTTAAAAAAGAAGAGGTACAGTACATTATAATTCCAAGG
AAATTTTYGTATTTTAAAAATGCCAATTTTTGGCTAAAAACTCAAAAGATTTCATTTAATACTTGAATAACAAGGAAATTCACAATTAAGGCTGAAATAC
TGTTCATATTATTGTGTATTTCTAAGCATGTTATTTTAAGCTTGTGTATTTTAAACCATKGTTACAGAATTGTATAGGAATATATTGAAGGCATAACCTT
ATATTTATTGGAATTTTGGTTTAATTGTTTAGAATTTCAAAATAGTATTGGGATGTGAAACAGGATGATTATCACTCTGATAAAAACAAGACTGAACTGA
GTCCTTCACTGTATTTTTCTAAAGAACTCACTTCTAGTGAGTAAGTGTTCAATAACATAAAGTTAGGAAATCTTTATGTTATTAAAATTTGAATTTTTCT
TTCACTGTATCCCAATATTTTAAATATGTGTTTCAGGACATTTCCAGTTAAAATAAAAGTTTAAATAATATCCTCACTACATTAAAAATAAGATCTTTAA
GTAAACGTATTTCCAAATCATATTGTCATTGTGCACTGAAGTTAATTCTCTGAAGACTAAATTATATGCAATTGAGGTTCTGTTTCCCTTCTAAACGTTC
CTTTACTAATTTTTCCAAAGCGAAAAGATGCTCATCTGCTTCTTCTGGCACAAGGTTCCTAATAGAATTTGCAAGTTCAAAAAGATATTCTGTATTTCTT
CCACTTGGACCAGCTGCATTAAAAATTTGTTCAGCAATGTCTTCCAGAGGTGCAGGACCAAGATAATCAGGATTATCACATGTTCCAATATATAGCAATA
CACTGAATGGTTTTGTTGTGGGATCTTTTGGATAAAAAATGACTGTTGTGGTTCTGTAGCCTCCTTTTTCTCTGAAGTCAAGGTATGCTTTTACTTCTTC
TTCCTTTCCTACTGGCAATCTGTAAGCAACACCCCATACACATCCCTGTTGAAAAATGAAAAGAATACACTGGTATTATAAGGCTAATTAAAATAGGTGA
AGAAAGGTTGTGATCTAAGGGAGTATCTCATATATTCTTTTCTGTTTGTTTTTGAGATGMAGTCTTGTCTGTTGCCCAGGCTGTGGTGCAGTGGCACGAT
CGTGGCCTACTGCAACCTCAGCCTCCCGGGTTCAAGCTATTCTCCTGCCTCAGCCTCTCAAGTGACTGGGATTACAGGAATGCACCACCATGCCCAGCTA
ATTTTTGTATTTTTAGTAGAGAAGGGGTTTTGTCACGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGCCTCGGCCTCCCAGTGTG
CTGGGATTACAGGTGTGAACCACCATGCCTGCCTGTATCTTGTATATTTTTAAAAGTGGGCCAGGAGCGGTGGCTCACGCCTGTAATACCAGCACTTTGG
GAGGCCGAGGTGAGTGGATCACGAGGTCAGGAGTGGAAGACCAGCCTGGCCAAGATGGTGAAACCCCGTCTTTACTAAAAATACAAAAATTAGTCAGGCA
CAGTGGCAGGCACTTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGCATTGCTTGAACCCGGGTGGCAGAGGTGGCAGTGAGCCGAGATCATGCCAC
TGAACTCAAGCCTGGGTTATAGAGTGAGACTGTCTCAAAAAAATAAAAAATAAATAAAAGTCAATACAGTTTTTCTTCACTTAAAGTGCACAGAAGAACA
TACTAAACAATAAAGGAAATAAGCACTTTAAAATCTCCATTGTGAATAATTTCTTTGTATCATAGGCACAGCAAGATATTTTATCTTAAAAAAATTTTTT
TTTAATTTGGTCTTTTTCTTTAATAACGGGACTGAAATGAAAAATATGAGCCTTTCACTTGGTCATTAAAAAATTCTAGAAACAAAGTGCCATTTGTTTA
TTAACTGTTTAATTAGGAGTTATAAGTTACCAATTTGAAGATCTTTTTTATAAATGCTTTTCGTAGTATCAATTATGAAAGCATTTCCTAATCCACACCA
TTATTTATCTGCCATTACTAACTGCTTGATTTTTGTTTATTAAAGTCCTTTCCAAAGTTAAACATTTAATTTCACAATATAAAATTCTGAATCTGTACCC
CAATAAAATGACTGAAAATATTTAAGAAACTGAGGATTGTTGGTTAAATAAAACTTTCTGGTGCTCCAAACCAGTTTTAAAATCACAGGTTCTACTGGGG
TCTACGGGAGGGTGGAGGGTGGGAGGAGGGAGAGGATCTAGAAAAATAACTAATTGATACTAGGCTTAATGTTAATACCTGGGTGATGAAATAATCTGTA
CAACAAACCCCCATGACACATGTTTACCTATGTAACAAACTTGCACATCCTGCACATGTACTCCTGAACTTAAAAACAAAAACACAAAACACAACACACA
GGTGCTATTGATACAATTAAGCAATAAAGAAAATAAGAATTCCTCACTTAGATTTCTGCTGAAAATGAGACTGGTAGCAAAAGTGAAGAGAGCTTTTAAG
GGTTCCATTTAATTCTCGGTGGTAGTCTGGCTGTCGGGGGCAGGTATTTCCGTTAATGTCAAAGGGGACCACAAAATTCTTAGTTAATAAACTTGTTTTT
AAAAAAATCCCACGGCTGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTCGGGAGATTGAGACCATC
CTGGCTAACACGGTGAAACCTCGTCTCTACTAAAAATACAAAAAATTAGCCAGACATGGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGC
AGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCTAGACTCTGTCTCAAAAAA
CCCCACAAAAACGAAAACTACATGCTATTTGTCTGTACGTTGTTGTCTACCTTGCACTCTGCATTCTAACTTTTCTTATTGGCCTCAGTTTTCACAAACA
CAAAAAAAACCCACAAATACAGAGAAGAATTCTAAATTTAGGGTAGTTCAAATTGTCTGTGATGATTGTTAATCAAATTGAAACAGAAACATCGCAACAT
TTTATAAAATTAAAATTATACAAAAAAGAATATTTATACCATACCGCAGGATCTTCAACAAGAGTCACAACTCTTCCAGGCTGTTTTAAAAAGGTAAAAA
AAAATTTTTCTGAATTAATAAAGTTCATTAAGTAGCTGAGCATTAGCAACATTTTTGACATGGAATATTTGAATTATATTTGCTCATAAGAAGCACTATT
TCTTAAGCATAGTTATTTTTTATGATAAAGCTTAAGTGAATTAAGAGAACCTACCTTATCTAGAGACTGTGTTGGCCTTTCTAAAAGATTTCCATCAATT
TATACGTATTAGGTATATTATATTCACTTTACATGGATATATTGGAAAACATACCAGTAACTAAAGGTCATCTAAAATGAAAGGCAAATGGAAGCAGTAA
TTATAAATATTCTGGTTTTTCCCTTAAGGAAAAAAGAATGTTATAGTTTTATTTATTTATTTATTTATTTTTTGAGACGGAGTTTTGCTCAACAAGCCCA
GGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCCAACTCTCGGGCTCAAGCAATTCTCTCACCTCAGCCTCCTGAGTAGTTGGGATTACAGG
TGCCCGCCAAGACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGTTTACCATGTTGGCCAGGCTGGTATGGAACTCCTGACCTTAGGTAATCCACC
CGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTATAGTTTTATTARGGGAAAAAAAATATGACATAAAGGGTGCTTTC
CTATATATAGGGAAGTGACTTTCAAATTTAGTGGATCAAAATGACCTAGAGGGCTTGACAAAGACATTGTTAGGCCACACCTCCAGAGTTTTTGATTCTG
TAGGTCTGGAGCTGTCTAAGAATTTGCATTTGTAACAACTTTCCTGCTGATTTCAGAAATTGTTCTGGGGCTCATACTTTAAGAACCACTGCTACCAGGG
GATATTAAGAGGTTTTAAGTGAGAGAGAATGAGTGATTTACACTTCTGAGTTATGAAGTGTTCTTACCTTTCTGTATATGGTAATGGTGCTTCAAGGTAG
GCATTTCTTTTACATTCATAAATGAACTTTACTTTGCCCTATTTAAAGGTCAGTATTAGAACTGGCCTATTCGTGTAGTTCTTATATGGGACAATCAGAC
CACTTGTGTTCTAGGCAATTTTATTTTCCCATTTTGGTTTTAACACAGGTCAGTTAACAATATTATGGAAAGCTTCACTTTTTACTATTCAACTTGAGGT
TGAAATGATATATTATGAAGCCAAAACAAGTTTTATTTGTTCTCCCATTTCAAAGACTGATAAAACAGTCTTTGTTTATAAATGGAAAGCCTTAGAGAAA
GTCCAGACTTGGAATGTTCCATAATTTAAGGCACAAAGGTGACACCTATCAGTGCCTGCAAGCTTTTTTTTTTTTTTTTTTTTTTTTTAAATAAACTTCG
TCCACGGAGTACCAAAGGCTGTATGTGTACTGATACCTTAACATCATTCATGGGAATGCTGAGTCATAAGCCACAATTTTACCTACTTGTATGCCCAATG
TCTGGCACATAGCGAGCCTAAATCATCCAGGCATTTGTGTCATCTTTGTTGCTATTTCCTTTTAGTCTTCATCTGTTCGTATAGATAATTTGTAATCATG
GAACACATGGGATTTTGGATTATGATTTCTCATTTAATTTTCCTGTTAGTCTTCTCATACATTTTAATAGTTGCATAATATTGTGTCATTGATGAACTAT
AAACGTTCCTGTGTTCTTGGACATTTAGATTTCTGACTTGTTTTCTTTTTAAGATGATGCTACAATGAGGATATATATATATTGGTGAGGGTCAAGTAGA
TAATGCCATATTATTTTCAATTTCAAAGTGAATTAGAAGTTATTTATGCATAGCTACTGTGTGCTGTGGAGAAGATGAAATCTTGATTCTTGGTTCCAGT
AGCTTATATTGTCATTCTAGAATGCAAACTAACATGTGAAATAAATAGAGCTAAGATATGGGCTAAGATGTATGGTATTAAGTGCAGTTAGAATTCTGAG
TCTTAGGTGATCAGAAAGACACCTTTTTTTAGCTCTTTTTTTTTGAGACGGAATTTCACTCTTGTTGCTCAGGCTGGAGTGCAGTGGYGCAATCTCAGCT
CACCGCAACGTCTGCCTCCCAAGCGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTCTACTGGCGTGCGCCACCACGCCCAGCTAATTTTGTATTT
TTAGTAGACAGGGGGTTTCTCCATGTTGGTCAGGCTGGTGTTGAACTCCCGACCTCAGGTGATCCACCCGCCTAGGCCTCCTAAAGTGCTGGGATTATAG
GCGGGAACCACCACGCCTGGCCAGCCCCTTTCTCCTTTTAAAGAATCACGGACTGTTGTGTTGACTAGGCAATTTCTAATCATCAGTCTATTCTGACAGC
ATACATATCTCAATGTGTTTTGTAACACACTGTACATTTTSGTCAAGACTAGTAAAGTATGTTGTTATAGCCACATACATAAATATTTAATACTTGGTCA
TTATAATTGGAGCCTGGGCTAAAGGTTTTCTTTTCGGAATGGCAATTTTAAATATTCATATCAAAACTGACAACTCTCAAACTCCTGGCCTCAAGCAGTC
CTCCTGGCTCAAACTTCCGAAGTGTTGGGATCAGAGGCGTGAGCTACCGGGCCCAGCCAAAACTGACAACTCAGAAGCCATTTAATTTAGCTTAGTTCTT
TAATGTCTTGAATATTGTTCTAGAACATTCTTGGAGATACTTTGGCCATGACATTTCTGTTGATCTGTAAATGTGCATTTATCCTAAGCCATTGCCCCTT
TTCAGGTCACTGTGTCCAACATCCCAATAGGCCAGTATAGTCTACTTAAAAGCCAAGTTCTTAACTGACCAACTCTAGTTGAGATAGAATGGTTTCTAAT
TCAGGTTCTTTTCGTGATTTTAATCCCATGTCTCTCTTATGAGCAGKTGCAAACTACTTTAGCGCCTTGATCTTTTCCACTTTCCATTGACCAATTTCCA
AATTATTAGTTACCTCAATCTTAGTTTTCTTTATGGATTAGTTGTTTTGTAGCCAGTACAAAGCTGATTTGCATAAGCAGTGAGCTGCTGCTAATTCTCT
ATACATATATTGAGATTAATGTCTTTGTAGGACYGACTGAAAAGTGAATCAATGAACTTACATTTCATATTATAATTATGAGAACCATCAAGAAAGTAAC
ATTAAAATAATGCTGGATATAGTAATGAGTTTGGTACTATGTTATTCATATAACCAGAACTTCATTTAACTTCACTAGTACTGAAAACCAAAGTGAGTTC
CTTAATAACCAGCGAAAATTTTGGAAACTCATTCTGCAATCCTRTGTGTCAGAAAATAAAACTTTTGAAAGATGTAAAGAAATCCTAGAAGTAACATGCA
CGTTTAATCGCAAGCTCATGAAAGTCGGCTAGAATGCAGAAATGCCAACAAATTTAATTGCTAAAAAGCTGAATTTGCAACTTGATTTACTATTTCAACT
CTGTGGTGACATGAGCATTCATCTTCCCGCCAATGGGACTTTTTTTCTTTTGGCAGAGGTTGCAGAGAGATGGAGTCCCCATCTCCGCACTCAGCCTGGT
GCGAGCTCGTGCGCCTGTGCCCGCGCTTCTCGCCGTCTCTAGARACTAACCACCGGCATCTTAAGCAGCTTCGGAAGGAGTGCCCGGGCTGGGTTAGAGA
TGGCGGGCAGGTGGCAGGGAAAATCTACAGAAATGTTACCCCAAGCCATGTGCTTTGGCCCCATGAAGCGCTAAGGTGTGGTTCTCTAGGGTGTGGGTGC
TGTGTGTGGAGTTGGGGAGCAGGGGTCAGGGGGCAGTAAGTGTGGGGAGCTGACCGGCGCCTCACCTTGCCGGGGACCCCGCGGTGGTCCGTGCTGCCCT
GCCAGAAGCGCCTGCTGTAGTTGGTGATGTATCCGACCAGCTTGTCCTGATAGGGGAAATCCACCTTCCAGATCAGGGACCCGTAACCAAAAACCCACAT
CTTCTCGCGGCTCCTCTGCCCCAGTGGCCGTGAACCCTAGCTGTCGCCGCGCCGCCGGGGACTGAAGCCTCCGGTAAGCGAGTAACCGGCCGCGCGGGGC
GCAGGCGCGATGGCCACTTGGGGCGCAAAGCGCACTGGGAGTTTAGATCCAGAAAGATTTTCCGAGCGGATCTCAGTCAGCTTTATTTTATTTCCTTGAT
TAGGGTGTCAAGAGGCATTGACCTTCGGTGTAGTAAGCAATGGATTCTTTTGCAGCATCCGTAAATCACCCTAACCTACCTTTAGTGCCCGTGTGCAGAA
AACTACAATACCCACAATGCTTTTTGGAGCTATTTGGCTCTGAAATTGGAACTGGGCTTATTTCTAACGGGGCCGAGGAAGGAGAAAAGAGCAGGAGTCG
TCACTCGTGTCCAGATACGGAGGCGGTGTACCAGCACCGCAGGTAGCAAAGCACCTAGAAACACGTTTTGTTCTGCTTTGGAAATTAGATTTTTGCCTAT
ATAACAGCAGCCAGAGGAATGTAATTCATATTTGATTTTATGTCCTGAAAAAAAAGTCTTTTGCCTTTCAAATAAAAGCAGAAAGTTTACAATAGAAGTT
TACGCTTGTGAAAGAGTAGCTGTCATTTCAATGGGAATTGTTTATATATTTAAATTTTACACAAATTTATTCATCTTTAGTATTATCATTGGCTTGTTCA
CAAAAGAGCAGGCAAATGTTCTTAACTTGGGGCCCCTGTAAAGGCTTTGGAAACGAGCTGGGGAACCTGAATTTGTATACAAAATTTGGGGTGTACACTT
TTCTAGGGGGAAACTACAGCTTTCATGAGTTTCTCCAAGGGGTCAAGGATCCTAAAATTTTTTKAAGATCTGCTCATTAGAGCTCTTGCTGCAAAATATT
GTTTAGGAAATTCGCTTGGACTATCATGGCTGTGTCTCTGTGTGTGAAAACAGAAACCTTACCAAGTGATTGTTCTTTCTTGAAGATTTTTATACCATGA
TCTTGAATGCTAAAACACTCAGATTCAAGGGGTATTATTTGTTTTCTTATAAAGAAATCAGCAGGAAGCTGCTACCAGACAAACAAACAAAAAAAAAAGC
AAGTCTTTTCCTATTTTCTCTAAGTTGTGGTTTCAAATTGCCTGATATGGTTGCTAACCCTTCTTTTTTGAAAAATTTTGAATACACAGAAAACTCAGAT
AAAAAGAGTGTAATGACCAATACCTTTCATCTAGATCCAGTAATTACCATTTTGCACAGTTGCTGTACTTCCTTTTTACTTTATTTATACTTTTAAATGG
AGAACATTTGAAGTTGCTTGTGTTATGACATTTTACTGCCACATACTCTACATGTGTCTCATAAGAATAAGGACATTCATCCTAGAACAAGTTCCCTAAA
AAAAAAGAATAAGGGCATTCTCCTAATAACTGTGATGCCATTATCACATCTGAGAAAATTAACAATAGTTATGTAATCAAATAAGTATTCCATATCCAAA
CTGCTTCATAGAGTCACTAAYAAGAAATTGTGTCTTCGAGAGAGTCACATGAGAGCTATACTGGACTCTGACTGGAGGGGAACTTGAAGTGAGCATTGGA
GGGAGGTGATGATGTGGGCAAGAACTCTGTTAAGAACTTTCTGGGCTATGTAGGAAAACCGGGCTCATCTCTTCATGGTGTTCTCTGTTGGTTTCAGTAT
GCTCAGTCAGTGGGTCTATTTGGTCAAGCATAGAGAATCTGAGTGTTTAACCTCTTCTGGAAAGGACAAGCAGGTGCAGGAAGACTAGAATGACACCTAT
CTTTCACTGCTTTTCTGGCCTCTTTGGGTTTAGTTGTTTCCTATAGAGGGCTGTATATTGAGGCTGAGCATTGCTGGTAGTTGAATGGCCATCTCTGCAT
AATGTAGTGTACACTGGGGATTAAGCAGAGGTGCTCTTATCAATGGAGCACCAAAGAGGGTGCTCTTATCAATGGAGCACCAAAGAATGCGTTGTGGTGG
GGTATGAACAGGAGCAGAAGCCTACTCCTCAAACATTTCCAGAGGAGGAAAGATAGAACACTTAAAAGTCCCTTCATGTTTTTAGTGGGAACCTTCCAAG
GAATTCCAATCTGCCAAACAGAGAAACTTCCTGCTTTAGGCACCAGCAGAGACTGTGGCATGGCMGTCACTTTCTGTATTGTGGGCCCTTCTTCGTCAGT
CATGTGAGAGATACTAGACAGGCCCACCGTGATTTGCTGACCTCTAGGAGTGAAGTGTTGTTTTATTGACTATAGTATTATCCTTCTACCTTGTTTTGTA
GACTGGTCAAACAAATGGATTTTACAGAGGCTTACGCGGACACGTGCTCTACAGTTGGACTTGCTGCCAGGGAAGGCAATGTTAAAGTCTTAAGGAAACT
GSTCAAAAAGGGCCGAAGTGTCGATGTTGCWGATAACAGGGGATGGATGCCAATTCATGAAGCAGCTTATCACAACTCTGTAGAATGTTTGCAAATGTTA
ATTAATGCAGGTAAAGTAAATTCAAGGTATGGAGGCTTTGCCTACAAGCTGGATTAATAAAACATAAAAAAGTATAATACATAACTTATTAACAGTAGTA
TTTGTTTCCCTTTCTATAGTCATAAAATAACTGCCTGAATTTATTTATTAAGGATAGTAAGATTGCCTGCCTTGGATTCAATTAGTATGATACTCTAGTT
GGACATCTTATACGGAAGTGCCTCTGTCTGGCCTCTTTTTATTGACTGAGCTAGGTGATATGGGAGAAGTAGTCTGCTGTTTGAATTTAAGCATTTGGTA
GTTACTGGTCATGTTTATTCTTTCTTCCTTTACCAAACAGAAAGAGCAATTGTACTGAAATTGAGGATGTGTTTTGATTGAATTAGTCTTTTTCTTTTTA
AACACTTTTTAATACTTTTGGGAATTTTTACAACTACTTAGCATGAAACAAGATGCCTGCCTTCCTGATGCTTTTTCTTGTCAGAGGAAACAGATGACAA
ATATCTAAATAATTAAACAAGATAATTTAAAAAGGTAAAAGTGTTATGAAGAAAATAAAACAAAGTAGAGATAATAAAACAGATGGGATAGACAAAAATG
GTGTGCTACTGCACATCTCTTTACATCTCTGCATTCAGTGACTTCATGCTTGGGATCGGCCATGGTAGGAGTATTTACACCACAGAAACAAGCCAGTGCT
ACAAACCAGTGCTATAAACTGGGCTTTCTTCCCTCTGGACAGCTAGTTATTAAATGTTAACCAGCACACTACTGAGTGAAGGTCATTGACTAAAGGCGAG
ATTCTGACATTTAGTATAGAGGGGGTAGGAAGAAAACAAATGGTGACTGAGCATTGCTTTGTGATAGTCATTGTGCCACATGCTCAATTTATCTTCTTTA
TCTAATATTTATAAAAATGGTGTTAGAGGCAGTATTATCCTCATTTTATTGGTGAAAAGACCAAGGCTCAGAGAAGTTGACTTGTAAAAGGTTACATAAT
AAACTAGGGTATTTGATTTGAACCCATTTCTCTGACTCTAAAGCCCTTTTTTTTCCTCTCATACCAAGCTTCTAACATTTAATTGAATGAATTTATAGCA
TTCAGTTAAAATGAGGTTGACTATAATACTCTGCATTGTAACACTCAGAACCAATTTCATTTCATTGATCGTGGAAATTCAGACCCTCTTTCCTGCATAC
TTGTCATCACCAGGTATAGGTCCTTAAAATRTAAACTTCTGGGTCCATAGCCCATCAGAACTACTAATTTGTTACCTGCTGGACGGGAAAGGAAATAATC
TTTACATTGTTTTTGGTAGTGGTAGGTGTTTTTTTTGTTGTTGTTGTTTTGTTTTTTTCTTTTTTTTGTCTTAACAGGTAAGAGATGGTAAGGCTAAACT
TCCTAAATCATAATGCAGGAAATTTGTCATGATTGTTTTTAAAATCACATGTTCAAGTGTCTAGTGTCTATTATAGTTGAGTGTTTGAAGATAGTGGAAA
AATAGATGTTATTCCTCTAATTTCAAACGCTTAAGATATGTTTTCAGAATCTGTTTGAAGTTAACTATAAAGCTTGAGTTCCCAAACTATTTTTAGTAAC
AAAGACATGAGTTTGAATATCCTTTTCTAGGCAAAAAGCTCATTTCCAATATACTGTTACATCTCTTCTTCATATCGGAATAGTGTAGTTTATGTTACAG
ATTTTTTTCATCTGCTGAGTAAACTTGGGCATGCTTTTGACTAAAGGCATTTGAACTGGCTGTTAAATTCATCTCTACAGTTGTCCTGCCATATCCACAG
GGAATTGGTCCCAAAATGTCCACGGACACCAAAATTCATGGATGCTCCTCAAGTTCGGCAGTCTGCCCTGAAGATAGGAAAACGTCCTATACACACATAC
AAAAGGTCAGCCGTCTGTATCTGTGGGTTCCACATCCTACAAATGCTATTATCTTCCATCCCAGTTGGTTGAATCTGCAGGTGCAAAACCCGTGGATACA
GAAGCCCGACTGTATTTCCTTTTTTTCTGAGACAGAGTCTTGCTCTGTTGCCCAGGTGGGAGTGCAGTGGTGCGACCTCAGCTCACCACCACCTCCACCT
CCCAGATTCAAGCGGTTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGACTACAGGTGCACACCACCAATGCCTGGCTAACTGTCTCACTTTGTTGCCGAGG
CTGGTCTCAAACCCTTGGCTCAAGTGATCCTCCTGCCTTGGCTTCCCAAAGTGCTGGGATTACAGGTGTGATGCATCACACCTGCTGTCTTTTATTATAT
AATTTTCCTACCTCCCTGAGGTTTATCTAATATTAATACACTGTCAGAGATTCCTAAAAGATAATTAGTGCACCCAAATAAGAAGGTATGTAGGCCTACA
CAAATAAAATGGAAATATCTAAAATGATTAGAAGAGTTTTGCTTCACTGTCTCTTCAATTTAGATTTGGAATCCATTCTGAGTACCATACATGGTCTTCT
GACTCAAGTTGGAGAAGAGCATTCAAGTGTGGTGTAGATTACATAGAAGTTTAATATGCATACATATTTTTGTATTTCTTATGTATCTCATTTTAGTTTT
CTGTTTAACATATTAGCACAGATAACAAATTTGCTTGTCTTCTCTCCTGTATTGGAGGTTGGGTGTAATGGGTGTTGAGATTTTATGAAGCTTGTCATCC
TGGAGGGCAGTAATGATCTTCACTGACAATTAATGCCATTCAATAATAAGTCATTTGCTGACTAAAAGTCCCTTAAAAATCTTATAATTATTAAGCATAT
AGCTAAAAAATACTTTTATTTGGCTAATAAATGATCTAGCTCATAGTATTTTTTATTAGTTCATGTTAAATAAGAAAATACGCACTARTACTGGGCACAG
TAACAGATGCAGAAGTTCCTTAGACAAATAAATCATTGTAGCACAGCGATTAAGAGTTACGGTCAGATGGACCTGAATTCTAGTGACTCTACCATTTTAT
TGGTGTGACTTTGGACAGGTTTTTTAACCTCTAAGTGGTTTAGTTTTTTCATCTGTTAGATAGAAATATTCCATTGTTCCAGCTCAGGCCAGAAACTCTG
GGCCATCATTAATTCCTTTCTTTTTCTCATATTTCTCATCTAGTCAGTCAGCAAATTTGTGTATGTGTATGTCTATATTTGTGTGTATGTATMCACACAC
ACACACACACACACAGTTAGATCACTTCTCACTACCATTAATACCTTGTCTGCGTTGCTATAATAGCATCTTAACAGATMTTCTCTATCTGCCATTGCTC
CTTCTGCATCCTATGACAGACCACCCTCAATATATTAGAGGGATCATTTTAAAATGCAACAGACCAAGTCACTCTTCTGCTCTCTTGAGTGAAAACACTT
TTGTGTAGTATTTCATGGTAGAGATGTAATGTAATTTATGTAACCATTCTTCTATTGATAGATATTTTGTTTGTTTCCTAAAGTTTTGCTGTTATAACTA
GTGATTCAGTGAACATCCTTATGTATATATCTTTGTCTACATGGTTAACCATTTCTGTAGGATGGAGTTTTAGAAGTGCAATTACTGTTTGATAAGTTAG
AGTTTCCTGGAGAAATAGAACCAATAGAATATATATAGATAGACAAGAGGGGATTTACTATGGGAATTGGCTAATGTAATTATGGGAGCTGAGAAGTCCC
ATCATATGCTCTCTGTAAGATGGAGAACCAGGAAAGCTGGTGGTGTAACTCACCCTAAGTCTGAAGGCCTGAGAACCAGGGGAAGTGATAGTGTAACTCT
CAGTCTGAGGCCAAAGGACTGAGAACTGGGGTGTGGGAGGCCACTGGTATGAGTCCTGGAGTTTGAAGGCCTGAGGATCAGGATCTCCAGTATCCAAGGG
CAGGAGAAGATGCATGTCCTAGTTCAAGAGAGAATGAATTCTCCTTCTGCCTTTTTTTTTTCATTTGCAGGATTAATAGAGTGAAAACAGAGCCCCCATA
CAACGGGAGGGGACCCAAAGGGGGTTGCTGCTCCCTGCTCGAATGCCTGAGTTTATATCCTGATCATTGTCCCTCCCTCTGTGCTCTCAGGCGATATATG
ATTTGACTATTTCTTTACCTCATGCTGTAGCCTAATTTGTATTTTAGTGAGCCCTCTTTACTACCTGATTGGTCAGGTGTGAGCTGAGTTACAAGCCCGG
TGTTTAAAGGTAGGTGCGGTCACCTTTCCCAGCTAGGCTTAGGAATTCTTAGTCTGCCTAGGAAATCCAGCTAGTCCTGTCTCTCAGTCCCCCCTCTCAA
CAGTAAAACCCAAGTGCTGTTGGGGAGGTTGGCCGACGACTGCTCTTAAGTGCTTCCTGCTGTATTGGGGCATAGTAGGGGTCGTGCAGTTTAGATTTCA
TCAGGAGGAGTGCCTTCAATGTCATTAACATCGGAGCATGGGCTAGCAGGCTGTTCCAGGGGTCCACGGTAGATCTTAGTCATGGACTGCATCTGGGGTT
CTATTTGAAGAACAATTTGTAATTTTACAGCTTTGATTCTGGAAGAGACAAACTTAACAAGGAGGTTAAAGATACAGGGATTGAAATGTAGGCCTGAAGT
GCCAGGGATTATTTCTTCGGCACACTTCACAGATCCTGACTATCTGCTTGATAGTTTTGAAAAGGCCTGGTCTAGTAAATAATGATTTGGCCATCTGATG
GGTGCTATCAATGCCTAAGTGAAAGGTCTAGTGAAGGGTTTTAAGTAATTTCCATTGGTTAGCTGCAGGCAAAAGTATTTTTCCTTCTTCAGTGGCTAGC
CATCCTGAGGGGAAGAAGCTATGTACTCTTGAGGTTCCCCATTCTATTTCTTCTGCTGAGTACTGGGCCTTGGTTTCCTGGAGGGGATTACCCCATACTA
GGGGTCCTTCTGTAAGCATTTCTAATGGAGGGTCCTACCTTGCAACTCTTTTGGCTTCAATATCTGCTTGGCGGTTCCCTTCTACTTCTTTTCTTTTCTT
TCTGGTGACCCTGGCAGTGTAAAACTGCCACCTCTTTAGGTTTCTGTAGAGCCAAAAATAATCTCCTAATGTCTTCCTGATGTTTGATAGGTATTCCCTC
GGAAGTTAGGAATTCCCTTTCTCTCCATATTGTTGCATGGGCATGGAGAGTTAGGTAAGCATACTTAGAGTCTTTATATATATTTACCCTTTTTCCTTCT
CCTAATTCTAGTGTATAACGGCCCCTGCTTTTCCTAGGATGTCTCTCCCTAACAAAGGAGTGGGGCTTTCAGGCATAATTAGAAAGACATGTGAAAAGAG
TAAAGTTCGCCAGTCACAACTTAGTGGCTGGGAGAAGTATATAGTGACTGCCTGTCCTAGGATCCCCTCAGATAGTGACAGATCTGGAGGACAGTTGTCC
AGGACAGGAGAGTAAGACTGAGACAGCTGCGCCAGTGTCCAGGAGACAGTTAACCTCCTGGCCCTCAATGATCAAGCATACCCGGGGCTCTGTGAGGGTG
ATGGCRTGGGCTGGTGCTTGCCCCGGACACCCTCAGTCCTGCTGCTGTATCATCTGGTTAGTGGCTTCTGACTCAGAGGACCTTCGTCCCCTGGGGCAGT
GGGCCTTCCAATGATTCCCTTGACATAAGGGGCATGGACGAGGGGGAGGCTTATTTCTATTCGGACAATCTTTTTTAAAGTGTCCTTGTAAACCATACTG
GAAGCAATCCCTGTTAGGCATTCGATTTGCCCAGCCTTTCCCTGTTCCAGAGCCTTCAAAGTCCATTTGCCTGAAGACCATGACTAAAGTGGTGGCCTTT
TTCTTATCCCGTTTATCCCGTTCTGCCTGCTCCTCCTGATCTTTATTATAAAAAACTGAGGTTGCCAAGTTCAGTAGGGTTTCTAAGTTTTGCTCCGGGC
CTAAGGCGGACTTTTGAAGTTTTGTTCTAATGTCTGCAGCTGACTGAGTGATAAACTTATCCTTTAAGATTAGTTGGCCCTCAATAGAGTCATGCGACAG
AGAGGTATGCTTTCTCAAAGCCTCCCTTAGTGTCTCCAGAAAGGCGGTAGGATTTTTCTTCCTTTTCCTGTGTTATAGTGGACATCATTGAATAATTCAT
AGTCTTCCTCCTAGTTTTCCTTAGCCTTCTTGCACGCAAGTTAGCAAATGTCTGCGGCACCAATCTCCATGTTCTGATTTTGCGTCCCAGTGAGGGTCTA
CACTGGGAACTGCCTCCTGGCCTGTGGAGAATTGTTCTCTTTCTTCTGTTGTCATCCTATCATTGACCTGACTGAGATACCAGAGATTGCCAAACTCTCT
GGCTGCAGTTATGGTGGCACTTCTCTCTTTTGTGGTTAGCGTCTGATCTAGCAGCAACATTATATCTGTCTATGTCCGATAAAAGCATTGTTCTAACCCT
TGTAAAACATCAATATAGCCATCAGGGTTATCTGATAATTTACCTAGGTCTATTTTAATTTGCTTCAAGTCTGACAGGGAAAAAGGTACATACACTCTGG
GCCGAATTCTCCAGAATATATCTTAGGGGCGTTTTTGCCTTGTGGGGAACATGTCCCATCTGAAAAAAGAACATAGGGATGCCAGCACCTCTAGTCATTT
TCCAATGAGCATTATCCCAGAGGACTAGAGCGTCCTCTGTGGTCCTAGTGCTTATTCCTTTCCAGGGTGTACAACTACCCATGGACCTCTGCTTATCGGA
TTAGTTACACTCACCAATGTAGCAGTCCTGCACCCCTTTTCCCACCTTTCTTGACCACAAAGAAAGGGGTCCGGGCTGCTGGATTCTAGTGGTCCTTTAC
CAGCATGCCCAATATTGCCTTTGCGCTCAAGGGTGAGTTCTAGAGCTGGGCTGGGTTCCTGAGTATTTTATAACAACCCAGCTGCCCCATCAAGATGCGT
TCCCATAAACAACAGTTCTTATGCAAATTCTTTTCAGAGAGGGTGTAGGTAACCTTTTGAGTTAGGATTGAGGTAGAGTTTTTGCCCACTAGGGCCTTTG
TCCTTTTCCCTTGTAGGAATACGCCCTAATTATCAATCTTAAACTTTTTGTTGCCCCGGATTAAGTCCTTGCCGGTATGAAATTTGAGAGATGGATCCTG
TTTATCCCATGTGCCTTTTTCCGTGGGTTACTGGGTTAAGGATTTTTGATAGGAAGGCTATGTGTTGTCAGTGGTCTCAGTGTTTTCAGGCTACGCCCTT
GTTTACACTGACAACAAGGTAGTATTGGAGTGTTATAGGGTCACAGAGAAGACCTTCAGTTATCAATTATAGGTTTTAAATTTACCCTGGCTTTTAAAGG
AATAGGGTGCACTGTTTTTTCTTTACTACTTCTATCTCTCTTTTTCTCTCTCTCCCTCTCTTTTCTCTCTCTCTCTGTCTCTTCTCTCCTTGAGTTACTT
AATTCGCTTTCATCCTGATCTATTATGTTGTCATAGACCCAGTTCCAGTTGTTAAAGTACTGGGTCATGAGTTTCAAGGCCCTGGCCAAGGAGCCAAGGC
TTGGAGATTGTATTGCAGAGGGATAAGCTGGGTAAAAATCAGGGGAGGAGAGCATCTTACATGATGRGAGAGCAATCCTCCTAGCCATTTACAAACTTGG
GGCCCTGGCAAGGGTGGTGGGGAATGGGTCCCACATAACTGCCCATGTTGAGAGCTGTATATCTAAACTGGGACACCAGGGACAAGATTCCCTGGGTTCA
YAGCCTAGGTACCTAAGGACACAGCATAGAACTTCCTTAGATCCCTTTGGAGATACAACTTGCTCTAATACTTGGGAGAGGAAATGAAGTCTGAACCATT
AGTACCTAGGAGGCAGGGATCGGAGGAAGTAGATTCAGAAGTAAGGAGAATTTTGGGCTACACTTTCAAGAAAGTCATGGTCGGGACCCAGGAGGTATGG
GTCAGAAGGAAAGGTAGGGGTGCATGCACGGGCGACTGTTGAGTAGAGACTTCGGCTGCGCCATGATCTCAACCAGCTAACGCCGGGAGTTCGGGACGAC
AGCTTTCTGCCTCTAGTCGGCCCTCGGCCTCCCCAGGAAAATTGAAAGCAGAAGCTGGTTCCAGGCAGACCAACGCTCCCAACCCAGAAGGGTTGGACGT
TGTTAGAAAGCCCTTTCCCAGATAGCCTCACACCTGAGTCTTAAGTCTGGCAGCCACACTAATTATTTTTAACTGGCTGACAGGTGCCCGGTATTTTCCT
CCAATTCTAAGGAAGGATAGGACAGAATAGCAAGTGAAAGTGGTCCAATATTACTCACCGCTTTTGAGGYCCCTTTGTGGTCACCAAAATGTTACTGGGG
GGTCCTTGTTCTTAGAGCTCCTAAGATGGTGGTAGGCTGCTTCCAAGATGGTGGCAAGCCTCTTGTTCTCTGACCTCGGGTTCTTGACCTCACGGATTCC
AAGGAATGGAATCTTGGGTCATGCGGTGAGTGTTACAGCTCTGTTCAGCTCGATTAGGATGAACCCCAGGCACTTAGCCTGTGCAGGAACAATGGTGAGC
CTCTAGCCCGACTGGGAGTGGCAATGGGCGCCGCCTCGCTGGATCAGAAGTGCAGTGGACACCCTGCCAGATCGGAGGGGTAGAAGTCAACAGCGGGTCT
GCGACGACGGTGATCAGCAGTGGTGGACGGTGAGTGAAAGCTCAGTTTGAACTGGAACAAACACGGACCAGAGAGTGTGCAGTTGCAAGATTTAATAGAG
TGAAAACAGAGCTCCCATACAATGGGAGGGGACCCAAAGGGGGTTCCCTGCCTTTTTTTTCTTTTAGGTCCTTGAAGGATTACATGATGCCTGCCCACAT
TGGTGAGGGCAAGTCTTGTTTATTCAGTCTGCTGATTCARATGGTAATGTCTTCCTGAAACATCTTCATGGATATACCCAGAAATGTTTTAGCAGCTATC
TGGGCATCCCTTAACCCAGTCAAGTTGACATGTAAAATTAACCATCACCATGCCAAGTTAAAATATTTATAGATACTGCTAAATTGTATGCTATGTTAAT
CAGGATTCTTTCAGTACTGAGTGAAAGAAACCTAGTTCAAACTAGCTTAAGCAAAGAAAGGGAATATAGTAGCTCAAGTAAATGTAAATCTGAGTGATGG
GTCTCTTCAGAGACTGCTGGATTCTACTATTAGAATGATGTCGTTAGACAGGCAGGATTTCCCTTTGGAAGTTCTAGACTTACCTTATTTTTATTTTTTT
AATTAAAAAAATTTTTTTAAAGAGATGGGGTCTTACTCTGTTGCTCAAGCTGGAGTACAGTGGTGTGATCATGGCTCATTGCAGCCTCCAACTCTTGGGC
TCAAGTGATCCTCCCATCTCAGTCTCTGGAATAACTGGGACCGCAGACATATGCCATCACATCAGGCTAATTTTTTTATTTTCTATATTTTGTAGAGGTG
GGGGGGGGGTCTTACTATTTTGTCCAGGTTGGTCTCAAAACTCCTGGCCTCAAGTGATACTCCTTCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATG
AGCCACTGCATTAGGCCTTGCCTTATCTTTAAAGAGCTCTTTATGTATTCTGGATATTAATCCTTCGGTGTTATATGTGTTTCGGGTATTTTCTCGTCAC
TTTTCTTAACAGTGTCTACTTTCTTTGTAATGCCTTTCAACCTCTTCCTCTTCACTGACTTCTTCCATGCATCTTGTGTGCATTATGAAGTCTCTGCTGA
GGGTTGTCTGAGAAGTTTGCACATAATACAATTCCTTGCATTGTGGAAATTATTTTATATATAACCTTTTCTTATAATACCTAWATAAAACATAGTAAGA
TGATATAAATTGTGTAAATGGTGTGGCGATATAATCTTGACATTTATTACACTTGTGATTGGCACATAGTAAATTTGTCATCAAATTCTGGCTCAGCTGT
TGAGAAATATTCTGGTCTTAATACTTAACCTATCTCCTCTACTGAAAACCTTGTGGTTTGACTTTCCCTGTTAGAGTTTGCAGAAAACAAAAAGAACGGT
CTATCACCCATTACTACCACTTTTATAAGAAGTAATAGACAAGTTTATTATTCATAAGTAAAAAGACACTTTGTGTCAGTAAACATAGGGTGTGGTTCCA
TTGGCAGTGTTTGGGCCAACTCTTGTCATTGCTACACAGGCGTCAGTGGCTGGCATTGGTTCAGCTGAGGTGGCTCTAATTCTCCAAGTATTCCCAGGAA
ATAACTCACAAGTTGTGAAAGACCTGAAGTGCTCATTGTGTTTGTCCATTAAGAATGTCTTTAATACCCACACCATTTAAAGTTTCAATAAGTTGAGAAG
GAGAAGCCACTTTGCCTTCCTTTGAGGGTAAGGAGAGATTAAAGCATTAAAAACAGTGAATAGGATGAGCCATTTCTTTTTCAAGAAGCACCCCTGTAGA
GAAGGGAAGAGAGTGAGAAGGTGGTGGTTGATGGTCCAGTACAAGGTAGATAAGATCCCTTTGCTAAAACTCATGTATCAGTTTAAGGAAAGCAGTTTAT
CTTTGGAACTTTCAAAACTAATTTATAGTGGGTGGTGAAAATTTTCTTAAAATGATACTTTGGAGACTTTACCAAATGTGTAACAACTTTGACAGTACTT
AAATTGCATATCTATCTGCATTTGTATTTTACAAAAATTCAGACTATATACCTAATTCTATTGAACCCTATTGAGAGTTGGTCCAGCTAATTTATCCTCG
TTTCACTGTTATGGAACCTGAGCCTCAGAGAGGTTTAAGTAATTGGCCCGAAGTATAACCCATATTATTTCTAGCAGAGTCAAAGTTGCAGCCTCAATCC
AACTTCAAATGTTATCTTCCTGGTCCAGTGATTTTAAAGTTAGCTTAATATATTTTTTTCTATAGGTAAAATATTTCAAGATCTCAAGTTAGTAGTAAAT
TGACTTCAGTATTTCTCACCTGTGTGAGAAGTGCCTTTTATTTTCTTTACTTCATATATAATCACACAGGAGATTTTATTTCCTTTTCCCAAGATGAGTG
TGTATGCAAGTCACTAAGGGTGGCTTGCACTCCAGAAGTGGGAATTAAACTCTACTTCYTTGATGGAGTAGTCTTTACATAAATTATTTGGAATTCTTCT
ACATGGGAGATTTATCTCTTCTCTCCCGTTAATTTATATATTTAGTCATTTATATCTGCATGAACTCATTGTTACTTATTTTATACCTGTACTTTAGGTT
ACAATCCAATACAATGTAATTTATTTTGTTGCTCATATTGTTTTGGTCATAGGATGCCCTTTCAGAGTGGCTCCTATTGTCTCTTTTGCATGCCCCCATT
GTTTGTTTTTTGAGCACGTTTTACTTTTTGGACCTACAGTGTGCTCCGACTCTTTGTATGTTTCCCACCTCAGCCTTAGAATCAGCCATTTTCATAAGAG
TGCTGGTTTCTTTTACGGGAGAATGATAGTGAAAACCAAGATGTAAGGCCAGGCATGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCAAGTCG
GGCAGATCACCTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGGCAAAAACATGTCTCTACTAAAAAAAAAATACAAAAAATTACCCAGGTGTGGT
GGTGCGCCTATAATCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACT
CCATCCTGGGCAACACTGTCTCAAAAAAAAAAAACAGAAAGAAAGAGAGAAAACCAAGATCTGAGGACTGGGTGTGCTTGTTGCTACTGGACTGTCATTG
ATTTTAAGCCCTTTCAGCAGACAGATCTAGAACATATATTTATATATTATAACCCATGTATATATACATCTATAGTTGTTTCCGTGTCTAGCCATCTGTA
TCTATATTAAGCTAAACATGAATTCATACTGATGTCTGGACTCTACTCCAGAACACATGGTTCATTCTAGCCTTCCCTCTTTCCTTATATGTAACCTTCC
TCTCCAACAGTAAGAAACCTGGCCCCCAGATCTGCCATCTGTTTATTTATTTGTTTGTTCTTAGTATTCATGTAGAGTGGTTTCAGAATTGTTAATCTCT
ACTCCTAGAAACAACTTTACCAACTAGACTATAGTGTTTATGTGCAGTTCTTTTTGTCTTTAGTCTTACAGTTTTCAGTCATAGCATCATTTATCAAAGT
TATGTAGACCAGTGTCTTTTTTCTCTATCTCTCAGTGTGGTTATGACATATATTTGTAATTCAATTAGATTCTTTTGTCACAGTCTGCATGCTATCCTAG
GATCACCCTTCCTTTTACCTCCTGGTTGATTTTTTTTTTTTAAATTGCGTACATTAAGGTTCACTCTTTCTGCTGTAAGGCATAATATTTAAATGGTCAG
GATTAAACTTTATGTCTTTTTTTTCTTTTTAAGTGGAGGAGAACATCTTTTCTACTTTACAAGAGAAAGTTCCTTGGCTTCTGTAATGTAACATCGGTCT
AGGTCTCTGACCTTTTAGTGACCATCTTTCTTAGTCTCTTACTGCTTCTGTTGATTCCTTTCCCTGATGGGTACCTTCCTTTCTGCATTTGTACCAGGAG
CACATTACTTCACTTTTTCTAACTTTAAGACATGGTTTAATATATAGTAAGTCTAGGCACGCTTCAATGCTTGTGTTGTTCATTTTTCTAAATTATTTGT
TACTCTTACCTGCCCTACTGATAGAGAGAGGAGACAGCCAAATGCTGCCCASGTCATTGTGCACAGGGGGCTTGCCTAAACATGCCCATGGGGGCGAAAA
ATTCCGTGCCTTAACACGTGCACAGAAAGGGAAATAAATCAATGTGGAGTGGCTCAGAATAAGGGGCTGCCTGTGCACTGGAAGAATGGGGTGAAGCCAC
TGGGAATTCTCACCTTATGCAGTGGGGAGGAGCCTGGCCTCTTCAGCTCATGTGTGGTGGTCTGGTATTCAATCTGTGGGGTGGGAACCTGTTGGCAGGA
CCCCCTTTTTTAGCTGGGAGCTTTCCTTTAATAAATTCTGCTCTCCTCACCTTTCAATGTGTCCACATGCCTAATTTGTCCTGGTGGTGACACAAGAACC
CGGATTTTAGCTGAACTAAGGAGCAAAAAATCCTGCATCACTACCCTAGACTTATCAACTTGAGTTACTTTATCAAGTATAAAACAAGCAAATAGCTCTA
CTGGCATTTTTATTAGAAGTGTATTAAGTTTATTAATTATTTTGGGAAGAATCAGCATCTTTATAATATTGAAATTTTCCATTTAGGAGCCAATCTACTG
ATGTCTATTATCTATATATGTCTTTGTGTTCCTAGGTTTTCATGTCATTTGTATTCACAAAACTGTCAGGTTAATACATGAAATAAGGGTCATGTCTGAC
TAATCTCCGACTAATCTCAATAAACTACTTTGAATAAGAGTCAACTTCTGACTAATCTCTGAAACCCTATTTCTGTGATATGTCCTTTTAAAATATGACT
ACTCTATCTTGCCCTTTAGTTGTGCATCTGTGAAGTTTGAGACTGTTTTCTTTGAATATATGTACTTAGAAGCTGTTACTGGGATATCATGGCTTAATCT
ACTTGTTTCATCAGTGAGTTACAATGACAAGAATTACTTAAAATAGATAACTAGTTAGGAGCATTTGTTTCAATTCTGACACTTCAAGAAAATGTTTAAG
TTTTTTTTTTTATTTTCTGTTTAGTTTATTCCAGCTCTCAGAAATGTCTTCACCCTTCACTTTAGAGCCCATCTTTCTATAATGGGCATAGAATTTTATT
GTGTAAATATCATTTGTATAATTTGAGTGTTACCAGAACCTTGACGTTTTCATGACAAATACATTTCGGAAACTTTAACTCATAAATTCCTTATTATATG
TCACTGGTTGTGTTAGAGTGCATTTTATTCTTTTAGAACTGCAGTTTTCATTAACAATTAAACCATAGTCTTAAGTTAGAAAAGGAGTATTTAAAACTGC
CTCATGGTATTAGTTGACTACAAGGAAGTAATGGTAAGAGATCAGACCATTTCCCTTATAGAAATTTAAAAATAAAAAAATAAAATTGATGAATATTTCG
ATAAATTCTGTTTAAGCAAATATTTAGTGCTGCATCCTCCTCAGACTATTGCTTTTGTTACCTTTCAATTTCTGCCACTCCTCTTCCCTTATTCACCAAA
AATTAGAGAAGAGAAAATGGGAGCTAGTGGACAGGATTTGTGTATTAAGAATACCAAAGAGCTGTTCACAGTGGGATCTCTGTAGAACTTTTTCTTGATT
TTCTATAGTTTTAAATGGTGAAACCTGTCATTTATACATTACTTACATTTTAATAGTTCATTAAATTCCTCTTGGAATCTTTGCTTTTTAAAACCAGGAA
ATAGAAGTAATACCTTCTAGTTGATGGGCTTTGATTCTTCCACAGATTCATCTGAAAACTACATTAAGATGAAGACCTTTGAAGGTTTCTGTGCTTTGCA
TCTCGCTGCAAGTCAAGGACATTGGAAAATCGTACAGATTCTTTTAGAAGCTGGGGCAGATCCTAATGCAACTACTTTAGAAGAAACGACACCATTGTTT
TTAGGTAAGTATGCTATTTGTGGTGCAGATGCAATTTTTCATCATTATTATTTTTTTGTTAAACTAAGCTTAATTTTTCCTTCAGCTGTTGTGCTTATAG
TATGTTCTTTTGGCAACTATCATACCACTACTTCCTTGATTTTTGAAACTGAAAAGATATTTTTAAAGGTTTTGCTCTTGTTTTCTATTCTTGGGTGGTA
GCTTCTGGGACTTTGTTTATTTAAAGTTGCAAAATCTGTTTCGAATTGTAGGCACCATCATTGTTCTCACTGTAGTTCTGAAGACCAGGTATCACTTAAA
TTGTAGCAGTAGTTGCAAGGTTACCTGTGAATGCTTTATGTTTGCTTTTGCCTTTTCTTAACATTAAAAAATTAAGAAGCTTTTATGGAAGAAATCACCA
GCTAATACTTTAATGCCAGTTAATGTGTTGCCTGTATGGATCTGTTTTTTAATTCAGACCTCTTCTGTTACAGACTGTTTTTTAATTCCTTAAGGACGAC
AGCCAAATTCTAAATGGCTTTCTTCCAATAACTGTCTTTTTTCTTCTTTTCCTCCTTTTTTCTATTCGATTCTATTTGTCTTCAGGGACATTGTGTCCCA
TAAAGTTTAGTGGAACATGAGAAAATTGAGTCAATGAAGCGTTTGGAATAGAATCAGTGCATCTGGACTATAGTTTTGGTCCTGCCACATGTAATTTGTA
TATTTATTTATTTACTATATGTTTCAGTATCCTCACTTATAAAATGAGAGTAATAGTACCTATCTAGTCTTTGTTATTGGTCTGAGAATGAAATGAGTTG
TCTGTGAAAGTACTTTTTTTCCTTGTGGACTTAAAAATATTACTTAAATTTATGTACTTTAGTAAAATTCATTCTTTTTAATATAACAGTTCTGTGAGTT
TTGATGTATTCATAAAATTCTGTAATGACAACAATCAAGATATAGAACCATTCCATCACTCCTCAAAATTCCATCATGCTGCCAATTTTTAATCAATATT
TTCTTCCCTCTCCCCAGCTCCACCCCTGACAGTGACTGATCTGTTCATATATATGAATTAATATACACCATATAGCCTTTGAGACTGGCTTCCTTTAGCT
GTCATGATACTTTTGAGATTCATCCATATTGTTGCATGTATCAATAATCCATTTCTTTTTGTTAGCTGAATCGTATTCTATTAAATAGATGTGATTAAAT
AGATGTGATACAGTTTATCCATTTATCAGTTGGATATTTGAGTTGTTTTCACTGTTTAGTGGTTACGACTAAATCTCCTATAAACATTTGCAGACAGGTT
TTGTATCAATATAAGTTTTTATTTCTCTTGGGTTAATACTTAGGATTGGTATGACATATGGTAAATATATGTTTAACTTTGGGAAACAAGTTGGAAGTTT
TTTTCTACTGGTTTGCATTTCGTTCAGTAATGTTTGAGACTTTTAGTTGCCCCATATCCTTGCCAACATTTGCTATTGCCAGCTTTTTCTTTTTCTCCCT
TACATCTTAGTAATTCTAATGGAGGTTTAGTAGTATCTCACTGTGGTTTTTATTTGCATTTTCCTAATTGCCAATGATGTTGAGCATCTATTCATATGAT
TATTTTCCATCTTTCCTTTTTCCTCATTACTTTTGTATTTAGACGTTTTGTTTTGAAATAATTTCAGACTTATGGAAGTAGTCAATAACAGTACAAAGGG
TTCCTTATATACTTTTCACCCAGATTTTCTTCTTTTGCCAGGTTTGTCATTTAATTTCCTTCTTTGTATTTTTTTTAATCCTTTTGAGATTAAGTGGTAG
ACATCACGCTCCTTTACTTCTACTTCAGTGTGAACTCCTAAAAGCAATAAAATTCTGACTACCATATGATGATCATAATCTTATCAGGAAGTTAACATGG
ATAGAATAGTATTATTTGGTCTACAGCCCTCATTCAATTTTTTCGTGAATGTCTTTTATAGCAACAGAAAAAAAGATTTTGGTCCGTGATGAATCCAAGA
TCACTTGTTATATTTAGTTGTTATGTCTCTTTGGCTTCCTTTAATTTGGAACAGTTTTTTAGTCTTTTATGATTTTAACTTTTTTAAGAGTTCAGGTCAT
TGATTTTGTATAATATCCTTCGATTTGGGTTTGTCTGATGTTTCTTCCTGATAAGGTTCAGGGTTTGTGTTTCTGGCAGGAATACCACAGAAGTGCCATG
GTATCTTAGTGCATCTTACCAGGAATAATATGACACATTACTAGTAATGTTAATTTATGAAAGTACTTTGAATATGCGAAAAGTATTTTACACGTTTCAT
GGAAGCTTTGGTTTAATGTAGCTTGGGTTTCCTAGAGGAGTGATTGCTTTTTTATATTAAGTTTCTTTTTTCCCCTGCACCTGCATTTAACCTACTTTGG
ATATTCTGTACAACTACAGAGGAAGCATTTATTGAGGCTCAGCTATACGCAATCTCCATTCTAGCCGCTTTCCTCAAGAAATCGTCTACGTGGAGGAGTA
AAAAAGGTGATTTTACAAGTTTGAGATTTTAAAAGGGAGAATAATTAGTCACCCTTGAATGACAGAAGACTTCATGTGCAGAGTGCTGTATTAACAGTAA
CAATAACATTTATTAAGCAGAGTGTATACTAAGCCTTGTGTGGGTGTTTTACATGAAGCAGATAATTGGATCTTCACTGTGATTCTGAGACATGTACTAT
TATTATTCCCACTTTTACAGGTGAGGAAACTTTAAAAAGACTGGATTTAGGAAGAGAAGAGCTATCTTTGAATCTTGATCTTGCTGTTGTCTGTGTTTTG
GGTAGAAAACTGATTCAGTGAACTATTAAAAACATGTTTATTGACAAAAGGTTTCCTAATCACATACATTTGCGAAACACTATGTGCTATATCCCCCAGT
GTAGAAAAACATGAAGACATTACATATGTGACTTATTGTGCCCACCCTGTCTGAAGTATCCACTGATCTCTTTATGCATTCTCTTTTAGTGTCTTCATCA
CTGACTCCAGTTAATTATTACTCCCTTGTTTATTTACTGCCCCCTTAACTAGAAAGAGTGTTCCATTAAGGCAGGGATTTTATTCATCTTGTTCACTGTT
GTAACTCCCAAACTCAGTTTAGTGCCTGGTATATGGTAGGTATTCAGTAAATTATTTGTTAAATAAAAGAATGAAGGATTCTGAGAAGACCTCTCTTAAA
CAACATTTGTTTATCGCAGAGCTTTGAAACGTATTTGACTGTACTGTTCTTTCAGTCTCGTTGTCCAGCCTGGAGTGCAATGGCACAATCTCGGCTCACT
GCAACCTCTGCCTCCCGGGTTCAAGTGTTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAAGCCCCCGCCACCACGCCTGGCTAATTTTTATATT
TTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTAATCTGGAACTCCTGACCTCAGGCGATCTGCCTGCCTCAGCCTCTCTAAGTGCTGGGATTACA
GGCATGAGCCACTGTGCCCAGCTGTATTCTTTTTCTTTATGGAACATTTAGGAATACCTCCAGAAACATTGATATTCCATGGGACTATTTGAGAAATGCT
ATTCTGGCCACATAGTTTACAGTTTCAAATTATTATTATTATTATTAGAGTCCCATTTATGAAATTCAGTATTGTGCCTACTTTTATTAGTATTTGGAGA
AAATTAGAGATGCATAGTTTTTAGGGGTTTATATTTCAACATGTAGTTAACTTGTACTTTTTTATGTTAATGAAGCAAGGGATGGGAGATAATTCAAACC
AGTAAATAACTTTAAATCACTTATTTTTAGTAGTAGGATTTATTTTGTTTCTGTGGCAGTGAATTTACCATTTTGTAAATGGTAAATTTGTATTGACTAA
GAAATAAATCTTTTGTATTGACTAATACAAAATACCGTGCCTGGCCAATATAGTATTTAAAAAAAGGAAAGTAGAGCCTTAGTGTTTGTAAAAACATAAT
GTGGAAGGGCCAGGTGTGGTAGCTCACAYTTGTAATCTCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGGGTTCGAGACCAGCCTGG
CTAACATGGTGAAACCTCGTTTCTACTAAAAATACAAAAAATTAGCTGGGTGTGGTGGCACATGCCTGTAATCTGAGCTACTTGGGAGGCTGAGGCTGGA
GAATCACTTGAATCCGGGAGGGCGGACATTGCAGTAAGCCAAGATTGCGCCATTGCACTCCAGCTTGGACAACAATAACTCTGTCTCAAAAAAAAAAAAA
AGAAAAAACCCCCCAAAAAACAGTGTGTGGAAGAATGGGCATGTATACATCAGTGTTGTGTATGGAAAAAATAGGAATGGACATATAACTCTTTAGTTAG
ATAATATGGGTGTCAGTGTCTTCTCTGCATCATGAATAATAGGACAAACTTTAGCACTCTGCCTTGCTCACCTTTACCTTTTTTTATTTTTTGATGTAGG
GTCTTGCTCTTTTGCCGAGGCTGGAGTGCAGTGGCAAAATCATAGCTCACTACAGCCTCAAACTATTGGGCTCAAGTTATCCTCCTGCCTCAGCCTCTTG
AGTAGCTGGGACCACAAGCACCGCCACCACACCCAGCTAATTTTTTTTTAATGTTTAATTTTTGTAGAGTTGGGGTCTTGCTATGTTGCCCAGGCTTGTC
TTCAAGCGATCCTCCTCCCTTAGTTTCCCAAAGTGCTAGGATTACAGGCATGAGCCACTGCACTTGGACAATCTTTTTATCTTTTAAATAACCATATAGT
GATTCCTGCTTCAGTCTATAATGGAAGAGTTTTAAAATTAAAACAAAATCCAAAATAATTCAAGGTTTGTATCAAACTACAAATAATTTCTAGATGAGGA
AGAGTAGCTGGACTAGTTGGACTTAAAGTGAGAAAGGAAGGTTAACCTGTCTAGAATAGCTTCCTTTCCCATCTGTAGAGTTAGCTTCCAAAACTGAAAA
TTTGGAATATGTTGTTTGAGGTATTTTGTTTCTCTCCCTCAAGGGAAGCTATACTCTATTACATGTTATAGGACCTGTCCTGATGGCCCAGTTAGCACTA
GCCTATTGCTAGAGGCTATAGAATATAAACCCAGAGGATCTAGGGGTAGAAAGTGAATATGGAACTATGGAAATCTCCCAGGTGACCGGAAAAGTTGTTG
ACATGAGAGGTGTGTTGGATCTGATTATGAYTGAACATAAAGCTAAATGGAGGGACTCTGGAAAGTCGACTGCTCCACTGTTTGTAATGGGACTATCTTC
TTTACACAGAGCTSACCAACATTTTAATAAAGATGAGCTTTAAAAGGGAACTCTTCAACTTAATGGCAGTAGGAATCAAAATGAGAAAACCTCACGAGAA
AGGGGAAATTCAGGGAACATCTCATCTTTCTACATGAATATTGTCCTTCCAGAACATCTTTTTGCTAGCACACAGGTTAGAGTTTATTTTTTAACAAGGA
GTCTTGCTGCCTTATTTCTTTTCTCTACCCTTGTCTTGTCCTTCCCCTGCTCTCTTTCCCTTCCCCTTGCTCCATATACACATAATAAATATTCTAAGGG
TAGGTAAAACTGCTTTGGAAATAAAGATATTCTTGTTGATAGCTATAATAAATTCTAAGTGAAAAATCCAGCTAATATTTAGGAAATAGATTTCCTTTTT
ATTTTGTTATATTTAGAAAACATTGCTAAATTGGAGGCTCAAATCCAAACTAGTGTGATTTCATAGGACACTCCATGGGAACTGCATGGCATGCGCTTTT
GGCTTTTGATGGATGGTTTTTCATTTTTTGTTTTTCTGAGTTTGCTTATTCTGTGTAATATTTAATAAGAACAGAATGTTTTATAAATAGTGTTGGGTGA
GGCTGCCTATTTCAATATTTAACTGTAAAATGTGTCATACTTCAGCTCACATAGCATATGCTTTAACTTTGACTCTGCTGACATATTCTAAAATTGAACA
AACCACCATGTGATTCACTTTTCATTAGTGTCTTCATGGATAAGTGATCATTCATAAGGCTATTTTTTGATGTGCTATGAATTTTGTGGTTTCACATTCA
TATCTCTTTATATATTATGTTAATAAAACTTTGCTTTGGAGGTTTTTTTTTAGATTTTTCAACTGGAAGATTAATCTTCAGTGATTGTCATGTAAGCATT
TTTACTTGAGGACATGTTCTTTAAAATACGGGTTTGAGTTTTCTTAGATTGAAAGTATGGAGTTTACTAAAAGTTACATTTAAAAAGTGTTAATTTCATG
TTCTGGTTTTACTTTTGTTTGTTTTTTTAGTTTTATGGTTCTTGATACAACTTTATATTACACCTATGTTTTATTTTTTTTAATTTTTTTATTTATTTTT
TTGAGACAGAGTCTCGCTCTGTCTGCCCAGGCTGGAGTGCAGTGGCACTATCTCGGCTCACTGCAAGCTCTGCGTCCCGGGTTCATGCCATTCTCCTGCC
TCAGCCTCTCAAGTAGCTGGGATTACAGGCGCCTGTGACCACGCCTGGCTAATTTTTTTTTTTTTTGTATTTTTAGTAGAGATGAGGTTTCACCGTGTTA
GCCAGGATGGTCTAGATCTCCTGACCTCGCAGTCCACCTGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCAGCCACCTTTCT
ATGTTTTAACACAATGTCTTTTAATTACTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCTGCCT
ACTGCAACTTCCACCTCCAGGGTTCAAGGGATTCTTGTGCCTTAGCCTCCCGAGTAGCTGAGCTTACAGGTGCCTGCCACCATGCCAGGCTAATTTTTGT
ACATKTAGTGGCGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTCAAAATCCTGACCTGAAGTGATCCGCCTGCCTCGGCCTCCCRAAGAACTGGGATT
ACAGGAGTGAGGCACTGCACCTGGCTTTTAATTCTTTAATGTAAGCAATTATGAAACTAGGATACTTATTATCTTTCTGGTTTTACCTTCATATAATTAA
ATGTATTTATATAATGTGTTATTTTATTAGTCACATTTGATTAATAGATTTAAACCTCCAGCTTTTAAAGATGAGGAAATCAGTATCCTTATATTGTTCT
TACATAACTCTCTTTCTCCCCCCGCTTTTCCAACTTTTGTCAGTTATATTTGCATTGTTAGTGGGAATAACATTTTGCATTTTGTTCTGGCATCTTAAAT
GCATCATTTAACTTTATTCTTAGTTCCACGGTTAAATAGCTTAGAAGTTTATCACCAGTTATTTTGGCATGTTTTTTCCAGCCTTGTTTGGTTAGCTAAA
TAATTCCTTTAACACAGTCCTTTAACAGGACCTATGGCAGTACTATTCCCTGAGTTTTTACATGTTCAAAATTGAATAATTTGGCTGGGCGCTGTTGCTC
ACGCGTGTATTCCCAGCACTTTGGGAAGCTGAGGTGAGAGGATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGGGCAACAGAGTGAGACCACCCCATCT
CTGCAAAAAAAAAAAAAAAAAAGGTAAAAAAATTGAATCACTTAAATTGAATAATGATTCAAACTTGAACAGCAGTTTGATCAGGTACAAAATCCTTGAA
TTACATCCCTTTCCTTGAGAACTTTAAAAATGATGATCCATTCTGTTCTAGAGTTGAAGTCTGAAGCTAGCCTAATTTTCTTCTCTTTTTGTGACAATAC
TTTTGCTTGTCCATTCCTTATCAGTTTTCTCTGACACAGTGTGTGTCCTTTCAATATGTAGACTTGGATATTTTAAATTTTAGTTAATCTTTCTGGAATT
ATATCTTTAAATATTTGTCTGTTCTGTTATTATGGTGGTGTTCTTGGGCCAGCGTGTTTACATGTTGGTATCTTATCTGTTTTCAATGTCTATTGTTTTT
TCTCTATTTTTCTTTCTCTGTGTTTTTGTTTTACTTTTCCTGTTTTTTTTTTAAGCCTCTATGTTCCTCTTCAGAAATGTCTATTCTGTCTAGTGTTTCT
TTCAATTTCAATTGGATTTTTTATGATTGTTTTTGCTTTTCCCAGGTATTTTCTGAATTCAGTTTAAATTATATCATTTCCTGTCAGCCATTTTTTTACT
GAGCACTTGTATTTCAGTGTTGGTGCTGTTTTCACAGAGACAATTGCTTCCTTAACTTCTTTTTTAAAATTTACAGTTGTAGATTTAGCTACAATTTTCC
TTTGGTTTGTGGTAATATTTTTCAGATGAGAGGTTTTTGCTTTCTTTTGTTGTTRGTCTATTGTTTTTCTATAACTTTTCTTCCTTTATTCTTGTATCTT
TGTATGGATTTGTGCTGGTACCTTTGTGATAATTCATCTTGGGAATATGTGAGTTTTTGCTCAATTAGCTGCTTTCAGGAGGTTTATAATAGGAAGGAGG
TAGAGGCACATTCCATATTATGGAGTTTTCCTTTAGACTCAGGATTTTTGGACATGAATTCATTTAGCTAGTATCTTTCACTAGCCATTGGGGGTTGGCA
GCTGTGGGATTTTTGCAATACAGTTTCCCATTTGTGGTAGCAGAGATAGACCACTTTGTGTGATTCTTTTTTTGGATCCAGTCCCTCTGATTTTCGGATT
TCAACTGGTCCAGAGAAGTTCCTGCTGCTAGCCTGTGCATTTTTTCCTGGTACTTAGTTTTGTTCCTCAGAGGGAGCCCCTGACCTTTGAGAAGTGTTCT
TTGCTAGCTTTTTCTTAGATGTGCAGCTGACACATCTGTCCTCTTTCTCCCACAAGTACCCAGGATTGATCGTCATTCTTTTGGAGCCCCTTTTACAAAT
TTTGATCTGGAGTTCAAAAATCTAAAACTAGAATTATAGTTTTACTAAAAATGGAGAGTGTGTTTTTATTTTATTTTTCTTGCTGATGTTGGATTAATTG
CTTTTGGATGATTTCTAAGAAAAGTAAAGGGAAATGCCTATATTGTGCTACAATATTAAAATTGGAAGTCCATATTCATTTTTAAAGTAAAACAGAAATT
CTCGATTTCAGTATTTTTGTAATAATTTGAATTCTAGTATATGGTAGCARTGAATAGACCTAGATAAAATCTCCCTCAACCCCAGTCCATACAATACAAT
CTCTGTTCTAGTTAGGTACCGTAGAGCAGTGCCACTCAAAATGTCAGTCGATTTATATAAGAAGCTTGAACCATTATATAAATCAATATATTGGTTTCTT
CATCAAGGAAGTCCTGTCTCAAGGAAAATGTCAGCTAAAATAAAGTGTGCTTAGAGACATAGTTGTTTATATTCTGTTCAAAACTTCTTACCTTGTTGAG
GACTGATAACAATTTGCACATTGACAGCCAGTTTGTGACAATGTTGAGTAGCCCTGCTGTACAGCATGCCATGCCTTTGTGGCTATCAAACTGGATTGTT
ACATGGTTAATGCAATTGTCTCTTCATTCTTCATGATTACTAATGCCATTGGCCAACTAATGATATGTGATTATCATTGGTTAGTATGGCTAAAATGGAA
ATGTTGCTCCTACATAAATAGGACTCTTTGGGATTAAGGATAGTCTGTCCATACACTTTTTCTTTGATAGGGAACTCCCAGAATATTTTGTTTCTCTAAG
CCTTAGTATGGGTCATTCTTACAAGGTGGATCTAGTAAGGAGAATACTGCTGTATGAATGCTTCAAAAAGTTGAATAATTTCTGAAAGTAGTAGAATTAC
AGTGTTATAGCCCTAGAAGAAGGTGTAAGTTTAGGGATGTGTTATCTAAATCAAATGTTTCTTGACTCTGCTGCTGGGGAGACATAYGGAAAAATAAACA
ATATATAATAGGATAGYGGAATTTTAGCTTTTTGTCTTTTAATACTTTCATTTGATTGAAGGATGTATTTTTCTGGATATGGTCTCTGATGTCTAATTGG
CCATTAGACTTCTCCCTGTCTGTTAGAAACCATGAGAAATGTCAGTGATAACGTGGATGATTGGATTGGGATATTCGCCACAACGTTTTTGTTATATCCC
TAACATAATGAGTTTTGCCCAGAAGATCATGGTTTTTCCCATCAGTATGCATCTTTAAGATTGTTAGCCACTGGGCAGACATGAAGAAATTTATAAAACA
GAAATATAACTTTTTAGTATAATTTTTWAAAAATTCTGTATATCAATAAAATACTACATTTCAGACTAAAGATTTTAATAATTGTTCTGCTGCCTTGGGT
ATAAGTAAAGTGCTGGAAAAACATAAACTTGAGGATACATAGAATAAATGGACAACACTGGAAAAAAAAATTCCTTTGTCATAGCAATAATGGAGTTTCT
TTTCTAGTGCCACCAGATGTCAGTATGAACACAGGACCAGAGAAATACTGCAGGAGATAAATGTTCTTACAAATGTTCCTTTTTTGGTTCATGAAAGAGG
TGGGGGAAAAAAGTTTTACATAAACTAGCTATACAATGAAAAAATAATTTTACTGTTCAATTGTATAGAAAAATGAAATGCATAATGGAGAACAGAGTAC
ATGTAGAACTCAAAAAAGTAGAGATACCATTAAAAATTCATATATAATTCAAATGTAAAATTGAATATATAGATGATYTCTGCATAGCCAGCCAGCCTGC
TGCTATAACTGGAGGAGATGGACAGCCTGTGGTTAAACTTTTCGTTACAGACTTACTGACCATGTCATTTTTTAGAATTATTGTCAAAATCTGAGCCTCA
AAATGAAAGACTAGGCTGGGTGTGGTGGCTTATGCCTATAATCTCAACATTTTGGGAGGCTGAAGTGGGAGGATCACTTGAGCCCATGAGTTCAAGACCA
GCCTAGGCAACATAGCAAGACCTTGTCTCTACAAAAAATGGAAAATGAGCTGTGTGGGTGGTGCATGCCTGTAATCCCAGCTACTCATGAGGTTGAGGTG
GGAGCATCGCTTGAGCCCAGGAAGTTGAGGCTGCAGTGAGCCGTGAATGTGCCACTGTCCTCCATCGTGGGTAAMAGAGCCAGACCCTATCTTAAGAACA
AAACAAAACAAACAAAAAAATGAAACAGTATATTTTCTAGCTAATAGAGATAAAACTCACTGTAATTTTCATTTGGTACAAAATTGTGTTTATAATTGTA
ATTTGTACAGAATTGTTATGGTAATTCCCTAGAACTCATAGTCACATTAAGCATTTTTCTAAAAGAGCATTCACTAAGATAATTACATTTAAAAAATGTC
CCTTAAAAAAGCTTTTTCTTTAATGAATGCTATATTAAACAATGATCATTATTTACTATTTCTAGTTAGATTTAGTACTTACATGTATGTATAGGTCTAC
CATATTTCTCCCAGATGAGAGTCCCGTTTTGAGTTCTTGCTTTCATGAAATCTTCACATGGGGCTTTGCTTGTAACTGTACTCAATATGTTGCATGCCAC
AACTGAGTTGATTTTGGTCAAAAGTTTTGTGTGGGTCAAAGGCTGCTTCTAGTTTCTCAATTTCCTGTTTTCAAAAATATTTTGTTACCTAAGATATGTT
TTTCCAGATTGCTTCATTTTTCCTCTAATTTAGGAAATGGAAAAAGGTGTTTTTTCAAAACCAGAAAATGTCTCCSTAGAAATTATTGCAGGATATGTTC
TCATGCCATTTTTGCTTTCTTAAGCATTTACAATTAGAGATTTCTTCCATACTATGTTATATGATCCATTGTGGGAAAAGCAGTGTTCCTACCCTCAGAG
GTTCTGGCTTTTCTCTTCTACCTGTTTGGAGTCTTACCTGTTTGGATTGAAGAGGGGAAAGTCTTTCTCCCATATCTCTGTGTACTCCAGACACTTGGAG
CTCTGCCTTCTGAAATGCGGTCTTTTATTTCATCCTTAATCTTTTTCCTTGGTCTCTGGTCCCTATTGGATACCATTTTTTAATACCAGATACTATGATT
CTGCTTTCTTTTTCTTTCTAGGAACCCACAGTACTTTTCTAGCTTCTAGAATTACACCTTATCTTTCTGTCTTTGACACTTACTCCAAGACCTGCAGCTG
ATYGCCTGGCTCTCTGTTTCCAATGCTAAATGGGTATCTTGAAGACAGGTATACCTAGTATTCTAGGTTAAATTTCAATTCAATTCAATTCTAATCTCTA
GACCAGTCCTACCCAATAGAACTTGGAATTGTCCTATATCTACATTGTCCCTTATGATGGTCACTAGCCACATGGGGCTCTTGAACACTTGAAGTTTGTC
TGGTTTGATTGAAGAACTCAAATTTTAATTTTATTCCATTTTAATTAATTAAAATTAAAATTTAAACAGCCAAATGAAGCTTCTGTCTTCTATATTGGAG
AACAGTTCTAGAGAGCAACAGAATGAGTGCAGTTCTTCATACATCCTTAACTGAACAGTAGTCCTGTTTTATTTTTGAAATATTTATCTCCTTTGCCCTA
ACATGTGGTCCTAGATGGGTCTCACATAAAAAGGYGAAGGAGCAAAGAAACACCAGCTTAGCCAACTAGTTTTGCTTATCAATAGGATGGTAAAAGTCAC
AACTGAATTTTTCTCATTATCCTCCATTGATTAGGTGATTATCAGGCCTCTACACTATCAGGCTTAGTTCCTGATATCATGGGCTTACAATTTAATTGAG
GATATTATAATAACCAGAATTCAAGATAGGCTGTAATAAATACCATAAGAGGTACACAGTATATGAAGCTTAGTTCTGTCCTAATTACTGTGTTGTTATT
CTGCTGTGGATTTATCTATTTCTTGTCTCTTCTCTCTCCCTGTTTCTTTAGGTTTTAAATCATTTTTCAATTAATATACACTTTAGTATTATTGAGTAAA
TAGGACAGTGTTCAGTTTGATTTTTATTCTGATGTGTTTTAAAAAATTCAGGGTATACTATATGCACATTAGGAATATTTTAGATATTCAAAGTGTTCTC
GAAATTTTCGTTTTGAAATTCCCTTCAGAATTTGTGGCAGTCTTTTTTTTTTTTTTTTTTTTCCTTTTTTAAAACGTCCTGGACAATTTCACATACACAA
AAGCTTGGAGACATCCTTCCCCTTCCTCTCACAAGTACCCAGGATTGATCTCCATTCTTTTGGAATAGTATGGTCTCATCACTCTGACTTAGCCAGAAGT
CTTAGGAGTTCCATGGCCCCTCAGTAGTGTTTGACTTCTAATTATTTCTGTTCCATTCTTGACCCTTAAGCAGTTTTTATTTGCCTTACCTTGTACATGT
GCAACCTACGCTTGAACCAAGGACCCTTGGGCAACTTCCACACAGAGGCCTCCTGTCTGCACAATTCACTCTTCTCTAGGGCCTTACCTGCAGATTTCAA
CCACTTAAATTCTAATCTCTGTCTCCTCAGTTTACTACTGCACTTGAGCCTCTTTCCTCTGGTTGGAGTACACCTTTCCCAACCTTACTGTTGCTCTACT
TGGACTTCAGCTCACTGTACCGTAACGGGGAAATGTCCCCAGGTACAGAGCTGGGGTGATCATGGGCTCATCTCTTGTGTTTCACTTCTCTCGGGAATCA
CAGTTGTCTGCCTGTTGATTAATACCCGAGTAAGTTRCCTTATATATTTTGTCCACTCTTATGATTGTTTTGGATGGATGGCTAGTTTAGTACCAGTTAT
ACTGTCATATCCCAAAGTATAATTCTGAAGCTTATTCAATTTGGCGAGGGAATCTTAAAAAGAGAAATCAATATCTTCTTTTAGACATATTTTTTTCTTT
TTTGAGACAGAGTCTTGCTCTGTTGCCTAGGCTGGAGTGCTGTTGCATGATCTCGGCTCACTGCAACCTCCGCTTCCTGGGTTGAAGTGATTCTTGTGCC
TCAGTGTACTTGGGACTACAGGCATGCACCACCACACCTGGCTAATTTTGTATTTTAATAGAGACTGGGTTTAAACATGTTGGTCAGGAATTCCTGACCT
CAGGTGATCTGCTCACCTTGGTCTCCCAAAGTGCTGGGGTTACAGGTATGAGCCACTGTGCCCTACTCAATTTTTTTTTTTTTTTTCTGAGATGGAATCT
CACTCTGTCGCCCAGGCTGGAGTGTAGTGGCGCGATTTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCCTCGGCCTCCCAAGTA
GTTGGGACTACAGGCGCCCGCCAACATGCCTGGCTAATATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATTTCCT
GACCTCGCGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCCTCCAATTTTAAGGTTATTAATTTATGTCAC
CACCACCTGGATATGATAGTTCCACTTTTACCACATCCCTGCCGGATACTTACTCTGTGTTTCATTTTAAATATTCTGGTGGGTGGTGTTGTGGGTGCTC
ACTGAGGTTTTCATTTGCATTTCCCTAATGGAATGACAAGAAGGTGAGTACTTTTCCATGTATTTTATTAGCTATTTGCATATCCTCCTTTGTGAAGTTC
CTGCACAAATTTTCTCATGTTTTAAAAATAATTTATCTTTTTATTGATTTAAGGAGTTCTTAATTTTAACGTGGTCCAATTTATCACTATTTACCTTTAT
GTTTATTGCTTTTAATATGAAGATTAAAAATTATTTTTCTATTCCAAGATCAGTTTGTAGATTTTTCCTTTCTTTTTTTTTTTTTTTTAGAAGGTTTGTT
GTTTCTAAATCCAATCTGGAATTTAATTCGCAATCCATCTGAAATTGGGTATTGTGTGGGACAGGGGTGAAGATTTTTTTCCCCATATGGATATTCAGTG
GACCCAAAACCATTGTCACCTTTGTCATAAAAGTGACCATTTGTTGAAGGTATCTGTTTCTGCAGTTTCAGTTGTTTTATTAGTCTCTTTCTCTATCCTG
TGCCAATACCATGCTACCTTAATTATTCCAGCTTTATTAGTTTTGATAGCTGCTTGTATGAGTCCTCTGGCTTTATTCTACATGATTKTTTTGGCTTTAT
TTGGCCCTTTACATTCCCATCTGTATGAATCAGTTTTTGTTTTTTTTTTTCCAACTATTAAGACAATACCTGTAGCACCTTTGGGTATTTTGATTRGGCT
CACATTGAATCGTTAGATTGTTTTGGGGAGAATTGATATTTTTAAAATAGTGAATCTTTATATCTATGAACATGGTGTATTCTACTTTTTTTTTTTTTTT
TAGATCTTTGCTTTTCTCAGTAGTATTTTGTAGTTTACAGTTTAGAGGTTTTGCATGTTTTATTAAATTTATGCCTCCAGGTCTGTGTTAGGCATGTTGA
TTTTAAGGGGCTGATAGAATGTCTGGATGGAAATACTTGGCAGGTATTTGGAAATTTGGTTCTGGACCATGAGGGAAAGTTCAGTTAGGAGCAATCATTC
GCCTAGAGATGAATTTGCTCAGTAACGTTTCAGAATTGAACAAATTCACTAATAGAGAACATGTATAGGCCGGGYGTGGTGGCTCATGTGTGTAATCCCA
GCACTTTGGGAGGCYGAGGCAGGCTAGTCACTGGAGGTCAGGAGTTTAAGACCAGCCTAACTAACATGGTGAAACACCATCTCTACTAAAAGTACAAAAA
TTATCTGGGCATGGAGGTGTACGTCTATAATCCTAGCTACTAGGGAGGCTGAGGCAGGAGATTCGCTTCAACCTGGGAGGTGGAGGTTGTAGTGAGCCAA
GATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAACTTGTATAAAGTAAAGGAATAAAAAAATAAAT
AGAGATTGAAGACAGAATCCTGGTGAGTCATCACATTTCTGAAATAGTAGGATAGAACAACTAAACTAAGAAGAATGAGTTGTTAGAGAAAGTTGTAACA
CCACAACAGTGCTGTTGACATGGAGAAAAAAGTTTATGTTAGAGAAATATGGGGAATTTAATGCCAGAGGCAGTAGGAACTGAATAGGAGGTTCAAGGCT
GAGAAAAGGCCATTGAATTTGATGATGATTTTCAAGGGAATAGCTTTACATGAATTATGGCAGTAGAATTTGCATGATAGTTATTGATTAAGTGATTAAA
AGGTCCATGGAGGCAGGTATTTTTGTCTCTTGTTCACTTCTGTATCTCTAGTACCTGGAATATTACCTGGTACATAATAGGCACTAAGTAGACATTTGTT
GAATGAATGAATGAGTGATTTGTGGGAAAATGGGATCACTGAATGTAGRCTCAAGAAGAGTAGTCTTTGGGGGTAGTTCAGTGGTAAAAAAAGAAAGTGA
GAGAAAACAGTAGATTGGAAGATATTTTGTTTGTTTGTTTTATTTTTAGGGAAAGGAAAACCTAAACTAGTCTGCAGGTTGAACAGTGGAGCCCAGTAGA
GAAGGAATGATGAGAAAAAACTGGAGAAGAGACAATATGAGGAACAAACTGCGAAGTGGAGTGTTGGGAACAGGCCCCCCAAAATGTGGCCATAAACTGG
CCCGAAAACTGGCCATAAACAAAATCTCTGCAGCACTGTGACATGTTTGTGATGGCCATAACGCCCACGCTGGAAGGATGTGGGTTTACCGGAATGAGGG
CAAGGGACACCTGGCCCACCCAGGGCGGAAAACTGCTTAAAGGTGTTCTTAAACCACAAACAATAGCGTGACCGATCTGTGCCTTAAGGACATGCTCCTG
CTGCAGATAACTAGCCAAACCCATCCCTTTATTTCCGCCCATCCCTTTGTTTCCCATAAGGAATACTTTTAGTTAATCTATAATCTGTAGAAACAATGCT
TATCACTGGCTTGATCTTAATAAATACGTGGGTAAATCTCTGTTCAAGGCTTTCAGCTCCAAAGGCTGTGAGACCCCTGATTTCCCACTCCACACCTCTG
TATTTCTCTGTGTGTGTCTTTAATTCCTCTAGCACCACTGGGTTAGGGTCTCCCCAACCGAGCTGGTCTCGGCATTGGAGGAGGTGGGAGGCCAAGGTGG
GCGGATTATATGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAAATGGAGAAACCCTGTCTCTACTAAAAATACAAAAATTAGGTGGGTGTGGTGTCACAT
GCTGGTAGTCCCAGCTACTCGGGAGGCTGACGCAGGAGAACCGCTTGAACCCAGGAGACAGAGGTTGCTGTGAGCCGAAATAGTGCTACTGCAGTCGAGC
TTGGGCGACAGAGTGAGAATCCATCTTAAAAAAAAAAAAAAGGAAGTGGAGAAGGTATGGAATTGAGGGAAAGGACACAGATGAAATTCTAAAAAGGAGG
AAGCCTGCTTCTTCTCATGAGATACGGAAAAAATAATAAGTAAATCAAGTTTCTACACAGAATATAATATAAAATGTCATTGTGTAGTTCATTCCTGTTA
GCAACATTGTTTCAATTGGATAGAGTTAATTTGCTGTTGCTGACATGTATCATTCTCTCTACATCTAGATAGCTCTCAAGGCAGAAGCACTCTTTTTTAT
ACTTTGATATCCTTCTCTATCCTTCCCATTTCATCTGTATTCCCACTATCTCCATGGAATTCACAGGTACTCAATGTTTATAGATACGTGAGTGGTTGAC
TCTGTTCTTAGAAAAGACTGTGAAGTCTGTTTTATTTGCTAGGTAGTTTCTAAACATGCTCTTATACTTGGTTTTCTCAGTAGGCTTGAGAAAGTATGTC
TGTATAAAGTAATGACTGCCTTTTTGGAAGCAAACCATTCAGCACAGTTATGGGTCTCCTCTTCAGCCCATCCAATTTGATATTTCCATTTTAATAGATA
AAGTGAATGCTCCTCTTCCAAAGCGGAGGCTTTGGTAGTAAATCTGAGCTCTAAATACACTTTTCTAAACCACGATTTCTCAATTAGTAACTATTAAATT
TGCTTTATTTTGAAATAATTAACAAGGGCTGTGAAAATAATATTTTTCTGCTCATGTGTAAGTTTTACTTTTGTCATTGGGAAATGTTTTTAATAGTTGC
AGATAGCAGATTTCTTAATATATTTATGATATTAAAAGTGAAAACATAACTTGCATCATAAGGTTAAAAAAATGAAAATTTTTCTGTCATCTATATTGTA
TTTAATAATCAAAACACATTTTTTGACTTTAATTTTTATAAGGTCAGCCTAACTTGTGGAAAACAAACTTACCTTCACTCTCCTTCATATATCACTGTTG
ACAACCTGATAATCTTCAAGTCATGGACTGGCTATAGAATGATTTTTGCTAACARTCACTGATAATGATGTATGAATTTGATATGAAACAGATTTTTTTC
CTTTTATGACCTCCACCCAAAATTATTACTATTATTTTCAGGCTTTTTTTTAATATGGTAATTTCATTTGTAATTTCTTTATTTTGCTTTTTTTAATTTT
CAGTTATTTTTTTAAAGCTGTTGTGGGGCCAGGTGCAGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCTGAGGCGGAGGTGGATCACCTGAGGCC
AGGAGTTGGAGACCAGCTTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAATTAGCCAGACATGGTGGTGCACACCTGTAATCCCAGCTA
CTCGGGAGGTTGAGGCAGAAGAATCGCATGAAACCCAGGACAGGGAGGTTGCAGTAAGCCGAGTTTGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGA
GACTCCATCTCAAAATAAAACAAACTGTTGTGGGGGCCAAGTGTGATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCTGGTGGATCACCT
GAGGTCAGGAGTTCAGGACCACCCTGGCCAACATGGTGAGACGCTATCTCTACAAAAATACCAAAAAGTAGCCGAGCATGATTGCGGGTGCCTGTAATCC
CAGCGACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGTAGTGAGCTGAGATCACGCCATTGCATTCCAGCCTGGGCGACAG
AGCGAGGCTTGTCTCAAAAAAAGGAAAAAAGAAACTGTCGTGGATACTGTCAGTGTATATATTTATGTGGTACCTGAGAGCCACCCCAAATTAGATTGAC
TTTAGATCGTTTATACAAAAATAGCTTGAAGAACTGTTTTTTCCATGGTAAATGCTTTTGAATATTAACTTAGTTATGTTAGATTCCTACCTCAGTGGTA
CTGTCACAGCCATTGGTTACATTTCTGAAACCCTTCAGAGTAAGAGTTTTGGTTTTTTGTTTTGTTTTGTTTTGTTTTTTGAGATGGAGTCTTGCTCTGT
CGCCCAGGCTGGAGTGCAGTGCAGCAACCCAGGTGGAGTGCAGTGCAACCTCCACCTCCCAGGTTTAAGCGATTCTCCTGCCTCAGCCTCTCAAGTAGCT
AGGATTACAGGTGCGTGCCACCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGAA
CTCGTGGTCCACCCGCCTTAGCCTCCCAAAGTGCTGGGATTACAGGCGGGAGCCACCACACTCGGTGGAGAATTTTTTATTAAAGAACTTCTGAGTGTCT
TATAGGGGAAATAAGCTTTGGTATAAATTCAATATATAAAACTAGTACAATATCAATGGCATGTTACTTGTCTTCAGTAATAAGCACRCTTATCATTTCT
TGTTTTACACTTTTAAGGATTTTTATATTCCCATTGTTTCATGTGTATTAGTGTTTTCTAATGTGACTCATTATCCAAATGTGCCTTTCTAATTTTGTGA
CTGAGAAGTGTTGATTCCCACTTCCTGCCTCCTACTATAGTGGGAGATAYAGAATAACTGTATGATTGAAATGAAAAAAAAATCTTATTCTTCAAATCTT
TTTTCTTACTAATCAAAACCACGATGAGATACCATCTCACAGCAGTAAGAATGGCTGGTATTAAAAAGTAAAAAAATAACAGGTGCTGGCGAGGTTGAGG
AGAAAAAGGAACATGTATACACAGTTGATGGGAGTGTACATTAATTCAACCATTGTGGAAAGCGGTATGGTGATTCCTCAGAGAGCTAAACACAACTGCC
ATTTGACCCAGCAATCCCGTTACTGGGTATATACCCAGAGGAATAGAAATCATTCTACTGTAAAGATGGATGCACACGTATGTTCCTTGCAGCACCATTC
ACAATCACCAAGACATGAAATCAACTTAAATCTTCTTTCTTACATCCAAGCACGTTAGCCAGACCTTCTTATACATGTCTTACCTTCCTTTCTTATAAAT
ACTACTATTTCTCCATTTTAAGTTTCTGAACTTAAAATTTAAAGAAGTCACTCAGTAGCCTCACACCTAACAACATTCACAGTATACCTAATTTGCTAAT
GGTGTGTGTGTGTGTTTGTACTTATTTTATAAAGCACTTTGTAATTCTATTCTGGCATTCTGTTTTTCATTAACTTCGTGCTTRAATTCCTCCATAATTA
GTGCCACCTTCATAGCAAAGTTTTGTGCAAAATAATCTGCATCTCTTTAACAACATTTTTTATTTTTTCTGGAATCCGCTTTTAGTTCACATAAGTAAGA
ACGTTTACATTTTCATTGATGGATATAAGAACATTTTGACAATGCTTATGATTTATAGTGGTAAAAAAAATCTAAGATGAAGAAGTTGCTTTTTCATTTT
GTCAGTTACTCTTTTTATTTGTGATCAAATGTAGTAATAGCAAACCTTTCAGTCCTTTTGAGATTGCTTTTCCAGACTGGTACTGTTGATTCTGAATTGT
CCACCTTATATCCTCCCAGTTTCATTTTAACAAACTAGAGCTAKGCTGTTTCCATTTTCAGAGAGAATAAATGTTTGCTTCTTGGTTCCAGTTCCTCTGT
GTCTTTTAACATGCTATTGAAAATCATTTTGCATGTGTTCMGAAACAATTAGATATATGTTAATGGATTTGGGCTAAGACAATTGTGATAACTGTTTAGG
AATAATCAGAGCATTGTGGTTCTGAGGTGAGTAAGTGATGAGAACATCACCAAAGTGTCCAGTCCTACAAACATGCCTTTTTGCTGACATTAATTTTTCT
AACTGCTGTATTACAGCTGTTGAAAATGGACAGATAGATGTGTTAAGGSTGTTGCTTCAACACGGAGCAAATGTTAATGGATCCCATTCTATGTGTGGAT
GGAACTCCTTGCACCAGGCTTCTTTTCAGGTAACCTCTGAATTTATTATTTCATTTCCATGTAAATTGTGTGTTTTACCCTCTTAAAATGACAGTCCTAT
GCAGTTTTTGCTTTCTGCTTGCCTGTGATTTATGATGGTTAGTGCAGTACAGAAAAGGCAGTCTAAATGCTAATGATGATTCTGAATCAGCCAACTTCTG
TAGTAGCTGTGGAAGCTTTGGGCTATAGGGATTATCTACATTTTAAAAATGTAGATGGCATATTTAAGAAACCATCAGTTATTTGAGATATAAATTGATA
AAGAGCAATGGGTTATTTTATTTACAATAATGTGCTTAGAAATTGTGATGGCTCCTTAGTGCTTTGGTTAGCAAGCTAATTTTTCAGGATTCTATAAGGT
TTATAATTCCTAGAGATCAGTGTTTCATGTTTACATTTATTGGGTTAACTAGAAATATAGGATAATCTGATCGTTTGGCCAATTTCTTTCCAACTAATAC
AGCAGTATACTGTTTTGTTTTTTCCTTCAAGTTATCCTTTAGTGAGAGGATAAAAAAGAAAAAAAAAACACAGTAAGAAGAAAGATACCTTCTATTTTCT
TTGTTTTTTTCTTATTTAAAATGTGAATCTGTGCTTTAGGAWAATGCTGAGATCATAAAATTGCTTCTTAGAAAAGGAGCAAACAAGGAATGCCAGGATG
ACTTTGGAATCACACCTTTATTTGTGGCTGCTCAGTATGGCAAGCTAGAAAGCTTGAGCATACTTATTTCATCRGGTAAGATTATCCATTAGCCTTTGTA
CTGTTAAGATCATGAGCTTTAAACTRTATTTCCTAGAGGAATAATTCTTGTCTCAAATATAAATCAGGTTGTGAAATTTATGRTTTTATGTAAGTGGTAA
ATAAGAGTAAATACAAATTGATTTATAAACCTGGTTATTAAGTATCTATTACTAACAATGCAGTGCACAGCTACTAATTTATCTGAGTAGGAACATAATG
ATCTATCACTAAAGCAGGTTTATTGGCAAGTTGAATGATGGGGCTGTCCTTTCCTGTAGGGACTTGAGCAGTTTCAACTTTCTAGGGTGTAAGACTAGTT
TAGGCTTAATTACCTTATTAGATGGCTATTTTGTTTATTAAGGCTCTGAGGGGTATGTTAATTTTGTGATTATGTAAATAGGTTTATTTCAAAGCAGGTT
TACACTTTGTTATGTTAATAGTAACATAACCTGCTAAAGGTTTCTCTGTGACAACCCTTCCACATTCAGCATTGCCAGGGAAGTTGGTGTGTTCAGGTGG
CATTCTTACTCTAAGTGACAATTTTGTGACCAGAAATGTTTATTTTACAGGGGCTTTTAAATCTCTCCCAAACACCAGATATGCTCTTCACAGTGCTAAC
TTGATGAAGCGTGAATCACAGTAGGCTAGGCAATTAAAAAAAAAATACCTAGGCTTTTTTTGGCCAGGCACGGTTGCTCATGCCTGTAATCCCAGCACTT
TGGGAGGCCAAGGTGGGCAGATCACTTGAGATCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTACTGAAAATACAAAAATTAGCT
GGGCATGGTGGCATGTGCCTGTAATCCCAACTACTAGGGAAGCTGAGACATGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGT
ACCACTGCACTCCAGCCTGGGCAACAGAGGGAGACTCTGTCTCCAAAAAAAGAAAGAAAGAAAGAAAGAAAACCCAGGCTTTTTATAAACTTCCTTTAAA
TAGAAAATAGATCATACAAAGTTTGTTTGTTTGCTTGTTTATTGATTGATTGAGGCCAGGCCTTGCTCCATCACCCAGGCTAGAGTATAGTGGTATGATC
ACAGCTCATTGTAACCTTAAACTCCTGACCTCCAGCGATTTTGCCCCTTTAGCCTACCAAATAGCTGCGATTACAGGTGCATTTCACCATGCCCAGCTAA
TTAAAAAACCTTTTTTTTTTAAGACATGTGGTCTCAATCTCCCAACCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACACTGTAAGT
CGCTGTGCCTGCCCAATAATCCAGTTTATTTAAACAGCAGGGCACATCTTTTCTTATTTTTGCTTTCTTTTAGAAACCTTCAAACACTTAAGTCAGAGTA
GGAAGTAAAAGAAACAAACATTCATTAAGTGCCAATTGAAGGCATCTGTTATAAATAATGAGTCTGTAAATCTTACAGTTAAGAGGAATCCCCAAAATTA
TCTGTTCAAACATAATCGTTTTTAGATTAAGAGTCCAGACTGTGAATGTTTAAGTGCCTTGTCAAAGATCTAGACTCGTTTCCTGGCAGAATCAGGGCTT
GGACCCAGGCCTTCTGACTTCTGATCTTCCTTCTACTACATCATACCTTCCGGAGGACTATCCTAATTCAGTTAATGACTTGCAGTCCCATAAGTTTCAA
TTATTAGTGTTTAGCCTGGGTCAGTGGCTCATGTCTAATCCCAGCGCTTTGGGAGGCCTGAGGTCAGGAGCTTGAGACCAGCCCAGCCAACATGGTGAAA
CCCTGTCTCTACTGAAAATACAAAAATTAGCCCGGTGTGGTGGCACGCACCTGTCCSAGCTACTGGGGAGGCTGAGGCAGGAGAATCTCTTGAACCCATG
AGGCAGAGGTTGTAGTGAGCTAAGATCGCACCACCGCACTCCAGTCTGGGCAACAAGAGTGAGACTCTGTCTCAAAAACAAAACAAAACAAAACTATATA
TATATATGTGTATATATATATGTGTGTGTATATATATGTGTGTATATATATGTGTATATATATATGTGTGTATATATATGTGTGTGTGTATATATATATA
TGTTTAATTAATATTTAGATTAAATAGGCCAGGTGCAGTGCCTCATGCCTGTAATCCCAACACTTTGGGAGGCCAAGGTGGGCAGATTGCCTGAGCTCAG
GAGTTTGCAACCAGCCTGGACAACATGGTGAAACCCCGTCTCTATTAAAATACAAAAAATTAGCCAGGCATAGTGGTGTGCGCCTGTAGTCCCAGCTACT
CAGGAGGCTGAGGCAGGAGAATTGCTTAAACCCAGGAGGTAGAGGTTGCAGTGAGCCTAGATCGCGCCTCTGCACTCCAGCCTGGGTGACAGAGTGGGAC
TCCGTCTCCCAAAAAAAAAAAAAAAAAAATTTAGATTAAATAGATTAAACTGCACCTTAATGTCTCTCCTCATGTCAGGTGTGTTTTCTTGTCGCCTGGA
GCTCTGAGCTCCTGTTTTGGTTTGCTTTGTTCTTTTTATTTCTTCTCTCTGAATTGTTTTGAATAATCAGTTGAAAAGGTATGTAGGTATGTTTATCATG
TAACTATACATGTTTCCAACCCCTATTACTTTCGTTTCAGTGAGTTGTCTGTAATTTTTCCAACTTTTTCACCAGTAGTCTTTAAAGAAATTGGTTCCTT
ATTCTTTGTGATACTTTGAAATTGTCACTCAAAATAACGCATTAAAAAAAAAGTTAAGGTTTCTTTCTTGACTTAGTCTCTTTTCAGTTATAGTGTTTAC
TTCTTTCTGAAACTGACAGTGGGTGAAACATCTACCCTATAGAAATCATGAAGTTTCTAGTTTCTATCATGAGAAATTTCTGAAGGATCTATAGACTCTT
TAATTTACCATTTGTGTTCTGTGTAGTTTTTGCGTACATAAAACTTTGGTTTATTCAAGGTGCATTTATGGAATATTCTTTTAAATAGAAGACAGCCTTT
TCCGTCTTGATGATGATCTTTCCACCGAAATGTATTCTAGAAATTTAAAAAACTCTCATGGTCATGTAACAACATCATATGTAGCATATTTAATACATTA
TTTGCCAACAAGAAAAGTTTGGAGATGACTGCTATTTTCAAAATCTTCACAAAAAGTGAGGTTAGCTTTTAAAAATCTTTATACAATGGCGTATATATAA
TTTAATTAGATTTGTGATTTTATTTTATTTTTTATAATTTCAACTTTTATTTCAGATTYAGAGGGTATGCATGCAGGTTTGTTACATAGGTGTATTGCAT
GATGCTGAGGTTTGGGATATGAATGACCTCATCACTTAGACAGTGGGCATAGTACTCAACAGTTCGCTTTTCAGCCCTTGCCCTGTTCCCTGCCTCCCCT
CTCTATTAGTCCCCAGTATCTGTTGTTGCTATCTTTATGTCCTTGAGTACCCAGTGTTTAGCCTCCACTTATAAGTAAGAACATGCAGTATTTGGTTTTT
GTTAATTTGTTAATTCACTTAGAATAATGGCCTCCAGCTGCATCCATGTTGCTGAAAGGACATGATTTTATTCTTTTCTATGGCTGCGTAGTATTCCATG
GTGTACATCTACTGTGTTTTCTTTATCTGATCCACCAGGTATCCATTGATGGGCACCTAGGTTGATTCCATGTCTTTGCTATTGTGAATGGTGCCGTGAT
GAACATGCAAGTGCATGTATATTTTTGTTGAATGATTTATTTTCTTTTGGATATATACCCAGTGATGGAATTGCTGGGTTGAATGGTAGTTTTAAGTTCT
TTGAGAAATTTCCAAACTGCTTTCCACTGTGGCTGAACTAATTTACATTCCCACCAAGAATGTATAAGCGTTCCCCTTTGTCTGCAACCTCTCTAGCATC
TGTTGTTTTTTGACTTTTTAGTAATAGCCTTTCTGAGTGGTATAAGATTATATCTCATTGTGGTTTTGATTTGCATTTCTGTGGTGATTGGTGATGTTGA
GCAATTCTTCATGTGTTTGTTGGCTGCTTCTATGTCTTCTTTTGAGAAGTATCTTTTCATGTCTTTTGCCCAATTTTTTTTTTTTTTTGAAATGGAGTCT
TGCTATGTTGCCCAGGATGGCGTACAGTGGCACTATCTCTGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTA
GCTGGGACTACAGGCACGTGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCT
CACCTCGTGATCCACCCGCCTTGGCCTCCAAAGTGCTGAGATTACAGGCGTGAGCCAATGTGCCCAGTCCTTTTGCCCAGTTCTTAATGGGGTTGTTTTT
TGCTTGTTGAATTGTTTAAGTTCCTTATAGATTCTAGATATTGGACAAAGTTAAGATAAAGACCTTTGTGTAATATCCAGAATCTATAAAGATACCTAGT
TAGCAAATATTTTCTCCTATTCTGTGGGTTGTCTGTGGATTCTTCTGTTTTACAGAAGCTAAAGAGCTTAATTAATCTAAAGAGATTAATTAGGTCCCAC
TTACCAATTTTTGTTTTTGTTGCAATTGCTTTTGAGAACTTAGTCATAAATTCTTTCTCAGGGCCGATGTCCAGAACAGTGTTTTCTCATTTTTTTTTCT
AACTAGGATTTTTATAGTTTGAGGTCTTACATTTAAACTTTTAATCCATCTTGAGTTGATTTTTGTATATAGTGAAAGATAGGGTTCCAGTTTCATTCTT
CTACATGTAGCTAGCCAGCTATACTAGCACCGTTTATTGAATAAGGAGTCTCTAACTCATTGCTTATTTTTGTCAACTTTGTCAAAGATCAGATGGCTGT
AGGTGCATGGCTGTATTTCTGGATTCTCTATTCTATTCCATTGGTCTTTGTGTCTGTTTTTGTACCAGGACCATGCTGTTTTGGTTACTGTAGCCTTAAA
GTAGAGTTTGAAATTGGGTAATGTGATACCTCCAGCTTTATTCTTTTTGCTTGGTATTGCTTTGGCTATTTGTGCCCTTTTTTGGTTCCATATGAATTTA
AGAAATTTTTTTTCTAATTCTGTAAAAAATGGTGTCGGTAGTTTGATAGGAATAGCATTGAAGCATAAAAATGACACTTCAGGGACTCAGGGAAAGGATG
GGAAGGGGGTGAGGGATAAAAGATCACAAATTGGGTGCAGTGTATACTGCTTGGGTGATGAGTGCACCAGAATCTCACAAATCACCACTAAAGAACTTTC
TCATGTAACCAAACACTACCTGTTCCCCAATAACTTATGAAAATCAAAAACAAAAAACTCTGACATTTAACAGGGGAAAAAATAAAAAAAGGAATAGTGT
TGAATCTATAGATTGCTTTGGGCAGTATGGGTATTTTTTAAAATGATATTGATTTTTGCAATCCGTGAGCAGCGTTTTCCGTTTGTTTGTGTCATCTATG
ATTTTTTTTCAGTAGTATTTTGTAGTTCTCCTTGTAGAGATCTTTCACCTCCTTGGTAAGATGTATTCCCAGGTTTAAAATTTTTTTTTGGTGGCTGTTA
TAAATGGAGTTGTGTTCTTGATTTGGCTGTCAGCTTGAACATTGTTGATGTATAGAAATGCTGCTGATTTTATACATTGATTTTGTAACCTGAAATTTTA
CTGAAGTTGTTTATCAGCTTCAGGAGCCTTTTTGTGGAGTCTGCAGGGTTTTCTTGGTATAGAATCATATTGTCAGAGAAGAGAGATTGTTTGACTTCTT
CTTTTCCTATTTGGATGCCTTTTATTTCTTTCTCTTGCCTGATTGTTCTGGCAAGGACTTTCAGTACTATGTTGAATARGAGTGGTAAGAGTGGGTATCC
TTGTCTTCTTCCATTTCTCTAGGAGAATGCTTCCAGCTTTTGCCTGTTCAGTATGATGTTGGCTGTGGGTTGGTCATAGATGATTCTTATTAAGATACAT
TCCTTCAATGCCTAGTTTGTTGAGGGTTTTGTTTTGTTTGTTTTGTTTTTATCATGAAGGGATGTTGGGTTTTATGAAGGCTTTTCTCACATCTGTTGAG
ATGATCATATAGTTTTGGTTTTTAATTTTCTTTACGTGGTGAATCCCAATTATTCATTTGCATATATGGAACCAACCTTGTTTCTCAACAATGAAGCCTA
CTTGATCATGATGCATTAACTTTTTGATGTGTTGCTGGATTTAATTTGCTAATATTTTGTTGAGAATTTTTGTATCTATGTTCGTCAGCACTATTGGCCT
GTACTTTTCTTTCTTCATTGTGTCTTTGCCAGATTTTTGTATTAGGGTGATGCTGGCTTTGTAGAACAAGTTAGGGAGGAGTCTCTCCTCCTTGATTTTT
GGGAATGGTTTCAGTAGAATTGGTACTGGTTTTTCTTTGTATGTCTGGTAGAATTCGGCTGTGAATTCATGTGGTCCAGGACTTTTGGTTGGTAGGTTTT
TTTTTTTTTTATTATGGATTCAGTTTTGGAACTTGATATTGGTCTATTTCAATTTCTTTCTGATTCAGTCTTGAGAGATTGTGTGATTTATCCATTTCCT
CTAGATTTTCTCATTTGCGTGCATTGAGGTGTTCGTAATAGTCTCAGAGGATCTTGTGTATTTTTGTAGAATCTATTGTAATGTCAACTTTGTTGTTTCA
GATTGTGCTTATTTGGACCTTCGCTCTTTTTTTTATCTAGCTAGCAGTCTGTCAATTTTGTTTATCCTTTCAAAGAACCAACTTTTGGTTTCATTGATCC
TTTGTATGGATTTTTGGGTCTCAATTTCATTCAGTTCCACTCTGATTTTAATTATTTTTTTTCTTCTAATAGCTTTGGGGTTAGTTTGTTCTGTTTTTTC
TTATTCCTCGAAGTGTGATATTGGATCATTAATTTGAGATCTTTCTTTCTGAGCTAGATGTTTAGCATTATAAACTTCTTAACACTTTTTGCTGCATTTT
AATATGTTCTGTGTCTGTTTTTATTTATTTCAAAGAATTTTTTGATTTCTGCCATAATTTTATTGTTTACTTAAAAGTTATCCAAGAGCAAGTTTGTTTG
TTTGTTTGTTTGATTTTGAGACAGAGTCTCACTCTATCGCCAGGCTGGAGTGCAGTGGCACCATCTAGGCTCACYGCAACCTCCGCCTCCCAGGTTCAAG
CAATTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGACTATAGGCACACACCACTATGTCTGGCTAATTTTTTTTTTTTTTTTTTTTTTTGTAGTTTAGTAG
AGATGGGGTTTCACCACATTTCCAGGCTGGTCTCGAACTCTTGAGCTCAGGCAATCTGCCTGCCTTGGCCTCCCAAAATGCTAGGATTACAGGCGTGAAC
CACTGTGCCCAGCCAAGAGCAAGTTAATTTCTATGTAATTGTGTGGTTTTGGAAGATCTTCTTGGTATTGATTTCTATTTTTATTCTACTGTGGTCTGAG
AGTATGGTTGGTATTAATTCAGTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATATTTCTGGAGACAGGGTCTTGCTCTGTACCCAGACTG
GAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCCCCTCCTGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTACCTGGGATTACAGGCGCGCA
CCCCTGTGGCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCATCGTGTTGGCCAATTTGGTCTCAAACTCCTGACCTTCAAGTGATCTGCCC
ATCTCGGCCTCACAAGTGAATCAGTTTTTTAAATTTATTGAGATGTGCTTTTTGGCCGAGCATGTGGTCTGTCTTGGAGTATGTTATATGTGCTGTTGAG
AAGAATATATATTCTGTGGTTGATGAGTGGAGTGTTCTTTAGATGTGTATTAGGTCCAATTGGTCAAATGTTGAATTTACACCCAGAATTTGTTTTTTAA
TTTTCTGCCTCAGTGATCTGTCTAATGCTGTCAATGGGATTTGACATCTCCCAACATTATTGCTATCTCTATAGATCTCTAAGAGCTTGTTTTATGAAAC
TGGATGCTTCAATGTTGGGTGTGTGTATATTTAGGATAGTTAAGTCTTCTCATTGAATTGAACCCTTTATCATTATGTAATTACCTTCTTTGTCCTTTTG
TACTGTTGTTGGTTTTTTTATATATAATTTTTTCTTGAATAGAAATGGGGTCTCACTGTGTTGCTGTGAACCCCAAATATCTGAGAGAGATCTCAGTCAA
TTTAGGAAGTTTATTTTGCCAACATTAAGGGCATGTGCCTGTGACACAGCCTCAGGAGGTCCTGGCAACATATGCCCAAAGTGGTTGGGGCACAACTTGG
TTTTATACGTTTTATACATGAGACATCAATCAACATATATAAGATATACATTGGTTCTGTCTGGAAAAGCGGGACAACTCAAAGTGGGGAGAGTATGTCC
AGGTCATAGGTAGGTAGGAGACAAATGGTTGCCTTTTTTTTTTTTTTTGAGTTTCTGATTAGCCTTTCCAAAGGAGGCACTCAGATATGCACTTATCCCA
GTGAGCAGAGGGATGACTTTGAGTTTGAGTTCTGTCTGTCCTTCGTCCACAGGGAAATTCCTTGTGAGGGAGGTACGTAACTTTTTCTAATCTTAGTAGC
TATTTTTTAGGAATAGAATAGGAGGCAGGGTTGCGCTAAGCAGTTCCCAGCTTGACTTTTCCCTTTGGCTTAGTGATTGTGGGGGTCCCAAGATTTATTT
TCCTTTCACATTGCCCTGGCTGGTCTTGAACTCCTGAGCTCAAGCGATCCTCCCCCCTTGTAAGAGTTAAAGAAAGAGGAAAGAAACACAAAAGATGGGT
TGGCAGTTAAAGACAGGTTTACTTTAGATAAAACCTGAGAAGGGTTTCTGGCTGATTTCGATCAGGAGCACTTTCTCTTACAGGCTAAGTACATGAGTAT
ATATTGGTTTTAGGGTGAGGGGGCTTATCACAAGCTTGGAGTGTTTATGTGTGGGGGAGAAGTTTATGGTGAGGTTGGAATGTCTCTGGGTGAAGGGGGG
ATTATCTTGGGGCTGACGTCTTTCTAGAAGGAAGGGAGTTATCTCGGGGCTGGCATCTTCCCAGCCAGAGCAGGGCAGCTAGCATGTCTCTGGTCGCAGA
GGAGTTTGGCATGTTCCTGGTCGGAGATGCTTTTTTTGTTTATGATCATGCTGATCTTAGCCATTTAGGCTGATGCGCTTTGGATTTAGGAAGTTTTTGA
TTAAGGTGAATTGGAAAATAACAGTGCTTGTGCAAGATGGTGATACTCCTGCTCTGTCATACTTCGGCCTCTCAAAGCTCTGGGCTTATAGGCGTGAGCC
ACTGTGCCTGGCTCTGTTGTCTGATTTAAAGTCTGTTTTATCTGATATAAGAATATTGACCCCTGGTTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCA
CTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAAGAGATCAAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTATCTGCTAAAAATACAAAAAT
CAGCTGGGCGTGGTAGTGCATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTAAGCCGAG
ATCGCACCATTGCACTCCAGCCTGGCGACACGGCGAGACTCAGTCTCAAAAATAAAATAAAATAAAATAAAAAACTAGTGACCCCTGACCTTTTTTGTTT
TCCATTTGGTTGATAAATCTTTTTTCAACCCTTTACTTTGAGCCTATGGGTGTTGTTACATGTGAGACGTGTCTCTTGAAGGCAGCAGATGGATGGGTCT
TTTTTCTTTCTTTTTTTTTTTTTAATCCAAATTGCAGCTGTGTGCCTTTTAGGCAGGATGTTTCGTAAAAGGCGAAAGATTTGTATGATCTGAAGAGACC
CTTTACATTCAAGGTTAATATTGATATGTGAGGTTTTGATCCTATTATTAAGTTGGTAGATGGTTGCTTTGCAGTTTCTATTGTATGATTGTATTATGGG
GTCTTTGGGCTATGTACTTCAGTGTGTTTTTGTGGTATCAGTGTTGTTCTTTCATTTCCATGTTTAAAAGTCCCTTAAGGATCTCTGCTAAGACTGGTCT
AGTGGTAACAAATTGTCTTATCGCTTGCTTGTCTGTAAAATATTTTATTTCTCCTTCGTTTGTGAAGCTTAGTTTGGTGGAATATGAAATTCTTGGTTGT
AGTGTCCTCTCTTTAAGAATGCTGAAAATAGACCCCCAATCTCTCTTGCCTTGTAAGGTTTCTGCTGAGAAGTCCACTGTTCCTTTTGTATGTGATCTGA
CGTTTTTCTCTAGCTGCCTGTAAGATTTTTTCTTTAGTGTTAACCTTCAACAGTCTGGTGACTGTATGCCATGGTGATATTCACGTTCACAGAGAGTTCT
CTGTATTGCTTCTATCTGGATGTCTTCCTCTCTGGCAAGATTAGGGAAATTTTCTTAAATTATGTCCTCAAATATGTTTTCCAGGTCATTTACTTTTTCT
CCTTCTCTCTCAGGAATACCAATAATTCATAGATTTGGTTGCTTTACATTATCAAATATTTCTCAAAGCCTTTTTCATTAAAAATTTTTTATTTTTATTT
TTATCTGACTGGGTTAGTTTGAAAGACTGATCTTCAAGCTCCAAAATTCTTCCTTCTGCTTGGCCTAGTCTATTAATAAAACTTGCAGTTATATTTTGAA
ATTCCTTAAGTGAGTTTTTCAATTCCAGAAGCTCTGATTGATTCCTTTTTAAGATGTTTATCTTAAGATGCCTTCATTTCCTGAATTGCTTTAGAAGTTT
CTTTGTGTTTATTTTCAACCTTGTCTGGATCTTGTTGAGCTTCCTTGCAATCCTTGCTTTGAATTCTTTATCTGTCATTTCTGAGTTTCCATTTGGGTCA
GGAACCATTGYGGGAACACGACTGTGATCCTTCAGTGGTGTCACTATATTTAGATTTTTCACAAATCCAAAATTCTTGGGGTAGTTCCTTTTCATCTGGA
GATGTTCACACTTCTAATTTTTGTAATTATTTTCATGCAGGTGGGATTTTTTTCTTTTTCTTTCTTTCACTATAATATTATTGTTTTTCCCTTTCACATT
TATGATTTTAAATATCAACTCAGAAACCTGTTGAAAGAGACCCTTTTTCTCTGATTGTAGGCATTATTTATCATGCAGTGGTTATGAAGAAAGAGATGTA
ATAGAGAGTATAGTCAATATTAGTTTTAAGGCGTGGCTCCCATATATGTCATATCTACTGATAATTTTTCATAAATCTTAGCCTGAATCAATTAGTKGCA
TAATTTGGATTTTATCTTTTTCAGCAGTTATCAGAAATATTATCCATGTTTGATAGTYTGYATTTTTCTTTTTAAATGTTTWCTTATTGGGCCCCAGAAT
GCTTGTTGGAGGAGGGATTGGAATGAAATGTATCCTTCATTGAATAGGATTTTTGTTTTAGCTTAAAAATGAATTCTAAGATATGAATCACTTGTTTTCT
TGCTGACGTAGAGGCAAGACCTTTTTATTTTTGATAGAGACAGGGTCTCACTATGTTGCCCAGGCTGGTCTCAAACACGTGGCCTCAAGCAATCCTCTGG
CCACAGCTTCCTAAATTGCTGGGATTCCAGGCATGAGCTACCCTGTCAGTTTAGCGAAGACAATTTAAATGATTACCAAGAAGTTAGCAAAGTAAATATG
TTTATATAACAACATCCAACATTCAGTGAAGAGGGAAAAGCTTACCGTGCTACGAAACCCTTTTATGGTAGTTCCTTTGAAATTTGTGTTGATTTTTTTA
AGTATTAGGGTTATCTGTTAAATGTTTTATTTTGTACCCTTAGGTGCAAATGTCAATTGTCAAGCCTTGGACAAAGCTACACCCTTGTTCATTGCTGCTC
AAGAGGGACACACAAAATGTGTGGAGCTTTTGCTCTCCAGTGGGGCAGATCCTGATCTTTACTGTAATGAGGACAGTTGGCAGTTACCTATTCATGCAGC
TGCACAAATGGGCCATACAAAGTAAGTRTTAAAAACAGAAAATAAACATGGTCTCTTAATCAAAAGCTAATAAAGAATAAATCTGGGCTAGACCCTTCAC
CTCTAGGCAAAGTCTTTGATATTCTCTTCCCTACCAATCTGCTGGGTGAACAGATCTACCCCTAATCTGTCCTTCATGCTGTCTTTTGCTCCTACTATTC
CTGCACTTTCATATTGTGAGGCAGAATTGCTACAGACTGGGTAGGCTCAGGGACTTTCTCGGGGTGTTGACTCTTCCCATTGATTTCTCTAGTTATGGCT
GTATCCGCCGCCTCCTCCTCCCTAGTTTTATCCCAGGCATCTTTAAGCATCAATCTGATGAGGCCATCCATGTTACCTCTCTGACCCCAGAAAGCTTTTG
AGTTTGTGATGCCTGTTGGAGTGTGTGCTAAGTAGTCCTCCCTGTCTTAAACCCTTTGACTGAACTTTTCTTGATCTAACCTCAAATTGGAGAGAGAGTA
AATGGGGGTTCCAGGAATCTTAGAAGCTAGTAACTTGGTTATACCTGTGAGAATATGGCTACCTATCATAAATTGGCAGTCAATGATTTTTAGAAATATA
TGTGAGAATATGGCTACCTATCATAAATTGGCAGTCAATAATTTTTAGAAATACATGTTTAGAATCTTTAGAGCCATAATTCTATAATAGCACTTTTTAT
AGCTGCTATTAGTATTATTTAATTTAAAAAGTAATAGTAAAATATTCATTACTTAATTTAGTTTGTTTACATAGTAGGAAAACAGATTCTGCAATTTGGT
CATTATGCCACTAGGTGACACAGTACTTTACTATTTCATTAATGATATTTGTAAGCATGTTTATGTCTTGTGGGAGAGTATAATTTTTCCCACCTACTTA
AAAAAATTAAACACATTTATTAAAGTTAAGAGACATTAGACTATTTTAACAAAATACTTAGATTTAAAAATTTGATATTTTCCCCAATTCTTGATCATTT
ATTTAAACATAAGTGTTAGATATTGTACTCTGAACTTTAAATGGTACCAAAACTCTCCTGGGCATTTGTTCTCAATTTTGAGAATTCTCATTGTCACTGA
TGATTTTCTTTATAGCCTACTTCAAAGGTAACCCCTTTTGTGAGTGTAAGTTCTACTTAAATGTTATCTTAGACATACATTACATGAGGAAAAGTCACAA
AGAGAAATGTAATACTATGAAAATACTTCAGAGTAGCCCTGTCTGTCTTTTCCCAGAAAGAAGGAATTTCCTGGCTTTAACTATACAGTTTTATTTTTAA
TTTTAGAAGGGTAGAATAGTCCTTTTTTCTTTCCAGTTGACTGCTAGAGGTAAGTTTACAAATAACCTAAGAACTTTTGTTTYAATTATTTTCTTAGAAC
TTTCTCTACCTAGGAGCCAGCTTCTTTATAAATCTGCCTCCATATTTAATGAGCTCACTTTTTTTTCAGATAATAGAATATTTTAGCACAAATTATAATT
TCTTCCTGATGAAAACATTAGTCTTAATTTCATGCCAGTTATCATCTTTAAAAATTTTTACTAATTGGAAAAGAAAAACTAGTTGGTACTTTAAGAAGGA
AAATAGTGCATTTTCTTGATGCCAGTTTATACTTAGTAGAATGATGTTTTAAATAATTTATTAAACCCTAAAATATCTAACATAAAATTTGAATTTTGGG
GGTTAAGGTGGTGCTAGTAAGGTAATAAAATTAAAAGAGCACCTTTTCTGTTTACATATAGGAACATTAATTTTGTTTCAAATGTATTTAAAGACCTTTT
TATTAAGCAATAATAAGTGTAACATTCTGGAGTAAATATATAGCATGTAATAGTTTAATGTTGTTGGTAGAAGGTACACCCTAGACAGAAATATTTCTTT
AAATGAATCAGTTGGTAATTCTGAAAAAAWTTGTGCTATAGAAATGTTGCCTACATTTATGCACRTATACAAACACTAAATTCTCCTGAATTTGTGTATT
TATAGAATCTTGGACTTGTTAATACCACTTACTAACCGGRCCTGTGACACTGGGCTAAACAAAGTAAGCCCTGTTTACTCAGCAGTGTTTGGGGGACATG
AAGATTGCCTAGAAATATTACTCCGGAATGGCTACAGCCCAGACGCCCAGGCGTGCCTTGTTTTTGGATTCAGTTCTCCTGTGTGCATGGCTTTCCAAAA
GGAGTATGTATATTTGCTATGTTTTTATTTTTTATTCTTTTTTGCTGTATGGAGATGTGTTTTGAAGTGACTTTCTTTCACRATGAAACTTAGTATCTCT
GTTAGTGCTAAATTGCTATCTTGGAACACAAATAGGAAAAAAACTATGATGTTTCAGTCAAGCTGAAGCAGAAATGAGGTGATAATATCACATTGTTTTC
CTTCCTTCTTTGGATCTGGATTATATTTTTAGTGTAGCAATCTTAGGGAATACGTACAATTTAAGTAGACGCAGAAATTTGCTGATATTTTTGGTCTTCA
AAACAATTCAAGAATTAAAAATGGGGCTTTATCAAGTAAGGCAGTGACTGCTTCAGGTCATTTACCGTTTCAAATTTATAAGATATAAGCCTAAAAATTA
AACTTTAGTTTTATAGATATTATTGTGTTTTTAATGTATTTGGTGGATAGCATTAAAAAAAATTTTTTTTTTTTGAGACAGGGTCTCACTCTGTGGCCCG
GGCTGGAGTGCAGTGGCACCATCTTGACTCATTGCAACTTCTGCATCCCAGGCTCAGGTGATCCTCCCACCTCAGCCTCCAGAGTAGCTGGGTCTACAGG
TGTACACCACCACTCCCAGCTAATGTTTTTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGCAGTTCC
CTTGCCTCGGCCTCCCAAAATGCTGGGATGTCAGGCATGAGCCACGATGCCTGGCTTTATATTATTTTTGGATGTGAGTCTAAATAATTAAGTTTTTAAA
CGCCCCCAAATTAATTATTTTTCTAATCTGTCATAATTCTGTGAAATAGACTAAGTGAAGAATTACTGCTGCCTTGTTAGTGTCTGGCCAGTAACTTTGT
CTATAACACTCTTACAGTTTTAAAACACTAAGAATAAAGCTGTGTGTAAGAACAGCCATATTGAGTAATATCTGGTCATCCAATAATGGAATAAGTTATG
AAGATAGATGCTATTGTGTTTAATGACACAGAAGAGGTTGCAGGCATACCTCAAATTGTATTGGCCTTCTTGAATTCACTATTATGAATCTCTATTTAAT
TTGAGTAGTTATCAAGAAATTATTTACTAAGCTTTTCAGCCTTTACTATCTCTTAACATTTGCCATGTAAAATTAGTAGTTCACTATAATTTGTTTCAAG
TTTAAGCTTACACGTTTTAGTAGAGATAGGGTTTCACCAGCCTGGTCTCGAACTCCTGGCCTCAAGTGATCTGTCTGCCTCCAGCCTCCAAAAGTGATGG
GATTATAGGTGTGAGCCACCCCATCCGGCCTCTTAAACTTATACATTTTAGTTTGAATATTTGGGTTTTGGTTAATCTGAGTATCTGGGGCCCACTTTAT
GTATAACTTTCATGATTTCATAGGATTTTCTTGTGTACCCCGTTAAGTTTTGTCTTTTTAAACAGAAGAGCCCTAATTACTTTAGTTGACCTTCAGTGAG
GTTGCACTGATAACTTTTAGTTGCCTTTCTCTATCCCAAATCTTAAGTCCGTTACAGAACTGAACATTTCTTATTAGACCAGAATATAATGATTTTGGAT
TGCGCGYGCGCGCGCGCCTGTGTGTGTGTGTGTGTGTGTGTTCAATATGATGATGGTCTTTTTTGGCCTTCATCTTATCTTTTGGATGAACAATGTTTTT
GGTCCTTCTGGTCACAGCAGCTAAGCTCACGCCTCATCACCTTATAAGTGTAGTTTGAATTAAGCCATATAATGTAGTACCCCTGTTAACTCTGAAACAC
CTTAAAATTAATGATATTCCTTGGGAGCTGGGCAGTATGTTTCATGCCTTCTGTAGATTCGGATAAATGAAATTAGGTGGGAAAGATCTTAAATAGGTTT
CTGGATTTTCCAAGATTAGTTGAAATTTTAGGGGGCAGACCCTTTTTTCTCCTTTGATTTCTACAAAATCAGTCARTAACACTAATTGACCATTTTGTTA
TGTAGAGAGCACTAAATAGATCCTGTTAAACTTACTGAGGAAGCTGAAACATACACACGATCCTTTAGGAATTTAAAACCTAATGGGAAAAACAGTRTTT
AGTGGCATTTACTTCACTATCTTCTGCTGTCTTTGGCAAAGAAGCGTTTTTAATGTATTTTTTTTTTTTTGTATTTTTTTATAGAGACTCATGGAAGGGA
AGGTTCCTATTTTTTTCTGCTGTGTCTGGGATAACTGCAAATAGGAGCTATTATCTCATTCTTGAATAGTGATATAAATGATTTTTTTTCTTTTCCTTTC
ACAAGTACTCCAAAGTTGTATTTTTAAGGAACTCCACAGTTTGGTTTGCTTTTTATGTCTCAGTTACTCTGTAGAATTTTTTTCTGTGTAAACTTCAGTG
ATGCTAAGAAGTTCTTAACATGCAGTGGAGTAATTCCACTACAGCCTCTCTCTTTCTCTCTAATGACTACAAAAAACTRTGGTCAAAATTCAAAAAGAAA
CTACCTGAGGACTCTCAAAGGAACAAAAGCAGATAGATTATGAAAGAGAGTGGTAACTTGGTGAAGTGACCCACATGAAAACGAATTTTCCCATTTCTTT
TTCCTTTTTTTTTTTGAGACTGTCTCGCTGTGTTGCCCAGACTGGAGTACAGTGGCGCGATCTGGGCTTACTGCAACCTCCATCTCCCGAGTTCAAGTGA
TTCTCTTGTCTCAGCCACCCAAGTAGCTGGGATTGTAGGCATGTGCCACCATGCTCAGCTACTTTTTGTATTTTAAAAGAGATGGGATTTCACCATGTTG
GCCAGGGTGGTCTCAAACTTCTGACCTCAAGTGATCTGCCTGCCTCGGACTCCCAAAGTGCTGGCATGAGTCACCGCGCCTGGCCTTCTTTTTCTTCTGC
TGTGTTGCCCTGAGGGCCAACCCTGATCTGGAGCTGAGTAGCACCAGTGGCACCAGCAGCTAATATCAGTCAGTAACATTAATTGACCAGTTGTTTAATA
TAGAGAGCACTAAATAGATCCTGTTAAACTTACTGAGGAAGCTGAAACATAGACACAATAGAAAGCCTGTTTTTCTGGTCAGAGGAATCAGGTAAATGGA
ACCCTGTGGGCCAGAGAATGGTAGGGAATCTTGGAGAAGAGAGAGCTTGGAGAAGCGGATACCCTAATTGTGCATATGAATTTGCATATTCCTGACTTAC
CCCAAGCTTTAAATGCACAAGATAGACCCAAATTGTTTTTTATTTTGTTTTGTTTTTGAGACAGGATCTCATTCTGTTGCCCACACAGAGTGCAGTGATA
TGATCATGACTCACTGCAGCCTCGACTTCCCTGGGCTCAGGCAATTATCCTGCCTCAGCCTCTTGAGTAGCTGGGACTACGGTTGTGCGCCACCATGCCT
GGAATTTTTTTTTTTTGTATTTTTTGTAGAGACAGGGTTTGCCGTGTTGCCTAGGCTGGTCTTGAACTCCGAGCTCAGGTGATCTSCCTGCCTTGGCCTC
TCAAAGTGCTGGGATTACAGGCGTGAGCCACAGCACCCAGCCAACCCAAAATGTTGAAAGTAAGATTTGAACTATCATCAGAGTCTCAGGCTAGACCCTG
AGTGGCACATTCATGGGTCCAAGCTTAAAGCAGGAAAGTCAAGGCTTTTGAGAACTGAGCTGACGTTGGAACCACTGTATAAGGTAAAACAGAAATTGCA
GTTTGAACCTAACTAGGTTATATGCTTGCTGAAATAAACAAACCAAAAAGCTAGTGTTCTTCAAAGGATTATAACAAGACCCAGGACTCAGAATTTATAC
AGCATAACATTCACAATGTCCAGGAGACAACCTAAAATTATTTGACATATGAAGAACTGATAAAACATTACTAAATCTCATGGGAAAAAGCAATTAATAG
ATGCCAGTCCTGAGATGGTCCAGATATTAGAAATATCAGATAATTGAAAGCAGCTCTTATAATGGTGCTTCATGAGGCTAACACACTGGAAAAAATGAAA
AGGTAGAAATTCTCAGCTGAGTAGTAGAAACTATAAAAAAGACGGAAAAATACAATAATCTGCAATGAAAAATTTACTACATGGACTCCATAGCCAAATG
AAAGATATAGGAAAGAGTAAATTAACTTGAAAGTAAACCATTAGAAATTATTAACAAAGGGGAAGACATGCTGTCTGGCAGCTGGAGCGTGCAGACTGGC
GTGGCACAGCCATGCAGCTTCTGGAGTTTCTGTTGGTTAGAGATTCAGGAGTAGCTTGGTGGGCAGTTCAGGCTTGGAGGTTTCTCTTATAGTTGCATTA
AATATCAGATGAAGCTACAGTCATTAGCAAGCTTGACAGGAGCCAGRGGATCAACTTCCACAGAGGCTCACTGACATGGATCACTCATATGGCTGGGTGT
TGGCAGGAAACCTCGGTTTCTCTCTATAAAAGCCTCCCCACAGGACGGCTGCAGTATCCTCATGGCATGGTAGCTGATTCCCTCAGAGGAAGAGGTCTAA
GAGAGAACAAGACGGAAGTCACAGTGACCTGGTTCATTGAAATTATGGCTGTCACCTCCGCAGATCACATACACAAGCCCTGATTCAATATGGAAAGACT
GTACAAAAGCACAAATAGGAGGAGGAAAGGATGATTGGGGGCCATCTTGGAGGCTAGCTGTCTCACACATTATCTCTGAAATTGCTGTTTTTTAATTTTG
AAATTTTCAAACATATGTAAATGTAAAGAAATTGGTACAGTGAACTCCCATAGACCCATCATTCATATTCAGTAATGATCAAGGAAATGCCATCATTTTA
TTTTGTACAAATATCCCTGAGAAACATGSTCTTTCCACCTCCAGCCTTCATCTAAACATCTTATACTAACTTTCTTTAGATTTCAGTGTTCCAGGCTCTC
TCCTTCCCTCCTCTTTCTGGTATGTTTATGGGGTAGAGGCAAGACCAATGCAAAGAAAGAAGGCCCTTTAWGCTGGGCATCTAGGCTTTTTCAGACATCC
TCTGAAACCTAGGCAGAGTCTCCCAAACCTCAACTCTTAAATTCTGTGCACCCACAGGGTTAACACCATGACCATGTGGAAGCCACCATTGTGACTTGTA
CCCTCTGAAACAGTGGCCTGAGCTGTACCTGGGCCCCTTTGAGCCATAGCAGGAGTGGCTAGGATGCAGGGACTAGTGTCCCAAGGCTGTGGAGGACAGT
GGGGCACTGGGCCTGGCCCATGAAACCATTCAGTCCTCCTAGGCCTCTGGGCCTGTGATGGGTAAGGCTGCTGGGAAGGTCTCTGAAATGCCTTTGAGGC
CTTCCACCACCCCCTGGTGGTTTTGGCTATTAGCACTTGCCTCCTTTTTACTTAATGCAAATTTCTGAAGTCTGCTTGAATTCCTTCCCTGAAAATAGGC
TTTTCTTTTCTACCATTTGCCAGGCTGCAAATTTTCCAAACTTTTATACTCTGCTTCTCCTTTAAATGTAAGTTCCAACATTAGGTCCTGTCTTTGCTCA
TGCATATGAGCATAGGCTCTTACAAGCAGACAGGCTGCTTTGCTGCTTAGAAGTTTCTTCCACCAGGTACCCTAAATCATCACTCTCAAGTTCAAAGTTC
TACAGGTCCCCAGAGCAGGGGCACAGTGCATTCAGGTTCTTTGCTAAGGCATAACAAAAGTGACCTTTGCTCACTTCCCAGTAAGTTCTGCTTTTCCATC
TGAGACCTTGTCAGCCCAGCCTTTACTTTTATTCACTATCAGCACTTTGGTGACAACCATTTAACCAGTCTTCAGGGAGTTCCAAACTTTCCCTCATCTT
TCTGTCTTCTTCAGAGCCCTCCAAACTCTTCCACTCTCTGCCATTACCAAGTTCCCAAGTTGCTTCCACATTTTTAGGTATCTTTATAGCAATGCCCCAC
TCTTCAGTGCCAATTTTCTGTATTAGTTCGTTCTTGCATTGCTATAAAGAAATACCTGAGACTGGGTAATTTATAAAGAAAAAGGTTTAATTGGCCCATA
GTTCCACAGGTTGTACAGGAACCATGATGTTGGTGTCTGCTCAGCTTTTGGAGACACTTCAGGAAACAWWATCATGGCAGAAGGCGAAGTGAGAGCAGGC
TGCTTCTTACATGGCAGGAGCAGGAGCAAGAGAGTGAGTGTGGGAGGTGCCACACACTTTTAAACAACTAGCTCTCACAAGAACTCCCTACTGTGAGGAC
ACTACCGAGGGGGATGGTGCTAAACCATTTATGAGAAACCCATCCCCATGATCCAGTCACCTCCCACCAAGCCCCACCTTCAACACTGGGGATTACAATT
CATCATGAGATTTGGGTGGGGACACAGATCCAAACCACATCAGTAGATCTAGGGTGGGGACTGATATTCTGCATTTCTTTCTTTTTCTTTTCTTTTCTTT
CTTTCTTTCTTTTTTTTTTTTTTTTGAGACAGAGTCTGACTCTATCACCCAGGCTGGAGGGCAGTGACACCATCTCGGCTCACTGCAACCACCACCTCCC
GAGTTTATGCAATTCTCGTGCGTCAGCCTCCTGAATAGCTGGGATTACAGGTATGTGACACCATACCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGG
TTTCACCATGTTGGCCAAGCTGGTCTATAACTCGTAAGCTCAAGTGATCTGCCCCCCTTCACCTCCCAAAAGTGTTGGGATTACAGGCGTGAGCCACTGT
GCCCGGCATACTCTGCATTTCTTTCTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTGTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTG
CAAGCTCTGCCTCCTGGGTTCATGCCATTCTCCACCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCATCACGCGCAGATAATTTTGTTTTTGT
ATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCTAGGATGGTCTCCAACTCCTGAGCTCCAGTGATCTGCCCGCCTCAGCCTCCCAAAAGTGCTGGGAT
TACAGGCGTGAGCCACCACACCTGGCCCATACTCTGCATTTCTAACAAGCTAACAAGATGGTGCCAATGCTGCTGATCCACAGACCACACTAAGTAGCAA
GAGTCTAGAGCTGTGCTGCCCAAATTGGTAGCCACCAGCCACATGTGGCTATTTAAATTAATGAAAATTAAGTAGCGTTATAAATTACTTCTTCAGTTTC
CCTAGCCACCCTTCAAATGCTCAAGAGTCATGTGTGGCTAGCTACCCTACCGAATAGCACATCATCACAGAAAAGTCCGCTGCATGGCAGTGGTATAGAG
AATTGACCCATAGTAACTCTCCTACAGCTGATTTTTAGACCAGAACAATTATTTATTCACAGCAAAAGAAGAGCTGGGCAGGGTAAACAGCAACAGGTTA
CTTATAGTATTTATTTCCTCTTTCTGGAAYGGACAACCCAGTGTTCCTAAAGACAATATGGAAGGTTGTTTTGTTAGCTCAACACTTGAGCAAAAGAGGK
TGGATATGTTTACCAGATTGTGAGAATGGATGAATTGCTTTTCTTCACACTAGAAGTATATTTCTCTTAGTAACTAGTATTGGGCATAAGAATCAGGGCT
GAGAATGCTGGGGGAAGACTTCCTATTAAGAAACTGCGTTTTGGCTGGGTGCAGTGGCTCATGCCTATAATCCCAGCACCTTGGGAGGGCAAGGTGGGCG
GATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACATGCTGAAACCCCGTCTCTCCTAAAAATACAAAAAATTAGTCAGGCGTGGCGGCACGTGCCT
ATAGTCCCAACTACTCAGGAGGCTGAAGCGGTAGAATGGCGTGAACCGGGGAGGCAGAGCTTGCAGTGAGCCAAGATCACGCCACTGCACTCCACTCCAT
CCTGGGCAACATAGCAGATTCAAAAAACAAAAAAAAAAAGAAGCTGCCTTTTGACTCCTTTTTAAAGACATAATATTTTGTCTGTTTACATACCTGCTTC
TTCATTAGAATGTAAGCTCCTTGAGAGCAAGGATTTGCCCTTGATCTAACTCCTATTAGGCATTAAAAATATATTTGTGAATTAATGAATCAATAATTAT
ATCAGATTAGCATATTTATTATATGTTAGTCTTCCTCAATGCCTTGTGGAGGGATAAGGATGGAGCATGATTCTTGGGCTTGGATGAGTCACAGATGTAT
AATGGCTGTGTGACTTTGGGTATTTCACTTCATTCTGCTAAATCTCATTCCATTATCTTTAAAATAGGGATAGTAATAACACCTAAGCTTGCTTTAGAAA
ATTATTTTGAGGATCAAATGAGCTAACAGTTGTGAAAATGCTTTGTAATTTGTAATTATTGTCTTAAAAAAACCCTAGTTTTTTGGGTGAGAGAGTCTTT
GGTCTCAATGTCAATATATGTACAGATCACCTTGCCCGGATGTGTGCCTTGTACTTGCATTCTAGGATATTGCCTGTTTGGAACATCTACTCATATTTTC
ATACTGTCCCTCTCTGGGCAACTAGCTTTTGTAATTTACAAATATTTACAAATGTTTAACAAATTTAAAGGTTAAAAACAAATTTAAAGAAATTATCCAC
ACAGAAGTACAAAAGAGAAAAAAGATGGAAGAAAAAAACAAGAGCGTCAGGGAACGAAGGGACAGTATCAACAGGTCTAACATTCATGTCATTAAAATCC
AGAAGGAGAGGAGATTGGGCACAGAAAAAATATGTAAATTAATAATTGCCAAAAACTTCCTATTATTGGATAAAGATATAAATTTACAGATTTAAGAGGC
CTGTTAAACCCAAACAGGATAAACTCACAGAAAGGCATGGTCAGAAAAATCAAAMTGCTATAAAACAAATGTAAGGGAGACCTAGTCTCTCCCCGGATCA
AAGAAGAAAAAGAAAAGTAAAGGTGAAGCAGTATGGTGTACAGTAGTCCTTGGTCACAGACATGAGTTAACAAACTTAGTTTTGTTTTTTTTGTGTGTTT
TGTTTTTGCATCTCTTAGAAATTTTGCTCTTTGAAGTGGCCATGTGAGCATAATTACAATTTGTTTTTGTGCTATCGAAAGGGCATATGAGCGATTTTCT
TTCATGTGAGACTTGTAATTGAACCAATATATTCTTAGGTAGATTTTCAGTAAGTAGTCATTGGAAAATGCTATATTTTTAGCCTTTAAAAATAAAGTCA
AAACCTCAAAATATCTGTTTTAGGAGGGTGTATTCTCTTAGTCTTTTTATTTTTCATTCTAGAATTGGGCAACACCTTATTCTATAAAATAGAACATAGC
AAACTTTAAGGTCAAAGAGACGTAGAATTTGATTGTGGGAATTTTGTCAAAAATATCAAGGTTCAAAAAACTTTACCAAAGTAGGATCACAGGTCAATGT
GAAATAATAGTCACTTATCTCATCTAGAGTGATAATTAAATGGCTTCAAAAGGCAAATGCAGAAAGTTATATAGTTGTAGAAAAACCTGAGTTCTTTATT
AGAGAGTTTTCATAAGTGATCAGATAGAATAAAGACAACATGAAGCACAGGGAATCATCTTGATAAAATGCAGAATCTTTGTTTTTTTAGACCAGTTACC
TAATAGGTAAAGGAAAACCTTTCATTATTTCCAAGAAAACTAAATACCACATTTTTATTATCTAATGTCTGGCTGGTTGCTTATACATTTACTGTATATG
TAATATGAGACTTATTCATTTTGAGTTTCTGTATGAAGCTTTTCCAATTAAGCAAGAAAATGATCATTTTCCCAGTAGGTTTTGCTTTGGTATGTCAAGA
GGGTCATATAACCAGTGTCTGAGGGAAAAAAATTGAAGCTGAAAAATATGTTTTTGGTTATTTCTTTTGATAAGTAAGCATCTTAAAATTTGGATTGCCT
ACAATCACATGACTAAAATTAATTAAATTAATTACAGTCACCAATTATAAAGCAAGGACAATTGAATATAATCTTAATTTTAAAATAGCTATCATATGTT
ATTTTTTCCCTTTTTTTTTTTTTTTTTGAGACAGTCTCTCGCTCTGTGGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGACTCACTGCAACCTCTGCCTT
CTGGGTTGTGGCGTTTCTCATGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATATGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGG
GTTTTCCCATGTTGGTCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCTGTCCGCCTTGGCTTTTTGGTGTGGGATTACAGGTGTGAGCCACCACGCC
TAGCCCTTCTTACTTTTCTTAATGAGTGATACACGAATTTCCTATATCACTTTTACCAGTTATAAGAATTCAAATTTGGTCACAATACTGGTACCAGGTA
ACTTAGAAGATTCAATTTTCCAAAATTAATTATTTGATATTCTAATTTTTAGGGATTTGGTAATAGATAGTAAGTTTAATGGTATAAGTTTAAAAATTTT
ATTTTTATAGCAACAATGTGTTATGATAGTGTTAATTTGGTATGATTGTTGTAATTAACACCTATCCRACTTCAGGTGTTAATGGCTAAAAGACTTCCCT
TTTCTCATTTGTATATTTTCTAGTATTTCTCTGAAATCTATTAATTTACTATTTGTGGACTTTCTTGCACTATTGACCTGTTGTATTCTAATAAACTTTT
ATCTACTTTTATAAATAGTACAATTAACACCAAAAGGTGATGAAAATGATAAATAACAGCTTTGGATTTTCTTTATTCTTGTTGTTTTGAGATAGAATTT
CACTCTGTTGCCCAGGCTGGAGTGCAGTAGTGCAATCATTGCTCACCGCAGCCTCAAACTTATGAGGTCAAGTGATCCTCCTGCCTTGGCCTCCTAAGGT
GCCCCAGGTTTTAAGTTTTCTCTTCCTTATTATTTTTTCAGCTAATTCAACTTTTAAGCTCAGTATCAGTGTTCTGAAACATTTTTGGTAGGTATTCTTT
GTGAGAATGACACTTAGCTCCTTTCACCACTCCCAGGGATGATGGAAAGGTGTCTCCTCCACTACTGTATAGATCCTGCAACAAAAGCAGTTTTTGTCCT
TTGGAGCTAAAAAGTTAGCAGCTATATTGATATGAAGCCAGTCTTTCAAGAGTAATTGAGTAATCCATCTCGAATGAGGAAATATAAGAAAAAGATTCCT
CCAAATGGAATGGGAAAGGAAGAGGGAAGTTGAGAAGTTTTAGGACTGTTTGAGCAAATATGAATGCCTTTTATATATGGCCACAGAAGTAGATTGTGGC
TTAGCTCACCTGGTTTTGTCTGTTTTTCTAGTTGATACTAATCATTGTTATTACATTAGTTTCATAGAATTAATTGTGTCCATTCTAGCCACCATATCGT
GTGGGCACATCTGACAAAACTGAATGTCTTCATCTTGTTTTCAGCTAATGGTCGAAAGCCATTCAGTAAAACTCACTATTTGGCCTGTTATAATTCACCT
AATAAGTTGGTTGGATATTTTGTTTGCTAATTGAACATAAAATGCTGAAGATATTTGCCCATTTCTATTTGTTTAAAGTAAATTTTGTTTTCATGTTGAA
TTTTCTCTTACTGTGCTTCTTTTATGTGTGAGCACTGTTTTTCTGCATAGTTTTGAACTTCAAGGAGCRGAGTGGTAGAAAATGTGCAAACCCCCAAAAT
AAGGTCTAGACATTGGATTTTAATTTTTAAATCTCTCCTCTCAGTATCTGATGTTGTTCACTTCTTATATAATGTACAGTCCCTCTATGTCACAATTAAT
TCTTGATATTTATGTTAAACAAGATAGACTTTTGTTTAAATCTCGGGTACTTGAAGAGTTTTCTCAATTTGATATTAGGGCTACAGAGAGAATTTGTTGA
AGTGTTAAGAGAAATACATACTAATTTATATTTTAACCAGAGGTTATCCATGCTCAAGGATTTATTGTGTGCTTAGTGACATGTAATAATCAAGGTCATA
TAGAGCCCTGAAGTTGAAGTTGCTTGTGTTTCTGTAGTGTGCACATGTATTTGAGACCTTCTTTAATAACCTTCCCAGAAGCTCAGGGCATGCTGACAAA
ACTCTATGCTTCTCCAGTTTATTTTGTGTTTATTTTATTCTTCAAACAAATGGTAGTTTTTTTGGGAAATGGTCTATATTGTAGCACTGTGCAGTTTTAT
AAGCCTTTTGGGATTTACTCTTGCCCCTTCTAATACAAGGCAATGTGAATAATTGGAAGAGGTTTAGAGCTGATTTTCTAAAGTGTGTTTTGGTAGAATA
CTAATTCTGTAGATTGTTAATAGATATTATATGGGATTAAAGGGGTTGTATTGTTAAATAAGTTTGGGAAGTACAGGATTAAATAATATTGAATATGTTT
CTTTTGTAGAGGGCTTTTGAGAATTTTTCTTATTGTAGTGTGCTTTGTGAATTCCTAAAAGAGGAATGGATCTACAAAGATTTGAAAAGTCCAGAAACAT
AGGATAGAACTTATATTTAAGTATATATACCATTGTTCTTGTGTTTACAGAATTTTGGGCATTTTATACTTTTGTTTGCTTTTTTCAGATTAATGATTGG
ACCCATTGTTAATTTTAAAGGTACCTCTTCTGAAAAGTATCTGAAAGTTGAATAAAAACATTGAGCATATATTTGGAAATGTAACTAACACATTGTTTAA
AAATACATTCATCCTATCTTTCTCAGGCTCACTGTATACTGTATAAGGAGGTTTCTCAGTTTTTTTCACTGGAGAGTATTTTTCATATGGATCATTTTCA
GGAACTAAAGTTCTGTGTAACCTACTTTGGAAAACATAGATCTGGCTCTAAAATATTCTTCAATTTGGCTATATCATGAAGTGTTCAGTTTTCATAATAG
AGAAGAGATATTGCAGAAATTTGCTATGTCATATTCACTGTTAGATTTTGGTTTGATATCATTATCCCAGTTCTGCCAATTACTAGCTCTGTGACTCAGC
TTCAGTTTTTGCATCTACAATGGAGATAATAATAGAAGTTAATTAATTTTAAGATGTAGTATTGTAAATTAAATTTGTGTTAATTAAAAAAGTTTTTAAA
TTTTTTTTAATACCATTATAAATGTAAGGCCAGTCACGGTGGCATACCTTTTGGGAGACCAAAGCGGGAGGATTCATTGAGGCCAGGAGTTTGAGACCAG
CCTGGGCAACATAGTGAGACTCTGTCTCTACAAAAAAATTTAAAAATTAGCCAGGCATGGTGGCATGTAGCTGTAGTCCCACCTACTCAGGAGGCTGAAG
TGGGCGGATCACTGGAGCCCAGGAGTTCAGTTACAGTGAGCCTTGATTGTGCCACTGCACGTCAGCCTGGGCCACAGAGCAAGACCCTGTATCTAGAAAA
ATAAATAAGTTTAAAGTGGGAGGGAAATTGGCTAAGGTTATTGCTAAGGAAAATGATATCTTAGAGATTCCTAGAATCATTTAGTTTTAAGGATTGATCA
CGTTGTTTATTGATTTTGTTAAGCAAAGTATTTTGTAGTAAAGATACTCATTTGTACAAAATATCACAATTTGAGTTTTCTGTCAATGATAATTTTTTTT
AAAATGACATTTAAGATGAATGTTTTAAATTATAATAATACCTGTTCACAGTTGAAAATTAAAAACCATGCAGGAGGGTGTAAAAAGCAAAAGCCCCACC
ACATTCTCTAATCTCAATCCACTAGATGTGTAGAAACCATCCACTATTTAATCTGCCATACTTATTCCCCAGCTGTAACTACTATTAACTGTTTGTAAGA
AGTATCTTATGTCAAAGTCTAACTTCTTCTTTTTTTGTTTTTATTTTTTATGGTGGAGCTGTGAGTTCTTTGGAATTGTGAACATTCTTTTGAAATATGG
AGCCCAGATAAATGAACTTCATTTGGCATACTGCCTGAAGTACGAGAAGTTTTCGATATTTCGCTACTTTTTGAGGAAAGGTTGCTCATTGGGACCATGG
AACCATATATATGAATTTGTAAATCATGCAATTAAAGCACAAGCAAAATATAAGGAGTGGTTGCCACATCTTCTGGTTGCTGGATTTGACCCACTGATTC
TACTGTGCAATTCTTGGTAAGAAATTCTACCATAGTCGGGCTTACCCTTTTTGAGTGAATATACTACCTTTAATTTCCTTCAGTTGAGATCCCAGTGTTT
GGAGAAGGGTATCTGTGTTTTGACTGTGATGGCTGAATTGGGGTGAAGGAGTTGGTGGCTGCTAATAATGAGATTGAATTTAAGCACAGAGTCCTGGGAA
AAGATAAGAGGTGACTGGAAGGAGGTATGAGGGGATAGATGCCAGTGAGCTCTTCTAAGAGGGATATTTCTTCGACTTCTGGGCATTCCTCATGCTTCTC
TTAAAATGCCTGTAACAGAAGAAAGAATGCTTGGAGCTGCTTTGGAGATTTCTGTTGTCTATCCCTCAGCCAACCAGACTGAATAGTCCTGCCGTACAGC
ATCCTGTGTATTTGAAACTTGTCACCCTTAATAAATACTGATTTCTGAAGTATCTGAGACTATAGTTTGTTTACTTCAGGTAGTTCCTCAGAAGGGCAAC
CCTCAGTGAGAGATTATACAAACGCCGAGTCAGAATTTTTTGGGGGGCAAGAAGAAGACTCTTTCTATTAACCTCCAGCCTTTGCAAAAATTGTTAGTGT
CCTAACACAAGTAATTGTAGTAGCGAGAGGACTCTTGGCCTAATAATTCAAGTCAAATGAGAAAATAAAATGGAAGTCTTCAGGAAAATAGAGGACTTGT
TATTTTATAGAATTTCAATAAAATATCTAGAAGTCTTCACTTTCGTGTTTCAATTCTTACCCCGTGTGATGTCTGTCCCTAAGGCACTAATTGTCTTCTT
AGAAACACTCCTTGTGTTTTTCTACCAAAGCTATTAACTCTGATTCGATATGACTTGCCCAGTACTTTCAGCCTTCATGCTCCTTTCTGGTTTCTAATTT
ATTTATTTCTGTAACCAAAACATAGAAACTGTCTGATACCTACTGCTGTGGTTTGAATGTGTCTCAAATTTCAGGTGTTGGAAACAGTCCTCAAATTCAT
TTGTTGATGATATTTGGAGGTGAGATATTTGGGAGGTAATTAGGATTAGATAAGATCATCAAGATGGTGCCCCAGTGATGGGACTGGTGGGTGGCTTTAT
AAGAAGAGAGACTGGAGCTGATATGCTTTTGTTCTCTCACCGAGTGATGACCTCTGCCATGTTATGACACAGCAAGAAGGCCCTCATCAGATGGGCCCCT
TGACTTTGGACTTCCCAGTCTCCAGAACTGTAAGAAATAAATGTACTTTCTTTATAAATTACCCAGTCTCAGGTATTGAGTTATAGCAACAGAGAATGGA
CTAAGACAGAAATTTGGTACTGAGAAGTGGGGCTGTTGCTCATAACGATTACCTAAGAATATAGAAGTAGCTTTCGAACTAGGTAATGGGTAGAGGCTGG
TAAAGTTTGGAAGAACAGTCTAGAAAAAGCCTATATTTCCGTAAATGGAGTGTTAAGGGTGATTCTGGTGAGTGCTCATAAGATGAGAAGACTAGGAAAG
TCTCAACCTTCTTAGAGATTATTTAAGTGGTTGTGACCAAAATGTTGATAGAAGTATGGATAGCAAAGGCCATTATGACAAGGTCTCAGATGACAATTAG
CAATACCCTGTTGGAAAGTGGAGTAAAGGCCATCCTTGTTATTAATTAGTGAAGAACTGGGATGAACTGTGTCTATGCCTAAGGACTTTATGGAAGGCTG
AATTTAAGAGTGATGAACTAGGCTATCTGGTGGGAGAAATAACTAAGTAGCAAAGCATTCAGGCTGCTGCATGGCTACTTGTGGCCACTTATAGAGAGAT
GTGAGGGCAAAGGAATGACTTAGGACATAATATAATTAGAAGGGAAGAAGAGTAGAAAATTTTGGAAAATTCTCAGCCTGGCTGTGTGGAAAAGAATGAA
AGAGAATTTTCAGGAGAGGAACCCAACGTTGTGACTAGCAACCCTTTGCTGAGCAGATTTGTACAAATAGAAGATATCATCAAGACAATTAGAAAAAAAC
CTTGAAGGCATTCCAGAGATCTTTGAGGCTGTCCCTCCCATCACAGGCCCAGGGCTCTAGGAGGTCAGATTGGTTTTCAGGAGGGTTTGTGGGGTGGTAC
TAATTCTGTAGGCATGTAGAATGCAAGAGCTGTGGGGGCATGGATTCCTCCACCTAGATTCCAGAGGTTGTTGAAAACAGTCTGGGGGCTCAGGCAAGAG
ACCTGTCCCAGGAGAAGAGCCACTGCAGAGAGCCTTTCTAGAGCAATGCCCAGTAGAAATATAGGGTTAGAGCTGCCACAAAGTTTCTACCAGGGCAATG
CCTAGAGGACCCATGGGAGCAGGGCTGCCATTGAGACCTCAGGACTGTAGAGCTACCAGCATGAAGTGCCATCTTGGGAGAGCTGAAGTCTGAGCAAAGC
CATAGGGGCGCCATAGGGGTGGGACTGAGCCTAGCAAAGTCATAGGGGTGGAGCTTCCTGAGGTAGTGGAGGCTCAGCCTCCATCCCAGTTTATCCAGGA
AGCCCTGAAGTGGAGTCAGGGAAGATTATCTTGGAGTCTCAAGGTAATCCTCTTGAATTTTGGACTTACTTGGGTCCTATTACTCTTTGCTTCTTGGATA
TGTCTCCCTTTTGGAATGGGAATGTTTGTCTTATGCCTGTCCCACCATTGAATTTTGGAAGTAGATAACTTGTTTGATTTCACAGGCTCACAGCTSGCAG
GAATTTAAGGTAAATTATGCCTTGAGKCTCATCCCCCTCAGATACCAAAATCTATGTGTTACTGGAAAGGGGTCCCAATCTAGACCCAAGAGAGGGTTCT
TGGATCTCGTGCAAGAAAGAATTCGGGRCAAGTCCATAGAGTAAAGTGAAATCATGTTTATTAACAAAGTAAGGGAACAAAAGAATGGCTATTTCATAGG
CAGAGCAGCAGCACAGGCTGCTGAGCTGCTTATACTTATTGTTACTTCTTGATTACATGCTAAACAAGGGGTGAATTATTCATGAATGAATTTTCCAGGA
RAGGGGTGGGCAAGTCCCAGGACTGAGGGTTTCCCCCTTTTTATACTATAGGGTAACTTCCTGAAGTTTCCATGGCATTGGTAAACTGTCATGGGGCTGG
TGGGAGTGTCTTCTAGCATRCTAATGCGTTATAATTAGCATATAATGAACAATGAGGATGACCAGAGGTCACTTTCATCACCATCTTCGTTTTGATGGGG
TTTGGCCAGCTTCTTTACCAAGTGCTGTTTCATCAGCAAGTTCTTTGTGACCTGTATCTTGTGCGGACCTCCTGTCTCATCCTGTGACTAAGAATGCCTT
AATTTCCTGGGGATGTAGCCCAATAGGTCTCAGCCTTATTTTACCTAGCCCCTATTCAAGATGGAGTTGCTCTGGTTCATACACCTCTGACACATGGATG
CTCAAGTCCCTTATATAAAATAGCATAGTATTTGTGTCTAGTCTATGCACTTCCTCCCATATACTTTGTCATCTCTAGATTACTTATAATACCTAATGCC
TTATAAATGCTATGTAAATAGTTGTTGTACTGTATTTTAAATTTGTGTTATTTTTTATTGTTGTATTGTTATTTTTCATTATTGTTGTTAGTATTCTCAA
TCTACCATTGGTTGACTCTTAGGATGTGGAGGGCTATCTATAGTTCTATTACTCAATTTTAGTAATCCTTAATCCCTTGCCTAACCTGAGGGATTTGTGC
CAATTTTTCTTGCTTCTTCCTGCTCCTAAATTAGGAAAAACCTAAGCAGGGGGAAAAAATCAAACATTGCCTATTTTCCTTTCCTCCCCAGCCAACTAAA
TGGACTACTTGGAGGCAGAAGGATTTATTTAGCTTTATTCTCTTAGAAGGCTTTGTAATTTATCCCCCCTTTCCCAATTCTGATACTGCTCCCCCATTTT
CCYCCACTTGTGAACAGTTGAGAATTTTTGTCGCAATAAGCCATTGGGTGTGTGCTGTATTTATCGGATATGTGAAATAGAAAAGAATTAAGAACTAGTA
AAGTAGAAACTATTTTGAAGTAAGTTGTGAAACTTTCGGTATTCTGAATGCAGAATGCCAATTACATGTTTTTTACTCCTGAGGAGTAACTTTGGTTACT
TTATATTCATTAGAAAAAATACAGTGGAAAATTTAACTTTAGCAATGAAAATGCTTAACATGGTCAAATTTTTGTTCACTGATCTTTTTTATTGAATGGG
TAAAGCCARTGTTTACACTGCATATGATAAATGTTTTGCTTTCTTTGATCAAATTTACATTCAAAGAGCTATTATAAGAAACATTCTATAAAAATTCCAA
TATGTTGTTAAAGTAGATTTTGATTGTTATTTATATCACATGTAGGTCTGTTGCTTAATCTTTGTCACGTAAATTATAAACATATTTTCTGGGTATTGCT
TGTCTTAAACAGTCTTGAAAATGTATCTGGCTGAATAATTGCCTGTCACAATATTTAAATGCAAGACTAAGTATTCCTCTSCCTGCGCACCCCACCCCCA
TTTAATGGGATAATAGAACATAAATGTCATTTGTGCATTTAGTTGATTAAATGTCACTCGTTTATGATTGTACAACTGGTCTATACAATGTAATGGTCWC
TGTAGTAAAGTAACAATACATTTTTAGTGGCATTATCAGTGTTGGTAAAATAAACTCACCGTTATATTAACTAAACTGTGCAAACAGATTTACTTGTCAT
GTATATGTTCAGATAACTGCATAAAAATGACTTTGTGTTTGGTCACAGTAAGACCTAAAGTGCATTAAGGCAGAAAAATGAAATCGTTAAAAAAAAAAAT
AAAGAACCAGAACCAAGTAACCTTTGGTTTGGGACCCCTAGAAAGTCAAGGAAATTGTTTGTCTTTGAATATATTGTATCATTTCATTTATCCTCAGTAT
TTCTGATAAGTTGTGATTTCACTGAGATATGCTGAGAAATAAAATGTTTTCCCAAGACATCTGTGCTRCCCTTTAAGTTCTTCCTTAGATGTTTGCTTAT
TGGAGAATTAAGAATTTGGGAAATAATTTTCATAATCTTTAGTCCATCATTTCAAAGATATTTTGACTCCAAATTACCAGAAGTGTCTTTGAGATGGTGA
GCTTAGATTGTTATTCAGTTTATCTTCTTTCCTTGTATTTCCTTTCCTTCTTCAGTTGTTGTTGCTCSGTAATACCTCCAAAGAGGTGACCTTGAGAAGA
ATTTCTGTTTTGGTAGTAATTACTAGAAGCCCTAGTGACTTTTTTTTCTCCAACCATTGTGATGGTAGGGGGGGTCTAATTGAATACAGGATAAGTAATC
TTGTTAGGATTTAGAGTTCTTTTAAAGGTTTGACTAAATTTTAAAGCTTCTAAAAATATAATACTGAAGTTTTCAAATCGTTTCTGGTAATACCAATTTT
TCRTATAATACTTTATAGTTTTAAAAGTATGTTTACTATGTTATCTCATATTATTTTCACATATAGTTCCCTGAAATGGGCAGCTTATGTATTATTCTCA
TTTTAAAAAGCAGGAGCGAGAGTTTAAATAATTCAGGCAACCTGTTTATAAGTAGCAGAAGCAGTATTAAACATCAAGACTTTTCTTAAGCCAGTGCTCT
TTCCATTAGGTTTCAAGTGCTTATAAATTTTGGGTTAGCCTCTTTTGAGTGGGTTGGTAGGGAATCTGACGTTATTTTGAAAGAACAGAGGAAGGCCTGT
TTGGAACCCCTTCTTTCAGTCCTTAAAGACAAGTCTTATTCTGTTACATCGTTTAGGGCTGAATTTATAATGGGGGGAAGGTTCTTAGAGGAGAACAGCT
GTGCATCCCTGGGAGTTGGGCAGAAACAAGCCATACTTGTACACTTGTACACTCAGTTTAGGGATAACTTGGGGTGTTTGGGCTTTATCCTTTTAGGATT
ATTAAATTATATGTCTGTAAGGATGGTCAATTTACATTTGGCAAGATAGTCCAAATGGGAGGAAATAATGGCAAATCCACTGATGTCATTGGTGCTGTCA
CCCATGAGAAGGAAAGTTCCTACTCTCTCTGAGGTTCCTCTTGTCATCTCTWAGACAGCTACATAGAAAGTCAATTCAGTTAATAGGAACCTGTAGATGA
TTSTTAATATCCTCTGATCTTGCCTCTAGTTACATAAATACTTAACATGCCCTRGTTTTCTGTCTGCCCTCCTCATTGAGATTTTGTAAGAATAGGTATG
TGGTGTTTGTTTCAAGTACGAACCCTTGGCATGTTTTGTTTCTAATATTATATTAACATCTTGCTAACATAGKATTGACTCAGTCAGCATTGACACCCTT
ATCTTCACTTTGGAGTTTACTAATTGGAAGACACTTGCACCAGCTGTTGAAAGGATGCTCTCTGCTCGTGCCTCAAACGCTTGGATTCTACAGCAACATA
TTGGTAAGAAAGAATAACTTTTAAACACACTTCACTACTTTTCCTTCTCTTGCTTCTCTAGCTGTGTTGTAATTTTAAGTGATAAGATTCATYGGTGAAC
ACAAATTAGACATAATTTGCATTTTCTTATGTGAGGAAAAGATGGGGTTGTTAGGGGATGGCTAGTAATTCCCTTCAGTAAAAATCATATTTGATTTTAT
AATCTTAGCCTAAGGAACATATAAAGAAAAGCAGATGTTTACTGATATTTTAATTTTATGATATCCTTTTATTTTTAATAAGGATTATATACACAAAAGT
AGGTCCTAAAAATCTGCTTATTCTGTACTTTGTGGTCAGAAAAATGCTAAACTTAATTTTTCTCTTTGGAATGTCTGTGGAGTTATGTTCTCTGTGTAAT
ATTTTATCATATCTAAAAGGAAATGTAACCATTCTTTATACCTATCCTTACTGAATGTGTATCAGTCTGTTGGTATGGTATAACTGTGGAGATAAGCTGA
GTGCACATTCTGTGAACTGGTTGATATTTTAAAAGACTATTCTAGAACAAAATTTCAACTTACCTCACTTAAAAAAATTTTTAAGCTAGTTGAAAAAATG
AAAGAAAACACAGTGGGGGAAGATTTTGCACAGGGAACAAGTTTAAACTGAACATAACATATGCAAAGTATCCCTATTTACTTTTTCAGATTTATTTTGC
TTTGACTATATTTTGTTAACCATATTATATGTCTTAAGTTAGGAAAATTGTTTCTTCACTGCTATTTTTACATGAAATGTAACTCTTCATAAAACATTTT
GAATAGGTTTTTAACAAGTGAACTTATTCATATGTAGAAATGTGTCTTCTAATTTTTGGAAAATTACATTTAAGTAAATTTTCTCAATCAAAAACAGACA
TTCAGGAAAATAGGCTTTTGAACTGAGGTGTATTCAAACTGTTAAGAGAGGTTTCTGTTAAAGAAAAAGAATTGATTTGGAGTCTTTCAGCCTTCTAGTA
TAGAATTTCTTTAATGATAATGTTGGAAAACTCACTCTGTGTAACTCTTAATGTTGAAAATTGCATCTGCTTTTACTAATTATGTATCTGCAGCAGTAGA
GAACAAATATCTGTTCAGAACAGATAGACTATGGAACAATGGATTTGAGAACTAAGAGTCAAAAGAGGAAGCATATGCCAAATGGGAAAATTATTGCTAC
ATATCGATTAGTAAGGATATATGAGAGTTTACCCTTAAGACCTTAACATATGGCAAGTTTGTCCAGATGAAGGTAAAAATTGTGCTTGAGTACTGCATTA
CCCTGCAGTAGACTAAATCCATCAAGGGCTTCTTGTTTAATTAAGTACTAGGTAGAGTTTGTGTAGGGTAATAATCATCATCTATTGAGAGATTTTTATT
TTGGCTGAAGATTCAAGAAAACCTTTCTCAGAGGCTTTTTCTGAGCTAATGTAGCTAATGGTTTTCTGGTTTGTTTCTCTAGCCAAGCCCTCTTTTCTTG
TTTCCAGTCTCATTTATCCCAACTATCTTTTGGACATCTCCATTTGCTATCTCACATCTTGACATATGCAAAATTGAACTTGTTATTTTTCCTACAAATT
CTTCTGTTTTGTCTCTGTTTCCTGGTTCAGGAGATGAGGTGGTTTGGGAGTGCTGTTTACCAAGAGAGCGAGTTAACACTGGAAGCTGTTTGTTATTTCA
TCCATAGCATAGGGGTGATTTTTGCCCCCCCTGTAGACATTTGGCAATGTCTGCAGACATTTTTTTGGTTGTCACAATTGTTAGGGATGCTATTGCCATC
TAAGGGGTAGAGGCCAGGGATGCTGCCAAGCATCCTACAATGCACAAGACAGCCTCCTACACTAAAGAATTATCTGGCTACAAATGTCAGTAGCGCCGAG
GTTGAGAAATCTGGATCCACAGTGACTCTTGTGTTGTCCTATCGTGGAAAGGCTTTTTATCCCTCTCCTTGTTACAACCTGCTTGGGGAAAGCTTGTATT
CTTCCTCCTGCTTACATTGGTCTCTCAGGGTATTCTTTGGTGCTTCCTCTTCTGCAGACAGTAGGTACCATTACAATGCTGGAATTTTAGTAAGACTGGG
AGAAAAACTTAGTTGCCTGGCTTTCAGATGGGATTGTGACTCTCTTCCTTTCTATAATTCAGGTCTCTCTTGGGGGCACCCTTTACTCATCAGTTTTTAG
GATACTCAATTTCTGTATGTTGGTCATCGGGACTCCCTCCTTTACCGGGATTTTGAGCTACAGGATCTCTAGTAAGCAGAAGCATGATCAGGGTTTTAAT
ACTAATGGGCTCAAACCCAGCAGGACAACTCTTTGATTAACCTCTTTACAAAACTGACCTTCTTGCTTTTACCCCTCTTCCTCCAATAACTTATCATAAT
GTTAACAACCGCTGCCTTATCAATATATTTAAAAATTTTTTTTTGAAAAGATACTTCTTGCACCTCTGCCACTGTTAGTAAACTCTTAGATAATTCCTAG
CTTCCTAGCTCCACTCAGTATTCAGTATGTATCTCTAGGGAAATATTTTTCTCCCATTTTTTATTTGAGCCCTTTTCAAGTCCTGGAGATGCCATGTACT
TGGTCAAAATTATTCTTTCCTCCCCTTTTTCCTCCCTAAGTAAGTAGCAACTTGCCATGGTAGTTTATAAACAAAAGTAACAACGCATTTCTTGCTTCTC
ATCTTTTAATCATTGAGTCAGATTTGTCTTCAAAAAGTTTCTAGCATCAGAAAGGAAATGTATACCAGGTAAAATTTASTGAGTGGTTGCAGTTTCAGTA
ACAATCTTTTAATCAAGTGCCTCTTACATACCTCTTAGAAACATCAGCCTAACCACATAGCAATAGATGTCTTACTCAAAAAATTTGCCAACTCCTGGTC
AGGTCTAAGTAATTAAATTCTTATAGATAAAAGCACTTGGCTTTAGTTCGTCCTGAACCTTTAATGATTAGATATATATAATTCTATCCAGAGTGTTACA
AATGGATCTGGATCCTAGAAGGGATCCTTTAAAGGACCCCAGGAAACTCTCTTGATCTTTTTATTTCTGTGTTTCCCTGCTTTGTTTTGAAAAGGATTTA
AAACAGTTTATATAATACATATATATTATCACAAAACAGTAAAACAGAAATTAAAAGTAGAAGGAAAAGAAAAACGAAAAAAAAAAGGTAGGAGATGGAT
AAAAAATGGAGTCAGGGAAAGCGTAGCAATGGGAATTTGATACTTGTCTGTTGATAGGCTGTACATTTGGCTCTGAGCTCTGTTGTCAATGACACTAGGT
GACTGGGTTCATAAGATAAAATAAACCCATTCCTCAGAATAGATTTTCTTGGATGCTRTTACAGCTTCCTAGACAATGTCTTGGTAGCTGTGGTTTCTTG
GGACTTTCTTTTACATGGACTGTTGTTATCATACCAAAGTACAATTCAGTAAAAGCAGTTCCTACGTAGTCATTACAGTGTGGTTCAGGTACCTAGACTT
CTGTTGCTATGACTTGACCAAGAGCTAGATTTTAGAATATCTGTAAATGGATGGCCTGTGTGCCTTTTGAGCAGTTCTCTCTAAATATTGTATGTCTCAA
CTCAGTTTTTAATTTAATTAATTAATTAATTWATTTATTTATTTATTTGGGGGGACAGGGTCTTGTTCTGTTGACCAGGCTGGAGTGCAGTGGCATGATC
ATGGCTCACTGCAGCCTCTACCTCCTGGGCTCAAGCAATCTTCCCACCTCAGCCTCCCGAGTAGCTGGGATCATAGCCATGTGGCACCATGCCCAGCTAA
TTTTTGTATTTTTTGTTGAGACAGGGTTTCGCCATGTTACCCGGGCTGCTCTTGAACTCCTCCTGGGCTCAAGTGATCCTTCCACCTCAGCCTCCCAAAG
TGCTGGTATTATAGGCATGAGACACTGTGCCTAGCTTCAGCTTAGTTTTTAGTAGTAGTACATAGCAATGAGTTCAAAGTTATACTACCTAAGAAGTATC
AGAGTGCAGATATTTTGTATTGCAAATTGGATTGAGAACATATGTTTAAGTAACAGTTGATCTTCAAAGTAGAAGCAAAAGAAAAATGAAAAATGAAGGT
TGATCTGTGGTAGGGTAAGTACTCCAGGAACATTATGAGGATTCCTAGCTAAATATGGTGGGCTAAGCAAGTATCCAGTTTAAGCAAAAATTTCCCTTGA
AACTTTGAGCAATGCCCTAGTTTTGAGCAATGTTCTTTTCTCACATGCCCTTCAAGATAAATCATCTGTGGTAAGTACACCAAGGTAACTACATATGATA
ATTTATTTTATGAGATTGTTAGATGCAGAAACAAAGCTTAGGGTTAGGAATCATTGGTCTGTAATCCTTTCTGATAATAATGAACTAGCATTCCAGTTGT
CTGCTAAAGCCATTTCTAGTTTAGGATAATAAAACCTATTAGTTTTTAAAAGAATATTTGTTTTTCTGTTTTCTTTAGCAAGAACATGTATCTTGCTCAG
TTTATAACATATCATTAAGTCACTTGTTAAAAGATGAGAGTTGGAACACAACCTTATTTTATGCCAAAGAAAAATTTTAACTTTTCTGCTGACTTCAACC
TTATGGTAATGCTCTGGTGCAGGTTCTGCATGAACAGCAGACAGAATATAATGGTTAAAGGTTGAAGCTCTAGAATTAAATAGACATGCCTCCATCACTT
TCTCTTTTTTTTTTCCTTTGACTACCCAAATTTATTCATTTTAAACTTGACATGATTTATCTTTTTTAACTCTTAATATAGCACTAGACCCTCTTTAAAA
TTTCATGGAAATAAAGGATTTATGACATATTTAAAATTTACTGGCTAAAATTTTAAAAAAAATTTAGATCAATTTATTTTAGGCCATTGTAATCTGGTTT
ATATGGTCCTAGAGGGATAATTGTGTACCACAAATCCTTTTTCTTTTTTTTTTCTTACACTTTAAGTTCTGGGATACATGTGCAGGACGTGCAGGTGTGT
TATGTAGGTATACACGTGCTCTGGTGGTTTGCTGCACCCATCAACGCATCTTCTACATTAGGTATTTCTCCTAATGCTATCCCTCCCCTAGCCCCCCACC
TCCCAACAGGCCCCAGTGTGTGATGTTCCCCTCCCTGTGTGCATGTGTTCTCATTGTTCAACTCCCACTTATGAGTGAGAAAATGCAGTGTTTGGTTTTC
TGTTCCTGTGTTAGTTTGCTGAGAGCCTCCATCACTTTCTAGCTATGGAGAAGTTACTTATATCCCTGAGCTTTGGTTTCCTCAATTATAAGAAGAGATG
GTAATAGTAGCTACCTCATATCATTTTCACAATAGATCTTGTCATTGTGGCAAAGACAGACCTCAGTTAACTGAGTTCCGTTTCATTTTTATCTTCCCTG
GAACAAAGAAAGACTGGATTTTTCAGCTTTGATTGTTACATGATTGAGGCAAGTGGTCAAAGCATAAACCATTGCATGTAAGCACTCTTTGCTCTCCCTT
TCCTTGCTGAAGCAATTTGAAAGCTCATGTTTGAGATGGTGGTTACACAGGATGGTTGACACCTGGGACACTCAAGTGTCATTTTAGGAGAATTGCCTGA
CCTGCAGAGGATTTTGCATGAGCAAGAAGTAAACCTGTGTTGTATTAAGACACTGGTTTTTCGGGTTTATTTGTTAGCATAGCATAACCTAGCCTATAGC
CAAGTTAACTTACAACCAGATCCTATCCCAGAGTCAGTGACCAAGGAAAGGTCAATAAAAACAACAAATAGGCCAGGCGTGGTGGCTTACGCCTGTAATC
CCACTTTGAGAGGCCGAGGTGGGAGGATTGCTTGAGGCCAGGAGTTCAAGACCAGTTGGGCAACATGGCAAGACCCCATCTCTACAAAATAAAATAAGAA
AATTAGCCAGACATGGTGGTGAATGACTGTAGTCCCAGCTGCTTGGGGGAGGCATAGGCAGGAGGATCGCTTGAGCCCAGGAGATCAAGGCTGCAGTGAG
CCGTGTTCATGCCATTGTACTCCAGCCTGGATGACAGAGCCTGATCCTGTCTCTTAAAAGATAAAAAAAGAGCTACAAATAATGGAGCAGTATATACTTG
GTAAGAGTATTTATATGAGTGATCTATGGTGCAATAACTCACCACTTGCTCCTTATTTTAAACATTAATATGCAAAGCCCTAACTTACAGTTTTTAAAGG
ACATGTTCAATAAACTAAGTTTGGTGGGAAGTGGGGCAGTAGTGGGCCTTTTAAAATATATGGGTTAAACTGTGCAGTTTGTCTATCATGGGGGCCATGA
TCATAGAGTTAATAAAGCTAAATATTTAGTGAGAATCAGAGCCCATTCTTCACAGTAGTTCTTAACTCTAGATTCATTTCCTCTGGATGTTTTTCACCTG
GGTGAGGCAGTATTACTAAGATCTCAATCAGTAATTGCCTGTTATCTTAAAAAACTGGACACATGACCTTTCATTTGTTGAGCTGGAAACTTTCAACCTC
CCAGACACCAGCCATGTGTGGACCTTCACAAGTTTAGCAGATTCGTGCCTTGGTTAACATTGCCTACATTCTACCTTATTTCTAGATTTAAGAGCCAGAC
TGGGATTTTTGTTTTTGTTTTTGTTTTTTTTTTAGCGAGAAATTTATAGTTAAACTTGACATTTTAACAGGGTTCCAACTGCCCACTTACAATTTTAACT
TCACATAGCCTCTTGTTAATCCAAGTTTTTTGGGTTTTGTTTTTGTGGGGAAATTCTTATTAAACTAGATACTAATGGGTTGTACTCACATTTGCTGGGA
CATTTTGCTGTTAAAACTATTTTAAAGTTATCAGCATGTCTGTTGGTACGTTAAGAAAGGAGCAATTGGCCAGGCGCCATGGCTCATGCCTGTAATCCCA
GTACTTTGGGAGGCCAAGGCAGGCGGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTGACAAACATGGAGAAACCTGTCTCTACTGAAAATACAAAATT
AGCCGGGTGTGGTGGCAAGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGATTCTCCTGCAGGAGGTGGAGGTTGCAGTGAGC
CGAGATTGTGCCATTGCACTCCAGCCCGGGCAACAAGAATGAAACTCTGTCTCTCTCAAAAAATAAATAAATAAATAAATAAGGAGAAATTATGGCCTTA
GAGTAAACAGAGGTGTTTTTTTTTACATGTTCTAAGTATGAGATCACCAGTATTGGTTTGAAAGCCCGTCCCACTCTTTCCACATAACTACTTTATTTAT
TCACTGTAGGATATTTACTAGGTTCCTGTCTAAAATAAGTATTATGAAAAAGCTAGTGTTAAATATCATCTAGCTTCTTAGGGAACTGAACAAGATTAGA
AGGAAAGGTTTCTTKTAGCTGCTTAGATGACAGCTCCCTTGAACATGAAAAAATTAAAGGTGACCAATATATAAAAGGCACAAAACCGTGGCTCTGAGGA
GGGTGTTGGGGGCAGTGGGTGAAAAATTGTTAAGGGGTTAATGCAGAGTTCATGGTCCTTGGTTTGAAAATGAGATATACTTTTATTTTCTCTATGATTT
GTCTTTCATGGTTGGCCTGAATTACAGAATTTAGAACCTTAAAAATTAAAATAACCATCCAGAAGTAGAACTGACCCAATCACGAGAGCTCTCATTTTGC
CCAAGTTTCCTGTTGGTTCTCAAGATGATCAAAGGAAGCTATAGAGAGTAGCACTTCAAGAGGCTTCTTCCATGATACTTCAGAAAGGGAAGGGGAGCAG
AATCATGTGATAATAACGCGGCTTTAAAAAGGCTATTGTAAAGGTAGCACCAGAACCTCACTTCTGCATCCCTCTTGCCTCTTCTATCTGTCATGACCCT
TTTTAAGGGAGTTCCCATGTGACAGTTCCATACAGGATCAGCCCAAGGCACTGGATGAAGCTTCTAAGAACAGATCATTTGTATCTATTGGAGATTGTGG
AATTTTAAGACCCACCATTTCTTACATAAAGAAGGACTAGATTGTGTGAAATGTCAGCCAATGCCCTTTCTCCAGGTTAAATGTGTGATCTGCTCTAGAG
TGTGTGATTTTGGGGAAAATTCTTTGTAACATGGTTCATGTTTTTTGGATAGAGATTCATAGTTGGTGCAGAATTCATCTGGAGGAGACAAAGAATTAGC
AGATGCAGATCGAGAAAGAGTCACTTGCCATAATCCTCATCTTTTTATAAGGTAGTCTTTCCATACCACATATATTTCTTTGGACTTGCTTCTTAGTGGC
TGTTAAGATAATGGGCCACAAAACTGTAGCAGGGAAGGTTAGGAGGTTAGAATATGCTAAGTTGGAAATAAAATTGAAACATAAAAAGACTGTCTTCTAT
GATGACATTTTTTATTTTCTCTGGTGGGGGAAAGGTGGACAAGTAGTTCCTTAGTTTGGTGATCCTGCGCAGCTGCTTTAATTGTAGATGAGAAAGTTCT
TCCATTTCTGGAGAAACATTAGTTACAGTTGATAGGTTACCATATATGGTCAGTTCTACTTTGTAATTATCCTCCAAATCCATTCTTCTTATTCCATCTC
TTCTTCTACTGCCTTTGTTGATTGCAATGATCATTTCTGACTTACTTGACTTCAGTATACTCCTGAGTGCTCAGCCTCTATTATKCTGAAAATCACTGTT
AAATAAAATGTGTTTGAATATACCATGCCCCTTAAAAAAGAGAATGTAAAAGAACTCGATTTCTCCCAGAGTAAAGGACAAACTCTAGCAAGGCATATAA
GGGCTCTTCATACTCTGGCCCTTTCCATGCCTCCCCGTGCTGTCCCACCATGAGTACTGCATATTAGTACTTGTTTTCCTAAATACTACACTTCACAGAT
GTGCCAACATTTTCTCCAAGACATTAAGATCCTCTAACATTCCTCCCCTGCTCCTTTTAACGTTATTGATTCATACTTGTAGTAATTCATCTCTAAATAA
TCTCCTCCTCAGCGTTATGTTTCCTGACACTCTTCTAACCATTTCCTCTCTCTTTTACATATTGGCTACATTAAGGGTCTCATTAGGTTTCCTAACACCT
GGTACTTACCTCTCAAACTGCATTGCATTTGCAGATTTTTGAGAGTGCACCCTTTAAAAACAGAAGAGCATTTTTCACATTCTCCTCATCTGATCAGAAA
AATATCTTCTCAGCTTAAGTCCATGAGATGTTTCCTATAAACTGGTGAGAAGACAGTGGGACTACCGAGGATAAACTGGCTAAATCCAAAAGTGTTTGAA
GATTGGTTGATGGGAGGTCAGCTTCTGTCTAGTTGCTTCCATTGACAATACATTTTTAATGAAATGCTCTTTCTCATAATCAGTGAGAACCATGAGAATC
ATTATGGCTGATCCTAAAACTGTTCGTCTAAATCRAATTMTGGTAATCTCCTTTATTCATGAATTAGGAATTATTTACTATCAGGAATAGTAAAAGCAAT
AATAATGAACTTGGTTTGAAATGATTAGGTAGAGTGGCATAATTGAAGGTGGAAAGGTGGTTAGGACAGAAGCTTTAGCTTCTCATAGTCTGTCCATTTG
AGAACTTCTAACCACTCTGTAGTGTTAGTTAGTGCCAAATGTGGACCACTGGCAGAAGTCTTCAGTGAAGAGAGGCTTTCATGGAAGTATATTTATTGGT
AGGCATGTACGAATCTAGTTATTAATTCCTTAATTAGTGGATTCCTTGATTACATGTCAGCTGTGTATCAGACACTGGTTTAAAATTTGTAAATGATATA
GCTAAAGCATCTACATTAAAAAAGTAGAAGAACTCCAAATAACCTAATGATGCATCTTAAAGAACTAGAAAAGCCAGAGCAAACCAAACGCAAAATTACT
AGAAGAAAAGAAATAATAAAGATCAGAGCAGAAATAAATGAAATTGAAGCAAAGAAAACAATACCAAAGTTCAATGAAACAAACAGTTGGTTTCTTGAAA
ATATACACAAAACTAACGAACATTTAGCCAGACTAAGAAAAAAAGATCCAAATAAAATCAGAGAAGAAAAAGAAGACATTATAACCGATACCGTAGAAAT
TCAAAGGATCATTAGAAGCTACTATGCCAAGAAATGGGAAAACCTGGAAGAAACGGATAAATTCCTCGACACATACAATCTTCCAAGATTGAACAATGAA
GAAGTCCAAAACCTGAGCAGACCAATAACAAGTAATAAGATTGAAGCTGTAATAAAAATTTCCCAGCAAAAAAAAAGTTCAGGACCTGATGGCTTCACTG
CTGAATTTTACCAAATATTTAAAGAAGAACTAATACCAATCCTCCTGAAACTATTCTGAAAAATAGAGGAGGAAATATTTCCAAATGTACTGTATGAGGC
CAGTATTACCCTGATACCCAAACCAGACAAAGACACATCAAAAACAAAACAAAACAAAACCAAAAAAAAAMCACTACAGGCCAGTATCCCTGATGAATAT
TGATACTCAACAAAATACTAGCAAACCGAATTCTACAACACATTTAAAAGATCATTCGTCATGACCAAGTGGAATCTATCCCAGGGATGCAAGCGTGGTT
CAACATATGCAGATCAATCAGTGTGGTACGTTATATCAACAAAGTGAAGGACAAAACCCATATGATCATTTCAATTGATGCTGAAAAAATATCGGATAAA
ATTCAACATCTCTTCATGACAAAACCCTCAAAAAACCGGGTATGCCTCAATTCAGTAAACACCGTTTATGACAGACCCACAGCTCATATCATAGTGAAAG
GGGGAAATACTTGAAGCTTTTCCTCTAAGATCTGGAACATGACAAAGATGCCCACTTTCACCACTRTGATTCAACACAGTAGTGGAAGTCCTAGTTAGAG
CAGTCAGACAAGAGAAAGAAAGAAAGGGCATCCAAGTTGGAATGGAAGAAGTCAAAATGTCCTTGTTTGCAGATGATATGATTTTATATTTGGAAAAACC
TAAAGACTCCACCAAAAACCTATTAGAACTGATGAACAGATTCAATAAGTTTTCAGGATACAAAATCAACRTACAAAAATTGGCGCATTTATTTATGCCA
GCARTGAACAGGCTGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCC
TGGCCAATATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGTAGGCACCTGTAATCCCAGCTACTCAAGAGGTTGAGGCAG
GAGAATCACTTGAACCCGAGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAATAAA
AGCAAAAAGTGAACAATCTGAAAAAGAAATAAAAAATTAATCTCATTTACAATAGCAACAAATAAAATAAAATACCTAGGAATTAGTGTGACCAAAGAAG
TGAGAGATCTCTACAATGAAAGCTGTAAAACACTGATGAAAGAAATTAAAGAGGATACATCAAAAGAGGAAATACATTCTGTGTTCATTGATTGAAAGAA
TCAATATTGTTAAAATGGCCATACTACTTAAAGCAATCTACAGATTCAATGCAATTCCTATCAAAATACCAATGACATTCTTCACAGAAATAGAAAAAGC
AATCCTAATTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGTTTTGTCACCCAGGCTGAAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTGCCTC
CCGGATTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGGTTACAGGCATGTGCCACCATGCCTGGCTAATTTTTTTGTACTTTTAGTAGAGAC
GAGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACTTTGTGATCCACCCACCTCACCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCG
CGCCCAGCCAGCAATCCTAAAATTTATATGGACCCACAAAAGACTCATAATAGCCAAAGCTATCCTGAGCAAAAAGAACAAAACTGGAGGAATCAGATTA
CCTTACTTCAAATTGTACTACAAAGCCATAGTAACTAAAACAGCCTGGTACTGGCATAAACACAGACACATAGACCAATGAAACAGAATAGAGAACCCAG
AAACAAATACAGAAACCTACAGTGAACTCATTTTCAACAAAGGTGCCAAGAACATACATTGGGGAAAGGACAGTCTCTTTATTAAATGGTGCTGGGAAAA
CTGGATATCCATATGCAGAAGAATAAAACTAGACCCCTATCTCTGGCCATATACAAAAATCAAATAAAAATGCATTAAAGASTTTAAGACCTCTAACTAC
TAAAAGAAAACATTGGGGAAACTCTCTAGTACATTGAACTGGGCAAAGGTTTCTTGAGAAATACCCCACAAGCACAGGCAACCAAAACAAAAATGGACAT
AGGGGATCACATCAAGTTTAAAAGTTTCTGATGCACAGCAAAGGAAACGGTCAACAAAGAGAAGAGACGGCCCACAGAAGGGGAGAAAGTATTTGGAGTT
TCCTCAAAAAACTAAAAATAGACCTACCATATGATCCAGCAGTCCCACTGCTGGGTATATACCCAAAAGAGAGGAAATCAGTATATTGAAGAGAAAATGT
TTATTGCAGCACTATTCACAGTAGCTAAGATTTAGAAGCAACTGGTGTCCATTAAAAGATCAATGGATAAAGAAACTGTGATACATATACACAACAGAGT
ACTATTCAACCATAAAAAAGAATGAGAGCCTGTCATTTGCAACAAAATGGATAGAACTGGAGGTCATTATAGTAAGTAAAATAAGCTAGGCACAGAAAGA
CAAACTTAGCATGTTCTCACTTTTTTACGGAGCTAAAAATTAAAGTGGTTGAATTCATGGAGATACAAAGTAGAAGTCTGGGAAAGGTAGTGGGGATGGG
GGGTGAGAGGTGGGGATGGTTGGTGAGAGGTGGGGATGGTTAATGGATACAAAAATATAGTTAGAATGAATAAGATCTATTTGATATCACAATAGAGTGT
CTAAGGTCAACAATTTATTGTACATTTTTCAACAAGTGAAAGAGTATAATTGGATAGTTTGTAACACAAAGAAAGGATAAATGCTTGAGGCAATGAATAC
CCCATTTACCCTGATATGATTATTATGCATTGCATGCCTGTATCAAAGTATCTCATGTACCCCATAAATATATACACCTACTATGTGCCCACACAATTTA
AAAATAAAAAAGTTTTAAAAATAAAAATAAATTCTGTTTTAAAAAGAAGACACACATCCAGCCAACAATCATATGAAAAAAAGTTCGACATCACTGATCA
TTAGAGAAATCCAAATCAAAACCACAATGAGATACCATCTCATAGCAGTCAGAATGGTTATTACTAAAAGGTAGAAAATAATAGATGCTGGCGAGGTTGC
ATAGAAAAAGAAACACTTATACACTGTTGATGGAAGTGTAAACTACTTCAACCGTTGGGAAGACAGTGTGGCAATTCCTCAAAGACCTAAAAGCAGACAT
ACTGTTCGATCCAGCAATCCCATAACTGGGTATATACCCTTAGGAATAGAAATCTTTCTGTCATAAAGACACATGTACACATATGTTCCTTGCAGTGCTA
TTCACAGTAACAAAGACATGGAATCAACCTAAATGCCCATCAGTGGTAGAGTGCATAAAGAAAATGTGGTACATACGCACCATGGATTAGAATGCAGCCA
TAAAAAAAGAATGAAATCATGTCCTTTGCAGGAACAGAGGTGGAGCTGGAGGCCATTATCCTTAGCAAACTAATGCAGGAACAGAAAACCATGTACTACA
TGTTCCCACTTATAAGTGGGAGCAAAATGATGAGAACCTAGGGACACGTAGAAGGGAACAACAGACACTGTGGCCTATGTTGTGGGTGGAAGGAAGGAGA
GGACCAGGAAAAAATAACGAATGAGTACTAGGCTTAATACCTGGGTGACAAAATAATCTGTACAACAAGCCCCCATGAAACAAGTTTATCTACGTAATGA
ACTTACACATGTACCCCTGAACTTAAAAATTAAATTTAAAAAAATTATGTGAATGAAAAAATAAAGTGAACATAGTTCTTTGATTAGTACAGTGGCTAAA
AGGGAAGGATTCAGGGTTGTGGCAGAGTTTTCTTTTTGAGATGGGAGGAGCTTGATCATGTTTTATAGATCAAGAGGGTCTCAGTTTATAAAACGACATC
AAAGATTCAGAGATAAAAGGGATAATTTGTGTAATGAAATTTCGTGTAGGCCAGTTGGAGACGGGATTAGCCTCAGGTAGACCCATTTCTTTGAGATGGA
GAAGAAAGATGAGGATGGGCTGGACAGAGATAAATTTGTAGCTTGGGGATTGGAAGCTCAGAAAAAAAAAGCCCATAAGACCAGTTTTTACTGTGAAGTT
GGGAGTAAAGTCTTGCTGAGGAGGAGATTGAAGTGAGAATTGGGTAGGGGACTTGGTGTTTTGGAATGGTTGCTGTGGGAAACCAATTGAGAACCATTGA
AAGATTTGCAGAGCAAAACCCTGCAGGTCTGGTAGAGGTTGGAAGTGGAACCAGTTCATGTAGTTGTATTTTCCAGCATTGCTTAGTTTTCTTTGTATTG
GGGTGCAGAAGCAAAATGGTTAGATTGATCCTGGGTATTGTCAGAACAGGGATAAAGGAACTGAGGATAAAATAATTGAAGTGATGGGCCCATGGAATCC
AGTCTAGATAGGAAAAGAAATGAGAAAGGATGGGACCTGAAGGATGAGATAGGGGAGGAGTTGGGACCTGAGGTCTCCATGATGTTAAAGATTGGGTGTG
GCAATAAGGGAGAGCAAACTCTGGAAGAATAGAAACTGGTGTCTGTTGGAGTTTAAAGACAGAAGCGTGGATCTGAAGTGGTGCACAAGAAGTATAAGAA
TGCTAACATTGCCCCCCAGACCTTGCAACAGGTGTAGCAAGGCATGGAAAATGAGAAGATTGTATTTTCAAAATTGGCCAAGGAAGTAATTTCCTTGCAA
GAATCAGGCTTTTGTGAGGAGAAGAGGGGGAGGCAGAATGTTCTATACAGAGTTCATGGTAGAATGGGGATTCCCGAGGACTTATCTCTCTTCCCATCCT
CCACTTAGCATACATGGCCCAGTGCCTTGTACCTACATATCCGTAGGGGTTACATCAGGATTTCCCAAAGTCGGGTGCATGGGGTTGACTGTGCCACCAC
ATTTGTGGTGTGCTATAGTGAATTTTTGTTCATATGTGATTGCTTAGTGCACCTATAATGATATTTTGTAGTTTTAATTTAACCACTTCTCACAAATTGG
TCAAGTGGCTTAAAACGATTTCTGTAAAGAAGTAGTATTTTCTGTAGATAATATTAAAAGTGCAAGCACAAGTGAACCAACATAATCATCGTAGAGCTGC
ATTCTCTTGTTATTTACCAGGCATGTTATGTGATAAAAATGATGACCACCTGGGTTACCGGGTTGAAGGCGGGATGGTTGTGGGGAAATGAAAAGATGTA
GGTCAAAGGGTATAAAGCTGCAGTTTTGTAGGATGAGGAAGTTCTAGAGATCATGAGAACTATAGTTAAAAATACTGTGTTGTGTACTGGTAATTTACCA
AGATAGTAAATTKTAGGCACACACATGCACACACACACACACACCAGCAAGGTAACTATATGAGATGATGGGTATATTAATGTTTGTTTGACTGTAGTAA
TCACTTCATTATGGTAGGTATATCAACATAAGCATACAAAACATCACATTGTACACTTTAAATATATACAATAAAATAATAAAAATTTTAAAAAGCTAAA
AAGAGCTAAAATAAAAATGACTACCACCTAATTGCAACTGACAAATATAAAATTATCAAGAAAATATTTAAAATATAGTCTCACCTTTACTTTAACAGTG
AGCCTTGTCCTTAACATGTAGTGTGCCTTGAGATAATTAGCTAATGGAAGAACCATACTCAGCAAGACACTCTAATCTACACATTCGGAACATGAGGGCA
AACCCTGTGATTTTTTTTTCTCAATGTTTTAAGTCCTAGGATGCCCAGTGCATTATTTTTTACMAAATTTACTAAACATAATGATAAAGGCTTAGAACTC
TTTTTGAGTTTTCTTATTCAATAGCAAAAGACAAAAAGTCACAGACCATTGGGGAAACTCATGTTCCTCCTGCCACAGTAAAACTGGCTGAAATAATATG
AGGACAAAACAAAATGCATTCCTTATTAGCAAATGTTGTTAAAGGAGCATAGAAAACACTGCTAAAGCATTAAAGCAGAGTTTTTTTTWAAAAAAAACCT
GCAGATAGAAAGTTTGGTGTACTAAGTTGGAAGGAGATTTGTGGTATTTATAACATGTTACAACTTAGGGTATTTGTTAAGATTCTCTTTCAGTGAGAGA
ATAGGCAATTTTTTAAGAGCTGCTAAAGGAAAAATGCACCAGAAAAGAGATACAGTGAGGTGTATTAACAACGGGGATACAGTCTGAGAAGTGCTTTGTT
AGGCGATTTTGTCATTGTGCAAATATTATAAAGTATTCTTATATAAACTAGATGGTAGAGCCTACTACACACCTGAGGCTACATAGTATAGCCTATTGCT
CCTAGGCCACAAACTTGTACAGCATGTTACTGTGCTGAATACTATAGGCAGTTGTAACACATTGGTAAGTATTTGTGTTTCTAAACATAGGAAAAGTACA
GTAAAAATACAGTATAGGCCGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGA
CCAGCCTGGCCAACATGGCGAAATCCTGTCTCTACCAAAAATACAAAAATTAATCGGGCATGGTGGCAGGCGCCTGTAATCCCAGCAACTCGGGAGGCTG
AGGCAGGAGAATTGCTTGAACCTGGGAGGCAAAGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGTGACAGAGTGAGACTCCGTCTCAAAA
CAAAACAAAACGAACAAACAAAACAGCACAAAAGATGAAAAATGGTAGATCTGTATAGGGCACTTACTAGGAATGGAACTTGCAGGACTGGAAATTGCTC
TGGGTGATATCAATGAGTGAGTGGAGAGTGAATGTGAAGGCCTCAGACATTACTGTATGCTACTGTATACTTTAACGCCATATACTTAGGCCACACTAAA
TTTATAAAAAAATTAGTTGATGTTATGACACCTGTGACATCACTAGATAATAATAATTTTTCAGCTCCATTATAATCTTGTGGGGCCACCATCGTATATG
TGGTCCGTCGTTTACTAAAATATCCTTACGCAGTGTATGCCTGTATTGGCAACAGTAATGGCTTATTTAACAGAATGATGTGTTTTGGAAAAGGTGTGTA
AGAATGACCATTGAAGGAGTGGTGGCTGCTTTTCTCCAAATGTAAGGTAATGGAGATAACATGAAATGAGTTTACTACATCATTCATAGGCTAGTATAGG
AGAAGAGTTGAATCCAGAATTGCACGAAGTAGTATCACTGTGGATACTTTCCTAAAGCATGACCTTTAAAATATATTAGAGTCTTTGCAGTACTTTATAA
TGAGGTGGGAGTGACCATAGTTATTGTTTATACATCCATAGTTTTGCTCATTGTCTGTGATACAATATATAAAAGAACCCTTAAGCTCAAAGGTAAATTA
TGTGCTTTTCTTTTACAAAAATACAGCTTTTCCAATTTTCTTGAGCTTTTTCTTTCTTGGTGATAAATAGCTATGCAACCTACCATGTATTTTGTAAAAA
TTCTGTTGATTTAGGGAAGAGATGACATTTTAACTGAGTGAGAAGTAACTGCCTTCTGAAAGGAACTCCCCTCCATGCCCTGCAATGCAGGTTAAAGCCA
AGCAATGAAAGAAACTTTTGCTATGTGGAGATGATTTTGAAAATAGGTACTAGGAAATATTTTTATTGTTACGTTATTTTCTTGTGAAAAGTAGTATATA
TCACCTGGAAAAACTCTTTCATTGACATACTTAAAACACTTGGAAATAGTTCCCCTTTGTTTTGAACTCCATTTAGTAAAAATGCAAAACTTTCTGATTA
GCTTATAAACTGATTGATATCAGGAAAAAATAGAAATTTACCAGATGAATTTTGACAATAACTTTTTCATAATTGCTAGATAGGCTAGATAGAATCCTGA
TTTAGTTCAGCTAAGCCACAGTGTACTTCTCCCATTTAGACCTTATTTCAGCTACATCCATGTATCAGAATAAACTGGGCTTAGAACCAACTCTTTGAAT
TGCTAGATCACTAAGAATTACATTAATAAAGCCTAGTCAATCACCTTGTTCTTGTTAAAATATTAATATTTAAAGGAGTCTTATACCTTTAAAAATGAAA
TTATTTAAAGTATATATCTTATTTTATATTGGCTTATTTTATTTTATAGTACAAATAATGTTTGGTTAATAGTATACATGTAATTTATATGTAAAATATA
TATTGGATTCTGTGGTCAGAGACTTTACTAATTTAGTGTGTAATCAAAACATTTGGAGATCACTAGATTCTGTGGTGCCTGGGATTTGTGTGGTGTTTCA
CTTTATGAAATGCTTTTGCAAATGTGTTCCAACTTGAACATCATCAACAGCCTTTTGATGCAGGGAAGTGTCATTATGCCCATTTTGTAGATGARGCATT
ATTCTCATTTTATGGAAAGGTAACTGAAAGTCAGAATATTTAGATGACTTGCCCARGGTCACACAGCTAGTTAATAGTGGCACCTCAGCGCCAGCACAGG
TGTTACTACTAGATGGTGCTTTTCCATTTAATCCATTCATTGCCTCTACTGGTCATTCCTTTATACTGGCCATTCCTATTGTTTTGACTTCATGTCCTAA
TCTATTACTTRTTTTTCAGAGTTCTCAGGTACTTGCTTTTTGTGTTTTYTCTAGCGGTTTTAGTTATAGTCAATGAGAGAGACAACACAAGTAAATTAAG
AAAAACTGGGAACAAAAGGATGGAWACCAACGAGAAAGACAATATATTAATGATGAAAATAAAAATGGTAGTAGGTGTCTCAGAAGTCAGATAAATGCAT
TTGATGTGCAAAACATTTCAAAGGAACCAGAGAAATGTAGTTCAGGCAGATAGGTTGTTTGAACATTGGCCTGAGGGAAGGCTAAAGATGAATGTAGAAA
ATATAGTGGGTGTGTATGATATAGATATAGTTTTGTGCTATAGTAAAGTTGGCATTTATAAGCATAATGAATTAAGAATTGTGACGTTTATTTTGATCAT
TGTGTGTGCTTTTGATTTTAACAAAACTTTGTATAACAACATGTAGTCTTCTATTTTGATTGTTCTGCCAGTACATATAACAAAATGAACAAAATAGAGG
AATTCTGTATAGGAATTAAAAGTTAAATATTACTCATCTGCTAAYAGATCTATGGATAAACTAAGTTTAACATATTGAATAAAAATGATTGGGTCAGAAA
AGTGACTTAGAAGTGTAGCATGGTTTCAGACGTCATTTTCTAGGTTACAATCACTGCCATAATCCAAGAACATGGAGATGTATTTAACAAAACTAAAATA
TAGTTTTAATAGGTTTTCATGAAAGTATGTTTTACATACAGCTTCTGTGGCCTTTTTCGTATTATAAATTCAAGGCATGGCTTGATCTTCTAGCCTAGTG
GCAACACGTCTGGAAATAACTATGCATCACTAAAACTTTCATAGGGATTTTGTGTGCTTTGAAATATTGCATATATGGTTATAAAATTCCCTTAGTATTT
ACTGGCATATTAAACAAAAATGGCACTGACAGGCATATTATTGTCTGTGTTAATAATCTACACATGAARCACTCCCTCAGTTCAGCTGAACATAGTTCTT
ACCTCTAATTGTTCATTAGGCCAGTGATCTGTTGTGCTCTTAGAAGGAAAACCAAAATGGTGCAATTAAAATTTGAACCAATACCTGAAGTAGCTATACT
TTTCCTTTTTTATTATTAAATGGAAAGATATTCTGAAATTTATGATAGTTTCAGTGGTTTAGAAGATGTTGGAGAATTATATTGAGCTTATCATAGTTTA
AAGAACCCTGGACTGGGAGTCAAATCATTGAGATCTAGTTAACAACAGCTATGTTGTTGATGTGCCACATCTCAGTGGGCAAGTCAGTTACGCTTCTCCT
AACAAATGCGAACTGGTCTAGTGTGGCTTGATCACTAATGGTTAAGCTTCTACACATAATTAGCATAAACAAATGATTTATTAAGCTTTAAAGATAGACC
TCCAGTGATGTAGTCACATAATCTAGAAAAGCTGGTCAGCACTACATTAASTTTTAGGGTATCTGGAGGAATCTTCCCAGTCAGCCCATAGAATTTTAAG
CCAGTGTAGTCTGTCCACTCTGAGAAGCTGGAGCATCATTAAGGATCCCTTATCTCCATGTGAGCAGCTCTCCTCCGGGTTGCACAGCCATCCTTTATCT
TCCTTCTGGTTGTGTAGTAAGTATTCATGTTCCTAAGAATGTGCAGAATGAAGAGATTCAATTTAACAGATGCCTGTTAAACTCTAACTGAATATAAGTA
GAAATTCTCTTTAAAAACACACACTGGATTAAACAGTCTTGTCATTTTCTCTTTCATTTCCATCTGACTATGTCCATTGGCATGCTCTGTGTTTGCAGCT
GGCCAGCTACACTCTAGAATGCCAGTGTTCCTACCAGCAGAGGTGTGTGCTTACCAAACAGCAGTTATGCTTATTTCTGAAACTTTTTATTACGTTGTGC
ATATTATTGGAGTTAAATAATTCCAGATTGCACAAGCTAATGAATTATGAGTGTGAAAAGAGAATCATTGTTGCTGTTAAGGCAAAGTAGAATGCAAAAG
ACTTGATAAAGATAAGCACAGAACAGAAATAGATATTGAATTAGACGTGGCTACAACAACTGAAAGCAAAAAAACCTGTAAAAATATGGAAGGATTATGC
ACTCACCTTGTTTCATACATGCCTTTAAATCCATGCTGTAACTCAAAGAAAGTGAAACTGTGTCCTTATTTATATAGYGGTGAGTAAAAAATACATAAAT
AAACTGCAAGCCATAGATGTTGCATTCTAGATGTGTTCATGTATCCATTTTAAATYAGAATGTTTAAAGTATGTATGGTTGTTGTGGTCACCTGCTTTAA
GGTGAGTTTCTATTAACTGACCAATTATTGTTCATGATCCTACTAAGAGGGCTTCCTTATACTTGATAGTTGAACATAGTCAATCTACTTAAACCTTTGG
AAAACGGTGGTGTTTGCAGCTTGGGCCTGCTTTCCATATGTATTCCTGCAACTTCCTCCAGTGGCCCCTTTACCTGTGTCTTCCCATCTTTCATGTGAGA
ACCATCATTTCTCCTTTAAGTTTACAGAAAAGTGTCAAATTTAAGTAAGATATGGATATGAAAAAAGTTAGAAATAAATGTGCGTGCTATATACTATAGA
TACTGTAATCTTATTATTTATAATAGGGAATCTATGACTCATGATTTAAGAAAATGCCCAGCTTAGACTTAGGTTTTATGTACAAAATCGATAACTTTTG
CTTTCTTATTTGGCATTTTGAAACACCAGTTTGAGTGATTTCTTTAATTCTGAATAAACTAAACTAAACCTAAACTAGTAAACTAAAAACGATGATGAGT
TAACTTCTATGGCTTGGAAGATATTGAAGATGTTAGAGAATTAATTGGTCTCAAGCCCTATGGGTATTAGAGTTTAAAGAACCCTATACCTGGAATCAGA
CTAGCTGGTCTGGTATCAGCTGTGCTCTTGATAGTACTTGTCTTTGATGCTCTGATCYTGGTCTGTTCATCATTGTTAAATTTCACAGGGATTTATAAAA
GATTTCTTGAATTAACAAAAGGCTTTGGTCCGATTCACATAAAAGCAGACATTAACTTCTTTATTTAACACTTTTCATCTTGGAAAATGAAACTGCTATC
ATATGATTCTTTTCTTTTTTTTTTTGAGAAGGAGTTTCCCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCGCCTCC
CAGGTTCAAGCAATTATTTTGCCTCAGCCTCCCTAGTAGGTGGGATTACAGGCATGTGCCACCACGCCAAGCTAATTTTGTATTTTTAGTAGAGACGTTG
TTTCACCATGTTGGTCAGGCTGGTTTTGAACTCCTGACGTCAGGTGATCTGCCCGCCTCAGCCTCCCAAAGTACTGGGATTACAGGCATGAGCCACCGCG
CCTGGCCTATCATACAGTTCTTAATTATGTGCATTTGAATTGTCCTTTAATTGGTAGTTAGCTTTTGGCTGCACTGCCTTGCCAGATACACACACACACA
CACACACACACACACACACACACACACACACACGCTTTGGGTTCAGATAGATCTGAGTTTGAATCCTGGCTCTGCTGCTTACTAGCTCTGTGACTTTGGA
AAGTTGTTTTTTTAAATTTCTACAACAGCCTGATAATATATACTTCATGAAGTTAATGAAGATAAAAAGAGAATTTGAGTGAAGTACATGGGCTTATGGC
ATAGAAGGCACTCAGTAAATACTCCCTTTCTCTCAGAGTCAATTAAAAATTTTCATTTTATGTTATGGATAAAAAGGAAAACTTGCAAGCTGTACATCTA
TTCACTTGATGTGATAGGTCTGGAAACCATTTGTAATGAAATAGATTAAGAGGAAGGTAGCATTTGCTATTGTGAGCTTCCACCATTTCTAAAGTTGGTT
CATCCATTTCTTAAGTGCAGGTATTAACAGATCTTTAGAATTTGAGCATTTAGTGTTTGCGGCCCTGGATACTGACTTTGAATGTGTGGCCRACAAACTG
AAGGGAGAGGAGCCAGTTGAAGGCTGTAGAAAAGAATAAATAAGGTTTATTGTGGTCATACTGACTCAAAGTAGTCTTCTTTCAAGCAATATATCACTTT
TATTACTAAGAGTTGGGGGAAAAAAAAATTTACCTTTATGTGCTATTACATCTTTCTGTTTAAAAAAGTTTCACCTTGCTTTTTTTGTTTCTCCAGCCAC
TGTTCCATCCCTGACCCATCTTTGTCGTTTGGAAATTCGGTCCAGTCTAAAATCAGAACGTCTACGGTCTGACAGTTATATTAGTCAGCTGCCACTTCCC
AGAAGCCTACATAATTATTTGCTCTATGAAGACGTTCTGAGGATGTATGAAGTTCCAGAACTGGCAGCTATTCAAGATGGATAAATCAGTGAAACTACTT
AACACAGCTAATTTTTTTCTCTGAAAAATCATCGAGACAAAAGAGCCACAGAGTACAAGTTTTTATGATTTTATAGTCAAAAGATGATTATTGATTGTSA
GATAGGTTAGGTTTTGGGGGGCCAGTAGTTCAGTGAGAATGTTTATGTTTACAACTAGCCTTCCCAGTAAAAAAAAAAAAAAAAAAAAAAAAAATTGTAA
ACATCACTTATATTACTTTATTGCAGCTTCATCACCAGTACATTATATGTTGTAATATTTATTTACCTGATCATTTTGATCATTTTCTGCTTTATTTTGC
TAATAAACTGTGATGTTACTTCTAGTGCTAAACATGGCATATTTCCACCTATGATTCGTGTTTACCTGGTATTAGGAGCTCAGAATGGAATGCATAAAGC
TTCACTGGAAGTGTATACAACTGTGGTGTAGAATCTGTTATTATTATCATTATTATTTTATTTAGACTTGACTATCTCTTATGTTTATTAAAGAACATGT
TTTCCTATTCAGTTGCTTTTTTTTTTTTTTTTTTTTTGGAGACAGAATCTTGCATTGTCACCGAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCA
ACCTCTGCCCCAGGGTAATTCAGTCACTTTTATGAAGAATTGATACTCATTGCCGTTTCACATGTAAACTCACAGGAAAAAATTACTTTGAAAGAACATA
GAAAATCAATCATATTGCTGGGTTTTCCCTTCCAGTTTCTTTTCATTCTTTGGCAAAACAAACAAACAAACAAAACCAACCAACCCAATTCTAATCTGCA
AAGGCAAGAACAGCCCTAAACTCAAAGATGTGCTCAGCTGGGAAAAAAAATGGTTTSAGTTTTGAGATAAATGGGCATGTTAGCACAATTAGGATTTTAA
TCAGGAGACTGAGAGGGGCATGTCTGTGGCACCATCTTTAAAGAAAGAAAGGGGCCGGGCGTGGTGACTCACGCCCTTAATCCCAGCACTTTGGGAGGCC
AAGGCAGGCGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACATGGTGAAACCCCATCTGTACTAAAAATACAAAAAAATTATCTGTGCATGGT
GATGGGTGCCTGTAGTCCCAACTACCCTGGAGGCTGAGGCAGTAGAATGGCGTGAACCTGGGAGACGGAGCTTGCAGTGAGCCGAGATGGCGCCACTGCA
CTCCAGCCTGGGAGACAGAGTGAGACTCCGTCTCGAAAGAAAGAAAGGTAGGTATTACCGAGTTACTTAGTATTATATATAAAATTCAGGTTCCATTCAG
CTCTAGAATCATTGAGCAGCTTTGTTCCTATGAAGCAGTAATAGCCAGTTCTACTAATATTATGGTGTTTTTCCTTCTTATTATCTAGATAAGCTGTCAA
ACAGTCCATGAAATAAAGACCTCAGAATCCTAGATTAATGAGGCGCCACCTCATGGGTTTTTACAATTGCTTGATCTAAATCTAGAGTCAGGAAGAACTA
AACGCTGGATCAAGTGAGCCATGATAAGAGGCTATAGAGAGTGACCTTGAGAAAAAGGTTATGAGAGCATTACTGTCACAGTAGACTACCAGGAGGCAAT
GTCTTCTGTCCTGTTGGGATCCTGTGGCTTAAAATAGATGAGAGCGGGCCAGCTGTGCCTGTTTCTGATAGACGTTTGGTGTTTGGCAAAAGCAGTGATG
AAGGTGGACCAAACAAGGATGACATCACTAAGACCCAAAGGGATGACTGAGCTGTTACCTCAGACTAGAACTGCCTGTGGGTTGGAGATAAGAGTTTGAA
TGTGGGTGTACAGGCAGAAATAAGGTTGCATATAGAAAACCAGGTGGACATTCTGATAATTTCATATGGAAATTCCAAAACTGTGTATATTGTATAGTAT
TTTTTAAATGTCATAATCTTTATTTTCTAAACCCTAAGTCTCTGATTTGTAAGATAGCACCCAGCTTTTTCTTGGGGGAAAATGTATGTAGAATGTTTAA
TTTTTTTTTTTAATTTTTATCTATTTCTATAGGTTGCTGGGGAACAGGTAGCATTTGGTTACATGAGTAAGTTCTTTAGTGGTGATGTGTGAGATTTTGG
TGCACCCATCACCCAAGCAGTGTACACTGTACCCAATATGTAGTCTTTTTTTTTTTTTTTTAATAAGTAGACAGTTTATTTGGGTCAAGTTTAAGGATTA
TAACCTGGGAGCAAAGACTCAAGTTGCCTGGAATCTACACTTTGATTAGCAGCAGTTGCCAATGTGTAGTCTTTTATCCCTCACCCTCCTCTCACCCTTT
CCCTGAGTCCCCAAAATCCCCTGTATTATTCTTACGCCTTTGCATCCTCATGGCTTAGCTCCCACTCATGACCGAGAACATACGATGTTTGATTTTCCAT
TTCTCAGTTACTTCACTTAGAATAATGGTCTCCAATTCCATCCAGGTTGCCGCAGATGTAATTATTTCACTTTTTTTTTTTTTTTTTTTTTTGAGATGGC
GTTTCGGTCATTGCCCAGGCTGGAGTGCAATGGCGCGCTCTCGGCTCACCGCAGCTTCCACCTCCCGTGTTATAAAGCAATTTTCCTGAGTAGCCAGGAT
TACAGGCATGCGCCACCACGCCCGCCTAATTTTGTATTTTTAGTAGAGAAGAGGTTTCTCCATGTTGATCAGGCTGGTCTCAAACTCCTGACCTCAGGTG
ATCGGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCTGCTCTTTTTTTTTTTTTTTTTTTTTTTTAAACGATCTT
TCTATTCTTTTTTTTTTTTTTTAGTACTTTAAATTCCAGGGTACATGTGCAGAACATGCCGGTTTGTTATGTAGGTATACATGTGCCATGGTGTTTTGCT
GTGCCCATCAACCCATCATCTATATTAGGTATTTCTCCTAATGCTATCCCTCCCCTAGCCCCCAACCCCCTGACAGGCCCCGGTGTGTGATGTTCCCCTC
CTGGTGTCCATGTGTTCTCATTGTTCAACTCCCACTTATGAGTGAGGACATGTGGTGTTTGGTTTTCTGTTCTTTTGTTAGTTTGCCGAGAATGATAGTT
TCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGTCACACTTTCTTTTTCCAGT
CTATCATTGATGGGCATTTGGGTTGGTTCCAAGTCTTTGCTATTATGAACAGTGCCGCAATAAACATACGTGTGCATGTGTCTATGTGGTAGCATGATTT
ATAATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAACGGTATTTCTAGTTCTAGATCCTTGAGGAATCGCCACGCTGTCTTCCACAGTAGT
TAAGCTAATTTACACTCTCACCAACAGTGTAAAAGTGTTTCTATTTCTCCACATCCTCTCCAGCATCTGTTGTTTCCTGACTTTTTAATGATAGCTGTTC
TAACTGGCATGAGATGGCATCTCATTGTGGTTTTGATTCGCATTTCTCTGATGACCAGTGATGATGAGCATTTTTTCATATGTTTTTTGGCTGTATAAAT
GTCTTCTTTTTCAAAGTGTCTGTTCATATCCTTCACCCACTTTTTGATGGGGTTTTTTTCTTGTAAATCTGTTTAAATTCTTTGTAGATTCTTGATATTA
GCCCTTTGTCAGATGGATAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTATTCACTCTGACGATAGTTTATTTTGCTGTGCAGAAGCTTCTTAG
TTTCATTAGATGCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGTCATGAAGTGTTTGCCCATGCCTGCGTCCTGAATAATATTG
CCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTTATTTTTAAGTCGTTAATCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGATCCAA
TTTCAGCTTTTTGCATATGGCTAGCCAGTTTTCCCAACACCATTTATTAAATAAGGAATCCTTTCCCCATTTCTTGCTTTTGTCAGGTTTGTCAGAGATC
AGATGGTTGTACATGTGTGGTGGTGTTATATCTGAGGCCTCTGTTCTGTTCCATTGGTCTATATATCTCTGTTGGGTACCAGTACCATGCTGTTTTGGTT
ACTGTAGCTTGTAGTATAGTTTGAAGTCAAGTAGAGTGAAGCCTCCAACTTTGTTCTTTTTGCTTAGGGTTGTCTTGGCTATGCGAGTCTTTTTTGGTTC
CATATGAAATTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCAATAGTAGCTTGATGGGGATAGCATTGAATCTATAAATTACTTTGGGCAGTATGG
CCATTTTCACGATACTGATTCTCCCTATCCATAAGCATGGAATGTTCTTCCATTTGTTTGTGTCTTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTC
TTTGAAGAGTTCCTTCACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGCAATAGTGAATGGGAGTTCACTCATGATTTGGCTCTGT
CTGTCTGTTATTGGTATATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAACTTAAGGAGATTTAGG
GCTGAGACGATGGGGTTTTCTAAATGTACAAGCATGCCATCTGCAAACAGAGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCTTTCT
CTTGCCTGATTGCCCTGACCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCGTGTCTTGTGCCGGTTTTCAAAGGGAATGCTTC
CAGTTTTTGCCAATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCTCTTATTATTTTGAGAATACATTCCATCAATACCTAGTTTATTGAGAGT
TTTTAGCATTAAGTGCTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATCGTGGTTTTTGCCATTAGTTTTGTTTATGTCTTGGATTAT
GTTTATTGATTTGCATATGTTGAATCAGCCTTGCATCCCAGGGATGAAGCCGACTTGATCGTGGTGGATAAGCTTTTTGATGTGCTGCTGGATTTATTTT
GCTAGTATTTTATTGAGGATTTTCGCATCGATGTTCATCAGGGTTATTGGCTTAAAATTTTCTTTTTTTGTTGTGTCTCTGCCAGGTTTTGGTATCAGGA
TGCTGGCCTCATAAAATGAATTAGGGGGGATTCCCTCTCTTTCTATTGTTTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGTACCTCTGGTA
GAATTGGCTGTGAATCTGTCTGGTCCTGGAGTTTTTTTGGTTGGTAAGCTATTAAATACTGCCTCAATTTCAGAACTTGTGATTGATCTATTCAGGGATT
TGACTTCTTCCTGGTTTAGCCTTAGGAGGGTGTATGTGTCCAGGAATTTATCTATTTCTTCTAGATTTTCTAGTTTATTTGCATATAGGTGTTTATAGTA
TTCTCTGATGGTAGTTTGTATTTCTTTGGGATGGGAGGTGAAATCCCCTTTATCATTTTTTATTGTGTCTATTTGATTCGTCTGTCTTTTCTTCTTTATT
GGTCTGGCTAGCAGTCTGTCTATTTTGTTGATCTTTTCAGAAAACCATCTCCTGGATTCACTGATTTTTTTTGAAGGCTTTTCGGTCTCTAGCTCCTTCA
TTTTTGCTCTGATCTTGGTTATTATTTGTCTTCTGCTAGTTTTTGAATTTGTTTGCTCTTGCTTCTCTAGTTCTTCTAATTGTGGTGGTAGGGTGTCAAT
TTTAGATCTCTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATACATTTCCCTCTACACCCTGCTTTAAATGTGTCCCAGAGATTCTGGTACATTGTGTCT
TTGTTCTCATTGGTTTCAAAGAACATCTTTATTTCTGCGTTCATTTCATTATTTACCCACTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTG
TGTGGTTTTGAGTGAGTTTCTTAGTCCTGAGTTCTAATTTGATTGCACTGTGATCAGACAGACTGTCTGTTATGATTTCTGTTCTTTTGCATTTGCTGAG
GAGTGTTTTACTTCCAATGATGTGGTCAATTTTAGAATAAGGGCAATGTGGTGCTGAGAAGAATGTATATCCTGTTGATTTGGGGTGGAGAGTTCTATAG
ATGTCTATTAGGTCCACTTGGTCCAGAGTTGAGTTCAAGTCCTGGATATCCTTGTTAATTTTCTGTCTTGTTGATCTGTCTAGTGTTGACAGTGAAGTGT
TAAAGTCTCCCRTTATTATTGTGTGGGAGTCTAAGTCTCTTTATAGGTCTCTAAGAACTTGCTTTACAATCTGGGTGCTCCTTTATTGGGTGCATATATA
TTTAGGATAGT


SNP Information

Context             (SEQ ID NO:25492):
ATTTATAAAGAAAAAGGTTTAATTGGCCCATAGTTCCACAGGTTGTACAGGAACCATGATGTTGGTGTCTGCTCAGCTTTTGGAGACACTTCAGGAAACA
W
AATCATGGCAGAAGGCGAAGTGAGAGCAGGCTGCTTCTTACATGGCAGGAGCAGGAGCAAGAGAGTGAGTGTGGGAGGTGCCACACACTTTTAAACAACT
Celera SNP ID:            hCV26433835
SNP Position Genomic:     84669
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25493):
TTTATAAAGAAAAAGGTTTAATTGGCCCATAGTTCCACAGGTTGTACAGGAACCATGATGTTGGTGTCTGCTCAGCTTTTGGAGACACTTCAGGAAACAT
W
ATCATGGCAGAAGGCGAAGTGAGAGCAGGCTGCTTCTTACATGGCAGGAGCAGGAGCAAGAGAGTGAGTGTGGGAGGTGCCACACACTTTTAAACAACTA
Celera SNP ID:            hCV26433836
SNP Position Genomic:     84670
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25494):
GGATATGTCTCCCTTTTGGAATGGGAATGTTTGTCTTATGCCTGTCCCACCATTGAATTTTGGAAGTAGATAACTTGTTTGATTTCACAGGCTCACAGCT
S
GCAGGAATTTAAGGTAAATTATGCCTTGAGTCTCATCCCCCTCAGATACCAAAATCTATGTGTTACTGGAAAGGGGTCCCAATCTAGACCCAAGAGAGGG
Celera SNP ID:            hCV26433837
SNP Position Genomic:     95396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,4)      total(G,4|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25495):
TTGTTTAAAGTAAATTTTGTTTTCATGTTGAATTTTCTCTTACTGTGCTTCTTTTATGTGTGAGCACTGTTTTTCTGCATAGTTTTGAACTTCAAGGAGC
R
GAGTGGTAGAAAATGTGCAAACCCCCAAAATAAGGTCTAGACATTGGATTTTAATTTTTAAATCTCTCCTCTCAGTATCTGATGTTGTTCACTTCTTATA
Celera SNP ID:            hCV27496505
SNP Position Genomic:     90269
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,199|G,1080)   total(G,1080|A,199) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25496):
CTGCTTTGTTTTGAAAAGGATTTAAAACAGTTTATATAATACATATATATTATCACAAAACAGTAAAACAGAAATTAAAAGTAGAAGGAAAAGAAAAACG
A
AAAAAAAAAGGTAGGAGATGGATAAAAAATGGAGTCAGGGAAAGCGTAGCAATGGGAATTTGATACTTGTCTGTTGATAGGCTGTACATTTGGCTCTGAG
Celera SNP ID:            hCV26433838
SNP Position Genomic:     102277
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25497):
GGAAAAGAAAAACGAAAAAAAAAAGGTAGGAGATGGATAAAAAATGGAGTCAGGGAAAGCGTAGCAATGGGAATTTGATACTTGTCTGTTGATAGGCTGT
A
CATTTGGCTCTGAGCTCTGTTGTCAATGACACTAGGTGACTGGGTTCATAAGATAAAATAAACCCATTCCTCAGAATAGATTTTCTTGGATGCTGTTACA
Celera SNP ID:            hCV26433839
SNP Position Genomic:     102363
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25498):
AGAAATGTTGCCTACATTTATGCACATATACAAACACTAAATTCTCCTGAATTTGTGTATTTATAGAATCTTGGACTTGTTAATACCACTTACTAACCGG
R
CCTGTGACACTGGGCTAAACAAAGTAAGCCCTGTTTACTCAGCAGTGTTTGGGGGACATGAAGATTGCCTAGAAATATTACTCCGGAATGGCTACAGCCC
Celera SNP ID:            hCV25649040
SNP Position Genomic:     78440
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,30)   total(A,1|G,61)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25499):
ATTTTCAACCTTGTCTGGATCTTGTTGAGCTTCCTTGCAATCCTTGCTTTGAATTCTTTATCTGTCATTTCTGAGTTTCCATTTGGGTCAGGAACCATTG
Y
GGGAACACGACTGTGATCCTTCAGTGGTGTCACTATATTTAGATTTTTCACAAATCCAAAATTCTTGGGGTAGTTCCTTTTCATCTGGAGATGTTCACAC
Celera SNP ID:            hCV1052987
SNP Position Genomic:     75311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25500):
TGTAATAGAGAGTATAGTCAATATTAGTTTTAAGGCGTGGCTCCCATATATGTCATATCTACTGATAATTTTTCATAAATCTTAGCCTGAATCAATTAGT
K
GCATAATTTGGATTTTATCTTTTTCAGCAGTTATCAGAAATATTATCCATGTTTGATAGTTTGCATTTTTCTTTTTAAATGTTTACTTATTGGGCCCCAG
Celera SNP ID:            hCV1052988
SNP Position Genomic:     75697
SNP Source:               dbSNP
Population(Allele,Count): (T,-|G,-)   Caucasian(T,21|G,61)   African-American(T,19|G,65)   total(G,126|T,40)   no_pop(T,-|G,-)   (G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25501):
TGGTAGAAGGTACACCCTAGACAGAAATATTTCTTTAAATGAATCAGTTGGTAATTCTGAAAAAAATTGTGCTATAGAAATGTTGCCTACATTTATGCAC
R
TATACAAACACTAAATTCTCCTGAATTTGTGTATTTATAGAATCTTGGACTTGTTAATACCACTTACTAACCGGGCCTGTGACACTGGGCTAAACAAAGT
Celera SNP ID:            hCV25649041
SNP Position Genomic:     78365
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,30)   total(A,63|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:25502):
CTGATAATTTTTCATAAATCTTAGCCTGAATCAATTAGTGGCATAATTTGGATTTTATCTTTTTCAGCAGTTATCAGAAATATTATCCATGTTTGATAGT
Y
TGCATTTTTCTTTTTAAATGTTTACTTATTGGGCCCCAGAATGCTTGTTGGAGGAGGGATTGGAATGAAATGTATCCTTCATTGAATAGGATTTTTGTTT
Celera SNP ID:            hCV1052989
SNP Position Genomic:     75758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25503):
GAGTAAATATATAGCATGTAATAGTTTAATGTTGTTGGTAGAAGGTACACCCTAGACAGAAATATTTCTTTAAATGAATCAGTTGGTAATTCTGAAAAAA
W
TTGTGCTATAGAAATGTTGCCTACATTTATGCACATATACAAACACTAAATTCTCCTGAATTTGTGTATTTATAGAATCTTGGACTTGTTAATACCACTT
Celera SNP ID:            hCV25649042
SNP Position Genomic:     78330
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|T,1)   total(A,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:25504):
CATGAGAAGGAAAGTTCCTACTCTCTCTGAGGTTCCTCTTGTCATCTCTTAGACAGCTACATAGAAAGTCAATTCAGTTAATAGGAACCTGTAGATGATT
S
TTAATATCCTCTGATCTTGCCTCTAGTTACATAAATACTTAACATGCCCTGGTTTTCTGTCTGCCCTCCTCATTGAGATTTTGTAAGAATAGGTATGTGG
Celera SNP ID:            hCV25649044
SNP Position Genomic:     98803
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,35)   caucasian(G,40)   total(C,3|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:25505):
CAAATGGGAGGAAATAATGGCAAATCCACTGATGTCATTGGTGCTGTCACCCATGAGAAGGAAAGTTCCTACTCTCTCTGAGGTTCCTCTTGTCATCTCT
W
AGACAGCTACATAGAAAGTCAATTCAGTTAATAGGAACCTGTAGATGATTGTTAATATCCTCTGATCTTGCCTCTAGTTACATAAATACTTAACATGCCC
Celera SNP ID:            hCV25649045
SNP Position Genomic:     98752
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(A,1|T,39)   total(A,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:25506):
TGTCTTATGCCTGTCCCACCATTGAATTTTGGAAGTAGATAACTTGTTTGATTTCACAGGCTCACAGCTGGCAGGAATTTAAGGTAAATTATGCCTTGAG
K
CTCATCCCCCTCAGATACCAAAATCTATGTGTTACTGGAAAGGGGTCCCAATCTAGACCCAAGAGAGGGTTCTTGGATCTCGTGCAAGAAAGAATTCGGG
Celera SNP ID:            hCV2797850
SNP Position Genomic:     95427
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25507):
CTCCTGGGATTTTTGTTGTTGTTGTTTGTTTTGAGACAAAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGAGGCATAATCTTGGCTCACTGCAACCTCC
R
CCTCTGGAGTTCAAGGGATTCTCCTTTTTCTCAGCCTTCCGAGTAGTTGGGATTACAGGCGCGCGCCGCTACACCCTAATTTTTGTATTTTTAGTAGAGG
Celera SNP ID:            hCV15918723
SNP Position Genomic:     7214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25508):
TTCAGGCAATAGTTCTGCCTCAGCTTCCTGAGTAGCTGGGCCTACAGGTGCATGCCACTACACCTGGCTAATTTTTAAATTTTTTATAGAGATGGTGCTC
Y
TCTGTTGCTCTGGCTGGTCTCTAGCTCCTAACCTGAAGTGATCCTCCCTTCACAGCATCCCATCACAGCACTCCAGAGTACTATGATGACAGGTGTGAGC
Celera SNP ID:            hCV15918724
SNP Position Genomic:     16347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25509):
AAAGAATACACTGGTATTATAAGGCTAATTAAAATAGGTGAAGAAAGGTTGTGATCTAAGGGAGTATCTCATATATTCTTTTCTGTTTGTTTTTGAGATG
M
AGTCTTGTCTGTTGCCCAGGCTGTGGTGCAGTGGCACGATCGTGGCCTACTGCAACCTCAGCCTCCCGGGTTCAAGCTATTCTCCTGCCTCAGCCTCTCA
Celera SNP ID:            hCV15918725
SNP Position Genomic:     18960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25510):
AAGTTGGTTCATCCATTTCTTAAGTGCAGGTATTAACAGATCTTTAGAATTTGAGCATTTAGTGTTTGCGGCCCTGGATACTGACTTTGAATGTGTGGCC
R
ACAAACTGAAGGGAGAGGAGCCAGTTGAAGGCTGTAGAAAAGAATAAATAAGGTTTATTGTGGTCATACTGACTCAAAGTAGTCTTCTTTCAAGCAATAT
Celera SNP ID:            hCV16182384
SNP Position Genomic:     122092
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,213|A,1090)   total(G,213|A,1090) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25511):
CTGCATTGTAACACTCAGAACCAATTTCATTTCATTGATCGTGGAAATTCAGACCCTCTTTCCTGCATACTTGTCATCACCAGGTATAGGTCCTTAAAAT
R
TAAACTTCTGGGTCCATAGCCCATCAGAACTACTAATTTGTTACCTGCTGGACGGGAAAGGAAATAATCTTTACATTGTTTTTGGTAGTGGTAGGTGTTT
Celera SNP ID:            hCV27514139
SNP Position Genomic:     28831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25512):
TAAAGCTGCAGTTTTGTAGGATGAGGAAGTTCTAGAGATCATGAGAACTATAGTTAAAAATACTGTGTTGTGTACTGGTAATTTACCAAGATAGTAAATT
K
TAGGCACACACATGCACACACACACACACACCAGCAAGGTAACTATATGAGATGATGGGTATATTAATGTTTGTTTGACTGTAGTAATCACTTCATTATG
Celera SNP ID:            hCV11643530
SNP Position Genomic:     114813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25513):
TGGTATGGAACTCCTGACCTTAGGTAATCCACCCGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTATAGTTTTATTA
R
GGGAAAAAAAATATGACATAAAGGGTGCTTTCCTATATATAGGGAAGTGACTTTCAAATTTAGTGGATCAAAATGACCTAGAGGGCTTGACAAAGACATT
Celera SNP ID:            hCV11164693
SNP Position Genomic:     21768
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25514):
TTAGAATATCTGTAAATGGATGGCCTGTGTGCCTTTTGAGCAGTTCTCTCTAAATATTGTATGTCTCAACTCAGTTTTTAATTTAATTAATTAATTAATT
W
ATTTATTTATTTATTTGGGGGGACAGGGTCTTGTTCTGTTGACCAGGCTGGAGTGCAGTGGCATGATCATGGCTCACTGCAGCCTCTACCTCCTGGGCTC
Celera SNP ID:            hCV26433840
SNP Position Genomic:     102732
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25515):
TGTGTGTATGTATACACACACACACACACACACACAGTTAGATCACTTCTCACTACCATTAATACCTTGTCTGCGTTGCTATAATAGCATCTTAACAGAT
M
TTCTCTATCTGCCATTGCTCCTTCTGCATCCTATGACAGACCACCCTCAATATATTAGAGGGATCATTTTAAAATGCAACAGACCAAGTCACTCTTCTGC
Celera SNP ID:            hCV11164697
SNP Position Genomic:     30880
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25516):
GGAAATATTTCCAAATGTACTGTATGAGGCCAGTATTACCCTGATACCCAAACCAGACAAAGACACATCAAAAACAAAACAAAACAAAACCAAAAAAAAA
M
CACTACAGGCCAGTATCCCTGATGAATATTGATACTCAACAAAATACTAGCAAACCGAATTCTACAACACATTTAAAAGATCATTCGTCATGACCAAGTG
Celera SNP ID:            hCV26433841
SNP Position Genomic:     109571
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25517):
TTATGACAGACCCACAGCTCATATCATAGTGAAAGGGGGAAATACTTGAAGCTTTTCCTCTAAGATCTGGAACATGACAAAGATGCCCACTTTCACCACT
R
TGATTCAACACAGTAGTGGAAGTCCTAGTTAGAGCAGTCAGACAAGAGAAAGAAAGAAAGGGCATCCAAGTTGGAATGGAAGAAGTCAAAATGTCCTTGT
Celera SNP ID:            hCV26433842
SNP Position Genomic:     109966
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25518):
AGATGATATGATTTTATATTTGGAAAAACCTAAAGACTCCACCAAAAACCTATTAGAACTGATGAACAGATTCAATAAGTTTTCAGGATACAAAATCAAC
R
TACAAAAATTGGCGCATTTATTTATGCCAGCAGTGAACAGGCTGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGAT
Celera SNP ID:            hCV26433843
SNP Position Genomic:     110171
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25519):
TCCTAATAACTGTGATGCCATTATCACATCTGAGAAAATTAACAATAGTTATGTAATCAAATAAGTATTCCATATCCAAACTGCTTCATAGAGTCACTAA
Y
AAGAAATTGTGTCTTCGAGAGAGTCACATGAGAGCTATACTGGACTCTGACTGGAGGGGAACTTGAAGTGAGCATTGGAGGGAGGTGATGATGTGGGCAA
Celera SNP ID:            hCV27477429
SNP Position Genomic:     26621
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,301|C,1002)   total(C,1002|T,301) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25520):
TGAAATAATATGAGGACAAAACAAAATGCATTCCTTATTAGCAAATGTTGTTAAAGGAGCATAGAAAACACTGCTAAAGCATTAAAGCAGAGTTTTTTTT
W
AAAAAAAACCTGCAGATAGAAAGTTTGGTGTACTAAGTTGGAAGGAGATTTGTGGTATTTATAACATGTTACAACTTAGGGTATTTGTTAAGATTCTCTT
Celera SNP ID:            hCV26433844
SNP Position Genomic:     115489
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25521):
ATAATTTTTCATAAATCTTAGCCTGAATCAATTAGTGGCATAATTTGGATTTTATCTTTTTCAGCAGTTATCAGAAATATTATCCATGTTTGATAGTTTG
Y
ATTTTTCTTTTTAAATGTTTACTTATTGGGCCCCAGAATGCTTGTTGGAGGAGGGATTGGAATGAAATGTATCCTTCATTGAATAGGATTTTTGTTTTAG
Celera SNP ID:            hCV1052990
SNP Position Genomic:     75761
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   Caucasian(T,8|C,58)   African-American(T,16|C,60)   Asians(T,20|C,32)   total(C,150|T,44)   (C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25522):
CCTGAATCAATTAGTGGCATAATTTGGATTTTATCTTTTTCAGCAGTTATCAGAAATATTATCCATGTTTGATAGTTTGCATTTTTCTTTTTAAATGTTT
W
CTTATTGGGCCCCAGAATGCTTGTTGGAGGAGGGATTGGAATGAAATGTATCCTTCATTGAATAGGATTTTTGTTTTAGCTTAAAAATGAATTCTAAGAT
Celera SNP ID:            hCV1052991
SNP Position Genomic:     75782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25523):
GTCCACTTGGTCCAGAGTTGAGTTCAAGTCCTGGATATCCTTGTTAATTTTCTGTCTTGTTGATCTGTCTAGTGTTGACAGTGAAGTGTTAAAGTCTCCC
R
TTATTATTGTGTGGGAGTCTAAGTCTCTTTATAGGTCTCTAAGAACTTGCTTTACAATCTGGGTGCTCCTTTATTGGGTGCATATATATTTAGGATAGT
Celera SNP ID:            hCV26433847
SNP Position Genomic:     128912
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:25524):
CTAGGCTGTTTCCATTTTCAGAGAGAATAAATGTTTGCTTCTTGGTTCCAGTTCCTCTGTGTCTTTTAACATGCTATTGAAAATCATTTTGCATGTGTTC
M
GAAACAATTAGATATATGTTAATGGATTTGGGCTAAGACAATTGTGATAACTGTTTAGGAATAATCAGAGCATTGTGGTTCTGAGGTGAGTAAGTGATGA
Celera SNP ID:            hCV15758135
SNP Position Genomic:     63241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25525):
CCAGAGGATCTAGGGGTAGAAAGTGAATATGGAACTATGGAAATCTCCCAGGTGACCGGAAAAGTTGTTGACATGAGAGGTGTGTTGGATCTGATTATGA
Y
TGAACATAAAGCTAAATGGAGGGACTCTGGAAAGTCGACTGCTCCACTGTTTGTAATGGGACTATCTTCTTTACACAGAGCTCACCAACATTTTAATAAA
Celera SNP ID:            hCV27514140
SNP Position Genomic:     47431
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25526):
CATGGTTTTTCCCATCAGTATGCATCTTTAAGATTGTTAGCCACTGGGCAGACATGAAGAAATTTATAAAACAGAAATATAACTTTTTAGTATAATTTTT
W
AAAAATTCTGTATATCAATAAAATACTACATTTCAGACTAAAGATTTTAATAATTGTTCTGCTGCCTTGGGTATAAGTAAAGTGCTGGAAAAACATAAAC
Celera SNP ID:            hCV27514141
SNP Position Genomic:     52428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25527):
TTGCTCAGTAACGTTTCAGAATTGAACAAATTCACTAATAGAGAACATGTATAGGCCGGGCGTGGTGGCTCATGTGTGTAATCCCAGCACTTTGGGAGGC
Y
GAGGCAGGCTAGTCACTGGAGGTCAGGAGTTTAAGACCAGCCTAACTAACATGGTGAAACACCATCTCTACTAAAAGTACAAAAATTATCTGGGCATGGA
Celera SNP ID:            hCV27514142
SNP Position Genomic:     57815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25528):
CATTTAATGGGATAATAGAACATAAATGTCATTTGTGCATTTAGTTGATTAAATGTCACTCGTTTATGATTGTACAACTGGTCTATACAATGTAATGGTC
W
CTGTAGTAAAGTAACAATACATTTTTAGTGGCATTATCAGTGTTGGTAAAATAAACTCACCGTTATATTAACTAAACTGTGCAAACAGATTTACTTGTCA
Celera SNP ID:            hCV27514143
SNP Position Genomic:     97299
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,679|A,800)   total(A,800|T,679) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25529):
TATGAAGTCTCTGCTGAGGGTTGTCTGAGAAGTTTGCACATAATACAATTCCTTGCATTGTGGAAATTATTTTATATATAACCTTTTCTTATAATACCTA
W
ATAAAACATAGTAAGATGATATAAATTGTGTAAATGGTGTGGCGATATAATCTTGACATTTATTACACTTGTGATTGGCACATAGTAAATTTGTCATCAA
Celera SNP ID:            hCV27481671
SNP Position Genomic:     37384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25530):
GTTGGATCTGATTATGACTGAACATAAAGCTAAATGGAGGGACTCTGGAAAGTCGACTGCTCCACTGTTTGTAATGGGACTATCTTCTTTACACAGAGCT
S
ACCAACATTTTAATAAAGATGAGCTTTAAAAGGGAACTCTTCAACTTAATGGCAGTAGGAATCAAAATGAGAAAACCTCACGAGAAAGGGGAAATTCAGG
Celera SNP ID:            hCV27481672
SNP Position Genomic:     47514
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,165|C,1334)   total(G,165|C,1334) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25531):
GTGTCACAGACAGCCTCAGGAGGTCCTGACAGCATGTGCCCAAAGTGGTCGGGCTACACTTGGGTTTTACACATTTTAAGGAGCCACAGGACATCAATCA
R
TACAAGTCTTTTATGCTTTATTTATAGGTTGATTCTTAAACATTGAAAACTTATCAACTATTTACCATATTGTAATTATACAATCATCATTCGCTATAAA
Celera SNP ID:            hCV7546196
SNP Position Genomic:     8745
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25532):
ACAATATTAAAATTGGAAGTCCATATTCATTTTTAAAGTAAAACAGAAATTCTCGATTTCAGTATTTTTGTAATAATTTGAATTCTAGTATATGGTAGCA
R
TGAATAGACCTAGATAAAATCTCCCTCAACCCCAGTCCATACAATACAATCTCTGTTCTAGTTAGGTACCGTAGAGCAGTGCCACTCAAAATGTCAGTCG
Celera SNP ID:            hCV7546197
SNP Position Genomic:     51350
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;JBIG-allele(G,718|A,755)   total(G,718|A,755)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25533):
GTGAGAGGATAAAAAAGAAAAAAAAAACACAGTAAGAAGAAAGATACCTTCTATTTTCTTTGTTTTTTTCTTATTTAAAATGTGAATCTGTGCTTTAGGA
W
AATGCTGAGATCATAAAATTGCTTCTTAGAAAAGGAGCAAACAAGGAATGCCAGGATGACTTTGGAATCACACCTTTATTTGTGGCTGCTCAGTATGGCA
Celera SNP ID:            hCV7546198
SNP Position Genomic:     64142
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|T,1)   total(A,75|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25534):
ATGAGTTTCAAGGCCCTGGCCAAGGAGCCAAGGCTTGGAGATTGTATTGCAGAGGGATAAGCTGGGTAAAAATCAGGGGAGGAGAGCATCTTACATGATG
R
GAGAGCAATCCTCCTAGCCATTTACAAACTTGGGGCCCTGGCAAGGGTGGTGGGGAATGGGTCCCACATAACTGCCCATGTTGAGAGCTGTATATCTAAA
Celera SNP ID:            hCV11164702
SNP Position Genomic:     35167
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25535):
AAAATACCGTGCCTGGCCAATATAGTATTTAAAAAAAGGAAAGTAGAGCCTTAGTGTTTGTAAAAACATAATGTGGAAGGGCCAGGTGTGGTAGCTCACA
Y
TTGTAATCTCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGGGTTCGAGACCAGCCTGGCTAACATGGTGAAACCTCGTTTCTACTAA
Celera SNP ID:            hCV11164707
SNP Position Genomic:     46229
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25536):
CAACTTCCACCTCCAGGGTTCAAGGGATTCTTGTGCCTTAGCCTCCCGAGTAGCTGAGCTTACAGGTGCCTGCCACCATGCCAGGCTAATTTTTGTACAT
K
TAGTGGCGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTCAAAATCCTGACCTGAAGTGATCCGCCTGCCTCGGCCTCCCGAAGAACTGGGATTACAGG
Celera SNP ID:            hCV11164708
SNP Position Genomic:     49105
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25537):
AGGCTAATTTTTGTACATTTAGTGGCGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTCAAAATCCTGACCTGAAGTGATCCGCCTGCCTCGGCCTCCC
R
AAGAACTGGGATTACAGGAGTGAGGCACTGCACCTGGCTTTTAATTCTTTAATGTAAGCAATTATGAAACTAGGATACTTATTATCTTTCTGGTTTTACC
Celera SNP ID:            hCV11164709
SNP Position Genomic:     49187
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25538):
ATTAGAAAAAATACAGTGGAAAATTTAACTTTAGCAATGAAAATGCTTAACATGGTCAAATTTTTGTTCACTGATCTTTTTTATTGAATGGGTAAAGCCA
R
TGTTTACACTGCATATGATAAATGTTTTGCTTTCTTTGATCAAATTTACATTCAAAGAGCTATTATAAGAAACATTCTATAAAAATTCCAATATGTTGTT
Celera SNP ID:            hCV11164780
SNP Position Genomic:     96909
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25539):
AAGAAGGTGTAAGTTTAGGGATGTGTTATCTAAATCAAATGTTTCTTGACTCTGCTGCTGGGGAGACATATGGAAAAATAAACAATATATAATAGGATAG
Y
GGAATTTTAGCTTTTTGTCTTTTAATACTTTCATTTGATTGAAGGATGTATTTTTCTGGATATGGTCTCTGATGTCTAATTGGCCATTAGACTTCTCCCT
Celera SNP ID:            hCV27481683
SNP Position Genomic:     52117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25540):
AATATTTTGTTACCTAAGATATGTTTTTCCAGATTGCTTCATTTTTCCTCTAATTTAGGAAATGGAAAAAGGTGTTTTTTCAAAACCAGAAAATGTCTCC
S
TAGAAATTATTGCAGGATATGTTCTCATGCCATTTTTGCTTTCTTAAGCATTTACAATTAGAGATTTCTTCCATACTATGTTATATGATCCATTGTGGGA
Celera SNP ID:            hCV27481684
SNP Position Genomic:     53876
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,199|C,1106)   total(G,199|C,1106) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25541):
GCATATATGGTTATAAAATTCCCTTAGTATTTACTGGCATATTAAACAAAAATGGCACTGACAGGCATATTATTGTCTGTGTTAATAATCTACACATGAA
R
CACTCCCTCAGTTCAGCTGAACATAGTTCTTACCTCTAATTGTTCATTAGGCCAGTGATCTGTTGTGCTCTTAGAAGGAAAACCAAAATGGTGCAATTAA
Celera SNP ID:            hCV27481685
SNP Position Genomic:     119069
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,9|A,1458)   total(G,9|A,1458) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25542):
GCAACATATTGGTAAGAAAGAATAACTTTTAAACACACTTCACTACTTTTCCTTCTCTTGCTTCTCTAGCTGTGTTGTAATTTTAAGTGATAAGATTCAT
Y
GGTGAACACAAATTAGACATAATTTGCATTTTCTTATGTGAGGAAAAGATGGGGTTGTTAGGGGATGGCTAGTAATTCCCTTCAGTAAAAATCATATTTG
Celera SNP ID:            hCV11164784
SNP Position Genomic:     99193
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25543):
CTTCTTATTCCATCTCTTCTTCTACTGCCTTTGTTGATTGCAATGATCATTTCTGACTTACTTGACTTCAGTATACTCCTGAGTGCTCAGCCTCTATTAT
K
CTGAAAATCACTGTTAAATAAAATGTGTTTGAATATACCATGCCCCTTAAAAAAGAGAATGTAAAAGAACTCGATTTCTCCCAGAGTAAAGGACAAACTC
Celera SNP ID:            hCV11164788
SNP Position Genomic:     107785
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25544):
TGTGGAAAACAAACTTACCTTCACTCTCCTTCATATATCACTGTTGACAACCTGATAATCTTCAAGTCATGGACTGGCTATAGAATGATTTTTGCTAACA
R
TCACTGATAATGATGTATGAATTTGATATGAAACAGATTTTTTTCCTTTTATGACCTCCACCCAAAATTATTACTATTATTTTCAGGCTTTTTTTTAATA
Celera SNP ID:            hCV1147616
SNP Position Genomic:     60555
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25545):
GACATATCAACATCCGGGGGTCGCGGAGCCGTCCGCCTACGGGGGCCGGGACGTCGCCTGCGCGTCTCTCGTTTTCGGACGGCTGCAGCATCGCGGTGGG
R
ATCGAAAGCGGGGGCTTCTGGGACGCAGCTCTGGAGACGCGGCCTCGGACCAGCCATTTCGGTGTAGAAGTGGCAGCACGGCAGGTCGGTGAGTCTCGGA
Celera SNP ID:            hCV16251382
SNP Position Genomic:     6082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:25546):
TCTAGGCACGCTTCAATGCTTGTGTTGTTCATTTTTCTAAATTATTTGTTACTCTTACCTGCCCTACTGATAGAGAGAGGAGACAGCCAAATGCTGCCCA
S
GTCATTGTGCACAGGGGGCTTGCCTAAACATGCCCATGGGGGCGAAAAATTCCGTGCCTTAACACGTGCACAGAAAGGGAAATAAATCAATGTGGAGTGG
Celera SNP ID:            hCV1147617
SNP Position Genomic:     40352
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25547):
TGCATTTCAGTGCGATTTTGTTAGGAAGCGGAGGAAAATGTATGTGCTTAGTTTGCCTTGCATAGAGTGAGTAATCCATTGTTTTTTTGTTTGTTTGTTT
R
TTTTTGAGACAGGGTCTCGCTTTGTCACCCGGGCTAGAGTGCAGTTGCATGATCACTGCTCACTGCCATCCCAACCTCTGGGGCTCAAGCGATCCTCCCA
Celera SNP ID:            hCV16251383
SNP Position Genomic:     10805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25548):
AAGACACTCTAATCTACACATTCGGAACATGAGGGCAAACCCTGTGATTTTTTTTTCTCAATGTTTTAAGTCCTAGGATGCCCAGTGCATTATTTTTTAC
M
AAATTTACTAAACATAATGATAAAGGCTTAGAACTCTTTTTGAGTTTTCTTATTCAATAGCAAAAGACAAAAAGTCACAGACCATTGGGGAAACTCATGT
Celera SNP ID:            hCV16209183
SNP Position Genomic:     115264
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,4)      total(A,4|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25549):
CTTCTGAGTGTCTTATAGGGGAAATAAGCTTTGGTATAAATTCAATATATAAAACTAGTACAATATCAATGGCATGTTACTTGTCTTCAGTAATAAGCAC
R
CTTATCATTTCTTGTTTTACACTTTTAAGGATTTTTATATTCCCATTGTTTCATGTGTATTAGTGTTTTCTAATGTGACTCATTATCCAAATGTGCCTTT
Celera SNP ID:            hCV1147619
SNP Position Genomic:     61988
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25550):
TCATTGAGATTTTGTAAGAATAGGTATGTGGTGTTTGTTTCAAGTACGAACCCTTGGCATGTTTTGTTTCTAATATTATATTAACATCTTGCTAACATAG
K
ATTGACTCAGTCAGCATTGACACCCTTATCTTCACTTTGGAGTTTACTAATTGGAAGACACTTGCACCAGCTGTTGAAAGGATGCTCTCTGCTCGTGCCT
Celera SNP ID:            hCV27470619
SNP Position Genomic:     98973
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25551):
AGTTAATTCTATGTGAGTTAATAACTTGTTTCCTAGTTGAGTAGCAGCATACACCCAATTGATACTCTTCTTTAGGTGACAAAATAAAGAAAAAAGTTAC
S
TACAAATAATCAGGTAATGCCACTTCTTAAAAAAATACAATCTATGCAGGTAACAAAATGGCACTTGTAGCCCATAAATTTGTACAAATAAAAAATTATA
Celera SNP ID:            hCV16251387
SNP Position Genomic:     17111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25552):
GAAAGTTCAGTTAGGAGCAATCATTCGCCTAGAGATGAATTTGCTCAGTAACGTTTCAGAATTGAACAAATTCACTAATAGAGAACATGTATAGGCCGGG
Y
GTGGTGGCTCATGTGTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCTAGTCACTGGAGGTCAGGAGTTTAAGACCAGCCTAACTAACATGGTGAAAC
Celera SNP ID:            hCV11164712
SNP Position Genomic:     57775
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25553):
TACTTGAATAACAAGGAAATTCACAATTAAGGCTGAAATACTGTTCATATTATTGTGTATTTCTAAGCATGTTATTTTAAGCTTGTGTATTTTAAACCAT
K
GTTACAGAATTGTATAGGAATATATTGAAGGCATAACCTTATATTTATTGGAATTTTGGTTTAATTGTTTAGAATTTCAAAATAGTATTGGGATGTGAAA
Celera SNP ID:            hCV16251388
SNP Position Genomic:     18060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:25554):
TGAGGCAGGAGATTCGCTTCAACCTGGGAGGTGGAGGTTGTAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTC
A
AAAAAAAAAAAAAAAAAACTTGTATAAAGTAAAGGAATAAAAAAATAAATAGAGATTGAAGACAGAATCCTGGTGAGTCATCACATTTCTGAAATAGTAG
Celera SNP ID:            hCV11164713
SNP Position Genomic:     58050
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25555):
AGGTTAGCTTTTAAAAATCTTTATACAATGGCGTATATATAATTTAATTAGATTTGTGATTTTATTTTATTTTTTATAATTTCAACTTTTATTTCAGATT
Y
AGAGGGTATGCATGCAGGTTTGTTACATAGGTGTATTGCATGATGCTGAGGTTTGGGATATGAATGACCTCATCACTTAGACAGTGGGCATAGTACTCAA
Celera SNP ID:            hCV11164718
SNP Position Genomic:     67559
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25556):
AACTGTGTCCTTATTTATATAGTGGTGAGTAAAAAATACATAAATAAACTGCAAGCCATAGATGTTGCATTCTAGATGTGTTCATGTATCCATTTTAAAT
Y
AGAATGTTTAAAGTATGTATGGTTGTTGTGGTCACCTGCTTTAAGGTGAGTTTCTATTAACTGACCAATTATTGTTCATGATCCTACTAAGAGGGCTTCC
Celera SNP ID:            hCV7546204
SNP Position Genomic:     120356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25557):
TTAACACAGCTAATTTTTTTCTCTGAAAAATCATCGAGACAAAAGAGCCACAGAGTACAAGTTTTTATGATTTTATAGTCAAAAGATGATTATTGATTGT
S
AGATAGGTTAGGTTTTGGGGGGCCAGTAGTTCAGTGAGAATGTTTATGTTTACAACTAGCCTTCCCAGTAAAAAAAAAAAAAAAAAAAAAAAAAATTGTA
Celera SNP ID:            hCV7546205
SNP Position Genomic:     122599
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;(G,-|C,-)   POOLE|_CEPH(G,26|C,162)   total(G,26|C,162)JBIC-allele(C,554|G,921)   total(G,921|C,554)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25558):
AGGCGGCAGCCGCTTCCTGAAGCCATTCCCGCTGCTCTCCAGTGGGCAGGCAGAGGTTTGACCCACACGGAGTGATAGCGGGAAGAAGACAGTGTGAACC
R
TGCGGGTGCGGGTCCTTAGATGAGAAAATTCGAAGTAGCGATGAGATGTGAGAAATGGCGGTGTTCCTGACTGACCTGCCTTCTTGCAGCTTTTCTTCTT
Celera SNP ID:            hCV27846017
SNP Position Genomic:     6282
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:25559):
CTGATAACTTTTAGTTGCCTTTCTCTATCCCAAATCTTAAGTCCGTTACAGAACTGAACATTTCTTATTAGACCAGAATATAATGATTTTGGATTGCGCG
Y
GCGCGCGCGCCTGTGTGTGTGTGTGTGTGTGTGTTCAATATGATGATGGTCTTTTTTGGCCTTCATCTTATCTTTTGGATGAACAATGTTTTTGGTCCTT
Celera SNP ID:            hCV3018234
SNP Position Genomic:     80207
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25560):
AACAAACAAACAAACAAAACCAACCAACCCAATTCTAATCTGCAAAGGCAAGAACAGCCCTAAACTCAAAGATGTGCTCAGCTGGGAAAAAAAATGGTTT
S
AGTTTTGAGATAAATGGGCATGTTAGCACAATTAGGATTTTAATCAGGAGACTGAGAGGGGCATGTCTGTGGCACCATCTTTAAAGAAAGAAAGGGGCCG
Celera SNP ID:            hCV7546209
SNP Position Genomic:     123357
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:25561):
GGTGGGAAAGATCTTAAATAGGTTTCTGGATTTTCCAAGATTAGTTGAAATTTTAGGGGGCAGACCCTTTTTTCTCCTTTGATTTCTACAAAATCAGTCA
R
TAACACTAATTGACCATTTTGTTATGTAGAGAGCACTAAATAGATCCTGTTAAACTTACTGAGGAAGCTGAAACATACACACGATCCTTTAGGAATTTAA
Celera SNP ID:            hCV3018235
SNP Position Genomic:     80576
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25562):
GTTATGTAGAGAGCACTAAATAGATCCTGTTAAACTTACTGAGGAAGCTGAAACATACACACGATCCTTTAGGAATTTAAAACCTAATGGGAAAAACAGT
R
TTTAGTGGCATTTACTTCACTATCTTCTGCTGTCTTTGGCAAAGAAGCGTTTTTAATGTATTTTTTTTTTTTTGTATTTTTTTATAGAGACTCATGGAAG
Celera SNP ID:            hCV3018236
SNP Position Genomic:     80697
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25563):
TTTTTCTGTGTAAACTTCAGTGATGCTAAGAAGTTCTTAACATGCAGTGGAGTAATTCCACTACAGCCTCTCTCTTTCTCTCTAATGACTACAAAAAACT
R
TGGTCAAAATTCAAAAAGAAACTACCTGAGGACTCTCAAAGGAACAAAAGCAGATAGATTATGAAAGAGAGTGGTAACTTGGTGAAGTGACCCACATGAA
Celera SNP ID:            hCV3018237
SNP Position Genomic:     81079
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25564):
TGCGCCACCATGCCTGGAATTTTTTTTTTTTGTATTTTTTGTAGAGACAGGGTTTGCCGTGTTGCCTAGGCTGGTCTTGAACTCCGAGCTCAGGTGATCT
S
CCTGCCTTGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCACAGCACCCAGCCAACCCAAAATGTTGAAAGTAAGATTTGAACTATCATCAGAGTCT
Celera SNP ID:            hCV3018238
SNP Position Genomic:     82086
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25565):
AAATTGGTACAGTGAACTCCCATAGACCCATCATTCATATTCAGTAATGATCAAGGAAATGCCATCATTTTATTTTGTACAAATATCCCTGAGAAACATG
S
TCTTTCCACCTCCAGCCTTCATCTAAACATCTTATACTAACTTTCTTTAGATTTCAGTGTTCCAGGCTCTCTCCTTCCCTCCTCTTTCTGGTATGTTTAT
Celera SNP ID:            hCV3018239
SNP Position Genomic:     83429
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25566):
GCAGTTTGTTCAGCGACTGCAACTCTGTGTTAGGGGAAACCTGGGGTGAGGTAGCCCGCCATCTCCCCGTAGGTGAATACCGCAAGCCTCCGAATTTGGC
R
TGGTGGGCGACTCTCGTGGAATGGGCAGCTAGACATCACAACCCTACATTTTTACCCTCCATCTCTAGATTGAAGTGTTGGGGTGTTGTTTTATCAAGGA
Celera SNP ID:            hCV29117095
SNP Position Genomic:     6597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25567):
AACTGGAGATGCCTTCATGTAACAGACATATGAAGAGGTTGAGAGAGTAGGCTGGAGATTGGAAGCTATCCAAGTAAAATTGAAGCCTAGGATTTGATGA
S
TTTGTGTATTTGATAAAGAATAGTGTAAGAGTTGTAACTGGAAACACAATGAAATGTTTTTGTCTTTGGCTTTAGTGACATGGGATGCTTGATCACTAGT
Celera SNP ID:            hCV29117096
SNP Position Genomic:     15519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25568):
TAAGATTAATACAAAGTGAATGACAGACTACATCATTAGTGATCATGATTTGTATAATGTAATTTATGCTTTAGTGAGTTATTTTCCATATAGTAAAATG
Y
CTTTATTTAAAAAAGAAGAGGTACAGTACATTATAATTCCAAGGAAATTTTCGTATTTTAAAAATGCCAATTTTTGGCTAAAAACTCAAAAGATTTCATT
Celera SNP ID:            hCV29117097
SNP Position Genomic:     17856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:25569):
TATAATGTAATTTATGCTTTAGTGAGTTATTTTCCATATAGTAAAATGCCTTTATTTAAAAAAGAAGAGGTACAGTACATTATAATTCCAAGGAAATTTT
Y
GTATTTTAAAAATGCCAATTTTTGGCTAAAAACTCAAAAGATTTCATTTAATACTTGAATAACAAGGAAATTCACAATTAAGGCTGAAATACTGTTCATA
Celera SNP ID:            hCV29117098
SNP Position Genomic:     17908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:25570):
AGTGTTTTCTAATGTGACTCATTATCCAAATGTGCCTTTCTAATTTTGTGACTGAGAAGTGTTGATTCCCACTTCCTGCCTCCTACTATAGTGGGAGATA
Y
AGAATAACTGTATGATTGAAATGAAAAAAAAATCTTATTCTTCAAATCTTTTTTCTTACTAATCAAAACCACGATGAGATACCATCTCACAGCAGTAAGA
Celera SNP ID:            hCV1147620
SNP Position Genomic:     62150
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25571):
TGGATTAGTTGTTTTGTAGCCAGTACAAAGCTGATTTGCATAAGCAGTGAGCTGCTGCTAATTCTCTATACATATATTGAGATTAATGTCTTTGTAGGAC
Y
GACTGAAAAGTGAATCAATGAACTTACATTTCATATTATAATTATGAGAACCATCAAGAAAGTAACATTAAAATAATGCTGGATATAGTAATGAGTTTGG
Celera SNP ID:            hCV29117099
SNP Position Genomic:     24234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25572):
TCCCAGCTACTCATGAGGTTGAGGTGGGAGCATCGCTTGAGCCCAGGAAGTTGAGGCTGCAGTGAGCCGTGAATGTGCCACTGTCCTCCATCGTGGGTAA
M
AGAGCCAGACCCTATCTTAAGAACAAAACAAAACAAACAAAAAAATGAAACAGTATATTTTCTAGCTAATAGAGATAAAACTCACTGTAATTTTCATTTG
Celera SNP ID:            hCV1147623
SNP Position Genomic:     53275
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25573):
TTTCTCTATCCTGTGCCAATACCATGCTACCTTAATTATTCCAGCTTTATTAGTTTTGATAGCTGCTTGTATGAGTCCTCTGGCTTTATTCTACATGATT
K
TTTTGGCTTTATTTGGCCCTTTACATTCCCATCTGTATGAATCAGTTTTTGTTTTTTTTTTTCCAACTATTAAGACAATACCTGTAGCACCTTTGGGTAT
Celera SNP ID:            hCV1147624
SNP Position Genomic:     57288
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,6)      total(G,5|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25574):
TTTATTTGGCCCTTTACATTCCCATCTGTATGAATCAGTTTTTGTTTTTTTTTTTCCAACTATTAAGACAATACCTGTAGCACCTTTGGGTATTTTGATT
R
GGCTCACATTGAATCGTTAGATTGTTTTGGGGAGAATTGATATTTTTAAAATAGTGAATCTTTATATCTATGAACATGGTGTATTCTACTTTTTTTTTTT
Celera SNP ID:            hCV1147625
SNP Position Genomic:     57396
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25575):
AGGAGTAGCTTGGTGGGCAGTTCAGGCTTGGAGGTTTCTCTTATAGTTGCATTAAATATCAGATGAAGCTACAGTCATTAGCAAGCTTGACAGGAGCCAG
R
GGATCAACTTCCACAGAGGCTCACTGACATGGATCACTCATATGGCTGGGTGTTGGCAGGAAACCTCGGTTTCTCTCTATAAAAGCCTCCCCACAGGACG
Celera SNP ID:            hCV11164722
SNP Position Genomic:     82947
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25576):
TTTCTTTAGATTTCAGTGTTCCAGGCTCTCTCCTTCCCTCCTCTTTCTGGTATGTTTATGGGGTAGAGGCAAGACCAATGCAAAGAAAGAAGGCCCTTTA
W
GCTGGGCATCTAGGCTTTTTCAGACATCCTCTGAAACCTAGGCAGAGTCTCCCAAACCTCAACTCTTAAATTCTGTGCACCCACAGGGTTAACACCATGA
Celera SNP ID:            hCV11164724
SNP Position Genomic:     83571
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,9)   total(A,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25577):
TACACATAATTAGCATAAACAAATGATTTATTAAGCTTTAAAGATAGACCTCCAGTGATGTAGTCACATAATCTAGAAAAGCTGGTCAGCACTACATTAA
S
TTTTAGGGTATCTGGAGGAATCTTCCCAGTCAGCCCATAGAATTTTAAGCCAGTGTAGTCTGTCCACTCTGAGAAGCTGGAGCATCATTAAGGATCCCTT
Celera SNP ID:            hCV2960557
SNP Position Genomic:     119551
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25578):
GATTTTTAGACCAGAACAATTATTTATTCACAGCAAAAGAAGAGCTGGGCAGGGTAAACAGCAACAGGTTACTTATAGTATTTATTTCCTCTTTCTGGAA
Y
GGACAACCCAGTGTTCCTAAAGACAATATGGAAGGTTGTTTTGTTAGCTCAACACTTGAGCAAAAGAGGTTGGATATGTTTACCAGATTGTGAGAATGGA
Celera SNP ID:            hCV3018240
SNP Position Genomic:     86030
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25579):
ATTCATATAACCAGAACTTCATTTAACTTCACTAGTACTGAAAACCAAAGTGAGTTCCTTAATAACCAGCGAAAATTTTGGAAACTCATTCTGCAATCCT
R
TGTGTCAGAAAATAAAACTTTTGAAAGATGTAAAGAAATCCTAGAAGTAACATGCACGTTTAATCGCAAGCTCATGAAAGTCGGCTAGAATGCAGAAATG
Celera SNP ID:            hCV27995789
SNP Position Genomic:     24444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25580):
AAGGAGCAAACAAGGAATGCCAGGATGACTTTGGAATCACACCTTTATTTGTGGCTGCTCAGTATGGCAAGCTAGAAAGCTTGAGCATACTTATTTCATC
R
GGTAAGATTATCCATTAGCCTTTGTACTGTTAAGATCATGAGCTTTAAACTATATTTCCTAGAGGAATAATTCTTGTCTCAAATATAAATCAGGTTGTGA
Celera SNP ID:            hCV22274050
SNP Position Genomic:     64274
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,8|G,30)   total(A,18|G,58)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:25581):
ACTTATAGTATTTATTTCCTCTTTCTGGAACGGACAACCCAGTGTTCCTAAAGACAATATGGAAGGTTGTTTTGTTAGCTCAACACTTGAGCAAAAGAGG
K
TGGATATGTTTACCAGATTGTGAGAATGGATGAATTGCTTTTCTTCACACTAGAAGTATATTTCTCTTAGTAACTAGTATTGGGCATAAGAATCAGGGCT
Celera SNP ID:            hCV3018241
SNP Position Genomic:     86100
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25582):
TAGTAAGTTTAATGGTATAAGTTTAAAAATTTTATTTTTATAGCAACAATGTGTTATGATAGTGTTAATTTGGTATGATTGTTGTAATTAACACCTATCC
R
ACTTCAGGTGTTAATGGCTAAAAGACTTCCCTTTTCTCATTTGTATATTTTCTAGTATTTCTCTGAAATCTATTAATTTACTATTTGTGGACTTTCTTGC
Celera SNP ID:            hCV3018242
SNP Position Genomic:     89168
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25583):
ACTTCTTTTTTAAAATTTACAGTTGTAGATTTAGCTACAATTTTCCTTTGGTTTGTGGTAATATTTTTCAGATGAGAGGTTTTTGCTTTCTTTTGTTGTT
R
GTCTATTGTTTTTCTATAACTTTTCTTCCTTTATTCTTGTATCTTTGTATGGATTTGTGCTGGTACCTTTGTGATAATTCATCTTGGGAATATGTGAGTT
Celera SNP ID:            hCV27479130
SNP Position Genomic:     50555
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,163|G,1336)   total(G,1336|A,163) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25584):
TTAGAATTCTGAGTCTTAGGTGATCAGAAAGACACCTTTTTTTAGCTCTTTTTTTTTGAGACGGAATTTCACTCTTGTTGCTCAGGCTGGAGTGCAGTGG
Y
GCAATCTCAGCTCACCGCAACGTCTGCCTCCCAAGCGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTCTACTGGCGTGCGCCACCACGCCCAGCT
Celera SNP ID:            hCV8511216
SNP Position Genomic:     23188
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25585):
GTTAGGATTTAGAGTTCTTTTAAAGGTTTGACTAAATTTTAAAGCTTCTAAAAATATAATACTGAAGTTTTCAAATCGTTTCTGGTAATACCAATTTTTC
R
TATAATACTTTATAGTTTTAAAAGTATGTTTACTATGTTATCTCATATTATTTTCACATATAGTTCCCTGAAATGGGCAGCTTATGTATTATTCTCATTT
Celera SNP ID:            hCV27479131
SNP Position Genomic:     98103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25586):
AAGAATCACGGACTGTTGTGTTGACTAGGCAATTTCTAATCATCAGTCTATTCTGACAGCATACATATCTCAATGTGTTTTGTAACACACTGTACATTTT
S
GTCAAGACTAGTAAAGTATGTTGTTATAGCCACATACATAAATATTTAATACTTGGTCATTATAATTGGAGCCTGGGCTAAAGGTTTTCTTTTCGGAATG
Celera SNP ID:            hCV8511217
SNP Position Genomic:     23541
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25587):
TTACTAGGTTCCTGTCTAAAATAAGTATTATGAAAAAGCTAGTGTTAAATATCATCTAGCTTCTTAGGGAACTGAACAAGATTAGAAGGAAAGGTTTCTT
K
TAGCTGCTTAGATGACAGCTCCCTTGAACATGAAAAAATTAAAGGTGACCAATATATAAAAGGCACAAAACCGTGGCTCTGAGGAGGGTGTTGGGGGCAG
Celera SNP ID:            hCV27479132
SNP Position Genomic:     106515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25588):
GCTTCCATTGACAATACATTTTTAATGAAATGCTCTTTCTCATAATCAGTGAGAACCATGAGAATCATTATGGCTGATCCTAAAACTGTTCGTCTAAATC
R
AATTCTGGTAATCTCCTTTATTCATGAATTAGGAATTATTTACTATCAGGAATAGTAAAAGCAATAATAATGAACTTGGTTTGAAATGATTAGGTAGAGT
Celera SNP ID:            hCV27479133
SNP Position Genomic:     108535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25589):
CTTCTGACTAACGCAGGGCAGTTTGTTCAGCGACTGCAACTCTGTGTTAGGGGAAACCTGGGGTGAGGTAGCCCGCCATCTCCCCGTAGGTGAATACCGC
R
AGCCTCCGAATTTGGCGTGGTGGGCGACTCTCGTGGAATGGGCAGCTAGACATCACAACCCTACATTTTTACCCTCCATCTCTAGATTGAAGTGTTGGGG
Celera SNP ID:            hCV1387714
SNP Position Genomic:     6580
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25590):
TCTAAAAAAAAAAAAATTATTGAGCTCTTTTGTAAGTGAGCAGGGTACTAGCTGTTGGGTCTAACTTTAGGGTCCTTGAGTGAAGTGCAAGAAACGAGTT
R
CCTCTTTCCTCCTCTCCTTCCACCCTGTACCCAAATAAGGAATGCTTTGTTATGGAACATGAAGATGCTCAAAGGCTTCCAGGGTAGACTGTTAAATTAA
Celera SNP ID:            hCV1387715
SNP Position Genomic:     10280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25591):
GTAGAGACATGGTCTCACTATATTGCCCAGGCTGGTCTCAAACTACTGACTTCAAGTGATCCCCTTGCTTTGGCCTCCCAAATTGCTGAGATTACAGGCA
Y
GAGCACCATACCCACCCCTCTGCTTGTATTTTATATCACATCTTTTATATTAAATAACATAGATTTGTTTGCTTGTGTGTTTCTCCACCAAATATGATTC
Celera SNP ID:            hCV1387716
SNP Position Genomic:     12472
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25592):
AGTAGTAGAATTACAGTGTTATAGCCCTAGAAGAAGGTGTAAGTTTAGGGATGTGTTATCTAAATCAAATGTTTCTTGACTCTGCTGCTGGGGAGACATA
Y
GGAAAAATAAACAATATATAATAGGATAGTGGAATTTTAGCTTTTTGTCTTTTAATACTTTCATTTGATTGAAGGATGTATTTTTCTGGATATGGTCTCT
Celera SNP ID:            hCV29117100
SNP Position Genomic:     52087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25593):
TATTTTAGGTAAGTAATTCTGAGTGCACAGTAGAGCGTGTATTGGAAAGAGGAAAAGAGATTGGAAACAAGAAGAATATGTAAGAAACTCTGGCTCTTGA
K
GTATGATAAGGCTCTTTAGTTGAGAATCTTTCAGCATGTAACCTTTTACTATCATGTAATCTTTTAAGCCTTATCACAAAAAGCCTTCAGGGCTTCCTTG
Celera SNP ID:            hCV1387717
SNP Position Genomic:     12953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25594):
ACCTTTCAGTCCTTTTGAGATTGCTTTTCCAGACTGGTACTGTTGATTCTGAATTGTCCACCTTATATCCTCCCAGTTTCATTTTAACAAACTAGAGCTA
K
GCTGTTTCCATTTTCAGAGAGAATAAATGTTTGCTTCTTGGTTCCAGTTCCTCTGTGTCTTTTAACATGCTATTGAAAATCATTTTGCATGTGTTCAGAA
Celera SNP ID:            hCV29117101
SNP Position Genomic:     63144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25595):
TAGAGTGAATTCAAGGTTTTATTTTAGTTTTTTGAGACAGGGTCTTGCTCTGTTGCCCAGCCTGGAGTGCAGTGGTGTGATCATGGCTCACTGCAGCCTC
R
AACTCCTGGGTTCAGGCAATAGTTCTGCCTCAGCTTCCTGAGTAGCTGGGCCTACAGGTGCATGCCACTACACCTGGCTAATTTTTAAATTTTTTATAGA
Celera SNP ID:            hCV1387718
SNP Position Genomic:     16236
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25596):
ATACAGTTTTATTTTTAATTTTAGAAGGGTAGAATAGTCCTTTTTTCTTTCCAGTTGACTGCTAGAGGTAAGTTTACAAATAACCTAAGAACTTTTGTTT
Y
AATTATTTTCTTAGAACTTTCTCTACCTAGGAGCCAGCTTCTTTATAAATCTGCCTCCATATTTAATGAGCTCACTTTTTTTTCAGATAATAGAATATTT
Celera SNP ID:            hCV29117102
SNP Position Genomic:     77783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25597):
AGGAGGTGCCTGTTCTTGGCTTCTGCCAGAGGTTACACTTTCCAGCCTGTGGGATGGCCAGACGCAGGCTGCAAAGAAAAAAAAAATTTTATATGTATAT
W
TATGTATATACACACACACACACACAAATTGAGATAGTGACAGACAAAGAATTCCAAAAGCTGTTTTAAAAACTAAATTTTCATTATATGTGCCATTAAT
Celera SNP ID:            hCV1387719
SNP Position Genomic:     17621
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,6)      total(A,6|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25598):
ACTTCCTATTATTGGATAAAGATATAAATTTACAGATTTAAGAGGCCTGTTAAACCCAAACAGGATAAACTCACAGAAAGGCATGGTCAGAAAAATCAAA
M
TGCTATAAAACAAATGTAAGGGAGACCTAGTCTCTCCCCGGATCAAAGAAGAAAAAGAAAAGTAAAGGTGAAGCAGTATGGTGTACAGTAGTCCTTGGTC
Celera SNP ID:            hCV2960560
SNP Position Genomic:     87455
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25599):
CTATGGGTATTAGAGTTTAAAGAACCCTATACCTGGAATCAGACTAGCTGGTCTGGTATCAGCTGTGCTCTTGATAGTACTTGTCTTTGATGCTCTGATC
Y
TGGTCTGTTCATCATTGTTAAATTTCACAGGGATTTATAAAAGATTTCTTGAATTAACAAAAGGCTTTGGTCCGATTCACATAAAAGCAGACATTAACTT
Celera SNP ID:            hCV29117105
SNP Position Genomic:     121058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25600):
GGACTGAGGGTTTCCCCCTTTTTATACTATAGGGTAACTTCCTGAAGTTTCCATGGCATTGGTAAACTGTCATGGGGCTGGTGGGAGTGTCTTCTAGCAT
R
CTAATGCGTTATAATTAGCATATAATGAACAATGAGGATGACCAGAGGTCACTTTCATCACCATCTTCGTTTTGATGGGGTTTGGCCAGCTTCTTTACCA
Celera SNP ID:            hCV27995790
SNP Position Genomic:     95820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25601):
TTATTAAGCATATAGCTAAAAAATACTTTTATTTGGCTAATAAATGATCTAGCTCATAGTATTTTTTATTAGTTCATGTTAAATAAGAAAATACGCACTA
R
TACTGGGCACAGTAACAGATGCAGAAGTTCCTTAGACAAATAAATCATTGTAGCACAGCGATTAAGAGTTACGGTCAGATGGACCTGAATTCTAGTGACT
Celera SNP ID:            hCV27867519
SNP Position Genomic:     30488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25602):
TAAAAGCCAAGTTCTTAACTGACCAACTCTAGTTGAGATAGAATGGTTTCTAATTCAGGTTCTTTTCGTGATTTTAATCCCATGTCTCTCTTATGAGCAG
K
TGCAAACTACTTTAGCGCCTTGATCTTTTCCACTTTCCATTGACCAATTTCCAAATTATTAGTTACCTCAATCTTAGTTTTCTTTATGGATTAGTTGTTT
Celera SNP ID:            hCV1387720
SNP Position Genomic:     24047
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,3)      total(G,3|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25603):
TAACTGGCTGACAGGTGCCCGGTATTTTCCTCCAATTCTAAGGAAGGATAGGACAGAATAGCAAGTGAAAGTGGTCCAATATTACTCACCGCTTTTGAGG
Y
CCCTTTGTGGTCACCAAAATGTTACTGGGGGGTCCTTGTTCTTAGAGCTCCTAAGATGGTGGTAGGCTGCTTCCAAGATGGTGGCAAGCCTCTTGTTCTC
Celera SNP ID:            hCV1387721
SNP Position Genomic:     35870
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25604):
GGGGTTCCCTGCCTTTTTTTTCTTTTAGGTCCTTGAAGGATTACATGATGCCTGCCCACATTGGTGAGGGCAAGTCTTGTTTATTCAGTCTGCTGATTCA
R
ATGGTAATGTCTTCCTGAAACATCTTCATGGATATACCCAGAAATGTTTTAGCAGCTATCTGGGCATCCCTTAACCCAGTCAAGTTGACATGTAAAATTA
Celera SNP ID:            hCV1387722
SNP Position Genomic:     36440
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25605):
TAATCACACAGGAGATTTTATTTCCTTTTCCCAAGATGAGTGTGTATGCAAGTCACTAAGGGTGGCTTGCACTCCAGAAGTGGGAATTAAACTCTACTTC
Y
TTGATGGAGTAGTCTTTACATAAATTATTTGGAATTCTTCTACATGGGAGATTTATCTCTTCTCTCCCGTTAATTTATATATTTAGTCATTTATATCTGC
Celera SNP ID:            hCV1387723
SNP Position Genomic:     38659
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25606):
GCTTTCTTTTTCTTTCTAGGAACCCACAGTACTTTTCTAGCTTCTAGAATTACACCTTATCTTTCTGTCTTTGACACTTACTCCAAGACCTGCAGCTGAT
Y
GCCTGGCTCTCTGTTTCCAATGCTAAATGGGTATCTTGAAGACAGGTATACCTAGTATTCTAGGTTAAATTTCAATTCAATTCAATTCTAATCTCTAGAC
Celera SNP ID:            hCV1387724
SNP Position Genomic:     54303
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25607):
CTTCATACATCCTTAACTGAACAGTAGTCCTGTTTTATTTTTGAAATATTTATCTCCTTTGCCCTAACATGTGGTCCTAGATGGGTCTCACATAAAAAGG
Y
GAAGGAGCAAAGAAACACCAGCTTAGCCAACTAGTTTTGCTTATCAATAGGATGGTAAAAGTCACAACTGAATTTTTCTCATTATCCTCCATTGATTAGG
Celera SNP ID:            hCV1387725
SNP Position Genomic:     54735
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25608):
TAGTACCTGGAATATTACCTGGTACATAATAGGCACTAAGTAGACATTTGTTGAATGAATGAATGAGTGATTTGTGGGAAAATGGGATCACTGAATGTAG
R
CTCAAGAAGAGTAGTCTTTGGGGGTAGTTCAGTGGTAAAAAAAGAAAGTGAGAGAAAACAGTAGATTGGAAGATATTTTGTTTGTTTGTTTTATTTTTAG
Celera SNP ID:            hCV1387726
SNP Position Genomic:     58549
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25609):
CCTGAGGTCAGGAGCTTGAGACCAGCCCAGCCAACATGGTGAAACCCTGTCTCTACTGAAAATACAAAAATTAGCCCGGTGTGGTGGCACGCACCTGTCC
S
AGCTACTGGGGAGGCTGAGGCAGGAGAATCTCTTGAACCCATGAGGCAGAGGTTGTAGTGAGCTAAGATCGCACCACCGCACTCCAGTCTGGGCAACAAG
Celera SNP ID:            hCV1387727
SNP Position Genomic:     66157
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25610):
TTTCTTTTGGCAGAGGTTGCAGAGAGATGGAGTCCCCATCTCCGCACTCAGCCTGGTGCGAGCTCGTGCGCCTGTGCCCGCGCTTCTCGCCGTCTCTAGA
R
ACTAACCACCGGCATCTTAAGCAGCTTCGGAAGGAGTGCCCGGGCTGGGTTAGAGATGGCGGGCAGGTGGCAGGGAAAATCTACAGAAATGTTACCCCAA
Celera SNP ID:            hCV16181999
SNP Position Genomic:     24744
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,597|G,903)   total(G,903|A,597) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25611):
AAGAGAGATTGTTTGACTTCTTCTTTTCCTATTTGGATGCCTTTTATTTCTTTCTCTTGCCTGATTGTTCTGGCAAGGACTTTCAGTACTATGTTGAATA
R
GAGTGGTAAGAGTGGGTATCCTTGTCTTCTTCCATTTCTCTAGGAGAATGCTTCCAGCTTTTGCCTGTTCAGTATGATGTTGGCTGTGGGTTGGTCATAG
Celera SNP ID:            hCV1387728
SNP Position Genomic:     70179
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25612):
AAGTTATCCAAGAGCAAGTTTGTTTGTTTGTTTGTTTGATTTTGAGACAGAGTCTCACTCTATCGCCAGGCTGGAGTGCAGTGGCACCATCTAGGCTCAC
Y
GCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGACTATAGGCACACACCACTATGTCTGGCTAATTTTTTTTTT
Celera SNP ID:            hCV640293
SNP Position Genomic:     71475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25613):
AGTCTTCTATTTTGATTGTTCTGCCAGTACATATAACAAAATGAACAAAATAGAGGAATTCTGTATAGGAATTAAAAGTTAAATATTACTCATCTGCTAA
Y
AGATCTATGGATAAACTAAGTTTAACATATTGAATAAAAATGATTGGGTCAGAAAAGTGACTTAGAAGTGTAGCATGGTTTCAGACGTCATTTTCTAGGT
Celera SNP ID:            hCV2797831
SNP Position Genomic:     118645
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;JBIC-allele(C,222|T,1257)   total(C,222|T,1257)
SNP Type:                 INTRON


Context             (SEQ ID NO:25614):
TCAGGTACTTGCTTTTTGTGTTTTTTCTAGCGGTTTTAGTTATAGTCAATGAGAGAGACAACACAAGTAAATTAAGAAAAACTGGGAACAAAAGGATGGA
W
ACCAACGAGAAAGACAATATATTAATGATGAAAATAAAAATGGTAGTAGGTGTCTCAGAAGTCAGATAAATGCATTTGATGTGCAAAACATTTCAAAGGA
Celera SNP ID:            hCV2797832
SNP Position Genomic:     118225
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,5)      total(A,3|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25615):
CTGGTCATTCCTTTATACTGGCCATTCCTATTGTTTTGACTTCATGTCCTAATCTATTACTTGTTTTTCAGAGTTCTCAGGTACTTGCTTTTTGTGTTTT
Y
TCTAGCGGTTTTAGTTATAGTCAATGAGAGAGACAACACAAGTAAATTAAGAAAAACTGGGAACAAAAGGATGGATACCAACGAGAAAGACAATATATTA
Celera SNP ID:            hCV2797833
SNP Position Genomic:     118149
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25616):
AGATGGTGCTTTTCCATTTAATCCATTCATTGCCTCTACTGGTCATTCCTTTATACTGGCCATTCCTATTGTTTTGACTTCATGTCCTAATCTATTACTT
R
TTTTTCAGAGTTCTCAGGTACTTGCTTTTTGTGTTTTTTCTAGCGGTTTTAGTTATAGTCAATGAGAGAGACAACACAAGTAAATTAAGAAAAACTGGGA
Celera SNP ID:            hCV2797834
SNP Position Genomic:     118111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25617):
ATGCATAATGGAGAACAGAGTACATGTAGAACTCAAAAAAGTAGAGATACCATTAAAAATTCATATATAATTCAAATGTAAAATTGAATATATAGATGAT
Y
TCTGCATAGCCAGCCAGCCTGCTGCTATAACTGGAGGAGATGGACAGCCTGTGGTTAAACTTTTCGTTACAGACTTACTGACCATGTCATTTTTTAGAAT
Celera SNP ID:            hCV27490608
SNP Position Genomic:     52878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25618):
TGATGCAGGGAAGTGTCATTATGCCCATTTTGTAGATGAGGCATTATTCTCATTTTATGGAAAGGTAACTGAAAGTCAGAATATTTAGATGACTTGCCCA
R
GGTCACACAGCTAGTTAATAGTGGCACCTCAGCGCCAGCACAGGTGTTACTACTAGATGGTGCTTTTCCATTTAATCCATTCATTGCCTCTACTGGTCAT
Celera SNP ID:            hCV2797835
SNP Position Genomic:     117956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25619):
GTTTCACTTTATGAAATGCTTTTGCAAATGTGTTCCAACTTGAACATCATCAACAGCCTTTTGATGCAGGGAAGTGTCATTATGCCCATTTTGTAGATGA
R
GCATTATTCTCATTTTATGGAAAGGTAACTGAAAGTCAGAATATTTAGATGACTTGCCCAGGGTCACACAGCTAGTTAATAGTGGCACCTCAGCGCCAGC
Celera SNP ID:            hCV2797836
SNP Position Genomic:     117895
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25620):
TTTAGGCACACACATGCACACACACACACACACCAGCAAGGTAACTATATGAGATGATGGGTATATTAATGTTTGTTTGACTGTAGTAATCACTTCATTA
T
GGTAGGTATATCAACATAAGCATACAAAACATCACATTGTACACTTTAAATATATACAATAAAATAATAAAAATTTTAAAAAGCTAAAAAGAGCTAAAAT
Celera SNP ID:            hCV2797837
SNP Position Genomic:     114912
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25621):
TTAAATGGTGCTGGGAAAACTGGATATCCATATGCAGAAGAATAAAACTAGACCCCTATCTCTGGCCATATACAAAAATCAAATAAAAATGCATTAAAGA
S
TTTAAGACCTCTAACTACTAAAAGAAAACATTGGGGAAACTCTCTAGTACATTGAACTGGGCAAAGGTTTCTTGAGAAATACCCCACAAGCACAGGCAAC
Celera SNP ID:            hCV2797838
SNP Position Genomic:     111482
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25622):
AGACTCCACCAAAAACCTATTAGAACTGATGAACAGATTCAATAAGTTTTCAGGATACAAAATCAACATACAAAAATTGGCGCATTTATTTATGCCAGCA
R
TGAACAGGCTGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGC
Celera SNP ID:            hCV2797839
SNP Position Genomic:     110204
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25623):
AAAGTCCCTTCATGTTTTTAGTGGGAACCTTCCAAGGAATTCCAATCTGCCAAACAGAGAAACTTCCTGCTTTAGGCACCAGCAGAGACTGTGGCATGGC
M
GTCACTTTCTGTATTGTGGGCCCTTCTTCGTCAGTCATGTGAGAGATACTAGACAGGCCCACCGTGATTTGCTGACCTCTAGGAGTGAAGTGTTGTTTTA
Celera SNP ID:            hCV16182000
SNP Position Genomic:     27265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25624):
CATTGACAATACATTTTTAATGAAATGCTCTTTCTCATAATCAGTGAGAACCATGAGAATCATTATGGCTGATCCTAAAACTGTTCGTCTAAATCGAATT
M
TGGTAATCTCCTTTATTCATGAATTAGGAATTATTTACTATCAGGAATAGTAAAAGCAATAATAATGAACTTGGTTTGAAATGATTAGGTAGAGTGGCAT
Celera SNP ID:            hCV27498747
SNP Position Genomic:     108540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25625):
AAACAGATGAAAGATAAGTGTTGGCAAGGCATGTGGAGAAAGGGGAACCTCTGTACACTGTTAATGGCAATGTAAATTAGTACAACCGTTATGGAAAACA
R
TGGCAGTTCCTCAAAAAACTAAAAATAGAATTACCATATGATCCAGCAATCCAACTTCTGGGTATTTACCTAAAAGATTGGAAATCAGTATGTTGAAGAG
Celera SNP ID:            hCV26433825
SNP Position Genomic:     14025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25626):
AAACTCTGGGCCATCATTAATTCCTTTCTTTTTCTCATATTTCTCATCTAGTCAGTCAGCAAATTTGTGTATGTGTATGTCTATATTTGTGTGTATGTAT
M
CACACACACACACACACACACAGTTAGATCACTTCTCACTACCATTAATACCTTGTCTGCGTTGCTATAATAGCATCTTAACAGATCTTCTCTATCTGCC
Celera SNP ID:            hCV26433826
SNP Position Genomic:     30793
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1|-,2)   total(A,1|C,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25627):
AGGAGAGTAAGACTGAGACAGCTGCGCCAGTGTCCAGGAGACAGTTAACCTCCTGGCCCTCAATGATCAAGCATACCCGGGGCTCTGTGAGGGTGATGGC
R
TGGGCTGGTGCTTGCCCCGGACACCCTCAGTCCTGCTGCTGTATCATCTGGTTAGTGGCTTCTGACTCAGAGGACCTTCGTCCCCTGGGGCAGTGGGCCT
Celera SNP ID:            hCV26433827
SNP Position Genomic:     33106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25628):
AACCTGAATTTGTATACAAAATTTGGGGTGTACACTTTTCTAGGGGGAAACTACAGCTTTCATGAGTTTCTCCAAGGGGTCAAGGATCCTAAAATTTTTT
K
AAGATCTGCTCATTAGAGCTCTTGCTGCAAAATATTGTTTAGGAAATTCGCTTGGACTATCATGGCTGTGTCTCTGTGTGTGAAAACAGAAACCTTACCA
Celera SNP ID:            hCV27512014
SNP Position Genomic:     25964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25629):
GGCCCTGGCAAGGGTGGTGGGGAATGGGTCCCACATAACTGCCCATGTTGAGAGCTGTATATCTAAACTGGGACACCAGGGACAAGATTCCCTGGGTTCA
Y
AGCCTAGGTACCTAAGGACACAGCATAGAACTTCCTTAGATCCCTTTGGAGATACAACTTGCTCTAATACTTGGGAGAGGAAATGAAGTCTGAACCATTA
Celera SNP ID:            hCV26433828
SNP Position Genomic:     35301
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25630):
ATACCTAATTTGCTAATGGTGTGTGTGTGTGTTTGTACTTATTTTATAAAGCACTTTGTAATTCTATTCTGGCATTCTGTTTTTCATTAACTTCGTGCTT
R
AATTCCTCCATAATTAGTGCCACCTTCATAGCAAAGTTTTGTGCAAAATAATCTGCATCTCTTTAACAACATTTTTTATTTTTTCTGGAATCCGCTTTTA
Celera SNP ID:            hCV27512015
SNP Position Genomic:     62784
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,365|A,1124)   total(G,365|A,1124) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25631):
ACTGGTCAAACAAATGGATTTTACAGAGGCTTACGCGGACACGTGCTCTACAGTTGGACTTGCTGCCAGGGAAGGCAATGTTAAAGTCTTAAGGAAACTG
S
TCAAAAAGGGCCGAAGTGTCGATGTTGCTGATAACAGGGGATGGATGCCAATTCATGAAGCAGCTTATCACAACTCTGTAGAATGTTTGCAAATGTTAAT
Celera SNP ID:            hCV25649034
SNP Position Genomic:     27502
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,33|G,1)   total(C,71|G,1)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:25632):
ACCAAAGTGTCCAGTCCTACAAACATGCCTTTTTGCTGACATTAATTTTTCTAACTGCTGTATTACAGCTGTTGAAAATGGACAGATAGATGTGTTAAGG
S
TGTTGCTTCAACACGGAGCAAATGTTAATGGATCCCATTCTATGTGTGGATGGAACTCCTTGCACCAGGCTTCTTTTCAGGTAACCTCTGAATTTATTAT
Celera SNP ID:            hCV25649035
SNP Position Genomic:     63449
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|G,1)   total(C,75|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25633):
TATCCATTAGCCTTTGTACTGTTAAGATCATGAGCTTTAAACTATATTTCCTAGAGGAATAATTCTTGTCTCAAATATAAATCAGGTTGTGAAATTTATG
R
TTTTATGTAAGTGGTAAATAAGAGTAAATACAAATTGATTTATAAACCTGGTTATTAAGTATCTATTACTAACAATGCAGTGCACAGCTACTAATTTATC
Celera SNP ID:            hCV25649036
SNP Position Genomic:     64383
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,38)   total(A,2|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:25634):
GGCTGCTCAGTATGGCAAGCTAGAAAGCTTGAGCATACTTATTTCATCGGGTAAGATTATCCATTAGCCTTTGTACTGTTAAGATCATGAGCTTTAAACT
R
TATTTCCTAGAGGAATAATTCTTGTCTCAAATATAAATCAGGTTGTGAAATTTATGGTTTTATGTAAGTGGTAAATAAGAGTAAATACAAATTGATTTAT
Celera SNP ID:            hCV25649037
SNP Position Genomic:     64326
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|G,1)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:25635):
TTTTGCTCTCCAGTGGGGCAGATCCTGATCTTTACTGTAATGAGGACAGTTGGCAGTTACCTATTCATGCAGCTGCACAAATGGGCCATACAAAGTAAGT
R
TTAAAAACAGAAAATAAACATGGTCTCTTAATCAAAAGCTAATAAAGAATAAATCTGGGCTAGACCCTTCACCTCTAGGCAAAGTCTTTGATATTCTCTT
Celera SNP ID:            hCV25649038
SNP Position Genomic:     76428
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(G,40)   total(A,4|G,74)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,358|G,1123)   total(G,1123|A,358) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:25636):
GTTGCCTTTCTCTATCCCAAATCTTAAGTCCGTTACAGAACTGAACATTTCTTATTAGACCAGAATATAATGATTTTGGATTGCGCGCGCGCGCGCGCCT
G
TGTGTGTGTGTGTGTGTGTGTTCAATATGATGATGGTCTTTTTTGGCCTTCATCTTATCTTTTGGATGAACAATGTTTTTGGTCCTTCTGGTCACAGCAG
Celera SNP ID:            hCV15996168
SNP Position Genomic:     80220
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25637):
TGTGCATGGCTTTCCAAAAGGAGTATGTATATTTGCTATGTTTTTATTTTTTATTCTTTTTTGCTGTATGGAGATGTGTTTTGAAGTGACTTTCTTTCAC
R
ATGAAACTTAGTATCTCTGTTAGTGCTAAATTGCTATCTTGGAACACAAATAGGAAAAAAACTATGATGTTTCAGTCAAGCTGAAGCAGAAATGAGGTGA
Celera SNP ID:            hCV25649039
SNP Position Genomic:     78682
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:25638):
GCTGTACATTTGGCTCTGAGCTCTGTTGTCAATGACACTAGGTGACTGGGTTCATAAGATAAAATAAACCCATTCCTCAGAATAGATTTTCTTGGATGCT
R
TTACAGCTTCCTAGACAATGTCTTGGTAGCTGTGGTTTCTTGGGACTTTCTTTTACATGGACTGTTGTTATCATACCAAAGTACAATTCAGTAAAAGCAG
Celera SNP ID:            hCV2797842
SNP Position Genomic:     102458
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;JBIC-allele(A,559|G,928)   total(G,928|A,559)
SNP Type:                 INTRON


Context             (SEQ ID NO:25639):
AATATATTGTATCATTTCATTTATCCTCAGTATTTCTGATAAGTTGTGATTTCACTGAGATATGCTGAGAAATAAAATGTTTTCCCAAGACATCTGTGCT
R
CCCTTTAAGTTCTTCCTTAGATGTTTGCTTATTGGAGAATTAAGAATTTGGGAAATAATTTTCATAATCTTTAGTCCATCATTTCAAAGATATTTTGACT
Celera SNP ID:            hCV15846543
SNP Position Genomic:     97668
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25640):
AACAACGCATTTCTTGCTTCTCATCTTTTAATCATTGAGTCAGATTTGTCTTCAAAAAGTTTCTAGCATCAGAAAGGAAATGTATACCAGGTAAAATTTA
S
TGAGTGGTTGCAGTTTCAGTAACAATCTTTTAATCAAGTGCCTCTTACATACCTCTTAGAAACATCAGCCTAACCACATAGCAATAGATGTCTTACTCAA
Celera SNP ID:            hCV2797844
SNP Position Genomic:     101879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;JBIC-allele(G,192|C,1241)   total(G,192|C,1241)no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25641):
TCCAAATTACCAGAAGTGTCTTTGAGATGGTGAGCTTAGATTGTTATTCAGTTTATCTTCTTTCCTTGTATTTCCTTTCCTTCTTCAGTTGTTGTTGCTC
S
GTAATACCTCCAAAGAGGTGACCTTGAGAAGAATTTCTGTTTTGGTAGTAATTACTAGAAGCCCTAGTGACTTTTTTTTCTCCAACCATTGTGATGGTAG
Celera SNP ID:            hCV15846544
SNP Position Genomic:     97868
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;JBIC-allele(G,500|C,583)   total(G,500|C,583)no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25642):
GACAGCTACATAGAAAGTCAATTCAGTTAATAGGAACCTGTAGATGATTGTTAATATCCTCTGATCTTGCCTCTAGTTACATAAATACTTAACATGCCCT
R
GTTTTCTGTCTGCCCTCCTCATTGAGATTTTGTAAGAATAGGTATGTGGTGTTTGTTTCAAGTACGAACCCTTGGCATGTTTTGTTTCTAATATTATATT
Celera SNP ID:            hCV2797845
SNP Position Genomic:     98854
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,6|G,34)   total(A,16|G,60)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;JBIC-allele(A,400|G,699)   total(G,699|A,400)
SNP Type:                 INTRON


Context             (SEQ ID NO:25643):
CATATTTTCTGGGTATTGCTTGTCTTAAACAGTCTTGAAAATGTATCTGGCTGAATAATTGCCTGTCACAATATTTAAATGCAAGACTAAGTATTCCTCT
S
CCTGCGCACCCCACCCCCATTTAATGGGATAATAGAACATAAATGTCATTTGTGCATTTAGTTGATTAAATGTCACTCGTTTATGATTGTACAACTGGTC
Celera SNP ID:            hCV2797846
SNP Position Genomic:     97181
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25644):
GACTACTTGGAGGCAGAAGGATTTATTTAGCTTTATTCTCTTAGAAGGCTTTGTAATTTATCCCCCCTTTCCCAATTCTGATACTGCTCCCCCATTTTCC
Y
CCACTTGTGAACAGTTGAGAATTTTTGTCGCAATAAGCCATTGGGTGTGTGCTGTATTTATCGGATATGTGAAATAGAAAAGAATTAAGAACTAGTAAAG
Celera SNP ID:            hCV2797847
SNP Position Genomic:     96603
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25645):
CAGAGCAGCAGCACAGGCTGCTGAGCTGCTTATACTTATTGTTACTTCTTGATTACATGCTAAACAAGGGGTGAATTATTCATGAATGAATTTTCCAGGA
R
AGGGGTGGGCAAGTCCCAGGACTGAGGGTTTCCCCCTTTTTATACTATAGGGTAACTTCCTGAAGTTTCCATGGCATTGGTAAACTGTCATGGGGCTGGT
Celera SNP ID:            hCV2797848
SNP Position Genomic:     95701
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25646):
CTCATCCCCCTCAGATACCAAAATCTATGTGTTACTGGAAAGGGGTCCCAATCTAGACCCAAGAGAGGGTTCTTGGATCTCGTGCAAGAAAGAATTCGGG
R
CAAGTCCATAGAGTAAAGTGAAATCATGTTTATTAACAAAGTAAGGGAACAAAAGAATGGCTATTTCATAGGCAGAGCAGCAGCACAGGCTGCTGAGCTG
Celera SNP ID:            hCV2797849
SNP Position Genomic:     95528
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25647):
CTTACGCGGACACGTGCTCTACAGTTGGACTTGCTGCCAGGGAAGGCAATGTTAAAGTCTTAAGGAAACTGCTCAAAAAGGGCCGAAGTGTCGATGTTGC
W
GATAACAGGGGATGGATGCCAATTCATGAAGCAGCTTATCACAACTCTGTAGAATGTTTGCAAATGTTAATTAATGCAGGTAAAGTAAATTCAAGGTATG
Celera SNP ID:            hCV16182010
SNP Position Genomic:     27531
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,38)   total(A,1|T,75)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:25648):
CCCCAGGTACAGAGCTGGGGTGATCATGGGCTCATCTCTTGTGTTTCACTTCTCTCGGGAATCACAGTTGTCTGCCTGTTGATTAATACCCGAGTAAGTT
R
CCTTATATATTTTGTCCACTCTTATGATTGTTTTGGATGGATGGCTAGTTTAGTACCAGTTATACTGTCATATCCCAAAGTATAATTCTGAAGCTTATTC
Celera SNP ID:            hCV26433830
SNP Position Genomic:     55837
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25649):
AGTTGCCTTTCTCTATCCCAAATCTTAAGTCCGTTACAGAACTGAACATTTCTTATTAGACCAGAATATAATGATTTTGGATTGCGCGCGCGCGCGCGCC
T
GTGTGTGTGTGTGTGTGTGTGTTCAATATGATGATGGTCTTTTTTGGCCTTCATCTTATCTTTTGGATGAACAATGTTTTTGGTCCTTCTGGTCACAGCA
Celera SNP ID:            hCV26433831
SNP Position Genomic:     80219
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25650):
GTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACCTGAGGTTGGGAATTCAAGACCAGCCTGACCAACCTGGAGAAACCCTGTCTCTCCTGAAA
R
TAGAAAATTAGACAGGCGTGGTGGCTCATGCCTGTAATCTCAGCTACTCTGGAGGCTGAAGCAGGAGAATCACTTGAACCTGGGAGGCAGACATTGTGGT
Celera SNP ID:            hCV11164687
SNP Position Genomic:     11317
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25651):
GTAAAAATATGGAAGGATTATGCACTCACCTTGTTTCATACATGCCTTTAAATCCATGCTGTAACTCAAAGAAAGTGAAACTGTGTCCTTATTTATATAG
Y
GGTGAGTAAAAAATACATAAATAAACTGCAAGCCATAGATGTTGCATTCTAGATGTGTTCATGTATCCATTTTAAATTAGAATGTTTAAAGTATGTATGG
Celera SNP ID:            hCV2365555
SNP Position Genomic:     120278
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,12)      total(C,1|T,12) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25652):
CATGACTCACTGCAGCCTCGACTTCCCTGGGCTCAGGCAATTATCCTGCCTCAGCCTCTTGAGTAGCTGGGACTACGGTTGTGCGCCACCATGCCTGGAA
T
TTTTTTTTTTTGTATTTTTTGTAGAGACAGGGTTTGCCGTGTTGCCTAGGCTGGTCTTGAACTCCGAGCTCAGGTGATCTCCCTGCCTTGGCCTCTCAAA
Celera SNP ID:            hCV26433832
SNP Position Genomic:     82005
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Gene Number:                 94
Celera Gene:                 hCG1993582 - 68000102039012
Gene Symbol:                 GOSR2
Protein Name:                golgi SNAP receptor complex member 2;GS27;MEMBRIN
Celera Genomic Axis:         GA_x5YUV32VTQY(538429..569301)
Chromosome:                  Chr17
OMIM number:                 604027
OMIM Information:            GOLGI SNAP RECEPTOR COMPLEX MEMBER 2;GOSR2


Genomic Sequence (SEQ ID NO:12254):
CTTGCAAAATGTATTCATTCCATCCCAATAGTCCCAAAAGTCTTAACTCAATCCAGCATCAACTCAAAAGCCCGAAGTCCAAAGTCTCATCTAAATCAGA
TATAGGTGAGACTCAAGGCATGATTCATCCCAAGGCAAATTCCTCCAGCTGTGAGCCTGTGAAATCAAAACAAGTTATCTTTTTCCAAACTACAATGGTG
GTACAGGCATAGGATAGACATTCCCATTCCAAAAGTGAGAACTAGGCAAGAAAAGAAGGGTAACTGGTCCCAAGTAAGTCCAAAACCCAACAGGGAAAAC
AACATTAAGTCTTAAAGCTAGAGAATAATCTCTGATTCATGTCCCACTCCTGGACATGCTGGGAGGCTGGGTCCCCAAAGCTTTGGGCAGTCCCACCTCT
ACAGCCTTTCTAGGCTCGGTCCATGCAGCAGCTCTGATGGATTGAGTCTCCTGCCTACAGTTCCCAGGCTGGAGTTGCATACTGGTAGGACTACAGTTTT
GTGGTCTTGGAGATGGCTCCATTCCCGCTGCTTCACTAGGCACTGCCCTACTGCAGACTATGTGGTGGCTCCAATCCCACATTTCCGCTTGGCGTTGCCC
TAGTGGGGACTCTCTGCAGTACCAGCTTTAAATAAATGGCATTAGGAACTGGAGGGGCAAAGAAAGCTACATAGGCCAATACAAACAGGTTCTGAAGAGT
CATGGTATTTGAATAACAATGTTGTTCCCCTTTTCTCATGTAGCCAGAAACTAGTGAGAAATAGCACATTTGACAATAACATAAAGAGATAGTTCCTGGA
CCCAGACAGAAAGCGATGGTGCCTGAACACTGTAAAGAATATTCACATGCACTTATTAGACAATAAACAAATATCTAAGTACTTTTCTCTACTAATTATT
CTAAATCTTTGTTGTTAAATCACTATTCTTCACGAGTCCATGAATTTTATAACACAGTTTTGTTTGTTTGTTTGTTTTTTGATACGGAATCTCGCTCTGT
CGCCCAGGCTAGAGTGCAGCGGCGCGATCTCAGCTCACCGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGAC
TACAGGCACGTGCCACCATGCCCAGCTAGTTTTTGTATTTTTAGTAGAGAAGAGGTTTCACCATGTTGGCCAGGAAGGTCTTGATCTCTTGACCTCGTGA
TCCGCCCACCTTGGCCTCACTAAGTGCTGGGATTACAGGCGTGAACCGCCGCCCCCGGCCTATAACACAGTTTTTAATCAAATTGCATATACAGACTGGG
CCCACAAAAACATTTGCTTGGGGCTCCACAAAACCTAGATACAGTCCTGTCAACGTGATAGATAAATAGGTAGGTATGTAGGTATTAGGTTGGTGCAAAA
GTAATTATGGTTTGCCATTAAAAGTAATTGCAAAACCACAATTATTTTTGCACCAACCTGATAGAGATATAGCAGGCAGACACACACACACACACACACA
CACACACACACACACACACATACAATTTCCCAGAGCACTACTCACCAATGAAGTACTAATGAAATAGCTCCCCCTGAACCACAAGGGTCATTGGACTGCA
GCTCCCTCCCTCCTACAGAATGAAGTCCAAGCTCCTTAGACTGACTTGGCCACAAGCTACCTTTCTGGCCTTGTCCTTTGTCTTTTTGTGCATTATGTTC
TAGTAACTTCAAACTGCTTGTAGTTTCCCCTGCACATCATATATCTTTGCTTTTGTGTACGCTGTTTCCTCTTCCTGGGATGTTTTCCCCACTGGCCTTA
TCTTCCAAGATTCAGTTTAGGTATCATCTCCTCTTTGAATCTCTCTTGAGTCACCAAACTGGGCTAAGTGTTCCCTCCTTGTCATCCCACAGTTCCCAAT
TACTGTACCCCACACTCACCACATAGGATTCTAATTATCTGTATAGATGTTTACCTCCCAGTATATTAAAGAGCTTCTATGGTAAGGTGGTGTCTTACTC
ATCTTTGTATATCAGCCCTTGCATTGTGCTTGACACACAGTTATCAGCTCAATGAATCTATAATGTAGGATGATTTATGGAAGGAGACCAATGGACTAAG
TCAAGTGGACTCTGGTGAGCCTAGAAAACGTTCTAGTAAAATGAAGGAGAGGCTGGAGGGTAAGTCATGCCAAGAGAATATCAGCAGTATATATCAATTA
TCCAAGTGGTTTAGCCATACAAGAAAAAGAAAAAATGGGATATAAGTTAAAAATGCAGTAAGCTGGAGAGTGGCATTTTCTTCTATTTAGAGGAAGGCCT
AAATACGTATAAAGACTTAAGAGACTGAGAGGCAGAAGGGAGATCTTCTGGACTTCAATTTCCTTATCTGCCTTATCCACCTCCCAGGGATGCCATGAGA
CCCAAAGGAAAACAAGACATAGGCATGAAAATTATTTGAGAAATTTTTTACATTACTATCCTCTGATAGATTTTTCTGATAGCTTCCAACTACCCGCAGA
ATAAAAATCTATAAAGAAAAACCCAATCTGACATTTAAGATTTCCTGGCCAGGCGCAGTGGCTCACGCCTGTAACCCCAGCACTTTGGAGGCCAAAGCGG
GTGGATCATCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGGGT
GCCTGTAATCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAACCAAGATTGCACCATTGCATTCCAGC
CTGAGCAACAGAGCGAGACTCCATCTCAAAAAAAAGAAAGAAAGAAAGAAAAAAAAATTCCTATGATCTCGTTCTAACCTTTCTTCGACTACTATTATTG
CCCCAAACACCCTGAATCCAGCCAGAGGAGATTCATGTTCTTTCCTTCTGTTTGCCTTTGCTCAAGCTATTCCCTCAGCCTCAAATGCCCTCCTCTTCAT
CTCTACCAGGCAGACACAATAAACATTTTCAGAGTGGTTAGTATATACAAGACACTGTTAAAATTCTATTGATTCTTGAAGGTCTTATTCATATGCTATT
TTGTCCATGAACCGTTCTTGCCCTTCCCACGGAAATGGTACTTTGTATCAATTGTAGCATGTATTCTACTTAATAATGTAGCTTGAGGGTATGATTAGTT
CTCCCAACAGACCATGAGAGATATGGGAGGTTTTAGGGCTGTGTCTTGCTTGTGTTCCTATCTCCAGTATCTGYGCATGGTACATTGTAGATGCTCAATT
ATAGAAAAAGTGAAAAAAATAATTTTAGGAAAAGAATGTACATGGGTGGACAGTCTCTTGGGACACAAAACTGGGTRGGATCCAGGATCCAGSAAAAGAG
AAGTATCAACTTGTCCAAGAAAAGAATGTCTCCTGCCTTGGGAGGAATAGTAGATAAGCTTGGAGGATGGAAACGGGATAGCCTATGTGGAGACAGAGAA
GTGTCCAAACCCAGTCCCAGCTCAAATGCCACCCCTTCATTAAGTCTCTCCTAAATCTCCTCCTAGAGACGACCCCCAGCTCAGCTCAATCTCTTTGGAT
TTTCTACCTTCTAGAATGTTTGTCTTGATAAATAAAATTCATAGAAAGCCATTGGTTTGGACTGAGCTCCTGCACTAGGCGCAACAGGCCAAACCAAAAT
AGAGTCACTCATGCTAAAGTTCCAAGCCACAAAGCCAAAATTAAGCTGCTCATCTGACCTTAGGAGAAATCAGAAGAGAGGGAAAATAGCCATATCCCCA
TGATAAAGGAAGTCCCTTCTGCCTTAACCAATACAAGTAAAATAACTTTGAAACTTGTTCTTTGTTTCTGCTTTTTTTTTTCAGCCCTTTTCTGTCTATA
AAGATAATCTCCTCTGCTCAGCTCATCAGAATACTCATTCTATTTTATAGAATAAGGTGTTGCCTGGTGCTAGAATCGCAAATAGCCAGTTAAGATCTGT
AACTGTGTTGTATTAAAGGAGAGAAGGTTAGCACTCCCTTTGACAAGGATGGAAGAGGCCCTTGGGCCTGACAACACGCATACGGTTAAGGCATTACCAC
CTACTTCGTGGGATCTAACCATCGTTTTTGAAATGGTGCTGGGAAAACTAGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATA
CAAAAATCAATTCAAGATGGATTAAAGACTTACATGTTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCAT
GGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGACAACGAAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAA
GAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCAATCTACTCATCTGACAAAGAGCTAATATCCAGAATCTACAATGAAC
TCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAACAAGTGGGCGAAGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAACAG
ACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCGACCATTAAA
AAGTCAGGAAACAACAGCTGCTGGAGAGGATGTGGAGAAATAAGAACACTTTTACACTGTTGGTGGGACTGTTAACTGGTTCAACCATTGTGGAAGACAG
TGTGGAGATTTCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATGCTGCTATAA
AGACACATTTACATGTATGTTTATTGCAGCACTATTCACAATAGCAAAGACCTGGAACCAACCCAAATGTCCAACAATGACAGACTGGATTAAGAAAATG
TGGCATATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACACGGATGAAGCTGGAAACCAACATTCTCAGCA
AACTATCGCAAGGACAAAAAAACAAACATTACATGTTCTCACTCATAGGTGGGAACTGAACGATGAGAACACTTGGACACAGGAAGGGGGACATCACACT
TCGGGGCCTGTTGTGGGGTGGGGAGAGGGGGAAGGGATAGCATTAGGAGATATACCTAATGTAAATGACGAGTTAATGGGTGCAGCACACCAACATGGCA
CATGTATACATATGTAACAACCCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAAAAAATAATAAAATAAAGAAAAAAAATCTATAA
CTACATTTCTTGTAATTTTGTCTTTTGAGAGTATACATATCTTATTTCCTTTCCCAGACCAGAACCTCTTTGAGGGCAGGAGGAACCCGGTTTTCCCTAC
TTTACACATGACACATAATAACCACTCATTCAATGTAGGTTTACTGGATGGATAAATAGGAATGGGGGGTAGATAGGCGGGAGAGTGAGTAGACAAATGC
GAAACAGGAAAAGCTTGCGCCAGGAAAAACAGTGAAGAGCGAAATCTCCAGACCCCCGATTAAATGGTTTAAAGTGAAGCCAAGCAAGAACCTCCAGTCC
TCTCTGCGGCAGAGAACAGCAGATGATAGCGGCTCGCCTTCAACTTTGCTCTGAGGACCTCTCGTTAGTATCCCGCGATTGTCCTTCCTAACGCCTGACT
GAATCCTGAGGCTAGCCTTCAGCGAACATGTACACCGCCTTGCCCTTCACGTGAAGCCGAGCCTGTGACTACACTTATCCTTCCGTCGCCGGCCTCATTT
CTCCTTCCCCTTCTCCGATCTCGCAACCACTGCTAGTAAGGCGCGCGTGCGGGCAGCCCTGGCCGGCAGGGGAGGGAGGGTCCTGCGACCGGAAGCCGGA
AACCGGAAGGGGGGCTGTGAGGACGTGTTCCGAGGAAGCCAGASCCGGAGCCGTGGCCTGCSGGGCCGGCGACATGGATMCCCTGTTCCAGCAAACGCAC
AAGTGAGGGCCGGTCGGGGAGCGGGCAGGGGCTAGACGAGGCGAGGCCAGGTGAGCCTGGCTTCTGGGGCTGAGGCCTCGGACGTCAGCCAGGGTAGAGG
CCGAGTTTTTCCGCCAGGGCACTGCTGGGGATGCCTCCGAAGTGCTTAATCCTTGGCGGGACTCCCAGGTCAGCCACAGACAGTGGGTTCAGGCTGGGGC
CTGGAGACGTGGGGCAGATGACTCCTGGGGTCTGCAAGTTCGTGACTACCTGCTGGGTAGACTGGGTGACGGGAAACTGGCACCTGCAGGTTATAAAACT
TTGTCCAGCACTTGTCAACTCGGTGCTCCTGGTTGGTAGACCTCGAGAGGAGACACGGAGTAGGAGACACGGCCCCTGGCCGTAGGAGTGTACTGTTTAA
TTGGAGAGTCARGGCACGTACGGGAAAGTATTTGTATTCTTATTCGATTTATACTAAAGACCACATTTTTATGGTACAAAGAAATTGCTGTCCACGTAGC
ATTCACTATTATTACTTGTTAATCGTATCTGGTTACAGGTTATCGCTAAGAAAATCAAATTGTAATTTAGTTTCTCATAACTTAAATTCCTTGGTAGTGT
CCTTTATTCGCATCGTCCTGCACTTTCGGAATTGCTGAGATACGTAGTTGAGTATTAATGGGGCCATACTTACCCTATTTTTGGGGGCGGGGGGCAGAAT
TATGATTTTTACCCTGTTTTGGAGGGACGGAATTTTATGATTTTTATTTTTTATTGTAAAATATACACAACATAAGATTTACTGTTTTAACAATTTTTAA
GTGTACAATTCAGTGACATTGAGTACATTCACAACTTACATCACTACGATCCATTTCCAGAACTTTTTCATCATCCCAGTGTGCCTGTTAATCAGTAGCA
CTTCATTTCTTCCTTCCAGAACACCTAGTAACCTCTGTTTTACTTCTCTCTATGARTTTACCTATTCTAGATACTTAATATAAGTGGAGTCATACAGAAT
TTGTCCTTTTGTATCTGGCTTATTTCACTTAATGTTTTCAGGGTTCATCTATATTGTAGCCTGTTACCAGAATTTCATTCTGTTTTATGACGGAATAATA
TTCCGTTTTATGTGTCTACCACATTTTGTTATCCATTCATCTGTTGATGGACACTTGAGTTGTTTCCACCATTGGGCTGTTGAGAATAATACTGCTATGA
ACTCTGGTGTAGAAGTATCTGTTTTAGTTTCTCTTCTCAATTTTTTGAGGTATATACCTATCCTATTGAGAACTTTCAAACTTATGCTGTAGTTTTGTTG
ATTAAAACACTTAAAATCACACTCCCAAGGCCTGGAAATGAAATGCCCTGAAGCATGAGGAATAAGAGGGTGATGATCCTCTTTCTCTTTCATTTTCTAA
GTTTATGGGTTTCTTTTATTTTGGCGATGAGGTGTTTCATTTGGACAGGCGAAAATACAGAACCTACTTTGTAATGACAGAATTTTCTTTTACACTGGGG
AGCCCTATTCTCACATAAACGTTATAGGAAGGGACTTAAAACTAGTCTGTGAGTAATTTAGAGAAAGAATGAAACGAAATTATGTTCATGTTACTAAGAA
AGGGCCTATCTTTCACAATAGCAGGGCACAATGGGCATAGTAGTGCCTTGAAGTTAATCTGTTATGTATGGTCTTATCTAGTTAATTTAGTTAAAGGATG
TTGCCAAGAAGGCCATGACCCATTTTATATTCAAGAATAACTTTATTTAGAGAGTCTTAGACTACCTGTTTTCAGTGCAGCTAATCACAGAGAAAACTGC
ATGGCTCAGAAGAGGAATTCTAAATGGTACCCCAAACAAGGTGTGTGGAGTGTAGATGCTCTGTAGGCCTCCAACAATGCACCCTTGGACTCTAGCAGCT
TGCCAGTTTTTTCTATTAAGGGCCAGATAGTAAATATTTTAGGCTCTGTGGGCTATACGGTCTCTGTAGTTACTACTCTGCTGTTATATTGGGAAAACAG
CCATAGACAATATGTAAACTAATTGATGTACCTGTGTTCCAGTACAATTTTATTTATCAAAACAAGCAGTGGGCCAGCTTTGCCCCACAACTATTAGGCC
CTCTGCTACCCCGACACTCATTAATTCATTGAATATTTATTGAGCACCTACTATGTGCTGTGCACCATTCTCAGTGCTGGCAGCACAGCCCTGCCCTCGA
GGAGTTTACCTTCTTTTATGCTGCAGTATCTTGTCTATCTTTCCTCTCCAGTGCTGAACCAGGAGTGGGAGTTCTGGTTCTAGACCTCCTTACTTTATTT
TTCCTCATCTGTAGAATGATATTATAATTTGGGCTGGTTAAACTGTAAGGCTCCTTTCAGTTCCATGATAACAGAACTGATGACTGAATGACTTTCACAA
GAAACACGTGGAGTCCAGTGAGCACCAGCAATGAACTTTCGCAACTGCAGAAATTAGTGATTGTAGCTGAGTTGACACAACAGTAGCTGAACTTRTTAAT
TTTACTGGAACTTTGAACCCAGTTTGTGATTATCTCTTGCCGTGTCACTGAATACATTGAGTACATTGGAATTAGATTGACATATTAAAGTTACTTGAAA
ACTCCTGAACCTACCTGAACAATGAATGAATGAAAATAATGAATGAATGAAAACAATAAACATTTTACACTTAAATGTTTAATTTAGATGAACTTTATAG
AGGAGCTAATAGCCAGGCTTCTATTTTTGAGATCCCAATGGTTGTAAAGGTGACCACATTTGTCCCCTATGTAGTCCAAGATCAGTCTCCTGTCCTGGAC
CTTATCGTATGTCCAGGACACAAGAAGCACTACATTTAACAAGCTCCCTAGGTGGTTTTGATGAGCAGGTAGGCTTAAGAACTGTTACCTTATCTCAAGA
CCATTTTTTTTCCTGAACAGCGGAGCTTAAGAACTATTACCTTATCTCAAGACCATGTTTTTCCTTTATAGATTTTGCCCTTTAATGAGCGAAATGTAAA
GGCAAAGTGAGTGAAATGAAAATGACCAGATTGTTGCCACTACTTTTAAGTAAAGTTAACAACAAACTTACATGATGCTGTGTAGGTTAYACAGCGTTTT
CATGTTCATCATGGTCAGAGGCAGCCTGGATGCAAAGTGGATGTTATGGGGTGGTGGGGGGCGGTGAGTAGTTTCATGAACTTTTAAAAAGCACTTCCAT
TAAAAAATTCTTCCTAGATCTTCTGTAAACCTTTTTTAAAGACRGCTACAATGACCCTGGCTTATTTGCTACTATTTCTCTGCTTTGTTATATTATCACC
CAAGCCCACCATGGACCCCATGCTAGAGAGGGCTAAGACTTCTTTTTCCTCATGTCCACGCTCCCAAGTCATGCTTGTGTATCACCTGTTTCTTATGGAC
TTCCAGTGTGTTATGTTGTGTTAGAATTCCCAGTTCAGTTTGAGACAGATTTTGCACTTGGCATATTAGTAGTTCCCACCTTGCCATTCATACTTGCTTT
GTTGTTTCATATTTATGTTTTCTTAGCATGAAATGTAGCCGCTGGAATTGTATTATTGGCCACATTGTCTCTGATTGGTTCAAAGCAAATAGAGATTTGA
TGGGAAAAGTCAGTGGATTATGGGCCTGTACAAAAGTGCTTTGATGAACGTCCTGCCATGTACATCTCCTCAGGGTATGCCAGAACCTCTCTAGGACACA
TTCCTCAAACTGCTGGGTCATAGCATGGACACATGCTTTATTCTACTAGTTATTGTCAGAAAGCATTTAAAGTGTTTTACCAATTTATAATCCTACCAGC
TGGGTATGAGAGTTCTAGTTTCCCTGTTTCCTTATTAATGCATATGTCCCCAAACTTTAAAATATTTGTCAGTTTGATGGGCTGAAGAAATGTGATCTCA
TTGCTTTTCATTTGTGTTTTCCTAGTTGAGTGTCATTTTGTATATTGATTGACCATTTGGGTTTTCTTTTCTGTCATTTGCCCTTTTTTCATTTAAAAAA
AATGCCTTGTTTGACTTTTTGTATTGATTTGTAACAATTCTTTATATATTTTCTGCACGTCAATCCTTTGTTATCTGCTGCAGATACCCTCCAGTCTGTG
CCATTCATTTGTTTATTTTGTGGCTTTGGTGTACAGAAGTTTTTTGTTTTCATGTTGTCAGATGTATCCATCTTTTTCTTTGTGGTTTGTGGGTTTTGTG
GGRGTGGGTAGTTTTTGGATTTTGTCTTATTTAAGAAATCTTCTGTAACCCGAGGTCATTTATGCACACCTGTATTTTCTTCAGAAAGTTTGAAAGCTGC
TCTGCTTTTTCCATTTGGGTTTTAAGTGAGCTTGAGTTTATTTTTATGTGTTACCTGAGGTGGCCTTTTTCTGTACGGGTAACAAACCGGAGCTGTTGGC
ATTTATTGTAGTCCCTTCTTTCAAAAGCTCCCAAATAACGTGGGGCTGTGTCTAGGCTGTTTCTTTCCTCTTGGGCCAGCTGTAGGGTTTGCCTTTCCTT
GTCTGTCTGYACCTGCACTGCCGCCATATTGTTTCCATTGTTACTGCTTTGTAAGTCATAATGGCAGGTGGGACAAGTCATTCCTCCCCCTCCTTCTTCA
GAGTGGTCTTGGCTATTCTTTACCTCCCCCCTTTTTATTATGTCACTGTTCGTGTTGATCATATTACCAACTTTCAGATTTTTCTGTTAAATCAGCATTG
AAAATTTACCTCACAGCCTGCGTCAGGACTTCCTTAGAGTCCTAATTCTCCTTTCTGTCCCCGTTACCCTCCGGTCCCCTGTACCTGTTCCCTTGGTTGC
CCTGCTTCAGGTGTCGGCTACCTCAGGCTGCATTCCTACATCAGCCCCCATACCTCCACACCCCCGCATCATCCCACAATATCCCAGACTTACTTTCCGG
AAGCAACGGCCTGGTCTCGGACTCTAGCAGTGATTTCTAGTTGCTTCTCAGGGCCACAGGTCTTGCCTAGGAGCACCCTGGGGAGTCATTTGACAGCTCA
CCCAGCTTCTTTTGGTGCCCGAGGGCATATCTGGAGGCCATAGGGAAGCCCTGGAAAAGACTGGGCACAAGCTGAAGCCAAAGTTGGGTGCCTGGCTGGC
ATTGGTAGATTTGGGGTYCTGGTTTGCATTGCTCACGATGCAGAATGGTTGCTGACCTTTCCTCCAGCGTTGGGGATGATGTGAGAGTCCAGCAGGCCCC
CTTCATGTGGGCCCTAACTTGGGGAAATCTCCACCGTGAGCACCRGGAAGTGGATGGTGGGGCCAGCATAAGCAGTATCCCGAGGACTGATCATGGAGGA
CCATTAGGAAGGGGGTYTTAAGGATGACCTTGGCCAGWCCGTGGGAAGCCTCCAGAGAGTGTTACCCAGATCCAGGGTACAGTGTTGCATTTCCAAATGA
GATGGCAGTTCCTTCGTTCCTTGATATTGTCGGAGAAGGATGTTTACCAAACAGRAGGTCCCTGTCTCAGGGTCTTCCTCTGAATGGTTTCCTCCAGTGA
GTCACTTCAGCATCCTCTCCCCCRACSCGATTCCCTTTCAAGCAGCCCACCCTACTTGTAATCCACATGTCTTGAATGAATTTTTGCATATCATTTTCTT
CTATCTTCCTTCACCAAATGATGTCTCCCTTCTTCACAGCGATGCTCAGAACTCTTTCCATCCACATAACTTACCTGGTTTCTCTTTCTCAGCCCCACCC
CTCTGTCTGCTTGCCTGTGACACCACTGTGCAGAGCTGCCCCTCTTTCTGTTTGTTTATACTTATGTGTATTGCTTTTCTCGTGAATCTTCCCAGGGCTT
GTTCATGTCTGTTTAGCCTGTCATTCCTCATTATGTTGTTTCTCAAGGACAAGGATTATATCTCCCTCGCCCTTTGACTCTTCCTGGTACAGGCCAGTGC
TTAGCACATTAGGTCGTAGAACAGAAAGTAGGATTGGCCGGGTTCAGTTTGAGGTTTATCACTTGCTGTGTGATCTTGAACAAGTTACATAACCTTTCTG
GGCTTCAGTTTTTATAAAATGAGGATGATAATGGTACTTTCCTCATAGGGTTATTGATTTGGCAGAGTATCTTGGATATGGTAAGCACCCATAATCTGCC
TATCAGTGTTATTGTTAGTAGTTAAGATATTAGAAACCATGCCAAAACGTGGGACCTAAAGTGCCACATACAAATTTTACAGTTCAGTGATGCTGTCGAT
TTAAATCAGTTACRTGTTGGCATCAGAAAAATTGTCTTTCCTGACTGAAGCGCTGTTGATTACTCCTGTCTCACTCATTTCCTCCCTCTTCCTTTGATAG
GCAGGTCCACGAGATCCAGTCTTGCATGGGACGCCTGGAGACGGCAGACAAGCAGTCTGTGCACAGTGAGTAATTAACTGTGGAGACCAGAGTCCTTTCT
CTGATGACAGGGTGCTAATGGGCTGGGCTTCCTGACTGCACTCTGCCTTGGGGGCTTAATGATTCAGCGTGGAATGAGTTTTGTTGTTAGGGTGGACAGA
AAAACCCTATGGCAAAGTCACTGATTTCCCTGAGTGTGCCCTTTGGAATCCCACAAGTCTTATCCCCCATTACCCCTCCACTCAACCTGACATGGCCCTA
TGGGAATGGAAGCGCTTGCCTCCATCTRTCTTAATCTAATTACCTAGTCCTTAGAGGAATGTACTCCATAAAAATTCAGAGATGTTTAACTGGAATTGGC
CATTTCTTCTGAGCTGAGAACTGTGGCTTTTTAGGAGGATTATTCAGAAACGAACAGCAATATTAATTAGTTTAGTTCCCACAGCATGGTTTCTTTTGAG
AAGCATGCTGGTTTTTTGTTTTTTTTCATTTTTTTTTTTTTTTTCTATTCTGAGGAAAGGTCCTTTTTCTGAGTTGGTCATATGGACACCACCTGCGGGG
GCTGCCTACCCACCCCACTGCTGGGCTCCCTCAGGACCCATTCCTCCTGTTCTCTCATGTCTCCTTTCGCAGCTTCAAAAGCAGCTCTGTTCTTGGTTCT
GTGCCCCACCTTGTTCTAATCTCAACTGTCTTTGTTCACTGTGGGCRCAAAGGGCTAGGAAGGGGCAGTGTCACTGCTGTCACTTCTTTATGGGGCAAGA
AGCAGTCTGGATGCTTTCTTTTGTGCACAGTTTAGCTTCTTTGTTCATCGGACTTTGTTTGCCTTCTCAGCAATCTCATTGTTACATGATTAGAAATGGA
AAGAGGTCATTTTGACTGTCTTATCGAAAGGGATAGGGAAAATGACCGTATTTATCGTATCTCTTTACCTCTGTGGATTCTTTCCTGGGCCTTTCCTATT
GATATTTGGTTTATTTTGGGGACGTCAACATTGCTCAGCCCACCCATTCTTACAGAAAGCTTTAAGGGAAGAAAGCCTTAAGGGAACTCTTCTCTGTATG
TTTCACATACTAATCTTCCCCTTCCTTTATGCTTTTTTTTTTTTAAATAAAAAAAAAAAACTCATTACTATAGGGAATTCAATTGGCAGCCTTTTTCTAG
GTATTTATAATCCACGTCTGAGAATCCCAAAGGAAAAGAGACCTATATCAGAAAATTTAGCTTAAAGTATTTATTTGGACAACCTTTGCATGTTTATTTT
CTAAAGGTAGGAAATTTATTTCTACAGATTTACCTTCAGCTTTTTTAAAAAATTGGCATTGTTATGTCATTAACAGCTATATACATGTACTTTTTTCAAA
ACAACATTTACGGCCTAACTTGAATTTTTTCTGTTATTCATTAGTGTATACATTTTTCTCCTTTTGAAATATGTAGTTCTAGTTTATTGGATATTGAAAA
AAAAATCTGTGATTTATCATTGTAATTTAAGTTCACTATCTCTTTTCCAGCAATTATTCTTTTTTCTTTTTTGTACAGTAGTAGAAAACGAAATCCAAGC
AAGCATAGACCAGATATTCAGCCGTCTAGAACGTCTGGAGATTTTGTCCAGCAAGGAGCCCCCTAACAAAAGGCAAAATGCCARACTGTAAGTGCTGACC
TCTGACATGGCTCTGATACTCCAGGCCCATCAAGACAGGCTTTTCTCCCTGGGGGAGGTGATAGAATATTCTGAAAACCAACGTACATGTTGAAAAACTA
TGACTATGCAAAGAAAAAGCCCCCTCAAAGGGCACAATTCTATCTGAGTGATGCCSCTCAAAATAAATAGCCTGTGAGGTTTGTGACTCAGAAACCTTGT
GACCCCTTACCTCTTTGGTGTCATTTTGAAATTTTGCCTCCAGTTCTGTTTTTTGACTAGATCCATAGCCACCTGAAGCCTAATGTTGCCATGGAGTTTT
GTTCTGCTCTTTGGTTCCTGCTGGGTTCTTCTTGGGTTGAAATGAAAARTCACTTCAATCAGTCCACCCATAATGAAATGCTGATCTAATGTTTGATACT
CCAGCATGAAATTAAAATGAAACCACCCTTGCCACCTCCACCCCCAGCGCCTGTTTCCAAAAGTTTTATGAAACTTTGTGGATGCTTTACCTCAAAGATG
CCCTTGGGCTTCTTCCAGGAGAGCCATATAATCCATAGAAGGTCAAGAAGAGGTCAGTGAGCCTGCTTCCTGTCCCCTGTTCTCTGTCATGCATCCAGAA
TCAGAGCAACAGATTCTGAAGTCAAGCTGCTGGAATCTTGTGTGCTACCATCTCACTTTAACCACAAGTTTCTTCTTGACTTTCAACATCGTTGATCAAA
ATTAGATCTTGTGGTGAGGGGGTATAGTGTGGGGTGGTGTAGGGAGAAGTAAGGAAACGCCGTCTTTCCTCAGTACAAAGCCTGGCCCCCTCAGATTCTG
CTGCCCTGAGTTCCTGGAATTTAATCTCTCTCTCCATCAATTCCAGTCGGGTTGACCAGTTAAAGTATGATGTCCAGCACCTGCAGACTGCGCTCAGAAA
CTTCCAGCATCGGCGCCATGCAAGGGAGCAGCAGGAGAGACAGCGAGAAGAGCTTCTGTCTCGAACCTTCACCACTAACGTAAGCCAGGCCCGTGGTGAG
GGTCGGCCTGCACTTGACAGATCGTGGGGGCTGGAGTTCAGATCTCTGAGCGCCATCTGTTTTGGGGGTGTCTGAAGAAGACTGATGATGAGGAAACCAA
CTGGAAATGACAGGAACTTTGTGCATTGCCACAGAGACTAGACCTAGACAGAGAATCCCTTTTTCTAAGACAAAAACCTGAAGAGGAAGCAGTTAAATTG
AAGGGGAATAGGCAGAGGTGAAAATTACCTGGTTGGGCTGGTCTGAGACAGAAAGGTGGAAGTTCACATGGTGGAAACGTTTTTCTGATCAGATAGAGAC
AGATGATTAGAACTTAGGCCATTTGTAGAGAAGGCAGCATTTCAAAGCTGCCTGCGGGCAGTTGCCATTGTGCCGAGTATGTGTGTGGCTCCAGTGTCAG
GTGCATTAAGATGTTTTTGCCCCTAGTCTGAGCAGCAATTTGGAGGAATTTGTTAACAGATGTTTAGGGTTAGATGGACTGCTTGCCTGAGTCTGTCTGA
AAGTGTGTTGGTTTGCATGTTTGATTTTTCAGAACCCATTGTCCCTGCCCTTTAGTCTTAACCAGATCATTTCCTGCACATGGCTGTAGAACATACTGGC
CTTTTCTGTGTCCTGCATAATATATTCCACTAAATGAAGTGTGCTTTGGCTTTTTGTATTTTGTTTTTTTACAGAGGATTATTTTCTAAAGAGATGTTAG
CTTTCTAAGCCAGTTGTTAAAATTCACATCATTTCCTGCTTTGTAGATGTTTAACCCTCAATGCTGCATCCTTGCTTTGCAATAAATTTTCCCAAGTGTT
TCAGGCTGTGCCAACATAGTTTTTGCTTCCCCAGACTAAGCAGTCAAGTRACAGTGTTTAACAGTTCAAAAATTTAATGAACTATAAGACACACTAAAAG
ATGTTTGGATTTTAGATCGTTATAATGTAGTATTCAGGCCTTTTTTAGGCCAAGGATGATCGCTTGGGATTATTTTGTTTTTTGCCAGCCTGGCGTGATG
CTGTGCACACCGTCAGTTCTTAATAAACATTGACTTGCCAGATGAAACTTCTTCCTGGTCATTCTACCATATGGAGCTATAATACATTTTTCTGAGAGAT
AATGGCCCATCAGCCATACTGTTTTAGATGGGAGRGTAAGAAAGATTTGTATGTGAATGGCATTTCATAAGTGCTAGTCAAATTACTGAAGAGAAGTCTC
TGAGTCTTTCAAACGCCAGCATCTTCTGACACACTGGGCATTAGCTGCATGCAGAAAACTAGTTAATTCAGGCACTAGGAGTAAAGCACATGATGAAATT
AAAAGACCTGACGCCTATCTGTGAGGAGCTCCCCTGTTAGCAGGGGCAGTTGAAAACACGTATGTGCAAAATGATTCCAAATCTGAGCAGCAAAGAAACA
GTGGCATAACCTTTTTTTTTTTTTTTGGACAATTGAAACTGGAATTTAGGTGGTAAAAACAGCACTAGTGGAGCAGGGCACAATGACACACGCCTGTGAT
CCCAGCACTTTGGGAGACCAAGGCAGTGGATTGTTCAGGAGTTCACCATCCTGGGTGACATGGTGAGACATYGTCTCTACAAAAAAATATAAAAATTAGC
CGGGCGTGGTGGCGTGAGCCTGTGGTCCCAACTACTCTCTGGAGCCTGAGGTGAGAAGATCACTTAAGCCTGGTAGGTCAAGGCTGCTCTCTATCCTGGG
TGACAGAGTGAGAGCCTGTCTCAAAAAAAAAAAAACACGAAACAAACCCCAGCACTACTTGGCAGGAGAGCTTGTGATTGGCAGAAAAGAGAAGGGAACG
CTCTCACAGCTGGCGAGGACTTGGCTCCTGCCTATAGTCCACTTTCAGAGCAAAAGTAGAGCCACCAGGATGGGCGTTGGTGTTTCCCTCTACAGTGTGG
GTAACAGGGCAGGCCCTGCGCTCAGTACCCACATTCCCAGCTCCACTGGACTTCCAGCTCTGTGATCACTGGACACACTTCCAGCTGTGTGATCTTGGAC
AAGTTATTCTACCTCTCTGGGCATTTTTTCATCTATAAAATGGGGAGGCCTGTGGACAGATTCCTTGAGCACAGGAGTTGGAGACCAGCCTGAGCAACAT
GGTGAAACCCTGTCTCTACCAAAAATACAAAAAAGAGAAAGAAAGAAAGAAAAAAGCTGGGCATGGTAGCATGCACCTATGGTCCCAGCTACTCAGAAGG
CTGAGGTGGGAGAATTGTTTGAGTCCAGGAGGCTAAGGTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCACCCTGGGTGACAGAGGGAAACCCTGTCT
CAAAAAAAAAGAAAATGCAGAAGCACAGCCTCCTCTATCCTTAGTTAACTCTCAGTCTACTTGGAGAGGTAAACTATAGATAAAATAGCTAAAGGACACG
AGCAAACATTTAACACTGCATTAAGGGGAAGCCATGGAAAGGAACATTTGGAACCAGCTAGGTTAGTGAGTAGTCAGAGAAAGCCTTTAGGAGACACCCA
RTGAGGTCTTGAAGGAATAGCTTTTCCTAAGAGGAGATCATGATACAGAGACAAGTATCGTTGGAATGAACGATACTTGTGGAGTGGAACTCATTTGGAG
AGTGACAGATCTGAGGAAGTTCCTCTTCTGTGTGGACAGAGGCCACCCCAGGCCTTTGCTTKGCTTTTTCTTATCCATTAGGGTCCGCTGATTCTTTCAC
CAGCCCCTCCGGCTGTTCTGGCTTGGCCTTGGCCAAAAGACAGAGCAGTGAGACCCCAGGAACTGACTGATAAGCAAAGTTAATCAAGTGCCTGTGTTTC
TTTCACAGGACTCTGACACCACCATACCAATGGACGAATCACTGCAGTTTAACTCCTCCCTCCAGAAAGTTCACAACGGCATGGATGACCTCATTTTAGA
TGGGCACAATATTTTAGATGGACTGAGGACCCAGAGACTGACCTTGAAGGTGGGGTCCCTGCTGGGGGACAGAGAGAAGGCCTCTTGTTTTAGCCTCATC
CAACAGTTTAGTAACTGTGTTTATATTTTGATTACGTGTCCTCAAATTGTGATATTTTGATGACAAGACAGAGCCCTTGAGTTTGGGATCCTTTCTGTTG
GAGTTGAGTTATTGTGAGCCTGAAAGTACCCAGTTCCTTTGCCAGTGCTTGAAACAAACCATGAAGTGGCCTCTCTTAGGATCCAGGTCTTTTCCCATTT
ACTGAACTTATCATGAAAGTGAGTGCTACTACGAGGGGTCCAATCACAGGCTGAGAAATTGTGTTACAGAATCTACTCTTGGAAGAATGAAGACGTGGCT
GTCCTTTGGTACCTCGCTTTAAGGTGGCTTTCCCTTAGGACCCCTACTGTGGACTGCCTTATAACTAAAACCTTTTGTATTTTAGTAACTGAATCCCCAC
TGTGCAGTGTTAGGGCTGCCTGGTTGTTTGCAGTAGATTAGAGCTTTAGAAGCTTCTAGAGCTTCTAAAGCCCGTGCTGGTGATCCCAGCGACTCTTCAC
TCCCTAGCCTTAGGTATTCCTAGAAGCCCTGACCAGTTGGCACTGCTGAGACTCCAGCCCCTGGGAGTGGTTTACAGAAACATTACACAGACTCTGATGT
CAGTCATGATGTTTCAGCCTCTGCCCTTTTCCTGTATCAACCCTGATGGATAATAGGGCGTGGGTTCTGTCTGTTATCAGGGTGTGGTCCCCTGTGAATG
AAGCACTCCCAGCCACTGAGCTGTGAGAAACAGTCACTCGGAAGTGTGAGCTTTATCTTAGTTTTTGTTGGATCATGTTGAGTCTGTCAGCTCCACAGGA
CTTCAGTACGTTTCTGAACAGTCCCTGCCATCTCTACGGGGGAGAGGGTCAGGCAAGCTGCAAGTGACACTCACCTCCTGCTGACAGTTGCAGTGTCTCA
GATGGCCTGGAAGGGTGGTCTCCAGCAGCCTGCTGGGCGCTCCCCTTTCATGAGAGCCACCTGCAGTGACCTGAACTGATACATGTTGATTAGTCTGCCC
TTTCTTTAGAAAACTGCTACTCTCCTTTTCATATCTCAGAAAAACAGTAGAGGCCTTTTAGGACCAAACTCCATGTCACACTGATGAAGAGCCAGTGGGG
GTTAGAGCGTCCTGTTAAGGCACATGCTAGCTTCCCACTCAAGTCTGGCAGCGCTGGGGCATCAGCACACCTCTTGCCACCCACACTGATACCAGAGGGG
AAGGCTGTGAGGTGGCTGGGGGTTGAGACTTGAGGTTTCTAACTTTCCTCTGCACACCTGTGGCTACCTGGTGTTTGTCTCTTGATTCCCTCCACCTGCC
TCACACCCTGCCTCCGTCGGGATTTTCCACCTACACCATTCAAAAGGAACATAGGAGAGGGCATGAAGGGGCTAGGCTGAAGCACTCTGATGACTGGGGC
CAATTTGTGGCTGAAAATGAATACATTTTTTGAAATTTATGGTCATTTTCAAGTGATTTAGAAGGTTGATCCTTAGCCTCATACAGTGATGAAATAATCT
GTGTGTTCAGAGCCAAGCAGGACTTTAGCAAGAGTCTGATTGTATTGTCACTATCTCGGGGAAAAAAAAATACAAATACATTTCTCTGATCTCTGATGGC
AATGAAGTTTGACTTGTAATTTCTCTGGCTGAGGCTTCTTAATTGCTTTCTGGGCAGAATGTAGATTTTGGATTCCTGTCCATGATGCCTAATGTTGATC
TCACTTTCCTTGTTTCTCTCAGTTGCTCATTAATGTGTATTTATTWAAAAAAAAAAAAAAGGATATGGGGCATGAGGTTAGATGCCATGCATATAAGTTG
CAGTGGGTGATATGTGCTGAGTGACTTGGGGTCTGCCCCGGCATTCACTTATACTTGTTTCTTACTAAGAAATTGAATGTGCTTTAAGCTGAAAATTAGA
AAGCAGTAGGGAAGGACAGGCTGGATGGTTTGGGTTGTTGGTTTAGGAATAAAATGCCCTTTTGTTTTGGTGGTGGGTGATGCCATCTATAGAAGGGTTT
TAGGTCATTGTGTTGGTGTCTTTCCGTCTTTCCCACTTGAGACCCTCTTGTAAATATGGACTTGACCCACCCATTGTACTCAGAAGAAACCTCAAAGATT
GTACTCTACAAAGTAAATAGGTTGGTATCAATGATTATTGGAACTAGAGAGCCGAGGACAAGTTTTTTGATGTTGCCTTCTTTTTATAGTATAAAATATT
CTAATTTTAAGTATTTTTGTTGAGATATAATTTACAGACAGTAAGGTATACAGATCATATTTTTACAATTCAGTGAATTTGGGCAATTGTATCAGCCTTT
GTAACTCACACTCCCATCAAGGCCCGGACCATTTCACCTCTGAAAGATCCCTCGTACCCCTTCCCAGTCAGTTGACCCCTCTGCCCCAGGCAGCCACTGT
TGTGATTTATTTCACCATAGATGAGGTTTTCTTGTTATTGAACTTCATATAAAGGTATTCATGCTACTCTTTTCTATGTGGCTTCTTCCTCCCAGTATGT
TTCCAAGGTTCATTCATATTGTTACCTATTTAATTCCATGTTGGTAGTCAGGTACTTTTTATTGCAAAGCAGTATTCCATTGGTACAGGTTTACCATAGT
TTGTTCATTCATCTTGTGATTAGTGACACCATTGTTTTCAGTATGTATTTATTTATGTATTTTTTGAGACAGGGCCTCCTTCTGCCACCCAGGCTGGAGT
GCAGTGGTGTGATCTTGGCTTACTGCAGCCTCGAACTCCTGGGCTCAAGTGGTTCTGTCACCTTAGCCTCGCAAGTAGCTAGAACCACAGGTGCACACCA
CCACACCTGGCTAATTTTTTTTTGTAGAGAAGGGGTCTTCACTACGTGCCCAGGCTGATCTCGAAATCCTGGCCTCAAGTAATCCTCCCACCCACCCCTC
CCAGAGTGCTGGGATTACAGGGATGAGTCCCTGCGCCTGGCCTGTTTGCAGTTTTTAGATATTCTCCTGTGTTTTTTTCTAGAAGCTTTAATTGTGGCTT
TAGCTTTTATGTTTAATTCTATGAACCATCTCAAATTAATTTTTAYGTATAATGTGAATTGAGGTTCAATTTTTACACACATATCTGTAAGAGAGATACA
TATATATAAAATACATACCTGTGATATTATATAGTCAGTCGTTCCAGCACCATTTGTGGAAAAGACTTTTCTTTCCACTTAGCGTTGCTCTGGTACCTTG
ATCAAAAATCAGTCGACGACATGAGAGTGGCTCTATTTCTGGCTGATAYTGCTTTCTGTGTATTCTGGGCATGACCAAGAGAATGTCTGTTGGCAAAGCT
CCATCTCCTGATGCCATTCACCCACTCTTGGTAAAGCGACTTGATGTTTGTTTTTTTTTCTGTTCTCTTCTGCCCCAGGGGACTCAGAAGAAGATCCTTG
ACATTGCCAASATGCTGGGCTTGTCCAACACAGTGATGCGGCTCATCGAGAAGCGGGCTTTCCAGGACAAGTACTTTATGATAGGTGGGATGCTGCTGAC
CTGTGTGGTCATGTTCCTCGTGGTGCAGTACCTGACATGAGCCAGCCACGCTCAGTGGCTGAACAGCATTCCCACAGCCTGCAAGTGTGTGTGTGTGTGA
AAGAGAGAGGGGGGCCCAGAGGCCGCCTTTTGAAATGTTTGCCTGTCTGAACTGTGAAGACACTTGGGAGTGATTGTGGTCTAATTTCCAACCTGCTCTG
TTTTCTGTGACATCTTGGAGGGGGAGCTAGTGCCACCACCATGCGCGGTGCTTAGGAAATGAAAGAAGTCCCGGGTCTGTCTCTCTCACTCTCGCTCTCA
CTGGGGGAGGGAAAGAATGGCTTTGGTGGCTTTGTTCACAYAGCTGATGCGTGCCCTGGGAAGGTGTYCACAGTGAGCCCTGTGTGCAGGACTGTCCACA
CGGTTCACACCTTGTCACCATCAGGCCTTTCTGGSTCCTGATAGGGTGGAGCAAAAGTGGAAAGGAAAGGAAAGAGGCCTTTTCTCACAGCCATTATATT
AAATAGTAGGTCGATTCACATCCTCGTGCTCCTGGCCACCCTCCCCTGTGCCTCAGTGACATGTAGATGACTGACTGCCAATACTTGTCACCATTCCCTG
GAAGCAGCTACCTAGGGGAAACAAGATGTAGTGCTATTGCCGATAACAAGTAAGATTTTCCACACTACAGCTGGGTGTTTCTCTTTTCTAAAGTGAGGCC
AGTGTTATTTCCCGGGAGTGTTCAGTCTTGACCCTAGTCACTGATTTTTTCTAGTTGTTAATAGAGTGGTTGGCTTTTAAGGTTCAGAGACTGTGGCTTG
GCACCTGCGCCCAGGCTTTGTGGGCCTTTGCCCCTTAGAAAGTAGCTGTAGGCAAAGATTTGTGATTTTCCAATTACAGTCTCAGCTCTAGTTTTAGTAT
CTCTAATTCTTTGGTTCCCTTCTCTTCCCTGAAATATATTAGCACCTGCCAGCCAGGCCCTCATTTTGCCCAGCCAGTGTGGGCAGATCCCACCGTGGAG
ACATCTGTAGTGTGTATGTCCTTGTAACACTCTGTTTTCAGGGACTACAACCTTTTTCCTTCTGTGACCAGCCCCGGATTCAGGCTGTACTAATACCAGG
TATATTRTGGAATTTAGTATAAAGGCCAATCTGTCCTGAAGTCCATCTAATGTGRTGAATCACTGAAAGTCTCAGAAAGACCTGGTTAGTGTATGTTCTC
ATTTACCACAGGCCTACCAGCCCTGGGCACAGCAGCTTCATGGCAAGACATAAAATGACACTCAAAATCCTTCAGATCTGGAAACCGGCTCAGTATTAAC
CCTACCTTTGGTTGTCCTGCCCTACCTGCTCTGTTAGTTTCTTGTTGCTTGAACTGTCTTCTGTCTTATTTCCCTTCCTTTCTGTGTTCCTCTTCACCTC
TCTTGTTCCCCTCCCCGCTGCTCTGTAGTCATGTTGGTCCTTTCAGGCACCTCTGTGGCATAGCTCCCCTTTGGTAAGTTTTCTTAATTGTCATAGATTA
ACTGAGTTTCCTGGATGCTAATTTCACACTTTCGGTTGGAGGAGATCTCCATTGTTCCYACCCCTCCGGGCCAAATGGGCCCCAGGTTTCCAAGGAAGGA
GCAATCTGTGACTCCTAAAATGGGTTGGGGCCCTGCCAGAGTTAAAGCAGTGACTGGAGGGTGGACTGGGGGGTTGCAGCATCTTTAGACCTAGATCTGT
CTAACTCTGGGGAGGCACATTGACATTTCCATTACACACAGCACTGCTGCRGTGCCAGGGACCTAGCGCAGGRCTTTTGGTAATCCATAAAATGGATTCT
GAGACTGCGACGGCAAGGCTGTCCTGTCCCCCAGGCACCCAAGGATCCTGCCAGACAGCACACTTTGGAGGAAGGTCTGCAGGGAGCAGCTGAGCCATTT
GTTCTTGAACTCTGGGAGGCAGAAGTCCCCGCACCCATCATGCGTGGACTGATAGGACATCTTTTCGTGGTGTGCACCAGTGCTTTCCACACTTGACAGT
GGTTGGCTTTGATGAACCCTCATGCTGCACCTTCAGAGCCAGTCCTCTAGTTTGGAATAAAAATTGCAGAGGTGGTTTTTGGGTCTTTACCACCTGCGGC
TGGTGGACAGCAGCCAGTGTGTCTGGACACCCAGGGGCATTGAGACTGCATGTTGTCACATGACCACTTCTCTTCACACATCTGCTTTCAGTGCCTGGTG
AAAAATAGACCTTGGCCTAACAGTGTGACTCTCTCCACCGCCTCAGTGTAGGGAAGGGTCCAGGCCAGGGAAGGAGCACCCTCTAGTGGAGGCGGGGGTG
AATTCTTAGGTCGAGCTGATGCAAGAAACTCYRGTAGCCAGCCTCTGTGACCTTGTACATGAGTTTGGTGTGCCTAYTGTGRTTTAAAACAGGTGGGTTA
TCAAGAGGAACTTGAGATCTCTTTATTACATGGACATTTACTTCAGGGGGACCACTGTAAGAAAAGCCAAACTCCAAGACCAAGTAAGTTAGAGGAGTCT
TGATTTTTTAGACTTCACTGCGGAGTTCTGTACACCCTTTGCCCTGATGAATTTGAATGGGTTTGATTTGCAAATTTGGATTTACACCCATTGTTTTGGA
AGCACATCAGCTGAATAAAGTTGAGGTTTATTTTATTTAGAAAATCACATTTTGTAAAAGAATTCGATATTCATTTTTATAACTAATGGCCCCCTTTTTT
TATGTTTCTAGGCCAGAGATTCTCAAACACTGCTCCATGGCCAGGGGCTGGGCTGGCTGCTTCAGAAGCAGTGGGGAAGCTTTTTAAAATTACATATTCC
TGGGGCCTACCCCAGATCTGAATTAGAACCTTTTTTAAATCTCTAAGGTGATTTTATTTTATTTTTTATTTTTGAGACAGTCTCGCTCTGTCACCCAGGC
TGGAGTGCAGTGGCGCAATCTTGGCTCAYTGCATCCTCTGCCTCCTGGGTTCAGGTGATCCTCATACCTCAKCCTCCTGAGTAGCTGGAACTACAAGTGT
GTGCCACCATGTCTGGCTAATTTTTTTTTTTTTTTTGTATTTTTTAGTAGAGACAGGGTTTTACTATGTTGACCAGATTGGTCTTAAACTCCTGGCCTCA
AGTGATCTGCCTGCTTCGGCCTCCCAAAGTTCTAGGGTTACAGGTGTTAGCCACTGKACCTGGCCTCTAAGGTGATTCTGATGTGTGTATTTTGGAACCA
CTGTCTCCTAGACAGAAAGCTTCTGTCTCAAAGATGATCACATTGGTGTAAAGAGCAAAACTTGTTAAGTCCAAAATAAATTCTTACTGTTTATATCCTA
CCTTAGTCCAAAAAAGATTTGAGGAGACTTTGAGGAAATAACTGAAACAGATACAAAGAAGTGAGGCACAAGAACAAATCAAGTCAGTGTAGAATGTCGA
CATCAGGACAAGGAACTCAAACGTTGTAACACCCTAAGAAATGTTTGGGGAACCCTAATTTGACTTTCAGCTCCAGTAGCCAAAGCAAAGAAAGAAACGT
CATCTGTTACTGTCTCAACCGGGGGGTGACATTTTCTCAAGGGAAAGCCTAGGCCCTTCATAAACAGCTTGCCTGTAGGCCTCACGGAGGTCAGACAGGG
ATTTTCCTGGCTCCATCCCTGCCAATCTGAAACCCTCTCACTTAYGTTCTCCATCATTTATCCTCATTATGCAGACAAGGGGCTGAGCTGTGGTGACTGT
GAAGGCCTCACAGGAGTCCGAGAGGAGCTGGCCCCTCATCCAGCTTGGAACCATGGGCCCACTTAATCTCCCACACTTCTCGTGGGGTGCTCTGCTGGGG
TCTGGGGGGATTGAGAGGTGTGCAGGGGACTGAGATGGTGCAGCCTGCTGGCATGGACTATAGAGCTATAAGGTGTTTGCTGCAGACCCTTCAGATAGTA
TAGGGCAAGTTCCCTGTTGGGAAATAATTTCCTAACTGGAAGGGGAGGGAATCTGAAGTGAAAGCTGTCCTCAGGCCTTGCCCCTAGGGGGCGGCATAGC
CCTATCTGTGGCTAGTGGGCCCTGAACACACTGCCTTAGGCCTGCTGTACTTAGAAGCTGAGAAAGGAAAGTGTCATTCCTTCCCCATTTTCTGTGTCCT
TTTCATTTCATATGGAAGGCACATGGGAGAGGAGTGTTCAGGGGTGCTGGGCCCCCAAGTGCTGTTGGTAAGTTCCCCACCATGGAGCCTCTGTGAGCCA
TCCCTCCCCGCCTCATCCCCATGTCCCTCTAGTACAGGGTTCCCAACCTTGGCTCTGCATTGGAATTCCCTCGGGAGCTTTAAAAACCCATGTGTGGGTC
TTCCATTCACCCTCTTATTAATTGGCCTGGAGTGCAGCCGGGGCATTGGGAGTTGCCCAAGGCGATTGTAATGCCCAGGGGTAGGGAGCCGATGGCTCTA
ATACAAGAACATCAACCCAAGGCTAGCCCGTCCCCCATGCACTTCCCCTGGCCGCACCGTGGGAACCACTTGCAGAGACCAACTAGGGGCAGGGATGGAA
GCCTGATTCTCCCTCTGGATCAGAAGGAGCCAGATCCCTTGTGGCCATTGGGTGCCCCTCATTAACTGACACCTCTCTGCTGAGTAAAGCACCTTGATGT
GACAGGCCAGCTCTTCGCTGCCCCTGCAGTGCAGCCCCCAGCCCTCCCCACCACCCCTGCCTGGTGTTCCGTCCTCCCTGGACTGCTTGGTCTTCTCAGA
ACATGCCACACACTCAGTACAGCTGCACCTTTGCACAAGATGTTTCCTCTCAGATGTGCCACAAACACCCCCACAATCCCATGAAACCTCCAAGAAGCCT
GCCCCTCCCCTCCAAACAACCTCATACTGCACGCTTCCTGCGGAATGGGAGTTGCTCCTCACCGCAGGGGCCTTTGTGCATCCCGGGCACGTAGTAGGCG
CAGGCGCCATCGGGTAAGCGGCTGCAGGAGAGCACTTGAGCCCATCCCCCATGCAGGGCCAGCAAAGCTGTTGCAGCCAGGCCAGGAGGAAGCCAGAAGG
TTCAAGGCCACTGATGCTACGAGCCATGTGCTCACAGGGCCTCAACAACAGCAATGACTGCAGTAAAAGAGGAGAGGCATGGGGCCCCGTGAGGGAAACT
GTCACTCAGGACTGGGGAGAGAGAAGTAGAGTGACCAACTTGTCTGGGTTTTAAAGCTGAAAGTCCTGAATCCTGGCGATCCCTCGGTCTGATGGTCACC
CTAGATAAGCTAAAGGCTAGGACAGGCGTGACTAATGCAGGGTATCTAGGAAGAGGGGGCTCTCGGAGGCTGACTCCTGGCTTAGCAATTCCATTAGTGT
GGTTCCACTGGCCCTTCCTTCCAGGCATCTGTGACATGGTGGCTCCTGGAGAGCTGGCAGAGGCTGGGCCAGGCCCAGGAGGGAAGTATTCCAACCTCCT
CAGAAGACAGTGGCTGACAGTACAAGAGGGGACATTCATCTTTATTCCGTCTTCCAGAGCCCTGGCATGTGTCCAGTGCCAGTGTTAGCTGTTTCAGGGC
AGAGGGAAGGAGTTGGAGACAAGCAGCCCTCCGCAGTTTGCACTGGTTACAGCGGCCGGAGGCTGTGGTAAGAGCGCTGAGCCCAGGATGCAGAGCCTGG
CTTCAAGTCCCAGCCCTGCTGGCAGCAACCACGGGCCACACACCTCTCAGCCTCAGCTTTCTAAGAATGGGGGTAACACCTGTCCCACGTCCCTTTCTGG
GGTGGACATGAGGCCCGAGTCACGTAGTGCTTTTGGCAGATTCCAGAGGTCTGAGGCAGTGACCCTCAGCCTGGGCTGCTTCCTGGAGTCCCCCAGAGAG
TTTGGAAGTCCCGATTCTGGGCCTCGCTCCCCAGAGATGCCGAGCTACCTGGTCTACAGTGGGGCCTGGGCTTCAGAATTTTTAATTTTCTTTTTTTTTT
TTTTCCTCTCATTCTGTTGCCCAGGCTGGGGTGCAATGGTGCAATCTCGGCTCACTGCAGCCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGTTTCAGCC
TCCGGAGTGGCTAGGATTACAGGCACCCACTACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCTCCATGTTGGGCAGGCTGGTCTCG
AACTCCTGACTTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACTGGCATAAGCCACCGCAGCCGGCCTTAATTTTTAACTTTCTAAGG
AGTCTCCTGTGAGGTCGAGATTGAGAACCACGGCTGTCAGTGCATCCCAGGTGCAATGGAGTATCATTCCTGTTCAGCTGGAAAGACAGGATCTACTCGT
GAAACAACCGAGGTTGAGAGGTGATAGTTTAGTGCGGCCATTGTGGTGGGGGCATTAACCAGGAAGAGCTTTCTGTGAGAGGGCGAGGTGATGGGTGTGT
GAAGGACAGGAGATGATGTGGGAGCAGTCGAGGGGCAGGAGTGGCCTGGGGGAGGGAGGAAGCTCTAACCAGCCCTGGCTGCTGTGGGCTCTGAGGCCTG
ATGTGCTGTCTTCTGCACGACATCCTCCACGCACTGTCCTCCGTGTTCCAGCTGGGAAACTTGCTGCTCAGAGGCCTGAGTTCATGCTGCTGAGATGCTA
CTGAGAGCTGGAGAAGCTGTCAGGCTGGTGTGGGTGTGGACAAGCCCTACTGTCCTAGGAAGACCTGCCCATGATCTTTTGAGGTGCAACGTAGTGTGAT
GGGGGTGGTGGGATAGTGTTTGAGATGGGGTTGGCAGACATGGCGTAGAATCCTGACTTTGCTGTTTATTAGCAGCCTAACCTTGGGCTTAATCACTCCA
GCCTCAGTTTCCTGTCTGTATTCAGCTCAAAACAGAATTGCATCTTTGCTGGGTGGTAACTCATCAGAGAGGAACAGGCGTGGGCTATGCAGAAGGGAAG
CAGTTCTCCCTTCTTTCCAGCCCGAGCAACAGGATCCACATTCTTTCAACCAAGACCACTTGGCCCTGCTCACCTCCTGGCAACTTCTGGCCTCCTCTAA
GAGTTTCTTGTGCCCCAGGCATGTGCAGGGACTGAGGCAGAAGCTCAGGGAGTGGGGACCTCTATAGGAGGGGAGAATAATCACTGCTGCCCCCAGGACC
TCACCAGGTGGTTGTGAATGTCAAAAGGTAAAACCCTGGAGATAAACCCCTGATCGCTGCCGGGTGCTGTCCAAATTATTGTTGCTATGTGCATGGAGTG
GGTATAAATTCCGTGTCCATGGTGATTTCTTCCAGGAAACCATTTCTTTTTTCCCCCTGTGGCAAAGGGCAGCCTCTCTTACCTCAATCCAGGGGCCCTG
GGAGACCCTTGGAAGGCGGGGCCTCCAGGGCTGAATTCCAGAACAGCAGCTGTGGCCACCTCCTTAGGCCACCTGGGAATCAATTCTCTGTCGTCACTCA
CTTGGAGGAAACCACATTTAAATTAAAAATGTAGGCTGGGCGCGGTGTCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCTCCTG
AGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAATACCAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAATGCCAGG
AGTGGTGGCGCATGCCTGTAATCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGCC
ATTGCACTCCAGCCTAGGCAAGAAGAGCAAAACTCCGTCTCAAAAAAAAAAAAAAAAAAGTAGGTGGCCTGGGATATTCCCTTTGTGGAAAAAAAAAAAA
GAAATAGCTCAAGCTCAGTATTGCAGCCCTTAAACAGAAAAGTAATTAATAATTATGAGAGGCCAGGCATGGTGGCTCCCACCTTTAATCCCAGCACTTT
GGGAGGCCAAAGCAGGTGGATTATCTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAATATACAAAAACTAGCCA
GGCAAGTTGGTGTGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGACATGAGAATTGTTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGACATTGTG
CCACTGCACTCTAGCCTGGGTGACGAAATGAGACTCTGTTTCAATTTTAAAAAAACAAAAATTATGAGATGTCGCGGGGCAGCAGTCAAGTGCCAAGCAA
GTGGGGTAGATATCAGAGGGTGGAGAGCCCACCCAGCAGTGAGAGGAGGCTGCAACTGACTGCTGCCCCTGGGGAAGGTGGGACGGGGGCCAGATTCACA
GGGGAGCCATGTGAGCTTGGTTCTCAGCAGGCTGGGTTTGGAGTGGATTGTGGAAAGAGTAGGGACGTATTAGGGTGAAGCTGGAGGTGGGTGTGGAGGA
AGGCCAGGGGACCCTGACATGAATGTGGATGCAGGAACCCTCAGCTGTCTCTGAAACCAGGAGGGCTGGGGAAGGACCCTGTGCATGTCCTAGATTCTGT
GGCCCCAGGAGTTACTGCTCAGGAAGCAGGGCAGCCTCCTCTTTGGTGTATGTGTGCAAGAGAGAGGTCGTGGTGGGCTGTGGGTTGTTAGTCTCTCTCC
CAGGAGCACCTGGCAACCTGAACTACCCCTGCTCCCTCCCCACCCTGCCCCAGATCTGGTGAAACCACCAACCAGGCGGAGGCAGGGCAGAGGCTGTCAC
TGCCACACACCTTCAGAGCTCCCTACAACTTACGTTCATGCTGCTGAGATACTGATGAGAGCTGGAGAAGCTGTCAGGCTGGTGTGGGTGTGGACAAGCC
CCACTGTCCTAGGAAGACCTGGACATGATCTTTTTAGGTGCAGTGTAATGTGATGGGGGTGGTGGGATGATGTTTGAGATGGGGATGGCAGACATGGCTT
AGAATCCTGACTTTGCTGTTTATTAGCAGCCTGACCTTGGGCTAATCACCCAAACCTCAGCGTCCTGTCTGTATAGTGAGAATAATAATAACTACCTCAA
GTGGTAGCAAAAGTGCCTGTATTTGAGAGCTTGTCCGTCACTAGAAATAGTTTTTTTTTCTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAG
TGCAATGGCACAATCTCGGCTCACCGTAACCTCCGCCTCCCGGGTTCAAGCGACTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCC
ACCACGCCTGGCTAATTTTTCGTGTTTTTACTAGAGACAGAGTTTCACCATGTTGGCCAGGCTGGTCTCGAT


SNP Information

Context             (SEQ ID NO:25653):
TTCACATAGCTGATGCGTGCCCTGGGAAGGTGTCCACAGTGAGCCCTGTGTGCAGGACTGTCCACACGGTTCACACCTTGTCACCATCAGGCCTTTCTGG
S
TCCTGATAGGGTGGAGCAAAAGTGGAAAGGAAAGGAAAGAGGCCTTTTCTCACAGCCATTATATTAAATAGTAGGTCGATTCACATCCTCGTGCTCCTGG
Celera SNP ID:            hCV29195268
SNP Position Genomic:     22035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:25654):
ACCATTTGTGGAAAAGACTTTTCTTTCCACTTAGCGTTGCTCTGGTACCTTGATCAAAAATCAGTCGACGACATGAGAGTGGCTCTATTTCTGGCTGATA
Y
TGCTTTCTGTGTATTCTGGGCATGACCAAGAGAATGTCTGTTGGCAAAGCTCCATCTCCTGATGCCATTCACCCACTCTTGGTAAAGCGACTTGATGTTT
Celera SNP ID:            hCV29195269
SNP Position Genomic:     21349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25655):
GAGCTCCCCTGTTAGCAGGGGCAGTTGAAAACACGTATGTGCAAAATGATTCCAAATCTGAGCAGCAAAGAAACAGTGGCATAACCTTTTTTTTTTTTTT
T
GGACAATTGAAACTGGAATTTAGGTGGTAAAAACAGCACTAGTGGAGCAGGGCACAATGACACACGCCTGTGATCCCAGCACTTTGGGAGACCAAGGCAG
Celera SNP ID:            hCV26660540
SNP Position Genomic:     16526
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25656):
GTCCCGGGTCTGTCTCTCTCACTCTCGCTCTCACTGGGGGAGGGAAAGAATGGCTTTGGTGGCTTTGTTCACATAGCTGATGCGTGCCCTGGGAAGGTGT
Y
CACAGTGAGCCCTGTGTGCAGGACTGTCCACACGGTTCACACCTTGTCACCATCAGGCCTTTCTGGCTCCTGATAGGGTGGAGCAAAAGTGGAAAGGAAA
Celera SNP ID:            hCV27848305
SNP Position Genomic:     21968
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:25657):
ACTTGGGGAAATCTCCACCGTGAGCACCGGGAAGTGGATGGTGGGGCCAGCATAAGCAGTATCCCGAGGACTGATCATGGAGGACCATTAGGAAGGGGGT
Y
TTAAGGATGACCTTGGCCAGACCGTGGGAAGCCTCCAGAGAGTGTTACCCAGATCCAGGGTACAGTGTTGCATTTCCAAATGAGATGGCAGTTCCTTCGT
Celera SNP ID:            hCV16122784
SNP Position Genomic:     11417
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25658):
GAGCACCGGGAAGTGGATGGTGGGGCCAGCATAAGCAGTATCCCGAGGACTGATCATGGAGGACCATTAGGAAGGGGGTCTTAAGGATGACCTTGGCCAG
W
CCGTGGGAAGCCTCCAGAGAGTGTTACCCAGATCCAGGGTACAGTGTTGCATTTCCAAATGAGATGGCAGTTCCTTCGTTCCTTGATATTGTCGGAGAAG
Celera SNP ID:            hCV16122785
SNP Position Genomic:     11438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25659):
TTGCAGTTTTTAGATATTCTCCTGTGTTTTTTTCTAGAAGCTTTAATTGTGGCTTTAGCTTTTATGTTTAATTCTATGAACCATCTCAAATTAATTTTTA
Y
GTATAATGTGAATTGAGGTTCAATTTTTACACACATATCTGTAAGAGAGATACATATATATAAAATACATACCTGTGATATTATATAGTCAGTCGTTCCA
Celera SNP ID:            hCV2959471
SNP Position Genomic:     21146
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25660):
TCTAGTGGAGGCGGGGGTGAATTCTTAGGTCGAGCTGATGCAAGAAACTCCGGTAGCCAGCCTCTGTGACCTTGTACATGAGTTTGGTGTGCCTATTGTG
R
TTTAAAACAGGTGGGTTATCAAGAGGAACTTGAGATCTCTTTATTACATGGACATTTACTTCAGGGGGACCACTGTAAGAAAAGCCAAACTCCAAGACCA
Celera SNP ID:            hCV25938011
SNP Position Genomic:     23982
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:25661):
TGGAATGAACGATACTTGTGGAGTGGAACTCATTTGGAGAGTGACAGATCTGAGGAAGTTCCTCTTCTGTGTGGACAGAGGCCACCCCAGGCCTTTGCTT
K
GCTTTTTCTTATCCATTAGGGTCCGCTGATTCTTTCACCAGCCCCTCCGGCTGTTCTGGCTTGGCCTTGGCCAAAAGACAGAGCAGTGAGACCCCAGGAA
Celera SNP ID:            hCV11416176
SNP Position Genomic:     17762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25662):
GTAGTGTGTATGTCCTTGTAACACTCTGTTTTCAGGGACTACAACCTTTTTCCTTCTGTGACCAGCCCCGGATTCAGGCTGTACTAATACCAGGTATATT
R
TGGAATTTAGTATAAAGGCCAATCTGTCCTGAAGTCCATCTAATGTGGTGAATCACTGAAAGTCTCAGAAAGACCTGGTTAGTGTATGTTCTCATTTACC
Celera SNP ID:            hCV11416177
SNP Position Genomic:     22707
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:25663):
TCACAAGAAACACGTGGAGTCCAGTGAGCACCAGCAATGAACTTTCGCAACTGCAGAAATTAGTGATTGTAGCTGAGTTGACACAACAGTAGCTGAACTT
R
TTAATTTTACTGGAACTTTGAACCCAGTTTGTGATTATCTCTTGCCGTGTCACTGAATACATTGAGTACATTGGAATTAGATTGACATATTAAAGTTACT
Celera SNP ID:            hCV2592660
SNP Position Genomic:     8595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:25664):
TTATGGGGTGGTGGGGGGCGGTGAGTAGTTTCATGAACTTTTAAAAAGCACTTCCATTAAAAAATTCTTCCTAGATCTTCTGTAAACCTTTTTTAAAGAC
R
GCTACAATGACCCTGGCTTATTTGCTACTATTTCTCTGCTTTGTTATATTATCACCCAAGCCCACCATGGACCCCATGCTAGAGAGGGCTAAGACTTCTT
Celera SNP ID:            hCV2592661
SNP Position Genomic:     9344
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25665):
ATTCATTTGTTTATTTTGTGGCTTTGGTGTACAGAAGTTTTTTGTTTTCATGTTGTCAGATGTATCCATCTTTTTCTTTGTGGTTTGTGGGTTTTGTGGG
R
GTGGGTAGTTTTTGGATTTTGTCTTATTTAAGAAATCTTCTGTAACCCGAGGTCATTTATGCACACCTGTATTTTCTTCAGAAAGTTTGAAAGCTGCTCT
Celera SNP ID:            hCV2592662
SNP Position Genomic:     10303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25666):
CTCCACCGCCTCAGTGTAGGGAAGGGTCCAGGCCAGGGAAGGAGCACCCTCTAGTGGAGGCGGGGGTGAATTCTTAGGTCGAGCTGATGCAAGAAACTCC
R
GTAGCCAGCCTCTGTGACCTTGTACATGAGTTTGGTGTGCCTATTGTGATTTAAAACAGGTGGGTTATCAAGAGGAACTTGAGATCTCTTTATTACATGG
Celera SNP ID:            hCV25937972
SNP Position Genomic:     23933
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,32)   total(A,2|G,66)
SNP Type:                 UTR 3


Context             (SEQ ID NO:25667):
CCCGAGGGCATATCTGGAGGCCATAGGGAAGCCCTGGAAAAGACTGGGCACAAGCTGAAGCCAAAGTTGGGTGCCTGGCTGGCATTGGTAGATTTGGGGT
Y
CTGGTTTGCATTGCTCACGATGCAGAATGGTTGCTGACCTTTCCTCCAGCGTTGGGGATGATGTGAGAGTCCAGCAGGCCCCCTTCATGTGGGCCCTAAC
Celera SNP ID:            hCV2592663
SNP Position Genomic:     11218
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   JBIC-allele(C,681|T,796)   total(C,681|T,796) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25668):
CCCTGAGTGTGCCCTTTGGAATCCCACAAGTCTTATCCCCCATTACCCCTCCACTCAACCTGACATGGCCCTATGGGAATGGAAGCGCTTGCCTCCATCT
R
TCTTAATCTAATTACCTAGTCCTTAGAGGAATGTACTCCATAAAAATTCAGAGATGTTTAACTGGAATTGGCCATTTCTTCTGAGCTGAGAACTGTGGCT
Celera SNP ID:            hCV2592664
SNP Position Genomic:     12728
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:25669):
CTGTTCTCTCATGTCTCCTTTCGCAGCTTCAAAAGCAGCTCTGTTCTTGGTTCTGTGCCCCACCTTGTTCTAATCTCAACTGTCTTTGTTCACTGTGGGC
R
CAAAGGGCTAGGAAGGGGCAGTGTCACTGCTGTCACTTCTTTATGGGGCAAGAAGCAGTCTGGATGCTTTCTTTTGTGCACAGTTTAGCTTCTTTGTTCA
Celera SNP ID:            hCV2592665
SNP Position Genomic:     13147
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25670):
TCTCCACCGCCTCAGTGTAGGGAAGGGTCCAGGCCAGGGAAGGAGCACCCTCTAGTGGAGGCGGGGGTGAATTCTTAGGTCGAGCTGATGCAAGAAACTC
Y
GGTAGCCAGCCTCTGTGACCTTGTACATGAGTTTGGTGTGCCTATTGTGATTTAAAACAGGTGGGTTATCAAGAGGAACTTGAGATCTCTTTATTACATG
Celera SNP ID:            hCV25941656
SNP Position Genomic:     23932
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,32|T,6)   total(C,66|T,8)
SNP Type:                 UTR 3


Context             (SEQ ID NO:25671):
ATGGTTGCTGACCTTTCCTCCAGCGTTGGGGATGATGTGAGAGTCCAGCAGGCCCCCTTCATGTGGGCCCTAACTTGGGGAAATCTCCACCGTGAGCACC
R
GGAAGTGGATGGTGGGGCCAGCATAAGCAGTATCCCGAGGACTGATCATGGAGGACCATTAGGAAGGGGGTCTTAAGGATGACCTTGGCCAGACCGTGGG
Celera SNP ID:            hCV2960489
SNP Position Genomic:     11345
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;JBIC-allele(A,380|G,1111)   total(G,1111|A,380)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25672):
AGCAGGGCACAATGACACACGCCTGTGATCCCAGCACTTTGGGAGACCAAGGCAGTGGATTGTTCAGGAGTTCACCATCCTGGGTGACATGGTGAGACAT
Y
GTCTCTACAAAAAAATATAAAAATTAGCCGGGCGTGGTGGCGTGAGCCTGTGGTCCCAACTACTCTCTGGAGCCTGAGGTGAGAAGATCACTTAAGCCTG
Celera SNP ID:            hCV2592669
SNP Position Genomic:     16672
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25673):
CCTTTTTTAAATCTCTAAGGTGATTTTATTTTATTTTTTATTTTTGAGACAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCA
Y
TGCATCCTCTGCCTCCTGGGTTCAGGTGATCCTCATACCTCAGCCTCCTGAGTAGCTGGAACTACAAGTGTGTGCCACCATGTCTGGCTAATTTTTTTTT
Celera SNP ID:            hCV27467513
SNP Position Genomic:     24529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25674):
CGAAATGTAAAGGCAAAGTGAGTGAAATGAAAATGACCAGATTGTTGCCACTACTTTTAAGTAAAGTTAACAACAAACTTACATGATGCTGTGTAGGTTA
Y
ACAGCGTTTTCATGTTCATCATGGTCAGAGGCAGCCTGGATGCAAAGTGGATGTTATGGGGTGGTGGGGGGCGGTGAGTAGTTTCATGAACTTTTAAAAA
Celera SNP ID:            hCV541970
SNP Position Genomic:     9190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   SC_12_T(T,9|C,11)   SC_12_C(T,6|C,17)   SC_12_TT(T,6|C,7)   total(C,35|T,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25675):
CGCGTGCGGGCAGCCCTGGCCGGCAGGGGAGGGAGGGTCCTGCGACCGGAAGCCGGAAACCGGAAGGGGGGCTGTGAGGACGTGTTCCGAGGAAGCCAGA
S
CCGGAGCCGTGGCCTGCCGGGCCGGCGACATGGATCCCCTGTTCCAGCAAACGCACAAGTGAGGGCCGGTCGGGGAGCGGGCAGGGGCTAGACGAGGCGA
Celera SNP ID:            hCV2275269
SNP Position Genomic:     6044
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,28)   caucasian(C,8|G,16)   total(C,16|G,44)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   JBIC-allele(C,696|G,801)   total(G,801|C,696) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:25676):
TTGTCAACTCGGTGCTCCTGGTTGGTAGACCTCGAGAGGAGACACGGAGTAGGAGACACGGCCCCTGGCCGTAGGAGTGTACTGTTTAATTGGAGAGTCA
R
GGCACGTACGGGAAAGTATTTGTATTCTTATTCGATTTATACTAAAGACCACATTTTTATGGTACAAAGAAATTGCTGTCCACGTAGCATTCACTATTAT
Celera SNP ID:            hCV29195238
SNP Position Genomic:     6512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25677):
GGTTTTACTATGTTGACCAGATTGGTCTTAAACTCCTGGCCTCAAGTGATCTGCCTGCTTCGGCCTCCCAAAGTTCTAGGGTTACAGGTGTTAGCCACTG
K
ACCTGGCCTCTAAGGTGATTCTGATGTGTGTATTTTGGAACCACTGTCTCCTAGACAGAAAGCTTCTGTCTCAAAGATGATCACATTGGTGTAAAGAGCA
Celera SNP ID:            hCV7451210
SNP Position Genomic:     24757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25678):
CTTTCTGGGCAGAATGTAGATTTTGGATTCCTGTCCATGATGCCTAATGTTGATCTCACTTTCCTTGTTTCTCTCAGTTGCTCATTAATGTGTATTTATT
W
AAAAAAAAAAAAAAGGATATGGGGCATGAGGTTAGATGCCATGCATATAAGTTGCAGTGGGTGATATGTGCTGAGTGACTTGGGGTCTGCCCCGGCATTC
Celera SNP ID:            hCV26660531
SNP Position Genomic:     19846
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25679):
CACCCTCTAGTGGAGGCGGGGGTGAATTCTTAGGTCGAGCTGATGCAAGAAACTCCGGTAGCCAGCCTCTGTGACCTTGTACATGAGTTTGGTGTGCCTA
Y
TGTGATTTAAAACAGGTGGGTTATCAAGAGGAACTTGAGATCTCTTTATTACATGGACATTTACTTCAGGGGGACCACTGTAAGAAAAGCCAAACTCCAA
Celera SNP ID:            hCV7451217
SNP Position Genomic:     23977
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,20)   caucasian(C,16|T,22)   total(C,34|T,42)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25680):
TTTTTTGACTAGATCCATAGCCACCTGAAGCCTAATGTTGCCATGGAGTTTTGTTCTGCTCTTTGGTTCCTGCTGGGTTCTTCTTGGGTTGAAATGAAAA
R
TCACTTCAATCAGTCCACCCATAATGAAATGCTGATCTAATGTTTGATACTCCAGCATGAAATTAAAATGAAACCACCCTTGCCACCTCCACCCCCAGCG
Celera SNP ID:            hCV11623018
SNP Position Genomic:     14449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:25681):
CTTTAAGGGAAGAAAGCCTTAAGGGAACTCTTCTCTGTATGTTTCACATACTAATCTTCCCCTTCCTTTATGCTTTTTTTTTTTTAAATAAAAAAAAAAA
A
CTCATTACTATAGGGAATTCAATTGGCAGCCTTTTTCTAGGTATTTATAATCCACGTCTGAGAATCCCAAAGGAAAAGAGACCTATATCAGAAAATTTAG
Celera SNP ID:            hCV26660550
SNP Position Genomic:     13560
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25682):
CCATTCTTACAGAAAGCTTTAAGGGAAGAAAGCCTTAAGGGAACTCTTCTCTGTATGTTTCACATACTAATCTTCCCCTTCCTTTATGCTTTTTTTTTTT
T
AAATAAAAAAAAAAAACTCATTACTATAGGGAATTCAATTGGCAGCCTTTTTCTAGGTATTTATAATCCACGTCTGAGAATCCCAAAGGAAAAGAGACCT
Celera SNP ID:            hCV26660551
SNP Position Genomic:     13544
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25683):
ATGCCATTCACCCACTCTTGGTAAAGCGACTTGATGTTTGTTTTTTTTTCTGTTCTCTTCTGCCCCAGGGGACTCAGAAGAAGATCCTTGACATTGCCAA
S
ATGCTGGGCTTGTCCAACACAGTGATGCGGCTCATCGAGAAGCGGGCTTTCCAGGACAAGTACTTTATGATAGGTGGGATGCTGCTGACCTGTGTGGTCA
Celera SNP ID:            hCV25936855
SNP Position Genomic:     21511
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,35|G,1)   total(C,67|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25684):
CTCTCTGGAGCCTGAGGTGAGAAGATCACTTAAGCCTGGTAGGTCAAGGCTGCTCTCTATCCTGGGTGACAGAGTGAGAGCCTGTCTCAAAAAAAAAAAA
A
CACGAAACAAACCCCAGCACTACTTGGCAGGAGAGCTTGTGATTGGCAGAAAAGAGAAGGGAACGCTCTCACAGCTGGCGAGGACTTGGCTCCTGCCTAT
Celera SNP ID:            hCV26660538
SNP Position Genomic:     16835
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25685):
TCAGAAACGAACAGCAATATTAATTAGTTTAGTTCCCACAGCATGGTTTCTTTTGAGAAGCATGCTGGTTTTTTGTTTTTTTTCATTTTTTTTTTTTTTT
T
CTATTCTGAGGAAAGGTCCTTTTTCTGAGTTGGTCATATGGACACCACCTGCGGGGGCTGCCTACCCACCCCACTGCTGGGCTCCCTCAGGACCCATTCC
Celera SNP ID:            hCV26660554
SNP Position Genomic:     12944
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25686):
ACTCTCTGGAGCCTGAGGTGAGAAGATCACTTAAGCCTGGTAGGTCAAGGCTGCTCTCTATCCTGGGTGACAGAGTGAGAGCCTGTCTCAAAAAAAAAAA
A
ACACGAAACAAACCCCAGCACTACTTGGCAGGAGAGCTTGTGATTGGCAGAAAAGAGAAGGGAACGCTCTCACAGCTGGCGAGGACTTGGCTCCTGCCTA
Celera SNP ID:            hCV26660539
SNP Position Genomic:     16834
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,6)   total(A,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25687):
GTTAGTAGTTAAGATATTAGAAACCATGCCAAAACGTGGGACCTAAAGTGCCACATACAAATTTTACAGTTCAGTGATGCTGTCGATTTAAATCAGTTAC
R
TGTTGGCATCAGAAAAATTGTCTTTCCTGACTGAAGCGCTGTTGATTACTCCTGTCTCACTCATTTCCTCCCTCTTCCTTTGATAGGCAGGTCCACGAGA
Celera SNP ID:            hCV25963855
SNP Position Genomic:     12314
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,37|G,1)   total(A,73|G,3)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:25688):
AAGCCTAGGCCCTTCATAAACAGCTTGCCTGTAGGCCTCACGGAGGTCAGACAGGGATTTTCCTGGCTCCATCCCTGCCAATCTGAAACCCTCTCACTTA
Y
GTTCTCCATCATTTATCCTCATTATGCAGACAAGGGGCTGAGCTGTGGTGACTGTGAAGGCCTCACAGGAGTCCGAGAGGAGCTGGCCCCTCATCCAGCT
Celera SNP ID:            hCV2959466
SNP Position Genomic:     25245
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:25689):
GAGAGTGTTACCCAGATCCAGGGTACAGTGTTGCATTTCCAAATGAGATGGCAGTTCCTTCGTTCCTTGATATTGTCGGAGAAGGATGTTTACCAAACAG
R
AGGTCCCTGTCTCAGGGTCTTCCTCTGAATGGTTTCCTCCAGTGAGTCACTTCAGCATCCTCTCCCCCAACCCGATTCCCTTTCAAGCAGCCCACCCTAC
Celera SNP ID:            hCV2960490
SNP Position Genomic:     11555
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;(G,-|A,-)   no_pop(G,-|A,-)   SG_12_AA(A,4|G,19)   total(G,19|A,4)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25690):
ATATTGTCGGAGAAGGATGTTTACCAAACAGGAGGTCCCTGTCTCAGGGTCTTCCTCTGAATGGTTTCCTCCAGTGAGTCACTTCAGCATCCTCTCCCCC
R
ACCCGATTCCCTTTCAAGCAGCCCACCCTACTTGTAATCCACATGTCTTGAATGAATTTTTGCATATCATTTTCTTCTATCTTCCTTCACCAAATGATGT
Celera SNP ID:            hCV2960491
SNP Position Genomic:     11624
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25691):
AGCAAACATTTAACACTGCATTAAGGGGAAGCCATGGAAAGGAACATTTGGAACCAGCTAGGTTAGTGAGTAGTCAGAGAAAGCCTTTAGGAGACACCCA
R
TGAGGTCTTGAAGGAATAGCTTTTCCTAAGAGGAGATCATGATACAGAGACAAGTATCGTTGGAATGAACGATACTTGTGGAGTGGAACTCATTTGGAGA
Celera SNP ID:            hCV2592671
SNP Position Genomic:     17601
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,7)   caucasian(A,13|G,23)   total(A,38|G,30)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25692):
TTGTCGGAGAAGGATGTTTACCAAACAGGAGGTCCCTGTCTCAGGGTCTTCCTCTGAATGGTTTCCTCCAGTGAGTCACTTCAGCATCCTCTCCCCCAAC
S
CGATTCCCTTTCAAGCAGCCCACCCTACTTGTAATCCACATGTCTTGAATGAATTTTTGCATATCATTTTCTTCTATCTTCCTTCACCAAATGATGTCTC
Celera SNP ID:            hCV2960492
SNP Position Genomic:     11627
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25693):
ATGCGCGGTGCTTAGGAAATGAAAGAAGTCCCGGGTCTGTCTCTCTCACTCTCGCTCTCACTGGGGGAGGGAAAGAATGGCTTTGGTGGCTTTGTTCACA
Y
AGCTGATGCGTGCCCTGGGAAGGTGTCCACAGTGAGCCCTGTGTGCAGGACTGTCCACACGGTTCACACCTTGTCACCATCAGGCCTTTCTGGCTCCTGA
Celera SNP ID:            hCV2592672
SNP Position Genomic:     21941
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,9)   caucasian(C,18)   total(C,43|T,9)
SNP Type:                 INTRON;UTR 3;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:25694):
CATAGCTCCCCTTTGGTAAGTTTTCTTAATTGTCATAGATTAACTGAGTTTCCTGGATGCTAATTTCACACTTTCGGTTGGAGGAGATCTCCATTGTTCC
Y
ACCCCTCCGGGCCAAATGGGCCCCAGGTTTCCAAGGAAGGAGCAATCTGTGACTCCTAAAATGGGTTGGGGCCCTGCCAGAGTTAAAGCAGTGACTGGAG
Celera SNP ID:            hCV2592673
SNP Position Genomic:     23159
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25695):
GCCGGCAGGGGAGGGAGGGTCCTGCGACCGGAAGCCGGAAACCGGAAGGGGGGCTGTGAGGACGTGTTCCGAGGAAGCCAGAGCCGGAGCCGTGGCCTGC
S
GGGCCGGCGACATGGATCCCCTGTTCCAGCAAACGCACAAGTGAGGGCCGGTCGGGGAGCGGGCAGGGGCTAGACGAGGCGAGGCCAGGTGAGCCTGGCT
Celera SNP ID:            hCV2275270
SNP Position Genomic:     6062
SNP Source:               Applera
Population(Allele,Count): african american(C,28|G,10)   caucasian(C,38)   total(C,66|G,10)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:25696):
TGACTGGAGGGTGGACTGGGGGGTTGCAGCATCTTTAGACCTAGATCTGTCTAACTCTGGGGAGGCACATTGACATTTCCATTACACACAGCACTGCTGC
R
GTGCCAGGGACCTAGCGCAGGGCTTTTGGTAATCCATAAAATGGATTCTGAGACTGCGACGGCAAGGCTGTCCTGTCCCCCAGGCACCCAAGGATCCTGC
Celera SNP ID:            hCV2592674
SNP Position Genomic:     23351
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25697):
TCCAGAACTTTTTCATCATCCCAGTGTGCCTGTTAATCAGTAGCACTTCATTTCTTCCTTCCAGAACACCTAGTAACCTCTGTTTTACTTCTCTCTATGA
R
TTTACCTATTCTAGATACTTAATATAAGTGGAGTCATACAGAATTTGTCCTTTTGTATCTGGCTTATTTCACTTAATGTTTTCAGGGTTCATCTATATTG
Celera SNP ID:            hCV2592659
SNP Position Genomic:     7056
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25698):
GTTGCAGCATCTTTAGACCTAGATCTGTCTAACTCTGGGGAGGCACATTGACATTTCCATTACACACAGCACTGCTGCGGTGCCAGGGACCTAGCGCAGG
R
CTTTTGGTAATCCATAAAATGGATTCTGAGACTGCGACGGCAAGGCTGTCCTGTCCCCCAGGCACCCAAGGATCCTGCCAGACAGCACACTTTGGAGGAA
Celera SNP ID:            hCV2592675
SNP Position Genomic:     23373
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,8|G,8)      total(G,8|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25699):
TAATGTAGCTTGAGGGTATGATTAGTTCTCCCAACAGACCATGAGAGATATGGGAGGTTTTAGGGCTGTGTCTTGCTTGTGTTCCTATCTCCAGTATCTG
Y
GCATGGTACATTGTAGATGCTCAATTATAGAAAAAGTGAAAAAAATAATTTTAGGAAAAGAATGTACATGGGTGGACAGTCTCTTGGGACACAAAACTGG
Celera SNP ID:            hCV27836689
SNP Position Genomic:     3274
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 hmCS


Context             (SEQ ID NO:25700):
AGTCCCTTCTTTCAAAAGCTCCCAAATAACGTGGGGCTGTGTCTAGGCTGTTTCTTTCCTCTTGGGCCAGCTGTAGGGTTTGCCTTTCCTTGTCTGTCTG
Y
ACCTGCACTGCCGCCATATTGTTTCCATTGTTACTGCTTTGTAAGTCATAATGGCAGGTGGGACAAGTCATTCCTCCCCCTCCTTCTTCAGAGTGGTCTT
Celera SNP ID:            hCV2275272
SNP Position Genomic:     10610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25701):
TTGAGACAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCATCCTCTGCCTCCTGGGTTCAGGTGATCCTCATACCTCA
K
CCTCCTGAGTAGCTGGAACTACAAGTGTGTGCCACCATGTCTGGCTAATTTTTTTTTTTTTTTTGTATTTTTTAGTAGAGACAGGGTTTTACTATGTTGA
Celera SNP ID:            hCV2592676
SNP Position Genomic:     24572
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:25702):
GAAAACGAAATCCAAGCAAGCATAGACCAGATATTCAGCCGTCTAGAACGTCTGGAGATTTTGTCCAGCAAGGAGCCCCCTAACAAAAGGCAAAATGCCA
R
ACTGTAAGTGCTGACCTCTGACATGGCTCTGATACTCCAGGCCCATCAAGACAGGCTTTTCTCCCTGGGGGAGGTGATAGAATATTCTGAAAACCAACGT
Celera SNP ID:            hCV2275273
SNP Position Genomic:     14084
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,19)   caucasian(A,7|G,29)   total(A,12|G,48)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): SG_12_A(G,3|A,14)   SG_12_G(G,6|A,14)   SG_12_AA(G,7|A,8)   total(G,16|A,36)   (A,-|G,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25703):
AGGTGATAGAATATTCTGAAAACCAACGTACATGTTGAAAAACTATGACTATGCAAAGAAAAAGCCCCCTCAAAGGGCACAATTCTATCTGAGTGATGCC
S
CTCAAAATAAATAGCCTGTGAGGTTTGTGACTCAGAAACCTTGTGACCCCTTACCTCTTTGGTGTCATTTTGAAATTTTGCCTCCAGTTCTGTTTTTTGA
Celera SNP ID:            hCV2275274
SNP Position Genomic:     14256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25704):
TTGCCAGATGAAACTTCTTCCTGGTCATTCTACCATATGGAGCTATAATACATTTTTCTGAGAGATAATGGCCCATCAGCCATACTGTTTTAGATGGGAG
R
GTAAGAAAGATTTGTATGTGAATGGCATTTCATAAGTGCTAGTCAAATTACTGAAGAGAAGTCTCTGAGTCTTTCAAACGCCAGCATCTTCTGACACACT
Celera SNP ID:            hCV2275276
SNP Position Genomic:     16235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25705):
ATGGTACATTGTAGATGCTCAATTATAGAAAAAGTGAAAAAAATAATTTTAGGAAAAGAATGTACATGGGTGGACAGTCTCTTGGGACACAAAACTGGGT
R
GGATCCAGGATCCAGGAAAAGAGAAGTATCAACTTGTCCAAGAAAAGAATGTCTCCTGCCTTGGGAGGAATAGTAGATAAGCTTGGAGGATGGAAACGGG
Celera SNP ID:            hCV27832728
SNP Position Genomic:     3377
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 hmCS


Context             (SEQ ID NO:25706):
GTCCTGCGACCGGAAGCCGGAAACCGGAAGGGGGGCTGTGAGGACGTGTTCCGAGGAAGCCAGAGCCGGAGCCGTGGCCTGCCGGGCCGGCGACATGGAT
M
CCCTGTTCCAGCAAACGCACAAGTGAGGGCCGGTCGGGGAGCGGGCAGGGGCTAGACGAGGCGAGGCCAGGTGAGCCTGGCTTCTGGGGCTGAGGCCTCG
Celera SNP ID:            hCV25959497
SNP Position Genomic:     6080
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,37)   total(A,1|C,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25707):
TTTCCTTCTGTGACCAGCCCCGGATTCAGGCTGTACTAATACCAGGTATATTGTGGAATTTAGTATAAAGGCCAATCTGTCCTGAAGTCCATCTAATGTG
R
TGAATCACTGAAAGTCTCAGAAAGACCTGGTTAGTGTATGTTCTCATTTACCACAGGCCTACCAGCCCTGGGCACAGCAGCTTCATGGCAAGACATAAAA
Celera SNP ID:            hCV2275279
SNP Position Genomic:     22755
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25708):
GCTCAATTATAGAAAAAGTGAAAAAAATAATTTTAGGAAAAGAATGTACATGGGTGGACAGTCTCTTGGGACACAAAACTGGGTGGGATCCAGGATCCAG
S
AAAAGAGAAGTATCAACTTGTCCAAGAAAAGAATGTCTCCTGCCTTGGGAGGAATAGTAGATAAGCTTGGAGGATGGAAACGGGATAGCCTATGTGGAGA
Celera SNP ID:            hCV27844362
SNP Position Genomic:     3393
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,40)   total(C,1|G,75)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:25709):
TTTAACCCTCAATGCTGCATCCTTGCTTTGCAATAAATTTTCCCAAGTGTTTCAGGCTGTGCCAACATAGTTTTTGCTTCCCCAGACTAAGCAGTCAAGT
R
ACAGTGTTTAACAGTTCAAAAATTTAATGAACTATAAGACACACTAAAAGATGTTTGGATTTTAGATCGTTATAATGTAGTATTCAGGCCTTTTTTAGGC
Celera SNP ID:            hCV537527
SNP Position Genomic:     15950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 95
Celera Gene:                 hCG1995465 - 61000125219669
Gene Symbol:                 DKFZP564C186
Protein Name:                DKFZP564C186 protein
Celera Genomic Axis:         GA_x5YUV32VTH2(1691110..1718528)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12255):
GAGGACACGGACAGCGTCGGGGAGGATGGCGGCGGGAAATTGAGCAGCTCCAGCACCGCCACACCCACACTGCTGCGCCGGGTGAACATGCAGGATGCGG
CCACCCACTTGTTGGTCCTCGGGTTGTACTTCTCGATGGAGTTGAGGCTGGAGCTACCGTCGTTACCCCCCACGGCGTACAACCATCCGTCCATGGCCAC
CAGGTCATGCGTGCTCCTGGGGGGAAGGCGGGGTGAGCCCCTGGCTGCAGGAAGGGATGCGGGGGGAGGGGCCACACCACAAAAAGGGGTGGTGGCGGGA
CATGCTCGCTGAGGTTGGGAGAACTCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAACAGGAACGAAACGACGAACCAGA
CTCGACGGCAGCTGGGCGCACGTCTCACATAGCGAGGGGGAAGAAGAGAAGAACACGGCAAGACGGGAAAGGCGCGTGAGGCACGCAAGAGCAGGGCGGA
GCGCTGAGAAGCGGATGTGGCGCCAAGGATACCACAGATAGCACGACTGGGAATGAGGCCGGGCAGGCAGCACATCCGCAGCGGGACCCGGCCCCGGTAA
CCAAAAACATACCCACTGAGGACGCGCGAGGCCTCCAACAGGCCCACTCGGACCCGGCCCCCCTCCACCAGCCCCACTGCGGACCTGCGGATATTCATGG
GCGCCACGCTTTCACCAGCTCCAGCCTTTGGACTGTATCTCTCTACCGAGTTGAGGCAGCTGGTGCCGTCGTTGCCCCCTGCCACGTACAGGGCACCCTC
CAGCACGGCCACGCACCTGAGCTGCGTCGGCTCAGTCATGGCGACACGGGCGACCACACGTTCACCTGGGGGCGAGGGCGTGGGCTGGACGCAGACCCGC
CACTGGCATCCCTCCTCTGCCGCAGCCCCGACTCCAGGGTGGGGTGTCAGGAATGGGGGGGATGTGGGTAAACAGAGGGAGGAGGGCCCCGCGGCGCACG
GGAGGGGGTGGCCAGGAGGGGTGCACTATGCACCTGGGGCTCATACTTCTCCACAGTGGCCAGGTGTGAGGAGCTGTCGTAGCCGCCCACAGCATACAGG
TTCCCATCTGCCGGAAGTCAACACACCCGTGGCACTCCTGCTGGGAGTGGGGTCTCCACGGTGGGGGAAGGTGGGGATGCCCCCCAGGCAGGCCCCATCA
CCCACCAAGCGTGGCCACTCGCACATAGCGCCTCCGGGTGCTCATGGCAGCGACGGACGTCCACGTTCCGGTCAGGGGGTCGTAGCGTTCAGCACTGTGG
GCACCAGGACCGCAGCCACAGCTCAGCAGAGACAGAAAGGCGTCCCGGCCCCAGGACCTGCCCTCCCCAGCGGAATGGCTGAAATCTTACCCTAGGAGTC
AAACTCAGACCGCAAAGTCCTACCAGGCAGGGCCCGCTGGTGGGCACAGGACCCTGGCTGCCTGAACAACCCTGGGTGCACACCCACCTGGGCCCAGCCT
CTGGACTGGGGGTAAGGACCCGAGAGAGGAAAGGGCACTGGGGCAGCAAAGCCAAGAGTTCAGGCCCAGTGTGGCAGTGGCCTGGGGTGAAACGGCCTCG
CGGATCACCTCCTTTAACACCCCATCAGATACGACCCCTGTGATGGTGACACAAACTTGCCTCTTGCAGATGGACTGTACAAAGCCACTGGGGCCCCAAC
CCCAACTACCTGTTCAGGCAGGAGGCCCCGTCATARCCGCCGGCCGAGTACAGGAGTCCATGCAAGGCGGCCACACCCAGGCAGCTTCGCCTTGTGCCCA
TGGACACCTCCGGCTGCCACGTGTTAGTCACGGGGTCGTAGGACTCCACGGTAGCCAGGTCTGAGGTCCCATCATAGCTAGCGGAATTAAGCCACTGCAG
GTCAAGACTGGCCTGGCGGGCACGTGCCAGACCCGACCCAAGTCCAGCCTCCAGGCTTACCCGCCCACAGCATAGAGCCGRTTCCCCACCGCAGCCACTC
CCACCCGGGCCCGGCGCGTGGACATGGAGGCCACCACGTGCCAGCGGTCGGTGCGCGTGTCGTAGGCCTCACAGTCTCCGTGGATGGCAAACAGGCTCCC
GCCGCCTGGGGAGGGCAGGTGGAGACGGGACTCGTGAGTGGATCCCACTGCTGGGCCACACCCCAGGCTCCTGGAGAGGCCCCTGAATGGAGGGGCGGAG
GGGCAGGTCAGGACCTGACCGGCACAGGTGGGGTGGGCTTGTGCTGGTGGGGAGTAGAAGGCACAGGGCAGGAGGGAAACGGGCGGGGGGCCATACCCAC
AGCAAAAAGCACAGGCCCGGCCCCCTCGCAGCGCCGGGGACGTGTGCGGCTGGTGCCTAGGACGCCCCTCTGCTCAGGCAGCAGGTGGAACTTCAGGGCC
TCGATGAGGAGGTCCTTGCAGTCAGGGTGGTGCCTCACCAGGCTCTCGGCATCCACGTGGCCCAGCAGGAAGTCGCGGCTCAGCAAGGGCAGCCGCACAC
ACTTCATGAGCTGGGGTGCAGGGAACGCCAAGGTCAGGCGGGACCCTCGGGCACACTGGGCGTCAGGGCTGAGACAACCCCCCAGATGCCCGTACCACCT
GTGTGATGGATTCTTCTTCAGACAGGTGGGGGCACCACCCCCACGGAGTCCCTGAACTCGGGGAAGGTCAGGGTGCACCAGGCCCTCAGCCACCTGCATG
CCCTCCTGGATGCTGTGGGAGCCCCCCGCGGCCGCGCCTCACCCGTGGGACATGCTGCCTGCGGGCGTCCACGTCGTGTTTCACCCAGCTCAGGACGGCT
CGGTAGACCTCCTCCTCTGAAGGCACGTTCAGGCTGTCGCTAGAGACCAGTTCCARAACCTGGRAGTGGGGGTCCTCAGACCTGAGATCTGGGGAGGGTC
CTGTGGACCCAGGGAGCCCTGAAGATGCCTAGGAGGGAGGGTTAGCAGGTGGGGGCTGAGTGTTCATACTGGGAGGGGCCGAGCAGAGTCAGGAGCCACA
GACGAGGCTCCTGGGGGGCCCAGATCCAGGAAGGTCTCGGGGACACACAGCAGGCACTAAGGATTGTGGGCAGGGCTGTGTCAGGAACAAAACGGGGTCG
GGAGTCAAAGACAAAGACTGGGGTGGGGTGGGGTGGGGGGCGAGGGCTGGGCCCGCCAGCTGTTACCTGTTTCAGGGGCAGCAGCATAAACTCCTCGGTC
TTGGCCACGTCCACGAAGTGCTGCAGCACGTACCTGTGGGCGGCCTTGAGCAGGTCGCTGCAGGAGTGSGCATCGGCAAAGCCCCGGATACCCAGGCAGT
TGGAGGGGTCGAGCTGACTCAGTAGAAACTTGCAGCAAGCGTCTCGGACGCCATTCAGCTGCAGGAGACTGGCGGCTGGGAGCAGAGTCTACGGGGCACC
GAGAGGCAGGTGAGGGAGGCACAGGGTCGGGGGACACCGGGATCCGGGTGAGGGAGCCCTCACCTGCACATTGSCCTCGCCCACCACAATCTCAGCCGTG
TAGGCAAACTGCACCAGCTGGTCCAAGGCCTGAGGGTCGATGTCGTGCAGCGTCACGTGGGTCTGGCGGCTCTCGCTCATCTCATCTGCGGGGACAGCGG
GTTACACGAGCTGACCCGAGGGACCCACGGAGCCCCCAGCGCCGCCCAGGCGGGTACTTGCTTGTGAACATGGCGTGGAAGTAGGGGCTGCAGGAGGCCA
GCACCACTTTGTGCGCACGGATCTCCTTGGCAGCCACGTGCAGGACGATGTCGCACAGGAGGCCGCGCTGGCGCATGCGGCTCATGGCCACGAAGGCATC
GTGGTAGTGCCGCTTGGAGTTGTGGGCCACGCTGTGGCCCTCGCGGCTCAGCAGCTGCACGGCTCCCTCCATGGGGGCTGCGGGCCGAGCCTGCCGGGGC
CGCGTGCGCTCTGCCTCGGGGCTGCAGGAGGCGGGCGGGTCAGGCTTCGCCCCGCTGGTAGCCGCCCGCCCGCCCTGGAGCCGCTGGGGGGCCCGGGCAG
CCCGCGGGGACCCAGCCCCTGGTGCGACGGGGGCGCCGGCAGCCCTCGCCTGACCTCCGCCAAGGACCCCCGCCCCGGAGCGCGCCGTGTCCAGGCCTCC
GCTGCGCCCCTGCTCCCCCGGGGCGTAGTCAGAGCCGCGAACAGAGCCCCGCGTCCGGCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCTCCGGGAAGCCCCCCACCAGGCCTC
GCCCTCCTCCTCCTCCGAGAAGCCCCCCCTAGGCCTCGCCATCTTCCTTCTCCGAGAAGCCCCCCAGGCCCCGCCATCTTCCTCCTCTGGGAAGCCCCCG
GCCTAGCCCTCCTCCTCCTCCTCCTCCGGGAAGCCCCCCTAGGTCTCGCCTTCCTTCTTCCCCGGGAAGCCCCCCACAGGCCTCGCCCTCCTGTTTCTCC
GAAGAGCCCTCCTAAGCCTCGCCCTCCTCCTCCTCCAAGGAGCCCCCCTAAGCCTCGCCCTCTTCCTCCTCCGAGGAGCCCCCCAGGCCTCGCCCTCCTC
CTCCCCCGGAAGCCATCCCCGCTCCCCCGACCCCCTAACTTGCTCTCCTCCGGGGAGCCCCGGGGCCCCGCGGCACCAAGAAGTCGAATGGGACCCCGAG
GCCAATCCGCCCGTGTTCGCCTCACGCGCCCCCTCAGCGCCAGGGCTGGGGGAGCCGTGCCTGCGCCCCGCGGCGCCCTTGTCGCGGGGTCTGGCTGTCC
AGGCCCGGGGGCCCGGGTGTCAGGCTGGTAGCGGGAAGGAAGGCGCCGGCCTCCCCACCGTCTTCGTCCCGTGCGGCGTCCCCGGGAAGAGCCGCGGTCG
GCACCCAGAGGGCCATGGACGGGGAGCGCCCTGCGTGGTGTTCGTGGCGCTGGCCCGGTCTCCGCGGATCGGAGGCGAAGCCAGCCTGGCCCTCGGGTCG
CCCGTCTTTTGTCGAGCTGGCGACATCAGTGCGGTTCCCACTGCCCCTCGCGTTTTCCACTGGACTCCCTGCTTTTTATTGTTGATTTGTGGGAGCTCTT
TGCATAGGAGCCCCGCCGTTGCAGTCTGGCGTCCTCGCAGGCGCGTGCCTTCGGAGCGCCGGGTGGGCTGCGGGCGCGGCGGGACTCCCGGTCTGTCTTC
CCCGGGGCGGACACCGGCGTCACCGCGTCCTACGGAGCCGGGCGCCGAGCGGGAGGCGCATCTGGGCCCCACCGGGGCTGCCCGCACCGAGCACGCGAAC
GCGCCCTCCCGCCCTGAGGCCGCCGGCGTTGCGGTCGGAGAACCATAGAGCCACTCGGCTGGGCGTGGCRCGGCGGGGCGGGGAAAGGGGCGGGGCCTGG
GCGGCGGAAGTGCGCAGCCGCGCGGCATTCTGGGGCCGGAAGTGGGGTGCACGCTTCGGGTTGGTGTCATGGCAGCTGCGGGGAGCCGCAAGAGGTAAGC
CGCGGGTCCGAGGGCYGATTTGGCCTCCCGGTGGGTGTCTGTATCCAAGGGGGCTTTTCTTGCTCCTCTYAGCGGGGCTGGGGCGAGCTGGGCGTGCGGG
CAGCTGTGACTCCTGCGTGACCCGCAGGCGCCTGGCGGAGCTGACGGTGGACGAGTTCCTAGCTTCGGGCTTTGACTCCGAGTCCGAATCCGAGTCCGAA
AATTCTCCACAAGCGGAGACACGGGAAGCACGCGAGGCTGCCCGGAGTCCGGATAAGCCGGGCGGGAGCCCCTCGGCCAGGTTAGTGGGGACATGCGTGA
GCAGAACCTCTTGCTCGTCCTGTCCCACCCCGGTTGGGTTGCTGACCTCGCCTGGGGTCTCAGGGCCAAGGCCTAAGGATCGCCGACCTCTGCCCCCCAG
TCCTTTCAGCTTAACTTACTCTTTCATCCGATGTTTACTGAGCTCCTGTTCCGTGCCAAACTCTGTCCTAGGCAGGGAGCGTATGTTGGTGAGTTGTGCA
AAAATCTCTTCCCGATCTAGGAGAACTCTCACGTTCTTGGGTGAAATCACCGCCTGCAGTTCGGTAGAAGAGAGATAAGTGCTGGGGAGGGAAAGGAAGG
ACAGAGGGGCTGAAGAGAGAGTTGCAGGGGAGCCGAGTTGCTCTGTTAGAAGGAGCGGAGGCTGTGCTCGGTGGCTCACGCCTGTAATGCCAGCACTTTG
GGAGGCCGAGGCGGGCAGATTACCTGAGGTCAGGAATTCGAGACCAGCCTGACCAACACGGAAAAATCATGTCTCTACTAAAAATATAAAAATTAGCCGG
GCGTGGTGGGCACCTGTAATCCCAACTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACTTGGGAGGTGGAGGTTGCAGTGAGCCGAGATGGCACCAT
TGCATTCCAGCCTGGGTGAGAGAGTGAGACTCCATCTCAAAAAGAAAAAGAAAGAAACCMAAAGATACAAAAATTAGCCTGGCGTGGTGACACACACCTG
TCGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCGGTGAGTGGAGATTGCGCCACTGCACTCCAGCCTGGG
CGACAGAGTGAGATTCCGCCTCAGGAAAAAAAAAAAAAAAAAAAAAAGCGGAGGTGGTTGTTTGAGAAGATGACGTCTGAATAAAGACCTCGAACAAGGA
GGCCACACAGACAGTAGGGGAAACGTGTCTTAGGATTTCAGGCAGCAGAAAACAGCAAAAGCCTTGCAGTGGGAGCATTTGGGGAGAGTACAGAGGTAAA
CGTGGCTATGGCAGGAGTGAGGGGGTGAATAGGGGTAGATGAGCCCAGAAGGGTGATGAAGAGCCAGGTGCCGTAGACCGTCATAAGATTGCCTCGTAAA
ACAGGGAGTTACTTCTGGGTTTGAGCGGTGGAGTGCCTTGTAGGTGACAAGGGTGGAAACAGAGAGACCTTTAGGTTAACTGAGAATTGAACTATGTGGT
GGTTTGAGAGGAGGCACGAACGGTTTTGAAGGTGTTGCTGATGAGATCTGATGACAAGTTGCGTGCTGGGTATTAGAGACAGAGATTTGCCTTTAGTCTG
AGCCTCTGGAAGGGTGAAGCCACCATCAGGCAAAAGTAGCGCAGGGCACAGGCACAGCAAGTCCAGGGAAGACCGCGGCTGGGGGCCTGTGTAGCGCAGG
GCGCAGGCACAGCAAKTCCAGGGAAGACCGCGGCTGGGGGGCCTGTGTAGTGTGTTTGAGGGTATGTTGTAGAGGTTGTTGGGTAGGAGACGTGAGTCTG
CCAAAAACGTACCTCCTGGCAATCCTGTCTTGCTAGTTGGTAAYCCTTGTGAAGGGAGTAGRCTGACCCTGTAGGCCACTCCCCGCCCCCTCTACTTCCA
CTTCCCACTGGGGTCGCTGACTTCTGCCTCCTCAGCCGGCGTAAAGGCCGTGCCTCTGAGCACAAAGACCAGCTCTCTCGGCTGAAGGACAGAGACCCCG
AGTTCTACAAGTTCCTGCARGAGAATGACCAGAGCCTRCTAAACTTCAGCGACTCGGACAGCTCTGAGGAGGAAGAGGGGCCGTTCCACTCCCTGCCAGA
TGTGCTGGAGGTGAGGGYGTGGGCCAAASCAGAAGGGGGGCACTTGTCTCTACACTCTCCTTCAGCTCAGCCTTTCTGTGCAGGAAGCCAGTGAGGAGGA
GGATGGAGCGGAGGAAGGAGAAGATGGGGACAGAGTCCCCAGAGGGCTGAAGGGGAAGAAGAATTCTGTTCCTGTGACCGTCGCCATGGTTGAGAGATGG
AAGCAGGCAGCAAAGGTGAGCAGCAGCCAGGGGCGGGCAGCTGGGTGCCCAGGCAGAAATCTGGCCTTGCCTCACCTGAGGTGAGCAGCAGCGAGGGGCG
GGCAGCTGGGTGCCCAGGCAGAGATCTGGCCTTGCCTCACCTGAGGCGCCTGAGGCTGTGCTGGTGGGAGGGGCTGTTCTCCACGCAGGGGACGCTTGGA
GCCTTCTTCAGCGCAAGTGACAACACGTTGCTCCTCCTGCTTGCTTGGTTGCCCCAGGACTGTGTGTTCACTTTTGGGTAGATTCCAGGGGCTCTGTTGG
CGCCCCACTCCCCAAAGTCAGTCCCGCTGTGGGTGGGACGGACCGTGCCTTTGTTGGTTGGTGGAGCTGGGGTCCTTCTGAGCCTCTCACAGTGTTTTTT
TCCAGGGACAAGGATACGGAGAGCTCCAGATACCACCTGGAGGTGGCCATAGTCCAGGATCTGGAACTCCCAGTCCTTTTCCTGGGGCTCCTGAGCCAGA
CTCCCTCCTCTTCCCAGAGAATTCTAGACTTTGTTTCCATTTTTGTTATCAGTATGGGGCTCTGTGCCTCCCCCCAACCTCTGCCCTATGTCTGAGGGTG
AGGGTGAGGGTGCCTTTCTCTGGGGCTGCCGTTTCCACTCTGCCAAGTGCAGTCTCAGCTCCCCTGACGCCCCTGGTACTCTTGCTCCTTCAGCAACGCC
TCACTCCAAAGCTGTTCCATGAAGTGGTACAGGCGTTCCGAGCAGCTGTGGCCACCACCCGAGGGGACCAGGAAAGTGCTGAGGCCAACAAATTCCAGGT
CACGGACAGTGCTGGTGAGCTTGGGGGGAGCCTGGCATCCAGGCTGTCTGTTGCGTTCTCTGTCCCGTGAGTACATCCAGGCCTTTTCGTTGCAGCATTC
AATGCTCTGGTTACCTTCTGCATCAGAGACCTCATTGGCTGTCTCCAGAAGCTGCTGTTTGGAAAGGTGGCAAAGGATAGCAGCAGGTAAGAGGGGAGGG
GGTGAAGGGGGGTAGGGTGGAAGGTGGGTCGGGACCACACACAGGAGAAGCCAGAGGCCTTGTGGCTAGGACAGAGACATGGCAACAGAGCCAGCGTCTT
CTTGGGGACCCTGAGAAGGCAGCGGGGCACGAGGGACCGTTGGGAGAGGCTGGGCACTTGGGGCCAGTTGGAGCGGCCCCACCTTCTTTCCTTCCTGAAA
AGGGAAGTTGTCTGCTCAGAGTCTCAGAAGGTGTGGCGTGTGCAGCTGCCTTTGCTCTCAGATTTTCCCAGGTTAGGGTTCTTGCTCTATTTCCCTTTGT
AAGAACTTGTAAGTCCTGTCCATACTCCTTGATCTCTGCACTATGACTGGCCTGTTTCCTGGAGCTGTGTGTGTCTGTAGACAGGGGCCTCATCAATGCT
GAGAACCTGAGGGCCTCAACTTCCCCTTTAGAGAAAGATTGGGCAGAGAAGGCCGTGGAAGGTTTTCAGAGAAGAGAGACGCACGGCCAAGCATTTGGTA
GAGCATGGAGCACGTTGGGGTTCCGGGGCTGTGCAGCCATGTGACCTTGAGGCAGTGGAGGCCTAGAGTTGGAACTGCCCCAGGACACCTTCAAAGGAAG
AAAGGAGACCCACAGGAGAGGTCTCGCCGACAGCGGCTCAGGAGACAGGGGCACTGTTGCTGGTGGTAGTGGTCGGGGCTGGACGGATAGAACAGAGCCA
TGTCCACATGGAGGCAGTGCTGTCCGAAGGGGACAAGGAAGCTGGCAGATGGGGGTGGAGGGACAGGCAGCGATTGGGAGGCAGCACGCACTGCAGCCTG
AGCCACCAGGTCAGGGACCCCTGTCGAGGCAGCAGCTGTACCGGAGGGAGTCAGGCCGTGGGGAGCAGAGCTGCCTCCTGGGTCTGGGTGGGCAGCTGCA
GGTGCCCAGCAGCCAGTGTCAGCACAGGTGTGAGGAGGGTCGAGGACGGGGGGCCTTTCTGGGGCCCTGCCCTTTGTCCTTCCCATGCTTCAGCAGATTT
TAGTGAGCGCCTACTGCGTGGGCTCTGGTAAATGTTTTGTTTTGTTTTGTTTTGTTTGTTTGGTTTTTGGTTTTTTTTTTTCCTTACGAGATAGGATCTT
GCTCTGTCGCCCAGGCTGGAATGCAGTGATCATAGCTCACTGYGACACGTACCTTCTGGATTCAAGTGATTCTCTCACCTTAGCYTCCCAAGTAACTGGG
ACTCCGCCACCAGGCCTGGATAATATTTTGTATATTTTTGTAGAGACGGGGTCTCACTGTGTTGTTCAGGCTGGTCTCAAACTCCTGGGCTTGGAGTTTG
ATCCTCCTGCCTTGGCCTCCCAAAGTGCAGTGAGTACTGGCATGAGTCTCCACACCTGCCCTCTGATTTTCTTTTCTTTGTGCAGCAAATGTGGGCCAAA
GGAAACCAGTCTGCGGCAGTTGGTGGTGCCTGGGCGACCCCAGAGGTGCTGAGTACCAGCTGCTGGGCTTAGGGACCTCGTGTGGTCTCACGGTGGGGAT
GTGATCAAGGGGACCTAGAAAAGGTTTATGTCTGAGAGGGAGTTGGAGGCTGGGACTTCCGGGGACTCTTAGGGCTGTGGCCAACCCTGGGCAGGGCAGA
CAGGAGTTCAAGGCCACTGAAGGAGGAGCTAATGCACTTGAGAGGGTCCTGCTAAGCCCCTGTGTCTGTCCAGCTGTAAGGGGCCCTGAGCTTTTTTGAG
TGGAGAGACGGGGGGTCTCTGCAGAGTCGTAGAGGCTATGCTGGCCAGGGCACGCGCCAACATGCTGAGCAGCCTCGCGTCCGAGCCGTGGGGCCTCCCA
GCCAGGGGTGGGTGGTCTCTCTGCAGGATGCTGCAGCCGTCCAGCAGCCCGCTCTGGGGGAAGCTTCRTGTGGACATCAAGGCTTWCCTGGGCTCGGCCA
TACAGGTGCTATTCTGGTGGGGAGGGCACGGGGSCCTGGCTGTATCTGGTGGTCGGTCCTTTTTTGTATCCCAGAATACATGGGTTTGGGGCTTCACTGT
CCCCTCCTGCCCCCAGCTGGTGTCCTGTCTGTCGGAGACGACGGTGTTGGYGGCCGTGCTGCGGCACATCAGCGTGCTGGTGCCCTGCTTCCTGACCTTC
CCCAAGCAGTGCCGCATGCTGCTCAAGGTKCGTGGCCCAGTCCCCTCCCTGTGTCTGYCATGGGGTCGGGGGGCCACACGGCTACCCCCACCACATCCCA
CTCCTGGCCAGGGCACAGGTGGTGCCCACACTCCACTGGCTCCGCTTGGCTAGAGAGGCCACAGAAGCACCTGGCCCCCACCCCCACCTGGGGTTTCTGT
CTCAGGCAGTCCCTGCCTGCCCGGGCAGCGCGGCTCAGTCCGTGAGCAAAGCCACGGTGAGGTATCTTCTTCCCGGTGTGATCTCACATACGTCGGCGTG
TCTGACGTGGTAAACTTTTGTGGTCCTCTTCTCACAAGGAGCAACACACCTGTTCTGTTCACTTCTGTAACTGAGCACCTAACTCACGGCTCCCCCGAGG
TGCTTTGGGAAGAGCTGGTGGCCATGGGAGCCTTTGCCTGGCTGGGGAGGGCTGTGCTGGCCCTGGGGCATCCCTGCTGAGGAGGCTGGGGGGCCACCAG
TGACGTCTGACCTTCTGCAGAGAATGGTGRTCGTATGGAGCACTGGGGARGAGTCTCTGCGGGTGCTGGCTTTCCTGGTCCTCAGCAGAGTCTGCCGGCA
CAAGAAGGACACTTTCCTTGGCCCCGTCCTCAAGGTAGTGGTGGGCCCTGCGTCTGTGTCCCTCAGCATCTGCATTGGAAATCTCGGCCTAAGGGCAGGG
CGGGCTGCCTTTGTGGTTGGTGCCCCTCACTGGACCCTCACTGCAGSTCTGAGCAGACCTGGGCCCTTGGATCACGAATGTCTCACAGAGCACCTGGGGG
TGGTGGGCAGGGAAGAGAGCCCTCGGCCTTCTCAGGGCCCCACCTGGACCCTGCTTCACACAGCTTCCCCAGGGGAGGGCCTCTCTGGCTGGAGGAGGAC
ACTGGGTGTTGGGACCTGAGGCCATGGCCAGGGTACAGTCCTACTGCCCGTCCCCAAGCCATGGGTGGYCTGCATGTGGGGACCCTCAGCCCCCAGAGGG
GCCCAGTGTGCAGCAGGAGCTTCTGCCCCAGCTTCTCCCAGGCCTGAGGCTGGTGGGCACTTGGGGGTGGGGGCTGTGCAAGGGGCTACGGCTCTTCCTC
GAGGCCCAGCTCTGAGGGAAAGGCCCAGGTGTTCACAGGGGCCCTGGAGTGGGCRGTGGAGGTGCATGGCCCTGATCCCAGGTGGCTCTGACCCGGGTCY
CTCCGCAGCAAATGTACATCACGTATGTGAGGAACTGCAAGTTCACCTCGCCTGGTGCCCTCCCCTTCATCAGTTTCATGCAGTGGACCTTGACGGAGCT
GCTGGCCCTGGAGCCGGGTGTGGCCTACCAGCACGCCTTCCTCTACATCCGCCAGCTCGCCATACACCTGCGCAACGCCATGACCACYCGCAAGAAGGTG
TGTGGTGGGGCCCTTCCAGGCTCATGCTGGGCATGGGGTGGGGCAGCCCAGGTGCCYGACCCAAGGCAGGGCCTGGGGCCTCCCCGAAGCCCCTGTCTGG
AGACAGCCCAGCACCCTGGTGCAGTCGGTCCTTGCAGGTGGGGGAAGGGTGGATGGGTTGAGACCCCGTGTGCAAGATGAGGAAATGATTCCTGTGCCGG
CCCAGGAGGAACGTGCATCAGCCTGACTKGTCAGCCTGGCCAGTAGCTGACRTGGTTCTCTCTGACCAGGAAACATACCAGTCTGTGTACAACTGGCAGT
ATGTGCACTGCCTCTTCCTGTGGTGCCGGGTCCTGAGCACTGCGGGYCCCAGCGAAGCCCTCCAGCCCTTGGTCTACCCCCTTGCCCAAGTCATCATTGG
CTGTATCAAGTGAGTTGTGGGGTGGGCAGGGTTGTGCGGGAGGGTCAGGAGAAGCAAATTTGCTGGGACTGTGTGGGCGGTGCCTCTGGCGTTCAGGGCC
TTGGGGSCTGAGTCTGTGTCCTGGCCGTCCCTGAGGAAGGGCTGGGGTCCCTGTACCTGCTACGGGGAGATGCTCTGGATTCTGGAGAGCTAGGGCTGGT
GGGCACCTGTGACATGAGCTCCTCCAACAGCGGTTTAGCCGCCTCGGGTGCCACCCAGCGTGTGTTCTGGGGGCTTGTGTGCAGTTTGCAGTGAGTTTGG
TTCATTACGTGGGGTTCTTGGGTGGAGCACATCTGATGCAGTGAACTGCATTTTGGGTGTGAGCGCTTAGGAGGGTCCAGGCACGGTAGGGGCTGCAGCA
GGAAAAGGTGGGAGCAGTACTGTGGCCTCTTTGGCCAGGAGGGGGCATCTGTCTGGCTGAGCCTTAGAAACTCAAGGCTGGGAAGGGAGGTGGGAAGTCC
AAGGGAAGAAGTAGGAAAGGCGGGAACAGGGAGGAGAGCAGGCAGGAACAGATGACCCCTGCCACCGTGTTRAAATAAAGCTGAAAGCTGGGTAAGGTAC
YTGCAGCCCCATAGCTGGGCAAGGGGTGCAGGTCCCTGGGGTTCAGACGTGCCTTGTCCTGCTTTAGGGGTCTGATGTCGGTGAGTGGGGGAGGAGGTCC
AAGACAGCAGGGGGAGGGGCAGGGGCTGCCAGAGCCGGGGCCTCTGCTCACTCGGCCTTCCCACCCCCAGGCTCATCCCCACTGCCCGCTTCTACCCGCT
GCGAATGCACTGCATCCGTGCCCTGACGCTGCTCTCGGGGAGCTCGGGGGCCTTCATCCCGGTGCTGCCTTTCATCCTGGAGGTGAGTGAGGCTGTGGTG
GGCGTGTGGCACCTCTGCCTGCTCCTGTAGGGAGCATCTGCTGCTCCGGGCGTCTGTGCTGAGTTGTCCGGCGACTTCCCGGAGCCCTGGCCGCCTCCTT
GTCAYGGGTGTCACGAGGACAGTGCTCCTCCGTGTGCTGGGGGCAGTGTTGGGGAACGTGGGACCACTGGGGATGAAGGCGGCTGCTGCTAGGGCTGTGC
TTGAGGATGCCGGGACCTGACCCTGTAGGTGCTTGCCCAAGACTGGAGTAGGCAGGAGGCGAGATGGGCCAAAACCCAAGTCTGATTGCTGAACTGTACA
CTCTGAAAGGCCCTGCCCTGACAGTTGTGTGCATGTGTATGCATTTGTATGGGGGATGTGTGTACATCTGGGTGGGTGCGTTTGTCTGTGCATGCATGCG
TGTGTGTGCACCATCTGGGTGCATGGGTCTGTAAATBGTGTGTGTGCATATCAGTTCATGTGTGCATCTGTATGTGTGTGTGCACGTGTATCCATGAATG
CCTGTGTGCCTGCAGGTGTGTGCATCTGTGCGTGTGTACASCTGTGTGTATGCATGTGTGTACCTTTGCGTGTACCTTTGCGTGTGTGCACCTGTGCATG
TGTCTTTGTATACCAGTGTGTACCTGTGTGTACCTGTATGCATGCACATGCGTGTGTACCTGTGTGCACCTGTCTGCATGTGTGTACCTGTGCGTGTGTG
CACCTGTGTGCATGCATTTGCGTCTGCATGTGTCTACCTGTGCATGCATGAACCTTTGCATGTGTGCATCTGTGTGCATGCATGTGCGTCTGCGTGTATC
TATGTACCTTTGTGCACCTATGTGCATACACACGTGTCTGTGTGCACTTGTGTGCATGCATTTGCATCTGCATGTGTGTACTGTGCGTGTGTACCTGTGC
GTGTACCTGTACACTTGGGTGCATGCATGCACGTCTGCTTGTGTGTGCCTGTGCGTGTGTGCACCTGTGTGCATGTACGTGCGTCTACGTGTGTGCCTGT
GCATGTGTGCGCCTGTGTGTACCTGTGTGTATGCATCTTTGCACGTGCACATGCCACTCAGGTAGGGAAAGATTGGAGTCCGAAGTTTCAACTTTCAGTG
GGTGGGTTAGGCCCCACCCCGCTGTAAATTTAGGAATTCACGATCTCCACCCTGTTTATCTAATGAGTTCTCAGCCTCATGAAGGCCCAGAGTCGTGTCA
CAGCTGTCCTTGGGGCTGGGTCCCCAGGTTGCTGGGTCCAGAAGGTATGGAAGCCCCAGGCACGTTCTGATTCCCCTTCCACTGAGGCAGGGATGCTGAA
CATCTTTAGGAAGCCATGTTCACTCCCATGGCAGCCAGCAGTGGTCTCTGATTGCCCAGCCCTTGGCCTGGCCCCTGTGTCTGTGGGCCTCCAGCTCTGC
TGCCCAGCTCCAGGCATGCTTTGTGTCTGTTTCCCTTGTCCAATCTCCTTGGCTACGTGCTTTCTTACTCTCTTGCAGTGTCTGTTTCTTCACTTGTGCA
CTGCCCTGGTTCACTGCAGCCGCACCCTGTAGGCCCCTCTCACGCAGGGATGCAGGCCTCTCCTCTCCGGAAAAAGCAAACCCTAAAAGCTAAAACAAAG
CCCTCAGCTGTAGGCCGTGCCTGCCCTTCCCCGGTGCCTGGACAGGAAGCCAGTCGCCTGCCCATACTTTYGGCCCAGGCTAGAGAAGGGCAGTGTCCTC
CCAGAGGTTCATCAGTACYAGGGCGTTTTCCCATCTGGACCTGAGCTCAGCTGTCTGGCAGCCACCCCTGCTGAGTGGGGTGTCTTGCTGGGGCCTCCAC
CCTTGGGCCCCCCATAATCTGCTTCTGTCCTCTGGTGCCCCAGCATGTACCCTGGATCTCTCTGGTTCACAGCCTGAGGGCTCCTAGTGGTTGGGGAGGG
GTCACAAGACTGAGAGGCCAGGCTGACTCTTTCTCTGCTCCTCCTGGCATGTCCTACGGAGGTGCATGGCCTGTGGCTTCTGTGGAGGGTGTGGGAGGGG
CCCCCCAGGCCTCCCGTGACCTCCATCTGTCCCRTCCTGTGTCTGGCACTCTTCTTTGCTGTTGCTGCTGCGTCTTCTGGTTGCTCGGGACGGARCCCCA
TGTGGCATTGCTGTGCTGAGGGCCAGGATGGGCCTCAGTGCCATGTTGTCAGGAATGGGGGCTGTCCTGGTACTCTGTGTGGCAGGGACCTCTAGGTCTC
CAGACGTGGGTCCTTAGTGCTTCCCAGGATTTTGGGAGAGGGCCCGTGTTCCTGATCCTTCCCTGCTGATCAGAGCCCCACTCGGGGACACGCCAGGCTG
TGTGGGGCCATGGGGCTGGGACCGTGCCTAGCTGCTTATCTCTTGTTTCGGGTTGGGTCTCCTCGTGCTGAAGCCTGAGGACCAGGGKGACCAGGGTSCA
GCCAGGTGCAGGGCCAAAGGGACCAGGGGGACCAGGGTGCAGCCAGGGTGAAGCCAGGGTGACCAGGCATGGGGCCGAGAGAGCCTGACACGGCCCTTGG
GGCAGATGTTCCAGCAGGTCGACTTCAACAGGAAGCCAGGGCGCATGAGCTCCAAGCCCATCAACTTCTCCGTGATCCTGAAGCTGTCCAATGTCAACCT
GCAGGAGAAGGCGTACCGGGTGAGGCTGGCCTCCTGGGGAGGGGCCTGGGCAGTTCCCAGGGTGGGGTTGGGGGTGCTGAGGTGGATGGGAGGGGGCTGG
CATCCTCCAAGTTCAAGCATGGACCTTCATGGTCTCCCAGGGCTGGGGCCCAGGAGCCCCTTCCTTGCAGTCCGTGCCCTGGAGATGGCGCTGCCCTGAC
AGCCTGAGGGGAAGGGGCCTGAGTGCCCAGCCCCAGCCTCTCCCTGATGCACTCGGCCCTCTCYCCTGCTCTTCAGGACGGCCTGGTGGAGCAGCTGTAC
GACCTCACCCTGGAGTACCTGCACAGCCAGGCACACTGCATCGGCTTCCCGGAGCTGGTGCTGCCTGTGGTCCTGCAGGTGTGTGTCCTGCCCACACCGG
CTCGTGGCCGACTCAGACTGTCTTAWAACGGGCTTGGCTGCCCCAGGCTGGTAGGAGGTGCCCTTGTCCCGGGTACCTGGGACTGGGGTGGAACCTGACT
GCTGGCAACGCGCCCCGTGAGGCCCCCTTGGAGGGGCTGATGAGGGGTTCTAAGCCATTCAGGAGGTTTGGGGGCAGGCCTGGGCAGTGGGCTGAGGACC
CTGGGAGCACAACAGCCTCCTCCCCAGGTGGGAACCACAAGGCTGATCTTTGCTTCGGGGTTGGGACTGAGCATGCCGACCCTGGCTCAGGCTGGTACGC
TGATCGCACACTTCCCCAGGCCATCCCGGGTGTGGGGAGTGGGTGGAGTGGCTTCTCAGGTGGCAGGAAGGCCTGGCCTGCCCCGCCAAATACCCCACAT
CAGCCTCATAGGAAGGCCCAGCCTGCCCCGCTAAATACCCCACGTCAGCCTCATCTTAGGCAGGAGTGGGGTGGAGGAGGGGGTTCTCCTTATCCTCAGA
AGGTCCTTCTGGGCCCCCACGGGAGGTCTGTTTGCTCTCAGCCGTGATGTTTCCAGCCTCAGGGAGGSCTGTGCCTAGTGGAAGGGGTGGGGGCCCTGCT
GTCTGGCCCTGGTGGCTGGAATCAGATGTGCCGACTATAGGTCTGTGCAGTGTGGGGAGGAGGGATCTGCTCACATGAGCCACAAYTGGTCAGAGGCTTA
TCCAGATAGAGGTGTGTGCATGTGTGTGTACTCACACACGGCCACACATGTCACATGCACAGAGCCGGGACCCCCTTTCTGGGGGGCACTCACAGCAGGG
GCCACAGCCTCTGTTCCTCCCATGTCCTCTTGGGTGGTGATACCTGGCATTGGGGCATCTCTGCTTCTGGACTCAAGGGCCCAGGGTCGGGGTCTGGGGT
AGGGGTCAGAAAATGTTTTTGGTGAGGGGCCAAATGGTAAACGTGGCTTCCTACGGATGTTCAGCTGCACAGGCAACTGCAGAACCATGCAATGCACACG
TGTGGCTGCACGTCAGCGAGACTGTATTTTATTAGTAGTAGTAGTATTGTTTGAGATGGAGTCTCGCTGTGTTGCCCAGGCTGGAGTGCAATGGTGCGAT
CTCGGCTCACTGCAATCTCCATCTCCTGGGCTCAAGCGATTCTCCAGCCTCAGCCTCCCAAGGAGCTGGGTTTACAGGCGCCCACCACCACACCCAGCTA
ATTTTGGTATTTTAGTAGAGACGGGGTTTTGCCACGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGC
TGGGATTACAGGCGAGAGCCACCACGCCTGGCATAAAACTTTATTTCCAGAGGTGAGTAGTGGGCAGGGTTGGCCCAGAGGGTGGGCTGATTCTGCCTCT
GCCATCCCAGCTGCAACAGCTATGCACTTGAGCCCTGAGATGGGATCCATGTCCCYTCCTGGGGTATCCCCGTGGCCACCACGCGTGGTTTTGCACAGGA
CCTGGGCCAGCTGTGCACATGGAGCGGTCCTGGGCTTCAGTGGCTGACCCCTCCCTTCCGCAGCTGAAGTYGTTCCTCCGGGAGTGCAAGGTGGCCAACT
ACTGCCGGCAGGTGCAGCAGCTGCTTGGGAAGGTTCAGGAGAACTCGGCATACATCTGCAGCCGCCGCCAGAGGGTTTCCTTCGGCGTCTCTGAGCAGCA
GGCAGTGGTTAGTGGGCCCTGGGGGTAGTGCCACCTGAGGGCACCTGCCAGGGTRTAGCCCCAGCTACATGTGGGGGTTTGCCCAGGGTGAGGCATGACC
CTGAACTCCCCCAACCCCCCAGGAAGCCTGGGAGAAGCTGACCCGGGAAGAGGGGACACCCYTGACCTTGTACTACAGCCACTGGCGCAAGCTGCGTGAC
CGGGAGATCCAGCTGGAGATCAGTGGCAAAGAGCGGGTGCGGCTCGGCGAGGGGACCTGGGGGTGTGTTGTGACTTCCTGGGTTTCAGATCTAGCGCACT
ATGACTTGAGACCAGGGCGAGGGTTTGGAAACAGTGCCAGGCGGCCAGGGCCGTGCCCGGATGATTCGACTTGGAGAGGGGGTAGGTGTTGGAGAACTGG
CCAGAACCAGGYGTTTCCAGGGAGGGGAAGCCCCAGGCTGCACTAGGTTGGGGAGGCCATGCCCCCTCAGGCCTGATGGGCTGGAGGCTCCGGGCAGGTG
GAGTGGCTGGACTGACCTCGTCACCCAGGCCAGTATGTGGGCACCAGGGGCCCGTGAGGAGAAGCAGGAAGGGCTCTGCCTTTGACCTTGGACATGGGAT
GGACAACTTGGAGGATGGCTTTGTGATTTGGGAACAGRGGGGACTAGAAATTGGCCACATGGGGCCCTGGTGGTGGGTCTGGCGATGCCTGGCCCTGCTG
TGGCCGCCAGCCCCTGCCYTCTCTCACCTGAGCCCCTGGTTCTTTGGCCTTCCAGCTGGAAGACCTGAACTTCCCTGAGATCAAACGAAGGAAGATGGCT
GACAGGAAGGATGAGGACAGGAAGCAATTTAAAGACCTCTTTGACCTGAACAGCTCTGAAGAGGACGACACCGAGGGATTCTCGGAGAGAGGTGGGGCCT
GCGTGGTGCTCCCAGGGGAAGGGTGGGCCTGGAGGGCTCTGCTGGACTTCCCAGAGCCACGAGGGCCACCTGTACCCATCCTGCAGGGGGCTCACCAGTC
TCTGGCCCAGCTGGGGCCAACCTCAGTGTTGCCAGGCTTCTGGTGCCAGCGCCTTCCCTCCTTGAAGTGAAGGCCTACTGGGATTGGTAACTCTGTCCCC
AGGCCTGTGACCTCCCAGTTCCTCCCCAGGGCTCCTCTCCACCTGCTGGAAGTCAGCGGAGGGAAGGGTGTTGGGAGCCTGGCCACCCTCCTGCCCCCAC
TGTGACTTTGCTGGTGGACCCTGTGGGTGGGAGTCATATGGACTCTGCTTCTTGTTCCTCAGGGATACTGAGGCCCCTGAGCACTCGGCATGGGGTGGAA
GACGATGAAGAGGACGAGGAGGAGGGCGAGGAGGACAGCAGCAACTCGGAGGGTGAATGGTCTTGGGGTGAGAGGGTGTGGCCCTGTGAGCCCATCTGKC
GGGAGGGCAGAGCCACGTGGGCGGGGGGCGTGGGGCTCTGGGCCAGGCTTTTCCCTCCCTGGGAAGGCCAGGCCAAATGCTCTGTTCTCTGGCAGCCAGC
AACAGGGATAAATTAATTAGTGCCGTGATTAATTAGTGATGAGTAACCTCYAAGGCTGGCTTCTTCCTGATAAAGCAAAATTTATGTAGCCTCCATCTCT
CCCCGCAGATGGAGACCCAGACGCAGAGGCGGGGCTGGCCCCTGGGGAGCTGCAGCAGCTGGCCCAGGGGCCGGAGGACGAGCTGGAGGATCTGCAGCTC
TCAGAGGACGACTGAGGCAGCCCATCTGGGGGGCCTGTAGGGGCTGCCGGGCTGGTGGCCAGTGTTTCCACCTCCCTGGCAGTCAGGCCTAGAGGCTGGC
GTCTGTGCAGTTGGGGGAGGCAGTAGACACGGGACAGGCTTTATTATTTATTTTTCAGCATGAAAGACCAAACGTATCGAGAGCTGGGCTGGGCTGGGCT
GGTGTGGCTGCTGAAGCCCCACAGCTGTGGGCTGCTGAAGTCAGCTCCGCGGGGGAGCTGACCCTGACGTCAGCAGACCGAGACCAGTCCCAGTTCCAGG
GGGAGGCCTGCAGGCCCCTGGCCCCTTCCACCACCTYTGCCCTCCGTCTGCAGACCTCGTCCATYTGCACCAGGCTCTGCCTTCACTCCCCCAAGTCTTT
GRAAATTTGTTCYTTTCCTTTGAAGTCACATTTTCTTTTAAAATTTTTTGTTTTGCATCCGAAACCGAAARAAATAAAGCGGTGGGAGGCAGGGCCATTG
TGTTGAGTGRTGRCTCCTGGAGATTTGTGTGGCCCCACCCCTACCCCCGGCAACCTCAACACAGAGGCTGGGAAGGGTCGGGGGCCCCTGGAAGTAGAGC
CAAGGTCCCATTCTCCTGCTTGGGTGAAGTTTGACCGGCAAGGGCGTGGCCCCCTCCATAGGGGGACGTGGCCGTYGTGGGGGACAAGGGCTGCTCTCCT
GTGCCGAGTTCTCGCTCCGGGGCCCGCAGGGTTGGTGGCTGCAGTGGCAGAGCCACGGGGAAGCTGGCCACGTAGAAAACTCGGCCCAGGCGCCTGGCCA
CCTGCAGAGAGATGGCCTGGTGGGGGCTGTCGCACACCCACCCAGAGCTTTCTGCCCAGCTGTGGTCTGGAGACCCTGACCTCACTCCCCAGCGTCTCAC
CTGGGCCCGGATCTTGAGGGCGGGCCCCAGCTTCAGCCCCATGTTGGTCAGCAGGTGCTCCTCCGTCAGCAGTGGCAGGGTCTCCCCGTCGATCCCCTGC
TCCCTGAAGACCTGGAAGGGGGAGGGAGGGAGGGTCAGGACCCGGGTGCTGCTCCATCCTCCAGCCCAGCAGAGCCAAGAGGAGCTGTTTGTGCAGCTCA
CGGAAATTTTTTAAAAACAGTGATCTGTTGGGTTTGAGTGTCAGGCAGAAAACACCTGGCAAAAAAAAAAAAAAAAAAAGGTGGGGTGCACAGTCCAGTC
CCTGCTGCGCACTGCTTTTGGGGAGGGAGAGGGCGTTGGGGAATGGCCCTACCCCACCATCCTTTCCAGGGAGGTAGTGACTGCCAGCCAGCTCCAGCCC
CGCCCCAGGAACTGGGGCCCCCCCTTACCCGAGTGTACTCTCCACAGCCAGACAGGCCCCCCACGAAGCTGCAGACGTCATCCACGGTCCACTTGGTGAC
GTCCTCAGGGGCTGGGGCCTCCTCCCCATCCATGGAGAGTCCCCCTACCGCGCCTGAGTTGTGGGGCGTGTTACTAGGGCTCTGGCTGGCTTTCCCATAC
CCGCCCGTCTCCTGACCGTCGTGTGCCCCAATTGCTGAGGTGGGGGATGGGTGCCTAAGGGGAATTTTTCCTCCCCCCAAGACCCTTCCACAGGCGGCCT
GCCAGTCCTGTGCCCTCTGGAAGGATCTAGAGTGTGGGGGTGCCCACCTGTGTGGAAGTAGGGGCTGACGGCATAAGGGAAGCCCAGGGGCAGTGTGGAC
CCTGGGAAAAGCCCCTTCCCCTCGGCGCCGGCCCCTCCAGCTGGAGCTTGGCCCGGAGTGGGCCCCCTGCACCCAACAGCTGCCGTCTCGGGGTCCTCTC
CGTCCGAGTCTTTGGGGGGCTCGTCTTCCGAGCCATCTTGTGCCCAGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTGAGGAATCCTGCCTCCTTT
CCCGGCGCCCCCACCCACCTCTAGCCCGAAAGCCAATCTCCCCTGCCAGGCGGGCGGCTGGGGCCTGGGAGGCTGAGTGCAGCGGGCAGGGGGTCCGAGT
GCATCCCGGAGGGACCCCTGGAGAACGTCCTGAGGTGGGGTGGACAGGGTCAGGGCCGACCCGGGGGAAGGGGCAGCCCCTCCAGCTGGCGTCTCTTCAG
CACCTGGGGAGTCCTGGTGGCCAAGTGCCCACTGCACCCAGCCCGGCCTTTCTGCTCACTGCCCCTCCCCAGGCTCCTGGGGCAGGCGTCTGGCTGCATA
GACGACTCACAGACCACAGGGTCCAGGAGCTTGCTCTCCTCGGGGGGTGCTGCTGACATGCCCACTGCCCACCCTCACCTGGGTCCACCCCAGACTCCAT
TTCTCTCTATATAAAATGTGAGCTAGTCATGACCCTGGGGACCTAGGGGACATGGAGGTGTGGCCCGCCCCAGGGGGCATGGGGCAGGACGTGTGGCAGA
GGGACCTGCATCCAGCCTGGCCTTGGTGTCAGCAGGGCCTCAGCAACAGGAATGGCCGAGTACATGTGGCTGGGGAGGTGATGAGGGGAGATCATGCCAG
GGTGGGTCCTCACCGTGGCTGGGGAGGTGATGAGGGGGATCATGCCAGGGTGGGTCCTCACCGTGGCTGGGGAGGCCCAGGTGGTAGAGGCGCTGAGGGT
CCTCAAAGGTGCTGGCCTCGCTCAGTGCTGACACAAGCCGGCGGTAATGGTCCTCCGGGGCCATGCTGGGCCCCAGCTCCCGCGGCAGCAGCAGCGCCTC
TGCTGGGGAGGACCCGGGGTGAGAGGTTTCTCCAGGCACTGCCGAGGACCACGCCCCTCTAGAGTGCCTGCTCGAGGTCCAGGGGACCCTCAGGGACTGC
CCCCTCCCCTGGTGACCTGTCTCTCGTCCCAGCCACGCTCTTACCTTGAGGCGATTCGCTTCGTGCCCTCTTCTCTGAAAAGCAGTCGCTGCTGATACGG
GGGGAGCGGCCCAGCCTCTTGCCCAACAGGTCACCTGCGGGAGGGTAGTGAGTGCCCACCTGCATCTCAAGGAATGGAAGGGGAACCCAGCCCCTGCTCC
AGCTCAGCCTGGACCGCACCCACCATCTCTCAGGGGGCCCTTGGTCCTGGTGAGTACAGGCCTTGCCCAGCCCTGGCAGCCCCAGCCTTCAGCGCAGAGG
ACATCACGCCTGGCTGTGGCGGGACAGGGGCACAGGGGAGCTCTGACACTGGCCCTGGTGCGTGTGTGCAGAAGAGATCCACAGCAGGCACCCAGCTGCC
CCACCCGCCATCTAGCCTCTTGTGCAAGTTAACGAGCCCCCCTCTCATCCCCCTAGAGGAGAATAAAAAGCTTTTGGTTTGACCAGGCACCACCTTCCCC
TCCTGGACAGGAGTGAGGGCGGGCTGTGCAGGGTCACATGCCAGCGTGGGGTGAGACAAGCCGGGAAGGACCTCACACCTGACCTCTTGCTGCTCTGTGA
GTCACTGGGCTGTGGGCCCCCCAGGCCGCCTCGAGGCGCCTCCACTCCCAGGCCTCCTACTTGGTCATACCCATCCCTGCCCCCAGAAGGCCCACGTCCT
CCTCTCTGGCCCAGTCCTGCCTGAGCTAGCACCCTGGCGTGGCTGTCATGCCCTTGTCCACCAGCCCAGCCAGGCTCTGGGCTTCTGGGGTGCACCTCCC
AGTAGCTTCACCCACCTCCTCAGCCACGAGGCCAGCCCAGCCCTAGCCCCAAACACAGCCCAGCAGGTGGCAGAGGGGAGGCCCAGGCCAGGTCCAGCTT
CAGCCCCAAACACAGCCCAGCAGGTGGCAGAGGGGAGGCCCAGGCCAGGCCCAGCTCACTCTCCTGAGGTCCTCCCTTGGGTCCTGCCGACCGCAACCAT
TCCAGACCACACCATCCATGTACCCATCTCCGACCCACCCCGAGCTCCTCCGAAGCCCCTGACTCCACGCCCTGGGGGTCTCCCAGGCCAGCCAGTGCCT
CCGACTCTGGCCCTTCCTCATCCTCATGAGGGCTCTAGCTGGGTGGAGTGAGGGGCCACTCCCCTGTGACCCAAGACCTCCATGAGGCCTAGGCAGTGGG
GCTCCCAAGCCCGTCCCCCCACAAGCCCTGCCGTCAGCTCCAGGCCTAATTCCTTTTTCTTATTCCCTTAATCTGTCATTTTTATCAGGCTGGGGAAGTG
CGGCGGCCACACCGATCAATCCCACATTACAGCTGACAGAGTGGTGCTAATAACTTATTGATCCTGGCCCGGCTGCTGTCAGGCCCGGCCCCAGAGAGAG
GGTCAGTCCCACGGTCTGGTCCAGGGTCCCCACCTCGGTGACAGATCGGGTGGCTGGGCCCGGCGGGCGGCGGGGGGCACCTGGCCACACACGGATCCAG
GCACCACTGCTCAGGCCCCTGAGAAGCCATCGTCTCCCCCACAGCCTCCCGTGCCAGAGCTCGGTGGGCTGGGAGGGGGTGGGCCAAGGCTGGGGGAACC
TGGCTCTTTTCCACACCTGCCACCTGGCCCACCATGCACATGCCCTCAGGGTTAGCAAGGCCTCTCACCTCCTGGCAATCACTTTTCCATTGTACACAGT
GGAAACTACCCTCTCCGTTCTGTGGGGGGCTAAGGCCTCCTCCTAGCCTGGGGGAGGTGACTGGGTGGGGGGGGGCAGGTGGAAGGGGGCCTGCAATGAG
ACCGCAGGAAGGCCGATGAGGCCATGCTCACTCCTCACTCATGGACCCCAGCGGGTCTCACAGAGGCAGATGCAGGACCTGCTCTGAGTCCCTCACAGCC
CAGGGCCCAGGGAGGTGC


SNP Information

Context             (SEQ ID NO:25710):
TTCCCTCCCTGGGAAGGCCAGGCCAAATGCTCTGTTCTCTGGCAGCCAGCAACAGGGATAAATTAATTAGTGCCGTGATTAATTAGTGATGAGTAACCTC
Y
AAGGCTGGCTTCTTCCTGATAAAGCAAAATTTATGTAGCCTCCATCTCTCCCCGCAGATGGAGACCCAGACGCAGAGGCGGGGCTGGCCCCTGGGGAGCT
Celera SNP ID:            hCV25612520
SNP Position Genomic:     20451
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34|T,4)   total(C,71|T,5)   
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,22|T,2)   total(C,54|T,2)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:25711):
AAGACGATGAAGAGGACGAGGAGGAGGGCGAGGAGGACAGCAGCAACTCGGAGGGTGAATGGTCTTGGGGTGAGAGGGTGTGGCCCTGTGAGCCCATCTG
K
CGGGAGGGCAGAGCCACGTGGGCGGGGGGCGTGGGGCTCTGGGCCAGGCTTTTCCCTCCCTGGGAAGGCCAGGCCAAATGCTCTGTTCTCTGGCAGCCAG
Celera SNP ID:            hCV25612521
SNP Position Genomic:     20299
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,5)   caucasian(G,36)   total(G,67|T,5)   
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,7)   caucasian(G,40)   total(G,71|T,7)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25712):
AAGGGAAGAAGTAGGAAAGGCGGGAACAGGGAGGAGAGCAGGCAGGAACAGATGACCCCTGCCACCGTGTTAAAATAAAGCTGAAAGCTGGGTAAGGTAC
Y
TGCAGCCCCATAGCTGGGCAAGGGGTGCAGGTCCCTGGGGTTCAGACGTGCCTTGTCCTGCTTTAGGGGTCTGATGTCGGTGAGTGGGGGAGGAGGTCCA
Celera SNP ID:            hCV262385
SNP Position Genomic:     13901
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,21)   caucasian(C,2|T,24)   total(C,13|T,45)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|T,9)   total(C,7|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25713):
TCAAGGCTGGGAAGGGAGGTGGGAAGTCCAAGGGAAGAAGTAGGAAAGGCGGGAACAGGGAGGAGAGCAGGCAGGAACAGATGACCCCTGCCACCGTGTT
R
AAATAAAGCTGAAAGCTGGGTAAGGTACTTGCAGCCCCATAGCTGGGCAAGGGGTGCAGGTCCCTGGGGTTCAGACGTGCCTTGTCCTGCTTTAGGGGTC
Celera SNP ID:            hCV262386
SNP Position Genomic:     13872
SNP Source:               Celera
Population(Allele,Count): no_pop(G,7|A,9)   total(G,7|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25714):
CAAGTGAGTTGTGGGGTGGGCAGGGTTGTGCGGGAGGGTCAGGAGAAGCAAATTTGCTGGGACTGTGTGGGCGGTGCCTCTGGCGTTCAGGGCCTTGGGG
S
CTGAGTCTGTGTCCTGGCCGTCCCTGAGGAAGGGCTGGGGTCCCTGTACCTGCTACGGGGAGATGCTCTGGATTCTGGAGAGCTAGGGCTGGTGGGCACC
Celera SNP ID:            hCV25612455
SNP Position Genomic:     13407
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,40)   total(C,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:25715):
GGCGTAAAGGCCGTGCCTCTGAGCACAAAGACCAGCTCTCTCGGCTGAAGGACAGAGACCCCGAGTTCTACAAGTTCCTGCAGGAGAATGACCAGAGCCT
R
CTAAACTTCAGCGACTCGGACAGCTCTGAGGAGGAAGAGGGGCCGTTCCACTCCCTGCCAGATGTGCTGGAGGTGAGGGCGTGGGCCAAACCAGAAGGGG
Celera SNP ID:            hCV25612560
SNP Position Genomic:     8138
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,36)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:25716):
GGCTGGGAGCAGAGTCTACGGGGCACCGAGAGGCAGGTGAGGGAGGCACAGGGTCGGGGGACACCGGGATCCGGGTGAGGGAGCCCTCACCTGCACATTG
S
CCTCGCCCACCACAATCTCAGCCGTGTAGGCAAACTGCACCAGCTGGTCCAAGGCCTGAGGGTCGATGTCGTGCAGCGTCACGTGGGTCTGGCGGCTCTC
Celera SNP ID:            hCV11610210
SNP Position Genomic:     3474
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25717):
CGTGGCCACCACGCGTGGTTTTGCACAGGACCTGGGCCAGCTGTGCACATGGAGCGGTCCTGGGCTTCAGTGGCTGACCCCTCCCTTCCGCAGCTGAAGT
Y
GTTCCTCCGGGAGTGCAAGGTGGCCAACTACTGCCGGCAGGTGCAGCAGCTGCTTGGGAAGGTTCAGGAGAACTCGGCATACATCTGCAGCCGCCGCCAG
Celera SNP ID:            hCV25612561
SNP Position Genomic:     18771
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,37|T,1)   total(C,72|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25718):
CTGACGTGGTTCTCTCTGACCAGGAAACATACCAGTCTGTGTACAACTGGCAGTATGTGCACTGCCTCTTCCTGTGGTGCCGGGTCCTGAGCACTGCGGG
Y
CCCAGCGAAGCCCTCCAGCCCTTGGTCTACCCCCTTGCCCAAGTCATCATTGGCTGTATCAAGTGAGTTGTGGGGTGGGCAGGGTTGTGCGGGAGGGTCA
Celera SNP ID:            hCV25612456
SNP Position Genomic:     13247
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:25719):
GATGGGTTGAGACCCCGTGTGCAAGATGAGGAAATGATTCCTGTGCCGGCCCAGGAGGAACGTGCATCAGCCTGACTTGTCAGCCTGGCCAGTAGCTGAC
R
TGGTTCTCTCTGACCAGGAAACATACCAGTCTGTGTACAACTGGCAGTATGTGCACTGCCTCTTCCTGTGGTGCCGGGTCCTGAGCACTGCGGGCCCCAG
Celera SNP ID:            hCV25612457
SNP Position Genomic:     13152
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,38)   total(A,2|G,72)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25720):
GGGGTGGAGGAGGGGGTTCTCCTTATCCTCAGAAGGTCCTTCTGGGCCCCCACGGGAGGTCTGTTTGCTCTCAGCCGTGATGTTTCCAGCCTCAGGGAGG
S
CTGTGCCTAGTGGAAGGGGTGGGGGCCCTGCTGTCTGGCCCTGGTGGCTGGAATCAGATGTGCCGACTATAGGTCTGTGCAGTGTGGGGAGGAGGGATCT
Celera SNP ID:            hCV27462100
SNP Position Genomic:     17768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25721):
CCAGGGGAGGGCCTCTCTGGCTGGAGGAGGACACTGGGTGTTGGGACCTGAGGCCATGGCCAGGGTACAGTCCTACTGCCCGTCCCCAAGCCATGGGTGG
Y
CTGCATGTGGGGACCCTCAGCCCCCAGAGGGGCCCAGTGTGCAGCAGGAGCTTCTGCCCCAGCTTCTCCCAGGCCTGAGGCTGGTGGGCACTTGGGGGTG
Celera SNP ID:            hCV184554
SNP Position Genomic:     12469
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25722):
GCCTTTGCCTGGCTGGGGAGGGCTGTGCTGGCCCTGGGGCATCCCTGCTGAGGAGGCTGGGGGGCCACCAGTGACGTCTGACCTTCTGCAGAGAATGGTG
R
TCGTATGGAGCACTGGGGAGGAGTCTCTGCGGGTGCTGGCTTTCCTGGTCCTCAGCAGAGTCTGCCGGCACAAGAAGGACACTTTCCTTGGCCCCGTCCT
Celera SNP ID:            hCV25612495
SNP Position Genomic:     12030
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,4|G,36)   total(A,5|G,73)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25723):
GGTCGGTCCTTTTTTGTATCCCAGAATACATGGGTTTGGGGCTTCACTGTCCCCTCCTGCCCCCAGCTGGTGTCCTGTCTGTCGGAGACGACGGTGTTGG
Y
GGCCGTGCTGCGGCACATCAGCGTGCTGGTGCCCTGCTTCCTGACCTTCCCCAAGCAGTGCCGCATGCTGCTCAAGGTTCGTGGCCCAGTCCCCTCCCTG
Celera SNP ID:            hCV25612496
SNP Position Genomic:     11451
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,34|T,4)   total(C,66|T,4)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25724):
CTTGCAGTCCGTGCCCTGGAGATGGCGCTGCCCTGACAGCCTGAGGGGAAGGGGCCTGAGTGCCCAGCCCCAGCCTCTCCCTGATGCACTCGGCCCTCTC
Y
CCTGCTCTTCAGGACGGCCTGGTGGAGCAGCTGTACGACCTCACCCTGGAGTACCTGCACAGCCAGGCACACTGCATCGGCTTCCCGGAGCTGGTGCTGC
Celera SNP ID:            hCV28009732
SNP Position Genomic:     17064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25725):
CCGTGGGGCCTCCCAGCCAGGGGTGGGTGGTCTCTCTGCAGGATGCTGCAGCCGTCCAGCAGCCCGCTCTGGGGGAAGCTTCGTGTGGACATCAAGGCTT
W
CCTGGGCTCGGCCATACAGGTGCTATTCTGGTGGGGAGGGCACGGGGGCCTGGCTGTATCTGGTGGTCGGTCCTTTTTTGTATCCCAGAATACATGGGTT
Celera SNP ID:            hCV25612497
SNP Position Genomic:     11286
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,1)   caucasian(A,40)   total(A,73|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25726):
AAAAAGCAAACCCTAAAAGCTAAAACAAAGCCCTCAGCTGTAGGCCGTGCCTGCCCTTCCCCGGTGCCTGGACAGGAAGCCAGTCGCCTGCCCATACTTT
Y
GGCCCAGGCTAGAGAAGGGCAGTGTCCTCCCAGAGGTTCATCAGTACCAGGGCGTTTTCCCATCTGGACCTGAGCTCAGCTGTCTGGCAGCCACCCCTGC
Celera SNP ID:            hCV27966287
SNP Position Genomic:     15871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25727):
GCTGCGGCACATCAGCGTGCTGGTGCCCTGCTTCCTGACCTTCCCCAAGCAGTGCCGCATGCTGCTCAAGGTTCGTGGCCCAGTCCCCTCCCTGTGTCTG
Y
CATGGGGTCGGGGGGCCACACGGCTACCCCCACCACATCCCACTCCTGGCCAGGGCACAGGTGGTGCCCACACTCCACTGGCTCCGCTTGGCTAGAGAGG
Celera SNP ID:            hCV25752174
SNP Position Genomic:     11558
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,28)   caucasian(T,38)   total(C,2|T,66)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25728):
AGTAGTGGGCAGGGTTGGCCCAGAGGGTGGGCTGATTCTGCCTCTGCCATCCCAGCTGCAACAGCTATGCACTTGAGCCCTGAGATGGGATCCATGTCCC
Y
TCCTGGGGTATCCCCGTGGCCACCACGCGTGGTTTTGCACAGGACCTGGGCCAGCTGTGCACATGGAGCGGTCCTGGGCTTCAGTGGCTGACCCCTCCCT
Celera SNP ID:            hCV290190
SNP Position Genomic:     18656
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,27|T,9)   total(C,60|T,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;JBIC-allele(T,158|C,1331)   total(C,1331|T,158)
SNP Type:                 INTRON


Context             (SEQ ID NO:25729):
CTTTGTGATTTGGGAACAGAGGGGACTAGAAATTGGCCACATGGGGCCCTGGTGGTGGGTCTGGCGATGCCTGGCCCTGCTGTGGCCGCCAGCCCCTGCC
Y
TCTCTCACCTGAGCCCCTGGTTCTTTGGCCTTCCAGCTGGAAGACCTGAACTTCCCTGAGATCAAACGAAGGAAGATGGCTGACAGGAAGGATGAGGACA
Celera SNP ID:            hCV25612531
SNP Position Genomic:     19619
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25730):
CAGGCTCTGCCTTCACTCCCCCAAGTCTTTGGAAATTTGTTCTTTTCCTTTGAAGTCACATTTTCTTTTAAAATTTTTTGTTTTGCATCCGAAACCGAAA
R
AAATAAAGCGGTGGGAGGCAGGGCCATTGTGTTGAGTGGTGGCTCCTGGAGATTTGTGTGGCCCCACCCCTACCCCCGGCAACCTCAACACAGAGGCTGG
Celera SNP ID:            hCV11447012
SNP Position Genomic:     21071
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,36)   total(A,2|G,70)
SNP Type:                 UTR 3


Context             (SEQ ID NO:25731):
TGGGCACCAGGGGCCCGTGAGGAGAAGCAGGAAGGGCTCTGCCTTTGACCTTGGACATGGGATGGACAACTTGGAGGATGGCTTTGTGATTTGGGAACAG
R
GGGGACTAGAAATTGGCCACATGGGGCCCTGGTGGTGGGTCTGGCGATGCCTGGCCCTGCTGTGGCCGCCAGCCCCTGCCCTCTCTCACCTGAGCCCCTG
Celera SNP ID:            hCV25612532
SNP Position Genomic:     19538
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:25732):
CCAGGGCGAGGGTTTGGAAACAGTGCCAGGCGGCCAGGGCCGTGCCCGGATGATTCGACTTGGAGAGGGGGTAGGTGTTGGAGAACTGGCCAGAACCAGG
Y
GTTTCCAGGGAGGGGAAGCCCCAGGCTGCACTAGGTTGGGGAGGCCATGCCCCCTCAGGCCTGATGGGCTGGAGGCTCCGGGCAGGTGGAGTGGCTGGAC
Celera SNP ID:            hCV25612533
SNP Position Genomic:     19312
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,38)   total(C,72|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:25733):
CCAGAGCCTGCTAAACTTCAGCGACTCGGACAGCTCTGAGGAGGAAGAGGGGCCGTTCCACTCCCTGCCAGATGTGCTGGAGGTGAGGGCGTGGGCCAAA
S
CAGAAGGGGGGCACTTGTCTCTACACTCTCCTTCAGCTCAGCCTTTCTGTGCAGGAAGCCAGTGAGGAGGAGGATGGAGCGGAGGAAGGAGAAGATGGGG
Celera SNP ID:            hCV25612534
SNP Position Genomic:     8229
SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,6)   caucasian(C,40)   total(C,70|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:25734):
GGAGGCCTGCAGGCCCCTGGCCCCTTCCACCACCTCTGCCCTCCGTCTGCAGACCTCGTCCATCTGCACCAGGCTCTGCCTTCACTCCCCCAAGTCTTTG
R
AAATTTGTTCTTTTCCTTTGAAGTCACATTTTCTTTTAAAATTTTTTGTTTTGCATCCGAAACCGAAAGAAATAAAGCGGTGGGAGGCAGGGCCATTGTG
Celera SNP ID:            hCV11447016
SNP Position Genomic:     21002
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,4|G,32)   total(A,5|G,67)
SNP Type:                 UTR 3

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:25735):
GGCGTCCACGTCGTGTTTCACCCAGCTCAGGACGGCTCGGTAGACCTCCTCCTCTGAAGGCACGTTCAGGCTGTCGCTAGAGACCAGTTCCAGAACCTGG
R
AGTGGGGGTCCTCAGACCTGAGATCTGGGGAGGGTCCTGTGGACCCAGGGAGCCCTGAAGATGCCTAGGAGGGAGGGTTAGCAGGTGGGGGCTGAGTGTT
Celera SNP ID:            hCV25933465
SNP Position Genomic:     2864
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(G,34)   total(A,4|G,64)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:25736):
TCTGCAGCCGCCGCCAGAGGGTTTCCTTCGGCGTCTCTGAGCAGCAGGCAGTGGTTAGTGGGCCCTGGGGGTAGTGCCACCTGAGGGCACCTGCCAGGGT
R
TAGCCCCAGCTACATGTGGGGGTTTGCCCAGGGTGAGGCATGACCCTGAACTCCCCCAACCCCCCAGGAAGCCTGGGAGAAGCTGACCCGGGAAGAGGGG
Celera SNP ID:            hCV25612571
SNP Position Genomic:     18955
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,34)   total(A,67|G,3)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,3)   caucasian(A,8)   total(A,17|G,3)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25737):
GCCAGGCACACTGCATCGGCTTCCCGGAGCTGGTGCTGCCTGTGGTCCTGCAGGTGTGTGTCCTGCCCACACCGGCTCGTGGCCGACTCAGACTGTCTTA
W
AACGGGCTTGGCTGCCCCAGGCTGGTAGGAGGTGCCCTTGTCCCGGGTACCTGGGACTGGGGTGGAACCTGACTGCTGGCAACGCGCCCCGTGAGGCCCC
Celera SNP ID:            hCV25612572
SNP Position Genomic:     17226
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,31)   caucasian(T,34)   total(A,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:25738):
TCCTTGCAGGTGGGGGAAGGGTGGATGGGTTGAGACCCCGTGTGCAAGATGAGGAAATGATTCCTGTGCCGGCCCAGGAGGAACGTGCATCAGCCTGACT
K
GTCAGCCTGGCCAGTAGCTGACGTGGTTCTCTCTGACCAGGAAACATACCAGTCTGTGTACAACTGGCAGTATGTGCACTGCCTCTTCCTGTGGTGCCGG
Celera SNP ID:            hCV25612467
SNP Position Genomic:     13129
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,33|T,3)   total(G,68|T,4)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,60|G,1223)   total(G,1223|T,60) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25739):
CCTTGACGGAGCTGCTGGCCCTGGAGCCGGGTGTGGCCTACCAGCACGCCTTCCTCTACATCCGCCAGCTCGCCATACACCTGCGCAACGCCATGACCAC
Y
CGCAAGAAGGTGTGTGGTGGGGCCCTTCCAGGCTCATGCTGGGCATGGGGTGGGGCAGCCCAGGTGCCCGACCCAAGGCAGGGCCTGGGGCCTCCCCGAA
Celera SNP ID:            hCV25612468
SNP Position Genomic:     12888
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,32|T,4)   total(C,69|T,5)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,67|C,1396)   total(C,1396|T,67) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25740):
CGAGGCCCAGCTCTGAGGGAAAGGCCCAGGTGTTCACAGGGGCCCTGGAGTGGGCGGTGGAGGTGCATGGCCCTGATCCCAGGTGGCTCTGACCCGGGTC
Y
CTCCGCAGCAAATGTACATCACGTATGTGAGGAACTGCAAGTTCACCTCGCCTGGTGCCCTCCCCTTCATCAGTTTCATGCAGTGGACCTTGACGGAGCT
Celera SNP ID:            hCV25612469
SNP Position Genomic:     12700
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,36)   total(C,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:25741):
AGCCGCGCGGCATTCTGGGGCCGGAAGTGGGGTGCACGCTTCGGGTTGGTGTCATGGCAGCTGCGGGGAGCCGCAAGAGGTAAGCCGCGGGTCCGAGGGC
Y
GATTTGGCCTCCCGGTGGGTGTCTGTATCCAAGGGGGCTTTTCTTGCTCCTCTCAGCGGGGCTGGGGCGAGCTGGGCGTGCGGGCAGCTGTGACTCCTGC
Celera SNP ID:            hCV98514
SNP Position Genomic:     6116
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,6)   caucasian(C,3|T,29)   total(C,25|T,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:25742):
CAGCTACATGTGGGGGTTTGCCCAGGGTGAGGCATGACCCTGAACTCCCCCAACCCCCCAGGAAGCCTGGGAGAAGCTGACCCGGGAAGAGGGGACACCC
Y
TGACCTTGTACTACAGCCACTGGCGCAAGCTGCGTGACCGGGAGATCCAGCTGGAGATCAGTGGCAAAGAGCGGGTGCGGCTCGGCGAGGGGACCTGGGG
Celera SNP ID:            hCV11610156
SNP Position Genomic:     19062
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,2)   caucasian(C,6|T,10)   total(C,28|T,12)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,15|T,23)   total(C,44|T,30)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,9)      total(C,7|T,9) ;JBIC-allele(C,559|T,932)   total(C,559|T,932)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:25743):
GGTCGGGGGCCCCTGGAAGTAGAGCCAAGGTCCCATTCTCCTGCTTGGGTGAAGTTTGACCGGCAAGGGCGTGGCCCCCTCCATAGGGGGACGTGGCCGT
Y
GTGGGGGACAAGGGCTGCTCTCCTGTGCCGAGTTCTCGCTCCGGGGCCCGCAGGGTTGGTGGCTGCAGTGGCAGAGCCACGGGGAAGCTGGCCACGTAGA
Celera SNP ID:            hCV25760128
SNP Position Genomic:     21276
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,1)   caucasian(C,20)   total(C,39|T,1)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25744):
AGCAGCCTCGCGTCCGAGCCGTGGGGCCTCCCAGCCAGGGGTGGGTGGTCTCTCTGCAGGATGCTGCAGCCGTCCAGCAGCCCGCTCTGGGGGAAGCTTC
R
TGTGGACATCAAGGCTTACCTGGGCTCGGCCATACAGGTGCTATTCTGGTGGGGAGGGCACGGGGGCCTGGCTGTATCTGGTGGTCGGTCCTTTTTTGTA
Celera SNP ID:            hCV27494999
SNP Position Genomic:     11268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25745):
GAAGCCACCATCAGGCAAAAGTAGCGCAGGGCACAGGCACAGCAAGTCCAGGGAAGACCGCGGCTGGGGGCCTGTGTAGCGCAGGGCGCAGGCACAGCAA
K
TCCAGGGAAGACCGCGGCTGGGGGGCCTGTGTAGTGTGTTTGAGGGTATGTTGTAGAGGTTGTTGGGTAGGAGACGTGAGTCTGCCAAAAACGTACCTCC
Celera SNP ID:            hCV25754210
SNP Position Genomic:     7816
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,34)   total(G,70|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:25746):
TGTCGGAGACGACGGTGTTGGCGGCCGTGCTGCGGCACATCAGCGTGCTGGTGCCCTGCTTCCTGACCTTCCCCAAGCAGTGCCGCATGCTGCTCAAGGT
K
CGTGGCCCAGTCCCCTCCCTGTGTCTGTCATGGGGTCGGGGGGCCACACGGCTACCCCCACCACATCCCACTCCTGGCCAGGGCACAGGTGGTGCCCACA
Celera SNP ID:            hCV9464883
SNP Position Genomic:     11530
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(G,31|T,1)   total(G,57|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:25747):
TCCTCTGGTGCCCCAGCATGTACCCTGGATCTCTCTGGTTCACAGCCTGAGGGCTCCTAGTGGTTGGGGAGGGGTCACAAGACTGAGAGGCCAGGCTGAC
T
CTTTCTCTGCTCCTCCTGGCATGTCCTACGGAGGTGCATGGCCTGTGGCTTCTGTGGAGGGTGTGGGAGGGGCCCCCCAGGCCTCCCGTGACCTCCATCT
Celera SNP ID:            hCV26072045
SNP Position Genomic:     16128
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,11)   total(T,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25748):
CCTCTGGTGCCCCAGCATGTACCCTGGATCTCTCTGGTTCACAGCCTGAGGGCTCCTAGTGGTTGGGGAGGGGTCACAAGACTGAGAGGCCAGGCTGACT
C
TTTCTCTGCTCCTCCTGGCATGTCCTACGGAGGTGCATGGCCTGTGGCTTCTGTGGAGGGTGTGGGAGGGGCCCCCCAGGCCTCCCGTGACCTCCATCTG
Celera SNP ID:            hCV26072046
SNP Position Genomic:     16129
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,11)   total(C,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25749):
CTCTGGTGCCCCAGCATGTACCCTGGATCTCTCTGGTTCACAGCCTGAGGGCTCCTAGTGGTTGGGGAGGGGTCACAAGACTGAGAGGCCAGGCTGACTC
T
TTCTCTGCTCCTCCTGGCATGTCCTACGGAGGTGCATGGCCTGTGGCTTCTGTGGAGGGTGTGGGAGGGGCCCCCCAGGCCTCCCGTGACCTCCATCTGT
Celera SNP ID:            hCV26072047
SNP Position Genomic:     16130
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,11)   total(T,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25750):
TCTGGTGCCCCAGCATGTACCCTGGATCTCTCTGGTTCACAGCCTGAGGGCTCCTAGTGGTTGGGGAGGGGTCACAAGACTGAGAGGCCAGGCTGACTCT
T
TCTCTGCTCCTCCTGGCATGTCCTACGGAGGTGCATGGCCTGTGGCTTCTGTGGAGGGTGTGGGAGGGGCCCCCCAGGCCTCCCGTGACCTCCATCTGTC
Celera SNP ID:            hCV26072048
SNP Position Genomic:     16131
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25751):
GAGGGGCCCCCCAGGCCTCCCGTGACCTCCATCTGTCCCGTCCTGTGTCTGGCACTCTTCTTTGCTGTTGCTGCTGCGTCTTCTGGTTGCTCGGGACGGA
R
CCCCATGTGGCATTGCTGTGCTGAGGGCCAGGATGGGCCTCAGTGCCATGTTGTCAGGAATGGGGGCTGTCCTGGTACTCTGTGTGGCAGGGACCTCTAG
Celera SNP ID:            hCV26072049
SNP Position Genomic:     16295
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25752):
GTTTCAGGGGCAGCAGCATAAACTCCTCGGTCTTGGCCACGTCCACGAAGTGCTGCAGCACGTACCTGTGGGCGGCCTTGAGCAGGTCGCTGCAGGAGTG
S
GCATCGGCAAAGCCCCGGATACCCAGGCAGTTGGAGGGGTCGAGCTGACTCAGTAGAAACTTGCAGCAAGCGTCTCGGACGCCATTCAGCTGCAGGAGAC
Celera SNP ID:            hCV25942979
SNP Position Genomic:     3269
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,10)   caucasian(C,1|G,17)   total(C,5|G,27)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:25753):
TGGCAGCTGCGGGGAGCCGCAAGAGGTAAGCCGCGGGTCCGAGGGCTGATTTGGCCTCCCGGTGGGTGTCTGTATCCAAGGGGGCTTTTCTTGCTCCTCT
Y
AGCGGGGCTGGGGCGAGCTGGGCGTGCGGGCAGCTGTGACTCCTGCGTGACCCGCAGGCGCCTGGCGGAGCTGACGGTGGACGAGTTCCTAGCTTCGGGC
Celera SNP ID:            hCV25612507
SNP Position Genomic:     6170
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,32|T,2)   total(C,66|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:25754):
TTTTCCTTTGAAGTCACATTTTCTTTTAAAATTTTTTGTTTTGCATCCGAAACCGAAAGAAATAAAGCGGTGGGAGGCAGGGCCATTGTGTTGAGTGGTG
R
CTCCTGGAGATTTGTGTGGCCCCACCCCTACCCCCGGCAACCTCAACACAGAGGCTGGGAAGGGTCGGGGGCCCCTGGAAGTAGAGCCAAGGTCCCATTC
Celera SNP ID:            hCV25612508
SNP Position Genomic:     21113
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,36)   total(A,3|G,69)
SNP Type:                 UTR 3


Context             (SEQ ID NO:25755):
TTCTTTTCCTTTGAAGTCACATTTTCTTTTAAAATTTTTTGTTTTGCATCCGAAACCGAAAGAAATAAAGCGGTGGGAGGCAGGGCCATTGTGTTGAGTG
R
TGGCTCCTGGAGATTTGTGTGGCCCCACCCCTACCCCCGGCAACCTCAACACAGAGGCTGGGAAGGGTCGGGGGCCCCTGGAAGTAGAGCCAAGGTCCCA
Celera SNP ID:            hCV25612509
SNP Position Genomic:     21110
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,36)   total(A,1|G,71)
SNP Type:                 UTR 3


Context             (SEQ ID NO:25756):
GGGCACTTGGGGGTGGGGGCTGTGCAAGGGGCTACGGCTCTTCCTCGAGGCCCAGCTCTGAGGGAAAGGCCCAGGTGTTCACAGGGGCCCTGGAGTGGGC
R
GTGGAGGTGCATGGCCCTGATCCCAGGTGGCTCTGACCCGGGTCTCTCCGCAGCAAATGTACATCACGTATGTGAGGAACTGCAAGTTCACCTCGCCTGG
Celera SNP ID:            hCV25612470
SNP Position Genomic:     12655
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,36)   total(A,2|G,72)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25757):
CAGGAGAATGACCAGAGCCTGCTAAACTTCAGCGACTCGGACAGCTCTGAGGAGGAAGAGGGGCCGTTCCACTCCCTGCCAGATGTGCTGGAGGTGAGGG
Y
GTGGGCCAAACCAGAAGGGGGGCACTTGTCTCTACACTCTCCTTCAGCTCAGCCTTTCTGTGCAGGAAGCCAGTGAGGAGGAGGATGGAGCGGAGGAAGG
Celera SNP ID:            hCV25612545
SNP Position Genomic:     8218
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:25758):
ACTTCTGCCTCCTCAGCCGGCGTAAAGGCCGTGCCTCTGAGCACAAAGACCAGCTCTCTCGGCTGAAGGACAGAGACCCCGAGTTCTACAAGTTCCTGCA
R
GAGAATGACCAGAGCCTGCTAAACTTCAGCGACTCGGACAGCTCTGAGGAGGAAGAGGGGCCGTTCCACTCCCTGCCAGATGTGCTGGAGGTGAGGGCGT
Celera SNP ID:            hCV25612546
SNP Position Genomic:     8120
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,35)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:25759):
GTATGTTGTAGAGGTTGTTGGGTAGGAGACGTGAGTCTGCCAAAAACGTACCTCCTGGCAATCCTGTCTTGCTAGTTGGTAATCCTTGTGAAGGGAGTAG
R
CTGACCCTGTAGGCCACTCCCCGCCCCCTCTACTTCCACTTCCCACTGGGGTCGCTGACTTCTGCCTCCTCAGCCGGCGTAAAGGCCGTGCCTCTGAGCA
Celera SNP ID:            hCV25612547
SNP Position Genomic:     7962
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,33|G,1)   total(A,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:25760):
CAGCCGTCCAGCAGCCCGCTCTGGGGGAAGCTTCGTGTGGACATCAAGGCTTACCTGGGCTCGGCCATACAGGTGCTATTCTGGTGGGGAGGGCACGGGG
S
CCTGGCTGTATCTGGTGGTCGGTCCTTTTTTGTATCCCAGAATACATGGGTTTGGGGCTTCACTGTCCCCTCCTGCCCCCAGCTGGTGTCCTGTCTGTCG
Celera SNP ID:            hCV25755380
SNP Position Genomic:     11334
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,33)   caucasian(G,40)   total(C,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:25761):
GGTGGGGGCCCTGCTGTCTGGCCCTGGTGGCTGGAATCAGATGTGCCGACTATAGGTCTGTGCAGTGTGGGGAGGAGGGATCTGCTCACATGAGCCACAA
Y
TGGTCAGAGGCTTATCCAGATAGAGGTGTGTGCATGTGTGTGTACTCACACACGGCCACACATGTCACATGCACAGAGCCGGGACCCCCTTTCTGGGGGG
Celera SNP ID:            hCV15991074
SNP Position Genomic:     17886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25762):
TACGAGATAGGATCTTGCTCTGTCGCCCAGGCTGGAATGCAGTGATCATAGCTCACTGCGACACGTACCTTCTGGATTCAAGTGATTCTCTCACCTTAGC
Y
TCCCAAGTAACTGGGACTCCGCCACCAGGCCTGGATAATATTTTGTATATTTTTGTAGAGACGGGGTCTCACTGTGTTGTTCAGGCTGGTCTCAAACTCC
Celera SNP ID:            hCV25759777
SNP Position Genomic:     10585
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,1)   caucasian(C,23|T,13)   total(C,42|T,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:25763):
GCGGAATTAAGCCACTGCAGGTCAAGACTGGCCTGGCGGGCACGTGCCAGACCCGACCCAAGTCCAGCCTCCAGGCTTACCCGCCCACAGCATAGAGCCG
R
TTCCCCACCGCAGCCACTCCCACCCGGGCCCGGCGCGTGGACATGGAGGCCACCACGTGCCAGCGGTCGGTGCGCGTGTCGTAGGCCTCACAGTCTCCGT
Celera SNP ID:            hCV25955976
SNP Position Genomic:     1981
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,36)   total(A,2|G,64)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,28)   total(A,2|G,64)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:25764):
TGTGGCACCTCTGCCTGCTCCTGTAGGGAGCATCTGCTGCTCCGGGCGTCTGTGCTGAGTTGTCCGGCGACTTCCCGGAGCCCTGGCCGCCTCCTTGTCA
Y
GGGTGTCACGAGGACAGTGCTCCTCCGTGTGCTGGGGGCAGTGTTGGGGAACGTGGGACCACTGGGGATGAAGGCGGCTGCTGCTAGGGCTGTGCTTGAG
Celera SNP ID:            hCV241281
SNP Position Genomic:     14305
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;JBIC-allele(T,91|C,1410)   total(C,1410|T,91)
SNP Type:                 INTRON


Context             (SEQ ID NO:25765):
TGTTTTGTTTTGTTTGTTTGGTTTTTGGTTTTTTTTTTTCCTTACGAGATAGGATCTTGCTCTGTCGCCCAGGCTGGAATGCAGTGATCATAGCTCACTG
Y
GACACGTACCTTCTGGATTCAAGTGATTCTCTCACCTTAGCCTCCCAAGTAACTGGGACTCCGCCACCAGGCCTGGATAATATTTTGTATATTTTTGTAG
Celera SNP ID:            hCV11610168
SNP Position Genomic:     10543
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25766):
CTGTGTGGGGCCATGGGGCTGGGACCGTGCCTAGCTGCTTATCTCTTGTTTCGGGTTGGGTCTCCTCGTGCTGAAGCCTGAGGACCAGGGTGACCAGGGT
S
CAGCCAGGTGCAGGGCCAAAGGGACCAGGGGGACCAGGGTGCAGCCAGGGTGAAGCCAGGGTGACCAGGCATGGGGCCGAGAGAGCCTGACACGGCCCTT
Celera SNP ID:            hCV26072050
SNP Position Genomic:     16598
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,9)   total(G,9|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25767):
TGACGTCAGCAGACCGAGACCAGTCCCAGTTCCAGGGGGAGGCCTGCAGGCCCCTGGCCCCTTCCACCACCTCTGCCCTCCGTCTGCAGACCTCGTCCAT
Y
TGCACCAGGCTCTGCCTTCACTCCCCCAAGTCTTTGGAAATTTGTTCTTTTCCTTTGAAGTCACATTTTCTTTTAAAATTTTTTGTTTTGCATCCGAAAC
Celera SNP ID:            hCV27470253
SNP Position Genomic:     20965
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25768):
ACACGCCAGGCTGTGTGGGGCCATGGGGCTGGGACCGTGCCTAGCTGCTTATCTCTTGTTTCGGGTTGGGTCTCCTCGTGCTGAAGCCTGAGGACCAGGG
K
GACCAGGGTGCAGCCAGGTGCAGGGCCAAAGGGACCAGGGGGACCAGGGTGCAGCCAGGGTGAAGCCAGGGTGACCAGGCATGGGGCCGAGAGAGCCTGA
Celera SNP ID:            hCV28031522
SNP Position Genomic:     16588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25769):
GAAGTCAGCTCCGCGGGGGAGCTGACCCTGACGTCAGCAGACCGAGACCAGTCCCAGTTCCAGGGGGAGGCCTGCAGGCCCCTGGCCCCTTCCACCACCT
Y
TGCCCTCCGTCTGCAGACCTCGTCCATCTGCACCAGGCTCTGCCTTCACTCCCCCAAGTCTTTGGAAATTTGTTCTTTTCCTTTGAAGTCACATTTTCTT
Celera SNP ID:            hCV26072051
SNP Position Genomic:     20937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25770):
ACTTGGGAGGTGGAGGTTGCAGTGAGCCGAGATGGCACCATTGCATTCCAGCCTGGGTGAGAGAGTGAGACTCCATCTCAAAAAGAAAAAGAAAGAAACC
M
AAAGATACAAAAATTAGCCTGGCGTGGTGACACACACCTGTCGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGT
Celera SNP ID:            hCV26072053
SNP Position Genomic:     7060
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,12)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25771):
GTATGCATTTGTATGGGGGATGTGTGTACATCTGGGTGGGTGCGTTTGTCTGTGCATGCATGCGTGTGTGTGCACCATCTGGGTGCATGGGTCTGTAAAT
B
GTGTGTGTGCATATCAGTTCATGTGTGCATCTGTATGTGTGTGTGCACGTGTATCCATGAATGCCTGTGTGCCTGCAGGTGTGTGCATCTGTGCGTGTGT
Celera SNP ID:            hCV26072054
SNP Position Genomic:     14637
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,5|T,5|-,9)   total(G,5|C,5|-,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25772):
CACCGGGGCTGCCCGCACCGAGCACGCGAACGCGCCCTCCCGCCCTGAGGCCGCCGGCGTTGCGGTCGGAGAACCATAGAGCCACTCGGCTGGGCGTGGC
R
CGGCGGGGCGGGGAAAGGGGCGGGGCCTGGGCGGCGGAAGTGCGCAGCCGCGCGGCATTCTGGGGCCGGAAGTGGGGTGCACGCTTCGGGTTGGTGTCAT
Celera SNP ID:            hCV25751640
SNP Position Genomic:     5970
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,22)   caucasian(G,28)   total(A,2|G,50)
SNP Type:                 TFBS


Context             (SEQ ID NO:25773):
TGTGTGCATATCAGTTCATGTGTGCATCTGTATGTGTGTGTGCACGTGTATCCATGAATGCCTGTGTGCCTGCAGGTGTGTGCATCTGTGCGTGTGTACA
S
CTGTGTGTATGCATGTGTGTACCTTTGCGTGTACCTTTGCGTGTGTGCACCTGTGCATGTGTCTTTGTATACCAGTGTGTACCTGTGTGTACCTGTATGC
Celera SNP ID:            hCV26072055
SNP Position Genomic:     14741
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,13)   total(G,1|C,13) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25774):
CCCTGTGATGGTGACACAAACTTGCCTCTTGCAGATGGACTGTACAAAGCCACTGGGGCCCCAACCCCAACTACCTGTTCAGGCAGGAGGCCCCGTCATA
R
CCGCCGGCCGAGTACAGGAGTCCATGCAAGGCGGCCACACCCAGGCAGCTTCGCCTTGTGCCCATGGACACCTCCGGCTGCCACGTGTTAGTCACGGGGT
Celera SNP ID:            hCV25990929
SNP Position Genomic:     1736
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,17)   caucasian(A,2|G,20)   total(A,3|G,37)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:25775):
GGCCCCTGGCCCCTTCCACCACCTCTGCCCTCCGTCTGCAGACCTCGTCCATCTGCACCAGGCTCTGCCTTCACTCCCCCAAGTCTTTGGAAATTTGTTC
Y
TTTCCTTTGAAGTCACATTTTCTTTTAAAATTTTTTGTTTTGCATCCGAAACCGAAAGAAATAAAGCGGTGGGAGGCAGGGCCATTGTGTTGAGTGGTGG
Celera SNP ID:            hCV25612519
SNP Position Genomic:     21013
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(C,4|T,32)   total(C,6|T,66)
SNP Type:                 UTR 3


Context             (SEQ ID NO:25776):
TCGCCATACACCTGCGCAACGCCATGACCACCCGCAAGAAGGTGTGTGGTGGGGCCCTTCCAGGCTCATGCTGGGCATGGGGTGGGGCAGCCCAGGTGCC
Y
GACCCAAGGCAGGGCCTGGGGCCTCCCCGAAGCCCCTGTCTGGAGACAGCCCAGCACCCTGGTGCAGTCGGTCCTTGCAGGTGGGGGAAGGGTGGATGGG
Celera SNP ID:            hCV25612481
SNP Position Genomic:     12957
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25777):
CCTGCGTCTGTGTCCCTCAGCATCTGCATTGGAAATCTCGGCCTAAGGGCAGGGCGGGCTGCCTTTGTGGTTGGTGCCCCTCACTGGACCCTCACTGCAG
S
TCTGAGCAGACCTGGGCCCTTGGATCACGAATGTCTCACAGAGCACCTGGGGGTGGTGGGCAGGGAAGAGAGCCCTCGGCCTTCTCAGGGCCCCACCTGG
Celera SNP ID:            hCV25612482
SNP Position Genomic:     12247
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,34)   total(C,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:25778):
TGCCTGCGGGCGTCCACGTCGTGTTTCACCCAGCTCAGGACGGCTCGGTAGACCTCCTCCTCTGAAGGCACGTTCAGGCTGTCGCTAGAGACCAGTTCCA
R
AACCTGGGAGTGGGGGTCCTCAGACCTGAGATCTGGGGAGGGTCCTGTGGACCCAGGGAGCCCTGAAGATGCCTAGGAGGGAGGGTTAGCAGGTGGGGGC
Celera SNP ID:            hCV25933481
SNP Position Genomic:     2856
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,1|G,25)   total(A,2|G,58)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:25779):
GGCTGTGCTGGCCCTGGGGCATCCCTGCTGAGGAGGCTGGGGGGCCACCAGTGACGTCTGACCTTCTGCAGAGAATGGTGGTCGTATGGAGCACTGGGGA
R
GAGTCTCTGCGGGTGCTGGCTTTCCTGGTCCTCAGCAGAGTCTGCCGGCACAAGAAGGACACTTTCCTTGGCCCCGTCCTCAAGGTAGTGGTGGGCCCTG
Celera SNP ID:            hCV25612483
SNP Position Genomic:     12050
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,4|G,30)   total(A,5|G,67)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25780):
GCCTGCCCTTCCCCGGTGCCTGGACAGGAAGCCAGTCGCCTGCCCATACTTTCGGCCCAGGCTAGAGAAGGGCAGTGTCCTCCCAGAGGTTCATCAGTAC
Y
AGGGCGTTTTCCCATCTGGACCTGAGCTCAGCTGTCTGGCAGCCACCCCTGCTGAGTGGGGTGTCTTGCTGGGGCCTCCACCCTTGGGCCCCCCATAATC
Celera SNP ID:            hCV1556326
SNP Position Genomic:     15919
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25781):
TGTGTAGTGTGTTTGAGGGTATGTTGTAGAGGTTGTTGGGTAGGAGACGTGAGTCTGCCAAAAACGTACCTCCTGGCAATCCTGTCTTGCTAGTTGGTAA
Y
CCTTGTGAAGGGAGTAGACTGACCCTGTAGGCCACTCCCCGCCCCCTCTACTTCCACTTCCCACTGGGGTCGCTGACTTCTGCCTCCTCAGCCGGCGTAA
Celera SNP ID:            hCV25612559
SNP Position Genomic:     7944
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,2|T,32)   total(C,3|T,69)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25782):
TCTGCTCCTCCTGGCATGTCCTACGGAGGTGCATGGCCTGTGGCTTCTGTGGAGGGTGTGGGAGGGGCCCCCCAGGCCTCCCGTGACCTCCATCTGTCCC
R
TCCTGTGTCTGGCACTCTTCTTTGCTGTTGCTGCTGCGTCTTCTGGTTGCTCGGGACGGAGCCCCATGTGGCATTGCTGTGCTGAGGGCCAGGATGGGCC
Celera SNP ID:            hCV1556328
SNP Position Genomic:     16234
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Gene Number:                 96
Celera Gene:                 hCG1996340 - 63000132512181
Gene Symbol:                 YAP
Protein Name:                YY1 associated protein;FLJ10875;FLJ13914;HCCA2
Celera Genomic Axis:         GA_x5YUV32VSLS(5739845..5787858)
Chromosome:                  Chr1
OMIM number:                 602074
OMIM Information:            DEATH-ASSOCIATED PROTEIN 3;DAP3


Genomic Sequence (SEQ ID NO:12256):
AGAAAATAGGGGGAGATAGGGAATATTCCACCCCTCATATGCAGTTACAATTGGCTCTTGTTACCTTAAATTTTTTGAACATCTTCCGCAATCAGGTTAC
TATAGCAGCTGAAGAGCATTTAACAGGACAGAAGGTAAATGTTCATGAAGGAAAACCTGTGTGGTGGAAGGACTTTAAAACAAAGACCTGGGAAAAAGAG
AGATATAACATGGGGAAGAGGGTTTGTTTGTATTTCCCCAGAAGAAAACCAGCTTCCAGTTTGGGTACCTACAAGACATCTTAAATTCTACCATGAGCAA
ATTTCCAAAGAAGAGAAAAGGATTTTGGAACCAAGATCTCCACTCCCAGCACGCCTGATGGCTCGAATGAACATTTCAGCCAACCAGATGAAGACCAACA
AAACCCATCAAGCGAGCCCACCAACTTGGGGACAGATCAAGAGGCTGACCCACCTTGCAGAAGAAAACCTGAAAACACAACAAAAACCACTAACCTCGAG
TAACCTGATGGTAGCTATGATTGCGGTAATTACCATGGTGGTAAGTCTCCCTGTGGCTACAGCAGACCAAAATTATACCTATTGGGCATACGTCCCATTT
CCACCTTTAATTAGGCCTGTCACATGGTTGGAACCCCCGGTTGAGGCTTATGTTAATAATAGTGTTTGGATGCCTGAGCCTACAGATACTCAAGGGCCCT
CTCACCCAGAGGAGGAAGGAATGTTAATAAATATGTCCATGGGTTATCAGTTCCCCTCCTCTTTGCATAGGGCCAGCTGTCGGTTGCCTAAAAGGCTACG
GACAACATTGGCTAGTTAAAATTTCAGGTCATAATCAAAGACCAGTATCCTATCATTTATTTTCTGGATGGAGCCCGGATCATCCACAGAGTTCAGTTCA
ACTGTAACAGTTTAAGCCCAGAAAAGAGAGGTGTCAACAACCTCAACAACAGTCAAATGATTTAGAAATATTGATTTGAAAGGATTGTATCTCTTTTTTT
TTCTTTCTTTTTTTTTGAGAGGGAGTTTTGCTCTTGTTGCACAGGCTGGAGTGCAATGGCGCAATCTCAGCTCACTGCAACCTCCGCCCCCCAAGTTCAA
GGGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGCGATTACAGGCATGTGCCACCACACCCTGCTAATTTTGTATTTTTAGTAGAGAGGGGGTTTCTCCAT
GTTGGCCAGACTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCGGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACTCCCGGCCAG
GATTGCATCTCTGATCACGCTGTGGTACTTCAAAATAATTCCTATGGAATTGTCACTGATTGGTCCCCTAAGGGGACCTTTGCAGTTAATTGTACCAATC
AGAATGATAGATACAAGACAGGACTAAAACAGGAACTATACTGTCAAAGAGATGACACTATTTACACTGAAAAACATGCCCAGTTTCCCATAATTTCAAC
CAATTTTGGTATAGCCGGCCCACATCCAAAAATGATTAATCCAATAATAGGCCCTGAACATCCCAAATTATGGAAGGTAATGATGGCCCAATCTCATATT
CAGGTTTGAGAAGAAAAATATTACCTTGAGGGAAAAGGTGAGAGACTTCAATTTGTGTATCAGTTTTCTTCCAACCGAATGGCGCCCATTCAGAGCTGTG
TCAAGCCTCCTTTTATGTTGATGGTCGGAAATATTGATATTCGACCTAATTCTCAAACTATTACTTGTCAAAACTGTCACCTTTTCACCTGTATTGATTC
CACGTTTGATGTGAAAACATCTGTGTTGCTGGTGAGGGCTAGAGGAGTTTAGATACCGGTTTCCCTCAATAGACCTTGGAAAGCCTCTTCTTCCATTCAT
ATCCTCACAGAAATGTTAAAGGGAGTGTTTACCAGAACAAAAAGATTTATTTTTACCCTTATAGCAGTCATTATGGGCCTTATTGCAGTCACAGCTACTG
TTGTGGCTGCTGGAATTGCTTTACACTCCTCTGTTCAAACTGCAGAATATGTAAATAATTGGCAAAAGAATTCCTCAAAATTGTGGAATTATCAGACCCG
GATAGACCAACAATTGGCAAATCAAATAAATGATCTTAGACAGACTGTTATTTGGATGAGAGATCGTATAATAAGCTTAGAGCATCGATTGCAAATGCAA
TGTGATTGGAATACTTCTGATTTCTGCATAACTCCCCATTCATACAATGCTACTGAACATCACTGGGAAAAAGTTAGACATCATCTGGAAGAAAGGGATG
GAAATTTTACACTGAATATAGCCAAATTAAAGGAACAGGTTTTTAAAGCATCTCAGGCTCATTTAACTCTCCTGCCTGGGACTGACATTCTCACTGGAGC
TGCTGATGGACTTTCAAACATAAATCCTCTTAAGTGGATTAAGACCGTTAGAGAATCAACTATCGCAAATTTTGCTTTAATGTGTACCTGTTTATGCTGT
TTGCTTTTAGTCTGCAGATGCGGAAGATGCCTCTGGAGAGAGACCAGACACCAGGAACAAGTCTTAATAGCAATGGCAGTTTTAAAAAAGAAAAAAGGGG
GGCATGTTGGGAAAAAGGCTTACAGGGTGCCTGCATAAACTGGCCATAAAAACATGGGACAGTAAGTTGTGGAAAGCCACAAGAGGACTCTGAGGAGGAA
AGCCTTCTTATCGCCATTATGTTCCCATGCTCTGAGCACAACCTGCTCTCTTATCTATAAACACTGTGCTCAAGAAGAAAGACGCTCCTCTGAAGCACTG
GAATGTGGCTAGATATGCAGGCTCCTAGTTAAGCCCACTCCCACCAGCTAACTAAAGATACGTTGTTTAAGCACAAAGGAGATTCACTTAAACCGCCACT
GCTACAGATTATGTGTATGACGTACTGCTTCCCTTTGACTGTTTCGCCCTGAACATCTGCTTCTTAGATCTAAGTGACTGTACTCAATAAACAGTGTGGA
GATCAGAACTCTGGGCCTTTTGCAGCCTCCATTTTGCAACTGGCCCCCTGGCTCCCACCTTTATGAACACTTAACCTGTCTCTTCTCATTCCTTTGTCGC
CACCGGACTTCGGATACCCTACGGGTGGTGCTGAGACTGGTCCCCCAAAATTAAGAAAATGCAAATAAAAACCACAATGAGATACACTTCACACCCACTA
GAATGATGAAATTCAAAAGAACTGATAATAACATGTGTTGGATAGAATCTGGAAAAACTAGGATTCTTATATGTTGCTGTTAGGATTTTTTAAGCGGTGA
GGCCACTTTGGAAAAGTTTGGCAGTTCCTCAAAAGGTAAAACATGGAGTTACCATATGAACCTGCAATTCCACTCTCAGGTATAAAAGAGAAATAAAAAC
AAGTGTATGCAAAAGTTGTACACAAATGTTCGTAGCAGTATTATGCATAAGAGCCAAAAAGTGGAAATACCTCACATGTCCATCAATTGATGAATAAACA
TAACGTGGTATAGCCATATAATGGAATATTATTTGGCAATACGAAACAAAGTTCTGATGCATTACACAACTGGATGAACCTTCAAAACAAAGTAAAAGAA
GACAGTTGCATATAGTATGATTTCAATTACATGAAATGTCCATAATTTGCTTATTAATTACATAAACTGATTTAGTGGTTGCGAGAGGCAATGGGAGGGA
GGAATGGAAAGCAACTTACTGATAAGATTCTTTTGGGGGTGATAAAAAATGTTCTAAAGTTCGATAGTGGAGGCTGGGCATGGTGGCTCACGCCTGTAAT
CCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCATGAGGTCAGGAGATCGAGACCAGCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAA
AAATTAGCTGGACGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTAGGAGAATGGCGCGAACCCGGGAGGCGGAGCTTGCAGTGAGC
CGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAATAAAATAAATTAGCTGGATGTGGTGGCATGTGCCTGTA
GTCCTAGTTGCTCAGATGGCTGAGGTGGGAGGATCCCTTGAGCCAAGGAGCTTGAGGTTGCAGTGAGCCAGGACTGCACTACTGCCTTCCAGCCTTGGCG
ACATAGATCCTATCTCAAAGCAAACAAACAAAAAAAAGTGTAAATTTACAGAAGAGTTGCAAAGGTAGTACAAAGTGCTTTCTTACAATTTTCATTAGAG
TTTCCTTAATGTTACATACATATGACCATGGTACAATTTTCAAAATTAAGAAATTAAAGCTGGTACAATACTATTTAAAAATTGCAGACTTTATTTGCAT
TTCCTCAGCTTTTCTGCTAATGTCTTCTTTCTTTTTTTGAGACAGGGTCTCGCTCTGTCACCTAGGCTGCAGTGTGATGGCGTGATCTCGGCTAACTTTG
CAACCTCTTCCTCAATCCTCCTGCTTCAGCCTCCCAAGTAGCTCAGACTACAAGCGTGTGCCACACCTGTCTAATTTTTGTGTCTTTTTGTAGAGATGGG
GTTTCACCGTGTTGCCTAAGCTGGTCTCGAACTCCTAGGCTCAAGCAATGCGCCCTCCTCCGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACTGC
GCCCAGCCTAATGTCTTCTTTCTGTTACAGGATCCAGTAGAAGATTCCACATCTGGAGATCTTTTCCTTTCTTTATATCTATCACCGACATTACCTACTC
TTTAAAAATTTTGTAAAAGGCATAAATTTGAAAAATATATCCTCATTAATCTAAATCAAGTCATTGATACAACTATTTAACAAGACGCCCGGCCTGCTTT
GTTTTATTAACGACTTGGAGGGACAGAACACTACCCATTACACCCACAAACGTTATCGACATCAACAGAACTGTAAATGACAACACGGCAATACTCTGCA
CCTTCCCTATGCCTAGGAGCTAATTCCACTTTACATATATTATTATTTCGTGTGTGTGTGTGTGTGTGACGGAGTCTCGCTTTGTCGCCAGGCTGGAGTG
CAGTGGCGCGATCTCGGCTCACTGCAACTTCCGCCGCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGCTACAGGCGCCCGCCAC
CACGGCCGGCTAATATTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATTGTCTCGATCTCTTCACCTTGTCATCCACCTGCCTCGGCC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCCTATCTTATTATTTCACACACCAACCCTGGAGGCATGTTTGGAGTTGCCTAATTTT
TATGTACACTTTTTGATAAGGAACTAACAAAAATAACTTGCTGAAGACAAGGGAAACTGAGTCCAGAACTGAATGAGAAGCACATGGTTTCTTCATCCTC
CATCACCAGGCTGTCTAACGAGGCTGAAGTACCATCCATGAGTAAGTGCGTCAAGGGCAAACAAACATCATCGCATATGGACAGTGGTGTGAAATTCGAG
AAATCCGAGGAGGGTTAACAACAACAAAAAGCACACCACCACGCCGAACTTCCTCGGGTCCCAGGTTGGCAACTCAACGCCCGGGAGGAATCCCCCCCGG
AGGCGCGCCGGTCTACCGGCCTCACTCCCTACCTCCTGGAGGTCCGGAGTCCCGCTCCTTTCCCTCAGCGGTACAATACCCGTGTCGGTCCATTCCCTCA
CCGTGAGTCGAGGACTAGTTCTCCAGACTAGGCGACCGACACACGCTGCCTGGGGCCGGCTCCAAAGCGCCCGTCCTGAGACTGCAAAAAAGGGTCGGGT
CATCCGGCAGGAAACGACTCAACGCGCAGCCGCCGCGGCCTCCAACCACCGGCCGGCAGAGGGGCGCTAGGCCGCCCTCGATCCCCTCGCCGCGGTCCCA
TGGAGGAGGAGGCGAGCCGCAGCGCCGCGGCGACGAACCCAGGGAGGTAGGTTGTCATGGGACTCGGCCGGCCACCCTGGCAATTCCAGTCAAAYGGCAA
GCCAGACTCGCTTTGCCGGTCCCTTCCTCTCCTGCCCCTGCAGCCGCCAGGAATGGAACAGTCCCGCGGTGGGGACTGTGGGAGGCGCACGCGCGAGGAG
TGTAGGGTGGGGGTGCTGGCGGCGGCTGCTTTGGCGGCGGTTGGTGGCCGTGCGGGCGGGGAGGGAGGGGGAGGAGAGAAGAGGAGGTGGAGAAGGCTTG
GGCTCGCGCCGCTGAAGGTACGCGTGAGGGCCTGCGCTGGAGCCGGCTTGACAGGGTCTGAGGGGGAGTGGAGAACTGGGCGAGGAGGTTCCCGTGGGTG
AGCGCGTACGGGATGGCTGGCTCGCRGGACGGCCGAAGGTGGTGGTTGGTGGGAGCAGCCAGCGACGAGCCCGTAGACACTCGTACGCGTGCGGGCTGAC
GTGCGCGCTACATGGCCGGAGTCGGGCGAAGCGGGGGRCCGTGGGGAAGAACGCGAGGAGGGAGGAGTGGGAGGTTGGGGGTGTCGCTAGGCGCCCTTAG
CTCCCTCCCTCTGGAGGAGCTGCCGCGGCCACTCTGCTGCCGCCGCTGCCGCCGCCATTTTGGGTTCGCTTTGCGAGGGGARACGATCCCAGTGTCGGTT
GCGGGATCCGCCTCCTCTCAGTTTGCCCCTTTAGCCCTCCACCTTTCCCTTCTCCTCTCTCGCATTTCCGCCAGTCGGCTTACCCGCTGGCCGCCTCCTG
ACAAGCGGGAGGGATCCGCGGTGGACCCAGGGAAGCGGAGGAGCCTGGCGGCCACCCCCTCTTCCTCACTTCCCTGYACTCTCATCGCTCTCGGCCTCCG
ACACGGTGAGTAGAACGATTTGGGCCGGCATTCGGGCCTAAGCACTCTCTCAGCGATTGAATCCTGGGCTTTCTGGGAGCCACTGTCATCTCCCGGACCT
GGAYCTCTGRGAGAGCAGTGGTGAAGATGGGGGAGGGGAGAGCAGGGAGGGGGATCCTGAGCCTACCGGGAAGTCCCTCCAGGCGGGGTGAAGGGGTGTC
CCTGACAGGCAGACTCCCGGAGGGGGCTGGGAAGTAAGCGAGTGGAGGCGGAGTCGGCTGTGCCCCTGACAGGTTAGTTTGTGTTTGTAGGCATGATCGG
AGCCTCCCCCATAGTCCAGTTTGTGTGTGTTTAATTAAGGGATAAGAGTGGTCGAGGACACGATCTTGAGAGGGGATTTTACCTGTGTGACAAGGTCTGT
GGTGTCCCTGCCGCGTTGAACGGTATGTGGGAACGACAGGATGATCTCAGTGTTGTACGTTTAATAAATGTCACTGGTTAGTTTGTACATGGAAAGAGAT
GTTTTTGGTCTAGMAGACAGATGGTCTGTTGGTGTGTAGCGGCTGTGTTGGTGTGTGTATGTGAGGATGGCAAGTGTTTCCGTAAGAGTTTGCCTTTATT
TGTGTAAGTGTAATGGAGTTCCCCTTATAAGTTAGCTTATTTCTTGAATAAATGTTGGGAGGTTCCTTGCAGGTTGATATGTGTGTGTATTTTAGGGATT
GGGAGCCCCTAGTTACTTGTTGGGAAAGAGCGGCAATGGTAGTGTTCTGTACAGCATGTGTCTGTGAGGTCAGGGAGGGGAGAAACTTGGCATAGCCAGT
TGTGGTCTTAAGAATAGTTTGTGCCTTTGGTTAGAGTGAGTTGTGTAAATGTGAAGGGCCAAAATATCTTTAACAGAATCATTGCTACAAAGCTGTAAAG
AATGGGTGGCCTTATTTGTTGTCGCGGGTTTATAGTAATAGTTTACAATACAATAAGAAAGCTCTTTCAGTTTCTTTGTGATACTGAATCTCTGTGAAAA
TGGTAGGATGCTTTCTTCCATTTTACAAAATAGGAAATTTAGGCATAAGGAGAGAACTTCTCCAAGGCCGCATGTTAAATTGGTGACAAAGTTGGAACTG
TAACTCCCATATTTTCACTACTACTGCAGCAGTATATTCAGCATACCATGGTGCCTCAGGAAGTCTTTGTCGGCAAATCTGAGTATGCTGGAAAGATAGG
AGCACATAAGACTGGTTGGCTTGTATTTGGGGGAGACCGATTGTGTCAGATATGTATGTGGAACGTAGCTGTCCTTGCCGAGTCTGACCTGTATGAAATG
CATATCCATGRCTATATTATTTTGGATTTATGGAGGAAGCAGAGCATTTCTGACACTTAAGGTTGTATGYGTGAGGGAGAAGGCTTTCACAGCTTAACTT
GTACCAGAGCAGCTGCATGGGTGCTGACAGCTTAACTTGAAATCTGTGGGAGGAAGGATCCTTTTTCAYTCATTCAACAAATATAACCATTCAATGAATG
GTCCATGCCTTGAGGTGAGGATCATCAAGGTGTCTCTGTAAATAGCCTGGATGCAATCTGAGGGGAGTTGTTTTGACGGTGGTAGGTATTAAGTTGAGGG
AGGCAGTGTGGAATTAAAACCAGAGAACTGTTTTTGGGTACTGGTAATTGTTAATATATGTGCCTGTGGATGTTGGAACTTCTTGGCTGGGCTGAAGGAA
TCCTTTGAAAGACTGATTTCGGCAGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATCGA
ATCACGAGGTCAGGAGATCGAGACTATCCTGGCTAACAGGATGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTG
TAGTCCCAGCTACTCGGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGG
GCCACAGAGGAGACTCCATCTCCAAAAAAAAAAAAAAAAAAAAAAAAAAGACTGATTTCATGTAGTAAGGATCCCGTCTATGAACTCTATGAATATGAGG
TAAGAATGCATGAACTAAGCCAACTTAGCTGTATTCTTCTGGAAAATGGGATGTTTCTTGATAGGCTAGATTAGTGGTTCTTAAAAGTTTTTTGGGGTCA
CTTATCCTTCAGAGAATCGGATGAAAGACACTGGGCCCTCAAGTTAGAAGATGAGCATAAGCGCAATCACATGATTTATATATATGATTTTAGGAACTTA
AACTGTAATGAAATAGAGCCAATTTATATTTAGATCTCATTTGAAAACCTTTCATTTTCATTGTTCGGGTGTGTGGATGTTAGTATGAGTTTAAGGTGAA
GGAGTCTATGTTAGTATTTGAACATGTTGACAGGATCCATATTTTTAATTTATTCTTTTTATCGTCTGCAAACATTTCTGCAGTATTAGTAAATGACTCT
GTATTTGGTAAAAAGGGAAGCTAATGTCGCACAAGTATCTATGGCTTTGTTCTTTGTCAGTATCTTTTTGTTCTCAAACTCTGAGAAGCGTCTTTTTTTC
AGTTTTGGATTGGGCCTGAGGTGATTTGAAGCTCCTGTCTTGGAGTTTAACTTAGTTATAACAAACACTGAGTTAATCCTATGCAGGAGACACAAAGATA
ATTAATATATGGTCTCTGTGCTTGAAGAGACGCTAATTTTCTGTGGTTGAAGAGATGCTGTGAATTGTGTGATAGTGGCAGCTCTCAAAAGGACAAGGAA
GAGGGAAACATATTCCTAGAAGCTGAAATTTTATTACCCAATTGCAAAGACTTTTTGTCACTACTTATTCTTAGGAATAACCATAAAGTGTTTATTTTAT
TCTGTATGGAACTTTGTACTTTAAAAAAATATGTTTTGTATCATCTGGTGTTTTTGTATAAAGGAACTGTTGGTTTGAAAAGAAGGTAAACATCATTTAT
ATTCCTTACCTTGTTTTGGGATGTATCTCTACAGTGAGTTTATGTAAAAAGGTCTTAATGTCATTTTTGGGTATACATACATGTAGAAAGCCCTCCTGAT
ATAAAATCCAGTAGCTATTTGACAGACTACCCATTAATTTATTACTGGAACTTAAAAATAATTACTGTACTTTTAAAAGAACAAGAAATTGGTCAGGTGG
GGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGACGAGGCGGATGGATTGTCAGAGCTCAGAAGATCGAGACCAGCCTGGGCAACACGGTGAAACCC
CGTCTCTACTAAAATACAAAAAATTAGCTGCATGTGTTGGAGTGCACCTGTAGTCCCAGCTACTCGGGAAGCTGAGGCACGAGAATTGCTTGAACCAAGA
ATTGCTTGAACTGGGAGGGGGAAGTTGCAGTGAGCTGAAATCATGCCACTGCACTCTAGCCTCGGCATCAGAGCAACACTCTGTCTCACAAAAAAAAAAA
AAAAAGCAAGAAATGTAAAAAGGTGTTTTAATAGGACAGATTATAGGATTCAGTGAGATAATGGAGAAGTTTTAGGAAAAATTGTCTGATAGTCCTTTCT
TTCTATTGACATGGCCCCTGTATAAGAATGCTATGTAAATTTGTGAAAAGTTTAATATTTTCTCTAATTTTTAACGGGTAGTAGGTTCATGGTGTTATTT
TTCTCAAAACGTACATGTGATATGTGTGTGTAGTGTGCATATATGTGCATGTATGTGTATACAATTTCTTTATTTTTTTAATTGAGATTAGGTCTCGCTA
TGGTTTTTTGTTTTTGTTTTTGTTTTTGAGAGAGAGTTTCGCTCTCCTCGCCCAGGCTGGAGTACAATGGCACAATCTTGCCTCACTGCAACCTCTGCCT
CCCAGGTTCAAGTGATTCYCTTTCCTCAGCTTCCCAAATAGCTGGGATTACAGGCGCGTGCCAACACGCCCTGCTGATTTTTGTATTTTTAGTTGAGACA
GGGTTTCCCCACGTTGGCCAGGCTGGTCACGAACTCCTAACCTCAAGTTCTCCAGCCGTCTCGGCCTTCCAAAGTGCTGGGATTATAGGAGTGAGCCACT
GCACCTGGCCCAGGTCTTGCTATGTAGATCAATCTGGTCTTGAACTCCTGGCCTCAAGCCATCCTCCTGTCTTGGCCTCCCAGTTTGCTGGGATTACAGA
TGTGAGCCAGCATGCCCAGCTCTTTTTACCTGCTTACCAAATCCAAGATTTTCTCCAAAATGAACTGGAATAGCCTTCTTACTGTGTTAATTTTGCCTTG
GTGGGGAAGCCTAAGTCTTGGAACTAAATTGGGGTGGTTATGACAGTTCTCTTTTTAAAGCTGATCAGTATTTCAGTATTTCACTTGTTGTTGTTTTTTT
TGTTTTGTTTTGTTTTTTTTGAGATGGAGTCTTGCTCTGTAGCCCAGTTTGGAATGCAGTGGCAGGATTTTGACTCACTGTAGCCTCTGCCACCCGGATT
CAAGTGATTCTCCTGCCTCAATGTCCTGAGCAGCTGGGTTTACAGGCACGCACCACTACACCTGGCTAATTTTTGWATTGTTAGTAGAGACAGGGTTTCA
CCATGTTAGCCAGTAGCCARGCTGTTCTCATACTCCTGACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCA
CGCCTAGCCAAACCCATCTCTTTCATTAAACCACCTCATTTTGGTTCAGAAACAAGACTGCCATGTATGTATTTAATGCTTATTATGTGCCAAGCACTAT
TCCAGGTACTAAGATACAGTGATGGACAAAACAAGATCCCTTCTCCTCTATCTCAGGACTTATTAATTTGGGCATTTTCATTTTCCAATATAGGATCTTT
TAGTACTGGTATAGGATTCCTGAAGGAATTCCTGAAATATAATTATTTTTCTGCTAGAGCAAATCAATTTTGTTTTTTGTTTTTTTTTTGAGATGGAGTT
TCGCTCTTGTCGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCCGACTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAG
TAGCTGGGATTACAGGCATTAGCCACCACGCTAGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCAGGTTGGCCAGGCTGGTCTCGAACTCCT
GACCTCAGGTGATCCTCCAGGCTCAGCCTCCCAAAGTGCTAGGATTACAGGCAGGAGCCACCACGCCCAGAAGAGCAAAATTCTTCTGTTGACAAAAATT
TCTTTCCTCTGAGGAAGAGACACTGTGTGCCTGTGTTTTATCCAGGAATTCCATTGGATAGTTTGTCCTTTGGGATGTCAGTGGATTAAATCCTCCATTA
AGAATCAAAGTACTTGGCTGGGTGCAGTGGCTCATGCCTGTAATCCCTGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTGGAGAC
CAACCTGGCCAACATGATGAAACCCCATCTCTACTAAAAATACAAAAAATTATCCAGGTGTTGTGGCAGGTGCCTGTAATCCCAGCTACTCTCGAAAAAA
CAGAAACAAAAACTCTGACATGTAGAGTATGTAGATGTAGAGAAAAAAGTAAAATGATTGTTGAAAAAAATGTCTATTTTTTATCTTCTAAATAGCTTTG
TGTGTCAGAGATCAGAACGCTCATTTTACATGATATCAAGAACCAGAATGCTAGATAGCTAGAATGGTTGTTAACTTCCTAGATAWCCATTGTAGAGGAA
CACATAAGGTAAAACAAATGAATAAAAATTAAAAAAAAATGAGATAGCCAAAGATTTGAAGCTCTTTACCCATTAACATGATAATCATTTCGACTTTGAA
TATTTGTAGAACAAGAGTCAGAACTCAGAACAAAGATCTCTGAGGAAATAAAAAAAAATCAAGCTGCCTCCTAATTTCTCATTTAGTCTGTCATTGGGCA
TTGTCAAACTGTCAAACTATATTTAGAGATTCTGGTTTTCATCTGGAGACTTAGTGAGTTGTGTAATATCTTGAATACACATATAAGATCTTGCCAGGTG
GGGTGGCTCATGTCTGTAATCCCAGCACTTTGGGAGGATGAGGTGGGAGGATCGCTGGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATAGCAAGTCC
CTGGCTCTATTTAAAAAAAAAAAAAAAAAAAATCCTCAATGTAGAACTTTAAATTTATCCTTACGTGTTACATCCAGTTGATTTGAGAAAATATGATTCT
GAATTTTCCATCAATTGGATTGGCAGTCCCTTTCAGCTTTACAGCTTTACATCATCTACAGATTTGTTAAGTATGTTCTCTTGGTCTTCTAATTCACTGA
TGGAGTTTTTGAATAGGTCGGGTCCAAAGATAGAGTCCTATGAAACACTGTTGGAAACTTGTCTCTGTCTGTCTCTTTTTTTTTTGGAGACAGTGTCTTG
CTCTGTCGTTCAGGCTGGAATGCAGTGGGACGGTCTCAGCTCACTACAGCCTCTGCTTCTTGGACTCAAAGAGATTCTCTCACCTCAGCCTCTCAAGTAT
ATGGGACTATATGCATGTGCGACCAAGCCCAGATAAATTTTTTTTTAGAGATATGTTGACATTTTGCCCAGGTTGGGAGACTTGTCTCTTGATTCCATTC
AGTATTGTGTGGGTTTGGATAGGCCATCTAATTATAAAATCATTGGGCTGGTCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGG
GCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAATATGGAGAAACCCCATCTCTACTAAAAACACAAAATTAGCTGGGCGTGGTGGTGCATG
CCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATAGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAAATCGTGTCATCGCACTCCAGCC
TGGGCAACAAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAAATCATCTAGCTCACATTTTCTCCTTGTCTTCTTCCTATTAGAATTTAAGTTCAATGAGA
TTAGAACTCTCTCTCTCTCTCATTCTCTCATATATCCCAAGCATCTAAAACAGGGATTGAAACATAGTAAGTACTCAATAAATGTTTTTGAATAAATGAA
TGAAGGATAGCTGGGCGTGGTGGCTCATGCCTGTAACCCCAGCACTTTGGGAAGCCAAGGTGGGTGGATCACTGGAGCTCAGGAGTTCAAGACCAGCTTG
GGCAACATGGGGAAAACCCATCTCTACAAAATATGGAAGAATTAGCCGGGCATGACAGCACACTCCTGTTGCCCCAGCTACTTGGAGGGCTGAAGTGGGA
GGATCGCTTGAGCCTGGGAAGCAGAGATTGCAGTGAGCCGAGATCAAGCCACTGCCCTCCAGCCCGGGTGACAGAGTGAGACCCTGTCTCAGGAATAAGG
ATAGATATGAAGAATTCGTCAGATGCCTTGTTGAAAACATCATACATTGTCTACATGGAATTCCTCCATATTGTAAAATGAATCTAATTTATACCAACAA
CGTTTGGCTTTTTTGCAGAAAAGGAAGCAAATGAGCTGATGGAAGATCTGTTTGAAACTGTGAGTAATGATCCTCAAGTGAGAACATGGGATTGTAAGTT
GGTTCTCCAACAAAATGTGTCCTTTGATCTCTGTGATGCTCCTTCTAGAAGAGGGACTGAACCAATTCTCCTTTTAGTCTACCTGGGAAAGAATATAATG
ACAAAAGAAATTTGCTAACTGCTAGACTCTTGATTATCCACATGTAGGTTATTCTTACTAAAATTTTCCTTGAAGCTTTTTTTTTTTTTTTTTGAGGCAA
AGTCTTGCTCTGTCACCCAGGCTCTGGAGAATACAGTGGTGAAATCTCAGCTCACAGCAGCCTCGACCTCCAGGGCTCAAAACAATTCTCTCATCTAAGC
CTCCTGAGTAGCTGGGACTACAGGCACACACCTACAGGCCCGGCTAATTATTTTATTTTTTTGTAGAGACAGGGTCTTGCCATGTTCTGGAACTCATAGG
CTCAAGTAATCTTCCTGCCTCAACCTCCCAAAGTGCTGGAATTACAGGTGTGAGCCAGCACATCTTGCCCCTTGAAAACTTTTGATGGCTTCCCCTACTG
TCATTTGGTGTGTCCTTAAAGATTGCCAACTAGTTTTAAAGTATTTTGCACACAAATAATTACCTTTTCCATAAATTTGTCTAAAAAGATATTTCTGTTT
AAGAAATTGATCATTTTGAGTTATCCTAGCTCTGTGCTTACTGATACAAGTTGACTGGTTGAGCAACTTCTTTCCTGGCATAATAGTCATTCCATATGTG
GGTTTGTAGGAGTCCTGAAGTGAGAAAGGTTCTGATGTAGGCTCTTTCTGGGTGCCAGCATTATTAAAGTATTGTTTATAGTTTTCACTTTTCCTTCCCA
ACACTGGAGCAACATTCAAAAGCCCATTCCCCAGGAAAACCCTCCCTTTCCTTTGCCCACAGTTCCAAGATGAGATGGGATTCTCCAACATGGAAGATGA
TGGCCCAGAAGAGGAGGAGCGTGTGGCTGAGCCTCAAGCTAACTTTAACACCCCTCAAGCTCTACGGTAGGCTAGTTGAAGACCTTGAGATTTGGAATAG
AGGAAGAGTTTATTTCTGAAAAGGTTTTCAGAAGTTGCAGTTAACAATTTTTCATCCCCAGCCAGCTTCTGTTACTGATGTAAGGATGCAGAGTCCTGTC
AGGAGTTAGGTGTCAAGTGAAGTCTCCTTGTTATGGGGCAGTGCAGCTGTAGGCCAAGCTRTATCYGTTTGGGAAGGGAGAAAAAACAGTAGCTGGCATC
CATATCCACTTCTCCGGGTGAGTGGTGCTGGAGAGGTATGTAGGACTCAATGTGGCCAGCCACACAAACTACCCTATATTGTAATATCCAGTCTGTCCCT
TTTGTTCTTTTTATGTGCCATTAATATCTGCTAAATGTGACTGAAAATTTGTTAGTCACCTAGGCATTAGTGGAGCAAACCCTGAAGCACCTGCAGTAAG
GAGTCTGAAACATACGTGCTGACCTTTTTGCCTAAAGTTGGCACTTGTGTTACRGCATCCAGAAAGTAGAGGCTTTAATTTTTTCCTCATTTTGTGGTGG
ATTTGCATCTGCACTTTATTCTGTTGTAGCAGCATATAATCATTAGGTCGATGGCGAGAGGTCAGGATGCAGTTTGTGCCATAAGTGGAACAAAGCAAAG
AGAATAGTCCCTGTAATTAGTCCTGTGTTTGAACTTAACAGCACTACTAAGCAGAGAGCTTGGGTTCCATCTGAAAGCTAGACCTTTAGGGATTTTCCAA
TTTAGTGAAAAAAGATAAGATAGGCCAACCAATGTCTTAAAAACTAGAACTACTAGTCATTCTCCATTACAACAAATATCACAATACAACTACATCAAAA
ATCTCAAGATTGCTAAGTCAGTATTTGACCCATTATTTTAATTTATAGTTCATAGAACAAAATTCTGGTATAGCAGAATGGAACCATTCATCCTGGGAAC
GTATAATAGGATCTGATTAATAAATATTTTGGTTTTGCTGATCAACTCTTTATAACTTCTTAAAATTTGGAAAATATAGAACTAATTTAAAATTCCTGTT
AGAATCCAGTTACCTTCTGGTATTCAATGGAATATAGTCATATATCATCTCATGGTCATACCCTCTGTGAAATCTATCATTAAACGATTCATCATTGTGT
AAACATCGTAGAATGTACTTACATAAACCTAAATGGTTTAGCCTACTGCATACCTATTGCTCCCAGGCTACAAAACCTGTACAGTGTGTTACTGTACTGT
ACTGAATACTGTAGGCAGTTGTAACACAATGGTAAGTACATATGTATGTAAACATAGAAAAGGTACAGTAATCTTATGGAGCCACCTCTGACTATGTGGT
TCGTTATTGACTGAAACATTCTGTGGCGCATGACTGTACTTGGGCAGCTTCTGCTTCTCTTTCGATTGCAAATACAAACCTGTTTTTGTTTTAATCTTTG
ACTAAATAAAAATCCCTCTGTAAGTCCATAGAGAGTAAGCACATCTTAAAACACAATAAGGAAGAGAGAGGAGAAAAAGACAGTCAAAACAAAAACTCTG
GGGCTTCCCTTATCAATTACCTAAATAATCCTTGTTAAAACTAAGTGCAGGCTATGTTTCCATTTTCTACTTTTTTATGCTTCTTCTCTTCTGTTCCTTC
AGTGGTGGTAGCGCGGATGTTCAAATTTTCAGTTCTCAGTAAAGATTGTATAGACAGTCCCACGGTCTTCAGGTTTTTACTCTGTGCTACCCAAACCTAC
AGTAAATACTATAAAAGAAAACTTATTCAAACRTAATCTTTATCTGCAAAAACTATTGAAAAACGTTACCATTTAACTATTGCTGTAATATAGGGGGTTC
CTTGAAATATGATAACCTGCTTGTTATAGCTACTTCAGCAGATCTTATCCTGTTGCATAGGGTATCAGCATATGCTTAATCATTTAGGTATATTATTCTC
CCTTTATTTCTTTCTATGTAAACATAGAAAAGGTATAGTAATCATACATAGAACTGACATGCTAGGTATTGGAATTTTTGCTTCAGCCCTGCAAACAATC
TTTCAGGAGGGTATGGATGGGAAGTTAGGGTTAGGAACCTTGGAAGAGGAATTTAAAGGGCTAAAAGAAGATAGCCTTCATGGATAATATTTTAACTAAC
TTCTCCGTTCTGTTCATTTGAACTACCATGTACTTCAGTTATTTTGGTATATCCTTTTCCTGCTTCATGCTAGAAAGTCTTTGACTTGTTAAGAAAGCAG
GGCAGTGCAGCCTGAGTAGATAGGATAATGGGACAAGCTGGACCTGGGATGGGAGTAACATCCCAGGGAGTAACAAGTAATGAGAGAAGAAATGAGAATG
ATGAGTTCCCACCAGCTCCTTGGCTGCTTTCTTACCCATATATTTCTCTGTCCCTAGTTTTTTGTTTAATTTTTTCTTCATTTGTATATTATTTGGAAGA
GGAATTGTAGAGGAATGGGATGGGGTGTAATACAGAATCATTTGATGCATGCTAACTACTTTGGGAAAAGATTTGTGTAAGGCTGGGAGTTTGACTGTTG
GCTAAAGTGAAAAGGGGGGRTTAGTAGGGAATGAAAATTGTTCAGGCTCTTTGCTCATCATTGCAAAGAATTGGATGTGTTGTGGACCTAGGAAAACACT
CAAATTCAGTCATCCCCGTTTGGGATAGGTTTGAGGAACTACTGGCCAACCTACTAAATGAACAACATCAGATAGCGAAGGAACTATTTGAACAGCTGAA
GATGAAGAAACCTTCAGCCAAACAGCAGAAGGAGGTAGAGAAGGTTAAACCCCAGTGTAAGGAAGTTCATCAGACCCTGATTCTGGACCCAGCACAAAGG
AAGAGACTCCAGCAGCAGATGCAGCAGGTAACACTTTCCTTGGTCATATTAATATTGAATTATACCAAGGCCTAACTCTGAGGCTTTGGTATAATCTAAA
ATTAGCAGCTTTGTAAATGTCAGAGATAGTTACCTTACTAYGTATTAAAACCGTAGTATCTTCACATCAGTTAGGAGCTTGAGAAGTCATCATGTTCATG
TCCTGTGGCTCAGGGAAGACAGCACATAAGGACCCTAATGGTATTCGGAATTACAGATTTCAAAGAGTCCTCAGTAATCTATTCTGAAATTTAACCTTCA
CTGTGACAAGTAGTTTTTTTTCCCTTTTCCCTTTTCTTTTTTCTTTTTTTTTTGAGACGTAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCTCAA
TCTCAGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGTGACTACAGGGACTCGCCACCACACCCAGCT
AATTTTTTGTATTTTTAGTAGAGACAGGGTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTAACCTCGTGATCCACCCGCCTCGGCCTCCCAGAGTGC
TGGGATTACACGCGTGAGTCACTGCGCCCGGCCTTTTCCTTTTCTAATCTCAGTTCCTCCTCTGTTTAGAGGTTAAACTTCCTCTGGTTCTGTCATTTTG
TTCAAGGGAACATGTCTGAGAAATTTATGCCAAGATCCTACGTTGTTCTCACACTCTTTGCAGAAAGCAAAATTTGTGTCATAAAGTTGCAAACATCTTA
GTTAATGACTCTCTGGTGGCTGGGTGCAGTGGCTCACACATGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGAGGATTGCTTGAGCAGGGGAGTTCAAA
AGCAGCCTGGACAACATAGTGAGACTCTGTCTCTACAAAAAATAAAAATAAGGCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCA
AGGCGGGTGAATCATGAGGTCAGGAGTTTGAGGCAAGCCTGGCCAACATGGTGAAACCCCGTCTCTACGAAAACAAAAAATTAGCTGGGTGTGGCGGCGG
GCACCTGTAATCCCAGCTACTCGGGAGGTTGAGGCAAGAGAATCACTTGAACCTGGGAGGCAGAGGTTACAGTGAGCCGAGATCACGCCATTGCACTCCA
GCCCAAAAGTCAGTGCGAGACTCTGTCTAAAAATAATAATAATAATAATAATAAAATAAATTAGCCAGGCATTGTGGTCACAGCTACTTGGGAGGCTGAG
GTGGGAAGATTGCTTGAGCACAGGTGGTTGAGAGGGCATTGAGTCATGGTTGCACCACTGCACTCCAAGCTGTGTGACAGAGCAAGACCCTGTCTCCAGG
GGGAAAAAAAAATATCTCTGGGCTCCTGAAATGGCAGTGTCATAACATATCACTGCATTATTTTCTTTCTCTCCCCAGCATGTTCAGCTCTTGACACAAA
TCCACCTTCTTGCCACCTGCAACCCCAATCTCAATCCGGAGGCCAGTAGCACCAGGATATGTCTTGTAAGTTTCCAAATTGCCGTAATTCTATAGACTAG
AATATAAAATTAGCTTGGCAGGTTATTTCTCACAGTTATTCTCTCAGGTATTTTTGATTGCTGTGGCTTCCTATGTTTGCTGAGTGAACATAAGCCACTG
ATTCACATGAAAGGACAAAGAGTGTATTCAATTTTTTCTTTTCTTTTTTGAGACAGGGTCTTGCTCTTTCACCCAGGATGGAGTGCGGTGGAACAATTTC
AGTTCACTGCAACCCCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGGGCACCACCACGGGTAATTTTTT
TTGTATTTTTAGTAGAGACAGGGTTTTGCSATGTTGGCCAGGCTGGTCTCGAATTCCTGACTTCAAGTGATCTGCCCACCTCTACCTCCCAAAGTACTGG
GATTACAGCCATGAGCCACTGCGCCTGGCCTGTCCTTCTGATATTTTTATTGGGTCCTCCTCCTCATCTTTAGATTCACCCTGACTTCTTAGGTTTTTGG
TACCGCTATTCATTTCATAGATGTTGAGGCTGGGCATAGTGGCTCACACCTGTAATTCCAGCACTTTGGGAGGCTGAGGTGATAGGATCACTTGAGCCCA
GTGGTCAAGAACAGCCTGGGCAACATAGTAAGACCCGGTCTGTGTTTTTTTTGTTTTGTTTTGTTTTAATTTAAATAATGAAGTAAATATACATGTAGAT
GTTGAATTCATTATCCATTCATGAAGCTCAATATTAGTGTTTTATGTGTAGAGCTAGTTTTGCTCATGACGTTTTGAGGTATTTTGAGCTTTTTTTTTTT
TTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCYGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCC
ATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACCCGCCACTATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTT
TTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCACCTCRGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTATTT
TGAGATTTTAAATTTGAAATTTGGCCAGGTATGGTGGCTCATGCCTGTAGTCCCAGCACTTTGGTAGGTCAAGGTGGGAGGATTGCTTGAGCCCAGGAGT
TTGAGACCAGCCTGGGCAACATAGTAAGACCCCATCCCTACCAAAAAAATAAAAAATAAAAAAATTAGCTGGGGATGGTGCCGAGTGCCTGTAGTCCCAG
CAACTTGGGAGACTGAGGTAGGAGGATCACTTGAGCCTGGGACGTTGAGACTGTAGGGAGCCRTGCTTATATATCACTCCAGCCTGGGTGACAGAGTGAG
AACCTGTCTCACAAAAACAAAACCATACTTTACCTCATAAAAATTGCCTCAAACTTTTGGACAGGTAATGATAATACTCTCAGCTTCTTCAGTAAGTCTT
CTTTGGATTTTGAAGAGTACATTTGCTAGTATTCTAAAACTTCCTTGGTGATCAACAGGATGTCTTCATCTCTTACTGTATTCAGAGGAGGATGAGGAGT
ACTTGGTTGTAGGCATTAYTCTGAGACCAAAAGACAAAACAATTTTAAAAGTAATGGTCCTGGTCGGGTGAGGTGACTCATCCCTGTAATCCCAGCACTA
TGAGAGGCCGAGGCAGGCGGATTGTGAGCCCAGGAGTTCGAGATCAGCCTGGCCAAGATGGGAAAACGCTGTCTCTGCAAAAAATACAAAAATCAGCTAG
GTTTGGAGGTGTATGCCTATAGTCCCAGCTTCTCAGGAGGCAGTGGGAGGATGGCTTGAGCCTGGGAGGGGGAGTTTGCAGTGAGCTGAGATCATGCCAC
TGCAGTCCAGCCTGAGCGGCAGAGTGAGACCATGTCTCAAAATAAATTAATTAATTAAATTAAAGTAATAGTCCCCATTCTTGAGACTCTTAATTCTAGC
TCGGGAGCTAGACCATGTATTCCTTAGTGAGAAACAGTTTAAAAATAAAACAAGAATATAATCCCTGAATATCTGAGAACTCAGGCATAATCTTAACAGT
AGTTTATTGTGAAAGACTTTATGATTATTTTTACCTGTTTTTATCCTGTAGTAGGAAGGTCAGCTTCTCATTTAGATTCTGAAGGCTAYTGGTATTAATT
GTCTGGAATTGTCTTARATCTTYCTTGTGTCSTGTTTTCCCAGAAAGAGCTGGGAACCTTTGCTCAAAGCTCCATCGCCCTTCACCATCAGTACAACCCC
AAGTTTCAGACCCTGTTCCAACCCTGTAACTTGATGGGAGCTATGCAGCTGATTGAAGACTTCAGCACACATGTCAGCATTGACTGCAGCCCTCATAAAA
CTGTCAAGAAGACTGGTAGGAGACAGATGTGTCAGCTTTAAGTTTTTACTTGCGGTGAGAGGTGGTGGGAATCTTATCCCATAGATAACTTCCTAGGATA
CTTGCCTAGGAATGGAGGACACAGGACATTTGTAATTTCTTCCTTCTCTCTTTTATCCTCCCTTTGTACTCATTATCCAAGTTCTAGAATTACATGATAA
TCTCYRGGCCTGGGTAAGGCATGGAGGCAGTGGACAGTATAGGAATATGGGAGGTAGAGATCTGAGGCTCAGTGCTAAGAATTGGACTACAGCAATATGA
GGGGTAAGTATTAGGARTCAGATCRAGATAAACTGGGGCCTGGTAAAGATGAAAGTCAGGTGGTAAAGTTYGGTCATGTTTAGCTTTTTAYTCTCTTCAT
TAAGATCAACTAACTTTATTTACCATAATGATTGTAGCATAGGTGATATCTCCATTCTGAATGAAATGTTGACTTGCAAGTTAGGCGTAAATTAGAGATT
GTACATTTGCCGTGTTCAGTATTTTAAAGAAATTTGCCGGTTTAGATTCTACCTTGCATTGGTTTAGTATTTTTTGAGAAAATATTTGCTATTTACTTAA
GCCAAATATTTACTTCTGATTTGTTTGCTGACTTAGCAAATTAGTTGTGGTTTGTTCTGGATTTGGGTTTGTCTTTGGATTCTATTTTAAATCCCTAAGT
CTTATCATTACATTGAATGTAGTTGAATTTAAGTGTACTATATCATAGACACAGATCCCAAACTACTTTAATAGCTATATTATATGAAATGGTAATGAAA
ACGTGATTTAATACCAAATTATAGTATTATCTTACACATCTAGTGTCCTGTGTTTTTCTTCTGGAGATATAAAAATGACACTTATGGAAGGAGAAATATG
GATATAGTAGTTTTGTCTCTAGAAATGCAGAGGTGCCTAAAATTGAGAGGCTGAGAGAGGGAGACAGAAATGAATGAGACTGAATTGTCTCATTCCTTTT
ATGGTTCTTTTGTTCCCAACCTCAGGAGGAATCTGGGAGAACTTAATGAAAGTTAAGAAAGAATGAAATAAAAGTAAAATTTGGAATACCAGGTTTGTGA
GGGAGATTAAAGAAGTTGGAATCTTTTTTCTTTTTTTTTTTTTTAAGATGGAGTCTCGCTCTGTCACCTAGGCTGGAGTGCAGTGGGGTGATCTCGGCTC
ACTGCAACCTCCGCCTCCCAGGTTCAAACAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGTGCGTGCCACCATGCCTGGCTAATTTTTAC
ATTTTTGGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATT
ACAGGCGTGAGCCAGCACGCCTGGCCTGGAATCTTATCCTGGAAGAAAAAAGCATTGTTGAAGGTCTGTTATCCTTCAGAGATTTAAAGGGGAAAGGAGG
TAAAACATTTTTGAGCATACACTATGTGACAGGTATTACTAGGTACTTTTTAAGTGTTTGTTTTACTTTGTGAATAAAGTGTTACACGTAAGAAAGAGTA
AGAGAGGCCGGGCGCCGTGGCTYACGCCTGTAATCCAACACTTTAGGAGGCCGAGGCTGTCGGATGACAAGGTCAGGAGATCAAGACCATCCTGTCTACA
GTGAAACCCCGTCTCTACTAAAAATACAAAAAATCAGCCAGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCC
TGAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGATTGCGCCACGCACTCCAGTCTGGGCGACAGAGCCAGACTCCGTCTAAAAAAAAAAAAAAAAAAAG
TCAACTTTTATTGCCAGTGAATGGGACTCCCTTTAGACCTAATGTTAGTTGAGGAAAGACTGTGGAAACTCTTTGGGGAGTGGTAGGCAGATGGGAGGGA
ATCAAGTTAGATAAGGACAGCTCTACCTAAATGCAAAAATGCATTCACAGGCTTTTTGAAGCCCTCTTTTTTCCTAGAAGTTGATTTATCAGAGATTTAT
TTTCTTATAGCCAATGAATTTCCCTGTTTGCCAAAGCAAGTGGCTTGGATCCTGGCCACAAGCAAGGTTTTCATGTATCCAGAGTTACTTCCAGTGTGTT
CCCTGAAGGCAAAGAATCCCCAGGATAAGATCCTCTTCACCAAGGCTGAGGACAAGTAAGTGTTTACTCTGGGGGATCAAATATCCCAAGGAGAAGATGT
AGTTCCTTTGAGGAGTTTAGGGGAAGTAAGACTTGTATAATAAGACATGGACACAAAAGGAAAAGCAGTATAGATGAGCAGAGTCCTCTAGAACGTGCTT
GTTCTAGCAGTGCCAAATACTGCTTTTTGGGGGGATGTTACACACATTTTTAAAATGTTTTAGACTGGACATGGCGGCTCCCACCTGTAATCCCAGCACT
TTGAAAGGCCAAGGCAGGAGGTTGGCTTTTCTAATGTTATTATTTATTTAGAGACAGGATCTTACTCTGTCACCCAGGCTGGAGTACAGTGTTGCAATCA
CAGCTCACTGCAGCCTTGAACTCCTGGGATCAAGTGATCCTCCTGCCTCAGCCTCCATGGAGTAGCTGGGACCACAAGCGTGTGCCACCATACATGGCTG
ATTTTTTTTGTACAGGTGAGGGTATCTCTGTGTTGCCCAGGCTGCTCTTGAATTCCTGACCTCAAATGATCCTCCCACTCCTGGCCTCCCAAAGTGCTGG
GACTATAGGCATAAGCCACCACACCCAGCTAGATTATGAACATTTTTATGGCCCTTTGTGTGTATTGCCACACTGTTAACAGCAAATATGTATATATGTA
ACCATGATTATATATGTTATGTTAGAGGGTAGTATTGGTGCCAGTTTAATTTGTCTGACGGGGTACCTATTATTCATTTTATATTTGTTTTATTAGAATC
ATTCTCCTTCCCATGTATTCTCTTTGAACTTCCTTTGTGTTGTTAATATACAGCTCATCATGATCTGACATTTATTGATGATTTATGACTAGTTTCTCTT
GCTCCTACTTAATTGTGAACTATTTGATTCTTATTCATAGTACTTAATCACTACTCACTAAATACCTGAAATTTTCTACTGAGTAGTCACCAACTTGTAG
TAGTCACTACAAGAATTAGTTGTAGAAAAAGTAGATTGGCCAGCCATGGTGGCTCACACCTGTAATGACGACACTTTGGGAGGCCGAGGCAGGAGGATCA
CTTGAGGCCAGAAGTTCAAGATCAGCCTAGGCAACAAAGTGAGAACTGGTCTCTACAAATAATGAAATAAAACATTAGTTAGGCATGGTAGCAAACGTTT
ATAGCCACAGATACTCAGGAGGCTGAAGTGCGGGAATCGATTGAACCCAGGCATTCAAGACTGCAGTGCACTGTAATCATGCCACTGCTCTCCAGCCTGG
ACAACAGAGCAAAACCCTGTCTGAAAAAAATGAAAAAGTAGATTGGGCCACACGCCATGGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCTGAGACT
GGAGAATCGCTTCAGCTTAGGAAGTAGCAGCTGCAGTGGGCTGCGATCACGCCACTGCACTCCAGCCCAGGTGACAGAGTGAGACCTTGTTTTAAGAACA
AGTAAGAAAAAGTAGATTGTAAAATGTGTTAGTCTGGGGAGGCCCTTTAGAAGGAAGGACTGTGAAGTGAGATTTAGTGTTATTGCTCCTTTCTCAGTTT
GTTAGCTTTAGGACTGAAGCATTTTGAAGGGACTGAGTTTCTTAACCCTCTAATCAGCAAGTACCTTCTAACCTGCAAGACTGCCCGCCAACTGACAGTG
AGAATCAAGAACCTCAACATGAACAGAGCTCCTGACAACATCATTAAAGTGAGTGTTTCCTGCATGCACTATCCAGGCACCTCACCAACACATATCTGTT
CTTTTCTCTTGTTATTCTCAAAGAAAAGAAGAACCTTCTTTTATCTAAAGCTAATTTCTCCTACTTATATACTAGATTAATTCCCCTGTTGCCTTTTCAG
GGACATTGATTCATTCATTACGTTCCTCTGGAGTATCTTCATCCTCTTAAAAGATTCCACAAATCCATGTTTCCCTGTAATAATTCTCTTTCTTGAACTT
TCTAGAAATGATAYGCAGTATTCCACTTACATGCTTTGGGTTTTTGTTTTGTTTTGTTTTTTTGGTCAGACATAATCTTGCACTGTCACCCAGGCTGGAG
TGCAGGAGTATAGTGGCATGATCTTGGCTCACTGCAGCTTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAATAGCTGAGATTACAGG
CGTGCCCACCACGCTCAGCTAATTTTTTGTATTTTTAGTAGATACGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTTCTGACCTCAAGTGATCCAC
CAGTTTTGGCTTCCCAGAGGCTAGGATTGCAGGCATAAGCCACCGTGCCCAGCCTATATACTTTTTCTCAATTTTGTGTTTGTATGTATGCATGTATGTG
TGTGTGTGTGTGTGTGTGTGTTTGTGTGTGTCTGTGTCTGTATGTATGTATGTATGTATGTATGTATTGAGATGGAGTTTCGCTCTTGTCGCCCAGGCCC
RGCCTATATACTTTTTCTCAACTCTTTTTACTTATTGATTGATTGATTGAGATGGAGTCTCGCTCTTGACCCCCAGGCTGGAGTGCAATGGTGCGATCTT
GGCTGACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCTTGTAGCTGGGATTACAGGCCCCTGCCACCATGCCCAGCTGATT
TTTGTATTTAGTAGAGTCGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCATCTGCCTCGGCCTCCCTAAGTGCTGGG
ATTACAAATGTGAGCCATTGCCCCCAGCCTTCTTTTTTATTTAGATATTTATTTATGTTTTTTTTTTTTTTTAGAGACAGGTTCTCACTCTGTCATCCTG
GCTGGAGTGCATGGGCACAATCATAGGTCACTGCAACCTCAAATTCCTGGGTGATCCTTCCACTTCAGCCTTCCAAGTAGCTTGGACTACAGGTGCATGC
CACCAAGGCTAGCCGATTATTTTATTTTGTGTGAAGACAGGGTGTCATTTTGTTTCCCAGGCTGGTCTTGAAGTCCTGACCTCAAGCAGTCCTCTTGCCT
CAGCTCGGCCTCCCAGAGTGTTGGGATTACAGGCGTGAGCCATGATGCCCAGCCTTTGGTTTCATTGTGTTTTTGTATTTTTCTTGAGACAAGGTCTTAC
TCTCCTGCCTAGGCTGGAGTACAGTGGTATAGTCATAGCTCACTGCAGCCTTGAACTCCTAGGCTCAAGCATTCTTCCAACGTCAGCCTCCCAAGGAGCT
GGGATTATATGCATTAGCCACTGTGCTTGGCCATTAAATTTATTTATTTATTTATTTTATTTTATTTTTTTGAGACAGAATCTGTCTCTGTCACCCAGGC
TGGAGTGCAGTGGCACAATTTTAGCTCACTGCAACCTCCACCTACCGGGTTCAAGCAATTTTCATGCCTTAGCCTCCTAAGTAGCTGGGACTACAGGCAT
GCGCCACCACACCTGGCTAATTTTTATATTTTTAGTAGAAACATAATTTCACCATGTTGGTCAGTCTGATCTTGAACTCCTGATCTCAGGTGATCTGCCC
ACCTCGGCCTCCCAAAGTGCTGGAATTATAGGCRTGAGCCTCTGTGCCTGGCAAAAAACTTTTTTTTTTTAGGGATGGGGTGTCCCTATATTGCCCAGGC
TGGTCTTCAATTTTTGGCCTTAGGCAATTCTCCTGTCTCAGCCTCTAATTGGTACTGCCTGGTGTATTGGATTTAGGCCTTACTTATTAACCATAAACCA
CGGAAGCCGAAGATTTACCTCTCTCCTCACTCCCTTACTCCCACCACAAACATGCACATTTTCTGCTCTCCAAACTCCTCACTAGTAGTTATGGTAGAAT
TTTGGTTAGATTGTATTCAGGGTTTACATTGTAAGATTTTAAGGACTGTTGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAA
GGCAGGTGGATAACGAGGTCAGGAAATCGAGACCATCCTGGCTAACATGGTGAAACCCCAGCTCTACTAAAAATACAAAAAACTGGCTGGGCGTGGTGGC
GGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTC
CAGTCTTGCCAGAGCAAGACTCCGTCTCAAAAAAAAAAAATAGATTTTAAGGACTGTATAAATGCTCTTCACAGCTCAGCTATGTTACTGTGTTACCTTG
CCTTTCCTGCTGAACATTTTGTTTCCCAGATCATCTTCTTTCAGTGTGTTCAGGTATTCTAGATATTCTGTCACTTTCATCTTGAAGAAATTGCTCCCTG
AGCCCTCTGACATTATTCCACTTTAAGCGTGTTGCTCTCCATGTTGCTGCACTGATGTCTTCTTGGGCTTTTTCTTCACCATCATCCCAGGAATTCCTTT
TGCCTCATACTGTGTTAGATCCTCTTATTTCCTGAATTCCACATCTTTGCTTTTGCATTACTTTTTTTTTTTTTTTTTTTTTTTTTGAGACACAGAGTCT
TGCTCTGTCCCCCAGGCTGGATCTCGGCTCACTGCAACCTGCAACCTTGGTCTTGGTCTTGAACTCCTGACCTCAGGGGATCCACCCACCTCAGCCTCCC
AGAGTGCGGGGATTACAGGCGTRAGACACCACGCCTGGCCTTGTTTTTTGTTTTGTTTTGCTTTTTTTTGAGACCGAGTCTCGCTTTGTTGCCCAGGCTG
GAGTCCAAAGGCGCGATGATCTTGGCTCACTGCAACGTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTATAGGCA
CATGCCACTACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTTTTGATCTCCTGACCTCTTGATCCACCC
GTTTCGGTCTCCCAAAGTGCTGGGATTACAGGCGTGAGTATTACTTCTTTACTTTAGTGGAACACATTCTAGTAGCTTTTTTTTAAAAAAAATTTTTTTC
TGAATTTTAAAAAATTGAGGTGGGGGGGTCTCAGTTTTTTGCCCAGGCTGGTCTCAGACTCCTGGGTTCAAGTGATCCTCCTGCTTCAGCATCCCAAAGT
GCTGRGATTATAGGCATGAGCCACCCTGCATGGCCCCATTCCAGTAGCATCCTGAGGGAGAGTGCTTGGGAAGGGAATTTTCACATTTAAACCATCTCCG
GGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCGGGAAATCGAGACCATCCTGGCTAATGTG
GTGAAACCCCGTCTCTACTAAAAGTACAAAAAAATTAGCCGGGTGTGGTGGCGGGCGTCTGTAGTCCCAGGTACTCTGGAGGCTGAGGCAGGAGAATGGC
GTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCGAGATCTCGCCACTACACTCCAGCCTGGGTGACAGAGCGAGACTCCGTATTAAAAAAAAAAAAAAAAA
AATCTCCATTCATGGTCTTTTGATTGTATCGATGTCAGTTTCCTCGTTTTTGTTTTTGTTTTATTTTTTTTCTTTTTTTGAGACAGAGTCTCACTGTTGC
TCACTGCAGCCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAGCCACCACACCCAGCTAATTTTTGTATTTTTA
GTAGAGATGGGGTTTTGCCATGTTGGCCAGGTGATCTCGAACCCCTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCATAGTGCTGGGATTACAGGCAT
GAGCCACCACATCCTCCATGTCTGGCCAGTTTCCTGGTAGTAATATTGTACTGTGTACCTTGTTTATATGTATAGCTCTTGTTTCTATGTAACATAAAAA
CATTATATTGGGAGAAACTGGTTGAAGGGTACATGGGACCTCTTGGTACTATTTTTTGCAATTTCCTATGAATATAATTATTTCAAAATAAAAGGAAAAA
ATAATACTCTCCTCTGTCACTGTATCTAGAATTCTAGATAGGAAATAATTTTTTTAAGAAGCTTTTAAGGGCCTCACTTCATTTTCTTCTAACTCCTAGT
GTGGTGTTAAGAAATTTCATGCCATTTAACTTTTTTTTTTTTTTTCCGAGACAGGGTCCCACCCTGTTGCCCAGTTTGGAGCGTGGCTAAATCATGGCTC
ACTGGTGTCTCCAACCCGGTGTGCACCACTATGCCCAGCTAATTTTTTTTTTTTTTTTTTTTAARACATGGTCTCGTTATGTTGGCCAGGCTGGTCTCAA
ACTCCTGGCCTCAAGTGCTCGTCCTGTCTTGGCCTCCCAAAGTAATGGGATTATAGGCATGAGCCATGGCCCCATTTAACTCTTGAGTCTTTGTGTAACA
CCTGTTTTTCTCAACCTCTGACAGCATGCAGGATTTTTCCTTTGGCTTCAATATTTTGAAAATGCATGATAATATGCCTTAGTATTTGTCTATTTTTATC
CATGGTTTTTTAAAAAGTACTTTCTTTTTGTTTTTGTTTGTTTGTTTGTTTTGAGACAGAGTCTCGCTCCATTGCCCAGGCTGGAGTGCAATGGCGTGAT
CTTGGCTCACTGGAACCTCTGCCTCCCAGGTTCAAGCAATTGTCCTGTTTCAGCGTCCCGAGGAGCTGGGACTACAGGCGCTCACCACCACACCCTGCTA
ATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTGGTCAGGCTGGTCTCRAACTCCTGACCTCGTGACCCACCCACCTCAGCCTCCCAGAGTGCT
GGGATTACAGGTGTGGGCCACCATGCCTGGCGTATCCATGGTTTTAAGGCACACGTGATAAACCTTATTCTTCTGCAGAAATAATTTTTTTTTTTTTTTT
TGAGATGGAGTCTCACTCTGTTGCCAGGCTGGAGTGCAGTGGCGTGATGTCGGCCCACTGCACTCTCCACCTCCTGGGTTCAAGTGATTCTCGTGCCTCA
GCCTCCCGAGTAGCTGAGATTACAGGCACGCGCCACCACACTTAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTC
TTGATCTCCTGACCTTGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCACGCCTGGCCAGAAGTAATTTGTGTTTAAG
TTTTAGTTTTGTGTCATTTTTCGTGCACACCTTTGTACTTTTGTTGGGGGATGGGGCGGGGTGTCGGGGTTGGAGTCTTGCTCTGTTGCCCAGGCTGGAG
TGCAGTGGTGCAGTCTTGGCTCACTGCAACCTCTTAATTCCTCAGTTCAAGTGATTCTCCTGCCTCAGCCTGCCAAGTAGCTAGGATCACAGGCGTGCAC
CACCACACCCAGCTAATTTTTTTTTGTACTTTATTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCATGAACTCCTGACCTCCAGTGATCCATCCT
CCTCGTTCTCCCAAAGTGCTGGCATTACAGGCATGAGCCACCATGCCCAGCCCTTTGTACATTTTTTAATGTAGGATGCCATTTGTCCACTTGACTCTCC
CACTAGTCTGTAAGCTCCATGAGAGCAGGAATTGCTTCCCTTATGTGTGTGCTTAGCTTTTAGCACAGTGCCTAGGATATAGAAAACATCTTATGTTCAT
CATGTTGGATGAACAGATGCTTATTGTCAGTGGTTTAAGTTCAGTTCTTATCTTCTTTTTTTTTTTTTGAGATGGAGTCTCACCCTGTTACCAACGCTGG
AGTGCAGTGGCATGATCTTGGCTCACTGCAATCTCCACCCTACCACCCCCACTGCCAGGTTCAAGCGATTCTTTTGCCCCAGCCTCCCAAGTAACTGGGA
TTACAGGCACCCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCTCAATCTCAAG
TGATCTGCCCGCCTCAGCCTCACAAAGTGCTGGGTTTACAGATGTGAGCCACCAAGGCCAGCCTATTTACTCTTAAAACTGAACTGCCTCGGTCTTTTTT
TTTTTCCTTCCCTTCTGATGCCCTTCACACCATCATTTGCTTAAAGTCTTTGATGTGTCCATTTTATAGATTACGATGCTGTCTTTGCAGCTGTTGAGCA
GGAACAAATCTTACATAAGATTGCTCTTAGCATCTGCTTCCTTTTCTCTCTGTGACCTAAACTCTCCCCTTCCTGGCAACCAGAATGGAGATCATCAGTT
AGAAAATATTGAATAGGGCTGGGCGCGGTGGCTGACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACC
ATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATCAGCCGGGTGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCCGGAGGCTG
AGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCGGAGATCGCGCCATTGCACTCCATCCTGGGCGACAGAGCAAGACTCCGTCTCAA
AAAGAAAATACTGAATAACTATAAAATCTTTAAATAGAGATTAGTTTAATTTGAAATGTACAAGTATTCAGCATATGCTATTCGTATATGTGTGTTCATG
GATGTTTGTGTATGTGGTCTTGTGTGKGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTCTCTTGATCCACCACCACCCCATTCACCAGCCTGACA
GARGACAGTGTTTCCAGAAGGAATGTAATTCATGCGCATTTTTTTCATGTTAAGTTTTATAAGAAGACCAAACAGCTGCCAGTCCTAGGAAAATGCTGTG
AAGAGATCCAGCCACATCAGTGGAAGCCACCTATAGAGAGAGAAGAACACCGGCTCCCATTCTGGTTAAAGGTACAGCCCTCTTCCTCGAAGTCTGTAGG
AGGCAGAAGGTCACTGAAAGTTCTGAGAGAATATCAAGGRCTTCCTTAATCGTCTAATGCTTTAGTTGTAGAACTAGGACTTCAGGAATCTTCCTGATTC
ACCTTTCTTCCCTTACTTTTCTGCCCTTCTCCGGGTGATTCTACAACATTTTCAAAATAATGGGTAAAATGGTAATTTGCTAAAGGAAATTCAGAGAAGA
GTTTCTAAAGTGTATAATTGGACTGTGGTCTTTGTAGAAATTTCATATGCAGAGTCCCTTGGAAAGATGCCTTGAGCTTGTCTCAGGTCCCTAAACTTAG
AAAGTCCTATTCTTTTYCCCAAATTCTGACATGTGCTGGATCAGAGTGTTCTCATTTCCAATAGGCCAGTCTGCCATCCATCCAGGAAGAACTGCGGCAC
ATGGCTGATGGTGCTAGAGAGGTAGGAAATATGACTGGAACCACTGAGATCAACTCAGATCAARGCCTAGAAAAAGACAACTCAGAGTTGGGGAGTGAAA
CTCGGTACCCACTGCTATTGCCTAAGGGTGTAGTCCTGAAACTGAAGCCAGTTGCCGACCGTTTCCCCAAGAAGGCTTGGAGACAGAAGCGTTCATCAGT
CCTGAARCCCCTCCTTATCCAACCCAGCCCCTCTCTCCAGCCCAGCTTCAACCCTGGGAAAACACCAGCCCAATCAACTCATTCAGAAGCCCCTCCGAGC
AAAATGGTGCTCCGGATTCCTCACCCAATACAGCCAGCCACTGTTTTACAGACAGTTCCAGGTGTCCCTCCACTGGGGGTCAGTGGAGGTGAGAGTTTTG
AGTCTCCTGCAGCACTGCCTGCTATGCCCCCTGAGGCCAGGACAAGCTTCCCTCTGTCTGAGTCCCAGACTTTGCTCTCTTCTGCCCCTGTGCCCAAGGT
AATGATGCCCTCCCCTGCCTCTTCCATGTTTCGAAAGCCATATGTGAGACGGAGACCCTCAAAAAGAAGGGGAGCCAGGGCCTTTCGCTGTATCAAACCT
GCCCCTGTTATCCACCCTGCATCTGTTATCTTCACTGTTCCTGCTACCACTGTGAAGATTGTGAGCCTTGGCGGTGGCTGTAACATGATCCAGCCTGTCA
ATGCGGCTGTGGCCCAGAGTCCCCAGACTATTCCCATCGCYACCCTCTTGGTTAACCCTACTTCCTTCCCCTGTCCATTGAACCAGCCCCTTGTGGCCTC
CTCTGTCTCACCCTTAATTGTTTCTGGCAATTCTGTGAATCTTCCTATACCATCCACCCCTGAAGATAAGGCCCACRTGAATGTGGACATTGCTTGTGCT
GTGGCTGATGGGGAAAATGCCTTTCAGGGCCTAGAACCCAAATTAGAGCCCCAGGAACTATCTCCTCTCTCTGCTACTGTTTTCCCSAAAGTGGAACATA
GCCCAGGGCCTCCACCAGTCGATAAACAGTGCCAAGAAGGATTGTCAGAGAACAGTGCCTATCGCTGGACCGTTGTGAAAACAGAGGAGGGAAGGCAAGC
TCTGGAGCCGCTCCCTCAGGGCATCCAGGAGTCTCTAAACAACTCTTCCCCTGGGGATTTAGAGGAAGTTGTCAAGATGGAACCTSAAGATGCTACAGAG
GAAATCAGTGGATTTCTTTGAGCTAGGAGAATAAGAGTCTGGAGACTGGGAGCCTTCACTTCGGCCTCCGATTGGTGGCGCATAGGGTGTAACCAATAGG
AAACCCCTAAAGGGTACTTAAACCCCAGATTTTGCAACTGGGGCTCTTGAGCAGCTTGCTTTAGCCTGCTCCCMCTCTGTGGAATATACTTTTGCTTCAA
TAAATCTGTGCTTTTATTGCTTMATTGTTTCATTGATTTGTGCAATTTGTTCAGTTCTTCATTCAACATTCCAAGAACCTGGACAAATTGTAGTCAAGAC
CCTCCGACAGTAACATATTTTGGCAAGCCAGCCTGGAGGTAAGTCCAAATTGCGGTGCAGGGGAAGGGGGCGGTTATTTTTCTTTTCTTCTTTCCTTTTT
CTTTCCCTGTCAAGCCTTCATTTTTCGGCATGGGCTGGAGCTATATCTCTGTGCAGGGCTCCACTCCATACAGGGGAACCTTTTCCTCTCTCTCTTTCCC
TTTTCCAACTTGAGACTCAGCAGATAGCATGTGAACATGGAGGCAACTGCAGGTCTCTGGCCAGGGCCACTCTCCAGTGAGACTGAAGGGTATCCACGTG
GAAGCACCTGATCACCATCACCCAGTTTGGGTGACAGACCTGAGTTCTCTTTTTTTGAGTCTTTCAGCTGCTGTTTTCTAACAGCTCTTTGGTAATTGAG
GGCAACTGGACAGGGCCACTCTCCAGTGTTACCTGAAGGCCAAGGAATGAATCGGGATAGCTTCCCTGCCCGGAAGGGAGAAAGACTCTTTTATCTTTCC
TGGTTATAGTCTCTGAGTTCTACACGTGACACCATTGGCASTGGTAGCTCATTCAGGGCGAATTCACACTCAGGCCTCTTAAACCCTCCTTTCTTAGGCC
AAATTCTCTTACAGAGTTAGCCAGTGAGGGCAAAAGATAGTATCTCCTAGATATTTTGACCCTTCTACTGGATCCATTTGGCTGGCTGATGACCTTTGGG
ACCCACAAGCTTTAGAATACATTCTACATCTTGGACCTCCACTGAGGGGACCTTGTTTCCTTTGTCTTCACCATATTATTTCAATAGAATGGCCTGCCCT
TACACAGGACCCATTGCCATGGTGGTGGATTTTTAAACATTCCCTCTCTTGCCCAGGGCCAGAATGGAATAGCCAGCCCTATTTTATCTTTCATGCCTAA
AATCAACCTTTTTCCCTGAAATTACCCATAATCCACATGACAAAAGAAAYCTACCAGCCTCCTGTTCCTCTTATTAGGGTTCACAGCTATCACTCTAGTG
GAACAGGAAGTGTGGGAAACCATGGCCTTACCAAATTATAAGGATGCTAGAGGCCAGGTGCTGTGGCCCACACCTGTAATCCCAGCACTTTGGGAGGCTG
AGGCGGATAGATCACCTGAGGTCAGGAGTTCGAGACCTGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAATGAGCCTGGCATGGTGA
TGCAGACCTGCAACCCTAGCTATTTGGGAGGCTGAAATAGGAGAATTACTTGAACCCAGGAGGTGGAGGTTTCAGTGAGCCAAGATCATGTCCACTGCTC
TCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCCAAAAAAAAAAAAAAAAAAAAAAGATGCTAGAAGTCAAGGCCTTCATCTAGGAATAAAAGGAGTTA
ATAGTGGGTCACCAGTGGTGGAGAGAACCTTGCCAAAGTAGTGCTGGCACCCATCAAAGGTCACATGTCACACTAAGATGGGACCCTAAAGGGGGACACC
CTTAGGGACCCCAAACAAGCAGCCAGGAACAATGGGCAGTCAATGGAATTCTTAATTATTAACACCATCTGCAATTAGACCTATTTTGCAAAATGCAGGG
TAAATTGCCAGAAATCCCATATGTGCAGGTCTTCATGGGTGTATATCAAAACCCAACCATGTGCAAAACTCCAGGACCTGTCCCATAATCAAAGGTCCTA
AGGCAGAACCAGATATTGTAGATGATCCTATTTTGACAAGGGTCACCTGTCTCGGGAAATGGCAACCTCTCCCGTATAGCCTGTTGCCAAGTGTTCCTGA
GGCTCAAACCCAAGAGCAAAAACCAGGAACCCTGCCAAGTTCCCCTCACAGTGGAACACCTTATTCAACTCCCTTTCAGCCCTACCACTCCTGAGGGAAG
TAGCAGGAGCCAAGGGGCCAGTTAGAGTGCAGGCCTGCTTCTCCATAACACAATGTAAAGAAAAGCTTGGAAGCTATTCTGAGAACCCCAGGAAATTTGC
AGATGGGTTCCAAACTTTGACTTTAGCCTTTGGTTTCTCATGGAGGGATGTTCAATTAATTCTAGCAACGTGTTGTACCCCCTGGGAACGAATCTTTGAG
GCCGCCTGCCAGGAAGTCCACGATTTATTTGCCTGAAGCCTTTAGGGCAATCACCAGGGCCCAGCCCCAGCCCCTACTACTGATCCTAATTGACACCCCT
GCGGGAATGAACAACTGGGCCAAATTTCTTGAGGCTCTCCTTGGAGGAATGAAAAAGACAATATCTTAAGGTAGCAAATTATGATCAGGGAGGTTATACA
AGGCAAGGAGGAAAATCCAGCCATGTTTTATGGTAGGCTGGGGAAAGGAAATATGCCAATCTGGACACTTCCTCTCCAGAAGGCAAAATATTAATGCAAG
GAGGAAAATCCAGCCATCTTTTATGGTAGGCTGGGGAAAGGAAATATACCAATCTGGACGCTTCCTCTCCAGAGGCAAAATATTAATGGCACAGCATTTC
ATTAGCCAATCCGCTCCAGCCATTAGGCTCCAAAAGCTATAGATGATGCCACAGACTAATCAAAATCAACTTCTTGATACTGCCTTATGGTGTATAACAA
TCATGACCTGGAGGAAGGAAAAGGAATAAAGAAGAAGCAAGCCAAAATTACGATAGCCATCATTGGAGATGCCCTGAATGCCCAAAGAGTGCCCAAGGGA
ATCCCAATGGGCCATAAGGATAATGCCAGCAAAGGCTCTTGCTTCAAATGCAAGAAAAATGGGAATTGGGCAAAGGACTGTAGTAAGCCCCCACTGGGAC
CCTGTTGGCAGTACAAAGGCACCAGTCACAACCCCTGGTGCTGGAGAATTAACTGCCCCCTGTTACACAGAGGAGGTCAGTCAAAACTCTTAACAGTGCA
AAAGGAGAAATTGATGAAAACTGATGGGGCCCAGGGCCTTCCTCACCACCCCTGCCCAGGAACATCATTCATTACTATTGAGGAGCCCTGGGTAACTCTG
GACATGTTGGGCACCCAAATTTGGTTTCTTTTTGATACAGGGACAAATTACTTTGCCCTTACTACTTACGTAGGAAAAGCTTCCTCCCCATCCACAAGCG
TTATGGGAATGGAAGGAGAGCCACAAAAAAGATTCTTTATTCCTCTTTTGACTTGCCAATTTGAGAAACAAATCTTCCAACAAGAATTTCTAGTAGTAAC
AAGCTGCCCAGTCCCCTTGTTGGGAGGGGATATTATAGTTAAAATAGGGACACTGCTACGATTTAGGCACCACCCAGCAAAATTGCTAATAGTAATGCAG
ACAATGTCCCAGACCACATTAATAAATAGGTCAACGCACTAGCATGGTATACTGGGAAACTGGGTAGGGCTAAAACAGAAATACACTTGGACAGTGCCCC
TCCCTCAGGGCTTTCAGGATAACCATGTTTGTTTGTTTTTTGCACAAGCCTTGGGGATCTAAGGGATCTAAAATTGGAAAATGGAGTGTACTCTAGTATG
TACATGACCTTCTTGTGTGTAGCCCAACCCAGGGGGTGACTAAAATACTATAAGAACCTTAAATTTMTCTGCAGATGGGATATAAAGTGTCCAAAAGGAA
GGCTCAGATTGCCCACCAAYGGGTTCAATATTTAAGGTGTATCTTAACACCCAGAGCCCAGCAAATATCCCCAGAATGAGTGCAAGCCGTATGTGGTTTG
GAGCTCCTCCCACACCAAGCAACAGCTTCGTCGTTTTCTGGGGATGGCTGGGTTTTGCAGAAGATGGGTACCAAATTTTGGGCTCATAGCAAAACCCCTT
TATGAAAGCAACAAGGGAGCCAGAAAATGAGCCAATTGAATGGACTTTGGAAATGAGAGAAGGCTTTATCAAGTTAAAACAGGCTCTCAGCCAGCCTCCC
GCTCTTAGCATCCTAGACCTCACTAAGCCCTTGTATGTAGCAGAAGGGAAAGGCATAGCCATGGGAGTGCCAACTGCCTACTTCTCAAAGAAATTGGACA
CGGTGGCCAAGCTGCTTGCCGTCGATGGCAGACACTGCTATTTTAGTGGAAGAAGCCGCTAAAATCACCCTGGGTCAGCCACTGGAAGTATTAACCCCAC
ATCAAGTCAATCCTAGAAATAAAAGGACACAACTGTATGATGGGGGAAAGGTTAACCAAATACCAGGCTATGCTCCTGGAAAATCTAGATGTGACCCTTA
AAACCTGTAACACTGTGAATCCAGYTTGATTGCTGCCCACAGGCCCAATAATTAATCATTCCTGCGAGCAAGTTATTGCACATACATATGTTAGCCAGCC
TGATTTAAAAGGTTGACCTCTCCCAGATTCAGAGGATGACTGGTTCACAGACCTCAGCAGCTTTATATCAAACGGGAACACTGGGCCAGATATACAACAG
TAAATTACAATACAATTATTGAGGTCCAACCCCTGCCCCCAGGTATGTCAGCACAAAAAGCTGAGATCATTGCTCTTACTCGAGTTCTGACATTAGGAAA
AGGGAAAAAGCTTAACATCTATACAGATTCCAAACATGCATTTCTCGTGTTTCATGCTCATGCTGCAATTTGAAAAGAAAGAGAAAGAGGACTACTAACT
AGTAAATCTTCCACCATAAAGCATGGGTCTGAAATTCTTCAACTGTTGGAAGCAATACACTTGCCAAAAGCATAGCCATAATTCATTGTAGGGGGCATCA
AAAGAACCTAACCCCTGTAACACAAGGGCACAGAAAGGCTGATAAGCCAAAGCCGCACTGCTCAGGGTGTAATCCCGACAAATTCTAGCACTGCTTCCTT
TCTATGATTCCCCAATAGAACCTGAATATCCCTGTGATGTATTCAGGGATATTCGAAGTAAAGGAGGAAGATGGACACAAACAAGGATCCTGGTGGTATA
TAGTATCAAAAGTGTATCTCCCTCAAACAGCCCAATGGAGAATTATAAAAATCCTGCATGACTCTTTCCATATRTGAGGAGATGCCACTCTTGCCATGAT
AAACAGGCTCTTCATTGGGCCTGACTTAACTTCCGTGGTTAAGCAGGTCTGTCAAACCTGTTCACTGTGAGCATTCAACAACCCCAGGAACAAAATGCCT
CCTCTAATAGAACCAGTCCGGAGAAGGGGCACTTCCCCAGGGGAAGACTGGCAATTGGATTTTACCCATATGCCAGCTTGTAGGGGATACAAGTTTTTGC
TAGTACTAATAGACACATTTACTGGCTTACCCTAGCAGAACAAAGAAGGCTAATGAAGTTATAAAAGTTCTCCTAAGATAAATAATCCCCAGTTTGGGTT
ACCCCAAAGCCTCCAAGGTGAGAGCAGTATGTCTTTCGTCTCCCAAATAACTAAAAGGGTTGCTAAGGCTCTCGGAATCTAATACTATTTACATTCAGCA
TGGAGACCTCAATCCTCTGGGAAAGTAGAAAGGGCTAATCAACCTCTAAAATCGGCATTAGCTAAGCTATGTCAGGAAACTTCAGAAACTTGGGTCAGCT
TGCTGCCCATAGTCCTTTTAAGGATCCATAATTCCCCTAGAGCAAAAATTAATATGAGCCCATTTAAAATGTTATACAGAAGTCTTTTTTTTTTTTTTTT
GAGACAGAGTCTCACTCTGTTGTCCAGACTGGAGTGCAGTGGCACAGTCTTGGCTTACTGCAACCTCCACCTCCCAGGTTCAAGTAATTCTCCTGCCTCA
GCCTCCCAAGTAGCTGGCATTACAGGTGTGAGCCACCACACCCCGCTAATTTTTGTATTTTTAGTATAGATGGGGTTTCACTATGTTGGCCAGGCTGGTC
TTGAACTCATGACCTCAAGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTATAAGAATGAGCCACTGCACCTGGCTGGGAAGGCCATTTTTAAT
GGATGATCTAATTACTGATCCAGAAATAGCCAGTTTAGTAAAATACGTAATTAACCGGAGACAATTTCAGCAGGCATTTCAAAAGTTTGGAACTCAAAGG
TTCTCTGCATTGGGAACTAACCAGCAACCCAAGATCAGGCCAGGAGAGAAAAGTATTTGTTAAAACACAGAAAGAGGGGTCACCTGCTCAACAACTCCAA
CCCAAATGGAAGGGACTTTTTCAGTGGTGTTGGCCACGCCTTCTGTAGTCAAAGTACCAGGATTAGAAGTTGGATACGTCTTTCTAGGGTCAAGCCTGCA
ATACCTGAAGCCCCAGACCTGTAACTTGAAGCTTCCGTCAGCCACTATACCTGTGAACCTGTGGAAGACCTGAAGTACCTGTTTTAAAGACAGTCAAAAG
ATAAGTGAATGCCTACCAACTCTCCTTGGTGTCTATGCTGCATAGTTACTGTAGGTTTGATAATAGTAGCAGTTTTTATATTTTTATAATTTATTGCCTT
CTTCCAAATGGATGGAATCATTTCCTTTGTAATAATTAAGCAAAATGTTTTACTTCATTTTTGTAACATTATTCCTGAGAGGATAGGTATACACCCCCTG
AAGTTCCCATTCAAAAGAACAAAATAACAGATAAGTATTTTTAGTCCCATAATGGTTAGCCCTGGCCTGTGTATACTGGGACCAGGCATACTGGGAATCA
GCTTAATTTTACAGCAGGGTTTTATTTTACTTCTCTGGCAATTAATGGATTCTGGGTATTTATTAAGACTTTAAAATTTAACCCAAAGACTGTTAAATAC
CACCAGTCCAGCTCTGGCAAAGGACTGTTGGCTTTGTTCATCTCCAACATCACCAAAACACACTGCCATCGCAACCCAGGCTTATCTTGGGCCCTTGAAA
AAATGTCCTACCACCTCAACTACAAGGGAGGGACTCCCTTCAAATTAATGGATCTGCATGACTTCTATGACTTCAAAATTACATAAACAACAAAAGTTAC
AATGTCAGGATGAGCAGTAAACCTTCTCCAGTCCTACCAAAGTAACATTTCTGGGGTTGCATCTCCTCAAAAACCTATTTGGGGCCCAAGAACGCACAAA
GAACTAAAATCCCAGGTGCCACTTTGTATTAAAAAATTCTAGTCAAACCCTGGGAACCTTGAGTCATCAGAGTAACTACACCCTAGGGATTAACCTCTCA
CATGATATGTAAGCTATGCAGTTACCTAGGCTGCATCATTTAGAAAACCTGTATGGTTTGCATGAAACTATTCCTAATTAAGGGCACTTTAAAGGACACA
CAGTCTAAGTACTGTCAAGGTAGGACCACTAGCTGTGTTCACATTTTCACTTGGGAAGACTGTAGTAATCCTAAGACAGCTAGTTGCCTTTTGGTTCTCC
AGTATGAAAATACCTCTGGGTGGTTGCTGGTGGACACTAAGCATAACTACCTTCACCAGGAAAACTTAACTGCTAGGACAACTGAGGATACTTCCCAAGG
TCCTTTCCAGCCTTTAACTGGAGCCACCTTAGCAGGGACCTTAACCACTGGGGAAAGAAAAACAAAAAGCTAACCCATATGTTCACCATAGAGAATGATT
TTTATCTTGAAAAACACGGAGTCTTTTTCCTGTGTGGAACTAGTTCCTAGTTATGTTTACCAATCAAATGGACTGAAACCTCTACACTTCTTTATTTAGC
CCCTGAAATCTGTATAGCTCTCAATAACCAGTCTCTCATACCTTTAACTGCACCCGCCAGGCACAAATGAACCATCAAACTCATACTCCTTTTGGTAGGA
CTAGGAATAACCGCAGAAGTAGGAACAGGAGTTAGCAGGCTTGCAACATTCCTATCCTATTACCAACGTTTGTCCAAGGATCTTTCAGAGAGCTTGGAAG
ACATTGCCCAAAGTACTGTCACCTTACAAAATCAGATAGACTCCTTGGCAACGGTCGTTTTACAAAATAATAGGAGACTGGATTTCCTAGCTGCTGAAAA
AGGTGGCATATGTCTTTTCCTAAAAGAAGAATGCTGGGGTTTTTTGTTGTTGTTGTTTTGTTTTGTTTTGAGATGGAGTCTCACTCTGTCATCCAGGCTG
GAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCTCCTCCCGGATTTATGCCATTCTCCCGCCTCAGCCTCCCAAGTAGCTGGGACTACAGACGCCT
GGCACCACGCCCGGCTAATTTTTTTTTTTTTTTTTTTTTTTTCAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCCAGCTCCTGACCTCTTG
ATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCCACCGAAGAATGCTGTTTTTATGTCAACCAATCAGGATTAGCA
AGAGATGCCGCCTGAAAATTAGCTGATGGGGCCTCTAAAATATAACAACAGCTGTCCGAGTCATGGGGCTTCTGGTCAAGGGCACTAAGTTGGGCTTCAT
GTCTACTTCCCTTAGCTGGCACATTATTAACAATTATGCTCGCATTGACCATGTTGGACCATGTTTGTTAAATCTTTTAACCAAATGTATTTTTTCTCAC
CTAGAGGCCATTAAGCTTCAAATGATCATGCAGCAGGGCTTCTATCCAGGGAATGATGCCAGCCCCGGCCAACAAGAAGTCATCCTGTCTCCACTAGACA
GAGCAGGGTGAGAGTTCCATGGTCCCCAAGTAGATAGGGACAGTGCCCCAAACAGCATGAAGCAGTTACAGAAGAAAGACTGTCAGTCCCTCTACCTCCT
GTAAATATTTGATATTAAGTCTCTCAAGGGGGAATGAGGCAGGAGAATAGGATCTGGAGACAGGGAGCCTTCACTTTAGCCTCTGATTGGTCGCAGGCGA
AATCTTCATTTGCATAGGGTGTAATTTCACTTCAGCCTCCAATTGGTCATGGGCTACGTCTTCATTTACAAAGGGTGTAACCAATAGGAAACCTCTAAAG
GGTACTCAAACCCAAGAAGATTTTGCAACTGGGGTGCTTGAGCCTCTTGCCCAAGCCTGCTTCTGCTCTGTGGAATGTACTTTCACTTCAATAAATCTGT
GCTTTCGTTGCTTCATTCATTTGTTGCTTTGCTTGTGCATTTTGTTCCATTCTCTGTTCAATACGCCAAGAACCTGGACAACTTGTAGTCAAGACCGTCC
ACTGGTAACACCCTGAGCACGGTATTTGTGATGACATCAAGGAAGAACACACTGTGGAATTAGACACTGGCTCCCCAAGTGAGGAGTTGAGCAGTGCTAG
AGAGGTAAAGAAACAGACAATCTTACAGAAGGAAGAAGAGAGGATTCAGCCAACTAAAACCCCTTCATCTTCTCAAGAACCCCCAATGAAGGAAACTTGG
GGGGAGATGAGGGCAAAGGATCACCAAATAATGCTTCATCCTCCATGAATCCTGAAGTGAGGCTTAGTAGCCCCCAGGGAAGCCCAAAGACTCATCCAGT
GTTGATGGTCAGTCAGTGGGGACCCCAGTTGGACCAGAAACTGGAGGAGAGAAAGATAGGCCAGAAAAAGAGGAAGAAGATGACTTTGATGACCTCACCC
AAAATGAGGAAGATGAAATGTCATCAGCTTCTGAGGAATCTGTGCTTTCTGTCCCAGAACTCCAGGTGAGAGCTAGAGAATACTCTCAAGTATTTTGTGG
ACTCAGTAATATGTTTAACTTATTGATATGCCACCTGCTTGCTTGCTGCACTATGGATAGTCCTAAAATCATTTGTATTTGATTTGTGAATGCATTATGG
GACATGATTGTGGAGTTGAGGTGAAATGAGATGGAAAGGATGAAATTTTACTTATTATATTAAACTCGTTTACACATTAAATTGAATCACCTGACCATAC
TTTAAATGCCTTAAAAAATAGTATATAGGGCCAGGTGCGGTGGCTCATGCCTGTAATCTCAGGCATGGGAGGCCGAGGCAGGCAGATCACCTGAGGTTGG
GAGTTCGAGACCAGCCTGACCAACAAGGAGAAATCCTGTCTCTACCAAAAATACAAAATTAGCCGAGCATAGTGGTGCATGCCTGTAATCCCAGCTACTC
GGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCACGCCATTGCACTCCAGCCYGGGCAACAAGAGCAAAAC
TCCATCTCAAAAAAAAAAAAAAAAATAGTAAATAGTCCAGGCTTGGTCGCTCACACCTGTAGTTCCAGCACTTTAGAAGGCCGAGGTGGGCGGATCACAA
AACGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGACTCTACTAAAAATACAAAAATTAGCCCGGCGTGGTAGCATGCTCCTATAA
TTTCAGCCATTCAGGGGGCTGAGGCATGAAAATCCCTCGAACCCAGGAGGTGGAGTTTGCAGTGAGCCAAGATTGTGCCGCTGCACTCCAGCTTGGGTGA
TGGAGTGAGACGCTGTTGCAAGCCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAGAGGCACATAAATATGGGCTAAGGCAAAGGAAAACTAATTTCAG
GGTAAAGAAGAAGTTTTCAAAAGGCATCTTTTCCACTTTCCTGCTGTCAGGCCCAATGTCAGCTATCACTGGGATTTCATAACTCAGGGAATTCCGCTCT
GACAGCTGTAGTGGGTTCCCCATTGTTTAACTTCAGATTATCCTGATACAGCTCTGTGCTGTTCTGCAATTCATGAGCCACTAGGAGCCGTAAGTACTCT
TTGGAGGGTTTTACAGGAAACAATGGAGAAACTGACTTGGCTGGCATCTGAAAGGCGCATGAGTCAGGAGGGTGAGTCTGAAGAAGAGAATTCTCAGGAG
GAGAACTCTGAGCCGGAAGAAGAGGAAGAAGAAGAAGCAGAAGGAATGGAAAGCCTGGAGAAAGAGGATGAAATGACGGATGAAGCAGTTGGAGACTCTG
CTGAGAAGCCTCCTTCTACTTTTGCYTCACCTGAGACTGCTCCAGAAGTGGAGACCAGCAGAACTCCACCAGGTGAGCTAGGCAAACCTATACTGAAGGA
CCATTCTCACTTAACCTCATTGTCTAGAGAACAGTGTGCAGGGTGGGTAGCTTATAAACCAGGTGGAGGATTTCCAGAGGAAAACTTCTGGATTTCTTCT
GCAACCCCACTCCCCCAAAACACATTTAATGTGGTATCTTTGTGGAGAACAGATACGCAGATATTTTGAAATGGAGTTTTTGCTCTTTTTTTTTTTTTTT
TTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGTCATTCTCC
TGCCTCAGCCTCTCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAAAGACGGGGTTTCACCGTGGTCTC
AATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGCGCCTGGCCAGAGTTTTTGCTCTTGTTGCCC
AGACTAGTGTGCAGTGTCATCGCAATCTCACCTCAATGCAACCTCCACCTCCAGGGTTCAAGCAATTCTCCTGCGTCAGCCTCCTGAGAAGCTGGGATTA
CAGGCACACGCCACCACGCCCGGCTAAATTTTTTTTTGTATTTTTAGTAGAGACGAGGTTTCATCATGTTGGCTAGGCTGGTCTCGAACTCCTGACGTCA
GGTGATCCAACCATCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAACCACAGCTGCTGGCCTACTCAAAAAATTTTTAAATTGATTCTCATCCATT
GCTAGATTTGTATTAGCTTCGTTCACTTTTATTTATTTATTTATTTATTTAATTTATTTATTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAG
TGCAATGGCACGATCTCGGCTCACTGCAACCTCCATCTCCCGGACTTAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGAGCCCGCC
ACCACGCTCAGTTAATTTTTGTTTTGTTTTGTTTTGAGACGGAGTTTCACTCTCGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCTCTGCAAC
CTCCACCTCCCAGCTTCAATAGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGAGAGCTACCACGCCCGGCTAATTTTTGTATTTCTTT
AGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTACTGACCTCAGATAATCTGTCCCCCTCGGCCTCCCAAAGTGCTGGGATTACAGGC
ATGAGCCACTGCACCCAGCCTCATTCACTTTCTTGTACTGGTTCTTAGCTCACCTGTCATGTGTGGGGCTAAGACCTATGTTTATTTCAGAAAACACTGC
TTGTTCCTCATCA


SNP Information

Context             (SEQ ID NO:25783):
ATGTGTAGAGCTAGTTTTGCTCATGACGTTTTGAGGTATTTTGAGCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGC
Y
GGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACC
Celera SNP ID:            hCV27065120
SNP Position Genomic:     20844
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25784):
CACTATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCACCTC
R
GCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTATTTTGAGATTTTAAATTTGAAATTTGGCCAGGTATGGTGGCTCATGCCTGT
Celera SNP ID:            hCV27065121
SNP Position Genomic:     21048
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25785):
AATCTTAACAGTAGTTTATTGTGAAAGACTTTATGATTATTTTTACCTGTTTTTATCCTGTAGTAGGAAGGTCAGCTTCTCATTTAGATTCTGAAGGCTA
Y
TGGTATTAATTGTCTGGAATTGTCTTAGATCTTCCTTGTGTCGTGTTTTCCCAGAAAGAGCTGGGAACCTTTGCTCAAAGCTCCATCGCCCTTCACCATC
Celera SNP ID:            hCV27065122
SNP Position Genomic:     22189
SNP Source:               dbSNP
Population(Allele,Count): SC_12_AA(C,2|T,18)   total(C,2|T,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25786):
CTTTATGATTATTTTTACCTGTTTTTATCCTGTAGTAGGAAGGTCAGCTTCTCATTTAGATTCTGAAGGCTATTGGTATTAATTGTCTGGAATTGTCTTA
R
ATCTTCCTTGTGTCGTGTTTTCCCAGAAAGAGCTGGGAACCTTTGCTCAAAGCTCCATCGCCCTTCACCATCAGTACAACCCCAAGTTTCAGACCCTGTT
Celera SNP ID:            hCV27065123
SNP Position Genomic:     22217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25787):
GATTATTTTTACCTGTTTTTATCCTGTAGTAGGAAGGTCAGCTTCTCATTTAGATTCTGAAGGCTATTGGTATTAATTGTCTGGAATTGTCTTAGATCTT
Y
CTTGTGTCGTGTTTTCCCAGAAAGAGCTGGGAACCTTTGCTCAAAGCTCCATCGCCCTTCACCATCAGTACAACCCCAAGTTTCAGACCCTGTTCCAACC
Celera SNP ID:            hCV27065124
SNP Position Genomic:     22223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25788):
TACCTGTTTTTATCCTGTAGTAGGAAGGTCAGCTTCTCATTTAGATTCTGAAGGCTATTGGTATTAATTGTCTGGAATTGTCTTAGATCTTCCTTGTGTC
S
TGTTTTCCCAGAAAGAGCTGGGAACCTTTGCTCAAAGCTCCATCGCCCTTCACCATCAGTACAACCCCAAGTTTCAGACCCTGTTCCAACCCTGTAACTT
Celera SNP ID:            hCV27065125
SNP Position Genomic:     22232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25789):
CCTAGGAATGGAGGACACAGGACATTTGTAATTTCTTCCTTCTCTCTTTTATCCTCCCTTTGTACTCATTATCCAAGTTCTAGAATTACATGATAATCTC
Y
GGGCCTGGGTAAGGCATGGAGGCAGTGGACAGTATAGGAATATGGGAGGTAGAGATCTGAGGCTCAGTGCTAAGAATTGGACTACAGCAATATGAGGGGT
Celera SNP ID:            hCV27065126
SNP Position Genomic:     22605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25790):
AGGCAGTGGACAGTATAGGAATATGGGAGGTAGAGATCTGAGGCTCAGTGCTAAGAATTGGACTACAGCAATATGAGGGGTAAGTATTAGGAATCAGATC
R
AGATAAACTGGGGCCTGGTAAAGATGAAAGTCAGGTGGTAAAGTTCGGTCATGTTTAGCTTTTTATTCTCTTCATTAAGATCAACTAACTTTATTTACCA
Celera SNP ID:            hCV27065127
SNP Position Genomic:     22725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25791):
TATGTGACAGGTATTACTAGGTACTTTTTAAGTGTTTGTTTTACTTTGTGAATAAAGTGTTACACGTAAGAAAGAGTAAGAGAGGCCGGGCGCCGTGGCT
Y
ACGCCTGTAATCCAACACTTTAGGAGGCCGAGGCTGTCGGATGACAAGGTCAGGAGATCAAGACCATCCTGTCTACAGTGAAACCCCGTCTCTACTAAAA
Celera SNP ID:            hCV27065128
SNP Position Genomic:     24023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25792):
AGTAGAAACATAATTTCACCATGTTGGTCAGTCTGATCTTGAACTCCTGATCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGAATTATAGGC
R
TGAGCCTCTGTGCCTGGCAAAAAACTTTTTTTTTTTAGGGATGGGGTGTCCCTATATTGCCCAGGCTGGTCTTCAATTTTTGGCCTTAGGCAATTCTCCT
Celera SNP ID:            hCV27065129
SNP Position Genomic:     28234
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25793):
CAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGGGCACCACCACGGGTAATTTTTTTTGTATTTTTAGTAGAGACAGGGTTTTGC
S
ATGTTGGCCAGGCTGGTCTCGAATTCCTGACTTCAAGTGATCTGCCCACCTCTACCTCCCAAAGTACTGGGATTACAGCCATGAGCCACTGCGCCTGGCC
Celera SNP ID:            hCV9103552
SNP Position Genomic:     20330
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25794):
TTCTAAATAGCTTTGTGTGTCAGAGATCAGAACGCTCATTTTACATGATATCAAGAACCAGAATGCTAGATAGCTAGAATGGTTGTTAACTTCCTAGATA
W
CCATTGTAGAGGAACACATAAGGTAAAACAAATGAATAAAAATTAAAAAAAAATGAGATAGCCAAAGATTTGAAGCTCTTTACCCATTAACATGATAATC
Celera SNP ID:            hCV697440
SNP Position Genomic:     12686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25795):
TGTTGCCCAGTTTGGAGCGTGGCTAAATCATGGCTCACTGGTGTCTCCAACCCGGTGTGCACCACTATGCCCAGCTAATTTTTTTTTTTTTTTTTTTTAA
R
ACATGGTCTCGTTATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGCTCGTCCTGTCTTGGCCTCCCAAAGTAATGGGATTATAGGCATGAGCC
Celera SNP ID:            hCV11182043
SNP Position Genomic:     30965
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25796):
CCCCAGATTTTGCAACTGGGGCTCTTGAGCAGCTTGCTTTAGCCTGCTCCCACTCTGTGGAATATACTTTTGCTTCAATAAATCTGTGCTTTTATTGCTT
M
ATTGTTTCATTGATTTGTGCAATTTGTTCAGTTCTTCATTCAACATTCCAAGAACCTGGACAAATTGTAGTCAAGACCCTCCGACAGTAACATATTTTGG
Celera SNP ID:            hCV11182048
SNP Position Genomic:     35523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25797):
TTTTAAAAAATTGAGGTGGGGGGGTCTCAGTTTTTTGCCCAGGCTGGTCTCAGACTCCTGGGTTCAAGTGATCCTCCTGCTTCAGCATCCCAAAGTGCTG
R
GATTATAGGCATGAGCCACCCTGCATGGCCCCATTCCAGTAGCATCCTGAGGGAGAGTGCTTGGGAAGGGAATTTTCACATTTAAACCATCTCCGGGGCC
Celera SNP ID:            hCV11258934
SNP Position Genomic:     29805
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25798):
GACACAAACAAGGATCCTGGTGGTATATAGTATCAAAAGTGTATCTCCCTCAAACAGCCCAATGGAGAATTATAAAAATCCTGCATGACTCTTTCCATAT
R
TGAGGAGATGCCACTCTTGCCATGATAAACAGGCTCTTCATTGGGCCTGACTTAACTTCCGTGGTTAAGCAGGTCTGTCAAACCTGTTCACTGTGAGCAT
Celera SNP ID:            hCV27926582
SNP Position Genomic:     40574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25799):
GTCCCGAGGAGCTGGGACTACAGGCGCTCACCACCACACCCTGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTGGTCAGGCTGGTCTC
R
AACTCCTGACCTCGTGACCCACCCACCTCAGCCTCCCAGAGTGCTGGGATTACAGGTGTGGGCCACCATGCCTGGCGTATCCATGGTTTTAAGGCACACG
Celera SNP ID:            hCV27065130
SNP Position Genomic:     31455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25800):
TCTTTAAATAGAGATTAGTTTAATTTGAAATGTACAAGTATTCAGCATATGCTATTCGTATATGTGTGTTCATGGATGTTTGTGTATGTGGTCTTGTGTG
K
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTCTCTTGATCCACCACCACCCCATTCACCAGCCTGACAGAAGACAGTGTTTCCAGAAGGAATGTA
Celera SNP ID:            hCV27065131
SNP Position Genomic:     33427
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,3)   total(G,1|-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25801):
GAGAAGAACACCGGCTCCCATTCTGGTTAAAGGTACAGCCCTCTTCCTCGAAGTCTGTAGGAGGCAGAAGGTCACTGAAAGTTCTGAGAGAATATCAAGG
R
CTTCCTTAATCGTCTAATGCTTTAGTTGTAGAACTAGGACTTCAGGAATCTTCCTGATTCACCTTTCTTCCCTTACTTTTCTGCCCTTCTCCGGGTGATT
Celera SNP ID:            hCV27065132
SNP Position Genomic:     33740
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25802):
CTGCTACCACTGTGAAGATTGTGAGCCTTGGCGGTGGCTGTAACATGATCCAGCCTGTCAATGCGGCTGTGGCCCAGAGTCCCCAGACTATTCCCATCGC
Y
ACCCTCTTGGTTAACCCTACTTCCTTCCCCTGTCCATTGAACCAGCCCCTTGTGGCCTCCTCTGTCTCACCCTTAATTGTTTCTGGCAATTCTGTGAATC
Celera SNP ID:            hCV27065134
SNP Position Genomic:     34841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:25803):
ATTGAACCAGCCCCTTGTGGCCTCCTCTGTCTCACCCTTAATTGTTTCTGGCAATTCTGTGAATCTTCCTATACCATCCACCCCTGAAGATAAGGCCCAC
R
TGAATGTGGACATTGCTTGTGCTGTGGCTGATGGGGAAAATGCCTTTCAGGGCCTAGAACCCAAATTAGAGCCCCAGGAACTATCTCCTCTCTCTGCTAC
Celera SNP ID:            hCV27065135
SNP Position Genomic:     34977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25804):
GGAGGGAAGGCAAGCTCTGGAGCCGCTCCCTCAGGGCATCCAGGAGTCTCTAAACAACTCTTCCCCTGGGGATTTAGAGGAAGTTGTCAAGATGGAACCT
S
AAGATGCTACAGAGGAAATCAGTGGATTTCTTTGAGCTAGGAGAATAAGAGTCTGGAGACTGGGAGCCTTCACTTCGGCCTCCGATTGGTGGCGCATAGG
Celera SNP ID:            hCV9632123
SNP Position Genomic:     35286
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25805):
ACATTGCTTGTGCTGTGGCTGATGGGGAAAATGCCTTTCAGGGCCTAGAACCCAAATTAGAGCCCCAGGAACTATCTCCTCTCTCTGCTACTGTTTTCCC
S
AAAGTGGAACATAGCCCAGGGCCTCCACCAGTCGATAAACAGTGCCAAGAAGGATTGTCAGAGAACAGTGCCTATCGCTGGACCGTTGTGAAAACAGAGG
Celera SNP ID:            hCV27065136
SNP Position Genomic:     35087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:25806):
AAGAAGAAGAAGCAGAAGGAATGGAAAGCCTGGAGAAAGAGGATGAAATGACGGATGAAGCAGTTGGAGACTCTGCTGAGAAGCCTCCTTCTACTTTTGC
Y
TCACCTGAGACTGCTCCAGAAGTGGAGACCAGCAGAACTCCACCAGGTGAGCTAGGCAAACCTATACTGAAGGACCATTCTCACTTAACCTCATTGTCTA
Celera SNP ID:            hCV27065137
SNP Position Genomic:     46526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:25807):
GGTGGCGCATAGGGTGTAACCAATAGGAAACCCCTAAAGGGTACTTAAACCCCAGATTTTGCAACTGGGGCTCTTGAGCAGCTTGCTTTAGCCTGCTCCC
M
CTCTGTGGAATATACTTTTGCTTCAATAAATCTGTGCTTTTATTGCTTCATTGTTTCATTGATTTGTGCAATTTGTTCAGTTCTTCATTCAACATTCCAA
Celera SNP ID:            hCV9632128
SNP Position Genomic:     35474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:25808):
TGCCCAGGGCCAGAATGGAATAGCCAGCCCTATTTTATCTTTCATGCCTAAAATCAACCTTTTTCCCTGAAATTACCCATAATCCACATGACAAAAGAAA
Y
CTACCAGCCTCCTGTTCCTCTTATTAGGGTTCACAGCTATCACTCTAGTGGAACAGGAAGTGTGGGAAACCATGGCCTTACCAAATTATAAGGATGCTAG
Celera SNP ID:            hCV697415
SNP Position Genomic:     36550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25809):
CAAGGAATGAATCGGGATAGCTTCCCTGCCCGGAAGGGAGAAAGACTCTTTTATCTTTCCTGGTTATAGTCTCTGAGTTCTACACGTGACACCATTGGCA
S
TGGTAGCTCATTCAGGGCGAATTCACACTCAGGCCTCTTAAACCCTCCTTTCTTAGGCCAAATTCTCTTACAGAGTTAGCCAGTGAGGGCAAAAGATAGT
Celera SNP ID:            hCV697416
SNP Position Genomic:     36141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25810):
TTTCCGAGACAGGGTCCCACCCTGTTGCCCAGTTTGGAGCGTGGCTAAATCATGGCTCACTGGTGTCTCCAACCCGGTGTGCACCACTATGCCCAGCTAA
T
TTTTTTTTTTTTTTTTTTTAAGACATGGTCTCGTTATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGCTCGTCCTGTCTTGGCCTCCCAAAGT
Celera SNP ID:            hCV1582722
SNP Position Genomic:     30943
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25811):
TCTAAAATTGGAAAATGGAGTGTACTCTAGTATGTACATGACCTTCTTGTGTGTAGCCCAACCCAGGGGGTGACTAAAATACTATAAGAACCTTAAATTT
M
TCTGCAGATGGGATATAAAGTGTCCAAAAGGAAGGCTCAGATTGCCCACCAATGGGTTCAATATTTAAGGTGTATCTTAACACCCAGAGCCCAGCAAATA
Celera SNP ID:            hCV1582723
SNP Position Genomic:     39167
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,3)      total(A,3|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25812):
TAGCCCAACCCAGGGGGTGACTAAAATACTATAAGAACCTTAAATTTCTCTGCAGATGGGATATAAAGTGTCCAAAAGGAAGGCTCAGATTGCCCACCAA
Y
GGGTTCAATATTTAAGGTGTATCTTAACACCCAGAGCCCAGCAAATATCCCCAGAATGAGTGCAAGCCGTATGTGGTTTGGAGCTCCTCCCACACCAAGC
Celera SNP ID:            hCV1582724
SNP Position Genomic:     39220
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25813):
GGCCAGTCTGCCATCCATCCAGGAAGAACTGCGGCACATGGCTGATGGTGCTAGAGAGGTAGGAAATATGACTGGAACCACTGAGATCAACTCAGATCAA
R
GCCTAGAAAAAGACAACTCAGAGTTGGGGAGTGAAACTCGGTACCCACTGCTATTGCCTAAGGGTGTAGTCCTGAAACTGAAGCCAGTTGCCGACCGTTT
Celera SNP ID:            hCV25995781
SNP Position Genomic:     34164
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,36)   total(A,2|G,72)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:25814):
GGACACAACTGTATGATGGGGGAAAGGTTAACCAAATACCAGGCTATGCTCCTGGAAAATCTAGATGTGACCCTTAAAACCTGTAACACTGTGAATCCAG
Y
TTGATTGCTGCCCACAGGCCCAATAATTAATCATTCCTGCGAGCAAGTTATTGCACATACATATGTTAGCCAGCCTGATTTAAAAGGTTGACCTCTCCCA
Celera SNP ID:            hCV1582725
SNP Position Genomic:     39825
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25815):
CCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCACGCCATTGCACTCCAGCC
Y
GGGCAACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAATAGTAAATAGTCCAGGCTTGGTCGCTCACACCTGTAGTTCCAGCACTTTAGAAGGCC
Celera SNP ID:            hCV1582726
SNP Position Genomic:     45682
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:25816):
GAGGGCCTGCGCTGGAGCCGGCTTGACAGGGTCTGAGGGGGAGTGGAGAACTGGGCGAGGAGGTTCCCGTGGGTGAGCGCGTACGGGATGGCTGGCTCGC
R
GGACGGCCGAAGGTGGTGGTTGGTGGGAGCAGCCAGCGACGAGCCCGTAGACACTCGTACGCGTGCGGGCTGACGTGCGCGCTACATGGCCGGAGTCGGG
Celera SNP ID:            hCV697454
SNP Position Genomic:     6426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25817):
TTCATTACGTTCCTCTGGAGTATCTTCATCCTCTTAAAAGATTCCACAAATCCATGTTTCCCTGTAATAATTCTCTTTCTTGAACTTTCTAGAAATGATA
Y
GCAGTATTCCACTTACATGCTTTGGGTTTTTGTTTTGTTTTGTTTTTTTGGTCAGACATAATCTTGCACTGTCACCCAGGCTGGAGTGCAGGAGTATAGT
Celera SNP ID:            hCV25996691
SNP Position Genomic:     26614
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,24)   total(C,2|T,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:25818):
GTCCCATGGAGGAGGAGGCGAGCCGCAGCGCCGCGGCGACGAACCCAGGGAGGTAGGTTGTCATGGGACTCGGCCGGCCACCCTGGCAATTCCAGTCAAA
Y
GGCAAGCCAGACTCGCTTTGCCGGTCCCTTCCTCTCCTGCCCCTGCAGCCGCCAGGAATGGAACAGTCCCGCGGTGGGGACTGTGGGAGGCGCACGCGCG
Celera SNP ID:            hCV697455
SNP Position Genomic:     6095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25819):
CTAGGAATGGAGGACACAGGACATTTGTAATTTCTTCCTTCTCTCTTTTATCCTCCCTTTGTACTCATTATCCAAGTTCTAGAATTACATGATAATCTCC
R
GGCCTGGGTAAGGCATGGAGGCAGTGGACAGTATAGGAATATGGGAGGTAGAGATCTGAGGCTCAGTGCTAAGAATTGGACTACAGCAATATGAGGGGTA
Celera SNP ID:            hCV25990487
SNP Position Genomic:     22606
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,34)   total(A,2|G,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:25820):
ATTGGACTGTGGTCTTTGTAGAAATTTCATATGCAGAGTCCCTTGGAAAGATGCCTTGAGCTTGTCTCAGGTCCCTAAACTTAGAAAGTCCTATTCTTTT
Y
CCCAAATTCTGACATGTGCTGGATCAGAGTGTTCTCATTTCCAATAGGCCAGTCTGCCATCCATCCAGGAAGAACTGCGGCACATGGCTGATGGTGCTAG
Celera SNP ID:            hCV1463635
SNP Position Genomic:     34017
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,24)   caucasian(C,9|T,21)   total(C,13|T,45)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;JBIC-allele(T,406|C,1097)   total(C,1097|T,406)
SNP Type:                 INTRON


Context             (SEQ ID NO:25821):
GGTGGTGGTTGGTGGGAGCAGCCAGCGACGAGCCCGTAGACACTCGTACGCGTGCGGGCTGACGTGCGCGCTACATGGCCGGAGTCGGGCGAAGCGGGGG
R
CCGTGGGGAAGAACGCGAGGAGGGAGGAGTGGGAGGTTGGGGGTGTCGCTAGGCGCCCTTAGCTCCCTCCCTCTGGAGGAGCTGCCGCGGCCACTCTGCT
Celera SNP ID:            hCV11341786
SNP Position Genomic:     6538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25822):
TGTCGCTAGGCGCCCTTAGCTCCCTCCCTCTGGAGGAGCTGCCGCGGCCACTCTGCTGCCGCCGCTGCCGCCGCCATTTTGGGTTCGCTTTGCGAGGGGA
R
ACGATCCCAGTGTCGGTTGCGGGATCCGCCTCCTCTCAGTTTGCCCCTTTAGCCCTCCACCTTTCCCTTCTCCTCTCTCGCATTTCCGCCAGTCGGCTTA
Celera SNP ID:            hCV15910573
SNP Position Genomic:     6682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25823):
ACCCACTGCTATTGCCTAAGGGTGTAGTCCTGAAACTGAAGCCAGTTGCCGACCGTTTCCCCAAGAAGGCTTGGAGACAGAAGCGTTCATCAGTCCTGAA
R
CCCCTCCTTATCCAACCCAGCCCCTCTCTCCAGCCCAGCTTCAACCCTGGGAAAACACCAGCCCAATCAACTCATTCAGAAGCCCCTCCGAGCAAAATGG
Celera SNP ID:            hCV697420
SNP Position Genomic:     34307
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,10)   caucasian(A,36)   total(A,60|G,10)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,18)   total(A,2|G,18)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   SG_12_AA(A,11|G,12)   total(G,12|A,11) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:25824):
TGTTTGTGTATGTGGTCTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTCTCTTGATCCACCACCACCCCATTCACCAGCCTGACAGA
R
GACAGTGTTTCCAGAAGGAATGTAATTCATGCGCATTTTTTTCATGTTAAGTTTTATAAGAAGACCAAACAGCTGCCAGTCCTAGGAAAATGCTGTGAAG
Celera SNP ID:            hCV697421
SNP Position Genomic:     33503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25825):
TGTGTGTGTGTGTGTGTGTGTTTGTGTGTGTCTGTGTCTGTATGTATGTATGTATGTATGTATGTATTGAGATGGAGTTTCGCTCTTGTCGCCCAGGCCC
R
GCCTATATACTTTTTCTCAACTCTTTTTACTTATTGATTGATTGATTGAGATGGAGTCTCGCTCTTGACCCCCAGGCTGGAGTGCAATGGTGCGATCTTG
Celera SNP ID:            hCV697425
SNP Position Genomic:     27101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25826):
AATTAGCTGGGGATGGTGCCGAGTGCCTGTAGTCCCAGCAACTTGGGAGACTGAGGTAGGAGGATCACTTGAGCCTGGGACGTTGAGACTGTAGGGAGCC
R
TGCTTATATATCACTCCAGCCTGGGTGACAGAGTGAGAACCTGTCTCACAAAAACAAAACCATACTTTACCTCATAAAAATTGCCTCAAACTTTTGGACA
Celera SNP ID:            hCV11259461
SNP Position Genomic:     21363
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25827):
GGCTTACCCGCTGGCCGCCTCCTGACAAGCGGGAGGGATCCGCGGTGGACCCAGGGAAGCGGAGGAGCCTGGCGGCCACCCCCTCTTCCTCACTTCCCTG
Y
ACTCTCATCGCTCTCGGCCTCCGACACGGTGAGTAGAACGATTTGGGCCGGCATTCGGGCCTAAGCACTCTCTCAGCGATTGAATCCTGGGCTTTCTGGG
Celera SNP ID:            hCV25990810
SNP Position Genomic:     6877
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,32)   total(C,1|T,67)
SNP Type:                 UTR 5;INTRON;SILENT MUTATION


Context             (SEQ ID NO:25828):
ACATTTGCTAGTATTCTAAAACTTCCTTGGTGATCAACAGGATGTCTTCATCTCTTACTGTATTCAGAGGAGGATGAGGAGTACTTGGTTGTAGGCATTA
Y
TCTGAGACCAAAAGACAAAACAATTTTAAAAGTAATGGTCCTGGTCGGGTGAGGTGACTCATCCCTGTAATCCCAGCACTATGAGAGGCCGAGGCAGGCG
Celera SNP ID:            hCV11259462
SNP Position Genomic:     21619
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;SC_12_TT(C,5|T,15)   total(C,5|T,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:25829):
CGGTGAGTAGAACGATTTGGGCCGGCATTCGGGCCTAAGCACTCTCTCAGCGATTGAATCCTGGGCTTTCTGGGAGCCACTGTCATCTCCCGGACCTGGA
Y
CTCTGGGAGAGCAGTGGTGAAGATGGGGGAGGGGAGAGCAGGGAGGGGGATCCTGAGCCTACCGGGAAGTCCCTCCAGGCGGGGTGAAGGGGTGTCCCTG
Celera SNP ID:            hCV27065111
SNP Position Genomic:     7004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:25830):
GTAGAACGATTTGGGCCGGCATTCGGGCCTAAGCACTCTCTCAGCGATTGAATCCTGGGCTTTCTGGGAGCCACTGTCATCTCCCGGACCTGGACCTCTG
R
GAGAGCAGTGGTGAAGATGGGGGAGGGGAGAGCAGGGAGGGGGATCCTGAGCCTACCGGGAAGTCCCTCCAGGCGGGGTGAAGGGGTGTCCCTGACAGGC
Celera SNP ID:            hCV27065112
SNP Position Genomic:     7010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:25831):
CGTTGAACGGTATGTGGGAACGACAGGATGATCTCAGTGTTGTACGTTTAATAAATGTCACTGGTTAGTTTGTACATGGAAAGAGATGTTTTTGGTCTAG
M
AGACAGATGGTCTGTTGGTGTGTAGCGGCTGTGTTGGTGTGTGTATGTGAGGATGGCAAGTGTTTCCGTAAGAGTTTGCCTTTATTTGTGTAAGTGTAAT
Celera SNP ID:            hCV27065113
SNP Position Genomic:     7414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25832):
ACTGGTTGGCTTGTATTTGGGGGAGACCGATTGTGTCAGATATGTATGTGGAACGTAGCTGTCCTTGCCGAGTCTGACCTGTATGAAATGCATATCCATG
R
CTATATTATTTTGGATTTATGGAGGAAGCAGAGCATTTCTGACACTTAAGGTTGTATGCGTGAGGGAGAAGGCTTTCACAGCTTAACTTGTACCAGAGCA
Celera SNP ID:            hCV27065114
SNP Position Genomic:     8211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25833):
TTTGTTTTTGAGAGAGAGTTTCGCTCTCCTCGCCCAGGCTGGAGTACAATGGCACAATCTTGCCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTC
Y
CTTTCCTCAGCTTCCCAAATAGCTGGGATTACAGGCGCGTGCCAACACGCCCTGCTGATTTTTGTATTTTTAGTTGAGACAGGGTTTCCCCACGTTGGCC
Celera SNP ID:            hCV27065115
SNP Position Genomic:     10819
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25834):
CACTGTAGCCTCTGCCACCCGGATTCAAGTGATTCTCCTGCCTCAATGTCCTGAGCAGCTGGGTTTACAGGCACGCACCACTACACCTGGCTAATTTTTG
W
ATTGTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGTAGCCAAGCTGTTCTCATACTCCTGACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGC
Celera SNP ID:            hCV27065116
SNP Position Genomic:     11476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25835):
AATGTCCTGAGCAGCTGGGTTTACAGGCACGCACCACTACACCTGGCTAATTTTTGTATTGTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGTAGCCA
R
GCTGTTCTCATACTCCTGACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCTAGCCAAACCCATCTC
Celera SNP ID:            hCV27065117
SNP Position Genomic:     11520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25836):
GCCAGCTTCTGTTACTGATGTAAGGATGCAGAGTCCTGTCAGGAGTTAGGTGTCAAGTGAAGTCTCCTTGTTATGGGGCAGTGCAGCTGTAGGCCAAGCT
R
TATCTGTTTGGGAAGGGAGAAAAAACAGTAGCTGGCATCCATATCCACTTCTCCGGGTGAGTGGTGCTGGAGAGGTATGTAGGACTCAATGTGGCCAGCC
Celera SNP ID:            hCV27065118
SNP Position Genomic:     15761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25837):
CTTCTGTTACTGATGTAAGGATGCAGAGTCCTGTCAGGAGTTAGGTGTCAAGTGAAGTCTCCTTGTTATGGGGCAGTGCAGCTGTAGGCCAAGCTGTATC
Y
GTTTGGGAAGGGAGAAAAAACAGTAGCTGGCATCCATATCCACTTCTCCGGGTGAGTGGTGCTGGAGAGGTATGTAGGACTCAATGTGGCCAGCCACACA
Celera SNP ID:            hCV27065119
SNP Position Genomic:     15766
SNP Source:               dbSNP
Population(Allele,Count): SC_12_CA(T,9|C,9)   total(C,9|T,9)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25838):
GCGTGAGGGAGAAGGCTTTCACAGCTTAACTTGTACCAGAGCAGCTGCATGGGTGCTGACAGCTTAACTTGAAATCTGTGGGAGGAAGGATCCTTTTTCA
Y
TCATTCAACAAATATAACCATTCAATGAATGGTCCATGCCTTGAGGTGAGGATCATCAAGGTGTCTCTGTAAATAGCCTGGATGCAATCTGAGGGGAGTT
Celera SNP ID:            hCV762300
SNP Position Genomic:     8369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25839):
CTCGGCTCACTGCAACCTGCAACCTTGGTCTTGGTCTTGAACTCCTGACCTCAGGGGATCCACCCACCTCAGCCTCCCAGAGTGCGGGGATTACAGGCGT
R
AGACACCACGCCTGGCCTTGTTTTTTGTTTTGTTTTGCTTTTTTTTGAGACCGAGTCTCGCTTTGTTGCCCAGGCTGGAGTCCAAAGGCGCGATGATCTT
Celera SNP ID:            hCV1463643
SNP Position Genomic:     29323
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25840):
TGGTCATATTAATATTGAATTATACCAAGGCCTAACTCTGAGGCTTTGGTATAATCTAAAATTAGCAGCTTTGTAAATGTCAGAGATAGTTACCTTACTA
Y
GTATTAAAACCGTAGTATCTTCACATCAGTTAGGAGCTTGAGAAGTCATCATGTTCATGTCCTGTGGCTCAGGGAAGACAGCACATAAGGACCCTAATGG
Celera SNP ID:            hCV762305
SNP Position Genomic:     18541
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,11)   caucasian(C,40)   total(C,63|T,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25841):
ATGGGGTGTAATACAGAATCATTTGATGCATGCTAACTACTTTGGGAAAAGATTTGTGTAAGGCTGGGAGTTTGACTGTTGGCTAAAGTGAAAAGGGGGG
R
TTAGTAGGGAATGAAAATTGTTCAGGCTCTTTGCTCATCATTGCAAAGAATTGGATGTGTTGTGGACCTAGGAAAACACTCAAATTCAGTCATCCCCGTT
Celera SNP ID:            hCV15967893
SNP Position Genomic:     18120
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,23|A,1274)   total(G,23|A,1274) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25842):
TTCTCAGTAAAGATTGTATAGACAGTCCCACGGTCTTCAGGTTTTTACTCTGTGCTACCCAAACCTACAGTAAATACTATAAAAGAAAACTTATTCAAAC
R
TAATCTTTATCTGCAAAAACTATTGAAAAACGTTACCATTTAACTATTGCTGTAATATAGGGGGTTCCTTGAAATATGATAACCTGCTTGTTATAGCTAC
Celera SNP ID:            hCV15910584
SNP Position Genomic:     17333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25843):
AGTCACCTAGGCATTAGTGGAGCAAACCCTGAAGCACCTGCAGTAAGGAGTCTGAAACATACGTGCTGACCTTTTTGCCTAAAGTTGGCACTTGTGTTAC
R
GCATCCAGAAAGTAGAGGCTTTAATTTTTTCCTCATTTTGTGGTGGATTTGCATCTGCACTTTATTCTGTTGTAGCAGCATATAATCATTAGGTCGATGG
Celera SNP ID:            hCV11341799
SNP Position Genomic:     16054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25844):
TGTCCTTGCCGAGTCTGACCTGTATGAAATGCATATCCATGGCTATATTATTTTGGATTTATGGAGGAAGCAGAGCATTTCTGACACTTAAGGTTGTATG
Y
GTGAGGGAGAAGGCTTTCACAGCTTAACTTGTACCAGAGCAGCTGCATGGGTGCTGACAGCTTAACTTGAAATCTGTGGGAGGAAGGATCCTTTTTCACT
Celera SNP ID:            hCV16172862
SNP Position Genomic:     8270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25845):
AGCAATATGAGGGGTAAGTATTAGGAATCAGATCAAGATAAACTGGGGCCTGGTAAAGATGAAAGTCAGGTGGTAAAGTTCGGTCATGTTTAGCTTTTTA
Y
TCTCTTCATTAAGATCAACTAACTTTATTTACCATAATGATTGTAGCATAGGTGATATCTCCATTCTGAATGAAATGTTGACTTGCAAGTTAGGCGTAAA
Celera SNP ID:            hCV697430
SNP Position Genomic:     22791
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,20)   caucasian(T,40)   total(C,10|T,60)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25846):
AGTGCTAAGAATTGGACTACAGCAATATGAGGGGTAAGTATTAGGAATCAGATCAAGATAAACTGGGGCCTGGTAAAGATGAAAGTCAGGTGGTAAAGTT
Y
GGTCATGTTTAGCTTTTTATTCTCTTCATTAAGATCAACTAACTTTATTTACCATAATGATTGTAGCATAGGTGATATCTCCATTCTGAATGAAATGTTG
Celera SNP ID:            hCV697431
SNP Position Genomic:     22771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25847):
AGGCATGGAGGCAGTGGACAGTATAGGAATATGGGAGGTAGAGATCTGAGGCTCAGTGCTAAGAATTGGACTACAGCAATATGAGGGGTAAGTATTAGGA
R
TCAGATCAAGATAAACTGGGGCCTGGTAAAGATGAAAGTCAGGTGGTAAAGTTCGGTCATGTTTAGCTTTTTATTCTCTTCATTAAGATCAACTAACTTT
Celera SNP ID:            hCV697433
SNP Position Genomic:     22717
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,11)   caucasian(A,40)   total(A,61|G,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 97
Celera Gene:                 hCG1997137 - 147000095772290
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VSLS(7048336..7061552)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12257):
CATTTAACACACACTGCTCCTCTGTCATTAGGGATCGGGTGCTTTTTGCTGACCTAGAGAAACCCCATGCCTGAAACCTACTCATCTGCTCTCAGGAGAG
GTAGTAATTGTCACTGCTCATTGATAAACACTCCCTGTCTTCATTGGAGCAGGCCCAGGGGTTGTTGGGTTTAACTCCATCCCAAATTCCAGAGATGAGC
CAGGTTGATGTAAGCTAGTCAGGGGATCTCCCTCCACCTGTCTCTTCCCTGTACCTACAAGCATGCACAAACAGGGCACAGCACTTCCCTGGTCAAAGGG
CTTGGTTCGATTGAGGATAGAGCAGTGGATGGCACAGGAGACACCCCCCTCCCTTGCTCTGAATCAGGCAGAGTGTAGATGTGAGGCCTGGGAATGATAA
CAGCCATTTAGTTCCCCCAAGATAAGCCAGACTTGGAACATTGCCACTTGACACCCCCATTACCCAAAGACAACTGGAGATAGCTGAGCTAAAGCTCAAG
CATCGTCATTTGGAGGTTGGTTGGTTCGTTTGTTTGTTTGTTTGTTTTGAGACAGGGTCTCTGTCACCTGGGCTGGAATGCAGTGGCATGATCTCGGCTC
GCTGCAACCTCTGCCTCTCGGTTTCAAGCGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGGCGTGCACCACCATGCCCAGCTAATTTTTGT
ATTTTTAGTAGAGATGGAGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCTGCCTACCTCGGCCTCCAAAAGTGCTGGAATT
ACAGGCATGAGCCACAGTGCCACTGCACTCCAGTCTGGGCGATAGAGGGAGACTTTGTCTTAAAAAAGGGCCAGGTGCAGTGGCTCACTTCTGTAATCCC
AGCACTTTGGGAGGCCGAGGCGGGCAGATCATCTGAGGTCAGGAGTTCGAGACCAACCTGGCCAACATTGTGAAACCCCATCTCTACTAAAAATACAAAA
ATTATCCAGGTGTAGTAGCTCACGCCTGTATTCCTAGCAACTCGGGAGGCTGAGTCATGAGAATCGCTTGAACCTGGGAGGCAGAGAATGCAGTGAGCCG
AGATCACGCCATTGTACTCCAGCCTGGATGACAGAGCAAGACTCTGTCTCCAAAAAAAAAAAAAAAAAGAAAGAAAAAGGAAAAGAAAACCATTGCCCTC
AGGTCACATCTGGCCTACTACCTATTTTTGTACAGCATGTGATGGTAAATCTCATGAACATAAAAGACACACAGGCACACGTTACAAAATAGTACATACT
ACATGATTCCATTTATATAAGGTGCAAAAATGATCTATAGTGTTGGGGATCAGGATACAGGCTACCTTTGGGGAGATGGGGAATAGTGTCTGAGACAGGA
CACAAAGGGATGTTTGTTTGTTTGTTTGTTTGTTTTTGAGATGGAGTCTTGCTCTGTAACCCAGGCTGGAGTGCAGTGGTGCCATCTTGACTCACTGCAA
TCTCCATCTCCCAAATTCAAGCGATTCTACTGCCTCAGACTCCCGAGTAGCTGGGATTACAAGCGTGCACCACCACGCCTGACTAATTTTTGTATTTTAG
TAGAGACGGGGTTTCACCATGTTTATCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTTGCCCTCCCAAAGAGCTGGGATTACAGGCAT
GAGCCACGGCACCCAGCCAAATAGTATTTTTATATACCTTTTTATTAAAATATATTATACGTAGCTGTGAAGTGCATTAATGTGAAGTGCATAGTTCAAT
AAAGCTTTGCATAGGAATACATCCAGGAAAGCACCACCCAGATTAAGATATAGAACTTTTTTTTTTTTTTTTTTCAGACGGAGTTTCACTCTTGTTGCCC
AGGCTCGAGTGCAATGGCACAATCTTGGCTCACCGCAACTTCCACCTCCTGGGTTCAGGCGATTCTCTTGCCTCAGCCTCCGGAATAGCTGGGATTACAG
GCATGTGCCACCACGAACAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTTTAACTCCTGACCTCAGGTGATCC
GCCCACCTTGGCTTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGAGCCTGGCAAGATATAGAACATTTCCGTATCTAATAAAGACATCACAGATTG
TTCCTCCCTACCCCCACCCTTCCACCCCCTCAAAGGTTAACCATGGATTTGTTTTGCCTCTCTTGATTCTAGCATAAATGAAGTCACACACAGTTACCTT
TTGTGTCTGGCTTATTTTGTTCAGCAGAATGAATGTGAGATTAATTCATGCTGTTGGGTTATCTATTGCTCATTCTTTCTATTGCCATATATTACCTCAT
TATATGAATATAAAATGTGTTTATTCTCCAGGTGATACTCTTGAGCTATTTTGACATTTTGGCTGCTGTGAGTAATGTTGCTGTAAACAATCTTGAACTT
GTCTTTTGATGGACATATGCACGTCCTTCTCTCACCTAAGAAGTGAATTTTCTGGTCATAGGGTGGGCATACTTTTAGATTTAGTAGTTAGCTAATACAG
TGGTAGATGCTGCCAAACTGTTTTCCAAAGTGTATGAACCCACCAGGCATGGTCAGTGATCACGTCTGTAATCCTAGCACTTTGGGAGTACAAGGGGGGA
GGATGGCTTGAGCCCAGGAGTTCGAGACCAGCCTGGACAACATAATGAGACCCTGTCTCTTAAAAAAACAAAAACACTGCTAAATTTGACCGGCTTTAAA
AATATATTTAAAACAAGTTTTTAAAAAGTGCATGAACCAATTTACAATCCCACCAGCAAAATATAAAAGTCATAGTTGCTTCACATTCTTGTCAACACTT
GGTATTGCCATTCTATTTTAGTTCTTCTAGTTATGTAGTAGTGTCTACTTGTGGTTTTAATGACATTTCCCTGTGGTTAAATACATTTCATATTTATTGT
CCCTTTGGATATCATCTTTTTTTGAAATGCCCATTAAAATATTATGCCCATTTTTTAGATGGATTACTTGTCTTTTATTTATTTATTTGTAGTTATTTAT
ATATTCCAATGTAAATTGTTTGGGTATGTGTAATTCAAATATCTTCTGCCAGTGAAGCTGCATCTTCACTCAGTGATGACTTTTTTTTTTTCTTTTTGAA
ACAGAGTTTAGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAGGCGATTCTTCTGCCTCAGC
CTCCTGAATAGCTGGGATTACAGGCATGCACCACCATGGCCTGCTAATTTTGTATTTTTAGTAGTGACGAGGTTTCTCCACGTTGGTCAGACTGATCTCG
AACTCCTGACCTCAGGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGGGCCACCGTGCTCGGCCATTGATGACTTTTAAGAAACA
GCAGTGGCCAGGCACGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACGAGTTCAGGAGATCAAGACCATTCTGGCTAA
CACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATCTAGCCAGGCATGGTGGTGGGTGCCTGTATTCCCAGCTACTCAGGAGGCTGAGGCAGGAGA
ATGGCGTGAACCTGGGAGGCGGAGCTTTTAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCGTCTCAAAAAAAAAAAAG
AAAAGAAAAACAAGAAACAGCAGTTCTGGGGCTGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCATGAGGTCAG
GAGATCAAGTCCAGCCTGGCTAACGTGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTTAGCTAGGTGTGGTGGCACGCAGCAGTGGTCCCAGTGAC
TTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTTCAGCCTGGGTGACAGAGTGAGA
TTGCATCTCAAAAAGAAAGAAAGAGAGAGAGAGAGAGAGAGAGAGGGAGGGAGGGAGGGAGAGAGAGAGAGAGAGAGAGAGAAAGAAAGAAAGAAAGAAA
GAAAGAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAACATACATCACTTCTTGGCTGACTGGGTGCACTGCCTATGAGTTAGC
CCTACTCTACAAGGAGCAGTAAAAAATAGATACATAAAAATACATTTTAAAAAAAGGAAACAGAAGTTCTTCATTTTAATAAAATTTCTTTCTGTTGATA
TTTTAATTTTATGGTTAATACTTTTGTGTCTTCTTTAAATCTTTCTCTACTTCAAGGTCATAAAAATAGACTTGTTTTCTTCTAGGAGATATATTGTTTT
ACCTTGACCATTTTGGCCTATGATTTGTTTTGAATCAATTTTTCTTGGTACATGATGTGAGGTAGGGGTCAATATTTATTTTTTCCATATATATCCAACA
ACTCCAGCACTATTTATTCAAAAGAACATCTAATTGTTTATAGTATATAGAAACAGAAATAATTGGCTAGTCTCAGTGGTTCACATCTATAATCCTAGCT
CTTTGGGAGGCCAAGGTGGGTAGATTACTTGAGTCCAGGAGTTTGAGATCAGCCTGGGCAACACGGGGAAACCCCATCTCTACAAAAAATAAAAAAATTA
GCCAGGACTGGTGGCACCTGCCTATAGTCCCAGTTGCTTGGGAGGCTGAGGTGGGGAGGATAGCTTGAGCTCAGGAGGCTGAGGTTACAGTGAGCCAAGA
TTGTGCCAGTGCACTTTAGCCTGGGTGATAGAGCAAAACTCTGTGTCAAAAGAAAAAAAAAGGGAATACAATTAATTGGCATGGGTGAACAAGGTCAGGT
CCAGGGACTCTGGCACCTTGCTGCTTAAGAAATGTCTTCCCTTAGTGAGGAGTGCCTCTGCCTGGCCGCCAACTATCTGGGAAGTGATGAGGGCCTCTGC
CCGGCCGCCCCACTGTCTGGGATGTGAGGAGTGCCTCTGCCTGGCTGCCGCCCCATCTGGGAAGTGAGGAGCACCTCTGCCCAGCTCCCCACAGTCCGGG
AAGTAAGGAACGCCTCTGCCCAGCCGCCAACTGTCTGGGAAGTGAGGATCGCCTTTGCCTGGCTCCTGCCCCATCTGGGAAGTGAGGAGCGCCTCTGCTT
GGCCGCCAACTGTCTGGGAAGTGAGGAGTGCCTCTGCCTGGCTGCCAACCATCTGGGAAGTGAGGAGTGCCTTTGCCTGGCTGCCCTCCCATCCGGGGAA
TTGAGGAGTGCCTTTGCCTGGCCGCCAACCGTCTGAGAAGTGAGGAGCGCCTCTGCCCGGCCGCCAACCATCTGGGAAGTAAGGAGCGTCTCTGCCCAGC
TGCCAACTGTCTGGGAAGTGAGGAGGGCCTCTGCCTGGCTGCCAACCGTCCAGGAAGTGAGGAGCGCCTCTGCTCGGCTGCCAACCGTCTGGGAAGTGAG
GAGCGCCTTTGCCTGGCTGCTGCCCCATCTGGGAAATGAGGAGCGCCTCCGCTTGGCCGCCAACCGTCCGGGAAGTGAGGAGCGCCTCTGCCGGGCTTCT
GCCCCATCTGGCAAGTGAAGAGCACCACTGCCCGGCCGCCCCACCGTCTGGGAAGTGAGGAGCGCCTCTGCCCGGCCTCTGTGCAACCTTCCAAGTGTGA
AGTGACAGCCTTGTGTGTGATCTTTTCTGTCTTCCCCAAGTTTGCATTTTTGACATTAAAGTTTACTTTTTAATTAAAAAAAGAAATTTAAAAAAAAAGA
GATGTCTTCTCTTTCAGAATGTGCCTTGCACACGTKCTCTTCTGAATGCCTGGCTATTTGGTGAAGTTGCCTGGCCTGCTGATTCCTAGTCTATGAAAGT
GGTGAAACTGCTTTTTCTGCGCGGCCTACAGAGGGGTCCATACCGTGTTGTTCTGGATTCCCGTTGTAACTTAAAGGGAAATTTTCACAATGTCCAGAGC
CCTTGATGTCCTGCAAATGAAGGAGGAGGATGTCCTTAAGTTCCTTGCAGCAGGAACCCACTTAGGTGGCACTAATCTTGACTTCCAGATGGAACAGTAC
ATCTATAAAAGGAAAAGTGATGGCATCTACATCATAAATCTGAAGAGGACCTGGGAGAAGCTTCTGCTGGCAGCTCGTGCCATTGTTGCCATTGAAAACC
CTGCTGATGTCAGTGTTATATCCTCCAGGRATACTGGCCAGAGGGCCAYGCTGAAGTTTGCTGCTGCCACTGGAGMCACTCCAATTGCTGGCCACTTCAC
TCCTGSAACCTTCACTAACCGGATCCAGGCAGCCTTCCGGGAGCCACAGCTTCYTGTGGTTACTGACCCCAGGGCTGACCACCAGCCTCTCACGGAGGTA
TCTTATGTTAACTTACCTACCATTGCGCTGTGTAACACAGATTCTCCTCTGCGCTATGTGGACATTGCCATCCCATGCARCAATAAGGGAGCTCACTCAG
TGGGTTGGATGTGGTGGATGCTGGCTCAGGAAGTTCTGCGCATGCGTGGCACCATTTCCCGTGAACACCCATGGGAGGTCATGCCTGATCTCTGCTTCTA
CAGAGATCCTGAAGAGATTGAAAAAGAAGAGCAGGCTGCTGCTGAAGAGGCAGTGACCAAGGAGGAATTTCAGGGTGAATGGACTGCTCCAGCTCCTGAG
TTCACTGCTACTCAGCCTGAGGTTGCAGACTGGTCTGAAGGTCTGCAGGTGCCCTCTGTGTCTATTCAGTAGTTCCCTACTGAAGACTGGAGYGCTCAGC
CTGCCAYGGAAGACTGGTCTGCAGCTCCCACTGCTCAGGCCACTGAATGGGTAGGAGCAACCACTGAATGGTCTTAAGCTGTTCTTGCATGGGCTCTTAA
GCAACATGGAAAAATGGTTGATGGAAAATAAATAAACATCAGTTTCTAAAAAAAAAAAAGAAAAAAAGAAAGTGGTGAAACTGTTTAGTGAACAGCCTTT
GGCCAAGAAGAAGACTTATGACTGGTATCCAGATTACAATACTTATTTTGTACTCATGGGGACATTCTTATGCCTTGGCCTCTACAGAGATGAGCATCAA
GATTTTAAGGATGAGCCAGGCACGGTGGCTCATGCCTGTAATCCTAGCACTTTTGAAGGCCGAGGTGGGTGGATCACCTGAAGTCAGGAGTTCAAGACCA
GCCTGGCCAACATGGTGAATCCCCGTCTCTACTCAAAATATAAAAATTAGCCGGGCGTGGTGGCAGGAATCTGTAATCCCAGCTACTTGGGAGTCTAAGG
CAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTGGCAGTGAGTCAAGATAGCGCCACAGCACTCCAGCCTGGGTGATAAGAGCAAAACTCCGTCTCAAAA
AAAAAAGAAAGAGAGAGAGACCAATCTGGCCAACAAAAAGACCACATCTCTCAAAAAAAAAAAAAAAATTAAGGATAAACAAATGTGTTTAACACTTTTC
CTGTCTGCCCCAGGAATATTTGCCAGCAGTGCTTGTGGTTGCAGTGTTTACCTCGAGATAACTTTGCCAGGAGATATCTCGTTTTTATTATTATTTCACA
TCGCTCTAGTATATCACATCTTTGGAAACAAAAGGCATCATTCTATTCATAGCATTCTGTTTCTAGTAGTGGTATTTCCATTTACAAAATATAGTAATTC
TCGATCACTGAAAATGTCAAATGCTAGAAAATGTAGCATTCCTACACGTGATGTTAACATCATTCTGGAACAGTTGCTGGCTGAAGATTCATTTGATGAA
TCGGATTTTTCCTAAATAGATGATTCTGATGATTCAGGCAATTCTGATGTTAGCTCTGTTCAGAAATAACTCCAAGAACAGTTTCGATATTTTATTTTCA
TATTGAAAATCAGACAGATTTGCTTCAGCCTCAAAGAGCCTGTTTATRTAAAATTAAATGAGTGCTGGCAGTGAACTGCACTTTTTTTTTAAATGGGAAA
TTAAAGAAGCTCTGTGTAACTTGATTGCCTCTGTAAAGAAAAAAGAAAATAAATAAATAAAAGAAGCTCCATGGAAGGGGGAAACCAAGTAAAGGAAAAG
AGAAAAGAGCAGTGGGCTGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAAATCTCGAGGTCAGGAGATCGAGACCAT
CCTGGCTAAGACGGTGAAACCCCGTCTCTACTAAAAATAAAAAAAAAATTAGCCGGGCATGGTGGCGGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGA
GGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCTAGACTCCCTCTCAAA
AAAAATAAAATAAAATAAAGAGCAGCAAAAACGAAATAGTGTCGGCCCATCAAGAGGGAAAATTTCCTCCTCAGTGACAGAAAAAAGTGTATTTATTAGC
CAGGCGTAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGACGGATCACCTGAGATCAGGAGTTTGAAACCAGCTTGGCCAACATGGT
GAAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCACACTCCTATAATTCCAATTACTCGTGAGCCTGAGGCACAAGAATTACTTG
AACCCAGGAGACAAGTTGCAGTGAGCTGAGATGGCACCATTGCACTCCAGCCTGGGGGACACAGTGAGACTCTGTCTCAAAAAAAAATAATAATCACAAT
CATAAAATAAAAAAGGAAGTGTATTTATTGTCTGTCCAGATACTGGAGGAATGTAATATTCCTAAATGAAGGTTATTTAGGGAACACCGTGTTGAAGTCT
AATCCAGTTAAATTGTAGCTGGTTTCTTGACCACATTCTAACCATGCAAAATTATTTTGCTTTGGCTTTCTGATCCGAGGTTTACCTAATTTTCTAATGA
AATGAGTACACTAAAAAAAAAAAAAAAAAAGAAATATAGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATC
ACGAGGTCAGAAGATCGAGACCATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGCTGGCACTTGCCTGTAG
TCCCAGCTACTCAGGAGGCTAGGGAAGCAGAATGGCTTGAACCCGGGAGGGGGAGATTGCAGTGAGCCAAGATCACGCCACTGAACTCCAGCCTGGGTGA
CAGAGCGAGACTCCATCTCAAATAAATAAATAAATATAATGAATTTTTATTCACTCTTGTATCCATAATCTTACAAATGCATTTATTAATGTTAATAGTT
TATCTATAGACTCTGTAGTTTTGTTTTGTTTTGTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGGGCAGTGGAGCAATCTTGGCTCACTGCA
AACTCCATCTCCAGGGTTCAAGCCATTCTCCTGCCCCAGCCTTTCAAGTAGCTGGAATTACAGGTGCCCACCACCACAACCAGCTAATTTTTGTATTTTT
AGTAGAGACGGGGTTTCACCATGCTGGCCAGGCTGGTCTCGAACTCCTGCCCTCAAGTGATCCACCCCCACTTGGCCTCCCAAAGTGCTGGGATTACAGG
CATGAGCCACAGCACCAGGTGGGAGCTTTTTTTTTTTTTTTTAAAGGTGGCATAGCATTTTATGAAACACTTTTCCTGTATCTATTGAGACAGTGAGAGA
GCCATGTGTTTTTCTCATTTATTCTGTTATCATGATGAATCATCAATGTCAGAATCAAAACTCATAATTTTTTTTTTTTTTCTGAGATGGAGTCTTGCTC
TGTCACCCAGAGCTGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCTCCACCTCCTCGGTTCAAGCAATTCTCCTGCCTCAACCTCCCAAGTAGCTG
GGATTACAGGCACTCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGCTCTCGATTGAACTCCTGA
CCTCGTGATCCACCCGCCTTGGCCTCCCAAAGTACTGGGATTACAGCTGTGAGCCACCATACCCAGCCAAAAATCATAAATTTTTAACTCTTACACAAAT
CTTGCTTTCCTAGAATAAATTCAAGTTTATTGTAATGAGTAAGCTCTTTATATGCAGTTGGAATCTAATATTATTAGAATTAGATTAATATTATAATATA
GTATATGGTTAGAATCTAATGTGTAGTTACTACTACTTTGTTCAGAATTTTTATATTTATGTTCATAAGAGAGATTAGCCTGTAATTCTTTTCTGTTGCT
GTTATGAAGGTTCTGCTGATCTCCCAAAATGAATTGGAAGAATTTGAGTAAGATTAATGTGACTCCTTTCTTAGATGTTTGGAGATTCTCTGGTGAAGTC
ATTAGTGCTTGGAGTTTTCTTTACTGAAAGGTTTTAAATTTTAGATCCAATTTCTTTAACAGATATAGGACTCTTCAGATTCGTATGTTCTACTTCTTTT
TTGCGGGGCTGGGGATGGAGTTTCGCTCTTGTCACCCAGGCTGGAGTGTAGTGGTGCGATCTCGGCTCACTGCAACCTCTCTCCCTTCTGGGTTCAAGTG
ATTCTCCTGTATCAGCCTCCCGAGTAGCTGGGATTACAGGCAACTGCCACTAACCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGTTTCACTTTGTT
GGCCTGGCTGGTCTCAAACTCCTGACCTCAGATGATCCACCCACCTCAGCCTCCCACAGTGCTGGGATTACAGGCATGAGCCACCGCACCCAGCCCATAT
TTCCTACTTCTTGTTTCCGGTGGTGGTGGTGGTGGTGGTGGTTGAGACAGAGTCTCACTCTGTCCCCCAAGCTGGAGTGCAGTGGCACAATCATAGCTCA
CTATAGCCTTGAACTCCTGGGCTCAAGTAGTTAGGACTATAGGTACATATCACCACACTGGCCTAATTTTTTTGTTGCTTTTATAGATGAGGGTCTTGCT
ATGTTGCCCAGGCTGGTCTCAATCTCCTGTCCTGAAATGATCCTCCTGCCTCAACCCCGAAAAGTGTTAGATTAGAGGTATGAGCCACCATGCCCAGCCC
CTTTTCATTCCTGATATTGGCACTTTGTGCCTTTGAAAAATGTTTATGAGGCCGGGCGTGGTGGCTCATTCCTGTAATCCCAGCACTTTGGGAGGCTGAG
GCAAGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCCAGGCATGCTGGC
GGGCGCCTGTAGTCCCAGCTGCTGGGGAGGCAGGAGAATGGCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGATATCGCGCCACTGCACTCCAGCCT
GAGCTACAGAGTGAGATTCCGTCTCAAAAAATATATATATATTTATGGCTGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTG
GGCGGACCACGAGGTCAGGAGATCGAGACCTTCCTGGCTAATACGGTAAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCAGGC
GCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCACGAGAATGGCTTGAACCCGAGAGGCGGAGCTTGCAGTGAGCTGAGATTGTACCACTGCACTCCAGC
CTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAGTTTATTAATCTTAGTTCTTTCAAACAAACCAACTTTTTGCTTTGTTAATTTATACTGGG
CTATGTTTGGTTTTTGTTTCACTAGTTTCTGTTCTTAGATTTATTATTTCCTTCTTCCTTTTTTTTTTTTTTTAAACAGAGTCTCTATCTCCCAGGCTAG
AGTGCAGTGGCAGCATCTCGGCTCACTGAAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCGGCCTCAGCCTCCTGGGTAGCTGGGACTACAGGCATGCA
CCACCACCCCCGGCTAATTTTTGTTTTTGTATTTTTAGTAGAGACGGGGTTTTGCCGTGTTAGCCAGGCATGGTTTTAACATRTTTTGCCATGTTAGCCA
GGCTGGTCTCGAACTTCTGACCTCAGGGGATCCATCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACCGCACCCGGCCCTATGTGTTTTTTATTTTAT
TTTATTTATTTATTTAGTTTTTGAGACAGGGTCTCGCTCTGTGGCCCAGGCTGGAGTGCAGTGCCATGATCTTAGCTCACTGCAACCTCCACCTCTCAGG
TTCAAGCCATTCTCCTGCCTCAGCCTCCCTAGTAGCTTGGATTTCAGGCATGTGCCACCAAGCCCGGCTAATTTTTATATTTTTAGTAGAGACGGGATTT
TGCTATGTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTAATCCACCCACTGCCTCAGCCTCCCAAAGTGCTGGGAATACAAGAGTGAAACTCCGTC
TCAAACAGAACAAAACAAAAATAATAATTAAGGCTGGCCAGGCATGGTGGCTCATGCCTGTATCCCAGCATGCTGGGAGACTGAGGTGGCGTGAGCCACC
ACACCTGCCCCGTATGTGTTATTTTATTTTATGTATTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCACTGTCACCAGGCTGGAGTGCAGTGGAGAGATC
TTGGTTCGCTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGATTTACAGGCACCCGCCACCATGCCTGGCTAA
TTTTTTTTTTGTATTTTTAGTAGAGACAAGATTTCACTATGTTGGCCAAGCTGGTCTTGAACTCCTGACCTTGTGATCAGCCCACTAAAGACTAAAGCTC
AGGGCCAACCAGGCCCAAAATGAAGCAGTTGAGGAGAAGACCAAGGTCATAAGAGAATATCAAGGTCACAAGGTCACAAGAGAGTATTAAGGTCACAAGA
GAGTATTAAGACAAGC


SNP Information

Context             (SEQ ID NO:25848):
CATCATAAATCTGAAGAGGACCTGGGAGAAGCTTCTGCTGGCAGCTCGTGCCATTGTTGCCATTGAAAACCCTGCTGATGTCAGTGTTATATCCTCCAGG
R
ATACTGGCCAGAGGGCCATGCTGAAGTTTGCTGCTGCCACTGGAGCCACTCCAATTGCTGGCCACTTCACTCCTGGAACCTTCACTAACCGGATCCAGGC
Celera SNP ID:            hCV25757288
SNP Position Genomic:     6330
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,5)   caucasian(A,35|G,5)   total(A,64|G,10)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25849):
CTCCTGAGTTCACTGCTACTCAGCCTGAGGTTGCAGACTGGTCTGAAGGTCTGCAGGTGCCCTCTGTGTCTATTCAGTAGTTCCCTACTGAAGACTGGAG
Y
GCTCAGCCTGCCACGGAAGACTGGTCTGCAGCTCCCACTGCTCAGGCCACTGAATGGGTAGGAGCAACCACTGAATGGTCTTAAGCTGTTCTTGCATGGG
Celera SNP ID:            hCV25760361
SNP Position Genomic:     6893
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:25850):
TGGGACTACAGGCATGCACCACCACCCCCGGCTAATTTTTGTTTTTGTATTTTTAGTAGAGACGGGGTTTTGCCGTGTTAGCCAGGCATGGTTTTAACAT
R
TTTTGCCATGTTAGCCAGGCTGGTCTCGAACTTCTGACCTCAGGGGATCCATCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACCGCACCCGGCCCTA
Celera SNP ID:            hCV26292337
SNP Position Genomic:     12283
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:25851):
ACCTGGGAGAAGCTTCTGCTGGCAGCTCGTGCCATTGTTGCCATTGAAAACCCTGCTGATGTCAGTGTTATATCCTCCAGGAATACTGGCCAGAGGGCCA
Y
GCTGAAGTTTGCTGCTGCCACTGGAGCCACTCCAATTGCTGGCCACTTCACTCCTGGAACCTTCACTAACCGGATCCAGGCAGCCTTCCGGGAGCCACAG
Celera SNP ID:            hCV25757243
SNP Position Genomic:     6349
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(C,5|T,35)   total(C,6|T,66)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25852):
CCAAGTTTGCATTTTTGACATTAAAGTTTACTTTTTAATTAAAAAAAGAAATTTAAAAAAAAAGAGATGTCTTCTCTTTCAGAATGTGCCTTGCACACGT
K
CTCTTCTGAATGCCTGGCTATTTGGTGAAGTTGCCTGGCCTGCTGATTCCTAGTCTATGAAAGTGGTGAAACTGCTTTTTCTGCGCGGCCTACAGAGGGG
Celera SNP ID:            hCV11341207
SNP Position Genomic:     5936
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,3)   caucasian(G,29|T,5)   total(G,58|T,8)
SNP Type:                 TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:25853):
AAGTTTGCTGCTGCCACTGGAGCCACTCCAATTGCTGGCCACTTCACTCCTGGAACCTTCACTAACCGGATCCAGGCAGCCTTCCGGGAGCCACAGCTTC
Y
TGTGGTTACTGACCCCAGGGCTGACCACCAGCCTCTCACGGAGGTATCTTATGTTAACTTACCTACCATTGCGCTGTGTAACACAGATTCTCCTCTGCGC
Celera SNP ID:            hCV25756445
SNP Position Genomic:     6454
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,6)   caucasian(C,15|T,3)   total(C,19|T,9)
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:25854):
CGTGCCATTGTTGCCATTGAAAACCCTGCTGATGTCAGTGTTATATCCTCCAGGAATACTGGCCAGAGGGCCATGCTGAAGTTTGCTGCTGCCACTGGAG
M
CACTCCAATTGCTGGCCACTTCACTCCTGGAACCTTCACTAACCGGATCCAGGCAGCCTTCCGGGAGCCACAGCTTCCTGTGGTTACTGACCCCAGGGCT
Celera SNP ID:            hCV25756609
SNP Position Genomic:     6376
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,24)   caucasian(A,5|C,35)   total(A,7|C,59)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25855):
GATGTCAGTGTTATATCCTCCAGGAATACTGGCCAGAGGGCCATGCTGAAGTTTGCTGCTGCCACTGGAGCCACTCCAATTGCTGGCCACTTCACTCCTG
S
AACCTTCACTAACCGGATCCAGGCAGCCTTCCGGGAGCCACAGCTTCCTGTGGTTACTGACCCCAGGGCTGACCACCAGCCTCTCACGGAGGTATCTTAT
Celera SNP ID:            hCV25756545
SNP Position Genomic:     6406
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,26)   caucasian(C,5|G,35)   total(C,7|G,61)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:25856):
TGTTAGCTCTGTTCAGAAATAACTCCAAGAACAGTTTCGATATTTTATTTTCATATTGAAAATCAGACAGATTTGCTTCAGCCTCAAAGAGCCTGTTTAT
R
TAAAATTAAATGAGTGCTGGCAGTGAACTGCACTTTTTTTTTAAATGGGAAATTAAAGAAGCTCTGTGTAACTTGATTGCCTCTGTAAAGAAAAAAGAAA
Celera SNP ID:            hCV3158518
SNP Position Genomic:     8048
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:25857):
GCTACTCAGCCTGAGGTTGCAGACTGGTCTGAAGGTCTGCAGGTGCCCTCTGTGTCTATTCAGTAGTTCCCTACTGAAGACTGGAGCGCTCAGCCTGCCA
Y
GGAAGACTGGTCTGCAGCTCCCACTGCTCAGGCCACTGAATGGGTAGGAGCAACCACTGAATGGTCTTAAGCTGTTCTTGCATGGGCTCTTAAGCAACAT
Celera SNP ID:            hCV25616524
SNP Position Genomic:     6907
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:25858):
CACCAGCCTCTCACGGAGGTATCTTATGTTAACTTACCTACCATTGCGCTGTGTAACACAGATTCTCCTCTGCGCTATGTGGACATTGCCATCCCATGCA
R
CAATAAGGGAGCTCACTCAGTGGGTTGGATGTGGTGGATGCTGGCTCAGGAAGTTCTGCGCATGCGTGGCACCATTTCCCGTGAACACCCATGGGAGGTC
Celera SNP ID:            hCV26292332
SNP Position Genomic:     6580
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,6)   total(G,6|A,6) 
SNP Type:                 MISSENSE MUTATION


Gene Number:                 98
Celera Gene:                 hCG1997182 - 64000127121260
Gene Symbol:                 FLJ31204
Protein Name:                hypothetical protein FLJ31204
Celera Genomic Axis:         GA_x5YUV32W3E9(4265129..4537013)
Chromosome:                  ChrX
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12258):
ATATTCAAATTCTCGTTATACATTCTACATAGTGTACTCACACTCGTCCATCTGGAAAAAACGAGGCTTCCTAATTGCAAAAAACACTCCTGCCATAAAT
GGCTCTCTCATCAGCAAACTCCTTCAAGCTGCCAGGCTTCTACAGAAAGTTGCCATCATTTATTGCAGGGGCCACCAAACCCCGGATGATCCTATATCAG
CTGGAAATAGGCTAGCAGATCAGATAACCAAACAAGTAGCCCTCCAACCCATGCAAGGCCAGTTTCTGTCCCTGTCCTTTTTCTCTCCTCTTTACTCCTC
AGAAGAAAAGGAGGACTTCCAAGCCCAAAACCTTCAAAAGCAAGGACCATGGTATGTCAAGGAAAGGTGCTTTATTCTTCCTCACTCTCAAAGCCTTCCT
CACCTCCAAAGCCTCCACAACCCTTTCCATATCAGTTACAACCTCTCTTGCAACTTCTCTGCCCTATTCTCACTTGCCCTCACCTTTCCAGCCATGTTTG
AGAAATTACCTAGTCCTGCTCTGTCTGCCACTCAGTGTCACCCCAAGGCTCCTTCCAGCCACCTTTTCCTACCCACCAAGCCCAGGGCCAGGTACCCAGG
CAAAATTAACAAATGGACTTCACTCACATGCTGGCCAATAAACGGCTCCACTATCTTCTAGTCTTTATCTGTACTTTCTCCAGGTAGATAAAAGCATTCC
CAACAACTTCAGAAGGTATAAATGTCATCACACAAACTCTCTTCATGCATATAATTCTCCGTTTTGGACTTCCAACATTCATCCAGTCCAACAACGGACC
CTCCTTCATCAGCCAAATTATCCAAGGCATCTCTACATCCTTAGGTATAAAATGGGTTCTCCACACACCCTATAGGCCTCAATTCTCAGGCAAAGTTGAA
AAAATTACGTCTGTCCTTAAAGCCCAACTCACCAAGCTGGCTCTAAAAACTCACCAGTCGTAAACAAAAAATCTCCCTTTCACCCTTATAAGACTCCACA
CAACACCAAAAGCACCCTCTTTTTATAGTCCCTTTGAAATCATATATGGCCAAACTTTTGTCTTGGGGTCTCCACCCTTACCAGACTCTGAGCCACTCAG
ATATTACCTCYCCTCCTTAATCCAGACATGGTCTTTCATTCGTGAAGCAGCAAATAAGGCCATGCCTCTCCCTGTTAACACCTTTTTGTCCTCTGAACGT
AACTGTCTTACAGGCACAGACGTGTTTCCAGACAATCCAGATGATGCTTCTGCTACAGCGACATGGTAAATACCAACCCGTCTCTCAACAATACCCCCAA
AATTAAGATTTTCTTTTTCCAAGATGTCCACGTCACCCCCTATGTCATGCCTGAAGTAATTATTGAGTAAGTGGTCCCTTTTCCCTTTTCTCTAACCAAA
TAGACAGGAATGTAAGATTCTCCCGGGGCCTGAAAGCTTAAGGAGATGAATAACTCCTCCCTTCTCAGGCCCAGTCCCAAGGCGCAAGGGCCACTTGTGT
CAGCAGTGTGCACCAGCAGCGTGCGCCGGCAAGATAGCAGAAGCATGAAAAGGGCCGGCCAGAAGACACCTACTCTGGCTGGAAGACACGTACCCCTGAA
GATCAAGAAAGAAGCTATCTGGGAACAATGTAGCAGTTACGTCAGACCAGGACACTTCCTGTTTACAGGAGACTATAAAACCTTTGTCCTATCATCACTT
GATGTGGACGCCATTTTAGGCCTCAGCCCGCCTGCACCCAGGCACTGATTAAAACAGCATGTTGCTCCACACTGCCTCGTGTTGTCTGTTGGCATGCTCT
TGGGGTTCAAACTGATACAAGAACCTTACACTAGGAGGGTTGTGTTTTTCCAGGAATTTATTAATCTCTTCCAGATTTTCTAGTTTATGTGTGTAAAGGT
GTTCATATTAGCCCTGAATGATCTTTTGTATTTCAGTGGTGTTAGTTGAAATATCTCCTGTTTCATTTCTCTGTGAGGTTATTTGGATAGTCTCTCTTAT
TTTCTTGGTTAATCTTGCTAATGGTCTCTCAATTTTATTTATCTTTTCAATGAATCAACTTTTTGTTTCATTTATCTTTCGTAAAATTTTTTTTTTCAAT
TTCATGCAGTTCTTCTCTGATCTTGGTTATGTTCTTTGTCTGCTGGGTTTGGGTTTGGTTTGTTCTTGTTTCTCTAGTTGCTTGAGGTGTAACCTTATAT
TGTCTGTATGCACTTTTTCAGACTTTTTGTTGTAGGTGTTTAGGGCTATGAACTTTCCTCTTAGCGCCTCCTTAGCTGTATCCGAAAGTTTTTGATAGGT
TGTGTCATTATTGTCATTCATTTTGAAGAATTTTAAAATTTTCATCTTGATTTTGTTTTTGGCCCAATGCTCATTCAGGAGCAGGTTATTTAATTTCCAT
GTATTTGCATGGTTTTGAAAGTCCTTTTGGAGTTCATTTCCAGTTTTATTCCACTTTGGTCTGAGAGAGTATTTGATATAATTTCAATTTTCTTAAATTT
GTTGAGGTTCATTTTATGGCCTATCATATGGTCTATCTTGGAGAAGTTCCATGCACTGTTGAATAGAATGTGTATTCTGCAGTTGTTGGATGAAATGCTC
TGTAGATATCTGTTAAGTCCATTTGTTCCAAGGTATAGTTTAAATCCATTGTTTCTTTGTTGACTTTCTGTCTTGATGACCTGTCTATTGCTGTCAGTGG
AGTATTGAAGTCCCCCACTATTATGATTCTATCTATCTCATTTCTTCATTCTATTAGTAATTGTTTTATAAATTTGGGATCTCTAGTCTTAGGTGAATAT
TTGTTTAAGATTATGCGGTTTTCCTGTTGTATCAGGCCTTTTTACCATTATATAATGTCCCTCTTTGTGTCTTTTAACCACTGTTGCTTTAAAGTTCATT
TTGTCTGATATAAGAATATCTACTCCTGCTCAGTTTTGGTGTCCATTTGCATGAAATGCCTTTTTGTACGCCTTTACTTTAAGTTTATGTGAGTCTTTTT
GTGTTAGGTGAGTCTCCTGAAGACAGTAGACGGTTGGTTAATTCTTATCCATTATGTGGTTCTGCATCTTTTAAGTGGAGCATGTAGGGTATTTACATTC
AATGTTAGTATTGAAATGTGAGGTACTCTTGCATTCATCATGCTCTTTGTTGCCTGTGTACTTTGTTTTTGTTGTTGTTGTTTTAACTCGTGTTTTTGTT
TTATAGGCCCTTTGTAATTTATGCTTTAAAGAGATTCTGTTTTGATGTGTTTCCAGGATGTGTTTCATGATTTAGAGCTTCTTTTAGAAGTTCTTGTAAT
GGTGGCTTTGTAATGGTGAATTCTCTCAATATTTGTTTGTCTGAAAATCACAGTATCTTTCCTTCATATATGATGCTTCATTTGGCTGGATAAAAAATTC
TTGGCTGATAATTGTTTTGTTTGAGAAGGCTGAAGATAGGACCCCAATCCCTTCTAGGTTGTAGGGTTTCTGCTGAGAAATCTGCTGTTAATCTGTTAGG
TTTTCCTTTATAGGTTTCCTGGTGCTTCTGTCTCAAAACTCTTAAGATTCTTTCCTTCATCTTAACTTTCGATAACCTGATGACAATGTGCCTAGGTGAA
GATCTTTTTGCAATAGATTTCCCAGGTGTTCTTTGTGCTTCTTGTATTTGCATGTCTAGGTCTCTAGCAAGGCTGGGAAAGTTTTCCTTGATTATTCCCC
TAAATATGTTTTCCAAGCTTTCAGAGTTGTTTTCTTCCTCAGGAATACCGATTATTCTTAGGTTTGGTTGTTTAACATAATCCAAAACTTCTTGGAGGCT
TTGTTTATATTTTCTTATTCTTTTTTCTTTGTCTTTGTTGGATTGGGTTAATTCAAAGACTTTGTCTTCAAGCTCTGAATTTCTTTCTTCTACTTGTTCA
ATTCTATTGCTGAGACTTTCCAGAGCATCACACATTTCTAAAAGTGTGTCCAATGTTTCCTGAATTTTTAATTTTTTTTTTCTTTAAGCTATCTATTTCA
TTGGATATTTCTCCCTTCACTTTTTGTATTATTTTTTGGACTTACTTGCATTGGGCTTTGCCTTACTTTGATCTCTCCCTGATTAGCTTAATAACTGACC
TCCTGCTTTCTTTTTCAGGTAAATCAGAGATTTCTTCTTGGTTTGGATCCATTGCTGGTGAACTCGGGTCGGGGGGTGTTGAGGAGCCTTGTTTTGTCAT
ATTACCRGGGTTGGTTTTCTGCTTCCTTCTCATTTGGGTAGACTCTGTCAGAGGGAAGGTCTAGGGCTGAAGGCTGTTGTTCATATTATATTTTCCCACA
GGCTGTTCCCTTTATGTAGTACTCTCCCCCTTTTCGTGTGGATGTGGCTTCCTGTGAACTGAACTGCAGTGATTGTTGTCTCTCTTCTGGGTCTAGCCAC
CCAGTGAGTCTACCTGGCTCTGGGCTGGTACTGGGGGTTATCTGCACAGAGTCCTGTGATATTAACTGTCTATGGGTCTCTCAGTCATGGATACCAGTGC
CTGTTCCAGTGGAGGTGACACAAGGGGCAATGGACTCCATGGGGGTCCTCAGTTTTGGTGGTATAATGGCCTATTTTTGTGCTGGTTGGCCTCCTACCAG
GAGGTGGCACTTTCCAGAAAACATCAGCTGTAGTAGTGTGGAGAGGGACTGGTGGTGGATAGGGCCCTACAACTCCCAAGGTTATATGTCCTTTGTCTCC
TGCCACCAGGGTGGGTAGGGAAGGACCATTGGGTGGGGGCAGGGCCGTGTCTGAGCTCAGACTTTCCTTAGTTGAGTCTTGCTGTGGCTGCAGTGGTGGA
TGGGGGTGAGACTCCCAGGTCACTGGAGTTGTTTACCAAGGCAGATTATGGCTGCCTCTGCTGAGTCATACAGGTTGTCAGGGAAGTGGGGTAAAGCTGG
TAGCCACAGACCTTACTCAGCTCTCACTCAAACCGAAGGGCTGGTCTCACTCCCACCATGCCCTCAGCAACAGCCCTGAACCTGTTTCCAGGTGAAGGGC
CAGTCAGGCTTGAAAATTTTCCCAAGGTTTTCTTCACATTTGCAAATGAAAAGGGCTTTAGTTCTTTCCCCACCTGTGAAGTCTGCAAACTGGATTCGCG
CCCTCCCCTGAGTTCTGGCCTTGAGACTTCTCGCCCTGTTCAAATTGTTAGAAATTTCAGCTAGAGAAGTTCTTCTCATTGTGGAGTTTTACCCCCTGCT
CCTCTGGCCACCCTCCTGATGGATCCCTGTGGTGCCAGGCAGGAATTGTCTGCTTGGGGATCCAGCGAGCTCCCAGTGCCTTTCTGCTACTTCCTCTATC
CCTGTGTTTCGCTGGGTTTGGCTCTCTAACTTGACTCGGCTCCAGGTAAAGTTGGGAACTTCTCCCACAAACAGACCTTCAGCTTCTCCATTGGGGATGT
CTGTTTGGGAGAGGAGGGTCTCCCTTTTCCACTTCCATGGTTGGGGCACTCACAGTATTTAGGTTGTCTCCCGTGTCCTGCAGGAGCAGTCTGCTTCCTT
TAGAGGGTCTGTGGGTCCTCTCAGGATTGCTGGTCTGTTATTGCAGTCGATCTGGAGCTAAAATTCACAATGCAAGCCTCCGTATGCTGCTCTGTCCGGA
GCTGCAATCTAGTCCTACCTCCCATCAAATTTACACATTTTAAAATACCATTTACTTCCTAATCTGACAGGATATCAAACCAGGTTCGTCCAGCTTTCCT
GTCTGACACCTCTTTAGTTTCCTTGGTAACAAAACTTTGCTCCATGATTCCGGTAACAAAACTCTTTAGTTTCCTTGGTATCAAAACTCTGCTCCATGAT
TCTGGGGTCTGATTTTGAATAAATGCAACGTCAGAAGCAAGAGTGAGCTGAGTACTTTACAGCTGTGGAACCTAAAGCAAAAAAAACAGACACAGCATCC
CAATTCTAATTCTGACTCTGATTTGGATTCAGATCCATATTTCCCCCAGACTCTACAGACACATCACTTCTCCTCCTTTGTTCCCCTTCCAGTTCTGCTA
TGGAAGAAGCAACATCTAAGATGACGGAAATTATTTCAGAGCCCACAGTTACACTGGAAAATGAGGTAAAAAAAAAATAGAATTCTGCTCACTACCTTAC
AGAAAAACAAGCCAGACAAAAGGGTGGAATGGTTAAGAGACAGTGTTGACAATGAGCACTTGGACTATCGCTCATCTAAATGCTGCTGCATTTATCAAAA
GCCTCATGCCTTTGGTGAAAGCTCCTCAGAGAGTGAAAAAGAGGATGAAGAAAATTGTAATTTCATGCTATATTTCTGGGGTCATCACAATGGACGGCAT
CATTCCCTTCCCAATAGGGCTTCTAGTACTTTATCTAAAAAACCTTGAGACACATCTCATCCTCTTCCTTCACCCATGAAGGGCTAAGCTTACTTTGCTT
CCCCCATCCCTGAATGAGACTGGACTAAAATATATCCACGTTGCTATTCAGGGATTAAACATATTTTGAATCTTTTTTGATGTGTGTTCTATCTCTCTTC
TGTCTGATGGAAAGGGTAGCAATGAAGGAAGACAAGGGGAGAGAAACAAAGGGATCAATAGAATACCTGGAAGCCCTGGTACTGCATGACTACTATTCTA
CAATACACATGTCACATGTATATTCTTGTCTTTTTTAGAGATCTGGAATAACTTCTCCTATATTTTCTTGGCTAGTCTATTATCATGACACCAAACCCCC
ACTTTCCACAGAGCTACCATTTTCTCTATACTTGTTACCCATAATAGTTTCTATCATCTAATGAGTACCAGATTATTCTTTACCATTAATTGGAAGCTTT
GTAATCTTGTCACCTGATATTTACCCATTACACTTTATTCTTGCTTTTATCCTGGGTGATTTCAATATCCCTGTAGATAAGATTTCATATAAACTAGGTA
TTTCTCCTCTACTTTTATTTAGGAACCCCACAGCCATAGTCATACCATGAAGCTAATGAGCACTAGTACTATTCCACATCTAAGTTTTATAATTAGGGAT
CTTATTTTCTCATCCCAAACTCCTATCTTTTGACTTCTGTCTCATACTCGCTTACAACACTATTTTGTGAATTCATGGAGACTCCTAGTCACCCAAATTT
GTGCTGACCTCTCAATCAGTCAACCTTCTGGGTATAACTTCTTTTCCACCCAAACTTCTGACCCATCAACAGCATTCTTTCCCGTGTTCTTACTTCTTCA
CTCTTTTGTGAAACCTCTCTTGCCAATTCCAAATTATGACATGTGACTCAGGAAAACTAAAATGAAGTGTTTGTGGACTTGGGGAAAGGTGGTATCAAAG
AAACATCAGGAAACTATCAAGAGGTAGAATAGTAGTTTAAATTTATTACATGTTTTGTGTGTGCCTAGCATTTTCTTCAAGGCTTTATGTATAATAACCC
AGGAATTCTGGGAAAGTCTCAGTCTTTATCTCTTCAAATATATTCTGCTTCATTCTCTTTTTCCTATTTCTTTGAGACTCCAATTTAAACCTATGTTACA
CTTCCTTCTATATTTGTTAATATTATCTTTATTTTTCTGTCTCTTTTAAACATCATTTGGATCATTTCTTCTTATCAGCATTTAGTTCACCAATATAGCT
TGATTTATATCTAAAAAGCTATTAAACCCATCCACTTAATTTTGTTTCCTTATACTCTTCAGTCCTAGAATTTCAACTTAGTACTTTTTCCCAATTGTTA
GATCCCTTATTATGAGGACCTGAATAATTCAAATTCTCTGTAAGAAACTTTTGGCTTGACTTTGATTTCCTTGCACATACTAAGCATAATTATTTTATAA
CTTGTGTCTGATAATTGTAGTATTTACAATCCTGGTGAATTTGTTTCCATTGTCTGATTTTCTCTCCTAGTTCTTGCTCATAGTTTCTTGTTTTCTTGCT
TTTGTGCTTTTTTTATTCCTTGATTATATGCTATACTCTATTTTAAATATTATTTGTAGAAATTTGAGGTCGAGGATAATGATATCTTCCTCCAAAGGAA
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAGTGTGTGTGTGTTTCTATGGGTTTCTGAGGTCAGTAGAAATCCGGGATTATCTTAATCCAAATTTA
GAGTTTAGTATTTTTGAGGATTCCAAAATTAACTAAAGTTGGGTTGTAGCTCATTACAGCTTCCGTTTGGTTCAATTCACTTTTATTCATGATTTTCTGG
CCATTATAGGTCAAGATCAAAACTACCCACTCTTGGTAGACTGAGGACTATGAATTTTATCTTCCTAGCACAATGAAGTCACCAAAAGTACAGATCTTCC
TCTCACSCATTACTTTAGACTCAGCAAATATTCCTTTCCCCCAGAGAAAAATAGGTTCCATGTTCTGGACTCAACACTAGATTCCTTTTCTGTTATAGAC
CTCTGTCTAATAGTTCCTCACTATTTTGCCTATTTTTTAGCTTTTTTTGTAATTGCAAGAATATTTTGAATTTTTTTGTAGCCTTTTGATTTGTTTTCCA
GTTCCAACCCAGGGAATGTTGATCTAAGTTATCTTTTTATACCTTTATATTCACTATTTTATCATTACAATAATGCCATGAGGTAGATAATATTGTTATC
CTCACAGTACATCTTAGAAACTGAGATATAGAGTTAATAATTTGCCTTAGATAACACAGCTAATAAGAATTAGAAATGAAATTTGAACCCAAGCATTCTG
GCTCAACAGTCTGAATTCCTCAACATTTGCTTTTTCTGAATTATTAGGCAATTAATCCCTCTGGCAAAACAGAAATTGTTCTATGTCTACTTGGGTTAGA
GTTCTGGCAGAACATAAACATTAGAGGTTGTAGGTTAAAACAAAACAAGCCCCTGGGATCCCACCAAGCATGCTTTTGGTGGGCTAGGAAGATAAATTTT
GTGACCAGGATCTACTTTTCYAACAAAGGAGACTTTCATTCTATCAATAAATTTCCATATGCATGATATGCTTGGAAGATTCAAGCCAGCCTAGGGGCCC
TCTTGGAATATAAAGATACTAATAGTATGTCTTTTGACTGAAAGGCCCCAGTTTGGATTGAACTGATATCTGTATAGATGGAGGGATGAAGGATACTAAT
TGGGGAAGAAAGTGCTAGCCCCCTCAAGGAAAGACTGACAGTCTGAATCACAGAATTGAAAGGGCATGACAATTCCATTTGGATTTGACATAAGTTCACA
AAGGAAATAGTTGTGTAGATCATGAAGATTCCTGCAAGGTGAAGTAAGGTTTATGGGAAGCAAGGACAAAATTCAGAAAATGGTGTTAAGAAAATGGTGA
GGGAGAGGGCTGAGGCCCAGCCAAGTTCTCTAAGATTGTTCTCAATGGGGAACTAAAGTGGATAAATGGAAAGTAGTGACCTACACAAAGTGCCAGTCAG
CCAAACAAAACATGCCAAATGTCAAGTGAGTAGGAAAATTTCAGCTCTTAAAATTACGTAGGCTTTAATAATTCCAAATTTAATTTGATTCTCAGAATAT
GGGAGGAGACTACATGCACAGTTCTAAAGCCATCACTGTTTTTGTTTTTATGATGTTTCCAGTTATTTCTAGGCTCTCTAGTCTCTCTCGTAACTAAGAT
AGACATATTCAATTCTGTATTTATATTCCTTTGCCAGTTTATACTTCATAGGTACAATCCATTACTGTTATAACTGGTCTATAAATGTCTTGTTTTCTTC
TAACTCTTAGAACAGTGATAAAAATTCATTGGCATGCATGTAGTCCGTGTTACAGCCTAGATGRAACAAGCACATATGCTCATGTGTCATTTCTGACTCA
GTGGTATCTCTACAAACTCTCAAACTTCTTGTAGAAATTTTTTATGTTGGCCTACCAGGGAGATCTGTTACAGTAATGAAGGAACTACTTAACTGCTCCC
CTTGAGCCCTGAAGAAGTTAATAAACAAAAACATCACTGAAGTCTTAGTAATTTTGTGTGTTATACTCCCTGATGCATTTATAACTGACCAGAAAAGCTG
GCAGATTTGTAAAGAGATTCCTCCTCTGCTCATGAGATATAGGAATGCCTACAACCAGGTCTATGGTAYTATGTAGATCAATAACTGTCTTATGAGGAGT
AGCTAGCCAGGGGCTTTTTCTTCTACTTCTGTTATGACTAGTAGAGATATGTCATTTTGTGTCATTGTTCCCTGGTGGTCACGTGATAGATAGTGTGGGA
GAGTTGGCATTTTAGTCAAATATCTGACCTCCCCTCTTTCTATTGTAAACACTTTGGTTTTAGCTGGGCAAAATACCCGCCATGAGCTGCTTAAGTCAGG
GATTTAATGTAAGATAATTCAACTTCTACCTTATTTAAAAAACTGTCATTGTGGTTTCTGAAAAACTGAATTTATAGCTTTACTAATACAGAATCAAACT
ATTTTTTAACAGGGTGACAAATTGCAACATTGTAAAGGAAGGCTTAATAGAAAAAAAAAATAGTACATAGTAATAGAACTGCTTGCTGAGTTCCAARACT
TTTAGAACAAGGTGAGGGGGGAGGACTTTTCCTTCCAATTCCTTCTTCATAACATTGGATGGAGTCCTTTTGGTGGGTATTTTGACAGCTTCCTTTTTGT
TTTGTTTTCTTTTGTTTTGTTTTTGGAGACAGTCTCCCTCTATTGCCCAGGCTGGAGTGCAGTGGCACAATCTGGGCTCACTGCAACCTCCGACTCCTGG
ACTCAAGTGATTCTCATGCCCCAACCTCCCAAGTAGCTGAGATTACAGGCGTGCGCCACCACGCTGGCTAATTTTTATTTCATGATATTTTGTGGAGATA
GGGTTTTGCCATGTTGGCCAGGCTGGTCTCTGAATTTCTGGCCTTAAGTGATCCGCCCGCCTCTGCCTCCTAAAGTGAGGGGATTACAGGCATGAGCCAT
TGTGCCCAGTGGACAGCATCTTTTGTTACTGCTCTTTTCCTAGAAAATCTCCAGTGTGGGGTTGCTAGGTAAATACAAAACATGCATTTAAATTTGAACT
TTGGATAATGAATAATGTTTACTTCATGCATATTTAAAAGATATTTGTGAAAAAAWTTATTGTTCATCTGAAGTTCAAATTCAACTGGGCATCTTTTTTA
AGTTTTTGTATTATTTATTTATTTTTTTAAATGATGTGCTAAGTTTGGCAACACACCTCCAGAGTTTTCTGTTTTTCTGACTACTTTCTTCAAACTTCAC
TTTATAAAATGTCAAAAAGCAGCACACCACAGGTCTTAATTGATCTCTCCATTGCTGTTCCTACTTTAACATCATTCCATTCACCTCACACACCAATTTT
ATCTCACTCAATGAGAAATCAACCCACTTTTAAACTATTTATTATATTTTCAGGAGTGTGTGTAAGGTTAACTTTAAATGTAAATAAGTTAGGGGCCTTT
CACTATATTTTTACATTTGTTGCGCACTTTAGTTCTATTATTATTATATTGTAATATATAATGAAATAATTATACAATTCACCATAATTTAGAATCAGTG
GGATGCCTGAGCTTCTTTTCCTGCAACTGGACAGTCCCATCTTGGGGTAATGGGAGACAGTGACAGATCATCAGGCATCCAATTCTCATAAGCAGCATGA
AACCTTGCATACACAGTTCACAATAGGGTTCAATCTCCTGTAAGAATCTAATGCAGCCAGTGATCTGACAGGAGGCGGAACTCAGGAGGTAGTGTGAAGG
ATGGGGAGCAGCTGTAAATACAGATGAAGCAGGCTGGTCCCCATGGTTCACACCTGTAATCCCAGCATTTGGGAGGCTGAGGTGAGCAGATCACTTGAGG
TCTGGAGTTTGAGACCAACATGGCAAAACTCTGTCTCTACTCAAAATACAAAAATTAACCGAGCATGGTGGTGCACCCTAGTAATCCTAGCTACTAGGGA
GGCTGAGACAGGAAAATTGCTTGAACTTTAAAGGCGGAGGTTGCAGTGAGCCCAGATCGTGACACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGT
CTCCATGGCCCAGGGACTGGGGGCCCTTGCTGTATAGGATGTGTGAAAACTCTGTGCACACAATCCAGGTGTGTAGCAGTGGTGTATGATCAGGAACAAG
GTACTGAAATTAGTCCCTTGTCTAATCCAAGCTGTAGCTATGGCTTAAGGAAGTGTGAGGGTAAGTTAGCATCTGGTGGTCAGTGAGCTGCAATTGTCTC
GATTTTGCTTATTTTGGGGCCAGTGTTTGTTCAGTTGCTAGAGAAAAAGAAAGAAAAAAAAACCTTGTTGCAGTTAGAATATAGTCTAACCTTTAGGTGT
TGGGGATGGTACATGACTTATCCCTTTCCTGGCATGCCTTTAGGTCTTGTTTATAATTTGGTATCTTGTTGCTACAAAAAGTCCTTTTCCATCACTCTTA
TGATCTCTACTTTAATACTATCATCAAAACTGATTACACAAGTTCATCTGTTAATGTTCATTTTTATTGAGATTTTATATATTTACACTTCAAAAATTTC
TTTTCACACATATRGAAACATATATGAATTTTAAAATATGCATCTTCATGAAAGTCCAAATAACACTATTTGGACTATAGTTTGAGTTCAGAAATTATAT
CTGCTGAAAATTTGGGTGGGAGTAAATATCTTCCTTCTTAGTTTAACTTTATTTTCAAGTGTTTGTCTTTATTTTGTTTATAATTGGCATGTAATCGTTG
TCTATGCTTATGCAATACAGTGTGATGTTTCAACATGTGTGCATTGTATAATGATAAACTCAGTGTTGTTAGCATGCCCATCCCACCAAACCTTTGTCAT
TTTTTGTGAAGATAACTTTCAAGATTGTTATTTACAGCTGCCTGAAAATATACAAACATATTTATTAGTTATTGCCATCCCACTATGTAAGAGAGCACCA
AAACTTATTCTTTCTTTCTGACTGGAACTTTGTACCAATTGAGCAAATGTTTCCATCTTCCATTCTCCACTCCCATCCCCAGCCTCTGGTAAACAGTATG
CTACTCTTTACTTCTGTGAGATCAACTTTTCTAAATTACACCTATAAGTGAAATCACTGTAGTTTTCTTTCTGTGCCTCGCTTATTTTCCTTAATATTGT
GTCCTTTAGGTTGATCCCTTCTGCCATTAATGACAGGATTTTTCCATTTTTATAGCAGAATAGCATACCACTGTGTATGTATACCRCATTTTCTTTGTTA
ATTCATCTGCTAAAGGACACTTAGGTTGATTCCTTTTATTGGCAATTGTGAATGATGCTTTATAAACACAGGAGTGCAGATATGTTTTCAACATACTGAT
TTAAATATCTTTCCATATAAACCCAGTGGTGAAATTACTAGGTTATGTGGTGGTTTAATTTAATATTTTGAGGAATCTCCGCAGTGTTTTCCATAATGGC
CAGGCTAGTCTACAATCCTAGCAGTAGTGTACAATAGTTTCCTTTCTTCGTGTCCTTGACAGCATTTGATATTTTACTTTCTTCTTGATAGTAGCCATTC
TAACAAAAGTGAGGAGATATCTCATTGTGGTTTTGATTTGCATTTCCCCAGTGATTAGTGATATTGTGAATTTGTGAATTTCTTATATGCCTGCTGGCCC
TTTGTATGTCTTCTTTTAAGATATGTCTTTTCAGACCTTTTGTCCATTTATTAATCAGATTATTTGGGGGGGGGTGTTTTTCTATTGCATGATTTGAGTT
CGTTATATATCATGAATATTAGCCTATTATCAGATGGATGGTTTGCAAATATTTTCTTCCATTCTGTAAGTTGCCTCTTTGCTCTGTTCATTGTATCTTT
TCTTGTACAGAAGCTTTTTAGTTCAGTGTAATCCCATCTGTCTATTTTTGTTTTATTGACTGTGCTTTTCATGTACCACCAAAAAAAATTATTGATCAGA
CTAATGTTATGAACTGTTTTCCTTGTGKTTTTTTCTGATAGTTTTATAGTTTTGAGTATTATACTTAAGTCTATAATCTATTTTGAAATGATGTTTGTAT
GCAGTTAAAGATAAGGGTCTAGTTTCATTCTTCTTCATATGGATATCCAGTTTTTCCAGCACCATATATTGAAGAGACTATCTTTTCTTCCATGTGTGTT
TTTGGCAGCTTTGTCAAAAAATATGTGACCATAAGTGTGTAGAATTAATTTTGGGTTCTCAATTTTGTCGCATTGATCTTTGTTTTTATTTTTATACAAG
TACCATGYCGTTTTGGTTATTATTGCTTTATACAGTATTTGGAAGTCAGGTAAGGTGATGCCTCCAGCTTTGCTCCTTTTTTATTTGTTTTATTTTTTAT
TCTGATATGTATTTAAATACAAGGTAAAATATTACAATCATACTAACAGAAATATGAGAATTTTTAGTGAAACAAGATGAGTGATTCTAGAGCATTTATT
TTCAGTAAATTTTAACTCAATTTTATACTATATATACTATGCTATTTGTACTAGAAGTATTTGTAATTTTAGTTAATATTGATAATTTATTTTGGTGAAG
AGAAATTTCATGAACCTATCTATTCTGACACCTCTCTATCATGACAAAGAGATATATAAATAATTTAAAAAATTAACTCCTTTTCAATTGCAACAAAAAC
AAAAATTGACAAATGAAGTCTAATCAATCTAAAGAGCTTCTGCATAGCAAAAAAACCTATCAACCAAGTAAACAGACAACCTAAAGAATGAAATAAATTT
TTTGGAAACTATGCATCTGAAAAAGATCTAATATCCAGCATCTATAAGAAACTTAAAAAAAATCTACTAGATTAAAACAAACAATCCCATTAAAAAGTGG
GCAAATGACATGAACAGACACTTTTCAAAAGAAGGCATACCTGTGGCCAATGAGCATATTAAAAAAGCTTAATATCACTGATCATAAGAGAAATGCAAAT
TAAAACCACAGTGAGATACCATCTCACACCAGTTAGAATTGTTATTATTAACAACAAAACATAGCAGGTATTGGCAAGGTTTTGGAGAAAAAGGAACACT
TATACACTGTTTGTGGGTGTGTTAACTAGTTCAACCATTGTGAAAGGCAGTGTGGTGATTGCTCAAAGACCTAAAAACAGAAATACCATTCAACCCAGCA
ATCCCATGACTGGGTATATATTCAAAGTAATATAAATTTTTCTGCCATAAAACATATGAATGCTTATGTTCACTGCAGCACTATTCACAATAGCAAACTC
ATGAAATCAACCTAAATGTCCATCAATGGTAGAAAGGATGAAGAAAATATGTTAAATATACACCATGGAATACTATGCAGCCAGAAAAAAGAATGAGATC
ATGTCCTTTGTATGAACAGCAATGGAGCTGGAAGCCATTATCCTTAGCAAACTAACACAGGAATAGTAAACCAATACTGCATGTTCTCACTTATAATTGG
GGGCTAAATGATGAGAACACATGGACACATAGAGGGGAACAACAGACAGTGGAAGGGAGGAGGGGGAGAGGATCAGGAAAAATAACTAATGGACACTAGA
CTTAACATGTGGGTGATGGAACAATTTGTAMAACAAACCCCCATGACATGAGATTACCTGTATAACAAACCTGCACAGGTACCCCTGAACGTAAAATGAA
AGTTAAAAAAACTTCCTTTTAAAAATTTTATTTTAGTTTCAGTGAGTACAGGTGAAAGTTTGTTACCTGGGCAAATTGCACGTCAGGCTTTGATGTACAA
ATTGTTCACCCAACTATTGAGTATAGTACCTGATATGCATTTTTTTAATCCTCATCCTCCTTCCACCCCTCACCCTCACGTAAACTATGRTGTCTATTGT
TTCCTTTTTTGTGTACACGTGTATTCAATATTTAGTTCCCATTTATATGCAGTGTTAGGTTTTCTGTTTCTGTGTTAATTTGTTTAAGATAATAACCTCC
AGTTGTATCCATTTCACTGAAAATAAGGTTATTTCATTTTCTAAAAAAATTACTTCCAACCATGGTGATGGGATTATTTTGTTTTTCTTTATGCCTGCAT
AGTATTCCATGGTGTATAAGTACAACATTTTCTTTATCTAGTACACCATTGATAGGCATTTAGGTTGATTCCATGTCTTTGCTATTGCAAATAGTGCTCT
ATTTTTTGGAATAGTTTCAGTGGCAATGGTACCAGGTCTTCTTTATATTTTGGTAGAATTCGGATGTGAATCCATCTGCAGGAAAGTCTGGTCCAGGGCT
CTTTCTGRTTGGTAGGTTTTTCATTATTGATTTATTACTGATGTTCATTATTGATCATATTTCTCATTTGTTTATGAAGATTAGTTTGGCCGGATATAAA
ATTCTTGGTTGAAATTATCTTTAAGAATGATGAATATGGGCTCCAATCTCTTCTGACTTGTACAGATTCTCCTGAAGAATTTGCAAGTTTCTTGATGGGG
TTTTCTTTTGTGAGCAACCTGTCCCTTCTCTGCAGCTCTTTTATATATAATATATATTTCATTGACCTTGGGGAATCTGATTTCTATGTGTCTTGGAAAT
GGTCATCTTGCAGGGGTTCTTTGTATTTTCTCAATTTGAATGTGAACTTTTCTAGTATGCTTCAGAAAATTTTCATRGACAATATGCTTAAATATGTTTT
CCAAGTTGCTTTTTGTCTCTGTGTCTCTTTCAGGAATGCCAATTCTTTGTAGGTCTGGTCTCTACATAATTCTATATTTCTTGGAGGTATTGTTTATTTT
AAAAAGAATTAAAATTTCTTTCTGRTAGAGTTGATTTGAAGAACTGGCCTTAAAATCTTATTCTATTTTGCTCATCTTAGTCTRTCTTCCTGTTAATAAT
TTCTGATTGTATTACAGAATTCTTGTAGTGAGTATTTCAGCTCTTATGATCAGTTTTGTTCTTTCTTAAAATGGCTATTTTGTCTTTCAGTTGTTGAATC
ATTTTTGGATTCCTTATATTCCTTGGATTTTGTTTTGACTTTCTCCTGAATTTCTGTGATCTTTGTTTCCATCCAGATTCTAAATTCTGTTTGTCGTTTC
AGCCATTTTGGTCTGGTTAAAAACCATTGCTAGGGAGCTAGTGCAGTTGTTTGGGGATAAGAAGACATTCTGGCTTTTAGAGTTTCAGAGTTCTTGCACT
GGTTGTTTTGTATGTGTGTGGGCTGATGTTCATTTAATCTTTGAAGTCRCTCTTCTTTGTATGGTGCTTTTTGCTTGTATTTTCTTTGGTGTCCTTGAAG
GTTTGACTGGTATAAGTTGGGTTTAGTTGATGGCCTTCATTTCTAGATGATTCAGGGGGCCAACATTCAGCTCTGCACTACTGGGCTGTGTAATTTAACC
ATGGGTAGATGGTACCAGGCCTGTGATTTTGTTCTCTGTCTCCTCCAGGTTAAGCACCTGCTGTGCTGGATGGGCCAAGGTGCTCCCTGTCTGGTGGCAA
CAATACTCCAATGGGAGTGCTGGCGAAAGTGATTCATTTGAGTAGTGGCAGTGGGTTCCATGCATGCATGCATGCTTGTGTCAGCAGGATCGGTGTGCAA
GTGTGTATCCAAGCAGTGGCATGGCATTGACATGGTCGKGTCTGCAAGTGCACACAGTCTCCACTGGCAGAGTGCAGTGGGGTCTGCACATGTGTGCACA
CCACCAGCAGCAGCATGGCAGTGTTCACATGTGCATGTGCCAGCACATCTGTAGGGGAGACTGTGRGTGAGTGCACATCAGCAGAAGCTGCGGGTGGTGC
TTATCAGCAGAAGCTCTCTGATGGTTAAGCAAGATCTGTCAGTGTAGGAGCTATGAAGTTGGCTGCTGGGAAATGCCTCAGTTGGGCATCTGAGTCTGTG
CTACAAGCAACTATAGCCAGGCAGGGACCCTGGGAAAGGCTGGTAGATAGGGGGATGCTCAGATCACACTGGCCGCATCCTACAGGCAACATAACCCTAT
TCTGTACAGGACTGATAGTCAACAAAATCCAAATCCACCTACATGAACATGTTATGCCTCAGGGAATGGGCATCCATGATGGTGCTCCACTGCAGCCATT
CTGGCACCAAAACCTCTGAGTCCCATGCAGGCTGGAGCCCTGTCCCTGCCAACTCCCCAAGAAGCTCTTTCTGCTAGCTCAAATGCCTGTTAGGGACATG
GGGTTTTCTGCAGCTATGATTCTGGAGGTTTGTGGACTCCTTCTTTACACCAAATGCAAAAATTAAATCAAGATGGATTAAAGATGTAAATGTAAAACCA
AAAACTATAAAAATCCTGGAAGACAACCTATACAATACTGTTCTCCACATAGGAATCAGCAAAGATTTTATGATGATGCCAAAAGCAATTGCAACAAAAG
CAAAAATCAGCAGAGTAAACAAACAGCCTATGGAAAGGAAAATAAATTTTGCAATCTATGCATCTGACAAAGTCTAATATGAAGCATCTATAAGGAGCTT
AAACAAAACTACAAGAAAAAAAAACAGMCCTATTAAAAAGTGGGCAAAAGACATAAACAGGCACTTTTCTTCTTTTCTKTAAATAGCTACCTTTATTTGT
AAAGTTCATTTTTAAAAATTTTGTATTTCAATAGTTTTGGCGGTACAGGTGGTTTCTGGTTACATGTATGTGTTCTTTAGCAGTGATTTAGAGATTCTGG
TGCACCATCACTAAAGCAGTATACACTGTACTCAATAGGTAGTCTTTTATTCATCACCCCAATCCTACCTTTCCCCTTGTGTCCACAAAGCCAATTATAT
CATTCTTATGCCTTTGCATCCTCATAGCTTAGCTCCCACTTATAAGTAAGAACATACATCATTTGGCTTTCTATTTCTGAGTTACTTCACTTAGAATAAT
GGCCTCCGGAACTCACCACAGCACAGAAAAGCAGCTATGGCCAGACTGCCTTACTAGATTCCTCCCCACTGGGCAGGGCATCTCTGAAAGAAAGGCAACA
GCCCCAGTCAGAGGCTTATAGATAAAATTCCCATCTCCCTGGGACAGAACACCTGGGGGAAGGGGAGGCTGTGGGYGCAGCTTCAGCAGACTTAAATGTT
CCTGCCAGACGGCTCTGCAGAGAGCAGCGTATCCTGACAAGGAGGATTCTCCCAGCACAGAACGGGAGCTCCACTAAGGGACAGACTGCTTCCTTAAGTG
GGTCCCTGACCCCCGTGCCTCCCGACTGGGAGACAGCTCCCAGCAGGGGTCAGCAGACACCTTATACAAGAGAGCTCCAGCTGGCATCTGGCAGGTGCCT
CTCTGAGACAAAGCTTCCAGATGAAGGAGCAGGCAGCAGTCTTTGCTGTTCTGCAGCCTCTGCTGGTGATACCCAGGCAAACAGGGTCTGGAGTGGACCT
CCGGCAAACTACAGCAGACATGCAGAAAAGGGGCCTGATTGTTAGAAGAAAAACTAAAAAACAAAAAGTAATAACATCAACATCAAAGAAAAAGAAGGAA
CCCCATTTAAAAAAACCCATCCAGGCATGGCTGGCAATATGGCTAAACAAGAACAGTTCTGATCTGCAGCTCCCAGCAAGGTCAACACAAAAGGAGGGTG
ATTTCTGCATTTCCAACTGAGTTACCTGGCTCATCTCATTGGGACTGGTTAGACAGTGGATGCAGCCCATGGAGGGTGAGCAGAAACAGGGTGGGGCATC
ACCTCACCCAGGAAGTGCAAGGGGTTGAGGAACTCCCTCCCCTAGCCAAGGGAAGCTGTAAGGGACTGTGCCATGAAGAATGGTGCATTCCAACCCACAT
ACTATGCTTTTCCCATGGTCTTTGCAACCCACAGACCAGGAGATTCCCTCGGTGCCTACACTACCAAGGCCCTGCATTTCAAGCACAAAACTGGGCATCT
GTGTGGGCAGAAACTGATCTAGCAGCAGGAGTTTCTTTTCGTAACCTAGTGACGCCTGGAATGCCAGTGAGATGGAACCATTCACTTCCCTGGAAAGGGG
GCTGAAGCCAGAGAGACAAGTGGCCTAGCTCAGTGGATCCCACCCCCGGAAAGCCCAGCAAGCTAAGATCCGTGAAATTCTTGCTGCCAGCACAGCAGTA
TGAAGTCAATCTGGGATGCTCCAGGTTGGTGGGGGGAGGGGTGTCCACTATTACTAAGGCTTGAGTAGGCGGTTTTCCAATCACAGCATAAACAAAGCTG
CCAGGAAGTTCAAACTGGGTGRAGCCCACCACAGCTTGGCAAAGCCACTGTAGCCAGACTGCCTCTAGATTCCTCCATTCTGGGCAGGGCATCTTTGAAA
GAAACACAGCAGCCCCAGTCAGGGGCTTATAGATAAAACTTTCATTTCCCTGGGACAGAGAACCTGGGAAAGGGGTGGCTGTGGGCGCAACTTCAGCAGA
CAAATGTTCCTGCCTGCCAGCTCTGAAGAGAGCAGCACATCTCCCAGCACAGCACTCGAGCTCTGCTAGGGACAGACTGCCTCCTCAACTGGGTCCATAA
CCCCCATGCCTCCTGACTGTGAGGCACCTCTCAGAAGGAGTCAACAGACACCTCATATAGGAGAGCTCTGGCTGACATCTGGAGGGTGCCCCTCTGGGAT
GAAGCTTCCAGAGGAAGGAAAAGGCAGCAATCTTTGCCATTCTGCAGCCTCTGCTGGTGATACTCAGGCAAACATGGTCTGGAGTGGACCTACAGCAGTC
TCCAGCAGACCTGCAGCAGAGGGGCCTGACTGTTAGAAGGAAAACTAACAAACAGAAAGGAATAATATCAACATCAACAAAAACAACCACACCAAAACCC
CATCCAAAGGTCACCAACATCAAAGACCAAAGGTAGACAAATCTATAAAGATAGAGAGAAACAAGCGAAAAAAGGCTGAAAATTGCAAAAACTAGAAGGC
CTCTTCTCCTCCAAAGGATCACAATTCCTTTTCAGCAAGGGAACAAAACTGAACAGAGAATGAATTTGACAAATTGACAGAAGTAGGCTTCAGAAGGTGG
ATAATAACAAACTCCTCTGGGCTAAAGGAGCATGTTCTAACCCAATGCAAAAAAGCTAAGAAGCTTGAAAAAAAGGTTCGTTGAATTGCTAACTAGGATA
ACCAGTTTAGAGAACATAAATGACCTGATGGAGCTGAAAAACATAGCATGAGAACTTCGTGAAGCATACGCAAGTATCAATAGCTGAATYAATCAAGCAG
AAGAAAGGACATCGAGGTTRAAGATCATCATAATGAAATAAAGCGTGAAGACAAGATTAGAGAAAAAAGAATAAAAAGAAACGAACAAAGTTTCCAAAGT
ATATGGGACCATGTGAAAAGACCAAACYTATGTTTGATTGGTGTACCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACACTCTTCAGGATATTA
TCCAGGAGAACTTCCCCAACCTAGAAAGACAGGCCAACATTCAAATTCAGGAAATGCAGAGAACACCACAAACATACTCCTCGAGAAGAGGAACCCCAAG
GCACATAATCGTCAGATTCACCAAGGGTGAAATGAAGGAAAAAATTATCAGGTCAGCCAGAGAGAAAGGTCGGGTTACCCACAAGGGAATCCCATCAGAC
TAACAGCAGATCTCTGTTAGTCAGAAGAGTGGGGCCAATATTCAACATTCTTAAATAAGAGAATTTTCAACCCAGAATTTCATATCCAGCCAAACTAATC
TTCATAAGTGAAGGAGAAATAAAATCCTTTACAGACAAGCAAATTCTGAGAGATTTTCTCACCACCAGGCCTGCCTTCCAAGAACTCCTGAAGGAAGCCC
TAAACATGAAAAGGAACATCTGGAACCAGCCACTGCAAAAACATACCAAATTGTAAAGACCATGGACACTATGAAGAAATTGCATCAATTAACGGACAAA
ACAGTGAGCAAGCATCATAATGACAGGWTCAAATTGACCCATAACAATATTAACCTTAAATGTAAATGGGTTAAATGCCCCAGTTAAAAGACACACACTG
GCAAATTGGATAAAGAGTCAAAACCCATTGGTGTGCTGTATTCAGGAGACCCATCTCACATGCAAAGAAACACATAGGCTCAAAATAAAAGGATGGAGGA
ATATTTACCAAGGAAATGGAAAACAAAAAAAAAGCAAACATTGCAATCCTAGTCGCTGAAAAAAACAGACTTTAAACCAACAAAGATCAAAAGAGACAAA
GGAGGGCATTACATAATGGTAAAGGGATCAATGCAACAAGAAGAGCTAACTATCCTAAGTATACATGCACCCAATACAGGAGCAACCAGATTATAAACCA
AGTTCTTAGAGACCTACAAAGAAACTTAGACACCCACACAATAATAGTGGGAGACTTTAACACCCCATTGTTAATATTGGACAGATCAGTGAGACAAAAT
TAACCAGGATATTCAAGACTTGAACTCTGCTCTAGACCAAGCAGGCCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTCTTC
TCAGCACCACATCACACTTATTCTAAAATTGACCAAATAATTGAAAGTAAAACACTCCTCAGGAAATGCAAAACAATGGAAATCATATCAAACAGTCTCT
CAGACAACAGGGTAATCAAATTAGAACTCAGGATTAAGAAACTCACTCGAAACCCCACAACTTGGAAACTGAACAACCTGCTTCTGAATGACTACTGGGT
AAATAATGAAATAAAGACAGAAATAAATAAGTTATTTGAAACCAATAAGAACAAAAACACAATGTGGCAGAATCTGTGGGACACAGCTACAGCCATGTTT
AGAGGGAAAATTATAGCACTAAATGCCCACAAGAGAAAGTGGGAAAGATCTAAAATTGAAAACCTAACATCACAATTAAACGATCTAGAGAAGCAAGAAC
AAACAAATTCCAAAGCTATCAGAAGACAAGAAATAACTAAGATCAGAGCAAAACTGAAAGAGATAGAGACATGAAGAACCCTTTGAAAAATCAATGAATC
CAGGAGCTGTTTTTTTTAAAGATCAACAAAATAGATAATCTGCTAGCCAGACTAACAAACAAGAAGAGAAAGAAGAATCAAATAGGTGCAATAAAAAATG
CTATAGGGGATAAACTACTGATCCCACAGAAATAAAAACTTCCATCAGAGAATACTATAAACACCTCTATGCAAATATACTAGAAAATCTAGAAGAAATG
GATAAATTCCTGGACACATAAACCCTACTAAGTCTAAACCAGAAAGAAGTCGAATCCCTGAAAAGACCAATAACAAGTTCTGAAATTGATGCAGTAATTA
ATAGCCTAACAACCAAAAAGAGTCCAGGATCAGATGGATTCACAGCCGAATTCTACCACAGGTGAAAAGAGGAGCTGGTAGCATTCCTTCTGAAACTATT
CCAAACAATAGAAAAAAAGGGAATCCTCCTTAACTCATTTTAAGAGGTCAGCATCATCCTGATACCAAAACCTGGCAGAAACAAAACCAAAAAAGAAATT
TCAGGCCAATATCCCTGAGGAATATGTGAAAATTCTCAATAAAATACTAGCAAGCCAAATCCAGCAGCACATCAAAAAGCTTATCRACCATGATCAATTC
GGCTTCATCCCTGGGATGCAAGGCTGGTACAACATACCTGAATCAATTTTAATGCAATCCATCACATAAACTGAATCAATGACAAAAACCAGATTATCTC
AATAATACTGGGTATATATACAGCATTGCATAATAAAAATCATGCTTTGTTATTATTCAATAACAAAGTAAGTCTTGTGGCACTGTGCCTTAAAAGTGTG
KCATTAAAAGTCCACTTAATTCTTCCTTTCTTTTCTTGACATGGTGAGTATGCAGTAAAAATAATTGTGGGTTGGTGATATATGGGACACTCAAAACACT
TTTGAGTTGTGACTGCATCACTGCAATTTTTAGTGGGTTGAGCTGCAGTGCAAAGTGACATTGGGTCAGTTTTGCAGCTACTCAATACTGTCAGTGTGGC
TGAAAACAGCTATGCATAATATAAAAACAAATCCATATGGCTAGGTATAAAAACTTTATGAGGAATGAAATTTTTATTTTATATACTTTTCATATTTTAT
AAAATATTATTTTATTAATCATTAAAAATGTAAAAGCCATTCTTAGCTAATGGGTAATATAAGAATATATAGCAGGCCATGCTTGACATATAGTTTGTAA
TTTGCTAATTTCTCTTTTAGAAAACTGTGATATACTAGTTTAGGTTAATAATTGTTGAGAAGATTTACAGAGGCTCTGAGGGAAAAGAACAGATAATGCA
TTGGAAGAAATAAGGATAAGTTACATATTAGACTCACTTTAATACAAATAAGAAAAGTTTTTTTTACCTTCTTTATTATGACAGAAAAACAGAATGATCA
AACAGGCTTCCACTCAAGAGATACTGTCCTGCAAGTGAGGCATTTGAATAGTATAAAATTAGAAGGATGTGAAGGAAGAGGGGTAGTGTATTAACATATC
AATTTTAAAATACAGCCATTTAAAGAAGAGTTTCTCTCTCTCTCTCCCTCCATCCCTCTCTCTCTCTCTCTTAACAGCACCAGAGCAGGCCATTTATCTG
TGTTCTTGTGGCACTTTAACTATATAAGGCCATTCAGAAAATGATTCATGCTTTTTTTATCTTGTTTGTCTACCATTCTGTACAATGTGGTCTTCATCTG
TATGATCAAAGGCAAATCACCACCATATTTGTATTCCAGGCTGTAAGACAGGGAGAAGTAAAAGACCAGGACAAGTGACTTTAACTAAGTAATACACATC
GCTTTCATTCACATCTCATCAGCCAGGACAAAATCAGATGACCACACCTAGCTGCATGGGAGGCAATAAACTTGTCTCTAGTTAAGTGGTCATAGGCGAG
TGCTTCAAACGTGTTTTCCCTATTACTGAAAGAGAGTGTTGTAGATGAGAGACCGAAGATACAGTCTCTTTTTACTTGATAAAAGTGGTAAATTTTCTTC
AACAGAATTTCTATTTTACTTCTTAATAAATTTATTAGAAGTGTTTTACAGAAATTTTCAGATCATTTATTTATTTAATGAGTCAAACACGCATGAACAG
GCACTCTTCCARATAATCCAAATAAAGTATCTAGCTAGATGACATATTTACTCACATGGAGCTAACATTCTAGAGAAGAACATATAGAATAAACAAAGAT
TCAATTTAATAAAAATGTTAAGAACAATGACATTTAGATAAGTTGGGTTAATAATCAGATTACTGAGTAGCAAAATTGTAAGTGGAAACATGCAAAACTT
TAAAGCTAGTTCTGGCTCTTGCACCAACAGGTAATTTTCTGCATTTGTTTTTTAATAGATTACATCGTTATCTTAAGTCATCTGAACCTATAGAGATACA
TACAGGGAACACCTGCTAGGAGTAAGGTTAGGCAAAGAAATTCAGTTGTGTCTTTCTCATGTTGATCCATCTGATAAAAGAATAGCTAGAATAGATAGAT
AAAGAATAGCAATTTTTGCACTATAAATCTAATAATGTGGGCCAGGCATGGTGGCTCACGCCTGTAATCCCAGCTGTTTGGGAGGCGGAGGCGGGTGGAT
CACCTGAGGTCGGGAGTTTGAGAACAGCCTGATCAACATGGAAAAACCCCATTTCTACTAAAAATACAAAATTAGCCAGGCTTGGTGGTGCATGCCTGTA
ATCCCAGATACTGGGGAGGCTGAGGTAGGAGAATCGCTTGAACCCGGGAGGCGGAGTTTATGGTGAGCCAAGATCACGCCATTGCACTCCAGCCTGGGCA
ACAAGAGCAAAGCTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAATCGAATAGTGTGTCTTTTTTTTTTTTTTTTTTTTTTCTGTTAAGCATGTGAA
CGTTGGAATGCTGGAGATGACCTTTGTACTATTTGGTACTTGAGTCTTTTTAATTATCTTCTTTGCTTATTCCAAGAAGAAGTTTAGATATTCCCTTATT
TGGGCTTCACATAATATGTCTGCCTAATTCTGCCAATATGTACCAAAGTGTATTTTGCACTTTTATGAAAAATAGAGAAGGTTCAATGATGGCCTAAGAC
ATAGAGTGCTTTTGTGATGTAGTTTTAAGTTATATATGTCATTTTACAAAATACTATGTGAATTTCCAAACTTTGGAAGTAAAATTTGTCTAGATATTGA
AATATGAGTTTGGAGCCAAAGAATGTTTTTTAAATARGATTGTTATCATAGTGCTATTGTGGCAGGCCAGGTCTCCATTAGCAACCAGAACAGTSAGTTT
CCACTAACCCTTTACTATAGTTYTGATGAATGTATAAGTTAAACATTAAAGAATTGGAGAAACTAGTGCTTTAGTACAAGGGCTGGGATGTGAAAACAAA
ACCATTAAGACCTTGCCTGGGTTTTCTCAGAACTTAAAGCCTGATAAAATAATGAAGGCATTCTTACACACACCTTGTTCCAGGGCCCATTAAGATTAAC
AAATTTTTCCAAGGCTCTGAATTAAACTTCCAGGCCCCAGACCCTAGTTAAAGATTAGATTGAGTGAAACACTCCTGTTTATAGTTGCACACGTGCATGC
AGGCATATAGCTTGAATGTATTAATGTATAARCAAGTGCTGAAAAAAATCTTGTAACTTTGGGTTGGTCTGGTGAACTACCCTGACCTTCTCCTTATGGC
CAGTTACAGAAATAAACTCTCTTCTTTCCCAGTCTGTCTGTAACTCGTTAATTGGACCATGAGACCAAGTAGCTGGACTCCAGTTTTTTCTGGGTATACT
ATGTTTGCTTGACTTTTGATATGCTGGGTTCTTTGAATATGCAAATGTCTTTATTTAAAATCCATTTTAATTTCCCTGCTGAAGCCATTGAAGGAAGGCC
ACAGATTGGATGAATCATGAAGACTAATATTTTACTTGATTTAGGAGGAATGCAGTTCAAAATGACTATTGCTTAGAGATTCTGGTCACAATAAATATAA
CCTTGACTGCATTTAAATGGAAAGTCTTTTATACTTCTGAAATGGCTAGTTTAGTGTCCTAAACTAATGTGTGGACCATTGTAATTTACCATGAAGACTT
CATAAAACAAAGGCCATAGACATTGAACAAACTGTGAGCTTTATTTAGATGGCATTTAAAAATTTATTTTGACATATCCTTGCAAAAGTGATTGGAACCA
TAATTGGAAGTTGGATACAGCAATAATTGTGAGCAATTTATTGTGGCATCTCCTTACAGAGATATATATTCTATACAACTAAACTCCTTCAAATACTTGA
AGAACATCTGTAAGGGATCAAAATATGCCAGCTCAGTTCCCTTTCTACACATTAAGTAGAAGCTATCAAAAAAATAAATTAAGAAAACCATATCATTTGT
AATGGCATCAGTAAGAATAAAATAGATAGGAATAAATTTAACCAARGAGGTGAAACATTATGGCATTCAACACTTTAAATGTGTGAATTGTATGATATAT
GAATTGTATCTCAATAAAGCTGTTTAAATAACAATGTACTATATTCTTAAAATTTGCTATGACAGTAGATTGAAAGTGTTCTCACCAAAAAAAATAGTGC
GTTTGTTAGGTAATGCATATGTTAATAAGCATGATCTAGCCAATCCACAATGTAAACATATTTTAAGACACCATGTTATACACCATTAATATATATAATT
TTTGTCTACTAAAATAATTATAAATAATTAAAAAACAGGAGATATTACAATTGATACTACAGAATTACAAAAGTTCACACTAGTTGAGTATGAACAATTG
TACACCAACAAAAAAGATAACCTAGAAGAAATAAAAAAAAAACTAAGAAACATTCAACCTAAAAAGACTGAATCATGAAGAAATAGAAAATATGAACAGA
CTAACAATTATTAAGGAGATTGAATCAATAATCAAAACTTTCCCAACAAATAGAATCCCAGGACCTGATGGCTTCCCTGGTGAATTATACCAAACATCTA
AAGAAGAATTAAAATCTATCTTCTCAAACACTTCCAAAAAATTCATTAGGAGATAACACTTCCAAACTCATTTTGCAAGGCCAGTATTAGTCCAAAGCCT
GACAAGGATACTACAAGAAAAGAAAATATARGTGAATATCCCTGATGAACAAAACACAAAAATTCTCAACAAAACGCTGGCCAACTGAATTCAAATGCAT
ATTAAAAGGATCATACAACATAATCAAGTGGAATTTATTTCTGGGATAAATGGATGGTTCATTATATGCAAAACAAATAAATGTGATACATTACTTTAAA
AGAATCAAAAACAATAACCATATGATTATCTTAATAGATGCAGTGAAAGCGTTTAATATAATTCAACATCTTTACATGATAAAATCTCTCAAAAAACTAG
AGTTAGTAGGAAGGTACCTCAACACAACAAAGGCCATATACCCCAAGTCAACAGCTAACCTCATACTAAGTGGTAAAATGCTGAAAGTTTCTCCTCTAAG
ATCAGGAACAAGACAAGGATTCTCACTGATGCCAATTCAATTCAACGCAGTACTAAAAGTCTTAATCAGAGTAGTTAGGCAAGAGAAAGAAACAAAGTCA
TCCAAATTGGAAACGAGTTAAAATGTCTCTGTTTGCAGGTGACATGATCTTATATACAGAAATCCCTAAAGACCCCACCAAAAACTGTTAAAACTAACAA
ATTCCATGAAGCTGCTGAACAAAAAATCAGTTCTCTTTCTATACACTAGATAGAAACTATTCAAAAAAGAAATGAAGAAAATCATGAGAGTCGCTTCCAA
GACGGCCGAATAGGAACAGCTCTGGTCTACAGTTCCCAGTGAGATCGACACAGAAGATGGGTGATTTCTGCATTTCCAACTGAGTTACCTGGTTCATCTC
ACTAGGAATGGTTGGAGAGTGGGTGCAGCCCATGGAAGGTGAGCCAAAGTGGGGGGTGGGGGAGTGTTGCCTCACCCAGGAAGTGCAAGGGGTCAGGGGA
TTTCCCTTTCCTAGCCAAGGGAAGCCATGAGTGACTGTACCTGGAGGAGCGGTACACTCCTTTCCAAATGCTGTGCTTTTCCCATGGTCTTCACAACCAA
CAGACCAGGAGATTCCTGGAGACCTGCAGACCAGGAGACCTGCCTGGCTTGGTGGTTCCCACACCCACAGAGCCTTGCTCGCTGCTAGTGAATCAATCTG
AGATTAACCTGGGATGCTGAAGTTTGGCAGGGGGAGGGGCGTCTGCCATTGCTGAGGCTTGAGAAGGCGGTTCTATGCTCACAGTGTAAGCAAAGCAACA
GGGAAGCTCTAACAGAGCAGAGCCCACCGCAGCTCAGCAAGACGTACTGCCTTTCTAGATTCCACCTCTGGGGAGAGGGCATATCTGAACAAAAGGCAGG
AGACAGCTTCTCCAGACTTAAATGTCCCTGACAGACAGCTCTGAAGAGAGCAGTGATTCTCCCAGCATGGCGTTTGAGCTCTGCTAACAGACAGACTGCT
TACTCAAGTGGATCCCTGACACCCGTGTAGCCTGATTGGTAGACACCTCCCAGTAGGGACTGACAGACACCTCATACAGGACATCTCTGGCTGGCATCTA
GAGGTTGCCCCTCTGGGACAAAGCTTCCAGATGAAGAATCAAGCAGCAATATTTGCTGTTCTGGAGCCTCTGCTGGTGATACCCAGGCAAACAGGGTCTG
GAGTGGACCTCCAGTAAACCCCAACAGACCTGCAGCTGAGGGGTCAGTCTGTTAGAAGGAAAACTAACAGAAAGGAATAGCATCAACATCAACAAAAGGA
CGTCTACACCAAAACCCCATCTGTAGGTCACCAACATCAAATAACAAAGGTAGATAAAACCACGAAGATGGGAAGAAACCAGAGCAGAAAGGCTGAAAAT
TCTAAAAACCAGAATGCCTCCTCTCCTCCAAAGGAACACAACTCCTTGCCAGCAAGGGCACAAACCTGGATGGAGAATGAGTTTGACAAGTTGACAGAAG
TAGGCTTCAGAAGGTCGGTAATCACAAACTTCTCCGAGCTAAAGGAGCATGATCTAATCCATTGCAAGGAAGCTAAAAACCTTGAAAAAAAGGTAAGACG
AATGGCTAACTAGAATAACCAGTGTACAGAAGAGCTTAAATTACCTGATGGAGCGGAAAACCACAGTACTAGACTTCGTGAAGCATACACAAGCTTCAAT
AGCCAATTCGATAAAGCTTAAGAAAGGATATCAGTGATTGAAGATCAAATTAATGAAATAAAGCCAGAAGACAAGCTTAGAGAAAAAAGAGTGAAAAGAA
ACAAAAAAAAAAGCCTCCAAGAAAAATGGGACTATGTGGAAAGACCAGATCTACGTTTGATTGGTGTAACTGAAAGTAATGGGGAGAATGGAAACAAGTT
GGAAAACACTCTTCAGGATATTATCCAGGAGAACTTCCCAAACCTAGCAAGGCAGGCCAACATTCAAATTCAGGAAATACAGAGAACACCAAAAAGATAC
TCTTTGAGAAGAGCAACCCCAAGACACATAATTGTCAAATTCACCAAGGTAAAAATGAAGGAAAAAATGTTAATGGCAGCCGGAGAGAAAGGTCAGGTTA
CCCGCAAAAGGAAGCCCATCAAACGAACAGTGGATCTCTTGGCAGAAACCCTAAAAGCCAGAAGAGATTGGGGGTCAACATTCAACATTCTTAAAGAAAA
GAATTTTCAATCCAGAATTTCATATCCAGCCAAACTAAGCTTCATAAGTGAAGAGGAATAAAATTCTTTACAGAGAAACTAATGGTGAGAGATTTTGTCA
CCACAAGGCCTGCCTCACAGGAGCTCCTGAAGGAAATACTAAACATGGAAAGGAAARGAGCAACCCATACCAGCCACTGTAAAAACATGCCAAATTGTAA
AGACCATCAACACTATGAAGAAATTGCATTAATTAATGGACACAATAACGAGCTAACATCATAATGACAGGGTCAAATTCACACATAACAATATTAACCT
TAAATGTAAATAGGCTAAAGGTCCCAATTAAAAAACACAAATCTTTATCCAATCTGGCAAATTAGATAAAGAGTGAAGACCCATTGGTGTGCTGTATTCA
GGAGACTCACCTCACGTGCAAAGACACACATAGGCTCAAAATAAAGGGATGGAGGAAGATCTACCAAGCAAAAAAAAAAGGCAAGGGGTGCAATCCTGGT
CTTTGATAAAACAGACTTTAAACCAATAAAGATCAAAAGAGACAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAACTATGCTAA
ATATATATGCACCCAATACAGGAGCACCCAGATTCATAAAGCAAGTCCTTAGTGACCTACAAAGAGACTTAGACTCCCACACAATAATAATGGGAGACTT
TAACACCCCACTGTCAATATTAGACAGATCAATGAGACAGAAAATTAACAAGAATATCCAGGATTTGAACTCAACTCTGGATCAAGTGAGCCTAATAGGC
ATCTATAGAACTCTCCACTCCAAATCAGCAGAATATACATTCTTCTCAGCACCACATCGCACTTATTCTAAAATTGACCACATAGTTGGAAGTAAAACAC
TCCTCAGCAAATGTAAAAGAACAGAAATCACAACAAACTGTCTCTCAGTCCAGAGTGCAATCAAATTAGAACTCATGATTAAGAAACTCACTCAAAACCA
CACAACTACATGGAAACTGAAAAATTTGCTCCTGAATGACTACTGGGTAAATAAAGAAATGAAGGCAGTAATAAAGAAGTTCTTTGAAACCAATGAGAAC
AAAGACACAACATACCAGAATCTCTGGGGCACATTTAAAGCAGTGTGTAGAGGGAAATTTATGGCACTGAATGCCCTCAAGAGAAAGCAAGAGACATCTA
AAATTGACACCCTAACATCAAAATTAAAAGAACTAGAGAAGCAAAAGCAAACAAATTCAAAAGCTAGAAGACAAGAAATAACTAAAATCAGAGCAGAACT
GAAGGAGATTGAGACACAAAAAAACCCTGAAAAAAATCAATGAATCCAGGAGCTGGTTTTTTGAAAAGTTCAACAAAATTGATAGACCACTAGCCTAGCA
AGACTAATAAAGAAGAAAAGAGGGAATAATCAAATAAATGTAATAAAAATGATAAAGGGSTATCACCACCGATCCCACAGAAATACAAACTACCATAAGA
GAATACTATAAGCTCCTCTAAACAAATAAACTAGAGAATCTAGAAGAAATGGATCAATTTCTGGACACATACACCCTCCCAAGACTAAACCAGGAAAAAG
TTGAATCTCTGAGTAGTCTAATAACAGGTTCTGGCATTGAGGCAATAATTAATAGCCTACCAACCAAAAAAAGTCCAGGACCAGACAGATTCACAGCCAA
ATTCTACCAGAAGTCCAAAGAGGAGCTGGTAACATTCTTCTGAAACTCTTCTGATGAGTAGAAAAAGAGGGAATCCTCCCTAACTCAGTTTATGAGGCCA
GCATCATCCTGATACAAAAGCCTGGCAGAGACACAACCAAAAAAGAGAATTTTAGGCCAATATCCCTGATGAAGATCAAGGAGAACATCCTCAATAAAAT
ACTGGCAAACCAAATGCAGCAGCACATCAGAAATCTTATCCACCACAATAAAGTAGGCTTCATTCCTGGGATGCAAGGTTGGTCCAACATTTGCAAATCA
ATGAATGTAATCTATCACATAAACAGAACCAACAACAAAAACCTCATGATTATCTCAATAGATGCAGAAAAGACCTTCGACAAAAATTCAACGCCTTTCA
TGCTAACAACTCTCAATAAACTGGGTATTGAGGGAACATATGTCAAAATAATAAGAACAATATATGACAAACCCACAACCGATATCATATCAAATGGGCA
AAAACTGGAAGCATTTCCTTGGAAAACTGGCACAAGAAAAGGATGCCCTCTCTCACCACTCCTATTCAACATAGTATTGGAATTTCTGGCCAGGGCAATC
AGTCAAGAGAAAGCAATAAAGGGTATCCAAATAAAAAGAGAGGAAGTCAAATTGTCTCTGTTTGCAGATGACATGATTGCATATTTAGAAAACTCCATTG
TCTCAGCCCAAAATCTTCTTAAGCTGATAAGCAATTTCAGCAAAGTTTCAGGATACAAAATCGATGTGCAAAAATCACAAGCATTGCTGTAAACAAATAA
GAGACAAGCAGCCAGATTATGATCGAACTCCCATTCCCAATCACTACTAAGAAAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCT
TCAAGGAGAACTATAAACCACTCCTCAGGAAATAAGAGAGGACACAAACAAATGGGGAAACATTCCATGCTCATGGATAGAAGGAACCAATATTGTGAAA
ATGACCTTCCTGTTCAAAGTTATTTATAGATTCAGTGCTATCCCCATCAAGCTACCACTGACTTTCTTCACAGAATTTGATAAATCTCCTTTATAGTTCA
TATGAAATCAAAAAGGACCCCGCATAGCCAAGACAATCTTGGGCAAAAAGAAAAAAGTTGAAGGCACCACGCTACCTGACTTCAAATTGTATTACAAGGC
TAAAAATCAACTCAAGATGGACCAAAGACTTAAACATAAAACCTAGGACCATAAAAATYCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCAT
GGGAAAAGACTTCATGTCTAAAACACCAAAAGCTATGGCAACAAAAGCCAAAATTGACAAATARGAGCTAATTAAACTAAAGAGCTTCTGCACAGCAAAA
GAAACTATCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCCGTCTATCCATGTGACAAAGGGCTAATATCCAGAATCTACAAGAACT
TAAAGAAATTTAGAAGACAAAGCAAAAAACCACATCCAAAAATTTGCAAAAATATGAACAGGCACTTCTCAAAAGAAGAAATTTATGCGGCCAACAGACA
TATGAAAAAATGCTCATCATCACTGGTCATTAGAGAAATGCAAATCAAAACCATAATGAGATACCATCTCACACCAGTTAGAATGGCAACCATTAAAAAG
TCAGAAAACAACAGATGCTGGAGAGGTGTGGAAAAATAGGAATGCTTTTACATTGTTGGTGGGAGTATAAATTAGTTCAATCATTGTGGAAGACAGTGTG
GTGTTTCCTCAAGGATCTAGAACTAGAAATACTATTTGACTTAGCAATCCCATTATTTGGCATATACCCAAACAATTATAAATCATTTTATGATAAAGAC
ACATGCACATGTATTTTTATTGTGGTACTATTCAGAAGAGCAAAGACTTGGAACCAACCCAAATATTTATCAGTGATAGACTGGATTAAGAAAATGTGGC
ACATGTACACCATGGAATACTATGCAGCCAGAACAAAAGGATTTGTTCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAACCATCATTCTCAGCAAAC
TATCACAAGATCAGAAAACCATACACCACATGTTCTCACTCATAAGTGGGAGTTGAACAATGAGAACACATGGACACAGGGAGAGGAATATCACACACCA
TTGCCTGTCGGGGGGTGGGGGTCTAGGGGAGGGATAACATTAGGAGAAATACCTAATGTAGTGACGGGTTGATGGGTGCAGCAAACCACCATGACACGTG
TATACCTATGTAAAAAAACTGCACATTCTGCATATGTAACCCAGAACTTAAAGTATAATTAAAAAAAGAAAATAAAATCATACCATTTGTAATGGCACCA
ATAAGAATAAAATATATAGAAACAAATTTAACCAAGGATGTGAAAAATCTGRACCCCAAAATCTATAGGAGAGTGATTAAGGAAACTGAAAAAAAGAAAT
AATTGAAAATATATCTTGTGGTTCATGGATTAGTAAAATCAATATTGCCAAAGTGTCCATATTGTTTAAAGCAACTAGAGATTCAATGCTATCTCTATCA
AAATTCCAACATCATTCTTACAGAAATAGAAAAAAATTAAACCTCAATTATCTGTCTCAATTTTGAACAAGAATAACATAGCTAGTTGCATCCGAGTTGC
TGATTTCAAATTATATTATACAATTATAGTAATCAAAACAGCATGGTACTGGCATAAAAACAGACACATAGAACAGTGGAACAGAATAGAAAGCCCAGAA
ATATAACCTAAACTCTATGGCATATTGATTTTTCATTAAAGCATCAGGAATTGACAATAAGAAAAGGATAGTGTGACCTATAAGTAGTGATGGGAAATTG
AATATCTATATGAAAAAAATGAAACTGGATCCTTATCACAAACCATACACAAAATAAACTCAATATGAATTAAATATTTAAATGTAAGACCTGAAACCAT
AAATCTTAGAGAAGAAAATATAAGATTAAAAACTCCATAATATTGATTTGGCAATAATTTTTTTAAGCTAACCCCCAAAGCAAAGGTAACAAGAGCAAAA
ATAAATAATTGGGACTATATCAATCAAAAAAGTTTGCTTCACTGTAAAGGAAACCATCAAGAAAATGAAAAGCCATCCTAGAGGATGAGATAATATATGT
GTAAGCCATATATGTGATAAAGGGTTAATATTCAAAAAATATGAGGAACTCATACAACTTAAAAACAAAAAAGAAATAATCTGATTTTTTAAAAATGACC
AAAAAACCTGAGTTGCCATTCTTCCACGGAAAACTTACCAACGATGAGCATGACTATAAAAAGGTTTTTTTGTTGCCTTTTTTTTTTTTTTTTTGAGACA
GAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCTACCTAGGCTCGCTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCC
GAAGTAGCTGGGACTACAGGCACCTGCCACCACGCCTGGCTAATTTTGTTTTTTTTTTTTTGGATTTTTAGTAGAGACGAGCTTTCACCGTGTTAGCCAG
GATGGTCTCATCTCCTGACCTTGTGGTCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATCACGCCTGGTCAATATAAAATGCAA
ATCTAAACTACAATGATATATCACCTTACATCTGTTAGGATGACTATCAACAAAAAATCAAAAGATAAGCATTGGTGAAAATGTAGTGAAAACAGATCTC
TTATACATCATGGATGGAAATGTAAATTGGTATAGTCATTATGAAAAACAGCATGGATAGAGGTCTCCCAAATAATTAAAATAGAAATACCATATAATCC
AGTGATTTTAGTTCTGTGTATATATCTAAAAGAGAGAAAAATTACTATTTCCAAGAGATATAGGCATTCCCATGATCGTTGCAACATTATTTGCAATAGC
TAAGATATGGAAAACACCCAAATGTCAGTTGATGGATAAATAAATAAAGAAAATGGGGTGTTTGTATGTCTGTGTGTGCATGTATGTGTGCATGCAGTGG
AATATTATGCAACCTTACAAGAGAAGGAAACTCTGCTATTTGTGGTACAATAGATGAACCTGATGGACTTTATGCTCTGAGAATTAATCCAGACACAGAA
AGACAAATATTGCATGTTTCCACTTATATGTGAAATCTTAAGAACCTGAAGTAATAGAAACATAAAGTAAATAGGTGATTTTCAGGGGTTAGAGGTGGGG
GAAATAGAAAAATATTGGTCAAATTTGCTAACAGAGTAAATCTTAAGTTATCTCATTCCCCCCATATAGGTAACTATGTGAGGTGATGGATATATTAATT
AGCTTGATTGTGGTAATAATTTTACAATGTACACATGTATCAAAACACCACATTGTATACCTTGAATAAATGAAATTTGTATTTGTTCATTATACCTTAA
CAAAGCTGGAAAAAATATTTAAAGAATTATTCAAGCTTCTGTAGGACAATCTTCCTTTCTACTGTTATTTGCTTGTGGTAAAAAATTTATTTTTACAAAT
TTTAATAATAGTGACTGAAATATCACACTTAAAATCTAATAATATTTACCATTTGGAATTACWAATTTGTTTATATTAGTATTTGCAGAGTAAACACATG
AATAATATAAATATATGTAGTGTAATATAACTTCAAACAATCATTGATATGTTTAAGGATTTTCCTAGCATTTTTTACTTTAAAAACCCTTCAAAATAAT
TTTGAAAGAAGAAAACGCAGTTGAAAAACTATTACCTTATGTCAAGACCTATTATAAAGCCATAGTAATCAATACAGCAGAGTATCCTTGTAATGAAAGA
CATTCAGATGAATGAAACAGAAAATAGAGTTCAGAAATAGACCCATGCATATAAGGGCAAATGCTTTTTCACCAAGGTACCAAGACAATTTAATTTAAAT
GGTAATATTTTCAACAAAATGTGCCAAAATAATTGCATTAAAAATGAATCTTGATCCTAAACATACATCAGCTACAAAACTTAACTTGAACTGAGTTATT
GAGCTAAAAACTATCAAAAGTGTAGAAGAAACGATAGTAAAATTTTTTGGGATCTTAGGTTTGGCAAAGATTTCTTAAACAGAACAAAATTAAGCACAAA
TTATAAAACAAAAGATCAATATATTGGAGTTCATCAAAATTAAATGATTTGCTCTTGAAAACACAGTGATGTAAATGAGAAAATGGCAAAACATGTATTT
AGCAAAATACTTCATATCAAGAATCTACAAAAAATCTTAGAAGTCAGTAATAATAAGTCAAGAATTAGAAATGAGTGAAAAATTTAAACAAACACTAGGG
ATCAAAGGATATGTGTGTGTGTGTGTGTATATATATATGAATGGTAAATAAGTGTATAAAATATGTTTAGTATCATTAGTCATCAGAAAAGTKCAAATTA
AAATTTTAATATGATAATATATCACACTCACAAGGCGGCTAAAAAGTAAAAAATGACAACCACAAGTGTTGGTGAGAATGTAGTGCAACTAGAAATTTCA
TACACTGCTGTTGGGAATATAAATTGCTAAAACASTTTTAAAACTATTTTAGTAGCTATGTACAAAATTAAACATACATCTACCATAAAACCCAATCTTC
TAGATGTTTTTCTAAAATATAATAAAGCTTTTGTTTATACAAAGACTTGTATTAAATAATTATAAAATTACACTTGTAATTATAAAAACGTGAAGCCACA
CAAATGTCCATCAACAGAGAAATAATCAATAAATTTTCGTAGACCCATGCAGTGGGATTCTAATGAGCAATTAAAGGGCACATATTATAGATACATTAAA
CAACATGGATAAATCTAAAAAACAATTTTGTGGAGTGAAAAAATCTATATTTGGCCAGATCTGTAATCCCAGCTCTTTGTTAGGGCAAGGCGGGTGGATC
ATCTGAGGTCAGGAGTTTGAGAACAGCCTGGCCATCATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGCGTTCCTGTA
ATCCCAGCTACTCAGGAGTCTGAGGCAGGAGAACCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCAGAGACTGTGCCATTGCACTCTAGCMTGGGCA
ACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAAAAAAATAAGAAAAAATCTATATTTATACAGAATTCCAGAAAATCAAAACGAATA
TAAAGTGAAACAAATCAGATTAATTGTTGCCAGGGATGGGAGGTGGAATATACGGAACATGAAAAAAATTGTGGGTGGTTATGAATATATTTGTTATCTT
GATGTGTTTACCTTAAAGTAAATCACTCTGAGTTCAATGTGAAAGATAAGTTTAAAGGTAATGAGTTAGGAAGCAGGAATATTAGTTATGAGATTAATTC
ATAATTAAGATGAGAAATAACAAAGGCTTAACTAAGGCATTGCTGGTGATGTTGCAAGAAAGAAATTAGAATAAAATATGGAAATTAGGAAACATCAATT
TCATTAAATGAGTATATRTGGATGCTGAAAGAGAAGAATTAAGTATSACATCTGTATTTATTGTTTACGTGACTTKGTGTCATCAACTGAGTCAAATAAT
ATAGGATATGACATTTTAACTTATTGGAAATGGAATATATATATATATACTTTTCTTTACTCCTSCTACTAAATGCAACTAAAAATCTCAGGCATTGTAT
CTAAAACAAACATAAAAAGACTCCTAAAGGTGAAGAGAAGGTGGCAGACCAGCTCGGACTCTCAGGACCTGAGTAATGACACATTGGTGAGTATACTGGT
GTGTTGTTTTGCCTCATATATTCTAACTTGGAACTGAATAAACTGAAAACTCAGATATGTGCTTCAAAACACACTTGAAATAAATGAAACTATAAAATTT
CTCTGCAAAGATAGGGAAGATAATTATATCAATAATTGTATTATTAGATTAATTGTTATAAGTGAGAGAAGGTAAAGACATTCACCCAATATAAAATAAA
TTATTTGAATAACCCTATAATTTAAGAGTTAATTATATTCATGAATTAAAAATTGTTCCCCAAGGAAATCTCCAAACTCAGATAGTGTCAATGGAGAATT
ATACCAAAGGTTTAAAAAAGAAATAACACCAAATTCAAGTCTCTTTCAGAAAATGGAAGAGAACACTTTCTAACTAATTGTATGAAGGTAGTATTACTCT
GWTAACAAATCTAAATAAAGATAGTCTAATGAGGAAATCTCAGACTAATAGCTCTAATTAATTTGGATTTAAAACTTCTAACACAATATTAGTAAATACA
ATTTAGCAATATATTAAAATAATTATACACTATGACCAAGTGGGGTTTATTCCAAAGATACAAGGCTGGTTCATTACTCAAAATCAACAATTTATTCCCT
ATATATTAATAGACTAAGAAATAAAATTATATGACCATATTAATCAATGCAGAAGGAACATTTGACAAAATTCTACATTCATTCATAATAAAAACTCTCA
GAAAAATCAGAATATAGGGGAGCTTTCTTTATTTGAAAAATAGCTCTAAGAATACTACAGCTCACATCACACATAATGGTAAAAGTGTGAGAGCTTTTCC
CCTAAAATTARGAAACAGRCAAAAATTTTTATTCTCACCACTCTTAATTACAATGCTGGAAGTTCCAGACAATGCAGTTAGACAAGAAAAGTAAATAAAA
TTCTGATCAGAAAGGAAGAAATAAAATTCCTTCTAGTTGAAGTTGACATGATTGTCTATAGAAAATCGCAAGGAGTGTACAAAAACCTCCTAGAACTAAT
AAGTTATTTCATCAAGTTTGCAAGATAGAAGATCAGATTACAAAATTTAGATGTATGTCTATATGCTAGGAATGAACATGTGGACATTGAAATTAAAAGT
ACAATACCACTTAGAGTCACTCAAAAATTAAAATACTTAGTTGTAAATATAACAAAACATGCACTGGACCTGTTTACTGAAAACTACACAATGCTGATGA
AATAAATCAAGSGTTATCTAAATAAATAAAGAGATATGCCACATTCACGATTGGAAGATTGAACATAGTAAAGATGTTAATTCCTCCAAATTAATATACA
AATTTAACACAATTCTTGTAAAAACTTTTGCAAGATTTTTTATAACAACAGGTGATAAAAAGTAAATAAATTATAACATTTATAAGTGAAGGCAAAGAAA
ATAGAATAGCTTATTGTAGTAATTATTTAACAACAAATACATATATCTATCATCACATTATACAATTTATGTATATACAATTGTATCTGTCTATTATACC
TAAATAAATCTGGAAAAAAGAAAAGAAGAATAAAACATGAAGAATCTTTCTACCCAATTGTATTACATTATATTGCTCTTGGAATCAAGACTGTGTGGTA
TTGGAGGAAGGACAGAAACATAGATAAATGGAACCAAACACAAAACCCAGAATACACATATAGATATGCCAAATTGATATTTTATAAAGATGTAAAAGCA
ATTCAATGGAGAAAAGAGTCTTTTAAACACATGGTTTTGGAGCAATTAGAAATGTATAGGTCAACAAATTAAAATACTGAAATACTAAACATACTTAAAC
ATACTTAAAATACTAAACATAAACCCCACTCCTAGAAATTAATGCAAACTGGATTACAGTCTTAAATGTAAAACTATAATATTTCAGAAAAAAATAGGAG
AAAATTTTTAGAATCTAGTGTTGACAAAGAGTTCTTAGAATTGGCATTGAAAACATGATATATAAAAGGAAAAACTGATCAATTGTACCAGACCAACATG
AAAAACTTTTGTTTTGTGAACAAATCTGTAAAAAAGATAAAAATACAAGCTACAGATTCCACATATCTGGCAAAGGACTGGTTTCTAGATTATATACAGA
AATCTTAAAATAAACAATCCCATTAAAAAGTGGGCAAAAGACATGAACAGACACTTTTCAAAAGAAGACGCATATGCGGCCAACAAGCRTATTAAAAAAA
GCTCAATATCATTGATCWTTAGAGAAATGCAAATCAAAACCACAATGAGATACCATGTTGCATCAGTCAAACTGGCTATAATTATAAAGTCAAAAAATAA
CAGATGATGGTGAGTTTGCAGAGAAAAAGGAATGCTTATACACTGGTGGAGGTAGTGTAAATTAGCTCAACCATTGTGGAAGACAGTGTGGTGATTGCTC
AAAAACCTAAAAACAGCAATACCATTCCACTCAGCCATCCCATTACTGGGTATATACCCAAAAGTACATAAATCATTCTATCATAAACACGCATGCACAC
ATGTGTTCATTGCAGGACTATTCACAATAGCAAAGACATGGAATCAAACCAAATACCCACCAATGGTAGACTGGATAAAGAAAATGTGGAATTAGGAGTG
GCCAAGATGGCCATCTAGAAGTTGCTAATGTGTGTGCCTCTCACGGAGAGGAACCAAAGGGGCAGGTAAATAYAGCACCTTCAATTAAAATATTCAGGTA
CTCGCATTGGGACTATTCAAACAACTTGATCCATGGAGAACAGAGAAAAGCAAGGCAGGACGATGGCCCACTCGGGAGTGACACAGAGCCAAGGGAAMCT
CTCTCACCCAGGGAAGTGRTGAGTGAACATGTGACCACAGGAAACCACACTTCTTCTATGGAGCTTTGCAAACTTTGGGTCAGGTGGTCCCCTTGTGAAC
CCACTCCACGTGGGCCTTCAGTCTGACACAGAGAGCTACATGGAGTCTTGGCAAAGCATCCACTCAGGCATGCACGAGACTCAGGAGCTTTAGATACTCC
ASCTTTCTGGGCTTCCTGGCAGAAGTAACTGCAACCCCAGGTGGTTAGACCCCTGTACATACCCCTAAGAAAGAAGTTGAATCCAGGGGGCCAAGCTGCA
ATGGTCTGTGAACCCCACTTCCGTTGCACCTCACAGGATAAGACCCACTGGCTTAGGATTCCAGCCAGTTACAGGTAGCAGAGTTGTGTCTCTCTGTGAT
GGAGTTCCTAGGGGAAGGGGTGGGCTACTAACTCTGCTGTTTGGGTGACTTAGCCATATGGCCTTCAGGCTTTGGAGAGTCCAAACCAAACGGGGGCAGA
AGAGATCCCCCAGCACAGCACAGCTGCTTTACCAAAACATGGCCAGATTGCTTCTTTAATTGGGTCTCAAATCCCCTTTCTCMTCACTTGGGGGGTAACT
CCCAACCAAGGCCTGCAGCCCCCTCTGCCAGTGTTCTCTGGCCAGTAGAGATTTTAAAATTCCATGGGAAAGAGCTCCCAGAGGGAGGAGTGGACCATTA
TCTTTGTTGTTTGGATAACTTAGCCATTTTATCCTTTGGGCTTTGGAGAGCCCAAGCCAACCTGGGGTGGAAGTGGTACACCAGCACAGCACACTGCCCT
ATGAAAAAGTGGCCATACTGCTTTTTTACGTGGTTCCCTGATCCTGTCCTTCATCACAGTGTGGAGCCTCCCAACCAGGATCTCCAGCTACTTCCACTGG
TGTTCTCTGGCTGACAGAGGTTTCAGACCTCCCTGGGATGGAGCTCCCAGGGGTAGGGGTGGGCCGCCATCTTTGCTGTTTGAGCAAATTAGCTATTTCA
GCCTTCAAGCTTCAGAGTGTTTGAGGTGACTGGGGGCTGATGTGGACTCACAATACAGCTGCTCTATGAAAACATGGCCAGACTACTTTTTTAACCAACT
CCGTGATCCCATTCCTCCTGACTGAACAAGACCTCCCAACAGGGGTCTTTAGCCACCTCCTACAGGTGTGTTCGGGCTGGCAACAGGCCTCTGCCTCCCT
GGGATGAAGCTCTGAGAGGGAGGAGCAGGCTGCTATCTTTGTTGTTTGGCAGCCTTAACTGGTGATACTTCCAGGCATTGGAAAACCTGAGACAACTAGG
GACTGGAGTGGATGCTCAGCATACCCAGCGACCCTATGGAAAAGTGACCAGACTGCTACATGAGTGCCCATTCCCATATCTCCTCACCAGGCAGGTCCTC
CATGCCTGGGCCTACAGCCACTCTCTGCCAGAGCTGTCAAGCCTCTCTGGACGGAGCCGCCAGGGGCAACTGAAAGCCTCTCTGCCACTGCCTTTGCAGT
AGGCCTCTCCTTGTTACTCTTGAACTATAAAAAGAGCAAAGACCTTAAGTGCCTATCCACAMCTTTAACAACTGGTAGTTGACCCAAGGAGAGTAGGCCT
GTCTATCCCCATGGGTTCCACATACCCCACATTGCTCATCACTAGACAGGGAATCCCTGGCTGGGGCCCAGAGCACAGACCATCCATCCTGGGATGATTG
CACTGAGTGACTGCTGACCCACATCTCTCTGGGATGGAGGCTCCAGGAGACAAGCAAAGTGGTGGAACAGCAAGCCAGATGATGTGGAGCCCAGGGGGTT
TAGTGCAAGAGCATCTGTCGTGGAGCAGGGCCAGAGATGGTCATTCCTCTAGGCTCAACTTGCTCCCACAAGAGGCTTTAGCCCTAGGGAAACCATTGGA
CCTGATCTCTGCAGGGCAGCCTTGCACATCAGATGGGGCTAGTCCCACCTGAGCACTCCTTGGTCTGCTGGCCTCCTGGGGCCCCATCCTGGCCATGCCT
GCTTATAAGACAGTCTCAGGTGCSCTGCGAGCCCACACCATAGCTTCTGCACCAGTGGACCATGCCTGYCCCATGGAAAGCTCCAGCAAGGTGGCCCCTA
CAGGTGTGCACCAGCCTGCACATTCCCTTGCCATAGTGCAGCTTCTCATGAGCCCATGGCAAATCCCCAAGTCGTTTTTCTGGTGCATGTCTGCATGGCA
GGTTTTGCTTTCCTTGCCCCTTCAGCATGCAGGAGTGCACTACTTCCCCCATCCCAGCCTACTGCTATTGCAGACTTAGCCTTGGCTGGCACAGAGCCAG
TAAGCCCTGCCTCTGCCAGTGCTCTGCTTTTTTGTTAATGCTGCACAGAGAACAGGGAATTCTTTTACAACCTGGGCAATCACGCATGCTTGTGGGGCAC
AGAATAAGCACCCAGGCCTGCACTGGCCAGCATTCCACCACAAACCAGGACCATCTCCASTGCAACAGTGCACACAGTCTCTAGCAGGGTACTACCATAA
CCCCAACCCTTGGCTGCCTTGCCTCCACCACTATGGTGAATGCCCACAGGGAGGCAGGTACCCCCTGCATCCAGTAGCACTTTGCTGCAGCTGACACACC
TCAGTTCCCCCAGTGCAGTAGACTCCAAACCTCAAGGAGCCAGAGAACAAAGGGCCCAATACAAGTCCTGCAGATTTACAGCACGCAGCCCAGAAGTTCA
GAGATGAAGGTTGGATCCCCTAAAATCTTCCAGAAACAAAACCAGTTGGCTGAATCCACCTTATATCACAATCAAACACTCATGGTTATCAAATAGGATA
AAAGAAAAAAAATTAAAATGTCAGCAACATCAAAGATCAAAGGTAGATAAGCCCACAAAAATGAGATTCAGTGCACAAATGCTAAAAACTCAAAAAGCCA
GAATACCTTCTAGCCTCCAAATGACCACATTCACTCTTCAGCAAGGATTCAGAACTGAGCTGAGGCTGAGATGGCTGAAATGACAAGTACAATTCAGAAT
ATTGATAGGAGCAAAGTTCACTGAGCTATAGGAGTACACTGTAACTCAATGCGAGGAATCAAAAATTATGATAAAAAATTACAGAAGCTGACAGACAAAA
TAGCCAGAATAGAGACGAACATAACCAACCTGATAGAGCTGAAAAACACACTATAAAAATTTCATAATGCAATCACAAGTATTAACAGCAGAATAGACCA
AGTGGAGAAAAAAATCTTAGAGCATGAAGACTGGCTTTCTAAAATAAGGCAGGCAGACAAGAATAGATAAAAAAAGAATTAAAAGGAGTATATAACCCCC
CMAAAAAAATGAGATTATGTAAAGAGACCAAATCTATGACTGATTGGTGTACCTGAAAGAGATAAGGAGAATGGGACCAACTTGGAAAACATATTTCAGG
ATATCATCCATGAGAACTTCCCTAATCCAGCTAGAGAGGATAACATTCAAATTCAGGAAATGCAGAGAACCCCAGTAACATGCTCCACAGAAAGACCATC
CCCAAGACACATACTCATCACGTTCTCCAAGGTTGAAATGAAAGAAAAAATGTTAAAGGGAGGTAGAGAGAAGGACCAGGTAAACTACAATGGGAAGCCC
ATCAGTGTTAACAGTGGACCTCTAACTGGAAACCCTGAAAATAAAAGATTGGGTGTCAATATTCAATATTTTTAAGGAAAAGAAATTCCAACTCAGAATT
TCTTTTCTCACTAAATATGGAAAGAAAAGACCATTACCCACCACTACAAAAACACACTGAAGTACACAAACCAGTGACATTATAAAGCAACCACATAAAA
AAGTCTGCAAAATAACCAGCTAACAAGATGATGACAGGATCAAATCCACACATATCAATACTGATTTTAAATGTAAATGGGCTAAATGCTCCAATTAAAA
GACAGTGTGGCAAGCTGAATAAAGAATCAAGACCCATCAGTATGCTGTCTTCAAGAGCCCTATCTCATATGTAATGTCACACATAGGCTCAAATAAAAGG
AGGAAAATCTATCAAGAAAATGAAAAACAGAAAAAGAAGGGATTGAAATCTTAGTTCTTGACAAAGTAGAACTGACAAGCATCAAAAAGGACACAGAAAA
ACGTCAAATAATGGTGAAAGACTCAATTCAACAAGAAGATGTAACTATTCTAAATATATGCACCCAACACAGGAGCATCTCGATTTATAAGGCAAGTTCA
TAGAGACCTTCAAAGAGTCTTAGACTACCACACAATAATAGTGGGATATTTTAACACCCCATTGACAATATTAGACAGATTATTGAGGCAGAAAATTAAC
AAATATATTAATGACCTGAACTCAGCACTGGACAATATGGGCCTGATAGATATCTACAGAACTCTCCACCAAAAAAATAACAAAATATACATTTTTCTCA
CCACCACATGGGACATACTCTAAAACCAACTGTATAATTAGATGTAAACCTTTCATAAGCAAATTCAAGAGAACTGAAATCATAACAAATAGTCTCTAGG
ACTATGGTGCAATGAAACTAGAAATCAAGACTAAGAAGTTCACTCAAAACCATATAATTATATGGATATTGAATAATCTGCTCCTGAATGATTTTGGGGT
AAAAAATGAAATTAAGGGAGAAATCAGTAAGTTATTTGAAACTAATGAGAACAAAAATACAATATACCAGAATCTCTGAGACACAGCTAAGGCAGTGTTA
AGAGAGAAATTTATAGCACTAAATGCCCACAGAAAAAAGTTAGAAAGATCTCAAGTTAACAACCTAACTTCACAATTAAAAGAATCAGAGAACCAAGAGC
AAACCAACCCCAAAGCTAGTAGAAGACAAATAACCAAATCAGAGCTGAACTGAAGAAGAGATAAAGGCACAAAAAAACATTCAAAAGGTCAACAAATCCA
GGAGCTGCTTTTAAAAAAATAATAAAATAAATAGAATTCTAGATAGACTAATGAAGAAGAAAAGAGAGAATATTTAAATAAACACAATCAGAAACTACAA
GGGGATATTACCACTGACCCCGCAGAAATAAAATTATCAATGAATGTTATCAACACATTTATGCATATAAATTAGAAAATCTAGAGGAAATGACCAAATT
CCTGGACAAATACACCCTCGCAAGACTGAGCCAGGAAGAAATTGAATTCCTGAACAGACCAATAATGAGCTCTGAAATGGAGGCAGTAATAAATTTCCTA
TCAACCAATAAAAGCCCAAGACCAGATGGATTCATGGCTGAATTCTACCAAATGTACAAAGAAGAGCTGGTACCATTCCTATTGAAATTACTTTAAAAAA
TTGAGGAGAATGGACGCCTCCTTAATTCATTCTATGAGGYCAGCATCATCCTGATAGCAAAACCTGGCAGCAATGCAACAAAAAAAGAAAACTTCAGGCC
AATATCCTTGATGAACACTGATGCAAAAATCCTCATCAAAATACCAGCAAACTGAATTCAACAGCACATTGAAAAGCTTATTCAGATAATTGCTGGAGGT
GGGGGATTCAAGATGGCCTAATAGGAAAAACACCTGTGTGCAGTTCCCAGCGAGATCGATGCAGAAGGTGGGTGATTTCTGCATTTCCAACTGACGTACC
CGGTTCATCTCAATGGGACTGGTTGCACAGTGGGTGCAGCCCACGGAGGGTGAGCTGAAGTCAGGTGGGTTGTTGCCTCACCTGGGAAGTGCAAGGGGTY
GGGGAATTTTCTCCCCTACACAAGAGAACCCATGAGGGTCTAAGCCTGAGGAACTCCAGCACAGATACTGAGCTTGTCCCTCAGTCTTCACAACCTGCAA
ACCAGGAGATCCCCTCTGGTGCCTACCCCACCAAGGCCCTGGGTTTCAAGCACAAAACTGGGTGGCCAGTTGGGCAGTCACTGAACTAGCTGCAGGAGCT
CTTTTTTTCCCATACCCCAGTGGTGCATAGAATGCCAATGAGACAGAACCGTTCACTCCCCTTGAAATGGCAGCTGAAGCCAGGGAGCAAAGTGGTCTGG
CTTGGTGAGTCCCATCCACATGGAGCCCAGGAAACTAAAATCCAGTGGCTTGAAATTCTCACAGTCAGCACAGCAGCAATCTGAGGTCCACCTGGGACAT
TCAAGCTTGGTGGAGGGAGGGGCATCTGCCATTGCTGAGGCTTGAATAAGCGGTTTTATGATCACAGTGTAAACAAAGCTTCTGGGAAGTTCGAACTGGG
CAGAGCCCACTGTAGCTCAGCAAGGATGCTGTGGCCAGACTGCCAGATTTCTCCTCTCTGGACAGGGCATATCTGTAAAAAAGGTAGCAGCCCCAGTCAG
GGGCTTATAGCAGACATAAAAGTTCCTGCCTGATGGCTCTGAAGAGTACAGTGGACCTCCCAGCACAGTGTTCGTGCTTTGCTAAGGGTCAGACRGCCTC
CACAAGTGAGTCCCTGACCCCCGTGTGTACTGACTAGGAGACACCTCCAAGTAGGGGCCAACAGACATCTCTTACAGGAGAGCTCTGGCTGGCATCTGGA
AGGTGTACCTCTGGGTCAAAACTTCCAGAGGAAAGAACAGACAGCAATCTTTGCTGCTCTGCAGCCTCCACTGGTGATACCCAGGGAAACAGGGTCGGGA
GTGGACCTCCAGCAAACTCCAGCTGACTGGCAGCAGAGGGGCCTGACTGTTAGAAGGAAAATAAACAAACAGAAAGGAATAGCACATCCACTCAAATGCC
CCATCTGAAGTTCACCAACATCAAAGACCAAAGGTAGATAAATCYACAAAGATAGGAAAGAAAAAAAAAAGTGCTAAAAGGATATAAATACCAAAATCCA
GAATGCCTCTCTTCCTCYGAAGGATCACAACTCTTCACCAGCAAGGGAACAAAACTGGACAGAGAATGCATTTGATGAACTGACAGAAGTAGCCTTCAGA
AGGTGGGTAATAACAAACTCCCCTGAGCTAAAGGAGCATGTTCTAACCCAATGCAAGGAAGCTAAGAACCTTGAAAAAAGGTTAGCCGAATTGCTAACTA
GAATAACTAATGTAGAGAAGAACATATATGATCTGATGGAGCTGAAAAACACAGCATGAGAACGTGAAGAATATACAAGTATCAATAGCTGAATAGATCA
AGCAGAAGAAAGGATATCAGTGATTGAAGACCAACTTAATGAAATAAAGAGAGAAGACAAGATCAGAGAAAAAAAAAAAGTATAAAAAGAAAGAACAAAC
ACTCCAAGAAATCTGGGACTATGTGAAAAGACCAAACCTGTGTTTGATTGGTGTATCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACACTCTT
CAGGATATTATCCAGGAGAACTTCCCCAACCTAGAAAGACAGGACAACATTCAAATTCAGGAAATGCAGAGAACACCACAAAGATACTTCTAGAGAAGAG
CAACCCCAAGACACATAATTGTCAGATTCACCAAGGTTGAAATGAAGGGAAAAATGTTAAGGGCAGCCAGAGAAAAAAGTCAGGTTACCCACAAAGGGAA
GCCAATCAGACTAACAGCAGATGTCTCTGCAGAAACCCTACAAGTCAGRAGAGAGTGGGTGCCAATATTTGGTGTTCTCAAAGAAAAGAATTTTCAAACC
AGAATTTCATATCTAGCCAAACTAAGCTTCATAAGTGAAGAAGAAATAAAATCCTTTACAGGCAAGCAAATGCTGAGGGATTTTGTCACCGCTAGATCTG
CCTTACAGAGCTCCTGAAGTGAGCACTAAACATGGAAAGGAAAAACAGTTACCAGCCAATACAAAAACATACCAAATTGTAAAGAACATCAACACTATGA
AGAAACCGCATTAACTAACCAACATCCAGCAAAACAACCAGCTAGAATCATAATGACAGAATCAAATTCACACATTACAATATTAACCGTAAATGGAAAC
AGGCCAAATGCCCCAATTAAAAGACACAGACTGGCAAATTGGATAAAAAGTCAAGACACCTCAGTGTGCTGTATTCAGAAGATCTACCTCAWGTGCAAAG
ACACACATAGGCTCAAAATAAAGGGATGGAGGGATACTTATCAAGTGAATGGAAAGCAAAAAAGAACGTGAGTTGCAGTCCTAATCTCTGATAAAACAGA
CTTTAATCCAACAAAGATCAAAAGAGACAAAGAAGGGCATTACATTTTGGTGAAGGGATCAATGCAGCAATGAGAGCTAACTATCCTAAATATATATGCA
CCCAATACAGGAGCACACATATTAATAAAGCAAGTTTTTAGAGACCTAGAAAGACTTAGACTCCCACACAATAATAATGGGAGAATTTCACACTCCACTG
TCAATATTAGACAGTTCGAGGAGACAGAAAATTAACAGTGATATTCAAGACTTGAACTCAGCTCTGGAGCAAGCCGACCTAATAGACTTCTACAGAATTC
TCCACCCCAAATCAACAGAATATATATTCCTCTCAGCACCACATAGCACTTATTTTAAAATTGACCACATAATTGGAAGTAAAACACTTCTCAGCAAATG
TACAAGAATGGAAATCATAACAAACTGTATCTCAGACCAGAGTGCAATCAAATTAGAACTCAGGATAAAGAAACTCACTGAAAACCTCACAACTACATGG
AAACTGAACAACCTGCTTCTGAATGAYTACTGGGTAAATAATGAAATAAAGGTAGGAATAAAGACGTTCTTTGAAACCAGTAAGAATAAAGACACAACGT
ACCAGAATCTCTGGACACATTTAAGGCAGTGTTTAGAGGGAAATTTATAGCACTAAATGCACACAAGAGAAAGCAGGAAAAATCTAAAATTGATGCCCTA
ACATCAAAATTAAAAGAACTAGAGAAGCAGAAGCAAACGAATTCAAAAGCTAGCAGAAGACATGAAATAACTAAGAGCAGAGCAGAACTGAAGGAGATAG
AGGCACAAACAACCCTCCAAAAAATCAATGAATTCAGGAGTTGTTTTTTTAGAAAAATCAACAAAATAGATAGACTGCTAGCCAGACTAATACAGAAGAA
AAGAGAGAAGAATCAAGTAGACAAAATAAAAAATGATATAGGGGATATCACCACTGATCCCACAGAAATAAAAACTACCATCAGAGAATACAATAAATGC
CTCTAGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATCCCTGGACACATACACCCTCACAAGTCTAAGTCAGAAAGAAGTTGAATCCCTGAATAG
ACCAATAACAAGTTCTGAAATTGAAGCAGTAATTAATAGCCTACTAACCAAAAAAGTCCAGGACCAGACAGATTCACAGCCGAATTCTACCAGAGGAACA
AAGAGGAGCTGCTACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGCATCCTCCCTCATTTCATGAGGCCAGAATCATTCTGATATCAAAA
CCTGGCAGAGACACAACAAAAAGAGAAAAMTTCAGACCAATATTCCTGATAAATATCGATGTGACAATGCTCAATAAAATACTAGCAAACTGAATCCAGC
AGCACATCAAAAAGATTATCCACTATGATCAAGTTGGCTTCATACCTGGGATGCAGAGCTGGTTCAACATATGCAAATCAATAAACGCAATCCATCACAA
AAACAGAACAAATGAGAAAAACCACATGATTATCTCAATAGACACAGAAAAGGCCTTTGATAAAAATCAACGCCTCTTCATGCTAAAAGCTCTCAATAAA
CTAGGTATCGATGGAACATATCTCAAAATAATAAGAGCTATTTATGACAAACCCACAGCCAATATCATACTGAATGGGAAAAAACTGGAAGCATTTCCTT
TGAAAACTGGCACAAGACAAGGATGCCTCTCTCATCACTCCTATTCAACATAGTATTGGAAGTTCTGGCCAGGGTAATCAGGCAGGAGAAAGCAATAAAG
TGTATTCAGATATGAAGAGAGTAAGTCAAATTGTCTGTGTTTGCAGATTACATGATTGAATATTTAGAAAACCCCATCATCTCAGCCCAAAATCTCCTTA
AGCTGATAAGCAACTTCAGCAAAGTCTCAGGACACAAAATCAATGTGCAAAAATCACAGGCATTCTTATACACCAATAACAGACAAACAGAGAGCAAAAT
CATGAGTGAAGTCCCATTCACAATTACTACTAAGAGAACAAAATACCTAGGAATTCAACTTACAAGGTATGTGAAGGACCTCTTCAAGGAGAACTACAAA
CCACTGCTCAATGAAATAAAAGAGGAGAGAAACAAACTTTTACATTTATCTCTTCATTGCTGAACATATTTGTCAAGATTTCAAAATGTCCAGATGTGGA
AAGCAAGGTGGAAAGGCCTGAGCCAAGGCTAAGACTTGCTCTTCTAGGGTTGGGCTCCAGTTCCCCGTGGGTCAAGTAGCTCCTGACAGAAGCAAAAAAC
ATGGAAAAAGACAACCAGTACCAGCCACTGCAAAAACACGCCAAATTGTAAAGACCATCGATGCTAGGAAGAAACTGAATCAATTAACAGTTAAAATAAC
CAGCTGACATCATAACGAGAGGATCRAATTCACACATAACAATATTGACCTTAAATGTAAATGGGCTTAAAGCCCCAATTAAAAGACAAAGACTGGCAAA
TTGGATAGAGTCGAGACCTGCTAGTGTGCTGTATTCAGGAGAACCATCTCACGTGCAGGGACACAGATAGGCTCAAAATAAAGGGATGGAGGAAGATCTA
CCAAGTAAAAGGAAAGCCAAAAAAAGAAGCGGTTGCAATGCTAGTCTCTGATAAAACAGACTTTAAACCAACAAAGATCAAAAGAGACAAAGAAGGCCAT
TACATAATGGTAAAGGGATCAAATCAACAAGAAGATCTAACTATCCTAAATATCTATGCACCCAATACAGGAGCACCCAGATTCATAAAGCAAGTCCTTA
GATACCTACAAAGAGACTTAGACTCCCACACAATAATAATGGGAGACTTTAACACCCCACTGTCCATATCAGACAGATCAATGAGACAGAAGGTTAACAA
GAACATCCAGGAATTGAACTCACCTCTGCACCCAGTGGACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTCTACTCAGCA
CCACATCACACTTATTCTAAAAATGACCACATAATTGGAAGTAAAGCACTCCTTAGCAAATGTAAAATAACAGAAATCATAACAATCTGTCTCTCAGACC
ACAGTGCCATCAAGTTAGAATTCGGGATTAAGAAACTCACTCAAAACCACACAACTACATGGAAACTGAACAACCTGCTCCTGAATGACTACTGAGTAAA
TAATGAAATGAAGGCAGAAATAAAGATGTTCTCTGAAACCAACAAGAACAAAGACTCAACATACCAGAATCTTTGTGACACATTTAAAGCAGCGTGTAGA
GGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGAAAAAATCTAAAATCAGCACCCTAACACCACAGTTGAAATAACTAGAGAAGCAAGAGCAAA
CAAATTCAAAAGCTACCCGAAGGGAAGAAATAACTAAGATCAGAGCAGAACTGAAGGAAATAGAGACACAAAAAACCCTTCAAAAAAATCAATGAATCCA
GGAGCTGGGTTTATGAAAAGATCAACAAAATTGACAGACTGCTAGCAAGACTAATATAGAAGAAAAAAGAGAAGAATCAAATAGACACAATAAAAAATAA
TAAAGGGGATATCACCACCAATCCCACAGAAATACAAACTACCTTTAGAGAATACTATAAGCACCGGTACACAAATAAAGTAGAAAATCTAGAAGAAATG
GATGAATTCCTGAACACATATACCCTCCCAAGACAAAACCAGGAAAAAGTTCAATCTCTGAATAGACTAATAACAGGCTCTGAAACTGAGGCAATAATTA
ATAGTTTACCAACCAAAAAAAGTCCAGGATCGGACGTATTCACAGCCGAATTCTACCAGAGGTACAAAGAGGAGCTGGTACCATTCCTTCTGAAACTATT
CCAATCAATAGAAAAAGAGAAAATCCTCCCTGTCTCATTTTATATGGCCAGCATCAGCCTGATACCAAAACCTGGCAGAGACACAACAAAAAAAGAGAAT
TTTAGACCAATATTCCTGATGAACATCATTGGGAATATCCTCAGTAAAATACTGGCAAACCGATTCCAGCAGCACATCAAAAAGCTTATCCACCACGATC
AAGTTGGCTTCATCCCTGGGACGCAAGGCTGGTTCAACATATGCAAATCAATAAATGTGATCCATCACATAAACACGACCAATGAGAAAAACCACATGAT
TATCTCAATAGTTGCAGAAATGGCCTTCAACAAAATTCAACAGCCTTCATGCTAAAACTCTCAATAAACTAGGTATTGATGGAATGTATCTCAAAATAAT
AGGATCTATTTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAACCTGGAAGCATTCCCTTTGTAAACCAGCACAATACAAGGATGCCCTCTCT
CACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCTAGGGCAATCAGGCAAGAGAAAGAAATAAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATT
GTCTGTGCTTGCAGATGATATGATTGTATATTTAGAAAACCCCATTGTCTCAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAATCTCAGGA
TACAAAATCAGTGTGTAAAAATCACAAGCATTCCTATACACCAAGAACAGACAAACACAGAAACAAATCAAGAGTGAACTCCCATTCACAATTGCTACAA
AGAGAATAAAATACCTAGCAATCCAACTTACAAGGGAGGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAGTAAAACCGGAGCAAAA
CAAATGGAAGAACATTCCGTGCTCATGGATAGGAAGCATCAATATCGTGAAAATGGCCATACTRCACAAGATGATTTATAGATTTAATGCCATCCCTATC
AAGCTCCCAATGACTTTCTTCACAGAATTGGAAAAAAACTACTTAGTTTCCTATGGAACCAAAAAAGAGCCCTCATTGCCATGACAATCCTAAGCAAAAA
GAGCAAAGCTGGAGGCATCACGCTACCTGATTTCAAACTATACTACAAGGCTAGAGCATCCAAAACAGCATGGTACTGGTAACAAAGAAGATATATGGAC
CAATGGAACAGAACAGAACAGAGGCCTCAGAAATAACACCACACATCTACGGCCATCTGATCTTTGACAAACCTGACAATAACAAGAAATGGGGAAAGGA
TTCCCTATTTAATAAATGGTGTTGGGAAAACTGTCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATAGAAGAACTAATTCAAGA
TGGATTAAAGATTTAAATGCTAGACCTAAAACCATAAAAACCCTAGAAGAAAAAACCTAGGCAATACCATTCAGGATAGAGACATGGGCAAGGACTTCAT
GACTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATTGCATCTAATAAAACTAAAGAGTTTCTGCACAGTAAAATAATAATAATAACAA
TAAAACAAAAAAAAACCTATCATCAGAATGAACTGGCAACCTACAGAATGGGAGAAAAATTTTTGCAATCTATCCACCTGACAAAGGGCTAATTGAATGT
ACAAAGAAGTTAAACAAATTTACAAGAAAAAAACAAAAAAACACATTAAAATTTGGGCAAAGTATAAGAACAGATACTTCTCAAAAGTAGACATTTATGC
AGCTAAGAGGCATATGAAAAAATGCTCATCATCACTGGTCATTAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACGCCAGATAGAATAACG
ATCATTAAAACGTCGGGAAACAACAGATGCTGGAGAGATGTGGAAAAATAGGAATGCTTTTACACTGTTAGGGGAGTGTGAATTAGTTCAACCATTGTGG
AAGACAATGTGGCAATTCCTGAAGGATCTAGAACTAGAATTGCCATTTGTCCCAGCAATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATTCT
ATGATAAAGAAACATGAACACGTATGTTTATTGTGGCACTATTCACAATAGCAAAGACTTGGAACCAACCAAAATGTCATCAATGATAGACTGGATTAAG
AAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGCAGGGACATGGATGAAGCCAGAAACCATAATTC
TCAGCAAACTATCACAAGAGCAGAAAACCAAACACTGCGTGTTCTCACTCATAAGTGGGAGTTGAACAATGAGAACACATGGACACAGGGAAGGGAACAT
CACACACTGGTGCCTGTTGGGGACTGGGGGACTAGGTGAGGGATAACATTAGGAGAAATACCTAATGTAGGTGACGGGTTGATGGGTGCAGCAAACCACC
AAGGCACGTGTATACCTATGTAACAAAACACGTTCTGCACATGTAACCCCAAACTTAAAGGATAATAATAATAAAAAAGAACCACAACAAAAAAAGAAAA
GCTTATTTATCATAATCAAGTAGGCTTTAATGCTGGGATGAGAGTTTGGTTCAACATATGCAAATCAATAAATATGATTCATCACATAAACAGAACTAAA
GACAAAAAACACGTWATTATCTCAATAGATGGAGAACAGGCTTTCAGTACAATTAAACATTCCTTCATGTTAAAAGTTCTCAACAAACAAGATTTTGAAG
GAACATACTTCAAAATAATGAGTCACTTATGACAAACTCACAGCCAACATCATACTGAATGGGCAAAAGCTGGAAGCATTTCCCATGAGAGCTGGCACAA
GACATTGATTCCCTCTCTGACCACTCCTATTTTACATAGTATTGGGAGTTCTAGCTAGGTCAATCAGGCAAGAGAATAAAATGACAGCATCCGAATAGAT
AGCAAGGAAGTTAATCTATAAAATATTGCTGAAGAAATTAAAGATAGCTAAATAATTGAGGGCTTATGTATGCATGTGTATATGTATATCTCATATTCAT
GATTGGAAGACCCCACTTTGAAAAAATGTCAGCTGTCCCCAAATTGGTCTATAGATTCAATGGAATCCTAATAAAAATCTAAGCAGATCTTTTTTTTTCT
GTACTCTGATTATAACATTTACACGGATATGCTAAGAATCTGAAATATCAAAAAACAGTCTTTAATAGAAGAAACAAAACGACTGGGCTTTCACTTTTTT
CACCTTTTGACTTTAATTAAAAAACCTTAATATCAAGCAAAAAAAATCCAATTAGAAAATGAACAGAAGACATGAAAAGATTTTTCACCAAAATGAATAT
ATAGATGTCATATAAGCTTATGAAACTGTTTTAGGCCCTAGGGAAATGCAAATTTAAACTATGTTAAGCTATCACTTTACACCTATTAGAATGGCTAAAA
TTTAAAAAAAAAATGGTGACTGTAAGAAATGCTGCTGAGCATGCAGTGAAACTGGATGACATATATTGCTGGTGGCATAAAATGGCATAGCCACTTTACA
AGATTATTTGGAAGCTTCAAAAAAAAAAAAACACTAAAAATGCATCTACCATATGGCCCAGCAATTGCACTCTTAGGTATTTATCTTAGAGAAATTAATA
CCTTTGTTCACACAAAAAGTTGTACATGAATGTTTACAGCAGCTTTATTCAATAATAACCAAAAGATGTAAATGAATAAAAACCTTACAGATATCCTTCA
ATAGTGAAAAGGTTAAACAAACCATGGCACATCCATGTAATGGAATACTAGGTAACAATGAAAAATAAATGATTATTGATACACATACAACCTGGCTGAA
TCTCCAGTGATTGTGCAGAGTGAAAGAAACAAACCCCAATTGGTTACAATACTGCACGATTTGTTTTATTTGACAATCTTGAAATGAAATCATACAAATG
GAGAACAGATTGGGGGTAGCTATGGAATAATGAGGGGATTGGGCAGTGGTGTGGACATAAAAGGACAACATGAGAGATCTGTGTTGTGAAGAAAATGTTC
TATATTAACTACAGTATTCTCATTATGACATTGTACTTATTTGGAGGATGTTACCATTGGGGGAAAATGAGTAAAGGGCACCTGGAATCTCTCTGTATTA
TTTCTTACAGCTTCTTGTAAATCTACAATTATCTTAAAATAAGAAGTTTAATTAAAATAATGTATGCAAAATAAGCTTATTTGGTGGTGGACATGGTCAA
AAGTTTATCATTTCCTATTTACTTACCTATTGTGTTACACTTATTAAGACACACCCACTTTTGCCTACTTTAAGCACAAGTTTATAGTTACTAAGACATA
CATTTGTTTTTATATTAGTTAGTATTTGGGAATGGGTAAYAAGAAATTTGATTTACATAGTTGTATATGTGCATGTGTGCATCCTCAGATATAAGTTCAT
GTTTTCATTATGAGTATATGTATTTTTATGTGTTTTTTAAATGTTTATTTTAGGTTTAGTGGTACATGTATAGGTTTGATATATTGGTAAATTGCATGTC
ATGGAGGTTTGGTGTGCAGATTATTTTGCCATCCAGGTAATTTGCATAGTACCAGTCAGGTAATTTTTTGGTCCTCAGCCTCCTCTCTCCCTCCACCTTC
AAGTAGGCTGTGGTGTCTGTTTTTCCCTTCTTTGTGGCCATATGTCCTCATTGTTTAGCTTCCACTCATAAGTGAGAACATGCAGTATTTGGTTTTCTGT
TCCTGTGATAGTTTTCTTAGGATAAGGGCCTCCAGCTCCATCCATGTTTCTCCAAAGGGCATTATCTCATTCCTGTTTATGGCTGTGTAGTATTCCATGG
TGTATATGTACCACATTTTTGTTATCCAGTCTAATGTTGATGGGCATTTCGGTTGATTACATGTCTTTGTTATTGTGAATAGGGCTGCAAAGAACATACA
GATGCATGTATTTTTGTGGTCGAACAATTTATATTCCTTTGTGTGTATACCCAGTAATGAGATTGCTTGGTCAAATGGTAATTCTTCTTTCAGTTCTTTG
AGAAATAAACAAAATGCCTTCCACAATGGTTGAACTAACTTATATCGCCTATAGCAGTGTATAAGCTTTCCCTTTTCTGTACAACCTCACCAGCATGTGT
TAGTTTTTTGACATTTTAATAATAGCCATTCTGACTATGTGAGATGGTATCTCTTCGTGGTTTTGATTTACATTTCTCTGACGATTAGTGATGATGAGCA
TTTTTTTAATGTTTTTTGGCCACTTGTATGTCTTCTTTTCAGAAGTGTCTGTTTATGTTTCTTGCTCACTTTTTAATGGGGTTATTTGTTTATTGCTTGT
TAAGTTTCTTAGAGATTGTGGATATTAGATCTTTGTTTGATGTTTGTGAATATTTCCCCCATTCTGTAGGTTGTCTGTTTACTCCGTTGATGGTTTCATT
CTTTCTGTGTGGGTTGATGTTCCTTCAACTGTAGTGTAATATGAGTATAATCAGTTGACTTCTTTTCTGAATGTTTTCAGCAGTCTAAGCATTTTTGCAG
GATCTTTATTTGTAGCTTAGTTCTTGTCCTTGGTTTCACTGGGGGATATATTAACAGTATTTTCGGTGTTGAAATTTGGTTGTAATCCACTAGATGGTGC
TTAAATGTAATGGTTAATAGGTACGCTCTTGCTTAGCCATGTGGCTCGCCTGTATTTCCTCATGATTGCCATCAAATTTTCTGTTACTGTTCTGAAAGTG
TAGGCTCCTCTCCCACWGAAGTGCTGTCTGTAGACCTCTGTTTGGCACTTGCGAGCTGTACAGCACAACCTTGTGGTGAGCTCATCTTTATTTTCCTTCC
CCACTTTTGAGGCAGCAGGGGACAAGACCTTGGCAGTGGCTATGGCAGAGGGTCTTTCCCGTGTCTTTTGGTGCTCTACCCTAGAGAAATTCAGAGCGGA
TATCAACTGGTGCAATCAGTCAAGGGTGGGGCAGCTGCGTTTTTGGCCCAAGCCATGGGAACCTGCCTGGGGATGGGAAGGGGATTGCGGAGGGAACAGA
CCAGCCTCTTCTCCTTATGGTGGCTGTGGCTTTCTGGAGGTGTGGTTAAAGCACTGTGCGTCTTTGCTTCTTTCCCAGTCTGAGGGCAGCAAGGGCACTA
CCATTGCAGTGGCAGGGGCAGAAAGGCTTTTGGTTGTCTCTGGGACCTCCATCTCAGAAAAAAACACAGAGTCACTGCTACTGGGGATGTTCAGCCAGGG
GGTGAGGCAACTGTGCTGTTGGCCTGAGGTGGGGACCCCGCTTGGGGAAGAGTSGGGGTTCGAGGGATAACAGGGAGGAGAGAGTGGGCTCTTCTTTGTA
TGGTGACTGTGTCTTGCTAGAAATGTGAGTAAAGCCCTCAGGATCTTCATTTCTTCTCCAGCCTGAGGGCAGCAGGGGAAGAACCACTGCAATGGCAGTG
GCAGAGGGGCTGTCAGTTGCCTCTGGGAGCCCCTCCCCCAGGGAAATACAAAGCCACTAGCAGAGGGAATGCTCWGCCAAGGGTGGGACGTCTGTGTAGA
TCCAGGCTTGGGGCCCTRCTTGGTGAAGAGTGTGGGGTGGGAGCCTACATGGAAGAGAGACTGGGCTCCTCTCTGTATGGTGGCTGCAGCGTGCTGGAGG
CTCCAGTGTAGCAACTCGACCTTTTGTTTTATTCCCTGGCCTGAATGCAGCAGAACAGTACCACTGCAGCTGCAATGGCAGAGAAGCTGTGGGTTGTCTC
TGGGATTTCCTCCTCAGAAACGCAGAGCTGCTACCGAGTAAAGTGTTTATGTGGAAGCAGAGTGATTGTGCTTGGGGCCCAGGTCAAGAGGCACTGCTCA
GTGAAGAGCAGCGGAGGTGGGGACACACGTGAAAACAGTCTGGCCGCTTTTCCTTTAAGGTGACTGCGCTGTGCTGTGGGTTCGCGTCAGTCCCCAACTT
CTATACTACCTCCAGAGCCTGATGAGAACATGAGCGTGGAAAAACGTCAGCTTGCCTGCTCCCTCTGGGAGCTCTGTCCCAGGGAAGTGTGGAGCTGCTT
CCAGCCTGAGAACTCAGGCAGGGCTGGGGTAGCCTTGTTAGTGTCCCAAGCTAATGGGCCTTATCCTGCGGCGTGCCCGGGAAGAAAGCCTGCAATCTGG
GCATGGTGGTGGGTGCTTATAATACCAGCTACTTGGAAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAAAGGTTGYARTGAGCCAAGATGGTGC
CACTGCACTCCAGTGGCGCTCCAGCCTGGGCGACAGAATGAGACACCATATCATAACAAAACAAAACAACAACAACAACAACAACAACAACAAAACCTGG
AATATTAYTCAGCTTTTAAAAAGCAGGAAATTTAACATYTATTTTAAAGATAAATCTTAATGGTCTTATGATAAGTGTAATAAGTCCATCATAAAAAGTA
TGAATCCACTTATACGAGTTAGCTAAAGTAGTTGCACTTTTAAAAAGAGAAAATAGAATGGCATTTGTAAAGGGCCAGTCAATGGGGAAAACAGGTAGTC
GATTCATGTATAGTATGTATTCATTTTGCAAGATAAAAATGTTCTGGTGATATGTTGCCAACAATGGCAATATACTTAACATGGTCTAACTATTAATATA
AAATTAAAATATTTAAGATTGTAAAAAAAAAACAGAAGCTTTACATCCATATGTGATTTAATCTTCATAACACCATATGGCAGCTGTTATTCTACTTTAC
AGATGAGAAAACACACCTAGGGACATTAAGTGATTTGTTCAAGGTCAAAAACATAATGAGTGCTGGATCTAGGATTTGGATTCAGGTCTGTCTGGTCAGA
GCCCAATCAGTGAGCATTCTTTGTACCTCAGGCTCACATATTTGTCATTTACAACTTAAATAAAGTAACAAAAGTTGGGCAAAGTAAATATTTTCATTTT
GACAAAACCTTTCTCTGGTAAGGAAGTTTCACTCAGCTAACAGGTTTTGCTCAGAACTGTAATGGAGCCTAGATTATGACAACCTGCTTTATCAGCTTTC
TTTACTGGATCTGCTAGATGTGCCTGTCATGATTAACCTGCTTTCTACCAGGTGCTTGAATTAGGCTAGAAGTGCTGTGATGACACTTTCAGTATCAACC
TAAGTTCTGCAGGTGAAAAGACAGTGACCTGGATGACGTTGTCATTTCACCTACCCAAGACCTTAAATGCCAAGCTCGAATCCCTATCTTCAACGCTCAT
TATCTCATAATCACATACCTTCAGCCTACAAACCTGTATTGACTTCTCATCAAGCCCTATGTCAGGCTCTGGCAATACAAAGAGGAATTAGAATGACCCT
GTTCTTCGAGGAGTTTATATCTAGATGGGGCATAGACACAAAAACCTAACACATAACAGAGGGTTGTAAGTGCTATGATTTTGTTAATCTGTGGAGTGCA
GGGTTACAAAAGAGTGGCATCACACCCAGTTGTAAGTTCAGGGAAGACTTACTGGAGGAGGTGGTACTTGTCCTGAACTAGATGAAGAGGTTGGGAAAGC
AGATGCAAAGATAAGGAGGGAAGAGAGAACTTTCGGATAGTTGTTTGTCAGGAGCTTAGCATGTGAGGGATAGAAGGGGTTAGGGATGAAGCATAGAGTT
TTTCAGACACCAGTCATGAGAGTCGAATGCTGGACAAAGTAGATGGGTCTTGAATCTGTGGAAAATGGAGAATTATTGCGGAGTTATTGGCAGGGGTGTA
ATATTGTCAGATTTACATATTAGAAAGAACACTCTATAAATAAAGGCAGAGTGATCAGCTAGATTATTTGTAGAAGTTCATGTAAACCTCAGTGAGATCT
GAGCCAGACTGAGTTGAGAAGGAAGGGCTGGATTCTGTCATGAGAATAAGAGAAATGGAAGAATCTGAAGTGATTCTAGATTTTTGGCATGGCTGACTGG
GTGGATGAAAATTCCATTTGTAGACCTGTAGGGGCAGCAGTCTGGGGGACAAAAGGATGAGTTTTGGACTTGTTGAGTTTGAACGATCTGGAAGACATTC
ACATGGATATGTCAAAAAAGGCATTTCAAGTGTCCAGTTTAGGAGACAGATGGGCTGGAGATTTGATGTTCATCAGTACTACCTGTTAGTGATCTTATAA
GGATTAAATAATATGCATATGGAAAATATATATATACTTGCCATTTAGTTGTTTGTTGAGCATACTGAATATTTGYATACAAAGGTATACTTACAACACT
TTTTTCACAAGCACAGCTGAAATAAACTATAACAACTACCACTTATACTATTTACCATAAATTGTGCTAAATGTTTTTACTTATTATCTAGTGTTTATGG
TAACCCTTTGATATAGGAGTAGTTATTCCCATTTTTTTTCTTATGAGTAAACTGACTAGGAGATATAGTGTAGGTTGGCCAGGGCTACACAGTAGCAGAA
CTGGGGAATTCCAAGGCCAGTGTTCTTTCTTATGACGCATTTTCTGTCTTGGGTTACAACAGCACTAACGACAGGTAGCATTGCACACAGGCAGCTGCTG
GGAAGTCTCCGCCCCCATCTCTGGCTAGGAGCCCTGCAGGTGATGATAAACAAGCTCCTGTGGAATTGTGGGTAGACACTGGACTTGTAAACGAAAAGCT
TCATAAGTCCCTCTTTGCTTAGTACTTTTCTCGTCCTTTCCCCAGGGTGCACGTAACCCTCAAGCACTAGGACCGTGCGGAATCCAGGCTGCGATGGCAC
CTTCATTTACCGCCCGCATTCAGTTGTTCCTCTTGCGGGCGCTAGGCTTTCTCATAGGCTTAGTAGGCCGAGCAGCTTTAGTCTTAGGGGGYCCAAAGTT
TGCCTCAAAGACCCCTCGGCCGGTGACTGAACCATTGCTTCTGCTTTCGGGGATGCAGCTGGCCAAGCTGATCCGACAGAGAAAGGTGAGAATGCAATTC
AGAAGAGGCTGGAGGGACAGGTCTTTTAGCAGGATCCAGGAAGCTTAGTGGTGGCGGTGGTTGTGGTTTCCTTTCCATTCTCTACTAGGGCGACTTAGGA
GAGGCATTTATTGGGGATGAAGGGAGACTTCTGGGTGTTGTAGTACGTTTATTTTTACCAAGGACATTTACTGTGGGCATGGGTTGGACTATTTTGGTAC
CGTCATAGTCCTTCCTATCCATTTGTCCTATTTGTGCATAATTACTGTGTGTGGGGTAAAGCAGGTGTGAATTTCAAACTGATTCTCAGCTATGGAAAGT
CAGTCTCTCTCTTTCTCTCTCCCTCTCCCTTTCTCTCTCTCTATTCTTCCGTCTCTCACAGGCCCCAGATCAACCTGCTGCTTACCATTCAACCAATTCT
TTTTAAAATTGATTTAAAGTAAAAGTAGTACTTGGTCTAGGATAGTAAAAGCTGCGTCTACCATATATTTATTGCATAGTATATGTGAAATACTCTGCCT
GGGTACTTAAACATATTCTATTTCACGGATGCAGTTATATAGGCAATATTCATATTTTATGCATAAGGAAACTGAAGTAAAATGATTTGCACAAAAATTG
TTGAAAGTTCTAAATTAAAAAAATTAAGCAGCTCATTCGTTCTCTATAGAATTGTGCAGGCAGGACTATTCATCTCTGTCATATAAGTGATTGGTTACCT
GGAGATCTTGAGCTACAGTCTAGTATTGTTTATTTATACTCTGCTTGTTTTCACCTCTCTGCTGTTTCATTTGTTTTTCGTCATTGCTTTATTTCCAGAA
TCTACAATACTACTTAACAAAGAATAGGCATGCAGCAAATACTATCTCAGTATGTGCTCCTGAATGTATGAATTATTAATATTTGTATTGTACTCCTGGT
TACCTTTCAAAGACATATCCTGTCTTCTTGCCGTACCCCCTCCCCAGCCTCTACCCACTCATGCATGCTTTTCTACCAGTTAGGGAGGCAATGGGATGTA
TTCGGTTGGTGCAAAAGTAATTGTGATTTTGTAATTGAGATTTTGACATTACTTTTAATGGCAAAAATCACAATTACTTTTGCACCAACCTAATAGTAGA
AAGATGATATATTTCAAATTTTGGACTGTCTGTTCATGGCTCTGTGACCTTGTGCCACACCAATAGCAGATAATACATATCAAGAACCTGGCACATAGAA
GATTGTGTAACATAATGATTAGAAGGATGGACTCTAGAGTCAGACTCCCTGGGTTCAGAAATCCTAGCTTTTCTACGATCTAGCTCTGTGATCTTAAAAA
CATTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCTGGGCTGGAGTGCAGTGGTGCGATCTTCGCTCACTGCAAGC
TCCGCCTCCCGGGTTGACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCGGCTAATATTTCGTATTTTTTA
GTAGAGACGGGTTTTCATCGAGTTAGCCAGGATGGTCTTGATCTCCGGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGAATTACAGGTGTG
AGCCACTGCGCCCGGCCTTAAAAGCATTTCTTAACTTTTTGKGTCTCTGATGTCCTTTAAGAAAAATGGATTTGATAATAGAATCTACCTTTTAGAGTTA
TTGTGATGAATTAAATGAATTCATATATGTAAAACTTATAGAATATTGTCTGGCATACTAATCCTATATAAATGTTAACTATTACTATTATTACTATCAT
CAAGTTTTTGGTAACTAGCCATTTTTTATTCATGCTTGCCCATGAGATGAGATGATCTAGATATAGTTTATCTAGATTTATAAAAATGTTCTGAAGGGGA
GAAGTGGAGTGGATACAAAGTTTTATTTATCCCTTAGTTTCTGACWTTTTTAAACATGGAAATATTGTTACTGCAAAACAACTAAATTTCTTAAACACCT
ACCATGTGCCACTTGATAAGGCAAACATTTTACTTAGATTTTTGTAAATTGAATCTTCATAATGACATTTTGAGGTACATATGATTATCATCATCTTACA
GAGAAGGAAAATAAAGTTTAGAGCTTTCTAATAGCTTGTCCAATGCCACACAGCTAGAAAGTGGTAGAGCCAGGTAAATCTTACTCAATTTTTGTTGGCA
CTTTATGGAAGAGTATGCTTCTTGATAACGAGCTCTGATTGAACAGTCAGTTTCCTGTGAGTCAGTGTCTACTGTCTTTTGCTTGCTTTTGTGTCCCTAT
GATTACTCTTCTATTATTCAGAATTCAGGCTACCACTATGTCTTCTGAACCTCCACAGCCTCAGTTGGTATCCAAGGTTGGGCCTTGCCAAAAATACATC
AACTTATGGCCACCATCATACATAGCCTGGTCATTTGGATATTTGATTTTGTTGATGATCCGAAAGTCAATGAGGTTTTGAAACCGTAAGTCCCACCCTT
TATTCATCTCCTTTGTTAGGAGACAAGGGTGGAAAGAGGCTTCATTGCATGATCTTTTTTACTTTCAGATTTTTGAAACGTGTGCTCATGTTACCTATTT
ATAATAAATATAATCAATACTTTAGAAAATTAGAAAAAAGTATTTTCAGTTTTTAGATAAGTAATAAAAAATAAGTATGAAGTTGATCTAAAGGAACAGA
TACGTAAATAGTTCTGAATTATGTTACGTGGTAAAAATATAAGGTACTGAACAATGAATATAATATGATTCCTTTTGTGTGAAGAAGGGAGAGAGAGCTG
AAGAGAGGGGARAAGGGAATAAGGGAGAGAGGGAGGGAAAGAGAGAGAGAGTGAGAAGCTTTCACTTTTCATTTGTACTTTTCTGTAGTGAATGGATTTT
CTAACGATGTACCTAGTCTTCATTTCTCTTACGACAGCAAGGTTCATTTGGAATAAGCAAACACAAATATCCAGGCTCAGCTATGTGACTTTGGTTAAGT
CACTTAACCTCAGTGAGCCTCAATGACTTCATCTGTAAAATGGGGATAACATTACATGTGTTGCTAGGAATATTTAATGACATAATATATATAAAGTTCT
TGGCATATAATAAGTATTTAGCAAATGGCAATTATGGTCATGTTAACTTCTACCTCTAACCCCTGCTTTTTTTTTTTTTTTTCTCACGTGCTGCATGCTA
CAAACTCAATTACGGTAGCAGTGGCAGTTGAAGATCTTTGGGGTTGTATACGTTGATGGAGTGACCAGGTACTAGACATCAGCTTGACAATCCAGGCTCT
TAATGCTAGAGCTCTGTATACACTAGACTATTGAGTTATGGTGGCTGAAATCTCTGTCTGTGCATGCATTTAACAAACATTTACTGAAAACCTACTAGAC
GCATAATTCTAAAGGACAAGTAGAGTTAACCCAAAAGAAAAAGTACATGTAACTTTCTTTTATAATTTCATAAATCTCCCCTGTATCTATGGTTGTACCT
TATTTTTTCATTCTTAATACTAACCATTTTTCTGCACACACTCTTTCTCCATCATGCTTGTTGCAGTTTATCCATTTGATAGATATTTAAAAGTTAGTTC
ATCTTTTTATACTGGTTTTGTTGTTACTGTTCCTATTTTATTTCTGTTATTAAATTTTATCTTGATCTTGTTATTCTTTAAAAAAATTGCTTTATTTTTC
TATTATTTTAAGTTGAATACCTTATATATTGTCTTACTTTTTATAAATAAAAGCATATTAGGACAATTTTAGCCACAATCAATATATTTGATAAGAAATG
ATCCTCTTTTTGTGAATTTCCTGATAATTTGCCATTTTAGTTTTGTTTACCTCTTAGATCCATTGGTTATATGGAAGAATGTTTTTGAAATAATTAAGCC
TTCTAAATATCACTGTTTAATTTTGGGTTTCTAATATTTCTGGATATGATAATTTGTCAAATTGACTTAGAAATTCTCTAAAACCATTTGGGATTTAAGA
TTTGCTTTGTGTGACATGATTATTTTTTGTTAATGATTGATGAATAAAGAACATATTCTTGATGGAGTAAAAATTCTCCCTCACTATGCATTTGAGCATG
TTGGTTGTATTATTAAATTCTTGGATATATCCTCACTTTTTACTCCTTGGTCTGTGAGTCTCTGAGGGAGCTATATTGTTTACTACTGTACTTATACATC
TGGTCAACTTCTCTTTGTATTTGTAGTATATGCTTCATGYATTTGCCAGCTTTATTAAAACAGAAAAGTATATGACTGTTACAGCATCCTCATGTATCAT
ACCATTTTAGGTTTCAGTTTTAAAATTTGCTTTCTCTAATATTAATGATACCACCTCTCCTTTCTTATTGTTTGTTTTCACCTAGTATATGTTTGCCTAA
CTCTTTGTTTTCAATCTTTCATTGTCTTTTTGTTCCAGATGAATTTCATATAAACATTGTATAGCTGAGCTTTTTTTAAAACCAAATTTAATGCTTTTGC
CCTCTGGCAGGGGAATTCAGTCCTTCACACTTATTATGTAATTGGTTTAATCCTTTTCACTTGATGTAATGTTTATAATTTATCATACTTGCTTTTTCTT
TTCCTTTCCTTCTTTTTTCTGTCTTGATCTGATTTCTTTTTAATTATTTTTCTCTCCTCATTACTTGGGGGTTCTGTTTTGCTTTGCAATTTTCTAATGT
TTATTGTCTCATGTCTAAGAATTAACATTAAAACTACAATTGTATATAATAATTAAATTATAATCCTGTAGCACCCACCCAGGATGTTTTACTTGTCTCA
TTCCTGCTCACATGCTTAACTTAAGACCTTTGGTTTAGTGTTGGTAAATTTAGCAAACAAAAGTACAATATGCTTAGCTAAATTTAAATTTAAGATAAAT
AACAAATAGATTTCAGTATAATCATCCTCATGCAATTATTGGGACATACTTATATTAAAAATTACTCTCTATTCATTTGAAATTCAAATTTAACTTGATT
TCCTGTATTTTATCTGGAAACCCTAMCTTTATGCCCTTTTATGTCTCCACTCTCCAACTCTTGGTTTTGCAGAGTTGATGTATACTGTTAAGTTTCAGTG
TATTACTGAAACAATATCTATTTTTTTATTGATTATTTACTAGAACAAAATATTTGCTAGTTTAGTATATATACATAATATCTCTGAACTCCAATTTATA
TTTAATTTCAGCAGAGTTTATTCCTTTTATCCCTACTCATTGTTTGGAACTTTCTTATACTGGTATATTCCTGACTTCTTACCTTCAAAGTAGACATCTT
ATACCTCCTTAGCTTCATATTTTGCCTCATGGGGGACTRCACTGTGTAATTCACTGAAAGTGTCTCAAAAAATGATTAATGTACATAGGAGTCTTTCAGG
AAATACTTGTTGAATGAATTGTTTAGTGAATAAATGGCTGCWGACTAAAGTATTGTATTTTGCAGGTGAAATGTATAGATGTTGTTCAGGCTTATATCAA
CAGAATCAAGGACGTGAACCCAATGATCAATGGAATTGTCAAGTACAGGTGAGCATTTCCACTCTCTCAAGGAGTCATTTATGGTGGTTTTTGTTCTACT
TCTGTGGTCATGCCACCTTAGCATATTTCCTAGATTCTTCTTTCTCTTTGTCCTTCCCTTGTTCTCACTGGGAACTTCTCTGACTTCTAATTTCAGTATT
TTGTCCTTTGTTGAGTGTTTATGATTATTTGTCTGCATCCTCCTCCTATTAACTGCAAGATCCTTGATGGCAAGGACTAAATTTTGTTGTTTTTGCATAT
CCAACATCCAGAACAAGGTCTACAGTTTGGTAGGCATCATTGAACATTTACTGAATAGATTAATATTTGGCAGTGACTCTAATAGGAGAACCCCCCTACA
CATGCACACTTTTTTGAATGTGTATTTAGCATAGTAGATAGTATTTTATATAGGTATCATATACGTTACTTCTGTGTCTCTATTGCTAAGTAAACACTTC
TCAGCAGCTCTGAGGTATTAGAGGGCCAAAAACYTGGATTATTTTCTTTGTAATATTCTGTTTAATGGGTAGTACAGTTCTTCTTAGCACACCATGACAT
AGGGTGCCATCGTGTAGCTCTCAGCCATTCATGTACCATCTTTAGGATTTTTGTCTTGTTTGCACGTCAGCTTTGTTGTTGTTAATATACTTATTAAAAT
TGAGTCACTTATTCTAACTTAATCATTTTAAAATGAAACTTTATATCACTACACATATTGAAAACCTATCATTTAACATGGATGGTTAATATAAATAAAA
TGAAAACTAGCCAATATCATGAAATTATAGACATTTAAAATATTTTAATGAAATATAAGTACTGCATCAAATGGATTTGTATCATAATAGATACTTTATA
CATGTTTTCTCATTTGATCATCTCAACAGCATTTCAAAAAATGTATGTGACAACCATGATTCAAGAATATGGATATGTGATGCCAAGCTTACATAACAGA
ACTATGGGGTGGTTCTATGTTTCAGGAGGTCCTGACTTGTCTCTTTCTTCTGTGAACCAACTTTTACCTGAAATGTAATTTGGGGGTACTTTTGGGGCAG
AGTGTATCTTTAAACATTTGAGAGAGATTCTATTATTTAAATTTTCTGTTGCCTTTTAAAAAGGAGTTTCGAAGAAGGGGGTCAGTTGTTGCAGAGCTTG
TTTTTGTGTATGAGGACATAGATAAAGACCTGAGAGAAAATCAAAATTTTGACCTTGTTGAAAATAATGAGTTTGGGCTACTACTAGGAGACTGGAGAGG
GTGCTTGTGGGTAAATGGGGGGAGCATGGCAGGGCAGTGACTGTCAGGGGATTGGAGATTTGAAGAGAGAGAAAACAGGACTGTTTCTAAGACAGAGACC
TTAGGTAAAATAAAAAGATGCTCAGAAATAATTTTATGAAGTTCATGCATGCTATGTGTGACATCTGTGCTTTTTTCCTCCCTCCTGTAAAGGGCCCCCA
AATGGGCTTACTGTCCTGATAACAGTGTTTTTATTTTACTAGAAATTTAAAACACTGGCATTAAGATGAAAAATATGTGTAAAGCACCTAGTATAGAACC
TTCCATCAATCCCTCAGTGTTAGCTCTTTTATTGTTATGGTTGTTATTACAACATGAGCTCAATAAATGGAGCTGTCCTTATGATTACACACAGTTCTAT
TGCATTGTTATCCCTGTTTGCTTGGCACTAAAACTTACTCTCAAGGCAGTTCAATGATTAAAATCACACAGCTACAAAATAGTAGGAAGATATGTGAACT
TTAATTATGCTGGCTTCTAGCTTTGTCTTTCTTTGGCTTCCAGCTTTGTGTTTGTGATTGACTGATGAGAAAATAGTCACTGCTTTTTTACCTCCTTCCC
AAACCTGTTCTTCCATCCAGTCACACAAGCAAGATACCTAGGTGTACCCCTAGACTCTACCTTCTTCCTTCTTTTCCCAAATCTATCTTCTAACTCTAAT
TAATCAACAAGTTTTACTGGCTCTTCTTCTTTATTTATCATCATGTCAAACTTGTTTTCCTTCATATCCTATTCTAATCGTACGGAACTACTCTATTTCT
CCTGATCCATTTATGCTCTCTATCATCTGCATAACTTTGCACATGTTATTACTTTTGCCTGGAACACTTTCCCTTTCCCCACCTCTCCTTTATTTGGCTT
AGTTAATTTTTTAGGACTCAGTCCAGTTCTCAATTTTACATTATCTAATCATCTCAGTCTCTGTGAGATTTCTACTCTGAGCTCCCAGAGCACATTGTGC
TCATGTCACTTTTGTATCATGAAGGGCCCAGAAACCACACTATTTTAACAAAGAATTTAATATAGGGAATTGGTAGAATAGATGTTTAAGGAATGAAAAA
ACAAAAAAAAAGTAACACTGAAGTAACACCAAGATGATAACTGCAGGAAACAGCAAACTGAGGGAACACCCTAGGTATGAGGGAACAAAGGGAAGAAATT
GGGATTATCAGAATCTAGGAGCTCAAAGGAAATGCCTGCAGAGCTGGGACCAAGACATCTGTGAAGAGGGTGTTGCCTGGCTGCTGCTTCTACCTCAGAA
ACTTTGAAAGGGGACCTCATATTCAGAGCTGTGGTTCAGAATTCTGAGAAGCAGCTGCCAGCTGACTGGTGCCAGTATTTCTGAGGGTGTGTGATGAGAC
TAGTTCTAGAGTGTGGGAAGAAATAGGAAACTGGAATCAACTACTGTTGCCTGGATGAAAGGCTATTGYTGAAACAATGGTGTCAGGAACAGCAGGCAAA
CTGGAAGAAACAAACCCCTTCACCTCTTTTCTTTCCTCCTAGTCTTTCTCTGGCACCCATATTTGAAGGATCCAAGAGGGCACAAATTATCAAAGGAAAG
TTTAGTTTTCTGAGTCCCATCAGAAAGTGGCATATAGAGGGGGTGGAGCCAAGATGGCCGAATAGGAACAACTCCAGTCTACAGTTCCCAGCGTAAGCGA
CGCAGAAGATGGGTGATTTCTGCATTTCCAACGGAGGTACTGGGTTCATCTCACTGGGGAGTGCTGGACAGTKGGTGCAGGACAGTGGGTGCAGTGCACC
GTGCATGAGCAGCAGCAGGGCGAGGCATCACCTCACCCAGGAAGTGCAAGGGATCAGGGAATTCCCTTTCCTAGTCAAAGAAAGGGGTGACAGATGGCAC
CTGGAAAATCGGGTCACTCCCACCCTAATACTGTGCTTTTCCAACGAGCTTAACAAAGGACACACCAGGAGATTATATCCCGCACTTGGATCAGAGGGTC
CTACGCCCACGGAGCCTCACTCATTGCTAGGACAGCAGTCTGAGATCAAACTGCAAGGCAGCAGCGAGGCTGGGGGAGGGGCGCCTTTGCTCAGGCTTGA
GTAGGTAAACAAAGTGGCCAGGAAGCTCAAACTGGGTGGAGCCCACCACAGCTCAAGGAGGCCTGCCTGCCTCTGTGGGCTCCACCTCTGGGGGCAGGAC
ACAGACAAACAAAAGACAGCAATAACCTCTGCAGACTTAAATGTCCCTGTCTGACAGATTTGAAGAGAGTAGTGGTTCTCCCAGCACGCAGCTTGAGATC
TGAGAACAGGCAGACTGCCTCCTCAAGTGGGTCCCTGACCCCCGAGTACCCTAACTGGGAGGCACCCCTCAGTAGGGCCAGACTGACACCTCACATTGCC
CAGTACTCCTCTGAGACAAAACATCCAGAGGAACGATCAGGCAGCAGCATTTGTGGTTCACCAATATCTGCTGTTCTGCAGCCACCACTGCTGATACCCA
GGCAAACAGGGTCTGCAGTGGACCTCCAGTAAACTCCAACAGACCTGCAGCTGAGGGTCCTGACTGTTACAAGGAAAACTAACAAACAGAAAGGACATCC
ACACCAAAAATCCATCTGTACGTCACCATCATCAAAGACCAAAGGTAGATAAAACCACAAAGTTGGGGAAAAAAACAGAGCGGAAAAACCAGAAACTCTA
AAAATCAGAGCACCACTCCTCTTCCAAAGGAATGCAGCTACTAATCAGCAATGCAACAAAGCTGGATGGAGAATGACTTTCACGAGTTCAGAGAAGAAGG
CTTCAGATGATCAAACTACTGCAAGCTAAAGGAGGAAGTTTGAACCCATGACAAAGAAGTTAAAAAAACTTGAAAAAAGATTAGATGAATGGCTAACTAC
AATAATCAAGGCAGAGAAGTCCTTAAAGGACCTGATGGAGCCGAAAACCACAGCACCAGAACTACATGATGAATGCACAAGCCTCAATAGCTGATTTGAT
CAAGTGGAAGAAAGGGTACCAGTGATGGAAGATCAAATGAATGAAATGAAGTGAGAAGAGAAGTTTAGAGAAAAAGGAATAAAAAGAAATGAACCAGCAT
CCAAGAAATATGGGACTATGTGAAAACACCAAATCTATGTCTGATTGGTGTACCTGAAAGTCACGGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAG
GATATTATTTAGGAGAAATTCCCCAATCTAGCAAGGCAGGCCATCATTCAGATCCAGGAAATACAGAGAACAGAACAAAAATAACCCTCAAGAAGAGCAA
CTCCAAGACAAATAATTGTCAGATTCACCAAAGTTGAAATGAAGGAAAAAATGTTAAGGGCAGCCAGAGAGAAAGGTTGAGTTACCCAAAAAGGGAAGCC
CATCAGACTAACAGCTGATCTCTCGGCAGAAACTCTACAAGCCAGAAGAGAGTGGGGGCCAATATTCAACATTCTTAAAGAAAATAACTTTCAACCCAGC
ATTTCATATACAGCCAAACTAAGCTTCATAAGTGCAGGAGAAATAAAATCCTTTACAGACAAGCAAATGCTGAGAGATTTTGTTACCACCAGGCCTGCCC
TGAAAGAGCTCCTGAAGGAAGCACTAAACATGGAAAGGAACAACCGATACCAGCCACTGCAAAAACCTGCCAAATTGTAAAGACCATCAAGGCTAGGGAG
AAACTGCATCAACTAATGAGCAAAATAACCAGCTAAGATCATAATGACAGAATCAAATTCACACATAAAAATATTAACCTTAAATGTAAATGGACTAAAT
GCTCCAATTAAAAGACACAGATTGGCAAATTGGAAAAGGAGACAAGACCCATCAGTGTGCTGTATTCAGCAAACCCATCTCACATGCAGAGACACACATA
GGCTCAAAATAAAGGGATGGAGGAAGATCTACCAAGCAAATGGAAAACAAAAAAAGGCAGGGGTTGCAATCCTAGTCTCCGATACAACAGACTTTAAACC
AACAAAGATCAAAAGAGACAAAGAAGGCCGTTACATAATAGTAAAGGGATCAATTCAACAAGAAGAGCTAACTATCCTAAATATATATGCACCCAATACA
GGAGCACCCAGATTCATAAAGCAAGTCCTTAGTGACCTACAAAGAGACTTAGACTCCCACACAATAATAATGGGAGACTTTAACACCCCACTGTCAACAT
TAGACAGATCAACGAGACAGAAAGTTAACAAGGATATCCAGGAATTGAACTCAGCTCTGCACCAAGCGGACCTAATAGACACCTACAGAACTCTCCACCC
CAAATCAACAGAATATACATTCTTCTCAGCACCACATTGCACTTATTCCAAAATTCACCACATAGTTGGAAGCAAAGCACTCCTCAGCAAATGGAAAAGA
ACAGAAATTATAATAAACTGTCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAAACTCACTCAAAACCCCTCAACTACATGGAAACTGA
ACAACCCGCTCCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAATGAGAACAAAGACACAACATACCAGGA
TCTCTGGGACACATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCTAAAATTGACACCCTAACATCA
CAATTAAAAGAACTACAGAAGCAAGAGCAAACACATTTAAAAGCTAGCAGAAGGCAAGAAATAACTAAGATCAGAACAGAACTGAAGGAAATAGAGACAC
AAAAAACCCTTCAAAAAAATCAATGAATCCAGGAGCTGGTTTTTTGAAAAGATCAACAAAATTGATAGACCACTAGCCAGACTAATAAAGAAGAAAAAAG
AGAATAATCAATTAGACGCAATAAAAAATGACAAAGGGCATGTCACCACTGATCCCACAGAAATACAAACTACCATCAGACTACTATAAACACCTGTATG
CAAATAAACTAGAAAATCTAGAAGAAACGGATAAATTCCTCGACACCTACACTGTCCCAAGACTAAACCAGGAAGAAGTTCAATCTCTGAATAGACCAAT
AATGGGCTCTGAAATTGAGGCAATAATTAATAGCCTACCAACCAAAAAAAGTCCAGGACCAGATGGATTCACAGCAGAATTCTACCAGAGGTACAAGGAG
GAGCTGGTACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAATAGGGAATCCTCCCTAACTCATTTTATGAGGCCAGCATCATCCTGCTACCAAAGC
CTGACAGAGACACAACAAAAAAAAGAGAATTTTAGACCAATATCCTTGATGAACATTGATGCAAAAATCCTCAATAAAATGCTGGCAAACCGAATCCAGC
AACACATGAAAAAACTTATCCACCATGATCAAGTGGGGTTCATCCCTGGGATGCAAGGCTGGTTCAACATCGGAAAACGAATAAAGTTAATTCAGCATAT
AAACAGAACCAAAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAACACTTCATGCTAAAAACTCTCAATAAA
TTAGGTATTGATGGGATGTATCTCAAAATAATAAGAGCTATCTATGACRAACCCACAGCCAATATCATACTGAATGGACAAAAACTGGAAGCATTCCCTT
TGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAKTGTTGGAAGTTCTGTCCAGGGACATCAGACAAGAGAAGGAAATAAA
GGACATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGATGACATGATTGTATATCTAGAAAACCCCATCGTCTCAGCCCAAAATCTCCTT
AAGCTAATATGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAGCATTCTTATACACCAATAACAGACAAACAGAGAGCCAAA
TCATAAGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAGTCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAA
ACCACTGCTCAATGAAATAAAAGAGGATACAAACAAATGGAAGAAAATTCCATGCTCATGGGTAGGAAGAATCAATATCATGAAAATGGCCATACTGCCC
AAGGTAATTTATAGATTCAATGCCATCCCCATTAAGCTACAAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATAGAACCAAAAAA
GAGCCCGCATTGCCAWGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACGCTACCTGACTTCAAACTATACTACAAGGCTACAGTAATCAAAAC
AGTATGGTACTGGTACCAAAACAGACATATAGACCAATGGAACAAAACAGAGCCCTCAGAAAMAATGCCGCATATCTACAACTATCTGATCTTTGACAAA
CCTGACAAAAACAAGCAATGCGGAAAGGATTCCCTATTTAATAAATGGTTCTGTGAAAACCGGCTAGCTATATATGTAGAAAGCTGAAATTGGATCCTTT
CCTTACACCTTATACAAAAATTAATTCAAGATGGATTAAAGACTTACATGTCAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTGGGCAATACCATT
CAGGACATAGGCATGGACAAGGACTTCATGTCTAAAACACCAAAAGCAATAGCAACAAAAGCCAAAATTGACAAATGGGATCTAATTAAGCTAAAGAGCT
CCTGCACAGCAAAAGAAACCACCATCAGAGTGAACAGGCAACCTACAAAATGGGAGAAAATTTTTTGCAACCTACTCATCTGACAAAGGGCTAATATCCA
GAATCTACAGTGAACTCATACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCAAAGGATGTGAACAGACACTTCTCAAAAGAAGACAT
TTATGCAGCCAAAAAACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATAACCATCTCACACCAGTTAG
AATGGTGATCATTAAGAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACAATGTTGGTGGGACTGTAAACTAGTTCAA
CCCTTGTGGAAGTCAGTGTGGTGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGATCCAGCCATCCCATTACTGGGTATATACCCAAAGGATTATA
AATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCAGCACTATTCACAATAGCAAAGACTTGGAACCAACCGAAATGTCCAAAAATGATAGA
CTGGATTGAGAAAAGTTGGCACATACACACAATGGAATACTATGCAGCCATAAAAAAGGATGACTTCATTTCCTTTGTAGGGACATGGATGAAGCTGGAA
ACCATCATTCTCAGCAAACTATCACAAGGACAAAAAACCAAACACCACATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACACATGGACACAGGA
AGGGGAACATCAGACACCGGGGACTGTTGTGGGGTGGGGGGAGGGGGGATGGGAATACATTAGGAGATATACCTAATGCTAAATGACGAGTTAATGGGTG
CAGCACACCAACATGGCGCATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATAATAATAATAATA
ATAAAAGAAATATCTTCACATAAAATCTAATAAAAAAATGTGGCATATAGAATACTTGTTTCAGGGCTGAGAGATAATAATATAAAAACTGGTTCAACAT
TGCATAGTCATTGTGGTGTTGGTTGTCTCACCCACCAGACTCTGAGTTCCTCAGTGGCATGGACCATATCTTTTTAATCTTATTGTCTTCAGTGTGTAGA
ACATGATCTGAGATTTAGCATTTCTTCAGTAAGTAACGAATTAATATACATGTGTTTAGACAATGTTTGTTTTGGAGCTCCTGAATGCAGTTTCGTCTTA
TGCTCTGCAATCTGTTGGCTTCCTATATCTTCCTGGATTATGATTTATTGTTCACTGTTTTTCTTGCTTGCCTGGAAAAGTACAAATTTGTTACTAGTTT
TAGACTTTGCTCCCTGAAGCATCTATTGTCATGCATTTCATCCAATAGGTATATTCTTCCCAATCTGTGAATGACATAGAAAATGGTCACGGCAAACTTT
CTGGGAGCCCTAGAGTCCAGAGATGTCAAGACTCAAAATACACACTTACAGAATCACACAGACCTGGGACAAAATTCTTCCTCTGTTAGTTATTTCATGA
ACTTAGGCATGTTTTTGAATCTCTGTGAATCTTTGTTTTATCCTTTCTAAAGGGGAAAATAATATGGACCCTCAAAATTTATAGTTTTATGGATTTAAAT
GCTTGAAAACACTTTCATTCATTTATCCCACAAATGGTTATTGAATGCTTACTATACACCTGGTAGCATGCTAGGTGTTGAAGATATAAAGATAAACACA
ACAGTCCCTGACTTCTTTCAGCTCCCAGTCTGGTGGTTGAAGCATGAGAATAACCATTATTTACAGCACAGTGGAATTAGTGCTCTGATAGGGGAAGAAA
AGAGTACTGTGGTATCATAGAGAAGGTTACTGATCCAAGACTGGAGAGGTGTCAGAAAAGGCTTTCTGGAGAAAGTGATATAATGTGTTGCTTTCCACCA
AAAAGCTATCCAAGGAGTAGAATCCTCCTTGGATTTCGCTCCCCTACCACTGGCTGTACTTGAATCACTGAGCAAGTGCAGGATTTCAAGATATATAGAT
TTTTTTAAAAACCCTCTCAGACCTCAATAAATCTTTCACTCAACCCACATTGGCCAGCCTATGTATCATCTGGTGTCACAGCCACCCTTAGGCCTCATCC
TGTTTGTCTCCATAGAAGCAAGGGTAAGGATTTTTGGCTGAGGTTCCTTGTTTCAGCTTGGCTGAAACTATGAGGATTTCCTTGGTCTCAGGAGTCTAGT
GCTGCCCTGTGCCACTGAGGCCACATGTAAGGGTATCCAATTTCCTTTATGCCTTTATCAACCTTCCCTTGGAAGTTCTCTGCTTGTGCTGATTGTATGT
GGCTGAAGTTKGGGCAATGCTAATSAAGGGGATTTCAAGACCTTAGGAAAGTGTACATACTTAAGGCACTACCTTTTCTCCATCCTTGGAAAGAACAGGA
CTGGGAAGCCTGATTGCCCTGCCCCACCTGGTTGGGAAACTCCTGGGAGACAAGTGTTTCAGGAACCCTGTCTTGCATGAACAAATATTGTGCCAGTAAA
TGTTGCTGATAACATCAGTATTGGTAGGACTTGTTGAAGAAATAGCTGCTGCAGTTCTTCTCATTGTTTTTCTGATATAGAGACTTGTAACCCACTTCCT
AAATTTCATTTTGCCACTTCCCTAAGCTCTATGGTTTGGGTGACATGGCTTTGGCTTAATCTTCTGTGATTCTAATCCTTTGATTTTCCTGACAAGAATT
TTGTTGACTGTCAGGAGAACCTGATGAATTAGAAATGATGATAGTGATAGCCACCATTTACTGAGTGGCTCTTCTGTGCTAGGTACTGTGTTTATGCATT
ATGACATTTAAATAACAAAGCATGTAGATTTTATTGTTACCACCATTTTATAGCTGGAGAAACAGTTTAGGAAGTTGTCACTTGCAAGGTTATATAACCA
CCTCAGATCAGTCTTTCTCCAAAGCCTGGGATTTGACCACTCTGCTACACTGCTTTTTGGATAGCCAGGTTCTTTGTGTTTGTAAGAGGCCAGATTGCAA
CATTCTCAGATTAATATTTTGCCGTGCCTAATTCGCTACCAAAATTGTCTCACTTTTTTTAACATAAGTAAGCTTCTAAAAAATGTAGTCAATACTTATT
TTTCTGAATCCTTACCTCTAATTTACACCTATACTCACTGAAATCTAGCTTCTGTTCCTATGACTCAATTAAAAATAACCTGCTGGCTGGGCGCGGTGGC
TCACACCTGTAATCCCAGCACTTTGAGAGGCTGAGGCGGGCAGATTACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAAAATGGTGAAACCCCATCTC
TACTAAAAATACAAAAATTACCTGGGTGTGGTGGCACATGCCTGTAATCCCAGCTACTCAGGGGGCCGAGGCAGGAGAATTGCTTGAGCCCAGGAGGTGG
AGGTTGCAGTGAGCTGAGATCTTGCCACTGCACTCCAGCCTGGCCGACAGAGAGAGACTGTCTCAAAAACAAAACAAAACAAAAAACAAAACAAACAAAC
AAAATAGCCTGCTAACTCTATCAGTTTGGGCTGTTTCCACTGCAAAGAACAGAAAATCCAATTCAAAATGACTGAAAGCAATACGGAAAATATACTATCC
CACAAACCAGTAAGTCTTTTGGTATGTTAGCTCTAGAATTGATTGACTCAGCAGCTGAAAAATGTCATCATTAACCTGTTTTCAGTCTTTTGCCTTGGAC
ATCCTAGTTTGTCAGCCTTATTAGACTAGATCTTCTCATTGTCATAAGATGGCTGCTATGCCTTATGTCTCAAGAGACAAAATTGTGACCAGATACCACT
GGTAAACCAATTTTTGGCAAGGTGAAWAACATTACTGTGATTGCACTAAACAAATAAGAAATCACACACTTAAGGTTAGAGATTGGGCCTATTCCCTGTA
AGGCATATGGCAGTACAATAAAGAGAGTTGCCTGAAAAATTGAAGTTATATTTATAAAGGGAAAAAGTGGATTTTGGATAGGCAGCGAACAATGTCTGCA
ACTCTTGACAATATGACTTTGAGTGAGTCCTTAACCTCTCTTTATCTCAGTTTCCTCATAATCATAATGAAGCAGTTGTTATGTACCTAATGGGATTATT
GTGAGGATGGAACAACTTAATGAATTTAAAACACAATAATTGGCACATAAAATAGACTCAGTATATTGTACATGTTGGTCTTATTATCAAAATGATAATT
GTCCTGTTCTTGAAGTCATTGCTACCTTTGGCTTCTAGACAGTGCTCTTCTATTATTTTATTATTTAACTCTTACACATCTAAATACATTTTATTCTTCC
TTAAGGTGTGATTCTGTAATTTTGTGTGTGTGTGTGTGTGTGTGTATGTGTATAATGGTTCATGTAGTTATAAATATACTTAGCCTTGGTCTTCTATGAC
TTCAAATATCATTTGAACACTGATAACTCCTGGAACTTTGTCTGCAGCCCAGACCTTTCCTCTGAGCTCAATTCCCATATATGTATATCTACCTACTTGA
CACCTCTACCAGGAAGTCACATGGGCACCAAAAGTCAAAATAATTAAAATCAAACTCATGAAATGAAAATTTCAGTGAATGACATTGCCAACTACTATAA
GCCAGAAAAACTGGAAAAAAAAATTCCTTCATCCCCCACATTCTAACCTTCTAATATTTTATAAGAGTTCTACCTTCTAAATATCTCTCTCAAGATCTCA
TCTCTAAATAACTCTACTTTTCTCTACCTCAACTGCTGTCACTTTAGTCCCAATCACCATCATCTTTGCCTACTGCAGTAATCTTTATGTTTCTAGTTTT
GCTCTCCCTTCCCCATACTTTTTATTTTGCAAAAGCCAAAGGATATCTGTAAATCACTAAAGAGATTATGCCCCTTTCCTGCTTTAAACATTTCAATACC
CAGACTCCCTAGAACGCCATGTAAGGGCCCTTTGTAATCTGGCATACCTTAGTTTTTCAGCTTTATCTTGTGCCATTCTCCCACATATAACTTCCTTTTT
ACTCCACTTGGGTATTTTTGCCATTCATCTGAAGGGTCCCTTCTAGTTCAGTCCAGCTTTTTGAGTTATTTTCACCTCCTAATCACAGACTTTCTCCTTC
AGCTACTACCCCATCTGATATCTATCTTTCTGAGTACTCTTTTCCTCAGACTGGTTGCAGACTGGGACACTGTGCCTCAAGGTTTTCTTTCCTAACGTTT
CCTAAACACAAGGCTACAGGCCGTTTTGCCTTGGATGAGGCTCACATCCAGAGAAGCTTTCAGTAACTAGCAGTCTTAGGCATGTGGATGCTTTACTGAG
GTTCCAAGTTTGTGCCTATTGGAAATATTGGTCTTAGGTTCCCAATCCTTCTGAATTGGCAACTGAAAGCTTTCTTATTTCCAGAAAGTGGGTAACTTCA
ACTTCACACCCTTCTGCTTCTTTTTGTGCAACCAAAGTGTGAGGGATGGGATATAAGCAAAGCAAAAAGTGTCCTTTTCCCCAAGTAGACAGTATGTATC
TGCAAGGCCCCCAGAATGTGTAACACTTAGAGTGCTGGCCTTTACTCTACAAATGGTAATGATGCTACTTTGTAACTAGCTATAGACACACAGAAATGTC
TATAGTTTCTAAATGGCTGTGCTGACAATTATTCTTTTCATTGCAATAGAATTGTACTTTTACTGGCTTATGGGTGTGAAAAGGTAGTGGTGTGGCCAAT
AATCATAAAGATCCTCACAATTTGACAAATTATGAGACATTTGAACAACTAGACCCTGGGAAGTTCAGGGACTGATGTAGCTCTGGACTCTCAAACGTAG
GASATTTGTGGGCCTTCATTTAAGAGCCCTGCCATTAATGTGTTCTAACCAACCCCAGTCCTTCTTTCTTTTAGTTGAACCTCTAGGGAAAGAGATAATT
TTATTTGTTTCACTTGGCTCAAGTGTTCAGTACAACGAGACTAGCAACATCTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATATATA
TACACACACACTATATGTATACACTATATATATACCATATATATGTATACTATATATACACTTTATATACACCATATATACACTATATATATACTATATA
TGTACTATATATGTGTATATATATACACACTATATATACACTATATATACACCATATATACATATATAGTACTATATAGTATATATAGTGTGTATATATA
CTATATAGTACTATATATGTATATATACACACACGTATACACACACACACACACAGATACATATATATATATATATATAGCCTTTGTCCTCTGAGTACCG
CTGGCCCACCAATAGGGTTATATGCATGACAACAGGGTTTTTACCCCTATCGTTGGGCCAGTAGTACTCAGAGAACAAAGGCTAGACAAATAACCAAATA
AGTTTTCATTAGAATGAGCCATGTTTTCTCATCCCTTCATCTTTCTATTCTCTCTGTTTGGGGTTCTTCTTCTCTATAATAAGAAGCATTAGTAGTATCA
GTGATAGTTAGCACTTGTGTGCTTACAATGTTCCCGGTACTGTTGTAGTGCTTTACAAATGCAGTAGCTAATTGCATAATATCAACAATTCTATGAGGTA
ATTATTTTTAGCTCCATTATACAGATGAGGAAACTGAAATACAGAAAGGTTAAGTTAAGTTTTCGAAGGAGATACAGTAAATAGTGGAGCTGAGATACAA
AACTATGCATTCTCTCTCTAGATTAATATTGTTCAATAGAAATAAATTATGAGGGAAATGTGCAATTTCACATATTCTAGCAGCTGTATTTTAAAAAGTG
AAAAGAAACAGGTGGAATTAATTTTCATAGTACATATTATTTAACTAAATATGTCAAAATACTTTCAACATATTGCATTAGCCACATTTTAAAAATATAA
TATCAACTTTTATCTTAAATTCAAGGGGCACATGTGCAGGTTTGTTATATGAATATATTGTGTGATACTGAGGTTTGGGATGCAAATGATCCCATCACCC
AGATAGTGAGTATAGTATCCAACAGTTTTTCAAAACTTTCCCTCGCTCACACACTTCCGCATCTGTTAGTCCCCAGTGTCTATTGTTGCTATCTTTATGG
CCGTGAGCATCCAGTATTTAGCTCCCACTGAGAAATGAGAACAATGTGATATTTGGTTTTTGTGCCTGTGTTAATTAGGTTAGGATAATGACCTCTGGGT
GCATCCATGTTGCTGCAAAGGACATGATTTCATTCTTTCTGTGGCTGTGTAGTATTCCATGATGCATATACACCAAATTTTCTTTATCCAATCCACCATT
GATGGGCATCTAGATTGATTCCATGTCTTTGCGATTGTGATAGCATAGTGATGAACATACAAATGCAAGTGTCTTTTTGGTAAAACTATTTATTTTCTTT
TGGGTATATACCCAGTAATGTGATTGCTGGGTCAAATGGTAGTTTTGTTTTAAGTTATTTGAGAAATCTCCAAACTGCTTTCCACTATGGCTGAACTAAT
TTACATTCCCATCAACATTCCCTTTTCTCTGCAGCTTCACCGGTATCTGTTGTTTTTTTACTTTTAATAATAGCCATTCTGACTGGTGTGAGAGGATATC
TAATTGTGGTTTTTATTTGCATTTCTCTGATGATTAGTGATGATGAGCATTTTTTCATATATTTCTTGGCTGCTTGTCTATCTTCTTTGGAGAAGTGTCC
ATTCACATCTTTTGCCCACTTTTAAGTGGGGTTATTTATTTTTTGCTTGTTTAATTGTTGAAGTTCCTTATAGATTCTGGATATTAGATCTCTGTTGGAT
GCATAGTTTGTAAATATTTTCTCCTATTCTGTAGGTTGTTTATTACATCACATGAGTGTCAGGATTAACTGACTGTACAATATTTAAAGTACTGCCCAAT
ACCTGAAATATATCATTAATTGTTAAATATCATTATATCATTATCCTGGCATACTCTGTAACTCCTGTCTCCTCCATTTCTAGCATATTGTCATATACAC
ATGGCAGTAAAAAATCCTCCTTTTTAGAAACTTCCAACAGTTCTTTATATCCATTTTCCCAATGCATTCTCACTACCACCATGTTAGATAGATATTATTG
TCCCCAATTTACAATTGAAGCAACTAAAATCCAGTGAAATGAAAGAGCTTGCATAGTTCACAAAACTAGGAAATGAGAGTTCCCTAATTTTTATTCATCT
TAAAAGCATAGACATTATCATATTCATTTTTTAATACTTTGAATATTTGTTGAAGTAATCAATAAATGTCATTGGTATTTCCAGTGAGCCCAAAGATATT
TTATTAAAGTTATTTTAAGTCACATGAAAGGTTATGTAAAGGATTTTAAATTTCATTTTCAAGAATTAATATTTGTGATACTGAGAAATCACACTGGAAT
TGCATACTTTAGTGATTGTATTACCACATACATTTAAACTGTGTTCTTTTGGGCATATTGACTTATTGTTTCATTCTGGAAATTGCTGTAATTATGTCCA
TTATAGAACATTTGCAAAAAACAACAAAAAATTACCTATAATCATAGCACCAAAAGAGTAGTTATTCACTGTTAATGTTTTGCTTACGATTTTCACATGA
TTGAGGTTATACTAGGAATATACTGCTATAACCTTCTCTTTTCACTTACATTAAATGACATTACATCATAGGAATTTCCGAAGTGCAGTAAAACTTTTAG
GAAACACCACTTTTTATTTTATTTTATTTTAAGTACTGGGGTACATATGCAGGATGTGCAGGTTTGTTACAAGGTAAACGTGTACCATGATGGTTTTCTG
CACCTATCAATCCATCACCTAAGTGTTGAGTCCAGCATGCATTAGCTATTTTATCTGATGCTCTTTCCACCCCTGAGAGGCCCCAGTGTGTGTTGTTTCC
CTCCCTGTGTCCATGAGTCCTCATTTTTCAGCTCCCACTTATGAGTGGGAACATATAATGTTTGGTTTTCTATTCCTGCATTAGTTTGCTGAGGATAATG
GCTTCCAGCTCCATCCATGTCCCTGAAAAGAATATGATCTCATTTCTTTTTGATGTACCACATTTTCTTTATCCAGTCTACCATTGATGAGAATTTGGGT
GGATTCCATGTGTTTACTATTGTAAATAGTGGCGCAATGAACATATGTGTGCATGTATCTTTATAATAAAATGATTTATATTCTTTTGGGTATATATCCA
ATAATGGGATTGCTGGATCAAATGGAATTTCTGGTTCTAGGTCTTTGAAGAATTGTCACACCGTTTTTCACAATGGTTGAACTAATTTACATTCTCACCA
ACAGCGTAAAAGCATTCCTTTACCTCTGTAGCCTCGGCAGCATCTGTTGTTTCTTGATTTTTAACAATTGCCATTCTGACTGGTGAGAGATGGTATCTCA
TTTAGGTTTTTATTTGCATTTCTCTAATGATCAGTGATGTTGAGCTTTTTTTCATGTTTGTTGGCTGCATAAATGACTTCTTTTGAGAAGTGTCTGTTTA
TGGCCTTTACGCAACACCACGTTTATTGGCCATACAGTTGTCTCTTGTAGATATCTATAATTATTTATTTGGTGACAAGGAGATTTTATTTGTTTTTCTA
ATATAAATAATGATGCACTGACCAGCTTTCTGTATGGATAATTCTTACTAGGTTGGATTACTGTTCTTATGATGGATTCCTAAAAGGAGAATCACTGGCT
CAAATGGTCAGCTTTATAAGGCTCTTGACAAGTACATTAACTTTAATATGTTGATTACATATTAACATGTTGATATGGGTATTCTTTTAATAAAGTTGGT
TGGATGACTTGTTTAGTTAAAGTTTGCATTGTTTTATTTCTTCTTAGGTTTGAGGAAGCGATGAAGGAGGCTCATGCTGTAGATCAAAAGCTTGCAGAGA
AGCAGGAAGATGAAGCCACCCTGGAAAATAAATGGCCCTTCCTTGGGGTTCCTTTGACAGTCAAGGAAGCTTTCCAGCTACAAGGTACTATTCTTTTATT
TTTGGCTACATGAGTTTAATTCACAAGTTGCTACATTTTCTAAACTTATAAACTAAAAAGGATGGTATAAAAGTGAAGGACAAACTCATGCTGCTTCCTC
AGTTTGAAATGAGAGGAAATATTCAGCAAGTTCCATTGGGAAAATAAATGATAATGGTCATCCTCTGTTAGCTCTGTATGGCATATGGGGGCACTATGCT
CAGTATCCATTAATCCTTACAGCAAACTTATAAGAATAGTATTATTGATCTCATTTTTCAGATAAGAAAATTGAGGCTCATGACCCTAAAGTAGTTAGGC
TAAAGCCAAGCTTGAATTCTGATAAATACCTGTGCTTTCTCTGTAATACAGTTCTTATTTTGTAACTTCCTGCTAGCCTCAAAAGTAAATGAAAATCCCA
AATATTTGGAAAGTAAACAACGTATTTTTAAATAACCCATAAGTCAAAGAAATAAATCACAAGGAAATGTTTGAACTGAAAGAAAAAATATAATAATATA
ACAAAACTTATGGGATGTAGCTAAATTAGTACTTAGAGGGAAATGTATGGCTTTCAGTGAATATACATGAAAAGAAAGATTTAAAATCAGTAACTGAAGC
CTGGCCTTAAATGGCTCCTGCGAAAGGGGTCAGTGAGGGAACTGAGGCCTCACCTTCACCAGGAATCTTTGGGATCCTAGCTATAGGGGAACCCTTGTCG
CCCGTGGGTGTATGAGCTGGCAGGAAGATCTGATGGAGAGCAGGCAGAGATGGGCCTTCAGAGGGCTTGGAGCCTGGAAGCTTTTGGTGCTCTGGGCAGC
TCCAGCTGAGAGTAGCCATAGGCACCAATCCCCAAGTCTTCCCATTCCTCCRAGGAGGTGCAGGCCGGGATGACCTCTGACCCAGGAGAGAGCAGAGCCA
GCTTCTTCATGGGACTGAGGTGCATCTGCTCTGCAAGCTTTCCTGCCTTTCAGCTACTCCCAGCATCCATGCCTAGCTACTCTGCAGGAGCAGGTGCACA
TAACAGCCCCTGCAGCCCAACCTCAGTGTATTGATGCACGTGAGTACTTTCCTAGCTAGCCTGGAGCATATTGGATCCCCTAGCACAGGCAGAACTGAGT
CCCAGCTAAGAGACAGTCAGGTGCACCCAGGGCTACAGCGTGCTACTTGAGAGTAAGGAGCAGAGATCTGTGGACAGTAATGAAGCTGGGGAGGAGCTCC
CAACCCCAGAACACTGAGAAGGGAGAGATGCATGGGTTTCTGRGCAAGGTGAGATGGGGCATGCCTCCCTCCACAGGGTGGGTCCATAGAGTGTGGCATA
TCTCTGCTGCAGCCCCTGCCCAAGAGGGCTGGTGGTACAGAATAGCTAATAAAAGAAATGCCAGCACAGCACCATTGATCACAGGGGGCTCTCCCAAATC
CCAGGAGCAGATCTGGTGAGGGAGGTGCTGTCTCTTTCTGCTCTCCCAACTCAAGAGCATGCCTGCATACTAAGGGAAATACAGAAGAGCTGCACAGCTT
GGTATTAAACTAGCTACCGGCCATTACTCTTATGCTTCATCTACTGGATTGCAGCCCAAACTACAACATCAATCAATCATCCGGCTAATATGTGCACCTG
TGAAACCAAGTGCAAGAATTCAAACACACATAAAGATCCTATAGAGGCCAGGCACAGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAG
GTGGATCACCTGAAGTCAGGAGTTTGAGACCAGCCTGGCCAACATGATGAAACCACATCTCTACTAAAAATACAAGAAAAAAAAATTAGCTGGGCATGGT
GGCGGGCATCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTAGGAGAATCGCTTGAACCTAGGAGGTGGAAGTTGCAGTAATCCGTGCCATTGCACTCCAG
CCTGGGCAACAAGCACAAAACTCCATCAAAAAAAAAAAAATCCTATACAGAACACTAGCCTTCTGAAAGGATCCACAAATATAGCCAACTAACTATACTG
AACTTACACCACAGTTACAGAAATACCAATCCTCAAATATTAGAATAAATCAGTGCAAGAACTCTGGAAATCCAAAAAGTAGAGTATCTTTATTGACCTC
AAAACAAGTCCAATAGCTCCCCAGAAATGGTTTTTGACCAGTCTGAAATGACTGAGATGACACAGTCTTCAGAATCTGGGTGTCAATGAAACTTACTGAG
ATTCAGGAGAAAGTTGAAATCCAATCCAAGGAATGCAAAGCATCCAGTAAAATGATCCAAGAGATGGGAGAAAAAATGGGCATTTTAGGAAACAACAAAA
CAGAGCTTCTAGAAATTAAAGACTCACTATGAGAATTTCATAATACAATTAGAAGTATTAACAGCAGAGTAGACCAAGCTGAGGAAAGAATCCAATCCCA
GAGCTTGAATACCGTTTTTTCAAATCACCTTAGTCAGACAAAAATAAAGAAAAAAGAAATTAGAAAATGAATGAAACCTCCAAGAAATGTGGAATGATAT
AAGAAAACCAAACCTATGACTCATCAGGATTCTCAAGAGAGAAGGAGAGAGAATAATCAACTTGGAAAATATATTTGAGGTGAAGAGGTTGACACCAGTC
TCGGTGAAGAGGTTGACATGCAAATCAAAGTGGTACAGATAATGGTGGCCACATACTATATAAGATGACCATCCCCAAGGAACATAGTAATCAGATTCAC
CAAGGTCAATACAAAAATAAATAAATAAATAAATAAATACATCTTAAAGGCAGCTAGAGAGAAGGGTTAAGTCACATACAGAGAGTACTCCATCAGGCAA
GCAGTAGATCTCTCAGCAGAAACCTTAACAATGAGAAGATATTGGGGGTCTACTTTCAGCATCCCTAAAGACAAGAAATTCCAACCAAGAATTTCATTTC
CTCGCAAATAAGCTTCATAAATGAAGGAGAAATAAAATTCTTCTCAGACAAGAAAATTCTGAGAGAATATTTTTCAACTAGACCAACCTTACATGAGGCC
CTTAAGGAAGTGCTAAACATGAGTTCAAAAGAATGACACCGGCTGTCACAGAGACACTCAAGCTGATAGCTTGCATGCACTATAAAACAACTATGCAGTC
AAGTCTATATAACAAACAGCTAATAGCATGACTTGAATAAAATCACACATATTTGAATGTAAATGAACTAAATGTCCCAATTAAAATACAGGGTGTCAGG
CTGGATGAAAAAACAAGACCCAACCATCTGTTTTCTCTAAGAGGCCCATCTCACATGTAATGACACCCACATGCTCAAAGTGAAAGGATGTAGGAAGATC
TATCATGCAAACAGGAAACAAAAAAGAGCAGGAGTTGCTATTCTTTTTATCAGATAAAACAGATCTTAAACCAACAACAATCAGGAAATACAAAGAAGGG
CATTATATAATGATAAATGTTTTAATTCAATGAGAAGACTGAACCATCTTAAATATGTATGCACCCAACATTGGAGCACTCAGATTCACAGAAAAAATCT
TCATGACCTGAGAAAAATCTTAGACAGCCACACAATAATAGTAGGAGATTTCAAAACCCCACTGACAGTGTTAGACAGATCATCGAGGCAGAAAACTAAC
AAAAGAAACTCAGGGCTTCACCTCAACACTTGAGCAATTGCGCTTAATAGACATCTACAAAATACTCCACCCAAAAACCATGGAATATACATTCAACTCA
TCTGTACATGGAGCATACTCTACACGGTCAGTCATACTTCAAGTCTCAATAAATTAAAATATTGAATCTTACCATGCACACTCTTGGACCAGAGTGAAAT
AAAAATAGAAATCAATATCAATATCTCCCAAAACTACACAAATACATGGAAACTAAACAACTTTCTCATGAAAAACTCCTAGATGGACATTGAAATTAAG
GCATAAATCAAAAAAAGTGATTAATAACTCTTAGGTGAACATCAAAATTAAGGCAGAAATACAAAAAAACAAAAAAAATCTCTAAAATTAATGAAAATAG
TGACACATCTTACCAAAGTCATTAAGGCGCCACTCAAGCATTGTTACCAGGAAAGTTTATAGAACTAAATCCTTCTTCAAGAAGTTGGAAAGATCTCAAA
TTAACAATATAACATAACGCCAATGTGAACTACGATAATAAGAAAAAATCAATTCCAAAGCCAGCAGAAGAAAAGAAATAACTAAAATTAGAGAACTTAG
TAAAATATAGATGCAAAAATCTATACAAAAGATCAATGAAATTAAGAGTTTGTTTTTCAAAAATAAGTTAGACTGCTACCTAGATTAAAAAAGAAAGAGA
AGATTCAAGTAAGTACAATCAGAAATGACAAACATAACATTACAACTTATTTCATGGAAATACGAAAGATTGTCACAATCAATTCAATGCACACAAATTA
AAAAATATATAGAAAATGTAAATATTCCTGGAAACACACCTTCTTCCAAGATTGAATCAGGAAGAGAGTGAAACCTTGAACAGCCCAATATTGAGCTGTG
AGATGGAATCGGTAATAAGAAACCTACCAATCAAAAAGTGTCCTGGACTAGATGGATTCACAGCCAAATTCTACCAGACATACAAAAAAGAGATGCTACC
AATACTACTGAAACTATTCTAAAAAATGGAGGAGGAGGGACTCCTCTCTAACTCATTCTATATAAAGCTATCATCACCCTAATACAAAAATCTGGCAGAG
ACACAACAGAAAACAAAAACTTCAGACCAATATCCCTGATTAACATAAACTCAAAAATCCTCAATAAAATTCTAGCAAACCAAATCCAGCAACACAACAA
AAAGTTAACTCATTATGATCAAGTAGGGATTATTCCTGGGATGCAAGATTGGATCAACATATGCAAATCATTTAATGTGATTCACCACGTAAATGATTAA
AAGTAAAAACCATGTGATCATCTCAATAGATGCAGAAAAATAACTTTTGATATAATTCAACACCCCTTCTTTATACTAACTCCCAACAGACTAGGCATCG
AAGGAACATACCTCAAAATAATAAGAGTCATCTATACCAAACACACAGGCAATGTCACACTAAATGGGCAAAAGCTGGAAGCATTCTTCCTGAGATCTGA
AACAAGGAAAGAGTGCCCACTCTCACTACTCCTATTTGACATAGTACTGGAAATCCTAGCCAGAGCAGTCAGGCAAGAGAAAGAAAAGGCATCCAAATAG
GAAAAGAAGTCAAACTGTCTCTCTGTTGATGATATGATCTTATGCTTAGAAAATCCTAAAGACTCCATCAAAATCCTACTAAAACTGATAAACAATTTTA
GCAAGGTTTCAGAATACAAAATCAATGTAGTAAATCGGTAGTATAATGATGTCCTGGTTGAGATTCACACAATCCCATTTACAATAGTCAGAAATAAAAT
GGAATACCTAGGAATACAGCTAAACAAGGAGGTGAAAGATCTCTACGAGAACTGCAGAACACTGCCGAAAGAAACCAGAAATGGTATAAATAAATGTAAA
AACATTTCATGTTCTTGGATTGGAAAAATCAGTATTGATGAAATCGCCATACATCCAAAAACAGTTTACAGATTTAACGCTATTCCTACCAAACTACCAA
AGACATTTTTCAAAGAATTGGAAAAAACCTATTTTAAAATTCATATGGAATCTAAAAAGAGCCTGAATAGCCAAARCAATCCTAAGCAAATAGAAGCAGA
GATATCACACTACCCCACTTAAAACTATATTATAAAGCTACAGTCACCAAAACAGCATGGTGCTGGTACATAAACAGACACATAGACCAATGGAACAGAA
CAGAAAACTCAGAAATAAAGTCACACACATACAACCATCTGATCTTTGTCAAGGCCAACAAAAATAAGCAATGGGGGAAGGACTCCCTATTCAATACATG
GTGCTGGGATAACTCACTAGCCATGTACAGAAGACTGAATCTACACTCTTATCTTTCACCATAGGCAAAAACTAACTCAAAATAGATAAATATTTAAATG
TAAGACGTCAAACTCTAAAAAAGTTGAGATGAAAACCTAAGAAATACCCTTCTCTATATTGACCCTGTCTCCCCCCACCGCCTCCAAAAAAACATGGTCA
ACTCCCTAAAGCTATTGCAACTAAATGAAAAATTTACAAGTGGGACTTAATTAAACTAAAGACCTTCTGCACAGCAAAATAAACCATCAACAGAATAAAC
AGGCAACCTACAGATTGGGAGGAAATATTCATAAACTATGCATGCAATAAAGGTCTAATATCCAGAATCTATAAGGAACTTAAGCAAATCAACAACTAAT
AAACAAATAACCCATTAAAAAGTGAGCAAGAGACATGATCAGACATTACTCAAAAGAAGACAGACAAGTGGCCAACAAATATTTGAAAAATGCTCTCAGG
ATCAAGTTCACAAATAACAATATTAGCCTTAAATGTAAACGGGCTAAGTGCCCCAATTAAAAGACACAGACTGGCAAATTAAATAAAGAGCCAAGACCCA
TTAGTCTGCTGTATTCAGGAGATCCATTGCACATGCAAAGACACACATAGGCTCAAAATAAAAGGATGGAGGAATATTTATCAAGCAAATGTAAAGCGAA
AAAGAGCAGGAGTTGCAATCCTAGTCTCTAATAAAACAGACTTTAAGCCAACAAAGATGAAAAAAGACAAAGAAGGGCATTACATAATCATAAAGGGACT
TTGTACCAAGAAGAGTTAACTATCCTAAATATATATGTACCCAGTACGGGAGCACCCAGATTCATAAAGCAAGTTTTTAGAGACAAACAAAGAGACTTAG
AGTCCTACACCATAATAGTGGGAGACTTTAACACCCCACTGTCACTATTAGACAGATCAACAAGACAGAAAATTAACAAGAATATTTAGGACTTGAACTC
AGCTCTGGACCAAGTAGACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATACACATTCTTCTCAGCATCACATTGCACTTATTCTAAA
ATTGACCAAATATTTGGAAGTAAAACACTCCTTAGCAAATGCAAAATAATGGAAAATATAACCAACAGTCTCTCAGACCACAGTGCAATCAAATTACAAC
TAAGGATTAAGAAACTCACTCAAAACGGCACAACTACATGGAAACTGAACAATCTGCTCCTGAATGACTACTGGGTAAAGAAATTAAGGCAGAAATAAAC
ATGTTATTTGAAACCAGTGAGAAAAAAGACACAATGTACTGGGATCTCTGAGACACAGCTAAAGCAGTGTTTAGAGGGAAATTTATAGCACTAAATGCCC
AAAGGAGAAAGTAGGAAAGATCTAAAATTGACACCCTAACATCACAATTAAAAGAACTAGAGAAGCAAGAGCAAACAAATTCAAAAGCTAGCAGAAGACA
TGAAATAACTAAGATCAGAGCAGAACTAAAGGAGATAGAGACACACAACAAACCCTTCAAAAAAAATAAATGAATCCAGGAGCTGGTTTTTTGAAAAGAT
TAACAAATAGATATACTGCTAGCCAGACTAATAAAGAAGAAAAGAGAGAAGAATCAAATAGACACAATAAAAAATGGTAAAGGGGATATCACTACTGATC
CCACAGAAATACAAACTACCATCAGAGAATACTTATAAACACCTTTACGCAAATAAACTAGAAAGTGTAGAAAAAATGGAAAAATTCCTGGACAGATAAA
TCCTCCCAAGTCTAAAGCAAACCAGGAAGAAGTCAAGTACCTGAATAGGCCAAGAATAAGTTCTGAAATTGAGGCAGTAATTAATAGCCTACCAATAAAA
AAATCCCAGAACTAGATGGATTCACAGCCAAATTCTACCAGAGGTACAAAGAGGAGCTGGTAACATTTCTTCTGAAACTATTCCAAACAATAGAAAAAGA
GTAACTCCTCCCTAATCCATTTTATGGGGCCAGCATCGTCCTGATAACAAACCCTGGCAGAGACAMAACAAAAAAAGAAAATTTCAAGCCAATATCCTTG
ATGAACATCTATGCAAAAATCCTCAATAAATACTGGCAAACTGAATCCAGCAGTACATCAGAAAGTTCATCTACCACTATCAAGTCAGCTTCATCCTTGG
GATACAAGGCTGATTCATCATATGCAAATCAATAAACATAATCCATCACTTAAACAGAACCAATGACAAAAACCACATGATTATCTCAATAGATGCAGAA
AAGGCCCTCCATAAAATTCAACACCCTTTCATGCTAAAAACTCTCAATAAAGTAGGTATTAATGGAACATATCTCAAAATAATAAGAGCTATTTATGASA
AACCCACAGCCAATATCATACTAAATGGGCAAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAAGGATGCCCTCTCTCACCACTCCTATTCAA
CATAGTATTGGAAGTTCTGGCCAGGGCAATCAGGCAAGAGAAAGAAATAAAGCATATTCAAATAGGAAGAGAGGAAGTCAAGTTGTCTCTTTTTGTAGAT
GACATGATTGTATGCTTAGAAAACCCCATCGTCTCAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGC
AAAAATCACAAGCATTCCTGTACACCAATAGTAGACAAAAAGAGAGCCAAATCATGAGTGAACTCCCATTCACAATTGCTACAAAGAGAATAAAATACAT
AGGAATACAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAGTAAGAGAGGACACAAACAAATGGAAAAACATT
TCATGCTCATGGGTAGAAAGAATCAATATTGTGAAAATGGCCATACTGCCCAAGTAATTTATAGATTCAATGCTATCCCCATTGAACTGCAATTGACTTT
TTTCACAGAATTGGGAAAAACTACTTTAAATTTCATATGGAACCAAAAAAGAGCTCCGATAGCCAAGACAATCTTAAGCTAAATGACCAAAGCTGGAGGC
ATCATGTTACCTTACTGCAAAGTATACTACAAGGCTACAGTAAACAAAACAGCATAGTAGTGGAACCAAAACAGAGATATAGACCAATGGAACAGAACAG
AGGCCTCAGAAATAATGCCACACATCTGCAGCAATCTGATCTTTGACAAACCTGGCAAAAACAAGCAATGGGGAAAGGATTCCCTATTTAATGGTGCTGG
GAGAAATGACTAGCCATATGCAGAAAACTGAAACTGGACCTCTTTCTTACACCTTATACAAAAATTAACTCAAGATGGATTAAAGACTTAAACTTAAGAC
TTAAAACCATAAAAACCCTAGAAGGAAACCTAGGCAATACCATTCAGGACATAGGCATGGGTAAATAATTCATGACTAAAACATCAAAGAAAAAATGGCA
ACAAAAGCCAACATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGAACAGCAAAAGAAACTATCATCATAGTGAACAGGCAACCTATAGAATGGG
AGAAYATTTTTGTGATCTATCCATCTGACAAAGGGTAATATCCAGAATCTACAAGAAACTTAAACAAATTTACAAGAAAAAGACAAACATCCCCATCAAA
AAGTGGGTGAAGGATATGAATAGACACTTCTCAAAAGAAGACATTTATGTGGCCAACAAACATATGAAAAAAAGCTCATCATCCCTGGTCATTAGAGAAA
TGCAAATCAAAACCACAATGAGATACCATCACATGCTAGTTAGAATGGTGATCATTAAAAAGTCAGGAAGCAACAGATGCTGGAGAGGATGTGGAGAAAT
AAAAATGCTTTTACATTGTTGGTGGGAGTGTAAATTAGTTCAATCATTGTTGAAGACAATATGGTGATTCCTCAAGGATCTAGAACTAGAAATACCATTT
GATCCATCAATCCCATTACTGGGTATACACCCAAAAGATTATATATCATTCTACTATAAAGCAACATGCACATGTATATTTATTTGTGGCACTGTTCATA
AAAGCAAAGACTTGGAACCAACCCAAATGCCAATCAGTGATGGACTGGATAAAGGAAATGTGGCATATGTACACCATGCAATATTATACAGTTATAAAAA
AAGATGAGTTGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCACCACTTTGGGAGGCCAAGGCAGGTGGATCATGAGGTCGGCAGATCGAGACCATCCTG
GCTAACATGGTAAAACCCCCGTCTCTACTAAAAAATACAAAAAATTAGCTGGGTGTGGTGGTGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCA
GGAGAATGGCGTGAATCTAGGAGGCGGAGTTTGCAGTGAGCCCAGATGGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAA
AAAAAGAAAACCGGATGAATGCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAACCATCGTTCTTAGCAAACTAACACAAATCGGAAAACACTGCATG
TTCTCACTCAGGAGTGGGAGTTGAGTAATGAGAACACATGGACACAGGGAGGGGACCATCACACATTAGGGCACATTGGGGGTTCGGGATCTAGGGGAAG
GATAGCATTAGGAGAAATACCTAAAGTAGATGACGTGTTGATGGGTGCAGCAAACCACTATTGCACATTTATACCTATGTAAAAACCTGCACGTTCTGCA
TATGTATCCCATAACTTATAGTATAATAATAATTATTATTATACTATTTAAAAAAATAGTTTTCCAATTGAAAACTATTTTTCAATTATTTTTTAATTAA
AAAAATAGGTTTCCAATTGAAACCTCTGCTTTTTTCTGGTTTCCATTTGCTTGGTAGATTTTTCTCAATTTTTAAAATTTTGAGCCAATGGATGTCATTG
CATGTAATATGGGTGTGTTGAAGACAACATAACAAGGAGTCTTGCTTCTTTATCTGGCTTGCCACTCTGTGCCTTTTAATTGGGGTATTTAGCCTGTTTA
CATTCAAGGTTAGTATTGATATGTATGGATTTGTTGCTGTCATCATGTTGTTACTTGGTTATTATGCAGATTTGTTTGTGTTTTTGCTTTTTAGGGTCAC
CAGTCTGTGTACTTGTGTGTTTCTGTAGTGGTTTGTAATTACCTATTATTTCCATATTTAGTGCTTCTTCCAGGAGCTCTTATAAGGCACATCTGGTGGC
AACAAATTTGCTTAGCATTTGCTTACCTGAAAAGGATCTTATTTCTCTTTTGTTTATGAAACTTAGTTTGGCTGAACATGAAACTCCAGATTGCATTTTT
TTTTTTTTGAGACGGAGTCTCGCTCAGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCGTTCTCCTGCCTCAGCCTCTTGAGTAGCTGAGACTACAGG
CATCCGCCACCGCGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGGTCTCGATCTTCTGACCTCGTGATCCGCGCTCCTCGGCCT
CCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCGGCCTGCATTTTTTGTTTTTAAAGAATATTTGATGTAGGTCCCCGATCTCTTCTTCCATGT
AGGATTTTTGCTGAGAGGTCTCTTGTTAGTTTGCTGGACTTCCTTTTATAAGTGACCTACCCTTTCTCTCTAGCCTTTAACTTTTTTTTCTTTCATTTCA
ACTGAAGAGAATTTGACTATTATGTGTTTTGGGGATGACCTTCTCATGAAGCATTTTGCGTGGGTTCTAAGCATTTTCTGAATTCGAATGTTGGCCTCTC
TGTCTAGTTTGGAGAACTTTCTCATTGGTGATATCCTGAAATATATTTTCTAATTTGCCTTCTTTCTCTTTTTCTTTTCTGGAATGTCAATGAGTTCTAG
ATTCGGTCTCTTTATGTTATTCCATAATTCATGGAAGTTTTGTTCATTAAAAAATTCTTTTTTCTTTACTCTTGTTTCACTGTTTTATTTTAAAAAGTCA
ATCTTCAAGCTTCAATATTCTTTTCTCAGCTTGGGTATTCTGCTGCTAATGCTTGTGATTTCTTTTTTTTTTTGTTTTGTTTTGTTTTCCTTTTTTTTAA
TTATACTTTAAGTTTTAGGGTACAGGTGCACAACATGCAGGTTTGTTACCTGTGTATACAAGTGCCATGTTGGTGTGCTGCACCCATTAACTTGTCATTT
AATATTAGGTATATCCCCTAATGCTATCCTTCCCCACTTTCCCCACCCCACAACAGGCCCCAGTGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCA
TTGTTCAATTCCCACCTATGAGTAAGAACATGCGGTGTTTGGTTTTTTGTCTTTGCAACAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCC
TACAAAGGACATGAACTCATCCTTTTTTATGGCCACATACTATTCCATGGTGTATATGTGTCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTG
GGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGTCACAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTACAATCTTTTGGGTATATAT
CCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCACCACACGGACTTCCACAAAGGTTGAACTAGTTTACAGTCCCA
CCAACATTGTAAAAGTGTTCCTATTACTCCACATCCTCTCCAGCACCTGTTGTTCCTGACTTTTTAATGATTGCCTTTCTAACTGGTGTGAGATGGTTAT
CTCATTGTGGTTTTGATTTGCATTTCTCTGATGGACAGTGATGATAAGCATTTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGT
CTGTTCATATCCTTCACCCACTTGTTGATGGGGTTGTTTTTTTTTTTTTTTTTTGTAAACTTGTTTGAGTTCTTTGTAGATTCTGGATATTAGCCCTTTG
TCAGATGTGCAGATTGCAAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTGATTA
GATCCCATTTGTCAATTTTGGCTTTTGCTGCCATTGCTTTTCATGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTT
TTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGC
TTTCTGCTTATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTGTCAGGTTTGTCAAAGATCATATGTT
TGTAGATATGTGGCATTATTTCTGAGGGCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGATACCAGTACCATGCTGTTTTGGTTACTGTAGCCTT
TAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTGACTTAGGATTGATTTGGCAATGCGGGCTCTTTTTTGGTTCCACATGAACT
TTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCTTTGGTAGCTTGATGCGGATGGCATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCAC
GATATTGATTCTTCCTACCCATGAGCATGGAATTTTCTTCCATTTGTTTGTATCCACTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGG
TCCTTCACATTCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTTTCTGT
TATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTATATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCAGAGAT
GATGGGGTTTTCTAAATATACAATCATGTGATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATGAATACCCTTTATTTCCTTCTCCTGCCTAA
TTGCCCTGGCCATAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGACATCCCTGTCTTGTGCCAGTTTCCAAAGGGAATACTTCCAGTTTTTG
CCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTAATATTTTGAGATACGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATG
AAGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATCAAATGGTTTTTGTTGTTGGTTCTGTTTATATGCTGGATTGCATTTATTGA
TTTGTGTATGTTGAAGCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTAGATGTGCTGCTGGATTCAGTTTGCCAGTATT
TTATTGAGGATTTTTGCATTGATGTTCATCAGGGATATTGGTCTAAAATTCTCTTTTTTGGTTGTGTCTCTGCCAGGCTTTGGTATCAGGATGATGCTGG
CCTCATAAAATGAGTTAGGGAGGATTCCCTATTTTTCTATTGATTGGAATAGTTTCAGAAGGAGTGGTACCAGCTCCTTCTTGTACCTCTGGTAGAATTC
TGCTGTGAATCCATCTGGTCCTGAACTTTTTTTGGTTGGTAGGCTATTAATTATTGCCTCAATTTCAGAGGCTGTTATTAGTCTATTCAGAGATTGAACT
TCTTCCTGGTTTAGTCTTGGGACAGTGTAGGTGTCGAGGAATTTATCCGTTTCTTCTAGATTTTCTAGTTTATTTGCATACAGGTGTTTATAGTAGTCTG
ATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGACATGCCCTTTGTCATTTTTTATTGCGTCTAATTGATTATTCTCTTTTTTCTTCTTTATTAGTCTGG
CTAGTGGTCTATCAATTTTGTTGATCTTTTCAAAAAACCAGCTCCTGGATTCATTGATTTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTCTGT
TCTGATCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTAAATGTGTTTGCTCTTGCTTCTGTAGTTCTTTTAANNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTTGCTAGATTGGGGAATTTCTCCTAAATAATATCCTGCAGAG
TGTTTTCCAACTTGGTTCCATTCTCCCCGTGACTTTCAGGTACACCAATCAGACATAGATTTGGTGTTTTCACATAGTCCCATATTTCTTGGATGCTGGT
TCATTTCTTTTTATTCCTTTTTCTCTAAACTTCTCTTCTCACTTCATTTCATTCATTTGATCTTCCATCACTGGTACCCTTTCTTCCACTTGATCAAATC
AGCTATTGAGGCTTGTGCATTCATCATGTAGTTCTGGTGCTGTGGTTTTTGGCTCCATCAGGTCCTTTAAGGACTTCTCTGCCTTGATTATTGTAGTTAG
CCATTCATCTAATCCTTTTTCAAGTTTTTTTAACTTCTTTGCCATGGGTTCAAACTTCCTCCTTTAGCTTGCCGTAGTTTGATAATCTGAAGCCTTCTTC
TCTGAACTCGTGAAAGTCATTCTCCATCCAGCTTTGTTGCATTGCTGATTAGTAGCTGCATTCCTTTGGAAGAGGAGTGGTGCTCTGATTTTTAGAGTTT
CTGGTTTTTTTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACCTTTGGTCTTTGATGATGTGATGTACAGATGGGTTTTTGGTGTGGATGTCCTT
TTTATTTGTTAGTTTTCCTTCTAACGGTCAGGACCTTCAGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCCCCTGCAGACCCTGTTTGCCTGGGTATCAG
CAGCAGAGGCTGCAAAACAGSGAATATTGGTGAACAGCAAATGTTGCTGCCTGATCGTTCCTCCGGAAGTTTTGTCTCAGAGGAGTACCTGGCCGTGTGA
GGTGTCAGTCTGCCCCTACTTGGGGGTGCCTCCCAGTTAGGGTACTCGGGGGTCAGGACCCACTTGAGGAGGCAGTCTGTCCATTCTCAGATCTCAAGCT
GCGTGCTGGGAGAACCACTATGCCACTTGTTATTTTTTCATGAAATTTTTATAGTATGTTTTTCTGCTCTATCAGGTTGATTGTGTTTTTTTTCTATACT
GACTATTTTGTCTTTCAGCTCCTGTATGTTTTTATTGTGAATTCTAGCTTCCTTAGATTGGGTTTTAATATTTTCCAGGATCTCAATGATCTTTCTTTCT
ATCTATATTCTGAATTCTATTTATCTCATTTCAGCCATCTCAGCCTGCTTAAGAATGCTTGCTTGAGAACTAGTGTGTTTGTGTGGAGGAAGGAAAACAC
TCTGATTTTTTGAATTGTCAGAGTTCTTGTGCTGGTTCTTTCTTATTTTTGTGGGTCTGTTGTTTCTTCAACATTTAAAGTTGTTTTTTGGGTGAGAGTT
TTTCTTTTATTCTAGTTGATAACCTTGGGCGATTTGATTATGGTATAAGGTAGGTTCATTTGACTGGCTTCATTTCTGGAACATTTAAAGTGGCCAAGAC
TCAGCTCAGTACTCCTGGATTGCATGCTCTAACTCTGGGGGACTGGTATGAGGTCCCCACTTTCTTCTCTGACTTTTGAAGGTTAGGAACCTTCTGGGAG
GGCTGAGGTCCTCCTGGACCACTAGAAGGGACAAGGTGCTGCCAGATCACTGGTCATAATACTTCAATGGGTAAGTGCCAGCCAAAGAACTTCATAGGGC
TCTGGCAGCAGTATCTGCCCTTATTTTTATGTGCCAGTTGCAACTCCCACTGCAGTATGTATGGGTTTATGCTCCTCAGCTGCAGCACAGTGCTAGCAGG
TACCAGGGTGCTGACCTTTGTGAGATCATTCACAGCAATTGGCAATATTGACTGCATTGCCTTTTGTGGGCCAGTAGGTGGCCATCATGCAGGTGTTTGC
AGTTGTTGGTTGCATTGACAGTATGACTGGGGGCATAGGGCTTTCTAGCAGCAACTGTGCATACATTTACACTGGTGGCATTGTTATCATGGAGGTGGGG
TGCTCTGGTTGGCACAAGTCTGTGTGGGCCCTCTATGCATGTTCCTGTAGGTGGCAGTGGCTACTCAGGGTGAGGGTGGGTCCACTTTTTGCATGCCTAG
TTTCTGCCGGCAGCTGTTTCAGCACTGAAAGTAGGTACTGTTGGGGGCAGTGCTGATGTGCTTTCTGCTTGCCAATGATCTGACAACAATGGTGGTGCAG
TGGGGGGAAGAGGTAGGGTGCACTCATGCCAGGAGTAGTGGCATGGCAGGGTGCACACAATTATGTGTGCTGGTAGAGAAGGGAAGACAAGGTCCACACA
CACACACACACACACACACAAGTACCAATAAAGCAATGTTGGAGGTCATCGTGGGCGAGTGCATGTAGGCAAAGTGGCACAAGGGAGGCTGCCGTAGTGG
CAGGGTGTTGCAGGAAGTCAGGGACCCCAAACAGAAGGACCAGCTGAAGCCATGGCTGAAGAACTTGGATTGTGAAGATTTCGTGGACATTTATTAGTTC
CCCAAATTAATACTTTTGTAATTTCTTATGTCTGTCTTTACTGCAATCTCTAAAGATAAATTGTGAAGATTTCATGGACACTTATCACTTCCCCAATCAA
TACCCTTATGATTTCCTATGCCTGTCTTTACTTTAATCTCTTAATCCTGTCATCTCACAAGCTGAGGAGGATGTATGTCACCTCAGGACCCTGTGATGAT
TGCGTTAACTGCACAGATTGTAGAGCATGTGTGTTTGAACAATATGAAATCTGGGCACCTTGAAAAAAGAACAAGATAACAGCAACTGTTCAGGGAAAAA
GAGAGATAACCTTAAACTCTGACCACCGGTGAGCCGGGTGGAACAGAGTCATATTTCTCTTCTTTCAAAAGCAAATGGGAGAAATATCACTGAATTCTGT
TTCTCAGCAAGGAACATCCCTGAGAAAGAGAATGCGCCCCAAGGGTGGGTCTCTAAAATGGCCCCGTTGGGTGTGGCCGTCTTCTGTGGTTGAAACTTTA
GGGATGAAATAAATCCCAGTCTCCCATAGCGCTCCCAGGCTTATTAGGAAAAGGAAATTCCTGTCTAATAAATTTTGTTCAGACTGGTTGCTCTCAAACC
CTGTCTCCTGATAAGATGTTATCAATGGCAATGGTGCCCGAAACTTCATTAGCAATTTTAATTTTGCCCCGGTCCTGAGGTCCTGTGATCTTGCCCTGCC
TCCATTTGCCTTGTGATATTCTATTATGTTGTGAAGTAGGTGATCTTTGTGACCCACACCCTATTTGTATACTCCCTCCCCTTTTGAACGTCCCTAATAA
AAACTTGCTGGTTTTGCGGCTTGTGGGGCATCACGGAACCTACCGACATGTGATGTCTCCCCCAGATGCCCAGCTTTAAAATTTCTTTCTTTTGTACTCT
GTTCCTTTATTTCTCAAACTGGCTGATGCTTAGGGAAAATAGAAAAGAACCTATGTGACTATYGGGGCAGGTTCCCCAATAGGAGGGTATGGGCTAGCTG
GGCTTGTCTTCTGTGGCAGGTCTGTTCCAGGACTTTGCAGGTCAGGTGCTATCCACCTGACAGGTCAGGAATTGTGATGCAGGGCCCCAGGAGGTACTTA
GGGGCTGCACTGCAAGCAGGCAGGATCAGACTTGGGCCCTGGGAGAAGCCAGCAGAATGAGGGGTGCTCAGATTGGACTGGACCTGAATCATGGGCAAAA
CCACCCTGCAGATTTCAGGTCTGACAGTTCCCCTAGGGCTTAAGTCTCCTGTGGGAGCCAGTCTAGCCTAGGGGCATGGGCAACCCTTGTTGTGCTCCTC
CAGATGTTCTGGCATCAAGTCTTCCAGGCTCTGCTCCAGCTTGAGTTCTGCCCCTACCACTTCTCTGAGCACCTCTCCCTGCTAATCCAAGTGTCCATGG
TGGTCAAGGGTATTTTTCCTTCTATGATTCTAGAGGCCCATGTAGAAAGTGGGTTGCTCCTTGACTGTTCAACTCACCTTTTCCCCAGGTGTTGCTGGGA
GCAAGGAGCAAGTCCCAGTGAACAGTAGCCCTGTGCAGGGTTCCCAGCTTCCTCCCCATTCAGCCCAGCATCTGTGTCTTCCCTCCATCCACCCTCAATG
CCTTCTCTCTGAAGATCTGCTAGCAGTGTGCCAGTCTTTCCAATGCCCCAACCCTTTGTGGGAGATGTTCCTTCTGGCTACATCTAGTTGGCCATCTTGC
CCCTCAGGAGAAAACAACTATTTTTATTTAATAATTTTTAAACATTCTTTTCTGTGACTCTTTTAGGAATGCCCAATTCTTCTGGACTCATGAACCGTCG
TGATGCCATTGCCAAAACAGATGCCACTGTGGTGGCATTACTGAAGGGAGCTGGTGCCATTCCTCTTGGCATAACCAACTGTAGTGAGTTGTGTATGTGG
TATGAATCCAGTAACAAGATCTATGGCCGATCAAACAACCCATATGATTTACAGCATATTGTAGGTGGAAGTTCTGGTGAGTTGGACATTTTAGTATGGC
ATGAATAGCTATGCTAACAATAATAATTATGAATTGTATTAATAAACATGATACAGTATAGCATCTATGACCTATAAGAATGGATGCAAAAACCCAGGAT
ATTTGTGTGTTGATGGAGAAGAAATGGGAGTCATGTAACAGCCTTGGTCAACTCTGATATTTTGAAGATAGATAGAGGAGAAGTAGCCAGCAAAGGGAAT
TGAGAATGAACTACAAGTGATGTAGATAGGAAACATCGTAAAGTGTTTAGAGACTAGGAAAAAAAAGTGTATAGACACTAGAATTGACAAGGCTTTTATT
AAGCCTGAATGGATGCATATGTGGGTTAGCAAAATATGATGTTTAAACTTGTGGGTGCTAAAGCTACATAGACATTTGAGACTTCTTTTAATATATGACC
TTGGTCACATGAAGTAGGTGCTCATTAAGTCAGTTTTCTTTGCTTGTAAGATGGCCATATGAAAGAAATCAGACTTGTAAGGTTACTGTGATGATTAAAA
ATTTAAGTGTGACTTCAGGTTTCTGGTCTAGCATATATGGGGTTTAGAAGTTTTTACTCCAATTCACACAATAAGAACAAAAGCTGAACAAACTAAAAGT
TAATGACAATTCTTAAATTTATCAATATGCTGAGGTAACGGGAAAACCACTCTTCCCAARACTGAATGAAAAGACAGGCAGATACAAAGAAGTGAAACTT
GCTAGAACAAAAGCCTAGGAGCAGAAAATTTCAGGGGAACCAGCACAGCTTTAGAGAAACCTAAGCTATAACTGATGACTTGCTGGAGGTTCATTGTGAA
AAAGTTTGAGAATCAAAATGTATGTGGTGGTTGGGTGGGGGGATCTTAGGGGCCCCACACAATTTCAAAAGTTTTACCTTCAGGAGTCCTACTGTGTTCC
TGAGTGAAGATTGGAGAGAAATCTTCTCTTGCTTCTTGCACAGGGAGGGAAAAAGTAGCCATTTTGAAATTCTGCTTCCAAAGCATACTGTTCTTCTAAC
AAGGAATGTCCTCAGAGAAACTATTTTTTCAGAACCTAACTTAGTAAGGTTTTACAAGAAACTAATGGACTTGACCTAGGGGAAATGAAATATCCAACTC
CAGTCCTCTCTAGGTTTCCTGTCCTACTGAAGGGGTCAAAGCAGAATAAAATTGGGAAGCACATGTTAGGGTCACAGAGCAGGGGCACATGCTAACTAAA
TGACTGAGACCTAATCATATGACTATAAAATACTTCCTCTCCTTGTCTCCACACACCTTATCACTACACAAATAGGGATTTTCTATAATGGGAGTTCTAT
ATAAACCAGAAGAACAGTACATCATAGGTGTTATTTAAGAAGTCTCTAGGGAAACTCAAAGACAACAGAGGAGGTGGAAACAATGGCACTAGTTGAAAAT
TTTACACCTGACACCTATGGCTACAGCAGACAGTAAACACAGACTAACCCCTAGCCAGGGAAACATAAAACCTCACATTAAAGGCCAAATACCCCCAGTT
CTTTTATCTCAGTACATCATGTTTGGCTTTCAACAAAACAATTATAAGGCATACTAAAAGACAAAATCACAGTTTGAAAAGACAAAGCAACCATCAAGAT
TTGACTCCAATATGGAAGAGATATTGAAATTATCAGACTGAGAATTGAAACCATTTGTGATTAATATAGTAAGGGCTATAATGGAAAAACTGGTCAACAT
GCAAGTACAGATCTGTAATGTAAGAARACAGATGGGAACTTCAAGAATCAAAAGCAAATGCTAGAAATAAAAAAAAAAAATATAACAGAAATGAAGAACA
TCTTTGATGGGCTCATCAATATATTGTATACAAAACAGGAAACCTTCGGTGATGTGGAAGATCTGTCAAAAAGAACTTCCAAAACTGAAATGCAAAGAGG
AAGAAAAAGATTGAAAAAGACAGAAGAGACTATCTAATAACTGTTGGATTACAAATGCATATAATACACATATGTAATTGGAACACTAGGAAGAGAAGAA
AGATTTTAAGAAACAGCAATAAATGTTTGAAAAAAACTACACCTAGCATAATATTTCATCCTTAGAAGGTTAAGGAGAAAGAAGAAAATATTTAAAGAAG
AAGGAGAAACATACCTTATCTGTAGAAGAGCAAAGACAGAATTATATTGGTATTTTCTTCAGAAGCCATGCAAACAATAAGAGATGGGAGTCCACTTTGG
GAGGCCAAGGCAGTTGGGTCACTTGAAGTTAGGAGCTTGAGACCAGACTGGCCAACATGTTGAATCCCCATCTCTACTAAAAATACAAAAATTAGCCAGG
CCTGGCAGCAGGTGCCTGTAATACCAGCTACTCAGGAGTCTGGGGCAAGAGAATTGCTTGAACTCGAGAGGTGGAGGTTGCAGTGAGCCGAGATCATGCC
ACTGCACTCCAGCCTAGGTGACAGAGGGAGATTCCGTCTCACACACACACACACACACACACACACACAAAGATGGGAGTCAAATATTTAAACCACTGAA
AGAACCATCAACTTAAATCTCTGTCTAGCAGATCTATTCTTCAAAAGTGAAAAAGAAATAAAGATGCTCTGAGACAAAGACATATTGACAGAATTTGTTA
CCAGTAGAGCAACAGAGCAAGAAATGTTAAAAGATGTTCTTCAGAGAGAAAAAAAGAATACAAACCAAAAACCTGAATTAATGTAAAAAAAAAAAGAAAA
TGATTAGAGAAAGATTGAACAAAGGTAAAATAATGTATTTTTAAATTATTGATTGCTGTAACATGTAATTGTTCAAAATAATAATGCCAACAATGTGTTG
GGTGATTATAGCTTGTCTATGAGTGAAATGAATGACAACATTGTTATATGGGATGGGATAAAGGAATTGGGAATGTTCCTTTATAAGATAACTACACTAC
TTGGGAGGTGGCAGAGTATCATTTGAAGGAGACTTGAGTTAGTTCTAAATGTATATTGCAAACTCAAGGGCAAATATTAAAGTAACAAAAAAGTATGCAT
TAAGTGGCAAGAGAGGAGAATAAATGGAAACATTTAAAACCAGAGACTTAGCCTCCCACACAATTATAGTGGGAGAACTTAACACCCCACTGAAAATATC
AGACAGATCATTGAGACAGAAAATTAACAAAGATATTCAGGACCTGAACTTAGCTCTGGATCAAGTGGACCTAATAGATATCTACAGAACTCTCCACCCC
CAAACAATAGAAAACACATTCTTTTCATCATCACATAGCACTTACTCTAAAATTTATCACATAATTTGAAGTAAAACATTCCTCATTAAATGCAAAAGAA
CTTAAATCATAACAAACAGTCTCTCAGATTACAGTGAAGGGATGGGTTGCCCCTCCACACCTGTGGGCGTTTCTCGTTAGGTGGAATGAGAGACTTGGAA
AAGAAAGAAAGAGACACAGAGACAAAGTATAGAGAAAGAAAAATAAGAAAAATGGGCCCAGGGGACCGGCGTTCAGCATAAGGAGGACCCGTATTATTAT
TGATCATTATCCAGCGTTTCCCGGAGAGGGGGATGTGGCAGGACAATAGGATAATAGTGGAGAGAAGGTCAACAGGTAAACACGTGAACAAATGTCTCTG
CATCATAAACAAGGTAAAGAAAAAAGTGCTGTGCTTTTGATGTGCATATACATAAACATCTCAACGCCTTAAAGAGCAGTATTGCTGCCAGCATGTCCCA
CCTCCAGCCCTAAGGCAGTTTTCCCCTATCTCAGTAGATGGAATATACAACTGGGCTTTACACCAAGACATTCCATTGCCCAGGGATGAGCAGGAGACAG
ATGCCTTCCTCTTATCTCAACTGCAAAGAGGCGTTCCTTCCTCTTTTACTAGTCCTCCTCAGCACAGACCGTTTACGGGTGTTGGGCTGGGGGACAGTCA
GGTCTTTCCCTTCCCACGAGGCCATATTTCAGACTATCACATGGGGAGAAACCTTGGACAATACCTGGCTTTCCTAGGCAGAGGTACCTGCGGCCTTCTG
CAGTGTATTGTGTCTCTGGGTACTTGAGATTACAGAGTGGTGATGACTCATAGCAAACATGCTGCCTTCAAGCATTTGTTTAACAAAGCACATCCTGCAC
AGCCCTTAATCCATTTAACCCTGAGTTGACACAGCACATGTTTCAGGGAGCACAAGGTTGGGGGTAGGGTTACAGATCAACATCATCTCAAGGCAGAAGA
ATTTTTCTTAGTGTCAGGCCTCCGAGCCCAAGCTAAGCCATCATATCCCCTGTGACCTGCAGGTACACATCCAGATGGCTGGTTCCTACCTTAACTAATG
ACATTCCACCACAAAAGAAGGGAAAATAGCCTGTTCCTGCCTTAACTGATGACATTGTCTTGTGAAATTCCTTCTCCTGGCTCGTTCTGGCTCAAAAGCT
CCCCCACTGAGTACCTTGAGACCCCCATTCTGCCCGCCAGAGAAGAACCCCTCTTTGACTGTAATTTTCCTTTACCTACTCAAATCCTATAAAATGGCCC
CACCCCTATCTCCCTTCATTGACTCTCTTTTCAGACTCAGCCCACCTGCACCCAGGTGAAATAAACAGCTTTATTGCTCACAGAAAGCCTGTTTGGTGGT
CTCTTCACACGGACGCGCATGAAACTTAGTACAGAACAAAATGGAGTCTCTTATGTCTACTTCTTTCTACGCAGACACAGTAACAATCTGATCTCTCTTT
CTTTTCCCCACATTACAGCACAATCAAATTAGAACTCAAGATTAAGAAAGTCATCCCACACCAAACCACACAACTACGGGGAAATCAAACAACCTGCTCC
GGAATGACTTTTGACTTTTGGGTAAATAATGAAATTAACAAAGAAATCAAGAAGTTCTTTGAAACTAATGAGAACAAAGACACAATATATCAGAATCTCT
GGGCCACAGCTAAAGCACTGTTTAGAGGGAAATTTATAGCACTAAATCCCCACATCAAAAAGCTAGAAAGGTCTAAAACTGACAACCTAACATCACAACT
AAAAGAAGTAGAGAAGCAAGAGCAAACAAATCCCAAAGCTAGGAGAAGACAAGAAATAACCAAGATTAGAGCAGAACTGAAGGAGATAGAGACACAAAAA
ATCCTTCAAAAATCAACGAATCCAGGAGCTATTCTTTTGAAAAAAAAAATAAATAAATAAAATAGAGCACTAGCTAGACTAATAAAGAAGAAAAGAGAGA
ATTAAATAGACAAAATCGGAATGATAAGGGGTTATTACCACTGACCCCACAGAAATACAAACAACCATCATAGATTACTATATACACCTGTATGGACAAA
ACTAGAAAATTTAGAAGAAATGGAAAAAAATTCCTGGAGGCATACACTTTCCCAAGACCGAACCAAGAAATAATTGAATCTCTAAATAGAACAATAATGA
GTTCTAAAATTGAGGCAGTAATAAATAGCCTACCAATCGAAAAAAAAAAAAAAAAGCCCAGGACCAGATGGATTTACAKCTGAATTCTACCACAGGTACA
AAGAGGAGCTGATACCATTTCTACTGAAATTATTCCAAAAAATTGAAAAAGAGGGATTTTTTTCTAACTCATTTTATGAGGCCAGCATCATCCTGATAAG
AAAACCTGGCAGAGAAAAAATAAAAATAGAAAACTTTAGGCCAAGATTCTTGATGAACATCAATGCAAAAACCCTCAATAAAATACTGGCAAACAGAATT
TAGCAGCACATCAAATAGCTTATACACCATGAACAAATTGGTTTCATCCCTACGATGCAAGTTTGGCTGAACATATGCAAATCAATAAATGTCATTTGTT
GCACAAACAGAACTAAAGATAAAAAACATGATTATTTCAATAGATGCAGAAAAGGCCTTCACTAAAATTCAACATCCCTTTATGTTAAAAACTTTTAATA
AACTAGGTATTGAAGGAACATACCTCAAAATAATAAGATCTGTATTTGACAAACTCACAGTCAATATCACAATGAATGGGCAAAAGCTGGAAGCATTCTC
CTTGAAAACCAGCACAAGACAAGGATGCCCTCTCTCACTGCTCTGATACAACATAGTATTGGATGTTCTGGCCAGACAATTAGGCAAGAAAAAGAAATAA
AGCATATTCAAATAGGAAGAGAGGAAGTCAAACTACCTTTGCTTGCAGATTACATGATCATATATCTAGAAAACCCCATCATCTCAGCCCAAAAGCTTCT
TAATCTGATAAGCAACTTCAACAAAGTCTCAGTTTCATGAACGTCCGTGTGAAGAGACCACCAAACAGGCTTTGTGTGAGCAATAAAAGCTTTTAATCAC
CTGGGTGCAGGCGGGCTGAGTCTGAAAAGAGAGTCAGCAAAGGGAGATAGGTGTGGGGCCATTTTATAAGATGTGGGTAGGTAAAGGAAAATTACAGTCA
AAGGGGGTTTGTTCTCTGGCGGGCAGGAGTGGAGGTCGCAAGGTGCTCAGTGTGGGAGATTTTTGTGCCAGGATGAACCAGGAAAAGGACTTTCACAAGG
TAATGTAATCACTTAAGGCAAGGACCGACCATTTTCACTTCTTTTGTGGTGGAATGTCATCAGTTAAGGCAAGGACTGGCCATTTACACTTCTTTTGTGG
TGGAATGTCATCAGTTAAGGTGGGGCAGGACATTTTCACTTCTTTTGTGATTCTTCAGTTACTTCAGGCCATCTGGGCATATACTTGCAAGTCACAGGGG
ATGCGATGGCTTGGCTTGGGCTCAGAGGCCTGACACTCAGGATACAAACTCAATGTGCAAAAATTGCCAGCATTTCTATTCACCAACAACAGGCAAGTAG
AGACAAATCATGAATGAACTCCAAATCACAATTGCTACAAAAGAATACGATACCTAAGAATACAGCTAACAAGGAAAGTGAAGAACTTCTTCAAGGAAAG
CTACAAACTACTCAAAGAAATCAGATAGGACACAAACAAATGGAAAAAAAAAATCCATGCTCATGGATAGGAAGAATCATTATCGTGAAAATAGCCATAC
TGCCCAAAGTAATTTATAGATTCAMTGCTATTCCTATTAAACTACCATTGACATTTTTCAGAGAATTAGGAAAAAAAAACCTATTTTAAAATTCACGTGG
AGACAAAAAAGAGCCCGAGTAGCCAAGACAATCCTAAGCAAAAAGAACAAAGCTGGTGGCATCATGGTACCCAACTTCCAACTATACTACAGGGCTACAG
TAACCAAAACAGCATGGTACTGGTACCAAAACAAACACATAGACCAATGGAGTAGAATAGACAACTCAGAAATAAGACTGCACAACTACAACCATCTGAT
CTTCTACAAACCTAACAAAAACAAGCAATGGGGAACGGATTCTCTATTTAATAATTCRTGCTGGGAGAACTAGCTAGACATATGCAGAAAGTTGAAACTG
GACCCTTTCTTTACACCTTGTACAAAAATTAACTCAAGATGGATTAAAGACTTAAACCTAAAACACAAAACTATAAAAATTTTAGAAGAAAGTCTAGGCA
GTACCATTCAGGACGTAGGCATGGGCAAACATTTCATGATGAAAACACCAAAAGCATTTGCAACAAAAGCAAAAATTGACCAATGGAATCTAGTTAACTA
ACAAGCCTCTGCAAAGCAAAATAAACTATCATCAGAGTGAACAGACAACCTACAGAATGGGAGATAATTTTTGCAATCTATCCATCTGACAAAGGTCTAA
TATGCAGTGTACAAGGAACTTAAACAAATTTACAAGAAAAAAACATTAAAAAGTAGGCAAAGGACATGACCAGAGACTCCTCAAAAGAAAACATTAATGC
AGCCAACAAACATTAAAAATAGCTCAACATCACTGATCATTAGAGAAACGCACATCAAACCACAATGAGATACCATCTCACACCAGTCAGAATGGCAATT
ATTAAAAAGCCAAGGAACAACAGATGCTAGCTAGCTTGCAGAGAAAAAGGAATGTTTTACACAGTTGTTGGGAATGTAAATTAGTTCAACCTTTGTGGAA
GACAGTGTAGCAATTCCTCAAAAATCTAGGAGCAGAAATACCATTTTACCCAGCAATCCCATTACTGGGTGTGTTAGTCAGGGTTCTCTAGAGGGACAGA
ACTAATAGGATAGATTTATACATGAAGGGGAGTTTATTAAAGAGTATTGGCTCACAGGATAACAAGTTGAAGTCCCACAATAGGCCGTCTGCAAGCTGAG
GAGCAAGGAAGCCAGTCTGTGTCCCAAAACCTCAAAAGTAGGAAAGCTGACAATGCAGCCTTTAATCTGTGGCCAAAGGCCCAAGAGCCCCCGGCAAACC
ACTTGTGTGAGTCYGAGCGTCCAAAAGCTGAAGAACTTGGGGTCCGATGTTTGAGGACAGGAAGCATGCAGCATGGAGGAAAGATGAATGCTGGAAGACA
CAGCAACTCTGCTCTTTCCAATTTCTATCTGCTTTATTCTAGCCACGCTGATTAGATGGTGCCTGTTGTGACTGGGGATGGGCCTGCCTCTCCCAGTCCA
CTGACTCGAATATTAATCTCCTTTGCAACACTCTCACAGACACACCCAGGAAGAATACTTTGCATTTTTTGATTCAATCAAGTTGACGCTCAGTATTAAC
CATCAAACTGGGTATATACCCAAAGGAATATAAAGCATTTTATTATAAAGATACATGCACACATATGTTCATTGTAGCACTATTCACAATAGCAAAGACA
TGGAATCAACCCAAATGCCCATCAATGATAGATTGAATAAATAAAATGTGGTACAAATACAACACGGAATGCTATTCAGCCATGAAAAGGAACAAGATCA
TGTCCTTTGCAGGGACATGGATGGAGCTGGAAGCCATTATTCTCAGTAAACGAATGCAGGGATAGAAAAGCAAACACAGCATGTTCTCACTTATAAGTGG
GATGGGAGCTGAATGATTAKAACACATAGACACATGGTGGGGAACAACACACACTTGGGCCTGTTGGGGGATGTTGGGAGAAAGGAGAGCATCAAGAAGA
ATAGCTAATGGCTGCTGGGCTTAATACCTAGGTGATGTGTTGATCTGTGCTGCCAACCACCATGGCACGCATATACCTGTGTAGCAAACCTGCACATCCT
GCACATGAACCCCAGAACTTAAAAGTTGATGGAAAAAAAAAAATAAGAACTCTTTTCTATATGAGAGAATTAAGAAAAAGCAGACACACAAACACAGACC
CGGGGAAGAAATATCCTCAGGGAAAACCTTATCAGTAATTACTTTAAAATGTAAATGGCTTAATATTCTCAAGTAATATAGATGAATAGAATAAAATTAT
GATCTAAATATATGCTGTGAACAAAAGACTCACTTTGGATCTAAAGACACAAAAAGGTTGAAAGTGAAAAGATGGAAAAAGATATTCCATGCAAATAGTA
TATTAGATTATTTATTTGCAAGTATTTTGTGTTTCTTGTAGGTGGTGAGGGCTGCACACTGGCAGCTGCCTGCTCAGTTATTGGTGTGGGCTCTGATATT
GGTGGTAGCATTCGAATGCCTGCTTTCTTCAATGGTATATTTGGACACAAGCCTTCTCCAGGTAATGTTAATATGATCAGAAGGGTGGTTCTACTTTTAT
AATTCAGAGCAATTCAGAAATTTTGTTCTAGCAGGATTATCTTGYTTATCAGGGTGATTATTATATATTTCTCAATGTTCTTAAATAAAACTAGCTACTG
TTTATTGAGCACCAACTCTGGGATTGGTGCACAAAATTGTGCAAGGCTTTCCTATAACTAATGTCTTTCAATAGTTATAATAGTTGTTTTTTTTTTTTTC
AGAAAGTTATCCCCAATTTACAAATGACAAATTCAAAGCTCAGAAAGATTAAATAAACCGGCTCCAAATTAAATAGTTAAACAAGTAAATCATAGTGCTA
GGATTCAAACCTACTTGGATTACAGGAGGCTGTTTTCTATCCACTGTACTAAAATGACTTATCAGTTAAATTTGATTTTCCCTCATTTAAAGGGTAAAAT
AACACAGTTTCAGAAACAGTGGAAAGAAAAATTCTGTCACCTAGAAACTCCAGTTATTGGCATTTACTGTTTTTTCAATGAATTCAAGGAGTATTTATTT
TGTATTATTTATGGTGGTAAGAATGTCAAAGCAGACTCCCTGCATTCAAGGAACTTAAAATCTTCTAGGCTTTCAAAAAGTGATTTAAAGGTAATATAAG
GTAGTCTAATAAATATAATTGTGGTATAGTAAAGCAGAATATTTTGAACTTTAGATTAATCATAAAAATATGCTAAGAATAAATCCTCATTTGATCATGG
TTTTTAGGAATCAGTACTATAACAATGGTCCGTATACACCATGGAATGCTATGTAGCCATGAAAAAGAACAAGATCATTTCCTTTGCAGGGACATAGATG
GAACTGGAGGCCATTATCCTTAGCAAACTAACGCAGRAACAGAAAACCAAATGTGACATATTTTCACTCATAAGTGGGAGCTAAATGTTGAGAACATGTG
AGCACATAGAGGGGAACAACAAACACTGGGGACCTTTCAGAGGGCAGAGGGTGGGAGGATGGTTAGGATCAGGAAAAATAAATAATGGGTACTAGTCTTA
ATACCTGGATGATGAAATAGTCTGTAGAACAAACCCCCATGACACGTTTACCTATGTAACAAACCTGCACATGTACCCCTAAACTTAAAAGTTAAAAAGA
AAGATAAATCCTAGCTCTTCATGACTTTAAAGAATTACGCACAAAAAGAGTACTGAAAATTGGCCTGCTAGGAGTTGACCTATTTTTTTTCCCTTCCATA
TTTTATTCTACGTTCAGGGGGCACATATGCGGGCTTATTACATGGGTAAATTGTGTGTCCATGTGGTTTGGTGTACAAATGATTTCATCATTCASGTAGT
GAACACAGTCCCTGATAGGTAGTTTTTTGATCCTTGCCCTCCTCCCATCCTCCACCTTTAAGTAGGCTCTGGTTTCTCTTGTTTTCTTCTTTCTGTCCAT
GTGTACTCAAGGTTTAGTTCCACATACAAGTGAGAAGATGTGGTAGTTTCTTTTCTGTTCCTGTGTTAATTAGCTTAGGATAATAATGGCCTCTAGCTGC
ATCCATACTATTGCAAAGGAATATTTTATTCCTTTTTATGGCTGCATAGTATTTCATGGTGTAAAGGTACTACATATTCTTTATTCAGTCCACTGTTGAT
GGGAAGCTGGATTGATTCCATGTCTCTGCTATTCTGAATACTGCTGTGATAAACATATGAGTTCATTTGTCTTTTTGGTAGAACAAATAATTTTCCTTGG
AGTATATATCTGGTAATGGGATCACTGGGTTAAATGGCAGTTCTAAGTTATTTGAGATATCTCCAAACTCCTTTCCAAAGGGCTGAACTAATTTACATTC
TTACCAACAGTATATAAGCATTCTCTTTTCTCTGCAGCCTCATCAGTGTCAGTTAYTTTTGGATTTTTTCAATGATTGCCATTCTGACTTGTGTGAGACA
GTATCTCATTGTGGTCTTTATATGCATTTCTCTGATGATTAGTGATGTTGATCATTTTTTATAGGTTTCTTGGCTGCTTGTACATCTTCTTTTGAGAAGT
GTCCATTCATGTCATTTTCTCACTCTTTAATTGATTATTTACTTTTTGCTTGTTGATTTCTTTAAGTGCCTTATAGATTCTGGATATTAGACTTATGTTG
GATGCATGGTTTCTGAATATTTTCTCCCATTCTGTAGACTGTATGTTTACTCTTTTGATAATTTCTTTCGCTATGCTGTAGCTCTTTAGCTTAATTTGGT
CCCACTTGCCAAATTTTCTTTGAAATTGCTTTTGGAGACTTAGCCATAAATTATTTGCTAGTCCAGTGTTGAGAAGGGTATCTCCTAGGCTTTCCTCTAG
CATTTTTATAGGTTGGGATCTTACATTTAAATATTTAATTTATATTTAGTTAATTTTTGCATATGGTGAAAGGTAGGGATCCAGTTATATTTTTCTGCAT
ATGGCTGGCCAGTTATCCCGGCGCCATTTATTGAATAGGAAGTCCTGTTACCCTTGCTTTTGTAAATTTTGTCTAAGATCAGATCGTTGTAGGTTTGCAG
CTTTATTTCTGGGATCTCCATTCTGTTCCATTGGTCTATATATCTGTTTTTATACCAGCTTCATGTGGTTTTGGTTACATTAGTCGTACAATACAGTTTT
AAGTTGGGTAAAGTGATTTATTTGCCTTTTGTTTCCTTAGGATCCCTTTGGCTGTTCAGATGTATTATTGGTTCCATATGAGTTTTAGAATAGCTTTTTT
TTTTTTTAAATTCTGTGAAAAATAACAGTATTTCGATAGGGATAACATTGAATATGTAAATTACTTTGGAAAGTATGGCAATTTTAATGATATTGATTCT
TCCAATCCATGATAATGGAATATTTTTCTGTTTGTTTCATCTCATATTTTTTCAGCAGTATTTTGTTGTTCTTTTTGTAAAGATGTTTCACCTCTTTGGT
TAGTGGTATTTCTAGATATTGTAGTTTTGGTGTGGCTATTGTAAATGGGATTGCATTTTTTATTTGGCTTACCAAGAATATTATTGAAGTGTAGAAATGC
TACTGATTTCTGTACATGAATTTTGTGTCCTGAAACTTTACTAAAGTCATTTATCAATTCCAGGAGCCTTTTGGGAGAGTCTTTTTGAATCATATTGTCA
GCAGAGAGAGATTGACTTTGTCTTTGTCCTATTTGAATGCCCTTTATTTCTTTCTCATGCCTAAATGCTCTGGCTAGGGCTTCCAGTATTATGTTGAATA
GGAGTGGTGAGACTGGACACCTTTGTCTTACTGCAGGTCTCAAGGGGAATTATTCTGTCTTTTGCCCATTCAATATGATGTTGGCTGTGGGTTTGTCATA
ATTAGCTCTTATTATTTTGATGTATGCTCTTTTGATGACTATTCTTCTAAGGTTTTTATCATGAAGGAATGTTTGATTTTATTGAAGTMTCTTTCTGAAT
CTATTGAGATGATTATATCTTTTTTTGTTTTAAATTCTGTGTATGTGGTAAATCACTTTTTTTTATTTGCTTATGTTGAATTAACATTGCATCCCAGGAG
TAAAGCTTACTCAACTGTTGTGAATTAACATTTTGATGTGCTGCTGAAATAAGTTTGCTAGTATTTTGTTGAAATTTTTTCTGTCTGTATTCATCAGGGA
TATAGTCATGACTTTTGTTGTTGTGTCTGTGCCAGATTTTGGCATCAGGATGCTTGATTTCTAGAATGAGTTAAAGAGCATCCTCTCCTCAATTTTTTTT
TTTTTTTGGAATAGTTTCAGTAGTATTGGTACCAGGTTTTCTCCCTTCCCTTCCCTTCCCTCCTCTCCCCTCCCCTTCCCTTCCCTTTCTTTTTGCATTC
CTGGTAGACTTCAGCTGTGAATCCATCTGGTCGATGTCTTTTGTGCATTGGTAGGTTTTTTTTAATTACTGAATTAATTTCGAAGCTTGTTATTTGTCTT
TTCAAGATTTCTCTTTCTTCCTGGTTCAATCTTCAGAGGTTGTGTGTTTTCAGAAATGTATCCATTTTTTCTAGATTTTCTAATTTGTGTCCATAGAGGT
GTTCATAAAAACCACTGAGGATCTTTTGTATTTCTGTAGGATCAGTTGTAACTTCACCTTTGTCATTTCTGATTGCATTTATTTGGACTTTTTTTTTCTT
TGTTAATCTAGCCAGCAGTCTATCTTGTTTATTCCTTCAAAAAAGAGACTCTTGGTTAAATTGATCTTTTGTATGAACTTTTGCATGTCAATTTCATTGG
TTCTACCCAATTATAGTTACATATTTTCTACTGCAAGCTTTGAGTTTGGATTGCAATTTATTTTCTAGTTCCTTTGGGTGTGATTAGATCACTGATTTTA
GATCTTTCTAACTTTTTGATTCAGGCTTTTAACATCTTAAACTTTACTCTTAACAGTGCATTACCTGAATCACAAAGATTTTGGTAAGTTATTTTTTATT
TTCATTAACTTATAATAATCTTTTGATATATACCTTAATTTCATCGTTCACCCAAAAGTTATTCAGGAAAAAGTTATTTAATTTGCATGTATTTGTGAAT
TTTTGAAATATTTTATTTATATTGGTTTCTATACTTTTTGCACTCTGATCCAAGAGTGTGTTTGGTATGATTTAAATTTTTTTGAATTTATTGAGACTTG
CTGTATGACCAAACTTGTGGTCAATCTTAGAATACATTCCTTGTGCAGATGAGAGAAATATATATTCCATGATTGTTGGGTGGACTATTTTGCAGATGTC
TATCAGGTGCAATTAGTCAAATGTTAAGGTTATATCCTTCATTTATTGGTTAGTTTTCTGCCTCAAAGATCTGTCTAAGGCTGTCAGTGGGGTTTTGAAA
TCTCCCACTATTATTGTGTGGCTAAGTTTTTTCTTAGGTCAAAAAGAACTTGTTTTATGAATTTGAGTGCTCCAAATTGGGTGCATGTATATATAAGATA
ATTCAGTCTTCTTGTTGAATTGAATCCTCTATCATTATATTATGCCCTTCTTTGTCTTTCCTGATTGTTGTTGGTTTAAGATCTGTTTTATCTTATAAAA
AGATAGCAACTCCTGCTTTTCTTGTTTGCTATTTGCATGGTAAGTTTTTCTCCATCGCGTTGCTTTGAGCCTTTCAGTGTTGTTACATGTGAGAGAAATT
CCTTGAAGAGAGCAGATGGTTGCCTTTTTAGTTTGGTGTTTAGACCATTTACATTCAGGGTCAGTATTAATGGATGAGATTTTGATTCTGTACTCATGTT
GTTAGCTAGTTGTTTTGTAGACTTCATTGTGTAATTGCTTTATATTATCTGTGGGCTATTTGCTTGAATTGTTTGTGGTAGCAGGCATCATTCTTTTGTT
TCTATGTTTGGCACTCCCTTAAGGACCCCTTTTAAGGTTGGTCTGGTGGTAACACACTTCATCTGGGAAGGACTTTATTTTTTATTTATGAAGCTTAGTT
TGCCAGGACATGAAATCCTTAGTTGGAATTTCTTTTCTTTGAGGATGCTGACAATACACCCCCGTGTCTTCTGCCTTTAAAGGTTTCTGCTGAGAGGTGT
GCTGCTATCCTGATGGAGTTCTCTTTGAAAGTGACATGACCTTTTCCCTTACTTGCCTTTAAGGATTTTACTTTTCCCATTGACCTTGGTGAATCTGATG
GCTATGTTCCTTGTGGATGGTCATCTTGTATAGTACCTAGCTGGAGTTCTCTGTATTTSTTTGATTTGCCTGTCACACTCTCCAATAAGATTAGGAAAAT
TTTTATGGACTATATTTTCAAATATATTTTCCAAGTTAATTATTCTCTCTCCTCTCTCAGGCATGCCACTGATGCATAGATTTTGTTGCTTTACATAATC
TCATATTTCTTGGAGGTTTTGTATATTGTTCTTATTTGTTTTTCTTTATTTTTGTCTGACTGAGTTGATTTGAAAAACTAGTCTTTGAGCTCTACGAATC
TTTCCTCAGCTTGGTCTATTCTGCTGTCAATACTTCCTACTGTATTATGAACTTTTTGTAGTGAAATGTTTAATTCCAGGAGGTCTGTTTGGTTCTTTCT
TTAAATGGCTGTTTCATCTCTCAGTTCTTAGATCATTTTAATGGATTCCCTGGATTCCTTGGATTGGGTTTCAACTTTCTCCTGAATCTCGATGAGTTTT
CTTTCCATTCAGATAATGAGTTYCATATCTGTCAAAAAGGCTAGTTTGTTTATTTGGAGGTAAGGGGATGCTAAGTTTTTTTTTTTTTTTTTTTTTTTTT
TTTTTTTTGCTGTTGTTGTTGTTTTAATTTTCATAATTCTTGCACTTATTCTTTCTCCTCTGAGGGGGCTGGTGTTCCCTTAACTGTGTTGAAAGCTGAT
TATAGTCAGTTGGTTTTAATTCTGTGTGCTTTCAGGAGACCAGGGCTCTTTATAAGATCTTTATTAGTGATTGGATTTTTGCCTTGGGTTTCTCAGGCAC
TGTATACTGGCAAAAAATTTTTTGATGTTGTTACTTAGGCTGTAATCTAGTAAATGGCATATAATGGTAATGGCTGGTAGATAGGCGCTTACTCAACAAC
GTGACTCTTCTGCATTTCTGAATGTTCATAGTAGTTATCTGTGGTTTGTTGGAGAGAAATGACCTCATTGGGTCTGATTCTAGGCCTTGGTGGAACATCC
TCTGATCACTAGTGCAGTGCCTACATTTCCTATTTTAGGTGCTCCAGGCTGCAGACCTTCCCTGCACTCACCATTGAAGGACATAAGTGTAAGCCCACAG
GTCCAGCTTTGCCTTTGCCTCAGAGAATGCATGGTTCGGGATCCTGCAGATTGCACAACCCCATCCACCACTTGAGGCACCTGAGCACTCTTCCTAGGGA
ACTGAGATTTGGCCTAAACACCCTGCAACTACCACGTCAACTGGCTTCTACTTGGAAGTGTTAGTTGCTGGCCCAAAAAGCCCATCACGACCACTGCCAA
CATGAGCACATAATGCTTGGGAACCAGAAGGACATCTTACATTGCTATTGCTATTGACTACACTATGTTGACTGCACAGGGGCTTAAGAGCCCACTTTCC
TACTTAGTTCACTGATAACACAATTGCCATTCAAGAAAGACACCCAGGGGCCCAAGAATTGGCCCACCTGGAACCACCAATGTGGGTACCAGTGTACACC
ACCCCTTGGCACGAGGATGGATGCTCTTAGCTACCACTGTGACCGCTGAAGCCTGAAGACAGGCCCAACTGGTGTCAGTCCCTAGCACAGCTTTACTAAA
GCCTTCACTAACAAGCATACCCAAACACACAGAAGGAAACCGCAGATAGCTCTTTACAACCAAAAATACTATACAGAGATTTAACTGCTGCATGCGTCTT
GAGCCAAAGCCAAAGGGCTCAACACAACCAACATTATAGAAACACCTTCAGGAAAAAGTCTCCCCTAAGGAAAGTAAATTTAAAAATAGAAGTGATTGTT
ACACCAGATGCAGAGATGTCAACATAAAGACACAGAAACATAAAAAAGCATGGAAATATGACACCCCTAAAGGAACACAATAATTCACCAGCAAGAGATT
CAAACAACAGAAAAAAAATCTCAAAATGCCATTTAAAGAATCCAAAATAAAGACGCTCAGTGAGATGCAAGAGAAGTCTGAATACCAATACAAAGAACTC
AGAAAAACAAATCAGTGTATAAATGAGAAATATATATATATATTATATATACACATATATATATTATATATATAATGTATATGTGTATAATATATACACA
TATATATATTATATACATATATATGTATAATATATACACATATATATGTATACATATATGTATATATACATATACATATATACATATATATGTGTATGTA
TGTATATATGTATGTATATCTGTGTGTATATATGTATATACATATATACATATATACATATATACACAGATATACATACATACATATATACATATATACA
CATATATAATGTTTTATACACATATATATTTTAAATGTTTTATATATATCTATTTTAATATATATGTATATATGTGTGTATATACACATATATACATATA
TATACATATATACACATAGATACATATATATACATACATGCATATATACACATATATATACACATATATACATATATACACATATATAATGTTTTATACA
CATATATATTTTAAATGTTTTATATATATATATCTATTTTAAAACAGGAATTCTAGAACTGAAGTATTAATTTAAGGAAATACAAAATACATTCAAAAGC
TTCAAAAATAGACTATACAAAATAGAAGAAAAACACTTACAACTTAAAGAAAGGTCTTTTGAAATAATTCTTTTGGACAAAAATAAGAGAACAAAGAATT
AAAAAAAACCAAGGCCTCCAAGATCTTTGGGACAACATAAAWCAACTGAATATGAAAGTTATTAATATTCCTAAATGTGAGGATAGATCAAAGCTTAGAA
AATGTAATTTAATGAAATAACAGATGAAAACTTCCCAAGTCTACCAAGAGGTTTAGACATCCAAACACAAGAGGCTCAGTGATCCAAAGAAATAGAATAC
AAAAAATCTTCATCACAGCACATTATAATATAACTGTCTAAAGTCAGTGTGAACAATGATTTTTAAAAACAGCAAGAGAAAGTCATCTATTTACCTATTA
AAGAAAAACTATCCAACTAACAATGACCCTCTCAGCAGAAACTTCAAAGGCCAGAAAATAAATGGATGATATGTTCAAAGTGTAGAAAGAAAAACAACCC
TGCTGACGGTGAATACTATATTCAGCAATACTTGCCTTCATAAATGAAGTATAAATAAAGTCTTTCCCATACAAATGCTGAGGGAATTTGTCACGATTAG
ATTGGCCCTACAAGAAATGCTCAAGAAGTCCTAAACATGAAAGCAAAAGGACATTAACCATTATGAAAACACATGAAAGCAAAAGGACATTTACCATTAT
GAAAACACACAAAAATAGAACTCACTAGAAAAGCAATCACACAAAAATGGAAGAGAAAGGAATCAAATGGCACTACTACAGAATTCCACCAAACCACAAT
GACAAACAACGTGGGAAAAAAAATAACTTATGAAACAAGCAGAAAACAGTTGACAATATGGCAGGAAGAAAACCTCAATTGTCAATAATAATTATGAACA
TAAACATATTAAAATCTCAACTTAAAAAATACAGATTGACAAAATGGTAAAAAACGATCTAACCAAATTCTTCTTACAAGAAAGTTACTTTATTTTAAAA
GAACTATTAACTGAAAGAAAAGGGGTAGAAAAAATGGTCCTTCCAAATGAACATCAAAATTGGGCAGGAGTAGCTACATTTTTATAAGATCAAACAGACA
TTAAGTCAAAAACAATTAAAAAGGTGATTATATAATGATAAAGAAATCAATTCAGCAAGAGAATGTAACAATTCTAATTATGTATTTACCCAACATTGGA
GCATCCAAATTGATAAATATCACTAGACCAAAAGAGGAGATAGATTGCAATACAATAATAATTAGGGATTTAATTCTCCACTCACAATATTAGGCAGATT
GTCAAGACAAAAATTCAACAAAGAACATTTGTTGTAACTAGGCTATAAATCTAAATGGATGTAATAGATATTTAGAGAACATTCTTCCTGACAACTGAAG
AATATACATTCTTTTCATCAACACATCGAACATTCTCCAATATGAACCACAGGATAGGCCACAAGAAAAAGCTTCAACACAATTTTTAAAAATTGAAATT
ATATCAAGTATCTTTTCAGACCACAGTGGAACACTACTAGAAATTAATACCAACAGGAACTTTAGAAAGTATACAAATATATGGAAAGAAAACAACATGT
TTGTGAATGACCATTGGGTCAATAAAGAATTTAAGATGGAAAGCAAAATATATTTGAAACAAAAATGGAAATGCAATGTAGTAAAACTTGTTGGTTACAG
CAAAAGGAGTGTTAAGAGAGAAGTATATGGTAATAAAGGCTTACGTCCAAAAAAAGTACAAAGATTACAAAGTAACAATTTAATGATGCATATTAAGCAA
CTAGAAAAGCCTGAACTAATCAAGATTACATTTAGCAGAAGAAAAGAAATAGCAAATATTAAAACAGAGCTAAATGAAGTTGAGGCTAAAAACATAATAC
AAAGAATCAATGAAATTTGAAGTTGGACAGATAAAGAAAATTGATCAACTGTGAGCTAAGCTAACAAAAAAGGAAGAAGACCCAAATAAACACTGAAATG
ACAAAGGAAACATTGAAATTTATACCACAGATATAAAAAAAGATTATTGGAGACTATTATGAAAACTGTATGCTTAGAATCTAGAAAACCTATCAGAAAC
AGATACATTTCTGGAAACATAAAATCTATTGAGATTGATTCAGGAAGAAATAGAAAATCTGAGCAGACAACGAATGAGTAATGAGCCTGAGGCTGCTATA
GAGTCTCAAAACAAAAACAAGCCAAGAATGGATTATTCACAGCTGAATTCTACCAAATAAATAAAGAACTATACCAATCATACTGATATTATTCCAAAAA
CTTGAAAAGGAGTGAATTAATTCCAACTTCATCAAGGCCAGGATCACCCTGATACCAAAACAAAATAAGGAAGCAAATATATGTGTGTGTGTATATATAT
ATATATACATATATATATGTGTATATATATATATATACACATATATATATGTGTATATATATGCACATATATATATATGTGTATATATATGCACATATAT
ATATATGTGTATATATATGCACATATATATACACATATATATATATGCCAATATTTTTAATATAGCTAGACACAAATATCTTCAACAAAATACTAGCAAA
GTTGAATCTAACAACATGTCAAATAGACCACATACTATGATTAAGTGGGTGTTATACCAGGGATGTAAAAATGGTTCGACATAGGCAAATAAGTAAATGT
GATATATCACATCAACAGAATCAAGAACAAAAACCTTGTTATCATTTCAATTGTCAAAGAAAAAGCATTCGATAAAACTTATCATGCCTTCATGGTAAAA
AAATCAAAAAACTAGCCACAGAAGCAACATACCTAAAAATAATAAAGGCCACATATGACAACCCACCAGGTAACATCATACTAACTGGGGAAATGCTGAA
AGCACTTCCTCTAACAACTGGAACAAAGCGAGAATACCCATGTTTGCTACTTTTCAATGTAGTACTGGAAGTGATAACTTGAACAACCAGGCAACAGCAA
TAAATAAAAGACATCCAATTAGAAAAAGACGAAGTTAAATAATCTCTGTTTGCCAAAGATATAATCTTAGATATAGAAAAACCCTAAGAACTTCACCAAA
AATATTTAAATTTGATAAATGAATTCAGGAAAGGTTCAAGATACAAGAATCAGCACACAAAATCAGTATAATTTATATGTGCTAATTATGATCTGAGAAA
GCATGAAGGCAATCTCATTTATGATAGTTACAAAAACAAACAAAATACCTGCTTATAAATTTAGCCAAGGAGGAGAAAGATTACTACAAAGAAAACTACA
AAACACAGATAAAAGCAATTGAAGATTTCAAAAACAAATGGAAGAACATTCTATGCTCATACGTCAGAAGAATTAATATCATTAAAATGACCATATTACA
CAAAGAAATCTACAGATTCAGTGCAATTCCTATCAAAATACCAACATCATTTTCACAGTATTATAAAAAATTAAAATTTATATGGAACCAAAAAAGAACC
CTAATAACTAAAGTGTTCCTGAGCAAAAATAAAAAAGCTAGAATAGTGCATTACCTCACTTCGGTAATATTATGAGGCGACAGTAAGCAAAACAACATGG
TTCTGGTAAAAAAACAGATGCATAGGTCAATGGTACAGAATAGAGAACCCAGAAATAAAGCCACATAAATACAGCCAAGTGATCTTTGACAAAGGCAGCA
ATAATATACATTGTGGAAGTGAATCACTTTTCAATAAATGGTGCTGGGAAAATTGGATAGTCATATATAAAAGAATGAAACTAGACTACTTTATTTTGTC
ATATACAAAAATCAACTCAAAATTAATTAAAAACCTAAACAGAAGACCCCAAATTATTAAAAAAAAAAAAAAAGAAAAAAAAGAAAACCAAGGGGAAATT
ATTTTGGACATCTGTCTAGGCAAATACTTTATGACTAAGACCACAAAAGCACAGTCAATAGAAACAAAAATGGACAAATGTGACTTAATTAAATTTAAAA
CCTTTTGCCTAGCAAAGATGTAATCAACAGAGTGATGAAACAACCTGTTGAATGGAAGAAAGTATTTGCAAATTATTCATTCAACTGAAGACTTATATTC
AGAATATATAACAAGCTCAACTCAACAATGATAAAACATTTCATTCACAACTGGGCAAAGGACATAAACAGACATTTTTCAAATAAAAGATATACAAATG
GCCAATATGTATATGAAAAACGCTCAGTATCACTAGCTATCAGAGAAATGCAAGTCAAAACCAATGTGAGATTATATCTTACTCCAGTCAGAATGGGCAT
TATTACAAATACAGAAAGTAACAGATGTTGGCGAGGATTTGGAGAMAAGGAAATCTTACACATTGTGCCAATATAAACAAGTGTAGTCTGTGAAAAACAG
TATGGAGGTTTTTCAAAGGGGTAATAATAGAACTACTATTTCATCTAGCAATCTCTCTACTGGATAGCTACCCAAAGGGAAAKCAATTATATTAAAAGCT
ACCTGCACTTGTATGTTTATACAGCATTATTCACAATAGCAGAGATATGGAATCAACCTAAGTGTTCATCAACATATGATTGGATAAATAAATTGTGGTA
TATATACACAATGGAATACTATTCTGCCATATGAAATCATGTCTTTTGCAGCAACATGGATGGAACTGACATCATTATATTTAGCAAAACATGCCCGTTA
CAGAAAGATAAGTATTACGTGTTCTCCCCAATAAGTGGGTGCTAAAAACGTTTTTTACATGGATGCAGAGAGTAGAATGATAGATAATGGACACTCAGAA
GGGTGAGGCTGAGAGAGTGGAACACGATTAGAAATTTGTTAATGGGTACAATGCACATTATTCAGGTGATGGATACCCTGCAAGCCCTGATTTGACTGTT
ATGTAACCTGTGCATATACCAAAACTGCACATACATCTCATAAATTTGTACAAAACTAAAACCCACTGAATTACTTCAGTGGCAAATCTGTCACCAAGTT
TGTCTGTGTTGTCATCTAAGTAAACCTTTGTTAAGTATACATAAAAATCTTGTACTTTATGAATTTAACTATGTAAAAAGAAAATTGAGATAAAAAGACT
AAGGGAACATATGAAAATATTAATTATGAGTATTTTTTGCTAATGAGATTCTAGGTAAATTTAATTTTTATTCATTTCAGTATTTTCCAAATTTTCCATA
ATATATGTATGCTTTTTTAAAAAATTAGATGCTAATTTTTAAAATATTAATATGTCTAGTTTGATATGTCTTGTGTTCACATTTTAAAACATATACACAG
CAAAAGGACTGAACAGAGTGTACCAAAATGTTTATCTGGCTAGCACTGCCAGGAATTTGCGTTCATTTTCTTCTTACTTTTTTATCAAATATTCTCTACT
AAGTAGGTATTACATTTATACAGGAATAAACATTTTTTTGAATTCGAATTGTAACTATGCCTGTTACTAAATATGCACTTTTGTTATTTTAAATAACCTC
CAGAGTCTCAGTTTCCCCAYCTTTGAAAATGAGATAATACTTACCTCTTAGGTTAGTTCTGAATACAAAAACATGTGTTGGTTAAACATGTGCCAAAATT
GTTTGTTTCTAAAATTTAAAATTGGCTTCTTTGTCTTTTTTTTTAGTAAGATAACAGATAAAAATGAAATTAGTCTATTTTTCTACTTGCCAGCAGAATA
TCTGTCTTATTTTAGGGAACAATGTGAAATTTACCATTTATATTAACAATTAGGTGTCAACCCATGAGAATAAAACACATTTCTAAGGGAAGAAAAAATA
ATCCATGGACATGAAATGCCATTCCATGTATTTATGCTTTATTTCAGCAATGGTTTGTAGTTTTCAATGTACAAATATTTTTCCTCTGTTGTTAAATTTG
TTTCTATTTTACTCCTTTTCATGCCATTGTGAATGGGATTGCTTTCTTAATTTCATTTTCAGATTGTTCATTATTAGTTCATTGAAGTGTAACTGATTTA
TTTTTTTTTAATAACTATTAACTTCTTCGAATTCATTTTTAACCATTAGCAGTTTCTCTTTATGGACTCTTTAGGGTTTTCTACATACACGATCATGCAA
TCTGCAGAAATAACTTCATGTGTTCCTTTCAAATTTTGTTGTCTTTTATTTATTTTTGTCACTTAATTATTCTGACTAGAACTTTCAGTTTTATATTGGA
TAGATGGGGCAAGAATAGTCATTCCTTCTTTGTTCTTCATTTTAGATGAAAAATTTTCAGTCTTTCAACATTGAGCATGTTAGCTTTGAACTTTTCATAT
ATAGCCTTTATTATGTTGAGGCAATTATTGTCTATTCTTTATTTGTTGGCTTTTTTGTCATGAAGGAGGGTTGAATTGTTTCATATGATTTTCTGCATCA
ATTGAGATAGTCATCTGGGTTTTCTCTTAATTTTATTAATGTGGATTAATACATTGATTTTCATATTTAGGACAATTGTTTCATTCCAGCAATACATTTT
ACATGGCCACTCTTGTAATGTGTTCTTGGATTCTATTTTACTAGTAGTTTGTTGAATATATTTGCATCCATGTTTATCAGGGATATTGGTCTATAGTTTT
CTTGTAGTAACAGTATATGGTTTGGTATCAGGGTAACRCTGGCTTTGTAAAATGAGTTTGGAAATATTATATTCAATTTTTGGATGAATTTGAAGATGAT
TAGTATTATTTAAAAAAAAAGTTAGATAGAATTCTTCTGTGAAGGTATCTGTTCCTGGGATTTCCTGTGCTGTGAAGTTTTAAATTACTGATTCAATTTC
TTTACTAGCTATAGGTTCTTTCAGATTTTTTCTCTCTTCATGATTCACTCTTAGTATGTTGTGTGTTTTTAATAATTTATAGATTTTCTCTAGGTTACCA
AATTTATTGATCTATATTTTTTAATGTATTGCTTTATAATACTTTTTATTTCTGTGGCATCATTTATAATGTCCGCTCTTTTATTTCTGTTTTTAGTTAC
TTGAGGTTTCTCTTTTTTCTTAGTCAACCTAGCTACAAGCTTGTCAATTTTGTTGATATCTTACTAAACCCAGTTCTTAATTTTGTTGTTTTTTCTGTTG
ATTTTTTAACTTACTAAATTCTATTTTATTTATCACTGCTTTAATTTTAATTTTTATTATTTATTTATTTTAATTATTATACGTTAAGTTCTGGGATACA
TGTGGAGAATGTGCAGGTTTGTTACATAGGTATATACGTGCAATGGTGATTTGCTGCACCTATCCACCCGCTAGCTACATTAGGTATTTTTTCTACTGCT
ATCCCTCCCCTAGCCCTCCACCCTCTGACAAGCCCTGATATGCGATGTTCCTCTCACTGTGTCCATGTGTTCTCATTGTTCAACTCCCACTTATGAGTGA
AAACATGTGATGTTTGGTTTTCTGCTCCTGTGTTTGTTTGCTGAGAATGATGGTTTCCAGATTTCCTATTTAATAAATGGTGCTGGTAAAACCGGCTAGC
CATATGCAGAAAACTGAAACTGGACCCCTTCCTTACACCTTATACAAAAATTAACTCAGGATGGATTAAAGACTTAAATGTAAGACCTAAAACCATGAAA
ACCCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGTAAAGACTTCATGACTAACACACCAAAAACAATGGCAACAAAAGCCTAAATTG
ACAAATGGGATCTAAATAACCTAAAGAGCTTCTGCACAGCAAAAGAAACTATCATCAGAGTGAACAGGCAGCCTATAGAATGGGAGAACATTTTTGCAAT
CTATCCATCTGACAAAGGGCTAATATCCAGAATCTACAAGAAACTTAAACAAAATTTACAAGAAAAAAACAAACATCCTCATCAAAAAGTGGGCAAAGGA
TATGAATAGAGACTTCTCAAAAGGAGACATTTATGCAGACAACAAATGTATGAAAAAAAGCTCATCATCACTGGTCATTAGAGAAATGCACATCAAAACC
ACGATAAGATACCATCTCATGCCAGTTAGAGTGGCGATAATTAAAAAGTCAGGAAACAACAGATGCTGGAGAGGATGTGGAGAAATAGGAATGCTTTTAC
ACTGTTGGTTAGAGWGTAAATTAGTTCAACCATTGTGAAGACAGTGTGGTGATTGCTCAAGGGTATAGAACCAGAAATACCATTTGACCCAGCAATCCTT
TTACTGGGTATACMCCCAAAGGATTATAAATCATTCTACTATAAAGACACATGTTCATGTATGTTTATTGAAGCACTGTTCACAATAGCAAAGACTTGGA
ACCAGCCCAAATGCCCATCAATGATAGACTGGTTAAAGAAAATGTGGCAAATATACACCATGGAATACTATGCAGCCATAAAAAAAGGATACGTTTATGT
CTTTTGCAGGGACATGGATGAATCTGCTCTACTTTTTATTATTTCTTTCCTTCAGATAAGGTTGGCTTTATAGTGTTCTTCTTTGCCTAGTCCCTTGAGG
TGRAAAGTTAGGTAGTTAGTTTGAGATCTTTTTTTTTTTTAAATTTTATTTAAAAAATTGTATTGTATTTTGGTAAGAACATTTAACATGACAYCTACCC
TCTTAACTGATTTTTAAGTTTCCAAACAGTAGTCTTCATTTGGGCACAATACTTTACAGCAGATCTCTAGTATTTATTCATCTTGCATAACCAAAACTTT
ATATCACATGAATAGCAATTCYCCATTTCTCCCTTTCTCCATCTCCTGACAATCATCATTTCACTSTCTGCCTCTATGAGTTTGACAAATTTAGATAACT
CATATAAGTGGAATCACACAGTATTTGTCCTTCTGTTTTATTTAGCATAATGTCCTCAAGATGCATTTATAGTGCTGCATTTTGCAAGGTTTCCTTGTTT
ATGAAGGCTCAACAATTTCCATTATATATGTATGTGTGTGTGTGTATATATAKAGAGAGAGAGTTTCTCAACCTGTTCATCTGTTGATGGACATTTAGGT
TATTCCCACCTCTTGGTTATTGTAAGTAGTGCTGCATTGATATTCAGAATGCTAAATCTCTTTGAAATTCTAGAATTCAAGATCTGAGTATTTAGGTGGA
TAAATATCTAGAAGTGAGATTGCTGGATCATGTGAATCTCCTATTTTTACATTTTTGGGGGATCTTCATAATGTTTTTAATGGAGGCTGAACCTTTTTGC
ATTCCCAGCAACAGTACAAAAATTTCTGATTCCTCTACATCCTTGTCAGCACTTGTGAGTTATTTTTTATTTTTGTGGGTACATAGTAGGTGTATATATT
TATGGGGTACATGAGATATTTTGATACAGGCATAAAATGCATAGTAATCATATCAGGGTGAATGGGATTTTCATCACCTRTAGCATTTATCCTCTTCTTG
TGTTACAAACAATCCAATTATACTCTTTCGGTTATGTTTAAATGTACAATATATTACTGTTGACTGACTGTAGTCACACTGTTGTGCTATCATACACTAG
ATCTTATTTATTCTATCTAACTATGTATTTGTACCCATTAACAATCCTCCCTCCCCTCATCCTTCACTACCCTTACCAGCCTCTGGTAACCATGATTTTA
CTCCTAAGAGATCTTCCTTCTTCTTTAATGTAAATGCTTACTGCTACATACCAACCTGTTTATATAGCTTTTGCTGCATCCCATATGTTTAGGTATGTTG
TAATTTAATTTGTCTTAAGGTATTTTCTAATTTTCATTCTGATTTCTTCTTTCACTTGTTGGTTGTTTGAGTATATTGTTAAATTTCCAGTCTTCATGGA
TTTTCTAGTTTCCCTTCCGCTATTGATTTCTAGTTTTATTCCAATAGATTGGAAATCATGTTTTGTACATTATTTAGGCCTGGCCACTGCACCTGTCCCA
AATAATATATATTTTAGCTGACAACAAATTAACTTCAACCACATATGAAAACTTTATTCTTGTACATATCTGCCCCTCTTTATGTTATTGATGTCAAAAT
TATATTGTGCATCTGGTATCATAGATTCATAGTTATTTTCATGTTTTTGTCCTTTAATCTCCATACCAGAATTAGAAGTGATTTATAAACCAATATTATA
GTATCACAGGATTTAATATCTGTCTGCGTATTTACCTCTRCCAGAGATCTTTGTTATTTATGGTTTTATGTTGCTAACAAGTGTCTTTTGATTTCAACTT
GAAGGACTCCTTTTGGCAATTCTTGATGGCAGGTGTAAAGGGGATGAAAAACCTCAGTTTATGTTTATCTTGGAAGGTCTTAATTTTTCCTTCAGTTTTG
AAGAACAGTTTTGCTGAACATAGTGTTTTTATTTTTCAGGGTGTTTTTTTTTTTTTCTCAGCCCTTTGAATATATCATTCCAGTCCTTTCTGTACTGTAA
GGTTTCTGCTGGGAAATATGGTGATAGTCTTATGGAAACTTCTTTCTGCACAGTGWGTAGCTATTCTCCTGCTACCTATAAGATTCTCTCTTTATCTGTG
ATTTTTGACTGCTTGATTATAATTTGTCTTGGTATGAGTCTGCTTGGGTTTATCTTAGAGTTTCATTTTTTAGCTTTTCCCATTTTTRTGTAACTTTCCT
CAAAATTGAGAAGTTTTTGGCCTTCTTTCTTCAAATAATTCCTCTTCCCTTTTACTTTTTTATGGGTATTTCATATGCATACATTTGTCCGGTTGATGGT
GTCACATGAGTTTCTTAGACTCTCTTCACTTTCCTTCATTTGTTTCTTTTTTGCTCATCTGAGATGAAAATTTTAAATGACCTATTTTAAGGTTTGCTAA
TTATTTGTTCTGCTTGATCTAGTCTGCTTTTGTACCCCTCTACCAAATTTTGCAATTCCATTATTCTATTCTTCAGCCTCAGAACTTAGTTTTTTAAAAT
AGGTTCTATCTCTTTATTGATATTCTCATTTTGTCTGTTTTCTCTTTTAGTTATTGAGCATTTTTAAGATGGTTATTTTGAATTCTTTATCAGATAATTC
ATAAACCCTTTTTAAAAATTGTTTTCTTGTTTTTAAATTTTCTTAATTTTACTTTAAGTTCTAGGATACAAGTGCAGAATGTGTAGGTTTGTTACATAGG
TATAGGTGTGCCATGGTGGTTTGCTGCACCTATCAACCCGTCATCTAGGTTTTGAGACCCACATTCATTAGCTATGTGCCCTAGTGCTCTTCCTCCCCTC
ACCCCCACCCACCGACAGGCCCCGGTGTGTGTTGTTCCCCTCCCTGTGTCCATGTGTTCTTATTGTTCAACTGCCACTTATGAGTAAGAACATGCAGTGT
TTGGTCTTCCATCCCTGTGTTAGTTTGCTGAGGGTGATGGCTTCCAGCTTCATCCACGTTCCTGCAAAGGACATGATCTCATTCCTTTTTATGGTTGCAT
AGTATTCCATGGTGTATATGTACCACATTTTCTTTATCCAGTCTCTCCCTCCCTTCTCCATAAWTTTTTGGATAATTTGAGTAGAATTATAATTAGTTCT
TTCTTAAATATTTGATAGAATTCAGCAGTGAAACCATCAGGTTACTGCTTCTATCTCATTACTCATAATTAGTTTGCTCAGATTTTTTATTTTTCCATGG
CTCACCATCTTARGTTATATATGTAAATACTTTTTTTTAGTTTTTCAAAATTACTGGCATATAGTTATTCATAATAACTTCTTTCTTTCTTTCTATTAAT
TTAAGGTTTGGCATGTTGTTGCTCTTCTAGTTCTCAAAGGTGCAGCATGAGGTTGTTTATAAACTCTTTCTACTTTTTTGATATATGCATTTATTTCTAT
AAACTTTCCTCTTAGTACAACTACTAATGTATCCCATGGGTTTTGATATTTTGTATTTCCATTTTATTTTTCTGTCAAGAAATTAAGATTTTTTCCTAAA
TTTCTTTATTTACTTATTGTTTGCTCCACAGCATGCTATTTAATTTTCATGTATTTGTTTAGTCTCCAAAATTCCTCTTGTTATTGATTTCCAGTATTAT
TTAATTGAGGTCAAAGAAGATATGTGATATTATATATATATTTTTTTAAATTGTAAGACTTTCTTTGTAGCCCAATATGTGTTCTCTCTTGGAGAATGTC
CATGAAATGATGAGAAGGTTGTGTATTTTGCAGTCATTGGATAAAATGCATCCTTTTCTCTCAGATTGAACAATTCCCTTTAGTGTTTCTTATATGACAG
TTCTAGTGGTTATGAAATCCCTCATCTTGTTTGTCTGGAAAACTCATTATATTTTTTTCATGTTTGAAGGAAACTCTGGTAGGCACAATAGTCTAAGTTC
AAAGTTTTTTTTCCTTCATTATTTTGAAGATAGCATCCCACTCTCCTCTTTTCTGTAAGATTTCTGCTGAGAAGTTTGCTTTCAGACTATCAGAGCTCCT
CATAAGTTATTTGCTCCATCTTACCGATTTTATGGTCCTTTCTTTGTTCTTGACCCTAGAGTTTGATTTTTTTTTCAAATTTTATTTTAAGAACAGGGGA
TAAAGAAAATGTGGCACATATACATCATGGAATACTATGCAGCCACAAAAAAAGATGAGTTCATGTCCTTTGCAGGGACATGGATGAAGCTGCAAACCAT
CATTCTCAGCAAAATAACAGAAGAACAGAAAACCAAACACCACATGTTCTCACTCATAAGTGGGAGTTGAGCAATGAGAACACACGGACACAGGGAGAGG
AACATCACACACTGGGGCCTGTCGGTGGGTGGGAGGCTAGGGGACAGATAGCATTAGGAGAAATACCTAATGTAGATGACGGGTTGATGGGTGCAGCAAA
CCACCATGGCACGTGTATACCTATGTAACAAACCTGCATGTTCTGCACATGTATCCCAGAACTGGATATTAGGCCTTTGTCAGATACATAGTTTGCAAAT
ATTTTCTCTCATTTTAGAAGTTTTCTGTTTACTCTGTTGATGGTTTCTTTTGCTGTGCAAAAGCTCTTTCACTTAATTATGTCCTACTTGTCAAATTTTG
TTTTTGTTGCAACTGCTTTTGGGTACTTAGATATAAATTTTTTCCAAAGGATGATGTCCAGATGGTGTTTTCTAGATTTTCTTCTATGATGTTTATAAGT
TTAGTCTTACATATGTCTAATCAATCTTGAGTTAAGTTTTGAATATGGTGAAATGTATTTTGCACATGACTAGCCAGTTATCTAAACACCATTTATTGAT
AGGTACTTCATTCCCCATTGCTTGYTATTGTCAACTTTGTGGAAGACCAGGTTGTTATAGATTTGAAGCTTTATTTCTGGGTTCTCTATCCTGTTCCATT
GGTCTAGGTGTCTGGTTTTATAACAATATGATGTTGCTTGGTTACTGCAGCCTTGTAGTATAATTTGAAGTTGAATAATGTGATGCCTCCAGCTTTGTTC
TCTTTACTTAAAATTGCTTTGGCTATTCGGGCTTTTCTTGGTTCCATATGAATTTTAGAATAGATTATTCTAATTCTGCAATAACTCACATTGAGAGTTT
GATGGGGATAGCAAGGAATCTGTAAATGGCTTTGGGAAGTATGGCCATTTTAACAATATTAATTCTTCAAATTCATAGGCATAGAATGTTTTACTTTTTT
TGTCATCTCTGATTTATTTTAGCAGAGTTTTATAATTCTCAAACTAGAAAACTTTCACCTCCCTGGTTAGCTATATTCCTAAGTATTTTATTATCTTTGT
GGCTATCATAAATATATTACATTCTTCATTTGGCTCTCAGCATGAACATTATTGGTGTATAAAAGTACTACTGATTTTTGTGCATTGATTTTGTATCCTG
AAACTCTAAGTAGTTTATCAATTCTAGGAGTCTTTTGGCAGAGTGTTTAGGACTTTCTATGTATAAGACTATATAATCTGTAAAGAGAAATAAAATGACT
TCCTTTCTTTTATTTGGATGCCTTTTTTTCTTACTCTTGCCTGATTGCTCTGGCTAGGACTTCCCAGCACTATGTTGAATAGGAGTGATGAGGGTGGGCA
CCCTTGTCTTTTTCCACTTCTCAAGGGGAACACTTCCAGCTTTAGTCAATTTAGGATAACATTGGCTGTTAGTTTTTCAATGATGGTTCTTATTATTTTG
AGGTATGTTCTATGGTGCCTAATTTTTAGAGGATTTTTAACATTGGAGGTATGATGAATTTTATCAAAAGCCTTTTCTGCATTCATTGAGATAGTCATAT
ATTTTTTAAAGGAAATCTGTTTATGTGGTTAATCACATTCAGTGATTTGCATATGTTGAGCAATCTCTGCACCCCAGGAATAAGACATTAATTACCTTCT
TTATATGCTTCAGGATTTCATTTGCTAGTATGTTGTTGAGGATTTTTGCATCTATGTTCATCATAGATGTCGGCCTGTAGGGTTTTTTTTTTTTTTTTTT
TTTTTGTATTGGTGGGCTTAGGTGTCAGAATGATTCATGCTTCACAGAATGAGTTAGGGAAGACTCCCTCCTTGACTTTTTGGAATAATTTAAGTAGTAT
GGGTATCAGATTTTCTTTGTACATCTGGCAGAATTTGGCTATGAATCCGTTTGGTGCAGGGCTTTTTTCTTGGTAGTTTTTAAATTACTGATTTAATTTT
GGAATGCATTATTGGTCTTTTCAGGGTTTCAGTTTCTTTCTGGTTCAATCTTGGGAGGTTGTGAGTTTCCAGGAATGTATTCATTTCTTCTGTGTTTTCT
AGGTTGTGTGCAGAGAGGTGTTTGTAATAGTCTCTACAGATTTTTTTGTGTTTCTGTGTGGTCACATGCAACATAATCTTCATCACTTCTGCTTGTGCTT
ATTTGGATCTTCTCCTTTTTTTTTTTTTTTTTTGCTAATAGATCCCCTAGTGTTTTGGTCTTGTCAATTCTTCCAATGATTCAACTTTTGRTTTTGTTGA
TCTTTTGTATGGATTTTGCTATCTAGATTTTGCTCAGCTCTTAATTTTAGTTATTTCTTTTTAAATAGTAACTTTAGAGTCTCTCTTGCTTGTCTAGTTC
CACCAGGTGTAATGTTAGGGTATTAATTTGAGATTTTTCTAATTTCTTGATGTAGTTGCTCAGCACTCTCCACTTCCCTCTTAACAGGTTTTCCCTGTGT
CCCAAGATGCTGGTATGTATTGACTCTGATTTCATTAATTTCAAAAAGTTTTTTTGGTTACTGCTTTACTTTCAATCTTAACCAAAAAGTCATTCAGGAG
CATGTTGCTTAATTTCCATGTAATTATGTGGTTTTGAGGGATTGTCTTGGTATTGATTTCTATTTTTATTGCACTGTGGTCTATGAGTGTAGTTGTTATT
ATATATTTTTTAAAATTAGTTTGGATGTGTTTTATGGTGGAGCATATGGTTGAGCTTAGAATATATACTATATACAGATGAGAAAAACTGTTAGTTGGAG
TATTCTGTAGATAGCTATTAGGTCCAATTGATCAAGTATAAAGATTTATTCCAGAATACCTTGGTTTGTTTTTTGCTTTGATTATCTGTGTAACTTGTCA
ATGGCATGTTGATGTCTTCCACTTTTACTGTGTGGTTGTTTCTGCATGTTTTTGTGGCTGCAGGTACTGGTCTTTCATTTCCATATTTAGCACTCACTTA
AGGACCCCTTGAAAGGCTGGTCTGACGTTAACAAATTTTGTAGCATTTGCTTGTCTGAAAAAGATTTTATTTCTCTTTCACTTATGAAGTTAGTTTGGTA
GAATATGACATTCATGGTTGGAATTTCTTTTGTATAGGGATGCTGATTATAGGYCTCCACTCTCTTCTGGTTTCTAAGATTTCTGCTGAAAGTTCTGCTA
TTAGCCTGATGGGGTTCCATTTGTAGGTGACATGCTCCTTCTCTCTAGCTGCCATTAACATATTTTCTTTCACATTGACCTTGAAGAATCTGATGACTCT
GTGCTTTTGGCATGGTTGTCTTGTGTAGTATCTTGCAAGGGTTCTCTGCGTTTCCTATATTTGCATGTCAATCTCTCTAGCAACATTGGGGATGTTTTTA
TGGACAATATACTCCAATATTTCTTCCACATTGCTTGCTCTCTCTGTCTCTTTCAGGAATGCCATTCAGTCTGAGGTTCTGTCTTTTTATAGAATCCTGC
ATTTCTCAGAGCTTTTGTTCATTTTTTCTCTATTCTTCACCATTGTCGTCCTATGTTGAATCAAAGGAGAAGTTTCTGAGTGCTGATACTTTTTCCTCAG
CTTGGTCTGTTACGTTATTAATGCTTCCAATTGCACTCTGAATTTCCTGCAGTGAATTTTTCATTTTCAGATCAGTTTGTTTTTTCTTAAAATGGCAGCT
ATCTTTCAACTCTTGAACTATTTTATTGTGTCCCTTGGATGTTTTTCAAGTTTCTCTTGTATGTTGATGAGCTTCCTTGCTGTCCAGATTCTAATTTCTA
TGTGTGTAATTTCAGCCATTACAGTCTGCTTAAGAACCATTGGTGAGTTTGTTTGGAGGTAAGAAGACACTCTAACTTCTAATGTTGCCAGAGTTCTTGC
ACTATTTCTTTCTTTCTTTCTTTCTTTTTTCCATCTGTGTGGGCTGATGTTCCTTTAGTTTTTGGAGTTGCTGCCTTTTGGATGAGGCTTTTGCTTTTTT
CTTTCTTTGATGTTCTTGAGGGTTTGACTGTTATAAGTTAGGTTTAGTTGATTGGCATCATTTTCAGATGCTTTCAGGGGCTAAGACTCAGCTGAGCACT
CCTGGGCTACATGCTCTATCCCTGGTGAACTGGGACCTGGCCCACAGCTTTGTTCTTTTGCCCCTTGGGGGTTAAATATCTGTTGCCCTGGAGGGGCCAA
TGTGTTCCCAGCCCATTGGTGACAACACTAACAGACGCTGCTAGCAAAGGTACTCCAGTGGGCTTGTGGTCATCCCCCACATGGGTGCACGCCAGTGGGG
CAGCAGGGGTCCCAAAGCTTGCTCATGCCTGCAGGGTGGTGTGTTTTCCATACGCATGTGCATGCTGGCAGGGTGATGAGGGGAGACTGTGGGCAAGCAT
ACACCCACAAGGGAAGGCTGTGGGTGGTCATGTGCTGCTGGAAGTCTGTCTGCAAAAACACTCAAACAGTTAAGCAGGGCTTGCCACTGAGGGATCGATG
GCAGTGGATGCTGGTAAACAGTGGAGGCTGCACTGCAAGTGGCTGTAGCTAGGCAGGACCCTGGCAGAGGTTAGCAGATAAGGGGGAGCTCAGATCAGAC
TGGCCCTGTCCCACAGGCAACACAGCCATGTTCTTTTCGGTTCCAACAAAGGCTAGAGCTGCCTGGTGGAATATGGCAGTCTTTGGGGAATTGGCAGCCA
TGGCTATGCTCCACTGCAGTCATTTCTACACAAAACCTCTGGACTCCATACAGGCTGGAGTTCTGTCTCTGCCAACTCTCCAGGCAGTTCTCCTTGCTAG
CTCAGGTGTACGTGGTGGTTGTGTGTCAAATGTCTTTTCCTATATTTATCTCTGTATTGTATAAACTCATACGAAATAACCTTGCATTGCTTTTTAAACA
TTGAAATATATCATGCACAGCATATATAAGTGATAACGTATTCAGATAAGATGTTGATTATTATAAAGGAAAGCACAAAATGTCAGCATCTAAGGTTAAC
TTAGGATCTGTCAGAGGGTCCATGAAGTCGAAATTATTTTATAATAATGCTAAGATATAATTGGCCTTTTTCATTATGTTGACATTTGTAGTCATGTTTC
AAAAGCAATGTTATCCAAAGTGGCTGCACCTTAGCATGAACAAGGCAATGACACTAAATTGCACTGCTAGTCATTGTATTCTTTACTGCTACACACTGTT
AGTAAAAATATAAATAAAAACAAAAGTTACAAAAAATGTAAAAAAGGATTGATATCAGCAAGACCATTTAGAAGCTCTTCATACTTTTCCCTCTCATAAA
ACAAGGGCAAAAACAATGAATAAACAACTACATTTTAACTATATTATCTGAAAAAGAATGCTAGAGCACAGCAAAGGAGTAGCAGAGACTCTGTGGAACA
TGCAGGCTCAGGATGGCTTCATAGACAAGGAAGCAAAGTATTCTGCTGCTGTTACTTTATCTCCTCAAATGGGATTCACTCAGAACTAAGGGGGACTTCC
CTCTGCACCAGAAAGTAAGAAGGAGGTTTCTAACAGCCCCTCTTAAGATCATGGATGTCTGCAGTCCTTCCTGCTGAAGAATCCTGCAGTTCTCACAGAT
GCTGAGCCAAGTTTGGAAAGCTGCCAGGATTTCACACAGCTGCATTGTTAAAGAAAGAGCCCACATTTGCCCCCGTTCTTATTTGACCTAAGCTGCTGCT
GCACAGTGCTATCTTATAACTGGAGCCACTGCTATATTGTGTCTTGCTCATGAGGGCAATAACCACKTCATGCCTCCATCCCTGAGGTTTTGCCATCATT
ACACCATGCTCATACCTAGTAGTACACCATTACTCAGCCAAACTATTATGGGTCACTCCCCTTTGGAACAAGCTGCCTAGGAGGTCTTCCATCTACCCCA
TTCCAGTGTCTACCATACCCCAACCCTGGTTACTCCAAGCCTGGCTCCAGCAAAACAGCTGCAAATCTAGCAGCCAAATACACAAGGCACACTGAACCCA
CCCCCACCCCCAAACCCAGAGAATAGTTAGTGCTGTGCACAGCACAGAAGCTGAGTACAAAGAGCTAGGCCCCTGCATGCACCCTCAGTGGACAAACTAG
GCTGGTGCTTTGCCTATGTGGGAGCAGTGCACAAGCTTGTGGGCAAGCTCAGCACTCTCTTGATGTGAGAACCAGCCTGGTGTCCTGCCCCAAGGGGAAC
AGCAGACAAGCAGAGGACCAGCTGTATGCTCTCTTGGCACACAAAAGAGCTTGGTGGCATACCCCATGGAACAACACACATATGAATGCATAAATCGTGA
ACTCCCTCTGCATGTGGAGCAGCTTATGTCCCACCCACAGTGGAGCAGCACCAGAGACACTGATGCTCACAAAGGCATTGCTGGTGTTGACTACAGCTGA
AGGAACTGCATAGAGACTATGCTATTGCACTCACTGGAATCAAAGCCAGCATGCTCTACCCARTCAAGCCCTAGGAAACATCAGCAGGTAAAAGTATCTC
CACATGAAAGACACTTGATAATATTGGAAAAGATAACCATTCCACCTTATGCATGGGTATTAATATAGGGACACAAGACACATGAAAAGTCAAGGAAATA
TGACATTACCAATGAAACACAATAATTTTGTGGTAACTGACCCCCCAAAATGGAAATTTCTAATTTTTTTTAAAAAGTAATTCAAAATAATGACTCAAGA
AAACTCAGAAATATACAAGAGTACACAGACACACACTGCAACAAAATCAGAAAAACAATTCATAGTATGAATGAGAAATTGATCAAAGAGATACATATAA
TGGAAAAGAAACAAACATAAATTGTGGAGCTGAAGAATTCAACCAACGAAATAAATAAGACTGAGAGCTTTAGCAGTATACTAGATCCAGCAGAAGAAAG
AATTTTTAAACTTGAGGAATGTGTTTTGAAACAGTCCAGTCAAAAGGAATAAAAATAAAATAATGTAAAAGAGCAAATAATGTAAAAGAGCAAATGAAAT
AGGTGGTACATCATTAATCAAACAAACTTCTGCATTCTAGAGATTTCAGTAGAAGAGATGGAGAAAAGCACAGGAAGCTTATTTAACAAAATAGTAGCTG
AAAATTTCCCAAATTTTGGAAGAGATGTGGATATCCAGATCCATGAAGCTCAAAGGACTCCAGATTCAACCCAAAGAGGTCATCTCTGAGGCCTGTTATA
ATCACACTGTTAAGACCTAAAGAATTATAAAAGAAACATCAGAAAATTGTCAAGTCACATATAAAAGGATCTCCATCTGACTGACAGCAGATTTATCAGC
TGAAACCTTGCAGGCCTAAGGAGAATGGGATRGTATATCAAAGTGCTGGGGAATAAATTGAGGTAAAAATGCCATACCCAACAAAACTATTCTTCCAAAA
TGAAAGAGAAATAAAGTCTTTACCTGACAAACAAAAGTTGAGGAAACTCACCATCAATTATCTTTACATTAAATGCTTAAGGGAGTGATTCAGCTGGAAG
TAAACATATAGTTACTAAGAGGAAATCATATGAAACTATAACTAATAAAGGTAAATTTGTTGTGAAATTCAGAACACTCCATTATTATAAAGTAATATAA
TTTTTCAAATCTCTATGAAGGTTAAAATCACAATGGTAAATAATACCTATAGCTACAACAAGTTGTAAGTGGACACAAAATATTAAAACATGCAAATGGA
GATACAAAGTTATGAATTTTAAGAAATCTAGAATGTATGTGACCAAACTTATTATCAACTTAAAATTATTTATTGTAACTGTAAGCTTTTCATGTAAGCC
CTATAGTAGCCACTAACAGCAAATTACAGCACATAAACATATAAGAAAGGGGAAGGAATACAAAGCTTATTACTATGGAAAACCCCCAAATGACAAACGT
AAAAAAATGAGAGGTGAAGAAAGGAACAAAGGATACAAAATATTTAACAAAATGGCCGAAGCTAGTCCTTAGTAACCAATAATAACCTTAAATGTAAATG
AATCAAATTCTACAATTGAAACATATAAAGTGGATGAATAGATAAAAAAATATAACCCAGATAAGAAAAACATAACCCAGCTGTATGCTGCCCATGAGAG
ACGCATATTACCTGTTTTTCCAGTTCCAGTTGTTACTGGAAAAAGAGACTAAGAAGATCATTATATAATGACAAAAGTTGATTCAGCAAAAGGATATAAC
AATTGTTAATATATAGGCACCCAACACTGGAGCACACAAATATATAAGGCAAATATTAGATATAAATGGAGAGGTAGCCTGCCATATAATAACAGTTGGG
GACTTCATTCACTTTCAGCAATGAAATGATTATCTAGGCACAAAATTAATGAAAACTCAGATATAAACTATACTCTAGACCAGGGGTCCCCAACCCCCAG
GCCATGGACCAGTACCAGTCCATCGCCTGTTAGAAACTGGCTGCACAGCAGAAGGTGAGTAGTAGGTGAGTAAGCATTACCACATAAGTTTTGCCTTCTG
TTAGATCAGCAGCAGCATTAGATTCTCATAGGAGCATGAACCCTTTTGTGAACTGAGTATGCAGGGGATCTAGGTTGTGTGCTTCTTATGAGACTCTAAT
GCCTGATGATCTAAGGTGGAACAGCTTCATCTCAAAACCATCTCACCTCACAGTGCATGTAAAAATTGTCTCCCATGAAACCACTTCCTGGTGCCAAAAA
GTTTGGGGATCACTGCTCTAGACCAAATGGTACTAATAGACATTTACAGAACATTCCACCCAACAGCTGCAGAATACACATTCTTGTCAACAGCATGTGG
AAGTTACTCCAGGATACATCATATGTTTGGCCACAAATAAGTATCAAAAATTTGTTGGTTTTTTATTTTACTTTATTTTCAACTTTTATTTTAGATTGAG
GGAGTACATATGCAGGTTTCTTGCAAAGGTCTACTGCATGTTTGTCATATAATTGAACCTGTCACCCAGCTAGTGAGCATAGCTCCCAATAGGTACCTTT
TTGACCCTTGCCCCCTTCAAACTCTCCCCAAGCTTATAGTCTCCTGTGTCTATTTTTCTAAACTCTATGTCCATGTGTACACAATGTTTAGCTCCCACTT
GTAAGTGAGAACATGCGGTATTTGGTTTTCTGTCTGTGTTAGTTTGCTTAGGATATTGGCCTCCAGCTCCATCCATGCTTCTGCAAATGAATTCATTCTT
TTCTATGGGCTGCATAGTACTCTGTGATACCACATTTTCTTTATCCAATCCACCATTGATGGGCACCTAGTTTGATTCCATGTCTTTCCTATTATGAATA
GTGCTGCTGTAGACGTGCAGGTGCATGTGTCTTTTAGGTAGAACAATATTTGGCTTTCAATATATACCCAGTGATGGGATGATTGGGTTGGATCACAGTT
CTATTTTTTKGGGGGGGGGTTACTTTCAACTTTTACTTCAGAAACAGGGGATACATGTGCAAGGTTTCTAAAAAGGTATATTACATGATGCTGAGGTTTG
AGGTATGATTGAACCTGTTACCCAGGTAGTGAGCATAGTATCTGATAGGTTTTCACCATTAACACTTTCCCTTTTATCCTCACCTTGTAGCCCCCAGTGT
CTACTGTTCCTATCATTATGTCAATGTTTACCCAATGTTTAATTTACACTTATAAGTAAGAAGATGCGGTCTTTGGTTTTTTAATTTCTGCATTAATCCA
CTTAGAATAATGGCCTCAGGCTGCATTAATGTTGCTGCAAAGGTCATGATTTTCTTCTTTTTTTGGCTGCATAATATTCCATTGTGTATATGTATCACTT
TTTTTATACAATCCACAGTTGATGGATATCTATTTTGAATCTATGTCTTTTTTATTGTGAATAGTGCTGTGATGAACATACAGATCCATGTATCTTCTTG
GTAGAATGATTTATATTCCATTGGGTATATACCCAGTAATAGTATTGATAGGTGGAATAGTAGTTCTATTTTTTAGTTATTTGAGTAATCACCAAACTGC
CTTCCAAAGAACTGAACCAACTGACATTCCCACCAAATATGTATAAGCATTCTCTTTTCTCTGCAGTCCTGCCAGCATCTGTAATTTTTTTAACTTTTTA
ATAATAGCCATTCTGACTGGTGTGAGATGGTATTTCTTGGTGGTTTTAATTTTTGTTTCTCCAATAATTACAGTGATGATGAGCATTGTTTTTGTGTGTT
AGTTGGATACTTCTATATCTTCTTCTGAGAAGCATCTGTTCATGTGTCTTGTTCACTTTTTCATGGGGTTATTTGTTTATTGCTTGTTTTTTCCAAGTTA
TCCAATTGAATATCTTTATTTTTATATTCCAGGTCATTTGAAAAATTCTTTTATTAGTGGTGACATTTCTTGTTTAATGATTACTTCTCTTCCTAAACAA
AAGTAGTAGTAGAATTTTTAACTAATTAATTAGTTTTATTGTGATAAAATATACTCGCCATAAAACTTACTGTGTTAGCCACTTTTAATTTTTTTAATTA
TTTTTTATTACAATAGGTTTTTGGGGAACMGGTGGTGTTTGGTTACATAAATAAGTTTTTTAGTGGTGATTTCTGAGATTTTGGTGCACCCATCACCCGA
GCAGTATACACTGTACCCAGTATATAGATTTTTATCCCTCACCCTCCTCTCACCCTTTCCCTYGAGTCCCRAGAGTCCATTATATCATTCTTATGCCTTT
ACATCCTCATAGYTTAGCTTCCACGTATGAGTGAAAACCTACAATGTTTGGTTTTTCATTCCTGAGTTACTTCACTTAGAATAATGGTCTCTAATTCCAT
CCAGGTTGCTGCAAATGCCAATATTTCATTCCTCTTTATGGCTGAGTAGTAGTATTCCAAGGTATATCATGGTATATCATATTTTCTTTACCTATTCATT
GACTGATGGGGATTTGGGCTGGTTCCATATTTTTGCAATTGCAAACTGTGCTGCTATAAACGTGTGTGCAAGTATCTCTTTCTTATAATAACTTCTTTTC
ATCTGGGTAGTTACCAAGGAGTGGGGTTGCTGGATCAAATGGTAAATCTACTTTTAGGTCTTTAAGGAATCTCTACACTGTTTTCCATAGTGGCTGTACT
AGTTTACACTCCCATCAGCAATGTAGAAGTGTTTCTTTTTCAATGCATCCATGCCAACATCTTTTTTTTTTTTATTTGATTATGGCCATTCTTGCAGGAG
TAAGGTGGTATTGTATTGTGGTTTTGATTTGCATTTCCCTGATTATTAGTGAAATTGAGCATTTTTTTCATATGTTTGTTGGCCATTTGTATATCTGCTT
TTGAGAATTGTCTATTCATGTCCTTACCCCATTTTTGATGGCATTGTTTTCTTCTCGCTAATTTGTTTGAGTTCTTTCTAGATTTTGGATATTAGTCCTT
TGGCAGATGTATAGACTGTGGAGATTTTCTCCTGCTCTGTGGGTTGTCTGTTTACTCTGCTGTTTCTTTTGCCATGCAAAAGCTCTTTAGTTTAATTAAG
TCTCACCTCTTTATCTTTGTTTTTATTGCATTTGCTTTTGGGTTATTGGTTATGAAATCATTGCTTCAGCCAATGTCTAAAAGGGTCTTTCGATATTATT
TTCTAGAATTTTCATAGTTTCAGGTCTTAGATTTAGGTATCTGATCCATCTTGAGTTGATTTTTGTGTAAGGTGAGAGATGAGGATCCAGTTTCATTATC
CTAGATGTGGTTAGCCAATTATMCCAGCTTTATTTGTTGAATAGGGTGTCCTTTTCCCACTTTAGGTTTTTGTTTGCTTTGTCAAAGATCTGTTGGCTGT
AAATATTTGGATTTGTGGGTTCTCTATTCTGTTCCGTTGGTATATGTGCCCATTTTTACAGCAGTATCATGTTGTTTTGGTGACTATGGCCTTATAGTAT
AGTTTGAAATTAGGTAATGTGTTGCCTCCAGGTTTATGCTTTTTGCTTAGCTTTGCTTTGGCTATGCAGATACTTTTTGGGTCCCATATGAATTTTGGGA
ATTTTTCTAGTTCTGTGAAGAATGATCATGGTATTTTAATGGGGATTGCATTGTATTTGTAGGTTGCTTTTGGCAGTATGGTATTTTCACAATATTGATT
CTATCCATCTATCAGGATGGGACGTGTTTCCATTTGTTTGTTTCATCTATGATTTCTTTCAGCAGTATTTTGTAGTTTTCCTTGTAGAGATCTTTCACCT
CCCGGGTTAGGTATATTCCTAAGTATTTTATTTATTTTGCAGCTATTGTAAAAGGGGTTGAGTTCTTGATTTGATTCTCAGCTTGGTCGCTATTGTATAG
CAGAGCTGCTGATTTGTGTACATTAATTTCGTATCCTGAAACTTTGCTGAACTCATTTGTCAGTTCTAGGAGCTTTTTGCAGGAGTTTTTAGGGTTTTCT
AGGTATACAATCATATCTTCAGCAAACAGTGACAATTTGACTTCCTCTTTACCGATTTGGATGCCCTTTATTTCCACCTTTTGTCTGATTGCCGTTGCTA
GGACTTCCAGTACTGTGTTGAATAGAGGTGGTGAGAGTGGGCATCCTTGTCTTGTTCCAGTTTTCAGAGGGAATGCTTTCTACTTTTCCCCGTTCAGTAT
TATGTTGGCTGTGGGTTTCCCATAGATGGCATTTATTACACTGAGGTATGTCCCTTGTATGCCGATTTTGCTGAGGGTTTTAATCATGAATGGATGCTGA
ATTTTGTCAGATGCTTTTCTGCGTCTATCAAGAAGATCATGCGATTTTTGTTTTTAATTCTGTTTATGTGGTGTATTCCATTTAATGACACAAGTCATTA
ACCTGTTTCTATTAAATGATCCCTGCATCCTGGTATGAAACTCACTTGATCATGGTAGATTATGTTTTTGATATGATGTTGGATTCAGTTATCTAGTATT
TATTTGTGGATTTTTGCATCCATGTCCATCAGGGATATTGGTCTGTAGTTGTTTTTTTGTTGATGTTATGTCCTTTCTGGTTTTAGTATTAGGTGATACT
GGCTTCACAGAATGATTTAGAGAGGATTCCTTCTTTCTCTATCTTGTGGAATAGCATCAATAGGATTGGTACCAATTCTTTGAATGTCTGGTAGAATTCA
GCTGTGAATCCATCTGGTACTGCACTTTTTTTTTTTTTTTTTTGTAAATTTTTTATTACTATTTCAATCTCTCTCCTTGTTATTGGTCTGTTTAGAATTT
CTAATTCTTCCTCATTTAAGCTGGGAGAGTTGTATATTTCCAGGAACTTTTCCATCTCCTCTATGTTTTCTAGTTTATGCTAGTAAAGGTGTTCATACTA
GCCTTGTGTGATCTTTTGTCTTTCTCTGGTTTGGTTGTAATGTCTCCTGTTTCATTTCTAATTGAGCTTCTTTTCTCTCTCCTTTTCTTGGTTAATCTTG
CAACTTGTTGTAATATCATAGACAATGGTTTGGAAGAATTATTATCTTTTTATATATCTATTGGCCATTTGGATTTCTGTTTGCAGAAAGCCTTGATAAA
ATATTTGGCCCTTTTTTAATTGGGTAGTTTGTTTTATCATTGGTTAATGCTTTGATTGTCCTATTTAAGAAATATTTGCCCATCCAAAGCCATAAAGATA
TTCTATTATTTTTTAAAGATGCTTTATTCATTTTCCTTTGACACTTAGGTTTTTAATCCATTAGAAACAGGTTTTTGTGTATTGTATGAATTAAGATTGA
AAGTTACTATTTTTCTATATATATATTGAGTTATGTCAAAAGTTTTTGTGGTAAAGATTATACTTTCCCCACTGCATTGCAGTGCCATCTTTGTTTTAAA
TCAGGTAACAGCAACAAGAGCAAGTGGGCTGGATATTATTCTGTTTCATTATCTTAATCCTTGTGTCTATATCTACTATAACTGTAGTATAACTACAGGC
TGTACTATATCTATACAATCTGTAATAGTATCCCTTTTTCATTCATGATACTGATCATTTTTGTTTTTTTCTCCCTTTTTCTTGATAAGTCTTGTTACGT
GTTCATCGATATTATTAATCTTCTCCACAAATAATCTTTTAAATATGTGCAGAACATGCAGGTTTGTTACATAGGTGTATACGTGCCATGGTGGTTTGTT
GCACCCATCAACCAGTCACCTACCTTAGGTATTTCTCCTAATGCTATCCCTCCCCTAGCCCTTCACCCTCTGACAGGCCCCCAGTGTGTGATATTCCACT
CCCTGTGCCCATATGTTCTCATTGTTCAACTCCCACTTATGAGTGAGAACATGTGGTGTTTGGTTTTCTCTTCTTGTGATAGCTCGCTGAGAATGATGGT
CACATTTTCTTTATCCAGTCTGTCATTGATGGGCATTTGGGTCAGTTCTAAGTCTTTGCTATTGTGAATAGTGCTGCAGTTAACATACATGTGCATGTGT
CTTTATAGTAGAATGCGTTATAATTCTTTGGGTATAAAACCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGGTTCTAGATCGTTGAGGAATCACCA
CACTGTCTTCTGCAATGGTTGAACTAATTTACACTCCAACCAACAATGTAAAAAGCGTTTTTATTTCTCCACATTCTCTCCAGCATCTATTGTATCCTGA
CTTTTTAATGATCGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTAATGACCAGTGATGATGAGCTTTTTTTTGCA
TATGTTTGTTGGCTGCATAAATGTCTTCTTTTGAAAAGTGCCTGTTCATATCCTTCACCCACTTTTTGATGTTTTTGTTTTCTTGTAAATTTGTTTAAGT
TTCTTGTAGATTCTGGATATTAGATCTTTGTCAGATGGATAGATTGCAAAAATGTTCTCCTATTCTGTAGGTTGCCTGCTCAATCTGATGATAGTTTCTT
TTGCTGTGCAGAAGCTCTTTAATTAGATCCCATTTGTCAATTTTAGCTTCTGTTGCCATTGCTTTTGGTGTTTTAGTCATGAAGTCTTTGCCCATGCCTA
TGTCCTGAATGGTATTGCCCAGGTTTTCTTCCAGGATTTTTATGGTTTTAGGTCTTACATTTAAGTCTTTAATCCATGTTGAGTTAATTTTTGTATAAGG
TGTAGGAAGTGATCCAGTTTCAGTTTTCCACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTTTCCATTTCTTGTTTTTGT
CAGGTTTGTCAAAGACTAGATTGTAGTAGATGTGTGGCATTATATCTGAGGGATCTGTTCTGTTCCTTTGGTCTATATCTCTGTCTTGGTACCAGTACCA
TGCTGTTTTGGTTACTGTAGCCTTGTAATATTGTTTGAAGCCAGGTAGCATGATGTCTCCACCTTTGTTCTTTTTGCTTTGGATTGTCTTGGCTAAATGG
GCTCATTTTGTTCCACATGAAATTTAAAGTAGTTTTTTCTAATTCTGTGAAGAAAGTCAATGGTAGCTTGATACGGATAGTATTGAATCTATAAATTACT
TTGGGTAGTATGGCCATTTTTACAGTATTGATTCTTGCTATCCATGAGCATGAAATGTTTTTCCACTTGTTTGTGTCCTCTCTTATTTCCTTGAGCAGTG
GTTTGTACTTCTYCTTGAAGAGGTCCTTCACATCCCGTGTAAGTTGTATTCGTAGATATTTTATTTTCTTTTTAGCAATTGTGAATGAGCGCTCACTCAT
GATTTGGATATCTATTATTGGTATATTGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTAAAGTTGCTTATCAGGTTAAGAAA
GTTTTGGGCTGAGAGATTGTAGGTGATCAAGAAAGGCCTTATAGTTTCACTTAAGTCTTGAAATCTGGTTATCCATCTGGCATATTAATTGTGAAATGTA
TTATAAGCAGAGGAAATGGCATAAACAAAGTTATAAATGAGCATCAAAATAGCCTGTTCTTTGCGGAAAATTGCAAACAATTTGTTATGGCTTCTGTTTA
GGTATCAGGTTGCAGAGAGCTTTGTATACAAGCTAAAGGAATTTTGACTTTATCCTCTATGCCAGTAGATTTTTAAATCTGTATTCTAACTAGTCCTTTT
CCATATAGGCTCTGCAGACCCTTAGAACCATCCCCAGAAAGAGAGAATAGCCTAATAAGTAGGGACCCTGTTTCCATCAGAGTAGCTCTGGTTTTGCTTG
TTTTATATTGAAGTTCTTCGTTGGACTCTATTAGGAAAAAAAATTCACTGCTTTTAAGAGAGCTAGTAAAATTGTGAAACTACTGCAATGAGATATAAGA
AGACCTGAAAAGTTTTAACCAGGAGAAAAAGTATTTAAGATAGATTAAACACCATAATGAAATACAACATGCAGGGATCATGTCTTATTTTGGGCGGCTA
ACCTGACTGTCTATCCTTTCAGGTGTGGTTCCCAACAAAGGTCAGTTTCCCTTGGCTGTGGGAGCCCAGGAGTTGTTTCTGTGCACTGGTCCTATGTGCC
GYTATGCTGAAGACCTGGCCCCCATGTTGAAGGTCATGGCAGGACCTGGGATCAAAAGGTATGTTCATTTATTTTTATTTCCTTGGACTCTTATCCTGAC
ATTCATTCTCTCTTTGTTTATTAGTGTCATAGAGGTAGACTTTCAGTCCTCAAGCAAATAATTTTTACAGGTTTTTATGAGAGAGCCTTTATATACTTAT
ATAAGTGGATACCATGCTTCACAAATTGGAAAGATGCCATGTAAAAGTATTTTACTGAGAAAATACAAAGAGAGGCCTTATTTTTGGGAAGGAAACAGTG
AATCTTTTTGTTTTTCATTTGTGAATTTGTGCATAAGGACTACGTTCACTTTAAGTTCAGCCTTTCTGATTCTTCTGACATCTGTCACCATATACATACT
TTCCAATCTCACCTAGGCATCAACGCTGCTTGGAAATTGGTTCCCTAGACAGCTCTTTTTTAATATATTTTCTGTAGCAGTCATTTCAAATTATTTCCAT
TTCCAGCGAAACTCTGATCTTCTCCTTTCCTTTACCCTCAAGTAAATAATCCCACATTTTATCTCATAAAAAAATGCAATCTATATGTAACTTACTTCAG
TTTCTTACCATCACATTTTTCTAGGTCTCCAGCTTTCATTCTTTCTCCTCTTAGAGTGGAGAAAATATCTTTCCATTTTGCTTTAGCATATAAGTAGTTT
CAGTTATGCTCTTGATCTTATGTTCTCTTATTCTCTCAGATCTTTGTTCCATTACTTATCTCATCTTAGTATGACTTTAACCTCTCTCTCTCTGTCTCTC
TCGCTCTCTCTCTCTCTCACACACACACACACACACACACGTGTGCGCACCCTTCTCATTATTATTAAGCATCCTAAGTGTCTCTCATCTTAAAAAGAGA
CAACATTTTTTTAGCCCCTTATTCCCCTTAAGCCACTACTCTATGCCGCTTTTTGCCCCATTGCCAGATCCTTTGTGTGAATTATTTATACTCATTAACT
CTAAATTCTCACATTGCCATCTCATAAATGAATTCACTACAAAGTGGTTTTTACCACCAAAATTATTCTTGCCAARGTCCCTGAATTTTTTTTTTTTTTT
GCATTTTTGCTAAAAATAATGACTGCTTCTCAATACTTACCATTCATTACCTCATTATAACTGGTGGCAATATTGATATTACTCCATCATTATTGAAACA
AACTCTGCCCTTGGCTCTTGTGATTCAATCATTTTTAAAATTATTTTTAATTTTTGTGGGTACCTAACAGGTGTATATATTTTTGGGCTACATGAGATAT
TTTGAAGCAGTCATGTAATGCATAATAATCGCTTCATGGAAAATGGGGTAGGTATCCATCCCCTTAAGCATTTATCCTTTATGTTATGGACAATCCACCC
TTTTGATATTGCTCCTTTTCCTTTCATCTGCCTTACTGGCTCTTCTTCCTTTGTTCATCTCTTATATATTGGTATTCTAGAAGGACCTGGTTTACTTATC
TCTATTCTTTCTACTTACCCTCTCAGAATGACTCCATCTACCCTTGCCACTTCAACCATTTTCCATACACAGATGATGCCAAAATCTGCCTCTTCAGCTC
ACTTTTTTCACTTAAGCTAGAGGACTGTCTATTTACTACTACAGGAAGACTGGSCATTTCAGATAACTGAGACTCAATATATCTAAAACTGATATTATTT
TTCTTTCAAGCTCCAGAAACCTGATCCACTACTTTGATTCTTACCCAATCCCAGTGACTGGATGACCAAAATCAACCCAGTTGCTAAAGCCTCATTTCCG
ATTTTTCTCAGTCATTACATCTAAGCAATGCTGAGTCATATTGAAATTACCTACTAATGATTTCTTACATCTTTACATATCTCTCCCTTACCATGGTTAC
AGTTCTAGTTCAGGCTATAATCATTTCTAGCATGAACTACCACCAAAACATTTTGACTTGTCACCACGTCTACAATTTTGATGCATTTCAAACCATTCTC
TCCCTTGCAGCTCAAGTACATTTTTTAAATGCAAATCTAAATTCTAAAGGTATAATACTGTTTCTGGCACACAGTGCTCAGGGAAAAAAATACTTCATTA
GAGCTGAAGCTCAGATGTCAGGATTGAACTATTAAGGATATCTAAATAATTTGTTGATGTCAGTTTCTTTTTAATCCTACACAGGTTAAAACTAGACACA
AAGGTACATTTAAAAGACTTAAAATTTTACTGGATGGAACATGATGGAGGCTCATTTTTAATGTCCAAAGTGGACCAAGATCTCATTATGACTCAGAAAA
AGGTAATTTTAAATAAAATTTGTTTAGGAATTATTTTTAGTCAAAGAGATATCCTTCTGAGCCCTTTACTTCACTTACTGCCAAATATTTCTGTGTCAGC
ATACGGAATTAAGGTTTTCAGAACAGTTATACTAAGGAATTTTGGATGTAATTTTTCATGGTTATTTTAGATATTTTATTTTTTAGTAATGAAATGAGTA
CTTTGAAAATAAAGTATGATAAATCAAATAAATAAATTGCTCAGAGGTAACTGTCATTAATAATTTGGTATGTATCTATCCAGTGATTCTCCTATGCTAA
TGTGTAGATGTAAATTTTAGGTAATAGAGACAACATTATATATGCAATCATTTTAGCCTGAGCTTTATTTTAAAATACTTTTATAATCAGATGAAATAAT
AGCACAAATTTGTCTTTTTAAAAGCAAGAGTTCATTTGGGAAAGAAGAATAATAAGGGGAACAGACCTACCAAATTTTAAAAGTAATTTTTAAACTACTA
TTCAATKTAATAATAATACAGCTTATTACGTGGAAGCAATGGAAGACAAAGAAGGCCCTTACATAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAAC
TACCCTAAATATATATGCACCCAATACAGGAGCACCCAGATTCATAAAGCAAGTCCTTAGAGACCTACAAAGAGACAGACTCCCACACAATAATAATGGG
AGACTTTAACACGCCACTGTCAACATTAGACAGATCAATGAGACAGAAAATTAGCAAGGATATCCAGGAATTGAATTCAGCTCTGCACCAAGCAGACCTA
ATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATGTACATTCTTCTCAGCACCAAACCACACCTATTCCAAAATTGACCACATAGTTGGATGTA
AAGCACTCCTCAGCAAACGTAAAAGAACAGAAATTATAACAAACTGTCTCTCAGACCATAGTGCAAACAAACTAGAACTCAGGATTAAGAAACTCGCTCA
AAACCGCTTAACTACATGGAAACTGAACAACCTGCTCCTGAATCACTACTGGGTACATAACGAAATGAAGGCAGAAAAAAAGATGTTCTTTGAAACCAAC
GAGAACAAAGACACAACATACCAGAATCTCTGGGACACATTTAAAGCAATGTGTAGAGGGAAATTTTTAGCACTAAATGCCCACAAGAGAAAGCAGGAAT
GATCTAAAATTGGCACTCTAACATCACAATTAAAAGAACTAGAGAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAACTAAGATCAG
AGAAGAACTGAAGGAGATAGAGACATAAAAAACCCTTCATAAAATCAATGAATCCAGATGCTGGTTTTTTGAMAAGATCAACAAAATTGAGAGACCGCTG
GCAAGACTAATAAAGAAGGAAAGAGAGAAGAATCAAATAGACGCAATAAAAAATTATGAAGGGGATATCACCACCAATCCCACAGAAGTACAAACTACCA
TCACAGAATACTATAAACATCTCTATGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTGGACACATACACCCTCCCAAGACTAAACCAGGA
AGAAGTTGAATCTCTGAATAGACCAATAACAGGCTCTGAAACTGAGGCCATAATTAATAGCCTAGCAACCAAAAAAAGTCCAGGAGCAGACAGATTCACA
GCCAAATTCTACCAGAGGTACAAGGAGGAGCTGGTACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATG
AGGCCAGCATCATCCTGATACCAAAGCCTGGCAGAGACACAACCAAGAAAGAGAATTTTAGGCCAATAACCCTGATGAACATCGATGCAAAAATCCTAAA
TAAAATACTGCCAAACCGAATCAAGCAACACATMAAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTYAACATACGC
AAATCAATAAACGTAATCCAGCATATAAACAGAACCAAAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTTAACAAC
ACTTCAAGCTAAAAGCTCTCAATAAATTAGGTATTGATGGGACGTAGCTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAA
TGGCAAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAGCGATGCTGTCTCTCACCACTCCTATGCAACATAGTGTTGGAAGTTCTGGTCAGGG
AAATCAGGCAGCAGAAGGAAATAAAGGGTTTTCAACTAGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCTGATGACATGATTGTATATCTAGAAAACTCC
ATCTTCTCAGCCCAAAATCTCCTTAAGCTGAGAAGCAACTTCAGCAAAGACTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCTTATACACCA
GTAACAGAAACAGAGAACCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTGGGAATCCAACTTGCAAGGGATGTGAAGG
ACCTCTTCAAGGAGAACTACAAATTACTGCTCAATGAAATAAAAGAGGATACAAACAACTGGAAGAACATTCCATGCTCATGGATAGGAAAAATCAATAT
CATGAAAATGGTCATACTGCCCAAGGTAATTTATAGATTCAATGCCATCCCTATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAGCTACTTTG
AAGTTCATATGGAACCAAAAAAGAGCCCACATTGCCAAGTCAATCCTAAACCAAAAGAACAAAGCTGGAGGCATCATGCTACCTGACTTCAAACTATACT
GGAAGACTACAGTAACCAAAACAGCATGGTACTGGTACCAAAACAGAGATATAGCCCAATGGAACAGAACAGAGCCCTCAGAAATAATGCCACACATCTA
CAGCTATCTGATCTTTGACAAGCCTGACAAAAACAAGAAATGGGGAAACAATTCCCTATTTAACAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGA
AAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATTAATTCAAGATGGATTAAAGACTTAAATGTTAGACCTAAAACCATAAAAACCCTAGAAG
AAAACCTAGGCAATACCATTCAGGACATAGGCATGGGCAAGAACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGYCAAAATTGACAAATGGGA
TCTAATTAAACTMAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCAATCTACTCATCT
GACAAAGAGCTAACATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCAAAGGATATGAACAGAC
ACTTCTCAAAAGAAGACATTTATGCAGCCAAAAGACACATGAAAAAATACTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATA
CCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGA
GACTGTAAACTAGTTCAACCATTGTGGAAGTTAGTGTGGGGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTAGTGGGTA
TATACCCATAAAGACACATGCTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATA
CACCATGGAATACTATGCAGCCAGAAAAAATGATGAGTTCATGTCATTTGTAGGGACATGGATGAAGCTGGAAACCATTATTCTCAGCAAACTATCACAA
GGACAGAAAACCAAATACCGCATGTTTTCACTCATAGGTGGGAATTGTACAATGAGAATACTTGGACACAGGAAGGGGAACATCACACACCAGGGCCTGT
TGTGGGGTKGGGGGAGTGGGGAAGGATAGCATTAGGAGATATACCTAATGTGAATGATGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACAT
ATGTAACAAACCTGCATGTTGTGCACATGTACCCTAAGACTTAAAGTATAATAAAAAAAAAAAAAAAAGACATGTAAAACTAGAAGAAACTTGATTGTGG
TAAAAGATGGCTTTTATATTCTATCTTTGTTTTCTGCCACCATGAAAAAATGCCTGTGACTCAATAACTTATAAAGAATAAAAATTTATTTCTCACACAC
CTGAAGACAGGAAAGTCCAAGATCAAGGTTCTGGCAGGTTCAGTGTCTGGTGAGGGCCATCTTACTGCCTTCTCCAGAGGGGAGAAACATGGCAGAAGGG
TGGAAGAGACAGCTGCTAAGGCTGCATAAAGCCTTTGTAAAAATGGCTGTAATGGCATTAACTAGGGCAGCCCTCATGGCCTAATCACTTCTTTAGGGCC
CCCCTCTTAATAATAATGCATTAGCAACACCTGAATTTTGGAGGCGATCTATTCAAACCATAGGTCAGGACATCCAGGCCATCCTGGCTAACACGGTGAA
ATCCCGTCTCTACTAAACAAAATACAAAAAATTAGCCGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTC
AACCCGGGAGGCGGAGCTTGCAGTGAGTGAAGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTTAAAAAAAAAAAAAAATAGCATA
AGTGGATACATTACTGTGTTACTAGATTTGAAAGTCATGTTATAAAATTATACGTTATTTTTAAATCTATAGGGAAAATGTAATTCATATAAAAACTCAG
TGGATTTTTAAATTTCTTTTTGTAATGCTTAATGAGGATAAAAGAAAAGTGAGATCTTCATAAGTTATAAGCCCAGAAACAGAATTTCTTCCTATATTAA
TTTTTACGTGTATTAAGATAGCTTCACATATCTGAATTAATAATATCTAAATGAAAGAAATCATAGAAAATACTGCCAATAAAAATGATAGAGGATTATT
AACAGGCTATAACCTATTATAAGAGAAATACCACCAGGGACATAGGTAAAGGAGAAAGGTAAATTATAAAAGAAGTTATATAAGTGAACAATAAAAACAC
AAGAAATGTTAAGACTTATAAGTAATTAAAGGAAAAACTATAGAAAAATTAAGGTACTATACCTTCGTTGCTTGGGTTGATAAACCATAGAATGCTAGTG
GCAAAGCAAATTGGTACTTTCCTGGCGAGCTGGAGGATAAATGCAAAATTATGAAGCCAGGAGCAGGAGGAAAAAAGTAAGTGAATGGAAGTAAATTACT
TACATTGAACTTTTAGTCCAATGTAATTTGCTCTCACAGTAGAATTACCTCCCTTCCTGTTCTGTAGCTTTAGCAAAAATTCTAATAACTTAATGTACAG
ACTCTTCATTACCAAATTCTCTAGCCAATTTAATATTCTGACCCCAAACCCTTCCCTTTACGGTATTAAAACCATATTTTTGCTGGCCTGAAATTCATGT
GTATGAAAAGCCAATTTTCCTAAATGGGTTTTTTCACTGTTGATACTAATCAAGAGTCTCACTGTTATTGAAACTTTCTCTGCAGTGTCAGAAGTGACAG
TGTTGCAGACCTCATCACCTGTTGGCATCAGGTAGCAGGGAGAGCTATCACAGAATAGTTTAGTTTGAAATAATAGTTTAAAATAGTCACATGCTAAAAA
AGAGACAGATTGAAATACATGTGAATTCATTTAGGAGTTTCATTTCATATTGGATAAGTTTAGAACAGGCTCTAGTGAAGATTGGTGTATGGAATACAAG
GATCTATACTACTGTTGTATGCTTTACAAGTTGGTTCCATAAGAGAAATTTTATAACCTAAATATTTTTCCAGAAAGCATTTTATAAAATTCAGATGTCT
GTTTCTGATTAAAAATTATTTTTTGCCATACTATGTTCTTTTTATATTATATGCATGAAATCCAGGGCAATCTCTTTAAAATATAAAGTTAGATAAGCAT
GCTAACCATCACCATTATTATTTATAGAAAGTATGCCAAGGATAAATTAGAAATAAGAGGTATGACTATGAAAAAAGACAAATCAATAATTATTTATAGA
TTAAGATATGAGTATATTCTTGTAAAACTCAAGGAGTGCTATTTTAAAACTCTTAGAATAAATGAGTTCAACCTAAAATAGGATGTACGATGAAAATGAG
AAAAACCATAGCTAACATATCAGCAATAACCAGATAAAAAGTAGAATGAGGAAAACAGAGAAGACAAACAGAAAATCCTACAAAATGCCTACAGACTCTA
AAAATAAGGTTGTAGAACCTACCAGAGAAAAATTACAGAACTTTACTAAGAGTCCTAAAATGAGTTTTGAATAAAAAAAGAAACTTAGTTTTATAGCTTG
AGTTGTTGGTGGATAGATCCCATAGCCTATATAATCCCTGTCACTGGGATTACAAATATCATTCCATTTTATAAAGTTCCTAGGCACACTCCAAAATTCC
ATCACAGTGATAAATGCATTTCTGAAACACCAACAGGCCTGCTGTTCTATAATCTGTCATTGCATAAATTAATTTATGTATCTTTGTTTCTGTATATTTT
CTGAAAAGGAGGAAGTGGAGGAACATGAGAATGAGTGATGTGTGTATCTGAGGAGGGAGGAGGTAAATAGAGAAAGACATTATTACATCATTGGAGGTGG
GGTAAGGATGTGTGCCACCTCCACCATTCCCAAGCTATTGTCAGAAAAATACCATGTTTTAGGACAGGATGGCTATATTTTATAGCAATTAAAATCAAAT
TAGCAACTTTTATTATGGAAGTTGAGAAAATGATGTTAAGGTTCTCCTGTCAGAATAAATAGCCAAGAAGAAATGAAAACTTTTGACTCAGGAGAATAAA
AATATTAAGGATTTAGTATTCCAGAATTTTAATATGGCATAATACATTTAAATATTTCTCTAAAGTTAATAACTTTATATAGCAATTTGAACTTTATCCA
CTTTCAGGTTCAATATAAAGAGGGAGCTTTTTTGATTTTGTAGCAGAAACTCAATAGTTGCTAACTGATGTTGGTCTGTAATTCTTTCTAAGTCAGAATA
AAAGGAAAGGAGTTAGGACATCAAACTTTGTGGGGGATATTTTATAATCCAGGTCTTTTTATCATTTCTATATTTCCTAGCAACACCTTACTTTTACCTA
TTTTGTAGAAAAATATGCCAAGGCCTTGTGTGCTGTTGGATTTTTTTATTAGCAGATTTTATTTTTAGAACAGTTATATATTTACCAAAAGATTGAGCAG
ATAGTACAGTGTCCATGGGTAGCCCCTCTTTCTTTCACTAGTAGGGTACATGTTTCATGACTGATGAAACAATATTGATATATTATTAACTAAACTCCAT
AGTTTACATTAGTGTTTATATTGTACAGTTTTACAGCATTTGACAAATGCATAATGCCATGTAACTATCATTACAATATCATACAGAATAGTAGTTTTTA
CCACTCAAAAAACTTCTGTGCATCACTTATTTATTCATACATTCTCTCCACTCCTACTGGAAACCACAGATTTTTTACTGTCTTTATACTTTTGCCTTTC
CCCTAATATCATATATTTAGAATCTAAATTATGTAACCGTTTTATACTTGCTTCTTTCACATTGAAATACGCATTTAAGTTCCCTCCATGTCTTTTCGTG
GCTTGGTAACTCTTTTTATCTCTGAATAATATTTCATTTTAAGGATGTGCCACCATTTTTTACCTATTTACCTAGTAAAGGACATCTTGGTTGTTTCAAA
ATATTGTTATCTTTGAACAAAAGCTGTTATAATCATTTATGTGCACCTTTTCCATAGACATGTTTTCTATTCAATTAGGTAGTACCAAGGAACACAATAT
ACTTTGCTTTGTTAGAAATCTTGAGATTGTCTTCCAAAGTGGGTTTGTTATGGTACTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NTGGAGTACCCTAATTTTAGTACCCTTACACACACACATACACACGCACACACACACACACCTACACACACACACACATATATATATATACATATATAAT
ATATAATGACTAATACAAATGAAAGTTTGTACCCTCTGACCAATATAGCTTTATTTCATCCCCTTACCCCACCCCAATTCCTGGCAACTACGATTCTACT
CTCTACTTCTAGGAATTTGACTTTTTTAGATTACATAAATAAATGATATTATAAAACATTTGTTTTTCTGTGTCTGGTTTATTTCACTTAACATAATGCC
CTTCAGGTCCATCTATATTGTTGAAAATTGCAAAATTTTCTATACTTTTAAGGCTGAATAATATTCCAGTGCATGTATATACAGCATTTTCTTTATCCAT
CCATCAACACACACTTAGGATGTTTTAATATCTTAGCAATTATATATAATACTGCAGAGAACATGGGATTGCAGTTACTTCTTAGAGATCCTGATTTGAA
TTACTTCAAATATATTACTAGACGTAGCATTGCTGGATCATATGGTAGTTCTATTTTTAATGTTTTGAATGGCTGTACAAATTTACATTTCTACCACAGT
GTACAAGGTTTCCCTTTTCTCCCTGTCCTCACCAACACTTACCTTTAAAAAAAAATAATAGCTATGCTATTGGGTGGGAGGTGACATCTCATCTTGGCTT
TGGTGTGCATTCACCTGATGATTAGTGTTGTTGATTTTTTTTTTTCATATACCTAGGGGCCAGTTGCATGTCTCCTTTGAAGAAATGTCTATTCAGGTTG
TTTGCCAATTTTTCARTTAAGTTATTTGTTTCTGATAAGTTCTATGAATTCCTTGTATATTTTGAATATTAATCCTATATCAAATATATGTTTTACAAAT
GTTTTATCCCATTCAGTAGGTTGCCTTTGTATTTTATATTGTTTTCTTTGTGTGAAAATACTTTTTAGTTTGCTCTAAACCAATTTGTCTATTTTTGCTT
TATTAGCCTGTGCTTTCGGAGATACATGCAAAAAACAATTGCCAAGACCAATGTCACGGAGCTTTTTCTCTCTATTTTCCTCTAGGAATTTCACAGTCAA
GTCTTATATTTATTGTACTTTATTTTTTATTATTTTAGATTGAAAGGGTACTTGTGCATGTTGTTAAATGGATATATTGTGTAATGGTGAAGTTTGGGCT
TCTAGTGTACCAGTCATGCAAACAGTGAACATTTTATCCCACAGGTAATTTTTCAGCCCTCATCTACCTCCCACCCTTCCATATTTTTGAGTTGCCAGTG
TCAATTATTTCTGCCTACTTGTCCAAGTGTATCCATTGTTTAGTTTCCACTTATAAGTGAGAAACAGACTTTCTGTTTCTGAGTTGTTTAACTTAGGATA
ATGGCCTCAAGCTAAATCCACGTGGTTGCAAAGGGCATGCTTTCATTTTTTATGGCCGTATAGTATTCTGTGGTGTTTATATATCACATTTCTTTATCCA
GTCAACCATTGATAAAAACTTAGGTTTATTCCATGACTGCTATTGTAAATAGTGTTGCAATAAACACAACACACAAGTTTAGGTGTCTTTTTGATATAAT
AATTTTTTTCTTTTGGTTAGATAGTCAGGAGTGGAAATGCAGTGCTGAATGGTAGCTTTATTTTGGTTCTTTGAGAAACCTCCATACTGTTTTCCACAGA
AATTTTACTACTTTACAATATGCCAACAGTGTATAAGCATTCCTTTTTTTCTGCATTCTCGCCAACAACTGTTATTTTTTACCTTAAAAAATAGCCATTC
TGACTGGTGTAAGATGGTATCTCATTGTGGTTTTAATTTACATTTCTCTGATGACTAGTGATGTTGAGCACCTTTTCATAATTTTTTTTTGTAGCTAATT
GCATGTCTTATTTTAAGAAATGTCTATTCATGTTTTTTGCTCACTTTTTAATGGGGTTTTTTTTGTTGATTTGTTTTGGTTTCTTGTAGACTGTGGATAT
TAGACCATTTTCAGAGGCATAATTTGCAAATATTTTCTTCTCTTCTGTAGTTTGTCTTTTTGCTCTGTTGATTATTTCCTTTGCTGTACAGAAGCTAAAA
TAGTTTATGTTCCATTTGTGTACTTTTGTTTTCGTTGCATTTGCTTTTGAGGTCTTAGTCATAAATTATTTCCCTCAATGTCAGAAGTTTTTTCTATTTT
TTTTTCTTAGGATTTTTCTTGTTTGAGGTCTTACATTTAAGTCATAAATGAAACTTGAGTTCATTTTTGTATATGGTGAGAGAGAGGGGTCCAGTTTCAT
TATTCTGAATATGGCTAGCCAATTTTGCCAGAACTCTTTATTGCTATTCAGTAAAGCAATATTTCATATCCTTTCTTCACTGTTTATTTTTGTCAACTTT
GTCAAAGTTCAGTTTTTTATAGGTATGTGGCTTTATTTCTTGRTTCTCTATTTGGTTCCATTCTATGTCTCCATTTTTTTACCATTACCATACAGTCTTT
GTTACTATAGTTTTTTAGTATATTTTGAAGTCAGATAATGTGGGGCCTCTTTTTTCTTTTTATGAAAAATTTATTTGGCTCTTCAGGCTCTTTTTTTGTT
TTATATGTATTCTAGGATTTTTTTTCTAATTCTGTGAAAAATTATCTTTGTAATGATAGGAGTTATGTTTAGTCTGTAGATTGCTCTTGGCAGTATGGTC
GTTTTAACTAGTGATACTTCCAGTCCATGAGCATAAGATCTTTTTCTRTTTCTGGCATCTATGATTTATTATATCAGTGTTTTGTATTTCTCCTTATAGT
GATCTTTAACCTCCTTGGTTAAACATATTTCTAGTATTTTATTTTTGTAAATGGCTAGTGTAAATGGGATGGAATTTTTTATTTGTTTCTTAGGTTTAAT
GCTATTGGTGTATCGAAATGCTACTGACTTTATTTACATTGATTTGGTATCCTGAAACTTTACCAAAATTGTTTATCAAATATAGGAATTTTATGTAAAG
TCTAGGTTTTCTAGGTATGTCATCAGCAAGCAGAGATAACATGACTACTTCTTTTTAAATTTGGATCCCTTTCCTCTGGCTAGAACTGCCAGTACTATGT
TGAATAGGAGTGGTGAGASTGGAGATCCTTGTCTTTTTTCAGTTCTTGTTTTTTTTGTTTGTTTGTTTTTTGTTTTTGGCAAAACTATTTCCTTTTATTC
TGTGGAACGTCACTAACGTAAATAGACATGTGCATGATTTATGTTAATTTATACACGATGAGAATTAAGGCTGAAAATGACATCCGGGAAAACTCCTACT
ATTAGTTTCAGATCTTCTGGGCAGGGGCTGACTCTTGGCTGCCTTATACTTCCTAACTCCCAGTGGGCCTGAATAGACACTGGCCAGATTTTCAAAGTAG
CTTCTTGAAGATGGATGATGATCTGTTTAGAATGATCCATTCACCTGTTCTGTTTCAGGGTCCAAATCAGTATCATAAAAACAGGGCTGGGTGGGGAGTC
CATTGTGCTCATCGTTCCTACTAAAGGGTACAGAAAACCAGCCCCGATGYTGGCATGGATGTTGCGAATGGGCAGAATGAATCCTGTAGGGACACCTTTT
CGCTCTGGGTTGTGAGACAAGGACAAGTGTGTTTTGGCCATGCAGATGGGGAGATTCCCAAAGCCCTGCTTTGTGTAGACTTCAGCTTTGTGTTGAGCTT
TGAGGAGTAATTCAATGTTGTCTGCTCCATAGATCTTCTGTGCAATGATCCTGATTTTATCCTCAACTGGGAGCTTGAGGTCATAAAGGAGTTGGAAGCT
GCTGGGTGCTTGTCCTGCTCTCTGGACAGCCTGAGCCAGGGCTAAGGTACCCTTGCCCCCTTCTGCCAGTGAGTGCACTTCACGGCATCAAAAGCCCTCT
GTTCTCTGGAAAGGCAGCCGATGAGGTCCAGCTCAGTCTCTGTATCTRTCTTGAATGCATTCACGGCCACTACTACTGGAATTCCAAACATTCTGGCATT
TTCAGTTTGTTTCTTCAAGTTACTGAAGMCTTTTTCAACCAGCTCCAGGTTCTCCTCTATGTAAGCCTTGGGAAGAGGCATTCCAGCAGTGACCATAGGG
CCACCCCTGTGCATCTTTAGAGYGCTGACAGTGGCAACAAGCACCACCACGTGAGGGTGGAGACCGGAATACTGGGATTTGATGTTAAGAAACTTTTCTA
TTCCAATGTCTGCTCCAAATCCCGCCTCCGTCACTACAAACCCTTCTGGGCCAACAAGCTAGAGTGTGATCCGGTCTGCAATGATAGAGGAATTGCCGTG
TGCGATGWTGGCAAATGGGCCTGCATGGACAAACACTGGAGTGCCCTCCAATCTCTGCATGAGATTGGGCTTGATTGTGTCCTTCATAAGCACTATCAAT
GCACCACTCACCCCCAGATCTTCAGCACTGACGGGGTCTCCTTTCTTACTGGATGCCACCACCATTTTGCCCAGTCTCTCTCTCCTGTCTTCTAGAGAAG
TGGTGAGAGCCAGGACAGCCATAATTTCACTGGCCACAGAGATATCAAAGTGGACCGTCTGTGTGTGACTTTTCTTCGTTGGAGCCTGTCCAATCGTGAT
CTTCCTCAGGAATCTATCATTGGTATTCAACACTCTTTGCCAAGCTATGGTTTCTGGATCAATGTCCAATCTTGCAAATCTGTTTATCTCTTCATCTGTC
AGTGTGGTAGAGTCAGTCTTGTCAATGCCTAGTCTGTTTAACCTTTGTATGTGGATATCAGAGAACTTTCTCACTCCATTTACTGATGGCACCAAATGAG
TAAAGGTAGCCTTGTCTGTCTGGGTCAGTTCATGAAATATCTGAGCATCAATAGCCGCAGCAACAAGGTTATTAGATACAGTGATGGCATGGATGTCACC
TGTGAGGTGAAGATTAAACTCTTCCATAGGAATGACCTGGGAGTAGCCGCCTCCTGCAACACCACCTTTTATTCCAAAGGTGGGGCCCTGAGAAGGCTGT
CGCACACACATAAAAAAGTTCTGGTAAAGATGGGCAAGAAGGGCTTGCACCAGCCCGATTGTAGTCGTGCTTTTCCCTTCTCCCAGGGGTGTTGGAGTTA
TTCCAGTCACCACCTGATATTTCCCAACAGGCTGGTGCTTCAGGCGTTCTAGTGCTGACAGCAGAACTTTGGCCTTTGTTTCACCATATAATTCTACCTC
TTCAGACAGCAGACCAATTACTCAAGCCAGCTTACCAATGGGCTTCGGTTTACAAGATCGTGATATATCAATGTCACTTGGAACAGGTGTCTTGAGGTTA
AGGTTGTTATACTGAATCATCCACTTTCCTGGCTTAAATTTCTCCAGGAAAYGCTTGGCACTCTCTACAGTGCTCTGCATGAGCATTGCAACCGTCATGA
GCCCTAAGCCACCAGGAACGGGCCTCGTCGTATGCCACATCACCCACAACTTTTCTCCCATTTGTTTTTTTTATCATCTGGGACATAATTGATTCCACAG
TTGATGACTATTGCTAGGTTTGATCCATTCCCCTTTAACCATTTCAGGCCRACCAGTTGCAACCACCAGGATGTCGCCTTTATTTACCTCCTCATCCAGA
TTGGCAGTCTTGGAGTGGCAGGTGGTCACTGTGGCATTGTTCCACAGAAGCAAGTCACRCATCAGGGCCCTGACTATTTTACTGCACCCAACCACCACAG
CATGCCTTCTGGCAATCTGCACCCCTGTCTCTTTCATGAGTTCCAAGCATCCTTTAGGCATACAAGGAATGAAACAGTCATTTAGGTCACCTCTAGCAAG
TTTCCCAGCACTGATGCTAGTCAATCCATCCACATCCTTTTCAGGTGCAATAGCATTGATCACTCCTTCAGTGTATTGTCTGAGTCTAGAGATAGCTGCA
CTACGAACCYGTGTACAGTAGAGTCTTCATTCAAAGATATGATGTACTTGATCACCTCAGATTCTGTGGTTGTTCTTGGTAACTTAATGTCAGTGGCTTT
CATCCCAATCTCTTCAGCAGCCTTCAGCTTCACATTATATAAAGATTGGAATCATCTCTGTTGCCAACCTGTAATATTGCCAGGCCTGGTGTGAAACCAG
GTACTTGTCCTTCAACTGAGTGACTTGATTCTTCAGTCTCGCCCTTATTTGTGCGGAGATCTCCTTCCTGTTCAGGATTTCTGCTGGTGCCATGGCCTTT
ATTAGTCTGCTGCCCACGATGGACACCACCAATATCCTGTTCAGTTCTTAGGAGGAATGCTTTAACCTTATCCTCATTCAGTATGATGTTGGCTATGGGT
TTGTCATAGATGGCTTTTATTAATTTGAGGTATGTATATTAAATGCCTAGTTGGTTGTGAAGAAATGTTGGATTTTATCAAGTCGTTTTTCTTCATCAAT
TGAGATGATCATGTAGTGTTTGTTTTTTATTCTGTTTATGTGGTTAATTACATTATTGATTTGCATATGTTGAACCATCCTTGAATCTCTGGTATCAAAC
CCACATGGCTTGATGTACTGTTTGTTTAAATTTGCTAATATTTTATTGTGGATTTATGCATCAGTATGCACCAGGTATGTTAGCTTGTAAGGTTTTTTTA
TTCTTTCCTTGCATAATATTTGTATCAGGTGATACTGCTTTCATAGAATGAGTTAGAGAGGAATTGTTCTTCCTTGATTTTTTGGCATAATTTAAGTAAG
ATTGGGACAAGTTTTTTGTATGTCTGGTAAAATCCAGCTGTGAATCAATCTGGTCCTGGGCCATTTTTGTTGGATATTTTGTATTACAGATTCAAATTCA
TTACTTGTTATTGGTCTGTTTAGGATTTCCATTTCTTTCTGGTTCAATCTTGGGAGGTTGTATGTGTCCAGGAAGTATCCATGTTTTCTAGGTTTTCTAG
TTTGTGTTCATAATAGTCTCTGATGATCTTTTCTGTTTCTGTGATATTGGTTGTAATGTCAACACTATCATTTCTGATTGTGTTTATTTGAGTCAGCTGT
CTTCTCAATTAATCTAGTTGGTGGTCTATCAATTTTGTCTATCCTTTCAAAGAACAAACTTTTCATTTTAATGATTGTATAATTATTTTAATCTTAATTT
CATTTAGTGCTGCTTTGGTGTTAGTTATTTCTTTTATTCTGCTAGCTTTAGGTTTAGTGTTTTTTTTTTTTTTTTCTTGTTTTTCTACTTCCTTGAAGTG
GAGCATTAGGTTGTTAGTTGGGGATTTTTCTCTCTTTTGGATGAAGGCATTTAATGCCATGATTTTTCCTCTTAATACTGCTATTGTTGCATCCCAGGAG
TTTTGGTATGTTGTGTCCCCATTTTTGTGTTTCAAAAATATTATTTTATTTCTGCCTTAATTTCATTGTTTACCCAAAAGTCATGCAGGAGCAAGTTATT
TAGTTCCCATGTATTTGTGTTGTTTTGAGAGTTCCTCTTCATATCGATTTCTACATTTATCCCACTGTGGTCCAATTAGATACTTGATATAATTATTATT
TTTTCAAGTGTATTGAGCCTTGCTATATGGCCAAGCATGTAGTTAATTTGGGAGAATGTTCTATATGCAGATAAGAAAATGTATATTCTGTCATTTACAT
AACATTGTCAAATGTTGTGTAAATATCTATGCGGTTCATTTGGTCTGGGTCCAATTTAAGTCCAGAGTTTATTGATTTCCTGCCTTCGTGATCTGTCTAG
TATTGTCAGTGAGTTATTTACGTTTCCCACTATTTTTGTATTGCTTTCTATTTTCTTAGGTCTAGTCATATTTGTTTTATGAATTTGGTCTTCCAGTGTT
GGGTGCATATATATTTAGGATAGTTATATTTCTCATTATATAATGCCCTTCTTTGTTTTTTGTTTACTTTTGTTTAAAGAGTAGCTCAGTTTTCTGTTCC
ATTTGCGTGATACATCTTCTTCCCCCTTTTGCTTTTTGTCTGTAACCATTAGGTGGGTGTCTTAGGCAGCAGTTAGTTGGGTCTTGCTTTTTCATCCAAT
ATGCCAGCCTATATCTTTTAAGTGCAGTATTTAGGCCATTTACATTCAATGTTAGTACTGATACATGAGGTTCTGTTTCTGTCACACTGATGTTAGCTAT
ATGCTTTGTAGTCTCAATCATGTAATTGCCAGATAAGATCTGTGAGTTTTGCTCATGTGCACATGTGACATGTGCTTTTATGATGTCAGTGTCATTTTTT
TGTTTCCATATTTAGTACTTCTATGAGCATTTCTTGTAGGGCTGGTTCAATGATGAATTCCCTTAGCATTTGCTTATCTGGGAAGTACTTTACGTTTTTT
CATTTATAAAGCTTAATTGGCAGGATATAAAATTCTTTACTGGCATTTTTTTTTTCTTCACAGAGGCTAAAAACAGGCTCTCAATCTCTACTGGCTTGGT
AGGTTTCCGCTGAGAAGTCCACTGTTTGACTAGTGGGATTTCCATCATAGGTAATTTGATGATTCTCTGTAGCTGCTTTTTTTTTCTTTTTTTATTTATT
ATTATACTTTAAGTTCGAGGGTACATGTGCACAATGTGCAGGTTTGTTACATATGTACACATGTGCCTTGTTGGGGTGCTGCACCCATTAACTCGTCATT
TACATTAGGTATATCTCCTAATGCTATCCCTCCCCCTTCCCCCCACCCCACAACAGGCCCCGATGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCA
TTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTCTCTTTGCAATAGTTTGCTGAGAATAATGGTTTCCAGCTTTATCCATGTCCCTR
CAAAGGACATGAACTCATCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCATATGTTCTTAATCCAGTCTATCAAAAGGATCTAGAACTAG
AAATACCATTTGACCCAGCCGTCCCATTACTGGGTATATACCCAAAGGATTATAAATCGTGCTGCTATAAAGACACATGCACACGTATGTTTATTGCAGC
ACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGCCCATCAATGGAGCTGCTTTTAAGATTTGTTTTTTCACATTGAACTTGGATAATCAAATAA
TTATAAGCCTTGATGATATTAATCTTCTGTAATATCTCACAGGTGTTCTCAGAATTTCTGGTATCGGGATATCTACAACTCTAACAAAATCAGGAAATGT
TTCCTGAATTATTCCGTCAAATATGTTTTCCAAATTTCTTACTTTTTCTTCTCCCTCAGGAATGGCCATGCATTGCGGATCTGGTTGCTTTACACAATCT
TATATTTCTTGAAGATGTTGTTCATTTAACTTTTTTTTTTTTTGCAGTTGCAAGATTTAATAGACTGAAACAGAGCTCCCATAAAATGGGAGGTGACCCA
AAGGGGGTTGTCGCTGCCGGCTCAAATGTCTAGGTTTTATATCCCGATCATTGTCCCTCCCTCTGTGCTCTCAGGTGATAGATGATTGGCTATTTCTTTA
CCTCCTGTTTTAACCTAATTAGCATTTTAGTGAGCTCTCTTTACTAGCTGACTGGTCGGGTGTGAGCTAAGTTGCAAGCCCTGTGTTTAAAGGTGGGTGC
GGTCACCTTCCCAGCTAGGCTTAGGAATTCTTATTCGGCCTAGGAAATCCAGCTAGTCCTGTCTCTCAGTCACACCCTCTCAACAGGAAAACCCAAGTGC
TGTTGGGGAGGTTGGCTGATGATCGCTCTAATTGCTTCCTGCTGAATTGGGGCATAGTAGGCATCATGCCATTGAGATTTTCTTTGGAGGGGTGCCTTTG
ATGTTATCAACATCCGAGCATGGACTAGCAGGCCGGTCCAGGAATCCACGGTAGATCTTAGTCATGGACTGCAACTGGGGCTCCATTTGAAGAATGATTT
GTAGTTTTACAGCTTCGATTCTGGAAGAGACAAACTTAACAAGGAGGTTAAAGATACAGGGATTGAAATGTGTGTCCTGGCAGTGCAGGGGATTTGTATG
GCCTGCAGTGCAGGGGATTATTTCTTTGGCACACTTCACAGGCCCTGACTATCTGCTTGATAGTTTTGAAAAGGCCTGGTCCAGTAAATAATAATTTGGC
CATCTGATGGGTGCTATCAATGCCTAAGTGAAAGGTTTGGTGAAGGGTTTAAATAATTTCCATGGGTTAGCTGCAGACAAAAGTATTTTCCCTTCTTCAG
TGGCTAGCCATCCTGAGGGGAGGAAACTATGTCCTTGTGAGGTTCCCCATTCTCTTTCTCTTGCTGAGTACTGGGGCTTGGTTTTCTGGAGGGGATTACC
CCATACTAGGGGTCCTTCTATAAGCATTTCTTATGGAGGGTCCTGCCTTGTGGCTCTTTTGGCTTCAATATCCACTTGGCGGTTCCCTTCTATTTCCCTT
TTCTTTCCTTTCTGATGACCCCAGTAGTGTAAGATTGCCACCTCTTTAGATTTCTGTGCAGCCAATAATAATCTCCTAATGGCTTCCTGATGTTTGATAG
GTGTTCCTTCAGAAGTTAAGAATTCCCTTTCTCTCCATATTGCTGCATGGGCATGGAGGACTAGGTAAGCATATTTAGAGTCTGTATATATATTTACCCT
TTTCCTTTCTCCTAATTCTAGCGCCTGAGTGAGGGCTATTATTTCTGCCAGCTGAGCACTAGTTCCTGGAGTGAGGGGATTACTTTCAAGTATTCCATTA
TCACTGACCACTGCATAATACRCTTTTTAAAGTCCTTTTTCTACAAAGAAACTTCCATCAGTATACAATTTGAGGTCGGAATCAGTCAAGGGAACCTCTA
GAAGGTCCCCTCGAGTGGTGTAGGTTTGAGCAATTACTTGTTGACAGTTATGTTCTATTTTTCTTCATTTTCTGGAAGAAATGTGGCTGGATTAAGAGTT
GCACAGGTGTGCAGTTGCAGCACTGGTCCTTCAAGTAATAAAGCCTGATATTTAAGCAAACGGTTGTCTGACAGCCACAAGTCTTCTTTAGCAATGAGTA
TGCCATTCACATCACGAGATGTCCACACAGTAAGATCTCTTCCYTGTGTCATTTTAACTGCTTCAGATACTGAGACTGCTACTGCTGCCACTACCCATAA
ATAATGAGGCCAACCCTTTGCCACTACATCAATTTCCTTACTCAGGTATGCCACAGGTTACAAGCTGGCCCCTCGGACCTGTGTAAGGACTCCTAGAGCT
ATTCCTGCTTTTTCTGTGACATATAAAGAAAAGTCTTGCCCTGTTGGCATGCTTAACACTGGGACTTGGGTTAGAGCCTTCTTTAGGGCCCGGAAAGCCA
CTTCTGCTTCAGGTGTCCATCTTACTAAATGGGTATTGGCTTTCCGAGTTTTCTTAATTAGTGTGTATAATGGCCTGGCTATTTCACTGTACCTGGGAAT
CCATGTTTGGCAGAAGCCTGTTATGCCAAGGAACCCTCTTAGTTGCTTTAGGGTTTTGGGATGAGGATAAGCCAGTGTAGGCTGAATGCATTTCTCACTG
AGGACCCTGGTGCCTTTGGATAATTTTAGACCTAAGAATTTAACCTGCTGTTAGCTGAGCTGAGCCTTTGGTTTGGAAACCTTGTAGCCACAGGTGGCAA
GGAAATTTAAGAACACTTGGGTGGGGCTGGGCGCAGTGGCTCATGCCTGCAATCCCAGCACCCTGAGAGGCTGAGGCGGGCAGATCACAAGGTCAGGAGA
TTGAGACCATCCTGGCCAACACAGTGAAACCCCGTTTCTACCAAAAATACAAAAAAATTAGCCAGGTGTGGTGGCGGGCGCCTGCAGTCCCAGCCACTTG
GGAGGCTGAGGCAGAAGAATGGTGTGAACCCAGGAGACAGAGCCTGCAGTCAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTC
TGTCTCAAAAATAAATAAATAAAAAATTTATAAAAAGACCACTTGGGTGGCTTGATGGCACAAGGTTTCTGAACGGGCAGCTAAAAGTAAATCATCCGCA
TACCAAAAGACAAGAGTGTCCAGGTATGAGAACTGGCTCAAATCTTGGGCTAGTGCCTGGCCAAATAGATGGGGGCTATCTCTGAACCCTTGAGGTAAAA
CAGTCCAGGTGAGTTGAGACATTGGGTTTGAAGGATCTTCAAAGGCAAACAAGAATTGAGAGTCAGGATGTACAGGGATGCAGAAAAAGGCATCCTTAAG
GTTCAGGACTGTAAACCACTCTGCTTCCTCTGACATTTGGGAAAGCAGAGTATAAGGGTTAGGTATAGCTGGATATAGAGGGACAACGGCCTCATTGATA
ATCCTGAGATCTTGCACTAACCTTCTCTGTCCGTTGGGTTTCTGTACTCCTAAAATTGGAGTATTGCAGGTACTACTGCATGGTTTTACTAGGCCTTGGG
CTTTTAGGTCTTTAACAATCTTTTGGAATCCTTGTTGGGCTTCGGGTCTAAGGGGGTACTGCCTTTGGTAGGGAAAGGAGGTGGAATCCTTTAGTTTAAC
TTGAACAGGACAGGCATTCTTTGCTCATCCATAGTGTCCTTCTGTTGCCCAGGCTTCAGGATTAATTCCTTCCTCAAGCAGGGGACAACAAATGGGTGTT
CCTTCTCCTATGTTCAGGTGTATAGTGGCCCCTGCTTTTGCTAGAATGTCTCTCCCTAACAAGGGAGTGGGGCTTTCAGGCATAATTAGACAAGCATGTG
AAAAGAGTAAAGTTCCCCAGTCACAACTTAGTGGCTGGGAGAAGTATCTAGTGACTGGCTGTCCTAGGACCCCTTGGATAGTGACAGATCTGGAGGACAG
TTGTCCRGGACAGGAGAGTAAGACTGAGAAGGCTCTGCCAATGTTCAGGAGACAGTTAACCTCCTGGCCCTCAATGTTCAAGCATACCCGGGGCTCTGTG
AGGGTGATGGCATTGGCTGGCTCTTGCCCAGGGCACCCTCAGTCCTGCTGCTGGATCATCTGGTTAGTGGCTTCTGACTCAGAGGACCTTCGTCCCCTGG
GGCAGTGGGCCTTCCCGTGATTCCCTTGACATAAGGGGCATGGATGAGGGGGCAGCTTATTTCTACTCAGACAATCTTTTTAAAGTGTCCTTGTAGACCA
CACTGGAAGCAAGCCCTATTAGGCACTCAATTTGCCCAGCTTTTCCGTGTTCCAGAGCCTCCAAATTCCACTTGCCTGAGTGCCATGACTAAAGTGGTAG
CCTTTTTCTTATCTCATTGGTCCTGTTCCACCTGTTCCTCCTGATCTCTATTATAAAAAACTGAGGTTGCCAACTCCATTAGGGTTTCTAAATTTTGCTC
CAGGCCTAAGGCAGACTTTTGAAGGTTTTTTTCTAATGTCTGCAGCTGTCTGAGTGATAAACTTATCCTTTAAGATTAGTTAGCCTTCAATAGAGTCAGG
TGACAGAGAGGTATGCTTCCTCAATGCCTCCCTTTGTCTCTCCAGAAAGGAAGTAGGATTTTCTTCCTTTCCTGTGTTATAGTAGACATCATTGAATAAT
TTATAGGCTTCTTCCTAGTTTTCCTTAGTCCTTCTAACACGCAAGTTAGCAAATGTCTGTGGCACCAATCTCCATGTTCTGATTCTGCATCCCTCTGAGG
GTCTACACTGGGAACTGCCTGGTGGCAGAATTGTTCTGWGGGGAACTATTCTCTTTCCTCTGTTGTCATCCTATCATTGACCTGACTGAGATACCAGAGA
TTGACAAACTCTCGGGCTGCAGTTATGGTGGCACTTCTCTCATATGGGGTTAGTGTCTGATCTAGCAGTAACATTATATGTCTCCATGTCAGATCAAAGG
ATTGTCCTAACCCTTGTAAAACATCAGTATAGCCATCAGGGTTATCTGAGAATTTACCTAGGTCTATTATAATTTGCTTCAAGTCTGAGAGGAAAAAGGC
ACATGCACTCTGACTGGGCCGAATTCTCCAGAATACATCTTAGGGGCATTTTTGCCTTGGGGGGAAGTTTCCCATCTGAAAAAAACAAACAAACAAACAT
AGGGACGCCAGCACCCCTAGTAATTTTCCAATGGACATTAGTCTTACAGCGTCCTCTGTGGTCCTAATGCTTATTCCTTTTCAGGTCACCCATAGACCTC
TGCTTATTGGATTAGTTACGCTCACTGATGTAGCAGTCCTGCACCTGTTTTCCTGCCTTTCTTGACCACAAAGAAAGGGGTCTGGGCTGCTGGATTCTAG
TGGTCCTTTACCAGCAAGCCTGACATTGCCTTTGCACTCAGGGGCGAGTTCTARAGCTGGGCTGGGTTCCTGAGTATTTCATAATAACCCATTTGCCCCA
TCAAGATGCATTCCTACAAACAACCGTTCTTATGCAAATTCATTTCAGAGAGGGTGTGGGTAACCTTTTGAGTCAGGATTGAGATAGAGTTTTTTGATTC
TGTAAGTATTTTAAGGCTTGGCTGAGTGCAAACAGCTCGCACGTTTGAGCAGACCAATTATTAGGCAATTTTCTTAACTCTGCTTCTACAAGAGTTTCCC
TCAATTATTGAATACCCATTGTGTTTTTTYCTCAATCACCTGGGAGGAACCATCTATTGTCCTGTCCTGAAGGGAGTCCCTCCTAGGTCTGTTCAGACAT
TTGTATGGTAATTAAGATTTAAATCCCCTGTTAGGAAATCTGCTGGGTTAACGGAATTTTCTGTGGTTAATGTTAAATTATCTTTCTCTAACAGAATAGC
CCCATACTTTAAGATTTTTAAGTTAGTAAGCTACCTTTTTGCTTTTTTGACTTAGGATAGTTCTGAACTGGTGAGGTGTGCTCACAATGAGGTTTCCTCT
AAAGGCTAATTTTCTACTTTCTTCTGTTAGCAAAGCAGTTGCTGCTACAGAATGAATGCATTTGGGCCATCCACAGGTTCCTGGGTTAAAGATTTTTTAT
AGGAAGTCTACTGGTTATCAGTGGCCTCAGTGCTTTCAGGCTACATCCTTGTTTACACTGACAACAAAGTGGTATTGGAGTGTTATAGGGTCATGGAGAA
AACTTTCAGTTATCAATTATAGGTTTTAAATTTACCCTGGCTTTTAAAGAAATAGGGTACACTATTTTTTCTTTACTACTTCTATCTTTCTCTTTCTCTC
TTTCTTTCTCCTTTCTGTCTTTGTAGATGGATTTTGGAAACAGTGGAAGGACATTCGCTCATTGCCCCCATTTGCCACTATATGAATATGTGCCTCCCTT
TTATTTACTCAATTTGCTTTCATCCTGATCTATTATGTTGTTGTAGACCCAGTTCCAGTTGTTAAAGTACTGGGTTATCATTTCTAAGGCCCTGACAAGG
GTGGTAGGGAATGGGTCCCACATAACTGCTCATGTCAAGAGTTGTATGCCTAAATTGGGAGGGACACCAGCGACAAGACTCCCTGGGTTCATAGCCTAGG
GGCCTAAGGATGCAGCATAGATCTTCCTTAGATCCCTTTGGAGATACAACCTGCTGTAATACTTGGGAGAGGAAGTGAAGGTCTGAAGCATTAGTATCTA
GGAGGCAGGGAGAGGAGGAAGTAGATTCAGAGGTAATGAGAATTTTGGGGCTACTCTTTCAGGAAAGTCGTGGTCCAGACCCAGGAGGTATGGGTCAGAA
GGAAAGGTAGGGGCACACGCATGGGTGACTGTTGAGTAGAGACTTCTGGCTGCACCATGATCTCAACCGGCTAATGCCGGGAGTTCAGGATGACAGCTTT
CTGCCTCTAGTCGGCCCTCAGCTTCCCCAGAAAAATTGAAAGCAGAAGCTGGTTCCAGGCAGACCAACACTCCCAACACAGAAGGGTTGGGGGTTGTTAG
AAAGCCCTTTCCCAGACAGCTTCCCACCTGAGTCTTAAGTTCAGTGGCCATGCTAATCGTTTTTAACTGGCTGACAGGTGCCTGGTATTTTCCTCCAATT
CTAAGGAAGGATAGGACAGAATAGCAAGCAAAAGTAGTCCAATATTACTCACCACTTTGGAGGTCCCTTCATGGTCACCAAATGTTACCGGGGGATCCTT
GCTCCCAGAGCTCCCAAGATGGTGGCGGGCCACTTCAAAGATGGTGGCAAGCCTCGTGTTCTCTGACCTGGGGTTCTTGGCCTCACAGATTCCAAGGAAT
GGAATGTTGCACCATGCAGTGAGTGTTATAGCTCTAATAGAAGCTGTGGGTCATGGAAGAGAACCATGGAACCCAGCAACTAGTGTTCAGCTTGATAAGG
ACGAACCCAGGCACTTAGCCATGCAGGAACAGTGGTGAGTCTTTAGCCCGATTGGGAGCGGCAATGGGCACCTCGCTGGATCAGTAGTGTGGCAGACACC
CTGCCAGATCCAGAGTGGTGGAAGTAAGTGGCAAGTCTGCGATGGCGGCAAACAGCAGTGGTGGATGGTGAGTGAAAGCTCAGCTCCAGCTGTATATCAG
AGCTCCCATAAAATAGGAGGGGGCCCAAGGGGGGTTGCCCCATTTTTTAATTTTTTAAAAAAATTTTTCTCTGACTGTGTTAATTTAAAAGAACAGTCTT
TAAGCTCTGAAATTCTTTCTTCTGCTTCATCTAGTATGTCATTAAAGTTTTCAACTGTATTTTGTAATTCATTTAGTGACTTTTTAATATTCAGAAGTTC
TGGTTTTTCAATATATTTATCTCATCTTTCATATCCTGAATTTTTAAAATTTATTTTGGTTTTCAACTTTCTCTTGAATCTAATTGAACTACCTTACAAT
CTATATTTTCAATTCTTTATCTGTCATTTCAAAGTGTTCATTTTGGTTAGGATCCATTGCTATGGATATATTGATGTCCTTTGGGGGTGTCAAAACAATC
TCCCTTATTGTACTGCCAGAGTTCTTGCACTGGTTCCTTCTCATTTGAAGCAGCTGTCACTTCTTAGTTTTGAAATTGCCATTGTACAGATAAAAATTCC
TCAGTGGTTTGACTGTAATGGATGTCATGTATGACCTTTTGCCTCCATATCTGGGTGCTTTCAATGTGCCAAGGGCTCTGTATGAGTTCTTTGGCTATAT
ATAACTTTTGTGTCGTGGCTTTCTCAAATGCTGCTTATCRTAATGATGCATTGGCCATATGATCTGGCACACTATCTTCTGTGAGCTGGGAGTGCAGAGC
TCTCAGAAAGCTTATCTTGCACGTTAGCACTATGCTGTGTCAGCAGGTTTTTATTTGGTGGGAAGTTTGCTCTACAGTAGAGTAGGGGATGCGTAAGAGC
CAGCTTACCCTGGGGTACTCTAATGAATTATGGAAACACCCACCCTGATGGGGACGGTAGAGGGAGTGTTTGGTTTGATATGCTGAGATCTTAGGGGAGG
GGGCTGCACCAGCAACTTGTCCTGGACAGGAAGGAACATAATCTGCTTTCCTATAATGCCCCTGACACAGGGATCATAACCTTCAGTTCAGATATATGCT
GTCTTTTATCTCTAGTCCACAATGTGACTGAGGTTTGCAGGAAATGCCCATCTGCCAGTTACTGCCAAAATTGCCTTTGGGCAGACGTCTTCCTGCAGCC
CAAAACATACAGTTCTGTGGCTGGTCTGCACTCTGTGGCAGGGATGCTACCACTCTGTGTAGAGAGAGGAAGATGAACCCCAGTCATTGTTTGAGCCCAG
GTGGTGGGCACACATTCAGTGTGGATGGAGCCACTATTAAAAGTGCTAGACGARCAACCACAAAGTGCACTTGCACCAGCCCCCAGTGGGAAAAGCCTTG
GCTGCATCTGTGGCAATAGATGGGGTGGCAGGAGGTGATCTCTCTACATTTGTTGCCAGTCACTAGTGCTGCCCATCCACTGAGACAGAACCATACTCTC
TCCTGCATTGGAGATCAGCATTGTACCTGTGTTTCCTTTGTCCCAAGTGGTGCTTTGGAGGGCTCTGCTCCCCATTCCCATAATGGTGGCTCATGCCAAA
GGCTAGATCTCTAGGGATCCTGCAGTTCCCTAAGGATCTAGTGATCCTCTTATTTGTCGAAGTCAGAGCAGATTCTGGGGTATGTTTGCAGGGTATCTGT
TGATGCAGTGAAATAAGAGCTGAGATTCCATGGGCAAGATGGTGGCTTATACTGGGTGCAAAACCTTTATGGCACCTTCCACCTGAATTTGGGTTGAGGA
ATCATGTGAGTACAACTGCAGGAGCTCACCAACCAGTGTTCTGCCCCCAGGAAGTTCCCACATAACCATTGAGAGTGTTACTCAGGCTCATGAGGGCAGA
GGAACTTTCCAACAATTTSTTGGTCAGCATTCTGTCACATGGGTGAGGGGAGCAAAGTAATACCCTACCTAACCTGTCCATGGAACTCCAAGCTTTTTGG
GGGCCAATCTCTGCCAGATTTTTGCTGCCTTTCTTTTCTGTACCCTAGCTTATTCTGTAGCTCTCTGAGAGTTTTTGGCACTCTTCCCTCAGCTTTCCAC
TCGGGGTGACTGCTCACCCATAACTTTGATCTCTTTTATGAGGAGAACTGGCATTTGGCATCTCTAGTCAGTCATCTAATGGGAAGCCTGGAAGGGGCTC
GCATTGGAGAAGCTGCTCCAAACTCGAATCAGAAAGACACTAATTTCCTTGTCTGAGAACTGGCAAGTCTTATGTTTAAATCTTCGATCYATTTTGAGAT
GATTTTTGTGTATGGTTTAAGATAAGGGATTAATTTCATTCTTTTGCAAATGGATATCCAGATTTCATAAAATAACTTATTGAAGAGATTGTTCTTTCTT
CACTATGTATTCTTGTTACTTTTGTCAAAAGTTTCTTGACTTTATACACATGGATTTAGTTTTATTTGCTTTCAATTCTATTCAGGCAATGTGTCTGTTT
TGATGCCAATACCATACTGTTTTGATTACTATAGCTTTGTAATATAATTTTAAGTTAGGAAGTGTGATGCTTCCACATTATTATTATTATTATTATTTTG
ATAAAGATTGCTTAGGCTATTCATGGCTTTTTGTAGTTCCATACAAATTTTAGGATTATCTTTTCTATTTATGTAAGAAAATTTCATTTGAATTTTGATA
GCAAATGCATTGAGTCTGTAGATCTGGCTGTTAATGAAGATATTAACAATATTAATTTTCCAATCTGTGAACATGGAATATCTTTCCATTCTTTTCTGCC
TATTTTAATTTTTTCATCAATGTTATATAGTTATTAATGTACAGACTTTCTCCTCTTGGTTGAACTTATGTGTTAGTATTTTAATCATTTTAATTCTATT
GTAAATTAGATTATTTCCTGATTTATTTCTAACATTTTATGTGAAATATTAGGATTTTTACGTATGAGAACATGTCATCTGCAAACACAATTTTGCATTT
TCCTTTCCAATTTGCATGCTATTTATTTATTTATTTATTTATTTATTTATTTATTTGCCTCATTGCTCTGGCTAAGACTTCCAGTGACATGTTGAATAGA
AATAGCCAAAGTGAACACCTTTATCTTATTCCTTATGAGGAAAAGCTCTCAGCTTTTCACCATTGAGTCTGATGTTAGCTGTGGGCTTGTGATATATGAC
CTTGATTGTGTTGAGATACATTTCTTCTGTACTTAATTTGTTGAGAGCTTTTATCACAAAAATAATGTTGAATCTTGTCAAGTGTATTTTTCTTTACATG
TAATGAAATGATACTATGATTTTTATCCTTCATTCTGGTAATGTGGTGTGTCATGTTTATTGATTTTCATATACAGACTTGTGTCCCTTAACTATGGGAT
ACATTTGTAGAAATGCATTGTTAGACGATTTTGTTATTGTGTGAACAATATAGAGTGTACTTACAGAAGCATAGATGGTATAGCCTACTACAAACTTTGG
TTATATAGTATAGTCTCTAGTTCCTAGGATACTAACATATACAGCATGTTACTGTACTGAAAATTGTAGGCAATTTTAATACAATGGTAAGTATGTGTTT
ATCCAAACATATATAAACATATAAATAATACTGGTATTATAATATTATGCGACCACCATCATAAATATGGTTCATTATTGACCAAAACATCATATGCAGC
ACATTGTTGTATTAAAACATCTATGCATCCCAGGGATGAATCTCAATTAATTGTTTTGTATTATCCTTTTAACATGGTTGAATTAGGTTTTCTGGTATTA
TGTTGAAGATTTTTGTGTTTATGTTCATCTCAGATATTTACCTGTAATTTTATTTTTTATCTGGCCTTGATATCAGGGTAATGCTGGGCTTGTAGAATAG
GTCTGTAATTTTTTTCCTCCTCTTTGATTTTTCTGAAGAGTTTGAAGATCGTCATTAATTTTTCTTTAAATCATTGGTAAAATTCACTAGTGAAACCATC
AGGTTCTGGGCTTATCTTTTTTTGGGAGAGTTGATTACTTATTTAATCTTTTTATTCATTATTGGTGTGTTCAGACTTTCAGTTTATTAATGACTCAGCC
TTTGTAGTTTTTATGGTGTAGGTTCTATGTTTCTAGGAATTTACTTATTTCTTATAGGTTATCCAATCTGTTGACATATAATTGTTTATATTAGTCTCTT
ACAATTTTTTACTTCTATGTTTCCACTTGTTATGTCTACTTGTTTATTTTTTATTTTATTTATTTGAGTCTTTTCTATGTTTTCTTAGGTAGTCCAGCTA
ATGTTTTCTCAATGTTGTTCTTCAGTTTTTTAAAAAAAATCTTAGTTTTTTTCAGTATTACATTATTTCTACTCTGATATTTATTATTTTCTTCCTTATG
TTTACTTTGGGCTTATTTTGGCCTCTTTTCTAGTTTCCTGAAGTGTGATGTTAGGTATTTTATGTGTATTCTTTCTTGTATCCTAATGTAGGTGTTTATT
GCCATAAGTGCTCCCTTAGAACAGCTTTTGCTACAACTCATAATATTTGGTGTGTTGTGTTTTTGTTTTCATTTGTCCAAGATTTTTTTTTAATTTCCTT
TTATTAGTTGACCCATTTTTTTTCAGAAGGATATTTGTTTATTTCTACATAATGGGGAGTTTTCTAATTTTCTAAATTGATTTTTAGTTTCATAACATTG
TGGCTGAAATGATACTTCATACGATTTTGATGTTTTTAAATTTGGTAAGACATGTATTGTGGCCTAACAAATTGTCTGTCTTGGAGAATGTTCCATGAGC
ACTTGAGAAGAATGTGTGTTCTGCTGCTGCTAGATGGAATATTCTTTATATTCCAGTTGGGTCGATTTGTTCTCAAGTGTAGTTTAAGTCCAGTATTTCC
TTGTTGATATTCTCTCCAGATGATCTATACATTGTTGAAAGTGGAGTGTTGAAGTACTGTACAATTATTTTGTTACTCTCTTCAGATCTATTATAATTTG
CTTTATGTAGCTATATATATCTCATCAACATTGGACCATATAACTATATAAAGCAAATTGTAATATCATCTTGAATAATAGACTGTTTTATCATTATATA
ATAACCTCCTTTGTCTCTTGTGGGCCTTATTTTTTACTTCAACTATATYTTGCCTAAGTATAGCCACCTCTGTTACTTTTTGATGCTGCAATTTGCATGG
AATATATTTTTCTATCTCTTTATTGTATTCTGCACCTCTAGAATTTCTTTTCCTTTCTCTTTTATTTAATTGTTTGTATCTCTTTGTTGTACTTCTCATT
TTGTTTGTGTATCATTTTCCTGAATTCATTTAGTTGTCTCTATGAGTTTTCTTGTAGCTCGCTGAGATTCTTTAAAGTGATTATTTTGAATTCTTTGTCA
GGCAATTTGTAGTTCTATATTTCTTTGGGGTCAGTCACTGGGGCTTTATTTTGGTCCTTCAATTCTTTCATATTTCCTTGATCCTTTATGTTCCTTGGAG
GCTTGGATTGTTGTCTTCACAGTTGAAAAAGCAGTTATCTTCTCTACTGTTTATAACAGGCTTTGGGGAAGAAAGATCTTTACCAGTGAGCCCAGCCAGA
TATTCTGGGAGGCGTTCAGACCTTTTCCATGGATGTGCCTTCTTCACTCTTCTTAATTATTCTTAGGGGGAAAGACTGAGTATTGTTTACCTTCTCTCTA
TGCTGCAAAGCGAGACCTGGTGCTCTGACCATCCCATTTATTTTCCCTAAAGCAGTGTGTCCTGAGTTGTTCAAGTTTATATGCCCTCTCTCAATCCAGA
AGATTCAAGCTGACTGTTAAGATTCTGACCTGATTATGAGATCCATATGCTATTTATTGTTCTCATGTGAGTCATGCACAGAGATGTGTGGGGTGCTTTC
CACTGGGGAGGAAGGAAGCTTGGGGCACATGTTGGCTGCGTGTGGGGTCCTCAGGTAAGTCACCCTGCAGGGCTTATGGACAATTTTCTTGGTGGAGTCC
ATGTACTGGTAAGTAGTATTCATGACTGATTATTGTGTATTGCATGCTGGCTCTTATGTGTTTCCTCTCCTTTTCACTGCTCCTAGTTAACTGCAGAGAA
TTCAGCTTTGCTGATGTACTCTGTTTTGAGTGGGGCAAGAGAGAAGGTCATCTCCTGGGCAGTATTCTGCATGGCCGGGGAAGCTGTGTCTCCAACTTTA
ATTTGTGGGAGAAATTTCCTTTTCCTTGGGCCTCTTTTGGCACCAAGCTCTGTTACCTTAGGGTAGAGGTGATACAGTTAATGGGAAACTACTTCTCTTA
CCCTCTTCAACATATTTACTCTTGGAGTTTTTTGTTCCACCAGGGTGCTACACCTAGAATCGAAAGCTCCCACAACATTATTATTTTTAATGAATAAATT
AAATTATTTTTCAYCTGCAACTATTCCTATGGGAGTATTACTCTTTTAAAATTTTCTTTATCTTAACAGATACATACTAGTTGTACATATTTATGGGGTA
CATGTAATATTTCGATACAAGTATACAATGCATAATAGTCAAATCTAGTAATTGGGATATCCATTGCCTAAAACATTTATTATTACTTTGTGTTAGTAAT
ATTCCAAATCGACTCTTCTAGTTATTTTGAAATATAGAATACATTGTTGATAACTATAGTCACCTTATTGTGATACCAAACACTAGATTTTATTCTTTCT
TTTTTTTAAATTATATTTTAAGTTCTGGGATACATGTATATTTTAAGTTCTGCGGAATGTGCAGGTTTGTTACATAGGTATACACATGCCATGGTGGTTT
GCTGCACCTAACAACCTGTCATCTAAATTAGGTATTTCTTCTAATGCTATCCCTCCCCTAGCACCCCACCCTATGACAGGCCCCAGCATGTGATGTTCCC
CTCCCTGTGTTCATGTGTTCTCATTGTTCAACTCCCAGTTATGAGTGACAACATGCAGTGTTTGGTTTTCTGTTCTTGTGTTAGTTTGCTGAGAATGATG
GTTTCCAGCTACATCCATCTTCCTGCAAAGGACATGAACTCATCCTTCTTTTCTGGCTGCATAGTATTTCATGGTGTATATGTGCCACATTTTCTTTATC
CAGTCTATTATTGATGGGTATTTGCCTTGGTTCCAAGTCTTTGCTACTGTGAACAGTGCTGCAATAAACATATGTGTGTGTGTGTCTTTATAGTAGAATA
ATCTATAATCCTTTGGGTATATACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGGTTCTAGATCCTCGAGGAATCACCACACTGTCTTCCACAA
TGGTTGAACTAATTGATACTCCAACCAACACTGTAAAAGCGTTCCTATTTCTCCACACCCTCTCCAGCATCTGTTGTTTCCTGACTTGTTAATGATCGCC
ATTCTAACTAACATGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTGTAATGACCAGTAATGACGAGCTTTTTATTTCATATGTTTGTTGGCTGC
ATAAATATCTTCTAGTGAGAAGTGTCTGTTTATATGCTTCACCCACTTTTTGGTGAGGTTTGTTTTTTTCTTGTAAAGCTGTTTAAGTTCCTTGTAGATT
CTGGATATCAGCCCTTTGTCAGATGGAGAGATTGCAAAAATTTTCTCCTATTCTGTAGGTTGCCTGTTCTCTCTGATGATAGTTTCTTTGCTATGCTGAA
GCTCTTTAGTTTAATTAGATTCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGTCATAAAGTCCTTGCCCATGCCTAAGTCCTGA
ATGGTATTGCCTAGGTTTTCTTCTAAGGTTTTTATGGTTTTAGGTCTTACATTTAAGTCTTTAATCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGTA
AGGAGTCCAGTTTCTGTTTTCTGCATATGGCTAGCCAGTTTTCACAGCACTATTTATTTAATAGGGAATCCTTTCCCCATTGCTTGTGTCAGGTTTGTCR
AAGATCAGATGGTTGTAGATGTGTGGCGTTATTTCTGAGACCTCTGTTCTGTTCCATTTATCTATATGTCTGTTTTGGTACCATGCTGTTTTGGTTACTG
TAGCCTTGCAGTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCATTTTGCTTAGGATTGTCTTGACTGTACAGGCTCTTTTTTGTTTCCA
TATAAAATTTAAAATATTTTCTAACTCTGTGAATAAAGTCAATGGTAGCTTGATGGGGATAGCATTGAATTTATAAATTACTTTGGGCAGTATGGCCATT
TTCATGATATTGATTCTTTCTATCCATGAGCATGGGATGTTTTTCCACTTGTTTGTGTCCTCTCTTATTTCCTTGAGCAGTGATTTGTAGTTCTCCTTGA
AGAGGTCATTCACATCCCTTGTAAGTTGTATTTGTAGGTATTTTATTCTCTTTGTACAAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTG
TCTGTTATTGGTGTATAGGAATGTTTGTAATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATAAGCTTATGGAGATTTTGGGTT
GAGACTATGGGCTCTTCTAAATATACAATCATGTCATCTGCAAACAGAGACAATTTGACATCCTCTCTTCCTATTTGAATACCTTGTATTTCTTTCTCTT
GCCCGATTGCCCTGGCCAGAAATTCTGATACTATTTTACACAGGAGTGGTGAGAGAGGGCATCTTTGTCTTGTGCCAGTTTTCAAATAARTGCTTCCAGC
TTTTGCTTTTGCCTCGTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCTCTTATTATTTTGAGATATGTTTAATCAATATATAGTTTATTGAGAG
CTTTTAGCATGAAAGGGTGTTGAATTTTATCAAAGGCCTTTTCTGCATCGATTCAGATAATCATGTGGTTTTTGTCATTGGTTCTGTTTATGTGATGGAT
TACATGTATTGATTTGTGTATATTGGACAAGCCTTGCATCCCAGGGATGAAGCTGACTTGATTGTGGTGGATAAGCTTTTTGATTCGCTACTGGATTCAG
TTTGCCAGTATTTTATTGAGGATTTTTGCATTGATATTAATGAAGGATATTTGCCTGAAATTTTCTTGTTTTGTTGTCTTTCTGCCAGGTTTTGGTATCA
GGATGATGCTGGACTCATAAAATGAGTTAGGGCGGATTCCCTCTGTTTCTATTGTTTGGAAGAGTTACAGAAGAAATGGTATCAACTCCTCCTTGTACCT
CTGGTAGAATTTGACTGTAAATTCATCTTGTCCTGGGCTTTTTTTTTTTTTTTTTTTGGTTGGTAGGCTATTAATTACTGCCTCAATTTCAGCAATTGTT
ATTGGTCTATTCAGGGATGTGACTTCTTTTTGGTTTAGTCTTGGGAGGGTGTACGTGTCCAGGAATTTATCCATTTCTTCTAGATTTTCTTGTTTATTTG
CATAGAGATATTTATAGTATTCTCTGATGGTAGTTTGTATTTTTATGGGATCAGTGGTGGTATTCCCTTCATCATTTTTATTGCATCTACTTGATTCTTC
TCTCTTTCCTTCTTTATTAGTCTGGCTAGCAGTCTATATATTTTGTAGATCTGTACAAAAAAAAACAGCTCCTGGATTCGTTGATTTTTCGACAAGTTTT
CATTTCTCTCCTTCAGTTCTGCACTGATCTTAGTTATTTCTTGTCTTCTGCTAGCTTTTGAATTTGTTTGCTGTTGCTTCTCTAGTTCTTCTAATTGTGA
TGTTAGGGTGTCGATTTTAGATCTTTCCTGCTTTCTCCTTTGGGCATTTAGTGCTATAAATTTCCCTCTAAACACTGCTTTAGCTGTGTCCCAGATATTC
TGGTACATTGTGTCTTTGTTCTCATTGGCTTCAAAGAACTTCTTTACTTCTGCTTTAATTTTGTTATTTTCCCAGTAGTCACTCATGAGCAGGTTGCTCA
GTTTCCATGTACTTTTGCAGTTTTGAGTGAGCTTCTTAATCCTGACTTCTAATTTGATTGCACTGTGGTCTGAGAGACTCTTTGTTTTGATTTTCATTCT
TTTTCGTTTGTTGAGGAGTGTTTTACTTTCAATTATGTGGTCATTTTTAGAATAAGTGTCCTGTGGTGTTGAGAATAATGTATATTCTGTTTATTTGGGG
TGGAGAGTTCTGTAGATGTCTGTTAGGTTCACTTGGTCTAGAGCTGAGTTCAAGTCCTGAACATCCCTGTTAATTTTCTGTGTTTTTGATCTGTCTAATA
TTGACAGTGGGGTGTTAAAGTCTCCCACTACTATTTTGTGGGAGTCTAAGTCTCTTTGTAGGTCTCTAAGAACTTGCTTTATGAATCTGGGTGCTCCTGT
ATTGGGTGCATATATATTTAGGATGGTTAGCTTTACTTGTTGCATTTATCACTTTATCATTATGTAATGCCCTTCTTTGTATTTTTTTAATCTTTGTTGG
TTTAAAATCTGTTTTATTAGAGAGTAGGATTGCAACCCCTGCTTGTTTTTGCTTTCCATTTGCTAGGTAAATATTCCTTCATCCCTTTATTTTGGGCCTA
TATGTGTCTTTGCAAGTGAGATGGGTCTCCTGAATACAGCACACTGATGGCTGTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGGACAC
TTAGCCTGTTTACATTTAAGGTTAATATTGTTATGTGCGAATTTGATCCTGTCATTATGAAGCTAGCTGGTTATTTTGCTCCCTAGTTGATGAAGTTTCT
TCATAGTATTGATGGTCTTTACAATTTTGTATTTTTTTTTGCAGTGGCTGGTACAGTTTTTTCCTTTCCATGTTTAGTGCTTTCTTCAGGAGCTTTTGTA
AGGCAGGCCTGGTGGTGACAAAATCTCTCAGTATTTGCTTCTCTGTAAAGAATTTTATTTCTCCTTTGCTCATGAAGCTTTGTTTAGCTGGATGTGAAAT
TCTGGGTTGAAAATTATTTTCTTTAAGAATGCTGAATATTGGCCCCCACTCTATTCTGGCTTGCAGGGTTTCTGCAGAGTTCTGCAGTTTGTGTGATGGG
CTTCTTTTTGTGGATAACCTGTCCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACCTTGGTGAATCTGACGATTATGTGTCTTGGGGTT
GCTCTTTTTGAGGAGTATCTTTGTGGTGGTCTCTGTATTTCCTGAATTTGAATGTTGGCCTGTCTTGCTAGGTTGGGGAAGTTCGTCTTTTAATATTCTG
AAGAGTGTTTTTCAACTTGGTTCCATTCTCTCTGTCACTTTCTGGTACACCAATCAAACGTAGGTTTGGTCTTTTCACATAGTTTCACATATTTCTTGGA
GACTTTGTTTGCTTTCTTCATTCTTTTTTTTTCTAATCTTGTCTTAACGCTTTATTTTATTAAGTTAATCTTCAATCTCTGATGCCCTTTATCTGCTTAA
TTGATTTGGCTATTGATACTTGTGTATGCTTCACATAGTTCTCATGCTGTGTTTTTCAGCTCTGTCAGATCATTTATGTTCTTCTCTAACCTGGTTATTC
TAGCTAGCAATTCCTCTCTCTTTCAAGGTTCTTAGCTTTTTTTGCATTGGGTTAGAACATGCTCCTTTAGTTTGGAGGAGTTTGTTATTAACCACCTTCT
GAAGCCTTCTTCCATCAATTCATCAAACTCTTTCTCTGTCCAGTTTTGTTCCCTTGCTGGTGAGGAGTTGTAATCTTTTGGAGGAGAAGCAGTGTTCTGG
TTTTTGGAATTTTCAGGCTCTTTGTGCTGTTTTTTCCTCATCATCATGGATTTATCTTCCTTTGGTCTTTGATGCTGGTGACCTTTGGATGGGGTTTCTG
TGTGGATGTTCTTTTTGTTGATGTTGATGCTATCCCTTTTGGTTTGTTAGTCTATTTTCTARCAGTCAGGCCCCTCTGCTGCAGGTCTGCTGGCATTTGC
TGGAAGTCCACTCCAGACCCTGTTTGCCTGGTTATTGCCAGTGGAGGCTGCAGAATAGCAAAGATTGCTGCCTGTTTCTTTCCCTGGAAGCTTTCTCTCA
GCGGGGCAACTTCCAGATGCCAGCCACATGTGTCCTGTATGAGGTGTCTGTCGACCCCTGCTTGGAGCTGTCTCCCAGTCTGGAGTCACAGCAGTCAGGG
ATCCACTTGAGGAGGCAGTCTGTCTCTTAGCAGAGCTCTAGTGCTGTTCTGGGAGATCTGCTGCTCTCTTCAGAGTCAGCAGGCAGGAACTTTTAAGTCT
GCTGAAGCTGGGCCCACAGCCGCCCCTTCCCCCAGGTTCTCTATCTCAGGGAGATGGGAGTTTAATCTGTAAGCTGCTGACTGGGGCTGTTGCCTTTCTT
TCAGAGATGCCCTTCCAAGTGAGGAGGAATCTAGAGACRCAGTCTGGCTACAGTGGTTTTGCTGAGCTGTGGTGGGCTCCCCCCAGTTTGAACTTCCTGA
AGGCTTTGTTTACACTGAGGGGAAAACCACTTACTCAAGCCTTAGTAATTGTGGCCCTCCCTCCCCCCACCATGCCAGAGCATGCCCTATCGACTTCAGA
CTGCTGTACTCACAGTGAGAATTTCAAGCCAGTGGGTCTTCACTTGCTGGGTTCCATGGGGGTGGAATTCGGTGAGCTAGACCACTTGTCTGCCTGGCTT
CAGCCCTTTTTCCAGGGGAGTGAACAGTTCTGTTTTCCTAGTGTTCCAGGCGCCACCGGGCTTTGAGAAAAAACTCCTGCAGCTAGCTCAGTGTCTGCCC
AAACTGCTGCCCAGTGTTTTGCTTGAARCCCAGGGCCCTGGTGGTGTAGGCACCTGAGGGAATCTCCTGGTCTGTGGGTTTTGAAGACTGTGGGAAAAGC
GTGTTATCTGGGGCCGTATTGCACCATCCCTCATGGCACAGTCCCTTATGGCTTCCCTTGGCTAAGCGAGGGGGTTCCCTGACCCCTTGTGCATCCCAGG
TGAGGTGACACCCCACCCTGCTTTGGCTCATCCTCCATGGGCTTCACCCACTGTCTAACCAGTCCCAATGAGATGAGCCGAGTACCTCGGTTGGAAATGC
AGAAATCACCCACCTTCTGCGTTGATCTGGCTGGGAGCTGCAGACCAGAGCTGTTCCTATTTGACCATCTTGCCTGCCCCCTTTTATTCTTTCAAAGTAT
ATATATATATATTTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCATGCCGGTGTGCT
GCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTAATGCTATCCTTCCCCCCTCCCCCCACCCAACAGTCCCCAGACTGTGATGTTCCCCTTCC
TGTGTCCATGTGTTCTCGTTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGTGATAGTTTACTGAGAATGATGATTTC
CAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCT
ATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCACAATAAACATATATGTGCATGTGTCTTTATAACAGCGTGATTTAT
AGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCACCACACTGACTTCCACAATGGTTG
AACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGGCTTTTTAATGATTGCCATTCTA
AGTGGTGTGAGATGATATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCGTGTGTTTTTTGGCAGCATAAATGT
CTTCTTTTGAGAAGTGTCTGTTCCCATCCTTCGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGA
TATTAGCCGTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCCCAATTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTC
TTGAGTTTAATTAGATCCCATTTGTCAATTTAGGTTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGG
TAATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATGTAAGTCTTTAATCCATCTTGAATTGATTTTTGTATAAGGTGTAAGGAAGGG
ATCCAGTTTCAGCTTTCTCCATATGGCTAGCCAGTTTTCCCAGCAGCATTTATTAAATAGAGAATCCTTTCCCCATTTCTKGTTTTTCTCAGGTTTGTCA
AAGATCAGATAGTTGTAGATATGTGGCATTCTTTCTGAGGGCTCTGTTCTTTTCCATTGATATATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGG
TTACTGTAGCCTTGTAGTGTAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCSATGTGGGCTCTTTTTTG
GTTCCATATGAACTTTAAAGTAGTTTTTTTCCAATTCTGTGAAGACAGTCATTGGTAGCTTGATGGGGATGGCATCGAATCTATAATTTACCTTGGGCAG
TATGGCCATTTTCATGATATTGATTCTTCCTACCCATGAGTATTGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCCTTGAGCAGTGGTTCGTAG
TTCTCCTTGAAAAAGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGTAATTGTGAATGGGTGTTCACTGATGATTTGGC
TCTCTGTTTGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGTACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAG
ATTTTGGGCTGAGACAATGTGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATT
TCCTTCTCCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGAGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGA
ATGCTTCCAGTTTTTGCCCATTCAGTGTGATATTGGCTATTGGTTTGTCATAGATAGCTCTTATTATTTTGAGATACGTCCCATCAGTACCTAATTCATT
GAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATTATGTSGTTTTTGTCTTTGGTTTTGTTTATTTTT
GTTCACAGTAATCAACCTGCATTATTTCCCCTTCCCAGTACTCTTCCCAGCCTCTGGTAATCAACATTCTATTCATTACCTTCATAAGATTAACATTTTA
GCTCCAACACATGAGTGAAAACYATTATCAAGAAGCCACAAAGGTGTTTTTGGCCGGGTGAAGTGGCCCACACCTTTAATCCCAGCACTTTGGGAGGCCA
AGGCAGGCGGATCACAAGATCAGGAGTCTGAGACCAGCCTAACCAACATGGTGATACCCCGTCTCTTCTAAAAATACGAAAATTATCCAGGTGTGGTGGT
GTGCGCCTGTAATCCCAGCTACTCAGCTACTCAGGTGGGTGAGACCRGAGAGTTGCTTGAACCCAAGAGGTGGCGGTTGCAGTGACCCATAACATAATAC
CATAGACTGGGTTATTTAAGCAACAGAAATTTATTTTTTCATAGTTTTAGAGGGTAGGAATCTGATATCACGGTGCCAGTATGGTCAGGTTTTGGTGAAG
GCTCTCTTCCTGGCTTACAGATGGCCACCTTCTCACAAGGCTCAGGGAAATAGAATAAATACCTCTATCTTCTTCTTATAAGGCCACAGTCCTATCATAT
TAAAGCCTCACTCTTATGATCTCATTAAATCTTAAAGATTATCTCTAGATACAGTCACATTAAGGGTTAGGGTTGCGACATATAAATTTGGTGAAAGAAG
GGACACAATCCAGTCCGTAGGAGTGAAAATGTGGTAATAGTGAATTTGTTGAGCGTGGGTCCATTGACACACTTCATTTGCTGTGAAATGAGTTCCTTGA
TTAGAAGAGGCATTATGATGGGGAAATAAAGCAATGTTTTCCCAATAAGTCTAGAGTAGTTGCTACTTCTTACCTACTAAATCCAATGAGAATTATGTTG
CTGATTTAATGGACCAGTGCAATGCCTTGTGTAAGGAAAAGGCAAAGTCCTACAAACTAAATTATTGCAAGGAGCTGAAGAGTCCTGCTCCTGAGGTACG
ATATTGTATTGCTTGCTTTGTTAGCTGAAACAAACTGCTTCCGGCTGTCTTTACTAACAGACATAGGAAAAAAAAAACATTCTTTTAGTCAATAGCTCTM
TACCAGATACCAGGGGATGTGTTAATTTGCTCTAGCAGTGAACCCACATTTGGCACAACAGCTGTTTGGAGTTATCATCTCATCAAGCTCACAATAATCC
ATTGTCATTCTCCAGGATCCATCTGTTTTCTGCACAGGCCAAATAGGAGATATGTGAGTTAAATGGGGATGTGATGGGAATTACCACCCCTGCATCCTTT
AAGTTCTTGATGGAACTGGTCTTTGCAATCCCTCCAGGAAGGCAGTACTGATTTTGGTTTACTATTTTCCTAGATAGGAGCAGTTTTAGTTGYTTCTATT
TATCCTCTACCATGACAACAGCACTCACTCCATAGGTCAGGGAAGTGATGTGGGAAKTCTGCCAGTTGCTGAGTATATCTATTCAAATTATGCACTGCAG
AGCTGAGGAAATAATCGCAAGATGGTTTCATGGACTCWCTGTACACGCTGTGAAATGAATGTCAGCTAAACCTATGATCTGATGGTCTGACAGAGATTTT
GTCTCTTCTGCCTGTCCACTGAGCTCAGGTTCACTCCATTGTTCCTTCTCTTCTGCTCCAGGAGGCCCAGGTGTCTATGCCATTGCCTCTGTCCCTCTGT
GGCCTACAGGTGATAAAAGATTTGCAGGGAGGACACAAGGACACTCTGGGAGGCTGGAAATGATTATGGATTAGAGGCTTTGTTATCACACCACACCCAC
CTGAAAATAGCAAAATAGCAGGTAGAGAGTCACACTGTAAAATTTTATCCAAGAAGGAACATGAGAGCTGGACATAAAAGTGAAATAAACTTCAGAAACT
TTAAAAATTTTAGCCAGCAGCAGCCCATGCTATGGGTGGGTCCAATGGAAATTTGTGAGTGAGTCACCAGTGTGTAAGAGGGRGAGAGAATTTCTCTCTG
ATACATATTTTCATTGGGGAACTGGGAAATCCAGGCCACGAGGGAGCTCCTTGATCCTACCAAGCACAGGATCTGACTTGGTGAGCCGTGAGGAGGCTAT
GAGGAGTGGCATTGGGAAGTGCTTTGTGTGCACTTCTATACTCTACCACTAATAGAAGGAGGACATTTCTAATCCTAACTCATAGAGAACTGCACGGAAA
TCTACTATCCAGAATGGGTGAAAGTCTCCGGTTTGGCAAGTCTCTGGACTGAGATTTGCAATCTAGTCTCATGTGGGGAAGGAGACTTCATGGACAGAAC
TGAGAGGTGAGTGTGGCATGGGCATGAGCTGCAGGTGCAGAAATTGGGAGCTCTTCCCTTGGCAGGACTAGACCAGCATGGATGTGGCCTGGGAGCCTCA
GTTTTGTTCCAATCAGGGAGTTCGGCAGCCTGGGACAATTTAATGATCTGAAGGCAAACTGTTTGTGTCTCGTCTGGCTGTTTTAGCTTGCTGCCAATGG
TAGGTTGCAGGAGAGAGCTCCACCAGGTTGAGAGTGTGGAAGCAATGTGGGACCCACTGCCACATGCTAGGGTTTGAATTCAAAGCTGCCCCTTTCTTCA
TGCATGCTCTTTGGCACAGCAGAGGTTCCTTCACTCCTTCCTGGAGCATTGCCCCAGTGGTGTTAGAATTGCTATCTAACTCCTGTCTGGGCTGGTGCTT
GTGCGTGCCATTGGGGAGCCTAAGCATGGACTTGCCTAGCCCAGTCCCACTCAGCTTTGCCCCTTTCACCTGCCTTGGATACAGACAACAGGACCACGCC
CCCAGGGAGCTCTATAGCCTAGCCCATTTTCTGAGATATCTGAGTATTTATCCTGGTAAACAAAGCTCAAGCTTGAACCCCACAGCCACGACCACAGCTG
GCTCTCACCTGAAAGTACCACCTAATGAACAGGAGGACAAACTGCATAGTCCATTACAACATCGGCCGACACAATAGCATAGCACTCAGAAAGGAGATAT
GATCTGTGTGACATCTGCTGCCTTCATTGCCCACACAACCCCAGCTACTCAGTAGGTCTTGAACCCACTTACCCACCTGGTACATTAAGACTACAATTGG
CATTTGAGAAAGCCACCACACTGAGGCTATTTATGACTAAGAAAATTAAACAAATTCTACACTACTCCCCTGCTACTCCAGTCAGTCCTTTTTTTGGTGT
CCACCACTGAAGGACGTGAGGACAGGTTTGCCTCTTCAAATTCTGCACAGCATTACCCCATCTCTGGGGCTGAGCATAGAACCCAGGCCACTGGGCATTT
CACAGACTACTCCATTGCTTGAGGCACAGGAGATCTTCTCCGTGTAAACAAAGACCCCTACTGCTTCTGCCACAGCTGGCTGGCTCTTACCTGTAAGCAA
CACCTACAGCCCTGAAGTTTGAACTAAGCAACCCAATATAAAATCAGCTGACACAAGCTTGAGGTATAGAGAAAAATATCTGGGAACCAGTCCCAGATAA
ACTTCCCAAGACCTCTGCCACCCCAGAGACACAGGAGAACATAAGCCTATTCACATATTCAGTACACTGCTACTACAACCAGCATTTGAGAAACACATTA
AAACTGTCTATAACCAAGGAATTCTTATAGAGTGCTTACCACTAAAAACACTTAGAAGCAAAGCCAAACAACCCTACTCAACAAACATTATAGTCATATC
TCCAAAGGGAATAAATATGGCCTTTATAAGCAAAAGTAAATTTAAAAATAACAAGAGAAAATATCTCCAGATGAGGAGAAAGCAGTGTAACAATTCTGGA
AATATGAAAAAATGTGGGTGTTATGACATTCCCAAACAAGCACACCAACTTGGTAGCAATGGATCCTAATCAAAATGAAATTTTTGAAATACCACGTAAA
GAATTCAAAACATTAATTTTAAAGATACTCAATGAAATCAAAGAGAAAGCTGAAAAGCAATACAAAGAAATAAAAAATCAATTAAGGATATAAGTGAGAA
ATTTACCAAAAAGATAGATATTAAAAAACAAAAAAAATCTGAAAATAAAAAATTAGAAAGGAATTACAACATACAATTAAAACCTTCAACAGTAGACTAG
GCCAGGTAGAATAAAGAATCTCAGAACTTGAAGATAGGTCTTTCAAATTAATCCASTCTGACAAAAAAAGAAATAGTTTCAAAAAAAGCCTTCAAAAAGT
TTGGAACTATGTAAAATCTCCAAACCTATGAATCGTAGGTATTCCCAAGAGAGAATAAAAAACACAACAAGATTGCAAAATCTATTCGAGGAAATAGTTG
AGAAAAGCTTCCCTAGTCTAGTAAAAGGTCTAGATATCCAGATACAAGAGACTCAAGGAATTCTGGAAAAATTATTGCAAGAAAGTACTTACCATGGCAT
ATAATAACCAGACTACAATTGAAGTGAAGGAAAAAATCCTAAAATTAGCAACAGAAACGTTTTGAGTCACCTATAAAGGAAAGCCCATCACATAAACAGC
AGACTTCTCAACAGAAACTTTATAAGCCTGAAGAAATTGAAGTTCTATTTCTAGAGTTCTTCATGAAAAAAACACTTTTAAATACGAATTTTGAATCCTG
CTCTAATGTTTATAAATGAAGAAATGAAGTATTTTCTAGATGAACAAATGCTGAGTGAATTTATCATGACTATACTCGTTCTACAGGAAATGCTGACAGA
GTTCTAAATAAGGATAAAAAAGTCAATACTCTCCATCATAAGAGCACACAATAGTATAAAACTCACAGGCCAAAGAATATACGAAAAAACTAGATAACAA
TTAAGATTATGACAGGAACAAAACGTGACACATCAATATCAGCCTTGAATGTGAATGAATTAAATACTCCACTTAAAAGACACAATTGGCAGAATAGATG
TTAAAAACATGATCTATTATTTTATTCTTGAAAAAGACTCACCTTACTCATAAATACAATTATAGACTGAAGGTAATGGGTGAAGACAGATGTTCTGTGC
AAACAGACACCAAAAGTAAGCAAGAGTATCATGTGTTTCATATGTTTATAACTGGCTTTTGTAATAAGGTGATACTGACATCATAGAATGAGATAGAAAT
AATCCCTTCCATATTGATTTTATACCTATGTCAGTTAAAACTGGCTTTAAATCAAGAACAGTAAAAAAAGGTCAGTATATAATGATAAATGGATCAATTC
AACAAGAAGATGTAATAAATCCTAAGTATATATGCACCCAGAATCATAAAACAAATATTACTAGAACTAAGGAAAGATATAGCAATACAATAATAGCTGG
AGACTTCAACACTCCAGTGACAGCACTACACAGATTATCAAGCCAGAAAAAGGAAAAACAAATGCAAGAGTTAAACTGGACGTTAGACCAAGTAGACCTA
ATAGACATTTAAAGAACATTCTCAACAAATTTAGAATTCCTCCAATCGGCTCATGGAAAATTCTCCAGGATAGACCATATTTTAGGCCACAAAACAAGCC
TCAATAAGTTTTAAGAAATCAAACTTATAAAAAATATCTTTTCAGACCACAGTGGAATAAAACTAGAAATCAATTCCAAAAGGAACCCTTGAACTGTAAA
AATACATGGAAATTAAACAACATGTTCCTGCATAATCTTTGAGTCAATGAAAAAATGTAGACATAAATTAAATAATATTTGAAACAAATGAAAATGGAAA
CAAMACATACCTAAACCTTTGTAATACAGCAGAACTGGTATTTACATGGAAGTTTATAATGTTAAATGCCTACATCAAAGTAATAAAAAGACTACAAATT
AACAATCTACCATCACAACTCAATGAACCAGAAAATATGAACAAACCAAACCCAAATCTAATAGAAGAAAAATAACAAACATCAGAGCAAAACTAAATGA
AATTTAGAGCAAATAAACAATATTAAAAAGCAATGAAATGAAGTTTATTTAAAAAAATAATGAAAATTGACAGAACTCTCTCTAGAATAACCATGAGAAG
AAGAGAGATGATTCAGATAAACACAATTGGAAATGAAAAAGGAGGCATTATAACTGATATCACAAAAATAAGATAACTAGAGAGTAGCATGAACAACTCT
ATGCTAATAAGCAAGAAAAACTAGAGGAAATGGATAAATTTCTGGAAACATACGACCTCCTAAGATTGAAACGGAAAAAAATAGAAATCATGAGCAGATC
AGAAATGAGTACTGAGATTGAGTAATAATAATATTAAAAAACTTCCCAACAAAGAAAGGCCCAGGACCAAATGGATTTACAGCTCAATTCTACCCAATGT
GCAAAGCAGAACTTATTCCAGTCCTACTGAAACAATTTAAAAAAAAAATCAATATGGAAGGGATTATTTCTATCTCATTCTATGATGCCAGTATCACCTT
ATTAACAAAGCCACATATAAACATATGAAAATAGAAGAGAAAAGAAATCTACAAACCAATATCCCAGATAAACATAGATGTGAAAATCCTCAACAAAATT
TTAACTAACTGAATCCAACACCACATCAAAAGGATAATACATCATGATCAAGTTGGTTTTAACCCAGAGATGAAAGGATGGTTCAACATACACAAATCAA
TAAAAGTAATTCACCACATAAACAGAATTAAAAGCAAAAGCCATATGATCATCTCCATAGATGCAGAAAAAAATTAATAGAATTCAGCATAACTTTATTA
TAAAAACTCTTTAAAAACTAGGCATAGAAGGAACGTACCTCAAAGTGATAAAAACCGTATATAAGAAGCCCATAGCCAGCCTTATACTGAATGGGGAAAA
GTTGAAAGCATTCTTTCTAAAAACTGAAACAAGACAAAAATGCCCATTTTCACTGCTCCTTTTCAACGTAATACTGGCAATTGTAGCCAGGGCAGTCAGG
CAAGAGAAAGAAATAAAAGCCCTCTGAATTTAAAAAGAAGTCAAATTATTTCTGTTTGCTGATAATATGACCTTATACATAGAAAACTTTAAAGACTCTA
CCCCAAAGACTCCTAGATTTGATAAATGAATTCAGTAAAGTTTCAGGATACAAAATCTATGTACAAAAATTACTATTTACCAGTAATAATCAAGCTTAGA
ACCAAATCAAGTTGTCAGTTTGTTAGCATTTACAATAGCTGTAAAAATAAAATATCTGGAATGCATTTAACCAAGGAAGTGAAAAATACCTACAAGGAAA
ACTATCAAACACTGATTAAAGGAATTTGAGATGACAAAAATAAATTGAAAAAATCTTATGCTCTTGAATAAGAGGAATGAATATCATTAAAATGTCTATA
TTATCTAAAGCAATCTACAGATTCATTTCAATTCTCATCAAAATACCAATGTAATTTTGCACAGAATTAGAAAAAAATCACCAAATTCATATGGAACCAC
AAAAGAGCTTGCATAGCCAAAACAATCCTATGCAAAAGGAACTAAGTCGGATGCATCACATTACCTAATTTCAAATTATATTACAAAGCCATAGAAACTA
CAACAGCATGGTATTGGTATAAAAATAGACACATAGATCAAAAGAATAGAAGAGAGAACCCAGAAATTAAGCCACATAACTACAGCCAACTGGTCTTCGA
TAAAGTCAACAAAAGATAGGCTGTGAAAACAACATCCTATTCAAAAAGGGTTCTTGGAAAATTAGGTGGCCATACACAGAAGAATAAATATGGACCTGTA
TCTCTCACCATATGCAAAAATTATCACAAATGTATTAAAGGCTTAAGTGTAAGACCAAAACTATAAAAATACAGGAAGAAAACAGGGAAAACTATTCTGA
ACATCATTTTTGGCAAAGACATCATGACAAAGACCTTAAAAACAAATGCACAATACCAAAAATAGACAAATGGGACTTAAACTAAAGTGCTTCTTTACAA
CAAAAGAAATTATCAACAAAATAAACAGAMAACGTGCAGAATGGAATAAACTATTTACAAACAATACATCCAATAAAATATTAATAACTAGGTTCCACAA
AGAACTCAGACATCTCAACAACAACAAATAATTCTGCCAAGGCCAGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGYGGA
TCACGAGGTCAGGAGATCGAGACCACCGTGGCCAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAAAATTAGCTGGGCGTGGTGGCGGGTGC
CTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCCAGATGACGCCACTACACTCCAGCCT
GGGCCATAGAGTGAGATTCCATCTCAAAAAAAAAAAAAAAAAATTCTGCTAAAATGTAGGCAAATGGCATAAACAGACTTTTTCAAAAGAAGACATACAA
ATGGCCAACAAACACATAAAAAACTGCTTAACATTATTAATCAATGAAATGCAAATTAAAATTTCGATTAGCTATTGTATTACACCACAGTAGCTATTAC
TAAGAAGTCAAAAAATAACAGATATTGGCAAGTATGGAGAAAAAAGGAAGCACTCATAAGCTTTAGTAGAAATATTAATGAATATAACTTGTAATTAATA
CAATACATAGGGTTCTCAAAGAATTAAAAATAGAACTACCATTCTATGCAATAATTCCACTACTGGTTATCTACCAAAGGGAAATAAATTTTATACAAAA
GGATATCTACACTCATGTGTTTATACCAGCATTATTCACAATAGAAAAGATATAGAATCAACTAAACTGTCAATCARTGGATTATCGGATAAAGAAAATG
TGGTGTATATATACAATGGATTGTATTCAGCCATTAAAAAAGAGAATAAAGTCATTTTTTTTTTTCCAGCAACATCAATGGAACTGGAGGCCATTGTCTT
AAGTGAATGGTTTGGAAACAGAAAGGCAAATACCACATATTTTCACTTATAAGTGAGAGCTAAATAATGTATAGAACTGGACATAAGGAGTAAAATAATA
GACACTGGAGACTCAAAAGGATGGGAGGGATCAGAGGGGGTGAAGGATGAACAATTACTTAGCGGATACAATGTACATTATTAGGTTGATGGCTACACTG
AAACCCCAGACTTCACCATTATGCAATATATCCATGTAACAAAACTACTTTCTCCTAAATTATAAATATTAAAACAAAAACAAAAACACCTCTATTGTTC
ACCTGACCTCCATAAGCCACTATTCTGATTGTAGACTATAGTGTCATTTTAGGTCTCCTGGCATTAGTATCAGTTCAGGACCTGTGTCCAATATTCTCCA
AAACTTCTGATTATTTTTCCCTAATTCTTCCATGCCATAATTTATTTTGGGGAAAGCTGTGAGAAAGATTGACATTATATGTTGTTGGGCGTGTGGTGGG
ATGCTTCTTCCAGGGGACCCATTCTTCCCTTCATTCAAGGGTTGTGAGTCTGTAAACTGGCTCAAGCCTGGGAATTGATTGAAGGGCCATGACTCTGTTT
TATGTTACAAGCTAGAATTTTGTTCAATTGACCTAGGACTCCTCTGCTTATACAGATTTAGTAAGAATATAATGGAATTATTATCTGTCTCACTACTAGA
AACATGATTAACTAACAATGTCATAGGTCTGCATCAGTCAGATTATTCTGATTGCTGCTTTGACTCTTCTGCTTATGTAGTTTTTGTCAGTTAAGTGCTG
CCACTTTTCCCCTGCCACTTGGGAATCCAATTATTTCTATTAAATTTATTTTTTTTAGTTTAATGGTATCAATCCATGTAATTTCTGACCTACAGAGAAA
AGTGATCTTCAAAGACGATAGGGTTCCCACAAAAATTTATTTCTCGTAATTGTGGCTAAGAATTGTTCTCAGTACTCTCCCAAGGTCGGGGAGAAGATCT
TAAATGATAAATGTCGCTAAGAATTTGGATTCTTTCCTCTACAGTATGTCAAGGCAGGACTGGAATTTCAACTTCATTTAGTGTAGGACACCTTTTGGTC
TATGTGTTTCTAAACTTTTTTTAGAGTATTTTCTGACACACTGAGCTGCAACACTAAATCGAGACTCTCTCCTTCTTGGGCTCATATCAATACATTTGGC
CTGTTTCAGGTTTGTGTTTCTTCCACAATTATCCATACTTTTAATATCCATTGTCATACGTATTCCCTGGATTTATGTCTATATAAATTAGAAAAATAAA
CATGACCTGACAAGACTTGAGTCTAGTTATAGGTCTAGAAGCAAAGAAGGGTGGTATGGTGGGTCCTAACAATGATCAGCAGTGTCTTACTTCTGCTTCT
TCTCAGAGCTTAAGTTGTATTTTATTTCGCTGCATGTAATCTCTTGCTCACAGGTACCCAGATATCTGCAGTAACCCAGCAATCCATTTGTGCAATAGCT
TCCACCACTGCTCTAAGCATTTTCCAGCCTACAGTCTAAACTATGCTATCATTCCAGTTAGTATTCCAAGTCAGAAAAGACACAACAGTCCCTCAGACTG
TCCCCAGAGAAGCTAGAACTTTACAAGCAAGTTCCATTYATATTCTTTCATTCCAATGGAGGAACCAATAATTTGATGGATTCTTTCAGACACTCAGTGC
TGTGTTAGAGAGGGAGTGGGACAAGGGCAAGCAGAAATGACATGAAATTTTCTAGCATTTCCTTGGTTGCTTCAGCTTCTTAGCTTGTTTCAAGAGTTCT
CACAAAACTACTTTGCTCTATATATTTTGGGGTGTTTTGTTTTGTTTTTGTTTTTTTGTTTTTTTGTTTTTTTGTTTTTTTKTTTTTTTTGGTGTTTCCA
TGGGGCAATGAGGGCCTGGCGCTTTCTGCTCTGCCATCTTGCTGATGTCACTCTTCAGTAGTATCTCCTCTTCTCATCATGTTTGTCTGTTTTTATATCT
TTCTTTTATAAGGTTGTGGTTCACCTTGAAACTATTCTAGGAGCCTCAGTTCAACATGTTAAACTGAAGAAAATGAAGTACTCTTTTCAGTTGTGGATCG
CAATGATGTCAGCAAAGGGACATGATGGGAAGGTATTTTTACCTCTTTCTTTACTTACTTTTTTCTTTGTGTAAACATTTATTGAGCTTCTATTGTGGTC
CATATGTTAGAGGTGTAGAGAAAAGAAACTCATGAAAAAAATAAGTAAAATAGTAAAATATTTAAAGAAAGCACAGTTTGGTGAATGCCTATACGGAATA
GGCATATATGCTATTCACAGAGAGTGTGCCCATTCCTATATGGAAATCAGTGAAGGCTTCTTGATGGAGGAATTGCAGTCTCCCAAATCTTGAATGATTT
GGAAACCTTAACCAGGTAGAGAAGAGATAAAGATTATGCCAGGCAGAGGGGAAACCACGGCAAGAACAAGGACACAGGGGAATGAAGCTAATCTTAGTAT
GTTGTATGCTAGGTACTCAGAACATGTAGGTTTCAATAAAGCCTTAAGTGATTAGGTAACTTCAGTTGTCAAGTTCCACCTTTACCTTCCCCCTGAGATG
TTTTAAAAATACATGTACAGAGCTATCTGCCCATCTCCTGTTTATTTTTCCCTTCCTTTTCATATCTGCTATGATTAGAAGCTGATACAGGTACTTGTGA
AAGAAGCTTCCCTTATGCCAGGTTTTTTCAGGCTTGCTGAAGACTTTTAATATGAACACTTTGAGAACTATAAGATAAATTCAACATTCTGGAGAATTTA
ACTTTTGTGAATATAGGAATGTTTTCTGCCAATGGGAATATTTGTGTTAGAGCATGACACATCCAAATTTGAAGTGCAGGCTACCTCCTAGTTTTGTTAT
CTTGGGCAAGTTACTTAGCTATTCTGCAGTTTACTCATACGTAAAATTAAGCTATTGATACCCATTTTACAGCTTTATTTTGTGGATTAACAATATTTTT
TATAAGATATCTCACATACAATAGCCCTTCCATAAGGCAGAACTCACACGACCCTCTCTACCTTAAAAAAAAAAAAAGTCACTTTTAAAATTTTTTCAAA
TACCCAGTTTTCTTTGCAGAAACACTTTGGAAATCTCTCAGAACAAAACGTTTATACAAATTCACAAGGGGAGGAGGTTTGGCTCTGAGATGAAAGTTTA
TAATCAGAACTTTAGATCAAAACTAAAGCTGAAATCAAAAACAAAAAGTTTATTTTCAGTTCACTTCCAGAAGACACTGTCTTATAATTTGGATAAACTG
TTAACATACATGCTGACTGTCAAAACTGGTCCTGTAATTACAAATCTGGAAAGAAAAAGAGGGGGGAAAAATCTGCTCTCCTCTTACTTTTTTATGATAC
CAGATTTAGAGCTGGGATTATGATGCCAGATTTAGAGCTGGTGGTCATAACCACTTTACCATGTTGCTCATTAATAATCACTTAAAATAGGTAGAAAAGG
GATGTGGCCATTTTCTAACCCATACTTTTTATGTTAATGTAGCTCTTTTTTAATTACAAACCTAATTTAAAATTTTTAAATTTTGTGACTACATAATAGT
TGTATGTATTTATGGGATATATAAGATGTTATGACACATACATACAATGTGTAGTTATGAAATCTGTAACTGAAGTATCCAACAGTTTAAACATTTATTA
TTTCTTTGTGGTGTAACTTTCCAATTCCACTCTCTTGTTTTATAATATACAACAAAGTACTTTAAACTATAGTCACCCAATTGTGCTATCAAACACTAGA
CCTTATTTCTTCTCTTTTTATACTCAATAATCATCCCCACTTCTCTTGCAGTTTCTTGTGCATTTGCACTATAACATTTATTTCTTTTTATACTATCTCT
TAAAAAATGGTTGTAGTTATTATCATAGTCATATCTTCAAGAAYAAAATTCCACATTCAATGAAAGTAAATTCAAAAATAAGAACAATCCCCTATTCCCC
TGGTTGCTCAGAAATCAACGTATAGATGCAGAAAGCCTGAAAAAGAAATGTACTATAACACTCTCAAATTAAAACAATAATTCTTCAGCAATAGACTCTG
TGCAAAAGAAATCTTCAAAATGCCAGATAAGGAAATCAAAATATTGACTTTAAAAAAGGCTTAATGAAATTAAATTGATTTTTTTTTTTTTTTTTTTGAG
ACAGAGTCTCACTCTGTTGCCTAGGCTAGATTGCAGTGGTGCAATCTTGGCCTACTGCAACCTCTGCTTCCCTTGTTTTCCTGCCTCAGCCTCCTGAATA
GCTGGGGCTACAAGCACACGCCACAACACTTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATTTTTGGCCAGGCTAGTCTCAAACTCCTG
ACCTCAGGTGATCCAATCATGCTGYCCCCTAAAGTGCTGGGATTACAGGCACGAGCCACCACACCTGGACCTTAAATGGAAATTTGTAAAGCAATACAAA
TATATTAGAATATCAACTTAGGCTGTTAATATGAAATTTACTAAGAAGGTAGATTTTCTAAAAAAATGTAATAGTAACAGAAATTTTGGAACTTATAAAT
TCATTGAAGGGGTTACAAAAACATTCCAAAGACCAAGCAGAAGGAAGACTCTCGAAATATGAAGACACATCTTTTGAAGTAATCCAATCAAACAAAAATA
AAGACAAATGAACAAAGCCCTTAAGATGAGTGTGCAAAAATAACAATACTTACAATTTGTTGGTATTACTGAGGTAGAAAGAAAGATAAAAAATAAGTTT
AGAAATCCTATTTAAGAAAATTATTTATGGAAGCATCTCAAGTGTAGCAAGAGATTTAGACATCCAGATACAGTAGTCCCAGCAATCCAAGACAAATACA
TTGCAAAAGGCATATTAAATCAGTATATCTAAAGTCAACATAAAAGAAATACTTCTATGATCAGCAAGAAAAATGCATCTAGTCACCTATGAAAGAAACC
CCATCAGASTAAGAATGAGCTTCTTAGCAGAAACTTCGCAGGTCAGAAGAAAATGGAATGGGATTTACAAATTGCTGAAAGAAAAAAATACAATAAAAAT
GTTTATATCCAGCATGATTAAGCTTCATAAATGAAGGAGAAATAAAGTCTTTTCCAGACAAGCAATTGCTGAGGGAATTTATCACCACTAGAGCAGACTT
AAAACAAATGCTCAAAAATGTCCTTGACATGGAAATAAAAGGTATATGTTCATGATTATGATAACTCATTAACATATAAAACTCAATGATATTATAAAAC
AATCACATAAAGAAGGAAGAAAAGTCAAGTTGTTAACACAACAAAATTTCACCAAACCATAAAGACAAACAGAGAAAAAGAAACAATGTATAAAACAACT
GAAAAGATTTAGTGACCTGACAGAAAATAAACCTCATGTATAAATGTTAACCTTGAACTCAAATGGATTAAGTACTCTTCTAAAGAGAGATAGATTGGCA
GAAAATATAAGAAACATGATCCATCTAAATGCTGCTTCCAAGAAATTCACCTTCTCTGTAAATACATACATAGACTGAGAGAAAAGGGTTGAAAAAAGAT
ATTTTATGGAAATAGAAACTAAAAGAGAGTAGGAATAGCTTTACCTATACTAGATATAGCAGATATTAAATTAAAAAGTTAAAAAAGACAAATAAGGTCA
TTGTATAATGATAAAAGGATCAATGCAACAGGAGGATATAACATTACTCAGTATATATACACTCAATACTGGAGCAACCAGATTCATAAAACAAATATTA
CTACATCTAAAGAGAGAGGTGGAAAATAATACAATAATAGTGTGAGACTTCAACTGCGCACTCACAGCATTAGACATCATTAAGACGGGAAATCAACAAA
GAAATATTGAACTTATTTGGACTTTAGGTGCAATAGACCTAACACACTTTGACAGAAAAGTCTACTCAACAACTGTGAAATGTACATTTTTTTCACATAA
GCACATGGAACATTCTCCAAGATAGACCATGTATGACCTTGTATAGACCTTGTATTTTAGGCCACAAAACAAGTCTCAATGAATTTTTTAACATTAAAAA
CATATCAAGAATCTTCTCAGACCACGCTTGAATAAAACTGAATATCACTACTTTTGGGAACTTTGGAAACTATACAAATACATGGAAATCAAACATGTTC
CTTAATGATTATTGTGTCAATGAAGAAATTAAGGTGGAAATTATAGCAATTTTTGAAACAAATGAAAAGGAAAACACAACACATCAAATTCTGTGGGATA
AAGAAAAAGGAGTTCCCAAAGGGATGTTCATAGTATTAAATGCCTATACTAAAAAAGTAGGAACATTACAAATTAACAACCTAATGATGGACTGCCATGA
ACTAGAAACACAAGAACAAACTAAACCGAAAGTGGCAGAAGAAAATGAGTTAAAAAAAAAAATTCTAGTAGAACTAAGTAAAATAGAGACCAAAAAGGAA
AGGTAGAAGTACAAAGGGTCACTGAAACAGGAAGTGTTGGTTCTTAAAAAAGGTAAACAAAATAATCCACTATCCAGATTAATCATGAAAAAAAGAGAGA
TTACAACAAAATCAGAAATGAAAAAAGAGAGATTACAACAAAATCGGAAAAGCAAAAGAAGAAATTATAAATCACATCACAGAAATACAAAYATTCTTAA
AAATTATTATTAAGAACTCTACTTCCACAAACAAGAAAACCTAGAGGAAATAAATTAATTTCTGGAAACATGCAACCTCCCGTTTGAATCAGGAGGTAAT
AGAGAACTTGAGCAGACCTATAATGAATAGCAACATTGAATCAGTAATAAATAATTTGTAACAAAGGAATCTCAGAACTAAATGGATTTTCCATACACAC
AAAGAAGAATAAACAGTTCTTTTGAAATTGCTCCAAAAGTTCAAAGAGGAGAGAATTCTTCATAACTCATTCCATGACACCACTATCACCCTGATACCAA
AACCATACAAGAACACAACAACCACAGAAAAACTACAGATCAGTAGTCTGAAGAGCATAGATGCAAAACTCCTCAGCAAAATACTAGAAAACCAAATTCA
ACATCATAACAAAAAGATAATACGCCATAAACAAGTGGGTTTTATATTAGGAATATAAGGATGGTTTAACATATACAAATCAATAAAAGTGATATATTAC
ATAAACAAAAATAACAAAACCATATAATTATCTCAAGAGATGCAGGAAAAAGCATTTAATAAAATTTAGAATCTTTTTATGATAAACAGTCTCAACAATC
TAGGCATAAAATGAACATATCTCAATGTAATAAAGGCCACATACAACAAACCCAAATCTAATATCACACTGAATGGAGAAAAGTTGAAAGCATTTCCTCT
AAGAACTAGAACAAGACAAGGATGCCCACTTTCACCACTCCTATTCAACACAGTACTGAAAGTCCTAGCCAGAGCAATCTGGCAAAAGAAAGAAATAAAA
GATATCCAAACTGGAAAAGAGGAAGTGAAATTTTTTCCTGTTATCTGACTATATAATCTTATATCTTGAAAAACCTAAAGACTCCAAAAAGAATCCCCTA
GAATTGATAAAAGAATTCAGTAAAGTTTCAGGATACAAAATACATGTATAAAAACAAGTAGCATTTTTTTACACCAATAAAAGTGTAGCTGAGAATAAAA
TCAACAATGCAATTCCATTTATAATAGTTACAAAAAATAAAGTAGAACTCCTTGTTAATTAATAAGATGAAATATATATAATGTATATATTACATATAAA
TATATAACATATTTATATATTATATATTATATATATTATTTATATTTATATTTATATTGAAATATAATTATATATTATATATTAAATATGTTATAATCAG
ATTTATATTTTTAAATTATATAATATATAAATATAATTATATGTACTTTTACTGATATATATCTGTATACATATATACATACGTATATGTATACACATAT
ATACATACGTACATGTATACACATATATACATASGTACATGTATACACATATATACATACGTATATGTATACACATATGTACATATATACATACGTATAT
GTATACACATATGTACATATATACATATGTATATATATACACATATATACGTATATATGTATATACATACATACACGTGTATATATGTATTGTCCAATGT
ATTGAATTGTGTATATGTATACACGTGTATATATATTTGTGTATATATATATACACACATATACACAGTAGTTTGTAGTTTTACTGATATCTATATCTAT
ATCACTATATATATATCAGTATATATATCAGTATATATAGATATAAGTATATAGATATAGATATAGATATCAGTAAAACTACAGACTACTGATGTAAGAA
AAAGTAGATGACACAAATAAATGGAGAAACATCCCATGCTATTGGATTGGAAGAATTAATATATACAAAATTATATATATATATATCAGTAAAACTACAA
AATGCTGATGAAAGAAAAAGTAGATGACACAAATAAATGGAGAAACATCCCATGCTATTGGATTGGAAAAATATAAACAAAATTACCATACTGCTCTAAG
CAATCTACAGATTTAATACTTTTCCTATCATAACATCAGTGTCATTTTTTCGAAGAATTAGAAAACATTCTTTTTTTATTTTTATTTTTATTTCTATTAT
TGTTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAATTTGTTAT
TTAACATTAGGTGTATCTCCTAATGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCT
CATTGTTCAATTCCCACCTATAAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGCGATAGTTTGCTGAGAATGATGGTTTCCAGTTTCATCCATGTC
CCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATAGGTGCCACATTTTCTTAATCCAGTCTATCGTTGTTGGACATT
TGGGTTGGTTCCAAGTCTTCGCTATTGCAGATAGTGACACAATAAACATACGTGTGCATGTGTCTTTATAGTAGCATGATTTATAATCCTTTGGGTATAT
ACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCACCACACTGACTTCCACAATGGTTSAACTAGTTTACGGTCC
CACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCARCACCTGTTGTTTCCTGACTTTTTAATGATCGCCATTCTAAGTGGTGTGAGATGGT
ATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTTTTTTGACTGCATAAATGTCTTCTTTTGAGAAGTG
TCTGTTCATATCCTTCGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTGGAGTCCATTGTAGATTCTGGATATTAGCCCTTTGTCA
GATGAGTAGGTTGCAAATTTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATG
CCATTTGTCATTTTTGGCTTTTGTTGCCTTTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCACATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCT
TCTAGGGTTTTTATGGTTTTAGGTCTAACGTTTAAGTCTTTAATCCATCTTGAACTAATTTTTGCATAAGGTGTAAGGAAGGGATCCAGTTTTAGCTTTC
TACATATGGCTAGCCACTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTA
GATATGTGGCATTATTTCTGAGGGTTCTGTTCTCTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAG
TATAGTTTGAAGTCAGGCAGCGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGTGATGCGGGCTCTTTTTTGGTTACATATGAACTTAG
AGTAGTTTTTTCCAGTTCTGTGAAGAAAGTCATTGGTAGCTTAATGGGGATGGCATTGAATCTATAAATTACCTTGGGCAGTATGACCATTTTCAAAATA
TTGATTCTTCCTATCCATGAGCATGGAATCTTCTTCTATTTGTTTGTGTCCTCTTTTATTTCGTTGAGAGGTGGTTTGTAGTTCTCCTAGAAGAGGTCCT
TCACATCCCCTGTAGGCTGGATTCCTAGATATTTTATTCTCTTTGAAACAATTGTAAATGGGAATTCACTCACGATTTGGCTCTCTGATTGTCTGTTTTT
GGTGTATAGGAATGCTTGTGATTTTTGCGCATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGATAGGATG
GAGTTTTCTATATATACAGTCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTACTAATTGAATATTCTTTATTTCTTTCCCTTGTCTGATTT
CCCTAAAGAGAACTTCCAACACTATGTTGAATAAGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCC
ATTCAATATGACATTGGCTTTGGGTTTGGCATAAATAGTTCTTATTATTTTGAGACACGTGCCATCAATACSTACTTTATGGAGGGTTTTTAGCATGAAG
GGCTGTTGAATTTTGTCAATGGCCTTTTCTGCATCTATTGAGATAATCATGTGTTTTTTGTCTTTGGTTCTGTTTATATGATGAATTACGTTTATTGATT
TGCATATGTTGAAGCAGTGTTGCATCCSAGGGATGAAGCCCACTTGATCCTGGTGGATAAGCTTTTTGATGTGCTCCTGGATTCAGTTTGCCAGTATTTT
ATTGAGGATTTTKGCATCAGCATTCATTAGAGATACTGGTCTAAAATTCTCTTTTTTTGTTGTTGTGTTTCTGCCAGGCTTTGGTATCAGGATGATGTTG
GCCTCAGAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAGGGAATGGTACTAGCTCCTCTTTGTACCTCTGGTAGAATT
CGGCTATGAATCTGTCTGGTTCTGGATTTTTTTTGTTGGTAGGCTAATTATTGCATCAATTTCAGAACCTGTTATTGGTGTATTCAGTGATTCAAATTCT
TCCTAGTTTAGTCTTGGGAGGGTGTGTGTGTCCAGGAATTTATCCGTTTCTTCTAGATTTTCTAGTTTTTTTGTGTAGAAGTGTTTATACTATTCTCTGA
TGGTAGTTTGTATTTCTTTGGGATTGGTGGTGCTATACCCTTTATCATTTTTTATTGCATCTATTTGATTCCTCTCTCTTTTCTTCTTTATTAGTCTTGC
TAGTGGTCTATCAATTTTGTTGATCTTTTCAAAAAAACCAGCTCCTGGATTCACTGATTTTTTGAAGCGTTTTTTTTTTGTGTGTGTCTATCTCCTTCAG
TTCTGCTCTGATCTGAATTATTTCTTGCATTCTGTTAGCTTTTGAATGTGTTGGCTCTTGCTTCTCTAGTTCTTTTAATTGTGATATTAGGGTGTCAATT
TGAGATCTTTCTTGCTTTCTCTTGTGGGCGTTTAGTGCTATAAATTTCCCTCTACACACTGCTTTAAATGTGTCCCAGAGATTCTGGTGTGTTGTGTCTT
TGTTCTCATTGGTTTTGAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCACGAGCAGGTTGTTCAGTTTCCATATGGTAGA
GCTGTTTTGAGTGAGTTACTTAATCCTGAGTTCTAGTTCGATTGCACTGTGGTCTGAGAGACAGTTTGTTATAATTTCTGTTCTTCTACATTTGCTGAAG
AGTACTTTACTTCCAACTATGTGGTCAATTTTGGAATAAGTGTGATGTGGTGCTGAGAATAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGA
TGTCTATTAGGTCCGCTTGGTGCAGAGCTGAGTTCAATTCCTGGATATCCTTGTTAACTTTCTGTCTCACTGATCTGTCTAATGTTGAGAGTGGGGTGTT
AAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTCTCTTTGTAGGCCTCTAATGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATA
TTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGGAGTGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTAT
CAGAGACTAGGATTGCAACCTCTGCTTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCCTTTATTTTGAGCCAATGTGTGTCTCTGCATGT
GATATGGGTTTCCTGCATACAGCACACTGATGTGTCTTGACTCTCTGTCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTT
AAGGTTAGTATTGTTATGTGTCAATTTGATTCTGTCATTATGATGTTAACTGGTTATTTTGCTCATTAGTTGATGCAGTTTCTTTTTAGCATTGACAGTT
TTTACAATTTGGCATGTTTTTGCAGTGGCTGTTACTGGTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTGTAAGGCAGGCCTGGTGGTGAC
AAAATCTCTCGGCATTTGCTTGTCTGTAAAGGATTTCATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGTTTGAAAATTCTTT
TCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGTTTGTAGAGTTTCTGCCGAGAGATCCACTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAA
CCCGACCTTTCTCTCTGTCTGCCCTTGACATTGTTTTCCTTTATTTCAATTTTGGTGAATCTCATAATTATGTCTCTTAGAATTGCTCTTCTCGAGGAAT
ATCTTTGCAGCATTCTCTGTAGTTCCTGAATTTGAATGTTGGCCTGCCTCGCTAGGTTCTTGAAGTTCTCCTGGATAATATCCTGAAGAGTGTTTTCCAA
CTTGATTCCATTCTCACCGTCACTTTCAGGTACACCAATCAGATGTAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTTTGTTCATTTTTT
ACTCGTTTTTCTCTAAACTTCTGTTCTTGCTTCATTTCATTCATTTCAACTTCAATCACTGTTACCCTTTCTTCCACTTTATCAAATCGGCTACTGAAGG
TTGTGCATTCATCACGTAGTTCTCGTGCCATGGTTTTCAGCTCCATGAGGTCATTTAGGGACTTATCTACACCTGTTATTCTAGTTTACCATTCGTCTGA
TCTTTTTTCAAGGTTTTTAACTTCTTTGTGACGCGTTCGAAGATCCTCCTTTAGCTTGGAGAAGTTTGTTATTGATTGTCGGACGCCTTCTTCTCTCAAC
TCATCAAAGTCATTCTCTATCCAGCTTTGTTCTGTTGCTGGTGAGGAGCTGCATTCCTTTGGAGGAGAAGAGGTGCTCTGATTTTTAGAATTTTCAGCTT
TTCTGCTCTGGTTTCTCCCCATCTTTGTGGTTTTATCTACCTTTGGTCTTTGATGATGGTGACGTACAGATGGGGTTTAGGTGTGGATGTCCTTTCTGTT
TGTTAGTTTTCCTTCTAACAGTCAGGACCCTCAGTTGCAGGTCTGTTGGAGTTTACTAAGGTCCACTTCACACTCTGTTTGCCTGGGTATCACCAGCAGA
GGCTGCAGAACAGCAAATATTGCAGAATGGCTGATGTTGCTGCCTGATCCTTCCTCTGGAAGCTTCATCTCAGGGGCATCCAGCTCTGTAAGATGTCAGT
CAGCCCCTACTGGGAGCTGTCTCCCAGTTAGGCTACYTGGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGTCCGTTCTCAGATCTCAAACTSCATGCTG
GGAGAACCAGTACTCTCTTCAAAGCTGTCAGACAGGACGTTTAATTCTGCAGAAATTTCTGCTGCCTTTTGTTCAGCTCTGCCCTGCCCCAGAGGTGGAG
TCTACAGAGGCAGGCAGGCTTCCTTGAGCTGTGGTGGGCTCTATCCAGTTTTAGCTTACCAGCCGTTTTGTTTACCTAGTCAAGCCTCAGCAATGGCGGA
TGCCCCTCCCCCAGCCTCGCTGCCACCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAGTGAGTGAGGCTCTGTGGGCTTCGGACCCTCTGAGCCAGGC
ACAGGATATGATTTCCTGGTGTGCCGTTTGCTAACGCCATTGGAAAAGCACAGTATTAGGGTGGGTGTTTCCTGATTTTCCAGGTACCGTATGTCATGGC
TTCCCTTGGCTAGGAAAGGGAATTCTCCGACCCCTTGTGCTTCCCAGGTGAGAGGATGCCCCACCCTGCTCTGTGGGCTGCACCCTCTGTCTGACAAGCC
AGTGAGATAAACCTGGTACCTCGGTTGGAAATGCAAAAATCACCCATCTTCTGTGTCGCTCATGCTTGGAGCTGCAGACTGGAGCTGTTCCTATTCAGCC
ATCTTGTAACCTCGAGCCTACAACCTGTCTTCCAGCTTACTAATTACTTATTCTATTTGTTTAATAATGCATTTGAGAGATTCTCATGCATTTTCAGTTT
GTCAAGTGAATTTTTCTTCTTTTTAAATTTTAATCTTTAAAAAATGTCTCTGACGGAATTTGGAATTCCTTCTCTGCATTGTCTTTAAGTTCATTAGGCT
TCCTCAAGACACCTATTTTCAATTCTCTGCCTGACAATTCACATATCTCTGTCACTCCTGAATTGGTCACTGGTGCCTTATTTAGTTTATTTGGTTAGGT
TATGTTTTCCTGGATGTTTTTGATGCTTATGTACATTTATTAATGTCTTAACATTGAAGAGTTAGGTGTTGTTTTCAATATTCACCGTCTGTGCTTGGTT
TGGCCCATCCTTATTGAAAGACTTCCCGTGTATTCGAAGAGGATTGAGTGTTGTCCTGTAAGTGTGTTTTCACTGAATCCATAACAGCAGTAGGTGGCGT
CTTAAGCTGAGGAATGCTGTGACTCTTGCCAAATCCCAGAGGCACTGCTTTGGTGGTGTTGAGTAATATAAGGGAAAATTTCCTGGGTCACCAGGTAAAG
TAAGTCACTCTCTTGTCTCTCTTTCCCTCAATATGAAGGAGTCTGTTTTTATGCTGAGTTGTCTAGAATTGGGAAAGGGATGACATGAGTACTCCTGTGG
CCACTACAGCTGGCAGTGTGCTAGATTAAACATTAAGCTAGCACAGTACGGGGTCTCATCCAAGGCTCATGGCAACTACTGCCTGACTAATGTTTATAGG
AGACTCTGGTGCTCTTGAGTCAGAAGTTTGGGAATCCTCCTGGTACTGGGTTCTTCACTTCAGGACAGTCAATTCCCTTCTCACTAGAGTGGGTCTAGAA
AGACCATCCAGGAGCTAAGGCCTGTTATTGGGGACTTCAGGAATCTCCTTGTTGCTTCATTTTACTATAGCTACGCTGGTACCCAACTTGCAAGACAAAA
TCTTCTGTACTTTTCCCACTCCTTTCCCAAAGCCACAGAAGTCTCTTCACCAGCTACATTGCCGGAGTTAAAGGAAGGGTGATGCATGCACTCTTTTGGC
CACCACAGCTGATGTTGTACTAGGTTGGGTGCATCCAAAATCAATTGCCTCTGAGAGAACAGTGCAGCTCCAGGGTTTTTCCAAGGCCTGTAGTCCTTGA
GGYCTGATGGCCACTCAAATTTACTTCAGGCCTCGGGCCATGTTAGTCAGCTAGTGGTGGAGCCAGCCAGGACTGGAGTTCCTCCCACTGGAGCTGAGAA
TTTCCCTCATTCAGAACTGCTCTAAATGTTCCCTGCTTTGGTGCTAGCATAATTTTTCCCTATGTTGCATACCACTGGGACAGGGCAGGACTGGGTTGCA
ATGCAAAGTAGCCCATTCACTTTACTCACCATCCTGTAAGCAAACAAATTGTCTTTCAATGAGGTGCTGATGGACAATGAGGGAGGGTTTGTGTAGGCAA
TGCAAGACCATCTTTCCTACTCTCTTCAGTGCCTCTTTTATTGATATTTTGTTAAAACCAGTTATTGTGATTGCTCATTTTATTGGTTCTTATGAATGTG
TTTTCTTGCATGCATAGTTGTTTAATTTGGTGTTCTTGCAAGGAGGCTGACTGCTGAAGCATTCTATTCAGCCATCCTGCTCTGCCTACACTTCCCTATA
ACAGGTTTGTTGAGGTATAATTCATATACCATGCAATGTGCCTATTTAATGTATACAATGTAATGGAYTTTAGTACATTTAGAGTTGTGCAACAATCATC
ACAATTTTAGAATATTTTCGTCATTCCTAAAAGAGACCTCGTACTCATTATCAGTCACTCTACAACCCACTCGCACCTCCATAGCCTTAAGTAACCAAGA
ATCTACTTTCTGTCTCTATAGATTTGATTATTCTGGATATTTCATGTGAATAGGCTCATACGTATGTGATGTCTTGTTACTGGCTTCTTTCACTAGGCAC
AATATTTCAAGTTTTATCTATATTGTATCATATATCAGCACTTACTTTGTGTGACTGAGTAATATTTTATCAATAAATTTTATTTATGTATTCATCAATT
GACTGGTATTTTACTGTTATGAATGATTATTCATATATAAGTCTTGTATAGGTGTTTTGGTCTTTACTATTTTGAGAAAATACTCTTGTATTTTATTTCT
TTCCTTCAATCTCAGGAACCTGTGAAATTTGTAGATTTGCTTGGTGACCATGGGAAACATGTCAGTCCTCTGTGGGAGTTGATCAAATGGTGCCTGGGTC
TGTCAGTGTACACCATCCCTTCCATTGGTATGTAAATCATATTCTACCTAGACCAGTTTGWTGTCCTGTAATATTTCTTAATATCTAAATATAAATTTTG
GACTAAAGGCCCCATGCAAGTCCAAAATCCAGTGGGGTACTGAAATCTTAACGCTCCAAAATGATCTCCTTTGACTCCATGTCTCACATCCAGGTCACGC
TGATGCAAGAGGTGGGTTCTCATGGTCTTGGGCAGCTCCACCCCTATGGCTTTCCAGGGTATAGCCTCCCTCCAAGTTGCTTTCATGTGTTGGCATTGAG
TGTCTGTGGATTTTCTGGGTGTACTGTGCAAGCTATCAGTGGATCTACCATTCTGGGGTCTGGAGGACAGTGGCCCTCTTCTCACAGCTCCACTAGGCAG
TGCTCCAGTGGGGACTCTGTGTGGGAGCTTCAACCCCACATTTCCCTTCCACACTGCCCTAGCAGAGGTTTTCTGTGAGGGCCTTGTCCCTCAGCACACC
TCTGTCTGGGCAGTCAGGCATTTTCATACATCCTCTAAAATCTGGGCAGAGGTTTCCAAACATCAATTCTTGATTTTTGTTCACCCACAGGCCCAACACC
ACATGGAAGCCACCAAGGTTTGGGGCTTCCATCCTCTGAAGCAATTACCTGAGCTCAATCTTGGCCCCTTTTAGCCATGATTCTAGCCATGGCTAGAGGG
GCTGGAATGCAGGGCACCAAGTCCCTGGGCTGCACACAGCAAGAGGGCCCTGGGCCTGGTCCATGAAACCATTTTTTCCTCTTAGGCCTCTGAACCTGTG
ATGGAAGGGCTGCCACAAAGGACTCTGAAATGCCCTGGAGACATTTTCTCCATTGTCTTGGAGATTAACATTTGGATCCTCCTTATTTATGTAAATTTCT
GCAGCCGGCTTGAATTTCTCCTTAGAAAATGGGTTTTTCTTTTCTATCCATCATCAGGCTGCAAATTTTCCAAACGTTTATTCTCTGTTTCCCCTTTTCT
GAAGGACTTGCTTTGATGTCCAGGCTGGAGTGCAGTGATGCAATCATGACTCACTGCAGCATTGACCTCCTGGGCTAAAGCAATCCTCCTGCCTCAACTC
CTAAGTTGCTGGGACTACAGGGCTCACCACCACACCTGGCTAAGAGATGGAGTTTCATCATATTGCCCAAGCTGGTCTTGAACCCCTGGGCTCAAGTAAT
CTGCCAGCCTTGGCCTTGAGAAGTGCTGGGATTACAGACATGAGCCACCATGCTCAGCTATAATGGGTTTTCAATTATGTGAAAAATCCTTATGATGAAC
TATGCAGTAGCAGAGGCTAGAAATGTTATATATAGCATTACTAAAACAAACTAGAAGGAGTTAAAAGTAAGATTATAAAGTTTCCTTTTCCATCACTTAC
TTTCTCAGTGTTCTATAATGAACATGTATTACTTGAATAAGAAAAGATAAAGAACACTAGGAATTAAAATGAAGTTTATTACCTTAACTTGATATATGWT
ATCATTCTGTAGGACTGGCTTTGTTGGAAGAAAAGCTCAGATATAGCAATGAGAAATACCAAAAGTTTAAGGCAGTGGAAGAAAGCCTGCGTAAAGAGCT
GGTGGATATGCTAGGTGATGATGGTGTGTTCTTATATCCCTCACATCCCACAGTGGCACCTAAGCATCATGTCCCTCTAACACGGCCYTTCAACTTTGCT
TACACAGGTACCTAATTGTATTCCTTACATTCTGTAATCTTAAAGAAATAGAGATGTATGTTTCCAAGGAAAGCATAATTTTCTTTTGCAGTTGGACAAG
TTTTAAACMTGCAGGTATAAAAGTGCTGTGTGATTGAAAACTCCAGAAAACAGTTGCTAATGTCATATGTTGAAGATACTTTGCCAATATCTGGTTTCTC
CACAATAATCCTACAAGTGCATATGAGTATCCACATTTTACAGAACTGTGCCTCAGGGAGGTTCAGCCACTTGTCTTCTATCACTCAGTGTGATCACACT
AGATCCAAAGTCTCCCCTGGCTGCTCTGAATTAAACCAAGTTAAGCTTTTATCAGGATCTGTGGCTTCCCAGAAGATTCTTGTACAGAAGACAATTCTCC
AAGGGATCATTTACTTGACTTAGCTATCATCCCCTTTGAATTCAATTCATTCTATTCACCAAACTAATTTTCTTCACCTGGTTTTTAAGCCATGGATGGA
TCATGATTATGTGAAGTCTAAAGGCCCCTGGACATGTACTAGGTCAGTTTCTATGGTTTCTCCAGAGTCTTGTCCCAGGGAACCACACTATTCTTTGAGA
TGAAGATAGAGAACTCTTCATCAAATACACGTTCTCACCCAATAAACCTGTGGTCCACTTAAAGTTAGAATTTGGAATCCTTTGCTCTGCAATTTTCTAC
TTGTGCATCTGGAGGAAGACATTGAATCTTTCTCAACTTATTTCCTATCTAGGAAGTCAGGGTAATCTATGCCTTGCAGTGTTGCAGTTAAGATTAAATG
AAATAATACGTGTAAATTAATTAACATAAGGGTTGTGGAGGATGAGGGAGAGGATATTAAACAGTCCCTATCCTTAATTTCCTTACCCTTACTCTCTCCC
TGGCTTTGATCACTCACTCTTAATTTCTTCCTTCCTGTCCTTCCTTCCTTCCTTCCTTGCTTCCTTCCTTCCTTCTTGGAGTTTTGCTCTTGTTGCCCAG
GCTGGAATGCAATGGCACAAGCTCGGCTCACTGCAACCTCCACCTCCTAGGTTCAAGCGATTCTCCTACCTCAGACCCCCAAGTAGCTGGGATTACAGGA
GTGTGCCACCACACCCAGCTAAGTTTTGTATTTTTAGTAGAGACAGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGATTATCTGTC
CGCCTTGGCCTCCCAGAGTGCTGGGATTGCATACATGAGCCACCATGCCTGGCCTTAATTTCTTAAGTCTTTGAAAAAACATGCTGCCTAAATTGCTGCG
TTTAAGTTTCTATCACCTAGTTACTCAGTTTCTGAAGACAGGTAAAATACTTTAGTCAATAGGCTAGAACCCAAGGAGAAATATACTGTTTATACCTTTT
GGGGAGGATTTTCCTCAGCTTGAGGCTTCCTATGGTTTGTAACTTTTCCCTCTAGTTTAGCCTTGAACACATTTAAAGAGTGTTCCTTGTAAGCCAGATG
ATATTCTAGGTAATATGGATACAAGACCCATGATAGATGATAGCTGCAATTTAGCAAGTATCTAATATATACGAGATACTAGAAGCCAGAAATTCTATAC
ATTATCTCATTTATGTTTCCCCCAAATCCCTCACAGCAACTGAAGTTATCTTTGTGTAAAACCTGAGGAAACTGAATGATGTATAAAGTGATTTAAGGGT
CAGGGTCAGGACTGAAATTCAGTTGTATTCTATCTGACTTTAAATGCAATGTTATTTTCACTACATGTATGGGTTAATAATGCTCATTCATGTTTTGTTT
TTATTGTCTTTACTAAAGCTGAAAATATAAGAGGTTTGTGAGACCTTTTGTCAAAGATGTAGAATTGTTGGATGCCAAATAGGTTAATGTTTTATTCCTG
GTTCTTTTTTTTCCTACTGAGAAATACCCCTCTCAGTTTCTCAAGCTTGTATAAGCTTTTTATGTTTGTCTCCTACTTACAAGATGGGTACACTAAATCA
GATATTTAATTTTTGAGCCTTGGCTTTCTTACAGCTAAGATGAGGATGCTAGATTGACTTTGAAGGATGGTTGGAAGGATATAATRTAATAATGTGTAGA
GTGCTTTAAAATTATTAATAATAGTGATAATGATACCATTTATTGGAGACATGTATATGTTTATATTGATATTAATGTAGGTAATATCAATATCTCTGCT
TTACTTCGTAGTATTAGTTAYATGTGTTTTCCTTGTTTTATCTATTCCTAGAATTGTTCTGAGTTTTACATGTTTCATCTCATTTTATCTTACAGCAGCC
CTATAAAAAGGAGAAATTATTAGTGTCCTCATTTTACAGATGAAGGAATTTAGACACAAAAATCTTTAGGAAACATTTCCAAAGTCACATAGCTAAGATA
ATATACGAACTGGGACTTTAACCCAGGCCCTATGATTTCAGAGGAAGTGATCTTATTTATTACACAGAAGAGGAAACAGGAGGCTGAACAGGGTCTCTCA
GCTATGAAGTGAAGTGATAAGGATTCAAACCCAGGTCTGTCTGACTCCAAATCCTATTGCTTCTAATTAACTCTCTTCCCTTGTTCTTCTGCCTCACTTA
GTGCTCAGTGAAGCAAAGTACCTTCTCCTACTTTGCTCCATTGACACTCTACAATGAGAATAAATTTATTAAGCATGTATTGTGAACTATACTGTATGCA
CTGGTGTTAGATGAATCAGATACATTCCATGCTCTCAGGGAGCTCCTAGCTTAGTACAAGAGACAAACAAATGTTAACAGAGAATTTCAGTAGAAGAAAA
CAAAGGAAGGCTTTCTGGAATAGGTGACCCCTGATCTGGGTCCTGAAGGAGAACTAGAAATTAATCAGAGGAAGGATGTTGAGTAAGTATTACAATGGTC
CACGCAGTACGAACCCCATGAGCAATAGAACAGAAAAACACACAGGAACACTGTGGACAGAGGGTATAAACACTACACTAACTGGAGAGAGTAAGTTTTT
AATAGAGGAGTGAGAGGAGGAGCATGAGTTTGAAAAGGTAAGCATGTCATGGAGAACATTCACAGCCATGCTAAAAACTGCAAAAAAAATTTATTTGTCT
TGGCACCCTGCCCCATCCTGCTTTCTTTGCATAATGTCACTGGAATAACACAGTAATGAAAGAGAATAATCTAGCCTGCAGATTCTTTGAATATTTGATT
AGCCTATGCTATTTCCTGATAACATGCAATCAACAATGTTTCATATCATTGTATCTCAAAGAAGTTATTTACAGTTTTCTTCCACTTTAGTCCTACCACG
ATTATCAACATAACACCTATATGTCATAATAATTGGGAGAGGTGATTACCAGGACAGATGGAAGGAAACAGCTTACAAAAGTGGCCTTTCACTGGCTTTC
TCCCCTCTCCCCACTTTAGGTGTCTGTACTCAAAGATYTCTTGGACCATTTATATCCTGAGATGAACAGCATTGGCCATACAGCATTTTAAAGATCTCAT
CTGAGAAACCCATTGATATTGGTGCCAGGAATGCTAAGCAGATCTTTTGTGACCTCTTCAGCATCCAGCATTAGAGTGAAACTCAAGATTTATATGTCAG
GTTTGGCAAAATCATAACATGCCACTCTCAAGAGTCCCTCTTGTACCCATGCCAGTCATTAACAATTGATCACAGCATTCTTTTTCTCTGAGAACAAACT
TGACTTTGTGATATTTAAACAGAGTGGGCTTGGTCACCTCCCCAATTGATAAGCTAGACACACAAAATGAAATGTTCATGTAGTCTAAGCAAAGATTCTA
CTTAACAAAATAATCTGCTATATTGTTAGCTCTTCAAAGGCTGTGGTCTGTTTCTATCTTGTTCACCTATGTAATCCGCATTGACTAGGACATTGCATTG
TTGCACAAAATGCATAATTATTTTTTGTTAAACTAACAAATACATAATTAAAAATATAAATAAGAATGAACATCCCAGAATAACAGAGTAAGAAGCTCAG
CAAATTCTCTCTCAAGCAAACCAGCAATAAAACTGGAAAAATTACTGGAAACAACCATTTCAAGTGTGAAAAATGATCAAATGGCATAAAGCAAATTCAG
GAGCATTTATTCAAGAAAAATTAGTGATTCCTAATAAGAAAAGTTGGAGTCTATGATATTTAAGCTGGGATCTGTTTTCCCCTCCGCTTCTCAGATACAG
CTTTGAGGTACAAAACTTTCACACTGGGTAGGGCAAGGCAGACCTTAAAGACTGACAACTCCCATTCTTTCCAGACCCATGTTACACAGCATCTGTTGTG
GGCAAGTAGAGAATACTGCTACATCCAACAGCTTCCATTACCTGTGGCACCTTATTGTGGAAGTTCTAAACAAGGTCATGGCTGGTCATAAGAACTTGCA
GCTCTTCAACCCTGCCCAAGAGAGGCTGATTTTACATGAAGCAGAATATGGAAGATCTTAGATACAAAAAATTCCCTGAAAGCTAAAATTTCAGTGATAC
TAACAAAATTCACAGCAACGTACCCCAGAGGTAGAGAAAAATCAGAATCAAGAGTTGATAAAATATATTAACTAAAGCATCTAGTTTTCAACAAAAATTT
ATGAGGCATACAAGTAAAAAAGGAAAATGAGACCCACAAACAACAATGCCCACCTCTGCCACTTGTAGCCAGCAGGCCATGCCTGCTAGAGCTTCCAGCC
CAGCAGTTCCTCTTCTTTCTGAACTCTGCCAGTGGACACAGCCTCCTGTTATCCAGGGAAACAGAAAAACTGCAGGATAGGTGATTCCACAACCCCCACC
ASCACTCATAGCCAGGCAGCTAGAACTTCCAGCCCAGCAGTCCCACTTCTGTCTGAACTCTGATGGCAGGAACAGCCTCTAGAATATAACCCAACAGCAG
GTCAGGCAACTGCACCCAAACCCGCCACTCATAGCCAGGAAATCCATGTCTGATAGAGCTTCCAGCCCAGCATTCCCACATCTGCCTGAACTCTGTGTGT
GGCCACAACTTCTTGAACCCCCGGAAAGCACCTAGACAGGGGATTAAGTGACCCCACCCCATCCCACAGCTCTTAGATGATCAGGACTTGGTGGTGGCCA
AGCAAGGGTGAGCCCTCGTTCTCAGATCACTGAGAGAAGTGGAGATACCCAGGTTCATGGGCTGGCAGAGGATTGGGGTGTGCCTTGTTCCACAGGGCCA
GCCTGGCAAGGATATGACCTGTCTACTAAATGTGGTCCCTGCCTGAGGGAGCCCATGGACCAGAACACCTAACAAAAGAAGTGAGGGCATGGAACCAGTG
ATCGAAGGGGGCTCCTCCAARGCCCAGGAGCCATCTAGGTGAGCGAGTCACCTCTCTCCCCCACACCACAGAGGACTACTGTCATCTTGGCCAGAACACC
GAAGAGCCCTGAAAGAGAGTAGGAAGAGCCTATCTGCCTGCTAGCACTCTTAAGCGCCACCTGCTGGATCTCAGGTCAAAATGCAAACCTAAAATATTTT
GCAAGTATGTATCACCTGTGAAAACTAAGGAAAAGATCCAGCCAGAAATAAACATTCTGTACAAAGTCATGACCCTTTGAAATATACCCAGAAACAAAGC
CAGCTGACTATCCTCAACTTATCTCACGGGTGAAGAAACATCAACCCTTACACATGAGAAAGAATGAATCCAAGAACTGGCAACTCAAAAAGCCAGTGTT
TGCCCTTACCTATAAACGTACACATTAGCCTCCCAGAAATGGTTCTTAACCAGAGTGAGCTGACTGTGGACATAGAATTCAGAAGYTGGATGACAAGGAA
GCTCAGTGAGAATGAGGAGAAAGTTGAAACATAATCCAAGGAATCCAATAAAACAATTCAGTAGCTGAAAGATAAAATATCCATTTTAAGAAAGAACCAA
ATTAAATTTTTGGAACTGAAAAATTTACTTCCAGATCTCCACAATAGAATCTGAAGCATCAGCAGCAGAAAAATTAAGATGAAGAAAGAATCTCTGAGCT
GGAAGACCAGCTTATACAATCAACTCAGTCAGACAAAAATAAAGAAAAAAGAATTTTTGAAAATGAAAAAATCCTTTGAGAAATATGGGATTATGTAAAG
ATACCAAATGTATGACTCATGGTGTTTTCAAAAGAAAAGGAGAGAGAGTAACTTGTAAAACATATTTGAGGATATAGTCCATGAAAATTTCCCCAAACGT
CCCAGGGAGGAGGACATACAAATTCAATAAATACACAAACCCCCTGTAGATACTACACAAGATGACAAACCGGAAGGTACATAGTCATCAGATTCACCAA
GATCAACTCAAAAGAAAAACTCTTAAAAGTAGYTAAAGAGAAAAATCAGGTTACCTACAAAGTAAACCCCACCAGACTCTCTGTAAGAACTCTCTGTAAG
AAACCTACAAGTGAGAAGAGATTGGGGGCCTATTTTCAATATTGTTACAGTGAAGAATTTTCAACCAAGAATATCATATTCCATGAAACTAARCTTCATA
AGCAAACGAGAAATAAAATTCTTCCCAGACAAGCAAGTACTAAAGGAATTTATTATTACCAGACCACCCTTACCCGAGTTCTTTAAGAGAGTGCTAAATA
TGAAAATAAAGGACCAAAACTTGCTACCTCAAAAATCCACTCAAGCACATGGCCCATAAACAATATAAAGCAGCTATGCAGTCAAGTCTAAAAAACAGTC
AACAACATGATGACAGGATCAAAATCTCATAAATTAATACTAACCCTGAATGTAAAGGGTCTAAAAGTACCACTTAAAATGCATAGAGTGGCAAGCTAGA
TAAAAAGATAAAACCCAACAATCTACTGTCTTCAAGAGACCCATTTCAACTGCAATGACACCCACAAGTTCAAAGTAAAAGGATGGAGAAAGATCTATCA
AGCAAATAGAAAACAACAACAACAAAAGATCAGGAGTCATTATTCTTACATTAGATTAACAAATTTTAAACCAGCAACGGTCATAAAAGACAAAGAAGGG
TAATACTTAATAATAAAGAGTTCAATTCAACAGGAAGTCTTAACTATCCTAAACATATACACACCCAATGTAGAAGTACCTGGATTCATAAAGGAAGTTC
TTCCTAACCAATGGAAAGATTTAGACAGCCACAAATAATAACGGGGGATTTTAACATCCCACTCACTGAGTTAGACAGATCACTGAGGCAGAAAACTAAC
AAAGAAATTCTGGATTGAAACTTGACATTTGATCAATTGGACCCAATCAACCTCTACAGAGTACTCCACACAACAACCACAGAATATATATTTTTCTCAT
CCATACACAGAACATATTCTAAGGTCCACCACATCCTTGGACATAAAGCAAATCACAATAAATTCAAAGAAATCAAAACCATACCAAGCAAACTCTCAGA
CCATAGTGCAATAAAAGCAGAAATCAATACCAAGATCTCTCAAAACTACCAGAAAATGGAAATTAAACAACTTTCTCCTGAATAACTCTTGGGCAAAAAA
CAAAATTAAGACAGTAATTAAAAATTACTTTGAAATTAATGAAATAGGAGACACAGCTTACCAAATCTTTGAGATGCAGTTAAAGCAGTGGTAAGAGACA
AATTTGTAGTGCTAAACACCTTCATCAAGAGGTTAGAAAGATGTCAAATTAACAACCTAAAGACAGTCAGATAAACAAGAAAAAAGAACATCCAACTCCG
AATAAAGTAGAAGAAAATAAACAACTAAATCAGAGAACTGAGCTGAATTCAGACCTAAAAGACCATACAAAACATCAATGAAAACAAGTGTTGCTCCTTC
AAAAGAATAAACAAGATTGATATACCATTAGCTAAACTAACAAGGAATAATAAAAAATAAAGATCCAAATGAGCACAATGAGAAATGACAAAGATGATAT
TACAACTGATTCCACAGAAATAGAATAGTTCCTTAGAGACTATACAGAACACCTTTGTGAACACAAGTTAGAAAATATAGATACAATGGATAAATTCCTA
GAAACACACAACCTYCCAAGATAGAATCAGGGATAAAAGTGAAGACATGAACAGATAAATAACAAGTTCAGAAATTGAATCACTAATAAAAAAACTTACC
AACAAAAAAGAGCCCAGGACCATGGATTCACGGCCAAATTCTACCAGACATATAAGGAAAAACTGATACCAATCCTACTCACACTTTCCCAAGAAAATCG
AAGAAGAGTCTTCTCCCTAATGCATTCTATGAATCCAGCAGCATTCTGATACAAAAATCTGGCAGAGACAAAATGTAAAGTAAAATAAAAAAAAATTCAA
GTCAATATCCCTGATGAACATGGATGCAAAAATTCTCAACAAGATAATAGCAAACTAAATCCACCAGCATATCAAAAAGTTAATCCAACACAGTCATGCA
AGTTTTATTTCTGGGATGCAAGGTTGATTCACCATACAGAAATCAATAAATGTGATTCACCAAATAAACAGAATCAAAAGCAAAAACTACATGATCATCT
CAATAGATACACAAAAAGCCTATAATATAATCCAACATCCCTTAATGACAAAAGCCCTCAACAGATTAAGCATTAAAGTAGCATACCTAAAAATAGTAAA
AGCCATCTACGACAAACCCACAGCCAACGTAATACTGAATGAGCAAAAACTGGAACGGTTCCCCTTGGGAACTGGAACAAGACAAGTATGCCCACTTTCA
CCRCTCCTATTCAATATAGTACTGGATGTGCTAGCCAGCGCAATGAAGAAAGGGAATAAATAAAAGGCACCCAAATAAAAAGAGAGAAAATCAAACTCTC
TCTCTTTACTGATATGATTCAATACCTAGAAAACCCTAAAGACTCTGCTAAGTCTCCTGGAACTGATAAATGAATTCACTAAAATTTTAATATACTAAAC
CAATGTACAAAAATCCTAACATTTTTATACACCAATATTGTTYTAGGTGAGAATCAAATGAAGAACAGAATTCCATTTACAATAGCCACAAAAAAAAAAA
AAAGGAATACCTAGGAACCCATCTAACCAATGAGGTAAAGATCTTTACAAGCAGAACTGCAAAACACAGCTAAAAGAAATCAGAGGTAACACAAATAAAT
GGGAAAATATTTCATGCTCATATATTGGAAGAATCCACATAGTTAAAATGGCCATACTGCCCAAAGCAATTTACAGATTCAACACTACTCCTATCAAAAT
ATTAATGCCATTTTTACAAAATTTGACAAAATTATTTTTAAATTCATTTGGAACAAAAAAAGAACCTCAACAGCTAAAGCAATATTAATCAAAAAGAGCC
AATACAGAAGCATCACATTGCCCAACTTCCAAATGTACTATAAGGCTACAATAATCAAAACAGCATGGTACTGCTGCAAAAAAAGACACATAGACCAAGG
AAACAGAATTGAGAACCCAGAAATAAACCTGCCACCTACAACCATCTGATCTTCAACAAAATGAGCAAAAGTAAGCAATGGAGGAAAGGACTCTCTATTC
AATAAATGGYACTRTAATAGTTTGCCTGCCGTATGCAGAAGAATGAAACTGGATCTCTACCTGTCACCATATATGAAAACTAAGTTAAAGTAGATTAAAT
ATTTAAATGTAAGACCTCAAACTATAAAAATATTGACAGATAGCTGGGCAGGTGCCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTT
GAACCCAGGAGGCAGAGGTTGCAGTGAATCGAGATGGCACCACTGCACTCCAACCTGGGTGACAGAGCAAGACTCCATCCAAAAAAAAMCAAAAAAATCC
TAGAAGAAAACCTAGGAAGATGGATGTCGAGATGGCTGAATAGGAATAGCAGCTTCAGTCTGCAGTTCCCAGTGAGATCAACGCAGAAGGGGAGTGACTT
CTGCATTTGCAATTGAGGTAACCTAATCATCTCGCTGGGACTGGTTAGGCAGTGGGTGCAGACCATGGAGGGYGAGCAGAAGCAGTGTTGGGCATTGCCT
TACCCGGGAAGTGCAAGGAGTGGGGGYCTCCGTTCCCTAGCCAAGGGAAGCCCTGAGAGACTGGGCTATCCAGCCCATTTACTATGCTTTCCCCACAGGT
TTGCAATCCAAAGAACAGGAGATTCCCTCTTGTGCCTACACCACCAGGGACCTGGGTTTGAAACACAAAACTGGGAGGCTGTTTGGGCAGTCACTGTGCT
AGCTGCAAGAGTTGTTTTCTTGTTGTTTCCCAGTGGCGCCTGGAACTCCACCAAGACAGAACCRTTCACTCCCCTGGAAAGAGGGAAAGGGGGCTGAAGC
CAGAGAGCCAAGTGGTCTCGCTCAGTGGTTCCCACTCCCATGGAGACAAGCAAGCTAAGAACCACTGGCTTGAAATTCTCACAGCCAGCACAGTACTCTG
AAGTCAACCTGGGACGATCTAGCTTGGTGGGGGGAGGGGCATCCGCCATTACTGAGGCTTGACTAGGCAGTTTTCCCCTGAGAGTGCTAACAAGGCCTGA
AAGTACAGGCTGAAGGGAAATCAACACAGCATGGCAAAAGCAGCTATGGCCAGACTGCCTCTCTAGATTCCTCCTCACTGGGCAGGGCATCTCTGAAAGA
AAGGCAGCAGCCCCAGGCAGGGGCTTATAGATAAATCTTTCATCTCCCTGGGGCAGAGCACCTGGGGGGAAAGGGTGGCTGTGGGCACAGCTTCAGTGAA
CTTAAACATTTCTGCCTGATGGCTCTGAGGAGAGCAGCAGATCCTGACAAGGGGGTTTCTCCCAGCACAGTGGTCAAGCTCTGCTAAGGAAGAGACTGCC
TCCTCAAGTGGGTCTCTAAACCTTGTGCCTCGTGACTGGGATAGACCTCTCAACAGGGTTTGACAGACACCTCATACAGGAGAGCTCTGGCTGGCATAAA
GCCAGTGCCCCTCTGGGATTAAGCTTCCAGAGGAAGAAGCAGGCAGCAATCTTTGCTGTTCTGCAGCCTCTGCTGGTGATACCCAGACAAATAGGTTCTG
GAGTGGACCTCCAACAAACTTCAGCAGACCTGCGGAAGAGGGGCCTGTCTGCTAAAAGACAAACTAACAAAAAGAAAGCAACAACATCAACATCAGCATA
AAGAAACCCTTACAAAACCCCATCCAAAGGTCACCAGCCTCAAAGATCAAAGGTAGATAAATCCACTACAATGAAGAAAAAACAGCACAACAATGCTGAA
ACTTCCAAAAACAAGAATGCCTCTTCTCCCCCAAGTGATCACAAATCCTCTCCAGCAAGGGCACAAAAATGCATGCAGAATGAGTTTGACGAATTGACAG
AAGTAGGCTTCAGAACGTGGGTGATAAAAAACTCATCTAAGCTAAAGAAGTGTGTTCTAAACCAATGCAAGGAAGGCGTGAAGACAAGATTAGAGAAAAA
AGAATGAAAAGGAATGAAAAAAGCCTTCAAGAAATATGGGACTATATGAAAAGAATGAACCTACGATGGATTGGGGTCCCTGAAAGTGATGAGGAGAATG
GAACCAAGTTGGACAACACACTTCAGGATATTACCCAGGAAAACTTCCCCAACCTAGCAAGACACACGAACATTCAAATTCAGGAAATACTGAGAATACC
ACTAAGGTACTCCTCAAGAAGAGCAACCCCAAGACAGGTAATCCTCAGATTCTCCAAAGTTGAAAGGCTGGAATAAATGTTAAGGGCAGCTAGAGAGAAA
GGTCAGGTTACCTACAAAGGGAAACCCGCCAGACTAATAGCAGATGTCTCTGCAGAAACCCTACAAGCCAGAAGAGAGTGGGGGCCAGTATTCTCAAAGA
AAAGAATTTTTAACTCAGAATTTCTTATCCAGCCAAACTAAGCTTCATAAGCAAATGAGAAATAAAATCCTTTCCAGACAAGCAAATGCTCAGGGATTTT
GTCACTACCAGGCCTGCCTTACAAGAGATCCTGAAGAAATCACTAAATATGGAAAGGAAAAACTGGTACTAGCCACTGCAAAAATACACCAAAATATAAA
GACCAATGACACTATGAAGAAACAGCATCAACTAACGTGCAAAATAACTAGCTAGCATCATGATGACAGAATCAATTTCACACACAACAATATTAACCTT
AAATGTAAATGGGCTAAATGCCCCAATTAAAAGACACAAACTGGTAAATTGGATAAAGAGTCGAGACCCATCATTGTGCTGTATTCAGGGGACCCACCTC
ACGTGCAAAGACGCACATAGGCTCAAAATAAAGGGATGGGGGAATATTTACCAAATAAATGGAAAGCAAAGGAAAACAGGGGTTTCAATCCTAGTCTCTG
ATAAAACAGACTGCAAACCAACAATGACCAAAAAAGACAAGAAGGGCATTACATAATGGTAAAATGATCAATGTAAAAAGAAGAGCTAACTATCCTAAAC
ATACATGCRCCCAATACAGGAGCACCAGATTAATAAAAAAAAAAAAGTTCTCAGAGTTCTACAAAAAGACTTAGACTCCCACACAATAATAGTGGGAGAC
TTTAACACCCAACTGTCAATATTAGATGGATCAATGAGGCAGAAATGTAGCAAGGATATTCAGGACTTGAACTCAGCTCTGAACCAAGCAAACCTAATAG
ACATCTGCAGAACTCTCTACCCCAAATCAGCAGAATACATTCTTCCTAACACCACGTAGCACTTATTCTAAAATTGACCACATAGTTGGAAGTAAAACAC
TCCTCAGCAAATGCAAAAGATTGGAAATCATAACAAAGTCTCACAGAACACAGTGCAATCAAATTAGAACTCAGGATTAAGAAACTCACTCAAAACCACA
CAACTACATGGAAACTCAACAACCTGCTCCTGAATGACTACTGGGTAAATAACAAAATTAAGGCAGAAATAAATAAGTTCTTTGAAACCAATGAGAACCA
AGACAGAACATACCAGAATCTCTGGGACACAGCTGAAGCAGTGTTAAGAGGGACATTTATAGCACTAAATGCCAAAATCAGAAAGGGAGAAAGATCTAAA
ATCAACACCCTAACATCACAATTATAAGAACTACAGAAGAAAGAGCAGACAAATTCAAAGGCAATCAGAAGACACAAAATAAGATCAGAGCAGAATTGAA
GGAGATAAAGACTCAAAAAAACTTTAAAAAAAATCAATGAATACAGGAGCTGGTTTTTCAAAAAGATTAACAAAATACATAGACCACTTGCCAGACTAAT
AAAGAAGAAAAGAGAGAAGAATCAAATAGACACAATAAAAAATGATAAAGGGAATGTCACCACTGATCCCACAGAAATACAAACTACCATCAGAGAATAC
TATAAACACCTCTATGCAAATAAACTAGAAAATCTAGAAGAAGTGGATAAATTCCTGGACACATACACCCTCCCAAGGCTAAACCAGGAGGAAGTCACAT
CCCTGAATAGACCAATAACAAGTTCTGAAATTAAGGCAGTAATTAATAGCCTACAAAAAAAAAAAAAAAAAAAAAACCCAGGACCAGACGCATTCACATG
AGGATTCTACCAGAGGTACAAAGAGCAGTTGGTACTATTCCTTCTGAAACGATTCCGAAGAATAGAAGAAGAGGGATTCCTCCCTAACTCATTTTATGAG
GCCAGCATTGTCCTGATTCCATAACCCGGCAGAGACACAACAAAAACAGAAAATTTCAGGCCAGTATTCCTGATGAAAATGGATGCAAAATTTCTCAATA
AAATACTGGCAAACCGAATCCACCTGCACATCAAAAAGCTTATCCATCACGATGAAGTCGGTTTCATAACTGGGATGCAAGGCTTGTTCAACATACGCAA
ATCAATAAACATAACCCATCACATAAAGAGAACCAGTGATAAAAAACACATGATTATCTCAATAGATGCAGAAAAAGCCTTCAATAAAATTAAACACCGC
TTCATTCTAAAAACTCTAAATAAACTAGGTATTGATGGAACATATTTCAAAATAATAAGCACTATTTATGATAAACCCATAGCCAATATCATACCAAATA
GGTAAAATCTGGAAGCATTCCCTCTAACAACCAACACAAGACAAGGATGCCGTCTCTCACCATTCCTATTCAACATAGTATTGGAAGTTCTGGCCAGGCC
AATCTGGCAGGAGAAAGAAATAAAGTCTATTCAAATAGGAAGAGAGGAAGTCAAATTGTCTCTGTATGCAGATGACATGATTGTATATTTAGAAAACCCC
ATCATCTCAGCCCCAAAACTCTTTAAGGTGATAAGCAACTCCAGCAGTTTCATGATACAAAATCAGTGTGCAAAAATCACAAGCATTCCTATACACCAAT
AATAGACAAGCAGGGAGCCAAATCATGATTGAACTCCTATTCACAATTGCTACAAAGAAAATTTAAAAACCCAGGAATACAACTTACAAGGGACGTGAAG
GATCTCCTCAAGAAGAACTACAAACCACTGCTCAAGGAAATAAGAGAGGACACAAACAAATGAAAAAACATTCCATACTGATGGATAGGAAGAATCAATA
TCATGAAAATGGCCATACCACCCAAAGTAATTTATAGATTCAATTCTATTCCCATCAAGGTATTAGTGACTCTCTTCACAGAACTAGAAAAAACTAATTT
AAATTTTATATGAAACAAAAAAAGAGCCCATATAGCCAAGAAAACCCTAAGAAAAAAGACCAAAGCTGGAGGCATCATGCTACCTGACTTTAAACTATAT
TACAAGACTACAGTAACCAAAACACCATAGTATTGGCACCAAAACAGATATATAGACCAATAGAACAGAACAGAGGCCTTAGAAGTAAGAACACACTTCT
ATAACCATCTGATCATCGACAAACCTGACAAAAACAAGCAATGAGGAAATAATTACCTATTTAATAAATGGTGCTGGGAAAACTGGCTAAACAGACACTT
CTCAAAAAAAGACATTTATCTGGCCAACAAACATGAAAAAAAGCTCATCATCACTGGTCATTAGAGAAATGCAAATCAAAACCACAATGAGATACCATCT
CACCCCAGTTAGAATGGTGATCATTAAAAAGTCTGGAAACAACAGTTGCTGGTCAGGATGTGGAGAAATAGGAATGCTTTTACACTGATGGTGGAAGTGT
AAATTATTTCAACCATTGTGGAAGGCAGTATGGCAATCCCTCAAGGATCTAGAACAAGAAATACCATTTGACCTAGCAATCACAGTACAGGGAATATACC
CAAAGGATTACAAATCATTCTACTATAAAGACAGATCCACACATATGTTTATTGCAGCACTATTTACACTAGCAAAAACTTGGAATCAACCCAAATGCCC
ATCAATGATAGATTGGATAAAGAAAATGTTGCACATATACACCATAAAGTACTATGCAGCCATAAAAATGAATTAGTTCATGATGTCCTTTGCAGGGACT
TGGATGAAGCTGGAAACCATAATCCTCAGCCAACTAACACAGGAACAGAAAACCAAACACTGCATGTTTTTACTCAAAAGCGGGAGTTGAACAATAAGAA
GACACACACACAGGGATGGGAACATCACATACCGTGGCCTATTATGGCATTGGGGGAAAGGGGAGCAAGAGCATTAGGACAAATACCTAATGTATGCGGG
GCTTAAAACCTAAATGATGGGTTGATAGGTGCAGCAAACCACCATAGCAAATGTATACCTATGTAACAAACCTGCACATTCATCACATGCATCCCAGAAC
TTAAAGAAAAATAAAAATAATTTTAAAAAGAAAGAAAACCTAGTAAATACTTTTCTTGACATGGGTTTTGGCAAATAATTTATGGCCAAGTTCCTAATAG
CAATTGCAAAAAAAAAAAAAAAAAAAAAATTGACAAATGAGWCCTAATTAAAGTAAAGGGCTTCTGTGCAATAAAATAAATTACCAATAGAATCAACAAA
CAGTAACAGAATGGGARAAAATATTTGCAAACTATACATCCAACAAAGGCCTACTATCCARAACCTACAAAAAACTTAACAAATCAACGTGCAAAAAARA
AACCACCTGAACAACCACATGTTGGGTACTATGTTTATGACCTGGAAGATAGGATCACTAGAACCTCAAGCCACAGCATCATACAATTTACTCAAGTAAC
AAATCTACATGATGTATACCATTTAATATATAATAAAAGTTGAAATTAACAAAAAAAACAATGACAACAAAAACAAAATCAGGCAATAGAATCATTCTTT
TATCTTGGACTTAGAAGACAAATAATACAATGAGGATATTTAAGGATATTCAGACAACTAAAGAAAACCATGTTCTAAGAATCAAAAGATGGAATGACAG
TATTTTATTAAATAGAGACTATCATTGAAGAGATGAAAGTTATTTGAAAGAAAAAGCAAATAGAAATTTTGAAGTTGAAAATTAATTAAAATTAAAATTC
ACTAGAGGAGCTCAACATTATGTTTTAAATGGAAGAATAAAGAGGAAAGAATCAGCAGGCTTAATGATAGATCAGTTGGCATAATTTAATCTAATGAACA
GAGAGAAAAGCAAAAGAATAAAAATAAACAGTCTCAGGGACCATTGTGATACCCATCAAGCATACTAATATATGCATATGGAGAATTCCAGAACGGGAGA
TGAGTAAGAAAAGATGAATCAAAAAAAGTTTGAGGACATTATATCTGAAAATGTGATGAAGTTAACAAACTCTAAGTAGGACAAATGCAAAGATATCCAC
CCTAAATAAATGAAAAATTCAAAAGTAGCAAAGAAAAATAACCTACCCATCAACTAGAAGGAAACCACAATAACAGTGATGGATGAGTTATCAGAAACAA
GGAAGCCAGAAAACAGTGAGATGATATTTTTAAAATAATAAAAGACAGCCAACCAATACTCTTATAATTCACAGAATCTTTCAAATGTTAAGACAAAATA
AAAACCTTTGCAGATAAACTAAAACTGAAAGAGAATTGTGTTGCTAGGAGATCATCTTTACAAGAAATACTACAGGGAGTTTGTCTTGGTGAAAGAAAGT
GACACCAGACAATAATTCAAAGTCATATGAAAAATCAAGGAGCTCTGGTGAAGGTAATTACAAAAGACATAATAATTACAAATTTATTATTATTTCTTCT
CTTGCTTTTAAAAATAATACCCAAAACAATTATTAAATGGTATGTTTTGAATTATATATAAATGTAATATATATGACAGCAATAGCACAAAGGAATGGAG
AAGGAATAAAGCTATATTGTAACAAGAAAATGACACTCAACCATAACTGAAATCCAAAAATGGAATGAAGACTACTGGAAATGGTAAGCAGGTTAATGCA
AAAGACTCTACAAATGTACTTTCCTCTTTTTTCTTGTCTTCTTTCATACACACGCACACATAAAAACACATACATACATTATATAAAGCRAAAGCTATAG
CACTGTATTGTTGGATTAYCTCTCTCTCTCTCTCTCTCTCTCTMTATATATATATATATATATATATATACCCACACACACATAGTATACATAACTATAA
TAACACAGAAAAGGATTAGAGAATGCAGCTATTTTGCTGCAAACTTTTTGTATTTTACTGTAAATTAGTTAATAGATTCTGAAGAGTTAAGATGGCTGTT
TTAATCCATAAATCAGTCACTAAAAATACCTCAAAATATAGCCTAACAACTCAAAACTAATTAAAATAATATACTGGAAAAGTATATATATGTGTATATA
TATCTTAATTAAAATAATATACTGGAAAAGTATATATATATATATAACAAAAGTATGTAAAAGAGGAACAGAAAAAACGAGGCATATAGAAAACATGTAG
CAAATCAGGTATATAAATACAACAATTTCAGTAATAACATTAAATTTGAATGGAACAAACACTCCAATCAAACGGCAAACATGCCAGGCTGGATGCAAAA
AATCAAGGATCAACAGTATGCTATATACAAAGGACACAATTAAGATTCAAATAGATTGAAACTAAAAGGATGGGAAAAGATATTTCCTATCTATTATTTT
CCCCACTTGAGATATTGGAAAGCACTCAGCAGTCTCCACAGAGTATATACACAAGGCTTCTATTGAAAGGCAAAAGGTATAGGGCAGTGACAGTCTAAGA
ATGCAGACAAGCATTAAGGGTGTGAAATAAATACATTGTAGGCAACCATTGTGGATGTAGGATTGATTTCATAATGCAAGATGCCTATGAGCCCTAATCA
CATACACAGACCATGCTGAATCTTGAGCTTTAATAATCAAGATTTGTACAAGGAATCTTGGCTTATAGAGGTCTCAAAAACAAGCTCTCCAGAGGTGGTT
TTGCTGCTGTKGTTTTTGTTGCTGATGATGATGATTTTTGTTACCCTCACCACATAATTAAGATAGACTTTCCAAACAAGTTTCAATCTATTATTAAATA
AGTTGATTTGGGTTCCAAGATGGCCAAATAGGAACAGCTCCAGTCCACAGCTCCCAGCATGAGCGACGCAGAAGATGGGTGACTTCTGCATTTCCAACTG
AGGTACCAGATGCATCTCACTGGGGAGTGTTGGACAGTGGGTGCAGGACAGCGGGTGCAGTGCAATGAGAGTGAGCCAAAGCAGGGCAAGGCATCGCCTC
TCCCAGGAAGTGCAAGGGGTCAGGGAATTCCCTTTCCTAGTCAAAGAAAGGGGTGACAGAAGGCACCTTGAAAATCGGGTCACTCCCACCATAATACTGC
ACTTTTCCAATGGTCTTAGCAAAGGGCACACCAGGAGATTATATCCTGCACCTGGCTCAGAGGGTCCTACACCCATGGAGCCACACTCATTGCTAGCATA
GCAGTCTGAGATCAAACTGCAAGGTGACAGCGAGGCTGGAGGAGAGGTGCACAACATTGCTGAGGCTTGAGTAGGTAAACAAAGCAGCCAGGAATCTTGA
ACTGGGTGGAGCCCACCACAGCTCAAGGAGGCCTGCCTGACTCTGTAGACTCCACCTCTGGGGGCAGGGCATAGCCAAACAAAAGGCAGCAGAAACCTCT
GCAGACTTAAATGTCCCTGTCTGACAGCTCTGAAGAGAGTAGTGGTTCTCCCAGCACAGTTTGAGATCTGAAAACGGACAGACTGCCTCCTCAAGTGGGT
CCCTGACCTCCAAGTAGCCTAACTGAGAGACACCCCCCAGTAGGGGCAGACTGACACCTCACACAGCTGGGTACCCCTCTGAGATGAAGCTTCCAGAGGA
ATGATCAGGCAGCAACATTTGCTGTTCAGCAATATTCGTTGTTCCACAGCTTTCGTTGCTGATACCAAGGCAAACAGGGTCTGGAGTGGACCTCCAGCAA
ACTCAAACAATCCTGCAGCTGATGGTCTACGCTGTTAGAAGGAAAACTAACAAAAAGAAAGGACATCCACACCAAAAATCCATCTGTTGGTCACCATAAT
CAAGACAAAAACTAGATAAAACCACAAAGATGGTGAAAAAACAGGGCAGAAAATCTGAAAATTCTAAAAATCAGAGCACCTCTCCCCCTCCAAAGGAACG
CAGCTCCTCAACAGCAATGGAACAAAGCTGGATGGAGAATGACTTTGACGAGTTGAGAGAAGAAGGCTTCAGATGATCAAACTTCTCTGAGCTAAAGGAG
CAAGTTCGAACCCAATGCAAAGAAGTTAAAAACGTTGAAAAAAGATTAGATGAATGGCTAACTAGAATAACCAGTGTAGAGAAGTCCTTAAATGACCTGA
TGGAGCTGAAAACCATGGCATGAGAATGACGTGATGAATGCACAAGCTTCACTAGCTGATTTGATCAAACGGAAGAAAGGGTATCAGTGATTGAAGATCA
AATGAATGAAATGAAGTGAGAACAGAAGTTTACAGAAAAAAATAGTAAAAAGAAATGAAGAAAGCATCCAAGAAATATGGGACTATGTGAAAAGACCAAA
TCTACGTCTGACTGGTGTACCTGAAACTGACGGGGAGAATGGAACCAAGTTGGAAAACACTCTACAGGATATTATCCAGGAGAACTTCCCCAATCTAGCA
AGGYAGGCCAACATTCAGATCCAGGAAATACAGAGAATGCTGCAAAGATACTCCTCGAGATGAGCAACTCCAAGACACATAATTGTCAGATTCACCAATG
TTGAAATGAAGGAAAAAATATTAAGGGCAGCCAGAGAGAAAGGTTGGGTTACCCACAAAAGAAAGCCCATCAGACTAACAGCGGATCTCTCAGCAGAAAC
TCTACAAACCAGAAGAGAGTGGGGGCCAATTTTCAACATTCTTAAAGAAAAGAATTTTCAACCCAGAATTTCATATCCAGCCAAAYTAAGCTTCATAAGT
GAAGGAGAAATKAAATCCTTTACAGACAAACAAATGCTGAGAGATTTTATCACTACTAGGCCTGACCTACAAGAGCTCCTGAAGGAAGCACTAAACATGG
AAAGGAACAACTGGTAACAGCCACTGCAAAAACATGCCAAATTGTAAAGACCTTCAAAGCTAGGAAGAAACTGCATCAACTAACGAGCAAAATAACCAGC
TAACATCATAATGAAAGGATCAAATTCACACATACCAATATTAACCTTAAATGTCAATGGGCTAAACGCTCCTATTAAAAGACACAGACTGRCAAATTGG
ATAGAGAGTCAAGACCCATCAGTGTGCTGTATTCAGGAGACCCATCTCACATGCAGAGACACACATTGGCTCAAAATAAAGGGATGGAGGAAGATCTACC
AAGCAAATGGAAAACAAAAAAAGGCAGGGGTTGCAATCCTGATCTCTGATGAAACACACTTTAAACCAACAAACATCAAAAGAGACAAAGAAGGCCATTA
CATAATAAAAAAGTGATCAATTCAATAAGAAGAGCTAACTATCCTAAATACATCTGCACCCAATACAGGAGCACCCAGATTCATAAAGCAAGTCCTGAGA
GACCTACAAAGAGAATTACACTCCAACACAATAATAATGGGAGACTTTAACACCCCACTGTCAACATTAGACAGATCAGTGAGACAGAAAGTTAACAAGG
ATATCCAGTAATTGAACTCAGCTCTGCACCAAGCGGACCTAATAGACATCCACAGAAGTCTTCACCCCAAATCAACAGAATATACATTCTTCGCAGCACC
ACACCTCACCTATTCCAAAATTAACCACATAGTTGGAAGTAAAGCACTCCTCAGCAAATGTAAAAGAACAGAAATTATAACAAACTGTCTCTTAGATCAC
AGTGCAATCAAACTAGAACTCAGGATTAATAAACTCACTCAAAACCACTCAGCTACATGGAAACTGAAGAACCTCCTCCTGAATGACTACTGGGTACATA
ATGAAATGAAGGCAGAAATAAAGATGTTCTTCAAAACCAATGAGAACAAAGACACAAAACACCAGAATCTCTGGGACACATTTAAAGCAGTGTGTAGAGG
GAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCGAAATTTGACACCCTAATATCACAATTAAAAGAACTATAGGAGCAAGAGCGAACA
CATTCAAAAGCTAGCAGAAGGAGAGAAATAACTCAGATCAGAGAAAAACTGAAGGAGATAGAGACACAAAAAACCCTTCAAAATATCAACGAATCCAGGA
GCTGGTTTTTTGAAAAGATCAACAAAATTGATAGACTACTAGCAAGACTAATAAAGAAGAAAAGAGAAGAATCAAATAGACACAATAAAAAATGATAAAG
CGGATATCAACACCAATCCCACAGAAATACAAACTACCATCAGAGAATACTATAAGCACCTCTATGCAAATAAACTAGAAAATCTAGAAGAAATGGATAA
ATTTCTGGACACATACACCCCCTAAGACTAAACCAGGAAGAACATGAATCCCTGAATAGACCAAAAACAGGCTCTGAAATTGAGGCAATAATTAATAGCC
TACCAACCAAAAGAAGTCCAGGAGCAGATGGACTCGCAGCCAAATTCTACCAGAGGTACAAGGAGGAGCTGGTACCATTACTTCTGAAACTATTCCAATC
GATAGAAAAAGAGCGAATCCTCCCTAACTCATTTTATGAGGCCAGCATCATCCTAATACCAAAGCCTGGCAGAGACACAACCAAAAAAGAATTTTAGACC
AATATCCCTGATGAACATTGATGCAAAAATCCTCAATAAAATACTGGCAAACCGAATCCAGCAGCACATAAAAAAGCTTATCCACCATGATCAAGTGGGC
TTCATCCCTGGGATGCAAGGCTGCTTCAACACACGCAAATCAATAAACGTAATCCAGCATCTAAACAGAACCAAAGACAAAAAACACATGATTTTCTCAA
TAGATGCAGAAAAGGGCTTCAACAATATTCAACAGCCCTTCATGGTAAAAACTCTCAATAAATCAGATATTGATGGAATGTATCTCAAAATAATAAGAAC
TATTTATAACAAACTCACAGCCAATATCATACTGAATGAGAAAAAACTGGAAGCATTCCCTTTGGAAACTGGCACAAGACAGGGATGACCTCTCTCACCA
TTCCTATTCAACATAGTGTTGGAAGTTATGGCCAGGGCAATGAGGCAAGAGAAAGGAATAAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCC
TGTTTGCAGATGACAAGATTGTAAATCTAGAAATCCCCATTGTCTCAACCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAA
CATCAATGTGCAAAAATCACAATCATTCTTATACACCCATAACAGATAGAGAACCAAATCATGAGTGAGCTCCCATTCACAATTGCTTCAAAGAGAATAA
AATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAACGAAATAAAAGAGGATGCACATAAATGGAA
GAACATTCCATGCTTATGGATAGGAAGAATCAATATCGTGAAAATGGCCATACTGCCCAAGGTAATTTATAGATTCAATGCCATTCCCATCAACCTACAA
ATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGAAACCAAAAAAGAGCCCGCATTGCCAAGTCAACCCTAAGCCAAAAGAACAAAG
CTGGAGGCATCACACTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAACAGCATGGTGCTGGTACCAAAACATAGATACAGACCAATGGAA
CAGAACAGAGCACTCAGAAATAATACCACACATCTACAACCATCTGATCTTTGACAAACCTGACAAAAACAAGAAATGAGGAAAGGATTCCCTATTTAAC
AGGTGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATTAATTCAAGTTGGATTAGAGACT
TAAATGTTAGACCTAAAATGATAGAAAGCTTAGAAGAAAACCTAGGCAATACCATTCAAGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAA
AGCAATGGCAACAAAAGCCACAATTGACAAATGGAATCTAATTATACTAAGGCGCTTCTGCACAGCCAAAGAAACTACCATCAGAGTGAACAGGCAACCT
ACAAAATGGGAGAAAATTTTTGCAATCTACTCATCTGACAAAGGGCTAATATGCAGAATCTACAAAGAGCTCAAACAAATTTACAAGAAAGAAACAACTC
CATCAACAAGTGTCCTGTAGTTTTTTTGTTGTTCKTGTGTTCTTTCATGTTTTTAATATCGTGGAGATACTGGATTTGTACAATGATTTAGAGAGGTATT
CCTMCACTTTGATTTTTTGGAATAGCCTCAGTAGGATGACACCAGATCTTTTCTGTACATCTGGCAAAACCTGACTGTGAATCTGTCTGTTCCTGTTCTT
TTGTTTGTTGGAAGATTTGTATTACTGATTAGATTAGTGATTAGATCTCTTTGTTGGAAGATTTGTATTACTGACTAGATTTTTTTTTTTACTTGTTTGT
GGTCTGTTCAGGTTTTCTATTTCTTGCTAGTTCAATCTTGAGAAGTTGTATGTTTCCAGGAAACTATCAATTTTCTCTAGATTTTCTAGTTTGTGTGCAT
AGAATTGTCCATATTAGTCCCTGATTGTCTTTGGTATTTCTATGGCATAAGTTGTAATATCACCTTCATCATTTCTGATTGTGCTTATTTGAATCTTCTC
TGCTTCTTTTTTGTTTTTTCATTAGTCCTGCTAGGGGTCTGTCAAGTTTTTTTCTAATGCTTTCAAAGAACTAAATTTTCTTTCATTAATCCTTTTTAGC
TTTTTGTGGTCTCAATCCTATTTAGTTAATCCTGGCCATGTTATTTCTTTTCTTCTGCTAGCTTTGGATTTGGTTTGTTCATGTTTTTATATTTCCTTAA
GGTGTGAATTAGTTTGTTAATTTTAGAGCTCTCTCTCCTTTTCATGTAGGCATTTAATGCTATAAACTTTCGTTTTAGCACTTTTTTGCTGTGTTTTAGA
TGTTTTGTTATATTGTGTCTGTTTTTATACACTTCAATTTTTTTTAAATTTCTGCCTTAATTTCATTGTTCACCCAAAAATTATTTAAGAATAAGTTGTT
TAGTTTCCATGTATTAGCATAGTTTTGAGAGATTTTCTTGTTATTGCTTTCTAAATTTATTCCACTGTGGTCTGAGAAGAGACTTGATATTATTTTACCT
TTTTGAATGCGTTGAGACTTGCTTTCTGGCCAAGCATATGTTCAATTTTGGAGAATGTTCCATGCACAAGTGAGCAGAATGTATATTCTGTGGTTGTTGT
GTATGCTATAGTGTAAATGACTACTACGTCCATTTGATCTATAATCCAGTTAAATCTTGTTGATTTTCTGCCTTGATTATCTGTCTAGTGATATCAGTGG
GGTGTTAAAGTCCCACTATTGATATGTTGCTATCAATCTATTTTCTTAGGTCTAGAAGTATATTTTTTATAAATCTGRATGTTCCAGTGTCTGTTGCATA
TATAATTTAAATAAATAAATCTTCTTTTATTGGAGCTTTTCTTAATATATAATKACCTTATTTATATTTTAGTACCATTGTTGATCTAAAGTCTGTTTTA
TCTGATATGAAAGTGGTTATTCCTGCTTGCTTTTGTTTTTCATTTGCATGGTGTATCTTTTTCCACCGTTTTACTTTGAGTCTCATTGTGCCTTTGGCCA
GTAGGTGGGTCTCTTGTAGACTGCAGATGGTTGGGTCTTATTTTGTGACTCTGTATCCTTTAAGTGGAGTATTTATGCCATTTACATGCAAGATTAATAT
TGATATGTGAGGTTTTCTTCCTATTACAATAGTGTTAGTTATTTTGGAGTTTCCATTGTGTAATTGCTTTGTGTGATCTGTGAACTTTGTACTTATGTGT
CTTTGTCTGACAGTGAGTATCTTCCATTTGTTTTCATGTTTACAATTCATTTAAGCATTTTTTGTATGTCCAATCTAGTGGTGATTTTTTTAAAATTTTA
CATTAACTTCTGGGATACACGTGTAGAATATGCATCTTTGTTACATAGGTATACATGTGCCATGGTGGTTTCCTGCACCTATCCGCCCATCATTTAGGCT
TTAAGCCCTGCATTTATTAGGTATTTGTCCAAATGCTCTCCCTCCCCTTGTCCCCCGCCCCCAACAGGCCTCAGTGTGTGATTTTCCCCTCCCTGTGTCC
ATGTGTTCTCATTGTTCAACTCCCACTTATGAGTGAGAACATGTGGTATTTGGTTTTATGTTCCTGTGTTAGTTTGCTGAGAATTATGGCTGCCAGCTTC
ATCCATGTTCCTGAAAAAGACAAGAGCTTGTTCTTTTTTATGGCTGCATAGTATTCCATGATATATATGTGCCATGTTTTCTTTACCTAGTCTATCACTG
ATTGACATTTGGGTTAGTTCCAAGTCTTTGCTATTGTAAATAATGCTGCAATAAACATATGTGTGCATGTGTCTTTATAGTAGAATGATTTATAATCCTT
CAGGTATATATGCAGTAATGGGATTTCTGGGTCAAATGGTATTTCTGGTTCTAGATCATTGAGGAATTGCCACATTGTCTTCCACAATCATTGAACTAAT
TTAAAAGTGTAAAAGCATTTCTATTCCTCCACAGGCACACCAGCATCTGTTGTTTCCTGGTTTGTTAATAATCGCCATTCTAACTGGCGTGAGATGGTAT
CTCATTGTGGTTTTGATTTGTGTTTTTCTAATGACCAGTGATAAGGAGCATTTTTTCATATATCTGCTGGCCGTATAAATGTCTTCTTTTGAGAAGTGTC
TGTTCATATCCTTCACCCAATTTTTGATGGGATTTTTTGTATCTTTCTTGAAAATTTAAATTCCCTGTAGATTGTGGATATTAGACCTTTGTCAGATCGG
TAGCATGCAAATCTTTTTTTCCATTTTGTAGGTTATCTGTTCACTCTGATGCTAATTTCTTTTGCTGAGAAGAAGCTATTTAATTTGATTAGATTGCATT
TGTCAACTTCAGCTTTTGTTGCAATTGCTCTTGGTGTTTTATTCATGAAGTATTTGCCCATGCCTATGTCCAGAATGGTATTGCCTAGGGTTTCTTCTGG
GTTTTTATGGTTTTGGGTTTTACATTTAAGCCTTTAATTCATACTAAGTTAATTTTTGTATAAAATGTAAGGAAGGGATTCAGTTTCTGTTTTCTGCATA
TGGCTAGCCAGTTTTTTCAGCATCATTTATTAAATAGTGCGTCTTTCCCCATTGCTTGTTTTTGTCAGGTTTATTGAAGATCAGATGGTTGTAGCTGTGT
GGTGTTATTTCTGAGGTCTCTGTTCTGTTCCATTGATCTATATATCTGTTTTGATACCAGTGCCATGCTGTTTTGGTTACTGTACCCTTGTAGTATAGTT
TTAAGTCAGGTAGCATGATTCCTCCAGCTTTGTTCTTTTTGCTTAGGATTGCCGTAGCTAAATGGGCTCTTTTCTGGTTCCATATGAAATTTAAAGTAGT
TATTTTTAATTCTGTGAAGAAAGTCAATGATAGCTTGATGGGAATAGCATTGAATCTATGAATTACTTTGGGCAATATGGCCATTTTCAGGATATTGATT
CTTCCTATCCATGAGCTTGAATTGTTTTTCCATTTGTTTATGTCCTTTCTTATTTCCTTGAGCAGTGTTTTGTAGTTCTCCTTGAAGAGGTCTTTCACGT
CTAATGGAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGCAATTGTGAATGGGAGTTCAATCATGATTTGGCTGTCTGCTTGTCTATTGTTTGTGTA
TAGGAATGCTTGGGATTTTTGTACATCGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCAACTTAAGGAGTTTTTGAGCTGAGACAATTAAG
TTTTCTAAATATACAATAACGTCATCTGCAAACAGAGACAATTTGACTTCCTCTTTTTCTACTTGAATACCCTTTATTTATTTTTCTTGCCTGATTTCCC
TGGCCAGAACTTCCAATACTGTGTTGAATAGGAGTGGTGAGAGAGGGCATCCTTGTCTTCTGCTGGGTTTCAAAGGGAATGCTTCCAGCTTTTACCCATT
CAGTATGATATCGGCTATAAGTTTGTCATAAATAGYTCTTATTATTTTGAGATGTGTTCCATCAATACCTAGTTTATTGAGAGCTTTTAGCATGAAAGGG
TGTTGAATTTTATCAAAGGCCCTTTCTGCATCTATCATGTGGATTTTGTCACTGGTTCTGTTTATCTGATGGATTACGTTTTGATTTTCATATATTGAAC
CAGCCTTGCATCCCAGGGATGAAGCCGACTTGATCATGGTTTATAAGCTTTTTGATGTGCTGCTGAGTCCGTTTTGCCAGTATTTTATTGAGGATTTTCA
CATTGATGTACATCAGAGATGGTGGCCTGAAATTTTCCTTTTTTGTTGTGTCTCTTCCAGGTTTTGTTATCAGGAAGATGCTGGCCTCATAAGATGCATT
AAGGAGGAGGCCTTCTTATTCTATTGTTTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGTATATATGGTAGAATTTGACTGTGAATCTGTCT
GGTCCTGGGCTTTTTAAATTGATGTTCTTGGACTTTTTTTTTTTTAATTACTGCCTCAATTTCAGAATTTGTTATTGGTCTATTCAGGGTTTCTAATTCT
TCCTGGTTTAGTCTTCAGAGGGTGTATGTGTCCAGGAATTTATCCATTTCCTCTGTGTTTTCTAGTTTATTTGCATAGAGGTGTTTACAGTATTCTCTGA
TGGTAATTTGTATTTCTGTGGAATCAGTGGTGATATCGCCTTTATCATTTTTTATTATGTCTATTTGTTTGTTCTCTATTTTTTTCATTATTAGTCTATA
TAGTGATCTATTTATTTTGTTAATCTTTTCAAAAAACCTGTTCCTGGAGTCATTGATTTTTTTGAAGGGTTTTTCATGTCTCAATCTCTTTCAGTTCTGC
TCTGATCTTAGTTATTTGTTTTTTAATTTTTAATAATATGTTATTTATGTTATAGTATTGGCTTAAAAGACACAATAATATAATTACACTGCTACATATT
CATGAAAAATTATTTCATCAACAAAGCAGGATATTAAGCTGTAATGGGTACAGCTTTTAATAATCATATATTTACTTAGTAGAAAAAAATCTGGACTACT
ATAAACTAAAACATTTACTGTGGCTGTTTTTGTTTTGATTTATACTTTCTTTTGTTTATTGCTATGTTCTAAATTTTCTTTTTATATATATTATTATACT
TTAAGTTCTAGGGTGCATGTGCACAATGTGCAGGTTTGTTACACATGTATACATTTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTGCATTAG
GTATATCTCCTAATGCTATCCCTCCCCGCTCCCCCAACCCCACAACAGGCCCCGGTGTAAGATGTTTCCCTTCCTGTGCCCAAGTGTTCTCATTGTTCCA
TTCCCACCTATGAGTGAGAACATGCAGGGTTTGGTTTTCTGTCCTTCCAATAGTTTGTTGAGAATGATGGTTTCCAGCTTCATCCGTGTCCCTACAAAGG
ACATGAACTCATCCTTTTGATGGCTGCATAGTATTCCATGGTGTATGTGTGCCACATTTTCTTAATGCAGTCTATCATTGTTGGACATTTGGGTTGGTTC
CAAGTCTTTGCTACTGTGAATAGTGCCACAATAAACATACATGTGCGTGTGTCTTTACAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATG
GGATGGCTGAGTCAAATGCTATTTCTAGTTCTAGATCCATGAGGAATCACCACACTGTCTTCCACAATAGTAGAACTAGTTTATAGTCCCACCAACAGTG
TGAAAGTGTTCCTATTTCCCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCGAACTGGTATGAGATGGTATCTCATTGTG
GTTTTGATATGCATTTCTCTGATGGCCAGTAATGGTGAGCATTTTTTCATGTGTTTTTTGGCTTCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGT
CCTTTGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGT
TGTGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATTGCAGTTTCTTTTGCTAAAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAAT
TTTGGCTTTTGTTGTAATTGCTTTTGGTGTTTTAGACATGATGTCCTTGCACATGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTT
ATGGTTTTAGGTGTAACGTTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGTTTTCTACATATGGCTA
GCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCATATTTCTTGCTTTTCTCAGGTTTGTCAAAGATCAGATAGTGGTAGATATGTGGCAT
TATTTCTGAGGACTCTGTTCTGTTCCATTGATGTATATCTCTGTTTTGGTACCAATACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAG
TCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCAATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTC
CCAATTCTGTGAAGAAAGACATTGGTAGCTTGATGGGGATGGCAATGAATGTATAAATGACCTTGGGCAGTTTGGCCATTTTCACGATATTGATTCTTCC
TACCAATGAGTATGGATTGTTCTTCCATTTTTTTGTATCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACGTCCCTT
GTAAGTTGGATTCTTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTATATAAGA
ATGCTTGTGATTTTTGTACGTTGATTTTTGTATCTTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTA
GATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCGTTTCCTAATTGAATGCCCTTTTTTTCCTTCCCCTGCCTAATTTCCCTGGCCAG
AACTTCCAACACTATGTTGAGTAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCTATTTAGTATA
TTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAGATACGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGAGGTGTTGAATTT
TGTCAAAGGCCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTGGTTCTGTTTATTTATTGATTTTCGTATACTGAACCAGCCTTGCATCCC
AGGGATGAAACCCACTTGATCATGGTGGATAAGTTTTAATTGATAGACCACTAGCAAGACTAATAAAGAAGAAAAGAGAGAAGAATCAAATAGACGCAWT
AAAAAATGATAAAGGAGATATCACCACCAATCCCACAGGAATACAAACTACCATCAGAGAATACTACAAACACCGCTATGCAAATAAACTAGAAAATCTA
GAAGAAATGGATAAATTCCTCGACACATACACCCTCCCAAGACTAAACCAGGAAGAAGTTGACTCTCTGAATAGACCAATAACAGGCTCTGAAATTGTGG
CAATAATCAATAGCTTACCAACCAAAAAGAGTCCTGGACCAGATGGWTTCACAGCCGAATTCTACCAGAGGTACAGGGAGGAACTGGTACCATTCCTTCT
GAAACTATTCCTATCAATAGAAAAAGAGAGAATCCTTCCTAACTCATTTTATGGGGCCAGCATCATCTTGATACCAAAGCCGGGCAAAGACACAACCAAA
AAATAGAATTTTAGACCAATATCCTCGATGAACATTGATRCAAAAATCCTTAATAAAACACTGGCAAACCGAATCCAGCAGCACGTCGAAAACCTTCAGG
TGCTCTTTTAAGGCTGGTTTGGTGGTGACAAAGTTTCTCAGTATTTGTTTGTCTTTGAAAGATTTTATTTCTCCTTCCCTTATGAAGCTTAGTTTGTTTG
GATGTGAAATTTTGGTTTGGAAACGATTTTCTTTAAGAAAGTTGAATGTTTGCCCCCACTGTCTTTAGGCTTGTAGGGTTTCTGCAGATTAATCCATTAT
TGGTCTGTTCGGCTTCCCTTTGTAGGTAACCTGACCTTTCTTTTTGGCTGCTGTTAACATTTTTTCCTTCATTTCAATATTGGAGAATCTGGCGATTAGG
TGTCTTGGGGTTGCTCTTCTTGAGGAGTATCTTAATGGTGTTTTCTGTATTTCCTGAATTTGAATGTTGGCCTGTCTTGCTAGGTTGGGGAATTTTCCTG
GATAATATCCTGAAGTGTGCTGTCTAACTTGATTCCATTCTCCCCATCACCCTCAGGGACCCCAGTCGATCGTAGGTTTGTTATTTTCACATAGTCCCAT
ATTTCTTGGAGGCTTTGTTTTTTTTTCCTTTTCACTCTTTTTTTTTTCTAATCTTGTAATCTTGCCTTATTTCAGTAAGGTGATTTTCAATCTCTGATAT
CCTTTCTTCCACTTGATCTATTTGGCTATTGTTACTTTTGTATGCTTCACGAAGTTCTCATGCTTTTTTTCAGCTCCATCATGTCATTTATATTCCTCTC
TAAGTTGGTTATTTAAGTTAGCATTTCCTGTAACCTTTTATCAAGGTTTTTAGGTTCCTTGCCTTGGGTTAGAACATGCTCATTTAGCTCAGAGGAGTTT
GTTATTACCTACATACTGAAGCCTACTTCTGTCAATTTGTCAATCTCATTCTCTATCCAGTTTTGTGCCCTTGCTGGAGAGGAGTTGCAATCTTTTGGAG
AAGAGGCTTTCTGGTTTTTGGAATTTTCAGTGCTTTTGTGCTGTTTTTTTTCCTCATCTTCATGTATTTATTTACCTTTGATCTTTAAAGCTGATAACCT
TGGATGGGGTTTTTGTGTGGGGTTCTTTATGTTGATGTCGATGTTGTTGCTTTCTGTTTATTAGTTTTTCTTCTAACAGTCAGGCCTCTCTTCTGCAGGT
CTGCTGCGGTTGCTGGACGTCCAATCCAGACCCTGTTCTCCTGGGTATCACCAGTGGAGGCTGTAGAACAGCAAATATTGCTGCCTGCTCCTTCCTCTGG
AAGCTTTGTCCCAGAGGGGCACCAACCTGATGCCAGCTGGAGCTGTCTTGTATGAAGTGTCCTTCGACYCCTGTTGGGAGGTCTCTCCCAGTCGGATGCA
CAAGGTCAGGGACCCAGCTGAGGTGGCATTCGGTCCCTTGGCAGAGCTGGTGCACTGTGCTGGGAGAATCCCTCTTGTCAGGATTAGTTGTTCTCTTCAG
AGCCAGCAGGCCAGAATGATGAAATCCGCTGAAGCTGCTCCCACAGCTACCCCTTCCCCCAGATGCTCTGTCCCAGGGAGATGGTAGTTTTGTCTGTAAG
CACCCGACTGGGGCTGTTACCTTTCCTTCAGGGATGCCCTACCCACTGAGGAAGAATCTAGGGATTCAGTCTGGCCACAGCCACTTTGCTGTGCCCAGCC
CAGACCTCCCAGCCTCCTCAGTGCTTTCAGGGGAAAACTGCCTACCAAATCCTCAGTAATGGTGAATGCCCCTCCCCCCACCAAGCTCAATTGTCCCAGG
TTAACCTCAGACTGTTGTGCTGGCTGCATGAATTTCAAGCCAGTGGTTCTTAGCTTGCTGGACTCCCTGGCAGTGGGACCTGCTGAGCAACAACACTAGG
CTCCCTGGCTTCAGACCCCTTTCCAGGAGAGTGAACAGTTGTGTCTCACTCAGGTTCCAGGTGTCACTGGGGTTCCAGGTGCCACTGGGATATGRCAAAA
ATATGCCTGCAGCTATCTCAGTGTCAAAACAGCCACCCAGTTTTGTGCTTGAAACTCAGGGCCCCGGTGGTGTAGGTACACAAGGGAATCTTCTGATCTG
CAGATTGTGAAAACCATGGGAAAAGCATAGTAACCTAGCTGGGTAGCGCAGTCCTTCATAGCTTCCTTTGGCTGGGAGAGGGAGGTCCCCCAACTTCCTG
TACTTCCTGGGTGAGGCAATGCCCCACCCTGCTTCTGCTCACCCTCCTGTGGGTTGGACCCACTGCCTAACCAGTCCCTACGAGATGAACTGGGTACCTC
AGTTGAAAATTCAGAAATCATCCACCTTCTGCGTTGGTCTCAATGGGAGCTGCAGACCAGATCTGCTTGTATTCGGCCATCTTGGCTTCATTCCCTCAAT
TTTTTTTTTTTTTTTTTTTTGCTTGTCTGGGAAATATTTTATTTCTCCTTCATTTATGAAAGAGTTTGGCAGGATATAAAATTTTTGGCTGCAGGTTTTT
ATTTTTTAAAGGAGTTAAAATAGCCCCCAGTCTCTTCTGAGTTTTGGGATTTTTGCAGAGAAGTCCACTCTTAGCCTGATTGGTTTTGTTTTATAGGTGC
TTTGATCCTTTTCTCTACCTATCTTTAATGTTTTCTTCTTTATTATTTACTTTAGATAGTCTGATCACTATATACCTTCATAATGTTTATTTTAAATAAT
ATCTCACAGGTGTTCTCTGAGTTTCTTGTATGTGGATATCTTTCTAGCAAGATTAGCAAAATGTTCCTGAATTATTTCCTCACGTATGTTTTCAAGGTTG
TTTATGTTTTTCTTCCTCTCTCTTAGAAATGCCAATATGTTATAGGTTTTGTTGCTTTACATAATCCCATATTTCACAAAGACTTTGTTCCATTTTTTAA
AATTATTTTTTTCTTTATTTTTGTCTGACCAGTTTAGTTTGAGAGACTGATCTTCAATCTCTGAAATTCTTTCTTCTACTTGGTCTAGTCTATTATTAAA
GTGTTCAACTTTATTTTGAAATTCCTTAAGTGAATTTTTCATTTCCAGAAGTCCTGTTTGATTTTTTAAAAAAATATATTTATCTCTTCCTTCATATCCT
GAATTGCCCTCATATTTTCTTTTTGGTTGGTTTTCAGTCTTGTCTTGGATCTTGTGGAGCATCCTGACAATCCACAGTTTGAATTCTTTATCTGTCATTT
CTGAGTTTCCATTTTGGTTAAGGTCCATTGCTAGAAAGCTAGTTTGACTCTTGTTGATATCACAACATTCAGCTTTTTCATGGTGCCAGATTTCTTATGC
CGAGTTCTTCTCATCTGGAGGTATTGTCACTTACTTTTGAAATTTATTTTTGTTCAGATGGTATTTTTCTTTCCCTATTTTTTCTTCCTCCCTCCTGAGA
ATGTTACTGTGTAGTATTCTGGGTAGAGTCCTTGGCTCTGCTCCTATTTCCTGTGCACTGGGGGCAACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
GARACGGRGTTTCGCTCTTATTTCCCAGGCCAGAATGCAATGGCGCACAATAAATCTCAGCTCACCACAAGCTCCACCTCCCGAGTTCAAGCGATTCTCC
TGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGGGCATGTGCCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGACGGGATTTCTCCATGTTG
GTCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGACATGAGCCACTGCGCCCAGCCACTGGC
AACTTTTTTATTGCGCTTTTCACTTTGACCTGCTGGCCAGGGGGTAGCACTTAAGGGTAAGACACAGATGTGGCACAAGAAGATGGGTATTTCATCTCTG
TTGTTTCAGGTAATGAGCTAGATCGTGGTGTTCCCTATGCCCTGAGCTTGCTTCTTAACTGTGGCTGGGGAGACACACCTGATCTGATTTGGACCCTTTG
GCTTGCCCACAAATACTCCAATGATGACTACAGGCACTAGTCTTGATAGGGGTGGCTGGGGGAACTCCTGGTACAAACACTTAGGCCTCTGCTGGAAGTG
AGGGGGATGCACTGCCTTCATGTCGTAAATAGGCAGGAACACAATCTGTTCCCTTTTCACGCCCTTGTTGTAGGGCTCATCATGTACACTTCAGATGCAC
GTTGTTGTCTCTCCAGGCCACAGTGTGTCTGAGAGCCAGGGAGAATGCCTCTCTTGCAACTCYCCATGGAGGTGTTTTTGAAGCAGAATATATTTACTCA
CTCAACCCAAATACAGACAGCTTTATGGCTCACATCTTCTTTGACATATTAGTGTTGCTGCTTCGTGGAAGKGAGAGGTCTGCCTTTCAGCCCATGTGGT
GAGTGTCATTTGTGGTGGTGTAAGCTAGTTAGGTTAGTCTGACCTCAGGTGCCAGGAGGACTGGATAGGTACTAGCTGTGTTAGACTGGGCTAGGTAGCT
CACCAGTCTCCAGGCCCCTAGATGGCCAATTGGATGACATTTACGAGTCCTGAAGGGGCTGGACCTGGGTTGAGCCAGCCCAGAGTTCAGTGCTGTCTRT
GTAATGGGGAGAGTTGGGTTGGTCCCTGGGTCACTGGCTGAACTCTCAGGCAGGTCAGGCAGACCAGTCAGGTGGTGGGAACCTGAGGGTGGATAACTGG
CCTGTGGTTATTGGGCTCTCCAAGAGGCTCTGGGCTGCAGCTGAAATATTCAGTTGGGGGCAAGCCAGCCATGATGTGGACCTTTCATTGGGTAGGGCAA
GTCCCCAAAGTTGGAAAAATGGAAAGTGGGAGCTGTGAGGCACGTGTTACACCCACACTTTCCTCCTACAGATGCAGTGTTGGATTTTGTTGTGGGAGGC
ATGCACAGGTAGGTGCCAGGCCTCCCTACTCTCTCCCTGGCCCAGAGGTGTCAGGGGCAAAGTTAGTGGCAGTGGTGGCTGCAAAATGGTTGGCAGCAAT
CTGTGGGATTTGGGCTATCAAAGAAATGCCAAGCCATGGCCACAGTCTTCAAGCAGGGGCAGGGGAAGGTGCACTGGTGACCTGGAGCCTGCAAACCCCA
TTTGGTGTGAAGCAGTATAAGTGGGGAGTTGTGTGGCATGCAGCAAACCTGTTGCTTCTTTGTACTTCAGCTGTGGTATCTGTGCTGAAGGCTGCAGAAG
TGCCTAGCTTTCCCATTTCCTCCCTAGCCCAGGGGAAGGAGGGATGGCATAACTTCTGTTACTTAAACATTGGTTATTTTGATAGCGTCCCATAATTCTC
AGACCTTCTTCATTATTTTTTCTTATACTTTCTTTAACTACCTTACCTTTCCTTAAATAATTCTACTTATAACATTCCTTAACTACTTCTGAATTCATTA
TCAGTCATTTCATAGATCTCTATTTATTCAGGGTCCATAATTAGAGGTTTATTAGTTTATTTTGTGATTTTAAAAAATTATTTGTAATTTTTGTGTTCTT
GTTTTGGTGCCTATGTGTTTGGGTACATGGCCACCTCTTTCAGCCTTTGTAGGTGTTCTTTGGCAATGATAATCTTTCAGTATTTATTCTAACCTGGGAT
TTTTGGTGGACCAACTGATAGCAACCCTGGACAGCTGACCTTGCTCTTGGGTTCTCTAGCTGGGGTGAGCTGCTGCCTATAGTTTGAGGTTGAGTGGAAT
GGTGAGCTGTGCTTTGTAGTCTGATGAGACAACTAGCTGGGTTTTAATTTGGCAGTGCTGATGGCTATCCTTTGCAATCACCTCTGATCAGATTGCATTG
CATGCTGCCTTCCCCAGTAAAACAGTACTGCTGTTTGGAATCTGTAGTCAGTCAGGGCCATGTGCTGGTGCTCTTAGGCTCGAGGAGGTCTCTGGGGTTA
CTGTTCAGCCACCTGGGACAAGACACATTAGGTACTTCCTTTCACAGATATTCATGGATCAGCACTTGCCTTCTGGCCTGAGGAAGCCTTAAAGAGAATA
TTAAGTGTTAGTGGGATTGTCATACAGTCAGTGGGGTTGGGTGGGRCCAGATGCTCTACAGTTGCCTCCMAGCCTGGAAAAGGCTCAAGGAGAGAAATGA
CATTACATAAGGAAGCTGGCTAGGGACTTCAGCTAAGCAAACTCATGCACTATGGTTCCTGCAGGGCAGTCCTGTTGGCTGTTTTCTATCATTTGGCACC
TTCATTGACAAAAGTGAAGAGCCACTGCCAAAATCCATGTGCTCATCATTGTGAACCCCACCCTTTTTCTTTGTTTCTAACAAATCTCAGGTGCCCTAGC
TCTGCTGGTACTCCCAATGTTTGTCATGGAATGAGACAAGAGTGAGCTTCCTGTAAAGCACCCCACAATGATGAGGAAGCTGGATATATGTTTACAGCTC
TCTTTTCCCCTACAGAAACAAGAGCCCAGGGGAATCTTCTTTGGCACTGTTACAGCTTGAGAGAGGGTGATGCGAAATGAAACCATTCCTCTTACCCTTT
GAATGCAGCTGTTATCTGTTCTGTGGCTGGAGGGGCTATCTCCCAAATTCAGGGATATTCATGAAAGTATTCTTATCTGCGGATAGTTAGTAGTTGGATT
TATGTGACGGGGACTGGAACTGCAGAACTCCTCCTATTCCGTTATCTTGCTGACATCACTCTCTTTACTTTCCTCTCAATTTACTTTTAATAAAGGAGGT
TTCAAGACAGTTCAATGAAGAATTAATAGTCTTTTCATCAAATGGTTCTAGGACAACTGGATATCTACGTGCAAAAGAATAAAGTTGGAGCCTTTCCACA
CACCCACCGTATACAAAAACTAATGTAAAATAAATAGGAGACCTAAATGTAAAAGCTAAAACTCTAATATTTTTATAAGGAAACATGAGTACATCTTCAT
GACCTTGAGATAAAAGGTTTCCTAGATACAGCTTCAAAAGCCCAGGCAATAAAAGAAAGCATGATAAATTAGAATTTGCCAAAATTAAAAAAAAAAACTA
TATTTCAAAATATAACAATAAAGTAAAAAGGAAAGACACTGACCAGGGGAGAATATTTGCAAATTATATAACGCCTGGGGATTTATATTCCAAACATATG
AAAAACTCTTACAACTCAATAATAAGACGATAACCCAACTTAAAATGCACAATGGATTTCAATAGATATTTCCCTAAAGAAAACATACTAATTGCCCATA
AGTGCGTGAGAGAATGGTCAATATAATTACTCATTAGGGAAATGCATATTAAAATCACAAGGAGTTATCAATGCACATTCACTAAAATAGTTATAAACCA
AAAGGATAAGGGTTAATGAGCATGTGGAGTAACTGGGACCCTCATACATTTCTGGTAAGACTGTTGTCAMATTGGTGCAGACTCTTTGGAAAACAATTTG
GCATTTTCTTAAAATGTTAAATGTAAATTTGTCATAAGACTCAACTATTTCATTCATYTTTATATGTATATATATGCTCAAGAAATGAAAATAAATATTC
ATACAAAGACATAAACAAATGTGTAATTATATTGCTGATTTTTGCAGCATAATTAGTAATAGCCAAAAGTATTAGTCCAACTGTCCAGTAACTGGTGAAT
AGATAATCAAAATTTGGTATATTTATTCAATGGAATAGTCTTTGTCCATAAAAGAACCATTTATATAAACCTTGAAAACATTGTGCAGAGTGGAAGAAAT
CAGACAAAAAATGTTACATATTATATAATTCAATTTCTAGAAAGTGTTCAGAATAGGAAATCTATATGGATAAAAATTTAATTACTGGATACTGGGGATT
GGGGGAATAGAGAAATGGAGATTTCTAGATTGTGGTGATGCTTGCACAATTCTGTAAATTTATTAGCAATCATTAAACTGTACATTTGAAACGGGGAATC
TTATTTTATATAAATTATGCTGCAATAAAGTTTTATAACAGCATGAATGAGGTAAATAATGACAAATCACAACTCTAGATTAGTGTGAAATGATATTACA
AAATGTTTATAGCTTAAAAGAAAATCCATATATTTAAGAATATATTATTCTACTTTATAATTTACTCTGATTTTTCTGAAAGTGCTATGGAAAACAAATT
AGAAATAACGTCATGTGAAAGAACTTTAGGCTATTATTCACACTTTCTGCATTCAGATYTCAATTACAGCTTTTGCTAGCCAAGTGATCTTGGATATGTT
ATCTAACTTCTCTATTCTTCAGTCATTTCATCAGAAAAATAGTGATAATTAATAGCTTCTATATTATGAGCTTGTTGTGATGTCAAATATTTAATACAGA
TAAAGTTCCTAAATATTATTAAGTCCTAAGTAGATAGTAAATTATAATTATATATTTTCACCTATTTATTATTGGTAAAATAATTGAAAAAATACGKTTT
CAGGAACAGGTCTTGATTTCTCACTTATTTTGTTTGTTTTCTTCAGGTGTCTTCAGTGCCCTGGGTTTGCCTGTGACCCAATGCCCACTGGGACTGAATG
CCAAAGGACTCCCTTTAGGCATCCAGGTTGTGGCTGGACCCTTTAATGATCATCTGACCCTGGCTGTGGCCCAGTACTTGGAGAAAACTTTTGGGGGCTG
GGTCTGTCCAGGAAAGTTTTAGGAGGACCTTCTGCAAGGTTAATGTGTGTGTGTGTTTGTGTTCGTGTGGTGGTGTTTCTATTAATTGGGTGAAAYCAAG
CACCAGCAGACAAGCAGAGAAACAACTGGGGAATTTATTGACTCATTTAGTTATTCTTTCTACTTTTATTTCCTTCTCTAACTGTTGGTCTTACTAAAAT
GGTAATATTTGCTTCTTGCTTTTATGTTACTGGAAAATTAGGACATGTAAATGGATAAGTGCAATAAAGTTTCCTAAATGCTGGAATCGTGTCTGTTTTG
GGTACAGCAGGGAAATTAAAGAAGGGAATGTCCAGTGCTAATGAGGGGATCTTAAGAAACTTTAGAGAAGAGATGTTGCTGAAACTGACAAATGGAGAGT
TACGTGTTTTCGAGGCAGGCCATTAAGTAAGGGAATTCCAGTTAGAAGAAGCTACAGTGAAGAAGGCAAGGACATGCTGCTGTAAGTTAGTATGGCTGGC
GGGAAACTGGAGGGGGGTATGTAAGTAATGAGACCATGGTAAGGAAAGCTCTTCCAATATCCCCCAAAAATGTTTTATAATTTTGTTCACTAAGAGATCC
TAGAAGCAACAGGTCCTAGAACAACATTACACGTATGATTATATATATTATATAATCATATATATGTTATATATCATATATCATATATATAATCATATAT
ATAATGGATTTAGAAAGTCATTGTTTTGAAACCATCAAATAATACTTAATTCATACATAGCTCATCAATGGATCCTAAAACCACTGGATAAAAGTTTGAC
AAACAGAATATTTTTAGTCTCAAAATATCTTTTCACTTACCACTTATTAATTTCAAGAGTGGGGAATATTACCTGTAGAGTGCAGATATATGGTAGACAC
CATCATAATCAAATAGCCAACATTAATCTGAGCAACAAATCTATGATGTCCCTGACAAGAATGCATCACCTGAATCTAATTGTAAGAAATAATCAGAAGA
AACCAAATTTATAAACATCTTACAAAATTAAGGGCCTACATTATTCAAATATGTCAAAGAATTAATGCCAGTGACAGGCTAAGGAACTGCTCCAGAATAA
AGATGAATAAAGACCCATGATAACTAAATTCAATGTGTGATCTCAAATTGGAAAAGTAAGATTTTTAAAAAAGATAGTGTTAAGACAATTGGACAAATAT
AAATGTAGGATGTTTTGTAGATAATGTACTGTGGCAATTTCTGAATTTCATTTTGTTTTTATTTATTTATTTTTTTGTTATACTTTAAGTTCTGGGATAC
ATGTGCAGAATGTACAGGTTTGTCACATAGGTATACATGTGCCATGGTGGTTTGCTGCACCCACCAACCCGTCATCTATATTAGGTATTTCTCCTAATGC
TATCCCTCCCCCCACTCCCTGACAGGTCCCAGTGTGTGACATTCCTCTCCCTGTGTTCATGTGTTCTCATTGTTCAACTCCCACTTATGAGTGAGAACAT
GCAGTATTGGGTTTTCTGTTCTTGTGTTAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTGCAAAGGGGACGAGCTCATCCTTTTTTTAT
GGCTGCATAGTATTCCATAGTGTATATGTGTGTCACATTTTCTTTTTCCTGTCTATCATTGATGGGCATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGA
ACAGTGCTGCAATAAACATACACGTGCATGTGTCTTTATAGTAGCATGATTTATAATCCTTTGGGTAAATGGCATTTCTGGTTCTAGATCCTTGAGGAAT
CACCAGACTGTCTTCCACAATGGTTGAGCTAATTTACACTCCCACAAACAGTGTAAAAGCATTCCTAGTTCTCCACATCTTCTCCAGCACCTGTTGTTTC
CTGACTTTTTAAAGATCGCCAAACTGGCATGAGATGGTATCTCATTGTGGTTTTGACTTGCATTTCTCTAATGACCAGTGATGATGAGATTTTTTTCATA
TGTTATTTGGCCGTATAAATGTCTTCTTTTAAGAAGTGTCTGTTCATATCCTTAGCCCACTTTTTGATGGGAAAGCTTTTTTCTTGTAAATTTGTTTAAG
TTTTTTGTAAATTATGGATATTAGCCCTTTGTCATATGGATAGATTGCAAAAATTTTCTCACATTCTGTAGATTGCTGGTTCACTCTGTTAGTTTCTTTT
GCTGTGCAGAAAGAGAGCACCTGGGGGAAGGGGTAGCTGTGGGTGCAGCTTCAGCAGACTTAAACCTTCCTGCCTGCTGGCTCTGAAGAAAGCTGCAGAT
CTCCCAGCACAGCGCTCGAGCTCTGCTAAGGGACAGACTGCCTCCTCAAGTGGGTCTCTGAACCCCATTCCTCCTGACTGGGAGACACCTCCCAGCAGGG
GTCAACAGATACCTCATACAGGAGAGCTTCAGCTGGCATCTGGCAGGTGCCCCTTGGGGACAAACTTTGCAGAGGAAGGAACAGGCAGCAATCTTTGCTG
TTCTGCAACCTCCATTGGTGATACAAAGGCAACCAGGGTCTGGAGTGGACCTCCAGCAAACTCCAGCATGCCTGTAGCAGAGGAGCCTGACTGTTTTTGC
ATCTATATTTATTAGAAATATTGACCTGTAGTTTCCTTTTTTTAGCTTCTTTGTCTGGTTTCAGTATTGTAGTAACCTTGGCATCATAGGATGAGTTAGG
AAGAATCCATCCTCCTCAATTTTTTGGAAAAGTGCAGTGTTAGTTCTTTAAAAGTTTGGAAGAACTTGGTAGTGACGCCAACTATTCCTAGAGTTTTCTA
TTTTGGGAGGCATCTTATTACTGATGTAATCTCATTATTCATTATTAGTCTATTCAGATTTTATGAACATATATGTGCCAAACACTGGAACACCCAGATG
TATAAAGCACATATTATATGTAAGTCAAAGAAAAGATTTCAATACTCTACTAGTTGAGGACTTTAACATACTACTCTAAGAATTAAACACATAATCTAGG
CAGAAATTTAAAAAAGAATAATTGGATTTAAACCGCACTTTAGACCAAAGGAACCTCATAGACATTTATGGAACTTTATATCTAAGAACTACTGAGCATA
AATTTTTTATCAGCACGTAGAACATTCTCCAGAATTTTACACTGTAGGTTAAGCCACGAAAAGATCTCAACATATTGAAAAAATTAAAATCATATAAAGT
ATACTATAAGACCAAATGGAATAAAACTAGAGATAAATAGCATGAGAAACATTGGAAGCCATATAAATACACGTAAATTAATCAACAGGTTCTGAATAAC
CATGGGATCAACAGAGTAATTAAGATAGAAGTCAAAAAATTTGTTGAAACAAATCAAAATGGAAACACAACATACCAAAACTTGTGAGACACAGCAAGAG
CAGTGCTCAGACTAAACTTTATAGCAATAAATGCCTATATTAAAAAAAAGTATAAAAGATTACAAATTAGCAATCTAACAATGCACTGCAATGAACTAAG
AAAACAAGAACACACCAAGCCCAACATTATGAGAAGAAAAGAAATAACATAGACCAGAGCAGGACTAAATTATGTAGACAGTAAAAAAAACAGAGGATTC
ATAAAACAAAAAAGATGGTTGTTCAAAAAGATAAACAAGATTGATAAAGTGCTAACTAGAGTAACCAACAAAAGAAAAGAGAATGTCCAAATAAAGAAAA
TGATAAATAAGTGGGAGTGCTATGCAATTCTTGCACTTCTACGAAGAAATATATGAGATGGTAATTTTTAAAGAAAAGAGGTTTAATTGGCTCATTATTC
TGTAGGATTTACATGAAGCATGGTGCCAGACTCTGCTCAGGTTCCAGCAATTCTACTATTGGGTATCTACCCAAAGGAAAAAAATAATATATCAGTGGGA
TACCTGCATTCTCATGTTTAATGAAGCAGTATTCAAAAACACAATGATATGGAATCAACCTAAGTGTGCAACAACAGGTGAATGAATAAAAAAGTGTACA
ATATATACACAATGAAATACTTTTTGGCCATTAAAAACAAACAATGAGATCATGTTATTTTCAGCAACAAGGTTGGGACTGAAGAACGTATGAAATATGC
CAGGCACAAAAACATAAATATTGCATGTTCTCACTTACATATGGGAGCTGGAAAATTTTATCACATGGAGATATAGAGTGGAAAGATAGATAACAGAGAC
TGAGAAGGATGATTGGGGCTGAGGGTGGAGGATAAAAAATAGTGGATTAAGATGTACAAATCATAGAAGGAATAAATTTAATGCTTGACAGCAGAGAAGT
GTAACTGTAGTTTAAAAAAAATTGTACTTGAGTGACACCCTAAATACCCTGACTCGATCACTACACATTATATACATGTAACAAAATTTCACATGTAACT
TATAAATTTTTACAAATAAAAAAATTTTAAAAATAAATCTTATCAAGTATCTCCTCAGCCCACAATTGAATAAAACTAGGAATCAATAACAAGAGGAAAT
TTAGAAACTGTACAGAAATATGGAAATTAAGCAAAATGCTCACTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTTGGTGCA
TCACTTGAGGTCAGGAGTTCAAGACCAGACTGATCAACATGGTGAAACCCCCTCTCTACTAAAAATACAAAAAAGCTAGCCGGGCATGGTGGTGGGTGAC
TGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGACTCATTTGAACCCGGGAGGCAGAAGTTGCAGTGAGCCGAGATCATGGCCACTGCACTTCAGCCT
GGGTGAGGAAACAAGACTCTGTCTCAAAATAAATAAACAAACAAACAAAATGTTCATGAATGACCATTGGGTCAAGGAAGAAATAAAGGAGAAAATGCAT
TTCTGGAAACAAATGAAAATCAAAATACAATGTACCAAAACCTATGGGATACAGCAAAACAGTGCTAAGAAGGAAGTTTATAGCAATAAACACCTACATC
AAAAAAGTAGAAAAAGACTGGGCACAGTGGCTCACCTGGTAATCCCAGCACTTTGGGAAGCTGAAGTAGGAGGATTTCTTGAGCCCAAGAGTTTGAGACT
AGCTTGGGAAAAAAAAGCAAGACCCTGTCTTTACAAAAATAAAAATAAGAAAATTATCTGGGAGTAGTGGTACACAACTAAAGTCCCAGCTGCTTGGCCG
GAAGATGTGGGAGGATCACTTGAGCCTGGGAGGTCAAAGCTGCAGTAAGCCATGATTGCACGACTGCACTCCAGCCTGGGCAACAGAGAAAGATCTTATC
TGAATAAAATAAAATAAAATAAAATAAACAATCTAACAATACACCTCAAAGAAATGGAAAAGCAAGAACCAAACCCCAAATGAGTACAAGAAACAAAATA
ACAAATATCAAAGCAGAACTAAATGAAATAGAGACCAAAAAATCAATACAGAGTGTCAGTAAAACAAAAAGTTGATTCTCTTTGTTTATCTTTTTGATTG
ATAAACAAAATTGATAAACCACTAGCTAGAATACCCAAGAAAATACCCAAAGGAACAAAATCAGAAATGAAAAAGGAGACATCATAACAGATGCCACAGA
AGCACAAAGGATTATCAGAGACTATTATAAACTAACAAACTGGAATGCCTAGAATAAATGGACAAATCTCTGGACACATACACCTTCTGAGGTCTTATTC
AGAGTATTATATCACTTCACATGAATCCTATCCTACTATAGGTTACCTGGATTTTCCAGGTGATAGGAGGATGTCTGTGACATCAAGAATGGCAGTCTCA
TCTAAAATTATGTAACACAAGCAATGTATAGTCAGAATGGAATGCTCATCTACCTTATATAACATAAATAATATATAGTCAGAGTGAATAAAAGGGAAAT
GGTTTTGGAGTCAGGTTTGGAGCCAGACCTAGGTATGATTCTTGCCTTGCTGCTTATTAGCTTAGTTGCCTAACCAATCTCAGCCTGTTTTGTCATTTAT
AGAAGGGAGGATTTGACACTCATGCCTCATTATTATTTATAGAAGGAAGGAAGGGAGAAAATGACACCCAAAAAAAGCCTCATTCATTATTGATCATCAC
AAAAGGTTATGATTGAAATTGTCAATTTTTCTCCCCTACTAGACTGTAATCTTTTAAGTACTCTGAAACATCTTTATTTTCACCAAACTCACAATACAGT
ATTTCACATGGTAAGTGTCAGTTTACCTCAACAGTTCTTGTTGACTAGTACTAAATTAGGCCTCATTCTAGTATATTTTCCTCA


SNP Information

Context             (SEQ ID NO:25859):
GTTTACTATTTTCCTAGATAGGAGCAGTTTTAGTTGTTTCTATTTATCCTCTACCATGACAACAGCACTCACTCCATAGGTCAGGGAAGTGATGTGGGAA
K
TCTGCCAGTTGCTGAGTATATCTATTCAAATTATGCACTGCAGAGCTGAGGAAATAATCGCAAGATGGTTTCATGGACTCACTGTACACGCTGTGAAATG
Celera SNP ID:            hCV11770355
SNP Position Genomic:     199157
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25860):
AGAGGTGATTACCAGGACAGATGGAAGGAAACAGCTTACAAAAGTGGCCTTTCACTGGCTTTCTCCCCTCTCCCCACTTTAGGTGTCTGTACTCAAAGAT
Y
TCTTGGACCATTTATATCCTGAGATGAACAGCATTGGCCATACAGCATTTTAAAGATCTCATCTGAGAAACCCATTGATATTGGTGCCAGGAATGCTAAG
Celera SNP ID:            hCV12055163
SNP Position Genomic:     228838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25861):
ACTTTCTCAGTGTTCTATAATGAACATGTATTACTTGAATAAGAAAAGATAAAGAACACTAGGAATTAAAATGAAGTTTATTACCTTAACTTGATATATG
W
TATCATTCTGTAGGACTGGCTTTGTTGGAAGAAAAGCTCAGATATAGCAATGAGAAATACCAAAAGTTTAAGGCAGTGGAAGAAAGCCTGCGTAAAGAGC
Celera SNP ID:            hCV12055165
SNP Position Genomic:     225199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25862):
CATCCTTTAAGTTCTTGATGGAACTGGTCTTTGCAATCCCTCCAGGAAGGCAGTACTGATTTTGGTTTACTATTTTCCTAGATAGGAGCAGTTTTAGTTG
Y
TTCTATTTATCCTCTACCATGACAACAGCACTCACTCCATAGGTCAGGGAAGTGATGTGGGAATTCTGCCAGTTGCTGAGTATATCTATTCAAATTATGC
Celera SNP ID:            hCV11770359
SNP Position Genomic:     199093
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25863):
AACTATTTTTTAACAGGGTGACAAATTGCAACATTGTAAAGGAAGGCTTAATAGAAAAAAAAAATAGTACATAGTAATAGAACTGCTTGCTGAGTTCCAA
R
ACTTTTAGAACAAGGTGAGGGGGGAGGACTTTTCCTTCCAATTCCTTCTTCATAACATTGGATGGAGTCCTTTTGGTGGGTATTTTGACAGCTTCCTTTT
Celera SNP ID:            hCV7468523
SNP Position Genomic:     10497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25864):
AATTTACTCTGATTTTTCTGAAAGTGCTATGGAAAACAAATTAGAAATAACGTCATGTGAAAGAACTTTAGGCTATTATTCACACTTTCTGCATTCAGAT
Y
TCAATTACAGCTTTTGCTAGCCAAGTGATCTTGGATATGTTATCTAACTTCTCTATTCTTCAGTCATTTCATCAGAAAAATAGTGATAATTAATAGCTTC
Celera SNP ID:            hCV7468455
SNP Position Genomic:     265159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25865):
CAGGAGCTCACCAACCAGTGTTCTGCCCCCAGGAAGTTCCCACATAACCATTGAGAGTGTTACTCAGGCTCATGAGGGCAGAGGAACTTTCCAACAATTT
S
TTGGTCAGCATTCTGTCACATGGGTGAGGGGAGCAAAGTAATACCCTACCTAACCTGTCCATGGAACTCCAAGCTTTTTGGGGGCCAATCTCTGCCAGAT
Celera SNP ID:            hCV29192543
SNP Position Genomic:     184119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25866):
GTAAAGTTCCCCAGTCACAACTTAGTGGCTGGGAGAAGTATCTAGTGACTGGCTGTCCTAGGACCCCTTGGATAGTGACAGATCTGGAGGACAGTTGTCC
R
GGACAGGAGAGTAAGACTGAGAAGGCTCTGCCAATGTTCAGGAGACAGTTAACCTCCTGGCCCTCAATGTTCAAGCATACCCGGGGCTCTGTGAGGGTGA
Celera SNP ID:            hCV26649500
SNP Position Genomic:     178707
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25867):
AACACTTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATTTTTGGCCAGGCTAGTCTCAAACTCCTGACCTCAGGTGATCCAATCATGCTG
Y
CCCCTAAAGTGCTGGGATTACAGGCACGAGCCACCACACCTGGACCTTAAATGGAAATTTGTAAAGCAATACAAATATATTAGAATATCAACTTAGGCTG
Celera SNP ID:            hCV29192546
SNP Position Genomic:     211025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25868):
TTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAATATGACATTGGCTTTGGGTTTGGCATAAATAGTTCTTATTATTTTGAGACACGTGCCATCAATAC
S
TACTTTATGGAGGGTTTTTAGCATGAAGGGCTGTTGAATTTTGTCAATGGCCTTTTCTGCATCTATTGAGATAATCATGTGTTTTTTGTCTTTGGTTCTG
Celera SNP ID:            hCV29192547
SNP Position Genomic:     217472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25869):
TCTGCATCTATTGAGATAATCATGTGTTTTTTGTCTTTGGTTCTGTTTATATGATGAATTACGTTTATTGATTTGCATATGTTGAAGCAGTGTTGCATCC
S
AGGGATGAAGCCCACTTGATCCTGGTGGATAAGCTTTTTGATGTGCTCCTGGATTCAGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAGCATTCATT
Celera SNP ID:            hCV29192548
SNP Position Genomic:     217628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25870):
AGCAGTGTTGCATCCGAGGGATGAAGCCCACTTGATCCTGGTGGATAAGCTTTTTGATGTGCTCCTGGATTCAGTTTGCCAGTATTTTATTGAGGATTTT
K
GCATCAGCATTCATTAGAGATACTGGTCTAAAATTCTCTTTTTTTGTTGTTGTGTTTCTGCCAGGCTTTGGTATCAGGATGATGTTGGCCTCAGAAAATG
Celera SNP ID:            hCV29192549
SNP Position Genomic:     217713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25871):
CAGCTCAGTCTCTGTATCTGTCTTGAATGCATTCACGGCCACTACTACTGGAATTCCAAACATTCTGGCATTTTCAGTTTGTTTCTTCAAGTTACTGAAG
M
CTTTTTCAACCAGCTCCAGGTTCTCCTCTATGTAAGCCTTGGGAAGAGGCATTCCAGCAGTGACCATAGGGCCACCCCTGTGCATCTTTAGAGCGCTGAC
Celera SNP ID:            hCV25747385
SNP Position Genomic:     169929
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(A,9|C,25)   total(A,9|C,61)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:25872):
CCATCTACGACAAACCCACAGCCAACGTAATACTGAATGAGCAAAAACTGGAACGGTTCCCCTTGGGAACTGGAACAAGACAAGTATGCCCACTTTCACC
R
CTCCTATTCAATATAGTACTGGATGTGCTAGCCAGCGCAATGAAGAAAGGGAATAAATAAAAGGCACCCAAATAAAAAGAGAGAAAATCAAACTCTCTCT
Celera SNP ID:            hCV2050044
SNP Position Genomic:     234103
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25873):
GGGTACACTAAATCAGATATTTAATTTTTGAGCCTTGGCTTTCTTACAGCTAAGATGAGGATGCTAGATTGACTTTGAAGGATGGTTGGAAGGATATAAT
R
TAATAATGTGTAGAGTGCTTTAAAATTATTAATAATAGTGATAATGATACCATTTATTGGAGACATGTATATGTTTATATTGATATTAATGTAGGTAATA
Celera SNP ID:            hCV2050045
SNP Position Genomic:     227486
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25874):
GGCATATTAAATCAGTATATCTAAAGTCAACATAAAAGAAATACTTCTATGATCAGCAAGAAAAATGCATCTAGTCACCTATGAAAGAAACCCCATCAGA
S
TAAGAATGAGCTTCTTAGCAGAAACTTCGCAGGTCAGAAGAAAATGGAATGGGATTTACAAATTGCTGAAAGAAAAAAATACAATAAAAATGTTTATATC
Celera SNP ID:            hCV2050046
SNP Position Genomic:     211609
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25875):
AGATACGTCCCATCAGTACCTAATTCATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATTATGT
S
GTTTTTGTCTTTGGTTTTGTTTATTTTTGTTCACAGTAATCAACCTGCATTATTTCCCCTTCCCAGTACTCTTCCCAGCCTCTGGTAATCAACATTCTAT
Celera SNP ID:            hCV11770362
SNP Position Genomic:     197672
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25876):
AAGGGAAATAAATTTTATACAAAAGGATATCTACACTCATGTGTTTATACCAGCATTATTCACAATAGAAAAGATATAGAATCAACTAAACTGTCAATCA
R
TGGATTATCGGATAAAGAAAATGTGGTGTATATATACAATGGATTGTATTCAGCCATTAAAAAAGAGAATAAAGTCATTTTTTTTTTTCCAGCAACATCA
Celera SNP ID:            hCV2050048
SNP Position Genomic:     206477
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25877):
CCTGATATTTAAGCAAACGGTTGTCTGACAGCCACAAGTCTTCTTTAGCAATGAGTATGCCATTCACATCACGAGATGTCCACACAGTAAGATCTCTTCC
Y
TGTGTCATTTTAACTGCTTCAGATACTGAGACTGCTACTGCTGCCACTACCCATAAATAATGAGGCCAACCCTTTGCCACTACATCAATTTCCTTACTCA
Celera SNP ID:            hCV11770365
SNP Position Genomic:     176944
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25878):
CCATGCTGAATCTTGAGCTTTAATAATCAAGATTTGTACAAGGAATCTTGGCTTATAGAGGTCTCAAAAACAAGCTCTCCAGAGGTGGTTTTGCTGCTGT
K
GTTTTTGTTGCTGATGATGATGATTTTTGTTACCCTCACCACATAATTAAGATAGACTTTCCAAACAAGTTTCAATCTATTATTAAATAAGTTGATTTGG
Celera SNP ID:            hCV7468600
SNP Position Genomic:     243711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25879):
TTAAGGATTTTACTTTTCCCATTGACCTTGGTGAATCTGATGGCTATGTTCCTTGTGGATGGTCATCTTGTATAGTACCTAGCTGGAGTTCTCTGTATTT
S
TTTGATTTGCCTGTCACACTCTCCAATAAGATTAGGAAAATTTTTATGGACTATATTTTCAAATATATTTTCCAAGTTAATTATTCTCTCTCCTCTCTCA
Celera SNP ID:            hCV27527171
SNP Position Genomic:     123759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25880):
CAACAAGTGTCCTGTAGTTTTTTTGTTGTTCTTGTGTTCTTTCATGTTTTTAATATCGTGGAGATACTGGATTTGTACAATGATTTAGAGAGGTATTCCT
M
CACTTTGATTTTTTGGAATAGCCTCAGTAGGATGACACCAGATCTTTTCTGTACATCTGGCAAAACCTGACTGTGAATCTGTCTGTTCCTGTTCTTTTGT
Celera SNP ID:            hCV7468606
SNP Position Genomic:     249204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25881):
TATCTGTCTAGTGATATCAGTGGGGTGTTAAAGTCCCACTATTGATATGTTGCTATCAATCTATTTTCTTAGGTCTAGAAGTATATTTTTTATAAATCTG
R
ATGTTCCAGTGTCTGTTGCATATATAATTTAAATAAATAAATCTTCTTTTATTGGAGCTTTTCTTAATATATAATGACCTTATTTATATTTTAGTACCAT
Celera SNP ID:            hCV7468607
SNP Position Genomic:     250378
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25882):
TCAGCCATCCTGCTCTGCCTACACTTCCCTATAACAGGTTTGTTGAGGTATAATTCATATACCATGCAATGTGCCTATTTAATGTATACAATGTAATGGA
Y
TTTAGTACATTTAGAGTTGTGCAACAATCATCACAATTTTAGAATATTTTCGTCATTCCTAAAAGAGACCTCGTACTCATTATCAGTCACTCTACAACCC
Celera SNP ID:            hCV29192550
SNP Position Genomic:     223168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25883):
ACGTCTGACTGGTGTACCTGAAACTGACGGGGAGAATGGAACCAAGTTGGAAAACACTCTACAGGATATTATCCAGGAGAACTTCCCCAATCTAGCAAGG
Y
AGGCCAACATTCAGATCCAGGAAATACAGAGAATGCTGCAAAGATACTCCTCGAGATGAGCAACTCCAAGACACATAATTGTCAGATTCACCAATGTTGA
Celera SNP ID:            hCV29192551
SNP Position Genomic:     245404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25884):
TCTCTCAGCAGAAACTCTACAAACCAGAAGAGAGTGGGGGCCAATTTTCAACATTCTTAAAGAAAAGAATTTTCAACCCAGAATTTCATATCCAGCCAAA
Y
TAAGCTTCATAAGTGAAGGAGAAATTAAATCCTTTACAGACAAACAAATGCTGAGAGATTTTATCACTACTAGGCCTGACCTACAAGAGCTCCTGAAGGA
Celera SNP ID:            hCV29192552
SNP Position Genomic:     245686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25885):
GAAGAGAGTGGGGGCCAATTTTCAACATTCTTAAAGAAAAGAATTTTCAACCCAGAATTTCATATCCAGCCAAACTAAGCTTCATAAGTGAAGGAGAAAT
K
AAATCCTTTACAGACAAACAAATGCTGAGAGATTTTATCACTACTAGGCCTGACCTACAAGAGCTCCTGAAGGAAGCACTAAACATGGAAAGGAACAACT
Celera SNP ID:            hCV29192553
SNP Position Genomic:     245712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25886):
ATAACCAGCTAACATCATAATGAAAGGATCAAATTCACACATACCAATATTAACCTTAAATGTCAATGGGCTAAACGCTCCTATTAAAAGACACAGACTG
R
CAAATTGGATAGAGAGTCAAGACCCATCAGTGTGCTGTATTCAGGAGACCCATCTCACATGCAGAGACACACATTGGCTCAAAATAAAGGGATGGAGGAA
Celera SNP ID:            hCV29192554
SNP Position Genomic:     245992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25887):
CTTCTGGCCTGAGGAAGCCTTAAAGAGAATATTAAGTGTTAGTGGGATTGTCATACAGTCAGTGGGGTTGGGTGGGGCCAGATGCTCTACAGTTGCCTCC
M
AGCCTGGAAAAGGCTCAAGGAGAGAAATGACATTACATAAGGAAGCTGGCTAGGGACTTCAGCTAAGCAAACTCATGCACTATGGTTCCTGCAGGGCAGT
Celera SNP ID:            hCV29192555
SNP Position Genomic:     263070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25888):
GAAAGGAATTACAACATACAATTAAAACCTTCAACAGTAGACTAGGCCAGGTAGAATAAAGAATCTCAGAACTTGAAGATAGGTCTTTCAAATTAATCCA
S
TCTGACAAAAAAAGAAATAGTTTCAAAAAAAGCCTTCAAAAAGTTTGGAACTATGTAAAATCTCCAAACCTATGAATCGTAGGTATTCCCAAGAGAGAAT
Celera SNP ID:            hCV2050051
SNP Position Genomic:     201856
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,10)      total(G,2|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25889):
TTCTGTTTTCCTAGTGTTCCAGGCGCCACCGGGCTTTGAGAAAAAACTCCTGCAGCTAGCTCAGTGTCTGCCCAAACTGCTGCCCAGTGTTTTGCTTGAA
R
CCCAGGGCCCTGGTGGTGTAGGCACCTGAGGGAATCTCCTGGTCTGTGGGTTTTGAAGACTGTGGGAAAAGCGTGTTATCTGGGGCCGTATTGCACCATC
Celera SNP ID:            hCV2050054
SNP Position Genomic:     195028
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25890):
GGAAGGGGCTCGCATTGGAGAAGCTGCTCCAAACTCGAATCAGAAAGACACTAATTTCCTTGTCTGAGAACTGGCAAGTCTTATGTTTAAATCTTCGATC
Y
ATTTTGAGATGATTTTTGTGTATGGTTTAAGATAAGGGATTAATTTCATTCTTTTGCAAATGGATATCCAGATTTCATAAAATAACTTATTGAAGAGATT
Celera SNP ID:            hCV2050056
SNP Position Genomic:     184490
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25891):
TGCCTCCATATCTGGGTGCTTTCAATGTGCCAAGGGCTCTGTATGAGTTCTTTGGCTATATATAACTTTTGTGTCGTGGCTTTCTCAAATGCTGCTTATC
R
TAATGATGCATTGGCCATATGATCTGGCACACTATCTTCTGTGAGCTGGGAGTGCAGAGCTCTCAGAAAGCTTATCTTGCACGTTAGCACTATGCTGTGT
Celera SNP ID:            hCV2050057
SNP Position Genomic:     182940
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25892):
AAACAGCTCGCACGTTTGAGCAGACCAATTATTAGGCAATTTTCTTAACTCTGCTTCTACAAGAGTTTCCCTCAATTATTGAATACCCATTGTGTTTTTT
Y
CTCAATCACCTGGGAGGAACCATCTATTGTCCTGTCCTGAAGGGAGTCCCTCCTAGGTCTGTTCAGACATTTGTATGGTAATTAAGATTTAAATCCCCTG
Celera SNP ID:            hCV2050058
SNP Position Genomic:     180430
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25893):
TGCCTTTCTTGACCACAAAGAAAGGGGTCTGGGCTGCTGGATTCTAGTGGTCCTTTACCAGCAAGCCTGACATTGCCTTTGCACTCAGGGGCGAGTTCTA
R
AGCTGGGCTGGGTTCCTGAGTATTTCATAATAACCCATTTGCCCCATCAAGATGCATTCCTACAAACAACCGTTCTTATGCAAATTCATTTCAGAGAGGG
Celera SNP ID:            hCV2050059
SNP Position Genomic:     180154
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25894):
GGTCTTAGATTTAGGTATCTGATCCATCTTGAGTTGATTTTTGTGTAAGGTGAGAGATGAGGATCCAGTTTCATTATCCTAGATGTGGTTAGCCAATTAT
M
CCAGCTTTATTTGTTGAATAGGGTGTCCTTTTCCCACTTTAGGTTTTTGTTTGCTTTGTCAAAGATCTGTTGGCTGTAAATATTTGGATTTGTGGGTTCT
Celera SNP ID:            hCV11770448
SNP Position Genomic:     150623
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,3)      total(A,3|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25895):
AATGGAAACAGGCCAAATGCCCCAATTAAAAGACACAGACTGGCAAATTGGATAAAAAGTCAAGACACCTCAGTGTGCTGTATTCAGAAGATCTACCTCA
W
GTGCAAAGACACACATAGGCTCAAAATAAAGGGATGGAGGGATACTTATCAAGTGAATGGAAAGCAAAAAAGAACGTGAGTTGCAGTCCTAATCTCTGAT
Celera SNP ID:            hCV27940700
SNP Position Genomic:     49992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25896):
ACATGGAAATTAAACAACATGTTCCTGCATAATCTTTGAGTCAATGAAAAAATGTAGACATAAATTAAATAATATTTGAAACAAATGAAAATGGAAACAA
M
ACATACCTAAACCTTTGTAATACAGCAGAACTGGTATTTACATGGAAGTTTATAATGTTAAATGCCTACATCAAAGTAATAAAAAGACTACAAATTAACA
Celera SNP ID:            hCV28028192
SNP Position Genomic:     203404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25897):
ACTGATGCTAGTCAATCCATCCACATCCTTTTCAGGTGCAATAGCATTGATCACTCCTTCAGTGTATTGTCTGAGTCTAGAGATAGCTGCACTACGAACC
Y
GTGTACAGTAGAGTCTTCATTCAAAGATATGATGTACTTGATCACCTCAGATTCTGTGGTTGTTCTTGGTAACTTAATGTCAGTGGCTTTCATCCCAATC
Celera SNP ID:            hCV28028193
SNP Position Genomic:     171810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:25898):
CCAGGGATGAAACCCACTTGATCATGGTGGATAAGTTTTAATTGATAGACCACTAGCAAGACTAATAAAGAAGAAAAGAGAGAAGAATCAAATAGACGCA
W
TAAAAAATGATAAAGGAGATATCACCACCAATCCCACAGGAATACAAACTACCATCAGAGAATACTACAAACACCGCTATGCAAATAAACTAGAAAATCT
Celera SNP ID:            hCV28028194
SNP Position Genomic:     256599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25899):
CGCCTGAGTGAGGGCTATTATTTCTGCCAGCTGAGCACTAGTTCCTGGAGTGAGGGGATTACTTTCAAGTATTCCATTATCACTGACCACTGCATAATAC
R
CTTTTTAAAGTCCTTTTTCTACAAAGAAACTTCCATCAGTATACAATTTGAGGTCGGAATCAGTCAAGGGAACCTCTAGAAGGTCCCCTCGAGTGGTGTA
Celera SNP ID:            hCV2050060
SNP Position Genomic:     176622
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25900):
AGGATTTTTACGTATGAGAACATGTCATCTGCAAACACAATTTTGCATTTTCCTTTCCAATTTGCATGCTATTTATTTATTTATTTATTTATTTATTTAT
T
TATTTGCCTCATTGCTCTGGCTAAGACTTCCAGTGACATGTTGAATAGAAATAGCCAAAGTGAACACCTTTATCTTATTCCTTATGAGGAAAAGCTCTCA
Celera SNP ID:            hCV26649526
SNP Position Genomic:     185251
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25901):
GGATTTTTACGTATGAGAACATGTCATCTGCAAACACAATTTTGCATTTTCCTTTCCAATTTGCATGCTATTTATTTATTTATTTATTTATTTATTTATT
T
ATTTGCCTCATTGCTCTGGCTAAGACTTCCAGTGACATGTTGAATAGAAATAGCCAAAGTGAACACCTTTATCTTATTCCTTATGAGGAAAAGCTCTCAG
Celera SNP ID:            hCV26649527
SNP Position Genomic:     185252
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25902):
GATTTTTACGTATGAGAACATGTCATCTGCAAACACAATTTTGCATTTTCCTTTCCAATTTGCATGCTATTTATTTATTTATTTATTTATTTATTTATTT
A
TTTGCCTCATTGCTCTGGCTAAGACTTCCAGTGACATGTTGAATAGAAATAGCCAAAGTGAACACCTTTATCTTATTCCTTATGAGGAAAAGCTCTCAGC
Celera SNP ID:            hCV26649528
SNP Position Genomic:     185253
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25903):
GTCATCAGCAAGCAGAGATAACATGACTACTTCTTTTTAAATTTGGATCCCTTTCCTCTGGCTAGAACTGCCAGTACTATGTTGAATAGGAGTGGTGAGA
S
TGGAGATCCTTGTCTTTTTTCAGTTCTTGTTTTTTTTGTTTGTTTGTTTTTTGTTTTTGGCAAAACTATTTCCTTTTATTCTGTGGAACGTCACTAACGT
Celera SNP ID:            hCV2050062
SNP Position Genomic:     169019
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,10)      total(G,10|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25904):
ATTTTTACGTATGAGAACATGTCATCTGCAAACACAATTTTGCATTTTCCTTTCCAATTTGCATGCTATTTATTTATTTATTTATTTATTTATTTATTTA
T
TTGCCTCATTGCTCTGGCTAAGACTTCCAGTGACATGTTGAATAGAAATAGCCAAAGTGAACACCTTTATCTTATTCCTTATGAGGAAAAGCTCTCAGCT
Celera SNP ID:            hCV26649529
SNP Position Genomic:     185254
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25905):
TCTACTTTTTATTATTTCTTTCCTTCAGATAAGGTTGGCTTTATAGTGTTCTTCTTTGCCTAGTCCCTTGAGGTGAAAAGTTAGGTAGTTAGTTTGAGAT
C
TTTTTTTTTTTTAAATTTTATTTAAAAAATTGTATTGTATTTTGGTAAGAACATTTAACATGACATCTACCCTCTTAACTGATTTTTAAGTTTCCAAACA
Celera SNP ID:            hCV11770451
SNP Position Genomic:     134828
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25906):
TGATGATTAGTGTTGTTGATTTTTTTTTTTCATATACCTAGGGGCCAGTTGCATGTCTCCTTTGAAGAAATGTCTATTCAGGTTGTTTGCCAATTTTTCA
R
TTAAGTTATTTGTTTCTGATAAGTTCTATGAATTCCTTGTATATTTTGAATATTAATCCTATATCAAATATATGTTTTACAAATGTTTTATCCCATTCAG
Celera SNP ID:            hCV2050063
SNP Position Genomic:     166716
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25907):
AACCAAATACCGCATGTTTTCACTCATAGGTGGGAATTGTACAATGAGAATACTTGGACACAGGAAGGGGAACATCACACACCAGGGCCTGTTGTGGGGT
K
GGGGGAGTGGGGAAGGATAGCATTAGGAGATATACCTAATGTGAATGATGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAA
Celera SNP ID:            hCV2050064
SNP Position Genomic:     161809
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25908):
AATTTGTCTTTTTAAAAGCAAGAGTTCATTTGGGAAAGAAGAATAATAAGGGGAACAGACCTACCAAATTTTAAAAGTAATTTTTAAACTACTATTCAAT
K
TAATAATAATACAGCTTATTACGTGGAAGCAATGGAAGACAAAGAAGGCCCTTACATAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAACTACCCTA
Celera SNP ID:            hCV2050065
SNP Position Genomic:     158207
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25909):
AACCATTTTCCATACACAGATGATGCCAAAATCTGCCTCTTCAGCTCACTTTTTTCACTTAAGCTAGAGGACTGTCTATTTACTACTACAGGAAGACTGG
S
CATTTCAGATAACTGAGACTCAATATATCTAAAACTGATATTATTTTTCTTTCAAGCTCCAGAAACCTGATCCACTACTTTGATTCTTACCCAATCCCAG
Celera SNP ID:            hCV2050066
SNP Position Genomic:     157054
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25910):
GCCATTTTTACAGTATTGATTCTTGCTATCCATGAGCATGAAATGTTTTTCCACTTGTTTGTGTCCTCTCTTATTTCCTTGAGCAGTGGTTTGTACTTCT
Y
CTTGAAGAGGTCCTTCACATCCCGTGTAAGTTGTATTCGTAGATATTTTATTTTCTTTTTAGCAATTGTGAATGAGCGCTCACTCATGATTTGGATATCT
Celera SNP ID:            hCV2050067
SNP Position Genomic:     154513
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25911):
TAGACGTGCAGGTGCATGTGTCTTTTAGGTAGAACAATATTTGGCTTTCAATATATACCCAGTGATGGGATGATTGGGTTGGATCACAGTTCTATTTTTT
K
GGGGGGGGGTTACTTTCAACTTTTACTTCAGAAACAGGGGATACATGTGCAAGGTTTCTAAAAAGGTATATTACATGATGCTGAGGTTTGAGGTATGATT
Celera SNP ID:            hCV2050068
SNP Position Genomic:     148310
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25912):
TCTTGAGTTAAGTTTTGAATATGGTGAAATGTATTTTGCACATGACTAGCCAGTTATCTAAACACCATTTATTGATAGGTACTTCATTCCCCATTGCTTG
Y
TATTGTCAACTTTGTGGAAGACCAGGTTGTTATAGATTTGAAGCTTTATTTCTGGGTTCTCTATCCTGTTCCATTGGTCTAGGTGTCTGGTTTTATAACA
Celera SNP ID:            hCV2050069
SNP Position Genomic:     139525
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25913):
TAACAAAGGCTTAACTAAGGCATTGCTGGTGATGTTGCAAGAAAGAAATTAGAATAAAATATGGAAATTAGGAAACATCAATTTCATTAAATGAGTATAT
R
TGGATGCTGAAAGAGAAGAATTAAGTATGACATCTGTATTTATTGTTTACGTGACTTGGTGTCATCAACTGAGTCAAATAATATAGGATATGACATTTTA
Celera SNP ID:            hCV7468550
SNP Position Genomic:     38918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25914):
CTCTATCTCAGGGAGATGGGAGTTTAATCTGTAAGCTGCTGACTGGGGCTGTTGCCTTTCTTTCAGAGATGCCCTTCCAAGTGAGGAGGAATCTAGAGAC
R
CAGTCTGGCTACAGTGGTTTTGCTGAGCTGTGGTGGGCTCCCCCCAGTTTGAACTTCCTGAAGGCTTTGTTTACACTGAGGGGAAAACCACTTACTCAAG
Celera SNP ID:            hCV11393151
SNP Position Genomic:     194639
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25915):
TCTAGTATTTATTCATCTTGCATAACCAAAACTTTATATCACATGAATAGCAATTCCCCATTTCTCCCTTTCTCCATCTCCTGACAATCATCATTTCACT
S
TCTGCCTCTATGAGTTTGACAAATTTAGATAACTCATATAAGTGGAATCACACAGTATTTGTCCTTCTGTTTTATTTAGCATAATGTCCTCAAGATGCAT
Celera SNP ID:            hCV2050070
SNP Position Genomic:     135066
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25916):
TTTGCAGGGACATGGATGAATCTGCTCTACTTTTTATTATTTCTTTCCTTCAGATAAGGTTGGCTTTATAGTGTTCTTCTTTGCCTAGTCCCTTGAGGTG
R
AAAGTTAGGTAGTTAGTTTGAGATCTTTTTTTTTTTTAAATTTTATTTAAAAAATTGTATTGTATTTTGGTAAGAACATTTAACATGACATCTACCCTCT
Celera SNP ID:            hCV2050072
SNP Position Genomic:     134803
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25917):
TCCATATTTTATTCTACGTTCAGGGGGCACATATGCGGGCTTATTACATGGGTAAATTGTGTGTCCATGTGGTTTGGTGTACAAATGATTTCATCATTCA
S
GTAGTGAACACAGTCCCTGATAGGTAGTTTTTTGATCCTTGCCCTCCTCCCATCCTCCACCTTTAAGTAGGCTCTGGTTTCTCTTGTTTTCTTCTTTCTG
Celera SNP ID:            hCV2050075
SNP Position Genomic:     119395
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,7)   total(G,4|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25918):
ACAGGAATAAACATTTTTTTGAATTCGAATTGTAACTATGCCTGTTACTAAATATGCACTTTTGTTATTTTAAATAACCTCCAGAGTCTCAGTTTCCCCA
Y
CTTTGAAAATGAGATAATACTTACCTCTTAGGTTAGTTCTGAATACAAAAACATGTGTTGGTTAAACATGTGCCAAAATTGTTTGTTTCTAAAATTTAAA
Celera SNP ID:            hCV7468561
SNP Position Genomic:     131820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25919):
ACAAACCACTGCTCAAGGAAGTAAAACCGGAGCAAAACAAATGGAAGAACATTCCGTGCTCATGGATAGGAAGCATCAATATCGTGAAAATGGCCATACT
R
CACAAGATGATTTATAGATTTAATGCCATCCCTATCAAGCTCCCAATGACTTTCTTCACAGAATTGGAAAAAAACTACTTAGTTTCCTATGGAACCAAAA
Celera SNP ID:            hCV86704
SNP Position Genomic:     54964
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25920):
TTACTAGTAGTTTGTTGAATATATTTGCATCCATGTTTATCAGGGATATTGGTCTATAGTTTTCTTGTAGTAACAGTATATGGTTTGGTATCAGGGTAAC
R
CTGGCTTTGTAAAATGAGTTTGGAAATATTATATTCAATTTTTGGATGAATTTGAAGATGATTAGTATTATTTAAAAAAAAAGTTAGATAGAATTCTTCT
Celera SNP ID:            hCV7468562
SNP Position Genomic:     132938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25921):
AGCACCCTCTTTTTATAGTCCCTTTGAAATCATATATGGCCAAACTTTTGTCTTGGGGTCTCCACCCTTACCAGACTCTGAGCCACTCAGATATTACCTC
Y
CCTCCTTAATCCAGACATGGTCTTTCATTCGTGAAGCAGCAAATAAGGCCATGCCTCTCCCTGTTAACACCTTTTTGTCCTCTGAACGTAACTGTCTTAC
Celera SNP ID:            hCV2226107
SNP Position Genomic:     1111
SNP Source:               Applera
Population(Allele,Count): african american(C,18)   caucasian(C,6|T,24)   total(C,24|T,24)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25922):
GTAATCCCATCTGTCTATTTTTGTTTTATTGACTGTGCTTTTCATGTACCACCAAAAAAAATTATTGATCAGACTAATGTTATGAACTGTTTTCCTTGTG
K
TTTTTTCTGATAGTTTTATAGTTTTGAGTATTATACTTAAGTCTATAATCTATTTTGAAATGATGTTTGTATGCAGTTAAAGATAAGGGTCTAGTTTCAT
Celera SNP ID:            hCV842975
SNP Position Genomic:     13928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25923):
TAGGTCAAGATCAAAACTACCCACTCTTGGTAGACTGAGGACTATGAATTTTATCTTCCTAGCACAATGAAGTCACCAAAAGTACAGATCTTCCTCTCAC
S
CATTACTTTAGACTCAGCAAATATTCCTTTCCCCCAGAGAAAAATAGGTTCCATGTTCTGGACTCAACACTAGATTCCTTTTCTGTTATAGACCTCTGTC
Celera SNP ID:            hCV2226109
SNP Position Genomic:     8307
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(C,12|G,71)   TSC_42_C(C,29|G,54)   TSC_42_AA(G,8|C,75)   total(G,133|C,116) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25924):
CATGTTTTTGTCCTTTAATCTCCATACCAGAATTAGAAGTGATTTATAAACCAATATTATAGTATCACAGGATTTAATATCTGTCTGCGTATTTACCTCT
R
CCAGAGATCTTTGTTATTTATGGTTTTATGTTGCTAACAAGTGTCTTTTGATTTCAACTTGAAGGACTCCTTTTGGCAATTCTTGATGGCAGGTGTAAAG
Celera SNP ID:            hCV7468568
SNP Position Genomic:     136440
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25925):
GGCAGAGTGCAGTGGGGTCTGCACATGTGTGCACACCACCAGCAGCAGCATGGCAGTGTTCACATGTGCATGTGCCAGCACATCTGTAGGGGAGACTGTG
R
GTGAGTGCACATCAGCAGAAGCTGCGGGTGGTGCTTATCAGCAGAAGCTCTCTGATGGTTAAGCAAGATCTGTCAGTGTAGGAGCTATGAAGTTGGCTGC
Celera SNP ID:            hCV29224544
SNP Position Genomic:     17666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25926):
TCATAATGAAATAAAGCGTGAAGACAAGATTAGAGAAAAAAGAATAAAAAGAAACGAACAAAGTTTCCAAAGTATATGGGACCATGTGAAAAGACCAAAC
Y
TATGTTTGATTGGTGTACCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACACTCTTCAGGATATTATCCAGGAGAACTTCCCCAACCTAGAAAG
Celera SNP ID:            hCV29224545
SNP Position Genomic:     21228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25927):
AGCCACTGCAAAAACATACCAAATTGTAAAGACCATGGACACTATGAAGAAATTGCATCAATTAACGGACAAAACAGTGAGCAAGCATCATAATGACAGG
W
TCAAATTGACCCATAACAATATTAACCTTAAATGTAAATGGGTTAAATGCCCCAGTTAAAAGACACACACTGGCAAATTGGATAAAGAGTCAAAACCCAT
Celera SNP ID:            hCV29224546
SNP Position Genomic:     21828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25928):
TATTGAAATATGAGTTTGGAGCCAAAGAATGTTTTTTAAATAAGATTGTTATCATAGTGCTATTGTGGCAGGCCAGGTCTCCATTAGCAACCAGAACAGT
S
AGTTTCCACTAACCCTTTACTATAGTTCTGATGAATGTATAAGTTAAACATTAAAGAATTGGAGAAACTAGTGCTTTAGTACAAGGGCTGGGATGTGAAA
Celera SNP ID:            hCV29224547
SNP Position Genomic:     26195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25929):
CTTCCAAAAAATTCATTAGGAGATAACACTTCCAAACTCATTTTGCAAGGCCAGTATTAGTCCAAAGCCTGACAAGGATACTACAAGAAAAGAAAATATA
R
GTGAATATCCCTGATGAACAAAACACAAAAATTCTCAACAAAACGCTGGCCAACTGAATTCAAATGCATATTAAAAGGATCATACAACATAATCAAGTGG
Celera SNP ID:            hCV29224548
SNP Position Genomic:     28031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25930):
TCCCATTAAAAAGTGGGCAAAAGACATGAACAGACACTTTTCAAAAGAAGACGCATATGCGGCCAACAAGCATATTAAAAAAAGCTCAATATCATTGATC
W
TTAGAGAAATGCAAATCAAAACCACAATGAGATACCATGTTGCATCAGTCAAACTGGCTATAATTATAAAGTCAAAAAATAACAGATGATGGTGAGTTTG
Celera SNP ID:            hCV29224549
SNP Position Genomic:     41418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25931):
TTAGAGGTTGTAGGTTAAAACAAAACAAGCCCCTGGGATCCCACCAAGCATGCTTTTGGTGGGCTAGGAAGATAAATTTTGTGACCAGGATCTACTTTTC
Y
AACAAAGGAGACTTTCATTCTATCAATAAATTTCCATATGCATGATATGCTTGGAAGATTCAAGCCAGCCTAGGGGCCCTCTTGGAATATAAAGATACTA
Celera SNP ID:            hCV2226110
SNP Position Genomic:     8921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25932):
ACTGTTATAACTGGTCTATAAATGTCTTGTTTTCTTCTAACTCTTAGAACAGTGATAAAAATTCATTGGCATGCATGTAGTCCGTGTTACAGCCTAGATG
R
AACAAGCACATATGCTCATGTGTCATTTCTGACTCAGTGGTATCTCTACAAACTCTCAAACTTCTTGTAGAAATTTTTTATGTTGGCCTACCAGGGAGAT
Celera SNP ID:            hCV2226111
SNP Position Genomic:     9764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25933):
CCTGATGCATTTATAACTGACCAGAAAAGCTGGCAGATTTGTAAAGAGATTCCTCCTCTGCTCATGAGATATAGGAATGCCTACAACCAGGTCTATGGTA
Y
TATGTAGATCAATAACTGTCTTATGAGGAGTAGCTAGCCAGGGGCTTTTTCTTCTACTTCTGTTATGACTAGTAGAGATATGTCATTTTGTGTCATTGTT
Celera SNP ID:            hCV2226112
SNP Position Genomic:     10069
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25934):
AATACTATCATCAAAACTGATTACACAAGTTCATCTGTTAATGTTCATTTTTATTGAGATTTTATATATTTACACTTCAAAAATTTCTTTTCACACATAT
R
GAAACATATATGAATTTTAAAATATGCATCTTCATGAAAGTCCAAATAACACTATTTGGACTATAGTTTGAGTTCAGAAATTATATCTGCTGAAAATTTG
Celera SNP ID:            hCV2226115
SNP Position Genomic:     12514
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25935):
CTCTTTATCTGTGATTTTTGACTGCTTGATTATAATTTGTCTTGGTATGAGTCTGCTTGGGTTTATCTTAGAGTTTCATTTTTTAGCTTTTCCCATTTTT
R
TGTAACTTTCCTCAAAATTGAGAAGTTTTTGGCCTTCTTTCTTCAAATAATTCCTCTTCCCTTTTACTTTTTTATGGGTATTTCATATGCATACATTTGT
Celera SNP ID:            hCV7468572
SNP Position Genomic:     136888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25936):
TTTCCTTAATATTGTGTCCTTTAGGTTGATCCCTTCTGCCATTAATGACAGGATTTTTCCATTTTTATAGCAGAATAGCATACCACTGTGTATGTATACC
R
CATTTTCTTTGTTAATTCATCTGCTAAAGGACACTTAGGTTGATTCCTTTTATTGGCAATTGTGAATGATGCTTTATAAACACAGGAGTGCAGATATGTT
Celera SNP ID:            hCV2226116
SNP Position Genomic:     13186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25937):
TGATAGAATTCAGCAGTGAAACCATCAGGTTACTGCTTCTATCTCATTACTCATAATTAGTTTGCTCAGATTTTTTATTTTTCCATGGCTCACCATCTTA
R
GTTATATATGTAAATACTTTTTTTTAGTTTTTCAAAATTACTGGCATATAGTTATTCATAATAACTTCTTTCTTTCTTTCTATTAATTTAAGGTTTGGCA
Celera SNP ID:            hCV7468573
SNP Position Genomic:     137913
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25938):
GCTTTGTCAAAAAATATGTGACCATAAGTGTGTAGAATTAATTTTGGGTTCTCAATTTTGTCGCATTGATCTTTGTTTTTATTTTTATACAAGTACCATG
Y
CGTTTTGGTTATTATTGCTTTATACAGTATTTGGAAGTCAGGTAAGGTGATGCCTCCAGCTTTGCTCCTTTTTTATTTGTTTTATTTTTTATTCTGATAT
Celera SNP ID:            hCV2226117
SNP Position Genomic:     14208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25939):
CTCTTTCAGGAATGCCAATTCTTTGTAGGTCTGGTCTCTACATAATTCTATATTTCTTGGAGGTATTGTTTATTTTAAAAAGAATTAAAATTTCTTTCTG
R
TAGAGTTGATTTGAAGAACTGGCCTTAAAATCTTATTCTATTTTGCTCATCTTAGTCTGTCTTCCTGTTAATAATTTCTGATTGTATTACAGAATTCTTG
Celera SNP ID:            hCV2226118
SNP Position Genomic:     16725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25940):
GTTTGGGGATAAGAAGACATTCTGGCTTTTAGAGTTTCAGAGTTCTTGCACTGGTTGTTTTGTATGTGTGTGGGCTGATGTTCATTTAATCTTTGAAGTC
R
CTCTTCTTTGTATGGTGCTTTTTGCTTGTATTTTCTTTGGTGTCCTTGAAGGTTTGACTGGTATAAGTTGGGTTTAGTTGATGGCCTTCATTTCTAGATG
Celera SNP ID:            hCV2226119
SNP Position Genomic:     17149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25941):
CCTGACTGTCTATCCTTTCAGGTGTGGTTCCCAACAAAGGTCAGTTTCCCTTGGCTGTGGGAGCCCAGGAGTTGTTTCTGTGCACTGGTCCTATGTGCCG
Y
TATGCTGAAGACCTGGCCCCCATGTTGAAGGTCATGGCAGGACCTGGGATCAAAAGGTATGTTCATTTATTTTTATTTCCTTGGACTCTTATCCTGACAT
Celera SNP ID:            hCV25742993
SNP Position Genomic:     155402
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,38)   total(C,68|T,8)
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:25942):
AAACAACTTGATCCATGGAGAACAGAGAAAAGCAAGGCAGGACGATGGCCCACTCGGGAGTGACACAGAGCCAAGGGAACCTCTCTCACCCAGGGAAGTG
R
TGAGTGAACATGTGACCACAGGAAACCACACTTCTTCTATGGAGCTTTGCAAACTTTGGGTCAGGTGGTCCCCTTGTGAACCCACTCCACGTGGGCCTTC
Celera SNP ID:            hCV29224550
SNP Position Genomic:     42019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25943):
CACTCCACGTGGGCCTTCAGTCTGACACAGAGAGCTACATGGAGTCTTGGCAAAGCATCCACTCAGGCATGCACGAGACTCAGGAGCTTTAGATACTCCA
S
CTTTCTGGGCTTCCTGGCAGAAGTAACTGCAACCCCAGGTGGTTAGACCCCTGTACATACCCCTAAGAAAGAAGTTGAATCCAGGGGGCCAAGCTGCAAT
Celera SNP ID:            hCV29224551
SNP Position Genomic:     42202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25944):
GACTGTTAGAAGGAAAATAAACAAACAGAAAGGAATAGCACATCCACTCAAATGCCCCATCTGAAGTTCACCAACATCAAAGACCAAAGGTAGATAAATC
Y
ACAAAGATAGGAAAGAAAAAAAAAAGTGCTAAAAGGATATAAATACCAAAATCCAGAATGCCTCTCTTCCTCTGAAGGATCACAACTCTTCACCAGCAAG
Celera SNP ID:            hCV29224552
SNP Position Genomic:     48745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25945):
AAGGAGTCCAGTTTCTGTTTTCTGCATATGGCTAGCCAGTTTTCACAGCACTATTTATTTAATAGGGAATCCTTTCCCCATTGCTTGTGTCAGGTTTGTC
R
AAGATCAGATGGTTGTAGATGTGTGGCGTTATTTCTGAGACCTCTGTTCTGTTCCATTTATCTATATGTCTGTTTTGGTACCATGCTGTTTTGGTTACTG
Celera SNP ID:            hCV26649551
SNP Position Genomic:     190200
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25946):
ACATCAAAGACCAAAGGTAGATAAATCCACAAAGATAGGAAAGAAAAAAAAAAGTGCTAAAAGGATATAAATACCAAAATCCAGAATGCCTCTCTTCCTC
Y
GAAGGATCACAACTCTTCACCAGCAAGGGAACAAAACTGGACAGAGAATGCATTTGATGAACTGACAGAAGTAGCCTTCAGAAGGTGGGTAATAACAAAC
Celera SNP ID:            hCV29224553
SNP Position Genomic:     48818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25947):
GCTATTCAGTAAAGCAATATTTCATATCCTTTCTTCACTGTTTATTTTTGTCAACTTTGTCAAAGTTCAGTTTTTTATAGGTATGTGGCTTTATTTCTTG
R
TTCTCTATTTGGTTCCATTCTATGTCTCCATTTTTTTACCATTACCATACAGTCTTTGTTACTATAGTTTTTTAGTATATTTTGAAGTCAGATAATGTGG
Celera SNP ID:            hCV26649552
SNP Position Genomic:     168343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25948):
GTATCTCAGACCAGAGTGCAATCAAATTAGAACTCAGGATAAAGAAACTCACTGAAAACCTCACAACTACATGGAAACTGAACAACCTGCTTCTGAATGA
Y
TACTGGGTAAATAATGAAATAAAGGTAGGAATAAAGACGTTCTTTGAAACCAGTAAGAATAAAGACACAACGTACCAGAATCTCTGGACACATTTAAGGC
Celera SNP ID:            hCV29224554
SNP Position Genomic:     50627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25949):
TTGTAATGATAGGAGTTATGTTTAGTCTGTAGATTGCTCTTGGCAGTATGGTCGTTTTAACTAGTGATACTTCCAGTCCATGAGCATAAGATCTTTTTCT
R
TTTCTGGCATCTATGATTTATTATATCAGTGTTTTGTATTTCTCCTTATAGTGATCTTTAACCTCCTTGGTTAAACATATTTCTAGTATTTTATTTTTGT
Celera SNP ID:            hCV26649553
SNP Position Genomic:     168648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25950):
GTAGATAGTATTTTATATAGGTATCATATACGTTACTTCTGTGTCTCTATTGCTAAGTAAACACTTCTCAGCAGCTCTGAGGTATTAGAGGGCCAAAAAC
Y
TGGATTATTTTCTTTGTAATATTCTGTTTAATGGGTAGTACAGTTCTTCTTAGCACACCATGACATAGGGTGCCATCGTGTAGCTCTCAGCCATTCATGT
Celera SNP ID:            hCV29224555
SNP Position Genomic:     70034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25951):
CTTCTGTGCAATAAAATAAATTACCAATAGAATCAACAAACAGTAACAGAATGGGAGAAAATATTTGCAAACTATACATCCAACAAAGGCCTACTATCCA
R
AACCTACAAAAAACTTAACAAATCAACGTGCAAAAAAGAAACCACCTGAACAACCACATGTTGGGTACTATGTTTATGACCTGGAAGATAGGATCACTAG
Celera SNP ID:            hCV16195462
SNP Position Genomic:     241361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25952):
GTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTCCATATGGCTAGCCAGTTTTCCCAGCAGCATTTATTAAATAGAGAATCCTTTCCCCATTTCT
K
GTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGTGGCATTCTTTCTGAGGGCTCTGTTCTTTTCCATTGATATATATCTCTGTTTTGGTAC
Celera SNP ID:            hCV26649554
SNP Position Genomic:     196681
SNP Source:               Celera
Population(Allele,Count): no_pop(G,8|T,8)   total(G,8|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25953):
GACTTCAAACTATACTACAAGGCTACAGTAATCAAAACAGTATGGTACTGGTACCAAAACAGACATATAGACCAATGGAACAAAACAGAGCCCTCAGAAA
M
AATGCCGCATATCTACAACTATCTGATCTTTGACAAACCTGACAAAAACAAGCAATGCGGAAAGGATTCCCTATTTAATAAATGGTTCTGTGAAAACCGG
Celera SNP ID:            hCV29224556
SNP Position Genomic:     77263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25954):
AAGAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGAAAAGACTTCATGTCTAAAACACCAAAAGCTATGGCAACAAAAGCCAAAATTGACAAATA
R
GAGCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTATCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCCGTCTATCCAT
Celera SNP ID:            hCV11876373
SNP Position Genomic:     33664
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25955):
AGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTGTAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGC
S
ATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTTCCAATTCTGTGAAGACAGTCATTGGTAGCTTGATGGGGATGGCATCGAATCTA
Celera SNP ID:            hCV26649555
SNP Position Genomic:     196883
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,13)   total(G,13|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25956):
TTTCTTCTGAAACTATTCCAAACAATAGAAAAAGAGTAACTCCTCCCTAATCCATTTTATGGGGCCAGCATCGTCCTGATAACAAACCCTGGCAGAGACA
M
AACAAAAAAAGAAAATTTCAAGCCAATATCCTTGATGAACATCTATGCAAAAATCCTCAATAAATACTGGCAAACTGAATCCAGCAGTACATCAGAAAGT
Celera SNP ID:            hCV29224557
SNP Position Genomic:     95666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25957):
TACACATTAAGTAGAAGCTATCAAAAAAATAAATTAAGAAAACCATATCATTTGTAATGGCATCAGTAAGAATAAAATAGATAGGAATAAATTTAACCAA
R
GAGGTGAAACATTATGGCATTCAACACTTTAAATGTGTGAATTGTATGATATATGAATTGTATCTCAATAAAGCTGTTTAAATAACAATGTACTATATTC
Celera SNP ID:            hCV11876374
SNP Position Genomic:     27346
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25958):
TTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCGATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAG
T
TTTTTTCCAATTCTGTGAAGACAGTCATTGGTAGCTTGATGGGGATGGCATCGAATCTATAATTTACCTTGGGCAGTATGGCCATTTTCATGATATTGAT
Celera SNP ID:            hCV26649556
SNP Position Genomic:     196924
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,10)   total(-,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25959):
AAAAGGCCCTCCATAAAATTCAACACCCTTTCATGCTAAAAACTCTCAATAAAGTAGGTATTAATGGAACATATCTCAAAATAATAAGAGCTATTTATGA
S
AAACCCACAGCCAATATCATACTAAATGGGCAAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAAGGATGCCCTCTCTCACCACTCCTATTCA
Celera SNP ID:            hCV29224558
SNP Position Genomic:     95999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25960):
CTGTTTCAGGGTCCAAATCAGTATCATAAAAACAGGGCTGGGTGGGGAGTCCATTGTGCTCATCGTTCCTACTAAAGGGTACAGAAAACCAGCCCCGATG
Y
TGGCATGGATGTTGCGAATGGGCAGAATGAATCCTGTAGGGACACCTTTTCGCTCTGGGTTGTGAGACAAGGACAAGTGTGTTTTGGCCATGCAGATGGG
Celera SNP ID:            hCV26649557
SNP Position Genomic:     169450
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,14)      total(C,14|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:25961):
CAATGAAATCAAAGAGAAAGCTGAAAAGCAATACAAAGAAATAAAAAATCAATTAAGGATATAAGTGAGAAATTTACCAAAAAGATAGATATTAAAAAAC
A
AAAAAAATCTGAAAATAAAAAATTAGAAAGGAATTACAACATACAATTAAAACCTTCAACAGTAGACTAGGCCAGGTAGAATAAAGAATCTCAGAACTTG
Celera SNP ID:            hCV26649558
SNP Position Genomic:     201730
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,8)   total(A,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25962):
TACCCTTGCCCCCTTCTGCCAGTGAGTGCACTTCACGGCATCAAAAGCCCTCTGTTCTCTGGAAAGGCAGCCGATGAGGTCCAGCTCAGTCTCTGTATCT
R
TCTTGAATGCATTCACGGCCACTACTACTGGAATTCCAAACATTCTGGCATTTTCAGTTTGTTTCTTCAAGTTACTGAAGCCTTTTTCAACCAGCTCCAG
Celera SNP ID:            hCV26649559
SNP Position Genomic:     169848
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:25963):
GGGCATCTCTGAAAGAAAGGCAACAGCCCCAGTCAGAGGCTTATAGATAAAATTCCCATCTCCCTGGGACAGAACACCTGGGGGAAGGGGAGGCTGTGGG
Y
GCAGCTTCAGCAGACTTAAATGTTCCTGCCAGACGGCTCTGCAGAGAGCAGCGTATCCTGACAAGGAGGATTCTCCCAGCACAGAACGGGAGCTCCACTA
Celera SNP ID:            hCV11876379
SNP Position Genomic:     18976
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25964):
ATGAAGCATCTATAAGGAGCTTAAACAAAACTACAAGAAAAAAAAACAGACCTATTAAAAAGTGGGCAAAAGACATAAACAGGCACTTTTCTTCTTTTCT
K
TAAATAGCTACCTTTATTTGTAAAGTTCATTTTTAAAAATTTTGTATTTCAATAGTTTTGGCGGTACAGGTGGTTTCTGGTTACATGTATGTGTTCTTTA
Celera SNP ID:            hCV2226120
SNP Position Genomic:     18479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25965):
TATTTTACTTCTTAATAAATTTATTAGAAGTGTTTTACAGAAATTTTCAGATCATTTATTTATTTAATGAGTCAAACACGCATGAACAGGCACTCTTCCA
R
ATAATCCAAATAAAGTATCTAGCTAGATGACATATTTACTCACATGGAGCTAACATTCTAGAGAAGAACATATAGAATAAACAAAGATTCAATTTAATAA
Celera SNP ID:            hCV2226121
SNP Position Genomic:     25012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   TSC_42_A(G,21|A,63)   TSC_42_C(G,29|A,54)   TSC_42_AA(A,8|G,75)   total(G,125|A,125) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25966):
TAAAGCAAATTGTAATATCATCTTGAATAATAGACTGTTTTATCATTATATAATAACCTCCTTTGTCTCTTGTGGGCCTTATTTTTTACTTCAACTATAT
Y
TTGCCTAAGTATAGCCACCTCTGTTACTTTTTGATGCTGCAATTTGCATGGAATATATTTTTCTATCTCTTTATTGTATTCTGCACCTCTAGAATTTCTT
Celera SNP ID:            hCV7468580
SNP Position Genomic:     187349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25967):
AGTATAATTAAAAAAAGAAAATAAAATCATACCATTTGTAATGGCACCAATAAGAATAAAATATATAGAAACAAATTTAACCAAGGATGTGAAAAATCTG
R
ACCCCAAAATCTATAGGAGAGTGATTAAGGAAACTGAAAAAAAGAAATAATTGAAAATATATCTTGTGGTTCATGGATTAGTAAAATCAATATTGCCAAA
Celera SNP ID:            hCV2226124
SNP Position Genomic:     34752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25968):
ATTTACTCTTGGAGTTTTTTGTTCCACCAGGGTGCTACACCTAGAATCGAAAGCTCCCACAACATTATTATTTTTAATGAATAAATTAAATTATTTTTCA
Y
CTGCAACTATTCCTATGGGAGTATTACTCTTTTAAAATTTTCTTTATCTTAACAGATACATACTAGTTGTACATATTTATGGGGTACATGTAATATTTCG
Celera SNP ID:            hCV7468581
SNP Position Genomic:     188614
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25969):
TGTTATTTGCTTGTGGTAAAAAATTTATTTTTACAAATTTTAATAATAGTGACTGAAATATCACACTTAAAATCTAATAATATTTACCATTTGGAATTAC
W
AATTTGTTTATATTAGTATTTGCAGAGTAAACACATGAATAATATAAATATATGTAGTGTAATATAACTTCAAACAATCATTGATATGTTTAAGGATTTT
Celera SNP ID:            hCV2226125
SNP Position Genomic:     36963
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(A,-|T,-)   TSC_42_C(A,-|T,-)   TSC_42_AA(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25970):
CCACAGCTGATGTTGTACTAGGTTGGGTGCATCCAAAATCAATTGCCTCTGAGAGAACAGTGCAGCTCCAGGGTTTTTCCAAGGCCTGTAGTCCTTGAGG
Y
CTGATGGCCACTCAAATTTACTTCAGGCCTCGGGCCATGTTAGTCAGCTAGTGGTGGAGCCAGCCAGGACTGGAGTTCCTCCCACTGGAGCTGAGAATTT
Celera SNP ID:            hCV7468582
SNP Position Genomic:     222603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25971):
CACTAGGGATCAAAGGATATGTGTGTGTGTGTGTGTATATATATATGAATGGTAAATAAGTGTATAAAATATGTTTAGTATCATTAGTCATCAGAAAAGT
K
CAAATTAAAATTTTAATATGATAATATATCACACTCACAAGGCGGCTAAAAAGTAAAAAATGACAACCACAAGTGTTGGTGAGAATGTAGTGCAACTAGA
Celera SNP ID:            hCV2226126
SNP Position Genomic:     37793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25972):
GCGGCTAAAAAGTAAAAAATGACAACCACAAGTGTTGGTGAGAATGTAGTGCAACTAGAAATTTCATACACTGCTGTTGGGAATATAAATTGCTAAAACA
S
TTTTAAAACTATTTTAGTAGCTATGTACAAAATTAAACATACATCTACCATAAAACCCAATCTTCTAGATGTTTTTCTAAAATATAATAAAGCTTTTGTT
Celera SNP ID:            hCV2226127
SNP Position Genomic:     37935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25973):
TACCAAAGGTTTAAAAAAGAAATAACACCAAATTCAAGTCTCTTTCAGAAAATGGAAGAGAACACTTTCTAACTAATTGTATGAAGGTAGTATTACTCTG
W
TAACAAATCTAAATAAAGATAGTCTAATGAGGAAATCTCAGACTAATAGCTCTAATTAATTTGGATTTAAAACTTCTAACACAATATTAGTAAATACAAT
Celera SNP ID:            hCV2226129
SNP Position Genomic:     39602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25974):
AGTCTGTGTCCCAAAACCTCAAAAGTAGGAAAGCTGACAATGCAGCCTTTAATCTGTGGCCAAAGGCCCAAGAGCCCCCGGCAAACCACTTGTGTGAGTC
Y
GAGCGTCCAAAAGCTGAAGAACTTGGGGTCCGATGTTTGAGGACAGGAAGCATGCAGCATGGAGGAAAGATGAATGCTGGAAGACACAGCAACTCTGCTC
Celera SNP ID:            hCV94676
SNP Position Genomic:     116814
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25975):
GTCAGTCCTCTGTGGGAGTTGATCAAATGGTGCCTGGGTCTGTCAGTGTACACCATCCCTTCCATTGGTATGTAAATCATATTCTACCTAGACCAGTTTG
W
TGTCCTGTAATATTTCTTAATATCTAAATATAAATTTTGGACTAAAGGCCCCATGCAAGTCCAAAATCCAGTGGGGTACTGAAATCTTAACGCTCCAAAA
Celera SNP ID:            hCV7468589
SNP Position Genomic:     223761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25976):
AAGACCTTAAAAACAAATGCACAATACCAAAAATAGACAAATGGGACTTAAACTAAAGTGCTTCTTTACAACAAAAGAAATTATCAACAAAATAAACAGA
M
AACGTGCAGAATGGAATAAACTATTTACAAACAATACATCCAATAAAATATTAATAACTAGGTTCCACAAAGAACTCAGACATCTCAACAACAACAAATA
Celera SNP ID:            hCV26649560
SNP Position Genomic:     205630
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25977):
ACAAAGAACTCAGACATCTCAACAACAACAAATAATTCTGCCAAGGCCAGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGG
Y
GGATCACGAGGTCAGGAGATCGAGACCACCGTGGCCAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAAAATTAGCTGGGCGTGGTGGCGGG
Celera SNP ID:            hCV26649561
SNP Position Genomic:     205797
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25978):
TGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCCAGATGACGCCACTACACTCCAGCCTGGGCCATAGAGTGAGATTCCATCTC
A
AAAAAAAAAAAAAAAAATTCTGCTAAAATGTAGGCAAATGGCATAAACAGACTTTTTCAAAAGAAGACATACAAATGGCCAACAAACACATAAAAAACTG
Celera SNP ID:            hCV26649562
SNP Position Genomic:     206026
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25979):
AGCTTGTTTCAAGAGTTCTCACAAAACTACTTTGCTCTATATATTTTGGGGTGTTTTGTTTTGTTTTTGTTTTTTTGTTTTTTTGTTTTTTTGTTTTTTT
K
TTTTTTTTGGTGTTTCCATGGGGCAATGAGGGCCTGGCGCTTTCTGCTCTGCCATCTTGCTGATGTCACTCTTCAGTAGTATCTCCTCTTCTCATCATGT
Celera SNP ID:            hCV26649563
SNP Position Genomic:     208482
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25980):
GCTTGTTTCAAGAGTTCTCACAAAACTACTTTGCTCTATATATTTTGGGGTGTTTTGTTTTGTTTTTGTTTTTTTGTTTTTTTGTTTTTTTGTTTTTTTT
T
TTTTTTTGGTGTTTCCATGGGGCAATGAGGGCCTGGCGCTTTCTGCTCTGCCATCTTGCTGATGTCACTCTTCAGTAGTATCTCCTCTTCTCATCATGTT
Celera SNP ID:            hCV26649564
SNP Position Genomic:     208483
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25981):
TCTTGCAGTTTCTTGTGCATTTGCACTATAACATTTATTTCTTTTTATACTATCTCTTAAAAAATGGTTGTAGTTATTATCATAGTCATATCTTCAAGAA
Y
AAAATTCCACATTCAATGAAAGTAAATTCAAAAATAAGAACAATCCCCTATTCCCCTGGTTGCTCAGAAATCAACGTATAGATGCAGAAAGCCTGAAAAA
Celera SNP ID:            hCV26649565
SNP Position Genomic:     210544
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25982):
AAAGAGAGATTACAACAAAATCAGAAATGAAAAAAGAGAGATTACAACAAAATCGGAAAAGCAAAAGAAGAAATTATAAATCACATCACAGAAATACAAA
Y
ATTCTTAAAAATTATTATTAAGAACTCTACTTCCACAAACAAGAAAACCTAGAGGAAATAAATTAATTTCTGGAAACATGCAACCTCCCGTTTGAATCAG
Celera SNP ID:            hCV26649566
SNP Position Genomic:     213292
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25983):
TATAATAGTTACAAAAAATAAAGTAGAACTCCTTGTTAATTAATAAGATGAAATATATATAATGTATATATTACATATAAATATATAACATATTTATATA
T
TATATATTATATATATTATTTATATTTATATTTATATTGAAATATAATTATATATTATATATTAAATATGTTATAATCAGATTTATATTTTTAAATTATA
Celera SNP ID:            hCV26649567
SNP Position Genomic:     214420
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25984):
TAATTATATGTACTTTTACTGATATATATCTGTATACATATATACATACGTATATGTATACACATATATACATACGTACATGTATACACATATATACATA
S
GTACATGTATACACATATATACATACGTATATGTATACACATATGTACATATATACATACGTATATGTATACACATATGTACATATATACATATGTATAT
Celera SNP ID:            hCV26649568
SNP Position Genomic:     214634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25985):
TAATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCACCACACTGACTTCCACAATGGTT
S
AACTAGTTTACGGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCGCCATTCTA
Celera SNP ID:            hCV26649569
SNP Position Genomic:     215884
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25986):
TGATGTTGCAAGAAAGAAATTAGAATAAAATATGGAAATTAGGAAACATCAATTTCATTAAATGAGTATATGTGGATGCTGAAAGAGAAGAATTAAGTAT
S
ACATCTGTATTTATTGTTTACGTGACTTGGTGTCATCAACTGAGTCAAATAATATAGGATATGACATTTTAACTTATTGGAAATGGAATATATATATATA
Celera SNP ID:            hCV9254866
SNP Position Genomic:     38947
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:25987):
TAGAGTCACTCAAAAATTAAAATACTTAGTTGTAAATATAACAAAACATGCACTGGACCTGTTTACTGAAAACTACACAATGCTGATGAAATAAATCAAG
S
GTTATCTAAATAAATAAAGAGATATGCCACATTCACGATTGGAAGATTGAACATAGTAAAGATGTTAATTCCTCCAAATTAATATACAAATTTAACACAA
Celera SNP ID:            hCV2226130
SNP Position Genomic:     40412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25988):
TGCGTAAAGAGCTGGTGGATATGCTAGGTGATGATGGTGTGTTCTTATATCCCTCACATCCCACAGTGGCACCTAAGCATCATGTCCCTCTAACACGGCC
Y
TTCAACTTTGCTTACACAGGTACCTAATTGTATTCCTTACATTCTGTAATCTTAAAGAAATAGAGATGTATGTTTCCAAGGAAAGCATAATTTTCTTTTG
Celera SNP ID:            hCV7468590
SNP Position Genomic:     225388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:25989):
ATAGTGATAATGATACCATTTATTGGAGACATGTATATGTTTATATTGATATTAATGTAGGTAATATCAATATCTCTGCTTTACTTCGTAGTATTAGTTA
Y
ATGTGTTTTCCTTGTTTTATCTATTCCTAGAATTGTTCTGAGTTTTACATGTTTCATCTCATTTTATCTTACAGCAGCCCTATAAAAAGGAGAAATTATT
Celera SNP ID:            hCV7468591
SNP Position Genomic:     227621
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25990):
AAACCAAACGGGGGCAGAAGAGATCCCCCAGCACAGCACAGCTGCTTTACCAAAACATGGCCAGATTGCTTCTTTAATTGGGTCTCAAATCCCCTTTCTC
M
TCACTTGGGGGGTAACTCCCAACCAAGGCCTGCAGCCCCCTCTGCCAGTGTTCTCTGGCCAGTAGAGATTTTAAAATTCCATGGGAAAGAGCTCCCAGAG
Celera SNP ID:            hCV2226134
SNP Position Genomic:     42583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25991):
AGGGGCAACTGAAAGCCTCTCTGCCACTGCCTTTGCAGTAGGCCTCTCCTTGTTACTCTTGAACTATAAAAAGAGCAAAGACCTTAAGTGCCTATCCACA
M
CTTTAACAACTGGTAGTTGACCCAAGGAGAGTAGGCCTGTCTATCCCCATGGGTTCCACATACCCCACATTGCTCATCACTAGACAGGGAATCCCTGGCT
Celera SNP ID:            hCV2226136
SNP Position Genomic:     43562
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25992):
GATATTGTATTGCTTGCTTTGTTAGCTGAAACAAACTGCTTCCGGCTGTCTTTACTAACAGACATAGGAAAAAAAAAACATTCTTTTAGTCAATAGCTCT
M
TACCAGATACCAGGGGATGTGTTAATTTGCTCTAGCAGTGAACCCACATTTGGCACAACAGCTGTTTGGAGTTATCATCTCATCAAGCTCACAATAATCC
Celera SNP ID:            hCV15987853
SNP Position Genomic:     198800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25993):
AGCAGTTCCTCTTCTTTCTGAACTCTGCCAGTGGACACAGCCTCCTGTTATCCAGGGAAACAGAAAAACTGCAGGATAGGTGATTCCACAACCCCCACCA
S
CACTCATAGCCAGGCAGCTAGAACTTCCAGCCCAGCAGTCCCACTTCTGTCTGAACTCTGATGGCAGGAACAGCCTCTAGAATATAACCCAACAGCAGGT
Celera SNP ID:            hCV7468598
SNP Position Genomic:     230202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25994):
CAAAAAGCCAGTGTTTGCCCTTACCTATAAACGTACACATTAGCCTCCCAGAAATGGTTCTTAACCAGAGTGAGCTGACTGTGGACATAGAATTCAGAAG
Y
TGGATGACAAGGAAGCTCAGTGAGAATGAGGAGAAAGTTGAAACATAATCCAAGGAATCCAATAAAACAATTCAGTAGCTGAAAGATAAAATATCCATTT
Celera SNP ID:            hCV7468599
SNP Position Genomic:     231186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25995):
ACTAGGCTCCCTGGCTTCAGACCCCTTTCCAGGAGAGTGAACAGTTGTGTCTCACTCAGGTTCCAGGTGTCACTGGGGTTCCAGGTGCCACTGGGATATG
R
CAAAAATATGCCTGCAGCTATCTCAGTGTCAAAACAGCCACCCAGTTTTGTGCTTGAAACTCAGGGCCCCGGTGGTGTAGGTACACAAGGGAATCTTCTG
Celera SNP ID:            hCV15987858
SNP Position Genomic:     258995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:25996):
GATCCCTGAGGAATCACCACACTGACTTCCACAATGGTTGAACTAGTTTACGGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCA
R
CACCTGTTGTTTCCTGACTTTTTAATGATCGCCATTCTAAGTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATG
Celera SNP ID:            hCV26649570
SNP Position Genomic:     215945
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:25997):
GCAACCACCAGGATGTCGCCTTTATTTACCTCCTCATCCAGATTGGCAGTCTTGGAGTGGCAGGTGGTCACTGTGGCATTGTTCCACAGAAGCAAGTCAC
R
CATCAGGGCCCTGACTATTTTACTGCACCCAACCACCACAGCATGCCTTCTGGCAATCTGCACCCCTGTCTCTTTCATGAGTTCCAAGCATCCTTTAGGC
Celera SNP ID:            hCV26649571
SNP Position Genomic:     171559
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:25998):
ACACAAACCCCCTGTAGATACTACACAAGATGACAAACCGGAAGGTACATAGTCATCAGATTCACCAAGATCAACTCAAAAGAAAAACTCTTAAAAGTAG
Y
TAAAGAGAAAAATCAGGTTACCTACAAAGTAAACCCCACCAGACTCTCTGTAAGAACTCTCTGTAAGAAACCTACAAGTGAGAAGAGATTGGGGGCCTAT
Celera SNP ID:            hCV26649572
SNP Position Genomic:     231733
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:25999):
TCTGTAAGAAACCTACAAGTGAGAAGAGATTGGGGGCCTATTTTCAATATTGTTACAGTGAAGAATTTTCAACCAAGAATATCATATTCCATGAAACTAA
R
CTTCATAAGCAAACGAGAAATAAAATTCTTCCCAGACAAGCAAGTACTAAAGGAATTTATTATTACCAGACCACCCTTACCCGAGTTCTTTAAGAGAGTG
Celera SNP ID:            hCV26649573
SNP Position Genomic:     231893
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26000):
CAGAAATAGAATAGTTCCTTAGAGACTATACAGAACACCTTTGTGAACACAAGTTAGAAAATATAGATACAATGGATAAATTCCTAGAAACACACAACCT
Y
CCAAGATAGAATCAGGGATAAAAGTGAAGACATGAACAGATAAATAACAAGTTCAGAAATTGAATCACTAATAAAAAAACTTACCAACAAAAAAGAGCCC
Celera SNP ID:            hCV26649574
SNP Position Genomic:     233415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26001):
CTCTGCTAAGTCTCCTGGAACTGATAAATGAATTCACTAAAATTTTAATATACTAAACCAATGTACAAAAATCCTAACATTTTTATACACCAATATTGTT
Y
TAGGTGAGAATCAAATGAAGAACAGAATTCCATTTACAATAGCCACAAAAAAAAAAAAAAGGAATACCTAGGAACCCATCTAACCAATGAGGTAAAGATC
Celera SNP ID:            hCV26649575
SNP Position Genomic:     234343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26002):
GGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAATCGAGATGGCACCACTGCACTCCAACCTGGGTGACAGAGCAAGACTCCATCCAAAAAAAA
M
CAAAAAAATCCTAGAAGAAAACCTAGGAAGATGGATGTCGAGATGGCTGAATAGGAATAGCAGCTTCAGTCTGCAGTTCCCAGTGAGATCAACGCAGAAG
Celera SNP ID:            hCV26649576
SNP Position Genomic:     235189
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26003):
TTACGTGACTTGGTGTCATCAACTGAGTCAAATAATATAGGATATGACATTTTAACTTATTGGAAATGGAATATATATATATATACTTTTCTTTACTCCT
S
CTACTAAATGCAACTAAAAATCTCAGGCATTGTATCTAAAACAAACATAAAAAGACTCCTAAAGGTGAAGAGAAGGTGGCAGACCAGCTCGGACTCTCAG
Celera SNP ID:            hCV9254872
SNP Position Genomic:     39065
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26004):
GACTGCAAACCAACAATGACCAAAAAAGACAAGAAGGGCATTACATAATGGTAAAATGATCAATGTAAAAAGAAGAGCTAACTATCCTAAACATACATGC
R
CCCAATACAGGAGCACCAGATTAATAAAAAAAAAAAAGTTCTCAGAGTTCTACAAAAAGACTTAGACTCCCACACAATAATAGTGGGAGACTTTAACACC
Celera SNP ID:            hCV26649577
SNP Position Genomic:     237809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26005):
TTCTGAATTATGTTACGTGGTAAAAATATAAGGTACTGAACAATGAATATAATATGATTCCTTTTGTGTGAAGAAGGGAGAGAGAGCTGAAGAGAGGGGA
R
AAGGGAATAAGGGAGAGAGGGAGGGAAAGAGAGAGAGAGTGAGAAGCTTTCACTTTTCATTTGTACTTTTCTGTAGTGAATGGATTTTCTAACGATGTAC
Celera SNP ID:            hCV16029390
SNP Position Genomic:     66812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26006):
GATATCTCCAAACTCCTTTCCAAAGGGCTGAACTAATTTACATTCTTACCAACAGTATATAAGCATTCTCTTTTCTCTGCAGCCTCATCAGTGTCAGTTA
Y
TTTTGGATTTTTTCAATGATTGCCATTCTGACTTGTGTGAGACAGTATCTCATTGTGGTCTTTATATGCATTTCTCTGATGATTAGTGATGTTGATCATT
Celera SNP ID:            hCV9254874
SNP Position Genomic:     119956
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,12)   total(C,2|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26007):
AGACAAGAAGGGCATTACATAATGGTAAAATGATCAATGTAAAAAGAAGAGCTAACTATCCTAAACATACATGCACCCAATACAGGAGCACCAGATTAAT
A
AAAAAAAAAAAGTTCTCAGAGTTCTACAAAAAGACTTAGACTCCCACACAATAATAGTGGGAGACTTTAACACCCAACTGTCAATATTAGATGGATCAAT
Celera SNP ID:            hCV26649578
SNP Position Genomic:     237835
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26008):
TAGACAACTCAGAAATAAGACTGCACAACTACAACCATCTGATCTTCTACAAACCTAACAAAAACAAGCAATGGGGAACGGATTCTCTATTTAATAATTC
R
TGCTGGGAGAACTAGCTAGACATATGCAGAAAGTTGAAACTGGACCCTTTCTTTACACCTTGTACAAAAATTAACTCAAGATGGATTAAAGACTTAAACC
Celera SNP ID:            hCV29042341
SNP Position Genomic:     115858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26009):
AAATAAAAATAATTTTAAAAAGAAAGAAAACCTAGTAAATACTTTTCTTGACATGGGTTTTGGCAAATAATTTATGGCCAAGTTCCTAATAGCAATTGCA
A
AAAAAAAAAAAAAAAAAAAATTGACAAATGAGTCCTAATTAAAGTAAAGGGCTTCTGTGCAATAAAATAAATTACCAATAGAATCAACAAACAGTAACAG
Celera SNP ID:            hCV26649579
SNP Position Genomic:     241209
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26010):
GCAGAAGGCAAGAAATAACTAAGATCAGAGAAGAACTGAAGGAGATAGAGACATAAAAAACCCTTCATAAAATCAATGAATCCAGATGCTGGTTTTTTGA
M
AAGATCAACAAAATTGAGAGACCGCTGGCAAGACTAATAAAGAAGGAAAGAGAGAAGAATCAAATAGACGCAATAAAAAATTATGAAGGGGATATCACCA
Celera SNP ID:            hCV29042342
SNP Position Genomic:     159073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26011):
TCTCATGCCAGTTAGAGTGGCGATAATTAAAAAGTCAGGAAACAACAGATGCTGGAGAGGATGTGGAGAAATAGGAATGCTTTTACACTGTTGGTTAGAG
W
GTAAATTAGTTCAACCATTGTGAAGACAGTGTGGTGATTGCTCAAGGGTATAGAACCAGAAATACCATTTGACCCAGCAATCCTTTTACTGGGTATACAC
Celera SNP ID:            hCV9254876
SNP Position Genomic:     134415
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26012):
TGCCTCTGGGAGCCCCTCCCCCAGGGAAATACAAAGCCACTAGCAGAGGGAATGCTCTGCCAAGGGTGGGACGTCTGTGTAGATCCAGGCTTGGGGCCCT
R
CTTGGTGAAGAGTGTGGGGTGGGAGCCTACATGGAAGAGAGACTGGGCTCCTCTCTGTATGGTGGCTGCAGCGTGCTGGAGGCTCCAGTGTAGCAACTCG
Celera SNP ID:            hCV16029392
SNP Position Genomic:     60618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26013):
AAATCCTAAATAAAATACTGCCAAACCGAATCAAGCAACACATCAAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTT
Y
AACATACGCAAATCAATAAACGTAATCCAGCATATAAACAGAACCAAAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAA
Celera SNP ID:            hCV29042343
SNP Position Genomic:     159691
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26014):
ATAGGTACGCTCTTGCTTAGCCATGTGGCTCGCCTGTATTTCCTCATGATTGCCATCAAATTTTCTGTTACTGTTCTGAAAGTGTAGGCTCCTCTCCCAC
W
GAAGTGCTGTCTGTAGACCTCTGTTTGGCACTTGCGAGCTGTACAGCACAACCTTGTGGTGAGCTCATCTTTATTTTCCTTCCCCACTTTTGAGGCAGCA
Celera SNP ID:            hCV16029393
SNP Position Genomic:     59817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26015):
ACACAAGCCTTCTCCAGGTAATGTTAATATGATCAGAAGGGTGGTTCTACTTTTATAATTCAGAGCAATTCAGAAATTTTGTTCTAGCAGGATTATCTTG
Y
TTATCAGGGTGATTATTATATATTTCTCAATGTTCTTAAATAAAACTAGCTACTGTTTATTGAGCACCAACTCTGGGATTGGTGCACAAAATTGTGCAAG
Celera SNP ID:            hCV25744692
SNP Position Genomic:     118145
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26016):
ATTGTTTGGAACTTTCTTATACTGGTATATTCCTGACTTCTTACCTTCAAAGTAGACATCTTATACCTCCTTAGCTTCATATTTTGCCTCATGGGGGACT
R
CACTGTGTAATTCACTGAAAGTGTCTCAAAAAATGATTAATGTACATAGGAGTCTTTCAGGAAATACTTGTTGAATGAATTGTTTAGTGAATAAATGGCT
Celera SNP ID:            hCV25651542
SNP Position Genomic:     69339
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26017):
CTGTGTAATTCACTGAAAGTGTCTCAAAAAATGATTAATGTACATAGGAGTCTTTCAGGAAATACTTGTTGAATGAATTGTTTAGTGAATAAATGGCTGC
W
GACTAAAGTATTGTATTTTGCAGGTGAAATGTATAGATGTTGTTCAGGCTTATATCAACAGAATCAAGGACGTGAACCCAATGATCAATGGAATTGTCAA
Celera SNP ID:            hCV25651543
SNP Position Genomic:     69442
SNP Source:               Applera
Population(Allele,Count): african american(A,24|T,14)   caucasian(A,11|T,29)   total(A,35|T,43)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26018):
CTGAAGCCTTTTTCAACCAGCTCCAGGTTCTCCTCTATGTAAGCCTTGGGAAGAGGCATTCCAGCAGTGACCATAGGGCCACCCCTGTGCATCTTTAGAG
Y
GCTGACAGTGGCAACAAGCACCACCACGTGAGGGTGGAGACCGGAATACTGGGATTTGATGTTAAGAAACTTTTCTATTCCAATGTCTGCTCCAAATCCC
Celera SNP ID:            hCV25745205
SNP Position Genomic:     170023
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,2)   caucasian(C,5|T,21)   total(C,19|T,23)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:26019):
TACATAGTAGGTGTATATATTTATGGGGTACATGAGATATTTTGATACAGGCATAAAATGCATAGTAATCATATCAGGGTGAATGGGATTTTCATCACCT
R
TAGCATTTATCCTCTTCTTGTGTTACAAACAATCCAATTATACTCTTTCGGTTATGTTTAAATGTACAATATATTACTGTTGACTGACTGTAGTCACACT
Celera SNP ID:            hCV15987869
SNP Position Genomic:     135680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26020):
AGGTTAATGCAAAAGACTCTACAAATGTACTTTCCTCTTTTTTCTTGTCTTCTTTCATACACACGCACACATAAAAACACATACATACATTATATAAAGC
R
AAAGCTATAGCACTGTATTGTTGGATTATCTCTCTCTCTCTCTCTCTCTCTCTCTATATATATATATATATATATATATACCCACACACACATAGTATAC
Celera SNP ID:            hCV26649580
SNP Position Genomic:     242790
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26021):
CTTTCCTCTTTTTTCTTGTCTTCTTTCATACACACGCACACATAAAAACACATACATACATTATATAAAGCGAAAGCTATAGCACTGTATTGTTGGATTA
Y
CTCTCTCTCTCTCTCTCTCTCTCTCTATATATATATATATATATATATATACCCACACACACATAGTATACATAACTATAATAACACAGAAAAGGATTAG
Celera SNP ID:            hCV26649581
SNP Position Genomic:     242819
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1|-,5)   total(C,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26022):
TCATACACACGCACACATAAAAACACATACATACATTATATAAAGCGAAAGCTATAGCACTGTATTGTTGGATTATCTCTCTCTCTCTCTCTCTCTCTCT
M
TATATATATATATATATATATATATACCCACACACACATAGTATACATAACTATAATAACACAGAAAAGGATTAGAGAATGCAGCTATTTTGCTGCAAAC
Celera SNP ID:            hCV26649582
SNP Position Genomic:     242844
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26023):
AATATAGGGGAGCTTTCTTTATTTGAAAAATAGCTCTAAGAATACTACAGCTCACATCACACATAATGGTAAAAGTGTGAGAGCTTTTCCCCTAAAATTA
R
GAAACAGGCAAAAATTTTTATTCTCACCACTCTTAATTACAATGCTGGAAGTTCCAGACAATGCAGTTAGACAAGAAAAGTAAATAAAATTCTGATCAGA
Celera SNP ID:            hCV27940699
SNP Position Genomic:     40011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26024):
AGAAGTATATTTTTTATAAATCTGGATGTTCCAGTGTCTGTTGCATATATAATTTAAATAAATAAATCTTCTTTTATTGGAGCTTTTCTTAATATATAAT
K
ACCTTATTTATATTTTAGTACCATTGTTGATCTAAAGTCTGTTTTATCTGATATGAAAGTGGTTATTCCTGCTTGCTTTTGTTTTTCATTTGCATGGTGT
Celera SNP ID:            hCV26649583
SNP Position Genomic:     250454
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26025):
GGTGAGAGAGGGCATCCTTGTCTTCTGCTGGGTTTCAAAGGGAATGCTTCCAGCTTTTACCCATTCAGTATGATATCGGCTATAAGTTTGTCATAAATAG
Y
TCTTATTATTTTGAGATGTGTTCCATCAATACCTAGTTTATTGAGAGCTTTTAGCATGAAAGGGTGTTGAATTTTATCAAAGGCCCTTTCTGCATCTATC
Celera SNP ID:            hCV26649584
SNP Position Genomic:     253036
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26026):
TTTCTTTTTCAGGTAAATCAGAGATTTCTTCTTGGTTTGGATCCATTGCTGGTGAACTCGGGTCGGGGGGTGTTGAGGAGCCTTGTTTTGTCATATTACC
R
GGGTTGGTTTTCTGCTTCCTTCTCATTTGGGTAGACTCTGTCAGAGGGAAGGTCTAGGGCTGAAGGCTGTTGTTCATATTATATTTTCCCACAGGCTGTT
Celera SNP ID:            hCV26757752
SNP Position Genomic:     4207
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:26027):
ATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTCTCTTTGCAATAGTTTGCTGAGAATAATGGTTTCCAGCTTTATCCATGTCCCT
R
CAAAGGACATGAACTCATCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCATATGTTCTTAATCCAGTCTATCAAAAGGATCTAGAACTAG
Celera SNP ID:            hCV26649585
SNP Position Genomic:     174700
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26028):
TAACTCATTTTATGGGGCCAGCATCATCTTGATACCAAAGCCGGGCAAAGACACAACCAAAAAATAGAATTTTAGACCAATATCCTCGATGAACATTGAT
R
CAAAAATCCTTAATAAAACACTGGCAAACCGAATCCAGCAGCACGTCGAAAACCTTCAGGTGCTCTTTTAAGGCTGGTTTGGTGGTGACAAAGTTTCTCA
Celera SNP ID:            hCV26649586
SNP Position Genomic:     257040
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26029):
TTCTCCTCCTTTGTTCCCCTTCCAGTTCTGCTATGGAAGAAGCAACATCTAAGATGACGGAAATTATTTCAGAGCCCACAGTTACACTGGAAAATGAGGT
A
AAAAAAAAATAGAATTCTGCTCACTACCTTACAGAAAAACAAGCCAGACAAAAGGGTGGAATGGTTAAGAGACAGTGTTGACAATGAGCACTTGGACTAT
Celera SNP ID:            hCV26757753
SNP Position Genomic:     6068
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26030):
GTTACTGTGTAGTATTCTGGGTAGAGTCCTTGGCTCTGCTCCTATTTCCTGTGCACTGGGGGCAACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGA
R
ACGGAGTTTCGCTCTTATTTCCCAGGCCAGAATGCAATGGCGCACAATAAATCTCAGCTCACCACAAGCTCCACCTCCCGAGTTCAAGCGATTCTCCTGC
Celera SNP ID:            hCV26649587
SNP Position Genomic:     260503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26031):
GTGGGGTTGCTAGGTAAATACAAAACATGCATTTAAATTTGAACTTTGGATAATGAATAATGTTTACTTCATGCATATTTAAAAGATATTTGTGAAAAAA
W
TTATTGTTCATCTGAAGTTCAAATTCAACTGGGCATCTTTTTTAAGTTTTTGTATTATTTATTTATTTTTTTAAATGATGTGCTAAGTTTGGCAACACAC
Celera SNP ID:            hCV26757754
SNP Position Genomic:     11056
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26032):
TGTGTAGTATTCTGGGTAGAGTCCTTGGCTCTGCTCCTATTTCCTGTGCACTGGGGGCAACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGG
R
GTTTCGCTCTTATTTCCCAGGCCAGAATGCAATGGCGCACAATAAATCTCAGCTCACCACAAGCTCCACCTCCCGAGTTCAAGCGATTCTCCTGCCTCAG
Celera SNP ID:            hCV26649588
SNP Position Genomic:     260508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26033):
GCTCTGTTCATTGTATCTTTTCTTGTACAGAAGCTTTTTAGTTCAGTGTAATCCCATCTGTCTATTTTTGTTTTATTGACTGTGCTTTTCATGTACCACC
A
AAAAAAATTATTGATCAGACTAATGTTATGAACTGTTTTCCTTGTGGTTTTTTCTGATAGTTTTATAGTTTTGAGTATTATACTTAAGTCTATAATCTAT
Celera SNP ID:            hCV26757755
SNP Position Genomic:     13881
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26034):
AGACTGTTGTCACATTGGTGCAGACTCTTTGGAAAACAATTTGGCATTTTCTTAAAATGTTAAATGTAAATTTGTCATAAGACTCAACTATTTCATTCAT
Y
TTTATATGTATATATATGCTCAAGAAATGAAAATAAATATTCATACAAAGACATAAACAAATGTGTAATTATATTGCTGATTTTTGCAGCATAATTAGTA
Celera SNP ID:            hCV26649589
SNP Position Genomic:     264458
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26035):
AGAGGGGAACAACAGACAGTGGAAGGGAGGAGGGGGAGAGGATCAGGAAAAATAACTAATGGACACTAGACTTAACATGTGGGTGATGGAACAATTTGTA
M
AACAAACCCCCATGACATGAGATTACCTGTATAACAAACCTGCACAGGTACCCCTGAACGTAAAATGAAAGTTAAAAAAACTTCCTTTTAAAAATTTTAT
Celera SNP ID:            hCV26757756
SNP Position Genomic:     15531
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26036):
TAAACAAACAGCCTATGGAAAGGAAAATAAATTTTGCAATCTATGCATCTGACAAAGTCTAATATGAAGCATCTATAAGGAGCTTAAACAAAACTACAAG
A
AAAAAAAACAGACCTATTAAAAAGTGGGCAAAAGACATAAACAGGCACTTTTCTTCTTTTCTTTAAATAGCTACCTTTATTTGTAAAGTTCATTTTTAAA
Celera SNP ID:            hCV26757757
SNP Position Genomic:     18416
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26037):
CAGGTTGGTGGGGGGAGGGGTGTCCACTATTACTAAGGCTTGAGTAGGCGGTTTTCCAATCACAGCATAAACAAAGCTGCCAGGAAGTTCAAACTGGGTG
R
AGCCCACCACAGCTTGGCAAAGCCACTGTAGCCAGACTGCCTCTAGATTCCTCCATTCTGGGCAGGGCATCTTTGAAAGAAACACAGCAGCCCCAGTCAG
Celera SNP ID:            hCV26757758
SNP Position Genomic:     20122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26038):
CAGATAAAGTTCCTAAATATTATTAAGTCCTAAGTAGATAGTAAATTATAATTATATATTTTCACCTATTTATTATTGGTAAAATAATTGAAAAAATACG
K
TTTCAGGAACAGGTCTTGATTTCTCACTTATTTTGTTTGTTTTCTTCAGGTGTCTTCAGTGCCCTGGGTTTGCCTGTGACCCAATGCCCACTGGGACTGA
Celera SNP ID:            hCV3206216
SNP Position Genomic:     265397
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(G,2|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26039):
GGCTGGGTCTGTCCAGGAAAGTTTTAGGAGGACCTTCTGCAAGGTTAATGTGTGTGTGTGTTTGTGTTCGTGTGGTGGTGTTTCTATTAATTGGGTGAAA
Y
CAAGCACCAGCAGACAAGCAGAGAAACAACTGGGGAATTTATTGACTCATTTAGTTATTCTTTCTACTTTTATTTCCTTCTCTAACTGTTGGTCTTACTA
Celera SNP ID:            hCV3206217
SNP Position Genomic:     265696
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:26040):
TCTCCGGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGAATTACAGGTGTGAGCCACTGCGCCCGGCCTTAAAAGCATTTCTTAACTTTTTG
K
GTCTCTGATGTCCTTTAAGAAAAATGGATTTGATAATAGAATCTACCTTTTAGAGTTATTGTGATGAATTAAATGAATTCATATATGTAAAACTTATAGA
Celera SNP ID:            hCV16158335
SNP Position Genomic:     65642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26041):
CACAAAACTGGGAGGCTGTTTGGGCAGTCACTGTGCTAGCTGCAAGAGTTGTTTTCTTGTTGTTTCCCAGTGGCGCCTGGAACTCCACCAAGACAGAACC
R
TTCACTCCCCTGGAAAGAGGGAAAGGGGGCTGAAGCCAGAGAGCCAAGTGGTCTCGCTCAGTGGTTCCCACTCCCATGGAGACAAGCAAGCTAAGAACCA
Celera SNP ID:            hCV3206218
SNP Position Genomic:     235664
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26042):
TCATCTCGCTGGGACTGGTTAGGCAGTGGGTGCAGACCATGGAGGGCGAGCAGAAGCAGTGTTGGGCATTGCCTTACCCGGGAAGTGCAAGGAGTGGGGG
Y
CTCCGTTCCCTAGCCAAGGGAAGCCCTGAGAGACTGGGCTATCCAGCCCATTTACTATGCTTTCCCCACAGGTTTGCAATCCAAAGAACAGGAGATTCCC
Celera SNP ID:            hCV3206219
SNP Position Genomic:     235427
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26043):
GTCTACTAAATGTGGTCCCTGCCTGAGGGAGCCCATGGACCAGAACACCTAACAAAAGAAGTGAGGGCATGGAACCAGTGATCGAAGGGGGCTCCTCCAA
R
GCCCAGGAGCCATCTAGGTGAGCGAGTCACCTCTCTCCCCCACACCACAGAGGACTACTGTCATCTTGGCCAGAACACCGAAGAGCCCTGAAAGAGAGTA
Celera SNP ID:            hCV15944684
SNP Position Genomic:     230721
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26044):
CACCATGGAATGCTATGTAGCCATGAAAAAGAACAAGATCATTTCCTTTGCAGGGACATAGATGGAACTGGAGGCCATTATCCTTAGCAAACTAACGCAG
R
AACAGAAAACCAAATGTGACATATTTTCACTCATAAGTGGGAGCTAAATGTTGAGAACATGTGAGCACATAGAGGGGAACAACAAACACTGGGGACCTTT
Celera SNP ID:            hCV28007783
SNP Position Genomic:     118937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26045):
ACTTAAAGAAAGGTCTTTTGAAATAATTCTTTTGGACAAAAATAAGAGAACAAAGAATTAAAAAAAACCAAGGCCTCCAAGATCTTTGGGACAACATAAA
W
CAACTGAATATGAAAGTTATTAATATTCCTAAATGTGAGGATAGATCAAAGCTTAGAAAATGTAATTTAATGAAATAACAGATGAAAACTTCCCAAGTCT
Celera SNP ID:            hCV15987871
SNP Position Genomic:     126442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26046):
TTGATGTACAAATTGTTCACCCAACTATTGAGTATAGTACCTGATATGCATTTTTTTAATCCTCATCCTCCTTCCACCCCTCACCCTCACGTAAACTATG
R
TGTCTATTGTTTCCTTTTTTGTGTACACGTGTATTCAATATTTAGTTCCCATTTATATGCAGTGTTAGGTTTTCTGTTTCTGTGTTAATTTGTTTAAGAT
Celera SNP ID:            hCV2474547
SNP Position Genomic:     15790
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26047):
GGAATAGTTTCAGTGGCAATGGTACCAGGTCTTCTTTATATTTTGGTAGAATTCGGATGTGAATCCATCTGCAGGAAAGTCTGGTCCAGGGCTCTTTCTG
R
TTGGTAGGTTTTTCATTATTGATTTATTACTGATGTTCATTATTGATCATATTTCTCATTTGTTTATGAAGATTAGTTTGGCCGGATATAAAATTCTTGG
Celera SNP ID:            hCV2474548
SNP Position Genomic:     16208
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26048):
CTGATTTCTATGTGTCTTGGAAATGGTCATCTTGCAGGGGTTCTTTGTATTTTCTCAATTTGAATGTGAACTTTTCTAGTATGCTTCAGAAAATTTTCAT
R
GACAATATGCTTAAATATGTTTTCCAAGTTGCTTTTTGTCTCTGTGTCTCTTTCAGGAATGCCAATTCTTTGTAGGTCTGGTCTCTACATAATTCTATAT
Celera SNP ID:            hCV2474549
SNP Position Genomic:     16577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26049):
TAACTAGGATAACCAGTTTAGAGAACATAAATGACCTGATGGAGCTGAAAAACATAGCATGAGAACTTCGTGAAGCATACGCAAGTATCAATAGCTGAAT
Y
AATCAAGCAGAAGAAAGGACATCGAGGTTGAAGATCATCATAATGAAATAAAGCGTGAAGACAAGATTAGAGAAAAAAGAATAAAAAGAAACGAACAAAG
Celera SNP ID:            hCV26757760
SNP Position Genomic:     21090
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26050):
ATGACCTGATGGAGCTGAAAAACATAGCATGAGAACTTCGTGAAGCATACGCAAGTATCAATAGCTGAATCAATCAAGCAGAAGAAAGGACATCGAGGTT
R
AAGATCATCATAATGAAATAAAGCGTGAAGACAAGATTAGAGAAAAAAGAATAAAAAGAAACGAACAAAGTTTCCAAAGTATATGGGACCATGTGAAAAG
Celera SNP ID:            hCV26757761
SNP Position Genomic:     21120
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26051):
AATAAAATTCTTTACAGAGAAACTAATGGTGAGAGATTTTGTCACCACAAGGCCTGCCTCACAGGAGCTCCTGAAGGAAATACTAAACATGGAAAGGAAA
R
GAGCAACCCATACCAGCCACTGTAAAAACATGCCAAATTGTAAAGACCATCAACACTATGAAGAAATTGCATTAATTAATGGACACAATAACGAGCTAAC
Celera SNP ID:            hCV26757763
SNP Position Genomic:     30757
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26052):
TTTGAAAAGTTCAACAAAATTGATAGACCACTAGCCTAGCAAGACTAATAAAGAAGAAAAGAGGGAATAATCAAATAAATGTAATAAAAATGATAAAGGG
S
TATCACCACCGATCCCACAGAAATACAAACTACCATAAGAGAATACTATAAGCTCCTCTAAACAAATAAACTAGAGAATCTAGAAGAAATGGATCAATTT
Celera SNP ID:            hCV26757764
SNP Position Genomic:     32060
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26053):
TGAAGGCACCACGCTACCTGACTTCAAATTGTATTACAAGGCTAAAAATCAACTCAAGATGGACCAAAGACTTAAACATAAAACCTAGGACCATAAAAAT
Y
CTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGAAAAGACTTCATGTCTAAAACACCAAAAGCTATGGCAACAAAAGCCAAAATTGACA
Celera SNP ID:            hCV26757765
SNP Position Genomic:     33559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26054):
TGAGATCAACGCAGAAGGGGAGTGACTTCTGCATTTGCAATTGAGGTAACCTAATCATCTCGCTGGGACTGGTTAGGCAGTGGGTGCAGACCATGGAGGG
Y
GAGCAGAAGCAGTGTTGGGCATTGCCTTACCCGGGAAGTGCAAGGAGTGGGGGCCTCCGTTCCCTAGCCAAGGGAAGCCCTGAGAGACTGGGCTATCCAG
Celera SNP ID:            hCV3206220
SNP Position Genomic:     235373
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26055):
ATATGGAAATTAGGAAACATCAATTTCATTAAATGAGTATATGTGGATGCTGAAAGAGAAGAATTAAGTATGACATCTGTATTTATTGTTTACGTGACTT
K
GTGTCATCAACTGAGTCAAATAATATAGGATATGACATTTTAACTTATTGGAAATGGAATATATATATATATACTTTTCTTTACTCCTGCTACTAAATGC
Celera SNP ID:            hCV26757766
SNP Position Genomic:     38976
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,4)   total(G,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26056):
AGAATTAAGTATGACATCTGTATTTATTGTTTACGTGACTTGGTGTCATCAACTGAGTCAAATAATATAGGATATGACATTTTAACTTATTGGAAATGGA
A
TATATATATATATACTTTTCTTTACTCCTGCTACTAAATGCAACTAAAAATCTCAGGCATTGTATCTAAAACAAACATAAAAAGACTCCTAAAGGTGAAG
Celera SNP ID:            hCV26757767
SNP Position Genomic:     39035
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26057):
AACCCAGAAATAAACCTGCCACCTACAACCATCTGATCTTCAACAAAATGAGCAAAAGTAAGCAATGGAGGAAAGGACTCTCTATTCAATAAATGGTACT
R
TAATAGTTTGCCTGCCGTATGCAGAAGAATGAAACTGGATCTCTACCTGTCACCATATATGAAAACTAAGTTAAAGTAGATTAAATATTTAAATGTAAGA
Celera SNP ID:            hCV3206222
SNP Position Genomic:     234914
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26058):
GAATTAAGTATGACATCTGTATTTATTGTTTACGTGACTTGGTGTCATCAACTGAGTCAAATAATATAGGATATGACATTTTAACTTATTGGAAATGGAA
T
ATATATATATATACTTTTCTTTACTCCTGCTACTAAATGCAACTAAAAATCTCAGGCATTGTATCTAAAACAAACATAAAAAGACTCCTAAAGGTGAAGA
Celera SNP ID:            hCV26757768
SNP Position Genomic:     39036
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26059):
TGAGAACCCAGAAATAAACCTGCCACCTACAACCATCTGATCTTCAACAAAATGAGCAAAAGTAAGCAATGGAGGAAAGGACTCTCTATTCAATAAATGG
Y
ACTATAATAGTTTGCCTGCCGTATGCAGAAGAATGAAACTGGATCTCTACCTGTCACCATATATGAAAACTAAGTTAAAGTAGATTAAATATTTAAATGT
Celera SNP ID:            hCV3206223
SNP Position Genomic:     234910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26060):
ATTATATACAGAAATCTTAAAATAAACAATCCCATTAAAAAGTGGGCAAAAGACATGAACAGACACTTTTCAAAAGAAGACGCATATGCGGCCAACAAGC
R
TATTAAAAAAAGCTCAATATCATTGATCATTAGAGAAATGCAAATCAAAACCACAATGAGATACCATGTTGCATCAGTCAAACTGGCTATAATTATAAAG
Celera SNP ID:            hCV26757769
SNP Position Genomic:     41389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26061):
TACCTAATTGTATTCCTTACATTCTGTAATCTTAAAGAAATAGAGATGTATGTTTCCAAGGAAAGCATAATTTTCTTTTGCAGTTGGACAAGTTTTAAAC
M
TGCAGGTATAAAAGTGCTGTGTGATTGAAAACTCCAGAAAACAGTTGCTAATGTCATATGTTGAAGATACTTTGCCAATATCTGGTTTCTCCACAATAAT
Celera SNP ID:            hCV3206224
SNP Position Genomic:     225509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,7)      total(A,7|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26062):
ACCAGGAAGAAGTTGACTCTCTGAATAGACCAATAACAGGCTCTGAAATTGTGGCAATAATCAATAGCTTACCAACCAAAAAGAGTCCTGGACCAGATGG
W
TTCACAGCCGAATTCTACCAGAGGTACAGGGAGGAACTGGTACCATTCCTTCTGAAACTATTCCTATCAATAGAAAAAGAGAGAATCCTTCCTAACTCAT
Celera SNP ID:            hCV27498490
SNP Position Genomic:     256847
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26063):
CATGGTGATACCCCGTCTCTTCTAAAAATACGAAAATTATCCAGGTGTGGTGGTGTGCGCCTGTAATCCCAGCTACTCAGCTACTCAGGTGGGTGAGACC
R
GAGAGTTGCTTGAACCCAAGAGGTGGCGGTTGCAGTGACCCATAACATAATACCATAGACTGGGTTATTTAAGCAACAGAAATTTATTTTTTCATAGTTT
Celera SNP ID:            hCV3206226
SNP Position Genomic:     198047
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26064):
AACAGTAACAGAATGGGAGAAAATATTTGCAAACTATACATCCAACAAAGGCCTACTATCCAGAACCTACAAAAAACTTAACAAATCAACGTGCAAAAAA
R
AAACCACCTGAACAACCACATGTTGGGTACTATGTTTATGACCTGGAAGATAGGATCACTAGAACCTCAAGCCACAGCATCATACAATTTACTCAAGTAA
Celera SNP ID:            hCV15942224
SNP Position Genomic:     241399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26065):
AAAAAAAAAAAAATTGACAAATGAGTCCTAATTAAAGTAAAGGGCTTCTGTGCAATAAAATAAATTACCAATAGAATCAACAAACAGTAACAGAATGGGA
R
AAAATATTTGCAAACTATACATCCAACAAAGGCCTACTATCCAGAACCTACAAAAAACTTAACAAATCAACGTGCAAAAAAGAAACCACCTGAACAACCA
Celera SNP ID:            hCV15942225
SNP Position Genomic:     241317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26066):
GAGGTATTGTTTATTTTAAAAAGAATTAAAATTTCTTTCTGATAGAGTTGATTTGAAGAACTGGCCTTAAAATCTTATTCTATTTTGCTCATCTTAGTCT
R
TCTTCCTGTTAATAATTTCTGATTGTATTACAGAATTCTTGTAGTGAGTATTTCAGCTCTTATGATCAGTTTTGTTCTTTCTTAAAATGGCTATTTTGTC
Celera SNP ID:            hCV2474550
SNP Position Genomic:     16784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26067):
TGAGTAGTGGCAGTGGGTTCCATGCATGCATGCATGCTTGTGTCAGCAGGATCGGTGTGCAAGTGTGTATCCAAGCAGTGGCATGGCATTGACATGGTCG
K
GTCTGCAAGTGCACACAGTCTCCACTGGCAGAGTGCAGTGGGGTCTGCACATGTGTGCACACCACCAGCAGCAGCATGGCAGTGTTCACATGTGCATGTG
Celera SNP ID:            hCV2474551
SNP Position Genomic:     17539
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26068):
CTATGGAAAGGAAAATAAATTTTGCAATCTATGCATCTGACAAAGTCTAATATGAAGCATCTATAAGGAGCTTAAACAAAACTACAAGAAAAAAAAACAG
M
CCTATTAAAAAGTGGGCAAAAGACATAAACAGGCACTTTTCTTCTTTTCTTTAAATAGCTACCTTTATTTGTAAAGTTCATTTTTAAAAATTTTGTATTT
Celera SNP ID:            hCV2474553
SNP Position Genomic:     18428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26069):
ACCAAAAAAGAAATTTCAGGCCAATATCCCTGAGGAATATGTGAAAATTCTCAATAAAATACTAGCAAGCCAAATCCAGCAGCACATCAAAAAGCTTATC
R
ACCATGATCAATTCGGCTTCATCCCTGGGATGCAAGGCTGGTACAACATACCTGAATCAATTTTAATGCAATCCATCACATAAACTGAATCAATGACAAA
Celera SNP ID:            hCV2474554
SNP Position Genomic:     23486
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26070):
AATAATACTGGGTATATATACAGCATTGCATAATAAAAATCATGCTTTGTTATTATTCAATAACAAAGTAAGTCTTGTGGCACTGTGCCTTAAAAGTGTG
K
CATTAAAAGTCCACTTAATTCTTCCTTTCTTTTCTTGACATGGTGAGTATGCAGTAAAAATAATTGTGGGTTGGTGATATATGGGACACTCAAAACACTT
Celera SNP ID:            hCV2474555
SNP Position Genomic:     23701
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26071):
TGTCATTTTACAAAATACTATGTGAATTTCCAAACTTTGGAAGTAAAATTTGTCTAGATATTGAAATATGAGTTTGGAGCCAAAGAATGTTTTTTAAATA
R
GATTGTTATCATAGTGCTATTGTGGCAGGCCAGGTCTCCATTAGCAACCAGAACAGTCAGTTTCCACTAACCCTTTACTATAGTTCTGATGAATGTATAA
Celera SNP ID:            hCV2474556
SNP Position Genomic:     26137
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26072):
ATGTTTTTTAAATAAGATTGTTATCATAGTGCTATTGTGGCAGGCCAGGTCTCCATTAGCAACCAGAACAGTCAGTTTCCACTAACCCTTTACTATAGTT
Y
TGATGAATGTATAAGTTAAACATTAAAGAATTGGAGAAACTAGTGCTTTAGTACAAGGGCTGGGATGTGAAAACAAAACCATTAAGACCTTGCCTGGGTT
Celera SNP ID:            hCV2474557
SNP Position Genomic:     26223
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26073):
AGGCCCCAGACCCTAGTTAAAGATTAGATTGAGTGAAACACTCCTGTTTATAGTTGCACACGTGCATGCAGGCATATAGCTTGAATGTATTAATGTATAA
R
CAAGTGCTGAAAAAAATCTTGTAACTTTGGGTTGGTCTGGTGAACTACCCTGACCTTCTCCTTATGGCCAGTTACAGAAATAAACTCTCTTCTTTCCCAG
Celera SNP ID:            hCV2474558
SNP Position Genomic:     26532
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26074):
TCCTGTAATCCCAGCTACTCAGGAGTCTGAGGCAGGAGAACCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCAGAGACTGTGCCATTGCACTCTAGC
M
TGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAAAAAAATAAGAAAAAATCTATATTTATACAGAATTCCAGAAAATCAAAA
Celera SNP ID:            hCV2474559
SNP Position Genomic:     38494
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26075):
ATAGGACACAAACAAATGGAAAAAAAAAATCCATGCTCATGGATAGGAAGAATCATTATCGTGAAAATAGCCATACTGCCCAAAGTAATTTATAGATTCA
M
TGCTATTCCTATTAAACTACCATTGACATTTTTCAGAGAATTAGGAAAAAAAAACCTATTTTAAAATTCACGTGGAGACAAAAAAGAGCCCGAGTAGCCA
Celera SNP ID:            hCV26235308
SNP Position Genomic:     115525
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26076):
GGGTTTGTCATAATTAGCTCTTATTATTTTGATGTATGCTCTTTTGATGACTATTCTTCTAAGGTTTTTATCATGAAGGAATGTTTGATTTTATTGAAGT
M
TCTTTCTGAATCTATTGAGATGATTATATCTTTTTTTGTTTTAAATTCTGTGTATGTGGTAAATCACTTTTTTTTATTTGCTTATGTTGAATTAACATTG
Celera SNP ID:            hCV26235309
SNP Position Genomic:     121489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26077):
GGATAAAGAAAATGTGGAATTAGGAGTGGCCAAGATGGCCATCTAGAAGTTGCTAATGTGTGTGCCTCTCACGGAGAGGAACCAAAGGGGCAGGTAAATA
Y
AGCACCTTCAATTAAAATATTCAGGTACTCGCATTGGGACTATTCAAACAACTTGATCCATGGAGAACAGAGAAAAGCAAGGCAGGACGATGGCCCACTC
Celera SNP ID:            hCV26757770
SNP Position Genomic:     41873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26078):
GTACTCGCATTGGGACTATTCAAACAACTTGATCCATGGAGAACAGAGAAAAGCAAGGCAGGACGATGGCCCACTCGGGAGTGACACAGAGCCAAGGGAA
M
CTCTCTCACCCAGGGAAGTGGTGAGTGAACATGTGACCACAGGAAACCACACTTCTTCTATGGAGCTTTGCAAACTTTGGGTCAGGTGGTCCCCTTGTGA
Celera SNP ID:            hCV26757771
SNP Position Genomic:     41998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26079):
GTGGAGAAAAAAATCTTAGAGCATGAAGACTGGCTTTCTAAAATAAGGCAGGCAGACAAGAATAGATAAAAAAAGAATTAAAAGGAGTATATAACCCCCC
M
AAAAAAATGAGATTATGTAAAGAGACCAAATCTATGACTGATTGGTGTACCTGAAAGAGATAAGGAGAATGGGACCAACTTGGAAAACATATTTCAGGAT
Celera SNP ID:            hCV26757772
SNP Position Genomic:     45302
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26080):
GAATTCTACCAAATGTACAAAGAAGAGCTGGTACCATTCCTATTGAAATTACTTTAAAAAATTGAGGAGAATGGACGCCTCCTTAATTCATTCTATGAGG
Y
CAGCATCATCCTGATAGCAAAACCTGGCAGCAATGCAACAAAAAAAGAAAACTTCAGGCCAATATCCTTGATGAACACTGATGCAAAAATCCTCATCAAA
Celera SNP ID:            hCV26757773
SNP Position Genomic:     47340
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26081):
AGTCAGGGGCTTATAGCAGACATAAAAGTTCCTGCCTGATGGCTCTGAAGAGTACAGTGGACCTCCCAGCACAGTGTTCGTGCTTTGCTAAGGGTCAGAC
R
GCCTCCACAAGTGAGTCCCTGACCCCCGTGTGTACTGACTAGGAGACACCTCCAAGTAGGGGCCAACAGACATCTCTTACAGGAGAGCTCTGGCTGGCAT
Celera SNP ID:            hCV26757775
SNP Position Genomic:     48395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26082):
GAATATACAAGTATCAATAGCTGAATAGATCAAGCAGAAGAAAGGATATCAGTGATTGAAGACCAACTTAATGAAATAAAGAGAGAAGACAAGATCAGAG
A
AAAAAAAAAAGTATAAAAAGAAAGAACAAACACTCCAAGAAATCTGGGACTATGTGAAAAGACCAAACCTGTGTTTGATTGGTGTATCTGAAAGTGATGG
Celera SNP ID:            hCV26757776
SNP Position Genomic:     49169
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26083):
CGATGGCACCTTCATTTACCGCCCGCATTCAGTTGTTCCTCTTGCGGGCGCTAGGCTTTCTCATAGGCTTAGTAGGCCGAGCAGCTTTAGTCTTAGGGGG
Y
CCAAAGTTTGCCTCAAAGACCCCTCGGCCGGTGACTGAACCATTGCTTCTGCTTTCGGGGATGCAGCTGGCCAAGCTGATCCGACAGAGAAAGGTGAGAA
Celera SNP ID:            hCV16026226
SNP Position Genomic:     63892
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,9|T,29)   total(C,44|T,32)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:26084):
CTATTCCAATCAATAGAAAAAGAGGGCATCCTCCCTCATTTCATGAGGCCAGAATCATTCTGATATCAAAACCTGGCAGAGACACAACAAAAAGAGAAAA
M
TTCAGACCAATATTCCTGATAAATATCGATGTGACAATGCTCAATAAAATACTAGCAAACTGAATCCAGCAGCACATCAAAAAGATTATCCACTATGATC
Celera SNP ID:            hCV26757777
SNP Position Genomic:     51430
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26085):
AGGCAAAGGTTGCAATGAGCCAAGATGGTGCCACTGCACTCCAGTGGCGCTCCAGCCTGGGCGACAGAATGAGACACCATATCATAACAAAACAAAACAA
C
AACAACAACAACAACAACAACAAAACCTGGAATATTACTCAGCTTTTAAAAAGCAGGAAATTTAACATCTATTTTAAAGATAAATCTTAATGGTCTTATG
Celera SNP ID:            hCV26757778
SNP Position Genomic:     61370
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26086):
TGAGACACCATATCATAACAAAACAAAACAACAACAACAACAACAACAACAACAAAACCTGGAATATTACTCAGCTTTTAAAAAGCAGGAAATTTAACAT
Y
TATTTTAAAGATAAATCTTAATGGTCTTATGATAAGTGTAATAAGTCCATCATAAAAAGTATGAATCCACTTATACGAGTTAGCTAAAGTAGTTGCACTT
Celera SNP ID:            hCV16026227
SNP Position Genomic:     61439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26087):
GGCAAAGGTTGCAATGAGCCAAGATGGTGCCACTGCACTCCAGTGGCGCTCCAGCCTGGGCGACAGAATGAGACACCATATCATAACAAAACAAAACAAC
A
ACAACAACAACAACAACAACAAAACCTGGAATATTACTCAGCTTTTAAAAAGCAGGAAATTTAACATCTATTTTAAAGATAAATCTTAATGGTCTTATGA
Celera SNP ID:            hCV26757779
SNP Position Genomic:     61371
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26088):
CTCCAGTGGCGCTCCAGCCTGGGCGACAGAATGAGACACCATATCATAACAAAACAAAACAACAACAACAACAACAACAACAACAAAACCTGGAATATTA
Y
TCAGCTTTTAAAAAGCAGGAAATTTAACATCTATTTTAAAGATAAATCTTAATGGTCTTATGATAAGTGTAATAAGTCCATCATAAAAAGTATGAATCCA
Celera SNP ID:            hCV16026228
SNP Position Genomic:     61408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26089):
GGGGAAGAACCACTGCAATGGCAGTGGCAGAGGGGCTGTCAGTTGCCTCTGGGAGCCCCTCCCCCAGGGAAATACAAAGCCACTAGCAGAGGGAATGCTC
W
GCCAAGGGTGGGACGTCTGTGTAGATCCAGGCTTGGGGCCCTGCTTGGTGAAGAGTGTGGGGTGGGAGCCTACATGGAAGAGAGACTGGGCTCCTCTCTG
Celera SNP ID:            hCV16026229
SNP Position Genomic:     60575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26090):
CAGGGAAGTGATGTGGGAATTCTGCCAGTTGCTGAGTATATCTATTCAAATTATGCACTGCAGAGCTGAGGAAATAATCGCAAGATGGTTTCATGGACTC
W
CTGTACACGCTGTGAAATGAATGTCAGCTAAACCTATGATCTGATGGTCTGACAGAGATTTTGTCTCTTCTGCCTGTCCACTGAGCTCAGGTTCACTCCA
Celera SNP ID:            hCV12055125
SNP Position Genomic:     199238
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,5)      total(A,5|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26091):
GCACATCAGATGGGGCTAGTCCCACCTGAGCACTCCTTGGTCTGCTGGCCTCCTGGGGCCCCATCCTGGCCATGCCTGCTTATAAGACAGTCTCAGGTGC
S
CTGCGAGCCCACACCATAGCTTCTGCACCAGTGGACCATGCCTGTCCCATGGAAAGCTCCAGCAAGGTGGCCCCTACAGGTGTGCACCAGCCTGCACATT
Celera SNP ID:            hCV2474560
SNP Position Genomic:     44024
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26092):
TGGCCTCCTGGGGCCCCATCCTGGCCATGCCTGCTTATAAGACAGTCTCAGGTGCCCTGCGAGCCCACACCATAGCTTCTGCACCAGTGGACCATGCCTG
Y
CCCATGGAAAGCTCCAGCAAGGTGGCCCCTACAGGTGTGCACCAGCCTGCACATTCCCTTGCCATAGTGCAGCTTCTCATGAGCCCATGGCAAATCCCCA
Celera SNP ID:            hCV2474561
SNP Position Genomic:     44069
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26093):
AGTTCTTAGATCATTTTAATGGATTCCCTGGATTCCTTGGATTGGGTTTCAACTTTCTCCTGAATCTCGATGAGTTTTCTTTCCATTCAGATAATGAGTT
Y
CATATCTGTCAAAAAGGCTAGTTTGTTTATTTGGAGGTAAGGGGATGCTAAGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCTGTTGTTGTTGTT
Celera SNP ID:            hCV26235310
SNP Position Genomic:     124223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26094):
AAATGCAAGTCAAAACCAATGTGAGATTATATCTTACTCCAGTCAGAATGGGCATTATTACAAATACAGAAAGTAACAGATGTTGGCGAGGATTTGGAGA
M
AAGGAAATCTTACACATTGTGCCAATATAAACAAGTGTAGTCTGTGAAAAACAGTATGGAGGTTTTTCAAAGGGGTAATAATAGAACTACTATTTCATCT
Celera SNP ID:            hCV26235311
SNP Position Genomic:     130646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26095):
CACTGCAAAAACACGCCAAATTGTAAAGACCATCGATGCTAGGAAGAAACTGAATCAATTAACAGTTAAAATAACCAGCTGACATCATAACGAGAGGATC
R
AATTCACACATAACAATATTGACCTTAAATGTAAATGGGCTTAAAGCCCCAATTAAAAGACAAAGACTGGCAAATTGGATAGAGTCGAGACCTGCTAGTG
Celera SNP ID:            hCV2474563
SNP Position Genomic:     52526
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26096):
GTAGTCTGTGAAAAACAGTATGGAGGTTTTTCAAAGGGGTAATAATAGAACTACTATTTCATCTAGCAATCTCTCTACTGGATAGCTACCCAAAGGGAAA
K
CAATTATATTAAAAGCTACCTGCACTTGTATGTTTATACAGCATTATTCACAATAGCAGAGATATGGAATCAACCTAAGTGTTCATCAACATATGATTGG
Celera SNP ID:            hCV26235312
SNP Position Genomic:     130783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26097):
ATCAAGTAGGCTTTAATGCTGGGATGAGAGTTTGGTTCAACATATGCAAATCAATAAATATGATTCATCACATAAACAGAACTAAAGACAAAAAACACGT
W
ATTATCTCAATAGATGGAGAACAGGCTTTCAGTACAATTAAACATTCCTTCATGTTAAAAGTTCTCAACAAACAAGATTTTGAAGGAACATACTTCAAAA
Celera SNP ID:            hCV2474564
SNP Position Genomic:     56715
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26098):
GTGTAAATTAGTTCAACCATTGTGAAGACAGTGTGGTGATTGCTCAAGGGTATAGAACCAGAAATACCATTTGACCCAGCAATCCTTTTACTGGGTATAC
M
CCCAAAGGATTATAAATCATTCTACTATAAAGACACATGTTCATGTATGTTTATTGAAGCACTGTTCACAATAGCAAAGACTTGGAACCAGCCCAAATGC
Celera SNP ID:            hCV26235313
SNP Position Genomic:     134514
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26099):
AAGAAAGCCTGCAATCTGGGCATGGTGGTGGGTGCTTATAATACCAGCTACTTGGAAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAAAGGTTG
Y
AATGAGCCAAGATGGTGCCACTGCACTCCAGTGGCGCTCCAGCCTGGGCGACAGAATGAGACACCATATCATAACAAAACAAAACAACAACAACAACAAC
Celera SNP ID:            hCV2474565
SNP Position Genomic:     61282
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26100):
ACAAGATCGTGATATATCAATGTCACTTGGAACAGGTGTCTTGAGGTTAAGGTTGTTATACTGAATCATCCACTTTCCTGGCTTAAATTTCTCCAGGAAA
Y
GCTTGGCACTCTCTACAGTGCTCTGCATGAGCATTGCAACCGTCATGAGCCCTAAGCCACCAGGAACGGGCCTCGTCGTATGCCACATCACCCACAACTT
Celera SNP ID:            hCV27531941
SNP Position Genomic:     171252
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:26101):
TCTCAGCCCTTTGAATATATCATTCCAGTCCTTTCTGTACTGTAAGGTTTCTGCTGGGAAATATGGTGATAGTCTTATGGAAACTTCTTTCTGCACAGTG
W
GTAGCTATTCTCCTGCTACCTATAAGATTCTCTCTTTATCTGTGATTTTTGACTGCTTGATTATAATTTGTCTTGGTATGAGTCTGCTTGGGTTTATCTT
Celera SNP ID:            hCV26235314
SNP Position Genomic:     136756
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26102):
GAAAGCCTGCAATCTGGGCATGGTGGTGGGTGCTTATAATACCAGCTACTTGGAAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAAAGGTTGCA
R
TGAGCCAAGATGGTGCCACTGCACTCCAGTGGCGCTCCAGCCTGGGCGACAGAATGAGACACCATATCATAACAAAACAAAACAACAACAACAACAACAA
Celera SNP ID:            hCV2474566
SNP Position Genomic:     61284
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26103):
CAGATGCCCAGCTTTAAAATTTCTTTCTTTTGTACTCTGTTCCTTTATTTCTCAAACTGGCTGATGCTTAGGGAAAATAGAAAAGAACCTATGTGACTAT
Y
GGGGCAGGTTCCCCAATAGGAGGGTATGGGCTAGCTGGGCTTGTCTTCTGTGGCAGGTCTGTTCCAGGACTTTGCAGGTCAGGTGCTATCCACCTGACAG
Celera SNP ID:            hCV26235315
SNP Position Genomic:     107463
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26104):
GCTTGTGCTTATTTGGATCTTCTCCTTTTTTTTTTTTTTTTTTGCTAATAGATCCCCTAGTGTTTTGGTCTTGTCAATTCTTCCAATGATTCAACTTTTG
R
TTTTGTTGATCTTTTGTATGGATTTTGCTATCTAGATTTTGCTCAGCTCTTAATTTTAGTTATTTCTTTTTAAATAGTAACTTTAGAGTCTCTCTTGCTT
Celera SNP ID:            hCV26235316
SNP Position Genomic:     141191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26105):
TCTGAAAAAGATTTTATTTCTCTTTCACTTATGAAGTTAGTTTGGTAGAATATGACATTCATGGTTGGAATTTCTTTTGTATAGGGATGCTGATTATAGG
Y
CTCCACTCTCTTCTGGTTTCTAAGATTTCTGCTGAAAGTTCTGCTATTAGCCTGATGGGGTTCCATTTGTAGGTGACATGCTCCTTCTCTCTAGCTGCCA
Celera SNP ID:            hCV26235317
SNP Position Genomic:     142054
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26106):
GATGAGATGATCTAGATATAGTTTATCTAGATTTATAAAAATGTTCTGAAGGGGAGAAGTGGAGTGGATACAAAGTTTTATTTATCCCTTAGTTTCTGAC
W
TTTTTAAACATGGAAATATTGTTACTGCAAAACAACTAAATTTCTTAAACACCTACCATGTGCCACTTGATAAGGCAAACATTTTACTTAGATTTTTGTA
Celera SNP ID:            hCV2474569
SNP Position Genomic:     65946
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,6)      total(A,6|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26107):
TGTAATTTCAGCCATTACAGTCTGCTTAAGAACCATTGGTGAGTTTGTTTGGAGGTAAGAAGACACTCTAACTTCTAATGTTGCCAGAGTTCTTGCACTA
T
TTCTTTCTTTCTTTCTTTCTTTTTTCCATCTGTGTGGGCTGATGTTCCTTTAGTTTTTGGAGTTGCTGCCTTTTGGATGAGGCTTTTGCTTTTTTCTTTC
Celera SNP ID:            hCV26235318
SNP Position Genomic:     142805
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26108):
AGAAACATCAGAAAATTGTCAAGTCACATATAAAAGGATCTCCATCTGACTGACAGCAGATTTATCAGCTGAAACCTTGCAGGCCTAAGGAGAATGGGAT
R
GTATATCAAAGTGCTGGGGAATAAATTGAGGTAAAAATGCCATACCCAACAAAACTATTCTTCCAAAATGAAAGAGAAATAAAGTCTTTACCTGACAAAC
Celera SNP ID:            hCV26235319
SNP Position Genomic:     146232
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26109):
TCAGAAAAAAACACAGAGTCACTGCTACTGGGGATGTTCAGCCAGGGGGTGAGGCAACTGTGCTGTTGGCCTGAGGTGGGGACCCCGCTTGGGGAAGAGT
S
GGGGTTCGAGGGATAACAGGGAGGAGAGAGTGGGCTCTTCTTTGTATGGTGACTGTGTCTTGCTAGAAATGTGAGTAAAGCCCTCAGGATCTTCATTTCT
Celera SNP ID:            hCV16026230
SNP Position Genomic:     60354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26110):
CTTATTAAGACACACCCACTTTTGCCTACTTTAAGCACAAGTTTATAGTTACTAAGACATACATTTGTTTTTATATTAGTTAGTATTTGGGAATGGGTAA
Y
AAGAAATTTGATTTACATAGTTGTATATGTGCATGTGTGCATCCTCAGATATAAGTTCATGTTTTCATTATGAGTATATGTATTTTTATGTGTTTTTTAA
Celera SNP ID:            hCV16026231
SNP Position Genomic:     58440
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26111):
TCCAGTCTACAGTTCCCAGCGTAAGCGACGCAGAAGATGGGTGATTTCTGCATTTCCAACGGAGGTACTGGGTTCATCTCACTGGGGAGTGCTGGACAGT
K
GGTGCAGGACAGTGGGTGCAGTGCACCGTGCATGAGCAGCAGCAGGGCGAGGCATCACCTCACCCAGGAAGTGCAAGGGATCAGGGAATTCCCTTTCCTA
Celera SNP ID:            hCV26757782
SNP Position Genomic:     72573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|G,7)      total(G,7|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26112):
CCGGTTCATCTCAATGGGACTGGTTGCACAGTGGGTGCAGCCCACGGAGGGTGAGCTGAAGTCAGGTGGGTTGTTGCCTCACCTGGGAAGTGCAAGGGGT
Y
GGGGAATTTTCTCCCCTACACAAGAGAACCCATGAGGGTCTAAGCCTGAGGAACTCCAGCACAGATACTGAGCTTGTCCCTCAGTCTTCACAACCTGCAA
Celera SNP ID:            hCV16026233
SNP Position Genomic:     47700
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26113):
AAAGGCCTTTGACAAAATTCAACAACACTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATGGGATGTATCTCAAAATAATAAGAGCTATCTATGAC
R
AACCCACAGCCAATATCATACTGAATGGACAAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAA
Celera SNP ID:            hCV26757784
SNP Position Genomic:     76449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26114):
CACAGCCAATATCATACTGAATGGACAAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATA
K
TGTTGGAAGTTCTGTCCAGGGACATCAGACAAGAGAAGGAAATAAAGGACATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGATGACAT
Celera SNP ID:            hCV26757785
SNP Position Genomic:     76554
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26115):
TTCAATGCCATCCCCATTAAGCTACAAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATAGAACCAAAAAAGAGCCCGCATTGCCA
W
GTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACGCTACCTGACTTCAAACTATACTACAAGGCTACAGTAATCAAAACAGTATGGTACTGGTAC
Celera SNP ID:            hCV26757786
SNP Position Genomic:     77116
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26116):
TTCTTTTACAACCTGGGCAATCACGCATGCTTGTGGGGCACAGAATAAGCACCCAGGCCTGCACTGGCCAGCATTCCACCACAAACCAGGACCATCTCCA
S
TGCAACAGTGCACACAGTCTCTAGCAGGGTACTACCATAACCCCAACCCTTGGCTGCCTTGCCTCCACCACTATGGTGAATGCCCACAGGGAGGCAGGTA
Celera SNP ID:            hCV16026235
SNP Position Genomic:     44460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26117):
GCCACTGAGGCCACATGTAAGGGTATCCAATTTCCTTTATGCCTTTATCAACCTTCCCTTGGAAGTTCTCTGCTTGTGCTGATTGTATGTGGCTGAAGTT
K
GGGCAATGCTAATGAAGGGGATTTCAAGACCTTAGGAAAGTGTACATACTTAAGGCACTACCTTTTCTCCATCCTTGGAAAGAACAGGACTGGGAAGCCT
Celera SNP ID:            hCV26757787
SNP Position Genomic:     80011
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26118):
TAGATCTTCTCATTGTCATAAGATGGCTGCTATGCCTTATGTCTCAAGAGACAAAATTGTGACCAGATACCACTGGTAAACCAATTTTTGGCAAGGTGAA
W
AACATTACTGTGATTGCACTAAACAAATAAGAAATCACACACTTAAGGTTAGAGATTGGGCCTATTCCCTGTAAGGCATATGGCAGTACAATAAAGAGAG
Celera SNP ID:            hCV26757788
SNP Position Genomic:     81527
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26119):
TCATAAAGATCCTCACAATTTGACAAATTATGAGACATTTGAACAACTAGACCCTGGGAAGTTCAGGGACTGATGTAGCTCTGGACTCTCAAACGTAGGA
S
ATTTGTGGGCCTTCATTTAAGAGCCCTGCCATTAATGTGTTCTAACCAACCCCAGTCCTTCTTTCTTTTAGTTGAACCTCTAGGGAAAGAGATAATTTTA
Celera SNP ID:            hCV26757789
SNP Position Genomic:     83503
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26120):
TTACTCCTTGGTCTGTGAGTCTCTGAGGGAGCTATATTGTTTACTACTGTACTTATACATCTGGTCAACTTCTCTTTGTATTTGTAGTATATGCTTCATG
Y
ATTTGCCAGCTTTATTAAAACAGAAAAGTATATGACTGTTACAGCATCCTCATGTATCATACCATTTTAGGTTTCAGTTTTAAAATTTGCTTTCTCTAAT
Celera SNP ID:            hCV16026238
SNP Position Genomic:     68240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26121):
AGTAAATACTTTTCTTGACATGGGTTTTGGCAAATAATTTATGGCCAAGTTCCTAATAGCAATTGCAAAAAAAAAAAAAAAAAAAAAATTGACAAATGAG
W
CCTAATTAAAGTAAAGGGCTTCTGTGCAATAAAATAAATTACCAATAGAATCAACAAACAGTAACAGAATGGGAGAAAATATTTGCAAACTATACATCCA
Celera SNP ID:            hCV16143228
SNP Position Genomic:     241242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26122):
CTTGAGGTGAAAAGTTAGGTAGTTAGTTTGAGATCTTTTTTTTTTTTAAATTTTATTTAAAAAATTGTATTGTATTTTGGTAAGAACATTTAACATGACA
Y
CTACCCTCTTAACTGATTTTTAAGTTTCCAAACAGTAGTCTTCATTTGGGCACAATACTTTACAGCAGATCTCTAGTATTTATTCATCTTGCATAACCAA
Celera SNP ID:            hCV16143229
SNP Position Genomic:     134894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26123):
CCTCATGCAATTATTGGGACATACTTATATTAAAAATTACTCTCTATTCATTTGAAATTCAAATTTAACTTGATTTCCTGTATTTTATCTGGAAACCCTA
M
CTTTATGCCCTTTTATGTCTCCACTCTCCAACTCTTGGTTTTGCAGAGTTGATGTATACTGTTAAGTTTCAGTGTATTACTGAAACAATATCTATTTTTT
Celera SNP ID:            hCV2474570
SNP Position Genomic:     69026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26124):
TTAGTTTTATTGTGATAAAATATACTCGCCATAAAACTTACTGTGTTAGCCACTTTTAATTTTTTTAATTATTTTTTATTACAATAGGTTTTTGGGGAAC
M
GGTGGTGTTTGGTTACATAAATAAGTTTTTTAGTGGTGATTTCTGAGATTTTGGTGCACCCATCACCCGAGCAGTATACACTGTACCCAGTATATAGATT
Celera SNP ID:            hCV26235320
SNP Position Genomic:     149430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26125):
GTGGTGATTTCTGAGATTTTGGTGCACCCATCACCCGAGCAGTATACACTGTACCCAGTATATAGATTTTTATCCCTCACCCTCCTCTCACCCTTTCCCT
Y
GAGTCCCGAGAGTCCATTATATCATTCTTATGCCTTTACATCCTCATAGCTTAGCTTCCACGTATGAGTGAAAACCTACAATGTTTGGTTTTTCATTCCT
Celera SNP ID:            hCV26235321
SNP Position Genomic:     149563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26126):
TTCTGAGATTTTGGTGCACCCATCACCCGAGCAGTATACACTGTACCCAGTATATAGATTTTTATCCCTCACCCTCCTCTCACCCTTTCCCTCGAGTCCC
R
AGAGTCCATTATATCATTCTTATGCCTTTACATCCTCATAGCTTAGCTTCCACGTATGAGTGAAAACCTACAATGTTTGGTTTTTCATTCCTGAGTTACT
Celera SNP ID:            hCV26235322
SNP Position Genomic:     149571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26127):
GTACCCAGTATATAGATTTTTATCCCTCACCCTCCTCTCACCCTTTCCCTCGAGTCCCGAGAGTCCATTATATCATTCTTATGCCTTTACATCCTCATAG
Y
TTAGCTTCCACGTATGAGTGAAAACCTACAATGTTTGGTTTTTCATTCCTGAGTTACTTCACTTAGAATAATGGTCTCTAATTCCATCCAGGTTGCTGCA
Celera SNP ID:            hCV26235323
SNP Position Genomic:     149613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26128):
CAATTCACACAATAAGAACAAAAGCTGAACAAACTAAAAGTTAATGACAATTCTTAAATTTATCAATATGCTGAGGTAACGGGAAAACCACTCTTCCCAA
R
ACTGAATGAAAAGACAGGCAGATACAAAGAAGTGAAACTTGCTAGAACAAAAGCCTAGGAGCAGAAAATTTCAGGGGAACCAGCACAGCTTTAGAGAAAC
Celera SNP ID:            hCV26235324
SNP Position Genomic:     109160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26129):
GAGACACAACCAAGAAAGAGAATTTTAGGCCAATAACCCTGATGAACATCGATGCAAAAATCCTAAATAAAATACTGCCAAACCGAATCAAGCAACACAT
M
AAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTTAACATACGCAAATCAATAAACGTAATCCAGCATATAAACAGAA
Celera SNP ID:            hCV26235325
SNP Position Genomic:     159634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26130):
ACCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGCAAGAACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAG
Y
CAAAATTGACAAATGGGATCTAATTAAACTCAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATT
Celera SNP ID:            hCV26235326
SNP Position Genomic:     160982
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26131):
ATACCATTCAGGACATAGGCATGGGCAAGAACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATGGGATCTAATTAAACT
M
AAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCAATCTACTCATCTGACAAAGAGCTAA
Celera SNP ID:            hCV26235327
SNP Position Genomic:     161013
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26132):
AAATTATCAGACTGAGAATTGAAACCATTTGTGATTAATATAGTAAGGGCTATAATGGAAAAACTGGTCAACATGCAAGTACAGATCTGTAATGTAAGAA
R
ACAGATGGGAACTTCAAGAATCAAAAGCAAATGCTAGAAATAAAAAAAAAAAATATAACAGAAATGAAGAACATCTTTGATGGGCTCATCAATATATTGT
Celera SNP ID:            hCV26235328
SNP Position Genomic:     110227
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26133):
TCTCTAAATAGAACAATAATGAGTTCTAAAATTGAGGCAGTAATAAATAGCCTACCAATCGAAAAAAAAAAAAAAAAGCCCAGGACCAGATGGATTTACA
K
CTGAATTCTACCACAGGTACAAAGAGGAGCTGATACCATTTCTACTGAAATTATTCCAAAAAATTGAAAAAGAGGGATTTTTTTCTAACTCATTTTATGA
Celera SNP ID:            hCV26235329
SNP Position Genomic:     113979
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26134):
GGGCCTTCAGAGGGCTTGGAGCCTGGAAGCTTTTGGTGCTCTGGGCAGCTCCAGCTGAGAGTAGCCATAGGCACCAATCCCCAAGTCTTCCCATTCCTCC
R
AGGAGGTGCAGGCCGGGATGACCTCTGACCCAGGAGAGAGCAGAGCCAGCTTCTTCATGGGACTGAGGTGCATCTGCTCTGCAAGCTTTCCTGCCTTTCA
Celera SNP ID:            hCV26757790
SNP Position Genomic:     88552
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26135):
TGCCTTTCAGCTACTCCCAGCATCCATGCCTAGCTACTCTGCAGGAGCAGGTGCACATAACAGCCCCTGCAGCCCAACCTCAGTGTATTGATGCACGTGA
G
TACTTTCCTAGCTAGCCTGGAGCATATTGGATCCCCTAGCACAGGCAGAACTGAGTCCCAGCTAAGAGACAGTCAGGTGCACCCAGGGCTACAGCGTGCT
Celera SNP ID:            hCV26757791
SNP Position Genomic:     88744
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26136):
CTACTTGAGAGTAAGGAGCAGAGATCTGTGGACAGTAATGAAGCTGGGGAGGAGCTCCCAACCCCAGAACACTGAGAAGGGAGAGATGCATGGGTTTCTG
R
GCAAGGTGAGATGGGGCATGCCTCCCTCCACAGGGTGGGTCCATAGAGTGTGGCATATCTCTGCTGCAGCCCCTGCCCAAGAGGGCTGGTGGTACAGAAT
Celera SNP ID:            hCV26757792
SNP Position Genomic:     88943
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,1)      total(G,1|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26137):
GGGAGGCTGAGGTAGGAGAATCGCTTGAACCTAGGAGGTGGAAGTTGCAGTAATCCGTGCCATTGCACTCCAGCCTGGGCAACAAGCACAAAACTCCATC
A
AAAAAAAAAAAATCCTATACAGAACACTAGCCTTCTGAAAGGATCCACAAATATAGCCAACTAACTATACTGAACTTACACCACAGTTACAGAAATACCA
Celera SNP ID:            hCV26757793
SNP Position Genomic:     89628
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26138):
AACGCTATTCCTACCAAACTACCAAAGACATTTTTCAAAGAATTGGAAAAAACCTATTTTAAAATTCATATGGAATCTAAAAAGAGCCTGAATAGCCAAA
R
CAATCCTAAGCAAATAGAAGCAGAGATATCACACTACCCCACTTAAAACTATATTATAAAGCTACAGTCACCAAAACAGCATGGTGCTGGTACATAAACA
Celera SNP ID:            hCV26757794
SNP Position Genomic:     93376
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26139):
AAGCCAACATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGAACAGCAAAAGAAACTATCATCATAGTGAACAGGCAACCTATAGAATGGGAGAA
Y
ATTTTTGTGATCTATCCATCTGACAAAGGGTAATATCCAGAATCTACAAGAAACTTAAACAAATTTACAAGAAAAAGACAAACATCCCCATCAAAAAGTG
Celera SNP ID:            hCV26757795
SNP Position Genomic:     97205
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26140):
TGAGGCAGGAGAATGGCGTGAATCTAGGAGGCGGAGTTTGCAGTGAGCCCAGATGGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTC
A
AAAAAAAAAAAGAAAACCGGATGAATGCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAACCATCGTTCTTAGCAAACTAACACAAATCGGAAAACAC
Celera SNP ID:            hCV26757796
SNP Position Genomic:     98094
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26141):
TTCTTTCTCTTGCCCGATTGCCCTGGCCAGAAATTCTGATACTATTTTACACAGGAGTGGTGAGAGAGGGCATCTTTGTCTTGTGCCAGTTTTCAAATAA
R
TGCTTCCAGCTTTTGCTTTTGCCTCGTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCTCTTATTATTTTGAGATATGTTTAATCAATATATAGT
Celera SNP ID:            hCV27962947
SNP Position Genomic:     190990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26142):
TTGGTCTTTGATGCTGGTGACCTTTGGATGGGGTTTCTGTGTGGATGTTCTTTTTGTTGATGTTGATGCTATCCCTTTTGGTTTGTTAGTCTATTTTCTA
R
CAGTCAGGCCCCTCTGCTGCAGGTCTGCTGGCATTTGCTGGAAGTCCACTCCAGACCCTGTTTGCCTGGTTATTGCCAGTGGAGGCTGCAGAATAGCAAA
Celera SNP ID:            hCV27984439
SNP Position Genomic:     194162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26143):
AAATAAACTTCAGAAACTTTAAAAATTTTAGCCAGCAGCAGCCCATGCTATGGGTGGGTCCAATGGAAATTTGTGAGTGAGTCACCAGTGTGTAAGAGGG
R
GAGAGAATTTCTCTCTGATACATATTTTCATTGGGGAACTGGGAAATCCAGGCCACGAGGGAGCTCCTTGATCCTACCAAGCACAGGATCTGACTTGGTG
Celera SNP ID:            hCV27899204
SNP Position Genomic:     199683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26144):
AACTATGCTATCATTCCAGTTAGTATTCCAAGTCAGAAAAGACACAACAGTCCCTCAGACTGTCCCCAGAGAAGCTAGAACTTTACAAGCAAGTTCCATT
Y
ATATTCTTTCATTCCAATGGAGGAACCAATAATTTGATGGATTCTTTCAGACACTCAGTGCTGTGTTAGAGAGGGAGTGGGACAAGGGCAAGCAGAAATG
Celera SNP ID:            hCV27899205
SNP Position Genomic:     208239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26145):
GTCTGCTCCAAATCCCGCCTCCGTCACTACAAACCCTTCTGGGCCAACAAGCTAGAGTGTGATCCGGTCTGCAATGATAGAGGAATTGCCGTGTGCGATG
W
TGGCAAATGGGCCTGCATGGACAAACACTGGAGTGCCCTCCAATCTCTGCATGAGATTGGGCTTGATTGTGTCCTTCATAAGCACTATCAATGCACCACT
Celera SNP ID:            hCV27899206
SNP Position Genomic:     170208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:26146):
AGATATTCATGGATCAGCACTTGCCTTCTGGCCTGAGGAAGCCTTAAAGAGAATATTAAGTGTTAGTGGGATTGTCATACAGTCAGTGGGGTTGGGTGGG
R
CCAGATGCTCTACAGTTGCCTCCCAGCCTGGAAAAGGCTCAAGGAGAGAAATGACATTACATAAGGAAGCTGGCTAGGGACTTCAGCTAAGCAAACTCAT
Celera SNP ID:            hCV27899207
SNP Position Genomic:     263046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26147):
CTCACCAGTCTCCAGGCCCCTAGATGGCCAATTGGATGACATTTACGAGTCCTGAAGGGGCTGGACCTGGGTTGAGCCAGCCCAGAGTTCAGTGCTGTCT
R
TGTAATGGGGAGAGTTGGGTTGGTCCCTGGGTCACTGGCTGAACTCTCAGGCAGGTCAGGCAGACCAGTCAGGTGGTGGGAACCTGAGGGTGGATAACTG
Celera SNP ID:            hCV12055148
SNP Position Genomic:     261599
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26148):
TGTGAATTATTTATACTCATTAACTCTAAATTCTCACATTGCCATCTCATAAATGAATTCACTACAAAGTGGTTTTTACCACCAAAATTATTCTTGCCAA
R
GTCCCTGAATTTTTTTTTTTTTTTGCATTTTTGCTAAAAATAATGACTGCTTCTCAATACTTACCATTCATTACCTCATTATAACTGGTGGCAATATTGA
Celera SNP ID:            hCV15817829
SNP Position Genomic:     156476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26149):
TTGCTGCCTGATCCTTCCTCTGGAAGCTTCATCTCAGGGGCATCCAGCTCTGTAAGATGTCAGTCAGCCCCTACTGGGAGCTGTCTCCCAGTTAGGCTAC
Y
TGGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGTCCGTTCTCAGATCTCAAACTGCATGCTGGGAGAACCAGTACTCTCTTCAAAGCTGTCAGACAGGA
Celera SNP ID:            hCV27984440
SNP Position Genomic:     220737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26150):
ATGTCAGTCAGCCCCTACTGGGAGCTGTCTCCCAGTTAGGCTACCTGGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGTCCGTTCTCAGATCTCAAACT
S
CATGCTGGGAGAACCAGTACTCTCTTCAAAGCTGTCAGACAGGACGTTTAATTCTGCAGAAATTTCTGCTGCCTTTTGTTCAGCTCTGCCCTGCCCCAGA
Celera SNP ID:            hCV27984441
SNP Position Genomic:     220793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26151):
TATTTCCCCTTCCCAGTACTCTTCCCAGCCTCTGGTAATCAACATTCTATTCATTACCTTCATAAGATTAACATTTTAGCTCCAACACATGAGTGAAAAC
Y
ATTATCAAGAAGCCACAAAGGTGTTTTTGGCCGGGTGAAGTGGCCCACACCTTTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACAAGATCAG
Celera SNP ID:            hCV1120711
SNP Position Genomic:     197823
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26152):
TTGCCCCCGTTCTTATTTGACCTAAGCTGCTGCTGCACAGTGCTATCTTATAACTGGAGCCACTGCTATATTGTGTCTTGCTCATGAGGGCAATAACCAC
K
TCATGCCTCCATCCCTGAGGTTTTGCCATCATTACACCATGCTCATACCTAGTAGTACACCATTACTCAGCCAAACTATTATGGGTCACTCCCCTTTGGA
Celera SNP ID:            hCV12055223
SNP Position Genomic:     144667
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26153):
GTACTACCTGTTAGTGATCTTATAAGGATTAAATAATATGCATATGGAAAATATATATATACTTGCCATTTAGTTGTTTGTTGAGCATACTGAATATTTG
Y
ATACAAAGGTATACTTACAACACTTTTTTCACAAGCACAGCTGAAATAAACTATAACAACTACCACTTATACTATTTACCATAAATTGTGCTAAATGTTT
Celera SNP ID:            hCV27858200
SNP Position Genomic:     63276
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26154):
GTGTTTTTGAAGCAGAATATATTTACTCACTCAACCCAAATACAGACAGCTTTATGGCTCACATCTTCTTTGACATATTAGTGTTGCTGCTTCGTGGAAG
K
GAGAGGTCTGCCTTTCAGCCCATGTGGTGAGTGTCATTTGTGGTGGTGTAAGCTAGTTAGGTTAGTCTGACCTCAGGTGCCAGGAGGACTGGATAGGTAC
Celera SNP ID:            hCV12055154
SNP Position Genomic:     261372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26155):
CCTTGTTGTAGGGCTCATCATGTACACTTCAGATGCACGTTGTTGTCTCTCCAGGCCACAGTGTGTCTGAGAGCCAGGGAGAATGCCTCTCTTGCAACTC
Y
CCATGGAGGTGTTTTTGAAGCAGAATATATTTACTCACTCAACCCAAATACAGACAGCTTTATGGCTCACATCTTCTTTGACATATTAGTGTTGCTGCTT
Celera SNP ID:            hCV12055155
SNP Position Genomic:     261263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26156):
CAGCAAATATTGCTGCCTGCTCCTTCCTCTGGAAGCTTTGTCCCAGAGGGGCACCAACCTGATGCCAGCTGGAGCTGTCTTGTATGAAGTGTCCTTCGAC
Y
CCTGTTGGGAGGTCTCTCCCAGTCGGATGCACAAGGTCAGGGACCCAGCTGAGGTGGCATTCGGTCCCTTGGCAGAGCTGGTGCACTGTGCTGGGAGAAT
Celera SNP ID:            hCV12055156
SNP Position Genomic:     258369
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26157):
GCAAAGGACATGATCTCATTCCTTTTTATGGTTGCATAGTATTCCATGGTGTATATGTACCACATTTTCTTTATCCAGTCTCTCCCTCCCTTCTCCATAA
W
TTTTTGGATAATTTGAGTAGAATTATAATTAGTTCTTTCTTAAATATTTGATAGAATTCAGCAGTGAAACCATCAGGTTACTGCTTCTATCTCATTACTC
Celera SNP ID:            hCV12055229
SNP Position Genomic:     137764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26158):
TTTTCTCCCATTTGTTTTTTTTATCATCTGGGACATAATTGATTCCACAGTTGATGACTATTGCTAGGTTTGATCCATTCCCCTTTAACCATTTCAGGCC
R
ACCAGTTGCAACCACCAGGATGTCGCCTTTATTTACCTCCTCATCCAGATTGGCAGTCTTGGAGTGGCAGGTGGTCACTGTGGCATTGTTCCACAGAAGC
Celera SNP ID:            hCV15850923
SNP Position Genomic:     171451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:26159):
GGAGCTTTCTTTATTTGAAAAATAGCTCTAAGAATACTACAGCTCACATCACACATAATGGTAAAAGTGTGAGAGCTTTTCCCCTAAAATTAGGAAACAG
R
CAAAAATTTTTATTCTCACCACTCTTAATTACAATGCTGGAAGTTCCAGACAATGCAGTTAGACAAGAAAAGTAAATAAAATTCTGATCAGAAAGGAAGA
Celera SNP ID:            hCV27898274
SNP Position Genomic:     40019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26160):
GAAAAATGTTAAGGGCAGCCAGAGAAAAAAGTCAGGTTACCCACAAAGGGAAGCCAATCAGACTAACAGCAGATGTCTCTGCAGAAACCCTACAAGTCAG
R
AGAGAGTGGGTGCCAATATTTGGTGTTCTCAAAGAAAAGAATTTTCAAACCAGAATTTCATATCTAGCCAAACTAAGCTTCATAAGTGAAGAAGAAATAA
Celera SNP ID:            hCV27898275
SNP Position Genomic:     49549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26161):
CTGACAAAGGGCTAATATGCAGAATCTACAAAGAGCTCAAACAAATTTACAAGAAAGAAACAACTCCATCAACAAGTGTCCTGTAGTTTTTTTGTTGTTC
K
TGTGTTCTTTCATGTTTTTAATATCGTGGAGATACTGGATTTGTACAATGATTTAGAGAGGTATTCCTCCACTTTGATTTTTTGGAATAGCCTCAGTAGG
Celera SNP ID:            hCV12055159
SNP Position Genomic:     249135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26162):
GTGCCAGTATTTCTGAGGGTGTGTGATGAGACTAGTTCTAGAGTGTGGGAAGAAATAGGAAACTGGAATCAACTACTGTTGCCTGGATGAAAGGCTATTG
Y
TGAAACAATGGTGTCAGGAACAGCAGGCAAACTGGAAGAAACAAACCCCTTCACCTCTTTTCTTTCCTCCTAGTCTTTCTCTGGCACCCATATTTGAAGG
Celera SNP ID:            hCV27898276
SNP Position Genomic:     72269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26163):
ATGTAAGGGTATCCAATTTCCTTTATGCCTTTATCAACCTTCCCTTGGAAGTTCTCTGCTTGTGCTGATTGTATGTGGCTGAAGTTTGGGCAATGCTAAT
S
AAGGGGATTTCAAGACCTTAGGAAAGTGTACATACTTAAGGCACTACCTTTTCTCCATCCTTGGAAAGAACAGGACTGGGAAGCCTGATTGCCCTGCCCC
Celera SNP ID:            hCV27898277
SNP Position Genomic:     80025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26164):
ATGCTCACAAAGGCATTGCTGGTGTTGACTACAGCTGAAGGAACTGCATAGAGACTATGCTATTGCACTCACTGGAATCAAAGCCAGCATGCTCTACCCA
R
TCAAGCCCTAGGAAACATCAGCAGGTAAAAGTATCTCCACATGAAAGACACTTGATAATATTGGAAAAGATAACCATTCCACCTTATGCATGGGTATTAA
Celera SNP ID:            hCV15817830
SNP Position Genomic:     145363
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26165):
TCTGTGTAGAGAGAGGAAGATGAACCCCAGTCATTGTTTGAGCCCAGGTGGTGGGCACACATTCAGTGTGGATGGAGCCACTATTAAAAGTGCTAGACGA
R
CAACCACAAAGTGCACTTGCACCAGCCCCCAGTGGGAAAAGCCTTGGCTGCATCTGTGGCAATAGATGGGGTGGCAGGAGGTGATCTCTCTACATTTGTT
Celera SNP ID:            hCV1018362
SNP Position Genomic:     183554
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;(A,-|G,-)   Caucasian(C,30|T,54)   African-American(T,30|C,52)   Asians(C,29|T,55)   total(C,111|T,139)
SNP Type:                 INTRON


Context             (SEQ ID NO:26166):
AATGCACATTCACTAAAATAGTTATAAACCAAAAGGATAAGGGTTAATGAGCATGTGGAGTAACTGGGACCCTCATACATTTCTGGTAAGACTGTTGTCA
M
ATTGGTGCAGACTCTTTGGAAAACAATTTGGCATTTTCTTAAAATGTTAAATGTAAATTTGTCATAAGACTCAACTATTTCATTCATCTTTATATGTATA
Celera SNP ID:            hCV7468449
SNP Position Genomic:     264370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26167):
TCCTCAAGATGCATTTATAGTGCTGCATTTTGCAAGGTTTCCTTGTTTATGAAGGCTCAACAATTTCCATTATATATGTATGTGTGTGTGTGTATATATA
K
AGAGAGAGAGTTTCTCAACCTGTTCATCTGTTGATGGACATTTAGGTTATTCCCACCTCTTGGTTATTGTAAGTAGTGCTGCATTGATATTCAGAATGCT
Celera SNP ID:            hCV1018363
SNP Position Genomic:     135253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26168):
CCAAACAGTAGTCTTCATTTGGGCACAATACTTTACAGCAGATCTCTAGTATTTATTCATCTTGCATAACCAAAACTTTATATCACATGAATAGCAATTC
Y
CCATTTCTCCCTTTCTCCATCTCCTGACAATCATCATTTCACTCTCTGCCTCTATGAGTTTGACAAATTTAGATAACTCATATAAGTGGAATCACACAGT
Celera SNP ID:            hCV1018364
SNP Position Genomic:     135022
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26169):
ACGCAAGTTAGCAAATGTCTGTGGCACCAATCTCCATGTTCTGATTCTGCATCCCTCTGAGGGTCTACACTGGGAACTGCCTGGTGGCAGAATTGTTCTG
W
GGGGAACTATTCTCTTTCCTCTGTTGTCATCCTATCATTGACCTGACTGAGATACCAGAGATTGACAAACTCTCGGGCTGCAGTTATGGTGGCACTTCTC
Celera SNP ID:            hCV16117882
SNP Position Genomic:     179539
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,10)      total(A,2|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26170):
GATGGAGCTGGAAGCCATTATTCTCAGTAAACGAATGCAGGGATAGAAAAGCAAACACAGCATGTTCTCACTTATAAGTGGGATGGGAGCTGAATGATTA
K
AACACATAGACACATGGTGGGGAACAACACACACTTGGGCCTGTTGGGGGATGTTGGGAGAAAGGAGAGCATCAAGAAGAATAGCTAATGGCTGCTGGGC
Celera SNP ID:            hCV27903300
SNP Position Genomic:     117420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26171):
CTAACGGTCAGGACCTTCAGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCCCCTGCAGACCCTGTTTGCCTGGGTATCAGCAGCAGAGGCTGCAAAACAG
S
GAATATTGGTGAACAGCAAATGTTGCTGCCTGATCGTTCCTCCGGAAGTTTTGTCTCAGAGGAGTACCTGGCCGTGTGAGGTGTCAGTCTGCCCCTACTT
Celera SNP ID:            hCV27903301
SNP Position Genomic:     104821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 99
Celera Gene:                 hCG2001821 - 102000094664365
Gene Symbol:                 DKFZp434N1415
Protein Name:                hypothetical protein DKFZp434N1415;AMAP-1
Celera Genomic Axis:         GA_x5YUV32W3KM(12256844..12292018)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12259):
GATGAAGGCTGTGCTGAGCCCATTCTGTGAGGGAGGAAGATGAAACTCAGAGCGGAGGCCTCGTGCTGGGTGACACAGCTAAAAAGAGACTCAGGCCCAG
GGCTTTTGATTCAGCATCTGCCCCCTCAGTTCCCAGCCATGCATCACTAGAACACTATTCTCACCGATGGAGAAGGACAATTCCTCAGCTACCCCCACAA
TTTAGGAAGAAGTCCCCAAGGTGAACCAGCTCCCTCAGCCCTGAATCTGCCCTCAGAAGGTGGCCTTCTGCCCAGAGCGAGGATGGAGGGGTGCAGGCAG
AGAACCATTTTTTTGGTGGAGGTCCACGGGACAGAGCCCAGAACTCAATGTCCATCCATCTTGGGCGTGTCCTCCCCAGCAGCCCAGGCTGACTGGACCG
GCGCAGGAACTCCTGCATGCTCAGAGGGAGCCCTGATTCTTAGAACTGTCTTCTCATAGCAGTCTTCTTAGGAGTATGTTGCTGTGGTTTGTGATTCTGC
CCCTGGGTGCTGCTGCATGGGAGGAGCCAGCTCTCTCCCTGCCCCACAGATCATGGAAGGCAGCGACCATAGGCTCACTGATGCTCCTGCAGGCTCCCTA
CACCCATCCATTAGGATGGCCCACATGTGCCAGCCAGGAATGGGGGACACAGCCATGAAGCCGACAGATAGGCTCCTGCACCTCTGGAACTTGTGCTTTA
GCGGGGCAGACAGATCCCACAGAAGTGTATGTGTAGGAGTTCTGAGGATGACAAAAAGGATGAGGCAATAGAAGGTGACTGTGACCTTGTGAGACAGGCA
CTGTCCCCAGTCTATCACTCTATTTTTGTTTCTTTGGGTTTTTTTGAAGCAGGGTCTCGTTCTGTCACTCAGGCTGGAGTGCAGTGGTGCAATCATAGCT
TACTGCAGCCTTGATCTCCTGGGCTCCAAGCAAGCCCCCTGCTTCAGCCTCCTGAGTAACTAGGACTCCAGACACACACAAACACCACACCCGGCTAATT
TTCAAAATGTTTATTTTTAGTACAGACGGGGTCTTACTATGTGGCCCAGGCTGGTGTCAAGCTCCTGGGCTCAAGTGATCCTTCTGCTTTGACCTTCCAA
AGTGCTGGGATTGCATGTGTGAGCCACCATGCCTAGTTCACTGTCCCCACTCTAAAGCAGACAGCCCAAGTGGGGGCAAAGTTGAGAAGCAAACACACAC
TGTACTCCAAAGCCTCTGAAAATCCCTCCTTGTGTCCTTCCTAAGAAGGTCCCAGAGTCTCTGTGTCATCCCTGAAGCTGAAGTCAGTCCATTCTGGGAG
CAGAGTCCAGCTGTGTCCTGTGTTTGGGGCTAAGAAGAATGTGAGATTCCTGCTGAGTGTGAGCTGAGCAAGGTTGTAGTAAGGAGGGCAGTGATGTGAT
GCATTGTTTAAGGGGTGCAGCTGCCAGATGTGAGTGGGTGAGGGCAGATGTGAGGGGCATCAGCCAGCTATGTGTGGGGGTGGTCAGACCTGGTTGGGGA
GGCACAATGGAAACAATAGGGGAGCAGGCCAGGTGGGTATGCGAAAGTGAGACAGAGTGGCAGGATGAACCGGGAGGGGGATCAGATGTGAGGGGCTGGA
GAATAGATGACCCCGAGCCTCAGTCTTTAGGAGGGTGGCTGTCCCTGGGAAATGGATGATGCGGTCTGTGGAGGAAATGCGCTTTCTATTTAGGGAGGCT
GTTTAGGAGTAGCTGACGACATGCTCAGCACCTGGATGGGTGGAAATAAACAGAGACATGAAGCAATAATTTATGCCGTGTCCTCTGTCAACCTAGCCAC
CACCTCCTCCTCCCTGGGCTCCAGGAAGTTGCTCAGAGTTGTGGCGCTGGGAGGAGACTGCGGGAGCTATGCTGGTGAAGCGATGCTGTCATCTGAGCTT
GTGCTTTACACACACTGGGCTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCTAGGCTGAAGTGCAGTGGCGCAATCACAGCTCA
CTGCAGCCTCGACCTCCCAGGCTCAAGCAATGCATCCACCTCACTCTCTTGAGTAGCTAGGACCACAAGGGCATGGCACCACATCTGGCTAATTTTTAGA
AATTTTTTTGTAGAGACGGGGTCTCACTATGTTGCCCGGGCTGGTCTCAAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCGAAGTGTTGGGA
TTATAGGCACAAGCCATCATGCCCAGCCCCCTCCAGGCCTTTGTACCTTCTGTGTCCTCACCTGGAGTACCTGCCCCCTGAACTACCCATTGAACTCTTT
ATTTAGTGGCCCACCTCCTCTAAGAAGTGCTACCTCCTCTAAGAAGGCCCCCCTCATATCCAGTCTGTGGTTCCTAAATTGCAGCTAATGACTACCCCAT
GAGCTCACACATTAGAGTTGGAAATCTACTTTCAAATGACCCCACTTTGTGTCTAAAGCACTCTGACCTTCTTCTACCCCCACCCCAGTCGCACATCAGT
GAGCTTCAGGGAATCTCTGGAATTGAATACAAAGTCATGTGCAAAATCAGATGTGCAAATGTATGGATAAACAAAATACAGTATACCCATAAACGAAATA
TTATTCAGCCACGAAAAGGAATGGAGTCACTGATACGTGTTAAGTGAAAAAAAAAAAAACAGACAGAAAAGGCCAAATATTGTATGATTCCATTGATATG
AAGTATCAAGAATAGGCAAATCAGTAAAGACAGAAAGGAGCTTAGCGATTGTTAGGGGATGGGGGTCGGGGCTGGGGAATGACTGGTAGAGGGTTTCCTT
TGGGGATGATGAAAACATTCTGGATGTAGGTAGTGTAGGTAGTGGTGATGGTGGCACTACATTGTGTGTGTACTAAATGTCACTCAGTTGAATATATTAA
AATGGTGACTTTTATGTTATGTGTATTTTACAACAGTTTTAAAAAAAGTCAAATGCACGTTTCTCAGGAGAAGATTCCTAGGTTTGATTGGCTTCTCAAA
AGGTGAAGCAGCTCTGATCTGGTCTGGACCCCTTCATGTCATGATGCAGATGGTGATACTGGGACACAGACAGGGGGTGAGACCTGTCCAAGGTCACTCA
GGGGCTGGTGGCAGAGCCCAGCCAGGTTGCATGCCTGCCTGACCACATACTCCCCTACCTGCTTCTTCCCTTGTCCTTTGGTCACCAAACCCTCCCGTCA
CAATCCCCAAGCCTCTGTCCTGCTCCCAAACATGCCACCCACAAGCTGTGTAACTTCCCAAAGTTAAAAGGCCTTCTTCCTGAAACTGGGTGCACGGATT
AGAGTTTCATGAGCGTTTGTCTTTTGCTCTAGAGTGGACTCTGAGCTCCTAGAGGGCAAGAGGAAATGTTTCTTATTTTCCTCCATATCTTACAGAGCTT
CTGGGACAGCCACGGAGGTGAGCCATTCCTGTCTCCCTTCAAGAAAGAACTTGCCATTCACCCTCAAGGAGGGCAGTTAGCTGACAACTTCTAACAAACA
TTCTTTGCCCAGAGGACATGCTGGGTTGGCCAAGACTTTGTTAGATCTGCAGCACAGTCTGAGGCTCTCCCAGCCCTTTCCTGCTTCCTCTCCCTCACCG
GCCTTGCCACTACCCCCTCTCTCCGCAATAAACCTCTTGCGGTCCTATGTTCATCTCAGTGCTTGCTTCCTGGAGGACCCACATGGCACAGCACCTAGCC
TGCTGGATCATAAGTGCTCAGTCGCGAAGTAAACGGAACTGGGGATTCTCTAGAGGGTAGAGGGAAGCCAGAGCCTGGGCCTCGGAGAGCAGGAGAGGGG
CTGTCCGTGGAGGATGCCTCAGTCATAAGGAGAGCAAGGTCTAGAGCAGTGTGAAGAAGGGGCCATGGCCCTGGAGCAGGACCCAGCAACGGGCAACACA
CAGGGAACTCAGGGATTCACCAGCACTGCTGGCATCGTCTCTAGCTCCTCCGCTGTCTGGGGCAGCTCTTGCAAACTCAGAAATGTCCCAGGAGACAGGG
TTCAAAGAGCCCTGGCCTTGGACTTTAGAAAACCAGGTTCAATTTGTGCTTCCCGCTAGTCAGGTGACATTACACCCTTCTCTCTGGAGCTCAGTTTCTC
CGTTTGTAAAATGGGCTTATAATGTGTCCCCTCCCTTCAACCCCAGCATGATTTTGAGAATTGACTGAGAAGATACTACAGTTTATGGAGGGCACCCTGT
TTCGTAGTTTAAATGCACACTCAGGCCAGGTGAGGTGGCTCATGCTTGTAATCCCAACACTTTGAGAGGCCAAGGCGGGAGGATCGCTTAAGCCCACGAG
TTCAAGACCAGCCTGAACAACATAGCAAGACCCTGTCTCTACAAAAAATTTAATAATTAGCTGGGTGCAGTGGCACATGCCTGTAGTCCCAGCTACTCGG
AAGGCTAAGGCAGCAGGATCATTTAAGCTCAGGAGTTTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAACCTGGGCAACAGAGTGAGATACT
CGCTAAGAAAAAGAAATACATACATATTCATTTAACCCTGGCAGTGGCCTTGTGAGAGCAGCATTATGACCTCCATTTTATGTATGTATATATGTATGTA
TGGATGTATGAGATGGGGATCTCACTTTGTTGCCCAGGCTGGAGTACAGTGGTGCAATCAGAGCTCACTGCAGCCTGGACCTCCTGGGCTCAAGCAATCT
TCCTGCCTTAGCCTCCAGAGTAGCTAAGACTACAGGTGTGGGCCACCAAAGCCAGCTAATTAAAAAAAAATTTTTTTAGGCTAGGCACGGTGGCTCACGC
CTGTAATCCTAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGTTCGAGACCAGCCTGACCAACTGGTGAAACCCCATCTCTACTAAAAA
TACAAAACTTAGCCAGGCATGGTGGCACTCGTCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAG
TGAGCCGAGATGGCACCACTACACTCCAGCTTGGGCACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAATTTTTTTTTTTTTTTAGAATGGAGT
CTCCCTACGTTGCTCAGGTCAATTTTGAACTCCTGGCCTCAACCAATCCTCCTGCCTCAGCCTTCTAAAGCACTAGGATTGTAGGCCTGAACCACTGTGC
CCAGCAGAGAAAACCGGCTCTCTAGGTCAAGGCATTGGCTCAAGAACACACAGCTAACAAGCCGACATAGCTGGGATTAGAACCCAATTGTCTGGCTCTA
GAACCCCTTCACTATTTGAGGTACAATTTACTGCCTGACTACTAGTGCTAAACTTTGGGTTGGGGGCAGGGCCTGAGGCAGCTCCTGCTCTCATACATTC
TGAGAGCCAGTTTGACAATAGGCAACTACACAAAAAACCGAAATAATCCCAGAATGCSTCAGGGCTCCAGGGGAAGGCGAAAAAAGCGGGTGCGTTTATA
AACTTAAAATAATCAGAGGCAGCATCTCCAAGGACTGTGAGAATGCCCCAAGTCAGGGCAAAAGTTTTGGCTGGTTTGGGAAGTGATGAAAGGCCAAAGT
GGCTGCAGCGAGCGTGGACCCGGGAGGTCTCCAGGCGCGTTGGTGCGAGTTGGGGACGGCAGGCAGGGACACCTAAAACCTACGGTACGCCACGAAGGGG
TTTCAGCACGTCCTGAAAGGCCCGATCCCCCCCCAGAACCGCTGTGAGGGGGGCAGAGGGAGGTCCCTCGACAGGATGTGGCCTTAGTCGAGGAAGGCGG
GAAGCAGGGGCTGGCACCCCCGACGCCCCACCCGCCCCCCGTGGCCTAGCAGCAGGGCGGGGCGAGGCGGGTCATGCACCCCTACCAGCCAGCCACTCCC
ACCCAGCCCTCGGCTCCCGCAACTCGCGGGGGTCCTCGCCCGGGTCCCCCGCCCCGCCCCGCCCGGCTGGTGACGTCACGGCGCTCGTCGGCGCCGCCTG
TGGCGTCACAGGCCGGGCCCGCAGGGCTTTCTAGGGGTCCGTCGCTCTTGAAGCCGCCGGCGGCGGGCGCGTGCGCGGCCCGATGAAGAAGGAGGTTTCC
AAGCCGTCTCCGCCCAAGTTGATCGGTGGATGCGCGCCCCCGCGCGGGGCACCGGTTGCTGTGGACGCAGTGGCGGCCGTTGGCTGGCGGGTGCGGCGCA
GCCTCGGTGTCTCTGGGCCGGCGGTGCAGGGCAACGTTTCATGGTGCCGGGCGGCACCATGAAGTCTCTAAAGAAGGATTCCCGCCTCAGAATAACTCCG
ACCAGATTATTAGAGGCCTCAGAGAATGTCAAAGGTTGGCGCTGGCTGCCTTGGGCGCTCGGGAGAACCCGAGAGGGGAAGCGGTCCCCGGAAAGAGTTC
AGGACACGGGGCCTGGAGGATGGGGATGGCACCAGGGATGGAGGAAAGATCACGGGGAAGTGGGGTACTGGGCATAGGACCCTTAGGGATGGGGGGCAAG
GCAGGAAGAGCCTACAGCGCACTGGGCCTTGGGGATGGGGACATAGGAAGTGGGAGACTGACAGAGGGGCCTCAGGGACCACTGGCTGGGGAGATGGCCT
TGCGCTACCTCTAACCACATCTTAGGGTGGCATGCAGGAGGCAGGATCCCCGGACTGGATGAAGTGCAGAAGAGCCAGGAAAGAGTTTAAGGGTAGAAGG
GCCAGGAATTGGGGTCCTTGGGAAGAGGAAAGAATGAAGTGTTGAAACCAGCCACCTTGATGGGATTATTTGGTAGAGGAGGGTCGGGGAGCGGGGCAGG
CGTCACTTAGGATTCCTGCTGGAAAAACCCAGAAGAAAGGCCTTGCTTGGCTAGTTCTCTTTTTGACTGCCTTTTCCTACCACGTGCACTTTCCAGCTGG
ATGACACTTATCCAGCTCCTTTAGCCTGGAAAGAATCGCTAGATATGACTGCTTCCTACCCTCTACAGCTTTCTTCTGGTTGCACCTGGGAGAGCCACAG
GGCGTCTGATAGCGGACTGACTTCCATGGACATGTTCTCACTTGCAACCCACCCCCTTTTGATCTTTTTTGGCTGTTTCCATTTATTTATTTTTAAATTT
AATTTTTAGCTTTTTTTTTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGTAAACAGGGCTCTCGCTGTGTTGCCCCAGCTAGTGTCAAA
TTCTTGGCCTCAAGCGATCCTCCTGCCTCGGCCTCACAGACTGCTAGGATTCCAGGCATGGACCACTGCGCCCAGCCTATTTTTGTTTACTGAGAGCTGA
TTTTGTGTGGTACTGTGGCTCACCAGAAGGGTATCGGTATTAACTGTGTGACCCTGGTCCTCAAGAAACTCAGTCTAATGAACACCTGGAGGAGTAACCT
GACAAAGGTAGAAATACAAATGCTGTGATGTAGGTGCCCATCGGGCTTAAGGGGGCTCAGAGCACCTGAGCCAGACCAGGGATGGTTGTAGGGGTACGTC
TTCTGAAGAAGGTGACATCTATGGCAGRCAAGAAAAAAAAGGAGAGGTTTGCTTCTCTAGGTCTAGGAAGCAGCATGAGTTTATGGAACTGTAAATGTGG
GAACCAGAAGAGGCTGCACAGGTGGGTAGGTCAGGGGCCAGACCATGAAAGGGCTTTATGTACTAGGTCAGAAAGCCTGGATGTGCTCTTGCAGGCCCTG
GGGAGACCCAGCCTCAGAGTTGTGAAAGCTCATTGTGAGGAGAGGGGACCCTCAGAAAACTAACAGGAGCTTAGTCGCTTTTCAGTATGGCTTTATGTTT
CTTCACGTATAAAAGTCCAACGTTGAGCCGGGCATGGTGGTGCACATCTGCAGTCTCAGCTGCTCAGGAGGCTGTGGCAGGAGGATTGTTCCAGGCCAGG
AGTTTATGATCACACCTGTGAATAGCCACTGCATTCCAGACTGGGCAACACAGTGAGACCCCCATTATTAAAAAAATAAAAGTCCAATGCTGTTTTATGA
CATACTATATATATATATGTATGTATTTTATATATATTATGTATATGTGTATATATRTGTGTGTGTGTGTGTGTGTGTGTRTATATATATATATATATAT
ATATATATATATATATATATGTATTTTGAGACAGGGCCTCGCTCTGTCACCCGGGATGGAGTGCRGYGGTACAGTCATAGGTCACTATAGTCTTGAACTT
CTGGGCTCAAGTGAACCTCCTGCCTCAGCCTCCCAAGTTGCTAGTATTACAGGTGCACACCACCATGCCTGGCAAATTTTTTTTTTTTTTTTTTTTGTAG
AGACAAGTTGCCCAGGCTGGTCTTAAACTCCTGGGCTCAAGCGATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCT
GGCCCGTGACATACTTTTTAATAGTTGAGAGAGAGGGAATATCTGGTCTCCTTTCACAAGGGCAGTCAAGGGCTTTCCTAGCCACTGCCTCCTGCTCACA
TAGTTTCTGGGAGATCGTATCAGATTTGAACTGCTGTAAACAAATCAAGGAAAGATTTTTCACTGCATATTTATTTTTAATAAGCAGAAAATTTAGTTTG
TTAATTAACCCTTGAGTTAAGAACATGCACCAGAGTGAGGAGGGAAAAAAAAATGAAGTGTTTAGCATGCAAGATATCTTTTTAAAAATATCTCAGGGGA
GCCTCTAATGTTGTAGAGCAGTACTCTCCCCCAGCCCCCATACAAGGCAGCTAATGACCCAGTGTCATTTTGTAACCTTGTGCGATGTTTCTCCAAAGTC
TCTGACTCATAAGCAAAAAGGAAAGCAAAAATAGTGACTTAAACCTGTTTCTCGGGACCTGAGAGCCCTTTTGAGTCCTAGTACCCTCCCTTCCTGCTAT
GCACCACCTCCCCACCGCTGTCTTGTTGCTAAGAAACCAAGAACCCTCCTAGCAATATTAGATTCCCCTCCCCAACCAATTAAAGCTCTGCCCTAGTAGG
GACAGCCCCTCCATGGTTCCCCCAGCCCAACCCTAAGGTCAGAATTTCCCAAAGACTTTAATCAACACTAAAAACGAATAATACTTAGATAAAACAAGAA
GCAGAAGAAATAGAGTCCGGGTTTCTTCTCCCTCCATAGTTTCCCCGCTCCGTATCTCGCTTCCTACCCCCACCTGAGCACCTTGCTTCCAGCCCTCTGG
TCCAGCTCCGACAAGAGACTGACTACCCCGTGCAAGCGGGGTGGTCTCTTTTACCCCTCACTGTCAGCATCAAGGGAGAAATGTCAGCTGGGTGGCTCAC
TAGGAGCCCTATCAGCTTGGGATTCCAGACCAAAGAACCAGAAAGAGCTGGGCCTGTATAGGCTCAGTAGTCAGACATACCTCAGCCCTGTGGAGTCTTC
CTGCAGGTCCTAAAATGATCCCTGGGGCTCTTCCTTCCCTGGTCTCCCCAGCTTGCCTCTGCCTCTCCGGTCCATCTGGCTCTCTTCATCTGATGAATCA
TTCTGAAATGCACCTGTCATCAACTCACTCCCCTGAACCAAAGATCAGATGCCTGAGCCATGCTTTACAAAGCTGTCATGCCCTGGTTTCCCTCTCATCC
CCAACATCACCACCTCTCCACCTCCCCAGCAAGTTTTCTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTCTGGAGTGCAGTGGTG
CAAACTCGGCTCACTGCAAGCTCTGCCTCCCGTGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCTG
GCTAATATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACTTCGTGATCCACCTGCCTCGGCCTCCCAA
AGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCCCCAGCAAGTTTTCTGTGTTATCGTGCCACTCACGTGCCATGCTCAGCCCTGCCCCTTGCT
TTGCTTGGACTTTGACTTCACCTGGAGCATCTTGGTTTGCCGCTGTACCTGTGCAAAGCTTGCCTCTCCTTTGCAGCCTGCCTCAGCCTGTGGAGCCACC
TCTGCAGCTGTTCCTCTGAACACTTCTTCAGAGCCCTGAACTGTGTAATCCACATGGATCTGTTCCTTTTTTGATGTCTAACCAAACCTATTGCCTGTAC
CGCAAATGTAGGAACTCCTCTAGCTATGATTGGTGTGTGTTCCTGTCACATTTTTCAGTACCTCAAGAGAAGGAGCCATATCTTAACCTTTTATACCATC
TTTGTAGTTTATAGCACATAGAAGGGGCTTGGTAAGCACTCTCKAGGAGCAATTTAACTTTAAGATACATATATATCCCTGGGCGCACTGGCTCATGCCT
CTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACAAAAC
ATACAAAAAATAGTTGGGCGGCCGGGTGCGGTGGCTCATGCCTGTAATCCCAGGACTTTGGGAGGCTGAGGCAGGTGGATCATATGAGGCCAGGAGTTCA
AGACCAGCCTAGCCAACATGGTGAAACCCAGCCTCTACTAAAAATACAAAAAGTTAGCCAGGCATGTTGGTGCATGCCTGTAATCCCAACTACTTGGGAG
GCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGATTGCAGTGAGCCGAGATCACGCCATTATACTCTAGCCTGGGCAACAAGAGTGAAACTCCAT
CTCAAAAAAAAAAAAAAAAAAAAAAGCTGGGCATGGTGGCGCATGCCTGTATTCCCAGCTACTCGGGAGGCCGAGGCAGGAGAATCACTTGAGCCCGGGA
GGCGGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGGGACAGAGTGAGACTCCATCTCAAGAAAAAAAAAAAGATGTATATATCATT
TTAATGAATATTTTAATAACTAGAACATACCACTCCCTGACTGTATGCAGTAACAGAGCATTTATTGGACTACATTAAAGATAACTTTCTCAGAATAACC
TTAGACCAGAGTTTTACTATTTCAATCTAAAGCAAACATGAAAGATTAGCTTCTCTATCACTGAAGGGATGGGAGCTTTGGCCCCCAAAAATCTTCGGCA
GTGTTGAAAGTTTCTATTGACACGTGGTAATTGTGCACCCACCAGTAAAAAGCACACATCTGGAGACGTTTAATCACTTGGAAAGATGTCAACCCAGCCA
AGGTTATGGATAAAGGAAGCAAATGTCCTAGAAAGTACAGATAATACCAAAATATTTACAAAAACAGACCTTCAGCTGATCTCAGTTCTCATAGGCTGCC
ACCCACTTTGGTGAGTTTGTGTAGAAGGGAGARGGGAGGTAGAAATCAAAGCCCAAGGCTGCATCCCCACACATGGCGGCAGATGAGACTGGAACTCGGG
GTTCAGCCGGCAGCCCTGCATGTGTGTTTGTGTGCACAGAGCCATGCATTTAACAGACAGATACTTCCAAACCTCTGCTGACCCCATTACAGAAACAGAC
TGTGGATGATAGGCTGAATTTATTATTTTTTCTAATAGAAAAACAAAAATTATTTTTAAGGATAGGTTCTCCTGTGTTGCCCAGGCTGGTTTTGAACTCC
TGGCCTCAAGCAATCCTCCCATCTCGGCCTCTCAMAGTGTTGGGATTACAAGCGTAAGCCACTGCACCTGGCCAACAGGCTGAATTTAGAACTATGTTTG
GAATGATTTTGGTGTGAGTTTTTTTGGCCACCAACTCTATGGAAATTTCCTAAAAAAAGTTGGATTTTGTTAACCAAAACACCTGCCTTTATGTTTTCGT
GATATTGCCTCTTAAAGATTACGGTGCTGTAAGAAGCAGTGGATAAAACCAAATTTTGTTTTAAACTCCCTAAAGGCCTCAGGACTTAGGTTTTCTTTTG
ATTGTTTTATGTAGGGCCTTATATCAAACCATTCTGAACCAGAGGGAAAATGACAGGGTTGACCAGCCAGAGAAATGAGATGTGTTTGATCCTGTTAAGC
CACCTCTGTGAAAGGAAGGCAGGGAGTGTGTCCTCGTTGGAGAGTGACCTGTGACCCCCTTCTGCCCCGGGTGTTGTCAATGTCATGCTGTGGCTGCCAC
AACGGACTCTTAAATACATTCATACACTCATCCTCAGTCATGCAGGTTTTTTTTTTTCTTAGAGACAGGGTCTTGTTCTGTCACCCAGGCTGGAGTGCAG
TGGCACAATCTTGGCTCACTGCAGCCTTCACTTCCTGGGCTCAGGTTATCCTTCCCCTCAGCCTCCCAAGTGGTTGGGACTACAGGCATGTACTACCATG
CCTGGTTAATTTTTTGATTTTTTTTATAGAGCCCAGACTGGTCTTGAACTCCTGGGCTCAAGCGATCTGCCTGCCTTGGCCTCCCAAGATCTTGCAACTC
TTAATCCATTCCTTGGCATGCCATTGCCCATGGGGTAAGCCTTCACATGGCTCACTGAGCTCTTCACGATATGGCGGCTGCTGCTGTCTCTGGGCTCTGC
CTCTTCCCTCCCACCTCACCACACTCCAGCTATTCAAAAACACATGCTTTGAGTTCCAGGGATGTGCTCCATTCTTTGCCACTATGCCTCTTTATGTTAT
TTTCTTTGGAATGCCTGTTCCCCAGGGCCCTTTCCTTTCTCCAACTTCTTCAGCTCTATTTAAACATCCCTTCCTTAGGAAGCCCTCCCTGACTCCCCCA
CCTCCCACGCCCGCCGACTCAGGGCTGGTTGTTCCCCCCCACCATGTTCCTGTAGTTACTCTGGCTCAGTCTGTTTCACGGTCTTGTTTCCCATTGGGCA
TGTGCTCTTTAAAGACAAGCTCTGGCATGTATCCCTAGAACCTAGCACAGTGCCTGGCATGTAGAAGCTGCTTAAACAATCTTTATTAAATGAATATGCA
ATAAATGGCCAGTGGTGAATGYTCTGCTTCCCCCACAGAGATTCTGCACTTTAACCAGTGTCTTGTGAAACCCTGTGCCTTCACCCAGAAGCATGGATCA
GTGCCAGCACTGGAGGAGGCTGGCAAAACATCTAGTTCAGTTGTCCCAAACCACTGTGCATCAGAATCACCTAGGGAGTTGAAAAAAGTACAGCTCCCTA
GGCCCTGGCTCCATGCAGTAGTCAGGAAGCTGTATTCATAAAACTCCCCCAAAGATTCTGAGGCAGACATTGGACTAATAACTTGGGAACCACTGATTTA
GTCCAACTGACTCTTTCTACACATGGAAAGCCTGAGGCCTAGAGAGGTTAAGTGATGCGTACCCAAGACTGTCCAGCTTATAAATAGCATAGCCTGAAAT
GGAACATCTTTTTTGTATATTAAAAATAATCTTTTTTGTACAGATGGAGTCTCAACTATGTTGCCCAGGCTAGTCTTGAACTCCTGGGCCCAAGCAATCC
TCCTGCCTTGGCTTCTCAAAGTGTTGGGATTACAAGCTTGCACCACGGCACCCGGAATGAAACATCTTTTTGTTTTGTTTTGTTTTGTTTTTGAGACAGA
GTCTCACTCTGTTGCCCAGGTTAGAGTGCAGTCACACGATCTCAGCTCACTGCAACCTCTACCTCCCGGGCTCAAGTGATTCTCCTGCCTCAGCCGCCCR
AGTAGCTGGGACTGCAGGCATGGGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGGGACGGGGTTTCACCATGTTGGCCAGGTTGGTCTTGAACTC
CTGGCCTCAAGTGATCCTCCTGTGTCAGCCTCCTAAAGTGCTGGGATTACAGGCATGAGCCACCACACCTGGCCTGAAACGAAACATCTTCTGATCTCAA
TTCTGGCTACAGAAGTCTTAGTCACTGTGGTGAGCCAGGGGCTGTGGGTAGGGGGACCCTCCAGAGAGAACTCCCATTGCCCCAGCAAAGTGCTACCCAG
GCCACCTTGGCAGCCTCTGCTATCTATCCAGCTGGTCAGCTCTGCCCCCCACCATGGAGTCTAGTATATATTTTTACTTTTATTTTTGTATGTATATATT
GATATATACAGAAGGAGCTCTTTAAGGACTTAATAACTTTCTGCTTCTCTTCAGAAAAGAAGCGGGCAAAGGGACCTGAACAACCCACACCCACAATTCA
GGAAGAGCCTGAACCTGTTAGCAATGTCCTACAAGGAGATGACATTCTTGCCTTGGCCATTAAGAAGGAAGACTTGAAGGAGGTGAGGATGAAGCCCAAG
CTTCCCTTACCATAGAAACGTTTCCCTGCCGGCAGCCTGAGTGGTCTAGAACACCAGCCATGTCCCTACTCATGGGGAGTGTCTAACTCCATGGAAAAAC
CCACTGAACACAGATTCTTTTCACTTTACCACCTTAAGGAATTCACTGTGTTGTCTGTTTTAACATTTCTGAGATTCATATAGAACCACAGGGGAAATGA
GATGATGAGGTATCTTGCTTCCCATAGAGGTAGGTGCCATCATTCCCATTTCACAGACCGGAGGATGAGTTTAAGGAGCCAAGGTACAGCTCTGGGTAAA
GCTGCTAAACCCTAACCCCATGCTTTACCTGGGAGAGTCAGCCATCTCTCACCCAAACTGTCTGGAGGCATAAGATGTTCTTTTTTTTCCCTCCAGGATA
TTACTAAGTCACATATCTGTTACACAGGCATTTCCTTGACAGAACATATGGACAGAGCTGAAGAAACAGATCTGTCAGCCTTCAGGAACTCCACCYAGAA
CTAGAACAGAAGAGATGGGTGGTGCTCTTCCTCCTGCCACCACAGGTGGAATTCTCCTTTGTTTTATTTCTTTTTAGCAACACATTCCTCGCCTTACTGA
AAAGGAAGATAAACGTGTCATCACCCAGAAATTTATCATCCGTAAACTCAAACCCATGGATCCTAGGAGGAAGGTCTGCCACCTTGTAGCACGTCCTGCG
AATCCTGATGAAGCCACAAAGCCTCTGGACTACTCCGGTACACCCAGTCTCAGCCCTGGCTTCACTGTCTTTCAACTCATGGGTCAGCCTCAAGAGAAAC
CCAGTCTCCATCAGAAAGTTGCCCTCTTGAAAGTTGTCCACCCACAGCTTCTTTCCCCTTTCTTCTTTTATCCTCCCAGGTCCCGGTGACAGCTTCGATG
GCAGTGACCAGATCCTGCCCCACCACATCTTGGGGAGTCTCCAGGATTTTAAGAGAATTGCACTTGCTCGAGGGAACACCCAGGTTTGTTTGCACAGAAC
TACCCGGATGAGAGCAGTCACTGAAGTCATTTTGGTCTCCCACCTGACACAGTCAAGCAGGGCTGGGGTTAAAGAGACAGTCTAGTCTGTAGGTTTTGAG
TCTGAGTTGATAAGGGACCCTCTCCCAGAATAGTTGGACACTTCAGGCAGCTGAAGCTGGCTTCAGTGAAGTCAGGGATTTACTGTAAGGATTCCAGAGA
TTGCCTCATGGAACCCAAAGGCGGGAGTACCTGGGTCTGGGTAGACTGCACCCAAAAAGGCATCAGGACTCAGGGCCCACATGCCTCATTTCCCTCTGCT
CTGTGCACTGTCTTGATTTTCCCTTCTCTGGAGACTGGCCTGCCCTCCTCAGTCCACRTGGTGGAGGAAGGTGGCTTCCCACTGCTTCCTGGGCCACGGG
AAGATTCTGTATCTTTCCAGCCTTCCCATCATGCAGTGCTTCACCTGTCTCTTCCCCTTGCTTCCCTGGTTCCAGGCTGACTCTGATTGGTCAGGCGCTA
AGGGGCCTGGGGCCCTGTAAGAATGCTTCCATTTACACATGGGTGAAGGTGGCAATCAACATCAGTTGTGAGGACAAATACACTAGATGTTGACCCCAAT
CTTGAAACAGAAGTTCCCTTTGTGGGGGAGAGTGGACTGACAGCTGCTTTCAGGGCCCCCTGGTTCTGGGATTTATTTTCTGTCACTGGCTACTCTGGAG
TCCTGAAGAGGAGGGACTCTCAGCGCAGTGGGATAACAGCACGGGTTTAGGCCTCGGGAAATGTGTGCTCAGCCCTGCCCAGAGCCTTCTTACTGCCCTC
CACATACCTATGTTGTACTTTTCAGCTGGCTGAGCGGATACCTACCTCACCCTGTCTGATGACCCTCATCTCTGCTGAAGGAGAGTCAAAGCAAAAAGCC
CCAAAAGAAGASAAGAGACCTCCCTGGGCCCCACCTCCTCAGCACAACTTTCTGAAAAACTGGCAGCGTAACACAGCCCTGCGGAAGAAGCAGCAGGAAG
CCCTCAGCGGTGAGCAGAGCAGACAGGGCTCCCGCCCGGCCTCCATCTGGCAGCAAGGCTCTGCTGGGTTGTTTGCTCTCCTCCAGAGCCTGGCCTTGGG
CTGACCACATTTGTGCTTTCACTCCCAAGAGTGTCTCACTCTGAAGCTTCAGTGGATCCTGAAATCAGCCCTGTGAGGGAGGCTGCCCGATGCAGACTGC
CAAGGCCCCTGTTTGTTCTGGTTCGGCAGAGTGGCGGCAATCTTGCCTCTCTCTCTAGAACACCTAAAGAAGCCAGTGAGTGAGCTGCTCATGCACACCG
GGGAGACCTACAGACGGATCCAGGAGGAGCGGGAGCTCATTGACTGCACACTTCCAACCCGGCGTGATAGGAAAGTGAGGCCACCTGTCCTAAGTGCCCG
GGGGCAGGGGGGTCCATGGAGGAGGGGGCGGGGGCAGGTGTCTGGACACAGGGATGCTGGTCTCAGGTGGCACAGCTGGGGAGAAAAAACCTATCCATTG
CAAAACATCATTAGGCCCTCAAGGCCTTTACTAAATTATATGATTAGTCAGTAAAGTTATTCAGCCTGTGGTGACCACACAGGTAGCAAGTTATTAGAGT
AGTCTTAGTGTTTGTCTCCTAGGAGCTTAGACTGAGTGGAGCCTACACCCTAAAGAGAGAGGTTGAAGAGTCCCCCACCTTTTTTTCTGGTAGACCAGTG
CAGTACCTGTACCAACCCACACCATCTGKCTGGGGGCAGGTAAAGATGACAACAGGGTGTCCAGAAAACACGGCAGTGGATGCTTCTGTTATGCAATCAC
GGCAGCAATGAATTCCCCAGAGGAAGCATCTGTAGCCTGTGGTGGTGCTCTTGTCTTCCCACATCTCCACCAGCATCTGGCTGAGGTGTCCTGGTAATCT
GACTCACCTTTCCTTCCTTGCCAGAGCTGGGAGAACAGTGGGTTCTGGAGTCGACTGGAATACTTGGGAGATGAGATGACAGGTCTGGTCRTGACCAAGA
CAAAAACTCAGCGTGGCCTCATGGAGCCCATCACTCAYATCAGGAAGCCCCACTCCATCCGGGTGGAGACAGGTGAGGCGCAGGGCTGTAAGCCAGCTAG
CATCTTGTGCCTGGCCCGGAGGCAGGGTAGTGTGGAAGTGGCCAGCATAGCTCTACAGTGAAACAGGCCCAGGGCCTGTTTCTCTGTGGTTCTCTGGGGT
CTTAGGCAAGTCCCAGAGTCTTCCTGAAGTCCGGCTCCCTCTTCCTTTTCTTCAGTAAAACGGTGAGAGAGCTAGGAAACTGGAGTGCAGCCATAGAGCT
GCCGTCCAGTGTGGAGCCTTGAGCCACATGCCGCTGGTGAGCGCCTGGATCGTGGCTGCCCTGCCTTGAGAAGTGCTGTCACTGTCAACTGGACACTGGC
TTTAGTGTGAAAACAATATATTTTATTAATCATTTTTATATTGATTACATGTCAAAATGACAATATTTTTGATATACTGAATTAAATAAACTATATTACT
AAAATGAGGGCGGGCACAGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCTACGGCGGATAGATCACTTGAGGTCAGAAGTTCAAAACCAGCCTGG
CCAACATGGTGAAACCCTGTCTCTACTAAAAATGCAAAAATTAGCTGGGCATGGTGGTGCGCGCCTAGAATCCCAGCTACTTGGGAGGCTGAGGCAGGAG
AATTGCTTGAATCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTGTCTTAAAATAAATA
AATAAATAAATAAACAAACAAACAAACTATATTACTAAAATGAATCCCACCTGTTTCTTTTTTCCTTTTTCAGTGTGGCATCTAGAAAACTTTCAGTGAC
ACGTGTGGCTTGTGCTTGTGGTTTGCATTCTGTTTCTCTTAAGCAGCACTGCTTTAGAGCCTGCCAGGCTGCCTGGGTTCAGGTCCCAGCTGTGTCGTGT
TAGTGAACCCCAGAGTGGTTGAACCCCTCTGGCCTGTAGTTTCCTCATCTGTAAAATATGCACAGGGTTGTGATAGGGCTAAATGAGATATGAARTGTAT
TAAGAGGTTCTGGCTCATTGTTAAGCACTCAATAAAAGGTAGCTGCTGTTATTATTTTTATTATAATCCAAAGATTTGGCTATTTGGAAGCTAATTTTKC
AGGAGTCTTGTGTAGGGCTGCTGAGGAGGTATAGGACAGGAGAACGGGAGTCTAGCTGCCACAGGGAAGCTGTATTTTTAGTCCTTCCTAGAAATGGTGT
TGGGATAGGCACTCTCAGAGCCCTTGAGAAGTGGGTGAGCAAGGGGACATGGCAGCAGCCTGTGCTGAGGGTCCTTGGACCTCATGCTAGGATTACCAGC
CCAGAGGGACGCTTCATACCGCTACACCTGGGATCGGAGTCTGTTTCTGATCTACCGACRCAAGGAGCTGCAGAGAATCATGGAAGAGCTGGATTTCAGC
CAGCAGGTTGGTATGGCCTCCATGCCCCAGTCAGAAGCCCCTTGGGGCGATGCCTGTCTTCAGTCAGCTCATCTTACCTTTCTCCATCTCTCGGAGGATA
TTGATGGCCTGGAGGTGGTGGGCAAAGGGTGGCCCTTCTCGGCTGTTACTGTGGAAGACTACACAGTGTTTGAAAGAAGTCAGGGAAGCTCCTCTGAAGA
CACARCATACTTGTGAGTGCAGCCTGAACCCTGGGGAGAGAGGCTGAAGAGTTCTCCAGCACCTACCAGTATTAAAGAGCGGGCTTCCCTCCCTGAGATC
AGGGTGCCTCTAGCCTAGCTTCTGTCCAGTGGTTGCCACCCACTCCTTGAACCCATTCCAGCACCTGTGCTGGCTTTCCTATTGCCATCTGCTCCTTTCC
AATAACCAACTCCTAATGGGGATTTCCCAGACATTCCCTTGCTGGTCAACTGAGGGCTCTCTAGACCCTCCCACTGCTATGCATCTTGAATGCCTCTGGC
ATGGAGAGTCTATGTATTTCTGTGTACTGTGAGTGGCTCTGGCAAGAGGGCTTAAAGAGTCTGTGTGTTTCTAAGAATCTCCCATCTACAGCAATGGGTC
AGGAGGAAGCTGCGCGGGAGTGGAGYTGATCATACTCCATTGCAGGGTAGAGCTGGTTGTGTTTCTAGGCTTCCTGGTGACCGTTTCTGTGGGGTTCCAC
ATGGCATGACTGTGGCAGCCTAAGAGAAAATAAGTCATTGGCTTTTCTTACAGAGGCACATTGGCCAGTTCCTCTGATGTCTCCATGCCTATTCTCGGCC
CTTCTCTGCTGTTCTGTGGGAAGCCAGCTTGCTGGATCAGAGGCAGTAATCCACAGGACAAGGTAAAACWGCCTCCACCACACCTGCTGGGAGAGCCTCC
CTCAGGGGTGCAGCCCTGAGGTGACTGGCAGTTACCAGCAGCCTGCACAGTCTCCTGTTTGGGTTTTTATCTGGTCGTGCATTCAGCACGTCTGAAAATG
GTGACAGCAACACTGACTTGAGCAAGAATAAAATCACAAGGCTGCGAGTGTCATAAGCCACTTGGGGCTTATACCYAGCCCCCAAGCATGTAAACAAGCA
AACTCAAGTAGGTATGGCTCTAAGAAGGTTCCAAAATATTCTTCAGATGCTAAGGAATAGAAGTGTTCATTGGATATAAAATATATTTTATCTGGCCAGG
CGCAGAGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGACGTGGGTGGATCACCTGACATCAGGAGTTCAAGACCAGCCCTGGCCAGCATGGTGAA
ACCYCATCTCTACTAAAAATACAAAATAGCAGGGCGTGGTGGTGGGCACCTGTAATCCCTGCTACTTGGAAAGCTGAGGCAGGAGAATCGCTTGAACCCG
GGAGGCGGGGGTTGCAGTGAGCTGAGATCACGCCATTGCACTCCAACCTAGGTGACAAGAGCGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAA
AAAWATATATATATATATATATATATATATATAWGTTTTATCTTCTCTTCTTGCTATTGAGGGTAACCTCAGAGACAACCACGCTGGAGTAGGATACCAC
TCTGTGTGACAGTGGCCAAGCCCTGGAGGCCTGGGACACGAGACTTGCAGTGCTAAAGCCAGAAAAGTCCTGGGCAGACCAGATGAGTTGTTCACTCTAG
GCCAGGGTTTGCAGCAAAGACATTTCTTGTCCCTCCTCCTTCCAGAGGCAGGTTGGGATTGCTGCTCACTTGACCTTTGAAACCCTAGAAGGCGAGAAAA
CCTCCTCAGAACTGACTGTGGTCAATAATGGCACCGTGGCCATTTGGTATGACTGGCGACGGCAGCACCAGCCGGACACTTTCCAAGACCTTAAGAAAAA
CAGGATGCAGCGATTTTACTTTGACAACCGGGAAGGTACTCGGGAGAAGCCACCCTATGTGCTAGCTCCTGTCTGGGGCTGGTTTTGTCCTCCGTGAGAC
ATCAAAGTTTAGTTATGGCCCAGCTCCTGTAAGTTTGAGCCCTGCTTCCCTGCCTTGTCCCTCTCATTCCTTCTGTGAAATGTGTGGCCTGACTACTCAT
GTCTGTTGAGAGACTGATGGAACTTGAGAACCTGGGGAGGTGAGCCACCAGGGAGCAGAAGCGTTCTAGGGGCTCAGTTATCTAGGTGCACAGGCCTGGG
GCTAGGATRGCCAGCTGTCTCTGTTTGCCTGGGACTTTAGCACTCAAATTCCCACATTCCAGGAAACCTCTCAGCCCTGGGCAAACTGGGATGGTTGGCC
AGCCACCTGGCCTGGGACTCAGTTAACTGCATGTAGGAGCATGTAGGCCTGGGGCTCAGCCAGCTCCTGCATGTTGAAAACCTCGGGTCTCTGTCCCTCT
CAGGTGTGATTCTGCCTGGAGAAATTAAAACATTTACCTTCTTCTTCAAGTCTTTGACTGCTGGGGTCTTCAGGGAATTTTGGGAGTTTCGAACCCATCC
TACTCTATTAGGAGGTGCTATACTGCAGGTCAATCTCCACGCGGTCTCCCTGACCCAGGACGTTTTTGAGGATGAGAGGAAAGTACTGGAGGTAAGGGAC
CCAGGACCATGKCCCCTGTGGACATCAGGTAGGGTATCCTGGTGTTCTTCCTGGCAGTGACTGAAGGGATCATATTTCTCCCAGCCTAAGAGGAGAATTG
GATTTTTAGCAAACAGGTAACTACTCTTGCTCCACAAACACTTCCCAGGGCTTGTGATTTAAAAGATGGGTGCRCTGGCTAGGCAGGCATGGAGCAGCTT
GCAGCAATGCCATGCATGGCCCCACTSAGTTAGAAAGAAATTAGACTGAGCCTTAAGAGGCAGACTGTAAAGTACAATGTGTGGCCCTATGTACTGGTCT
GTGTTTTGTTCATCGCTGTCTGGTACTACACAGTGGAGTTGCATTTAAGCGACAAGACTTCAAAACCAGGGAGAATAATTAATTAATACATAGCAGCATG
AGTCTGCCCACCGTCCCACTCAATCAGCTGACAACTCGAGTGAGTGTGAGGTGGGAGCTTGGAATCTGTCGTCCGCAGTSAGTTTCACAGTGTGGCCATT
TGAGCCGTGCATCCTGGGATTTGGTGGAAAGCTGTGCTTTTTTATTCATTGTGGCCCCCAATCACAAGGCCGGCTCCTTCATGTGGGGCTCAGCCAGTGG
TGATCAAAGGTAATTTTGACAATGTCATGCTTGCTTTACTCATTGACTGTACAACCCATGTCTCACACAAGGCGCCCCTCCCGTGTTTCTGTGACACTCA
CTGAAGCCTGATGAAGGTTCACCACCATCCTCAGAAGCACCCCCACTATGTGCCCTGCCCCTTCTTCCTAATCTGGTGACATGCTAACTGTGTGACCACC
AGGCCCCAGGCAGCAGCAGCTGTCACTGGAACTGGCCCTCCTCTGGATCCTTTTCATCCATTTTTAGGGAACAAGGATGTCTGGAGAGACTCAGAGGTTT
TCAGGTCTTAGAACAGGCGTGTGTGTGTGTGTGTGTGTGTGTGWGWGWGWGAGAGAGAGAGAGAGAGAGAGAGACAATGGCAGGAACTCAGACCCTAGGA
AGGCACAAAGTCCTGGGGGCTCCAACTTCCTGAAGGATGCATTGGTTTTGATAGCCTGGGCTGCCATCCTCTGCCACCTTCCCTTTTGCAGAGCAAGCTG
ACTGCCCATGAGGCAGTCACCGTCGTTCGCGAAGTGCTGCAGGAGCTGCTGATGGGGGTCTTGACCCCGGAGCGCACACCATCACCTGTGGATGCCTATC
TCACCGAGGAAGACTTGTTCCGGCACAGAAATCCTCCGGTGAGGCCCAGCGCCAGCCCCTGCCCCMTCATGTGTGCCCTGCGTCAAGGGTCCCCAACCCG
CAGGCCGCACAGCGGCAGGTGAGCAGTGGGTGAGCCAGCATTACTGCCTGAGCTCTGCCTCCTGTCAGATCAGCGGTGGCATTAGATTCTCATAGGAGCA
CGAATCCCATTGTGAACTGCGCATGCGAGGGATGGAAATTGTACACTCCTTATGAGAATCTAACTAATGCCTGATGATCTRAGGTGGAAGTTTCATCCTG
AAACCATTCCCCAACTCCCTGCCATCCGTGGAAAAATTGTCTTCCACGAAACCAGTCCCTGGTGCCAAAAAGGTTGGGGACTGCTGCCCTAGGTGACAGT
AATAGCAAACTCTTTTATGTGCCAAGCTCTGTTCTGCGCATCTTCCATGAGTAACTCACCTCTCTTCACAGCAGTCCTATGAGATGGGTACTAYTTATTT
TTGTTTATTTTTTTAAGAAATAGCGTGTCATACTGTCACACTCCAGGCCAGAGTACAGTGTCCCACTCATAGCTCATTGTGACCTCAAACTCCCCGGCTC
AGGTGATCCTCCCACCTCAGCCTCCTAAGTAGCTAGGACTACAGGCATACATCACCATGCTCAGCTAATTTCTCTCTTTTTTTTTTTTTTTTTTTTTGGT
AGAGATAGGATCACTCTATGTCATACAGGCCGGTCTTGAACTCCTGAGTTCAAGTGATCTTCCTACCGTGGCTTCCCAAAGCACTGGGATTGCAGGCTTG
AGCCACTGTGCCTGGCCCTTGTACTATTTATGTCCTTATTTACATTGAAGAAACTGGGGCCTGCACCCCAGCCTCCCCCTCACATGCCTTCCCATCCTCT
GCTGCAGCTGCATTATGAGCACCAAGTGGTGCAAAGCCTGCACCAACTGTGGCGCCAGTACATGACCCTGCCCGCCAAGGCTGAGGAGGCCAGGCCAGGG
GACAAGGAGCACGTCAGCCCCATAGCCACAGAGAAGGCCTCTGTGAATGCTGAGCTGTTACCACGCTTTAGGAGCCCCATCTCCGAAACTCAAGTGCCCC
GGCCTGAGAACGAGGCCCTCAGGGAATCCGGGTCCCAGAAGGCCAGAGTGGGGACCAAGAGTCCTCAGTGGAAGAGCATCATGGAGGAGATCCTGGTGGA
GGAAAGCCCAGATGTGGACAGCACCAAGAGCCCCTGGGAGCCGGATGGCCTTCCCCTGCTGGAGTGGAACCTCTGCTTGGAGGACTTCAGAAAGGTGCTT
CCAAGACCCTGGAAGGCAATGGTAGAGAATATTCCTGCCTCGAACCAACAAGGGAGGACCCAGCAGCCCCTCTTGCTCTATGGGCAAAGAAACAAAACCT
GAGAGCCCAGAGAAAGTGATCTCTTGGGTTATCTATCTATCTATTTATTTATTTATTTATTTATTTATTTATTTTTGAGACGAAGTTTTGCTCTTGTTGC
CCAGGTGGGAGTGCAATAGCACAATCTCGGCCCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGCAGCTGAGATTAC
TGGCATGTGCCACCACACCTGGCTAATTTTTTTTTTGATGGAATCTTGCTGTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATTTTGGCTCACTGCAACCT
CTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTTCCCAAGCAGCTGGGACTACAGGCATGCGCCACCACATCCAGCTAGTTTTTGTATTTTTGTA
GAGACGGGGTTTCGCTATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGTGTTACAGGCGTGAGC
CACCACGCCAGGCCAATTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAAGCTGGTCTCGAACACCTGACCTCAGGTGATCCRCCCGCCTC
AGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGTGCCCAGCTGGGTTACCTGTTTTTGTCTGGGGTGCCCAAGCTGCTATATTCCAGGAGGGGG
GCCTACTCTCTGACCCTGGCAAATCTTGGAGAAGGGGTTCATAGGTACAGATTTCTGAGGGGGGTCCCTGGCTCCCACCAAAGGCACCCAGACAGCTCTC
CATAGCTGCATCCCCTCCTGGTTCCTGGTCCCCTGCCACCCATCCCCACATCACCATGCCCTTCACTAGAGGACACAGCCTTGGTGTCCTGGTGCAGAAT
GGTGCCCATGACCCTGCCAGGCAGTGATGGTGCTCCCTGATGAGAACCACAGAGAGGATGCGTTGATGAGGCTCAACAAAGCAGCCCTGGAGCTGTGCCA
GAAGCCAAGGCCATTGCAGTCCAACCTCCTGCACCAGATGTGGTAGGTGCCCTGCCAGGAGAGCTGCCCCATCTCCTTCCCTTTGTGGCATCTGCAGGGG
TCCTGGGCAGGCAGTCCTGGGACTCCAGGGGTCTGAGCTTCCGTTGAGCTCAGGTTGCTAGAGCATGCCGCAAACATTCCACGTTCTGGAACCCTGCAGT
GCCTACTGCTCACTGGAGAGCAGTCACAGCAGATCAAACACCTTATCTTTTTTTTCTTCCCCTTTTTGCCTTGTTCCTTCTCAGTGAGCAGGGGAATGGA
AAAAGGAGAAGCCAGAGGGCAGGAAGAAGASGGGGGGCAGATTCCAATAAAAGCTTCATTTCTCTGTTGTCACCCTCCCCTGTACCTGTTTGGAACTTGC
TTGTATAGGCGTGGGGTCCTTTTCAAGGCCCTCAGGACAAGCCCCAGGAGCCTTATGCTGGAAGTCTCATGCAAGGTTCAGCCCCTCCAGTGCGACTGGA
CCCAAGTCTGGCCCTGGCCTCAAGCCCTCTGAAGTAGGACTGAATTCATGCAGGCCTCSTAACCCTAGTCCTGGGCCATTTTTTTCTTGGTTGCCACCCA
AGGCAAGCCAGAACCCCCTCCAAGCACTTGCCCTGGCGGGGAACAGTGAGGATGCTGGCTGTTCAGGGGTGTGGCATTTCCACAGCAGCTCRTGGCACCA
GGGTCTTTGAAGGGAGGGACCCAAGCCTCTGCAGGTTCAAGGACAAATGAGGAGTGATGGCATTTCTCCACTGTGTCTTGCCCTCTAGTTTGCAGCTGTG
GCGAGATGTGATTGACAGCCTGGTGGGCCATTCCATGTGGCTGAGGTCTGTGCTGGGCCTGCCTGAGAAGGAGACCATCTATTTGAATGTGCCTGAAGAG
CAAGGTCAGATCTTGTGCAACCAACCACACCTCTGCATAGCCCTCCTCATCTCTCTGAATGGACAAGCAGCAGTGCCTGGGCCAGTCATACTCCTTTGGT
GGAAGCTCTGCTAGGTTGAGCCCATGGAGTAGGCCCCTTACCCCTTTCTGTCSGCTGCCAGGATGTGGTACCCAGAAGCTACCTTAGTGACCACCTTGST
TTAGTAATCCCAGCAAAGTTAAATGACTTATCCATGGCCATTCATGGCATGGCAGAGCTGGGACCAGAACATAGGCACCACAGTCCTGTTTCATGAAGCC
ACGCGCCTACCAGGGCTCAAGGCTATTGCCCTTTGCTTTTCCACCTCCCCTCAAGCCTCCTCACGTACCTGCAGCATCCACTAGGCTGTTGGGGGCCTGC
CATATTTTCTTCCACCCACCTCCCTTAGATCAAAAATCACCTCCTATCATGGAAGTGAAGGTACCTGTGGGGAAAGCTGGGAAGGAGGAGCGGAAAGGAG
CAGCCCAGGAAAAGAAGCAACTGGGGATCAAAGACAAAGAAGACAAGAAAGGAGCCAAGCTGCTCGRGAAAGAGGCATGCTGGGGCGTGGTCTGGGCCAG
GTGGGGCTGGGGAGGGGATTGGAGGGGCTGCGGAGGTGGGGGCTGTGGAGGTGGGCATGTGCCCAGGCTCTCCCAGTGAGCTACTRTTGAGGACATCCTT
GGCCTACCTCTGGAGCTCCTGAAGGCTATGTGTGTCTCCCTCCCCCAGCAGGACCGTCCCAACAGCAAGAAGCACAAGGCAAAGGATGACAAGAAAGTCA
TAAAATCTGCAAGTCAGGACAGGTTTTCTTTGGAAGACCCTACCCCTGACATCATCCTCTCTTCTCAAGAACCCATAGACCCCCTGGTCATGGGGAAATA
CACCCAGAGSCTGCACAGTGAGGTGAAGGGAAGYGCCCAGCAGCCATTCCCCTGCCTCCCACCTGCCTTAYTCATTCCRTTCAGTCTGCAGACAATAAGT
GCCCACTCCATCATGGTGGAAGCAGAGCTGCTTCAGGAAGGGCATCCTCGTGTGTGAGACAGGCCTCATGAATAAGGAATGCGCCTAGCATGTTAGGTGA
TGAGTACAATGGGAGAGAAGATAGACCAGGCAGGGAATGGAGGCACAGAGGCCTCAGTGAGGAGGTGACAACCCACAAAGATTTGAAGGGAGGGGAAGGG
TGGCCAAGTAGACGTCCAGTAAAGAGTGCTCCAGGCATGGGGAGCAACTGCCATAGGAGGGAGGGGCCAGAAGGGAGAGGGCAGTAGTGGGGAGCAGGTC
ATAGGGGTGGGGGATGGTTTGCAGGCTATTGTGAAGACTTGGGATTTTTCGGAGTGAAATGAGAAGTCACGCAAGGTTTTGAATAGAAACGCAATAGGGT
CTGATAGGCTTTAGAAGGTGGCTCTGGCCGCCCTTTGGAGAACAGACTCTAGGGGAACAGAGAGGAAGGAAGCCCTTCTCTTTCTTACTCCCCGTTAGGT
GCATCCTGGCAGATGCGTTCCTTGGGAGAACACCATGCAGGGTGCATTCCCATCAACTGTAAGAGTTTGAAGGACTAGAGAGACTTCATCCTAATCCGTT
CTTAAGTAGCAGGTCCTTAGAAATTCACCCAGGTTTTCCGTTTTGTTTGTTACTGTTGTTGTTTGTTTTGGAGGGGAGGTCCACAAAGCCATTTTCAATA
TGTCAGTATGTCTATTGGCGACGTCTTGCCTTCCTCTAATGTGGATAGCTGGGGAGCTGGGATTACATCATGTATTGTGGTCACACTCTGGATCTCATTT
GATCAAAAGTTCCATTTGCCACTGGTGACATCACTAAGATATCAGATGGTTGATGGGGTCTAGAAAGTAATTAAAGGGCTCTGAGGACCCATGGGGGTCA
ACGTCAACCCTTCCATGGCTCTTTGATATTAAGAATCAACTTGCAGACCAGGTGCGGTGGCTCGTGCCTGTAATCCCAGCACTTTGRGAGGCCAAGGTGG
GCAGATTGCCTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATGGTAAGATCCCGTTTCTACTAAAAATTCAAAAAATTAGCCAGGCATGGTGACACT
CACCTGTAGTCCCAGCTACTTGGGTGGCTGAGGCACAATAATCGCTTGAACCCGGGAAGTGGAGGTTGCAGTGAGCCGAGATCACGCCATTTCACTCCAG
CTTGGGTGACAAGAGTGAGACTCTTACCTCCAAAAAAAAAAAAAAAAAAAAAAAAGAATCAACTTGCTGGCCAGTGGCTCACACCTGTAATCCTAGCACG
TTGGAAGGCTGAGGCAGGTGGATTGCTTGAGCCCAGGAGTTCGACATCAGCCTAGACAACACAGGGAGACCCCATCTCTGCAGAAAAAAAAAAGAATCAA
CTTGTCTGGGCTTGTATGATCCAACCCCATTGGAGGGGTCAGTCCCAGAGACCTTTCAGTCTGTGGATACAGGAAGGAAAATTGGCCTCCAGGAGGCCAG
AGTAGAACTGGGGCTGAGCCCAGGCCCACCCCAAACGGCTAAATGGGCACCGCTCCATGGGCTCCCTGGAGTTGCCCCTTGAACAACTTAGCTCTAGTAT
CTCCATATGTCAAAGGTACCAGCGCAGGGCCACCTCCCCAGACTGGTTTGAAAAGTAAAACTGCAAAAGCAGGTGGATTGCTTGAGCCCAGGAGTTCGAG
ACTAGCCTGGGCAATGTGGTGAAACCCYATCTCTACAAAAAATAGAAAAAAGTAGCCAGGTCTGGTGGTGCACGCCTGTAGTCCCAGCTACTTGGGAGGC
TGAGATGGGAGAATCACCTGAGCCAGGGAAGTCAAGGCTGCAGTGAGCCATGATCACACCACTGGACTCCAGCCTGGGTGACAGAGTGAGATCCTGTCAA
AAAAAAAAAAAAATCTGCAAAACCAAAAATTATTTCACAAGAACTTTGAACTTGTGAAATTCTTTCACAAACAACTGGTTTCTTTCCCCTCTCCAGCTAT
TCTCTCACAGCATAGTTCATATATAGGTGCTTCCCACAGAGTAAACTCTGCCTGTGATGTTGTCCCGTTCTTCCAGGTCCGTGGGCTGCTGGACACCCTG
GTGACYGACCTGATGGTCCTGGCTGATGAGCTCAGCCCCATAAAGAATGTCGAGGAGGCTTTGCGCCTCTGCAGGTGACTCTCGGGCCCAAGCAACCTTC
TGGAAAAYGGGTTAATAAATAAATCAATAAAGAACCTTCAAGTTTCTACTACTTCCGTGTGCCTCTGTGTCTTGCATGATGGATCTTGGCTAGGTCAGCT
CCTGATCCAGGTCCTCCCATGTTCCACCTGCCCTCAGATTCCCTCCTGCCAGCTGCCAGAGCCCTCCTGCAGGAGGACAGACAGACATAGCTGGGGAAGT
GATGTGTGGGATGCCAAGCAGAGGAGCAGGTTGGTAGCAAGACAAGGAGTCAGGTGACAGGACAGTGTGTCACCTCTGGTAGTCCCTGCCTCTGGCTTCC
TTGGCCCACACTTTCAGGGTCGTGCTTCCTGGAGCCAGGTCTTCCCGAAGTGTCATCACCAAGTATGACAAAGTGTGAGATAAGGAGTAGAACTAGACCC
ATGGGACCTGGCTCCCTGCCATCTCCCCTCTTCAGCTGGGTCCCAGGGCCCCAATTCAGTCCCTGAAGATCATGCTCACCACACCTCTTCAGCTCTAGAG
GCCACATCACCTTGTTATTTCGGGGTCTAGTCTGCCTTATCCCCCTCCTCATCTCAAACTATCTGGCCTTGAGCCATCTTTCTGCCTTAAAAACAGCTGC
TGATCTTCATGCTACCTCCCTTGCTCAGGGGAACATGAAACAGGCTAGAAATGGCTCTCAGAAAAAAAGGTATTGTCAGCTCAAACTCAGGCCCCTCATT
GTCTTCTGTCAGTCATAACCATTTGGGGCTGGGCTCCCTGTGTGAACAGCACTCCAGGCTCCCAGAGTTTGAAGAACAACTTTGGTTTTTGGGTGGGTGG
GCATCCTTAAGTGGGCCTCAGGCATCCTCCAGCTGAGATGCAGGAGGGGGAGGATGGACAGAAGGATCTGACTCCGTGTGGGAAAGGCAGGGAGGGGGCT
GTGCTGGAGTCCTGATGCTCTCCTCCCCAAGAAGACGAGAAGACGGGGGCTCCACCAAAGAGCCAGCCCCAGGGAATATCCCTGCCCTCTCCTTTAATGT
CCTCCCGGCCCAGAGGAGGAAGGGGAGGGGTGTGGTGGGGGTGTTGGAGCCCCCCTCCTTTCCTGTTGAAGAGGCAGGGGAAGGGTTAACTCAAAGCAGA
GGGGATCAGGTCGCCAGCACTGGCTCCAGATGTGCACTTCCTGGGGGCGGCCAACAGGCAGGCCCCCCACCTCTCAATGCACCACTTGCCTGGCCAGCAG
GAAGGGGTTAACCTGCCCTGCGCTTCCTCCTGTGTCCTGTTACTGCTGAGGCAGACCTGCCGGGCCAGCTGAGCAACTTTCCTCGGAGTGCTGCCTGGCG
CTGGCTAGGAGGCAAACGCACGCGGGAAGAGCTGCTACCCATTCCAGGGACCCTGCCGCTGCCCCTCTGAGGGGTCTGCACCTCCTGGGAGCAGGTGGGT
CTCTGGGACGAGGGTCCATGGTGGATGGCTCTGGAGACGCTCCCGAGGCTGTGCCGTCCCSCTGCTGCACAGGTCGGAGGGTCACCGCAGAGGCTACTCG
GGCTGGGGCTGGGGCCGAGGGAGCCCGCACTGGAGGTAAGCTTCCTCCYTGGCCCCCTCCCTGGCAGTGGCGGCATGGAAGGCGGGGGTTGGTGGGGAGC
AAACAGTGGTTCTGGGGCTTAGTCTCTTTTCCAGGTGCGAGGGAGAAGGCTGAGCTGTAGAGGACCTAAAGGCTTCTTTCCTGCCACCCCTCCCTCCCTG
CCGCCCCCAAAAAGGGACTCAGGGCCCCCTCCCCAACCATCCTGGGACTTAGCATCTTTGGTGGCATCTTAGCATCTTTGGTGGCATTCCCCACAGACTC
CTTCTGCACATCTCTGCTGTTTCCTCTTCTTCAGCCCCTCATGCACACCTCTAGCCTCAGGGCAGTCCCCCCTCCCCCATCTTCTGTGCTCCCGGGATGC
AGCTATTACAGTGGCCAGAAGCTTAGAGTTCAAGCTCACCCCCTGTCCCTTACAGCATCAAGAAGGGCACTGTCATTCCCCACTGCTCAGGCTGGATCTG
ACTTGGAGGCAGGGGCTGGAGCCCACCTTAGCAGAGGACGGGAAGAGGGTGTGGGCTGGGCTGGTGGGTGCACAGACTTTACGCAAACTCATGCACGTGT
GACTGGACAGATCTGGGTTCTCTCCGTCTCTCCGAAACCCTTGCTGGGGATGAGCGATCTGCATTTTTCGGTCCTGACTTTTGGGAAACTCTCCAGATCC
CCCCATCCTGCAGGCCCTGAGAAGAGCAGCCCCTCCCTACTGCGCAGTTCTCCTTGGGACCCTGTATGCAGGAGAGAGCTGATACTCCGTGCCCCGTGGC
CCATCCCACCGCCTGCTGGCCCTGCTCCCATCCCCTCAGCTTCCTCCCTCCTCTGCCCTCTCTGTCATCTCTGAATTCTCAGGCCCTGCCCTCTCTGTGC
CCTTCCCTCCACCTGACAGGGTCTGGCTCAAGGTCACTGCAGTAATTCCATACCCAGCTGCCCAGGGCTGCTGCTGCTACCGCCACCGCCTTATCGGCCG
CTGGGTTTCTGTTACACTCCCTTTTATTTCTGGGCATATCGTGTTCGATAAAACCCTTTGCTTGTAACACTGCTGGCAGCGCTCCCAGCTGCTCCCTCCC
GCGTTCCCGCGTTCCTTCCTTTCCTCCTCCCTTCTCTGCGCTTGGGCAGGCTTCTTCCTTTCCTCCTCCCTTCTCTGCGCTTGGGCAGGCTTCTTCCTTT
CCTCCTCCCTTCTCTGTGCTTGGGCAGCCTCACCTTGTCCCCTCAAACTCCAGAGAAGGAAAATCAAGGTGCCTCCCCATGTTTCTGGCCCCGCCCTTCC
CCCCAGCCCCTGCAGGGGTGTGCAGAGAATGCCCACCTTCTGTGAGAAAGGTCCAGGCAGGGCCGCTGGGCCCACACCGAGAGTCCCCTCCCAGAGGCTG
GTGCCCCCACACAGGCCAGGCCGGAGGGCCAGGGCAGCCAGGTCCAGGTAGGGCTCTGGTGCAGTCACAGTGCCCGACTGGTTCTGCTAGTTCCAGCGGC
CAGCCGGTAGGGGCGTGTGCTGGGCGGGCTTTGGTGCACATTATTTCCCATCTTGACTCTGCCACCCCCAGCCACGGGTTGGGGAGGTGAAGGCAGGTCT
GAGTCACTAGCAAGGGGGAGGGCAGGAGTTAAACAAGTTGTGGCCGTGGCATTCCCACAGAAGGCCCACGACCCGCTGGAAGGAAAGAGATAGCARACAA
AAGGTAGGCTGCGCTGTGGGCCAGGCACTCTCCACCTCGCCCACTCCCACGGTATCTTATTCTCTGGGCCCCCAACAAAACCTGCCAAGGCATGTTTTCA
AAGCGTGGGGCTGCTTTGAACTGAGCCCAGCACTGGCGGGGCTGGGGTGGAAGGAGCGTGGAATCGGGTGCGAGAGGACAGTCTCCTTCAGATTCCTGCT
TCTGGCAGCCTGGGGACCAGTTGGGGCACGGGCTGGGATGGAGGGTGGAGCCGAAAGGTGTTTGGTGGGTGGGGGACAGTTCACGGGTGAAGTGGAGGCT
CTGCAGGCCCAGACAGTGTGTGTGTGCATGCACACACCAGTGCTAGTGTGGGAGGAATGGTGGTGGTCAGGGAATTCCTCTTTTGGTTTCTGAAAGGGCC
TTTGGGAGGACCTTGGGCCTGGAGTTGTATTCAGCAGATAGCCTGGACCTGTGGCTACTGGGGGGAATTGGGCTGGCCCAGCTCTTCTCCCTGCTGGGGT
ACCAGAGGTCCACTATGTGTCCAGCGTTTTGGGGCTTTGGAGAACCCAGACTGTTCCTACTCTCAGGGAGCTTCCATTCTAGCTGAGAAGGTGGGACTGA
GACAGTAAAGCAATCCGATGAAATAATGACCAAACTGGGTAACACTGACAATAAGAATTGGATTAGTCTTCTGGAGTCCTGGATGGTAGTCCAGGCTCTG
CCACTTACGTGCCATATGATGCAGGCAGGTCCCATCCCCTCTCTGGCCTCAACACTTCCATGTGTACGTGGGGGTGGCATGCAGGAGTGTTGGCAGTGGC
CAGAACTCTGAGGGGCAGTCTTCCTCAAACGATACTTGCTCTCTTGCCTTCTGGCCCAGGTCATAGCATTTCTTCTGAGCCGCCCTCCCCTGACTTGCTG
GTTCACTCCTCCTTACTCTTCCCTTGTGATCTTGGATCTCAGCTCTGTCACCACCTCCTCTAGGAAGTCTCCCCTGATTTTCCTGGCTTGGGTCTTCCTG
TGCGGCTCTGCACTCCCACACTGGACTGTGATTTTCTGTACCCTCTCAACTGAACGTGGGTGGACCAAGGCGTGTGTTCTGTGCCTGGCATGGTGCCTGG
CTCAGAAAAGGCCTCCGGGAAATAGGTGTTGAATGCATCAAACTACAAAAATTAACAATATGAGAAAAGTGAGCTGAGGAGCTAGGAAGGATAGGTCTTA
AGCTAGATCTCAGCAGAAACAGAGGCAGTGGCCGAGCAGAAGCAAGGCAAGCGGGCATTCCTGGAATCCTGTTAGCGTTCCCCCATGAGGCCATGCACTC
TTAGGTGGGGCTTCCTGGGGTCATCTTGGTTCCCCATGCAGCAGCTCTGTGATCTCGGACAAGTCACTTAATATTACAGGGTCTCGCTCTGTTGCCCAGT
GGCCTGACCATGGCTCACTGCAGCCTCCAACTACTGGCCTCAAGTGATCCTCTTGCCTTGGCCTCCTGAAGTCCTGGAATTACAGGCGTGAGCCACTGCA
CCGGGCCCATTTAATACTCTGAGCCCCACCTTTCCCATCTGTGGATGGAGGTAATGATAATAGCATCTTTGGGGTGTGGCTGTGAAGATAGATAGATGAG
CATGCAAAGCTCCAAGTGCCTGCTGAATTGTAAGTGAAATAAGAACGTGTGCCGCTGAAGGCTGTCCCTGGAGGCAGGGACACTCTGGCCAGGCCTCATT
TAGTTGGTCAGTGGCTGAGTGACCCATGAGGTAGGCCTCTGCCCCTGAGTTCCTGGCCCTCTCTTCCTCAGCCCCATGTGGAACCCAAGGATGCAGCTGC
TCTGCTAACACGGCAGCCCATCCTTCRAGACTGTGACCTCGCCACAGTGGCCCTCAGCCCTCCACCTCCGGCGGGGGCGAGGGCCACCCACCTCCAAGTC
TCCAGCCATGACGACCTCCGCACTCCGGCGCCAGGTGAAGAACATCGTGCACAACTACTCCGAGGCAGAAATCAAGGTGCGCGAGGCCACCAGCAATGAC
CCCTGGGGCCCCCCTAGTTCGCTCATGTCCGAGATCGCTGACCTGACCTTCAACACAGTGGCCTTCACCGAAGTCATGGGCATGCTGTGGCGGCGGCTCA
ATGACAGCGGCAAGAACTGGCGGCACGTGTACAAGGCTCTAACATTGCTGGACTACCTGCTCAAGACGGGCTCCGAGCGGGTGGCCCACCAGTGCCGCGA
GAACCTCTACACCATCCAGACACTCAAGGACTTCCAGTACATCGACCGCGACGGCAAGGACCAGGGCRTCAACGTGCGCGAGAAGGTCAAGCAGGTGATG
GCCCTGCTCAAGGATGAGGAGCGGCTGCGGCAGGAGCGAACCCACGCCCTCAAGACCAAGRAGCGCATGGCACTGGAGGGCATCGGCATTGGCAGTGGGC
AGCTGGGCTTCAGCCRCCGCTACGGCGAGGACTACAGCCGCTCCCGGGGCTCCCCGTCCTCCTACAACTGTGAGTAAGCCCCGGTGTGTGGCTGGGATGG
GGAGGTGGCCCGACTTCCATTCCTGGCTCTGCAATCCAAGCCATGGTTCATAATACCTACCTCCGAGGGGTGTTATGAAGATTCAGACATAAGGAATGTA
ACACGCAAGGCGCAACACCCGGCACATAGGAGGTGCTCAACAAGTTAGCTCAGATAATAACGTCGTTATAGATTCATTATCATTCGTTAGCTGCCTGATA
GGATGGCGCGATAGTGGAAGCATGGGTTTGGAGTCAGATAGCATTCTATATTCTGCTTCCTCCAAGCTGTGTGACCTGGGCAACCAGTTCTCTGAACCTC
AGTTTCCTCATCTGTACAGTGGGGATAAGCTCACCTACCTCCATTGTTTGATCTGAGAATGAAATGAGACCAGG


SNP Information

Context             (SEQ ID NO:26172):
ACCTGATGGTCCTGGCTGATGAGCTCAGCCCCATAAAGAATGTCGAGGAGGCTTTGCGCCTCTGCAGGTGACTCTCGGGCCCAAGCAACCTTCTGGAAAA
Y
GGGTTAATAAATAAATCAATAAAGAACCTTCAAGTTTCTACTACTTCCGTGTGCCTCTGTGTCTTGCATGATGGATCTTGGCTAGGTCAGCTCCTGATCC
Celera SNP ID:            hCV25928556
SNP Position Genomic:     29108
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:26173):
CTGTGCTGAGGGTCCTTGGACCTCATGCTAGGATTACCAGCCCAGAGGGACGCTTCATACCGCTACACCTGGGATCGGAGTCTGTTTCTGATCTACCGAC
R
CAAGGAGCTGCAGAGAATCATGGAAGAGCTGGATTTCAGCCAGCAGGTTGGTATGGCCTCCATGCCCCAGTCAGAAGCCCCTTGGGGCGATGCCTGTCTT
Celera SNP ID:            hCV25955376
SNP Position Genomic:     18760
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(G,40)   total(A,4|G,74)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26174):
GTGGGTTCTGGAGTCGACTGGAATACTTGGGAGATGAGATGACAGGTCTGGTCATGACCAAGACAAAAACTCAGCGTGGCCTCATGGAGCCCATCACTCA
Y
ATCAGGAAGCCCCACTCCATCCGGGTGGAGACAGGTGAGGCGCAGGGCTGTAAGCCAGCTAGCATCTTGTGCCTGGCCCGGAGGCAGGGTAGTGTGGAAG
Celera SNP ID:            hCV25930658
SNP Position Genomic:     17338
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,18)   caucasian(C,28|T,6)   total(C,48|T,24)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26175):
AAGACCCTACCCCTGACATCATCCTCTCTTCTCAAGAACCCATAGACCCCCTGGTCATGGGGAAATACACCCAGAGGCTGCACAGTGAGGTGAAGGGAAG
Y
GCCCAGCAGCCATTCCCCTGCCTCCCACCTGCCTTATTCATTCCATTCAGTCTGCAGACAATAAGTGCCCACTCCATCATGGTGGAAGCAGAGCTGCTTC
Celera SNP ID:            hCV25926058
SNP Position Genomic:     26834
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26176):
GGGCTCCGAGCGGGTGGCCCACCAGTGCCGCGAGAACCTCTACACCATCCAGACACTCAAGGACTTCCAGTACATCGACCGCGACGGCAAGGACCAGGGC
R
TCAACGTGCGCGAGAAGGTCAAGCAGGTGATGGCCCTGCTCAAGGATGAGGAGCGGCTGCGGCAGGAGCGAACCCACGCCCTCAAGACCAAGGAGCGCAT
Celera SNP ID:            hCV25982775
SNP Position Genomic:     34568
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,17)   total(A,1|G,17)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26177):
TGCCACCCAAGGCAAGCCAGAACCCCCTCCAAGCACTTGCCCTGGCGGGGAACAGTGAGGATGCTGGCTGTTCAGGGGTGTGGCATTTCCACAGCAGCTC
R
TGGCACCAGGGTCTTTGAAGGGAGGGACCCAAGCCTCTGCAGGTTCAAGGACAAATGAGGAGTGATGGCATTTCTCCACTGTGTCTTGCCCTCTAGTTTG
Celera SNP ID:            hCV7567950
SNP Position Genomic:     25692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26178):
GGTTGGGGGCAGGGCCTGAGGCAGCTCCTGCTCTCATACATTCTGAGAGCCAGTTTGACAATAGGCAACTACACAAAAAACCGAAATAATCCCAGAATGC
S
TCAGGGCTCCAGGGGAAGGCGAAAAAAGCGGGTGCGTTTATAAACTTAAAATAATCAGAGGCAGCATCTCCAAGGACTGTGAGAATGCCCCAAGTCAGGG
Celera SNP ID:            hCV1696911
SNP Position Genomic:     5458
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:26179):
CAAGTCAGGACAGGTTTTCTTTGGAAGACCCTACCCCTGACATCATCCTCTCTTCTCAAGAACCCATAGACCCCCTGGTCATGGGGAAATACACCCAGAG
S
CTGCACAGTGAGGTGAAGGGAAGCGCCCAGCAGCCATTCCCCTGCCTCCCACCTGCCTTATTCATTCCATTCAGTCTGCAGACAATAAGTGCCCACTCCA
Celera SNP ID:            hCV7567951
SNP Position Genomic:     26810
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,36)   caucasian(C,10|G,30)   total(C,12|G,66)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:26180):
CACAGCATAGTTCATATATAGGTGCTTCCCACAGAGTAAACTCTGCCTGTGATGTTGTCCCGTTCTTCCAGGTCCGTGGGCTGCTGGACACCCTGGTGAC
Y
GACCTGATGGTCCTGGCTGATGAGCTCAGCCCCATAAAGAATGTCGAGGAGGCTTTGCGCCTCTGCAGGTGACTCTCGGGCCCAAGCAACCTTCTGGAAA
Celera SNP ID:            hCV7567952
SNP Position Genomic:     29006
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,26|T,10)   total(C,59|T,11)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:26181):
TGAGGTAGGCCTCTGCCCCTGAGTTCCTGGCCCTCTCTTCCTCAGCCCCATGTGGAACCCAAGGATGCAGCTGCTCTGCTAACACGGCAGCCCATCCTTC
R
AGACTGTGACCTCGCCACAGTGGCCCTCAGCCCTCCACCTCCGGCGGGGGCGAGGGCCACCCACCTCCAAGTCTCCAGCCATGACGACCTCCGCACTCCG
Celera SNP ID:            hCV27516177
SNP Position Genomic:     34127
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,88|G,1389)   total(G,1389|A,88) 
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:26182):
CGTGGTCTGGGCCAGGTGGGGCTGGGGAGGGGATTGGAGGGGCTGCGGAGGTGGGGGCTGTGGAGGTGGGCATGTGCCCAGGCTCTCCCAGTGAGCTACT
R
TTGAGGACATCCTTGGCCTACCTCTGGAGCTCCTGAAGGCTATGTGTGTCTCCCTCCCCCAGCAGGACCGTCCCAACAGCAAGAAGCACAAGGCAAAGGA
Celera SNP ID:            hCV15964063
SNP Position Genomic:     26586
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,4)   caucasian(A,5|G,3)   total(A,29|G,7)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,62|A,685)   total(G,62|A,685) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26183):
GTGGGGAAAGCTGGGAAGGAGGAGCGGAAAGGAGCAGCCCAGGAAAAGAAGCAACTGGGGATCAAAGACAAAGAAGACAAGAAAGGAGCCAAGCTGCTCG
R
GAAAGAGGCATGCTGGGGCGTGGTCTGGGCCAGGTGGGGCTGGGGAGGGGATTGGAGGGGCTGCGGAGGTGGGGGCTGTGGAGGTGGGCATGTGCCCAGG
Celera SNP ID:            hCV15964064
SNP Position Genomic:     26467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:26184):
AGGCATCAGGACTCAGGGCCCACATGCCTCATTTCCCTCTGCTCTGTGCACTGTCTTGATTTTCCCTTCTCTGGAGACTGGCCTGCCCTCCTCAGTCCAC
R
TGGTGGAGGAAGGTGGCTTCCCACTGCTTCCTGGGCCACGGGAAGATTCTGTATCTTTCCAGCCTTCCCATCATGCAGTGCTTCACCTGTCTCTTCCCCT
Celera SNP ID:            hCV27492417
SNP Position Genomic:     15658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26185):
ACCCCCTGGTCATGGGGAAATACACCCAGAGGCTGCACAGTGAGGTGAAGGGAAGCGCCCAGCAGCCATTCCCCTGCCTCCCACCTGCCTTATTCATTCC
R
TTCAGTCTGCAGACAATAAGTGCCCACTCCATCATGGTGGAAGCAGAGCTGCTTCAGGAAGGGCATCCTCGTGTGTGAGACAGGCCTCATGAATAAGGAA
Celera SNP ID:            hCV25926534
SNP Position Genomic:     26879
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,30|G,10)   total(A,67|G,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26186):
ACTGTGAGTGGCTCTGGCAAGAGGGCTTAAAGAGTCTGTGTGTTTCTAAGAATCTCCCATCTACAGCAATGGGTCAGGAGGAAGCTGCGCGGGAGTGGAG
Y
TGATCATACTCCATTGCAGGGTAGAGCTGGTTGTGTTTCTAGGCTTCCTGGTGACCGTTTCTGTGGGGTTCCACATGGCATGACTGTGGCAGCCTAAGAG
Celera SNP ID:            hCV25954988
SNP Position Genomic:     19426
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,2|T,38)   total(C,2|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:26187):
TGGCCTGGAGGTGGTGGGCAAAGGGTGGCCCTTCTCGGCTGTTACTGTGGAAGACTACACAGTGTTTGAAAGAAGTCAGGGAAGCTCCTCTGAAGACACA
R
CATACTTGTGAGTGCAGCCTGAACCCTGGGGAGAGAGGCTGAAGAGTTCTCCAGCACCTACCAGTATTAAAGAGCGGGCTTCCCTCCCTGAGATCAGGGT
Celera SNP ID:            hCV7567928
SNP Position Genomic:     19005
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,29|G,9)   total(A,61|G,11)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:26188):
TGGATCCTTTTCATCCATTTTTAGGGAACAAGGATGTCTGGAGAGACTCAGAGGTTTTCAGGTCTTAGAACAGGCGTGTGTGTGTGTGTGTGTGTGTGTG
W
GTGAGAGAGAGAGAGAGAGAGAGAGAGAGACAATGGCAGGAACTCAGACCCTAGGAAGGCACAAAGTCCTGGGGGCTCCAACTTCCTGAAGGATGCATTG
Celera SNP ID:            hCV7567929
SNP Position Genomic:     22344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26189):
GAGGAGCGGCTGCGGCAGGAGCGAACCCACGCCCTCAAGACCAAGGAGCGCATGGCACTGGAGGGCATCGGCATTGGCAGTGGGCAGCTGGGCTTCAGCC
R
CCGCTACGGCGAGGACTACAGCCGCTCCCGGGGCTCCCCGTCCTCCTACAACTGTGAGTAAGCCCCGGTGTGTGGCTGGGATGGGGAGGTGGCCCGACTT
Celera SNP ID:            hCV25982282
SNP Position Genomic:     34716
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,2)   total(A,1|G,29)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26190):
CTTGGCCACCCTTCCCCTCCCTTCAAATCTTTGTGGGTTGTCACCTCCTCACTGAGGCCTCTGTGCCTCCATTCCCTGCCTGGTCTATCTTCTCTCCCAT
Y
GTACTCATCACCTAACATGCTAGGCGCATTCCTTATTCATGAGGCCTGTCTCACACACGAGGATGCCCTTCCTGAAGCAGCTCTGCTTCCACCATGATGG
Celera SNP ID:            hCV27880296
SNP Position Genomic:     8167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26191):
CTGGTAATCTGACTCACCTTTCCTTCCTTGCCAGAGCTGGGAGAACAGTGGGTTCTGGAGTCGACTGGAATACTTGGGAGATGAGATGACAGGTCTGGTC
R
TGACCAAGACAAAAACTCAGCGTGGCCTCATGGAGCCCATCACTCACATCAGGAAGCCCCACTCCATCCGGGTGGAGACAGGTGAGGCGCAGGGCTGTAA
Celera SNP ID:            hCV25930566
SNP Position Genomic:     17291
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,36)   total(A,73|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26192):
GGCGTGAGCCACCACGCCAGGCCAATTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAAGCTGGTCTCGAACACCTGACCTCAGGTGATCC
R
CCCGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGTGCCCAGCTGGGTTACCTGTTTTTGTCTGGGGTGCCCAAGCTGCTATATTCCA
Celera SNP ID:            hCV1696893
SNP Position Genomic:     24592
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26193):
TAATTAATACATAGCAGCATGAGTCTGCCCACCGTCCCACTCAATCAGCTGACAACTCGAGTGAGTGTGAGGTGGGAGCTTGGAATCTGTCGTCCGCAGT
S
AGTTTCACAGTGTGGCCATTTGAGCCGTGCATCCTGGGATTTGGTGGAAAGCTGTGCTTTTTTATTCATTGTGGCCCCCAATCACAAGGCCGGCTCCTTC
Celera SNP ID:            hCV1696894
SNP Position Genomic:     21880
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)      total(G,6|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26194):
GTGGAAGCTCTGCTAGGTTGAGCCCATGGAGTAGGCCCCTTACCCCTTTCTGTCGGCTGCCAGGATGTGGTACCCAGAAGCTACCTTAGTGACCACCTTG
S
TTTAGTAATCCCAGCAAAGTTAAATGACTTATCCATGGCCATTCATGGCATGGCAGAGCTGGGACCAGAACATAGGCACCACAGTCCTGTTTCATGAAGC
Celera SNP ID:            hCV29300285
SNP Position Genomic:     26099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26195):
TTGCTCCACAAACACTTCCCAGGGCTTGTGATTTAAAAGATGGGTGCACTGGCTAGGCAGGCATGGAGCAGCTTGCAGCAATGCCATGCATGGCCCCACT
S
AGTTAGAAAGAAATTAGACTGAGCCTTAAGAGGCAGACTGTAAAGTACAATGTGTGGCCCTATGTACTGGTCTGTGTTTTGTTCATCGCTGTCTGGTACT
Celera SNP ID:            hCV1696895
SNP Position Genomic:     21627
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   JBIC-allele(G,206|C,1283)   total(G,206|C,1283) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26196):
CTCTGAATGGACAAGCAGCAGTGCCTGGGCCAGTCATACTCCTTTGGTGGAAGCTCTGCTAGGTTGAGCCCATGGAGTAGGCCCCTTACCCCTTTCTGTC
S
GCTGCCAGGATGTGGTACCCAGAAGCTACCTTAGTGACCACCTTGCTTTAGTAATCCCAGCAAAGTTAAATGACTTATCCATGGCCATTCATGGCATGGC
Celera SNP ID:            hCV29300286
SNP Position Genomic:     26053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26197):
ATTTCTCCCAGCCTAAGAGGAGAATTGGATTTTTAGCAAACAGGTAACTACTCTTGCTCCACAAACACTTCCCAGGGCTTGTGATTTAAAAGATGGGTGC
R
CTGGCTAGGCAGGCATGGAGCAGCTTGCAGCAATGCCATGCATGGCCCCACTCAGTTAGAAAGAAATTAGACTGAGCCTTAAGAGGCAGACTGTAAAGTA
Celera SNP ID:            hCV1696896
SNP Position Genomic:     21574
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26198):
AGAGACTGATGGAACTTGAGAACCTGGGGAGGTGAGCCACCAGGGAGCAGAAGCGTTCTAGGGGCTCAGTTATCTAGGTGCACAGGCCTGGGGCTAGGAT
R
GCCAGCTGTCTCTGTTTGCCTGGGACTTTAGCACTCAAATTCCCACATTCCAGGAAACCTCTCAGCCCTGGGCAAACTGGGATGGTTGGCCAGCCACCTG
Celera SNP ID:            hCV1696897
SNP Position Genomic:     21009
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26199):
GACCCCCATTATTAAAAAAATAAAAGTCCAATGCTGTTTTATGACATACTATATATATATATGTATGTATTTTATATATATTATGTATATGTGTATATAT
R
TGTGTGTGTGTGTGTGTGTGTGTGTATATATATATATATATATATATATATATATATATATATGTATTTTGAGACAGGGCCTCGCTCTGTCACCCGGGAT
Celera SNP ID:            hCV15794214
SNP Position Genomic:     8057
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,13)      total(G,13|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26200):
AGACTGAGTGGAGCCTACACCCTAAAGAGAGAGGTTGAAGAGTCCCCCACCTTTTTTTCTGGTAGACCAGTGCAGTACCTGTACCAACCCACACCATCTG
K
CTGGGGGCAGGTAAAGATGACAACAGGGTGTCCAGAAAACACGGCAGTGGATGCTTCTGTTATGCAATCACGGCAGCAATGAATTCCCCAGAGGAAGCAT
Celera SNP ID:            hCV29300287
SNP Position Genomic:     17029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26201):
GTTGTACTTTTCAGCTGGCTGAGCGGATACCTACCTCACCCTGTCTGATGACCCTCATCTCTGCTGAAGGAGAGTCAAAGCAAAAAGCCCCAAAAGAAGA
S
AAGAGACCTCCCTGGGCCCCACCTCCTCAGCACAACTTTCTGAAAAACTGGCAGCGTAACACAGCCCTGCGGAAGAAGCAGCAGGAAGCCCTCAGCGGTG
Celera SNP ID:            hCV29300288
SNP Position Genomic:     16212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26202):
AGAGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGACGTGGGTGGATCACCTGACATCAGGAGTTCAAGACCAGCCCTGGCCAGCATGGTGAAACC
Y
CATCTCTACTAAAAATACAAAATAGCAGGGCGTGGTGGTGGGCACCTGTAATCCCTGCTACTTGGAAAGCTGAGGCAGGAGAATCGCTTGAACCCGGGAG
Celera SNP ID:            hCV1696898
SNP Position Genomic:     20104
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,9)   total(C,6|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26203):
GGATATTACTAAGTCACATATCTGTTACACAGGCATTTCCTTGACAGAACATATGGACAGAGCTGAAGAAACAGATCTGTCAGCCTTCAGGAACTCCACC
Y
AGAACTAGAACAGAAGAGATGGGTGGTGCTCTTCCTCCTGCCACCACAGGTGGAATTCTCCTTTGTTTTATTTCTTTTTAGCAACACATTCCTCGCCTTA
Celera SNP ID:            hCV27854676
SNP Position Genomic:     14796
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26204):
CTGGCATGTATCCCTAGAACCTAGCACAGTGCCTGGCATGTAGAAGCTGCTTAAACAATCTTTATTAAATGAATATGCAATAAATGGCCAGTGGTGAATG
Y
TCTGCTTCCCCCACAGAGATTCTGCACTTTAACCAGTGTCTTGTGAAACCCTGTGCCTTCACCCAGAAGCATGGATCAGTGCCAGCACTGGAGGAGGCTG
Celera SNP ID:            hCV29300289
SNP Position Genomic:     13022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26205):
CGTGCATTCAGCACGTCTGAAAATGGTGACAGCAACACTGACTTGAGCAAGAATAAAATCACAAGGCTGCGAGTGTCATAAGCCACTTGGGGCTTATACC
Y
AGCCCCCAAGCATGTAAACAAGCAAACTCAAGTAGGTATGGCTCTAAGAAGGTTCCAAAATATTCTTCAGATGCTAAGGAATAGAAGTGTTCATTGGATA
Celera SNP ID:            hCV1696899
SNP Position Genomic:     19876
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,7)   total(C,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26206):
ATCACCTGAGCCAGGGAAGTCAAGGCTGCAGTGAGCCATGATCACACCACTGGACTCCAGCCTGGGTGACAGAGTGAGATCCTGTCAAAAAAAAAAAAAA
A
TCTGCAAAACCAAAAATTATTTCACAAGAACTTTGAACTTGTGAAATTCTTTCACAAACAACTGGTTTCTTTCCCCTCTCCAGCTATTCTCTCACAGCAT
Celera SNP ID:            hCV11879286
SNP Position Genomic:     28813
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26207):
CTTTTCATCCATTTTTAGGGAACAAGGATGTCTGGAGAGACTCAGAGGTTTTCAGGTCTTAGAACAGGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAG
W
GAGAGAGAGAGAGAGAGAGAGAGACAATGGCAGGAACTCAGACCCTAGGAAGGCACAAAGTCCTGGGGGCTCCAACTTCCTGAAGGATGCATTGGTTTTG
Celera SNP ID:            hCV25923852
SNP Position Genomic:     22350
SNP Source:               Applera
Population(Allele,Count): african american(A,15|T,9)   caucasian(A,10|T,4)   total(A,25|T,13)
SNP Type:                 INTRON


Context             (SEQ ID NO:26208):
GGCCACCTCCCCAGACTGGTTTGAAAAGTAAAACTGCAAAAGCAGGTGGATTGCTTGAGCCCAGGAGTTCGAGACTAGCCTGGGCAATGTGGTGAAACCC
Y
ATCTCTACAAAAAATAGAAAAAAGTAGCCAGGTCTGGTGGTGCACGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGATGGGAGAATCACCTGAGCCAGGG
Celera SNP ID:            hCV11879288
SNP Position Genomic:     28628
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26209):
GCTCAGGTGATCCTCCCACCTCAGCCTCCTAAGTAGCTAGGACTACAGGCATACATCACCATGCTCAGCTAATTTCTCTCTTTTTTTTTTTTTTTTTTTT
T
GGTAGAGATAGGATCACTCTATGTCATACAGGCCGGTCTTGAACTCCTGAGTTCAAGTGATCTTCCTACCGTGGCTTCCCAAAGCACTGGGATTGCAGGC
Celera SNP ID:            hCV26977999
SNP Position Genomic:     23297
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,8)   total(-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26210):
ACCCATGGGGGTCAACGTCAACCCTTCCATGGCTCTTTGATATTAAGAATCAACTTGCAGACCAGGTGCGGTGGCTCGTGCCTGTAATCCCAGCACTTTG
R
GAGGCCAAGGTGGGCAGATTGCCTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATGGTAAGATCCCGTTTCTACTAAAAATTCAAAAAATTAGCCAG
Celera SNP ID:            hCV27935056
SNP Position Genomic:     27887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26211):
CTGTGCCGTCCCCCTGCTGCACAGGTCGGAGGGTCACCGCAGAGGCTACTCGGGCTGGGGCTGGGGCCGAGGGAGCCCGCACTGGAGGTAAGCTTCCTCC
Y
TGGCCCCCTCCCTGGCAGTGGCGGCATGGAAGGCGGGGGTTGGTGGGGAGCAAACAGTGGTTCTGGGGCTTAGTCTCTTTTCCAGGTGCGAGGGAGAAGG
Celera SNP ID:            hCV27848765
SNP Position Genomic:     30649
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,36)   total(C,68|T,2)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:26212):
TACTTGGCCACCCTTCCCCTCCCTTCAAATCTTTGTGGGTTGTCACCTCCTCACTGAGGCCTCTGTGCCTCCATTCCCTGCCTGGTCTATCTTCTCTCCC
R
TTGTACTCATCACCTAACATGCTAGGCGCATTCCTTATTCATGAGGCCTGTCTCACACACGAGGATGCCCTTCCTGAAGCAGCTCTGCTTCCACCATGAT
Celera SNP ID:            hCV27935057
SNP Position Genomic:     8165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26213):
GTATGTATTTTATATATATTATGTATATGTGTATATATGTGTGTGTGTGTGTGTGTGTGTGTGTATATATATATATATATATATATATATATATATATAT
A
TGTATTTTGAGACAGGGCCTCGCTCTGTCACCCGGGATGGAGTGCCGTGGTACAGTCATAGGTCACTATAGTCTTGAACTTCTGGGCTCAAGTGAACCTC
Celera SNP ID:            hCV15999429
SNP Position Genomic:     8119
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26214):
TGTCACATTTTTCAGTACCTCAAGAGAAGGAGCCATATCTTAACCTTTTATACCATCTTTGTAGTTTATAGCACATAGAAGGGGCTTGGTAAGCACTCTC
K
AGGAGCAATTTAACTTTAAGATACATATATATCCCTGGGCGCACTGGCTCATGCCTCTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACCTGA
Celera SNP ID:            hCV27935058
SNP Position Genomic:     10344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26215):
GATCCTTTTCATCCATTTTTAGGGAACAAGGATGTCTGGAGAGACTCAGAGGTTTTCAGGTCTTAGAACAGGCGTGTGTGTGTGTGTGTGTGTGTGTGTG
W
GAGAGAGAGAGAGAGAGAGAGAGAGAGACAATGGCAGGAACTCAGACCCTAGGAAGGCACAAAGTCCTGGGGGCTCCAACTTCCTGAAGGATGCATTGGT
Celera SNP ID:            hCV7567939
SNP Position Genomic:     22346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26216):
ATTGTGACCTCAAACTCCCCGGCTCAGGTGATCCTCCCACCTCAGCCTCCTAAGTAGCTAGGACTACAGGCATACATCACCATGCTCAGCTAATTTCTCT
C
TTTTTTTTTTTTTTTTTTTTTGGTAGAGATAGGATCACTCTATGTCATACAGGCCGGTCTTGAACTCCTGAGTTCAAGTGATCTTCCTACCGTGGCTTCC
Celera SNP ID:            hCV26978000
SNP Position Genomic:     23276
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,7)   total(C,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26217):
TGACAGTAATAGCAAACTCTTTTATGTGCCAAGCTCTGTTCTGCGCATCTTCCATGAGTAACTCACCTCTCTTCACAGCAGTCCTATGAGATGGGTACTA
Y
TTATTTTTGTTTATTTTTTTAAGAAATAGCGTGTCATACTGTCACACTCCAGGCCAGAGTACAGTGTCCCACTCATAGCTCATTGTGACCTCAAACTCCC
Celera SNP ID:            hCV26978001
SNP Position Genomic:     23094
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26218):
ATTAGATTCTCATAGGAGCACGAATCCCATTGTGAACTGCGCATGCGAGGGATGGAAATTGTACACTCCTTATGAGAATCTAACTAATGCCTGATGATCT
R
AGGTGGAAGTTTCATCCTGAAACCATTCCCCAACTCCCTGCCATCCGTGGAAAAATTGTCTTCCACGAAACCAGTCCCTGGTGCCAAAAAGGTTGGGGAC
Celera SNP ID:            hCV26978002
SNP Position Genomic:     22881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26219):
CATTGCACTCCAACCTAGGTGACAAGAGCGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATATATATATATATATATATATATATATA
W
GTTTTATCTTCTCTTCTTGCTATTGAGGGTAACCTCAGAGACAACCACGCTGGAGTAGGATACCACTCTGTGTGACAGTGGCCAAGCCCTGGAGGCCTGG
Celera SNP ID:            hCV26978003
SNP Position Genomic:     20334
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,9)   total(A,1|-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26220):
CCAGGGCGTCAACGTGCGCGAGAAGGTCAAGCAGGTGATGGCCCTGCTCAAGGATGAGGAGCGGCTGCGGCAGGAGCGAACCCACGCCCTCAAGACCAAG
R
AGCGCATGGCACTGGAGGGCATCGGCATTGGCAGTGGGCAGCTGGGCTTCAGCCGCCGCTACGGCGAGGACTACAGCCGCTCCCGGGGCTCCCCGTCCTC
Celera SNP ID:            hCV25982369
SNP Position Genomic:     34661
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26221):
GGCGGGGGTTGCAGTGAGCTGAGATCACGCCATTGCACTCCAACCTAGGTGACAAGAGCGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAA
W
ATATATATATATATATATATATATATATATGTTTTATCTTCTCTTCTTGCTATTGAGGGTAACCTCAGAGACAACCACGCTGGAGTAGGATACCACTCTG
Celera SNP ID:            hCV26978004
SNP Position Genomic:     20304
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26222):
AAGTACAGATAATACCAAAATATTTACAAAAACAGACCTTCAGCTGATCTCAGTTCTCATAGGCTGCCACCCACTTTGGTGAGTTTGTGTAGAAGGGAGA
R
GGGAGGTAGAAATCAAAGCCCAAGGCTGCATCCCCACACATGGCGGCAGATGAGACTGGAACTCGGGGTTCAGCCGGCAGCCCTGCATGTGTGTTTGTGT
Celera SNP ID:            hCV29300290
SNP Position Genomic:     11433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26223):
TGAGCCATGCTTTACAAAGCTGTCATGCCCTGGTTTCCCTCTCATCCCCAACATCACCACCTCTCCACCTCCCCAGCAAGTTTTCTTTTTTTTTTTTTTT
T
GAGACGGAGTCTTGCTCTGTCGCCCAGGCTCTGGAGTGCAGTGGTGCAAACTCGGCTCACTGCAAGCTCTGCCTCCCGTGTTCACGCCATTCTCCTGCCT
Celera SNP ID:            hCV26978006
SNP Position Genomic:     9654
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,14)   total(-,14|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26224):
TATGTATTTTATATATATTATGTATATGTGTATATATGTGTGTGTGTGTGTGTGTGTGTGTGTATATATATATATATATATATATATATATATATATATA
T
GTATTTTGAGACAGGGCCTCGCTCTGTCACCCGGGATGGAGTGCCGTGGTACAGTCATAGGTCACTATAGTCTTGAACTTCTGGGCTCAAGTGAACCTCC
Celera SNP ID:            hCV26978007
SNP Position Genomic:     8120
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26225):
AGTCCAATGCTGTTTTATGACATACTATATATATATATGTATGTATTTTATATATATTATGTATATGTGTATATATGTGTGTGTGTGTGTGTGTGTGTGT
R
TATATATATATATATATATATATATATATATATATATATGTATTTTGAGACAGGGCCTCGCTCTGTCACCCGGGATGGAGTGCCGTGGTACAGTCATAGG
Celera SNP ID:            hCV26978008
SNP Position Genomic:     8081
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,11)   total(G,11|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26226):
GGTCTGAGTCACTAGCAAGGGGGAGGGCAGGAGTTAAACAAGTTGTGGCCGTGGCATTCCCACAGAAGGCCCACGACCCGCTGGAAGGAAAGAGATAGCA
R
ACAAAAGGTAGGCTGCGCTGTGGGCCAGGCACTCTCCACCTCGCCCACTCCCACGGTATCTTATTCTCTGGGCCCCCAACAAAACCTGCCAAGGCATGTT
Celera SNP ID:            hCV811606
SNP Position Genomic:     32296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26227):
ATGTAGGTGCCCATCGGGCTTAAGGGGGCTCAGAGCACCTGAGCCAGACCAGGGATGGTTGTAGGGGTACGTCTTCTGAAGAAGGTGACATCTATGGCAG
R
CAAGAAAAAAAAGGAGAGGTTTGCTTCTCTAGGTCTAGGAAGCAGCATGAGTTTATGGAACTGTAAATGTGGGAACCAGAAGAGGCTGCACAGGTGGGTA
Celera SNP ID:            hCV26978009
SNP Position Genomic:     7528
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26228):
GCCCCTCTGAGGGGTCTGCACCTCCTGGGAGCAGGTGGGTCTCTGGGACGAGGGTCCATGGTGGATGGCTCTGGAGACGCTCCCGAGGCTGTGCCGTCCC
S
CTGCTGCACAGGTCGGAGGGTCACCGCAGAGGCTACTCGGGCTGGGGCTGGGGCCGAGGGAGCCCGCACTGGAGGTAAGCTTCCTCCCTGGCCCCCTCCC
Celera SNP ID:            hCV811608
SNP Position Genomic:     30561
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,28|G,10)   total(C,64|G,12)
SNP Type:                 UTR 5;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,5)      total(G,5|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:26229):
CCTGGGAGGCAGAGATTGCAGTGAGCCGAGATCACGCCATTATACTCTAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAA
A
GCTGGGCATGGTGGCGCATGCCTGTATTCCCAGCTACTCGGGAGGCCGAGGCAGGAGAATCACTTGAGCCCGGGAGGCGGAGGTTGCAGTGAGCTGAGAT
Celera SNP ID:            hCV11879294
SNP Position Genomic:     10825
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26230):
GAGGTGCTATACTGCAGGTCAATCTCCACGCGGTCTCCCTGACCCAGGACGTTTTTGAGGATGAGAGGAAAGTACTGGAGGTAAGGGACCCAGGACCATG
K
CCCCTGTGGACATCAGGTAGGGTATCCTGGTGTTCTTCCTGGCAGTGACTGAAGGGATCATATTTCTCCCAGCCTAAGAGGAGAATTGGATTTTTAGCAA
Celera SNP ID:            hCV25929028
SNP Position Genomic:     21412
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(G,29|T,1)   total(G,63|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26231):
AGATTTTTCACTGCATATTTATTTTTAATAAGCAGAAAATTTAGTTTGTTAATTAACCCTTGAGTTAAGAACATGCACCAGAGTGAGGAGGGAAAAAAAA
A
TGAAGTGTTTAGCATGCAAGATATCTTTTTAAAAATATCTCAGGGGAGCCTCTAATGTTGTAGAGCAGTACTCTCCCCCAGCCCCCATACAAGGCAGCTA
Celera SNP ID:            hCV11879296
SNP Position Genomic:     8653
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|A,8)   total(A,8|-,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26232):
ACCCATAGACCCCCTGGTCATGGGGAAATACACCCAGAGGCTGCACAGTGAGGTGAAGGGAAGCGCCCAGCAGCCATTCCCCTGCCTCCCACCTGCCTTA
Y
TCATTCCATTCAGTCTGCAGACAATAAGTGCCCACTCCATCATGGTGGAAGCAGAGCTGCTTCAGGAAGGGCATCCTCGTGTGTGAGACAGGCCTCATGA
Celera SNP ID:            hCV25926519
SNP Position Genomic:     26871
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:26233):
TCCTTTTCATCCATTTTTAGGGAACAAGGATGTCTGGAGAGACTCAGAGGTTTTCAGGTCTTAGAACAGGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
W
GAGAGAGAGAGAGAGAGAGAGAGAGACAATGGCAGGAACTCAGACCCTAGGAAGGCACAAAGTCCTGGGGGCTCCAACTTCCTGAAGGATGCATTGGTTT
Celera SNP ID:            hCV25923862
SNP Position Genomic:     22348
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,18)   caucasian(A,3|T,3)   total(A,9|T,21)
SNP Type:                 INTRON


Context             (SEQ ID NO:26234):
CCCGGAGCGCACACCATCACCTGTGGATGCCTATCTCACCGAGGAAGACTTGTTCCGGCACAGAAATCCTCCGGTGAGGCCCAGCGCCAGCCCCTGCCCC
M
TCATGTGTGCCCTGCGTCAAGGGTCCCCAACCCGCAGGCCGCACAGCGGCAGGTGAGCAGTGGGTGAGCCAGCATTACTGCCTGAGCTCTGCCTCCTGTC
Celera SNP ID:            hCV11935565
SNP Position Genomic:     22666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26235):
TCCTCTGATGTCTCCATGCCTATTCTCGGCCCTTCTCTGCTGTTCTGTGGGAAGCCAGCTTGCTGGATCAGAGGCAGTAATCCACAGGACAAGGTAAAAC
W
GCCTCCACCACACCTGCTGGGAGAGCCTCCCTCAGGGGTGCAGCCCTGAGGTGACTGGCAGTTACCAGCAGCCTGCACAGTCTCCTGTTTGGGTTTTTAT
Celera SNP ID:            hCV1696900
SNP Position Genomic:     19670
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,34)   caucasian(A,10|T,30)   total(A,12|T,64)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26236):
ATTAAGAGGTTCTGGCTCATTGTTAAGCACTCAATAAAAGGTAGCTGCTGTTATTATTTTTATTATAATCCAAAGATTTGGCTATTTGGAAGCTAATTTT
K
CAGGAGTCTTGTGTAGGGCTGCTGAGGAGGTATAGGACAGGAGAACGGGAGTCTAGCTGCCACAGGGAAGCTGTATTTTTAGTCCTTCCTAGAAATGGTG
Celera SNP ID:            hCV1696901
SNP Position Genomic:     18499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,3)      total(G,3|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26237):
AGATCAAACACCTTATCTTTTTTTTCTTCCCCTTTTTGCCTTGTTCCTTCTCAGTGAGCAGGGGAATGGAAAAAGGAGAAGCCAGAGGGCAGGAAGAAGA
S
GGGGGGCAGATTCCAATAAAAGCTTCATTTCTCTGTTGTCACCCTCCCCTGTACCTGTTTGGAACTTGCTTGTATAGGCGTGGGGTCCTTTTCAAGGCCC
Celera SNP ID:            hCV7567940
SNP Position Genomic:     25331
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,92|G,1389)   total(G,1389|C,92)no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26238):
TCGTGTTAGTGAACCCCAGAGTGGTTGAACCCCTCTGGCCTGTAGTTTCCTCATCTGTAAAATATGCACAGGGTTGTGATAGGGCTAAATGAGATATGAA
R
TGTATTAAGAGGTTCTGGCTCATTGTTAAGCACTCAATAAAAGGTAGCTGCTGTTATTATTTTTATTATAATCCAAAGATTTGGCTATTTGGAAGCTAAT
Celera SNP ID:            hCV1696902
SNP Position Genomic:     18395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26239):
TGGAAGTCTCATGCAAGGTTCAGCCCCTCCAGTGCGACTGGACCCAAGTCTGGCCCTGGCCTCAAGCCCTCTGAAGTAGGACTGAATTCATGCAGGCCTC
S
TAACCCTAGTCCTGGGCCATTTTTTTCTTGGTTGCCACCCAAGGCAAGCCAGAACCCCCTCCAAGCACTTGCCCTGGCGGGGAACAGTGAGGATGCTGGC
Celera SNP ID:            hCV7567941
SNP Position Genomic:     25559
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,125|G,1340)   total(G,1340|C,125)no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26240):
AGTCTCACTCTGTTGCCCAGGTTAGAGTGCAGTCACACGATCTCAGCTCACTGCAACCTCTACCTCCCGGGCTCAAGTGATTCTCCTGCCTCAGCCGCCC
R
AGTAGCTGGGACTGCAGGCATGGGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGGGACGGGGTTTCACCATGTTGGCCAGGTTGGTCTTGAACTC
Celera SNP ID:            hCV1696903
SNP Position Genomic:     13700
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,9)   total(G,9|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26241):
ATAGAAAAACAAAAATTATTTTTAAGGATAGGTTCTCCTGTGTTGCCCAGGCTGGTTTTGAACTCCTGGCCTCAAGCAATCCTCCCATCTCGGCCTCTCA
M
AGTGTTGGGATTACAAGCGTAAGCCACTGCACCTGGCCAACAGGCTGAATTTAGAACTATGTTTGGAATGATTTTGGTGTGAGTTTTTTTGGCCACCAAC
Celera SNP ID:            hCV1696904
SNP Position Genomic:     11735
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Gene Number:                 100
Celera Gene:                 hCG2002731 - 30000035344896
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VT8U(2646686..2830020)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12260):
TTTACCCTGGTGTCTTCAGTGGTTTTTAACTCCCAATCTGCCCCTATCCCCTTGGCTGCCTACACTTTCCTTTTCTGGGGAGCAATCAGCTAGTCATGGG
TATTTTTCATGAAGAGTCCTGAGCTTTCCTCCAACCACGCAGGGCCTTTAAAAGCAGTCCCCACCCCACAAAACAAAGACCTGGATGATAATGATTTAAT
GGCCCCTCCATCCCAGTAATTTACTTTGCCTTCCCCTAAAAAACTTAAAATGGCCAATATTGATGGCATACATTTACTAATGTTTAAATATCTATCATAT
GGTGTTCAATTAAAGTGTTTAAAGCTTTTTTGGGTACCATTACGAGTTGCTTCATTTTTATCTTCTTCCAATTTTAAAAGAATCACCAAGGATTATTCTT
CTAGCCTATGCTTTCTCACCAGAGACAAATGTCCACTTTTACAGCTTTATTCTGGTAATGCAAATAATTTTATTTATAATAAATAATAATACATTTATTT
ACAGAAGGCATTACATTAAATTTCATTGTATAAAAGTTTCACAGTATACTTCTTGCATATGATATATTTCATCCCCTCTACTACAAAACTAAGATAAAAA
TCAAGCCACCTCAGAAAACAAATAAGAGAGAAAAACAAAAACAGAATAAAAAACTTGTTTGTATATGTCAATAAGAACTGTGAAAATATTCTGTGCTTAT
AAGAAGCCCAAATTCCCTGGTATCTTTCTAAGATCCTTTCCAATCTGGTCTCAGCTTCACTCACTTTTCTTAACTTCTATTCCAGTCTCTTCATCTATTT
TCATGTTACCTCTGCATAGAATGCCCATTACCTTTTTCTCTACCTATAAAATCCCCTGCCCACTCCCTGCAAGGTTAAATTTCAGTGCCATCATCTATTT
GAAAGCCTTGACTTTATTTATTCTCTATTATAGGGATCAGATGCAATTAGATCATTCTATGTATGTTGTCTCTACGTAGCCTGTGAATATTCCTGAGGTT
AGGGCCTAGCACTTCAACATCTCTGATTCCCCAGGATCTAAGAGACTTCCTCCTGCAGAGAAGTAACTTTGTAAGTGTTTCAGTGCATTACATGAGCACA
GATGCTGCAGAGAACAAACATTAGTAATTACTATCATTGTATAGATTATGATCTAGGAGAGAAGAYAAAAAATGGTCACATTATTGTAAAATAAGCTATG
TAAGTGTTATTATCTCAGAGCCAAATAATAGACTCCCTTCCCTTGATGCACTTATTTTGTATTAAAGACAAATGGTATTTCCCCACACATGTGTTTAGTG
ACCCAGTCCTACCACAAGAAATGCCAGTCTCCTTGGTTTGAAATACTAATTAATCATTTTTTGTTGTAATTCTGGGATTTTAGAGCCCACTTACTTTATT
TAACTTTTTACAAATTGGTTAAAAGAAAATAATTAAATCAACCTGTTCAAATGATCCTAGAATTGCATAACAGCTTAAATATAATTAAGTCATATTTCAA
ATTAAGGGACCCAGCAATGCAGCTAAAATGTTACTGCTCATCAGTGGTTGTTATTCTGAGTCATAGAATGCCACGAATTGAACATTCCTGCCAGGGCACC
ACCCTGGTCCACCCTCCCCTGCTGCAGCCCTGGTGTGTCACTCATGTTGAAGTCTGCCAGTAAGTCCAAGGAAGTTTCCTATAGTGTTGAGAACTGTTCC
TCACCAGGATTCTGAAGTCAAGTATTTTGTTTTTTTGTTTTTTCTTAAGTACCAGTTGCCCAAATGTCTTTGGACAAGGTTTCTGGCACAGGCTTGTTCA
GGAAATAGGGAGGGAGAAACACCTATTTTATATTTTAAGTGAAAAAACACACAGGAATATTACGTAATAACAAAAAACAAATGGTTGGCTCATGGTGAAG
TTTAAGTTCCATATCACTGTGACTTTATTTTGGTCAGAGAGGAAGCAATCATAGGTTCTCAAGGTATATCAACAACAACTATTAGGATAATTTCACTAGA
CTGTTTAATTTAATAGGCTTAAAATGAAATATGCCAATGTTACAATTGAGCACAAAACTACTTATTTTCTCTTCCTAGTTACAAGTGAAAGAAATTAATG
AACAGCAGGTTTGCAGTGGAATAACAACTGTTGTATCCATTTTTGCCTCTGCAGAACATAGCCCTGGAGCCCAATATATGCCAGAAAATTAAAAATTATT
GAACTAGACTAAGTTTTCCATATGAGTTAGCTTTGTGAGTTAGCCCCACTGTTTTGGGGTATATTCCCCTAAGTGCTTACATACTAAAACTTAAAAATCC
AAATCTTCATAAAATCTTTGTAAAAACGGAAGCAGTTCTGTACACTTCCACCTACCCCTAACACCTGAGAGTGGAGGGGATGGGGTTGGGGTAAAACCAC
ACTTTGATGCTACCTTAAAATGTATTTAAAATCTCATATTTGACTTTTAAAAAGAAAACATGATTTAAAAATATTTCTTATAAAAATCTGTTATTTTAGC
AAACAACAATTTTTAAATTATTTATTTTTGAGTAAAATCAGCACCACCCCCACTACCCAGGTGGGAGTACCTTATTTATCCTGTAGCTTTGAGAACCTAT
AATCTTACTGCTAAAGAACCCTGGCATACATTAGACACGGAGTTCTAGAACCTCTTCTATTCCCCCAACCTCTTAGCGGAATGTTCTTCTCTTGTAAAAA
AATTAAAAAAAAAAAAAAAAAAAAAAAACCTCTGACGGCCAGCCAATTTGAAAAGCAAATTCATGTGAACGTTATAATGGGTTCTGATGTCTTCATGCAT
ACCCATTTTATAGAACTATCTTCAAGATAATTCCCTAATCCAAGGTAAATATTTTTAAAGCGAGGATTCCAGAAATAATAATAGGAGTTGATGGAGATAT
TTTTAGGCGGACATTAAAGTTCCTCTTCTGATGGCCATCAAATTTCACCACTTCCTACAGGGTCTACCACACGCAGAGCCTGCCCTGTTTACATGGTCTG
TTTAATACCAATTCTTCTATTTACAGAGAAGAATGATTCATACTAACCGAGCACTTACTTTAATCCAGGCATTGTGCTAAATGCTCAGAGGCTCGGTTCA
TTTAATCCCCACAGCAATTCTCAGACCAGAAGTAGTACAGTATTTTCATTCCCACTTTACATTTGAGAAAACTGAGGCTTAGATAAACTTGATGACGTTT
CCCAAATCACACAGCTACTATATTGTGGTTCCAGGACTTGAGTCCAAGCAGCGTAACTCCAGAACCTTACTTACTCTAGTTACTTTACTCAGTATATTAG
ATTAACTCCAAGAAGAATACTTTGGTTTTAAGTATATGTTTTTCTTTTTGAGATTATTGGTTAATAATCTCAATTACTCTTGCCTCATTTCATAGACATC
CACTTTCCAAATTCTTAATCAGTTCAGTCTCTAATCTTTCAGTGCAGCCATCCCCAACCGTTTTGGCAGAGAGACCGGTTTCATAGAAGGCATTTTTTCC
ACAGACCAGGGGTAGGGGRAACGGTTTCAAGATGATTCAAACACATTACATTCATTGTGCACTTTATTCCCATTATAATTATGTTATAATATATAATGAA
GTAATTATAAAACTCACCATAATGTAGAATCAGTGGGAGCCCTCAGCCTGTTTTCCTGCAACTAGACGTTTTCATCTGGGGATGATGGGAGACAGTGACA
GATCATCAGGCATTAGATTCTCATAAGAAGCGTGTGCAGTTCACAATAAGGTTCATGCTCCTACTCATGCTTCCAAACCCTTAAAGAGATCTGATCAAAT
CAAGTCTCATTTAAAATAGAAAAGTATGTAGTATAAAGTCTAGAGCTGAAACATTTGTCATCAAGTGTCTCATATCAATAACTAGTTTGTGACTCTGGGC
AAGTTTCTGTCTTCTCTAAATCTTTACTCAATGACATGTCTTTCTGTCAGTCAGAATAAAATTGGTTAAGAAAATAACCGGCTTGACATTTATTTGTATT
TGGGTTTATTGAAGTTCAGAAAATAAGCACTGATTCTAAAATTAATTCTCTAACCATAGTTATCTCTCAGTCTCTACATTTGTATTGACTAGACATATAA
AAGATTCATAAATATGTAAACATGTAAACATAAAATTTGTAACTTGTGAAAATTAATTGTAACAATATCACTGTTAGTGATGGTTATCACCAATAATTTG
TAAGTCCTAGAGGAAATAAAAATATTAAAATTGAAATTATGTATTAGCCCCCAGAAGAAAGGTAAATTTCCCAGTAATTGTAAACTTGAACATATTATAT
GTTAACCCTACTTTATTTCAATATTTTACAATTTCTTTTTGTTTTTTCTAATGAAATATATTGCAATTTGCTAAAATGCCATATATGTATTTGCATATGT
ATGTATATGCTGTACATATATATGTACACATACATACATACACATGATTGTGTATATATAGACACACTATTATATGTTTTTGAAAACTAAGCAATTTGGA
GAAATATCATTGGGAAAGTACTTACTATGATTTTTAAATGTCTACGAATTAATCAATATCTATTGGTTACTGTTCAAAGCACAGAGAGTCATACTGAGAG
GCATAAGACATAACTGATACTACCAACAGGGAAACGAGATATACACAGGAAATGAATTCCTTGGCAGGGTATGAGAGCATTGAACACAAACAAAGGAACT
TAAGTAAAGTCCAATGGGATTGAACTGTGACCCAACATAATACAATTTTTCTAGAGACTCATTTGTGTAAATTTGAAGACAGAACTGAGAAATGACATTA
TAAAAACTAAAAACGGGAGAACGAGATTTTTAATGTATTTACTAAATAGTGAATCAGTTCAGATACATAATAGAAAAGGAATTTCTTGATTAATGGGTCA
ACATACTGAGATCTGATGGCCTTCAACCTCCTTGGGTCTGCCCACCCCATTTTTGACGCTCCTTAAACTTCTTCAACTTTTGTCTTCTCCAGCTTTTAGT
TGCTGTGATCCTCTATCTGGCAGTGTATCCAGTGAACCCTGTGGGCTTCTTCCTTCCTGTCCCTCGTGTTACCTGTTCTGTGCTACCTGTGTTGYGTTCT
GCTCAACGAACCCTCCTTTGGGTGGCACTCTTGTCCTGCCTAGCCCTAGTTCTGCTAGAGATGCTCAATTAGTTGTTGAGTTGAAGAATTGAATTGAACT
GTTTCCCTCAGATTCCTCTAAACACAAATCCACTTATTCTTTCTGTCTTTGAAATTCTCAAAACCGCTAAGACACAGCTATTTTGAAAATAGCCAGCATT
GGTTGAAGCTAGGGTGAATATGGCTTTTGACTCAGAGAGGTTGTTCAACTCACCAGGAAAGGGAAGCATTGCAAGTTCCTAAGCACTTCTGGACTCTTAA
TGCATTTTCACTCGTGAAAGTTTCAAGCAAGAAAAAAATAAAGTAGTGCCCCGAGTTCTTTATTAGATTCAATTACCAGCGTACAAACATCCTAATTCAC
TTAAACAAAATAGCCCACACACATTCCATTTCCAAGGAGGCTGCTTTTCTTCCTCTCTTCCCTTCTCGCTCTCCCTCTTACTGTTTTTCCTCCGTCTTGC
TTCTCCTTTTCTCCCCTTATCCTAGTTATCTCAAAGAAAAGCTTATCTGCAACCACCCTTTAACCACGAATTACCATAAACGAAGCACCCCCCCCCACCC
CCCCATAAGCGAAAGCAAAGCCCTCAGTGGAGCCTGTCGGGGTGGTGGGGACGCCCCCTTTCGTGCAAAACGACTTCACGGTGAATTTCAAGTGTCCGCA
GGGGATGGAAGGGGGGATTCCAGATCCTCGCATTTTCACAGACGGCCTAATCCCTCTGCGCAATGGACCCGGGAAAGCTGCCTCCCGTTAAGGGCGCCCA
GGCACTGTCAAAGCGCCCTCCCTGCCCGGGCCGGGAGAAGTAAGGGGTGTGAAGGCGGAGCCACTGGGCTGGCAACACCCTCCCGAAGGTCCAGCCCTTA
CCCGCCTTCCTACCACCTTAGGGGATTTGGCCCGGAGAACGAGATCACCCTCTCAATGAAAGGCAGATGTCCCTTTAAGGTTTGCTTCTACAGCCCGTGG
ACTTTAGCCTAAACACGGACCCGCGAAGCTGGCTTTATTTGTCCATGTCTCGGACAGAGCCTGGGAAGCTGCCAGTGAGATTTCAGAGACCAAGAGCGCG
AAGGGGCGGGCGATGTGGCAATCCGTCTGGGATGTGAAAAGCGTGGAGCGCATTTAGAGGMATTCGACGAAAACACAGGAAATCACTCCTCTCCCGCTCC
TGGGCGCCGCTGCCACTGGGGCAGAGGACTGGGAACCGCGGCAGCGGGATAAGTGGCCCAGCCAGAGAGCGCAGCTCCCGCGCCCGGTCCTGCCCTGCGA
ACCAGCGCGGCCCCCTGGCGCTGAGGCTGCTCCGGCCATGGCCCCTCGGCCCCGCGCCCGCCCAGGGGTCGCTGTCGCCTGCTGCTGGCTCCTCACTGGT
GAGCGACTCGCTTTTCTCTGAGCATCTCCTGCTCGCGGGCTTGGGGCTTRGAGCGGGGAGGGAGGTCCTCAGAGCCATGGGCCAGATAGGAAGAGAGAGC
GCCCATCCACTTTCSGGCATTCCAGGTACTCAGGCCAGGCTACGGGGCAGGCAGGAGTTTCGCGTTCTGGTTTTGATATGAATTAGTTTTMGTGTCTCTC
CAAAGTCCTTCACCCTAGGAGTAGGAGTGAGGCAGCACTGAAAACCTTASAAGGTAGAATTCACTTTTAAAATTAAAGTTGTTTTTACAATACACATTGT
ATATTAGGACTTTGCTGAATATTTCCTCCCCTCCACCCTTTTTTATGGCATGGGATGGGAGGGTGATGCTTATAGGGCGCCTGATACATATGCAAAATTC
CTACCCTCGGGTTGTTCCAGAGTGGACATTATTGAATTTTCTTGCTGTCTACTATTTAGGCTTTTTTCCCATGCAGAACAAGAAAAGGCAGGGATGCAAG
ACGAAACTGCCACTTGTTCCAAAATGATGTTTCTATGTCAGCACCCAAGAGGAGGGATATTTTGAAACGTAGAAAGGAATGGTGAACATTTTYTCTGTAA
ATATCACAGGGCAGTCTACTTTTAAGATGCAAAATATAGTATTGTTATTTGTACATAAATGTGTATTTTTAAGGAGGGGACTTAAAAACATAGTGGAAAT
GCAAAGTTGTATCCAATTTAGAAAAAGCTTGAAATATAGCATTTTGTAAGATTTTCCCAATAATGAACTCATGGTCAGATCTTTTTTACCAGTTACTGAT
TGGGGTGGGGGAAAGTTGAAATGGTGAAAAATGGAAGAAGGTGGGGGGAAAGTGTATCGATAGAATCTCTGTGTGAAAGAAAATCACCTTATTAATGGGT
TAATTAACAGCTGGCTTTAACATATCATTGATATTCAATTGTTCAGTGTTTTTACTGCTGGCATGGTTATTAGTACTAGTTAATTTAGCATTTTTACCAC
TAAAAACAGGGTAGAGCCAGCTAGTTTAGACCTGCCTTAGATGGCCAAGCATTGTTAAGTTTTATGAAGATGATTTAGAAGTTGATTATCAGCAAGCAGA
GCTTTTTTCAGAAGGGAGGTAATGTAAAGAGAGTTAATAATTAGCTACTGGCYTTTCATCCAAACATTTCCCACTACTCAGGAAATGTCCAATAATCCAA
ACAGTGGTAACTGCTGAACAGCATTATAGCCGGTGAGTGGTTTAACTTACCAGCTACTGCCACTACTTTTTACACATATTTGACCTATGATTCTTCTCCA
ACTCAAATTTTTTTAGATTGTATTTTGTTGTTTTTGTGCAAAATCTGAATACAGTAGTTTACTATCCAAGTTGTACTTTTTCATTCTACCAAATAAGCAG
TCTCTAGAGTAGAAATGATGAAATGAGGTTTGCGTATCCTCTAAAAAGACAAGAGTGAAACTTGAAGTAACAGAGAAGTTTAACAAGTTACAATTTCATA
TATATGTTGGTGAAATATACATTGGTGAATCCAGGAAGAGACTTAAAATATTTAGAAACCTTGTGTGCACTATATTTATGCCCATTTCGCAACACATGAG
GGATCTGAAATTGGACTGCTTTCCCATCAGTCATTATATTCTGTAGGCTCTTCTTTAGCAATCTCTTTCAGATTTGGAAACTTCTCATCAATTCAGAGTC
CGTTTGTAACCTGGGGACTCATCACCATWCTTATCCATGCACACTACTGTAGAGCTTATCTTTCTGTCTTCAATTTGAACCCAACTTCCAGTCTACCCTC
CTAATACATCATTTTTACTATATCTGTTTTTAGTCAAAAATCTTTGGTGGTTCTTTGTTGCCTTTAAGATAAAATCCAAAATTCTCAACTGACTGCCCTA
ATCCAACACCCTCTCTCTATCTCCTACTACTCCTATGTCAGTTTCTTATTGCTGTTGTAACAACTTGCCATAGATCACCAGCTTAAAACAACATAAATTT
ACTATTGTACAGTTCTGTAGGTCAGAAGTATCACTGGGCTAGAATCAAGATGTCACCAGGGCTGCATTTCTTCTGGAGGTTCTAGGGGAAAATCAGTTTC
CCTGTTTTCACCAGCCTCTGGCCACCACCTGCATTCTTGGCCTGTGGCCCCTTTCTCCATCTTCAACCGARSAGGGTAGAATCTTCAGATCTTCCCCCAT
GACTCTGCTTTATCATCACATCTCCTTCTCAGACTCTGACCCTACTACCTTCCTAAGGATCCTTGTAATTACAATGTGCCTACCAGAATAATCTCCTCAT
CTCAAGATCTTTAATTTAATTACATCTTCCAAGTCCCTTTTACCATCTAAGATAACATATTCACAGGTTCCAGGCATTAGGTCATGGATATCTTTGGGAG
ACCATTATTCTGCCTACCACAACCCATAAGCATAAACTGTCCATTATAGCCAATCACTTTTCTTTACTTTCTCCATAATCCTCATGTTCATTTTGCCACT
GAAGATATGACCTTGTTTTATACATCGAGAAAAGAATTCCACCTTTCCATCCTACCACCCTCTGACATCTAAATAAACTCTCTACAGCCTTCCAAACTGG
GTTTACATCAGAACAACAAGCCACCAGCATCCCAATAAACTTCCTATTTGATTTAGACTGTCTTATATTAGCTCCTTACAACGTTTACTAAAATGATTCA
TCAAAAAGATGTCCTTATGTCCAAAGGATTGTTATTTTATGTATGTCAAAGTCTCAGCATAAACTGATGTCACATATAAAGGATTTAACTGAAGACAGTT
TCATAAAGTGACAGTTTAGRGAGGCCTTAAAGGAACAAGAAAAGAGGGTGGAGCATCTAGYGCAAGCAACAGTAGGGAAAAAAGAACCTGAAGCAAGGTG
AGAAGAAAAACCATGACCATTCCTAGGCCTGAGGAGGTGGCAGTGTTAGTTTGATTATGAACTCTAGTTATGGGAGGGTGGCCATTAGACTGGAGTTGTG
GTCATAAAAAGGAATGCAGCTAGTGACAAAATTGAAGCCCAGCAGAGAAGGAGTAAGGAAAATAAATATACCTCCTTTCCTCCCACCCTCTGATGTCTTG
CTCAGCCTTCCCATTGGCCATCCCCAAATGGCAAGATCCAACCTTYCAGAGAACAAAGGGCAAGACAATCAATAACAGAATAGCTAGCACAACTTAACCC
CGAAATGTATTATGTGCAAGGCACTGTGCCAAGGGCTTTGCATGTATTATTTCATTTTAATCTAAAAAATTAAGTTTACTAATTGATCACAAGCAGTCAC
AGATTTCTTTGTTCTTTTTTCACTCCCTCAGCTTCAGTTGATTAGCCTTGAAAAAAAGAAAAGAAAAAATTAAAACTTTATAACTATTATCAATATTTTA
GAGATGAGGAAATCAAAATATAGTATTAAGAAGTTAATTTCATTTGTCCAAAGTTGAAGAACTAATGACAAATCTACTCAATTCATATCTCTGACCTCAA
ATTAAATGCTCTAAAATAATATGCTATATTGGCTGCCTAAAGATAAGTTCATTCTCTCTTGCTCACTCCTCTAAATGTGAAATCCAAACATAGTTGTCTA
AAAGACTTGGATAAAGACCTAATTAATGATACAAGTCAATCTTTTATTTCCATGATTTTTAGGTGTACAGCATTAAGTGTAACTCAAGTAAGACTACTAT
TTCTCGTTATTAAGAATATAAATATAGAATTAGCCCTAATTAAACTATATGTCTCTCTTCCCTAGAAACATTTTGGTTGGCCTAGAAGCAAGGGTCTTCT
TTTCACAGGCAAGATTTCCTATTCAAAATGAAATCCAGTGAGGAGATGGGAGATGGCTGAATATGGGGAGGAAGTCAGCCACTTATTCAAAACAAAGAAT
GACTCCCAATGGCAGACAATGTATTGTCAGGAATTGCTGAAGATGGTGAAAATTGTCTTACTCATTGTGATGTTTGTAAAGGCAGCAATGAATTCACGGG
ATTTTTGTTTGTTTAGTAAACAGGCAATGAGAGTAACCATGAGACACATATATATGCTATACTAGTTTAACTATTTCTCTTCCCTCCTGTCATAACACTT
ACCCAGCTATTTTGAAGCATGAGCTCTTGGGCCACAGCTTATCACTGATGTTCTGACTTCAGTAGATAGATGCTCCTCTAACATGTTCCTCCACTTCCAA
CCCAATAAACTTCCCACTAGATTTAGAACTTGCTGAATTTCCACATCTTAACATATTTTAGTAGAATAAAGTAGCTCATGTTTAAAATATATTTAGAAAA
GTTGGGGACTAAAATGCTATTCTTTACCTACACTTCTCTTCTGTTGTGTGAAATACAAAATAGTGTACTCAAATTCATGTTAAGAAACTGAGATGAAAGA
TATTTTGAAACTGTTGCCACAGTGCTAAAGTCAGAATAGATTGCCTATTCAGAGCAGTCTGTGACTGGAGAATTGTATTCGCCCTCAAAGCAAGTACAGT
AGAGTATCAAGAGATGCAAATGACTGCATATATTTCTATCTTCAAGATTATTGAGCTTCTTTCAGCTCCTTTATTATGCCAGCTACTCTAAAGTCTCCTT
GGGGACTTTGCATAAGTAGTTACTCCCACTGCTACTGATCTCAATCCCTGAATAAACGTCATTTCCAAGAGATACCCTGAAGTAGATTGGACCCTACCTT
AGGACATGTGTATCCCAGCACCTTTGCTTCTATTATATAATGCACCACGGTATTATAATTAACTATCTAATTGCCTGTCTTTCCAGCTTGCTGTATGCTC
TGTGAGGGTAGGATCTTTAACCATAACACCTAGAAATAATAGGCACTTTTTAATTGAATGAATCGCAAAAGAAYTGACTATTGACAAACTCAGAAAATAC
TTAAGGGATCAGATTGTCCCTTTATTATATACCTCTGCCTTATTTTATTATACCTCTGCCTGAAATATTTCTGTCTATCCAAATTTATAAATAATGGAAT
GGAAGACACCATCAGTTGAAAGATGCACCATTATTTTATGTACCACTAAAAAAGACAAGCCACTCCCAATCCAATTATAATTGCTAGATTGTTAGATAGT
TCCTAGTTTCAGAGATGTCAAAATTGGGAAAATGTGCGTCTGAAAATTACAATCAATAATATACAGTGTATGGTACTTTTTACCATGGTACTTTTCTATT
TGTTTGGACACTTAAAAATTGTGTCATAAGATTTTGAAGAGGCTAGTATGTGAACCCCATCTAGATACAGAGATATAACATTGTTCCTCTCAGTTCTCTT
CAAGTGCCAAGTTTATATCTGATTTAGGGGATAATTGCTCCTCTGGCACCAACAGCCTCACCAGATCCCAAAAACAGAGCTCCCTCCAAATGCTCTATCT
TTAGAAGAGAGCTTCAGGAGAAAGGTGACAATAAAGTAATCATATAATGTTCCAGTTGCACAGGATTAATGACTCTAGCTTTGGCAAACTCTTAACTTTT
TGTCATGTTGGTGGTAAGCTCCAGGGTTGTGTATATAGGAAGAAGACTAATTTTAATCAAAACTTTCCTATGATTTAAAAGGAAGATAAAAAAGTCAACT
AAGTTTTAAAAGGAAATTAAAATGCATATGCTGGTTGGTGTTAGGAATTCACTTTATGTGTTAAAAAAAATCAATTTTATCCAAACAGGAGATCCCTATT
AACAAGATAAGTAAGAGATCTGAAATGAGAAATCATTGTAATTCAAATATGCAAAGGAGTGGATACACATACTCTTTTTGTATGAATTATATGAGATCTC
CTAAAATAAATGCAAATTCTTAAATTTAAATATAGCACYTAAGTCACTTTAAAACATCAATAGTTAAGATGGTTTATATATTTTGTTACAAATCATATAT
CCTTACTACAAATTAAATGTACTTTCAAAATTATTTTATTAATTAGACTTTTATTTTACCAAATACTAAAGTCTAGAAATACATGGGTACTGGCCAATCC
TTAAAAATATCTGTGTAACACATTTTACTTATAATATTTTTGGTGAAATGATCTTATGCCGTATAAGAATACATGCAAATAGAAATACACACACACACAC
ACACACACACACACACACACAMTTCTGTTCATAGGATTTTGTTTATTTGGTAGGAGGTTTTGTATTATTTTGTGACAACTGCAAGTAAGCACTTTCCATC
ATGAGAAATTTAGATAGTGAGTGAGTACAAGTTCCTTAAAAAAAAAAACAAATAAAACAAACAAAAAAAACCACTTTCCCTTTTACCCTTTTGTCTATAT
TAGCTAACTAATCCTCCCAGTCATCCACTTAGCTTTGCTGGTGGAGGTCACATGGGAACCTTTGCACAATCTGAGGTTTGCACATTCTCTCTAAATAAAC
AATTGCGTTTATCACTAGATATTCATAATTGGAGCTCTGGCTTCTTATTTTGTAAAGTTCACTTTCCAAACCATGTATAATAAAACTAATTGCCATTATG
TGTTATTCTAAAATATTTTAAGAACTTTTCCTGGGGAAGATGTATTTTAAATTACCATTTTCTTACCTAAGCACGGCTATCTCAAATATTGAAATAGGCT
TATACAAACTTACCTTAAGAGTAACCTTCTTTTTAAGTTTTTAGTAACATTATAAAACAGAATGTGATTTCCTAATTTTAGAATGTCAGTTACAGACAAG
TTAAAAACTCTGAATTAAAGAAAAATTAATAACCATTAATTTTTGCATACTAAAAATATGAGTATGTGCCACTTGTTATGCTGTGTTCCAGGAGAACAAA
GACAAATAAAAGGTAGTAAGTCTCTGCCTTTACTGGTGGAAGAGGTAGTAGACATGGAAAGACACAATGGTGGGAGAGGCTCCCAAGGTGCTTTATAAGG
AATAACAAAAAGATTAGGTTTGTGTTGCAGGAAAGTAAGCCTTCCAAAATAAAATACAAGATGAAAACAAGAAAATTTATACAGCCCCGACTGTTTAAGG
GTCACAAGCTAAGCAGAGGGTATTAAAACAAGATTTCCATCTTTCAGGAGCCCATAATTCCATTTCATGTCATACAAACCATTTCTTTTATATTATTATA
ATAGGAAAGATAGTAATTCAACTCACCAATGAGGTCCATGAACCATTTTATTCAGTAGAGCTGAATAACATAAATAACATAAATAAATGTACCCCAAAGA
TTATCCATCAGTCAACTCTACCAAACCAGTTATTTTTCCAAGGCTGAATAATTATGATCATGTTAAAATGAGCTCTTGTCCCTTGTTTTGTCTGATCCAG
TTTTCTAGCTTCAAGCCAGGCATTTTTAGAGCTCTATAATTTATTAATATCAAGTATCATAATATCACTAGGACCTCATAAGGATGGTCAAATGAGAGRG
CAGGACAAATAATCTTATTTATCATTTAGAATGAAAAATAATTAGCTTTATTGCGGTCTGGGACTTATTTCAAGTTGGTAGAATCCATCCAGGAAAGACC
ATATTTGAGGTCTGCCAATTCTTGGTCCACAAACAAGAAACTTTGAATCAGTCTTTCACCTCTGAAATGGGTCTTAGAAAAATCAGATTTGAAAGATAGC
ACGCAAAATTGAAAACAAATATGTTAGGATGAGATTATAGGTGTTGTTTAAACACTTAAAAAATATTACTGCAGCATAATTTTTAGTTAGAAATTTAATT
ATTGAATTCAATTCCCTCAATTCTTCAGTGAAATAAATTGGGTTCCAGAGAGACTGAGTACTGCCAAAAGTTACAGTAAAAACAATTGAAGAGTAAGAGC
TACAATCCAGGATGCTTGACTTCTAGCCCAGTTCTCTTCTTGAGACACTGGAAGTGTCTCAAGAGCAACAAATTAAAAACTTTTGGAGGTAACAATACTT
TTTTCCCCTTCTGGAGAGATTAATATAAATAAGACATTGTAGGGAAAATAGATATAATTAAAGTTACTGATATAAAGATTTATACTGATATAAAGTTACT
GATATAAAGTTTTCTATTTTAAACAGCCAATACATAAGTATAAAATTAGTATTTAAAGCAAAAGAGCTAAAAGCCCTGGTATTTTTCTCAATACTTTGCT
CATTTGGAAAAAAATGAAAATAAATATATAACTACAGCAGTTTCTGAACTACCATTATTAAGTGAAATACAGTCAATAACAATATAAGTAAGTGCCTTAA
GAAATGTCTTGAAATGTCTGTAATAATGTTAAAATAGCTGCCATACTTTACATTTGACTCACCTAGCTTATCATTAATATATGAGTGCCTACTATGTGCA
AAGGACCTTTAAAAGGACAAAGGAGTATAAAGATAAATCCTTCCAGAGTTCAACAAAAAAGATACATGTTTAAATTAACATGGATTCAAGTTTACATGGT
TTCAAGTTTGAGATAACATTTAAGCTGGACTTTAAAGATAGGCAGCACTAAAGGAAGCAGGGATGAAAGGAAGTGACATTTTAAACAGAGAAGTTAGTAT
GAGTTAAGGTAGCAAACGAGAAAGTTCCTAGCATATGTAGGGAACAAAGGTTACTTTCAAGGTGGAATATAGGGTGCCCTGAGGGGAAAAGTGGGAAGTA
AATTTGTAAGGCCAGTGCAAATTGGGATTGTAGACGTTAATTCATAGGGAATGGGAATCCAAAATGAATCAAAATAAAAATAYAATGATTGGTCTAGAAA
TACTAAGCCATAAACAAAATCTGGGTGAAAACATCTAATAGTCAACTACAGGCTTAAATTACTAAGGAAAAAAAAAAGTTCCCAACTATTGCAGTTGTTT
CACATACAACAGTAATTCTATGAAAGATTTTATAGTATACTGAATTATGGAGGCACACTGATATTTTTTAAAATGGCCCAAAGTGGTTTGCCTCATAACT
TAAAAAAAAATTTTTTTAACCATGGATTTAAGAGTCAATAAGGGTTTTTCACAGGTTTCTAATGTACAGATAAATATATGTATATTTTTCTAAAGTAGAA
CATTAGATCTTTCTCTAAGAGTATGATGATGACCTAGGCTGGACAGAAGGAAAAAAAAAAACTATGTAGAAGAGAAAAGTATAATAATTTTAAGAGGTGA
TAAAAGAGCAGGAAAGGGACTAGTGCCTTTCAAATCCTCTAGGTTGGTTCCCAAGCTGTGAGTTTTTGTTTAGCTGGTAAAGGTGACAGTTGAGGGGAAG
TGACAGTGGATAATAGCACATAATTTGCAGTGAAGGAGATGATTACAAACATTCATAATATAGGATGGTGGTAGTAGAAAGAGAGGGTATGGAGTTATGC
AGGCCTGAATTTCAATGCTAGTCATGTGATCTTGAAAACATTTCTTAACTTCCCCATAGTTGATTTTCTTCTATAAAATTAGGATAACAAATATTTACCT
TACAGGGGAGAATTAGAGCATAGGAAAGAACTTGATAAACATTCAATACGTGATAGCTCTTCAATAAAAACCTTTTGTTAAGATCCCACTGTGTGCTTAC
CMCTGTGATTCTGTGGCTTTTAATCTTTGGCAGACTATGGGAAAGATAAATTGTACTTAGAAAGATGATCAAGGAGCACTTCAAAGCCCCAGTTCAAAAT
TATCTCCTCATTCTCTCTCTCTTTCTCTCTCACAAATACACACACAAGCACACTTTCACCCTACCAATTAGGAATTTTAAGTTAACAAGATACTTTTTTT
AAAATACAGTGTCCTTTGGATAGGCAAATCACCTTCACACTTGAGTGTGATTAGTTCTTTGCTTAGTGAAAAGTTGCTGGGTTCTCCTGGAATTGGAAGA
AGGCAATGTGAATTAGGAACTTCTTGAGGGTACTCAGTATGATAGGAAGGTGGGAAGAAGGAGGAAGTAAGGGGAGACATAGAGAGCGAGAAACAAAGAG
AAAAGAGGCCACAAATATTAATAAGTAGTGGTTCTTATTTGGACTTTCCCCTTGGAGGGGACCTTTCCGTCCCCTGATAATCTCTTAGGAAGATAATTGA
CACTTAAGTTTAAATTGTGAAGCCTGTCAGTTGAGAAAAATGTTGAGACAAGTCTCAATCATTTTAGGACGTTTATTTGCCAAAATTAAGGACGTGCGCG
GGGAAGACAGGTCTATGCCTTTCTGGGAAGATGATTTTGAGGGCTCCAAATTTAAAGGGGAAAGGGTGGGATACTGAGAAATACAGTTTTCATGTGAGAG
GGTAGCAGGGGGAAAATAGTCATTCATGCCTCTGTCTGGCTTAGTCAATCTGAATCTGCATTTTTACGTAAGATAACATAGACAAATGGGGCAGGGGAAC
AATCAGATATGCATTTGTGTCAGGAGGGCAGAGGGGTGACTGTACCTGAAAACAGAAGCTATCTATTTACATTGCCATGGTAAATTTTMATAGAAACACT
TTATGGTAAAGATCTTGGCGCTCACTGAGAATTTCCTTGTGGGCAAAATATGAGCGAGGTGTGTAGCTTTTCATCTGGTAGCCATCTCATTTAAAAACCA
AGAGGCAAGGCAGTTTTGCGTGACCCAGTTCCCAGCTTAACTTTTCCCTTTGGCTTAATGAGTTTGGGGATCCGAGATTTATTTTCCTTCCACACGCCTA
TGCCAAACTCAGATTCCTTCCTTTCATCCCTGTTTCATCTGTTCAGGCTGGTTAGTTCCCCTTTYCAATCCACACAGAGAAAGACAGAAAAGMCAGTGAG
AAGCTATGTGTGCAGGACTTCTCTGCCCTCCACTCCATCTAAGCTCTCAAGAAACTTTTAGATTCTTTTGTTTTTTCTATTCATCGGTCTCTTAAAGAGG
CAATCCCACTTCTCCATTTCCACTTCCTAATAAAGAATGCTAAGTAACTTAAGGATTTTCTTTAAATTATGTAGCTATTCAATCAGGGTCAGTCCTAGTT
AATAGTTTTTCCCCACTTCCCATAGCCTCGGCTTTTAGCTTAGCTTTGGCAGTGAAGATCTGGCCCTAAGCTCTTGCGACCCAACCCCCAACCTAAACAT
TTCACAGGCTACTGGGCTGCGGAAAGCTGAGGCTGCCAACTTTGGAGCCTAGGATTCCCAGGACATCAGGTCAAGCAACTGAGAGGTCCACCCAGGGGTA
AATTCCACACATAGTTTCTTCTCTCTTGGGACCAGCGCTTTAACATCTGGGTGAATCAGATCGTGCAGACACGGTAACTAGGCGCAGAAAACAGCTGGAC
ACGTTGCTGGGAGCCCAGACAGAACGTGACCAGTAGTTCTCAGAAACCGCTTCTAAATACCAGCTCCAACAGGCTTGTAGCGTCCGAGTGCGGATAAGGC
AAGAGCAAAAACGAGCATAGTTTGGGCCGTTGGGGCCAAATCTGCACTTCTGAGAGCTACTTTTACTGCTAAGCTTTGAAATTGGATTTACCCAGAGGGA
AGCGTTGCAGTGGCAGCCGCAGGCAGGTAARACTAGTATTTGCACTCACACACTCCCCGGATTCTTCACAGACAGGGATGGAAGAGAAAACTTAGGAAGT
TGAAGTTTGGCATTAAAATAAAGGACTCGCCACCACTCTGTGCACCTTCTTGAGGGAGTTCATTCGTCCGGAGCGCCTCACAGCTTAGTRCGCCTGCGCA
CGCGCGAACTGCGGCCCCGCCTCTCCTTTGGGGACGGGAGACGTGCGTCGGGTCGCGGGACGGGGGCTGCGCATGCGCCTTCATTTMGTCAGCCCRCTGT
TGCGTGCTGCCAGCGGGAACTGTGTAGGGGTAGATTTTCGCTGCAGTGTTCCCCGAGCCTGTTAGACGCAGCGCGCCGGGAGACTGAGAGAGGAAAGGAT
AGAGGAAGTGCTGCCCTAGGCTGCATGAGTCGAAGCAAGCGTGTTTCCTTCCCGCCAGGCAAGTGCCCTTAGAAACCGGGCCCCGCCCCCTTCCTGGCCT
GCATTCCCATCCCCTCTCCCGGGGCGGAGGTGAGGACCTCCTTGGTTCCTTTGGTTCTGTCAGTGAGCCCCTTCCTTGGCCATGAAGCTCGTGAGGAAGA
ACATCGAGAAGGACAATGCGGGCCAGGTGACCCTGGTCCCCGAGGAGCCTGAGGACATGTGGCACACTTACAACCTCGTGCAGGTGGGCGACAGCCTGCG
CGCCTCCACCATCCGCAAGGTACAGACAGAGTCCTCCACGGGCAGCGTGGGCAGCAACCGGGTCCGCACTACCCTCACTCTCTGCGTGGAGGCCATCGAC
TTCGACTCTCAAGCCTGCCAGCTGCGGGTTAAGGGGACCAACATCCAAGAGAATGAGTATGTCAAGATGGGGGCTTACCACACCATCGAGCTGGAGCCCA
ACCGCCAGTTCACCCTGGCCAAGAAGCAGTGGGATAGTGTGGTACTGGAGCGCATCGAGCAGGCCTGTGACCCAGCCTGGAGCGCTGATGTGGCGGCTGT
GGTCATGCAGGAAGGCCTCGCCCATATCTGCTTAGTCACTCCCAGCATGACCCTCACTCGGGCCAAGGTGGAGGTGAACATCCCTAGGAAAAGGAAAGGC
AATTGCTCTCAGCATGACCGGGCCTTGGAGCGGTTCTATGAACAGGTGGTCCAGGCTATCCAGCGCCACATACACTTTGATGTTGTAAAGTGCATCCTGG
TGGCCAGCCCAGGATTTGTGAGGGAGCAGTTCTGCGACTACMTGTTTCAACAAGCAGTGAAGACCGACAACAAACTGCTCCTGGAAAACCGGTCCAAATT
TCTTCAGGTAAAACAATCTTACCCAGGGATAATTAAGAATGGGCAGAGGGATTGGTATAAACTACTCCTAAAGTTTTAGAACTGGGAAAAATAAGAAGAG
AAAGTCTTTACTTAGCTGGGATTTTCATGAGATAATGAAATAAAAAGAGAATGTTAAATGTCTAGCAAATTTATGGAGTAAACTTCGCTGAAACATATGA
AGCCTTACTAGCGCTTTTGGCTTTAAGCCTTTGTGRGCTGATTAATGGGTGTTCTAGGAGATTATTTTGCCTAACTTTTGTAATTGTGATTCTAGGTACA
TGCCTCCTCCGGACACAAGTACTCCCTGAAAGAGGCCCTTTGTGACCCTACTGTGGCTAGCCGCCTTTCAGACACTAAAGCTGCTGGGGAAGTCAAAGCC
TTGGATGACTTCTATAAAATGTTACAGCATGAACCGGATCGAGCTTTCTATGGACTCAAGCAGGTGGAGAAGGCCAATGAAGCCATGGCAATTGACACAT
TGCTCATCAGCGATGAGCTCTTCAGGCATCAGGATGTAGCCACACGGAGCCGGTATGTGAGGCTGGTGGACAGTGTGAAAGAGAATGCAGGCACCGTTAG
GATATTCTCTAGTCTTCACGTTTCTGGGGAACAGCTCAGCCAGTTGACTGGGGTAGCTGCCATTCTCCGCTTCCCTGTTCCCGAACTTTCTGACCAAGAG
GGTGATTCCAGTTCTGAAGAGGATTAATGATTGAAACTTAAAATTGAGACAATCTTGTGTTTCCTAAACWGTTACAGTACATTTCTCAGCATCCTTGTGA
CAGAAAGCTGCAAGAAKGGCACTTTTTGATTCATACAGGGATTTCTTATGTCTTTGGCTACACTAGATATTTTGTGATTGGCAAGACATGTATTTAAACA
ATAAACTAAAAGGAAATAATCTCCACGTACTACCATCTTGATTAAATTGTGTAATTTTTTATAGGAATTATGAGTTATCTGTAGTACTTGGAAACAGAAA
ATGTGTGTATTTAAAGACGATGCCTATGCAGTATATTGTTTGGGATAGATTGCAAAATTTCACACTGCATGCTTTGAAACAGTTTTCCTTAGAAAAAGCT
TTTGCTATCTTATCCTGTTTACATTATTTCTTTATTTTAATTCTGCTTGGTGTTCTTGCATTGCATTTAATGATCCCTTTTCTCCCCACCTCCACACACT
ACATTTTTTTTAGATTTAAATAGTTTTACTATTTTAAATGATTGCCGTACAATTAGTAGACTTGAAGACAAGTTTTAAATATTTTTCTTCAAAGGCTTGT
TAAACCAATCATGTWAAAAGGAAATTCTTGGTTTTGGTTTGTTGTTGTTAGCATTAGTCATATTTGATTTAGAGGGTAACTTAAATCAGTTATTTTTAGC
TTTTTAGAACTTTGATCTGCTAGGGATTGTCAAAATAATCTCCTTGAGGCATCTTTATTTTTAAAATGAGATTAAAGTATGTKATTTGCTTGTTATGTGG
CTAATTAGTGGCAAAGCTGGAAGTCATTCCCAGTCTGGACTTTAGTTCTTTGCGCCAAAACATGCTATATTATTTATTTATTTTTTTGCTTGTCAAAGTT
ATACTTAATTCTGTTTTATATTTGTATGTGGCATTAATTTGGGTTTGCACATTTTTATTGGACTATTTTAGTTGTGAAGAAGCCTGTTCTAAAGTTTAAG
TCACATGACTAGTATGTGGCAGTTGACTTAAACTCCAATACTCTTTACTATCATTGACTTAAACTCTGATACTCTTTACTATAATTATGGAATTGTGCAA
ATACCTCYGAGTTTAAAATATTATTTTTATTATTTTTGGTGCACATTCCTAAAAGTTAAGGAAGGAGCCTCAGTAATGGAATTGCTTCTTGACCTTTTGC
AAACYTCAATTTAGCAAAATAATTAGGAACGATCTAATAGTGATGATACAGTTTTTAACTGCTGGATCAGCGACGCCTATTTCAAGTAGTGATACTAACT
AAACTTTCGCCGGTCTTTCCTGTGTCTGTGGGCCTTCCTCCTGGTGTGACAGACTTGGGGATTTCTTGTAAACTTCCTAACTAGTCTGAACCTTTTTATT
TCTTATTGGGAACTGACACTTCCCTATACTTTAAAACTCACATATKTATATTTTTGTACATCTATCTCCTAATTCAAAAGTAATTGAGATTGTCATTTCA
TTATAATTCCGTGAGTATCTTTAAATTACTATCAAATATGTTACTAAATAATTTAATAAGAATATAGAAATGAAGCCACTGAGATCCTTAAAGTTGAAAC
CTGATTGTTATTATATTTTCAGTAAGGATTTGGAGATTTTTGGACATTTTTACTCTCATAATCTATGCAGTACTGAAATGAGGTCTAATAAATATAACCA
ATACATGTTAGGCCATAGGTTCTTAAATTTAGCTACCTGTTCACCTCAACTTGAGAGCTCTTAAAACCCTCAGTGTCCAGGTTGCAGCCCAGACTAGTTA
AATAACGTTTTATCCCTAGAAATGTTTTTTTTAAAGCTACCCAGATGATTCCAATAGGCGTCAAGGCTAATAGCCACTGATTCAGGCCTTGCTATTCAAA
AGTATGGTCCGTAAACCAGCAGCATCCCTGAGAGCTTGTTGGAAACTAGAATTCAGGGATCTTTTGTAGACCTACTGAGACAGGCGCTACCTGTACCAAC
ATCTCTAGATGATTCCTGTGCATAATAAAATCTGATAAACAAAGGCAATAGGTTATTCTTCCTGTGCTGGTAAATCTCTGGCAGGGGTCCCCAGTCAGGA
AAAAGATTTGAGTATTAAGGTCTTTCAAAAAAGTTAACTGGCCATACTCAACTGTCTATAAAACCKCTATAAATTTCTGTTTTTATGTCTATGAATTATT
AAATAAAATTTAACTCATTTTTAAGAAATTACATTTTCTGTTATCAAGAATACAATTCTTACTAGATCATAGGTGAAAATGTCAATAATGATAGGAGCAA
ATTAAAAATTCAGATAATTATTTTTGACTTTTCTAGAAGACATAATTATCTCTGGAAAGCATATACAGTAGTCTAATTCCAACTGCTACTCATTAAGTAT
TGGATATGTGATAAAAACTCTATCGATAACTCCAATGTACCTTCTCTAATGTACTGTAAATTTCCATTTCCTATCATGTGCTTGCAAACAAAGATTTCCT
ATGCCACTAAACTCAATAAGTGAGAAGCTTGCACATTATTTCATTTTGCTATAGCTACGATACATATCAAATGACAGCTACTCCTGGTCCCTCATTTGTA
TGTTAAATTCCTTGTTAATTTTATGACAAGATTGTTGATCTTGGATTTCACTTTCATTACCGTCTTAGAAACAAATTGGATTTTTCTGCTCCCAGATGCC
ACTAGAGTAGCTTTGTAAAGCTCATTTTTCTTATCTTTACTTAGTTTCTGTCTCTAACTTTAGTTTCCTTTTTCAGCTTCCCTGACTAATTSTCTTAACC
TCCAATTATCTTTAACAGAAGTTACTAATTCTGCAATTCATRTATTCTGGAACTGGAATTATCTKTGTTCCTAAGCAACCAAGTATACATATGAAACGGT
CTGTACATTAATGCCTCATAATAGCAGCTCTTATTTGGGAAAGGGTTATAGTACATTTAAACCATGTGGTTTTCCAAGCAAGTTAAGACTGSCTATTTGT
GTTTAGTGTCAGAATATGTTGAATTAGAAGTTGAAGAGTTTCTAAAGTGATTTTAAGGGCTTGAGGAGAGATGAACCCTTTTGCTTAGAGCCAGAACTTA
GATATGGGGTGTAAATATTTATATTACACTAATCATTAAGAGTAATATATTTAATTTTATCCATTTTTTTAGTGCCTTTTTTGAACCARTCACTGGGCTA
GATGTGGGGAGGACAAACATGTAAGCAAATCACTGTTAGAAGTAACTTGTACAAAGTGTGTAAAAGGACACAGTGGTGAAAGGGGTGACTTTTAGGAGAA
ACTTYATAGAGCAAGGACCAGTAAGTTTACCTAAAAGGGGAAGAAGAAATATGGAGAAATTAAGTGGGAAGATGGGGAGGGGAAGTGTGCTAATCACCTA
AGAACCTCCGTGCTACAAGAAGGAGTTTGGGTTTGACCATTAGGAGAAACAATTACAAAGCTGAAGCAGCATGCTAAACTGCATTTCACAAATACCACTT
TGGCAGCATCAAGGATCGATTKGAGGAGGCAAGACTGGAGGCAGGAAGACTGGTTAAAAAAATGCATATTAGGAAGATAYGAGAGAAAAATGATAATGGC
CTTATCAAAGGCARCAATAATGTTCCTTGCAATAGGAATGAACAGAAGTCAACAGGAAATATTAAGAGATGGGATCAAAAGGACATGACTGCAGATTGCT
GTTTAGAGTTATGGAAAAAAGTAGAATCCAAAGGTAAATCTCAGATTTCTTGAGTGGTGGGAGAGATGATGACACAAAATGTAACTTTAAAAATGGTAAT
TAAAAAAAAATGTTTTATGCAGTGGTGGTTAAATTTACTAAAAGATTTTTTCAGGATTCCCATAGTGCAGGAATTAGCAAGCTATATCTCATTCAGGCCA
ATCAGTTACTGCTAGCGGACCCCATGGCCTTGTGCTCCCCATCTTAACATAGTATCTCTGATTTGTCTCACYAGACAAATCAGAGATACACTTCCCCTTT
TATTCCGTGAGGAACCACAAGAGTCTGAACTGTGGCATCAATTTTGCAGTTGGATTTACATCTTTCTTAATGATTTGAAAATAATTTGTTTCAAAAATTG
ATTTTGACCAGCACACAATTTTGCTGGTATATCATGTTTAAGTAAATGAATTCTCCAGCAGTGAAGCACAACTAAAGTGAAGAGCTGAAGAGCAACTTAA
GAAAGAACAATTAATTCCAATAAAGTTGGTAAAATGCTCAGTAAAATAATTTTCTTCCAATGGATGTCAGCATATTTAAACTTTGTGGTGTGATTCAGTT
TATATACTCTAAGAGATTCAGTATTTTAGAAAAGTGCTCTTCAAGATTTTCCTAATGTATTATATGTATCTCTCATGAATTGAATTGATTTAGAAATTTA
GTGTAAAAGTGTTACACACAGCCAACATGATTTATAAAGGATCTAGGATGCAATTATAATATTTTTGTGAATCAATTATGCCTTTTTAGGAAAAGATTTA
GAAGTTAAAAATGCAGCTAATGAAGCTGTTAGAAAATAAAACCTGTATTAGTAGTCTTGGATTTAACAAGGAGAACAATCAGGAGTTGCTAAATATGGTC
ATCAAGTAGTAAACTTCACGTAGAAATAAAAAAATTGACCAAGTTCAGTAAAGAGATATTTATTTAGGTTAAAAATACCATTCAAAAACATTGGGAGAAG
GTATTTATTAATGGAGATACCTTCTTCAGTGGCGATGATAAAGTCTCATTCATTGTTTTTCTTTATATAGTAAGAATTAGTCCTTTTTAGGAAGTGTGTG
ATATATATCACCATCTGTATTCTCATCCACATGTTACACTATTATTTCTAAATTTCCAAGAATAATCTGTAAAATAACTATTTTGCAGTATTTAATATCT
CTATTTTCAGTAACATGTTATTATATTGTGTTGAGATAAATAACACTGATTAATAAATTGGAATATTATGAATGTTTTAATTTAAATTGAGAAAYGAATG
AGTTTCTGTAAGGACAAACACCTTTGTGTGTAGTATTATAGTTGCATACAAATTTGAGGCTACAGTGTTTGCTTTTTACAATGAATATTTTAACTCTATA
ATAATTGACATTGATATGGGAAGGTCTTAAATTTTCAGATTTCAGTGCTAAGGATGATAACATTTATGATAAATTGTGGAGACTTGGATATCAGTCTTCT
TTTAAATTTCCTTTCTTTATTTCCTAAAATTGCCTACATTAAAACCCCATTCTTTAGAATGTTAGTTCAATGGAAGTGCCTGTTTTCTATAATGTCAGAG
ATTTAAGGAATTTAAAGCTTATTTCTATTTGGGTGCCACATTTGTTTTCAAAACACCCAATACTGAGGCAAGAGCAGTATTTGCCAAGTAGCAAATWCAA
GAGCAAAATGTTTTGGCAGTCATATTGCCTGGCTTTGCCCAGGGTTGGTACCACTGTCCCCACTCCAGGAATGGACAACCTGTTATAACAAAAGTAACTG
TGTGYTTATTAAGTGTCAGGTCTTATGGTAAGTGCTTTAAAATGCATTAGTCTTTCAAGAACCCAGTCAGAAGGGTTTTGTCATTACTATTTTCTGATGC
AAAAAAAATGAAATTAAAGAAGATTAAATAATTTATCCAAAATAACAGTTAGTGGGTGTGATGAGGTGCTCCCTCAGCTATCACCCTAAAAAATCTAAGA
ATGCCAGTTCTTCTCAGCTTTCAGTTTGGAGTAGGCAAACATGTATCTAAAAAWAAAAATAAATTATTTGATGACACTAAATTTTATATAATCAGCCAAA
GTTTATGCAATCATTTTTAATGTTTTTATTCTATTATTTTGTCATCTYATGAAAAATCAGGAACTCAATTCTGTGGTCCTCTAATCTACCTGGATCATAG
TGGAGAATTAGAAAGCAGAGAAAATGTGGCAAATCTATGTATTAAAGCAATCCCCTCAAGCAYTATCCAGCATTCATTTATTGTTATTTCACACCTAGTT
TCAGCAAGCTTTTTTTGTTGCTTAATTTTAAACCTACAATTAAGTCATGCACTATTACAATAAACTTTTTTTTAATGACTCACCTTAAGTAGCTAGAACT
ATGCTACCCCTGGGTATGCAAGGATGAATTAAGACAGTTTTCCCTGCCTTTAATCTAGAAATTAGATATCAGCAGGAGATGACCACAAGTGGCCAAGTTG
ACAGAATTGACAGCAGTTAAAAGTGACAGCTGATAGTGGGAGTGGATTCTGAAACACTGTCAAAAGAAAAAAAGCCTAGAGTATTATAGAGTATTTCACT
GGGACTTGAGGATGTTACTGAGGACAATACCAGTACCTGGTATTCACACTGAGGAAAAGATTAAATTACATTCAGTGTATTCTGTTAAAGAAGTCAAATA
AATGTAATGTCTTTCAATGATTTTCATCCAAAAATAGTGGTACTTTAAAAAATCTTTAGCTGTCATACCTAGAATGACTGTTCCAGATAACCAGAGTTTT
ACTATGCCTTAATAGTCTCAGTAATAAAACTCAAATAATTGTTGAAGGATGAATTWTTGTTAAGGAAAAAAATCCCAATAGATTTTAGTTGTACAATTTA
TTCAGAGATAGGAGGTCCTTCTGAGTTCAAGTCTACGTTCCAGAAGTTTTATGTCTGGAATTTTTCATCAAGTCCTAGTGTAAACATTGACTAGAACTTT
TTGTTTGACACCATTGTGAAAAATTGCTCTGTGGATAGAAAACATTTTAATCTTGTGTTTCAGCTCATTTGATCTGATGACCATAATTTATAGTTTATTT
TTCCTCCCCAAGTGTGTTGTTGACTRTGGTATAATTCTTTTTTTCTTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTGTTTGATGAGTTTG
AAGAGGAAGCTTAAAATACATTTCAGTACATGGCTCTGAATCACTTAAAATCATAAGAGGTTAAAGCTGTAAGGAACTTTATATATCATCGGACCTAGTT
CCTTCATGTTACAGATTTAAGCCAGCCCAGAGAGGGTTGGTAACTTGCTCAAACACAATAGGAGTTTTTCACAGGGTCCACATTCCTGTTTGATATATCT
GATTCCAATGTCACCTACTTTTTGTCACCTATTCATATTGAGTCATTTGGGGTAGAGGAACAAGGAACAATGCAGGATTCAAAAATGCCTTAAACCCTCC
TTATTTATCAAATTATCATCTTGTGGCAAGGCAGTTTTTCTCTGAGCAGCATTGCTGAGACTCAAACTCAGTTTTGAAGTCTTGTTCATTCCTTGGAGGA
GTATTTATATTTCCCTATAGGGAACTCTTCCTGCCTTTCTTCTTCTGAGAACCATTTCATTTTTCTGAAAATCATGTACTAAGTACCTACTATGTGACAG
GGACTCTAATAGCCCCCAGTGATCAGAAGTAAAGAAAGATCACAGTCTCTTCCTTGCAAAAAAACACAGTCTACAATGGGGAACGAATGGTAAAGCAGTA
GTAATAGCAGTGCAATCTGGCACAGGAACATGGGAGCTCAGAGGGCTAACTCAGCCTGGCTTTAGTGAGGAGGTATTCCCAGAGTTTAAACTGGCAAGTT
CCAGAAGCCCACACTGATCTTCCATTAGTTTCTAGAGAGATCAGGTGAAGGGACCTGAGMGCATTCCTCTTTTAAGGCCTCTCAACTTTACTTTTTTTTT
TTTTTTTTTTGGAGACAAGAGTCTTGCTCTATACCCCAGGCTGGAGTGCAGTGGCCTGATCTTGGCTCACTGCCCCTCTGCCTCCTGGGTTCAAGCAATT
CTCGTGCCTCACCCTCCCCAGTAGCTGGGGATTACAGGTGCGTGCCACCACACCCAGCTARTTGTCATATTTTTAGTAGAGAYGGGGTTTCACCATGTTG
GCCAGGTTGGTCTCAAACTCYTGACCTCAAGTGATCTGCCCATCTTGTCCTCCCCAAGTGGGATTACAGGMGTGAGTCACTGCACCTGGCCTCAACTTCA
CTTTGGTAATATTTTTCTTCTACAGAGTGGTCTCTGTAATCCCTGATCTCTCTAAATGTTAAATATTTACTGTGGAGTCAACAAACCTGAGAGGAGACAT
CATGGAGAAGGAGATTCCATTACCTCCTACYCTCATAAGAAAATGAAAATCAAATACAGACCAGGGACCATGACTGAAAGGACTCTGAAAGATTGTGGAA
CCTTTGTATAATAGTATCCATGTTTTTGTTGTCTCCTCTGCATTTCTTACATGACTAAGCACTGACTGGTTAAACCAGAAAAGGAAGCTTAGCTTCTTTC
GTTTTTAGGACAGCAAAGATGGGGATGGTGACAGGGGAGTTTGAGACATTCTGTCCCTTTCCATAGCCATTCCTGGAAGAAAGAATGTCCAGGATTAACT
GGTTGGTGGYRCAGCCACCTCAGGGAAAGGGAAACTGACCCCTGGGGACTGAAGTCAGGAATAAAGAAGTGACAAGGAGCTAGCTGGGGCCTGGGGAAGG
CCCTGGGGCTGGACACTAGAAAGACCCACCGGGGTCTTTTCTATTTTTWTATTCAACATTTTATCTTTCGTTGTAAAACTCAGGAAAACACCTTTAACAA
ACAAAAATAACTTCTCTCTTAAGTTGTTCATTKTACTAAATGGCCAACATGGATTGGATATGGTAGAAGGAAAGAACATTTTCTGCAGAAGGGAGAAAAA
AACCACAATCTATTTTATGAGGAGGAATGAACTCTGGGAATAGTTCTCTGACCCTTTGTGTGTCAGTGTGTTCTCAGCCTGAACTGGAAGAAAATGGGAT
RGCATGTGGAATGTGGGAAAGTGYGAAGACTGATGCAAAATTCACTATCTGCCTCATTAAATRCACTAGTAGGTTTTCAAGAGAATGAGTCTGTTATCAC
CACAGTAAATTTCTCACTCTGGGCCTAACTCCTTATCTAAAACTTAATAGAGCTTAATAAGTGTTCAAATTTTTCCTGTCTTTCTGGGAATCATTTTCAC
CTTTATCTCTGATCCTGTACTTTCCCTAGGTCAGAGTAAAATATAATGGGAAACGGGCAAGTAGGTAGGAAATGTGGAGAAGGTCAAGGCCTTTTTATAA
TGGTTCATTGTAAATTTAAAATTCTTAGATATGTATTTCATACAGATTCACATATGTTCTTCTGGATGAATTAGAAATTTTAATTGTGAGGATCAATAAA
GTAGCGCAACCAGCTTTCACATYTGTATGAAATTTAGGACTTTGCAAAGGATGTTGCACACCAAAAATTACAAAATAATTCAACGATTATTTGCTACAGT
TACCAAAGATTATAATATTAACATTTGCAAGAACATTGCATTTGTGAATAACCAAGTATGATACAAGGAAGAAATCATCCATGTCATTCTCAGAGGATAT
GGTGTAAGAACTGGCCCATGACTCATGACACCAGGCCCTGCCACTAGGTTGTGTGACTTGAGGAAATAATTTCATCTTTTTGAGAGTTGGTTTCTTCATC
TGCAGAATGAGCAAAGAAGGGTGGCTCTTGACTTCATAATCTCTCTTGCAGATATCTGATTCTACTTGGTGCAGTAACAATAATTGCTTGTTATTTTTGC
GATCATGTCTTTCCAGTAAAATAAATCTTTAGTGACTCTCAGGTTTAAAAAGAATCTTTTTTGCACCCTATTTTAAAAGCTGCCAGATTTGGGGTTTGGC
TGACTACTAAGGAGAGCAGCCTGCTAGAAGGAGCAAATTCCAGAGCTGAGGGTCATTTATTTGGAATGCTTTGCYAAACACTCCCCTATTTTYAAAGTTG
TTGGGGGACTTTAAACTTGAATATAGGGTGGTAGGACAATTGTTTGAACCACTCTGTAAATACRTGCATGAAAATCTTGAGGTTTACAAATATTTTTTAA
TAGTTTGCCACATTTCAATGGCATGTCAAGTTGCAGGGTCCTGCCACTTTTCTTCTTGTTATTTTCCTCTTCTATCAACTTTGCTCACTCTCCCAAAGAA
ATAGGCAATGAGAAAAAACAGGTCTTAATTTTTACTGGAATGCTCTTTCCATTTGGCTAGAGGTTTCTCAAACCAGGCGGCACCAATCACCTAGGGAGTT
TTAAAATCATGGTGATGCCTGAGCCCTACCTCAACTAAGTCAGAATATTTGGGAAAGGAGCCCAGGCATCTGTACATTTTAAAAGCTCCTCAGGTGCTTC
TTATCTGCAGCCAGGTTAAACCAGGAGTGTCATCACTGAGTAGGACTATTAGCTTTAATGTGTCCTGTGACCACAATACCAATCAGCTCTCTGGTTAAGA
AAAGAGATGAACATAGACATTCTGAAAAGGCAACTTTATAAAGTTGAGGGGAATGTATTTCTTTAGCTTTAATGCCTCACTGTGGGATTTGTCTATACAT
TTATGTATTTTTAAATTACTATCATAAATTCACAATTAGTACCAAAACCGATCAATTTGTGAATATTTATTGATGCCATTTACATGCATATGTGTTGCTA
AATACAATGGGAGGGGGCCTACAGAAAGGTAGAGAACCCAGATCCCACCCACTTCTTGAAGCTTATAATCATTTTGGGGTGCAAGGATTGTGTAAAACAA
GACACAAAAATCACACATGTTACAGAAATTAAAAGCTAATATCACTGAGAACAGGAAGACATTACAATTGGCTAGAATCACCTCAGGAGATGGTACTTGG
ATCTGGGCACCCTTTGAATGTTTTTCACTTATCCGGTAGGTAAGGACATTAGCTCTGGACTAGRAAATCTTGGATCTCCCACAGGTGAGCTCTGTGACCT
TGAGCAAGTAATGTTACCTTTATGATTCTCAAACTTAGCTTTGTGAGCTTCAATTTGTAAAATGGAAAAAATGATAAAACTGCTCTCATAGAGTTGCAAG
GAATAAATGATATGATGTAAGCAAAATACCTGAAAATTCCTAAGAGCGCAATTTAAGTTCATTTTGTTCCTTCTTATSGCTTTTTTTTTTTTTTTTTTTT
TTTTTTTTGCCAAATACACCACTTGGGCAACAGATCAGCCATGGAAATATGATGCAGAAGATCTGCCTCATGCCTGTTCCTAACATAAATCTCTCTCTAC
CAAAGCTGTCTGTCAGAGATTGTGTTCAAACCAGAACAAGTGGACCCACTCAGTCCAGAGTTACCCTCAACATGAAACAGGCTACCCAGCTGGTTCTCTG
TCTTTATAATATTTTTATTTCTTTAAATTTGATGAAAGACCCACTTTTGTGAGTTTTACACACAAATGAAGAGGAGTACAGAAGAGCACATTTCAATTGT
AATGTTCATGCCAGGAATAGTAACCTCTTCAAGGATACCACTGAGTGCACACAGAATGCTGGGAGGTCCTGACTCTGCTTATGGAAACCACAGAAACTCA
TCCCTGAAACTGGTTCTATAGCAGCCATGACCCTCATTAAACTTCCAATCAAGTAAAATTAATATTAGCTATTAGGTTAGATGTTAGGTATTGTCTTTGC
CTCCATTTAATCATCTTACTTCCTATGGTACCTGTTAATTATGATTTGAATCTCCTTAACTGCTCAGCCTGGGTGTTTCAGCCATATATAAGTCATAAAC
AGACTACAATTATCTTACTATTTCTCAGTTACTTGCAAACAACAGGAACCAAGTCTGATAATACAAGAAATGAAGAAATTTTCTGGAAGAAGGCAAAGAG
GCTCAGATAGGAACAAAGAGGGGAGGCACAGTCAGAACCCTGCTATAGAAATCACCTGTGTAAGGCAATGCAGCTGATGGAATAGCCACCCCCAGACAAC
CATCACCAATACACTGGGGCTTCTGAGAGACTCAACCAGAGCTTCTGAGAATAATCTCTGAGTGTGAAAATCAGATTGGCTATTGAAAGGTCACRTGCCC
ACATTCTATGAACCAGGAGCAGGATAACGGACTATTCTATATGCCTACATCTCCTCCTCTCATTCACATCTCCTATGTACCTTCCCCARCCAGGAGGAAT
TTGTGGATTCTAGGTAGCCAAAACAAAAGAAAATATTCACTAACCATTTTAAAGAAGTTGAAGTAAGAGAACTAACATTTACCAAATACCTTGCAAAGCC
AGCCATTGCATTGGTATTAGGGGAACTGGTAGACTGTGCTGTTATTAGTACCTTGCAGTCAGACTGGCATTGTTCAAATCCCAGCTCAGCCACTTGCTGG
AAGAAACAATGGTCATGCTGAGCCTGGACTGGCAGGACTCCAGATCCTGATGACATATCACTGTTTTATGTAGCCCTGTTGGACTGATTTCACTTCTTTT
TAGTCTCAGGATTTAATTCACAATGAGTTGTTTTTTGGTTTGTTTGTTTGATTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGC
GATCTCAGCTCACTGCAACCTCAGCATCCTGGGTTCAAGCGATTCTTGTTCCTTAGCCTCCCAAGTGGCTGGGACCACAGGCATGCAACCCCTCACCCAG
CTAATTTTTGTATAGGCGGGTTTTCGCCATGTTGACCAGGCTGGTCTCAAACTTCTAACCTCAGGTGATCTGCCTACYCCAGGCTCCCAAAGTGCTGGGA
TTACAGGTGTGAGCACTGTGCGAGCCCACAATGAGTTTTTAACACTTACTGTTCCTCATCAGAGATGCCAATTTGTTAGGAAAACAAAGTGCATCCCTTT
CAGGCTTCATATCTGCTTAGAAAAAAGCACAATCCTATAAATTACSTAATCATATAAATTAGTTGAGTAATACAAAATTATTTTTCCTTTTATCTGACTT
TTTTTTCTGAATAAATTACCTTAAACCTGGCTTCAGTTTGCTCATAAGYTCCTGATATTTGAACAGGTATCTGCCCAACAATCAGAGAGAATTAGTCCTC
TGCACCTTCTGAGAGGTATTAAAAAAAAAGGGGGGGAAAGAAAAAGAATCAGTCCAATTGGTAGATTTTAAATGGCTCATTTAAATACTACAAGTTTATC
AGTCTCTAAATTTTCAGCCTAGGAAAATTTCARCCAGGAATTTGATATTAGTCCTGATGCATCACGRAAGTACGGAAACTCAGTTTCTACAGACCCAGGG
CTTCCTGGGGTTACCTCAGGCCACTTATATCTCTTATCTGTGCTTTTCCTTAGCTGACATTTGGTTCTAGAATGAAATGGAAGTCAGGAAAGAGGAAAAT
GATGATGTACTTCCCCACTCCCAACACACACTTGTCTTTAGCCTAAACATTGTTTTCCAATCCAGCTGTCAAACTTCAAGTATGGAAGAGGAGGAGAAAA
ATCAGCTAGCAAATATATCCAGATTTCCTGCTGGGCACCAARTGCTAAGCAGGGTAGGCCAAAAACATTTAATCAAAAAAACAAGATCCACCACGGTTTT
TACTCTCCTAAAGTAAAATATAAATTTGGAGGTGAGCCAAAGTTAAAAATATAAAAATATAGCCAGTGTTTCTCTCCTACTTTCCTAGGGTTGCTAGGTT
TTGGGAGCCTGGGATRGGGGAAAACAGTAGAGGAGACATACTTATTATAAAACATTCAAAATAGTGAATGGGACATACTTATTCTAAAAATTTACTTGCT
GTTTATCTGAAATTCAAATGTAACTGAGTATCTAGCAACCCTACATCCTGATATTCAACTTTCCTACTCCCCTGGYCATGACTGGCTTGGGCAGGAGAGA
TCTTTGCCTGGGTAGATGTTGGGAGGAGCCTGGTGAATGTATTCCTTCCCAGGATTGGTCTTGGCTCTAGTTCTGGAGCCTCTGTTGGAAGAATGGAGAA
GGGCTCCATTCCAAAAAATGGAATAGGGATCTCCTTCCCTATGTTTGGAAAACACTGGTCTAAGGCTTTCAACAATAGCCTTGAATATCAATGAATGTCT
ACTTAGCAATCATCTTTTCCAGATGATTCTTATGTCTTAAAATAATGTTACTTCAAGAAGGTRCCTAATTGTAAGACATMCTTACAGTAATAGTAGTTGG
GTTGTGATGCAATTTGATAATGTGAGATTCTCTTAGAAAATAAAATTAGTAATAAATAACTACAGCTGAGTTTATAATCTTAATAAATTAAGGTAGCTTA
ATTTAAAATGTATAACTAAACAAAAACTAAGTCACAAAAACTCCTTGATGACATGAATAACATACAGCAGGGAGACAGTAGTAAGTAGTGGCTAAGGGGA
AAGGCTGTGGAATTACACCACCTGAGTCTAATATCTAACACTGATTATTGAGGTGACTTACTGAAGTTTCCTCACCTGCAAACTAAGTTACAACCTATTG
TGTTTTTTTAATTGATTGAGATTATTAACACTTTTTATAATGCCTGGTCCAGAGTAATGCTCCAAACATTTTACCTATTTTATATGCTAAATTTAAACTT
AATCTTTTTGGGACTTAATATATATCCATGCACATCGAGCATATTTTAAATTCAGAAAGGAAACCAATATGCCAGCAGAAATAAAACAAATATTCTTGTT
TTCAAATAAAGATCATTTCTTTATGAGAAAGATGAAAATTAACGATCTTTTAGAGATAGTTCAATGTTAGCCACTCACAGTCACAGGTTTAAACCGTGAA
GTTAGTGTTTATTTTTATGAATCTAAAAACAATTGTTCCCAGCCATGGCATGAAGTCTTCMTATTGCCCCAACCCACATAAACACACTAGAAATTTTCAT
TCTTAGGGAGGGATAGGGAGGCTGGGGGCTACTGAATGGACATTTTGTTAGTTAAGAGCTCACTCACAGGCTGAAGGAGTGTGGAATAGGTCCACCATTA
GCTATTCTGGCCATACCTCTCTTAGAGATTGGGGTCCTGGTTACCAACGAAGGACCATGTGGCCATATCCAGAGGGTTGGAGCAGGTCTCAGGGCCCATT
GCCTGGCACACCTCCTCCCAGAATTCCTGAGGTATAACCTTCTCAGGAAGATAGCAGAGCTCTTTTCTAACACTCCRCTATTTCTGGAGAGTAGTGAGTA
TATTCCCCTCCAGGCCTTTTCACTTTTATTCAGAAACACAGGGAAAATAATAAAAGTCTGTCTGTATTATGACTAGCTACAACAGGTGGGGGTTTTCTTT
GCAGTAATATTTTCAAGTGGTATCACCTAGCAGCTGGATTCCTTTGCCTTAACAGAATTGGCMCCCTAAAAGCAAAAGAGATGGAAGCACTGGGAGTGAT
AAACTTTGTCAGTTTAGAATCAATTTAGATCAGTTTAAAACCATTCAAACTTGACACATTCAAAAGCTTTCAATGCTATCCACTAAGAAATCATATTTGA
GGAATTTTTTTCCATTAAACATTTAGTCTGGCTTAAATMTAGTAAGATGCTAATCTTTTCGAAACTTGTTTTTCTTTCTTTTTGTAAAAGTCAGTTGAGT
TTAATATAACAAAAGGGCTGAATACCAGAGGTAGAGAAGGAAGTGTCCCAGGCTTGGTTTCAAGACAACTAGGTCCTGGATTCTACAACTAAGTGATTTT
GTGACCTTGAGCATTACTAGCCATTGTGAGCCTCATTTATAAAGGAGGGATAAAGATTAAAATTATGAAATCTTTCTGTAAGTAATTGGCACACAGAATA
GACGTTCAATAAATGTTAACTCTGTAGCCTAGGAGTGATCTGGTTACAAGCTTTGTTAAAACTCCTTCTTTAAGGAAATGTAAAAATAAATTGGTACTGT
CAAAGCTTTTATGCCCAGGCCATGTAGAGATTATCTTCCTTCCAAAGAAACTAAAATGGATTGAGAAGACAAATATCATTCCAAGGAAAGGCTAGAAGTC
TGCAAAATTATACAATTGTACTTTAGTGCACCAAAGATTAAAAATAATGCAGTCAGAATAACATTTATTTCATCTACCAGAATSTTACCCTATTTCTTGC
CTTTGATTAGTTTAAGAATAGGAAACTAAGATAGTACAGACTTATAAAGATATAACGTATTTATAAATATGTATCTTTGCATATGCAAATTATAATATAC
ATATTTTAAAAGTTTGCTTCAGTGAAATTTAGAGCATGAGCAGACAACCTATTTTTGGTGAAGAGTCAGAGATAATAAAGTTTTTAGCTTTTGCTGGCCA
CACAAGCTCTGTAGTGACTACTTGACTCTATCATGGTATGGCAAAAGCAGGTCTCAGGGCCACAGACAATAGTAAATAATAGGATATGATTGCGTTCCCA
TAAAACTTTATTTACATAAGCAGGTAGTGGGCAGGATTTGGTCTGTAGGACACAGTTTGTTGAACCCTGGCCTAGAGCATGATATAGAGTATGCTTACAA
ACTGGGCMTAATTAAGATAACTATTCTAGAGGAAAAAGAATGTATATGCTTAGATTAACTCAGCAATTACATAAACACAACTGTAGTACATACATCTATT
CTTTTARCATCAAGGCTTGCTGAGTTGAAAAAAAAATGGTATGGTTCTCTAACTATATTCTGTTGAGTTGCTGGTGTGTAAATCACATTGTAACTGGCCA
CTATTACTTTTTGGAGTTCTAACATATGCTTATTTGCACATTAGGGTTTACTGTTTTTCTGTGATAGACAAATACTGAAATTTGATTCAGATCCATTACA
CAAATGGCCAAGACAGGATATTCTGTGAATTTCCTGGGAAGTATATWCAAGTATCACTTACCTGACAGCATCTGAGCCATTGTGTTATAAGGAATTTCCT
GCAGGGATTGAATTAGTTAGGCTTAGCCCTCAGTGGTTTTGTAACTATTTCCCGCATTCACCTTAAACAATGCCTTTTAGAAGTGGTTTTTGGGTGATTC
TTTTTCTCCAGGAAGAGATTAYAAATAATGAAATGATTAGACCATTAGAGAATTTAAATCAGTAGAGAATGCTAATTTCTTTTTTTGTCATAGTAACAGA
GCAAGCCAACTTAATCAGTGCCCTGACAAAGCATCCAGCACCAACACATACATTAGAAAGGTATCTARTTCCTCACCATTTTGGTATTCTAATTTTATAA
ATTTYAATTCTATTCCATTTTGAGAGTATCTAGGGATCAGAACCTTTATGGAAGACTAATAACTAGGTAAACACTATTACCTAGCTTAAGAGACCCTAAA
ATGTCAGTGACTTCATACCACAATGGTTTATTTTGCTCATGTATCTCATTCCTGTGTGAGTTAGATGACCCCAATCCCTCCTGTACTATGCCCTTGGGAA
CACACATCTCTATGGTTACAGTCAAAGGAGAGAGTTGTAGATAGAAAACGGCACACTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACACACG
TGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATGGTGGGGTCAAATGGTATTTCTAGTTCTAGATCCCTG
AGGAATCACCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGT
TGTTTCCTGACTTTTTAATGATCGCCATTCTAACTGGTGTCAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCA
TTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTCTGCCCACTTTTTGATGGAGTTGTTTGCTTTTTTCTTG
TAAATTTGTTTGTGTTCATTATAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGATTGCAAATATTTTCTCCCATTCTGTAGGTTGCCTATTCACTC
TGATGGTAGTTTCTTTTGCTGTGCAGAAGTTCTTTAGTTTAATTAGATCCCATTTGTCAATGTTGGCTTTTGTTGCCATTGCTTTCGGTGTTTTAGACAT
GAAGTCCTTGCCCATGCCTATGTCCTGAATGGTAWTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGATCTGACATTTAAGTCTTTAATCCATCTT
GAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCRGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCT
TTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGATGGTTAGATATGTGGCATTATTTCTGAGGCCTCTGTTCTGTTCCATTGGTCTATATCTC
TGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAATTTGAAGTCAGGTAGYWTGATGCCTCCAGCTTTGTTCTTTTGGCTTAG
GATTGACTTGGCAATGCAGGCTCTTTTTTGGTTCCATATGAACTTTAATGTGGCACATATACACCATGGAATACTATGCAGTCATAAAAAATGATGAGTT
CATGTCCTTTGTAGGGACATGGATGAAGCTGGAAACCATCATTCTCAGCAAACTATCGCAAGGACAAAAAACCAAACACCACATGTTCTCACTCATAGGT
GGGAATTAAACAATGAGAACACTTGGACACAGGAAGGGGAACATCACACATCAGGGCCTGTTGTGGGGTGGGGGGAGGGGGGAGGGATAGCATTAGGAGA
TACACCTAATGCTAAATGACGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAAA
ACTTAAAGTATAATAAAAAAAAAAAAAGAAAAAGAAAATGGCACACTTGCTCTTGACTCCCTTGGCCGGAGGTGGAGGTAATACATTGTTAGTTCTGATC
CTTGTTCATTGATGAGAACCAGCCCACATGGCTTCCACCTACTGCTAGGGACTCTGGGACATACAGACAAGCACATAATTATTTGGTGATATTTGGTGAG
CCCTAACTGCCGCAGAAAAACTTTTGAAGCATTTAGTTCTCTCCCGAGACCAGAAATCAATCAGGTAAACATGAATAAGAAATTTATAGTATTATCTCAG
TTTTTTTTTATTGGCTTTAACAAGAGCATATGCTGGGAGGATATTTGCTATATTCTGCTAGTTTCCCCAATTTAAGGTTGTCTGTTTTGATTAAAACCCC
TTAGCCCAGTGGAAAGATGAAACTCTCATCTATTTAGTCCTTAATATCTCTATCACTAAATGGATAGGTTTCATGTACTCTTCAGTATTGATAGCCTACT
TTCTAAGTGTGTGTGTGTATGTGCATGTGTTTCTGCCATTACAGTCATTGTATGAAACAATTATGTATTCTGACAACAGCTAGCACAGATTTATCTATTT
AATAAATGTTGGTTGATTAATAGATAAAGGCACGTTTATATATACCAGCAAATACGAAGACTTGGATTCAGTAAAGTTTGATACCATTCAATAGCATTAA
GATTAAGGATGACTGTGAYGGCCTTTAGTTTGCATTTTTAGACTGCTTAATTTGGGTCAATGTTTCTCAAAGTTATCTCCAGTGGTCTAAACTGTTAAAT
CTGTTCCRAAGTCTAGGAACCTATGTCAGTCAAAAAAGTATGTTTTTAGACAGCTCTCCTCACCCCATTCCGTGTGAAGATGGCCCCACTGATATTCATA
AAAAATAAGAATATTCCCTCCCAATGAATGTTGCTATAAGGAAATTTGCTCATACAGAATTGGTAAATGGAAAAATGATGTCACTATAATACATAAGTCA
CTATAATTCAGTTTTCCCTAGCACCTTAATGTTTATACTACCAATGCCACCACTTGAATGCCAAATACACTAAGAGTTGGACACAGTAAGCATATACTCA
TACAGTATTGTAAGGAATTCCCATTCTCCTTGTATTCTTCCTCTTTGCCTAGTTTTGCTGTGTGTGATTTCTTGGAAGGGCTTATATAATTGGCCCCAAA
CTTAGTTCATTTTGCCCTTGTCCCCACAACTATTCAGCCTTAACATTTTCTTACTTCATTCCACTGTAATCATTTATTTAGTATAGAATTTATTAGGAAT
CTAAATGCCTTTAAAAWTAYGCTAGTATTTTTATTTGAGTTGTTTCGACTTTATGTTTTAGCTAAAAAGGTGTATGGACTTTGAGTTGACTGCCCCAACT
CTGTTTTTATCATAAGCTGTATGATTTTTATGTGTGATTTTGTAGAAAACACAAGATTGCTTTTAGGAATGAATATATCACATTATAATAGAAATATCTG
TTTTCTTGCAACWTAAATTGCATATATTTTATGAATGGAAGAATGTCAACAACAAAATTGGCAATGGGACTATTTGAGAATTTGCCATGTGGAGGCCGTT
TCCTGACCTTTTATCCTTTATATGCTAGAGTGCTTTAGAGTTTCCAAATGGTGTTCATATGTRGAATTTTATGTCAATCCTTGAACAATACTACAAGGAT
CATTATTAACATTTCTACTTGATAGACTTGGAAATCAAGGCTCAGAGGAGACAAATGTTTTGCCTACAGTAGATTGGTGACAACATTCTGGCTATAATTA
GTTACTCTAYTCAAATAAACATATTTGAGCTTCGATTTTACTTAGGGCACTGGGGATACAAAGATAATTAAAATGAAACTCAGTCCTCATCCAACCAGTT
GCCTCTCTTCTTCCTCCCACTGATTCAGGGACACTTCCGTTTGGACTGGGCAGAGCTAGACAATCTCAAACTCATAGAGGCATCTGCATTGCTAGTTTCC
TAGAAGAGCTGGAGGCTGAGTATCCGGACTGCTCTGCATAGGGGATATGGGACACTTAGGTGGCTCCTGGCCAAGTGGCCCAAGCCTGTTGCTGACTGGA
AGTCTGTCACTTGGCTCTCCTCCCTCGCCAGTTCGTATTGTAGCCTCTACCCTTGACACTGTCTCACCCAGTGGAAACACAGCTGCAAGAGCTGCAGAAG
GCCTATTACTTCTAATCTTTCTGCTTCGTATGATCGGTAATTACACCCCAGGGACACATAATGAAGATGGTTCATCACTGCTTTTTATGTGCTTCATAGT
GTGAGATAGTGGACTGGGAACTTGAATCAGAGCAAGAAAATTGTTTTCTGCTCTRGGTTTGGTCACTTAAACTAGCCACAGTATATTAGGCAAAATATTT
CAACTGCTTGGGCATCAGTGTTCTCATCATTTGAGGACACTGTCTCATTAGATGGTCGAATAGGGACTTTTCCAGCTATAGCCTTCTGAGATTCCTCAAG
GACACATCGAGTTTGTATTGCATGGTCAAAAGAGGGCTCCAAGGAACCAGGTCTAACAAGCTTTAAGGTGAGTGAGTTCTCTCAATGGTGCCCCGACTTT
CCTGACATCCTTCTGAATCTTAGACAAGCCTCGGAGAGAGATACTCATGGAATGACCAAAATGGTAGCACCAGATCTGTATGAGGTATTTAATCATTTTA
TTTTATTTTAATTTTTAGACAGAGTTTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTACGATATTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGC
AATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTATAGGCTTGCGCCACCATGCCCAGCTAATTTTTGTATTTTTTAGTAGAGATGGGGTTTTGCTCT
GTTGACCAGGCTGGTCTCAAACTCCTGGCCTTAAGTGATCCACCCACCTCAGTCTCCCAAAGTGCTGGGATTGCAGGTGTGAGCCATGGCACCTATCCAA
ATCATTTTAAATGGYGATGATTATGTCCAATAAGTCCATCTTATTCTCTTGGGCATCTCAACCTTTTCCTGCCTTAGGAAAATGGAGGTCCTCTAACTCC
TAAGATCTTGTCACATGATCCTGCTGTAGGCAGAACCCACACCAGTTAAATGTTTATTTACTTGATCAATGTTTAGCCTGTGGTTGGCTTTTAAATATCC
CAACGGAGACTGAGAAAGCAGTGCAGAGAGTGCTAAAATACAGACAAAGGAAAAGAAAGAATTGGAAACTAGGAGAAAACAAGGAAAAAAGAAGGGGAAA
GTGCTTTCAGCATTTCTTTTCAACTTCCTCTACATGCTTAGAAAACAGAATTGACTTTTGTATGTCTGTGGTAGCTTTACAAATAAATTAAACATATTAT
CAACGTTTGCCAATTTATTTTACAAGTATACGGAATATCATTAGCACATTCTGGTGATAGTATGTCAGATATTTAAAGAGCTCTAGCTTGAAGAAAATGG
GCCTTACTTTAAGAGTGCTATATTTGTTTTATGTTCTCATACTTAATGATCTGGGACCTAATTTTCTTCAGCCCTGATTATGCTTTGTTTCATGACCTTT
AATATATATATATAGTAATCATTAAATCAAATAATTATAAGTCACTTACCAAAGGAATTAAATATGGAAAATGCATTTGAATATGTACATGATTCATCCA
CATTTTAATATCTATCCTTACTTCTGTTTCCTTTTGTCTCCCATTAATGATAAAATAGCTGAGAAGATTGTTCTCTCTTTTCTTTCTTTTTTTTTTTTTT
TTTAGACGGAATCTTGCTCTGTTGCCCAGGCTGGAGCGGAATGGCATGATCCCAGCCTATGGTGACCTCTGCCTCCCGAGTTCAAGAGATTCTCCTGCCT
CAGGCTCCCGAGTAGCTAGGATTAAAAGCATGTGCCACCACGCCCTGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACATGTTGCTCAGGCTGGT
CTTGAACTTCTGACCTAAAGTGATCCGCCTGCCTTGGCCTCCCAAAGTGCTAGGATTACAAGCATGAGCCACTGTGCCCGGCCAGATTGTTCTCTCTTAA
TGGGCTGATAAGTAACCAAGTAAAACATATTGTACTTTTACCCCATGCTAGAGGCAGCAAGCCCAAGCTGCAGAATGCCCAATTACACAATCCTCTATTA
GCCACCAAAGAGAAGATACTTTTAAATTTGTATTACATTATTTAAATAGAAAAAATAAAGACAGAAGATCCTTTAAAAAGCAAACTGGATAAATAGTACT
TCAGAATTCTATATATTATTTGTTACAACTGCATGTAAACCTATAATTACCTCAAAATGAAAAGTTTARTTTTTAAACAAAGCCTATTATTGTATGATTA
AGGTGGATAATTGAGCTGCTTCTTATTTTTATTATAGTAAAATATACATAAAATAAAATGTATTATTTTAACTGCTTTAAAATTGTAATTCAGTGGCATT
AAGTACATTTACAAGGTTGTGCAATATTGTGAACCACTGTCTGTTTCAGAACTTTTGTTACTACATCCAGTGGAAATTCTGTATCTGTTACTCTTATTCC
TCCCTTCCCTCTGCTCCTGGGAACTACAGATCTGTTTTCTGTTCCTATTAACATGCCGCTTTAAATAATATTTCATATAAATGAAATCAGACAATAAAAA
GGTATTTTGTGTCTGGCTTCTTTCACTTAGTGTGATGTTTTCAAGATTCATTCATGTCATAGTATGTATCAGTATAGGCCCATCTTGTTTTAATGCACTT
CACTTTATTGTGCTTCATAGATACTGCGTTTTTCACAGATTGAAGGTTTGTGGCCCACTCTTCACTTGAACAAGTAACAGCAAGTGCTCATTTTGTGTCT
CTATGTCACATTTTGGTAATTCTCGCAATTTCAAAATTTTTCCTTATTATTATATCTGTTATGGGGCCTTGTGATCAGTGGTGCCAGGAACTGTGCCTAT
ATAAGATGGAAATTTTGATAAGTGTGTGTGTTCTGACAGCTCCACTGACCAGCTGTTTCCTTCTCTCTCTCCCTTTTCTTGGGCCTCTCTATTGCCTGAG
GCACAAAAGTATTGAAATTAGTCTAAAATAGGCAGGGCACAGTGGCTCATGCCCGTAATCCCAGCACTTTGGRAGGCCAACACAGGCAGATCACAAGGTC
AGGAGATCGAGACCATTCTGGTCAACATGGTGAAACCCCGTCTCTACTGAAAATGCAAAAATTAGCTGGGCGTGGTGGCGCCTGCCTGTAATCCCAGCTA
CTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCAGGGAGTCAGAGGTTGCAGTCAGCTGAGATCATGCTACTGCACTCCAGCCTGGGTAACAGAGTGAG
ACTCTGTCAAAGAAAAAAAAAAAAAAAGGAAAGAAGTTAGTCTAAAATAACCTTACAGTGGCCTCTAAGTGTTCAAGTGAAAGGAAGTCACACATCTCTC
ACTTTAAATGAAAAGCTAGAAATGACTGCGCTTAGTGAGGAAAGCATATTGAAAGCCAAGATAGGCCAAAGCTAGGCCTCTTGGTCCAGTTAGCTGAGTC
ATGAATGTAAAGGAGAAGTTCTTGAAGAAAATTAAGTGCTACTCCAGTGAACACATGAATGATAAGAAAGCAAAGCAGCCTTAKTGCTGATATATAGAAA
GTTGAGTGGTCTGGGAAGGTCAAACTAGCCACAACAGTCACTTAAGCCAAAGCCTAATCCAAAGCAAGATCCTAACTCTCTTCARTTCTATGAAGGCTGA
GAGAGGGGTGGAAGCTGCAGAAGAAAAGTTGGAAGCTAGCAGAGGTTGGTTCATGAGGTTTAAGGAAATAAACCATCTGCATAACATAAAAGTGCAAGGT
GAAGCAGCAAGTGCTGATGTAGAAGCTGCAGCAAGTTATCCAGAAGATCTAGCTAAGATAATTTGGTAAAAGTAGCTACACTGAACAACAGATTTTTAGT
GTAAATGAAACAGCCTTCTAGTGCAAGAAGGTGCCATCTAGGACTTTCATAGCTAGAGAGAAGTCAGTCTGGATTCAAAGCTTCAAAGGACAGGCTAACT
CTTCTTAGGGGCTAATGTAGCTGGTAACTTTAAGGTGAAGCCAAAGCTTATTCCAAAAATCCTAGGGCCCTTAAGCACTATGCTAAATCTACCTACACTC
TATAAATGGAACAACAAAACCTGAATGACAGCATATCTGTTTACAGCATAGTTAACTGCATATTTTAAGCCCATTGTTGAGATTTACTGCTGAGAAAAAG
AGATTCCTTTCAAAATATTACTGCTCATTGGTGATATACCCAGTCACCCAAGAGCTCCAGTGGAGATGTACAGAGATAAATGTTGTTTCAATGACTTSTG
WTACAAGATTCATTSTGTACCCATCTATCAAAAAGTAATTTTGACTTTCACGTCTCATTATTTAAGAAATACATTTCATAAGACTATAGCTGTCATAGAT
AGTGATTCCTCTGATGGATCTAGGAAAAGTAAATTGAAAACCTCCTGGAAAGGATTTACCATTATAGATGCCATTAAGAACTTTTTTTTTTTTTTTTTTT
TGGTTTATGGGAGGAGGTCAAAAGATCAACATTAACAGGAGTTTAGTAGAAACTGATTTCCAACCCTCATGGATGACTTTAAGGAATTCAAGACTTCAGT
GGAGATAGTAACTGCAGATACGGTGGGAATAGCAAGAGAACTGGAATTAGAAATAGAGCCTGAAAATGTGACTGAATTGCTGTGATCTCATGATAAAACT
TTAGTGGATGAGTTGTTTCTCATGGGTGAGTAGAGAAAGTGGTGTCTTGAGATGAAATCAATTCCTGAAATCAACTCCTGGTGAAGATGCTGTCAACATT
GTTAAAATGACAACAAAGAATTTAGAATATTCCATAAACTTAGACGATAAAGCAATGTCAGGATTTGAGGATTGACTCTAATTTTGAAAGAAGTTTTTCT
GTGGGTAAAGTGTGRTACAAAAGATGCTCAACAGCATTAATCATTAGATATTCAACCGTGGGTAAAATTGCATGCTACAGAGAAATATTTTGTAAAATGA
AGAGTCAATTGATGTGGCAAACTTCATGGTTTTATTCTATTCTGAGAAATTGCCAGAGCCACTGCAGCCTTCAGCAACCACCACCCTGCCCAGTCAGCAA
CCATCACCATTGAGGCARACCCTCCACCTGCAAAAAGATTATGACTCACTGAAGGCTCAGATGATTGTTAGCGTTTTTAATCAATAAATTATTTTAAGAC
TAAGGTATGCATATTGTTTTTGTAGAAATAATGCTTTGTGTACTTAATAGATTACATTGTAGTTCAAACACAACTTTTATATGCACTGGAAGACCAAAAA
ATTTGCATCACTTGCTTTATTGCAGTGGTCTGGAACCAAACCCGCAGTATCTCTGTGATGTGCCTGTACTTCATTCCTTTTTCATAGCTGAATAATATTC
TATTGTATGGATATACCACATTTCATGTATCTATTTAGCAGTTGATGGACATTTGAGTCATTTCCACCTTTTTGGCTATTGTGAATATTACTGCTATGAA
CAATTGTGAACAAGTTTTCTCTGAACATATGTTTTCAATTCTTTGGGGGTGATATACCTAGGAATAGAATTGTTGACTTGTAGGGCAACTCTATGTGTAA
CTTTTTGAAGAACTGCCAAACTGTTTTCCATAGCAACATTACCACTTTACATTCCCACCAACAATATATGAGAGTTCCAATTACTACACATCCTTGTCAA
TCCTTATTTTCTGTTTTTGTGTTTTTTTTATTATGGCCATTCTACTGGCTGTGAAGTGATATCCCATTGGGGTTTTAATTTACCTTTCCCTAATAATTAA
TGCTGTTGAGCATCTTATTATGTGCTTATTGGCCATTTGTGTAACTTATTTGGAGAAATCTCTATTAATATTTACTCATTTTTTAATTGGGTTGCTTGCC
TTTTTGTTGTTGAGTTGCTTCTTATTTTAAAAGAAATCAGACTCAAGAGGACTTTAGTTGCATGGGAAATATTCTAGGTCTGGGTGATGGTTTCATGGAT
GTGTTCACTTTGTGATAATTTGTGCACTTATATATTTCTCAAAAATGAGCATGTGTTTCCTTTCTTGAATGTATTAGTTTCCTAGAGCTACTGTACCAAA
TTAGTACAAACATTAGTGGCTTAAAACAATATATTGTCTCACATTTCTGGAGGCCAGAAGTCCAAAACCAAGATGTTGGCAGAGCCATACTCCTTCTGAA
GCCTCTATGGGAGAATCATTCCCTGCCTTTTCCAGTTTCTGATGGTTCCTGGCAATCCTTAGCATTGCATGGCTTCTTGACACTTGATACTAATCTCTAA
CTTTGTCTTCACATGGTCTTCTTTCTCCCTCATGTTTCTGTTTYTGTATMTAGGTATCTTAAATACTCCTCTCCTTTCTCTTATAAGATTACCAGTCATT
GAATTTTGGCCCCACCATAAAAAACAGGATGATCTCATTTAGACMTCCTTAACTTAAATACTTCTGTAAAGAACCTATTTCCAAATAAGGTCACATTTAC
AGATACCGATACCGGGGATTAGGACTTAGACAAATTTGTGTGGGGGAACACAATTCAGCCCACTATAATGAACATATATTAGGCTTCAGTTTTTAAAAGA
TGGCTTTAAAAAACAAAATGGAAAACAATTTTACTGGTCAGATGTGGTGGCTYATGCCTATAATCCCAGCACTTTGGGAGGCCGAGGTGGGTAGATCACT
TCAGGCCAGGAGTTCAAGATGAGTTTGGTCAACATAGTGAAACCTGTCTTTACCAAAAAAAAGTAATAATGATAATAAACATTTAACAAAAAGRAAAAAG
AAAACTACTTTAGAAAAATGTGRTAGTCTAGGTTTCTGAGTCAAAATATCTGTAGGTTAAGGAGGAAAAAAAATTCACGGGATGCTCACCACCATAAAAG
TTAGAAATTCTTAATTTTTGAAAAATGATCTCACTRTTTAAAAAGCACAGTTAGATGGAAAAGGGGACTTATATAAAAAAGACTTTCAAAGGATATTTAT
CTGTTGTGGGTTTTTTTTTCATTTTTTGGAGAGGAAGCTAATGAAAACAGTTCAATACTCATTTATGTAGAGAATATCTTTCAAGACATTAAAAAGCATA
TTTTTAGTATTGCCAAATACAGAGATTTCTATTAAAATTTCCAGAAGACATTTTTTTGTGTGTGTTCACACTGTTACCCATGGCACATTCCTGGTTTTTT
GTTTTTGTTTCTGTCCTTAAGTGATCAATAATATTGGTATTTGGTCATTTTGAACATTGTGATCCTTACCTTTGGACTTGTTAACAACTGGCTGAGGATT
CAAGGCATAAAAGGAATATTATGCTTACTATTGAGCCTCAGCACCTTTGTATTTTAATATGACATGTGGCTGATGATCAACCTTGCTGGGTCTCATTTCA
TATATCAGTTAAATAAATATATGAATRAAGTAATATTTTCTTCCCAAGAGTGATATTTGATTCAATAGATTAAAAGTTATTTGAGTCCCTAAACATAAAA
AAGCCAGTAGGGTATAGTAGCTCTGTGGCAAGCAATTTTAGTATCAGAACACATGAATTTAAAACTTTGGACAATGGCCTTATTCAGAACACTAAAAGCT
TAGAAGCCTACTCTTTAGATTGTAGTGCTATTTTGGAGGCATATCTTTTTTCTTTTTTTCTCTCAGTTTTTCTTTTTTGGATAGTATTCCCTGTTAAGAA
ACAGATGATGAGGCTTTAATTCAGTACATTCTCAAATTGTTCCCACTACAAAACTTATTTCAAAGATAAACTTTGGAAGTTTTCATAGGTAGGACTGTAA
GAATGTTTTAAATAAATCCTAATCATTTTACCAGAGAGTATACCTTAAAACAAATTTTTCTGGCTTTATTTGACAGGTTTTTTWAAAAAAATAACTTAGT
CATTTTTAAGTTGATTGTAGTTCATCCAGAAAGTTACTCCATGTTGGTAAAAGGTTAAAAATTAAGAGAGTCCAATTTTTGAAAATTTTCACAAAGTTCT
TTTTATACTTTTAAATTAGTCAAAGGCCAAGTATTTCATAAAGTGTTGATGTAAATTGTGTTACTGATCTTTGATCATAATGTGGAATAGTAGTTGCACT
CAAGATATGAAGGAAAAATATGTTACAGGGTTTGGCTTTGAAATAACTGACATACAGCAGAGGCACTCACCCTAACATACTTTCCATCTATACGCCAGGC
AGGGCTGTCAGTTTGTGGAAAGGMAAACTGGGACCTCCCTCAGCTCTGCCCTCCTAATAAGACCATCCTGACACAAAGCAGCAATTATTCTTTGATGACA
TCACCACCGTCTTGCCCTTATTTTTATGTGCATAATGGAAGATTTCAACTTTAAATCTGACCTAGCCATGAAAGTCAGTGTGAGTCCTGCATCATGTTTT
CATCCTGCTATGTTTTTACTTTCTGGTAGTGCTTTTAACACAGAGAGTTTCCAACTTGAAATATAGAGACCTTTTAGGAAGTTTTTTACATAGGAATCAC
CTGTCTAATCAACTACAAGAGGTCACACTTTTTTTTTTCCTTTGAGATGGAGTCTCCTCTGTTGCCTAGACTGATGGGCAATAACGAAATCTTGGCTCAC
TGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCATGCCTCAGTCTCCCGAGTAGCTGGGATTACAGACGTGCACCACCACACCTCGGCTAATTTTTGTA
TTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTA
CAGGAGTGAGCCACTGCACCCAGCCAGAAAGTCACACAGAGGGTTACCCAAACTAAGTCTCAAGATACCTGTTTCTAATGACTTTTAGATAGCATAGACC
TCTTTATTGATTAAATAGGAAAGAGAAAAGAAAAAAAAAACTCTAGAATTTTTAGGATTCATAAAATTGGCATCACAATAACAGTAATCACTTATGGCTC
CTAAGAATTTTTTCTTTTTTTTTTTWAACCTTAAAGATTAGTTAATTTAATTACATCTTAAATACATCTCGCAAGTGACTACAAATTCTTTGAGGGCAGA
GACAATATATTTTTTTTACCTTTTAATCCCTTAAAGACCTTCTACCTTTCCTTTCACATGGTGGACTTTTATTAATGTCCGCTGAATGAATATAACATAT
TCATAATATAGTCATGTCTATACATTGATTAACATATTTGTTATCAACTGCAGAGTAGGCCCAGTCTTTCTCTTTTACTCTCTGTCCTTTTAAGAATTTT
AAGAGCTTTTTGGGGAAAATAAAGTAAGAAGAAAACAATGAGTCATGTCTTTGTAGCCATCTAGATTTCTTAGCTCTGTTGCCTCATTCTTCCTCCTCAT
TCTTCCCCCAGCCACGGTGGAGAAATAAAGTTGTCTGGGGKCTCATTACTGGACTACCCAATCTCAGTTCCCTTCTGTACTTTAGAACTCTCTCCTTCCC
TCATCTTGATTTCACTAGGCCACACTATAACCCTGCTTCCTGGAGAGAATCAGACCCATGTRAGCTCTTGAGCCTCCTGTTCCATGGATCTCTCCACCAA
GACAAGAGCCTACTCCAGGCTGCCAACCTGAGATTAGAGAGTTCATACTCTGATTGGTCCCCATAGAATTAATCAACGGTGGCCAAGAGTGTAGGTAACT
AGATGGCTCATTCAGATCTGATACTCATTCCTGGACTTGTCAGCTGTGGCCTGGGTGGCAGAGTCACTTAAAAACATTGCAGCATCTTCAGAAATCTTTG
GTTGGAGTAGAATAGATGCCAAAAAAGGTAGTTGTTGGCTTCTGATGAAATGGAAGGGTCAAATTAAATAATAGCTGAGGTCTCATCCCTTCTACCCATA
AGATTCTATGATTTATCACTAAAACAATCACATATTAGGAGGTCATAAATAATTCTACACAAGTTCTTCTAATCTCCATATTTTCTTACACCTATGGTCA
AATACATCTCTCTTGCAAGAATTATATAACCAAATATTACATACACTATGTTAGAATAAAGAATGAACACTATCACTAGAAACTTGGAAGCAGATTTAAA
TACTGAAAAATATTATAGGTATCGAAAAGACCCTTTTTATTCTGGCAGAAATATATAAATCTGTGTGTGTGTGTGTGTGTGTCTGTGTGTSTGTGTGTGT
GTGTGTGTGKGTGTGTCTTCTGGTGCTATTTCTCAAAAGAGTTTTTTTTTTTGGTAGATTTTTTTTGGTTACTTTTTTATTTCATTTTGTTAAGCCATCA
AAAGCTTTGAGATTGGGCTGGGCATGATGGCTCATACCTGTAATCCCAGCACTTTGGGAAGCCAAGGTGTGTAGATCATTTGAGTTCAAGAGCTCGAGAC
CAGCCTGGCCAACATGGTGAAAACCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTACACACTTTTAATCCCAGCTACTTGGGAGGCTGA
TGTGGGAGGATCACTTGAACCCAGGATGTGGAGGCTGCAGTGAGCCAAGATAGTGCCACTGCACTCCAACCTGAGTGATGGACCGAGACTCTGTCTCAAA
AAAAAAAAAATGCTTTGAAATTAGCCTTTACCTGTGTGTACTACAATTTAAAAGGCCATCTTTGAAAAGACAGTAAAACAGACTTTTACTATGAAAAGCT
ACCATCTGGAACCCTTAGTAAACTGACTGTTGTCTCATAAAGARTACAACCAAGCCTAATGCAACTTAATTGTTCACACAGTTWTGTAAGATGTACTTCT
TCTATAACTCTACAGGACTTAAAAGAACTCATAATACTATATGATTGTATTATGGGTTCCATAAAACATTATGACAATGTATTTTCTGGAAAAATGTTTC
CTAGTGAACATGCATACCCCAGACATTTTACCTTTCTCTTAAATTATTCCATCTGATTTTACTACCTTGCTCTTGCTAGAGTTAAGAGTTTTCTGAAAGY
TTATTCAGTGTTAACTAATGTTACTTTTCCTGGGCCATTTTTGTTGGTATTGAGTTTTTTCTTTATGTGATCATAAAGTTATAGTTTAGAACAAGGTTAT
TTTGTTGCAAGAGTCTATTTAGGTGTAATATTTTTTAAGCAAATTGAAGTTGTTCTGATAAATGTTTATCTAAATTAAAATATAACTCCATAAACTATGA
TGTGGCCATTTAAAGGGGAGGTATATTAACTTTGTGGAATTGTGCCATTAAAGACAAAGAAAAAGAAAAAAGAAAAGCAGTTGGCTGGATGAAGTAGTAT
AGAATTGCAAACTTACATGAGATAATAATTAGAATCAATAAGACACCTAATGGAAAAAGAATATTCATATGATATATTCATTCATTCAACAAATTTTATT
AAACACATCATCTACCAATGAATCTATGAAGATCAGGTACTTTAGCAATATAGAACAATGTACAATAACAYRTAACATAAGACAGTCCATGTGAAGGCAG
TTCATTCCTGGTGTGGTGGCTCTATTGTCAGCATAACCCTGTGTTACTTTCATCTTTCTGCTTCAGCACCTAGCACATCACTTCTGTTCAAGTTCACTTC
ATAGTCCAACAGGGCAGTTGAAGCCTGTCTTAGTCTGCTTAGTTGCCATAGCAGAATACCATAGACTGGGTGGCTAATATAACAGAAATGTATTCTCCCT
CTGCTCTAGAAGCTAGAAGGCCAAAATCAAGTTGCTTTCAGCTTGATTTTTGATGAGGCTTCCCTTCCTGTCTTGTAAATGGCCATCTTCTTGCCGTATC
CTCACACGGCCTTATCTCTGTGTACATAGTGGAGAGAGACAGAGAGAAAGGGGGTGGAGAGAGAGAGAGGGAGAGAGAGACAGAGAGAGAAAAAGAAGGA
AGGAAGGAAAAAGAGAGAGAAAGAAGAAAGGGAGAGGAAGAAAGAGAAAGAAAGAGAAAGAGAGAGAGAAAGAGAGAAGAAAGAAAGAAAGAGAGAAGAA
AGAAAGAAAGAGAGAGAGAGAAGAAAGAGAGAGAAAGAAGAAAGAAAGGGAGAGAAAGAAAGACRGAAAGAAAGAAAAAGAAAGAGAAAGAAAGAAAGAA
AGAGAAAGAAAGAAGGGGAAGGAAGGAAGGGGAAGGAAGGAAGGAGAGAAAGAGAGAGAGAGATCTGGTATCCCTTTCTTTTATTATAAGGACAATGGTC
CTATCAGATTAGGGCCCCAGTGGTTGTGATTTCATTTAACCTTAATTACTTCCCTAAAGGCCCTATTTCCAAATGCTGTCACTTTAGCGGTTAGGGCTTC
AACATATGAATCTCAGGGGACACAATTCACTCTATTGAGTGAACGCTAACTATTATACAAGAGTTCATAACTGAGAGAAGGACAAAGAAGAAAGGTAGAA
GAAGGATAAAAGAGAAAGTAGAAGGACGTAAAAGGCATTCTGAGTTGAATCAGTTCTGCACAGGGGATTTCTGGGATATCCCATACAATACTTCCACTTA
CTTTTTTTGGGCCAGTATTTAGTCGTACAGCTATGCTATCTACCTGTTGTCTTCTGGCTGTGTACACTGCTGCCCCAAGTAAAGATTTTATTACTAATGA
AAAAAACGGATATTAAGAGCTAATAAGCCTTCTTAATCATATCCAGAACTGTGCTAGGCGTTGAGAATGAGAATATAAGTTCTTATTTTTAAGTACTCTA
AGGAATTCCCAGTCTAACAGGAGACTAGTACATGTAAACCAGTTACCTTTAATATAAAGCGATACATCCTATGGGATAAATGTGTACAAGTTCTGCAAAA
ACAGAGGAAGAATGATTATCAACGGGGGAGTTGGGGAGAGTTCACCAGGCTAAGAATTGAAGAAAGGAATTTCCAGAAGTGGGGAAAACTTTAGCAGAAG
TTCGAYTGAGAATACAAGATGTTTCAGGGAACTGCGCATATTGAAGGGTGGCCATTACTTGACATTCTGAGCCAGAGTAGTAATGAGATTGGAAAGGTCA
AATGAGCCCTCATTTTAATGGGTCTAAAATGGTGCTTAAAAAGTGGGACAGCATTTATTGGGTGATGAATTTATAGATGTGTGTGTGTATATATTTTGAT
ACAAGAAACCCTTCTGAAGAAATTAGTTATTAGATTCCATTGATGTCACAAGGTGTTCTTTTTGTTGTTGTTATTGGTTCGKTTGTTCTAATTTCTGCCC
TTTTCAAGATTCAAATCACAACTTAAAAGCAAGGAGTTGCAAGAATATATGGAATGGTGAGAAATGATTGATGTTAGAAAGCTTTCGAAAATTGCAATAC
RTAAGGAAAATTGTCCAATGCACATTCTTATTTATCTGCATTTATCTTTCTATATCCTGTTGAACTTTGCCGATAATTGTAGAAACACCTTGGCATTTCT
TTCTTCCATCTTTATATTTTCTTGATATCATTAGAAATAGATGTTCAGTCTACCTCTTGCATGCTGACCAATCCTAAATTGGGCGATGACCTATTTATTT
TGCATCTTCCCTGAATGCTTAATCTTCATGAACTAGAAATGGCCAGTAGAAAGTCAGTAAGTGTTACTTAATTTACTTCCGTATTTATTAAATTTCTCCC
AGAGTAAGGAATTATGAGTTCCTGGAGCAGCACATGTGTCTCTTTCTTACAGAAAATTTCAGTTCCATGGTGAGGATTATTTGCACATCTCTGAAGAGGC
AATGGTCCATCCAGACAAAATAGCACAGAGCCAGTACATAAAATAAGAAAGTGGACTGTGGACAAGTCCTGACAAAATTATGGAAAGAGGAACTAGTGAA
AATTCTAGCAAGTCAGTATCTTTTCTGGCCAGTACATTTGTGTAAGCAAATTGAACTTTAATCATAATATAGTGCCAATTTGATTTCCAAAATCTTTGTC
TTTTTTTGGTCCCGCCTTGGAAGTTGAATCTCAGTCATGTACACCAGAATATGAATGCGAGATGACAGCTCCCATAACAAATCACCCTTGGCCAGATTTC
CGCCACTTGGTTGTTCATTTTGCCTACCTCTGAAATTAGCAAATCTCTGCCTTTGTCTACTTGTGCCTTCTCAGATCTGCTGCTCCTGGCCCATTCCTTG
ATCTCAATGTGGCTGAAAGTATTAAGATTTTAGAGCATGTATAAAGATAATAAAGGTCATTCAATCAAGCTCTTCTATTTTGTGCATTTTTTGCTTCTCT
AAGAAGCAAGAATGGCACTGTGATTTCATTGTTGAAATAGTTAAGAAAATAGGGGACAATTTTGATAAAATTAGAAAATCTTAGAGAAGTATCCTGTTAC
TACGTCTTCAAATGTATAATGATAATTATACAGGAAAATTTAAAGGCATTTTTATCATAAAATGCTTCAAGCAAACGAGAAAATTATGAGGAATAATATA
TCAAATAGCAATGTGCCCTCTACCCAGCTTTGCAAAATCTAAACATTTTTCTGTAATTGTTTATTTTTCATAAGAAATAAAACTTTATTAGGATTTTTGA
GAAAGTCCAGTAAAGACCAAACCTCTTCCTCACTTGAGATCAGAACCAATTGGGAAATGACAAAGAATCAGACTGATGAATCAGCATGGCTGATGAATTA
AATTCCCACTACTGAACCGTAGAGGAGGCTGTCTACACTCCAGCGCCAGCCGAGAGCCTGACACTGGACGAACAAAGCAAAGCATTTTCTTAACGTAGGC
AGGCTCAGTTCTAAAAGAAAATGAGAAAGAGAGGATGGGGCTGGCCACACAGTGTCTCCTTCCAGACTCACCAATCARTTAGTGTGAAGGAAGGGCAGGT
TGAGAAATAGCCGAGAAGTATTACAACCGGTGAGGCACTCACCCCATGGAAGGAAAYGTCAGAAGTGGAAAGTTAGCATTTCCCTCTAAAAACATATAAA
GTTAAAGCCATGTTTTTATTCCCTTTTAGACCCTATTTTTTCCTCCCCTTCTCCCATGCAAATGTAACCTCTACCCTGAATTTTAAGATCCTTATATATA
ACAAATACTTAGTCACTAGTGTTGTGATTCTAAGTATCAGAATGCTTCCATTTAAGGGAAATATTGGCTGCCGGTTCTTGGGGATATTGACTATAACATC
TGCAGTTACTTCAGTTTCAAGATACTCTTGTAGACTAATGGAAAGAATGTAAAAGATGATGCTACTAGATAGAAATAGAGTTTGGATCGAAGGATGTTAC
TGCCCAACTAATGTTCTAAGTGCTGAAAGATCATCCTGGTCTTAGCAACAGCAATTATAACTAAGAAAACAAAGTTTAGAGTTATCTCAAAACAGAAAAG
AAAGCATCAAAAAGTTATCTCTTTCCTCTGAAACAAAAATAAGCATTCTAGTGACCCTTGCCTTCTGAAATATTTCAACATTCCAAGCTACTGAGACTTT
TCTTATTTTCTTATAAACAAACTTTAATGCCCTTTAAAATACTTTCTGATTTCTTTTCTAAGCGTTTTCAGGTGAATAACAAGTTACATTCGTTTGGCTT
ATTTTCTCTTCATAAAATGGACAAGTTTTTAGTTGAGCAGAGGAACCGAAAAACTTCTGAATGAAGGAAATATTTGGTAGTGAATGATATAATGGAAAAT
TGCTATAATAAGTAGCTGGGAAGAAGCAAGGAAGGGAGAGAAATTATACAGAATCATTTTAGTTTAAGTGGCAGTGTATGATTAGAAGCAGTACTGAGAC
ATTGAGAAAAATAGTCTATTACATACCATAGGAAAATCAACAATGGCATCTCTGAATATGGAATTGCTAGTTAAAGCTACTAGGTGACTCTAGGATGGAC
AATTTTTTTTAATAGGTTTTTGGTTTTGGTTGAGGTACACTGTCAGAGTGTGCACAGTATTTCATTTTGTTAGTTAGCTTCATGAAGACCTTAATTTATT
AATGTTAATGATTGACCACTTGTGTGTTAAACCAGAAAGTATTTAGTCAGTTGAATTCCATCACAAAAGAAATGTTATGAATCCGTATATTTTGCCTCCT
GTTTCTGAGAAATATGGCAAATAAAAAAAGAGAGGTCAAACTAAATCTAATACCTCTTTAAGTCCCACAGCAAAATAAAACATAGGTAGGCCTCATTTTA
TGTTTTGATTATGTCTTGAAAACCTTGTATACAAGTTAAAACATTTGTAAAAGTCTAGGCATGCTTCATTTTTGAAATAATGTGGTAGATAACTTAAAAT
GCCAGTAATTATWTTCCAGTCTAAATAATCACAACATTGAGTCAGGTGTGGTGACTCACGCCTGTAATCCCAGCACTTCAGGAGGCCGAGGCAGGCGGAT
CACTCGAGCCCAGGAGTTCAAAACCAGTCTGGGCAACGTGACGAGCACTTTTCTATACAAAAAATACAAAAATTAACCAGGCATGGTGGCATGTGCCTCT
GGTCTTAGCTACTTGGGAGGCTGAGGTGGAASAATCACTTGAGCTGGCGAGGCCGAGGCTGCAGTGAGCCATGATTGCACCACTGCATCCTAGGCTGGGT
GACTGAGTGAGACCCTGCCTCAAAACAAAAACAACAACTACAACAACAACAACAAAGTCACAACATAATTTAATAGATTTTTTCATATGTTGGAATTTCA
CTAAGTGAAGAATACCTGTTATATGTTATATGTTATAGGTGATACCGTAAGGCATATGAATGATCATATTTCTAAAAAACTTTTTACTTTGGCTCCTAAA
TTTCAATAATCTAAATAAATACTTTGAGGTATATTTGAATATGTTTTTTGTTTTCATTCATTTCTATTTTATTTTTATTTACATCTGAATGTGTTTTCAC
GAAACAATTTTAGCTCCAAACTCCAAATTGCACTATTAGGGAAAGGGAGAATAGCTTTTGGCTCTTCTTGTACTATTTGAACATTAGGTAACTGGTTACT
GTCTTCTGCACACTTTTAGGATGTCATTGGTTCAATCTCAGGGTCAAGTCTTACCCAACTGTCCTATGTACTCTGTCCATTCATGCCTTAAAAGAAAGAA
CCTGAAGAAAAAGTTGTACCTTTATTAGCAGGTTCTTTTAAATGAATTTTATTAATTAACATATAATTTCTTCTCAGTAAGATATGTGAGCTGGCAACAC
ATTGCCAATCCTATGGTTATTTTTGTTAGTATGMACAATAGGTAGTTTCATGGGTCAGGAAAGCAGAAATAGTATACAAGGTTAAAGAAATGATTTTCAG
TTCTCTAATTTCCACTGGAATTATTAAACATATAAATAAACAAAAAAGAAGTAAGATAACTCACTGTCCCTAGGTGAAGCAATGAAAGTAAGTGAAGTAG
TAACTGTGTCTCCTGTTTCACCCTCATGCTTGGACATGTGTATGCCTTCAAAAGCTCACATCCAAGTCATCCAGAAAAATTAGCCTGTTAAATAGTATAG
GAGAATCAACAATGGAATCTCTTAGTGCCTGGAATTTGCAATTGCCAGTTAAAGCTAGTAGGTAAATTAAAAATAATTTATTTTACAGTGTATACTACCT
CTTTGCTTTACTGACCCTCAAAAACGCCTGCTGTGTATACTAACAAAAATACCTTTATAACTGGCAATATCTTACTGAGAAAAAGTTATAAGTAAATGAA
TAAAATTCATGGAAAATATTCCACTAACGAAAGTACCACTTTTATTCAGATTCTTATACATGCAAAGGCTTACAATATCATATTTCTGGGTAAATACTTA
AATAGGATGCCACCCTGCTTTGTTTTGAAGCGTAGTACGCCTTTCCGTATGCAGTGCTCCATGCTGTGCAGTCACGGAAATTAATGAGTTCAGCGTTCAG
GATGCCAGGGCAGCTGGAGAACAGAGTTCTGTGCTCATGTGGCTTACACAAACACACGAGTTGTGTTTCCCACAGTGGGATCCAGGGACCCCTGAGGTTC
TGCAGCTTTTTTATTTGGTGAAACATAGATCCGAAAGATGATGCTGATGTGGTGAAGGGGGTTGGTTTCTGAAACTGTTTAAGAATTTTAGAGATCAAGA
GTAGGTCTGAGAGGAGCTGGCAAAGCAGGCAWTTATTTGTGGTGGGAGGATATGGGGAAAGAGCAGATGTCTGTAGATACTACAAAGGAAAATAAACACC
ATGAAAGAACAAACTTATGTAGAAAAATTTTAAAGGAAGATTTTTTAAGAAAGGATGTTTGGGAAACACTCTAGGAGTTATTCTGGGTAGCACTTATAAA
ATGGGACAACTTCTTACAGCCAGAATGACCTTTATACTGAAAGTCTTCATTTCTTTTGATTTATTCCATCCTGTCCCATTTAACAAACTTGTATTAAACA
GCTACTTTGTATCAAGAACTATACTTCCTTGCCTCCTTTCCACCAGACACAGATATACACATATACACACACTCACTTTGAAGTTCAAATACCATTTGTA
ATAACTGGAGACCCACAGGACTTTAGCACTAAAAGTCAAAACAATTCGCTTGCTATGGCAAGATGAAGTTAAAAAGCAGCTTCCCAGGATGAAACTTGGA
AAATGCTTAAATACTGAGGTGTTTATTTGGATTTGCTTTTCTAAACTTGTTGATGGAGGTAGGTATCTTGCTGACATATTACATCATTTCTGATGAAAGA
ATTTTAGTAAGATTTCTTGAGCCAGATTTTCTTCTTAACATTAATTGTATTGGGAAGTTCCAATTGTTTGAAGGAGACACTGAGTTGGATATATTATTTT
TTACATCAAATATAAATTTTCTGTATTTGAGATTATGATGTCATTTCCAAATGGTTGTGTTGCTTCTGTACTCATTGGCCAAGGCCCTATAATTATTTGT
CATATTTTAATTCTCTTTGTTCCCCATATCTTTACCACTAGAGGTCTGTGGCTCCTCCTTCTCAAGGTTATGGTGCTATAAAAATACTCATTTCAGATTT
CAAACCAACTAGAATGATGTAGTACTATAGAGTTTTTGGATTCAGTTATACTTTGAGTCAAATTTTATCTTTTACAGCAACCATATACATCCACACTGAG
ATCAAACTCACTTAACCTATTAAGAGTAATAAAACTGATTAAAATTTCCAACCCATAAGACTAATATTATAAAGTTGTTATACATTAAGGAAAAGGGCTT
CCAACTTTCACAAACTCTTATTACTAAAATGTTTTTCTTCCAACCTCCTGTATTGCCTCAAAATGGAATAYATTTCATCTGAATTTAGTAGRTAAAAGTA
AATTTGGAGTTATAGAAAATACTTAATATATCACCTTTTAGTTACAGTGAGAATATATGACTTTAGGAGTTTATACCATGTGAATGGGGTGAATTAACTC
TTTCCACCAGGAGGCTTTGGCAAGAGGTAAGAGCTACCAAGAATGTACCAGGGCTCAGGCTTGGGGAAGAGAGGGGCCTCTCCAGCTCTTCATTATAGAG
CTCATACTTTCTAGATATGCTGTCTGATTCTCAGGTGGTTCAGGTCGGTGAATTCCTTAGTAGAATATTAATATACTAGAAAGAGTCACTGCAGGGTCAC
CCTGTCCTTGTAATAGACTTGCAACCCTTAAAATAGGTTAGAGGGGAGTAAATTTTCATTAGAGTGAAAGAAGGCCCAACTTGTGATTGGCTCAGATCCT
AGGTGGTATCACAGATATGCATCATGTTTTGAGCAACTGAGATGAGAATCCAAGGACTCTAACTGAATGGAATGGTGTCATCTGTACTCCTCCTCCCTGG
CTAGCTCTTCCACTTAGAAGGCCTGACACCCTCATCTTAGATTTTCTTCATGTATGTCATTGCAGCCAAGTTTAGAAACAGGAGATTTGCTATGAAAATA
AGTCCATGAATCTGCTGTCTCATCCCCACTGATGTAACATACCTGTATTGTGTTTCAAGATACAGTCATCAAAATTAGGGAAAAGTCCTCTTTTGAAAGA
AAAATCAACTGCCAAATGGTATACTGATTCTTTGGATTCTACCTACGAAATCAGTTAGCTCATTTTTTGATTATTCTCTTTTGCTAAATGCATAATTTGT
ATTTCTTGCAGCAATTAATACCTGAAAGTTATTTGTAAGCTCATTTCAAATGTGATAAACTGAGGTTCATAGAGGTGAAATCACTTGCTTTTTTTTTTCA
GGAGCATCATCTTTTTTTTTTTTTTTTGAGATGAAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTTACTGCAACTTCTGCCTC
CCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTGCACCTCTATGCCCAGCTAATTTTTTTTAATGTAYTTTTAGTAG
AGATGGGGTTTCACCATATTGGCCAGGCTGCTCTTGAACTCCTGAATTGAGGTGATCCGCCTGACTTGGCCTCCCAAAGTGCTGGGATTTCAAGTGTGAG
CCACCGTGCCTGGCTTAGCATCATCTTTTTATGACTGTATTTCCAGGCCCTACCATATATTCAATTCAGAGTAAACACTTGGTTATATTTGTGGAGTAGT
GGAATATATGAATGATTGAATAAATAATATAGATGAAAAGATTAGTTCCTGTATCTCCAGGGATCACTATCTTTCTATACCACCAAAGAATTTGCCCTAA
AACCATTCACTGTAAAAACATAATTATGATTATATCTTGTCTTAATCTTATGTCATTATTTCATTCCTTATGTTAAAAATAATAAAAATAATGTTAATTC
TATGATTTCTCCTATTTCTAAATTGCATAAACATATGTAAGAAGCTACTGAAATAAAGCAATAGCATTTTAATACATTCCCTTGTCACCATTTATTTGAT
ACCCTCTTGCCTTGGCTTGGAATTTGCAATATTCAGAATTGCATTTGTTGTTGAATATTCCTATCTGGATATTACTAGATTGGGATTTCTGACCCACCTA
GTCCAAAGACAGAATTTCTTTATTAAGAAGCCAACAACTAAACAGGCTACAGTAATACTCCTTGGAACTCAAGGATGCGTACAAGAGGGTGGCTTCCTTC
AATCTGTCAACAGCCTCTGTCACCTCCATTTATCCTTTTTCTGCCAGTCCTATTCTCAAATACTCCAGAGCTACAAGATGATTAAGAGCCATCATGAGAC
TTTTGAGGATTGTTGTGAGCTGGGTTGTTATTTTTATTTTTATTTTTATTAATCAGACCAACTCAATAGCACCCTAGTTACAGAAATCCTATGATTTGGC
CTCATAAGATCAATGTTGAAATCTTGCTTCTGTCATTAATGCAACCTGGCTTTTGGCAAATCACTCAACCTCTCTGAGCTTCAGTTTCTTAATACACAAA
AAGAGGGGAATGTCTGCTGTCCTGCCTCACCTCCTCAAATTATTGAATAGCTCAATATCATTACTGTTATTATTATTATTATATTTTAAAATGTTTGTAA
GCAGAAAGCACTGCAGAGCTGTAGGTTGCTTCTCCCTCTTTCTCACTTAGTTTTCTTACATATCAAATTCCATCCTGGGGTAAAGTAATTGCTCACAATT
TCTTTTTATAAGAGATATCCTTCAACACCAGCAATTTCATCTTTCTCTTTTTTTAACTCTTGCATATATAGCATATATAACCATATTTGAATGGGAGCAA
GTCTTTTCATTTCTTTTCTACTTGGACCTATAAGTTCTAGCTGAAGTCCTTCAAGAAGTTAGATCTGGAGCTCTGTGGCCAGGACTTTTCTCCTTACTCA
GACTTTCCAGTCATTCCCCAAATCCTTTCCAGCCCATTGCTATTGTAGAAAAGTCTTCTCCCCAAATTTGCCTCTCAGGAGATGCAGTTATGCAGACTAA
TATGTGGCTGTCTTCTAAGCTCATCCTCATATCACTTTGTACTAGCCCTTTCTAGTTTTAGGMCTAAGATGTAAAAATTGAATTAATATGAATAGTGGTT
ACTACTTTGGATTTGGAAGCCTGTGGAAATGTGGGCACATTTCTCTGCCTTCCCAAGCTTTCTTCTCCTTATTTTCAGAATGATGATAGTAATGGTATTT
AATTATAGAGTTGCTGGCAAATTAAATGAGAGTAACACATGGTYAGTACACAATATAGTTATTATTTATAAGGGGAAAAATTACTGGTTTTCAATTGCTG
GTACATGTGAAATCAGAATTTCTTTTGACATCTGTCTTATCTATGTTTATTTCCCATTATTTTTTGTATTTTTTCTATATTGTCTCTGAAGCCACCTCTG
TGTTTTGCTTTTCTGGGAGTGGAAGTGGAGGCTCGGTTGTGAATAAGTACAATTTTGYTTTACTTCTGGTACATAAAATTCCAAGACAACTTAGTATAAC
AAAATTCACATTGAACTAAAAGTTATGAAAAGCTGCTTTTACTGTTTACTCACTCCTTTAAATCAAAAGAACTGRATGTAAACTATTTTTTTATGTCATC
TCCTGTTCTTCAGGCTCTTCGGTGCCTCAGAAAACATAAAAGAGTCTGATTTACAATCATTTTGGGCAAATTGCCTGTAGAATTCTAAGGACAGGAAATG
AAAAAAGAAGTACAGCACACACCCCCAGACATTCCACACAACATGTAGAATAAATAAACAGCCCCAAAAAGGAAACCAAAACTGCTTGGTCTTATGTTGA
GGAGGGGGTACCACAAATGGCTTTTGGAGAAAATGTATTAAAGATGATGACATGCTAGAAAAATCCTTCAGGGGGGTGAAATTGACCCTGATTAAAGATG
ATCCTTTTCCCCTTTTCTCTACAGCATAGTGAGTATTTTTTATTTAGATAACTTCCATTACCTGTATTGACATTATGAAAAAGAAATACCACGTTACAGA
GCTGTGCTTTCCAAACCTTAATAGGCAGGGCTGCCCTGGGGATCTCGTGGAAGCGTAGGTAGTGATTCAGGGAATGTGGATAGGGCCTGAGGTTCTGCAT
TATTCACAAGCTCCCAGGTGATACAGATGCTGCTGGTTTATGAGCCGTGGTTGGTTTTCGGTCATCTTCTTCAACAAAATAATTGGTGGTGATGTTCTTG
TCTTCATCTGTTCAAGAGTGGTTTTCAACTGGGGACAATTTTGGCCTCATGGGAATTTGGCTGTGTCTGGAGATTTTTGATTATGACAACTCATGAAGTG
CTATTGGCTTCATGTGGGTAGGGGACAAGGATGCTGCTAAACACTCTATAGTATAAAGGATAGCCCCTTATAACAAGAATTTTCTGACCCAAATGTGAAT
AGTTCCAAAGTTGAGAAACCCTGCTGCAGAAGTATTATTTTATGCATTTCTTGTATCAAAAAATACTTTCTTGAAATTGTTCAAAAAATAAATACACAAA
ACCTGTGAGAGCAAAGAATAGGAGCATCTACTACAGTCATGCATCACCTAGCACTAGGGATGTGTTCTGCAAACTGTGTCCTTAGGTGATTTTATCATTG
TGCGAATATCATAGAGTATATTTACACAAATCTAGATGGTAGAGCTACACATCTAGGCTGTATATCGCCTATGTCTTCTAGGCTACAGACCTCTACAAGT
GGTTACTATACTGTATACTGTAGGTCACGGAARCACAATGGCGGCCGGGCGCAGTGACTCACACCTGTAATCCCAGCACTTCTGGAGGCCAAGGCAGGTA
GATCATTTAAGGCCAGCAGTTTGAGACCAGCCTGGCCAACATGGCGAAACTCAGTCTCCACTAAAAATATAAAAAAATTAGCCAAACGTGGTGTCAGGCA
CCTGTAATCTCAGCTACTCAAGAGGCTGAGGCATGAGAATAGCTTGAAGCCGGGAGACAGAGGTTGCAGTGAACAGAGATTGTACCACTGCACACCAGCC
TGCACAACAGAGTGAGGCTCAGCCTTAAAAAAGAAAAAAAAAGTAAAGCATTAGTGTGTCTAAACATATCTAAACATAGAAAAGGTACACTAAAGCTATT
GTATTATAATCTTATGACACCACCATTGTATATGCAGTTTGTCATTAACCGAAACATCATTATGCAGTGCATGACTATTTAGTTTAGAGAGTAAGCAGCA
TTTAAAACTGTCTTCAAATATGTGAAAGACTATTATGCAGAAGATGGTAACCAGCTGTTCTCTATCACGCTGGAAGAATGAACAGGAAATGTACATAAAA
GGACCCGTGCAATTCACCCATTCTTTTTCTGCTWCCTTCATGCCAGCTAGACAAATCTCTTCATGATCTTGCAACCATATTTGTCCTGGCCTGTGTCTTA
ATACTTGCAGAGACCCTCCCAAATCCTGGGTACACATTTTCTTTTCACTGCCAAATCTCATCTCTTTCTCCCTTTAAAAATCTTAATTGAAAATTTCTAT
CTCCATAAAATCTTCCTTAACTAAGATGAAATAGTTGCCAGTTCATCTTTAACTAGAGCTGGCATACTTCTTCCTTCAACATGTTATCTGTCAGTCTGAA
AATATGTTACTGCCCATCTGTGTACAAGGAGTTGTGCTAGATTTTGATAAAGGATTAAAAAAAGGTAAGTAAGAGAGTCATTRTTTTTAGGAATTTTCCA
ATTTGGGGGGAAAAATCTGACACAGATAACTATATAGTATTTAATAATTATCTCCATGAGAGGTTTCTTAAAAAATAAGAAAGGAGGTTTTAGAAGTTTA
AAGATTACTTCTAGGTAGGGAGGTCAAGAAAGACTTTACAAATAGATATATGGGTGTATCTTTTTTTTTGTTTCTTTGATGAATTTATTCTTCAAGGAAA
AAGCAGTTACTATTGTCGCCAAAATTTAAAGATTATAAATTAGAGTAGTGTGGATTTAAAGTATATTTATGAAAAAAGTTCATAGTGAGCAAGGGTTAAA
ATATTAGAGTGATTTAATCCACTCACAATTTATAAGACTAGGAAAGATAATTTTTCAGGATCTATGTGGCTATATGGTGGTTTTAACAAAGAAGACTGAA
TTTAGCCACCTCTGAATGTACCTGATGAGGCTCTGTAATTTTATAAGACAGTGCTCTTTGGAAATAATTTTGTTTGTTTGTTTGTTTGGTTTGTTTGAGA
CAGTCTTTCTCTGTTGCCCAGGCTGGAGTGCAGTGGCAMAATCTTGGCTCACTGCAACCTCTGTCTCCCAGGTTCAAGCGGTGCCCCTGCCTCAGCCTCC
CGATTAGCTGGGACTACAGGGGCATGCCACCACACCTGGCTAATATTTGTATATTTTTAGTAGAGATGGGATTTCATCCTGTTGACCAGGTTAGCCTCAA
ACTCCTGACCTCAGGTGATCCACCCACCTCTCAAAGTGCTGGGATTACAGGCATGAGCCATCATGGCCCCCTGGAAAGAATTCTTAGTTACATCTAGGAG
AAGAATATTTTGGAACTTCACAAGCATACTTTAAAAACCAGTACCAAAGCAGGAATTTGGCACCATCCATTTGAGATGGTGATTCTAGAACTTCTTTAGG
AGACAGTCTTACTTACTAAGAGTTTCCACAACCTGTACTATGAGAAAATTAAAAAGAATTAACCCTCATCAAATATGTAGTATGTGCCAGGCACTGGGTA
GACCCTTTAGATATATCATGTGATTTAATCTGGATAACAACTGGTGAATTTATCAACACCAACATTATAAGGAGGCTTCAGAGAATTAGTATAAATTTCC
ATCCAATTAAGGAAGGGAAACAGAGCAAATCTCAGGCCTGCATAGGAAGCCATCTCTGAGTGGAGACCATCAGCTTGCCTTTTCCTTTTGAAGCAGCAAG
GACAACATCTATTTTTATAAAGCTTTACATGGTGATATGTGCATTCTCTGTAGTTGAAATGGGAAAATGAGCTGTTCAGAGTTCATTGATGGCCATGGTT
TTCTGCAGGGCTCACTGCTGGAAAACTATCTGCAACTGTATTAGTCATATATGAATCTGAGTTTCTGCCTGCTCTTTTCCACACATTCTGAAAACCTCAG
CTCTAGGAATGGTACAGATATTAAATTAGTATGGAATTTTTTTGAATGTTAATATTTGTGTTCTTTAAAGTCATTATGGTTTTTTATTTTTTATTGTATT
ATTATTATTTTTTTATTACACTTTAAGTTCTAGGGTACATGTGCACAATGTGCAAGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCGGCACCC
ATTAACTAGTCATTTACATTAGGTATATCTCCTAATGCTTTCCCTCCCCCCTCCCCCCACCACACAACAGGCTGCGGTGTGTGATGTTCCCCTTCCTGTG
TCCAGGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGAGATAGTTTGCTGAGAACGATGGTTTCCAGC
TTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTACTACATTTTCTTAATCCAGTCTATCG
TTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAACAGTGCCACAATAGACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATC
CTTTGCATATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACT
AGTTTATTTGGTTTACAGTTAGTAATACAGTTAAGAGTGGAGACCTTCCTTGAGTTTTCATTCTTTGAGCTTCTTTTTTTTTAATAGAAACAGCTTTCGA
TGGTAACCTTAACCATGCCTTCCATAACTCAAAACATGATGGACTCTTAGTTAACTCTATGTAACTGGATTTTGTTTTTCTCCTAAAGTTGTTCTACGCT
GCTGCGTATCATTCAATGTTGATGTGAAAAATTCAATGACTTTCAGCGGCCCGGTGGAAGACATGTTTGGATATACTGTTCAACAATATGAAAATGAAGA
AGGAAAATGGTAAGCCAGTGGGTTTTGTTGTTGTTATTTACTTATTTCACAAGGTAATGAGAAATATTATTTGACTACAGTTTCTTTTATGAATGAAACT
TTAACAGAATGAATTATTTATGGTAGAAAATGCAGTCTAGTCATTTGGCAATGGAAGCTAACTTAAAGTAAAAAAAAAAAAATTCCTTGGCAATATTAGA
GGAAGCGATTAGTGATTTCTGTTGATGCCTGGATTGACCTCAAGGAAGGTCTGTATCCAAAAAAGCTATTGTTCCATAATTATGTTTTTTGGCAAGAATT
CTTTAATTGTTCTCATTTCAGAGTAGCTTAAATGCACTTGTTTGAAATTCAGTAGGAAGGATTCGGAGGCAAATGAGATGGTGCTCTGAAAGGGTTTAAC
ACACTTCCGTGAGTTTGGTCTTTACTGATCTACTGAGCTTGGTCTAATGTTTATAATGAACTTTATTGGGTTTCTGGTATCTACCTTCAAACCCTTTAAT
ATTGGTTAAGTTCATTGTAGATAGGATTTTTTTTTTTTTTTTCTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTACAGTGGAGCGATCTCAGCTC
ACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTAGTAGCTGGGATTACAGGCGTGTACCACCATGCCCGGCTAATTTTTGTA
TTTCTAGTAGAGACACGGTTTCACCATGTTGGTCAGGCTGGTCTTGAATTTTTGACCTCGTGATCCACCCACCTCAGCCTCCGAAAGTGCTGGGATTACA
GGCGTGAGCCATAGCACCTGGCCGTAGATATGATTTTTAAAGTATATTTAACTTGTTGAAAATTATATAAACTGAATATTAGAGTTCTTTTGCTTAATAT
TTAATAGAATTTTTAGTAAATGCAATTTTTGTTTAATTGGACATTCTAGGAAAGAAGAGCAGTAGCTAAACTTTAGTTTAATAACTTAAACTAAACAAGC
CTACATTTTTAGTAGCTGTAATAATAAGCAAAAAGAGATTTATATCTACTTGGATAATAAAGATCTATGAATCACTATAATTATTTCATTAATAAAAATA
TGTGGATTTTCTGCATTTTGTTTTATCTTTTAGACTTGGTTAATTTGATAATAATGCCCTAAAGACTATAAAAAGTAATGAGTTCTCACATTTTTTAAGT
ACATTATTTTATGCTAGGTATAAACTAGAATTTGTTGAGATACTTCACTCTTTTATTCTCCTTACAAATATCTCAGATGACAAACCCAATGCTACATGCT
AAATTTTTAAGTTCCCTTTCCCTCCCTCCTATACTCTCCACCCATCCCATTCCCCAATTTTTAAGGTTAAATGAGTACAGCCCTCCCTCTAGACACCAGC
TTTATTCTTTTAGGAATTATACCTTCAATTCAGGTACCTCTGGGAGAATAATGGTGAGTAGACCAACTGGTCAGACTTTGTGCGTAAGCTATAATAAACA
GAAATGCAGTACATGTTATTCTTAAAAAGCTTAACTTTACATAAACACATATAAAAGTTAATTTTCACTAATTACTAATAGTTACACAAATTTTAAAGAG
GAGTATAGCAAATAGCAAGCTTTAAGACTTAAACCACCTACTTAAAATGAAGTATCTCTTTTAAGGATGGTTAAATATTGCTAAAATATTTTATGAAATT
CTCATTTTCAATTTCTGATATSAGAAAAACCTGTATGTTTTCTTTCTTATCCWGTCCTGTCTCTGTGATTTTAGAAAAATCTGATGTCAGAAGTCCTTAA
TTATATGAATGAACCTTAGTAGAGTGAAAAGGGGTTCATATTTCTTTTTAGAAGCCTTAGTGCCCCCATTTGATCTCTTTAGTCACTGTTTCTCATGATA
AGAACCTATCCTATTGTGAGATTTCCACCCTCTAAATTCTACAGTCCCTCCTTTCAAGGCACCAGAAGTCAAAGCAATGGAAAATTGAAAAATCAGGCCT
GAATGAAGCCTTGATGTCATGAGGAATGTCCTTCCTAAGGTTATTCTATCTTTGTAGAAAGTTAAGGTATGGATGAGGAAAAAGAAAGACAGCCAACACT
GGTTAAGGAACAAAAGAGTGCATAGATTGGATAGTAAGAATAAGGTTGCAAGAACGATGTTGCTAATGGTCTGTCTGAATGAATCTACACTGGACTGAAC
CATCACAATTCTACATACATTTGTGAGGTAATGTTAATAAGAGATCGGGGACTATGCCTTATATCTTGGTTTACCCATGAAGCTGAGTTGAATTGTCTCT
GAAAATATTTGTTGGTGGGTTAGGTTTTTTTTATTTAGCCATAGCATAAATGTGGGTCAGTCAATCAACATGTATTTATGTAATACATTTTATGTGTCTG
GCATTATGCTAAATTCCATGGGAAATATTTATACATAAAACAAATATAAAAGCTTTAACCTAGTCAAGGACATACATGAAATGTTTAGGAATAGAGAATA
GTGCCAACAACCAGTGCAGAATAGACTATAAATTCAATGGGAATTCAAAACAGGAGGAGATGATTCTTGGTTCTTGACCTAAGTCTTGAAAGATGACTTA
ACTTTCAATATGAGAAGAAAAATGTCACTCCAAGCTTGGGAAGCCACAAGAGCAAGGGCCCAGACTTGAGAATAAGTGAGGTGAGTGTGTTGGTAAGTAA
ACAGGTCTCATATTGGGATGAAAAAAGAGAAAAGGATGATGGCAGATCTTGAAAGACAAACACAGGAGCTTGGACCTAAGATGAGGACGTTGAGAAGCCA
TCATAAGTTGTCATTTTATGAAACTTAATTTGGGAATTTACATATAAATTGGATTGGAGAATGGAGTTCCTGAAAACTAGGAAATATATAGACTCAAGAA
CTATAATCTGGTACTTAAGGGATGAGCCTTCAGGCTGTATTAGGGGCAACTGGAAGAAAAAAGAAAGGTGTATTCAAGACAAATCAAGATGAATCAGTAA
ATCTTGGTGGAAGTTTGGAAATGGTCAATGAAGGTGTAGGAGAGGTCAGATAGATTCCAAAATTTCTGTACTGGCTCATTGGGAAATGGGTTGTCATTGA
CAGAGAAAGGGAAATTCACTTATCAGGAAGTGGGTAAGTCTATTTTTAAATAGCTCCAGTTCAAGGTGATTTCTAGGTAGTTGGAAACCTCAGACTGGAA
TGCAGGTAAGAGGGAGAAGTTAATGTGTTAGTGGAAATGCCTAGAAAACAAAGACTGATTTTGCAGCCCACTTGCAACCCTGGGCACTACCCCACATCTA
GCATGAGGCCTTATACATAATATGCACTCAATCATTATTTGTTGGCTGAACAACTAAATCTAGTTTAACACTCTGTTATCATCAATTAAAAAAAAGCTGC
ATAAAAAATAAAGTTAAATGTGACTCTCCTAGGGAAATGCAACTACTTAGGACCAGAGCTGTAATAGATTTCATCTCTACACTCAGTCTTGTGCCTTTTT
CTTCATTAGAACTATATTTAAAAGTAAATGTTGTTAAAAACTATCTTTGTGGTAGGTACCAGACTTTACATATTAATATGTGTGTAAGTTTGTAAGCATT
TGAATGTAGATGATATCAGAAACCTAAATCTCACGTTGACATTTATTATTTACAATGATTTTATGGAAAAGTTGTGAAAAATCAGAGCAACCAAAAAGAT
GTGGGCAATTGAATTTAAAAGTAAGCAAATTACAAATACCTAAATTTCCAAACTTTTAAGGATAGCATGGTAGCAGCATATTGTTCTAAAGAAATCTGGG
ATCTGGTAGTGCAAAATAACCTGTAGAAACATGTTTGGATGTTCTGTAAGTGTCTATAAAAACAGATAGATTGCAGACTTACTTCGAGAAATGTGCTACA
GAATAATTGACATATTTGGAGGAACATGGATTTTGTTATTTAATTATCTCTAGAGGTAGGCACCTTCATAAGTCATATTTACTGCTCATGCTTTCGAATT
TCATAAACTCATATTTAAAAAAATCATCCTGACCCATCTTACGTCGTGACTATAGTACGCCTATAGAAGGAGCACTTGTTAGCCCATGACAAGTACAGTC
TGTGTATTTGAAAAACATAGCTTTAATTCTTTCGAAAGAAATATAAGTTGACAGAAAAGGTAGCCTTATGTCCTCTTTACTGTTCAGAAGTTTGCTCTGA
AGTGTAATTTATATCTTTTGCTCAGAAGCCACATGCTTTCTCAGTAGCAGAACACATCATACATCTGATTAAGATCAGCTGTTGTTCATTATGTTTAGCA
TGAGCTGGAGCATCCAAGTAATTGCAATGTGGTTCAGAAGAATTCAGAAAGAATATAATTGCCTTCATAATTTTGCTTTGAGGAAAAGAAATTCAAACAT
GCTCAGCACAGCACAAGCCTTCCAGATTTCCAGATTTAGTGGTAAACATCAGCATGGCCAGGTCTCAGCCGAACGGGAAAATGTGAGATGTCTGTTTGGG
GCTTTCCACTCTAATCTGTTGCTGCTTTGCTTCATTCCTTCCAGCATGTGTGCCTACCCTTTTAACTGCCCTTCAAGCAACCTTTCTTGGGGGTTTCAGT
GACTTCACTGGACCTGTCTGATCTCAAAGTAGATTTTCAGGATCCACCCTTGCCAACCTTCAAGCCAATGTTTATCAATTATCTTGACTTCATGCCTTTT
CTCTAGAGGATCCTGCTTTATGCCAGGTCAGGGTACCAATGGGCTCATGTGATTGATGCCCTATTTCCAATAAGTCTGTGTTGTAAAAGAAAAAAGAATC
CCTGCTAATGTAGAGCTATTCCAGACTGGGGAGGAGAGACATTTTAAGGGTTTACACAATTTTCTGTAACAGATTTTAATATGCTTATTTTACATTGCTT
CTAACGCCTTTTGAAGTTGAAATTTCCTCATTGCCAAACTTGTCATTTCTTTGGCTCCCCTCATTTCCACCCCTCCACCTTTTATGAGCAAATCACTGCA
GTTAATGGGTCACTGTGTAAGTTTCATTCTCTAAGATGAAAAAATGCTTATTCCATTTATTTAAAAAGAAATTGGCGAGCAGAATTTGCTTGGCACTCTG
AGAGTGACTTTGGCTTGAACTATGTATTAGACATCAAGGCAGAGTTAGTTGAAAAGGATGTTAATGAAATAATGTAAATATAAGACACTCTTTTCCAAGA
AACTATCTTTTGCAGGGAAGAAAACATAAATATGAAACAGAGACATCAGACACCACCTACTCTTCAAATAAATATAATAATGGGCATAATAACAAGATAA
CTATTGTGAATAGCAAATATTTCTGCTTACTAAATATTATTATAATTGTAGCTTATTCATGGAGAAAAGTGTTTCTCTCACTTTGATGATCCTTGAGTTG
ATCAGATGTTTCTCCAGAAATGAGTAACGATATCCAGAACATGTTTTGATCTTCTCAGTCTGCATACAGGTCATTACAAAAATGCCATATAAAAAGCAAG
ATCTAATAGGAATAAAACGTAATAAGTTAAAACTAACTTGCRTTAAATTTTAAAATAATGATTCTCACAGTTTATAAAACAATGTGCCTGGGCCTTCACC
TTGACCCTGTGGGTTTGGGCGGATATCATTGTTATCATCTGTATTTTCTAGACAGGAAACTGAGACAGAGAATGAATGTCCAAAGGTTTAATATAGCAAG
TATGTCACAGGGTCAGGATATGGAACACCAGCCTTCTGACTTTTTAGCCAATTCTCCCCCTTTAGCAACAAGGATTCTCTAGCTGTTTGACCTGGAGAAA
TGCCTCTGGTGTCACTCAAAGGCATGTATAGCATCCCACTTAAGCTGAATATATATTCTCTAAAATGGAAAAAAAAAGATTTTACAATCCAGACCTCTTG
GCTGGTCACATAAGTATAAATTCTCAGGTCTGCCTTATTCAGATTTTTAAGTACTTGACACAGTCGTTAATTCATTCATTCAATAGATATTTATTGAATG
CCTATTTTGTGCTTGGTACTAGTATGAGCACTAAGGATGTGTTTGTGAACAAAATAGAAAAACCAATCCCTACTATTGTGGAGCTTATATTCTACTGGGG
AATAGAGAACAAAAATTAAATAATGAAGTTAATAAACAGGTAGGTTACATCAAATGCCAGAATAGGATCAGTGTTGTGAGAAAAAACTGAGCAAGAGAGT
GGATTGAGAATGCTGGAGATTCCTGAAATTCTGTAAACCCTATGCTAATACTTTTCTAGGATCTTGTTATTTTGATGCAGTTGGAGAAAAGTGAGGCTTC
CTTAGGATTCAAGTGGTAAGATACACGTACTTTCAAGCTTGTTATTAAAAGTTTCATGTTTGTTTTCAAAGAAAACASATACTAGGAAAATACAGAAAAT
TAGCAGTCCTATGATCTGCTAACCTGGTCTTTACTATTGGTCCCAACTCCCAAACTCCCTGTCTCAATCCTGGGCTCCTACACTCTACCACTTTCTAAGT
TCTCACTCCGCAATCTTCACTTATCTCAGAATATGCAATAGGCCGTGGTTGAGATTGCTGTATCAGGTCAGTTTCCAATTATCACCATATCCTAAGTGCT
TTCTCTTGCCCTAGAGATCAAACATAAACTCCAGACCTTTTCCTCCAGAGCCAAATGCTTGCCAAATCTCAAGCTCTCTGTTCCTGTCTATAAGCAAGCT
TTATTCTGAGTTCTAGCCACCCATACTTTCTCATTATCTTCCCTTTTCCATCTTCATTCTCCTGTCTCCACACTTTTCCCTGGGCTATCCATATCTCCCT
TTCCTTCTGCCTTACAATTCACAATAGCTCTCCTATTAGCATGCTGTACAAGACTCACTTTTCATCAGTTATCCTAGATTTTCCCCCACTTGATATTACA
TGTTTTCCAACTAGTGAGTCAGTTCTTCTCTACAAACTTATATTTGTTCTATTCAGATGATGGAATCTTAGAACTGGAAAGGACTTTGAGGGCCTAACTC
CCATCCACTATAAAAACACCTTCCGAAACATCCCTGGCCAGCTGCAACCCACCTCATCTTGACCAGAGGAGCTGCCTGACAGAYCTACGTATGCCTTATC
AGTTTAAATCTTCATCGCTCTCTACAAGCCCACCACCCTTCTACCTCCTCTGTAAATCTCACTAGACAACTGCAGCTATTATTTTCCAAAGAAGAAAAAG
AGACAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAGCTACTAGGTCAAAATTTAATCCTCACTTCCTGTTTCAGTTAACTATTGCTGCATAATAAGT
CATTCCAATACTTAGTCACTTAAAGCAGCAATGGTCTATAAATTCTCAAGATTTTTGAGGATTGAATAGGTATTCCCCTATTGCCTGGGCTCATCATCTG
GTCCCTCAACTGGGGCTGGAGTGTCCAAGCTGGCTTTCCTCACACGAGTGGAAGTTCATGCTGTCAGCTAAAGCACCAATTCTGTTCCACGTGGCCTCTT
ATCCTCTGTTAAGCAACACTGGGCTTCTTCACATCCTGATGTTCTCAGCTTTCAAAAACAGGTAAAATGGAATCTGCAAAGGCCTTTTAAGGCCTAGCCT
TAGAAGTCATAGTATCATTTGTGCTGCATTCTATTCATCAAAACAAATCCTAGATTCAATGGGTGGAAAAACAGATTCTACCTCATGAAATAATAAAAGT
CAAAGTCGTGTTGCAAAAGTGTACACAATTCCAAACCATCGACCACCCTTGCAAAYTGCTCAATACTGGGCTGCTCAGCGTGCTGCCTAGGGAATGGTCG
CTCTTCCTCATTTTTAAGACAAACCTCTCCTTCTGGATCCACCCTGTCTACCTGCTCAGAGATTCTACTCCCTCTCCTGTGAAATCAGGATTTCTCTTGT
TACTGTTTCTTTCTTGCCATCATTTAGCCATATGCAGATTGCCTCCATGATAAATTTGGACACATCTCAAGCCCTTAATGGTTTGTCATTGCCCTGAAAA
AAAAAAGCCACATTTATTAACACTGCCCATCTCCCTCATTTTTAGCCAAGTTACTTGAAATGAAATCTGCCACAAACATGTACCTCTCATTCTTGCCTCC
TATTCTTTATATTGTTTCCTTCTTTGGTTTCTGTGACACTGCTGTTTTCTGATTCTTGCTCCCTTTCTGATTACCCTTGCCTAGTTTTCTTCCTTTGCTC
ATTGAAACCTTAAGTGTTATTTCACCTTCAGATGTCAACATTTAGTGCTCTTCTCACTATATTTCGAGGTGGTAATATTTACTTTTAGGGCCTCAACCAT
GCTCATATCATGCTCATACATGTTCCACATGGTTTCTGAGATGTTCCCCAGCAAGACTGAGCCCACTTGCCTACAGAAGTAACTCATTATCAGTGCATCC
TTTCTTGGCCTTTCTTCCTTCCCACTCTTCTTTTCCCCATCTCTATACTTATGCATACTTGGAATTGCCTCCAAAAAACTTACCTGAACCAAAGTTTTTG
TCTTGGATCTACTTTTGGAGAAACCCGAACTAAGACAGCTTATATCCTAAATATTTATAGAGTTAGTCCTTCCATCCTCTGTACTTCCTGAATCCAAATC
CTCATCTGGATTACTTTAGGAATCCATATCTTGTCATTTGACTCTAATTTTGTTCCTCTTCAATTTACTTATGACACTTCAAGCAAATAAGCTTTGTAAA
TCAAAAAGGTGATCATGTTACACCCCTCTTTAATAGCTTCRTTGGTTCCCAACTTCCCCCTACATAGAATAAAGCCAAAGTTCTTAAAGCTGACTATGAG
AACATTCATGATCTGGACTCTTTTTACCTCTCTAGCCTCAACTTCTACTGCAGTTATACTGAGCTACTTGGCATTTATCAAAGGAGTGGTATTCTTACTT
CTAAGACTTTGCTGAAGTTGCATCAAGTTCAGACCTATTCAATATTGCAATAGTACATGTMTAGTTGTGCTTCTCTCTCTAAGTTATAAGCAAACTAAAA
ATTGTGTTTTATTCACTTTTGTATCATTTTATATCCTCAGGACCTGGCATAAATGCCCAGCATGTAAAATATTGTTAATAAACATTAATTACTCCAGCCT
CAAATTAAATACTTTCTAAAATCGTAGGCTCATTTTTTTCTCTAAACTGTTTTTAACTGTAAAACCAATTTATTCCATTACGTATTTTACAACTGAAAAT
ATTAGGAAAAAATAATCGTAACCTCATTAATATAATTTGTTATATTCTTGATGTATTCCTGATTAATCTTTCAACATCGATGTTAGTTGTTTATTCATCT
GAAATAAATACCTAATAATAATAAGAACTAACATTTAGATAGCACATACTATAAGCCAAATACTGTTCTAAGCATTTTATATACATTAACTTATTTATTT
TTTTGATGATCCTCTGAAATGGATCTCCATTTTATAGATAAAAAAACTAAATCACAGATGGAGTAATTGACTTGTCCTAACCATATAGCTAAGTGAATGG
TAAAGCCATAATTTGAACTCATATAGGCTGGCACCAAAGTTCATGCTATATTTCATGGAGAAGATTAAATTATTTAATACACAGAAAGCACTTAGAACAG
GGCCTAGCACATGGTATAAATTCAATAAAGCCTAGCTGCCATTATCAGTGGTAGTATAATGAACATAGTAATTTGGTGTCTTTCMTGTTAAATTAGGGCA
CAGATTTTCACTAAATTAGATAAATTTTCACTTTGAGTTCGATCATAAATAATTTTTCATCCTACCATACAATGAATGTACAATATGCTATAGAATGATC
CTGAAATAATTAGTTTTTATTTACCATATTTCTTTTACTCTTTCATAATTATATATAACACTATGAGCATTATCTTTGTGCATTAAGCTTTTCCCTCTTA
CTTTAGGTCATTTTATTTAGGATAGATTCCCAGAAGTAAAAATTATGTATTAAAGGGTTTGAGCATTTTTGTAGTTCTTTATACAAATCAGAAATTGCTT
TCCAAAGGCATTATATTAAAACCATGTTTTAGAGTCTCAATAGCTTAATATTTACAATTGTTTTATAAAATTTATTTTCATTAATACTAGCATGCCTATA
GGGCCTACACAAAATAAATCCCATTTCTTTTCAATATGACAGACTTTCAAATATTTAAATTTTCAAAATGTGTGCCTAATCAATTTGTACTTCAATGCAA
CTTCTCAGTTCTCCTGCAGACATTCTTTCTCCATGCCGAACATCCCCAACTTTCCCAGCATCTTTTGTCTGACAAATTTACCAGACTCCTAACTATCTGA
GTCATAGTCTCCTAAATACATTCCATTGTGCATATGTCCCTCTTAATTTAGATATTTCAGACATGGCCTGACCAGCACAGAACACAGGGGGACTATCACT
GCTTGACCAGGGCATCTATTTCCAGCACTGCAGACTAAAGTCACATTAGCATTTTTGGCACTAAAATACGCTGTTGCTCATGTTTATGTGCTATCATCTA
AATCCCCCATGCCTTTTTCACATGAACTCCCATTAAGTGAGGGCTCCCACATCCTGCACTGATATAAATAATAGTATGCAGCTGAGCGAAGTTATTTATG
TAGGTTCTAAGTAAACTTTAGTTTATTTATGTTTATTGTTCCAGAATGTTGAGATTCATCTGAATTCCTAAGTATGTATATTGATATACTTGATAAGTAT
TTTTTTCTTGCTCTGTCTTATGGTGCTGATTGATAACTATATTTATACTTTTTATATCTTGACTAAAGTCATTAATAAAGTTGTCATCTGGCTGGGCGTG
GTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACGTGGTCAAGAGACCGAGACTATCCTGGCCAACATGGTGAAACCCTGT
CTTTACTAAAAATACAAAAATTAGTCGGGCGTGGTGGCGTGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGGACCCAGGAGG
CGGAGGTTGCAGTGGGCCAAGGTCATGCCACTGCACTCCAGTCTGGCAACAGAGCRAGACTCCGTCTCAAAAAATAAAAAYAAAAAAAKAAAATAAAAAA
ATAAAGTTGTAATCTAACACAATCCCAAGTACAAAATCTCATACTATGTAATTAAGTCCTTTGATTGCTAGCAGCCAGAGTTTTTGGATATGGCTACTCA
GCCAGCAATAAATCAGCAACTGTGGATCCACCCAAGTATCTTACTATTTACTTTAGTTCATCCGATTCCTGAAGATATCATGGGAGACTTAAATGACTTG
TTGGAACTAAAATCAGTTGTGATTATATGTTTTTTCCATTAATTACTGTTAGAATGGTTTTATAATTCTGTCTAAAAGGAAAGTAAGTGATTTTAACCTG
GATCTCATAAACTATCCTTATTTTCTAAGCACTTATAAACTAGCACATGCTAATATTAAATCTTATGATGTTCCAATGTTTATATTTCCTGACTTCTCTA
TAAAATTAGCAGTTCATCATAGGAAAAAGTCACTTATACTTCCACATGTGTTTTATAAGTTAATACAGTAGCAGACTTAGCCAATAATTATTGATTATTT
CAGTACCCCAATAAAAAATATGATAAAGTAATATAAACAAAATAATAAAGCAAAATCTCTGAAATATCTATCCTACATATACACACACATATACATGTAT
ATACACACATATATATGTATATACACACATGTATATGCTATATATGTATATTGTATATGTATGTGTGTGTGTGTATATATACTTTTTAATCCACATCAAT
ATGCAAGAGGTAGGCTCTCTGCTTAGTTTACATAACATTAAATTACTAATAGCATGATTATTATCTGATTATGAGTGTTATTGTCAATTATCTTAAAATC
AGTCATAAAACAACTCATATAAACTGTTTCTCAATGTTCAAAAATGTTTACTGATTTATTTAACTTCCAGGGTGCTTATTGGTTCTCCGTTAGTTGGCCA
ACCCAAAAACAGAACTGGAGATGTCTATAAGTGTCCAGTTGGGAGAGGTGAATCATTACCTTGYGTAAAGTTGGATCTACCAGGTATGTAAAATTAAAAA
AATCTGGTTTTAGGCCAGGTGCGGTGAGTCACGCCTGTAATCCCCACACTTTAAGAGGTCAAGACAGGCATATCGTTTGAGCCCAGGAGTTTGAGACCAG
CCTGGGCAACCTGACGAAACCTCATCTCTACAAAATATACAAAAATAGCTGGATGGGGTGGTGCACTACTGTAGTCCCAGCTACTCAAGAGGATGAAGTG
TGAGGATCGCTTGAGCTCAGGAGTTTGAGACTGCAGTGAATGGTAATTGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAAA
AAAAAAAAAAAAATCAGGTCTTAAATTATGCCCAGTATTCTCACTGAAAACAGATTTTGGGCTGGGCGCAGTGTCTCACACCTGTAATCCCAGCACTTTG
GGAGGCCGAGGCAGGCGGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGCCTCTACTAAAAATACAAAATTAAGCTGG
GCATAGTGGTACATGCCTGTAATCCCAGCTACTTAGGAGGCTGAGGCAGGAGACCTGCTTGAACCTGGGAGGCAGAGGTTGTGTTAAGGCAACATCACGC
CATTGCACTCCAGCCTGAGGAACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAAGAAAAGAAAAAAAACAGATTTTAATCAACTCAAGAAAATAT
TAGAAGTAATCTGTGTGTCAGAATGGTCGAGCGGTCTAAGGCGCTGAGTTCAAGAAGTAATCTATAATCATTTTTCATATAATCATTTATAATCTATAAT
CATTTTTCTATAATCATTTATCTTCCAGATTGACATAGAATGCCATTTTGATTCCCTCTGTCCTTAATTTGCTTTAGAAAGTCATCAAGGAGCATACATA
AATTAGAATACCGTACTAATTTTATAACTTTTAACTCTCTGCATTTTTCAGAATTCTTTCTAATTCAGTGGTAATGTGAAAGAACTTCTCCAAATAAACC
TGCCCACCACATTCCCTCCACAAAATTTAACTTAGTGCCTGGTTTTCAAGAGGAAATAGAATCAGAGGAAYTGTAATAGATAAATTTAATTTTAAAAATA
GAATCACACAAGATAAATTTATATTGAAATAGATGTATTTGACATAAATAGTAGGAATGTGACCGGAAAATTCCTACTAAAATTATCTAGAAATTAGAAC
CCTGTCAATGTTCTATACAATATTACATACTATGGAAATTATTTATAGCCCCACAAGTTTATTTCACATATTGTATTTTTCAGTTCTCCTTTTTTTGAAT
TTTCTATTTGTTTGTTTTTATGAACTTTTTTTCTTTACATGCATAAGCATACTTATAATAGCTGCTTTAATATCCTTGCCTGATAATTCCAACATCTGGA
ATATCTCAACATCACTTTCCATTTATTACCTTTCCTTGAGGTTGCATCACATTTTCCTGTCTTGTCTTGTAATTTTGGATCATAACCTGGATTATATTTT
TGAATTACAGGTGTGGAGATTCTAGATTCTGTTATATGCCTGTGAATAGTCTTAACTTTTTTTATTAGCAGGAAATTTACTTGGCTCAACTCAATTTCCA
AGCATTGACTTTCTTGCAATGACAAGTAGTTAAAATCTCTATTCAGGTTTTATTTCAGCTGGGCTATTTGAAATATACTCTGCGCATTTAYTATTCAAGT
CATCTAGTTATTTGGATAAAATATATATGCATATTATAGAACTGTTGTTTTGTGGCTCTTTTTCTAAGATATACTACTCTCCTCCTCATTTTGCAGCTGC
TGTCATTGCCCTCAATCTCTGTTCTCTTTTTATTCAGTACAGTAAGACTAGGAGTTCTATTTGAGTTTTAGCCACTGACCAGGGCCTTCCCTAGGTTGGG
GGTGGGTTAGGGGTGGGGGACAAAAACAAAACAAAACACAAAAGCACAAAACTCATTTAGTGCCAGTATCTTCTTCCAAGTATGGATTCCCCTCCATTTT
CTGCCACCTTTCTAGTGCCTTCAGGTGATTGTTTCATGTATTTTTTTTAATTCTTCCTAGAATTTATAGTTGTGATTTGCAGAGGAGCTGTTTTGTTAGG
AGTTACTCCTCCCTTACTGGAAATTGGAATAGTTTTAAAATTAGGCTAGAGATTTTAGCCACATCAAGTACAGTAGGGAAGTTTCCACTGTAGTCCCTAA
TTGTCCCAGGAATGCTTTTTCTGGGTCAAGCTTTGTATATAAAACTCTAATCCAGATTATACAAGATCAATGCATACAATCGCCCAGCTCTAGGTGCTTT
CAAAGCAAACCAGACTAAACTCTTGGACAAAGGCCATTGCGCAGATCAGGAAGTCTAACTGACCATTCCAGAATCTCTGCTTCCATTCCCCACTTTAAAT
CCACATACAGTCTTAACATGAAAACAACCTCTGGAACAAACRGTGAGACAAATCTTTCTCAACCTGAATTTTGCCTCTTTCTAATATTCCACTCTACTAA
GCAGATTTAGAAGTTCTTGTTTTTCCTGTCCAGTCTTTTTTTCTTTTTTAGTGTGAGAAAGTGAAACTTCTTGCCAATATTGTTAGGCTGGCATGCTTCA
TGCTTCAGGACCCAACATTCCCTTCAGAATGTCAAATGYAGTCTCTTTACTGTGTTTCCTTTATCAAAACTTTCTGGACACTGCTCTAATATTCCTCTAG
TTTCCTTTGTCACCCAAAGGATGTCCTCATGATTTTGGAAGTCATGGTCAAAAAACTGGTGTTTGAGTTTTCTTTTCTGATCTTCTACCCATTTCCCCTT
TTCTTGCCAAAAATCGTGTTTCATCACTGGTCATTTATAACAAAGTTATAAGATTACATTATATCTACAGTATTATGAGATTAAAAACTTTGCTTTAATT
AGCAAGAACGTGCAAAAAGCAATCCCACATTCTCATTGCCCTGCTAGTTCTGCATTCTTTCACAGTTCAGCAAAACTATCTGAAATAGTTTCTGGGACAT
GAGCCAACTCTTCAGCCTTAGCTTGTTCATTATATTCCTTAAGAAGACTTGGAAGACTAATTAGTTGAACCAAAAGAAGAATGTGCTATGATATGAGCAA
AACAAATAGAATGTCTTAATGAGAGATGCTTAAAATTTCACTTTGTGAAACTTTTCCTCCCTCATAAAATTTTGTTCTATTTTTAGTTAATACATCAATT
CCCAATGTCACAGAAGTAAAGGAGAACATGACATTTGGATCAACTTTAGTCACCAACCCAAATGGAGGATTTCTGGTAAGAATGGAGAGAATGATATTTA
TTGACAACAGATATGCTATCATTTTAAGTCTTTGTAAGATCTGTTATATAATTTTCAGTCTAATGATTTCTAATTTTAAAACAATTTTTTAAAGGCTTGT
GGGCCCTTATATGCCTATAGATGTGGACATTTGCATTACACAACTGGAATCTGTTCTGACGTCAGCCCCACATTTCAAGTCGTGAATTCCATTGCCCCTG
TACAAGGTACAGATTTTATGCAATGTTCTTGCATGTTTGAAAAGCCTATGCAATGAATGAGACGTATGTATACAAAGGAACATACCAAAAAGCTTAAAGT
ATTTTCTTAGCTACCAGCATTACCAATTTAGGTAAATGTTTGCTTTGCCAGTATATAACAAAATCTGACTGCTATTTTTGGAATTGATATTAGTGTAAAT
AACTTTACAAAGTCATTTTTAAACATCATAGATAAAGCTGTCATGCKGCTTATATTTAAAGAATGAGTCTCTTTGAAGAAAGAAGTAACTTCATTTGAGA
TATGCTCAAAAACTGTTTTATAAAAACTTATATAAAATTCATATTGAGAAAATTTGCAAAGATAACTCTCATACAATACTAATTAAAATTCAGTAGGTAT
GAATTTTATCCCACACCAATTGTTATTGAAAGCAATGAATATTTTTATCATCTTTACTTTTTCGAAAACTATTTTTTATTGCTAAAACAATGTGTCTACT
TTGGAGAACATCAGTTCATCTTTTAAAATGAACTTCTTTCAGCCATGAAAGCACTTCATATGCCTCTGAAAAAAATAGATTCCAAATTTGACAATTGACT
CCTTTTATTGCAGAATGCAGCACTCAACTGGACATAGTCATAGTGCTGGATGGTTCCAACAGTATTTACCCATGGGACAGTGTTACAGCTTTTTTAAATG
ACCTTCTTGAAAGAATGGATATTGGTCCTAAACAGACACAGGTATGTGACTTTGTGTTTTGATTTCTGTTGTTCTAAAGATAAAAATGCACAAATTTTTA
ATAAAACCAAATATTCTGAAAGCAAATTAATCAATAAAACTAAAGTTGAGAATGAATTTTATATCCATTTCCTGTTCTTATTTCTGATAAAAAGGACATT
ACTTTAAGCTGTGTTATTTTCTATTTTTTTCTTTTTTCTTTTTTCTTTTTCTTTTTTAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTG
CAATCTCAGCTCACTGCAACCTTCACCTCCCAGGCTCAAGCAATTCATATTTCTCAGCCTCTCCAGAAGCTGGAATTACAGGCATGCGCCATCACACCTG
GCTAATTTTTTAAATTTGTAATAGAGATGGGGTTTCATCATGTTGGCCAGGCTGGTCTCAAACTCCTAGCCTCTGGTTGATACACCTGTCTCTGCCTCTC
AAAGCATTGGTATTACAGGCGTGAGCCACTGTGCCCAACCTAGGCTGTGTTATTTTCTAAACAGAAAATATTATGAAAGCTGCCATTTTTAATGCACTTG
AAAAATAACTCCTATAGAGTTCTATAAACTCATAGTTTAATTTTTACTTAAAATGGATATAGCCACTTTTGGTAATGTCAGAGCCGGGTGTCAGAGTTTG
TAAAAACTAATCTGACATCCCAAACAACCCATCACATTATAATCTCTCCTCTCATATTATACAAATAAGTTAGTAACTGACCAGAGGATACTACTTAAAG
CCTGTTGTCCTTTCTGTTAATAATTTCTTTTCCCTAAGTTAAAAGAAAATGCCCCTGGCTATCTCTGCATAAAATCAAATAGTTGTTTGTTTATCCCCCC
AATTAATATCTATTTCTAAACACATCTCCTTTATTGCCACTAAATGAAGTGGAACTTCTCACACAGCTTTTCCACTTTAGATACTGAGTTTAATTTAATT
ACATTTAATTAAATACATTTGACTGATTTAATGTTTATTAAACTCATATGGGCATATATATTAAAATACAGGGCAGACATAATGGATAACAGGCAAATAA
AATGTCAAAATGAAGTCAATGCCTCAGGTCAGGAATTAGCCCTAGAATCAGAGCCTAAAAGATTGTTGTGTGGTTTGGAGGCTGTAGAGAGCATAGGAGA
CTTTAAGATTATAGTACTGCAATCAATACAGTGATCTTCCTTTTTTTTTTTTTTTTCTGAGGRCTTTACTTTGGGAGAAGTTTCTGAGGCACTGAAAAAG
CAGACTGACTGCGTTAATGTTTGCCACACCTACATTAAATTTGGAACATAATATGTGCACATATATATACATACATGTGTCTTCATGTGTCTGTGTATAT
TTATGTCTCTCTTAATATTTTGATATCTATGTATATATAATTTTCTAAAAGGATGGTGGTTGAAAATTTCAAAGTTGAACKCAAACTTCAAAGTRAAATG
TATTGCTGCATTCCAAGGCTGAATAGGTCTCTGTAGAGAGTGAGTGGAAGGGTAAGGTTATAAATATCCTGCTGGACAATAGAGAACTTGTTGAAATCAG
TGTAAAATCATTAAAAATGAAATGGGCTTTTACGTATCACAAAATGTAATTTTCCCTGGAAGTGACTTATTTGCAATTGACCTTCTCAAGTGAAATTACT
AGTGGATGGTAGGGGACCTTTTTATCCCGTCTTGCTACAGGSTACAGGGCAGCCTGCATCTTAACAGACCAACTCCAGGATGTGACTTGYTCTTCCTTCT
GGCACCTGTTCCTCATGGACCTCCTTTTTTCCCTTCTGAGACCACTCTTCCTTCCTCCTTTCCTCGCTTCCCCTATCCCTTCTCTCCTTGGCCAATAAGA
TAGCATAGAGTCATAAGATTAAAGCTGGAAAGAATCTTAAAGGTCATTTGGCCCCCAACCTCAATTTATGAAGGAGACACGAGAGGCTAACTGATTTGTT
TAAGGTCTTTCTGCTTGCTGATGGCAGATTAGAACACACACAGCTCTCTAATTGTAGCCCAGTTTGYTGTTGTTTTTTTTCTTTCTGAGGGCTCTACTTC
TAGAGAAGCTTCAGAGCCAGTACCATCTAATGCCCCTGAATAGTAGATTTCAATCCTTTTCTATTTCATGAGGATGACTGTCCTCATCCTTCCTCAGGCA
GCCTCTTGGCTGAAACCGTGCTAGGCTTGGCAATGACTCACTGCCTGGACTAATACCTTAAATGAAATGGCTTGTGTTCCCGCTTTCTCCACTTTTGCCC
ATGATGTGCGTTCTTTCCTTCTTCTTGTTTTGTCCATCCCATTTGATCTTCTTACCTAACTTTTTCCTTCCAAAGCTAATAACATGCTTGAAATATTTTT
TACAATTTATTATACAGCCATCTAAATATTTTATTTTACCTTTAAATTCACTTATGTATATTACTCTTAAAAATTAATTTATTTGTAGCTATTTGTGAAA
ATTAGTGCAGCTGTGACATGTCTGAAGTTGGTCCACAACTTTAGAAAGAAAATCCATACGGCTCTTTTAGAACAATAATTACAGCTTCTGTGAAGATCTA
TGCCAGTGACTCCATTTTGTAAAGAAATAAATAACAGTCAATTGCTTATATGCTCAAGCTATTCTTCTGCAATTTCGATGTTTTTCAGTTAGAACTATAA
TTAATTTACATTTCTGTGTTGAGAGTCCTAAAAGAGGAGCTATTCTGCCTGTCCACCAGAGGAATTCTAGCCTGCCAGAGTGGGCAACATGAAGTTATAT
GTATTTTCTGGAGGGAACAATGGCTCTATTCAGACAAATTCAGGAGGGCCCTTGGGGTCCAGATGCTACCAGTGAATGGGAGGAAAATGAACTTACCCTG
CAGCAGAAGAGTTCAGTTACATTTACCAAGATCCAGGACCTCAATCCACAGAGAAGAATATTTCTGAATGAAGCACCCTGCACAGTGTCGTTTACATTAT
CTTCTGACTTCACCCAAGGGAACCTGATTTTTAAAGAGAGAAGCTGATTATATTTCTGAATTTTTATGTCACATCTTGCTTTCATCATTGATTGTGGAGC
TTAACCATATACATTCATTCATTTATTCAGATGTATGTACTAAGGGCTTACTATGTTCCAAGCTCTATGCTATAGCTTGGGTAATAGTGGGGAAGATGAC
AGACAAGGGTGATGCCTTAATGGTGCTTCTGTCTAATGCCATGTTTCTCCAATTATGGCTCATGGAATTTCTGCTTCCAAATCACTGGGATGCTTGAACT
ATACCCCAGATTTTCAAAATCAGAATCTCTGAGGGTGGGGCTATAAGCCTGCATTATATATAAGCAACCCATATGATTCTTTTCTGTTTGTTTGTTTTTT
TGACAAGGAGTTTCACTCTTGCTACCCAGGCTGGAGTGCAATGGTACGATCTTGGCTCACTGCAGCCTCCACCTTCTGGGTTCAAGCAATTCTCGTGCCT
CAGCCTTCTGAGTAGCTGGGATTACAGGCATGTGCTACCATGCCCAACTAATTTTTGTATTTTTAGTAGAGATAGGGTTTCGCCATGTTGGCCAGGCTGG
TCTTGAACTCCCGACCACAGATGATCCGCCTGCCTCGGCCTCCCAAGGTGCTGGGATTACAGGCTTGAGCCACTGTGCCTGGCCCCATATGATTCTTAAA
CAGATTAAAGTTTGAGAAACACTGGACTAAGGCATAATTATTATATTAGTGTGCGTGAGTGTGTGTCTGTCTATCTGTGTTTGCTGCATACTGTARATAA
TAGGCACCTCAAGAGCAAAGTCTGCATCATCTTCTTATCTTCGTCAGTGGCCAGCCCAGTGGTTTACTGTGGCACAGTAAGTCCTCAATGAGCACTTGTT
GAGTAAATGTTTGTATCATATTGAGTCCAGTTTTGTATTTTTCTCTGATTATTGGACATTTAATGAGTCTTTTTTCTATAACTGGTATTTTAAAAATTAT
TTTAAGTATATTACTTTATACTTTATTCTCTAGTATTCAGTCTTTTCTAATCTTTTTTTTTCTATTTTGGCTTATGTTTTATCAGTGACTAAATTCATAA
ATAATTCTCTAAAATGAAGAGATTGGAAAGGACATATTTACCAAGCCATTGCTTTTGCTAAATAACATTTAATAGGGTTTTAAGTATAATGCATGTGAAC
TCTTTTTAAAGTTTGATCATCTTTCAGTGGATTCAGAAAAGAAATCCTGTCATAGAAAATTTGGAAAGACATTTCCTTTTCAAAGAAAATATGTGCTGAA
AAGCATGCTTATCTTTCATGTAGTCTTACAGTAATTCTTTCCAAAAACTGTTTACTTGACAATCAATTCTTTTTCTTGATTGGTTGCTAATGTAATTTAA
ATCCATTTGATTTGTTTGTTTGTTTGTTTTTAGTTTTATTTGTTTCTTTTAATGAAAGCATTCAATTCCACCCTATGATTGGCAGAATTARCTTCTGGAA
TTTATTCTCCCCTTTATGTATTCTATCTCTGTTTCTGAAAGGAACAGATGTAAAAATGAATTGTGAGAAAGATTACCCAGAGGAGGGTGCAAAAGATAGA
AAGCTAAGAGCTGGACAGAGAACTTTTAGACTCCTCATCCATACCAAATTTCTAAAAGACTATGAATGTAGTTGTAAGATTTGTAGAGAGGATTTCTCTG
TAGAAAGAGCCTACTCAGAAAGGCTTCAGTGGGGTCATACACATCTTAGTATGTGTATACTGGAGTTGGGACACATAGTTGATTGACTAATGCCTAACTC
CTGTCTGAATTGTCAGAGCATGACAGCAGCTGTTATGTCTAGCTGCTGACAGGGAAGTCGGAGCAGAGGTCACTGCACTGGAGTCAGCCTGCATCCCCAG
AGATTGTTAGAATGCATGTGTTTTCCCAGGATTGGCATGGGTACTCAAAAGCAAGAGCCAGTGTGAGGTCATGTCAGGGCCTGTCCTTAGGGATTACTGG
AAGTGAGTGGCTGCCTCTGCAGAGAATGCAGAAGATCTCTGTAATTCTTAGGAACTGAGGCAGTGGGATGCATTCACTCAGGGCAAGGGTGTAGGTGAGA
TATCTCAATGAAGGGAGTTCTMCAAAGAACCCTTGAAAAACTTGTACATACCTATTAGGACCTGATTCATCTTAGGATAATACCAATGCAGTAATAATTT
CTCTATCCTTATTTATCTTCCCTACCTCTGTCCCTGGAAGGTCAGAAATCACAGTTAGCACTCTAAGTGAAAACAAGTAGGAAAACAAATAAAAGCCAGT
CATGCATCTTTCTCAACTACAGGCTTCTTACCTCGTGTAAGCCCTTAGTAGAAGTAGGAGAGAAGATTTAACTACAAATGCGCTTTGATGTTTCGCCTTG
TTGGTTTTAATTTAGACAGAACCATATGAAAGTATTGCTGTTTGATCTTTTTTTTCCCAACCTACAAATACAGCAATTTCATTTGGTACAGCCTAAATTA
AAATATATAACTTTTTAAATTAACAGACATTTTAAAACTAAGAATAAAAAAAAGTCATAAGATATTTATCTTTCCATCTAGGGATAGCAAAATACTTCAC
TTTAAATAAATTTTGAAGGACTGGTGGGCCACAAATAAAGGTTATATTCTAATTACACCTCCTGTATTTTTGTTTGCTGTATTGATTAGTTACACATTTG
GTACAATAGATATAGATTGAATATGATTCCTATTCTCTGCAGTCATAGATTTGTCATTTAGTAATTGCAAGCAATAAAAGGCAGAGTCAAAGATATGGAA
TATTTCCCAAAGTAACTGTTACCTCCAAAAAACAAAAATAAAAAAAAAGAAAAGGAAAGGGGGAAGGAAGGAAGGAAGGAAACTTACATTAAGTTTTCCA
TGTGACAATTTAGTATACATTAGGGAAATACAACACAACGATGGAAACATTCACTCTAAAGAGTTACTCAAAATCCATTCTATGTTTCTGTGTGGCCCAA
TTAAGACTTTTGCAAGCATAGTCAAGGAATTTTTGTCAACCAATTTTTTACCCAAGACAGAGTAAAGGCTATAAAATTGCCTTTTAAAAATCACCTATAA
AAACAAACCTGAAACACTCTGAGCTTGCCATTAAAGATATGATGGTGTAAACATTATGGAGGTCTTATTGATCCTCAATACCTAAACATAACATTGCTTT
TAATAATAAATGAAGATAATATAAATATGTCAAATAAGTGTGCATTACCCTAAATAAAACCAGTAAATTGTGAGGCTTGATATAAAAGTGAAATATACTA
ACGGAACAATGTCTAGATTGTTCACATCAAAAGTGTAGCATAGCATTAAACCAAGCAAAATGAAACAGAGAAATTAATTAAATTTTAGGAATATTATTTA
TCTTTCTTTTTACTGCTGATTTTATGGCCATTTCCCTAGAAGCCTTAAATCTGGGGCCTGATTCATTGTTTGTAGGTCTGAAAAGAAGCCTGAGGGAGAC
ATGCAGCCATACCTTTGTCAGTCTGCTTACAGTTTCCGAATGTGGGGTAGGGAATGGGGTGAATCTTCTCTCTCACTAGCCTCTAGTCTCCATTCTCCCA
CCCCTCCAGCCATCAGGCACTAGAATAATCATTCCGAAGTGAGTTCAGAACATTTCCCTAATAACAAACAAAAAAGAAACAAATAACTCTTCTTGTTGCC
TGCTAAATAATATCCAAGCTCTCTAGTGGACTAACTGGCATCTGACCACCTGGCCCAGCCATTTCTCATGCATCCTGCTTCCCCTTACACCCGYCTCAGT
CAATTTTTTTTTTTTTTTTTTGTGGGTGGAGGAGATGGAGTTTTGCTCCGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCTATTCTCCTGC
CTCAGGCTCCCGAGTAGCTTACCCTTCAGCCATTCCTGGGCCCTTGCCTTCCTTGTTCAWGAAGTGCTGTGCTCTTGTTACTTGCTTTTCCTGTGATTCC
CTGCTCCATCTCAAGCGCTGTATTCTAGGAGAATTTCAAATGTCACTTTCTCTGTAATTTTCTATGATTATCCTACCCACTGTTCTTGAGAAAAATGCCT
TCCTCTCCYATGTTCCCATAGCAGCTGCAACCGTGAGAGCACATTTCCTTACTGCTCTTATCACTCAGTAGCATTGCTCTTTGTTTTTTGGGTCTGTCTC
TTCTAGTAGACTGAATTACATGACGACAGAATTGTGCCTTAGTCTTTTCATTTATGGAAGATAGTCTAGGGTTTTATGTTTCCTAGCACATGACATGAGC
CATTTATGTTGAAAAAATGGGAGTTTTTGAATTTTCACCTTCTCATGTATAAAATCGTTGTTTTTAGTGACCTCTTTCCCTTACTTTGCTTCATAAAGTC
ATATTGATCCACTGAGCTGGAAGGTACTTGCTTGTGGGGGATTCCCCTGGACAACCCTTTACATTGTATTTCAGTCTTTTCTTTGCAGGTGTTTACCCAC
CTAGCCCTATTCCCCTCAGCCCTAATTTCTCCTATAGCCCTTGCCCTTCTCCACAAACACAGTGAATTAACTTTGTTTTAACCTCTCCTATCTTTGCATT
TTTGAGCCTACGTCACTTTCATTGTAGCATCTTCCATGAAGCAAGAGTCCAGATAAAGATACCCTTTTTCTAGAACCTGTATCTATTATGTATCAACTTT
ATTATGTTTCTGAACACTTGTTTCCTTAGGAAATAATCATCTACCTGTAAATCAGTCCCATTTATATCCCTCTTTATAATGACAAAATGTTAAACCTAGC
CTCTGCTAACATAGCTTCAGAATGGTTTGTGCTAACAGTTAACTGGGATTGTATCMTGTATTATCACTACATTTATATCCTGACTTAGTCACACTGGAAG
CATGTTGTAGGGTAGGGCTTTGTACCATAGTTTGATAAAAGGAAATATACATTGGCCAGACATAAAGCCTGAGCTCTTTTCATATTAGGCAATTGTGCAT
CTTACAGGAACACACAAAAACACCTCATTGTTTCACCTTGTCATTACTTCTGTAAAGGAACAATTGACTTGGTAATATTAGTTATTGAATGAAAGCCCAG
AAACTTAGCTTATGCTGGGCATTAAAATTTGGGTGCTGGTGTAACCCTGACTTAACAAGATAGATATAGAAGATAATAATATAATTATTAATTAATAGAT
AACTCCATTCCTTCATAACTCTTTGACTAAATATACTTATCCTAGTTGAGTTTCTGTTGCTATAACAAAATACCCAAGACTAGACAATTTGAAAAAAAAA
AAAGGTGGATTATTTAGCTCATGATTCTGGAGGCTGGGAGGGCCAAGATAGGGTGGCTGCAGCTGTTCAGCTTCTGGTGAGGGCCTTGCGCTTGGGTCAT
AACATGGTGGAGAAACAGGAATGGAAGCAGCCACGTGCAAAAAGACCAAACACAAGAGGCAGCCTCGCTTTGTAACAACCTGTTCTCTTGTAGTAACTAA
TCCAGCCCCACAAGAGTGAGAACTCACTCCTGTGATAAAGTCCCTCTTGACTCCTCTTTTTGCCTCTTAAAGGCACCACCTCCCAACACCACTCCATTGG
AGACCAAGCATCAACATGAGTTTTGGTGTCTCGGTGGGGACAAACCATATTCAAGCTGTAGCAGAAATTCATAGCTACTTTAGATACTTCTTTTTCTTAA
ACACTCTTATCATTTAAGATAGTTGTTAAAATCTTAAACATGACTTTCAGTTTCATAAGAGACTAATCCAAAAGGCCCTCCTTTCAGTGTTTTCTGATAG
TGTCCTTCCTTTCATGTTCACACACTCACTTTTCTCCCTCTTTCTTCTCTGCACCCAAAAGAAATGAAGTCATTGGATAATTAATTTGCTTTAATTGAGC
AGATATTTATAAAGTGTCTGGACGATCAAGTATTATGCTAGGTGTCAAGAGCAATAAAAAAAATCACTGAAATGTTGTTCCTGATTCTAAAATCTTCCAA
TTTAGAAATGAGGTAAAATAATATATTGGGACAGCTACAATGCATGATGGTATGTCATAAATATAATGAAGGTGAATTTAAAACACAGAACAATTAGTTG
ATCTTGACAAGTAAGTAAGTCTTACTGTTGTAGAACATTGTTTCCCAGTCTGAGGTGTTGAATATGATCCTCACAAAAAAATATTACTTTAAATAAGAAT
AAAATATACCAGGTCTTCCAATTAGTAATCCACAATGCATGTTTTTAAAGACTCTGAGAAAACTTTCAAAAGAATTTGCTTATAAGTCTAAATAGAACAA
GTAGGGATAGGAGTAAGAGAAAACCTTACTCTTTTGCACCATTTGCAATTTGTGACAGTTTTCATAGTGATAGGAGAAAGGTAGAGATGGGGAGGAGTCT
GCYGTAAAGATATATATTTAACTTTATTTTACTCATTGTTTTCCAAGATTATTTGACCATAGAATTCTTTTTTAAATCAAACTTAGTAACATACAAAGGG
ATGCTAGTATTCCCAAAAAAAAAAAAGTGAGTGGATATTTGTGTGGGGGCTTACCAGAAAATATGATTGTAAATCTCATATTTAAGTGGAATGTTCTAAT
AAGTGTTACAAACCTCTTGTTCATGTAACAAAATTCATAGCCAATTGTGTACCTGATGTATGCCATAGCCTGAATCAGCCTTTAGGTCTCTTTGGCCTTG
GATTGTAATTATCTACCCATCTATTTATTTTGTTCTACTTAATCAAGAGGTTTAAACCACATCTCCCCAGGAGGTAAATGTATCCTTTCCAGTTGTCTCT
GAAAAGGAATTTTCCTTCTGCATGTGACTCCTTATCCCCCGTGATATTATAAGAAACTGTTCTTTCTATATTCATCTACTCTTTTACTGATACCACAAAC
TGCTCTTTACAATCTCTGGGAAAGAATGTCCACATTTAACCCGGTTGCACCTTTTTAGCTGTCATCCCTGCATACCCATTTCTATTCATCAAAATGCCTA
GGATATTTCCACCTCCATGATTTGTTGTCATCAGCTCTCTATCCAACTTCCACCATCTGACTTTTGTATCATCCCAACGTAATTGGCTACTTCAAGTCAA
ATATTAGGATTACTGGTTTTTTTTTTCCTTTTTCCTCTCAATTTCTAGGATGACTTAAACTCCTTTAATTATCATCTTTGACATATTTTCCAGGCTGAGG
GCCACTTTGTTTCCTTCCATAGTACTTTCATAATCTCTTGGCTATTTTTGAGCTGGCTTTCAGATTCAGGAAGCTGAATCCTCCTTCCTCCTTGAGGATT
TTCACGTGGGAGAGAATAAATATGCTTGTGATTTTCTCTCCTCTTGCTTCCTCACGATGTTCATCACTTGGCTCACTTTTTAACTTGCTATTTAATTCTC
ATACTTTATTTGATTCTGCTACATACATTTACATTATGCTTGTTTTATTAGCCTTAAATTATAAGCTAAGGTGAAATGGGAACTATCTCTGTTGAATTGA
ATCTCACCAATATTCAGCACAACATTACATTTGTTTGTTTTGTGATTTGACCCTTTGTCTGTAATGAAAATTAACACTAGGTTAGTGCCAAAGTAATTGC
GGTTTTGCCATTATTTTTAATAAATGGTACCCTTTTCTGGGGAAGACTCACAGCACACCTTACTCTTTCTGGTTCCTAAGAAAACAAGCACCCCGGTATC
AGCCAGGGAACTACATTGAATGTCATTTCCCTGAGACTTGAGTTTTTCCACTGCTCCCTCTTCACATTTCCCAGACTTCGTTGTATCTCTCTTTTTCTGC
TTATCATTATTTCCCTGCTATCTCGGTTTTCCATTTGCTTATGCGAAATGTTACAGTCATCTAGTAAGAATGTCTTAGGGTCAGCTGTGAGCAAAGCAAA
ACAGCAGTGAAGGATAAGAGAATATCAAAAGCCATGACATAGTCCATACTCTTTACCCCTGCCTGTCCCTCTAAAGTTAGGATGTACTTGGGAAGATATA
GTGTGCACTCAAACAGTTGAGAAGAATGYAATACTCACAGACAAGTTTGTTTCAGAGTTCCAAGAAGGGGAAGCTCAATATGGGCTATCCTGGCAACAAG
GTAAGAAAAGTTTTGCAGAGAGAGTGGAACTGGAATTAAATCTTACAAGATTAGCTTAGTAGGAGGGACAAAGAAGTGCATTTGGTAGGAGTGGAGTTCA
TATTGGGGAGTCCTGAAGATGGGGGTGAATGGAGAATTTAGCATTGGAATATTRAGGGACTGAAGGTCAAGAGGAGAAAACTGGATTTTAACATATGGAC
CTAGTATTTCAAGGAGTAGCTTGAAGTTTTATCTATTTTTAAAAAATTAGAATAAAAATCTATMTTTTAAAGTATATTTCGAAGTCATTGATACAGGCAA
TGGAGAGTTATTGGAGGTTTTTGAACAAGTATGTTATAGGATGAAAGCAGAGTTTCAGGACAGTTAGTCTGCCAGGAATATGTAGAAGGATGTGAAGAGA
GTGGAAATGAAGAGAGGGAGATCAGCAGCAAAGAGACTGACCATTGCCATGGTCCAAGTTCAAAGCAATGATGTCTGGCCTGAGCTAAGGTAATGAGGTA
GGAGGCGAGACTTGACTCTGGAGTCGGGCTCCAACACCAGATCAAATTGAGGACTAGATAAAACAGGGATGAGGCAGAAGATGCCTTCCATAAACACGCC
CACCAGGGTGCCATGTTAGTTTACCATTGACATGGCAACAACCAGGAGTTACTGTCCCATTCCATGGCAATGACCCAAGGACTCAAAAGTTATTACTCCT
TCCCTAGAAAGTTCTGCATACACCACCTCTTAATGTACATGTGATTAAAGTTAAGTATGAATATAACTGCAAAACTGCCCTGAGCTTCTCCTCTCTGCCT
GTGAGGTAGTCCTGCCTGGCAGGAGCAGTCACGGAGCYGTAAGGCCACCAGAGCTGTAACGCTGCAGCTTCAAAATAAAGCTGTTTTCTTCCACCTCTGG
CTTGCCCTTGAATTCTTTCCTGAGCAAAGCCAAGAACCCTTGTGGGCTGAGACCCATTTTGGGGCTCACCTGTCCTGCATGAGTAGGAATGCAGGGACAC
AGTTGACAGCTGCCTTAGATCCAGCTCCCAGAAGCAAACCCTGAGAGGACGATTCACATGATAGTGATWTATTTGTGAGGAAGCATTTCCAACAGAAAGC
AGATGAATTGGGGAAGCAAAACAAGGTATCAACAGAGGACAAAGGAAAGTGTAATTTCAAGTGGAATCCAGGCCTCAGCTTGATATGGAAGGGGAGTTTC
TACTTGAGTCAAGGGGCTGATTTCTCATTCCCTGCACTCACCATTGCCTGTGGATCAGGGTGATGGGGAGCTGAGGAGGACGGGGGACTCCCAGACACTC
CTGGTTTTTTCAGTCTTTGGGGTAAAGCAGTCTAGTAGCTCAAGTGCAGTCATCTGAAGAGAGTCTCAGGTAGAGTTGTTAGAAGCAAAGTATCCAGAGC
AGATAAGGGAATAGGCAGTTATAACTCATCTTATATTTTAAGATTTACAAAGAATAAGCTTTTAGAAGCCAGGCACATATTGGAGGTGGATAGATGGATG
ATAGAGATGTAAAATTTAAAGCACTGATTTCTGACTTACCAACATTTTGAGTTTTTTACTATTCCTAGTGTGAAGATAAKTTTTCCGGACAATCCAATGG
TTCATAGTAGGTTCTTTAAGATATGTAAAGTGTGTTGTAAATGTAAAGTATTAACACACATGTGGCAAAAAGCAGTCTTGTTAAGTTGGCATCTCTTCAG
CTCCTCTCATGTGAGCTCATCCCCACATGTAAGTGAGATAACCCTTTTTCCCAAGGAGTTGGCAGTTTACGACAATTAGATTAAAACCAATAAATGAGAA
CAACGTGGACTCATTAGTAAAAAATAGTTGTAGTGTTTGACAGCGCTCAAATATGCAACCTCCTTTGAGATTCATGGTCATTCCTTTAAAAGGAGACCAG
GTTACAATTTGTGTGACTTGTGTCTAGCAGCATTCAAAGCCACAGAAGCATATAGAGAGGAGGAGATAATTGGATTTAACCCGAGTTGGAAGTTAGCCAA
GTGAGTCATTGGAGGGAAAAAAAGGTTAAATGAGTTAAATGTTTGCAAATAAATGATTATAGTCATTGGACCATGGAATCTAGTCTAAGTACCAAAAAAA
AAAAAAAAAATGGCAGTATTAATGAATTAGTTGGAGGTCTTGATATGGTCAGGGAATTAGTGAAATGAGCCAAAGTTAATGTTCAAAAAGAAGGACATTT
GAAATTGGGATTGACCTGCTGACAAGGTCTTCCAAATGACAAGGTCAAGGATAAGACCTTGGGAGAAGATGGCTAGAGGAAAGATTACTGATGCTGGGGA
GGTCAAAGAAATGAGAGACTAGGGTATTCCACAGATTATCAGTGGATACTAGATTAATAGATTATTAAGTAGATGCCAAAATTTTCAAGAAAAACAACAG
GAGTAGGAGGGAAAATTTTCAAAGTTCTTTAGCCTCTTAATCAAATAAAAACAAAGGGGAAGAAAAACAAAGCAAACTGTAAGATGTCCTTAATTGATGA
GCAATTAACTTCCACAACAGTRTTTGTTCACTTTGATACCTAGAATTAGCCATAATGATTATCCAAGTAACAAAACCATTTTGCTTTTATTTACACTGAA
CATTTATATACCCAAAGACATGYGTATCCATGGATATGTCCCTTAATAATTATTCAGTGTTTCCAAGGATTACTAATCAAAAACTTTAGGGTCATTGAAG
AAAAGAATTTTAAATTTATGCAGAGGGTAATAAAAATGTTCCTCACATTTTATTATAAATAAAGAAAATATCCTGAATTGCAGTCATAGATGTGTCTTTA
TCCACTTTATTATTTTTGTGTAATTAGTTGGCTGTATCCTATCTTGTTCCCAAAGGGTCTTYTGGTCAYCTTTATTCCAAATATAGTAGCTCTCTCAGAA
TAGGTGGTAAAGGATATTGGGTGAAAGATAAACTCACAGAACAAGGCTAACCTGGACATGAATTGAGCAGAGTGCATGTTCATTCAGCTGATGATGTAAC
CTCATCTTACAATTACATATATTCYCTAGTTATTTCTTATTTATCTTATACCTAACTAAGCAACTTTAGGAGAGAATTCATATGTTCTATTATTTTTTAC
AAAATATGATATATGTATTTATGTGTTTGTTTCATCATATACTCTAACATATCTCAGTTAACTAGCTAGTTAAGCAAATTCATTGAGTAGCCATGAARTG
GCAGTGGCACTCAGCAGAAGCTAGCAGGTTGAGGTGACTAAAGAATGGAGGATTTTAGATAGATGCCTTTTTASTGAGAGGAAATAGGGTGATTGAAAGA
GCCCTTGGRTAAGGGATACACATCTTAGACTAGACCCCCCTTCCACCACTTCACTATAGGGATTGGGTGTTTTCAACTCAGTTTCCTCACTTATGAAACA
TTATCATGTTTCTGTTATTATAATTTAAATAATTAGAGAAGAAAGTTTTAAAAAGACCATTAAATATATATCATAGTATTCTTATTTAAGCATAAGGACA
TAATTGCTCCAACATAACCAGTGTACTCTAGAGGGTAACTCAAAGATGATAAAAATTGCTTTAAATTTGGGCTTCTCTTATTTGTTTCTAAAAACACACC
AGAATATGCTTTTAGTTTCCAAAAAGACTTAGTGTGAAAATGTACATATAAACAGACATGAAATTAAGACTAAAGCTTTCTGACATCAGTGATTTCAGCA
GAGGAGCCTGGAAACCAGTTACTGAGCCTTCATGCTACTTAAGAATAAGGTTAGACTAAGAAATAGGATTTGCTCTAAAGCAAGTAACAGAGGCAACTTC
ACCAACAGGCAAAGTAGGCAATTGCCTTGGAAAGAAGGCAGGCTTGTTGCAAATTACCTCCCTTACCCAAGTAATGAATCACCTGGAATTCCTGAATTAA
AGAGACATTCCTTTGGGCAAATAATTTTCTGAGTCTGGATTTTGAGATAGGATGGTTAAACAAAAAGTCATCTTCAGTCACAATTTTTAATGCAGATTAG
TTTATTGGTTCACATCAACCTTTAAAGGGAGATGTGGAAAAAGTGTAGGAGAGATAGCCATTACTGGGGCCAGGAGGCAGGTGGGAAGAGGAAGAATATG
GAGCAAGGGAAATCAAATCTGGGGGCACTTTCCCTCCTGTATTTCACTGCATGAAGGCTCTGCAGTTAGCTGCCTGCGTTATCCAATCTGTGGACTAAAG
GGAATGAAAGGAGGAAGGCAGTAGGAAAGGAAGACAAAACAAGGAAASAAGGTGGAGTTGGGAAGGGCTGATTTGGGAGAAATGAGGCTGCAGCAAGGTT
AGACAAAGCTCACTGCTCAAGTGTGTAACCCTGCAGGCTACATAACCTGATTATTCCTCCAGCYTCATGGTGCCCTCTTCTTTCCTCACAGCCCTGGCCA
TGGCTCACTGCCTTTCTTTCCATTCTTAGGGTAGATCTATCTCTTTCCCATCCTGGTCTTCTTCACATACACAGTTTCCCCTGTATGGACGCTCTGCCCT
TCTAGCACTCACTCTTGAAGTCTCAGCTTCTGAGAAGCCTTCCCTGGACCCCCATTTTCAGKCTGGCCTCTAGATTATATTGGCTGATTAGGGATTTTCC
CATACAGTCCTTTCCACAGTTTGCAATTGTTCATGTATTTGAATGWTCACGTGTTTAATCTCTCTCTCCTTCTAGCTTTAGAGAAGCTCCATGAAGGCAG
AGACCATATCAGTGTGTTTCATATTCTACCCACCAAGGCCTACCAGAGTTACTCTGTAAAATCTGTTGAATTAGATAAACCAATCGTTTGAGAAGTTTAG
TAACAGCATGTTTGCTTTTGTTCTTTGGACTACGAACAGTCACAGAATGGCTATGCTTATTACTGTCAAAATAGAAGCATTTGTGTACTGATAGGTTTGC
AAACTCATCTGAAATGTATTATATCTGATTCACATGGTTAACCTGAAGAAATCTGAACAGGAAATTTGGATTGACGTATAACTCACAGTGGCTTGGTATT
TCAGGTTGGAATTGTACAGTATGGAGAAAACGTGACCCATGARTTCAACCTCAATAAGTATTCTTCCACCGAAGAGGTACTTGTTGCAGCAAAGAAAATA
GTCCAGAGAGGTGGCCGCCAGACTATGACAGCTCTTGGAATAGACACAGCAAGGTATATGGATAAAAAAATAAACTAAAGTAAAAGACTGCAAAAATAAC
TGCTCATGATTTAGCCTTTTGGCATATCAATTGAAAGTTTAATATGACAATATTTAAAGCCATTTTGTTTAAAATGAGATTCAGAAGATTAAATAATGGT
TACAAGATCAGATGTTTGTATGACACAATCTCACCATCCTTCTTATCCTTCTCTTRTTACAAGGGTTTAATTGATAGAGAATCCATTTTAAAATATCACT
GCATCTATATTTTCATGTTCTTGGGTACTAAGACAATATTAGTTAATATTTGTTTCATTTATTTTTTGTTTTCAACTTCTAAGAGTCTCAATCTAAAAGA
ACGGATTAAAAATAGGTCTACCTCTACTCAATATATATTTATATTCTAGAATGTCCATGTATTTTCAGTACTTGATTTACCGTTATCGAAGCTACTAGRT
AAGAGGTGTTAAGGCGCCAAATTAAATATTGTCTATTTRAAATCATTTTTAGTGCAAAGTTTGAAAGAAATGGAAAGGATATTATCATTTGTAATCCTCT
CTCCTTTTTTACTTTCTTTAGATTCCCTCCAATTTACAACCCTTCCTTTCTTCCATCTGCAGTTTTCCTTATGGTGAACACATAACTCAGTCTGTGGTTG
AATTTCATTTTATAAGAACGAACRGAATTGTCCTCTCTTACAAATGTAGAACACTTTATTTCCTGTGTGTTCTCTTATCTCATTCATTAAACTAGCAAAC
TTCTGAACAAATTCAAAACAATACAAAAATCACAGGAAATGTAATAAGTAGTTTGATTAATGTTAAGAATCCTTCTGTTAAATGTCTTCAACTTCTGAAC
TCTTGCCTTAGGTGGAAAGCTAATTACCCATGCTCTCACTTCATCTGCCTGCTAAGATGACTGTTTTAAGAAGGTTAAAAAAGTTAATAATGATCCTGCA
AAGAATGGATTGGATATTCAAAATTTTATAATTTCATGTACAGCTTTTGCCTCATGAATATTAGAAAATCATCTGGCTCTAGTTATATGGGGCCCAAGAG
AAAATAACCACAAACAGATGGAGGTAATTGGACATTTACCTACCTATTGGATCACCTATTGGATCACCAAYTTGTATACACAAAGAGTGCACATGTTTAG
GTGTACCRAATGCACCCCCATTCAATAATCAATTAAATGTGACTGCACATTCGAAGTAAGTCAAAGTGTTCTTTGAAACCTCTGAGCCTGTAGGGAGCTG
TACGTTTTCCAAAGGCAAYCATTTAAGAATGAATATTCATCTCTGAAAACWAACTGAAGAAATATTCTGGCTGCTTTTGCTTCTGCATAAATACGGCTCT
AAATACCATGTCCCTATGTGTTTTTTGCCTCTGTGTTTCACAAAGGKTATAGCTGTGGGACACAGAGTTTATTGAATTTTGATTATACATTAAAATTMTG
TAGTGATAGTACCAAGTATTTTTCTCCTACATTAATTACCTTTTCATGTTTAAGCACATTTTAATTGTTTTTTATTCCTTTCAGGCAGAAGTTGCAAACA
ATATTTTTAATATTTTTAGAATTCTTTACCTTCATTTTCAGTAAATCCCAGTTCAAAKTTTTGTGTGTGTGTGTTCYCTTCTTCCTATCCCAAATTTTTA
CTTTTGTCAATAAACTTACAGTATTTAATCATGAGGCCTGGATTCTCCTGTCTTGAAGAAAGGGACACTCTTGATATATTTTAATTTTTTAAAGCATGCA
GGAAAGTCAATGCTTAGTGCCAAGAAAGGACACTGGATACTGGTACTTTGAGGACAATGACAATTTTTTAAGGAATGTAGTTGAAACAGGAAAGGTGTAC
TCAGGAGTTCTGTCAATGTCTAATCTTCCAATATTACATAAAGCCAGCCCTGAGTTTAGAACAGTCACATTTTATTTATGAAAGGCCTTYTAATCATCTC
CTTCAGCTGATGTTCATTCAATTCWTTTGTAACCCTGATATTTAAGAGAATTAGGAAGTTTTAGTGAYCTAAGGAATTTGAATTTCAAAAGTGATTGAAT
CTCATATGATATTCGCATACAAAGATCTGTTAAAGACTAACATGTAACRTCTGTTTTCACCTTTGTTTGTATACTTTAAAAAGTCAGAAAATCGGCTGGG
TGCAGTGGCTYRTGCCTGTAATCCCAGCACTTTGGGAGTCTGAGGCGGCTGGATCACCTGAGGTCAGGAGTTCGAGAGCAGCCTGGCCAACATGGTGAAA
CCCCATCTCTACTAAAAATACAAAAAAAATTAGCCGGGCGTGGTGGTGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAAGCGCCTGAA
CCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTTCAGCCTGGGCAACAAGAGCAAAACTCTGCCYTAAAAAAAAAAAAAAAGCCAGA
AAATCTACTTGTATAGTATGTTAAAAATTATTCATGATATTTGTTAAAGATTGTAAGGAAGACATCACTCAAGAGGAACCTTTATGATGAAGGTATTGCA
GTAAGGAAGAGAGATAGGGCTCAGCTTTGACTACAGTGAGGACAAGTGGGCATTTATAGTCAAGGAACAGGGCAGGGATTGGCAGTAACATCAAGGCTAG
GGGGATTCTTGCTAGACTGGCTCAACAGGATTCTTGCTGAAGGCAGATAAATAGTAGGAAAAATAAACTGTTTTTCTCTTTCTATATTCTAAACACTTGA
CATGTCACTTCTGATGCCAGATGTGTGGGATTTTTCCCACATCGACCAGTTATCTGACATCAGCTGCATGTTCTAGAATTCAATTCAGTTCTGACACCAA
CTAGAGTTTATGCAAACCTCCCACAGATTAASGGCTCAGTCCTTCAAGAATTCATTCCAATTTAGAGCCAGTAGGTTTCCAGGTACCCACGATTTGTCCA
ACGTGGCTACAAATTAGACCCCTTACTTGGGTTTGATTATATGCTAGAGTGGATCACAGAACTCAGTAAAGTATCTTACTTACTATTATTAGTTTATTAT
AAAAGGATACAACTCAGGAACAGCAAGAGATATGTAGTGCAAGCTATGAGGGAAAGGTGTCAGAGCTGCCATTCCCTCTCATGGTGTACCTCCTTCCACC
TGTTCAGCAACCTGGAAACTTTCTGAACCCCGTAGTTCAGAAAGTTTTACAGAGGCTTGATCACAGGCATGATTGATTATTAACTGATTCTCTAGCCCCT
CAATCTTTCCTGGAGAATGAGAGCTGGGGCTGAACGTTTCAAGCTTCTGATCATGGCCTGGTCCTTCTAGTGATCAGCTCCCATTTAGGAGCCCACCAAG
AGTTACTTCATTAGAACAAAAGATACTCCTATCACCTAGGAAATTCAACAGATTAGAATATCTATGTCAGAAACCCAGGTTAAAGACCATATATTAGAAC
AAAAGATACACCTCTCACCAGTATTGCTCAGGAAGTTATGAGAGTTTTAGGAGTTCTGCACCAGAAACCAGAGGCAGAGACCAAATATATATTTATTATT
TGTTAAAGGAAAATTTTAGACAAATTAAATTTGACAGAGTTTATTTGAGCAAAGAATGATTCATGAATCAGGCAGCAGTCAGAACCATAAGAAGTTCGGA
AAGATCCATTTTAGCAGTGTGAGCAATGGGCTTTTACGAGCTGAATGCAAAATCAAATTAAAGAAATGACTTGATTGGCTATAGCTAGGCATTTACCTTA
TTTGGGTATGATCTGGTGGAAAGTTAGAGGTTACTTGCCAGGTTCTGATTRGTAAAGTCTCTASTTAGAAGTTAGTTGCAGTTTCTAATTGGTAATGTTT
AAGTTTTGTTTTACTGTTTACATTGAATTGGACTTTGGTTTGATTATATAGGAACATACGGCACTGGAGCTGTCTCAGCCTAATTGCCTATAAATTCAAT
TCTTTTAAAAGATAATATCATGGAACAGCGTAATMAGATTTAGAGGGTGGGGAATGAGGAATGTGATCAGATACCAAGGATGAGGGATTTCCACTAAATT
GATTAAGCCAGATTCTTGCTTAAACTGGACTAAGTGGGTAAAGAACACAGCCCAGGGTCAGAGCCCAGTCTAGAAGAAGATGTAAAGGAGCCTGACTCGG
TTTTGGTCAAGGAGAGGGTCTTTGTCAAGTATAGAGGGCAGAGAGACTCAAAGAAAGTAAAAAATTAGTACAACTATATCCTGTATATCCACCACTCAGA
ACTGACAGTTGTCAACATCTTGTCATATTTGCTTTAAGTCCTTCGAAAGGAAAAGTCATCAYATAGAATCCTTTTCCCCATTTCACCAGAATCCTCTCTT
CCTGCTTAAAGATATCAGTTATGGTATATTTAGTGTGTATCTGTTGTGCAAACTCTTTGGAATGTTAGCTTAAGACAGGCGTTTCCTTGGCAAATCTATC
CCAAATGGCAGCTGTTTGTCTGTACAACCAAATATCTAAATGGACCATTCAGTACAATGATTGCTGTACTTTGTACCAAAATCCTAGAAATATATGAAGT
CTTTTCATTACTTTAGTCCTAAATAAAATATACTCATCTCTTCCAAGACTCCAGAGCGAAAAGGTTTGAGTAAAAGGAAATAAAGGGGGAGGGGAGAAGT
GTGTGTATATATTTATATAGAATACATACAAAACAAAAATTTTCCATTTCCCTGTCTTCTGTTTCTTTCCATAAGTGCTGTTCAATTAAATTSAAATTCG
GTTTTTTGTTTTGTTTTGTTTTTGAGACGGGAAGGTGTCTCGCTCTGTCGCCCAGGCTGGAATGCAGTGGCGCGATCTTGGCTCACTGCAAGCTCCGCCT
CCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCGCCCGCCACCGCACCCGGCTAATTTTTTGTATTTTAGTAGAGACG
GGGTTTCACCTTCTTAGCCAGGATAGTCTCGATCTCTTGACCTCGTGATCTGCCCGCCTCGGCCTCCCTGAAATTCAGGGTTTTTTTGCAGTTAGGTTAT
AGCATTTTCCCCTCCTCTCCATTGCCATCTTCTCCCATCCTGCTCTCAGCAGCCTGTGTGCTAACACATAGTTCAGGCCAAATGTTTTGTAACTCCTTCA
ACCACTTTTTGCTCCCTAAAACCCAACTGACTACTCCATGGACTCAGAGCATCACCATCTGCAGTCTATTACTCCCATGTGAAAGACTGCAGATGTCCCT
ATCCCCAGGACACTCTCAAGCACTCACAGCCCCACTAATACTCTGTTCTCTCTCATCTCTCCTCCCCAGATTAGAGGATTTTCGAGCCATTCTACAAATG
TCAGAGTAGCTGTGGGGGAAGCAAAATCTCAAGCAAAAGTTTCTGCTAGACGCAGAAGAAAAGAGGCCTGTTAAATGAGAGAAGGGGTGTTTACAGAGAA
AGGAGCACCTGGGGGAGTGTTTACAGATCTGGCCTTCTCTGACCATGATGTATGCCTCAGTCACACCCTCCCTTTGAAATTTCCAAAGAATGAAATACTG
CTGCCTTTTTATATATAGGATGTGTGGTGATTAGCAAAACGGAGACCTCTCCATCATCTGAAATAAATCTAAAACTATTACAAACAAGGCTCATTATGCC
TCCCAACTTGAATGATGGGCATTGATGCTAATTTTGGAGGGAAGCACCAGGCTACCTAGAGTAGTCAGTGTTTTTGTTTAGTTTTTTACTTTGTCTATTG
TAAAGTGGTGTCTTATCAACCTCTCTTTTGTTTGTGATTACTTTAGAAAGGAGGCATTCACGGAAGCCCGGGGTGCCCGAAGAGGAGTTAAAAAAGTCAT
GGTTATTGTGACAGATGGAGAGTCTCATGACAATCATCGACTGAAGAAGGTCATCCAAGACTGTGAAGATGAAAACATTCAACGGTTTTCCATAGCTGTA
AGTGTGTTGCCGGAGATATTTTCAAACTCTTAGGTGTAGAGAAGAGCTGTGTGCATATTGGGTAATTTTATGAAAGTCACACAAACCAGGTTGGAAAAGA
GAAAGGTCTCCATTTGAAGGTAAGCCCTGGGAGGACAGACTTGGATCTTGCTCCCTCTGGGTCCTTAGTACCCAGCACAATGCCAGGCCAAACAGACACT
CAACAAACAATCATTGAAAGGAAGGAAGGAAGGAAGAAAATAAGGAAACATGAAAAGAGGAAGAAGGAAGSAAAAACATAAGAAGGAAGGAAGGGTGAGA
AAAAGAGGACTGAAAAAAAGAAGAGGAAAAGAAGAGGAGGAAAGGAAGGGAAGAGGGTGGGAAGGCGGGAAAAATGCCTTTGCCTTTAAATAAGAGAGAG
GATTTGTTCAGTATAACAAGAGCAGTGGCCATTGGGCTTCCCTTCCCCGTCTGAGCAATTTTCGACTMTCTTTTTCATTAATTATCTTCCCCCATCACTT
AGCTAAAGTGGGGGAAAGTGCCAGTTGTCTCTGTTTAAATATTAACAACTTCTGACGTTTGACACTTGCTTTTCAGCGAAGTAGACAGGAATTGAATTTT
TGTTTTCTGATGCAATTTATAAGCTCCTGGTATAGACCTTTCGACCTAAAATGTAGACATTCTAGTGGGGAACAAGTTCTGAAATAAAAAGTTACCCAAA
TGGTATGCCAATTACTTCAGAGCTAGCTCTAGTTTTAACAGTGTGCTTCTTCAAARCAGCTTGMAGTTCTTCTCAGACATTAGTGCATTACTCCTGTAAC
CTCATTATTCCTRTAGCTTCATGGAACAGCAGGTGAGGGAGCTGAGAAAGAGGCAAGGGCACCCAGTGACTTGGGTGGTCCCAGAGGACAGGGGCAAAGT
GGCTTAAAGTCCTCTGATGAGACGTGTGGTATTTCCTCTGGGATGGTCACTGATACTCCCCAGGGAAAAGGATGAGGGCYTTACTGAAGCAAAAGAAAAG
AATTGAGAATAAATCTGCCACTGCCTTCTCTCTAGTAAGGAACATTCAAAAGCCACTGCACTGCCTTCAAGACTCACTTTCTCACATTAACATTGAGTGT
ACRTTATAGTATTTCAGTTGYTGCTCTAAACTACTATCCATTTTTTTTTTTAAATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGAAGTGGCACGATCT
CGGCTCACTGCAACCTCCAACCTCCCAGGATCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACCACAGGCGCACACCACCACACTTGGCTAA
TTTTTWTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCGGGCCGGTCTTGAACTACTGACCTCAGGGGATCCACCTGCCTTGACCTCCCAAAGTGC
TGGGATTACAGGCGTGAGCCACCGTGCCCAGCCCACTATSCATTTAATGATACAAATAAACAAGTCTTTCGTAGATTATAAACAGCAGCACTTTAAACAG
TAATTTTAGTTCTTTTCTAACTTTCTATAAGTGAAAAATCTGTATCCTTCTTAATCAAACTATCAGTTTTTTAATCTACCATTCTAAATCTAACTTTAAA
AAACTACATGTAGATGTGCAGTGGGGGTGAGCTACTCAGATGGGTAGGGGGAGCCTCAGACCTGGAGGAAAGGGGTGGGGGCAGCCCTCAAGCCCATTGC
CCTTGTGCCCACTATCCTCCCAGGCCACAGTGCAGAACCATGGTCGGAAGGGTGCTTGAGGTCTGTTTTGTAACAGGACTTTGAAGGCAGCACCATGGAG
CTCTTCGTTTTTAATGATGCCAGACAAGGCTATTATTGGAAAAAGAAATGTGAAGCCAAAAAATTCCTGTACCTTCATGGTCACTGGAGGCCAAGACTCT
CCTTCTTCTTAGAGGATTTGGATATTCTTAAAAAAAAAAATCAAGCAATAGCAAAGGGCTCAGTGTCTTTCCTTTATTTTTTGGATTCCAGGAGCATAGC
CTTGAATTAATCCGATCCTTGCTTCGTTCAGGCCAAATTGTAATCATTTGTTGAAACAAACTTTATTTGTTTCTCTGTTTAGAACTATATCTGTGTATTT
ATTTTAATAATATTATAAGCATCCATGGACCTACCACCCAAATTGAGAGCTAGCTCTCTTTTTTGGTAACTACATCTGAGCACATTTACCACCTGCCTTC
CTCCACCTGGGTAACCATCAGTCCACTTTCTACATTCCTCAACCCTGGCTCTACTTTTCAAAATAATATTTAGGCACCCATACATATCCAAAAAAATAAA
TTTTAAGAATATTTCATTGTTTTTAACATTTTAAAAAGAGTGTAATGCTGTATATAATATTTTGGAACTTTTAAAACTTAATACTATATTAAGATTCATC
CATAATGTTGCATATCTGTATAGTTCATTCTGTTTTTAAAAATTGAAGTGATATTTACAATACAGTGAAATGCAAGGTTTCAGTGTGAAAAGTGTGCACG
AAGTGAACAATTTGGTGAGTTTTGACAATTACGTGCACCCACATAAGACTTAATCAAGATATAGAGCAATTTCATCACTCCCAGAAAGTTTCCTGTGCTT
TCTTTTTTAAAATGTATCTTTAATTTTTATGGATACACGATAGCTGTACATATTTACCTGGTACATGTGATATTTTGATACAGGCATACAGTGGCTAATG
ATCAAATCTGGGCAATTGGAATATCCATCACCTCAGACACTTATCATTTCTTTGTGTTGGGAATATTCCAAGTCTTCTCCTGTAGCTATTTTGAAATATA
CAATATGTTTACTGTAGTTGTCCTATAGTGCTACTGAACACTAGCTCTTATTCCTTCCATCTAATTATAGTTTTAAATCCATTAACTAACCCCTCTTCAT
CCCTGCTCTTCCCCACTACTCTTTCCAGCCTTTGATAACCACCATTCTATTCAGTAYGTCTATGAGATCCACATTTTCAGCTCMCACATTTGAGTGAGAA
CGTAGTGATATTTGTCCTTYAGTGCTTGGCTTATTTCATTTAATATAATGTTCTTCAGTTCCATCCATGTTGCTGSAAATGACAAAGTTTTGTTCTTTTT
AATGGATAAATAATATTCTGTTGTGAAGATATACCATGTTTTTTTAAATCCATTCATCCATTGATCCATACTTAAGGTTAATTCTATATCTTGTCTATTG
TAAACAGTGCTGCAATAAACAGGGGAGTGCAGATATTTMTTCAATATACTATTTCCTTTCTTTGGGATATATACCCAGCAATGTTTTTTTTTTCTTTTTT
TTTTTTCATTTTAAATACACACCTCCTGTAGTAACCACTGATGTGACATACCACCATAGCTCACTTAGATWGCCAATTCTTGAATTTCAAATAAATAAAA
CTGTATAGTATGTACTGTGTGTTTAGCTTTTCACTCAACATAATTATTGCTTGTGATATTTTGTGTACTGGGGATTCATTTTTTGTTATTGTTATCTATT
TTATAGACCACAATTTGTACTCTACTGTTTATAGACATTTTGCTTGTGTCCAGTTTGAGTTATTGTTATAAATGTATCATGAACACTAAAAAAAAAAAAW
AAAAAAAACCAAAGTGATAATCTTCAGGTAACACTTGCAACTATGGTAAAAACTAATTTTTTTATTTATTACAGAAGTGATTTTTTATTATAAAGTTTTA
AAAAAAATATTGAAGCAAATATAAGGAAACACCTAGTGTCCTAATATACAGAAATAMAAAATAATATATTATGATACACATTTTTTCACATTTTTTATGC
CCATGTACTTATGTGATTTAAAAAATAGAATTAGGTCATATCTACATATTGGGGATTTTTAATTTTTTTTGCATGTTAAATTTTACATATTGTTTTAAAA
ATGTTTTCATTATCTTGAACATTTTTATATTAAAAACAGTTTTAACATAAAAAATTTTTACATTAAAAACTAATTTTTTTAGGCAGAAAAAGTACAAACC
TYAACAAAGCTAATTAGTTGGACTTCATCAAAATGTAAAACTTCTACTCTTCAGATGACACTGTTGAGAATATGAAAAGACAATCTACAGACGGGAAGAA
AACATCTGCAAAACACATAAAGGACTTGCATCCAGACTATATACAGAACTCTTACAACACATTTAAGGGAAAATAAACATCTCGTTTTCTTTTAATGGGA
AAAAGATTTGAACAGACACTAACTACACTGAGGAAGAAATACTATAGCAAATAATTGTATGAAAGAGTCTCAACATCATTAGTCATTAGAGAAATGCAAA
TTAAATAAGACACCACTATACGCTAACACAATTGCTAAAACTAACAAGTGAACAAAAAAAACTGACAATAACAAGTATTGACACGCATGCAAAGCAGCTG
GATCTCTTAGACATTTCTGATGGGAATAGTAAAATGGCAAAATGGGACGATTACTGTGGAAAGCAGTTTGGCAGTTTCTTAAAAAGTTAATCATTCACTT
ATTGTATGACCCAGCACTTTCATTTCTAGTTATTTACTCAAGAGAAAAGAAAATATATGTCTATTACAGAGACCTACATGTGAATATTTRCAGCAGCATT
ATTCATAATATGTTGAAGCTGCAAACAACTCAAATGTTCTCATTAAGTAAATTGTGGTGCATCCATACAATGGAATGCTACTCTGCAATAGAAAGGACCC
AACTACTGCTACATGCAGCAACACGGATGACTCTGAAAAGCATTGTACAAAGTCACAGAAGCCAGACACAAATGGCTACATACTATATGATTCCTTAAAT
CTGACATTCTGGAAAAATCAAAGCTATAAGGACAGATTATTTATCGGTGGTTGCCAGGGTTGAACGAGGGGAGGAAGGGATTGACTATAGGGGCAGGAGG
GAACTTTTTGGGGTGATGTAAATATTCTACACCTTGATGTGGCAGTAACACAACTATATTGGTTTGTCACACTCATAGAATTGTACATCTAAACAGGGTG
AATTTTACTGTATATAATTTATTGCAATAAACCTTACCTTAAAAAAAAACTAAATGTTTGAGAAAACCTGCTTGGACATCTAAATAATTATAGTTAACAA
TCATATATAACTCCTGCTTCTCTCTCCTCTTCATAAAAAAGAATGCCCCTGTCTCCAGCATTTGGTTTCAAACAAGAATATCTCAATTGTTTATTTTCYA
GATTGCCAATTTAGATTACCACTTAGTCCAGTATGTGTTTAAAATATATRTGTGCTGGACTGTGCCTTGGTAATAGTTTCAGGAAGAATTGCTCATTCAA
AAGCAGGCAACTCACTTGCTGATTGCCTTTGCCAGCAGATAATGACATCACTAGCTGGAATAATATCAAAGACATTCAGAAACTATGAATATAACATTAC
TTTTGAACTGTCAGATTTTAAAAATACAGCTGTTAGTAACAGGGACACAGAGTACAAGAGGAGAAATTTTCACAGACATACAAAATTGCCCTTTATATTT
TTCTACACCAATTGTGGTGTTTATATAACAGTTAATATTAGGGAGTCTACAAATTTTGAAAATCACTCTTCCATAAATATGAAAGTACATAAAAATTCCA
TTATGCTAAGGTACTCTACACTGTTGTTTACTGACAAAATGCTTGAGATCCTTTATTTAACACATAGAATTTAAAATATATTCTTGCTGTTTCTGTTGTG
TCTTAGATTCTTGGCAGCTATAACCGAGGAAATTTAAGCACTGAAAAATTTGTGGAGGAAATAAAATCAATTGCAAGTGAACCCACTGAAAAGCATTTCT
TCAATGTCTCTGATGAATTGGCTCTAGTCACCATTGTTAAAACTCTGGGAGAAAGAATATTTGCCCTGGAAGGTATGTCTATTTATCTTATTGCTGCATG
TTCTCTCTGCAATTCAAAATCAGTATAATGGGATTTTTGTATTTATTCCTAATACATCAGTAATACTTTTTTTTTTTTTTTACTGTGTACAATATCTAGC
ATGGAACAATGCTCTTTTATATAAATCTGCCATTAAGATGGCTGTTTCTCACAACACTGTGTCTGCTAGAGACTCTCTTTGTAAGGGCATGGTAGGGCAG
TGCTGATGGGACAGCCGATGAAGACAATGGTCAATGTAGATGTGCCAGGACAAAAATGTTTCCATGTGCTTTGTTCCTTTTCTGTTACATAGATTTGGAA
AATGAGGGTACTACCTCTGGTTTGGGTTTTTTTTGTTTGTTTGTTTCTTCATTTCATATTGAGCTACTACAAGAGTGCTCTTATGCAATAACTTCTTTGT
TCACTTATTTTCTCTGTATTTTGCTCCTTGCCCATTTTAAAGGTCTTCATGGAAATTTGCCTTAAAATCCATGGCAATGAAACATTGGTTCACTGTATTT
GTCTAAATCATGTTACTTCTTTGCAGATTTTTCCTTGAGTTTTCAATGGTGACTGGCTGTTGAGGATAACGAGTTATGGCATTCCCTATTCTGCCTTAGG
TAGAGGATGTCAAGTAGCTAATTACTTTGGAACTCGATCTTTCCTAAAAAACAAAAAAAAAAAGTCTTCAGAATTGTTATGCCAGGCAAACTGGCAAAGC
TTCTTTCTTCACATTCTTTGATGATCTCTAGTCTCAGGGAACATGCGCCTTTTCTCCAACTAGGGAGAGAAACCACCAGAGAATTCTTTTCCCCTTAGGC
TACATCCAAATCCAGTTGACCCTGTCCTTGTGAGGACACACTGAAAGACTGTTGTTTCTACATCTTAACAATAGAAATTTAAAAGCACTTTCTCAGTTTC
CCTGATTTGATTGATAATAGGAAACAGAAAGACAAAATGGGAATGAGACACAACTGAAAAAAAGTAGACCATTTTGATTGAGCGTCAAGGGGCTGGGAAA
ATGCAGAAAAATTAGAATATGAAAATGTACAGAAAGGAAAGATAATTATTTAGAGTTATGGCTTTCAAACTTTTTTTGAGTGTGACTCACGATAATAACT
ACATTTTGCTTTTTGACCCAGTGCACATAAATATATACATATAAAAATAAGGCAAAGTTTCACAAGATAATTCTTATTACATGTGATGCACTGTGATGGT
TTCTCATCAATTCCATTCTACCCTAATCTCTTTCAATGAAAAAAAAATGCTGGCTATACTCAGTCTGTTGATTTCATGACTGGGTCACAATCCGTACTTA
GAACATTTGATTTAGAGGTGATAGGAATCTACAGGCCAGCCAGACTGAATTTCTGTGCCTCCCTTTTCCCCTGGCCTCTTTCCCCTGTGCCTTTAGAAAC
AGAACACTCTAATTGTTTATGAGTCTGGAGTCCCAGCTGCTTCTGAAGAACTCAGCTGTCTTGTGCTCTGTGTACAAGTCATTTTTAAGTGGCTTTGGTC
TCTCAACAGCTCTCCCGGTGTCATTTACCAATAAACCAGATTATGAGCTTGGCTGGCCTTAAGGAAAATACATAAGGTCTTCCAACTAATTGTGTACTTT
TAATTTTTAATAACATGGGCTAAGATATGATAGAAACAATCTGTAAAAATAATTTAAAAGAAAAGTTACATAGTTACATTTGATAGTTCAACAGAATACA
GTGTCATTTCTAAATCTCCTTTTAAGTAAGCAAGTAACCTAAAACTGGCAAAAATGAAGCCCACTTCAGCTAGGGGAGGGGGAGATCAATTGCCTGAAAT
GACATTTCAGATTATTTCTAACCTAACTACACCATGGATTAAAGGTGACAGGTTGAAGAGCCCAAACACTCCAAGAAGTCTCTATATTTAAATATGACAT
CATTTTATAAGGAACTTTACAGATTACAAATGTCTTCTATATCATCTTTGTTGCTACACTACACCAAAAGCAGTGTTTTGACTAGACTATTTCTTATTTT
TTTCATGAGATATTTAAAAAGGCTTTATTTCTTTGTTGCTCGGGAAATCTCCATTTCCTGTCAACATGTATCTTAAGATGACAAGTAGCTGTGATTATGA
AATTTCTGTTTGCCAAGGACAGTGCCATCTATTGAGGCAAGTATGCCAAGGACTTGCTTAGTACATCAGAAAATAGTCTACTGTCTCCATTTCCCGTTGA
GCACTGGGAGAAAATGCCAACATTTCTAACCAGAGGCTGCACAGTGGTTAGAGTGGCTGRCCCAAACACCCATGAACAGTCCAGGGAGAAGTTTGAAGCA
AGAAGCCCAGGAGAATATAGTGGTCTATTACCATGATGCCACTGCAGCAGGAAGAACATCACATAGCGTCCTTCTGTCTGTTCTCAGCTGAAGGCAGART
AGCGGCAGGGCAGGTGCTGAAAATAATGCAGGTTTCCGTTGCTGCATTCTTATTGATCTTGCAGATAAGTGAGAAAACACCTGAAAGCATTGTGGACTGA
AAATACATGTTTAAATTAAAGTTAAAATGCATCTCAGTCATTTAAATTACAGGGCAATTCACACAAGAGATTAAAATGATATATTTGAATTCTTCACTGC
CGCGTCTAATCTAGTCCTACAAAGGTAATTACTGATGTATTTGTTCACAATTTTATCCATGTAAATAACTAACAAATAGTTACATTCACAAATTTGATTA
TTCTCTTGCCTCAACGAAAGGGCAGACTGACTTTCTTAAGTGCTATTTTTAACTTATCTGCAAGGCCAAATAAATCAGTAACCCCTAGTGCAAGCAAATA
AATCAACATTCCATCAATTCCCTCAGGAAATTGTGGCTTTGGGTTTGTGAATATTTTGAGAATAATTTGAGAGTAGCAGACTGCCATGGAATGCTCTGAA
TTATCTCTGCATTTCAGTAAAGAGCTTCAAAATGGGTACAGGATCTTTTAAAAATGTATGATTGAATGGCATGTGGGCAGCCCTATCACAAAGACCCCTC
TGGATCTGTGAGTGATACTTACCACCAGTAATTAGAGCAAATAAATGCATACTAAAATACCTAAACCCTTTATCACACAATGAAATTCTGACAGAATCTA
TGGCCTGAATATGGGTGGGACTGATGGAGTTGAGAAACCTCTTTAAATATGTGAATGAAATTTTTTTCAGTCCCATAACATATTAAGGGAGTTTAGCCTA
AGGGCTCAGCAGGGTTCCCAAGGCATGAATTTGGACAGGAATTTCCTACTGTAGTACATCCAACTTGAGCCTTGTGGACCCAAAGCACCATAGGATCCAC
AACATGCTACAGTATAAGAATGGAGATTTCTCAACCCCTCTGGCGAGGACAGGGCTGCTAATGAACAAGAATTTGAGACATGAGCCCTTTGACTATTTTT
CTCTGTCTTCTACCCAGGCCTACCTRGAAATTTTGGGTTGAGAAATRTATGGCTGAAAATGCCCTAAGATGTTTGAAGTTCTGGTTGGTAAGACCACAAG
CTCTACCAGGTATCTGTATTCTGCAAGTCAGTAGTGCRTGAAAAGGCATTGTTACTTATTTACAGTGATATTTTCCTATGTTATAGCYACAGCTGACCAG
TCAGCAGCTTCATTTGAAATGGAAATGTCTCAGACTGGCTTCAGTGCTCATTATTCACAGGTATGTTGACCAGTTGGTGAAAAATGAAATAYATGTTTGC
AAGACTTCCCTTCCCAAAACCAACATCTAGCCATCAGTATGTAAGTGCAACGTGCAGTTCATAGCTTGAACAATTATGCAGGCTATGATGATGTTTTCTA
ATTCAAATAGGAAAATATCMTTTCACAAGCTTCTTATTAAGAAAATATGTTCTCTCACACAGTTCACTACATTGTACTAATAGTTGTGAATCAGACAGTG
TGAGCTTTGCCTTGTAATTATGTATCTGTCTAAATGAAATAATTTAACATATTTGCTACAGATGTGGAATATTTTTCCACAGTGTCAAGGAATTCAAGGG
TCTTATTAGAATTCCATGTTCAAGACCTAGGATGCTGGGCACCCAGAATAAAGTAGAAAGACAAGATTAGAAAATATATCATTTGCAGTTAATGRAAGAA
AAGGCATAATGGTCCTTGCAAAAGAATATTGACATTTCCATGTGCAATTTTACTGTATAACTTGGGTAAGTTATTTGTGCCTTGATTTCCTTTTCTGTAA
AACAGGTATGGTAGCAATAGCATCTAACTCATAGAGTTATCATGAGGATTATATAAGCTAACAAATGTAAAGCACTTTGAACAGTATACCTATACACATT
GTTAATGGTGTTTAAGTATTTCCCCTTATTATTTTTATTAAATATTATTATCTTATTTATTTGCATGTAAGGACTGGGTCATGCTTGGAGCAGTAGGAGC
CTATGATTGGAATGGAACAGTTGTCATGCAGAAGGCTAGTCAAATCATAATCCCTCGAAACACAACCTTTAATGTTGAGTCTACCAAAAAGAATGAACCG
CTTGCTTCTTATTTAGGTAAGGTTTGGATATAATTATAAAAGAGTTGTTTTACTTTTCCATTTTTTACCTTTAGCATTATTTGCTTATGTTTCTATAGGC
TTGCAACCATATAGCAGGATTATTTCAWCRAGTTGGGTATTTTCCAGAACCCATGCAAAGTTTTAGGCCTCTGAGCAGCTTTAGTTAGTCAAAATGACAT
ACATGGGGGTCCTTTTTTGTTAGTAGGGCTGTCTAATGCAGGGAATGGTTTAGGTTGATATGTGCCCTTTCTGATATGTTCAGTTTCTCTGTGTCTGGTA
TCAACTTTAACTTCAAGGAGAACTTTGAACCTGGTGGWCAAGAAATGAGAGTAGAAAAGGAAACCTCGACTTCTCCTATATCCTGAAAACCAAACTCATA
TTGTCTTAAATGTCTTCTATCATTAATTTCTCTCTATGGGTCCTAATTTGGGAAAAGAAAAATGTATTTTGTCATGTAACTTCTTCTTTAATAGCTCCAT
TCACAATCAGACAAATATTGAACTTAAACCCAGTGATATAACATGATCTTGTTTCCCAGTGTCTTGCCAGAAATGAGGAGTTGTATGTCTGGTACCACTT
TATTTGGGATCTATACCAAGCTGAGCAACACCTGGGGGATGCCAGGGAACTCTCCCCTCACTGAAAAAAGATATTCACCAACAGTTGGGAGGACCTAAAA
TAAAAAGGACCATCAGGATATGGCTTCCCAGCTCTTACTCACTCAACAAATATTTGGGGGATCCTCTTTTGCCCCAGGCATTGATCTTAGTGCTGGGAAT
AAAGTGATAAAGAAAACACATACCTTGGCCTGGAARCATTCACAGCTTCACGTGTTAGCCTTCCTCTCTGGGATCTTTCTGTCCCGGAGACAAGTCTTTT
TCTCTCTGTCCCAGTTGCTTTCTATTTTAYCAGGAAGGTGGCAGGTCTTTACTGCGGTGTTTATACATCTCCTTATTGAAGGACACCTATTAAAGCTGTA
GGAGCAGCAGGACTTAAGAAGAATAAAAGGACTAGAGTTTTAGATGACTAAAAATGTAACAGTCAACAGCAGCTGCACTGTGACTGCTAAAATCTCTTAA
GACATGTAGAACTGCATGAATGAAAGTCCAGTCTGTTTCTCATAGAAATCCTGTTACATTCCACTCTGGTCAGACAACAGCTAGAGTATCTGGTTGTTCT
AAGTATCACATACTACAAGGAGAAAATGACAAACTAGGATGTGCCAGTAAAATATTACACAGAAAAGTCAGCTCCCGAAGCAATTCCCTGCTACAAGTCT
CACTCTCTCGAAAACTTAAAGAAATTGAAGGTTAGAAAACAAAGTGTGCATTGCATGTATTTTAGGTATTTGGAGGATTGTGATATAAAATATAGGGGTT
AGGCTTAAAATTCATTTCAAATTTTAGCATTAAAAGAGATCCTATGGAGCATGTAGTCTTAATTTCCAATCAAGAAACTGAGAGATAGAACAATTATGTC
CCAGCTGCCTATGGCAGGTGTGAAACCACAATTGAGGCTTCTTGATTCTTATGTCAGTGTTTATATCACGATACCAAAATAACTGATTCTGGGTTGATTA
AGAAAGCACTGCACAAATATTGAGTACCAGCAATGTGCCAAACACTGAGTTTATAGGGAATAAAAAGATAGATGGGGCAGGTCAGTTCCTACACTGATAA
ACCTTACTTTTTTGGGTGAGAGACAATAATGAAACAAGCAATCACTATCAGTATGATATGTGCTATGACACAGAATACCTAAAAAAGAGGGCTGGGGATT
AGATTAGATATCTTCTAAAAGTTCATTACATCCTAAGGTTCTATGAGACTGTTTATGTGAAATACCTTGGAATCAAGAACCAGCTTAACCTGAGGCTTCT
GTTATATGTAGAATAAATATAGAACATTTATCTTCCTATATAATGGATGACATATAAATTAGTAAAACTCCTTATGAAAGGCATTTGACAATGTGTTTAC
AGAGCTATAAAAAATGTTCGTACCACATTTATACAGAAATTTCACTTCTGTGGACCTAACCTAGGGAAAAAAATCCAATATTTAAGAATGCCAAGTGAAC
AATGATTTCCATTGTATTATTATTTATGTTATTGGGRGAAATGCCATTATCCTAAATGCCCGAAAATATGCAGGTAGTTAAGTAAATAGTAAATCCACTT
AATGAATATTACACACCCATAAAAATAAAAATTATAAAGCTGCTGATTCTATGATACTAAAGACTTGAAGCAGTTATGGTACAAGGTGTACAATTAGYGA
TAGCGATGAGGTCATAGAGACTTGAGCTTGTTTTCTGATTCTGCCCCTGGCTATGGCTTTAGGCAAATTACTCTCCCCCTCAAAGCCTCAATTTTCCTAT
TTCTAAAATGGAAATAATTACACCATATATATCATTTGGGTTGTTAGATTAAGTAATGACTATATTTAGTACTGTGCCTGACACACAGTTAACACTCAAT
GGGTGTTGTCTATTATTTTATTATGTAAATGTTATTATGTATTTTTTTATTRTGTAATGTTATATAATAAACATTCCTCTTATTAGTATTGTGGTAGGCA
GAATAATGATCCCCAAAGATGTCCATGTCCTAATCCCTGGACCCATACTTTGCATGGCAAAAGGGACTTTTCAGATATGATGAAATTAAGGATCCCGAGT
TGGAAGATTATCCTCAGATATCTGGCTGGACCTGATAYAATCAAGCATTCTAAAAATCAGASAACCTCTCCTGGATGTGGCCAGAGGGAGACAGAACTAT
GGAAAAATGGTCAGAGAGATGCAGTGTTGTTGGCTTTAAAGATGGAGGGGGGCCACAAGCCAAAAACTGTAGATGGCTCTAGAGCTACAAAGGGCAAGAA
AACCGATTCTCCTTGATAGGCTCCCGAAAGGAACACTGACCTGCCAATATCCTGATGTTTAGTCCAGGAAGCTCTATGCCAGACTTCTAATAAACAGAAT
GGTAAGATAAAAAGTTCATGATGCTTTAAGCCACCAACTTGTGGTAATTTGTTACAGCAGCAGTAGAAAACTCATACATAATACAAAATAATAATAGTAG
CTGACATTAGTACTATTACTAATAAGTATTGAGTATTTACAAATTTAAAGACACTGTGTGAAGTCCACAAAGATGTGTATGATATTGTTGCCACTCTTAG
GAAGCCCACACATTTTAATTGATAACACTGTAGTTTTTGGTATTCTTAATTATATGTGATTAAATTCCTTTAAAGTAAATAAACTCTTAAGAATCCTAAA
TTTGTCATTCCCAAAAACCTTTGGTTAAACGTTGCTTAAAGCAGATGTGGAGAATTCAACTTAAAGATGCCACTGCAAGTAAGAAAATATTAAGAATCTT
ATTTCTGAGCACAGTATTTATAATATATGACTTCTCTCTGTCCAAAAAGGAAATTTTTGGGTATGTTTTCTACAGTGTGCTGAGATTTTCTTTTCTGTTT
CAGAAATTATTTCATTAGCTTACTCACAAGTGAGGGTATATGACATTTTGCCAACATAAAGTCTAATACATGTAAGATTTCTTTCAAAATAGAAAAGCAT
TCAGAAAAGGCAGGACAAATACCTTGTGTTTTTTTTCACCCAAAATAATATTCTAAATCTGAAATGAAGTTTTCAAAATGTTTCTTTGTGGGGGTCACAA
ATTGAGAAGAGACTGAGTGTATTTTTTCATAAACTGTGTGGATTGCAAGTTGTAAGGCTATGAAAAATCTTATGAAGGAAGCAGAGGCAGAGGCTCTGTT
AGAAAAATCCCATGCTTATCAATAAGGATCAGGAAACTGTAAGAACTCAAGCTGTCAAACATCTGTCTCAGGACATAGTCCTACCCCATCTTTCTATTAC
CCAAACTGCCTTATGCCAATACAGGCATTGCAAGTGAATTTGGTGGTGAAAATACAGCTGGGATTATGTTCCCCTGCCTCCTCCACCCACAGTTTGCTGA
ATTCTATTCCTGCCATACAGCTTCCAAAGGAGAAGGAAAGATGTGAGGCAATGTCATGGCATCAAGACAGATCATACCTGTTTCCCATTACCTCACTAGA
TCCTGGCCCTTTTCCCAAGAAGTGAATTATGAGAGCTGACAGAATTCATTCTTCATAAATCCATGCAAAGGGCTATGCCATCCATTTTAGCCTTTTTTTC
CTCTTTTTTTTTTTCTCTTTATTTGAGACAGAGTTTCTCTCTTATTGCCCAGGCTGGAGTGCAGTGGCATGATCTCTGCTCACTGCAACCTCCACCTCCT
GGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAACTGGGATTACAGGCGCCTGCTACCATCCCCGGCTAATTTTTTATATTTTTGGTAGAGACCGG
GTTTCATCATGTTGGCCAGACTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGATTCCCAAAGTGCTGGGATTACAGGCATGCACCACCGC
GCCCAGCCCTTTTCTTCCATCTTATTCTTTTCTTTTTCAGGAAACACTATTAAGCTTAAATATTTATAATTATTTTCCTTCTTTTAAAATTAGGCTTTAC
TTGGCTCTGGCTCTCTTTTTCTTTTCTTCTTTCTTGTCTTTAGACACCCAAGCCTCAATTAGTAACTACGCTAACTGGTAGTTACTGTCCCTGAGATTAT
TTCAGCTAATATTTTTAGTTATCAAGTATAAGTCATCAAAGAGAGTTAACTAAATAATCTCACAACTCCTAGCCTCAAACATAATTTTTAACTCATTTTT
AAAGGAGGCCTTTTATCAAGTTACATTCACAGCTCTGCAAATTACACACACACACACACACACACAAACACACACGTACTAACACTCTCATTCTACTCCC
TTCTTTATATTTCTTAGCAGAGTGGCATGAAATAAAACAGCCTTCATTTTGCACATTCTTCTTTTCCATTTTATGTATGTATAAACATGGCCTGAAAGAT
TCATTTTAAAACAATATTGTGGTTAGTAATACAAACATGTAACACATTACATGTTCGAAAAAATATTTTAGATTCTATTATGTATAATAATAAAAAACCC
TCAAAGAAAGATGAAGGAATGAGAATGTGAGGAATATTCATAAAGGATAATATGCCTGAGGAATAGTGTTCCTTTAGCACTTGTAAGAATAAACATACTG
TATAAAAACTTTTGTTCCTTTTTAACATTTTTGAAAGAAAGTCAAACCTACTTTACAGTAAAATACTTGGTAAGTGAGTTAGAAAAATGATCTTTTTCTC
AGTGAGAAGTGCTATTCTGTGGCATTTTGAAAAATAATCTTACTTCTGCTCCACTGAAGAAATCTGGTTATTAAAAGAGTTATTCCTTTTATAAAATCAA
AATCTGCATGTGGCAATTTTTATTCATTGATATGGCTCTCTTCTCAAAACACAAAGAACAAATCTAACTTTTCACTCAAAAATTAATCTTAAAGACACAA
TTTATGCTCTTCCTGTAAGCAGCCTGAGATGATCTCTTAAAATGGTTTACTATTCACTTGACCCAGAACAACCCAAAAAATCATTCAAATCAAGAGATTG
AAATCTTCGTGTTCACTTTAAGAACATCCATGAAGCTACCCAGGCAATCAAGGGTTATGTATATCTGAAAAGCCACCAAGTATCTGAAAGATGTGACTTT
ACAGAAGCAGTGTGTGCCGTTCCATCATTGCAATGGTGGAGCTGGTAGATGTGTCCAAAGCCAAACCGTGGAGCTGGACAGAGGGTTTATGGCCCCAAAA
GAGTGCTGAAAGTTTGTTGCACATGCATACAAATGTAAAAAGCAGTGCTGATCTTAAAGGTTTGTATGTAGAGTCTCTTGATCATTGTGTACATCTAGGT
GGGCGAAGCACCCAAGATACACTGGCTCTGTTTACAGGGCTCATGGTCAGATTAACCCATACGTGACCTCCACCCCCACTATCGCACCCACCGCACTGAA
ATGATGCTTACTGAAATAGAACAAATTTTTCTAAGCCAGAGGAGGAGGTTGCATAGAAGAAAAAGGTATTCCAGAAGAAACCGAAGAAACAAAAATAATG
ACCCAGGAATAATTTCAATATAAAATATATGCAAATAAAATCAAAAGTAGAAAAAAGACAATCAAAATTTTAAAGAGCATGGAAGCTCAATTAAAATAGA
GGAGAGAACCGGGCACAATGGCTCACGCCTGTAATCCCAGCACTTCGGGAGGCTGAGGCGAGTGCATCAGGAGGTCAGGAGATTGAGACCATCCTGGCTA
ACACGGTGAAACCCCGTCTTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAAT
GGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAACCTGGACAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAA
AAGGAGGAAAGATCAGATACGTGAAAAATGATTCAAGCTCTGTGTTGAATAAAGTCACATTAAAATCACAGAAAGGTACTGTTGTTAGACAATGTTTAAC
ACCTATTAAAACATACACAAATTTAAATAATAGTGATGATACACAAAGCCTGGGACAGTTTCATGAAATTGTCTTTCATATGGCGGTTCATAGAACAAAG
TAGTACAAATTTTCTGGAAACAATTTTCTAGACACTATAAGAACCATTAAAAACGTGATCCAGTGATCTATTCCTTGAAATGTACTGTCAAAAAATCCAG
AAGAGGGACAAATTTAAATGCTCCAAGGTGTCTTTGAAATCTGAAGCATAATACCAAAAATATTAAAACCACCTGAATTCTAGTGTTTTATCGGGAAATG
GCCATGTAATATAAATGCAATGTCTTTATGCTTTAACCAAGAGAAATCATCTTCAATTATTTAAAATTACAATTTTAAAAGCTAGTAGCAGCACAGAAAA
GGTTTACATTTTCTATGATTCCAATTATATGAAAAGTGTTAATTTCTGTAGTGCAGACACATATATCCAAATGAAATACAATTGATTTATTACAAATTGG
GGTGGGGATGTGCAATTTTTTATGTGTGTCATCATTGTTATATCATTTGTGATTTTAAATAATGAAAAACTCAGATTGGGGGAAAATAACTTCTCAGGAG
AAAGCAGTTGTGGTAGATAGAGAGCATATTAAAAGCTTCCACCAAAACAAATTCTTACGTGCATTGAAGAAAAAATATTATTTTCAAAATATAACCATAT
AAAAATGATTATCTTGGCCATTTAAAAAGAGTCTTAATTTATTACATGAAGCCTTTAAGGGTCCAGGTGGTATACCTGGAATCTTTCTTTTGTTAGGTTA
CACTGTAAACTCTGCTACTGCTTCTTCTGGAGATGTGCTCTATATTGCTGGACAGCCTCGGTACAATCATACAGGCCAGGTCATTATCTACAGGATGGAA
GATGGAAACATCAAAATTCTCCAGAYGCTCAGTGGAGAACAGGTAAACTTGAAAAATATTCTTTTATTTAAATTAATCTATTCATACTCTATGTATATTT
ACTGTCTATTGTCCTAAACTTAAAAATGCAATACCCACATATTCAGTAACAACTGGGAACAGGGCCCTGTGTTAGGTTCTTTGGAAGGATGTATAGTGTC
TGTATCTTTGTCTTCATGTTGGATGGGTGTRGAGGTAAGATATACAATAGATGTGGATACAGATGTACAAATATATACACAAGAAAAGAGATCCAAAACA
TTAAGAGGCATGAAATTACCAGTGGCCCAGACAATACAGTCAGAATATGATGGGATTGCTTTAAGCTAGGATTGGTGCAGAAAAGCTTATTAGAAGATGA
AATTCGGGCTGAATCTACAAGGGATGATAGAATGTGGATAGGTAGAAAGAGCAGTGAAAGAGAAAGTTAAAAAGATAACATGGACCCATATGATGTGAGG
TTTTGAATGGCAAATTAAGAGCTTGGATTTTATCCTGGAGGTAATGGGAAATTGTCTGTAATATTTAAAATTGAAAAATTCTTATTAGGTAGTATTGAAT
ATTAAAAGAAGTTTGGGAAATGATACATGAAATAACATTTACATATGTATATATAAAAACTGAAAGAAACATCGTAAATATGCAAACATTTACACACACA
CRTATTAACTGAAAGAAAGATCTAACATGCTTTTTGTTGTTGTTATTTTTGAATTGTGATAGCTTGGGAACTTTTGTTTCTAAAAAGTTTTCTGTATTTT
TCAACAGTTCTACAAGGAGGATTTATTAACTTTATTCCACAGTCCTTTTACAGAGGGTGGGAGAGGGGTTCTTCTTAGCCTTCACTAAATATTCCAACTC
TCTAGACTAGAGGGGCAGGACTGCATCAGCCCTCCTGCTCTGCAAGAGTCCAAGCTGCAGCCCAGCGCAGCAGTAAAGCTCAGGTGCAGGGATACTCACA
TTAGGCAGGTCCACAAACTGCACTCGCTTTAAAGCCCCATGCCCTGCAGGAGCAGTATCTTTTATGACAACACCATAGACATAGCTTCCAGGGTGTCTAC
AAAGGGCAGGCCGGCTACAAGAGTAACTGCACTCTGGGAAGTCAAAAATATGTCATCTTCATCAGGTACTTATAATTCATTTATAGTTCCACACAGCCTG
AATACAATATTCCAGTAAGAGGTTATTTTTACCCCTGTCAGCGTTGCTTAGCCTTAGTGGTAAAGTTGAAATCCCAGCCACAGCAGATTCCCAGGGCAAC
AGAGTTAGAGTAGCTAAAGGTCAGCTCCTCAAGTATCAGGTGAAAGGGTTTTATTAACTCTTTGCCCACATTTACGCTTGGAAAACGCATAACAGTTAGA
AWAAGGCTATTGTTGTAGCTCAAACTGGAGGTAAGAGAACGTAAAATAAGATGTCAGCAGTAAAAATGGAAAAGGAAGGGCCATGACAGATATCAATAAT
AGGAAGTTGACAATAGTAAAATGAAGCATTTTAGATGAYGTCTTTGATCCATTATCACTCCATTAATTGTATACAAGACAAGAAGTGTCAAATTTTATGA
AAATTTGCATATGAAAGTTGAGGAGAGTATCATGAAWGATTTAAATCGTGAATGATTTCAGTTTCAAGCCTGGGAATCTGAAAGAAAGGTGGCTCCATGA
TTAGAATGTCAACACCTCAAGCAATTTAGATATTTTTTAACAATGACGTTTGGCTTTTAGACATGTTCCTTGTAACAGTAAGCACAAATTCAGATATTTG
AAGGTGCCAGTAAAGTAAAATCAAAATAGGTAAAGTCAATGAGTAAAGCTGCTGGGCAAAAAAACACAGGAAGTGGTGGGAACCATGGCCCTGGGCAGCT
TGTGAGCTTCCACTGAGCTCCAGTTGACGGTTGCCATGTGGGGAGGAAAGCCCAGAGTTGCAAGATCTTCTATTTTATTTATGTTTATAATTAATTCAAC
TTTTAAAAAAACCTCTCAAGGCCCTCAAAAGCCTGTGAGAAAAGTGCATTCAAAAGTCAGTGTCTTTTGCCCACATGCCTAGAAGCAATGTCTAGGACTG
TAGAACTGAAGCCTTGAGAAGGAAGACAGAATGATGTTTGCAATTGCCTTAGTAGAAATTTTTAAGAAGGATTGGTCATCTAGGGTAAGAGAATGGAAAA
AGGCTACAGGTCTGAGCTTTAGAAGAGGCCAAAATTCAGAAAATGAGAGTTGGGGAAGAAGCCAGTAAATATGAAAAGGGTGGTCTATGCCACAGGGGCA
GAAGCAAGAGAGTAAGAGTAAAATTGCAGAAGCCAGTACAGGGAGATGTACCATAAGATAATTGTTAAGAGCATCAAATATTAAACATAGAATAATATTT
GAAAAAATTAAGCATTTAGGTAATGAAGTATAAGTTCTCTGCTTTTCTCTAAACAGATTTCTATCTTTAAATGAGAAAACATATTGCTACAAGGGATGAT
ACCCCTGCAATCCTTCCATATTTTTCTATGTCCCATAGCTGCTGGGATAAGGCTTAACCATTTCATTGAGAAGACAATCTTCCAAGACTATGAGGTGAAA
TATGCCACACCAGTATTCCAGGACAACTCAGCTCCTTATAATGTATTTAAACATATATTCAGCCATTGCAGCATGCATTCTACTGCTTATCTAATTTTAT
TTCCTTAAAAAATCACTATAGTATTACTGACCTTTTCTGATTTGTGGAGAAGAAAGAGAGGTTAGAGTGAAATCTAAAGAAATTCATTTTGTTACTGTCA
AGCGATGAAATCTGTAACAGCTGTTCATCCTCAAAGATGGAACCGACTGATATTCTTTATCCTCATGAAAGAGCCAATAAATAACTTTCAGGGAGCATCA
ATTTTTATCTTTCATTTCCTTTGCCAACTAGCTCCTCTTCTAGATTGCTAGAMGTAAAACAAATGTAGATTTCAGTTTCCTTGAGAATTTCTGTTGTTCA
TTGGGCTGTTTTGTTTCATTTTGTGTCCTAGATTGGTTCCTACTTTGGCAGTATTTTAACAACAACTGACATTGACAAGGATTCTAATACTGACATTCTT
CTAGTCGGAGCCCCTATGTACATGGGAACAGAGAAGGAGGAGCAAGGAAAAGTGTATGTGTATGCTCTCAATCAGGTAATGGTGTCTGAGTTTGGTAGAA
ATCCAGGAAAATCTCTTCCTTCTCTTCATTTTTTAATAATAAATTCYAATTTTTCACTCACTTTGAAAAAACAGAGCAAAGAAGCTATCAGGATTCATTC
ACTCCACCAACCCCTCAGTTTTGAAATGACCATTTATAATTCTAATAAAGTAGCTCCAACTCTTAGATATTTTCTGCTTGGAAATGTGAATTATGTTTAA
CAATATATAGGATAAAGGAGGTAAATATAAATCTCACTAAACTGCTAAATAAACCCACAAGGCTTATTTAGGCTGGGAGGCTTATCAGCTCTGGCTTGGA
GATAGATAATAACCTCAGCAGTTAAATCGGATAGGGTGGAGGGGGAGAAGTCATGAGTTTCAAGGCAGCAACACTGCAGGCTTCCAGGAAATACTTCACT
GGGCTGGAGTGAGATTTTGTCTTCTGTTCCTGACTTTAGACATCATTTTTTAAGTTAAATAATTTTTAATTTCTTCATTAGAAGAGTGTTTTGCTCTTTA
TAGCAAAGCCAGTGTTTATCTATTTAGCTTTTCCAAATATGTACATTCTCTCCTAAATTGATTATTTTAAATAATAAATCATGTGTCTTTCTTCCTATCA
TTTTTTGGCTTCCTCCTGTCAACTTTTTTTGTCCTGGGCTGTTTTGTCCTTTTTCCAAGAAAGTGTATTCTTGATTACCTTTGCTAGTACTTTCTGTCTG
GGTTTTTTTTTTTTTTCCTTCCACTCTAGGCAGCTTTAGAGAAAGTTTCCTTTCTGAGCAGAATAAATTTTCGCTTTGCACAATATTGGGTGAAGAAGGG
ATAGTGGCACAAATTAAGGATATAATATTATTTGGCCTGAAAAAGATGCTCTGAATTGTATACTCAATTGCATTAAAAAGAGATTCCATTAAARTATGTC
TCCCACACTTCTACCATCTGCTCTTTGGAATCCCTAACTTTACTCTCAGATAGGCACACTTTTTAAGAAATTTTACCAACTTTACCACTAATGTACAAAT
GGCTGTTAATAGCACTGATTTAGTATACTTTAAAAATTCTACTCTGCTGTAGTAATGATGGAAATACATAAATATCCTGTTTATCTTTCTTCCAGACAAG
GTTTGAATATCAAATGAGCCTGGAACCTATTAAGCAGACGTGCTGTTCATCTCGGCAGCACAATTCATGCACAACAGAAAACAAAAATGAGCCATGCGGG
GCTCGTTTTGGAACTGCAATTGCTGCTGTAAAAGACCTCAATCTTGATGGATTTAATGACATCGTGATAGGAGCTCCGCTGGAAGATGATCACGGGGGAG
CTGTGTACATTTATCATGGAAGTGGCAAGACTATAAGGAAAGAGTATGCACAAGTAAGAATTGAAACCTACAGATTCCCACCCTTCAGTGATAAGTCGGT
TCAATGCCAGGCATTACCTGTCTAACTTCATGAGTTATTTAATTTCTTCCTCCTGACCTTATTGGGAAACTGGATTTAATTCTCTTTAAGTGTTTTTTAT
AGATTAGTTACTATATATATATACACACACAAACAAACTATAAATATACACATAGTATGTATATAGTATATATAGTGTATATATAATGTGTATATAGTAT
ATATATATACACACTATATATACTATATACACACTATATACTATATATGGTATATATAGTGTGTATATAGTATGTATAGTGTTCCTTATAGATTAATTAC
TATATATACACACTATATATACAAATAGTATAAATATATAGTATATATAGTGTATATGTAGTGTGCATATGGTATATATAGTGTATATATACACACTATA
TATAGTATATATGGTATGTATACTATATATAGTATATACGGTATGTATACTATATATAGTATATATGGTATGTATACTGTATATAGTATATACACTATAT
ATACTATATATAGTATGTATACTATATATAGTATGTATACTGTATATACTATATATAGTATGTATACTGTATATACTATATATACTATACATAGTGTATA
TAGTGTATATATAGTATATATAGTGTATATATAGTGTATATATAGTATATAGTGTATATATAGTKTATATATTGTATATAGTGTATATATAGTGTATATA
GAGTACATATTGTATATATAGTGTACATATAGTATATATAATATATAGTGTATATATAGTRTATGTAGTGTATATATAGTATATACAGTGTATATATAGT
ATATGTAGTGTATATATAGTATATACAGTGTATATATAGTATATAGTGTATATATAGTGTATATAGTGTATATATAGTATATAGTGTATATATAGTGTAT
ATAGTGAGTATATAGTATATATAGTGTATATATAGTATATAGTGTATATACACTATATAGATACTATATATAGTATAGATACACTATATATAGTGTATCT
AGTATATAGATACACTATATATAGTATATATAGTAGATACACTATATATAGTATATATATCTATATATTAGATACATATACTATATATAGTGTATCTACT
ATATATACTATATATATAGTGTATCTACTATATATACTATATATATAGTGTATCTACTATATATACTATATATAGTGTATCTACTATATATACTATACAT
ATAGTGTATCTACTATATATACTATACATATAGTGTATCTACTATATATACTATACATATAGTGTATCTACTATATATACTATACATATAGTGTATCTAC
TATATATACTATATATATAGTGTATCTACTATATATACTATATATGGTGTATCTACTATATATACTATATATGGTGTATCTATATACACACACTATATAT
AGTATATAGATACACTATATATAGCATATCTAATATATAGATATATATATTATATATATAGTGTATCTACTATATATACTATATATACTATATATAGTGT
ATCTACTATATATACTATATGTATAGTGTGTATCTACTATATATACTATATGTATAGTGTGTATCTACTATATATACTATATATGGTGTACCTATATACA
CACACTATATATAGTATATAGATACACTATATATAGCRTATCTAGTATATAGATACACTATATATAGCGTATCTAGTATATAGATATGCTATATATAGCG
TATCTAGTATATAGATACGCTATATATAGTGTATCTAGTATATAGATATGATATATATACTGTATCTAGTGTATCTACAATATATATTATATATAGTGTA
TCTACTATATACTATATATATTATCTATATACTATATATCTACTATATACTATATATTTCATATATAGTGTATCCAGTATATGTATTATATATAGTGTAT
CCAGTATATGTATTATATATAGTGTATCCAGTGTATGTATTATATATAGTGTATCCACTATAGGTATTATATATAGTGTATCCACTATAGGTATTATATA
TAGTGTATCCAGTATATGTATTATATATAGTGTATCCACTATAGGTATTATATATAGTGTATCCACTATAGGTATTATATATAGTGTATCCACTATAGGT
ATTATATATAGTGTATCCACTATAGGTATTATATATAGTGTATCCACTATATATTATATATAGTGTATCTATATACTAGATACACTATATATAGTGTATC
TATAAACTATATATAGTGTGTGTATATAGATACACTATATATATAGTGTGTGTGTGTGTGTGTGTGTGTATATATATATATATATTTTTTTTTTGAGACG
GAGTCTCGCTCTGTCGCCCAGGCTAGACTGCAGTGGCACGATCTCAGCTTACTGCACGCTCCACCTCCCAGGTTCACACCATTCTCCTGCTTTAGTCTCC
CGAGGAACTGGGACTACAGGCTCCCGCCACCACGCCCGGCTAATTTTTTGCATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTTTTGAT
CTCCTGACTTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCGTAATTACTTTATATTTTATACATT
TATCTAGTTTCCTTTCTGTTGTTATTTTCCATATCTCCAGGATTTGACTTTTTGAAACAGTTAAAAAAAAGAATACTTTGTAACAATGCTGTTTAACATC
TGTTAAATTTAGAATGGGACATTTAGTGTGTCCCGTTCTAAATAGAGGGCACTGCTTTCTGAATAAGGCAAAAATAATTGTATGACTTAACCAATAAAGG
AAATTAGATTCTTGATTTTATATTTAATGTCCATGCTGTTATAATAAATTGCATTAAATTTATATTTATCCATTAAGTTGATATATTTTCGTCAAGTGAA
TTACGATTTCTAAAGGTTTATAATTTTCTCGCAAGTAATCCTTAGAAAAAATAAATCTGAATATTAAGTTTAAGCTGCAGGGAACTTCTGTTATTCCTGT
TTGTAATTTGTTGTCAGTTAACAGCTCTAATCCATAAGTGTATTTTTTTTCCTTCATTAGAAAAATAACAAGTTACAAAAGTGCTTAATGCACTACACTA
TAAAAACAAAAGAATTTAAAGGAGTTTGAATGTAATTGTCTGCTCTCAAGTAATCATAGTTGGTTAGATATTGAACAACTACTTACAAATAAAACAGAAT
TCACTACCTTCTAGCTTATATAATTTGAAAAGAAATYAGAATATTAATTATTTCATTTTCTATTTGAGTGTTCTCTTTGGTTCTGTAGTCAACAGAGCTC
TCAAAATCTATTCATGTAATGCAAACATGAGTGATTTTTCATAAAACCATAATGACAATAGTGAACAGAATAAAGGGCTTATTTCAATAAGAGCACTTGT
ATCCATTTGATAAATAATTTGTTTCTGTTGAAAATCTTTATGGCATTATTTACTTAACAAGAGACAGGCAATATTAATGACTGGGGCATGATGGAATTAG
GAAATGCAGGAAGAGAGTTCTTTCTTATATTCTAATACTTTATTCCTTCAGCATCAATCCTGTAAATTTAATGGGGTAGCATTTGAAGTAGAAAAGGAAA
GCTAAATCATTGTCAGATGAAATAGATTTGTCATAAACAACTTGTTTTCTAAATGGTGGTAARTCAAGATGCAACTTTAAACAAAAACAACAAAAAGAAT
ATTAGAGTTGGATTTGTTTAATTACTGGCAAAATGTTTTTCCAAGGAATAGGTGAAGATGTGCTTACTCATTTCCATGAGAACCAGAGATGCTGCTTATG
TATGGGATAATCCAGAATCAATCAAGCCCATAGAACCAAGGAGTCAGATATCTCCTGAATTCTTCACTTAAAAAAATGAGGAGGATTGCTGGGTGCGGTG
GCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGCCAGGAGTTCGAGACCAGCCTGGCCAATGGTGAAACCCCGTCTCTA
CTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGCGCACCTGTAATCCCAGCTATTCGGGAGGCAGAGGCAGGAGAATCACTTGAACCTGGGAAGTGAA
GGTTGCAGTGAGCCGAGATAGCGTCTCAAAAAAAAAAAGGGGGGGAAATACTTTCAAACGAGCCTCACCTGTTTAAGGATGAAAAATGTTTCCATTTGGT
TTGCCTTAGTAGGCTTCTTATTTTATGTTATTTATGTGGAAAACAAGAGGCTCAGAAGACTTGAAGTTTAGGGAGGGTTTGTAAGTCCTGACTGCTTGCC
ATGGGCTTCTGTTAAAAGCATTAGCTTAAGCTTGAACCAATGCTAAGTCAGGAAGTACAGATATCAAACATACTATGTATGGTAATGTGCACAGATCAGT
CTTCAAGACATACTCATTTGTGCCATCTCAACGTTGTGAATACATCTGAGTGGAATTGAGTCTCTTGTGCCCTCAACTTTTAGGACAATTTTTGAAAGAC
AGTAGAGATTACATATTGGAAAATGTATTTGATGGGATGTGTTATTTATACCCAGCCACAAAGTTCAGTGAACTCCAAATTGACCCCTAGGACAATATTA
TACTCCCCTCCCCCCTTTGCTGATATGATATGTTTTCAAGATTTCCAGTACCTTTAGATATGTCTGTGTGATGGGATTGGCTAGGAAGCAGAAAGCACAG
AACCAATTACTCATACTGTTTCCTTTGAGGATTAGACACAATGACACTATATAATTTTTCCCTCTCTCTGGTGTCAGTGACCTTGTAATGATTTTGTCTG
TACTATAAAAACAGCAATATCCTCTGGGAACATCTGAGTATTTCCTCTTATCTCCACATGAGGGACCTCTTGGGCGGATTCCCAAATTAACAAAACTGAT
TATTTTGTTAAACAATTTAAATTCTCAGATTTATTTGAAACTGTTTTGAACAGACTCTTCTCATATGAAACTCTTTTTTTTGGATTCTCACAGCGTATTC
CATCAGGTGGGGATGGTAAGACACTGAAATTTTTTGGCCAGTCTATCCACGGAGAAATGGATTTAAATGGTGACGGTCTGACAGATGTGACTATTGGGGG
CCTTGGTGGTGCTGCCCTCTTCTGGTATGTATTTTAATAACATCCTGTTAATCTGAGACTGGGTCACTTGCAGAGCTCCCAGTGTGATTGGAGCTCATGT
CATACCAAATATCTATTTCCTTTTGTGTTCCACTATGCAAATACAAGTTATTCAGTTGAGTGAGCTGGAAGAGTCAATACATCTTAAGAACAAAGAAGCT
ATATGAAAGAAACAAGTAGAATGAACTCTTAATTTGGTGTGTCTATTATGTGGTTTACACTAAAATAGGTATTCTGTTTTAGGAGAGGTATAGGGGAAGA
GAAGATCTTATAGAGGATGTATATAAACAAGAAAATATCCCTAATATTTGGTTGCTTACAAGGTTTTAGAGATAATCGACTTTGTATTCATTTACCTGAT
ACATAGAAACAGATAATCGCGTAGCACTCTCTGACTCTGTTTATATTGTTGGTCAAGCCTAGAGGCATCTTAAGTAATATCTTYGCTCAGCCTTTAAAAT
GCCTAAATCCCCAAATTGGCCCAGTTCTTTCAGATACATACATTCATAATGCTTTATTAATTATGAATAAATAATAATTTAGTAGGCAAAAATAATTATT
GCTTACTAAATATCCTATCTCAAAAACTAAATATCCTATTTCAAAAACTGTTCTGTTTGAAAGAAATTACTAGGAAGTCAAGAATCAACTTAATGAGAAA
TCCACATGATAATTTTGAAAAATATATAATAAATTTCATTAAGAAATATAAAGGAAGGGTTTCATAAATAAAATCTATTTATGCCAGGTGACTTTATGGG
AAGTCYGCATGTTGATTCTCCTAAATTAATGCATTGGTTTACTGTAATTCGGGTGGAAACATACATCAATGCTCTTTTTCCCAAAAATCTACCTAGAAGA
GTAATAAAGTATAAAAGAAAGGTGAAGATAGAGAGGTGAAAATAGATGACTTTGCTATAATTTAAGATAATGCTTAAGAACTAATGGTCAAATTAAAATG
GTRCAGTAAATTGTGCACATACAATAATCACTATTTAAAAAAAAAACCTTTACAATAGAGGGGAAAGAAGACTGAAGGGTGATACCTAAGAAAAGGGAAT
ATTAGGCAGCACAGTGGCTGGGACTTTGGGGAGGACTCACCAGAAGCCAAGGCTCAAAACCAGAAGTCAGCAGTGTCAGGGACAATGGATATACTTCAAT
TTTGTTTGAAATGTTAATCCTGAATTAGTTTATTATGCTCCCTTTAGCTCACAAATATTTATTGTATTAATTCTCATATTAAAAATATGTTTTCAGGGTT
TTTATGCTCCAGTTTTGTTTCAAGGCTTTCTTGCAAAGCTTTGCAAACTTATTTATGGCCTCTCCTGCCCCAAATCAAGGCATTGATGGCCCAAAATGAT
AGTCATTTCCCTATCATAGTCCAGGCTCCACTGACAGCAGAATGGACCAAAYCGATATACTGGGACACGAAGACTAAGATTCACAATGCCTAACAAGAAG
TGAGAGTGGATACAAGTGACAGATGATAGGAAAAACGTTTGGAAGCAAATAGTGAGAGTCTTGTCATGAGACCTGGACTGACTCCCAAGAAAGATCTGGC
TGGGGCAGAGAGGATGTGTGGGGTGGACAATGGTCGAGGCAGCTTCATGCCTGGAGAATCCATATTACTAAGCAGGAAACTAGGCATGTTCATTCATTGC
TGATGAAAGGGTAAACTGGCTAAAACTCATTCGAAGGTCTTTATCAATAAGTGTTTAAAAGCATTCCAATGTTCCTACTTTTTACCAAGGATTTAACTTC
CTAAAAATGTAAAGATACAATCTAGAAGTACAATTAAAGGTGTCATCACAGCACTGTATGTAATACCATCTTTTAATAATGTTAAATTTACCACTATACT
CAGAAACCTTTTTTTTAAATTAAGCTAAATATCCAATGAGATGGGATTGAATGCATAGATTATGGTATGTGCATATGCTGGTATAGTCTGCTTCCATTAA
AAATAATAAATCCCATTAAAAATAATGTTCTCAGAAAAATGTAAATATTGGAAAGCTGTTCATTGTAATATAATGTTTTAAAAATTTGTAGGCATACATA
TGAAGATGTGCTTTTGTATATATGTATGTATGCATGTGTGTACGTGTATGCATGTTTTCTTCTGTAAAGAAAAAACCACTGAGTGTACTAAATGTTAATG
ATGATTATTGCTGAGTGGTAGTATAACAAGTTATTTGTGTTTTCTTTATGCATTTCTATGATGTTTATATTTTCTATGAGTCCATTGTTTTAACAGAAAA
AAGAAAACCACCTTTTTTTAATGCAAAAGCATAAGTAGTGACCTCATTATTCACAACATACACAGTTATAAGGGGCTAGCTCTGGCCACAAGGCAGAAAC
CAGGTAAAAATGTGCAGTAATTGTTCCGGCTTGGATCTAAGACAATGACCTCAGWATCCATATATTCTCCATGTCTGAGATCTTACTCTGATCTCATTTT
GGATTAGTAGACATTACTGGGCTTTCGAGTTAAAACGACTGAGTTTAAAATCCCAGGTTTTTCCTCTTAATAGCTTTTGACCTGGCATAAAATATTTAAC
TTTTCAGAGCCCCAGTTATCAAACGTAAAACAAAAAAATGATGTTGCTTATAATTAACCTTAAGAATTAAATGAAATAGCATCCATGTCTAGCACAATGC
CTCAAATGTTATTTTGCTTTTCCTTCCTAGAAATAGAGGAAGAGCTGAACTCACAAGGACAGACAATATTACAGTCCAGACAAGAGATAGCAGGGGYCTA
CGGGCTGTTCAGGGACCTTTAGACTTCTTTCAAATTTGGAACAAACTCGTAAATCCCCAAAATACAGTTGATTCTGGGGTTTCACCTGGACACTTGATTC
CATCTCTTTTCCATCACAGGAAAAACTAGATCTTTGGTGTTTGAACCAAAAGCCCCAAATGGTTTCCAAATATAACCTACATGTCTTAGAACATCAGATA
TAATCTCTTCTGTAACAATGATTAATTAAAGAAATGGAGTCCTGAGCGCTGTATTATACATGAAGCAGAACCCTCTTCCATGCACTCACTTTGCACTCCC
AAGTTGATGACATTCATTAAATGTAAAAATGTGTGAGTAATCCCATTGTTTTTGTTTGTAGGTCCCGAGATGTGGCCGTARTTAAAGTGACCATGAATTT
TGAGCCAAATAAAGTGAATATTCAAAAGAAAAACTGCCATATGGAGGGAAAGGAAACAGTATGCATAAATGCTACAGTGTGTTTTGATGTGAAATTAAAG
TCTAAAGAAGACACGATTTATGAAGCTGGTAAGCAAAATAATTATAGCAAGTACTTTTGGGTAGAGGACAATATATTTGCTCTAGCATGAYGAAGTCCAG
TARGATATTGTATTTTCCCCACWTGGTGAGCTGCACGTCATATTTGCMCCAGTGAAGATGCAGAACCTTGAAAAAAAATTCTGTTGCAAAAGGAATAGGT
TATGGAACCCAGTCAATTCTGGAGCAGAAATTACATGTTTGTATGCAGTGCCCTCAACACTCCATAGTTTCTGTCTGGCTCTCCTACTTGCTATGTACAA
TGAGACGCTTAAGAAAAAAATACCGATTCAGAGGTAGAGTTTAGAAATTGAGCTACAAATGGGCCCAGTTTTCCTTCCTGTAGGTTTCTACCATGACTCT
TCTCTCCCTTCTCTTGCCCCCTCTTGGGAAAGACTGATATTGCAGAGAACCCTAATACTTTACCATTCCCACATTTCYGAGATCCTTTGTTCCATTGAGG
TGACCCTAGTTTCCGAGAGTCAGACTTGTTCTGTGTGTGTGTTCTCAGGTGCATCAGGTCAGCCTGTGCTTCCTCTTCCTCCCTCCGTTCTCCACTTTCT
AAGGCAGCTTTTTAATGATGTTGAAATATGCTCGAATCAAAGCTATAAAGGCCATTGGCTAAAGAAGAGAAATTTACTCTGTAACCAAATACAAGCAGAA
TGAGAAAAGCCATTAATCCTTAAAATCTGTTTTTCTTGATTTGTTCCATATGTGCATGTATATGCTCTGAAATAGCCTCCTGACTAGAAAGATCAATGAG
GTATAAGAAYATAAAATAATGATTTTGAGTTTTATATGTAACTTTATTTCAGTCTTATTTAATTTTTGCAAAGTAATTAAGTGATCAAATAAGGAATATT
GTAGCCTTCATATACAGTGTAAGATTTCATTTATTTTCTTTATTGTGGTATGCTTATTTTATTGAACCTTAATAGTGGTTTGACCATAAGCTGAGATAAT
GTCATTTTATATATAAATAGATTAAAATGTATATATTTGTAAATAAATAACTAAAGTATATTTTTGTCCCTATTGAAATATAACATAATCAATATTCTAA
GCAGGGTTCCAACATTTCTAAACTTAAAAAGAATGTTTTAAGTGAAAATATAATAAATACAGTGGTGGCCTGGCAATTAGATGATAGGCAGGTGTGCATG
TGTGTATAAGAATTATAAACAATAAATGTAATTAGACACTGAAAGCACAGTGAACTCAGAGACCAGTTCTATAGAGTTCCTCAAGGTTATCTTCATGACT
GCTAATATCATTGTTATAACAGTGTGGATATGCTGAACAATAGAATCTTTTTTGATTGATTGCCAAAGAGATTTTTCTATAATGCTAATTTAATAATCTG
TACAATATGAGAATCACTTCAAATAAACATTTCCATCAATTATTTTTTRAAATTTTTGTAGATTTGCAGTACCGTGTCACCCTAGATTCACTAAGACAAA
TATCACGAAGTTTTTTCTCTGGAACTCAAGAGAGAARGGTTCAAAGGAACATCACAGTTCGAAAATCAGAATGCACTAAGCACTCCTTCTACATGTTGGC
AAGTAAATCATATATCGTTGCTGCCTTATTCCAAATCAAGAATACAGTAGAGATGTCTTATTTCAAGTCAATCAAATTCTTACTGTTTTATTTCAAAATG
CACTTATGATGTCATAAAGGAAATCTTGTTTGTTCATTTTTATCATAAAATCGCAGGTCTAATTTTCTCATTTCCAAATATTTGTAAAACTATCTCTAGT
CTTCCCTGTCTGCATTATCAGACATCCATATATTATGGAACGGCAGGAAAAGACACAGTGTTCTAGTTGACAAGAAACCTTATTCATGTCTTCATTTCTT
TCACTCATTCATTTATTCCTTCAACTTGAAAACATTTAATTTCTGTGGGCCTTGTCTGTCAGTTGTGGTTGGTAAGTGATTAACTGCTCTGGGGGCAGAC
TGCTGGGCTGTATGCTTTCTGGGATCCATGTAACTACATATCTCGCCGTTTGATTTTAGAGCGAAGGGGAAAATTATCTGGTATTTTCTATCATCTGTAG
GCTTTGTGCTACTTCAGTTTTTTTTTTTTAATTTTAGTGGATGAGGGAGTTTTGGAAATCAAACTATTAATGTTTAGAGATGGCTGGTAAGCCAGTGTGA
ATCATTTAAAATGTATTTTGTTGGGACACTGTGTATATGGGGAATGTTCCCAACAGAGGGCAGGAGTTTCCTAAACATTTTCTTAAAATGTACATGAGAG
TGATAAAAACAAGAAGCAGCATGAAGGTAATGAGGAAACTGATTTTAGTAACTGACATTAAGACTTAGAGACTTGACGGTAAACTTGGAGCTTTAAAGGA
ACCAGGCCAATTTTCCTACTTCTGACTTATTTCTGTATTATTGATATATTCATAGTCTGTATTTTGAAAATTGTAGTTCAGGGGCAGGGGAGTGACAGAA
AATGTGCACCCTTTTGTGCCACATTTGTTCTTCCTCAGTGATTTTCATGTTGATATGCTTCATGATACTTATCATGAAGCTTATTCTGTCAGGACCAAGA
TCAATCTATTATTTGGTAAAATAACACTGGAGTTGCCCCTCCTATTTAGTTAATCAGAACTGAACACTTAGGAATTAGAATGTGGATAAAATTTGAATGG
GTATGAAACCAGATATGGCATTGTCTCCAACCTGCTAAAAATCATCTCAGTCTATGTTTGTCCACAAATTCAGTGTCTAAGTTATGTCCAGGTACTGGTG
TTTAAAGGACTGAAATATTTTCAAAATTTCGAAAATTGTTTTGGATTTTGAAAGAAGCACTTTGAAATTTGTTCTGGAGTCAGCCAGTGTAGAATTTGTA
TCCCAAATATTCCACATTCTGAGAGACTTTGGCAACGTCGTTTGGTCTCTTAGAGGGTCAATCTTTCATCTGTAAAATAAGGACAATAATAGTTACTCAT
CTTAGAGGACTGTTGAAATAATTTGCAATAATGTATATAAAGCTCATAATTTTGAATACTATAAATGATTATTGTTATTGGTGGCATGTTAACAGTATTA
ATCATATTCACATCCTTTCCAAATAATTTTACATTATAAAATTCTTGGCCAGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTG
AGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGGTGAAACCCCGTCTCTACTAAAAACACAAAAATTAGCTGGGTGTGGTGGCACA
TGCCTGTAATCCCAGCTAGTCGGGAGCTGAGGCAGGAGAATCACTTGAACCTGGGAAGTGGAGGTTGCAGTGAGCCGAGATCGTGCCGCTGTACTCCAGC
CTGGGTGACAGAGAGAGACTCTGTCTCAAACAAACAAACAAACAAACAAAMAAAAACTTATAGCTGTAGGTATATATTATATTAATGAAATGTAACTCAT
TTTATAGAAAGTTTGCCCTTCTGAAGTTGGGAAATGTTCCCGGAAGTGTTACATAATGATCTTTGGCTTGAGGTCTCAAGAAAAACTATATTGTGATGCA
GGTAGCTCCTATGTTGACACAGCCARGTGTGATGTTGCCATCACTCCAGCAGGGCCCTCTGAGGAACTGGAAGTGAGTCAACAGGTCATACTCTGAAACC
TCCACATTCCCCTATGCCCCTTGTCAGAATGCCAATCCCTCTCCAGGGAAGCAAAAGCCTGATGAGATCATATGTCAGATTAGATGCACAAGAATGCTGC
AGTAAGCCTGACCCTTGGGAACAGAAGAAGGAGACATAACAAGATCAGAACACCCGGTAAATATGATACCAGTGATATATTTTATGTTTCACCCTCTAGG
ACAAGCATGACTTTCAGGACTCTGTGAGAATAACGTTGGACTTTAATCTTACCGATCCAGAAAATGGGCCTGTTCTTGATGATTCTYTACCAAACTCAGT
ACATGAATATGTAAGTCAGATTTCTTTAAAATACAAAATACCAACTTGTGAACATTTTAATGTCACTAGTAAACTGTGTTTTTTCACTACTCTGCATTGA
TCACAAAGAACGAACAACTAACTGGAAGAAAGAAAAAAAAGGCAAGCAGATTTTATTCCTGGTCAGGAATGGAGAAAGAGGGAGCTCTTGCTCTRAAGAC
CTTCTCTTCAAGCTGTGAAAACCTGGGGAATTTTAAGGAGTTAGATGTGGGGCAGGGAGGTATATGTAAGCATGTCCAGAGAGGAACTCCAGATGTACAA
GTACAGCTCATAAACATGCTTCCTTATACAACATATGTTCAAGAAATGGTGGCCATTTTCTTCTATGGCAGGGACTTTAGCATTATAATGACATGTTAAT
GATCTAAAGGTAACAAGGGGTTGCTGGTTCTTGTTTGCTCCGTTTTCTCAATGGCTTTATCTTCCTCTGGTAATTGGCAAAGGGTCCTGAAGCTYCCAGG
CCGTCTRTAGTTGTTTTTCAGCAAGCTTACCTACAGATAAATAGACTAGAAAAAAAAAAACTGTTTAAGAAAAAATAATGCACTTTCTCAGCTATCTACT
GTTTAACAAAATAATGAACTTTCTCAGTTATCTACTCTTCAAGAAAATAGTAAACTTTCTCAGCCATATCTCCAGGTTTGCCCTGGTAACATTAGGAAAA
AGCTTGAAACCCATGCACACATAACCCTAAATCAATTTAAAATGTTTTAAAAAAGAATTAGGCTCTTCTAGACTTTTTCCAATCCTTCTAATTTCCTATT
GTTGGAGTTTAAGAAAACTAATAAATGACACTCATTTTTACCTCATTTGAATTTAGGACCAATGGAAAGAAATCTCCCCCATTATTCTAATAAGCACTGG
ATTGCAGTGTATGGTTTAGGTATAAAGGGTGTCCTCACRCTGAAGCATGGACTTAGACCACCAGTAACCACCTAGGTCATCAGCAGTGCTGATCCATCTC
TGTCCTTCTTCATGGAGCCCACCTTGTAAAACTTGTCAAATGGAGTAGAGCCAAATGTGTGCTTCCTGTGGGTACAGCTGCTCTGAGAATAGAAATGAGA
GAAAGGGACTGAGTTGTGTTCACTTAGTTCCTGTTCCCAAAGTTAGAGTCCATGTGCCACCCCTGAGAGTGGAGTGAGGGGAGAGAAGAGGGAGGGTGTC
ACTAGCGTGGCTCCAATGGAAGAGATATGAGGGATGGGGAATTCTTTTTCCCCATACACCTATCTTCCATTCTCCCTTCCTTCCTACCAGATATATTGAT
TGTCTTATACATACCAGGCATTGGAGCTTACAGTCTTAACACTGGAAACAGGTATTAAGTAGTAATTAGAGCATATGCTATGGAGGAGGATTTCAGAGCT
CTCTAGGAACTTCCACCTAGGCTGAGAAGTCAGGACAGCCCTCCTGAAGTTGTGCCATTTCAGTGGAGCCCTGAAGGATAGGGTGATTTCCACCCTATTT
AGGGGAGTTTGGGGAGCAGAGGGGATGCTAAGTGTGAAAGTCCTGAGCATGAAGGAAACAACGACATTCGCTAGTGTGGCTGACGCTAAAGAGCAAGAAA
GGAGGTGACGTGAGGTGAGGCCRGAGGTAAAGGCAGGGGCCGGGTCATTCGGGACTTGGTGCCACTGCACAAATTCTAAACTTTTGAAAGAGCAGTGCAG
TGCTTTTGAAGGTTTTTATTTGGTTCAGCCACACGACAGGATGCAGCAGAGTGAAGAGTGGTTGGAGGGAAACAGGTGGATGTGGGAGCCCCGTGGGAAG
CTATTACTTTAGTTCAGGGAGGAAATGAGAATGCTTGGGTGTGAGGTGGTGGTGGGACTGCAGAAGCAAGAAAGGATTRGAGAGATATTTAGAAGAGGAG
TAGAATGGRCAGGGCTTGGTGAGTTACATATGGTGGTGGTGGAGAGGCGGTCAATGAAGAAGAATCAAGCAAAACTCCTAGATTTGTGGCTTGACCGTTT
TCCACCCTCTCAACTGAGCTTTATGATATTCCTAAGYATTTGATTAATTTTAAGAGAAAAATCTCATGATTAGAGTTGAGTAGATTTAGATCTTGCAGTA
CTTGACTTTGTATTTCAAAACTGTCCTTCCCTGGCAGACAAAAGCCAGTGCAAAGCACCCATGAAAATTGTGCGTTCTTAAAAGGACAAGCACAATTTAC
ATTTGTAAGTAAATGTTTACTCTTCTCCCCTATAAATTACAGGGATAAATATAAAATCCCTTAAGATTTTTGCAGGGAAATTCTCCTTATGAGTTGCTTA
ACTTAYTTTGGCTGTATGCCATTTTTGTTACACAAATTGATGGGYAATTTTCAACAATGCRTAGCTAAATTTTGAAAAATTCTTTCCTGTCATCATTTCA
GATTCCCTTTGCCAAAGATTGTGGAAATAAGGAAAAATGTATCTCAGACCTCAGCCTGCATGTCGCCACCACTGAAAAGGACCTGCTGATTGTCCGATCC
CAGAATGATAAGTTCAACGTTAGCCTCACAGTCAAAAATACAAAGGACAGTGCCTATAACACCAGGACAATAGTGCATTATTCTCCAAATCTAGTTTTTT
CAGGAATTGAGGTAAACTTCCAGTTTTTCATTTATTTGTTCTCTTAACATCATTTACCTGGCCTACTTTTCATGCTACTGAGATAATTGCTTTTATTAGA
TTGATTTTGAAAGAATAGAAGGAATTTTTTACATTAGTCCTCACCAATGGTGAAAGTATTAAGCTTTTTAAAAAAGTTTTGYTTTATTTATTCAAATATG
TATGTCTTTTCTTAGATTCTGTGTGAGAAAAGGATAGCTCATGTATAAAAACTGTRTGTTTCATAAAATCCTTAAACCACTGAAACTGAAACAGAGTCAA
GGAAAATAATAACAATCAAAGCCAAAACAGTTAACAGACGTACAGAGAGGTACCTCTGTGTTAAGCAAAAAAAATTTACCTGCAGGAAAATCAAGATACC
ATATCTCCCTTTCTATGCAAAATCCTTACTTTGGCAAGATATTTGTATTAAATAACTGTGTCTTATTGATTTGTAACAGAGGTTTCTTTTATTACATTGG
CAATAAAATATATTAATCTGTGTAAGATGCTATATCAGAGGTAATCAGTGTTTCCAAATGTGAACTTTGCTCTTAATTCTGATCTCCAAATGAATCCCAC
TGAGTTAAAATTTTGTGTATATTTATATTAATTAATATTACATACAATTTATATTAAAAGCAATGCACTTATTAATATTATACATAGTATTAAAACACTA
TTGTCTACTTTCTGTAAACTCAGATTTCATGGACGTTTCTCTCTATCTGTTAGGATATCACTTAGAGACATGATGACTAAGACAAACCTAAAAATAATGT
CATATATTACTATATTTTGGATTCAACTAAGAATATTAATTACAGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACCGAGGCGGG
CAAATCACGGGGTCAGGAGATCGAGACCATCCAGGCTAACACGGTGAAACCCCCTCTCTACTAAAAATACAAAAAATTAGCAAGGCATGGTGGCACGCAC
CTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCT
GGTGACAGAGGGAGAACAAGACTCTGTCTCAAAAAATTATTATTATTATTATTATTATAAATACAAATGTACAAAGTAATCTTGGGGAAAATATTACCAC
ARAATTTTTCTCTAGTAAAAATTATTGCCTGTATCCTCCTATGCTGACTTAATGGCCTGGCAGAGAGGCATAGCTAAAAAATCTGACAGTGCATCTCTTC
TGTGTATATTAACAGTAACAACAGTAATAATGATGGCAACCATTTCTTGAGTCACATCATGGTTTAGGCCCTGTACTAAGGATTTCACTTATTTCATTTT
CATTAATTCTTTTGTAAGTAGGTATGACTGTACTGCAGAGATGCRAAGATAAAACCTTTTTWTCATGTTTCAACATTCTTGTAATTGCATTTTACAATTG
ATAACATGTTTATTTACGTGGCAGTGTTATTTTTACTTCTTATGGGTATGTAAAAATAATGGCATATCTCATGTTCAATGGCATTTTAAACTGGAAAAAA
TAGAGTATATGACTAAACCACTTGATAGAAAATCAGTCCCAGAGAGGTGAGGAATCTTAACAAGGATAAAGCTAACAGTGGTGCAGYCAGGGTTTAAATT
CTGGTGGTCACGGGTCAGAGCCTATGCTCTTATCCACTGCACTAAACTCCTCCAATGACTAGCATTCACTGAAGACTGCTCTGCACCAGTCTTGGGTGTC
TGGATTATTTTATCCAGCCACCGCAATCACTCTGTGAGGGAGGTGCTATTAGTACTTCCATTTTACAACTGAAAACTTAGGTAGGATTGTGAGATATGCT
TTGTCTTTCAGGCACCCACAAGTGATGTTTTAGGATTTCCATGAGTGTAGAACAGCTGGTCCCAGAATTCTGTGCCTCTTCCAGCTAAATCGAGACAAAA
ATAGTGGCAAGGCAGTCACCAAGACACATCTGGGAAAATTCTGRAAGAACACGTATCAATATTTCACCTGCTTGTCCACTCTGATTCTGTTTGCTTTCTC
TTCCTAGGCTATCCAAAAAGACAGTTGTGAATCTAATCATAATATCACATGTAAAGTTGGATATCCCTTCCTGAGAAGAGGAGAGATGGTGAGCAGATCA
TACAAAATACATGTAGAAATTGAATATGAAAAGTAATATGTGCAAAGACAAATATATAAATCCTTCCAATGGTAGTTTAGGATAATACGGATGAAAAATG
TTCAGTTCAAAATTGTGACAGATTGGAATATGCTATGGTCAGAATGTTTGTGCCCCACCAAAATTCATATGTTAATACTTAATCCCCAATGTKATCGTAG
TAAAAGATGAGGCCTTTAGGAGGTCAGTAGGTCCAGAGGGTGGAGCCCCCATGAGGGATTAGTGTCCTCATAAGAGAGGCTTGAGGGAGACTGCTCACCC
CTTCTACCATGTCAGAACACATAGCAGGTGCCATCTATGAGAACTGGGTGTTTCCAGACACTGAATCTGTTGGTGCCTTGATCTTGGACTTCCCAACCCT
CAGAACTGTGAGCAATATATTTCTGTTATTTATAAAATGCTTGGTATAAGGTATTTTGTACAAGGTATTTATAAATAACAGAAACATATTTAACAACCTT
GTAACAATTCTTACACAGGCAAACTCGAACACCAAGACAAGATTTAAAATTTATACTACATAACATATCTAATTTATACTACATAACATATCTGATAAAA
TGGAGCTGGGAAATTCTGTTATTGGAGTCTCCTAGGTAGTAGGTGTCTCTGGCCTTCAAGAAAAAGAATGCTTCAAATAGATTGGTTTAGAACTTAATCA
GAAATTCTCCTTCCATCTCTCTCTTTCTAAAAAAMAATTGCCTTATTGAGATATAATTCACGTAGCATGGAGTTCACTCGTTGAAAGTGTGTATTTCAGT
GGGTTTTAGTATATTCACCAAATTATAAATTGTACAGTCATTACGACAATTGATTTTAGAACATTTTCACACACCACAAAGAAGCCACGTATGCATTGGC
AGTCACTCTGTTTTTCCTCAACAGCCTTTCTCCCAAGCCCAGGCAACCACTAACCTGCTTTCTTTTTCTATGGAACAAATTGAATTTCCAAATATCAATT
GACTTTTATTGGCAATTCTAGAATCAGGCAACACCTTATTCTGTAAAATAAAATGAATGGTGGATGAGCTGAGGAGAGGAAGTTGACTTTATAGAGAGAA
AAGGGCTGAAGAAAGCAGAAACAGAACRAAAAGTTGATTGGTCATTTCAAAGTTATTTTCCTTGTAAAAGTGAAAGCAGAGGGGATTTTCTTATCATGCT
GTTTGAAACTGGCTTGATTGGGGATTTGGTGATTATCTCTCACTTTTCTCATCTCCCAAAAAGTCAGACAAATGACTTAATTTCGGCTTTGTGGTGTGGA
ACTTAAGCATTATTTAGTCTGTTGGGCCTAGAGCAAGAGCTGTCCAAACCAATGACCTCCTATATGTTTTACTTAACATGTTTCTTAGTCTATTCTGGCT
GCTATAACTAAATACTATAAACTGAGTAGCTTAAAAGCCAGAAGTTTATTTCTCACAGTTCTGGAAGCTGGGAAGTCCAAAGTAAACACACTGGTAGATC
TAGTGTCTGGTGAGGGCCCATTTCATGCTTCATAGAAGATGTCTTTTCAATGCATCCTGAGATAGCAGAACCAGGAAGGCAGCATTCTGAGTTACAAGGG
TACTAATCCCACTCATGAGGGCTCTGCCCTTATGATCTCATCACCTGCCCAAAGGCCCCATCTCCTAATATCATCACATTAGTGTTTAGGTTTCAACACA
TGAATTTTGAGGGGAAACATTCACATTATAGCAATATGTAAAACATGGTAGACATTCACATTGAAAAAGAATATGTATATTATATGTTATTCTATCTATT
TTGAGATACAATAAGGTTTCATTTTGTAAGACAATGTTTCTCAAATAACTTCATAATTTGAGTTTAGGTAATGTCATTTATGGAAATTGAATATTTTAGT
CAAAGTAAATTTCTTATCTGTTACTAAAGACATATTTTTATTTTATAGGTAACTTTCAAAATATTGTTTCAGTTTAACACATCCTATCTCATGGAAAATG
TGACCATTTATTTAAGTGCAACAAGGTTGGTTTACATGTGTATAAATGTATGTATATGAATGTATATTGCTTCTTCTGTGTATGTCGAATATTTTGCTCT
ATAAACTCACTGACAGTTTCTTCCAGGTTGTAGGAGATCAGTAGAAGTGGAAGGCAATTAACCACTTTGCTTCACAAAAACACCCTTAAGAATAATTAGC
AAAATAAAGAAATTTTCATTTAATAGAAATAATTCACCTAGATTAAAGCAATGGTTCTATGAGCTATAGAAGATACCATAATCACACATCATTTATATCT
GCCAAATTGCATTTAAATTCATAAAAAATTTACTGATAATTTAAAAACTTTCACTGGCTGCCCATCAAGGTCAAATGAATCATTAGATGGACTTAAAGTT
TTATGATATCCTTTTGTAATTTAATATACTTTATTCAAATCAGTCAGTACTTCTGAAAGGTATCATAGAACACACAGACTAACAACAGCAAAGGCTCAAT
AAGGAAAGTGAAATAGTGGTCTAACTTTCTTCTAATTGTAATTATCCACTGACCTGTCTGCAGTGAGATGGTGTCTTTTACTGTTTTATTCACAGTGACT
AGCATTGTGCCTGCCATATTATAATCACTACATAGATGTAGACGAAATGAATAAATTAGAGAAATGAATTAATGGATTAATTAATTCTGTATGTTCAAGT
CAACTCAACAAATATTTATTTGACATCTATTATGCACAAGATATTGAGTTAGTCACTGTAAGGAATATAAAAATTACTAAGGGCATGAAACTCCTCATAG
GGTAAGTATTACAGTAGGGGGTTGAGTCTAGTATAAAATTATTGTAACCTGGGATAGAATAAAAACACTCCATTATAGAGATAGAAAGCTTTGTCAGAAA
ATTAATAGAAGCTGAAATAATATCTACTTGGCAATGGGAACCCAAGAAAGCTTTATCAAGGAACTTATAATTGAGAAAGACCTTGAAGGGTAGATAGCAT
TTCACAGAGAGGTCACTGAATAGCACCAGGTGGAGCATTTCAGGCAAAATATATAGCTTGATTAAAAAGGTTATCAATTTTAGCTGAAATATAAAGAATA
CATAAAGTAGCAATGAAAATAAACAGGGAGTGTGCATTCTATCATATTACGCTAGGTACTGAATGTCAGTCAAGGTATTATTTCTTAATTGAACAGACCT
TGAAAAGCCAGTAAAGTTTTTGAGAGGTAAAGTCATCTGTACAGAGCTGCTGCTTATGGAGATGAATTTAGGAAGGCTGCAGTGTGGAATGGGTGAGAGA
AAAGGGGACCATTCATGCTAAGAGCTGAGTCACACAAATACCTATAATCCAAGGCAGCATGCTGCTTTCTCTGTCCTGCTGCTTATGAGCCACTTTATAC
ATTTGGGAATAAGCAGAGCCATTAAAAAGTACTCTTATGCCCATTCTGTGAGACAATATGTTAGGTGCTTGGTCAGTTGGTGGAGGGGTATGTGTAAAAT
AATAATGAAAGCTAACACTTACTGAATATTTCCTATGTCCTAGGCACAATCTTAAGCACTTTATACTTATTACTAATTTAATCATCATTTATTACTCATT
TGATATCCCATTTTATAGATGAAGAAACCAAAACAAAGACAGATAAGTAATTTGACCAAAGTGTATCAGTGTCCAAGAACAATCTCATTCTCTGGCCCCA
GAGCCAGTGTTCATTACTCGTTATATCATTTGTATGTGTTTTCTAATACGAGGAAGTATGTATATGTGTGTATGCACATATATACATGTGTTTACATAAT
ATATAATTTAAATGATAACCAAAATCAAGAGAATAAATCAGTGYTTAACAAAYAATATGATCATCAAGTACTTAGTATGGAAAGACTATTAAAGAAGAAA
ACAAAAGAKTTTAGATTTACTCTCAGCTGTGTGACCCTAATCACTTATCTTTACTAAGTCCTCATCTGTGATAAATAAGCATCACCTGGGGGCAGATATG
TGGTTAAAAACAGAAATTCCTGCACCCCAAGTTGGAACCCCTAAATCCATATTTCTAAGGGAAGCCCAGTAACCTTTGTATTTTAACAATTAAACTGAGG
GATTCTTATCAATATTGTCATAGAATTTTGAAAAACATAAATCAGTGTGATTGTCAAGTCTAGTCGCACATCAGAATCAACTTGGGAACTTTCAACCATA
CCAATCATCTCTGATCTCCTTCTTCACCCCAATTAAAAAAATGATTAAAAATTATACTCTTACATGCTTTTATTTAGTTGCCAGGATAAGCKTCTCTTTC
AAACACTTAGAAATGTCTTTAAATAGTCAAGATTTTAATGGTTTGTCTGAATGTGCCGTGTATTTTCTAGTGACAGCGAAGAACCTCCTGAAACCCTTTC
TGATAATGTAGTAAACATTTCTATCCCGGTAAAATATGAAGTTGGACTACAGTTTTACAGGTAGGAGAAAACTACATTTTTATGTGGATGCCTTTCTATT
AACCCAGTGGTTCTGAAARTGTGGTCCCTGCCTGGCCAAGGGCATCAGCATCACCTGGAAACTTGTTAGGCAAATTCTCTGGCCCCACCAGAAACCTACC
AAATCAGAAACTCGGAGGATGGGGTTAAACAAGCCTTCCAGGTAATTCTCATGCATCCTAATGTTTGAGAACCATTATACTAAATAACCCAAAGTGTTAG
GTGTTAGTGATACCGGATTGCATTTGCTGTCCAGTCTTAATTCCCGAATGCAAGTTGAAGACCCAGAAGTCCTTCGCAAAACACGATATTTTCTTAGAGG
CCGCCAGCATATTTCTTGGTCATCGTTCTCATCCTGTGGAAGCTGATCAGTCTTCTCAATCTGGACACACAAGATTAAAGCATTTCTCATTGATAAGAGC
TGTTTATTTCTTCCACCATTCATAAACCATTCTTTCTCTTAAGAACTTCTTATCTATCCCAACACAAACCATGTTGACAAACTTTCCCTCTATAATTTCC
CCTGCTTAAGCAGAACTCCAAGCTTTTGCCAAATAAACATGTGCAATATACTTAAAAGGATAAGAATCAGTGGCAAGTAGGTTTATTCTAAAAGTCTTAT
CATTTTATTAATTTTTTAATAATAGTGGCTAACATTTATTGAGCCTTTGTGTTCTGTCTTATGTGATCCTCATGATAACACTATGGTTCAAATACAACTA
CTATCTCCATTTTCCAGTTGAAGAATTTGAGGTTCAGAGAGGCTAATTTACCCAAGGTTATATATTCAGGAAGTGTTAGTTTAAACCATTTCACATGCTT
TTTTTTTTCTTTTAATTTAAAAACTGTTTTAAATTGACACGTAATAATTGTACATATTTATAAGGCGCTTGGAGACGTTGTGATGCAAGTAATATATAGC
AACTAAACAGGGTAATTGGAACATCCATTGTCTCAAACATTTATCTTTTTTTTGTATTGGGAACATTCAATATCTTCTTTCTGGCTTAATAATTTATTAT
CTATGGCACTCTCTCTTTACTAAATGGAGACTACAAAAATGGCATGATTATAGGACATACATGTAGATTGTGCTAATATTTCTCAGCCTTTAAATTCTRT
CTCCACTTTTCTGTATTTTTCTGTATCCACTTCTATTGGTGCACTGACTTTTCCCCAAGAGTTTTCCATTTACTTAAAATCAAATTTTGGCAAACACTTA
TAAATATTTTTTGTCTTCCCTTGACTGAAGTGCTGCTTAAAAACATACTATTTTACTCTACCAAGTTCATSCAAAGAACATGATGAAGCTGTGTAGAGAA
GATTGAACTTTTAAGTTTAGCAGTAAATATAGGACTTTAAATTATGAAATGGTAAAAATTTTTAATCTATTTAGAATTCAGCATTACATTTTAGTTTCAT
TTTTCACTAGGTATAAATGGTATTAGTGAATTTACAGAAACTTTTCACTTGTTAACCATGAAATTTTAACTTTTAAAACTCATATTCTAGCATTTTGGGG
TCAAATAAGCATCAGTGACTATTGAACTAAATTACATAATCCTTCTCACTCTCCTCAAAGATTTAATTTTACGTTTCAAGGTAAATGAATTCCCCTATGA
TTTGAAATCCCTACAAGTATTTTTGTGGAATTACATGATATGGAGAAAGAAAATAATGAGGCCAAATAAAAGTTAAACTTTGTTATGTTTTATTTTTCTT
CTAATTAATTTTTTAAGCTCTGCAAGTGAATACCACATKTCAATTGCTGCCAATGAGACAGTCCCTGAAGTTATTAATTCTACTGAGGACATTGGAAATG
AAATTAATATCTTCTACTTGGTAAGAAATTACCTCTAAAATAGTATTCTAAAGGAGTTATTTGTAAATATATAAATTAAAGTATTAACAGACACATAAAA
ATATGTTGCTTCAATGTTTAATCTCTATATTCCAGCATATTTTCTTTATAATTTCATAAATATAAATATAGACATATAATATATAAATATAATTTTCAAT
TTATATTTTTCTTTATAATTTCACTGAAGATTTAAATTTGTTGTAATTATATTTTCACATCAGTTTAGAGATCTAAGCCTCTAATTTCCTCAAAATAAGA
TACCACTAGAATGACTTTCTAGAAAAAAAAAATAAACTATGGGACTAGATAGATGCTACCGATAAACCTGTAGACTTTACTTACATTATTTTATCAGTGT
GACTGAGAAAAGCACTTTTTCATTAATTATGACTATATCAGAAATTTGTTATCACAATTGTCTTGGCAATTTTTTTTACTTAACAAATAAGTATGTATCA
CATTCTCCTTATTGTTACCTTTCACATGCATTGTACTATAAATTACTCATGTTGGTACTACCACCTCCTTAAATGATGTTTTCTATTACATTTATTTTTC
CTTTTAAATCCTTCATAACAAACTCTATACCACTATAGCAAACAATCACGGAATTTTATTTTAGGTAATGCCTAGTTACTGACACAGACTCAAGTTAAAA
TCACTCAAGGAAAAAAGAGARCACAATTCAAATAATGGATTTAAATATGTATTCAAAAATATGAGATAATGCAACAAAATTATAAATGAAGACAGCCTCA
ATCCTTTTGGGAATTGCCAACCACAAAAAAAAGTTCTCTCATAGAGTATAAATAAACGTATACTCCCAAGATTAATTTCATTTTTTAAAATTTGTACTCT
TTGCTAGAATTCCTATGACAATTTATGCTAATTTCCCTGGAAATTAGCATAAATGCCAATCACTCTACTGGATTCTAGGACAGATTTTTGGAATTCAGGC
TATCAGATTTCTCCAGCCCTATTCACTTTCCCTGAACTAGAAAATTCAGCAAAAAAAGAAAGAAAACAAAAAGACTTTGTTGCAGAACTTTATATATTGT
AACTTATTAGGGTCCAGATTTGAAATAGGTACTCTCTCTTATAAAAGTGTTGATATGAATTACATTGCTAAGAATATTCCTGAGCATAAAACTTTGTGTG
TATCTCTGATTATTTTGCTGAAGTAAATTCTAGAATTGGAATAAAGGAGTTTTTTAAAAGAACTTTTTTTAAGGTGAAACCCGGTAAGTTTACTGCTCGG
AATTTTCCCTAGGAAATTTTTGGTGATAGAAACAAAGATTTCAGGGATGTTCTTAACAATATTATTTATAATAGTTTAAAAATTAAAGCCTGGGCACAAT
CTAAACACTTAACACAATGAAATTACTTACATTATCATATATTTAGTGAAGAGATTATCATATATTCAATGGAGAGACAACGTAATATTTTAGAAGGCAC
ATTTTGGAGTAAGAAACCATAATGCTGCTATTTACTAGCTTTGTGATCTTGGAAGTTCTTAATTTTCATTCCAACCTTCTTACCTCATAGATAAAACAAA
GATAATATGAGGATCTGCTTCCTGCAGTTGTTAACAGGGTTAAAAGCAATAATGCATATAAGAAGATTAGCACAGCATGTGGCACATAGTCAACAATATT
GATATTGTGGTTGTTATGAACAGTCATATTCTCAATAAACTTATACATTTAAAGGAAAATGCCATAGCATAATACATTTTACAGACAGGGTACAAAACTG
TATTTTATTGTGTTACAAATTTTATAAATATGCATATATGCAAATAGGACAGGTAACCTACACTAAAATGTTACCAAGGTAGTTGAAGTATAGGAAACGT
TTATTTTCAGTATTTTCCAATGTTTCTACAAGGAACATTTTTTAATCAGAAAAAAATGGTAATTACAGAACACAGGATTTCTTTTTTTTTTTTTTTTTTT
TTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCAC
GCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACCACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTTAGTAGAGACGGGGTTTCAC
CGTTTTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCA
GAACACAGGATTTCTAACTGAATATCAGGAAACAGAATTTGACTGGAAATCAAGAAGATAAGAGTTAGGGAGCATGTTTAAGGGTCCAGGTGCAGCTGGT
CAGGAACCTCCAGAATTCCAGAATTAAAGGATGTATTTCGTCTTTACAAACCCAGGAAACTGCTTCAGATCTGAGGAGCTCTCAGTCTGGAAGGCTCAGT
TGGGTAGATCACTGGCTTTCCTTGGGTCTATCTATGTAGATCAAGGCGTTCCCTACCCAGCTAAAGAAGCTGCACAGGGATGCCATAGGTTTCAGGCCTG
CAGATTATGCTTCAGCAGTAGGAAGGGGACAACTGCATCTGGTTGTCCCAGTTCAGTTGTACCTTTTAAGCAGGGAAGGACCTCTGGATAGTGAGTTCAG
TTTCCTGTTGAACTTTATCCTGCCCACCTTTCCCTCTGAGCTACACTCACTACTGGTAGCAGAACATGATACTAAGTGGAAACTTTGGGTTAGTGGATAA
AATCGAATGGAGACTGAGATGAAAGTAAATCTGACTCTCATAAAACCAGATTATCAACAGCCAGTGTCACGGTAGCCCTAGCTGGGGGTAGAATTGTGAA
GGGAAGCAGATGGGAGTCTGGTTTTCCTGTATAGTGGTGGCAGATCCCATCTAGCCAGGATTAGAGATGATTTATGGGTTTAAGGAATTATGGCAAACTG
GGTAAAGGCAACCAAAAATCTAAATTGTTCCGTGGTCTCCCTTCTTTCCAGTTTCAAAAAGACTGGTATGTTAAAAAAAAAAAAAARAAAGAAAAAGAAA
AGAATGAGCMTGGCAAGAACATAATAACAGACAAAAACTTCCAATTCTGGTCTTCTGTTAATCCTAGGTCTATTAAGAGAATGGGGGATGGAGGAACAAT
ATGATTATAGCTGATACATAYGGCTACTGACCATTAAGTGTCCATATTTTCTGCTGGCTGAATTATGCCAATTCTCTGTACAGCACCATAAAGGATCTAC
ATTTGTTTGGGGATTCAAAATATTACACAATTTACTTCATCAGCTAGAAAACAAAGCCCTACATAAGACAGAAGAATTCTATTAAAAGAGGAAGAAAGAT
TACATTTCCATTTTTTTCTTGTAGATTAGAAAAAGTGGATCTTTTCCAATGCCAGAGCTTAAGCTGTCAATTTCATTCCCCAATATGACATCAAATGGTT
ACCCTGTGCTGTACCCAACTGGATTGTCATCTTCTGAGGTAAGTCATGTGTGCCTTGGAATTATGTCATTACTGTTATCTTTTCCACTTTATGTTTAAGC
CTTTTGTTCTGCATGATACTTGTAATAAAGAATTTTACCAAAGTAACATGGAGAGGTATTTAGATAATTAAAAGCAAATAATAATAGATGTATTATTCCC
TAGAGCTGCTGTAACAAATTATCACAAATTGAGTGACTTAAAACAACACAAATTTATTCTTTCACGGTTCTGGAGTCCAGAAGTCCAAAATCAAGGTGTT
GACAGTGTTAATTCCCTCTGGAGGCTCCAAGAGAGACTCTTTCTCATGCTGTYTTCCTAGCTTCTGGTGACAACTGGCAACCCTAGTCGTTCCTTGGCTT
GCGGCAGCATAGCTCCTATCTCTGCCTCTGTCTTCACCTGGCCTTCTCTGTGTTTCTATGTGTTCTCCTTCTCTCTTTGTGTTTCTGCACACTCACCATT
AGATTTAGGGTCCACCCTAAATCCAGAGTGATCTCATCTGGAGATCCTTAATATAATTATGTCTGCAAAGACCCTATTTCCAAGTAAAGTCATATTTACT
AGTTCTAGGGAGATTTAGGCATATCTTTGGGGACCACTATTCAATCCACTAGAGTAGATTTTAAATAATTCATTGTTATGAAATGTTTCTTACACTTTTC
CTTGATTTGTGGTAATCAAACAACTCTATAAAGTGACTTCTTAATTGTACCTAAGCATGCACAGCTGCAAACAAAATAGTATAATTGTATTTACTCACAT
CCCAAATAATAGCAATATTGCACCCCCTTTATATTTTTAGCTTGAATGAGACTATATGATGGTTCATTATGGTTTAGTGCCTAAAACAAAAAATCACCAT
AAGTATTGAATTAATGTGTGCATGATGTCAGAATTTGGAAATCTGTCTTTTCATGCATTTTTTAAAGTGTTCCCAGAAATCAAGAAATAGCAACAATGCT
AATTGGCTTGTGATCAYTTAAATGTTTTCCTAAGGGCAAGGAAAAAATAAGCCTTTGGAATTTCCCTCTAATCCAAAAAAGCAGGTTTGYGAAAATCCAG
AAGAGAAAAAAAAATTGTACTTTTCATACTGCTTAGGAAACTTTAATCTTATTAACTTTTGTCAAGGATATTGACAGTACTGGGGAAGCAAAAGGTTTAC
TAGGTTAAGTCTAGAACCAGCTATCTTATAAATATAGCATTTTAACATAATATATTAACATCTATAGGGCTGTCTGCTTACGTCTACCTCCCATGTAGAC
TGAGTGTCYTATCCTTGGTGTGTAGGGAATCAAAAGTATTACTGGATGAATACATAAATACAGATGAAGGTCTCTCGCTTTTCAATTGTTTCATGAGCCA
TAATATTGAACAAGTATTTTTGTTGTTTTTGTTTCCTTTTTTTTGAGACGGAATCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTT
ACTGCAACCTCCTCCTCCCATGTCCAAATGATTCTCCTGCCTCAGACTCCCAAGTAGCTGGGACTACAGGCGCCTGCCACCACACCCAACTAATTTTTGT
ATTTCTAGTAGAGATGGGGCCTCACCATGTTGGCCAGGCTGGTCTYGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAGAGTGCTAGAATT
ACAGGTGTGAGCCACTGTGGCTGGCCGTTGTTTTTGTTTTTATCAGTAGAATTTAAATGCTTTTCTCTCTCTGTAGTATAGAATTTATAAGCTTATCTTT
GATTAAGGTAATAAATTAATGAATGTATTAATCACGTAATAGTAAGTTCTATTAGCATTCTTTCTTTTCCATTACAACCTCACTAGTTTCCATTACAATT
CAAAAGTAGCATGGTAAGAGTACATATTATCTTGGGGTGGATATATATGTATGTATGGCTGGTGCATAACAACCTTTCCCATACAGCACACTTACAAAGA
TGGATCTCTAATATATGGCAATGGCTGTCATTCACAGATTCTTTACACTACTGCAGCAAGTCATGTTTTTCCTCTGATATCTGGCATTGTCTGATAAATG
TAATATTTTCATTTCTAGAATGCAAACTGCAGACCCCATATCTTTGAGGATCCTTTCAGTATCAACTCTGGAAAGAAAATGACTACATCAACTGACCATC
TCAAACGAGGCACAATTCTGGTAAATTAAGACAAGTGCTATTTTTACCTTTTGCTTTCCAAATGAATAAAATTGATATCAWTCYAGAAATAACCATYTGR
AGAATTTAAATATAGATATTTGATAAAACGGCAAGAATACTGATATGTATCTCTGGACATTTAAACAGGACTGCAATACATGTAAATTTGCTACCATCAC
ATGTAATCTCACTTCTTCTGACATCAGCCAAGTCAATGTTTCGCTTATCTTGTGGAAACCAACTTTTATAAAAGTAAGTAAATACATAGTTCTATGCACT
KATTGAATAATATCAATAAATATTCATTTACCACTTAGAATATGCAAGGCAYWGTGCTGCTTTTGGAAAGAATGTGCGACTGGAAGTATAAGAGGATGTG
ACCAAGCCCCAGCTCTACTTAACCAGCTATGTGTGTCTCATCTTCCTTGTCTGTTAAGAACTAAGATATTACCAAGGTCCCCTCTGGAGAGATATACTTT
TTTCAATCTCTCTTATCCTTTTTCTTTGTACTTTAAGAGATAAATACCTTTCCAGTACCAAAGCTTGCACTTATCTTAATACTTTGGAACTCAGTTAATG
TACAGAGTATAATAAAGTGGCAACCCTTGACCCCAGTAACAAAGGAAAGAGCTAACATATACCATAGACTTACTGTGTTTTATCAGACTGTTATTATATG
TATAATTTTATAATATATAGGTATATATGAAGCCTTTTTTCTTTTTTTTTTTTTTGAGACGGAGTGTCTCTCTGTCGCCCAGGCTRGAGTGCAGTGGCAC
GATCTCGGCTCACTGCAAGCTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACGCCCGG
CTAATTTTTTTTTGTATTTTAGTAGAGACTATGAAGACATTTTTAACCCCTTATAAAGCCAAATCTGTCTGACAATAAGCTACTTTAAAACTTTTTATTG
TATTTTGTATTATTTATTTCTCAGGAAGTATTTAGTTGAACATATGACTTTGCCATTTTTGAATTTGATTATAGTAAGTTGCTATTTTTATGTCATTAAC
TGTTAATATTGGCAATTTCATTTTTTAAATTTCAACTTTAATTTTAGATACAGGGAGTATACATGCACGAGTTTGTTACATGGGTATATTTGCAGGATAT
TGAGGTTTAGGGTACAGATTCCATCGCTCAGGTAGTGGGCATAATACCCAATAGGTAGTTTGTCAGCTCCTCCAAGTAGTCCATGGTGTCTACTGTTCCC
ATCTTTATATCCATGAGTACCCAAGGCTTAACTCTCACTTATACGTGAGAACATGTGGTATTTGGTTTTCTGTTCCTGTGGAATTTGCTTAGGATTATGG
CCTCCATCTGCATGTATGTTGCTGCAAAGGACATGATTTTGTTCTTTTTTATGGCTGTGCAGTGTTCCATGGTGTATATGTACATATTTTCTTTATCCAG
GCCACTGTTGATGGGCACCTATGTTAATTCCATGTCTTTGCTGTTGTGAATAGCACTGCAATGAAGATATGACCGCACGTGTCTTTTTGGTAAACAGTTT
CTTTCGGGTATATACACCCAGTAATGGGATTGCTGGGTTGAATGGTAGTTCTGTTTTAAGTTGTTTGAGAAATCTCCAAACTGCTTTCCACTGGCTGAAC
TAATTTACATCCCCACCAACAGTGTATAAGCTTTTCCTTTTCTCTGCTGCCTCACCATTTTCTGTTATTTTTTGACTTCTTAATAATAGCCATTCTGACT
GGAGTGAGATGGTACCTACCTCATTTTGGCTTTTATTTGCATTTCTGTAATGATTAGYGATAATGAGAGTTTTTTCATATGTTTGTTGGTCACCTGTATG
TCATGTTTTAAGGAGTCTATTCATGTCCTTYGCCCATTATTTAATGTGGTTATTTGTTGATTGATTGCTTGCTGAGTTGTTCAAGTTCCTTATTCTGGAT
ATTAGACCTTTGTCAGATGCATAGTTTGCAATTATTTTCTCCCATTCTGTAGGTTGTCTGTTTACTCTATTGATAATGTCTTTTGTTGTGCAGAAGCTCT
TTAGTTTAATTAGATCCCACTTGTCAATTTTTGTTTTTGTTGCAATTGCTTTTAGAGACTTAGCCAAAAATTATTTGCCAAGACCAATGTCAGAGAGGGT
ATTTCCTAGGTTTTCTTATAATATTTTTATAGTTAAAGGTCTTATATTTAAATCTTTAATTTGTCTTGGTTAGTTTTTATATATGGGGAAAGTTAGGGGT
CCAGTTTCATTCTTCTGCATATGGCTAGCCAGTTATCCCAACACCATTTTTTGACTAGGGATTCCTTTCCCCATTGCTTGTTTTTGTTGGCTTTATCAAA
GATCAGACGGCTGTAGGTATGTGGCTTTATTTCTGAATTCTCTATTCTGTTTCACTGGTCCATGTGGCTCTTCTGTACCAGTATCATACYGTTTTGATTA
CCGTAGCCTTATAGTAGAGTTCGAAGTCAGGCAGTGTGATGGGTCTGGCTTTGTTCTTTTTACTTAGGATTGCTTTGGCTACCTGAGCTCTTTTTTTAGA
TCCACATGAATTTTAGAATAGTTTTTTCTAATTCTGTGAAAAATGATGTTGGTACTTTAAGAGCAACAGTGTTAAATCTATACATTGCTTTGGGCAGTAT
GGCCATTTAATGATATTAAATGAAAGGTTTTTTCTTTTATTTGTCTCAWCTCTGATTTCTTTCAGCAGTGTTTTTTAGGTCTCCTTTTAGAGATCTCTTA
CCTCCTTGGTTAGCTGTATTCCTGGATATTTCAGTGTTTTTTGTAGCTTCTGTAAATGGAGTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGC
CCAGGCTGGAGTCCAGTGGCGCGACCTTGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCTTGACTCAGCCTCCTGAGCAGCTGGGACTAC
AGGCACCCACCACCATGCCCGGCTAATTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTG
ACCTCATGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCCTGAGTTGTGTTGTTTATTTGACTCTCACCT
TGAACATTATTGGTGTATAGAAATGCTACTAATTTTTGTACCCCTATTTTATATTCTGAAACTTTACTAAAGTCATTTATGAATTCTAGGAGTTTTTTGG
CAGAGTCTTAAGGGTTTTCTAGGTATAGGATCATATTACCAGTGGAAAAAAGATAGCTTGACTTCTTCTATTCCTATTTGGATGTCTTTATTTCTTTATC
TTGCCTTATTGCTCTGRCTAGGACTTAGAGTACTAGGTTGAATAGGAGTGGTAAGAGTGGGCATCCTTGTCTTATTCCAGTTCCCCAGGGGAATGGTTCC
AGCTTTTGCCCATTCAGTATGATATTGGCTAGGATTAGTTACAGATGACTCTTATTATTTGGAGGTATGTTTCTTTGATGCCTGTCTCTACCTAGAGTTC
TTGTGCTGATTCTTTCTCATCTTGGGGGACTGATGTTCTTCAACTGTGGTGTAAGTTGAGTGTAGTCATTTGGGTTTGTTTCTGGATGCTTTCAGAGGGC
CAAGTCTCTGTACGGGATCTTTATTTGTGGGTGTATGCTCACAGGAGTGTTTATTAGCAAAGTAATTTTTGGTGTTGTTGTTTGAGCTGTGATCCAGTAG
AGGGCAATTAAGGGTAATGGGCAGTAGATAGGCTCTTAGTCTTGCCACTCTTGTATTTGCTCATGTTTGCAGGGGTGCTCTGCAGTGGGTAGGGAGAGGC
CTCCTCCAATCACTGGCACTGTACCCATGTTTCTTTTGTTAGGTGTTCTGGGCCACAGGCTCTCTCGGGCAGAGGCCATGGCAGGTAGATAGGTGACACC
TTTTCCGAACCAGCCCTGTGGAGGGAGTCATGCCCTACTCCAGTGCTGGCCCACGCTGGCCCACGAATCCATGTTTGTTACCCATCTCAGTGCTCTGAGA
TGGGGGCTCCTCCCCTACTTGAGTGCCAGCCATAGATCTCAGCTTGGTACTCCTGAGAYGGACATGCCATCTCTGGGTCTCCAGGACACCCCGCAGCTCA
GAGTCAGGCTCTGGTTGCTTTGGAGGATCCAAAGTCCTCCCAGGTCACAGGGAAAGTACTCAGGTGGGGCGCAGCACCCAGGCTGGGCGGCAGAGACTGC
GCTGTGCACATGCTCCTGTGGGGCAGTTAGGCAGGGACTCTGGGAGGGTCTGGCAGGCGGGAGAGGCTGCAGAACAGACATGCCCCAGTCCCATGGGGAA
TGCCTGCTTTCTCCTGGCTTGTGGTCACCTGGGGCTAGAGCCTCTSTGAAGGAGATGGGGAGTCYGAGGGRATGGGCACCTATGTCTGTGCTCTGCTCAC
AAAAGCTCCTGGGCTCCATGCTAGCTGAAGCCCTGTCTCTACCTGCTCCCTGGGAAAATCCACCTGCCAGCTCACACATCCATTGGAGATGTTGGGTACT
CTGTAGCTTAGATCCCAGATGTCTGTGGCAAGAGTGAGCTGTCCCTCAGTCCCCTCCCTCACCCCTTCTCCAGGAGCCATTTAGGGCCAGGAAGTAGCCC
AAGCATTCAGGTACCCTACGCAGGGTTCCCAGCTTCTCCCTCTTCAGCCTCAGCATCTGTGTTGCCTCTCCACACACTTGCGGTGTTTTCTCCCTAGAGA
TCAGATCTGCCCAAATTATATTATTTACTTGATAATTTGGGATCTCTTAGTGGGAGAGATGGCTGTGTCTAGTTAGCCATCTTGTCCCCCTAGATCATCA
ATTTCATTTTTAATCCTAAATAAGTGCCTAGATAAACTTCATCACCAGAATGTAGTTGTTTCATGTCTTGCTACRTTAAAGGTAGGCAGWGTTTGAGGTT
TGTTTTTTCTAATGATAAATCAATACAAAATATTTTTAAAATTTTTTTTCATTCCATAACGAGGATCTAAGTAAGGATTTTCAGTGGCAAATGAGGGAGG
ACAAGTGCACGGTTATTATTTGATACTACCAGTTCCATTTGGAAGTTAACAAAACTGGAATTTTTAATCTCTCAGAAAAATCTTAGCTTTTAYAAATGTC
CTACTCAAACATGACTAGCTCTCATTTTGATTAGCATCATATATTAAGAACAAATCCTATTTGCTTTTCAGTCATATTTTTCCAGCTTAAATCTTACTAT
AAGGGGAGRACTTCGGAGTGAAAATGCATCTCTGGTTTTAAGTAGCAGCAATCAAAAAAGAGAGGTAAGTGCAACATGAGTTTTGAAAACATTATGCATT
TCACTCTGAATTTTGTGACATAATGTTTTATAATTGTTGATAGTCCCTTAAGCAGTGACTGGTATTGCTCTCGGTAAGTGACAGACACTATTTGCTTCAA
ATTATACTTCATTAGCTTCAAATGTGATTTTAGTCTTATTCATCCTTGTAAGACACTGGGAAAATCATGATATTTACAATTCACATGCCGCATTTGACTT
TATCACTTATAACTATCACGGTAAATGGATGTTTTTACTTTCACTTTGATAACAAATGATGCAGTTGTAACTTTCCTCCTTAAAAGCTGACATTATAAAA
TGCAGCTGATATCTGAAGAGCAGCCGCAAAAAACAACTTCTTTATAAAAAGTGCCTTTATACTGTACAGGAAAACATGTACATTTTTTAAAGTTTTCTTT
CAAATTTCATTGAGAAATTTGAAACAAAAAWGTGATGGTATTTCCTAATACAAATTCAGACTTGAGTCCTCAGTAAAAATAGAAAGGTTTGAGTTTTTAA
CTCTTGTCCTTTTTATAAATTAATAAGCCAAGGTGAYGGAGTAAGACCCCATCTCTAAAAAAATAAAATAAAATAAGTACTTGTTACACATGCAGGCACT
TCAGCATGATCTCCCCCCTTCTCATGGGAGACTTTAAATATCCCATGTGGATAACAGCACCATGTGAATCATAAAATTCAATTTGGAAGCTCCCTAACTT
TCAGATGTTCTTTTTAAATTGCTTATTTCAAATTTTTCCAATATCAATGACTTCTGATAAGTATACGCTTTTCAAGAAAAAGGAAAATACATGCATATAA
TGTTTACTTATGTCATAAAGAGCGCTTAGCATAAGCAATGCAAAATGCAAAGTTGTTCCTTACATAGAATAGCCAACATTTCACTAAAACCTAAAAAATT
TGAGTATGGTTTATGTTGGAAAAGTACATATGATTCCTAAATTTATGTGTTAAAATTTTATAATGAGTTTTATTTTCCCTAAATATTAGTTAAAAATTCC
CCTGGAAATATTTATTCTACATTCATCCTAAAGGAAAAATTATATCTATATTGATAAAATTACTAAAAGTGATCATTTTGTAATTGTGTGATCTGAGGAA
AGTCACTGATCTTATCTAGATTCCGGTTTCCRTATCTGTAAGTTCAGGGAATTGTTTTACATATGTTTAAAATCTGCCTTGCTGGGCTTAGTGGCTCATG
TCTGTCATCCCAGCCTACTCGGGAGACTGAGATGGAAGGATCACTTTAGCCCAGGAGTTTGAGATCAGCCTGGGCAAAATAGTGAAACCCCATCTGTGTT
TTGTTTTGTTTTGTTTTAAGAAACTGTCATAATGGTCTGATGCTGTATATGTCTACATTCTTGCCAGCTCTGTCACCTACCTGGAGTGATTTGAGAGGTT
TTGATTAGTATCATGCATATACAAATCTCTCCCCTGTTAGTTTCTTTTTCTACCCTAATCTTCCCTCTAGGTAAAGAAATTGAGRTGTTACTGTTAAAGG
CAAATACAGGGCTTGAACTATTACTAGCCATTGATATCTACCCTAAATTAATTTTTTTCAAATCCCCCAGGGATGAGACACAGAGCAGATAGGTTTCATT
GAGGTTTGAGTGCCACCCTGAGAGAGCTTGAGTAGCTGGAACACTAAAAGCGGTCCATTTTACAGCTTTGCTTCAGTTAAAACCTGATTTATACATGTGG
ACCCAGTGATAAGTCAAGTAGAAGAAACATTGTGGTATAATGAAGAGCACACTGGGAGTGAATACATATGCAAACATTCACTTACCCATACACTTGACAT
GTATGCATTATACTTTCAATTTATAAACAAAAAATTATGCACACTAGAAATAAAATAAGGAGACTTTCTCAGGTTCTTATGACAACAAACTGCGACATTC
CAATCTAAACTAATGCTATTGTGATAATACAGTAGTGTACTAATTAATCTTTAACACACATAATACTTTGGTTCTCCCTGAGTTAAACAGAAATTCACTC
CTCCCCTTGAGCATTCCAATCCATTGACATTTAACCCTTTATGTATAAATTTCAGAAGGATAATATTATAAATACCTTTTGGTAATAATAAATTTGACAT
AGTTAGAGATTTAGACTAGATGAAGAGCATTTTCTAATGTAAATCTRATGTTTTCTCRTTATATAGTAACGAGATTAATGCACTGGTAGAGAATTGTAGC
CTGCAAGAAYTCAATGTTCCAGGAGTTCTAATAGGTGTTTATTATGTTAACAATCTTGTTTAATAATTTTCAGCTTGCTATTCAAATATCCAAAGATGGG
CTACCGGGCAGAGTGCCATTATGGGTCATCCTGCTGAGTGCTTTTGCCGGATTGTTGCTGTTAATGCTGCTCATTTTAGCACTGTGGAAGGTAAACACCA
AAATTCCTTTGACTCTCTACTTCAATCATCAACAGCAAACTGGAGAAATAAGCTCTGATMTATTCAGACTATGTAATATAGTATTATTACAGCAATGAAA
CAAACGTTGAAATGATGACTAAGGGAAAGAAAAAAGAAAAATGCGTATTTCAAACACTGCACACAACTTGACCCAATTTTTGTAAAGGAAAAAAAACTTA
TTTTRAGTTAGAAATAGTCAAAAATTCACAAAAGTATCTTTCTAGAGTTTAGTATGATAGGGGACTTTCACATGTGTAACAATTAAAATTTTATAATAAG
TATGTATTTCTTTTATAAACAGAGAACAATGAAAACTGTCTTTTATAGAGAAAGAAAAAATGAATTCCTATGTCAATTTAAGGATATATAAGCAGTAGAT
TCAAGGTTAAAATAAGCCTTGTTTTAATCACATCTCCATGTGTCTTAAATATCAAATAATTCTTTAATGTTTAAATATATATGGCACATTTTATGTAATA
AATTGTGTGCCTGAGTGGAGGATAAGGGATCAGCTGATGTAGGGGAGATCTTAAAGTTTCACAGACTCCTATTTCAAATTCTGTGGTAAATGTGAGTAAC
CACCTATTTTGTGTCAAGTAACTCTGGATATTTATGTAATGTTTTGCTTAGGCTGAAATAGACATGATTTTTAAAACTCTTAGCAGCTGTATAATTTTCA
CATTAAGTAGAATTGAGATGACAGCTTTTGGGATAAGTTGAATAGAGAATAACATCCCATACAGAGTTGAATGTTTTTTCAATTAAATATCAAATAAGCA
TTTATTCTAGCATAATATCCCCCTAGATTTTACCTATTGTTTTGTTAAATAGTTAAATTATGTTAAAAATATAGGTTGTGGCTACATATTAATTGTTCTA
TTACCTGAGCAACATAATTATTTAATCAAATAGTTTAAATAGCAAGTTTCTCTCCCACTGAAATACCAACTGTTCCTATCCTTTCTTACTCTCCTATGAC
TCACTTCCTCTTTTGAGGGGCTTAGTCTCAGAGGAGATGGTGAACAAAGCCAGATGTAGGTCAGTGGCATTTAATTCAGTAAATAGAATCCATGGCTTTT
CTCTAGCAAAGTTCCCCAAACAAAATTCTCCACTATAGCCAATGTCCAGCTCTTCCTTCTACTTTATAAGGGATCAGTGTTCTCTCTGTAATACCTAGCT
TTGCCACACTGTGGTACCCAAGGCCTGGCTTATTGGTGTCAAGGTTGTACTTGAAATATAGGAAGTGGTTTCTTCATTTCTATGCACCTCTAATAGAGAG
TGTTACTGTTGATTTTTTTCAGCATAGTCTTCTGTTCTCAGCACTGCACTTACCTCTATGGTTTTAGAACACCGCTGGCAGGAGAAGAGGAAAACCAGAG
CTGATATTTGGATAGGTTCTTTCAGGCCTTGTACCTCTGTTTCAGACAAACAAATAGGAAATTTCAGTCACCTATTTTTCAGTCAGTAGTCTGAAAAAGC
ATAAATGTAAAACTAAGCTCATTGTTTCATCCAGATAATGATGTGTTGATACATTCTGACAGCTTCTTAGGTTATTATTAATATTATTATTATTGCAGGC
CCAAAAGAAGATCATTTGACAAACTTTGGGCTGTCTTACCCGGTAGAAATAGTTCAGCCACTTCATTGGGAGGCCCAGCAATCAGAACTGTGATTCTAAG
GTAGAAGGGAAGAAACTAGCTCTTATCGAATGCTTACTATGTGCAGGGAGCTATTTTAAACATTTCTGCTTTAAGCATTCCCACTTAATACTCATATCAA
CCTTATGAGGTCGTATGAACCTCCTCTTTTAAGTGARGAACATAAAATTTAAGTATATTTCCCAAAGACACATAGTGAGATTCAGAGTAAGGATCTGAAT
TCTGTGCCAAAACCACTGACTATTATCACTCTGTGTTCTCTCTTGCTTCCATTCACTCTGGTGTCCTYGCAACAATCTTTTCGACCAAGTATTTTAACTA
CATTTTACACCTGAGGACATTAAAGCAAAGGGAGGTAAAGTGACTCTCCCATGATTACTAGCTAGTAAATGACTGGATTCAAGGAATGATCTACAGAGCT
CTTTCTTTTTCCAATATATCCTACTGCTGCAGGCTATAGGGTAGGGCTCTTTACTCTGGAGCTCCAGGAGTTGGGTTTTGTTCAAGAGAGTCATGAACTC
TCTTAAACACATAATACTGTCTTTGGTTTTGGAATGAGGGTCCCTGGTTGGATTCAGACTTTCGGTAGTTCCATTATATCAAGAAGGCTAATCCCACTTC
CCCCTACTTTAAAGTTCTGTTGGAAGCTGCCTGAAGCATGAGTTCAGTTGCAGTAGGTTCAGAAGAGCTACTCTTATCCCAGACATCTTTTTTATTCTAA
CTAGATCTGGATCAGACACCTCAGGACTATCCCTTCTTCCTTCCTTTCCTGAATCCCACCAGTTTGGAGTTCATTGGAACTCCCAAGTCTGAGTCTCTGT
GTAAGAGACAGGCCAAAAGTTTCTCTTAGAGCAGAGATTCACTTTCAAAAGACACAGTCTTTATATCTTTGTCTTCATCATACACATGGCAAAAATTAAA
GCTTGACAAAGTGTTAGTAGCTGCTTAATACACTTCATGATTGATGGGAGGAATCTTGTAGGGGACGTAGGTTTAAATAGGTGGAGAAACTTGTCCTGAA
CTGTGGTACCACATGCCGGGGGAGATGCCAGCACACCAGGAGCCATGAGAGACTCAGAACATTCCTCTCTCCTAACTTGATGTCATAATGATGCCTGAAG
TTCCTCAACTGATGATTTATTTATTAATCYTAAAGCTTTATTCTTCATCCAATATACATGTTCTGGGTGGGTGTGGATGGGGACTGGTGTCTCACCACTT
TTTAGTCTTTTATAYATTAGTATGAATTTATTCATTCAGCAATTATTCCATGTTATATTCATTAAGCACTTACTTTTCTGACAGTTATCACCTCATTAGA
GCCTTTGCCATAGGGTTTTGAACAAGGGATCATGAAGCAAACACAGGAAGGAAAAAATGAAAGCCAGTGCTGCAAAGAAAGTGTTGGGGCTGAAAACAAA
CTCTATTGGTTTCAAATTTGGGCTAGGATTGGCCCAGTCCATCTTGAAGCTATAAACTATTTTCTCCTAATCTCCACTCTTTGCCACTCAACTTCTCTTA
AAAACCCATGTTAATTGGTTGGGTGGAGTGCTTAGATAACAGAAGTTATTTTAAAATAGAACATTTAATGTGTAGAAGCCAAGGAGCATTGTAAAGAAGC
AAAAAGAGCTGTGAGAGATCAGAAGCAAAGCAGAGTGGGAAGGAGAAAAAGTCTTAGAATCCACCACCTGCTTTTGTGAAAGCCTTGTCTGTTTATTTTT
GACTCAGGACATGCAGGCACAAGTTAAGAAGCCTMATGGTTTGTGAATCTGGAACTTTTATACTTGGCTCATATGAAAAAGCCTGAGACGTGTAGGAGAG
CTGGCATTTGGGGAAGAAAAACTTATTGTTTTCATGTGTATTTGTTCCGTTACCGCCTTTTCTTCATCTACCACCAACTAGATGATGGCATAATAGAAGA
CATGAGCCCTGAATAAAAATTTTCCAACCTAAAAGTGCATATTTTTGAGGGTTTATCCCCTCTAAGCCCTCAGTTGTTTAATAATTATTTTATAAACACA
TAGTTCCCTGGCATAATTTGCCATAATTTCGTGATTAAAATGATGTAGAGGTGCCACACTTTTAAAGAATTAACTCATTGCCTTTGCTCGATCTATTATA
GCCCCCTCTCAAATTTAAAAAATATATACAAATTTGAAAAATCACTTACCTATGACCCTTAATTTTCTTTTTTTAAAAATAAGCATTTTAGGTTAGATAA
TTGCAAAGATCCCTTCTATCCCCCATACTTARTTTTGTTATTCTATAGGATGGGAAACAATTGCAGCACTTATARCTTTTTATGATGCCCCAAATTGCAA
AGCATAATGAAATATGGCTCACCATCCACCACGATGTGAAATTTTTCTTATGGTCAACAACTTCATTTTTTATTTCCAAATGATATAGTGTGTTTTCAAG
AGGCTTTTTATATCAAATCTATATAAGCAGACGTCCTGATGCATTTAAAGTTAATACAGACAACTCAGAAATCTCCCTAACGCCCTAGCCATAATATACC
TGTCAGATTCCCTACCATCTCTAATGACCTCAACTTATGGTCATCRATCATTYGATGGAAATTTCTCTGCCACATCCCTGAAAAAAAAGATGATGGCAAA
GAAGAGACAATGCTAGCTAATTGCAGTTTGTCTCCCAAAATATTTTCCCAGAAGCTTTTAATTAGTTCAATGTGTATACTATATTTTACTAGGGGTCATG
GTGTATTTAACCAATGAAAATATTAAAAATGAAACMGCGGCCCGGCGCGATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATC
ATGAGGTCAAGAGATAGAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTGAAAATACAAAAATTAGCTGGGCATGGTGGTGCATGCCTGTAGT
CCCAGCTACCCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGTGGCGGAGGTTGCAGTGAGCGGAGATCACGCCACTGCACTCCAGCCTGGTGACA
GAGTGAGACTCGTCTCAAAAAAAAAAAGAAAAGAAAAAAAAAAGAAACAGCAATTTAATAAATGTCATTTTTTGACATTGAATATTAATAGGTCAATGAG
AAAATATTTCTTAATTATATTAGTTGTGTGCCCAGCATTGCCAATATACTATTAAATTTAATTCTATCCAAAGGATTAATATTTGCTACCTAAATTAAAA
TAGTTAATTGTGTTATGTTTTGTGTTTTCTCAACAGATTGGATTCTTCAAAAGACCACTGAAAAAGAAAATGGAGAAATGAAATATTTTAYGAAAGAAAA
TAATAACAATTATTCAATAATCTATCCTCAGGTTTGCCTCAAATATGTGACAAGAAATGTATAATTCATGACATAGTCATGTAACTATGTAATCCATCAG
GGATTCATTACTTGGAAAATGACAGGTCATGCATTATCCAAAAACAATACCAAAAAGACATATTTTATAAAATGACAAAAAATATTTTACATAATTACTC
ATTTTTGTTGAGTAAGCAAAATTACAAAGTGTTTTTAAAAAAACCTGTACAAATATGTTTATGTATTAAATCACCATCCAAAATATTTAAGGAATATATA
AAAAGATTTTTATGATCATAGAAACATCTATTTTCAAAACAATATAAATTAAGCTTTTCCCCTTGATTCCTGTTGGATATCCATGTTCAGCATGACAGTC
AGCACTCGTAAATGCCAAGAAAAGAATTACCTGAAAAAGATCATTTCTCCCTATTCAAATGAGAATATTTTCCCTYGGTAGAATCCATATACAATATGGA
TTGAAAATTAAGTCACSAAGAATACATTTAGCATCTTTGTGTTGGGTTCTATACCTAAAAATTTTCCCTCCCKGCCCAAGGTGATTGGAAAGTACTGCAA
TTGRGCTAAAATTTTATCTAGGATGGAAAATCAGGATAGACTCGTTTAAAAACAAGTATATTAAATGGGTTAAATTAAGCTTTTACAGAACATGCTTAAT
TYTGATATTGAGCTCTAAATGCAAAACYCTTTTATACTGAAAAAACACTTAAAGYAGTTTTGTGTGGCATCACAGTGATTTGTCATGAAAAGCCATATAT
GGGGGACATGCTAAAATGGCTTCTGAATGAAATACGACAGCAGAGAAAGATGCCACTGAAATGCTGAAATTATCTTTGCTGAGCAGCTTTTGAATGCTAA
GGGTTCCAGTATGTGACCCAAAGAARGAGTTGTCTCAACTCCTTGGTACAGGGTTCATTCAAACCCCCAAGCTGTGAGAGTGTGTTTATTTTTAATTTTT
TAAAAGGTATTTAATTTCCAACCACACTTCTTATTTTTTTGAAAAGACAATTTTCCATTTCAGTATTACATTTTACCAAGAAGTCACTGCTTTTTAGGTG
TGTTGCATCAATATTTAAATAAAATCCCAGAAATGTATTTTAAAGAATTTCAGGTTTGAAAACTCAAACCAACAGRAAGATATCACACCTTTGTATGTGC
TTCTTTGTTCTTGAAGTAGTCATTATGGTTCATTGGAATCTACTGTAGCATAAGCTCCTAGGTTGCTCCATTTCTTAGGAAAATAGCAATGAATGAATGT
ATAGTAGYTGCWTGTGTGAACTACTGCTGTAAAGTTTGCTGACATTTCTGCAACAACATTTCTCCATCTGATTTACCAGAACCTGTAACAAGACCAGAAC
ATGTATTYATCCAGAAACTCCTGGGCTCTGCTTTGTTCAAAGAGGAGCAAATCCACATAGAAATTAAATGTTATAAATTTATTTTTTTAAACTAATTTCC
AAAGAATTTAGCTGAAGACTCAGAGTCAGCCTACCTCTTGACTCTCCACATCYGCATCTAAGATCCTGAAGGCCAAAGGAATGYGCCTGTGGGATGCCAA
AGCCATCAGTAGCTGGAAGAAAGAATACCTCTTTCTAGAGGTTTGGTGTCCTCTTGCTGGCCTGTCATTATTTGGAAATACGCGCTTTTGGAATTTCCTT
CATTTTCGCTATTTCCAGGTTCAGAAATCATACCTACCACTTGTTCTTTCTTTGCCCAGTAAAACTCAGGGTTTCTCTTATTCAGAGTTACCATGTTGCA
CACCCCCAGTGCTCAGCCTGCCCAGAAGCCCTTCTCTGATCTCAGCAAGATCTTAGTAGTAAAGCTAACGGATCCATTGAAATTCATACTCAGCATCTGT
GACTACTAGACAAAGCCCATTTACTGAACCATAAGTGTGCACTTTTAAACTAAATTRTTAACTGAAAGGGAAAAAATAGAAATGAGGGCATTTTGAAGTT
TTTAGAAAAGAGAGGAAGAGCTGTTGGCCAGATCAAAGAGATACTTATAAGCCCGGCACAATTTTTAACATAAGTCATTCCTGGCTATTAAGTAAAATAT
TTCATGAACCAGAAGTCCTGTTTCTCTAATATTATAATTTGTTGAGGTTTGTGTGTGTGTGTGTGTGCATGTGCAGACACATGTACACATATAAATTGAA
TACAAAAATAGCTCTATAACACCAAAAAACAGAGTTTACAGAAAATAAACACAAAAGCTATATCTGCAAGACAAGTTTGATTCATCTAGTTTCATATAGT
TTCATATAGTTTCATTTTTATTAATATTTAGGTTTAACTTATAGTTCTGCAATTATTTAAAAAACAAGTACAGAGCGTTTGATTAAAAAAAGTCAACAAA
TGTTTCAAAACAGCTTTGTACAAATGTTATAAAACATATTTAATGATTAAGAAATGTACTAGACTCTATCATTTACTTTTAAAACATTTAATTAGAAAAA
CAGGTGATATTTAAGACTATTTATAAACTTATTGGCYAAATTGCCAAAAAGTTTCTTTTTCTCTAACTTTGGTATTCTAAATAATTGATTATTGCTCCCA
TTGTAAACTGAACCATGTATGCACTCTCTTTTCTGACCAAACTACAATGGTATATTGGTAAATTATTTAACAACACACTGTCCAGGAGGGAAAAAAAAAA
CAGTCTCTGATTTGTATCATTTGCCAATTTCCATGGTCCAAATATTCTCTCTCCATTTTCAAACTACCAAAGTGACCCTAATCAGCTTACAAAATTCCTG
GAAATGTATCTGCCACCTCTTACCAACCAGTGTGAGCTGACTTCAGCACACCACTGAGACAGATTACACGATAGACAGATAGATAGATAGATAGATAGAT
AGATAGATAGATAGATAGATAGATATTGATAGAGAACATGTTGTGTCTATATAMATATCCAATGACACACAGTATAATCATGTTTTAAATTATGCCAAAA
GTACTGATTATATCAAGCCCAGTAAACATAATGCTACACAGCACCCATTCTTTAATTTTGATTTCTAAAATTATAACCTTCCTTTGATATTAATAAAATG
TTATGAACTTGCAGGAGAAGGAAGGAGTTGAAAGAAGGAAAATATAAAGGGTGATCCACAGTGAAAATCAGACCTACACAAGCCACAAAAAAATTGTCTC
ATTTTCCCAAGGAATTCAAAGTCCTGTGATACACATTACAAAAGATGACACTTTGTAAATATTTTGAACTTCTATGATCCAATTTCAACTTCATTGGTCC
AATTTGTCAAACTATTTTCCTCTGAGCACTAGATTCATGGGCAATTTAATCTCTGAATATTTTCTGTGTCATAAGTGTGCTTGAAAAGAGGCTTGTAGTA
AACAGATATTTTTACAAAATTTGATGCTTCTGCAACCATAATAATTTTATCTATAAATGCGTATATACATATATATATATATATWCACATACACTCACAT
GCAGATATTTACATATATAGATATTCTCTTTTCCTTTTATAAAATCAAAGTCTAGGCTCAATTGGAAAATGGAAATATTTGCACCAAAAGAAAAAAGTGC
CATTGTTGTGATCAATGGAGTAAAGCTGGGGTATAGTAGAGGCTGGGGAAKCCCTGCCCATGTTCTCTCCAAGGCCACAGCTTGCACACCGTGAATGGTG
GCCCCACTGGCTCCATGGAGTGTGCCTTCACGCGGGGGAATGTCCTTGTCCAACACGCTGTAATCTACTCCATGGGAACTGACTGTCCTGCTTTTCACAA
CATTGAGAAACAGGCCCAGAGCCTGTCTCATGTGCCAGGTGCAGTCACATTATTGTTAAAATAAAGTGGCTTCTGACAAATCAGTTYTTCAAAATAGCAT
CCTATGTACTTTTCATTTCTTCCAACAACCCTCAGGCCCCCTTTTGCCAGTTTTCTCCCCCAGGGGRGATTTTCAAGACTACTGGAGAAAAATCTGTTAA
TAAAACATTTGCTCTGAGTACCAGCTTCAGTGACTCAATCATTTATACAGGATTTCAGTGTTTTGTTCTGCAGCGGTGTTCTAAAGGGTTCACATAGTAT
AATGGAGGAGGGACAAAGCAGAATATACTTCCAAGCTGGAACATCTTTAAGACATTTACAAACTGTTATGGGACACTATCAGCAACTACGCCTGBGGAAG
CTAGCAGGATTTAGCTCTTCAATGGCCCTCCAAATGCACCCAACAATCGCCAACCTCACCCATGGAAATCATCTAAAAAATGAAAAGAAGGGCCTTAAAG
TCCTCACATGGATGCTGTATTTATAACTAAAATGTACAGTTTAATTCTAAATAGCAGGCTTTTAAATGCAAACAGCTTCCAGGTGAGTCCTCTGGCTGCC
AATCAGACTGCTGATTCTAAACCATTCTCACACAGAATTTCTGAAACCAACACCAGGTATTAATTGTTAACTGCAGTGAAAGGAAACCAAGGCACATTAC
AAAAGGCTAAATGCTGCTGTTTCTAAGTGGAAGCACTGTTGAACAACACTCTTAGGTGGAATAAGAAAATTAGGGTTAAACTGTAACAYTGTAATCGGAC
GAACAAATCAGCATCTTTGATCCTCAGGTTAAAATTTAATCTTAAATTTAGAAATTCAAAGTAACAGCCTTTAACCATTAACCTTGAGGAAAATGTGAAG
TAGCATCTGGAGTCTCTTAAGCCCCAGCCCTGTTGTCCCCTACAGCATCTCCACCCAGGAAGTCCAGTTCCTAACTAATGGGAATGGATCCTTTTCCCAT
TATAAAGGGCCGATGCTTAACCCTTGAACCCACTACTGTTCTTATGCCCCAAGATCTGCACCTTACATCAGGCACCCGGGAATGCTTCTCATTGAAATTT
TACCATACCAAAAAATATGTAAGGGTGACTCATCACYCCTAACTTTGGACTCCTTGCTTTGAGATCGGTATTTTTTTCTCTCTCTTTACATATAGCAAAA
GCTTTCCCCAGTAGCTGATGAATTTAGAACTTTATACAAGACTCCCTAGCATTTTCCTCCTCCCACAGGCTGGAGAATTTCAGTGCTATSAGACTGGGCA
GTAGGAGCCAGAGCCAATTTGCAGGATCTCTTTTCCTTCTGCCTTCCAGTTGGCTTCTCTTCTCAGCTGCGTGGTGGGGATGATTTGGGGTTTCCTCAGC
AAGGCCATTCTCTGCCTTGTGCCCATAGCAGGGCCTTGGGTGGTGACATGTTATCTTTGTTGGTGAGCAGACACTCAGAGATCCTTTAATTATCTGACAC
ACCAGGGAAATCTTGGCAATCAACTAAGGACCTGTGACACTCATAACTATGWTTACATTTGGCTTTAGCATATTTCAGGTAATATCTTTATGAAAAAAAG
ATGAAGTATGGAATTGTAGGAACTCTTTTGCAATAGACTGAGATCCAATGTTTAAATCTTTTTATTTCAGTTTGATCTGTGCCTTTAGATTGGGGACAAA
ATTTTAAAAACAAATCTTCCAAATGACACCACAATGAAAGCCAGTTGTGGTCTTGAAAAATCTCTCTATTGCATTACTTATCCTCACCCTTGTTTTTTAA
GAGGTAGAGAGAGATTACTGGGAAGCAGTKAGCCAACATAATTGTCCTTTCCTCTACAGAATAGCTGTGCAGAAGGGGACCACCACACTTAGGACCAGTG
CCAGGTGACAATCTTTCYGTCATGCTGCTGCAGCATTTTGCACCTTGAGAGACAGGAAAAAAAATGGGGGTGAGGGAGTGGAAGATGATGAAACTATTTC
TCTTTTATGTCTACATCCTTACTCCTCAAAATACTTTAAGCTCACTCAGACCCCATATACCCTGCCCACAATACTAACACATGTACTTTGCATAAGTAAA
TTGTTGATTAAATAAGAGCAAAACTATATTCTTATGTGTAGATTAACCAAGGCTAATTTCCTGGAGTTTAATACACTTTGGATTCAAGTAAAAACAATCA
CTTAATGCAGCAACATCTCAGACCCTCTTCACTCTAGAACCRTTTTATACAAGAGAACTCAACATTTACTGTTTTATTTCTGATATTGCCTGCCATTACT
CAGGATGCAAGAGATGCTCTGCATTCCTTATTAGGAAAAATTGGCCTGTAAGGAGAATGGTATACTGYGTATTACTACTGTGAGACTGTAAAATTGTTAA
TGGACAGTGTAAAGAATTGTATTCATTTTATTAGCAAGAAAAATATTGCATACAAGAACTACTGCCCTGAAATATCCATCACTCCAATGAACTGTTCTGC
CTGATCTAACATAAAGTTATATTTCATTGCTCATTTTTTTTTGCCTCACTAAAATGACTAACTTAAGGGAATGTGCATTTCTACAAGACTTTAATTGGAT
AAACTCATTAGAAGAAAATGTTTCGATTGCATTCAGGAACAAAGAAGCATAACCTTTGTTGACTCTTGTAATTTATTATATGCTTCATTTAAACCCATTT
TGTAAAGAAATCAGGTAACAGTCATTTAAYCTGATATAATTAGAAATAGCTGAGAGAGTAAAAAAGCATTTTGAATGTCCTATGTATGGCATATCCTGTA
CACCAATTGAAGGTCAGAGCTTTGGTATTTTTGTATAATTCTGTCTTATCTGGTGCATCAGCTGTGTATTTTACGTCAAGGTAAATGAGCATCCTGTTTT
ATATGTTAAATTTTAAAAATGACKTTTTCAAAGAAGAATGTGATTGCTGTGATTTTTAAGTGTGTATATTTTTTCCAAAATTAATGTGACTTCTTCTGAA
GCTCCGACCTTTTTTTTTTTTTTTTGATGCTTTGGCAGGTTTTCACTCTAATGCTCTAAAAGGAAAAAGCAAAAAGTAAATTAAGTCTGTCTGTGGTGTT
TCCTGTACAAGATTTAGCAATGTGATTAGTTTTTTTGTGAACTTGAGACAAAAACCACAGGATCTATAATACTATATATCTTCTTCTAATGAGATGTTTT
AATAATAAATAGTCTGCAGTATAAACATAGATTATACCACATAGGTGATATAAAAAAAATCAAGAAATTTAAACGTAGTTATTTTCTTTATTCAATTTAT
ACTTTATTATATAAAATTATTTAACATATTAGGGCTAGAAGAAAATACAGGAAGAAGTTTTAGTAAAAATAACACATGGTCATCTTATTTAAAATTTCAC
CCTCAAACTATGCTGTGGGGTGAGTGAGAAGCTATTGTTACAGAAGACACAGACTGAATTATGAAGGGGTTATTTGTCAGGTCATCTACCTAAGTTTTGG
CAGAGCACATTTTCACTGCCCTATCTTTTCTCTCTTACTGTAAAGTAAGTGCTTTTTCTCTCTCTTCACCCCTTATCCAGGAAGAGAATACAGTGGAGTT
ACTAAGGAAGAATCTGGATATATTCACTGGAAAATAAATGGTATACCTCAAGATTTATTATTTGTACATCCAGAGAATATCACAACATTTACTTCCTTAC
CTTCATTTACTTTGATTATAAAAATAATGTGATCCGCATAGGCAGATGTCAAGTGTAATTTCACCAAACAGAAGTGATCATGAATTAAGAAGACTGAAGA
TTATGTCTATTTATTCTTTATAACAGCAATATTATTTTAATTGCTTAAAAATATGTGAATATTAATTGTTAAGAAAACATTTATGGTAAAAGGGGGATGT
ATACACATGTAGATAATTTGAAAACCACAAGAAATAATTTTAAAATAGCCATCATACCAGTACCAGAAATTATATGCTAAAAATCATAAAGAATATAGTA
CCCTGTACTTTTAAAAACTATAATATTATATTTCTTAATTTTTCTCTAGTAAAAAAAGGATGATGGTCATCAAATACTTTCCCTTGCTTTGAAGTTGACA
ATAAGGAAGAAAATTACCCACTCGCCTCCTTCTCCTTCTGAGCCAATAACTGCTATACACATACACATACACATATGGCACACTAGAATTCTCCATAGTC
TGCATGGAGAATAATTACTTCTTTACCTACTTCTTCAAGCAAAAGTGGGATGGGGCAAAGAGCAAAGAGTGATGGGGGAAAGATGGGTAAGATAATGTCA
CTAAGAATGATAGCATATTTGGCCTTGTTTATTATGCAAACCAACTATATTATTTTATTAATAATCCCAGAGAAAGAAAGAATTTTTGCCAGAAACAAAA
GACCTGGCATCATTACAAGCATTAGCAAAAAAAAGACAGTAAATAAGGAACAGAGGAACACATGAGACAGGAGACATATAGAAAACAAACAGCAATATGG
CAAATATAACTCTGGCCATATCAATAATTACATTAAAGGTAAATGATCTAAACACCCAAATCAAAAAGCAGAGATTTTCAGACTGATAAAAGAATAAAGT
TGATCTACATGCCCTCTAAAAGAGAAAGACTTTAGCTTGAAAGGTGCAAGTGGGTTGAAAGAAAAATGATGGAATAAAAATACACTACGCAAATAGTAAC
CATAAGAGAGCTGGAGTGGCTATATTATATCAGACAAAATAAACTTTAAGATGTGTCTAGTTCCAGGCATAGGAAGATTCTAATCTTGTGAAGGAGACAG
GGACCCATGGAAATCTGCTAAGCATGTAGATATTCTAGATTTTTGCTTGGATTGACTTTGATGTCCTGTAGATTTTCAAGGACCATTGACACCTGAAATA
AAACTCGGATGAAGGAAGAATCCATGGAGTCACCCCACTTTGAAATTTGTCTTAAGTTCATGTGTAGGGGGATCCCTAACCTACACAGATTCTGGTTGCC
ATGGTCTAATTGCTACCCCAGTGGCAGGAATAATAGAACAGGCATCATAGTCCATAGGCACCTAGGCTTCCAAGCAGTTCACAGATTTTGGTCATGTGCC
AGGTCTCTAGTTAGTACTTCACTGGCAAGTGCTGGCTTGAATTAATAAAAGCAGCATTGAAATATCTGTGGGTTTTGTCTTTAGCTTCCACTTCACTCAG
CTATTTTTTTGTTTTTGTAGTATCTTTCAACTGATTGTGTGGCATGAATTCATTTAGATACCACAACTCAGAATGGCATTCCAAAGGCAAGAGTGGAAAT
GTCTCAACTTGGTAAATAAAAATAGCAACCAGATTCAGCCATCAGACGGTAATTAGTGGAGCTGGAAGCTAGCCATTCCAAGGACTAACTATCCTTGATA
AAACGCCCAAGGCTCTTTAGCTTTGCATGCTCAATCTCTCCTTTTCTGTTTTCTTCCTTCCTTTACTCAGATTTTTCTATTCTATTTCACTCAAGTACCA
TCTGTTATTCCTTTTCACACACTTTTCAGACCCTTCTTTTATTCCTGCCCATTCTGCATACCTCATCGTTAAAAGGCGGGTAATTCTACAAAGATTCCAA
TTAGTGTATTGTTTGACGGCTGATCAGGTTTTCCCCCTTTTAAGATGAACCACTGAATAAATGGTGTAAAGAATGTAGTCTTGTGTTGCCAACATCTTGT
CAGAATTTTTTTTGAAGTTTGAGTTCACTATTGTCCACTTGAGTTGCCATTAAGCATAATGTATATCTCTGTGTGAACATGTCTGAGCCCATATGTGAGC
AAACACGTGAATGAAGATTGTATTTTTAGATGGAAAGTCATTTGAATTCTGAAAGTGGCAGGACATGTAAGGCAGTAATACAGGGAAAGTAGGTAGTTTT
GAATGAAACTGATGGTGACTGGTGAAGTCTCCCAATTTTCTATGGGGAGGGGAAGAAAGGTAAGAGACTAACATTTGTTGTCTGCCTCCCACATGCCAGG
CATTGAGCTAGGCAATTTTCCAACATCAAGCCTTTTAATCCTATCAGCAACACTAAATGGTATTATTATTATTATTCCTATTATACAGATGATGTAATTG
AGACCCAAAGGACCTAAGGAGCTACTTCAAGGCTATAAAGCTAGTAAGTAGTGATGTAGAAATAAAAACCAAGATCTATCTGAGTCCGAAGCTGCTTCCC
CAAGGACAGGAACTTGAGAGGAAGTCACTGGAAGAGAAATGAAAACACAGAGGTAGAGGAGAACACACATCTATTTTGGTAGTACTTGGCACATAGTAAC
TTTCAGTAAATATTTGTTTATTGCTGAATGGATGCAAAAATTGATCAACTATATTAGTCAGAGATCTCCAGAGACATAGAGCTAATAGGAGATATATACA
TATATATGTGTATATAGGAGAGATATCTATCTTACACACACACACACACACACACACACACACACACACACACACACACACACATATATATATATATATA
TATATATGGAGAGAGAGAGATTATAAGGAACTGCTTCACATGGCTATGGAGGCTGAGAAGTCCCATGGTCTACGGTCTGTAAACTAGAGACCCGGGAAAG
CTGATGGTATAGTTCCAGTCCAAGTCTGAAGGTCCAAGACTAGGAGAACTGATGATGTAAGTGGTGGAAGAAAGCTGGTGGTGTAGTTCTAGTCCAAGTC
CAAAGGCCTGAAAGTCAGAAGTGCCAGTGGTATAAGTCCCAGTCCAAGTGTAGGAGAAGACTGATATCCCAATTCAAACTGTCAGGCAGAGAGAGCAAAT
TCTCTCTTACCCTGCCTTTTGTTCCATTCAGGCCTCCAACAGATTGGATGAAGGCTAAAAACACTGGCCATCTGCTTTCCTCAGTCTACCAATTCAAATG
CTAATCTCACTCAGAAACACCCTCACAAATATAACCAGAATAATGTTTAACCAAATATCTGGGCACCCTATGTCCCAGTCACATTGACACATAAAATTAA
TCATCACAAGTCCACCTCTGTCAACTTGTCACCCATACACATCTCCTTAAGCCATACTTAACCTCAAAATAAAGGCAATAACAAGGTCATAATTTCACCA
AACATGATACAATTATCCTGCATACCACTAAAAATGCACTAACCCCTTCCCCAGAAAAGGAGGCAAAGTCTTTGAAATTCACTCTTCTCCTTGATGTCTA
GTAACTGAAATACTATGATTGAAAATTAACAATACTTAACTATGATATAAAGTCAATACATCTGCAGTTACATGACAAAAGAATCAGAGAGAGTGAAAAT
CAAAGATATTTTCTTAATACGTACAAATATAATTATATTTAAAACATATTCACATTCTAAACAAAATAAGGAGGACTATTCATAACAATTACAGTCCTCT
TTTTTTTGTAACTGGTCACTTGTAGCTGATACTTACAGCTACCTTCTTCCACTAGCCACTCTATGTTCCTTTTCCCTTCAGCAAGCTCCTTATTTGGTCA
TGGTTCTTCACCTGGTAGAATGACCCAAATCTTCATTCCTGAAGAGTCTGAGCCATTAGTAGTCCTTCCTGGATTGGGCTGTTGTAGCTTTCCATTGATT
ATAATCACAAGGTAAGGTAATACTCAGTGACACACTAAGGGATCTCTTGGAATTCAAGCATGTTCTTTCTTACCTCAATTGTGGAGTAGCAGTTGAATTT
CTCTTCTGTAGCGAGGATCAGCCACCTCACCCAGTATAATATTATAACTCACTTCTTTGCCTATTGATTCAGAGTCATGAGAAGCTCAAAGGGGCCAGGT
GGCAATCTTAATTTCCAGTTCAATGGAATCATTTTTGTGTCTCCTGGTGGGAGCATTCTTCCCTTAGGAACTGAGATCCCTAGGCCACCAGAGCATAAGG
TTATGAGAACAGAAAGCAAAAATTTTGTTAGTGGGTCCCTGCGGGTAATAGTGAGTGGAGTCACTCCTATTTCCACCTTTGATTCCTGGACTCATGAATC
CTAGTTATTGGAGAAACAGCACCATATACTGGACAGTGATTCAGAGTATATTCAGCCTTGTAGAGAATCTTGTCCATGCCCTCTGATGTACTGCCACCTA
GCTGGTGCTATAGCTGAGTCTTCAGAAGGACATTCCACTGTTTCATCAGACCAGCTGCTTCAGTATGGTGGAGAACATGGTAAGACTAGTGAAGTCTATG
AGCCTGGGCCCACTGCTGCACTTACTTTGCAGCAAAGTGAGTTTGTCAGTCAGAAGCAATGCCATGGGGAATACCATGATGGTGAATAACGTTTTATAGT
TATATTTTTCCAGCTCACTTACATCTCTTTGGCAAGGAAATCATGAACATACAAAATGATCACTAATCATAGACTTGAACCCTTGGAGGCAGTTGAAAAA
TCACCCAGTACTGGAAACTTCTTTACAACATCCCAAACAGTGAAACCTGGTCTATGCTTGGGCACTTTCAACCGTAAGGTCCTCAGTATCCCAGCTGTAG
CTTCTGTTCTGCTTTTGTGAAGCACTAGTTATTTGAAAGTATATCTTTCATTTCAAATTCTAATATTTGCTATGCATCAACAAAAGTCTCTGTATTTATG
TAAGTGTTCTTTAACCTATTAAGTATAACTTAGGGCAATGAGTTCCATAAACTTACTACCTATCGTGCAAAGTAAGATTTTATTTAATTTTTCCATTTCC
TTATTAATTTAAGATCTAAAATCGCCTCTCCAGTTAATGTCTCTCAATGTATTTACCCTCTACTAACTGTCAGAACTCTCAAACCAGTGTTTTCATTCAT
CCAAAACATAAAGAAGCAGTATTAGTAGACTGTAATATTAGGATAAAATATAGCAATATTAGAATTATTACTATATAGCCGGGCGCGGTGGCTCACACCT
ATAATCCCAGCACTTTGAGAGGGTGAGGCAGGTG


SNP Information

Context             (SEQ ID NO:26242):
GTCCAGTTAGCTGAGTCATGAATGTAAAGGAGAAGTTCTTGAAGAAAATTAAGTGCTACTCCAGTGAACACATGAATGATAAGAAAGCAAAGCAGCCTTA
K
TGCTGATATATAGAAAGTTGAGTGGTCTGGGAAGGTCAAACTAGCCACAACAGTCACTTAAGCCAAAGCCTAATCCAAAGCAAGATCCTAACTCTCTTCA
Celera SNP ID:            hCV2840476
SNP Position Genomic:     44284
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26243):
AAAGAATTTAGAATATTCCATAAACTTAGACGATAAAGCAATGTCAGGATTTGAGGATTGACTCTAATTTTGAAAGAAGTTTTTCTGTGGGTAAAGTGTG
R
TACAAAAGATGCTCAACAGCATTAATCATTAGATATTCAACCGTGGGTAAAATTGCATGCTACAGAGAAATATTTTGTAAAATGAAGAGTCAATTGATGT
Celera SNP ID:            hCV2840477
SNP Position Genomic:     45615
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26244):
GGTTCCTGGCAATCCTTAGCATTGCATGGCTTCTTGACACTTGATACTAATCTCTAACTTTGTCTTCACATGGTCTTCTTTCTCCCTCATGTTTCTGTTT
Y
TGTATCTAGGTATCTTAAATACTCCTCTCCTTTCTCTTATAAGATTACCAGTCATTGAATTTTGGCCCCACCATAAAAAACAGGATGATCTCATTTAGAC
Celera SNP ID:            hCV2840478
SNP Position Genomic:     47044
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26245):
TTAGCTGTCATACCTAGAATGACTGTTCCAGATAACCAGAGTTTTACTATGCCTTAATAGTCTCAGTAATAAAACTCAAATAATTGTTGAAGGATGAATT
W
TTGTTAAGGAAAAAAATCCCAATAGATTTTAGTTGTACAATTTATTCAGAGATAGGAGGTCCTTCTGAGTTCAAGTCTACGTTCCAGAAGTTTTATGTCT
Celera SNP ID:            hCV27845541
SNP Position Genomic:     26456
SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,25)   caucasian(A,5|T,27)   total(A,12|T,52)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26246):
TGGCAATCCTTAGCATTGCATGGCTTCTTGACACTTGATACTAATCTCTAACTTTGTCTTCACATGGTCTTCTTTCTCCCTCATGTTTCTGTTTCTGTAT
M
TAGGTATCTTAAATACTCCTCTCCTTTCTCTTATAAGATTACCAGTCATTGAATTTTGGCCCCACCATAAAAAACAGGATGATCTCATTTAGACATCCTT
Celera SNP ID:            hCV2840479
SNP Position Genomic:     47050
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,6)      total(A,3|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26247):
CCCCGCGCCCGCCCAGGGGTCGCTGTCGCCTGCTGCTGGCTCCTCACTGGTGAGCGACTCGCTTTTCTCTGAGCATCTCCTGCTCGCGGGCTTGGGGCTT
R
GAGCGGGGAGGGAGGTCCTCAGAGCCATGGGCCAGATAGGAAGAGAGAGCGCCCATCCACTTTCCGGCATTCCAGGTACTCAGGCCAGGCTACGGGGCAG
Celera SNP ID:            hCV25474604
SNP Position Genomic:     6550
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(G,34)   total(A,10|G,60)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26248):
GTGACAGAGGGAGAACAAGACTCTGTCTCAAAAAATTATTATTATTATTATTATTATAAATACAAATGTACAAAGTAATCTTGGGGAAAATATTACCACA
R
AATTTTTCTCTAGTAAAAATTATTGCCTGTATCCTCCTATGCTGACTTAATGGCCTGGCAGAGAGGCATAGCTAAAAAATCTGACAGTGCATCTCTTCTG
Celera SNP ID:            hCV16168590
SNP Position Genomic:     144802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26249):
GATAATTGCTTTTATTAGATTGATTTTGAAAGAATAGAAGGAATTTTTTACATTAGTCCTCACCAATGGTGAAAGTATTAAGCTTTTTAAAAAAGTTTTG
Y
TTTATTTATTCAAATATGTATGTCTTTTCTTAGATTCTGTGTGAGAAAAGGATAGCTCATGTATAAAAACTGTATGTTTCATAAAATCCTTAAACCACTG
Celera SNP ID:            hCV16168592
SNP Position Genomic:     143782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26250):
TACCTCATTTGAATTTAGGACCAATGGAAAGAAATCTCCCCCATTATTCTAATAAGCACTGGATTGCAGTGTATGGTTTAGGTATAAAGGGTGTCCTCAC
R
CTGAAGCATGGACTTAGACCACCAGTAACCACCTAGGTCATCAGCAGTGCTGATCCATCTCTGTCCTTCTTCATGGAGCCCACCTTGTAAAACTTGTCAA
Celera SNP ID:            hCV16168593
SNP Position Genomic:     141939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26251):
ATGATAATTTTGAAAAATATATAATAAATTTCATTAAGAAATATAAAGGAAGGGTTTCATAAATAAAATCTATTTATGCCAGGTGACTTTATGGGAAGTC
Y
GCATGTTGATTCTCCTAAATTAATGCATTGGTTTACTGTAATTCGGGTGGAAACATACATCAATGCTCTTTTTCCCAAAAATCTACCTAGAAGAGTAATA
Celera SNP ID:            hCV16168594
SNP Position Genomic:     134506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26252):
TTTTCTGTTATTTTTTGACTTCTTAATAATAGCCATTCTGACTGGAGTGAGATGGTACCTACCTCATTTTGGCTTTTATTTGCATTTCTGTAATGATTAG
Y
GATAATGAGAGTTTTTTCATATGTTTGTTGGTCACCTGTATGTCATGTTTTAAGGAGTCTATTCATGTCCTTTGCCCATTATTTAATGTGGTTATTTGTT
Celera SNP ID:            hCV11588891
SNP Position Genomic:     159658
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26253):
AAGTTCTTTAGCCTCTTAATCAAATAAAAACAAAGGGGAAGAAAAACAAAGCAAACTGTAAGATGTCCTTAATTGATGAGCAATTAACTTCCACAACAGT
R
TTTGTTCACTTTGATACCTAGAATTAGCCATAATGATTATCCAAGTAACAAAACCATTTTGCTTTTATTTACACTGAACATTTATATACCCAAAGACATG
Celera SNP ID:            hCV11373163
SNP Position Genomic:     97522
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26254):
CCTGTCCTGCATGAGTAGGAATGCAGGGACACAGTTGACAGCTGCCTTAGATCCAGCTCCCAGAAGCAAACCCTGAGAGGACGATTCACATGATAGTGAT
W
TATTTGTGAGGAAGCATTTCCAACAGAAAGCAGATGAATTGGGGAAGCAAAACAAGGTATCAACAGAGGACAAAGGAAAGTGTAATTTCAAGTGGAATCC
Celera SNP ID:            hCV11373164
SNP Position Genomic:     96069
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,7)      total(A,7|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26255):
GACTACATCAACTGACCATCTCAAACGAGGCACAATTCTGGTAAATTAAGACAAGTGCTATTTTTACCTTTTGCTTTCCAAATGAATAAAATTGATATCA
W
TCTAGAAATAACCATCTGAAGAATTTAAATATAGATATTTGATAAAACGGCAAGAATACTGATATGTATCTCTGGACATTTAAACAGGACTGCAATACAT
Celera SNP ID:            hCV11588893
SNP Position Genomic:     157881
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,23|T,9)   total(A,58|T,10)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,32|T,2)   caucasian(A,21|T,11)   total(A,53|T,13)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,7)   total(A,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26256):
AGGAAGGAAGGAAAAAGAGAGAGAAAGAAGAAAGGGAGAGGAAGAAAGAGAAAGAAAGAGAAAGAGAGAGAGAAAGAGAGAAGAAAGAAAGAAAGAGAGA
A
GAAAGAAAGAAAGAGAGAGAGAGAAGAAAGAGAGAGAAAGAAGAAAGAAAGGGAGAGAAAGAAAGACAGAAAGAAAGAAAAAGAAAGAGAAAGAAAGAAA
Celera SNP ID:            hCV26092530
SNP Position Genomic:     52697
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26257):
GTCTAGAACCAGCTATCTTATAAATATAGCATTTTAACATAATATATTAACATCTATAGGGCTGTCTGCTTACGTCTACCTCCCATGTAGACTGAGTGTC
Y
TATCCTTGGTGTGTAGGGAATCAAAAGTATTACTGGATGAATACATAAATACAGATGAAGGTCTCTCGCTTTTCAATTGTTTCATGAGCCATAATATTGA
Celera SNP ID:            hCV11588894
SNP Position Genomic:     156909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26258):
GAAGGAAGGAAGGAAAAAGAGAGAGAAAGAAGAAAGGGAGAGGAAGAAAGAGAAAGAAAGAGAAAGAGAGAGAGAAAGAGAGAAGAAAGAAAGAAAGAGA
G
AAGAAAGAAAGAAAGAGAGAGAGAGAAGAAAGAGAGAGAAAGAAGAAAGAAAGGGAGAGAAAGAAAGACAGAAAGAAAGAAAAAGAAAGAGAAAGAAAGA
Celera SNP ID:            hCV26092531
SNP Position Genomic:     52695
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,4)   total(G,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26259):
AAAAAGAAGGAAGGAAGGAAAAAGAGAGAGAAAGAAGAAAGGGAGAGGAAGAAAGAGAAAGAAAGAGAAAGAGAGAGAGAAAGAGAGAAGAAAGAAAGAA
A
GAGAGAAGAAAGAAAGAAAGAGAGAGAGAGAAGAAAGAGAGAGAAAGAAGAAAGAAAGGGAGAGAAAGAAAGACAGAAAGAAAGAAAAAGAAAGAGAAAG
Celera SNP ID:            hCV26092532
SNP Position Genomic:     52690
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26260):
CAAGTACTTTTGGGTAGAGGACAATATATTTGCTCTAGCATGATGAAGTCCAGTAGGATATTGTATTTTCCCCACATGGTGAGCTGCACGTCATATTTGC
M
CCAGTGAAGATGCAGAACCTTGAAAAAAAATTCTGTTGCAAAAGGAATAGGTTATGGAACCCAGTCAATTCTGGAGCAGAAATTACATGTTTGTATGCAG
Celera SNP ID:            hCV15968120
SNP Position Genomic:     137148
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,322|C,1175)   total(A,322|C,1175) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26261):
GAAAAAGAAGGAAGGAAGGAAAAAGAGAGAGAAAGAAGAAAGGGAGAGGAAGAAAGAGAAAGAAAGAGAAAGAGAGAGAGAAAGAGAGAAGAAAGAAAGA
A
AGAGAGAAGAAAGAAAGAAAGAGAGAGAGAGAAGAAAGAGAGAGAAAGAAGAAAGAAAGGGAGAGAAAGAAAGACAGAAAGAAAGAAAAAGAAAGAGAAA
Celera SNP ID:            hCV26092533
SNP Position Genomic:     52689
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26262):
ATATATTCATTCATTCAACAAATTTTATTAAACACATCATCTACCAATGAATCTATGAAGATCAGGTACTTTAGCAATATAGAACAATGTACAATAACAC
R
TAACATAAGACAGTCCATGTGAAGGCAGTTCATTCCTGGTGTGGTGGCTCTATTGTCAGCATAACCCTGTGTTACTTTCATCTTTCTGCTTCAGCACCTA
Celera SNP ID:            hCV16020891
SNP Position Genomic:     52172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26263):
TGCACTCACTTTGCACTCCCAAGTTGATGACATTCATTAAATGTAAAAATGTGTGAGTAATCCCATTGTTTTTGTTTGTAGGTCCCGAGATGTGGCCGTA
R
TTAAAGTGACCATGAATTTTGAGCCAAATAAAGTGAATATTCAAAAGAAAAACTGCCATATGGAGGGAAAGGAAACAGTATGCATAAATGCTACAGTGTG
Celera SNP ID:            hCV15968121
SNP Position Genomic:     136881
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,1|G,35)   total(A,3|G,71)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26264):
ATATTATAGGTATCGAAAAGACCCTTTTTATTCTGGCAGAAATATATAAATCTGTGTGTGTGTGTGTGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTG
K
GTGTGTCTTCTGGTGCTATTTCTCAAAAGAGTTTTTTTTTTTGGTAGATTTTTTTTGGTTACTTTTTTATTTCATTTTGTTAAGCCATCAAAAGCTTTGA
Celera SNP ID:            hCV26092534
SNP Position Genomic:     50910
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,5)   total(G,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26265):
CAGATTTAAATACTGAAAAATATTATAGGTATCGAAAAGACCCTTTTTATTCTGGCAGAAATATATAAATCTGTGTGTGTGTGTGTGTGTGTCTGTGTGT
S
TGTGTGTGTGTGTGTGTGTGTGTGTCTTCTGGTGCTATTTCTCAAAAGAGTTTTTTTTTTTGGTAGATTTTTTTTGGTTACTTTTTTATTTCATTTTGTT
Celera SNP ID:            hCV16020893
SNP Position Genomic:     50891
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26266):
TTGGAAGCAGATTTAAATACTGAAAAATATTATAGGTATCGAAAAGACCCTTTTTATTCTGGCAGAAATATATAAATCTGTGTGTGTGTGTGTGTGTGTC
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTTCTGGTGCTATTTCTCAAAAGAGTTTTTTTTTTTGGTAGATTTTTTTTGGTTACTTTTTTATTTCA
Celera SNP ID:            hCV26092535
SNP Position Genomic:     50884
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26267):
CATAGGTAGGACTGTAAGAATGTTTTAAATAAATCCTAATCATTTTACCAGAGAGTATACCTTAAAACAAATTTTTCTGGCTTTATTTGACAGGTTTTTT
W
AAAAAAATAACTTAGTCATTTTTAAGTTGATTGTAGTTCATCCAGAAAGTTACTCCATGTTGGTAAAAGGTTAAAAATTAAGAGAGTCCAATTTTTGAAA
Celera SNP ID:            hCV26092536
SNP Position Genomic:     48584
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26268):
TGTATCTAGGTATCTTAAATACTCCTCTCCTTTCTCTTATAAGATTACCAGTCATTGAATTTTGGCCCCACCATAAAAAACAGGATGATCTCATTTAGAC
M
TCCTTAACTTAAATACTTCTGTAAAGAACCTATTTCCAAATAAGGTCACATTTACAGATACCGATACCGGGGATTAGGACTTAGACAAATTTGTGTGGGG
Celera SNP ID:            hCV2840480
SNP Position Genomic:     47145
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,10)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26269):
CAAACTTCATGGTTTTATTCTATTCTGAGAAATTGCCAGAGCCACTGCAGCCTTCAGCAACCACCACCCTGCCCAGTCAGCAACCATCACCATTGAGGCA
R
ACCCTCCACCTGCAAAAAGATTATGACTCACTGAAGGCTCAGATGATTGTTAGCGTTTTTAATCAATAAATTATTTTAAGACTAAGGTATGCATATTGTT
Celera SNP ID:            hCV26092537
SNP Position Genomic:     45818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26270):
ATTCAGCCCACTATAATGAACATATATTAGGCTTCAGTTTTTAAAAGATGGCTTTAAAAAACAAAATGGAAAACAATTTTACTGGTCAGATGTGGTGGCT
Y
ATGCCTATAATCCCAGCACTTTGGGAGGCCGAGGTGGGTAGATCACTTCAGGCCAGGAGTTCAAGATGAGTTTGGTCAACATAGTGAAACCTGTCTTTAC
Celera SNP ID:            hCV2840481
SNP Position Genomic:     47353
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26271):
ATATTACTGCTCATTGGTGATATACCCAGTCACCCAAGAGCTCCAGTGGAGATGTACAGAGATAAATGTTGTTTCAATGACTTCTGATACAAGATTCATT
S
TGTACCCATCTATCAAAAAGTAATTTTGACTTTCACGTCTCATTATTTAAGAAATACATTTCATAAGACTATAGCTGTCATAGATAGTGATTCCTCTGAT
Celera SNP ID:            hCV26092538
SNP Position Genomic:     45015
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26272):
GTTTGGTCAACATAGTGAAACCTGTCTTTACCAAAAAAAAGTAATAATGATAATAAACATTTAACAAAAAGGAAAAAGAAAACTACTTTAGAAAAATGTG
R
TAGTCTAGGTTTCTGAGTCAAAATATCTGTAGGTTAAGGAGGAAAAAAAATTCACGGGATGCTCACCACCATAAAAGTTAGAAATTCTTAATTTTTGAAA
Celera SNP ID:            hCV2840482
SNP Position Genomic:     47523
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26273):
AGATTCCTTTCAAAATATTACTGCTCATTGGTGATATACCCAGTCACCCAAGAGCTCCAGTGGAGATGTACAGAGATAAATGTTGTTTCAATGACTTCTG
W
TACAAGATTCATTCTGTACCCATCTATCAAAAAGTAATTTTGACTTTCACGTCTCATTATTTAAGAAATACATTTCATAAGACTATAGCTGTCATAGATA
Celera SNP ID:            hCV26092539
SNP Position Genomic:     45001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26274):
ACTATTGAGCCTCAGCACCTTTGTATTTTAATATGACATGTGGCTGATGATCAACCTTGCTGGGTCTCATTTCATATATCAGTTAAATAAATATATGAAT
R
AAGTAATATTTTCTTCCCAAGAGTGATATTTGATTCAATAGATTAAAAGTTATTTGAGTCCCTAAACATAAAAAAGCCAGTAGGGTATAGTAGCTCTGTG
Celera SNP ID:            hCV2840483
SNP Position Genomic:     48127
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26275):
TACAGGGTTTGGCTTTGAAATAACTGACATACAGCAGAGGCACTCACCCTAACATACTTTCCATCTATACGCCAGGCAGGGCTGTCAGTTTGTGGAAAGG
M
AAACTGGGACCTCCCTCAGCTCTGCCCTCCTAATAAGACCATCCTGACACAAAGCAGCAATTATTCTTTGATGACATCACCACCGTCTTGCCCTTATTTT
Celera SNP ID:            hCV2840485
SNP Position Genomic:     48924
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26276):
CACATAATGAAGATGGTTCATCACTGCTTTTTATGTGCTTCATAGTGTGAGATAGTGGACTGGGAACTTGAATCAGAGCAAGAAAATTGTTTTCTGCTCT
R
GGTTTGGTCACTTAAACTAGCCACAGTATATTAGGCAAAATATTTCAACTGCTTGGGCATCAGTGTTCTCATCATTTGAGGACACTGTCTCATTAGATGG
Celera SNP ID:            hCV16101456
SNP Position Genomic:     40955
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26277):
ATAATAACAGACAAAAACTTCCAATTCTGGTCTTCTGTTAATCCTAGGTCTATTAAGAGAATGGGGGATGGAGGAACAATATGATTATAGCTGATACATA
Y
GGCTACTGACCATTAAGTGTCCATATTTTCTGCTGGCTGAATTATGCCAATTCTCTGTACAGCACCATAAAGGATCTACATTTGTTTGGGGATTCAAAAT
Celera SNP ID:            hCV15758352
SNP Position Genomic:     155321
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,341|C,1132)   total(C,1132|T,341) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26278):
AAGAGATTCCTTTCAAAATATTACTGCTCATTGGTGATATACCCAGTCACCCAAGAGCTCCAGTGGAGATGTACAGAGATAAATGTTGTTTCAATGACTT
S
TGATACAAGATTCATTCTGTACCCATCTATCAAAAAGTAATTTTGACTTTCACGTCTCATTATTTAAGAAATACATTTCATAAGACTATAGCTGTCATAG
Celera SNP ID:            hCV26092540
SNP Position Genomic:     44998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26279):
AATGGGACTATTTGAGAATTTGCCATGTGGAGGCCGTTTCCTGACCTTTTATCCTTTATATGCTAGAGTGCTTTAGAGTTTCCAAATGGTGTTCATATGT
R
GAATTTTATGTCAATCCTTGAACAATACTACAAGGATCATTATTAACATTTCTACTTGATAGACTTGGAAATCAAGGCTCAGAGGAGACAAATGTTTTGC
Celera SNP ID:            hCV26092541
SNP Position Genomic:     40263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,14)      total(G,14|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26280):
GGCCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAATTTGAAGTCAGGTAGT
W
TGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCAATGCAGGCTCTTTTTTGGTTCCATATGAACTTTAATGTGGCACATATACACCATGG
Celera SNP ID:            hCV26092542
SNP Position Genomic:     38169
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26281):
AGGCCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAATTTGAAGTCAGGTAG
Y
TTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCAATGCAGGCTCTTTTTTGGTTCCATATGAACTTTAATGTGGCACATATACACCATG
Celera SNP ID:            hCV26092543
SNP Position Genomic:     38168
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26282):
ATTATGGCAAACTGGGTAAAGGCAACCAAAAATCTAAATTGTTCCGTGGTCTCCCTTCTTTCCAGTTTCAAAAAGACTGGTATGTTAAAAAAAAAAAAAA
R
AAAGAAAAAGAAAAGAATGAGCATGGCAAGAACATAATAACAGACAAAAACTTCCAATTCTGGTCTTCTGTTAATCCTAGGTCTATTAAGAGAATGGGGG
Celera SNP ID:            hCV15758359
SNP Position Genomic:     155187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26283):
GCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGATCTGACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCC
R
GTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGAT
Celera SNP ID:            hCV26092544
SNP Position Genomic:     37937
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26284):
TAGTTTAATTAGATCCCATTTGTCAATGTTGGCTTTTGTTGCCATTGCTTTCGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTA
W
TGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGATCTGACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATC
Celera SNP ID:            hCV26092545
SNP Position Genomic:     37835
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26285):
TTACTGTTCCTCATCAGAGATGCCAATTTGTTAGGAAAACAAAGTGCATCCCTTTCAGGCTTCATATCTGCTTAGAAAAAAGCACAATCCTATAAATTAC
S
TAATCATATAAATTAGTTGAGTAATACAAAATTATTTTTCCTTTTATCTGACTTTTTTTTCTGAATAAATTACCTTAAACCTGGCTTCAGTTTGCTCATA
Celera SNP ID:            hCV26092546
SNP Position Genomic:     32646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26286):
CAGGCATGCAACCCCTCACCCAGCTAATTTTTGTATAGGCGGGTTTTCGCCATGTTGACCAGGCTGGTCTCAAACTTCTAACCTCAGGTGATCTGCCTAC
Y
CCAGGCTCCCAAAGTGCTGGGATTACAGGTGTGAGCACTGTGCGAGCCCACAATGAGTTTTTAACACTTACTGTTCCTCATCAGAGATGCCAATTTGTTA
Celera SNP ID:            hCV26092547
SNP Position Genomic:     32478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26287):
AACTGCTCTCATAGAGTTGCAAGGAATAAATGATATGATGTAAGCAAAATACCTGAAAATTCCTAAGAGCGCAATTTAAGTTCATTTTGTTCCTTCTTAT
S
GCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCCAAATACACCACTTGGGCAACAGATCAGCCATGGAAATATGATGCAGAAGATCTGCCTCATGCCTGTT
Celera SNP ID:            hCV26092548
SNP Position Genomic:     30878
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26288):
CTACCCTCATAAGAAAATGAAAATCAAATACAGACCAGGGACCATGACTGAAAGGACTCTGAAAGATTGTGGAACCTTTGTATAATAGTATCCATGTTTT
T
GTTGTCTCCTCTGCATTTCTTACATGACTAAGCACTGACTGGTTAAACCAGAAAAGGAAGCTTAGCTTCTTTCGTTTTTAGGACAGCAAAGATGGGGATG
Celera SNP ID:            hCV26092549
SNP Position Genomic:     28127
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26289):
TGCTGATATATAGAAAGTTGAGTGGTCTGGGAAGGTCAAACTAGCCACAACAGTCACTTAAGCCAAAGCCTAATCCAAAGCAAGATCCTAACTCTCTTCA
R
TTCTATGAAGGCTGAGAGAGGGGTGGAAGCTGCAGAAGAAAAGTTGGAAGCTAGCAGAGGTTGGTTCATGAGGTTTAAGGAAATAAACCATCTGCATAAC
Celera SNP ID:            hCV27966836
SNP Position Genomic:     44385
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26290):
CTTGTCCCCACAACTATTCAGCCTTAACATTTTCTTACTTCATTCCACTGTAATCATTTATTTAGTATAGAATTTATTAGGAATCTAAATGCCTTTAAAA
W
TACGCTAGTATTTTTATTTGAGTTGTTTCGACTTTATGTTTTAGCTAAAAAGGTGTATGGACTTTGAGTTGACTGCCCCAACTCTGTTTTTATCATAAGC
Celera SNP ID:            hCV27966837
SNP Position Genomic:     39917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26291):
GTATATTTATGTCTCTCTTAATATTTTGATATCTATGTATATATAATTTTCTAAAAGGATGGTGGTTGAAAATTTCAAAGTTGAACTCAAACTTCAAAGT
R
AAATGTATTGCTGCATTCCAAGGCTGAATAGGTCTCTGTAGAGAGTGAGTGGAAGGGTAAGGTTATAAATATCCTGCTGGACAATAGAGAACTTGTTGAA
Celera SNP ID:            hCV8884700
SNP Position Genomic:     85395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26292):
TTTAGTTGCTGTGATCCTCTATCTGGCAGTGTATCCAGTGAACCCTGTGGGCTTCTTCCTTCCTGTCCCTCGTGTTACCTGTTCTGTGCTACCTGTGTTG
Y
GTTCTGCTCAACGAACCCTCCTTTGGGTGGCACTCTTGTCCTGCCTAGCCCTAGTTCTGCTAGAGATGCTCAATTAGTTGTTGAGTTGAAGAATTGAATT
Celera SNP ID:            hCV27966838
SNP Position Genomic:     5095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:26293):
TTAAACAGATTAAAGTTTGAGAAACACTGGACTAAGGCATAATTATTATATTAGTGTGCGTGAGTGTGTGTCTGTCTATCTGTGTTTGCTGCATACTGTA
R
ATAATAGGCACCTCAAGAGCAAAGTCTGCATCATCTTCTTATCTTCGTCAGTGGCCAGCCCAGTGGTTTACTGTGGCACAGTAAGTCCTCAATGAGCACT
Celera SNP ID:            hCV8884701
SNP Position Genomic:     87696
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26294):
TAAATTTAATGGGGTAGCATTTGAAGTAGAAAAGGAAAGCTAAATCATTGTCAGATGAAATAGATTTGTCATAAACAACTTGTTTTCTAAATGGTGGTAA
R
TCAAGATGCAACTTTAAACAAAAACAACAAAAAGAATATTAGAGTTGGATTTGTTTAATTACTGGCAAAATGTTTTTCCAAGGAATAGGTGAAGATGTGC
Celera SNP ID:            hCV8884702
SNP Position Genomic:     132263
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26295):
AATAGATAAAGGCACGTTTATATATACCAGCAAATACGAAGACTTGGATTCAGTAAAGTTTGATACCATTCAATAGCATTAAGATTAAGGATGACTGTGA
Y
GGCCTTTAGTTTGCATTTTTAGACTGCTTAATTTGGGTCAATGTTTCTCAAAGTTATCTCCAGTGGTCTAAACTGTTAAATCTGTTCCGAAGTCTAGGAA
Celera SNP ID:            hCV16101466
SNP Position Genomic:     39319
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26296):
GGGCAGGGGAACAATCAGATATGCATTTGTGTCAGGAGGGCAGAGGGGTGACTGTACCTGAAAACAGAAGCTATCTATTTACATTGCCATGGTAAATTTT
M
ATAGAAACACTTTATGGTAAAGATCTTGGCGCTCACTGAGAATTTCCTTGTGGGCAAAATATGAGCGAGGTGTGTAGCTTTTCATCTGGTAGCCATCTCA
Celera SNP ID:            hCV27477584
SNP Position Genomic:     16889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26297):
ACACTTCCCTATACTTTAAAACTCACATATTTATATTTTTGTACATCTATCTCCTAATTCAAAAGTAATTGAGATTGTCATTTCATTATAATTCCGTGAG
T
ATCTTTAAATTACTATCAAATATGTTACTAAATAATTTAATAAGAATATAGAAATGAAGCCACTGAGATCCTTAAAGTTGAAACCTGATTGTTATTATAT
Celera SNP ID:            hCV26092550
SNP Position Genomic:     21416
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26298):
GACACTTCCCTATACTTTAAAACTCACATATTTATATTTTTGTACATCTATCTCCTAATTCAAAAGTAATTGAGATTGTCATTTCATTATAATTCCGTGA
G
TATCTTTAAATTACTATCAAATATGTTACTAAATAATTTAATAAGAATATAGAAATGAAGCCACTGAGATCCTTAAAGTTGAAACCTGATTGTTATTATA
Celera SNP ID:            hCV26092551
SNP Position Genomic:     21415
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,2)   total(G,1|-,2) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26299):
TGACACTTCCCTATACTTTAAAACTCACATATTTATATTTTTGTACATCTATCTCCTAATTCAAAAGTAATTGAGATTGTCATTTCATTATAATTCCGTG
A
GTATCTTTAAATTACTATCAAATATGTTACTAAATAATTTAATAAGAATATAGAAATGAAGCCACTGAGATCCTTAAAGTTGAAACCTGATTGTTATTAT
Celera SNP ID:            hCV26092552
SNP Position Genomic:     21414
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26300):
CTGACACTTCCCTATACTTTAAAACTCACATATTTATATTTTTGTACATCTATCTCCTAATTCAAAAGTAATTGAGATTGTCATTTCATTATAATTCCGT
G
AGTATCTTTAAATTACTATCAAATATGTTACTAAATAATTTAATAAGAATATAGAAATGAAGCCACTGAGATCCTTAAAGTTGAAACCTGATTGTTATTA
Celera SNP ID:            hCV26092553
SNP Position Genomic:     21413
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,2)   total(G,1|-,2) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26301):
CTCCGAGTTTAAAATATTATTTTTATTATTTTTGGTGCACATTCCTAAAAGTTAAGGAAGGAGCCTCAGTAATGGAATTGCTTCTTGACCTTTTGCAAAC
Y
TCAATTTAGCAAAATAATTAGGAACGATCTAATAGTGATGATACAGTTTTTAACTGCTGGATCAGCGACGCCTATTTCAAGTAGTGATACTAACTAAACT
Celera SNP ID:            hCV26092554
SNP Position Genomic:     21105
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26302):
CACGCCTATGCCAAACTCAGATTCCTTCCTTTCATCCCTGTTTCATCTGTTCAGGCTGGTTAGTTCCCCTTTCCAATCCACACAGAGAAAGACAGAAAAG
M
CAGTGAGAAGCTATGTGTGCAGGACTTCTCTGCCCTCCACTCCATCTAAGCTCTCAAGAAACTTTTAGATTCTTTTGTTTTTTCTATTCATCGGTCTCTT
Celera SNP ID:            hCV26092555
SNP Position Genomic:     17193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26303):
ATTTTACTTATAATATTTTTGGTGAAATGATCTTATGCCGTATAAGAATACATGCAAATAGAAATACACACACACACACACACACACACACACACACACA
M
TTCTGTTCATAGGATTTTGTTTATTTGGTAGGAGGTTTTGTATTATTTTGTGACAACTGCAAGTAAGCACTTTCCATCATGAGAAATTTAGATAGTGAGT
Celera SNP ID:            hCV26092556
SNP Position Genomic:     12622
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|-,3)   total(A,2|C,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26304):
TGGGGATCCGAGATTTATTTTCCTTCCACACGCCTATGCCAAACTCAGATTCCTTCCTTTCATCCCTGTTTCATCTGTTCAGGCTGGTTAGTTCCCCTTT
Y
CAATCCACACAGAGAAAGACAGAAAAGACAGTGAGAAGCTATGTGTGCAGGACTTCTCTGCCCTCCACTCCATCTAAGCTCTCAAGAAACTTTTAGATTC
Celera SNP ID:            hCV27988331
SNP Position Genomic:     17165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26305):
TGTTAAGTTTTATGAAGATGATTTAGAAGTTGATTATCAGCAAGCAGAGCTTTTTTCAGAAGGGAGGTAATGTAAAGAGAGTTAATAATTAGCTACTGGC
Y
TTTCATCCAAACATTTCCCACTACTCAGGAAATGTCCAATAATCCAAACAGTGGTAACTGCTGAACAGCATTATAGCCGGTGAGTGGTTTAACTTACCAG
Celera SNP ID:            hCV26092557
SNP Position Genomic:     7653
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;JBIC-allele(T,441|C,1050)   total(C,1050|T,441)no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26306):
CCTAATTAAGATAACTATTCTAGAGGAAAAAGAATGTATATGCTTAGATTAACTCAGCAATTACATAAACACAACTGTAGTACATACATCTATTCTTTTA
R
CATCAAGGCTTGCTGAGTTGAAAAAAAAATGGTATGGTTCTCTAACTATATTCTGTTGAGTTGCTGGTGTGTAAATCACATTGTAACTGGCCACTATTAC
Celera SNP ID:            hCV15831299
SNP Position Genomic:     36307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26307):
TAAAGAAGACACGATTTATGAAGCTGGTAAGCAAAATAATTATAGCAAGTACTTTTGGGTAGAGGACAATATATTTGCTCTAGCATGATGAAGTCCAGTA
R
GATATTGTATTTTCCCCACATGGTGAGCTGCACGTCATATTTGCCCCAGTGAAGATGCAGAACCTTGAAAAAAAATTCTGTTGCAAAAGGAATAGGTTAT
Celera SNP ID:            hCV25473183
SNP Position Genomic:     137103
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(G,32)   total(A,13|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:26308):
CCATTAATCCTTAAAATCTGTTTTTCTTGATTTGTTCCATATGTGCATGTATATGCTCTGAAATAGCCTCCTGACTAGAAAGATCAATGAGGTATAAGAA
Y
ATAAAATAATGATTTTGAGTTTTATATGTAACTTTATTTCAGTCTTATTTAATTTTTGCAAAGTAATTAAGTGATCAAATAAGGAATATTGTAGCCTTCA
Celera SNP ID:            hCV8884711
SNP Position Genomic:     137810
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26309):
TAATACGAGGAAGTATGTATATGTGTGTATGCACATATATACATGTGTTTACATAATATATAATTTAAATGATAACCAAAATCAAGAGAATAAATCAGTG
Y
TTAACAAACAATATGATCATCAAGTACTTAGTATGGAAAGACTATTAAAGAAGAAAACAAAAGATTTTAGATTTACTCTCAGCTGTGTGACCCTAATCAC
Celera SNP ID:            hCV8884712
SNP Position Genomic:     149644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26310):
TTTATTCTTTCACGGTTCTGGAGTCCAGAAGTCCAAAATCAAGGTGTTGACAGTGTTAATTCCCTCTGGAGGCTCCAAGAGAGACTCTTTCTCATGCTGT
Y
TTCCTAGCTTCTGGTGACAACTGGCAACCCTAGTCGTTCCTTGGCTTGCGGCAGCATAGCTCCTATCTCTGCCTCTGTCTTCACCTGGCCTTCTCTGTGT
Celera SNP ID:            hCV8884717
SNP Position Genomic:     155953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26311):
GGGTCTGGCAGGCGGGAGAGGCTGCAGAACAGACATGCCCCAGTCCCATGGGGAATGCCTGCTTTCTCCTGGCTTGTGGTCACCTGGGGCTAGAGCCTCT
S
TGAAGGAGATGGGGAGTCCGAGGGGATGGGCACCTATGTCTGTGCTCTGCTCACAAAAGCTCCTGGGCTCCATGCTAGCTGAAGCCCTGTCTCTACCTGC
Celera SNP ID:            hCV8884718
SNP Position Genomic:     162246
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26312):
GGAGTTTGGGTTTGACCATTAGGAGAAACAATTACAAAGCTGAAGCAGCATGCTAAACTGCATTTCACAAATACCACTTTGGCAGCATCAAGGATCGATT
K
GAGGAGGCAAGACTGGAGGCAGGAAGACTGGTTAAAAAAATGCATATTAGGAAGATACGAGAGAAAAATGATAATGGCCTTATCAAAGGCAGCAATAATG
Celera SNP ID:            hCV25759850
SNP Position Genomic:     23422
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,7)   caucasian(G,24|T,6)   total(G,53|T,13)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:26313):
GGCTGCAGAACAGACATGCCCCAGTCCCATGGGGAATGCCTGCTTTCTCCTGGCTTGTGGTCACCTGGGGCTAGAGCCTCTCTGAAGGAGATGGGGAGTC
Y
GAGGGGATGGGCACCTATGTCTGTGCTCTGCTCACAAAAGCTCCTGGGCTCCATGCTAGCTGAAGCCCTGTCTCTACCTGCTCCCTGGGAAAATCCACCT
Celera SNP ID:            hCV8884719
SNP Position Genomic:     162265
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26314):
GCAACACCTTATTCTGTAAAATAAAATGAATGGTGGATGAGCTGAGGAGAGGAAGTTGACTTTATAGAGAGAAAAGGGCTGAAGAAAGCAGAAACAGAAC
R
AAAAGTTGATTGGTCATTTCAAAGTTATTTTCCTTGTAAAAGTGAAAGCAGAGGGGATTTTCTTATCATGCTGTTTGAAACTGGCTTGATTGGGGATTTG
Celera SNP ID:            hCV15865099
SNP Position Genomic:     146928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26315):
AGTTATTTGTAAGCTCATTTCAAATGTGATAAACTGAGGTTCATAGAGGTGAAATCACTTGCTTTTTTTTTTCAGGAGCATCATCTTTTTTTTTTTTTTT
T
GAGATGAAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTTACTGCAACTTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCA
Celera SNP ID:            hCV11373194
SNP Position Genomic:     60827
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26316):
CAAAGCATTTTCTTAACGTAGGCAGGCTCAGTTCTAAAAGAAAATGAGAAAGAGAGGATGGGGCTGGCCACACAGTGTCTCCTTCCAGACTCACCAATCA
R
TTAGTGTGAAGGAAGGGCAGGTTGAGAAATAGCCGAGAAGTATTACAACCGGTGAGGCACTCACCCCATGGAAGGAAACGTCAGAAGTGGAAAGTTAGCA
Celera SNP ID:            hCV11373195
SNP Position Genomic:     55478
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26317):
AAAAGAAAAAAAAAACTCTAGAATTTTTAGGATTCATAAAATTGGCATCACAATAACAGTAATCACTTATGGCTCCTAAGAATTTTTTCTTTTTTTTTTT
W
AACCTTAAAGATTAGTTAATTTAATTACATCTTAAATACATCTCGCAAGTGACTACAAATTCTTTGAGGGCAGAGACAATATATTTTTTTTACCTTTTAA
Celera SNP ID:            hCV11373199
SNP Position Genomic:     49726
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,6)      total(A,6|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26318):
AAGGCACATTACAAAAGGCTAAATGCTGCTGTTTCTAAGTGGAAGCACTGTTGAACAACACTCTTAGGTGGAATAAGAAAATTAGGGTTAAACTGTAACA
Y
TGTAATCGGACGAACAAATCAGCATCTTTGATCCTCAGGTTAAAATTTAATCTTAAATTTAGAAATTCAAAGTAACAGCCTTTAACCATTAACCTTGAGG
Celera SNP ID:            hCV26092492
SNP Position Genomic:     175189
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:26319):
AAAGAGGCTTGTAGTAAACAGATATTTTTACAAAATTTGATGCTTCTGCAACCATAATAATTTTATCTATAAATGCGTATATACATATATATATATATAT
W
CACATACACTCACATGCAGATATTTACATATATAGATATTCTCTTTTCCTTTTATAAAATCAAAGTCTAGGCTCAATTGGAAAATGGAAATATTTGCACC
Celera SNP ID:            hCV26092493
SNP Position Genomic:     174085
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,5|-,6)   total(A,5|-,6|T,5) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:26320):
GATATATTCATTCATTCAACAAATTTTATTAAACACATCATCTACCAATGAATCTATGAAGATCAGGTACTTTAGCAATATAGAACAATGTACAATAACA
Y
ATAACATAAGACAGTCCATGTGAAGGCAGTTCATTCCTGGTGTGGTGGCTCTATTGTCAGCATAACCCTGTGTTACTTTCATCTTTCTGCTTCAGCACCT
Celera SNP ID:            hCV16017483
SNP Position Genomic:     52171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26321):
CTATGTGCAGGGAGCTATTTTAAACATTTCTGCTTTAAGCATTCCCACTTAATACTCATATCAACCTTATGAGGTCGTATGAACCTCCTCTTTTAAGTGA
R
GAACATAAAATTTAAGTATATTTCCCAAAGACACATAGTGAGATTCAGAGTAAGGATCTGAATTCTGTGCCAAAACCACTGACTATTATCACTCTGTGTT
Celera SNP ID:            hCV26092494
SNP Position Genomic:     167437
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26322):
CTGGGAAGCTGCCAGTGAGATTTCAGAGACCAAGAGCGCGAAGGGGCGGGCGATGTGGCAATCCGTCTGGGATGTGAAAAGCGTGGAGCGCATTTAGAGG
M
ATTCGACGAAAACACAGGAAATCACTCCTCTCCCGCTCCTGGGCGCCGCTGCCACTGGGGCAGAGGACTGGGAACCGCGGCAGCGGGATAAGTGGCCCAG
Celera SNP ID:            hCV15958460
SNP Position Genomic:     6261
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;JBIC-allele(A,465|C,1038)   total(A,465|C,1038)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:26323):
CATCTCAAACGAGGCACAATTCTGGTAAATTAAGACAAGTGCTATTTTTACCTTTTGCTTTCCAAATGAATAAAATTGATATCAATCTAGAAATAACCAT
Y
TGAAGAATTTAAATATAGATATTTGATAAAACGGCAAGAATACTGATATGTATCTCTGGACATTTAAACAGGACTGCAATACATGTAAATTTGCTACCAT
Celera SNP ID:            hCV26092495
SNP Position Genomic:     157897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26324):
ACTCCCAAGTAGCTGGGACTACAGGCGCCTGCCACCACACCCAACTAATTTTTGTATTTCTAGTAGAGATGGGGCCTCACCATGTTGGCCAGGCTGGTCT
Y
GAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAGAGTGCTAGAATTACAGGTGTGAGCCACTGTGGCTGGCCGTTGTTTTTGTTTTTATCAG
Celera SNP ID:            hCV26092496
SNP Position Genomic:     157246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26325):
CTGGGAAGTGGAGGTTGCAGTGAGCCGAGATCGTGCCGCTGTACTCCAGCCTGGGTGACAGAGAGAGACTCTGTCTCAAACAAACAAACAAACAAACAAA
M
AAAAACTTATAGCTGTAGGTATATATTATATTAATGAAATGTAACTCATTTTATAGAAAGTTTGCCCTTCTGAAGTTGGGAAATGTTCCCGGAAGTGTTA
Celera SNP ID:            hCV26092498
SNP Position Genomic:     140451
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3|-,9)   total(A,3|C,3|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26326):
AATAAAGTATAAAAGAAAGGTGAAGATAGAGAGGTGAAAATAGATGACTTTGCTATAATTTAAGATAATGCTTAAGAACTAATGGTCAAATTAAAATGGT
R
CAGTAAATTGTGCACATACAATAATCACTATTTAAAAAAAAAACCTTTACAATAGAGGGGAAAGAAGACTGAAGGGTGATACCTAAGAAAAGGGAATATT
Celera SNP ID:            hCV26092499
SNP Position Genomic:     134703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26327):
ACAGGGGAGAATTAGAGCATAGGAAAGAACTTGATAAACATTCAATACGTGATAGCTCTTCAATAAAAACCTTTTGTTAAGATCCCACTGTGTGCTTACC
M
CTGTGATTCTGTGGCTTTTAATCTTTGGCAGACTATGGGAAAGATAAATTGTACTTAGAAAGATGATCAAGGAGCACTTCAAAGCCCCAGTTCAAAATTA
Celera SNP ID:            hCV8884650
SNP Position Genomic:     16002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26328):
AGCCATCTTGTCCCCCTAGATCATCAATTTCATTTTTAATCCTAAATAAGTGCCTAGATAAACTTCATCACCAGAATGTAGTTGTTTCATGTCTTGCTAC
R
TTAAAGGTAGGCAGAGTTTGAGGTTTGTTTTTTCTAATGATAAATCAATACAAAATATTTTTAAAATTTTTTTTCATTCCATAACGAGGATCTAAGTAAG
Celera SNP ID:            hCV8884723
SNP Position Genomic:     162775
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26329):
CTAGATCATCAATTTCATTTTTAATCCTAAATAAGTGCCTAGATAAACTTCATCACCAGAATGTAGTTGTTTCATGTCTTGCTACATTAAAGGTAGGCAG
W
GTTTGAGGTTTGTTTTTTCTAATGATAAATCAATACAAAATATTTTTAAAATTTTTTTTCATTCCATAACGAGGATCTAAGTAAGGATTTTCAGTGGCAA
Celera SNP ID:            hCV8884724
SNP Position Genomic:     162790
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,9)      total(A,9|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26330):
ACATGACTAGCTCTCATTTTGATTAGCATCATATATTAAGAACAAATCCTATTTGCTTTTCAGTCATATTTTTCCAGCTTAAATCTTACTATAAGGGGAG
R
ACTTCGGAGTGAAAATGCATCTCTGGTTTTAAGTAGCAGCAATCAAAAAAGAGAGGTAAGTGCAACATGAGTTTTGAAAACATTATGCATTTCACTCTGA
Celera SNP ID:            hCV8884725
SNP Position Genomic:     163109
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,9)   caucasian(A,34)   total(A,63|G,9)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;JBIG-allele(G,301|A,1190)   total(G,301|A,1190)no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26331):
ACAGGTGGTCCAGGCTATCCAGCGCCACATACACTTTGATGTTGTAAAGTGCATCCTGGTGGCCAGCCCAGGATTTGTGAGGGAGCAGTTCTGCGACTAC
M
TGTTTCAACAAGCAGTGAAGACCGACAACAAACTGCTCCTGGAAAACCGGTCCAAATTTCTTCAGGTAAAACAATCTTACCCAGGGATAATTAAGAATGG
Celera SNP ID:            hCV8884653
SNP Position Genomic:     19142
SNP Source:               Applera
Population(Allele,Count): african american(A,25|C,3)   caucasian(A,11|C,1)   total(A,36|C,4)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,31|C,1)   caucasian(A,24|C,2)   total(A,55|C,3)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;(G,-|T,-)   JBIG-allele(G,240|T,1257)   total(T,1257|G,240)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:26332):
GTGACAGACTTGGGGATTTCTTGTAAACTTCCTAACTAGTCTGAACCTTTTTATTTCTTATTGGGAACTGACACTTCCCTATACTTTAAAACTCACATAT
K
TATATTTTTGTACATCTATCTCCTAATTCAAAAGTAATTGAGATTGTCATTTCATTATAATTCCGTGAGTATCTTTAAATTACTATCAAATATGTTACTA
Celera SNP ID:            hCV8884654
SNP Position Genomic:     21346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26333):
TCCCATTTATATCCCTCTTTATAATGACAAAATGTTAAACCTAGCCTCTGCTAACATAGCTTCAGAATGGTTTGTGCTAACAGTTAACTGGGATTGTATC
M
TGTATTATCACTACATTTATATCCTGACTTAGTCACACTGGAAGCATGTTGTAGGGTAGGGCTTTGTACCATAGTTTGATAAAAGGAAATATACATTGGC
Celera SNP ID:            hCV28010236
SNP Position Genomic:     91756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26334):
AGCCAGAACTTAGATATGGGGTGTAAATATTTATATTACACTAATCATTAAGAGTAATATATTTAATTTTATCCATTTTTTTAGTGCCTTTTTTGAACCA
R
TCACTGGGCTAGATGTGGGGAGGACAAACATGTAAGCAAATCACTGTTAGAAGTAACTTGTACAAAGTGTGTAAAAGGACACAGTGGTGAAAGGGGTGAC
Celera SNP ID:            hCV8884655
SNP Position Genomic:     23089
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:26335):
ACTTAGGAAGTTGAAGTTTGGCATTAAAATAAAGGACTCGCCACCACTCTGTGCACCTTCTTGAGGGAGTTCATTCGTCCGGAGCGCCTCACAGCTTAGT
R
CGCCTGCGCACGCGCGAACTGCGGCCCCGCCTCTCCTTTGGGGACGGGAGACGTGCGTCGGGTCGCGGGACGGGGGCTGCGCATGCGCCTTCATTTCGTC
Celera SNP ID:            hCV27835894
SNP Position Genomic:     18090
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,26)   caucasian(G,38)   total(A,2|G,64)
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:26336):
TGTTTTCATTATCTTGAACATTTTTATATTAAAAACAGTTTTAACATAAAAAATTTTTACATTAAAAACTAATTTTTTTAGGCAGAAAAAGTACAAACCT
Y
AACAAAGCTAATTAGTTGGACTTCATCAAAATGTAAAACTTCTACTCTTCAGATGACACTGTTGAGAATATGAAAAGACAATCTACAGACGGGAAGAAAA
Celera SNP ID:            hCV273673
SNP Position Genomic:     110102
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26337):
TTTTTTTATTTATTACAGAAGTGATTTTTTATTATAAAGTTTTAAAAAAAATATTGAAGCAAATATAAGGAAACACCTAGTGTCCTAATATACAGAAATA
M
AAAATAATATATTATGATACACATTTTTTCACATTTTTTATGCCCATGTACTTATGTGATTTAAAAAATAGAATTAGGTCATATCTACATATTGGGGATT
Celera SNP ID:            hCV273674
SNP Position Genomic:     109857
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26338):
TTCCTTTTTCAGCTTCCCTGACTAATTCTCTTAACCTCCAATTATCTTTAACAGAAGTTACTAATTCTGCAATTCATATATTCTGGAACTGGAATTATCT
K
TGTTCCTAAGCAACCAAGTATACATATGAAACGGTCTGTACATTAATGCCTCATAATAGCAGCTCTTATTTGGGAAAGGGTTATAGTACATTTAAACCAT
Celera SNP ID:            hCV27504626
SNP Position Genomic:     22765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:26339):
GAGGGAGGACAAGTGCACGGTTATTATTTGATACTACCAGTTCCATTTGGAAGTTAACAAAACTGGAATTTTTAATCTCTCAGAAAAATCTTAGCTTTTA
Y
AAATGTCCTACTCAAACATGACTAGCTCTCATTTTGATTAGCATCATATATTAAGAACAAATCCTATTTGCTTTTCAGTCATATTTTTCCAGCTTAAATC
Celera SNP ID:            hCV25636700
SNP Position Genomic:     162993
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,36)   total(C,3|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:26340):
CTGAGTCAAAATATCTGTAGGTTAAGGAGGAAAAAAAATTCACGGGATGCTCACCACCATAAAAGTTAGAAATTCTTAATTTTTGAAAAATGATCTCACT
R
TTTAAAAAGCACAGTTAGATGGAAAAGGGGACTTATATAAAAAAGACTTTCAAAGGATATTTATCTGTTGTGGGTTTTTTTTTCATTTTTTGGAGAGGAA
Celera SNP ID:            hCV16017495
SNP Position Genomic:     47636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26341):
GTGGAAACCAACTTTTATAAAAGTAAGTAAATACATAGTTCTATGCACTGATTGAATAATATCAATAAATATTCATTTACCACTTAGAATATGCAAGGCA
Y
TGTGCTGCTTTTGGAAAGAATGTGCGACTGGAAGTATAAGAGGATGTGACCAAGCCCCAGCTCTACTTAACCAGCTATGTGTGTCTCATCTTCCTTGTCT
Celera SNP ID:            hCV25636707
SNP Position Genomic:     158152
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26342):
AGGAAAAATTATATCTATATTGATAAAATTACTAAAAGTGATCATTTTGTAATTGTGTGATCTGAGGAAAGTCACTGATCTTATCTAGATTCCGGTTTCC
R
TATCTGTAAGTTCAGGGAATTGTTTTACATATGTTTAAAATCTGCCTTGCTGGGCTTAGTGGCTCATGTCTGTCATCCCAGCCTACTCGGGAGACTGAGA
Celera SNP ID:            hCV8884732
SNP Position Genomic:     164332
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26343):
TACATCAACTGACCATCTCAAACGAGGCACAATTCTGGTAAATTAAGACAAGTGCTATTTTTACCTTTTGCTTTCCAAATGAATAAAATTGATATCAATC
Y
AGAAATAACCATCTGAAGAATTTAAATATAGATATTTGATAAAACGGCAAGAATACTGATATGTATCTCTGGACATTTAAACAGGACTGCAATACATGTA
Celera SNP ID:            hCV25636708
SNP Position Genomic:     157884
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:26344):
TGCATTTCACAAATACCACTTTGGCAGCATCAAGGATCGATTGGAGGAGGCAAGACTGGAGGCAGGAAGACTGGTTAAAAAAATGCATATTAGGAAGATA
Y
GAGAGAAAAATGATAATGGCCTTATCAAAGGCAGCAATAATGTTCCTTGCAATAGGAATGAACAGAAGTCAACAGGAAATATTAAGAGATGGGATCAAAA
Celera SNP ID:            hCV8884660
SNP Position Genomic:     23480
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,25|T,1)   total(C,60|T,4)
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;TFBS


Context             (SEQ ID NO:26345):
CCAAGAAGTCACTGCTTTTTAGGTGTGTTGCATCAATATTTAAATAAAATCCCAGAAATGTATTTTAAAGAATTTCAGGTTTGAAAACTCAAACCAACAG
R
AAGATATCACACCTTTGTATGTGCTTCTTTGTTCTTGAAGTAGTCATTATGGTTCATTGGAATCTACTGTAGCATAAGCTCCTAGGTTGCTCCATTTCTT
Celera SNP ID:            hCV8884733
SNP Position Genomic:     171776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:26346):
TTCTATCCCGGTAAAATATGAAGTTGGACTACAGTTTTACAGGTAGGAGAAAACTACATTTTTATGTGGATGCCTTTCTATTAACCCAGTGGTTCTGAAA
R
TGTGGTCCCTGCCTGGCCAAGGGCATCAGCATCACCTGGAAACTTGTTAGGCAAATTCTCTGGCCCCACCAGAAACCTACCAAATCAGAAACTCGGAGGA
Celera SNP ID:            hCV25636709
SNP Position Genomic:     150319
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(G,40)   total(A,4|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:26347):
GATCGATTGGAGGAGGCAAGACTGGAGGCAGGAAGACTGGTTAAAAAAATGCATATTAGGAAGATACGAGAGAAAAATGATAATGGCCTTATCAAAGGCA
R
CAATAATGTTCCTTGCAATAGGAATGAACAGAAGTCAACAGGAAATATTAAGAGATGGGATCAAAAGGACATGACTGCAGATTGCTGTTTAGAGTTATGG
Celera SNP ID:            hCV8884661
SNP Position Genomic:     23514
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,10)   caucasian(A,15|G,13)   total(A,41|G,23)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:26348):
TCTAGGCTCAATTGGAAAATGGAAATATTTGCACCAAAAGAAAAAAGTGCCATTGTTGTGATCAATGGAGTAAAGCTGGGGTATAGTAGAGGCTGGGGAA
K
CCCTGCCCATGTTCTCTCCAAGGCCACAGCTTGCACACCGTGAATGGTGGCCCCACTGGCTCCATGGAGTGTGCCTTCACGCGGGGGAATGTCCTTGTCC
Celera SNP ID:            hCV8884734
SNP Position Genomic:     174251
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|G,8)      total(G,8|T,4) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   POOLE|_CEPH(T,46|G,142)   total(G,142|T,46) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:26349):
GGTCTTTTCTATTTTTATATTCAACATTTTATCTTTCGTTGTAAAACTCAGGAAAACACCTTTAACAAACAAAAATAACTTCTCTCTTAAGTTGTTCATT
K
TACTAAATGGCCAACATGGATTGGATATGGTAGAAGGAAAGAACATTTTCTGCAGAAGGGAGAAAAAAACCACAATCTATTTTATGAGGAGGAATGAACT
Celera SNP ID:            hCV8884662
SNP Position Genomic:     28533
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|T,4)      total(G,1|T,4) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26350):
GGCAGGAGTTTCGCGTTCTGGTTTTGATATGAATTAGTTTTAGTGTCTCTCCAAAGTCCTTCACCCTAGGAGTAGGAGTGAGGCAGCACTGAAAACCTTA
S
AAGGTAGAATTCACTTTTAAAATTAAAGTTGTTTTTACAATACACATTGTATATTAGGACTTTGCTGAATATTTCCTCCCCTCCACCCTTTTTTATGGCA
Celera SNP ID:            hCV25474582
SNP Position Genomic:     6750
SNP Source:               Applera
Population(Allele,Count): african american(C,22|G,4)   caucasian(C,24|G,6)   total(C,46|G,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26351):
TTTGTTCACTTTGATACCTAGAATTAGCCATAATGATTATCCAAGTAACAAAACCATTTTGCTTTTATTTACACTGAACATTTATATACCCAAAGACATG
Y
GTATCCATGGATATGTCCCTTAATAATTATTCAGTGTTTCCAAGGATTACTAATCAAAAACTTTAGGGTCATTGAAGAAAAGAATTTTAAATTTATGCAG
Celera SNP ID:            hCV8875849
SNP Position Genomic:     97623
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26352):
ACTCTAATTTTGTTCCTCTTCAATTTACTTATGACACTTCAAGCAAATAAGCTTTGTAAATCAAAAAGGTGATCATGTTACACCCCTCTTTAATAGCTTC
R
TTGGTTCCCAACTTCCCCCTACATAGAATAAAGCCAAAGTTCTTAAAGCTGACTATGAGAACATTCATGATCTGGACTCTTTTTACCTCTCTAGCCTCAA
Celera SNP ID:            hCV28984100
SNP Position Genomic:     76341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26353):
CAGTTGGAGAAAAGTGAGGCTTCCTTAGGATTCAAGTGGTAAGATACACGTACTTTCAAGCTTGTTATTAAAAGTTTCATGTTTGTTTTCAAAGAAAACA
S
ATACTAGGAAAATACAGAAAATTAGCAGTCCTATGATCTGCTAACCTGGTCTTTACTATTGGTCCCAACTCCCAAACTCCCTGTCTCAATCCTGGGCTCC
Celera SNP ID:            hCV28984101
SNP Position Genomic:     73978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26354):
TGTTTTGATCTTCTCAGTCTGCATACAGGTCATTACAAAAATGCCATATAAAAAGCAAGATCTAATAGGAATAAAACGTAATAAGTTAAAACTAACTTGC
R
TTAAATTTTAAAATAATGATTCTCACAGTTTATAAAACAATGTGCCTGGGCCTTCACCTTGACCCTGTGGGTTTGGGCGGATATCATTGTTATCATCTGT
Celera SNP ID:            hCV28984102
SNP Position Genomic:     73142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26355):
TTAAGACTTAAACCACCTACTTAAAATGAAGTATCTCTTTTAAGGATGGTTAAATATTGCTAAAATATTTTATGAAATTCTCATTTTCAATTTCTGATAT
S
AGAAAAACCTGTATGTTTTCTTTCTTATCCAGTCCTGTCTCTGTGATTTTAGAAAAATCTGATGTCAGAAGTCCTTAATTATATGAATGAACCTTAGTAG
Celera SNP ID:            hCV28984103
SNP Position Genomic:     69322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26356):
CAAATTTGCCTCTCAGGAGATGCAGTTATGCAGACTAATATGTGGCTGTCTTCTAAGCTCATCCTCATATCACTTTGTACTAGCCCTTTCTAGTTTTAGG
M
CTAAGATGTAAAAATTGAATTAATATGAATAGTGGTTACTACTTTGGATTTGGAAGCCTGTGGAAATGTGGGCACATTTCTCTGCCTTCCCAAGCTTTCT
Celera SNP ID:            hCV28984104
SNP Position Genomic:     62563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26357):
AACCACAATCTATTTTATGAGGAGGAATGAACTCTGGGAATAGTTCTCTGACCCTTTGTGTGTCAGTGTGTTCTCAGCCTGAACTGGAAGAAAATGGGAT
R
GCATGTGGAATGTGGGAAAGTGCGAAGACTGATGCAAAATTCACTATCTGCCTCATTAAATACACTAGTAGGTTTTCAAGAGAATGAGTCTGTTATCACC
Celera SNP ID:            hCV8884670
SNP Position Genomic:     28701
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26358):
AAAGGGCTTCCAACTTTCACAAACTCTTATTACTAAAATGTTTTTCTTCCAACCTCCTGTATTGCCTCAAAATGGAATATATTTCATCTGAATTTAGTAG
R
TAAAAGTAAATTTGGAGTTATAGAAAATACTTAATATATCACCTTTTAGTTACAGTGAGAATATATGACTTTAGGAGTTTATACCATGTGAATGGGGTGA
Celera SNP ID:            hCV28984105
SNP Position Genomic:     59892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26359):
AAAGTTGTTATACATTAAGGAAAAGGGCTTCCAACTTTCACAAACTCTTATTACTAAAATGTTTTTCTTCCAACCTCCTGTATTGCCTCAAAATGGAATA
Y
ATTTCATCTGAATTTAGTAGGTAAAAGTAAATTTGGAGTTATAGAAAATACTTAATATATCACCTTTTAGTTACAGTGAGAATATATGACTTTAGGAGTT
Celera SNP ID:            hCV28984106
SNP Position Genomic:     59871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26360):
ATCATATAAATTAGTTGAGTAATACAAAATTATTTTTCCTTTTATCTGACTTTTTTTTCTGAATAAATTACCTTAAACCTGGCTTCAGTTTGCTCATAAG
Y
TCCTGATATTTGAACAGGTATCTGCCCAACAATCAGAGAGAATTAGTCCTCTGCACCTTCTGAGAGGTATTAAAAAAAAAGGGGGGGAAAGAAAAAGAAT
Celera SNP ID:            hCV8884672
SNP Position Genomic:     32749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26361):
CGAAAGATGATGCTGATGTGGTGAAGGGGGTTGGTTTCTGAAACTGTTTAAGAATTTTAGAGATCAAGAGTAGGTCTGAGAGGAGCTGGCAAAGCAGGCA
W
TTATTTGTGGTGGGAGGATATGGGGAAAGAGCAGATGTCTGTAGATACTACAAAGGAAAATAAACACCATGAAAGAACAAACTTATGTAGAAAAATTTTA
Celera SNP ID:            hCV28984107
SNP Position Genomic:     58732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26362):
TCTTTTAAATGAATTTTATTAATTAACATATAATTTCTTCTCAGTAAGATATGTGAGCTGGCAACACATTGCCAATCCTATGGTTATTTTTGTTAGTATG
M
ACAATAGGTAGTTTCATGGGTCAGGAAAGCAGAAATAGTATACAAGGTTAAAGAAATGATTTTCAGTTCTCTAATTTCCACTGGAATTATTAAACATATA
Celera SNP ID:            hCV28984108
SNP Position Genomic:     57834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26363):
TTTTCAAGATTCAAATCACAACTTAAAAGCAAGGAGTTGCAAGAATATATGGAATGGTGAGAAATGATTGATGTTAGAAAGCTTTCGAAAATTGCAATAC
R
TAAGGAAAATTGTCCAATGCACATTCTTATTTATCTGCATTTATCTTTCTATATCCTGTTGAACTTTGCCGATAATTGTAGAAACACCTTGGCATTTCTT
Celera SNP ID:            hCV28984109
SNP Position Genomic:     54001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26364):
TCAATGGGTGGAAAAACAGATTCTACCTCATGAAATAATAAAAGTCAAAGTCGTGTTGCAAAAGTGTACACAATTCCAAACCATCGACCACCCTTGCAAA
Y
TGCTCAATACTGGGCTGCTCAGCGTGCTGCCTAGGGAATGGTCGCTCTTCCTCATTTTTAAGACAAACCTCTCCTTCTGGATCCACCCTGTCTACCTGCT
Celera SNP ID:            hCV213803
SNP Position Genomic:     75356
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26365):
TCTCTGAGCATCTCCTGCTCGCGGGCTTGGGGCTTGGAGCGGGGAGGGAGGTCCTCAGAGCCATGGGCCAGATAGGAAGAGAGAGCGCCCATCCACTTTC
S
GGCATTCCAGGTACTCAGGCCAGGCTACGGGGCAGGCAGGAGTTTCGCGTTCTGGTTTTGATATGAATTAGTTTTAGTGTCTCTCCAAAGTCCTTCACCC
Celera SNP ID:            hCV25474594
SNP Position Genomic:     6615
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,12)   caucasian(C,20|G,2)   total(C,30|G,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:26366):
CTTTGAGGGCCTAACTCCCATCCACTATAAAAACACCTTCCGAAACATCCCTGGCCAGCTGCAACCCACCTCATCTTGACCAGAGGAGCTGCCTGACAGA
Y
CTACGTATGCCTTATCAGTTTAAATCTTCATCGCTCTCTACAAGCCCACCACCCTTCTACCTCCTCTGTAAATCTCACTAGACAACTGCAGCTATTATTT
Celera SNP ID:            hCV213804
SNP Position Genomic:     74684
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26367):
GGGGAAAGAAAAAGAATCAGTCCAATTGGTAGATTTTAAATGGCTCATTTAAATACTACAAGTTTATCAGTCTCTAAATTTTCAGCCTAGGAAAATTTCA
R
CCAGGAATTTGATATTAGTCCTGATGCATCACGAAAGTACGGAAACTCAGTTTCTACAGACCCAGGGCTTCCTGGGGTTACCTCAGGCCACTTATATCTC
Celera SNP ID:            hCV8884677
SNP Position Genomic:     32933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26368):
AAGAAAATATCCTGAATTGCAGTCATAGATGTGTCTTTATCCACTTTATTATTTTTGTGTAATTAGTTGGCTGTATCCTATCTTGTTCCCAAAGGGTCTT
Y
TGGTCACCTTTATTCCAAATATAGTAGCTCTCTCAGAATAGGTGGTAAAGGATATTGGGTGAAAGATAAACTCACAGAACAAGGCTAACCTGGACATGAA
Celera SNP ID:            hCV8875856
SNP Position Genomic:     97862
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26369):
AAGATAAACTCACAGAACAAGGCTAACCTGGACATGAATTGAGCAGAGTGCATGTTCATTCAGCTGATGATGTAACCTCATCTTACAATTACATATATTC
Y
CTAGTTATTTCTTATTTATCTTATACCTAACTAAGCAACTTTAGGAGAGAATTCATATGTTCTATTATTTTTTACAAAATATGATATATGTATTTATGTG
Celera SNP ID:            hCV8875857
SNP Position Genomic:     98025
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26370):
TTTAAATGGCTCATTTAAATACTACAAGTTTATCAGTCTCTAAATTTTCAGCCTAGGAAAATTTCAGCCAGGAATTTGATATTAGTCCTGATGCATCACG
R
AAGTACGGAAACTCAGTTTCTACAGACCCAGGGCTTCCTGGGGTTACCTCAGGCCACTTATATCTCTTATCTGTGCTTTTCCTTAGCTGACATTTGGTTC
Celera SNP ID:            hCV8884678
SNP Position Genomic:     32967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26371):
GCAAATTCATTGAGTAGCCATGAAGTGGCAGTGGCACTCAGCAGAAGCTAGCAGGTTGAGGTGACTAAAGAATGGAGGATTTTAGATAGATGCCTTTTTA
S
TGAGAGGAAATAGGGTGATTGAAAGAGCCCTTGGATAAGGGATACACATCTTAGACTAGACCCCCCTTCCACCACTTCACTATAGGGATTGGGTGTTTTC
Celera SNP ID:            hCV8875858
SNP Position Genomic:     98274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26372):
TTGGAGCAGGTCTCAGGGCCCATTGCCTGGCACACCTCCTCCCAGAATTCCTGAGGTATAACCTTCTCAGGAAGATAGCAGAGCTCTTTTCTAACACTCC
R
CTATTTCTGGAGAGTAGTGAGTATATTCCCCTCCAGGCCTTTTCACTTTTATTCAGAAACACAGGGAAAATAATAAAAGTCTGTCTGTATTATGACTAGC
Celera SNP ID:            hCV8884679
SNP Position Genomic:     34877
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26373):
GTAATGTGAAAGAACTTCTCCAAATAAACCTGCCCACCACATTCCCTCCACAAAATTTAACTTAGTGCCTGGTTTTCAAGAGGAAATAGAATCAGAGGAA
Y
TGTAATAGATAAATTTAATTTTAAAAATAGAATCACACAAGATAAATTTATATTGAAATAGATGTATTTGACATAAATAGTAGGAATGTGACCGGAAAAT
Celera SNP ID:            hCV11480804
SNP Position Genomic:     80771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26374):
AGTCATGTCTTTGTAGCCATCTAGATTTCTTAGCTCTGTTGCCTCATTCTTCCTCCTCATTCTTCCCCCAGCCACGGTGGAGAAATAAAGTTGTCTGGGG
K
CTCATTACTGGACTACCCAATCTCAGTTCCCTTCTGTACTTTAGAACTCTCTCCTTCCCTCATCTTGATTTCACTAGGCCACACTATAACCCTGCTTCCT
Celera SNP ID:            hCV11480809
SNP Position Genomic:     50141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26375):
GGTATTTTTGTATAATTCTGTCTTATCTGGTGCATCAGCTGTGTATTTTACGTCAAGGTAAATGAGCATCCTGTTTTATATGTTAAATTTTAAAAATGAC
K
TTTTCAAAGAAGAATGTGATTGCTGTGATTTTTAAGTGTGTATATTTTTTCCAAAATTAATGTGACTTCTTCTGAAGCTCCGACCTTTTTTTTTTTTTTT
Celera SNP ID:            hCV1150514
SNP Position Genomic:     177324
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:26376):
CATTCAGGAACAAAGAAGCATAACCTTTGTTGACTCTTGTAATTTATTATATGCTTCATTTAAACCCATTTTGTAAAGAAATCAGGTAACAGTCATTTAA
Y
CTGATATAATTAGAAATAGCTGAGAGAGTAAAAAAGCATTTTGAATGTCCTATGTATGGCATATCCTGTACACCAATTGAAGGTCAGAGCTTTGGTATTT
Celera SNP ID:            hCV1150515
SNP Position Genomic:     177130
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:26377):
ACTGTTTTATTTCTGATATTGCCTGCCATTACTCAGGATGCAAGAGATGCTCTGCATTCCTTATTAGGAAAAATTGGCCTGTAAGGAGAATGGTATACTG
Y
GTATTACTACTGTGAGACTGTAAAATTGTTAATGGACAGTGTAAAGAATTGTATTCATTTTATTAGCAAGAAAAATATTGCATACAAGAACTACTGCCCT
Celera SNP ID:            hCV1150516
SNP Position Genomic:     176768
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:26378):
ATTAACCAAGGCTAATTTCCTGGAGTTTAATACACTTTGGATTCAAGTAAAAACAATCACTTAATGCAGCAACATCTCAGACCCTCTTCACTCTAGAACC
R
TTTTATACAAGAGAACTCAACATTTACTGTTTTATTTCTGATATTGCCTGCCATTACTCAGGATGCAAGAGATGCTCTGCATTCCTTATTAGGAAAAATT
Celera SNP ID:            hCV1150517
SNP Position Genomic:     176642
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:26379):
GCCAACTTAATCAGTGCCCTGACAAAGCATCCAGCACCAACACATACATTAGAAAGGTATCTAATTCCTCACCATTTTGGTATTCTAATTTTATAAATTT
Y
AATTCTATTCCATTTTGAGAGTATCTAGGGATCAGAACCTTTATGGAAGACTAATAACTAGGTAAACACTATTACCTAGCTTAAGAGACCCTAAAATGTC
Celera SNP ID:            hCV28984110
SNP Position Genomic:     36905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26380):
CTGGGAAGCAGTGAGCCAACATAATTGTCCTTTCCTCTACAGAATAGCTGTGCAGAAGGGGACCACCACACTTAGGACCAGTGCCAGGTGACAATCTTTC
Y
GTCATGCTGCTGCAGCATTTTGCACCTTGAGAGACAGGAAAAAAAATGGGGGTGAGGGAGTGGAAGATGATGAAACTATTTCTCTTTTATGTCTACATCC
Celera SNP ID:            hCV1150518
SNP Position Genomic:     176318
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:26381):
AATGCTAATTTCTTTTTTTGTCATAGTAACAGAGCAAGCCAACTTAATCAGTGCCCTGACAAAGCATCCAGCACCAACACATACATTAGAAAGGTATCTA
R
TTCCTCACCATTTTGGTATTCTAATTTTATAAATTTTAATTCTATTCCATTTTGAGAGTATCTAGGGATCAGAACCTTTATGGAAGACTAATAACTAGGT
Celera SNP ID:            hCV28984111
SNP Position Genomic:     36868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26382):
CACAATGAAAGCCAGTTGTGGTCTTGAAAAATCTCTCTATTGCATTACTTATCCTCACCCTTGTTTTTTAAGAGGTAGAGAGAGATTACTGGGAAGCAGT
K
AGCCAACATAATTGTCCTTTCCTCTACAGAATAGCTGTGCAGAAGGGGACCACCACACTTAGGACCAGTGCCAGGTGACAATCTTTCCGTCATGCTGCTG
Celera SNP ID:            hCV1150519
SNP Position Genomic:     176230
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:26383):
CTTGAATATCAATGAATGTCTACTTAGCAATCATCTTTTCCAGATGATTCTTATGTCTTAAAATAATGTTACTTCAAGAAGGTGCCTAATTGTAAGACAT
M
CTTACAGTAATAGTAGTTGGGTTGTGATGCAATTTGATAATGTGAGATTCTCTTAGAAAATAAAATTAGTAATAAATAACTACAGCTGAGTTTATAATCT
Celera SNP ID:            hCV28984112
SNP Position Genomic:     33880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26384):
AGGCTTTCAACAATAGCCTTGAATATCAATGAATGTCTACTTAGCAATCATCTTTTCCAGATGATTCTTATGTCTTAAAATAATGTTACTTCAAGAAGGT
R
CCTAATTGTAAGACATCCTTACAGTAATAGTAGTTGGGTTGTGATGCAATTTGATAATGTGAGATTCTCTTAGAAAATAAAATTAGTAATAAATAACTAC
Celera SNP ID:            hCV28984113
SNP Position Genomic:     33863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26385):
TACTTATTCTAAAAATTTACTTGCTGTTTATCTGAAATTCAAATGTAACTGAGTATCTAGCAACCCTACATCCTGATATTCAACTTTCCTACTCCCCTGG
Y
CATGACTGGCTTGGGCAGGAGAGATCTTTGCCTGGGTAGATGTTGGGAGGAGCCTGGTGAATGTATTCCTTCCCAGGATTGGTCTTGGCTCTAGTTCTGG
Celera SNP ID:            hCV28984114
SNP Position Genomic:     33576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26386):
AAATATAAATTTGGAGGTGAGCCAAAGTTAAAAATATAAAAATATAGCCAGTGTTTCTCTCCTACTTTCCTAGGGTTGCTAGGTTTTGGGAGCCTGGGAT
R
GGGGAAAACAGTAGAGGAGACATACTTATTATAAAACATTCAAAATAGTGAATGGGACATACTTATTCTAAAAATTTACTTGCTGTTTATCTGAAATTCA
Celera SNP ID:            hCV28984115
SNP Position Genomic:     33416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26387):
GGTCACATGCCCACATTCTATGAACCAGGAGCAGGATAACGGACTATTCTATATGCCTACATCTCCTCCTCTCATTCACATCTCCTATGTACCTTCCCCA
R
CCAGGAGGAATTTGTGGATTCTAGGTAGCCAAAACAAAAGAAAATATTCACTAACCATTTTAAAGAAGTTGAAGTAAGAGAACTAACATTTACCAAATAC
Celera SNP ID:            hCV28984116
SNP Position Genomic:     31889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26388):
AGGAAAGGCTAGAAGTCTGCAAAATTATACAATTGTACTTTAGTGCACCAAAGATTAAAAATAATGCAGTCAGAATAACATTTATTTCATCTACCAGAAT
S
TTACCCTATTTCTTGCCTTTGATTAGTTTAAGAATAGGAAACTAAGATAGTACAGACTTATAAAGATATAACGTATTTATAAATATGTATCTTTGCATAT
Celera SNP ID:            hCV8884683
SNP Position Genomic:     35784
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26389):
GACAACCATCACCAATACACTGGGGCTTCTGAGAGACTCAACCAGAGCTTCTGAGAATAATCTCTGAGTGTGAAAATCAGATTGGCTATTGAAAGGTCAC
R
TGCCCACATTCTATGAACCAGGAGCAGGATAACGGACTATTCTATATGCCTACATCTCCTCCTCTCATTCACATCTCCTATGTACCTTCCCCAACCAGGA
Celera SNP ID:            hCV28984117
SNP Position Genomic:     31795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26390):
GAATGCTTTGCCAAACACTCCCCTATTTTTAAAGTTGTTGGGGGACTTTAAACTTGAATATAGGGTGGTAGGACAATTGTTTGAACCACTCTGTAAATAC
R
TGCATGAAAATCTTGAGGTTTACAAATATTTTTTAATAGTTTGCCACATTTCAATGGCATGTCAAGTTGCAGGGTCCTGCCACTTTTCTTCTTGTTATTT
Celera SNP ID:            hCV28984118
SNP Position Genomic:     29764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26391):
AATCATATATAACTCCTGCTTCTCTCTCCTCTTCATAAAAAAGAATGCCCCTGTCTCCAGCATTTGGTTTCAAACAAGAATATCTCAATTGTTTATTTTC
Y
AGATTGCCAATTTAGATTACCACTTAGTCCAGTATGTGTTTAAAATATATATGTGCTGGACTGTGCCTTGGTAATAGTTTCAGGAAGAATTGCTCATTCA
Celera SNP ID:            hCV8875864
SNP Position Genomic:     111299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26392):
GGTTTGGCTGACTACTAAGGAGAGCAGCCTGCTAGAAGGAGCAAATTCCAGAGCTGAGGGTCATTTATTTGGAATGCTTTGCCAAACACTCCCCTATTTT
Y
AAAGTTGTTGGGGGACTTTAAACTTGAATATAGGGTGGTAGGACAATTGTTTGAACCACTCTGTAAATACGTGCATGAAAATCTTGAGGTTTACAAATAT
Celera SNP ID:            hCV28984119
SNP Position Genomic:     29693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26393):
CAATTTAAAAGGCCATCTTTGAAAAGACAGTAAAACAGACTTTTACTATGAAAAGCTACCATCTGGAACCCTTAGTAAACTGACTGTTGTCTCATAAAGA
R
TACAACCAAGCCTAATGCAACTTAATTGTTCACACAGTTTTGTAAGATGTACTTCTTCTATAACTCTACAGGACTTAAAAGAACTCATAATACTATATGA
Celera SNP ID:            hCV8884685
SNP Position Genomic:     51444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26394):
TGTCTCCAGCATTTGGTTTCAAACAAGAATATCTCAATTGTTTATTTTCCAGATTGCCAATTTAGATTACCACTTAGTCCAGTATGTGTTTAAAATATAT
R
TGTGCTGGACTGTGCCTTGGTAATAGTTTCAGGAAGAATTGCTCATTCAAAAGCAGGCAACTCACTTGCTGATTGCCTTTGCCAGCAGATAATGACATCA
Celera SNP ID:            hCV8875865
SNP Position Genomic:     111350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26395):
AGTGCGCCTGCGCACGCGCGAACTGCGGCCCCGCCTCTCCTTTGGGGACGGGAGACGTGCGTCGGGTCGCGGGACGGGGGCTGCGCATGCGCCTTCATTT
M
GTCAGCCCGCTGTTGCGTGCTGCCAGCGGGAACTGTGTAGGGGTAGATTTTCGCTGCAGTGTTCCCCGAGCCTGTTAGACGCAGCGCGCCGGGAGACTGA
Celera SNP ID:            hCV27841549
SNP Position Genomic:     18187
SNP Source:               Applera
Population(Allele,Count): african american(C,20)   caucasian(A,6|C,34)   total(A,6|C,54)
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:26396):
TATCTTTGTTGGTGAGCAGACACTCAGAGATCCTTTAATTATCTGACACACCAGGGAAATCTTGGCAATCAACTAAGGACCTGTGACACTCATAACTATG
W
TTACATTTGGCTTTAGCATATTTCAGGTAATATCTTTATGAAAAAAAGATGAAGTATGGAATTGTAGGAACTCTTTTGCAATAGACTGAGATCCAATGTT
Celera SNP ID:            hCV1150520
SNP Position Genomic:     175952
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:26397):
ATATAGCAAAAGCTTTCCCCAGTAGCTGATGAATTTAGAACTTTATACAAGACTCCCTAGCATTTTCCTCCTCCCACAGGCTGGAGAATTTCAGTGCTAT
S
AGACTGGGCAGTAGGAGCCAGAGCCAATTTGCAGGATCTCTTTTCCTTCTGCCTTCCAGTTGGCTTCTCTTCTCAGCTGCGTGGTGGGGATGATTTGGGG
Celera SNP ID:            hCV1150521
SNP Position Genomic:     175690
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:26398):
CCTGCTTTTCACAACATTGAGAAACAGGCCCAGAGCCTGTCTCATGTGCCAGGTGCAGTCACATTATTGTTAAAATAAAGTGGCTTCTGACAAATCAGTT
Y
TTCAAAATAGCATCCTATGTACTTTTCATTTCTTCCAACAACCCTCAGGCCCCCTTTTGCCAGTTTTCTCCCCCAGGGGAGATTTTCAAGACTACTGGAG
Celera SNP ID:            hCV1150523
SNP Position Genomic:     174487
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)   POOLE|_CEPH(T,52|C,136)   total(C,136|T,52) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:26399):
TATTTAATGATTAAGAAATGTACTAGACTCTATCATTTACTTTTAAAACATTTAATTAGAAAAACAGGTGATATTTAAGACTATTTATAAACTTATTGGC
Y
AAATTGCCAAAAAGTTTCTTTTTCTCTAACTTTGGTATTCTAAATAATTGATTATTGCTCCCATTGTAAACTGAACCATGTATGCACTCTCTTTTCTGAC
Celera SNP ID:            hCV1150524
SNP Position Genomic:     173137
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:26400):
TAGTAAAGCTAACGGATCCATTGAAATTCATACTCAGCATCTGTGACTACTAGACAAAGCCCATTTACTGAACCATAAGTGTGCACTTTTAAACTAAATT
R
TTAACTGAAAGGGAAAAAATAGAAATGAGGGCATTTTGAAGTTTTTAGAAAAGAGAGGAAGAGCTGTTGGCCAGATCAAAGAGATACTTATAAGCCCGGC
Celera SNP ID:            hCV1150525
SNP Position Genomic:     172557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;(A,-|G,-)   (A,-|G,-)   Caucasian(G,24|A,58)   African-American(A,36|G,44)   Asians(A,38|G,44)   total(G,112|A,132)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:26401):
TTTTTAAACTAATTTCCAAAGAATTTAGCTGAAGACTCAGAGTCAGCCTACCTCTTGACTCTCCACATCCGCATCTAAGATCCTGAAGGCCAAAGGAATG
Y
GCCTGTGGGATGCCAAAGCCATCAGTAGCTGGAAGAAAGAATACCTCTTTCTAGAGGTTTGGTGTCCTCTTGCTGGCCTGTCATTATTTGGAAATACGCG
Celera SNP ID:            hCV1150526
SNP Position Genomic:     172184
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:26402):
AAAAGCTGCCAGATTTGGGGTTTGGCTGACTACTAAGGAGAGCAGCCTGCTAGAAGGAGCAAATTCCAGAGCTGAGGGTCATTTATTTGGAATGCTTTGC
Y
AAACACTCCCCTATTTTTAAAGTTGTTGGGGGACTTTAAACTTGAATATAGGGTGGTAGGACAATTGTTTGAACCACTCTGTAAATACGTGCATGAAAAT
Celera SNP ID:            hCV28984120
SNP Position Genomic:     29675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:26403):
TAAGTAAATGTTTACTCTTCTCCCCTATAAATTACAGGGATAAATATAAAATCCCTTAAGATTTTTGCAGGGAAATTCTCCTTATGAGTTGCTTAACTTA
Y
TTTGGCTGTATGCCATTTTTGTTACACAAATTGATGGGTAATTTTCAACAATGCGTAGCTAAATTTTGAAAAATTCTTTCCTGTCATCATTTCAGATTCC
Celera SNP ID:            hCV25636661
SNP Position Genomic:     143306
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,38)   total(C,71|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:26404):
TTAAGATTTTTGCAGGGAAATTCTCCTTATGAGTTGCTTAACTTACTTTGGCTGTATGCCATTTTTGTTACACAAATTGATGGGTAATTTTCAACAATGC
R
TAGCTAAATTTTGAAAAATTCTTTCCTGTCATCATTTCAGATTCCCTTTGCCAAAGATTGTGGAAATAAGGAAAAATGTATCTCAGACCTCAGCCTGCAT
Celera SNP ID:            hCV25473012
SNP Position Genomic:     143361
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,24)   caucasian(G,34)   total(A,12|G,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:26405):
CCACATAGAAATTAAATGTTATAAATTTATTTTTTTAAACTAATTTCCAAAGAATTTAGCTGAAGACTCAGAGTCAGCCTACCTCTTGACTCTCCACATC
Y
GCATCTAAGATCCTGAAGGCCAAAGGAATGCGCCTGTGGGATGCCAAAGCCATCAGTAGCTGGAAGAAAGAATACCTCTTTCTAGAGGTTTGGTGTCCTC
Celera SNP ID:            hCV1150527
SNP Position Genomic:     172153
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:26406):
TCAGTGTGTTCTCAGCCTGAACTGGAAGAAAATGGGATAGCATGTGGAATGTGGGAAAGTGCGAAGACTGATGCAAAATTCACTATCTGCCTCATTAAAT
R
CACTAGTAGGTTTTCAAGAGAATGAGTCTGTTATCACCACAGTAAATTTCTCACTCTGGGCCTAACTCCTTATCTAAAACTTAATAGAGCTTAATAAGTG
Celera SNP ID:            hCV28984121
SNP Position Genomic:     28763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26407):
AAAATTCCAAGACAACTTAGTATAACAAAATTCACATTGAACTAAAAGTTATGAAAAGCTGCTTTTACTGTTTACTCACTCCTTTAAATCAAAAGAACTG
R
ATGTAAACTATTTTTTTATGTCATCTCCTGTTCTTCAGGCTCTTCGGTGCCTCAGAAAACATAAAAGAGTCTGATTTACAATCATTTTGGGCAAATTGCC
Celera SNP ID:            hCV27855387
SNP Position Genomic:     63075
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,36)   total(A,2|G,72)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26408):
ATAAATATAAAATCCCTTAAGATTTTTGCAGGGAAATTCTCCTTATGAGTTGCTTAACTTACTTTGGCTGTATGCCATTTTTGTTACACAAATTGATGGG
Y
AATTTTCAACAATGCGTAGCTAAATTTTGAAAAATTCTTTCCTGTCATCATTTCAGATTCCCTTTGCCAAAGATTGTGGAAATAAGGAAAAATGTATCTC
Celera SNP ID:            hCV25473013
SNP Position Genomic:     143345
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,26)   caucasian(T,38)   total(C,10|T,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:26409):
TTTCACCCTCTAGGACAAGCATGACTTTCAGGACTCTGTGAGAATAACGTTGGACTTTAATCTTACCGATCCAGAAAATGGGCCTGTTCTTGATGATTCT
Y
TACCAAACTCAGTACATGAATATGTAAGTCAGATTTCTTTAAAATACAAAATACCAACTTGTGAACATTTTAATGTCACTAGTAAACTGTGTTTTTTCAC
Celera SNP ID:            hCV25636662
SNP Position Genomic:     140987
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:26410):
AATGAAATACGACAGCAGAGAAAGATGCCACTGAAATGCTGAAATTATCTTTGCTGAGCAGCTTTTGAATGCTAAGGGTTCCAGTATGTGACCCAAAGAA
R
GAGTTGTCTCAACTCCTTGGTACAGGGTTCATTCAAACCCCCAAGCTGTGAGAGTGTGTTTATTTTTAATTTTTTAAAAGGTATTTAATTTCCAACCACA
Celera SNP ID:            hCV16007977
SNP Position Genomic:     171526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:26411):
GGAATGAACTCTGGGAATAGTTCTCTGACCCTTTGTGTGTCAGTGTGTTCTCAGCCTGAACTGGAAGAAAATGGGATAGCATGTGGAATGTGGGAAAGTG
Y
GAAGACTGATGCAAAATTCACTATCTGCCTCATTAAATACACTAGTAGGTTTTCAAGAGAATGAGTCTGTTATCACCACAGTAAATTTCTCACTCTGGGC
Celera SNP ID:            hCV28984122
SNP Position Genomic:     28724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26412):
CTGCATGTGTGAACTACTGCTGTAAAGTTTGCTGACATTTCTGCAACAACATTTCTCCATCTGATTTACCAGAACCTGTAACAAGACCAGAACATGTATT
Y
ATCCAGAAACTCCTGGGCTCTGCTTTGTTCAAAGAGGAGCAAATCCACATAGAAATTAAATGTTATAAATTTATTTTTTTAAACTAATTTCCAAAGAATT
Celera SNP ID:            hCV1150529
SNP Position Genomic:     172008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:26413):
AGTATATTAAATGGGTTAAATTAAGCTTTTACAGAACATGCTTAATTTTGATATTGAGCTCTAAATGCAAAACTCTTTTATACTGAAAAAACACTTAAAG
Y
AGTTTTGTGTGGCATCACAGTGATTTGTCATGAAAAGCCATATATGGGGGACATGCTAAAATGGCTTCTGAATGAAATACGACAGCAGAGAAAGATGCCA
Celera SNP ID:            hCV16007978
SNP Position Genomic:     171355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:26414):
GCAACAATGCTAATTGGCTTGTGATCACTTAAATGTTTTCCTAAGGGCAAGGAAAAAATAAGCCTTTGGAATTTCCCTCTAATCCAAAAAAGCAGGTTTG
Y
GAAAATCCAGAAGAGAAAAAAAAATTGTACTTTTCATACTGCTTAGGAAACTTTAATCTTATTAACTTTTGTCAAGGATATTGACAGTACTGGGGAAGCA
Celera SNP ID:            hCV12014514
SNP Position Genomic:     156690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26415):
CTGAAGTCAGGAATAAAGAAGTGACAAGGAGCTAGCTGGGGCCTGGGGAAGGCCCTGGGGCTGGACACTAGAAAGACCCACCGGGGTCTTTTCTATTTTT
W
TATTCAACATTTTATCTTTCGTTGTAAAACTCAGGAAAACACCTTTAACAAACAAAAATAACTTCTCTCTTAAGTTGTTCATTTTACTAAATGGCCAACA
Celera SNP ID:            hCV28984123
SNP Position Genomic:     28449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26416):
TGTGCATGATGTCAGAATTTGGAAATCTGTCTTTTCATGCATTTTTTAAAGTGTTCCCAGAAATCAAGAAATAGCAACAATGCTAATTGGCTTGTGATCA
Y
TTAAATGTTTTCCTAAGGGCAAGGAAAAAATAAGCCTTTGGAATTTCCCTCTAATCCAAAAAAGCAGGTTTGCGAAAATCCAGAAGAGAAAAAAAAATTG
Celera SNP ID:            hCV12014515
SNP Position Genomic:     156617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26417):
CAGCAAAGATGGGGATGGTGACAGGGGAGTTTGAGACATTCTGTCCCTTTCCATAGCCATTCCTGGAAGAAAGAATGTCCAGGATTAACTGGTTGGTGGC
R
CAGCCACCTCAGGGAAAGGGAAACTGACCCCTGGGGACTGAAGTCAGGAATAAAGAAGTGACAAGGAGCTAGCTGGGGCCTGGGGAAGGCCCTGGGGCTG
Celera SNP ID:            hCV28984124
SNP Position Genomic:     28311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26418):
ACAGCAAAGATGGGGATGGTGACAGGGGAGTTTGAGACATTCTGTCCCTTTCCATAGCCATTCCTGGAAGAAAGAATGTCCAGGATTAACTGGTTGGTGG
Y
ACAGCCACCTCAGGGAAAGGGAAACTGACCCCTGGGGACTGAAGTCAGGAATAAAGAAGTGACAAGGAGCTAGCTGGGGCCTGGGGAAGGCCCTGGGGCT
Celera SNP ID:            hCV28984125
SNP Position Genomic:     28310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26419):
TTGGTACTTTAAGAGCAACAGTGTTAAATCTATACATTGCTTTGGGCAGTATGGCCATTTAATGATATTAAATGAAAGGTTTTTTCTTTTATTTGTCTCA
W
CTCTGATTTCTTTCAGCAGTGTTTTTTAGGTCTCCTTTTAGAGATCTCTTACCTCCTTGGTTAGCTGTATTCCTGGATATTTCAGTGTTTTTTGTAGCTT
Celera SNP ID:            hCV15793181
SNP Position Genomic:     160549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26420):
ACTCAATTCTGTGGTCCTCTAATCTACCTGGATCATAGTGGAGAATTAGAAAGCAGAGAAAATGTGGCAAATCTATGTATTAAAGCAATCCCCTCAAGCA
Y
TATCCAGCATTCATTTATTGTTATTTCACACCTAGTTTCAGCAAGCTTTTTTTGTTGCTTAATTTTAAACCTACAATTAAGTCATGCACTATTACAATAA
Celera SNP ID:            hCV28984126
SNP Position Genomic:     25863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26421):
TAAAAATAAAAATAAATTATTTGATGACACTAAATTTTATATAATCAGCCAAAGTTTATGCAATCATTTTTAATGTTTTTATTCTATTATTTTGTCATCT
Y
ATGAAAAATCAGGAACTCAATTCTGTGGTCCTCTAATCTACCTGGATCATAGTGGAGAATTAGAAAGCAGAGAAAATGTGGCAAATCTATGTATTAAAGC
Celera SNP ID:            hCV28984127
SNP Position Genomic:     25748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26422):
TTTTACTATGAAAAGCTACCATCTGGAACCCTTAGTAAACTGACTGTTGTCTCATAAAGAGTACAACCAAGCCTAATGCAACTTAATTGTTCACACAGTT
W
TGTAAGATGTACTTCTTCTATAACTCTACAGGACTTAAAAGAACTCATAATACTATATGATTGTATTATGGGTTCCATAAAACATTATGACAATGTATTT
Celera SNP ID:            hCV8884693
SNP Position Genomic:     51484
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26423):
GGGTGTGATGAGGTGCTCCCTCAGCTATCACCCTAAAAAATCTAAGAATGCCAGTTCTTCTCAGCTTTCAGTTTGGAGTAGGCAAACATGTATCTAAAAA
W
AAAAATAAATTATTTGATGACACTAAATTTTATATAATCAGCCAAAGTTTATGCAATCATTTTTAATGTTTTTATTCTATTATTTTGTCATCTTATGAAA
Celera SNP ID:            hCV28984128
SNP Position Genomic:     25654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26424):
AAAATGTTTTGGCAGTCATATTGCCTGGCTTTGCCCAGGGTTGGTACCACTGTCCCCACTCCAGGAATGGACAACCTGTTATAACAAAAGTAACTGTGTG
Y
TTATTAAGTGTCAGGTCTTATGGTAAGTGCTTTAAAATGCATTAGTCTTTCAAGAACCCAGTCAGAAGGGTTTTGTCATTACTATTTTCTGATGCAAAAA
Celera SNP ID:            hCV28984129
SNP Position Genomic:     25405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26425):
CCTAGTGAACATGCATACCCCAGACATTTTACCTTTCTCTTAAATTATTCCATCTGATTTTACTACCTTGCTCTTGCTAGAGTTAAGAGTTTTCTGAAAG
Y
TTATTCAGTGTTAACTAATGTTACTTTTCCTGGGCCATTTTTGTTGGTATTGAGTTTTTTCTTTATGTGATCATAAAGTTATAGTTTAGAACAAGGTTAT
Celera SNP ID:            hCV8884694
SNP Position Genomic:     51700
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26426):
TTGTTGTGTGGTTTGGAGGCTGTAGAGAGCATAGGAGACTTTAAGATTATAGTACTGCAATCAATACAGTGATCTTCCTTTTTTTTTTTTTTTTCTGAGG
R
CTTTACTTTGGGAGAAGTTTCTGAGGCACTGAAAAAGCAGACTGACTGCGTTAATGTTTGCCACACCTACATTAAATTTGGAACATAATATGTGCACATA
Celera SNP ID:            hCV8884695
SNP Position Genomic:     85163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26427):
TACAAAATATGATATATGTATTTATGTGTTTGTTTCATCATATACTCTAACATATCTCAGTTAACTAGCTAGTTAAGCAAATTCATTGAGTAGCCATGAA
R
TGGCAGTGGCACTCAGCAGAAGCTAGCAGGTTGAGGTGACTAAAGAATGGAGGATTTTAGATAGATGCCTTTTTACTGAGAGGAAATAGGGTGATTGAAA
Celera SNP ID:            hCV243190
SNP Position Genomic:     98198
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26428):
ACTCAGCAGAAGCTAGCAGGTTGAGGTGACTAAAGAATGGAGGATTTTAGATAGATGCCTTTTTACTGAGAGGAAATAGGGTGATTGAAAGAGCCCTTGG
R
TAAGGGATACACATCTTAGACTAGACCCCCCTTCCACCACTTCACTATAGGGATTGGGTGTTTTCAACTCAGTTTCCTCACTTATGAAACATTATCATGT
Celera SNP ID:            hCV243191
SNP Position Genomic:     98309
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26429):
AGGTCAAGAGGAGAAAACTGGATTTTAACATATGGACCTAGTATTTCAAGGAGTAGCTTGAAGTTTTATCTATTTTTAAAAAATTAGAATAAAAATCTAT
M
TTTTAAAGTATATTTCGAAGTCATTGATACAGGCAATGGAGAGTTATTGGAGGTTTTTGAACAAGTATGTTATAGGATGAAAGCAGAGTTTCAGGACAGT
Celera SNP ID:            hCV243193
SNP Position Genomic:     95264
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,11)      total(A,2|C,11) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26430):
GCTTAGTAGGAGGGACAAAGAAGTGCATTTGGTAGGAGTGGAGTTCATATTGGGGAGTCCTGAAGATGGGGGTGAATGGAGAATTTAGCATTGGAATATT
R
AGGGACTGAAGGTCAAGAGGAGAAAACTGGATTTTAACATATGGACCTAGTATTTCAAGGAGTAGCTTGAAGTTTTATCTATTTTTAAAAAATTAGAATA
Celera SNP ID:            hCV243194
SNP Position Genomic:     95154
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26431):
TTGAGAATAAATCTGCCACTGCCTTCTCTCTAGTAAGGAACATTCAAAAGCCACTGCACTGCCTTCAAGACTCACTTTCTCACATTAACATTGAGTGTAC
R
TTATAGTATTTCAGTTGCTGCTCTAAACTACTATCCATTTTTTTTTTTAAATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGAAGTGGCACGATCTCGG
Celera SNP ID:            hCV1150600
SNP Position Genomic:     107203
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26432):
CCCAGAGGACAGGGGCAAAGTGGCTTAAAGTCCTCTGATGAGACGTGTGGTATTTCCTCTGGGATGGTCACTGATACTCCCCAGGGAAAAGGATGAGGGC
Y
TTACTGAAGCAAAAGAAAAGAATTGAGAATAAATCTGCCACTGCCTTCTCTCTAGTAAGGAACATTCAAAAGCCACTGCACTGCCTTCAAGACTCACTTT
Celera SNP ID:            hCV1150601
SNP Position Genomic:     107080
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26433):
TACTTCAGAGCTAGCTCTAGTTTTAACAGTGTGCTTCTTCAAAACAGCTTGCAGTTCTTCTCAGACATTAGTGCATTACTCCTGTAACCTCATTATTCCT
R
TAGCTTCATGGAACAGCAGGTGAGGGAGCTGAGAAAGAGGCAAGGGCACCCAGTGACTTGGGTGGTCCCAGAGGACAGGGGCAAAGTGGCTTAAAGTCCT
Celera SNP ID:            hCV1150602
SNP Position Genomic:     106913
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26434):
TGAAGTAGTCATTATGGTTCATTGGAATCTACTGTAGCATAAGCTCCTAGGTTGCTCCATTTCTTAGGAAAATAGCAATGAATGAATGTATAGTAGCTGC
W
TGTGTGAACTACTGCTGTAAAGTTTGCTGACATTTCTGCAACAACATTTCTCCATCTGATTTACCAGAACCTGTAACAAGACCAGAACATGTATTCATCC
Celera SNP ID:            hCV1150530
SNP Position Genomic:     171912
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,4)      total(A,4|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:26435):
AGTGGGGAACAAGTTCTGAAATAAAAAGTTACCCAAATGGTATGCCAATTACTTCAGAGCTAGCTCTAGTTTTAACAGTGTGCTTCTTCAAAACAGCTTG
M
AGTTCTTCTCAGACATTAGTGCATTACTCCTGTAACCTCATTATTCCTATAGCTTCATGGAACAGCAGGTGAGGGAGCTGAGAAAGAGGCAAGGGCACCC
Celera SNP ID:            hCV1150603
SNP Position Genomic:     106864
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,8)   total(A,4|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26436):
TTCTTGAAGTAGTCATTATGGTTCATTGGAATCTACTGTAGCATAAGCTCCTAGGTTGCTCCATTTCTTAGGAAAATAGCAATGAATGAATGTATAGTAG
Y
TGCATGTGTGAACTACTGCTGTAAAGTTTGCTGACATTTCTGCAACAACATTTCTCCATCTGATTTACCAGAACCTGTAACAAGACCAGAACATGTATTC
Celera SNP ID:            hCV1150531
SNP Position Genomic:     171908
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:26437):
GACATTCTAGTGGGGAACAAGTTCTGAAATAAAAAGTTACCCAAATGGTATGCCAATTACTTCAGAGCTAGCTCTAGTTTTAACAGTGTGCTTCTTCAAA
R
CAGCTTGCAGTTCTTCTCAGACATTAGTGCATTACTCCTGTAACCTCATTATTCCTATAGCTTCATGGAACAGCAGGTGAGGGAGCTGAGAAAGAGGCAA
Celera SNP ID:            hCV1150604
SNP Position Genomic:     106856
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26438):
AAAATTAAGTCACCAAGAATACATTTAGCATCTTTGTGTTGGGTTCTATACCTAAAAATTTTCCCTCCCTGCCCAAGGTGATTGGAAAGTACTGCAATTG
R
GCTAAAATTTTATCTAGGATGGAAAATCAGGATAGACTCGTTTAAAAACAAGTATATTAAATGGGTTAAATTAAGCTTTTACAGAACATGCTTAATTTTG
Celera SNP ID:            hCV1150532
SNP Position Genomic:     171204
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:26439):
AAGAAAAGAATTACCTGAAAAAGATCATTTCTCCCTATTCAAATGAGAATATTTTCCCTTGGTAGAATCCATATACAATATGGATTGAAAATTAAGTCAC
S
AAGAATACATTTAGCATCTTTGTGTTGGGTTCTATACCTAAAAATTTTCCCTCCCTGCCCAAGGTGATTGGAAAGTACTGCAATTGAGCTAAAATTTTAT
Celera SNP ID:            hCV1150533
SNP Position Genomic:     171117
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:26440):
GGAAAAATGCCTTTGCCTTTAAATAAGAGAGAGGATTTGTTCAGTATAACAAGAGCAGTGGCCATTGGGCTTCCCTTCCCCGTCTGAGCAATTTTCGACT
M
TCTTTTTCATTAATTATCTTCCCCCATCACTTAGCTAAAGTGGGGGAAAGTGCCAGTTGTCTCTGTTTAAATATTAACAACTTCTGACGTTTGACACTTG
Celera SNP ID:            hCV1150606
SNP Position Genomic:     106568
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,7)   total(A,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26441):
GATATCCATGTTCAGCATGACAGTCAGCACTCGTAAATGCCAAGAAAAGAATTACCTGAAAAAGATCATTTCTCCCTATTCAAATGAGAATATTTTCCCT
Y
GGTAGAATCCATATACAATATGGATTGAAAATTAAGTCACCAAGAATACATTTAGCATCTTTGTGTTGGGTTCTATACCTAAAAATTTTCCCTCCCTGCC
Celera SNP ID:            hCV1150534
SNP Position Genomic:     171076
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:26442):
TAAATTAAAATAGTTAATTGTGTTATGTTTTGTGTTTTCTCAACAGATTGGATTCTTCAAAAGACCACTGAAAAAGAAAATGGAGAAATGAAATATTTTA
Y
GAAAGAAAATAATAACAATTATTCAATAATCTATCCTCAGGTTTGCCTCAAATATGTGACAAGAAATGTATAATTCATGACATAGTCATGTAACTATGTA
Celera SNP ID:            hCV1150535
SNP Position Genomic:     170591
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:26443):
TTGGTTTGATTATATAGGAACATACGGCACTGGAGCTGTCTCAGCCTAATTGCCTATAAATTCAATTCTTTTAAAAGATAATATCATGGAACAGCGTAAT
M
AGATTTAGAGGGTGGGGAATGAGGAATGTGATCAGATACCAAGGATGAGGGATTTCCACTAAATTGATTAAGCCAGATTCTTGCTTAAACTGGACTAAGT
Celera SNP ID:            hCV1150608
SNP Position Genomic:     104135
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26444):
CATTGATCACAAAGAACGAACAACTAACTGGAAGAAAGAAAAAAAAGGCAAGCAGATTTTATTCCTGGTCAGGAATGGAGAAAGAGGGAGCTCTTGCTCT
R
AAGACCTTCTCTTCAAGCTGTGAAAACCTGGGGAATTTTAAGGAGTTAGATGTGGGGCAGGGAGGTATATGTAAGCATGTCCAGAGAGGAACTCCAGATG
Celera SNP ID:            hCV25636670
SNP Position Genomic:     141195
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,37|G,1)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26445):
AAATCAGGATAGACTCGTTTAAAAACAAGTATATTAAATGGGTTAAATTAAGCTTTTACAGAACATGCTTAATTTTGATATTGAGCTCTAAATGCAAAAC
Y
CTTTTATACTGAAAAAACACTTAAAGTAGTTTTGTGTGGCATCACAGTGATTTGTCATGAAAAGCCATATATGGGGGACATGCTAAAATGGCTTCTGAAT
Celera SNP ID:            hCV16007985
SNP Position Genomic:     171328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:26446):
CAAAATATTTTCCCAGAAGCTTTTAATTAGTTCAATGTGTATACTATATTTTACTAGGGGTCATGGTGTATTTAACCAATGAAAATATTAAAAATGAAAC
M
GCGGCCCGGCGCGATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCATGAGGTCAAGAGATAGAGACCATCCTGGCCAACAT
Celera SNP ID:            hCV1150536
SNP Position Genomic:     170036
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26447):
AGAGATTTAAGGAATTTAAAGCTTATTTCTATTTGGGTGCCACATTTGTTTTCAAAACACCCAATACTGAGGCAAGAGCAGTATTTGCCAAGTAGCAAAT
W
CAAGAGCAAAATGTTTTGGCAGTCATATTGCCTGGCTTTGCCCAGGGTTGGTACCACTGTCCCCACTCCAGGAATGGACAACCTGTTATAACAAAAGTAA
Celera SNP ID:            hCV28984130
SNP Position Genomic:     25297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26448):
CAATTATTTTTTAAAATTTTTGTAGATTTGCAGTACCGTGTCACCCTAGATTCACTAAGACAAATATCACGAAGTTTTTTCTCTGGAACTCAAGAGAGAA
R
GGTTCAAAGGAACATCACAGTTCGAAAATCAGAATGCACTAAGCACTCCTTCTACATGTTGGCAAGTAAATCATATATCGTTGCTGCCTTATTCCAAATC
Celera SNP ID:            hCV25636671
SNP Position Genomic:     138537
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26449):
AATACAGACAACTCAGAAATCTCCCTAACGCCCTAGCCATAATATACCTGTCAGATTCCCTACCATCTCTAATGACCTCAACTTATGGTCATCAATCATT
Y
GATGGAAATTTCTCTGCCACATCCCTGAAAAAAAAGATGATGGCAAAGAAGAGACAATGCTAGCTAATTGCAGTTTGTCTCCCAAAATATTTTCCCAGAA
Celera SNP ID:            hCV1150537
SNP Position Genomic:     169853
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26450):
AAGGTAACAAGGGGTTGCTGGTTCTTGTTTGCTCCGTTTTCTCAATGGCTTTATCTTCCTCTGGTAATTGGCAAAGGGTCCTGAAGCTTCCAGGCCGTCT
R
TAGTTGTTTTTCAGCAAGCTTACCTACAGATAAATAGACTAGAAAAAAAAAAACTGTTTAAGAAAAAATAATGCACTTTCTCAGCTATCTACTGTTTAAC
Celera SNP ID:            hCV12014522
SNP Position Genomic:     141507
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26451):
TGAAACGGTCTGTACATTAATGCCTCATAATAGCAGCTCTTATTTGGGAAAGGGTTATAGTACATTTAAACCATGTGGTTTTCCAAGCAAGTTAAGACTG
S
CTATTTGTGTTTAGTGTCAGAATATGTTGAATTAGAAGTTGAAGAGTTTCTAAAGTGATTTTAAGGGCTTGAGGAGAGATGAACCCTTTTGCTTAGAGCC
Celera SNP ID:            hCV28984131
SNP Position Genomic:     22892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26452):
TCTGGAGATGTGCTCTATATTGCTGGACAGCCTCGGTACAATCATACAGGCCAGGTCATTATCTACAGGATGGAAGATGGAAACATCAAAATTCTCCAGA
Y
GCTCAGTGGAGAACAGGTAAACTTGAAAAATATTCTTTTATTTAAATTAATCTATTCATACTCTATGTATATTTACTGTCTATTGTCCTAAACTTAAAAA
Celera SNP ID:            hCV25636672
SNP Position Genomic:     124026
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,31|T,1)   total(C,66|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26453):
TAAAGTTAATACAGACAACTCAGAAATCTCCCTAACGCCCTAGCCATAATATACCTGTCAGATTCCCTACCATCTCTAATGACCTCAACTTATGGTCATC
R
ATCATTCGATGGAAATTTCTCTGCCACATCCCTGAAAAAAAAGATGATGGCAAAGAAGAGACAATGCTAGCTAATTGCAGTTTGTCTCCCAAAATATTTT
Celera SNP ID:            hCV1150538
SNP Position Genomic:     169846
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26454):
ACTAGTATGTGGCAGTTGACTTAAACTCCAATACTCTTTACTATCATTGACTTAAACTCTGATACTCTTTACTATAATTATGGAATTGTGCAAATACCTC
Y
GAGTTTAAAATATTATTTTTATTATTTTTGGTGCACATTCCTAAAAGTTAAGGAAGGAGCCTCAGTAATGGAATTGCTTCTTGACCTTTTGCAAACTTCA
Celera SNP ID:            hCV28984132
SNP Position Genomic:     21008
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26455):
AAAAATAAGCATTTTAGGTTAGATAATTGCAAAGATCCCTTCTATCCCCCATACTTAGTTTTGTTATTCTATAGGATGGGAAACAATTGCAGCACTTATA
R
CTTTTTATGATGCCCCAAATTGCAAAGCATAATGAAATATGGCTCACCATCCACCACGATGTGAAATTTTTCTTATGGTCAACAACTTCATTTTTTATTT
Celera SNP ID:            hCV1150539
SNP Position Genomic:     169575
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26456):
AAATCAGTTATTTTTAGCTTTTTAGAACTTTGATCTGCTAGGGATTGTCAAAATAATCTCCTTGAGGCATCTTTATTTTTAAAATGAGATTAAAGTATGT
K
ATTTGCTTGTTATGTGGCTAATTAGTGGCAAAGCTGGAAGTCATTCCCAGTCTGGACTTTAGTTCTTTGCGCCAAAACATGCTATATTATTTATTTATTT
Celera SNP ID:            hCV28984133
SNP Position Genomic:     20683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26457):
TTTAAATAGTTTTACTATTTTAAATGATTGCCGTACAATTAGTAGACTTGAAGACAAGTTTTAAATATTTTTCTTCAAAGGCTTGTTAAACCAATCATGT
W
AAAAGGAAATTCTTGGTTTTGGTTTGTTGTTGTTAGCATTAGTCATATTTGATTTAGAGGGTAACTTAAATCAGTTATTTTTAGCTTTTTAGAACTTTGA
Celera SNP ID:            hCV28984134
SNP Position Genomic:     20515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26458):
GGGGAAAAGTGGGAAGTAAATTTGTAAGGCCAGTGCAAATTGGGATTGTAGACGTTAATTCATAGGGAATGGGAATCCAAAATGAATCAAAATAAAAATA
Y
AATGATTGGTCTAGAAATACTAAGCCATAAACAAAATCTGGGTGAAAACATCTAATAGTCAACTACAGGCTTAAATTACTAAGGAAAAAAAAAAGTTCCC
Celera SNP ID:            hCV28984135
SNP Position Genomic:     15183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26459):
CCTGTCTTTCCAGCTTGCTGTATGCTCTGTGAGGGTAGGATCTTTAACCATAACACCTAGAAATAATAGGCACTTTTTAATTGAATGAATCGCAAAAGAA
Y
TGACTATTGACAAACTCAGAAAATACTTAAGGGATCAGATTGTCCCTTTATTATATACCTCTGCCTTATTTTATTATACCTCTGCCTGAAATATTTCTGT
Celera SNP ID:            hCV28984136
SNP Position Genomic:     11374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26460):
TCTGGAGGTTCTAGGGGAAAATCAGTTTCCCTGTTTTCACCAGCCTCTGGCCACCACCTGCATTCTTGGCCTGTGGCCCCTTTCTCCATCTTCAACCGAG
S
AGGGTAGAATCTTCAGATCTTCCCCCATGACTCTGCTTTATCATCACATCTCCTTCTCAGACTCTGACCCTACTACCTTCCTAAGGATCCTTGTAATTAC
Celera SNP ID:            hCV28984137
SNP Position Genomic:     8672
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26461):
TTCTGGAGGTTCTAGGGGAAAATCAGTTTCCCTGTTTTCACCAGCCTCTGGCCACCACCTGCATTCTTGGCCTGTGGCCCCTTTCTCCATCTTCAACCGA
R
CAGGGTAGAATCTTCAGATCTTCCCCCATGACTCTGCTTTATCATCACATCTCCTTCTCAGACTCTGACCCTACTACCTTCCTAAGGATCCTTGTAATTA
Celera SNP ID:            hCV28984138
SNP Position Genomic:     8671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26462):
AGTCATTATATTCTGTAGGCTCTTCTTTAGCAATCTCTTTCAGATTTGGAAACTTCTCATCAATTCAGAGTCCGTTTGTAACCTGGGGACTCATCACCAT
W
CTTATCCATGCACACTACTGTAGAGCTTATCTTTCTGTCTTCAATTTGAACCCAACTTCCAGTCTACCCTCCTAATACATCATTTTTACTATATCTGTTT
Celera SNP ID:            hCV28984139
SNP Position Genomic:     8229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26463):
TGAGCTAAAATTTTATCTAGGATGGAAAATCAGGATAGACTCGTTTAAAAACAAGTATATTAAATGGGTTAAATTAAGCTTTTACAGAACATGCTTAATT
Y
TGATATTGAGCTCTAAATGCAAAACTCTTTTATACTGAAAAAACACTTAAAGTAGTTTTGTGTGGCATCACAGTGATTTGTCATGAAAAGCCATATATGG
Celera SNP ID:            hCV28984067
SNP Position Genomic:     171302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:26464):
CCTTGGTAGAATCCATATACAATATGGATTGAAAATTAAGTCACCAAGAATACATTTAGCATCTTTGTGTTGGGTTCTATACCTAAAAATTTTCCCTCCC
K
GCCCAAGGTGATTGGAAAGTACTGCAATTGAGCTAAAATTTTATCTAGGATGGAAAATCAGGATAGACTCGTTTAAAAACAAGTATATTAAATGGGTTAA
Celera SNP ID:            hCV28984068
SNP Position Genomic:     171173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:26465):
GGAGAAGTGTGTGTATATATTTATATAGAATACATACAAAACAAAAATTTTCCATTTCCCTGTCTTCTGTTTCTTTCCATAAGTGCTGTTCAATTAAATT
S
AAATTCGGTTTTTTGTTTTGTTTTGTTTTTGAGACGGGAAGGTGTCTCGCTCTGTCGCCCAGGCTGGAATGCAGTGGCGCGATCTTGGCTCACTGCAAGC
Celera SNP ID:            hCV15948603
SNP Position Genomic:     104893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26466):
GTGGGAAGGAGAAAAAGTCTTAGAATCCACCACCTGCTTTTGTGAAAGCCTTGTCTGTTTATTTTTGACTCAGGACATGCAGGCACAAGTTAAGAAGCCT
M
ATGGTTTGTGAATCTGGAACTTTTATACTTGGCTCATATGAAAAAGCCTGAGACGTGTAGGAGAGCTGGCATTTGGGGAAGAAAAACTTATTGTTTTCAT
Celera SNP ID:            hCV28984069
SNP Position Genomic:     169035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26467):
AAATTAGTACAACTATATCCTGTATATCCACCACTCAGAACTGACAGTTGTCAACATCTTGTCATATTTGCTTTAAGTCCTTCGAAAGGAAAAGTCATCA
Y
ATAGAATCCTTTTCCCCATTTCACCAGAATCCTCTCTTCCTGCTTAAAGATATCAGTTATGGTATATTTAGTGTGTATCTGTTGTGCAAACTCTTTGGAA
Celera SNP ID:            hCV15948604
SNP Position Genomic:     104462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26468):
TTTTCCCACATCGACCAGTTATCTGACATCAGCTGCATGTTCTAGAATTCAATTCAGTTCTGACACCAACTAGAGTTTATGCAAACCTCCCACAGATTAA
S
GGCTCAGTCCTTCAAGAATTCATTCCAATTTAGAGCCAGTAGGTTTCCAGGTACCCACGATTTGTCCAACGTGGCTACAAATTAGACCCCTTACTTGGGT
Celera SNP ID:            hCV15948605
SNP Position Genomic:     103032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26469):
GCTCTGTGGATAGAAAACATTTTAATCTTGTGTTTCAGCTCATTTGATCTGATGACCATAATTTATAGTTTATTTTTCCTCCCCAAGTGTGTTGTTGACT
R
TGGTATAATTCTTTTTTTCTTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTGTTTGATGAGTTTGAAGAGGAAGCTTAAAATACATTTCAG
Celera SNP ID:            hCV27853439
SNP Position Genomic:     26726
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,4)   caucasian(A,26|G,8)   total(A,56|G,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:26470):
TTCGCATACAAAGATCTGTTAAAGACTAACATGTAACATCTGTTTTCACCTTTGTTTGTATACTTTAAAAAGTCAGAAAATCGGCTGGGTGCAGTGGCTC
R
TGCCTGTAATCCCAGCACTTTGGGAGTCTGAGGCGGCTGGATCACCTGAGGTCAGGAGTTCGAGAGCAGCCTGGCCAACATGGTGAAACCCCATCTCTAC
Celera SNP ID:            hCV1150610
SNP Position Genomic:     102312
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26471):
ATTCGCATACAAAGATCTGTTAAAGACTAACATGTAACATCTGTTTTCACCTTTGTTTGTATACTTTAAAAAGTCAGAAAATCGGCTGGGTGCAGTGGCT
Y
GTGCCTGTAATCCCAGCACTTTGGGAGTCTGAGGCGGCTGGATCACCTGAGGTCAGGAGTTCGAGAGCAGCCTGGCCAACATGGTGAAACCCCATCTCTA
Celera SNP ID:            hCV1150611
SNP Position Genomic:     102311
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26472):
AATTAGGAAGTTTTAGTGACCTAAGGAATTTGAATTTCAAAAGTGATTGAATCTCATATGATATTCGCATACAAAGATCTGTTAAAGACTAACATGTAAC
R
TCTGTTTTCACCTTTGTTTGTATACTTTAAAAAGTCAGAAAATCGGCTGGGTGCAGTGGCTCGTGCCTGTAATCCCAGCACTTTGGGAGTCTGAGGCGGC
Celera SNP ID:            hCV1150612
SNP Position Genomic:     102249
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26473):
TCTCAGTTCCCTTCTGTACTTTAGAACTCTCTCCTTCCCTCATCTTGATTTCACTAGGCCACACTATAACCCTGCTTCCTGGAGAGAATCAGACCCATGT
R
AGCTCTTGAGCCTCCTGTTCCATGGATCTCTCCACCAAGACAAGAGCCTACTCCAGGCTGCCAACCTGAGATTAGAGAGTTCATACTCTGATTGGTCCCC
Celera SNP ID:            hCV16020903
SNP Position Genomic:     50262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26474):
GATCACTTCAGGCCAGGAGTTCAAGATGAGTTTGGTCAACATAGTGAAACCTGTCTTTACCAAAAAAAAGTAATAATGATAATAAACATTTAACAAAAAG
R
AAAAAGAAAACTACTTTAGAAAAATGTGATAGTCTAGGTTTCTGAGTCAAAATATCTGTAGGTTAAGGAGGAAAAAAAATTCACGGGATGCTCACCACCA
Celera SNP ID:            hCV16020904
SNP Position Genomic:     47494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26475):
ATTTGAAAAATCACTTACCTATGACCCTTAATTTTCTTTTTTTAAAAATAAGCATTTTAGGTTAGATAATTGCAAAGATCCCTTCTATCCCCCATACTTA
R
TTTTGTTATTCTATAGGATGGGAAACAATTGCAGCACTTATAACTTTTTATGATGCCCCAAATTGCAAAGCATAATGAAATATGGCTCACCATCCACCAC
Celera SNP ID:            hCV1150540
SNP Position Genomic:     169532
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26476):
TCTAAATACCATGTCCCTATGTGTTTTTTGCCTCTGTGTTTCACAAAGGGTATAGCTGTGGGACACAGAGTTTATTGAATTTTGATTATACATTAAAATT
M
TGTAGTGATAGTACCAAGTATTTTTCTCCTACATTAATTACCTTTTCATGTTTAAGCACATTTTAATTGTTTTTTATTCCTTTCAGGCAGAAGTTGCAAA
Celera SNP ID:            hCV1150613
SNP Position Genomic:     101598
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26477):
ATTTATTTATTAATCCTAAAGCTTTATTCTTCATCCAATATACATGTTCTGGGTGGGTGTGGATGGGGACTGGTGTCTCACCACTTTTTAGTCTTTTATA
Y
ATTAGTATGAATTTATTCATTCAGCAATTATTCCATGTTATATTCATTAAGCACTTACTTTTCTGACAGTTATCACCTCATTAGAGCCTTTGCCATAGGG
Celera SNP ID:            hCV1150541
SNP Position Genomic:     168515
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26478):
CCACAAACAGATGGAGGTAATTGGACATTTACCTACCTATTGGATCACCTATTGGATCACCAATTTGTATACACAAAGAGTGCACATGTTTAGGTGTACC
R
AATGCACCCCCATTCAATAATCAATTAAATGTGACTGCACATTCGAAGTAAGTCAAAGTGTTCTTTGAAACCTCTGAGCCTGTAGGGAGCTGTACGTTTT
Celera SNP ID:            hCV1150614
SNP Position Genomic:     101308
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26479):
AGAGAAAGAGAGAAGAAAGAAAGAAAGAGAGAAGAAAGAAAGAAAGAGAGAGAGAGAAGAAAGAGAGAGAAAGAAGAAAGAAAGGGAGAGAAAGAAAGAC
R
GAAAGAAAGAAAAAGAAAGAGAAAGAAAGAAAGAAAGAGAAAGAAAGAAGGGGAAGGAAGGAAGGGGAAGGAAGGAAGGAGAGAAAGAGAGAGAGAGATC
Celera SNP ID:            hCV16169914
SNP Position Genomic:     52765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26480):
AGCACACCAGGAGCCATGAGAGACTCAGAACATTCCTCTCTCCTAACTTGATGTCATAATGATGCCTGAAGTTCCTCAACTGATGATTTATTTATTAATC
Y
TAAAGCTTTATTCTTCATCCAATATACATGTTCTGGGTGGGTGTGGATGGGGACTGGTGTCTCACCACTTTTTAGTCTTTTATACATTAGTATGAATTTA
Celera SNP ID:            hCV1150542
SNP Position Genomic:     168430
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26481):
TGCATGAAGGCTCTGCAGTTAGCTGCCTGCGTTATCCAATCTGTGGACTAAAGGGAATGAAAGGAGGAAGGCAGTAGGAAAGGAAGACAAAACAAGGAAA
S
AAGGTGGAGTTGGGAAGGGCTGATTTGGGAGAAATGAGGCTGCAGCAAGGTTAGACAAAGCTCACTGCTCAAGTGTGTAACCCTGCAGGCTACATAACCT
Celera SNP ID:            hCV1150615
SNP Position Genomic:     99248
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,8)      total(G,6|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26482):
ACACATAGTGAGATTCAGAGTAAGGATCTGAATTCTGTGCCAAAACCACTGACTATTATCACTCTGTGTTCTCTCTTGCTTCCATTCACTCTGGTGTCCT
Y
GCAACAATCTTTTCGACCAAGTATTTTAACTACATTTTACACCTGAGGACATTAAAGCAAAGGGAGGTAAAGTGACTCTCCCATGATTACTAGCTAGTAA
Celera SNP ID:            hCV1150543
SNP Position Genomic:     167568
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26483):
TCTCAAGCGCTGTATTCTAGGAGAATTTCAAATGTCACTTTCTCTGTAATTTTCTATGATTATCCTACCCACTGTTCTTGAGAAAAATGCCTTCCTCTCC
Y
ATGTTCCCATAGCAGCTGCAACCGTGAGAGCACATTTCCTTACTGCTCTTATCACTCAGTAGCATTGCTCTTTGTTTTTTGGGTCTGTCTCTTCTAGTAG
Celera SNP ID:            hCV1150616
SNP Position Genomic:     91009
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26484):
CGTTGAAATGATGACTAAGGGAAAGAAAAAAGAAAAATGCGTATTTCAAACACTGCACACAACTTGACCCAATTTTTGTAAAGGAAAAAAAACTTATTTT
R
AGTTAGAAATAGTCAAAAATTCACAAAAGTATCTTTCTAGAGTTTAGTATGATAGGGGACTTTCACATGTGTAACAATTAAAATTTTATAATAAGTATGT
Celera SNP ID:            hCV1150544
SNP Position Genomic:     165805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26485):
CACTGCAACCTCCGCCTCCCGGGTTCAAGCTATTCTCCTGCCTCAGGCTCCCGAGTAGCTTACCCTTCAGCCATTCCTGGGCCCTTGCCTTCCTTGTTCA
W
GAAGTGCTGTGCTCTTGTTACTTGCTTTTCCTGTGATTCCCTGCTCCATCTCAAGCGCTGTATTCTAGGAGAATTTCAAATGTCACTTTCTCTGTAATTT
Celera SNP ID:            hCV1150617
SNP Position Genomic:     90860
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26486):
GTTAATGCTGCTCATTTTAGCACTGTGGAAGGTAAACACCAAAATTCCTTTGACTCTCTACTTCAATCATCAACAGCAAACTGGAGAAATAAGCTCTGAT
M
TATTCAGACTATGTAATATAGTATTATTACAGCAATGAAACAAACGTTGAAATGATGACTAAGGGAAAGAAAAAAGAAAAATGCGTATTTCAAACACTGC
Celera SNP ID:            hCV1150545
SNP Position Genomic:     165660
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;JBIC-allele(C,433|A,494)   total(A,494|C,433)
SNP Type:                 INTRON


Context             (SEQ ID NO:26487):
GAGAATGCAGAAGATCTCTGTAATTCTTAGGAACTGAGGCAGTGGGATGCATTCACTCAGGGCAAGGGTGTAGGTGAGATATCTCAATGAAGGGAGTTCT
M
CAAAGAACCCTTGAAAAACTTGTACATACCTATTAGGACCTGATTCATCTTAGGATAATACCAATGCAGTAATAATTTCTCTATCCTTATTTATCTTCCC
Celera SNP ID:            hCV1150618
SNP Position Genomic:     89022
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26488):
CAAGGGTCTTATTAGAATTCCATGTTCAAGACCTAGGATGCTGGGCACCCAGAATAAAGTAGAAAGACAAGATTAGAAAATATATCATTTGCAGTTAATG
R
AAGAAAAGGCATAATGGTCCTTGCAAAAGAATATTGACATTTCCATGTGCAATTTTACTGTATAACTTGGGTAAGTTATTTGTGCCTTGATTTCCTTTTC
Celera SNP ID:            hCV25636680
SNP Position Genomic:     116095
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26489):
GGATAATATTATAAATACCTTTTGGTAATAATAAATTTGACATAGTTAGAGATTTAGACTAGATGAAGAGCATTTTCTAATGTAAATCTAATGTTTTCTC
R
TTATATAGTAACGAGATTAATGCACTGGTAGAGAATTGTAGCCTGCAAGAACTCAATGTTCCAGGAGTTCTAATAGGTGTTTATTATGTTAACAATCTTG
Celera SNP ID:            hCV1150546
SNP Position Genomic:     165358
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,22)   caucasian(A,1|G,27)   total(A,7|G,49)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;JBIC-allele(A,287|G,958)   total(G,958|A,287)no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26490):
GATGCAAGACGAAACTGCCACTTGTTCCAAAATGATGTTTCTATGTCAGCACCCAAGAGGAGGGATATTTTGAAACGTAGAAAGGAATGGTGAACATTTT
Y
TCTGTAAATATCACAGGGCAGTCTACTTTTAAGATGCAAAATATAGTATTGTTATTTGTACATAAATGTGTATTTTTAAGGAGGGGACTTAAAAACATAG
Celera SNP ID:            hCV28984140
SNP Position Genomic:     7093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26491):
GCTGACCAGTCAGCAGCTTCATTTGAAATGGAAATGTCTCAGACTGGCTTCAGTGCTCATTATTCACAGGTATGTTGACCAGTTGGTGAAAAATGAAATA
Y
ATGTTTGCAAGACTTCCCTTCCCAAAACCAACATCTAGCCATCAGTATGTAAGTGCAACGTGCAGTTCATAGCTTGAACAATTATGCAGGCTATGATGAT
Celera SNP ID:            hCV25636681
SNP Position Genomic:     115692
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,32)   total(C,1|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:26492):
AGTGATTTGAGAGGTTTTGATTAGTATCATGCATATACAAATCTCTCCCCTGTTAGTTTCTTTTTCTACCCTAATCTTCCCTCTAGGTAAAGAAATTGAG
R
TGTTACTGTTAAAGGCAAATACAGGGCTTGAACTATTACTAGCCATTGATATCTACCCTAAATTAATTTTTTTCAAATCCCCCAGGGATGAGACACAGAG
Celera SNP ID:            hCV1150547
SNP Position Genomic:     164685
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26493):
GGACAGGGCTGCTAATGAACAAGAATTTGAGACATGAGCCCTTTGACTATTTTTCTCTGTCTTCTACCCAGGCCTACCTAGAAATTTTGGGTTGAGAAAT
R
TATGGCTGAAAATGCCCTAAGATGTTTGAAGTTCTGGTTGGTAAGACCACAAGCTCTACCAGGTATCTGTATTCTGCAAGTCAGTAGTGCATGAAAAGGC
Celera SNP ID:            hCV25636682
SNP Position Genomic:     115447
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,34)   total(A,1|G,69)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26494):
GGTATTTCCTAATACAAATTCAGACTTGAGTCCTCAGTAAAAATAGAAAGGTTTGAGTTTTTAACTCTTGTCCTTTTTATAAATTAATAAGCCAAGGTGA
Y
GGAGTAAGACCCCATCTCTAAAAAAATAAAATAAAATAAGTACTTGTTACACATGCAGGCACTTCAGCATGATCTCCCCCCTTCTCATGGGAGACTTTAA
Celera SNP ID:            hCV1150548
SNP Position Genomic:     163737
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26495):
AAACAACTTCTTTATAAAAAGTGCCTTTATACTGTACAGGAAAACATGTACATTTTTTAAAGTTTTCTTTCAAATTTCATTGAGAAATTTGAAACAAAAA
W
GTGATGGTATTTCCTAATACAAATTCAGACTTGAGTCCTCAGTAAAAATAGAAAGGTTTGAGTTTTTAACTCTTGTCCTTTTTATAAATTAATAAGCCAA
Celera SNP ID:            hCV1150549
SNP Position Genomic:     163631
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|A,7)      total(A,7|T,1) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26496):
TCAGTTCAGTCTCTAATCTTTCAGTGCAGCCATCCCCAACCGTTTTGGCAGAGAGACCGGTTTCATAGAAGGCATTTTTTCCACAGACCAGGGGTAGGGG
R
AACGGTTTCAAGATGATTCAAACACATTACATTCATTGTGCACTTTATTCCCATTATAATTATGTTATAATATATAATGAAGTAATTATAAAACTCACCA
Celera SNP ID:            hCV28984143
SNP Position Genomic:     3519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:26497):
GCCCACGAATCCATGTTTGTTACCCATCTCAGTGCTCTGAGATGGGGGCTCCTCCCCTACTTGAGTGCCAGCCATAGATCTCAGCTTGGTACTCCTGAGA
Y
GGACATGCCATCTCTGGGTCTCCAGGACACCCCGCAGCTCAGAGTCAGGCTCTGGTTGCTTTGGAGGATCCAAAGTCCTCCCAGGTCACAGGGAAAGTAC
Celera SNP ID:            hCV28984070
SNP Position Genomic:     161959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26498):
GTTAATGATCTAAAGGTAACAAGGGGTTGCTGGTTCTTGTTTGCTCCGTTTTCTCAATGGCTTTATCTTCCTCTGGTAATTGGCAAAGGGTCCTGAAGCT
Y
CCAGGCCGTCTGTAGTTGTTTTTCAGCAAGCTTACCTACAGATAAATAGACTAGAAAAAAAAAAACTGTTTAAGAAAAAATAATGCACTTTCTCAGCTAT
Celera SNP ID:            hCV12014535
SNP Position Genomic:     141495
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;(T,-|C,-)   no_pop(C,-|T,-)   JBIC-allele(T,543|C,900)   total(C,900|T,543)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26499):
GCTTTATCAAAGATCAGACGGCTGTAGGTATGTGGCTTTATTTCTGAATTCTCTATTCTGTTTCACTGGTCCATGTGGCTCTTCTGTACCAGTATCATAC
Y
GTTTTGATTACCGTAGCCTTATAGTAGAGTTCGAAGTCAGGCAGTGTGATGGGTCTGGCTTTGTTCTTTTTACTTAGGATTGCTTTGGCTACCTGAGCTC
Celera SNP ID:            hCV28984071
SNP Position Genomic:     160290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26500):
TACTTAAAATCAAATTTTGGCAAACACTTATAAATATTTTTTGTCTTCCCTTGACTGAAGTGCTGCTTAAAAACATACTATTTTACTCTACCAAGTTCAT
S
CAAAGAACATGATGAAGCTGTGTAGAGAAGATTGAACTTTTAAGTTTAGCAGTAAATATAGGACTTTAAATTATGAAATGGTAAAAATTTTTAATCTATT
Celera SNP ID:            hCV28984072
SNP Position Genomic:     151571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26501):
ATCTATGGCACTCTCTCTTTACTAAATGGAGACTACAAAAATGGCATGATTATAGGACATACATGTAGATTGTGCTAATATTTCTCAGCCTTTAAATTCT
R
TCTCCACTTTTCTGTATTTTTCTGTATCCACTTCTATTGGTGCACTGACTTTTCCCCAAGAGTTTTCCATTTACTTAAAATCAAATTTTGGCAAACACTT
Celera SNP ID:            hCV28984073
SNP Position Genomic:     151399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26502):
ACTTTGTAAGTGTTTCAGTGCATTACATGAGCACAGATGCTGCAGAGAACAAACATTAGTAATTACTATCATTGTATAGATTATGATCTAGGAGAGAAGA
Y
AAAAAATGGTCACATTATTGTAAAATAAGCTATGTAAGTGTTATTATCTCAGAGCCAAATAATAGACTCCCTTCCCTTGATGCACTTATTTTGTATTAAA
Celera SNP ID:            hCV28984146
SNP Position Genomic:     1166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:26503):
TCAACCATACCAATCATCTCTGATCTCCTTCTTCACCCCAATTAAAAAAATGATTAAAAATTATACTCTTACATGCTTTTATTTAGTTGCCAGGATAAGC
K
TCTCTTTCAAACACTTAGAAATGTCTTTAAATAGTCAAGATTTTAATGGTTTGTCTGAATGTGCCGTGTATTTTCTAGTGACAGCGAAGAACCTCCTGAA
Celera SNP ID:            hCV28984074
SNP Position Genomic:     150092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26504):
ATTTCTCAACCCCTCTGGCGAGGACAGGGCTGCTAATGAACAAGAATTTGAGACATGAGCCCTTTGACTATTTTTCTCTGTCTTCTACCCAGGCCTACCT
R
GAAATTTTGGGTTGAGAAATGTATGGCTGAAAATGCCCTAAGATGTTTGAAGTTCTGGTTGGTAAGACCACAAGCTCTACCAGGTATCTGTATTCTGCAA
Celera SNP ID:            hCV25636689
SNP Position Genomic:     115426
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,28|G,4)   total(A,64|G,4)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26505):
GAAGTATGTATATGTGTGTATGCACATATATACATGTGTTTACATAATATATAATTTAAATGATAACCAAAATCAAGAGAATAAATCAGTGCTTAACAAA
Y
AATATGATCATCAAGTACTTAGTATGGAAAGACTATTAAAGAAGAAAACAAAAGATTTTAGATTTACTCTCAGCTGTGTGACCCTAATCACTTATCTTTA
Celera SNP ID:            hCV28984075
SNP Position Genomic:     149653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26506):
TGGGGCCAAATCTGCACTTCTGAGAGCTACTTTTACTGCTAAGCTTTGAAATTGGATTTACCCAGAGGGAAGCGTTGCAGTGGCAGCCGCAGGCAGGTAA
R
ACTAGTATTTGCACTCACACACTCCCCGGATTCTTCACAGACAGGGATGGAAGAGAAAACTTAGGAAGTTGAAGTTTGGCATTAAAATAAAGGACTCGCC
Celera SNP ID:            hCV27853440
SNP Position Genomic:     17931
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,1)   caucasian(A,40)   total(A,65|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26507):
TAAACTGGAAAAAATAGAGTATATGACTAAACCACTTGATAGAAAATCAGTCCCAGAGAGGTGAGGAATCTTAACAAGGATAAAGCTAACAGTGGTGCAG
Y
CAGGGTTTAAATTCTGGTGGTCACGGGTCAGAGCCTATGCTCTTATCCACTGCACTAAACTCCTCCAATGACTAGCATTCACTGAAGACTGCTCTGCACC
Celera SNP ID:            hCV28984076
SNP Position Genomic:     145287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26508):
GTTTAGGCCCTGTACTAAGGATTTCACTTATTTCATTTTCATTAATTCTTTTGTAAGTAGGTATGACTGTACTGCAGAGATGCGAAGATAAAACCTTTTT
W
TCATGTTTCAACATTCTTGTAATTGCATTTTACAATTGATAACATGTTTATTTACGTGGCAGTGTTATTTTTACTTCTTATGGGTATGTAAAAATAATGG
Celera SNP ID:            hCV28984077
SNP Position Genomic:     145062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26509):
TCTTGAGTCACATCATGGTTTAGGCCCTGTACTAAGGATTTCACTTATTTCATTTTCATTAATTCTTTTGTAAGTAGGTATGACTGTACTGCAGAGATGC
R
AAGATAAAACCTTTTTTTCATGTTTCAACATTCTTGTAATTGCATTTTACAATTGATAACATGTTTATTTACGTGGCAGTGTTATTTTTACTTCTTATGG
Celera SNP ID:            hCV28984078
SNP Position Genomic:     145045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26510):
TTAGTTCAGGGAGGAAATGAGAATGCTTGGGTGTGAGGTGGTGGTGGGACTGCAGAAGCAAGAAAGGATTGGAGAGATATTTAGAAGAGGAGTAGAATGG
R
CAGGGCTTGGTGAGTTACATATGGTGGTGGTGGAGAGGCGGTCAATGAAGAAGAATCAAGCAAAACTCCTAGATTTGTGGCTTGACCGTTTTCCACCCTC
Celera SNP ID:            hCV28984079
SNP Position Genomic:     142909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26511):
CATTTTATTTATGAAAGGCCTTTTAATCATCTCCTTCAGCTGATGTTCATTCAATTCTTTTGTAACCCTGATATTTAAGAGAATTAGGAAGTTTTAGTGA
Y
CTAAGGAATTTGAATTTCAAAAGTGATTGAATCTCATATGATATTCGCATACAAAGATCTGTTAAAGACTAACATGTAACATCTGTTTTCACCTTTGTTT
Celera SNP ID:            hCV15948615
SNP Position Genomic:     102168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26512):
CTTCCAATATTACATAAAGCCAGCCCTGAGTTTAGAACAGTCACATTTTATTTATGAAAGGCCTTTTAATCATCTCCTTCAGCTGATGTTCATTCAATTC
W
TTTGTAACCCTGATATTTAAGAGAATTAGGAAGTTTTAGTGACCTAAGGAATTTGAATTTCAAAAGTGATTGAATCTCATATGATATTCGCATACAAAGA
Celera SNP ID:            hCV15948616
SNP Position Genomic:     102125
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,8)      total(A,3|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26513):
ATTTTAATTGTTTTTTATTCCTTTCAGGCAGAAGTTGCAAACAATATTTTTAATATTTTTAGAATTCTTTACCTTCATTTTCAGTAAATCCCAGTTCAAA
K
TTTTGTGTGTGTGTGTTCCCTTCTTCCTATCCCAAATTTTTACTTTTGTCAATAAACTTACAGTATTTAATCATGAGGCCTGGATTCTCCTGTCTTGAAG
Celera SNP ID:            hCV15948617
SNP Position Genomic:     101758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26514):
TAGTTTCTGTCTCTAACTTTAGTTTCCTTTTTCAGCTTCCCTGACTAATTCTCTTAACCTCCAATTATCTTTAACAGAAGTTACTAATTCTGCAATTCAT
R
TATTCTGGAACTGGAATTATCTTTGTTCCTAAGCAACCAAGTATACATATGAAACGGTCTGTACATTAATGCCTCATAATAGCAGCTCTTATTTGGGAAA
Celera SNP ID:            hCV27519890
SNP Position Genomic:     22742
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26515):
GGGAATTCTTTTTCCCCATACACCTATCTTCCATTCTCCCTTCCTTCCTACCAGATATATTGATTGTCTTATACATACCAGGCATTGGAGCTTACAGTCT
T
AACACTGGAAACAGGTATTAAGTAGTAATTAGAGCATATGCTATGGAGGAGGATTTCAGAGCTCTCTAGGAACTTCCACCTAGGCTGAGAAGTCAGGACA
Celera SNP ID:            hCV11588911
SNP Position Genomic:     142337
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26516):
TCGAAGTAAGTCAAAGTGTTCTTTGAAACCTCTGAGCCTGTAGGGAGCTGTACGTTTTCCAAAGGCAACCATTTAAGAATGAATATTCATCTCTGAAAAC
W
AACTGAAGAAATATTCTGGCTGCTTTTGCTTCTGCATAAATACGGCTCTAAATACCATGTCCCTATGTGTTTTTTGCCTCTGTGTTTCACAAAGGGTATA
Celera SNP ID:            hCV15948475
SNP Position Genomic:     101451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26517):
AAGCTGGTAAGCAAAATAATTATAGCAAGTACTTTTGGGTAGAGGACAATATATTTGCTCTAGCATGATGAAGTCCAGTAGGATATTGTATTTTCCCCAC
W
TGGTGAGCTGCACGTCATATTTGCCCCAGTGAAGATGCAGAACCTTGAAAAAAAATTCTGTTGCAAAAGGAATAGGTTATGGAACCCAGTCAATTCTGGA
Celera SNP ID:            hCV11588912
SNP Position Genomic:     137123
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,12)   total(A,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26518):
ATCTGGCTCTAGTTATATGGGGCCCAAGAGAAAATAACCACAAACAGATGGAGGTAATTGGACATTTACCTACCTATTGGATCACCTATTGGATCACCAA
Y
TTGTATACACAAAGAGTGCACATGTTTAGGTGTACCGAATGCACCCCCATTCAATAATCAATTAAATGTGACTGCACATTCGAAGTAAGTCAAAGTGTTC
Celera SNP ID:            hCV15948476
SNP Position Genomic:     101271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26519):
TTTTATAAGACAGTGCTCTTTGGAAATAATTTTGTTTGTTTGTTTGTTTGGTTTGTTTGAGACAGTCTTTCTCTGTTGCCCAGGCTGGAGTGCAGTGGCA
M
AATCTTGGCTCACTGCAACCTCTGTCTCCCAGGTTCAAGCGGTGCCCCTGCCTCAGCCTCCCGATTAGCTGGGACTACAGGGGCATGCCACCACACCTGG
Celera SNP ID:            hCV2839024
SNP Position Genomic:     65739
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26520):
TCCCTCCAATTTACAACCCTTCCTTTCTTCCATCTGCAGTTTTCCTTATGGTGAACACATAACTCAGTCTGTGGTTGAATTTCATTTTATAAGAACGAAC
R
GAATTGTCCTCTCTTACAAATGTAGAACACTTTATTTCCTGTGTGTTCTCTTATCTCATTCATTAAACTAGCAAACTTCTGAACAAATTCAAAACAATAC
Celera SNP ID:            hCV15948477
SNP Position Genomic:     100824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26521):
ATAATTATAAAAGAGTTGTTTTACTTTTCCATTTTTTACCTTTAGCATTATTTGCTTATGTTTCTATAGGCTTGCAACCATATAGCAGGATTATTTCAAC
R
AGTTGGGTATTTTCCAGAACCCATGCAAAGTTTTAGGCCTCTGAGCAGCTTTAGTTAGTCAAAATGACATACATGGGGGTCCTTTTTTGTTAGTAGGGCT
Celera SNP ID:            hCV11480774
SNP Position Genomic:     116630
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,16)   caucasian(A,14|G,12)   total(A,34|G,28)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26522):
TATGCAGAAGATGGTAACCAGCTGTTCTCTATCACGCTGGAAGAATGAACAGGAAATGTACATAAAAGGACCCGTGCAATTCACCCATTCTTTTTCTGCT
W
CCTTCATGCCAGCTAGACAAATCTCTTCATGATCTTGCAACCATATTTGTCCTGGCCTGTGTCTTAATACTTGCAGAGACCCTCCCAAATCCTGGGTACA
Celera SNP ID:            hCV27847530
SNP Position Genomic:     64834
SNP Source:               Applera
Population(Allele,Count): african american(A,8|T,24)   caucasian(A,2|T,24)   total(A,10|T,48)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,13|T,23)   caucasian(A,4|T,36)   total(A,17|T,59)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26523):
AGAAGGGATAGTGGCACAAATTAAGGATATAATATTATTTGGCCTGAAAAAGATGCTCTGAATTGTATACTCAATTGCATTAAAAAGAGATTCCATTAAA
R
TATGTCTCCCACACTTCTACCATCTGCTCTTTGGAATCCCTAACTTTACTCTCAGATAGGCACACTTTTTAAGAAATTTTACCAACTTTACCACTAATGT
Celera SNP ID:            hCV27473233
SNP Position Genomic:     128094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26524):
TAGATGGTAGAGCTACACATCTAGGCTGTATATCGCCTATGTCTTCTAGGCTACAGACCTCTACAAGTGGTTACTATACTGTATACTGTAGGTCACGGAA
R
CACAATGGCGGCCGGGCGCAGTGACTCACACCTGTAATCCCAGCACTTCTGGAGGCCAAGGCAGGTAGATCATTTAAGGCCAGCAGTTTGAGACCAGCCT
Celera SNP ID:            hCV2839027
SNP Position Genomic:     64233
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26525):
TGTAATTTAAATCCATTTGATTTGTTTGTTTGTTTGTTTTTAGTTTTATTTGTTTCTTTTAATGAAAGCATTCAATTCCACCCTATGATTGGCAGAATTA
R
CTTCTGGAATTTATTCTCCCCTTTATGTATTCTATCTCTGTTTCTGAAAGGAACAGATGTAAAAATGAATTGTGAGAAAGATTACCCAGAGGAGGGTGCA
Celera SNP ID:            hCV1150620
SNP Position Genomic:     88391
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26526):
CCCAAGAAGTGAATTATGAGAGCTGACAGAATTCATTCTTCATAAATCCATGCAAAGGGCTATGCCATCCATTTTAGCCTTTTTTTCCTCTTTTTTTTTT
T
CTCTTTATTTGAGACAGAGTTTCTCTCTTATTGCCCAGGCTGGAGTGCAGTGGCATGATCTCTGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATT
Celera SNP ID:            hCV11373115
SNP Position Genomic:     120714
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26527):
TCTGCCTTCCCAAGCTTTCTTCTCCTTATTTTCAGAATGATGATAGTAATGGTATTTAATTATAGAGTTGCTGGCAAATTAAATGAGAGTAACACATGGT
Y
AGTACACAATATAGTTATTATTTATAAGGGGAAAAATTACTGGTTTTCAATTGCTGGTACATGTGAAATCAGAATTTCTTTTGACATCTGTCTTATCTAT
Celera SNP ID:            hCV2839028
SNP Position Genomic:     62744
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26528):
TATGAAGGAGACACGAGAGGCTAACTGATTTGTTTAAGGTCTTTCTGCTTGCTGATGGCAGATTAGAACACACACAGCTCTCTAATTGTAGCCCAGTTTG
Y
TGTTGTTTTTTTTCTTTCTGAGGGCTCTACTTCTAGAGAAGCTTCAGAGCCAGTACCATCTAATGCCCCTGAATAGTAGATTTCAATCCTTTTCTATTTC
Celera SNP ID:            hCV1150621
SNP Position Genomic:     85967
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26529):
CTTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTGCACCTCTATGCCCAGCTAATTTTTTTTAATGTA
Y
TTTTAGTAGAGATGGGGTTTCACCATATTGGCCAGGCTGCTCTTGAACTCCTGAATTGAGGTGATCCGCCTGACTTGGCCTCCCAAAGTGCTGGGATTTC
Celera SNP ID:            hCV2839029
SNP Position Genomic:     60991
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26530):
GTGAAATTACTAGTGGATGGTAGGGGACCTTTTTATCCCGTCTTGCTACAGGGTACAGGGCAGCCTGCATCTTAACAGACCAACTCCAGGATGTGACTTG
Y
TCTTCCTTCTGGCACCTGTTCCTCATGGACCTCCTTTTTTCCCTTCTGAGACCACTCTTCCTTCCTCCTTTCCTCGCTTCCCCTATCCCTTCTCTCCTTG
Celera SNP ID:            hCV1150622
SNP Position Genomic:     85690
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26531):
GCCAGTATATAACAAAATCTGACTGCTATTTTTGGAATTGATATTAGTGTAAATAACTTTACAAAGTCATTTTTAAACATCATAGATAAAGCTGTCATGC
K
GCTTATATTTAAAGAATGAGTCTCTTTGAAGAAAGAAGTAACTTCATTTGAGATATGCTCAAAAACTGTTTTATAAAAACTTATATAAAATTCATATTGA
Celera SNP ID:            hCV1150623
SNP Position Genomic:     83447
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,6)      total(G,4|T,6) ;no_pop(G,-|T,-)   JBIC-allele(G,747|T,750)   total(G,747|T,750)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26532):
AGAACAGACATGCCCCAGTCCCATGGGGAATGCCTGCTTTCTCCTGGCTTGTGGTCACCTGGGGCTAGAGCCTCTCTGAAGGAGATGGGGAGTCCGAGGG
R
ATGGGCACCTATGTCTGTGCTCTGCTCACAAAAGCTCCTGGGCTCCATGCTAGCTGAAGCCCTGTCTCTACCTGCTCCCTGGGAAAATCCACCTGCCAGC
Celera SNP ID:            hCV1150550
SNP Position Genomic:     162271
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26533):
TTTTCTTTTTTAGTGTGAGAAAGTGAAACTTCTTGCCAATATTGTTAGGCTGGCATGCTTCATGCTTCAGGACCCAACATTCCCTTCAGAATGTCAAATG
Y
AGTCTCTTTACTGTGTTTCCTTTATCAAAACTTTCTGGACACTGCTCTAATATTCCTCTAGTTTCCTTTGTCACCCAAAGGATGTCCTCATGATTTTGGA
Celera SNP ID:            hCV1150624
SNP Position Genomic:     82339
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26534):
TTTTATTTGCATTTCTGTAATGATTAGTGATAATGAGAGTTTTTTCATATGTTTGTTGGTCACCTGTATGTCATGTTTTAAGGAGTCTATTCATGTCCTT
Y
GCCCATTATTTAATGTGGTTATTTGTTGATTGATTGCTTGCTGAGTTGTTCAAGTTCCTTATTCTGGATATTAGACCTTTGTCAGATGCATAGTTTGCAA
Celera SNP ID:            hCV1150552
SNP Position Genomic:     159731
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26535):
GACTGTTATTATATGTATAATTTTATAATATATAGGTATATATGAAGCCTTTTTTCTTTTTTTTTTTTTTGAGACGGAGTGTCTCTCTGTCGCCCAGGCT
R
GAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCC
Celera SNP ID:            hCV1150553
SNP Position Genomic:     158586
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26536):
GCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGGACCCAGGAGGCGGAGGTTGCAGTGGGCCAAGGTCATGCCACTGCACTCCAGTCTGGCAACAGAGC
R
AGACTCCGTCTCAAAAAATAAAAATAAAAAAATAAAATAAAAAAATAAAGTTGTAATCTAACACAATCCCAAGTACAAAATCTCATACTATGTAATTAAG
Celera SNP ID:            hCV1150627
SNP Position Genomic:     78656
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26537):
TGGAAACCAACTTTTATAAAAGTAAGTAAATACATAGTTCTATGCACTGATTGAATAATATCAATAAATATTCATTTACCACTTAGAATATGCAAGGCAC
W
GTGCTGCTTTTGGAAAGAATGTGCGACTGGAAGTATAAGAGGATGTGACCAAGCCCCAGCTCTACTTAACCAGCTATGTGTGTCTCATCTTCCTTGTCTG
Celera SNP ID:            hCV1150554
SNP Position Genomic:     158153
SNP Source:               Applera
Population(Allele,Count): african american(A,25|T,13)   caucasian(A,29|T,7)   total(A,54|T,20)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,5)      total(A,5|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26538):
ATGTAATCTCACTTCTTCTGACATCAGCCAAGTCAATGTTTCGCTTATCTTGTGGAAACCAACTTTTATAAAAGTAAGTAAATACATAGTTCTATGCACT
K
ATTGAATAATATCAATAAATATTCATTTACCACTTAGAATATGCAAGGCACTGTGCTGCTTTTGGAAAGAATGTGCGACTGGAAGTATAAGAGGATGTGA
Celera SNP ID:            hCV1150555
SNP Position Genomic:     158101
SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,9)   caucasian(G,36|T,2)   total(G,63|T,11)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,6)      total(G,6|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26539):
CTGAAGAAATCTGAACAGGAAATTTGGATTGACGTATAACTCACAGTGGCTTGGTATTTCAGGTTGGAATTGTACAGTATGGAGAAAACGTGACCCATGA
R
TTCAACCTCAATAAGTATTCTTCCACCGAAGAGGTACTTGTTGCAGCAAAGAAAATAGTCCAGAGAGGTGGCCGCCAGACTATGACAGCTCTTGGAATAG
Celera SNP ID:            hCV25636690
SNP Position Genomic:     100043
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:26540):
AAGAGAGAGCGCCCATCCACTTTCCGGCATTCCAGGTACTCAGGCCAGGCTACGGGGCAGGCAGGAGTTTCGCGTTCTGGTTTTGATATGAATTAGTTTT
M
GTGTCTCTCCAAAGTCCTTCACCCTAGGAGTAGGAGTGAGGCAGCACTGAAAACCTTACAAGGTAGAATTCACTTTTAAAATTAAAGTTGTTTTTACAAT
Celera SNP ID:            hCV25636691
SNP Position Genomic:     6691
SNP Source:               Applera
Population(Allele,Count): african american(A,32|C,2)   caucasian(A,29|C,3)   total(A,61|C,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26541):
AACCAAAAATCTAAATTGTTCCGTGGTCTCCCTTCTTTCCAGTTTCAAAAAGACTGGTATGTTAAAAAAAAAAAAAAGAAAGAAAAAGAAAAGAATGAGC
M
TGGCAAGAACATAATAACAGACAAAAACTTCCAATTCTGGTCTTCTGTTAATCCTAGGTCTATTAAGAGAATGGGGGATGGAGGAACAATATGATTATAG
Celera SNP ID:            hCV1150558
SNP Position Genomic:     155210
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26542):
AACTCTATACCACTATAGCAAACAATCACGGAATTTTATTTTAGGTAATGCCTAGTTACTGACACAGACTCAAGTTAAAATCACTCAAGGAAAAAAGAGA
R
CACAATTCAAATAATGGATTTAAATATGTATTCAAAAATATGAGATAATGCAACAAAATTATAAATGAAGACAGCCTCAATCCTTTTGGGAATTGCCAAC
Celera SNP ID:            hCV1150559
SNP Position Genomic:     152821
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26543):
GATGTGGGAGCCCCGTGGGAAGCTATTACTTTAGTTCAGGGAGGAAATGAGAATGCTTGGGTGTGAGGTGGTGGTGGGACTGCAGAAGCAAGAAAGGATT
R
GAGAGATATTTAGAAGAGGAGTAGAATGGACAGGGCTTGGTGAGTTACATATGGTGGTGGTGGAGAGGCGGTCAATGAAGAAGAATCAAGCAAAACTCCT
Celera SNP ID:            hCV28984080
SNP Position Genomic:     142879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26544):
GACGTCTTTGATCCATTATCACTCCATTAATTGTATACAAGACAAGAAGTGTCAAATTTTATGAAAATTTGCATATGAAAGTTGAGGAGAGTATCATGAA
W
GATTTAAATCGTGAATGATTTCAGTTTCAAGCCTGGGAATCTGAAAGAAAGGTGGCTCCATGATTAGAATGTCAACACCTCAAGCAATTTAGATATTTTT
Celera SNP ID:            hCV28984081
SNP Position Genomic:     125637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26545):
ATACCCACATATTCAGTAACAACTGGGAACAGGGCCCTGTGTTAGGTTCTTTGGAAGGATGTATAGTGTCTGTATCTTTGTCTTCATGTTGGATGGGTGT
R
GAGGTAAGATATACAATAGATGTGGATACAGATGTACAAATATATACACAAGAAAAGAGATCCAAAACATTAAGAGGCATGAAATTACCAGTGGCCCAGA
Celera SNP ID:            hCV28984082
SNP Position Genomic:     124231
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26546):
TGGACCCATACTTTGCATGGCAAAAGGGACTTTTCAGATATGATGAAATTAAGGATCCCGAGTTGGAAGATTATCCTCAGATATCTGGCTGGACCTGATA
Y
AATCAAGCATTCTAAAAATCAGAGAACCTCTCCTGGATGTGGCCAGAGGGAGACAGAACTATGGAAAAATGGTCAGAGAGATGCAGTGTTGTTGGCTTTA
Celera SNP ID:            hCV28984083
SNP Position Genomic:     119238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26547):
TTTAGACTAGATGAAGAGCATTTTCTAATGTAAATCTAATGTTTTCTCATTATATAGTAACGAGATTAATGCACTGGTAGAGAATTGTAGCCTGCAAGAA
Y
TCAATGTTCCAGGAGTTCTAATAGGTGTTTATTATGTTAACAATCTTGTTTAATAATTTTCAGCTTGCTATTCAAATATCCAAAGATGGGCTACCGGGCA
Celera SNP ID:            hCV25636698
SNP Position Genomic:     165410
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,38)   total(C,64|T,4)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:26548):
CTTAATGAATATTACACACCCATAAAAATAAAAATTATAAAGCTGCTGATTCTATGATACTAAAGACTTGAAGCAGTTATGGTACAAGGTGTACAATTAG
Y
GATAGCGATGAGGTCATAGAGACTTGAGCTTGTTTTCTGATTCTGCCCCTGGCTATGGCTTTAGGCAAATTACTCTCCCCCTCAAAGCCTCAATTTTCCT
Celera SNP ID:            hCV28984084
SNP Position Genomic:     118798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26549):
AAATTTCAGAAGGATAATATTATAAATACCTTTTGGTAATAATAAATTTGACATAGTTAGAGATTTAGACTAGATGAAGAGCATTTTCTAATGTAAATCT
R
ATGTTTTCTCATTATATAGTAACGAGATTAATGCACTGGTAGAGAATTGTAGCCTGCAAGAACTCAATGTTCCAGGAGTTCTAATAGGTGTTTATTATGT
Celera SNP ID:            hCV25636699
SNP Position Genomic:     165347
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,1)   caucasian(A,10)   total(A,31|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26550):
GCAGGGAATGGTTTAGGTTGATATGTGCCCTTTCTGATATGTTCAGTTTCTCTGTGTCTGGTATCAACTTTAACTTCAAGGAGAACTTTGAACCTGGTGG
W
CAAGAAATGAGAGTAGAAAAGGAAACCTCGACTTCTCCTATATCCTGAAAACCAAACTCATATTGTCTTAAATGTCTTCTATCATTAATTTCTCTCTATG
Celera SNP ID:            hCV28984085
SNP Position Genomic:     116838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26551):
ATATAATTATAAAAGAGTTGTTTTACTTTTCCATTTTTTACCTTTAGCATTATTTGCTTATGTTTCTATAGGCTTGCAACCATATAGCAGGATTATTTCA
W
CGAGTTGGGTATTTTCCAGAACCCATGCAAAGTTTTAGGCCTCTGAGCAGCTTTAGTTAGTCAAAATGACATACATGGGGGTCCTTTTTTGTTAGTAGGG
Celera SNP ID:            hCV28984086
SNP Position Genomic:     116628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26552):
CAAGAAGCCCAGGAGAATATAGTGGTCTATTACCATGATGCCACTGCAGCAGGAAGAACATCACATAGCGTCCTTCTGTCTGTTCTCAGCTGAAGGCAGA
R
TAGCGGCAGGGCAGGTGCTGAAAATAATGCAGGTTTCCGTTGCTGCATTCTTATTGATCTTGCAGATAAGTGAGAAAACACCTGAAAGCATTGTGGACTG
Celera SNP ID:            hCV28984087
SNP Position Genomic:     114399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26553):
AGTACATCAGAAAATAGTCTACTGTCTCCATTTCCCGTTGAGCACTGGGAGAAAATGCCAACATTTCTAACCAGAGGCTGCACAGTGGTTAGAGTGGCTG
R
CCCAAACACCCATGAACAGTCCAGGGAGAAGTTTGAAGCAAGAAGCCCAGGAGAATATAGTGGTCTATTACCATGATGCCACTGCAGCAGGAAGAACATC
Celera SNP ID:            hCV28984088
SNP Position Genomic:     114260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26554):
AAATGACTTGATTGGCTATAGCTAGGCATTTACCTTATTTGGGTATGATCTGGTGGAAAGTTAGAGGTTACTTGCCAGGTTCTGATTGGTAAAGTCTCTA
S
TTAGAAGTTAGTTGCAGTTTCTAATTGGTAATGTTTAAGTTTTGTTTTACTGTTTACATTGAATTGGACTTTGGTTTGATTATATAGGAACATACGGCAC
Celera SNP ID:            hCV28984089
SNP Position Genomic:     103964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26555):
GCGCACGCGCGAACTGCGGCCCCGCCTCTCCTTTGGGGACGGGAGACGTGCGTCGGGTCGCGGGACGGGGGCTGCGCATGCGCCTTCATTTCGTCAGCCC
R
CTGTTGCGTGCTGCCAGCGGGAACTGTGTAGGGGTAGATTTTCGCTGCAGTGTTCCCCGAGCCTGTTAGACGCAGCGCGCCGGGAGACTGAGAGAGGAAA
Celera SNP ID:            hCV27831897
SNP Position Genomic:     18196
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,19)   caucasian(A,2|G,38)   total(A,3|G,57)
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:26556):
TGTGTGTATATATTTTGATACAAGAAACCCTTCTGAAGAAATTAGTTATTAGATTCCATTGATGTCACAAGGTGTTCTTTTTGTTGTTGTTATTGGTTCG
K
TTGTTCTAATTTCTGCCCTTTTCAAGATTCAAATCACAACTTAAAAGCAAGGAGTTGCAAGAATATATGGAATGGTGAGAAATGATTGATGTTAGAAAGC
Celera SNP ID:            hCV2839032
SNP Position Genomic:     53882
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,6)      total(G,2|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26557):
GGAAGAATGATTATCAACGGGGGAGTTGGGGAGAGTTCACCAGGCTAAGAATTGAAGAAAGGAATTTCCAGAAGTGGGGAAAACTTTAGCAGAAGTTCGA
Y
TGAGAATACAAGATGTTTCAGGGAACTGCGCATATTGAAGGGTGGCCATTACTTGACATTCTGAGCCAGAGTAGTAATGAGATTGGAAAGGTCAAATGAG
Celera SNP ID:            hCV2839033
SNP Position Genomic:     53606
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,13)      total(C,3|T,13) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26558):
ATCATTCACTTATTGTATGACCCAGCACTTTCATTTCTAGTTATTTACTCAAGAGAAAAGAAAATATATGTCTATTACAGAGACCTACATGTGAATATTT
R
CAGCAGCATTATTCATAATATGTTGAAGCTGCAAACAACTCAAATGTTCTCATTAAGTAAATTGTGGTGCATCCATACAATGGAATGCTACTCTGCAATA
Celera SNP ID:            hCV11373121
SNP Position Genomic:     110690
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26559):
TTATATTCTAGAATGTCCATGTATTTTCAGTACTTGATTTACCGTTATCGAAGCTACTAGATAAGAGGTGTTAAGGCGCCAAATTAAATATTGTCTATTT
R
AAATCATTTTTAGTGCAAAGTTTGAAAGAAATGGAAAGGATATTATCATTTGTAATCCTCTCTCCTTTTTTACTTTCTTTAGATTCCCTCCAATTTACAA
Celera SNP ID:            hCV15948487
SNP Position Genomic:     100639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26560):
GAACGGATTAAAAATAGGTCTACCTCTACTCAATATATATTTATATTCTAGAATGTCCATGTATTTTCAGTACTTGATTTACCGTTATCGAAGCTACTAG
R
TAAGAGGTGTTAAGGCGCCAAATTAAATATTGTCTATTTAAAATCATTTTTAGTGCAAAGTTTGAAAGAAATGGAAAGGATATTATCATTTGTAATCCTC
Celera SNP ID:            hCV15948488
SNP Position Genomic:     100599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26561):
AAAGCCATTTTGTTTAAAATGAGATTCAGAAGATTAAATAATGGTTACAAGATCAGATGTTTGTATGACACAATCTCACCATCCTTCTTATCCTTCTCTT
R
TTACAAGGGTTTAATTGATAGAGAATCCATTTTAAAATATCACTGCATCTATATTTTCATGTTCTTGGGTACTAAGACAATATTAGTTAATATTTGTTTC
Celera SNP ID:            hCV15948489
SNP Position Genomic:     100356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26562):
ATACCCAGCAATGTTTTTTTTTTCTTTTTTTTTTTTCATTTTAAATACACACCTCCTGTAGTAACCACTGATGTGACATACCACCATAGCTCACTTAGAT
W
GCCAATTCTTGAATTTCAAATAAATAAAACTGTATAGTATGTACTGTGTGTTTAGCTTTTCACTCAACATAATTATTGCTTGTGATATTTTGTGTACTGG
Celera SNP ID:            hCV11373125
SNP Position Genomic:     109471
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26563):
TATACCCAGCAATGTTTTTTTTTTCTTTTTTTTTTTTCATTTTAAATACACACCTCCTGTAGTAACCACTGATGTGACATACCACCATAGCTCACTTAGA
T
TGCCAATTCTTGAATTTCAAATAAATAAAACTGTATAGTATGTACTGTGTGTTTAGCTTTTCACTCAACATAATTATTGCTTGTGATATTTTGTGTACTG
Celera SNP ID:            hCV11373128
SNP Position Genomic:     109470
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26564):
TATGGAGAAAGAAAATAATGAGGCCAAATAAAAGTTAAACTTTGTTATGTTTTATTTTTCTTCTAATTAATTTTTTAAGCTCTGCAAGTGAATACCACAT
K
TCAATTGCTGCCAATGAGACAGTCCCTGAAGTTATTAATTCTACTGAGGACATTGGAAATGAAATTAATATCTTCTACTTGGTAAGAAATTACCTCTAAA
Celera SNP ID:            hCV1150560
SNP Position Genomic:     152039
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26565):
AGTGCTGCAATAAACAGGGGAGTGCAGATATTTCTTCAATATACTATTTCCTTTCTTTGGGATATATACCCAGCAATGTTTTTTTTTTCTTTTTTTTTTT
T
CATTTTAAATACACACCTCCTGTAGTAACCACTGATGTGACATACCACCATAGCTCACTTAGATTGCCAATTCTTGAATTTCAAATAAATAAAACTGTAT
Celera SNP ID:            hCV11373129
SNP Position Genomic:     109406
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26566):
TAAATGATAACCAAAATCAAGAGAATAAATCAGTGCTTAACAAACAATATGATCATCAAGTACTTAGTATGGAAAGACTATTAAAGAAGAAAACAAAAGA
K
TTTAGATTTACTCTCAGCTGTGTGACCCTAATCACTTATCTTTACTAAGTCCTCATCTGTGATAAATAAGCATCACCTGGGGGCAGATATGTGGTTAAAA
Celera SNP ID:            hCV1150561
SNP Position Genomic:     149709
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,7)      total(G,4|T,7) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26567):
TTGAGAAATGTATGGCTGAAAATGCCCTAAGATGTTTGAAGTTCTGGTTGGTAAGACCACAAGCTCTACCAGGTATCTGTATTCTGCAAGTCAGTAGTGC
R
TGAAAAGGCATTGTTACTTATTTACAGTGATATTTTCCTATGTTATAGCTACAGCTGACCAGTCAGCAGCTTCATTTGAAATGGAAATGTCTCAGACTGG
Celera SNP ID:            hCV8884003
SNP Position Genomic:     115538
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,26|G,4)   total(A,62|G,4)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26568):
GGTAGTAGGTGTCTCTGGCCTTCAAGAAAAAGAATGCTTCAAATAGATTGGTTTAGAACTTAATCAGAAATTCTCCTTCCATCTCTCTCTTTCTAAAAAA
M
AATTGCCTTATTGAGATATAATTCACGTAGCATGGAGTTCACTCGTTGAAAGTGTGTATTTCAGTGGGTTTTAGTATATTCACCAAATTATAAATTGTAC
Celera SNP ID:            hCV1150562
SNP Position Genomic:     146535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26569):
GTAAGACCACAAGCTCTACCAGGTATCTGTATTCTGCAAGTCAGTAGTGCATGAAAAGGCATTGTTACTTATTTACAGTGATATTTTCCTATGTTATAGC
Y
ACAGCTGACCAGTCAGCAGCTTCATTTGAAATGGAAATGTCTCAGACTGGCTTCAGTGCTCATTATTCACAGGTATGTTGACCAGTTGGTGAAAAATGAA
Celera SNP ID:            hCV8884004
SNP Position Genomic:     115588
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,19|T,13)   total(C,33|T,35)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26570):
GAAAAATGTTCAGTTCAAAATTGTGACAGATTGGAATATGCTATGGTCAGAATGTTTGTGCCCCACCAAAATTCATATGTTAATACTTAATCCCCAATGT
K
ATCGTAGTAAAAGATGAGGCCTTTAGGAGGTCAGTAGGTCCAGAGGGTGGAGCCCCCATGAGGGATTAGTGTCCTCATAAGAGAGGCTTGAGGGAGACTG
Celera SNP ID:            hCV1150564
SNP Position Genomic:     145993
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,8)      total(G,4|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26571):
AGTGTAGAACAGCTGGTCCCAGAATTCTGTGCCTCTTCCAGCTAAATCGAGACAAAAATAGTGGCAAGGCAGTCACCAAGACACATCTGGGAAAATTCTG
R
AAGAACACGTATCAATATTTCACCTGCTTGTCCACTCTGATTCTGTTTGCTTTCTCTTCCTAGGCTATCCAAAAAGACAGTTGTGAATCTAATCATAATA
Celera SNP ID:            hCV1150565
SNP Position Genomic:     145644
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26572):
TTCTAGGTATAGGATCATATTACCAGTGGAAAAAAGATAGCTTGACTTCTTCTATTCCTATTTGGATGTCTTTATTTCTTTATCTTGCCTTATTGCTCTG
R
CTAGGACTTAGAGTACTAGGTTGAATAGGAGTGGTAAGAGTGGGCATCCTTGTCTTATTCCAGTTCCCCAGGGGAATGGTTCCAGCTTTTGCCCATTCAG
Celera SNP ID:            hCV27910782
SNP Position Genomic:     161217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26573):
GGCAACGTGACGAGCACTTTTCTATACAAAAAATACAAAAATTAACCAGGCATGGTGGCATGTGCCTCTGGTCTTAGCTACTTGGGAGGCTGAGGTGGAA
S
AATCACTTGAGCTGGCGAGGCCGAGGCTGCAGTGAGCCATGATTGCACCACTGCATCCTAGGCTGGGTGACTGAGTGAGACCCTGCCTCAAAACAAAAAC
Celera SNP ID:            hCV15792705
SNP Position Genomic:     57132
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26574):
GTATTAAGCTTTTTAAAAAAGTTTTGTTTTATTTATTCAAATATGTATGTCTTTTCTTAGATTCTGTGTGAGAAAAGGATAGCTCATGTATAAAAACTGT
R
TGTTTCATAAAATCCTTAAACCACTGAAACTGAAACAGAGTCAAGGAAAATAATAACAATCAAAGCCAAAACAGTTAACAGACGTACAGAGAGGTACCTC
Celera SNP ID:            hCV1150566
SNP Position Genomic:     143856
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26575):
GTCTTGAAAACCTTGTATACAAGTTAAAACATTTGTAAAAGTCTAGGCATGCTTCATTTTTGAAATAATGTGGTAGATAACTTAAAATGCCAGTAATTAT
W
TTCCAGTCTAAATAATCACAACATTGAGTCAGGTGTGGTGACTCACGCCTGTAATCCCAGCACTTCAGGAGGCCGAGGCAGGCGGATCACTCGAGCCCAG
Celera SNP ID:            hCV15792706
SNP Position Genomic:     56913
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26576):
GGATGCTAAGTGTGAAAGTCCTGAGCATGAAGGAAACAACGACATTCGCTAGTGTGGCTGACGCTAAAGAGCAAGAAAGGAGGTGACGTGAGGTGAGGCC
R
GAGGTAAAGGCAGGGGCCGGGTCATTCGGGACTTGGTGCCACTGCACAAATTCTAAACTTTTGAAAGAGCAGTGCAGTGCTTTTGAAGGTTTTTATTTGG
Celera SNP ID:            hCV1150567
SNP Position Genomic:     142623
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26577):
GTTGGGAAATGTTCCCGGAAGTGTTACATAATGATCTTTGGCTTGAGGTCTCAAGAAAAACTATATTGTGATGCAGGTAGCTCCTATGTTGACACAGCCA
R
GTGTGATGTTGCCATCACTCCAGCAGGGCCCTCTGAGGAACTGGAAGTGAGTCAACAGGTCATACTCTGAAACCTCCACATTCCCCTATGCCCCTTGTCA
Celera SNP ID:            hCV1150569
SNP Position Genomic:     140626
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26578):
AATCAAATTAAAGAAATGACTTGATTGGCTATAGCTAGGCATTTACCTTATTTGGGTATGATCTGGTGGAAAGTTAGAGGTTACTTGCCAGGTTCTGATT
R
GTAAAGTCTCTAGTTAGAAGTTAGTTGCAGTTTCTAATTGGTAATGTTTAAGTTTTGTTTTACTGTTTACATTGAATTGGACTTTGGTTTGATTATATAG
Celera SNP ID:            hCV28984090
SNP Position Genomic:     103951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26579):
AAACTAACTGAAGAAATATTCTGGCTGCTTTTGCTTCTGCATAAATACGGCTCTAAATACCATGTCCCTATGTGTTTTTTGCCTCTGTGTTTCACAAAGG
K
TATAGCTGTGGGACACAGAGTTTATTGAATTTTGATTATACATTAAAATTCTGTAGTGATAGTACCAAGTATTTTTCTCCTACATTAATTACCTTTTCAT
Celera SNP ID:            hCV28984091
SNP Position Genomic:     101547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26580):
TTCACATACACAGTTTCCCCTGTATGGACGCTCTGCCCTTCTAGCACTCACTCTTGAAGTCTCAGCTTCTGAGAAGCCTTCCCTGGACCCCCATTTTCAG
K
CTGGCCTCTAGATTATATTGGCTGATTAGGGATTTTCCCATACAGTCCTTTCCACAGTTTGCAATTGTTCATGTATTTGAATGATCACGTGTTTAATCTC
Celera SNP ID:            hCV28984092
SNP Position Genomic:     99562
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26581):
TCCAAAGGATTGTTATTTTATGTATGTCAAAGTCTCAGCATAAACTGATGTCACATATAAAGGATTTAACTGAAGACAGTTTCATAAAGTGACAGTTTAG
R
GAGGCCTTAAAGGAACAAGAAAAGAGGGTGGAGCATCTAGCGCAAGCAACAGTAGGGAAAAAAGAACCTGAAGCAAGGTGAGAAGAAAAACCATGACCAT
Celera SNP ID:            hCV2840448
SNP Position Genomic:     9320
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26582):
AGGGCTGATTTGGGAGAAATGAGGCTGCAGCAAGGTTAGACAAAGCTCACTGCTCAAGTGTGTAACCCTGCAGGCTACATAACCTGATTATTCCTCCAGC
Y
TCATGGTGCCCTCTTCTTTCCTCACAGCCCTGGCCATGGCTCACTGCCTTTCTTTCCATTCTTAGGGTAGATCTATCTCTTTCCCATCCTGGTCTTCTTC
Celera SNP ID:            hCV28984093
SNP Position Genomic:     99364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26583):
AAACTGATGTCACATATAAAGGATTTAACTGAAGACAGTTTCATAAAGTGACAGTTTAGAGAGGCCTTAAAGGAACAAGAAAAGAGGGTGGAGCATCTAG
Y
GCAAGCAACAGTAGGGAAAAAAGAACCTGAAGCAAGGTGAGAAGAAAAACCATGACCATTCCTAGGCCTGAGGAGGTGGCAGTGTTAGTTTGATTATGAA
Celera SNP ID:            hCV2840449
SNP Position Genomic:     9361
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26584):
TTGGAGGTGGATAGATGGATGATAGAGATGTAAAATTTAAAGCACTGATTTCTGACTTACCAACATTTTGAGTTTTTTACTATTCCTAGTGTGAAGATAA
K
TTTTCCGGACAATCCAATGGTTCATAGTAGGTTCTTTAAGATATGTAAAGTGTGTTGTAAATGTAAAGTATTAACACACATGTGGCAAAAAGCAGTCTTG
Celera SNP ID:            hCV28984094
SNP Position Genomic:     96580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26585):
AGGGATAGGAGTAAGAGAAAACCTTACTCTTTTGCACCATTTGCAATTTGTGACAGTTTTCATAGTGATAGGAGAAAGGTAGAGATGGGGAGGAGTCTGC
Y
GTAAAGATATATATTTAACTTTATTTTACTCATTGTTTTCCAAGATTATTTGACCATAGAATTCTTTTTTAAATCAAACTTAGTAACATACAAAGGGATG
Celera SNP ID:            hCV28984095
SNP Position Genomic:     93303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26586):
TGGTGGAGAGGCGGTCAATGAAGAAGAATCAAGCAAAACTCCTAGATTTGTGGCTTGACCGTTTTCCACCCTCTCAACTGAGCTTTATGATATTCCTAAG
Y
ATTTGATTAATTTTAAGAGAAAAATCTCATGATTAGAGTTGAGTAGATTTAGATCTTGCAGTACTTGACTTTGTATTTCAAAACTGTCCTTCCCTGGCAG
Celera SNP ID:            hCV15865100
SNP Position Genomic:     143037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26587):
AAATGTAATTTTCCCTGGAAGTGACTTATTTGCAATTGACCTTCTCAAGTGAAATTACTAGTGGATGGTAGGGGACCTTTTTATCCCGTCTTGCTACAGG
S
TACAGGGCAGCCTGCATCTTAACAGACCAACTCCAGGATGTGACTTGCTCTTCCTTCTGGCACCTGTTCCTCATGGACCTCCTTTTTTCCCTTCTGAGAC
Celera SNP ID:            hCV28984097
SNP Position Genomic:     85642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26588):
ATGCCTCAAATGTTATTTTGCTTTTCCTTCCTAGAAATAGAGGAAGAGCTGAACTCACAAGGACAGACAATATTACAGTCCAGACAAGAGATAGCAGGGG
Y
CTACGGGCTGTTCAGGGACCTTTAGACTTCTTTCAAATTTGGAACAAACTCGTAAATCCCCAAAATACAGTTGATTCTGGGGTTTCACCTGGACACTTGA
Celera SNP ID:            hCV15865101
SNP Position Genomic:     136497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26589):
AAAGCACTTAGAACAGGGCCTAGCACATGGTATAAATTCAATAAAGCCTAGCTGCCATTATCAGTGGTAGTATAATGAACATAGTAATTTGGTGTCTTTC
M
TGTTAAATTAGGGCACAGATTTTCACTAAATTAGATAAATTTTCACTTTGAGTTCGATCATAAATAATTTTTCATCCTACCATACAATGAATGTACAATA
Celera SNP ID:            hCV28984098
SNP Position Genomic:     77285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26590):
GAGCTACTTGGCATTTATCAAAGGAGTGGTATTCTTACTTCTAAGACTTTGCTGAAGTTGCATCAAGTTCAGACCTATTCAATATTGCAATAGTACATGT
M
TAGTTGTGCTTCTCTCTCTAAGTTATAAGCAAACTAAAAATTGTGTTTTATTCACTTTTGTATCATTTTATATCCTCAGGACCTGGCATAAATGCCCAGC
Celera SNP ID:            hCV28984099
SNP Position Genomic:     76561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26591):
CATTTCTACTTGATAGACTTGGAAATCAAGGCTCAGAGGAGACAAATGTTTTGCCTACAGTAGATTGGTGACAACATTCTGGCTATAATTAGTTACTCTA
Y
TCAAATAAACATATTTGAGCTTCGATTTTACTTAGGGCACTGGGGATACAAAGATAATTAAAATGAAACTCAGTCCTCATCCAACCAGTTGCCTCTCTTC
Celera SNP ID:            hCV11480860
SNP Position Genomic:     40410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,12)      total(C,1|T,12) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26592):
AAGAGGATTAATGATTGAAACTTAAAATTGAGACAATCTTGTGTTTCCTAAACTGTTACAGTACATTTCTCAGCATCCTTGTGACAGAAAGCTGCAAGAA
K
GGCACTTTTTGATTCATACAGGGATTTCTTATGTCTTTGGCTACACTAGATATTTTGTGATTGGCAAGACATGTATTTAAACAATAAACTAAAAGGAAAT
Celera SNP ID:            hCV1420142
SNP Position Genomic:     20017
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26593):
CCAGATGCCACTAGAGTAGCTTTGTAAAGCTCATTTTTCTTATCTTTACTTAGTTTCTGTCTCTAACTTTAGTTTCCTTTTTCAGCTTCCCTGACTAATT
S
TCTTAACCTCCAATTATCTTTAACAGAAGTTACTAATTCTGCAATTCATATATTCTGGAACTGGAATTATCTTTGTTCCTAAGCAACCAAGTATACATAT
Celera SNP ID:            hCV27492918
SNP Position Genomic:     22692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26594):
CCTTTCAGGCAGAAGTTGCAAACAATATTTTTAATATTTTTAGAATTCTTTACCTTCATTTTCAGTAAATCCCAGTTCAAAGTTTTGTGTGTGTGTGTTC
Y
CTTCTTCCTATCCCAAATTTTTACTTTTGTCAATAAACTTACAGTATTTAATCATGAGGCCTGGATTCTCCTGTCTTGAAGAAAGGGACACTCTTGATAT
Celera SNP ID:            hCV15865105
SNP Position Genomic:     101777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26595):
AGGGTTACCCAAACTAAGTCTCAAGATACCTGTTTCTAATGACTTTTAGATAGCATAGACCTCTTTATTGATTAAATAGGAAAGAGAAAAGAAAAAAAAA
A
CTCTAGAATTTTTAGGATTCATAAAATTGGCATCACAATAACAGTAATCACTTATGGCTCCTAAGAATTTTTTCTTTTTTTTTTTAAACCTTAAAGATTA
Celera SNP ID:            hCV11373201
SNP Position Genomic:     49640
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,6)   total(A,5|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26596):
CATTCAATAATCAATTAAATGTGACTGCACATTCGAAGTAAGTCAAAGTGTTCTTTGAAACCTCTGAGCCTGTAGGGAGCTGTACGTTTTCCAAAGGCAA
Y
CATTTAAGAATGAATATTCATCTCTGAAAACTAACTGAAGAAATATTCTGGCTGCTTTTGCTTCTGCATAAATACGGCTCTAAATACCATGTCCCTATGT
Celera SNP ID:            hCV15865106
SNP Position Genomic:     101419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26597):
GGACCCCCATTTTCAGTCTGGCCTCTAGATTATATTGGCTGATTAGGGATTTTCCCATACAGTCCTTTCCACAGTTTGCAATTGTTCATGTATTTGAATG
W
TCACGTGTTTAATCTCTCTCTCCTTCTAGCTTTAGAGAAGCTCCATGAAGGCAGAGACCATATCAGTGTGTTTCATATTCTACCCACCAAGGCCTACCAG
Celera SNP ID:            hCV15865107
SNP Position Genomic:     99646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26598):
ATATCTCTATTTTCAGTAACATGTTATTATATTGTGTTGAGATAAATAACACTGATTAATAAATTGGAATATTATGAATGTTTTAATTTAAATTGAGAAA
Y
GAATGAGTTTCTGTAAGGACAAACACCTTTGTGTGTAGTATTATAGTTGCATACAAATTTGAGGCTACAGTGTTTGCTTTTTACAATGAATATTTTAACT
Celera SNP ID:            hCV27498081
SNP Position Genomic:     24895
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,560|T,905)   total(C,560|T,905) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26599):
CTTCATGTGTCTGTGTATATTTATGTCTCTCTTAATATTTTGATATCTATGTATATATAATTTTCTAAAAGGATGGTGGTTGAAAATTTCAAAGTTGAAC
K
CAAACTTCAAAGTGAAATGTATTGCTGCATTCCAAGGCTGAATAGGTCTCTGTAGAGAGTGAGTGGAAGGGTAAGGTTATAAATATCCTGCTGGACAATA
Celera SNP ID:            hCV15865108
SNP Position Genomic:     85381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26600):
CAGATCAGGAAGTCTAACTGACCATTCCAGAATCTCTGCTTCCATTCCCCACTTTAAATCCACATACAGTCTTAACATGAAAACAACCTCTGGAACAAAC
R
GTGAGACAAATCTTTCTCAACCTGAATTTTGCCTCTTTCTAATATTCCACTCTACTAAGCAGATTTAGAAGTTCTTGTTTTTCCTGTCCAGTCTTTTTTT
Celera SNP ID:            hCV15865109
SNP Position Genomic:     82142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26601):
TGTTGCCTGCTAAATAATATCCAAGCTCTCTAGTGGACTAACTGGCATCTGACCACCTGGCCCAGCCATTTCTCATGCATCCTGCTTCCCCTTACACCCG
Y
CTCAGTCAATTTTTTTTTTTTTTTTTTGTGGGTGGAGGAGATGGAGTTTTGCTCCGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCTATTC
Celera SNP ID:            hCV15948499
SNP Position Genomic:     90694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26602):
GAATCAACTTAATGAGAAATCCACATGATAATTTTGAAAAATATATAATAAATTTCATTAAGAAATATAAAGGAAGGGTTTCATAAATAAAATCTATTTA
T
GCCAGGTGACTTTATGGGAAGTCCGCATGTTGATTCTCCTAAATTAATGCATTGGTTTACTGTAATTCGGGTGGAAACATACATCAATGCTCTTTTTCCC
Celera SNP ID:            hCV26092500
SNP Position Genomic:     134482
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26603):
AGAATCAACTTAATGAGAAATCCACATGATAATTTTGAAAAATATATAATAAATTTCATTAAGAAATATAAAGGAAGGGTTTCATAAATAAAATCTATTT
A
TGCCAGGTGACTTTATGGGAAGTCCGCATGTTGATTCTCCTAAATTAATGCATTGGTTTACTGTAATTCGGGTGGAAACATACATCAATGCTCTTTTTCC
Celera SNP ID:            hCV26092501
SNP Position Genomic:     134481
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,12)   total(A,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26604):
AAGAATCAACTTAATGAGAAATCCACATGATAATTTTGAAAAATATATAATAAATTTCATTAAGAAATATAAAGGAAGGGTTTCATAAATAAAATCTATT
T
ATGCCAGGTGACTTTATGGGAAGTCCGCATGTTGATTCTCCTAAATTAATGCATTGGTTTACTGTAATTCGGGTGGAAACATACATCAATGCTCTTTTTC
Celera SNP ID:            hCV26092502
SNP Position Genomic:     134480
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26605):
TACTCACTCAACAAATATTTGGGGGATCCTCTTTTGCCCCAGGCATTGATCTTAGTGCTGGGAATAAAGTGATAAAGAAAACACATACCTTGGCCTGGAA
R
CATTCACAGCTTCACGTGTTAGCCTTCCTCTCTGGGATCTTTCTGTCCCGGAGACAAGTCTTTTTCTCTCTGTCCCAGTTGCTTTCTATTTTATCAGGAA
Celera SNP ID:            hCV8884011
SNP Position Genomic:     117336
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26606):
CAAGAATCAACTTAATGAGAAATCCACATGATAATTTTGAAAAATATATAATAAATTTCATTAAGAAATATAAAGGAAGGGTTTCATAAATAAAATCTAT
T
TATGCCAGGTGACTTTATGGGAAGTCCGCATGTTGATTCTCCTAAATTAATGCATTGGTTTACTGTAATTCGGGTGGAAACATACATCAATGCTCTTTTT
Celera SNP ID:            hCV26092503
SNP Position Genomic:     134479
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26607):
GCTGGTAAATCTCTGGCAGGGGTCCCCAGTCAGGAAAAAGATTTGAGTATTAAGGTCTTTCAAAAAAGTTAACTGGCCATACTCAACTGTCTATAAAACC
K
CTATAAATTTCTGTTTTTATGTCTATGAATTATTAAATAAAATTTAACTCATTTTTAAGAAATTACATTTTCTGTTATCAAGAATACAATTCTTACTAGA
Celera SNP ID:            hCV27522992
SNP Position Genomic:     22066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26608):
CTGGAAGCATTCACAGCTTCACGTGTTAGCCTTCCTCTCTGGGATCTTTCTGTCCCGGAGACAAGTCTTTTTCTCTCTGTCCCAGTTGCTTTCTATTTTA
Y
CAGGAAGGTGGCAGGTCTTTACTGCGGTGTTTATACATCTCCTTATTGAAGGACACCTATTAAAGCTGTAGGAGCAGCAGGACTTAAGAAGAATAAAAGG
Celera SNP ID:            hCV8884012
SNP Position Genomic:     117430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26609):
TTTTTGATTGATTGCCAAAGAGATTTTTCTATAATGCTAATTTAATAATCTGTACAATATGAGAATCACTTCAAATAAACATTTCCATCAATTATTTTTT
R
AAATTTTTGTAGATTTGCAGTACCGTGTCACCCTAGATTCACTAAGACAAATATCACGAAGTTTTTTCTCTGGAACTCAAGAGAGAAAGGTTCAAAGGAA
Celera SNP ID:            hCV1150571
SNP Position Genomic:     138449
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,38)   total(A,72|G,4)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26610):
TATATATACTATATGTATAGTGTGTATCTACTATATATACTATATATGGTGTACCTATATACACACACTATATATAGTATATAGATACACTATATATAGC
R
TATCTAGTATATAGATACACTATATATAGCGTATCTAGTATATAGATATGCTATATATAGCGTATCTAGTATATAGATACGCTATATATAGTGTATCTAG
Celera SNP ID:            hCV26092505
SNP Position Genomic:     130238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26611):
ACGTAAAATAAGATGTCAGCAGTAAAAATGGAAAAGGAAGGGCCATGACAGATATCAATAATAGGAAGTTGACAATAGTAAAATGAAGCATTTTAGATGA
Y
GTCTTTGATCCATTATCACTCCATTAATTGTATACAAGACAAGAAGTGTCAAATTTTATGAAAATTTGCATATGAAAGTTGAGGAGAGTATCATGAATGA
Celera SNP ID:            hCV8884013
SNP Position Genomic:     125539
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26612):
GAAATTAAAGTCTAAAGAAGACACGATTTATGAAGCTGGTAAGCAAAATAATTATAGCAAGTACTTTTGGGTAGAGGACAATATATTTGCTCTAGCATGA
Y
GAAGTCCAGTAGGATATTGTATTTTCCCCACATGGTGAGCTGCACGTCATATTTGCCCCAGTGAAGATGCAGAACCTTGAAAAAAAATTCTGTTGCAAAA
Celera SNP ID:            hCV1150573
SNP Position Genomic:     137091
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,11)   total(C,2|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26613):
TAGTTTATATATTGTATATAGTGTATATATAGTGTATATAGAGTACATATTGTATATATAGTGTACATATAGTATATATAATATATAGTGTATATATAGT
R
TATGTAGTGTATATATAGTATATACAGTGTATATATAGTATATGTAGTGTATATATAGTATATACAGTGTATATATAGTATATAGTGTATATATAGTGTA
Celera SNP ID:            hCV26092506
SNP Position Genomic:     129361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26614):
AACATACACAGTTATAAGGGGCTAGCTCTGGCCACAAGGCAGAAACCAGGTAAAAATGTGCAGTAATTGTTCCGGCTTGGATCTAAGACAATGACCTCAG
W
ATCCATATATTCTCCATGTCTGAGATCTTACTCTGATCTCATTTTGGATTAGTAGACATTACTGGGCTTTCGAGTTAAAACGACTGAGTTTAAAATCCCA
Celera SNP ID:            hCV1150574
SNP Position Genomic:     136155
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26615):
TTTATGGCCTCTCCTGCCCCAAATCAAGGCATTGATGGCCCAAAATGATAGTCATTTCCCTATCATAGTCCAGGCTCCACTGACAGCAGAATGGACCAAA
Y
CGATATACTGGGACACGAAGACTAAGATTCACAATGCCTAACAAGAAGTGAGAGTGGATACAAGTGACAGATGATAGGAAAAACGTTTGGAAGCAAATAG
Celera SNP ID:            hCV1150575
SNP Position Genomic:     135152
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26616):
TACTGTATATACTATATATACTATACATAGTGTATATAGTGTATATATAGTATATATAGTGTATATATAGTGTATATATAGTATATAGTGTATATATAGT
K
TATATATTGTATATAGTGTATATATAGTGTATATAGAGTACATATTGTATATATAGTGTACATATAGTATATATAATATATAGTGTATATATAGTATATG
Celera SNP ID:            hCV26092507
SNP Position Genomic:     129265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26617):
AGAAGGAGTAAGGAAAATAAATATACCTCCTTTCCTCCCACCCTCTGATGTCTTGCTCAGCCTTCCCATTGGCCATCCCCAAATGGCAAGATCCAACCTT
Y
CAGAGAACAAAGGGCAAGACAATCAATAACAGAATAGCTAGCACAACTTAACCCCGAAATGTATTATGTGCAAGGCACTGTGCCAAGGGCTTTGCATGTA
Celera SNP ID:            hCV2840450
SNP Position Genomic:     9646
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26618):
TAATTCAAATATGCAAAGGAGTGGATACACATACTCTTTTTGTATGAATTATATGAGATCTCCTAAAATAAATGCAAATTCTTAAATTTAAATATAGCAC
Y
TAAGTCACTTTAAAACATCAATAGTTAAGATGGTTTATATATTTTGTTACAAATCATATATCCTTACTACAAATTAAATGTACTTTCAAAATTATTTTAT
Celera SNP ID:            hCV2840451
SNP Position Genomic:     12339
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26619):
AGTAATGACTATATTTAGTACTGTGCCTGACACACAGTTAACACTCAATGGGTGTTGTCTATTATTTTATTATGTAAATGTTATTATGTATTTTTTTATT
R
TGTAATGTTATATAATAAACATTCCTCTTATTAGTATTGTGGTAGGCAGAATAATGATCCCCAAAGATGTCCATGTCCTAATCCCTGGACCCATACTTTG
Celera SNP ID:            hCV26092509
SNP Position Genomic:     119052
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26620):
GTATTCATTTACCTGATACATAGAAACAGATAATCGCGTAGCACTCTCTGACTCTGTTTATATTGTTGGTCAAGCCTAGAGGCATCTTAAGTAATATCTT
Y
GCTCAGCCTTTAAAATGCCTAAATCCCCAAATTGGCCCAGTTCTTTCAGATACATACATTCATAATGCTTTATTAATTATGAATAAATAATAATTTAGTA
Celera SNP ID:            hCV1150577
SNP Position Genomic:     134184
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26621):
TGTCTGCTCTCAAGTAATCATAGTTGGTTAGATATTGAACAACTACTTACAAATAAAACAGAATTCACTACCTTCTAGCTTATATAATTTGAAAAGAAAT
Y
AGAATATTAATTATTTCATTTTCTATTTGAGTGTTCTCTTTGGTTCTGTAGTCAACAGAGCTCTCAAAATCTATTCATGTAATGCAAACATGAGTGATTT
Celera SNP ID:            hCV1150578
SNP Position Genomic:     131837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26622):
AGTTTTCTAGCTTCAAGCCAGGCATTTTTAGAGCTCTATAATTTATTAATATCAAGTATCATAATATCACTAGGACCTCATAAGGATGGTCAAATGAGAG
R
GCAGGACAAATAATCTTATTTATCATTTAGAATGAAAAATAATTAGCTTTATTGCGGTCTGGGACTTATTTCAAGTTGGTAGAATCCATCCAGGAAAGAC
Celera SNP ID:            hCV2840453
SNP Position Genomic:     13899
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26623):
TATTTTTTGTATTTTTTCTATATTGTCTCTGAAGCCACCTCTGTGTTTTGCTTTTCTGGGAGTGGAAGTGGAGGCTCGGTTGTGAATAAGTACAATTTTG
Y
TTTACTTCTGGTACATAAAATTCCAAGACAACTTAGTATAACAAAATTCACATTGAACTAAAAGTTATGAAAAGCTGCTTTTACTGTTTACTCACTCCTT
Celera SNP ID:            hCV27851438
SNP Position Genomic:     62958
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,14|T,2)   total(C,48|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:26624):
AATTAGCAAGCTATATCTCATTCAGGCCAATCAGTTACTGCTAGCGGACCCCATGGCCTTGTGCTCCCCATCTTAACATAGTATCTCTGATTTGTCTCAC
Y
AGACAAATCAGAGATACACTTCCCCTTTTATTCCGTGAGGAACCACAAGAGTCTGAACTGTGGCATCAATTTTGCAGTTGGATTTACATCTTTCTTAATG
Celera SNP ID:            hCV2840454
SNP Position Genomic:     23872
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26625):
GTTATCTGTCAGTCTGAAAATATGTTACTGCCCATCTGTGTACAAGGAGTTGTGCTAGATTTTGATAAAGGATTAAAAAAAGGTAAGTAAGAGAGTCATT
R
TTTTTAGGAATTTTCCAATTTGGGGGGAAAAATCTGACACAGATAACTATATAGTATTTAATAATTATCTCCATGAGAGGTTTCTTAAAAAATAAGAAAG
Celera SNP ID:            hCV27837796
SNP Position Genomic:     65183
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,1|G,39)   total(A,3|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:26626):
CTTTAGTGAGGAGGTATTCCCAGAGTTTAAACTGGCAAGTTCCAGAAGCCCACACTGATCTTCCATTAGTTTCTAGAGAGATCAGGTGAAGGGACCTGAG
M
GCATTCCTCTTTTAAGGCCTCTCAACTTTACTTTTTTTTTTTTTTTTTTTGGAGACAAGAGTCTTGCTCTATACCCCAGGCTGGAGTGCAGTGGCCTGAT
Celera SNP ID:            hCV2840455
SNP Position Genomic:     27560
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26627):
CTTGGCTCACTGCCCCTCTGCCTCCTGGGTTCAAGCAATTCTCGTGCCTCACCCTCCCCAGTAGCTGGGGATTACAGGTGCGTGCCACCACACCCAGCTA
R
TTGTCATATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGTTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCATCTTGTCCTCCCCAAGTGG
Celera SNP ID:            hCV2840456
SNP Position Genomic:     27761
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26628):
TCCTGGGTTCAAGCAATTCTCGTGCCTCACCCTCCCCAGTAGCTGGGGATTACAGGTGCGTGCCACCACACCCAGCTAATTGTCATATTTTTAGTAGAGA
Y
GGGGTTTCACCATGTTGGCCAGGTTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCATCTTGTCCTCCCCAAGTGGGATTACAGGCGTGAGTCACTGC
Celera SNP ID:            hCV2840457
SNP Position Genomic:     27783
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26629):
GTAGCTGGGGATTACAGGTGCGTGCCACCACACCCAGCTAATTGTCATATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGTTGGTCTCAAACTC
Y
TGACCTCAAGTGATCTGCCCATCTTGTCCTCCCCAAGTGGGATTACAGGCGTGAGTCACTGCACCTGGCCTCAACTTCACTTTGGTAATATTTTTCTTCT
Celera SNP ID:            hCV2840458
SNP Position Genomic:     27821
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26630):
TTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGTTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCATCTTGTCCTCCCCAAGTGGGATTACAGG
M
GTGAGTCACTGCACCTGGCCTCAACTTCACTTTGGTAATATTTTTCTTCTACAGAGTGGTCTCTGTAATCCCTGATCTCTCTAAATGTTAAATATTTACT
Celera SNP ID:            hCV2840459
SNP Position Genomic:     27871
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26631):
CTGAGACAGATTACACGATAGACAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATATTGATAGAGAACATGTTGTGTCTATATA
M
ATATCCAATGACACACAGTATAATCATGTTTTAAATTATGCCAAAAGTACTGATTATATCAAGCCCAGTAAACATAATGCTACACAGCACCCATTCTTTA
Celera SNP ID:            hCV12014497
SNP Position Genomic:     173554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:26632):
TCAATTTCCAAGCATTGACTTTCTTGCAATGACAAGTAGTTAAAATCTCTATTCAGGTTTTATTTCAGCTGGGCTATTTGAAATATACTCTGCGCATTTA
Y
TATTCAAGTCATCTAGTTATTTGGATAAAATATATATGCATATTATAGAACTGTTGTTTTGTGGCTCTTTTTCTAAGATATACTACTCTCCTCCTCATTT
Celera SNP ID:            hCV15865110
SNP Position Genomic:     81391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26633):
CTTCCAGGGTGCTTATTGGTTCTCCGTTAGTTGGCCAACCCAAAAACAGAACTGGAGATGTCTATAAGTGTCCAGTTGGGAGAGGTGAATCATTACCTTG
Y
GTAAAGTTGGATCTACCAGGTATGTAAAATTAAAAAAATCTGGTTTTAGGCCAGGTGCGGTGAGTCACGCCTGTAATCCCCACACTTTAAGAGGTCAAGA
Celera SNP ID:            hCV15865111
SNP Position Genomic:     79664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:26634):
TATCTCTTTTAAGGATGGTTAAATATTGCTAAAATATTTTATGAAATTCTCATTTTCAATTTCTGATATCAGAAAAACCTGTATGTTTTCTTTCTTATCC
W
GTCCTGTCTCTGTGATTTTAGAAAAATCTGATGTCAGAAGTCCTTAATTATATGAATGAACCTTAGTAGAGTGAAAAGGGGTTCATATTTCTTTTTAGAA
Celera SNP ID:            hCV15865112
SNP Position Genomic:     69353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26635):
CTTGGAAGCAGATTTAAATACTGAAAAATATTATAGGTATCGAAAAGACCCTTTTTATTCTGGCAGAAATATATAAATCTGTGTGTGTGTGTGTGTGTGT
C
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTTCTGGTGCTATTTCTCAAAAGAGTTTTTTTTTTTGGTAGATTTTTTTTGGTTACTTTTTTATTTC
Celera SNP ID:            hCV15865113
SNP Position Genomic:     50883
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26636):
TCTTAGATATGTATTTCATACAGATTCACATATGTTCTTCTGGATGAATTAGAAATTTTAATTGTGAGGATCAATAAAGTAGCGCAACCAGCTTTCACAT
Y
TGTATGAAATTTAGGACTTTGCAAAGGATGTTGCACACCAAAAATTACAAAATAATTCAACGATTATTTGCTACAGTTACCAAAGATTATAATATTAACA
Celera SNP ID:            hCV11480870
SNP Position Genomic:     29123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26637):
TTATTTACATAAGCAGGTAGTGGGCAGGATTTGGTCTGTAGGACACAGTTTGTTGAACCCTGGCCTAGAGCATGATATAGAGTATGCTTACAAACTGGGC
M
TAATTAAGATAACTATTCTAGAGGAAAAAGAATGTATATGCTTAGATTAACTCAGCAATTACATAAACACAACTGTAGTACATACATCTATTCTTTTAGC
Celera SNP ID:            hCV15865114
SNP Position Genomic:     36208
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,8)      total(A,2|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26638):
AAATTTCACTTCTGTGGACCTAACCTAGGGAAAAAAATCCAATATTTAAGAATGCCAAGTGAACAATGATTTCCATTGTATTATTATTTATGTTATTGGG
R
GAAATGCCATTATCCTAAATGCCCGAAAATATGCAGGTAGTTAAGTAAATAGTAAATCCACTTAATGAATATTACACACCCATAAAAATAAAAATTATAA
Celera SNP ID:            hCV15865116
SNP Position Genomic:     118637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26639):
GAAAGGTGTACTCAGGAGTTCTGTCAATGTCTAATCTTCCAATATTACATAAAGCCAGCCCTGAGTTTAGAACAGTCACATTTTATTTATGAAAGGCCTT
Y
TAATCATCTCCTTCAGCTGATGTTCATTCAATTCTTTTGTAACCCTGATATTTAAGAGAATTAGGAAGTTTTAGTGACCTAAGGAATTTGAATTTCAAAA
Celera SNP ID:            hCV15865117
SNP Position Genomic:     102090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26640):
TTTACTGTTTTTCTGTGATAGACAAATACTGAAATTTGATTCAGATCCATTACACAAATGGCCAAGACAGGATATTCTGTGAATTTCCTGGGAAGTATAT
W
CAAGTATCACTTACCTGACAGCATCTGAGCCATTGTGTTATAAGGAATTTCCTGCAGGGATTGAATTAGTTAGGCTTAGCCCTCAGTGGTTTTGTAACTA
Celera SNP ID:            hCV11373214
SNP Position Genomic:     36547
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26641):
CCTAAACATTGTTTTCCAATCCAGCTGTCAAACTTCAAGTATGGAAGAGGAGGAGAAAAATCAGCTAGCAAATATATCCAGATTTCCTGCTGGGCACCAA
R
TGCTAAGCAGGGTAGGCCAAAAACATTTAATCAAAAAAACAAGATCCACCACGGTTTTTACTCTCCTAAAGTAAAATATAAATTTGGAGGTGAGCCAAAG
Celera SNP ID:            hCV11373215
SNP Position Genomic:     33242
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26642):
TTTCGACTCTCTTTTTCATTAATTATCTTCCCCCATCACTTAGCTAAAGTGGGGGAAAGTGCCAGTTGTCTCTGTTTAAATATTAACAACTTCTGACGTT
T
GACACTTGCTTTTCAGCGAAGTAGACAGGAATTGAATTTTTGTTTTCTGATGCAATTTATAAGCTCCTGGTATAGACCTTTCGACCTAAAATGTAGACAT
Celera SNP ID:            hCV11373144
SNP Position Genomic:     106660
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,7)   total(-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26643):
ACAATTGGCTAGAATCACCTCAGGAGATGGTACTTGGATCTGGGCACCCTTTGAATGTTTTTCACTTATCCGGTAGGTAAGGACATTAGCTCTGGACTAG
R
AAATCTTGGATCTCCCACAGGTGAGCTCTGTGACCTTGAGCAAGTAATGTTACCTTTATGATTCTCAAACTTAGCTTTGTGAGCTTCAATTTGTAAAATG
Celera SNP ID:            hCV11373217
SNP Position Genomic:     30664
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26644):
TGAAATAAAAAGAGAATGTTAAATGTCTAGCAAATTTATGGAGTAAACTTCGCTGAAACATATGAAGCCTTACTAGCGCTTTTGGCTTTAAGCCTTTGTG
R
GCTGATTAATGGGTGTTCTAGGAGATTATTTTGCCTAACTTTTGTAATTGTGATTCTAGGTACATGCCTCCTCCGGACACAAGTACTCCCTGAAAGAGGC
Celera SNP ID:            hCV11480879
SNP Position Genomic:     19436
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,2|G,34)   total(A,5|G,69)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(A,240|G,1257)   total(G,1257|A,240)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26645):
TGTTCTTATGCCCCAAGATCTGCACCTTACATCAGGCACCCGGGAATGCTTCTCATTGAAATTTTACCATACCAAAAAATATGTAAGGGTGACTCATCAC
Y
CCTAACTTTGGACTCCTTGCTTTGAGATCGGTATTTTTTTCTCTCTCTTTACATATAGCAAAAGCTTTCCCCAGTAGCTGATGAATTTAGAACTTTATAC
Celera SNP ID:            hCV11588875
SNP Position Genomic:     175537
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:26646):
TAGTATAATGGAGGAGGGACAAAGCAGAATATACTTCCAAGCTGGAACATCTTTAAGACATTTACAAACTGTTATGGGACACTATCAGCAACTACGCCTG
B
GGAAGCTAGCAGGATTTAGCTCTTCAATGGCCCTCCAAATGCACCCAACAATCGCCAACCTCACCCATGGAAATCATCTAAAAAATGAAAAGAAGGGCCT
Celera SNP ID:            hCV11588876
SNP Position Genomic:     174795
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:26647):
TTCTTTATCCTCATGAAAGAGCCAATAAATAACTTTCAGGGAGCATCAATTTTTATCTTTCATTTCCTTTGCCAACTAGCTCCTCTTCTAGATTGCTAGA
M
GTAAAACAAATGTAGATTTCAGTTTCCTTGAGAATTTCTGTTGTTCATTGGGCTGTTTTGTTTCATTTTGTGTCCTAGATTGGTTCCTACTTTGGCAGTA
Celera SNP ID:            hCV8884020
SNP Position Genomic:     126953
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26648):
ATTTATCTTATTGCTGCATGTTCTCTCTGCAATTCAAAATCAGTATAATGGGATTTTTGTATTTATTCCTAATACATCAGTAATACTTTTTTTTTTTTTT
T
ACTGTGTACAATATCTAGCATGGAACAATGCTCTTTTATATAAATCTGCCATTAAGATGGCTGTTTCTCACAACACTGTGTCTGCTAGAGACTCTCTTTG
Celera SNP ID:            hCV26092513
SNP Position Genomic:     112081
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26649):
GAAAAGTGTATGTGTATGCTCTCAATCAGGTAATGGTGTCTGAGTTTGGTAGAAATCCAGGAAAATCTCTTCCTTCTCTTCATTTTTTAATAATAAATTC
Y
AATTTTTCACTCACTTTGAAAAAACAGAGCAAAGAAGCTATCAGGATTCATTCACTCCACCAACCCCTCAGTTTTGAAATGACCATTTATAATTCTAATA
Celera SNP ID:            hCV8884021
SNP Position Genomic:     127247
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(C,10|T,30)   total(C,13|T,61)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   ;(C,-|T,-)   JBIC-allele(C,188|T,531)   total(C,188|T,531)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26650):
TTTATAGACCACAATTTGTACTCTACTGTTTATAGACATTTTGCTTGTGTCCAGTTTGAGTTATTGTTATAAATGTATCATGAACACTAAAAAAAAAAAA
W
AAAAAAAACCAAAGTGATAATCTTCAGGTAACACTTGCAACTATGGTAAAAACTAATTTTTTTATTTATTACAGAAGTGATTTTTTATTATAAAGTTTTA
Celera SNP ID:            hCV26092514
SNP Position Genomic:     109700
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26651):
GAGTTAGAGTAGCTAAAGGTCAGCTCCTCAAGTATCAGGTGAAAGGGTTTTATTAACTCTTTGCCCACATTTACGCTTGGAAAACGCATAACAGTTAGAA
W
AAGGCTATTGTTGTAGCTCAAACTGGAGGTAAGAGAACGTAAAATAAGATGTCAGCAGTAAAAATGGAAAAGGAAGGGCCATGACAGATATCAATAATAG
Celera SNP ID:            hCV1150581
SNP Position Genomic:     125402
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,7|T,7)      total(A,7|T,7) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26652):
CACTGCAACCTCCAACCTCCCAGGATCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACCACAGGCGCACACCACCACACTTGGCTAATTTTT
W
TATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCGGGCCGGTCTTGAACTACTGACCTCAGGGGATCCACCTGCCTTGACCTCCCAAAGTGCTGGGAT
Celera SNP ID:            hCV26092515
SNP Position Genomic:     107406
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26653):
TTAAAAGAAGTTTGGGAAATGATACATGAAATAACATTTACATATGTATATATAAAAACTGAAAGAAACATCGTAAATATGCAAACATTTACACACACAC
R
TATTAACTGAAAGAAAGATCTAACATGCTTTTTGTTGTTGTTATTTTTGAATTGTGATAGCTTGGGAACTTTTGTTTCTAAAAAGTTTTCTGTATTTTTC
Celera SNP ID:            hCV1150582
SNP Position Genomic:     124702
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26654):
CCCAGCACAATGCCAGGCCAAACAGACACTCAACAAACAATCATTGAAAGGAAGGAAGGAAGGAAGAAAATAAGGAAACATGAAAAGAGGAAGAAGGAAG
S
AAAAACATAAGAAGGAAGGAAGGGTGAGAAAAAGAGGACTGAAAAAAAGAAGAGGAAAAGAAGAGGAGGAAAGGAAGGGAAGAGGGTGGGAAGGCGGGAA
Celera SNP ID:            hCV26092516
SNP Position Genomic:     106371
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26655):
AGGGACTTTTCAGATATGATGAAATTAAGGATCCCGAGTTGGAAGATTATCCTCAGATATCTGGCTGGACCTGATACAATCAAGCATTCTAAAAATCAGA
S
AACCTCTCCTGGATGTGGCCAGAGGGAGACAGAACTATGGAAAAATGGTCAGAGAGATGCAGTGTTGTTGGCTTTAAAGATGGAGGGGGGCCACAAGCCA
Celera SNP ID:            hCV1150584
SNP Position Genomic:     119262
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,7)      total(G,7|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26656):
CTGAGGCAGGAGAAGCGCCTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTTCAGCCTGGGCAACAAGAGCAAAACTCTGCC
Y
TAAAAAAAAAAAAAAAGCCAGAAAATCTACTTGTATAGTATGTTAAAAATTATTCATGATATTTGTTAAAGATTGTAAGGAAGACATCACTCAAGAGGAA
Celera SNP ID:            hCV26092517
SNP Position Genomic:     102578
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26657):
TCTCTGTAATCCCTGATCTCTCTAAATGTTAAATATTTACTGTGGAGTCAACAAACCTGAGAGGAGACATCATGGAGAAGGAGATTCCATTACCTCCTAC
Y
CTCATAAGAAAATGAAAATCAAATACAGACCAGGGACCATGACTGAAAGGACTCTGAAAGATTGTGGAACCTTTGTATAATAGTATCCATGTTTTTGTTG
Celera SNP ID:            hCV2840460
SNP Position Genomic:     28031
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26658):
CCCTTGGATAAGGGATACACATCTTAGACTAGACCCCCCTTCCACCACTTCACTATAGGGATTGGGTGTTTTCAACTCAGTTTCCTCACTTATGAAACAT
T
ATCATGTTTCTGTTATTATAATTTAAATAATTAGAGAAGAAAGTTTTAAAAAGACCATTAAATATATATCATAGTATTCTTATTTAAGCATAAGGACATA
Celera SNP ID:            hCV26092518
SNP Position Genomic:     98402
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26659):
CATGTGATTAAAGTTAAGTATGAATATAACTGCAAAACTGCCCTGAGCTTCTCCTCTCTGCCTGTGAGGTAGTCCTGCCTGGCAGGAGCAGTCACGGAGC
Y
GTAAGGCCACCAGAGCTGTAACGCTGCAGCTTCAAAATAAAGCTGTTTTCTTCCACCTCTGGCTTGCCCTTGAATTCTTTCCTGAGCAAAGCCAAGAACC
Celera SNP ID:            hCV26092519
SNP Position Genomic:     95838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26660):
CCAACATCTAGCCATCAGTATGTAAGTGCAACGTGCAGTTCATAGCTTGAACAATTATGCAGGCTATGATGATGTTTTCTAATTCAAATAGGAAAATATC
M
TTTCACAAGCTTCTTATTAAGAAAATATGTTCTCTCACACAGTTCACTACATTGTACTAATAGTTGTGAATCAGACAGTGTGAGCTTTGCCTTGTAATTA
Celera SNP ID:            hCV1150588
SNP Position Genomic:     115820
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,8)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26661):
CTTCCCTGTTCCCGAACTTTCTGACCAAGAGGGTGATTCCAGTTCTGAAGAGGATTAATGATTGAAACTTAAAATTGAGACAATCTTGTGTTTCCTAAAC
W
GTTACAGTACATTTCTCAGCATCCTTGTGACAGAAAGCTGCAAGAATGGCACTTTTTGATTCATACAGGGATTTCTTATGTCTTTGGCTACACTAGATAT
Celera SNP ID:            hCV25993210
SNP Position Genomic:     19970
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,35)   caucasian(T,18)   total(A,1|T,53)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26662):
TCAATGTTAGCCACTCACAGTCACAGGTTTAAACCGTGAAGTTAGTGTTTATTTTTATGAATCTAAAAACAATTGTTCCCAGCCATGGCATGAAGTCTTC
M
TATTGCCCCAACCCACATAAACACACTAGAAATTTTCATTCTTAGGGAGGGATAGGGAGGCTGGGGGCTACTGAATGGACATTTTGTTAGTTAAGAGCTC
Celera SNP ID:            hCV2840465
SNP Position Genomic:     34561
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,6)      total(A,1|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26663):
TGTATTATGACTAGCTACAACAGGTGGGGGTTTTCTTTGCAGTAATATTTTCAAGTGGTATCACCTAGCAGCTGGATTCCTTTGCCTTAACAGAATTGGC
M
CCCTAAAAGCAAAAGAGATGGAAGCACTGGGAGTGATAAACTTTGTCAGTTTAGAATCAATTTAGATCAGTTTAAAACCATTCAAACTTGACACATTCAA
Celera SNP ID:            hCV2840466
SNP Position Genomic:     35063
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26664):
AACCATTCAAACTTGACACATTCAAAAGCTTTCAATGCTATCCACTAAGAAATCATATTTGAGGAATTTTTTTCCATTAAACATTTAGTCTGGCTTAAAT
M
TAGTAAGATGCTAATCTTTTCGAAACTTGTTTTTCTTTCTTTTTGTAAAAGTCAGTTGAGTTTAATATAACAAAAGGGCTGAATACCAGAGGTAGAGAAG
Celera SNP ID:            hCV2840467
SNP Position Genomic:     35239
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26665):
CTTAGCCCTCAGTGGTTTTGTAACTATTTCCCGCATTCACCTTAAACAATGCCTTTTAGAAGTGGTTTTTGGGTGATTCTTTTTCTCCAGGAAGAGATTA
Y
AAATAATGAAATGATTAGACCATTAGAGAATTTAAATCAGTAGAGAATGCTAATTTCTTTTTTTGTCATAGTAACAGAGCAAGCCAACTTAATCAGTGCC
Celera SNP ID:            hCV2840469
SNP Position Genomic:     36722
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26666):
TGGGGAGGACAAACATGTAAGCAAATCACTGTTAGAAGTAACTTGTACAAAGTGTGTAAAAGGACACAGTGGTGAAAGGGGTGACTTTTAGGAGAAACTT
Y
ATAGAGCAAGGACCAGTAAGTTTACCTAAAAGGGGAAGAAGAAATATGGAGAAATTAAGTGGGAAGATGGGGAGGGGAAGTGTGCTAATCACCTAAGAAC
Celera SNP ID:            hCV25750378
SNP Position Genomic:     23205
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,38)   total(C,2|T,74)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:26667):
AAGCCATGACATAGTCCATACTCTTTACCCCTGCCTGTCCCTCTAAAGTTAGGATGTACTTGGGAAGATATAGTGTGCACTCAAACAGTTGAGAAGAATG
Y
AATACTCACAGACAAGTTTGTTTCAGAGTTCCAAGAAGGGGAAGCTCAATATGGGCTATCCTGGCAACAAGGTAAGAAAAGTTTTGCAGAGAGAGTGGAA
Celera SNP ID:            hCV26092520
SNP Position Genomic:     94929
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,12)      total(C,12|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26668):
GGACCCAGGAGGCGGAGGTTGCAGTGGGCCAAGGTCATGCCACTGCACTCCAGTCTGGCAACAGAGCGAGACTCCGTCTCAAAAAATAAAAATAAAAAAA
K
AAAATAAAAAAATAAAGTTGTAATCTAACACAATCCCAAGTACAAAATCTCATACTATGTAATTAAGTCCTTTGATTGCTAGCAGCCAGAGTTTTTGGAT
Celera SNP ID:            hCV26092523
SNP Position Genomic:     78689
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26669):
AATCGCTTGGACCCAGGAGGCGGAGGTTGCAGTGGGCCAAGGTCATGCCACTGCACTCCAGTCTGGCAACAGAGCGAGACTCCGTCTCAAAAAATAAAAA
Y
AAAAAAATAAAATAAAAAAATAAAGTTGTAATCTAACACAATCCCAAGTACAAAATCTCATACTATGTAATTAAGTCCTTTGATTGCTAGCAGCCAGAGT
Celera SNP ID:            hCV26092524
SNP Position Genomic:     78681
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26670):
TATCCTGAATTGCAGTCATAGATGTGTCTTTATCCACTTTATTATTTTTGTGTAATTAGTTGGCTGTATCCTATCTTGTTCCCAAAGGGTCTTTTGGTCA
Y
CTTTATTCCAAATATAGTAGCTCTCTCAGAATAGGTGGTAAAGGATATTGGGTGAAAGATAAACTCACAGAACAAGGCTAACCTGGACATGAATTGAGCA
Celera SNP ID:            hCV11373159
SNP Position Genomic:     97869
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26671):
TTTTTTTAAATCCATTCATCCATTGATCCATACTTAAGGTTAATTCTATATCTTGTCTATTGTAAACAGTGCTGCAATAAACAGGGGAGTGCAGATATTT
M
TTCAATATACTATTTCCTTTCTTTGGGATATATACCCAGCAATGTTTTTTTTTTCTTTTTTTTTTTTCATTTTAAATACACACCTCCTGTAGTAACCACT
Celera SNP ID:            hCV1150592
SNP Position Genomic:     109339
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26672):
GAAAAAGGAAAATACATGCATATAATGTTTACTTATGTCATAAAGAGCGCTTAGCATAAGCAATGCAAAATGCAAAGTTGTTCCTTACATAGAATAGCCA
A
CATTTCACTAAAACCTAAAAAATTTGAGTATGGTTTATGTTGGAAAAGTACATATGATTCCTAAATTTATGTGTTAAAATTTTATAATGAGTTTTATTTT
Celera SNP ID:            hCV11588889
SNP Position Genomic:     164076
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26673):
AAAGAAGACTGAATTTAGCCACCTCTGAATGTACCTGATGAGGCTCTGTAATTTTATAAGACAGTGCTCTTTGGAAATAATTTTGTTTGTTTGTTTGTTT
G
GTTTGTTTGAGACAGTCTTTCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGTCTCCCAGGTTCAAGCGGTGCCCCT
Celera SNP ID:            hCV26092525
SNP Position Genomic:     65688
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26674):
TTCAGCTCACACATTTGAGTGAGAACGTAGTGATATTTGTCCTTCAGTGCTTGGCTTATTTCATTTAATATAATGTTCTTCAGTTCCATCCATGTTGCTG
S
AAATGACAAAGTTTTGTTCTTTTTAATGGATAAATAATATTCTGTTGTGAAGATATACCATGTTTTTTTAAATCCATTCATCCATTGATCCATACTTAAG
Celera SNP ID:            hCV1150593
SNP Position Genomic:     109176
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26675):
CTCAAACGAGGCACAATTCTGGTAAATTAAGACAAGTGCTATTTTTACCTTTTGCTTTCCAAATGAATAAAATTGATATCAATCTAGAAATAACCATCTG
R
AGAATTTAAATATAGATATTTGATAAAACGGCAAGAATACTGATATGTATCTCTGGACATTTAAACAGGACTGCAATACATGTAAATTTGCTACCATCAC
Celera SNP ID:            hCV16020884
SNP Position Genomic:     157900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26676):
TGGCTTCTGACAAATCAGTTTTTCAAAATAGCATCCTATGTACTTTTCATTTCTTCCAACAACCCTCAGGCCCCCTTTTGCCAGTTTTCTCCCCCAGGGG
R
GATTTTCAAGACTACTGGAGAAAAATCTGTTAATAAAACATTTGCTCTGAGTACCAGCTTCAGTGACTCAATCATTTATACAGGATTTCAGTGTTTTGTT
Celera SNP ID:            hCV15800957
SNP Position Genomic:     174567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:26677):
CAAAGAAGACTGAATTTAGCCACCTCTGAATGTACCTGATGAGGCTCTGTAATTTTATAAGACAGTGCTCTTTGGAAATAATTTTGTTTGTTTGTTTGTT
T
GGTTTGTTTGAGACAGTCTTTCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGTCTCCCAGGTTCAAGCGGTGCCCC
Celera SNP ID:            hCV26092526
SNP Position Genomic:     65687
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26678):
TCTTTCCAGCCTTTGATAACCACCATTCTATTCAGTATGTCTATGAGATCCACATTTTCAGCTCACACATTTGAGTGAGAACGTAGTGATATTTGTCCTT
Y
AGTGCTTGGCTTATTTCATTTAATATAATGTTCTTCAGTTCCATCCATGTTGCTGGAAATGACAAAGTTTTGTTCTTTTTAATGGATAAATAATATTCTG
Celera SNP ID:            hCV1150594
SNP Position Genomic:     109120
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26679):
ACAAAGAAGACTGAATTTAGCCACCTCTGAATGTACCTGATGAGGCTCTGTAATTTTATAAGACAGTGCTCTTTGGAAATAATTTTGTTTGTTTGTTTGT
T
TGGTTTGTTTGAGACAGTCTTTCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGTCTCCCAGGTTCAAGCGGTGCCC
Celera SNP ID:            hCV26092527
SNP Position Genomic:     65686
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26680):
AACTAACCCCTCTTCATCCCTGCTCTTCCCCACTACTCTTTCCAGCCTTTGATAACCACCATTCTATTCAGTATGTCTATGAGATCCACATTTTCAGCTC
M
CACATTTGAGTGAGAACGTAGTGATATTTGTCCTTCAGTGCTTGGCTTATTTCATTTAATATAATGTTCTTCAGTTCCATCCATGTTGCTGGAAATGACA
Celera SNP ID:            hCV1150595
SNP Position Genomic:     109084
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26681):
GATGACTGTGACGGCCTTTAGTTTGCATTTTTAGACTGCTTAATTTGGGTCAATGTTTCTCAAAGTTATCTCCAGTGGTCTAAACTGTTAAATCTGTTCC
R
AAGTCTAGGAACCTATGTCAGTCAAAAAAGTATGTTTTTAGACAGCTCTCCTCACCCCATTCCGTGTGAAGATGGCCCCACTGATATTCATAAAAAATAA
Celera SNP ID:            hCV2840470
SNP Position Genomic:     39408
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26682):
AACAAAGAAGACTGAATTTAGCCACCTCTGAATGTACCTGATGAGGCTCTGTAATTTTATAAGACAGTGCTCTTTGGAAATAATTTTGTTTGTTTGTTTG
T
TTGGTTTGTTTGAGACAGTCTTTCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGTCTCCCAGGTTCAAGCGGTGCC
Celera SNP ID:            hCV26092528
SNP Position Genomic:     65685
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26683):
CCATCTAATTATAGTTTTAAATCCATTAACTAACCCCTCTTCATCCCTGCTCTTCCCCACTACTCTTTCCAGCCTTTGATAACCACCATTCTATTCAGTA
Y
GTCTATGAGATCCACATTTTCAGCTCACACATTTGAGTGAGAACGTAGTGATATTTGTCCTTCAGTGCTTGGCTTATTTCATTTAATATAATGTTCTTCA
Celera SNP ID:            hCV1150596
SNP Position Genomic:     109057
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26684):
GTCCCCACAACTATTCAGCCTTAACATTTTCTTACTTCATTCCACTGTAATCATTTATTTAGTATAGAATTTATTAGGAATCTAAATGCCTTTAAAATTA
Y
GCTAGTATTTTTATTTGAGTTGTTTCGACTTTATGTTTTAGCTAAAAAGGTGTATGGACTTTGAGTTGACTGCCCCAACTCTGTTTTTATCATAAGCTGT
Celera SNP ID:            hCV2840471
SNP Position Genomic:     39920
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,16)      total(C,16|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26685):
TCCTTCCAGACTCACCAATCAGTTAGTGTGAAGGAAGGGCAGGTTGAGAAATAGCCGAGAAGTATTACAACCGGTGAGGCACTCACCCCATGGAAGGAAA
Y
GTCAGAAGTGGAAAGTTAGCATTTCCCTCTAAAAACATATAAAGTTAAAGCCATGTTTTTATTCCCTTTTAGACCCTATTTTTTCCTCCCCTTCTCCCAT
Celera SNP ID:            hCV26092529
SNP Position Genomic:     55557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26686):
GTCGGGCCGGTCTTGAACTACTGACCTCAGGGGATCCACCTGCCTTGACCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCCACTAT
S
CATTTAATGATACAAATAAACAAGTCTTTCGTAGATTATAAACAGCAGCACTTTAAACAGTAATTTTAGTTCTTTTCTAACTTTCTATAAGTGAAAAATC
Celera SNP ID:            hCV1150597
SNP Position Genomic:     107540
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26687):
TAAGCTGTATGATTTTTATGTGTGATTTTGTAGAAAACACAAGATTGCTTTTAGGAATGAATATATCACATTATAATAGAAATATCTGTTTTCTTGCAAC
W
TAAATTGCATATATTTTATGAATGGAAGAATGTCAACAACAAAATTGGCAATGGGACTATTTGAGAATTTGCCATGTGGAGGCCGTTTCCTGACCTTTTA
Celera SNP ID:            hCV2840472
SNP Position Genomic:     40113
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,13)      total(A,13|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26688):
TCTCAAACTCCTGGCCTTAAGTGATCCACCCACCTCAGTCTCCCAAAGTGCTGGGATTGCAGGTGTGAGCCATGGCACCTATCCAAATCATTTTAAATGG
Y
GATGATTATGTCCAATAAGTCCATCTTATTCTCTTGGGCATCTCAACCTTTTCCTGCCTTAGGAAAATGGAGGTCCTCTAACTCCTAAGATCTTGTCACA
Celera SNP ID:            hCV2840473
SNP Position Genomic:     41615
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26689):
CTGCCTTCTCTCTAGTAAGGAACATTCAAAAGCCACTGCACTGCCTTCAAGACTCACTTTCTCACATTAACATTGAGTGTACATTATAGTATTTCAGTTG
Y
TGCTCTAAACTACTATCCATTTTTTTTTTTAAATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGAAGTGGCACGATCTCGGCTCACTGCAACCTCCAAC
Celera SNP ID:            hCV1150599
SNP Position Genomic:     107221
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26690):
CTGTAGGTTTCTACCATGACTCTTCTCTCCCTTCTCTTGCCCCCTCTTGGGAAAGACTGATATTGCAGAGAACCCTAATACTTTACCATTCCCACATTTC
Y
GAGATCCTTTGTTCCATTGAGGTGACCCTAGTTTCCGAGAGTCAGACTTGTTCTGTGTGTGTGTTCTCAGGTGCATCAGGTCAGCCTGTGCTTCCTCTTC
Celera SNP ID:            hCV15968119
SNP Position Genomic:     137478
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,504|C,983)   total(C,983|T,504) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26691):
TCCTTTAAAAAGCAAACTGGATAAATAGTACTTCAGAATTCTATATATTATTTGTTACAACTGCATGTAAACCTATAATTACCTCAAAATGAAAAGTTTA
R
TTTTTAAACAAAGCCTATTATTGTATGATTAAGGTGGATAATTGAGCTGCTTCTTATTTTTATTATAGTAAAATATACATAAAATAAAATGTATTATTTT
Celera SNP ID:            hCV2840474
SNP Position Genomic:     42969
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26692):
CTTTTCTTGGGCCTCTCTATTGCCTGAGGCACAAAAGTATTGAAATTAGTCTAAAATAGGCAGGGCACAGTGGCTCATGCCCGTAATCCCAGCACTTTGG
R
AGGCCAACACAGGCAGATCACAAGGTCAGGAGATCGAGACCATTCTGGTCAACATGGTGAAACCCCGTCTCTACTGAAAATGCAAAAATTAGCTGGGCGT
Celera SNP ID:            hCV2840475
SNP Position Genomic:     43773
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Gene Number:                 101
Celera Gene:                 hCG20042 - 206000041550871
Gene Symbol:                 TDE2
Protein Name:                tumor differentially expressed protein 2;FKSG84;PRO0899
Celera Genomic Axis:         GA_x5YUV32W802(51710888..51747628)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12261):
CTGCTGGCCGGATGACGCCGCTTGGCCTGAGCGTGTCCAAGCCTCAGATGACAGAGTTCCTGGTCCCTTATGCTGCCCTGGGGCTGGTGGCTGCCCTTCC
TSGATCCTAAGACATCCTCCTCACCTCAGAGTGGTGCTGGCCTCAGCGGGGCTTGGAGGAGGCTGAGCTCTCTGTGTGGGCACTCACATGGGTGTCAGCC
TGACCCACCCACGTGTGCTCACATCCCTGACACGTGCACATACATGCAAACCCATACACGCACCCTGCATAGTAGGGGCTCACAGACGGAAAGAGCCAGG
CCACTTCTTTTTTTTTTTTTTGAGACGGAGTTTCGTTCTTGTTGCCCAGGCTGGAGTGCAATGGTCTGATCTCAGCTCACTGCAACCTCCACCTCCCGGG
TTCAAGCGATTCTCCTGCCTCGGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCATACCCGGCTAATTTTGTATTTTTTAGTAGAGGTGGGGTTT
CTCCATGTTGGTCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCCGCCCGCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCGCGAGCCACCGCGCCC
GGCTGAGCCAGACCACTTCTGTCTTTTAAGGCTCCTGCTAATTTAAAAATGAAGAAAGTCCTAAATAGGATGTTCACAACTGTGGTATGTTTTTATTTAA
CAAATTAATGTTTTTTAACACACACATGCACCCACACACATCCAATGCAGTGCAACTGAGAGACTCACAAGATCGTCACAAGAATTATAAAAAATGTGAT
TTCACATTGCTGTGTGGTCCAGTGATGGGATGTAAGTTTCAAATGGCATGAAGAGCATTCTGTTCTTCCCATCTCATCCATAATTCTCTGGGGCTAGACA
TCCAGCCCACTTTGTGTACTCGTTGTATTATGAAAAGTATCAAGCATCCAGAAGGGTTGAAAGAATGGTACAGTGAGCACCCACATACTCAGCACCTGGG
GACTACAATGAACATTTTGCAGTATCTGCTTTATCACATATCCATTCCTCTGTCCAACCCTCTGTCCATCTCTCTGCACAGACAGCCCTCTGCCTATCCA
TCTACCTAGCCATCCATCCCTCCCTCCCTCCCTTCATTCCATCTCATTTTTGGATGCATTTTTGAGACTTCTGAATGTGAGGCCTGGGCCAAATGGCACT
CTCTTCTCTCCTTTGCAGTAACAGGCCCTGCCACACACACAAGCATACCCCCACCTCTACATGTAAACCCCACCTGCGTACACACCATATATGACTTACC
CATGTCCCCACATTTATACATGCACATTCCATGCACATATTCACATAACCACACACGCTCATCTGTGCACATATACCTAAACACCCCCCCCTCCCCAACA
CACACAAACTGCCCACATATACACTCACAGAAGACCCTGGACATCTGTAAGGAAAGCATCTGGAGACCTTTGGGAATCCTCAGACCTGTGACTGTCGTGG
AGCCGGTGCCAGGTCCTGGCTGTCTCCTCCATACATTTCTGGCAAGTGCCAGAGGCTCCCTTGAGCTACCTACCTCAGATGTCCTACCTTTTCCACTCTT
ACCCATCTTCTCTCTCAACCCCTAGTCACTTCCTACAAAGGAAACGGATTCCTTCCAGAGTGTTACTGTTATGGGAAGCAAATCCCACAGACCATCCACT
CCATGCAGGCTGGGACTGTGTCTGCCCTATCCACACTGCATTCCCAGCTCCTGGCCCCCTGTGGCTAAGTGTTGATTGGAAAAAAGTCACCAGAGCAGCA
CAGAGGCACATACACTGGGCAGCCACAGGGGTACCTCCACCCCACACAGTTACGTCCATGCACACAGAACACCCTGTGTGTGTGTGCATGCTCAAGCTTG
CATCACTGTGTGCCTGCACACATATGAACACGCATCGTGTCTGCCTGTCTCCATACTTTCCAGATAGAGTCCCTTCCAGGACCTGGGTCCTTTCACAAAA
TCACCTAATACCACTGTGGGCTCATCTGCTGACATGTGAGATCCAGATGTGGCCCCATGACTGCTCAGGGCTCCTGGCTTGGCCCTGAACATCTGGGCGC
AGGGGTTTAGAGCACCAGCTTTGGAATTGCATTCTCCTGAGAAAACCTGGGTTCCACCCTGGCTCTGCACATGATCACTGTGCATGTTCCCCGTATGATT
TATGTACAAGTTACCTAACTTCTTGGAGCATCAATTTCCTTATTTGCTAAATGGGGGCAATAGTTCCTACCTTAAATTCATCTTAAAGGAGATAATCTCA
GCAGAGTGCCTGGCATGTTGTAAGCTCTTAAAAATGCTTGCTATGAATATGATTATTGTTACTTTAGCCTTTGCTCTGAAATCCCATGCACGCTTTGTGA
GGAAGGACAGCCTTGGTTGGGGGGTGTTTATGGGGAGAGCAGAGTGGATGGTGCGTATGTGAATACCTCTCCCCAGATGCTCCCCCAATCCCAAGCTCTC
ATTATCTTATATGCATATTCATAAGGGATGGCCCTGCTCTGTAAATGGGTCAGAAGCAGGAAATAGAGGCCAGTACAGACAGCGAAGCCCAAGGGATAGG
AGGGCTCAAAGCCGGCACACATCTGAGTCCTCATGGACGGGAGGATGGTAAGAGGGGATGGGGAGAGAATGGATTGGGGGCACTGAGGCGGGGGCAGGAG
TTCGTTCCTATGTTGCAGATTTGAAAACTCAGGCCCAGTGAGATCAGATTAGAGAACCTTGGGGTGGGTGGTCCAAGAAGTCAGAGTCTGCTTCCTTTGG
GAACTGGAGTTGAGCATCTGTCTGGGCTGGGTGATGGGCACAGGGCAATGGACCAAATGACCCCTACATGTTTATTTCAAGGGACATGGTTTACATAGCA
TTGGGTGGAGAAGCTGAATCCTGAATTCCAACCCTCCAGTGAGGCTCAGAGTGGTTGGGTGACTTGCCAGTATCACATAGCTGCTGACTGTGACTGTGCT
TTTGGGGGTGCAAGAGACAGAGCTACTCTGGCCCCATGCAGGAGGTTCAAATCTGGGAGTAAAGGCTGATGGGCTGGCCAGGACACCAAGAAATGAAGCT
CTTTATCCATGTCCTCACTTCATCTCCTCAGTAGTCCCCTCAGATAGCTGGGGTAAAAAAACTTATCTTTATTTTACAGATGAGAAGCATGAGGCTGAGA
GAGGAGGAGTCACCCGGACCCAGCCACACAGTGAGTTATGCCCTCCATGCTGGGCGTGTGAGAGCCCAGCCGGCCTTGGTCTTGGGCAGGCAGGAGGCCA
GGACAGTGGCAGCATATTACCTTGCTCTGGAAAATTTTAGCCTGAAGTCAGAGTGGCTATCCCTTTACACATACAGTCATCTTAATCCCTCGTTCCTTGC
AGATAACTGCTTATTTCTGAGAATGTCTTTGCAGATGCTCACACATGCTCTGTGAGGTTAAACAGAATAACCCTACCTATTTCCGGGAAGGGGATGGACG
GACACCCCTTGTGGGGTGAAGTGGCCCCCCAAGGATGGCATGGGGCATGGTCATCTGTGGCAGAACAAGAATCCCAGGGGTTGATCCTCTTGGTCTTGGG
TGCTTTCTACTGTTCTAGGTCATGGATAGGGAGGGGTTGGGGGTGAAAAATTCAGCTCTTAGAGCAGAAGTGTCCAAGGGAGCTGACCCTGGGACGGGAG
CATGTGAGGAGGGCTCACTTGAGACTGCTTGGTGGCATTTCAGTCTAAAGGATTTCCGTGCAGAAGATGACTGTGTAGGGTATGTTTTTGGATCAGACTG
TCAGTCACAGAAGAAGGAGGAAAGTGGACTTATGGTAAAAGGTCAGACATTCATCCAGTAAGCATTCACTGCTTGACTGTGTGCCAGGCCCTGTACTGTG
CTCTGGGTAGGAGAGGGGGTGGCCAGAGAGCAGACCGTTCTTGGGTGGCTCACAGTCCCCTAAAGGCCTCGGGTTAGGGAAGGACTGAAATATTGCTGGA
CAGAAAAATAGGAAGACTAGATATTGTCACCTCTACTTTTTCAAGGGAAGCAGTAGGACATCAGGGTGAAAGCCAGGCCAGGTTGCCTTTCAGCTCTGTT
TCTTCTGAGCTGTGTGGCCTTCAGCAACAGTAACAACAACCACAGTGATCACAGTCAACGTTTATTCGACGCTTGATTTACATTTCGCGTGTCACTACTT
CTTTGTTTCTCGGTTTCCTCATCTGTAAACGAGTGGGTGGGGAATTAATCGACTTCTCAGGGCTGTTGTGGGGCTCAAATGGTACCACGGGGGAAAGTTG
GGCATGTGCTCGGGTTGTTTGTGAGGCCATAAGGGAGGCCCATATTGTTTGGAGGCTTGGGGGAATCAGGAGGATGTTCATTCCTAATGGAACCAGGTAG
TGGGTTGGGGGTGAGGGTGGTGGCTCTCTTCACTGAGAGGTATGGCATGTGAGCAAGCTTCAAAGGGGAGAAAGAGGGATAAGGAGAAGGACCTTTAAGA
GGAGGGCATCTGCCAGGTGCAGTGCCTCACATCTGTAATACCAGCACTTTGGGAGGCCAAGGCAGGAGGATTGCTTAAGCCCAGGAGTTCGAGACTAGCC
TGGACAACATAAGGAGACCTCATCTCTACACAAAATTTTTAAAAAATTAGCTGGGTGTGGTAGTACACACTGGTGGTCACAGCTACTTGGGAGGCTGAGG
TGGGAGGATCACTTGGGTCCAGGAGGTTGAAGCTGCAGTGAGCCATGATTGGGCCACTGTGTTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAA
AAAAAAAAAAAAAAAAAAAAAGAGGAGGGCATTGTGTGGGCAAAAGTGCGGAGGAGGAAAAGTATAGGGTGTGTTTGTGGAACAGTCCTGGTGCAATTAA
TGGCTAAGCCTGGCGCCCAGTGAATCAGCCAAGGATGCAGTCAACCAGCTCTTTGGCCCTGGGGCCAGCTTCGAGGCACAGAGACTTCTTTCCCTAACAT
TATCTTGTCCAGAGGTGGCTGAGGACAGGGCTAAGGGTGAAGGGAGACTAATTACAGAGCCCTACTTCTGGGTCTCTCACACCTACCCCTGGAAAGCCAT
CTGTCAGGAATGTGGCCGCCCCTCCCCACCTTCTGACCTCCTTAGCTAGGGACCAGTTTGGGCATCCCTAGGGAGTGATAAGCCACCAAGCAGGGGTGGC
TGTAGGGAGTGTGTAGCTCCCAGCAGGCTGTTGGGAGTCAGTGGAGTTTGAAGAACAGATGGAGAGAAGGGAGGATGGGTTTAGAGTGAGAGGCTGGGGT
CTTAGAAGAAGCAGTAGGTGGGCATGGTGGCATGCACCTGTAGTCCCAGCTACTCAGGAGCCTGAAGCAGGAGGATCACTTGAGCCCAGGAGGTCGAGGC
TGCAGTGAGCTATGTTTGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGTCTCTTAAAAAGGAAGAAGAAAACAGTGACGATGGGGGCTTA
CATTTGTCAAGCACCTACCATGTGTTGTAACCACCCTGTGAGGTATGTATCCTCACTTTACAGACCGGGAAACTGAGGCTCATAGAGGTGCAGTGACTTG
CCGAAGTTTCTTTATCCAGTCATTCAGCATTCAACCTCAGCATCTACGTATTGAGCAGAGGCCCTGCGCCAAGCACTGAGGAGTCAGCGGTGACCACCTC
TTGGCTTCTGTTCCCAAGGGTGACAGTGTCCTGGGGTCACACGGGCTCAAACCGAGGTCGATTTCCGAACGCTCACTTTGGAGCAGGATGCGAGCCCGGG
CCACGATTGGGTCAGGTTGCGCCGCTCGCGTGGCCGCGGGAATCCCCGACCGGCCCCTTCCCTAGGGTCCCTCCTGGCGCACCTGCCCCAGGTGAGTCTG
GGGAGGCCCCGAGCGCCGCCGGAAAGCGTCGAGCGGCTTCGGTAGGTGGGGCGGGGCAGGGGCGGGGCCGGGGCCGGGGAGGGGCCAGGCCCGGCACCCG
GATCCCGAGGTCCGCGCCCCGCGCCCGGCGCCGGGCGCCCGAAGCCGGGAGCCGCCGCCATGGGGGCCTGCCTGGGAGCCTGCTCCCTGCTCAGCTGCGT
GAGTCCCGACCCCGGCGCCCGCCCGCGCGCGCCGCCCGTTCCTGCTGCGGGCCCTCACTTTCTTCTGTTCTGCTCCGAGTAGTTTCTTCTTTTTCCTTCC
TGCAAACTTGTCTTTCTGGGCCGGTGCCCCGCCTGCTCGCCCTCCTGGACCTTCACTCGGCACCCGGATCCCGCTGCCCCCGTCCCCCTGCTCAGTCCTG
GCCGGCAGGCGCCGGGCAGCTGCGGTCCCGGCTCGGGTTTCCGCGGGCAGGAGGGGAGTGCCCTCGGCGGGCGCCCTCCTGGGACCTGGAGAGACTAAGC
CTGGAGCCCGGGGTCGGGGCAGCTCTGTGGGCCCTCGTCGCCCCACTTGGGGCGGTCCTCGGGGTGGCCTCTGTCCCCGTCCCGGACGCCCTGGTTCTCT
GTGTAGGTCGGCCGGGCCCCGTCCCTCCTGGCGAGTGCCCTGCCCTACCCCTCTGGCCGCCTGCCAGTCCGCCTGTTCCTGTCGCTCGGGCTCCGCCTGT
CCGTTCGTATTTGTCTGGTTCCTGTCTGTGTCCGTCGTTCGTCCGACTGTCTTTGTCCGTCTGCTGTCTTCTGTCCGTCTGCCCGTCCGCCCGTCCGTCC
CTCAGTCTCTCTGCGGTCCCTTTACCGTCCTCAGTCTGGCTCGCGCTGCCTCTCAGGCACTTCCCCAGCTCGCCCCGGACCATCTGGGCCCCAGCGCGGA
GACTGGGATGGGAGCGGAGGGAGCCCCGGACTTTCTTAGCTGCCCTCGAGTGAGGCGGGTGCGGGTCGTCACGGACCACCGGGCGGAACTCTGGGTTGGG
AGAGCAGGAATCGAGGGAGGTTCGGGTGTGCGCGGGGAGTGCCCGGTCGCGGGTTCGGGACCTGTGGGGAGGCCAACCTCTGTTCTGTAGCTGCAGCCGC
AGAGGGGAGGGGCTCCAGCAAGACCCCGGCTGGGAGGCCCGTTCTCCCTTCCCTTTCCCCAGCCCCCCTCTCCTTTCCTCTTCCCCTCATTAAATCTGAG
GTTCATTCAGGCAGCCCCCTCCCCCTCTGGCCCCACACAAAGAGGCCCTGAGAGGGAGAAGGGGCTGCAGCGGCTGCTGAATCTCGGGACTCGCTTTCCT
TTGTCCCTGACGGGTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGWGAGAGAGAGAGAGAGAGAGGAGGGGGTGTAGGGGAGAGCTGAGGGTCTAG
AGATTTACTTTACAGCCTTTTTCTGAGAATGAGATCAGCATAGACAGCACAGAGAGGCAAGAGAGCCTCTCGCCTCATTAGGCCTCCATTTTTCGTGTGT
GTGTGTGCGTGTGCATGTGCGTGTGCAGGAGGAGGAATCAAGCTGGTGCCTAAAATCCCTCCCAGCCCAAAGAATTCAAGGTTTGGGCCAGGTCTCTGCC
AACAAGGGTTTGCTTCCTGGTGAGGGAGGCAGAGCTTCCACAGTGGACCTGATTTCCATCGGTTGCACCTGGTGAGGCACAGGCCCTGCTGGGCTGGCCT
GGGGGTGGAGATGTTGAGGGGCAGCCTGCCAGCCCTGTGTGCCTTGGTCACCCCATCTGGCAGTTGACAGTAACAGGGCCTTTCTCACAATGCTGTTGGG
AGATGAGGCACAGTTCCTGGCATATCGTGAGTGCTCCTTGTGGGAATTATTGCTAACATCAAGGAAAGGTGGGTGGAGAATTCCATTTGGAGACAATGCA
AAGCCAAGTGCTGGTCTCTGAGTTACAGCATTCTACAATGCTGAGAGCAGATAGGACTGCTCAAACCATCTGTTTACAGATGAGAAGACTGCCACCCGCC
CGGAGAAGATAGCTGACTTTCCTAAGGTTGCACAGGGAAAGGATGAAGAACTGCATAGTTAGGATCAACATCTGATTCCTGGTCCAGGCTTCTGCCCACA
CCTTCCCTCCCTTCCCCACATCCTGGCTGCCTGAGGCACAGGGCTGGTCCAGGGAAGAATTGGGAGATAACTTAGTGAGTAATATCAGCAAGGGACCCGG
CCCTCCCTTCAGTGCCATCCCCTTGGGGTTCTGGCCTCCGACATTTACTGAGGTTCTGGCCTCTGACATTTACTGAGCCAGGTACTGTTCCGAGCCCCTC
ACCATGCCATCTCATTGGCTCTCCCCACCTCCTCTACCCTATGACATCGTTAGCCCATTTTACAGATAACTATCCCAACACTCGCAGCGTGGAGCTGTCC
AGGAGTGGCCTAGGCCCCATACAGTAGTGAGCAGTATGTGTATGTGTGTGTATATATATATCTCCTTCCATTTAATCCTCACAAAGACCCCACTGGGGCA
GTTAATATTGTTCCCATTTCACAGATGAGGAAACTGGCTCAGAGAGTGAAGGTGACTTCTCCACAGCCACACAACATTAAGTGGTGTAGTTGGGCACTAC
TGGACACCAGTACCATCCTGTTGCAGTGAAGAGTTGCTGCACAGGAGTGAAGTTCTATGTGGGGTTTCTGGGCAACTTCAGGAGGGATTTTTTTGCATGC
ATGGGTCAGTGGGGAAGATTTTTGTACCCTCCCAGGTGTGACTCATCTGCTGATTGTGCTTCTCAGCATTGGAACTGGGCTGAAGGTGAACTGGGCTGAA
GGTGGGTCCTGCTTTGGATGGGGAGGTAAGATGGGTCCACAGGGGATGGGGCCACCAGGCAAGCCGCCGGCACATGATGACTCGGCTGTCTGCAAAGATT
TCAGGAGGGTCTTGCACATCCTAGGGAGTGTGAAAGGCCTTTGGGTCAGACCACTGGACTCGGATCCTAGCTTTGCCTCTTCGCATCTCTGTGACTGTGG
GCAGTCACTTTGCCCATCCCCTTGTCTGTAAAGTGGAGAAAACAATGGTGTCTGCCCCTTAGCCTGTTGTGAGGATTAAATGGGACTGAGGTTAGCACAG
CTGCATATTTAGCACCAAGCTGGTGTGCAGTGGCCGGTCCATAAACACCCCACAGTAGTACATGACTCAAGACTACATGCAAGGAAGTGCTGAAGCCAGT
GAGACCCAGGGCTGCCTAACTATAGAGCCTGGGCTCGGAGCCCCTGTACTCTCCTACCCCAGGAGAYCATTTTACAGATGAGGAAACTGAGTCCCATGGA
GGGGAGGAGAGACTTGCCTGAGGTCAGATTACAAGCTGTGGCAGAGCCAGCATTAGGACCTGCATTCTTGGCACTGCATGGGGGAAGTAAGTGCACCTTG
GGACATTTCCGGCTGACCTCTTCTCTGCTGTGTTTTGACTAGCCCTGGGGCGGCTCAGCCAGTTACGGAGTTGTTCATGAAGGCGGCAAGGTGCATGCTT
GCCTGGGCCAGTTTTGCATTTTTTAAACTGTGACGAAATACATGTTAAAAAATTTACTCTTTTAACCTTTTATTTTAGTCTTCAAGGAGTTTGTATGTTA
TTTCATTTTATTTTATTTTACTTTATTTTTTTGAGATGAAGTCTTGCTCTGTTGTCCAGACTGGAGTGCAGTGGCACCATTCTGGCTCACTGCAACCTCT
GCCTCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGTGCGCCACCATGCCTGGCTAATTTTTGTGTTTTTAATAGAG
ACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGATCTCAAGTTATCCACTGGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCC
ACCACACCCAGCCTGTAATTTATTTTAGAAGACATGTATATTAAAATGGAGATCTAATAAATACAACCCTAATAAAAATTAATCCCAAACGAATGGCATT
GTCAGAAGGAGTAGTGCCAACTAAGGCACACGGTAACTCCAGAACATCTTCTTACTGTCAGCCCTCATCTGGATTACTGACAACAGCCCCTGACTCTCCT
CCCTTCCCCCAAAGATACCACACACTACCCCATGACCTGTCTTTTTGTGATCAAAGTGATATTTCTAAAATGCAAATCTGCTGTCATTCCTCTTCTTTCG
CAATCATTCCCCATTGCTTTCAGGGTGAAGTCCAGACTCCCTGGCATGGCATACAGGGACATTGACCACCACTTCCGTGACCTCTGTAGCTTTTCTCACC
CTTTCAGCTGCCCTGAAAATACAGTGTCCCTGTAGCTCTGCATGTGTCATTCTCTTTGCTGGGAATACCCTTCTCGCCTCTTCCTGCTCTTCTTTGAAAA
CTCCCTGCCCCCTCCCTTTTAAAAAAATTGAGGTAAAAGATGCATAACATAAAATGTACCATTTTAACAATTTTTAAGTGTAGCATTAAGTACATTGACA
CTGTTATGCAACCATCACCACCATCCTTCTCCAGAACTTTTTCATCTTCCCAGACTGAAACTCCCACTAAACAGTAACTCCCCAGCCCCTCGTAACCACC
AATTCACTGCTTTTCTCTATGAGTTTGGCTACTCTCTCCATCTAAGTGGAGTCATACAATATTTGTTCTTTGGTGTCTGGCTTATTTCACTTAGCATAAT
GCCCTGAGGGTTCATCCATGTTATAGCATGTGTCAAAATTTCATTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCCTGCTCTGTTGCCCAGGCT
GGAGTGCAATGGCACAATCTCGGCTCATTGCAACTTCCACCTCCCGGGTTCAAGCAATTCTCTTGCCTCAGCCTCCCGCGTAGCTGGGACTATAGGCACA
CACCACCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGCTGGTCTYGAACCCCTGACCTCAGGTGATCCGCC
CGCCTTGGCCTCCCAAAGTGCAGGGGTTACAGGCATGAGCCTCCGCACCTGGCCTCATTCCTTTTTAAGAACAAATAATATTCTATTGTATGGATATGGA
TATACCACATTTTGTTTATCCATTCATCTCGTCCACCAATGGACATTTAGCTTGTTTTCACCTTATGACTACTGTGAATAATTCTGCTATGAACATGGGT
GTGTAAATATGTGAGTCCCTGCTTCATTTCTTTTGGATATATATCCAGAAGTGGAGGGCCACTTTATTTTATTTTATTTTATTAAATTTTGAGACGAACT
CATGCTCTGTCACCCAGGCTGGAGTGTATTGGCGCGATTCAGCTCACTGCAACTTCTGCCTCCCGGGTTCAAGCGAGTCTGCTGCCTCAACCTCCTGAGT
AGCTGGAATTACAAATGCCTGCCACCATGCCTGGCTAATTTTTGTATTTTTTGTAGAGACGGGGTTTCACCATGTTGGCAGGATGGTCTCAAACTCCTGA
TCTCAGGTAATCTGCCTGTGTTGGCTTCTCAAAGTGCTGGGATTACAGGCATGAACCACCACGCCCAGACAGCCAGTTTGTTTTAAATAGAAAAATTCAT
CCAGCCCTCAGCTGCCTCCCTTACCCACCCAACACCCTATGAGTGGTTCTAAGAACTTCTGTCCCTGGCTCTGAGGACAACCAGGAGACAATGTGAATGA
CTCAGTGACAGCCTGTTCACATAATGCCAAACGACTCATGGCTCCAGAGCTGTCTGCCTTGCCTTGGGAGGTAGTGAGCTCCTTGTCATTGGCAGTGTGC
AAGCAGCAGAGGATGGCCAGATGCTTTCTGGGTGGTTCTTCATTGGAAAGAGAATGGATTGGTTGAATGCCAAGGAACCTTGCAGCTGTAAGGCTCTGAG
GCCTGGGGCTTCTTAAATTCTGAGTTCTCCATTCTGAGAACCTGGGCTGGTACTAAGATTCAGCCACTGTAAGTGTTCTGGGGCTTTTCTGTTGCTGCCC
TTGAGTGCATCTGCAGGAAGAGGGGAGTGGTTGTAATCGTAGTGTGGGAACAGCTTTCCAGTCTGCCTTCCTTTCACACTGCATCATGAGCATTATTCCA
TGTGGCTCTGTAGCCAGGGAATTCATCTTTCTGGCTCTGTAGCATTCCATGGAGTGAAAGGGCCACGGCTGTCCCCAGGTGTTAGACATTTAGGTTWTTT
GTAGTTTCTTGAGACTCCAATAGGCTCACAAAACCTAAAGYTTATTTAAGTTTTTTCTTTATATAAAAATCTTTATTTTTATATTTGTAAATTTAACTTA
ATTGAAGTATTATTTGTATACAATGAAATGTACCCAAGTTAAGTGTTACCTACATATTTGCCCCATTCAGCAGAGAAATCCGTTTTATGGAATACCATGA
TGTATTGATGGGCGTTTTGTTATTTTCAATTTTCCCCTAATGGCCAGGCATGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGG
ATCCCTTGAGCCCAGGAGTTCAAGACCAGCCTGGCCAACATGAGAAAACCCTGTATCTACCAAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCATGCC
TGTGGTCCCAGCTACTTGGGAGGCTGAGGTAGGAGGATCGCTTGAGCCCAGGAGGTTGAGGCTTCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTG
GGTGACAGAGCCAAATCCTTTCTTGAAACAAAAACCAAGAAACCAAAAAGAAAAATTAGCTGGGCATTGTGGCTGGTGCCTGTGGTCCCAGCTACTCCGG
AGGCTGAGGTAGGAGGATTGCTTGAGCCCCGGAGGTGGAGGTTGCAGTGAGCCGAGATGGTACCACTGCACTCTAGCTTGGGTGACAGAACGAGATCCTG
TCTCAAAAATTTTTCCCCCTATTATTTTCCTATTATGATCAGTGCCACAATGAATTTCCRTGTGTTTGTATATATGTGCACACATCTGCCCTTACTCCAA
TGGTCTGGCATTTCTGTAGGAAGAGATTTAAATATATATAAAATGACATTTTGGTCAAATGGAAGAGGTTCTTGTAGGAGCCATTCTGGGGTGGGGTGAA
TGGAGCAAGGTGGACAAACATTTCCAAGGATGCTCTGGAAGCAGTGTGTGTTTTTCTCTTTGACCTGGTCTCTCTGGCTGCTGATCAGGCCCTTGGAAAT
CCTGAGATTTCAGGCATTAGGAACACCTGGATTTTGATGTTTAAGAACCAGAGCGAACTGAAAGGCCAAGCTCTCTGAAAGCGGAACAGCTTTCTTGTGT
CTCAGATGTCTCAAATTGAAATTAAATGGTAACAAGCCAGCATCAGGACCTGACAGGGCACCTGGGCACCTGGCTCCTGAGATCAGTACCCACTGGCCTC
CCTTGGTTTTCTGGTATTRGGTTTTTTGTTGTTTGTTTGTTKGTTTTTTCATCACTGGGATGTATTTAAATTAAATAAGATGACCATCAGTGAATTAGCG
AGCTGGAACTAGTGTAGTCCTGTAGGCAGAGCCTGGCCCTTGGTGCACACAGATCTGAATTTGCATCCCAGCTCCTCAGCTTACTTGCTGTGTGACCTTG
GTCATGCCACTTCTCTGTCTCAGTTTTCCCATTTGAAAATGGAAAGTTACCACACAATTCATAGCATCAGTGAAGCTTAATGTAGATAAAGTGCTTATCA
CAGTGCCTGGGACTGAGTAACCCTTCGTAAATGGTAGCTGCCACTAATACTACTTGAATCTCAGTGCTGTTATCAACTTGCTGTGTGACCTCTGGTAAGT
CTCTTAGTCCCTCTGGTCTCAATTTCCACGTCTGTAAAATGGGACTAATAAGCTGCTCTAACTGATACCCAGAATGTTCTTTATAGCAGGGGTCCCCAAC
CCCTGGGCCATGGACTAGTATCTATCCATGGCCTGTTAAGAACTGGGCCACACAGCAGGACGTGAACAGCAGGTGAACAAGCATTACCGCCTGAGCTCCG
CCTCCTGTCAGATCAGTGGCAGCATTAGATTCTCATAGGAGTGCGAACCCTATTGTGAACTGTGCATGCGAGGGATCCAAGTTGCGTGCTTCTTATGAGA
ATCTAATTCCTGATGATCAGAGGTGGAACAGTTTCATCCCAAAACCATATCTGCCCCCTGCCAGCACCCCTGCTGCCATCTGTGGAAAAAGTGTCTTCCC
TGAAATTGGCTCCTGGTACCAGAAAGGTTTGGGACCACTGCTTTATGGCCTCTAAAACATTTTTCAGGCTTTTCTTATCCTCTCACCCACCAAGGACAGC
CATGGATAGGAGGCAGGTCTTGGGGTGGCAGCTGCAAGATGTAACCAGAAGTTGCTGGACAGGTGGACTGTTTCAATTTAGACCATGAGGAATAGTTTCG
TTTCCAAAGCATTTTGTTTAGCATCTGTGTGAACGAGAGATAGGYGAGGAGCATTTCTAGTTTGGGGGAGAGTAAGAGGGGAGGCAGATGCCCGCCAGCA
GGGTGTGCTGTGTGCCTTGTGACCAGTCCAGAAAGAAAAGCAGAGGTCTCTGAGGAGCAAGGGGCCCCTGCCAGCCTGCTCTTTTCAAAGCTCATCTTTC
AATTCCTGACCCTTGGCTCCAGCCCCTCGAGTGGGTGCCCACYGCTCTTAGGATGAAAACCAGTGTCCTGTTCCTGACTGCTGGTGCCTATGTGGTCTGG
CCTTGCCAGCCTGTCTGACCTCATACTCACCGCTGACTGTCTGCTCACCAAGCTTTGGCCACGAGGGCCTTCTTAAATTCCTCAAATGCCCAGCCCCTAC
CCACCCCAGAGCCACCTGTCTAGAACTTTCTTTCCTCCCTTTGGTCTGGCAGTGTCTCCTCATCCCTCTGCTCTCAGCTTATTATTTTATTTTAAAATAT
TTCTTTTTAAAAGGCCAGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATTGCTTGAGCCCAGGAGTTTGAGACCAG
TCTGGGCAACGTGGTGAAACTCYGTCTCTACAAAAAATACAAAAATTAACCAGGCATGGTGGCGTGTGCTTGTAGTCCCAGCTACTCAGGAGGCTGAGGT
GGGAGGATGGCTTGAGCCCAGGAGGCAGAGGTTGTAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGGGTGACAGGGCAAGACCCTGTCTCAAAAAA
AAAAAAAACAAAAAAAGAAGAAAAGAAGAAAACCCTTCTTTTTAAAAGATACGGTCTCGCTATGCTGCCCAGGCTATTCTCTAACTCCTGTGCTCAAGCG
ATCCTCCTGCCTTGGCCTCCCAAAATGCTGGTATTACAGGTGTGAGCCACTGCACCTGGCCTGCTCTCAGCTTAAAAGTCACTTCTTCAAGGAGGGCTTC
CCTGACATGCCACCCTCAATCAAACCTAGGCTGCATTAGCACTCTTCTGGCAGTGGGTACATGTCCTTCTTAGCGCTTGTCACGATGTGAGTCATGATTT
GTTTAGTGTTTTTCCTGCTTGTGTAAGCTCCAGGAAGGCAAGGCCTATGTCTGTTGCTCTCCAGGCTCTTAAATCCCTGGGTGAGGAGTAGGGGCTGTTT
GGGGGAAGATAAAGTTTACCAGAGGTATCTGGATGTGGGGCCTGTTTCTTTAAAGGCTGGGCTGTGGACTGGGCTCCCAGGAGGGTGAGTCTCCTTTTCA
GGTGTGGCATAGTGTGTCATCACCAGCCCCTGAATGATTTCAGCCAGGCCAGGGGAAGGGCTGACSGCAACTGGGGCAGAGGACCCTGGAGAGGGAAAGG
GTTAGACCGCCACCTGCTGTCTAGTGCTGGTATAGCCTCAGAGCCGAAAATCATTCCGTTTATCCAACTGGTGTTTATTCTGCACTTGCTGTTTTCTGAG
GTCTTAACATGTGACTGGTACTATGCCAAACACTTCATATTCCTTCAACAGATAGCCTGTAAGCTCCTGCTGTGTGACAGRCACTGTTCGAATTTCTAGG
AATACCACAATGAACAAAACGCAAAAATTCCTGCCCCGCTGGAAAGCGGAGGCCGACAAAACATAAAGCCTCGCTGATGGCAGAAGTCCCGCGGGGAAAA
ATTAAGTGGGGAAGGGGAAAGGGAGCCCAAGGGGGCTACAATGTGGAATTTCTGTTTCACTCTCACAACTGCTTTGTGAGGAGTACATACCACTATGTTA
CAGAAGAGGACACTGAGGCACAGAGAGGTTGAGTGAGTTGTATAAGGTCACGAAGGTAATCGGTGACAGCTGGCCTTGTGATTTTTTTTTTTAAACTACT
CTCCCTCCCTGTAAGAAAGAAACAGCGTGACCTCGGCTAGCTCTCGCTTTCAAGCCACAGTATCACTGGAGATAGACCCAGGTTTGAATCTGGGTTCTGT
GGTTACTGGCTGTGTAGCCCTATATGACCCAGCCTCCCTCTCGGACCTGAAAGTTCAATGGGCTGGTGTCTGGGGAACAGTGTGCTCCTGCCTAGCGCAG
CACAGATGCGCCGACCTCTGGGCAGGTGGTGAGAGGTGCGCGCTTGGGCGGTGAAGGGGAGAGGGAAGAGTGACAGTGCCCTCCCGCAGGCGTCCTGCCT
CTGCGGCTCTGCCCCCTGCATCCTGTGCAGCTGCTGCCCCGCCAGCCGCAACTCCACCGTGAGCCGCCTCATCTTCACGTTCTTCCTCTTCCTGGGGGTG
CTGGTGTCCATCATTATGCTGAGCCCGGGCGTGGAGAGTCAGCTCTACAAGGTGAGTGCCCCAGGGGAGGCAGGGCGGCCTCCAGCGAGGGGCGTCAGTG
GCTCCAGGATAGAGGGCCCAGGCTTGGGGTCACAGCTTATCCAGAAGAGGAGGCAGGGTGTTTGGGTGCACTGATGATCTGAGGTTGGAAATGAGGGGAG
GAGGGCTTGAGCCTCTTGGGGGGATTCTTCTTTCTCTTAGGCCACAGTCTCCTTGGAAAATCTTATTAATCATTATCGCCCCCTGGACACTGGCCTAGGG
GATGCTCTTCTCCCTCTTAGTGCTTAAGCCCAGGTTGGGGCTCCTAACTCTTCCCTTCATCTCAGTGTTTTACAGCCTAGCACAGACCCAGGGGGACGTG
GGCATCACCGTAKGTGCCTTATACACATTTTAGTGTGTATAAAGATGAGATTCCCTGGGGAGTTTGTAGAAATGCAGATTCTCAGACTCCACCTTGAGGC
TCTATTCCATGGGAGAGGGGCCACAGAATCTCTGTTTTCCCAAGCATCTCAGATGGTTCTGATGTAGGTGGTGGGTGGAGAACACTTTGGGAACCACTGC
TTTAGACRGCGCAATAGTTTCTGAGGCTGTGGGAAATAAACARTAACAAGATGTAACTGGGGAGCTCCCTCCCAGGGCTTCAGGCCCAGAGAGGGCTAGG
AATGGAGGCGGAGGCAGTGGAGATAGAGGTGAGGGGCTCCCCTCCCTGTCTGGTCCAGCCCCTGCTGGGAGAGCCTCTTTCCTGGCCGGCCTTGGGAGAC
CAGGGCTCTGGTTTATAAAGGGAGCTGCCAGGGTTCTGTGAGRGGTGGGGCTTTGACGCTGCTCTGTCTGTCTCCACAGCTGCCCTGGGTGTGTGAGGAG
GGGGCCGGGATCCCCACCGTCCTGCAGGGCCRCATCGACTGTGGCTCCCTGCTTGGCTACCGCGCTGTCTACCGCATGTGCTTYGCCACGGCRGCCTTCT
TCTTCTTTTTCACCCTGCTCATGCTCTGCGTGAGCAGCAGCCGGGACCCCCGGGCTGCCATCCAGAATGGGTGAGAGAGGGGTCCCTGCCTGCACCCTGG
GACCTTCCCCCAGTGCCTTGCCYGCTCCTCTGCCTGTCCAGGGATCTGCAGACCCTACCCACCACTCAGGAGCCACGGGAGGGCACAGCATGGAGAACAG
CTCTGAGTTATATCCATTTCTCAGATGAAGAGTAAGGCTCAGAAAGGGTGGCAGCAAGCCTCAGGCCCCGCAGCACTTCAGTGACACAGCTGGGGCTGGA
CCTGGGTGACCAYCCTCACCACTGCTTGGTCCTTCCTCCTGCCCCTTAGGGTTTTTTCCAGGGCCAGGAGAGACTTTCTGTGCCTATCAGACCACCAGAA
AGCCCACCCTCACCCCTCTCAGCACCTGCTGTTTGTGGGTGGGGGCTCTGGGGCCAGGCCCAGTCTGGCTTCCAGTTTCCCYGCCTGCACTCAGCTTCCT
TGTCCATTCCCYGACCCCTTCTGTAGGTTTTGGTTCTTTAAGTTCCTGATCCTGGTGGGCCTCACCGTGGGTGCCTTCTACATYCCTGACGGCTCCTTCA
CCAACAGTAGGCGGACTTGGCAGGAGGCMTGGGGGGCTGTGGGGAGGGAAGTGGGGCGGCAGGTTGGAGGAACGTGGTGGGGCTGCTCTTTGCTGGGGCA
CACAGACCCCTGGCTGCTGGCTAGGTCCTCGCTCCCCACCCGTGAGACAGCACTGTGGTGCTTGGCCACACGGCCTTTGTGCAACCCAGGGGTAGGGGGA
GCTGTCTTGCCCYGACCCATATCCTGCCCTCTGTGCGTAGCTAGGGGCTCCCTGAGGGCAGGGACTCTGTTCTTCTCAGTGTCCCYGGTGCAGGGTGTAG
CAGAAAACGCTTGTTGAACGAGTAGATGTGAGAGAGGGACCCTCCTCGCCTCACTCCCCTCTCCCCACCCAGTCTGGTTCTACTTCGGYGTCGTGGGCTC
CTTCCTCTTCATCCTCATCCAGCTGGTGCTGCTCATYGACTTTGCGCACTCCTGGAACCAGCGGTGGCTGGGCAAGGCCGAGGAGTGCGATTCCCGTGCC
TGGTACGCAGGTCAGTGCTGCCACCCTGCCTCCGTGTGGGGACTCGAGCCTGGGCAGGGCTGGGGCTGCCTGAGAAATCGAGGGTCCTTGAAGCTAGATA
AAACTGGGGGGCATCCCTAGCAGCCACTGCCTTAGGTCAAGATTCCAATTGTCCCAGGGAGATGGGGGGCACCAGCTGATCCTGGGATGACTTCAGGGAA
TCCGAGGAGAGCTGACCTGGAGAGGCCTTGGAGGGGTCTTGTTTGGGGGTTCCTGCAGGGTGGGCCACACACAGCCAGTAGTGTGGGACGCCCTTTTGGT
GGTGCCCAGGCTGAACTTCAAGTGACACCTGGTCCCTGAAACCCCAGTAGCAGGGTGAGTCCCTGGTCCTTTCAGTTCTGAACACAACGAGGAGAAAGGC
TCACCTGGGTGCTGTTTGGTTTCCACACCTCCCTAGACTTGCCAGTATCTCTCAGACAGGGAGGGCAGGTCAACAGCCTGTACCTCGTTCAGTTTTTGCA
AGACTGTTTTGAGTTCATTGTATTTATTGTTACAATTCCCTTATTACAAGGTAGCAAGTGAATCATGTTAGCTCAGGGTGGGGCAATGACTCACAAAGGT
GTTGGTGAAAGGCAGTGACGTCATTCTTCAAGTGGGGAAACTGAGAGCTGGAGAGGGGGAGAGCTGCCAACAGGGTCCCTCGAGGGAGTAGGGATCCCTG
TTCCTCCTGCCCCACCCACTGCCTACCCTCTCACTACCCCTCTGGCCCAGGCCTCTTCTTCTTCACTCTCCTCTTCTACTTGCTGTCGATCGCGGCCGTG
GCGCTGATGTTCATGTACTACACTGAGCCCAGCGGCTGCCACGAGGGCAAGGTCTTCATCAGCCTCAACCTCACCTTCTGTGTCTGCGTGTCCATCGCTG
CTGTCCTGCCCAAGGTCCAGGTGAGCCTGCCTGWCCCCCCCTGGCCTGAAGCCYGGCCCCTTAGTGGGTGGGACTTCTTGTAGGAACCTGGGTCCTGGGG
CTAGGGCTGTCATCACAGAGGCACGGCCTGAGTGTGTGGGCTCCCAGGTCAGCCTCCCCAGGTTATAGTCAGGCTCTCACGGCTTCATGCTGGGTGTCTT
TAGGAGGTGCCCTAACCTCTCTCTGCCTCTCAAATATTAAATGGAGATAATAAGACCTACTATTGGAGTTATTCTCAGGATTGAGATCCTATTTGTAAAC
ACTCCATGCCTGGCCTGTAGATATCTCTCAGACATTAGCTATTATTGTAGTTATTATTGTTGTCATTTTTGTTTTTATGCAAATCAGTAGAACATTAGGG
GCAGTCCCTGAGTGGTGATTCCTAGACACCTCTGGAAGTAGTGTAGGAAGGTGCAATTTCACATTTCCAATCCAAGACCATCTGGAATAATGGGCAGGAG
CTCCCAGAGGAACTGCGTGTTCTTCAGAAAGTACCGCTGGAGCCCCTTGTGAGTACAGTGGTGCTTTGTGGTTTGAGATCTCAGCACACCGGCAGCTTCA
GGGGGCTTAGGTAGTCTTCAGGGGTCTTTAGCAGAAAGGCTGGGAACCTCCCTTCTGGTCAGAGCCTCATATCCCAGTAAGAAAAGTTGAAGCCCAGAGA
AGGCGATGTCTGTGTCCCAGGTCACACAGCAATCAGTATTTATCCAGCAAATACCTCTTGAGCACTTCCTGTGTACCAGGCCCTCTTCTAGATGTTGGGG
ATATGGCTGTGAGGAAGGGGAGGAAGAATAATGATGATAGCCAGTAGTTAGTGGCCTCGGACATGTTATTTGATCCTCACACCATCCTCATCCTCACTTT
GCAGATGAGGAAACAAAGGCTTAGAGAAGAGGCCTAGCCAAGGTCACATGGGGAGCTGGGATTCAAACCCAGGCAGGCTGGCTCCAGAGTCTGTGCTCTG
GTTTTCTTTTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTGGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTAATCTCGGCTCACT
GCAAGCTCCGCCTCCCGGGTTCAAGTGATTCTTGTGCTTCAGCCTCCCAAGTAACCAGTGAGCTGCTCACCTCAGCCTCCCAAAGTGCTGGGATTACAGG
CATGAGCCACCACACCCAGCCTAAARTTTTTTTTGTTTTTGTTTTTTTGAGACAGAATCTTGCTCTGTCACTTAGGCTGGAGTGCAGTGGTATGATCTCA
GCTTACTGCAACCAACCTTCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCCACCACACCCAGCTA
ATTTTTGTATTTTTAGTAGAGACAGGGTCTTGCGATGTTGGCCAGGCTGGTCTTGAACTTCTGACTTCAAACCATCTGCCYGCCTCAGCCTCCCAAAGCG
CTGGGATTACAGGCATGAGCCGCCATGCCTAGCTGCCTGTGCTCTTAATCACAGAGTTCAGGTTCATGTTTTTATGTGCATGTGTGGTGAGGGGTGGGGA
AGGACAGGCAACAGGGGACTAGGCCCAGTGAGGTGATTTTGGGTAATATTGCAATGTGGAACATGAAAGAGGGTGTGGGCTGAAAGGTGGGTGGCTGGCA
GGTGCAGGGCTGCCGTAGTTCAGGTTCCYAGGGCTCCGCAGGAGTCCTGTCTGAATACTGAAGAGGCGCTGCCTGTGCGGAGATGCTGGGAAGGAACYTG
TCAGAGSGAGGGCACAGCGACGGCAAAGGCCTTGTGGTGGGAGAGGCTGGGCAGACTCTCCAGACGGAGAGCAGGGAGGAGGGGGACAGTGGGCCAGGTG
GAGATGAAGGAATTCAGTGTGATGAGATGGGGTTTCAGCAGGGGAGGAGGGCAAGTAATCTGAGGGGTGTTAAGAGAAAGAAGAATTAGGACTCAGCCTK
TGGTTAGTGAGGTGGGTGGTAGGTGGCCTGCTTGGTGTTTTCCCTAAGTGGGGTGTGGTGGGGTATCCTAGGTGGGTGGGAGTTTCTGAGGTCCCTTGGC
TGGTGTGAGTGGGCTGGGTGGGGTGGGGTGTCTCTGGTCTGGCAGGGGTCTTACCAGGGGTCCTCTTGCCAGGACGCCCAGCCCAACTCGGGTCTGCTGC
AGGCCTCGGTCATCACCCTCTACACCATGTTTGTCACCTGGTCAGCCCTATCCAGTATCCCTGGTAAGTATGGGCCCAGGCTCAAGGAGGCCTGGCCTCG
TTCCTGGGTCAGTATCAGTCTACTGTGGGGCTGGGGACCCTCACAGGTGACAGGGACATCCCTGCTCCAGCCCATTCTGAGACTCAGTCCTCCCATGAGA
TGGGAGGGCCCCGTCTGTTCCTGAGTTGTCTCTCTGCCCTTGTGACTGCTGAGCGCTCTGTTGCTGGGACTTGAGTGGTTGGCTGTGTATCTGTCTGTCT
ATTAGGGGTGGCTCTCTAGCCATCCTCAGGGCCACTTGGCTACCTAGGCCTGGCCTGCATGGGCTGAGGGTGATTGTGCTCCCATCTCCAGAACAGAAAT
GCAACCCCCATTTGCCAACCCAGCTGRGCAACGAGACAGTTGTGGCAGGCCCCGAGGGCTATGAGACCCAGTGGTGGGATGCCCCGAGCATTGTGGGCCT
CATCATCTTCCTCCTGTGCACCCTCTTCATCAGGTATGGCCAGGTCTGGATTCTGGGGAAGGATCRTGATTGAGGGCCCTGAGCCAGAGTGAGGGGAGGG
TGTGGGAGCCAGGATACCAAACTGGAACGTGCTCTTCACATTCAATATATCCAGGTCTTGCATTGTGCGGGAGGGGAAACTGAGTCCCTCAGAGGGCATG
GCATGAGTGGGCAACAGAGGCAGGCGTGACCTTGCCTCCTGGCTCACAGCCCTTTCCTGCATACTGGGCCAGTTCAGTTGGGTGCAGACGGCTGTGGGGT
CAGGGAAGGAGCATGGACTGGGGTCAGTGGGTCCAGGGTCTGTTTCTCCCCTGCTGTGCGGCTTGGGGTAAGTGGCTTAACCTTTCTGAGCTCCTGTTTC
CTCCTCAGTAAGAGGATGACAACCTCCACTGTAGTGGATGTGGCTGTGACCCCACACTCTCCCCCGAGAGAAGGCAGCTCATGCTGAAGTTCACATAGAG
GTTCTTTTCAAAGGGGCATCTTAGTAGGTGCTTATCCATGTGGACTCAAATGCCTGCATTTGAGCCTGGCATTGCCACTTACTAGCTATGTGATCCTGGG
CAAGTCACTTAACCTCTTTAGGCCTCCATTTCCTTGTCTGTAAAATAGAGATAAAAATAGTACCTTCCTCATTGGATTGTTGAAGGGCTATAGATGAATC
AGTATGTGTAAAACACTTAGAAAGGGGCCAGGCATGGTGGCTCACACCTGTAACCCCCAGCACTTTGGGAGGCCGAGGTGGGAGGATCTCTTGGGCCCAG
GAGATTGAGACCAGCCTGGGCAACATAGTAAGACGCTGTCTCTTTTTAAAAATTAACAAAACAAAACAAAAACACTTAGAAAGGAACTTGGCAAGTAGTA
AGTTATTTGTAATCCAAACACTTTGCCAGACTGAAGCAGGAGGATTGCTTGGGCCCAGGAGTTCAAGGCCAGCCTGGGCAACATGGTGTCTCTAAAAAAA
AAAAAGGTTTTGTAATTAGTCAGGCATGGTGGTATGCACCTTCTAGTCCCAGTGACTGAGGAGGCCGAGGTAGGAGGATCACTTGAGCCTGGGAGTTTGC
CAAATTAAGTGTTGCATATTATTGTGAACATTTGCATAATATTGTGAACATTTGTATATTAGTATGAGCATAATATTGTGAACATTTGCACAACTAGGTA
GCTGTAGGTGGTGGCTGTTCTTACAAGTCACTAGATCATAAGATTAGGTTTAATTATTGTTTACACGGATCAGGCAGACCCCGAGTTTGCCTCCCTGTGG
CCCTGCATTTCTCCAAGCACCACTTTCCATCTGCCCTTAACTCTAGAGGGAATCTTGGCTCTGCTCCCCTGATCTCCCCGATCCATCCATCCCAGTTCCA
ACAGCACCCCTGCCCCCAGGCCCCTGGGCTAGAACATTTTAAAGCTCTTTCACATTTTCTTCTGTTTTGGCCTTTTTCAAAACATTTTCTCCAAGTCAGT
TCTGTACAGTTCATAAACATCTGTCTTCTTTGTCACATTTGATTCCTTTTCAAGCTGGAAAGGCTTGAATTACCTCTGTGTCCTCTCCTCTTCCCTCCCC
TCCCTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGGCTGGATCCAGCTCTCCTTTTCCTTTTGTTTGGAAACGTGTGTTGGTTTTTCA
AAAATTTTTATGTCTCAAACTATCAAATTCTGTTAAAAACATCAAGGCTCATCACAGAAAAGCATGACATACAATCATTACTGTTGTTCTTTTTTTAGTG
TAAGCATGAAGGAAAGGGAGGCCATTGGTAAAACCACCTGACACTAATAAAATGGAAACTTAAAATCAATGGCAAATGAGCGTGATTAATTATTAACATT
CTTAATGGATGTAGTACCTGGTATGGTACTTTGTAGTATTAGGTACTCGATACGTGTTTATGGAAATGGCAAAGGAACAATCCTAACAATAGTGACTGTT
GATTGAATTTATATTCTGTGCCAAGCACTATGCTAGAGACCTTACATCATTATTCCGTCTAGTCCCCCCAGCAGCCCTCTAGAGGAGGTACGATTATCCC
TTATTTTACAGACAAGGAATCAGAGGCTCAGAGAGGTTAAGTGTTTTGCTCAAGGTCACACAGAAAATGGGAGTGGGGGTAGGGGTAGAGTTGAGAGGCA
AAGCAGTTTGTTAACTCCCAGGCCCAGTAACCGGGTCGCTGGCCCCTGAGGCTCTGGGACCATTTGTGTCCAGTGTTATGAGCAACGCCAGAGCTATCTA
TTTGCCCACCTTCCTCCCTCCCCTGCAGTCTGCGCTCCTCAGACCACCGGCAGGTGAACAGCCTGATGCAGACCGAGGAGTGCCCACCTATGCTAGACGC
CACACAGCAGCAGCAGCAGCAGGTGGCAGCCTGTGAGGGCCGGGCCTTTGACAACGAGCAGGACGGCGTCACCTACAGCTACTCCTTCTTCCACTTCTGC
CTGGTGCTGGCCTCACTGCACGTCATGATGACGCTCACCAACTGGTACAAGTGCGTAGCTGGTGGGGCATGGACAGAGCCCGGAGGTGCAGGGTGCAGGT
CCACACATCTCTCCTGCGGCCCTTCACTGGGTTTTCCTGATGTCTGCTTAAGGCTTGGGGGTGGCGGTGTGTATCAAGGACCCTCCATAGAGCCTGCCCC
TTCCCTGCTACAGTTTCCCCAACAGTGCCTTCATCTGCTCAGCTCCCGCACCTTCACTAGGAGACTGAACCGGGGAAGGCACAGCAGCTGGGGCTGGACC
TGTACAGGGCAGGCGGGGTTTACAAATCAGGGGTCATGGGGTCAGATTTGGGCTTCATGGTTGGAGGGTTAGGATCAGGGTGTGGAGTGCAGAACCAAAG
TTACAAGGTCAAGGATAGAAGTCATGAGGTCTGGGGCTGGGATTGTGGTCATTTAGTGTCACAAATTTGGTCATTTGGTTAAAGTTAAAATTGAGAGTAG
GAGGTCATAAAGMCAGGATTGAAGTGGCAAGGTCAAGGAGCTAAATGACAGTAATAAGGTCAGGGGCCACCCCTAAGTTACAGGATCAAAGGTCAGAATC
AAGGGTAGCGGTCAGGACTAAGGTCAGGAGCTCCAGGGTCCCAAGTTCAGAGGCTAGGATTGAGGTCCCAGAATTAGGATCACAAGGTTGGAGACCAGGA
GTCAGGTCATGATCTCATGGACTAACACTGGGCTCAAGATGGGAATCGAGGTCAGGAGCTATGTCCACGGTCACAAGGCCGGGTGTTAAAAATGTCAGAG
ATGGACTGGAGTTACAGGGTAAGAGCCAGAGTTGAAGTCAGGGGTCATAACTGGGACATAAGGCCAGGGGCCAAGATGGAAGTCACCAGACTGGGCACCR
GGCTCATGGGGAAGATGGTGTGTTCCAGGCCCGGTGAGACCCGGAAGATGATCAGCACGTGGACCGCCGTGTGGGTGAAGATCTGTGCCAGCTGGGCAGG
GCTGCTCCTCTACCTGTGGACCCTGGTAGCCCCACTCCTCCTGCGCAACCGCGACTTCAGCTGAGGCAGCCTCACAGCCTGCCATCTGGTGCCTCCTGCC
ACCTGGTGCCTCTCGGCTCGGTGACAGCCAACCTGCCCCCTCCCCACACCAATCAGCCAGGCTGAGCCCCCACCCCTGCCCCAGCTCCAGGACCTGCCCC
TGAGCCGGGCCTTCTAGTCGTAGTGCCTTCAGGGTCCGAGGAGCATCAGGCTCCTGCAGAGCCCCATCCCCCCGCCACACCCACACGGTGGAGCTGCCTC
TTCCTTCCCCTCCTCCCTGTTGCCCATACTCAGCATCTCGGATGAAAGGGCTCCCTTGTCCTCAGGCTCCACGGGAGCGGGGCTGCTGGAGAGAGCGGGG
AACTCCCACCACAGTGGGGCATCCGGCACTGAAGCCCTGGTGTTCCTGGTCACKTCCCCCAGGGGACCCTGCCCBCTTCCTGGACTTCGTGCCTTACTGA
GTCTCTAAGACTTTTTCTAATAAACAARCCAGTGCGTGTACCATGTTCTGTGCCCCTCACCCTCAGCACGGAGCCCCACTGCATGGGGGCCGGTGTGGGG
TTTGGGAATAGAATGTTAGGGCTGAGGAGGCTGGGACATCAGGGCCAGACCAGGAGGAGCCTCAAAGGCAGACAGAATGGCCTGAGTTCTGTCTTCTGGG
TCATGGAGCGCCTGAGGGGAGGGGGCCAATGAGGAAGGAGGGGCAGACCAGGGTTTTGGGAAAGTAGGGTGTGTCTGGTGGTCAGAAAAGGAGACCCTAG
AGGCAGTGGGGCCAGCAGGAGGCTGCCCGACCATCCAACCATCCGAGGGAGGGCAGTGAAAGAGAGTCACGGTGGGGAGGAGGGGGCGATGACAGGGCCA
GAAGGTGGTCTTCAGGTCCCCTCTCATCAGGGCCTGCCTCAAGGTCCTGCCCACCTCTGACCTGCCTGGAATTGTTACCACCGTTGGTACCTGCCCTGAC
CAGTCAAGCCCCAGGCCTCGGGGTGCTGTGGGGAGGAGCATGTGCTCTTGAGTCAGCCAGGCTGGCCCAGATCCCTCCGTACCACGGCAGCCGCGGGGCT
GCTGTCCGGCTCCGGATGGGTCCTTCTCTTCTCTGGGCCCTGGTTCCTCATTCATTCAATGGGAACAATGCCACCCCTCCTAGGCTGTTGTGAGGATCAG
AGGAAGCAGCCCATGCAATCTGCCTGGCACAGCGAGTTCTTGAGAAATAACATCAGCCCCCATCTCACAAGGGCAGAGAGATGTGAGGGAGACTGACAGG
CTCCTGGCTAGGGCCCCAAGGCCTGGTCTTGTTACGATGATGGACTGCAGGCCATTCATCCCTTCCATTTGTGGGGATAAAAAATAGGTATGAAGGTGCT
GGGGATGGGTGCTGGGGACACAGCCTGTCTCTAAGGCTCTCCTGGGTTCTGGGGTGAGTGACTAGTGGGGCTGCACGGGGACCTGTGGGGTCACCGAGGA
GGCAGGACAGGCATCTGGAGGATGTGTAGGAGTCAGCTGGGCCAAGAGGAGCCACAGCACTGAGGGCAGGGGGACAACACAGGAGTCGGAGGGTGTGGGG
TTCAAGGACCAGGGAGAAGCCAAGATGGCCAGGGCACAGAGAGGGGTGGGGTGGCGAGGTTAGTATGAGCTTGGAGACATGGGCCAGACCAAATCACACA
GGCCCTTGAGAGTCATGGTGGGGAGACCAGACCTAATCCTGCTGGTAGTGGGGAGCCATGGAGGGTTTTAGAGCAGGGGAGAAGTGGTGAAGGTGTGGGC
TGACCATGGAAAGGCCCTACATGATTTCGAGCACAGCAGGGGCATGTCATTTTAAGATTGCCATTTTAGAAAGGTTTCCCTGGATGAGATAGAGGGGAGT
GCAGCAGCTGGGGGCAGGTGCCAGGGCTCAGGGCAGAGGGAGTCGGGGCCTGCTGGGGCAGGGGCCGAGGAGGGCTTCTCTTGCCGCTGGGATGGATCTT
GCAGATGCTCTTGTCCCTGGTGCCTTTCAGCTGAGACCCCTGTCTTCAGAGCAGCCTGAACCTCCTTCGCCCAACCACAGATTTCGCTTATTTTCTCATT
TCACCCTTGGGAGAAAAAGCCCACGTTGTGCTCTTGATAACATTTTCTTTGCATTTGTGCAAGTGGGCAATTTTTTTTTTCTTTTTTTGAGACTGAATCT
CACTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTTCAGTGATTCTCCTGCCTCAGCCTCCCGGGTA
GCTGGGATTACAGGCATGCACCTCCACGCCCAGCTATTTTTTTTTTTTTTGTATTTTTTTTTTGTATTTTTAGTAGAGATGGGTTCACCATGTTGGTCAG
GCTGGTCTCGAACTCTTGACCTCAGGAGATCCACCTGCCTCAGCCTCCCAGAGTGCTAGGATTACAGGCATGAGCCACCGCGCCCAGCCTAAGTGGGCAA
TTTTGTCCAGCTTTTGTAGCCTTGTTGCTCTATAGGTTTTAAATTATTCATTCAACAAATGTACTGAGCATGAGTTCTTTGCTGGGCTGGGCTGGAGCGG
GACTGGCTGGGAAGGGTCAGGGGCCAGGCTGAGAAGCTGGAATGCCTGGCTAGAGAGCTGCAGGTCCCCAGTGTGGAGGTCACCACCTTTGGGAAGCCAC
CTCTAATCCCACAGGTCGGGCTTCCCCCTGTGTCTCCTCAGCCCTGTTCTTCCTTCCAGGCATTGGCTATGCTCATGAACCTGCTGGTCGATGTCAGGCC
TGACCAGCTGCCCACCCAGGACCCAGGACATCCACTTAGCCTGTCTGCTGGGTGCTCCCTTGTCTCCTGCTGCCTAGCATTGTGGTTTCCACATATCCTC
CTGTCTTCCCTTCTCCTCCCTCACCCTCATCTTTCCTCCACCTCCTGTTCTCCATCACCTTCTCTTTCTCAGTCACCTCCTCTTCTCCATCATCCTCTCT
GTCACTTCTCTTTCCTTTACTCTCCTTGGTCACCTCCCCTCCTTTGTCAGTAGGTGGGAGAGGCCCGTAGGATCCCACTCTTTTTGTCTGCCAGCCCCTG
ACACATTGGGCTTCCCTGCTGGACTGGTAATGGGGAAAACGCTGTCCTCAGCCCTGAGGGCCCATGCTGTGCCCCTGGACACTGTGCCGCAGTCCCCAGG
CCTGGGCTGCTGTCACTGCAGAAATACCAGTGGCAGCCTCAGCCCTGCCTGTCCTGGCGCATCTTTGGACCCAGGCTGTGGAATGAGTATCTGGGCAGAG
TGAGTGCAAAGCTTATAGATCATGTCAGGAACAGAGGCAGTGTGATGCATGTGACGAGCCTGCCATTCCCAACCCCCGTGCCCTTTCCTGCCTCCATCAC
TGAGGCTGGAAAAGCCGGGTGGTCACTTTGCAGCTTCCCTCAGAGTTAGACGCCTTCAGCCTAATTAGATCTAAGTGGAAATGTTCATGGATATTTCCGG
GAGTTCTTGCTTTCGTATTACACAGCACTGCTTCTTCCTTCTCCTCTTTGGACACAACCACAGTACCTGGGGCTGCAGCAGCTGTCTTGGGACAATGAGG
CAACAAGTCTGAGGATGAGAAACCAACCTGGAGAAGATGGTGTTCAGAAAAATAGGAAGTTGGCTGGGCGCAGTGGCTCATGCCTGTAACCTTCAGAGCA
GCCTGAACCTCCTTCCCCTGTAACCCCATGCCTGTAACCCCAACACTTTGGGGGGCAGAGGCAGGAGGATCACTTGAGTTCAGGAGTTCAAGACCAGCCT
GGACAACAGTGAGACCCCATCTCTACGAAAAATAAAACATTTGGGCTGGGCGCGGTGGCTCATGCCTTTAATCCCAGCACTTTGGGAGGCCGAGGTGGGT
GGATCACGAGGTCAGGAGTTTGAAACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAATACAAAAATTAGCTGGGTGTGGTTGTGCACACCTG
TAATCCCAGCTACTCAGGAGGCTGAGGTAGGAAAATCGCTTGAACCCAGGAGGCAGAGGTTGTAGTGATCCGAGATTGCACTACTGCACTCCAGCCTGGC
GACAGAGCAAGACTCCGTCTCAAAAACAAATAAACAAACAAAAAAGAAACAAAACACTTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCAAG
AGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGTGCCTGTAGTCC
CAGCTTCTTGGGAGGCTAAGGCAGGAGAATGGCGTGAACMYGGGGGACGGAGCTTGCAGTGAGCTGAGATTTTGCCACTGCACTCCAGCCTGGGCGACAG
AGCGAGACTGTCTCAAAAGAAAAAAAATATTAGCCAGGCGTGGTGGCGTGTGCCTGTAGTTCCAACTACCTGGGAGGCTGAGGTGGGAGGATCGCTTGAG
CCTGGCAGGTCGAGGCTGCAGTGAGCTGTGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGCCAGACCCTGTCTTGAAAAAGGAAGAGTCTAGGTCT
TTGATGCATCTTTAAGTCGCTACATCATCTCTGCTGTCCTTGACTCCAGATGCCTGTTATGTGAGGAGGAAAACAAACCCCAATACATGCAAGCCCCTCT
TAGTTGAGTATTACGTTCCTTGCAACTGAATGTATTGCTAACTGATATGACTTGTGAGATGGTCATTCATTTTAGTGAAAATAAAAATAACAAACAGGAG
AAACCTGTCTCCATTACTCAGGGACATTGGCTGCCAATAATGTATTATGTGTGCACAACCTCCCCATATCAATGTGTATATTTATAAACATATGTGTATT
AGATATGTTTGTATAATATACATATGTATTTACCAGTAGGATAAATTATGACAAAATAGTTTTTTGAAGGTTTTGGGCCTCCTTCCCCCTTTTGGGGGAA
GTTTGTGGAGGTGCAGCAAGTAGGAGAGRGTTACCTGCAAAATATAACTCCTCTCCTAACTCTGGTTTCCAAAAGCCTGGGTTCACTGAGGAGCTCCTGG
GTARTGAGGGATGGGGCAGTGATGGAGGCAGCACAGGGGCTTCCTGGAGGGAGAGGAGAGAGTGAGGCACAGCTGGAGACCTCGAGAGAGAGAAGCATAG
TCTCCAGCCCAGCCCTACAGTGCGCCTGGTGGGCTGGGACAGTGGGTATTTTGGCAGTAACCAGTGTGGATTGGTGTCCAATGGTGCTGGGTTCTTCCCA
CTCTGCCCACTGACTTGCTGCCACAGGTGACCCCAGGACTTTTGCTCTGTCCTGGTGAGGGATGTGTGTGTGTCAGAGAGAATGATGAATGGGCTGAGGT
TGAATTTCCCACCAGCATGGTGGGATGGAAAATTTGGATAGAAAGTTGATGCAAAGCAAATGGGCCAGGTGCAGTGGCTCACGCCAGTAATGCCAGCACT
TTGGGAGGCAGGGGCAGGAGGATCAGTTGAGCCCAGGAGCTTGAGACCAGTCTGGGCAACATAGCGAGACTTCATCTCTATTAAACACAAAAAAATCAGC
CAAGTGTAGTGGCATGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGGTCCTTTGAGCCCAGGAGGTCGAAGCTGCAGTGGGCCGAGATTG
TGCCACTGCACTCTAGCCTGGGCATCACAGTGAGACTGTTTCCAAAAAAAGGGAGAGAAAATGTTGATATAAAGCAAATGAATGATGCTGTTTCTTGCAC
ACCTGTGAATTGTCATATCCACTTTATTGATTTATTTTTAATTTAATTTTATTTTTAGACAGGGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGC
GATCTCCACTCATTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTTATGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCATGCCATCATGCCTGG
CTAACTTTTCTATTATTATTATTTTTCTTTGGTAGATACCAGGTTTCACCATGTTAGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACTCACA
TCAGCCTCCCAAAATGCTGGGATTATAGTCATGAGCCACTGCGCCAGGCCTCATATCCACTTTAAAATAATTTTAGATATAATGCAAGTTTATGGTTTGT
TTGTTTTTACTTTTTCTTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTTGGCTCACTGCAATCTCTGCGTCCCAGG
TGCAAGTGATTCTTGTGCCTCAGCCTCTCGAGTAGCTGGGATTACAGGGATGCGCCACAATGCCCGGCTATTTTTTGTATTTTTAGTAGAGACAGGGTTT
CACCATGTTGGGCAGGCTGCTCTCAAACTCCTGACCTCAAGTGATCTGCCCGCCTCGGTCTCTCAAAGTGTTGGGATTACAGGTGTGAACCACCACACCT
GGCTGCAGGTTTATTGTTTTTAAATAAAGCCCCACTTAAA


SNP Information

Context             (SEQ ID NO:26693):
CTTCATCAGCCTCAACCTCACCTTCTGTGTCTGCGTGTCCATCGCTGCTGTCCTGCCCAAGGTCCAGGTGAGCCTGCCTGTCCCCCCCTGGCCTGAAGCC
Y
GGCCCCTTAGTGGGTGGGACTTCTTGTAGGAACCTGGGTCCTGGGGCTAGGGCTGTCATCACAGAGGCACGGCCTGAGTGTGTGGGCTCCCAGGTCAGCC
Celera SNP ID:            hCV11266474
SNP Position Genomic:     19654
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,10)   caucasian(C,3|T,31)   total(C,31|T,41)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26694):
GCTCTGCGTGAGCAGCAGCCGGGACCCCCGGGCTGCCATCCAGAATGGGTGAGAGAGGGGTCCCTGCCTGCACCCTGGGACCTTCCCCCAGTGCCTTGCC
Y
GCTCCTCTGCCTGTCCAGGGATCTGCAGACCCTACCCACCACTCAGGAGCCACGGGAGGGCACAGCATGGAGAACAGCTCTGAGTTATATCCATTTCTCA
Celera SNP ID:            hCV164260
SNP Position Genomic:     17723
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26695):
TGTGGAGGTGCAGCAAGTAGGAGAGGGTTACCTGCAAAATATAACTCCTCTCCTAACTCTGGTTTCCAAAAGCCTGGGTTCACTGAGGAGCTCCTGGGTA
R
TGAGGGATGGGGCAGTGATGGAGGCAGCACAGGGGCTTCCTGGAGGGAGAGGAGAGAGTGAGGCACAGCTGGAGACCTCGAGAGAGAGAAGCATAGTCTC
Celera SNP ID:            hCV11262154
SNP Position Genomic:     35304
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:26696):
TTTACCAGTAGGATAAATTATGACAAAATAGTTTTTTGAAGGTTTTGGGCCTCCTTCCCCCTTTTGGGGGAAGTTTGTGGAGGTGCAGCAAGTAGGAGAG
R
GTTACCTGCAAAATATAACTCCTCTCCTAACTCTGGTTTCCAAAAGCCTGGGTTCACTGAGGAGCTCCTGGGTAATGAGGGATGGGGCAGTGATGGAGGC
Celera SNP ID:            hCV11262155
SNP Position Genomic:     35229
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:26697):
TTTGGTTCTTTAAGTTCCTGATCCTGGTGGGCCTCACCGTGGGTGCCTTCTACATTCCTGACGGCTCCTTCACCAACAGTAGGCGGACTTGGCAGGAGGC
M
TGGGGGGCTGTGGGGAGGGAAGTGGGGCGGCAGGTTGGAGGAACGTGGTGGGGCTGCTCTTTGCTGGGGCACACAGACCCCTGGCTGCTGGCTAGGTCCT
Celera SNP ID:            hCV164263
SNP Position Genomic:     18229
SNP Source:               Applera
Population(Allele,Count): african american(A,19|C,1)   caucasian(A,18|C,8)   total(A,37|C,9)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,10)      total(A,10|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26698):
GCTGCTGGCTAGGTCCTCGCTCCCCACCCGTGAGACAGCACTGTGGTGCTTGGCCACACGGCCTTTGTGCAACCCAGGGGTAGGGGGAGCTGTCTTGCCC
Y
GACCCATATCCTGCCCTCTGTGCGTAGCTAGGGGCTCCCTGAGGGCAGGGACTCTGTTCTTCTCAGTGTCCCCGGTGCAGGGTGTAGCAGAAAACGCTTG
Celera SNP ID:            hCV164264
SNP Position Genomic:     18413
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;JBIC-allele(T,248|C,1243)   total(C,1243|T,248)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26699):
CCAGGGGTAGGGGGAGCTGTCTTGCCCCGACCCATATCCTGCCCTCTGTGCGTAGCTAGGGGCTCCCTGAGGGCAGGGACTCTGTTCTTCTCAGTGTCCC
Y
GGTGCAGGGTGTAGCAGAAAACGCTTGTTGAACGAGTAGATGTGAGAGAGGGACCCTCCTCGCCTCACTCCCCTCTCCCCACCCAGTCTGGTTCTACTTC
Celera SNP ID:            hCV164265
SNP Position Genomic:     18486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;JBIC-allele(T,120|C,623)   total(C,623|T,120)
SNP Type:                 INTRON


Context             (SEQ ID NO:26700):
GGACCCTCCTCGCCTCACTCCCCTCTCCCCACCCAGTCTGGTTCTACTTCGGCGTCGTGGGCTCCTTCCTCTTCATCCTCATCCAGCTGGTGCTGCTCAT
Y
GACTTTGCGCACTCCTGGAACCAGCGGTGGCTGGGCAAGGCCGAGGAGTGCGATTCCCGTGCCTGGTACGCAGGTCAGTGCTGCCACCCTGCCTCCGTGT
Celera SNP ID:            hCV164266
SNP Position Genomic:     18637
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;JBIC-allele(T,39|C,698)   total(C,698|T,39)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:26701):
AGCATTCCATGGAGTGAAAGGGCCACGGCTGTCCCCAGGTGTTAGACATTTAGGTTATTTGTAGTTTCTTGAGACTCCAATAGGCTCACAAAACCTAAAG
Y
TTATTTAAGTTTTTTCTTTATATAAAAATCTTTATTTTTATATTTGTAAATTTAACTTAATTGAAGTATTATTTGTATACAATGAAATGTACCCAAGTTA
Celera SNP ID:            hCV284863
SNP Position Genomic:     12141
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26702):
TGATTCTTGTGCTTCAGCCTCCCAAGTAACCAGTGAGCTGCTCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCAGCCTAAA
R
TTTTTTTTGTTTTTGTTTTTTTGAGACAGAATCTTGCTCTGTCACTTAGGCTGGAGTGCAGTGGTATGATCTCAGCTTACTGCAACCAACCTTCGCCTCC
Celera SNP ID:            hCV27035700
SNP Position Genomic:     20826
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26703):
GCAATAGTTTCTGAGGCTGTGGGAAATAAACAATAACAAGATGTAACTGGGGAGCTCCCTCCCAGGGCTTCAGGCCCAGAGAGGGCTAGGAATGGAGGCG
G
AGGCAGTGGAGATAGAGGTGAGGGGCTCCCCTCCCTGTCTGGTCCAGCCCCTGCTGGGAGAGCCTCTTTCCTGGCCGGCCTTGGGAGACCAGGGCTCTGG
Celera SNP ID:            hCV27035701
SNP Position Genomic:     17311
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,12)   total(G,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26704):
CATGGGAGAGGGGCCACAGAATCTCTGTTTTCCCAAGCATCTCAGATGGTTCTGATGTAGGTGGTGGGTGGAGAACACTTTGGGAACCACTGCTTTAGAC
R
GCGCAATAGTTTCTGAGGCTGTGGGAAATAAACAATAACAAGATGTAACTGGGGAGCTCCCTCCCAGGGCTTCAGGCCCAGAGAGGGCTAGGAATGGAGG
Celera SNP ID:            hCV11345326
SNP Position Genomic:     17208
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26705):
AGCATCTCAGATGGTTCTGATGTAGGTGGTGGGTGGAGAACACTTTGGGAACCACTGCTTTAGACAGCGCAATAGTTTCTGAGGCTGTGGGAAATAAACA
R
TAACAAGATGTAACTGGGGAGCTCCCTCCCAGGGCTTCAGGCCCAGAGAGGGCTAGGAATGGAGGCGGAGGCAGTGGAGATAGAGGTGAGGGGCTCCCCT
Celera SNP ID:            hCV11345327
SNP Position Genomic:     17243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26706):
CCTGCACTCAGCTTCCTTGTCCATTCCCCGACCCCTTCTGTAGGTTTTGGTTCTTTAAGTTCCTGATCCTGGTGGGCCTCACCGTGGGTGCCTTCTACAT
Y
CCTGACGGCTCCTTCACCAACAGTAGGCGGACTTGGCAGGAGGCATGGGGGGCTGTGGGGAGGGAAGTGGGGCGGCAGGTTGGAGGAACGTGGTGGGGCT
Celera SNP ID:            hCV25972959
SNP Position Genomic:     18184
SNP Source:               Applera
Population(Allele,Count): african american(T,16)   caucasian(C,10|T,16)   total(C,10|T,32)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:26707):
TGAGGTGATTTTGGGTAATATTGCAATGTGGAACATGAAAGAGGGTGTGGGCTGAAAGGTGGGTGGCTGGCAGGTGCAGGGCTGCCGTAGTTCAGGTTCC
Y
AGGGCTCCGCAGGAGTCCTGTCTGAATACTGAAGAGGCGCTGCCTGTGCGGAGATGCTGGGAAGGAACTTGTCAGAGGGAGGGCACAGCGACGGCAAAGG
Celera SNP ID:            hCV16187791
SNP Position Genomic:     21329
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,147|C,1354)   total(C,1354|T,147) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26708):
GGTTCTGTGAGGGGTGGGGCTTTGACGCTGCTCTGTCTGTCTCCACAGCTGCCCTGGGTGTGTGAGGAGGGGGCCGGGATCCCCACCGTCCTGCAGGGCC
R
CATCGACTGTGGCTCCCTGCTTGGCTACCGCGCTGTCTACCGCATGTGCTTCGCCACGGCGGCCTTCTTCTTCTTTTTCACCCTGCTCATGCTCTGCGTG
Celera SNP ID:            hCV27471739
SNP Position Genomic:     17532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26709):
TGCTGGCCGGATGACGCCGCTTGGCCTGAGCGTGTCCAAGCCTCAGATGACAGAGTTCCTGGTCCCTTATGCTGCCCTGGGGCTGGTGGCTGCCCTTCCT
S
GATCCTAAGACATCCTCCTCACCTCAGAGTGGTGCTGGCCTCAGCGGGGCTTGGAGGAGGCTGAGCTCTCTGTGTGGGCACTCACATGGGTGTCAGCCTG
Celera SNP ID:            hCV1496757
SNP Position Genomic:     102
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 hmCS


Context             (SEQ ID NO:26710):
GGATAGAAGTCATGAGGTCTGGGGCTGGGATTGTGGTCATTTAGTGTCACAAATTTGGTCATTTGGTTAAAGTTAAAATTGAGAGTAGGAGGTCATAAAG
M
CAGGATTGAAGTGGCAAGGTCAAGGAGCTAAATGACAGTAATAAGGTCAGGGGCCACCCCTAAGTTACAGGATCAAAGGTCAGAATCAAGGGTAGCGGTC
Celera SNP ID:            hCV373806
SNP Position Genomic:     29713
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26711):
GGACCTGACAGGGCACCTGGGCACCTGGCTCCTGAGATCAGTACCCACTGGCCTCCCTTGGTTTTCTGGTATTGGGTTTTTTGTTGTTTGTTTGTTTGTT
T
TTTCATCACTGGGATGTATTTAAATTAAATAAGATGACCATCAGTGAATTAGCGAGCTGGAACTAGTGTAGTCCTGTAGGCAGAGCCTGGCCCTTGGTGC
Celera SNP ID:            hCV27035692
SNP Position Genomic:     13346
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26712):
CCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGTGCCTGTAGTCCCAGCTTCTTGGGAGGCTAAGGCAGGAGAATGGCGTGAACA
Y
GGGGGACGGAGCTTGCAGTGAGCTGAGATTTTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTGTCTCAAAAGAAAAAAAATATTAGCCAGGCGT
Celera SNP ID:            hCV26048537
SNP Position Genomic:     34541
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:26713):
AGGACCTGACAGGGCACCTGGGCACCTGGCTCCTGAGATCAGTACCCACTGGCCTCCCTTGGTTTTCTGGTATTGGGTTTTTTGTTGTTTGTTTGTTTGT
T
TTTTCATCACTGGGATGTATTTAAATTAAATAAGATGACCATCAGTGAATTAGCGAGCTGGAACTAGTGTAGTCCTGTAGGCAGAGCCTGGCCCTTGGTG
Celera SNP ID:            hCV27035693
SNP Position Genomic:     13345
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26714):
CAGGACCTGACAGGGCACCTGGGCACCTGGCTCCTGAGATCAGTACCCACTGGCCTCCCTTGGTTTTCTGGTATTGGGTTTTTTGTTGTTTGTTTGTTTG
T
TTTTTCATCACTGGGATGTATTTAAATTAAATAAGATGACCATCAGTGAATTAGCGAGCTGGAACTAGTGTAGTCCTGTAGGCAGAGCCTGGCCCTTGGT
Celera SNP ID:            hCV27035694
SNP Position Genomic:     13344
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26715):
GAGCGGGGCTGCTGGAGAGAGCGGGGAACTCCCACCACAGTGGGGCATCCGGCACTGAAGCCCTGGTGTTCCTGGTCACGTCCCCCAGGGGACCCTGCCC
B
CTTCCTGGACTTCGTGCCTTACTGAGTCTCTAAGACTTTTTCTAATAAACAAGCCAGTGCGTGTACCATGTTCTGTGCCCCTCACCCTCAGCACGGAGCC
Celera SNP ID:            hCV26048539
SNP Position Genomic:     30675
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:26716):
TCAGGACCTGACAGGGCACCTGGGCACCTGGCTCCTGAGATCAGTACCCACTGGCCTCCCTTGGTTTTCTGGTATTGGGTTTTTTGTTGTTTGTTTGTTT
G
TTTTTTCATCACTGGGATGTATTTAAATTAAATAAGATGACCATCAGTGAATTAGCGAGCTGGAACTAGTGTAGTCCTGTAGGCAGAGCCTGGCCCTTGG
Celera SNP ID:            hCV27035695
SNP Position Genomic:     13343
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26717):
ATCAGGACCTGACAGGGCACCTGGGCACCTGGCTCCTGAGATCAGTACCCACTGGCCTCCCTTGGTTTTCTGGTATTGGGTTTTTTGTTGTTTGTTTGTT
K
GTTTTTTCATCACTGGGATGTATTTAAATTAAATAAGATGACCATCAGTGAATTAGCGAGCTGGAACTAGTGTAGTCCTGTAGGCAGAGCCTGGCCCTTG
Celera SNP ID:            hCV27035696
SNP Position Genomic:     13342
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,4)   total(G,2|-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26718):
TCCCTGTCTGGTCCAGCCCCTGCTGGGAGAGCCTCTTTCCTGGCCGGCCTTGGGAGACCAGGGCTCTGGTTTATAAAGGGAGCTGCCAGGGTTCTGTGAG
R
GGTGGGGCTTTGACGCTGCTCTGTCTGTCTCCACAGCTGCCCTGGGTGTGTGAGGAGGGGGCCGGGATCCCCACCGTCCTGCAGGGCCACATCGACTGTG
Celera SNP ID:            hCV8732444
SNP Position Genomic:     17443
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,29)   caucasian(G,38)   total(A,9|G,67)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26719):
AAATTAAATGGTAACAAGCCAGCATCAGGACCTGACAGGGCACCTGGGCACCTGGCTCCTGAGATCAGTACCCACTGGCCTCCCTTGGTTTTCTGGTATT
R
GGTTTTTTGTTGTTTGTTTGTTTGTTTTTTCATCACTGGGATGTATTTAAATTAAATAAGATGACCATCAGTGAATTAGCGAGCTGGAACTAGTGTAGTC
Celera SNP ID:            hCV27035697
SNP Position Genomic:     13319
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26720):
TCCCGCGTAGCTGGGACTATAGGCACACACCACCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGCTGGTCT
Y
GAACCCCTGACCTCAGGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCAGGGGTTACAGGCATGAGCCTCCGCACCTGGCCTCATTCCTTTTTAAGAACAA
Celera SNP ID:            hCV11266466
SNP Position Genomic:     10874
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26721):
TCCATGTGGCTCTGTAGCCAGGGAATTCATCTTTCTGGCTCTGTAGCATTCCATGGAGTGAAAGGGCCACGGCTGTCCCCAGGTGTTAGACATTTAGGTT
W
TTTGTAGTTTCTTGAGACTCCAATAGGCTCACAAAACCTAAAGCTTATTTAAGTTTTTTCTTTATATAAAAATCTTTATTTTTATATTTGTAAATTTAAC
Celera SNP ID:            hCV11266467
SNP Position Genomic:     12097
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4)   total(A,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26722):
CCCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTCTTGCGATGTTGGCCAGGCTGGTCTTGAACTTCTGACTTCAAACCATCTGCC
Y
GCCTCAGCCTCCCAAAGCGCTGGGATTACAGGCATGAGCCGCCATGCCTAGCTGCCTGTGCTCTTAATCACAGAGTTCAGGTTCATGTTTTTATGTGCAT
Celera SNP ID:            hCV161385
SNP Position Genomic:     21081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26723):
GCAGGTGCAGGGCTGCCGTAGTTCAGGTTCCCAGGGCTCCGCAGGAGTCCTGTCTGAATACTGAAGAGGCGCTGCCTGTGCGGAGATGCTGGGAAGGAAC
Y
TGTCAGAGGGAGGGCACAGCGACGGCAAAGGCCTTGTGGTGGGAGAGGCTGGGCAGACTCTCCAGACGGAGAGCAGGGAGGAGGGGGACAGTGGGCCAGG
Celera SNP ID:            hCV161386
SNP Position Genomic:     21398
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26724):
ACCCAGTGGTGGGATGCCCCGAGCATTGTGGGCCTCATCATCTTCCTCCTGTGCACCCTCTTCATCAGGTATGGCCAGGTCTGGATTCTGGGGAAGGATC
R
TGATTGAGGGCCCTGAGCCAGAGTGAGGGGAGGGTGTGGGAGCCAGGATACCAAACTGGAACGTGCTCTTCACATTCAATATATCCAGGTCTTGCATTGT
Celera SNP ID:            hCV22275430
SNP Position Genomic:     22366
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,17)   caucasian(A,23|G,17)   total(A,44|G,34)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:26725):
AGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATTGCTTGAGCCCAGGAGTTTGAGACCAGTCTGGGCAACGTGGTGAAACTC
Y
GTCTCTACAAAAAATACAAAAATTAACCAGGCATGGTGGCGTGTGCTTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATGGCTTGAGCCCAGGA
Celera SNP ID:            hCV11266469
SNP Position Genomic:     14923
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26726):
GGGCTGCCGTAGTTCAGGTTCCCAGGGCTCCGCAGGAGTCCTGTCTGAATACTGAAGAGGCGCTGCCTGTGCGGAGATGCTGGGAAGGAACTTGTCAGAG
S
GAGGGCACAGCGACGGCAAAGGCCTTGTGGTGGGAGAGGCTGGGCAGACTCTCCAGACGGAGAGCAGGGAGGAGGGGGACAGTGGGCCAGGTGGAGATGA
Celera SNP ID:            hCV161387
SNP Position Genomic:     21407
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26727):
GGAGATGAAGGAATTCAGTGTGATGAGATGGGGTTTCAGCAGGGGAGGAGGGCAAGTAATCTGAGGGGTGTTAAGAGAAAGAAGAATTAGGACTCAGCCT
K
TGGTTAGTGAGGTGGGTGGTAGGTGGCCTGCTTGGTGTTTTCCCTAAGTGGGGTGTGGTGGGGTATCCTAGGTGGGTGGGAGTTTCTGAGGTCCCTTGGC
Celera SNP ID:            hCV161388
SNP Position Genomic:     21600
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,9)      total(G,1|T,9) ;JBIC-allele(T,595|G,674)   total(G,674|T,595)
SNP Type:                 INTRON


Context             (SEQ ID NO:26728):
CAGGGCCACTTGGCTACCTAGGCCTGGCCTGCATGGGCTGAGGGTGATTGTGCTCCCATCTCCAGAACAGAAATGCAACCCCCATTTGCCAACCCAGCTG
R
GCAACGAGACAGTTGTGGCAGGCCCCGAGGGCTATGAGACCCAGTGGTGGGATGCCCCGAGCATTGTGGGCCTCATCATCTTCCTCCTGTGCACCCTCTT
Celera SNP ID:            hCV161389
SNP Position Genomic:     22227
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 MISSENSE MUTATION;SILENT MUTATION


Context             (SEQ ID NO:26729):
GGCTGCCACGAGGGCAAGGTCTTCATCAGCCTCAACCTCACCTTCTGTGTCTGCGTGTCCATCGCTGCTGTCCTGCCCAAGGTCCAGGTGAGCCTGCCTG
W
CCCCCCCTGGCCTGAAGCCCGGCCCCTTAGTGGGTGGGACTTCTTGTAGGAACCTGGGTCCTGGGGCTAGGGCTGTCATCACAGAGGCACGGCCTGAGTG
Celera SNP ID:            hCV25959323
SNP Position Genomic:     19634
SNP Source:               Applera
Population(Allele,Count): african american(A,9|T,29)   caucasian(T,36)   total(A,9|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:26730):
GGACTGGGCTCCCAGGAGGGTGAGTCTCCTTTTCAGGTGTGGCATAGTGTGTCATCACCAGCCCCTGAATGATTTCAGCCAGGCCAGGGGAAGGGCTGAC
S
GCAACTGGGGCAGAGGACCCTGGAGAGGGAAAGGGTTAGACCGCCACCTGCTGTCTAGTGCTGGTATAGCCTCAGAGCCGAAAATCATTCCGTTTATCCA
Celera SNP ID:            hCV25325
SNP Position Genomic:     15666
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26731):
CCTCTTAGTGCTTAAGCCCAGGTTGGGGCTCCTAACTCTTCCCTTCATCTCAGTGTTTTACAGCCTAGCACAGACCCAGGGGGACGTGGGCATCACCGTA
K
GTGCCTTATACACATTTTAGTGTGTATAAAGATGAGATTCCCTGGGGAGTTTGTAGAAATGCAGATTCTCAGACTCCACCTTGAGGCTCTATTCCATGGG
Celera SNP ID:            hCV25326
SNP Position Genomic:     17013
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,10)      total(G,10|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26732):
ACTGAAGCCCTGGTGTTCCTGGTCACGTCCCCCAGGGGACCCTGCCCACTTCCTGGACTTCGTGCCTTACTGAGTCTCTAAGACTTTTTCTAATAAACAA
R
CCAGTGCGTGTACCATGTTCTGTGCCCCTCACCCTCAGCACGGAGCCCCACTGCATGGGGGCCGGTGTGGGGTTTGGGAATAGAATGTTAGGGCTGAGGA
Celera SNP ID:            hCV28966114
SNP Position Genomic:     30728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:26733):
GTACCACTGCACTCTAGCTTGGGTGACAGAACGAGATCCTGTCTCAAAAATTTTTCCCCCTATTATTTTCCTATTATGATCAGTGCCACAATGAATTTCC
R
TGTGTTTGTATATATGTGCACACATCTGCCCTTACTCCAATGGTCTGGCATTTCTGTAGGAAGAGATTTAAATATATATAAAATGACATTTTGGTCAAAT
Celera SNP ID:            hCV28000640
SNP Position Genomic:     12860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26734):
TCAAGACTACATGCAAGGAAGTGCTGAAGCCAGTGAGACCCAGGGCTGCCTAACTATAGAGCCTGGGCTCGGAGCCCCTGTACTCTCCTACCCCAGGAGA
Y
CATTTTACAGATGAGGAAACTGAGTCCCATGGAGGGGAGGAGAGACTTGCCTGAGGTCAGATTACAAGCTGTGGCAGAGCCAGCATTAGGACCTGCATTC
Celera SNP ID:            hCV309583
SNP Position Genomic:     9167
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26735):
GATGGACTGGAGTTACAGGGTAAGAGCCAGAGTTGAAGTCAGGGGTCATAACTGGGACATAAGGCCAGGGGCCAAGATGGAAGTCACCAGACTGGGCACC
R
GGCTCATGGGGAAGATGGTGTGTTCCAGGCCCGGTGAGACCCGGAAGATGATCAGCACGTGGACCGCCGTGTGGGTGAAGATCTGTGCCAGCTGGGCAGG
Celera SNP ID:            hCV25965007
SNP Position Genomic:     30100
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(A,2|G,34)   total(A,6|G,64)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26736):
GAGAGGGAGAAGGGGCTGCAGCGGCTGCTGAATCTCGGGACTCGCTTTCCTTTGTCCCTGACGGGTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
W
GAGAGAGAGAGAGAGAGAGGAGGGGGTGTAGGGGAGAGCTGAGGGTCTAGAGATTTACTTTACAGCCTTTTTCTGAGAATGAGATCAGCATAGACAGCAC
Celera SNP ID:            hCV16002793
SNP Position Genomic:     7250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:26737):
CCTGGGTGTGTGAGGAGGGGGCCGGGATCCCCACCGTCCTGCAGGGCCACATCGACTGTGGCTCCCTGCTTGGCTACCGCGCTGTCTACCGCATGTGCTT
Y
GCCACGGCGGCCTTCTTCTTCTTTTTCACCCTGCTCATGCTCTGCGTGAGCAGCAGCCGGGACCCCCGGGCTGCCATCCAGAATGGGTGAGAGAGGGGTC
Celera SNP ID:            hCV25971423
SNP Position Genomic:     17584
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26738):
TCCATTTCTCAGATGAAGAGTAAGGCTCAGAAAGGGTGGCAGCAAGCCTCAGGCCCCGCAGCACTTCAGTGACACAGCTGGGGCTGGACCTGGGTGACCA
Y
CCTCACCACTGCTTGGTCCTTCCTCCTGCCCCTTAGGGTTTTTTCCAGGGCCAGGAGAGACTTTCTGTGCCTATCAGACCACCAGAAAGCCCACCCTCAC
Celera SNP ID:            hCV28000642
SNP Position Genomic:     17913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26739):
TGCACTTGCTGTTTTCTGAGGTCTTAACATGTGACTGGTACTATGCCAAACACTTCATATTCCTTCAACAGATAGCCTGTAAGCTCCTGCTGTGTGACAG
R
CACTGTTCGAATTTCTAGGAATACCACAATGAACAAAACGCAAAAATTCCTGCCCCGCTGGAAAGCGGAGGCCGACAAAACATAAAGCCTCGCTGATGGC
Celera SNP ID:            hCV9257952
SNP Position Genomic:     15881
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26740):
CCTGCAGTCTGCGCTCCTCAGACCACCGGCAGGTGAACAGCCTGATGCAGACCGAGGAGTGCCCACCTATGCTAGACGCCACACAGCAGCAGCAGCAGCA
G
GTGGCAGCCTGTGAGGGCCGGGCCTTTGACAACGAGCAGGACGGCGTCACCTACAGCTACTCCTTCTTCCACTTCTGCCTGGTGCTGGCCTCACTGCACG
Celera SNP ID:            hCV26048540
SNP Position Genomic:     29122
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:26741):
CCCTGCAGTCTGCGCTCCTCAGACCACCGGCAGGTGAACAGCCTGATGCAGACCGAGGAGTGCCCACCTATGCTAGACGCCACACAGCAGCAGCAGCAGC
A
GGTGGCAGCCTGTGAGGGCCGGGCCTTTGACAACGAGCAGGACGGCGTCACCTACAGCTACTCCTTCTTCCACTTCTGCCTGGTGCTGGCCTCACTGCAC
Celera SNP ID:            hCV26048541
SNP Position Genomic:     29121
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:26742):
TGCAGGGTGTAGCAGAAAACGCTTGTTGAACGAGTAGATGTGAGAGAGGGACCCTCCTCGCCTCACTCCCCTCTCCCCACCCAGTCTGGTTCTACTTCGG
Y
GTCGTGGGCTCCTTCCTCTTCATCCTCATCCAGCTGGTGCTGCTCATCGACTTTGCGCACTCCTGGAACCAGCGGTGGCTGGGCAAGGCCGAGGAGTGCG
Celera SNP ID:            hCV25964895
SNP Position Genomic:     18589
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,26|T,2)   total(C,61|T,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26743):
CCCCTGCAGTCTGCGCTCCTCAGACCACCGGCAGGTGAACAGCCTGATGCAGACCGAGGAGTGCCCACCTATGCTAGACGCCACACAGCAGCAGCAGCAG
C
AGGTGGCAGCCTGTGAGGGCCGGGCCTTTGACAACGAGCAGGACGGCGTCACCTACAGCTACTCCTTCTTCCACTTCTGCCTGGTGCTGGCCTCACTGCA
Celera SNP ID:            hCV26048542
SNP Position Genomic:     29120
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,7)   total(C,7|-,2) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:26744):
GAGGTCTCTGAGGAGCAAGGGGCCCCTGCCAGCCTGCTCTTTTCAAAGCTCATCTTTCAATTCCTGACCCTTGGCTCCAGCCCCTCGAGTGGGTGCCCAC
Y
GCTCTTAGGATGAAAACCAGTGTCCTGTTCCTGACTGCTGGTGCCTATGTGGTCTGGCCTTGCCAGCCTGTCTGACCTCATACTCACCGCTGACTGTCTG
Celera SNP ID:            hCV70636
SNP Position Genomic:     14543
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26745):
ACCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGTGCCTGTAGTCCCAGCTTCTTGGGAGGCTAAGGCAGGAGAATGGCGTGAAC
M
CGGGGGACGGAGCTTGCAGTGAGCTGAGATTTTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTGTCTCAAAAGAAAAAAAATATTAGCCAGGCG
Celera SNP ID:            hCV33201
SNP Position Genomic:     34540
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:26746):
GTGAGGAGGGGGCCGGGATCCCCACCGTCCTGCAGGGCCACATCGACTGTGGCTCCCTGCTTGGCTACCGCGCTGTCTACCGCATGTGCTTCGCCACGGC
R
GCCTTCTTCTTCTTTTTCACCCTGCTCATGCTCTGCGTGAGCAGCAGCCGGGACCCCCGGGCTGCCATCCAGAATGGGTGAGAGAGGGGTCCCTGCCTGC
Celera SNP ID:            hCV11266470
SNP Position Genomic:     17593
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(A,3|G,31)   total(A,6|G,62)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;JBIC-allele(A,263|G,1028)   total(G,1028|A,263)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:26747):
CCAGAAGTTGCTGGACAGGTGGACTGTTTCAATTTAGACCATGAGGAATAGTTTCGTTTCCAAAGCATTTTGTTTAGCATCTGTGTGAACGAGAGATAGG
Y
GAGGAGCATTTCTAGTTTGGGGGAGAGTAAGAGGGGAGGCAGATGCCCGCCAGCAGGGTGTGCTGTGTGCCTTGTGACCAGTCCAGAAAGAAAAGCAGAG
Celera SNP ID:            hCV70637
SNP Position Genomic:     14345
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26748):
GCCTATCAGACCACCAGAAAGCCCACCCTCACCCCTCTCAGCACCTGCTGTTTGTGGGTGGGGGCTCTGGGGCCAGGCCCAGTCTGGCTTCCAGTTTCCC
Y
GCCTGCACTCAGCTTCCTTGTCCATTCCCCGACCCCTTCTGTAGGTTTTGGTTCTTTAAGTTCCTGATCCTGGTGGGCCTCACCGTGGGTGCCTTCTACA
Celera SNP ID:            hCV11266472
SNP Position Genomic:     18082
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,27)   caucasian(C,16|T,20)   total(C,25|T,47)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26749):
ACCCCTCTCAGCACCTGCTGTTTGTGGGTGGGGGCTCTGGGGCCAGGCCCAGTCTGGCTTCCAGTTTCCCTGCCTGCACTCAGCTTCCTTGTCCATTCCC
Y
GACCCCTTCTGTAGGTTTTGGTTCTTTAAGTTCCTGATCCTGGTGGGCCTCACCGTGGGTGCCTTCTACATTCCTGACGGCTCCTTCACCAACAGTAGGC
Celera SNP ID:            hCV11266473
SNP Position Genomic:     18112
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,23|T,13)   total(C,50|T,22)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26750):
CCTTGTCCTCAGGCTCCACGGGAGCGGGGCTGCTGGAGAGAGCGGGGAACTCCCACCACAGTGGGGCATCCGGCACTGAAGCCCTGGTGTTCCTGGTCAC
K
TCCCCCAGGGGACCCTGCCCACTTCCTGGACTTCGTGCCTTACTGAGTCTCTAAGACTTTTTCTAATAAACAAGCCAGTGCGTGTACCATGTTCTGTGCC
Celera SNP ID:            hCV7441968
SNP Position Genomic:     30654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Gene Number:                 102
Celera Gene:                 hCG2004204 - 117000147098527
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32UVRL(1239..33630)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12262):
TTAAGATCCTCTTATTCTTTCAAGCTTTACAAAGGGAAGCCCCACAAAAGGACACAGGTGGCAAATCCGGGGACCTGGATGCTGGGTCACCGACTTCATG
TTCTTGCTGACTTCCTGGCCTCGGTTTTCTTCTCCTTAAGGCTGGGTGAATGGAATGAGTTTAGATCCCTGGACCTCCAGGCCCTCCTGTGCCCCGGGGT
GGCCCTGCTTCACAGGGATGCCCGTAAGAAGACGTTGCATGCGTAAAAATCATGCCCTGCTCCACCACAGAGGTGAGATGAGACAGGAAATGAGCTAATT
GGCGTGAGAATGCTTGGCACTTTTAGGGAAAGGAGAAACCGAATCCCAAGAGAATGACAGTGGCCTTTGTGTGACCCTAGTACCAGGGCCCCTGCTTTCG
CCATGGCCTCAGATAGAGGCCACATACAGCAGGTGCTGGGCCCCCAGCCCACCCACCTCCCTGCTTTCACCATGGCCTCGGATAGAGACCACATACAGCA
GGTGCCGGGGCCTCCAGCCCGCCCGCCTCCCTGCTGAACCATGGAATAAGGAGCTGCAGAGGAGGAAAGATTTTGGAGTCGTGCTGACCTGGGTCTGAAT
CCCAGCTCGGAGGGCCTGCTGCCACATCTGTACGTGGGCATCCTCTTTTACGTGAGTGTCTCGGGTCGGGTCCTCCCAGAAGCAAATGCTGAGTTGGTGG
AAGGAATGTGAAGGCTATAGGGGAGTGGCACCTGCTTAAGGAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGGTAAGGAGAAGGAGGCCGGGC
CGGGCAGGAGGATGTGGCACCTGTGTAAGGAGAACGAGGCCGGGCCGGGCAGGAGGATGTGGCACCTGGTAAGAAGAAGGAGGCTGGGCCAGGCAGGAGG
ATGTGGCACCTGGTAAGGAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGGTAAGGAGAAGGAGGCCGGGCCGGGCAGGAGGAWGTGGCACCTG
GTAAGAAGAAGGAGGCTGGGCCAGGCAGGAGGATGTGGCACCTGGTAAGGAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGGTAAGGAGAAGG
AGGCCGGGCCGGGCAGGAGGATGTGGCACCTGCGTAAGGAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGGTAAGGAGAAGGGCGGAGGCCAG
GCTGGGCAGGAGGATGTGGCACCTGGTAAGGAGAAAGAGGCCGGGCCAGGCAGGAGGATGTGGCACCCGGTAAGGAGAAGGAGGCTGGGCTAGGCAGGAG
GATGTGGCATCTGCATAAGGAGAAGGAGGCCGGGCCGGCAGGAGGATGTGGCACCTGGTAAGGAGAAGGAGGCCGGGCCAGGCAGGAGGATGTGGCACCT
GGTAAGAAGGAGGAGGCCGGGCCAGGCAGGAGGATGTGGCACCTTGTAAGGAGAAGGAGGCCGGGCCGGGCAGGAGGATGTGGCATCTGTGTAAGGAGAA
GGAGGCCAGGCCGGGCAGGAGGATGTGGCACCTGCGTAAGGAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGGTAAGGAGAAGGAGGCCGGGC
TGGGCAGGAGGATGTGGTACCTGGTAAGGAGAAGGAGGCCGGGCAGGAGGATGTGGCACCTGCATAAGGAGAAGGAGGCCGGGCCGGGCAGGAGGATGTG
GCACCTGGTAAGGAGAAGGAGGCTGGGCAGGAGTATGTGGCACCCGGTAAGGAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGCGTAAGGAGA
AGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGCGTAGGGAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGCGTAAGGAGAAGGAGGCCGG
GCTGGGCAGGAGGATGTGGCACCTGCGTAAGGAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGCGTAAGGAGAAGGAGGCCGGGCTGGGCAGG
AGGATGTGGCACCTGCGTAAGGAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGTGTAAGAAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGC
ACAGCTGACACAGCCACAAAGCTCCTGCCCATGGGGCGCTCTGAGGGGCAGACTGCCTGTTGGCGGAGTCTTGTGGGGTGGAAATGGTGAGGTCACTGTG
ATGCCACTTTGCTTAGTCATCGGCCACAGGGTCACCTGGAGAAGAGCATGAGCTCAGCATAAAAGCAAGGCCCACCCTGCAGGGGCCAGCAGCTGGGAGC
TGTCCACTAACCACTATCCTTGCAGCTGGACAGCGAGGCCCCTCCAAAAGGCCGTCTCCACCTGCCACCGGGAAAGGACCCGGAGCGAAGGATGTCGTGG
GCGGTCAGCCCAGGTGATTGCCCTTCTTTTGCTTTGGAGCCAGGCAGAACAGAGCTCAAATTCCAGCTTTGGGACAGTGTGTGGCCCAGAAGGCTGTAAC
TGCGGAGTTAACACTCTCCAGTTTCCCTAGATGGCCCGACCTGGCCGGTGACTCGGGGATGATGAAGCTCCTGGAGCCTCAGCGTGCTCACTTGAGAGGT
AGGGCAGCGCTTTGTACTTCACAGGGCCATGGGGACAGGCTCAGGGCCTGGCACTCTAGTGACCGGCTTCATGCTGGGTCACTGACTAGGGAATCCACAC
ACCTTTTTAGTCCAGACTGAGTAGGTAAATCAGACTTAATAAACATCCAGCTTCCTGCTCGAGCTCAGCCTAGTTGTCCTAAGTCTGACAAGATTGAACT
TTATTCACAGCACGAGGCATAAATGATATAAAGGTAAGCAATTTTAGGGGACCCAAAAAACTAGGGACTCCTACTTGGGTAGCTTAGAAGGGGAATCTCT
CTTGGAGATCCTGGCTTTGCTGCCTCAAACCCAGCTGTCTCTTCAAGCCAAGTCTGGGAGAATCTCATGATCTTATCCTTGCTCCAATTTACTTACACCC
CACATCCACACTAAGCTCTTCCTGCCTCCCGTGGAATATTAACTTACACCTGACTTCAGACTCCTGCCCCTATGCAGACCCAGCAGTATGCGGGCCTAGG
AGGTTTTTCGGCCACAAGGAACTAGAGAAGCCACTCATTTTGTCCCCTCTCATTCACCCCATTCTGTCCCCATCGGATGCCTTGGGAGGAGAGAAGGAAG
GACAAATGGGTGTCCCGTGACCCAACCCAGATGAAGACAGAGCCATTTATCACAGAGACCCAGACGCATCCTAACTCTGGAAAATGGGCATATTGAGGGG
AGCTGGAAAGCAGAAGGGAAACGGGCGTGGGCAGGGAAGAGGTGAACAGGAGTGCGCACGCCCAGTTCTCCAGGATCTCACGCTCCTAATCAGGATCCTA
TAAGACTCAAAGGGGACGCAGGAAAGACCTGGGCCTGGAAATTCACTTCCGGACTCCTCCTGTATCCTGGCTGGCCCTCGTTTGTGTCTCCCTCCAGGGA
TGATGCCCGGATGGAAGGAGGAGCCACGTTCCTCCACAGGTGTCCTCCACAACAGGTGTCCTCACAACAGGTGTCSTAACAACAGGTGTCCTCACAACAG
GTGTCCTAATACTCCCGCAGCCCCTCAGCATCTACAGGCTCACTCCCACCCTACAACCTTTCAGATAGGTGTTATCCCCATTTTACAGGTGAACGAGGAA
AACAGCTCGAAGAGGCTGTGACTTTGTGGTGACGCGGTGGCAGAGCTGGGATCAAGCCCGGGTTTGTAACGCCCTCCTGGAGTCTCGGCCGTCACAGCAG
CTTCCGGAGAGCGCTGTGTGCCTCTGGCCTTCCTGGCATGGGAAAGAGGTCAGCTACCTGTGTTCGGTCAACAAGATGTCCAGCGCTTAGTTTGGTCTCA
CCTGGATGCTCCTTTCTCCTCTAGAGATGGAAAACTGTTGTCCTGAAAGCGTCACCAAACAAAACCTGTGGAAAGGTAATGGGGGGACCCACGAGCAAGA
GCTGACAGAAAAATGACCACGGGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCATCTGAGTTCAGGGGTT
CRAGACCAACCTGGCCAACATGGTGAAACCTCGTCCCTACTAAAAATACAAAAAAAATTAGCCGGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTAG
GGAGGCTGAGGCAGGGGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCTGAGATGGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTC
CATCTCAAAAAAAAAAAAAAGTGCAAAATGATCACGAAGGCCAAGCTGGGCCTTGGTGTCTGCGAATTCCCTGCAGTAGGTCCCTCCTGCTGCCCCGTCC
AGGCGCCCACAGGATGCTCCACATGACTCTTTACCTTTATGATTTTCTTACCTCCAGGAAAGAACAGGGTCAGCTCGTCCACCCAGAGCTGGAGGGACTG
TTGGGGGACCACGCCACTTCCCCACRGTATCCGCATTATTATGGCGTGGCCCAGGCTTTGGCCTGGGGCCATGAACAGACTTTCAGCTTCTAGAAGCAAG
TGGTCACAGGGCCTCCGTGACCCTCGGAGACAGCGCCACAGCGTCGGTTGCCTACTCCTTGCTGGACAAGGCTGGCTCTGCTTGGGAATGCAGAAACCCT
GAGTCCTTGTCCTGGGCCCCACAGTGTCTGAGCATCGAAGGTCCCTGCTCTGGGACGAGTCACCCCACAGACACCCCACATTCGGGAATCAAGTCTTGAG
GAATCAGAAGCAGAGATTCACACTGTGGCAAAGAGGGGAGCGGAGGTATCCCCGTTTTCCTTTGCAGAGAGCTACACCAACTGCCCTCTTCGTCTTTACA
ACCCTACTTGGGGTCCCTTTCCCTCCTCGCTTGTGCCTGTGAGTTCCAAGAGGTGGAACTGGGGTGAGCAGAGCCCCCAGGTCTCCAGGAGCAGCTCCAC
CTCCTCACAGGTTACAGTCGCTTCCTCCTACCGAGGTTCTGCCTTCAACCCACTGCCCATGCCAGCTCCCTCAGGCCAGTCTCCCAGACTGTCCCTGGCT
CCCTGCACCCTGGCTCCAGCTCCCTGCCCTGGAAAGAAGAAGTCCACCATCTGGTGAGGGTCTGCCACGCATCTGGGGTCTGCCATGCGTCTGCACTGAG
GTTCTGCCACGAGTCTGCACTGAGGTTCTGCCATGCGTCTGGAGTCTGCCACGCGTCTGGGGTCTGCCACGCGTCTGGAGTCTGCCATGGGTCTGGGGTC
TGCCATGTGTCTGGGATCTGCCGTGCGTCTGGGGTCTGCCACGCATCTGCACTGAGGTTCTGCCACGCGTCTGGGGTCTGCCACGCGTCTGGGGTCTGCC
ATGCGTCTGCACTGAGGTTCTGCCACGCGTCTGGGGTCTGCCACGCGTCTGGGGTCTGCCACGCGTCTGGGGTCTGCCACGCGYCTGCACTGAGCAGATA
TTCCAAGCACACCACCCCTTTCCAAAAGACGGCATACAGTGCATTTCTGTTCCTGCCCCTCACCCACATGGTTCCCCGCTTCCCAATTCCTTGGGGTCTG
CTTAAGTCTCACTCTCTTTCCCCCATTCATACAGCCCCAAGGTCGCTCCCTCTGGGGCCCTTTCTTCCCCATTCTTCCCAGCAGCCCAAAGCTCTGGTGG
GACAGGGGCAGCCCCTGGGGAGGGAGGAGAGGACCCAGGAACCCGGCTAGGAGGGTGGCCCACCCATTTCCAGTGTGACCTGTTCCCATTCCCCCATGTC
TCCTCCCATCCCTCCCGCCACTCAGCTCAGGCTGATGAGAAGCAGAGCAACGGGTGTATCGGTGTTTTCTTTCCTGGTGGGGTAGTGGGGTGGGGCTGAG
GAGAGAAAAGGGTGATTAGCGTGGGGCCCCGCCCTCTTTTGTCCTCTTCCCAGGTTCCCTGGCCCCTTCGGAGAAACGCACTTGGTTCGGGCCAGCCGCC
TGAGGGGACGGGCTCACGTCTGCTCCTCACACTGCAGCTGCTGGGCCGTGGAGCTTCCCCAGGGAGCCAGGGGGACTTTTGCCGCAGCCATGAAGGGGGC
ACGCTGGAGGAGGGTCCCCTGGGTGTCCCTGAGCTGCCTGTGTCTCTGCCTCCTTCCGCATGTGGTCCCAGGTAAGTGATGGAGACAGCAGATGAGGCTG
GCTGCGGGGAGCACTTGGGGGAGGTGGGAGCTGTCAGAGAAAGAGGTCCGGGGAGACAGAGAGAGAGAGAGAGAGAATAGGGGAAAGGGAGACAGCGAAG
AGGAAGAGAAGGGAGAGAAAAAGAGGGAGAGGGAAAGGAGAAAGAGATGAATGGGACAACATGGGGGGAAGGTGGAGAGAGACCCAGAGAGGGAAAGAAG
AGGAAGAGAAGAGGGAGAGAGAAAGAAGAGTGGAGGCCGTGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTCGGAGGCCAAGGCAGGAGATCACCTG
AGGTCAGGAGTTCGAGACCAGCCTGGCCGACATGGTGAAACCCCGTCTCTACTAAATATACAAAAATTAGCCGGTCGTGGTGGGCCCCACCTGTAATTCC
AGCTACTCAGGAGTCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGAGAGAGA
GCGAGACTCTGTCTCAAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATATAAAATAAAATAAAAAATAAGAAGAGGAGAAAAGTGGGG
AAGAGGAGGCATGAACTGGCAGATACGGGACAAGATCTGAGGGGAAAGACAGAGGGAGAATGCTCGAAAGAGAGAGAAAAGAGAACAGAGGGCCAGAGAG
CAGCCCGGCGATGTCTGGAAGGATCCATGGTGAGAGCCCAGGCTTACTCGCAGAGAGAAAGACAGGCAGAGCCAGAGCAAGAGGAACAGAGTCAAGGAGA
AAGATGTACACCCTTGTGTACAGAGCTGGGGGTAGAGGGGATGCCAGGAAAGCTGGGTGATGGAGACGGAAGAAAACTCATGTAAAGCTGCAGGGTGAGA
GGACGAGACAGGTGAGACGCAGACAAACTGAGGACCCTGGGAATGGAGAGAGGAGAAGATCGGGAGACAGCAGCAAGCAAGGGAAGCGACAAGGAGGAGA
GGGGCAGGCCGGCCGGGAGGGTGGTGCGGAGGAGGCGGCCAGGGCGCAGAGGGCCGGGAGGTGCTGGCCGTGGGCTTCTTACCTCTGAGCTCGGGTTTAA
AAGCCTCCATTTGGGTCACGGCCTTGCCTGGGGCTCGTAGCCCCGGCATTGGCCTTGGGCTCCTCCGTGTACAGAGCYGGGAGGGGAGGGATGCCAGGCC
TGTGGGAGATGTTCCCTCGGGGGCCCCCGTCCTCTTCCCCACACTTTCCAGGCTGTCCCTCTGGCTTCAGGACCAAGTTTTATTCTGTGTTTCTGGGTGT
CTGAGTCTTTGGGGGAGAGTCTGGGGTCCAGAGTTCAAGCTGGGGTTAGAGTCTCAGCTCCTGCCCTGCCTCTCAGCAGGCTAAGAACAGTCGCCGAGGG
AAAATATTTCTTGGGCGCATATTTGAGGAGCTTCCTGGGAGTGAGTCAGAAGGCGARTGCCGTTTAAAGGCTGCAAGAGAAGCCATGCTGGTGAAGCGGA
CCCTTCCACCTCGGGATGTTTCAGGACTAGGCTGAGGGCAAAGGAAACTGCCACCACCTCCCTACACCTCCCCACCCTCCAGCACCCCCACCCCACCCTG
GCCACACAACCCCGCTCCAGTGCTCATCCCACCGTGAGGACGTGGAGGCCGGAAGGAGCCGCCACACGGCCCTGCCCTGCAGATGTGGTTGAAGGAGTCT
CCACGGGAATCATGACTCCCAGAGCGAGGCTGGGGCTTGGGGCGCCGGGGAGGCAGCTTGGATTTAGGAGCCCCAGKGCCAAGTCTTTGCCGTGAACTGT
TCTGGCCCCTGTGACCAGGCCCTGCCCCGTGTCTCCCCAGGGCCCCGGTCCCCTGTGTAAAAAGCAGTGGTGAACGGTTGGACCTCCTGACGCCCAAGTT
CTTGAGTTTCCAAATCTGTGATTTAAAGCTGAGCCCAAATGTGCTGGGTACCAGCTGGACACTCAGCTCCATGTGGAGCCAGGAAGTGGGGTCTGTGGAG
AGGAGCGCAGAGGGGCAAGACCTGGGGTGGGCGTGGAAAAGCACGGGGGCGTGACCCGGAGAAGGAGTGAAGGACTGTTGGTGTGCAAGGGCGTCTCCRT
GACGACCCGAAGAAGCTAGGCATGTCGTGGAGCGCTGAGTCCTTTGCGTCGCTAAGGGGACCAAGTGGAGCTGGGCCAGGAGAGGAGATGGTCGTGGCTG
GGAGATGGCACCCACACATCTGACCGGGCATGACCAGGGCCTTGGCAGGAAAAGCAGTCACCAAGGGCGGGTGGGCAGCCCCCACCCCCACAGGGCAGCT
GCTGGAGGACTGGCAGCCAGCCAGCCCCGTTCCTTTTGGCTCCCTGAAGGGGTTTACAGATGACCTGCCTATACTTGAGTCTAGGGTCTGTTTGCACACT
TGCCGGCAGGACCCTCACCCAGGCTGGGTCACACTGAAGCCCAGGCCAGAGGAAAAACACAGGGTTTCCACAAAGGAGCTGCCGCAATGAGGGTTTCCTT
AAGGAACAGCCCTGGCTCTCAAGGGTTAAAGGATAAGRCACAGCAGACAGAGGTGGGCTAGACAAGGACAGATGGAAATTTGGTGTCTACTGGTCGCCCC
AGGCAGGAATGACTCAGAAGGAAGCCTGGCCGTCCTGGTTCCATGCCACAGGGAAAGGCAACTGGGTCGAAATAGGCCTTGGTCTCCAGCACTATCAGTG
ACCCCAGGGAGGTGACAGGCTGGAGCAAGTGCAGGGCAGGCAGGGGAGGGGACGCCGGCCACAGCGCACTCCACGGGGAAGGGTCTTTATGGGCCCCTCC
TCGGAGAACCCCCGGTCTATCTGTCAGTCTGGGACAGGCCACCTCAACTTGCCACCGAGGACACCAAAACTCTCCACAGACCCCTCTGCCCCTCTGGGAA
ACCCCACTGTGCTCCAGGACACTCAAAAGGAAAGGATCCCTGGACAAGAGGTCCTGCCAGGAAMATCAGCCAAATTTTGGCCAACGACCAGCAAGGTGCA
CAGGGAAGAGCAGGGGCTGAAACTCAGAGGTCCAGCATCAGCGACGCCCTTGGCAGCCCAGGGAACACAGGCAACGCCTTTTGGCTCTGGAGTCTTAGGC
TCTTCATCGGCRAACTGAGCCCAGGGGGAAGGGGCTACTAYGTAGGGTTGTCATGAGGATGAAACGAGACAGCATCTGGTGTAAAGTAGAAAAGGCATAA
AGGGCCGGGCGCGGTGGCTCACGCTGTAATCCCAGCACTTTTGGAGGCCCAGGYGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCTTGGCCAACC
CTGTCTCCACTAAAAATAAAAAATTTTGCCGGGCGTGGTGGCGAGCGCCTGTAATTCCAGCTACTCGGGAGGCTGAGGTAGGAGAATGGCTTGAACCTGG
GAGGCAGAGGTTGCAGGGAGCCGAAATGGCAGCACTCTAGCTTGGGTGACAGAGCAAGACTCTGTCTAAAAAAAAAAGAAAAGCCATAAAGACGTGTTTG
AGAAAGAGGCCTGGGAAGACGGGGGAAGGAGGGTGATTGAACCCGGAATGGCACTTGTGTCGGCCCAGGGTCATATCCCTTCATCTAAGGATCCTCGTGC
CTCTAAAAAGCCACCCCGTGCTTCCTGTGGGTTTGCAAGGGCTGGCTTGGTGTATTCAGAATGTGGCTTGCTGCATGAACGGACCCCGAGGGCCATGGCC
CTAGAGCAGGGGCTCGCTCCAGCGGACAGCTCTGCCTCACCGCTCCCTGCCTGTGAGTCCCGCCACGCCCTTGGTTTCTGGGCTCAGCCGTGGAGGCAGA
GGCTGGCCTGGCAGAGGCTGGCCTGGCAGTGCTTGACACGCAAGTGATTTGTGTCTTCATTGCTAAGGACAAGAGGCAATGAGAGGACAAGAAGTGGTTG
GCCTTTTGTACGCTCAACGGGTGGTTTTGCTACTCTGTGTCTTTTCTCTGATTTCACGGTGCTGTTAAGTGCTTAAAATATGCACATCGTGTAGCTCACA
GAGCCACTTCTCTGAAGGCCAGGACAGAGACCTTATAGGCTCTCTCTCCCCCTAGTTTCAGCCTTTTACCTTAAATATACGTCTTTCTTACTGCTAGGCT
GAGTTCCCGCCCCAGCATGTTCTGAGAAATTGAGTCAAAATAACTGAGTCTGTTGGCACCTCATMGACGATTTCTTCATAGACGGTTTTTTTATTGTTGC
TGTTGTTGTTGGTTTTTTGGGTTTGTTTGTTTGTTTTTTGAGACAGAGTTTCTCTCTGTCCCCCAGGCTGCAGTGCAGTGGCGTGGTCTCAGCTCAGTGC
AGCCTCTGCCTCCCGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTATAGACGCCCAACACCACAGCGGCTAATGTTTGTATTTTT
AGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCTYGCCTCGGCTCCCAAAGTGCTGGGATTATAGGCG
TGAGCTACTGTGCCTGGCCCTACTTCATAGAGGTTTAAATGCCTTTTCACCCTTTTCCTGGAGAYTCTGAAGAAGTCTCAGGAACTGGGCATTTGTGTTG
CACGTGAGGCCTTGCAATGGCGGCCCTGCTTGGAGRAAGGGCACTGGCCTGGGTTGCCCGCAGCTCCACTCCCCGTGTATGTGTTTAGGGACCACAGAGG
ACAGACATCGACTCTCTGTAGAGATGCCGCCCCGCCCAGGTTGCAGTTTAGGTTCCAAAAGTCCAGTGGCCAGTGGATTTTGGGGGAATTTGGAATAAGA
AACAGCCTAGACTTTGGAGTTGTTCATTCACTTGCAGAATTTCTACTCATGCCAGCTGCTCTGGACAGGAAGATGAATGCGTCACAGTTCCTGCTTTTCA
AAGCTCTCTAAGTTAAGTGACTTGTTTAAGATCATAGAACCCATAAGTGAGGCAGCTGGGACTAGAACCCAGGTCTCCTGACTCACTGCAGCACACAGCC
TTTCGGCAATCTCCAAACCAGCCCAGCCCACCGACGGAGGGAAGAACAGAAGCATTCACACACCCTGCTGAGACAGCCATTCATTCATTCATTTGTTAAT
TAAACCACCATTTAGGAAACGCCTGCCTTAAGTTCCTGACATTGTTCTAGGACACAGCACTGGATGCACACAGTGAAGAGTGAAACAGACGTGGCCCAGT
CTCTTGGCACTAAAATCTTGGTGCAGACAGACATCAAATAATTACRGAAATGTTCTCAACTGCACATGTGGTAAATGCAGTGTGGAAAAGTACAGGGTGT
GCTGAGAGCTGCATTTCGAATGGCCAGAGAGTAGGGGAGGTGCATCTGACTGACAAGTCAGGAAGGGCCCTGTGAGGAACCGTTCTGCGGGGAGCTGAGG
CCTGAGGCTGAGGACAGCCAGGTGGAGAAGGTGCCAGGCCTGAGCAGGCAGAGGCGGAGCTCATGGAGAGGCAGGAAAGAGCTTGGCCCCTTGGAGGACT
TGAAAGAGAAGGCAGGTGTTAGATCGCGCAGGGCTTTGCAAGCTGTGGAATAGATTATGAATTTTATGTTATTTTATTTATTTATATTTTTGAGACAGAG
TCTCACTGTGTCACCCAGGCTGAAGTGCTGTGGCGTTATCTCGGCTCACTGCAACCTCTGCCTCCAGGGTTCAAGGGATACTCGTGCCGAGTAGCTGGGA
TCACAGGCACATGCCACCATGCTCTGCTGATTTTTGTATTTTTAGTAGAAATGGGGTTTTGCCATGTTGGTCAGGCTAGTCTCGAACTCCTGACCTCAAG
TGATCTGCTTACCTTGGCCTCCCAAAGTGCTGGGATTACCAGTGTGAGCCACTGCGCCCGGCCCAGATTATGGATTTTGAGTAATTAAAATGACAGACAA
GGCCAGGCACAGTGACTCATGGCTGTCATCCCAGCACTCTGGGAAGCTGAAGCGGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGACTGGCCAACAT
GGCAAAACCCCGTCTCTACTAAAAATACAAAAATTAGCAGGAGATGGTGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAAGCACT
TGATTCCAACTGGGATCACAGGCACACACCACCACACCAGGACAGCCCGAGGCTAACCACTGTGGAGAGGCAGCCAGGCTCCTGAGGACAGCGCTAGGCT
AGGAGGATGTGCCTGCCCCAGTGGGAGCCAGGAGAGATGGGTGGCAACACCAAGATGGTGGAGACTGGAGATGGCACCTCCGAGAAGGAGGCGTTGGGGA
AAAGAGAGTTGAGCTGGCCGGCGTGCTGTGCTCACAGCCGGATTTTGGTGCTTCTTGGTTTGGTGCTGGAGCTTCTGTGGCGATCACCAGAGTGGCTGGG
TGCTGCCACACCAGATGCTGACAGAAATGAGGTCAAATGACCGGTGGTGGGATCCATGGGTTGGGGTGTGACTTCGGCGGGGATCGTTGGAAAGAACGGG
TAAAGTTCTCGCCTTGGAGTCCACTGTGAAGGGACTTGAACCTGGGAGGTGGAGGTTACAGTGAGCTGAGATCGCACCACTGCACTCCTGCCTGGGCGAC
AGAGCGAGACTCCATCTCAAAAAAAAAAAAAAGATAAAGATAAAGAAACAGGCAACGTCACCCTCTCTCCAGCCTCGGCTGAAGGCAACAAAGGCCACAG
GGCCTGGGATGTATTCCACAGATGTGTAYGAAGTCACTGCTGTATGCCAAGTCTCGTTTCAGGCKCTGGAGATCACAAGAGRTCWGTTATTCCAAGGGTA
TCTTGAGTTAGTGTCTTTCCTCATCTTGAATTCTAGGGAARTACCCAGTGGACACAACCCTGGTCACAGTTGATTCTGGGCTGATACACAAATAGCATTA
GCTCCCTGCCAAAGGCGGTGGGGCCAGCGGTTCAGCGTCTGCGCGCCTTCCGGGCCGCCTGCTGCCTGTGTGGGGCTGAATGTTCTCCTCAAGGCCATCC
TTACCGTTGGGCACTTCCCTTGGGCTTACACTGCCCTGCCCGAGGCAGCCTGGCAAGGGGCCCCACCCGTCAGGAAGTAATTCCCCTCCAGGAAAGTGAA
ACACTGTGGCGATACGGCTTACGGGTTCCTCACCTCCAGTTCCAGGAAAAACCCAAGACAAACAGACCAGATGCTAGGAATAAGCCTCAACCCACAGCAC
TTAGAAAGCCGCAGGCTTTGTGTGTCTTCAGGGAGTGGCTTCACCCTTCTTGGAATCTGTCTTCTGCCAGCGTCACTCATACTGCTGCCACTCCTTCTCC
CGAGCCAACAGCACACCTGTCACCTCGGCACACCTGTGGAGTCACCAGAGGGGCCATCTGGGGAAAACGATGCCTACTGCCACTCGGCCTTCACATCCTG
GAGCCCTAACAGACGTGAGGCAGCTGTGGGCCGTCTCCCACCTGACGTGGTTCAAGGAGAGAAAAGAACTACCTTGATGGGAGATCTCTGGCTGACGTGA
TGGCAGAGGCTTGACAGAGCCTTCAAGGACTCAGATGTGGGGAACGTCTCTACCTCAGTGCCAACGCCAGTGCCCTCCTCGTCCCTGGATGGAGACTCYT
CCTCTGAGAGAATGTCTTAAAAACTATCCGTTTTACTCAATGACACACGTGTGTCTTCTCACAGTGATCTTGTCACCTTAAGGTGTCAACAGCCTTCACA
CTCACTCTAACATCATCCCAGAAAAGAGACACCAGGAACATTGCAAAAACACCCCAGTGTCACAGCGTCCACCCCGAGAATGTGCCTGGCTCGGCCTCAG
GCTCAGAGCCCTCTGCATGTGGCAGTCCAAGAACTTGGGGCAGGTCAGTGACCATTTCTCCATCTTTGCCTCAGCTCTCCATCCACTCGGTGGCAGTCCC
AGAGCTGARMAGCTCGCAGCTTCCGAGCAATGGCTCTTACCCCGAGCCCCCGGCCCTGCTACTTCCAAGGCATATAATATCACTCGGTCTCTTCAAATCT
CAATTTCCCTGCCTGTGAAATGGGGCCGCTGAATCTCGATTTCCCCGCCTGTGAAATGGGGCCGCTATTAACAAGATAAGCTATAAAGCACCACATGAAC
ATGAGCTGTGAACATTTGTATTATTCATAGAGTCATAACGTGCCTACGAGAGAAGTAAAAAGAAGCCCCACCTCCCTGGTGTGTTCATCACAAGTCAGCT
GACCCTCAGTCACTCGACCCAGCGCAGATGCGGAGGCTCTCGCTGCTTGCAGAGAGTTTATATTATATTAAACGGATAGTTTAATTCATAAGGTCTGGTA
GGAAGAACGTGAATTTATTAACCAAAACTAGTAAAGGGGAAGCAGCCAGATTTCTACTTAAAGTAGCTGCTTTAATTTTCAGAGGGGAAAGCCTTGATAA
GGAAGGCACGCAAGAATCGGGCTGAGTCCTGTGTCCGCATGTCTTGTTCTGGTGGCTCTTCTGGGTCCCAGTCCGTCCGGACCTCTGGCTGACATTATTT
TAACAAGAGCTGTCTTGAAGTAATTTCTGGGATTTTGCAGCTGGATTTTCAGATGTGGTTTGTCTCTCTCAAGGTTTTAGCCCCTGCAACTTTTAGGAAG
ACATATAATTCGATCCTCGCACGCAGAGAAATGGAAGGGAGTATATACAGACAGTAAGAAAAGGGAGGGAGTGTATACAGATGACAAGAAAAGGGAGGGA
GTGTGTACAGACGGTGAGAAGAGGGAGGGAGTGTGTACAGATCGTGAGAAAAGGGAGGGGCGTGAAGTCTATTTTTAGGCTGAGGAAAACGGCCTTTGCA
GYTGCCTCAAGGTTGTATTTGGAAACCCAAGAGAAAGGGGAAAACATGTTTAAAATGCATTTTGAATTTAAGCTGCCGGCTACAAAACTGAACAATGTCT
CCCGCAGAAACGAGAAATCCCTTGGCGTGGCCATTTCTTATTACAGAAGCCACCCTGCCACGCACACAGACGCGCTGGAAGTATCTTTCCTCAGTCACAA
CCAGACGAAGGTCATTCTTGCCCAGTGGCCTCCCTCTGAGGATTCTGGTTTCTGACATCCGTGTCACAATGGCAATGCCAGTCACCAGTCTCTGACCACT
AGACCCACGCCCCCGGGACCTACGCAGACACCCAGGACCAATGCCAGTCACCAGTCTGTGACCCCAGGACCTACCAGACACCTTCCAGGGCAGGCAGGGC
AGGCCATTTTCCAAAGCAATTCGAGCTAAGGAGACAGCAGCAGCAACCCTCCCTCCTGGCCCTCAGAGCTGAGGATCAACCCACAGGGGTGYGGTGGAGG
CTGAGAGCAGGGGTGYGGTGGAGGCTGAGAGCAGGGGTGCGGAACCCGAGTCAGCAGGGGCAGTGAGGAGGCTGCCGCAGTAGTCAAAGCGACGGGGAGG
ATGTGGCAAAGCAAACAAGAGGACGCGATGGGGTGAACACTTGGGAGGAAGATCAACGAGTACTGACTAGGACACRGGGGACAAGGAAGAGAAAGAAATC
CAGAGGACCCACAGCTTTCTGGGCTGGATGTCTGGGGGACTGTTGTTAGCATGAACAGAAGGAAGGAAGAAAGCTTGCAAGGAAAGATTGACCTGGACCT
GTTGCATTGCATGAGCTAGGCAGGAAATCCCTGGGAGGGTGAGGCCAGCATATGGGTGGGAAGTCAGGGAGAAGTACAGATTTGTAAGGCGTGAGAGTAG
ACGCAGGGTGGCCAGAGAGGGAGGGGCAGCAGGAGAGGGAAAGGGCTGGAGACATGTCATCTGGGCGTGGAGCGGGGGAGAGAGGTGGCAAGGGGAGTGG
AGTGGAGGGCCCGGGAGCGTGGACGGTGGAGCAGGACCCGTCAGCTTCAATGAGGGTGAGGCTGGGTGGTGGCACGGGGCCGCCGGCCAGGGAGAGCACG
TGGAGSGGGGGGCGCAATACACATCTGTCAGATTCATGAATGAATGAATGGATGGGGCCGAACTGATGAGACGCGTGAGGACTGGAGAAAATCGTTTTTG
CTGTTGGGAAGGAGATTCTGGTAGCTCTGAGGAAAACGGCTTGAGCGAAGTGAGTGAGGTGGGGGCAGAGCGAGCAGTGCGTGGTAAAGAAGAGGCGGCA
GGGGAAGCCCGGCTTTCATGCTGCTGGAGGGACGAGGAGGACACAGACGGATGACAGACTTGTTTTAGGCCAACAGACACCTGAACATGCTCACAGGCAG
GAGAGAAGGAGAAAGGCAGAAAGAACGTCGGAGACACAGAGGCAGAGCAGTGAGCCATCCGGGCAGGAGGGAGCCCCGGGGCCCCGGGGAGGGTGCGGAG
AAGGCTCTGGGCATTGAAGGAGATGAAGGGCACGGCTTTGGTTCTTTCAGTGAAGTAGAAAATGGAGKGTCACGGGGAGAGAAGAGAGAGGAGAGACCTG
TTTCTCTCCAATATCAACTCTTTAGGCGCAAATCTCCCAGCTCTCTGCTCCCCAAGTTTATGCGTTTGGCCAGAGTGAGAACAAGTTTCAGTTGTCTGAC
AATCTSACGGAAYCTGAAGGGCCTGACTTGCATCCTGGTGAGAGCCAAGGTCAGTTCATTCTGGCCAACACTTGAGCAGCAAGAACAAGGCTATGAGTAT
TTTTTAGAATAAAACTTGATCAAGGCTTCAAATTTCTCTGCCTGACAACTTCAGCGAGATGGTTTTGGCTTACAAACATTGTTAAGAGTGGATACTATCA
TTTTATTTTAAGGGAAGTGTTTCTGAACGTGGGGTCCACGGACCACCTGCATCAGAATCACTCTGGACATGTGTTAAAATGCTGATGCACCCTCTGCCTT
TTGAGAACCACTTTTTTTTTTTTTTTTTTTTTCAGAGAAGGGGYCTTGAGCTATTGCCCAGGCTGGTCTCAAACTCCTGGCCTCAAGGAATCCTCCCGCC
TCTGCCTGTCCGTGCTGGGATTTTAGGCATGAGCTACCATGCCCAGCTGAGAACCATTTTCTTACCAAAAATCATTCTCCATAGTCTCTCCATCCACTAG
GATTTCTTTCTTTTTCTTCTTTGTAAAGATAGGTCATACTTGAACACAGGATTTCTTACCTACAAATAACCTACTCAAGCTTAGTAGATTGAGTTATCTG
CAAATTGTTTTCCTAAACAGCTRAATAATCAATCTATTGCAGGAGTGGCTTCAGAGGTATTGTTTAAATGATGGTGAAAGACAAATGCAATAACTGTAGT
TTTGTCGTAACGAATGCTAATCTCTTCCTCCTCACAAGCCCAACAGATTGAGAGATTTTGACAGCGCCTTCTCCCCTAGACAATAAAACTATGTCCTCCA
CATGCAGTGACTCACTTGCCCTCCTATTTGCGGCAGCAGGAAACTCTAATCAACTTGGCTCAAGATGAGCAAGTTCTCTAAATAAAGATTTAAAAGGAGG
ACTACCAGGACACAGCCCTGTTTAGCAAGAATTTTTTTTTTTTTTGAGATGGAGTCCCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCT
CACTGCAACCTCCACCTCCCAGGTTTGAGAGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCAYGCCACCATGCCTGGGTAATTTTTG
TATTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAATGATCCACCCGCTTCGACCTCCCAAAGTGCTGGGAT
TACAGGTGTGAGGCACCGCACCTGGCCGATTTTCAGTCGATGCTGTGAAGCAAAGAGCAGCAGGTGAGGGATGGGGCCTGTCCTGGATCATGCCCCTTTG
TTCACAGGCTAGGGATATGGGGAAACAGGCACACTCTTGCACACTGCCAACAGGTCTGTAAATTGGCATAAGCTTTCTGCAAAGAAATTTGGCAGTCTGT
ATTAATAACATGAAAAATTTTATAACRGCATAAACCAGCAATTCCACTGATAGAAATTTATGTTAAGGAGATGAGCTGAAATAATGTAAACAAAACATTA
GACACGAAGATAGTCATCAGGGCTTTATTTAAAATAAGCAATACATTGGAAATATCCTAATTGTCCAACAGTAAGTTAACAATATGAGCTTTCTCTATGA
TGGCTTATTATTTAGTGTTTAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGAGTGGATCACCTGAGGTCAAGAGTT
TGAGACCAGCCTGGCCAACATGGTGAAACCCAGTCTCCACTAAAAATACAAAAAATTAGCCTGGCATGGTGGCACATGCCTGTAATCCCAGCTACTTGGG
AGGCTGAAGCAGGAGAATCACGGAGGTGGAGGTTGCAGTGGGCCGAAATCGTGCCGTTGCACTCCAGCCTGGGCAACAAGAAGTGAAACTCCATCTGGAA
AAAAAAATGTTTAAAGGCTATGTCCAATGTTCTATAAGGGCAGGGACACACACACACAGTGTCTCWCACACACACACACACACACACACACACACACACA
CACACACAGTGTCACACATACATACTAGCAACACACAGAACGGGCATAAAGTAAGATGTATTAAGGAGAAATTGCGAGCAGGGAGCAGTGGAGTCCACAT
GACCCCCGAGCTCTCATTGCACAGAGAGGTGGGTATGGTGGACACACAGCAGGATGTGGTACAGGAGAGAGACCTGCTCCTGTTTAACAGAAAATGGGAA
GGGTAACAACGCTTCCAGTTGGGGGAGTGGCTTTGTTAGGAAGGAGGCCACCAGAGCTCAGCAGGGGGAGTTTTTATACAGCACCCTAGATTTTACTATG
GAGCTGAGCTCTCCCAGTCCCCCTGAGCCAGCTCTTGTAGGACTCCAAAAGGGGGAAGCAAGGAACTGCCATCCAAGACATAAAAGATGTGCGTCTTCTC
AGGCTATGTTTACGAAGCTAGTATCTTGAAGAAATGCTCATATCAGGTATGGCTAAAAAGGCAGGATACAAAATTATGTATACTGAATAAGTTAAACTAT
ACATATATATTTTTTAATTTTTAATTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCAGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAAGCT
CCGCCTCCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTTGTATTTTTA
GTAGAGACGGGGGTTCRCCCTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCACCTCAGCCTCACAAAGCGCTGGGATTACAGGTGTG
AGCCACCACKCCTGGCCTAAACTATATATTTTTTAAAGCATAAAAACATCCTGGAAGGAAGCATTGTCTGGTAGCAAGATTATGGGTTTTGATCTTTCAA
CTATAAATGTTCCCAAATGCACGTAACCAGTATGTGTGTTTTCTTTGGCATATTTCAATGCAGTTGTACAATTTTGTCCATAAAGATTAAGCACATCTTT
TGTTAGATTTATTTTTATGTACTTTTTTTGGTCACCATCATAAACACTATAGTCTTAAAAATATTTTCTCTTTCACTGATATATAGGAATGCAGTTTTAT
TTTGTTTTTAAATCTCTTTTTGAGACAGAGTCTCCCTCTGTCATGCAGGCTGGAGTACAGTGGGGTGATCATAGCTCACTGCAGCCTCGAACTCTTGGGC
TCAAGTGATCCTCCCCCCTCAACTTCTGAGTAGCTGGAACTATATGTGTGTGCTACTATGCCCAGCTAATTTTTTATTTTTTTATTTTTTATTTCTGTAG
AGACAGGATCTTGCTATGTTACCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGTTCCTCCTGCCTCAGCCTCTCAAAGCACTGGGATTCAGGCATGAAT
CACCACACCCAGCTGGAATGCAATTATTTTTAAAATTTTGATTATGGATATAGAACTTTGCTAATAATGTATATGTTYGGGAAGTTTCTATGTAAACAAT
TATGTTATCTGCAAATAACCATAGGCTTGTTTCATCCCTTCCATACCCAAAATCACATTTCTGTACTCTCATACTTTTTGTTTAATTTTCTCGTCTTATT
TCACCAGCTAAAACCTTCAACCTAATGTTGATTAGAAGCAGTGATTGTTGGCATCTTGTTTTTATTCCTGATTTTACAGAAACGTTTCTATTGTTTTAAG
TATAATGTTTACACGGGGTTATAATTGACATTGTTTATCAGGTTAAAAGAGTTAACGTCTCTTTTTAGTTTGCTAGGAGTTTTAACAGGAGTAAGTGTTG
ACTTTTATCAAATAACTTTCCTGTATCTGCTGTGGTGATTGTGTCTCCCCTCCATTCTGTTTATATGGTGATTTACATTAAGAAAGCATTGTCTTTATCT
TGCATTTCTGATTTAAACTCAGCTTGATCATGATGTACTTTTAAAATATTTATTTATTTATTTATTTATTTAAGATAGAGTCCTGCTCTGTCACCAGGCT
GGAGTGCAGTGGCACAATCTCGGCTCACTGCAATCTCTGCCTCCTGGGTTCAAGCAATTCTCGTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTG
TGCCACCAAGCCCAGCACACACCTGTAATCCAAAAAAATACAAATTTTTTGTATTTTTACCAGAGACGGGGTTTCTCTAGGTTGGCCAGGCTGGTCTGGA
ACTCCCGGCCTCAAGTGATCCGCCTGCCTCGGCCTGCCAAAGTGTTGGGGTTACAGGCGTGAGCCGCCGCGCCCGGCCATGATGCACTTTGGCTTGCTAA
TATTTTATTTACGATGCTTCCATGTATTATTACTGGGACTTATTAATCTATAGTTTGTCTTTCTTATCCTATCTTTGGTTTCCAACCTTATAAAATTATT
AGTAGATCATTTCCTCCTGTTCCAAACTCTGAATATGTTTGTATAGAATTGAAATTACCTGTTCCTTGAATGTCTGATTTGCCTGTAAACTCATCTTAGC
CTGCATTTTTTTGTGGGGTGGATAGATTATATATACATATTTTTTTTTGAGACGGAGTCTCACCTTGTCACCCAGGCTGGAGTGCAATGGCATGATCTCC
GCTCACTGCAACCTCTGCCTCCCAGGTTCACGCCGTTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCCAGCTAATTT
TTTTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCATGATCCGCCTGCCTCACCCTCCCAACGTGTTAGGATTACAGGCGTGAGCCACCGC
ACCCGGCCTAGATTATATTTTTTAAACTGCTGATTCAATTTAAAATAGTTTATAGTGGCCGGGCGAGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGA
TGCCGAGGTGGGTAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCAGGACGACATGGTGAAACCCAGTCTCTACTAAAAATACAAAAATTAGCCGGGCG
TGGTGGCATGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAAGCAGGAGAATCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCATTG
CACTCCAGCCTGGGCAACAAAGCAAGACTCTGTTTCAAAAAAATAAATAAATAAAATTAAATAAATAAAATAAAATAGTTTTTAGCCAGGTTTTTTTCTT
AATTCATTTTTGATAAATTATATTTTTAAGGACAGTATATCCAATTTATCTAAGTTTTCATACTTTTTGGTATAAATTCATCAGAGCACTGTCTCTTAAA
TTTTTTTTCTGAAGTTATGTACCCTTTTTTGTTTCTAATAATCTTGATATCTGTGTCTTTTCTGTCTCTCTCTCTCCCTCCTCCCACACCCCCCCCCACT
TTCTTTCTCTTGCCAGGTRTTTGTTTTATTTTCAAAGAACTAATCTTTGGCTTCATTTATTCCATTTTTAATTGTTTCTATAGTGAGTTCTGGTCTGTTA
CTATATCCTTCATTCTGCTTCCTTTTTCTTTTTTCTTCCTGGTCTTTCTAGTCYACCTTTTTTGCTGGCGGTTCCAGCTTTTTGCAGGGAAACTCAGTTC
AGTGTCGTGACCGAGGGTCTTGCTTCCTTTCCTTTTTCAGCCTTTCAGTCAGCACATTTCCAAGGGCATTGACTCACCATCTTAGTTGTTAACTTCTTCA
CTCCTGAGTGTTTCCCTTTCTTTCTTCTCATCTCACCTCTGCATTAGAAAACATTTATTACATTTATAACCTGTATTTATCTGGCATYGGCTGGTTTTGC
TATTAGAGGCTTATCTCTTCTTCCATATTGCTGAAATGGAGCTGTGCCACTTTTATAAAGAACTACAAAAATCTTTACTTTAAAAAAAAGGACGGTGCTG
TCATGAAACTTCTGCTGCTGACACTGATTTTAGCAGAGGTGATGCAGGCTCTGAAAAGATGTTAATTGCCAAGAATTTACACATTCAGAAAGTTTGGCCC
CTAGATAGCTCCTGTCTACTCAAAGCCTGATGATAGACAAATGCTCTTAATTATGTTATCAGGGAAATGAAATAAGGTTAAAAATAACTGCATAGAGAAT
GTTTTTAAATTTAAACCTTATTTGGAGAAACCAAGTTTTGCAAATTTTCTCTAGGAGAAAGCAGGCATCGAGTTTAGAGTCCTATCAACAAATCTCAACC
TAATTCCAACTAAAGGAAGTTTCCGTTTAAAGTTGAAGTGGAGTCATTTTGGATTAAGCCAGGGGCCCAGGGACCTCCCAGAGGGCTCTGCGGTTCAGCC
CGTGCCTTTGTCCACGTCGGTTTACAAGTGTGTCACCAGTAAGCAGTTACTATTAATGAAGTGCAGAAGCTTGCACGTGAGTCACTTTTTTAACAATTAG
AGCTGGTTCATAACCATTATCACTCACTTGAGAGTCTAAGTTACTGTCTGAAGAAGAGAAGGTGGCGAATTACAGTCAATTCCAGAAAGTGGACTTGAAG
CTGAATTCTTCCCTGAGACTTTGTCTCTCTGAGTATCATCTTGCCAACTATCTAGGAGCACTGAGGTTGAAAAAAAGRGTGGGAGCGGTGGCTCACACCT
TTAATCCCAGTACTTTGAGAGTCTGAAGCAGGAGGATCGCTTGAGGCCGGGAGTTCGACACCAGCCTAGGCAACATAGCAAGATTCCACCTCTACAGAAA
TAAAAAAATTACCCAGGCATGGTTGTGTGTGCCTGTAGTCCCAGCTACTCAGAAGGCCAATTACACCGCTGAACTTCAGCCTGGGTGACAGAAGACCCTG
TCTCTCTTTCTCTCTCTCTCTTTCTTTCTCTCTCTCTCTCTTTCTTCTCTCTCTCTCTCTCTCTATATATATATGTTTAAAAAGAAAAAAGAAAGAAGTT
TGAGAACAGCTAGGGAACTAATGAAAACCCAAAAGAGTCAGTTTCTAAGAGAAAAAAAAAGGCAAGTTTTCTTGGTTTCTTCTTGGTTCAGAGACTCAGA
GGCTAAGGTAATATTCACGAAGATGGTATGTGGCTAGTGCAGGTGCTGTGAAATATTTTAAACAAAAAAAGCCAATATTTAAACATTCTGCCTGGGAAAT
ATTTTTCTTTATTWAATATCTATTTTTATTATTATTATTATTATTTTTATTTTTTAAGACACAGGGTCTCGCTATCTTGCCCAGGCTGGTCTCAAACTCC
TGGCCTCGAGTGATCCTCCCACCTTGGCCTCCCAAAATGCTGGGATTACAGACATGAGCCACCATGCCTGGCCTCTGCCTGGGAAATAATTTTTTTTWAA
AAAGTGGTTATGGTCAATAATATTAGCTTCTTGGTAGTCTGTGACCAGGGCAAGAGTATATGCATTTACCCCTTGGGTTTTTTACCAGATTGGCACAGAT
GTTAACAACGAAAAAGAAAAGTAGAAATTTAATTTATTTTTAAGAAAGATAATGCTATAATTCAAGTTGAGAGAGTTAACCCGGCTTATAGCAGGGGTAC
TGTTTGCYTCTTCCCATGGAGTTTAACACAGTTAATTCACCATTCTAGTCTAACCTCACCTTCCTCCTCACAAGGAAGACAGGCGGGAGCTGGAGAAGAC
CATTGGCTATATTCCTGCAACTGTGCTTTTTCTAGGCGATTTGAAGCAGTGCTTATCAGGGGCCTTCCTCTGTGGGAATCCTGCACCCCCATCTCTCTCT
CCTTTTTTATTTTATTTATTTATTTTTTTTTTGAGACAGAATCTTGCTCTGTCGCCCAGGCTGCAGTGAAGTGGCATGATGTCTGCTCACTGCAACCTCC
ACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTTTTGAGTAACTGGGATTACAGGCACCCACCACCACGCCCAGCTATTTCTGTATTTTTTTTTCTA
GTAGAGACGGGGTTTTGCCATATTGCCCAGGCTGGTCTCGCACTCCTGACCTCAAGTGATCCACCCATCTCAGCCTCCCAAAGTGCTGGGATTGCAGGTG
GGGCTACCATGCCCGGCCCCATCTCTTATTATTTTTTTATCCCCCAAATATGTACAGTTGTGATATATTAATTTTTCATTTTTTCTTTTTATTTCTTTTC
ATTTTTTACTTTAAGTTTCAGGATACATGTGCAGAACGTGCAGGTTTGTTACACAGGTATATATGTGCCATGGTGGTTTACTGCACCTATCAACCCATCA
CCTGCATGTATTAGCTATTTATCCTGACGCTCTTCCTCCCCTTGTCCCRTCCCTGACAGGCGCCAGTGTGTGTTGTTCCCCTCTCTGTGTCCATGTGTTC
TCATTGTTCAACTCCAACTTATGAGTGAAAACATGCAGTGTTTGGTTTTCTGTTCCCCTGTTAGTTTGTTGAGGATGATGGCTTTCAGCTTCATCCATGT
ACCTGCAAAGGACGTGATCCCATTCCTTTTTCATGGCTGCATAGTATTCCGTGCTGCATATGTACCACATTTTCTTTATCCAGTCTATCACTGATGGACA
TTTGGGTTGGTTTCATGTCTTTACTATTGTAAATAGTGCTGCAGTAAACATACGTGTGCATGTATCTTTATAACAGAATGATTTMTATTCCTTTGGGCAT
ATACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTGATTTACACT
CCCACCAACAGTGTAAAAGCGTTCCTATTTCACCACAGCCTTGCCAGCATCTGCTGTTTCTTGACTTTTTAATAATTGCCATTCTGAGTGGTGTGAGATG
ATATCCCTTTGTAGTTTTGATTTGCATTTCTCTAATGATCCATGATGATGAGCCTTTTTTCATATGTTTGTTGGTGGCATAAATGCCTTCTTTTGATAAG
TGTCTGTTCATATCCTTTGCCTGCTTTTTGATGGGGTTGTTTATTTTTTTCTTGTAAATTTAAGTTCCTTGTAAATTCTGGATATTAGACCTCTGTCAGA
TGGTTAGATTGCAAAAATTTTCTCATTTTGTAGGTTGCCTGTTTGCTCTGATGATAGTTTCTTTTGCTGTGCAGAGCTCTTTAGTTTAATTAGATCCCAT
TTGTCAATTTTAGCTTTTGTTGCAAGTGCTTTTGGAGATTTCATCATAAAATCTTTGCCTATGTCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTA
GGGTTTTCATGGTTTGGGGTTTTACATGTAAGTCTTTAACCTGCCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGGGTCCAGTTTCAGTTTTCTGCA
TATGGCTAACCAGTTTTCCCAGCACCATTTATTGAATAGAGAATCCTTTCMCCATTGCCTGCTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATG
TGTGGTCTTATTTCCAAGGTATCTATTCTGTTCCATTGGTTTATAYGTCAGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATA
GTTTGAAGTCAGGTAGCCTCCCACTTTGTTCTTTTTGCTTAGGATTGTCTTGGCTATTTGGGTTCTTTTTTGATTCCATATGAATTTTAAAGTAGTTTGT
TCTCATTCTGTGAAGAATGGTAGTTTTCACATCCTTTGTTAGCTGTATTCCTAGGTATTTTATTCTATTTGTAGCAATTGTGAATAGGAGTTCATTCATG
ATTTAGCTCTCTGCTTGCCTATTTTGGTTCACTCCAGGAACCACAGAGGACACATTAATAACTGGAAGTAAAACTSCTGCCCCAGTCACCTCAACAGGCT
CAACAACAGCGACACTAGAGGGACAATCAACTGCAGCTTCTTCAAGGACCTCTAATCAGGACATATCAGCTTCATCTCAGAACCACCAGACTAAGAGCAC
GGAGACCACCAGCAAAGCTCAAACCGACACCCTCACGCAGATGATGACATCAACTCTTTTTTCTTCCCCAAGTGTACACAATGTGATGGAGACTGTTACG
CAGGAGACAGCTCCTCCAGATGAAATGACCACATCATTTCCCTCCAGTGTCACCAACACACTCATGATGACATCAAAGACTATAACAATGACAACCTCCA
CAGACTCCACTCTTGGAAACACAGAAGAGACATCAACAGCAGGAACTGAAAGTTCTACCCCAGTGACCTCAGCAGTCTCAATAACAGCTGGACAGGAAGG
ACAATCACGAAMAACTTCCTGGAGGACCTCTATCCAAGACACATCAGCTTCTTCTCAGAACCACTGGACTCGGAGCACGCAGACCACCAGGGAATCTCAA
ACCAGCACCCTAACACACAGAACCACTTCAACTCCTTCTTTCTCTCCAAGTGTACACAATGTGACAGGGACTGTTTCTCAGAAGACATCTCCTTCAGGTG
AAACAGCTACCTCATCCCTCTGTAGTGTCACAAACACATCCATGATGACATCAGAGAAGATAACAGTGACAACCTCCACAGGCTCCACTCTTGGAAACCC
AGGGGAGACATCATCAGTACCTGTTACTGGAAGTCTTATGCCAGTCACCTCAGCAGCCTTAGTAACAKTTGATCCAGAAGGACAATCACCAGCAACTTTC
TCAAGGACTTCTMCTCAGGACACAACAGCTTTTTCTAAGAACCACCAGACTCAGAGCGTGGAGACCACCAGAGTATCTCAAATCAACACCCTCAACACCC
TCACACCGGTTACAACATCAACTGTTTTATCCTCACCAAGTGGATTCAACCCAAGTGGAACAGTTTCTCAGGAGACATTCCCTTCTGGTGAAACAACCAY
CTCATCCCCTTCCAGTGTCAGCAATACATTCCTGGTAACATCAAAGGTGTTCAGAATGCCAAYCTCCAGAGACTCTACTCTTGGAAACACAGAGGAGACA
TCACTATCTGTAAGTGGAACCATTTCTGCAATCACTTCCAAAGTTTCAACCATATGGTGGTCAGACACTCTGTCAACAGCACTCTCCCCCAGTTCTYTAC
CTCCAAAAATATCCACAGCTTTCCACACCCAGCAGAGTGAAGGTGCAGAGACCACAGGACRGCCTCATGAGAGGAGCTCATTCTCTCCAGGTGTGTCTCA
AGAAATATTTACTCTACATGAAACAACAACATGGCCTTCCTCATTCTCCAGCAAAGGCCACACAACTTGGTCACAAACAGAACTGCCCTCAACATCAACA
GGTGCTGCCACTAGGCTTGTCACAGGAAATCCATCTACAGGGRCAGCTGGCACTATTCCAAGGGTCCCCTCTAAGGTCTCAGCAATAGGGGAACCAGGAG
AGCCCACCACATACTCCTCCCACAGCACAACTCTCCCAAAAACAACAGGGGCAGGCGCCCAGACACAATGGACACAAGAAACGGGGACCACTGGAGAGGC
TCTTCTCAGCAGCCCAAGCTACAGTGTGACTCAGATGATAAAAACGGCCACATCCCCATCTTCTTCACCTATGCTGGATAGACACACATCMCAACAAATT
ACAACGGCACCATCAACAAATCATTCAACAATACATTCCACAAGCACCTCTCCTCAGGAATCACCAGCTGTTTCCCAAAGGGGTCACACTCAAGCCCCGC
AGACCACACAAGAATCACAAACCACGAGGTCCGTCTMCCCCATGACTGACACCAAGACAGTCACCACCCCAGGTTCTTCCTTCACAGCCAGTGGGCACTC
GCCCTCAGAAATTGTTCCTCAGGACGCACCCACCATAAGTGCAGCAACAACCTTTGCCCCAGCTCCCACCGGGGATGGTCACACAACCCAGGCCCCGACC
ACAGCACTGCAGGCARCACCCAGCAGCCATGATGCCACCCTGGGGCCCTCAGGAGGCACGTCACTTTCCAAAACAGGTGCCCTTACTCTGGCCAACTCTG
TAGTGTCAACACCAGGGGGCCCAGAAGGACAATGGACATCAGCCTCTGCCAGCACCTCACCTGACACAGCAGCAGCCATGACCCATACCCACCAGGCTGA
GAGCACAGAGGCCTCTGGACAAACACAGACCAGCGAACCGGCCTCCTCAGGGTCACGAACCACCTCAGCGGGCACAGCTACCCCTTCCTCATCCGGGGCG
AGTGGCACAACACCTTCAGGAAGCGAAGGAATATCCACCTCAGGAGAGACGACAAGGTTTTCATCAAACCCCTCCAGGGACAGTCACACAACCCAGTCAA
CAACCGAATTGCTGTCCGCCTCAGCCAGTCATGGTGCCATCCCAGTAAGCACAGGAATGGCGTCTTCGATCGTCCCCGGCACCTTTCATCCCACCCTCTC
TGAGGCCTCCACTGCAGGGAGACCGACAGGACAGTCAAGCCCAACTTCTCCCAGTGCCTCTCCTCAGGAGACAGCCGCCATTTCCCGGATGGCCCAGACT
CAGAGGACAAGAACCAGCAGAGGGTCTGACACTATCAGCCTGGCGTCCCAGGCAACCGACACCTTCTCAACAGTCCCACCCACACCTCCATCGATCACAT
CCASTGGGCTTACATCTCCACAAACCCAGACCCACACTCTGTCACCTTCAGGGTCTGGTAAAACCTTCACCACGGCCCTCATCAGCAACGCCACCCCTCT
TCCTGTCACCTACGCTTCCTCGGCATCCACAGGTCACACCACCCTCTTCATGTCACCGATGCTTCCTCAGTATCCACAGGTCACGCCACCCTCTTCCTGT
CACCGCCCTTCCTCAGTATCCACAGGTCACACCACCCCTCTTCCTGTCACCGACACTTCCTCAGAATCCACAGGTCATGTCACCCATCTTCCTGTCACCA
GCCTTTCCTCAGCATCCACAGGTGACAGCACCCCTCTTCCTGTCACTGACACTTCCTCAGCATCCACAGGTCACGTCACCCCTCTTCCTGTCACCAGCCT
TTCCTCAGCATCCACAGGTGACACCACCCCTCTTCCTGTCACTGACACTTCCTCAGCATCCACAGGTCACGCCACCTCTCTTCCTGTCACCGACACTTCC
TCAGTATCCACAGGTCACACCACCCCTCTTCCTGTCACCGACACTTCCTCAGCATCCACAGGTCACGCCACCTCTCTTCCTGTCACCGACACTTCCTCAG
TATCCACAGCTCACGCCACCCCACTTCCTGTCACCGGCCTTTCTTCAGCTTCCACAGATGACACCACCCGTCTTCCTGTCACCGACGTTTCCTCGGCATC
CACAGGTCAGGCCATCCCTCTTCCTGTCACCAGCCCTTCCTCAGCATCCACAGGTGACACCACCCCTCTTCCTGTCACCGACGCTTCCTCAGCATCCACA
GGTGACACCACCTCTCTTCCTGTCACCATCCCTTCCTCAGCATCTTCAGGTCACACCACCTCTCTTCCTGTCACCGACGCTTCCTCAGTGTCCACAGGTC
ACGCCACCTCTCTTCTTGTCACCGACGCTTCCTCAGTATCCACAGGTGACACCACCCCTCTTCCTGTCACCGACACTWMCTCAGCATCCACAGGTGACAC
CACCCCTCTTCATGTCACCRACGCTTCCTCAGTATCCACAGGTCACGCCACCTCTCTTCCTGTCACCAGCCTTTCCTCAGCATCCACAGGTGACACCACS
CCTCTTCCTGTCACTAGCCCTTCCTCAGCATCCACAGGTCACACCACCCCTCTTCCTGTCACCGACGCTTCCTCAGTATCCACAGGTCACGCCACCCCTC
TTCCTGTCACCGACACTTCCTCAGCATCCACAGGTCAGGCCACCCCTCTTCCTCTCACCAGCCCTTCCTCAGCATCCACAGGTCACGCCATCCCTCTTCC
TGTCACCGACACTTCCTCAGTATCCACAGGTCACGCCACCCCTCTTCCTGTCACCAGCTTTTCCTCAGTATCCACAGGTGACACCACCCCTCTTCCTGTC
ACCGACGCTTCCTCGGCATCCACCGGTCACGCCACCCCTCTTCCTGTCACCGACACTTCCTCAGTATCCACCGGTCACGCCACGCCTCTTCCTGTCACCA
GCCTTTCCTCAGTATCCACAGGTGACACCACCCCTCTTCCTGTCACCGACGCTTCCTCGGCATCCACAGGTCAGGCCACCCCTCTTCCTGTCACCAGCCT
TTCCTCAGTATCAACAGGTGACACCACCCCTCTTCCTGTCACCGACACTTCCTCAGCATCCACAGGTCACGCCACCTCTCTTCCTGTCACCGACACTTCC
TCAGCATCCACAGGTCACGCCACCCCTCTTCCTGACACCGACACTTCCTCAGCATCCACAGGTCACGCCACCCCTCTTCCTGTCACCGACACTTCCTCAG
CATCCACAGGTCACGCCACCCTTCTTCCTGTCACCGACACTTCCTCAGCATCCATAGGTCACGCCACCCCTCTTCCTGTCACCGACACTTCCTCAATATC
CACAGGTCACGCCACCCCTCTTCATGTCACCAGCCCTTCCTCAGCATCCACCGGTCACGCCACCCCGCTTCCTGTCACCGACACTTCCTCAGCATCCACA
GGTCACGCCAACCCTCTTCATGTCACCAGCCCTTCCTCAGCATCCACCGGTCACGCCACCCCTCTTCCTGTCACCGACACTTCCTCAGCATCCACAGGTC
ACGCCACCCCTCTTCCTGTCACCAGCCTTTCCTCAGTATCCACAGGTGACACCACGCCTCTTCCTGTCACTAGCCCTTCCTCAGCATCCACAGGTCACAC
CACCCCTCTTCCTGTCACCGACACTTCCTCAGCATCCACAGGTCAGGCCACCGCTCTTCCTGTCACCAGCACTTCCTCAGCATCCACAGGTGACACCACC
CCTCTTCCTGTCACCGACACTTCCTCAGCATCCACAGGTCACGCCACCCMTCTTCCTGTCACCRGCCTTTCCTCAGCTTCCACAGGTGACACCACCCGTC
TTCCTGTCACCAACGTTTCCTCGGCATCCACAGGTCATGCCACCCCTCTTCCTGTCACCAGCACTTCCTCAGCKTCCACAGGTGACACCACCCCTCTTCC
TGGCACCGACACTTCCTCAGTATCCACAGGTCACACCACCCCTCTTCTTGTCACCGACGCTTCGTCAGTATCCACAGGTGACACCATGCCTCTTCCTGTC
ACTAGCCCTTCCTCAGCATCCACAGGTCACGCCACCCCTCTTCCTGTCACCAGCACTTCATCAGCATCCACCGGTCACGCCACCCCTGTTCCTGTCACCA
GCACTTCCTCAGCATCTACAGGTCACACCACCCCTCTTCCTGTCACCGACACTTCCTCAGCATCCACAGGTGACACCACCCCTCTTCCTGTCACCAGCCC
TTCCTCAGCATCTACAGGTCACACCACCCCTCTTCATGTCACCATCCCTTCCTCAGCATCCACAGGTGACACCAGCACTCTTCCTGTCACCGGCGCTTCC
TCAGCATCCACCGGTCACGCCACCCCTCTTCCTGTCACCGACACTTCCTCAGTATCCACAGGTCACGCCACCCCTCTTCCTGTCACCAGCTTTTCCTCAG
TATCCACAGGTGACACCACGCCTCTTCCTGTCACCGACACTTCCTCAGTATCCACAGGTCACGCCACCCCTCTTCCTGTCACCAGCTTTTCCTCAGTATC
CACAGGTGACACCACCCCTCTTCCTGTCACCGACGCTTCCTCGGCATCCACCGGTCACGCCACCCCTCTTCCTGTCACCGACACTTCCTCA


SNP Information

Context             (SEQ ID NO:26751):
CCACCCCTCTTCATGTCACCGACGCTTCCTCAGTATCCACAGGTCACGCCACCTCTCTTCCTGTCACCAGCCTTTCCTCAGCATCCACAGGTGACACCAC
S
CCTCTTCCTGTCACTAGCCCTTCCTCAGCATCCACAGGTCACACCACCCCTCTTCCTGTCACCGACGCTTCCTCAGTATCCACAGGTCACGCCACCCCTC
Celera SNP ID:            hCV27456766
SNP Position Genomic:     30300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26752):
AATTGTGAATAGGAGTTCATTCATGATTTAGCTCTCTGCTTGCCTATTTTGGTTCACTCCAGGAACCACAGAGGACACATTAATAACTGGAAGTAAAACT
S
CTGCCCCAGTCACCTCAACAGGCTCAACAACAGCGACACTAGAGGGACAATCAACTGCAGCTTCTTCAAGGACCTCTAATCAGGACATATCAGCTTCATC
Celera SNP ID:            hCV27456767
SNP Position Genomic:     26476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:26753):
GCAATTCGAGCTAAGGAGACAGCAGCAGCAACCCTCCCTCCTGGCCCTCAGAGCTGAGGATCAACCCACAGGGGTGCGGTGGAGGCTGAGAGCAGGGGTG
Y
GGTGGAGGCTGAGAGCAGGGGTGCGGAACCCGAGTCAGCAGGGGCAGTGAGGAGGCTGCCGCAGTAGTCAAAGCGACGGGGAGGATGTGGCAAAGCAAAC
Celera SNP ID:            hCV15893369
SNP Position Genomic:     15516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26754):
CAGGCAGGAGGATGTGGCACCTGGTAAGGAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGGTAAGGAGAAGGAGGCCGGGCCGGGCAGGAGGA
W
GTGGCACCTGGTAAGAAGAAGGAGGCTGGGCCAGGCAGGAGGATGTGGCACCTGGTAAGGAGAAGGAGGCCGGGCTGGGCAGGAGGATGTGGCACCTGGT
Celera SNP ID:            hCV26667358
SNP Position Genomic:     990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:26755):
TTACACAGGTATATATGTGCCATGGTGGTTTACTGCACCTATCAACCCATCACCTGCATGTATTAGCTATTTATCCTGACGCTCTTCCTCCCCTTGTCCC
R
TCCCTGACAGGCGCCAGTGTGTGTTGTTCCCCTCTCTGTGTCCATGTGTTCTCATTGTTCAACTCCAACTTATGAGTGAAAACATGCAGTGTTTGGTTTT
Celera SNP ID:            hCV26667394
SNP Position Genomic:     24949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26756):
TGTGTACAGACGGTGAGAAGAGGGAGGGAGTGTGTACAGATCGTGAGAAAAGGGAGGGGCGTGAAGTCTATTTTTAGGCTGAGGAAAACGGCCTTTGCAG
Y
TGCCTCAAGGTTGTATTTGGAAACCCAAGAGAAAGGGGAAAACATGTTTAAAATGCATTTTGAATTTAAGCTGCCGGCTACAAAACTGAACAATGTCTCC
Celera SNP ID:            hCV29195666
SNP Position Genomic:     15002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26757):
AAAAGATAAAGATAAAGAAACAGGCAACGTCACCCTCTCTCCAGCCTCGGCTGAAGGCAACAAAGGCCACAGGGCCTGGGATGTATTCCACAGATGTGTA
Y
GAAGTCACTGCTGTATGCCAAGTCTCGTTTCAGGCTCTGGAGATCACAAGAGATCAGTTATTCCAAGGGTATCTTGAGTTAGTGTCTTTCCTCATCTTGA
Celera SNP ID:            hCV3189451
SNP Position Genomic:     12929
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26758):
TCTAGGACACAGCACTGGATGCACACAGTGAAGAGTGAAACAGACGTGGCCCAGTCTCTTGGCACTAAAATCTTGGTGCAGACAGACATCAAATAATTAC
R
GAAATGTTCTCAACTGCACATGTGGTAAATGCAGTGTGGAAAAGTACAGGGTGTGCTGAGAGCTGCATTTCGAATGGCCAGAGAGTAGGGGAGGTGCATC
Celera SNP ID:            hCV3189453
SNP Position Genomic:     11446
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26759):
TAAATGCCTTTTCACCCTTTTCCTGGAGATTCTGAAGAAGTCTCAGGAACTGGGCATTTGTGTTGCACGTGAGGCCTTGCAATGGCGGCCCTGCTTGGAG
R
AAGGGCACTGGCCTGGGTTGCCCGCAGCTCCACTCCCCGTGTATGTGTTTAGGGACCACAGAGGACAGACATCGACTCTCTGTAGAGATGCCGCCCCGCC
Celera SNP ID:            hCV3189454
SNP Position Genomic:     10836
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26760):
TTAATTTTTGTATAAGGTGTAAGGAAGGGGTCCAGTTTCAGTTTTCTGCATATGGCTAACCAGTTTTCCCAGCACCATTTATTGAATAGAGAATCCTTTC
M
CCATTGCCTGCTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTCTTATTTCCAAGGTATCTATTCTGTTCCATTGGTTTATATGTCAG
Celera SNP ID:            hCV27456263
SNP Position Genomic:     26051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26761):
GGAAAAGCACGGGGGCGTGACCCGGAGAAGGAGTGAAGGACTGTTGGTGTGCAAGGGCGTCTCCATGACGACCCGAAGAAGCTAGGCATGTCGTGGAGCG
C
TGAGTCCTTTGCGTCGCTAAGGGGACCAAGTGGAGCTGGGCCAGGAGAGGAGATGGTCGTGGCTGGGAGATGGCACCCACACATCTGACCGGGCATGACC
Celera SNP ID:            hCV3189456
SNP Position Genomic:     8335
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,7)   total(C,7|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26762):
AGAGGAGCGCAGAGGGGCAAGACCTGGGGTGGGCGTGGAAAAGCACGGGGGCGTGACCCGGAGAAGGAGTGAAGGACTGTTGGTGTGCAAGGGCGTCTCC
R
TGACGACCCGAAGAAGCTAGGCATGTCGTGGAGCGCTGAGTCCTTTGCGTCGCTAAGGGGACCAAGTGGAGCTGGGCCAGGAGAGGAGATGGTCGTGGCT
Celera SNP ID:            hCV3189457
SNP Position Genomic:     8299
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26763):
CTGCAGATGTGGTTGAAGGAGTCTCCACGGGAATCATGACTCCCAGAGCGAGGCTGGGGCTTGGGGCGCCGGGGAGGCAGCTTGGATTTAGGAGCCCCAG
K
GCCAAGTCTTTGCCGTGAACTGTTCTGGCCCCTGTGACCAGGCCCTGCCCCGTGTCTCCCCAGGGCCCCGGTCCCCTGTGTAAAAAGCAGTGGTGAACGG
Celera SNP ID:            hCV3189458
SNP Position Genomic:     7977
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(C,3|A,5) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26764):
CTTACCTCTGAGCTCGGGTTTAAAAGCCTCCATTTGGGTCACGGCCTTGCCTGGGGCTCGTAGCCCCGGCATTGGCCTTGGGCTCCTCCGTGTACAGAGC
Y
GGGAGGGGAGGGATGCCAGGCCTGTGGGAGATGTTCCCTCGGGGGCCCCCGTCCTCTTCCCCACACTTTCCAGGCTGTCCCTCTGGCTTCAGGACCAAGT
Celera SNP ID:            hCV3189459
SNP Position Genomic:     7378
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26765):
AGCACTGGGATTCAGGCATGAATCACCACACCCAGCTGGAATGCAATTATTTTTAAAATTTTGATTATGGATATAGAACTTTGCTAATAATGTATATGTT
Y
GGGAAGTTTCTATGTAAACAATTATGTTATCTGCAAATAACCATAGGCTTGTTTCATCCCTTCCATACCCAAAATCACATTTCTGTACTCTCATACTTTT
Celera SNP ID:            hCV1003999
SNP Position Genomic:     20178
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26766):
CTTTCACCATTGCCTGCTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTCTTATTTCCAAGGTATCTATTCTGTTCCATTGGTTTATA
Y
GTCAGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCCTCCCACTTTGTTCTTTTTGCTTAGGATT
Celera SNP ID:            hCV2848650
SNP Position Genomic:     26146
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26767):
CGCAGTAGTCAAAGCGACGGGGAGGATGTGGCAAAGCAAACAAGAGGACGCGATGGGGTGAACACTTGGGAGGAAGATCAACGAGTACTGACTAGGACAC
R
GGGGACAAGGAAGAGAAAGAAATCCAGAGGACCCACAGCTTTCTGGGCTGGATGTCTGGGGGACTGTTGTTAGCATGAACAGAAGGAAGGAAGAAAGCTT
Celera SNP ID:            hCV11560549
SNP Position Genomic:     15676
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26768):
GCTTCCTCAGTGTCCACAGGTCACGCCACCTCTCTTCTTGTCACCGACGCTTCCTCAGTATCCACAGGTGACACCACCCCTCTTCCTGTCACCGACACTA
M
CTCAGCATCCACAGGTGACACCACCCCTCTTCATGTCACCGACGCTTCCTCAGTATCCACAGGTCACGCCACCTCTCTTCCTGTCACCAGCCTTTCCTCA
Celera SNP ID:            hCV26667366
SNP Position Genomic:     30179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26769):
AGGCAGGGCAGGCCATTTTCCAAAGCAATTCGAGCTAAGGAGACAGCAGCAGCAACCCTCCCTCCTGGCCCTCAGAGCTGAGGATCAACCCACAGGGGTG
Y
GGTGGAGGCTGAGAGCAGGGGTGTGGTGGAGGCTGAGAGCAGGGGTGCGGAACCCGAGTCAGCAGGGGCAGTGAGGAGGCTGCCGCAGTAGTCAAAGCGA
Celera SNP ID:            hCV1004000
SNP Position Genomic:     15492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26770):
CGCTTCCTCAGTGTCCACAGGTCACGCCACCTCTCTTCTTGTCACCGACGCTTCCTCAGTATCCACAGGTGACACCACCCCTCTTCCTGTCACCGACACT
W
ACTCAGCATCCACAGGTGACACCACCCCTCTTCATGTCACCGACGCTTCCTCAGTATCCACAGGTCACGCCACCTCTCTTCCTGTCACCAGCCTTTCCTC
Celera SNP ID:            hCV26667367
SNP Position Genomic:     30178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26771):
GTAAAGATAGGTCATACTTGAACACAGGATTTCTTACCTACAAATAACCTACTCAAGCTTAGTAGATTGAGTTATCTGCAAATTGTTTTCCTAAACAGCT
R
AATAATCAATCTATTGCAGGAGTGGCTTCAGAGGTATTGTTTAAATGATGGTGAAAGACAAATGCAATAACTGTAGTTTTGTCGTAACGAATGCTAATCT
Celera SNP ID:            hCV2950474
SNP Position Genomic:     17323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26772):
CTCACACCGGTTACAACATCAACTGTTTTATCCTCACCAAGTGGATTCAACCCAAGTGGAACAGTTTCTCAGGAGACATTCCCTTCTGGTGAAACAACCA
Y
CTCATCCCCTTCCAGTGTCAGCAATACATTCCTGGTAACATCAAAGGTGTTCAGAATGCCAATCTCCAGAGACTCTACTCTTGGAAACACAGAGGAGACA
Celera SNP ID:            hCV9712022
SNP Position Genomic:     27500
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,232|A,1047)   total(G,232|A,1047)no_pop(A,-|G,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:26773):
GACAACCTCCACAGGCTCCACTCTTGGAAACCCAGGGGAGACATCATCAGTACCTGTTACTGGAAGTCTTATGCCAGTCACCTCAGCAGCCTTAGTAACA
K
TTGATCCAGAAGGACAATCACCAGCAACTTTCTCAAGGACTTCTACTCAGGACACAACAGCTTTTTCTAAGAACCACCAGACTCAGAGCGTGGAGACCAC
Celera SNP ID:            hCV9712023
SNP Position Genomic:     27268
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:26774):
ATCAGTACCTGTTACTGGAAGTCTTATGCCAGTCACCTCAGCAGCCTTAGTAACAGTTGATCCAGAAGGACAATCACCAGCAACTTTCTCAAGGACTTCT
M
CTCAGGACACAACAGCTTTTTCTAAGAACCACCAGACTCAGAGCGTGGAGACCACCAGAGTATCTCAAATCAACACCCTCAACACCCTCACACCGGTTAC
Celera SNP ID:            hCV27497283
SNP Position Genomic:     27313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:26775):
TCAGACACTCTGTCAACAGCACTCTCCCCCAGTTCTCTACCTCCAAAAATATCCACAGCTTTCCACACCCAGCAGAGTGAAGGTGCAGAGACCACAGGAC
R
GCCTCATGAGAGGAGCTCATTCTCTCCAGGTGTGTCTCAAGAAATATTTACTCTACATGAAACAACAACATGGCCTTCCTCATTCTCCAGCAAAGGCCAC
Celera SNP ID:            hCV29195679
SNP Position Genomic:     27761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:26776):
GCCCAACACCACAGCGGCTAATGTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCT
Y
GCCTCGGCTCCCAAAGTGCTGGGATTATAGGCGTGAGCTACTGTGCCTGGCCCTACTTCATAGAGGTTTAAATGCCTTTTCACCCTTTTCCTGGAGATTC
Celera SNP ID:            hCV27453116
SNP Position Genomic:     10667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26777):
CTTGGAAACACAGAAGAGACATCAACAGCAGGAACTGAAAGTTCTACCCCAGTGACCTCAGCAGTCTCAATAACAGCTGGACAGGAAGGACAATCACGAA
M
AACTTCCTGGAGGACCTCTATCCAAGACACATCAGCTTCTTCTCAGAACCACTGGACTCGGAGCACGCAGACCACCAGGGAATCTCAAACCAGCACCCTA
Celera SNP ID:            hCV2394241
SNP Position Genomic:     26912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:26778):
TTTTTTAATTTTTAATTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCAGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAAGCTCCGCCTCCC
C
GGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGG
Celera SNP ID:            hCV26667332
SNP Position Genomic:     19310
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,7)   total(C,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26779):
ACTCTTTACCTTTATGATTTTCTTACCTCCAGGAAAGAACAGGGTCAGCTCGTCCACCCAGAGCTGGAGGGACTGTTGGGGGACCACGCCACTTCCCCAC
R
GTATCCGCATTATTATGGCGTGGCCCAGGCTTTGGCCTGGGGCCATGAACAGACTTTCAGCTTCTAGAAGCAAGTGGTCACAGGGCCTCCGTGACCCTCG
Celera SNP ID:            hCV27519842
SNP Position Genomic:     4526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:26780):
AGCCTGGGCAACAAGAAGTGAAACTCCATCTGGAAAAAAAAATGTTTAAAGGCTATGTCCAATGTTCTATAAGGGCAGGGACACACACACACAGTGTCTC
W
CACACACACACACACACACACACACACACACACACACACACAGTGTCACACATACATACTAGCAACACACAGAACGGGCATAAAGTAAGATGTATTAAGG
Celera SNP ID:            hCV26667333
SNP Position Genomic:     18666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26781):
AGGCACACTCTTGCACACTGCCAACAGGTCTGTAAATTGGCATAAGCTTTCTGCAAAGAAATTTGGCAGTCTGTATTAATAACATGAAAAATTTTATAAC
R
GCATAAACCAGCAATTCCACTGATAGAAATTTATGTTAAGGAGATGAGCTGAAATAATGTAAACAAAACATTAGACACGAAGATAGTCATCAGGGCTTTA
Celera SNP ID:            hCV26667334
SNP Position Genomic:     18127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26782):
GGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTTGAGAGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCA
Y
GCCACCATGCCTGGGTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAATGATCCACCCGC
Celera SNP ID:            hCV26667335
SNP Position Genomic:     17776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26783):
CACCTGCATCAGAATCACTCTGGACATGTGTTAAAATGCTGATGCACCCTCTGCCTTTTGAGAACCACTTTTTTTTTTTTTTTTTTTTTCAGAGAAGGGG
Y
CTTGAGCTATTGCCCAGGCTGGTCTCAAACTCCTGGCCTCAAGGAATCCTCCCGCCTCTGCCTGTCCGTGCTGGGATTTTAGGCATGAGCTACCATGCCC
Celera SNP ID:            hCV26667336
SNP Position Genomic:     17044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26784):
TTTACCTTAAATATACGTCTTTCTTACTGCTAGGCTGAGTTCCCGCCCCAGCATGTTCTGAGAAATTGAGTCAAAATAACTGAGTCTGTTGGCACCTCAT
M
GACGATTTCTTCATAGACGGTTTTTTTATTGTTGCTGTTGTTGTTGGTTTTTTGGGTTTGTTTGTTTGTTTTTTGAGACAGAGTTTCTCTCTGTCCCCCA
Celera SNP ID:            hCV11560559
SNP Position Genomic:     10365
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26785):
CTCCAATATCAACTCTTTAGGCGCAAATCTCCCAGCTCTCTGCTCCCCAAGTTTATGCGTTTGGCCAGAGTGAGAACAAGTTTCAGTTGTCTGACAATCT
S
ACGGAATCTGAAGGGCCTGACTTGCATCCTGGTGAGAGCCAAGGTCAGTTCATTCTGGCCAACACTTGAGCAGCAAGAACAAGGCTATGAGTATTTTTTA
Celera SNP ID:            hCV26667337
SNP Position Genomic:     16706
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26786):
AGGGAGCCCCGGGGCCCCGGGGAGGGTGCGGAGAAGGCTCTGGGCATTGAAGGAGATGAAGGGCACGGCTTTGGTTCTTTCAGTGAAGTAGAAAATGGAG
K
GTCACGGGGAGAGAAGAGAGAGGAGAGACCTGTTTCTCTCCAATATCAACTCTTTAGGCGCAAATCTCCCAGCTCTCTGCTCCCCAAGTTTATGCGTTTG
Celera SNP ID:            hCV26667338
SNP Position Genomic:     16568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26787):
CAGCTTCCACAGGTGACACCACCCGTCTTCCTGTCACCAACGTTTCCTCGGCATCCACAGGTCATGCCACCCCTCTTCCTGTCACCAGCACTTCCTCAGC
K
TCCACAGGTGACACCACCCCTCTTCCTGGCACCGACACTTCCTCAGTATCCACAGGTCACACCACCCCTCTTCTTGTCACCGACGCTTCGTCAGTATCCA
Celera SNP ID:            hCV26667339
SNP Position Genomic:     31674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26788):
CACCGACGCTTCCTCAGTATCCACAGGTGACACCACCCCTCTTCCTGTCACCGACACTAACTCAGCATCCACAGGTGACACCACCCCTCTTCATGTCACC
R
ACGCTTCCTCAGTATCCACAGGTCACGCCACCTCTCTTCCTGTCACCAGCCTTTCCTCAGCATCCACAGGTGACACCACGCCTCTTCCTGTCACTAGCCC
Celera SNP ID:            hCV27455116
SNP Position Genomic:     30220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26789):
AGGACAAGAACCAGCAGAGGGTCTGACACTATCAGCCTGGCGTCCCAGGCAACCGACACCTTCTCAACAGTCCCACCCACACCTCCATCGATCACATCCA
S
TGGGCTTACATCTCCACAAACCCAGACCCACACTCTGTCACCTTCAGGGTCTGGTAAAACCTTCACCACGGCCCTCATCAGCAACGCCACCCCTCTTCCT
Celera SNP ID:            hCV26667372
SNP Position Genomic:     29204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 PUTATIVE UTR 5;MISSENSE MUTATION


Context             (SEQ ID NO:26790):
CCAAAACTCTCCACAGACCCCTCTGCCCCTCTGGGAAACCCCACTGTGCTCCAGGACACTCAAAAGGAAAGGATCCCTGGACAAGAGGTCCTGCCAGGAA
M
ATCAGCCAAATTTTGGCCAACGACCAGCAAGGTGCACAGGGAAGAGCAGGGGCTGAAACTCAGAGGTCCAGCATCAGCGACGCCCTTGGCAGCCCAGGGA
Celera SNP ID:            hCV9713195
SNP Position Genomic:     9164
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26791):
AGCCCAGGCCAGAGGAAAAACACAGGGTTTCCACAAAGGAGCTGCCGCAATGAGGGTTTCCTTAAGGAACAGCCCTGGCTCTCAAGGGTTAAAGGATAAG
R
CACAGCAGACAGAGGTGGGCTAGACAAGGACAGATGGAAATTTGGTGTCTACTGGTCGCCCCAGGCAGGAATGACTCAGAAGGAAGCCTGGCCGTCCTGG
Celera SNP ID:            hCV9713196
SNP Position Genomic:     8738
SNP Source:               Celera;dbSNP
Population(Allele,Count): (C,5|T,7)      total(C,5|T,7)Caucasian(C,17|T,39)   Chinese(C,6|T,14)   Japanese(C,9|T,29)   Tfrican(T,20|C,40)    ;(C,-|T,-)   TSC_42_T(C,15|T,43)   TSC_42_C(C,17|T,39)   TSC_42_TT(T,20|C,40)   total(C,72|T,102)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26792):
TCCTGGCCTCGAGTGATCCTCCCACCTTGGCCTCCCAAAATGCTGGGATTACAGACATGAGCCACCATGCCTGGCCTCTGCCTGGGAAATAATTTTTTTT
W
AAAAAGTGGTTATGGTCAATAATATTAGCTTCTTGGTAGTCTGTGACCAGGGCAAGAGTATATGCATTTACCCCTTGGGTTTTTTACCAGATTGGCACAG
Celera SNP ID:            hCV2023415
SNP Position Genomic:     23998
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26793):
CCTCGTTTGTGTCTCCCTCCAGGGATGATGCCCGGATGGAAGGAGGAGCCACGTTCCTCCACAGGTGTCCTCCACAACAGGTGTCCTCACAACAGGTGTC
S
TAACAACAGGTGTCCTCACAACAGGTGTCCTAATACTCCCGCAGCCCCTCAGCATCTACAGGCTCACTCCCACCCTACAACCTTTCAGATAGGTGTTATC
Celera SNP ID:            hCV1004010
SNP Position Genomic:     3576
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:26794):
ACGAAAAAGAAAAGTAGAAATTTAATTTATTTTTAAGAAAGATAATGCTATAATTCAAGTTGAGAGAGTTAACCCGGCTTATAGCAGGGGTACTGTTTGC
Y
TCTTCCCATGGAGTTTAACACAGTTAATTCACCATTCTAGTCTAACCTCACCTTCCTCCTCACAAGGAAGACAGGCGGGAGCTGGAGAAGACCATTGGCT
Celera SNP ID:            hCV27455331
SNP Position Genomic:     24208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26795):
AATTCCAGAAAGTGGACTTGAAGCTGAATTCTTCCCTGAGACTTTGTCTCTCTGAGTATCATCTTGCCAACTATCTAGGAGCACTGAGGTTGAAAAAAAG
R
GTGGGAGCGGTGGCTCACACCTTTAATCCCAGTACTTTGAGAGTCTGAAGCAGGAGGATCGCTTGAGGCCGGGAGTTCGACACCAGCCTAGGCAACATAG
Celera SNP ID:            hCV2023417
SNP Position Genomic:     23278
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26796):
GTTTCTCAGGAGACATTCCCTTCTGGTGAAACAACCATCTCATCCCCTTCCAGTGTCAGCAATACATTCCTGGTAACATCAAAGGTGTTCAGAATGCCAA
Y
CTCCAGAGACTCTACTCTTGGAAACACAGAGGAGACATCACTATCTGTAAGTGGAACCATTTCTGCAATCACTTCCAAAGTTTCAACCATATGGTGGTCA
Celera SNP ID:            hCV26667378
SNP Position Genomic:     27563
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   (A,-|G,-)   (A,-|G,-)   Gaucasian(G,13|A,71)   African-American(G,12|A,72)   Asians(G,14|A,64)   total(G,39|A,207)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:26797):
CTGGAGAGGCTCTTCTCAGCAGCCCAAGCTACAGTGTGACTCAGATGATAAAAACGGCCACATCCCCATCTTCTTCACCTATGCTGGATAGACACACATC
M
CAACAAATTACAACGGCACCATCAACAAATCATTCAACAATACATTCCACAAGCACCTCTCCTCAGGAATCACCAGCTGTTTCCCAAAGGGGTCACACTC
Celera SNP ID:            hCV27455332
SNP Position Genomic:     28191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)   JBIG-allele(G,271|T,1222)   total(T,1222|G,271) 
SNP Type:                 UTR 3;SILENT MUTATION


Context             (SEQ ID NO:26798):
GTTAACTTCTTCACTCCTGAGTGTTTCCCTTTCTTTCTTCTCATCTCACCTCTGCATTAGAAAACATTTATTACATTTATAACCTGTATTTATCTGGCAT
Y
GGCTGGTTTTGCTATTAGAGGCTTATCTCTTCTTCCATATTGCTGAAATGGAGCTGTGCCACTTTTATAAAGAACTACAAAAATCTTTACTTTAAAAAAA
Celera SNP ID:            hCV3189437
SNP Position Genomic:     22488
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26799):
CATTTATTCCATTTTTAATTGTTTCTATAGTGAGTTCTGGTCTGTTACTATATCCTTCATTCTGCTTCCTTTTTCTTTTTTCTTCCTGGTCTTTCTAGTC
Y
ACCTTTTTTGCTGGCGGTTCCAGCTTTTTGCAGGGAAACTCAGTTCAGTGTCGTGACCGAGGGTCTTGCTTCCTTTCCTTTTTCAGCCTTTCAGTCAGCA
Celera SNP ID:            hCV3189438
SNP Position Genomic:     22254
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26800):
GTACCCTTTTTTGTTTCTAATAATCTTGATATCTGTGTCTTTTCTGTCTCTCTCTCTCCCTCCTCCCACACCCCCCCCCACTTTCTTTCTCTTGCCAGGT
R
TTTGTTTTATTTTCAAAGAACTAATCTTTGGCTTCATTTATTCCATTTTTAATTGTTTCTATAGTGAGTTCTGGTCTGTTACTATATCCTTCATTCTGCT
Celera SNP ID:            hCV3189439
SNP Position Genomic:     22119
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26801):
TCCACAAGCACCTCTCCTCAGGAATCACCAGCTGTTTCCCAAAGGGGTCACACTCAAGCCCCGCAGACCACACAAGAATCACAAACCACGAGGTCCGTCT
M
CCCCATGACTGACACCAAGACAGTCACCACCCCAGGTTCTTCCTTCACAGCCAGTGGGCACTCGCCCTCAGAAATTGTTCCTCAGGACGCACCCACCATA
Celera SNP ID:            hCV27511356
SNP Position Genomic:     28337
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,22|C,1475)   total(A,22|C,1475) 
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:26802):
TTCACGAAGATGGTATGTGGCTAGTGCAGGTGCTGTGAAATATTTTAAACAAAAAAAGCCAATATTTAAACATTCTGCCTGGGAAATATTTTTCTTTATT
W
AATATCTATTTTTATTATTATTATTATTATTTTTATTTTTTAAGACACAGGGTCTCGCTATCTTGCCCAGGCTGGTCTCAAACTCCTGGCCTCGAGTGAT
Celera SNP ID:            hCV26667410
SNP Position Genomic:     23814
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,7)   total(A,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26803):
GACATCACTATCTGTAAGTGGAACCATTTCTGCAATCACTTCCAAAGTTTCAACCATATGGTGGTCAGACACTCTGTCAACAGCACTCTCCCCCAGTTCT
Y
TACCTCCAAAAATATCCACAGCTTTCCACACCCAGCAGAGTGAAGGTGCAGAGACCACAGGACGGCCTCATGAGAGGAGCTCATTCTCTCCAGGTGTGTC
Celera SNP ID:            hCV11976023
SNP Position Genomic:     27697
SNP Source:               Celera;dbSNP
Population(Allele,Count): Gaucasian(A,7|G,49)   Ghinese(A,0|G,20)   Japanese(A,3|G,37)   African(A,19|G,41)      total(G,147|A,29) ;(A,-|G,-)   (G,-|A,-)   JBIC-allele(A,71|G,660)   total(G,660|A,71)   (A,-|G,-)   Gaucasian(A,7|G,49)   African-American(A,19|G,41)   Asians(A,3|G,57)   total(G,147|A,29)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:26804):
GATGGCAGAGGCTTGACAGAGCCTTCAAGGACTCAGATGTGGGGAACGTCTCTACCTCAGTGCCAACGCCAGTGCCCTCCTCGTCCCTGGATGGAGACTC
Y
TCCTCTGAGAGAATGTCTTAAAAACTATCCGTTTTACTCAATGACACACGTGTGTCTTCTCACAGTGATCTTGTCACCTTAAGGTGTCAACAGCCTTCAC
Celera SNP ID:            hCV26667340
SNP Position Genomic:     13799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26805):
TGTATGCCAAGTCTCGTTTCAGGCTCTGGAGATCACAAGAGATCAGTTATTCCAAGGGTATCTTGAGTTAGTGTCTTTCCTCATCTTGAATTCTAGGGAA
R
TACCCAGTGGACACAACCCTGGTCACAGTTGATTCTGGGCTGATACACAAATAGCATTAGCTCCCTGCCAAAGGCGGTGGGGCCAGCGGTTCAGCGTCTG
Celera SNP ID:            hCV26667341
SNP Position Genomic:     13041
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26806):
AAGGCAACAAAGGCCACAGGGCCTGGGATGTATTCCACAGATGTGTATGAAGTCACTGCTGTATGCCAAGTCTCGTTTCAGGCTCTGGAGATCACAAGAG
R
TCAGTTATTCCAAGGGTATCTTGAGTTAGTGTCTTTCCTCATCTTGAATTCTAGGGAAATACCCAGTGGACACAACCCTGGTCACAGTTGATTCTGGGCT
Celera SNP ID:            hCV26667342
SNP Position Genomic:     12982
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26807):
CTCTCCAGCCTCGGCTGAAGGCAACAAAGGCCACAGGGCCTGGGATGTATTCCACAGATGTGTATGAAGTCACTGCTGTATGCCAAGTCTCGTTTCAGGC
K
CTGGAGATCACAAGAGATCAGTTATTCCAAGGGTATCTTGAGTTAGTGTCTTTCCTCATCTTGAATTCTAGGGAAATACCCAGTGGACACAACCCTGGTC
Celera SNP ID:            hCV26667343
SNP Position Genomic:     12965
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26808):
CACCAGCACTTCCTCAGCATCCACAGGTGACACCACCCCTCTTCCTGTCACCGACACTTCCTCAGCATCCACAGGTCACGCCACCCATCTTCCTGTCACC
R
GCCTTTCCTCAGCTTCCACAGGTGACACCACCCGTCTTCCTGTCACCAACGTTTCCTCGGCATCCACAGGTCATGCCACCCCTCTTCCTGTCACCAGCAC
Celera SNP ID:            hCV26667344
SNP Position Genomic:     31564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26809):
CTTGCCTCGGCTCCCAAAGTGCTGGGATTATAGGCGTGAGCTACTGTGCCTGGCCCTACTTCATAGAGGTTTAAATGCCTTTTCACCCTTTTCCTGGAGA
Y
TCTGAAGAAGTCTCAGGAACTGGGCATTTGTGTTGCACGTGAGGCCTTGCAATGGCGGCCCTGCTTGGAGAAAGGGCACTGGCCTGGGTTGCCCGCAGCT
Celera SNP ID:            hCV27453056
SNP Position Genomic:     10765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26810):
GGACTTGAACCTGGGAGGTGGAGGTTACAGTGAGCTGAGATCGCACCACTGCACTCCTGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAA
A
GATAAAGATAAAGAAACAGGCAACGTCACCCTCTCTCCAGCCTCGGCTGAAGGCAACAAAGGCCACAGGGCCTGGGATGTATTCCACAGATGTGTATGAA
Celera SNP ID:            hCV26667345
SNP Position Genomic:     12832
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26811):
GGGACTTGAACCTGGGAGGTGGAGGTTACAGTGAGCTGAGATCGCACCACTGCACTCCTGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAA
A
AGATAAAGATAAAGAAACAGGCAACGTCACCCTCTCTCCAGCCTCGGCTGAAGGCAACAAAGGCCACAGGGCCTGGGATGTATTCCACAGATGTGTATGA
Celera SNP ID:            hCV26667346
SNP Position Genomic:     12831
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26812):
ACCGCTCTTCCTGTCACCAGCACTTCCTCAGCATCCACAGGTGACACCACCCCTCTTCCTGTCACCGACACTTCCTCAGCATCCACAGGTCACGCCACCC
M
TCTTCCTGTCACCGGCCTTTCCTCAGCTTCCACAGGTGACACCACCCGTCTTCCTGTCACCAACGTTTCCTCGGCATCCACAGGTCATGCCACCCCTCTT
Celera SNP ID:            hCV26667347
SNP Position Genomic:     31550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26813):
TGAGGATGAAACGAGACAGCATCTGGTGTAAAGTAGAAAAGGCATAAAGGGCCGGGCGCGGTGGCTCACGCTGTAATCCCAGCACTTTTGGAGGCCCAGG
Y
GGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCTTGGCCAACCCTGTCTCCACTAAAAATAAAAAATTTTGCCGGGCGTGGTGGCGAGCGCCTGTAA
Celera SNP ID:            hCV26667348
SNP Position Genomic:     9454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26814):
AGGGGCTGAAACTCAGAGGTCCAGCATCAGCGACGCCCTTGGCAGCCCAGGGAACACAGGCAACGCCTTTTGGCTCTGGAGTCTTAGGCTCTTCATCGGC
R
AACTGAGCCCAGGGGGAAGGGGCTACTATGTAGGGTTGTCATGAGGATGAAACGAGACAGCATCTGGTGTAAAGTAGAAAAGGCATAAAGGGCCGGGCGC
Celera SNP ID:            hCV26667349
SNP Position Genomic:     9312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26815):
CTATCACTGATGGACATTTGGGTTGGTTTCATGTCTTTACTATTGTAAATAGTGCTGCAGTAAACATACGTGTGCATGTATCTTTATAACAGAATGATTT
M
TATTCCTTTGGGCATATACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTT
Celera SNP ID:            hCV26667386
SNP Position Genomic:     25285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26816):
GGGGTTCGCCCTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCACCTCAGCCTCACAAAGCGCTGGGATTACAGGTGTGAGCCACCAC
K
CCTGGCCTAAACTATATATTTTTTAAAGCATAAAAACATCCTGGAAGGAAGCATTGTCTGGTAGCAAGATTATGGGTTTTGATCTTTCAACTATAAATGT
Celera SNP ID:            hCV3189440
SNP Position Genomic:     19510
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,7)   total(G,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26817):
ACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGGTTC
R
CCCTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCACCTCAGCCTCACAAAGCGCTGGGATTACAGGTGTGAGCCACCACTCCTGGCC
Celera SNP ID:            hCV3189441
SNP Position Genomic:     19417
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26818):
ATCAACTCTTTAGGCGCAAATCTCCCAGCTCTCTGCTCCCCAAGTTTATGCGTTTGGCCAGAGTGAGAACAAGTTTCAGTTGTCTGACAATCTCACGGAA
Y
CTGAAGGGCCTGACTTGCATCCTGGTGAGAGCCAAGGTCAGTTCATTCTGGCCAACACTTGAGCAGCAAGAACAAGGCTATGAGTATTTTTTAGAATAAA
Celera SNP ID:            hCV3189442
SNP Position Genomic:     16713
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26819):
AGGGCCCGGGAGCGTGGACGGTGGAGCAGGACCCGTCAGCTTCAATGAGGGTGAGGCTGGGTGGTGGCACGGGGCCGCCGGCCAGGGAGAGCACGTGGAG
S
GGGGGGCGCAATACACATCTGTCAGATTCATGAATGAATGAATGGATGGGGCCGAACTGATGAGACGCGTGAGGACTGGAGAAAATCGTTTTTGCTGTTG
Celera SNP ID:            hCV3189444
SNP Position Genomic:     16106
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26820):
CCTCTGCATGTGGCAGTCCAAGAACTTGGGGCAGGTCAGTGACCATTTCTCCATCTTTGCCTCAGCTCTCCATCCACTCGGTGGCAGTCCCAGAGCTGAA
M
AGCTCGCAGCTTCCGAGCAATGGCTCTTACCCCGAGCCCCCGGCCCTGCTACTTCCAAGGCATATAATATCACTCGGTCTCTTCAAATCTCAATTTCCCT
Celera SNP ID:            hCV3189445
SNP Position Genomic:     14110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,5)      total(A,5|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26821):
GCGACGCCCTTGGCAGCCCAGGGAACACAGGCAACGCCTTTTGGCTCTGGAGTCTTAGGCTCTTCATCGGCGAACTGAGCCCAGGGGGAAGGGGCTACTA
Y
GTAGGGTTGTCATGAGGATGAAACGAGACAGCATCTGGTGTAAAGTAGAAAAGGCATAAAGGGCCGGGCGCGGTGGCTCACGCTGTAATCCCAGCACTTT
Celera SNP ID:            hCV27456326
SNP Position Genomic:     9341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26822):
CCCTCTGCATGTGGCAGTCCAAGAACTTGGGGCAGGTCAGTGACCATTTCTCCATCTTTGCCTCAGCTCTCCATCCACTCGGTGGCAGTCCCAGAGCTGA
R
AAGCTCGCAGCTTCCGAGCAATGGCTCTTACCCCGAGCCCCCGGCCCTGCTACTTCCAAGGCATATAATATCACTCGGTCTCTTCAAATCTCAATTTCCC
Celera SNP ID:            hCV3189446
SNP Position Genomic:     14109
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26823):
GCAACAAAGGCCACAGGGCCTGGGATGTATTCCACAGATGTGTATGAAGTCACTGCTGTATGCCAAGTCTCGTTTCAGGCTCTGGAGATCACAAGAGATC
W
GTTATTCCAAGGGTATCTTGAGTTAGTGTCTTTCCTCATCTTGAATTCTAGGGAAATACCCAGTGGACACAACCCTGGTCACAGTTGATTCTGGGCTGAT
Celera SNP ID:            hCV3189448
SNP Position Genomic:     12985
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,3)      total(A,3|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26824):
TCCTCAGGACGCACCCACCATAAGTGCAGCAACAACCTTTGCCCCAGCTCCCACCGGGGATGGTCACACAACCCAGGCCCCGACCACAGCACTGCAGGCA
R
CACCCAGCAGCCATGATGCCACCCTGGGGCCCTCAGGAGGCACGTCACTTTCCAAAACAGGTGCCCTTACTCTGGCCAACTCTGTAGTGTCAACACCAGG
Celera SNP ID:            hCV27473348
SNP Position Genomic:     28516
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,135|G,1326)   total(G,1326|A,135) 
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:26825):
CGCGTCTGGGGTCTGCCATGCGTCTGCACTGAGGTTCTGCCACGCGTCTGGGGTCTGCCACGCGTCTGGGGTCTGCCACGCGTCTGGGGTCTGCCACGCG
Y
CTGCACTGAGCAGATATTCCAAGCACACCACCCCTTTCCAAAAGACGGCATACAGTGCATTTCTGTTCCTGCCCCTCACCCACATGGTTCCCCGCTTCCC
Celera SNP ID:            hCV11976033
SNP Position Genomic:     5484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:26826):
GCTCCTGCCCTGCCTCTCAGCAGGCTAAGAACAGTCGCCGAGGGAAAATATTTCTTGGGCGCATATTTGAGGAGCTTCCTGGGAGTGAGTCAGAAGGCGA
R
TGCCGTTTAAAGGCTGCAAGAGAAGCCATGCTGGTGAAGCGGACCCTTCCACCTCGGGATGTTTCAGGACTAGGCTGAGGGCAAAGGAAACTGCCACCAC
Celera SNP ID:            hCV26667350
SNP Position Genomic:     7657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26827):
ATTCTCCAGCAAAGGCCACACAACTTGGTCACAAACAGAACTGCCCTCAACATCAACAGGTGCTGCCACTAGGCTTGTCACAGGAAATCCATCTACAGGG
R
CAGCTGGCACTATTCCAAGGGTCCCCTCTAAGGTCTCAGCAATAGGGGAACCAGGAGAGCCCACCACATACTCCTCCCACAGCACAACTCTCCCAAAAAC
Celera SNP ID:            hCV16269689
SNP Position Genomic:     27943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(T,164|C,767)   total(C,767|T,164)no_pop(T,-|C,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:26828):
CTGACAGAAAAATGACCACGGGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCATCTGAGTTCAGGGGTTC
R
AGACCAACCTGGCCAACATGGTGAAACCTCGTCCCTACTAAAAATACAAAAAAAATTAGCCGGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTAGGG
Celera SNP ID:            hCV26667352
SNP Position Genomic:     4102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Gene Number:                 103
Celera Gene:                 hCG2005669 - 209000071835812
Gene Symbol:                 TNFRSF7
Protein Name:                tumor necrosis factor receptor superfamily, member 7;CD27;MGC20393;S152;T14;Tp55
Celera Genomic Axis:         GA_x5YUV32W234(6494557..6513435)
Chromosome:                  Chr12
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12263):
CACAAATTCCCTGCTTTCACCAATTAACCACTGAATTGCTATTTTTTCCTTTGGTTTTTACTTTTGGCCACATAGCTAGGTTTCTGGTTCCCCCACAGTA
GGTGTTTTCACATAAGATTAGGGTCCTCTTGGAAAGAATAGTTGCCATGTTTACAGGGTAGTTGTGGTAAGAATCTAGTTTATTTTACATGTGACTAATT
GGTCTGTGCTGCATGGTTATATACTCCTGGATTATAGATTAGAAGTCTCCGAAGTCACCTCTGTGAAAAGCAAGCTATCATTAAACATGTCTGTTTATCA
ATCAATCAATAAATAAAATATTGTTTATTTGGGGATACATGCTGAAAATCATTTTATTGATGGGGTACAAAATAAAAAAAAAAAGCAGAGACTACTGAAT
TAGAAATATACATTTTTTCAGGCACAGATGGAACATTTACAACCACATACTAGGCCATAGAGCAAATCTCAAACAAATGCCAGAGGATTCATATGTATTC
ATTTTCTACAGCTGCTACAACAAATTACCACAAACTTAGTGGTTGAAAACAACCCAAATGTATTATGTTACAGCTCTACAGGTCAGAAGTCTAAAACAGG
CCTCACCAGGCTACAATCAGTGATGGCAGGTACAGCTGCCCCTGGAGGCTGAAGGGTCAAATCCATCTCCTTGCCCCTTCCAGCTTCTAGAAGCCGCCCA
CATACTGAGGCTCATGGCCTTCTTCTTCCAACTTCAAAGTCAGCAACATCTTGATCCTTCTCATGCAGCTGCCTCTCTGGCGCTGTCTCCTCTGCCTCTT
TGCCACTTACAAGGATGCTTGTGATTACACTGGGTCTACCTGGATAATGCAGAATAATCACCCATTGCAAGGCCAACCTTGATTCCATCTGCAGCCTTAA
CTCCCCTTTGCCATATTAACATGCAGTTCAGGGGCGCAGATGTCCTCGGGGGACCAACGTGCTGCCTGCCATGCTACACAGACAGAGTGCTCGGGCCACA
ATAAATTTAAAATTAAAATAATAAACAACAAAAAGTTAAGCCCCACAGATCTGGAAAATTTGTAATGCATTTATAAATGAAATATAGGTAAAAATAAATA
ATAACGGGAAAAGCAAATCAACAATAATGAAAAAAACAATATAGCAAAGCTGATGAGATGTAGCTAAAGTAGATCTTCAAGGGAAGTTTATAGCCTTAAA
TGCATATATTAGAAAATAAGAAATTTCTAAATTAATTAAGCATCCAATACATTAGAAAAAGAATGGCAAAGTATGCCGGGTGCAGTGGCTCACATCTGTA
ATCCCAGCACTTTGAGAGGCCAAGGTAGGTGGATCACTTGAGCTCAAGAGTTCGAGACAAGCCTGACCAACATGGTGAAACCACGTCTCTACTAACAATA
CAAAAATTAGCCAGGTGTGGTGGCGCACACCTGTAATCCCAGCTACTAAGGAGGCTGAGGCAGGAGAATCACTTGACCTCAGGAGGAGGAGGTTGCAGTG
AGCCAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACAGCCTAAAAAAAATAATAATAATAACAGTGAAACAGCTACACACAAGCAAATC
AAGTTCTACCAGGCTTTCAAGGAACAGATTATCCCTATTGTATATAATCTGTATATAAAAAAATAAAAAATAGCACTTAAAAAACAAGTGGTCAAAGCAA
GGAAAATAGAATCGTGTCACAGAAACCAAGGGAAGTAATAATTCTCATGTAGGTGGAGAGCTGCCAGATCCCACATATCTCTGTTAAACTTTGCTTCCTG
GATGAGGCACTCCCTACCCCTTAAATCCCCCTATTAGGGGTATAGACACCTATATTGCACCCCAACTCTCTCCTTCATAGCAATAATGACCATTACTAAC
TAATTTTAATTTTGTTTTGTTTTTTGGGTTTTGTGAGATGAGGTCTTGCTCTATCTCCCAGGCTTGAGTGCACTGGCATGATCATGGCTCACTGCAACCT
CGACCCCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTTCCGAGTGGCTGGGACCACAGGCACGTGCCACCACACCCAGTTAATTTATTTTTATTATGTG
TAGAGACGGGGTGTCACTCTGTTGCCCAGGCTGGTCTTAAACTCCTAGGCTCAAGCAATCCTTCCGCCTCGGCCTCCCAACGTGACTGGGATTCCAGGTG
TGAGCCGCCTCACCTGGCCAATTTTACATTTGTCTTTGAGATTATATGATCGATGTCTGACTCTCACACTGGTGTGTCAACTCCGTCAGGGCAGAAACCA
CATATTTGTCTGTTTGTTTTTCATCTTTGTGCCCCATTACTTGGCTGVTTCCTAACACAAAATGAATGTGCAAAAAACGCTTGTCAAATGAATGAGGAGG
TCTAAGGGGCCTTGAGCCCTCTGACGTTTCCATTTTATAATTGTGGACAGAGCCGCTACAGCACAAAGCTGAGCTGGACCATCCAATGTTTAGCCAGTGC
CTTACGTGCTAGGAGACACTGGGAGCTGTGCTGGGCTTCTGAGGAGTGGGCAGAGGCTGGAAATACCCATAGTTGGTCAGTCTCCTGTGTCACCCAGACT
GGGGAGGTGCAGAAATGAAAATTACAGAGCTGCGAGGACCCAGAACCTCATTAATGAGCTTAACTCACTGTCCTGACCAGGTGGCCTCTCAAAGCCTTGC
TGGGAAGGAGGCTTTAAGGTGGTGGGGGCAGCAGTGCTGGTGGTGGTCATCGAAGAAAGTGGGAGTCGGGGAGGAAGCAATGGGGAGCAGGGGACAAAGA
GGGCCAGACAAACTCAGAGCTTCAGGTGATGAGACTCAGGAAGCCTAAGTCAGGAACAGTGATTGCGGACATCTTTGTCCCATAACAGAACTTCCTCCTA
AGGAAAGGTCTTGCAGAGACTGGTCCTGCTGAGCGCTTTAACAGGTTATTGATTCATAAAAATTGGAGAAAAAAGACAAAGTCTGCCACACCTAACAGCC
TTCTGTTTAGAGCTGGTTTAGAGGAAACTTTAAGCAAGTCTTGTGTCCAACAATTTGGGCCTGAGGCAGGGTACAGGTAAGGGAACAGACAGGAGACACG
GAGGCAAGAACAAGACTTTAGCTGAAAGAGAAATCAGAGCCAGAGGCAGCCACAAGAACACCCAACCTACTGGAACTCATGCAGGTGGACAGCCTGCCCA
GGACTTGCCCTGAGTGGGAAGCAAAGAGCATCTTATCTAGATTTTAAGGAGCAGGGTGCCCCTGGCTGACATCTAGGCTACAGTCACTGGGCCAGGTGGA
GGGTTGGTCAGGCCCTCTCAAAAGTCATGAGAGGCCAGGCACAGTGGCTCACGCTTGTAAWCCCAACACTTTGGGAGGCCGAGGAGGGCAGATCACTTGA
GGCCAGGAGTTTGAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGTATGGTGGCCGGTGCCTATAATCCC
AGCTACTTGGGAGGCTGATGTATAAGAATCGCTTGAACCTGGGAGGCAAAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGT
GAGAGACCCTTTCTCAAAAAAAAAAAAAAAAAAAGAACCAAAAAAAGTCATGAGAGTCCTCAGAGTTCTCAAGAAGGGCTGCTGTGGGCCTGTTTCTGGA
AAGGAAAGAAAAGCAGGGAGCTGTTGAGAAAATACCATATGTTTTTATGCCCCAGCCAGGCATGGGGGAGAGGCTGACCCCAAAAGAGAAAGTGGTTGTG
TGAGATTTCAAGGAAGATGTCAGCGGGCTGCATCCCAGGGCCTCTAGACAAAAGGAAGGGCCCAGCCAGGCATGGTGGCTCGTGCCTGTAATCCTAGCAC
TTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGCTAGGTGTTCTGGTCCAGCCTGGCCAACATGACAAAACCCCATCTCTACTAAAAATACAAAAAATAA
GCTGGGCGCGGTGGCTCTCCCCTGTAATCCCAGCCAAGGTGGGCGGATCAACTTGAGGCCAGCCTGACCAACGTGGCAAAACTCCATCTCTACTAAAAAT
ACAAAAATTAGCTGAGCGTGGTGGCACGCACCTGTCATCCCAGTTACTCRGGAGGCTGAGGCGTGAGAATGGCTTGAGCCTGGGAGACAGAGGTTGCAGT
GAGCTGAGATTGCATCATTGCACTCTAGCCTGGGTGACAGAGTGAAATGGAGGGAGGAAAAAAAAAAAAAAGGAAGGTCCCGTCCAGGGAGCCAGCCTAG
GATGGGGAAGGCTCACCAGAAGTGGATGCAAAGAGTGCTGGAGATGAGCTCATTCTATTTGCCTAGGAAAGAAAAACGTCCAGAAACCTGGCCTTCCTCC
TCTTGGCCGAGGCCCTCCAGGAAAGCCAGGCAGACCCTGCTCCTGCTCTGACCCCCTGGAGAAGTGATATGTAGAAAAGAGGAGATGGGCTTTGGCCCAG
AGGACAGCAGCGTTAGGCTAGTGAGCAGTTCCCAGTCGGTTCAAGGTTGCTAGGCTCAGCGAACTGCAAGTCCCTGTTCGACAAGTTTCTTCCTAAAGGT
CCCCAGTTCCTCATGATTCTTCTGAGGGTCTCATCCACCCTCCCAGGGCCTGCAGTCAGCTAGCCACCCCACTGCCCCATGCCTGCAGTGAAGACATTTA
CCACAACCTGGAAATGGCTGGTGACAGAAAAGTCCTCAGGGCCACAGCACTCTCTGCGGTGGGAATTCAGGTGCCTTGCCTGATGGTGACAAGGCTGGTT
TTGCATAAACAGCTCTCTGAATCACACCCARATGTGGCTTCTGACTTGAGTGGACCCCCATGAAGAGCTGCAGAGGGGGCTGGGAAAAGACAAGAGAATG
GAGAAAATGAGGAGAAAGGAAACTACAGAGTGAGATAGAGAACAKATCTGACAGGTGTGACCACAGCAGTGTGACATTTATGAACAGTGTGGAAACAACG
GCAAAGCCCCTGAATTAAAAACTTCCTGGGGAAATAAGCCACTCCACATATCGGTTGCTGAGGAAAGAGTGGAGGAGGCTGTTGACCCGTGTGTGTCCCC
ATGACTCAAAGAGGGAAAAGTCTAGCTGTTTCCAATATCCCGAAATCAGTCTTGCTGGGAGAACTGGGAAAATAAAAAAGAGATGACCCCCGTAGGAAGC
TACCTTTAATCCCAAGTGCCCAAGGCTAGGAGAGAAGATGCTCCAGGCGATCCAGGACACCAGTGACTGACACAGCCAGAGGTGGGAAAGGGGAGGATAA
AGATGGCACAAAAGTGAGGAGTGAGCAAGGGTCTGAGAGGGAAGGCCATGTGGGCAGTAGGTGGCACCCACATCAGAGACTGACATGAGGATTAAAGGAG
AGCATAGGTGATCGGTCAGAGTGTGACAGAAGAGAGGCAGCTCTACACCCCTTGCTTGCAATTCTGAGCATTCTGTAGCAAACTCGTTTGGCCATCAAAC
CAGACCTCAATTGAGACAAGGCTATTTAAGCTTCCTCCCAGTTGGTGTAAATATTCAATAGTTTTGCTGCAGAAATGTTGCGTTTGATTATGAGACTACC
CCAACTCCCCAAGGGTGTTTTGTGGTGCTGGTTTCTGTATAAACCTGAAAAATTCTGAATTCCAAAACTTATCTGACCCCCAAAGTTTCAGATAAGAGCT
TGTGGACCTGTGCTCAATTCTGGTTCTCCTTCCTTCTTTCAACTGTTGTCTGTGAAAGGAGGGATGCAGGTATGGGAGACAGGAGTCCTGCGAATTCGTC
TGTAAACTGTGGACGGGGGGGTGGGTGGGGGGGGGTAACGTGGGCACCTTTGTGCACAAGTGCATGAATAGGAGGGGTGAGCAACTGTGTGTCCATCACC
TTTTTGTCAAAGAAGCAGGAGTCAGTGGGCTACGTGCTTCATGAGCAGGAGAGGCGGAAACTAAGGAAGGCTCATGTGTTGGAGGAAGCATGTTTGAAGA
GCAGCAGGTCTCACAGAGTTTGCTCTTTAATACTCTCCCCAGCACACGGAAGGGGAAGGGGGTGGAGGTTGCTGCTATGAGAGAGAAAAAAAAAACAGCC
ACAATAGAGATTCTGCCTTCAAAGGTTGGCTTGCCACCTGAAGCAGCCACTGCCCAGGGGGTGCAAAGAAGAGACAGCAGYGCCCAGCTTGGAGGTGCTA
ACTCCAGAGGCCAGCATCAGCAACTGGGCACAGAAAGGAGCCGCCTGGGCAGGGACCATGGCACGGCCACATCCCTGGTGGCTGTGYGTTCTGGGGACCC
TGGTGGGGCTCTCAGCTACTCCAGCCCCCAAGAGCTGCCCAGAGAGGCACTACTGGGCTCAGGGAAAGCTGTGCTGCCAGATGTGTGAGCCAGGTAAGAG
GGGGCCTTGNTAAGGGCCAGGTGASTGGCGAAAGAGAGAGGACTGGGGTTAATACAGTAAATAGGCGCAGGGTGAGACTGAGCTCAAGCAAGGAGGGAAA
TCCTGCAGCTGTGGGGAGGCACCACCTTGAAGAGGGCAGAGAACCAGCCCTTCTCAGGCCTTGATCCCTTACCCTCTCCTCCCAGGAACATTCCTCGTGA
AGGACTGTGACCAGCATAGAAAGRCTGCTCAGTGTGATCCTTGCATACCGGGGGTCTCCTTCTCTCCTGACCACCACACCCGGCCCCACTGTGAGAGCTG
TCGGCACTGTAACTCTGGTGAGGTGGGCAAGGGTGTGTAGGTGGGGACGATGGACAAGCATCTGGGGGAGCAAGGCTGGTGACGGGTTTGGGGGTGCAAG
GAGGATGACGGGGCCAAAGCTTTGGCCTTCTTCAAGGCTCACAGCAAGTGGAGCCAATGCTGGGAAATGCGGCACCCTAGGTGGGGCATGAATTAACGTG
GGCAGACATCTAGTATTCCAGGAAAGGGATAAATAGAATTTGAGGGATTGGTGAGAACGGGTCTATGGATAGGATCAAGACAATAAAATGAGAGAAGTGG
CTCTATGACCCCAGATTTCGGGCAAGCAACCCCCAACCAATAAACTGACTGTGTTCCCAGAGTGCACATGTGCAGGTTGGCCATTGGGAATTTGGAATAC
ATCTTTCTAAGGAAATAACAAAGCAACCCAATAGGTAACAACCTTTTTTTGCACAAAAGCCAATTTGAGAAAATGAGTATGTATGTAGCCTGTGTTTTTA
TTTTATAGTTCCAAAAAAAAAGGTTTTTTTTAAACTAAGAAGTATAATATCTGCAGTTGTGCTTATGAATGCTGTTATTATTTCTCCATCTTCGCTACAA
TTTCAGAAACTACGGCCAGTATACACTAGAATAGCAGGCTTTAAAGTGGCCCCTTTGAACAAATGTTCTCTAGCAAGACACTTTTTAGAACCAGGTAACT
GTAACTATTAAACTACCTACTTGCAAAACGTGTTTGGTGTCACTGGGTCTCTTGGTACTGGGTTTTGTTTTGTTTAGTTTAGAGACAAGGTCTAGCTCTG
TCACCCAGGCTGGAGTGCAGTGGTGCAATCATAGCTCCCCACAGCCTTGAACTCCTGGGCTCAAGCAATCTTCTAGTCTCAGCCTCTGAAAGTGCCAGGA
TTACAGGTGTGAGCTGTAGTGCCTGGTCCCGTAAAAACAAAAACAAAAACCAACACCAGATGTGGTGGCTCATGCCTATAATCCCAGCACTTGGGAGGCC
AAGGCAGAAGGGTATTTGCATATTTTGTAGAGACTTGAGCCCAGGAGCTTGAGACCAGCTGGGCAACATAGTGAGACCTTGTCTCTAAAAAAATTGGCTG
GTCATGGTAGTGCACCTGCAGTCCCAGCTACTTGGGAGGCTGAGATGGGAAGATCACTTGAGCCCAAGAGGTCCCCAAGAGGTCCAGGCTGCTCACATCA
CTGCACTCCAGCCTGGGTAACAGAGCAAAACCCTTTTTCACACACACACACACACACACACAAAAAGCCAGAGCAGTGGCTCACACTTGTAATCCCAGCA
CTTTAGGAGGCCAAGGCAGGCGGATCCCTTGAGCCCAGGAGTTTAAGAACACCCTGGGCAACATGGCAAAACCCTGTCTCTACTAAAAATACAAAAAGTT
AGCCAGGCGTGGTGGCACGAACCTGTAGTCCCAGCTACTCAGAAGGCTGAAGTGAGAAGATCACTTGAGTCCAGGAAGTGGAGGCTGCAGTGAGCCGTGA
CTGTACCACTGCACTCCAGCTTGGGAGACAGAGTGAGCAGAGTGAGACCCTGTTTCCAAAAAAAAAAAGAAAACAAAAGCTTTTCCATTGCAAATCAACC
AAAAAGGAACGTCTTTAATACACAAGAAATATTCTTCAGTCTACTTAACTTAAAAATGTAACTGTAATAGATGCTTTTCTCTTGACAGCGGCCCCGGCAG
GGTTGGAACTTTTCCTAGTCAAAACCCCCCTACTCACTCTGCAGACCCTTCCTGAAGGTCTTCGCCCCATACTGAGCCCATCTTCAGTCCCTTCACTTGT
TCCAAACTAGCCCAATCCATGACCCTTCTCTGGGAGCTCAGCCAATAGATCCCAAAGTACCACAGCAGCACCTGGCTGCAGAAGGACCCCCGGGAAATGC
AGTCAGGGGTGAGAAGATGGGTGGGCTGAATGAGCTCGGCCCTCTCTGGGCCTTAGTGCTGGCATCTATGAGATGAGGACATGCCTGAAGTCAGCCTGGA
ATTTTGAGCCCAGGTTATACCTGGTAAATAGAACTCCCAGGTCTCCGGATACTCACCACTAAAACAATAGCACCTCATTGTTTTTGTTTTGTTTTGTTTT
GTTTTTTAATTATACTTTAAGTTCTAGGGTACATGTACACAATGTGCAGGTTTGTTACATAGGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAAC
TCATCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCTCCCTCCCCACACCCCACGACAGGCCCCAGTGTGTGATGTTCCCCTTCCTGTGTCCAAG
TGTTCTCATTGTTCAATTCCCACCTACGAGTGAGAACACATTGTTTTTAACCCTCCCCAGCAGCTTCTTTAACCCCTCCATTTCCCTTTTGGCGGAGACC
CTTGTCATCACTCCTCTCTACCACCAGTGCTCTCCCCTCCTGCACTGTCCCAGGCTTCCTCATTCTTCCCTTGCAGGTCCTTATCCAWCATGGCTCACAA
TTCCTGGGAAGCCACAAGGAAACCAAATTCTAGTAGCAACTCAGAGTCAGCATTCATTAGCAGGTCACAGGGCCATAAGGATGCCAAGAAGGAATTTGTC
CCTCTCCTTGTCCTGACAAAAGGCATAAGTAGAAGAAAATTGTTAGGTTTGGTTATGACCTTTGACATTCTCTCTTTGACATCCTCCCTTTCTGCACCCC
TCTTCCACCTGTCAGGGCACCTAGGGCTCCCCGGGTCCCCACAAGTGTCTGCCCTAAGGCCCACCAGGCTTTCTTGCAGCCTGTCCCACATCTGGGTGTC
ACTGCCTTCCTCTGAATCACCCTCCTCTCAAACCAGCCGCCAGCGAGCCCAGCCCAGCCCAGCTAGTGCCCTACCACACCCGCCCCCAGGATAATTAACA
CCCAGCCACCCAGCATCGGACCTCTACACTTGAGCAAAATGTATATTTTAAAGGCAAATTCTCACGCCTRTAATCCCAGCACTTTGGGAGGCCAAGGCGG
GYGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCYAACACRGTGAAACCCCRTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCACACA
CCTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATCACTTGAACTCAGGAGGCGGAGGTTGCACTGAGCCGAGATCGTGCCACTGCACTCCAACC
TGGGCGACAAAGCAAGACTCTGTCAAAAAACAAACAAACAAAATAAAGGCTAAGTAACTGTAATCAAGTAACTATTTATTATTTATTTATTTTAGTGTAT
CCACAGGTTGTGCAGCCATCAACACTATCTAATTCTATAACATTTTCGTTACCCCAGAGAAACTTGTACCCCTTAGCAATGACTCCCCATTTCTTCCCCC
CAACCAACCCCAGCCCCAGCCCCAGCCCCTGGGAATCCCTAATATACTTTGTTTTGTTTTTTGTTGGTGGTGTTTGAGACAGGATCTCACTCTGTCACCC
AGGCTGGAGCGCAGTATCATGATCTCAGCTCACTGTAACCTCCACCTCCCGGGCTCAAGCGATCCTCCCACCTCAGCCTCCCCAGTAGCTTGGGCCTACA
GGTGTGCACCACCACACCCAGCTAATTTTTGTATTTTTTGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGAGCTCAAGCAATC
CACCCACCTCAACCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCACTGCACCTGGCTATTTTCTTTCTTTCTTTTCTTTTTTTTTTTTTTTTGAGACGG
AGTTTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACTTCCACCTCCCGGGTTCAAGCAATTCCCTGCCTCACCCGGCTA
TTTTATATTTGTTGATCTGCTGCTGGTTATGCCTGTGAGCCAAATTTGTACAAATTCTTAAGCTTTACAATCATGCGTGCCTCTCTGTACGTATATTATA
CTTTAATTAAAAGTTATTAAAGTATTGGGGCCGAGCACAGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCTGAGGCTGGTGCATCACCTGAGGTC
AGGAGTTTAATACCAGCCTGGCCAATACAGTAAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCGCACACCTGTAATCCCAGCT
ACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAACGAGCCAAGGTCACGCCATTGCACTCCAGCCTCGGCAACAAGAGCG
AGACTCCATCTCAAAAAAATAAATAAAAAATAAAAAATGTATCAGGGAGTACAAGAGAAAGTCATATAAGCTCTTTCTACTTTTCATGGTTTCTATGTCT
GAACCCATGAATCTTCCTTCTGAAAGGTCCAACTTTCTTCTTTAATAACAATAATAATGGCAAAGGCATTGGGGGACCGTGAGCAAAGGGCAGGCCTTTG
CAGGGGTGGGAATGGAAAGGGAAGCACGTCCCTAGAGGTGGGCMTGGGATGGGGGTTGGGGGATGAAGCAAGTGGACCTTGAAGGTCTCCACAGGTCTGA
GTGTCCTATGCTCCCTGGGCCTCTCYTCCCCCAGGTCTTCTCGTTCGCAACTGCACCATCACTGCCAATGCTGAGTGTGCCTGTCGCAATGGCTGGCAGT
GCAGGGACAAGGAGTGCACCGAGTGTGATCCTCTTCCAAACCCTTCGCTGACCGCTCGGTCGTCTCAGGCCCTGAGCCCACACCCTCAGCCCACCCACTT
ACCTTATGTCAGTGGTAAGTTCCAGGCAACTCTCTGTGCCATCACGTGGGGTAGCGGTGATACCCCAACCAGTACTCCCCACTCCTACCCCTAGATAAGG
TCAGCCTGTTTCTGCCTTCCCATCCCATCCAGCACCTCTCAGGCCTTCAGAKGTGCCCTATGGGGTCCCCTGCTGCTACTCATTCTGTCTCTGTTTTTCC
AGAGATGCTGGAGGCCAGGACAGCTGGGCACATGCAGACTCTGGCTGACTTCAGGCAGCTGCCTGCCCGGACTCTCTCTACCCACTGGCCACGTGAGTTT
TCTCCTTAATCCCCACCGCTAGAGAGAATGCATACACGAGGGGCCAGGAGGGAAGCCAGACAGAAAGCTCCTAGGATTAGGGATAAGAGGAGGGGAAAAA
GCAGAGTCCACTGTTTAGGAGAGGAGTTGGCCAACGGTGGCGGGTGGGATAGAATAAGGTGGGGGAAAGGGGAGAGGCAAGGTGACAGGAGGGCTGGGCT
GAGGGAGCCAAGGGCTAGACCCTCCCCTAACCCCTGTGTGTCCCCTCCTATTACAGCCCAAAGATCCCTGTGCAGCTCCGATTTTATTCGCATCCTTGTG
ATCTTCTCTGGAATGTTCCTTGTTTTCACCCTGGCCGGGGCCCTGTTCCTCCATCAACGAAGGAAATATAGATCAAGTAAGAGACAGAACACAGGCCTCC
GGTCCTGCCCCTGCACCACACCCCACTGGCTCAACCCCACTGCCCACGCCTGGAATCTCACTGAAACCCACCAGCTCCACTTCACCAGCCTTGGTCCTAC
CCCTTCTCTCCCCTTAGCTGGCGTGCTCCTGACACCCCTCCCCCAAGCGCACCCGCCTCTACCCATCTCCTTCTCCCGTCTCCCCCTGCCCCCACTGCTG
GCCAAGACTCATCGGATCTCCTTCTGCAGACAAAGGAGAAAGTCCTGTGGAGCCTGCAGAGCCTTGTCGTTACAGCTGCCCCAGGGAGGAGGAGGGCAGC
ACCATCCCCATCCAGGAGGATTACCGAAAACCGGAGCCTGCCTGCTCCCCCTGAGCCAGCACCTGCGGKAGCTGCACTACAGCCCTGGCCTCCACCCCCA
CCCCGCCGACCATCCAAGGGAGAGTGAGACCTGGCAGCCACAACTGCAGTCCCATCCTCTTGTCAGGGCCCTTTCCTGTGTACACGTGACAGAGTGCCTT
TTCGAGACTGGCAGGGACGAGGACAAATATGGATGAGGTGGAGAGTGGGAAGCAGGAGCCCAGCCAGCTGCGCCTGCGCTGCAGGAGGGCGGGGGCTCTG
GTTGTAAAACACACTTCCTGCTGCGAAAGACCCACATGCTACAAGACGGGCAAAATAAAGTGACAGATGACCACCCTGCAGCTCTCCAGCTTCCTCTCTG
AAATCCCAGTCCCAAAATCCAGTTTCCTGGCCGCCTCCTGGCTCAGGTCAGGATCTGGCAGAGGAGGTTTCTCAGCCGGTTATGTTGGGGCCTGCTTAAG
GGCGGGGGTGAGAAAGGTCCCCAGGCTACTGTGGATCCTGTGTCTGACTTCAGATCCCCTTTTCCCACAGTTATAGCTCCACTTTTTTGGGACAGGTGGG
GAGCAAAAGGGTGCAGAGGTCAGGTCTTGAAATCACCAGGRGATTTCCGGGTGAGGTGGGTGGTGAGAAAGGAAACAGCAAGCAGGGCTCTGGCAGCTGC
TGCAGACGGCTTCACACAGGGACGCGGGCTGCCATCTTGCTCTAAGTGAAAGTGAAAGAAAAGTCGGCAGCAGAGGGAACAGGGAAGAAACCTAAAGGCT
GCAGGCTGCCAGGTGTGCTTGGAGAGCCCCCTTCTTCCGCCGGGCCTCGCAAGCAGCGTAGGACTGTGGAGAAGGGCGGTGGGCAAGGAGGGAACTCGAG
AGCAGCCTCCATGGGCACACAGGAGGGCTGGTGCCTGCTGCTCTGCCTGGCTCTATCTGGAGCAGCAGAAACCAGTGAGTCTGGGAGTCGGGGAGAGCTG
GCTGGGAGAAGAGCTACTGAAGCCCCAGGGTGCCACCCTCCCCGAGATTCCAGAAGAGCAAAGGGGCCGGGGATGACCCCATCGCCTTCTAAGCCCAACG
GGAAAGGCTCAGCGGCTGGCAAAGGAAGGAACCAATAGTGTGTGTGGAGGGAGGGTGGGGACTCCACAGGGAAAATGCTAAAGAGGGGCTGCCTCTGTGG
CTGTGGTCAGGAGCCACTGTCCTACAGAGAGGGCACTGGCCTGGGAGCTGACACTTCAGAAGAGGAAAGGACTCCCCAGGTGAGGAAATCACTTGGAAGG
TGACCTTGAAGGCGGGGGAGGGGAAGGCTACCCGAAATGGGAGAAAGCAGTGCAGGCTGTCAGTGCCCCAGCAACAGTAACTGTCCAGTCTCCTCTCTCT
GCGGTGGCACTTGCTTGTTTTCTGAGAATTCCTTTGACTGAAAAGATAGTCTTTTATTCAACAGTTGGAAATGCAAGCATAAACTCCTCTGAGCAAGGCA
AATCCAGGACTTTAACTCTCACCAAGAAGTATTTGCCTGGACTAGCAGGTGCTCTCCAGAAAGCTGGTTTGGGGATGACGGGAGAATAGAGGGACACAGA
AACAGCTAGGATCTTGGATGGCAACTTTTACCCTTTGATGACTCCACAGCTTGAGGGCGGGGGCAGGAAGCAAGTGTGGAGTAGCTTTCTGGGGAAGGCG
GTGCTCACCCCAGCCTTTGTCTGCAGAGCCCCACCCAGCAGAGGGGCAGTGGCGGGCAGTGGACGTGGTCCTAGACTGYTTCCTGGYGAAGGACGGTGCG
CACCGTGGAGCTCTCGCCAGCAGTGAGGACAGGGCAAGGGCCTCCCTTGTGCTGAAGCAGGTGCCAGTGCTGGACGATGGCTCCCTGGAGGACTTCACCG
ATTTCCAAGGGGGCACACTGGCCCAAGATGACCCACCTATTATCTTTGAGGCCTCAGGTAAAAGCCTTCCACCTGTGTCCTTGGTCCTCCCGGGCTCCCT
CCACCAGGACAGCCCAGGTCCCGATTACAGCCACACATACTGCCTCCCGTTGGCCCTGGTGTTCTCACGCTAATTTGCCCTCTGTGTGTGCCCTGCTTCT
CCCCAGTGGACCTGGTCCAGATTCCCCAGGCCGAGGCCTTGCTCCATGCTGACTGCAGTGGGAAGGAGGTGACCTGTGAGATCTCCCGCTACTTTCTCCA
GATGACAGAGACCACTGTTAAGACAGCAGCTTGGTTCATGGCCAACRTGCAGGTCTCTGGAGGGGGACCTAGCATCTCCTTGGTGATGAAGACTCCCAGG
GTCACCAAGAATGAGGCGCTCTGGCACCCGACGCTGAACTTGCCACTGAGCCCCCAGGGGACTGTGCGAACTGCAGGTAAGAAAATGAAAAGCAAGGCCA
GGTGTGGTGGCTCACGCCTGTAATTCCAGAATTTTGGGATACCGAGGTCGGTGGATCACCTGAGGTCAGGAGTTTGAGATCAGCCTGGTCAACACGGTGA
AACCCCGTCTCTACTAATACCAAAATTAGCCGGGCATGGTGGCGGGTGCCTGTAATCCCAGCTACGAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCG
GAAGGCAGAGGTTGCGGTGAGCCGAGATCACACCATGGCACTTCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAGAAAAGAAAAGAA
AAGCAAGTCACAGAAAGTTTTGCTTTTCTAAAGTGGTAAGATATGGGGCACAGAAGAAGAAAGGGAACAAATCCACCTCCATCCACACTGGTCACCTCAG
GGCACCCCTAGGCCTTGGTCCTTTCTTCCTAAAAACCCCTGAGTCAGGCCAGGTGCGAAGGCCCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCA
GGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCCTCTCTACTAAAATACAGAAATTAGCCGGGCATGATGGCAGGT
GCCTGTAATCCCAGCTACTCAGGAGACTGAGACGGGAGAATCACTTGAACCTGAGAGACGGTGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGC
CTGGGCAGCTGAGTGAGACACCGTCTCAAAAACAACAACAACAACAAAAACCCTGAGTCCACAAGAGAATGCTTCGCAGCCCCTACCTGAACGTCCCCAG
GCACACAGACAACCTGTGTTATTTCCAAAATGGAGATCGTTCTCATCTCACTGGGCTGCCATGAGGAAATAAGACACATGATGCTATTCTGTACATGGGT
GCTGTCCACTGTAGTCTTATCGAGCCAAAACCCGGTTTTCTCCCAGTGAAATGCTAGGCTGCTCTGGTGCTTCAGGGGTAAAGCTCAGGGATGCATCATT
TGTTCATGATCTTATTAGTAAACCCAGTACTTGCCCTCTCCAGCTCAGCACATCCTCGAGGGCACAAGAAATTGAGAACATGATGACAGGGTTCCCCAGA
GCCCATTAATCCAATACTCTGTGCCCTGCTTCTTTGAGTCTCCAAGAAGAAACAGCCAAGTCCAGAGAAAATTAGGGGCAACCGTCCTATCCTTGGAAAA
CCCCAGAACACTCTAACCTCTCTGTGGTCCAACCTAAATCTATCCTGACCCATTAGAAAAAGGTCTTCATGTCTGTCCAGTGTCTACCATACTCCTGGCA
TGCGTAGGTATTTCTCTCTTTTTATTCCAAACCTACAAAAAAAGGTGAAATAATAATATAATGAACACCTATATACCCTACACCTAGATCCACCAGTTGT
TAACAATTTGCCACATTCTCTCTCCCCCGACTCCTCATGTGTGTATATGTGTACGTGTGTATTTTCCTCTGAACTGAGAGTAAGTTGCAGAAGATAACAC
TTGAACCCCAAACGCATGTTTGAACCCCGAAACGCATGTTTAAACCCCAAATACATCCATAGCATGTATTAGTTTACAATGAAGGACAAGGATGTAATCC
TTCATAGTTACAAAGCCATCATGTCAGAAACAAACCAAAGTGGGGAAGTAGTCTACCCGTAGCGCAGGCAATAAGGGAGTGCAGACTGTAAAATATTTCA
GAACAAAAATAAAATCAGCTAAAAGTCAGATGGCTTTATAGTCTCACCATCTCCCGACACTGGCAATTCTGAATATTATCAGTGATAAAATACTCCTCTC
TGCTAGGGCAGACTGTCCCTATCTCCCCACACGACTGCCTAGTATGCCACAGATCTTCATACTTTTAGATATTTTTTAATTGATATGATAATAGTCTCAA
CTATAAAGTCCAGGGCATGGTGGTGCACACCTGTAGTCCAGCTACTCAGGAGACTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTGAGTCCTGTCTGG
GCAACATAGAGAGCGAGACCCTCTTTTTTTTTTTTTTTTTTTAACAGTCTCATTCTGTCTCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCA
ACCTCTGCCTCCCAGGTTCAAGTGATTCTTGTGCCTCAGTCTCCCAAGTAGCTGGGATTATAGACGCCCGCCACCACACCAGCTAATTTTTGTATTTTTA
GTAGAGATGGGGTTTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCATCTCGGCCTCCCAAAGTGTTGGGATTACAGGCG
TGAGCCACTGTGCCCAACCTAAGACCCTTCTCTTTAAAAAATAATTAAATGTCTCCAAATTCAAATTTCTCCACTTGTCCCAATATTTTTTTTTTTACTG
CTTTTTCTAAGTACACAATTCAAACAAGAATCATGCAGTGCATTTAGTTGTGCTGTTCCTTGTTTTAATCTAGAACATGTTTCATAGAATTGACATTTTT
GAAGGGTCCAGGCTAGTGGTCTTGTAGAGTATCCCAACATTTAGATTTGTCTGATTGTTTTCCTCATTTCCTCATGACTGGATTTAGGTTAAGCATGTTT
GGCACAGATACTACTATCACATGCTTTTTTTTTTTTTTTTCGATATGGAGTTTTACTCTTATTGCCCAGGCTGGAGTGCAATGGCTCGATCTTGGCTCAC
CACAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCACCTGAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACGACACCCAGCTAATTTTTGTATT
TTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCCAACCTCAGGTGATCCACCCGCCTGGGCTTCCCAATACCACGTGTGTTTT
TTTGTTTTGTTTTGTTTTTTACATTTTTTTTGAGACGGAGTTTCACTCGTCGCCCAGACTGGAGTGCAATGGCGCGATCTTGGCTCACTGCAACCTCCAC
CTCCCGGATTCAAGCAATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGAATTACAGGCACCTGCCACCATGCCCGGCTAATTTTTGTGTTTTTAGTAGAGA
CAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCCCCCAAAGTGCTGGGATTACCGGCATGAGCCA
CCGCACCCAGCCACCACGTACTTTTTAAACTATTGTTTCTAGTCTTCACAGCATCCTTGCTTAAGCAGGTGAGCTTGGTAACACCAAGTGACTTGTCAAA
GGTCACGGAGCCAGTAAGTGGAACAACCAGGGTTTCAGAGCTTTTTCTGCTACTCTAGTAGTTCTTACCTGAAGATTGATGGTAACTCTTAATTTTGCAT
GTGTATTTTTCCTGGTGGGAGATCCATAGCTTTCACTAAATTATCCTAGAGTAAGTGATCCCAAAATGGTGATGGCCATCATGTGTACCATGCTACCTTT
CCAGAGCCCCATTTCTTTGTGGTTCCATGTGATGGAAAATAAGCTCAACCGGCCTGTCAGGCGAGGAAGAGGCAGGTGTATGCCCACAACATGCCCACAG
CTTGGAGATCAGGTGACCTCAAGGAGGAAGTAGCCCACAAATCACCCCTCTTTTCCTCTTCACAGTGGAGTTCCAGGTGATGACACAGACCCAATCCCTG
AGCTTCCTGCTGGGGTCCTCAGCCTCCTTGGACTGTGGCTTCTCCATGGCACCGGGCTTGGACCTCATCAGTGTGGAGTGGCGACTGCAGCACAAGGGCA
GGGGTCAGTTGGTGTACAGCTGGACCGCAGGGCAGGGGCAGGCTGTGCGGAAGGGCGCTACCCTGGAGCCTGCACAACTGGGCATGGCCAGGGATGCCTC
CCTCACCCTGCCCGGCCTCACTATACAGGACGAGGGGACCTACATTTGCCAGATCACCACCTCTCTGTACCGAGCTCA


SNP Information

Context             (SEQ ID NO:26829):
GATCGATGTCTGACTCTCACACTGGTGTGTCAACTCCGTCAGGGCAGAAACCACATATTTGTCTGTTTGTTTTTCATCTTTGTGCCCCATTACTTGGCTG
V
TTCCTAACACAAAATGAATGTGCAAAAAACGCTTGTCAAATGAATGAGGAGGTCTAAGGGGCCTTGAGCCCTCTGACGTTTCCATTTTATAATTGTGGAC
Celera SNP ID:            hCV1249864
SNP Position Genomic:     2348
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(C,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:26830):
CCCCCAAGAGCTGCCCAGAGAGGCACTACTGGGCTCAGGGAAAGCTGTGCTGCCAGATGTGTGAGCCAGGTAAGAGGGGGCCTTGGTAAGGGCCAGGTGA
S
TGGCGAAAGAGAGAGGACTGGGGTTAATACAGTAAATAGGCGCAGGGTGAGACTGAGCTCAAGCAAGGAGGGAAATCCTGCAGCTGTGGGGAGGCACCAC
Celera SNP ID:            hCV25473705
SNP Position Genomic:     6425
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,33)   caucasian(C,8|G,32)   total(C,13|G,65)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,33)   caucasian(C,6|G,30)   total(C,11|G,63)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26831):
TTCTGGGGAAGGCGGTGCTCACCCCAGCCTTTGTCTGCAGAGCCCCACCCAGCAGAGGGGCAGTGGCGGGCAGTGGACGTGGTCCTAGACTGCTTCCTGG
Y
GAAGGACGGTGCGCACCGTGGAGCTCTCGCCAGCAGTGAGGACAGGGCAAGGGCCTCCCTTGTGCTGAAGCAGGTGCCAGTGCTGGACGATGGCTCCCTG
Celera SNP ID:            hCV12029086
SNP Position Genomic:     14287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:26832):
CCTACCACACCCGCCCCCAGGATAATTAACACCCAGCCACCCAGCATCGGACCTCTACACTTGAGCAAAATGTATATTTTAAAGGCAAATTCTCACGCCT
R
TAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAATA
Celera SNP ID:            hCV2981230
SNP Position Genomic:     9670
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26833):
GAGTAGCTTTCTGGGGAAGGCGGTGCTCACCCCAGCCTTTGTCTGCAGAGCCCCACCCAGCAGAGGGGCAGTGGCGGGCAGTGGACGTGGTCCTAGACTG
Y
TTCCTGGCGAAGGACGGTGCGCACCGTGGAGCTCTCGCCAGCAGTGAGGACAGGGCAAGGGCCTCCCTTGTGCTGAAGCAGGTGCCAGTGCTGGACGATG
Celera SNP ID:            hCV12029087
SNP Position Genomic:     14279
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   (C,-|T,-)   Caucasian(C,7|T,77)   Asians(T,84)   total(C,7|T,161)    
SNP Type:                 UTR 5;SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:26834):
CCTGGCTGACATCTAGGCTACAGTCACTGGGCCAGGTGGAGGGTTGGTCAGGCCCTCTCAAAAGTCATGAGAGGCCAGGCACAGTGGCTCACGCTTGTAA
W
CCCAACACTTTGGGAGGCCGAGGAGGGCAGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACA
Celera SNP ID:            hCV26956518
SNP Position Genomic:     3361
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,9)      total(A,2|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:26835):
AATAACAATAATAATGGCAAAGGCATTGGGGGACCGTGAGCAAAGGGCAGGCCTTTGCAGGGGTGGGAATGGAAAGGGAAGCACGTCCCTAGAGGTGGGC
M
TGGGATGGGGGTTGGGGGATGAAGCAAGTGGACCTTGAAGGTCTCCACAGGTCTGAGTGTCCTATGCTCCCTGGGCCTCTCTTCCCCCAGGTCTTCTCGT
Celera SNP ID:            hCV25473001
SNP Position Genomic:     11244
SNP Source:               Applera
Population(Allele,Count): african american(C,14)   caucasian(A,5|C,25)   total(A,5|C,39)
SNP Type:                 INTRON


Context             (SEQ ID NO:26836):
TGCTGACTGCAGTGGGAAGGAGGTGACCTGTGAGATCTCCCGCTACTTTCTCCAGATGACAGAGACCACTGTTAAGACAGCAGCTTGGTTCATGGCCAAC
R
TGCAGGTCTCTGGAGGGGGACCTAGCATCTCCTTGGTGATGAAGACTCCCAGGGTCACCAAGAATGAGGCGCTCTGGCACCCGACGCTGAACTTGCCACT
Celera SNP ID:            hCV2981224
SNP Position Genomic:     14747
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,23)   caucasian(A,15|G,23)   total(A,28|G,46)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(A,116|G,190)   Chinese(A,15|G,45)   Japanese(A,4|G,14)   African(A,41|G,59)   (G,2|A,7)      total(G,2|A,7) ;(G,-|A,-)   (A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26837):
GTTACAGCTGCCCCAGGGAGGAGGAGGGCAGCACCATCCCCATCCAGGAGGATTACCGAAAACCGGAGCCTGCCTGCTCCCCCTGAGCCAGCACCTGCGG
K
AGCTGCACTACAGCCCTGGCCTCCACCCCCACCCCGCCGACCATCCAAGGGAGAGTGAGACCTGGCAGCCACAACTGCAGTCCCATCCTCTTGTCAGGGC
Celera SNP ID:            hCV2981226
SNP Position Genomic:     12569
SNP Source:               Applera
Population(Allele,Count): african american(G,17|T,3)   caucasian(G,9|T,5)   total(G,26|T,8)
SNP Type:                 UTR 3;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;JBIC-allele(G,363|T,380)   total(G,363|T,380)   no_pop(G,-|T,-)   (T,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:26838):
AACTTGAGGCCAGCCTGACCAACGTGGCAAAACTCCATCTCTACTAAAAATACAAAAATTAGCTGAGCGTGGTGGCACGCACCTGTCATCCCAGTTACTC
R
GGAGGCTGAGGCGTGAGAATGGCTTGAGCCTGGGAGACAGAGGTTGCAGTGAGCTGAGATTGCATCATTGCACTCTAGCCTGGGTGACAGAGTGAAATGG
Celera SNP ID:            hCV2981234
SNP Position Genomic:     4150
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:26839):
ACGTCCCTAGAGGTGGGCCTGGGATGGGGGTTGGGGGATGAAGCAAGTGGACCTTGAAGGTCTCCACAGGTCTGAGTGTCCTATGCTCCCTGGGCCTCTC
Y
TCCCCCAGGTCTTCTCGTTCGCAACTGCACCATCACTGCCAATGCTGAGTGTGCCTGTCGCAATGGCTGGCAGTGCAGGGACAAGGAGTGCACCGAGTGT
Celera SNP ID:            hCV2981227
SNP Position Genomic:     11326
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(T,40)   total(C,3|T,71)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26840):
TATTTTAAAGGCAAATTCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACAC
R
GTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCACACACCTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATCACT
Celera SNP ID:            hCV2981228
SNP Position Genomic:     9744
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26841):
CCAGCCACCCAGCATCGGACCTCTACACTTGAGCAAAATGTATATTTTAAAGGCAAATTCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGG
Y
GGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCACACACC
Celera SNP ID:            hCV2981229
SNP Position Genomic:     9702
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26842):
TTTGGCGGAGACCCTTGTCATCACTCCTCTCTACCACCAGTGCTCTCCCCTCCTGCACTGTCCCAGGCTTCCTCATTCTTCCCTTGCAGGTCCTTATCCA
W
CATGGCTCACAATTCCTGGGAAGCCACAAGGAAACCAAATTCTAGTAGCAACTCAGAGTCAGCATTCATTAGCAGGTCACAGGGCCATAAGGATGCCAAG
Celera SNP ID:            hCV15873426
SNP Position Genomic:     9188
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,531|A,960)   total(A,960|T,531) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26843):
CAAATTCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCC
R
TCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCACACACCTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATCACTTGAACTCAGGA
Celera SNP ID:            hCV27464381
SNP Position Genomic:     9755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26844):
TGTCTGACTTCAGATCCCCTTTTCCCACAGTTATAGCTCCACTTTTTTGGGACAGGTGGGGAGCAAAAGGGTGCAGAGGTCAGGTCTTGAAATCACCAGG
R
GATTTCCGGGTGAGGTGGGTGGTGAGAAAGGAAACAGCAAGCAGGGCTCTGGCAGCTGCTGCAGACGGCTTCACACAGGGACGCGGGCTGCCATCTTGCT
Celera SNP ID:            hCV27840903
SNP Position Genomic:     13141
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,14)   caucasian(G,26)   total(A,2|G,40)
SNP Type:                 TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:26845):
AATGTATATTTTAAAGGCAAATTCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTCAGGAGATTGAGACCATCCTGGC
Y
AACACAGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCACACACCTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGA
Celera SNP ID:            hCV27466247
SNP Position Genomic:     9738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26846):
ACCTTGAAGAGGGCAGAGAACCAGCCCTTCTCAGGCCTTGATCCCTTACCCTCTCCTCCCAGGAACATTCCTCGTGAAGGACTGTGACCAGCATAGAAAG
R
CTGCTCAGTGTGATCCTTGCATACCGGGGGTCTCCTTCTCTCCTGACCACCACACCCGGCCCCACTGTGAGAGCTGTCGGCACTGTAACTCTGGTGAGGT
Celera SNP ID:            hCV590601
SNP Position Genomic:     6624
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,8|G,32)   total(A,16|G,62)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(A,-|G,-)   Caucasian(A,24|G,60)   African-American(A,10|G,74)   Asians(G,82)   total(G,216|A,34)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26847):
TAGCGGTGATACCCCAACCAGTACTCCCCACTCCTACCCCTAGATAAGGTCAGCCTGTTTCTGCCTTCCCATCCCATCCAGCACCTCTCAGGCCTTCAGA
K
GTGCCCTATGGGGTCCCCTGCTGCTACTCATTCTGTCTCTGTTTTTCCAGAGATGCTGGAGGCCAGGACAGCTGGGCACATGCAGACTCTGGCTGACTTC
Celera SNP ID:            hCV25603943
SNP Position Genomic:     11652
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(T,40)   total(G,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:26848):
CCCGCAGGTGCTGGCTCAGGGGGAGCAGGCAGGCTCCGGTTTTCGGTAATCCTCCTGGATGGGGATGGTGCTGCCCTCCTCCTCCCTGGGGCAGCTGTAA
N
GACAAGGCTCTGCAGGCTCCACAGGACTTTCTCCTTTGTCTGCAGAAGGAGATCCGATGAGTCTTGGCCAGCAGTGGGGGCAGGGGGAGACGGGAGAAGG
Celera SNP ID:            hCV16248281
SNP Position Genomic:     6410
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,19)   total(A,1|G,51)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26849):
GCTTGGAGGTGCTAACTCCAGAGGCCAGCATCAGCAACTGGGCACAGAAAGGAGCCGCCTGGGCAGGGACCATGGCACGGCCACATCCCTGGTGGCTGTG
Y
GTTCTGGGGACCCTGGTGGGGCTCTCAGCTACTCCAGCCCCCAAGAGCTGCCCAGAGAGGCACTACTGGGCTCAGGGAAAGCTGTGCTGCCAGATGTGTG
Celera SNP ID:            hCV25603944
SNP Position Genomic:     6287
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:26850):
CTTGAGTGGACCCCCATGAAGAGCTGCAGAGGGGGCTGGGAAAAGACAAGAGAATGGAGAAAATGAGGAGAAAGGAAACTACAGAGTGAGATAGAGAACA
K
ATCTGACAGGTGTGACCACAGCAGTGTGACATTTATGAACAGTGTGGAAACAACGGCAAAGCCCCTGAATTAAAAACTTCCTGGGGAAATAAGCCACTCC
Celera SNP ID:            hCV16248283
SNP Position Genomic:     4945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:26851):
AGTCCTCAGGGCCACAGCACTCTCTGCGGTGGGAATTCAGGTGCCTTGCCTGATGGTGACAAGGCTGGTTTTGCATAAACAGCTCTCTGAATCACACCCA
R
ATGTGGCTTCTGACTTGAGTGGACCCCCATGAAGAGCTGCAGAGGGGGCTGGGAAAAGACAAGAGAATGGAGAAAATGAGGAGAAAGGAAACTACAGAGT
Celera SNP ID:            hCV16248284
SNP Position Genomic:     4831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:26852):
GAGAGAAAAAAAAAACAGCCACAATAGAGATTCTGCCTTCAAAGGTTGGCTTGCCACCTGAAGCAGCCACTGCCCAGGGGGTGCAAAGAAGAGACAGCAG
Y
GCCCAGCTTGGAGGTGCTAACTCCAGAGGCCAGCATCAGCAACTGGGCACAGAAAGGAGCCGCCTGGGCAGGGACCATGGCACGGCCACATCCCTGGTGG
Celera SNP ID:            hCV25603948
SNP Position Genomic:     6181
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 UTR 5


Gene Number:                 104
Celera Gene:                 hCG2007119 - 146000219763133
Gene Symbol:                 NEB
Protein Name:                nebulin;NEM2
Celera Genomic Axis:         GA_x5YUV32W8UP(42704127..42966049)
Chromosome:                  Chr2
OMIM number:                 161650
OMIM Information:            NEBULIN;NEB


Genomic Sequence (SEQ ID NO:12264):
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGTGGTGGGGAGAGTAATTTTACAGAGCAGAAACCTCCCAAACACCACAGCCAGGTGAT
GAACAAGGCCAACATCAACAGTAGTAAGTCATGGGGATAGCAGTTACTCTTGATATGATGGGAAGAAAATGGCACTTCACCTCTGTGGTCTTCCTCCCAA
TAACTCATAACCCGAGTATTTTCTATGAGGAAAGACGTCAGACAAATTCCAATACTAGGCAACCTATAAAATACTTGGCCTGTACTCCTCAAAACTAACA
AGGTCATCAAAAATAAAGTGTGAGAAATTGCCACATTTAAAAAGACATGACAACTTAATGTAAAGTGGTATCTGAGATGGAATCTTGGAACAGAGAAAGG
GCATTGAATAAAAGCTAAGAATCTCTAAATAAACTATGCCATTTTAAAAATAATGATGTGTCAATATTGGCTTATTAATCATAACACATGTATCATACTA
ATGTAAAGTGTCAACGATGGGGAAACTGAATGGAAGGTATCTGGGAACTTTCTGTACTGTCTCCTCAGTTGTTTCTGTAAATCTAAAACTGTTCTAAAAA
ATAAAGTTTGTTAAAAAGAAAATATCCAAATTCTTGTGAATATTCTTGATCTCTTTTCTACTGATTAAAGGGTATATTAGTTATCTATTGCTGCATAACC
AATTGCCACAAACCTAGTGGTTTAAACAAGACATATTCATTGTTTCACAGTTTCTGAGTATTAGGAGTTTCGGCTTGGCTTACCTGGGTCCTCTTTAGGA
TCTCACAAGGCTGCAAAGAAGTTATTGGGTTGGTGAGGCTGTTCTCATCTGCAGGCTGGACTGGGGAAGAATCTCCTTCCCAGATTAGTCTGATTCTTGG
CAGGACCATTTCCTTGCAGCTGTATGACTGGAAGCCCAGCTTTTTACTCTCTTATTCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNCCAGCTTTTTACTCTCTTCTTCCGGGGGCTGTCCTCAGCTCCTAGAGGGCAACAGCAGTTCCTTGCCAGGTGAGCTTCCCCATCAAGG
CCACGTGGCTTCATCAAGCCAGCAAGAAGAGTCTCTTGAGCAAGTTGGCTAGCAAGATGGAGTCTTATATGTTGCATGTAACTATAGGAGTGCCATCTCA
ACAGGTTTACCAAATTCTACTGGTTAGCAGCAGGGCACAGGCACAGGATTTCACCAAAGTATGATCACCAGGAGGCAGGGATTATCATGGGGCCACATTA
CTGTCTTTTTGCCACAAGCCTTTATTCATCTAATTCACATCCATAGTCATGAAGGGAACCAGAAGAATGGAGCCATATACTGCAGGCCACATCCAGCCCC
AAAGCTCAGCAACAAATCCCAAGTCCCACACTCCAGCATTCAGTCCCACACTCGCAGCTCAAAAGCCACCAAGAAGTCTTTGGATGAGCATCTGGTTCCA
GTTCTGAAAGTCTAGGTCTATGTATATACTATACTTTGATGAAAAGTTTTTAAAAATGTTGGGCATATGTCATCAGGACCTCCTGAGGTTGTATCACAGG
CACGTCCTTAACTTTTGCAAAATAAACTTTCTAAATTTATTGAGACCTGTCTCAGATACTTTTGGGTTCATACCTTATATGTATCCTTTCTCAGGAAACT
ACTGGAGGATGTTTTCCATCAAAACAGGAAAGGTAAGCAAGAGAAAGACATGGGATCCAGGAAACCCAAGATCTAATTCAGAAGAGAGAAGAGGATAATT
CCCAGAATGAAAGACAGTGGAGGGGGCTCAAGAAAAGAACTGAGTTCCAGCCGCACAGGGAACTGATCCAGTTGGAAGAAAAGACTCCCTGAGAGATCTA
AGAAGAGGAAATGGGTAGAATTATAGAACACTACTTAATGTCTTTGAAAACACCAAGAGCAGACTTGACTTAGCCAGAAAGTTTGAGGTGTTAGTGCTAA
AAGTGTCTAGAATTATTCTGCCCAATACCATCGCCACCTGCTACATGTGGCTGTTTGAGTTTAAGTCAAATAAAAGTCTAAAAATTCAATTCTGCAGTCA
CACTAACCACATTTTGAGTGTTCAATAGCCACATGGGGCTAGTGGCTACTGTACTGGACAGTGCTGGTATAGAACATTTCAACTATTGCAGAAAGCTCTC
TCAGACACCACTTGTCTAGAAAAAAATTAAGCCAAGGAAGAAAATAAAAGAAATGGAGAAAAATACCAACTTCCAGAAAAACAAGCCCTTGTAGAGGAAA
AGAAAAATAATCATAATTTATAGGGTTCAGCTGTGAATAGCCTTTTGCTAATCATAAAAATGTAAACATTGAGTTCTGAATTATATGTGTAGAACTTTAT
TGAGGTGCAGGAGGTGAGGCTTGTGGTTTAGATGAAAGAGAATTAAAGCCTCATCTTCCCGGATAGGAGCTTAATAAATGATGCCTATGAATGAAAAATC
AGGAAGGAGCAATGTAGACATTTTGTTAAATGTGTAAAGGAATATAACAAAAGATTCAGCTAAATGAGTCCAAGTGATGTCTCCAGGGAGGGGAAAAAGG
AATAGAGGAAACAGGAAATGTTGATTTAGTAGCAAGTCTTATGAAACTTAAGCTTGATTCTTAAGCTATGTTCATATAGAGGTTGATCAAAATAATGAAA
TCAAAGTAATGACAACAAAAACTGTTACAATCCCATCTCCCCTTATCATGTCTTTTTTGGTCTCCAGGCATGACACTTCTATATTTTCATATTTAGGGAA
GCCTTATCTGAAGTTCCGATATTGGCACCTAACTGCCCTGCTTTGGTTTGTAGCCAGTTGTACAAGCTTCTAGTCAGATGCCTGCGTACTCATAAATTCT
TAGACTAACTATTGTCTGATTTTAGAAGCTTCAAGATATTTGGTATTTCAGTTAAATACAGAGTAAAGCGTGAAGCTTCCAATATAATGTAAAAAATGAT
AATAGTAAAAATAATAATAGCTAACATTTACTGAACACTTACCATGTGCAAGGCATATAATAAGAACCTACCAATAAATCAGGGTGCCAATGTACTGTCG
TTCCATAGAAGAGGTCATAGATAGGCCAGGAAAATAAAGCTGTTCTTTCATCTCTAGAGAGCATCATTCCAGATTAGAATCTGCAGAATTTAGTAAGGAG
GTGGCAGTGTTTTTCTCTAGTGTGACTAGGAGGTAAATATAAGCTGCTTGCTGGTTCACTCACCCCTGTGTAACCATGGTAGGAATATAACCAGCTCTCC
TGTGAGTCTCTTACTTCTGATGGCTTTGCAAATTATTAGGGCAACCTGCAGCAGGCCAGTTTAGCAGGGGCTTTGGGGCTTTCTTTTAGGAGGAATTTAT
CCCAAGAGATCTAAGCCAGGGTAATTTCATGTGAACTCACTCTTGCCCCACCCCCCACCCTAACTTTTTAGATGCACACTTCATTATGAATGGAGTTTGA
GGTTCTGCTCATCTGTAGCACTTCTATTTACTATCATAGTGGTTTCAAAAGTAATGTATAAAGAGTGTCTTAGTCCATTTGGTCTGCTATAACAGAAATA
ATATAAGCTGGATGGCTTATAAACAGAAATTTACTTCTCATAGTTCTAGAGGCTGGATGTCTAAGATCAGGGTGCTGGCATGGTTGGGTTCTAGTGAGGA
CTTTCTTTCAGGTTGTGGCTGGCCATCATCCCCCTGTAACTTCACATGGCAGAGAGAGTGCCAGGCAGCTCTCTGGGGCCTCTTTCATAAGTGTACTAAT
CCCATTCGTGAGGGCTCCACCCTTATGACCCAATCACTTTCCACACATCGGGGGGTAGGACTTCAACATATAAATTTTGGGGGGACACATTCAGCTCAGA
TAGTAATGATTTTTCAGTCTAATAATCCCTAAGGATATTGAGATGTGTATACATAGGAACCCTCATTCTCTGTTAGTGAAACATAAAATAGTGTAAGGAT
TTTGACTGGCAACTTGACAATATCTATCARTTTTCAAAATGTGCATATATCTTCTGCCTCAGTATTTCTATTTCTAGAAATTTACCTTACAGATACATTT
CATATAAGTATACAAAGGTAATGTACAGGGATGCTTACTGTGTGTTTTGTTTCGCATTGTTTTGCTTTATTTTGTAATAGCAAAAACCTCGAAACAACCT
AGATGTCCATTAATAATGATTAAACTATTATACTCTATCCAATCAATAGAATTATTTGTGGAAATTAGAGTAGGATATGTTTATGTGATGTTTCATAAAA
ATGTCTATTGCATATTAAGTATATCGATTTATGTCAATATCTATATTGAAAATATCTGAAACTTAAAAATGACTAAGAAGGTCAATGCTCATTTTTTACT
TTATATAATTTTGTACTCTATGTTTTTAAAGTATGGGCCTGTATTATTTTTTAATTCAACAACACATTTTAAAGCATGTAATGACTAGTAAGTCACAATT
CTAGTTTGCAGCTACCAAGTGAGTGATCTCATATTACATAAATATCCTTTGGTCATAAGACCTGTGAGAACATACAAGATGAACAGGTATAATCAGTTAA
GATGATAAAATTCTGTTAGATTTTATTTACTACCATGTGAATCATGGAGGGGGAAAAGGTACATGTATTTGAAATATGAGATTACTTTCTCAAACTCCTG
GCCTCAGACAATCTGCCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACGCCCAGCGAGATTACTTTCTAATGTTTAACTTAAAAA
AGAAAAAATATTACAATATGTTTAATCTCAAATCCATATCAAGATATAGGTGACTCACAGGGTTTTGCCTGAATACAGGAGCAACCCAGAGAAAGAGCAG
TTCTCTGTCACATAAGAGCCTGTGATTTCTGTCGCTGTGTGTAAGGACAGACAGACAGACAGATAGAATTAGATTTTAAATTAGAAAAAATACTTCAGGA
GCAAAGAAAGTGCAAGAAAGACATCAGGCAAGTTTTAAGAAAATGGTTAGATAATTTTTATGAAGGAAATGTCTTACGTTCGGATTTGCCAAATAGGGCA
TTATTTTCTCCTGATAAGTTACTGATTTCCATGTTATCTGCTCTTGCTGTTCAGAAATTGAGCCTGTTTGTGTCCGCATTCACACGTTGCTTCTGGGAGC
CAGGAGTCATCTGAGTTAATAGAAAAATCACTAACTCGGTTACATATGAGAGAGGTTCTGTATTCCTAGCAGCTTGCCTTATCTAAGGAGGGAGAAGGTG
CTAAATAGGATTTTGGTATACCCTCTTGGTTTAGTAACAGAAAAATGATGGGGTCTAATCTTTCTAATTACACCCTGTGGATATCTTATTTAGTGCCATT
GTCAAATATTTTCACCTTTAACTTCACTCATCACATTTTTAAAAATTGCTTTTGTCAACTTGATGTTTACTGGGTCTTATTCCTCAGTTTCTTTCACACT
AGCACCAGTAACTTACCTGTAGCTCACCTGGTGAACCTTACCAGAGTGAGTACATTTACCACCATGACTGGACAAATGACATGAAGAAAGCAGTCACGGA
AGGGTTAAAGCCTCTCAAAGTCATGCTTATTTTCTACTAAATTCTTTTGCATGAATATGACATTGAATGGGGCCTCAGTAAATGGGAAATTCAACCTAAA
ATTGAACTGCATAGGCTGGAAGTTAGGTAAAATTTGATTCCATTTGAATTGTTCTAAGCAAGCAATTTGTTACCCTTTATCCTTTAGTGGAATTGATGAA
CAGGTGGTTTTCAGAAGATCACTTGGTAAATTTAGCTTCTGAAATTTGAGCAACTCAAGATCTGATTGGTTGCTCTTGCCACATGATAATTCGGAGCCCA
GGCATCACGCTGGCTTTTGCCTGGGGTTCTCAGGAGGGGAGAGTTGGGAGAGGCTTTGCTGCTGAGGAAATTTATTTGGTAGATTGAAGGTAAGGCCAGT
TTATGACTTTTTCTGTAATACTCTTTCAGGAGATGCTCCACAACTTCCCTCGAAGTATTTTTCAAAGGTTTGGGCCATAACTGAGGAAATTAGTGGTAGA
AATATGGCTAGGAGAGTTTAACCCCATTGCCCTACTAAGGCCCTACTAATATCTGCTATGTACCGTGTGTGATTAGAGTCAAGTCCTTTGCTAACCAATT
TATTGCTTGACTGAATTGGCTCTCTTGTCTAACATTTTTTTGCCTTTGATATTTTTCTCTAAATATATTAGTGTGAAAAAGAAGATACGCTGCTCTACGT
TCCTATATTTATCCTGTTCTACTGGGCTTCATTTGCCTGAGGAGTGGCAGTTTCGCTAGCTTAACAAAACCAGCCACTGCAGGGTATTGGTTTACATGGC
AAACATCTTTGGATGAAGGGACAGCTGTTCCAACTCATCATCCACTTCATATCAAGAGTCTTACTCTCTGGCGTCAAACTGTAGAGGCCTTGAGAGATCC
TTTCGCTGTTTTCTGCATTAGAAGCTTAGGCTAAGGACTGACAATCCTATATGTACCTCAATCAATGCTTTACAACTTTGTTATTTTTCAGGTTTGAACG
AGAGCTACAGAAACGAAAGAAAAAGTCTGTATAAGCCAATGGTGTTCGGGAAGAAAATAACCCCATTGCCTTGAGGTTTCTTTTTTTCTTTTAAAATTTA
TTGACAGATGTATTTTTATGGGTTCCAATTTGAAGCCTAAGATATATTGCAAACAGTGGATCAGGGCAGTATGGAAAACAAGTCAGCCCTCTTAGAATTT
TGGTGCTGGGGGATAAATTTCAGCTTCTTCTGAAACCCAAGCTGACCTTTCACTAAAATTTTTGCTGGAAAATGTCTTYTCTCTAAGTGTTTGGAAGTTT
AAATTCTCTGTTCCCTGAGTCCAAACTCTCTCACTTCCTTACCTCAATTTCGTTTTACAATTTTAACTAAACTGATTATGTAGAAGTAGCAATTCCCAAC
ACTGAAGGAATAAAGAGAAAGAAATTTGAAGCTTCTGCTGTTTATACTTGTATTTTAAATGTCTTCTCTCCTTTAGCCTGCAACAATATATGAATTTGTA
CAATAGTTTAGCTTCAAATTCTATTTTTATAATGTCATAAGATAATTTCTGTGCTGGGAATAGACTCTAATATGTTTTCATTTGTATGGAATATGAAAAG
TTTGTAGGTGCCACTACTACTCTGGAAAAATGGCAGATGACGAAGACTATGAGGAGGTGGTGGAGGTAAGATTTAAAAAAAAAACACTGACAGCAAACTA
TTTTATGTAGTGACAATCAAAGCTGTGTAGGTGAATTAATCATTCGAAAAATACATTGTCTATTATAACTTCACAAAGAGTCATCATTTAAAGCATAAGA
AAGGAATATTTTATGTTCAGTTTCACTATAATTATGTGGGATTTAGAATTGACAGGAAATATCACTGTTTCCCACTTTTGCTTTTCTTTAAGCTCTCAAA
AAACCAAGTTGGAGTAAAGGCAGGTTTTAATTCGTCTTCTAAAACTGCTTTCTTCCCCACTTCCCAACCCCGATGTTCAAAGGGACAGAGAYGAAGAGAA
AGTTCTGAAAATGGAACTCTGTCTCTTAGTATCTGTATAGCAATAGAAGAAAAGATCTACTCCTTATTCTTTGCTTCAACTAGCTAATCATCTATAGGGT
AACATGGGTTAGATATTCAGAATAATCATATGTATGAAATTATATGCAGATGTGAGACTTTATACATAATACATACACATGTGCACAGACACACACATAC
AAGCAAATATAAATAAAGGCATGAAGGTCACAGCGATTGTTGGAGCCACACCTTCCTACCAACTTCATTATATTTACCCAAGTCAACAAGACTAGCTTTT
GCTTTTGAATTTTGAATAAGAACAAAGACTATAGTGGGTATCTTGAAAATTTTCCTTCCAATTATTAGTGGACATCTAACACATTTTACAAAGCTGTTAA
TCATTTATTTTATATTTATTTTACATCCTTTTGTTTTTATCATCTTACGGTTTTTCCTCACCGGCTCTTGCCTTTAGCTTCACATTCTAGAAATAAAATC
TAAAGGCTTGGAACTATAATGCACATAAATACAGTGCCATGAATCTGAATGTGCTTAATAATTACCAATTAATGATGATGATCTAAACACATGAAAATCT
CCAAATGCCTAAGGCACTTGGAGGCAGTTTTGAAAATCTGTGCTTTTTAATAAGACTGAAATTAACTGTAAGAGCTACCCAGAACCAAATTTTAGGTGGC
AGTGCCAAAATTTCTCTTTGGAAAATTATTTTAGTGACCAGTCTATATTTAGATGAAGAAAATTTTATTTATTCTACAAATAAAATAGCTTTTATTACTG
AAGGATATGAGGGAAAAAATAGAATGAATCTCGTACAATGTAACACTCAGCCTCTCTGGCTTAAATGCTGATACCACATCTTTCATGCTGATATTATCAC
TAGTGTGCATTTTACTTATGTACCTAAGGGTCAGAAATATCACTGTCAAACACTAATACAATTATAAATTAAATTGTCTTCCCTATGATAATAATGCCAG
TAACAGTTTTTACTCTCCAACTTAAATATCCCTTGTCTTTCTTAAAATAATTGTGTACCTTTGCCACTGGAAATTGTCCTTAGTGCTAGACTTGATTGAT
TCAACTAGATGTCATAAAAAAGGAGGTGGCTATTTTTAGACATCCCATCSCTACCATTTTGTTCCCATTACAGCATCTGKGTCTGACCAGCAGGTGATAA
ACGAATAGACTGCCTGCCAGAAAGTATTGAACTGAGATCTCTTTGACCTCAAAAAAGATCATGAGCATAAGAGGGTGGTGCATTCGAAAAAATGGCCAGG
GAAGATTTTAGAAAACAGAGAGGAACTAGCTTTAAAAATATGCAGAAAACAGAGAAGAACTGGCTTTAAAAATATATCTCCTTGGGATCTTGGACATCTG
AAATAAAGTTTTACTGTTCTCTCTACTCTAACTTAAACTTGAAAAGAAAGAGAGAGAAGCAAGGATGCACTATCTAATTAGTGGCRCAGCTCTAAAAAAA
GAGTGAGATTTGGCATACAAGTTAATGCCAACCATTTAAATAATGTTGCCTCTTTTATAAGCGTATTTCTAAGATGGATTTACCAATGGTGAGAGCCCAG
CAAAGGTAAAATTGAATGGTTTCCAAGGAGCTGCTTTTAAACTTGGATGCTGAGAAAATCCAAAATAGTTGTGAATCTTCCATTTTATTTTAATATTTCT
TCTGAAGCCACTGATGTTTTGTGTGACTGGAGGAATGACTCTATGTGGCGTCAGCATCAAACAATATTTTCTAGTGTCCAAATGATATTTCTCATGTGCT
GAAAAGTCACAACTGTAAAAAAGCAAATCTCTGTCCTGTCAGTGCTTGTGATTTTTGTTGCTATGTGTAACGACATACAGGCAGAATTAGATTTTAAATT
AAAACAATAGCTCAAGAGTAAAGAAAGCACAAGAATGAGGAACATTAGGCAAGTTTTAGACGATTGTTAACGCAGGTGAAATAGCACAGGCGGCCTACTG
ACAATGGTTAAGTAATTTGATGACACTTCACTGAAAAGAATGCAGGCCATTGAGGGAAATTTTGCATCTTAATGTTTTCCCTTCCCTTGAGTGCTGTATG
TTTTGGTGTTAAAGATAAGAAAAAGGAAGCATAAAGTGTTTTACATCCTTTTTTTTTTTTTTTTTTTTTTACTAAGAAATGAGCCAAGTGTTTCATCTTT
ATCCCTTTCCTCATGTGCTTGGCCTAAACGAGCCTCTCCTTCTGTTCACCCTACAGAGCAGGGTGAGGCTAAGGACAGGATTCCTCTCTCCTTACACATC
TGAAACCAAGTGTCAACCAGTTCCTTTCTGCATCTATTTATTGCTGGTGATGTCAGAAGTAGAACAAAAGTAGACTTGGTTTCAGATCCAGGCTGCAGAT
CCATCATGCAGGCCATGATGACCTCAGAGCCACTATGGCAAATTGCAGCCTACCTTTCCCACACTTTGTGATGAAGAATCTTCTCATTTTCCCCTTCATT
ACTTGGCATTTACCAGTTTTCATATTAGCACCACTCTGTTTAGGACAATCACACTATTGAAAGGGACTCACCCATCACTCCAGAAGAAACTTATTACTTA
CTAATCAGGAGGGTATAGGARTAATTGAGATGTGGATATACYTTGGGATCTTATTATTTCCATGATGCAATCCATTTAAAAATGTATTCACACTCGAGTT
TCTGTTTTAGTTTATTGTTAGTTTGCAAACAGTGAGTTTTATCACAGTTCCTCTCTGCCCAACCCACACACTCAGGATCTTCTTATTGTATTCTCTTCTC
AGCAAATTCTATCTTGGGGACCATAAGAAAAAAATTTCCATGTCCCAGTAAAGTAAAATAGCTTCTCTTGATTAAAAAACAGCCTCATACATTTTTCTCA
GCCCTCTGCATCTCTTTGTCCATTTGGATGGCATTCACTTTAGCTTTCCTGAAGTATTACAAAGTGAAGATGGGTTCCAAAATATGAACAGGCTCCCTCA
CCTACCCCTTTCCCACAGACATTCCAAATCAACCGAGCTAGTGCAGTCACCTAAGTGGTTCAGCTGAGGCAGAGGAGAGGTGGTTTCTGCTTTGGTTCTC
TTGCCAATGCCTTTGTGCTCTATTTACAGTACTACACAGAAGAAGTGGTTTACGAAGAGGTGCCGGGAGAGGTAAGGCCCAGCCCACAGCTGCATAAACT
GCATTCTCATTAAAGCAGGAAGAGCTTTCTCCTTTCTTAGACTCCCAGGGCCACAAAGATGGCAAAAGGGATTATCTGACAGAGGATCACTCACCTACCT
GTGCCCAGAAGCTGGTGTGAAAGCACAAACATTACCTGTTTGATGGATTATTTCACCTTTTTTTCCTATTCAAAAAACGCAAGATGGCAGGGGGTGGTTC
CCCCTATTTCTTCTGTGTGATATTTTTGTGTAGATGAAGCTAATTAGAATAATGTCAGTGGCTATCACCATTCTCCAACAGCAGCAGGAGGGATGGTGAC
AACAAGCCAAGGAGCCTTGGCTTTGTGATTGGCATAGGGACAAGCAGTTTTACTGTGTGGAGTTATAACTTGTAGGACACCATCTCTGCCACCAGGGATG
GTGTCTCCAGGGCTTCGTCCCTRATGATGCATTGAAATGCTACTCAGATTTTAGCACATTAGCAATTCTAAATAACCTATTACCATAAATATTCCACGTT
CAAGCTCTTTTTTTTTCAAGGTGAAATACCTCTCTCATGCTTTATTTTCTGCATGCAGCTGTTTCTCTTTGAGCATGACAAACAGTGATATGGATGGTTA
ATCCTGAAGCTTGTTCAGAGAGCCTGTGACTGCATAAAAACTAGTATCTGTAGATGCTGTAATTTGGTTAGTCTCTCACAGTCAACCATGCCTAGGTAAT
CATGGGCAGAAAACAACCTATTAGCAATGATGTGACAACACTAGAGGGGGTTTTTGTAAATGTACAATTTCCTTACTAGGTTCTCTTTTCATAATTGATG
CTAGAATTCTTTGGTACAGATGATATTAGCTGTGAAGGGAAGGATACTGTGAAATGGATTGAAGAGTTGGCTGCTTATCTTTTTTTCTTACATGCATTAT
TTTTAACCTTGGATTAGACCCAAACTTTGGGTCTTAGTGTCTTCCACTACAGCCTGCTGTAAGAAATAGTAATTTCTCACCTACTACGTAGATAGGACTG
TTGTGAGGATAATTACCCCATTATGTTGTCATCATTATTCTTGTCCACCTAAGCATTTATTAGTGTAAATGGCACTCCRGTTCACATTAATTAACTGACT
AAGCCAAGGGAATGAAAATCTCTTATAATATTGATGCGATTCATTTTTTTAAAGTTCATTATTCTTTGTCTCCTACTACAGTGGAGAATGCCTAAATCCC
TGCAGAACAAACGACCAATTTTCCCTTAGTCATTTACAAGTTAATATTAAAGTCAAGAATTTGAGCTTTGTTTGATTATCTTAACCTTTTGTTCCCCGAA
CTCAAGTTTGCTTTTACTTTACCCAGGCAACTTAAGATTTTCAACTGTTTTAAAAAAATAGTTTATTGCCAATTTCCCCCCCACTACTTTGAAGTGTTCG
AGTGTCTTTCTGCAAATGCAAACTTAAGGCAATGTTGCAAAGTAATAAGGAGTAAACTTTTTATTCCACGCAATCCCAACAATCAGCATTCAGATTTGTG
TACATAATGTGCCTTCATACGGCTACAGTGTGCCATTTCCTGCTTTGGCTTACTTTAGATATGGAGAAGTAACACCAGGAATGTATATCTGACTTGAAGT
TAGACTAATATATACTAAGATCACAGTAGCACAGTTTTTACTTTCACAACAATGTTGAACTGCATATCAAATTTTCAGACAATAACAAAAATTTATGAGA
CTACGACAACAAGGACATCTGACTATGAGCAATCAGAAACTTCCAAACCAGCTCTGGCACAGCCAGCACTGGCACAGCCAGCATCAGCAAAGCCGGTGGA
GAGGAGGAAGGTCATCCGGAAGAAAGTGGATCCTTCAAAGTTCATGACCCCCTACATTGCACACAGTCAGAAAATGCAGGATCTTTTTAGCCCAGTAAGT
TTCAAACAACTTCTGCTAACCTGGCTTGATTATTAAGAAATTACTKATCTCAACTCACTCTGTTTTGGATGCTGGCTGGATTTGTTTCTCAAACCTGTAT
GAAACAAAAACTTATTTTGCAAATTATAGGCTCTTGTGACTGTTGAATTTTCCTTTTATGTAATTCATTTATACCATTGCAGCATAAGAAAGCATTCTTA
TTGAAATCATTCCTGCAAAATAAGCATAAGGCCAATCATAAAGCATTTATTGGTATTTAATCACTATTAGCCAATCTAGAATAATGAAATCATAAATACA
GATTTAATTTAGGCCAGTTCACAGAAGCTACTTAACATATTTAAACAATGTCAGCAGAATAGCTTCTTAGTAGACTAGCTAACAGYATATAAAAAGGTAT
GTAAAGAGGTGTATAGTGAAGAAGAACATTTATTTTAAAAATCCAAGATCAGACTAAGAACTCATTTGAAATTGAGGATCTGAATGTTTGGCTATACCTT
AAAACAGTGGTTATTAACCATGGCTGCACACTGGAACCCCCTGGGAATTTTAAAACTAATGATGCTCAGGCCATTCTAGTTTAATTTGTTCAGAGTTGGG
ACTGTGCAGAAAGGTTTTTTTTTTTTTTTTTAAGAAACAGAATCTTTCTCTGTAGCCCAGGCTGGATCAAGCAATAGCTTGATCACAGCTCACTTCAGCC
CCAGACCCCTGGGCTGAAGCAATCCTCCTACCTCAGTCTCCCTAGTAGCTAGGACTACAGGAGCATGCCACCATGACTGGCTAATTAAAAAAAAATTGTA
GRATCTCCTAATTATTTTTTCATAGAGGTAGGGTCTTGCTATGTTGCCCAGGATGGTCGTAAACTCCTGGCCACAGGTGATCCTCCCACCTTGGCCCCAC
AAAACATTAGAATTATAGGCATAAGCCACCATGCCCAGCCCTGTACAAAAGGATTTTAAAAAGCTGCCCAGATGATTCTAATGTGTACCCAGGTTGAGAA
TCACTGCTCTCAATGGTCCCTGGTCCTTAGATTCCCATGCACAGTTCTGTAAGTTACACTGACTGATTCAGACAGATTCAGACACATTTCAATGGGTCTA
ATTTGTTTATTGTCCATGGTGGGCTGAGGTCTCACTGGGTGGCTTGATTGCATGTCCTCTGGAGGCTTAAAAAAATGAAATGTAGCTTAAGAGAACATTG
GATTATATAAGACTAAAGTTTATGTCAAAAGCATCCTATTGAGGTTGAGCAATACATACTCACTTTTCATTAAATGATAGCAGCTCACTGTTTGGTAAAA
TTCTAGTTCAGAGCCTTAAATAATCTAAGACAGGTTTCTAGAAACAAGATTTTCTTAACTTCTTTAGTGCTGCAGTATTCAGCAAGGATAGAATTTTTTG
TCAATATATTGCCATACATTCTTATTAATTCAGATCCCATGAACCTAGAATTTCTGATGTTCTGAACAGAATGCCAGCAAAGGTCTGTAATAGTTTTTAA
GTGGTTAGTAACCAAATCAATAGTATAATTTAGATTGTTCACTACTCCACTTAAGAGTACTCCCAAAACATTTATAATGATAAATTATGCACATTATCAT
TAAAGCAAGAATTCATTGTGTATTCAGCAGAAATAATAAAATCACATTCCTAAATTTACAGAATATAATTCAGACCTGCCATTAATTCAGCTGGTGTCTC
AGCTATCTGAACTACTGAAGTTTAGCTGCAACTTCTGAATTGAATATTTTTGCATTGTATTAGCACTCAAATCTTTTCAGAATTAACTCAATTTCTATAT
TTATTTTCTAAAATAATTGAGATTTAGGCTTTTTATGTATGCATTCAGACAAAAAAAAAGATTGAAAGAATCATTTTAGGGTATTTCCAAGACAATAGTC
TATAATAAATTTGCATTGTCTCCAAGATCCAACCATGTTTAGGAGAAGCAATTATCAAATCTATTTTAGTTTTTGCTGAGAGTTGGGGTAGGGGACAAAA
AGAAAGCTATTATAATTGATAATTGCTATAACTTGAAGGATTTTTTTTTATCAAATGGGGTGAGTATGTTGCCTGAAATTTTCACTGCTGTCTTGTTAGG
CTAATATCTGATATTCTTTTCAGAATAAATACAAGGAGAAGTTTGAGAAAACAAAAGGACAGCCATACGCCAGCACAACAGATACTCCAGAACTTCGCAG
AATCAAAAAAGTACAAGATCAACTCAGTGAGGTGGGCTGCATTGCTGAAATAAAGGAGAGGGACATTTCAAAATACACCTACTGCTGGGAATTGTGGGCT
CTAAATATGTGCTGTGAGAATGAGCAGTTGARTTACTATGAGCTAGTTCACAAATCTAGAAAAGCATGAACCATAGATCATGTTGCTGTAAATGTGAACC
CAAAGAAACTTCTAAAAGCTTGGCTTAGCAACTTAGCTTAAGAGGAGACTATGAGATGGAAGCTCCAACTCACTGTGGTTCTCCACACTGTAGCACAGTA
AGGCCAAGAAGCAGCAGGCTGGAGATCCAGCCAGGAAAGCAGACAAGCAGTAAATGCAGGTGCTTCTTTGAAGATCACATTTTTCCAGCTAAAATGCAGA
AACTATGCTTTGTGATGCAGACCTAGAGTCATTGGGGTAATGCTCTGTGGTTATAAGAAATTCCTTAATATACTCACATGTACATGCCTGTCATGAACTC
TAACTGTGCATTATTTGGGCAGGTTAAGTATCGAATGGATGGTGATGTTGCTAAGRCTATATGTCACGTAGATGAAAAAGCAAAGGATATTGAACATGCA
AAGAAAGTGTCGCAGCAAGTCAGTAAGGTAAGGCAATGATATGGATGGCTGGGGTACTCAGTAGCATGTGCATCACCTCTGCATTGTCTTATAGGAGAAA
ATTGGACAGGCCTGATCCTGCCCACCAGCCTCATGGGCAGTGTGAGTTCAATACCTGTATTCATCAAGGAGGCTGCACAGATGACTGAGTGGCCTGTAGA
ACCTATGGGTGGATGGAAGAGTCCATGCCCTGCCCAAAGAGGCAGCTGTGACTCGGCTCCAGGCTGTTGCTGCATGAAGTCCCAGTGTCACCAAAGAAGC
TGAGGAGCTAAATTTTTAATTGAAAGGAATTAGAATTTTCAATCAAAAGCTGACTATTGTAGGAAAAGTATTATAGGATGTTGGCATGGTCAATGTTTTC
CTAGTAACCCATTGGCAACCTCTGAGCAAGCATGCCTTCATGAGTCTCCCTTTGTTGTTTAAATCCTCATGCCTTTGGGTGAGACCTCAAGCCACAGATC
CTCTGCTCCTTCTGTCTAGGTTTTATACAAGCAGAACTGGGAAGACACCAAGGATAAGTACCTGCTTCCTCCTGATGCCCCTSAACTTGTCCAGGCCGTT
AAGAACACCGCCATGTTCAGCAAGGTAAGGGYCTGCTCCATTGCCACTTCTGTCTTCCTATGTCATCCCATCATATATTTCATGTAATACTTGGTGAACT
CTTGATCATCTGGAATACAATTCCCCAATCTTTTTATGAGTAGCCTTGAGACATGTGAGACTGCAGGGATAGGGCTTGGCAAAAAGGAACTGAGAGGAAA
GCTCCTAGGCAGAGTGGGGAGAGGGTCCTTTGGGAACCTGAGCAACCTGGGGGCAGAGGGGAGTGTCTGTGGAGAATAAAGGTGCTCTGGAGAACCAGCT
GAGAGAGCCACAAAGTAATATCTCAAAATTGTCTGTAGACCCTTTGGTATACTTTGGATGTCCCTGGCTATTACTCTAATTAGAGGTTTATTTTGTGCCC
CTTCTTGCAAGTGTCCTATATTGCCCTGAACTATGTGAAGTGCTTCCTGGCTCCTTACATTGTGTTAGCACTTGTAAGTGCTATTAATAAACAATGACAA
ATAATGACCAAAAAAAAAAAAAAAAAAAAAAAAAARGAAGGCAGGTAGAGTCACAGAGAAAAGTTGAAACAAAATCAGACACATCTGCCCCTCTGAAAAT
AAGAAAAAGCAGGGCATGCTATCAGTAAAAATGACTTGGGTTGGATGGAAAGTGGGAAGTTATCTGTGAATTTCATTTACCTTTGCTCTCACCTGGCCCT
TGGTTCTTTAGGTTATTAATGGATGAATTCAAAACTATGTATTTTGTGTAAACGTGACCCTACTTCCTCCTAACTTTTCACTCTTTTTTGATTTAGAAAC
TGTACACTGAAGACTGGGAAGCAGACAAAAGTTTGTTTTACCCCTATAATGATAGCCCGGAACTGAGGAGAGTTGCCCAGGCCCAGAAAGCTCTCAGTGA
TGTAAGTGAAATGCAAGTGGCACCACTTAGGTGTGCAGAGTCAGGGGAACTTGAATTACATATTCTGGCCAGATGGTCACTGCAACTCTTCTGTATAAGA
GACTAAATGTTGTATTTCAGAGGAGTATGTCTAGAATTGTTATAATTTATGATGTCTCATTTAAATTAGATATAATTTACACTTTATATTAAATATAATC
TTGTCCAGTTCCCTCTTCTTATAGGTGGCAAACCTGAATCTGGGGTCACATTAGTTAGTGGCAGAGCCCAGGCTTGTGAGCCCAAGACTAGTATTCTTCC
CATTAGAGCATGAGTCCTTCTTTCCCCTTGGCTCTGGTTGAAGTTGTTCTGTGACAACAGAATGACAATTTTTAAAAACCTATTGTAATCATAGCCACCT
TCCCAAATCTATTAAGTAAACAATGTTATGGAAGGGTTGTGCCTTACTATTCTAATCATCAAGTCCAAATTGTGGTGTGTCTCCCTTTTTCTGTGTGTGG
GACCTGACTAGTGTACTTGTTAAAACATATTTGTGGCTGGATGTGGTGACTCACCCCCTGTAATCCCAGCAGTTTGGGAGGCCAAGAGGGAGGATTGCTT
GAAGCCAGGAGTCTGGAGATCAGCCTGGGCAGTAAAGCAAGACCTCATCTCTACAAAATATATTTTTAAAAAATTAGCCAAGTGTGGGGGTGCATGCCTG
TAGTCTCAGCTACTCAGGAGGCTGAGGTAGGAGGATCACTTGAACCCAGGAGGTCGAGGCTGCAGTGAGCTATGATCAAGCCACTGCACTCCAGCCTGGG
CAACAGCGAGACCTCCATCTTAAAAACAAACAAACAAACAATGACCACACCAACAACAACTAAACAAACCAAAAACACATTTGTATAGTTATCCCACAAA
GAGCTCTTGCTATCAGAAGATACTTCAGTTAGTGAAAAATCAGTGATCCCACTTGCCGGAATTTTGGTATCCTAGACCTTGAAAACTGTATGTTAGAGGA
ACTTAAAAGGCTTAACAGAGTCCTTAGGCTTGAAACCAGCAGCAACAGCAGCAGAGAGACCCACTTGGGCCTAACACTCTCCCTTATTTTGAGGTACTTT
CTTACATGACCATTGGATTTGCGGGAGGCCATATTGAAAATCCAGACTGCTACTCCAGTCTTCAGCAGAGCACTGTATTATAAAGCGACAAGTTATTTGA
CATTCAATTGTCAGTTAGATCCCTGGAACCTCTTATACTCAATTTGGACTTAGTAAGCCAGTTCAGACTGATTGGGATTTACTTCTAATGGAATCTATGG
TCTGATCTTGCCATGAACCAAAATTATACACACCARTTTGATGGTGTCTCCAACTTTTGAGGTCTAATTTTTAAYGCCACCCTCTTCATATCACCTGCAA
GTTTAGTGGACATCTTTTTCTATTTCACTTTCTATGTAATTGGTTAAAATATAACACAGATACAGTCGTATCCTTCCACAGGTAAGTTAGGAAATAGAGA
AGGTGTAACAAAATTTTGAAGTCATCTAGCACATGATACCAATTTTATTGTGTGAGTACTTCTTGCTTCTCTTTCAAGATTAGCTTTTTGATTCTGTATC
TCACAGATTCACAATATTGTTACATGGCTGTTACCAAGTGATCAATAGTTATTTATTGGAAGTCTATTATGCATGCACACCTGGCAGGATAGAAAAGTAC
TACAAGCAGTTTTCATCCTTTCCTCTTAGAATTTATAATCAGGCTGATAAAATAAAAGTATGATATAGCAAACAACAAGAAAAAAGTTAAAAATGAAACA
AAACCCAACAGTCTAATACTTGCTACAAGACAGACAGAACACGTGTGAGTAATCAGAGAAGGCCATGTGGAGGTGGTGGTCCCGAGGGCATGGGTGGTGA
TGAAGAAAGGCATTTTGAGTAGAGGGAGCACTTGAACAAGGGGACACAGGTAAAATGAGGTCTGAGTTTTGAGGGACAAGGAAAATGAATGATGGGAGTG
CCTCATTTGGAGGGCACTTGTGAGAATGCCGGCAGCAGGACCTTGAAAGGCAGACAAAATTGCTTCGACATGGAACGGTAATAAATAAGAGGCATCATAA
GATTTTGGAGCGGAAAACAGCATGATAAAAATAGAATCTGGAGTAATTTTGATGAGCAATATGATAGATTGAGATTAGGAAATACAGGAAAAACTGGGTA
ATTTGGAGAAATCTATTTTAGTAATAATTAGGGCAAAGGAGAGGAAGAAAGGAATCTGAGGGTAATAAGTATTAATAGGCATGAATGGCATTGGATATTG
GAGCCAAAGGAGAGAAAGAAGCCCTAGAGGAGCTTCTGACTGTAGACTGGTGGTCTGGGTGAGTAGGGGCACAGCTGGTAAAGGTGCGTTAATGGAAAGA
GAAATGGAGTTGAGATGATTGAAGGAAACTTCAGATCAAGGCATCCTATGGATAAATTAGAAAGTTCCATTGCTCAGGTATGAGAACAGGGCAAGAAATT
AATATTTGAGAGTCATCAGAACAAAGTGATAGCCAAAGACATGAACATCTATGAGGGAAGCAGAAGAGTGCATGGCCAAGGGCAGAGTTTTGGAGGACAC
CCACACTTAGGACTGAACAGGAGCCAGCAAAAGGATGAGGGAACAAACAGCGAAGTTGAAAAGGAACCAGGAAATGCCATGTCATGTAAGCCTGGGAGAG
GTTTCCAAGAAGACAGTTAATCTCCTATCTCCCTTCATCTATCAAATGGAGAGATGAAGGATTACCTTCATACCATTCTAATGCTATGGACTTTGAACAA
TGAAAGTTGGCCACATGTTTTGAGCAATTACAGTAGAAGATGTAATGAAAGAGAACATACAATAATGAAGTAAAGTCTTCCCTGCTATTCCTCAAAAAGA
TGTGACAGTTAAGGCATAGCTTTTATTTTAATTGCAGACCAAGTGTGCACTCAGTATCAGATTATTGACATGCCTATTAATACTGTTGTCAGTACTATGA
ACTTCTACAATTATTGGGCACAGAGCCCTAAGCAAGCTGTTGTTTGCAGAATGCACCATGGGTAGGCACATAGATTTCTGGCTAAGGGCTTGGGCTTAGA
TGCTGTTGCTATCTCTCCTGTACTATCTTCCTGTGTCCTTCTTAATCTACTTATCATGTTTTCCTTATTAACTAAGTAGAGACAAACTACTTTGCACACA
CTAAGAGTCTTTAAGCTGATGCAGAATACTGAACTTTTTTTTTTTACTTTTTTAAAAATCAGATTATTCTCCATAACAACAGAATTCTAACTAAACAGAA
TTCTGAAGAAGGTTCCTGAGAAATTAGGACTTCTAGATCTGATTTGTCTGAAACTTCTTGGCAGGATGTCATACTTAATAAACATTTATCCTATTCAAAT
GTTGCTTTTACCCTAAGGACTTAACCAGCCATGAAAWATCCTGTTGTCCTATGCCTAAAATRAAGTCTTCAGTTTGTATTTTTTTTTTTTTTTTTTTGAG
ACAGGGTCTCACTCTCTCACCCAGGCTGGAGTGCAGTGATACAATCTTGGCTTATTGGCTTATTGCAACCTCCACCTCCCAGGCTCAAGTGATCCTCTCA
CTTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCACACCACCACACCCGGCTAATTTTTGTATTTTTGGTAGAGACAGGGTTTCACCGTATTGCCCTGGC
TGGTCTTGAACCTTTGAGCAATTCATCCGCCTTTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCACTGTGCCTTGCTTAACTTATTTAAAAGAAAT
TAAGCCAGGCTTGTTTGTGGAATTTGTGTAAATACATTTCAAAATCTGTCTTTTGTATCCCAATTGATTTGATGTCCATGAAAGCTTTTGGTATARGCAC
TAGGTAGATATTATTGGGATAAGATACAGTTAGACTTGGTTAAAGTATAAAGATGATTGGGACCTTGGGATTATTCAACTGCTTTACTTGATAAATAAGA
ACACTGCCATGAGGAAGGGAAAATAATCGTAGAAACTTCACAGTTGTGTCACGGAAGATTAGAAAGATAATTCTCCTCTTGAGACATTCCCCCATGGCCT
CAGTGTGTAAGACACACATTGAGATGTCAGTCATTGACTCTTGCTCTAGCTAGGTACTATGCAGGCCACAAGGGTTCCCAAGGATAGGACATCTTCTTTG
CCATCCCAGAGCTCACAGTCAAGAGGAAAGAGACATGTAGACAAAAAATTACAGTGTCATCTGACAACCCCTCTAAAGGAGGTAATGGCCAAGTTGAGTG
AGATCCCAGGAGAAGGTCATCACGTCTGGCTCAGGAGTCAGGGAAGGCTTGAGAGGGGAGTCATGGTGTCCTGAGCCATGGAGAGGAAACAGCGGTTTGC
AGACAGATGGGGAGAGGGAACAGCATGTACGAGGCCGTGAAGCATCTGAGGGCTTCATGTATCTGGGGATCTATGAATAGYTCTGCATTGTTGGAAACAG
GGGCCAAGTCTGGTGGAACAAAAGAACCAGAGGAATCAGAAATGAAGAGAGAAAGGAGGGCAAGAGAGAAGGATATGCATTATTTGTGGGCACCATACTT
ATTTTAAGGTGATAGAAGTCTTTTATAGGCTGAAGGGAAGGAGCTAATGAAGAAGGAGAGTTTGGGGTTGTGAGAAAGAGGAGGGATGACTGAGAGAGCT
GGGTGCAAAAGGATATGCTGGAAAGGGCAGCACCCTGGGTGCAGGAGTCATTCCCTCTGAAGGATGTTTCTCCTCTGAGCCAGGGAAGGGGTGGGAGACG
CAGGGATGAATATGGAGAAGAYAAGTGTGTAGCGTTTCTTCACTCTATGAAAGAGGAAGCTGAGAGTAAGGTGGGGTTGATTGTGGGCTTAAGGACAGTG
TTGGGGTTTTAGACTGGCCCCTGAGAGTAGGGACTAACCAGAGACTCATAATGGGCTGTGAAAGTTTCCTTGAAGACAAAATGGCATTAGTATACCATAG
GGTCATAGAGTATTGGGCACAGAGCCCCAAGCAAGCTGTTGTTCACAGAACATACCACTGGGCAGGCATGTAGATTTCAAGCTAAGTGCTGGGGTTCAGA
GTCTCCCTGCCCTGTACCTTCTTCCTGTGTCCTTCTTAACCCTACTCATCATGTTAGCATTGCCTAATCCATGGAGTTGCAGGTTTTCTTCTGTGGCATT
CAGCATCCTAGGCATAAGAACAGAGGAAGTTGGCCAGGCGCGGTGGCTCACGCYTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGACCATGAGGT
CAGGAGATCAAGCCCAGCCTGGCTAGCATGGTGAAACCCCGTCTCTACTAAAAATACAACAAATTAGCCGGGCACGGTGGCGGGTGCCTGTAGTCCCAGC
TGCTCGGGAGGCTGAGGCAGGAGAATGGCCTGAACCCRGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCTACTGCATTCCAGCCTGGGCAACATAGYG
AGACTCCGTCTCAAAAAAAAAAAAAAAAGAACAGAGGAGGTATATGGTCAAGTCGATCCAAGGCTGGGGGTTTATTGAATGTGATAAAAAGACAAGGGGT
TGGGAGTTGAAGATGCTGGTTAAGAGAATAATTGCAGTTGCAAACCATGGCATGGAAATGAATGGAAGAAAGCAGATCTAGGGCCATGAGTCTTGAGGAG
GAGGGAAGAAAATTCAGCAAAATAGAAATCACTAGCAGTACTGAGAGCAATGGTATGTAACATCTAGGACAAATTATAACATGTTACACTAAAATTTAAG
ACTTCAAATAAAGATGAAAGCATAATCGTTTTTAAAATACATCCCTGTCTTTTATTTCATCAGGTTGCCTACAAAAAAGGTCTCGCTGAACAGCAAGCTC
AATTCACGCCTCTGGCYGATCCTCCAGATATAGAATTTGCCAAGAAAGTAACCAATCAAGTGAGCAAGGTAAGTAAATAGAGCTGGGACAYTGCCGCCTC
CCTTGAAGACTCTGCTTAATAATTTCAACCATCAGAGAGGGTTACTAAAGGTGAGACTGAAGATAAAACACAAACACTAGGAGTATTTTTACATATGATC
CCCAAAGACTCTACAGCAAAAGCAATACATCCATAAACGTCAAGAACTGTGTTAATAAATGTTTAGCCAGCTTGATGACTCAGTAATTGATAAATGTGAA
AATCACCTTTTGAAAACAGAAGCCATGTYCTAATGTCACTTGACATTTTTACTTATGACAGTAATACTACAGAGTCACCAAATAACCACACACTTCCGTG
AAGAGCTGGTTTAAATTCACTGTGAAGACCTTGGATAGTTCTATCTTATCCGTCACACTTGGAAAAATAAGAATGTGTCTCAGACATAGCTTAGTTAACA
GCAGTGGGCAGTGGACCTCATAACTTTTAAGGCCCTAACAAACAGCTTAGTCTACCTATATTTAGGCAGTAAACTAGCTCTGAGGAATGTGGCTCTGATG
AGGAATGCAGAGAGACAGATGCTTAGCTGATGAATAGGCCCATGCTAAATTCCTATTTTAAATTGGTCCAAATCAGACCACTTTCTCCTGGGATACTGCT
GCTTTTAAATACTTTATCTTGCCCTCTGTGGAGATGAGTGTCAGTTTGTTCTGCTTGAATTTTGATGAAACCTCAAGATTTTTATCTTAAGCATTTTCTG
GGTAAAGTATCTAGTAGAGAAGAATGATGAAATGATATGGATAATGATGTCTATTCAGTGATGTTTATTAGTGTTTTATATTGTAGATTACCTAACTGTG
TAACTATGAGCTGTTTGGATAAAGGATCTAGTAAGTATAGTAAAATTTCACCAATAGGAATACTATCAATCTGAAATTTTGCCCAAGGCTAAGCAGAAAT
TAACTTTAGAACTGTACATAAATACATGATCCATTGAAAGTTTTGATATTGGCCAGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAA
GGTGGGTTGATCACCTGTCAGGAATTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAACAATACAAAAAATTAGCCAGGCGTGGTGGCG
GGCGCCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGATCCCGGGAAGCGGAGGTTGCAGTGAGCCAAGATTGTGCCATTACACTCC
AGTCTGGGCAACAAGTGTGAAACTGTCTCAAAAAGAGAAAAAAAGAAAAAAAAAAAGAAAGAAAGTGTTGATATTGTAAATAAGACGGGAGAAGGACAAT
TTATCTTTTTGGAAGAAAAATAAAAAGGTGTTTTCAAGTGGTCATTTAGAAAGAAAAAGGAATCTATTTTTAAATGTTTATTTAAAGTCTATTTTAAAAG
ATACTTTACTAAGGAAACATTCTTTTGCCTTATTTAAATATGCAGTGGGGATTCTTAAAAGTGATTTTTGAAAATCACTTTCAAACTCGTCTATAATCAT
TCTCTCCACCAATTTAGACTTGCCAGTTGGTTTAGTGCTACACTCTCCAGTACAGTAGACACTAGCCAAATGTGACTAGGAAGCACCTGAATTTGATCAG
TATAAACTGAGTATATAAGTCAGCTTGGGCTTCTACAACAAAATACCATACATTGGGTGGCTTAAACAATAGACGTTTATTTTCTCACAGTTCTGGAGGC
TGGGAGTCTAAGATCACGGATTCAGTTCCTGGTGAGAGACCCCTTCCTGGCTTGTAGATAGCTGCCTTCTCATTGTGTTCTCACACATTGGAGACAGAGA
GCCAGCTCTGATCTCTTCCTCTTCTTCCTCTTCTTATAAGGATGATAATCTCATTATGGGGTTCCCACCCTCATGACCTCACCTAAACTTAATTGCTTCC
CAAATCCCCTTACCTTCAAGTACCATCACATGCTTGTGAGTTAGGTCTTCAACATATGAATTTGGGGGGTGGGGATATAGACATTCATCCCATAACACTT
AGTGTCCAATATGTGAGAAATAGACACTGGATCTGAATATTTAATTATGAAGAAAAGAATGTTTCAAATTAATATTTTTATGTTGATTACATGTTGGAAT
GTTAATTTTCAGATCTACTGGGTTCAGTAAACTGTATTATTAAAGTTATTTMCCACATGTTTCCTTCTACATTTAAAAATGTGGCTACAAGAATGACTTG
CATTATATATGCATTGGATGGCACCACTCTAGGTGGGCAAGGTGACAGTGTTGGGTACTTTGAAAGCATTGCCAGAACTGGCTTTGCCCTGTGGAGTAAT
AATATGAGCTAAGGGGAGGTGGCTGTGGAAAAAGGTCACTGGATTTGGCCATGGTGACATTATTTATTCCCAGTCTTAACCCAGATTTCTGAGTTCTTAA
TGACTATTGTGCATCCAAAATAATAGTTGTRTTAGGGAGAAATGCTTGTGATTGGTAGAAGTCCACCCAACAACAAACCATCCAACAAGGGAGGCACAGG
GCTGCCAAGAGTGACTTACCTTTGGTACTATCTTCCCTCCTCACTCTCAAGATGCATTGGCCCATGTTGCAGCAGGATCATATCTTCTTTCTCCCTAAAA
TAGGATAAAAATCTCCTTTATCTACCCTAGAACTTAAAGTATAAAAAAATAAATTTTTTAAAAAACCTCCTTTATCTAGTCACTCACATGCATTTAAACT
CAATATCCCCTTGTTGAATCATGTCTCCCAGATCCATCTGTTGGGGCCAAGGGGTCCTCCTTGGCCCACTGAAGGTTGGCTGAAAAATCAGCTTGCAAAA
GGCAGATTAATTGGAGAAAAGGCATACAAATTTATTTAACATGCACACACGGGAGCCTTCAGAATGAAGCTCCAGCTCCCCAGGGGGTGCAGAAGCTTAT
ATACCATCTTGAGGTTACAGAAAGACTATGAACTTGGATCCTGGCAAAACAGGTTATGGGGAGTGGGGAGAAGAGGAATTCTGTTGAGGAGCAAGAAATG
ATTACTAGGGAGAATTCAATGGGTTTGAAGAACATACAATAGTCTGGGGTGAAGTCTGTTGGGCCCACAAAGCGAACAATGGTTTATGACAGTAGTCTGT
CCAGGTTTCTGACAGACTTTAGTCTTCCCTCCTGCAATATAGGTTCAGTTGAAAACTCAGGGAAGGGGTCAGAGGGAATTGTTTTCTTTTTTGGTAGGTT
CCGGACCTTAGACAGATAAGGAAACTTGAGCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTGCTTTGGGAGAGTTGGAGGATTGAGAGACAGGA
TGGGGGTGGGAGGTTAGCGGGGAAACAATTTTTCTTCTTAGTGGGTCTGTCTGGTCTTTATGTAGAAAGAAGTCTCTTTTAGCTTCCATTAATCTCTAAG
GGCCTTTAATTCAAAATACTCATTATACTAGGGAGCCATATTTTGGGGTGGAGTTCTCTGTTCATCCTCACACCCTTTTCTTACAGCTCCCAGTTCAGAT
GGTAATGATTGCATATCTGCAGTGATTACACTAATGTTACCTTCCGTTTGCCAGCCTTCCTTACTACACCTGTCAGAATCAATTCTCTCACCTTTGTCTT
TGGCCAAAGCCATTAGCTACATACTTCCTTCTGTCTCAGCTGTATTTTGTAGCTCTAACATAGATGAACAGTCAGAGTTGTTCATAGAAACAGGCCTTCC
AGGTGGGGAAGCTATGCACACCATGACCAGCTGAAAGTGGGGCCCTGAATGCGACACTGGAAAGTCCCTTTAGTTTCTCTGTACCTGCCTCTCTGCTCCC
TTCCAGATCCACAAAAGAAAAAATATGAGATTTCAGGTTGGAATTTCCCACTGATACCAACTGGAGCCTAAATTTTTTTTAAAAAACTAATCTTTCAGTG
ACATATTGTTACACAGCATGAGGATACCAGGCCCAGGCCCTCTAAAACCATGGARATTCTTCCATCACATAGAATTGGRAAGATTTCCATTGATTTCACC
AGAAGAGATTTGATTGAGTCAAGCAGGCAGTGTTAGGCCCACTGTGGACAATAAAAATACCAGCTGGGTTCTTTATACCTTTTCTGCAGGGATAACTTTT
CTATGAATGGAACCATCAGGAGTCCCAGTGCTTAGCCCCTCACAGAAAAAGAGAAGGGTAATTAACTGGCTTTGTATTCCTTTCCATTTGGTAACCACAT
AAAAATTACAGATTCAGATGTTGAAAGTAGATAATGAAGCTATATGTTTAAGCAAGACAAAGGGTACCCAGTTTGTGGCCCCATGGAAGTCCCCTCAGCT
GACCTCTGAGGAGGAGGGAAACAATCTTACTGTATCTATGGACACATGGTCACCCTCTTACCCAGAGAAGGTGTCCCAGAGCTTGGAATTGGCCTGACAT
ACATTCCTCTGTTAAACAAACCAAAAAAATTCTAGAGAAGTGAAACTGACTCTTTCTTCCAAGTTTCCATCGTTCAACTGCAAGTACAACAGATTTTGGA
GGAGGAAAGGTTTCCCCCTAACCTTTCTCTCCAACTCTGTTGTGTTTGGATGTTGGGAAGGTTGAATGTTGGACCCTGACGTGAGTAACCCGTCTCCATG
TATTGTACAAAAGCTCTGGCCTCACTCTCAGACTTGCAGAGTGGGACCCCTTCGCTGGTAGAGAGGGTCCCACATGGACACATACCTCTCTCTTCCTCTC
ACTCCTTCACCTATGGACCCTTGTCCTTTCAAATTCTCTCCTACTCACAAATGAGACAGAAGGCCATAACTTCCTCAGTAGCCAGCAAGCTCCAGCCTCC
TCCTGTGTCATGAAAAATCTTCCCAGACTTGGCAGTGCTCGGGAGTGGATTGTGAGAGCTCGATCTCCCACCCTGACCCATTTCAGCTGCTGGATAGGAG
GAAATAACATGTCGTGGTCTGTGAAGATTAAGAAGGAAGGAAGGACTTTGGATGAGGGGGTTGAGTGATCTTACACTCTTGTTTTGCATCTTGTTTTAAT
ATCTTCTTGAAAACCAGACATCTATCTCTCACTGTGAGAATTAATCTCCTGCTCAATTATCCTTAACAAATCTACATATGCAATGCCTATTTCTTGATAA
ATGCCCAACATTTAGACCTCATTAAGAATATCTGCTACCTTCTCAACTTTAAATTATATTTCAAAGTTCTCTGGATCTCAGTTTTGGGGATCAGGCCCAA
TTGCCCCTTCCCAATCCTAAGGTTTTTCTCCTTTGACAACAAGCAAGAGGTAGGGCCATGTCTCTCCAAAAAATGATGCATTAGGAGATCCTARCCTGAG
GTATGTGTACATCAAGAACCTCTGAAGTTATAACTGTTTGTGAGCATTTTATAGCTTTCTCAGTTTCTTGAAGAGGTCTGTCTCCAAAAAAAAGATGAGA
AACATTTCTATAAGTAGTCTTAGCAAATCCAGAAATCAATTTTATTGACTTCTGTTCTTTAAATCTTCAAAACAGAGTGCAGGTAAATCAATCAGCAGTA
TAGCACAAATCTTATCTCAGCAAAGATTTCCATTGAAGAGTTGTTCCCTCCCCGCACATACAATTTTCTTTCTTACAGAGTTTCTTTCTGTTATGATGAT
GACAATAGTAATAACTATTATTATTATTACAATTTTTATACCCTATATTTGCTTAGCACTGTGGGGTTTACAAAGCACTCTTTAGCGAATGATCTTATTA
AACTTCCTAGCAGCCTTCTCTGTAAATATTATTGCCAGCACTTGTGGCTGAGAAAACAATCATATTTGGTCAAGACAAAGTCAAGTCTTGGTCCCAGAGT
TTGAACCCAGGCCCAGGACTCTAAAATTTATAGCTACGAAAACCAGTTGGCTATTTATTTACATATTAACCTTTTGAGAAGAAAGGAAATTAGGCATTTG
AGTGAGGGCTAAGTTTCCTCTAACCCAAGCTCGTTGACTCTGCACATCACTCACCTTCTCTTAAAGGTATACCAGAAAGACATTTTCTTTTTCCTTAAAG
GGTATTGTGGGGATGTAGGCATATGCCAGYGCCTTGAGACCCATTAGTTATGTCTGTTAACACATTTTTATGAGCCATGGAGGGAGAATTGCTCTAACTC
AGCTTGGGCTCTAGCTCATGGACCCAGGTTTGGGGTTGGCTTGGTTAATTCTGCTCCAAGAACACTTCAGCCAAGGTATTTCAAAACCGCATATCATGGT
CTCAGTTTAGTGTAGTTGAACAAACATTTATGATGTAACTTCTGTGTGCTGCATTTTGTGTTGGGTTCTGAGGCTATGAAAGTGAAGAAGACATACCACT
TCTCTCTTCCAGGAGCCTTACAGCCTGGGATTCAGATGGAGTGGGATTTGGGAGTCAGATGGGGCAATAATTCAATTTTTGAATTACTTTCCAGTTCCTA
TTAAATTTAACTCTAAAGGCGAAGATCTATTCGTTAGCCTGCAAGTTGAATTTTATTGTGGTTGTTTCTTTCTGGAAAACTAGGAGTGTTTGTAAAGCTT
AGAAATTAACGGCTAAGTTCATTTGGCATAGAAATCTCAGGTTGATAGGTTGTATTGTAACTGAAATATAAATAGAGGATGACTTCTGACTCTATTTCTT
TAAACATCAGGGGACATCTGCAACTTCCGAATGAATGAAGTCCCCAAACTCAGCAAGGGGAGGGGGCGTTAGTACCCTCTTTCTCCATTCTCTATCCCTA
TCGCCCAACTTTCTGGTTGGGTAAATTGACAGTACATTGGAAGATTTTTTTWAAAGGCATTTATTAAGGACCTAAGAATGGCTTGCTGAAGATATTTTTA
AAAGTTAATCATTATTTCTTAATTTGCTGTCTTATTTGTCAATTCATGAGTTATGCTTGTCTTATTTTCTTTTTCTTTTTTCTAGCAAAAATACAAAGAA
GACTATGAAAATAAAATCAAAGGCAAATGGAGTGAGACACCTTGCTTTGAAGTTGCAAATGCCAGAATGAATGCTGRTAACATTAGCACAGTTAAGTGGG
AAGGGATGGCTGGTTGGTCATCCTGGGAGGGAGACCCCTTTCCTTAGTGACTTCTAGCTACTTGCTCTACCTGAATGGGTGCCAGAACACTTGAGGCCCC
TCTTCTTGGGGCAAGACCTGGTGCAGAGTTCCTTTTAAGAAAGAAATTTCCCAAACTCTCTTTCCTTTTGAGAAATATTATTTTGGCCACATGCCATTAT
TTCTACCTCAATTTTTACAACACATTATGGTAAGACCCTCTTACTGACTGCAAAGTGAGATTAGTACAAGTTAAAGGGACTCTTTTTAATTATTCTTTGC
CTGAGGAGCCAAATTGTACAGTTAYGAAATTGATTAATTTAGCATCTCCTCACTGGAAAACATAAGTCTATTGTTTTTCTTTTCTCTTAAGTTCCCTGCT
CCTGGCCCTTAAGAGATCTTTCTTGGTAGCCAAGAAAAGCCTTTCTAATTCTGTTTTTAGCCTATTTTAATTGTTCTAAATCTCTGTTAAGTTGCTAATC
ATTTCTGTAATGGTACCACATTCTCTAATTGTAATCTGACCAGCCTAAACCAAGGACAGGGTGGCATTGTGTAACTTTTCCAAATCCCTGTGTCTTCTCA
TGGAAATTCTTGCATAGTTCATTTCCACAGCAGTTCTTCAGCTTGTCTGATGTCTTACAGAGGAAATACCAGGAAGATTTTGAAAACATGAAAGACCAGA
TCTACTTCATGCAGACCGAAACACCAGAGTATAAAATGAATAAAAAAGCTGGTGTGGCAGCTAGCAAGGTATGAGGAAATCATCCCATTTATCTTGATGG
TTTGAGTGTGGGTAAATTTCTTATAACTTTGGCTCTTGTATATAATTAGTWAAAAAGGGGAGGAGTGGTTCTTGGGGGAACTACCAGGGCTGAGACCAGT
GGATGTGAGGCATTTGAAAAAGAGTAGAATTGAAACAACAAGAACAACAACAAAAGTACTTTGGAATTATAATGGGGCTACTAAAAATGTTTTGCCATGT
ATGAGCATTAATAACATCTAATTACYATCTTCAATATTTCCTAATTTATTATTTGCCTGAGGAACCAAACTGTACATTTATCAATTTGATTTAGTGTCTT
CTCACTGGAAGGGCCTTTTGCTGTTTAGAAGGAGAAAGATTGTAATCTTAGACAGCAGGACTTCTCCCCCCAGGAAGAGGCAATTGGTGGCCTTATATGA
AGATAGGCAATCATACATGCAACACTATCATTATTTTTCTTATTTTCCCACTGACTATGAAAAAACCTGGTCGCAGGTTCATAAATCCATGGATATTTCC
ATATGTTTGATTGAGTGACTTTGGTGAATGGCCTGAGTCCTTAGCATTCTAAAGCACGATGGTCACTAAAGAGAGCATAAACTTCGAAGCCAAACACACT
TGGTTCTAACCCTGGCCTTGGCTATGCTGGAGAAAGCAGGATTACATCACTTAGAAGGCTRTTACAGCATCCACGTGTAAGACGGTGTTTTGGACCAGGA
GGGTAGCAGGGCAGGTGATAAGAAGTCTTTTGAAAGCACAGCTGACTTGATTTGCTGATGGATTGGATGACACGGGTTTTGGTCTAAGCAGTTAGATGAA
TGGGGTTTCCCTTTATTGAGACAGGGAAKACTATGGAAGAAGTTGGTAATTTTTTTGGAGGACAGACAAGAGCTCATCTTCAGATATGGTAGATTTGAGA
TGCCTTTTAGACATCCACATGGAAGTGTCAGAGGTCAGTCGACTACATGAGCCTGAAGTTTCAGGGGAGATATATGGAAAGTTGTATAAACTGGGGTGTC
ATCAACATACAGAGAGTGTTTCATGCCATGAGTCTGGAGAGCATCAAGGGAGTGAGTGTAAACAGAAAACTTTAGGGGCTGARCTCTGGGGTCCTTCCAT
GGGAACATATATGTAAGATGAGGGAGAAGCAAAATCAGGAGAGGGCAATGCGTTGGGAAGCAAGTGAAGGGGGAAGGGAGTCATCAACTGTGTCAAATGT
CTCTGAAATGGATTTACCAATGTCTGGTCTCTGGTGACCTGAACAAGAGCAATTTGGTGGAGTCTGCTTAGAGAGGATTCACAAGTGAATGAAAAGAGGG
AAATTGAAGATATAAGTATATTCAACTCTTTCTAAGTATTTTCCTGGTAAGAAAAGAAGAAAATGGGCAAGTAGCTAATGAAAAACTGGGTAAAGAGGGA
CTTTTTAAGATACGAAACAAAAGCATCATGTTGATGGAAAGAATCCAGTAGAAAGGGAAGATTTGGTGATGTTGGAATGGGGAAGAATGTCTGGAGTGAT
ATCCTAGAGCAGGTGGAAGGGGAAGAGATTTGGTGCTTAAGAGGAGGGGATGGCTTTGCCACAAGCCCTGACAGTTCATCTGCATAACAGGGGAGAAGGC
TGTGTATCCCAGATGCGGGTAGGGGGAGAGTAAAGTTTGTGAATCTGCTTTCTGGTCGTTTCCATTTTTCAAGGAAACAGTTAATTCTCTAAGGTGGAAA
AGTGATCTGAGTCTCCCATTACTGTAGCATACTGTCGTGATGCTCTGTGGAGGCTGAGGGGTTGATGCCTCTGTGCTTCCCTTGTGTGTCTCTTGCCTTT
GGATACCAAGCTGATTGCCTTGTTTTCTGAGTTCATAAGTGGTAGATTTATCTAGGATTCCTTGAACTTCTGTGCTTATATTGCCTGAATAAAGGGCTTA
CACTGGGGATCATGGTGGGAACCAGGATCAGTTTCTTGTTCTAATCCCTGTGGACAGGCTCCTGATGGGGGCTTGTGAACCCTGCCTTCCCTATTCTCCC
CCAACACCCCTCAACTTGCTGCTTCTGCCATAGCTGGAATTAAAAGTGCAAATAGGAACAGCAGAAGGAAAAGCAAGGCTCCTTCTCCCTGCTCCATCCT
CCTCCTACTTGTAAATTGAATACATGTGTGCTCCATGCACAGTTGCAGGTGAGGCATAAAAGCGTGGATTAGTGGTACTTCCAGCTTCCTTTCTTTAGGA
GCGTGTTGGCAGGTAGGTAGCTGGGGGTTGAGAGCTGAGTGAAGGTTCTATAGCAGCAGGTATCTGGGACATTATGCATGATCACTATTTGGATTTCTTT
CTCCCTCCTATTATTTCTGTATCTCTCTCTTTGAGGGCAAGGACCATGTGTTCTTTCTTATATCTGTCCCCAAGCCAGAAACAGAATTGACACCCTATGG
ATAATTTTGAATGAATAAATGAATGGGAAGAAAAAGCATCCTGGAAATTTATGCAGTTTCTCTGCTGCTTTTAAGAGTTACTATGAGTATTTTGTTTATA
AAATGTCAAGCTGCCATTTTTCTAAAGAGAAAATTGATTTGTGGAARTATGTCATATTCATAATAGAGACGGGGGCAAAAATAACCCATAGAGTTACTTT
ATCATTTTATTTCACTCCTACAGGTAAAATACAAAGAAGACTATGAAAAGAATAAAGGAAAAGCAGATTATAATGTGCTTCCTGCTTCAGAGAACCCACA
GCTTAGGCAGCTGAAGGCAGCAGGAGATGCCCTAAGTGACGTAAGTATATTTTTGTCAAAGTGTTTTTAAACCTTAGCTGCAAAAGAGRTGAAAATTTTC
TCCTTTAATGACTAAATGAATATATAACTTTGCAAATACATTAAGGTTATGGAGTGGTAGGTTCATTGGAACTATGTAACCACAGAAAGGCATGAGTCCC
TCTGAGTACAATGTGCCTTACTGTTTGTGGTTCTGTGGGGTTAATTCAATGGGCAGGGAAATTCTCACTTGCTTAGGAGCTCTGGGCACCTGGGCCTCCA
TATGGATGTGTTGCTTATGAGCTCCGGGCACCTGGGTCTCCACATTGCAGACGTGTTGTGATTTTGACAGAAGCAGAAGGAGACTTTCAAAGATAGATCT
TGGCCCCAGAAACCATCATTTGCCAACAACAGAACTTAAAAGATGGGCCCCTAAGTCTTCACAGGACTTTCTAATTGTGYAATTATTAAGAGCCCGACTA
AGCCGTTCAATTTAAAGCATATTAGGCAAACGAGACTGGGCTTGGGATTAAAGGACTAACAGCCTGAGAGAGAGAGAGAGAGATTGAATATGTGATGATT
TGAGTTTATCTCTTACGGTTAGGTTTGCATTAAGCTTTCCTAGCATTTGTGGATTTTATGTAGCTGTCTGTGTGGGTTAGTTATCTTTTCTTTGTCCCTT
GAACTAAGTCAGCAGCATAGGAAATATGTGTGTGTGGTTGGGGAGCAGGTGTGGGAAAGTGGCAAGTGAGAGGGTATAAATGGATCTGCCCAAATAGCTC
TGCTGGGAAATCACTGTAAAGCACGTTTGCTTTCTTTTAAAAAACATTTTATTTCAGTCATTGTTGGGGTACAGGTGGTTTTTGGTTACATGGAAAAGTT
CTTTAGTGTTGATTGCTGAGATTTTGGTGCACCCATCACCTACAGTGTACACTATGATCAATATGTAGTCTTTACTCCCTCACTCCCACCCCAACATTCC
ACTCAAGTCCCCAAAGTCCATTATATCATTCTTCTGCCTTTGTGTCCTCATAGCTTAGCTTCCACTTATAAGTGAGAGCATATGATATTTGGTTTTTCAT
TCCTGAGTTACTTCATTTAGAATAATGGCCTCCAGCTCCATTCAAGTTGCTTTGAAAGACATTATTTCATTCATTTTCATGGCTGAGTAGCATTCCATGC
TGTATATATACCACATTTTCTTTATCCTCTCGTTGGTTGATGGGCCCTCAGGTTGGTTCCACATCTTTGCAATTGTGAATTGTGCTGCTATGAACATGCT
TATGCATGTGTCTTTTTCATATTATTTCTTTTCCTTTGGGTAGATACTCAGTGATGGGATTGCTGGATTGAATGGTAGTTCTATTTTCAGTTCTTTAAGG
AATCTCCATACTGTTTTCCATGGTGGCTGTGCTAATTTATATTCCCACCCATAGTGTAAAAGCAGTTTGAAGCAGTTTTACTCTCTAAGTGAAAAACATC
CTTATTAAACATCTAAAAGCCCAAGTTCAAATCTCCTTTGTTGATAAAGACAGGAATATAAAAATATTAAACATGAATAGCATCATTTACATTTTGAAAA
CCCAGAATGAAAAAAGTGACAATAATCTGCTTTATCAGCTGCATATTTAAAACTAATCATTGCTTCTTCTTGTTCAAGCTAAAGGTAAATCCTGGCAGAG
AAGAAGAGTTAGTAGTAACTCTTAGTACCAGTTCATATATATATATATAATTTTGAAGGCTAATTGTTTGTATAATAAGAGATTTCTTATAGGTATAGGA
GGGAGGGAGATTGCGTATTTCTCACCTTATATAASTTTTTCATGAAGGTTTGTTTAAAAAAATTAAACAACTTGCAATTGCTTAAAACCTGTGTTTGCTG
TGGTGCTATCAGTGAGGAAAGAGTATGTGAGCTAAGAGACAGAGAGGGCAGCAATTTACAAATACACAAGAATCTCTGCTACTAAGGACGTGGTCAGAGG
TGGCATATTGGTTTCTTAATTTTTTGAGTTTGGGGAGGAGCCAAGATGGCCGAATAGGAACAGCTCCGGTCTACAGCTCCCAGCGTGAGCGAGCGACGCA
GAAGACGGGTGATTTCTGCATTTCCATCTGAGGTACCGGGTTCATCTCACTAGGSAGTGCCAGACAGTGGGCGCAGGTCAGTGAGTGCTCGCACTGTGCG
TGAGCCGAAGCAGGGCGAGGCATTGCCTCACTTGGGAAGCGCAAGGGGTCAGAGAGTTACCTTTCCGACTCAAAGAAAGGGGTGACGGACGCACCTGGAA
AATCGGGTCACTCCCTCCCGAATATTGCGCTTTTCTGACCGGCTTAAAAAACGGCGCACCACGAGATTATATCCTGCACCTGGCTCGGAGGGTCCTACGC
CCACGGAGTCTCGCTGATTGCTAGCACAGCAGTCTGAGATCAAACTGCAAGGCGGCAGCGAGGCTGGGGGAGGGGCGCCCGCCATTGCCCAGGCTNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNCACGCAGCTGGAGATCTGAGAACGGGCAGACTGCCTCCTCAAGTGGGTCCCTGACCCCTGACCCCCGAGCAGCCTAACTGGGAGGCACCCCC
CAGCAGGGGCACACTGACACCTCACACGGCAGGGTATTCCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAAACAGAAAGGACA
TCCACACCAAAAACCCATCTGTACATCACCATCATCAAAGACCAAGAGTAGATAAAACCACAAAGATGGGGAAAAAACAGAACAGAAAAACTGGAAACTC
TAAAACGCAGAGCGCCTCTCCTCCTCCAAAGGAACGCAGTTCCTCACCAGCAACGGAATAAAGCTGGATGGAGAATGACTTTGACGAGCTGAGAGAAGAA
GGCTTCAGACGATCAAATTACTCTGAGCTACGGGAGGACATTCAAACCAAAGGCAAAGAAGTTGAAAACTTTGAAAAAAATTTAGAAGAATGTATAACTA
GAATAACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAACCAAGGCTCGAGAACTACGTGAAGAATGCAGAAGCCTCAGGAGCCGATGCGA
TCAACTGGAAGAAAGGGTATCAGCAATGGAAGATGAAATGAATGAAATGAAGCGAGAAGGGAAGTTTAGAGAAAAAAGAATAAAAAGAAATGAGCAAAGC
CTCCAAGAAGTATGGGACTATGTGAAAAGACCAAATCTACGTCTCATTGGTGTACCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACACTCTGC
AGGATATTATCCAGGAGAACTTCCCCAATCTAGCAAAGCAGGCCAACGTTCAGATTCAGGAAATACAGAGAACGCCACAAAGATACTCCTTGAGAAGAGC
AACTCCAAGACACATAATTGTCAGATTCACCAAAGTTGAAATGAAGGAAAAAATGTTAAGGGCAGCCAGAGAGAAAGGTCGGGTTACCCTCAAAGGGAAG
CCCATCAGACTAACAGCGGATCTCTCAGCAGAAACCCTACAAGCCAGAAGACAGTGGGGGCCAATATTCAACATTCTTAAAGAAAAGAATTTTCAACCCA
GAATTTCATATCCAGCCAAACTAAGCTTCATAAGTGAAGGAGAAATAAAATACTTTACAGACAAGCAAATGCTGAGAGATTTTGTCACCACCAGGCCTGC
CCTAAAAGAGCTTCTGAAGGAAGCGCTAAACATGGAAAGCAACAACCGGTACCAGCCACTGCAAAATCATGCCCAAATGTAAAGACCATCGAGACTAGGA
AGAAACTGCATCAACTAACGAGCAAGCTAACATCATAATGACAGGATCAAATTCACACATAACAATATTAACTTTAAATGTAAATGGACTTAATGCTCCA
ATTAAAAGGCACAGACTGGCAAATTGGATAAAGAGTCAAGACCCATCAGTGTGCTGTATTCAGGAAACCCAACTCACGTGCAGAGACACACATAGGCTCA
AAATAAAAGGATGGTGGAAGATCTACCAAGCAAATGGAAAACAAAAAAAAGGCAGGGGTTGCAATCCTAGTCTCTGATAAAACAGACTTTAAACCAACAA
AGATCAAAAGAGACAAAGAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAACTATCCTAAATATATATGCACCCAATACAGGAAC
ACCCAGATTCATAAAGCAAGTCCTGAGTGACCTACAAAGAGACTTAGACTCCCACACATTAATAATGGGAGACTTTAACACCCCACTGTCAACATTAGAC
AGATCAACGAGACAGAAAGTCAACAGGGATATCAAGGAATTGAACTCAGCTCTGCACCAAGCGGACCTAATTGACATCTACAGAGCTCTCCACCCCAAAC
CAACAGAATATACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATACTTGGAAGTAAAGCTCTCCTCAGCAAATGTAAAAGAACAGA
CATTATAACAAACTATCTTTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAATCTCACTCAAAACCGCTCAACTACATGGAAACTGAACAAC
CTGCTCCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAACGAGAACAAAGACACAACATACCAGAATCTCT
GGGACGCATTCAAAGCAGTGTGTAGAGGGGAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCCAAAATTGACACCCTAACATCACAATT
AAAAGAACTAGAAAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAACTAAAATCAGAGCAGAACTGAAGGAAATAGAGACACAAAAA
ACCCTTCAAAAAATTAATGAATCCAGGAGCTGGTTTTTTGAAAGGATCAACAAAATAGATAGACTGCTAGCAAGACTAATAAAGAAAAAAAGAGAGAAGA
ATCAAATAGACACAATAAAAAATGATAAAGGGGATATCACCACCGATCCCACAGAAATACAAACTACCATCAAAGAATACTACAAACACCTCTACGCAAA
TAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTCGACACATACAATCTCCCAAGACTAAACCAGGAAGAAGTTGAATCTCTGAATAGACCAATAACA
GGAGCTGAAATTGTGGCGATAATCAATAGTTTACCAACCAAAAAGAGTCCAGGACCAGATGGATTCACAGCCGAATTCTATCAGAGGTACAAGGAGGAAC
TGGTACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATGAGGCCAGCATCATTCTGATACCAAAGCCAGG
GAGAGACACAACCAAAAAAGAGAATTTTAGACCAATATCCTTGATGAATATTGATGCAAAAATCCTCAATAAACTACTGGCAAAACGAATCCAGCAGCAC
ATCAAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAATATACGCAAATCAATAAATGTAATCCAGCATATAAACA
GAGCCAAAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAAGCCTTTGACAAAATTCAACAACCCTTCATGCTAAAAACTCTCAATAAATTAGG
TATTGATGGGACGTATTTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAGCATTCCCTTTGAAA
ACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATTAGGCAGGAGAAGGAAATAAAGGGTA
TTCAAGTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGACGACATGATTGTATATCTAGAAAACCCCAGTGTCTCAGCCCAAAATCTCCTTAAGCT
GATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAGCATTCTTATACACCAATAACAGACAAACAGAGAGCCAAATCATG
AGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCAC
TGCTCAAGGAAATAAAAGAGGATACAAACAAATGGAAGAACATTCCATGCTCATGGGTAGGAAGAATCAATATCGTGAAAATGGCCATACTGCCCAAGGT
AATTTACAGATTCAATGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAACCAAAAAAGAGCC
CGCATCGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAACAGCAT
GGTACTGGTACCAAAACAGAGATATAGATCAATGGAACAGAACAGAGCCCTCAGAAATAATGCCGCATATCTACAANNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAATTAGCCGGGCATGGTGGCAGGCACCTGTAGTCCCAGCTA
CTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGTTTGTGCCACTGCACTCCAGCCTGGGCAACAGAGGGAG
ACTCCATCTCAAAAAAAAAAAAAAAAAAAATTAATGAAGTACTGATACAGGGTACAACAAGGATGAAGCTTGAAAACATGCTAAGAGAGAAATCAGAAAG
AAAAGATCACATTTCATGATTCAGTTTAACCATTTCAAAGTGTATAATTCAGTGGCATTAATTACATTTACAATGTTGCACAAATAATACCATCTCATTC
CAGAATTTTTTTTAATCCCCCCAACCATAAACCTCATACCTATTCTCCCTTCTTTCCAGGCCTTGGCAACTACAGAGTTTTTGGTGTGTTTTTGTTTTGC
TTTTTTGAGATGATGAAATGTTTTAAAATTGATTGTGGTGACAGTTGCACAACTCTGTAAACATACTAAAATCCATTGAATTGTATACTTTAAATTGGTG
AATTGTGTGGTATATGCATTAAATCTCAATAAAGCTGTTACAAAAAAAAGAAAGAAAAAAAATTTTTTTGAGTTTGGAATGTATGAAACTTAGGCCTTAT
AATAATTGCTAACAGAACAGTCTTATAATTCATGACATTCCGTGTTCGATTGTCAGGTTTTTTTCTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGAGAC
GGAGTCTCGCRTTGTCGCCCGGGCTGGAGTGCAATGGCGCCATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTC
CCAAGTAGCTGGGATTACAGGCACCCGCCACCATGCCCAGGTAACTTTTTGTATTTTTAGTAGAGAGAGGGTTTCACTTTGTTGGCTAGGCTTGTCTCAA
ACTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCGCCGCACCTGGCCTCAATTGTCAGTTTTTAAGACAGT
TGACAGGCGATATCTTTTCTTCATCTTTTGTTTAGTGTTAGAAAATGTAAGTGTTATAATCAGCGTGGGAGTGACAGGAATCTACTTTAACTGAATTTTT
TTTCTTTGACAGAAACTATACAAGGAAAACTATGAAAAGACAAAAGCAAAGAGCATAAATTACTGCGAGACCCCCAAATTCAAGCTCGATACTGTTCTGC
AGAACTTCAGTAGTGATGTAAGCAATCCTWCTGTCACTCTTTCTGTTAAAAAAAGAACCCATTATTTCACCAATTAATAAATGAAGTATGTTTTGTCTTG
CAGAAAAAATATAAAGATTCCTACTTAAAAGATATTTTGGGACATTATGTAGGCAGCTTCGAGGATCCATACCATTCACACTGCATGAAAGTCACAGCTC
AAAACAGTGATGTAAGTTCTAAGACAATTGTTTGACTTTCCAAATAACATTTTTCTCAGGGCATGAATACAATGGCTGCATCTTATGCCTAATTTCTTCT
CCTCATAGAAAAACTACAAAGCAGAATACGAAGAAGACAGAGGCAAAGGCTTCTTCCCTCAGACCATAACTCAAGAATATGAAGCAATTAAGAAACTAGA
TCAGTGTAAAGACGTAAGTCTGTAGTCTGAACTTTGAATGTGACTGCCTTCCATAGCATCTAGTGGTCAGGATATGTTTAAAATGTTGCCACTTTTACAA
ATAAATGTAAGCCAGGCAATCGCAAGAAATGAAGTCTATTTTGTAGTAAACATCCTATTTTCCCTTGTTGACATCCCTACATTTTAAGAGGTAATTCTAG
CTCATTTTCCCAAAGAAGAGTTATTGGAAACCCGAAGATATAGGAAAGTTTCTCATACAGATATAAGAGCACCTCTCAAACTACAGTCTAGTTAGAAAAA
AATATATTTTATTAACTACAAGTTTCATTGCTTTGTGGGGCATGAGGTTCTATTTGCTTGGCCTGTGGGCCACCTTGGATCTGACAGGTGATACTACTAA
ACCAAATGCCTTTGCTTCCCCACAGCACACCTACAAAGTCCATCCAGATAAGACAAAATTCACCCAAGTTACAGACTCTCCTGTTCTGCTACAAGCCCAA
GTCAATTCCAAACAACTGAGTGACGTAAGTTCCTCTAACTACTCAGGACACCCAATTATGAGGGATAACATTTCATAACTCTATACATAAAATCCAATGA
CTTATCAAGTTTATTCAAAAGGCTAAGTAAGTATTAGCAAGTTTAAACAGTATACATTTGTATAAAAATATATTTCTGCATTTTCTTGGGTGGATAAAAT
TTACAGTGAAACAATTCTGTGAAGGAAACAAATGTAGCTTAAAGCAATGGAAAGAACATGAGTTCTAGAGTCAAACAAAACCGCATTCAAATGTTAGCTC
TGTCATTGATGTCTGGGTGGCCAAAGATTTAACCCCCCTCTGCCTGATATTTCCATTTTATAATTTGTGGCTGTTTTGAAGAGTAAGTGAAGGAAGAAAT
ATGCACTGCACATACCCTGGCCAACAGCAGGTATTCAGTACATGAATTTCTCTCTCCCTAGTAAGTTTCTGGAAATTGGAATCTCTGAGACAAATTTTAT
TATATGAGCTTTAAGTGTGGATTTCCAAAGCTGTGTTGAACTAAAAAAATAAAAGTGACCTCAATAGATGAATGGCCAGAAATGAAGGCTCCAATTAGAG
CATCAAAAGCCCTGATGTCTGTGAGAGGACTCTTAATCAGATGAAAGGAAAGTGGCTCTGGTACGTGAGCACTGACAGTGACAAGAGAGACAGGGCGGGG
CCCCTCTCAGAACCTGCAGGGACAATTGTGCTACGCAGGGAGGGGAACATGTTTGACAGAGCCACCTCATTCCCTTAGGGTCCTACCATGGTGACAGATG
TGATAATAGCTGCCAAGTGTCCTGCACACAGGWTCAGTAATGCAGATGGCCTACCCAAGCTCTAGATGTCTCTTCTGATCTCAATAATGCTGTCACTAAC
TTTACAAAATGTACCACACAAGAATTTTTGTATTCTGGAACAATTCTTCTGAACTAATTGGTTCTCTCTCTGTCATAGTTAAATTACAAAGCAAAACATG
AAAGTGAAAAGTTCAAGTGCCATATCCCCCCTGATACTCCTGCTTTTATCCAGCACAAAGTCAATGCCTATAACTTGAGTGATGTAAGTTCCTTATGCCC
TGTACCATGTGAKGTACTGACAACCTGTGCTTTTATGTTTGAACTRCTTTGTTGCAATTCAATGAATAGATTAATGTTAAAAATGAGAAGAACTGTTAAC
ATTTGTATCATGTTGCTATGCCTCTGCCAGTATAACTGAATTCACCTTACAAAATATGTGTAGCAATCTTATAAGTAATTTCATACAATTAGATAATCGT
AATATATAGTATTGTAACCAGCCCTCAGAATGCTACGTCTCRTGTATGCTTAATTGCAAATTTTAATGGTAGATCTTTTAGCCATATATTCATTTAAATT
ATATATAATTCATTTATTCCCTGGGCCTATAATGTCCCTTATTTCACACAAATGATACTTATTTCTACATATATGAGAACTTGCATGAATAAAGATATAG
GGGATTGAAAGGGCAGAAGTCCAGATACCCATTTCTATCCTTCATTTTTCAAACTTAATTTTATAGAAAAGTTAAATTATCCTTGGGGTTCTCAATTTCT
TCAATAATTCTATAAATGAGTACTAAGATTATCTGGCATCACTGAGTATTGTAATGATTTATGAAATAACCTTTGCAGAGAACTTAAAGGTCAAATGAAA
GTGATGCCTTTATATCATAAAAAAGTAAGTTAACTGTAGAATATATGTGCTACTCTATAAAACATTCAGTGTTAGGAATCAAATATGAGTATAATAGCTA
GAATTAAATTAATTTGATAAAAAATTCTCATGGGGAGTAGAGAAGCCCAATCTTGGAGAATTAATAGCTCCAGCTTGAGAAGAAATATTTAAAATATGCA
TGATTTCCTAGACAATAAAAAGGGCCCATTTATTTTATATTAAGATAAGGTATTTAGTTACCCAYTAGTCTTTAAAGGTCGTGACATGCATATCACTTTT
GCCAATTCCTTTGCTGAATTTTTTTGTCCAGAATCTTTATAAGCAAGACTGGGAGAAGAGCAAAGCCAAAAAGTTTGACATTAAAGTGGATGCCATTCCC
CTGCTGGCAGCCAAAGCCAACACCAAGAACACCAGCGATGTGAGTGTGGCCTGGGGACCTGGACAGGCTGGCTTCGGGGACATTTCCTCTTGAGTGGAAT
CTGGCATGTGTGATGTCTTTGCAGGTGATGTACAAGAAAGACTATGAAAAAAACAAAGGGAAAATGATTGGAGTCCTCAGCATTAATGACGATCCCAAGA
TGCTGCACTCCTTGAAGGTGGCCAAAAACCAGAGTGATGTGAGTTTCTTTGTAATTCACCCCTATTTTCAGACGTGGCCACAAAGTTGCTGTTTAATATA
ACCTTGGATGGACGTTAGCCTAACTGAAATCTTGGATTCAAGATGACRAATCACACATGAAAGCTTCACCCAGGTGCTAAAGGAAGATGAACTTCCTTAT
TCTTGTTGATGCCTTTGATGCCAGTGAATACTGCAAATTTTCCTTAATCTCCTTAATGCCCTCTGTTTTATTAGGAGGAAAAATATTCTGCCAATATCAT
TGTTTTTATTATTTTTCCTAGAAACGAGCTTAATATACATAAGTATAGGTACATGTGCATGTATATATTCACCCAATGCCCTGAACTGATTAAGGTAGTT
TGCAAAAATATATATATAGGAAAATGAAAAGAAGTAAAGAAATTAATKTAAGGGCAAAGTAAGAAAAACTACATAAGGCATAAACTCAAAAGCAAAGCAT
TTTATTTTAAGAAATTTATAGAATATTGATCTTATTTTAAAGACTTTAACATACTTATTAAAAATAAAATATGACCCAGCAATCCCATTACTGGGCATAT
ACCCAAAGGAATATAAATCATTCTATTATAAATATATATGAACACATATATTCATTGCAGCACTATTCACAATAGCAAAGACAAGGAATCAACAACGATA
GATTGKATAAAGAAAATGTGGTACAGATAGACCATGGAATACTGTGCAGCCATAAAATGGAATCAGATCATGTCCTTTGCAGGGACATGGATGGAGCTGG
AAGCCATTATCCTCAGCAAACTAACGCAGGAACAGAAAATCAAATACCTCATGTTCTTACTTACAAGTGGGAGTTGAATGTTGAGAACACATGGATACAT
GGGGGGTGCAACACACACTGTTGGAGGCTGGGGGTGGGGGAGGCGGGAGAACATCAGGAAGAATAGCTAATGGATACTGGGCTTAATTCCTAGGTGACAG
GATGATCTGTGCAGCAAACCACCATGGCACACGCTTCCCTATGTAACAAACCCACAATCCTGCACATGTACACCTGAACTTAAAATAAAAGTTGGAAATC
AAACAAAAAAATAAAAAATAAGATAAAACTCTTCACAGAAATTGCTTTCCTAATTCCTAGCAGAAAAGAAATACAGACAAGTAATATTTTCATTTATTAT
TGCTCTAAAGAAAACTGTTAGGTCTTAATGTTAATAGCCAGCTTCCGGAGGTGTTACAAAATGCGTTTTCACCAAGTGCTCAACAGAATACTCTTCCAGG
ACTGTGCTTAATTATCTAAGGTTCACCTTATACCCTTTACCTCATTTTGCATCAATTCTTAAACTCATTTTTCTTTCCTTCTTTGTTTTTTGAGACAGGC
TCTCGCTCTGTCATCCAGGCTGGGGTGCAGTGTCACGATCTCGGCTCACTGTAATCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAA
GTAGCTGGGATTACAGACATGTGCCATCACGCCCRGCTAATTTTTGTATTTTYAGTAGAGACGGGGTTTTACCACATTGGCCAGGCTGGTGTTGAACTCC
TGGCCTTGAGTGATCTGCCCACCTTGGCTTCCCAAAGTGCTGTGATGACAGGTGTGAGCCCCTGCACCTAGCGAAACTCATTTTTCTTTAAACATATTCA
AATGAATTACTTTAAGACAAAAAATTATTTAAAAAAAGACAGCATTGGTGTGCGTTTTTCAGTCTGAAAAAATATTAGGAAAAGTAACATAAACATCTTC
ATGATTATTAGCAGATGAGATTATATAAGGCATGAGCCTCTACCACATCTATTCTGCTTTTCTGCTTTGTGGAAAATTGATGGTGAGAAAACATAAATTT
TGCCCCTTCAGTTAAAGTGCAGCAAAGACATGAATGACTTTTACTTTATGAGATATATATTTCTTTCTTTTTGGTTTAATTTATTTTTCCTTTAACAGAG
ATTATACAAGGAAAACTATGAGAAGACAAAGGCAAAGAGTATGAATTACTGTGAGACCCCAAAATATCAACTTGATACTCAGCTGAAGAACTTCAGTGAG
GTTCGAAAAGCCACGGTTACCTTTCGGGTAGGAGGGCTTTCCTACTGTTTGACAAATGATTGTTAACTTGAATTACATTTGTTTTATTTTTCAGGCTAGA
TATAAAGACTTATATGTAAAGGATGTTTTGGGACATTATGTAGGCAGCATGGAGGACCCATATCACACACACTGCATGAAAGTTGCAGCTCAAAACAGTG
ATGTAAGTTTGAAGACAATGGTTCATGCCTCACAGTGACATTGTTTGAGAGCCRTAACAATCATGATCTATTTTTGGTTTTTCTCATTATAGAAAAGTTA
CAAAGCAGAATATGAAGAAGATAAAGGAAAATGCTATTTCCCTCAGACAATAACACAAGAATATGAAGCAATCAAGAAGCTGGACCAGTGTAAAGATGTA
AGTTAGCTGCCCTGAATTATTGAAATTGAGCTTGGGATTCCTGTGACATCTAGTGGTAAATTTAGCAGGAGTTTACATGCTAATATCTAGTGATTAGAAG
GAGATAATTACATTTTACATTTTGGTTTTGGGGTGGAACCGGGGAACACAACAATTATGTTGAGGAAGGCCATTTGCTACAAAATTTCAGATTTTTATAA
ATCTTAATTTTCATTAGTTTATATCTACMCGAATTTGGGGCAAAAGAAGGACATGCAGATTTAAGATAAGTGTTCATTATTTAACAAATTCTATGTGAGA
AGCCATGCTGGGCCAGGCACTTTCCTTGGTGCTGAGAAAGACAGAGAAAAAGCCAGCCACCTCTTGAGCTCCCACTGGAGTGGAGGAGACAAGTAATAAA
CAAAGGAAGGAGCACAGAAATAAGAAAGATATCAAGCAATAATAAGGAAACTAATACAGGATGATGATACAGAATTAAAATAGGACAATGTGTGAGACAG
TGACTGGATGGGCGTCTTAGGTTGGGTGGTCAAGGAAGGTCTAAAACAGGCATGACCAGTCAGGCCAAGGTCAGGGGAACAGCAGCAGGGAAGAACGGCC
TAAGGAGAGAACAAGCTCAGCATTTAAGGAATTGAAAGGATGGGGTGGCTGAAATTTACTGGGGAGGAAGACAGTAGTAAGAGGTGAAATGGTTGGAGAT
GAAGGAGGGGATGGATTCTGTAGGGATCATAAGCCAACGTGCAGTTGAAGCTGAGTACCAAGTTGACTAAAGAGTCACTGTGTAAGGCTTCAGCAGGGTA
AGGTTAATCTGGTTGCTGAGTTGCTGTAGGCAGACCAGAGGCAACTTGGGAAGTGGGGATTAAAGGAAAAAGAGAGAGAGAGAGAGAGACAGACAGAGAA
GTGAGAATATAAACGCATCAACTAAGTTTTCAGGAACAAAATAAACTCTGTTTTGACCTGGAACCATTTTTTATGTTAGCGCATGTATAACCAAGAATAT
ACTGATATTTCATTAAAGAACATCTTCTTTTCTAGCATACCTACAAAGTTCATCCAGATAAGACCAAATTCACGGCAGTCACTGATTCTCCTGTACTGTT
GCAAGCCCAGCTCAACACGAAACAGCTTAGTGATGTAAGTGCTTTGATTTATGCAAGCGTGGGTGACCCAGAGTGCTTTGCTCATTTAAAATGTAAGCAT
TTACATGCTTAATCTTCATGGGCTCATCTACCATCCCAATATTATTATTTTTCAAGATTTGTTTAATAAAACACAAATGAGGCTGCTAGATTGAATTGCA
GCCTGAGGAAAGTTGTGTTAGACAATAATAAAAATAAATATTTTTTAATAACTCACTGATTTTTAGTAGGACTATCTTACTTATTCATTAGGATCTGTCA
CATGCACACTAAAACTTCATGCCAACTTAAATAAACAGTGACAACAAAAGCATCTATTTGTGTAGGACAAGGCAAATATTTCCGATTCTTGAATTTGCTA
ACAAAGATTTTGCAAAAAGAAAGGGCACAGTAACAAGACAGACATCAAACAGTGATAAGAAAACTAATATAGAATGGTGCTACAGAATTAAAGTGGGATG
ACATCAAGAACTGGATGGGCACTTTAGATTGAGTGGTCAAAGAAAGTCTAAGACAGGCGTGGTCCAGTCATGCCAAGATCGGGGGAAAACAGCAGTGCTT
CTCAGACCTCCACATTCATGCAATCGCCTGCTGACCCTGTTGAAGTGCAGATTCTAATTCAGTAGATCTAGGGGACTCCATATTCTGACTTTCTAATAAG
CTCCTAGGTGATGCTGATGCTGTGATTGGTAGGCTACTCTTTGAACAGCAAGGTGCTAACATAGCTAAGTCCTAGAGAGTAGTACATCCTTCTCAAGATA
GGTAAGTGAAAGATACAGTTTGTCCTACTATAAAATATATTTTAATGACACAAATTAGCTCATACCCAATTAGTAAAGAGGAGAATGGCATCAGTATAAC
TCAGAAGTCATTTCAGCTCGTGTGCCACTTTTCTGAGCATCTTAATATTTTGTGTCCCAATAAAGAACAGCTAAACACTAACATCACTGATCTAGCTGAA
CTCAGCAAGCTGCAGAGAAATACAGTGCTGTATGTGGTCACAGTCACTATCAATCACTCTTCTTATTGGCTTAGGTGGGCAATGGACTCTGCCTTGGAAT
TACTTCTTGCATAGTTCTCAATCTTGTGCRTTTTTGCCTTTGGCTCCAAAATTAAACAGCCTCATCCGTTCTTTACACTCCCTTCCTTACACCTAACGTC
ACCTTTTAAAAAATTTAAATAAAGTTCTGTGTTTAATAATTTAAATAAGAATTCACAGGCAGGTGCAGTGGCTCATGCCTGTGATCCCAGCACTTTGGGA
GGCTGAGGCAGGCAGATCAGTTGAGCCTAGGAGTTTGAAACTAGCCTGGGCAACATGGTAAACCCCATCTCTACAAAAAAATAAAAAAATTAGCTGGGTA
TGGTGGCACATGCCTGTAGTCTCAGCTACTGAGGAGGCTGAGGTGGGAGGATCACTTGAGCCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGTGTCAC
TGTACTCCAGCCTGGGTGATGGAGCCAGACACGGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAGTATATATCTTTTTAACTGTGCTAGTATTTTATTTA
GAATTATTGTTGTTTTTGTTAGTGCTTTAATTACAGAAGTTCGTGTTCTCCAGACACAACCTAGCAGTATAGACTGGAAATGTGTTCCTGTGTATATAAC
AGAATCTATGCAATGGCAGCTGGCAGCCCAAAGTATGGTTACACAGCAATCCCCCTTATCCACGGTTTTGCTTTCCATAATTTCAGTTACCTGCAGTCAA
CCATGGCCTGAAAATATGAAGTGGAAGATTCCAGAAACAAACAATTCATAAGTCTTAAATTGCATGTTGTTCTGAGTAGCATGATGAAATCTCACACCAT
CCCCCTTTGTCCCTTCTTTATCAAGATGAAGGGTGAAAACATACAGTAAGATATTTTGAGAGACAGAAACCACATCCACATAACTTTTATTACAGTTTTG
TTATAATTTTTCTATTTATTAGTTATTGTTGTTAATCTCTTACTGTGCCTAATATATAAATTAAACTTTATCACAGGTATATATGTATAGGAAAGAACAT
GGTATGTATAGGGTTCAGTGCCATCTATGATTTCAGGCAGCTACTGGGGGTCTTGAAAAGTATCCCCCAAGGACAAAGGAGGACTGTGCCACAGTCCCTG
AAATAGGGGATGAAAGTTTGAATCCTGTGCGAGACTTTGACTGAATTGAGTATCTCTTTGAGGCATTTTTCTAAAAACAGCACTAATGCCTTAGCTATAT
ATGCTGCCCTAAATAAATTCAAAGAAGTTCCCCTGAACCGTTCAAATATCCTTTGTTTTTCAGCTGAATTACAAAGCAAAACATGAAGGTGAGAAGTTCA
AGTGCCATATACCAGCAGATGCTCCACAGTTTATCCAACACAGAGTCAATGCCTATAATCTGAGTGATGTAAGTACCAAAGCCACAGAAGCCTATGTTTG
GTGTACATGAAAAGAGAAAATGTTTTAAATTTTAAAAGACAAGACAAGGAATTGTGCAAATAAACAACTTTAARATGGTTACTTTGTAAGTGGAGCTTTT
AAGGCCAAAATGCTCTTAAGACTCCTACTTATCTATCAGATTTCATTTTCTGTGGTCTCTGTTACTATCAGAAGATCTCCAATTACCCGTCTACTATTCC
CTGGAGTTTTACAACATCTTTCCCATGTAAATTTCACATTTCACCTTCTCCAAGTGAGTGTCACTTTATAGCATCCTTATGTAAATCAGGACAGCAGAGT
GCTTAGAAAGTTTACAGAACATTAAAAAGAGTAGTTGATACTTATTTAGTGGTAGGGAGAAAGAAACTGGATGATAGATAAATCAATACTTATACTACAA
TTTGATAAATATAGTTTTTATAGGAGAAATAAGTCTATACATACACAAATTTTCAATATGTTTTTATTTTTTTACTGGATTACACTGTTGTTCTTATCAT
TCCTTTGCTGAATTTTTCTTGTCCAGAATGTTTATAAGCAAGACTGGGAGAAGAGCAAAGCCAAGAAGTTTGACATTAAAGTGGACGCCATTCCCCTGTT
GGCAGCCAAAGCCAACACCAAGAACACCAGCGATGTGAGTGTGGCCTGGGGACCTGGGGACCTGGACAGGGTGGCCTTGGGGACATTTCCTGGTGAGTGG
GATCTGGCATGTGTGATGTCTTTGCAGGTGATGTACAAGAAAGACTATGAAAAGAGCAAAGGGAAAATGATTGGAGCCCTCAGCATTAATGACGATCCAA
AGATGCTGCACTCCTTGAAGACAGCCAAAAACCAGAGTGATGTGAGTGTCTTTGTGAATCTGTCTTGTTTTCAAGATGGACTCCCTGTTACGATGCCCAA
GGGTAGTAGTGTGGAAAAGAATTTCATGAGCATGGGCTCTTTCACATCACATTCACAAAAGTACTGCTGTAGAGAACTTCAGAATGATGCCCTGGATTAT
TGTGCCTCCCACATTTGAGGGGAGAAATTACTGATTTGTACTTGATGTCCATTTCACTTTGAAAAATGTATGCATTAATATTTAATAGAATATTGATTGT
ATTCTTAAAACCTTTTGGAAAACATCACTAGATATTTTCATATTTTCTTCTAATTGAAAAAYAATTTTTAAAATGATAATTTTCAAACTGTCTTTACTTT
GGAAGACATTTATGAGTCACAAAAATCTTAATAGAGTATCGTTCTTCATTGACTTTAGTAATGAGTTTGGTCTAGATCCAAGAAAAAGACTCCATTGATT
ATAAACCCCCCTGAGACTCTGATAAAAGATTTGAATCATCTATCTAGAAAATGAACATTTCTTTTCATGCCTTTTGCCTGAATTTTGGTGAACTCATGGG
TTGCTTAAGGCTCATCTATGGGCCATGTAACATTTTGCAGTTAAAATTCTTACTACAGAGAGACAAACATCTACTACTGCAAATTATAGTATATATTGTG
TATAAAATGTTTAGAGAATCCCTTAAGAGTACTGAGAATGTTCAGTGTAGCTTGCAGATACTAGTTTTTTTAATGATGAAAGAGAAGGGTATTTGTATCA
TTTAGATTTAACCATGCTTTTATATAATGATCTATACATACCTCTTTAATTCATTTTGCATCTATTCTGTCATTACATAGCACTTTAAAACTTCTAATTC
TGTAATTTTCTCTAGTAACTTCACAGTGAATTATGTCAGTATATAGTGCTCACTTATATTACTATCTTGTTCACTAGTTGAGTCTTTTCAACTCAAGAAG
GATATAACTCCCCATTGATAGCATGTGTATTTTTATCTTTTGTTTTTATTCCTATCACAGAACCCAGCAGTAGGCACATAATAAATGCCTAATAAATATT
TGTTAATTGATTGATGTAGATGACCAAAACACATAGCAAATGAGTCATTCTCACATAATATCCAGGCAAAATGCTAAGCTGCAGACACAGAATATGAATG
GCTTTTTAAAAAGAATCTTTTAAAGCCATTTGGATCTTTGACAACATTTTATATGTACTGGTATGTGTCAGCTGGTGTGAACATGAACAAAACAGTAACA
ACAATTTCTTCAAAAATACTTCCACACACCTATTGCTGTTGCAATATTGCTTTATCAGTTTATTTCTAACGAAGACAAACTGTTGTTTTCAATGTTGTTG
CAAACTATCACAAAGTTTGCATACTTTATTTTTATAAACCAGGGTCTCAATTTTATAGTTAAATAATAAATGTATTCAGTGAAAATGATCACCCACAAAA
TATGAGAAGGAAGATCAAGTTCCCTTAGAAAGCCAAAAGATCAGATCATTTGCAAAAGGAATTGTTACAGAAGATTTGTAGTGCACATCTGTACTTGCCA
GCTTGGGTCACCGTCTCTAACACATATGTGACCATGGGAAACTAGGATGAGTTTAGAGTTTTCTGAAAGGCAGTGGGTCAAMATTTTTCTGTCAAAGTAA
TTGGTGAGTGGATACAATGAAGCTGGGAATTTGACCCAACTAGCACCTTGTCTAACCATTCCAGAAAACCAGACAATGAAGGGAGTCCTTGAGGCCCAGC
CAGGACATTTGGTTTATAATGCTGTACGGAAGGGCCAACGTTATTTTAATGGCTCAGTTTCTCAAACTTTTCTCCTGTGAAGTCTTTTAACTGCTGCAAT
CTGAAGCTTCTTTTAAATTGTTGCCCCAATTGAACTTGATATGAAAACAACCTTTGAGATTCTCAGTGGGGTTATCTCCTGTCAATAACAGGTTAAAAAA
CCAGTTGACTATCCATTCAAAAATGACTCTATACAGCCAATAAACTAAGTCTACAGCCCTGTGTATGAAGTAGTCATTTTATTAAAATCCAATTGTCATA
TGGTTTTCATTACAATTAAAAAATGCTTCTTTACTGAAAACTCTTCATAGGTTAAATTACATGAATAATAGTAACACTTGTTAGTGGTCCTTGAGAAACC
CTGGTTTAGAATAAAATCATTCCTGTTCCTGACTGAAGCAGAAGCTGTGGCCCGCTGTCTGCTGTGACCCAGACAGTTTCTCATTGATTTGAGAAGGTCT
GCCCATGCGTGCTTTTTGGGGGAATTTCAATGGTATGTAACATATGAACACATTTTTGGGCAAAATAACTACTCAGATGTTTGACTCTTTCTCTAACTTG
TATTTATTGTTTATGAAAGATCTCTGTCTTTTCTGGAAATCCATCGAGGATTTGTGATAATAAATGATAATTTCCTATTCACAGCGCGAATATCGAAAAG
ATTATGAAAAGTCAAAAACTATCTACACGGCACCTCTTGATATGCTCCAAGTCACTCAAGCTAAGAAATCTCAGGCAATTGCCAGCGACGTTGATTATAA
GCACATCTTACACAGTTACAGCTACCCCCCTGATAGCATCAATGTGGACCTTGCCAAGAAGGCATATGCGCTGCAGAGCGATGTGAGTAACCAGGGTTTC
TGTAGCCCCTCTTTTAAAAAGATGGAAACTGAAATGGACTTTGAAGTTGAGTGAGGTTTTTGCACTTCTTAGAGGTATCTGCATTGTCCTATGTATGTAA
GCAAACGACCCTTGTGGTTCTATAAGAGCATGCCCTTCARGGTTAGGAAGAACTGATCTGGCTTGCACCCTATCACTGTTTCCCTCTGGGAAATATRTCA
ACCTTGCTAAGTTTAGAGTCCTCCTCTGTAAAATGGAAATAAATCAAAAACATTGTTTGGAGGATGTAAATGCATGCAAAATACTTAGCATGGTGCCAGG
CCCTGGTGAGTTCTCAATAAACATTCAGTATTTATCATCGCTATTATCATAATCATCACATTCATCATTATCAATGATTTTTACATAGATTACTATCTGA
AAAGAAAATATATGATTTAACATAAATATTTATAACGKTTTTTTCTGCAGATCAGAACTTCTTTAAGCAAATTCATTTGTCCAAACCACACAACTGAATA
CTTCATCCTAACAATTCTATTTTTTAAAATGTGACAAAATACATATAACATAAATTTACCACCTTTGCAATTTTCAAGTGTACAGTTCAGTGGTGTTAAG
TATATTAACATTGTTGTACAACCAATCTGCAGAGCCTTTTCATCTTCCCAGACTGAAATTCTGTATTCATTAAACAGCAACTCCCATTTTCCTTCTTCCC
CTAGCTTGTGGCAACCACCAATCTACGCTTTGTTTCTAAGTTTGACTAACCCTAGATACCTCATATATGTAAAGTCATACAGTATTTGTCTCTTTGTGAT
TGGCTTATTTCACTTAGCAAAATGTCCTCAAGGTCCACCCATGTTGTAGCATGTATCAGAATTTCCTTCATTTTTAAGGGTGAATAATATTCTATTGTAT
CGATATGCCATATTTTATTCACCCATTCATCTGTTGGTAGACATTTGGGTTGCTTCCACCTTTAAGCTATTTTGAATAATGCTGCTATGAATATGGGCAT
GTGAATATCTCTTTGAGATCCTGCTTTCGATTCTTTTGGGTATAAACCCGAAGTTGAATAGTTGGATCACATGGTAGCTCTATTTTTTATTTGTAGAGGA
ACCACCATACTGTTTTCTGCAGCAGCTGCAAAATTTTACATTCCTACCACTAACAATTCTATATTATACATTGTTATTCTACTTGTTATTAGTTTGATTT
TGTTATGTTTTTTCATCTCAAATAGATCATAAGCCTCTGACAGGCAGGAACTAAATGCTTTCTTGATTTTCCATTCTACTTAAAATGCCCAGAGTAAAAA
ACAACAGTTTGAATTTTGTATCTAAAACGTAAATTTTTGGTACCACCTATGGTCAGACAAYAAGAGTAGCATTTTAATAGCGTCAAGTAACTGTGCCTCA
ACTAGGACCAATTCCAAATAATAACCGCCCTCTTATGCAAATTAACGAGTGCAACTGTTTTAAAGTGTTTTGTTAGCCAATGTAGAAACACTCCAAAGTT
GACCAGTACACATGAAGGGCCATGTGTGCAAATACTTAGTACGAATAGTTCTATTAAGTCTTATACAATTAGGAAATTAGAAAATGAGCAAATAACCCAC
CTTCAATGTGGCCTTCTATTTTAATTTGATAGAAACATAATACTTAAAGTTCCAGGGAACAAACGTCTCACATTTGGTTAACTGACAATTTCACTTACTC
TTTGAAGTGCAGCTTTGACTCGARCATTTTCCAGGTTGGAATTAGAGTACCACAGACTTCCATTAAGTTGGAAATAAGGATGAAATGGAACATAACRCCA
GTTAGAAGGAAAGCAAAAATCGAAGAGCTGTTACTATATCTCACCAAAGAAATATATAAAATAACCTTAATGTCTGGAGTAAGGAAGCTGGTCAGAAATC
TCAAAAACATTGTTTTGGGTAAAACTTTGATGATTTTACATAATGAGGATGACACAGCAAAGAAATGTAACCTTTCTCTTGGTGTTTTAGGTTGAATACA
AAGCTGACTACAATAGCTGGATGAAAGGTTGTGGCTGGGTGCCTTTTGGGTCCTTAGAAATGGAAAAGGCAAAGCGAGCTTCAGACATCCTCAATGAGGT
AAAGCCACTGGGTGTGTCAGAGGGAGAGTGGTGACTGTGTTGTGTTAAAGCTCTCAAAAGCATGGGCAGTGCTCCTTCATTGCTTCATTCTCAGTCACTG
TTGCTGAGGAAAAGAGCTTACCACGTGCACAAATTACCCAGGGAGACCAGCACAAACCTTTATATTACCAAAATCATTTATGTTAACCATTCCTTACAGA
AATATTTTTAACAATTTTATTAAGGTATAACTTGTTAACCATTTACGTTAACCATTCATTTATGTTAGCCATTCATTATAGAAATATTTTTAACAATTTT
ATTAAGGTATAACTTGCATACAATAAAAGTAACTCACATTAAGTGTACACTTTGACAAGTTTTAATAAATTCATATAATTGTGCAGTCATCACTGCAATT
GAATTTTAAAATGCTGCAATACCCCAAAAAGTTTCCCCCCAAAATTTCAGCTCTCATCTTCAGCCCCAGGCAACCACTGATTTGCATTCTGTCTCTAAAG
TTTTATCTTTTCTAGAAATTTATTTTGTATCTGGCTTCTTTCACTTCATGTAATGTTTCTGCTTGTAATTTGGTTTTTAAAAATTATTAAGTAAATCTTT
TGTATGGATTTATTAGGTTGGTACAAAAGTAATTGCAGTTTTGACATTAAAAGTAATGGCAAGAACCACAGTTACTTTTGCCCCAGCATAATACACACCA
CATTGTTATTATTGCTTCACCGGTTGGGGGATATGTGGATGGTTTCTATTTTTTTGTGATTATGAATAATGCAGTTATTATAGAAATCGTCTTTGAAGAA
TTATTCCATATGTCATATTCTGGTTGGCTTTGAAGTAATGTATAAATTATAATTCAGTGTAAGAAAAAATAGTGATGATCTTGAGGCTCATAAGGCAGCA
AGATTATCTGTCCCTCCCCTGTGACAGTTGAAGAGTCTCACTGCTGTCAGGTGAGTACATCCTCAAGGAGGGCAGACTACACAAAGGACAGAGGTGTGGT
ATGAGGGTTGTCTTCCACGCTCAAGTTTTACTTCTTGTTCGGTGTTTTGTTTTCGATGAAAACCATTTTGTCTGCTCAAAGATCTTCCAGAAGAAAGTTC
TGGGTTAGTGGTTTTTAGAAGTCTGAAGCCGAAAGAGTGATGATGCTAACTGGGATGTACAACATGCACAAAGGAAGAGGACTGGGAAAATAAATAGAGA
CGCGTACAGGAATAAGGTAGCTAGAAGTTGCCAGCTCCTAGTGGGCACACCTACCCAGGGTCTCCTCTGCAGTGCCCCTTCAGCGTTTTGGTGATAACTT
ACGTACTAACCACATTAAGACTTGCAGAGCAAAAGTCCTGTCTCTCTTAATAATTCCTAGCTGTTGGCCTAGTTCCTCAATTCCTCCTTCCTCAACCGGA
CAGCTTCTTGATGCCATTTGCTGATGGAGTAACAGGGAAAAAGAGAACTTGTTTGTGCCATGCAAAGGCACTCCAATCTCCTTGCTTGCTTTTCTGTTAA
ACCTTTAGAAAACTCTGTGATGTTTCCAGATTCTGCTTAGCTGAGGGTGTCTTGTTTCATGTCATAGGCAAGAAATTAAGAAAGGAGTCTGTCTGGTTCC
TGAGAGCAGTATATGTGTCTGTGCTGTCCCAAACTATCCACAATTAAATGGATTTTTAAAGATATTGACTTTTGTATTGCATTCATCAAGCCAATCAAGA
ATCTAGTGTTTTTGCATTTTAAAATCATGAAAAACTCTTCCTTTTCGCTTCAAAATAAATTTCAAGGATTTTGACGTATTAATCTTCAGTGGAAAACAAG
ATTGTTTTTCTCTTTTTGATTTRCCAAACAGAAAAAATATCGCCAACATCCAGACACCCTCAAGTTTACCTCGATTGAAGATGCTCCAATTACAGTACAG
TCTAAAATTAACCAGGCCCAGAGGAGTGATGTAAGTGTTAATGCTATCTATATGTTAATAGATGTTAACTAATACAAATACATTTGTATTTCAAATGTAC
TGATCACCTCTAGTTATTATACAATATGAAGAGACCCAATTACACAAGCATCTGTAGAATTCCCCAGCTGTTCATTAATAAAGCATGCCTAATTCATATA
TTTACAGTAATGTATATTGTGCTGACTGTCCTTTTAGCCATTTGACATTTCTTTCTAAGGAAAAGGTAAGAGGGACTTCTCTTAATGACAACAAAAACTA
CAAGCCTTTTTCTAGGAAAGACCAGAAAGAATGAGTATATCAAATGGGGAGCAGTTATATTTTAAGTCAGTGCAAAAAAAAAAAAATCATATATAATCAA
AACCATCCCTAAGTCCTTTTAATTGCCCACAAAATATAATATAGGTGGTTGGTGTATTCCACCCTATTACACTTTCCTGAGCTAGGCCCAGAGGTTCCTA
CTGCAAGTTCCAAGGGATCTTTGCAAAACTGAATAAGCACTGAGACAGTATCCTAAGCAACTGCATGTGTGACCTTGAATGCCTACAGATATTTGCACAT
GAATATGCAAATGCACAAAGAGTGTCCTTCCTAAAACCACCTCTGTGAAATATGATCCATTAGGAAATWATTTTCTGGTGCCATTAAATTTTCTTTCTAC
TTTATTTGTTTGTTTATGCATTTTTTTCTCTTTCAGATCGCTTACAAAGCCAAAGGAGAGGAAATTATTCACAAWTACAACCTGCCACCAGACCTGCCCC
AGTTCATCCAGGCTAAAGTTAATGCCTACAATATCAGTGAGGTGCRTGGGTGGACTCACGGGCTGATGCGTATGTCCAGACTTTACTAACACAGTCTCTA
AGTTGTACTTAAATGACATTTTTCTTTCAGAATATGTACAAAGCAGACTTGAAAGACTTGAGCAAGAAGGGATATGACCTGAGAACTGATGCGMTTCCCA
TCAGAGCTGCCAAAGCTGCCAGGCAGGCGGCGAGTGACGTAAGTCCAGCTGTGGTCATACATGGGCAACTAGAAAATGTGGGTGGRTGGGCTTGGGGTCT
GACGATGACCCAAAAGTCTCCATGCATGCAGTCCCCAATTGGAAGCAAATCTGATTGAAAACTATTTAGGAAATAAAGTTCCCTAAATAGATTTAAATTT
TCTGGAGGGAAAAGATTTGTATAACCTTCTACTGATCAGTTCTAATCAAGCCCCCTCATTTAAAATTCTCATGTATAGTTCTACACTAACTCACATTACT
TCTCTTGTGGAGATCCAGAAGTGACTTACCATTTAAGTCATAATAGCCTCCTGATGGTAAAATGTTATCTCAAAACTTTATTAATTTATATGATTTCCTT
CTTCCCCTTTCCTCTCCCTTTTTCCTTCGTTACTTCTGTAGACAGGTGAATAGGCCTCAATTTCACCACCTGTAATAGCCAGTCTTTGGGTTCTATTACA
GTTAAGAATTTTATTTCTTATCCTATTTATCTTTAACCAAGATGTGAACTGAAGTCATTTTGCTCTTTGAGATTTAAATAAAATTGGCTCAAGCCCCCAT
CTGTTATTCTATAGGGAGTGGAATCCCCCTCCCCATGATTTCTGTGGAGTCTCCGAGGTTTTTGTTTCTCTGCTTACCTCTGGCTCCTGGCTGGCTTGAG
CTCATCTGCGCCCTCCTCCTGCGGGTCTCCTCTTGCTGCTCTGTATGACCCAGAAATGAAACACAGCCCCTTCCTTTTGACTTCCCAGAGTCCCAAACAC
CACTTTACTGATTGTTTGAAATTAGGTTTACATCGCACCAGTGTAAATATGTGATGATTGAATAACAAATGTCCTCGTTCTGAAATGCCCCTGTCCCACC
CGAAGTTCTCACCCACCCCCTTTCTCTGTGGGTACTTTCCTCCAGCTGCCCCTGCCCCAACTTTCCACGAACCTTCCCTCATGTCTCTGCTTCTCAGTGT
CCCACAGTGCCCTCCACATATCTCTGAGGAAGCTCAGTCCCCCTCACTTTGTTATCCAGAGCCAGTTAGTGTTTACCCCCTCCTGGCTCTGGGTCTCCCT
TTGAATATCCAAGGACTTATTAAATTCTACTATCATTRATATTAACATCCTACCACTACTACTAAAAATTCTAAAACTAATTAAATATCCAGCTACTTGT
ACTCTAGTAGCACAATGTAATTGGTAGAGATTGTGACATATTTATCTTTTCATTTTTCTCTACCAATGTCTAAATGCAAAGGAAGAATATAAAGATCTGT
TTTGTCACTGATACAAATTATGGTAATGCCCCATCTCAACCTCACTTGGATAGGCAGAAACAGCTATAGACAATCAAATGGGTTCCATAATACATAACAT
TTTTATTTTAAGCAGGCTACATTTCAGAGCATATGCAAGTGAATTGTTAATTGTTTGGTTATTGAAGTACAGTAATTTTTGGGAAGCTCAATTACTTCAA
ATCATGGCCTCATTGTTTAGTAAAGCCCTCAAAACTACATTTTAAATTATGCCCACCTTTGTTTACAATAGGTTCAGTACAAAAAAGACTATGAAAAGGC
TAAAGGGAAAATGGTTGGCTTCCAAAGTCTTCAAGATGACCCTAAACTGGTTCATTATATGAACGTGGCCAAGATACAATCAGATCGGGAGTATAAAAAA
GACTATGAGAAGACAAAGTCCAAATACAACACGCCCCATGATATGTTCAATGTCGTGGCGGCTAAGAAAGCCCAGGATGTGGTCAGCAATGTCAACTATA
AGCATTCTCTCCATCATTACACCTACTTGCCTGACGCCATGGACCTGGAGCTGTCTAAGAACATGATGCAGATACAGAGTGATGTAAGTGTCATTTACTT
CTCAAGAAACCCCCCTATTAAGTTCAGAGCCTGCCATGAAAAGAACCCTGTCCTAGGCCCTCACTCCTCTTTTCTCCATTGCTGTAGAACGTCTACAAGG
AAGACTACAACAACTGGATGAAAGGCATTGGCTGGATTCCTATTGGCAGTCTCGACGTCGAAAAAGTTAAAAAGGCCGGTGATGCTCTGAATGAAAAGAA
GTACAGGCAACATCCAGACACCCTCAAATTTACCAGCATTGTGGACTCCCCAGTTATGGTCCAGGCAAAACAGAACACGAAGCAAGTCAGTGATGTGAGT
ACAATAAAATAGAGAGGACAGAGGATATGGAGGAAGCTTTTTAGAAAAGTAAACAGCAGCCCAATATATTTTTTTTCTGGGCCAATATCTTTCCATTTTA
AATTATTTTGTTTATTTAATTTTTTAAAAATTACAGTTATGTGTAGTTTGGGCACTAACATTTTCTTCTCTCTTGCTTTTTATCTTCCTTTTTAAAAACT
TTTCCTTTTTAACTGTCTTTGAAATATTGTGTTATTGAATAAACTTGACATGGTGAAAAAATTCTATTCTAGGACTACACACATACACATGCAAACACAT
ACATACACAGAATTTAAGCTTAAATCCCAGACACTTTATTGTGGCAGATTTGTTGTATTCAATTCTATGTTAAGTTTCTCATATTTTCTTTTCATATATA
AGACATTAATACAGAGAAGTAATACATATGAATATACGTTTTTGCTCCTAAGAATTCAGCATACACAATTATCACAGAGACTTTTTAACTTACATCTGAT
TGAGGTGTGTATCGTTTGCCTGCCTGTCCATGAGCAGCGTCTATGCTCTGGCTAAAGTCAAAGTTTCTAAAGGAAAGTTTGGTATACAGAAGATCAAAAG
CATTCACTCGTTTATTTATTTAATGAATGCTTTTTGAACATTTACCATGTGCCAGGCACTGTATTACCTGCTGATGGCATAAAGATGAAATAGATGAGGA
TTCATGGGATATAGAAATTCACAAGAATGTAGGGTAAGAGCATAAGACAAAGACATGGCTACAAACAGAGCATTGTCATCCAGAGAGACAAATGCCGCAG
GAGAGGAAAATGTTAAATACAAGGGAGGTGCCTTGTACACAGGTAACTGCCTACCAGAGTTTCCCAGGCAAGTGAGAGAAGTGAGCATTCCTGGCAAAAG
GAACAATATAACAGCAGTAGAAAAGGAATGAACAATATAACAGCAGTAGGAAAGGAATGAAAAAGTGTAAAAGCAAAAGGTTCAGGATTGTAACCTGATT
AGTAAGGGACTCGTATGCTAATTTTTAGAGTCTGGATATTAGGGGGTAGGTAAGAAGAGATGTTGAATATGTTTAATCGATGGAGCCGCATTATCAGGCT
TGTGTTTTAAAAGACAATGCTGGCCCCAAGTGTGGAGACTTTGGAAAGAGGAGAGACTGGAGGTGAGAAGATGAATTAGAAGGCTGTCACCGAAATCCAA
GGAAGGCTTAATTGGACTGAAGCTAAGGCAGTAGCAATGGCAGAGAAGGAGCTGTGTAGAAGGTCGAATTCATGAATCTGTCATTGCTTAGATATTGTTC
TTAAAGGCAATGAGGACTTAGAGGTAACTCTTTGGGTCCTAGAAGAAATTATTTATTATTTGGGGATTAATTTAGCTATTAGCCATGTCAGATTTTATCT
TGGGTACATGCATACCAGTTTACATGTCATATTCCATATAGTCATGCCTTGGAAATAAGGATATATATGAGAAATGAGAATTATGAGATTGAAAATCTAC
TTGTGATTCTGGCTCTATTTTAGTTTTAGGAACTAAGTAATATATTTCTAATACCAGGAGGAGGATGCAGTAAGATTTCTGCATCACATACTTTGACATC
TTTCAGTCAAAAGTGTATATAATTCTTTAAAGTAACAACATAGGGCAAATATGAAATAGTGAGCCTTTTGAGTATGCTAGATTCATGTATAAGCACCTCT
ACATTATGAGGAAATTATTGTATGCTTTCACTGATACAATTATAATTTGGAAAGTTTTTAGCAGAAGTGAAAAACTTATTCTMWCTAGGGMTAATACTTT
CTCTCTAGGGATAAAAAAATAGAAACTAACAAAAATGGAAGAGCTATTAACTCACAGGCAAATAATAAATTGATTTGGCTTTGGTGAATTCTATTATTCT
TGCTAGGGTTTCATGGTTGAATTTACCTTCCATTCATCTTGGGCAGTGAACAATTTCTATTTTCTTAAGGATTTTTTCTCCTTCTATTTTAACACACAAG
ACTTGTTGGTATTAAAGATAATAAGATGCTTGTTTTATTTAAAAAAATAGGAAAATKCCTTTGATGATTTTTAACACTAGAAAATCATGGGTGATTGTGC
TAAAAATAACTCTTTAAAGCAAACAATTAATAGATTTTCCTTTTTGCACTATGTGAAATGCATTTTATTGCAGATCTTATACAAGGCTAAAGGAGAAGAT
GTGAAACATAAATACACCATGAGTMCTGATCTTCCTCAGTTTCTCCAGGCCAAGTGCAATGCTTACAATATAAGTGACGTAAGTAGGGTCTTTGCTGKGA
TGTGAAATTCGGACCTGACAATAAAATTATAGACTTTAAGAGTAGGATGGTGCCTTGACAATTTATTTAGGCCCATTTCTCACAAATCCCCTACTGGAAC
ATATCCCATAAGGATGGTTCTTTACCTCTTCAGTTGGCCTTTTCAAATGTAGGACAATTTTAAAGGACATAACATTCTTCTCTATTTAGGGGATGGTAGA
GCTCACCATCTATTCCCCTAAAACTTCTACTTGGTTTTCCTAGTTTTGCATGTGGGGGAGGTTATTATCCTCCAGAAACATAAGAATAAATGAGCTCCCT
TTTAAAATAACAACSCTAAAATTTCTAAAGCTGACCACCAGGTCTTCTCTTGACATTCCTTTCATGAGAATGAACAACTTCATTGTCTCTAGTTGGTCCT
CACATACCATGGTTTCCAGAACCTTTATTTGTTTTTCTCTGGATCCAGTCTTTCAATATTCCTCTCTTCAATATGTGTCAAAACCAGATGTAGGTGAATA
ATTAGTGCAGAGTCCAATGATCTCATGCTACACACAGTGTGACACTTTGCCAATGTGATTTCCTAAAGCAGTATGTGCTATGAGGGATTCCTTCAACTTC
TGTCTGGAAAAGAACAAAACAATCCCAGCAGTTGAGGAATCACTTACAGATGCTGACATTCTGTTTGCTTTTCTGTCCAGGTCTGTTATAAACGGGATTG
GYATGACTTAATAGCCAAGGGCAACAATGTGCTGGGCGATGCTATTCCCATCACTGCAGCCAAGGCATCGAGAAACATTGCCAGTGATGTGAGTACAAAT
TTTAGGTGAAGTTTAGGTGTTTGCCTTTTTGAAAAGTAATCAAATGCTTGTTTAAATTGATACCTTATTGAAAGAAATATGTTAAATTAATGGCATTTAA
ATTCTCAAAATATTGTTTGGAAAAACCTGTCACTTTTAGAAACATTTTTGTGGTTCTTTTCAGTTGACCCCACTTGGTAGAGCTGTCATAAATCTGACAG
TGGCTTTCTCCTTTGATTCATAGCCCAAATTACCTTCACTGACACATTTCCCTGACAGCCCACATTTATTTTCAGTGGGAACACCCTGACTGACATTACC
ACATTAAATTCAAATGACTGCCTGCATTATAATTGTATTAAAAAGATTGAAAAGATGTTATATAAAATGTACAGATTTTTATAAACCAAAGAGGGAAAAG
TCCACTTTTTTAGGATATAATTTTGATTCATGTAAATTGATGTCCATTTCCTGTAACAGAAAAAGTATACACTTCTACTCCTTTCCATCTTTGAAAAACA
AAATTTTGGCCGGGCATGGTGGCTCACGCCTGGCCAAAATTTCAGAAGAGCGGATCACGAGGTCAGGAGATCGAATGGTGGCGGGCACCTGTAGTCCCAG
CTGCTAGGGAGGCTGAGGCCCGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGG
GAGACTCCATCTCAAAAAAAAAAAAAAAAAAGAAAAAGAAAAATTTTTAGAAAGCATGCATGCCCTGCAGAGTTCACTGTTACATGCTATCCCAGGGAAT
AAAATCTTGGTTTGAGAAAAGAGAAGAAAGAAACCAACCAGGTATACAGACCACATAGGAAATAGAGGTGTAAAAACTCTGCTACTTTCCTTGTAGGAAT
GATACTGAAAACATCTTCCTCGGAGGTCTGCACACAATGCACATCACTATGAAATACATTTCTAGTCTAAGTAGAAAGTGAAAGTCTACAGTATAACTTT
ATTCTTTTTTTTTCTTTTTTTTTTTTTAGCACTTACACAGTGATTTTTCACATGTTAGAAATTACTTGACGATCCTTTTGCCTGCTAAACTCTTATTTAT
GAATTAAGGCTTAAATAGCAGGAGCTGAAAGTCTGCAGGGTTTAAGTGGATTTGAATTCTCTTGCATAACAGTTGAGGTTCTGACCTGTTACAAGATTGC
TCCAATTTATATCACATTGCTGATTCCAGCAGTGAGAGACTTTGGACAGCAGAACTTTTTCCATTAGGTTTTTATTGATGGGAAAACCCCACAGCAGGTC
CTTACTGTGGCTCCTTAATTTATTTGCAGCTGTTTCAGCAGTGAGCTTGGAAAGCAGCTGCTGATAAAAGGAGTCAGTGAAGGCCCAGCTATCCTATAGC
TGGTACTCATATTTGTGATGTAAATAACATATTAAATCGAAACCTATGAAACCCTATGAAACCAAGAGATATTGGCCTTATATTTAGAATGTGTCATGTT
CATATTAAGTGTGAAAATTCAGTTTGTTTAAAATAAAGTTCCACATGCAAATTATCTGTAGGAGTCATAGCAAAGAAAATAAACTGATCTTGAATTTATC
GTGACACTCACTTGTAACTCCAATATATGTTTTCACTGAACTTTTTGGAGGGGGTTGTGGTTTGCATTTTTTGTACACTCTTGAGAAAGTCACAAAGCTC
TGAGTGTCTTTATATGTGAATGTAATTGCAGCGCTAATGCTATCAATGCCTAGGACTTTGCTAACCCAATTCTGCCTCCACAGTATAAATACAAGGAAGC
TTATGAGAAGTCAAAGGGAAAGCATGTGGGTTTCAGAAGCCTCCAGGATGATCCCAAGCTGGTCCACTATATGAATGTGGCAAAGCTGCAGTCTGATCGT
GAATACAAGAAGAACTATGAGAACACCAAAACCAGCTACCATACCCCTGGGGACATGGTTAGCATCACAGCTGCAAAGATGGCCCAGGATGTCGCTACCA
ATGTCAACTACAAACARCCATTGCATCATTACACATACCTACCTGACGCCATGAGTCTTGAGCATACSAGGAATGTCAATCAAATTCAGAGTGATGTAAG
TATGTGTAACAACAGACCCAGAGATGTTTGCACTTAAAGGATGATCACTTCTCGCTTTTATTAGACTTCATACTACAGTCAGCTATTTGACAAATGCACT
TTAGAATAAACAACCATTACTGAAAGACTACCAAAGGCATGGTAGACAAGCTGTTTTTGCCTGCTTTCTGTGCTTATATCRTAATTATTGATGCTGTCTT
TATTAACTTATGGATAAAAGATAAAACTATATTCCACTAACTATGAGAGCCACTTTGATTCACAGCAAGAGGAGATGGGTATTCCTGATGGGTTGGCTGC
AATGGTGATAGATACAAAATGCAAAAATAGAAGAATTTTCTATCCTTCCTGAATTTGGGAAAGGTGTTTTTTTTTTTTCCTTTATTAACTCAAGGTCACA
ATGTCATCCATGTAAATCTCTGTAATGAGTCATCTAAAATTAACCAGGAAGGTTTTGTGCTTGCAACATGATTCATGGAGAGTTGCATGGAAAGGTGTTT
AACATTCAGAGCCTCTCCTGCTGCAGGAGCCAGATTTCTGTTAGAATTGTCCTCTGTAAAGGAAAGAAGTGTTATACATTTATTGGCACTCGATAAAAAT
ATTGCTCCCCAGATGAGCTCAAGCATAGCCTAGGTGGACAGTATGGATGTAATTTAGTTTTGAAGTCTTCAGTGGAATCAAAAGGAAAGCCCAATTTATT
GTCAAAAGTGACAAAATSCTTTTTAGCAGCACCCATAGTGACCTGGATTCCCCTCTGTGTTGCATAATGCAGTCTAAAGCATGATCATTTCTATTTTATT
AGGCTTCATAATACAGTAAGTGACTTGAAAAAAAATGCTTTAAGATAAACAACCATTATAGAAAGTACCAATTTATTGTCAAAAGTGACAAAATTTTTTT
TAGCAGTACCCATGAAAATATGTGACCTAGATTCCCTTCTGTGTTGTATAATGCACTCTAACAACAGAACAGCTTCTTCTTATTACCACACTCCAGATAA
GCTCTGTGACAGACAGTCAGACATGAGCATGCTGAAGAGTTGCTATTCATTTCCCTTGGATAGAATTGCAGATCCCAGAAACATCCCTTGAATATTCTCC
AGGGTATCTTCTCATATTAGCTTACCCTTTTACAGAATGTGTATAAAGACGAGTATAACAGCTTCTTGAAGGGCATCGGATGGATCCCTATTGGTTCCCT
GGAGGTGGAGAAGGTCAAGAAAGCAGGCGATGCATTAAATGASAGGAAGTATCGACAGCACCCAGATACCRTCAAGTTCACAAGTGTGCCTGATTCCATG
GGCATGRTGTTGGCTCAGCATAACACAAAGCAGCTAAGTGATGTGAGTGCTTTCCTTTCAAAATGATTTGCCCGTAAATAACCACACGTGTCTGAGCCGC
TCCTCCGTCCTTCTTAATTCAATGTGTGAGGATGCATCTATGTTAGCAAATAAACTGCTTTCATAGGTATGAGAGAAAGGGCTGCCTTTTGAGGCAACTG
GGATCTTGAACATGGGAAAAACAGGGAGATGAAAATGGGGGACTATTCCAAATTTGCTTTGTTTTCCAAATGTAGAGAGCCTGTGCTATTCATAAGCAGA
TACGCATTATACATATGAAATAACATTATTACTATCATTATCTGTGGCTCTGTATGAATTGCAAAACAAGCTATTTATTGCTCTTGGTTGCAATATTTCT
ACCTAGCCACATAGGGAAGAGGCATAATGTCCTAATCCCCTCGCATAATAGCTCCATGTTCTGAGAGGCAATCTTAGAATGAGGCCTCTAGGGAGGAGAT
AAGCAGTTTATTTGCAGTCATCTGGGATCTCATTCTGAGACCACGTCTGTATGGACTCTTACACCGTGGACTCATACCACGTCTGTATGTCTCATTCTGA
GACACGTCTGTATGTCTCATTCTGAGACACGTCTGTATGGACTCTTATTCTTTCTGTCAGAAGCGAATTACAATGCTCAGGGCCTCACATGACTTGTTAA
TTTTAGAGTTCTGTTAAAATGCCTCCACCAGAAAGAGACGGGTAAGTAAAAAGCAAAGAAAGACTTTTTGTATTTTAGCCCCAGATTTTGGAAGGTGGGG
AAATGCTTTGCTTGCCTTGGATTTGAAGATCTATGGATTTTAGCTCCTGCCCCCACATTATCACAGATGTCTAAGGGTTAATTCTATCTTAGGAGTAATA
ACTGGTGTCAATTCTTTTTCTTTTGTACTGAGCGAGATGTCACTTCTCATGGTGTTTTTCCAGTTAGCTAGGCAAACTGTACACTCACTATATAAAGTCT
TCCACATCACAATAAATGCCATCAACATCTACCTCGTTACTCAAGCTGGAAACTTGGCAGTCACGGTTAACACCTCCCTGTGTGAACTCCCACATGCAGT
ACCTCTGCTGAGTCAGCTTCCTAAATATCTCTCAGCCAGTCTGCTCTCAAATGCCACCAACCCTACTTCCAGCTTCTGTATGGCTCGTGTGGACAACTGC
AATAACCTGTTATCTGGACTCCCTGCCTGAGGTCTCAAACAATCGCAAGAGCCTGTCTTAAAACACGAATCAAATCATGTCCCTCTTATGTGTAAAACCT
CTTAGGAATTTCTTGAATGTGAAGTGAAATCTAAACTCATCAACTTGACAAAAGACCCTCTTCTCTGTGGCCCTTCTGCACCTTCTGTCTAATACTGCTC
CACCCCCACGTCTACCCAGGCACATTCCAGCCCTGTGACTTGGACTGCTTTCATTTCCTCAAGGTGGCCAGGCCATTTCCAGCCTCAGGTCCCGAAYGCT
CTTCCTCTGCCCCTCTCTCCAAGTTTGAGYGTAAATGTTACCTCTGCAGAGTGGCTTTACTGACCATCCTTGTTTCTTTGCTACAATGATTCCATTGACA
ACACATCACAAATTCTAGTGATAGTTTGTAGTTTACATGTTTTATGTCTGTCCTTTCTATTGGACAGTAAGCTCCAACAGGACAGATATGCCTTCCTCAC
CTCTTTAAACACAGAACTTACCACCCTGCCTGGCCCACAGTGCTGTCCAATAAATACTGGTAGAATGGGAACATAAATGCATCTACCAGGGCCCCTCCCT
TATGACAGAGTAGGTATTTGTCTCGTAAWTGGAAAACACAAATGATAGCCTTCCGTTTTAAAGGAGTCTCTGCTTGATGAAATTTATATTATGTCAGCTA
ATGATATGTGCATGCTGTCTCCTTTGTTTTTAGTTGAACTACAAGGTAGAGGGAGAGAAACTGAAGCACAAGTATACTATTGACCCTGAATTGCCTCAGT
TTATTCAAGCCAAAGTCAACGCCCTCAACATGAGTGATGTGAGTATTTGGCCCAGTGCTAATATTGCGTATGCGGGCCTCTCCTTTCTGGTTCTTTGCAA
CTCTTGCYCTGAGAATTGTAGGGGGCGCAATTCAGTGTGGACCCTGAGCCTCCACATTAAACCCTTAACCATGCAACATGAGCCTAGGGGGCGGCAATAA
AATTTTGCTTAATACAGGCTTTTCCAGACTATGGGCTGTGGCTTATTAGTGGGTTGTAAAGTCAGTCAAGTAAGTTGTGTCCCATTTAAAAAAAAAATGG
AACATGAGACAGACAAGATTGGAAAACACAAGAGTGCCTAGTCTGTAGTATGGAAAACATTGCTTTTTACAACTTTTAATTATTTATTAAAACATCCAAA
AAAGTTTAGTTTTCTTCACAAAATCTTTTTTTGTATGTAACTAGCCTTTCTCTTGAGTGGTCTAGACATCTAATTGGTGGTAATGTTTAAATCCACTATT
ATGAATTGTTTCCTTTTTTAAAAAAAGGATATTGATAAATCCTAATTTAAAAACATAATAAAACTTGGATAAAATTGTTAATTTTTTAAAAGATGGCTTA
TTCATTCTTTCCAATGTTTTTAGGCTCTGTTTCATATCCAACTATACATTCCTGTGCTTTTGTTTCATTAAGGGGAAAGATTTTTCTAAGTAATATTTAA
GCATTAAGATCAATTAAAGCTGAGTTGTACTACATCTGGATTTTTAGTTTTAGTATTCATATCTTCCTATAAGCTTGAAATGCTTCATTACAAGAAAYGT
TTTTCCAAAAGTATTATATATTTATTATAGAAAAGTTGGAAAATATAGAAAATTATGACAAATAAATGAAAACCTTCTGTTATCCAACAGTCAAAGCATT
ACCTTTCTGTTGCTTTGTTATGCAAGCATATACATTTTTTGATCAGTTGAGATTATACTGTGTATACAGTTTACTGATCCTTTTAAATAAAATCAATTAT
ATACATAAAAGACAAACTAATAGTCCTAACTTCATAGATTGTCTTAATAGAAAGGGATCTATTACGACATGTTTTATAAGAAACATTTTGGCATTCTGTT
TCATTCCTCTTTTAATGATGTCAAATAATAAAATAACCTCTACTTTTTTGAAGGCTCATTATAAAGCAGATTGGAAGAAAACCATTGCCAAGGGCTATGA
TTTGAGACCAGATGCCATCCCAATTGTTGCTGCAAAAAGTTCAAGGAATATTGCTAGTGATGTAAGTCTAACTTAAAAGTAGGAAACTTTCTATCTAAAA
GACTTCAGGAGTTCAAGACCAGCCTGGGCAACATAGCAAGACCCTGTCTCTACAGAAATAAAAAAAAAAATTAGCCAGATGTGGTGGCGTGTACCTGTAG
TTCCAACTATTTGAGAGGCTGAGATGGGAGGATCTCTTTAACCCAGGAGTTTGAAGCTGCAGTGAGCTGTGATTGCACTCCAGCCTGGGTGATAGAGTGA
GATCCCATCTCTAAAAAAGAAAAAAAAATCTATATGTGATGTATAAGATTGTATCAACTACATAAAGAAGCAAGTAAAGAAATTATAATATAAAAATATT
TCCTAAAATCCTAATTGCCAATTACGTTATTTATATTGCCTCACTTAAAATATTTTTCACATATTTAAAAGCTTAATAAAGTTGTTAGAAGAAAATTCTT
TTTTAAAAACTGTGACGTACTTAAAACTTTCATTAGTATCATTGTTATGAACTTAAAAACCACTTTTTATTTGGATTTTGTCATGAAAAAAGTCATGATA
TACTAAAATATCACTAAATTAGAAAAGTCTCCAAGTATTTTAAAATAATTCAGTGTTTTAATTTTATAATTTCCATGAAGAAAAAAAATCCATGGAAATA
GAAATATGGAAAACCAGAAAAAATATTTTGCTGATTCTTTCTGGTTTTTCGTATTTCTATTTCCATGGATTATATAACAGGATTTTAGTTAATTACATAA
CAGGATTTTAGTTAATTTTTTTTTTTACAAATTAAGTTATATTCCTATATGAATTGACATAATAAATGCCTTGATAGAGAAAAAAGGCATTAATTTCAAG
ATTAATACACTAATTTGTATTAGGGCTGAAATTTACTCATACAAATACGTTTTAAGGTAATACAAATTAATAATGGAAATATAGTCATAAAAAAGCATAC
ATTGACCAGACATGGTGGCTCACACGTCTAATCCTAGCACTTTGGGAAGCTGAGGAGGGAGGGCCCCAGAGGCTGCAGGGAGTCATGACTGCACCATTGC
ACTCTAGCCTGGGGGACAGAGCAAGACCCTGTCTCAACAAAAAAACCAAAAAACAAAAAAAGCGTACATCAAATGCTTCATAAGCCAACTTCTCAGGAAC
CTTTGAGTATATTCAAATAATCTACTTATGAAGAGTATTAATATAAACTATTCCATTATTCCATTTTTAATGATCTCCAGGGCAGGTCTCAAGATGAGCC
ATTAAAAATATTTTGCTAATTGTTTATTTTAAAATACAAAAAAAAACTTYGATGTTACCTAGATTCAGACTGAAGTTGGCTTTTGCTTAATTTGTTGTAT
AAATTCAGTTTATATCAGACTTCTATGCTAGCCAACTTCTGTTTGCCCTTTGTTTTCAAATAGTGCAAATATAAGGAGGCCTACGAGAAAGCCAAAGGCA
AGCAAGTTGGATTTCTCAGTCTTCAGGATGATCCTAAACTGGTTCACTACATGAATGTGGCCAAAATCCAGTCTGATCGTGAGTACAAAAAGGGCTATGA
AGCCAGCAAGACCAAGTACCACACACCTCTGGATATGGTCAGTGTGACAGCTGCAAAGAAATCTCAGGAGGTTGCCACCAACGCCAACTACAGACAGTCA
TACCACCACTACACTCTCCTGCCCGATGCCTTGAATGTGGAGCACTCCAGGAATGCCATGCAGATTCAGAGTGATGTATGTACTGGTTACCAAGTTGTTA
TCCATTTCTAATGGGTGGGAGGRAAAAACAGGAGCCACTTACTCCATCCCACACCTGGCTGCACTCACTGTAATTAAGGATTCCCTCCAGAACTCAGAGT
TTTAGGATTTCACTCATTTGAACTATAGGTGGCTTTGTTGTTAATTTTATATATATGCATACAAATATATTTAAAATGTTGGTATTAGACCCAAACATAT
GATGTTGTCTATGAAAAATTAGGAGGCTCAGATAGATGTTATATAATTTTCCTTCCAGTGCAAAATTCTGTTAATTTTTCATTTATTTTCCTCAAGAAAG
TTAACTTGTTAAAGGAATTGCTGGGTCAGGATTTCCTGTTCAAAACCACTATGAATGCAATTATTTTTATAATTAATTTCTTCTGAAAGACTGTAGGGAG
TAAAAAGCAGATTATTCTCCCCCTCCCAGCTTCTCTTTTTCTTTTTGATTGTAAGTAAATCAYATAGCCAAAGAAACACAAGCCCTGACTCTTTCTGAAA
TGAAATTTTTTTTCTCATTGTAAAGAATCTGTACAAATCTGACTTCACCAATTGGATGAAAGGGATCGGCTGGGTGCCCATAGAGTCCCTGGAGGTGGAG
AAGGCAAAGAAAGCAGGAGAGATTCTTAGTGAGAAGAAGTATCGCCAGCACCCCGAGAAGCTGAAGTTCACTTAYGCCATGGACACAATGGAACAGGCAC
TTAACAAGAGTAACAAACTGAACATGGACAAGGTAAGGACTCACCTGCCAGCCTCGCCCAGGGAACCCTCATGGTGTTCATGACATTGAGCCTGGCAGTG
CCCCAATCGTCTCCTACAGTGTTTCTTTCTGATCGTCTTCGTGCCGGTGGTGGGAGGGGGACTCTATTGCTTCCATTATGTTTAGAGCGTTCTCTTTCAT
AGTGACCCCTCAGATCATCTCTCAACAGCATGTTAAGAATGTGACAGAACCACAAAACTCCACATGGTTGTGCGGTGGGGGCAAGATGGTATTTGGTGCT
TTGGTGGTAGAGGGTTGCCGTATTCAACAATTTTTTTCTYATTGTGTATTTAGTTTACTTGGCCCATCTTTTTGTTATTTCATCCATTTTCTAATATCCA
TTTAACCTCTTTTACCATGGAGTTGTAAATCTCTTCCTCTTGCTAGCATTGGGTCAAACTTGTCCTGCTGTAAAATCATGCACCTGACTTTCTCATTGCA
GAGGCTCTACACTGAAAAATGGAACAAGGACAAGACCACCATTCATGTCATGCCTGACACACCGGATATTTTACTCTCCAGAGTAAACCAAATCACCATG
AGTGATGTAAGTAGGTTAACAACAGCAAAAGCTGGGGAGAAGGTTAAAGGGAACTGATACTTATGTCTGCATTCTACATACCAACCACTTTGTAGTCAGG
ACCTCTATTCTAACCCCAATAACAAGATGCTGTTGTTTTTCTATTTTATTGTTTAGAAACTGTACAAAGCTGGCTGGGAAGARGAAAAGAAGAAAGGATA
TGACCTGAGGCCTGATGCCATTGCAATAAAGGCTGCAAGAGCCTCTAGAGACATTGCCAGTGATGTAAGTGCTTGCACTGGGCCTTTTTGGGGTTGAGCA
AGTAAGAACAAATGCGCTAAGCTTGTGTGTATGTAGGAGCAGTGGTCAGCTCCATTCAGGGTTGGTGGGAATGCCATCCCATGTGACACAAGACACCTCC
CTTCACCCCATCCAAGTACCCTCTAATCATCTGTTCATTATTTAATGTAAGTAGTGACTGAGTCTTGTTAAAATAAGTAGCCTTTAGAGTCTATTCAAAT
CACTTACAATCCTAAGCAAATGTAAAGATGCAATCTACRTGTTTTACCAGGAGGCCCATGGCCAGGCCCTCTCTTTAAAGATGCACCATGAGAAATCCTG
CCTGCAGCCTTTTCTGTCACTTAGACAACTGAGTGGGGAAATCTGCTTTCTAAATCTCTCTAAACCAATTTATTTACACATCTCTTCGATTAACTCTGAG
ATTATTTTCTTTCCATGGACTCAAGTCTSGGGAAAAAAAAAATGAAGTAAAAAGAGTTTGCTCCCTCCCTCTCACGAGTGCCTCCCTTCCAATTTTAGAG
TAGCTCTAAAACCCTTCATCTAAGACAAAGCTCACATCACCTAGCAAATGGTACTTTGTTCTCTTTTACCATTTTCATCACCATAATTTCTTCTCTGTCC
ACAGTACAAATACAAGAAAGCCTATGAACAAGCCAAAGGGAAACACATTGSCTTCCGGAGCCTGGAAGATGACCCCAAGCTGGTGCACTTCATGCAAGTG
GCCAAGATGCAGTCAGACCGGGAATACAAGAAGGGATATGAGAAATCCAAGACCTCCTTCCACACCCCGGTGGACATGCTCAGTGTGGTGGCAGCCAAGA
AGTCTCAGGAAGTGGCCACCAATGCCAACTACAGGAACGTGATCCATACCTACAACATGCTTCCYGATGCCATGAGCTTTGAATTGGCCAAAAATATGAT
GCAGATTCAAAGTGATGTACGTGAAAACCACATTTGCAGAGCGTTTACTCYGGATAATAAGCAACCATGAGTGACCATAAGCAATGACGTTTTGAAAATC
CTGAAAGAAATTCATCTGCAATTTCCCAACATAGTGTTTCATTTGTTACCTTAGATTGAATTCATGTCCTTTAACAAAAGGAGATCAATTCTAGAAACTA
AAGTCTTGTTTTCTACTATTGTTGCTGGGAGCATTGTTGGATTCTGAATTCCACAACAGCAAATGGAACTTCATTTCAGAAAGAGTGTATTGAAAGRAAT
ATGTCTAGCAAAGATGGTCAAAAGCATAATAGGCTTTTAATAGAGGAATAAAAGGGAAAGTAAGAAATCAGATAACCTGATAGCTCCAGCCCCTCCCTCC
CAACCGGGTTTCATTCTACCACTTCTAACTTTGCAATTGCCTGCCTTACTAATGAAATTTTGAGAAGGTGATGACTGAGGCAGCCTTTAGACTAAATATA
AGGAAGACAGAGAAAGAATAGAGCCAAGAATTTAGCTAAAGAGTCCATTTGATGGTTGGAGAGGTGAATTAAGTTACAAACCCAAAGCAGACGAAAGCAA
GGCTACATTTCTCTTTGGGAATGTGAGGGCTGAGCTATTAATTGTCAGGGAGGTAGTAAGTGCCTGAATGAAAGCAGCCATGGCACAGGTGTAGAGAGAA
ATGTCAAAGCTGAGGAGGAAAAAATGAAATTTACACAAAGTACCAGGAAGGTTTCTGGCATACCTGAGGGAATTGTAATGGTGGTGGTTGATCAAAGACA
GTGAAAGAGAAAAATGGGGTTTCCATAGTCATCTGTTAACCAAGGGGACTTGGGAATTTTTATAAGAAAGGTCAGCATAGTTGCTTTTCTCAAGGAGATA
ACAGTCACCTGGGAGATGAATCTATGTGGTATTTCTTAGTACTTTTTCTTTATGAAGGCATTGAGAAAAACAAGTCACAAAGACATTTCTGCTTATTTTT
AATTTATCATGCAAGGAAATATAAAAAGGATAAAAGTTTAGGGAAGAAATGGTTGAAGTTCAACATGCTATTGGTTAAATACCAATATTCAAGCAAATAT
TGAAGTGGAAAAGTTACAGAAAATTTACAAATGAAATGGAAGTTACAGAATGTTAAACACACACTTAGGATTCTTGGGAAGTTCCAGTTTCTTCTCATAA
TTTAATTTTTCCTCTTTTGCAGAATCAGTACAAGGCTGACTATGCTGACTTCATGAAGGGCATTGGATGGCTCCCTCTGGGCTCCCTGGAAGCAGAGAAA
AACAAGAAAGCCATGGAGATTATTAGTGAAAAGAAGTACCGCCAGCACCCAGACACTTTGAAGYATTCCACACTCATGGACTCGATGAACATGGTTTTGG
CCCAGAATAATGCAAAAATTATGAACGAAGTAAGTCTTTCAATAATGCAGTGTTTCATATGCATCAGAGAGAATCCAGGTATAATTTACATTTAATCCAC
AGGTTTTGCTAATACAGTTATAGGGCATCACACTTGAGGTTATTTTACCTAGAAAAAGAGTCCTTGTCGTTAAAAAAAAAAAGAATAGGAATTATTTCTA
ANNNNNNNNNNNNNNNNNNNNAAAAAAAAAAGAATAGGAATTATTTCTAACTAGTAGTCTTCAAATCTTCAATGAACCATCCTATCTCATTGACATAACC
AAATAAATAGGGACTTTTTTCTTTTACTGCACCTCTTGAAAATGAGTCCTGTTTGTCTAAGGTGAGGTTGAATAGACATTCATGACACTGAATCAGCAGA
TTTCCTGATGGTAGCTGGTGTTGGAAACCACCTCCCAAACCCCAGCTTGCTTTCTGCTTTGATGGGATCAAAGAAAAGTCCAAGATTACATGCCTGTAGC
AGCATTTCAAACCAGGACGTTCTCTGGGTAATCTTGAGGGCAGTTGTTCTACATCAGTGTTTCCTTGGTTCATGAATTATTCCAGCTTTTAGAAAAGACT
TACTCTATTTTTACATTGATTTGCAATAAGAGATCAAGACCAACAAGTACAATCAACCTTGAACATCTGTTTTTGAAGTTAAAAGTAATAAAATAACTGC
AGCAGCACTGGTGGATCAAAATGAGAAATGCCTTTGATAACAGAGAAAAGGATGATTTGGATCTAAACGTGAAACAGTTGCAGAAAATAATGGCCATAGT
TGTGCTAGAAAGATAGAACTGTATTATGCTAAGCCACGGAGCAAACCCCCTGGAGTCTTCAGAGAATTGAATGATTTGTGGAGCTCAACCTCCTTGAAAG
GGACCTGCCTCAAAGACAAGGCACAAATTTCTGTGCCTCTTTTAAGATTTAAATCTAAACTACATGAGGATATCTATTTTTTTCAGTGTTAGTGATTAAC
ATTTCAGGATAATGATGCCAAGAGGAGAATCATAGAACTAGCACGTACTGGCACCAAGAGACATCTTGATGACCATCAAGTTGAATCCTCCCATTGCAGA
GTTGAGAAAAGAACAGCCCAGAGAAGCAAAGCACCTCCCACACAGCGGGTCAACAGCAGGGTCTGGACTAGAACAGGGATTCTGATAACTAGTCACCACT
CTTTCCACTAGCATTTCACTGTCCAATACTATTACTACTAGCCACATGTGTTGATTTATATTTACATAAATCATATTAATAATTCAGTTTCTCATTCACA
TTAGCTACATTTCAAGTACTCAATCGGCCTATGTGGCTAGGTTCTACCATATTGGATTATGCAGAACATTTCCATCATTACAGAAAGTTCTATTGTATAG
TGCTGGTCTAAAACAGAGTTCAGAAAAATGACTGTTTTTGTAAATAAAGTTTTATAGTGACACAACCACAGCTGTTTGTTGGCGTGTGGTCTCTGGCTGC
TTTTGGACTACAACAGCAGAGTTGAGTAGCTAATGACAGCAATTGTTTAGCCCACAAAGCCTGAAATTTAAGGAATTTCTGTCTATACAGAAAAAGTTTG
CCAATCTCTAGTCCAGAAAAAGGTTATTCTTATTTTAATTAAGATGGGCTAAAACAAAGAGATAGCATTTATCATCTATTGCATTTGCAAATATTAAATA
GCTGTGTTACATGCAATATCTGTAAGGGAGTTTCTGTTAAAGCAAACTTTTAATGGGCCATTTGTTAATGTTCGTTAAAATTTAAAACTCAGGTATCATT
ACCCTATAGAAATCCTTATATATGTGTGCAAAGATATACATACATACATACATACACACAAGAATATGTTTTGCAGTTTAGGGTTTCTGAAAGGAGAYGC
TAAGATGAAAATTGGAGTACAGAGTATTTTTTAGGGATCCTAGTCTTTGGGAAGAAGGACTAGGCCGGAGGAGAAGTTGAACAGTGATGCTGGCATGACA
AAGTCTTGGCCAGTCCCACAGAGGGCTCTCAAGTGTCTCTGTCAGTAGAGACCTGCACTGAACTGAAATGGCTAGATCTTTGTACCCCCACTTCGATGAG
TTGTTGAATGTGGTTATCTGGGAAGGGCATACTCTTGAGTGAGACAGCTGGTGACTGGAGACTATTTGCCAAAAGTTGGGGAATCAGGTCCTTCCTTGAA
TGAGTATATTGGTGGCACATCTCCATGTCCACCACAAGGATCATGACATTGCTTGTAGCAGAAAAAGGCTAGAGGCCATAAGTTAAATATTCATCACCAG
AGAACTGATTAAATTAATTAGATTATACCTCCTAATGAAATACTACGTAGCTCTAAAAATGAATGAAGTAAATTATTTTAAGAAGGTTCAAATATGTCTA
ACCTATATTATTAAGTTAAAAATCAAGATGTAGAACATGACTTCATGTATATTTAAAAAGGACTATATGTCTGTTTTAATTTACACAGAAAATTTTAGGA
GGCAAATGCTACCTTCATGCTGTAAGATAAGGGGAAAAAACATTTTTACTTTCCATCTTACATCCTCCCTGCTGTATTGTTTGAATAAGCAACTTTTCCA
TTAAAATTTTTTTGGGCCAGGTGCAGTGGCTCATGCCTGTAATACTAGCACTTTGGAAGGTGAAGGCAGGTGGATTGCTTGAGCTCAGGAGTTTGAAACC
AGCCTGGGCAACATGGCAAAAACCCATCTCTACAAAAAATACAAAAATTAGCCAGGCATGGTAGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAG
GTGGGAGGATGGATTGTTTGAGCCTGGGAGGTGGAGGTTGCAGTGAGCCATAATTGCACTACTGCACTCCAGCCTGGGTGACAGCGCAAGACTCTGTCTC
AAAAATAATAAATAAATAAATTAATTAATTTAAACCTAGCTAATAAAAATACATGAAATATTGATATATATGTACAATGATATGTATGTACTAAGTGAGC
TTCTTTTAAGATTTTAAACACTAATTTACACTGTTTTTTTCCTAGCATCTCTACAAACAAGCATGGGAGGCTGACAAAACCAAAGTCCACATCATGCCTG
ATATCCCCCAGATTATTTTGGCAAAGGCAAATGCAATTAATATGAGTGATGTAAGTATAGTTCCCCCTGTTGTCATCTTTCTCTCCAGCAGATTTGAACC
AGTAAGAACAAATTAATTAATATCTCTCTCAGTTATGAGAGTGAATGTTTTAAAAATAATGGTGGAAATCCACACATGAGACTCTTTCTAATTTTGCTTT
GCGGAGTTGGAGTAGGACTGTGGATGGGGTTGGGCCAAGCAGTTAAGAATTTGAACGGTGTGATTGGATTTTGTTCTAGGGGGGCACTCCTTATTAAATT
GAGAGATTTGGTAGAAAGAAACAGGCTCCGGGGCCAGGAGAAGAGAAAAAGGAAATGAGAGTCCTAGAATTTCGTTCTTAGACAGCCCTTCCATCAAGCC
TTTGAGATGGTTCTAAAGAAGGGGTTAAATGGAAAGGGAAGAAGAACATTTTGAAGAATCTGGGGCAAAACCCCAAAACAAAGAATGTGCAAATGTATTG
ATATTTTATTTCATTTCCTTTTTCATCCTAATCATAGTTGCTAGGAAATCCTCTAATCCTATTTTTATCATTTCTTTGTTTGAATTCCACAGAGATTTGG
AATAGCTGACCTTTTTTTTTAATTGTAGATTCCACATTATTATACAAATAAAAGTGCTGATTCTAAAACAGAGATGTTTTCTTTTGATGTAAGAATAAGG
CTGTTTTGTAGTCTTCCTTTAACTCTTATTTGCATCAATAAGAATCTCTGGGACTTTCACATTTTTTAAAGTATATTTACAACCTAATAGAGACCAGTAA
CTTTTACTTTTTCTGGTATTTTCTTGAAAATATGTTTAAGTTTGTTATAGATTGTTTTTCAAACACAGTTATGTTRCTTGTAAGAACATTCAGCCACTGA
AGCACCAACGAAGCATTCTGCTCAAAAACAAAAAAAAAGACGCCACAGTGGTAGTTTACTCTTCTAAAATAAATCCAGGCTTTCATATTTAGAAGAAAAC
TCTTCCCTTTGCCTCTCTTTACAGAAACTCTACAAACTTTCCTTGGAAGAGTCTAAAAAGAAAGGCTATGATCTCAGACCTGATGCAATTCCTATCAAAG
CTGCCAAGGCTTCCAGAGATATTGCAAGTGATGTAAGTCCAAAGGAAACGGTCACCTGGCTGGGGGTTTCTAAGGAACCGAAATAATAAGGGCTGAGTTC
TGGAAACACTGAGTGGACACAATATGAAAAACAGTGGGTCTCACTCTCTGTGAATGCTTCTTAACCTTGCTTTTGTGTTTTCTCTGATATTTCTGAAAAA
ACACCAAGCTAACCACATGGTGACCCTCATAGATGTCAGCTCCCTGACTCATGAGATCTAGATAAACTTACTTTGAATCTGTCACCAAGGCTATGGCTTA
TAGAAATTCAAAGCCCTTCACTAAGCTTTCTTGGTGAAAGTCTTGTGTTGTTCTTGCCTCCTGCTTCTTCGGATCTGATTTTCTAACAGGATGTCTCATG
TATGCAAGGGTGCTGATCATTTGGGCTCATGATAGTTGATGAGTAAATAATCAGGAATTTTTGCAAACCAGTTGTTAAACTATCGGTGGCTTGATATCAG
CTGTGACGGGCATATTTACACCACAGAAATTGGCAAACACTACAAAGTGAGGCTTTCCCTGCGCTGGCCGGCAAAAAAGCAGGTGTACCAACACATCACT
GTCATGACATGCCACCTATATGAAACTCAATTCTTTCATTTGGTTGTTTCCACAAGAAATCCACTCACAGGGAACATTTAATGACTTGGAGGTCCTGGGA
GGAGCATATTTCAAAACAATCTCTCCTTGGTCACCCATCAGTTTTACTTTCTCTCCCATCTCTRTTCTTCATCTTCCCTACCTATCCAGCCCATCCCATT
CTCTCTTATTATCCTGAGAACTCCAAATTCTTCTCCCCTCTATTACGCTGGAGTAATTTGGCTCTACTAGCTTCTACCCCCAACTTGCACACGCAACCCC
AAAAGGAGACAGGCAGAAAAAGAAGCTCTCCATGGATCAAGATCTCCCCTCTGTAGAAGAAAGTTGGGATGATAAATAGTACAATTTCTTCCCCATTATA
GCAGTTTAGAGAGTCTTAAAGGAAAAGGAGCTCCACGAATATAAAGCTATTCTAAAATTACACTGTGTGTCTCATAATTGAAACTTTTCTCATCAGTAAA
TGACTGACAGAATAATTTCTCAGGGCAGCATTAAGAGAAATGTTCTGTTTTTTTGCCTTTTTTTTTTTCATCTTCTGTGTTCTTTTTACCTACTAAAGGC
CTCTTTAGCACTAACAGCAAAGTACATGCATAAGTCAGTGTGATGCATCATCACAAAATCTGGGTTCTAATCCTCAGTGGCCTCAGCAGGTTGCTCAGCT
CTCTGGGTCTCAGCTTATTCATCTRTAAAATGAGGAGAGTAATAAGAACTTTTCTATCTACCTCACAAGGGAGAGTTGTATTCAGTTACATCAATAAATA
TGAAAAATTAGTCKGAACTATAGAGCTCTATACAAATATAATTTTTAATTATATTTTATAATTATACAAAAATAATATAGCATATTGACACTAGATCGAT
TTTTAGTCAAAGGAATTGCTCTGTGTAAAAACTCAWATTTTCTTCACAGTATAAATACAAGTACAATTATGAAAAAGGGAAGGGGAAAATGGTTGGTTTC
CGCAGTCTCGAGGATGATCCCAAATTAGTCCATTCCATGCAAGTGGCTAAGATGCAATCTGATCGGGAGTACAAGAAAAACTATGAGAACACAAAGACCA
GCTACCACACCCCTGCCGACATGCTCAGTGTCACGGCTGCAAAGGATGCCCAAGCCAACATCACCAACACTAACTACAAGCACCTGATTCACAAGTACAT
CCTCCTTCCAGATGCAATGAACATTGAGCTGACCAGGAATATGAATCGCATACAGAGTGATGTAAGGCTTTCTTCTACTTGGGTGATGGTTGGAATCCTA
GCATGGGAAGGGAGATCACAGTCTGTTTACATGCCATGGTTTGTGTCTAAATGGATAAGATAAAGTAGAATTTGCTTATCTTCTTTATAGAATGAATATA
AGCAAGATTACAATGAATGGTACAAAGGGCTTGGCTGGAGTCCAGCAGGTTCTCTGGAAGTGGAGAAGGCCAAGAAAGCAACTGAATATGCCAGTGATCA
GAAATACCGCCAGCACCCGAGCAACTTCCAGTTTAAGAAGCTGACTGATTCCATGGACATGGTGCTTGCCAAGCAGAATGCACATACCATGAACAAGGTA
CAGAGAACAGTGGCCGTCCACACAGCTCCCACGTGAGGAAAGGCTAGCAGGCTCTGGTTCTTGTTTGGAGAAATCTAATTAAGGTCCATCATTCCTAGGC
TGTGGCAAACCATTCCAGATCATTCCCCTACACCATCTTCTTCTGCCCATCTCTTATTTTTTTTCTTCTCTTGACCTTCTAGTTGGGTTAGAAATTATTT
ATGTTTTTAATTATTATATCTTCAATACTTTCAGTCCATTGTAGAAAATAGAAAATACTTAAAAGATTTTTTTTTTAAATCTGAGTTTGTTTTTAGGGTC
TTTTCTGAATTATATGCTACTTAGTTATTACTTACTACATCAAATTGAGTGCATTCAAGTACTAATATATAAATACATATTTTTCTTTCCTGCTTGTCCC
AGTTATTCAAATTTCATGTCTTTTTTTCCCACTTCCTAGCATTTATACACCATTGATTGGAATAAAGATAAGACCAAGATTCATGTGATGCCTGATACAC
CAGATATTTTACAAGCCAAGCAGAATCAAACACTGTATAGTCAGGTAAAKTTATATAAAAATTAATTTTAAGTTTTGTATTGAAACTTATGAACTTATAA
AATAATGTAACAGTAAATACTGATATAAATGTTGAAGCAATGGAAGTTTGGAAATGACACACTGATTAGCCCAGGATGTTGCAAAATAGAGTGCTTAAGA
GCAAAGGCTTCAGCCACAACTGTATGCTTTGTGGAGCAGGTTCTGTGTCTGTTTATCTCTGTGTTCATTGTGCTTGATACCAAGCAGGAAATCAATAGAA
AATTGTTGAAAAWAAATTGCATCAAACAGCCAGGTGTGATGACATGCACCTGTAGTCCCAGCTACTCAGGAAGCTGARGCAGGAGGATCCCTTGAGCTCT
GAAGTTTGAATCCAGTTTGGGCAACATTGGGAGACCCTGTCTCTAATAAATAAATACATAAATAAAGTAAAAATTGCATCAAACAGACTTGGTATGAGTT
TTGGCTTTGCCATTTTTGAGATGTATAGTACTGGGTAACTCAATTACCTATCTAAGTCTCACTTTCCTCATCCCTAAAATTGGGACCATAAAAGTGCCTA
TGACATTGGATTGCCATGAGGACTAAATGGGAAATTCTGTATAAGATTCTCAATACAGTRCCTGGCCCATGGAAAGTACTGGATAACTATGAGCTATTTT
TGTTATTACCCAGTTTTAACACACATACATCCATTCAATCAGTAAAGTCAACTCAGAAAGATTGCAACTAAATTATTGCAATTTATAAAAGGCATTTCAT
CATTTATTGCTTTTATCACTTAGCTAATTAAAATGTTGTGACCTGTTTTTCTTTTTATTAGCAATTATCTTAATATCTATCTTCAAAATAGTAAGCCCAG
GCGGTATTAAACAGCAGTGAGAAAGATACGTGATATGCCTGATATGACCATATTGTTTCTGAACAGCAGAAGCTATGATAAAATATACCACCAGGATTCT
CACAGCCAAAAAAGATTAAAGCCAGGTCATATGATGCTGAGTCAGTGCTTTTTCCCCTCCTTTAAACAGCTTGTTTTATTTTTATCCATATCTTTAAAGA
TAGGGTAGATGATGTTCGATCTGATATTCACTCTGTAGGTAAACTTTTCCCTAATAATCTATTGATATTCTTTATATAGACAGAATAATGCTGAAGAATA
TCTTTAATTTTCAGAAACTCTATAAACTTGGATGGGAAGAAGCTTTGAAGAAAGGCTATGATCTCCCAGTTGATGCAATTTCTGTACAGCTAGCTAAAGC
TTCAAGAGACATTGCTAGTGATGTGAGTACTAGTTTGAGTTCTATAAGGCTATATTTTYATCTGAATCAGGTGACTTAATGTCGGTAACTATTTTTATGG
ATAGTCTTTACCTTTCAAAATATAATGCTTCCTTCATTTTCTCCTACCCTCTTCATTTATCCGGAGTTCACTCTTCTCTTTCACTGTTCATATGTCAAAA
GGGCTTCCTGAATAGAGGTCGGGCCAGACGACCTCTAAGATCCATTAGAGTAAGATGCTCTACTTGGAGATGTTACAAAGGACCCGAGATTGCAAGTTTT
CCCTACTTTGCCTGAAAATATAATAATTTTACTGCTTTCTACTTGTCTATTTTAGACAAATTCAAAGTGCCAGATGATAAATCAACCTCAACAAACTGAT
GCTGATAGATTTTATATGCACATATTTTAAAATAGGCTGTCAGTTATTTCAGTTTAGCCCATTTTGCACTTATATAATTGTAATAAATTACCTTGGGACA
TAAAAAATCCAAGAAGGTCCAGAAATTTAGGTTTAAGTTCCCAAGGGCTTACTTAACTCTTCTTTCTGAAAATCCAATCTAAAGTTCATAGATTCACTCT
CCCAAAGGTAGATTCCAGTTATGATTAGAAACGGTAGCAAATCTGGTGAAAAACTAGGTATTGTCTCTATTTAGGTATTGTCTCTATTGGTTAATTTTTT
ACAAGTATTTTACTTAGATATTCTGCATATTGCTAGCATATCATTTTGTTAATCCCAAAACTTAACCACAAAAATTCAGAAGGTCTTGGTTATAGTGAAT
AAATTACCAGGATTTCATAGGGAAGTAGGACCTCTTAATCAAAATCTTTGAAAGAAAACAGGGATTTGGTTAATAGGCAGGTTGAAGTACAGAGTGCAGG
AAAGGAATGCCTAAAAATGGAATCTGACAATAAATTCTAAGAATATAGGGGAAGATTTTATTTAATTCACTTAATTTCTGGCACTCCAGAAATGTTGGAA
AATTAATATGATGATATATTATTACCCACTCTCCAGCTTGCAGGTCAATCCCTTATTAAAATAAATCAATGAGGTGATAAGCCTAAAGCAATAATGATGT
GTAAACTCATTTCCATTTAGTGCTATGTGCTAAAGATAGTTTAGGAATTGAAGAAATAACATCAATAATTTCCTAACAACATTTGATAGTACCTCATTTC
TTTTTGTGTGAACCCATTAATTCGAACCTTTTGAAATCTTACTCTCAAATGAACTATAAGTGAACTTTCCCACTATTATAGAGATGTATTTCCCTCAATT
TCAAATGTCCTTGTATTTATAAATTTTCAGAAAATTAAAACAATTTTATAAGTATTTAATGAATTAGAATCATAGAATTTAGAGTCGGAAGATAACATAA
AGGACATTTAATCTAATCTCCCACTCAGCATCCTACCTTCTCTCCATCTCCAAAATTCTGTAGATACTTAAAAATATAAGAATTTTGGAGGCTGGGTGCA
GTGGCCCCGTCCCATAATCTCAGCACTTTGGGAGGCCAAGGCAGGAAGATGATTTGAAGCCAGGAGTTCAAGACCAGCCTGGGCAACGTAGTGAGACTCT
TTCTTTACAAAAAATAAAAAATTAGCTGGGCATGGTGGTGTGTGCCTGGAGTCTCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCTTGGAAG
GCTGAGGCTTTAGTGAGCCATGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCCAGACGGTATCTCAAAAATAAAAAAATTCTTTAAAGGAATTTT
GGAGTCCTTCAGGGCAGGTCATTTCTTTGTTAGATCATTTCTAATTGCCATTATATACCTTCTTATTTTTGCCTAAATATTTTACCAATAAGCTCTAGAT
CTCTGTTCTACAACACCACAAAGCAGCCTATTTCCACTTCCACTTGATAGGTCTTCAAACATTTTCATATTTGCCCTCCTTTGTTTTCAGTTTTATAAAT
TCTTCAATCTTCTGATCATTCTATTTGTAATTTGTGCTATTTTTTCAAAACTCTTGTCAAAATAGAATCCCTCAAAATTTAGTGTTGTTTTCTTGATAYG
GAAGGTCAGGTCAGAAAGCTTATTTGTGCCCCATACAAAATCTATGGCACTGCTTTTTAAAAAGCAATTTTGTCAGATTGCTTATGTTGAAGTTAAAGTC
CACTTAAACTCCTGAATATTTTATATATGTAATAATGAAGCTGGGTATCATGTAACGTATAACATGTGTTCAGCACCTAACATCAAGTAAATGCTGTTAG
TATACTCATTATTATCACTGTTGTTATTGTCATCTAGTACTAATGTGATTTTTCTTAATTGAATCTAAATACCAAATTTTACTTTTACTGTCTTAAATTT
ATGTAATCATTTTGACCCATTTGGCAGTATGTTGAGCTCCTGTGGAATTTTCTTCCTAATCTAACATATTTAGTTATTTTTAGCCATCTGCACATGCAAG
ATATAGATCCCAAACAGGACAAGGTTATATGACGTAACCACATGGCAAACCACAAAAAGATCCTGCTATTTAATGGATTAGTCTGCATTATTAGGCGTAT
TTACTTAGTCATGTATCTTCCTGATTTTTCTGCCATTTAGCCCGTAAGGATTATCATTTCCATAAGAATATCACAAGAGCTGTATTAAATACAACCCCAA
AGTCAGAATACACAATATCTAGCACAACCAAACATATATTTCTGCATCTAGTTAGAATTAATTTCTTATCATAACCTCTCTTGATACTCAATTACATTAG
ATTTCTTCAGAAGCTTCCATGTAAACAAGGCTTAGTTTAAGTAAGTAAACATTCCATACTAAGTTAGCATAGACAACACTTCTCTCATTTCAGTTTTGGA
AAACAAACATGAAAACAAGGCAAACTGAAGCTGGATGAGGTGGCATGTACCTGTAAATCCCAGCTACTAGGGAGGCTGAAGCTAGAAAAGTAGGCCTGGG
AGTTCAAGACCAGCCTGGGAAACATAGACCCCTGTCTCAAAAAAAAGAAAGAAAGAAAAGAAAAAAAAGCAAGTTGAGCTTAACTTGGCCTTTGTGTACT
AAAAGAGCTGTGTTTTCTCTGATTTCAGTATAAATACAAACAAGGCTACCGAAAGCAACTTGGCCACCATGTTGGATTCCGGAGTCTGCAAGATGACCCA
AAACTTGTGTTGTCCATGAATGTAGCCAAAATGCAGAGTGAAAGAGAATACAAGAAGGACTTTGAGAAGTGGAAAACTAAGTTCTCCAGCCCAGTGGACA
TGTTGGGAGTGGTACTGGCCAAGAAGTGTCAGGAGTTGGTTAGTGACGTGGACTACAAGAACTACCTGCATCAGTGGACATGTCTGCCTGATCAGAACGA
TGTTGTGCAAGCTAAGAAAGTTTATGAACTGCAAAGTGAGGTCAGTTTCTATTAAATCCAATAGTTTATATATTAATTCATATTTTATATGAGTAGCTAT
TTAGTCAAAGAGAAGCAGAAATTAGGAATTATTATTGAAAATCTAAAATGCATCTGTTTGTAATGCATAGAATCACTTGAATCAAGGGTCCAGGTGAGAA
TGGGATTTTGATGGCTTGCTCTGTCTTTTCACAGAATCTATATAAATCTGACCTTGAGTGGCTGAGAGGCATAGGATGGAGTCCCTTGGGTTCTTTAGAG
GCAGAAAAGAACAAGCRGGCTTCGGAAATCATCAGTGAGAAGAAATATCGTCAGCCTCCAGACAGAAACAAGTTCACCAGCATTCCTGATGCCATGGATA
TAGTTCTGGCAAAGACAAATGCCAAAAATAGGAGTGATGTGAGTAGCACTCTGGAAATAAATAGATTATAGTGCCTGCTACCTAGTGTTTGCTCAATAGC
ACTTGCTTAATAAATGAGTAGAACCACAAAGCATTGCCTCATACATCACCACATAAAATTTTATATTGGATCATTTTATTTGAATTAGCAACTATCCTAC
ACTGAATCATGTAAAAATGGGTCAGTGTCAGTTTTTGTCACCCAAAGCTTATTTATTATTTAACCAAAATATAATGGGAAAATGATCGAACAAACTGTTT
TTCTTTGAAACTTGACTGCATGAAACACCCAGATGTTTTTTGTTGGGGTAGAGTATATGAGGGGGAAAGATTCTGAGTACCTTACACAGGCACAATGGAT
GTGTTATAAAGAGTGTATTTCCTGACAAATGATTATAATGCTTTTAGTTTAGCTGAATCAGGATAAATGGATAATTCTGTCACTGTAAATAAGTATCTAT
TCCATCTTCAACTTATTTTCTTCACCAGCTCTGACACCAGTATCTAGCACATAATAGGTACTCAATAAATATTCATTGAAAAAATACATAAAATATAGCA
GGRTGGAGTAATTATATGCAAAGAAGGGAAAGATTACTCAACACTGCTCAGCTAAAAGCCTAACTTTGAACATTACAGAATACTGAAGTATGTGCCCTGA
AATCTGTAATTGGTAAGAAGATTTAAACAGATATATAATAACCGTCTGTTATTAGGAGGATCTAAATATATGTACTGTAGGTCTTAGGAGGATCTGAATA
TATATACTATATGTAATATGCTATACACTTTACATATATCATATATCAGAAGTTTTATATAATATATAAGCCCATAATCAGCTTAGAATGAGCATTGATA
AACTGTAGTTCCTCTTTTCCTAACTAACCCCTCACAGACTTTTTATAATGCTGATTTCCAGAATGTATAGTAAATGCTGACCTGTCAGCTTCATTATGAA
TGTTTAAGCATTTACTTATTCTTTTACTATTTTTATGATGACAGAATCCAACAAAATGAGAAAACAACAAATTTGTACAAAATGTTTCCCCCTTGTTGGA
ATCCAAGTTTCTTTTCTTTCCATGAAACAGGAGATAAAAAGATCTGAACTTAATAAGGTGACCAAATGAGAACCCCTAGATCATTAAGTTTATCGATATA
CACGTTCTGGGACAGGACTCCCCAGCAGTGTGCTCTAGTTTGGGGAATGCTGAAACATGGAGCTCTCAGGCCTCAGGACTGCCACACAAAACCCGGGCCA
GCTGGGGTCCTTGAGCTTGCAGTCTCTCCTTCTGAATCAACTGATACACCTATCCCAGTGTAAATAATAATAGCATTTTCTCTGCATTCCATGGGGTGAA
AGTGGCACATGCCATTGAAGAAATAATCTAACTTAGTGACTTTCAACCAGAAGCAATTTTGTCCCACAGGAACATTTAGCAACATCTAGAAATATTTTTG
GTTTTTACAACTGGGGAGTGGCATGCTACTGGCATCTAGTGGGTAGAAGCCAGGGATGCTGCTAAGCACCCCACAATGCACGGGGCAGCCCCCACAACAA
AGAATCATCCATACACAATATCAGTGGTTAGCAGGTAGAGAAACTCTGCTGTTTGCTTGGTGGGTACAATGTGTGTTGCTCCAGTGATGGATGCACTGAA
GGCCCTGACTTCACCACAATGCAATTGCTCTTGTGCCCCCATGAATATATGGAAATAAAAAAATTTTTTAAAGAGAAACTCTGGTGTTACTAAATCCAAA
AGGGTAGTGCAGAACTGGGATACACACATATGGAAATTAACAAGCCTTGCTTTGTTTGGGTGCTGAGGGTCTTAATTGGCTTCTCTGGGTTATATGCACC
ATAACAAACATGTGCAGGAAAAAGAAAAGTGCCAGACACACACATCTCATGCTGCATACCTCAAAGGGAAATGGACAAGTTTAAGGAATCAATGAGACAA
AAAAATTTTTTATTGAAATAATTTCAGGCACTCAGAAAAGTTGAAAAAATAGTACATGTAATTCACATATGTGTGTATGTGTGTGTGCATACATATACCC
AGATTCCCCAAATGTTAAAATTTTACCACATTTGCTTTCTCTTTTTGTCTCTTTTTCTCCCTTTCTTTCTCTCAGATCTATATCTATATATCTATATGAG
AAATTAAATTGCTTCATGATGCCTAAATATTCCGTCTGTATTTCCCAAGAATAAGAACATACTCACATAATCACATTGTGATGATTAAAATCACAGAATT
AATTTCCACTGGTCTGCTAGTCTACAGAATTTATTCARTTTTATCACTAATATCCTYTMTAAGAAAAGAAAATATTTTCTCTGGCTCAGGATTTAATCCA
AGACCACAGGTTGCATTACTTGCTATGTCTTTAGTCTCCTTTACTCTGGACTAGTTCCTCACTGTTTCTTTGCCTTCCAAGTTTTTGACATTCGTAAAGA
ACATAGGTCAGTTATTTTGTAGAATCTCCCTCCATTTGGGTTTTCTGGTGGGTTCCTGTGATAGACTCAGATTATCTTTTCAGCAGGAGATCACACATTG
TGTCCTCCTCAGTACCTCATATCAGGAGGCACAGGATATCAATTTGTTCTATTACTAATAACTTAAACACTTGGTTAAAGTGATGGTGCCAGGTTGCTGT
ACTGTTGAGTAACCATTTTATCCTTTGTAATTGATAAGTAATCTGGCAGGGAGATATTCTGCCCTGTGTAAATATTCTGTTTTTAATCAAATTTTCCTAG
TTTTAGCCGGGCACGATGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGCGATCAGGAGTTCGAGACCAGCCTGGCCA
ACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGTGGTGGGTGCCTGTAATCCCAGCTACTTGGGAAGCTGAGGCAGGAGAATT
GCTTGAACCTGGGAGGTGGAGATTACAGTGAGCTAAGACTGCACCATTGCACTCCAGCATGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAATT
ATTAGTTTTAGTAAGTCTGTGAAACTTTTGTTTGGATCCCCTTGTCTTCTGTTGAAGAGACATAAGGATGGCTCTGGGACATCCAAGATATCTTGATAAA
TTCCCCCCCAAAAAATCCTTTTGGGAATCCTAATCCTTCACAATGATTATGAGGCATAACTATAAATACTAAGTCACATAGAAGCTGGACACAGTGGCTC
ACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGGAGTTCAAGGCCAGCCTGCACAACGTAGCGAAACCCTGTTTCTACTAAAAATACAAAAATTA
GCCGGGTATGGTGGCACATGCCTGTAATCCTAGCTACTCAGGTGGCTGAGGCACCAGAATCACTTGAACTCAGGAGGCAGAGGTTGCAGTGAGCCATGAT
TGCGCCATTGCACTCCAGCCTGGGCAGCAGTGTAAGACTCTGTGTCAAAATAATGATAGTGATAACAATAAGCCACATAGGAAATAAAACTTCCTGATTT
CTAGGCATGCTTTGAATAAGACATCTTTTGAAAAGGCAAGGGCTGCCTCTAAATTAAACACTGAGGGACACAACCCAGAAGATGGAGAAGCCTGTTTCAT
TTGATAATATTGGCAAGGCATGTAATTACCTAGATTGATTTCTTGTAGGCAGGATTATCTGTAACTTTGAAAATGTGACCCATAATCTCTGTGTTGAAAG
GCAGTTATGTCCCAGATAAGTCAAGAAATATTGCATCTATTTTCTGCTTATGTTGTCTGCTTATTATATCAATTCTGTATAATGTTTAATTCAGATAAAT
TCAGCAATTCTGTTTGAAGCCAACTGTATCATTCACTAATCTAACAACACCACTGAAAAATTATTATTTCTTATTTTAGAGACTTTATAGAGAAGCTTGG
GACAAAGACAAGACTCAGATCCACATCATGCCTGATACACCTGACATTGTTCTGGCTAAAGMAAACTTAATCAACACAAGTGATGTAAGTTTTCAAATTC
AGCATGTGTTTTCAGAAAGCTCATTTTAATTGTTTCTAAATCAGTGAAATTGTCTAGAAGTTCTCTGAATCCCTGAATTATTTTAATTAATTAACTACAT
ATGACTTAGATTCCTTATTTAGTGGCTTTTAGATTGAATATCGAAATGTTAGTACTCACTATGTCAGGCAGAATGGGGAGTCTGTATTCTCTGTTCCTTG
CAGTCCGTTGTTATACATATCATCATAAGGTGGCTTATATTGCTCTTCCCAGTGTGGACAGGCAYTCTTTGCAGGCAGAGGCAATTCTTATTGAATCTAC
AGTGCTTATCTAGAATCGTGCCTGACACATAGTAGACACTCAATGAAATTTTGGATCAGTGAGCATACAAAACCCACGCAGGAGAATCTCATTTTTATTG
TCATTATCATTGCAGCATAATCTCCTGAAATGTATACATCTGAAAATTAAATATTTTAAAAACAAATTCTAAATTCTAATAGAATGACTTTAACATTAAA
GAATGTATTAAAGTAGTTCCACGAAGGACTGACAGATAAACACAAGTCCAAGATCAATAGGCACTTTAAATAATCTGGTTTCTGGATAAAAGTACATTTA
AATCATATTCTCAATTTTTAAATTATGTTACAGATCTGAAAAAACAAATTCTTTCACTTAAGCTTTTAAAATTCATTATTTAAACCTTCTTMAAAACATA
AGTTTTAGAAATTATGGTGGACTCAGTATCTTACCTATAGATGTGGATCCTATTTTGGATGGTCCCATTTTGGGAGACAGACTATTTCACAATGCATCAG
CTACATAGAAGAGATAACCCCTTAGGCATGATTTTTCCCCATTAGAAGAATTAGATGCTCTTTTCTAACAAAAACTTCTAATGAAACAGTCCATGTGAAT
TGAAAAACAGCACCTCAATAATAATCCATTTCATTTCTCTATTGTTTTACTTCTGCCTGATTCTTGCAAGTATAGACATGCACTGTATAACAACAGTTTG
GCCAACAAAGGCACACATACAGGACGGTGGTCCCGTAACATAATCATACTGTATTTTTGCGGTATCTTTTCCATGTTTAGCTATATTTAGATAGACAAAT
ATTAATACTTCCCATTGTGTTACAGTGGCCTACACTAACATGCTCTACAGGTTTGTAGCCTAGGAGGAATAGGCTATACCATATAGCCTAGGTGTGTACT
AGGCCGTACCATCTAGGATTGCATAAGTACACTCTGTGATGTTCCCACAAGGACAAAATCACCTAACAATACATTTCTCGGAATGTATCTTTGTCATTAA
CCAATGCATGACTGTATTTGGGAAGAGCTGACAATTTTGCTGATTTAGGTAATTGAAGAGCTTTAAAGTTTAAAACAGGATCATTAGCAATCAATGGGCA
TAATTTCTAATTACATTTGAGTATTTTAGGGCACAGATGCTATTCTCATGGACTCAAAATATTTAGCACATTTGATCATTATGCTATATTTGTCTATGGG
GAACAGTATTTCCCAAAATGATCTTCATTTCTTAACAGAAACTCTACCGAATGGGTTATGAGGAGCTGAAGAGAAAAGGTTACGATCTTCCTGTTGATGC
CATACCAATCAAAGCAGCAAAAGCCTCCCGGGAAATTGCCAGTGAAGTAAGATTTTATCCTCTGTTGATATTGATTTGATTGCAATTTATCACTTCAAAG
CAGTCTCAATTTAATTTTAAATTGAACAAAATCTAAGGGGTAACAAATTACAGTGGAATAAAATGATCCCATGCAGTGTGGGATGAGGATAAGATCAAGG
ATGCATTTATTATGTATGGAATTTCATAGCTGAATTTAGCCTTTAATCTTTCTTATCAAAAGACTGAAGTCTTTGGCTCTCTAGGCTTAGTAAAATATTT
AGAGTTAATGCGCTTTGTAATTTGCCACAAAGATGGCAACAGAAGTAAATTTTGAAAGGAATGAGACACATTTTTTTTCTCTAGTACAAGTACAAGGAAG
GCTTTCGCAAGCAGCTCGGCCACCACATTGGTGCCCGGAACATTGAAGATGACCCCAAGATGATGTGGTCCATGCATGTGGCCAAGATCCAGAGTGACAG
GGAGTACAAGAAGGACTTTGAGAAGTGGAAGACCAAGTTCAGCAGCCCAGTGGACATGCTGGGGGTGGTGTTGGCCAASAAGTGCCAGACCTTAGTCAGC
GACGTGGACTACAAGAACTACCTGCACCAGTGGACATGCCTGCCCGACCAGAGCGATGTCATCCATGCTCGGCAGGCCTATGACCTCCAGAGCGATGTGA
GTCTAAGATTTTCCTTTGGCCAACAAAACATTATGTCTGCTTTTTAAAGTATCAGAGTCCCATAGTGAGCAGAGTTGAGTTTACACAATTACCCTGGACT
AATGCCCAAGCGCATCTAGTCACCCAGACATCTGGAGGCACCATTATTCCACAAAGAAAGAGCCAGCAAAGCCCCATTGCTTTGGTGGAAGCCTCTAGAT
TGTCGAGCTAGACAATCAAAGGATTGAGTCCTTTCCTATGTGCTTCTGTTTAAAATGTTTTTCAAAATATGCTTTTAATCTGAATATTTTGTTGATTTAT
AATTCATAYCAAAAATTTAGAATTTTCTAATAATTCAAGTATTAAAAATATAGAGTATAATATGAACTTTTATTTAGGGGCAAATGATTTAATTATGACA
AATTATGACAAATTGTGATAAATGATTTAATTATGACAAATTTGTCACTTGCACTTTCAGAATTTGTACAAGTCAGACCTTCAGTGGCTAAAAGGCATTG
GCTGGATGACTAGTGGTTCTCTCGAGGATGAGAAAAATAAACGAGCCACCCAGATTTTGAGTGACCATGTTTACCRTCAGCACCCAGATCAATTTAAGTT
TTCCAGCCTTATGGATTCCATACCAATGGTTTTGGCAAAAAACAATGCTATTACCATGAATCATGTAAGTCCTATGTTTGTTTGAGGAGGTTATTAATTT
TTTTTGTTTATGGAAACACTGAAGTCTGTTTGTATAAAAGAAAACTTRTTTTTGATTCCTTTGCTTGGTACTAATGTGGTTTTAAAGTATTGTGCTTCTT
ATTGACACAAGACATTTAGACCTGAAWATGTCACAAATACCGATTCACTGAGCTGAAATTCTTGATTCTCATTAAAAATCAGACTGTCTGCATGTGTCTA
TTTATTACTGGCCTATACCAGTCATGTTTTTCTGTTTCTCTTAGCGCCTCTATACAGAAGCTTGGGATAAAGATAAAACCACTGTCCACATTATGCCAGA
TACCCCTGAAGTTTTATTAGCTAAACAAAACAAAGTAAATTACAGTGAGGTAAGTAATATATTCATAGTGCGTGATACATTTTCCTTACAATGCACTTTA
TAAATCCAACTTACTATTAATGTCTATTTTAGAAATTGTATAAGCTTGGCCTAGAAGAAGCCAAGAGGAAAGGTTATGACATGCRGGTAGATGCCATTCC
TATCAAGGCAGCCAAGGCCTCCAGAGATATTGCAAGTGAAGTAAGTATACTTGGAAAGTTATTTGCCTTAGCTTTGGCTCAAAGATTTATTTCTCTCTCC
TGGATTTATAGTGGCACAAGTAAGCCATGAGGTTAAAGCTGTTGCTAACAGTTTATTGTTTCGATGAATGGTTTAAAATAATGGTAATAGAGTTATCAAC
AGAAAGGCCAAATTCAAGTTATTGTTGAGTCCATAGCAACATGCATTTCAAAACATGTCCGTTTCCTGCTGAACAAAAGTATTAGATACTTGACTATAGT
TCAGATAATTTTTTTGGCTTTTCCAATGATGTATCTCTCATATACAATTGAGCTTATTGTAGGGTTCCTTCAAAACCCAACCTATGCTGTATGAACCAAT
GAATCTACAAGGGCTGAATTATAGGACACATTACTCAAAGTTCAACGATTCCTGTGGAACATGTTTGTTTCTATATCAGGTGGTGGGTTACAAATATTTG
CTTTCTTTAAAAGATGGATTTGCTCACTGTCACAAGGACAGAAAATCAAACACTGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACACATGG
ACACAGGGTGGGGAACATCACACACTGGGGCCTGTCATAGGATGGGGGGAGGGAGGAGGGATAGCATTAGGAGATATACCTAACGTAAATGATCAGTTAA
TGGGTGCAGCACACCAACATGGCACATATATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAAATAAAGGATTT
GCTCACATTTCTAAAAATTTTTATCTTTCCATTTCTTTTGTCTATGAATAAAAAAAACTCTAGATTTTTTTCTTTATTTCCAAAATATGGGAAGTAATCA
TAATTTAAGAATAAATGACAATCACAGAAGGGTTAAATACCATATAATGAAATACCTACCTGTCATTAAAAATCATGTGTATAGGTCAGGCACCATGGCT
CACACCTGTAATCCCAGTGCTTTGGGAGGTCAAGGCGGGAGGATCACTTAAGGGCAGGAGTTTGAGACCAGCCTGGTCAACATAGCAAGGCACTATCTCT
ACAAAAAACTTAAAAATTAGCCAGGTGTGATGGCGCATGCCTGTAGTGCTAGCTACTCAGAAGCTGAGGTGGGAGGATCACTTCAGCCCAAGAGTTGGAG
GTTGCAGTGAGACATGATTGTACCACTGCACTCCAACCTGGGCAACAGAGAGAGATGCTTTCTAAAATACAAAACAAAACAAAACAAAAAAAACAGTCAT
GTGTGCAAAGACTATTTAATGACACATAGAAATGCTTATATAATAACTGAAAAGAGCAGGCACAAACCCATATACAATATGACTTCTAATTATATTCTCA
CACACGAATCATAACAAATTATTTTAGTGGCAGAATTACATCTTAATTTTTCTTTTTTTTCTGTGTGTATAAATATACASACATTCTTTGCAGGCARAGA
TAATTTTTATTGAATCTGCGGTACTTATCTAGAATTGTGCCTGACACATAGTAGATACTCAATGAAATTTTGGATCATTGAGCATATAAAACCCATGCAG
GAGAATTTCATTTTTATTGTCATTGTCATTGCAGCATAATCTCCTGAAATTTATACATCTAAAAATTAAATATTTTAAAAACAAATTCTAAATTCTAACA
GAATGACTTTCACATTAAAGAATGTATTAAAGTAATGCCTATCTATATGGTATATATTTTATATAAGATATATATTTCATATGTGATGATATGTGCTATA
TTTATTTTCTAAATTGTTTCTACATCTATCATATAATTTACATATTCAGGGAAAATTTTTTTTTTAATAAATAGAGCAAGTTAGGCTTAGTGATTGCTTT
TTACTAAAAGTTAAAACAGATGACTATCTGTCTTTTTCTTCTTTTAGTTCAAGTACAAAGAAGGCTATCGTAAGCAGCTCGGCCACCACATTGGTGCCCG
AGCTATACGTGATGACCCCAAGATGATGTGGTCCATGCAYGTGGCCAAGATCCAGAGTGACAGGGAGTACAAGAAGGACTTTGAGAAGTGGAAGACCAAG
TTCAGCAGCCCAGTGGACATGCTGGGGGTGGTGCTGGCCAAGAAGTGCCAGACCTTAGTCAGCGAYGTGGACTACAAGAACTACCTGCACCAGTGGACAT
GCCTGCCCGACCAGAGCGAYGTCATCCATGCTCGGCAGGCCTATGACCTCCAGAGCGATGTGAGTACTGAGAGTCATAATAACGTGCAGAGGTGGGAAAT
TATTTAACACCCCTTGGAGAAAATGGCAATATATGRCACAAGCTCACCAGCCCCTGGAGGAGGCAAATAGCATTGCCTTTATCGACAGGAATTTTAATCC
TTTAACCCTTCAGACCAAAGAGGAATATTGTGTGATACCTGGCCCGTCCACCAAACTAAATTTTGAGAGTGCTTTTACTTGATCTCTTATCCTTCAGATG
AAAATGCATTGCTGATACAGAGATAAATATTTATTGGCTATTTGTGTCAACAGAATATGTACAAGTCTGATCTCCAGTGGATGAGAGGCATTGGCTGGGT
GYCCATTGGCTCTTTGGATGTGGAAAAATGCAAAAGGGCAACTGAAATTTTGAGTGATAAAATCTATCGCCAGCCTCCAGACAGATTCAAATTTACCAGT
GTGACTGACTCTCTGGAACAAGTGTTGGCCAAAAATAATGCCATCACTATGAACAAGGTGAGACTTCAAAATTAAGAATCGAAGTGGGGCTCCTAAAGCT
GAATCAACAAAAAAGAAACATTAATGAGGAAAGAAAGAACATTGAGTAATAAAAGGCATCTATCTATCTGTCTATGTATCTATTGGCTTCTCATCTATCT
ATTAATAACTGATATATATCATGTATATTTTGATATTTAGTCATTGTTTCATGATTTTGATAAAGTAGCATATTTTATCAAAAAATAGTCTGCATAAAAT
ATGCTTATTCTCATTTTCCTTTTGTTAACATACATTTCAGATTATTAGAAGGCATTTATAAATACACATTCCTTTATGAACTTATTACCTGAAGATGTGC
ATAAAACACATAATGTGTATAAAACACATAACCTTTTCTTTTTTTTTATAAAGTTTTTGTGGCCCTAAAATTCCTATTAACTATACACAGAACTTTTTTC
CTGATGAATTTGTGTATTTTTTTTGATAGCGTTTATACACAGAAGCCTGGGACAAAGACAAGACTCAGATCCACATAATGCCAGACACACCAGAAATTAT
GTTGGCAAGAATGAACAAAATCAACTACAGTGAGGTGAGAGCAGATTCTTTGACATTTGCACACTGCTGCTTATTTCAGTTGATCTACTCTATGATGACA
TGATACCAAATGACAGCTTTAGAAAGAATCTTTTTCATGTTTCATGTGAATAACAACTCTTGCATTTCTCAATCACCATCATAAATGTCAAACTTTATGC
AATATGAATTATCATTTAGGAAATACAAATGACATGAACTAATTATTTAAGCTGTAACCATGAGATTATGTAGACCATTTTCTTTTATTATTTTTTTGAA
GTTAGGATATTAGCAATTGACCTATACATGTATCTCCCCTTTATGCTAAAGCATAACTGTAGTAAATATATTTTCCATATATTGTTCCTAAGTGTGGTTT
AGGATCCAAATTTAAGATTTTTAGTATATAAGATTAAAGGCAAGAACTAAAATCCACAGTACTACCAGGTAACCCACACACACACACACACACACACACA
CACAGAGAGAGAGAAATATCTGTCAGTGTAAATATTAGCAAGCCCATTTCCTTTCACTTTCAGTGTGCACAGGGCCACGTGCCATCATTCCAGAATCATA
GAGGCTTAGGCAGAGAGTCAAGCCTCCACCCTAGTGCAAAGGTACCCCTCCCCACAAATAGGTTTTTGACCTGCCTTTGCTTAAGGGTTCCCAGTGACAA
GGAGCTGATCTCATAAATCAGTCCATTCGTTCTGGAAAATTTATGAGAAAGCTTCTGATGTATTGAGTCACAACATTTCTCTCTGTAAACTCACATAGTC
CTCTGAAGCTGCACAGAACAAATCTGTGCCAACCCCCAGAGATGGAGAGCAGCACCAGGGTGCCTCCCCTGCCACCTTCACCCCAGGTTCACCTTCAAAT
CCAATATCCCAAGCTGCGGGGCATTCCTCACATGACATCACTAGTAAAATGTGACTCTCAGAACTGAGCAAAATACTATGAGTGGGGAATGACTGATGTA
GAATACACTTAACTATCGTATTTCCTCTTCTGGACATATGACCTCTATTCTGCATCCTGTGCTCCCAGGATACATTGGCAGCTGTCACTGCTGGTGCACA
CAGAACTTGAGACCAACTTAAACTCTAAGACATCTTATGTGGACTAAAGTTAGGTTTCTTCCATCCTGCATTTATGCGTTTGGTAATTTATCTCTGTTCA
AAGATTGGCATTTATCTCTGTAATTTCTTCTTCTTAGACTGAGCCTGTGGGTATAAGCCTGTGGAGATTTTTGTGAATCTAAGATTCTGTCAGCTGATGT
GTTAGTTATTTCACCTGGCTTTGTGCCACCAGCAAGGAAAATATTGTTTATTTGGCAGCATAAATCAACACACAGAGCATAATTTAGAGAATTTAGATGG
AATTGCCACCATCTTAAGTAATTATTTTGGAAGTGAGACTGTAATTTTAGTGCTTGTATAGCTAGCTTTTAATTGTCACCAAAAACTAAAAACATCAAGT
CTTACTCCCCTGTCAGAAAGGACTGAATTATTAGCCAAACCTATAATATAGGTCCTGTTACAGGAAACCATGCATTACATGTGCAAGAATTTCAGGAAAC
AAAGGGCTCCCCCTGTGTCTAGCTAGTCAGCATTTCTGGATTTCTCAACTCTGTCTTTGCTGAAAAAGCTCAGAGATGTGTTAGTGCGGCTACTCGGCTG
CCAGTCCCAGGAGGCCCAGGTGCCCTTCCCCATTTTGCCCGCAACCCCCTATTCCACCCACCCAGACTGGGACGCTGCCATGGGCGCTCCCCTCTGATGT
TAAAAAGAAGAGAACTTTTTGGCTGCTTTCCTATTTTCTGTAGAATTAAACACCAACTTCTTAGAATGAGGCGTTCACAGTCCAACTCTGGGCTATTCTC
AGCCCTCTCCTGTGAACTCCTCCCTGGGGCCTCACCCACTTCCTTCAACACCCCTCCGCTTCCCCTCCACAGTGGTGCCTTGATTCACGTGATTTCCTCT
GCACTTGATGCCACCTTAGTCTACTGAAACTCTGCTCAAAGTCTAACTCAAAGGTCACCCCATCTTCAAGAACTTCCCTGATTCTCAGTTCAGAATAAAT
GACTCCTTCCTGGAGCTCTTCATTATTAGTGTGGTTTGACTTTTCAGCAGTTGCTTCCACAGGTTATCAGTCTCTCCATCAGTTCTCCCAGGAACCTTTA
GGTTGAGAGGGGTCTCAACCTCATCTTTGATTCCCAAGTACCCCGCACAGTCAGAGACACAGGGTCAGGGCAGAATAAATGTGAGTTGAATTGATTGCCA
TGATCAACAGTTAAGCCTTTCCCTCCCACCCACATTTTACCATGCTAGAACTATGAGTTTCAGCTTAATTTTTCCTGTAATTTTTAAACTGGATTTATTG
TTTTAACTAAAATTTTTTAAAACAACCTGTAATATGTATATATACTTAATTCAACATAATTTTTAAAGTAAAAAATAAAGGTGCATTGGGCTTTATGGGT
ATCTTTTTTTTTTGTTTTGTTTTGTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCATTGGCACAATCTCAGCTCACTGCAACTTCCG
CCTCCCAGGTTCAAGTAATTCTCCTGCCTCAGTCTCCCAAGTAACTGGGATTGCAGGCATGCACCACCACACCCAGCTAATTTTTTTTATATTTAGTAGA
GATGGGGTTTCACCATGTTGGCCATGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGC
CACCACACCTAGCCTCATTTTTGAGTCTTCACTTCAACAAACATGCAGAAGGCTTAGAACTCTCAAAAGAAAGATTATTATAGGCACTGTCTGTGGAGAA
CTTAGTGAATTGTCTTAGTCCTCTGTCAGTTTTTAGATATAAATGTCAGCATCTGATTTTTTTTCCCCCAAATTTAGAGTCTGTACAAACTTGCTAATGA
AGAAGCAAAGAAGAAAGGCTATGACTTGCGAAGCGACGCCATCCCCATCGTGGCGGCCAAGGCCTCCAGGGACATCATCAGTGACGTGAGTTGTCAATTC
CATTCTGAGTATGTGATCAATCTAATGTGGCATTTTCACTGAACTAAATCTTAGAAAAGAACTTTTCCTGGACCTTTGAAAATATATCCTGATATATTTG
TGTAGGATTTTTCAAAACCTCAGTTTTAAGGGAAATGAAAATCTTGATGTTTATAAGAGGGATCTGTAACCTACAGGACACAGCGTCTTCTGTGAAAACT
GGTCAACCAAAAATAGAGAAAGATTCATTCATGTGGACCCTGTTAGAGTGAAGCTGCAGGCTTGGAGATGCTTATGTAAGAATTATCACCGGCTTATAGA
AAAGCTTATAGAAGATATAACTCATAAACTTAGGTTCTGCCAGTGAGATTCAGGGCCTGGCTTTATGTAACATTTGAATAGATAGTATTTTAAAACACAT
GCGGTGCTTGCTATTGAAATTTGCCCTTATGAAAAGAAGGCAGTTGATCAGTACCAGAGGTGACTGCTGACCTAAGGTTACACTCTTTTTTTTTTTTTTT
TTTTGGAGACAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCCTGATCTCAGCTCACTGCAACCTCTGCCCCCTGGGGTCAAGCGATTCTCCT
GCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACTCACCACCACGCCCATAATTTTTTGTATTTTTAGTAGAGATGGGTTTTCACCATGTTGGCCAGGC
TGGTCCCAAATTCTTGACCTCAGGTGATCCACTTGCCTCAGGCTCCCAAAGTGCTGGTTTTACAAGCGTGAGGTCACACTCTTAGCAATAGCTCCTAGCC
ATTTAGCACGTCTCCCAGAGCAAAACTGTCATCCTTTTCTGGTGCCTCAGGGATTCTTGAGGAACAAATGACGGCTCTAAAAATCAAGGCCCACTTGCTG
TCCTTTATATTGGAATCTTATGTTAGTGACTCAACTTTATGTATGTTGGACCCTCCCAGCAAATGGACTTATGCCAATAATAATAAATAATGACATAATA
ATAACCAAGAAGTATTGAGAACTCTTTGCTAAGAGCTTTATATGCATTGTCTCACTTACTCTTCATAATTGCCCTAGGATGTAGATATTATCATTATCCC
CATTTTGAGGATTGTTTAAGCAACTTGCCTCAAATCAAACTCCTAGTGAGTGGGGGAGTTGGGACTCTGAACAATCTCATTCCTTTCCACTGTACCATAT
TGTCTCTTGCTGACTCACCTACACTTTCTCGGTCAGTTGTCTTTGAGACTAGAAGCATGTATTTTGGATAACTGGCTTAGATTCCAGAATGAAGTCATTG
GACATGAATAATAAAAACATTGTTGATACATGTGAGGCTAGAACCCATGACCTTATTAAGAGCATAATCTAACCAGTTGGGTTGCTATGTCAGTTTTACA
AGTACAATCAGTTTTCAAAATGATGCCAAAAGCTTGCCACTGCCATTGAATGCATGAATCTAGTAAAATAATAATAATAATAATAAATTCTCCTCGGTTG
CTACTACAGGTGATCCTTACAGGAATCAGTCACTCATTTTACTGTTTTTATTTTATTTTATTTTATTTTTTTGAGATGGAGTCTTGCTGTCACCCAGGCT
GGAGTGCAGTGGCGTAATTTTGGGTCACTGCAAGCTCTGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCC
CGCCACCACGCCCGGCTTATTTTTTTATTTTTAGTAGAGACGAGGTTTCACCATATTAGCCAGGATGGTCTTGATCTCCTGACCTCATGATCCACCTGCC
TTAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCAGCCTCATTTTACTGTTTATCAAAGACACCATTCTACCAAGTGCACCCTCTTCC
TGACATGCTTTTAGTGTATAGAATCCAATTCTACAGGTTCCCTGGTTCAAATGTTCTCTCCCTGACTTCCACAGGTGACCTTTTCCCCACATATGCACTT
CTTGTTTTCAGAGGTATCCCTTAGTACCAGGCTGTAGGTGATTTGGGGTATATACTACAATTACATGAATTCCATCTATTTTTCTACCTCTGTAAGGGCT
TCCAGGATGAAAGCCAGGATACTGGCTTGAGTTAGTACTTGTTAACAAAAGTCAGTTGAAGTATGATGTAAGCAAGTTGATTTTGCACAGACTTGTGGCC
TCTAAGGGGTTACAATAAAAACCTGATTTGTGCATTTTCATTTTAGTACAAATATAAAGATGGTTACYGCAAGCAACTTGGCCACCATATTGGAGCCCGG
AACATTGAAGATGACCCCAAGATGATGTGGTCCATGCACGTAGCCAAGATCCAGAGTGACAGGGAGTACAAAAAGGACTTTGAGAAGTGGAAGACCAAGT
TCAGCAGCCCAGTGGACATGCTGGGGGTGGTGCTGGCCAAGAAGTGCCAGACCTTAGTCAGTGACGTGGACTATAAGAACTACCTGCACGAGTGGACATG
CCTGCCYGACCAGAGCGATGTCATCCATGCTCGGCAGGCCTATGACCTCCAGAGTGACGTGAGTACAGCATCTATAAATGGAGCTGTGCATAGAAATAAT
TTAAACTATGTGAAAATTATCCTTTATATACAATCCATTACTCAAGTTAAGATTGATTGGTCCATGAATAAGATTTAAATCAGAATACAATTTTATTGCT
TTATTATGAATACACTAATAGACTTCATAAGAAAGTAAAATTAACAAAGTGGACTTGGTCTTATAAAAACAAAATGGGAATTAAGTAACATTAGAATTCA
GGGTCCACTAGAGGGAGACATTTATTCTTTTTTTAAGGAAGGAAGAAACGTTTTTACTTTAAAAAGAAATTACTGTGGAATTTGTTTTTGGCTTCTTTGC
AAACCAAAGAATTATTGAATTCTAATGCCTACTGCAACACTAAATATTATGCTTATGAAATAAAAGAAGTCTCTGTGTCTGTACACTACTGGACTGTTTC
ACAGACACTTCCTCTTAGCCTGGCTGTCTATGGAGGAGCCACATGGTAATGACAGAGCCTACTACCTATTGGAAGCAGATACACTATCTCAAATCTGGAT
ATGAGAGGCACATTTCCTGCACTAGGTATTTTATAAACTTTGAAGGAATTAAAGCACTAGCAAGTTTTGGAAACTAAAACTAATTTGTAATAATTATACA
TTAATTGGTTGTTCCTAAAAACTTACAGCCTACCTGAGAAAACTCCCACGTCTGTTCTGTAGCTTCTGACATACAGAACCCTGTGTTTTGCAATTCTTTC
CAAAAAGAAAGGCTTTGCCTGCACAGAAAAGATAGTTTAAAAGGGTTGATGTCACCCATACAACGACAATATTGACAGATTGCTTACCATCTGTCTATTT
GTTGGGCACCTTCTCTGGATTACCTTCCTCACCCTGCGATATGACCTTCATAATGTGGGAAGTATTTGAAAGTTAAAAAGCATTCTGGAGGTATAAACTG
TTATTGTTTTCATTCTTTTTTTTTTTTTTTTTTTCTGAGACAGAGTCTCCCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGATTACTGCAAC
CTTCGCCTCCCGGGTTCAAGTGATTCTCATGCTTCAGCCTCCCTGCAGCTGGAATTACAGGCTGCTGCCTCCCTGCCCCACTAATTTTTTGTATTTTTAG
TGGAGATGGGGTTTCGCCATATTGGCCAGGCTGGTCTCCAACTCCTGACCTCAGGTGATCTGCCCCCCTCAGCATCCCAAAGTGCTGGAATTACAGGCGT
GGACCCCAACACCTGTCCTGTTTTCATTCTTGCTATTGTTATTTGTGGGGCAATAACTAGTCAGCACAGGCTAATTCTAATAGTTTTTTTTTTTTTGTCT
AGACTACAAAATACAAGTTTTTTTATTTTCTACTTAGTTTCTGTGACAGGTGAAATCTTTCCAATGAGCCAAACAAAGATTCAAAACTATGATTGTGAAG
CAGTTATGAATATCTAATGGGTATATAAAAACCTTCAGCAAAAAAAAATTTTTTAATAAAGTGAGAAAAATATGGCAATATGATTTTATATAGGTGTCTG
TGCTTCCATCCTGAGGACTTGGTGAGGAAGAGACTGGGGCCCTGCACAATGAAATTGTCCATTTAATAAATAATTAAATTTTATTGCCCTGAATCTTGGA
CAGAGTTACAGCTGTTGAAGATCTCAGGGCTTCAGGGGTTCTACAGCACTGTTATATTTTAACTGTGTTTTTAAAGSCATTACAGATATTTTGAAATGTA
TAGAAGAATACATCGCAGGGAATAAGAATCCAAAACAATCCAACCACTAGAAAAACCCACTCTTATTCATGTAATTTATCTACCCACATTGTTTTATGTG
CTACTTTAAAATTTCATATTGTATTAATGACATTTCTACATGTCATAAATATTCTTCAACAGTGAAGCTTTTAATGGCTTCAGAGTGTTCCATTTGCCTC
GGCCTAAAATTGATTCACTAAGGGCCTGATGTTGGGCACGGGTGTGGTTTCTGTCTCTCTGGGTTGGTATTCTTCCCTGCATAGGGATGTTATAATTATG
ATAATGTTCACTGAACCAACTGACAGAAGATATTACTTGGGATCACTCCTCTCCTAATAACCTGAAATGTTTGATAACTTTTTATTATGGCTAGGAGATA
TTTCTGGGTCATTTTTGAGCATAATTCTTTTAGTTTGCCTTATACAACGCGCTTGTTTTCTACGAATAGAAAACAGAATTGCACTTTATTACTGATTCTA
TTTGCATATTTACCCTAAATATTGTGGTCTTGATGAAGAGTTTTTGACTTTTTTCCTCTGCTCAGAATATTTACAAGTCAGATCTCCAGTGGCTGAGAGG
CATTGGCTGGGTCCCCATTGGGTCTATGGATGTGGTCAAGTGCAAGAGAGCTACCGAAATACTGAGTGATAACATCTACCGCCAGCTCCGGACAAGCTGA
AATTTACCAGTGTGACTGATTCTCTAGAGCAGGTGCTGGCCAAGAACAATGCTCTCAACATGAATAAGGTGAGTCCTAGCTGCCTTAAGCTTCTCCAAGA
TGCCAGAAGATGTTATTATACTTTAATGACTAATGGAGTCTAAATTATCTRTGAAGGYGTGGGGTCGCATTTTTACCTTTTAAATTACATGCTTGAAATC
CTCTAAATAATTTTGATTATTCCAAGTTTCAATCTTGATAACTAGTAATAAGACTCACACTTCCAGTAGAATACTTTATATTCAAGTCTGGCTTATTTTT
CCTAATTAGGTCAGTAATAACAGTTTTAAATGAACTTTTTGTCATTTCTATTTCAAATGATTTTTAATCAGCATCTTATCTTCTTTTATAGCGTTTATAC
ACAGAGGCCTGGGACAAAGACAAGACTCAAATTCACATAATGCCTGATACACCAGAGATTATGTTGGCAAGGCAGAACAAAATCAACTACAGTGAGGTAG
GAGCAAAAATCTGTGGTGCTATATTGTGGTGGTGGTGTCTATACTTAGTTTTGTGGAGATTCTTGGGCCTCAGCTGTCATGGTGCATGTGGCTCTTTCAT
TTAACACTCCACTCATCCAACCTTTCATCTCTGGGTTAAATATTACATTTTATGGGATTCCACTGGCAAACTGAAGTCACAATGTCTTTTCTGTTCGTGG
TGATTTCCAGTGAGTCAGTGGGACTGAGTAGTATTTTAGACWCTTCAGAGGATTGTCAGATAAAATACTGGCCCATTATTTCTGCCAAAATATTCATGCC
CACTAATTCCATCCCTACCAATTAGATACATCAGTAAATCACTGCACCTTTCCAGGGCAGAGAGAGTAAAGGGGCAGAAAAGGCCTCAGTTAAAATAACT
GAGCTTTGTCTATAGAAAGAAAACCTTAGGCATAAGGAAGAAKTGTTCTCTATCAACAACATTGATTACTGACTTTTTTAAAAGTAAAATGCAATTTTAT
AGACACGTGGTTTATTAATATGATACAACCAAAATTTAGAAAGTTGTGATTATGGTTGTTAACTATATTTTGTTATATTTTAATTTTTCTTATTTGTCTT
TTAAACATTATAAAATATGATTGTCATACAAATTGTAGGTAATAAAAATGAATAAAAATATATTTTTATACGTATAGATAGATATTAAACATTGTTCTAC
CATTTTTTTTCACTTAGTGGTATGTTTGGATTGCTGCTTTGCTCATCAATCTGTATTACTAGATTGTATTGATCTATGCTGATATGTACATCATATTGAT
CTATGTATAGCATATTAATCTATAATGATATATAATAGGTTAATATATCACTATATATTAATGTTCATTGATATATCCCATTTATTTCTAACGCTATATA
GTATTTTTGGTAGAATATAATTTATTTGCTTKCCACTATTGCCAGAAACTTGAATKGTCTCCAGTTCCTATCCTTTTTTAAATTTTAGGATATAAGTCAC
TTAATAATCTCTGAATTGTTGATGTCAAACCTTTTGCTTTAACTCTTTGCCTTTCTTTTCATAGACTCTATACAAACTTGCCAATGAAGAAGCAAAAAAG
AAAGGCTACGACTTGCGAAGTGACGCCATCCCCATCGTGGCTGCCAAGGCCTCCAGGGACGTTATCAGTGATGTGAGTAGCAACACCCTAGATATTTACA
TGGATGGATGAAGTGGGGAGGCAGGATTATTACTATTATAACATTTGGGGGCCAGTTTAAGCACATTTATTGGCTTGTTTTTCTAAATCAAATTCAAATT
CAAAGTTTTTCATTTGAAAAAACTCATGTTTTAAGCTTCGGAAGACTTCAGTATCTATGTCCCAGGTAGGAAGGGGGTAACCTAAACCAGTATACTTCAA
TGCAGTATAAAATTGGATGTGATTCTATAATTTTTCATATCTACAATTATGAGAAATTCATCTCCATATTYTGAGCATAGAGCCTCACAGAAAATAGAAA
ATGGCAAAAGAGGTGTTAAAAAATAACTTAGTTACATGTATTGGTTCAATATCAGAAGAAGAGCTGATAGAACCAAGTCTAGGAAAATCCACCTTTCCCC
AAATCTGCTCTGTGTTTTTGCCAACTCATTTTTTTTTGGAAAATTATCTTAAATCCTTCCTTTTGAGTTCTTTTAAAATGAAAACAGAAAGACAAAGACG
AGGAAAACAAGAAAATGGTGAACCTAATTTCTCCTCCTGCCATCTCTGAAAGAGGTGGGTTCTTTGGTGGAAAATTCAGACTTCTTCTTCTTCTTCTTCT
TCTTTTCTTTTGTTTTTGTTTGTTTGTTTGTTTGTTTGAGACAGAGTCTCAGAGTCTCACTCTTGTTGCCCAGGCTAGAGTGCAATGGTATGATCTTGGC
TCTCTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAACTGGGATTACAGGCACCAGCCACCACACTTGGCTAATTTTT
TTTTAGTATTTAGTATTTTTTGTATTTTTAGTAGAGACAGCGTTGCACCATGTTGGCTAGGCTGGTCTCAAACTCCTGACCTCAGGCGATCCGCCTCCCT
CGGCTTCCCAAAGTGCTGGGATTACAGGCATAAGCCACTATGCCCAGCTGAAAATTCGGACTTCTGTAAATATTTGTTGGGATTGGTGTGGTGTGTTGTC
TGAAATAGGGAGAAAATATCCAGTTTGCCCTTACCACCACCAACAACAAAATGCTTTTTTGTAGATACATATTCCATTTTTCACTTGAGGAATCCCAAAC
AAACCTCAGTCAAATTTGATCTCCAACAGAGCAGGGCTTGTAGTATGGGAATATAATCCAGACCACTTCAGGGAGTCAAGTGCCCCAGCAGAGCTGGATT
TGGGAAGGAGTGTGGGTGTGTTGGATGGAGGGATAAAATGGTATCTGTGGACTCAGGAATAGCAGTCTCAAAATCATATGTAAAATTTCTGGGTTAGTGA
TTTCATGGGCCCAAGATGAAGAAATGGCAGTACACAGTACCGAAAGATCTTCCGGAAAGTGTTGCTTCCTTTATTTTCAGAAACTTAACGTCTACAAGCC
ATAGGACCATGTAGTTTGGCCTGTCTTCCCACTGGACTATTCCCATTAGACTGTTGCTGTTAGACTATTTATGAGACTTCGCATTAGACTACTGCCCATT
AGATTAGTGCTGTAGAGTCTAATAAGAATTTAGGATGAGGAGATAAACTGATATGCAGATTCTTTCATTACTCTGCAAGAATTAGCAATTTTAAAATAAT
AAAGTTTTAAATTAATGAGGCTTCTAAGCCTTTCTATTCATTTTTATTTTTGAAATGACCACCTTTATTTCAGTACAAATACAAAGATGGTTACCGCAAG
CAGCTCGGCCACCACATTGGAGCCCGGAACATTGAAGATGACCCCAAGATGATGTGGTCCATGCATGTGGCCAAGATCCAGAGTGACAGGGAGTATAAGA
AGGACTTTGAGAAGTGGAAGACCAAGTTCAGCAGCCCAGTGGACATGCTGGGAGTGGTGTTAGCCAAGAAGTGCCAGACCTTAGTCAGCGATGTGGACTA
CAAGAACTACCTGCACGAGTGGACGTGCCTGCCCGACCAGAATGATGTCATCCATGCTCGGCAGGCCTATGACCTCCAGAGCGATGTGAGTAATTAAGAT
CCATGGTAACTGTGCTCATAATAGTAATTCATAGAAATACTGAGACAGTGGTCTAGCATTAGGTAGAACCTTCAGAAGGGATGACATTTCTTCTCTCTGC
TCATTTTTTAGGCAACTCTTCCCCTTACTTTTTTTGGAGAGAAAGAAAGTAATACCTGAGACTGTATTCAATTTGGCCTTCATATATTGAAGAACGTATA
CATGAAATTTGACTATCCAAGCTTTCTAGTGTTATTTTTTTATTTTTGAAATCATGTTAAAACAACTTCAGTAATACTCGCTTTTGTGTTTAATCTCTCC
AGAACATTTACAAATCTGATCTCCAGTGGCTGAGAGGCATTGGCTGGGTCCCCATTGGGTCTATGGATGTGGTCAAGTGCAAGAGAGCTGCTGAAATACT
GAGTGATAACATCTACCGCCAGCCTCCGGACAAGCTGAAATTTACCAGTGTGACTGACTCTCTAGAGCAGGTGCTGGCCAAGAACAATGCTCTCAATATG
AACAAGGTGAGCCCCCAATTTGTAGGAAAATAAGACAGGGCTATATGTCATTCAAGATACCTATTGTTAATTAAGTTAGTCTCTTTTTTAAATCCAATTA
AATTGCTATCCAATGTATAGTGATTCAGTTGAATTCTCTATTCTGTTAGATAACAATATATGGGAGCATTTCTGCTTTGACATCTCTTGTGAAATAGCCA
GAGTTAAGAATGGCACAGCTCTTTGGGAGGCCAAGGCAGGCGGATCATGAGGTCAGGAGATCGAGACCACGGTGAAACCCTGTCTCTACTAAAAATACAA
AAAATTAGCCGGGCATGGTGGCAGACGCCTGTAGTCCCAGCTACTCAAGAGGCTGAGGCAGGAGAATGGTGTGAACCTGAGAGGCGGAGCTCGTAGTGAG
CTGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGATTCCGTCTCAAAAAAAAAAAAGAATGGGACAGCTATTATGGGTTCAAATTGTTTGA
AGTCTATAAGAGTTAGTTATATATGATTTGGTATGGTTTCTTTCTTGCTGAGTACTTATTTAGGTAAGCACAGAGCAAACAAGAAAGATGCAAGCCGGGC
ATGGTGTCTCACACCTGTAATCTCAACACTTTTGGGAGGCTGAGGTGGGCAGATCACTTGAGCTCAGCAGTTTGAGATTAGCCTGGGCAGCATGTTGAAA
CCCTGTCTCTACAAAAAATACAAAAGTTAGCCGGGTGTGGTGACACGCACCTCTAGTCTTAGGTACTTGGGAGGCTGAGGTGGGAGGATCACCTGAGCCT
GGAGAGGTTGAGGCTGCAGTGAGCTGTGACTGTACCACTACATTCCAGCCTGGGCAAGAGAGTGAAACTCTGTCTCATAAAAAAAAAAAAAAAGAAAGAT
GCAAATCTTCATAACATTTATCAAAAAGAAATCTAGAGATAGCACATACAGGTACATTTGCAGCTAATAAACTAACAACAAACAGCATCAAACAAATAAA
ATCATGGGAAGGATTTGTTAATATAGTCATACTACAGATATGGATGTGAATATATGCTTGAGAAATACTTGCTTTTTATTTAATTGGGGTGAGAGTGACC
TGGTTACCAAACACACACACGTGGGTGTGTATATGTGTGTGTGTGTTTGATTATATGTATATATATATTTTTCTTTTCATATCTTAGTATACATTTATAT
TTTGTTACAATAAATGTCTTGTAAAATCAAAGAGGTTGAAAAGAATATTAACATACATGGAACAGACAGCAAGAAAGCTGGCTCTCAACTTTGTCATGGT
GTCTTAATTGAAAACTCCTGTTTACAACAAACTGTTTTTCTAATTCATTAACCTTTTTATCCTTCACAGCGCTTATACACAGAAGCCTGGGACAAAGACA
AGACCCAAGTCCATATTATGCCTGATACACCTGAAATCATGTTGGCAAGACAAAATAAAATAAATTATAGTGAGGTAAGATCATTTGTTTTATTTCTTTG
GTCTGGCCACATTGATTGTTGCCGATGTAGGAATGTGAGAATTAYGAAATTAATCCTCATGTAAGCCAGTTAGCTTAGTTGGCTTTTTATGCCATTTACC
CTACCTTGAATATACATATTATTGTATTAAAAAATAGGCAGATAGAAAGGTAGATAGATTAGACAGACAGATAGAYAGACAGACACAAAAATATCTTCAT
TTCAGGAGGGAAAAAATATCTCAAGTCAACTATTAATGACTAAAACATAATTTTCATTAAAAATAATTCTTGCTATTCATCAAATTAGTACTTGCTTCAA
AATTTGTGCGGCAAGTTTATTTTCTTCAATTACCTCATCTGTAAAATAGGATTAAAATGCTTACCTTAAAGAATTTTTAAAGAATGACTAAATGAGGTAA
AATATTTAACATGCCCAGTGTGAAGCCTGGTGCAAAGTATTTGTTTAATAAACTTTAATGTCTCTCCTTTATGCTCAAGTCACCATGAAAATTAGATGTA
TTTAATGTGCTCAAAATAACTTGAGCTTTATTTACAAGAACTGAAATGAGAATTCTTAAATTCACCCATTTCAAATTGCCTGAGAACAATAAAATACATT
CTTTTATGAACTATCTTCAGCCTTGCTAAACTTGTCATTGCATATCTTTGCAGTCCAGAAATACTGCTGCATAAATAGCGTCTTGCTCAATTGTTCTTGC
CAAAGTCAAAAATGTATATGGTTGATTCAAGAAGGATACTAATTTTTTAAACATGTCTATGTGTCTTCATTTTTTTTTAGAGAAAAAGGAAGGCAGAGTT
GTCTTCAGTTTGAGAGCACTGAAAAATTTAAGTACTAATTTTTAAGATGACCAAATTTATTACTTTACCCATAATAATTACTTTTGCCTATAATAATGTA
GCCTTAAAAAATGGAGAGGGTATGATTTCACTTTCTCCAGCATTATAAAACAGACCAAAGGACAAGCCTGATTATAGATATTTGATTGGCCTTGGCTTCA
GTCACTTTTGAATGGGCCATTTTCTCTTGGCCACAGAGCTTCTCAGTTGGATTATCTTCTCCCAGGAGGTTTATTTTATCCAAGGCAGATGAAGTTAGTT
TCTATTCCAGATTATAATGAAGCTCTTAATCCTCTCTCATTTGTTTACATTAGGGGAACTGAAGTAGATTTTTTTTTCAGACTGCTGCAAGGATATTGGG
CTATTTTTTAATTCTAAAATTTTCAGCTGGATTTACTTTCTTTAAAATTGCATGATCATGCATTGAAGGCTTTGACTTCACCACAGTGCAATATATTAAT
GTAGCAAAATTGCACTCATCCCCCATGAATACATACAAATAAATAAAAATAAAATTGCATAATGATGTTGATTCTCTGAGGAATCTAAGATCACATTTCA
GAATGGCCCACTAGAATTTCTTCTCAACCCATTGCCCGTGGTTCCTTCATTGCATAAATGTAAAACAAAACAAACACATCTGTTTTTTTCCTCTTAAATT
CTCATTTACTTATTTTAGTTTTCTTAAGTAACAAGCTTTAAAATACATCCCTGATGATAGCTAAAAGTGTTCTCTCCTTTGAAGCACTGCATCTTTTTTA
AATGCTGAAAGAATTAAAGAACTCTATTTTTTTGGCCTGAAGCCATGAGATGATTGAAGCACATTTTTTCCCACTTATACCATTTTTAAAATATGAACAT
TTATTCCTAAAGAAAAAATGTAATAAATAAAGTATTTGACCTTCCAGTTTCAAAAGAAACATTCCTAGAAATTTTGAAGAAAAACAGATTCCCTCTGGAA
TTTATCTCAAAGATATTAAATTGATTCTTATTTTTACTTTAGCTTTTTCTTATAAAATCTCATCTTGAAAAGACTATAAACTGACACATCTTAATAATCC
ACTTTATAAACATAATAGTGACCCTGTAAGAGTCTTAAGTCATTAAAAATATTAAAAAATATTAAATGCATCTGTAGCATATTTAAAATCCAGATACTAG
TCCGGTATCCTTAATTCAATCTAATTTGAGAATGGRGTATAAAAATGAAGTTTAATTATTTGTATCACACTTTTTAGGGATTTTCCTTATGTTTAAGATT
TTGTCTTTACACAGGCTCAGCAATGAAAAGTACACTGAACAGTATAAAGTAGAGGGATGATAAAGCTTTATAGAACTGTAAATCTTTGTAGTTTTTCCCT
TAAAGCCATGCATTATTTCTAAATTCTTTTCCAGAACTATCTACTGGTACTGTGTCTGCTTTATCTAACTCAATAAACCTCTTAAAAGAGGAAAGGGGGA
AAGTGAAATTAAAGATTAAATTGTTCAATCATAGATTGATCTAAAGGCTGTATTTGGATATAGATGAGCTGCTTTCAAACCTCAGCTACCTACCATCCTT
GAGGTTACACAAAGGCTTTCCAAGGGGTAAACTGGCATGGATCGTTTTAAGTAAATCAGTTAACATAGCTTCAACTTCCATACATACACTCTTCTAAATT
ATCTGCCCAAGAATGCCCCTACAGCTTGAGTGGCATCCCACTTCTTTCATAATCACTCTTCTCTCATGTTAAAACAAAAAAGGCATGGTTTAAAGGTGAA
GAAATAAACTAGAGAACTAAATGCTACTCATTCTCTTGAACTGAATTCTGGATAGAAAAGCAACATTGCTATAAAGGAAATTATTGGGACATTTGATGAA
ATTTGAATATTCACCGTATATTTGATAGTAAAAGAGAATAATACTAGACAATAATACTGTATCAATATTAAATTTCCTGAGTCTGATACATATACTGTCA
TTATATAAAAATATCTTTATTCTTAGGAGATACATGGTAAAGTATTCAAGGATGAAGGCCATAATGTGTACAATTTTCTCTTAATCAGTTCAACAATTGA
AAATAATAATAATAAGTAAAATGAAGAAATACACAAACACATAAAGAGAGAGCTAGAGAAAGCAAATATGGCAAAAATGTTAATAAATTGGATAGTTGGT
ATTCATTGTAGCATTCTTGCAACTTTTCTGTAAGTTTGAAGTTTTGCAAAAKGTGGAAAGTATACATTTTAAAATATTAAAACATACATTAAAATATTTG
ACTAAGTGTGATAATATAAAGATTTCATTTTTTAAATAAAGAAAAAGAAATAGTCATATTCATCCTAGTAGTTACTATGATGCATGTCTGAAAGTATTAA
AACRAAACTTTACCAAACATGGCTGGGTGCAGTGGCTCATGCCTGAAATCCCAGCAATTTGGGAGGCTGAGGCAGGAGGGATCACTTGAGTTCAAGAGTT
TGAGATCAGCAACACCCATCTCTACTAAAGAATACAAAAATTAGCTGGGCATGGTGGCACACACCTGTAATCCCAGCTACTCGGGTGGCTGAGGCACGAG
AATYGCTTGAACCTGGGAGGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTGTCTCAAAAAACAAAAAACAACAATAA
AAAAGACCCCACAAAACTCTACCAGACAACTTAATTCATTATTGCCCATCAAAACTTTGTAATCAAACCACCATGAGCTCCTACAAGTCTCATTAAGAGA
TCCAATAAATTTTTACTTTTTATGTTTAAAAATTATTATCAAACTGTATATTTATCTTGTTTTGATTTATTGAATACCGATGTTGGCAATTACTTAAAAT
TTTTCGTTAAGAGGATACAGAATCAGTCAAAATTTTTATCACTGGTTCACAAAAAGGGCTAAAAGCCATTGGTATATATGATTTGTTTAATGCGTGGTTC
TCAAATGACACTTCCATGGAACATTTGTGTTTTGTCTTCTGTGCATGTCTGTCCTGCCACAGAAATTGAACAGTGGTGGTGCTTTCTCAATTCACAGAAG
AAGTCAAAAMAGTTTTGCAGTTTTGACTCCTAAATCTTTGGTACCTGCTACCCTCATGTCCTCGAACAACTTGCAGCAGTTGATGAAATAATAGGGAGCA
AATCAACATTAACAGAGAGATTCAGAAAGAATGACACATCTTTAGTTCAGCACTAAATTTGATTATGGACACATCCTCCTAGTGGTAGTATTATTATATG
TTATTATATGATACTGTTCTCTGCTAGTAAAAATGTTCCCAATTCAAATTTGGAGTTAAATAAATCAACATTTCTTGATTGTTTCATGAAAAGGGCAAAT
GGTGAACAATCTAAACACATTAAGAGGTGTTCATTTAATGTATAACGTGTAAAAGATTTGTGCAAAGAGAGGTTGTGATGTTAAAACTTGCTGAATGTGA
AATTTTCATTTAAATAAATATCCAAGGATAAACAGAAAGTAAAAGAAAGAGTTCTTTTTCTGATTTAAGGCTGAACATACTCATGTAGTTTTGCATCCAA
AAGTGGTCTTCCTTTGGCAGAAAATATACTTTTCGAGTGAATGTGAATTCTATATTTAAAAGCTACTCCTTCTTTCCTCAGAGCCTCTATCGTCAGGCCA
TGGAAGAAGCCAAGAAAGAAGGCTATGACTTGAGAAGTGATGCCATTCCCATTGTGGCTGCCAAGGCCTCTCGGGATATTGCCAGTGATGTAAGAGCTGA
TCAAGTCCTAACATTTCTTACCATCATGCCAGCCACACAGAATACAGCTGGATGTCTCTTTGGTCATCATCCACCTTAACTCCCTTCAGTGCATAGGCAA
ATATACTGAGGGTTGAGATACAGATAACTTGCCCAAGATCACAAGCATCACAGAGGCATAGCCTAGACTGGAATGTGGCTCATTTGACTCCTTATTTTTG
ATCTTTGCTCAATAGGAGTGAGTGCCTCGATTAAAGCTAGATGTGTGTATGCTGAGCTACTCACAAAACCTCAGGAACTTCCTTGGAACACACTCAAGGC
AAAGATGCCAGAAAAGAAGCAGGCTTAACTGAGTTTGCCCCATCACTTGAAAATGAACATGGAAAGACAAAGTCTTCTTTCTATGTGGTGCACAGAACCA
ATATTTCTTTACCCTAAAAATGAAAACATCAGATTCCCTGGACATCTTAAAAATTAATCCAAGAGTAGTAAAATTGTTCATTTTTATAGGTTTTTAAATG
TTTANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCATC
TTGTAAAACTTAAACTCTCTACCTATTAAATAACAGAAATTGTCCATTTTAAAACTATTTCTCCCAAATCAATTGTGAAGAGGAAATTACTTCTCAGACT
ATGCTAGAAAATTTTAATGATCCATGTAAACATACGCCCCAGGTGTGTTCTTAAATAGGCTCACTCACATGATGGATTTCTGAGACACCATCATGGTTTA
TTACTGTAATTGGACTCTTCATTTCAGTATTCACTTTTTATCATTTTTTGCCAACATATGATTCTCTAGCATATATAAAGGAACCATTGTGGGGTTATTC
TGTGGACATGTGCCAATGAGCACAACAGTCCAATATGTGGCGTTACAGCAGCATGACCAGTGAAACTCCTCTGTTGCCTTAAAGATTTCATAGAAAGCAC
CACCACAGAAAGAACAACAGGGAATAGCCCTTTGTGCTTCCTTCTTATTTACTGGATTCTCTCTTTCAGTACAAATACAAAGAAGCATATCGTAAACAGT
TGGGTCACCACATTGGCGCCCGAGCAGTACACGATGACCCCAAGATAATGTGGTCCCTCCACATTGCCAAAGTGCAGAGTGACCGTGAGTACAAGAAAGA
TTTTGAGAAATACAARACAAGGTACAGCAGCCCAGTGGACATGCTTGGTATCGTTTTGGCCAAGAAGTGTCAGACCTTGGTCAGCGATGTGGACTATAAA
CATCCTCTGCATGAATGGATCTGCCTGCCCGACCAGAATGACATCATTCATGCACGGAAAGCCTATGACCTCCAGAGTGACGTAAGTTTCCTTGATGTTA
GCTCTGCATGTTAAAAGCGGATCTGAAACGTGTCTGTGAGTTCTGACTAGTGCCAATGAANNNNNNNNNNNNNNNNNNNNTGTCTGTGAGTTCTGACTAG
TGCCAATGAACTGCAATTTGTTTGTATATTTCAAACAATTTACAATTAAATGTCTGAAAGGAGTTTCCCATTGGAGGTACTACAATTTGTTTTCTTCTCC
AAAAGTTCTCTGTAGGAGAGGAAACAAAGTAAATATTATCAGTTCTAAACAGGTATAAATCTTCCTAGGGATTCAGGCTTCCTTTGTTTGAATCAGATGA
AACTTAGCCCTTAAAAATATATCACTGCAAACTTTTGGCTAAGGAAGTAAAAAAATGTGTGTGTTTGTTGGCAGAGGGCAGTAGGGAGATAGAGGGAAAG
CATATTATGCTAAATTACTTTAATTTACATTTTATACTTACTGATGGGAAAATTCTATCATTCTTACGTTTTTCGAAACCAGTCGTCTAATACTTATCAA
CATTCAGCATGTCCTATTGAGAGTAAAATAAAATGAATAATTAAGGAAATACCAAACATATCTCTGTAACATCACATTTCCTTTATACACTTGAAGTTTT
GTGATTTTTGAAGATGGAAATAAAAGTGAGAATTTTTTGACTGCAGTACTCACGCACCATCAGTCTCAGTGTGTGGTTTTATTTGGAGCTATTAGACTAC
ATTTTCCAAGGCTAAAAAAGCATGCTTCTCTGTAAAAATCTTGTAATACTGTCATAGGCAGGACCATGTCTTTTACTTTAAAAGAAGATCTTTTATCATT
CTTGCTGTACTCCTCTGTACCAAAAAAACGCTCAGAAAAAAAAATACACTTAGGATTCAATAATGTGCGTGAGTGAGTGAATGACTATGCTAGGAACCTT
AACTATTCATCGGTATTTTTGTGTTTCTCTAGGATAACCCATTTTGTAACTATGAATCTGAAACACTAATTAATAAATCTGTTTCTTATCTGTTGATCTG
CAGAATTTGTATAAGTCAGACCTTGAATGGATGAAAGGCATTGGCTGGGTTCCGATTGATTCCTTGGAAGTTGTTAGGGCCAAGAGAGCTGGAGAATTAC
TTAGTGATACTATCTACCGTCAGCGTCCAGAAACGCTGAAATTTACCAGTATAACGGACACTCCGGAGCAGGTGCTGGCAAAAAACAATGCTTTAAACAT
GAATAAGGTGAGTCTTCAATCCTCACTGTTAGATACCGAAAGTTACCACAGAACAATTTAAAAATTCTGATATATTATTGCATTTTAAAGATAATAATAA
GCATTATGATACCTTCTTAAATGATTTTTCCACTATAATACCATAGTTACTTAGTGATACTTCAAAATATTAAACCATTGTTAAAAGTACTGTGTGCTTT
GTTTGTTTGTTTTGTTTTTGAGACTANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCACTGCAACCTCCACCTCCTGGG
TTCAAGCAATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGAGCCTGCCACCACACCCAGCAAATTTTTGTATTTTCAGTAGAGACAGGGTTT
CACCATGTTGAAGGCTGGTCTCAAACTCCTGAGCTCAGGTGATCCACCCATCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTAAGCCACCGTGCCCAG
CCTAAAGTACTGTGTGCTTCTGATTGGATTAGTAGGTTGTCAAAAAAAAAAAAATACTGTGTGCTATAACTCTTTCCTATAAATTATTTTAAATACTTCA
ATCCAATTATACTTTTCATAACCGATAAGTCCTTTAACAGATTATTGAAAGAATTTTAATAAGAAACAAAGGTAAGGAATTTATGCAGCTTTAATAATTT
TATTTCTACCTTGTATACAAGAGAGATGACTGGCACATAATCAAAACAATAATATCTGTGAACACCAAAATAATTTTTCTCTCTCTCTCTCTCTYTTTTT
TTTTTTTTTGTAGCGCTTATATACTGAAGCCTGGGACAATGACAAGAAAACTATTCATGTCATGCCTGATACACCAGAAATCATGTTAGCCAAACTCAAC
CGAATAAACTACAGTGATGTAAGTAAACTGTTGATCTTGTAATGAACAGAAAGGCAAAAATGAACCACTGTAGCTGTTTCCTTAGGAAAAGGTTTTGACT
AATTTACTACACATACTACAAACTACCATTTTCAGTAGAAGAGATAGTTCTCACTTGATTCAATTTTGAGCTTTGTGGTGGGTCCACAAAGTAGGCTACC
ATTTTATTAACAGGTTATCAGGAATTGAATGATTATGAATAAATATTTCCATAGGAATTATACTTTTAAAACCTTCCCCTACAGGTCACTGTGGGTATCA
AGTCATTATTTTATTCAGCAGCTAGCAAGTAGGCAAGGACTGGGTTGGAATCTGATGAGTTAGTAAGCCGCATATTATTTTGCTGCTCCAGTATGCTCTG
ATAATCATTTGATGTTAACATTTTTCCAGGCATTTCTGCCAGAACCAACATTTTCAAAAGGGCAATGATCCTGAAATCCCAGGTCCATAKATGAATCATT
GTCCGAGATAATAGTCCACAGCAAAATAAGAAAAAATAAGCACAATGCATTGAGTTTTTCATAAAACAGAATAGAGTACATTTTAAAATATTGTCCTTGT
TTTTTATTCTTCTTTTGTGTTAAGATGCTGTGTCTTTTATATTATGATGACAATAATAAATACTGTTTTGTTTTGTTTTGTTACGTTTGAGACATAGTTT
CACTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATTTTGGTTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTA
ACTGGGATTGCAGGTGCATGCTACCATGCCCAGTTAATTATTGTATTTTTAGTGGAGACGGGATTTCACCATGTTGGCCAGGCTGGTCTCTTCTCAAACT
CATGACCTCAGGTGATCCACCCATCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCAGTAAATAATTTTTTTTTTTACATC
TGCTTGTTTGGCAAATAAAATTTTGCCAACCAAATGTTGATTTTTTCCCCACATTTTTTTGTTGAAATTTACAAGTCAGTAAAATCCCAATGTTTGGAAC
ATGTGCCTTAAAAATCCTAAGCACCCATGAGGCAAAGCTATCTATAAACCCACCCTAATGATTGACTTTGTGAATTATTTCTGAAGTTTAAATGAGGACA
AAGAAAAACTAATAATGAACAGCTTCACTTTTTATGGAAGGAGTAAATGAGTAATGACTTTCTTTTCTACAGAAACTCTATAAACTTGCTTTGGAAGAGT
CCAAGAAGGAAGGCTATGACTTGCGTCTGGATGCCATTCCAATCCAAGCAGCCAAGGCTTCAAGAGATATTGCTAGTGATGTAAGTGGATGTTTTGGAAA
AGCCATTTCTTATTCAAAGATGTTGACAAATAGAAGCTTTTAGAGTTTTTCTTGCTAGAAATTTAGTTACCCCTATAARTCTCAATTCCCTTTAGTGATT
TTCCCCTATACAAAATTGTAAATGGAAAAAAAGAAAAGCACAAAATTCTAGACCCATTATACCCATCAATCAATCAAAACTAGAGACATACTATTTTTTA
AAAAGTGTTTTACGGACACCAAAAATGGGTTCATATTTTTGAGCTTCAGAAATTGAACACTCCGTCTTCAAAAAAAATAAATAAATAATTGAGCAGCAGT
TGACCTAGATGTTTGTGAAATTAAAGGGATTAATTTATTCCCTTTAAATAATATGTGAGAAACAGCCAATATACATGTAAACTCTTCCTTACTACTTCTA
TTTATTCTTGCATTAAAAGAAAACTAGATGGATATGTCTTAGAGATTTGTTTTGTCCTTTGTAACTCCTAATTGGTGAGATGTCCCTCACCGGACACAAG
AACAAGTGGCAAAGTAAGCAGAGCTTTTTCTCAGTACCCGCTTGCCTCTTCTCTACTCCTTTTCTTCACATGSGAAACACCTCCTAAGGGTGGCCAGTGT
CCTCATTCTGTAACAAGCCTCCTTAGGACTCAAATCCAGACTTTCCCTCTTCTGGAAGGGCCTCATGCCTTAGACATATGTTTCATTTCTTCTGTAAACT
AAAAAGTATCTGAAACAGATCTCAATCAATTTAGAAGTTTATTTTGCCAAGGTTAAGGACACACACCGTATTATCAAAACTTTTCTTGCTGTTAAGCTGG
AGAAGCCCACACCATGGTAGAATGGACCATAATGCGTTATTCTGGAATCTTCAAGGTAGATAAACTGACTCATAGTGAAAGTTCAGTGATGTTGACAGGC
TGATAAGAGAGCCATTTCCTGGTGACACATAAACTCTATCTAAATGTAACACATATCCTTGACTGAGAAGTCTATTATAAGTTCTAATAAGGGAACTATT
CTAAAATATTCTTAATGTCAAACAGTTTTGGGAAAATAACTGTTATTTTCCATCAGATTGTTATGCTCCATCAGATTGTACAATATATTTACCTCTACTT
GTTAAGGAATCAAATGTAAACTGAGCAGTGTGGTATAATAAGGAGGAAAAATATTAGGAATGAGAAGCTCTTCATTCTAGGCTCATGCTGCCACCTGCTT
GTGGTGTGACTGCGCAAATCACTCAACCCCTGCTAGGTTCAGGTTTTGACTTTTAAAAATAGGGTTGATGATACTCACTTTTCTCCTTCATGATAGTGTT
GGGGAAAAGAAAAAGAAACAATGTGAATGTGAACCTATGAAACATGATTATATAAGATGTTCTTGTCATTATACTCATATCTCTATTTTTTTAGTACAAG
TACAAGGAAGGCTACCGCAAACAGCTTGGCCACCATATTGGGGCCCGGAACATTAAGGATGACCCGAAGATGATGTGGTCCATCCATGTGGCCAAGATCC
AGAGTGACAGGGAGTACAAGAAGGAGTTTGAGAAGTGGAAGACCAAGTTCAGCAGCCCAGTGGACATGCTGGGGGTGGTGCTGGCCAAGAAGTGTCAGAT
CCTTGTAAGCGACATAGACTACAAGCATCCCCTGCATGAATGGACCTGCCTGCCTGATCAGAATGACGTCATTCAGGCTCGGAAGGCCTATGACCTGCAG
AGTGATGTGAGTGGCTCTAATATTCTTCAGTAATGGTTTAGAAAAGCATTCTAACTCTTTTGTGCCATGGAATCTTTCCACAGTCTGGTGAAACCTACAG
ACACCTCTTTAGGATAATGTTCTGAAATGCACAAAATAAAGTATGTATTTAGTTTCAGAAGAAACCAATCATATTGAAATATCATTATCAAAGTATTAAA
CCAAACCTGTAATGTGCTTTTCATTAACACATTAAGTAAAAAATTCTAGTGGTGACTGTAATAACTAATTTCAAAGAAGTGATGAGCATAAATACTTTAA
GACATCAGCAACAACTCTGTACTAGTCTGTTCTCACAGTGCTATAAAGAACTACCTGAGACTGGGTAATTTATGAAGAAAAGAGGTTTAATTGACTTACA
TTTCCATGGGCTGTACCAGAGCATGGCTGGGAAGGCCTCAGGAAACTTACAATCATGGTGGAAGGTGAAGGGGAAGCAGGCACATCTTCACATGGTGGAG
CAGGAGAGAGAGAGCAAAGGGGGAAGTGCTACACACTTTTAAGCACCTGGATCTCATGAGAATTCACTCACTATCACRAGAACAGCAAGGGGGAAGTCCA
ATCACCTCCCACCAGGCCCCTCCTCCAACATTGAGGATTACAATTCAACATGAGATCTGGATGAAGATGCAGAGCCAAACTATATCAAACTATAATAGGA
CATAAAAAGATTTGAGATTTCTATAGCTGACAAAGTCAGGTGTAGTGTCAATACTGCTGTAATATATTGCTTATACTTACAATGGATAAAATGCTATATT
TCAGTTAGAGGTTAATGAAAATGAAGATGTTACATATTTTTTCTATCCAAGTTCACTGATGCCAGGTTAAGAATTCCTGTTCTAAACAAGCTAATTTTCT
AAATGAATCAATTGCATTATAATTTTGTGTCTATTTAACTTATAGGAAGTATCTATTGTAACTTTTGAATGGAAGTTTAAAAATGAATTATACATATGAA
GACAAATTTTCTAAGAAACTTGAAAACAATTGTTCCCTAKAAATACGTTAGGCACTTTTGTTGTTGGCCAGTAGAGTCCTTTGGAGACTCAAATATTACC
TCATTGATATCATAGCTCCTTGTTTTAATCAAGCTCTGGTTAAATCAAGCACTTTTGGAAGAATGATAAAAGCAGTGACAGTTAAAAAAAGAGAGATTCC
CTGAAAGCCATAAAAACAAAAAGAATTGTTACCCTTCCTTACAAGAAAAATTTTCCTTCAACCAGTTGTTTATATTCAAAGAAGAAAATGAAAGAAAGAA
AAAATGTATTTGTTTACTTGAATTCTAAGACAAGAAAGAGGATGGAGGATAAAATAAATATGAGTAAAGAGAGATGTACTCTGTGACTTGGAAGCATGTA
CATAGAAGCATACGAAAAAGACGTCGTTTTTATCCCCAAAAAAACACATTAATGCAACGTGATCAACCAGTAATGCTCATTTCTTCTCTATATACCAAGA
AGAGCTATGAAGGCCACTGCCTAACAACATAGGAGCCAACTGTATTCTCACCCAGTACAGTTTCCATAAGAGGAGGTAGGGACCATCAAATCAGAGAATA
AACACTGTTTCAGGAGGCAGGCAGTAATTTCCTTAAGGTGGTTTTTATCACTGAAAATGAATAGCATTAAAGAGATTTTTATGAGTCTTTAAAACAGTAA
ATATTGGCTACCTTCAGGAGCCAGGCATTTAACTAGCCATTCTAAACCAAAGTAAAGCAATCCTGTGGGTCTTCCCAGAAATTTACACAAATAAGATTCA
GACTAACACATTATCTGTGTATGTTAAATCAGGATCAGGCACCAGGCCGTCTAGGTGACATCTATAAATATTTGACATTATTTCATTTTCAGGCTATTTA
CAAATCTGATCTTGAGTGGCTGAGAGGCATAGGATGGGTTCCCATTGGCTCTGTAGAGGTCGAGAAAGTGAAGAGAGCTGGAGAAATCCTGAGTGACAGG
AAGTATCGCCAGCCTGCAGRCCAGCTCAAATTCACATGCATTACCGACACTCCGGAAATTGTCCTAGCAAAGAATAATGCCCTGACAATGAGCAAGGTGA
GTCTCCAGCTGTTTTCTGTTGCCAGAATCATACCTTCCACAGATTTGGCTCATAAAGTAGGAAATTCCCTAAGGATTCCCTGAGAAAGGAGGTGTCATAG
GCCTGATTCTCATGCAGGCCTTTAACAGAGCATCTGCTTGAATTCAAGGTGTGCTCTTCTCAACACCCTGCCCCCTAATTCTCTGTGTGCATGTGGGAAC
AGAGCCTGGAATGATTTCCCTGGAGTGATGCACTCACCCTTCTGAGCAGTGACCTGGAGACATCACAATTGCATTACCCTTCCTCACACATTCTCCTAGG
CAGAGCAGATTCAGGCCACTTACGTGTCTTTAGCCATCTGGTAAGGAATATAAGCCATTTACACTTCATTCTGAGGGCTGGGATACACATAGTGTTTCAT
AGCAATGCTGGTACACATTCAAATTGGTTGCTCAGGTTGCTCCTCCACATTAGGTTATGGAAATCCACTTTTGAAAGCTAGCTGCAATCTCTGCTTTCAG
TTTTATTACACAAGATAGATGATCATTTGTTTCATCCAAAATTTTATCAATCTATTTTTATCCAATGAGTCAGCCCTTAATATGCATATTTTAGACTGAT
TTGAACTTGAATTCTCCCACACCTGCCTGGAAGCCTTCCAATCATTAGGCTAGTACAATTGAGTGCTCAGTACAAATATGAAAGTGGCTTCAGATAGCAA
ACTCCAGAGTCTGGGGTATACAACTCTAGAAACTCTTTTATACTATATCCATCAACAGCAACCACAATGATAACAGCAATAGGAATCACCAAAAAATCGT
TGAGTATCTGCTATGACTTGGGCATTTTATATATGTTATGGATCATCTTCAAAAAATAATAAAAAAGAATGATTATCCCCCTCTCAGAAATGAGGAATGT
GAGGAGTTATGTACCTTTCTCAAGATCACACAGCTTGGAAATAGTAGAGTTGGGTTTGCACTTGGGATTGACTCTGAAGTCTAGGGATTTCTACTGTCTC
ATAGTTCCATAACTGAGATCCATCTTTGGATATCTGAATAAGCTTGTGATTCAGTGGATGAAAAGAATTACTAATAGCAACCATTATATTGCTTCATATT
AATTATGAAACCATTGTACAGCTATTTAAATATTGCTATGTTTTACTTTCCCCATGACTCTTTTGCTTCCCTCACCTCCCAAAAGCATTAGAAGGAGCTA
TTTTATAGTTAAATGTGAGTTAAATTTGCTAACAACTGTAATGATGTTATTGGCTTTAACAGAAGGTCTTATACTCCCTCCCTCTCCCCATGCCCCATGC
CGCCCTGCCCTGTAGCATTTATACACAGAAGCTTGGGATGCTGACAAAACCTCCATCCACGTGATGCCAGACACCCCAGATATCCTGCTGGCCAAGAGTA
ATTCTGCCAATATCAGCCAAGTAAGAGATTTCCTGATTGTTGCTTAAACCTAAGATTAATTAAAATGCTTTTTCCACCGTAACAATTTCCTTTCTGGAAT
TGGCCTATTACCTTCCTCAAACACTCTTATTTTCTGTCGTCTATTATCCCTTCCCTAGAAACTTTACACCAAGGGATGGGATGAATCAAAGATGAAGGAC
TATGATCTGAGAGCAGATGCTATTTCCATCAAAAGTGCCAAGGCCTCCAGGGACATCGCCAGTGACGTGAGTACCTTCCATCTAACTCTCTGTGRTCTCC
ACTGTGCTGAACAACCCAGAGGGTGGCTGGTGAACCACACACTCTATAGTGATTTCCACATGTACCTTCCAGTCCTACTTCCTACCTCTCAAGACCATTC
CCTTTGTTGTTACAGAGAATAAAAATACATTTTGGCATTATAGTTAGAGTTGCTGCAGGGAATGCTTTCACCAATGAAGATATATGATTACATTACAATT
ATTTTTAAAACAGTATAAAACATTGCTTTTAAATATAATAGTTCAGAGATGCCAAAATGTTTGTAATATAAAATCTTGTCCATTTCATGTTGTCTGTAAT
TGTCAGCACATGAGCATGGTTTTAAAACTGGATGTCTCCACCTGTATTTCTGGCATTTTAGTACAAATACAAGGAAGCCTATGAGAAACAGAAAGGCCAC
CACATTGGAGCCCAGAGCATTGAAGATGATCCCAAGATTATGTGTGCCATACATGCAGGAAAAATTCAAAGTGAAAGGGAGTACAAGAAGGAATTCCAAA
AGTGGAAAACCAAGTTCTCTAGCCCAGTGGACATGTTAAGCATCTTGCTGGCCAAGAAATGTCAGACTTTGGTCACTGACATTGATTATCGCAATTACCT
GCATGAATGGACATGCATGCCGGATCAAAACGACATTATCCAAGCAAAAAAGGCCTATGACCTGCAGAGTGATGTACGTAACATGAATTTTGGGAAAGGG
GGAAGGGGAAGATGTAGATTTGTTCATTGCCCAGTCAGTGCCTCTGAGGACAGTCCCCTGGGCTGTGCACTGCACAAACCTSGGGGTGGGGCTGGGGGTA
CCATTCACATTGTKTAATATAAAATCCATCTTTAGTAGTAACTTCTGGCAATGAAAACATATTTCAGACAAATATAAATCATCTGAATGTTTTTAAAATA
ATTGTTGCTATTATGCTAGATCCAAAACACTAAACAGCATTTCCTTGGGTCAATTGCCACAGGATTAAAATGGAATCTAATTCAGCAAAATTTTCCTTTA
AAAATTTTCAACTATAAAATTTTTTGAAATATCAAATAATTATATTATGGAATTCAGCTTTATTACTATATATATTATTATTCATGGCTAGTATAAATAA
TTATGTTTTTACAAGTGACTTCTGTGATCAATATTAAAAACCCTCAATCATGTGAGATCTCAGGTCTTACTTTTTTGGAAGTACAATCTCCTGCACCTAT
CCCTTCAACCCCATGTGCTTTATTTTTCAGCTAAAGATTTGTATGTCTAACACTTGAAATGTTTTTTCCTTTTTTTTTTCTTTTTTTTTGAAATGGAGTT
TCACTCTCATTGCCCAGGCTGGAGTGCAGTCTCCAATTGCACTCCATCCCTTAAAAAAAATTTTTTTAAATGTTAGCACTCACGACTTCAACTTATGATC
ACAAAAGGGATTTCCAGTGTCACAATGATGTACTTTCATGTTTTATTTTTGCTTTGCCGTTGCATGTACTCAGAGTTTCAGTGCTGAAAGCCTGCACCTT
GCCTCTCATACAATCTTTGCCTATTTTTTCATTAAATGTTGACATTTACCTTTTTTTTTTTTTTTTTTTTTTTTGTGAGACGGAGGTTTGCTCTTGTTGC
CCAGGCTGGAGTGCAATGGCACAGTCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTAC
AGGCATGCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGAAATGGTATTTTTGTCTGACATCTTCTTTA
TAGAGTGTGTATAAGGCAGACCTGGAGTGGCTGCGTGGCATCGGCTGGATGCCAGAAGGCTCAGTGGAAATGAACAGAGTGAAGGTTGCTCAAGACCTCG
TGAATGAAAGACTCTATAGGACACGTCCAGAAGCTTTGTCATTCACCAGCATTGTCGACACTCCAGAAGTTGTCTTGGCAAAAGCCAATTCTCTGCAAAT
AAGTGAGGTAAGAACCATCCTACTATCTTTTCCAAAGATACCACCCAAACTGAGCCCGTAGACTGGACTTCTTCAAAGAATTTTGGTGAGACGAGCAACT
CTAAAAATGTCTTCACTAGTGCAGATACACTGAAAATAGAACTCTGACAAACACCAACATGCCTTTCTTCTACCACACATACACACTTTTGAAGCANNNN
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GCAATATGTTTTTTTCTGATTTTTACATGATTTATTATCTCCTAAGTTTCCTTCTTCAAAAAATAATTATTGGGAGAGAGCTTTACTAAATGTCATTAAA
AATCTACTGGAATTCAAGCTCAATATGAAACCAGACTCTTTCATAAATCTTAAGGAGACATTAATGTTCAGTGTAACTGTAAATATCTATTTTTAAATAC
ATCAGTAATGCTGACTCAGTAGCTCCCTCTTCAGACTGACTGTGGCATTGCACTCTCTGTTTGCAGAAACGCTATCAGCAAGCTTGGGAAGATGTCAAGA
TGACTGGTTATGACCTGCGAGCAGATGCCATTGGGATCCAGCATGCCAAGGCTTCCAGGGATATTGCCAGTGACGTAAGAGCTCCTCCTTCCCAACCGGA
ACAAACACTAACTAGTAGAAATAGAGGGAGTTTAACTTAATGCCCTTTGAATTATATTTAAATGGAATTGGGTCATTGTTATTAGTATATTTGTAAATCC
TAAATTCAAGAACAACTCTTACAATYTGAGGATCCTTTTGCAYCTATGTYTGGTTCTGCAACTCTTGCGTTTAAGCACAGATTTTGATTTTCTTTTCAAT
ATCTTCACAATGTCACTTAATTTACAAGTACTTAAAGAGATTTAATTTCATAGTACAGAGAATTCTGTTGTTACTCAAAGTGTGGCGTGTATACTACCGG
TGTTTCCTATAATAATTTTATGTAGTACATGCACAAGTATTTTTTTAAAATAGTTATATGGTTGTTTTAATGTGTGCTAGAAATACACTGTTTTTTTCCA
CGTAGATAGGGTTATACATTTTTAAATAAAATTTTAAAATAAGTTTATAATTAAAAATTATTTCAGGCAAGGCATGGTGGCTCATGCCTGTAATCCCAGC
ATTTTGGGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAATT
AGCTGGGCATGGTGGCGGATGCCTGTAATCCCAGCTACTGGGGAGGCAGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGATTGCAAGTGAGCCGAG
ATCGTGCTACTGCACTCTAGCCTGGGGAGCAGAGCGAGACTCTGTCTCAAAAAAAAAAAGAAAAGAAAAGTAAAATAAAAAAAATTTCAACAAAGAATTA
ATTTGATTTAAAGTAATAAGAAGTACAACTGGTACTTGTGTGTGACAAAACATCTGAAGGTGGCCAGGCTATATTGGGAGATAATCCAGCAACACAGTTC
TTGCCTAAGAGATGCTCTCAATGTTTTCATGCATGTAGACACAGAAGACAAACCAATGTATCAAAACTTATGGCTTGAATTTAAATAAAAACAGTATTCC
CCGACCCCCCCAAAAAAGGTAAACTAAGGGAGATGGAGTTAGTTTGAGTAGGCTCTCTAGAAAAAGTGGGTTTGGAAAAATTACTCTTCTATTTTCTGTT
CACATCTACCAGTATCTGTACAAAACTGCTTATGAGAAACAGAAAGGCCATTACATTGGCTGTCGCAGYRCCAAGGAAGACCCTAAACTGGTTTGGGCAG
CAAATGTGTTGAAGATGCAGAATGACAGGCTGTACAAAAAGGCCTACAACGACCACAAAGCSAAGATCTCCATCCCTGTGGACATGGTGTCCATCAGCGC
TGCCAAAGAAGGTCAGGCACTGGCAAGTGATGTGGACTATCGCCATTACCTGCACCRCTGGTCTTGCTTTCCCGACCAGAATGATGTGATCCAAGCCAGG
AAAGCCTACGACCTACAGAGCGAYGTAAGTGTGTCCCCCAGGAAACAAGTCCCCCATTGCTTTGCCTGATGGCTCCTTCCAATGCTCTGAAAACACAACT
CTCTGTACGTAGGCACTCCACTTTATTATTATTTTATCAGAATTATTAATTGCCTACCTACAGCCAGGTTTCTTCAGAAAGTTTTCATTGTTAAAGGTGC
TACCAGAATTTTCCTATAGATTTGTTAATGTGTACAGTGTTTCCAGTTTCTTACTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTG
TCACCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCCCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATGTTCCTGCATCAGCCTCCCAAGTAGCTGGGA
TTACAGGCATGTGCACCACACCCAGCTGATTTTTGTATTTTTATTAGAGACAGGTCTTTGCCATCTTGGCCAGGCTGGTTTTGAACTCCTGACCGCAGGT
GATCCACCCGTCTCAGCCTTCCAAAGTTCTGGGATTACAGAAGTGAGCCACCATGCCCAGCCTTGCCCGCCCTTCCTTCCTTCCTTCCTTCATTCCTTCC
TTCGTTCCTTCCTTCTCTCCTTCCTTCCTTCCTTCCCTCCTTCCTTCCTTCCTTCCCTCCTTCTCTCCTTCCTTCCTTCCTTCCCTCCTTCCCTCCTTGT
CTCTTTCCCTCCTTCCCTCCTTCCCTTGCCCTGTGGCCCTGGCTGGAGTCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTTCTGCCTC
AGCCTCCCAAGTAGCTGGGATTACAAGCACATGCCACCACAGTCGGCTGATTTTTTTATTTTTTAGTAGAGGCAGGGTTTCATCATGTTGGCCAGGCTGG
TCTCAAACCCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGGCAGTTTCTTAAACAGAAGAATGTCCATGGTCCTTCAGCTATGAA
TCAAAGAAGGGCAGGACCATCTTCCTCAAACTTAATTTGAAAAGTTAGCAGCACRCTCCAGACCACTTGTTTCCTTTTACTTGACGTTCTTCACAATGTG
GTCTTTCATTAACTCACCTAAGGCATTTTTAGATTTACTCGTATTTTCCGCCCTTCAAACTTTTGGAAATGATGGATTACAGAAGGTTATTTATTTCCTG
TATAGAATGGATAACTTAAAAATTATCTGACCTTGGTTCCCTTAAGCTTCCAGAGGTACTTTTTTATAATGAATGAGTTCATTACAGGAAAGCATGCTCA
TCACTTAAAATGCATTGCCAAGTGGTATATTTAAGACAGTTTCTGGAGACCAAAATTGTGGAAGTAGTGATCGAATTCTTAATCATCCTTTTAAAAATAC
TTATTAAACACACCATGTGCCAGGCATTGTGCTAAGCACTAAAGATACCATGGTGAATAAAGAAGAAGAAAAAACATGACATAGGCTGGGCGCTGTGGCT
CACACCTGTAATCTCAGCACTTTGGGGAGGCTGAGGTGGGTGGATCACAAGGTCCAGARTTTCAAGATCAGCCTGACCAACATGGTGAAACCCTGTCTTT
ACTAAAAACACAAAAATTAGCCTGGCGTGGTGGCATGTGCCTGTAATCCCAGCTACACAGGAGGCTGAGGCAGGAGAATCGTTTGAACCTAGGAGGCAGA
GGTTGCAGTGAGCCGAGATTGCCACTGCACTCCAGCCTGGGTGGCAGAGTGAGACTCCGTCTCAAAGGCAAACAAAAAACATGACAGCTCCTGACTTTAG
GGAGTTCACATTGATAACCGAGACCTAGATGTTCATTAAAGAATAAAAATGGAATGGCTGAGAGTGATCCATGGTGCTATGAAGAGAGATCGAGAAAGTT
CTTCTGAGAAGGCACTGATTTTACAGAGATATGAAGGAAGAATAGAAGTTGGGTTGGTTAGGAGGACATGGGGCATTCCTTCAGGGTGACCAACATGTGC
AAAGAGGGCTGATGAGACTACGAATTGAAAGACAGGCTGTGTGATCAGGACACACAGGGCCAATGGAAGTACAGATGACACGAGGCTGGAAGAATAGGTG
GGGACTGGTGCCAGACCATTCATCCCTTCTAGTCTGTGTCAGGGATTTTGATGTTTATCCTATGACCGATGGGAAGCCATAGGATGGGGGAATGTTGTGA
CATCGGATTTGAATTCTGAATTTTGAAAAGATCATTCTGGCTGCTGTGTAGAGAACTTACTAGAAAGCCCATTATTGTTGCTTTAAAGTCTGCATTGGTA
ATGGTATGATGATAACCTAAATATTATTCAGAAGTCTTCCATGCAGTCCCTCAAATGGAGAGCTGCTTCTGCATCACTTTGCCTTTTAGAATGCACATGG
GCACTACCACACAGACCCTTGCCACAGAAAACCAAGCAAAATGAAATGCCATTGTGCATTTGAGGAATTATGTTTGTCAGGCTAGTGCTCTGTTTTAATT
ATTGTTTGTGGAAGATAAAATAAAAGAGGCCTGGCGTAGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCA
GGGGTTTGAGACCAGCCTGGCTAGCATGGTGAAACTCCGTCTCTACTAAAAAAAATACAAAAATTAGACAGGCATCATGGCACGTGCCTGTAGTCTCAAC
TACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACTTGGAAAGGGGAGTTTGTAGTGAGCTGAGATTGTGCCATTGCACTCCAGCCTGGGTGACAGAATG
AGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATATATATATATATATATATATATATATATATGTATTTATGTTATATATATTTTAT
GTTGTATATATAATATATACACACACAACATAAAAACTGTCCTTATTTTACCACACACATACACAACAAAACACAAACCCTGCTTCTACCTGTGTTTTCT
TTTTCAGGCCCTCTACAAGGCTGACTTGGAGTGGTTGCGTGGCATTGGCTGGATGCCCCAAGGGWCTCCTGAAGTGTTGAGAGTCAAAAACGCCCAGAAT
ATCTTTTGTGACAGTGTCTATCGGACGCCTGTGGTGAACCTTAAGTACACAAGCATTGTTGACACACCTGAAGTGGTCCTTGCTAAATCAAATGCTGAAA
ATATTAGTATTGTGAGTTAGTTTTTCTCTATTAAAATTGAATTAATGCCATAAATAGATGAGAAAGAATAAACCTGGTCATTTATTTTAGAATAATAAAA
ACTTTATTAATAACAAAAATTTTATTAAGTAATACAGTATTGTCTTGGTTTGCTTATTAATTTTAAGCAAAAACTCTAATAAAAGGGAATAATAYAGATT
TTATATCAAATTTGAGTAACTTACGTGAAAAGATTCCAGAAATCTTTGCCCTAACATGAAAGGGTTTTGGATCAAATCCAAAAGAAAATTTAAAAGTTGC
ATAGTGGGACTAGCAACATGAAAATTGTGAAGTAATTTTATTATTTTTGTTTCTTTCCACAGCCRAAGTACAGAGAGGTTTGGGACAAGGATAAAACTTC
AATACACATAATGCCAGATACTCCAGAAATTAATCTCGCTAGAGCAAATGCTCTTAATGTGAGCAATGTAAGTACTACAACAGACTCTCTTTTTGTTTGG
AAAGTTACCCAGTCAGGGCTATACTATGAGCATGGAAGGGAGGGAAGATGGACTCGGTCCCTGACTTCCCGCAACAGGGGAAGACTCCTTGTGGTCACCC
CTTGACTAGGAGTGAGGCAAGGAGGAGATCCCTGGTGATTCACTGGGCAAGGCCAGTTACTGGTGAGTCAATATCTCCACAACAAAAGTCTCTTTAGTTG
TCCTTTTTGAATAAGGGGACAAAGAAGGTGAAAGACGAATGAAGAGATGCACAAACAAGAAAAGAGAATTAACGATAGACTCAGATAGACTCAAAATAAT
TATGAGAAGTCTTTGTAAAAATATATGAATTAATTTTAAAACATGGACCTCGGGGGGTTTTCTAGAAAATCATAAGTGACCAAAATTGACCCAAGGAGAA
AAAACCAAAAAACATACAGCAAGAAATTAAGAGGTTTCTTAATTAAGAAATTAAGGAGAACATTTAAACACTTTTCTTCCTACTTTCAAGTGTCAGGGTC
CCCTTGATTATTTCAAAACTTCAATAAATAAATAAATTACCAGGAGCCTAGTAAAAGAAGGAAATCCATTGCAATTACCAAAACTTTTCAAAGATAGTGT
CACAAATTAAAAACTATAGACCAGCTGGGCATGGTGGCTCATGCCTATAATCCCAGTACTTTGGGAGGTCAAGGCCAGAGGATTGCTTGAGCCCAGGAGT
TCAAGACTAGTCTGGGCAACATAGGGAGACCCCATCTCTGCAAGAAAATAAAAAATAAATAAATTAGTTGGGCAAAGTGAGGTGCACCTGTGGCCCAAGT
TACTTGGGAGGCTCAGGTGGGAGGATCACTTGAGCCCAGGAGGAAGAGGCTGCAGTGAGCCATAATCATGCCACTGCAGTCCAGCCTGGGTGACAGGGCA
AGACCCTGTCTCAAATAAATAAATAAATAAATAAATAAAATTTAAACTGTAGACCAATAATGGGGGGAATCTTAAATATTAATAAATCAAATTCAGCATT
ACATTAAAATGATAAGATATAATCAACTGGGGTTCATGCAGGAATGCCAAGAGGGCCCCATAGTCAGAGACCTAATAGTGCCATAGAACAAGAAGAAAAG
GCTCATTTTATTAGATTTACATGGCATCTGACAAAATCCAATACCCATTCTTATTTTTTAAAAATAAAATCTTAGTTAAGAAAGAATAAATGAATATTTT
CTCAACATGACTGAAAAATAAATCTCAAATCAAAGGCCAACTCATCCTCAGTGACCAAACTTCTCATTCATATCAGGATTAAAATGAGGGTGCCCCTAAT
ATCATCATTATTTAACATTTGCTGGAAGTATTGGCTAAGTGAGTGAGATTCTCATTGATGCTAATATAATTACTCAAGAGTAAGAACATGCCTGGCGCGA
TGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGAATCACGAGGTCAGGAGATCGAGACCATCCTGCCTAACACGGTGAAACCCTGTC
TCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCAGGAGACTGAGGCAGGAGAATGGCGTGAAACCCAGGAG
GCGGAGCTAGCAGTAAGCCGAGATCACGCCACTGTACTCCAGCGTGGGCGACAGAGCGAGACTCTGTCTTAAAAAACAAACAAACAAACAAAAAAGAGTA
AGAACAGAAGATAAATATTGGAAAGAAAGAGGCCAAATTATCATTATTTGCAGAAGAAGTCATTTTAAGTCTTAAAAAAGAGAATCAACTGAGGAAAAAA
AAAACTATTTGTGAGTACAAGATAATCCAGTTACGTGGCTGGCTACACAATTCAAGAAAGTTCAAGGAAGATACCATTTTCATGGATCGCAGAAATTACT
TGTGTGTAGAATAGTATGACCTCAGAAGAAGAAGGATACTACCTTAGTGCAATTTGCCAAGGCTTGAAACTTTGCATGCTTTCAAAAGAATAATATGTCT
TTGTGAGAGAAGGAGGCTGCCAGCAAAGATTCCTCACCATGTGCCAAACAGCTCTATAAGTTCTGGTATAATGAGCCACTTGGGGACTAATGTTTTCCAG
TGTTTAAGAAGAAAATATAATTTTAGGGCGCTGATGTATTTTCTCTTTTGGACCAGATATCAATATCATGGTGCAGCGCATTCTTGTCAAGAGGCTGAAT
CAAGGGGTAGTCAGTTCTTCACTGCAGTATAGACGCCTCTTCCCACTCAATCCATAGGCATCTGTGGCAGGAGAATTCTGGAAAGTCACATATGCTCTCT
TTTGCATGATAAATTTCTCAGCTGAAAACACCAGAACCTTACCATTGATATTATATGAACAAGACTAATATTCAAAATTATGCTAAAAGTAAAATTATTA
ACTTTATTAAGATATTAATGAGAATGACTTCCATTTTGGAAGAAATCAAACACCCCATTTGAATGCTAACCAAACTATACAGCATTTTCTTTACAARTGT
ATCACCATTACTGTAATCTTGATTAAACCCACAATTTAAAACTGCTGCCGTTATTTAGAAAGCACAACTTTAGCAGAATATTTGTATGTGATTTTATGGG
TAACAAAGCAAATTCACGTTAAAGTGACTCATGTAATCTTCATGCTCACTACATTGAGTAAGATATTGTTATTTTGTTTTTATCAGATGGTAAATTGAGA
TTTTTAAAAGTTAAGAAATTTTCCCATGTTCTCAAAGTTAGTAGCTGAAAACATTGGGTCTCAGGCCCCGGGCTTTTTTTTTTTTTTTTTAGTTAAAAAT
ATATACATACTTGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGAGGGTGGATCACTTGAGGCCAGAGTTCGAGACCAGC
CTGGCCAACGTGATGAATGAAACCCCATCTCTACTAAAAATACAAAAAATAGCCAGGCATAGTGGTGGCTCACCTGTAATCCCAGCTACTTGGGTGGCTG
AGGCMCAAGAATCGTTTGAACCTAGGAGGCAGAGGTTGCAGYGAGCTGAGATCGTGCCACTTCACTCCAGCTTGGGTGACAGAGCGAGACTCTGTCAAAA
AAAAAAAAGTATATATATATATACTTTTATATATATATTTTATATATATATATAAATATTCAATATATATAAATATTCAATATATATATTCAATCTCATA
AAAAGCATTACATAAGAAATAGTGTGAAAATGTGCATAATAAAATAGAATGAAAACAAAAAGTAAAAAGATAACATAATACACGTTTGCATTAACTATTT
TGTAGTTTAATTAATTAATTACTTTATTTATTTATTTTTTGAGAGGGAGTCTTGCTCTGTCACCCAGGCTGGAGTACAGTGGCGTGATCTCAGCTTGCTG
AAACTTCTGCCTCCCGGGTTCAAGCGATGCTCCTGCCTCAGCATCTCTAGTAGCTGGGATTACAGGTGTGTGCCACCACACCCAGCTAATTTGTGTATTT
TTAATAGAGACAAGGTTTCACCATGTTGGCTAGGCTGGTCTCAAACTCCTGACTTCAAGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAG
GCGTAAGCCACTGCACCCAGCCCTTCTTGTACATTTTAATATGGAGAATATTTTTTCTTCTGTACAGAAAACAAGTCAGTTGTCAAAATAGGCCTACTCA
AAATTTATACAAAAGCTTGATTGAAAATTCATATAAAACCTGTCCATGCTTACAAGGATAAAATTTGAGCACTCATTTTTCAGACATGCAAAAGCTACAA
AACTGTCACTAATTAAAATCCACTTCTTTCTGTGCTGTAGAAGATCCCCTACTGATAGGTATGATTTGTGAATTATATGTTTAAATTACTATTATTTCCG
AGTCTCTCTGTTATTTGTTAATACACAATGTATCCATTAAAATATGAACATATATTTACATACATTTTTAAAATACTTGTAAATCAGTCACTACTTTAGT
TAACTTCTCTTTACAACCAAAAAAATAGCTGTGACATCCAATCATGCTTCAGCGGAAGATCTAACATTACCAAATGATATGGATCATTAATCATATAAGA
TCAAAAAAGCCATATTGAAAAAAACCCACAAATGTAACAAGTTTACAATTCTGAAGGTTACAAAACTGAATTGAATTAGAGATAAATAAATTGAATTATT
GCATTAAAGAAATTCAATAACCCATTAATGTCTAAAGTTATCTCAATGTTACCAATACACCAACACAAGAAAACAAAGCCAAACCCTTTTTATGAACGAG
ATTATAAAGCATGAGCAACTACTTCAAGGCTATCATTCAAATTTAAAATTTATTGTACATTTGAAAACAACTGAAAGAATATTATTGGAGCACTTTGGGA
GGCCGAGGCAGGTGGATCACCTGAGGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCTGGGCC
TGGTGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGAAGGAGAATGGCTTGAGCCTGGGAGGCAGAGTTTGGGGTGAGCCGAGATGGTGCCAT
TGCCCTCCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAAAAAAAAAGAAAAAGAGTATAATTGGAATGTTTATGACACAGACATGATAAATGCTTGAG
GTGGTGGATACCCAGTTATCCTCATGTGACTATTACCCATTGTATGCCTATATTAAAATATCTCATGCACCCTATAAATATGTATATACCTACTATGTAC
CCATAAAAATAAAATATAAAACATTAAAAATAATAAAAACAAAAGAAAGGAGATTGTCAAGCCCAGACCTTTGGACTCCAGACACCATTACATGTTCCAG
GACAATGGTGCATAGAATGATTCTCAYCTATGCTCTTCTTTAACTGCTCTCAAGTCCTTGGGCTTCAAAACTGTGCCCCTGTGGTATTAATTCCACCTGA
GCCATTGAAGGTATTGGCAAATTTGAATCTAGGATGATACCTTATTTTTCTCCTTTTCAGAAACTTTACCGTGAGGGCTGGGATGAAATGAAGGCGGGCT
GTGATGTCCGGCTGGATGCCATCCCCATCCAGGCTGCCAAGGCCTCCAGGGAGATTGCCAGTGACGTGAGTGGCCTTTTTTAACTTCTCAGTTTTTTTTT
TTCAGCCGATGCCCTAGGTGCATCAAGAGGACATGCTGTGACCCATCTGCTTTATTTTTGCATCTCCAGTATAAATATAAGCTTGACCATGAGAAGCAGA
AGGGACACTACGTGGGCACCCTCACAGCCAGGGATGACAACAAGATCCGCTGGGCCCTCATAGCTGACAAGCTCCAGAATGAACGAGAGTACCGGCTGGA
CTGGGCCAAATGGAAGGCCAAGATCCAGAGCCCTGTGGACATGCTTTCCATCCTRCACTCTAAAAATTCCCAGGCTCTGGTCAGTGACATGGATTACCGC
AATTACCTGCACCAGTGGACCTGCATGCCCGACCAGAACGATGTGATTCAGGCCAAGAAGGCCTACGAACTGCAGAGCGATGTGAGTGGGCTGCATTTGG
GGTTGAACTCTTWTCTCAGTTTGCCATGACTTCCAGAGAGTTTATGACACTAACCCCTTCTGTCATCATTTTACGACTTCATATCACCAAGAATTTAATA
TTAGTGAGACCTTATAGTATGGTATCAAAATCACCAAATCCAAGAAGGACCTGGACTTTATATCAAGAAATAAATGGTAGTATGAATACAGGTCTTAATT
GTATCAGATTAAAGAAAACTGTGAAARTATTCTTTCTATAGAATTTAGATAGCAATAGAGGCTTATATCCAGTAAAATATTGGCAGCCCATGGACAGGAT
GTAGGCACAGACATGCTTTTTTAATTGATACAGTGTTTAGAAATTTTGAATTAAGTTGCCAAGATTTTAAAATCCAAAAWTTTTTGTGTACAAATGTCGG
ATTTCCCATTTCTCTTGGAAATTCAGAGGACACAGCTCTGAATTATCCCTTAGTAACAATAACCAGAATGGAATCAAGGATAACCCCCTTTAAATAAAAA
TATATGCTATCGTTTGTCACACTGCCTGGCCGCCTAATTAATTTTCTTACATTACCTGCGTGGCTGCTTGAGTATGTCCTCCTTGGCTTATATAGCATTT
ACATTGTATTTCTTCATGAGACCAATGGATAGGCTAACTAGGACCACATGACCAGGGTTGCTGAACTCATTCTGGCCCTGTTTTCACAGAATGTTTACAA
GGCTGACTTGGAATGGTTGCGTGGAATTGGGTGGATGCCAAATGACTCCGTGTCCGTCAATCATGCCAAACATGCCGCGGACATCTTCAGTGAGGTATTC
CAAGATTTTACCCTGACATTCAGTACATTTCCCAAGAAAGTGACAAAATGCACAAGCTAAAATATAGTCATCTAATATCAGCARTCTTAACCATTTCAAT
TGCTGTGATTTAAACTGAGCATATATATTTTTCAAAATGTACTGTCGCTATCACATTATGGGACCACATCCATAATATAATATCCAGCACACTCACTGAT
GCTTGGCATTGTATAAATGGAAAAATCTTTTTGTCAGCAATAGCAATATACTTGGGAAAAGTTTGTTTCGTTGGAAAAATGTGCATTACAGTACACATAA
TGATACATTATATAACTTTGAGAGCTAAGCAAACTTCCTACTTTAAAATCTGTGGGAGGCATAAGAAGCTGATGCATTTGTTTAAAAAATAAAATGCTAA
AAAGAAAGCCAAATTCCCAAGAAGACGCTATTCAAATACGGCACTGTATGTTTCTAGTAGAGAAGGACTCTAAATTTAGTGTATCTTCTCAGTTCACACA
TGTCTAGGAATTACAACTATCTAAAAGATGCTTTCTTTCCCATAGAAAAAATATCGCACAAAAATAGAAACTCTCAACTTTACGCCTGTGGATGACAGAG
TTGATTATGTGACAGCGAAACAAAGTGGCGAGATCCTCGATGATGTAAGTATATGGCTGTTTTAAAATCTCACAGTGATGCAGATATCACTTCCAAAGCT
TTTCCATCTACTTACACTCAGAATGCAATCATCTGAAATACAGATTTTAATCATTGAAATGATGGATGCTAACAATTGCTTGGACAACATGATGCTTTCT
TAACAAGTAACTTGCCCCCTTGCCTCTCATTTTTTTTTTTTTAGATTAAATACCGGAAAGACTGGAATGCCACCAAATCAAAGTACACCCTCACAGAAAC
CCCCCTGCTGCACACTGCCCAGGAGGCTGCTAGGATACTGGACCAGGTATGGGTTTCACCCACATGCCTGGTGTTTGTGTACGAGTGGAGGGCCTTAATG
GAACTGTAGGATAATTATGCACACAACTTACCCCTCCCTTCTGACTCCTCATTTTAACCCTTTATGGTGGCTCTGTCTTTCAGTATCTCTACAAGGAAGG
CTGGGAGAGACAAAAAGCCACAGGTTACATTTTGCCTCCAGATGCTGTGCCATTTGTTCATGCCCATCACTGCAATGACGTTCAGAGTGAGGTAATACAT
CCTGATGGGAGTGCATTTTGCAAAAGTGGGACCTTGCTCCCAGGGATTCCAGTTATGCCRAAGGCAGAGATAGCACCTTCCAGGTGTTCAGTTTCAGTGT
GGCAGACCTGGCCAGGCTTGGTGATGGTTGGAGTACCTGCTCACTTTTCGGTCTTTCTTCCATGGGCTTTGAGCTTTCTTGTTTCTTCACCCGCCCACCA
CCCCCCTTGGCTTTTTTAAAAGCAATTGTTCAAATTCTTTACTTTTTCTTATATTCTCTGCCCTCCCTAAAATCTTTAGGCCTTTGAATAAAAATATTGC
CAGAATCAGAGAACAAGTATATATTTTTTCTCTATTTTTATTTTTTAAATTTTATTTTTATCATTTTTAGGGCTATCTCAGCAGAATATTTTTCTATTTT
TAAATGGGTGTTTCTTCATATGGATTTATTTCAATGCTTTTTATTATTTGCTCTCAGAGTTGGGGGTGTCAAACAAAAAGCTGGGGGGCTGAATTTGCTG
ATATCCCTTAGTAGATGATCAAGCCCCCTCTGCCTTGTGTGCTTGTCAAAACTGATGGAATTTATATTCCTCTTCTCGCCAGCTGAAATACAAAGCTGAA
CATGTGAAGCAAAAAGGTCATTATGTTGGTGTCCCGACGATGAGAGATGATCYTAAGCTGGTTTGGTTTGAGCATGCAGGCCAGATTCAGAATGAGAGAC
TATACAAAGAGGACTATCACAAAACAAAGGCCAAAATCAATATACCTGCTGATATGGTGTCAGTCTTGGCCGCCAAGCAGGGGCAGACCCTTGTCAGTGA
TATTGATTATCGTAATTACTTGCACCAATGGATGTGTCATCCTGACCAGAACGATGTTATTCAGGCAAGAAAGGCCTATGACCTACAGAGTGATGTAAGT
GATTTTTGTTTCTTCATTATCTAGAAAYGCATGGTACACTCTGAGAATGATGAGCAACATCCCAGATCCAYAAGTGCTTGAAATTTGAGGCCATCGATAT
TTAATTTGTTCCCAAAGGGAATTGAGGCTGGATATGAAGAAAGATCAGGAGCAGTGATGGATTGATTGGTTTGCCTACTGACTGCATTTCTGAGTAACTT
TCAATCAAATTTTTTTWAAAAAAATCTGCTGCTTTTGTACCATTTTGGCCATCAGCAACTCCTCACTCACATTCACATAGAAAAGTATCAGCTGATGGAA
AATAATAATTGGCTTGGGTGGGAATTGAGAATGAGTTGAGGTTTTGACAATATTAGATGATAGCACAGTTAAAGACCTAAGCATGCCCTATTCCTGCTTT
GCCAAGCATCTCATTCCTCACGGCATTTATGAAGTTGTTCGCAAAGCAAAAGAGAAACAAAATACTGATTAAGCTGCATGAGGGCCCAGTATGCCTCATG
CAGAGCTTTGGTAAAGCTAGGATAGAGAATAAGACATAACCTACCTCCCACTGAAGCCTGAATCAAGATCTCTACTTGCCACCAGCCTTCTGCATGTGCA
GAACAGTAACTGGATGCATCAACTTAGTTGCTTAGGTGCCCAGAGAAGCTAATGCTCCCTGGGTCTTCTCATCATTAACAAAAGGGAACCTGGAAGTCAA
AGACTGCTGCAGCATAGATGTTGAACTTGAACATCTGACCTCACTGGTTGCTGCAGCAAAATAGCTGTTGTGGAACTTAAATCAGAATAGCAACTCTTCT
TATTTTCATGTCGAGTTGGCTGGGAGAATCTAGGTTCTTGAAGGCGTAAGGGCAAGAATAGGTTTGGCTGGGACCCAGGGGATGCCTCCCCTACCCAATA
CGTGAATATTTACTTGTGTAGTTTCCCTCATTTAGTCTAAATGCCCCACATACTTCTACGTGACTAAATGTATCAAATCCATCTAAAAGTACAACCTCCT
TGGTAAGCCTTTTCTTATGACGATAGCAGAAAATAACAGCCCCTTCCCCTCAACTCCAATAGCATTTGAGCACTCGATCTAACAGCACTTCTTGCTTTAT
AAATGACTTATCTCAACTCCTAGACTCCTTCTTTATACTTATTCATCAAAACACCAAGCATAGTGCCTCATGCACAGTAACAGCCTCAAGAAATATTGCT
CAGGTGAAATCACAATTGAATGAATGAGAAAACTACTAGAGAGAAATCCTTTAAAAGCTTCTGAAAAAATTGTAACCTGCCCTCTGTAAGCCTGTGTCTC
AGTCATTTATTCCTCCATTATATCTCTCTTCCTGCTCTCAGAATGTCTACAGAGCTGACCTGGAGTGGCTCCGAGGCATTGGCTGGATCCCACTGGATTC
TGTGGACCATGTAAGGGTTACTAAGAACCAGGAAATGATGAGTCAGGTACGCAAAGCCTATTCTCCTTCTAACCTATGCCTGTCCTCCTACCTGCCATGT
TGGGGTAGATAACCTGTGGTGGTAGACCTGTCTTAATTGTCTCCGTTTCTTTACAGATCAAATATAAGAAAAATGCCCTTGAAAACTAYCCTAACTTTAS
AAGTGTGGTGGATCCTCCAGAGATTGTTTTAGCCAAGATTAATTCTGTCAATCAAAGTGATGTAAGTTTGCTTTGTGCATGCTGAAGTGCACAGACTGGG
GAGTAAATTGTCTATCATTGGGTGGATTAGCTTAACTTYAGATAATTGCTTGTAAAAAAATTGGGAGGTGGTAAATTCTAAGATCATCTTTGGGGGGTAT
GTCTTAAAAGTCACTAGCAGGTGGTGAATTGTATTCACTTTTAGATATCTATATTCCTATCCAAATTATTCTATTGTTTTAGCTAAAATGGGCTAAAATT
CAACCAGTTGGTTAGTTTTAATCTTTAAACGTGGACTGATTATGTTTCTAGGTAATCTTATAAAAATTTAATATTCATTTATAGTAATAAAAGATTTGGT
TTTCTCTCCTTAGGTAAAATATAAAGAAACATTTAATAAAGCAAAGGGCAAATATACGTTTTCACCAGATACACCACRTATCTCCCACTCCAAAGACATG
GGAAAACTCTACAGTACTGTAAGTTCTCTTTTATGTAATAACCACTCAATTTCTAATTTGAAGCTCTTGTTGCATTCATATTCTTGGCTGATTTTGTCAA
CTGCTGAACTTATAAGCCAATCTATTATTTATTTTCCCATTGCACTTAGTCTTGTGTATTAGAAGTACCATGTTATTCAAGGCAAATAGCGTTTATTCAG
CTGGTGCTTTTGAGCTCCYGTGATGTGCCGGGCTCTTTAGGAGGCAATGAGGGGCTAAAGCTCAATGAGACAAGCCTTCAGGAGATCGTGCAAGTGAGGG
GAACAGACTTAAATTGATAGAATAATAATCTAACAAGTGCTCTGGGGGCACATAGCATTGAGCACCTACCAATAGAGAAAAGGGAGGTAAGGTTGGTCCC
TCTTTAGTAATCACGCATCAGCATCTCTAGCCAACAAGAGGAGAACTTGCCCTCCAAAATTTCATTCAGCTAATTTAAAGGAGACCAATAGTGTACATGT
GTGCACCCAATGGGAAAGAATATTTGCCAGTTCTCTCCCTGTGTGCAAATTTGTTGTCACTTTTACTAGGACCGCAAAAATAGTCAACTCTTATAAAATG
CCTAGAGTTGGCTGGGCATGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGGTGAGGTTGGTAGATCACCTGAGGTCAGGAGTTAGACCAGCTTGG
CCAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATAGTGGTGCGTGCGTGTAATCCCAGCTACTCTGGAGGCTGAGACAGGAG
AATCTCTTGAACCCAGGAGGTAGAGTTTGCAGTGAGCTTAGATCACGGCACTGCACTCCAGCCTGGGTGATGGAGCAAGATTCTGTCTCAAAAAACATAA
AAATAAAATAAAATAAAATAAAATAAAAAATAAAATGCCTCGAGTCTGTAAGTTTAATTTGCAATAAACCAAATAACTGCCCTATTCTAGGTAGATGCAC
TAATGGCTATAGATAAAGATTTCAGCCTTGCCTTGAACATACATGTTTCACCTTAATTAGACCAATTGTTTTAGTGGTATCTGAAAGAAGTTGAAAGAAA
ACTTTTGTTGCCATGTATTTCTTTGTTCTAGATACTGTATAAAGGGGCGTGGGAGGGCACCAAGGCCTATGGCTACACCCTGRATGAGCGCTACATTCCC
ATTGTTGGAGCCAAGCATGCTGATCTGGTGAACAGTGAGGTCAGTATGACCTTTTCCTCTCCTAAGTTTGAGAGTCTTTACTGGGGATCAAGGGGCTGGT
TAGGAAACTCCAGCGATTCTCAATGTTTAACCCACTTTACAGCTTAAATACAAAGAGACATATGAGAAGCAGAAAGGTCACTACCTGGCTGGAAAAGTGA
TCGGTGAATTCCCTGRTGTGGTTCACTGTCTGGATTTCCAAAAGATGAGGAGTGCGGTAAGTAAATGTCCACTTTAACACGGGATTTGTGCCCCATAAGT
GTGCTGCCRTGTCTGCCTGTTTATAACTTGCCCTTTGGTTCAGGTTAGCTGGGAAATGGAGTAGCGTAGGGTCCTTCCTGAGATTTTCCTCACCCCTCCA
AGTCAGCCTGTGGACTCTTGGTAGCTGTGTGCTTCCTCCCTGCCACTTTCTCCCTGACTATTTAACACTGTGACTGCTTTGTGTTCAGAAAAGGAAAAAG
CATCAAGGTCACTATTTACCCTGTGTTATAAAAGGATGGAAAACTTCAGGCCAGGTGAAATGGCTCACACCTGTAATCCCAGCACTTTGGAGGCCAAGGC
AGGCAGATCACCAGAGGTCAGGAGTTCGAGACTGGCCTGGCCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGC
ATGCCTGTAATTCTAGTTACTCTGGATGCTGAGGCATGAGAATTATTTGAACCCAGGAGGCAGAGGTTGCAGTGAGTGGAGATCACACCATTGCAATCCA
GTCTGGGCAACAGAGTAGGACACCATCTCAAAAAAAAAAAAAAAAAAAAAGATGGGAAATTTCAAAAGAAGAAGAATATATTAAAGTATATAAAGTATAT
ATATATAAAGTATAAAGAATATAATAAAGTATATATTAACCTTAGTTTATTCTAGAGATACTGATCTATATGGGAAATAAGGATCTAAAAGACATTGATC
TGAATAATTTACATTTAAACCCCTTTCTTATTTTTGTCTTTAAAACATATTAGTTGAACTACAGAAAACATTATGAGGATACCAAAGCAAATGTTCATAT
CCCCAATGACATGATGAATCACGTGCTGGCTAAAAGGTGCCAGTACATCCTCAGTGACCTGGAGTATCGACACTATTTCCACCAGTGGACGTCTCTTCTG
GAAGAACCCAATGTTATACGCGTCCGAAACGCCCAGGAGATCTTGAGTGATGTATGATGTCCCTTCTGCAGCTTGACTCAGCTACAGCTTCCATGACTGT
GTCTTGGCTACCCCCCAACCCTGGCTGCCATGCTCCCRTTGTCCCTGTATTCATAAATCTTGCTGCTTCTCAAAACAAAGTGGCATGAGCCACTTTTTGG
TATAAGAATCCACCCTAAGCCATAGGACACATATGTTAAATATTTAATTGGTTTCACRATAGACTCAGACATTGATATTGCTCTCAAGCTTCTTTAGGCT
TGGGAATTAAAGACCTTCCAGCTGGTGAGAGGCCTACCCTATGTCTTCTAAGCAATAAGCACAGCCAACRGCTGATAGGAAATTATCAAATGCTCAATTG
TAAATTCAGAATACCTTCCACATTTCATTGTTCTCTCTTTCTTGCAGAATGTGTATAAAGATGACCTGAATTGGTTGAAAGGCATTGGTTGCTACGTTTG
GGATACACCCCAAATCCTCCATGCCAAGAAATCATACGACCTTCAGAGTCAGGTGAGCCACCTTCCTAGAAGGACTGGTTCTCCATGGGTCATCRGAATC
CATGGTGGTGTCAGTGGGCTGATGGGCAGGCAAAGAAAGTTGCTGTAACAGTGTAGGCTCTAACTGACCAAAGCCCCTCCTCTCCCARTCAAAGCTCTTC
TAGTGTCCTGCTCTGGGGCTGGATCTTCCCAGTCTGAGTCTCTCCTTTGGTTTAAGGCAATGCACATTTATAATAAAAGCTTATCTGGGAGGTGTTTCTT
AGTGAACTACTCTCAAGCATCTGTACCTTAGTTGATCAAGTTAACTTGCAGAGAGTAGGAGGTAGAAGCATCCTTTGATTACAGGTAGATAAGTTTTGGA
GGAAAAAGATCAGTATCTGGAAAACTTTTCAGCACGTGGTTCAGCTCTGATAGGGCAGTTGTAATGGAATGTTAAAAGTGAGGGGCATGTATACATATGT
AACTAACCTGCACATTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAAAAAAAAAAAAGTGTTCGAAACCAAAAAAAAAAAAAAGTGAGGGGCTG
CTGTCAGGGATGGAGAATAGGCATGGAAAAGGCAACAAAATGGCCAAAATCTCRACCCCAGTCTCAGTCAAGAGAARCTATTCATTCTGGCAGCCATACA
AAGTCTGCAGGACTCTAGAATGACAGCCTGTTTGTTAGGATTAAAGCAGAAATCCAGAAATAAAGGCACATGTAAGTTGGCACAAGCAGCTACAGCTGAT
GACAGACCTGTATGTTACCATTTTTGATGACTTTTGTTTYTCTTCACAGCTACAATATACAGCAGCAGGTAAAGAAAATCTACAAAACTATAATCTGGTC
ACAGACACGCCCCTCTATGTGACTGCTGTTCAGAGTGGCATTAATGCCAGTGAGGTGCGTCTTCCTGTACTCCTCTTCCAGGGACAAACTATTTYTTGTC
TTTATGTATTTTCTAACAACAGAGGTGAATAACCTATTGTTGCTTGTYTACAGGTAAAATATAAAGAAAATTATCATCAGATTAAGGACAAATACACAAC
AGTTCTAGAAACAGTGGATTATGACAGAACCAGAAACCTGAAGAATCTTTACAGCAGTGTGAGTTGAGTTTTTTTTCCCCCTTATATATGAGCCACCTTT
CCCMCTTCTGGGACAGTAAGAGAATAAATGGGATGGACACTCTTTCCCTAAAGGCTTTTCTATGGTTTTTTCCTGGACCTTCAATCTTACTTTACCTCAT
AAAATTCTAGTAGGTACAATTAAATAAGCCCCACCTTAAAGAGGAGTCCTGGGAGTTAGTAGGGAGTGTGTGAGAAGGACAGACACAGAAGGAAAACCTG
CTACTCAGAAGCTAACCAGATGCATTTTCCCATATTCACAAGAAGGTCTTTAATTCCTGCAGAACCTGTACAAGGAGGCCTGGGATAGAGTGAAAGCCAC
CAGCTACATCCTGCCTTCCAGCACCTTGTCCCTGACACACGCCAAGAACCAGAAGCATCTGGCCAGCCATGTAAGTAAAGCAAAAACATGACAGCTTTCC
CACCCTCCCTCYCCTCCCCTGCTCTCCACTCCAAGAATCTTTCAGGCTGATTCATACGTTGTCCAGAAGTACCCCTAGCACTCCCGTGGGCATGTCCAGG
AAATAATTCCAAATGCTCAGTCATTAGAGTCTATGTGCTCACTRCCTGTCTCTCTCTGCTGCCTGGAGAGAATCACAAGCACTTGCAAAGAGGACAGGAT
GTGACCTTTCAGACTGCCTGTCTGCACATGATAATCTCTGCTAGAGTCAGAAGTAAGGATGGGCTGAAGACATAATACACCTTACAGAAATAGACTTTTT
CAATAGAATTACATGGATGTAGGGCAAAAATAAACCAGTGAATATGATAACCGGTTATTATACCATCCCCAGTTAATATAAATTATTTTATAGCAATGAA
ATAGAAAACATTTAAAAATTGTTTAATTCTCCTTTTTTAGGTAGAACTTTTCTTAGATATAAACATAATTGTAAAACAAACAAACCCTAAATCTCATGAG
CTGTTTAAATATAGTAGAAGATCATACATCCTCTAACTCTTTATGCCTTTAAATCTTATGACCTCTAACCATTAATGTTCTTAAGTAAAACCTTTTTGCG
TGTGTGTGTTTTGTTTTGGTTTATTATACTTTAAGTTCTGGGGTACACGTGCAGAACGTGGAGGTTTATTACATAGGTATACATATGCCATGGTGGTTTG
CTGCACCCATCAACCCATCATCTACATTAGGTATTTCTCCTAATGCTATCCCTCCCCTAGCCCCCTACTCCCTGAGAGGACCCAGTGTGTGATGTTCCCC
TCCCTGTGTCCATGTGTTCTCACTGTTCAACCCCCACTTACGAGTGAGAACATGCAGTGTTTGGTTTTCTGTTCTTGTGTTAGTTTGCTGAGAATGATGG
TTTAAAACTTCATCCATGTCCCTGCAAAGGACATGAACTCATCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATATGCCATATTTTCTTTATCCAG
TCTATCATTGATGGGCATTTGGGTTGGTTCCAAGACTTTGCTATGGTGAAGAGTGCTGCAATAAACATACGTGTGCATGTGTCTTTATAGTAGAATGATT
TATAATCCATTGGGTATATACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCACCACACTGTCTTCCACAATGG
TTGAACTAGTTTACACTCCCACCAACAGTGTAAAAGTCTTCCTATTTCTTTACATCCTCTCCAGCATCTGTTGTTTCCTGACTTTGTAATGATCACCATT
CTAACTGGCGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTAATGACCAGTGATGATGAGCATTTTTTCATATATTTGTTGGCCGCATAAA
TGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCRCCTACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGATTCT
GGATAGTAGCCCATTGTCAGATGGATAGATTGCAGAAATTTTTTCCCATTCTGTAGGTTGCCTTTTCACTCTGATAGTAGTTTCTTTTGCTGTGCAGAAG
TTCTTTAGTTTAATTAGATTCCAATGGCCTTTGTTGCCATTGCTTTTGGTGTTTCAGTCATGAAGTGTTTGCCCATGCCTRTGTCCTGAAAGGTATTGCC
TAGGTTTTCTTCTGGGGTTTTTATGGTTTTAGGTCTTATGTGTACATTTTTAGTCCATCTTGAGTTAATTTTTGTATGAGGTGTAAGGAAGGGATCCAGT
TTCAGCTTTCTGCATATGGCTAGCCAGTTTTCCCAGCACCATTCATTAAATAGGGAGTCTTCTCCCCATCGCTTGTTTTTGTCAGATTTGTCAAAGATCA
GATGATTGTAGATATGTGGCGTTGTTTCTGAGGCCTCTGTTCTGTTCCATTGGTCTATATATCTGTTTTGGTAAAAGTACCATGGTGTTTTTATTACTTT
AGCCTTGTAGTATAGTTTGAAGTCAGATAGCGTAATGCCTCCAGCTTTAATTTTTTCCAATTCTGTGAAAAAAGTCAATGGTAGCTTGATGGGGATAGCA
TTGAATCTATAGATTACCTTGGGCAGTATGGCTATTTTCACGATATTGAGTCTTCCTATCCATGAGCATAGAATGTTTTTCCATTTGTTCGTGTCCTCTC
TTAGTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCAGATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTATCTTTGTAGCAGTTGT
GAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTTTTACTGGTATATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATTCTGAGACTTTGCTGA
AGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACGGTTGGGTTTTCTAAATATATAATCAGGCCATCTGCAAACAGAGACAATTTGACTTCCTCTTT
TCCTAATTGAATACCGTTTATTTCTTTCTCTTGCCTCATTGCCCTGGCCAGAACTTCCAATACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGT
CTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGCTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTTATAAATAGCTCTTACTATTTTGAGATACA
TTCCATCAATACCTAGTTTATTGAGAGTTTTTAGCATGAAGAGCTGTTGAATTTTGTCAAATGCCTTTTCTGTATCTATTGAGATAATCATGTGGTTTTT
GTCCTTGGTTCTGTTTATGTGATAGATTACATTTATTGATTTGCATATGTTGAACCAGGCTTGCATCCCAGTGATGAAGCTGACTTGATCAAGGTAGATA
AGCTTTTTGATGTGCTGCTGGATTTGGTTTGCCAATATTTTATTGAGTATTTTCACATCGATGTTCATCAGGGATATTGGTCTAAAATTCTCTTTTTTGG
TTGTGTCTCTGCCCGGCTTTGGTATCAGGATGATGCCGGCCTCATAAAATGAGTTAGGGAGGATTCTCTCTTTTTCTGTTGTTTGGAATAGTTTCAGAAG
GAATGGTACCAGCTCCTCCTTGTACCTCTGGTAGAATCCAGGTGTGAATCCATCTGGTCCTGGACTTTTTTTGGCTGGGAGGCTATTAATTACTGCCTCA
ATTTCAGAACTTGTTATTGGCCTATTCAGGGATTCGACTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCCAGGAATTTATCCATTTCTTCTAGAT
TTTCTAGTTTATTTGCATAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGAACGGTGGTGATATCCCCTTTATCATTTTTTATTGT
GTCTATTTGATTCTTCTTTCTTTTCTTCTTTATTAGTCTTGCTAGCAGTCTATCTATTTTGTTGATCTTTTCAAAAAAACAGCTCCTGGATTCATTGATT
TTTTTGAAGGGTTTTTTGTGTCTCAATCTCCTTCAGTTCTGCTCTGATCTTAATTATTTCTTGTCTTCTTCTAGCTTTTGAATTTGTTTGCTCTTGCTTC
TCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAGTTTTAGATCTTTCCTGCTTTCTCTTGTGGGCATCTAGTGCTATAAATTTCCCTCTACACACTGCTT
TAAATGTGTCCCAGAGATTCTGAGTTCAAGTCCTGATATCCTTGTTAATTTTCTGTCTGGTTGATCTGTCTAGTGTCGACAGGAGGTGTTAAAGTCTCCC
ACTATTATTGTGTTGCATTCTAAGTCTCTCTGTAGGTCTCCAAGAACTTGTTTTATGAATATGCGTGCTCCTGTGTTGGGTGTGTATATATTTAGGATAG
TTAGCTCTTCTTCTTTCATTGATCCCTTTCCCATTATGTAATGCCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTGTAAAACCTTTTATT
GTAAAATTCCCTGTAAGCTTTATTGTAATTCTTAGCCCAGTTCTCCTTCAGAAAAATTAGAGACTTTATCTCTTAATCAGGAACATTTTCTGTAACACTT
TAAATCAGCATTTCTCAAACATGTTTTGACCATGACTCACAGTGGGAAATTTATTTTTTATTTCAAGTTCACATACACAGACACACACCCCTGAAGTTTA
CCTGAGTTTCTTCTGGCACAAATGTCTCACAGAAGAGTAGTGACTGCTAGACTAGAGACAGTGCACTCTGATAATTTCCATTCTGTTCTACTCATTTAAA
TGCTAGTGACTCAGTAAATTGATTTCACTACTCTACTGGGCTTACAGATGCACAGCTTAGAAATAAACTTCATTAGACAGTCTATGGAATTATTTAATTT
TTACCTGGAGGAAACAGTAACATATTTGATTTTACCCAGACCCACCTCTATTTGGAAGATTACAAAAAGGAGCAAACTTTTCATTTTGGAAGAAAAGTAC
TATAGATAAGATTTTAAAAGCTCAAAAGAGGCTTTTTCCTTGAGTCATGAACAAAATTATAGAGGCAAGATTCTTGGCAAATTGGTTTTGGAGCAAGGTA
AAACATAGAGAAATTAATCCTTTAAAAGAAGTATTCTGACCTTATTTTAGGAAAAAGTTTTGTGTGTGTGTATGTGTTTTTTTTTTTTTTAACGGTGCCT
TTAAATGCCATCATCTTTGAAGCTGAGAAATAGATTAGATGTAAGAAGCTGATTTTCTGTTTTGGAAAAATCTAGTGGAAATTTTGGTTGGCCTCCAGTC
AATGAAGAGCATTGCTGGAATTCTGACACAAATATATACTCCCATCTCTCTTTTGTTACAGAGGTGCAAATCRCTGAGTTTTGGAAGAACTGTTATTTTA
TTATTGTGTGCTATGAGATTGGATCTTAGTCTCTGTCTTAACCTGGTTTATATAATCATGGAACACTAATTAACGGGCAACATGGCTTAAGAACTAATTG
TTATCCCACAGAAGTTGATTGCACTGTATTTTTGAAAGCCTTGTAGAAACTGAAATCCAAGGATTGTGTTTTCTTAGCAGCAGACTTTTCAGTTATTAAA
AACAAAGATATTCCTAAGCACAGTTTTAATCTYGCACTCCTTTTAGTAAGAAAAACAAAGCCATTACCACAAGAGAATATTTTTAAATTACATAATCTTT
AAAATGAATTGCTTGTAGTAGCAGTAAAAGTACTAGTATTGCTATAGGAATTTTGAAAACAGCAACTAAAATTTCATAGCGCTCTGTGGTTTAAAAGTAC
TTTTGATACAGTCTGATTTAAGCCACACGATAACCCCATGGCAGGCGCTACTGCTGTATCTCTCTGTACAGGTGGGGAAATGAGTTCAGAGAAGTGTTGT
CCCCAACGCTGGGTGGATCTCAGAGTCGGGTTTTTCCCATTAAGTCTTATGCTGTTTTAATAATATAAATCCATTACTCTCTAAAACTGTTTCTTCCTTT
CTACTTATTCTCTATAGATCAAATATCGGGAAGAATATGAAAAGTTCAAAGCTCTTTATACGTTACCAAGAAGTGTTGACGATGATCCGAACACAGCACG
GTGCCTCCGAGTTGGCAAGCTTAACATCGATGTAAGTACGGTCATGCGCCCCTTAATGACTAGGATACATTCTGAGAAATGTGCCGCTCGTTATGTGATT
TCATTGTTGTGCTAACATCATAGAGTGCACTTCCACATACCTAGATGGGATAGCCTATTGCTCCTAGACTACAAACCTGTACAGCATGTTACTGTACTGA
ATACTGTAGGCAACAGTAACACAGTGGCAAGTATTTGTGTATCTAAACATAGAAAAGGTACAGTAAAAACTCAGCATTATAATCTTTTGACTGAAACATT
GTTATGCAACACATGAGGGTAACTCCAAAGACCTTACTTCAAATTTAAGTCAAGTAAAATAGCCATGTATTATTAATAGGAACATTTCTTTTCTTTTCTT
TTTAAGACAGGTCTCACTCTGTTGCCCTGGCTGGAGGGCAGTGGTGCAATCACAGCTCACTGCAAGCCTCTACCTCTTGGGCTCCGGGAATCATCCCACC
TCAGCCTGCTGAGTAACTGGGCCTACAGGCATGCACCACCACACCCAGCTAAGGTTTTTTTTTGTAGCGATTGGAATCTCGTTATGTTGCCCACTCTGGT
CTCAAACTCCTGGGCTCAAGCAATTCTCCTGCCTCAGTCTCCCATAGTGCTGGGATTACAGGTGTGAGTTATCATGCCCAGCCTGAACATTTTCTATTTA
CCAATGCATATGACACTGACTGTGCACATGTAAAGAAGCTACAYATTATTTCAGCTATAATGCTTTATTTTTTAAAAATTYCCCTTGGTGTTAATCTATA
GAAAATGTCAGAAAATACCAGTCACTGCCCTGCCCCCAACTGTTCGCTGTGAGTTGGTTAGCCTGACTTCTCATGTATGGCCATGATGCCTTGGCACAAT
TTCCTGTATAACTGGCATGTGATTTTAACTTTACAGCGCCTGTACAGATCAGTTTATGAAAAGAACAAGATGAAAATCCACATCGTGCCCGACATGGTAG
AGATGGTTACTGCCAAGGATTCCCAGAAGAAAGTCAGTGAGATTGATTACCGCCTGCGCCTCCACGAATGGATTTGCCACCCCGACTTGCAAGTCAATGA
TCACGTCAGGAAAGTCACAGATCAGATCAGCGATGTAAGCCTGTGACTTAAGAAGTACCCCTCCACGGCCCCGCCCCACGGCCCCACCCAGAAGGCAGCA
AACTCACCCATTTCTTTACCTTAGCCTTTTTCCACTATCTCTTCCCTATATGTCCATTTGTCCAACTTGACTTCAGAGCTGTCTCTGGAAGCAGGGCTCT
GTGTACACATGTTTCTGTGGCTCCCCTGAGCCTCTTTGCATAATGCCTTTGCTCCTCATTCCACAAAGCCTTCTGAGTCTAGAATGTACCTCTGTTTTTA
GTGTTAAAGTTATTATGGTCAATTTTTTTTTTCTGATCCTTTCTATCAAAACCCTCTAGATTGTATACAAGGATGACCTCAACTGGCTGAAAGGCATTGG
TTGCTACGTCTGGGACACTCCTGAAATCCTCCATGCCAAGCATGCTTATGATCTACGTGATGATGTGAGTTTGCCTTGTTTTGTTCTTTAGTATATTTCC
ATTTCTCCATAGTCTAGAGTTAAGAGGAGGTTATGTAAAATAGGGACATTGTCACAGGCCAGCTCTKGGGGGTGGCTGAGCTGGAGAAAGTTGCTAGGAG
CAGAGCAACCATCTCTCAGGAAGGCGTATGGCATTCTTATTAAACTGCAGTCCAGGTGTGCCATCGTCCTCTGGTGGAGAAGGGACCAGCATCTTCTCTT
TCTATGTTTTAGGCTATTTTGGATATATTAACAAGCACTTAATTGTCATTTTAGGAAAGTGTGATTTGTTAGYGTTTGCAATGCTATAGACAAGCTCTAT
TTGTAAAGAGAGGATTTTCCACGCAAATTAAATACTGTAATGAGGATTTCAGTAAGAAAGCTTAAACTTTCCTAGAAGAGTAGTTATCAAGTGTCCTAGA
AGACTCTAGAAGCCCCATATAAGTGTTGGTTACACTGTTATAAAATTCAAATGCATCTCRGTCTGTTGAGTAGTGCTGATGAATATAAATCTCATGAGTT
AAAAGCAACCAAACCCTCTGTGAAAACCAGCAGTTTCAAGCATAAGGAATGGTCCAACATGGGCTTGTTTTCTTCCTCTYGGCAGATCAAGTATAAAGCT
CACATGTTGAAAACAAGGAATGACTACAAGCTTGTCACAGATACACCAGTCTACGTGCAGGCTGTCAAAAGTGGGAAACAGCTAAGTGACGTAAGTGATC
ACTGGGGAAGTTAAGTGGACAGTAATAAAGCAGGGCCACCACTCAAGCAGAGGTGGCAAAAACCATAGACTGGGCAGTGCCAAGTCTTTTCTAACTGGGA
AACCAGAGTTGGTGCGTTTGAAAGCACTGAAGATGCTGCTGGCTATTGTTTCCTGAAACCTGATGCATTCAAGCAGTTTGCTGGGGCGGAGTTGTAGGTG
ATSCGAGTCTATGAAGTAACTTTGTGCCTTAGCACTTCCAACGTGTTTTTTGTGCCCTGTGTCATAGCAAGTTTATTTCTATCTAGGCCATTTAATAAAT
TAGAACCAGCTATGGTAGAATAAGAAGCAAGCAGGCTCTGGAGTTAGAGTTGTGGAGTGCAGTCTCACCTCTACCACACATTATCTATAAGGCTTRTGAA
AAGCACTTAATCCATCTGAGCCTCCCATTCTGATGCATAAAATGGGGACGTAAGGAAGCACCCACTATGACGCCTGACACAAAGCAGGCAGGGCAGGCAC
AAAGCTGCTCTTTCTTTATTAACTCCACAGGTTGGTAAGTCAATATCAGATCCCGCCAGTGAGTGCAAACATTGAGACCTATTATTTTGGAACTTCTAGT
GGTAAAATGCCCACCCTTCCTCTTCTTGTGCCTGGGCCATCTCTTCTGTTTCTCAGTGTGAGTGTCCACACGCTGGCTCTGATCCTGTTGGACAAGCCAC
AGTAATGTGTCAGATGAGTTCTCCAGGCAAAGGGAAGCAGGCTACCGTTATTTTTTTTAAAGAGGAACCTGGGTTCCCATTCTCTTTGCTTCTAACAATG
CTTCTTTCTGCACCAGGCTGTCTACCACTATGACTATGTGCACAGTGTCAGAGGCAAAGTGGCTCCAACTACCAAAACCGTGGATCTGGACCGGGCCCTT
CATGCATACAAGCTCCAGAGTTCGGTGAGCAGTGAGAACTTGAGAGTGCCCAGCAGAAATCCGTTCCATCAGCCTCTGTGGAAGCAAGCTGAGCTTGCTT
CCTCTTGACCTGACCTTGTATAAATGCTGTTCTATTCACATGAGGTGAAAAAACAAAAACACAGAGCATAATCTATCTTTCCTCCTAGCTGCCAGGATCC
CCCTATGGAGCAATCAAACCAACATAATGGGCATGTTTTAGCAATATTTACAAGTTACAAAGAAGAAAGCCAATATACATTCTCTGCTTTCAAAAAGCTG
AAAATCAAGATAACAGAGACAAGGCCTTTAACCTCAATAAAAGATGAACTAGAAATTGTTGCTGGAATTCAGAAGAGAAAGAACCTGGATCCCACCTGCA
TATTTAACCTACCTATTCTATGTTACCCAATGGTGCTGATTTGGTCTCAACTTTTCATGTTATTTCCCATCTTGTGTATTAAAAATAATTTTTGGCCAGG
TGCGGTGGTTCATGCCTGTAATCCCAGCAATTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAA
CCCCATCTCTACTAAAAATACAAAAAATTAGCCAGATATGGCAGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCTTTTGAACC
CAGGGGGCGGAGGTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCTTGGGCAACAGGAGCAAAACTCCGTTTCAAAWAATAATAATAATAATAATA
ATAATAATAATAATTTTGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTAGGAGGTCATGGCAGGCAGATGGCTTGAGCCTGGAGTTCAAGA
CCAGCCTGRGCAACATGGTGAAACCCTGTCTGAACAAAAATACAAAAATAAATAAATTAGCCAGGCATAGTGGCATGCACCTGTGGTCCCAGCTACTTGG
GAGGTTGAGGTGAAAAGATTACCTCAGCCCAGGGAGGTCAAGGATGCARTGAACTGTGATGGTGCCACTGCACTACAGTCTGGGTGACACAGTGAGACCC
TGTCTCAAAAATAAAATAAAAATAATTTGGTTTTTCATATTTTAAATGTAATTCTTAATCCTAAACTCCAAGAGACAGAGTATTTAAGATCACAGACAGA
CACTCCTCCATGTCCTCCCTTTCTGCCATGAACACATGCATCCTGACCTCTTCACGGCCTGATGTCAACACACTGTGTTTGGAAGGGGCAGGAGAGGGTA
ATACAAACATGTGCCTGGCTATATCTTCGTGATGGCTTGCATATCATCACCTGAGGATGGAGTAATGGCAGAGGTGAAACTTGGTTACCTATCTTCTCTG
CATTTCCCAAATTCTTGCTAGATGCCATACAGCCAACTGGGCATATGTTTGGAAGCACAGAGGAATTAGWGKTTTTTTTTTTTTTTTTTTTTTTGGAGAC
AGGGTCTCCTCTGTCTCCCAGGCTGGAGTGCAACGGTGCAATCACAGCTCACTGCAATCTCAAATTCCTGGGCTCAAGTGATCCTCCCACCTTAGCTTCT
TAAGTAGCTGGGACTACAGGTACACGCCACCATGCCTGGCTAATTTTAAAATTTTTTATAGAGGTGGGATCTTGCTATGTTGTCCAGGCTAGTCTCAACT
TCTGACCTTAAGCAATCCTCCTGCCTTGGCCTCCCAAAGTGTTGAGATTACAGATGTCAGCTACCACACCTGGCCAGGAACTACTTTCAATAAACCATTT
CACTCATTGTTCTATTTTTCCAAAACAATAGGTGAAGAGTAATCTGACTCATTTTATGACTCTTAGAATGTATTTAATTCTCTCCTGAAATCAATTCAGT
GAGCATAAGTGTATTAAGTATCTAGTCAAAACTGTAACATGAGCTATATGTGATTTGTTAAGCTCAGATCAGTTACTTGATGCCCKATGTCATTTAACCT
GCTCTTCCTCATTCCTGCAGAATCTATACAAAACCAGCCTGCGCACCCTGCCCACTGGATATAGACTTCCAGGTGACACTCCTCACTTCAAACACATCAA
GGACACCCGTTACATGAGCAGTTATGTGAGTGGTCTCCTCCTCATTGAGATGGGTCTGAAGGTGGGGTGGCAGGAGACTCATATTAATTAATAGCCTGTT
CTAATCCTCCAGTCTCACCCTCAAGGTTCAACCTGATAGAATGATGGGAGCTGGAGAGGAGAGACAGCATATTTTTGAGGGKTGCTGTGCAATTGATTCC
TTCTGCAATTCAGCAGTGCCTGGGTAGCCCCATGGGTTAGAACAGAATGTTCGTGGGAGCCTTGGCTGAGGGCCCATGGCTGTCATGATGCCTCTACTTC
TGCTGGCCTCACTTAGCACAGATGCACCCTGAATTATCCCAAGCCATTTATTGGAAATGCARCTTCACACACGCACTACTGAGGTGTGGTGATAGTATTG
TCTTCCTTCTGCTATGTTTCACTGCAGAAGATATAACATCACCATGTGTTCCTTTGAAAATAAGACTTCTTGCCTAGCTGCTGGCTGATATTTAGCTCAC
TACTTATCCTCTGTGCCCAGTTCACAGAAGGCTAGAGGGGTAGTTAGGCTCTTACTACCTGTAGCTTACTCAAATGATGACCCTCATGTTGCCCTTCTCC
ACTTTTCACAAGTACTCAACTGGGACTTGATGCATTTACCCCATGGGGAAGGCTTAGGGAAATCGTGGCCATCCCAGTAAGTCTGGCCTGCAGACCACAA
TGAGCCGCTGGTGGAATAATAAGCTCTCCCTCTGTGCTACCCTTCATATTCCTGGGAATCAAACCTAGTGGCCAGAAAGGACCCAATAACCTGTGGCTCA
ATAATGTACTTCCAAAGTAGACAGTCACAGATTTAATAATCTAACACCTAAAGGATGTGTTAAAATGGTTGGTTAAAATCAGTCCACGAAGCTATTTGTC
AGTCTTAAATACATTCTCTTGTTTCTTCTTTGTATTTTCTAATTTTCTAGCCACACTGGGGCTAAAAATAAAGATTTTTCTCTGGCATTTTGCATACCTT
CCGACAAACAGATTTCACCTAGGCAAGGTCAAATTTTATTCTTTTCTTGGCCTGGTTTTATTTTCCAACACATAATTTTCAAGGCCTGGATTAATATTGA
AATTTTGTCAATGACTTTTCTACATACTTAATCCTTAAAAAGAGCAATTTTTCAAATAAAGGTGACATCTCTTTTCTATTTGGAGAAATGTAATGTTGGT
CCTTGTTTACCCATCATTGATCTCATTCTGACTTTGCTTTTGCAGTTCAAGTACAAAGAAGCCTATGAACACAYCAAGGCATATGGGTATACACTTGGCC
CCAAAGATGTTCCATTTGTCCACGTCCGGAGAGTCAACAATGTTACCAGCGAGGTACCTGAATGCTGATTCTCCAAGAGACATATTGAGTTTCAATAGCY
ATGGCTTTGTTTGAAATGCATTAAGAATTAATCTTATTTCAGTTGTAAACTTACATACCAGCAAAAAATGAAAAAGGTCCTTATTGTCACATTTTGATAC
TGATATTTCTTGGTAGTGGTTTTTTGTATTTGGTAATGCCTTGGAGAGACTCGGTTCCATAGATTATGATGCAAAACTTTTCTAAAGAAATAATTTCTTC
TTTTGACATTTATATTCAAAAATCTTTAATAAGGTTGCATTTTAGTCTGACTCATGATCCTGGTTTTCTACACCAACTATTGGTTTGCATATCTGATCCT
ACTATGCAACCATCTGATAGAAAGTGGAAGGCTTTGTGCTCAGAATTCTTCACCTAAATGAAATAACTCTCATTTTCTCCTTTTTTCCTAATCTCAATCA
TTTTCTATATCCTCGATATTTCCTCCCCTCTTCCTTATGTAAAATATTTTATTCTTGATTAGTCAGTAGATGCCCTCGTCRTCCCCTACTAAATGCCTGT
AATGATATTTCCTCCAACGTAGAGACTGTATCGGGAATTGTACCACAAACTGAAAGWCAAGATCCATACAACTCCCGATACCCCTGAGATCCGCCAAGTC
AAGAAGACACAAGAGGCTGTCAGTGAGGTGGGTATTTTCTTAGGAAAGACAGGGAGTAGAGACTAGGGATGAATGTTAATCATTCGGTCTCTAATACATA
TGTTTTGGGGTATTTTTTTTTCTTTAGTTGATCTACAAATCAGACTTCTTCAAGATGCAGGGCCACATGATCTCTCTGCCATACACACCCCAAGTGATCC
ATTGCCGCTATGTGGGAGACATCACCAGTGATGTAAGCATCTCGTAGGGGTCTTTCTGGAGTAGTCTTACCAAGACGCAGGCTTGCTTTCAGCAGTTAAA
ACAACCAGTGGTCTTTRAACAGCCTTTTCTGATAAGCACTTCTAAACAAAGAGTACAAGTTGGAGGTAAGACAGTGTGGGAGAAGGATGCCACAATTCTA
CAGCTATGGAAACAGTAATAAGAGGACCACCTGGGGAAGACAGAATTGCCATCATTCTTGATCACTCAGTGACCACCATTCTACATTCAACAYGGAATCA
TTCCAACTCCTCACTCCCTAACTCCCTGTGTGGCCTCCATCCCAGGTCATGTTGAGTATTTTCCTCTCACTCATCCCTACTCTGACCTCATTAGCAACTT
CTTGCTGCCATTTTTTTCATTCTCCTTGTATGTTCTCTCCTCCTAAAAGACCAATCCATTCAATCTGTTCTTTTCTCCAATCAATGTTATAGTAATAAAA
TAATAGCAGTGTTCTCTCCTCAGCTCAGGGTTAGAGACTTAAATGAAAAAAAACATGACTTATTTGGGTGCAAGTAAACTAAGAGTACAAGGTAGATGAA
CTGGCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAAC
ATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCACGATGATGTACGCCTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATCG
CTTGAACTCGGGAGGCGGAGGTTGCAGTCAGCCAAGATCTTGGCATTGCACTCCAGCCTGGGCAACAAGAATGAAACTCTGTCTCAAAAAAAAAAAAAAA
AAAGTAGATGAACCAAAATGAAAGACACAGTAATTAAGAAGTGTTGCTACTCCATCTTTTGTGTTTCCTGACTTACATTTGCTTATGACCAGCTATATTT
CTGTGTTTGCCTCTCAGATTAAATACAAAGAGGACTTGCAGGTCCTGAAGGGATTTGGCTGCTTCCTGTATGACACTCCTGACATGGTCCGCTCCCGGCA
CCTGCGGAAGCTCTGGGTGAGTGCACATCATCACAATGCATAATTACCCCCCGCACAGCTGGATGCCCCCATCACCAGCCTCCAGGGCTAGGCAGAAGGG
ATCTTAGCCTGCAGCTACTTTTAAGGGGAAATTTATCATTAACTCACTTGAGCAGATTATCAYYTTAATGTGATCTGTGCCTCCTATGAAAGGTGCTGAG
CTTAGTTAAATRACAATTGTTTTTGCTCCTGCCTGGGAAGACATCCAGGACACATGAAAGCCCTGCTCAGCTTACACATGCCAGACATTTGAAAGACAAT
ATGACATGAATCCCTTAAATGATTAATCAACTTGTATTTCTGTTTTTTTTTTTTTTTTTAAGTCTAATTACCTATACACTGATAAGGCAAGGAAGATGCG
AGACAAATACAAAGTGGTGCTTGACACTCCAGAATACAGAAAAGTGCAAGAACTGAAGACACATCTGAGTGAGGTAAGGACGCTTTACTTGTCATTGAAG
TCAATCAAATTGACCAGTACAAACTGAATTACTCCACAAGGCTCTTAGTTCCTCTAGTGATCGCTGTTCAGGCAACTGCGGCAGGTAAAATATTTCCCCT
CTTAACTGTGGAATGGCTACTATGTCTAAGCAAGTCAACCAACTGCACTTTACCTCAGTTTACTTATTTTGCCCCCTTTTGGTAAGATACGCATATTCAT
ACTGGCTCTTCCTATGTCTAGGGCTGATGAGGGGTTTTGCATGATTTTATAGATTAGAAAGACCTTTCTTTTTCTTTTTTTTTTTGAGATGGAGTTTTGC
TCTTGTTGCCCAGTCTGAAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCTGTCTCCTGGGTTCATGCGATTCTCCTGCCTCAGCCTCCAGAGTAGC
TGGGATTACAGGCATGTGCCACCACGCCTGGCTAATTTTGTATTTTTAGTAGTGATGGGGTTTCTCCATGTTGGCCAGGCTGGTCTCGAACTCCCAACCT
CAGGTGATCCGCCCGCCTCAGCCTTCCAAAGTACTGGAATTACAGGCGTGAGCCACCACGCCTGGCCTAGAAATAATAATTTTACTTATTATTTTTGTTG
TCTCTAAACTTATTTCAAAATTTTCTTTCTCTTTAATTCCTGCTATCAGGAGCCCCGAGCATGGCAGTGCCATTGGAGAAGTCTTCAGTGGCTCCYTGCT
CTGCTGCCCATTCAGTACAATTCAGACTACTTAGTTTCATTTTCATCTGGCATTGAGGCTCCTGATATATTGCAGTTATTTGTGAATAGATCTGATTCTC
TCACCTAGAGTGTTGGTTCCTTGATGATTGGACCCCATGTTATTTACATGTGTCCCATAGTGCCTTGGCCATAATAGATGTGCATGTTTGCCAAAGGGCA
TTTCACAAGTGTAAATGGTTGCTCTTCTTATAGGTCAGTTGGCCATTCTCATTCTACTGTCACTCTGGTATTGTAGCTCCATTCATCAGTTTGTGCATTC
ACCATTCTGTATTGTGGCTTCACCCAGCTGAGCATTGGCTTCCAGGCCATTTCATCCTTCTCAGTAGCTCTGATGGCTGCTGATTAGGAATCTTAGGCTC
TTAGCGATGCCCTGAAATACCAAATGTCACCCTCAGTGGAGGGATATGCAGCTTCCTACACTCAGTGAGCCAGAATCAGAGGATGACTAACTCTTCAGCT
TTTGCAAATGCAACATTGAGCCAATTTGCTTTCCTAAAAGCTTCACTGTGTTATTTCAGCCCGCACTCGCACTCAGACTAGAACGCTTACGTTATTTTTA
TCCTGCTAAAGTTGTGCTTTTCCACTCTGGCTCAGTATGAGAATCACCTGTGGAATATTTAAAATCCACCCAGAGAGGGCCCTGACCCCTTGTTCCACAC
CAGACTGATTCTCCGTGTCTGGGCATCTATACACTTTTAGATGCTCCATAGAGATTCTGTTTAATAATATGTAGCCTGTGTTGAAAACCACCGCACCACA
TCTCTCCTCCAGCTACCAAGTAATAATTTAAAACAATTGGTAACTTATAGTGCTTCAGAGTAAAGATAACTCTGAAATACCTTTACTCTTTTTGGCTTTC
TGGGCTCAGAATTATCTAAAACTTTAGTTTCTCCTCTTCCCARTTCCCAGAGGGATTTTGGGCAAGTTGYGCATCAGCACTGAGGAAGAAGAATGGATAT
TTTTCAGTGGAGCAGTTTGCACCACATTTGCCTCTCCATAAGAATGACCCAGGCTTGATAAAATGCTGATCCAAGCCACTCCCCTGAATTTAGAAGGGTT
GGGAGACAGCCTACGAATCTGTTTTTAATAAAAACCATGGAGAGCGGGGGAGGGTTAATATCAGGAAAGTTTGGAAAACATTGAGTTAGTAAAAAGTGTG
ATGGCCAAAAGAAGTTACCGACTTTTGAGTTTTCAATTGTATAGATTCTTGACATATACACATTTGTAGTACTAGGAAGCAGGGACGTTGTCCCAAGAAG
CATAAGCAATGCATACCTAAGTACAGGGGAAATATAATACACAGTGAAATGTATAATTCTAGAAATGGCATAGAGGCCAAGCACAGTGGTACATACCTAT
TGTCCTAGCTACTTGGGAGGCTGAGACCAGAGGATCACTGGAGTGCAGGAGTTTGAGGCCAGCCTGGGCAATATAGTGAGACCCCGTCTCTAAAAATCAA
TACATAAATAAAATTTAAAAATAAGAAAAAAATTGCTTGGGAGAATTGGGTTTTAGTCCCAGATTTACTTCCAATTAGCTATATGATCTTATGTAATTCA
CAACTTTAGCACCCTAATTTCCTAAACTGAAGAGTTGGACTAAATGATGATTTGAGCTCCTTTTAGCCATAAAATTCTAAGAGTTGTTGATTTACTTTAC
TCAAAATTTAGCTTGGAAGAAGCATTAAGTTTTCATTTAGTTTATCTCTTTCAATAGTAACATGAAAAAACAGCCCCAAACACATGAGTTACATTTTGTT
TTAACTTGCAGTTGTATATAATTCAGATTTAAAGAAATTGATGTGTGTGCCTGTGTTTCTTACGTTTTATCTGTTCAACTGGTATTTATATCCATGATTA
GAATTTATTTGGTATCCATTTGTTCTTTCTCATTTGCCGCATTACATTAAATTCCTTCAACATTTATTAGCAACTATTATTTTTTAGGCCCTTTGTCTGA
GCTCTAGTTGATGAAAGGATCGTACCACTGAACTGCTGTGCCCTAGTCTCGGAGAAGAAACAGGCATTGGTGTGATAAATGGCTTTATATAGGAACAGTC
AAGACAGCATGGACTCTTGGAGTTTTCCAGGCAAATAAAAGGGAGAAGAACATTCAAGGCAGGAAAGACAGTCTGTGAAAGCAGCCATAATGAGTTCCAG
TAACTGGGGACTAGTTTACATAGCACATGGAGGGTGTGGAAGGATGCTGGTAAATGAAGCTATTATAGAAACATGGGTTGGAGCCAGGTTATAAAGACTT
GTAGGTGTTATATAAATGACCTTGGACTTTATGAAAAATCATTGAAGAATTATTTCTATGAAGAATAGATTTGAGCATTAAGAAAATATGTGTCTCAGAC
TTTTGAAAGATGGGTGACTCACGTGGGGTGGTCCAATAGAGGAGTTGAGCAGGTGGTTTTGACATGTAGAAAATAAGATGGAAGGCTGAACTAGGGCAGT
GGTGTTGGCAAATAATCAGATTTCAGGAATATCACAAAGTGAGGAGCCCAGGATTCATGACCATTTTGATGTAGGAATAAGGGAGGAGCCTAGGATGACT
CCCCCAAGTTTCTGGCCCGAGTAACTGGGATATCAACAAGTCATTTAGCAAAATAGAGAAAATAGGAGAAGCAGCAATTTGAGATAGAGATAGAGGCAAT
ATAAAGAATTATATATTGAACATGGTAAATCACCTAAATTCAGAAAGTTGTAGAAAACTTGGGTCTGGAGCTCAGGAAAGACACTGGATATGTAGATTTG
GAAGTTATCAATCTCAAAGTGATGCTTGAGATCACAGGTACAGATGAGATCACCCCGGGAGAATGTACTGGGTGAAAGGGGCCAATCCTTCACCCCAGTT
AACAGCAGCCTTTGCATGAGGGCAGAACCAGAGGAAGGCTGATGAGGAGGTCTAAAAGACAGGAAGCCACCTAGGGAAGAATGGTTGAATGGAAGCCAGA
GAAGAGAGTTTTCAGGAATGAAACACTGAGCAGCTTCAGTTGCTACAGAGAAGTGTTCATGGCAATCATGAAGTTCTTGGTAGTCTCAATGAGTGTGACT
TCAYTGATGTGGGTAGGTGGGAGCCAAACTATGGTCTTGAGAAATTAATCAAAAGAGAGGCAAAGAAGAAACACAGGCAACTTGGCTGAGAAAAGAAGAA
TGAAGGCCATTGGCTAGAGACTGGAAAAGGCTTAATTAATGACAGGAGGTCTTGAGTCTGTTTGCAGGTGAARAGAGGGGATTGGGAAAACAGGAAGGGT
GGAAGATACAGAGGAGATGGAGACAGTTGCTGGAATAGGGTACTAGAAGGGACAACTGCAAATGGGACCAAGAACACAGCAGGAGTCTTGAATTTTGGAC
AGGCTAGAGAATGTCTCTTGTTTTGACACAAGGGAAAAAAGAAAAGGAGGGTGCAGGAGGTAAATAAAAGGTTGGTTTATTGGGAAGAAACTGCAATCGT
TGCAGTGGGAGGGCTCCTGCCTTTTCTATGTAAAAGCAGTGAAGGCATCTGCAGAGAACATAACATGCCCATGAAACAGAAATGATGGTGATAACTTGGT
TTATGTCTAGCTGGTCTACAGAGCTGCAGGSAAGAAGCAGAAGTCAATCTTTACTTCAGTTCCTGATACTCCTGATCTTTTAAGAGCCAAGCGAGGGCAG
AAGCTTCAGAGTCAGGTAAGCTCAGAGGTTCATAAGCCTGCCACTCAGGCATCACAGRGGGTGATTATATGTGCCTGGCCTCACCTGGCCAGTGGCAGAC
TCACACACTTGGTTGTCCTGGCTGCAACCTCATGCCCATTAACACTGCACTTGAAGAAGCAGTTCTCTTTTGGGCCATGATAATTATGGTTGTGTTTTAC
TCAGGTAAGGGATGCCACATCTTCTTTCCTAAGTGTTATAAAACTTGTGTTTTGGAGTAATGAAAATAATTGCTTGATCATTCTATAGAATCTTCCTGTT
ATCCGCAGACAAACGAAGCTGTATTTCATGCAGTCACGCAAAAATCAGGGGAAAATATGTTGAGGGGTCTATCAGAATCTTCTCATACTTCTGTTAGCAT
TCTTTATCACATGGCTTTGCTTGGATCATACTCAGTGGTAGGCATATTAGATAACTGGAGTATGTGTATTTGTTTTCAAATATGAGACACAGAGAAACAA
ATGAACAGAAACGCATATAACAAAAAAACAAGCAAACAAACATCAGGACAGTAAGCAGATACCACCTTCCCACTGAATGGTTAGAAATGAATGAAGTGGA
CTGAATGCTAAATACTAAATGCTTTATCTCTATGACACCTCACTTTCTTCTATTATTCAGTATCTGTATGTTGAACTTGCCACCAAAGAGAGACCCCATC
ATCACGCTGGAAACCAGACCACAGCCTTGAAGCATGCTAAAGAYGTGAAGGACATGGTCAGTGAGGTAAGATGGGAATTCAGCACTGAGGCACTGGGTAA
AAAGAAAAATACTTTGTTAAAACCTTCCCCTGCTACCTCTGATCAGAGAGCTCATTACTATAAATGGTGCTCAGCATCATCAAAACACAAAAGGCAGAGC
TATTCTCTTAAAGTGTGTAACACATTGTGCCCCTCCACAAGACCTGTAGGTGGCTTGGTTGGAAATTGGGAAGACACTTAAGCTTGTCTCTCTCTTCTGC
ATTTATTTCTCAGAAAAAGTACAAGATTCAATATGAAAAGATGAAAGACAAGTACACTCCGGTTCCAGATACGCCAATCCTCATCAGAGCCAAGAGGGCT
TACTGGAATGCCAGTGATGTATGCATCCCTTCCTTTTTTCTTCTGTTGTGATGGGGAGAGCTGAGGTTGAAGTACCTAAGAAACATAACATATTTCAGCC
ATATCCATAGTTCTAAACCATGGCCTAGGAAAAAAACACACATTTTTTTAAAGAGAAAAAAAAATGCCCAAACAATACTAGTCAGGCAAAATAGCTGAGA
GATACCAGAAGCCTATTCTTCTCAATTCTCTCCTGAATAAAAATATGACCCTTTCTTATAATTCTTCAGCAGCATTTTCTGGGGATACTTGACAGTTAAT
TTACTTATCCATAAAATTATGGTCTTGCAGTCAGCCAGACATGGATTCAAATCCTGATGCTGTTACTTGCCTGCTGTATGACTCTATATCATCTGTCTAA
TTTTTCCGAGTCTCTTTTCATATATGTGGAATGATAATGAGAATTGTGATAATTAAATAAAACCAAACAAGATAATGTATAAGTGTCTAGCATGCTGCTG
GGCTCCTAGTTACTCAGAAAATGTTTGTTCCCTTTTTTCTCTTAATTGCATATAGATCATGTGAATGATGCATGACACAGTGGTTAAAATTAGGGGGGAC
AGATGTTCATTTTCCATATCACACAATCGAGGGCAAGGCTGCCTTTTAATGGTAATAATCTGTTAATAATCTGTTAATGAAGATGTGAAGTAGTGAATCC
AAGGTAAATAGCCAATCCTTACGGGTTTTGTGTCTCAGGGTCCAACCAGGAATTCACTGTACCCATTACCAGAGCCACACCCCTAGAGGACTAGACATGT
TGGGACTTAAACTGAGCCAAAAATCAAGCCAACTTCATGACCCCCTCAACTTAGCAACATAGCTCTAGGATTTCAAGGCATCTTAAGGTAATTGCAGTAA
GCCCGAGGCAGAAAAGAGAAGGCACAGCAAATGTGAACAATATCTCAGTTCCATAATTTTGTTAGGAATTTTTATTTGGAGAAGAGAAGAGCCTACTAGT
TAGAAAAAGGCAATGCCAGTTAGTGCTTAAAATGTAAGCTGGGAAAAAATCATATACTCCCCTCAAAATCTACCTTCTAGGATATTTTTAGTCTTCTTGT
GACATCCTTCATCATTATCACTTCAAAGTTACTGTTGAATATTTATTTGAACCAAGCTGAATTAATATCTTACAGCGGTGGCCACACATTGAAATTGGCC
CTGGGATTCATCATGCCCCACTGGACAGCACCATCCCTAGGGCTTTATCAGTAGCAATTCTGATAACTCTAATCTTTACAATAGTCTAATGTAACAAGGG
TAGTATCTGGCATTTAATTCAGTATTAACCATGGCTAGCCCCACAAGTAGATCTAAGCAATCTTATGATCCATCTAAAAAACAAAATTACAAAGTCAAAG
AAAAGACATCTTTCACTGTGTGTTTGCTCAGTTAACCCCAAAAGAAAAGAACTGTTTGACGTTGAAAATAGGTTGTGCAGAGAAGCACCCATCTTGTGTA
GATTAGATGAATCATCTATGATATTCTCAGGTTAGAATCAGAGCTGTTTTCTCTTGAAATATCACAAAGATAAAGATTATAATGAAATGAAGTTTTAAGA
CTGCTTAGTGAAGAAGGCATTTTAATACTAGGAGTTAGAAGCTAAACCTTTTTCCCTTTTCCATGTACATTAGCATATCTTGGGCTCAACAATGTTGTTT
GTTTGGGTTTTTTTTTTCTCTCAAATGAACTTTTGGTTTATGTTTTATATTTAAATAAACTTTCTATTTTAAGTAGTCTTAGATTTACCGAAATTGTACA
GAGTTATCACATGCCCCACACCCAGGGGAACACCCATATCCTCCTGTTGCTAACACCTGTATCACCATCGTAGATTTGCCATGATCAGTGAACCAAGATT
GATACATTATGATCGGTTAAACTCCATAGTTGCTTTGGATTTCATTAGTTTTCCCTAGTGTTCTTTTTCTCTTCTAGGGTCTGAAATAAGCTTTTAAATT
TTTCCTAAATGTATTCATGGGAAAACCAGAGAGAAGACAAGAGAGTTCATGCTTAAAAGAGCTCAATTATTTAACTTGGTAGTTTTTTTGTAATTCATGT
GTTTTTTCTCTTTCTAGCTACGCTACAAAGAAACATTTCAAAAGACCAAAGGGAAATACCACACGGTGAAAGATGCCCTAGACATTGTCTATCATCGCAA
AGTCACAGATGACATCAGTAAAGTATGTCCCTAAATATTTCTACTTGTGTTGGGCTCTACAACTCACCATATACATATACATATATTTTTTAGCAACCTC
CCTCTTCTGAAATTCTCCAGAAAGAAGCCATATTTACATTAMCTTTGGGTAAGACTTACAGCTGTCTTTGTGTTTTTTATAACAGATAAAATACAAGGAG
AACTACATGAGCCAGTTGGGTATCTGGAGGTCCATTCCTGATCGTCCAGAGCATTTCCACCACCGAGCAGTCACTGACACAGTCAGTGATGTGAGTGTTG
ACATCTTCTATTTTCACATATAAATTCATATTCCCATATAAGCTCTGAAATCATACATGGCATAAAAACTGAAGAAACTCTTGGCTAGATTTTAGATTTT
GTGTGTGGATGTTTAAATCATAAAACTCAATTGCTAAGTGAGTGAATTTCAACTTGGGAGAAGGAAATATATATTCAAATTTATAAACCTCATTTTTCTC
CTAAATGTATGATATCATATTACAGGACTGGAAGTGATATATATCATCTAGGAAATAGCCTATTTTGATCCAATGAAGTGACAACTTCATGAAGCAATTA
AGACACATAACAATGCTCACTTAGAAAGTTCAGCTCTGTGTATGAAAATATAGCTGCCAAGCTAATGATATACTATCTAGGAAAGTATGCCTGTTAAATT
TGAATTGCTTTAATTAGTATTAAAAATGGAAAACTTCCATATGTTATAAAACAATATACCAAAGGTCAGTATTACTGAAAATGTCTTTTAAATAATTGTT
TTAATACTTTATTATTTTATATACCTCAAGGGGTAGTGCTTCTGTTTGWTCCACTTGTATAGATACTAACTTATTGCTGTTTGGAGATGGCTTCTTAGAA
CTCTTTGATGTTCTTCTTCTCCCAGGTAAAATATAAAGAAGACTTGACTTGGCTTAAAGGCATTGGTTGCTATGCCTATGATACCCCTGATTTCACTCTG
GCTGAAAAGAACAAGACTCTCTACAGCAAGGTATATATACTCAAGGAGAATTGGCCTCATCCATTCGACATATACCTGTACCCAGAGAGAATTAGCACTG
AGAAATAGTCTTTCATGTTTCCATCCCTATCATGGCTTCTAGACCTTATAGTCTGAGTACATACTTACTTGTTCACTGCTAGGAAACTCTTGGGTTTTAA
TCTCATTGACTGAAGGCATTTATTTGAATTTGATGAAAAATCAACTCTGTTCARCCCCTCATGATTCTTCTAGAACTCTCTCCTTATTAATATGTCTCTG
GGTGGTTTCTCCTATTAAAGCTGATATGACAGCCAATATAAAGTGGGATTATTTTAATCCACAAATAATGTATGACGTGRGGCAAACCACCTAGTTTTTA
TAGCCTCATTTTCCTATTTACAACATAAAGCAATTCAATTCACTTGCATTTGGGTTGTACAATAGGATCCAGCAAACTTTTTCCTGAAAAATGCCAGATA
GTAAATAAAACATCTAAGAAGATGTTATGGGCCAGATTCATTCTAGGGCATATTCTTCTTTGTTTGTTACAATACTGTGGAATGGTGAAACCCATTCTAA
TTCATGAAGCTGTTTAAAAACWGGTGGCATGCTAGCTGGGTCATACCCCACACCTGCTCTTAGAAGATTATGATTATCTGATTAATTACTGGAAAACTCT
TCAAATTAATGTACTAAAAACCTTCAAGTGCACATGAAAATACTTTCAAAGTTAAATAATAATTATAATATATAGAAATAAACTAGACATTGATTTAAAT
TTTTGCCCAATATGGAAAATAAATCTATTTGGCATCCATTCAATGGAAGTGTTTTCGTCGTGTCCACTTTTGGGCTAGTTTTCAAGACATCTAGGCAGTT
CTACCCTTTACTGTCTTGGAGGCAGAATAAACAATCAGTAAATATGTGTTAGCTTGGCTGGGTTCTGTGGCTCACACATGTAATCCCAGCACTTGGGAGG
CCAAGGCAGGCGGATAGCCTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAATATGACAAAACCCCATCTCTACAAAATATACGTAAATTAGCCAGGCATG
GTGGTGTACAACCTGTAGTCCCACCTACTTGGGAGGCTGAGGTGGGAAGATCGATGGAGCCTGGGAGGYGGAGGTTGCAGTGAGCTATGACTGTGCCTTG
CAGTCCAGCCTGGGCAACAGAGTGAAACCCTGTCTCAAAACAAACAAACGAATATGTGTTAGTTCTATGAATTAATTATCACAATTATATCATATGATAA
ACAGCATGTCTCATTCTTAAGATAATCATAGCCTGCTGTCAAGTAACCATGTTCTGTTTTTTCTAGTATAAGTATAAAGAAGTATTTGAAAGGACAAAGT
CAGATTTCAAGTATGTTGCCGACTCTCCGATCAATAGGCATTTCAAGTATGCAACTCAATTGATGAATGAGGTATGTATGAATAAACTGCTCCAATTAAG
CCTATTCAATTCCCTAAAGAAGTCTCAGAGTTTTTTTAAATTAAAGCCCAATACACAGAATGACAGGAAAGCCATCCTAAGTTTTCATTTTAACTAAAGA
TTTGGAAAAGACTCTATAATGTCACCATCCAACAAGCTCTGCCAAACTACAAATAAGAACAAGTGAAGGGACCGTTCAGTGGTGGGAGAGCCCCGCAAAC
ATCAGCACCTCTGCACAAACACAGGGCAGCACAGCCCTGCGGGTGACAATACCAGGCAGGTAAAGGATTTTCTTGACTGTCAGCGGAACTCCCTTATATA
TTACACAATCTATATTGTGTAGATTTGGAAGACACAGAAGTTCAAGGTTAATTTAGTATCCTCTACTAAGGCACCAAAATGTCAGTTGTTAGAAGAGCTA
CGCTAAAGGAATAGTTGTGATTCATGCTTCAAAGATATTGCCATTGTTACTCCCACATATATTGGTGCACAGAAGTATCCATCTGCACCCAAATTTTTTC
TTTCTATTTTATCCAGCCTTTCCTGTAACCATCTTTGCAATAATTTAAGTTAAATTTAGCTCAAGATGGCTGAAATAAACAAGCTATGAATTTATTTAGT
TGGGATGGTTTTATAGTTAAAGTTGTATTTAATTTCCTATTTTCAGATTTTTTACAGTTTCTGTAAGTTCAAAAATTCCGTGAGAAAATTAGTACAATAT
TTCTAAAAATGAAAATATAGCCAATGGTATATTTACTTAAATGTATGACTTTTTTGTTTGTTGTCTTTACATTTGATTCAGTTCACTTTCAGTAGATTTC
CAGACTGGACAACCCTGAAGAATTACTGCCAGTAGCTTCCTATGAATACAATCTTGATATATTTTGTTTCTATTTTTCTATTTCATGAAGAATTTCCAGG
TCTCCTTTATAATCCARTAAATTAATAGCATTAGAAGACTATTACAAATTTCCCGTGGATGTTTTAGCATCAGTTATGCTTTGAGATTCTCACAGCCTYA
GTTGGTAAAGCTGTAGCTGATCAGTACCCTATTTTAAATATACCGTTAGATGCCATAAAACCTAATGTTGTTAATGGCATCATATGCAAAGATGGAAAAT
GTTTGGGCACAAGGAACTCTAATTTTGGTGTCATAAATCTGACCTATCCCACACTCCAGCCTTCTTCAGGTAATCTTCCTCCACTTGACTCTCTTTGCTT
CCCTGTTTTTATTGTCTTGGGTATGTTGGGAGCCCGCCACTAGAGATGACATGTTCTGGCCCTCTGGAGTGTTTACCTTGAGACATTTTTGTGTAGCCTT
GAAGTTGTACTCTTGCTATAATATGCTATGATGTTTGAGCAGAAAAAATACAGAGCTGATTATGAGCAGCGGAAAGATAAATACCACCTGGTAGTCGATG
AGCCTAGACATCTGCTGGCTAAGACCGCAGGCGACCAGATCAGTCAGGTACTGTGATGGGGCTGGCCGGTGGCCCAGGCAGGACTGTGCTCCCAGTTTCT
CATGAGATGTCATCCCGTCTGCTGCAAGGATGTCATAGGTTCTGCCTATGATATTGGGTTGTTCTGTTTCAAAGTATCTGTCTAGCCACCCAAAAAGCCC
GTCAGCTATTTGAGTGTGCCAGTCCATGCTCTGTGTTCTCACTTGTGCTGTGGTGAAGATGAAAGGAAAAGCTGGGTCCTCCCATCCTTTACTCTTCTGG
AGAACCTGTTTGAAAACTGCAACTGTAAACTGCAGATTGAGTTGCAAAAGCAAAAAATAAACAAACAACAACAAAAAACAAACAAAAATTAATGGAAGGA
AAGAAGACATAACTCCTTACTATATATCTTTCTATTCCAAAGATGTCTTCTTTTCTATAAAGCTATTTTGGTGGTAACGTAAGTGAAACTAGCTGTATCA
TTCCCCATTCACAAGGACTATGAATGGCCAACCGCAAGCATTGCAGTCATTCTGCTTCACATTATAATGTATTTGATGTCTTCACCCGCACATATGTGAG
TACATAAAGTGTGTATGCCTACATCTCTTCACTCAGAGGTGATTGGGATATAGAGCCGTGTTCTTTTCTGTCTTCATAAGTCTCTTTTGTGCTTCACTGC
TCTTTGCATGGACAGAGAAAATATAAATCTAGTGCCAAGATGTTTCTGCAACATGGATGTAATGAAATTCTGCGTCCAGATATGTTGACTGCTCTCTACA
ATTCGCATATGTGGAGCCAGGTAATGTCTGATGGGATGTGAAGAAGGAGGTTTAGAAGAAGTCTTGGATGCATTCCCTTGTATGCTTTCATTGATTTCCT
CTTCCACTCCCTGCCCATGCTGGCTTCATATGGTAAAGCTATGTAAATATTCATTCCTTGTAAATGATCTCTGAATGTGGCCAAAGGTGATGGGACAGTG
GTCATCCGTACATCATCTGACACTTTCAGAACTCTTAATAAAATTAACTGATTCTTTCAAGTGTTATTTCCAAAGTGGTATAACATTAATTTATACTTTT
CAGTATTTGCCTCAAAGAAATAGATTCCTTAGAGATTGAAGATAGTAAGTAGATTCAACAGCATGTAAAAGGTCTGAATATTTAATGTTTTCATCTAATG
TGTCTCTTGTTCAATTATCACTACAACTGTTGCRGGGAGATGAGGATTACCGTGCAGCTCTATGAATATTGTATATATTCATGGCGCCTCTTGACTTTGA
TGCTGAATTGCTAGGTTATTTCCAGCACATCTGATCCCACACACACAGGTTAACAGTGTCTCTGATAATAATGCCTTTTTAGAAGGCCAACTGAAGCATG
CACTTTCCAGCACATGCTGAAAGGTAAATTTGATGCAGCAATAAACAGTGATAATTGGTAACTACCAGACACAATGTTAGTAATAATACCATTTTTCCCA
GACCAAAAAAAAAAAGTTAATTGAGCTTTCCTCTTAGCAACTTGTTTTGTCATTTTAGTTTACCATGAAATCAATATGTGAAATGAGGAGGTTAAGCTCC
AATTAAGAGCTTAACCTCCTCATTTCTCCTCCTATAAATATCCTGTTTGCCTGAACTTCCTCCTTTGTCCTTATATGATCCTCAAATAGTTGTGCATGAA
ATTTTATGGTGCTCTCTGTATCTGTCCTGCTTAAAACAGCTTCTGTGCATGAAAATAATTATGACTTGAAAATTGCAAAAACAAATGAATTTTTTAAAAT
GATAAATACTTCATATATACTCATTCTTTATTTTACATCCCTGTTTCATCTTTGACATGGAAAAATGCCTTTGGAGATTGTACATGTTCAATACAATATG
TTATGAGTAAAACAATATTTGTCAGACTCCAGAGAACAGGTTCTAGTCCTGCTCTGAGATTTGGTCTAAATGTGCCCTTGGGTCAGTCTCGTAACCTCTG
GGGGCCTCCGAGTACATGTGTATAAAACATATTGGAACTTGGGAGGCTGAGGCAGAAGAATTGCTTGAAYCTGGGAGGTGGAGGTTGCAGTGAGCCGAGA
TCGCACCACTGCACTCCAGCCTRGGTGACAGAGTAAGACTCCRTCTCGGAGGGAAACAAAAAAAGGAAATTATTAGTAGTAGTATCATCTGCTCACTCCA
TTTCACTTTTGCTATCAGACACAAATTTATAGTAAACATTTCCAGTTAGGAATTAAAGAGAAAGCTAGATACCATCTCCCACTCTGGTGTTTCAAGAGGA
CAATTAGATACCTTAAAGCCCACTCTACAACTTCTTAGAGCTCTTTCTTCTCTTCCACAATTTAGATCAAATACAGGAAAAACTATGAAAAATCAAAGGA
CAAATTTACCTCAATTGTGGATACTCCAGAACACCTGCGTACTACAAAAGTCAACAAACAAATCAGCGATGTAAGTGCAAGAAACACTGAATACCTTCTC
AAACTCAGGGGGCATCTGCAAACATGGAGGGGCATTTTAAATTGTCACAAAGTCTGGGAGACTACTGCCATTTAGTGGGAGGGAGGCAGGGGTGCGAGAT
GTCCTGTTATGCACAGGATTCTCCTCCCCAATAAAGAATTGTTGTGGCCGGGCGTGGTGGCTTATGCCTGTAATTCCAGCACTTTGGGAAGCCAAGGCAG
GTGGATCACTTGAGGCCACGAGTTTGAGACCAGCCTGGCCAATATGGCAAAACCCCATCTCTACTAAAAATATAAAAATTAGCCAGATGCAGTGGTGCAT
GCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCGTGACAATTGCTTGAGCCCAGGAGATGGAGGTTGCAGTGAACCAAGATCATGCCACTGCACTCCAGC
CTGGGTGGCAAAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAAAAAGAGAGTTGTTGTGACCAAACTGGCAGACACGCCAG
CTGGAAACACTGAAGTCTTAGCAGAGAGCATGAAAGCACCTGTCAAATTCATAGAATTCTCTTTCCTTTATATTCACTCAGGAAAAAACTTTGCATTTAT
ATTTTGATATTATACATTGAGAAGCATGACATGATGTCTTTCTGCTTTTTGATCTTTCAGATCCTTTATAAATTGGAATACAACAAGGCCAAACCCAGAG
GCTACACCACAATCCACGACACRCCCATGTTGCTGCATGTCCGCAAGGTTAAAGATGAAGTCAGTGATGTAAGTACTAGAATGGTTTAGCAGTCCCTCTC
ATCTTGGCCTCCTTCTAATGAGATGTAACAAACCCTGGTCCAGTTATCTATTCCTGTGTAACAACCACCCTAAAACTTAGTGGCTTAAAATAATAGTCAT
CTCTTTTGCTCATGATTCGGTAAGTTGACTGGACACAGCTGAACAGTCCTGCTCCCCATGTTGCTGGCAGACACCTGGGGCTCAGTCAAGCCAGGACATC
CAGGTGGCTCACTCCCATGGCTAGCCATTGGTGATGGCTGCGGGCTGGGAGCTGGGCTATTGTGTAGACGAGACAGGAACCCCTTCATGTGGCCTCTCCA
CATGCCTGGGACTTCTCCCCAGATGGGTCTCCACGTGGCTTAAACATATCCTGAGGTACTGATTTTTTAAAAATGAATTTCCACGACTTTCTCCTAAAGA
TACTGATAAGTAAATTGGTAAACTAGGTCTATGGCAAAGCCAGGAAAATTGTGATTCCTATGATCAGTTTAGTAAACCCCACTATGGCTCCCTCGGAACA
GTTTACTTTGGCCTTAGTCACATTAAAACCTAGGATCCTTCCCCAACGATTAATGAAAAAGCCCAGATCGAGGCCCTCGACCCTGAAATTTAAGAAGAGC
AAAAGTGGGTGAAGCTGGAAGTCCCAGGCCCAGGATGGAAAAACTGCCTGTTGGGCCTGCAGATGCTAAGCCTTCTCTGTGCCTTTCCCTCCTATCCAAA
CCCACATATACCAAAACTTGCTAGGTATGTCTCCAGCAATGACAATATACAGTTCTATATATTTTTAAAAGGCAGAATGATTGCTRTATTCATCAGTTCA
TTCATTCATCAAATATTGTCTATGTGCCTGACACTAGGAATGAGATGATGGATGATAAACAGTTTTTGCCCTTAAGGGGTCCTTAATGGAAAGAATAGGC
AGATTAAAAAAAATTATAACACGATATGATAATAGCTATAACTGCCGGAGCACAGAAGGAGAGCAAGACTAATTCTGTCTGGGTGAGCTGGTAGGGAAAG
GCTTCTCTTCCATCAGCAGTTATCAAGATGTTCTGAACTCAAGATTTGCTGATTTGGGGAAAGGAAAACCTGAATGAATAGGGKTCCAACTGGTCCTTTC
AGCACAAGCACAGAAACAAAAATTATATGGCAGGCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGAAAGGCTGAGGTGGGCGGGATCACCTG
AGGTCACGAGTTCGAGACCAGCCTGGCCAACGTGGCGAAACCCCATCTCTACTAAAATACAAAATTAGCCGGGTGAGGTGGCGCAYGCCTGTGGTCCCAG
GTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCACACCATTGTACTCCAGCCTGGGTGACAGAGA
GAGAATCTGTTAAAAAAAAAAAAAAAATTATATGGCAACACTGATGACCATAGTCAGTGTGCCCTGATCTGAGATAGGAAGGTGCATCTCTGCATGGCTG
TATCCTTGCTCCACAGCAGATTTTTAAAATTCCGTCTTAAGGAGCATTGTGTACTATAGTCATGCATGGATTTAATTTCTTGTTTTTTAAGATGCTCAGT
ATGCTGCTATAAAAAAATTAATCTTGTCACTGTGTTTCCTCCCACAGCTGAAATACAAAGAAGTATACCAAAGAAATAAATCCAACTGCACCATTGAGCC
AGATGCTGTTCATATCAAAGCAGCCAAGGACGCCTAYAAAGTCAACACCAATGTAAGTTCCAGAAACTTCCCCAAGCATGGTGGGGGATTTACCAGCTTC
TGTAGGACACATGGCCTCTTTTTACATCTCTTCAGGCAATTCAGCTCTAGTGATTGATTCCAAAGCAAGAGTCAGGCCCCAGGAGCATGAACAATGATGC
TAAAATATAAATGCTGCATTGGTCCTCACAAAGGAGCATAGGGAAGAGCAAAGGAAGCTTCATCCCATGCCATGGATGCTACACCCACTCAGCTTTTGCG
GTGGGTGGCTGAGAAATGGGACGTTTAATTCTGAAATGTAGGTTGCATTTTTGGAAAGTGCCTGAGCATTTTTCATTCTCTTTCCCTGTGCTCTCCTCCT
GCCTCAAACTCTACAATCTGCTTCTTCTGATGAAGAAAACATTGAGCCATTTGGTGCCATCAGGCATTGGCCTAGACCTTCTTCCTGCTCAGATATTCCC
TGCGTTGACTCTCTTCTTGGGTGCAGCATCTTAAGGCCTCAACTACAGAAATAATTTTGTGCATTTAGATGAGCACTGACTTCTTAAAAATATATTAAAT
GGTTATACAATGAAACCATTGTAACCGAATTAGTACCCACTAGTGCTAGAGGGGACATATATTTATGAGGGCTAGCAAACTGGAATCCCTGTAGGAGCTG
GCAAAGAGCTTGTACGTATCCTGAGGATGGATTGAGGGCAGACGGATAGAAGGACAGATGTGAGATAAAGCAAATGCAGTAAAACGTACCTTGCAAAATC
CAGGTTGTATGGGTATTCTCTGTAATATTCTTGCAACATTTTTGTATGTTTGAAATTTTTCAAAATAAAATGAGGGGAAAAAAACCTTATTAAATAGTAT
ACATAAAAGCATGTGCATTGTATTGTGTATAAATTATACCTCAATTTTAAAAAGAGAGAAAGAATGAGGAAAGAAATGTGCCTAATAGTGCAGGCTCCTC
CCAAGGACACTCAAATTAAATTACATACACTTCTGTGGCTCAGATTTGGCCCAATGCAGCCAGTTCTCCAGCCCTGAAGGGTCTAGGAAGCATGCAAGCC
CCTCTGCAGCCAGACTGCCTGGGTTTAAATTCCAGCTCCACCAATTGCTAAGTCTCACCTTGGGAAGTTTACTTAACCTTTCTATCCAGTTCTTCAGCTG
TCTATTTCATGCAGTTGTTATGAAGATTAGGTGAATTAATTTTATAAAATTTTATAATTCATTTAATTAGTTTTGTAATTTGTAAAGAACTTAGAAAAGT
GCCTGGCAGAAAATAAATACCTAGTGTTTGATCATTTTTGGTAAAAATTAAACCCGAATTTAGTTTGAAATTAAAAGTACTCGATTCTGAAGATGATTRG
GCTGGACTGGCAGAACTAGAGAGATTGAAGAATCATTTCACCCGGAGGCCTTTAAAAATTTTAGCCTCTATTTCGGGACCACAGGGTCCCAACAGATGAC
CTCTGAGTGGATGACTAGCTGCATAAATTGTACAGAAATTTCAATTGGGGCTTCCTCTTGCATTAGGAATCATGATTTGAGATGTTTTGAAATGCAAGAG
CCCCTCTGTGCCATGTGTGTGTTTATGAATTTAGCCTACTGAATCAAGTGATTCCTTTCTCTCCTGTTAAAAACAGCTGGACTATAAGAAACAGTACGAA
GCCAACAAAGCCCACTGGAAGTGGACTCCTGACYGACCGGACTTCCTCCAGGCTGCCAAGTCATCCCTGCAGCAAAGCGATGTAAGACAGGAGAGACACA
GACGATTGTAACTGCATACTGCACCTGAGAAATACAATGAATAATTATTTATAATAACCACTRTCATGAGTGTTAACCCTTGCTCGTTTGAGATCCGAGA
AGGAGAGGAGGATGGTTGGGGGAGCGATAGGCGAGCTCAGAACCCAAACCTGCCCATGGAGCCTATTCTCCTTTGGCTGGGCCTGGACACAAATGACTGA
GTTCTGACTGAGGCTGGGGAGAGTCTGGGGGAAGACTGGGGATGGAGGGGCTTGGTCCTGGCAGCTAGGCTGAAAAGGAGGAGTCCAAAATGCAGTGAGG
GACCAAGAAGCTCTTCTCCTCATTCTGGTAGCAAGTCTTTGTCCTCTCCTTAAGAGGACTCCCTGTGTGTTTAATCAAATGCCCAGCTTCCTCCTGTGCT
GTCACCCTTCCCTTTTCTTCTGCCTTTCTTCTATCACAGTTTGAATATAAGCTGRACCGGGAGTTCCTCAAGGGTTGCAAGCTTTCTGTCACTGATGACA
AAAACACGGTGCTCGCCCTCAGGAATACTTTAATAGAAAGTGATGTAAGTACCTAGTTCCTTCCATGATGCCTAACCTCACTCAGGGCCATCTTCCATGG
TACAGTCCCCAGGGACACCAGGGAAGGATGGAGAAGAGCTGCTTCCATCAGGGCTCAGGTATGGGTCCTGAATTAYGGCCTGTCCTGTGAGGGGCGCCAG
CAGTCAAGCAGGGCAGCAGCAGTGCAAGGGCCATTAGATCCAGGTGACAGTCCTCGATTTATACTGCACCAGCAGAGAGTTCACACAGCAGGAATTAGGA
CCCTGAAGGCCTGGCTGGACTCTTTATGGAAACGCCATGATTTGTTTTCTATGGGATCATACTTTCCCTTCACTACAGTTTCCTCCTCTGTAAAGACGGA
ATAATAATGGGCTCATGGAGGGCTTATGGGAGGGACAAATGGCATATCTGAGCGTGCTGTGAACGTAAGTGTGACTATATAAAGATTCATCACGAGATCC
ATTTTGATTGTTATTAAAACCACAACTTGCTAGAGATAAGGAAAAAACCCTTTTGAATATTTCCCAAAATTTGCAAGTATCACATCTTTTATTGAGTTTA
GTATTGTCAACGCTGCYGTTCTACTGGTTTGAGGGTGTAATAAAAATATGTAGGATATCCAGCAGAGCTAAAGAAATGCCCCTTTTCCTGCCCCTGAAGC
TGAAATACAAAGAGAARCATGTCAAGGAAAGAGGAACCTGCCATGCCGTACCTGACACGCCTCAGATCCTGCTGGCGAAGACTGTCAGCAACCTGGTGTC
TGAGGTAACCCCCAGCCGCCCATGAGTTCTGCTTCCCTCTTGGGAGAACGCCCCAGGCAGATGCCTTAATGAGCTCTCTATGGATTCCCCCAGAACAAGT
ACAAGGACCATGTCAAGAAGCACTTGGCACAGGGCTCATACACAACACTACCAGAGACCCGGGACACTGTTCACGTCAAGGAAGTGMCCAAGCATGTCAG
TGATGTAAGTGATCAACCACCSGTCTCTTGGCAGCAACAATGCCACTTGACTGTAGAATCTGGTGAAATAATGTCAGTTGCCTTTTGCTTCCTTTATGTA
GCTTCACTCTTACCATCAATATCTACATGTGAATCTTAAACTCTGAYTTTTAAAATGACCCAGTATTTATTGGCTTTCCAATTCTGGCAATTATGGCAAA
TGTGGGTTTTGCTACAGGACATGTAATCTAGCCATATCAGATATTACTAACCTATTAATAACAGAAGGAAACATTGYTGATTAGGAGTGGCCTCTCCTAT
TATTAAACTGCTACCCAATTTTAGAAAGGTAAAACTACCTCTTTGGGCCTCAGTAATCTCTGCCTGCTCTATCCTTATCAATAATGCTGTAGTAACCTTG
GTATTATATGAGTCCCATATGGTTCCATATATTTTTAAAAGGTAGAAATAGTAAATAAAAGAGCTTAATTTGCCTCTACCCAGGTTCTCCGAAGATTGCC
AGGTGGTTCTAGTGTTGGGTTGCAGGACACAAATGACAGAGAAGAACTAGAATATGGGTCTTATCTAAGTCCCAGACTGAYGCCAAAATGGGGAGCATGG
ATTTTCCTGGAGATTTCACAGTTCTTCAAGTAAACCAACTCTGTTCCCAGCTTCCTCTACTCATAAAAGTAATTCTGGCTCTATTTAGACAAATTASAAA
AAGAAGTTTGTCAAGGAGAAAGGAAAATCCAACTACTCCATCATGCTGGAGCCACCAGAGGTGAAACATGCTATGGAAGTGGCCAAGAAGCAAAGTGATG
TAAGTTTTCCCTCTCAACACTCTTGGGGGCCCATTTGAAGCAGKGGAACCCAGATTGGTGCATTCTCTTGTTCCAGTGTGTGGTCACTCTAATTCCTCTG
TGGTAGTTTCAAAAAGTTAGTGGCGAGAATTGGTTTGGGTTTAAGGAAAAAAGCTGATTGTGCTTAATGGGGACTTTTAGAAAGATAGCATATCTCGGCT
GGGCGTGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGCCCAAGACAGGCAGATCACGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAA
ACCCTGTCTCTACTAAAAACACAAAAATCAGCCGGGCATGGTGGTGCACACCTGCAGTCCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCACTTGAAT
CCGGGAGACAGAAGTTGCAGTGAGCTGAGATTGTACCACTGCACTCAAGCCTGGGCAACAGAGTGAGATTCCATCTCAAAAAAAAAAAAAAAAAAAAAAA
AAAAAAGCCTCTCTCTTGAGTAAACATTTTCTTCCCCAATAAAGGTCGCTTACAGAAAAGATGCCAAAGAGAACCTGCATTACACCACAGTGGCTGATCG
ACCAGACATCAAGAAGGCCACACAGGCAGCCAAACAGGCCAGTGAGGTAAGGGTGTCATGAAAATGTCCCCAGTCCCCAACAGCCATTGCCAAGGCATGC
CAGGCAACCATCACCTGTTGCCCATTTTGGTTTTCTCTGATTCAGGTGGAGTACAGAGCCAAGCACCGCAAGGAAGGCAGCCATGGCTTAAGCATGCTCG
GTCGCCCAGACATAGAAATGGCCAAGAAGGCAGCCAAGCTGAGCAGCCAGGTAATGCAGATGGGTGCACTGGTGGCTCTCATGTGAGGAGATTATAAAAG
ACCTTGCAGGAAGAAGTGATTTCCAGATTGAAAATGCAAAGGGATGCTGGGTCTGTAATAGTACTGCAAAGCTTCCAAGAGTTATAAAAAGTGCACTGAG
GGCCTTTTCTCGTTTCCCTCTAAGCTGTCTAGACCTTTCTTGTTCTCCACTTTACCATTTATGGGCATTTGTCTGGGTGTCTGTGTGCTTAACTATCTTT
ATGTGACAAAAACATCAGTTCATGAGATCCTACTGGAACCTCTCCCCAGGCCTTAAGAGTTTCATCCTCGGGGTCTGATTCATACTTGAGTCACCTGGGA
TAGATTTAACATGAAGAGCAATGAAATTCTAACTTCTAGAATCCAACCAGATGAAAATATTCATTTTTTTTTCATTAAACATACATATATTAACTGCCCG
GGCTAGGAAGTAGGGATGAGCAGATGTCTTCAGATTACTTGTCCATGGATAAATCATTAAAATTTTGTTTGGCAAGTGTTTGATCAGGGTATGCACAGGG
TGCTGATGGAGAATGCCACATTCTTGCAGATCTCATATTATTGAGAAGCAAATGGACTCAGAAATGTGTTGCCCAAACCCAGTTACCACATGACTTATTT
TCCCTTGTTAGGCCAATTATCTAAAATTCCCCAAGTTATGACAGGTTTTCAGACTTTAGCTCAGAGATCCCATCATCTACCACCAGACCTATCAGAGTGC
AAGTTTGATCCTATAGGACTTTAGCTTAAGAATATCTCATTTCTCCTCCAATTTACAGATCCTACCTTCTTTTTCCTTGTCCTCTCAGGTATCTGTTTGA
AGAAATAGGTTTGGGATATACATTTGGTTGTCGTGAGTGACTGACTTTCAGCAATAGCAAACATGGGATTCCAATCTTTTGGAAGATATAATGCAGTAAT
GTCAAGTGACAGAACAAGTTAGAATTATGAAAACACAAGAGGGTCAGATGACTGATGAAAAGCAAATATTATTTTTTAAAAGTTTTTAAACTTAAAATTC
CTATGTAACATATTTTATTATAAATTAATGGAATTGTATAAGTATTTGAAACTAAGATATGGGATCACCACCACCAACAAAAAAACAGTGGAATCTCTAA
GAGTAATGAGATGTAACAAGAACTTATTAATGCAAAAAGTTAATGTTTTTAAATGTACAAGGTCATATCATTATAATTTAAAAACAAACGACTATGATGT
TGAAATTTTGAAAACTTTATTGTTTTTGAAAATCAAGAGGCTCCTATTTCTAGTACTAAGTGAATCCTATGGTATGGAGAATGGGACCCTATGGGTCCCA
TTTACTTCCTGTGAAAGGCTGGTCTCCGGATTGACAGCTTCATGGTGTGGCCCTGGGCCCAAGGGCGCTTCAGCTGTGTGTGGGCTTTCCCTGTTCTGAC
TTTGCTGTCTTGCTGCGTACTCTAGGCGGAATACCTCAAAGGCCAAAGGAGAGGGCACGGCGCTGCATCTTATGACACCCCTATGATGARGCATCTTAAG
AAAATTAATGTACACATCAGTGATGTAAGAAAGACTGAGACCAGCAAGCCATTATTTCTGTCTTCCTCTGATTCTTGTCTACTTTCTTGGCATTGGTCAG
GAGACTGACCAGGTTGCATTCTTTTCTGTTGATTTTTGTGTTGGAACGTGTAGATTGCTGTGGAAATTTGTTGAAGGATATACTTTTGCATACACCCTTC
TTTTCCTGCATGAAACTTTCCATCTGGAACATACCACTTGGAATAGGAAGGTAGACTAGACTCAGAGATGGACTCCTAATGTATGTGTATGTTAGGTTGC
TGACACTGATCAAGTTAAATRATGAAATGAAAACAAACTGAGAATCTCATCTTCAACCAAAGAAACCTCTGCCTCTTCTGAAGTTATCTGCCATTTTTGA
TTTTTAATATACTGAAGATTGGTATTTAATATAGTTTCTCAGTTCAGGCCTTCTATGAATCAACAGTATAAACTTTTAATAGCTTTTCTAATTCTCGGGA
CTGTTCTTCAGTCTTTAGAAGCACCAGTATACATCTCAATTCAATAAAAAGGAGCTAAAAAATTAGATCTTAAACTTCAAATACAATTAAACTCCTAAAA
ATATAATTAATGCAAAATCACTTTCCTATACTACATCCATAATAGGCCCAATTTCTGAGCCTGATGGGATTATAAACCCCGGGGGCTGCCACTTGCCGAG
ACATGGCATTGCAGAGTTGCCTCTTAGCTCCCATGGTTAATGGGAAAAAGCTTCACCATTCCCTAATGCCAAGTGTATGTAGTTTTACTACATTACTCCC
TAGTCAAACACCATTCCAAGAATTCCTAGAGTCCTAAACCTGGTACATGTCCTTACCTTTCAAACTATACTAGTTTTAAGAAGATCCAGTCAAAAAGGAA
GGCCAAAAGTGCTGAACTCAGATTCATATTAGTAGTTGTAAAAAGCTGCATTTGTTTAGAGGACTTCCTATGGAGAAGGGAGCCATAACTTTTTTTCAGT
TAAAAAGGTTGAAGTTAACTTGAAATTAACAGAAGAAAAAGAAACTGAAGTGGAATCAATGGGATTGCTGCTTGAAAAATACCTCTTCAGAAACAAGTAT
CTTCTAAAAGACAGAAGGAGGACTTTTAGTATGCTTCTAAAAAAAGCAGATTTTATTCTCATTTGAGATGGGCTTTTGCTTCTTTTCTTCCCTACTCTGA
CTCTGCATATCTGGTTTGCTTTTCTGTGTTTCACAACTCTTGGGAACATCTCCTAGTTTTATGGACTTCTATATCTCTTAGGAAAAGTTGCCTTTGGTCC
AGACACCAGCTCACACCTCAGACCTTCCTTAGCAGGCCTTCCACTTCTTTATGTTGAGAGTGAAACTTTTTCAGAGAAGAGCCATTGTAGCATTTGTTTA
CGTTTCTTTTTCCTTTACTTTGTGTGTCTCAGTGTGCCTGCATCATGCTGAACTGTTCTGCATGCTTATTTTTTCTCTGCATTTCCACTGAGGATTTATT
CAAAGTAAAGGAGTCTCAGCATTGTGAATGCATTTTCTCTGATGTGGCAGATTTCATTGTTATTTTGTGTCTGTTGTGCTGGATGTGTCAAGTTGGGGGA
GGTGAAGAGCAGTGATGAACCATGAGGGGTACTGGTGTTAGTGAGTCTTTCATCTTAACAATAACAGAAACTCTAGGATTCCCTGAGGGTTAAATATTGC
CCTTTTGGTTGGCTAACATCTAGAAACAGCTCAGTTTTCATTCCTCCTAGAGTGAATAACTAGTAGAATTCTACTTCTGGCCTTAATTCTGCAATACTGT
TGACAAAAGCATCAGTTTGTTTTTCAATTAGGAGATGTTTCTGTCACTTTCCATTCTGTTGAATTCTCCTATAAATAAATCCTCTTATTTATTTTGTGAG
ACAGGGTCTTGCTCTGTTGCCCACGATGGAGTGCAGTGGTGCGATCCTGACTCACTGCAGCCTCCACCTCCCGGGCTCAAGTGATCCTCCCACTTCAGCC
TCCTGAGTAGCTGAGACTACAGGGGTGCACCACAATGCCCAGTTAATTTTTGTATTTTTAGTGGAGATGGGGTTTCAGCACGTGCCCAGGCTGGTCTCAA
ACTCCTGGGCTCAAGTAATTCACCCACCTTGGCCTCCTAAAGTGCTGAGATTACAGGCATGAGCCACCACACCTGGCTATCATCCTCTTTAGATATTTTA
CCTAGACATAATGACTGTCTCTTCCTTCCATTCAATCAAATCACATTTATTGAGCAACTATTAGTGCAAGGCATTGTGCTTATTTTTTAAATTGGAGTTA
TTTAGCCCTCTGCCTACCTAAACTTATTTTTATGTATACTAAAAGTATATTTAATCTTATTTTTTCTCATTATTCTGAAGTATCTCACTTTTTTCCTACT
TCTAGTCTGAAATCACACTTGAAGCCATTAACCCCCAAACTCTCATATTTGTTTACTCAGGAGTTATACCATTTTTGGCCAAGTTTAATAATTTTTAAAT
GATATAGCCAAAGTACTATTTTAAAATAACAATAAATTCTCCTAATTTAACAGATTCTTTATTTTTCAACCTTCTTGATCATTTACAGCCCTTCTTTGGA
TTTCACAGACTTAAATTGCTGTTGGTTTTGCTAGTTAGGAGTGCTAAAATGCTCCAAATCAAGTACATTAAATCACATCTCTGAATTTAGCCTGAAGCCT
TTTCCATTTTTTTTTTTTTTGTTTTGCATTAGAAAGAGGTGATTACTTTTTATACCTTGGAATAATATAAAAATGAGCAAGGCCAGTGATCATATATTTG
AATGCCTGTTGTCTTGTCATTCTTAATTATTAATAGTGTCTTCTTTACTCTAAATGTCCCAGTTTGGATAATAGATTATATGATCACTCTATGTACAATG
CATATTCTTTGGCATTTGTGTTYCTACTATTCCCCAATTCCCAAATTGATTGATGTCCAGGAATAATTTGGATGTTTGCATTTGCTGTTAGGTTAAATAC
CGAGAAAATTTCGATAAAGAAAAGGGCAAGACACCAAAATACAATCCAAAAGACAGCCAGCTCTACAAAGTCATGAAAGATGCTAATAATCTTGCAAGTG
AGGTATGTTTCTAAAATTGTGGTAAAATATATAACATGGTATTTGCCATTTTAACTGTTTTTAAGTGTGCAATTCAGTAGCATTTATAACACTCACAATA
TTATCCAACTACTGTCACTATTTCCAAAATGTTTTCATACCAACAGAAACTATAACCATTAAGCAAAAACTCTCCATTCCCTCCTCCCGTCAGCTCCTGG
GAACCTCTTATCTACTTTTTGTCTCTATGCATTTGCCTGTTTTAGAGAGTGCATATAAATGGAATCAAACAGTATCTGTCCTTTGGTGTCTGGCTTATTT
TACTTAGCATAATATGTTCAAGGTCCATCCATGTTGTAGGATATATCAGAACTTCATTCCTTTTATGGCTAAATAATATTCCATTGTATGTATATGCCAC
ATTTTGTTTATCCATTCATCTGCTGACAGACACTTGGGTTGTTTCTGCCTTCTGGCTACTATGAATGAGGTATGATTTTTCATCACCATCTCCAGCATTT
GTTTGACGATGGGCTATCTCACTTTGATTTCCATTAGTGCTGTTCCATTTCCTATTTACGTGATTTCCTTTCTTCCCCCATAACACACAGGTTAAATACA
AGGCTGACCTGAAGAAACTTCACAAACCCGTGACTGACATGAAGGAGTCTCTGATCATGAATCATGTCCTGAATACAAGCCAACTTGCCAGTTCTGTAAG
CTCAGTCATTTGCTCCAGAAACAGCTTGTTTTACCCATTTGGAACTAAATTCTTTCTGAGCCCAGATGCATCTTCTTCTCTGCTACTGATACCCTAGATT
TATTACAAAACTGTTCTCATTTGAGTGTATTCTTCCAAATGACAACATTAATCTACCAATTCTCCATTGTCTGTAACACCTCTCAGAATGTAAAAATGCT
TCTTTTTAAAAAATATTTAAACTTTGCCCTCCAATTAACCATTCCCTTTTCTCTAAGGACATAGAAATACCCTCTGGAATAGTTTCTTTCACTTTTAACT
TTTTACTTATAACACCTACTTTGAACAAGCCACATAACCTAAGTGTTTACATCTTAACGGACAATACTGAACTTGGATCCTCATTTTTAAAACTTTTTCT
TAACCTCCTGTTTAGTGTTTGCCATTTTTAGTTTGATCTTGACAATGGTGCTGTGTAAACGTCTAATCTAAAGAGGAAAAATAGGAATGCTGAGCAGCTT
CTCCATCAATGTGCCTTTTTTGCCGCCTTCCCCTCAGTACCAGTACAAGAAGAAGTATGAGAAGAGTAAAGGCCACTACCACACCATACCCGATAATCTG
GAGCAGCTTCACCTAAAAGAGGCCACAGAATTACAGAGTATAGTAAGTGGATCAAGACCGATTTTTCCTCTGGYGCACATTCATCCACAGTACAATGTGA
AAAAAAATTTCATAGATTCCCTCCATTGTTTGAGAAAATGCACAAAGATATAAGGGGTTTTGAATCTGGTAACTTTTTGAAACAAATTCTTATGTTATAA
ATTACAACAACATCTACATATAGTTGAGAAATATACATGCAATTATGTGCTACTGGCAGGGGCTGGAAGCATAAAGAGTGTGTTTTATGAGGGGACAAAC
CCCTCATGGTAACTCCAATGTGCCCCATGGGTTTGTGCCCCAGGTTAGGGAACACTACAGTAGATTATAGGGAGTCAGGAAGATTTCAAACAGAGAAGTG
ATACGATCAGGTCTACTACTGAAAGCAGTTCTGGGAATTTACAAAATTACTAAATTTTTAAGATACAGTCATATACCGCATGATGTTTTTGGTCAACAGC
AGACCACCTGTATGACAGTGGTCCCAYAAGATTATAATGGAGCTACCCTATGCAGGTGTACCATTTTAAAACCTTTAATACCATATTTTTACTGTACCTT
TTCTATGCTTAGAGGTATCAAGATACACAAATACTCTTGTGTTACAAGTGCCTACAGATTTCAGTAAAATAATATGCTGTACAGGTTTCTAGCCTAGGAG
CAACAGGCCATACCATATAGCCTAGGTGTGTAGTAGGCTATACCATCTAGGTTTGTGTAAGTGTACTCTGTGATGTTCACACAATGATGAAATTGCATAA
CAAAGCCTTTCTCATAACATATCCCAGTTGTTAAGCAATTCATGACTATAATTGAAGATTCTCAGAGGAAAGAACTTACTATCACATGACCTCCTATATC
ACAAATTCAGCATTATTTAGGTCCCCTGTTGGGCATTAACCATGAGGACTAACTATTAGAAACGTCCTCGTGTCTTCTGTAGGGCAGTATGTGCCCCCAG
GCCTTTATTCCAACATCTTGTTACAACCCAAGAGCTCGGAGATTGAGCAGTGCCATCAAGGTGCTGCGTGCATGAGGGTCTTCGCCTGTTTTTCCAGAAG
TTCTCTGTCACATACATTTATGTGGCTCCCCTGATTCTTAACCACATGTTATGAGGATGAGAAAATTTTATTTATACAACAGGCTTGAGGATCTTTTGAG
ACTGTCAGGTTTTTTAACAAGTCAGTCAATATGTAAACTAGTTTTCATTTTTATACCAATTTATTGGCTGCATTAAATATATGGCCAGTCAGGACCCACA
TAGAGTTGTTTACTTATAAATAAAGCTCCATGTGTTATCCATTCAATCTAGACCCCAGGTCTCTGATAAAAGTTCTTGTGAAAGAAAAACTAAGGATTTT
TATCAGAAATATTGATTAATGCTAATAGCATTAATAATTTTAAAGTGTTTACAGCTACCCATCAATTATTGACCAACCTCATCTACCTGGGTAATTTTCC
CCATGCGTTTTCTTGCATCAGCATTTCTCTCAGCTGGCTCTTGTCAATGATTCTTTTGTGTCCTTGAATTGAATCCAAATCCTAATTATGCCTTGCAGAC
AGTAATGGYACCCATCCCCTCAACACCTAGACAACAACAAAAATGTACTGGATCTGAAACATAACAGGAAACTGTTTTGAGTGGCAATGAGATGCCATCC
AATTGACAGAACATATCAATTAAAAAATACTATCCTTAAACTGCTGTCTAGGAATTGACCAGAGGAGAGATATCTAACATGGCTTTCTATCACCAGGTGA
AATACAAAGAAAAGTATGAAAAGGAACGAGGAAAACCCATGCTGGACTTTGAAACACCAACGTACATCACTGCCAAAGAGTCTCAGCAGATGCAGAGTGG
GGTAAGTCAAAAAAACCACACCACACAACAATGATCCATCACACTACTGAACACAAGCTCTGCCCATGACATGGCCAGTTTCCTGTCATCCAAAAGTGGT
AGCTGATGAAACTTTTTATCATGTGATCACTAAAATCTTCTCCATCTCAGAAATCCTATGGTTCAGTTATTTTTTAAAAATGCTCTAGGTAGTAAATATT
TACCATATGTCTTATTTCAACAGCCATTTCTGTAAAATTAGAACATGGAAAACTATTCCCAACACAAATTATACTGAATGTAATTTGGATTTTCCTTTAT
GAATGAAAAGTTCCCTCCACACAGACACCCCTTTGGCTTTGAAATGCTCTACTCTTAGTAGAATGCCCCAAGCCAAACAAAAGGGTATTTGTGATCAAGA
TGTTTATCAAGACCCCAGATAATCAAAAGTGAAGATGCCATATTCGTTATTTTAGAATTGTAAGCAGAAGCACTAAATTTTCTTTTGGTCATTTTTAACC
AAGAGTAGAGAATGGAATCTTATTTTAAATCTTAGTCTGTCTTCAGTGGGAAATGGGCTTATTTGGAATTTCCATTTGCCTCTCTTCCTCCAACTATAAA
GAAAAATTGTTTTAAATAAAAGCAGCAGTTTGTGGAGCTTTCTGGTGATAGAATGTCAGGTCATCAAAACTTTAAAATGGCTTCAAACAATTGGTCAATC
TGAGTAAAGGATCTATAGGAGTTTCTTATACTGTTCTTGTGACTTTCCTGTAAATTTAAAATTCTATTAAAATAACAAAATTACAAAAGTAGAGTTCCAA
CATCTATTCCAAGCCCCTCTGTGAGTCAGCTAAGTCTGGAGACTGGAGAGGAGATGGGGCAGGGAGGCAGAGTGGACAAAACCATACAATTCCTCTGTGC
CTCACTGCCCACCTAAGCTATTCAGTGATTTTTAAAAAACAGGTCAAAACTCAGTGTGGTGGCATACACCTGTAGTCCCAGCTACTCAGCAGGCTGAGGC
AGGAGGCTCACTTCAGCTCAGGAGTTTGAGACCAGCCTGGGCATCATAGCAAGACCCCATATTAAAAAAACAGGTCATGATTAGGAAAAAAAGCAAGTTA
GCATTTGGTAGCCTTAGGCTCTCCTTCCACTGCGATTTTTTTCCCCTTGCCTCACTGACTTGTAATTCTGAAATAAAGTCTTTTGTCACCTTAAGAAAGG
TGTGGGAAAGTTCAGAAGAGACAACAGAGGATTCAGAGTCCTGATGGTGCATCCATCCTTCCACTCTGTGAAGGGCCTGCCCCAGTCACAACATTAGACT
GATGAGTGAGGGGCCCATCAAAGTGTCTCAGCCTGAATTTCCTTGTGGCCATTTGCTCCAGACAAAGTATTTCAAGTACAATCATACATGTTTCAAATGT
GTGACCATTAGCAGAACTATGATTAAGAGCCCATACATAGAAAATGCTGTTTTTTTTTTCTTCCTGAGATGGAGAGATATATTGTAATAAAGATTTTTTT
TTAACTTGTCTTTCCTTCCTACTTACATTAGAAAGAATATAGGAAAGATTATGAAGAGTCCATTAAAGGCAGAAACCTGACTGGCCTGGAGGTCACGCCA
GCTTTGTTACATGTCAAATATGCAACTAAAATAGCAAGCGAGGTAGTGCCCACTTGGTCTTTTCTTTCCCTCTTAATCCAAATAATTGCACTAGTGACAC
TCATTAATGTGTTCCTCCTACCATTTACATCACCACCTAACTGTGGGTTTCAAATTGGGTTCTCATGTGCTTGGTACTACCACCTAATCTATTACCCATG
TTAATTCTTCTAATTTTTTATTTGAATATTACCTTAGCATTCTATTAACTTCAAGCTTTCATTTGATATTTAATGTTAACTGATCATGCTTATACCCTGC
CTGTATTCATATTTTTACTTACTAAACTGTGAACCCTTTAAAAATTGGAATTGTTTTTTATTTTCTTCTTTGCCTGAGAGAATCAATCTGGGCTTTCTTG
TCAATGTTGTTGCTTTTCTTTCATGATATAGAAAGAGTACAGGAAAGATCTAGAGGAAAGCATCCGTGGGAAGGGCCTCACTGAAATGGAAGATACACCT
GACATGCTAAGAGCAAAGAATGCCACTCAAATCCTCAATGAGGTAGGCCCACAGCTGACTGCCTGCACGTAATTCATACAGCATCATTTCTTTGTTAGCC
AAATTACACCAGAAAAAGCAAAACAAAAACAGAGAACAGAGAAAAACAGAGCTTTTCATTTTCAGATTCCATATCAACATAATTGTTAACCATTACATAA
AATATACCTCAATTTCTGATGAATGGATATTGTAACAGTGTGTTTCTGTAGTGGTTATCATAATCTATTATCTAATATTATTTGATTTAACTTGATATAT
TTGGTGTGCTCATCTACACGAAAACACTACACTGGAGTGGTGTGCACCTAAGTGTAATCTTAGTTATGTACCAAACTAGATGTACAATTTACTTTATACT
CTAATCTTCTAAGCAGAGAATGCTAAAAGTATTCAAAAGGAGACCTCTGTTGACCCATACTGACTTGCATAGAATAGTTTCCTCCAGAGGGCTTCTGAAG
ACACCACTTCATCCTACCACACGGAAGAGCGAAGGTGAAGAGTAGCAAGCGACACTATCTGTGACAACTGGGGTGGCGTGTTATGTGGATTTACATTCAC
CCTGTATGTTTATTACCTAGTAGTAGCATTTAGGTACCTTTTTTTTTTCTTTTAATGCTACTATAGAAAGAATATAAGCGAGACCTGGAACTGGAAGTCA
AAGGAAGAGGCCTGAATGCCATGGCCAATGAAACTCCGGATTTTATGAGGGCCAGGAATGCTACTGATATTGCCAGTCAGGTCAGTGCTACTATTCGATG
TCAATCTTTCAGGAAAGTAGTTGTAACTTTAAGGACATAAAGTGTCCCTCTGTCATCTGATTTATTGGTGACAGTCACATGCATACAATGGCATTCTTGA
ACATCTGCCTGGAGGAAGCCATCCCAATGAAAGGATGGAGGACCCTTTGCCAGGCTCATTGCTGTCTACCTTTCTAAGTCTATAGGCTCTGGGGACATTC
AGAGCAAAGGGCAGAAACTGAGGAATTAAGTAGCTGTTTGGAGCTGGGGCAAACTCGACATCTTGGCCTTATTTCTGAGTCARTCCACTCATTTGATGCC
AGGAATTCCTTGCTTAGAATATCTTGGGAGTTCTTCCTCTCCTTTCAAGCCCTAAGTTTAGAACAGTTTTTAGGCATCTTAGCTTGTCTAATGCTCATTG
GTATGGGTCTTTTGCTTATTTGTCATCCTCCCAGCTCGTATGTAAACAATCCATGCCTTACTATCTGTTGATGATCCCTCCTTACCCATATCCCATCCTG
CATCCAACTAAATCTTCTCTCAACAGCTAGGACTTGACCTTTCTTACTGAATCTCACTCTTTGGTATAAAACTATGAACAAAATAGGAAGAAATATCTGT
TGAATGTCAAATGAATGAGTCCCTCTTGGAAAAGAAATATGGCTCACCTCTTAATCAAATCAAGCCAACAACTGTTGTGCACATTGCAAACATTTACCCA
ACTATTCGGTGTTGTTTTACAGATTAAGTATAAGCAATCAGCAGAAATGGAGAAAGCCAATTTCACTTCTGTGGTTGATACTCCAGAGATCATTCATGCC
CAACAAGTCAAGAATCTTTCAAGCCAGGTAAGGACATTCGTCATGCCATCACTCATAAACCCCAATCATGAAAGAATGGAAGTCCTTCCATTAATAAATA
CCTTAAGAGATTCTTCAGATCAGTTTTTCCCAATAAAAAAGAGATTCACCAGGTGCGGTGGCTCACGTCTGTATTCCCAGCACTTTGGGAGGCCAAGGAA
AGTGGATCATTTAAGTCCACGAGTTTGAGATCAGCCTGGACAATATGGCAAAACCCTGTCCCTACAAAAATTGGCCAGGTGTGGTGGTGCACGCCAGTCC
CAGCTTCTAGGAAGGCTGAGGTGGGAAGATCAATTGAGCCCAGGCGGTTGAGGCTGCAGTCAGCTGTGACTGCACCACTGCAGTCCCCTGGGTGACAGGG
TGAGACTCTTAAAAAAAAAAGAGAGAAGCCCGGCATGGTGGCTCATGCCTGTATTCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACAAGGTCAGGA
GATCCAGACCATCCTGGCTAACACGGTGAAACTCTATCTCTACTAAAAAAAATACACAAAAATTAGCCGGGCGTGGTGGCAGGCACCTGTAGTCCCAGCT
ACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGCAGCACAGCAA
GACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGTGAGAGGGTAACCTATGATGCAGGAATTTTAAGGTAGTGAAGAACTCTTTTAAGGTA
CTGAAGAACATGGTACAACTTGTAATTAATGAATCAATATTTTAACATGTAAAATCTCTTATGATGTGGCTTTAAAAATGTGTGCGCAGATCTGGAAGAA
ACAAAGTAGCCCACATTTGGATTACCAATCTCAAACAAGACTGAGATTGAGACCACACAGTCTAACCCCTGACTCCCCTCATGATGAATAACTCTCCATC
ATCTTCCTACAAATAGAGAGATGAAGAAAAGTAGGCCATCCTTCACACCCTGGGATAGGCCTTCACTTGTATGAACGATTGTCAGTGATGGTCAGGAGTC
TGCAATTTGTTTGAGTGGTGCCAGATTAGAATTTGTGCTTGTCTTCTGATCAATGAGTTCCAAAGCCATAGTTAACGTGCCCTAGCTGTGCTTTATAGGC
ACCTGGGGATGTAGATTCGCTGGTCCAACTCTGGAATTTTGATGCTAGTAAATCTGTGGTAGGCTCTGGAAATCTATTTTTGTTTGTTTTTAATTTTCAC
AGATGATCTCTTAATGACCAATCAGGTTGGGGAATCAAGGATTTCAACCCTTTACTGGAAACATATAGTTGTATATTGTAAAATTACACATGAAAAATAT
AGTTATCACTAGAGAGTGGTTTGATTAGGAAGCAGGTATATTCAAATGGTGGAAATGTTTCTTTTCTTTGAAGGGTAGGGATGCARAAGAATAATTAGCT
TTTTAAAAACTACCAAAATGATATGGGCTCCAAATTACCATGTTGTGTTCACTGAGGGAGCCAGGGAGGCTGATATTCTTTGGGCTGTGAGAGCCTCACC
AGCCTTTTACCTTCTGCTTTTGACACTGCTGATCTTTAACGAAAGCTTCAGCATGTGGACCTATCCCAGTGTGGGATCACGTCACTTGCTCTGCTCTCCT
GGGGCTCTCTTTGGCTGGTTCCTCAAGGCCTAAAATATAGCCAGGCAAGTTAGTTCCTCCCCAATTCAGATCAGTATTTACAGTTGAATGGTAAATACTG
GTGAGATGGTGCTTGTGTTTCCACAAACTTGCTTCTCGATTTCCAATGGAGAATCTGTATTTATAACTCTTAAACCTCATACTTGGGGGTTAATACAAGC
AATGTAAGCTGACTCACAAATTTAGGATACTATACAGTAGTCTCCTCTTATCCGAGGGGGATATGTTCCAAGACCTCTAGTGGATGCCTGAAATTACAGA
CAATACCTAACCCTATATATACTGGTTTTTCCTATACATATACACCTATGACAAAGCTTAATTTGTAAATTAGCACAGTAAGAGATTAACAACAATAACT
AATAAAATAGAACAATTATAACAATATACTGTAATAAAAGTTATATAGTTACATGAATGTGGTCTCTCTCTCTCCCTCAGAATATCTTATTGTAATGTAC
TCTTATTTTTGACCGAGGTTGACTACAGTTAACTGAAACCGTGGAAAGTGAAACCTCAGATAAGTGGGGACTACTGTACTGAATACTTAATGCCAGTATG
GCAGGCCAGGTCTCACTAACAACTGTTTGAGTACTAAATGAATGGTTAAGTTAGATATTAAAAGCCAGTGTCCCTGTACAAAGGCTGGGATGTAACAAAA
GCCCACCAAAAGTTTCGGCTAGGCCTTTCCTGGGCCTTAAAGCATAACAAAATAATGAAGGAATTCTTAACAGGACCCATGTAGAATTAAACAAGTTTTA
CTGTGGGTCTAAAAAAAACTCCCCAGGCCTCCACAAACAAGTTTATTGGGGGTCTGAAGAAACTCCTCAAACCTCCCTGATTTAGCAGGAGACAACATAC
GAGTAATCACCCCAGCACCTGAACCCATTTAAATTAAGTAAATTTACTGAGGCTCCAGAGGAAGGTCTTCAGAACTCAGACCTTAGTTATAAATTAAAAG
AAGTTAATCACTTATGTCTTTAGATGAATGAACACTTACACAAAGACATATAGCTTAAAAGGTAAGCTCTGAAAAACTTTGTAATTTTGAGTTGGCCTGG
TGATAATTTCCAGGCCTTCTCCCGGTAACCAGTTACAGAAATAAAAACTCTTGGTCGGGCGCAGTGGCTCGCGCCTGTAATCCCAGGACTTTGGGAGACC
GAGGTGGGTGGATCATGAGGTCAGGAGATTGAGACCATCCTGACCAACATGGTGAAACCCCATCATTAGCTGGTTGTGGTGGTGCACACCTGTAATCCCA
GCTACTCGGAAGCCTGAGGCAGGAGAATTGCTTGAACCAGGGAGTCAGAGGTTGCAGTGAGCCAAGATCACGTCACTGGACTCTAGCCTGGAGACACTGC
GAAACTCCGCCTCAAAAAACAAAAAACCAAACAAACAAAAAAAAAACCTCTCTTCCTCCCCAGTTCATCTGCATTTCATTATTGGGCCACGAGAAATAGC
AGTCCAACCCTCAATTTGGTCTGGGAACACCAGGGAGTTCAGGTCCCTTTCTCCCAGAATACATCCAAGTTCTGTGTGCAAATGTGATTATCCCTCTAAG
GGATTAGCACCAGCTCTGCAAACCAGTTGAGGTAGCTTTTGCTTAATCTTGGAAAAAATAAAAGAAAAACAATAAAAATAAAATAAAAGGACGATTGTTT
CTATTCTTTTCCCAGGACAATGAGAACTGTTTTCCTTACATCTACATAGCTAAGGAGTCATCCAGGTGACTTTTTCATGAACAAAACATTTGTTCATGAT
GAACTACCGTTTCTTCCGAAAAATCTGGCTTTAATTCGCTTCCATTTAGATGAACAAAATCTAGGCCTACATCTCTCATTGGCTGAAACTGCTTGTTTGT
TGTCTCTGGCAAGATTACAAATTTCAATACTTATAAATGTAATTCCTATATTAACAAAGTACATAGAGACAGACAGAATAGTTTTATCCCCATTATAACA
GTGGCTAGTCTCATTCCTCAGCCCTCAGCCCTACAAACTAAAACTTCCCTGAAGAGTGGGAAAAACTGGAGCTAAGTTAAGCTAGAGAGAAAAGTGAAAG
GACAGTGACAAGCGATGATGAAAGAAAAATAAGGCTCTAAAGTGTTCTGCTGCAGAGAATAAAAACAATCATCAGTTTGGTGGTGAGATTGACTGCCCAC
TGGTGTCTGGAAGAGCAGCCTCTATATGGACACGTCTCTCCAGCCAAAGGCTGGGGCAGGACAGGGGAGCCCAAGGAATAGTGATGTCTGGTTCAGAGCA
GTCCTTGGCCAGTCAGCTGGCCTTAGTAGTGCTCCAGGTGTGTCTGTTTGGTAGAGCTGCCAGTCCTGTCAGGCTGCTTTCTGCAGCATCAAGAGCCATA
TTCTGGAAATGCCTCTGGGCCTGCCTGTCTGACTGCCGGCTCAGTCCTATAGCTGGGAGCCCTGACCGCACCTGCTCATGGCTCAGTGAACATCTTGTCA
CCAGCTAAGGCTTTCTAGAGGTCATGTCTTTGACTCTTAACCCTCCAGCTTCTCTCCGCCTGCCTGTTGAACAGTCTGGCTACATAGCTTCATCCAGCCC
AGCGAGGACTACTGCCACTGGAGGCATCCCCATCTCCCTCTCTGGGCCTTGCTGGCTGTGACCTTCCTCCTGTGGACCAGCTAGCAAGGTTCCCCCTCTG
CCAGCTTTGCCATGACAATAGGTCCTACTGAATGTCTGGGCTTAGCTTTCCTGGAAAGAAAAAGTATGGTGCTCTTTCTTTGACTGAGAGGGTTCTTCCT
TGCGATGCCCTAACATCCTTGGACAGTTAAGAAAATACAAAGGACTTTCCCTCTGCTGAGCCTGGAAGGGCTAAAATAGCCTATTTTASGTCCCATTGGC
CTATATCCCTGTGGTGTTTACCCTCCTTATTTCTTGGAATCTATTCCCAGAAAAAGTACAAGGAAGATGCTGAGAAGTCCATGTCGTATTATGAGACTGT
TTTGGACACCCCAGAGATACAGAGAGTCCGGGAGAACCAAAAGAACTTCAGCCTTGTAAGTTTTTATTAAATGTAAGGCACAGCCCACAGGCACCTAGGG
GTGCTGAGGAAGATGCCTCTGGATATCCCAGGCTTGCAGTGGGGCTGTTGTGCAGCCCTCCACAACTCCCATCCTGCCCCAGGAAATGTGTGCCCAATTC
ATCTCTGGGCTCACCTTGTATCTTAATCCCAAATCACAGCATGAAAGACTCATCTGTTACTTCGTTGGTGGTATTGGGGAGAAAATATAGTATCTTTTCC
TCACCCATGGCAAGGTTCATGGCGAAAACCCCTGTAACAAAAGACAGATTAACAAGAGAGACACACAATTTATTYAATAAAAGCTTCAGAAATGACTACC
CAAAGAAACAGGGAAATATGTGTATTTTTATGGATAGAGATGCGGAAGTGTGATTGGACAAAGAGGGGTATGATCCAATGGTAATAAACAGGGGATTTAG
CGATGGCTGTTTGTTCAGATTCTCCTAGTATCTCTGTGTCTTTGGCTCCTTTCCTCTGGGTCTAGGGAGGACCCTTCTGGAAGGAGAGGCTTATTGCCTG
CTTTAAATGAAGGTCAGATAATTATTATCTGCTTCAGGAAAAAACAGAGAAGGCCAGAAAAACCCTCCTGCTTCTGCTGTTTTTTCAAATGCCAAGGTGC
CATTATTTTGGGGTAGTGTATCCTAAACCCTGTCAGTGGCTTCCTTTACTGAATGTGAACTATCACTGCTTTCCATTAGTGGAGACATCTATCTTTTTCA
AAGTTAAATCTACTAAGCAAGGGATACTTAAACAAAAACAAACCCCTAGCTTTATATGTTTTTTAAAATTAGTTTCTCCACAAAATTCTTATCAAATAAT
TTCCCTTGGGCTACCAGACCATAATTATTGTGCATAGACTTTTTTTTAAAGATACAGGATTTTAATTTTCTTCACATAATATAGGACAAATAAAGAAAAC
AAAGCAATGTTGAAATCTTAACAAGATGTTTACTCTTTCTTCATAGCTCCAATACCAGTGTGACCTTAAAAACAGTAAAGGAAAAATTAYAGTTGTTCAA
GACACRCCAGAAATACTGCGTGTAAAAGAAAATCAGAAGAATTTCAGCTCGGTATATTTACTATTTATTTTGCATTTAATGCTAACCTAGTCATTTCACT
CTCCTCTTTAAAAATATACTAGCCTTATATTGATACACACAATTAACATCTAACCTCCTCAGTAATACTAGCAGTGATTTGCTAAAATCCCCAATACTTT
GCTCCAAAATCATCTCCAGAGACCATTTGAAATAACTTTAAATCTGCTAACAACGTAACTTTTATTTTTAAATTTTTTAATCCCAGGGCAGTAACATGTG
TTGTCTTGCTCCAAGAAGATGGATTTCTTTTTGACATTGTGATTTCTTTTGTTATCCCTCCCCCAAATAACTGACTGAGTTTGCATTTCTTTAATGGATT
TTGTGTTACATATGGGGAGGGTTTTGTTGTTAATCAACATTTCCTGGCTCTTCTCATCCTGTGTTAGTATGGTATACCACAATCTTAGAAGAAATCTTAA
GATCTGGAAAGATCCATGTTGTATAACTGGTCTGAGTCACTGATACTGACATGGAAATGTCAGGTGCGATGCTCTGGCACTTGCCTGGGAACATCGTCTA
GTGTCTTGTTTTCACAAAAGCCATGTGTCCTAGTCTTTCTCCAGGAACTGCTGGGTTTTCTTTTCTTCTGTGTTAACACTGTCCTGATTCTGAATGCCCA
GGTTTTATATAAAGAGGATGTCTCACCAGGAACGGCTATCGGAAAGACACCTGAGATGATGAGAGTGAAACAAACACAGGACCACATTAGCTCGGTAAAG
ACACAGTGAATGCACTTGCAATATTTTCTGCCTCCCTTTGATAATTTACAATGACCTATGAGTTGCACTCAAAGCCTCTGTCACCAGAAACAGCTTATAT
TGCTAAAATAGGTGCCTGTGTACCACCACCACACAGTGGCTAGAGTCATCTCATATTCAGTGCAGTGCCTTGGCGGTTTTCATGAGGGAGAGATTAGATC
TGAAAAACAGAGAGGCTTGTGAGAAGGTAGAATCCGGTACAGTCAAAGAACCAACCTTCCTGGATATATGTATGTSAATCTGTTTATCCTAGTCAAACGA
CCTGCTGGGCATAAAGACATTGGAGTATACAGGAAAGGGCTGCAGTCTAAATAGGGGCCCCCATCCCTGCCCCAAAGAGACGAGAGAGAGACAAAGCGTC
CCTGTCCTTGGAATTGTTCTCCTCTTACCCAGTATCAGAATGAGGTCCCATTCACACTAAGTATAAAGCCTGCGTTATTTACACTGTTAATTTTTTTAAT
TTGGGGGCTACAAAAAACATGTACATGTTGGGAAGAATAACAGTCCAGCATGTAATAATACCTTTCTTTTCCCATTTTTAAATCTGCAGGTGAAGTATAA
GGAAGCAATAGGACAAGGAACTCCAATCCCTGACCTGCCTGAAGTGAAACGTGTGAAGGAGACGCAGAAGCACATTAGCTCGGTAGTGGCCATACTCTCA
GCTTCCATTTGTGTGACTGGCCATCTCTCAATTGCTACCCTGGTGCTCTCTCATCTTTCTGCTTCCTATCAAGAGCTTCCATGCCTTGGGGATGTTGTGA
ATTCTCCCTTAGTCTTGATGGGGTCACTACAGGTTGCAAAAGTAGATAAGAAACCACTTTTCTCATAATCAAGGAGTAGAAGGGATTTGGCTTTCTTTTC
CTACCTGTCACTGACTTGAAGCTCATGGACTTGGCTTCTTAATTAATTATCATGCCATTCGTTTCCAAAGTAAAATGTTTTGATGGTAGTAATAAGGTTA
TTGGGATGATCTCAAGTAATTTAACTAAAAGCATATACATATAAACATATAAGTAGTATAACATACTTTGGTTTTGTGTATATATATAAAACATGTGTGT
GTGTATGTATGACACATCATATGAATGATAGGATTCCCAGTGTCCAAAAAGACCCTGGGTAGACATGTGAAGTCTCTTCTCCCCTCCCTTTCAAGGTTTC
TTCTCCTGTATTCTTTGCTCTCTCCATCTAGTAAATGCAGTGGTACAGGCTGCGATCTACCTACAATGGTATATTATACATTAAGCCTGTTCTGTCATGG
GAATTTCAGGCACCTGTGCAGTTTATTGCAGGGCACGTGTCCCCCACACCTGAAATATCAGGTTAGCACATTTCTCCTGACCTTTTGTCAAGCAAGCCCT
GGCTCTGCACCCACCCCTTTTCCCATCCATACGCAGATTCTAGGCAGGTGTTGGCTACTAGCAAAAGACTATGTGAAGTTTGGGAAATAGTTTATGGCCA
ATAAAAGGGGAGGACCTTGGTCTTGGGATTCCCCTGGTCAATGGAGGACTGAACTCTCATTTGATTTTCTTTAGGATACTTGATATTTCTCTTGCAGGTT
GTTCATATTATTTAGATCTCATTCCCTTCTCACTCTCTGCTTATACTCTGTGGTACAGATTTCCTTGTGGTACAAATTTCATTTAGAGTTTTGTGTCCTC
TAATAAGAGTTGAGAAAGCTAGCCTAGGCTCCTTTGTCACTTTGCATTACAACTTCTTGGTTTTCTTTAATTTTGCTTTGTGCTGTTGTCCGAGATCAAT
TCTGCTGCTTTGTTGGGTGAAGAGTAAAGAAATGCAACTTTGTTACCAAGAAGGTAGATGTTCAAAGGTTCCTAGAAGCTTCCTTGCAAAACAAAGCTAT
CACGCCTAGCTTGTCACTGATTTTAAGAATTAAAATCTGGGTACGTTGCTCCCCACGCCATGCACTAATACACCAGGGAATCCATCCATTTAAAAGAACT
CATTCAGTCCTTTAGGCTGAAAACTTAATGTTAAGAGTTAAGGAGGCTCAGAGAGTGGAGGTTCCTTAATGTTTTCATTAAAATGCATAGTCCTTAGATA
CTACTAYTAAAAAATATGGACTTCTCCCAATTCAGAAAACACTAGTTTACTTGATCCAGCAATTAGCAGTAAAAATTTCAGGTAAAGATGCTCTTCCTGA
AAAATAAACTGATTAAGCCATCTCACATCCAGGGACTAGGCTCCTACAGATTAGGAGCCAGCGAGGAACATTCATTAGAACATACAAAACAAAAAGAAAA
TTCTCAATAAGCCTGAAGGAATAGAGTATCCTATGATTGGAAAATTTTAAACCAAGCAATCTATTCATTAAGTACAAGTCTACTGCAGGCCTACTATATT
TGAGGCACCAAAGCTAGATGCAACAAAATGGTTAGATTTTTCTCATTGGTAARTTTATTTATTAATGCATTTTAGGCATGCACTAAGTGGTTACAGAAAA
TGCATAATTTAGTGCCCAGTTTTCAAAGTAGTAAAAATTTTTACTATTTTGGAAAAGACAACATAAATATTCATGGAATTTTCYCCCCTGTTCCTTGAAT
GTTATATTTGAGAGCTAGATTGTTTTTATGAGTTTCCCCCAAATAGCCCACATGTGGCTGCTATCTAAAGGATTTACGGTCATTTTACCTTTCTGGGTAT
TCTAATTATTTTCTACAGGTTATGTACAAAGAAAACTTGGGAACAGGCATTCCAACCACTGTGACTCCAGAGATTGAGAGAGTCAAACGCAATCAAGAGA
ACTTTAGCTCGGTATTTACAAATATATCATATAAGAAACTATTTCCCATAAAAAATTTACCACAATAACCCATCTTTTTTAAAGAAAGTAACATCTTAAC
AGCAATTCTGTGTGTGTCTGTGTGTGTTGTGTATTATTACCTGACCAAAATTATGTTAATACAAAATGACTCACATTTCCGATTATACTTGAACATTTTC
AGTGACTTGACTAGATTTGAAATACTATAAGTAGAATTAACAAGATTCCTCAGCGTTATATAACTTAATGCTTTCCATTGTACTTTTTCATTTCCAGAAT
TAGCATTGTAGAGTTCATCATTAAAACTGTGAAAAAAGTAAAAACATTATCCTTACTAAATATTACTTACTAAAAAACTGCCTCCTCACATATAACCCCT
TCCCCCATTTCCTTCCTTCCTTACTCTCTRTGCCTGTTTTAAATGTCCTCTGGGTACTTTCTTGTATCTCACAGGTTTTGTACAAAGAAAATTTGGGGAA
AGGAATCCCAACACCTATCACTCCAGAGATGGAGAGAGTCAAACGCAATCAAGAGAACTTTAGCTCGGTATTTCTTAGGGGGCCAAAAAAAAAAAAATCC
CTTAATTTTATTTAAAATAATAACACCTTACAAATGTAAAATTACTAAATTCATATAATGAAAATAATGATACCAAATATTACCTCAGTTTTCAACCCAA
ATCTAATTTAGTATTTAGTTCTGGTGTGAAATTTTAACTGTGTTTTCTCTAAAACATAGATATTTATCACTTTCTTTAAAAACCTGTAATACTCTGTTTT
CTTCCTCCATTCCTCCTTTAATAACAGTAGGTGTTTCTAACTGGTGTAACACAGTCAAAAGTAAAATCTAACACCCTTTCAAAAGGACAATGTTAATTAG
AATTTTATTTGTATTTATTGTGGCTGTTTAATGTATTCTTTRTGTTTGCAGCTTTTAAGTTTTTTTTTTTTTATGTTTAGATGTTTATTTATTTTTCCAT
AAGTTTGGGAGGTACAGGTGGTATTTGGTTACTAAGTTCTTTAGTGGTGACTTGTGAGATTTTGGTGCACCCATCACCCAAGCAGTATACACTGCACCAT
ATTTGTAGTGTTTTATTCCCTCGCCTCACTYCCACTCTTTCCTGCAAGTCCCCAAAGTTCACTGTATCATTCTTATGCCTTTGCATCCTCATAGCTTAGT
TCCCACATATCAGTGAGAACATACAATGTTTGGTTTTCCATTCCTGAGTTACTTCACTTACAATACTAGTCTCCAATCTCATTAGAGGTCACTGGTTTGC
AGCTTTTCTTAAAAGAATGTCATTCTTAAACATTTTCATTCAAAGACAACACAGCAATTCACAGTAAATATAATTTACTTGTCTTGGCTATTTTTTGTAT
GCTATGTAAGATATAAATTAATTTTTCCTTTGGAAAACTTTCAGTATCATTGAAAGCTAGTATTATTTAGCTTTCAACATTTATTCTTTATTTTGTTCCC
CCAAACCTACCTGTCTCTCTCTCTCCTCTTTCTTTGGTTCCCTAATTTAATGTTACCAACAACTCATGGATATTAATTTCAATTAGTTTGAATGCTATTT
GATACTCTGGTCTTTGAGAGAAGGCCTACATAAGTCAAGCCACTCCTGCCGGCAGCCTGGCAGCTGTGTTTTACTGATGTCTTTTAGAGACAGACATCCT
GTGTGTGACTAAATGTCCAAAGGGGATCTATAGTTAACTCTATTTTTAAAAGTTACTGAGGTACTTCATCATAAAAACAACAATAAAAATACTTCTTTTA
GGCTGTTTTTTTAGGTTAAGTCTACCTAAAAAATGATGGGTCCAGGTTGATTTGTTTGTTGGTTTTGTGCACACAGATATTGTACAAAGAGAACTTGAGC
AAGGGGACTCCCCTACCTGTCACTCCTGAGATGGAGCGAGTCAAACTCAATCAAGAAAACTTTAGCTCGGTATTTGGGAGAAAGCTCTTTAACTCCATAT
TAAAAAATAATAATTTCTACAAAACAGAACATCTCACTGTTCATCCCTTTATAATAATCAATTTAACAAAATCTTTTTTTAATCACATCAACTGAATCCT
TCTGTTTTCCAGATCTCCTACTCACCATTTGATTCTAACAAACATTTTATACTTTCTATAATAGTCCCTTAAAACTTTTTCTTTCCTTCTCTTTTCATCT
TTATGTTGTTGGGACTGTTGAAGTTAATTGATTTCCAGAAAAGAAAAACCAAACACTAAAGCTCTTATTTACTTGGAACTCTTTTTATCTGATGTTTCTG
GGTTAGAGATGCAAGAAAAGATACTGGACTTGAAGCCACATATAGAAATGGTGGCTCTTCCTTAGGAACAGGGATCATCTTAACATAGACCCTATTCAGA
TAAACAATAGCACCAAGAAAGAAAATTGCTCCATATTGAAACCAAAAGAAATCTTATTTGGGGCCAGGCGTGGTGGCTCACACCTGTCAYCTCAGCACTT
TGGGAGGTCGAGGCAGGCAGATCACTTGAGCCCAGGAGGTCGAGACCAGCCTAGCCAACATGGTGAAATTCCATCTCTGCTAAAAATAGAAAAAATTAGC
CAAGCGTGGTGGCACATGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGTGGGAGGTTCATCTGAACCCTAGGAAGTCAAGGCTGCAGTGAGCCGTGATT
GTGCCACTGTACTCCAGCCTAGGCAACAGGAGTGAGACCCTGTTTCAAAAAAAAAAAAAAAAAAAAGGAAGAAAGAAATCTTATTTTGATACTTATTCAA
AACAAGCCATTTCATGAATAGAAATCCAGGCCTTCTGATTTTTTTTTAATATACAAATCAGATCATGAGCTTATATTTAATGTTATCTTTTATTAATATT
GTTGCTGAAAAACTCTAACACACAAATTATTTGTGTATTATATACAACTCTGAAGCTTCTATATCAAGACCTTAGGTTCACTTATACCTGTGATGGAGAA
TCAAATGTCATTAGGAAAATTTAGATGGATTTTTTTCTGGGGAGTGGGAATTAATCCAAAATATTTTTAATTGTCAGTTTAAATATATTCTAAAAGTTTG
ATTCTTTGACATAATTAGATCAGTAACTTTCTTTGGTCCCACTGTCTTTTTGTTCTGTTTTGTTTTTTAATTACTATTCACTAACAATCCTTCAATTTTG
TTAAATTTTCAATGTTAATATGTCTTTTGGAATGTTATACTCATTGTTTTCCCTGTGGGTTGTAATTATTATTCCTTTTATTGAAAGGCTTGCAACGATT
TTCAAAATTATTTTCTAATTATTTTCTTGTATACTACAGTAAGTATATTATTATTTGTATCTATTTGAAACCTTAATGATCCTGGACTTTTTTTAAAGTA
ACCATTTGTGTTAATTTTTACACAGATTGCATTTAGGCAAAATTGCCCAGTGGTGCATAAGCCTATTAGATACTGTGGAAAATAGACAATGCCACATATT
GAACCTCTATACYTGACCATCTCTACAACAACTTGAACTTAATGACAAGGACCAAATTGCCATATTGCATAGATTTGGCCTGTTAAATATTTGTTAGACC
GTAAGACAAACGCTTTTTGTAGAGAAAATAAATACTTGCTAATCTAACTTAAGCAATTTTTCTATTGTACACTGAGTATTTTAGTGGTCTTAGGAAATTA
TTTGTATTTTTTTCCTTAATTCCTGGCACAGGAAATAAATATATTCAAGTTACAATAAAAAGATGATGAATATCAAATACACTGATATTTCACTAAGGAA
ATACAAAACATGTTCTCACCCAGATCTGTGCCTGAACAGAGAGGTTGACTTGTTGAATCTGTCTYTTCTGTCTGACGTCTGTAGTTTTATACCAGGTTCC
CCACAAGGTAGATGAAAGGGCTGTTTTGACTGCTCTTGTTTTTTCTGGATGCTTTCTTGTGTCATACAGGTGTTGTATAAAGAAAACGTTGGAAAAGGGA
TTCCAATCCCCATCACTCCAGAGATGGAGAGAGTCAAACACAATCAAGAAAACTTTAGTTCGGTATTTAAAAATAAAAAATCCCTTTAATTATTTAAAAA
AATGTTTAAAAAGATTAATGGCTAGATTTTAAAAATCTAATCAACTCATCCCAATAAAAAATTTGACCTGTCTTTTTCCCAACTTAATGCTGCCATTTCC
TATGAATCAGTTTTCCCCATTTTGGTAAAACATTAATATAATCATTTAACTTAATAAAAAAAGTGTTCAGTATTATATTCCTGCTTTTACAAATGTAACA
TTCTCAGTGTCTAAGCATCCACWTTTATACTGCTTTGGCAAATTTGATCTGAACCTAAAGCTTAAACAAATGTATTTTGCAAAGATCCGACTATTATCCT
CGTTTCTTATTCTAACCTTTTCTATCTCTACTGTTATTTGTACAGATATTTTGAAGTTTCTTTTTTTTAGCACCTTATCATTGCTCTCCATTTGCCTTAA
ACATCGTTGTTCTCAATGTGTTCACCCAAACTAAAAATTAAATACTCTGACTTCTTTTGAAAGTGAACAAAAGAAGAGTTGTGTGTATGTGTCTCCATAT
ACACAATGTTTGTAAAACCCAAATATCCCTATGTGATTAACAGCATTTTCAAATCAAAAGTAACTTCCTTGGTTTCTTGTCTGTTTCTACTTTTTTCCCT
CCTTGTAACAAGGTGGGAAAAGACTAATTGCTCTTTCACGGTTGCTCAGTGCTGCAGAGATTAGTTCAAACAATGAAAATAACAACCTTTCTTTTCCTAT
TTCTTAGTTTTTGCTGCTCTTTCCTGCATTCCTTTGCTTTTGAAGATGTCTTTAGGCTCAAACAAACAGGTTGAGTCTAAAAGCTTCTGGTATTTCTCTT
CCTCTAACTTACTCTCTTCCTCCCTTCCCACTCCCAACTGCTCCAAAGCAGGGGGAAAATGACTGATTGATTGCTTTTTTTGTTCTGGATGCTTTCTCAT
CATACAGGTGCTATACAAAGAAAACCTGGGGACAGGAATTCCAATCCCCATCACTCCTGAGATGCAGAGAGTCAAACACAATCAAGAAAACCTTAGCTCG
GTATTTTGGAAAGAAAGGGGAAAAAATGCCACTTAACTTCAGAATTAAACTGATCTTTACATTTATTTATTTTTGTTTGAAGCCCATTTCCCTTCTTTGC
TTCTAATACATCTTATATTACAAAAGGATATACTTTCCCATTTCTATAATACAGTTAATGTCAATTTTTTACTTCATCTGATATTTACAAACAAACATGT
TTTAAAAATAATGAATGTTTCCATTTGTGTGGATAACAACACCGAGTTCTAACAGTCTCAAATCCTCATGTGATTGTTTAGGAGGCACCGTACTCACAAA
AATGAAAAAAAATAACATGGATAACTCTGACAGCCCTTCCTCAGCAGCTGAAGTCCCTGCTTCTCTAGAGGGTGCAGATTCCCTATCCCAACAACAGCTT
CCACTAAAGTAGTCGGTGGCATTTTGTCAGCATATAACTTCTGGCTCCTTGGATGACTGTGTTTTTTCCTCATCCTTAAAAAGTCCCAAGAAATGAAATG
TTACTCATGGTTGTTTTTCTGGATGCTTTCTYATCGCACAGGTGTTATACAAAGAAAACATGGGCAAGGGAACCCCTTTACCTGTCACTCCCGAGATGGA
AAGAGTCAAACACAATCAAGAAAATATTAGCTCGGTACTTTGGCAAGAAAAGAAAAAAACTACTTATTTAATGATTTTGAAAACTTTCATGATTTAAAAT
AATACGTATTAATCCTACTTTTTAAAGACAACTTAAATTTTGTGAATTTCTTTAGCAAATTTATCCTTTTTTCCTTTGGGCTACTTCTAGCCTAACACCA
TTCCCATTTCTATAATACAGTTAATTTCAATTTTTTATTTCATCTGGTATTTTCAATCTTTTTTTTAAAATAATGAGTTTTTCAGTTTGTGTGGATAACA
CCACTGAGTTCTAACTGTCTCAAATCCTCATATAATTGTTTAGGAGGCATGGTACTCACAAAAAAGGAAAAAAAAAAATAACATGGATAACTCTGACAGC
CTTTCCCCAGCAGCTGAGGTCCCTGCTTCTCTAGAGGGTGCAGATTCCCCATCCCAACAACTTCCACTAAAGTAAAGTAGTCGGTGGCATTTTGTCAGCA
TATAACTTCTGGCTCCTTGGACAACTGTGTTTTGTCTTAACAAGGAAGCTGACCTTACCCTTAAAACCTTTCAACAAATGAAATGTTACTCATGGTTGTT
TTTCTGGTTGCTTTCTTATCGCACAGGTGTTATACAAAGAAAACATGGGCAAGGGAACCCCTCTACCTGTCACTCCTGAGATGGAGAGAGTCAAACACAA
TCAAGAAAATATTAGCTCGGTACTTGGGCAAGAAAAGAAAAAAACTACTTACTGATTTTAAAAACTATTTCATGATTTMAAATAATACATATTAATCCTA
TTTTCTAAAGACAAATTTTGTGAACTTCTTTCTTTAGCAAATTTATCCTTTTTTCCTTTGGGCTACTTCTAGCCTAACACCATTTCCATAATACAGTTAA
TTTTGATTTTTTATTTCATCTGATATTTTCAATCATTTTTTAAAAATGAGTTTTTCCGTTTGTGTGGATAACAACACTGAGTTCTAACAGTCTCAAATCC
TCATGTGATTGTTTAGGAGGCACCGTACTCACAAAAATGAAAAAAAATAACATGGATAACTCTGACAGCCTTTCCCCAGCAGCTGAGGTCCCTGCTTCTC
TAGAGGGTGCAGATTCCCCATCCCAACAACAGCTTCCACTAAAGTAGCTGGTGGCATTTTGTCAGCATATAACTTCTGGCTCCTTGGACGACTGTGTTTT
CTTAACAAGGAAGTTGACCTTACCCTTAAAACCTCTCAACAAATGAAATGTTACTCATGGTTGTTTTTCTGGATGCTTTCTCATCGCACAGGTGTTATAC
AAAGAAAACATGGGCAAGGGAACTCCTTTASCTGTCACTCCCGAGATGGAGCGAGTCAAACACAATCAAGAAAATATTAGCTCGGTACTTGGCGAGAAAA
GAAAAAAACTACTTACTGATTTTAAAAACTACTTTTATGATTTAAAATAATACATATTAATCCTACTTTTTAAAGACAACTTAAATTTTGTGAAATTTCT
TTAGCAAATTTACCCYTTTTTCCTTTGGGCTAYTTCTAGCCTAACCCCATAATAACAAGGTTGCTTTAATCCATAAAGTTCTAMTATCAAGAAGTAACAG
ATTTTCCTATAAAACATCCTTTTGCTTCTCTCTCTCCAAACTTACTCTCTATCCACTACCCCCAAGGTCTCTTTGTTTTAGATATGCTTGAAATTTAGGA
CGGGTACGTGTGGGGTGGTGGAGTAGGTCCAATGCGGCTCTTTCTTAAATATGATTTTGTTGTGTTTTTGTGTCAATGACTTCAGGTTCTAATTTACCCT
GTCAGATTTGGACAAAGAGACCTTGGGAAAAATAATCCCTGATCCCCTCCTTCAAGAATAATGATATAAATTATGATCCAATAGTAGTTTTGGCAATTAT
TGATTATCAATTTACTTACTTAAAAATGAAAGTGTCACCAGAATGGCTTTTTGTTTTACCAGTTTTCGTTTTTTGTTTGTTGTTGTTGTTGTTCTTTAGT
TTTACTGTAGTCTTTAACTGCAAACTTTAGTAAACCATTTCCCGTAAGCTTGTGCTCTGTGACATTATATATGGTTGTAAATTACCTAGGGATTGAGGTT
TGCAGGGGGACTTCAGCTTTCAGTAGCAAACAACCTTGTGGTGTCCACATTTCCACTATCTGTAGGTTTCTCCAGTACTTGAGTACAGTGCTTCTAAAAC
ATTAGCACGCATCAGAATAACGTGCAGGGTTTGTGAAGCCAGATTGCTGGGTCCTGCTCTAGTTTCTCATTCTGTAGGTCTGTTATAGAGGGGGCCAGAG
AATTTGCATTTTTAACAAGTTCTCATTACTGACCTTGCTGTCCAAGGACCCCACGTTGAGAATCACTATTTCAACASAATTCTTCCTCTTCAATGTCATT
TCCTAAATCTCCCACGTTTCCAAGAATGACACTGAGGGGAGATACYGAGGTTGAGGATTTATCATGATGTGTTACTATGTTTCTCATTTTCCACTGATTC
GCCATGATAGTGATATAAGAGCCAAAAACCTTATTCCTTAATGATAAGCTGAATGTTGTATGAAACTAAAGCAAGAGGCAGAGCATAGAGGATAGCAAAG
AAAAAGAGGGTAGGGGAAACCCTTTGCTTTGTCTGAGGGCCTACAGTTTTACTGATATGTCTATGAGAGTTTAAGTGCTGCAAAACAGTCCAGTAAAAAA
ACAGCTGCTGTGGGCCAGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACAAGGTCAGCAGTTCAAGACCAGCA
AGACCAACATAGTGAAACCCCGTCTCTACTAAAAAATACAAAAATTAGCCGGGCATGGTGGTGCACGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCA
GAAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCAGGGATCGTGCCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCTCTGTCTCAAAA
ACAAAACAAAACAAAACAAAAAAAAACAAACAGCTGATGTATTAGGARCAGCCTCAACCTTCTCAGTGTGATTGAAGCTCATGCCTGTAACTCCTGTTTG
GATCATCTCTCAGGGGCTTGACATTGAGAGACTAGCGGTAAAATGATGGTGGTTTCTCATCCTTTTGAGGAACACCACAGGTCTCTCTTGCAGTCCTCAA
GGGTTTCAGGGCAGGTGCCTATCCTGGTTGTGTCTTGCTGTAACTACACTTAACTTCCTTAGGAAACATACTACTTTCCATCTAACCTAATTGCCCAAAT
GGTTTGGGGCCCTAAAGATAATCAAAAGTTATCTGTACCATTTCCTTTTTTGGTAACTGTTAACTCTTTTTCTTTTTGGCTTTTTGGACCCATTGGATTC
CCATAGGTTTTGTACAAAGAAAATGTGGGGAAAGCCACCGCAACCCCTGTCACTCCTGAGATGCAGAGAGTCAAACGCAATCAAGAAAACATTAGCTCGG
TATTGTCTTGAGAAACAAAAGTGCTTTTAATTTTGCAAAATAACTCTTGCAGTTTGGCCTGCTCCTAACCCTGTCCCAGGTTAAAAACAAACAAAATGCC
AGTTACATTTGCATCTGCTCTAAATATCACACTACATTTACTGTAGCCATTAACTATTTTTAAGCTTTCTTCTTGAGAGGTGTTCTCACTAATAGTAATA
GATTAAACATARCATTTCCCCCCAACTTGCAATATAATTAATAGTGATTATTACCTCGTAGTGACTTTCGGGCATGACTTTGTATCTCACAGGTGTTATA
CAAAGAGAACCTGGGGAAAGCAACCCCCACACCCTTTACTCCTGAGATGGAAAGAGTGAAACGCAATCAAGAAAACTTTAGCTCGGTATTTTAGAAAGGA
AAAATAAATCCTTAAAATCTTAACAGCCCTGGCAAACATGGTTGTACCACTAATTTATCTTACAGTTTTTCCAAAACTTTTGTGTATCTTTAAAAATTCT
TCCTTGTCCACTTAAAAACAACAAACCAACCCCACGAGGTCACAGTGATTTTACTTCTTTCTTAAACTTTTGCTTCCTACCGTAACATTTTAATAGCTTT
ACCTTCAGTGTGATATAACTGAGCCATAACATGAGCCATAACACCAGCTAAGTGATGATTTTCAGACCTGGTTTTCTGCTGTCTGATGCCTAGATGCTCT
TTTGGCTTCCCTAGGTATTGTACAAAGAGAACATGAGAAAAGCAACTCCGACACCTGTTACTCCAGAGATGGAGAGAGCTAAGCGCAACCAAGAAAACAT
TAGCTCGGTATTTTCTAGGACTAAAAAGAAATAGTGCAACAACTTGGAAAATAACATTTTAACATCATAAAAACACGCCTTTCTCATTCAACTGAAAAAC
ACACTAAAATTTTAAAAGAGAAAAATGCAACATCTTGGAAAGTAACGTTTTAACACCATAAAAATTTGCACTTATTCAACTGAAAATTTACACTAAAATA
GACATTAACTGTGCTTTTACATTCCAAACCATCATACTAAACATAACAAGTTAATTGCCAATGTTTTCCTTCCCCTATACTTTGAGGTAGTTCTACGTAA
CCAACTATAACAAATTTACTTCCTAACATCCTCAATCTTCTGCTCTCCTTTAGTTTTAAGATACTTTATGACATGGGTAATACTCTGAAATGGATGCCTT
CTTTGGATATATTTTGGGGTTTTAGTGTCTGGAGGACTTTGATTTCTATATTAGCATATTGGTTTATGAAGTCTGGACAYAACCTAAGGAAAATAATCAC
TTGTTTTAAAGGACAGTTCTTTCAAATTCCCTACAATGTCAGATTTAGAGCCAAATACCATCGAATATGTTGATGCTGTAATTCCTAGCAAATTTCAAGA
GGTCACTCTCTTTTCAAAATTATACCGTGCCCCTTCTTTGAAAATGAGTTTCATTTTCGAAGTCAAAACAAGTCCTTTCTCTTCCACTGGCGGGCCCTTC
TGGTCCCCAGATTAGCCTGTTCCAAAATTGGTCATGTGTCTCACTGGGCCCCTTCAGTTGACCCAAGCGTCCCTCACCAGCTCCTATCCATCTCTATCTG
CTGGAAAGGCTTTGAGGTTTCAGATTTAGGACAGCACCACTCATTCAYGGTCTCTCCTGCATCAGGTTCTTTATTCTGATAGTTTCCGGAAACAAATACA
AGGCAAAGCTGCCTATGTATTGGATACCCCCGAGATGAGACGGGTGAGGGAGACCCAACGGCACATCTCAACGGTGAGTCAGGAATTCTTTAGGATTGGC
TGGCTGCCTGTCAGAATGTGTAAAAARGGATWTAGTCACACCATCATATTTTCATAAAGCAAATTCATGACATTTCAGGTGAAATATCATGAAGACTTTG
AGAAACACAAGGGTTGCTTCACACCAGTGGTGACAGATCCTATCACTGAACGAGTAAAGAAGAACATGCAGGACTTCAGTGACATTAACTACCGAGGTAT
TCAGAGGAAAGTGGTAGAAATGGAACAAAAACGGAATGACCAAGATCAGGAGACTATTACAGGTAACTGAGCCTGGGTTGGGGGAGGGGATTAACTTTAA
GTGAGGGGGTAGAAGAACAAAAGTAGCATTACCTACATCAAGTCAAAACATAAAGGACTTCAATCTGTTTTTCTAGAGGTGCAAGAAAGCTCCTATTATC
TCATAGTTTACAAAGCTGATTTCTACCTTATCTTTGTTCTCCTCTGAGGAAAAGACATGACCCAGAACCTAAGCTGGAATAAGTGTGATTCAATCCTTTG
GTGGTTGTTAAAATTCATGCCTTGGTTTTCAAGTTATTGGAAAACTCCAAGAACACTTGTTCTGATCACTGGTTTCCCTTTCAGGTTYACGTGTCTGGCG
TACTAATCCTGGTTCGGTTTTTGACTATGATCCAGCAGAAGACAACATCCAGTCCCGAAGCTKACACATGATTAATGGTGTGTTAGCTRAAAAAGGCTTA
CAACATAAACATCACCATTTAGTATGCTAGAGTCAAKGACTTTCATTTGGGCTCTGAAGTTCCTTCCCTCCAGAGTTTTCCATTTTCTGAGCTGCCCATT
TGGCATAAAAATACCTTGTTAACTAGTGAGCAAAACTTACTTTCTAGATAAGTTCAAGTTAGAAAAAATTTTGTTTCACTGCCTCAGTGCATGTCTCCCA
TTATTATCATTTCTAATTTTTCTTCCAAAGAAAAAACAGTAGTAATTCTATTGGAGAAATAATGAAAATACATAAAATACATAGGCAAAGGGAAGAGAAA
GGATTTGACCTGTAGGAACTTCCTGAGCTCTATTGCATCAAGGAAGTTTATTCATTACACAAAGCAGGCTGCACAACTTCATTCCTTCTTTTCATGTTAA
AAAGCAGAATACTAGCCTGGAAAAGAGAATGAGACCCCTTTTCTACAAACAGTAAAAAAAAATTAGCCGCGAGTGGTGTTGTACACCTGTAGTACCAGCT
GTTCAGGGGGCTGAAGTGGGAGGATAGCTTGAGCCTAGAAAGTTGAAGCTGCAGTGAGCCGTGATTGTACCACYGCCCTTCAGCCTGAGCAACAGAGACC
CCATCTCAAAAAAAAAAAAAAAGGATATTATGTAGAGACAGTCCTCAAAGGATTTATACTCCAGTTTTCTGATCAAGACACAGAAGTAAATCCATGGTTG
CATTCTGACATGTGCAATTTTAAAGGTCTGCCCATGGTATTTTGGGAACACAGAGAAAGACTCTAAATTGATTTGCAGTTAGGGAGGACTTTCTGGAGAA
GTTAAAGATGGAGTCTGAATGTGAATATTACTATTTATTCATTTTGGTGAGCCAGGAAAATTGGCAGGGTGGAGGGGAGATGTTACAAATAGACTCTTGG
ATTTGAAACCTGGCTGTACAACTTAACTGTTCCATGACCTTTGGTCATGTACGTAAGCTCTCATCTGTAAAAATAAGAAAGACAAACCTACATCAGAATA
ACTGTGAGGGTTTGACCCATGGGAAAGTACTTAAAACCATGCTTGGCAAAGATAACAATAACTGAGATTCAATCACTGTTAGGCATTACTACCATAGAAA
TTTCATGTTTGCTACATCTCCCCCAACTGCATCTCTCCCAGTCCAAGCTCAGCGCCGGAGCCGGGAGCAGTCACGATCTGCCAGTGCACTAAGCRTCAGT
GGGGGTGAGGAGAAGTCTGAGCATTCAGAAGCACCAGACCACCACCTTTCGACTTACAGCGACGGGGGTGTCTTTGCAGTCTCAACAGGTACAAGTGCCT
GGCGCTGATTTTGGCAGTCCCACCCGGCCAGCTCATTGATGGTTACTATAAGAGATGCTTTGAGTACAAAAACAAATTTAAAAATTTTTCATCCTTTCCT
TTAATGAGAAAAGACTAGAATTGTGGAGGGCTGCATGAAGTTAGATGTTTCATTTTCTTTGATTTCTCTTTTTGGAAATCATTCTAAGTTGGGGGAAAAA
GAYATCACTCAGCTGCTAAACACAGATTAAAGGATACCTAGCCATTTTTCTTCTTATAAAGAATTTGCCCCCTTTTTTTCAGCTTACAAACATGCAAAAA
CCACAGAGCTCCCACAACAACGATCATCTTCAGTTGCTACCCAACAGACAACGGTATCTTCCATCCCATCTCATCCATCKACTGCTGGAGTAAGTGAATA
ACAACTCACTTAAATAAATTATTCTTAATTTTTGATATGTGCAAACATGATTATAAGTATTAGGTATTACGGTTTTTTTTAACCAAACCTTCTATTTTAT
ATAATGCTCTTTTATTACATGTTTCATATTAATGATATCAGAAAACTTTCATTATCTAACTCAAATTAATGAAAAGCATTATTCAATAACTTAAAAAAAA
AACCCAAACCTAGAGCAAAGCATCAGTTTTGGCTCATTGGTCTCACCTACTATCTTAAACATTTGCTGGGCATAGTGAATCATGCCTATAATGCCAGCAC
TTTGGGACGCTGATGCAGGAGGATTGCTTGAGCTCAGGAGTTTGAGACCAGCCTAKGCAACATAGTGAGACTTCATCTCTACTAAAAACCAAAAAATTAG
CCAGGTGTGGTGGTGCATCTATAGCCCCAGCTACTGAGGAAGTTGAGGTGGGAGGATTGCTTGAGCCTGGAAATTTGAGGTTGCAGTGAGCCATAACTGC
ACCACTGTACTCCAGCCTGGATGACAGAGGGAGACCCTGTCTCAAAAATCAAGAATGTATAGATGTATGCAATGTGCCCACATATATACATGCCTTATCT
TASATCTCCCCTATTAATATATATAGAAATGGTAAGCCAAATCATCTTCACAGTTCACCAGACTACTTCACAACTCTTAGTTTAAAACCCTGGATCTCAT
TCATAATATCCTCAAAAGCCTAATACTTTAGGATTGATATGAACAATCTTTGTATGAAGACAACTGTCTTTATTAAATGACATACAAGAAGGTCTAAATA
AGTGTTAGACCTATTATATTTAAGGAAGGGAATACTGTAAAGTTCTAATTTTCCCTGAAATAAACCAATGCATTCAATTCCAATATAAATCCCAATAGCA
TTTAAAGAAACTGTGCTAACCCTAAAATTTGAAAAAGCTGCAAGGATAATCAAGTAAAATTTGAAAATGATAATACTTAAGGACTCAACTAAAAAAGAAC
AAAACATACTATAAAGCTATTAAAATTAAATATGGATTTAGCATGGCAATAGATACAAAATATCGATTTAGCATGGCAATAGATACAAAAATAGATGAAG
TCCAGAAACAGACCCTAAAAGAATTATAAATCAGCAAGAAAGGGGTAAGTTATTTAATTATATGATCTGAGGTAACCAGTTATCTATTTAGTAAAATAAT
AAAATTAGATACCCATCTCAAAGCATAAACTGTAGCTGTACCAAAGATTTAGATGTAAAATACAAAATTGTAGAAGTACAAAGAATAATACAGAATACTT
TTTTTTTATTTTTAGAGACAGGGTCTCACTCTATCACCCAGGCTGCAGTGTGGTGGCATGATCACAGCTCGCTGCAGTCTCGACTTCATGGACTCAAGCA
ATCCTCCAGCCTCAGCCACCAGAATAGCTAGGACTACAGGTGTATATGCCATTCTAGGCTAATTTTTTTTTTTTTTTTTTTGGTAGAGGCTCACTATGTT
GCCCAGGCTGGTCTCAAACCCCTAGGCTCAAGCCCTCTGCCTGCTTTGGCCTCCTAAAATGCTGGGATTACAGGCATCAGCCACTCAGCCCGGCCACAAT
TATTTTAAAATATAAAGGGGAAAGCCTTCCCAGGCAAATTCCAAAATCTAGAAGTATAAAAGTCTGGCCAATTTGATCATAAAATTTTAAATGTTTCTAT
AACAAATAAATACAAACATGTCAGACTGGGAGAAAACATTTACAGCATACATAACAAAAATATTAATATTGAAAAAGAATAAAGAACTCTAAAATTCACT
GATAAATTATTCCCCTCGCCCTCAAAATAGGACTTGGAAGACTAAGAATAGATAATTTATGGCAAAATAAATATAAATGGCCAACAGAAAAAGGTGTTCA
CCATGACTAGTAACCAGGAATATAAAAATAAAAGTGCTAGTAACCAAGAATATAAAAATAAGATAAAGTACATAATACAAAGTATCAAATTGAATCAAAT
ATCATATTGTATCATATTCGAACATTTTAACAGAAAACTTAAAAAATTAGGTCAGGAATAGTGGCTCACACCTGTAATCCCAGCACTTTAGGAGGTGGGA
GGACTGCTTGAGTCCAGGAGTTTAAGACCAGCCTATGCAACAAGGCAAAACCCCATCTCTATTTGTAAAATTATTTTATACATATATATATATGTGTGTA
TGTATAAAATAAGTTTAAACACACATGCCATTTGACCTAAAACTTTTACCTTCAAAAGCTTTTTCTTCAGAAATTATTTGCCCAAAGATAAACGGTAGGA
TGCTCATTATAGTGTAAGAAAAAATGGTGACAACTAAATGTCCAGAAAAATGAAAATGGCTGAATAATTCGTGATATTATTAAAATGTGAAATTCTCTGC
AGCAGTCAAAAAGGGTAAGATACAGCTATATTTACATGGAAAGACTTCCAAGCTATATTAAATGGAAAGAACAAATCACAGTATTATTTATAGTAATGTT
CCACTTATGCAAAGGGGAAAGGAAATCTATTTGTGAATTTGAATATATGCATGTGATTTTGAATATATGCATGTGAATTTCAAAATGCAAGAAAAAACCA
TATAGGTTACATCCAAAACTACTAACCAGTGGCTGCTCCTAGGAAGAAACTTTTGATATTATCACTTATTATATACCTCCAAATTATTACAATTTTAACA
CTGTGGAGGATAGCTTTGAGAAACTTTTACTACTCGTATGCTCCCAAATTCCCAGAGTGAAAGATGACATGCAATAGTGCTACGGGTTTTCAAATTCTTC
TCTAAAATACAAGACTGACCTCTTCGAAAGGTAGAAAAAGGCCATAAATAAAATTAGCAGCATATTCTGTCTTTTCTGTCAGTACACACACACGCACATG
CGCACACACACACAATTTCATGCATACATAACTTAGTATGAAGTTCATAAAGTGTACAATGATTTTAAGCTTTTTTTCCAACCATCTCCATAATCTAATT
TTAGAATACTTTCATCACCATAAAAAAAACTGTATTCAAAACTCTTCTGGTGAATTAAAACAAACAAACAAATGCTGGTGCCCATTGGCATTCATTCTCC
ATCCCCTTTCTGCTCCATCCAATCCTAGGTATCCATTTCCTGTCACTATATTATTTGGCTACCTAAGACATTTCATATAAATAAAACCATACAATATACT
GACCTTGGTGCATGGCGTCCTTTACTTTTGAAGTTCATCCATGTTGTATCATGTGTCAGTACTTCATTCTTGTTACTACCCCATTCTTGTTACTACCCAA
TAATAGATCTGTATGGATATACCAGATCTTGCTTATGCATTCATCAGTTGGTGGGCATTTAAGTTGTTTCCACTTTTTGGCTATTATGAGTAATGCTGCT
ACGGACATGGATGTACAAATTATTGTGCAGACCTATGTCTTCATTCTTCTTGGGTATACACCTAGGAGTGGAATTTGCTGGGCCATAGGGTAATGCTGTA
TTTAACATGTGATAACTGCCAAATTCTTTTCCAAGGTGGCTGCACTCTTTTCCACTTCCACCAGTGGTTTATGAAGGACCCAATTTCTCCACATCCTTTC
TAATGTCTGTTATTGTCTGTCTTTTTTATCATCACCATTCTGGCATGTGTGAAGGGGTATCTCATTGTGGTTTTAATAATTTGCATTTTCCAGATGACTA
ATTTTGAGCATCCTTTYGTGTGCTTTTTGGCTATTTGTCTATCTTTTTTGGAGAAATGTCTATTCATATCCTTTGCCTCTTTTGGTGGGGGAAGGCATTR
AGTTGTAGGAGTTCGTCATATGTTCTGGATATTAATTGCCTATCAGATACATGACTTGCAAGTATTTCCTATTTTGTGGGTTCCTTTTACTTTGTTGATG
CTTGCACATTCTCTTTTGTTCAAYTTAAGTTTGTGGAGTCAGTCATGAGAGATCTTACAAATAGATGTGTGTTAACTGTTGCAAATCCAACAYATAATAT
TTCCCCTTTTCCATCCCCACGAATAGAAAATCTTCCGTGCCATGTATGACTATATGGCTGCTGATGCAGATGAGGTGTCCTTCAAGGATGGAGATGCCAT
CATAAATGTTCAAGCAATTGATGAAGGCTGGATGTATGGCACTGTGCAGAGGACTGGCAGGACYGGAATGCTCCCAGCCAACTACGTTGAAGCTATTTAG
GCATTTCAAAGCATCACACTTGTCTGCAGGACTTACAGATCCTGCAGTCAATGTTTCGGTTTAGACTCTCCACTGTTACCTAAGTTCTCAAGCTGCCTAT
GGTTTTTCTGTGTCAATGTGATTTATGGTAGTACCATCCTTTCTCCTTTGGGTTTTAAAATAAGTTGCAGAACAGACACTTTAAAAGCTTCTGCAATATT
ATTTCTGTGCCYAGAGTCTTTCTCCATTATAAACATGTTTTAACATTATTTCTTTTCTAAAACAGGGATTTTGAATATGCCAAACACATTAAAGGAAAAA
TAGCAGAGATGTTCACCTTTTCCTTGCTGATTGCTAATGCTTATTATTTCTAATTCAGTTCTGAAGTTATAAACTTATAATCAATACAAACCAGCAACTA
ATAAAACCTCTAATTCTGCAACTCTGTGGATGGAATGAGCATTATTTATGTTTAATGGTTTTAATATCTACCTATAAAAATTCAATGAAGCAAATTGTAC
ATAAAATTACTAAAAAATTATCTAAATTTAAAAAATGTACTGTTATGCCTAAGAGTAGACATTCTCAAAATTCTATCTATACTTGCATTCAGCAAGCTTC
TATTACAGTTTTAAGAACATCTGTGGACTCCAATCCTAACTTCAAGGGCATCTTTCCCATCTGTATCCAGTAGGATGGCAGCATGTGGCAAAGGCAAAGG
GAGAAGAAGCAACCATAATGGCTTAATGTTTAAGTTTACAGACTGTTCTTCCTAGAAGGTAGGTAAGTCCCTGTAACTTTACAGCCGTAGTAATGCTGCC
TCAAGCTTCTTAATGTGTCTGAGACTCACAGGGAGAAAATGCTCTTGTGAAGAGAGCGCACTCACTTGCGAATGACCAACGTACACCTCTATGCCAGGCA
CTGGGTTAGAGGCTGAAGCTCAAGTGAAGAACAAGAGACAGTTGATGCCCTTAGGGAATTTGCAGACCCAAGAAAAGGCAGATTATGCTTAACCATCCAA
ATGGTGCCAAATGGTGCTACTCTCCTGCTCCCAAGTCTTCCATCTTGCCTTAAACTGGATAAAAATGCAAGTAGGCAACAATCCTATTGTGATTTCCAAC
TCCCAAACTTTTAGAATACTAAAGTATATGCTATCTCCATTACAATGAGCCATTTTTTTGTTTGGAGACAGAGTCTCCCTCTGTTGCCCAGGCTGGAGTG
CAGTGGCCCAATCTCTACTCACTGCAACCTCTCCCTCCTGGGTTCAAGTGATTCTTGTGTCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGTGCGCCAC
CACTCTGGGCTAATGTTTGTATTTTCAGTACAGACAGGGTTTTGCCATATTGGCCAGACTGGTCTTGAACTCCTGACTTCAGGTGATCCGACCACCTCAG
CCTCCCAAAGTGCTGGGATTACAGGCCTGAGCCACTGGACCTGGCCTGGCTGGTTTAGTTTTAAATTTCCTATTTACTTTATCGGTTTGCCAAGGCACAC
TTTGCAGGTGCTATTGCAAAGAACAACAGAACCTTTGTCTCTTACAGATTTTTCTTTAAAGCCTGGAAAATGTTCAACATGCAGCTGGCTTTCCAAGATC
CTTGAGTTCCACATCCACAAATTCAACCAACCATGAATCAAAAATATTCAGAAAAAAAAAGATGGTCACATCTGTACTGAACAGCTAGACTTTCTTCTTG
TGATTAGTCCTTAAACAATACAGTATAACATATTTACATACATTTACATTATATTAGGTATTATAATCAAGAGATGATTTAAAGCACAGGTCCCCAGCCT
TTTTGGCACTAGGGACCAGTTTTGTGGAAGACAATTTTTCCACACAGTGGGGAACGAAACTGTTCCACCTCAGATCAGGTGTTAGGTTCTCATAAGGAGC
ACAAACCTAGATCCCTCGCATGTGCAGTTCATGAAGAATTTACTGCGGCCAGTGAGCTGACAGGAGGCAGAGCTCAGGTGGTAATGCTTGCTCACCGGCC
ACTCGACCTCCTGCTGTACAGCCTGTTTCCTAACAGGCCATGGACCTGTACCACTCCACAGCCCGTGGGTTGGGGAACCCTGATTTAAAGTATATGGGAG
AATGTGCATAGGTTATATGCTAATATTAGGTCATTTTACACTAGGGATTTTAATATCCATAAGGTAGGGGTGGTCCTGAAACCAATACCCCATGGATATT
GAGGGATGACTGTATATATAAAAGTAGAGAATAATCCTACATCCACCAACTAGCCTCAAAAATTATCAACTCATGGTTAACCCTGTTTCCTCTCCACCAA
ACCAATGCACTCCTCTCATTACCTTGTAACTTCCTTATACTGAATCTCATTATAGATTAGTCACCTTTCAGTGTGTATCTTATAAAGGACTCTTAAAACA
TTAATCACAAGAAAATTAACACACCTTAAAAACTGGCAATCAATATCCAATGTTCTAATCTTCCTGCCATCTGCTTGTGCTTGTTGGTCCAACGATACTA
GGGAAGTCCTTTGTATATATCTCCACTACCACGTAGGCTGCAAAGAGCCATCTTCAAGAAACTATAAAAGGGAGAAATTAGGTCTATGGGTTACATCTCA
ATCAAATCTCACTCAAATGTATGAACTGTATTGTGTCCCACCCTCCCACCCCCAAATTCATGTTAAGTCCTAACCCCCAAGGCCTCAGAATGTGACCTTG
TAAATAGGATCCTTGCAGATGCTGTTAATTCAGATGAGGCCCTAATCCAATGGCCTTGCTATCCTTATAAAAGGGAAATTTAGACAAATACACAGGCACA
TAGGTAGAAAGTCATATGAAGATGGGAGATTGGGGAAATACCTCTACCTGTCAAAAATGGCCAGCACACCACCAAGCTAGCTGGGGAGAGGTATGGGACA
GATAACTTCCACACAGTCCTTAGAAGGAACAAACCCTGCTGATACCATATCTCAGACCTCTACTATTCAAAACTGAGACAATACATTTCAGTTGTTTAAC
TTATTAGGTTTGTGGTACTGTTACAGCAGCCCTAGGAAACTAATACAGTGTCTTTCAACATCACTGTTTACCCTAATTGTTGTTGTTGTTGTTTTCCTTA
AAACTATGGAGCTTTTCTTCGGCTGCCATCAACATGCTTGGTTCTGCAGAGGAAGTTAAGGTCATGTTGGGGTGAGGCATTTACTTCATCTGGTGACTAG
CCTGGCAGTGCCACCTCTGCCCTCGCCCACACCATGTGGACTGCCTCTCCAAGCTTGCCTGCATCTACTCAGCCCTTATTTGACGAAACCTCTCTTCTAA
CAAGTTCAATGAGAAACTGAACTCATTAACAACAACAACAACAGAAAAACCACCACCTCTGGATTTAGAAACCAGTGGAACCCATAAAACTATGCATAAA
TCAGAAAACCTCTGTGGTTAAAAAGCAGGCCATAAAAGGGGAAAAAGAAAAGGAAGGGTTCATGTTTGTGGAGGAATATAACATACACTTTGTGGTATTT
GAATTAAACTATTCATACTCATTTCAGATCTCACGAAAACAACAAAACAAAAAACCAAAATGTAGCCAACAAAAACAAGTACCAGAGTTTAGTTTTTATA
GTTTTATTTCAGGTAAAAGTGCATTTCTTAAAAAAATGTTTCAATATCCAGTTTCCATTGGCAAGTGATAACAGTTAACCCTCAATGATTCATGAAAAGT
TTTACTGTGAATCAAACATAGAATTCTGCCCCCCCTCAACAGTCATAAAGAACCAGAAATAGTAACTGTAAGTGTGCCTACTTCAAACACTGTATAAAGC
AGTGGTCCCCTAACCTTTTTTCAACAGGGACCGGTTTCGTGGAGACAATTTCCACAGACACAGGTGTTGGGGTAGATGGTTTCAGGATGAGACTGTTCCA
CCTCAGATCATCGGGTATTAGATTCTCATAATGAGCGCACAACCTAGATCTCTTGCATGTGCAGTTCACAATAGGGTTCACGCTCCTGTAAGAATCTAAT
GCCACCCAGGGGTTTGAGACCCCTAGTATAAAGCATTACACAATCAAATAAAACTGACTGCACCATTATTTCCATTATTTGCAGGTAACTGAGGAATGAA
CAAGTACTTCTGTTAGGCTTCAACTTAAATCATTTTTAAGACTTATCAAATACAAATACTTTGTGAATGTAAAACTAAGCTCTCTTAGCGTTTACCAAAT
GATCGGGACAACAATATTAGAGGGTTAATAAATGACTGATTTGGCATCTATCAGTCTTTTTGTAAGTGCTATCAGTCAGGTCTATCTACAGGAGGTAGTG
CAGAAAGCAACTGATAATTCACAGACCATCAAGGTCCCTTAACATCATGGCAAATACGTAACTGTAGTTTGAGAGTTTAAGTAGGAAAAAGAAGTGTACT
TATAAAGTAGTAGTGTTTCCTAGTATCTGTAATTTGAGCAATAGTAAAACACGTAAGTAAAATCAGGAGAAGCCATTCTGGAAAACACAGGGGTAACAGA
AATTAAGTAATCAAGACCACATTCTGCCAGCTAGAAGCAAATAACTAAATTGACTAACATGCCATGCATGAGCAAAACCTTCCTCCATAAAAGGGATTGA
CAAACTCTTTAAAAGGCCAGGCAGTATTTTGACTGTTGGAAGCCATACAGACTCTGCTATACTACTAAACTCAGCCACTGTACCAGGAAAGCAGCTAAAG
ACAATAAGCACAGCTGTTCCAATAAAACTTTATTTCTGGATACTGAAATTTTAATTTAATATGTTTTCATGTGTCACAAAATGYCCTTCTTTTGACTTTT
TTCACCATTAAAAAATGTAAAAACCAGTCTCAGCTCACAGATAGTACAAAAAACAGGTGGCATGCTAGTTTACCAATCTGTGCTCTGTAAAAAACTTAGG
AGTTAAGACTGCCATCCTTCAGTTTCTATACTCAAAACCAATTTTGCTCTTAATTGTTTTCTTTTAGAAACTTCCTATTCTATAAAAATAAAAAATTCTT
TAGACACTTGTTAGCTATTCAATAGTGTATCAAAATAATTGTTAGACTATACTCTATTTTCAGTTCCATGACACTTTATTTTGAAGATGATCTTCCTAGT
TATATGTTGTTTATCCGTTTAAGAAACAAAGCTGCCTTTTGTTGGAAATACTTATTAACTTACTGCTTTTGTGGGAGTATTAATAATGTATTTTAACATA
ATCTCTCAGGGTATTTATGAACATCAATTATAATACTGTGCTATGTACAGAATAGCTCTCAGAGACTATAGGCTATCAGCTATTTCTGAAGTATACAGGA
GTATATAGGACAGCTTGTCTCTCTACTAAATGTACTATGCATTAAAATTCCAGCTCAATCTGCCTTTTCCATTCTCTTCAACTCATCACTTCTCAGTGCA
TCAACTTCTATCAGCATATAAGCTTGCTGCCCAGTAAATTCAGCTTTATCTACAATTATAAATTGGCACACTGTGGCCAAAAATATTCCCTCTGCTACAA
GTAGAGTACAAAAGTTAGAGTTTTTTTCTTACTTGTGACATCAACAATGGAAAATATTGTCTTCAATTTTTTAGGTAAGATGAACGGTTATCTTTTATTC
CAACGGTATTTACAGCTTACCATAACACATTTGGTTTTAACTGTTCTTTGGAGAAAGGAAGGCTTAGTATGTAAAGAAAAAAATGATTAGGACCACATCG
GAAAATTTAACATTCTATTTCAGAACTGAGTAAATTCTCACAACTGTTTAGACTACTATATTAAATATTTATAGATCTTCAAACTTCAATGACTTACACT
TTAACGGCTACTTGCAAAGAGCAATATGTAAAGCCTGGCACATAAYATACTTATTAACTGGACATCAGAAAGCACGAAACCCAATTTGTTTTACAGATCA
AACTATCAATAAATTTTGATAAATTTTTAAAACCTATTACTTAACTTTCGGCTACATTTTCCTTAGTGCTTTCAGGGTAGTTCTTACAGATTATTTAAAT
ATGTGAGGAAAATCTAACACCTTAACAGAATTCCAAGAAAAACTCACTTTTCGAGAATCATATTATTCAACTCCATCTTTCAAATTTCACTTTACGATGA
AACAGGAATTTTCAACCACATAATATAACAGAAAATTAAGTGACCAGAGGTCCGCAGTATAATGACAGGGCATATCTGCTAGACTGACTTATTCATTATA
GCACTACTAAATTTAACTGCCAGATTAATATTAGGGGTAGTGTTGATTTTCCATGTTTATTAATAACGATGATCCATAATAGAAGGCAAGATTTATTTAG
AGACTAAATATATTCTAATACTTAGAAATCAACTTTTATATTAACAAAAACATAACCCACAAATACTCATGAGAAAATACTTTGTCTACTTTGCCTTATC
AATAAGATTCTTTATAACTTGA


SNP Information

Context             (SEQ ID NO:26853):
CTCCATCTTAAAAACAAACAAACAAACAATGACCACACCAACAACAACTAAACAAACCAAAAACACATTTGTATAGTTATCCCACAAAGAGCTCTTGCTA
T
CAGAAGATACTTCAGTTAGTGAAAAATCAGTGATCCCACTTGCCGGAATTTTGGTATCCTAGACCTTGAAAACTGTATGTTAGAGGAACTTAAAAGGCTT
Celera SNP ID:            hCV11819122
SNP Position Genomic:     18013
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26854):
AAAAAAAAAAGTGTTCGAAACCAAAAAAAAAAAAAAGTGAGGGGCTGCTGTCAGGGATGGAGAATAGGCATGGAAAAGGCAACAAAATGGCCAAAATCTC
R
ACCCCAGTCTCAGTCAAGAGAAGCTATTCATTCTGGCAGCCATACAAAGTCTGCAGGACTCTAGAATGACAGCCTGTTTGTTAGGATTAAAGCAGAAATC
Celera SNP ID:            hCV26799196
SNP Position Genomic:     179754
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26855):
AAAAAAAAAAAAAGTGAGGGGCTGCTGTCAGGGATGGAGAATAGGCATGGAAAAGGCAACAAAATGGCCAAAATCTCAACCCCAGTCTCAGTCAAGAGAA
R
CTATTCATTCTGGCAGCCATACAAAGTCTGCAGGACTCTAGAATGACAGCCTGTTTGTTAGGATTAAAGCAGAAATCCAGAAATAAAGGCACATGTAAGT
Celera SNP ID:            hCV26799197
SNP Position Genomic:     179777
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26856):
TTTGTAATTCACCCCTATTTTCAGACGTGGCCACAAAGTTGCTGTTTAATATAACCTTGGATGGACGTTAGCCTAACTGAAATCTTGGATTCAAGATGAC
R
AATCACACATGAAAGCTTCACCCAGGTGCTAAAGGAAGATGAACTTCCTTATTCTTGTTGATGCCTTTGATGCCAGTGAATACTGCAAATTTTCCTTAAT
Celera SNP ID:            hCV25627620
SNP Position Genomic:     46748
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,4)   caucasian(A,40)   total(A,68|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:26857):
GGACCCATATCACACACACTGCATGAAAGTTGCAGCTCAAAACAGTGATGTAAGTTTGAAGACAATGGTTCATGCCTCACAGTGACATTGTTTGAGAGCC
R
TAACAATCATGATCTATTTTTGGTTTTTCTCATTATAGAAAAGTTACAAAGCAGAATATGAAGAAGATAAAGGAAAATGCTATTTCCCTCAGACAATAAC
Celera SNP ID:            hCV25627621
SNP Position Genomic:     48954
SNP Source:               Applera
Population(Allele,Count): african american(A,30)   caucasian(A,39|G,1)   total(A,69|G,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,4)   caucasian(A,17|G,1)   total(A,21|G,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26858):
GCTGCTCGGGAGGCTGAGGCAGGAGAATGGCCTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCTACTGCATTCCAGCCTGGGCAACATAG
Y
GAGACTCCGTCTCAAAAAAAAAAAAAAAAGAACAGAGGAGGTATATGGTCAAGTCGATCCAAGGCTGGGGGTTTATTGAATGTGATAAAAAGACAAGGGG
Celera SNP ID:            hCV11819127
SNP Position Genomic:     22599
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26859):
ATTCTTCAATCTTCTGATCATTCTATTTGTAATTTGTGCTATTTTTTCAAAACTCTTGTCAAAATAGAATCCCTCAAAATTTAGTGTTGTTTTCTTGATA
Y
GGAAGGTCAGGTCAGAAAGCTTATTTGTGCCCCATACAAAATCTATGGCACTGCTTTTTAAAAAGCAATTTTGTCAGATTGCTTATGTTGAAGTTAAAGT
Celera SNP ID:            hCV367580
SNP Position Genomic:     89099
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26860):
AGGGTTCTTCCTTGCGATGCCCTAACATCCTTGGACAGTTAAGAAAATACAAAGGACTTTCCCTCTGCTGAGCCTGGAAGGGCTAAAATAGCCTATTTTA
S
GTCCCATTGGCCTATATCCCTGTGGTGTTTACCCTCCTTATTTCTTGGAATCTATTCCCAGAAAAAGTACAAGGAAGATGCTGAGAAGTCCATGTCGTAT
Celera SNP ID:            hCV25627622
SNP Position Genomic:     233089
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,32)   caucasian(G,34)   total(C,2|G,66)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26861):
TTAATTATTAATAGTGTCTTCTTTACTCTAAATGTCCCAGTTTGGATAATAGATTATATGATCACTCTATGTACAATGCATATTCTTTGGCATTTGTGTT
Y
CTACTATTCCCCAATTCCCAAATTGATTGATGTCCAGGAATAATTTGGATGTTTGCATTTGCTGTTAGGTTAAATACCGAGAAAATTTCGATAAAGAAAA
Celera SNP ID:            hCV25627552
SNP Position Genomic:     221423
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,38)   total(C,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:26862):
CCATTGATTGGAATAAAGATAAGACCAAGATTCATGTGATGCCTGATACACCAGATATTTTACAAGCCAAGCAGAATCAAACACTGTATAGTCAGGTAAA
K
TTATATAAAAATTAATTTTAAGTTTTGTATTGAAACTTATGAACTTATAAAATAATGTAACAGTAAATACTGATATAAATGTTGAAGCAATGGAAGTTTG
Celera SNP ID:            hCV367582
SNP Position Genomic:     85750
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,6)   caucasian(G,3|T,25)   total(G,15|T,31)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26863):
ACGCAGGGAGGGGAACATGTTTGACAGAGCCACCTCATTCCCTTAGGGTCCTACCATGGTGACAGATGTGATAATAGCTGCCAAGTGTCCTGCACACAGG
W
TCAGTAATGCAGATGGCCTACCCAAGCTCTAGATGTCTCTTCTGATCTCAATAATGCTGTCACTAACTTTACAAAATGTACCACACAAGAATTTTTGTAT
Celera SNP ID:            hCV26039980
SNP Position Genomic:     45133
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,7)      total(A,7|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26864):
CACTACCACACCATACCCGATAATCTGGAGCAGCTTCACCTAAAAGAGGCCACAGAATTACAGAGTATAGTAAGTGGATCAAGACCGATTTTTCCTCTGG
Y
GCACATTCATCCACAGTACAATGTGAAAAAAAATTTCATAGATTCCCTCCATTGTTTGAGAAAATGCACAAAGATATAAGGGGTTTTGAATCTGGTAACT
Celera SNP ID:            hCV25627553
SNP Position Genomic:     222974
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,20)   caucasian(C,11|T,27)   total(C,23|T,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:26865):
ATATAATTTTTAATTATATTTTATAATTATACAAAAATAATATAGCATATTGACACTAGATCGATTTTTAGTCAAAGGAATTGCTCTGTGTAAAAACTCA
W
ATTTTCTTCACAGTATAAATACAAGTACAATTATGAAAAAGGGAAGGGGAAAATGGTTGGTTTCCGCAGTCTCGAGGATGATCCCAAATTAGTCCATTCC
Celera SNP ID:            hCV367583
SNP Position Genomic:     84536
SNP Source:               Applera
Population(Allele,Count): african american(A,5|T,23)   caucasian(A,2|T,38)   total(A,7|T,61)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2)   total(A,2|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26866):
TTTCTTGCATCAGCATTTCTCTCAGCTGGCTCTTGTCAATGATTCTTTTGTGTCCTTGAATTGAATCCAAATCCTAATTATGCCTTGCAGACAGTAATGG
Y
ACCCATCCCCTCAACACCTAGACAACAACAAAAATGTACTGGATCTGAAACATAACAGGAAACTGTTTTGAGTGGCAATGAGATGCCATCCAATTGACAG
Celera SNP ID:            hCV25627554
SNP Position Genomic:     224509
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,1|T,39)   total(C,2|T,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:26867):
AGAAATTCCTTAATATACTCACATGTACATGCCTGTCATGAACTCTAACTGTGCATTATTTGGGCAGGTTAAGTATCGAATGGATGGTGATGTTGCTAAG
R
CTATATGTCACGTAGATGAAAAAGCAAAGGATATTGAACATGCAAAGAAAGTGTCGCAGCAAGTCAGTAAGGTAAGGCAATGATATGGATGGCTGGGGTA
Celera SNP ID:            hCV26039982
SNP Position Genomic:     15556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,13)      total(G,1|A,13) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26868):
TCAGCCCCAGACCCCTGGGCTGAAGCAATCCTCCTACCTCAGTCTCCCTAGTAGCTAGGACTACAGGAGCATGCCACCATGACTGGCTAATTAAAAAAAA
A
TTGTAGGATCTCCTAATTATTTTTTCATAGAGGTAGGGTCTTGCTATGTTGCCCAGGATGGTCGTAAACTCCTGGCCACAGGTGATCCTCCCACCTTGGC
Celera SNP ID:            hCV26039983
SNP Position Genomic:     13595
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26869):
CTCACAGGGAACATTTAATGACTTGGAGGTCCTGGGAGGAGCATATTTCAAAACAATCTCTCCTTGGTCACCCATCAGTTTTACTTTCTCTCCCATCTCT
R
TTCTTCATCTTCCCTACCTATCCAGCCCATCCCATTCTCTCTTATTATCCTGAGAACTCCAAATTCTTCTCCCCTCTATTACGCTGGAGTAATTTGGCTC
Celera SNP ID:            hCV367585
SNP Position Genomic:     83764
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26870):
CGTCCCTAATGATGCATTGAAATGCTACTCAGATTTTAGCACATTAGCAATTCTAAATAACCTATTACCATAAATATTCCACGTTCAAGCTCTTTTTTTT
T
CAAGGTGAAATACCTCTCTCATGCTTTATTTTCTGCATGCAGCTGTTTCTCTTTGAGCATGACAAACAGTGATATGGATGGTTAATCCTGAAGCTTGTTC
Celera SNP ID:            hCV26039984
SNP Position Genomic:     11416
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26871):
TGAAAAAAGTAAAAACATTATCCTTACTAAATATTACTTACTAAAAAACTGCCTCCTCACATATAACCCCTTCCCCCATTTCCTTCCTTCCTTACTCTCT
R
TGCCTGTTTTAAATGTCCTCTGGGTACTTTCTTGTATCTCACAGGTTTTGTACAAAGAAAATTTGGGGAAAGGAATCCCAACACCTATCACTCCAGAGAT
Celera SNP ID:            hCV25627629
SNP Position Genomic:     238330
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,1|G,37)   total(A,1|G,65)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26872):
TAATGTTTTCCCTTCCCTTGAGTGCTGTATGTTTTGGTGTTAAAGATAAGAAAAAGGAAGCATAAAGTGTTTTACATCCTTTTTTTTTTTTTTTTTTTTT
T
ACTAAGAAATGAGCCAAGTGTTTCATCTTTATCCCTTTCCTCATGTGCTTGGCCTAAACGAGCCTCTCCTTCTGTTCACCCTACAGAGCAGGGTGAGGCT
Celera SNP ID:            hCV26039985
SNP Position Genomic:     9870
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|-,8)   total(-,8|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26873):
TTTACAACCTAATAGAGACCAGTAACTTTTACTTTTTCTGGTATTTTCTTGAAAATATGTTTAAGTTTGTTATAGATTGTTTTTCAAACACAGTTATGTT
R
CTTGTAAGAACATTCAGCCACTGAAGCACCAACGAAGCATTCTGCTCAAAAACAAAAAAAAAGACGCCACAGTGGTAGTTTACTCTTCTAAAATAAATCC
Celera SNP ID:            hCV367587
SNP Position Genomic:     82776
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26874):
TTAATGTTTTCCCTTCCCTTGAGTGCTGTATGTTTTGGTGTTAAAGATAAGAAAAAGGAAGCATAAAGTGTTTTACATCCTTTTTTTTTTTTTTTTTTTT
T
TACTAAGAAATGAGCCAAGTGTTTCATCTTTATCCCTTTCCTCATGTGCTTGGCCTAAACGAGCCTCTCCTTCTGTTCACCCTACAGAGCAGGGTGAGGC
Celera SNP ID:            hCV26039986
SNP Position Genomic:     9869
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26875):
CTCAATTCACGCCTCTGGCCGATCCTCCAGATATAGAATTTGCCAAGAAAGTAACCAATCAAGTGAGCAAGGTAAGTAAATAGAGCTGGGACATTGCCGC
C
TCCCTTGAAGACTCTGCTTAATAATTTCAACCATCAGAGAGGGTTACTAAAGGTGAGACTGAAGATAAAACACAAACACTAGGAGTATTTTTACATATGA
Celera SNP ID:            hCV26039987
SNP Position Genomic:     23098
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,3)   total(C,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26876):
ATTACCCTATAGAAATCCTTATATATGTGTGCAAAGATATACATACATACATACATACACACAAGAATATGTTTTGCAGTTTAGGGTTTCTGAAAGGAGA
Y
GCTAAGATGAAAATTGGAGTACAGAGTATTTTTTAGGGATCCTAGTCTTTGGGAAGAAGGACTAGGCCGGAGGAGAAGTTGAACAGTGATGCTGGCATGA
Celera SNP ID:            hCV367589
SNP Position Genomic:     80698
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26877):
TATTAATTAATAGCCTGTTCTAATCCTCCAGTCTCACCCTCAAGGTTCAACCTGATAGAATGATGGGAGCTGGAGAGGAGAGACAGCATATTTTTGAGGG
K
TGCTGTGCAATTGATTCCTTCTGCAATTCAGCAGTGCCTGGGTAGCCCCATGGGTTAGAACAGAATGTTCGTGGGAGCCTTGGCTGAGGGCCCATGGCTG
Celera SNP ID:            hCV25627486
SNP Position Genomic:     191782
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,5)   caucasian(G,39|T,1)   total(G,72|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:26878):
TTCTATTTGGAGAAATGTAATGTTGGTCCTTGTTTACCCATCATTGATCTCATTCTGACTTTGCTTTTGCAGTTCAAGTACAAAGAAGCCTATGAACACA
Y
CAAGGCATATGGGTATACACTTGGCCCCAAAGATGTTCCATTTGTCCACGTCCGGAGAGTCAACAATGTTACCAGCGAGGTACCTGAATGCTGATTCTCC
Celera SNP ID:            hCV25627487
SNP Position Genomic:     192874
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,33|T,1)   total(C,69|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26879):
GCTCAATTCACGCCTCTGGCCGATCCTCCAGATATAGAATTTGCCAAGAAAGTAACCAATCAAGTGAGCAAGGTAAGTAAATAGAGCTGGGACATTGCCG
C
CTCCCTTGAAGACTCTGCTTAATAATTTCAACCATCAGAGAGGGTTACTAAAGGTGAGACTGAAGATAAAACACAAACACTAGGAGTATTTTTACATATG
Celera SNP ID:            hCV26039988
SNP Position Genomic:     23097
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,3)   total(C,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26880):
ACATGACTTCATGTATATTTAAAAAGGACTATATGTCTGTTTTAATTTACACAGAAAATTTTAGGAGGCAAATGCTACCTTCATGCTGTAAGATAAGGGG
A
AAAAACATTTTTACTTTCCATCTTACATCCTCCCTGCTGTATTGTTTGAATAAGCAACTTTTCCATTAAAATTTTTTTGGGCCAGGTGCAGTGGCTCATG
Celera SNP ID:            hCV8413923
SNP Position Genomic:     81335
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26881):
AGCTCAATTCACGCCTCTGGCCGATCCTCCAGATATAGAATTTGCCAAGAAAGTAACCAATCAAGTGAGCAAGGTAAGTAAATAGAGCTGGGACATTGCC
G
CCTCCCTTGAAGACTCTGCTTAATAATTTCAACCATCAGAGAGGGTTACTAAAGGTGAGACTGAAGATAAAACACAAACACTAGGAGTATTTTTACATAT
Celera SNP ID:            hCV26039989
SNP Position Genomic:     23096
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,3)   total(G,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26882):
CTCGTTGACTCTGCACATCACTCACCTTCTCTTAAAGGTATACCAGAAAGACATTTTCTTTTTCCTTAAAGGGTATTGTGGGGATGTAGGCATATGCCAG
Y
GCCTTGAGACCCATTAGTTATGTCTGTTAACACATTTTTATGAGCCATGGAGGGAGAATTGCTCTAACTCAGCTTGGGCTCTAGCTCATGGACCCAGGTT
Celera SNP ID:            hCV11765248
SNP Position Genomic:     29130
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26883):
ATGAGAACACCAAAACCAGCTACCATACCCCTGGGGACATGGTTAGCATCACAGCTGCAAAGATGGCCCAGGATGTCGCTACCAATGTCAACTACAAACA
R
CCATTGCATCATTACACATACCTACCTGACGCCATGAGTCTTGAGCATACGAGGAATGTCAATCAAATTCAGAGTGATGTAAGTATGTGTAACAACAGAC
Celera SNP ID:            hCV28961479
SNP Position Genomic:     68517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:26884):
TGAAATCAATTCAGTGAGCATAAGTGTATTAAGTATCTAGTCAAAACTGTAACATGAGCTATATGTGATTTGTTAAGCTCAGATCAGTTACTTGATGCCC
K
ATGTCATTTAACCTGCTCTTCCTCATTCCTGCAGAATCTATACAAAACCAGCCTGCGCACCCTGCCCACTGGATATAGACTTCCAGGTGACACTCCTCAC
Celera SNP ID:            hCV29240611
SNP Position Genomic:     191486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26885):
GGGCGGGATCACCTGAGGTCACGAGTTCGAGACCAGCCTGGCCAACGTGGCGAAACCCCATCTCTACTAAAATACAAAATTAGCCGGGTGAGGTGGCGCA
Y
GCCTGTGGTCCCAGGTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCACACCATTGTACTCCAGC
Celera SNP ID:            hCV26799343
SNP Position Genomic:     211586
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26886):
ACTTATAGTGCTTCAGAGTAAAGATAACTCTGAAATACCTTTACTCTTTTTGGCTTTCTGGGCTCAGAATTATCTAAAACTTTAGTTTCTCCTCTTCCCA
R
TTCCCAGAGGGATTTTGGGCAAGTTGTGCATCAGCACTGAGGAAGAAGAATGGATATTTTTCAGTGGAGCAGTTTGCACCACATTTGCCTCTCCATAAGA
Celera SNP ID:            hCV29240618
SNP Position Genomic:     197043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26887):
CTCTGAAATACCTTTACTCTTTTTGGCTTTCTGGGCTCAGAATTATCTAAAACTTTAGTTTCTCCTCTTCCCAGTTCCCAGAGGGATTTTGGGCAAGTTG
Y
GCATCAGCACTGAGGAAGAAGAATGGATATTTTTCAGTGGAGCAGTTTGCACCACATTTGCCTCTCCATAAGAATGACCCAGGCTTGATAAAATGCTGAT
Celera SNP ID:            hCV29240619
SNP Position Genomic:     197070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26888):
GCCTACTGAATCAAGTGATTCCTTTCTCTCCTGTTAAAAACAGCTGGACTATAAGAAACAGTACGAAGCCAACAAAGCCCACTGGAAGTGGACTCCTGAC
Y
GACCGGACTTCCTCCAGGCTGCCAAGTCATCCCTGCAGCAAAGCGATGTAAGACAGGAGAGACACAGACGATTGTAACTGCATACTGCACCTGAGAAATA
Celera SNP ID:            hCV27860288
SNP Position Genomic:     213734
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:26889):
CCCCCAGAACAAGTACAAGGACCATGTCAAGAAGCACTTGGCACAGGGCTCATACACAACACTACCAGAGACCCGGGACACTGTTCACGTCAAGGAAGTG
M
CCAAGCATGTCAGTGATGTAAGTGATCAACCACCGGTCTCTTGGCAGCAACAATGCCACTTGACTGTAGAATCTGGTGAAATAATGTCAGTTGCCTTTTG
Celera SNP ID:            hCV27860289
SNP Position Genomic:     215287
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26890):
CCCTTTGAATTATATTTAAATGGAATTGGGTCATTGTTATTAGTATATTTGTAAATCCTAAATTCAAGAACAACTCTTACAATCTGAGGATCCTTTTGCA
Y
CTATGTTTGGTTCTGCAACTCTTGCGTTTAAGCACAGATTTTGATTTTCTTTTCAATATCTTCACAATGTCACTTAATTTACAAGTACTTAAAGAGATTT
Celera SNP ID:            hCV27971430
SNP Position Genomic:     160643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26891):
TATTATTTCTTATTTTAGAGACTTTATAGAGAAGCTTGGGACAAAGACAAGACTCAGATCCACATCATGCCTGATACACCTGACATTGTTCTGGCTAAAG
M
AAACTTAATCAACACAAGTGATGTAAGTTTTCAAATTCAGCATGTGTTTTCAGAAAGCTCATTTTAATTGTTTCTAAATCAGTGAAATTGTCTAGAAGTT
Celera SNP ID:            hCV25627700
SNP Position Genomic:     94862
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,40)   total(A,1|C,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26892):
TAGACAATCAAAGGATTGAGTCCTTTCCTATGTGCTTCTGTTTAAAATGTTTTTCAAAATATGCTTTTAATCTGAATATTTTGTTGATTTATAATTCATA
Y
CAAAAATTTAGAATTTTCTAATAATTCAAGTATTAAAAATATAGAGTATAATATGAACTTTTATTTAGGGGCAAATGATTTAATTATGACAAATTATGAC
Celera SNP ID:            hCV25627701
SNP Position Genomic:     97509
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,26|T,4)   total(C,57|T,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:26893):
ACACATGAAAAATATAGTTATCACTAGAGAGTGGTTTGATTAGGAAGCAGGTATATTCAAATGGTGGAAATGTTTCTTTTCTTTGAAGGGTAGGGATGCA
R
AAGAATAATTAGCTTTTTAAAAACTACCAAAATGATATGGGCTCCAAATTACCATGTTGTGTTCACTGAGGGAGCCAGGGAGGCTGATATTCTTTGGGCT
Celera SNP ID:            hCV27949770
SNP Position Genomic:     229986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26894):
TCTGGATATTAATTGCCTATCAGATACATGACTTGCAAGTATTTCCTATTTTGTGGGTTCCTTTTACTTTGTTGATGCTTGCACATTCTCTTTTGTTCAA
Y
TTAAGTTTGTGGAGTCAGTCATGAGAGATCTTACAAATAGATGTGTGTTAACTGTTGCAAATCCAACATATAATATTTCCCCTTTTCCATCCCCACGAAT
Celera SNP ID:            hCV27971433
SNP Position Genomic:     255224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26895):
TCTTTTAGTTCAAGTACAAAGAAGGCTATCGTAAGCAGCTCGGCCACCACATTGGTGCCCGAGCTATACGTGATGACCCCAAGATGATGTGGTCCATGCA
Y
GTGGCCAAGATCCAGAGTGACAGGGAGTACAAGAAGGACTTTGAGAAGTGGAAGACCAAGTTCAGCAGCCCAGTGGACATGCTGGGGGTGGTGCTGGCCA
Celera SNP ID:            hCV25627630
SNP Position Genomic:     100440
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,39|T,1)   total(C,70|T,2)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,39|T,1)   total(C,73|T,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26896):
AGTACAAGAAGGACTTTGAGAAGTGGAAGACCAAGTTCAGCAGCCCAGTGGACATGCTGGGGGTGGTGCTGGCCAAGAAGTGCCAGACCTTAGTCAGCGA
Y
GTGGACTACAAGAACTACCTGCACCAGTGGACATGCCTGCCCGACCAGAGCGACGTCATCCATGCTCGGCAGGCCTATGACCTCCAGAGCGATGTGAGTA
Celera SNP ID:            hCV25627631
SNP Position Genomic:     100566
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,40)   total(C,1|T,71)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26897):
TACAACATGCTTCCTGATGCCATGAGCTTTGAATTGGCCAAAAATATGATGCAGATTCAAAGTGATGTACGTGAAAACCACATTTGCAGAGCGTTTACTC
Y
GGATAATAAGCAACCATGAGTGACCATAAGCAATGACGTTTTGAAAATCCTGAAAGAAATTCATCTGCAATTTCCCAACATAGTGTTTCATTTGTTACCT
Celera SNP ID:            hCV367590
SNP Position Genomic:     77451
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,13)   caucasian(C,6|T,28)   total(C,25|T,41)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26898):
TAGGAACAGCTCCGGTCTACAGCTCCCAGCGTGAGCGAGCGACGCAGAAGACGGGTGATTTCTGCATTTCCATCTGAGGTACCGGGTTCATCTCACTAGG
S
AGTGCCAGACAGTGGGCGCAGGTCAGTGAGTGCTCGCACTGTGCGTGAGCCGAAGCAGGGCGAGGCATTGCCTCACTTGGGAAGCGCAAGGGGTCAGAGA
Celera SNP ID:            hCV27944189
SNP Position Genomic:     35755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26899):
AACCACTTTGTAGTCAGGACCTCTATTCTAACCCCAATAACAAGATGCTGTTGTTTTTCTATTTTATTGTTTAGAAACTGTACAAAGCTGGCTGGGAAGA
R
GAAAAGAAGAAAGGATATGACCTGAGGCCTGATGCCATTGCAATAAAGGCTGCAAGAGCCTCTAGAGACATTGCCAGTGATGTAAGTGCTTGCACTGGGC
Celera SNP ID:            hCV367591
SNP Position Genomic:     76383
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,12)   caucasian(A,7|G,29)   total(A,29|G,41)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26900):
TGTGACAGAACCACAAAACTCCACATGGTTGTGCGGTGGGGGCAAGATGGTATTTGGTGCTTTGGTGGTAGAGGGTTGCCGTATTCAACAATTTTTTTCT
Y
ATTGTGTATTTAGTTTACTTGGCCCATCTTTTTGTTATTTCATCCATTTTCTAATATCCATTTAACCTCTTTTACCATGGAGTTGTAAATCTCTTCCTCT
Celera SNP ID:            hCV367592
SNP Position Genomic:     75940
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26901):
GCCTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCTACTGCATTCCAGCCTGGGCAACATAGCGAGACTCCGTCTCAAAAAAAAAAAAAAA
A
GAACAGAGGAGGTATATGGTCAAGTCGATCCAAGGCTGGGGGTTTATTGAATGTGATAAAAAGACAAGGGGTTGGGAGTTGAAGATGCTGGTTAAGAGAA
Celera SNP ID:            hCV26039990
SNP Position Genomic:     22628
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26902):
CTATGAAAAGACAAAAGCAAAGAGCATAAATTACTGCGAGACCCCCAAATTCAAGCTCGATACTGTTCTGCAGAACTTCAGTAGTGATGTAAGCAATCCT
W
CTGTCACTCTTTCTGTTAAAAAAAGAACCCATTATTTCACCAATTAATAAATGAAGTATGTTTTGTCTTGCAGAAAAAATATAAAGATTCCTACTTAAAA
Celera SNP ID:            hCV25627562
SNP Position Genomic:     43430
SNP Source:               Applera
Population(Allele,Count): african american(A,31|T,1)   caucasian(A,38)   total(A,69|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26903):
GACCTTCAGTGGCTAAAAGGCATTGGCTGGATGACTAGTGGTTCTCTCGAGGATGAGAAAAATAAACGAGCCACCCAGATTTTGAGTGACCATGTTTACC
R
TCAGCACCCAGATCAATTTAAGTTTTCCAGCCTTATGGATTCCATACCAATGGTTTTGGCAAAAAACAATGCTATTACCATGAATCATGTAAGTCCTATG
Celera SNP ID:            hCV25627709
SNP Position Genomic:     97776
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,30)   total(A,1|G,67)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26904):
ATAAAGAAAACAAAGCAATGTTGAAATCTTAACAAGATGTTTACTCTTTCTTCATAGCTCCAATACCAGTGTGACCTTAAAAACAGTAAAGGAAAAATTA
Y
AGTTGTTCAAGACACGCCAGAAATACTGCGTGTAAAAGAAAATCAGAAGAATTTCAGCTCGGTATATTTACTATTTATTTTGCATTTAATGCTAACCTAG
Celera SNP ID:            hCV25627563
SNP Position Genomic:     234290
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,38)   total(C,71|T,3)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26905):
TAAGCATTAAGATCAATTAAAGCTGAGTTGTACTACATCTGGATTTTTAGTTTTAGTATTCATATCTTCCTATAAGCTTGAAATGCTTCATTACAAGAAA
Y
GTTTTTCCAAAAGTATTATATATTTATTATAGAAAAGTTGGAAAATATAGAAAATTATGACAAATAAATGAAAACCTTCTGTTATCCAACAGTCAAAGCA
Celera SNP ID:            hCV367593
SNP Position Genomic:     72698
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26906):
AATGTTGAAATCTTAACAAGATGTTTACTCTTTCTTCATAGCTCCAATACCAGTGTGACCTTAAAAACAGTAAAGGAAAAATTACAGTTGTTCAAGACAC
R
CCAGAAATACTGCGTGTAAAAGAAAATCAGAAGAATTTCAGCTCGGTATATTTACTATTTATTTTGCATTTAATGCTAACCTAGTCATTTCACTCTCCTC
Celera SNP ID:            hCV25627564
SNP Position Genomic:     234306
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,38)   total(A,2|G,72)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26907):
CCTGGCCCACAGTGCTGTCCAATAAATACTGGTAGAATGGGAACATAAATGCATCTACCAGGGCCCCTCCCTTATGACAGAGTAGGTATTTGTCTCGTAA
W
TGGAAAACACAAATGATAGCCTTCCGTTTTAAAGGAGTCTCTGCTTGATGAAATTTATATTATGTCAGCTAATGATATGTGCATGCTGTCTCCTTTGTTT
Celera SNP ID:            hCV367594
SNP Position Genomic:     71729
SNP Source:               Applera
Population(Allele,Count): african american(A,30|T,6)   caucasian(A,36)   total(A,66|T,6)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,5)   total(A,5|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:26908):
GAGACTTTCAAAGATAGATCTTGGCCCCAGAAACCATCATTTGCCAACAACAGAACTTAAAAGATGGGCCCCTAAGTCTTCACAGGACTTTCTAATTGTG
Y
AATTATTAAGAGCCCGACTAAGCCGTTCAATTTAAAGCATATTAGGCAAACGAGACTGGGCTTGGGATTAAAGGACTAACAGCCTGAGAGAGAGAGAGAG
Celera SNP ID:            hCV11765252
SNP Position Genomic:     34080
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26909):
TATTTAATGTAAGTAGTGACTGAGTCTTGTTAAAATAAGTAGCCTTTAGAGTCTATTCAAATCACTTACAATCCTAAGCAAATGTAAAGATGCAATCTAC
R
TGTTTTACCAGGAGGCCCATGGCCAGGCCCTCTCTTTAAAGATGCACCATGAGAAATCCTGCCTGCAGCCTTTTCTGTCACTTAGACAACTGAGTGGGGA
Celera SNP ID:            hCV28961480
SNP Position Genomic:     76739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26910):
TGCTGGGGGTGGTGCTGGCCAAGAAGTGCCAGACCTTAGTCAGCGATGTGGACTACAAGAACTACCTGCACCAGTGGACATGCCTGCCCGACCAGAGCGA
Y
GTCATCCATGCTCGGCAGGCCTATGACCTCCAGAGCGATGTGAGTACTGAGAGTCATAATAACGTGCAGAGGTGGGAAATTATTTAACACCCCTTGGAGA
Celera SNP ID:            hCV25627638
SNP Position Genomic:     100620
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,40)   total(C,71|T,1)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26911):
CTCAAGCATAGCCTAGGTGGACAGTATGGATGTAATTTAGTTTTGAAGTCTTCAGTGGAATCAAAAGGAAAGCCCAATTTATTGTCAAAAGTGACAAAAT
S
CTTTTTAGCAGCACCCATAGTGACCTGGATTCCCCTCTGTGTTGCATAATGCAGTCTAAAGCATGATCATTTCTATTTTATTAGGCTTCATAATACAGTA
Celera SNP ID:            hCV367595
SNP Position Genomic:     69318
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26912):
ATATATATATATATAATTTTGAAGGCTAATTGTTTGTATAATAAGAGATTTCTTATAGGTATAGGAGGGAGGGAGATTGCGTATTTCTCACCTTATATAA
S
TTTTTCATGAAGGTTTGTTTAAAAAAATTAAACAACTTGCAATTGCTTAAAACCTGTGTTTGCTGTGGTGCTATCAGTGAGGAAAGAGTATGTGAGCTAA
Celera SNP ID:            hCV11765253
SNP Position Genomic:     35435
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,9)   total(G,9|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26913):
TACCAAAGCCACAGAAGCCTATGTTTGGTGTACATGAAAAGAGAAAATGTTTTAAATTTTAAAAGACAAGACAAGGAATTGTGCAAATAAACAACTTTAA
R
ATGGTTACTTTGTAAGTGGAGCTTTTAAGGCCAAAATGCTCTTAAGACTCCTACTTATCTATCAGATTTCATTTTCTGTGGTCTCTGTTACTATCAGAAG
Celera SNP ID:            hCV28961481
SNP Position Genomic:     52774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26914):
ACTCTTTGAAGTGCAGCTTTGACTCGAGCATTTTCCAGGTTGGAATTAGAGTACCACAGACTTCCATTAAGTTGGAAATAAGGATGAAATGGAACATAAC
R
CCAGTTAGAAGGAAAGCAAAAATCGAAGAGCTGTTACTATATCTCACCAAAGAAATATATAAAATAACCTTAATGTCTGGAGTAAGGAAGCTGGTCAGAA
Celera SNP ID:            hCV25627639
SNP Position Genomic:     57997
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,27)   caucasian(A,30|G,6)   total(A,39|G,33)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26915):
TCACCTTACAAAATATGTGTAGCAATCTTATAAGTAATTTCATACAATTAGATAATCGTAATATATAGTATTGTAACCAGCCCTCAGAATGCTACGTCTC
R
TGTATGCTTAATTGCAAATTTTAATGGTAGATCTTTTAGCCATATATTCATTTAAATTATATATAATTCATTTATTCCCTGGGCCTATAATGTCCCTTAT
Celera SNP ID:            hCV28961482
SNP Position Genomic:     45642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26916):
TAATTTTATTTCTACCTTGTATACAAGAGAGATGACTGGCACATAATCAAAACAATAATATCTGTGAACACCAAAATAATTTTTCTCTCTCTCTCTCTCT
Y
TTTTTTTTTTTTTTGTAGCGCTTATATACTGAAGCCTGGGACAATGACAAGAAAACTATTCATGTCATGCCTGATACACCAGAAATCATGTTAGCCAAAC
Celera SNP ID:            hCV11765254
SNP Position Genomic:     123595
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26917):
CCCAAAGATGTTCCATTTGTCCACGTCCGGAGAGTCAACAATGTTACCAGCGAGGTACCTGAATGCTGATTCTCCAAGAGACATATTGAGTTTCAATAGC
Y
ATGGCTTTGTTTGAAATGCATTAAGAATTAATCTTATTTCAGTTGTAAACTTACATACCAGCAAAAAATGAAAAAGGTCCTTATTGTCACATTTTGATAC
Celera SNP ID:            hCV25627494
SNP Position Genomic:     193000
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,34)   total(C,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26918):
GCCCTGTGACTTGGACTGCTTTCATTTCCTCAAGGTGGCCAGGCCATTTCCAGCCTCAGGTCCCGAATGCTCTTCCTCTGCCCCTCTCTCCAAGTTTGAG
Y
GTAAATGTTACCTCTGCAGAGTGGCTTTACTGACCATCCTTGTTTCTTTGCTACAATGATTCCATTGACAACACATCACAAATTCTAGTGATAGTTTGTA
Celera SNP ID:            hCV28961483
SNP Position Genomic:     71430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26919):
CCCCTAAAACTTCTACTTGGTTTTCCTAGTTTTGCATGTGGGGGAGGTTATTATCCTCCAGAAACATAAGAATAAATGAGCTCCCTTTTAAAATAACAAC
S
CTAAAATTTCTAAAGCTGACCACCAGGTCTTCTCTTGACATTCCTTTCATGAGAATGAACAACTTCATTGTCTCTAGTTGGTCCTCACATACCATGGTTT
Celera SNP ID:            hCV367598
SNP Position Genomic:     66015
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26920):
AGACATCACCAGTGATGTAAGCATCTCGTAGGGGTCTTTCTGGAGTAGTCTTACCAAGACGCAGGCTTGCTTTCAGCAGTTAAAACAACCAGTGGTCTTT
R
AACAGCCTTTTCTGATAAGCACTTCTAAACAAAGAGTACAAGTTGGAGGTAAGACAGTGTGGGAGAAGGATGCCACAATTCTACAGCTATGGAAACAGTA
Celera SNP ID:            hCV25627495
SNP Position Genomic:     193917
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,32)   total(A,1|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:26921):
GAAAAGAATGTTTCAAATTAATATTTTTATGTTGATTACATGTTGGAATGTTAATTTTCAGATCTACTGGGTTCAGTAAACTGTATTATTAAAGTTATTT
M
CCACATGTTTCCTTCTACATTTAAAAATGTGGCTACAAGAATGACTTGCATTATATATGCATTGGATGGCACCACTCTAGGTGGGCAAGGTGACAGTGTT
Celera SNP ID:            hCV28961484
SNP Position Genomic:     25252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26922):
TCCCCCTCACTTTGTTATCCAGAGCCAGTTAGTGTTTACCCCCTCCTGGCTCTGGGTCTCCCTTTGAATATCCAAGGACTTATTAAATTCTACTATCATT
R
ATATTAACATCCTACCACTACTACTAAAAATTCTAAAACTAATTAAATATCCAGCTACTTGTACTCTAGTAGCACAATGTAATTGGTAGAGATTGTGACA
Celera SNP ID:            hCV367599
SNP Position Genomic:     62338
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26923):
ATGCCCCCATCACCAGCCTCCAGGGCTAGGCAGAAGGGATCTTAGCCTGCAGCTACTTTTAAGGGGAAATTTATCATTAACTCACTTGAGCAGATTATCA
Y
TTTAATGTGATCTGTGCCTCCTATGAAAGGTGCTGAGCTTAGTTAAATGACAATTGTTTTTGCTCCTGCCTGGGAAGACATCCAGGACACATGAAAGCCC
Celera SNP ID:            hCV25627496
SNP Position Genomic:     195063
SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(C,27|T,1)   total(C,53|T,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,1)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26924):
AGGACAATCACACTATTGAAAGGGACTCACCCATCACTCCAGAAGAAACTTATTACTTACTAATCAGGAGGGTATAGGAATAATTGAGATGTGGATATAC
Y
TTGGGATCTTATTATTTCCATGATGCAATCCATTTAAAAATGTATTCACACTCGAGTTTCTGTTTTAGTTTATTGTTAGTTTGCAAACAGTGAGTTTTAT
Celera SNP ID:            hCV28961485
SNP Position Genomic:     10342
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26925):
TGCCCCCATCACCAGCCTCCAGGGCTAGGCAGAAGGGATCTTAGCCTGCAGCTACTTTTAAGGGGAAATTTATCATTAACTCACTTGAGCAGATTATCAC
Y
TTAATGTGATCTGTGCCTCCTATGAAAGGTGCTGAGCTTAGTTAAATGACAATTGTTTTTGCTCCTGCCTGGGAAGACATCCAGGACACATGAAAGCCCT
Celera SNP ID:            hCV25627497
SNP Position Genomic:     195064
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,10)   caucasian(C,28|T,6)   total(C,52|T,16)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,3)   caucasian(C,19|T,5)   total(C,38|T,8)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;JBIC-allele(T,284|C,1193)   total(C,1193|T,284)
SNP Type:                 INTRON


Context             (SEQ ID NO:26926):
TTAGTGCTAGACTTGATTGATTCAACTAGATGTCATAAAAAAGGAGGTGGCTATTTTTAGACATCCCATCCCTACCATTTTGTTCCCATTACAGCATCTG
K
GTCTGACCAGCAGGTGATAAACGAATAGACTGCCTGCCAGAAAGTATTGAACTGAGATCTCTTTGACCTCAAAAAAGATCATGAGCATAAGAGGGTGGTG
Celera SNP ID:            hCV28961486
SNP Position Genomic:     8880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26927):
CAAGTCAGCCCTCTTAGAATTTTGGTGCTGGGGGATAAATTTCAGCTTCTTCTGAAACCCAAGCTGACCTTTCACTAAAATTTTTGCTGGAAAATGTCTT
Y
TCTCTAAGTGTTTGGAAGTTTAAATTCTCTGTTCCCTGAGTCCAAACTCTCTCACTTCCTTACCTCAATTTCGTTTTACAATTTTAACTAAACTGATTAT
Celera SNP ID:            hCV28961487
SNP Position Genomic:     6979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26928):
CATGAATTTTGGGAAAGGGGGAAGGGGAAGATGTAGATTTGTTCATTGCCCAGTCAGTGCCTCTGAGGACAGTCCCCTGGGCTGTGCACTGCACAAACCT
S
GGGGTGGGGCTGGGGGTACCATTCACATTGTTTAATATAAAATCCATCTTTAGTAGTAACTTCTGGCAATGAAAACATATTTCAGACAAATATAAATCAT
Celera SNP ID:            hCV11765259
SNP Position Genomic:     131382
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26929):
ATCCATAAACGTCAAGAACTGTGTTAATAAATGTTTAGCCAGCTTGATGACTCAGTAATTGATAAATGTGAAAATCACCTTTTGAAAACAGAAGCCATGT
Y
CTAATGTCACTTGACATTTTTACTTATGACAGTAATACTACAGAGTCACCAAATAACCACACACTTCCGTGAAGAGCTGGTTTAAATTCACTGTGAAGAC
Celera SNP ID:            hCV28961488
SNP Position Genomic:     23329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26930):
CAGCAAGCTCAATTCACGCCTCTGGCCGATCCTCCAGATATAGAATTTGCCAAGAAAGTAACCAATCAAGTGAGCAAGGTAAGTAAATAGAGCTGGGACA
Y
TGCCGCCTCCCTTGAAGACTCTGCTTAATAATTTCAACCATCAGAGAGGGTTACTAAAGGTGAGACTGAAGATAAAACACAAACACTAGGAGTATTTTTA
Celera SNP ID:            hCV28961489
SNP Position Genomic:     23091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26931):
ATGGATTTTCCTGGAGATTTCACAGTTCTTCAAGTAAACCAACTCTGTTCCCAGCTTCCTCTACTCATAAAAGTAATTCTGGCTCTATTTAGACAAATTA
S
AAAAAGAAGTTTGTCAAGGAGAAAGGAAAATCCAACTACTCCATCATGCTGGAGCCACCAGAGGTGAAACATGCTATGGAAGTGGCCAAGAAGCAAAGTG
Celera SNP ID:            hCV27860290
SNP Position Genomic:     215997
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26932):
GAGAGGAAACAGCGGTTTGCAGACAGATGGGGAGAGGGAACAGCATGTACGAGGCCGTGAAGCATCTGAGGGCTTCATGTATCTGGGGATCTATGAATAG
Y
TCTGCATTGTTGGAAACAGGGGCCAAGTCTGGTGGAACAAAAGAACCAGAGGAATCAGAAATGAAGAGAGAAAGGAGGGCAAGAGAGAAGGATATGCATT
Celera SNP ID:            hCV27965385
SNP Position Genomic:     21581
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26933):
TGATCACTGGTTTCCCTTTCAGGTTTACGTGTCTGGCGTACTAATCCTGGTTCGGTTTTTGACTATGATCCAGCAGAAGACAACATCCAGTCCCGAAGCT
K
ACACATGATTAATGGTGTGTTAGCTGAAAAAGGCTTACAACATAAACATCACCATTTAGTATGCTAGAGTCAATGACTTTCATTTGGGCTCTGAAGTTCC
Celera SNP ID:            hCV27860291
SNP Position Genomic:     249563
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:26934):
GAGAGTTTTCAGGAATGAAACACTGAGCAGCTTCAGTTGCTACAGAGAAGTGTTCATGGCAATCATGAAGTTCTTGGTAGTCTCAATGAGTGTGACTTCA
Y
TGATGTGGGTAGGTGGGAGCCAAACTATGGTCTTGAGAAATTAATCAAAAGAGAGGCAAAGAAGAAACACAGGCAACTTGGCTGAGAAAAGAAGAATGAA
Celera SNP ID:            hCV29240626
SNP Position Genomic:     199204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26935):
CTTACAATGCACTTTATAAATCCAACTTACTATTAATGTCTATTTTAGAAATTGTATAAGCTTGGCCTAGAAGAAGCCAAGAGGAAAGGTTATGACATGC
R
GGTAGATGCCATTCCTATCAAGGCAGCCAAGGCCTCCAGAGATATTGCAAGTGAAGTAAGTATACTTGGAAAGTTATTTGCCTTAGCTTTGGCTCAAAGA
Celera SNP ID:            hCV25627710
SNP Position Genomic:     98385
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,39)   total(A,2|G,76)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26936):
CAGGCCTATGACCTCCAGAGCGATGTGAGTACTGAGAGTCATAATAACGTGCAGAGGTGGGAAATTATTTAACACCCCTTGGAGAAAATGGCAATATATG
R
CACAAGCTCACCAGCCCCTGGAGGAGGCAAATAGCATTGCCTTTATCGACAGGAATTTTAATCCTTTAACCCTTCAGACCAAAGAGGAATATTGTGTGAT
Celera SNP ID:            hCV25627711
SNP Position Genomic:     100736
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26937):
TCTACAAAATATACGTAAATTAGCCAGGCATGGTGGTGTACAACCTGTAGTCCCACCTACTTGGGAGGCTGAGGTGGGAAGATCGATGGAGCCTGGGAGG
Y
GGAGGTTGCAGTGAGCTATGACTGTGCCTTGCAGTCCAGCCTGGGCAACAGAGTGAAACCCTGTCTCAAAACAAACAAACGAATATGTGTTAGTTCTATG
Celera SNP ID:            hCV25627640
SNP Position Genomic:     205269
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,39|T,1)   total(C,68|T,6)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,19|T,1)   total(C,48|T,4)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26938):
GTGACCTTGAATGCCTACAGATATTTGCACATGAATATGCAAATGCACAAAGAGTGTCCTTCCTAAAACCACCTCTGTGAAATATGATCCATTAGGAAAT
W
ATTTTCTGGTGCCATTAAATTTTCTTTCTACTTTATTTGTTTGTTTATGCATTTTTTTCTCTTTCAGATCGCTTACAAAGCCAAAGGAGAGGAAATTATT
Celera SNP ID:            hCV25627644
SNP Position Genomic:     60869
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,1|T,39)   total(A,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:26939):
GACCTCAAGCCACAGATCCTCTGCTCCTTCTGTCTAGGTTTTATACAAGCAGAACTGGGAAGACACCAAGGATAAGTACCTGCTTCCTCCTGATGCCCCT
S
AACTTGTCCAGGCCGTTAAGAACACCGCCATGTTCAGCAAGGTAAGGGTCTGCTCCATTGCCACTTCTGTCTTCCTATGTCATCCCATCATATATTTCAT
Celera SNP ID:            hCV25627718
SNP Position Genomic:     16183
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,3|G,37)   total(C,3|G,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26940):
GTTTTCATGAGGGAGAGATTAGATCTGAAAAACAGAGAGGCTTGTGAGAAGGTAGAATCCGGTACAGTCAAAGAACCAACCTTCCTGGATATATGTATGT
S
AATCTGTTTATCCTAGTCAAACGACCTGCTGGGCATAAAGACATTGGAGTATACAGGAAAGGGCTGCAGTCTAAATAGGGGCCCCCATCCCTGCCCCAAA
Celera SNP ID:            hCV25627572
SNP Position Genomic:     235376
SNP Source:               Applera
Population(Allele,Count): african american(C,17|G,11)   caucasian(C,5|G,19)   total(C,22|G,30)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26941):
AAAGCCAAAGGAGAGGAAATTATTCACAATTACAACCTGCCACCAGACCTGCCCCAGTTCATCCAGGCTAAAGTTAATGCCTACAATATCAGTGAGGTGC
R
TGGGTGGACTCACGGGCTGATGCGTATGTCCAGACTTTACTAACACAGTCTCTAAGTTGTACTTAAATGACATTTTTCTTTCAGAATATGTACAAAGCAG
Celera SNP ID:            hCV25627645
SNP Position Genomic:     61046
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,1|G,33)   total(A,2|G,68)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:26942):
GTCTCTAAGTTGTACTTAAATGACATTTTTCTTTCAGAATATGTACAAAGCAGACTTGAAAGACTTGAGCAAGAAGGGATATGACCTGAGAACTGATGCG
M
TTCCCATCAGAGCTGCCAAAGCTGCCAGGCAGGCGGCGAGTGACGTAAGTCCAGCTGTGGTCATACATGGGCAACTAGAAAATGTGGGTGGGTGGGCTTG
Celera SNP ID:            hCV25627646
SNP Position Genomic:     61194
SNP Source:               Applera
Population(Allele,Count): african american(A,27|C,1)   caucasian(A,38)   total(A,65|C,1)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,40)   total(A,75|C,1)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26943):
CAGAACTGGGAAGACACCAAGGATAAGTACCTGCTTCCTCCTGATGCCCCTGAACTTGTCCAGGCCGTTAAGAACACCGCCATGTTCAGCAAGGTAAGGG
Y
CTGCTCCATTGCCACTTCTGTCTTCCTATGTCATCCCATCATATATTTCATGTAATACTTGGTGAACTCTTGATCATCTGGAATACAATTCCCCAATCTT
Celera SNP ID:            hCV25627719
SNP Position Genomic:     16232
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(C,1|T,39)   total(C,3|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:26944):
TAAGTGGTTACAGAAAATGCATAATTTAGTGCCCAGTTTTCAAAGTAGTAAAAATTTTTACTATTTTGGAAAAGACAACATAAATATTCATGGAATTTTC
Y
CCCCTGTTCCTTGAATGTTATATTTGAGAGCTAGATTGTTTTTATGAGTTTCCCCCAAATAGCCCACATGTGGCTGCTATCTAAAGGATTTACGGTCATT
Celera SNP ID:            hCV25627573
SNP Position Genomic:     237684
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|T,2)   total(C,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:26945):
GCAGGAGAATCTTTTGAACCCAGGGGGCGGAGGTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCTTGGGCAACAGGAGCAAAACTCCGTTTCAAA
W
AATAATAATAATAATAATAATAATAATAATAATTTTGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTAGGAGGTCATGGCAGGCAGATGGC
Celera SNP ID:            hCV16211169
SNP Position Genomic:     190281
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,10)   total(A,1|-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26946):
CTGATGCGATTCCCATCAGAGCTGCCAAAGCTGCCAGGCAGGCGGCGAGTGACGTAAGTCCAGCTGTGGTCATACATGGGCAACTAGAAAATGTGGGTGG
R
TGGGCTTGGGGTCTGACGATGACCCAAAAGTCTCCATGCATGCAGTCCCCAATTGGAAGCAAATCTGATTGAAAACTATTTAGGAAATAAAGTTCCCTAA
Celera SNP ID:            hCV25627647
SNP Position Genomic:     61286
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,38)   total(A,1|G,69)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26947):
CAAGCAATCTATTCATTAAGTACAAGTCTACTGCAGGCCTACTATATTTGAGGCACCAAAGCTAGATGCAACAAAATGGTTAGATTTTTCTCATTGGTAA
R
TTTATTTATTAATGCATTTTAGGCATGCACTAAGTGGTTACAGAAAATGCATAATTTAGTGCCCAGTTTTCAAAGTAGTAAAAATTTTTACTATTTTGGA
Celera SNP ID:            hCV25627574
SNP Position Genomic:     237553
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,1)   caucasian(A,26)   total(A,49|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26948):
GGATTTACTTCTAATGGAATCTATGGTCTGATCTTGCCATGAACCAAAATTATACACACCAATTTGATGGTGTCTCCAACTTTTGAGGTCTAATTTTTAA
Y
GCCACCCTCTTCATATCACCTGCAAGTTTAGTGGACATCTTTTTCTATTTCACTTTCTATGTAATTGGTTAAAATATAACACAGATACAGTCGTATCCTT
Celera SNP ID:            hCV28961490
SNP Position Genomic:     18475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26949):
AAAGGTCACTGGATTTGGCCATGGTGACATTATTTATTCCCAGTCTTAACCCAGATTTCTGAGTTCTTAATGACTATTGTGCATCCAAAATAATAGTTGT
R
TTAGGGAGAAATGCTTGTGATTGGTAGAAGTCCACCCAACAACAAACCATCCAACAAGGGAGGCACAGGGCTGCCAAGAGTGACTTACCTTTGGTACTAT
Celera SNP ID:            hCV28961491
SNP Position Genomic:     25531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26950):
AGGCTGATTCATACGTTGTCCAGAAGTACCCCTAGCACTCCCGTGGGCATGTCCAGGAAATAATTCCAAATGCTCAGTCATTAGAGTCTATGTGCTCACT
R
CCTGTCTCTCTCTGCTGCCTGGAGAGAATCACAAGCACTTGCAAAGAGGACAGGATGTGACCTTTCAGACTGCCTGTCTGCACATGATAATCTCTGCTAG
Celera SNP ID:            hCV16183998
SNP Position Genomic:     180844
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,192|G,1308)   total(G,1308|A,192) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26951):
GGTGGAGAAGGGACCAGCATCTTCTCTTTCTATGTTTTAGGCTATTTTGGATATATTAACAAGCACTTAATTGTCATTTTAGGAAAGTGTGATTTGTTAG
Y
GTTTGCAATGCTATAGACAAGCTCTATTTGTAAAGAGAGGATTTTCCACGCAAATTAAATACTGTAATGAGGATTTCAGTAAGAAAGCTTAAACTTTCCT
Celera SNP ID:            hCV16183999
SNP Position Genomic:     188173
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,12|T,1485)   total(C,12|T,1485) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26952):
ATGCAGATGAGGTGTCCTTCAAGGATGGAGATGCCATCATAAATGTTCAAGCAATTGATGAAGGCTGGATGTATGGCACTGTGCAGAGGACTGGCAGGAC
Y
GGAATGCTCCCAGCCAACTACGTTGAAGCTATTTAGGCATTTCAAAGCATCACACTTGTCTGCAGGACTTACAGATCCTGCAGTCAATGTTTCGGTTTAG
Celera SNP ID:            hCV27495009
SNP Position Genomic:     255464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26953):
AAACAATATACCAAAGGTCAGTATTACTGAAAATGTCTTTTAAATAATTGTTTTAATACTTTATTATTTTATATACCTCAAGGGGTAGTGCTTCTGTTTG
W
TCCACTTGTATAGATACTAACTTATTGCTGTTTGGAGATGGCTTCTTAGAACTCTTTGATGTTCTTCTTCTCCCAGGTAAAATATAAAGAAGACTTGACT
Celera SNP ID:            hCV29240631
SNP Position Genomic:     203949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26954):
CTCCTTATTAATATGTCTCTGGGTGGTTTCTCCTATTAAAGCTGATATGACAGCCAATATAAAGTGGGATTATTTTAATCCACAAATAATGTATGACGTG
R
GGCAAACCACCTAGTTTTTATAGCCTCATTTTCCTATTTACAACATAAAGCAATTCAATTCACTTGCATTTGGGTTGTACAATAGGATCCAGCAAACTTT
Celera SNP ID:            hCV29240632
SNP Position Genomic:     204480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:26955):
ATGTTATGGGCCAGATTCATTCTAGGGCATATTCTTCTTTGTTTGTTACAATACTGTGGAATGGTGAAACCCATTCTAATTCATGAAGCTGTTTAAAAAC
W
GGTGGCATGCTAGCTGGGTCATACCCCACACCTGCTCTTAGAAGATTATGATTATCTGATTAATTACTGGAAAACTCTTCAAATTAATGTACTAAAAACC
Celera SNP ID:            hCV29240633
SNP Position Genomic:     204722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26956):
CTTATTCATCTATAAAATGAGGAGAGTAATAAGAACTTTTCTATCTACCTCACAAGGGAGAGTTGTATTCAGTTACATCAATAAATATGAAAAATTAGTC
K
GAACTATAGAGCTCTATACAAATATAATTTTTAATTATATTTTATAATTATACAAAAATAATATAGCATATTGACACTAGATCGATTTTTAGTCAAAGGA
Celera SNP ID:            hCV8413949
SNP Position Genomic:     84414
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2|-,3)   total(G,2|-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26957):
GAAGAATTACTGCCAGTAGCTTCCTATGAATACAATCTTGATATATTTTGTTTCTATTTTTCTATTTCATGAAGAATTTCCAGGTCTCCTTTATAATCCA
R
TAAATTAATAGCATTAGAAGACTATTACAAATTTCCCGTGGATGTTTTAGCATCAGTTATGCTTTGAGATTCTCACAGCCTTAGTTGGTAAAGCTGTAGC
Celera SNP ID:            hCV29240637
SNP Position Genomic:     206517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26958):
TTGGCTGAGGGCCCATGGCTGTCATGATGCCTCTACTTCTGCTGGCCTCACTTAGCACAGATGCACCCTGAATTATCCCAAGCCATTTATTGGAAATGCA
R
CTTCACACACGCACTACTGAGGTGTGGTGATAGTATTGTCTTCCTTCTGCTATGTTTCACTGCAGAAGATATAACATCACCATGTGTTCCTTTGAAAATA
Celera SNP ID:            hCV16184003
SNP Position Genomic:     191962
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,493|G,988)   total(G,988|A,493)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26959):
GATTAGTCAGTAGATGCCCTCGTCGTCCCCTACTAAATGCCTGTAATGATATTTCCTCCAACGTAGAGACTGTATCGGGAATTGTACCACAAACTGAAAG
W
CAAGATCCATACAACTCCCGATACCCCTGAGATCCGCCAAGTCAAGAAGACACAAGAGGCTGTCAGTGAGGTGGGTATTTTCTTAGGAAAGACAGGGAGT
Celera SNP ID:            hCV16184004
SNP Position Genomic:     193557
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,5)   caucasian(A,39|T,1)   total(A,72|T,6)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26960):
AGTTCCTGATACTCCTGATCTTTTAAGAGCCAAGCGAGGGCAGAAGCTTCAGAGTCAGGTAAGCTCAGAGGTTCATAAGCCTGCCACTCAGGCATCACAG
R
GGGTGATTATATGTGCCTGGCCTCACCTGGCCAGTGGCAGACTCACACACTTGGTTGTCCTGGCTGCAACCTCATGCCCATTAACACTGCACTTGAAGAA
Celera SNP ID:            hCV16184005
SNP Position Genomic:     199858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26961):
GCTCTCAACATGAATAAGGTGAGTCCTAGCTGCCTTAAGCTTCTCCAAGATGCCAGAAGATGTTATTATACTTTAATGACTAATGGAGTCTAAATTATCT
R
TGAAGGCGTGGGGTCGCATTTTTACCTTTTAAATTACATGCTTGAAATCCTCTAAATAATTTTGATTATTCCAAGTTTCAATCTTGATAACTAGTAATAA
Celera SNP ID:            hCV25627720
SNP Position Genomic:     109951
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,28|G,12)   total(A,64|G,14)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26962):
GGTCTCCTTTATAATCCAATAAATTAATAGCATTAGAAGACTATTACAAATTTCCCGTGGATGTTTTAGCATCAGTTATGCTTTGAGATTCTCACAGCCT
Y
AGTTGGTAAAGCTGTAGCTGATCAGTACCCTATTTTAAATATACCGTTAGATGCCATAAAACCTAATGTTGTTAATGGCATCATATGCAAAGATGGAAAA
Celera SNP ID:            hCV26799299
SNP Position Genomic:     206599
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26963):
AAACCACAACTTGCTAGAGATAAGGAAAAAACCCTTTTGAATATTTCCCAAAATTTGCAAGTATCACATCTTTTATTGAGTTTAGTATTGTCAACGCTGC
Y
GTTCTACTGGTTTGAGGGTGTAATAAAAATATGTAGGATATCCAGCAGAGCTAAAGAAATGCCCCTTTTCCTGCCCCTGAAGCTGAAATACAAAGAGAAA
Celera SNP ID:            hCV16184009
SNP Position Genomic:     214917
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,186|T,1305)   total(C,186|T,1305) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26964):
CTATTTTCTTAAGGATTTTTTCTCCTTCTATTTTAACACACAAGACTTGTTGGTATTAAAGATAATAAGATGCTTGTTTTATTTAAAAAAATAGGAAAAT
K
CCTTTGATGATTTTTAACACTAGAAAATCATGGGTGATTGTGCTAAAAATAACTCTTTAAAGCAAACAATTAATAGATTTTCCTTTTTGCACTATGTGAA
Celera SNP ID:            hCV25627651
SNP Position Genomic:     65457
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,39|T,1)   total(G,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26965):
AATTAATAGATTTTCCTTTTTGCACTATGTGAAATGCATTTTATTGCAGATCTTATACAAGGCTAAAGGAGAAGATGTGAAACATAAATACACCATGAGT
M
CTGATCTTCCTCAGTTTCTCCAGGCCAAGTGCAATGCTTACAATATAAGTGACGTAAGTAGGGTCTTTGCTGGGATGTGAAATTCGGACCTGACAATAAA
Celera SNP ID:            hCV25627652
SNP Position Genomic:     65625
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,40)   total(A,1|C,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26966):
GATGTGAAACATAAATACACCATGAGTCCTGATCTTCCTCAGTTTCTCCAGGCCAAGTGCAATGCTTACAATATAAGTGACGTAAGTAGGGTCTTTGCTG
K
GATGTGAAATTCGGACCTGACAATAAAATTATAGACTTTAAGAGTAGGATGGTGCCTTGACAATTTATTTAGGCCCATTTCTCACAAATCCCCTACTGGA
Celera SNP ID:            hCV25627653
SNP Position Genomic:     65698
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,9)   caucasian(G,35|T,5)   total(G,64|T,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:26967):
ACATGAATAAGGTGAGTCCTAGCTGCCTTAAGCTTCTCCAAGATGCCAGAAGATGTTATTATACTTTAATGACTAATGGAGTCTAAATTATCTATGAAGG
Y
GTGGGGTCGCATTTTTACCTTTTAAATTACATGCTTGAAATCCTCTAAATAATTTTGATTATTCCAAGTTTCAATCTTGATAACTAGTAATAAGACTCAC
Celera SNP ID:            hCV25627727
SNP Position Genomic:     109958
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26968):
CTGATTTTAAAAACTACTTTTATGATTTAAAATAATACATATTAATCCTACTTTTTAAAGACAACTTAAATTTTGTGAAATTTCTTTAGCAAATTTACCC
Y
TTTTTCCTTTGGGCTACTTCTAGCCTAACCCCATAATAACAAGGTTGCTTTAATCCATAAAGTTCTAATATCAAGAAGTAACAGATTTTCCTATAAAACA
Celera SNP ID:            hCV25627581
SNP Position Genomic:     245116
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,37)   total(C,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:26969):
ATAATAGGTTAATATATCACTATATATTAATGTTCATTGATATATCCCATTTATTTCTAACGCTATATAGTATTTTTGGTAGAATATAATTTATTTGCTT
K
CCACTATTGCCAGAAACTTGAATTGTCTCCAGTTCCTATCCTTTTTTAAATTTTAGGATATAAGTCACTTAATAATCTCTGAATTGTTGATGTCAAACCT
Celera SNP ID:            hCV25627728
SNP Position Genomic:     111232
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,38)   total(G,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:26970):
TTTTATGATTTAAAATAATACATATTAATCCTACTTTTTAAAGACAACTTAAATTTTGTGAAATTTCTTTAGCAAATTTACCCTTTTTTCCTTTGGGCTA
Y
TTCTAGCCTAACCCCATAATAACAAGGTTGCTTTAATCCATAAAGTTCTAATATCAAGAAGTAACAGATTTTCCTATAAAACATCCTTTTGCTTCTCTCT
Celera SNP ID:            hCV25627582
SNP Position Genomic:     245133
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,38)   total(C,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:26971):
TATTAATGTTCATTGATATATCCCATTTATTTCTAACGCTATATAGTATTTTTGGTAGAATATAATTTATTTGCTTTCCACTATTGCCAGAAACTTGAAT
K
GTCTCCAGTTCCTATCCTTTTTTAAATTTTAGGATATAAGTCACTTAATAATCTCTGAATTGTTGATGTCAAACCTTTTGCTTTAACTCTTTGCCTTTCT
Celera SNP ID:            hCV25627729
SNP Position Genomic:     111256
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,34)   total(G,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:26972):
AATTTTGTGAAATTTCTTTAGCAAATTTACCCTTTTTTCCTTTGGGCTACTTCTAGCCTAACCCCATAATAACAAGGTTGCTTTAATCCATAAAGTTCTA
M
TATCAAGAAGTAACAGATTTTCCTATAAAACATCCTTTTGCTTCTCTCTCTCCAAACTTACTCTCTATCCACTACCCCCAAGGTCTCTTTGTTTTAGATA
Celera SNP ID:            hCV25627583
SNP Position Genomic:     245184
SNP Source:               Applera
Population(Allele,Count): african american(A,28)   caucasian(A,37|C,1)   total(A,65|C,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:26973):
GTCTGGAAAAGAACAAAACAATCCCAGCAGTTGAGGAATCACTTACAGATGCTGACATTCTGTTTGCTTTTCTGTCCAGGTCTGTTATAAACGGGATTGG
Y
ATGACTTAATAGCCAAGGGCAACAATGTGCTGGGCGATGCTATTCCCATCACTGCAGCCAAGGCATCGAGAAACATTGCCAGTGATGTGAGTACAAATTT
Celera SNP ID:            hCV25627658
SNP Position Genomic:     66402
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,33|T,5)   total(C,60|T,14)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26974):
CAGCTGCAAAGATGGCCCAGGATGTCGCTACCAATGTCAACTACAAACAGCCATTGCATCATTACACATACCTACCTGACGCCATGAGTCTTGAGCATAC
S
AGGAATGTCAATCAAATTCAGAGTGATGTAAGTATGTGTAACAACAGACCCAGAGATGTTTGCACTTAAAGGATGATCACTTCTCGCTTTTATTAGACTT
Celera SNP ID:            hCV25627659
SNP Position Genomic:     68568
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(C,1|G,35)   total(C,1|G,61)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(C,1|G,39)   total(C,2|G,74)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:26975):
ACTTCCATGGAACATTTGTGTTTTGTCTTCTGTGCATGTCTGTCCTGCCACAGAAATTGAACAGTGGTGGTGCTTTCTCAATTCACAGAAGAAGTCAAAA
M
AGTTTTGCAGTTTTGACTCCTAAATCTTTGGTACCTGCTACCCTCATGTCCTCGAACAACTTGCAGCAGTTGATGAAATAATAGGGAGCAAATCAACATT
Celera SNP ID:            hCV11816251
SNP Position Genomic:     119410
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,5)   total(A,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26976):
GATCAGCAACACCCATCTCTACTAAAGAATACAAAAATTAGCTGGGCATGGTGGCACACACCTGTAATCCCAGCTACTCGGGTGGCTGAGGCACGAGAAT
Y
GCTTGAACCTGGGAGGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTGTCTCAAAAAACAAAAAACAACAATAAAAAA
Celera SNP ID:            hCV11816252
SNP Position Genomic:     118904
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26977):
TGGGGAGAAAATATAGTATCTTTTCCTCACCCATGGCAAGGTTCATGGCGAAAACCCCTGTAACAAAAGACAGATTAACAAGAGAGACACACAATTTATT
Y
AATAAAAGCTTCAGAAATGACTACCCAAAGAAACAGGGAAATATGTGTATTTTTATGGATAGAGATGCGGAAGTGTGATTGGACAAAGAGGGGTATGATC
Celera SNP ID:            hCV29240717
SNP Position Genomic:     233575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26978):
AGTATGCTCTGATAATCATTTGATGTTAACATTTTTCCAGGCATTTCTGCCAGAACCAACATTTTCAAAAGGGCAATGATCCTGAAATCCCAGGTCCATA
K
ATGAATCATTGTCCGAGATAATAGTCCACAGCAAAATAAGAAAAAATAAGCACAATGCATTGAGTTTTTCATAAAACAGAATAGAGTACATTTTAAAATA
Celera SNP ID:            hCV29240572
SNP Position Genomic:     124190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26979):
AGGCACATCTTCACATGGTGGAGCAGGAGAGAGAGAGCAAAGGGGGAAGTGCTACACACTTTTAAGCACCTGGATCTCATGAGAATTCACTCACTATCAC
R
AGAACAGCAAGGGGGAAGTCCAATCACCTCCCACCAGGCCCCTCCTCCAACATTGAGGATTACAATTCAACATGAGATCTGGATGAAGATGCAGAGCCAA
Celera SNP ID:            hCV29240573
SNP Position Genomic:     127378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26980):
TAAGTCATTAAAAATATTAAAAAATATTAAATGCATCTGTAGCATATTTAAAATCCAGATACTAGTCCGGTATCCTTAATTCAATCTAATTTGAGAATGG
R
GTATAAAAATGAAGTTTAATTATTTGTATCACACTTTTTAGGGATTTTCCTTATGTTTAAGATTTTGTCTTTACACAGGCTCAGCAATGAAAAGTACACT
Celera SNP ID:            hCV11816254
SNP Position Genomic:     117536
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26981):
TGCACCTTTCCAGGGCAGAGAGAGTAAAGGGGCAGAAAAGGCCTCAGTTAAAATAACTGAGCTTTGTCTATAGAAAGAAAACCTTAGGCATAAGGAAGAA
K
TGTTCTCTATCAACAACATTGATTACTGACTTTTTTAAAAGTAAAATGCAATTTTATAGACACGTGGTTTATTAATATGATACAACCAAAATTTAGAAAG
Celera SNP ID:            hCV11816255
SNP Position Genomic:     110743
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26982):
CCCCCGAGATGAGACGGGTGAGGGAGACCCAACGGCACATCTCAACGGTGAGTCAGGAATTCTTTAGGATTGGCTGGCTGCCTGTCAGAATGTGTAAAAA
R
GGATATAGTCACACCATCATATTTTCATAAAGCAAATTCATGACATTTCAGGTGAAATATCATGAAGACTTTGAGAAACACAAGGGTTGCTTCACACCAG
Celera SNP ID:            hCV16184010
SNP Position Genomic:     248927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26983):
ATTACATTTTATGGGATTCCACTGGCAAACTGAAGTCACAATGTCTTTTCTGTTCGTGGTGATTTCCAGTGAGTCAGTGGGACTGAGTAGTATTTTAGAC
W
CTTCAGAGGATTGTCAGATAAAATACTGGCCCATTATTTCTGCCAAAATATTCATGCCCACTAATTCCATCCCTACCAATTAGATACATCAGTAAATCAC
Celera SNP ID:            hCV11816256
SNP Position Genomic:     110542
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26984):
GAGATGAGACGGGTGAGGGAGACCCAACGGCACATCTCAACGGTGAGTCAGGAATTCTTTAGGATTGGCTGGCTGCCTGTCAGAATGTGTAAAAAGGGAT
W
TAGTCACACCATCATATTTTCATAAAGCAAATTCATGACATTTCAGGTGAAATATCATGAAGACTTTGAGAAACACAAGGGTTGCTTCACACCAGTGGTG
Celera SNP ID:            hCV16184011
SNP Position Genomic:     248932
SNP Source:               Applera
Population(Allele,Count): african american(A,32|T,2)   caucasian(A,20|T,6)   total(A,52|T,8)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,30|T,2)   caucasian(A,20|T,10)   total(A,50|T,12)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26985):
TGGCCAAGATCCAGAGTGACAGGGAGTACAAGAAGGACTTTGAGAAGTGGAAGACCAAGTTCAGCAGCCCAGTGGACATGCTGGGGGTGGTGTTGGCCAA
S
AAGTGCCAGACCTTAGTCAGCGACGTGGACTACAAGAACTACCTGCACCAGTGGACATGCCTGCCCGACCAGAGCGATGTCATCCATGCTCGGCAGGCCT
Celera SNP ID:            hCV11817058
SNP Position Genomic:     97079
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,25)   caucasian(C,9|G,11)   total(C,18|G,36)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:26986):
CCTGTTCTGACTTTGCTGTCTTGCTGCGTACTCTAGGCGGAATACCTCAAAGGCCAAAGGAGAGGGCACGGCGCTGCATCTTATGACACCCCTATGATGA
R
GCATCTTAAGAAAATTAATGTACACATCAGTGATGTAAGAAAGACTGAGACCAGCAAGCCATTATTTCTGTCTTCCTCTGATTCTTGTCTACTTTCTTGG
Celera SNP ID:            hCV26799377
SNP Position Genomic:     218490
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26987):
GGGAATTGAGGCTGGATATGAAGAAAGATCAGGAGCAGTGATGGATTGATTGGTTTGCCTACTGACTGCATTTCTGAGTAACTTTCAATCAAATTTTTTT
W
AAAAAAATCTGCTGCTTTTGTACCATTTTGGCCATCAGCAACTCCTCACTCACATTCACATAGAAAAGTATCAGCTGATGGAAAATAATAATTGGCTTGG
Celera SNP ID:            hCV29240579
SNP Position Genomic:     174317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:26988):
CAGGCAGAATGGGGAGTCTGTATTCTCTGTTCCTTGCAGTCCGTTGTTATACATATCATCATAAGGTGGCTTATATTGCTCTTCCCAGTGTGGACAGGCA
Y
TCTTTGCAGGCAGAGGCAATTCTTATTGAATCTACAGTGCTTATCTAGAATCGTGCCTGACACATAGTAGACACTCAATGAAATTTTGGATCAGTGAGCA
Celera SNP ID:            hCV26421714
SNP Position Genomic:     95165
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26989):
GGAGAAGGTCAAGAAAGCAGGCGATGCATTAAATGAGAGGAAGTATCGACAGCACCCAGATACCGTCAAGTTCACAAGTGTGCCTGATTCCATGGGCATG
R
TGTTGGCTCAGCATAACACAAAGCAGCTAAGTGATGTGAGTGCTTTCCTTTCAAAATGATTTGCCCGTAAATAACCACACGTGTCTGAGCCGCTCCTCCG
Celera SNP ID:            hCV25627660
SNP Position Genomic:     69907
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(A,30|G,6)   total(A,43|G,31)
SNP Type:                 MISSENSE MUTATION;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:26990):
TAGTTGGCTTTTTATGCCATTTACCCTACCTTGAATATACATATTATTGTATTAAAAAATAGGCAGATAGAAAGGTAGATAGATTAGACAGACAGATAGA
Y
AGACAGACACAAAAATATCTTCATTTCAGGAGGGAAAAAATATCTCAAGTCAACTATTAATGACTAAAACATAATTTTCATTAAAAATAATTCTTGCTAT
Celera SNP ID:            hCV26421716
SNP Position Genomic:     115676
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26991):
ATATGTTTAAGTTTGTTATAGATTGTTTTTCAAACACAGTTATGTTACTTGTAAGAACATTCAGCCACTGAAGCACCAACGAAGCATTCTGCTCAAAAAC
A
AAAAAAAAGACGCCACAGTGGTAGTTTACTCTTCTAAAATAAATCCAGGCTTTCATATTTAGAAGAAAACTCTTCCCTTTGCCTCTCTTTACAGAAACTC
Celera SNP ID:            hCV26421717
SNP Position Genomic:     82830
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,6)   total(A,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26992):
GCAAGACAAAATAAAATAAATTATAGTGAGGTAAGATCATTTGTTTTATTTCTTTGGTCTGGCCACATTGATTGTTGCCGATGTAGGAATGTGAGAATTA
Y
GAAATTAATCCTCATGTAAGCCAGTTAGCTTAGTTGGCTTTTTATGCCATTTACCCTACCTTGAATATACATATTATTGTATTAAAAAATAGGCAGATAG
Celera SNP ID:            hCV25627736
SNP Position Genomic:     115545
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,25)   caucasian(C,28|T,12)   total(C,39|T,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:26993):
CATCTGCTCTAAATATCACACTACATTTACTGTAGCCATTAACTATTTTTAAGCTTTCTTCTTGAGAGGTGTTCTCACTAATAGTAATAGATTAAACATA
R
CATTTCCCCCCAACTTGCAATATAATTAATAGTGATTATTACCTCGTAGTGACTTTCGGGCATGACTTTGTATCTCACAGGTGTTATACAAAGAGAACCT
Celera SNP ID:            hCV25627590
SNP Position Genomic:     247312
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,18)   caucasian(G,34)   total(A,4|G,52)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:26994):
GGGCATCGGATGGATCCCTATTGGTTCCCTGGAGGTGGAGAAGGTCAAGAAAGCAGGCGATGCATTAAATGAGAGGAAGTATCGACAGCACCCAGATACC
R
TCAAGTTCACAAGTGTGCCTGATTCCATGGGCATGATGTTGGCTCAGCATAACACAAAGCAGCTAAGTGATGTGAGTGCTTTCCTTTCAAAATGATTTGC
Celera SNP ID:            hCV25627664
SNP Position Genomic:     69871
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(A,5|G,33)   total(A,18|G,58)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26995):
TATGTTTAAGTTTGTTATAGATTGTTTTTCAAACACAGTTATGTTACTTGTAAGAACATTCAGCCACTGAAGCACCAACGAAGCATTCTGCTCAAAAACA
A
AAAAAAAGACGCCACAGTGGTAGTTTACTCTTCTAAAATAAATCCAGGCTTTCATATTTAGAAGAAAACTCTTCCCTTTGCCTCTCTTTACAGAAACTCT
Celera SNP ID:            hCV26421718
SNP Position Genomic:     82831
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:26996):
ACGTGTCTGGCGTACTAATCCTGGTTCGGTTTTTGACTATGATCCAGCAGAAGACAACATCCAGTCCCGAAGCTTACACATGATTAATGGTGTGTTAGCT
R
AAAAAGGCTTACAACATAAACATCACCATTTAGTATGCTAGAGTCAATGACTTTCATTTGGGCTCTGAAGTTCCTTCCCTCCAGAGTTTTCCATTTTCTG
Celera SNP ID:            hCV25627591
SNP Position Genomic:     249589
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,23)   caucasian(G,40)   total(A,7|G,63)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,21)      total(G,21|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:26997):
ATGTAAGTGGATGTTTTGGAAAAGCCATTTCTTATTCAAAGATGTTGACAAATAGAAGCTTTTAGAGTTTTTCTTGCTAGAAATTTAGTTACCCCTATAA
R
TCTCAATTCCCTTTAGTGATTTTCCCCTATACAAAATTGTAAATGGAAAAAAAGAAAAGCACAAAATTCTAGACCCATTATACCCATCAATCAATCAAAA
Celera SNP ID:            hCV25627737
SNP Position Genomic:     125179
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,8|G,32)   total(A,10|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:26998):
ATTCAATCCTTTGGTGGTTGTTAAAATTCATGCCTTGGTTTTCAAGTTATTGGAAAACTCCAAGAACACTTGTTCTGATCACTGGTTTCCCTTTCAGGTT
Y
ACGTGTCTGGCGTACTAATCCTGGTTCGGTTTTTGACTATGATCCAGCAGAAGACAACATCCAGTCCCGAAGCTTACACATGATTAATGGTGTGTTAGCT
Celera SNP ID:            hCV25627592
SNP Position Genomic:     249488
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:26999):
CTGAGAGGCATAGGATGGGTTCCCATTGGCTCTGTAGAGGTCGAGAAAGTGAAGAGAGCTGGAGAAATCCTGAGTGACAGGAAGTATCGCCAGCCTGCAG
R
CCAGCTCAAATTCACATGCATTACCGACACTCCGGAAATTGTCCTAGCAAAGAATAATGCCCTGACAATGAGCAAGGTGAGTCTCCAGCTGTTTTCTGTT
Celera SNP ID:            hCV25627738
SNP Position Genomic:     128820
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:27000):
ATAAAGACGAGTATAACAGCTTCTTGAAGGGCATCGGATGGATCCCTATTGGTTCCCTGGAGGTGGAGAAGGTCAAGAAAGCAGGCGATGCATTAAATGA
S
AGGAAGTATCGACAGCACCCAGATACCGTCAAGTTCACAAGTGTGCCTGATTCCATGGGCATGATGTTGGCTCAGCATAACACAAAGCAGCTAAGTGATG
Celera SNP ID:            hCV25627665
SNP Position Genomic:     69843
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,36)   caucasian(C,1|G,39)   total(C,3|G,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27001):
TTACACTGTGTGTCTCATAATTGAAACTTTTCTCATCAGTAAATGACTGACAGAATAATTTCTCAGGGCAGCATTAAGAGAAATGTTCTGTTTTTTTGCC
T
TTTTTTTTTTCATCTTCTGTGTTCTTTTTACCTACTAAAGGCCTCTTTAGCACTAACAGCAAAGTACATGCATAAGTCAGTGTGATGCATCATCACAAAA
Celera SNP ID:            hCV26421719
SNP Position Genomic:     84158
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27002):
ATAAAAACTTTATTAATAACAAAAATTTTATTAAGTAATACAGTATTGTCTTGGTTTGCTTATTAATTTTAAGCAAAAACTCTAATAAAAGGGAATAATA
Y
AGATTTTATATCAAATTTGAGTAACTTACGTGAAAAGATTCCAGAAATCTTTGCCCTAACATGAAAGGGTTTTGGATCAAATCCAAAAGAAAATTTAAAA
Celera SNP ID:            hCV25627739
SNP Position Genomic:     165295
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,24|T,12)   total(C,53|T,15)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27003):
AGCCAAAGTCAACGCCCTCAACATGAGTGATGTGAGTATTTGGCCCAGTGCTAATATTGCGTATGCGGGCCTCTCCTTTCTGGTTCTTTGCAACTCTTGC
Y
CTGAGAATTGTAGGGGGCGCAATTCAGTGTGGACCCTGAGCCTCCACATTAAACCCTTAACCATGCAACATGAGCCTAGGGGGCGGCAATAAAATTTTGC
Celera SNP ID:            hCV25627666
SNP Position Genomic:     72008
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,24)   caucasian(C,3|T,33)   total(C,15|T,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:27004):
AGAAGACAACATCCAGTCCCGAAGCTTACACATGATTAATGGTGTGTTAGCTGAAAAAGGCTTACAACATAAACATCACCATTTAGTATGCTAGAGTCAA
K
GACTTTCATTTGGGCTCTGAAGTTCCTTCCCTCCAGAGTTTTCCATTTTCTGAGCTGCCCATTTGGCATAAAAATACCTTGTTAACTAGTGAGCAAAACT
Celera SNP ID:            hCV25627599
SNP Position Genomic:     249637
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(G,1|T,39)   total(G,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:27005):
GTCCTTTAGGCTGAAAACTTAATGTTAAGAGTTAAGGAGGCTCAGAGAGTGGAGGTTCCTTAATGTTTTCATTAAAATGCATAGTCCTTAGATACTACTA
Y
TAAAAAATATGGACTTCTCCCAATTCAGAAAACACTAGTTTACTTGATCCAGCAATTAGCAGTAAAAATTTCAGGTAAAGATGCTCTTCCTGAAAAATAA
Celera SNP ID:            hCV26799453
SNP Position Genomic:     237207
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27006):
AATTTTATTGCCCTGAATCTTGGACAGAGTTACAGCTGTTGAAGATCTCAGGGCTTCAGGGGTTCTACAGCACTGTTATATTTTAACTGTGTTTTTAAAG
S
CATTACAGATATTTTGAAATGTATAGAAGAATACATCGCAGGGAATAAGAATCCAAAACAATCCAACCACTAGAAAAACCCACTCTTATTCATGTAATTT
Celera SNP ID:            hCV11817064
SNP Position Genomic:     109077
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27007):
AATCTATTATTTATTTTCCCATTGCACTTAGTCTTGTGTATTAGAAGTACCATGTTATTCAAGGCAAATAGCGTTTATTCAGCTGGTGCTTTTGAGCTCC
Y
GTGATGTGCCGGGCTCTTTAGGAGGCAATGAGGGGCTAAAGCTCAATGAGACAAGCCTTCAGGAGATCGTGCAAGTGAGGGGAACAGACTTAAATTGATA
Celera SNP ID:            hCV29240581
SNP Position Genomic:     176419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27008):
TACACTGTGTGTCTCATAATTGAAACTTTTCTCATCAGTAAATGACTGACAGAATAATTTCTCAGGGCAGCATTAAGAGAAATGTTCTGTTTTTTTGCCT
T
TTTTTTTTTCATCTTCTGTGTTCTTTTTACCTACTAAAGGCCTCTTTAGCACTAACAGCAAAGTACATGCATAAGTCAGTGTGATGCATCATCACAAAAT
Celera SNP ID:            hCV26421720
SNP Position Genomic:     84159
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27009):
GCCACAACTGTATGCTTTGTGGAGCAGGTTCTGTGTCTGTTTATCTCTGTGTTCATTGTGCTTGATACCAAGCAGGAAATCAATAGAAAATTGTTGAAAA
W
AAATTGCATCAAACAGCCAGGTGTGATGACATGCACCTGTAGTCCCAGCTACTCAGGAAGCTGAGGCAGGAGGATCCCTTGAGCTCTGAAGTTTGAATCC
Celera SNP ID:            hCV26421721
SNP Position Genomic:     86013
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27010):
GGTTTGGAAAAATTACTCTTCTATTTTCTGTTCACATCTACCAGTATCTGTACAAAACTGCTTATGAGAAACAGAAAGGCCATTACATTGGCTGTCGCAG
Y
GCCAAGGAAGACCCTAAACTGGTTTGGGCAGCAAATGTGTTGAAGATGCAGAATGACAGGCTGTACAAAAAGGCCTACAACGACCACAAAGCCAAGATCT
Celera SNP ID:            hCV16184029
SNP Position Genomic:     161669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27011):
GACCCCCTACATTGCACACAGTCAGAAAATGCAGGATCTTTTTAGCCCAGTAAGTTTCAAACAACTTCTGCTAACCTGGCTTGATTATTAAGAAATTACT
K
ATCTCAACTCACTCTGTTTTGGATGCTGGCTGGATTTGTTTCTCAAACCTGTATGAAACAAAAACTTATTTTGCAAATTATAGGCTCTTGTGACTGTTGA
Celera SNP ID:            hCV25627670
SNP Position Genomic:     12846
SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,4)   caucasian(G,36|T,4)   total(G,60|T,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27012):
ATTCCATTATTCCATTTTTAATGATCTCCAGGGCAGGTCTCAAGATGAGCCATTAAAAATATTTTGCTAATTGTTTATTTTAAAATACAAAAAAAAACTT
Y
GATGTTACCTAGATTCAGACTGAAGTTGGCTTTTGCTTAATTTGTTGTATAAATTCAGTTTATATCAGACTTCTATGCTAGCCAACTTCTGTTTGCCCTT
Celera SNP ID:            hCV25627671
SNP Position Genomic:     74450
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,1)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27013):
CCGATGCCTTGAATGTGGAGCACTCCAGGAATGCCATGCAGATTCAGAGTGATGTATGTACTGGTTACCAAGTTGTTATCCATTTCTAATGGGTGGGAGG
R
AAAAACAGGAGCCACTTACTCCATCCCACACCTGGCTGCACTCACTGTAATTAAGGATTCCCTCCAGAACTCAGAGTTTTAGGATTTCACTCATTTGAAC
Celera SNP ID:            hCV25627672
SNP Position Genomic:     74923
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,11)   caucasian(A,35|G,5)   total(A,56|G,16)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27014):
AACAAAACACAAACCCTGCTTCTACCTGTGTTTTCTTTTTCAGGCCCTCTACAAGGCTGACTTGGAGTGGTTGCGTGGCATTGGCTGGATGCCCCAAGGG
W
CTCCTGAAGTGTTGAGAGTCAAAAACGCCCAGAATATCTTTTGTGACAGTGTCTATCGGACGCCTGTGGTGAACCTTAAGTACACAAGCATTGTTGACAC
Celera SNP ID:            hCV25627747
SNP Position Genomic:     164965
SNP Source:               Applera
Population(Allele,Count): african american(A,5|T,31)   caucasian(A,1|T,37)   total(A,6|T,68)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27015):
CCCTCATAGCTGACAAGCTCCAGAATGAACGAGAGTACCGGCTGGACTGGGCCAAATGGAAGGCCAAGATCCAGAGCCCTGTGGACATGCTTTCCATCCT
R
CACTCTAAAAATTCCCAGGCTCTGGTCAGTGACATGGATTACCGCAATTACCTGCACCAGTGGACCTGCATGCCCGACCAGAACGATGTGATTCAGGCCA
Celera SNP ID:            hCV25627748
SNP Position Genomic:     171055
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:27016):
CAGTGGACCTGCATGCCCGACCAGAACGATGTGATTCAGGCCAAGAAGGCCTACGAACTGCAGAGCGATGTGAGTGGGCTGCATTTGGGGTTGAACTCTT
W
TCTCAGTTTGCCATGACTTCCAGAGAGTTTATGACACTAACCCCTTCTGTCATCATTTTACGACTTCATATCACCAAGAATTTAATATTAGTGAGACCTT
Celera SNP ID:            hCV25627749
SNP Position Genomic:     171213
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,40)   total(A,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:27017):
AACAGAACAGTCTTATAATTCATGACATTCCGTGTTCGATTGTCAGGTTTTTTTCTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGAGACGGAGTCTCGC
R
TTGTCGCCCGGGCTGGAGTGCAATGGCGCCATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTG
Celera SNP ID:            hCV496561
SNP Position Genomic:     42911
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27018):
ATTTTTATAATTAATTTCTTCTGAAAGACTGTAGGGAGTAAAAAGCAGATTATTCTCCCCCTCCCAGCTTCTCTTTTTCTTTTTGATTGTAAGTAAATCA
Y
ATAGCCAAAGAAACACAAGCCCTGACTCTTTCTGAAATGAAATTTTTTTTCTCATTGTAAAGAATCTGTACAAATCTGACTTCACCAATTGGATGAAAGG
Celera SNP ID:            hCV25627679
SNP Position Genomic:     75363
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27019):
TTGACTGTAGAATCTGGTGAAATAATGTCAGTTGCCTTTTGCTTCCTTTATGTAGCTTCACTCTTACCATCAATATCTACATGTGAATCTTAAACTCTGA
Y
TTTTAAAATGACCCAGTATTTATTGGCTTTCCAATTCTGGCAATTATGGCAAATGTGGGTTTTGCTACAGGACATGTAATCTAGCCATATCAGATATTAC
Celera SNP ID:            hCV29240660
SNP Position Genomic:     215447
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27020):
GGTCACTAAAGAGAGCATAAACTTCGAAGCCAAACACACTTGGTTCTAACCCTGGCCTTGGCTATGCTGGAGAAAGCAGGATTACATCACTTAGAAGGCT
R
TTACAGCATCCACGTGTAAGACGGTGTTTTGGACCAGGAGGGTAGCAGGGCAGGTGATAAGAAGTCTTTTGAAAGCACAGCTGACTTGATTTGCTGATGG
Celera SNP ID:            hCV8413977
SNP Position Genomic:     31561
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27021):
GCGCCCGAGCAGTACACGATGACCCCAAGATAATGTGGTCCCTCCACATTGCCAAAGTGCAGAGTGACCGTGAGTACAAGAAAGATTTTGAGAAATACAA
R
ACAAGGTACAGCAGCCCAGTGGACATGCTTGGTATCGTTTTGGCCAAGAAGTGTCAGACCTTGGTCAGCGATGTGGACTATAAACATCCTCTGCATGAAT
Celera SNP ID:            hCV28947590
SNP Position Genomic:     121416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:27022):
TTTCTTTTGCTGTGCAGAAGTTCTTTAGTTTAATTAGATTCCAATGGCCTTTGTTGCCATTGCTTTTGGTGTTTCAGTCATGAAGTGTTTGCCCATGCCT
R
TGTCCTGAAAGGTATTGCCTAGGTTTTCTTCTGGGGTTTTTATGGTTTTAGGTCTTATGTGTACATTTTTAGTCCATCTTGAGTTAATTTTTGTATGAGG
Celera SNP ID:            hCV29240590
SNP Position Genomic:     182381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27023):
AGGTGGGAGGTTCATCTGAACCCTAGGAAGTCAAGGCTGCAGTGAGCCGTGATTGTGCCACTGTACTCCAGCCTAGGCAACAGGAGTGAGACCCTGTTTC
A
AAAAAAAAAAAAAAAAAAAGGAAGAAAGAAATCTTATTTTGATACTTATTCAAAACAAGCCATTTCATGAATAGAAATCCAGGCCTTCTGATTTTTTTTT
Celera SNP ID:            hCV26799465
SNP Position Genomic:     240647
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27024):
CATCTGGAACATACCACTTGGAATAGGAAGGTAGACTAGACTCAGAGATGGACTCCTAATGTATGTGTATGTTAGGTTGCTGACACTGATCAAGTTAAAT
R
ATGAAATGAAAACAAACTGAGAATCTCATCTTCAACCAAAGAAACCTCTGCCTCTTCTGAAGTTATCTGCCATTTTTGATTTTTAATATACTGAAGATTG
Celera SNP ID:            hCV29240665
SNP Position Genomic:     218821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27025):
ATTAACTTTATTAAGATATTAATGAGAATGACTTCCATTTTGGAAGAAATCAAACACCCCATTTGAATGCTAACCAAACTATACAGCATTTTCTTTACAA
R
TGTATCACCATTACTGTAATCTTGATTAAACCCACAATTTAAAACTGCTGCCGTTATTTAGAAAGCACAACTTTAGCAGAATATTTGTATGTGATTTTAT
Celera SNP ID:            hCV26799466
SNP Position Genomic:     168097
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27026):
TAAGGATATTGAGATGTGTATACATAGGAACCCTCATTCTCTGTTAGTGAAACATAAAATAGTGTAAGGATTTTGACTGGCAACTTGACAATATCTATCA
R
TTTTCAAAATGTGCATATATCTTCTGCCTCAGTATTTCTATTTCTAGAAATTTACCTTACAGATACATTTCATATAAGTATACAAAGGTAATGTACAGGG
Celera SNP ID:            hCV130700
SNP Position Genomic:     4130
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:27027):
GCTCTCAAAAAACCAAGTTGGAGTAAAGGCAGGTTTTAATTCGTCTTCTAAAACTGCTTTCTTCCCCACTTCCCAACCCCGATGTTCAAAGGGACAGAGA
Y
GAAGAGAAAGTTCTGAAAATGGAACTCTGTCTCTTAGTATCTGTATAGCAATAGAAGAAAAGATCTACTCCTTATTCTTTGCTTCAACTAGCTAATCATC
Celera SNP ID:            hCV130701
SNP Position Genomic:     7692
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27028):
ATTGTGTACCTTTGCCACTGGAAATTGTCCTTAGTGCTAGACTTGATTGATTCAACTAGATGTCATAAAAAAGGAGGTGGCTATTTTTAGACATCCCATC
S
CTACCATTTTGTTCCCATTACAGCATCTGGGTCTGACCAGCAGGTGATAAACGAATAGACTGCCTGCCAGAAAGTATTGAACTGAGATCTCTTTGACCTC
Celera SNP ID:            hCV130702
SNP Position Genomic:     8850
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27029):
GATCTTGGACATCTGAAATAAAGTTTTACTGTTCTCTCTACTCTAACTTAAACTTGAAAAGAAAGAGAGAGAAGCAAGGATGCACTATCTAATTAGTGGC
R
CAGCTCTAAAAAAAGAGTGAGATTTGGCATACAAGTTAATGCCAACCATTTAAATAATGTTGCCTCTTTTATAAGCGTATTTCTAAGATGGATTTACCAA
Celera SNP ID:            hCV130703
SNP Position Genomic:     9186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27030):
AAGGACTATGATCTGAGAGCAGATGCTATTTCCATCAAAAGTGCCAAGGCCTCCAGGGACATCGCCAGTGACGTGAGTACCTTCCATCTAACTCTCTGTG
R
TCTCCACTGTGCTGAACAACCCAGAGGGTGGCTGGTGAACCACACACTCTATAGTGATTTCCACATGTACCTTCCAGTCCTACTTCCTACCTCTCAAGAC
Celera SNP ID:            hCV132235
SNP Position Genomic:     130595
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,18)   caucasian(G,34)   total(A,14|G,52)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27031):
TAGTGGAAATTTTGGTTGGCCTCCAGTCAATGAAGAGCATTGCTGGAATTCTGACACAAATATATACTCCCATCTCTCTTTTGTTACAGAGGTGCAAATC
R
CTGAGTTTTGGAAGAACTGTTATTTTATTATTGTGTGCTATGAGATTGGATCTTAGTCTCTGTCTTAACCTGGTTTATATAATCATGGAACACTAATTAA
Celera SNP ID:            hCV29240598
SNP Position Genomic:     185573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27032):
CATATTAGCACCACTCTGTTTAGGACAATCACACTATTGAAAGGGACTCACCCATCACTCCAGAAGAAACTTATTACTTACTAATCAGGAGGGTATAGGA
R
TAATTGAGATGTGGATATACTTTGGGATCTTATTATTTCCATGATGCAATCCATTTAAAAATGTATTCACACTCGAGTTTCTGTTTTAGTTTATTGTTAG
Celera SNP ID:            hCV130705
SNP Position Genomic:     10321
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27033):
TTGTGATTGGCATAGGGACAAGCAGTTTTACTGTGTGGAGTTATAACTTGTAGGACACCATCTCTGCCACCAGGGATGGTGTCTCCAGGGCTTCGTCCCT
R
ATGATGCATTGAAATGCTACTCAGATTTTAGCACATTAGCAATTCTAAATAACCTATTACCATAAATATTCCACGTTCAAGCTCTTTTTTTTTCAAGGTG
Celera SNP ID:            hCV130706
SNP Position Genomic:     11323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27034):
GTTTGGAAAAATTACTCTTCTATTTTCTGTTCACATCTACCAGTATCTGTACAAAACTGCTTATGAGAAACAGAAAGGCCATTACATTGGCTGTCGCAGC
R
CCAAGGAAGACCCTAAACTGGTTTGGGCAGCAAATGTGTTGAAGATGCAGAATGACAGGCTGTACAAAAAGGCCTACAACGACCACAAAGCCAAGATCTC
Celera SNP ID:            hCV16184036
SNP Position Genomic:     161670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27035):
ACCTACTACGTAGATAGGACTGTTGTGAGGATAATTACCCCATTATGTTGTCATCATTATTCTTGTCCACCTAAGCATTTATTAGTGTAAATGGCACTCC
R
GTTCACATTAATTAACTGACTAAGCCAAGGGAATGAAAATCTCTTATAATATTGATGCGATTCATTTTTTTAAAGTTCATTATTCTTTGTCTCCTACTAC
Celera SNP ID:            hCV130708
SNP Position Genomic:     11979
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27036):
GTCGCAGCGCCAAGGAAGACCCTAAACTGGTTTGGGCAGCAAATGTGTTGAAGATGCAGAATGACAGGCTGTACAAAAAGGCCTACAACGACCACAAAGC
S
AAGATCTCCATCCCTGTGGACATGGTGTCCATCAGCGCTGCCAAAGAAGGTCAGGCACTGGCAAGTGATGTGGACTATCGCCATTACCTGCACCACTGGT
Celera SNP ID:            hCV16184037
SNP Position Genomic:     161762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:27037):
TGTATAAACTGGGGTGTCATCAACATACAGAGAGTGTTTCATGCCATGAGTCTGGAGAGCATCAAGGGAGTGAGTGTAAACAGAAAACTTTAGGGGCTGA
R
CTCTGGGGTCCTTCCATGGGAACATATATGTAAGATGAGGGAGAAGCAAAATCAGGAGAGGGCAATGCGTTGGGAAGCAAGTGAAGGGGGAAGGGAGTCA
Celera SNP ID:            hCV28972091
SNP Position Genomic:     31983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27038):
GAAATCATAAATACAGATTTAATTTAGGCCAGTTCACAGAAGCTACTTAACATATTTAAACAATGTCAGCAGAATAGCTTCTTAGTAGACTAGCTAACAG
Y
ATATAAAAAGGTATGTAAAGAGGTGTATAGTGAAGAAGAACATTTATTTTAAAAATCCAAGATCAGACTAAGAACTCATTTGAAATTGAGGATCTGAATG
Celera SNP ID:            hCV130709
SNP Position Genomic:     13186
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27039):
TTTGAAAGCACAGCTGACTTGATTTGCTGATGGATTGGATGACACGGGTTTTGGTCTAAGCAGTTAGATGAATGGGGTTTCCCTTTATTGAGACAGGGAA
K
ACTATGGAAGAAGTTGGTAATTTTTTTGGAGGACAGACAAGAGCTCATCTTCAGATATGGTAGATTTGAGATGCCTTTTAGACATCCACATGGAAGTGTC
Celera SNP ID:            hCV28972092
SNP Position Genomic:     31729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27040):
AAAGCCAAGATCTCCATCCCTGTGGACATGGTGTCCATCAGCGCTGCCAAAGAAGGTCAGGCACTGGCAAGTGATGTGGACTATCGCCATTACCTGCACC
R
CTGGTCTTGCTTTCCCGACCAGAATGATGTGATCCAAGCCAGGAAAGCCTACGACCTACAGAGCGACGTAAGTGTGTCCCCCAGGAAACAAGTCCCCCAT
Celera SNP ID:            hCV16184038
SNP Position Genomic:     161857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:27041):
TTATGGTAAGACCCTCTTACTGACTGCAAAGTGAGATTAGTACAAGTTAAAGGGACTCTTTTTAATTATTCTTTGCCTGAGGAGCCAAATTGTACAGTTA
Y
GAAATTGATTAATTTAGCATCTCCTCACTGGAAAACATAAGTCTATTGTTTTTCTTTTCTCTTAAGTTCCCTGCTCCTGGCCCTTAAGAGATCTTTCTTG
Celera SNP ID:            hCV28972093
SNP Position Genomic:     30425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27042):
TGCCCATAGAGTCCCTGGAGGTGGAGAAGGCAAAGAAAGCAGGAGAGATTCTTAGTGAGAAGAAGTATCGCCAGCACCCCGAGAAGCTGAAGTTCACTTA
Y
GCCATGGACACAATGGAACAGGCACTTAACAAGAGTAACAAACTGAACATGGACAAGGTAAGGACTCACCTGCCAGCCTCGCCCAGGGAACCCTCATGGT
Celera SNP ID:            hCV25627680
SNP Position Genomic:     75575
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:27043):
GGCCCAATTGCCCCTTCCCAATCCTAAGGTTTTTCTCCTTTGACAACAAGCAAGAGGTAGGGCCATGTCTCTCCAAAAAATGATGCATTAGGAGATCCTA
R
CCTGAGGTATGTGTACATCAAGAACCTCTGAAGTTATAACTGTTTGTGAGCATTTTATAGCTTTCTCAGTTTCTTGAAGAGGTCTGTCTCCAAAAAAAAG
Celera SNP ID:            hCV28972094
SNP Position Genomic:     28394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27044):
GTACTTTGTTCTCTTTTACCATTTTCATCACCATAATTTCTTCTCTGTCCACAGTACAAATACAAGAAAGCCTATGAACAAGCCAAAGGGAAACACATTG
S
CTTCCGGAGCCTGGAAGATGACCCCAAGCTGGTGCACTTCATGCAAGTGGCCAAGATGCAGTCAGACCGGGAATACAAGAAGGGATATGAGAAATCCAAG
Celera SNP ID:            hCV25627681
SNP Position Genomic:     77151
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,38)   total(C,1|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27045):
TTAAAAAACTAATCTTTCAGTGACATATTGTTACACAGCATGAGGATACCAGGCCCAGGCCCTCTAAAACCATGGAGATTCTTCCATCACATAGAATTGG
R
AAGATTTCCATTGATTTCACCAGAAGAGATTTGATTGAGTCAAGCAGGCAGTGTTAGGCCCACTGTGGACAATAAAAATACCAGCTGGGTTCTTTATACC
Celera SNP ID:            hCV28972095
SNP Position Genomic:     27079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27046):
TCTTCAGTGAGGTATTCCAAGATTTTACCCTGACATTCAGTACATTTCCCAAGAAAGTGACAAAATGCACAAGCTAAAATATAGTCATCTAATATCAGCA
R
TCTTAACCATTTCAATTGCTGTGATTTAAACTGAGCATATATATTTTTCAAAATGTACTGTCGCTATCACATTATGGGACCACATCCATAATATAATATC
Celera SNP ID:            hCV25627756
SNP Position Genomic:     172084
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,2)   caucasian(A,25|G,11)   total(A,49|G,13)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,353|A,564)   total(G,353|A,564) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27047):
ATGGATGTGTCATCCTGACCAGAACGATGTTATTCAGGCAAGAAAGGCCTATGACCTACAGAGTGATGTAAGTGATTTTTGTTTCTTCATTATCTAGAAA
Y
GCATGGTACACTCTGAGAATGATGAGCAACATCCCAGATCCACAAGTGCTTGAAATTTGAGGCCATCGATATTTAATTTGTTCCCAAAGGGAATTGAGGC
Celera SNP ID:            hCV25627757
SNP Position Genomic:     174128
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27048):
AAGGCCTATGACCTACAGAGTGATGTAAGTGATTTTTGTTTCTTCATTATCTAGAAACGCATGGTACACTCTGAGAATGATGAGCAACATCCCAGATCCA
Y
AAGTGCTTGAAATTTGAGGCCATCGATATTTAATTTGTTCCCAAAGGGAATTGAGGCTGGATATGAAGAAAGATCAGGAGCAGTGATGGATTGATTGGTT
Celera SNP ID:            hCV25627758
SNP Position Genomic:     174171
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,35|T,3)   total(C,71|T,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,47|C,1226)   total(C,1226|T,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27049):
CCCCGGTGGACATGCTCAGTGTGGTGGCAGCCAAGAAGTCTCAGGAAGTGGCCACCAATGCCAACTACAGGAACGTGATCCATACCTACAACATGCTTCC
Y
GATGCCATGAGCTTTGAATTGGCCAAAAATATGATGCAGATTCAAAGTGATGTACGTGAAAACCACATTTGCAGAGCGTTTACTCTGGATAATAAGCAAC
Celera SNP ID:            hCV25627688
SNP Position Genomic:     77365
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:27050):
TGGATGGCTCCCTCTGGGCTCCCTGGAAGCAGAGAAAAACAAGAAAGCCATGGAGATTATTAGTGAAAAGAAGTACCGCCAGCACCCAGACACTTTGAAG
Y
ATTCCACACTCATGGACTCGATGAACATGGTTTTGGCCCAGAATAATGCAAAAATTATGAACGAAGTAAGTCTTTCAATAATGCAGTGTTTCATATGCAT
Celera SNP ID:            hCV25627689
SNP Position Genomic:     78764
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,40)   total(C,3|T,73)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(T,38)   total(C,3|T,73)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:27051):
GTTTAGACTACTATATTAAATATTTATAGATCTTCAAACTTCAATGACTTACACTTTAACGGCTACTTGCAAAGAGCAATATGTAAAGCCTGGCACATAA
Y
ATACTTATTAACTGGACATCAGAAAGCACGAAACCCAATTTGTTTTACAGATCAAACTATCAATAAATTTTGATAAATTTTTAAAACCTATTACTTAACT
Celera SNP ID:            hCV27520752
SNP Position Genomic:     261346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:27052):
GTAGATTTGTTCATTGCCCAGTCAGTGCCTCTGAGGACAGTCCCCTGGGCTGTGCACTGCACAAACCTGGGGGTGGGGCTGGGGGTACCATTCACATTGT
K
TAATATAAAATCCATCTTTAGTAGTAACTTCTGGCAATGAAAACATATTTCAGACAAATATAAATCATCTGAATGTTTTTAAAATAATTGTTGCTATTAT
Celera SNP ID:            hCV27530449
SNP Position Genomic:     131414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27053):
GCCTGAACATTTTCTATTTACCAATGCATATGACACTGACTGTGCACATGTAAAGAAGCTACATATTATTTCAGCTATAATGCTTTATTTTTTAAAAATT
Y
CCCTTGGTGTTAATCTATAGAAAATGTCAGAAAATACCAGTCACTGCCCTGCCCCCAACTGTTCGCTGTGAGTTGGTTAGCCTGACTTCTCATGTATGGC
Celera SNP ID:            hCV2057500
SNP Position Genomic:     187081
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27054):
ATATAACTTCTGGCTCCTTGGATGACTGTGTTTTTTCCTCATCCTTAAAAAGTCCCAAGAAATGAAATGTTACTCATGGTTGTTTTTCTGGATGCTTTCT
Y
ATCGCACAGGTGTTATACAAAGAAAACATGGGCAAGGGAACCCCTTTACCTGTCACTCCCGAGATGGAAAGAGTCAAACACAATCAAGAAAATATTAGCT
Celera SNP ID:            hCV26799470
SNP Position Genomic:     243532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27055):
GAGTTTGCCTTGTTTTGTTCTTTAGTATATTTCCATTTCTCCATAGTCTAGAGTTAAGAGGAGGTTATGTAAAATAGGGACATTGTCACAGGCCAGCTCT
K
GGGGGTGGCTGAGCTGGAGAAAGTTGCTAGGAGCAGAGCAACCATCTCTCAGGAAGGCGTATGGCATTCTTATTAAACTGCAGTCCAGGTGTGCCATCGT
Celera SNP ID:            hCV2057501
SNP Position Genomic:     187967
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27056):
GCTTAAACTTTCCTAGAAGAGTAGTTATCAAGTGTCCTAGAAGACTCTAGAAGCCCCATATAAGTGTTGGTTACACTGTTATAAAATTCAAATGCATCTC
R
GTCTGTTGAGTAGTGCTGATGAATATAAATCTCATGAGTTAAAAGCAACCAAACCCTCTGTGAAAACCAGCAGTTTCAAGCATAAGGAATGGTCCAACAT
Celera SNP ID:            hCV2057502
SNP Position Genomic:     188360
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;(G,-|A,-)   JBIC-allele(G,485|A,1006)   total(G,485|A,1006)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27057):
ACAAAAAATAGCCAGGCATAGTGGTGGCTCACCTGTAATCCCAGCTACTTGGGTGGCTGAGGCACAAGAATCGTTTGAACCTAGGAGGCAGAGGTTGCAG
Y
GAGCTGAGATCGTGCCACTTCACTCCAGCTTGGGTGACAGAGCGAGACTCTGTCAAAAAAAAAAAAGTATATATATATATACTTTTATATATATATTTTA
Celera SNP ID:            hCV26799472
SNP Position Genomic:     168642
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27058):
TGAATATAAATCTCATGAGTTAAAAGCAACCAAACCCTCTGTGAAAACCAGCAGTTTCAAGCATAAGGAATGGTCCAACATGGGCTTGTTTTCTTCCTCT
Y
GGCAGATCAAGTATAAAGCTCACATGTTGAAAACAAGGAATGACTACAAGCTTGTCACAGATACACCAGTCTACGTGCAGGCTGTCAAAAGTGGGAAACA
Celera SNP ID:            hCV2057503
SNP Position Genomic:     188480
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,38|T,2)   total(C,74|T,4)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:27059):
TAAATTAGAACCAGCTATGGTAGAATAAGAAGCAAGCAGGCTCTGGAGTTAGAGTTGTGGAGTGCAGTCTCACCTCTACCACACATTATCTATAAGGCTT
R
TGAAAAGCACTTAATCCATCTGAGCCTCCCATTCTGATGCATAAAATGGGGACGTAAGGAAGCACCCACTATGACGCCTGACACAAAGCAGGCAGGGCAG
Celera SNP ID:            hCV2057504
SNP Position Genomic:     188996
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27060):
AGAGGTGAAACTTGGTTACCTATCTTCTCTGCATTTCCCAAATTCTTGCTAGATGCCATACAGCCAACTGGGCATATGTTTGGAAGCACAGAGGAATTAG
W
GTTTTTTTTTTTTTTTTTTTTTTTGGAGACAGGGTCTCCTCTGTCTCCCAGGCTGGAGTGCAACGGTGCAATCACAGCTCACTGCAATCTCAAATTCCTG
Celera SNP ID:            hCV2057506
SNP Position Genomic:     190970
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27061):
AGGTGAAACTTGGTTACCTATCTTCTCTGCATTTCCCAAATTCTTGCTAGATGCCATACAGCCAACTGGGCATATGTTTGGAAGCACAGAGGAATTAGTG
K
TTTTTTTTTTTTTTTTTTTTTTGGAGACAGGGTCTCCTCTGTCTCCCAGGCTGGAGTGCAACGGTGCAATCACAGCTCACTGCAATCTCAAATTCCTGGG
Celera SNP ID:            hCV2057507
SNP Position Genomic:     190972
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27062):
CAGACCCCTGGGCTGAAGCAATCCTCCTACCTCAGTCTCCCTAGTAGCTAGGACTACAGGAGCATGCCACCATGACTGGCTAATTAAAAAAAAATTGTAG
R
ATCTCCTAATTATTTTTTCATAGAGGTAGGGTCTTGCTATGTTGCCCAGGATGGTCGTAAACTCCTGGCCACAGGTGATCCTCCCACCTTGGCCCCACAA
Celera SNP ID:            hCV130711
SNP Position Genomic:     13602
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27063):
TTTTTTCCTAATCTCAATCATTTTCTATATCCTCGATATTTCCTCCCCTCTTCCTTATGTAAAATATTTTATTCTTGATTAGTCAGTAGATGCCCTCGTC
R
TCCCCTACTAAATGCCTGTAATGATATTTCCTCCAACGTAGAGACTGTATCGGGAATTGTACCACAAACTGAAAGACAAGATCCATACAACTCCCGATAC
Celera SNP ID:            hCV2057508
SNP Position Genomic:     193481
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,11)   caucasian(A,31|G,9)   total(A,52|G,20)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;JBIC-allele(G,264|A,1191)   total(G,264|A,1191)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27064):
GTGGGCTGCATTGCTGAAATAAAGGAGAGGGACATTTCAAAATACACCTACTGCTGGGAATTGTGGGCTCTAAATATGTGCTGTGAGAATGAGCAGTTGA
R
TTACTATGAGCTAGTTCACAAATCTAGAAAAGCATGAACCATAGATCATGTTGCTGTAAATGTGAACCCAAAGAAACTTCTAAAAGCTTGGCTTAGCAAC
Celera SNP ID:            hCV130712
SNP Position Genomic:     15132
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27065):
TGTTGTCTCTAAACTTATTTCAAAATTTTCTTTCTCTTTAATTCCTGCTATCAGGAGCCCCGAGCATGGCAGTGCCATTGGAGAAGTCTTCAGTGGCTCC
Y
TGCTCTGCTGCCCATTCAGTACAATTCAGACTACTTAGTTTCATTTTCATCTGGCATTGAGGCTCCTGATATATTGCAGTTATTTGTGAATAGATCTGAT
Celera SNP ID:            hCV2057509
SNP Position Genomic:     196096
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27066):
TTGGAAAACTCCAAGAACACTTGTTCTGATCACTGGTTTCCCTTTCAGGTTTACGTGTCTGGCGTACTAATCCTGGTTCGGTTTTTGACTATGATCCAGC
A
GAAGACAACATCCAGTCCCGAAGCTTACACATGATTAATGGTGTGTTAGCTGAAAAAGGCTTACAACATAAACATCACCATTTAGTATGCTAGAGTCAAT
Celera SNP ID:            hCV26799479
SNP Position Genomic:     249537
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,21)   total(A,1|-,21) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:27067):
TGAAGTGCTTCCTGGCTCCTTACATTGTGTTAGCACTTGTAAGTGCTATTAATAAACAATGACAAATAATGACCAAAAAAAAAAAAAAAAAAAAAAAAAA
R
GAAGGCAGGTAGAGTCACAGAGAAAAGTTGAAACAAAATCAGACACATCTGCCCCTCTGAAAATAAGAAAAAGCAGGGCATGCTATCAGTAAAAATGACT
Celera SNP ID:            hCV130714
SNP Position Genomic:     16736
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27068):
ATGCCCATCACTGCAATGACGTTCAGAGTGAGGTAATACATCCTGATGGGAGTGCATTTTGCAAAAGTGGGACCTTGCTCCCAGGGATTCCAGTTATGCC
R
AAGGCAGAGATAGCACCTTCCAGGTGTTCAGTTTCAGTGTGGCAGACCTGGCCAGGCTTGGTGATGGTTGGAGTACCTGCTCACTTTTCGGTCTTTCTTC
Celera SNP ID:            hCV16184045
SNP Position Genomic:     173260
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,20|A,1457)   total(G,20|A,1457) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27069):
TACCTGCCATGTTGGGGTAGATAACCTGTGGTGGTAGACCTGTCTTAATTGTCTCCGTTTCTTTACAGATCAAATATAAGAAAAATGCCCTTGAAAACTA
Y
CCTAACTTTAGAAGTGTGGTGGATCCTCCAGAGATTGTTTTAGCCAAGATTAATTCTGTCAATCAAAGTGATGTAAGTTTGCTTTGTGCATGCTGAAGTG
Celera SNP ID:            hCV16184046
SNP Position Genomic:     175689
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,12|T,28)   total(C,15|T,63)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:27070):
AGATCTTGAGTGATGTATGATGTCCCTTCTGCAGCTTGACTCAGCTACAGCTTCCATGACTGTGTCTTGGCTACCCCCCAACCCTGGCTGCCATGCTCCC
R
TTGTCCCTGTATTCATAAATCTTGCTGCTTCTCAAAACAAAGTGGCATGAGCCACTTTTTGGTATAAGAATCCACCCTAAGCCATAGGACACATATGTTA
Celera SNP ID:            hCV16184047
SNP Position Genomic:     178738
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,190|G,1301)   total(G,1301|A,190) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27071):
GTACATTTAAATCATATTCTCAATTTTTAAATTATGTTACAGATCTGAAAAAACAAATTCTTTCACTTAAGCTTTTAAAATTCATTATTTAAACCTTCTT
M
AAAACATAAGTTTTAGAAATTATGGTGGACTCAGTATCTTACCTATAGATGTGGATCCTATTTTGGATGGTCCCATTTTGGGAGACAGACTATTTCACAA
Celera SNP ID:            hCV28035093
SNP Position Genomic:     95592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27072):
CATGCATAAGTCAGTGTGATGCATCATCACAAAATCTGGGTTCTAATCCTCAGTGGCCTCAGCAGGTTGCTCAGCTCTCTGGGTCTCAGCTTATTCATCT
R
TAAAATGAGGAGAGTAATAAGAACTTTTCTATCTACCTCACAAGGGAGAGTTGTATTCAGTTACATCAATAAATATGAAAAATTAGTCTGAACTATAGAG
Celera SNP ID:            hCV25627691
SNP Position Genomic:     84325
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,28)   total(A,61|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27073):
TGTTTGTATAAAAGAAAACTTGTTTTTGATTCCTTTGCTTGGTACTAATGTGGTTTTAAAGTATTGTGCTTCTTATTGACACAAGACATTTAGACCTGAA
W
ATGTCACAAATACCGATTCACTGAGCTGAAATTCTTGATTCTCATTAAAAATCAGACTGTCTGCATGTGTCTATTTATTACTGGCCTATACCAGTCATGT
Celera SNP ID:            hCV101500
SNP Position Genomic:     98027
SNP Source:               Applera
Population(Allele,Count): african american(A,19|T,17)   caucasian(A,38|T,2)   total(A,57|T,19)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27074):
TGACTTCTAATTATATTCTCACACACGAATCATAACAAATTATTTTAGTGGCAGAATTACATCTTAATTTTTCTTTTTTTTCTGTGTGTATAAATATACA
S
ACATTCTTTGCAGGCAAAGATAATTTTTATTGAATCTGCGGTACTTATCTAGAATTGTGCCTGACACATAGTAGATACTCAATGAAATTTTGGATCATTG
Celera SNP ID:            hCV101501
SNP Position Genomic:     99880
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27075):
TTAATTCTGTCAATCAAAGTGATGTAAGTTTGCTTTGTGCATGCTGAAGTGCACAGACTGGGGAGTAAATTGTCTATCATTGGGTGGATTAGCTTAACTT
Y
AGATAATTGCTTGTAAAAAAATTGGGAGGTGGTAAATTCTAAGATCATCTTTGGGGGGTATGTCTTAAAAGTCACTAGCAGGTGGTGAATTGTATTCACT
Celera SNP ID:            hCV25627766
SNP Position Genomic:     175839
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,19)   caucasian(C,4|T,6)   total(C,11|T,25)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,27)   caucasian(C,17|T,23)   total(C,26|T,50)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27076):
CTCACACACGAATCATAACAAATTATTTTAGTGGCAGAATTACATCTTAATTTTTCTTTTTTTTCTGTGTGTATAAATATACACACATTCTTTGCAGGCA
R
AGATAATTTTTATTGAATCTGCGGTACTTATCTAGAATTGTGCCTGACACATAGTAGATACTCAATGAAATTTTGGATCATTGAGCATATAAAACCCATG
Celera SNP ID:            hCV101502
SNP Position Genomic:     99897
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27077):
TTTATAGTAATAAAAGATTTGGTTTTCTCTCCTTAGGTAAAATATAAAGAAACATTTAATAAAGCAAAGGGCAAATATACGTTTTCACCAGATACACCAC
R
TATCTCCCACTCCAAAGACATGGGAAAACTCTACAGTACTGTAAGTTCTCTTTTATGTAATAACCACTCAATTTCTAATTTGAAGCTCTTGTTGCATTCA
Celera SNP ID:            hCV25627767
SNP Position Genomic:     176178
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,37|G,1)   total(A,71|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:27078):
GAAAGAAGTTGAAAGAAAACTTTTGTTGCCATGTATTTCTTTGTTCTAGATACTGTATAAAGGGGCGTGGGAGGGCACCAAGGCCTATGGCTACACCCTG
R
ATGAGCGCTACATTCCCATTGTTGGAGCCAAGCATGCTGATCTGGTGAACAGTGAGGTCAGTATGACCTTTTCCTCTCCTAAGTTTGAGAGTCTTTACTG
Celera SNP ID:            hCV25627768
SNP Position Genomic:     177383
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:27079):
CCAGAGTTGGTGCGTTTGAAAGCACTGAAGATGCTGCTGGCTATTGTTTCCTGAAACCTGATGCATTCAAGCAGTTTGCTGGGGCGGAGTTGTAGGTGAT
S
CGAGTCTATGAAGTAACTTTGTGCCTTAGCACTTCCAACGTGTTTTTTGTGCCCTGTGTCATAGCAAGTTTATTTCTATCTAGGCCATTTAATAAATTAG
Celera SNP ID:            hCV27875914
SNP Position Genomic:     188803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27080):
TGCTCTGTCTTTTCACAGAATCTATATAAATCTGACCTTGAGTGGCTGAGAGGCATAGGATGGAGTCCCTTGGGTTCTTTAGAGGCAGAAAAGAACAAGC
R
GGCTTCGGAAATCATCAGTGAGAAGAAATATCGTCAGCCTCCAGACAGAAACAAGTTCACCAGCATTCCTGATGCCATGGATATAGTTCTGGCAAAGACA
Celera SNP ID:            hCV25627699
SNP Position Genomic:     90717
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,1|G,37)   total(A,2|G,72)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27081):
GGCAGTTTCTTAAACAGAAGAATGTCCATGGTCCTTCAGCTATGAATCAAAGAAGGGCAGGACCATCTTCCTCAAACTTAATTTGAAAAGTTAGCAGCAC
R
CTCCAGACCACTTGTTTCCTTTTACTTGACGTTCTTCACAATGTGGTCTTTCATTAACTCACCTAAGGCATTTTTAGATTTACTCGTATTTTCCGCCCTT
Celera SNP ID:            hCV27875915
SNP Position Genomic:     162955
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27082):
ACAGGCAACTTGGCTGAGAAAAGAAGAATGAAGGCCATTGGCTAGAGACTGGAAAAGGCTTAATTAATGACAGGAGGTCTTGAGTCTGTTTGCAGGTGAA
R
AGAGGGGATTGGGAAAACAGGAAGGGTGGAAGATACAGAGGAGATGGAGACAGTTGCTGGAATAGGGTACTAGAAGGGACAACTGCAAATGGGACCAAGA
Celera SNP ID:            hCV2057510
SNP Position Genomic:     199373
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27083):
TGAGTACATACTTACTTGTTCACTGCTAGGAAACTCTTGGGTTTTAATCTCATTGACTGAAGGCATTTATTTGAATTTGATGAAAAATCAACTCTGTTCA
R
CCCCTCATGATTCTTCTAGAACTCTCTCCTTATTAATATGTCTCTGGGTGGTTTCTCCTATTAAAGCTGATATGACAGCCAATATAAAGTGGGATTATTT
Celera SNP ID:            hCV2057511
SNP Position Genomic:     204354
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27084):
GATTGAAGATAGTAAGTAGATTCAACAGCATGTAAAAGGTCTGAATATTTAATGTTTTCATCTAATGTGTCTCTTGTTCAATTATCACTACAACTGTTGC
R
GGGAGATGAGGATTACCGTGCAGCTCTATGAATATTGTATATATTCATGGCGCCTCTTGACTTTGATGCTGAATTGCTAGGTTATTTCCAGCACATCTGA
Celera SNP ID:            hCV2057512
SNP Position Genomic:     208234
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27085):
TCCCTCCTATCCAAACCCACATATACCAAAACTTGCTAGGTATGTCTCCAGCAATGACAATATACAGTTCTATATATTTTTAAAAGGCAGAATGATTGCT
R
TATTCATCAGTTCATTCATTCATCAAATATTGTCTATGTGCCTGACACTAGGAATGAGATGATGGATGATAAACAGTTTTTGCCCTTAAGGGGTCCTTAA
Celera SNP ID:            hCV2057513
SNP Position Genomic:     211086
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27086):
TGAGCTGGTAGGGAAAGGCTTCTCTTCCATCAGCAGTTATCAAGATGTTCTGAACTCAAGATTTGCTGATTTGGGGAAAGGAAAACCTGAATGAATAGGG
K
TCCAACTGGTCCTTTCAGCACAAGCACAGAAACAAAAATTATATGGCAGGCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGAAAGGCTGAGG
Celera SNP ID:            hCV2057514
SNP Position Genomic:     211384
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27087):
TACCAACTGGAGCCTAAATTTTTTTTAAAAAACTAATCTTTCAGTGACATATTGTTACACAGCATGAGGATACCAGGCCCAGGCCCTCTAAAACCATGGA
R
ATTCTTCCATCACATAGAATTGGGAAGATTTCCATTGATTTCACCAGAAGAGATTTGATTGAGTCAAGCAGGCAGTGTTAGGCCCACTGTGGACAATAAA
Celera SNP ID:            hCV243832
SNP Position Genomic:     27055
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27088):
GTGCCTGGCAGAAAATAAATACCTAGTGTTTGATCATTTTTGGTAAAAATTAAACCCGAATTTAGTTTGAAATTAAAAGTACTCGATTCTGAAGATGATT
R
GGCTGGACTGGCAGAACTAGAGAGATTGAAGAATCATTTCACCCGGAGGCCTTTAAAAATTTTAGCCTCTATTTCGGGACCACAGGGTCCCAACAGATGA
Celera SNP ID:            hCV2057515
SNP Position Genomic:     213399
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27089):
AATTATATTTAAATGGAATTGGGTCATTGTTATTAGTATATTTGTAAATCCTAAATTCAAGAACAACTCTTACAATCTGAGGATCCTTTTGCATCTATGT
Y
TGGTTCTGCAACTCTTGCGTTTAAGCACAGATTTTGATTTTCTTTTCAATATCTTCACAATGTCACTTAATTTACAAGTACTTAAAGAGATTTAATTTCA
Celera SNP ID:            hCV29240686
SNP Position Genomic:     160650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27090):
ATCCCTGCAGCAAAGCGATGTAAGACAGGAGAGACACAGACGATTGTAACTGCATACTGCACCTGAGAAATACAATGAATAATTATTTATAATAACCACT
R
TCATGAGTGTTAACCCTTGCTCGTTTGAGATCCGAGAAGGAGAGGAGGATGGTTGGGGGAGCGATAGGCGAGCTCAGAACCCAAACCTGCCCATGGAGCC
Celera SNP ID:            hCV2057516
SNP Position Genomic:     213863
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,17)   caucasian(A,8|G,28)   total(A,25|G,45)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   JBIC-allele(A,266|G,1227)   total(G,1227|A,266) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27091):
TCCAATTCTGGCAATTATGGCAAATGTGGGTTTTGCTACAGGACATGTAATCTAGCCATATCAGATATTACTAACCTATTAATAACAGAAGGAAACATTG
Y
TGATTAGGAGTGGCCTCTCCTATTATTAAACTGCTACCCAATTTTAGAAAGGTAAAACTACCTCTTTGGGCCTCAGTAATCTCTGCCTGCTCTATCCTTA
Celera SNP ID:            hCV2057517
SNP Position Genomic:     215577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27092):
CAGGTTCTCCGAAGATTGCCAGGTGGTTCTAGTGTTGGGTTGCAGGACACAAATGACAGAGAAGAACTAGAATATGGGTCTTATCTAAGTCCCAGACTGA
Y
GCCAAAATGGGGAGCATGGATTTTCCTGGAGATTTCACAGTTCTTCAAGTAAACCAACTCTGTTCCCAGCTTCCTCTACTCATAAAAGTAATTCTGGCTC
Celera SNP ID:            hCV2057518
SNP Position Genomic:     215881
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,19)   caucasian(C,11|T,27)   total(C,26|T,46)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|C,7)      total(C,7|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27093):
AGACTTAAATTGCTGTTGGTTTTGCTAGTTAGGAGTGCTAAAATGCTCCAAATCAAGTACATTAAATCACATCTCTGAATTTAGCCTGAAGCCTTTTCCA
T
TTTTTTTTTTTTTGTTTTGCATTAGAAAGAGGTGATTACTTTTTATACCTTGGAATAATATAAAAATGAGCAAGGCCAGTGATCATATATTTGAATGCCT
Celera SNP ID:            hCV2057519
SNP Position Genomic:     221207
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27094):
TCTTGCTGCTTCTCAAAACAAAGTGGCATGAGCCACTTTTTGGTATAAGAATCCACCCTAAGCCATAGGACACATATGTTAAATATTTAATTGGTTTCAC
R
ATAGACTCAGACATTGATATTGCTCTCAAGCTTCTTTAGGCTTGGGAATTAAAGACCTTCCAGCTGGTGAGAGGCCTACCCTATGTCTTCTAAGCAATAA
Celera SNP ID:            hCV16184054
SNP Position Genomic:     178858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27095):
CATTGATATTGCTCTCAAGCTTCTTTAGGCTTGGGAATTAAAGACCTTCCAGCTGGTGAGAGGCCTACCCTATGTCTTCTAAGCAATAAGCACAGCCAAC
R
GCTGATAGGAAATTATCAAATGCTCAATTGTAAATTCAGAATACCTTCCACATTTCATTGTTCTCTCTTTCTTGCAGAATGTGTATAAAGATGACCTGAA
Celera SNP ID:            hCV16184055
SNP Position Genomic:     178970
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,21|A,1479)   total(G,21|A,1479) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27096):
GCTAGAGAAAGCAAATATGGCAAAAATGTTAATAAATTGGATAGTTGGTATTCATTGTAGCATTCTTGCAACTTTTCTGTAAGTTTGAAGTTTTGCAAAA
K
GTGGAAAGTATACATTTTAAAATATTAAAACATACATTAAAATATTTGACTAAGTGTGATAATATAAAGATTTCATTTTTTAAATAAAGAAAAAGAAATA
Celera SNP ID:            hCV8414298
SNP Position Genomic:     118552
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27097):
AAGTGTGATAATATAAAGATTTCATTTTTTAAATAAAGAAAAAGAAATAGTCATATTCATCCTAGTAGTTACTATGATGCATGTCTGAAAGTATTAAAAC
R
AAACTTTACCAAACATGGCTGGGTGCAGTGGCTCATGCCTGAAATCCCAGCAATTTGGGAGGCTGAGGCAGGAGGGATCACTTGAGTTCAAGAGTTTGAG
Celera SNP ID:            hCV8414299
SNP Position Genomic:     118704
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27098):
AGCTATTTGACAAATGCACTTTAGAATAAACAACCATTACTGAAAGACTACCAAAGGCATGGTAGACAAGCTGTTTTTGCCTGCTTTCTGTGCTTATATC
R
TAATTATTGATGCTGTCTTTATTAACTTATGGATAAAAGATAAAACTATATTCCACTAACTATGAGAGCCACTTTGATTCACAGCAAGAGGAGATGGGTA
Celera SNP ID:            hCV11818549
SNP Position Genomic:     68781
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,38|G,2)   total(A,74|G,2)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27099):
ATTCTCAATGTTTAACCCACTTTACAGCTTAAATACAAAGAGACATATGAGAAGCAGAAAGGTCACTACCTGGCTGGAAAAGTGATCGGTGAATTCCCTG
R
TGTGGTTCACTGTCTGGATTTCCAAAAGATGAGGAGTGCGGTAAGTAAATGTCCACTTTAACACGGGATTTGTGCCCCATAAGTGTGCTGCCGTGTCTGC
Celera SNP ID:            hCV25627775
SNP Position Genomic:     177616
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27100):
TTCCCTGGTGTGGTTCACTGTCTGGATTTCCAAAAGATGAGGAGTGCGGTAAGTAAATGTCCACTTTAACACGGGATTTGTGCCCCATAAGTGTGCTGCC
R
TGTCTGCCTGTTTATAACTTGCCCTTTGGTTCAGGTTAGCTGGGAAATGGAGTAGCGTAGGGTCCTTCCTGAGATTTTCCTCACCCCTCCAAGTCAGCCT
Celera SNP ID:            hCV25627776
SNP Position Genomic:     177709
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,39)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:27101):
TTTTTCTAGCAAAAATACAAAGAAGACTATGAAAATAAAATCAAAGGCAAATGGAGTGAGACACCTTGCTTTGAAGTTGCAAATGCCAGAATGAATGCTG
R
TAACATTAGCACAGTTAAGTGGGAAGGGATGGCTGGTTGGTCATCCTGGGAGGGAGACCCCTTTCCTTAGTGACTTCTAGCTACTTGCTCTACCTGAATG
Celera SNP ID:            hCV25627777
SNP Position Genomic:     30077
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,39|G,1)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27102):
AGTTCTGGGAATTTACAAAATTACTAAATTTTTAAGATACAGTCATATACCGCATGATGTTTTTGGTCAACAGCAGACCACCTGTATGACAGTGGTCCCA
Y
AAGATTATAATGGAGCTACCCTATGCAGGTGTACCATTTTAAAACCTTTAATACCATATTTTTACTGTACCTTTTCTATGCTTAGAGGTATCAAGATACA
Celera SNP ID:            hCV2057520
SNP Position Genomic:     223427
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27103):
AGAAAATTTTATTTATACAACAGGCTTGAGGATCTTTTGAGACTGTCAGGTTTTTTAACAAGTCAGTCAATATGTAAACTAGTTTTCATTTTTATACCAA
T
TTATTGGCTGCATTAAATATATGGCCAGTCAGGACCCACATAGAGTTGTTTACTTATAAATAAAGCTCCATGTGTTATCCATTCAATCTAGACCCCAGGT
Celera SNP ID:            hCV2057521
SNP Position Genomic:     224160
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27104):
TGGTGTAACACAGTCAAAAGTAAAATCTAACACCCTTTCAAAAGGACAATGTTAATTAGAATTTTATTTGTATTTATTGTGGCTGTTTAATGTATTCTTT
R
TGTTTGCAGCTTTTAAGTTTTTTTTTTTTTATGTTTAGATGTTTATTTATTTTTCCATAAGTTTGGGAGGTACAGGTGGTATTTGGTTACTAAGTTCTTT
Celera SNP ID:            hCV2057522
SNP Position Genomic:     238842
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27105):
ACTAAGTTCTTTAGTGGTGACTTGTGAGATTTTGGTGCACCCATCACCCAAGCAGTATACACTGCACCATATTTGTAGTGTTTTATTCCCTCGCCTCACT
Y
CCACTCTTTCCTGCAAGTCCCCAAAGTTCACTGTATCATTCTTATGCCTTTGCATCCTCATAGCTTAGTTCCCACATATCAGTGAGAACATACAATGTTT
Celera SNP ID:            hCV2057523
SNP Position Genomic:     239031
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27106):
TAGGCTCTGGGGACATTCAGAGCAAAGGGCAGAAACTGAGGAATTAAGTAGCTGTTTGGAGCTGGGGCAAACTCGACATCTTGGCCTTATTTCTGAGTCA
R
TCCACTCATTTGATGCCAGGAATTCCTTGCTTAGAATATCTTGGGAGTTCTTCCTCTCCTTTCAAGCCCTAAGTTTAGAACAGTTTTTAGGCATCTTAGC
Celera SNP ID:            hCV29240694
SNP Position Genomic:     227983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27107):
AATTTTTACACAGATTGCATTTAGGCAAAATTGCCCAGTGGTGCATAAGCCTATTAGATACTGTGGAAAATAGACAATGCCACATATTGAACCTCTATAC
Y
TGACCATCTCTACAACAACTTGAACTTAATGACAAGGACCAAATTGCCATATTGCATAGATTTGGCCTGTTAAATATTTGTTAGACCGTAAGACAAACGC
Celera SNP ID:            hCV2057524
SNP Position Genomic:     241413
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27108):
TGGTAAAACATTAATATAATCATTTAACTTAATAAAAAAAGTGTTCAGTATTATATTCCTGCTTTTACAAATGTAACATTCTCAGTGTCTAAGCATCCAC
W
TTTATACTGCTTTGGCAAATTTGATCTGAACCTAAAGCTTAAACAAATGTATTTTGCAAAGATCCGACTATTATCCTCGTTTCTTATTCTAACCTTTTCT
Celera SNP ID:            hCV2057525
SNP Position Genomic:     242223
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,4)   total(A,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27109):
AGATGGAGAGAGTCAAACACAATCAAGAAAATATTAGCTCGGTACTTGGGCAAGAAAAGAAAAAAACTACTTACTGATTTTAAAAACTATTTCATGATTT
M
AAATAATACATATTAATCCTATTTTCTAAAGACAAATTTTGTGAACTTCTTTCTTTAGCAAATTTATCCTTTTTTCCTTTGGGCTACTTCTAGCCTAACA
Celera SNP ID:            hCV2057526
SNP Position Genomic:     244379
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,7)   total(A,7|C,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:27110):
ACCTCTCAACAAATGAAATGTTACTCATGGTTGTTTTTCTGGATGCTTTCTCATCGCACAGGTGTTATACAAAGAAAACATGGGCAAGGGAACTCCTTTA
S
CTGTCACTCCCGAGATGGAGCGAGTCAAACACAATCAAGAAAATATTAGCTCGGTACTTGGCGAGAAAAGAAAAAAACTACTTACTGATTTTAAAAACTA
Celera SNP ID:            hCV2057527
SNP Position Genomic:     244931
SNP Source:               Applera
Population(Allele,Count): african american(C,21|G,11)   caucasian(C,30|G,8)   total(C,51|G,19)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:27111):
CGTGCCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCTCTGTCTCAAAAACAAAACAAAACAAAACAAAAAAAAACAAACAGCTGATGTATTAGGA
R
CAGCCTCAACCTTCTCAGTGTGATTGAAGCTCATGCCTGTAACTCCTGTTTGGATCATCTCTCAGGGGCTTGACATTGAGAGACTAGCGGTAAAATGATG
Celera SNP ID:            hCV2057528
SNP Position Genomic:     246648
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27112):
GGTCTGTTATAGAGGGGGCCAGAGAATTTGCATTTTTAACAAGTTCTCATTACTGACCTTGCTGTCCAAGGACCCCACGTTGAGAATCACTATTTCAACA
S
AATTCTTCCTCTTCAATGTCATTTCCTAAATCTCCCACGTTTCCAAGAATGACACTGAGGGGAGATACCGAGGTTGAGGATTTATCATGATGTGTTACTA
Celera SNP ID:            hCV27470670
SNP Position Genomic:     245977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27113):
ATACTCTGAAATGGATGCCTTCTTTGGATATATTTTGGGGTTTTAGTGTCTGGAGGACTTTGATTTCTATATTAGCATATTGGTTTATGAAGTCTGGACA
Y
AACCTAAGGAAAATAATCACTTGTTTTAAAGGACAGTTCTTTCAAATTCCCTACAATGTCAGATTTAGAGCCAAATACCATCGAATATGTTGATGCTGTA
Celera SNP ID:            hCV2057529
SNP Position Genomic:     248380
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;JBIC-allele(C,259|T,1238)   total(C,259|T,1238)
SNP Type:                 INTRON


Context             (SEQ ID NO:27114):
GCTCCACCCCCACGTCTACCCAGGCACATTCCAGCCCTGTGACTTGGACTGCTTTCATTTCCTCAAGGTGGCCAGGCCATTTCCAGCCTCAGGTCCCGAA
Y
GCTCTTCCTCTGCCCCTCTCTCCAAGTTTGAGTGTAAATGTTACCTCTGCAGAGTGGCTTTACTGACCATCCTTGTTTCTTTGCTACAATGATTCCATTG
Celera SNP ID:            hCV11818551
SNP Position Genomic:     71397
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27115):
AATCTACGTCTCATTGGTGTACCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATCTAG
C
AAAGCAGGCCAACGTTCAGATTCAGGAAATACAGAGAACGCCACAAAGATACTCCTTGAGAAGAGCAACTCCAAGACACATAATTGTCAGATTCACCAAA
Celera SNP ID:            hCV27055406
SNP Position Genomic:     37234
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,1)   total(C,1|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27116):
ATCTACGTCTCATTGGTGTACCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATCTAGC
A
AAGCAGGCCAACGTTCAGATTCAGGAAATACAGAGAACGCCACAAAGATACTCCTTGAGAAGAGCAACTCCAAGACACATAATTGTCAGATTCACCAAAG
Celera SNP ID:            hCV27055407
SNP Position Genomic:     37235
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1)   total(A,1|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27117):
TCTACGTCTCATTGGTGTACCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATCTAGCA
A
AGCAGGCCAACGTTCAGATTCAGGAAATACAGAGAACGCCACAAAGATACTCCTTGAGAAGAGCAACTCCAAGACACATAATTGTCAGATTCACCAAAGT
Celera SNP ID:            hCV27055408
SNP Position Genomic:     37236
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1)   total(A,1|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27118):
CTACGTCTCATTGGTGTACCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATCTAGCAA
A
GCAGGCCAACGTTCAGATTCAGGAAATACAGAGAACGCCACAAAGATACTCCTTGAGAAGAGCAACTCCAAGACACATAATTGTCAGATTCACCAAAGTT
Celera SNP ID:            hCV27055409
SNP Position Genomic:     37237
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1)   total(A,1|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27119):
ACTAAAGTCTTGTTTTCTACTATTGTTGCTGGGAGCATTGTTGGATTCTGAATTCCACAACAGCAAATGGAACTTCATTTCAGAAAGAGTGTATTGAAAG
R
AATATGTCTAGCAAAGATGGTCAAAAGCATAATAGGCTTTTAATAGAGGAATAAAAGGGAAAGTAAGAAATCAGATAACCTGATAGCTCCAGCCCCTCCC
Celera SNP ID:            hCV11818556
SNP Position Genomic:     77697
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27120):
AGCAAGGGGAGGGGGCGTTAGTACCCTCTTTCTCCATTCTCTATCCCTATCGCCCAACTTTCTGGTTGGGTAAATTGACAGTACATTGGAAGATTTTTTT
W
AAAGGCATTTATTAAGGACCTAAGAATGGCTTGCTGAAGATATTTTTAAAAGTTAATCATTATTTCTTAATTTGCTGTCTTATTTGTCAATTCATGAGTT
Celera SNP ID:            hCV25627784
SNP Position Genomic:     29852
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,35)   caucasian(T,40)   total(A,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:27121):
GCCCCTTCAGTTGACCCAAGCGTCCCTCACCAGCTCCTATCCATCTCTATCTGCTGGAAAGGCTTTGAGGTTTCAGATTTAGGACAGCACCACTCATTCA
Y
GGTCTCTCCTGCATCAGGTTCTTTATTCTGATAGTTTCCGGAAACAAATACAAGGCAAAGCTGCCTATGTATTGGATACCCCCGAGATGAGACGGGTGAG
Celera SNP ID:            hCV2057530
SNP Position Genomic:     248748
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,21)   caucasian(C,7|T,33)   total(C,20|T,54)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;JBIC-allele(C,181|T,920)   total(C,181|T,920)
SNP Type:                 INTRON


Context             (SEQ ID NO:27122):
TGGTGTTGTACACCTGTAGTACCAGCTGTTCAGGGGGCTGAAGTGGGAGGATAGCTTGAGCCTAGAAAGTTGAAGCTGCAGTGAGCCGTGATTGTACCAC
Y
GCCCTTCAGCCTGAGCAACAGAGACCCCATCTCAAAAAAAAAAAAAAAGGATATTATGTAGAGACAGTCCTCAAAGGATTTATACTCCAGTTTTCTGATC
Celera SNP ID:            hCV2057531
SNP Position Genomic:     250174
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27123):
GGGCTGAAGTGGGAGGATAGCTTGAGCCTAGAAAGTTGAAGCTGCAGTGAGCCGTGATTGTACCACTGCCCTTCAGCCTGAGCAACAGAGACCCCATCTC
A
AAAAAAAAAAAAAAGGATATTATGTAGAGACAGTCCTCAAAGGATTTATACTCCAGTTTTCTGATCAAGACACAGAAGTAAATCCATGGTTGCATTCTGA
Celera SNP ID:            hCV2057532
SNP Position Genomic:     250208
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27124):
CAGCTTACAAACATGCAAAAACCACAGAGCTCCCACAACAACGATCATCTTCAGTTGCTACCCAACAGACAACGGTATCTTCCATCCCATCTCATCCATC
K
ACTGCTGGAGTAAGTGAATAACAACTCACTTAAATAAATTATTCTTAATTTTTGATATGTGCAAACATGATTATAAGTATTAGGTATTACGGTTTTTTTT
Celera SNP ID:            hCV2057533
SNP Position Genomic:     251280
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,38)   total(G,1|T,75)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:27125):
TAAACATTTGCTGGGCATAGTGAATCATGCCTATAATGCCAGCACTTTGGGACGCTGATGCAGGAGGATTGCTTGAGCTCAGGAGTTTGAGACCAGCCTA
K
GCAACATAGTGAGACTTCATCTCTACTAAAAACCAAAAAATTAGCCAGGTGTGGTGGTGCATCTATAGCCCCAGCTACTGAGGAAGTTGAGGTGGGAGGA
Celera SNP ID:            hCV2057534
SNP Position Genomic:     251656
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27126):
CACTGTACTCCAGCCTGGATGACAGAGGGAGACCCTGTCTCAAAAATCAAGAATGTATAGATGTATGCAATGTGCCCACATATATACATGCCTTATCTTA
S
ATCTCCCCTATTAATATATATAGAAATGGTAAGCCAAATCATCTTCACAGTTCACCAGACTACTTCACAACTCTTAGTTTAAAACCCTGGATCTCATTCA
Celera SNP ID:            hCV2057535
SNP Position Genomic:     251903
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27127):
CTGTCTTTTTTATCATCACCATTCTGGCATGTGTGAAGGGGTATCTCATTGTGGTTTTAATAATTTGCATTTTCCAGATGACTAATTTTGAGCATCCTTT
Y
GTGTGCTTTTTGGCTATTTGTCTATCTTTTTTGGAGAAATGTCTATTCATATCCTTTGCCTCTTTTGGTGGGGGAAGGCATTGAGTTGTAGGAGTTCGTC
Celera SNP ID:            hCV2057536
SNP Position Genomic:     255017
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27128):
AATTTTGAGCATCCTTTTGTGTGCTTTTTGGCTATTTGTCTATCTTTTTTGGAGAAATGTCTATTCATATCCTTTGCCTCTTTTGGTGGGGGAAGGCATT
R
AGTTGTAGGAGTTCGTCATATGTTCTGGATATTAATTGCCTATCAGATACATGACTTGCAAGTATTTCCTATTTTGTGGGTTCCTTTTACTTTGTTGATG
Celera SNP ID:            hCV2057537
SNP Position Genomic:     255100
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27129):
GATTTGCATTTCTCTAATGACCAGTGATGATGAGCATTTTTTCATATATTTGTTGGCCGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTC
R
CCTACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGATTCTGGATAGTAGCCCATTGTCAGATGGATAGATTGCAGA
Celera SNP ID:            hCV26799210
SNP Position Genomic:     182136
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27130):
GGACCCCACGTTGAGAATCACTATTTCAACAGAATTCTTCCTCTTCAATGTCATTTCCTAAATCTCCCACGTTTCCAAGAATGACACTGAGGGGAGATAC
Y
GAGGTTGAGGATTTATCATGATGTGTTACTATGTTTCTCATTTTCCACTGATTCGCCATGATAGTGATATAAGAGCCAAAAACCTTATTCCTTAATGATA
Celera SNP ID:            hCV27509188
SNP Position Genomic:     246046
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,324|C,1133)   total(C,1133|T,324) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27131):
CTGGTGCCATTAAATTTTCTTTCTACTTTATTTGTTTGTTTATGCATTTTTTTCTCTTTCAGATCGCTTACAAAGCCAAAGGAGAGGAAATTATTCACAA
W
TACAACCTGCCACCAGACCTGCCCCAGTTCATCCAGGCTAAAGTTAATGCCTACAATATCAGTGAGGTGCGTGGGTGGACTCACGGGCTGATGCGTATGT
Celera SNP ID:            hCV367600
SNP Position Genomic:     60975
SNP Source:               Applera
Population(Allele,Count): african american(A,19|T,15)   caucasian(A,4|T,30)   total(A,23|T,45)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,5)      total(A,2|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:27132):
AATCATGAAAAACTCTTCCTTTTCGCTTCAAAATAAATTTCAAGGATTTTGACGTATTAATCTTCAGTGGAAAACAAGATTGTTTTTCTCTTTTTGATTT
R
CCAAACAGAAAAAATATCGCCAACATCCAGACACCCTCAAGTTTACCTCGATTGAAGATGCTCCAATTACAGTACAGTCTAAAATTAACCAGGCCCAGAG
Celera SNP ID:            hCV367601
SNP Position Genomic:     60123
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,26)   caucasian(A,2|G,38)   total(A,10|G,64)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27133):
TCTTGATTTTCCATTCTACTTAAAATGCCCAGAGTAAAAAACAACAGTTTGAATTTTGTATCTAAAACGTAAATTTTTGGTACCACCTATGGTCAGACAA
Y
AAGAGTAGCATTTTAATAGCGTCAAGTAACTGTGCCTCAACTAGGACCAATTCCAAATAATAACCGCCCTCTTATGCAAATTAACGAGTGCAACTGTTTT
Celera SNP ID:            hCV367602
SNP Position Genomic:     57561
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27134):
GTAAGCAAACGACCCTTGTGGTTCTATAAGAGCATGCCCTTCAAGGTTAGGAAGAACTGATCTGGCTTGCACCCTATCACTGTTTCCCTCTGGGAAATAT
R
TCAACCTTGCTAAGTTTAGAGTCCTCCTCTGTAAAATGGAAATAAATCAAAAACATTGTTTGGAGGATGTAAATGCATGCAAAATACTTAGCATGGTGCC
Celera SNP ID:            hCV367604
SNP Position Genomic:     56397
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27135):
TTTGAAGTTGAGTGAGGTTTTTGCACTTCTTAGAGGTATCTGCATTGTCCTATGTATGTAAGCAAACGACCCTTGTGGTTCTATAAGAGCATGCCCTTCA
R
GGTTAGGAAGAACTGATCTGGCTTGCACCCTATCACTGTTTCCCTCTGGGAAATATGTCAACCTTGCTAAGTTTAGAGTCCTCCTCTGTAAAATGGAAAT
Celera SNP ID:            hCV367605
SNP Position Genomic:     56340
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27136):
TGCACATCTGTACTTGCCAGCTTGGGTCACCGTCTCTAACACATATGTGACCATGGGAAACTAGGATGAGTTTAGAGTTTTCTGAAAGGCAGTGGGTCAA
M
ATTTTTCTGTCAAAGTAATTGGTGAGTGGATACAATGAAGCTGGGAATTTGACCCAACTAGCACCTTGTCTAACCATTCCAGAAAACCAGACAATGAAGG
Celera SNP ID:            hCV367606
SNP Position Genomic:     55182
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27137):
GTATGTGGTCACAGTCACTATCAATCACTCTTCTTATTGGCTTAGGTGGGCAATGGACTCTGCCTTGGAATTACTTCTTGCATAGTTCTCAATCTTGTGC
R
TTTTTGCCTTTGGCTCCAAAATTAAACAGCCTCATCCGTTCTTTACACTCCCTTCCTTACACCTAACGTCACCTTTTAAAAAATTTAAATAAAGTTCTGT
Celera SNP ID:            hCV367607
SNP Position Genomic:     51330
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27138):
AATCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGACATGTGCCATCACGCCCGGCTAATTTTTGTATTTT
Y
AGTAGAGACGGGGTTTTACCACATTGGCCAGGCTGGTGTTGAACTCCTGGCCTTGAGTGATCTGCCCACCTTGGCTTCCCAAAGTGCTGTGATGACAGGT
Celera SNP ID:            hCV367608
SNP Position Genomic:     48153
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27139):
CAGCTACTTTTAAGGGGAAATTTATCATTAACTCACTTGAGCAGATTATCACTTTAATGTGATCTGTGCCTCCTATGAAAGGTGCTGAGCTTAGTTAAAT
R
ACAATTGTTTTTGCTCCTGCCTGGGAAGACATCCAGGACACATGAAAGCCCTGCTCAGCTTACACATGCCAGACATTTGAAAGACAATATGACATGAATC
Celera SNP ID:            hCV25627504
SNP Position Genomic:     195112
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27140):
TAAAAGCAGTGAAGGCATCTGCAGAGAACATAACATGCCCATGAAACAGAAATGATGGTGATAACTTGGTTTATGTCTAGCTGGTCTACAGAGCTGCAGG
S
AAGAAGCAGAAGTCAATCTTTACTTCAGTTCCTGATACTCCTGATCTTTTAAGAGCCAAGCGAGGGCAGAAGCTTCAGAGTCAGGTAAGCTCAGAGGTTC
Celera SNP ID:            hCV25627505
SNP Position Genomic:     199731
SNP Source:               Applera
Population(Allele,Count): african american(C,32|G,6)   caucasian(C,39|G,1)   total(C,71|G,7)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:27141):
ATTTATGCAGTTTCTCTGCTGCTTTTAAGAGTTACTATGAGTATTTTGTTTATAAAATGTCAAGCTGCCATTTTTCTAAAGAGAAAATTGATTTGTGGAA
R
TATGTCATATTCATAATAGAGACGGGGGCAAAAATAACCCATAGAGTTACTTTATCATTTTATTTCACTCCTACAGGTAAAATACAAAGAAGACTATGAA
Celera SNP ID:            hCV25627506
SNP Position Genomic:     33447
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27142):
TTATAGGAAGTATCTATTGTAACTTTTGAATGGAAGTTTAAAAATGAATTATACATATGAAGACAAATTTTCTAAGAAACTTGAAAACAATTGTTCCCTA
K
AAATACGTTAGGCACTTTTGTTGTTGGCCAGTAGAGTCCTTTGGAGACTCAAATATTACCTCATTGATATCATAGCTCCTTGTTTTAATCAAGCTCTGGT
Celera SNP ID:            hCV26799152
SNP Position Genomic:     127840
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27143):
AAAGGGCAGCACCCTGGGTGCAGGAGTCATTCCCTCTGAAGGATGTTTCTCCTCTGAGCCAGGGAAGGGGTGGGAGACGCAGGGATGAATATGGAGAAGA
Y
AAGTGTGTAGCGTTTCTTCACTCTATGAAAGAGGAAGCTGAGAGTAAGGTGGGGTTGATTGTGGGCTTAAGGACAGTGTTGGGGTTTTAGACTGGCCCCT
Celera SNP ID:            hCV453644
SNP Position Genomic:     21922
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27144):
CAGGAAAGCAGCTAAAGACAATAAGCACAGCTGTTCCAATAAAACTTTATTTCTGGATACTGAAATTTTAATTTAATATGTTTTCATGTGTCACAAAATG
Y
CCTTCTTTTGACTTTTTTCACCATTAAAAAATGTAAAAACCAGTCTCAGCTCACAGATAGTACAAAAAACAGGTGGCATGCTAGTTTACCAATCTGTGCT
Celera SNP ID:            hCV26799153
SNP Position Genomic:     260284
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1|-,5)   total(C,1|-,5|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:27145):
GAAATTAAGCCAGGCTTGTTTGTGGAATTTGTGTAAATACATTTCAAAATCTGTCTTTTGTATCCCAATTGATTTGATGTCCATGAAAGCTTTTGGTATA
R
GCACTAGGTAGATATTATTGGGATAAGATACAGTTAGACTTGGTTAAAGTATAAAGATGATTGGGACCTTGGGATTATTCAACTGCTTTACTTGATAAAT
Celera SNP ID:            hCV453645
SNP Position Genomic:     20996
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27146):
CAGGATGTCATACTTAATAAACATTTATCCTATTCAAATGTTGCTTTTACCCTAAGGACTTAACCAGCCATGAAATATCCTGTTGTCCTATGCCTAAAAT
R
AAGTCTTCAGTTTGTATTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTCTCACCCAGGCTGGAGTGCAGTGATACAATCTTGGCTTATTGGCTTA
Celera SNP ID:            hCV453646
SNP Position Genomic:     20562
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27147):
ATCTGATTTGTCTGAAACTTCTTGGCAGGATGTCATACTTAATAAACATTTATCCTATTCAAATGTTGCTTTTACCCTAAGGACTTAACCAGCCATGAAA
W
ATCCTGTTGTCCTATGCCTAAAATAAAGTCTTCAGTTTGTATTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTCTCACCCAGGCTGGAGTGCAGT
Celera SNP ID:            hCV453647
SNP Position Genomic:     20537
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27148):
ATTTGATAGAAACATAATACTTAAAGTTCCAGGGAACAAACGTCTCACATTTGGTTAACTGACAATTTCACTTACTCTTTGAAGTGCAGCTTTGACTCGA
R
CATTTTCCAGGTTGGAATTAGAGTACCACAGACTTCCATTAAGTTGGAAATAAGGATGAAATGGAACATAACACCAGTTAGAAGGAAAGCAAAAATCGAA
Celera SNP ID:            hCV27906534
SNP Position Genomic:     57924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27149):
TACTCAATTTGGACTTAGTAAGCCAGTTCAGACTGATTGGGATTTACTTCTAATGGAATCTATGGTCTGATCTTGCCATGAACCAAAATTATACACACCA
R
TTTGATGGTGTCTCCAACTTTTGAGGTCTAATTTTTAACGCCACCCTCTTCATATCACCTGCAAGTTTAGTGGACATCTTTTTCTATTTCACTTTCTATG
Celera SNP ID:            hCV453648
SNP Position Genomic:     18436
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27150):
AAATGCATTGCTGATACAGAGATAAATATTTATTGGCTATTTGTGTCAACAGAATATGTACAAGTCTGATCTCCAGTGGATGAGAGGCATTGGCTGGGTG
Y
CCATTGGCTCTTTGGATGTGGAAAAATGCAAAAGGGCAACTGAAATTTTGAGTGATAAAATCTATCGCCAGCCTCCAGACAGATTCAAATTTACCAGTGT
Celera SNP ID:            hCV318008
SNP Position Genomic:     101002
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,14)   caucasian(C,7|T,33)   total(C,31|T,47)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27151):
AAAAATGTATGCATTAATATTTAATAGAATATTGATTGTATTCTTAAAACCTTTTGGAAAACATCACTAGATATTTTCATATTTTCTTCTAATTGAAAAA
Y
AATTTTTAAAATGATAATTTTCAAACTGTCTTTACTTTGGAAGACATTTATGAGTCACAAAAATCTTAATAGAGTATCGTTCTTCATTGACTTTAGTAAT
Celera SNP ID:            hCV27906535
SNP Position Genomic:     53862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27152):
TGGGGTGGAACCGGGGAACACAACAATTATGTTGAGGAAGGCCATTTGCTACAAAATTTCAGATTTTTATAAATCTTAATTTTCATTAGTTTATATCTAC
M
CGAATTTGGGGCAAAAGAAGGACATGCAGATTTAAGATAAGTGTTCATTATTTAACAAATTCTATGTGAGAAGCCATGCTGGGCCAGGCACTTTCCTTGG
Celera SNP ID:            hCV27906536
SNP Position Genomic:     49329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27153):
TTAGCATTGCCTAATCCATGGAGTTGCAGGTTTTCTTCTGTGGCATTCAGCATCCTAGGCATAAGAACAGAGGAAGTTGGCCAGGCGCGGTGGCTCACGC
Y
TGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGACCATGAGGTCAGGAGATCAAGCCCAGCCTGGCTAGCATGGTGAAACCCCGTCTCTACTAAAAA
Celera SNP ID:            hCV453649
SNP Position Genomic:     22354
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27154):
AGAGAACCCACAGCTTAGGCAGCTGAAGGCAGCAGGAGATGCCCTAAGTGACGTAAGTATATTTTTGTCAAAGTGTTTTTAAACCTTAGCTGCAAAAGAG
R
TGAAAATTTTCTCCTTTAATGACTAAATGAATATATAACTTTGCAAATACATTAAGGTTATGGAGTGGTAGGTTCATTGGAACTATGTAACCACAGAAAG
Celera SNP ID:            hCV25627515
SNP Position Genomic:     33689
SNP Source:               Applera
Population(Allele,Count): african american(A,32)   caucasian(A,39|G,1)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27155):
TTTCTTCTATTATTCAGTATCTGTATGTTGAACTTGCCACCAAAGAGAGACCCCATCATCACGCTGGAAACCAGACCACAGCCTTGAAGCATGCTAAAGA
Y
GTGAAGGACATGGTCAGTGAGGTAAGATGGGAATTCAGCACTGAGGCACTGGGTAAAAAGAAAAATACTTTGTTAAAACCTTCCCCTGCTACCTCTGATC
Celera SNP ID:            hCV25627516
SNP Position Genomic:     200544
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27156):
TACTTGTGTTGGGCTCTACAACTCACCATATACATATACATATATTTTTTAGCAACCTCCCTCTTCTGAAATTCTCCAGAAAGAAGCCATATTTACATTA
M
CTTTGGGTAAGACTTACAGCTGTCTTTGTGTTTTTTATAACAGATAAAATACAAGGAGAACTACATGAGCCAGTTGGGTATCTGGAGGTCCATTCCTGAT
Celera SNP ID:            hCV25627517
SNP Position Genomic:     203242
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,21)   caucasian(A,6|C,20)   total(A,15|C,41)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,11|C,17)   caucasian(A,6|C,20)   total(A,17|C,37)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27157):
AATAATTTTGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTAGGAGGTCATGGCAGGCAGATGGCTTGAGCCTGGAGTTCAAGACCAGCCTG
R
GCAACATGGTGAAACCCTGTCTGAACAAAAATACAAAAATAAATAAATTAGCCAGGCATAGTGGCATGCACCTGTGGTCCCAGCTACTTGGGAGGTTGAG
Celera SNP ID:            hCV26799232
SNP Position Genomic:     190409
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,12)   total(G,5|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27158):
CCCGTCTCTACTAAAAATACAACAAATTAGCCGGGCACGGTGGCGGGTGCCTGTAGTCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATGGCCTGAACCC
R
GGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCTACTGCATTCCAGCCTGGGCAACATAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAGAACAGAGGA
Celera SNP ID:            hCV453650
SNP Position Genomic:     22538
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27159):
TAAATAAATTAGCCAGGCATAGTGGCATGCACCTGTGGTCCCAGCTACTTGGGAGGTTGAGGTGAAAAGATTACCTCAGCCCAGGGAGGTCAAGGATGCA
R
TGAACTGTGATGGTGCCACTGCACTACAGTCTGGGTGACACAGTGAGACCCTGTCTCAAAAATAAAATAAAAATAATTTGGTTTTTCATATTTTAAATGT
Celera SNP ID:            hCV26799234
SNP Position Genomic:     190549
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27160):
AAAGCATAATCGTTTTTAAAATACATCCCTGTCTTTTATTTCATCAGGTTGCCTACAAAAAAGGTCTCGCTGAACAGCAAGCTCAATTCACGCCTCTGGC
Y
GATCCTCCAGATATAGAATTTGCCAAGAAAGTAACCAATCAAGTGAGCAAGGTAAGTAAATAGAGCTGGGACATTGCCGCCTCCCTTGAAGACTCTGCTT
Celera SNP ID:            hCV453653
SNP Position Genomic:     23017
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,14)   caucasian(C,28|T,2)   total(C,30|T,16)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:27161):
TCAAGTGCCATATCCCCCCTGATACTCCTGCTTTTATCCAGCACAAAGTCAATGCCTATAACTTGAGTGATGTAAGTTCCTTATGCCCTGTACCATGTGA
K
GTACTGACAACCTGTGCTTTTATGTTTGAACTGCTTTGTTGCAATTCAATGAATAGATTAATGTTAAAAATGAGAAGAACTGTTAACATTTGTATCATGT
Celera SNP ID:            hCV495109
SNP Position Genomic:     45413
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,27)   caucasian(G,32|T,8)   total(G,39|T,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,6)      total(G,5|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27162):
GGGAGTTTAACTTAATGCCCTTTGAATTATATTTAAATGGAATTGGGTCATTGTTATTAGTATATTTGTAAATCCTAAATTCAAGAACAACTCTTACAAT
Y
TGAGGATCCTTTTGCATCTATGTTTGGTTCTGCAACTCTTGCGTTTAAGCACAGATTTTGATTTTCTTTTCAATATCTTCACAATGTCACTTAATTTACA
Celera SNP ID:            hCV28036663
SNP Position Genomic:     160626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27163):
GTAAGCAAGTTGATTTTGCACAGACTTGTGGCCTCTAAGGGGTTACAATAAAAACCTGATTTGTGCATTTTCATTTTAGTACAAATATAAAGATGGTTAC
Y
GCAAGCAACTTGGCCACCATATTGGAGCCCGGAACATTGAAGATGACCCCAAGATGATGTGGTCCATGCACGTAGCCAAGATCCAGAGTGACAGGGAGTA
Celera SNP ID:            hCV29108715
SNP Position Genomic:     107068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27164):
GCCCAGTGGACATGCTGGGGGTGGTGCTGGCCAAGAAGTGCCAGACCTTAGTCAGTGACGTGGACTATAAGAACTACCTGCACGAGTGGACATGCCTGCC
Y
GACCAGAGCGATGTCATCCATGCTCGGCAGGCCTATGACCTCCAGAGTGACGTGAGTACAGCATCTATAAATGGAGCTGTGCATAGAAATAATTTAAACT
Celera SNP ID:            hCV29108716
SNP Position Genomic:     107307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:27165):
AAGGGGGTAACCTAAACCAGTATACTTCAATGCAGTATAAAATTGGATGTGATTCTATAATTTTTCATATCTACAATTATGAGAAATTCATCTCCATATT
Y
TGAGCATAGAGCCTCACAGAAAATAGAAAATGGCAAAAGAGGTGTTAAAAAATAACTTAGTTACATGTATTGGTTCAATATCAGAAGAAGAGCTGATAGA
Celera SNP ID:            hCV29108717
SNP Position Genomic:     111771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27166):
GAGGCTGAGGCAGAAGAATTGCTTGAATCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGTAAGACTCC
R
TCTCGGAGGGAAACAAAAAAAGGAAATTATTAGTAGTAGTATCATCTGCTCACTCCATTTCACTTTTGCTATCAGACACAAATTTATAGTAAACATTTCC
Celera SNP ID:            hCV25627524
SNP Position Genomic:     209143
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,1|G,27)   total(A,1|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:27167):
CCCTATTCAGATAAACAATAGCACCAAGAAAGAAAATTGCTCCATATTGAAACCAAAAGAAATCTTATTTGGGGCCAGGCGTGGTGGCTCACACCTGTCA
Y
CTCAGCACTTTGGGAGGTCGAGGCAGGCAGATCACTTGAGCCCAGGAGGTCGAGACCAGCCTAGCCAACATGGTGAAATTCCATCTCTGCTAAAAATAGA
Celera SNP ID:            hCV28036667
SNP Position Genomic:     240390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27168):
TACCAAGCAGGAAATCAATAGAAAATTGTTGAAAAAAAATTGCATCAAACAGCCAGGTGTGATGACATGCACCTGTAGTCCCAGCTACTCAGGAAGCTGA
R
GCAGGAGGATCCCTTGAGCTCTGAAGTTTGAATCCAGTTTGGGCAACATTGGGAGACCCTGTCTCTAATAAATAAATACATAAATAAAGTAAAAATTGCA
Celera SNP ID:            hCV29108718
SNP Position Genomic:     86078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27169):
TAAAACATATTGGAACTTGGGAGGCTGAGGCAGAAGAATTGCTTGAATCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCT
R
GGTGACAGAGTAAGACTCCGTCTCGGAGGGAAACAAAAAAAGGAAATTATTAGTAGTAGTATCATCTGCTCACTCCATTTCACTTTTGCTATCAGACACA
Celera SNP ID:            hCV25627525
SNP Position Genomic:     209123
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,1|G,17)   total(A,1|G,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:27170):
CACTTTCCTCATCCCTAAAATTGGGACCATAAAAGTGCCTATGACATTGGATTGCCATGAGGACTAAATGGGAAATTCTGTATAAGATTCTCAATACAGT
R
CCTGGCCCATGGAAAGTACTGGATAACTATGAGCTATTTTTGTTATTACCCAGTTTTAACACACATACATCCATTCAATCAGTAAAGTCAACTCAGAAAG
Celera SNP ID:            hCV29108719
SNP Position Genomic:     86360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27171):
ATGTGCCCTTGGGTCAGTCTCGTAACCTCTGGGGGCCTCCGAGTACATGTGTATAAAACATATTGGAACTTGGGAGGCTGAGGCAGAAGAATTGCTTGAA
Y
CTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGTAAGACTCCGTCTCGGAGGGAAACAAAAAAAGGAAAT
Celera SNP ID:            hCV25627526
SNP Position Genomic:     209070
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,7)   caucasian(C,13|T,3)   total(C,32|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:27172):
AAAGAAGAAGAAAAAACATGACATAGGCTGGGCGCTGTGGCTCACACCTGTAATCTCAGCACTTTGGGGAGGCTGAGGTGGGTGGATCACAAGGTCCAGA
R
TTTCAAGATCAGCCTGACCAACATGGTGAAACCCTGTCTTTACTAAAAACACAAAAATTAGCCTGGCGTGGTGGCATGTGCCTGTAATCCCAGCTACACA
Celera SNP ID:            hCV2057490
SNP Position Genomic:     163459
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27173):
TTTTGGATCAAATCCAAAAGAAAATTTAAAAGTTGCATAGTGGGACTAGCAACATGAAAATTGTGAAGTAATTTTATTATTTTTGTTTCTTTCCACAGCC
R
AAGTACAGAGAGGTTTGGGACAAGGATAAAACTTCAATACACATAATGCCAGATACTCCAGAAATTAATCTCGCTAGAGCAAATGCTCTTAATGTGAGCA
Celera SNP ID:            hCV2057491
SNP Position Genomic:     165465
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,3)   caucasian(A,34|G,6)   total(A,65|G,9)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27174):
CCAACGTGATGAATGAAACCCCATCTCTACTAAAAATACAAAAAATAGCCAGGCATAGTGGTGGCTCACCTGTAATCCCAGCTACTTGGGTGGCTGAGGC
M
CAAGAATCGTTTGAACCTAGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTTCACTCCAGCTTGGGTGACAGAGCGAGACTCTGTCAAAAAAAAA
Celera SNP ID:            hCV2057492
SNP Position Genomic:     168605
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27175):
AAAATAATAAAAACAAAAGAAAGGAGATTGTCAAGCCCAGACCTTTGGACTCCAGACACCATTACATGTTCCAGGACAATGGTGCATAGAATGATTCTCA
Y
CTATGCTCTTCTTTAACTGCTCTCAAGTCCTTGGGCTTCAAAACTGTGCCCCTGTGGTATTAATTCCACCTGAGCCATTGAAGGTATTGGCAAATTTGAA
Celera SNP ID:            hCV2057493
SNP Position Genomic:     170527
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27176):
AAAATCACCAAATCCAAGAAGGACCTGGACTTTATATCAAGAAATAAATGGTAGTATGAATACAGGTCTTAATTGTATCAGATTAAAGAAAACTGTGAAA
R
TATTCTTTCTATAGAATTTAGATAGCAATAGAGGCTTATATCCAGTAAAATATTGGCAGCCCATGGACAGGATGTAGGCACAGACATGCTTTTTTAATTG
Celera SNP ID:            hCV2057494
SNP Position Genomic:     171427
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,36|G,4)   total(A,72|G,6)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27177):
TTGGCAGCCCATGGACAGGATGTAGGCACAGACATGCTTTTTTAATTGATACAGTGTTTAGAAATTTTGAATTAAGTTGCCAAGATTTTAAAATCCAAAA
W
TTTTTGTGTACAAATGTCGGATTTCCCATTTCTCTTGGAAATTCAGAGGACACAGCTCTGAATTATCCCTTAGTAACAATAACCAGAATGGAATCAAGGA
Celera SNP ID:            hCV2057495
SNP Position Genomic:     171580
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27178):
GATGAATATCAAATACACTGATATTTCACTAAGGAAATACAAAACATGTTCTCACCCAGATCTGTGCCTGAACAGAGAGGTTGACTTGTTGAATCTGTCT
Y
TTCTGTCTGACGTCTGTAGTTTTATACCAGGTTCCCCACAAGGTAGATGAAAGGGCTGTTTTGACTGCTCTTGTTTTTTCTGGATGCTTTCTTGTGTCAT
Celera SNP ID:            hCV27487596
SNP Position Genomic:     241765
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,18|T,1479)   total(C,18|T,1479) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27179):
TTGGGGTAGATAACCTGTGGTGGTAGACCTGTCTTAATTGTCTCCGTTTCTTTACAGATCAAATATAAGAAAAATGCCCTTGAAAACTATCCTAACTTTA
S
AAGTGTGGTGGATCCTCCAGAGATTGTTTTAGCCAAGATTAATTCTGTCAATCAAAGTGATGTAAGTTTGCTTTGTGCATGCTGAAGTGCACAGACTGGG
Celera SNP ID:            hCV2057496
SNP Position Genomic:     175700
SNP Source:               Applera
Population(Allele,Count): african american(C,21|G,9)   caucasian(C,32|G,8)   total(C,53|G,17)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,2)      total(G,2|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:27180):
TGAAAGCCTTGTAGAAACTGAAATCCAAGGATTGTGTTTTCTTAGCAGCAGACTTTTCAGTTATTAAAAACAAAGATATTCCTAAGCACAGTTTTAATCT
Y
GCACTCCTTTTAGTAAGAAAAACAAAGCCATTACCACAAGAGAATATTTTTAAATTACATAATCTTTAAAATGAATTGCTTGTAGTAGCAGTAAAAGTAC
Celera SNP ID:            hCV2057498
SNP Position Genomic:     185833
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27181):
CATCTGAAATACAGATTTTAATCATTGAAATGATGGATGCTAACAATTGCTTGGACAACATGATGCTTTCTTAACAAGTAACTTGCCCCCTTGCCTCTCA
T
TTTTTTTTTTTTAGATTAAATACCGGAAAGACTGGAATGCCACCAAATCAAAGTACACCCTCACAGAAACCCCCCTGCTGCACACTGCCCAGGAGGCTGC
Celera SNP ID:            hCV26799170
SNP Position Genomic:     172830
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27182):
ATAGTGCTGGGATTACAGGTGTGAGTTATCATGCCCAGCCTGAACATTTTCTATTTACCAATGCATATGACACTGACTGTGCACATGTAAAGAAGCTACA
Y
ATTATTTCAGCTATAATGCTTTATTTTTTAAAAATTTCCCTTGGTGTTAATCTATAGAAAATGTCAGAAAATACCAGTCACTGCCCTGCCCCCAACTGTT
Celera SNP ID:            hCV2057499
SNP Position Genomic:     187044
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27183):
CAATTCTACAGCTATGGAAACAGTAATAAGAGGACCACCTGGGGAAGACAGAATTGCCATCATTCTTGATCACTCAGTGACCACCATTCTACATTCAACA
Y
GGAATCATTCCAACTCCTCACTCCCTAACTCCCTGTGTGGCCTCCATCCCAGGTCATGTTGAGTATTTTCCTCTCACTCATCCCTACTCTGACCTCATTA
Celera SNP ID:            hCV26799245
SNP Position Genomic:     194093
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27184):
TGATGGAATTTATATTCCTCTTCTCGCCAGCTGAAATACAAAGCTGAACATGTGAAGCAAAAAGGTCATTATGTTGGTGTCCCGACGATGAGAGATGATC
Y
TAAGCTGGTTTGGTTTGAGCATGCAGGCCAGATTCAGAATGAGAGACTATACAAAGAGGACTATCACAAAACAAAGGCCAAAATCAATATACCTGCTGAT
Celera SNP ID:            hCV26799172
SNP Position Genomic:     173853
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,1)      total(C,1|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:27185):
TAGCTCCAGCTTGAGAAGAAATATTTAAAATATGCATGATTTCCTAGACAATAAAAAGGGCCCATTTATTTTATATTAAGATAAGGTATTTAGTTACCCA
Y
TAGTCTTTAAAGGTCGTGACATGCATATCACTTTTGCCAATTCCTTTGCTGAATTTTTTTGTCCAGAATCTTTATAAGCAAGACTGGGAGAAGAGCAAAG
Celera SNP ID:            hCV495110
SNP Position Genomic:     46265
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,19)   caucasian(C,32|T,6)   total(C,43|T,25)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27186):
TGATCTCCCAGTTGATGCAATTTCTGTACAGCTAGCTAAAGCTTCAAGAGACATTGCTAGTGATGTGAGTACTAGTTTGAGTTCTATAAGGCTATATTTT
Y
ATCTGAATCAGGTGACTTAATGTCGGTAACTATTTTTATGGATAGTCTTTACCTTTCAAAATATAATGCTTCCTTCATTTTCTCCTACCCTCTTCATTTA
Celera SNP ID:            hCV29108720
SNP Position Genomic:     87059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27187):
AATGAGAAAAGACTAGAATTGTGGAGGGCTGCATGAAGTTAGATGTTTCATTTTCTTTGATTTCTCTTTTTGGAAATCATTCTAAGTTGGGGGAAAAAGA
Y
ATCACTCAGCTGCTAAACACAGATTAAAGGATACCTAGCCATTTTTCTTCTTATAAAGAATTTGCCCCCTTTTTTTCAGCTTACAAACATGCAAAAACCA
Celera SNP ID:            hCV25627600
SNP Position Genomic:     251103
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27188):
TGTTGATGCTTGCACATTCTCTTTTGTTCAACTTAAGTTTGTGGAGTCAGTCATGAGAGATCTTACAAATAGATGTGTGTTAACTGTTGCAAATCCAACA
Y
ATAATATTTCCCCTTTTCCATCCCCACGAATAGAAAATCTTCCGTGCCATGTATGACTATATGGCTGCTGATGCAGATGAGGTGTCCTTCAAGGATGGAG
Celera SNP ID:            hCV25627601
SNP Position Genomic:     255293
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,13|T,23)   total(C,20|T,54)
SNP Type:                 INTRON


Context             (SEQ ID NO:27189):
TTATCCAGCACAAAGTCAATGCCTATAACTTGAGTGATGTAAGTTCCTTATGCCCTGTACCATGTGATGTACTGACAACCTGTGCTTTTATGTTTGAACT
R
CTTTGTTGCAATTCAATGAATAGATTAATGTTAAAAATGAGAAGAACTGTTAACATTTGTATCATGTTGCTATGCCTCTGCCAGTATAACTGAATTCACC
Celera SNP ID:            hCV25627602
SNP Position Genomic:     45446
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,1|G,39)   total(A,2|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:27190):
TGGTGAGATGTCCCTCACCGGACACAAGAACAAGTGGCAAAGTAAGCAGAGCTTTTTCTCAGTACCCGCTTGCCTCTTCTCTACTCCTTTTCTTCACATG
S
GAAACACCTCCTAAGGGTGGCCAGTGTCCTCATTCTGTAACAAGCCTCCTTAGGACTCAAATCCAGACTTTCCCTCTTCTGGAAGGGCCTCATGCCTTAG
Celera SNP ID:            hCV27962442
SNP Position Genomic:     125673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27191):
AGCATGACATGATGTCTTTCTGCTTTTTGATCTTTCAGATCCTTTATAAATTGGAATACAACAAGGCCAAACCCAGAGGCTACACCACAATCCACGACAC
R
CCCATGTTGCTGCATGTCCGCAAGGTTAAAGATGAAGTCAGTGATGTAAGTACTAGAATGGTTTAGCAGTCCCTCTCATCTTGGCCTCCTTCTAATGAGA
Celera SNP ID:            hCV25627533
SNP Position Genomic:     210223
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,17)   caucasian(A,11|G,29)   total(A,32|G,46)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27192):
TCCTCCCACAGCTGAAATACAAAGAAGTATACCAAAGAAATAAATCCAACTGCACCATTGAGCCAGATGCTGTTCATATCAAAGCAGCCAAGGACGCCTA
Y
AAAGTCAACACCAATGTAAGTTCCAGAAACTTCCCCAAGCATGGTGGGGGATTTACCAGCTTCTGTAGGACACATGGCCTCTTTTTACATCTCTTCAGGC
Celera SNP ID:            hCV25627534
SNP Position Genomic:     212037
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27193):
AGGACTCCCTGTGTGTTTAATCAAATGCCCAGCTTCCTCCTGTGCTGTCACCCTTCCCTTTTCTTCTGCCTTTCTTCTATCACAGTTTGAATATAAGCTG
R
ACCGGGAGTTCCTCAAGGGTTGCAAGCTTTCTGTCACTGATGACAAAAACACGGTGCTCGCCCTCAGGAATACTTTAATAGAAAGTGATGTAAGTACCTA
Celera SNP ID:            hCV25627535
SNP Position Genomic:     214255
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,33)   total(A,1|G,65)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:27194):
AAATATAGAGTATAATATGAACTTTTATTTAGGGGCAAATGATTTAATTATGACAAATTATGACAAATTGTGATAAATGATTTAATTATGACAAATTTGT
C
ACTTGCACTTTCAGAATTTGTACAAGTCAGACCTTCAGTGGCTAAAAGGCATTGGCTGGATGACTAGTGGTTCTCTCGAGGATGAGAAAAATAAACGAGC
Celera SNP ID:            hCV101498
SNP Position Genomic:     97646
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,3)   total(C,1|-,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27195):
GGTATTCCTGATGGGTTGGCTGCAATGGTGATAGATACAAAATGCAAAAATAGAAGAATTTTCTATCCTTCCTGAATTTGGGAAAGGTGTTTTTTTTTTT
T
CCTTTATTAACTCAAGGTCACAATGTCATCCATGTAAATCTCTGTAATGAGTCATCTAAAATTAACCAGGAAGGTTTTGTGCTTGCAACATGATTCATGG
Celera SNP ID:            hCV26039967
SNP Position Genomic:     68978
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27196):
CTATTACCATGAATCATGTAAGTCCTATGTTTGTTTGAGGAGGTTATTAATTTTTTTTGTTTATGGAAACACTGAAGTCTGTTTGTATAAAAGAAAACTT
R
TTTTTGATTCCTTTGCTTGGTACTAATGTGGTTTTAAAGTATTGTGCTTCTTATTGACACAAGACATTTAGACCTGAAAATGTCACAAATACCGATTCAC
Celera SNP ID:            hCV101499
SNP Position Genomic:     97948
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,15)   caucasian(A,7|G,33)   total(A,30|G,48)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27197):
CCTCTACATTATGAGGAAATTATTGTATGCTTTCACTGATACAATTATAATTTGGAAAGTTTTTAGCAGAAGTGAAAAACTTATTCTCTCTAGGGATAAT
A
CTTTCTCTCTAGGGATAAAAAAATAGAAACTAACAAAAATGGAAGAGCTATTAACTCACAGGCAAATAATAAATTGATTTGGCTTTGGTGAATTCTATTA
Celera SNP ID:            hCV26039968
SNP Position Genomic:     65196
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27198):
ACCTCTACATTATGAGGAAATTATTGTATGCTTTCACTGATACAATTATAATTTGGAAAGTTTTTAGCAGAAGTGAAAAACTTATTCTCTCTAGGGATAA
T
ACTTTCTCTCTAGGGATAAAAAAATAGAAACTAACAAAAATGGAAGAGCTATTAACTCACAGGCAAATAATAAATTGATTTGGCTTTGGTGAATTCTATT
Celera SNP ID:            hCV26039969
SNP Position Genomic:     65195
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27199):
CTGGTCACAGACACGCCCCTCTATGTGACTGCTGTTCAGAGTGGCATTAATGCCAGTGAGGTGCGTCTTCCTGTACTCCTCTTCCAGGGACAAACTATTT
Y
TTGTCTTTATGTATTTTCTAACAACAGAGGTGAATAACCTATTGTTGCTTGTCTACAGGTAAAATATAAAGAAAATTATCATCAGATTAAGGACAAATAC
Celera SNP ID:            hCV25627468
SNP Position Genomic:     180095
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,8)   caucasian(C,39|T,1)   total(C,67|T,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:27200):
CAGTGAGGTGCGTCTTCCTGTACTCCTCTTCCAGGGACAAACTATTTCTTGTCTTTATGTATTTTCTAACAACAGAGGTGAATAACCTATTGTTGCTTGT
Y
TACAGGTAAAATATAAAGAAAATTATCATCAGATTAAGGACAAATACACAACAGTTCTAGAAACAGTGGATTATGACAGAACCAGAAACCTGAAGAATCT
Celera SNP ID:            hCV25627469
SNP Position Genomic:     180148
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|T,2)   total(C,74|T,2)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:27201):
CAAGTGATGTGGACTATCGCCATTACCTGCACCACTGGTCTTGCTTTCCCGACCAGAATGATGTGATCCAAGCCAGGAAAGCCTACGACCTACAGAGCGA
Y
GTAAGTGTGTCCCCCAGGAAACAAGTCCCCCATTGCTTTGCCTGATGGCTCCTTCCAATGCTCTGAAAACACAACTCTCTGTACGTAGGCACTCCACTTT
Celera SNP ID:            hCV27505229
SNP Position Genomic:     161924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:27202):
TTCCAGCACATGCTGAAAGGTAAATTTGATGCAGCAATAAACAGTGATAATTGGTAACTACCAGACACAATGTTAGTAATAATACCATTTTTCCCAGACC
A
AAAAAAAAAAGTTAATTGAGCTTTCCTCTTAGCAACTTGTTTTGTCATTTTAGTTTACCATGAAATCAATATGTGAAATGAGGAGGTTAAGCTCCAATTA
Celera SNP ID:            hCV26799326
SNP Position Genomic:     208505
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27203):
TAGAAATTTCATGTTTGCTACATCTCCCCCAACTGCATCTCTCCCAGTCCAAGCTCAGCGCCGGAGCCGGGAGCAGTCACGATCTGCCAGTGCACTAAGC
R
TCAGTGGGGGTGAGGAGAAGTCTGAGCATTCAGAAGCACCAGACCACCACCTTTCGACTTACAGCGACGGGGGTGTCTTTGCAGTCTCAACAGGTACAAG
Celera SNP ID:            hCV7539160
SNP Position Genomic:     250795
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,6)   caucasian(A,22|G,6)   total(A,38|G,12)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,14)   caucasian(A,24|G,14)   total(A,40|G,28)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:27204):
GTCAATGTGATTTATGGTAGTACCATCCTTTCTCCTTTGGGTTTTAAAATAAGTTGCAGAACAGACACTTTAAAAGCTTCTGCAATATTATTTCTGTGCC
Y
AGAGTCTTTCTCCATTATAAACATGTTTTAACATTATTTCTTTTCTAAAACAGGGATTTTGAATATGCCAAACACATTAAAGGAAAAATAGCAGAGATGT
Celera SNP ID:            hCV7539161
SNP Position Genomic:     255712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:27205):
GGTGTGGCAGCTAGCAAGGTATGAGGAAATCATCCCATTTATCTTGATGGTTTGAGTGTGGGTAAATTTCTTATAACTTTGGCTCTTGTATATAATTAGT
W
AAAAAGGGGAGGAGTGGTTCTTGGGGGAACTACCAGGGCTGAGACCAGTGGATGTGAGGCATTTGAAAAAGAGTAGAATTGAAACAACAAGAACAACAAC
Celera SNP ID:            hCV25627610
SNP Position Genomic:     30951
SNP Source:               Applera
Population(Allele,Count): african american(A,31|T,1)   caucasian(A,35|T,3)   total(A,66|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:27206):
AGAATTGAAACAACAAGAACAACAACAAAAGTACTTTGGAATTATAATGGGGCTACTAAAAATGTTTTGCCATGTATGAGCATTAATAACATCTAATTAC
Y
ATCTTCAATATTTCCTAATTTATTATTTGCCTGAGGAACCAAACTGTACATTTATCAATTTGATTTAGTGTCTTCTCACTGGAAGGGCCTTTTGCTGTTT
Celera SNP ID:            hCV25627611
SNP Position Genomic:     31126
SNP Source:               Applera
Population(Allele,Count): african american(C,22)   caucasian(C,33|T,1)   total(C,55|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27207):
CGTTTGGGATACACCCCAAATCCTCCATGCCAAGAAATCATACGACCTTCAGAGTCAGGTGAGCCACCTTCCTAGAAGGACTGGTTCTCCATGGGTCATC
R
GAATCCATGGTGGTGTCAGTGGGCTGATGGGCAGGCAAAGAAAGTTGCTGTAACAGTGTAGGCTCTAACTGACCAAAGCCCCTCCTCTCCCAATCAAAGC
Celera SNP ID:            hCV25627612
SNP Position Genomic:     179195
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,36)   total(A,67|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27208):
CACCTCTACATTATGAGGAAATTATTGTATGCTTTCACTGATACAATTATAATTTGGAAAGTTTTTAGCAGAAGTGAAAAACTTATTCTCTCTAGGGATA
A
TACTTTCTCTCTAGGGATAAAAAAATAGAAACTAACAAAAATGGAAGAGCTATTAACTCACAGGCAAATAATAAATTGATTTGGCTTTGGTGAATTCTAT
Celera SNP ID:            hCV26039970
SNP Position Genomic:     65194
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27209):
CCTCACTCAGGGCCATCTTCCATGGTACAGTCCCCAGGGACACCAGGGAAGGATGGAGAAGAGCTGCTTCCATCAGGGCTCAGGTATGGGTCCTGAATTA
Y
GGCCTGTCCTGTGAGGGGCGCCAGCAGTCAAGCAGGGCAGCAGCAGTGCAAGGGCCATTAGATCCAGGTGACAGTCCTCGATTTATACTGCACCAGCAGA
Celera SNP ID:            hCV25627542
SNP Position Genomic:     214476
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,20)   caucasian(C,2|T,28)   total(C,4|T,48)
SNP Type:                 INTRON


Context             (SEQ ID NO:27210):
AAGCACCTCTACATTATGAGGAAATTATTGTATGCTTTCACTGATACAATTATAATTTGGAAAGTTTTTAGCAGAAGTGAAAAACTTATTCTCTCTAGGG
M
TAATACTTTCTCTCTAGGGATAAAAAAATAGAAACTAACAAAAATGGAAGAGCTATTAACTCACAGGCAAATAATAAATTGATTTGGCTTTGGTGAATTC
Celera SNP ID:            hCV26039971
SNP Position Genomic:     65191
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27211):
TGTTCTACTGGTTTGAGGGTGTAATAAAAATATGTAGGATATCCAGCAGAGCTAAAGAAATGCCCCTTTTCCTGCCCCTGAAGCTGAAATACAAAGAGAA
R
CATGTCAAGGAAAGAGGAACCTGCCATGCCGTACCTGACACGCCTCAGATCCTGCTGGCGAAGACTGTCAGCAACCTGGTGTCTGAGGTAACCCCCAGCC
Celera SNP ID:            hCV25627543
SNP Position Genomic:     215017
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,38|G,2)   total(A,74|G,4)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27212):
TAAGCACCTCTACATTATGAGGAAATTATTGTATGCTTTCACTGATACAATTATAATTTGGAAAGTTTTTAGCAGAAGTGAAAAACTTATTCTCTCTAGG
G
ATAATACTTTCTCTCTAGGGATAAAAAAATAGAAACTAACAAAAATGGAAGAGCTATTAACTCACAGGCAAATAATAAATTGATTTGGCTTTGGTGAATT
Celera SNP ID:            hCV26039972
SNP Position Genomic:     65190
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,4)   total(G,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27213):
ACTTGGCACAGGGCTCATACACAACACTACCAGAGACCCGGGACACTGTTCACGTCAAGGAAGTGACCAAGCATGTCAGTGATGTAAGTGATCAACCACC
S
GTCTCTTGGCAGCAACAATGCCACTTGACTGTAGAATCTGGTGAAATAATGTCAGTTGCCTTTTGCTTCCTTTATGTAGCTTCACTCTTACCATCAATAT
Celera SNP ID:            hCV25627544
SNP Position Genomic:     215322
SNP Source:               Applera
Population(Allele,Count): african american(C,22|G,12)   caucasian(C,27|G,9)   total(C,49|G,21)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27214):
ATAAGCACCTCTACATTATGAGGAAATTATTGTATGCTTTCACTGATACAATTATAATTTGGAAAGTTTTTAGCAGAAGTGAAAAACTTATTCTCTCTAG
G
GATAATACTTTCTCTCTAGGGATAAAAAAATAGAAACTAACAAAAATGGAAGAGCTATTAACTCACAGGCAAATAATAAATTGATTTGGCTTTGGTGAAT
Celera SNP ID:            hCV26039973
SNP Position Genomic:     65189
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,4)   total(G,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27215):
TGCTGGAGCCACCAGAGGTGAAACATGCTATGGAAGTGGCCAAGAAGCAAAGTGATGTAAGTTTTCCCTCTCAACACTCTTGGGGGCCCATTTGAAGCAG
K
GGAACCCAGATTGGTGCATTCTCTTGTTCCAGTGTGTGGTCACTCTAATTCCTCTGTGGTAGTTTCAAAAAGTTAGTGGCGAGAATTGGTTTGGGTTTAA
Celera SNP ID:            hCV25627545
SNP Position Genomic:     216144
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,29)   caucasian(T,34)   total(G,3|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:27216):
TATAAGCACCTCTACATTATGAGGAAATTATTGTATGCTTTCACTGATACAATTATAATTTGGAAAGTTTTTAGCAGAAGTGAAAAACTTATTCTCTCTA
G
GGATAATACTTTCTCTCTAGGGATAAAAAAATAGAAACTAACAAAAATGGAAGAGCTATTAACTCACAGGCAAATAATAAATTGATTTGGCTTTGGTGAA
Celera SNP ID:            hCV26039974
SNP Position Genomic:     65188
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,4)   total(G,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27217):
ATACTCACATAATCACATTGTGATGATTAAAATCACAGAATTAATTTCCACTGGTCTGCTAGTCTACAGAATTTATTCAATTTTATCACTAATATCCTTT
M
TAAGAAAAGAAAATATTTTCTCTGGCTCAGGATTTAATCCAAGACCACAGGTTGCATTACTTGCTATGTCTTTAGTCTCCTTTACTCTGGACTAGTTCCT
Celera SNP ID:            hCV367576
SNP Position Genomic:     93159
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27218):
CATGTATAAGCACCTCTACATTATGAGGAAATTATTGTATGCTTTCACTGATACAATTATAATTTGGAAAGTTTTTAGCAGAAGTGAAAAACTTATTCTC
W
CTAGGGATAATACTTTCTCTCTAGGGATAAAAAAATAGAAACTAACAAAAATGGAAGAGCTATTAACTCACAGGCAAATAATAAATTGATTTGGCTTTGG
Celera SNP ID:            hCV26039975
SNP Position Genomic:     65184
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27219):
ACATACTCACATAATCACATTGTGATGATTAAAATCACAGAATTAATTTCCACTGGTCTGCTAGTCTACAGAATTTATTCAATTTTATCACTAATATCCT
Y
TATAAGAAAAGAAAATATTTTCTCTGGCTCAGGATTTAATCCAAGACCACAGGTTGCATTACTTGCTATGTCTTTAGTCTCCTTTACTCTGGACTAGTTC
Celera SNP ID:            hCV367577
SNP Position Genomic:     93157
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27220):
TCATGTATAAGCACCTCTACATTATGAGGAAATTATTGTATGCTTTCACTGATACAATTATAATTTGGAAAGTTTTTAGCAGAAGTGAAAAACTTATTCT
M
TCTAGGGATAATACTTTCTCTCTAGGGATAAAAAAATAGAAACTAACAAAAATGGAAGAGCTATTAACTCACAGGCAAATAATAAATTGATTTGGCTTTG
Celera SNP ID:            hCV26039976
SNP Position Genomic:     65183
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27221):
GTATTTCCCAAGAATAAGAACATACTCACATAATCACATTGTGATGATTAAAATCACAGAATTAATTTCCACTGGTCTGCTAGTCTACAGAATTTATTCA
R
TTTTATCACTAATATCCTTTATAAGAAAAGAAAATATTTTCTCTGGCTCAGGATTTAATCCAAGACCACAGGTTGCATTACTTGCTATGTCTTTAGTCTC
Celera SNP ID:            hCV367578
SNP Position Genomic:     93138
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27222):
CTGAGTGGGGAAATCTGCTTTCTAAATCTCTCTAAACCAATTTATTTACACATCTCTTCGATTAACTCTGAGATTATTTTCTTTCCATGGACTCAAGTCT
S
GGGAAAAAAAAAATGAAGTAAAAAGAGTTTGCTCCCTCCCTCTCACGAGTGCCTCCCTTCCAATTTTAGAGTAGCTCTAAAACCCTTCATCTAAGACAAA
Celera SNP ID:            hCV26039977
SNP Position Genomic:     76929
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27223):
CATCTTCAACTTATTTTCTTCACCAGCTCTGACACCAGTATCTAGCACATAATAGGTACTCAATAAATATTCATTGAAAAAATACATAAAATATAGCAGG
R
TGGAGTAATTATATGCAAAGAAGGGAAAGATTACTCAACACTGCTCAGCTAAAAGCCTAACTTTGAACATTACAGAATACTGAAGTATGTGCCCTGAAAT
Celera SNP ID:            hCV367579
SNP Position Genomic:     91403
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27224):
TCTAGAAACAGTGGATTATGACAGAACCAGAAACCTGAAGAATCTTTACAGCAGTGTGAGTTGAGTTTTTTTTCCCCCTTATATATGAGCCACCTTTCCC
M
CTTCTGGGACAGTAAGAGAATAAATGGGATGGACACTCTTTCCCTAAAGGCTTTTCTATGGTTTTTTCCTGGACCTTCAATCTTACTTTACCTCATAAAA
Celera SNP ID:            hCV25627476
SNP Position Genomic:     180304
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(A,2|C,36)   total(A,3|C,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:27225):
TCGCTATTATCATAATCATCACATTCATCATTATCAATGATTTTTACATAGATTACTATCTGAAAAGAAAATATATGATTTAACATAAATATTTATAACG
K
TTTTTTCTGCAGATCAGAACTTCTTTAAGCAAATTCATTTGTCCAAACCACACAACTGAATACTTCATCCTAACAATTCTATTTTTTAAAATGTGACAAA
Celera SNP ID:            hCV26039978
SNP Position Genomic:     56638
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,7)      total(G,7|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27226):
ATTAAAGCAGAAATCCAGAAATAAAGGCACATGTAAGTTGGCACAAGCAGCTACAGCTGATGACAGACCTGTATGTTACCATTTTTGATGACTTTTGTTT
Y
TCTTCACAGCTACAATATACAGCAGCAGGTAAAGAAAATCTACAAAACTATAATCTGGTCACAGACACGCCCCTCTATGTGACTGCTGTTCAGAGTGGCA
Celera SNP ID:            hCV25627477
SNP Position Genomic:     179940
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(T,40)   total(C,5|T,73)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:27227):
TGCCTTCCAGCACCTTGTCCCTGACACACGCCAAGAACCAGAAGCATCTGGCCAGCCATGTAAGTAAAGCAAAAACATGACAGCTTTCCCACCCTCCCTC
Y
CCTCCCCTGCTCTCCACTCCAAGAATCTTTCAGGCTGATTCATACGTTGTCCAGAAGTACCCCTAGCACTCCCGTGGGCATGTCCAGGAAATAATTCCAA
Celera SNP ID:            hCV25627478
SNP Position Genomic:     180712
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,20)   caucasian(C,24|T,16)   total(C,40|T,36)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,570|C,931)   total(C,931|T,570) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27228):
ACGATCTCGGCTCACTGTAATCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGACATGTGCCATCACGCCC
R
GCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTTACCACATTGGCCAGGCTGGTGTTGAACTCCTGGCCTTGAGTGATCTGCCCACCTTGGCTTCCCAA
Celera SNP ID:            hCV26039979
SNP Position Genomic:     48135
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27229):
AAGGAATATAAATCATTCTATTATAAATATATATGAACACATATATTCATTGCAGCACTATTCACAATAGCAAAGACAAGGAATCAACAACGATAGATTG
K
ATAAAGAAAATGTGGTACAGATAGACCATGGAATACTGTGCAGCCATAAAATGGAATCAGATCATGTCCTTTGCAGGGACATGGATGGAGCTGGAAGCCA
Celera SNP ID:            hCV494908
SNP Position Genomic:     47306
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,5)   total(G,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27230):
GGTACATGTGCATGTATATATTCACCCAATGCCCTGAACTGATTAAGGTAGTTTGCAAAAATATATATATAGGAAAATGAAAAGAAGTAAAGAAATTAAT
K
TAAGGGCAAAGTAAGAAAAACTACATAAGGCATAAACTCAAAAGCAAAGCATTTTATTTTAAGAAATTTATAGAATATTGATCTTATTTTAAAGACTTTA
Celera SNP ID:            hCV494909
SNP Position Genomic:     47048
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27231):
GGTCATCAGAATCCATGGTGGTGTCAGTGGGCTGATGGGCAGGCAAAGAAAGTTGCTGTAACAGTGTAGGCTCTAACTGACCAAAGCCCCTCCTCTCCCA
R
TCAAAGCTCTTCTAGTGTCCTGCTCTGGGGCTGGATCTTCCCAGTCTGAGTCTCTCCTTTGGTTTAAGGCAATGCACATTTATAATAAAAGCTTATCTGG
Celera SNP ID:            hCV26799193
SNP Position Genomic:     179288
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,16)      total(G,1|A,16) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Gene Number:                 105
Celera Gene:                 hCG2008146 - 107000109464765
Gene Symbol:                 ZNF432
Protein Name:                zinc finger protein 432;KIAA0798
Celera Genomic Axis:         GA_x5YUV32VY4T(1844936..2006001)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12265):
AGGTGCTTGGGCCGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGTCTGAGGTGGGTGAATCACGAGGTCAGGAGTTCAATACCAACCTGG
CCAAGATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCAGGCGTGGTGGCAGGCACCTGCAATCCCAGCTATTCAGGAAGCTGAGGCAGA
GAATTGCTTGAAACCAAGAGGTGGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTTCATCTCAAAACAAAAC
AAAACAAACAAAAAGAAAGCAGAAGGTGCTAATGTGCCATATGGCTTTCAACTGCACTTGACACAATATTTTGTAAATTCTTCAAAAATGAGTTAGCTGA
TTTTCAAGCAATGTTTAAGTCTGCAGCAGTAGCTCATCTGCAACTGATAAAACTCACATTTGAGAAGTGGTTTGAGGGGCAACAGCAAGTTAAAATTATA
ACAAAGTCCAAGTCAAGGCCATAGCCCTAACGTTCTTTGAAATAACCTGCCAGTTGATTAAGGTAACTCTTGTGAAATTGTTTTTTGAGAGTGGATGAAA
TGGCAAGTGTAGTAAATAGAAACTAGACTGTGGCCCAAGAAGTTCAAAAGCACTGGAATAAAATTCTGAAACTAAGGAAGGGTTCCTAAAACTCGTGGGT
ATAGCTAAAGTCATGGGTTTAGCTTTGAAAATGTCTCTATTTTGAAATGGCATCAGATAAAATGCTATCTTTTGTTATACTTTTCATAATGTTATACTTT
TGAGACTTCTATCAGTCCATAGTATTTTATAAAAACAAAATTAAATTTAGACTTATAATAGTCTTTGGGATGGTACATTGAAGTGGAAAAGAAGTAGCTG
GGGAAAGATGCTTACTGCAGAAGGAGGGCATACTTTCTGATACTGCATGAGGGATGTCATCGGGTGAAGTTAAGAACGACAAAATATAGTGGACTGGAAA
CCTATTCTCAGGAGAACTGTAGCCATGAAAAGTACTGTTATTCATTCCTGACCTCCTGGAACCAGGCCCTAACTCATCTTCTCAGCAAAATTGCACATTT
GCTATGGACCTACTGGGTAGTACCTTCTTTGTTTCCCTTTTCTGAATGTGAGGGTTAATTCAGGTTTTATTTTTCTGTTCCACCATGAAATGTCGTGAGT
GACGAGGACTCTATTGGGCTCTCAGTGAACAGAAGTGTCATGAGACTGTCATGAGATCCTTGCTTGCAACTGAAAGTTATGTTTGGGCTTTTTTTTTTAA
AAAAAAATGTTAGAGGAAGTGGAGGTGAATATTTTGTGTGGGCAAAAGAGGAACAAATTATTTCTGATGGAAGCTGCGCTGTCACATATTGTAATATTTC
GAGACAGGGTCTCGCTCAGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCCACCTCCTGGACTCAGGTGATCCTCTTCTCTCA
GCCTCCCAAGTAGCTGGGACTACAGGTGCACACCAGCATACCTAGCTAATTTTTGGATTTTTTTGTAGAGATGGGGTTTCGCCATGTTGCCCAGACTGGG
AGAAACATATTTTAAGGTATAATTAGCATGTTGTGTTGTTAAAATCTCAGTGATAAACTTGCATATTAGCAACAGAGCTCTTGTTTCCACATTATACAAT
TTCAGTTTATTTTCTTGTATCATTCCAATGCTTTCCCTGAACTTAAAATAAAAGGGATCCTCCACATATTGGTGGAACACATTCTTTGCATCTGTTATTT
TTCTATTCTTTTTTTGCCACACAAATCTGAGAATGTCACCTCGATTTTTGGATCCTTCAAGTTCTTCAATGGAAGAAATGTAAGTCCATAAATTGGGTTA
AATGGTTTCTAGTGGAGTGTGTAATGATAAAAAATTATTTTTAAAATGTAGTTTTGGCTGGGCTCTGTGGCTCATGCCTGTATTCCTAGCACTTTGGGAG
GCTGAGGTGGACAGATTGAGCCCAGAAGTTTGAGACCGGCCTAGGCAACATTATAAAACCCCATCTCTACTAAAAACACAAAAACTGAGGTGAGAGGATC
ACTTGAGCCTGGGGAGGTGGAGGCTGCATGAGCCGTGATTGCACCACCACACTGCAGCCTGGGCAAGAGAGCAAGATCCCATCTCAAAAAAAAATTATAT
TACAGTTGAAAAATCATAGAATACAATGTTTAATATGATAACTCAAATATGCATTGTTAGAGCCTTTGAAAAATGCAATTTTATTAAATTATTTAATATT
TATTGTCTGATAAATTTAATTTTTATAGTGCATGTGTAAAAATATTATAGACAATTTGAACAGTATTTCAGAAGCACTTTCAACAATTATATTGTGTAAA
GTGTCCTATGTATGCATGAATAAAGGACATGTATAAAGTATTTAGCATGAGGAAAATTGAGTCTTTCTCAACCTAGGCATCATAAGTTTCAGGAGTAAAC
ATTCAGTATTTTTTTTTGTATTTTTTAAAACCAGAACATTTATTGCATGACTAATCATAGACATTCTTAAGATGAACTGGATGCTGCAACAGCTGCCCTC
TTGGGTTTAAGTATTGTTCCTTCATAGAATCCATGCCTGAATCTGTGGTATACAATTTTTAGGTGCCTCATTCCACCAGTTCCGGTGGTATTTTGTCTTT
TAGCCTTGGCACTCCAGTTATACTTTCTCTTGCGCTTGGCAGCGTAGCCACATTTGCCACAGGTCGACTTCTGAAGGTGGTAGGCCTTAGAGCCACGGCG
GCAACACAACGTGTGCGTCTTATTGCGACGCTTTCCAAACAATGACGTTCCCTTCGTCATCTGGCTTCTGCGGCCAAGACCAGAGAGACCGGAAGAGAAG
GCACTTCCGCTATATCACGCTCAGAAGCTCAACATTCCGTGTTGAATTAGAGTCTGAGCCGAGATGGCATTACTGCACTACTGCTTGGGTGACCGGAGCC
AGACACTGCCTCAAAAAAAAAAATTCTCCCAGGCTCAAGCAATTTCCAACCTCAGCCTTCCAACTAGCTTGGACTACTGGTGCACACCATTACCCTTGGC
TAATTTTTGTATTTTTTGTAGAGATAGAGTTTTGTAATGTTGCCCAGGTTGCTCTTGAACTCCTGGGTTCAAGCAATCTGCCCACCTCAGCCTCTCTCAA
TGTGCTGGGATTACAGGCGTGAGCCACTGCACCCTGCCTTGTTCCTTTACTTGCTTAGTAAACTTGCTTTCACTTTACAGTGTGAACTCACCCCTAATTC
TTTCTTGCATGAGATCCAAGAACCCTCCCTTTTGGTTGTAACTGCCCAACAGGTTCTCCTTCCCTGCTGCCTAGACAGAGCTGATTCATCAAGACAGGGG
AATTGCAAGAGAGAGTTTAATTCATGTGGAGCTGGCTGTACAGGAACCTGAAATTTTTTTATTACTCACATGAGTCTCCCTGAAAACTCGGGGATCAGGG
TTTTTAAGGATAATTTGATAGGTAGGTGTCAGTGAGTCGGGAGTGCTGAYTGGTTGGGTAGGAGACGAAATCATAGAGATCTGAAGCTGTCATTTTGCAC
TGAGTCAGTTCCTGGGTGGGGTCACAAGACCAGATGAGCCAGTTTATGGATCTGGGTTGGTGTCAGGTGATCCATCAAGTGCAGGGAATGCAAAATATCT
CAAGCACTGATCTTAGGTTTTATAATAGTAATGTTATCCCCAGGAACAATCTGGGAAGGGTGAGAATCTTGTAGCCTCCAGCTACATGACTCCTAAACCA
TCATCTCTCACCTTGTGCCTAATTTGTTAGTCTTACAAAGGCAGTCTAGTCCCCAAGCAGGAAGGGGGTTTGTTTTGGGAAAGGGCTGTTAATGTCTTTG
TTTCAAACTATAAACTAAGTTCCTTCCAAAGTTAGTTCAGCCTATGCCCAGGAATGAACAAGAGCAGCTTGGAGGTTAAAAGCAAGATGGAGTTGATTAG
GTCAGATCTCTTTCACTGTAATAATTTTCTCAGTTATAATTGTGCAATGGAAGTTTCAGGTTCTGGATCAGGACCCCTTTCTGGTAACACAAGGATGGTT
ATGAATGCATCCAGATATCCAAAAAGTTATCTCTGAAAGCCAGAGATTTCCTTTCCCTATGGGTTCTTCCCTTGCATGTCAACCCAAGGATTCACTGGGG
ACCTAGAATTGTGCAGGGCAGTTAGGAAGAGAGAGACAAAAGAGAGAAGAGGTGAAGTAGTTTTGAAGAAGAGAAAGAAGGTCCCATGCAGCCTCAGTTT
TTTTTCCAACAAACTTTTCATGCTGGGAAATAGGATCCTGGTTTATTTGTGGGAGGGATTTTATAGGAGGGTGAGAAAAAAATGCCCTTTGAGGGTAGAG
TCTGTGGAGCCCTAATTGGGGAAAAGGAGTCAGCCTGAAAGGACCAGGAGAAAGCAAAGAGATAAAGCAAATAAGCTATAAATCTTTCTTCATGGTCCAG
AACATATAAAAAAAAATAGAGGAAGCAGATAAGCTGTAGGTCTCTTTTTCTTTATGGCCAAGGACATATGGCCTTTCTGTGGAAAGAACGTAAATAAGTC
ACAAACTTTCTGCTTTCATTTATCATCAAACGCCTCAGCTAACAGAAGAATGCAAGTTAGCTCCCTGCTACCTTGGCCTCCCAAAGTGTGGGGATTATAG
GCGTTAGCCACTGCACCCAACCAAATCTCCTCTTCTCATGGCTCACTGCAGCCTTCACCTCCTGGGCTCAAATGATCCTCCTTCCTTACCCTTCCGAGTT
GCTGGGCCCACACGTGCAGGCCACCATGTCCAGATAATTTAATTTTTTGTAGAGAGGTCTGGCTATGTTGCCCAGGATGATCTCAAATCCCTGGCCTCAA
GCAATTCTGACACCTCAGCTTCCCAAGTAGCTGGGACTACAAGAGTGCATTACCAAGCCTGGCTACTTTTTGTATTTCTTGTAGAGATGGGGGTCTCACG
ATGCTGTCCAGGCTGGTTTTGAACTCTTGAGCTCAAGTGACCTGCCCACCTGGGCCTCCAAAACTGCTGGCCCATCTCAAAAGACTTAATCCATTTCAGT
ATCAACTCTCAAAAGTCTTAATCCATTCCTGTATCAGCTCTTAGGGCAGAATACCCCCTAAATATTATCTGAACCACACATGGGTGAGAATCAAGGTGTG
ATTCATCCTGAGGCAAAATTTCTGCCCAGCTGTGAATCTGTGAGGCCAGAGAAGTTATCTGCTTCCAAAATATAATGGTGATAAAGGCATAGGATACATC
CCCCAGCCCTGGTAACCACCCTTCTAATCTGTTACTGTAAATTTGACGTTTGTACTTTGCACGTGTAAAAGCACAGGCAGTATTTGTCTTTCTGTGTCTA
GCATATTTCGCTTGGCATAATGTCTTCCGGGTTCCTGGATCCAGCCACGGCTCCACATCAAATCCCCAGCGAGATCCTAGTTCCCTGACTATTGAGTAGC
TTCAGCATCATCGGCAAGAGTGGATGGAGTCCACCAAGCTTGTAAAAATCGGTTTTGACTTAGTTCAACTTGTTAAGAAATCATCTTAGTTTCTAATATA
AGTGGACCACAACTTTAAGCTTTAACCTTAAATTTTGAAACATTAACTTAAAATAGGCAGGCAGCAACGCTGCTTCACAGGACAAGAAGTAGTCAGAAAA
CCAAAGACATGCTGCCTGTGAACCAGAGTAAATAACAGGCTCTATTTCGGCCCCGCTTACCCCATGAAACCCCGCCCCATCCTCCGCCGCGGCTCCGTCC
CGCCCCACCTAGCCACGCCCACTGCCGCTCCGGCCCGGCTCCACCCTCTCAGGGTCCCTCCCCGAGTCAGGCCCCTCTTTCCGACCCGCCCCTTGCTGGT
CGCGGCTCGCCCAGGCCCCGCCCCCTGGCCTCCCAGTTTTTTCTCTCCGCTAGCAGTTTCCGTCACTCCCGGAAGCAGATTGCGCCAGGGAAAGGCCTTA
TCGCTGTGTGTGTGTTTCAGTCTACGTGGATTAAACATTACTTCGCTCCGTCTGCCTGGATTAAACGTGCACTTTGCAGTCCTCACTTCTCCGTACCAGT
GATCTGGGGATCGCTACGGACCTTAAAATACCCATAGCCCCTTCGCCCCTGCAACAGGCACTTCTCCCCACGTAAGTCCGAGAATTGCTTCCCTGTCGGT
TTAAAATCTCTCTCAGGCTGTTCCTTGCCCCCTGCCTTTCTGCCATGTAGATAACCATGTCGATAACCCCATTCAGGTCGTGTTCCTGCTTAAAACTCTC
ATTGACCCCTGCTTCGGCCCCGGGCGAAGTCAAGTCCTCCCTCGCGAGGTGGATTCCCACCAGTCGAGACCCCCGAGCTTCGCCCTTGTCGACGCCTGGA
GGGGAGCGCCCGCTGCCCAGCTCCTGAAGGAGCCGCTTCTTCTCCCAGGTCCTGGGATTCTGCAGACCCTCCCTGTCCTGAGACACCGTCCCCCGCGCCA
CCTAGTGTCCTCCGCGCGCCACCTAGTGTCCTCCTCACGCCGGGTCCTTCCCCTCCCCAGGCTGCCCCTTCACAGCCACTGCTTTTCCTGACTCCGCGTT
GCAGGAGGTCACCCGAGTCTGTCTTGTGACACCCACTGTCGTTCCTTCCCAAATTTTTACTCCASTGGAAAATGTGCTCTTCCGGGAGGTGGGCATCGTA
TTCCTCCCCTTTCCTCCTGAATGTGTGGGTGAGAGGGATCAGGAGAGGAAAAGAGGGGGAGCGACGGGACAGAAAGAAAAACTGGGGAGAAAAGAATGAG
TACACGGCAAAATGGATGATAATTTAGGTACTGGCAAAGAGAGCAAGAGTGCAAGAGGACGCATGGAGAAAGTAGCACGGGGAGAAAAGCACATAAAGAA
ATTAGGGAAAAGGGAGAGCTTCAGGGAGCTGAAGGGCAGCAAAATAGAGAGGGGCGGCAAAGGAGGAGGCACTGCAGTCAGACGCGGGGGGCGGAAAAGG
TAAGAGTCGGAGCCGCGGCTGACAGAGCCACGTGGTGCTGGGACTGAAGGAGAGGGGAGTGGGTAACAAAGGAGAGTAGAGGGAGAACCACAGCAAGGAG
GAAGCCTAGGAAGTTGGGGGTGCTAGAGAGTGGGAACAAAGGAGATGTAACAGGGAAAAGGGAATTTAACAGGGAAGAGGGATTTTAACAGGGAGAGCAG
ACAGGGAGCTCAGATGGGGGAAAAGAGGCAGGAATACGTGGCGGCTGGGGACAATGGGAAAGTTTGGGGAGAAAGAGCAACAAGAGGTGAAATAAATTTC
GAAGCATTGGGCAGAATAGACATAAARGAGGGAATAAAGAAAGGGGAGAAAAACAGCAAAGGGAAAAAAGACGTGCAGAATGAGAGCGGGAAACACATAG
TAGTGAAGAGAGTGGGCGAGGACCCCACCCAGATGAGCTGTGAGTTGATTGGATATGGATGGTGGTTTTAATGTATTGATTTGTGACTTTATACTCTAAT
TTAAAATTTGTTTCTTTAAATTGTACTCATGAGGATGAAAATTACCACTCTTTTCTACAAGGCTTGTGCATTTTGTATTTRTTTATATCAAAAGATATTT
GGAATCCCTATTTAGCCACAGGGCAGTGACTTGATTYAGTCATTTTGTAACTCTTCTTTCCAGGGAGGGAGTAGAGGATGGAGGAGGAGAGAAATAGGCA
AGAAATGACTGACTGTCACTACAAGATGTATCTTTGGTTTTTTGTTTGTTTTTTCTCTTTTTGAGACAGGGTCTCTGTCGCCCAGGCTGGAGTGCGGTAA
AATTATATCGGCTCACTGCAGCCTCTCAGCTGCACTCCATCCTCCTCAGCCCCTGAAGGTGCTGGGATTACATGTGTGAACCACCTCTACAGGCCTACAA
TGTATGTCTTTGAAGGAGAGTTGAGAGTGTTGGTTTTTTGTTTTGTTAATGGATTTACTTTTTTCCTTGTAGTTGCTTTACAGTTAATTCATTGTTATTT
TGGAAGCTTGATTTAAATTTTAGTTTATTCAGTTTCTTCTATAATTACTAACTTCTGAAATAAGATTTGATGTCATCCTGTAATCAGCTGATGTCATTAA
TTTCTCAATATTGCCTTTTTTTAACTTTTACCCCATAATTTATTAGATTTTTCAAAAACTTTCCAAACTGTTAAAGCGTCCAGTGCGGTAAACTCACCAC
GAAGTACATTAGATTCCTCAGAACTTCTTCATTTTATAACTGAGAATTTGTACCCTTTGACCAACATTTCTCCACTTTCCCCACCCAGCATCCTGTGGTA
ACAACTGTTCCGCCTTATTACTATGAATTGGACTTTTTTAGATTCTACTTGTGAGAACATACAGTAGTTGTCTTTGTGTGTCAGTCTTATATCGCCCAGC
ATAATGTCCTCCAGATTCATCCATGTTGTTGGAAATAGCAGGATTTTATTTATTTTTATTTTTATTTTTTATTTTTGAGACAGAGTCTCGCTCGCTCTGT
CGCCCAGGCTAGAGTGCAGTGGTGTGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCTTGAGTAGCTGGGAC
TATAGGCACCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTTTTTTAGTACAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACC
TCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCGGCAGGATTTTCTTTTTTATGGTTGAATAATATTCCAT
TATATAAATATACACACACACACTCTGTATATATATATATATATATATACACATACATAAATATATATACACACACATTTTCTTTACATATTCATTCCTG
GATGGGCACTTTGGTTGTTTCTATATCTTGGCCGTTGTGAATAATACTGCAGTGATCATGAGGGGGCAGAAGTTCCTAAGTTTTTTGTTTTTTGTTTTTT
TAAGTAGAGACATGGTCCCGCTGTTTTGTCCAAGCTGGTCTCTAACTCCTGGTCTCAAGCGATCTTCCCATCTCAGCTTCTCAGAGTGCTGGGATTATAG
GCATGAACTACCACACCTGGCCTAGATGTCTCTTAAACATACTGATTGGATTGCCTTTGGATTTATACCCAGAAATGAGATTGCTGGATTGCATTGTTGT
TCTATTTTGAATATTTTGAAGAACATCCATAGTGTTTTTCATAATGGCTGTACTGATGTGCACTCCCAGCAGCAGTGTACAAGGGCTCATTTTTCTCCAT
ATCATTGCTAACACCTCTCTTGCCTATTTGATAATAGCCTTCCTAAGAGGTATGAGGTGACAGCTTATGGTGGTTTTGATTTGTATATCCCTGATGATTA
GCGATCTTGAGTACCTTTTCATATACCTGTTGGTCATTTGTATGTTTTTTTTTGAGACAGAGTCTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTG
ATCTCAGCTCACTGCGACCTCATCCTCCGAAGCACCTGAGATTACAGGCACCTGCCACTATGCCTGGCTAATTTTTGTATTTTAGTAGAGACGGGGGTTT
CACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCACAGGTGATCTGCCCGCCTCGGCTTCCCAAAGTGCTAGGATTACAAGCGTGAGCCACCGTGCCT
GGCATTTGTATGTCTTATTTGCAAAATGTTCAGGTCCTTTGCCCCCTGTCCCCCCYCCGCTTTTTTTTTTTTTGAGACAAAGTCTTACTCTGCTGCCTAG
ACTGGAGTGCAGGGGCGCCATCTCGGCTCACTACAACATCTGCCTCCTGGGTTCTAGCGAGTCTCATGCCTCAGCCTCACAAGTAGCTGAGATTACAGGC
ATGTCCCACCATGCCCAGCTAATTTTTTGTGTTTTTAGTAGAGATGGGGTTTCACTGTGTTGGCCAGGCTGATCTTGAACTCCTGGCCTCAAGAGATCTG
CCTGCCTCGGCCTCTCAACATGCTAGGATTACAGGCATGAGCCACTGTGCCCGGCCCAACATCAAAGAACTTTAAAAGGCATTCCCTTCCTGACTTAAGG
AACAACTTCTCATTGTCCAGGCCTTCTTGTTGTACAGCCAACAAAATACTGCAAATCTCCAAAATATTCTTCAGGATGTTTATTGAGGAAAATTTTATTG
AAAGGAGCCACACAATCCAAAGCTGTATTGTTCAAGGGTCAGCTGAATTGAGGAGCAAGTCCTAAGCTGAGCCCACGGGGAGAGTGGGCAGCTGGAGTGG
TGGTGCATTGGTCCTGAGGGCRTGGAACCCAGAGCTGCAGCACAGCAGGCACTCTCSATAGTGACTTCTGTGGGGTCCATCACTTTGGGGGCTRCATTTG
TTATTTTGGAGTATTTTGGGCGGCAAGTTAAGATGGTTATAGATGCATTTTGGACTATCTAAATGTCAATATGGAGAGTTTCCTTGGAAGATGTTGGGTC
TCACTGGGGTATGTGCATCATTGGAGACATCTGTTTTAGTAGATGGTGGTGCCAGTGTTCAAGGGTGGGGTCATTATGAATGGAATCGAGTGTCTTGGGT
CATTGAGTCCTCAGGTATCTTTGTGTGTATTAGGTCAGCAGGAGTTTATGAGTTGTTGGGGCATGTGGGATTTCGTAGCACGATATGGGGAGCACTATGG
AGTATCTGGGAAGGGTGTGGACCCCAAGGAAGTTTGTAAACCTGTCTCAGTTTAGGAGGGGAACGTTAGGGCCTCAAACTCTAGTGACAAAAGGCTTTCG
TTAGGGAGGGTTTTCTGTGGTGGGTCTATGGCAGGATGGTGGCTTAGGGAAGATTTTTCAAAGAATCAGAGAATATGATATCACAACGACCTGCAGCACA
AAGATTTCAACTGGGACTGTCCTCGGAAGATACAGCTGTTACTTTCTCGCTGCCAGGACAGTGGTGATTACTTTCCCCCCACCTCTGTCTGCTGCAACAA
TCACAGGGAGCTACGAGGCAAAATGCTTTAAACTCAGTGTGGAACAGGGATATTTTCTCCAGGCAAGAGGGTCCACTAGGTGCTGGGGAGGCAGTTTGGG
GAGAGGATGGGTAATGCTCTTTGGAGAATGACAGGCCTAGTAATTGCAGGGTGTAAAGGAAAAAACAAATTTTTTCCTTTCTACTCTCACACTTAACACA
GAACTCTTCTGTGGCCAGTGTTGGGGAGTTTTCTCCTACACACTAAAAAATTCTCCAGCAGACAMCAGCTAGATTGCCTTAKAATTCAATTTAATTCTGG
CACTGTCTACCTGGAGTTAGAGTCATCTCCCACAGGTTGCCCACAGGTAAAGGGCTCAGTCTCACAAGACCTCCCCGGCTCACTTCAGCTACCATTTCGA
AAGTAGTAGGTTGTCACCTATACTTCTGACCTACTGACTCCAAATTGGCATTCCTACTACCCCAGCCAAAGGTTTGATTAATTTGCTAGGATGGCTCACC
GAACTTAGAGAAACACATTTACCAGTTTCTTATTGTTGAAGGACAAAATCACAACAAATTCGATCCTTTTGTAGTTAATAAATGTGATGATTGGGTTTTC
ACACTCATGTGAGATGTGCTTCCCTCAAACCTTGTTACGATGTCGTGATAAGGAGGGAAATTATTACAAATTCATTTTTTAACTCCTGTTCTTGTTTTCT
TTTTTGGAATTTTCTTTTTTCCTAAACGTGACTTATTTCAAGGGTCAGTTTGCTAATGTGGCGTTTAGCATGAGAGACTTCATTCTGGCTTGGTCTGGTA
GTGCGGGAGGCTCGTACAAAACAACGGCCTTTCCATAAAAATGAACAAAATAATGCGCTTGGCCAGGACATGGGTGGAGCTGGAGGCGATTATCCTTGGC
AAACTAACACAGGGACAGAAAACCAAATACTGCGTATTCTCACTCATAAGTGGGAGGTAAATGATGAGAAAACATGGATACGTAGAGGGCAACAACACAC
ACTGGGGCCTACCTCAGGGTGGAGGGTGGGAGGAGGGAGAGGATCAGGAAAAATAACTAATAGACATTAGGCTTAATACCCGGGTGATGGGGCCAGACGT
GGTGGCTCACACCTGTAATCCTAGCACTTTGAGAGGCCGAGGCGGGCGGATCACCTGAGGTCTGGAGTTCGCAACCAGCCTGACCAATACAGTGAAACCC
CGGCTCTTCTAAAAATACAAAATGAGCCAGGTGTGGTGGCACATGCCTGTAGTCCCAGCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCGG
AGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTAGGCGACAGAGCGAGACTCTGTCTCACACACACACACAAAAACCCAGGTGATGAAATAA
TGTATACAACAAACCCCCATGACCCGTTTACCTGTGAACCAGGCTGCACCTCCTGCACGTGTACCCCTGAACTTAAAATATAAGTTAAAAAGAGAAAAAA
AATTGGCCTATTATAAAGTGTAACAACTGCAACGTCTATTTTTACCTCTAGGGAATTATTTTAAACATTGTTTACTGATGGTGGTATTGCCCATTAAATG
CATGCACACACACAGACCCTAAAGCTTATCGTTTCCTTCCACTCTGCCCTAATTGAAACAAAACATACTACTAACTACATTTCTGCCCGTATGAGTACCC
CTCTTCTGTGCTGAAATCTTATTTATACTCTCCGTCTTCACTTCTTGCCTCCCATTCCCTCTTGAATGCATCCAGTCAAACTTGCATATCCACCATTCCA
CTGATAACTTTATTTTTCAGAGTCACCAGTGACCTCCCCATTTCTAAATCCAATGTATTTCTTTTCCTGCTTTAGTCTTTCTTTTCCTGTCAGGAGCTTT
CTGTTTAATTTTCTTGTCACCTCCCTGACCATTTTCCTCTGCTGCTGTGTCCGGACTTCGAATGTTTCTCAATGTGGGAAAGACTCATGGCTTAGTCCTT
GAACCTCTTCTTATCTCTGTCCACACCTACTGTCTTTCCTCATCATCTCATCTCATGGCTTTAAACCCCACTGTATTAGTCCATTCTGGAATTGCTACAA
CAAAATTCCAGAGACCGAGTAATTTATAAAGAAAACAGGTTTAATTGGCTCACAGTTCTGCAGGCTGCACAGGAAGCATGGCAACATCTGCTTCTGGGGA
GCCTGTAGGAAGATTCCAAACATGGTAGCAGGCGAAGTAGGAACAGGCGTCTCACGTGGCGGGAGCAGGAGCAAGAGAGAGTGAGGGGGGAGGCGCTACA
CACTTCTAAACAACCAGATGTCGTGAGAACTCACTGTGATAAAGAACAGCACCAAGGGGTGGTGCGAAACCATTCATCACAAATCCACCCCCATGATCCA
TCCACCTCCCACCAGGCCCCACCAGTAACGGTGGGGATTACAATTCAGTGTGAGATTTGGGCCAGGGACACAGAGCTGATCCATATCACCCACCTACTCA
CCTACACGTCTCCATGTCCCCTGCAGGCCTGTCCCCTGAACTCTAGAATTCTGTGTCCTGTTGTCTCCTCTGTTGTCTGTTCAGCCGTCTAAGAGACGTC
TCCACCTTTATGTGTCTAAAGTGACTTCCTAAACTCCCTAAGTACATTCCCCTGCGCTCCTGCACATCTCAGATGACGGTGGCCCTATACTTCCTGGCTC
TAGCTTTACATGTCAGGATATATTTGAAATAGAGAAGATATGACATTATATAGAAGGGTTTTAATTCAAATGATAAAGAAAAGTTACATTTACCTAAAAT
GGTAGGGAAATGCATAGTTTCTAAAAGTGCTGTGAGCTGTGGGAGAAAAATGTTTGAAGACCTCGTCCCTACCTGATCTGCTGCCTCGGGACCTCTCTGA
CCTCATTTCCTACCTGTGTCCTCCTCACTCCCTCTGCTCCAGCCACACAGGCCTCTTTCCTATTCCTGGAGCCGAGGGTGTCTACCTGGGCTGTCCCTGT
GCCTAGAACTCTCTGGCCCCTCAGTTGCAGGTAATCTGGCAAGATTTCCCCCATCCCGAGCTGCAAAGGTGCCCTCTCCCACCAGCATCACATGAGACTT
CCCACTCATTTAAACAAAACTTACTACTATGTTGTTTTTACATTTTGAGGATCTGGGGAAAATGGCAACCCAAAGAAAAGTAACTTTGAAACAACCAACA
TGCTTTTAGTTTCCTGATTTTGCTCCATTCAGCCCCTTTCAGCTTATGAAGCCAACCTCCTCCCCTTAGCTCACAGAACACTCCTTTCATTTTAAGAATG
AGGTGTTGTCTGATTCTAGGATTGCAAATAAAAGCCAATAAAGGCAGGTCCATATTTTCTGCTCTGTGTGTTTCTTTCTGGCCCTTTGCCTTCCACTTTC
TACAGACTGGTGACAGCAAGGCCCCAAGGGGAGGTCAGAGCTGGGAGACTGGGGCTGTGGTAGTCTTGCCCCCTTTGAGACTACTCAACCCTCGCTTCAC
ACTAGAGTGCCAAGGCATTTGTAACACATGGTTCATTCCCCCTTATAGAGATTCTCCTTCCAGTAGTTAGGGTGGGGCCCAGCCTCCGTAATGTTTTAGG
TACCCAAGTTGATTTTTTTTTTTTTTTTTTTTTTTTTTGGTGACAGAGTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCTTGATCTTGGCTCACTGCAACC
TCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAACTGGGATTTAAGGGGTGTGCCACCATGCCTGGCTAATTTTTGTGTTTTTGGT
AGAGAGGGTGTTTCACCATGTTGGCCAGGCTGGTCTCGAATTCCTGACCTCAGGTATCCACCCGCCTCGACCTCCCAAAGTGCTGGGATTACAGGCATGA
GCCACCGCTCCCAGCCCCAAGTTGATTCTCATTTGTATCCAGCATTGAGCTTCCAGCCTCTGTGTCCCCCATTTCCGAGGGCAGAGCTCAGCCTGTGACC
CACAGAGGTGACGGGGGGCTGTGCGCTGCATGGGGTTTGATCAGGGATAGGTCCGTGCCCTGAATGGGAGCTCAGTCCAGCCTAGCTACACACTGCWSCW
GCCTGTGTGTGGGCTTCTCCCAGAGGGGAGCTAATGCTGAAGAAAACRGTGAAAGATTCACTTGGTCTTTGTGTAGGAATTTATTATTCTTGCATCCCCC
CTGGTGCAGTGGGCTGTCTCTCCACAGGCTGAGTTCTTCCCTGTGTGCATGGTTGTGACACAGAAAGGAATGTGTTGTTTCCAARCATTAAACAACAGAT
TTTTTAACTTTCAGGTTTGATGTGTGAATAATTACATTGACTGAGAAAGAAACCCAGAAGAGGAAGAAGAGGAAGGAAAAGGAGTCAGTGATGGCTACTC
AGGTAGAGTGATACTTTACTCAAGTGAAGTGATATTCTTGGTGGGTCATTCTGTCTCCTTCCTTTGTGAAGTACAGGGCGTCGGAGTTGCAAATCTTCTC
TGAGTCTGAAGTGTCCTTCCTGACACATTTGCTCATGCTCATCCATGCTTTTCCTCAGTTCCTCTCATCTTATTTAGATTCCATCTCACCATGATCCAGT
GACATGAACTTGGGAAGAGGCTGCACTGGGCATGGTCCTGGGAAGGGCTCACACCCAGACATGGATGGAGATGGGGTGAGGGTCCCGTGGTATCAGAGCT
GTTGGGCAGCAGGGATTGTTTAGGGGCCACATCTGGATGCACTGTCAGCTTTCTGTAGACCAGGAATAGAGAAGCTGCATGTGGAAGTCACATATTAATG
TGCATAAATACCTAGTAAATTATCGAAAGGGGCCAGGCGCCGTGTCTCATGCCTGTAATCTCAGCACTTTAGGAGGCTGAGGTGGGCGGATCACTTGAGC
TCAGGAGTTTGAGCCAACATGGTGAAACCTCGTCTTTACTGAAAATACAAAAATTAGCCAGTCATGGTGGCAGGGGCCTGTAATCCCAGCTACTCAGGAG
GCTGAGGCGGGAGAATAGCTTGAACCCGGAGGTGGAGGTTGCAGTGAGCCAAGATGGTGCCACTGCACCCCAGCCTGGGTGACAGAGCAAGACTTCATCC
TCAAAAAAAAAAAAAATATGGAAAAGGAGGCGTGTAAGGGGAGATCTTTCTGCCTGATTTTATACTACATTTGAAGCTGTATGAATGAGTCACTATTTCT
AACTGCCTTAATGACAGGGAATTGAATGGAAAACTAGATACAGACATTAGAGCGTGTTTTATTCCATCATTGATTTAAAAATATGAAATCAACCTGAATG
TCAGATTCTAGCCATGGTCAGAATATCCATCTCACAGAGACTGCGGTGTTCCTKCGGGGACTCTTACCAGCAGTTGTTTTAAGTTTTAAGGTTATAATTT
TGCTCAGATGTAAGAGCTGAACATTTGTTATCAGAGAAGATGGAGCCAAATTCTCTCACTGCACCAATTATTATTAAATATTATATTTATTTTAAACATC
ACATGATGTATATATTTGTTTTTTTGGTAAAATTTCAAGCAGAGATGCAGTTTAGGCATTAAGAAGTTAATACAACACGAGGATGATAGGAAATAATTTT
GTTTTGTTTTTTGCTTTTTGTTTTGTACGGAGTCTCGCTCTTGTCACCCAGGCCGGACTACAATGGCGTGATCTCGACTCACTGCAACCTCTGTCTCCCG
GGTTCAACCGATTTTCTCTTGCCTCAGCCTCCCAATAGCTGGGATTACAGGCGTGCACCACCACGCCTGGCTCATTTTTGTATTTTTAGTGGAGATGGTG
GGGGGTTTCATCATGTTGGCCAGGCTGGTCTCGAACTCCTGATCTCAGATGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGTGTGAACCAC
CACACCCAGCCTGTAAATAATGTTTTATTATATATGAAATTCATGCTAAATGAGATTTTAGCTGTTCTGGCCAAAACAGAGGGAAAAAAAAAAAAAGTAA
CTGTGAGATGATGGGTGTGTTAATTTGTTAAACTCTAATGACTTTTTTTTTTACTATCCATACCATAATACCATGTTGTATACCTTAAATATACACAATG
TAATTTATCAGCAAACAAAAATGGGCATCAAGGAAACATTTTAGCTTTTTTTTTTTTTTTTGAGACGGAGTTTCGTCTTGTTGCCCAGGCTGGAGTGCAA
TGGCGCAATCTTGGCTCACTGCAGCCTCCGCCTCCCAGGTTCAAGCGATTCTTCTGCCTAAGCCTCTTGAGTAGCTGGGACCACAGGCATGCACCACCGT
GCCTGGCTAATTTTGTATTTTTAGTAGAGACAGAGTTTCTCTATGTTGGTCAGGCTGGTCTCAAACTTCCGGCCTCAGGTGATCCACCCGCTTTGGCCTC
CCAAAATGCTGGGATTACAGGCATGAGCCACCGTGCCCAGCTTTAGTTTTACACAGAAAGAAATTTATAACCTAAGAAAAGGACATCAAGGCATATATAT
TTTAAAAATTTAACTACAGAATATGAAATGGCTCCTAGAATGCAGTAAAGGAAAACTGAGCAAAGAATGAAAATTATTTTKGTTTGATTTCCACAAAATA
ATGAAACCTCCTCACAGTCCAAGGAATTGGAAAATGGAAATACGAAGGGTTTTCATTTTCCCCATAGCCTCAAAATGTAAACAGAACATAGTAGTAAGTT
TTTTTTTTTTTTTTTTATTGGGTGGGAAATCCACCCAATATGTGTCGTTGGTGTATGAGGACACCATTGCACCTTAGGGTAGTGGGAAATCTTGCCAGAT
CCAGGAAAATAGGAAATGCACCATCCTAAAGAGGCAATCACTCTTTCAGTTACCCAACCTGGAGGAACCCGGGTTTCTTTTCCCTGTCACTTTCTCCATC
ATCCCTCATGTTTCCGTGGGGAGCTACAGTTGTAAGTTCTGTGGCAAGAGTCAGTGAGAGGTGTCAAGATGCATTTACGTGTCATTATGAGATTTTAGAA
AACAATTCTTCAGTACATGTTCTGTTGTGAAATTTCATTGTGCCAGTTTTTCAAAGATACATCTTTTTTTGTTAATAAGCAGTAATAGCTTGTTTTGCAT
CCTCTTTGGAACAATCTCTAAATGAAGACATATGGATCTTTTATAATTTTTCACCATGGCTGCCACAATGCTCTCTTCACCACAGGTGTTTGAGGGTTCC
TTCAGGTTGGACAGTTTAAAGAGTGGTTGCTTCTGTTAGGACGCTATACCACAAAAGCAAAAATAAATAACTGATCTTTCTTTGGAAGGCCTGGCTCGCT
GTGTGATTATAAAATACTGTGTTTTTTTAAGATCTAATATTTTGTTGCTTACATTTTATTTGCTTGAATCTTTAATTTGAATTTTTCTGTATATCTTGTT
GTAGATTATATTTGATTATAAAGTTTTAGATTATAAATAACATAATAGGTTCACAAGTAGATTGGCAAACCCCTCCATTTTCTTTCCAAAATTATTATGG
TTCTCCTTTTACACAACACAGCCACATATTATTTAAATTCCACATATTGGCCGGGTGTGGTGGCTCACACCTGTAATCCAGGCACTTTGGGAGGCCAAGG
TGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTGAAAATACAAATATTAGCCGGACATGATGGTG
CACGTCTTTAATCTTAGCTACCTGGGAGGCCGAGGCAGGAGAATCCCTTGAACTTGGGAGGTGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCC
TGCCTGGGTGACAGTGAGACTCTGTCTTCTAAAAAAAAAAAAAATTCCCACATATTTTGTTTGTGTTTTCATGGCTCTGAATTTTTTCAGTTGCAGGCCT
TTATGTCACCATGTCTTCCAAAAAGAATCGAGTTTGTCAGTCTTTGATAATATCTTTATTATGTCTTTCATTAAAGCTTGTTTGCTTATGTAAAGTTCAG
TAATGTTAGATATATTCACATTATTTGTTGGACTCCCAGAATGCATATGTTCTTGGTGCTTGATGGTTTTTCATGGGCCCATTAGACTCTCTTCATTTTC
TTTATTTTATTTAATTATTTATTATTTATTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGACTCACTGCAACCT
CTGCCTCCTGGGTTCGGGCAATTGTCCTGCCTCAGTCTCCCTGAGTAGCTGGGACTACAGGCACGTGCCACCACACCTGGCTAATTTTTGTATTTTTAGT
AGAGACGGGGTTTCACCGTGTTGGCCAGGCTGGTCTTAAACTCCTGACCTCAGGTGATCTGCCTACCTTCGCATTTTCTTTATTTTTGGAGACAGAGTCA
CACTCTATTGCCGAGGCTGGAGTGCAGGGGTGGGATCTCAGCTCACTGCAACCTCTGCCTCCTGTTCAAGCAATTCTCATGCCTCAGCCTCAGATTACAG
GCATGTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCATAATGTTGGCCAGGCTGGTCTCGAATTCCTGCTCTGAAGTGATCT
TCCTGCCTGGCGTTCTGAAAGTCCTGGGATTACAGTTGTGAGCAATCATGCCCGGCCCACATTTCTTTTTAATTCTTCAAAGCCAAGATGTAAATTGCCA
TTTCTTTCATGTAGGTTTGTACAGATTCAGTTGGTTTCTTTTTGTAGACCGTATTTCCCTGTTTCTTTGTATGTTTTATTGTCTTCTTTTGTGACTTCAG
CATTTGAAAAAATCAGCTGCCTGCCCAGATTTGGTGGCTGCTTTGTTCAGGGAGGACATTCCAATCAACTACCCTAGATTCTGGAGACTTCCCATGCTTT
TTCTCTGGGCCTTTGCTTGTCATCTCCCTATTGAAGAGGTTTGCTGCTTTCTACTCAGAAGCTCCCCTATTTTCTGTACTATTGTGGATAGACTCTGGTA
CTGCAGATATCTGTGGTACTAGATCTTCACCCTCATGTCTTTCTGTGTTATTGCAGACACYGGTTTACGTCAGTTATCTTTTTGCTCAGTGGCSCCTAAC
CTTTCATCCTGTTCCTTTCAGTGCTACCACAGGAGGTCACCACTAAGGCAATTCTCAGCCTAGCCATGGAGGCAGGGACACCTTAGAGAGTGCTTATTAG
GGCAAGGTCAAGGGGAGCCCTGGAAGCAGGACCACGCCTGAGACCCCAGAACTGTAGAGTCACCAGTATGTGATCCCAGCTCGGGAAACCACAGCCTGTG
AGAAGTTCCATGTGGGTGATCCCAACAAAACTAATGGGGCAGGGATCCCCAGGACACTGGGGACCTAACTCCTACTCCAGGATGTCTAGAAGGTGGGACA
TAGAGTCAAAGAAGATTATTGTCAAGCCTTAAGATTTAATATGTGTGCCCTATTTGAGTTTCAGACTTAACATGGGAGTGGCTACCTCTTCTTTCCTGTT
TCTGCATTTTGGAGTTGAAATATTTAGCCTGTGTCTACGCCACCRTTGGATGTTGGAAGCACTTAAGTCGTTTGATTTCACACGTTCACAGCTGGAGAGC
AGTTTGCCTCAGGATGAAACACATTTTTGAGTCTCACCCATATCTGATTTAGATTATAGTTAGATGCAGCTGTAGACTATAGACTTTTGAATTGGTAGTA
GAAAAAGTTAAGACTTTGGGGGGCCATTGGGATGGAATGCATTTTRTATGTGAGGAGTACATGAATTTTGGTGGGGCAAGATGGAATGCTGTGGTCTGAG
TGTTTTTCTCTCCTCCACAATTCATTTGAAACTTAATCTCCAATGCCCAATCTCCAAGTATTATGAGGTTTGGGTTTTAGTAGGTGATTGGATCCTGAGG
GGTCTGCCCTTATCAATGGGATATGGTGTTCTGGTCAGTGAGATATCAAAACGCTTATCCTACGGAGTTCACTGCTTTTTGGCCCTTCTGTTCCTTCTGC
CACGTGGGGACACAGCATTCCTCCCCTCCAGAAAATGCAACAAGACACCATCTTGGAAGCAGGGATCATCCCTCAGCAGACATCAGTCCTTCTGGCACCT
TGATCTTGGATTTCCCAGCCTGCAGAATTATGAGAAATATATTTTTATTGTTCATAAATTACCCAGTCTGTCTTATTTGGTTATAGCAGCACAGACAGAC
TAGGATATTCTGTAACCATAATGTAACTGTTTGATTGTTTTGATTCAACTCTAATTCTCAGACATCTGGGTTCAGATGCTTGCTCTGCCATTTTCAGGTT
GTTGACCTAGGCAAGTTTGTTAGCGTGTCTGTGACACAGTAACATGGAACAAGTCTCTCTCTCATAGGCTATCATGTTGTTATTTGAATTAGAACATGTA
AAGCATTTGGAATAATGCCCAGCACGTGGGGAGTGTTCCAAAACTTCAGTCATTGCTGTTGCTCTGGTCATCACAGTTTTTAGTTTCTGACCTTTAAAGC
CGCTGTAGACATTGTCATCTCTGAAAACACCACTCATATACTAGCTCACCTAGACACAGTTGATGTATGGAGCATAATATCTAACACTTTTTAAGGGATA
ACCATGTGTTTTTCTTATTTGTGTATTTCTTGTATTGTCCACAAAAATAGAACTATACACTGATGTAGAGAATATAATAGTCTCCTATTGTATTTTATAA
CAAACTAAAATTAGGGACCAATAACTTTCTCACAGATGCCATATAGATATGTCAAAACACACACTTCAAAGTGATGTGATAGTTCTCTCCTCATTTTGTG
TAAACARAAGAGCTCTCATATTGCTTCTTTTTGAAATGTGTTTTTCATTTCAGGGGCATTTGACATTCAAGGATGTAGCCATAGAATTCTCTCAGGAGGA
GTGGAAATGCCTGGAGCCTGTGCAGAAAGCTTTGTACAAGGATGTGATGTTGGAGAACTATAGGAACCTGGTCTTCCTAGGTGAGTATAATTTCCTTCTA
GAAGTTCAGATTCGCCCTTGTGCATTTTTGTATTTYCTCTGTTGTCTTTCTTGGGAACCCCTCCGTTATTTGAGACTGAAGCCTTATTGGTTCAAAAATA
AAAAGCTTCACAATGCTGCATCTGGCCTTTCACTGTCACCTTTGTATATATATTCTGCTGCCTTCTTTSTACATCAGTGGTGGTTCCAGAGCTGAAGTTC
GCAGAGAACTTTATGGCAGAGTTAAAATATCCAATTCCCTGTTTTCTGTCCATGTGCTTTTTTGTTTGTTTAAAACAGGTTCTTGCTCTGTTGCCCAGGC
TGGAGTGCAGTGGTGTGATCACAGCTCACTGCAATCTCTGTCTCCTGGGCTCAAGCAATCCTCCACCCTCAGCCTCCCAAGTAGCTGGAATTATGCGTGC
GTGCCACCATGCCCGTGTAGAGACAGGGTTTTACTATGTCACTCAGGCTGCTCTTGAACTCATGGGCTCAAGGAATTCTCTGGTCTTGGCACCCCAGAGT
GCTGATATTATAGGCTTGAGCCAGTACGCTTGGCCTATCCCTGACCCTGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCA
CCACGCCCGGCCAAAGCTTATATTTTTTAAGTCCACATAATTTGTTTTAAGTGACCGCTACTTTAATCTGGTGCATTTTCATGTATTGTAAATGAACTTT
GTTTTTATTTATTTAATAATCAGTTCCATATTTTTGAGGATACTCAGTTTTCTTTGTTTTATGTTTCTTTTTGAGGTAGTGTTGTATTGGGGAATGTATA
TCATTTTATATATTTTACAAGATTTCTTTCTTTAGTACAGATGGTATAGCTCAGGAGCAGTTTCTCTAAAACTTACACAAACTCAATAGTGTTGTAATAA
GACAGTTTCAGTTATTTCTTTTACTCCCATTTCTCCTGACTTAATTCCTACTATTAAATTTGTTAATGAGACCGGGCACGGTGGCTCACGCCTATAATCC
CAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAAACCCGTCTCTACTAAAAATACAAAAA
ATTAGCAGGGTGTGGCGGTGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCAGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAGCAG
AGATTGCGCCACTGCACTCCAGCCTGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAATTGTTAATGGAATTGATTACAGTTCTTCTCATTGG
AAATTTTTTAATACCTTGAATATATTTTTTTAATATAGTTACTATCTTCATTGTAGAAATACCATGAAAGAGATTGGTCATACTTTGTTTTTGTTTGTTT
GTTTTGTTCTGTTTTTTGAGACGGATTTTCATTCTTGTTGCCCAGGCTGGAGAATAATGGCGCGATCTCACCTCACTGCAACCTCCGTCTCCCAGGTTCA
AGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCACCACACCTGGCTAATTTTGTATTTTTARTAGAGATGGGGTTTCTCCA
TATTGGTCAGGCTGATCTTGAACTCCCGACCTCAGGTGATCTGCCAGTCTCGGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCCACTGCGCCCGGCCT
GGTCATACTTGTTATATCAGACACATTGCTTTTCTGTAGTAAGTTTCAGTTTCCTAAATATAACTTGCTGGATTTTCTTTAAATCACACTTTTTTTTTTT
TTTGGAACAAGTGCTATATTATAATAATTATTCTCCTGTCTGCTTTCAAGTCCATCATGTTATACTGAATTATTATTTTCAAATCTTACTTTATTATACA
TGTAGCCCATTTCTTGCACTTCAAGGACTTCTCAACTGATGTTTATAAAACCTATATATTTTTTCCCGTCATGCYTAGGGAATGAGGAATAAATTTTTTT
TWAAAAATTATATTTTATCCAGAAGTGTTTTTCCTAAGTTTTCTTCTAGGATTTTTGTAGCCTGAGGTCTTACATTTAAGTCTATATCCATCTTGAATTA
ATTTTTGTATATGATGAGAGATAGGGGTCCAGTTTCATTCTTCTATATATGGCTAGCCAGTTTTTCCAGCACCCTTTATTGAATAGAATGTCTTATCTCA
ATTGTTTTTGTTGACTTTGTCAAAGATCAGTTGGTTGTAGGTATGTGGCTGTRTTTCTGGGTTTCCTATTCCATTCCATTGGAGATCTGTGGCTGTATTT
CTGGGTTCCCTATTCTGTTCTATTGGAGATCTTCTATTTTAACAGAAGCATTTATATCTAACAGTTTTCTATCTTAGCACTGTTTTCTGTGCATACATAA
GTTTTGGCATGTTCTATTTTCATTTTCCTTTGTTTTGAGATATTTTATCATTTCCCTTGAGATTTCCAATTTGACATATTGGCTGTTTAGGAATATGTTG
TTTCCACATATTTKTTGATATTCTAATTTTTTTTCTGCTGTTGATCTCTAGTTTTATTTTATTATGAAGGGATAAGTTACACTTTATGATTTCAGTCTTT
AAAATGTGTTAAACGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCGCGTCGCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCG
TGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGTCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAACCAAGATCAYGCCACTGCCTTCC
AGCTTGGGTAACAGAGCGAGACTCAGCCTCAACAAAAAAGAAGTGTTAAAAAGTTTTACTTTTAAATATTTCTTTTGAAGAATGTTCTGTGTGAAGTTCT
GAAAAAATTCTTTCGTGCTGTTTTTGGGAGATGCGTTGTGCATATGTAGGTTAGGTCCAATTTAACGTATAGTTTAGGTTGCCTATTTACTTACTTTTTT
TCTGTCTGTCCTATTTATAAAAGTGGTCCGTTGAAGTCTTTTATTATTACTGTGGAACTTTTCTCCCTTTAGTTATGTTTCTCTTGCTTCATATATTAAG
GATCTCTAATATTAGGTGCATATATAACTATAATTGGTATATCTTCTAGTGAATTAACCCTTTAATTATTAGATAATGCTCTTCTTTGTCTCTTGTACCA
GTTTTGACATAAAGTCTGTTTTGACTGATACCAGTTTAGCCACCTCCGATGTCTTTCTATTACCATTTATAAGGGATATCTTTTTTCACCCTTTCAATTC
AGCCTGCGTGTGTCCTTCAAATAAAAATGAATCTTTTGTGGATAGTATGTAGTTGGAGCCTGTTTTTAAAATTCATTCAGCCAGTCTCTATCTTCTGATT
GTGGAGTTTAAGCCACTTACACTTAATGTAATTACTGATAGAGAAGGACTCACTCTTGCTGTTTTGCTGAATGTTTCCTATATCTCTTAGATTTTTTTGT
TCTTCATATCCGTTACTGCCTTTGTGTTTATTTAGTTGATTCTTTTGTCTTGACATACTTTTATTTCCATTGTGTGTGTCTTCTATACATTCTTTGTGGT
TACCATTGCAATTACAGAAAACACTTTAGATTTATAACATCCTGTTTTAAACTGGTAACAGTTTGACTTCAGTCACATAGAAAAATGACTCCTTTACAGG
TCTGCTCCCATGTTATGTTTTTGATATCCCAGATTACTTCCATATATACTGTGTCTCCATGAACGTGTATTTAAACCTTGACAACAATTTCCTGCTTTCT
TAGTTTTTTCAGATTAATATTTGCCCATTTTGCYAGCGTGTCTTCTTCTGCATCCCAAGTCTCCTTAACATTGTTGTACTATCAATAAGGTTTTATGTTG
TCTTTTTGTGTGTGTACAAAATAAATTCATCCATCTCCTCTTCATGGCTGTTATCAAATTTTTTCTTCAGGATTATATTGTAGGAACATTTTTTCGCATA
TCTCTTGATATGTAGGGTTGTTGAGCATATGCCTGGAAATATAACTCATGGGACATTCAATTTGATAAAATTCATAGCATATATTATAAAGACATAAGTC
TGCTTTCTTCCCATATCCTCACACTGCCTCCTTTTTAACTGTTTTCCCTTGTCCTGTGCCCATAGTATAATTCACGTATTTAAATATTGGCCAGTATAAT
GCTACTTCTAAATTAGTTTCTTTTTTTGTCCAAAGTCAGGATTTTAACTGTTCCTGGTGAAATTATATACCTACAGCTCTGCAAGCACAAACCCTGCTGC
CCCATGCACATTACTCCTTGCCCTTTCCTCTTGCCTTTTCTCTTCCCTGGCCTTTCCTAAAATAGTACTTTGTTCCAGACGGAATACCTGGCTACTTACT
AGCATATAAGTTTTACACTCCCATTATTGCATAACTCCTTCATCTCCCACACTACTCTCACTCTGTAAGGGATGACCGTACTCATTCACTTGATCACTTC
CTTTTTTTCTTTTTTCTTTTTTTTTTTCATATGGAGTCTTGCTTTGTCGCTCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGTAACCTCCACCTC
CCGGGTTCAAGCAATTCCCTGCCTCAGCCTCCCACGTAGCTGGGATTACAGACACCTGCCCCCACACCCAGCTAATTTTTGTATTTTTAGTAGAGGTGGG
GTTTCATCATCTTGGCCGGGCTGGTCTTGAACTCCTGACCTTGTGATCCACCTGCCTTGGCCTGATCACTTTCTGAGAACACTGTCTAAATCATTATGTG
CAGGGAATGATGACTCAGATACTGTTATTCATGGGGATGGCTGAATAATGCTTTTGGCAACACAGCATGGCTCTTGAAGTATTTCTTTATACACTCTTAG
TATTTGGGGTGACCTGTTACCTGCAGTACCTGCTTGGGCAGTTTTTGAAAAAAACATAATGTTTGATCCTGCAAACGTAGGTGCATATCTTACTTTCTTT
GTAAATTGGATGTAGATACATGAATCCCGTGGGCATACTAACTGCTTGTGTGTTAAATAGTGGTAATTTACCTCAAGACTTTTTAAACAAGTTAGTGCTG
TTAGCTAGTCTAGAATATTGTTTTTTAGTAAAGACTCACAGATTTCTTTGTTAAATAAAGCATATCAACATTGTTTTATGTTTATAATGAGATAGCATAT
TGGCTTTACCCTAGTCAGCATGGCTACCTATAGTAGATATTGTAGATTGGGTGGTTGAAACAACAGAAATTCCCTTTTCACAGATCTGGGTGGTGAGAAG
TCTAACATGTCAGAACCAGCCATTTTGGTTCTTGGCATGGCATGGGCCCTTTTTCCGGTTTACCATGGCTTTCTCTTTCTGTGTCCTGACATGGCAGAGG
ACCGAATTGCCTCCCAAAGACCACACCTCCAAATACTATCACATTGAGGATTGGGTCCTCAACATAGGAATTTTGGCAGACATTAAGTCTTTATATCAAA
GCAGCCTTCATYGTATCTGTAAGTTTTCATTTTGTAGTTTCTTYCAAACAGTGTTTGTTGTCTTTTATCTTAGTTCATATGCTTTTCAAGTAGAAATCTC
TTGATGATATATATTTTGTGGCCAGTTAACTAGGTAATTAGAGGCAATGAATAGGACCAGGTGTGGTGACTCATGCCTGTATATAATCCCGGCACTTTGG
GAGGCTGCAGCAGGCAGGTTGCTTGACCTCAGGAGTTCGAGATCAGCCTGAGCAACATAGGAAAACTCTGTCTCTACCAAAACWACAAAAAAATTAGGTG
GGCGTGGTGGTGAACATCTTTGGTCTCAGCCATTTGAGAGGCTGAGGTGGGAGGATCGCTTGAGTCTTAGGAGTGGAGGTTGCAGTGAGGCAAGATTATG
CCACTTTACTCCAGCCTAGGTGACAGAGTGAGACTCTGTCTCAAGAAAAAATGACAATAGATAGGGAGTTGCTCTATTGATTGTTACATAGGTGTAGGCA
TGAAATCATAGTCAGTATTTTTCCTTCCCCACTTTTTATTCTGTATTATGTTGTGTATTTACCTTTCTCCCATCCAAGTAGTAACCAGATCTGACACTGT
TTAGCTTCTGAGATCAGCTGTGTTCCAGGTGGTATGGCCATAGACATATTTATCTTTCTTTTATCTTTAAAAGTCAGTGATCTCAACATATTTTCTAGTT
ATCATATGCTGTCTCTAGAATATATGTTCTTGCTTATTATAAAGGGAGATTTGTTTAGAATTCCATACTATAAATTTGTGTATTTGCATATGATGCAAAC
TTGTATATGCAATATACAAATTTATAGTATGGAATTCTAAGTATATTGTATATTGTATTTTACTTACCTGCTGGTTTTATCATGGGTTAATAGAGTGTTT
TATTTATTAATTTATATGATGATTATTAATTAGTTTATCTTGTGAATATTTACCATTACACTATATCTTGCTGTRGTTTGGCATTTGTTTGTACACAGTA
AATATGAAGTAAATATATATAACTTTTATTCTCTTATGAGAGAGCCACATTTTCTGCCAATCGGTTCGTAATTTGGTGTCATTGGTTGCAAAATACTTGT
TTTAGTGCCAATATATGTTTGCACAACATAAGTCTTTTGGTCATAGGATGTTTGAAACTAGGCTTTCCTAAACTTAATTTGAATTACATGTAGTCACCCT
TTCTTTACTRTAGACTTCTATTCATTTTGTATTTCTAAAAATAAAAGATCATGGTGGAGAACTCTCACACCTGTCTAGTATAAAGATTATGTTTAGTGTA
GGTATGTTTCCAATATAAAATRTTTGTTTATCAATAGTAGTAGTTTAAAAAAAAACTCATGTTCATTATATTTTGCAGGTATCTCTYCTAAATGTGTGAT
CAAGGAATTACCACCAACAGAGAACAGTARTACAGGAGAAAGGTTCCAAACAGTGGCACTGGAAAGACATCAAAGCTATGATATTGAAAATTTATACTTC
AGGGAAATACAGAAACATCTACATGACCTTGAATTTCAATGGAAAGATGGTGAAACAAATGATAAAGAAGTGCCAGTGCCCCATGAAAACAATCTTACTG
GTAAAAGAGATCAACATAGTCAAGGGGATGTAGAAAACAATCATATTGAAAACCAGCTTACATCAAACTTTGAGTCACGTCTGGCTGAACTGCAGAAAGT
TCAAACTGAAGGGAGACTTTATGAATGTAATGAAACGGAGAAGACAGGTAATAATGGTTGTTTAGTTTCTCCACACATTAGGGAAAAAACGTATGTATGT
AATGAATGTGGCAAAGCCTTTAAAGCGTCTTCCAGCCTTATTAATCATCAGAGGATACATACTACAGAGAAACCTTACAAATGCAATGAGTGTGGCAAAG
CCTTTCATCGGGCCTCACTACTAACTGTACACAAGGTAGTCCATACAAGAGGGAAATCATATCAATGTGATGTATGTGGCAAGATCTTCAGAAAAAATTC
ATATTTTGTAAGACACCAAAGGAGTCACACTGGACAGAAACCCTACATATGTAATGAATGTGGCAAGTCCTTTAGTAAAAGTTCCCACCTTGCAGTTCAT
CAGAGAATTCATACCGGTGAAAAACCTTACAAATGTAATCTGTGTGGGAAATCCTTTAGTCAGCGTGTCCATCTTAGACTTCATCAGACAGTTCATACTG
GAGAGAGACCCTTCAAATGTAATGAGTGTGGCAAAACCTTTAAACGGAGCTCAAACCTCACTGTACATCAGGTAATCCATGCAGGAAAGAAACCATATAA
ATGTGATGTATGTGGCAAGGCATTCAGACATAGATCAAATCTTGTATGTCACCGGAGAATCCACAGTGGAGAGAAACAATACAAATGCAATGAATGTGGC
AAGGTCTTCAGTAAACGTTCAAGTCTTGCAGTGCATCGACGAATTCACACTGTAGAGAAACCTTGCAAATGCAATGAATGTGGCAAGGTCTTCAGTAAAC
GTTCAAGTCTTGCAGTGCATCAGAGAATTCATACTGGACAGAAAACTTACAAATGCAATAAATGTGGCAAGGTGTACAGTAAGCATTCACRTCTTGCAGT
GCATTGGAGAATTCATACCGGCGAGAAAGCTTATAAATGCAATGAATGTGGCAAAGTTTTCAGCATACATTCACGACTTGCAGCTCATCAGAGAATTCAT
ACTGGAGAGAAACCTTACAAATGCAATGAATGTGGCAAGGTCTTCAGTCAACATTCACGTCTTGCAGTGCATCGGAGAATTCATACTGGAGAGAAACCTT
ACAAATGCAAAGAATGTGGCAAGGTCTTCAGTGACCGTTCAGCTTTTGCAAGGCATCGGAGAATTCATACTGGAGAGAAGCCTTACAAATGCAAAGAATG
TGGCAAGGTCTTCAGTCAATGTTCACGTCTTACAGTGCATCKGAGAATTCATAGTGGAGAGAAACCTTACAAATGCAATGAATGYGGCAAGGTCTACAGT
CAGTATTCACATCTTGTAGGGCATCGAAGAGTTCATACTGGAGAGAAACCATACAAATGTCATGAATGTGGCAAAGCCTTTAATCAGGGCTCCACACTCA
ATAGACATCAGAGAATTCATACCGGAGAGAAACCTTACAAATGCAATCARTGTGGGAATTCCTTTAGTCAGCGTGTCCATCTTARACTTCATCAGACTGT
TCATACTGGAGACAGACCTTACAAATGTAATGAGTGTGGCAAAACCTTTAAACGGAGCTCAAACCTCACTGCACATCAGATAATTCATGCAGGAAAGAAA
CCATATAAATGTGATGAATGTGGCAAGGTATTCAGGCATAGTTCACATCTTGTAAGTCACCAGAGAATCCACACTGGAGAGAAAAGATACAAATGTATTG
AATGTGGCAAAGCCTTTGGGCGGTTGTTTTCCCTCAGCAAACACCAAAGAATTCATTCTGGCAAAAAACCTTATAAATGTAATGAGTGTGGGAAATCTTT
TATTTGTCGCTCAGGCCTCACTAAACATCGAATAAGACATACTGGAGAGAGCCTTACAACTAAACTCAATGTGACAAGGCCTTAGACGTTGTCCTAGTTT
CTGGAATCACCGAATAATTCCTACTTACTGATATACCTTGTATATTTACCCCTTCTCTTGAAATCCCTGTGGAATTGTAATCTCCAGTATTGGAGGTGGG
GCCCATTGGGAGGTGATTGAATCATGGAAGTGGATTTCTCAAACTGAGAAAGATGTAGCGTCATCCCCTTGGTGCTGTCCTGGCAATAGTGACTTCTCTT
GAGGTCTGGCTGTTTAGAAGTGCATAGCACTTCCCTGTCGCTTGCCCTCATTCTCACCATGTGAAATACCGACACCCGCTTTGCCTTCCACCATGATTTT
AACCTTCCTGAGGCTTCCCTAGAGGGTGATCAGATGCCAGCACCATGTTTTCATTTAAGCCTTCAGAAATATGAGCCAATTAAACTCTTTTCTTTATACA
TTAGCCAGCCTCAGGTTTTTTTTTGTAGCAATGCAGTTATGACCTAATACATTTACACATGCAGTAAATATACCTAAGTTTTAAGCTAGTATTCACTACT
CACTAGGTGTAAGAATTTGTATATATATTCCAGGATGTATACATCCTGGAGAAAAATCACAGAAGTGTAATACGTGTGGCAAGAATTCTACTCAAAAGCC
AGAACTTGTAAATCTAGGTAATTAAAAGGGCATAGATGTATGAAATGAAATGAGGGTGGCAAAACCTTTACTAGAGTTCAATCACTRCTTGTCATAAGAG
AGTTTATACTGAAAGGAAATCATATAAATGTATGTGTCAGAGGCTTTCCCCAGGCATTGGAACTCACTAGGCATCAGAATATACATCTTTGAGAGGAACC
ACAGAAATGTAATGTGCATGCTAAGGTTTTTACCCGAACATCAAAATGGAAAGAGTATTCATACTAGAGACAACCTTCCAAATAAATGGTTTTAAAAAAT
GAAATGTTCAAAGACCTGGAATCAACCCAAATGCTTATCAGTGATAGACTGAATAAAGAAAATGTGGTACATATACACCATGGGATACTATGCAGCCATA
GAAAGGAATGAGATCATGTCCATTGCAGCGATGTGGATGGAGCTGGAAGCCATTATCCTCAGGAAACTAACACAGGAACAGAAAATCAAACAGCACATGT
TCTCACTTAAAAGTGGAAGCTGAACAATGAGAACACATATACCCAGGGAGGGGAGCAACACACACTGGGGCCTGCTGATGGGGGTGGGAAGGGCAGGGAA
GTGGAGCATCAGGACAAATAGCTAATGCATTTTTGCCTTAATACCAGGTGATGGGTTGGTAGATGCAGCAAACCACCATGGCACACATTTTCCTATGTAA
CAAATTTGCAAATTGTGCACATGTACCCAGAACTTAAAGTGAGACAAAACCAATGTCCACGCCTTTGCAGTTTGATTGAACGTATAAAGGAGAAAAATCC
TGTAAGTATGCTGAACATGAAAGGACCTGGAAGCAGTAGTGTGTCTTCAGCCTTTACCAAATTATCCCTACTTGAGAGAAAACTTGGAAATGTAATCAAT
GTGGCACAAATTTCAACCAGTTTTTTAAACAGACTACACATCTTTGAAATCATACTAGGGATAACCAAATCTGCTTCTCCAAGATTGGCCTGGAATATTA
TTACAGAATAACTACCAGACAACATTTGTTAAAACTCAGGACAGTATGTATTTTAAAGGAGCAAGTGCATGTGTGAAAATGGCTCATTCAGTTTATAAAA
TATTACATTAAATTTGAGGTTTCTGTTTTTTTTMTTTTGTGACAGTCTTGCTCTGTTCCCCATGCTGTAGTGCAGTGGCACCAGTTCACCTCACTGTAAC
TTCCACATCCTGGTTTCAAGCAATTTGTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGTCATGCCACCATGTCCAGATAATTTTTATATTTTTTTGTAG
AGATGGTGTTTTACCATGTTTGCCAGGCTGATCTCAAGCTCCTGGCCTCAAGTGATTTGCCACCTTGGCCTCACACGTTGCTGAGATTACAGRCATGAGC
CACCACACCTGGCCAATGGGGCGTTTCTTAAAATAGCTACTAGACTATGACGTTTATCCTAAGGTTTGAAGTCTATCATCTTCCTTACATATCCTTCATT
GTGGTATCTGGGAATGAATCAACAAGATGAGAGAGCCTCCTTCATTCAGTGTGGCTCCTTCATTTCCATGCTTCCTGAAGATTAAGGTCACTGAATTTTA
AAATTCAATATTCTGTGAGTTACACACCATGGAGTAACTGGGAGAATAATGTAAGTTTATGATGTAAGTTGTGCTTGTGTTCCAGGTGTCCATGAACACG
TAGAGTGCCACTTTGGGTTGTAGAAAATAATTGCACAACCAACTGACTGAAATACCAGTGAGGACATTGATGGAATATTAAGGGTATTCATGAGAGGCAA
GTGATAGGTTACTAGGGATGGATTGTGTGGGAGAAATAATGCAGAGGAAATGATGATCATCTCCATTGAATGACAGCTGTTATATAGCAAAGATAAATGT
AAAATTAGTCTTATTCTTGGAAGTGGAAGACAGCAGTTATCAGAGAGGAGAATTTAATCAAAAGAATCAGAATAGCATGGTCACAGGCCAGATTCACATT
GAAGYATTTACTCTATATTTTACTGCTGTTACATTCAAAATGTATCAGAAGTCTCATGGTTCAATTAATAAAATGTTATTCGTTTTCRTAWCTCAGTGAC
GTTCCTTTCACCAACACAGATTTATCCCACCTTAGTAAAGAACTTCTAACAGACACTGCATTACACTCTGCTGGTTAAAATAATGTGCGACAATTGTTTT
CTATGGCGAAATCAAACAACATAGATTTTTGCCCATACCATAGTCCCCCTTTAACCCACAAGATGCCTTCCAAGTGTCCTCTAGTGGATACCTGAAAGTG
GATAGTACCCAACCATAAATATATAGTTTCAGTCAAGTTTTGAGGTGTGACAGCAAAGCTAGTACTGATTATTTTTATTCACACTTGTACAGAAGATTTA
TGATAAATCTTAGCATCTTCATCTGTATTTTTTTCTTATTAAATCAATAACCTTTCACTTTTTAACTTAAAGGAGGCGCTTTACAGCTTTCTTGCTTTCT
CTTTTTTTTTTTTTTTTTTTTTTTTTTTTGTTAGGGGGTTTTGCTATGTCACCCAGGCTGAGTGCAGTGGTTATTCACAGGTAAGATCTTAGCACACTGC
AGCGTCAAAAAGTGGTCCTCCCACCTCAGCCTCCAGACTACCTGAGACTACAGGTACATGCTATTGTGTCTAGCTTACAGCTTCTCTGAGATATCCAAGT
TGCAAGCCTCACTACTTTTGTGCTTTGGGGCCATAATTAAGTAAAATAGGAGATACTTGAACACAAACACGATGATACTCTAACAACGCTAACTGAGATG
ACTACTAAGTGACTGAGAGAGGGGTAGGTTATTCTGTGTGGCTACACCGTATAAAGGGATGATTTATGTCCTGGGTGGAACAATGTGAAATTTCATCACA
TTAGTGAGAACAGTGTACAGTTTAAAATTTCCGAGTTATTTATTTTGGGAATATTCCATTTAATGTTTTTGGGCCACAGTTGCCACTGGTAATTGAAATC
ATGGAAAGCAAAACAGCAGCTAATGTGGGATGACTGTACCAATGTCTTGGGGGGAGGGAGCCAGCTGATTGTGAGATGTAAGTTTGTGATTCTGAGATAG
CAGCTTTGCAAAAAACTGCAATTTGTCAATTCACCAATATTGATAATGTGCAAGCTTGGTGAGCTGAGAATATTCCTGAAAACCTTTGTTCCCACTGCGA
ATTCCTGGGGACAGTTATGAGTTCCTAATGACGTCACCACAAAGACATTTTGGAGTGTTTGGTAAAGGCTGTTTCTTTTCAGTGATTGCTGGAAGCAGAT
GGGATCAAATAAAAATAGAACATTGTGGGCTCCCAAGGCTGAGGTGGAGCTGGAGGATGCCGGCCAGACTGCGGAGCAGCAGTCTTCCTTGTGCACATGC
CTGAAGTCCGCGTGGGTGTTTGAGGAAGTGGGGATACAGCATTTAATGAAAAATTTATGCTTAAGAAGTAGAAAATGGCAGTCTTCCTAGATAATTTTCA
ATGGCCAGAATGTGAATGTATTGACGAGTGAGAGAAGAAATGTTGTGGCGTCTGTTGTGACAGGTATATTGTTTTTTACAGGCTGGTGGATAATGACGCA
GCAGTGGTGTATTGTAGGCCAGAACAGTTGAACCATGCCTTTCACACATGTGGTGTATTTCCCACATTGGCTTTCTTCATGATAAATGCTGTATCCAATG
CTCAGGTGAGAGGTGATAGCTATGAAAGTGGCTGTTTAGGAAGAACAGGTCCTTGAGTTTGGCTTTTCGTTGGTTTCATGTTGATGTTTGGGGTACTTAT
TGCTTCCATGTGGATTCTTTTTGGTGCATATGTTACCCAACCACTCTGATCTACAAATTTGGAAGAACTGAAGAGCTGTGGACCTGAGATCACTCCTTAA
ATCACATTTTCTTTGTGTTATATTCTGTTTGTAGATAAGTTTTTATCTTAGTACACGTTGCCAAATGGAGTAGCTTGTACATGAAATGTTTTCTTTACAT
TTTTATGTTGTGTTATTTTGTCTTTTTTGTTGTTGTTGTTGCTGTTGTTTTTGAGACAGAGTTTTGTTCTTGTTGCCCAGACTGGAGTGCAATGGCGCGA
TCTCGGCTCACCACAACCTCTGCCTCCTGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGTGGCTGGGATTACAGGCATGCACCACCACACCCAGCT
AATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCCTGTTGGTCAGGCTGGTCTCAAACTCCCAACCTCAGATGATCTGCTCGCCTCGACCTCCCAAAGTG
CTGGGATTACAGGCATGAGCTACCACACCCTGCCTATGTTGTGTGTTTTTAAAGTTTTATGAAATTTCTGTTCTTCATTTTTCATTGCATAGACTGTTAA
TATGTATATAGTACAAGACTATATGGCTTGGATAATGAGTATCTTTTATTCCTGAGATTTAGAACTTGATCTGTTCCCTAAGCCAGGGTTATATCATCAT
GTCATTTTAGAAGTAACCACTCTCTCTCTGGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTAGGTGGATCACCTGAGGT
CAAGTTTGAGACCAGCCTGACCAATATGGTGAGACCACATCTTTACTAAAAATACAAAAATTAGCCGGGCATGGTGTCAGGTGCCTGTAATCCCAGCTAC
TTGGGAGGCTGAGGCAGGAGAATCATTTGAACGCTGTGGGTGGAGGTTGTAGTGAGCCGATATTGCGCCACTGCACTCTAACCTGGGAGACAGAGTGAAA
TTCCATCACCGCCCCCCTAAAAAAAGTAACCACTCTCTCTCAGTATCTCTAATTTCTGAAGATGTGCAAAAAATATAATTTTATATAGCTGGAATGAGCA
CTGAGCCATAAAAGGTATTTCAGCAAGTTGTAATTTATTTTGGCCTAAAAATGAGGTTTTTTTGTAAAGGAAAAATGTTTGTTCTTATGTATTGAAGAAG
TGTACGTTTATATAATGATTTTTTAAATGCCCAAAGGACTAGTTTGAAAACCTCTTCCAAGAATTCCTCTAATATGACCTTATATGAAAAGGGATAATAC
ATGATCAAATAAACTCAGTTTTTTTTATGGTTACTGTAAAAAGACTGTGTAAGGCAGCTTAGCACCAGGCTTCTCATAAAAGCAGCTTAAATTATCCACT
GGGGTTATCTTTTGACAACCTGCTATTATCTGGTGTTACACAATTCAATAGCAAGCAAGTTTCAGACAACTGCAGTTCAAAAGCATGAACCATATAACAA
AAAGTGGAATAATTAAAGATAAGGCACTTCTTCCCAAAGGGAATTATCACCTAGTGAAAAATTACGCATTTCATCTACTCAGTTACTGACTGCAAGCAAG
TCTCTCTGCTCTAGCTCTCAAGCTTTGGGTGAATGTCCCTGCGAAATGTATCTTCAAGTTGAAAGTTCACACTCCAGTCAAAAACTCCTTTTACTGAGTT
TGCAGTACTGTATTTGCATGTGTGTATTTCTCTGGACCTTTATTGCTACTTTTGCTTTCCTTTGTTACACAGACTTTGTGTTGCACTTTCTTCTCCAGAG
GGGTGATATAGAGCCCTGGTTATATGAATAATACCAGTGATAGTGTCCACAGCTCAAATGCAAGCCCATTTGTCATCACTCCTTTCATCTCTCTGAGAGG
ATTTATTGTGTGCAGAGTATGAAGCAGTTGTGGAGCTCTGTGCCTTTGTCAAGATACCATCTTGTTTGATGACTTCTTTCTTTGTTGTTTTTCCTTGAAA
ATGTCAGTAAGCTCTGTTATGCTTCTAGCAAATTGTGAGACTGTTTGTTTCCACCCTCATAACCTGTTGCAATAAATATTATTTCTCACAYATTTTAATA
TTATTAARTTTGTTGGAGAAAACAAACCATAAAAATTCATTTGCTGTTCAGTTTTCAATTACAATAAAGAAATAGAACATTGTTAATTTCTGAGACTTGA
TGGACAGTAATATGGAAAATCTTTTCGTTTGCCTATTTGTGCATCTGCATCGGTGAAATTTCTCATATTTTTAACCTATTTTCTAATTCAATTTTTTTTC
TATGATATACTTTACTTTGTAGAGCAATTTTTGGTTCCCAGCAAAATTCAGTGGAAGGTACAGAGATTTCTCATATAGCTCCTTCCCCCACATATGCATA
GCCTTCCCCATTGTCAACATCCTCCACCAAAGTGGTAGATTATCATCCAACATCCCTAGTTTATAGTTGGCTCACACTTGTACATTGTGTGGGTTTGGAC
AACTGTAAAATGGCACATATTCACATATTATGGTAACATACAGAGTACTTTGACTACCCTAATAATCCTCTTTGCTCAGTCTAAATTTGTGTATTTCTTT
CACTTCTGTCACTTATTGCTTCACGTTTTGCAGCTGTTTTTTAGTGCATACACACTGATGGTTCTGAAATCATCTTTGTAAGTTGACATTTTTATCATGT
AATCTCCCTGTTTTTCCCTGTTATTTTTATTTTCTCTGAAGATTACTTCTTTTGTTCCAGTCAATTTTGCAAGTTTATTTGCCAAAGTTAAGGATGCTTG
CCTGTGACACAGCCTCAAGAGGTCCTGGCCACATATACCCAAGGTGGTTGGGGCGCAGCTTGGTTTTATACACTTTTAGGAGATATCAGTTAATGTGTAA
GATGCACATTGGTTTGGTTTGGAAAGGCAGGGTAAGTCCAAGCAGGGAGGGTGCTTCCAGGTCATCGGGTAGATAAAAGACAAAGGTTGCATTCTTTTGG
GTTTCTGGTAAGCATTTTCAAAGGAAGCAATCACACACATTTATCTCAGTGAGCAGAGGGATGATTTGAATAGAATGGGAAGCATGTTTGCCCTAAGCAG
TTCCCAGCTTGACTTTTCCCTTTGGCTTAGTGAGTGTTGGGTGCCAAGATTTATTTTCCTTTCACATTTCCCCTTTTCTCCTTTAAAAATCTTTGGGAGA
GGCTGGGTGCGGTGGCTCACGCCTGTAATCTCAGCATTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTCAAGAGATGGAGACCATCCTGGCCAACGTGG
TGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTAGTGGCACATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTG
AACCTGCAAGGCAGAGGTTGCAGTGAGCCCAGATTACGTTACTGCACTCCAGCCTGGGGACAGAACGAGACTCCGTCTCAAAAAAAAAAAAATCAGGTTT
CATCTGATCCTTCATGGCTAGGACAGTTTATTTTCAGGTGGGCAAGTCCCATGTTATTTGGAAAGCTCATTTTTAGCAGTTTGTAAAGTGTCGTGTCCTA
TGAAGAGAAAATAGCAGGAGGAAGGAAGAAAAACAAAGAATAATCCTGGAAAATAGATACAGGCCATATTACTCTGAAGTCCATACATCAGTAGATAGGT
ATGAAAGTGGCTTATGTATGTGAATAGGTTGCTGTTATTTTCTTCTGAAGTTTAAGTTGTCTAGCTTCAGTTATCAGGGCTTCAAGAAAATACAGTTTAG
TTTTCAGTGATTTCAAATTAGAAAATATGGGGGAAAAAAGAAAAGAAAGAAGAAAAAATTGAAAACATTATTTCAGAGACATGTAGCTGGAAAAAATTAG
AATTCAGTCCAAACTGTGGAAAATCATAAAAATTGAAAAACGTAAGCTGGGCGCCATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGG
CAGATCACGAGGTCAAGAGATCAAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGTTGGCACATGCC
TGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGACCTCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCATTCCAGCCTG
GCAACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAGAATACTCAGAAATAGTTTCCAAATTCTGGAGAAAGCAGGTAGAGAGAAACAA
ATATGTTCCAAATTTTCTTCACAGCAGTATACTTTCCTCAATTGTTAAATGCTGTCGGCTGGGCACGGTGGCTCATGCCTATAATCCCAGCACTTTGGGA
GGCAAGGTGGGCGGATCACCTTAGGTCAGGAGTTCGAGATCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACAAAAATTACCTGGGCATGATGGTGGG
TGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCTGGGAGGCAGGGGCTGCAGTGAACCCAGATCATGCCATTG
CACTCCAGCCTGGGCAACTGTCTCAAAAAAAAAAAAAATTGCTGTCAATAGCTCAAAAGAAAAGTTTCCTTGACTCTGCAAAACAAAACAAAGGATCAAA
AGAAAAAATCAGAAAGATTACTTTAGACTCCTATTAGTTCAGTCCATGCAGTTAATGTGTGTTGTGTTTGATATTCATGAACATTTTAGTTATCCATGAA
AGTTTTGAAAGTTCTTTCCTCTATTCCTCTATTCTAATGTCACATTTTCCAAAGTTATCAGAAACTTGCATTCCAGAGCACCTATCAAATTCCTGTAGCT
GATTATAAACCAACTTTTGAAGAGGATCCAAACAAGACAACAATTGCCTGTGGCAACAAAATGTCTCAGGACAGCTGTTATTAAAACCACAATTGACTAT
AATGGAAATTTTGGTTACTTCTGTGACATACCACCATTTTACATAATAGTCAATAATAATAATAATTATTATTATTTTTTGAGACAGAGTTTTGCTCTTG
TTGCCCAGGCTGGAGTGCAGTGGCACAATCTGGGCTCACCACAACCTCTCCTCTGGGGTTCAAGCGATTCTCCTGCCTCAGCCTTCTGAGTAGCTGGGAC
TACAGGCATGCGCCACTACACCCGACTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTG
ATCCGCCTGCCTTGGCCTCCCAAAGTTTTGGGATTATAGGTTTGAGCCACCATGCCCAGCCAACAATTATAATTATTAATAACATGTGGCTGGGCACAGT
CACTCACATCTGTAATTGCAGCACTTTGTGAGGCTGAGGTGGGTTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCGCATCTCTACTA
AAAATACAAACATTAACCAGGTGTGATGGTGCACACCTATAGTCTCAGGTACTTGCGAGGCTAATGCAGGGGAATTGCTTGAACCCAGGATGCAGAGGTT
GCAGTGAGCCAAGATGGTGCCWCTGCACTCCAGCCTGGGTGACAGAGTGAGATTCCATCTCAAAAAATAAAATAATAACATATAGTAAGTCATATCAGAA
TTATAAGAGTTTTCCATAATTTTGGAATACATGCCAATTTCATATTTATACAAGTACAGCCCACAGAAAGCCAAACACCATTTTGTATTTGACAATGCTT
CCTGTATGATTTTTATACCAAATAAGCCAAATATGTCTCTTCTGGATTTCAGGGGATTAACAAAAGTTTAATGACGACGCAAGTTAAAATGTGACTTTGG
AAAGCTTGTCAAATATAAAAAGTTTAAAACACTTGATATCATAAAATAGGATCACAGGCCATTATAAAATAAGTGATTCATTTAACCAAAGTGGTATCGC
AAAGATTTCAAAAAAAGGTGGCAACCTTTATTTTTTGAGAGAAAAGACTTAATTTCCCAAACAATATTCCCTAGTAAAAATGGCACAAGGCCAATTAAAT
TGGTTTTTCAATATTTTATAAACAAACTATAAAATTTTAATCATCTTGCCTGTAAGTATAATTTCCATGAGCCTTTTTATACACTATATAATCTTTATTA
AATAGTGGGCTAGGCTGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGATGCCGAGGTGGGTGAATCACCTGAGGTCAGGAGTTTGAGACCAG
CCTAACCAACGTGGTAAATCCCCATCTCTGCTAAAAATACAAAATTAGCTGGGCATCATGGCACATGTCTGTTACCCCAGCTACTTGGGAGGCTGAGGCA
GGAGAATCACTTGAACCCATGAGGTGGAGGTTGCAGTGAGCCCAGATCGCACTATTGCACTCCAGCCTCGGCAACAGAGTGAGACTCCATCTCCAGAATA
AAAAAAAGGTGGGCTAATGCTCCAAGACAACCTTGTTAATCTGACGCAGGGGCTCATATGCTGGTCTTGCAACAATTTGCCTTTGAAATTGATAGTTAAT
TTCTAGAGAAACCAAACTTATTTCAGCTCTAAAAATTGACCCTGACAATCTCACATGTCCACTTCTTTCAGTATAACCACTGGTACTTGAGGAGTTGAAT
AGTTTTAATTTCTTGCCCTGTGTTTCACAAACACAGTTTATTTTGATTAGGAACTTCTACTGGGTMTGAAGATGAGGCTTGAACTGCTGTCAGTGTTTAA
GATTTAGCAAGACTTGGTGTCCTTTTTAGACCCAGGAGTCAAAGCCCTTTAACTGAATGGAACAGGGACCTAAAAGCATATACGGAAAGTTATATGGACA
TAATAAACTTAATTTAAAAAAATTTAATTTAAATTTCCTTGTAACCAAACCAAACTTAGTAATACTGACACAGGAATTACTTTGATAAAGTGTGAGATCT
GTTTAGTAGGCCAGTTTTCCAAAGGCAAAAGAAAAGCCCTTCTACAGTGTGACTGCTGTTCCCTATGGGAGATATTATGTTTGGAAAGAAACATTTCCTT
TAGACCTCAAAAATAAAACATTTTATAGTGTCAGGCCACAACAGTTAGAACCCAAAGAAAAAAAGGCTACAGGAGCTGAAAATTAGGTGAAAAAGTTATG
ATTTCAGGCCTTTTAAGAGGGGAGAGAAAGCTGAAAACAGTGAGATTCCATAAAACTTGAACTTTACATTGAATAAATTATGTTTCATAATTTATTTAAA
GCACCGCTTAACAAAATTTTGTAGTTTGAACCAATTCTTTAGTGTATAAGTGGTGTTTTTTAAAATCAAAACCCAATCTCTAGAAAGACCATTATAATTT
CCCTTTAATTATAGTGAATTTGATCACATAAAACTTTTTTTCATCAATCTTATTATGACTTACACAGACCATTCATGACATGTGTGGGATTTCTTGTTTT
TCCTGAACATTCATCTTTCTTATACAATCAGTCATTTTATTCCAGGACAAAATTTCTGATACAAGATTCTTTCTCATATAGAATTATTTTTCTTTAAGCT
TTCCTACCAAAAATATTTATTTATTTATTTTTGAGACAGAGTCTCTCTCTGTGGCTCAGGCTGGAGTGCAATAGCTGAATCTTAGCTCACTGCAACCTCC
ATCTCCTGGGCTCAAGTGATTCTCCTGCCTCAGCCTTCAGAGTAGCTGGGATTACAGATGCACACTGTCATGCCTGGCTAATTTCTGTATTTTTAGTCGT
GTTGTATTTTGAGACTTCTACCAGTCCATAGTATTTTCTAAAAACAAAACTAAATATAGATTTATAATAATCCTTTGGATGGTAAATTTTTGTGGGAATG
AAGTAGCTGGGTACTCTGGAGGCTGAGGCAGGAGGATCACTTGAATCTGGGAGGTGAAGGTTGCAGTGAGCCGAGATAGTGCCACTGCACTCCAGCCTGG
GCAACAGAGCCTGTCTTAAAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAGAAGTAGCTGGAGAAAGGTGCTTACTGCACAA
GGAAGGCATACTTTCTGATACTGTATTAGGGATGTCATCAGGTGAAGTCAAGAACAACAAATCACAATGGACTGGAAACATTCTCAGGAGAACTGTAGCC
ATGAAAAGGACTGTTGTTCATTCTTGACCTTGTGGAATCAGTCCCTGACTCATCTTCTCAGCAACATTGCACATTTGCTGTGAAACAGAAACTACGGGGT
ACCTTCTTTATTTTCCTTTTCTGGATGGGAGGGTTTATTCAGGTTTCATTTTTCTGTTCCACAATGAAGTGTTGTGAGTGAGGAGAACTCTACTGGGCTC
TCAATGAAAAGAAGTCTCATGAGACTGTCATGMGATCCTTGCTTGTGACTTGAAGTTACATTTTGGCTTATTCTTTTATATTTTTTAGAAGTGGGGGTGA
ATATTTGGTGTGAGCAAAAGAGGAACAGATTATTTCTGCTGGAAGCTGCACTGTCACATGTTATAATATTTTGAGACAGGATCTTGCTTTGTCACCCAGG
TTGGAGTGCAGTGGCACAGTCTCAGCACACTGCAACCTCCACCTCCTGGGCTCAGGTAATTCTCCTACCTCAGCTTCCCAAGTAGCTGGGACTACAGGTG
CATGCCACCAAATCCAGCTAATTTTTGTATTTTTTTGTAGAGATGGGGTTTCACCATGTTGATCAGGCTGGTCTCGAAATCCTGACTTCAAGTGATCCAT
CCACCTTGGCCTCGCAAAGTGTTGGGATTACAGGTATGAGCCACCRCACCCTGCCAAATTAGTATGTTGGGTTTTTAAAAATCCAACTGATACAGCTGTA
CATTAGCAACAGAGCTCTTGCTTTTACATTATACAATTTTAGTTCATTATCTTGTATCATTCCAGTTCTTTCACTGAACTTAAAATGTAAGGGACCCTCC
ATATATTGATAGAATACATCCTTTACATCTGTCAGGTCTCCGCATATTTTTTTGCCATACAAATCTGAAAATACCACCTTGATTTACTAATCCTATAAGT
TTTTCACTGAAGTACAAGGAAAGAAATGTAAATCTTTAAATTGGATTAAATCGTTTCTAGGAAATTGTATAATGATTTTAAAAATTATTTTTAAAATTAC
ATTTTGGCCAGGCACAGTGGTTCACGCCTGCAATGCCAGCACTTTAGAATGTGGGGGTGGGGAGATCGCTTGAACCTAGGAGTTTTAGACTAGTTTGGGC
AACATGGTGAAACCCCATCTCTACTAAAAATACAAAAACTGAGGTTGGGGTATTGCCTGAGCCTGGGGAGGTGGAGGCTGCTGTGGGGTGTGATTACATC
GCTGCACTGCAGCCTGGGCAACAGAGTGAGACCTCATCTCAAAAAAAAAAAGAAAAAAGTTTTGCTACAGCTGTGAAATCATTAGCCTTTGAAAAATAAT
TCTTCTATTAAATAATTTAATATTTATTGTCTGTTAGATATTAATTTTATAGTACAGGTGTAAAAATATAGGTAATTTGTCTAAACAGTATTTCAGAAAC
ACTTCCAACAATTATATTGTGTGAAGGGTTCTATGTATGCATGAAGAAAGGACATGTATAAAGTTTTTAGCATGGGGAAAATTGAGTTTTTATCAACTTA
AACGTCAGGAGTTTCAAAAGTAAACATTCAGTGTTGAAATAAAAACTGTCTGAATCTATCTATCTAATATATATGTTTTTTTTTTTTTTTTTTTTTTGAG
AGAGAGTGGTTGTGTTGCCCAAGCAATAGTGCAGTGGTGTGATCTCAGGTCACTGCAACCTCCACCTCCCAGGCTTGAGCAATCTTCCCACCTCAGCCTC
CCGAGTAGCAGAGACTACAGGTGCATGCCACCACCCTTGGCTAATTTTTTTTTTTTTTTGTAGAGATGGGGTTTTGCCATGTTGCCCAGGCTTGTCTCAA
ACTCCTGGGTTCAAGCAATTTTCACACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCAGTGCACCCTGCCTTATTCCTTTACTTTCTTAAAA
AACTTGCTGTCACTTTACTCTCTGGACTCCCCCCTAATTCTTTCTTGCACAAGATCCAAGAACCCCTTCTTCTGGGTTTAACTGCCTAATAGGTTCTCTT
TTTCTGCTGCCTAGACAGAGCCAATTCCTCAAGACAGGGAAATTGTAATAGAGAAAGAGTTTAATTCATGTGGAGCTGGCTGTACAGGAGACTGAAGTTT
TATTATTACTCAAATGAGTCTCCCTGAAATCTTGGGGATCAGGGTTTTTAAGGATAATTTGATGGGTAGGGGCCAGTGAGTCCAGAGTGATGACTGGTTG
TTCAGAGATGAAATCAGAGAGTTGACACTGTCCTTTTGCACTGAGTCAGTTCCTGGGTGGTGTCACAAGACCAGATGAGTCAGTTTATTGATCTGGGTGT
CAGGTGATCCATCAAGTGCAGGGACTGCAAARTTTCTCAAACACTGATCTTAGGTTTTAAAATACTGATGTTATTCCCAGGAACAATTTGGGAAAGGTGA
CAATCTTGTAGCCTCTAGCTGCATGACTCCTAAACTATAGTTTCTAATCTTGTGACTAACTTGTTAATCCTATAAAGGCAGTCTAGTCCCAAGCAGAAAG
GGCATTTGTTTTGGGAAAGGGCTATTAATGCCCTTATTTTAAAAGATAAACTAAGTTCCTCCCAAAGCTAGTTTGGCCTACACCCAGGAGTGGACAAAGG
CAGCTTGGAGGTTAAAAGCAAGATGGAGTTGGTTAGGTCGGATCCCTTTCACTGTAATAATTCTCAGTTATAATTTGCAATGGCGGTTTCAGGATCTGGA
TCAGGACCCCTTTCTGGCAACACGAGGATGGTTATGAATGCATCCAGACATCCAAAAAGCCACCTCTGAGAGCTAGAGATTTCCCTTTCCTATAGGTTCT
TCGTCCCTTGTATGTCAACCCAAGGATTCACTGGGGATCTAGAACTGCGCAGGCCAGTCTAGGAAGAGAGAGACAGGAAAGAGAAGAAGAGGAGGTGAAT
TAGTTTTGAAGAAAAGAAAGAAGGTCCCGTGCTACCTCTTTTTTTCTGACAAACTTTTCATACTGGGAAATAGAATCCTGGTTTATTTGTAGTAAAACTA
GGAGTCCAGGGATTTTATAGGAGGGTGAGAAAAATGCACTTTTATGGTATAGTCTGTGGAGACCTAATTAGAGAAAAGGAGTCAGCCTGGCAGGACCAGG
GGAAAGCAAAGAGATAAAGCAAATAAGCTATAAATCTGCCTTTCTAGGCCAGGTGCGGTGGCTCACGCCTGTAATCCTAGCACTCTGGGATGCCAAGGCG
GTCAAATTGCCTGAGCTCAGGAGCTCCAGACCACCCTGGGCAACATGGTGAAACCCTGTCTCTACGAAAATACAAAAAAAAGAAAAAAATTAGTTGGGCG
TGGTCGTGGGTGCTTGTAGTCCCTGCTACTCTGGAGCCTGAGGCTCGAGAATTGCTTGAACCCAGGAGGCGAAGGTTGCAGTGAGCTGAGATCATGCCAC
TGCAYTCCAGCCTGGGTGACAGAGGGAGACTCTGCCTCAAAAAAACAAAACAAAACAAAATTTTAAAAAACTGCCTTTCTTCATGGTCCAGGACATATAA
ACAAAATACAGGAAGCAGATAAGCTGTAGGTCTGTTTTTCTTTCTGGCTTAGGCCATATAGCCCTTCTGCGCAGATAACATACATAGCTCATAAACTTTC
TGCTTCARTTTTTCATCAAACACCTAACAGAAGAAGGCAAGTTAGCTCCCTGCTTCCTTGGCGTTATCTTTCATTTATGTATTTGTTTATTTATTGAGAC
AAGAGTCTCACTCTGACTTCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGCTCAAGCAAATCTCCCACCTCAGCCT
CCTCAGTAGCTGGGAGTACAGGTGTGGGTCACCATTGCCAGGTAATTTTTGTATTTTTAGTAGAAACAGGGTCTCACCATGTTGCCCAGGCTGGGCTGGA
ACTGCCCACCTCGGCCTCCTAAAATGTGGAGATTACAGGGGCAAGCCAGTTTGCCCAGCTGAATCTCCTCTTCTTATAAAGAAATCAGCCAGATTGGATC
AGAACCCACTTTAACAAGCTTATTTTTACTTGATCACTCCTGTAGATGCCATATATYCAAATACAGTTATATTCTGAGGTACTGGGTATTAGGACTTCAA
GATAGGGTTTTTTTTGTGTGTGGAAATTTTTCTGCTCATAACACACTGTGTTCTGGACTCCTAAACTTTATGTCCTTCTTACATGCAAGATCCCTTCACT
CCCATCAGAACAAAAATCTTTTATTTATTTATTTGAGATGGGGTCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTAATCATGACTTGTCACAGTCT
CGACCTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCAATAGCTGGGACCACACATGCAGGCCACCATGCCTGGCTAATTTAATTTTTTGTAGAGA
TGGGGTCTGACTATGTTGCCCAGGCTGGTCTCAAATCCTTGGCCTTAAGTGATCCTGCCACTTCAGCCGCCCAAGTAGCTGGGACTACAGGAGTGTGCCA
CTAAGCATGGCTAATTTTTATATCTTCTGTAGAGACGGGGTTCTTGCTATGTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGTAATCTGCCAGACTCG
GCCTCCTGAATTGTTGGGGTTACAGGCCTAAGCTACCTTGCCTGGCCCATCTGAAAAGTCTTAATCCATTTCAGTATCAACTCTAAGGCCCAAATATCAC
CTAAATATTATCTGAATCACATATGGGTGAGACACAAGGTGTGGTTCATCCTGAGGCAAAGTTTCTGCCCAGCTGTGAATCTGTGAAGCCAGAGAAGTTA
TCTGCTTCCAAAATACAATGGTGGGACAGGCATAGGAAACACCCTCAGCCCTGGAAACCACCCTTCTACTTTGTTAYTCTGAATTTGATGTTTGTACTTA
GCACGTGTAAGTAAGTGCATGAAGTATGTTTCTTTGTGTGTGTTGGGAACGGGTGCTCAGTGTCGCAAAAATCAACACTGAGACAAAGGATCTCTCAGCA
AGGCTAGTTTACTTTCTGCAGAAAGGGTGCTGCTCACTAGCAGTCTTGCCACGAGAGTACACAWGAACAAAAGAGAAGGGTCATTTATAACCTGACGCAT
CTGGCCRGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACGC
AGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGCAGTGGCAGGTGCCTCTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGC
GTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGATAGCGCCACTGCACTCCGGCCTGGGCGAAAGAACGAGACTCCGTCTCAAAAAAAATAATAATAA
TAATAACCTGAYGCGTCCACCCTACTGCTGTGTCTGGTTTCCATTGGCTGGAATCGGACCCAATTCTGTGCTTGACCTGATTGGCTAGCACCTTAGAACT
TCCCAAAAGAGGCAAAGGCAGAGGAGAACAAAGGAAGAGAGGAAGTAACTTGTGGAAGGCTGAGAGAGGCAAAAACACTTCCAAATAAGGAAGAGGAATA
GGCTGTGACCTAATGCTTGCTTGGAACAATTCAGGCATGCCAGGGCAAATATCTAGGCTAAAATGTGGGAGCTAAGAACACAGAGTATATTGATTTATCT
ATTATGGCTAGCAGATATTTAAGAATATTAGCACAGGTCTTTGAGTAMATTTTGCTTCTAAGAGAGGTTACTATCTATTCTCAATTAGACTGGGAGGAAA
GTCCCTTTGAAGAGGAACCTCTACTTATTTCATTTTCTACACTGTGTCTAGCACATTTCGCTTGGCATAATGTCTTCTGGGTTCCTGGATCCAGTCACTG
CTCCACATCCAATCCCCACCGAGATCCCAGTTCCCTGACTACTGAGTAGCTTCAGCTTTTCTGGTAAGACTGGATGGAGTCCACCAGGCTCGGAAAAATC
GGTTTTGACTTAAATCAGTTCAACTTGTTAAGAATAAATCATCTTAGTTTCCAGTATAAGTGGACCACAACTTTAAGATTCAACCTTAAATTCTGAAACA
TTAATTTAAAATGGGCAAGGAGCAACGCTGCTTCACAGGACAAGAAATAGTCACAAATACTCCCAAAYCTGGAAAACAAAATCCTGCTGGGTGAGAGGCG
GAGTGGAGAACAGGCCCCGCCTCGGCCCCGCCCACCCCTGGAGGCCCCGCTTCRTCCCAGTTTTCGGTCCAGCCAAGCCCCACCTAGTCACGCCCCCTAC
CGCCCTGGGCCTCCCACCACCCTTTCGGGCCACTCCCAAGTCAGGCCAGTCTTTCCGCCCAGCCCTTTCCTAGTCGCGCCCCGCCTAGGCCCCGCCCCCA
GGCCGCCCAGTTTTTCTTTCCGCGCCCAGTTTCCTGCACACCCGGAAGCAGATCGCGCTGGGGAAAGGCCACGTCGCTATGAGTGTGTTTCAGTCTACCT
GGATTAAACGTTTGCTTCTCTTCGTCTACCTTGATTAAACGTGCACTTCGCAGTCCTCGGTTCTCCATACCCGTGACCTGGGGATCGCTACGGACCTTAA
AATACCCGCAACAGCCCCTTCGTCCCAAGTAAGTAGGAGAATTGCTTCCCTTTCGGTTTAAAATCTCTCTGAGGCCGTTCCTTGCTCTCTGCCTTTCTTC
CTTAGGACCATGTAGACAACCCCATTCAGGTAGTGTTCCCGCTTAAAACCCTCTGCTTGGGCCCCGCGCCAAGTCGAGTCCTCATTCGGGATGTGGACTA
GCGCCCTTCGCGATCCCCGAGCTCCTCCGTCGTCTGCCCCTGGAGGGGAGCGCCCACTGTCCGGCTCCTGAAGGAGCCGCTTCTCCTCCCACGTCCTGGG
ATTCTGCAGACCCTCCCTGTCGTGAGACATCGTTCTCCGCGCCACCTCGTGTCGTCCTCACGCCGGGTCCTTCCGCTCCCCAGGCTTCCCCTTCACAGCC
ACTGCTTTTCTTGACTCCCCGTTGGGACAGGTTACCTGAGTCTGTCTTGTGACACCCAGTGTTCTTCCTTCCCAAATTTTACTCCACTGGAAAATGTGCT
CTTCCGGGAGGTGGGCATCCTATTCCTCCCCTTTCCTCCCGAATGTGTGGGTGAGAGGGATCAGGAGAGGAAAAGACGGGGAACGACGGAGCAAAAGGAA
AAACTGAGGAGAAAAGAATGAGGGAGACCCATAAATACACGGCAAAATGGATGATACTTTAGGGACTTGCAAAGAGAGCAAGAGTGAAAGAGAACGGATG
GAAAAAGTAGCAGGGGGAGAAAAGCACACAGAGAAATTTAGAAAAAAAGGGGACCTTCAGAGAGATGAAGGGCAGCAAAATAGAGTGGGGCGGCAAAGGA
GGAGGCACTGCAGACAGACAGACAGTGGGGAGAAGGTGAAAGAGTTGGAGCCGCGGCTGACAGAGCTACGTGGTGCTGGGACTGAAAGAGAGGGAGAGAG
GGCAGTGGGTGACAAGCAGAGTAGAGGGAGAACCACAGCAGGGAGTAAGCCTAGGAAATTGGGGGTGCTAGAGAGTGGGAACAAAGGAGATGTAACAGGG
AAGAGGGAATTTAACAAGGAGAGCAGAGAGGGAGCTTAGATGGGGGAAAAGAGGCAGAAATACGTGGAGATTGGGGACAATCGGAAAGATTGGGGAGAAA
GAGCTACGAGAGGTGAAGTAAGTTGCAGAGCATTGGGCAGAACAGACATAAAAGAGGGAATAAAGAAAGGGGTGCAAAACAGAAAAGGAGAAAAAAAAGA
CGCTCAGAATGAGAGAGGGAAACACATAGCCGTGAAGAAAGCGGGAGAGGACCCCATCCAGATGCGTGACAGTTGATTGGATATGGATGGTGGTTGTAAT
ATATTGATTTGTGGCTTTATACTCTGATTTGAAATATGTTTAAGTTGTACTCATGAGGATGAAAATCACCAAAGTTTTTTCTATAAGCCTTGTGCATTTT
GTATGTATTTGTATCAAAAGATATTTGGAATTCCTATTTAGCCAGAGGGCAGTGACTTGATCCAGTTATTTGTGGTAACTCTCTTCTTCCCARTGATGGA
GTAGAGCATAAAGGAGGGGAGAAATGGGGCAAGAAATGACTGACTGTCACTACAAGATATGTCTTTGGTGTTTTTTTTGGCTTTGTTCTGTTTTKTTTTG
GGGGGGGACATGGTCTCTCTCTGCCGCCTAGGCTGGAGAGCAGTGGCATGATCTCGGCTCACTGCAGCTTCTACTTCCTGGCCTCAAGCAGTCTTTCCAC
CTCAGCCTCTCAACGCACTGGAATTACAGATGTGAGCCACCACACTAGGCCTACAAGGTATGTCTTCGCAGAAGCATTGAAAGTCTTGTTTTTTTGTAAT
GAATTTACTTTTTTCTTTGTAGTTGCTTTACAGTTAATTAATTGTTATTTTGGAAGCTTGAGATACATTTTATTCAATTGCTTCTTTCCTATAGTTGCTA
ACTCCAGAAATAAGATTTGGTGGCATCCAATAATCAGCTGATCTCATTCATTTCTGAATATTAAGTGCCATCATTTTTTGAACTTTTACCCCATAATTTA
TTAGATTTTTCAAAAACTTTCCAAACTGTTAAAGTGTCCAATATAGTATAGTCACCATGGTGTACATTAGCTTCCTCAGAACTTCTTCATTTTATAACAG
AAAATTTGTACCCTTTAACCAACATTTTCCATTTTCACCCCCCAGCAGCCTGTGGCAACAACTGTTCTACCCTGTTACTATCAATTGGACTTTTTTAGAT
TCCACTTGTGAGGTCATACAGTAATTGTCTTTTAGTGTCTGTCTTATTTCACCTAGCATAATGTCTTCCAGGTTCATCCATGTTGTTGCAAATAGCAGGA
TTTTCTTCTTTTTAGGGTTGGATAATATTCCATTATATATATGTACACATGAACACTCTGTATATGTCTATATACACACATATTTATTCATGGATGGGCA
CTTGGGTTGTTTCCATATCTTGGCTGTTATGAATAATACTGTAGTGATCATGGGGGACAGATATTTTGTAAGGTTTTCTTTTTTTTTGAGACAGAGCCTC
ACCCTGTTGTCCAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTACAACCTCCACTTCCTAGGTTCAAATGATTCTCCTGCCTCAGCCTCCCGAGTAG
CTGATATTACAGGCACCCGCCACCACGCCCAGCTTTTTGTGTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTC
GTGATCTGCCCGCCTTGGCCTCCCAAAGTGTTAGGATTACAGGCGTGAGCCGCCACACCCAGCCATTTTTTTGTTTTTGTCTGTGTTTTTTCAGCAGATA
CATGGTCTCTGCTATGTTGTCCAGCATGATCTCTAACTACTGGTGTCAAGTGATCTTGTCGCCTCAGCTTCTCAGAGTGCTGGGATTACAGCCATGAACT
GCTATGCCTGGCCTAGATGTCTCTTMAAGATACTGGTTTCATTTATTTCCTTTGGATATATACCCAGAAATGGGATTGCTGGATTGCATTGTTGTTCTAT
TTTTAATATTTTGAAGAATGTCCATAGTGTTTTTCATAATGGCTGTACTGATGTACACTCCCAGCAACAGTGTACAAGGGCTCATTTTTCTCCATATCAT
GCTAACACCTGTTATCTCTTGCCTATTTAAAATAGCCTTCGTAAGAGGTATGAGGTGATAGCTTATGGTGGTTTTGATTAGCATTCCTCTGATGATTAGT
GATCTTGAGCATCTTATTATAYACCTGTTGGTCATTTGTATGTCTTATTTGGAAAATGTTCAGGTCCTTTGCCCATTTTTATTGAGATTATTTGGGGTAT
TTTGCTGTAGAATTGTAGGAGTTTTTATATATTTTGGATATTAACCACTTATTAAATATATGGTTTGCAGATACATACTTCCATCTTACAAATTGCTTTT
TCATTTAGTTCATTGTTTCCTTTGGTGTGCAGGAGCTTTGCCCCTCCCCCACCCCACCCCCAAAATGGAGTCTCACTCTGTTGCCCAGGCTAGAGTGTGG
TGGCTCAATCTCAGTTCACTGCAATGTGTGCCTTCCGAGTTCAAATGATTCTCCTGCCTCAGCCCCCGTAGTAGCTGGTATTACAGGTTGCACCACCACT
CCCAGCTAATTTTTTAGTAGAGACAGGGTCTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGCTCTGCCTGTCTTGGCGTCCCAAAGT
GCTGGGATTACAGGCATGAGCCACTGCGCCTGGCCAAACTTTTTAGTTGGACATAGTCCCACTTTTTAGTTTGATGTAGTCCCACCATTTGTTGCCTGGG
CTTTTGGTGTCATATCCAAAAAAATCATTGCCAAGATCAATGTCAAGGAGCTTTTTTTCTATTTTCTGGGGTTTTACGGTTTTAGATCATATATTTAAAT
CTTTAATCTATTTTGAGTTTATCTTTGCATATAGTGTGAGATAAGGGTCCAGTTTCATATTCTTTTGAATGTGAATATACAGTTTTCCCGACAGGATTTA
TTGATGAGACTGTCCTTTCCTCATTGTATATTCTTGGTGCCCTTGTCAAAGGCTAGTTGTATATGTGCATGTTTATTTCTGGGCTCTCTTGTGTTTGATT
GTTCTCTGTGTGTTTTTATGCCAGTATTATACTGTTAGGATTGCTGTACCTTTATAATATAGTTTGAAATCAGAAAGTATGATGCCTCTAGCATGTTCTT
TTTCAACACTGCTTTGGCTCTTTGGAGTTTTTTGTGGTTGTATAAAAGTTTTAGGGTTTTTTCTTTTTTTATCTGTGAAAAATAGCATTGGAGTGTTGAT
AGGGATTGTGCTGAATTTGCAGATCACTTTTGGTAGTATGGACATTTTAATCATTTTAAAATATTCTTACAATCTATGAACATGGGATAGCTTTCCATTT
CTTTGTGTGTTCTTCAATGTTTTTTTTATCCTTTGTTGCAGCCCCAATGCCTGTGGACTGAACAAAGGGGGACGGACACAGGAATAAAGACAAAGACAAA
AGAGTATATTTGGAAGAAGGGGTCAGGGGCTCCTTGCTTCTAGTGAGCAAGAGTCCTGAGCTTTTAGAGCCCTTCATATTTATTGAGTAAAGGAGATAGG
GAGAAGCGGGTGGTTGTCAGTCAGCTGCTTGACTTGGTGCAGGCTTGCACGACTGCATTCTCTGAACAGTAGCCTCCAGATGTTTCAGTAGATAACCTCA
AGGAGCATGGCGCCAGGGAGTAATTGCACTCAGCATACCTTCTGGCGGCAGGGCAGATGTGAGTTTGCCCACATCCTGCATTCATGATAAACAGTTTGCT
GTTTAATCATATAGCCTTCAGTGGAATGCAGAGTTGGTCATGACCCTTTGGCTTTTGGCTCTCTACAGTCCTTTCTTTTTTCTTTCTTTCTTTCTCTTTC
TTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCTTCCTTCCTTCCTTCCTTCCTTCTTTCTTTCTTTCTTTCTTTTTTTA
AGAGACCAGCCTCACATTGTTACTCAAGCTGGAGTGCTGGCATGCAGTGGGGCGATCATACCTCACTGCAGGTTTGAACTCCTGGGCTCAGGCAACCCTC
CTGCCTCAGGCTCCCAGGTAGCTAAGACTATAGGTATGCACGACCATACCTGGGTGAAGGGCTAAGACTACAGGTATGCACCACCATACCTGGCTAATTT
CTTTTCTTTGTAGAGAAAGAGTCTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTGACCTCAAGCAATCCTCCCACCTCAGCCTCCCAAAGCACTGGGA
TTACAGGCATGAGCCACTTTCCTGGCCTCTTCAATATCTTTTATCAGTGTCTTAAGAGCTTTCAGTGTACAGATCTTTTACTTCACTGGTTAAATCTGTT
CCTAAGTATTTTATTCCTTTTGATGCTATTACAAATRGGACTGTTTTCTTTATTTCTTTTTTCAGATATTTTGTCTTTAGTGTATAGAAAGATTTAGGGC
CCCTCTTCTGAGACATCCTCACTGAACTTAATCTAGCCAATGCYCAGCTGCCTTTAAACTAGACTTAATATTGTCAGCACTTGCTGGCAAGTTTYCTCAG
CAGGCCCAACTTTGTGGTCTTCATACTGAAGGCCCAGSGTCCTTCAGTTTGCAGTTTGTGTACACTCCTGCTGTGTTGCAYGTGCCCAGAGATCCTGTAC
CTTTTAGCCTAGTTTGTTCATGCATGCATGGAGGAGAGGTAGAAAAATGGGGGAAAATGGAGGGGAGTCCATAGAAGGCTCCAGAAAGCAAGGGTGGGCC
TTCAGATGAGCCATGGTATGGTGTGTGCACCTGTCCCAAGTGTGGTTATAAGAGCAAGGGGTATGTGGAACTCTTGGAAAGGAATTTCTTAGGTCTGGCA
GAAGCACTTGGAAGTGGGATTATGAGTGGTTGTGCATGGATCATTTTGGAATGCCACAGTTTCTTTATTTTTTGCTCGGTTGCTCAGGCTGGAGTGCAGT
GATGTGACCTCGGCTCACTGTAATGTCCGCCTCCCGGGCTGAAGGCATCCTCTCACCTCAGCCTCCCGAGTAGCTGAAACTACAAGCGTGTGTCACCATG
TCCGGCTGTTTTTTTTTGTATTTTTTAGTAGACTCGGGGTTTTGCCATGTTGCCCAGTCTGGTCTGGAACTTCTGGGCTCTAGTGACCTGCCCACCTTGG
CCTTCCACAGTGCTGGGATTACAGGGGTGAGCAATCATGCCTGGCTCATTAATGATTTTCTTCATAGCATTTGGGACCCCATCTACTGCCTCTTGGTTGG
AGTGGCTGCTTCTGTTATCTTGACATTTTTTAAGCCAAACTTCTTAAATTATCAGTCCATATTTTGCTGGCATCAAACTCTCCAGCTTTAGATCCTTTAC
CTTCCTAAAGTTGTCATAAAATAACTTCCCTTTTTCTCAAATCATATTAGAGTCTACAGGTATGCCTTCATTATAGTGATTTTGCCCCTGTATAAAGCTG
CATTTTCAATATGAGATAAAAAAGGTATTTAGCAAAAAGTACATTGTTTTCGTGCCTACTGGTGTAGCTGCAGTGACGGCTTCATGAATTTTCTCTTTTA
ACAGTGGTCCTTACACCAGATTAATTTATCTTGAAATGGCGGGCAACTGAATCGCACACCTCAATCTATGGTACGTATTAAGCAAGTCAACATGTTCTTA
TAATGTCATGGCTTTTCTCTACTTCTTGGGAGCACTTCCAGCATCACTAGTGGCACTTCAGATGGGTCCTGTGTTGTTATTCAGAGTTTATCGTATTGCA
CCAAACAATGAAAAATGTGCCAGAACCACAGAGATCAATTTTTACTGCGGTCTGCAATTTACTAGAGAGATTAACAGTTCACATGGAGATGATTAACATC
ACGGGGCACATTAAGCAGGTACCTGAGCTCACCACAATAGCAATGGGAGGTGGCTATGAAATTATTATAGAAGTTCAGTATGTAGTACAGTTCATTAATG
CAGTTATGATTGAATACTGCGTCTTTACATTTTTTTACATTTATTTTGACTGTAGATGGAACCATATACAGTCTAGAGGTGTTTATATAAATTTGGTACA
TTTTAACTTAGAATAGATTTGTGTGTGTTTTATGGTACTAAGTGATAAAATAGACTAATAGTTACATATATTTTATGCATTTCTGGCATACCTTTTTCTT
AATTAGGGTACATGGTTCATCTGTGAGTTTTTTCAAATTGTTGCAAGTCTTCAAAATATTTTTCAGATGTTTATTGAAGTAAATTCTTTTATAAATGGAC
CCATACAATCCAAACTCATATTGTTCTATCGTCAACTGAAGTGAGAAGCAAGGCCTAAGTGGAGTCCACAGGGAGGTTGGGCAGCTGGAGGGTTGGTTCG
TTGGTCTTGAGAGCGTGGAACCCAGAACTGTACTGCCATAAGCACTTTTCATGGTGACTTCTGCGGGGTCTTTTGGGAGTGCAGGAATCATGCAACTTAC
CGAAGTATTATCTGGAAAATCACAGAGATCATTTAGGGGGGCTACCTTTGTTTTTTTTTTTTTTTTTGGAGTATTTTGGGCTGCACGTTAAGATGGTTAT
AGATGCATTTTGGATGCATTATCTAAATGTCAATATGGAGAGTTTCCTTGGAAGATGTTGGGGTCTCATTGGGGCATGTGTGCATCATTGAAGATATCTG
TTTTAGTAGATAGTGGTGCCAGTATTCGGGGGTGGGGTCATTACAGGCATGGACCACCGTGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTC
ACCACGTTGGCCAGGCTGGTCTCAATCTCCTGACCTCAGGTGATTTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAAGTGTGAGCCACCGCGCCGG
GCCTCTCTGTTTATTTTTTGGAGTTTTTTTTCCCCTAAACCTGGCCCATTTCAAGGTTCAGTTTGATAATGTGGCACTCAGCACAAGAGACTTCATTCTG
GCTTGGTCTGGTAGTTCGGGAGGCTAGTCCAAAACAACAGCCTTCCCATAAAAAACAATGAGATCATGTCCTTTCCCAGGACATGGATGGAGCTGGAGGC
CATTATCCTTAGCAAACTAACACGGGAACAGAAAACCAAATACTGCATGTTCTCACTTACAAGTGGGAGGTAAATGATGAGAATACTTGGACACATAGAG
GGAAACAACACACACTGGGATCTACCTGAGAGTGGAAGGTGGGAGGAGGGAGATGATCAGGAAAAATAACTTATGAATACTAGGCTTAATACCCGGATGA
TGAAATAATGTGTACAACACATCCCCATGACCCATTTACCTATGTAACCAGCCTGCACGTCCTGCACATGTACCCCTGAACTTAAAATATAAGTTAAAAA
GAAAACAACGAAAATACTTTGGGCTTCCATAAAATTTGTTTAACTGTGTCATTCATTTTTACTTCTACAGAATTACTTTAAACAGTGTTTACTGATGGTG
GTGTATTGCCCATTAAATGCATGCACACACACAGACCCTAAAGCCTCTAGTTTCCTTCCACTGTGCCCTAATTAAAACAAAACATACCATTAACTGTGTT
TCTGCCTGTAGTGAGTACCCCTCTTCTGTGCTTCATTTAAGACCATAATACAATACAATCTTGTTCAGAGTCTCTGTCTTCACTTGTTGCCTCCAATTGT
GTCTTGAATGCATTGGATGAAACTTTCATATCCACCATTCCACTGATAACTTTATTTTTCAGAGTCACCAGTGACCTCCCCATTTCTAAATCCAATGTAT
TTCATTTCCTGCTTTACTCTTTCTTTGCCTGTCAGGAGCTATTTGATTTTCTTGTCACCTCCCTGACCATTTCACACTTTCCTCTGCTGCTGTGTCCTGA
CTCTGAATGTTTCCCAATGTGGGAATGACTCATGGCTTAGTCCTTGAACCTCTTCTTGTTTCTGTCCACACCCACTGTCTTTCCTCATCATCTCATYTTA
TGAATTTAAACCCCACTGTATTAGTCCATTCTTGAATTGCTATAATGAAATACTGGAGACTGGGTAATTTATAAAGAAAACAGGTTTAATTGGCTCACAG
TTCTGCAGGCTGCACAGGAAGCATGGCGACATCTGCTTCTGGGGAGGCTGCAAGAAGATTCCAGTCATGGCAGGTGAAGGAGGAACAGGCGTCTCACATG
GCGGGAGCAGGAGCAAGAGAGAGTGAGGGGGGAGGCGCTACACACTTCTAAACAACCAGATGTCGTGAGAACTCACTATGATAAGAACAGCACCAAGGGG
TGGTGTGAAACCATTCATCACAAATCCACCCCCATGATCCATCCACCTCCCACCAGGCCCCACCAGTAACAGTGGGGATTACAATTCAGTGTGAGATTTG
GGCCAGGGACACAGAGCTGATCCATATCACCCACCTACCCACCTACACGTCTCCATGTCCCCTGCAGACCTGTCCCCTGAACTCTAGAATTCTGTGTCCT
TTTGTCCTCTCCTCTCTCTGCTTAGCCRTCTAACAGGTATCTCCACCAAAAGTGATTGCCTGAACTCACCAAGTACATTCCCCTGCACTCCTGCACATCT
CAGATGATGGTGACCCTGTACTTCCTGGCTTTAGCTTTACATGTCAGCATATATTTGAAACAGAGAAAACATGACATTAAAAAGAAGTGCTTTAATTCAT
GTGATAAAGAAAAGTYATGTTTACTTAAAAAGGGTGAGGAAATGCATAGTTTCTGAAATTACTGTGAGCTGTGGGAGAAAGATGTTTGAATACCTCATCT
CTACCTAATCTGCTCCCCAGAACCTCTCTGACCTCATCTCCTCCCTGTGTCCTTCCTGCTCCCTCTGCTCCAGCCACACAGGCCTCTTTCCTSTTCCCTG
GGCTGAGGTTGCTCCTGCCTCAGGGCCTCTACCTGGGCTGTCTGGCCCCTCAGCTGCAGGTGCAAACATCCTTCCTTCTTGAGGTCTTTGTTCTGATATY
ACCTTCTCCATTGGGACTTCTGTGCCTCACCCTCCTCTCACCATTTAACACTCCAGCCACACCCTCACCCCACCCCTGGTGCATATTATGTGTCTCTGTG
TTTCTGGTCCATTGTGTTCTACTGTCTACAAACTGGTAACARTGAAGCCCCAAGGGGACAGCAGAGCTGGGAGGATGGGGCTGTGCTAGTCTTGCCCCCT
TTAAGATGTGTTCAACCCTGGCTTCACATTAGCGTGCTGAGGCAGTTTGCAAATACACGTTTTGTGCCCTTTTACCATAGATTSCACTTCCAGTAGGTAG
GATGGACTCAACCTCCATATTGTTTAARGTACCCAAATTGATTCTAATTTGTATCCAGCATTGAGCGTCCAGCCTTTGTGTCTTCTGTTTCTGAGAGCTG
AGCTCAGCCTGTGATCCACAGGGAGGTGAGGGGGCTGTGCTCTGTATGGGGTTTGATCAGGGATGGGTCTGTGTCCTGAAGGGAAGCATAGTCCAGCCCA
GCTCCCCACTGTTGCAGGGTGTGTGGGGGCTTCTCTGGGAGGGGAACAAGTTCTGAAGAAAAGGGTGAAAAACTTACTTGGTCTTTGTGTAGGAGTTTAT
TATGCTTGCATCCCCCTGGTGCACTGGGCTGTCTCTCCACATGCTGAGGCCTTCCCTGTGGGCATGGTTGTGGCACAGAAAGGAATGTGTTGTTTCCAAG
GATTAAACAACATATTTTTGACTTTCAGATTTGACTTTTAAAGAATTAATTATATTGACTGAGAGAGAGGCCCAGGAGAGAAAGAAGAAAGAAAAGGAGC
CAGGGATGGCTCTTCCTCAGGTAAAGTGATAATCTTGGTGGATTGTTCTGTCTCCTCCCTTTTTGAAATGCAGGGCATTGGAGCTGCAAATCTTCTCTGA
GTCTGAAGTATCCTGCCTGACACATTTGCTCGCACTCACCCAYGCCTTCCTTYAGTCCCTCTCTTCTGCACTTAGATTCCAGATCTCACAGTGACTCAGT
GACATGAGCTTGGGAAGAGGCTCCACTGGGCATGGTCCTGGGAAGGGCTCACACCCAGACATGGATGGAGACAGGGTGTGAGTTCTGTGGTGTCAGCTTT
TGGGCAGCAGAGATTGTTTAGGGGCAACATCTGAATGCACTGTCAGCTCTCAGTAGACCAGGAGTAGAGAAGCTGTATGTGGAAGTCACATGTTAATATG
CAAAAATACCTCATAAATTCTTGAAAAGATGCCTYTAAGGGGAGATCTTTTCTGCCTGATTTTATACCACATTTGAAGCTATAATGAATCAGTCACTCTT
TCTAACTCCACAATCTTAATGACCGGGAATGGAATGGAAAACTAGGTACAGACATCAGTGATAGAGGTTGTTTTATTCCATCATTGATTTTAAAATATGA
AATCAACCTGAATGTCAGATTAATTTAGCCATTCTCAGCATATCCATCCCACAGAGAATGTGGTGTTCCTGCTGGGACTCTTACCGGCAGTTGTTTTTTG
TAAAACGGTTATAATTTTGCTCAGATGTAAGAGCCAAACTTTTTTGATGTCAGAGAAGATGGAGCCAAATTCTGTCATTCCACCAATTATTATTAAATAT
TACATTTATTTTAAACATCACATGATATATATATTTGTTTTGTGGTAAAAGTCCAAGCAGAGATGGAATTTAGACATTAAGAAGGTGATGCAACATAAGG
ATGGTAGGGAATAACGTGTTATTATATGTGAAATTTATGCTAAATGAGATTTTAGCTGTTTTTGCCACAAAAGCAAAAAAAAAAAAAAGGTAACTATGAG
ATACGGATATACTAATTTGTTAAACTGTCGTGAGTTTTTTACTATCTATACCTTGCTATATTGTGTACCTTAAATATACACAATAAAATTTGTAAGCAAA
CAAGTAAAAAACAGGGCATCAAGAACACCCTTCATAACCTMAAAAAAGAACATCAAGGCATATATATTTAAAAACTTTTAACTACAGAACATGAAATAGC
TCCTAGAATGCAGTAAAAGAAAATTGAGCATAAAATGAAAATTATTTTATTTTGATTTCCACAAAATAATGAAATGTCCTCACAGTCCAAGGAATTGGAA
AATGGAAATACAAAGAATTTTTATTTTTTTTAGATCCTCAAAGAGAAAAAAGAACATAGTAGTATTTTTTTTTTTTTTTTTAAAGAGTGGGACATGTCAT
GTGTCATTGGTGGGAGGGGGCACCCTTGAACTTGGGGTAGTGGGGAATCTTGCCAGATTCACCAAAATAGGAAATGCACCATCCTAGAAGAGGCAATCAC
TCTTTCAATTACCCACCCAGAGGAACCCAGGTTCCTTTTCCCTGTCACATTCTCCACCATGCCTCATGTTTCATTGAGGAGCTACTATTGTAAGTTCTGT
GGCAAGAGTCAGTGAGAGGTGTCAAGATGCATTTACACGTCATTATGAGATTTTAGAAAACAATTCTTAAGTGAATGTTCTGCTGTATTTTGCAAGTTTT
TGAAATGTACATTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGACGCAATCTCAGCTCACTGCAAACTCCGCCTC
CCGGGTTCACACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTACCACTGTGCCCAGTTAATTTTTTGTATTTTTAGTTGAGATG
GGGTTTCACCGTGTTAACCAGGATGGTCTCGATCTCCTGACCTAGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTCAGCCACCGT
GCCCAGCCTGAAATGTACATGTTTTTATGTTAATAAACACTAATAGCGTATTTTGCATCCTCTTTGGAGCAATTTCTAAATGAAGACATATGGATCTTTT
ACAATTTTTCATTTTTGCAAAGAATGTCACTGTGGCTTCCTCTGTGCATGCTGTCTTCACCACAAGTGTCTGAGGGTTACTTCAATGGCAGTTCAAAGAA
TGATTGCTTCTTTTAGGATGGTATACCACAAAAGCAAAAATAAGTAAATGTTTGTTTTATCTTCTGGAAGGCCTGGCTCACGGTGTGATTATAAAATATG
AAGTTTCTTTAAAATCTCATGTTTCTTGCTTACATTTTCTTTGCATGAATTTTTTTGATTGAATCTTTAATTTGAATTTTTGTGTATATCTTTTTGTAGA
TTATATTTGATTGCTTTTAAAGTTTCAGATTATAAATGTCATAATAGGTTCATATGAAGATTGGCAAACCYCTCCATTTTCTTTCCAAAATTTTGTTGGT
TCTTTTTTTATACAACAGTCACATTTTATTAAATTCCCACATATTTTGTTTGTGTTTGAATGGCCATGAATTTTTACAGTCGCAGGTCTTGTCACCATCA
CATCTTCCTATAAGAATTGAGTTTGTCAGTCAGTGATCATATCTTTATTATGTCTTTCAGTAAAGCTTGTTTGTTTGCTTACAGTTTAGTAATGTTAGGT
ATATTCACATTATTTATTGGGCTTTCAGGATACATACGTTCTTGATGCTTGATGGTTTCCCCATGAGCCCTTTAGACTCTCTTTATTTTTCTTTATTTTT
TATAGTTTTTGTTTTCCTCCGTGTCAAAATCCCCTTTGAGTTCACTGATTCCTTCTTCTGCCTCATTAAGTCAGCTGTTGAATTCATCTAGCGAATTTTT
CAACTCAGTTATTGTATTTTTAACTCGACTTTTTTTCTTTCTTTTGTTTTGTTTTCAGGCAGGGTTTCACTCTTTCCCAGGCTGGAGTGCAGTGGCACGA
TCTTGGATCACTGTATCCTCTGCCTCCCGGGTTCAAATGAACCTCCCACTTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGCACCATCACACCTGCCT
AATTTTTGTACTCTTTGTAGAGATGGGATTTTGCCATGTTGCCCTGGCTGGTCTCAGAACTCCTGGGCTTAAGCAATTACCCCATCTTGGGCTCCCAGAG
TGTTGGAATTACAGGCGTGAGCCACGGTGCCCAGCCTTAGAATTTCTTTTTGATTTTTCTTTATAGCTTCTATTTCTGTTGATATTCTTCTTTGCATGCA
TAGTTCATATAGTTTTCCTGATTTCGTGAGCTTGTCTGTGTGTGCTATCTTTTAACTCATTGAGCATTCTTGTGGCTGCTATTTCAAATTCTTTGGTAAT
TCACATATAGTCAGCCCTCTGTATTCATGGCTCGTGCAGCCATAGATGGAGCCAACTATGAACTACAAATAGCCAGAAAAAAATGGATGGTTTCATCTGT
GTTGAACACGTATGGTCCTTTTTTTCTTGTCATTATTTCCTAAACAATGCAGTATAACAACTACTTATGTAGCATTTACATTGTATTAGCTATTATAAGT
AATGTAGAGATGATTTAAATCATATGGGAAGATATAGGTAGGTTATATGCAAATACTATGCCTTTTTATATAAGGGACTTCAGTATCCATAGATTTTGGT
CCCCTTAGGGAATCTTGGAACCAATCCTCTGCATATACTGAGGGTGATCCCCATTTCCTTTTAGTTCTTCAAAGCCAAGATTTAAATCACCATTTCTTTA
GTGTAGGTTTGTAGAGACTTAATTGGTTTCTTTTTATGGACTGTATTTTCCTATTTCTTTGTAAGTTTTATTATCTTCTTTTGGCACTTCCCTATTTTAA
AAATCATCTACCTCCCCAGTTTTGGGTGGTTGCTTTGTTCAGGGAGGACACTCTGGAGTCAACTCAGCTAGATTGTGGAGACCTTCCACACCTTTTCTGG
CTGGGGATTTTGTCCTCTCTGGGCCTTTGCTTGTCATCTCTTCATTGAAAATGTTTGCTAGTTTCTACCCAGAAGCTCCCCTGTTGTCTGTCTTTGATAT
TGCAGACTTTGGTGCTACAGTAAGCTGTAGTACTAGATATGCACTTAGCGTTTGTCTGTGTTACTGCACACACTGGTTTATGTAAATCATCCTTTTTCTC
AGTGGCCCCTAACCTTTCACCTTGTTCTTGTCAGTGCTTATATTCAGGAAGAGAGAAACCAGCCCATCAGTTGGTCATCTGAAAAGTCAGGAAGTTGGAC
AGATATTCTGCTCCTTTCCATCCCCTAGATGATCTTGGGAGTTGTGGGTTTCTTTTCTGTTACCCCAGTGCATGGCAGGGGCTGGATCTCTGTCAAGTGG
ATGCTTCAAATTTTCCTTCAGAGCTTCTATACTGTTTGCTTTATGTCAGCCTGAGGTGTAGAAACCTCCTAACTGTTTTCTGGATTTATCCCCGAGGCAA
TTAGTCCATGAATTGTTGTTAAAATCATTTCACTGTGGTGACTGGAGAGTTTGGGGATTCCTGTTCCTTTATCTTGCCGACATCACTCAGTGTAGTTTTA
TAATTTGTTCACATAATTCTGAAAATGTATTGTACTTAAGTGCCATGGTATATATGCTAATGAAAATTTAGAAGTGTGTGTGTTGTTTTTAAATTAGTGT
TACTAAAGTAGGAAGATTATTTCAGTACATTGTTAGCATTGTTAGCTTGTATACTTAAACATTCTTTTTCTGGGTTGCAATCATGTTATCTCTTTTTTTT
TTTTTTTTTTTCCCTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTACAATAGTGCGATCTCAGCTCACCGCAACCTCCGCCTCCCAGGTTCAAG
CGATCCTCCTGGCTCAGCCTCCCTAGTAGCTGGGATTACAGGCATGTGCCACCATGCTCGGCTAATTTTGTATTTTTAGTAGAGACGGGATTTCTCCATG
TTGGTCAGGCTGGTCTTGAACTCCCAACCTCAGGTGATCCTCCCGCCTTGGCCTCCCAAAGTGCTGGAATTACAGGTATGAGCCACCGTGCCCGGCCACA
ATCATGTTATCTCTTAATTTTAGTAGATCTAACTCTTTGGCTCTACCCCCTCCTTGCCTTTTTCCCTCCCACCTTTTCTCTTTGCTGCTGCTCAGACATC
CAGTGCAGTGGTGAATGACAGGAGGTCTGGCCAACCCCCTTTTCTCTTAATTTAGAGGAAATGAAAAACCCCCTTTTCTCTTACTTAATTTAGAGGAAAT
GAATCCAGTGTTTCACTTGTTGGGTGAAATATTTTTCCTTAACAGTTTTTGGGTTTTTTTTTTTTTTTTTTTTTTACAGATTTCCTTTGCAACATGATTT
TTAAATTTTCTAATAATTTATGCAAGCATATACTGCTGCAATACATATTGTTTCTATCTTAATCTGTTAAATTTTAATGTATTACACTTATAAACCACCT
AATCTTGAATCACTGTTTTATTTATTGGTGGAATAAACGAATAAACTCCATTTGGCTTTTGTTAATGCATAAGTAGCTAAATTTAACTGGATAAAATTGC
ACTTAGATATTTAAATATAGGCATTTAATAGTAATTGTAATAAAAGTTTATATACTTTTAAAATTTTGTACCATTTTCTCCAGCCTAGTATTGAATAAGT
ACAAAATAAATAAGTAAATGAAGTACTAAGTAAATAAGTAAATGAAGTACTAAGTACAAAGTAAATGAAATACAATTTATACATTTTCATTGTCCCAAGC
ATGCTAAAACATACATGTCTAAGAATAATGATTTAAAAAGTCATCCAAAAAATATGTCATTGAGAGATAGCGTCTTATTTCAGTTAATTTAAATGTTTGT
ATGCTTTGGTTTTTATTTACAACATCATCATTTCATAAATCAGCCTATTATCTTTTCACAGTTGAAATTATTTACTTGGTTTTATTTTAATTTTTTTCTT
TTCTCTACATAAGATACAGGCTTGGGAACACTATTGAAAATTATATCTTAAATGTTTCTATGGCCTTAAAATGTTTTTTCTTTAAAAACTTTTTTTTTTT
TTTTTTCCGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCCCTGCTTCCCGGGTTCATGCCATTCTC
CTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCCGGCCACCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCC
AGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTATAAAAACTTTTTWACATATTTCTTTGTCCCAGTGAT
TTGCTTAATTTTTAAAATTGCCTTCTATATTATCATGTGAATGGATTAGTTTTATGAATAGTAATGTATTATGTGTGTGCTTCTGTGTGCTTATATGATG
ATCTTTTTTTTCTTTGTTTTTGAGATGGGGTCTCACTCTGTCTCCAGGCTGGAGTGCAGTGGCATGATCTCGGCCCACTGCAACCTCCACCTCCCAGGTT
CAAGTAATTCTGTGTCAGCCTCCCCAGTAGCTGGGACTACAGGTGCACACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCA
TATTGGCCAGGATGATCTCGATCTCTTGACCTCATGATCCACCCATCTTGGCCTCCCAAGGTGCTAAGATGGAGGTGTGAGCCACCACGCCTAGCCTATA
TAATGATCCTTTATGCGGTTCCAAGTTAATCTTGAACTTGCTTCAAGTTTTCTCAGGCAACCCTCTGTCAGTATACTGTAGCATTCGTCCCCTATGCAGC
AACAAGACCATCTTCGAAGCAGGGATTAGCCCTCAGCGACATCAGTCCTGCTGACACCTTGATCTTGGATTCCCCAGCCAGCAGAATCATGAGAAATACA
TTTCTGTTGTTCATAAGTTAGTTAGTCTCTCTTATTTYGTTATAGCCACACAGAAAGACTAGGACATACTCTGTAATATAACTGTCGGATTCTGTTGATT
CAACTCTAATTTTTAGACATCTGGGTTCAGGTGCTTGCTCTGCTGTTTGCAGGTTGTTGACCTAGGTGACTTTCTTAGCCTGTCTGTGACACAGTTGTCT
TCTAGTAAGATGGGAARAAATATTTCTGTCATAGGTGATTATGTCATCATTTGAGTTAGAACAYGTAAATCCTTTGAAGTAATGCCCGGTACATGGGGAG
TGTTCCAAAACTTTAGTTCTTGCTGTTGCTCTTGTCATCGCTGTTTTTAGTTTCTGACCTTTCTTTAAAGCCACTAAGAACATTGTCATCTCTGAAGACA
CCACTTGTATTCTAGCTCATCTGGACACCTCACTTGGTGTAACAAATGTAATATCTAAAACTTTCATAGGGATAACCATGTGTTTATTTCTTATTTTGTC
CACAAAAGTGAGAAATGTGCACCGATTTAGATAATATCCTAATCTCCTATTGAATTTTATAAAACCCAAAATCAGGGAGACGTAATTATCTCACAGATAC
TTTTAATGGATATGTCAAAACACACTTCAATCAAATTGATGTGACAGTTCTCTCCTCTTCTCATTTTATGTAAAGATAAGAGCTCACCCACTGCTCATAT
TGAAATGTGTTTTTCATTTCAGGGATCTTTGACATTCAGGGATGTGGCTGTAGAATTCTCTCAGGAGGAGTGGAAATGCCTGGACCCTGTTCAGAAAGCT
TTGTACAGGGACGTGATGTTGGAGAACTACAGGAACCTCGGCTTCCTGGGTGAGGATAGTTTTCCTCCAGAAGTTAGGATCTTCCCTTGTGCATTTTTGT
ACTTTCCTTATTGTGTTTCTTGTGAGGCCCTACATTATTTGACAGAGACTGAAGCCTTGTTGATTCACAAATAAAAAGCTTCATAATGCTGCATCTGGCC
TTTAACTGTCCCATTTCTATGGATATTCTGCTTCCTTCTTTGTACATTAGTGGTGAYTCCAGAGCTGAGGTACGTGTAAAACCTTATGGCGGAGTTAATA
TATCCAATTCCCTGTTCTTCCTGTTTTCTATCCTTGTGCTTTTTTTTTTTTTTTTTGACACAGTCTCAGTCTGTCACCCAGGCTGGAGTGCAGTGGTGTG
ATCTTGTGATCTTGGCACACTGCAACCTTAGCTTCTTGGGATAAAGCCATCCTCCCACCTTAGCCTTCCAAGTAGCTGGGACTGTGGGTGTGCAACACCA
TGCCCAGGTAGAGACAGGGTTTCACTCTGTTGCCTAGGCTGATCTTGAACTCCTGTGCTCAAGTCATCTTCCCGTCTTGGCCTCCCAAAGTGCTGAGATT
ACAGGCTTGAGCCAGTATGCTTGGCCTATCCCTGTGTTTTTGATTCAGTATTTCTTGGGAGAGAGCTAGATATCTTCATCTTACAGTGTTCACTAAGCAT
TCAGAAGGAGGCAATCAATGGATGAGTTTGTGAAATATTTTGTAGATTCAACTGCAGTGTTTTCTCTTCTACCTAGACATTAGGCTGGGTTCTGGAAAAA
CCGTGGGACATCTTCTTTCTTTTTTTATAAGCAGGACTCTGTCTTCCTGACCTGAATATTATCTCCATGTTGGAGCAAGGGAAAGAGCCCTGGACTGTGG
TGAGCCAAGTGAAAATAGCGAGGAACCCAAACTGTGGGGAATGCATGAAAGGCGTGATCACCGGTAAGAGCTCAGATGGGCACAATGGAAGCGGTACCAT
GAAATTGTGTGCGTAAGACTCTGCAAGTGGGAGAGTTCTGTGGGGAAACAAATTTGATTTTCTGTGAGCTCCAGAAGTTTTCTTCTTTCCTGCTTATCAC
TTTGCTTTCCAGACACGTATAACTTTACCTTTCACTCTCCAGGGGTTGCTGCAGCTCAAACAGAGCAAAGTACAAGACTGTTATGATGGACCACAGTGTC
ATCTGTATTGTGTGAACTCTGATGCTTTGACTCTGTGGCATGGGAAGGGCCTTTTCAAAGAAGTCTCTTTCCCGTGTGGTCTCTCCTCCTGTTCTTGATT
CCATCTGATCCTCAGTTCTCTGATCCATATAGATTGGAGCTGAGGGCTCCATAGTCCTGGTGCCTGGAACTTTTCTGGTTCCACCCCATTTCCTATACTT
GAAAGTGCTGGTCAGGAGATGAGGAAACATTGGTTGCCCTTCCTTTGAAGCTGGGGTCCTAGAACTGGACTATCTTCAGCCCTCTCTGCCTGTTCAGGTC
CCTCAGCCATTTTCTTAGTTCTTCTTTGGACACTCTTCTTGGGTTTGTGACACGGGAATGAGTTGGGTCTCCTGAGATTGTTACATATAAGAATTGTAAA
GACAGTTGACACAAAGGTCCTCTCTTTATTCTTAGTCCTACACAGGGAGCGTATCTCTGTCTTCACACTCTTAGTTTGGGATCTGTGGACAGAGCACTGT
CTCATTTCAAGATCCCTCACAATCCAATTCCTGTGTTTTTCTCTGTCTTGTTTATGCCTTGGCTCTTTCTGATCTTGCATTCTCTTTTATGTTTGTGTGA
TTTTTTGCCTCTGAGACTTGCTTTGGATAAATGCATTTCTAGGGTCGGACATTTTATGCTTTTTTCCTGCTGTGATAACCCATCTTGGGGTTATGAATAT
CTTGTGGACTATYGTATGGAGTGAGTTTACTGGGTAAGAGAAAATTTTTGAAGGAGAGCACTTTGAGTAATGAGTTTTAACATCATCTTGCTACATACAG
AGGTAACTATTAAAGCCAGAGTAGAATGATCAGCATTTGTCATGATATTCAGATAGAGACCATCACAAGAGCCTGGTTTCTGAGAAATGTCACAAAAGTA
TCTTTCAAGGGTACTGTGGCAATGTTGATCTCATATACTAATGGTCCTCTTTTTTGAGCTAGCAGTGAATGGTGTAGGAATTTCTCCCATGCCGGGCACG
GTGGCTCAACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTTAGGAGTTCTAGACCAGCCTGGCCAACTTGGTGAAACCC
CGTCTCTACTAAAAATACAAAAGTTAGCCGGGCGTGGTGGCAGGCACCTGTAATCCCAGCTACTCGGGGGGCTGAGGCAGGAGAATCTCTCAAATCTGGG
AGGCGGAGGTTGTAGTGAGCTGAGATTGCGCCATGCACTCTAGCCTGGGGAACAAGAGCGAGACTTTGTCTCAAAAAAAAAAATTTCTCCCGGGAAGAAC
ATTGTCCAGGTTCACAGCTTCATCTCTGCAGGGCTGTTGCCTGAACCACTGCTCATGCCACACTTTTCTTCCCCAGTATTTTTGTTTATAGTGAGTACGA
CTTTGATCTTGAGGAAGCTAATGAAGTTGAATGAGGCTTATCTTTTTTAAGTCCACAAAATTCGTTTTAAGCAACCATTGCTTTCATCTGATGCATTTTC
ATGTATTATAAATGAACTTTGTTTTTATTTATTTAATCAGTTCCATATTTTTGAGGATACTCAGTTTTCTTTGTTTTATGTTTCTATTGTGGTAGTGTTG
TGTTGGGGAATGCATATTGTTTTATGTATTTTACAAGATTTCCTTCTTTAGTACAGATGGTATAGCTCAGCAGCAGTTTCCCTAAAACTTACAGAAACTC
CATAATGTTGTRTTGATAGTATCAGTTATTCCTTTTACTTCTGTTTCACCTGACTTAATTCCTACTATGAAAGTATATATTTGTCGGTTAAATTGATTAC
AGTTTTTAAGTTGGAAATTTTTAATATCTTGAGCATAATTTTTTAAGTTACTATCTTAATTGTGGAAATACCATTTAATAGATTGATCGTTCTTTGTTAT
ATAACATACRTTGCTTTTCTGTAGTAAGTTTCAGTTTCCTAAATATAGCTTGCTGGGTTTTGTTCAAATTGCACTGTTTTTTTCTTTCTTGGAACAAATG
CTGTATTATAATAACTATTCTCCTATCTACATTCATGTCCATCATGTTATACTGAATCATTATTTAAAAATCTAACTTTATTTTAAACTTAGCCCATTTC
TTACACTTCAGGGACTTCTCTACTATTTATAAAACCTATATATTTTTTTCGTGATGCTCAAGCAATGAAGAATAAATTCTCTTAAAAAACTGGTATTGGG
CCAGGAGCAATGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCATTTTGAGGTCTGAGGTCAGGAGTTCGAGACCAGCCTGAC
CAACATGGTGAATCCCTGTTTCTACTAAAAATACAAAAAAATTAGCCGGGTGTGGTGGCACATGCATGTAATCTCAGCTACTTGGGAGGCTGAGACAAGA
GAATTGCTTGAAGCCAGTAGGCAGAGGTTGCATTGAGCTGAGATCACACTGCTGTACTTCAGCCTGGGCGACAGAGCAAGACCCTGTCTCTAAAAAAAAA
AAAGAAAAAAAAACAACAACTTGTATTTTGTCCAGAAAAGTTTTTCCTAGATTTTCTTCTAGAATTTTTGTAGCTTGAAGACTTAATGTAAGTCGTTATT
CATCTTGAATTAATTTTTGTATATGACAAGAGATAGGAGTCCAGTTTCATTCTTCTATATATGGCTAGCCAGTTTTTCTAGCACCCTTTATTGAATAGAA
TGTCTTTTCCCAATTTTTTTTTGACTATCAAGGATCAGTTGGTTGTAGGTGTGTGGCTGTATTTCTGGGTTTCCTATTCTGTTCCATTGGATATCTTCTG
TTTTAATGTTAGCATTTATATCTGCAGATTTTCTATCTTAGCACTGTTTTTCCTGCATTCACAAGTTTTGGTATGTTCTATTTTCATTTTCCTTTGTTTT
GAGATTTTTAAAATTTCCCTTGTGATTTCTAATTTGACATATTGGCTGTTTAAGAGTATGGTCCTTGTTTGTTTGTTTTTGTTTTTTGAGACGGAGTTAC
GCTCTTGTTGTCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCCACTTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTA
GCTGGGATTACAGGCATCTGCCACCATGCTTGGCTGAGGGTTTCACTATGTTGGCCAGGCTGGTCTCRAACTCCTGACCTCAGGTGATCCACCTGCCTCA
GCCACCCAAATTGCTGGGATTACAGGCRTGAGCCACCACACCGGCCTAAGAGTATGTTGTTTCCACATATTTGTTGATAATCTAATTTTCTTCTGCTGTT
GATCTCTAGTTTTATTTTATTATGATGGGATAAGTTATGCTTTACGATTTTAGTCTTTAAAAAGTTTAAAATTTTTTTTCTTTTCCGATATTTCTTTTGA
AAAATGTTTCATGTGCAGTTCTGAAAAATTTGTATTGCACTGTTTTTGGGTGATGTGTTATGCATATATAGGTTAGGTTCAAYTTGATATATAGTTTAGG
TTCTCTAGTTCCTTGTTTTTCTTCTGTCTGATTGTCCTATTTATAAGTAAAAATAGGCCATTGAAGTCTCTTATTATTACTGTGGAACTACTTCTCCCTT
TAGTTACGTTAATTTTGCTTCACATATTGAGGATCTCTATATAGGCACATATTGTTATATCCTCCTAGTGAATTAACCTTTTAATCATTATATAATGCCC
TTCTTTGTCTCTTGTACCAGTTTTGACATAAAGTCTATTTTGGCTGACATCAGTTTAGCCACCTCTGATGTCTTTCGGTTAACATTTTGAGGGCATATCT
TTTTTCATCCCTTCAGTTCAGCCTATGTGTGTCCTTTGAATTAAAATGAGTATTTTCTGGATAGTGTGCAGCTGAAGCCAGTTTTAAAAATTTATTCAGC
CAGTCTCTGTCTTTTGACTGTGGAGTATAAACACTTACATTTAATGTAATTACTGATAGAAAAGGACTTATATTGCCATTGTGTTAAGTGCTTTCTATAT
CTCTTTTAGATTTTTTTGTTCTGTTTGTCTTACTGCCTTCGTTTTTATATAGTTGATTTTTTTTTCCTGAAATAGTTTTATTTCCATTGTGTGTGTCTTC
TATACATTCTCTGTGGTTACYGTTGCAATTACAGAAAACACTTTAGATTTATAACATCCTATTTTAAACTAATAACAGCTTAACTTCAATTACATACAGA
AATGACTTTTTACAGATCTGCTTCCATGTTGTGTTTTTGATATCCCAGGATACTTTCATCGTATATACTGTGTCTCCATTAACATATATTTAAACCTTGA
CAAGAGTCTCCTGCTTTCTTTGTTTTCTCAAATCTTYGCCTGTTGTGCTACGGGTCCTCATTCTGCACCCCGTCTCCTTAACGTTCTTGTACTATCAGTA
AAGTTTTGTGGTGTCTTTGTGTGTGTACAAAATGAATTCATCCATCTCCTCTTCGTGGCCATTTTCAGGTTTTTTCTTAAGGATTGAATTGTAAGAACAG
TCTTTCACATATCTCTTGATATGTAGGGTTGTTGAGCATATACCTGGAAATAGAACTTATGGGACATTCAGTTTGATAAATTTCATAGCAAATATTATAG
AGACATAAATCTGTTTTCTTCCCATATCATCACACCGCCTCCTTTTTAATTGTCTTCCCTTGTTGTCCTGCACCCATAGTATAATTCTCATGTTTAAGTA
TTAGTCAGTACAATACTACCTCTACATTAGTTTCTCTTTTCTTCCAAAGCCAGGATTTTAGCTGTTTCTTGTGCAATTCTATTCCCACAGCTCTTCAAGC
ACAAACCCTGCTGCTCCATGCTCATTACTCCTTGATCTCCCCTCTTGCCCTTTGTCCTCCTGGGCCTTTCCTAACATATTACTTTGTCCAGATGGACTAC
CCAGTTACTGACTAGCATATTAATTTTATACTCCCATTATTGCAGAACTCCCTCACCTCCCATGCTACTCTCACTCTGTAAGGGGTGACCCCTACTCATT
CACTTGACCACTGTCTGATAACACTGCGTAAATCAATATGTGCAGGGGATGATGACTCAGATACCGTTCGTTATTCATGACGGATGGCTGAATAATGCTT
TTGGCAACACAGCATTGCAGGGAGCCAAAGCCTGTGGGACGTGACCAACTCAGCATTCCACTGGAGGCTATATGATCAAACAGCAAACTGTTTATCATGA
ATGCAGGATGTGGGCAAACTCATGACTGCTCCTGCTGACAGAAGGTTTGCTGGAGGCAATCACTTCCTGGTGCCAGGGTTATCTACTGCCATATCTAGAG
CCTGTTGTTTGAGGAATGCAGTCTTGCAAGCCTACTCTGGACTGCGCAGCTGACCCCTTCTTCCACCATCCTTCTCACTATCTCTCTTGCCTAATAAATA
CGGACGGCTGTGTAAAGCTCAGGGCCCTTGTCCACTACAGGCAAGGTGCCCCTGACCCCTTCTTCCAAATATACTCTTTTGTCTCTTGTCTTTTATTCCC
GCATTCGCCCCCTTTGTTCAGTCCTCCTAGGTCCATGTGGGTTACATAGTGGCACCCTGAACAGCGACAGAATCAGGTGCTCTACACAAAATGGCTCTTG
AAGTATTTCTACACTCTTGATATTTGGGTTGACCTGTTATCTGCACTGCTTGTTTGGGAAGTTGTTTTTAAAAAACATGTTTGATCTTGCAAACCCAGGT
TCTTGTGTCTTACTTTCTTTGTAAATTGGGTATAGATACATAAATCCTGTGGGCATATTTAGTGTGCTTGTTTGTTAAATAGTGATAATTTACCTAAAGA
CTTTTTAAACAAGTTAATGCTGTTAGCTAGCTTAGAATATTGCATGTTTTATAGTACAGACTCACAAATTTGTTTAATAACGTGTATCAACATTGTTTCA
TGTTTATAATGAGATAGCATATTGGCTTTACCTTAGTCAGCATGACTAGCTATATCAGATACCATAGATAGGGTGGTTTAAACAGCAGAAATKGACTTTT
CACAGATCTGGGTGGTGCAAAGTTCAACATGTCAGAGCCAGCCACTTTGGTTCTTGGTGTGGACTTTTTTCTGGTGTGCCATGGCTGACTCTGTGTTCTC
ATGTGGCAGAGAGATTGTCATGCAAAAAGCAGAGGCTTTTTCACGTTTCTGCTAATTGCATTCCTGAAGTTCTATGCACCATCCTGACCTAATTGCCTTC
CAAAGACCACACTTCCAAATACTATCACATTGAGGATGGGGCCTTAACATAGGAATTTTGGCAGACATAAGTCTTTATATCAGAGCAGTCTACATTGTAT
CTGTAAGTTTTCATTTTGCAGTTTGGTCCAAACGGTGTTGTCTTTTATCTCAGTTCATGCATTTTCCAAGTACAATCTCTGTATCATATATATTTTGTGG
CCAAGGAACTGGATAATAAAGACAGTGAATAGGACTGGGCACGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCAGAGGTGGGCAGATTGTTTGA
GCTTAGGAGTTCCAGACCAGCCTGGGCAACATGGCAAAACCTCATCTCTACCAAAACTACAAAAAAATTAACCGGGCATGATGGCATGCATCTGTGGTCC
CAGCTCTCAGGAGGCTGAGGTGGGAGGATCGCTTGAGCCTGTGAGTTGGAGGTTGCAGTGAGGTGGGATCATGCCACTGTACTCCAGCCTGGGTGACAGA
GTGAGACTCCATCTCAGCCAAAAGCAAAAAAAGACAATGAATACATAGGGACTTGCTCTGTTGTTTGTTACATAGTTGTAGGCATGAAATCATAACTGAG
ATTTCTGATTTCCTTTCCCAAGTTTTATTCTTTTTTTGAGGCAGTCTCGCTCTGTTGCCCAGGCTGAAGTGCAGTGTCGTGATCTTGGCTGACTGCAACC
TCCCCCTTACAGGTTTATGTGATTCTCGTGCTTCAGCCTCCTGAGTAGTTGGGATTACAGGCATGCATCACCACGCTTGGCTAATGTTTTATATTTTTAG
TAGAGATGAGGTTTCACCATGTTGGCCTGGCTAGTCTCAAACTCTTGGCCTCAAGTGATCTGCCCACCTTGGCCTCTCAAAATGCTGGGATTATAGGTCT
GAGCCACSATACCTGTCTCCATTTTTTTTTTTTTTTTTGAGACTGCTCTGTCGCCCAGGCTGGAGTGCRGTGGCGAAATCTTGGCTCACTGCAACCTCCG
CCTCCTGGGTTCCAATGATTCTCCTGTCTCAGGCTCCGGAGTAGCTGGGATTACAGGCACGTGCCACCACACCCGGCTGATTTTTTTTACTTTTAGTACA
GACGAGATTTCACCATGTTGGCCAAGCTAGTCTTGAACTCCTGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCA
CCGTGCCCGGCTGACCTGTCCCCAATTTTTATTCTTTATTATTTTATATATTTACCTTTCTCTCATCCAAGTACTAACCAGTTCTGACACTGCTTAGTTT
CTGAGATCAGACAAGATCAGATGCATTCACGGTGGTATGGCCATAGACATATTTACCTTTCTTTTATCTTTAAAAGCCAGTGATCTCAACATATTTTCTA
GTTATATACTGCCTCTAGAATATAAATTCTTGCTTATTATTGATGGAGAATTGTTTAGAATTTCATACTATAGATTTGTATTTTGTGGTTGTTCATTATT
TACCTGCTGGTTTTATCACAGGCTATTAGAATGTTTTATTAATTAATTTATATTATGATTATTTATTAGTTAATATTTACCATTACAGTATATCTTGCTG
TTGCTTGGCATTCATTTGTATGAAATAAATATATGTAACTTTTTTTCTCTCCTATTATGAGGGAGCCATATGTTTACTGCCAATTGGTGTGTCATTTGGG
GTCAGCGATTGCAAAATACTTGTTTTGGTGCTCATATATGTTTGCATAACATGAGTCTTTTGGTCGAAGGATGTTTGAAACTAGGCTTTCCTAAAATTGA
TTTAAATTACATGTAATCACTTTTTCTTTACTATAGAATTCTATTCATTTTGCATTTCTACAAATAGAAGATCATGGTAGAAAAGTTTCACAACTTGCTA
GTATAAACATTATGTTTAGCGTAGTGTGTTTTCAGTATAAAATAATATTTACCAATAATAGTTATTTTAAAACCCCATGTTCATTATATTTTGCAGGTAT
CTCTCCTAAATGTGTGATCAAGGAATTACCACCAATACAGAACAGTAACACAGGAGAAAAATTCCAAGCAGTGATGYTGGAAGGACATGAAAGCTATGAC
ACTGAAAATTTTTACTTCAGGGAAATCCGGAAAAATCTACAGGAASTTGACTTTCAATGGAAAGATGGTGAAATAAATTATAAAGAAGGGCCGATGACCC
ATAAAAACAATCTTACTGGTCAAAGAGTTCGACATAGTCAAGGGGACGTAGAAAACAAGCATATGGAAAATCARCTTATATTAAGGTTTCAGTCCGGTCT
GGGTGAATTGCAGAAATTTCAAACTGCAGAGAAAATTTATGGATGTAATCAAATTGAGAGGACAGTTAATAATTGTTTTTTAGCTTCACCACTTCAAAGA
ATTTTTCCTGGTGTCCAAACCAACATTTCTAGGAAATATGGGAATGATTTTTTGCAACTTTCGTTACCTACACAAGACGAGAAAACACATATTAGGGAAA
AACCTTACATAGGTAATGAGTGTGGCAAAGCCTTCAGAGTGTCTTCAAGTCTTATTAATCATCAGATGATACATACTACAGAGAAACCTTACAGATGCAA
TGAGTCTGGTAAAGCCTTTCATCGGGGCTCACTACTAACAGTACATCAGATAGTCCATACAAGAGGGAAACCATACCAATGTGATGTATGTGGCAGGATC
TTCAGACAAAATTCAGATCTTGTAAATCACCGGAGAAGTCACACTGGAGACAAACCCTACATATGTAATGMATGTGGCAAGTCCTTTAGTAAAAGTTCCC
ACCTTGCAGTTCATCAGAGAATTCATACTGGAGAGAAACCTTACAAATGTAATCGATGTGGGAAGTGCTTTAGTCAAAGTTCCTCTCTTGCAACTCATCA
GACAGTTCATACTGGAGACAAACCCTACAAATGTAATGAATGTGGCAAAACCTTTAAACGGAACTCAAGCCTCACTGCACATCATATAATCCATGCAGGA
AAGAAACCATATACATGTGATGTATGTGGCAAGGTCTTTTATCAGAATTCACAACTTGTAAGGCACCAGATAATTCATACTGGAGAGACACCTTACAAAT
GTAATGAATGTGGCAAGGTCTTCTTTCAACGTTCACGTCTTGCAGGGCACCGGAGAATTCATACTGGAGAGAAACCCTACAAATGTAATGAATGTGGCAA
GGTCTTCAGTCAACATTCACATCTTGCAGTGCATCAGAGAGTTCATACTGGAGAGAAACCTTACAAATGTAATGAATGTGGCAAAGCCTTTAATTGGGGC
TCATTACTAACTGTACATCAGAGAATTCATACCGGAGAGAAACCTTACAAATGTAATGTGTGTGGCAAGGTCTTTAATTAYGGTGGATACCTTTCGGTTC
ATATGAGATGTCATACTGGAGAGAAACCTCTCCATTGTAATAAATGTGGCATGGTCTTCACTTACTATTCATGCCTAGCACGTCATCAAAGAATGCATAC
CGGAGAGAAMCCTTACAAATGTAATGTGTGTGGCAAGGKCTTCATTGACAGTGGAAACCTTTCAATTCATAGGCGAAGTCATACCGGAGAGAAACCTTTC
CAGTGTAACGAATGCGGCAAGGTCTTCAGTTACTACTCATGCCTAGCACGTCATCGGAAAATTCATACCGGAGAGAAACCTTATAAATGTAATGATTGTG
GCAAAGCCTATACTCAGCGTTCAAGCCTCACTAAACATCTGGTAATTCATACTGGAGAGAACCCTTACCACTGTAATGAATTTGGTGAGGCTTTTATCCA
AAGTTCAAAACTTGCAAGATATCACAGAAATCCTACTGGGGAGAAACCACACAAATGTAGTGAATGTGGTAGAACTTTTAGTCATAAAACAAGTCTGGTG
TACCATCAGAGAAGACATACTGGAGAGATGCCATACAAATGTATTGAATGTGGGAAAGTCTTTAACTCCACTACAACCCTGGCAAGGCATCGGAGAATTC
ATACTGGAGAGAAACCTTACAAATGTAATGAATGTGGCAAGGTCTTCCGTTATCGCTCAGGCCTCGCACGTCATTGGAGTATTCATACTGGAGAGAAACC
TTACAAATGTAATGAGTGTGGCAAAGCCTTTAGAGTACGTTCAATTCTGCTTAATCATCAGATGATGCATACTGGAGAGAAACCTTATAAATGTAATGAA
TGTGGTAAAGCTTTTATYGAAAGGTCAAACTTGGTTTACCATCAGAGAAACCATACTGGAGAGAAGCCATACAAATGTATGGAATGTGGCAAGGCGTTTG
GGCGGCGGTCTTGCCTCACTAAACACCAACGAATTCATTCTAGTGAAAAACCTTATAAATGTAATGAGTGTGGCAAATCTTACATTAGTCGCTCAGGCCT
CACTAAACATCAGATAAAACATGCTGGAGAGAACCTTMCAACTAAACTCAATGTGGAAAGGCCGTTAGATGTTGTCCTAACCTCTGGGATCCCCAAATAA
TTTATACTTACTCATATAGCTTGTATATTTGTCCTTTCCCTTTGAAGTCTCATGTGGAATTGTAGTAATCTCCAGTATTGGAGGTGGAGCCTAGTGGGAG
GTGATTGGATGATGGGGGTGGCTTTCTCAAGAAAGTTTTAGTACCATCCCCTTGTTGCTGTCCTTGTGATAGTTCTCATGAGGTCTGGCTCATGCCTGTA
ATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACTTGAGGTCAGGAGTTCAAGAGCAGCCTGGCCAACATGGTGAAACCCTGTTTCTGCCAAAAATA
CAAAAATTAGCTGGGCTTCGTGGCGGGTACTGGTAGTACCAGCTACTCGAGAGGCTGAGTCAGGAGAATTGCTTGAACCCTGGAGGCGGAGGTTGCAGTG
AGCCGAGATCGCGCCACTGCACTCTAGCCTGGGTGACAGAGTGAGACTCCATCACGCACACGCACGCACGAAAGTGAATGGCACCTCCCTCTTGTTTGTT
CTTCTGGCCATGTGACATGCCCTTCACCTCCCACCATCATTTTAACCTTCCTCAGGTTTCCCGAGAGGGTGAACAGACGTCAGCGCCATGTTTCCTATAA
AGCCTGCAAAATTGTGAGTCAATTAAACCTCTTTATACATTACCTAGCCTCAGGTATTTCTGTCTAGCCATGCAATTATGGCCTAATATATTTACACATG
GAGTGAATATAGCTAAGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGAGACGGAGTCTCGCTCTGTCGCCCAGGCGGGACTGCGGACTGCAG
TGGCGCAATCTCGGCTCACTGCAAGCTCTGCTTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCTCGCCACCGC
GCCCGGCTAATTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCGGCC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCAGAATATAGCTAAGTTTTAAGCAAGTGTTCACTAGGCATAAGAATATACATCCTGG
AGAGAAATCACAGAAGTGTAGTATATGTGGCAAGAATACTACTTAAAGGTCAAAACTTGTGGATCTATAACTCAAAGTGCAGATATGCTTTACAAATGAA
ATGAGGGTGGCAGAAGCTTCACCAGAGTTCAGTCACTACTTGAGAGTTTATATTGGAAAGAAATCGTATAAATGTATGTGCTAGAGGCTTCCCCGAGGTG
TCTGAACTCACTAGACCTCAGAATATACATCTTTGACAAATGTAATGTGTGTGCTAAGACTTTTTACCCGAACATCCAAATGGAAACATCAGAGTATTCA
TACTGGAGAACAGTCTTACAAATGTAACGAATGTGGTAAGCCTTTTTAAAAATCAAATGGGCTGGGTATGGTGGCTCACACCTGTAATCCCAGCACTTTG
GGAGGCCGAGGTGGGTGGATCATCTGATGTCAGGAGTTTGAGACCGGCCTGGCCAGCATGGTGAAACCCCATCTCTACTAAAAAATACAAAAATTAGCTG
GGCAGTGGTGGGCACCTGTAATCCCGCTACTTGGGAGGCTGAGGCAGAAGAATCACTTGAATCCAGGATGTGGAGGTTGCTGTAAGCCGAGATTGCGCCA
TTGTACTCCAGCCTGGGTGACAAGAGTGAGACTCTGTCTCAAAAAAATAAAAAAATCAAATGTTCATGTTTTTGGAGTTTGAGAGAATTTATACAGGAAA
AAAGTCATATCAGTGTGCTTAACATGGAAGGACCTTTAATCAGTAGTGTGTCTTCAGGCTTTACCAAATTATTCATACTGGATAGAAACCTTGCAAATGT
AATTAACGTGGTAAAATTTTAAACCATTTCTCAGCCAGATGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACGAGG
TCAGGAAATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAATAATTAGCCAGGCGTGGTGGCACGTGCCTGCAGTCCCAG
CTACTTAGGAGGCTGAGGCATGAGAATTGTTTGAACCCGGGAGGCTGAGCTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGCGACAGAGC
AAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAATTTCTCAACAGATTCCATGTTAGGTAAATCATACTATGGATAACTAAGTCTGCTTCTCCATCCAG
GATTGACCTGGAATGATACATACGGTAAAATAACCACAAGACAAAATTTGTTAAAACCCCAGGTAATATGTACATCAAAGGATCAAGAGCGTGTGTGGAA
ATGGCCAATTCAGTATATAAAATAATTGTATTCACTTTGACATTTCTTAAAAAGGCTAGTTGACTATTTGTGACCTTCATCCTAAAGTATGAAGTCTTGC
CTTTCCTACACATCTTTCATTGTGGTCTCTGGGAATAAATCAGTAAGGTGAGAGGGCCTGCTTCATTAGGTGTGGTTCCTTCATATCCATGTTTTCTGGA
RGATTAAGGTCACTGTACTGTGTGAGTTAAGCAGCATGGAATATGGTGGAGAATGATGTAAATTTACAATGTAAGTCACTGAGCTTGTTGTGTTCAGAGT
GTCCTTTGACAAATACAGTGTTGCTTTGGGATATGGGAAACATACGGAGTATGTTTCACTAACCTAAAAATCTGTGCTCCACCTAGATTTGTACATTCTT
TTCACTTCTGTCACTTGTTGCTTCACATGTTTTGCAGCTGGTTTTAAGTGCATACAGACAAGATTCTCAAATCATCTTTGTAAATTGACATTATTATCAT
GTCACCACCCTGTTGCCCAGGCTGGAGTGCAATAGTAATAAGGTCAACTTTTGGAACCCTTCTGCAAATTTCCTAGGATTTTTAGAGTAGCTTCCTAGCT
TTTCCTTACATTGCTGTATATCAGTTATAGAGAAGGGGACCTGCAATAGGACTGGCCATTCGGCTCCTGCTGCTTCCCTACGGGGTAGCAAGGCTGGAGG
GAGAGTAGAATATGGTGTTCCCCACTGAGTGTTTGGGGGACTTAGTAGGGTCCCCAGTGTTTGCTCCTGGTTTTAGCCTCAGGAGCACTTGGTAAGGGGG
CTATAGGGATGGTCRCTCTTCACCCTTAGAGACAAGTGGCTCTTGTAAAAGGGGGTCATCTGGTTTGGCACGGTGGCTCACGCCTGTAATCCCAGCACTT
TGGGAGGCCGAGSTGGGCAGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGATG
GGCATGGTGGTGTGTGCCTGTAATCCCAGCCACCTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCGGAGATCAAG
CCATTGCACTCCAGCCTGGGCGATGAGAGCAAAACTCTGTCTCAAAAAAGAAAAAGTAAGAGTGGGGGGGATCATCTATAATATCTAATTCTACCTTAGA
ACTTTCCTTTGGTGGTGGGGGTGGGTTCTGGGAGTTTGACAGATTGYTAGGTTTTGGTATAAGGTCATAAAATCCTGTGCATATGGGATTTCTGACCATT
TGCCCTGCCTCTTGCAAAATAGGTCTAATGGCAGGATGGTGTCATAATTAAGGCTACCAAGACTGCCCATTGTTCCAGGCTGGGCAGTTCATAATGGGGG
CAGACAATAGTGCAAAAAAAATTTTACATTTTATCTTTAGAGTGTCAGGGTCAAATTGATTTCCATGGTTGAGGATGTAGCCAAGTGTGGAATCAGGTGG
AATAGGTGGAGAGTTGCCCATAGTGGTTTGGAAAAGAGAAGAGGACTTTGAAAAGTGGAGGGCTCATTAGGTGACCCAAATTTTACCTGGGGCATCCCCC
CTTTAGGGCCCCAACTTAGTCTGTCAGACATCTCTGACCTTAGATGGGTGCTGGCACCACTTTGGAATGGTTCCCTCCATCACTGAGGACCTGACTTAAA
GTTTTTCTATCTCACTTAAAACAACCCTTTAACGCTCTCAACTTAGGCAATAATAAATTCCTTTTCATGAATTCCCTCCACCACCATGCACCACACAGAC
CACATGCCCGGACCCTCTGACTTGTGTAACCTTTTGTGCATAGCTAGGTGGGTTTTCTGTCCTTTGCCAGTTGGGTGGGAGAAGGGAAGAATTTAGCATA
AATAAAAGCAGCATAAGTCACCTGAAACCTGTGAGTTTGCCCTGGACGAGCTGCTGCTGCTAACTGCATCACACATAGGGATCAGGGATTATAACTGAAA
AGGACAGAAATGAGTCTTTTCCCTTTCTGGGCAGGGCAGCCATCCCTGTTCACTCCTTGGCCTTCAGAGGATACCAGAGAGTGGCCCCAGTCAGTTCCCC
TCAATTACCAACGAGCTACTAGGAAACGGCCGCTGAAAGACTGAAAAAGGAGAAAAGGAAAATAACTCAGAAAAAAAAAAAAAGGAATAGGACTCAGAAA
AACAAAAACGAGGAAAAGGACTCAGGTTCCTCACCTTAACCAAGCGGTGGCAGTTAGGCACTTCCACACGGAAACCTTCCAGTTTCACCAGAGAATGGCC
CTGGCCAGAAACTTGCAAGTGTCTTTGTGCTTAGGTGCTGTCCACTGAGGGTCCTCAGTTGGAAAGGAAAAGATGGAGAGAGGAAGATTTCCCTGTATGT
AAAAGGGGAAAGGAGAAAAAGAAATCCCAAACTTTGGGCCTACCTTCTCTCCTGGCTAGCTCACCAGAATATGTTACCAGTAGAGGGTCTTGACTGCAAG
TTGTTTAGGTTCTTGGCATTTTGAACAAAGACTTGGAAGAAACACCCAGCAAAGCAATGAAAGAATGCAGCATCAAAAGAATGAAAACAGGAATTTATTG
AAAATGAAAGTACACTCCACAGTGTGGGAACAGGCCCAAGCAGTGGCCCAGATACAGAATCTTCTTGGGTCCAAATGACTACTAGAGGTTTCCCGTTGGC
TGCTTGGTGCTGACCTAATGTAAATGAAATGGTGGCCTGCAGTCAGTCAACCAATCAGAGGCTGAAGTAAAGTTACAAAAGTCACACTCCTACGCAAATA
TCTGATTGGTTGCAAAAAGCAACCAATCAGAGGTACTTTTAATTTCCCATCTGCCAGGCAGAAAAGGTAGAGGTTTGCAAAGGGAGTAGTCTCTGGTCCT
TTTGTTACTTAGGTGTGGAAAGTTAGGGTTTTCCCATCAATTTAGCTTAAGGACGTTAGCGTGAAACAGCCTTAGGTTTCCTGCCTCCAGACCATGTTCT
CCTGCCTCAGGATCACAGGCTCACGCCACCATGCCTGGCTAATTTTTGTATTTTTTGTAGAGATGAGGTTTCGTCATGTTGCCCAGACTGGGAGAAATAT
ATTTTAAGGTATAATTAGCATGTTGTGTTTTAAAAATCCTGTTGATATACTTGCACATTAGTAACAGAGCTTTTGCTTCCACATTGTACAATTTCAGTTC
AGTATCTTGTATCATTCTAATTATTTCACTGAACTTAAAATGTAAGGGACCTTCTACATATTGATAGAACACATGCTTTGCATCTGTCATTTCTCTGTGT
GTGTGTGTGTGTGTGKATATATATATATATATATATATTTTTTTTTTTTTTTTTTTTTAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGCGGC
GCGATCTCAGCTCACTTCAAGCTCCACCTCTCGGGTTCTTGCCATTCTCCTGCCTCAGCCTCCCAAGTCGCTGGGACTATAGGCGCCCACCACCACGCCT
GGCTAATTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCTTCGTGCTCTGCCCACCTCGGCCTCCCAAAGT
GCTGGGATTACAGGTGTGAGCCACCGCTCCCAGCCTCTCTGTACAAATTTTTTGCCACACAAATCTGAAAATACCACCTTGATTTATGGATCCTCCAAGT
TTTTCACTGAAGTACAAGGGAACAAATGTAAATCTATAAATTGGGTTAAATGATTTCTAGGAAAGTGTATAATAATAATAACAATTATTTTTTTGAGACA
GAGTCTCTGTCACCCAGGCTGGAGTGAAACTGTGTCTCAAAATAAATAAATAAATAATAAATAAATAAATAATAGAAATGAAGTTTTGCTATAGTTGAGA
AATTATAGAATGCCATGCTTATTATGATAACCTCATACAGAAATTTTTACAGCTTTTTGAAAAATGGCTTTTTTGTTATTCAATTTTTATAGTCTTATAA
ACATTAATTTTCACAAGACTAGTGTAAAAATATTGTAGACAATTTGTCTAAGCAGTATTTCGGAAGCACTTTCAACAGTTATGTAAAGGGTCCTATTTAT
GCTTGAAGAAAGGACATGTATAAGGTTTTTAGCATGAGGAAATTAAGTCTTTCTCAACCTAGAAGTCAGGAGTTTCAAGAGTAAACATTCAGTGTTGAAT
TAAAGAATCTGAATCTATTTTTTGATTGATTACTGACATCTTTTAAGCCACACTATTTGGGCAAGTTGATAATAAAGCCTGAGTGCTCCCTTCTTTGGTA
TATGCTGGAAGTTCAAGACATGCCTGGGTACCTTTACCCTTGCCCTACTCCTTAACCATAGTCACAACACATTTTCCTGCTCTCACAAGCCACTTTTGAA
CCAGCTTGGGAAGTCTCCTGCTCTTTCCAGAGTCTCATTATGTAACAAATATTCTCATGATACTTCACTATGTGACGTCATCAGTCCCAGCATCCAAATC
AAAGTGTGGGTGGGGTTCCACTCTGTTCTAGTGGAGTGGCCACAGTGCTAATTAACAAAATATGCTTTGGGTTGAATATATAAAGTTTCTACTTTACTCA
CCCTGCAGAATACCCCACTATGTATGTTTATTCTTCAGAGGGAACATTAATCTTGTTTTCTTTTTTTTTTTTTTGAGACGAAGTCTTGCTGTGTGGCCCA
GGGCTGGAGTGCAGTGGCATGATCTCGGTTCACTGTAACCTCTGCCTACCGGGTTCAAGCGATTCTTATGCCTCAGCCTCTTGAGTAGTTGAGATTACAA
GTGTGTACAGGTGTGCACCACCACATCTGGCTAAATTTTGTATTTTTAGTAGAGACCACGTTTTGCCATGTTGGCCATGATGGTCTTGAACTACTGACCC
CAGTTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGACATGAGCCACAACCCTGGCCCATTAATCTTTTATTTTTTAATTTTTTTTATTAT
ACTTTAAGTTCTAGGGTACATGTGCACAAYGTACAGGTTTGTTACATATGTATACATTTGCCATGTTGGTGTGCTGCACCCACTAACTCRTCATTTACAT
TAGGTATCTTTCCTAATGCTATCCCTCCCCACTCCCCTCACCCCACGACAGGCCCTGGTATGTGATGTTCTCCACCCTGTGTCCAAGTGTTCTCATTGTT
CAGTTCTCACTTACGAGTGAGAACCTGTGGTGTTTGGCTTTCTGTCCTTGTGATAGTTTGTTCAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAA
AGGATATGAACTCATCCTTTCTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTAYCATTGATGGACRTTTGGGTTG
GTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCGATAAACATACATGGACATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGT
AATGGGATGGCTGGGTCAAGTGGTATTTCTAGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCCACAAAC
AGTGTAAAAGTGTTCATATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCACCATTTTAACTGGTGTGAGATGGTATCTCGT
TGTTATTGGGGGAACCTGCCCCCAATATTTCAATGTAGTTTCTTTCTATTTTCCATAAGTGTCAGCCGGCTGAGAAATAAAGACAATACAAAGAGAGGAA
TTTTACAGCTGGGCCTCCAGGGGTGACATCACATATCGGTAGGACTGTGATGCCCGCCTGAGTCTCAGACCAGTAAGTTTTTTTTTTAAGGGTTTCAAAA
GGGGAGGGGGTGTAAGAACAGAGAGTAGGTACAAAGATCACATGCTTCAAAGAGCAAAAAGCAGAACCACTGATAAGGGTCTAACAAAGATTACATCTTT
CTGAGGGAAAAGGGCAAAGGGCAAAAGTAGAACCACTGATATGGGTCCAACAAAGATCACAGGGCAAAGGGCAAAAGCAGAACCACTGTTAACACAATTA
TCACAGTGGTCCTGAGGTGACGTACATCCTCAGCTTATGAAGATAACAGGATTAAGATATTACAGTAAAGACAGGCATAAGAAATTATAAAAGTATTATT
TGAGAACTGATAAATGTCCATATTAAAGTGAAATCTTCACAATTTATGTTCCTTTGCCGCAGCTCCATCTGGTCTCTCTGTTTGGGGTCCCTGCCTTCCT
GTAACACATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAG
GGTCTGTTCATATCCTTCACCCACTTTTTGATAGGGTTGTTTGATTTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGATTCTAGATATTAGCCCTTTGT
CAGATGGGTAGGTTGTAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTCTCTTTTACTGTGCAGAAGCTCTTTAGTTTAATTAG
ATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGTCATGAAGTCCATGCCCATGCCTGTGGCCTGAATGGTATTGCCTAGGTTT
TTTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCT
TTCTATATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGAAATCCTTTCCCCATTTCTTGTTTTTGTCATGTTTGTCAAAGATCAGATGGTT
GTACATGTGTGGTACTATTTCTGGGGGCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTACCAGTATCGTGCTCTTTTGGTTACTGTAGCCTTG
TAGTATAGTTTGAAGTCAGGTAGCGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGTCTTGGCAATATGGGCTCTTTTTTGGTTCCATATGAACT
TTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGTATTGAATCTATAAATTACTTTGGGCAGTATGGCCATTTTCAC
GATCTTGATTCTTCCTATCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTTTATTTCGTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGG
TCCTTCACATCCCTTATAAGTTGGATTCCTAGGTATTTTATTCTCTTTGTAACAATTATGAATGAGAGTTCACTCATGATTTGGCTGTTTGTCTGTTGTT
GGTGTATAGGAATGCTTGTGATTTTTCACATTGATTTTGTATCCTGAGACATTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACGATGG
GATTTCTAAATATACAATCTTGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCTTTCTCCTGCTTGATTGTC
CTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCAT
TCAGTATGATATTGGCTGTGGGTTTGTCATAAGTAGCTCTTATTATTTTGAGATACATCCCATCAATACCTAGTTTATTGAGAGTTTTTAGCATGAAGTG
CTGTTGAATTTTGTCGAATGCCTTTTTTGCATCTATTGAGATAATCATGTGGTTTTTGCCTTTTGTTCTGTTTATGTGATGGATTATGTTTATTGATTTG
TGTATGTTGAACCAGCCTTGCATCCCAGGGATGACACCAACTTGATCTTGGTGGATAAGCTTTTTGATGTATTGCTGGATTTGATTTGCCAGTATTTTAT
TGAGGATTTTTGCATCGATGTTCATCAGGGATATTGGTTTAAAATTCTATTTTTATGTTGTGTCTCTGCCAGCCTTTGGTATCAGGATGATGCTGGCCTC
ATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTTATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCTTCTTTGTACCTCTGGTAGAATTCAGCT
GTAAATCTGTCTGGTCCTGGACTTTTTTTGGTTGGTAGGCTATTAATTATTGCCTCAATTTCAGAGCCTGTTATTGGTCTATTCAGGGATTCAACTTCTT
CCTGGTTTAGTCTTGGGAGGGTGTATGTGTCCAGGAATTTATCCATTTCTTCTAGGTTTTCTAGTTTATTTGCGTAGAGGTGTTTATAGTATTCTCTGAT
GGTAGTTTGTATTTCTGGRGATCGGTGGTGATATCCCCTTTATCATTTTTTATTGTGTCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTTTTGCTA
GCAGTCTATCAATTTTGTTGATCTTTTCAAAAACCAGCTCCTGGATTCATTGATTTTTTGAAGTGTTTTTTATGTCTGTATCTCCGTCAGTTCTGCTCTG
ATCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTCTCYAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTAGATCTTT
TCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTATACACTGCTTTAACTGTGTCAAGAGATTCTGGTATGTTGTGTCTTTGTTCTCATTG
GTTTCAAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGAGCGGTTTTGAG
TGAGTTTCTTAATCCTGAGCTCTAGTTTGATTGCACTGTGGTCTGAGAGACAGTTTGTTATAAGTTCTGTTCTTTTACATTTGCTGAGGAGTGCTTAACT
TCCAACTATGTGGTCAATTTTGGAATAAGTGCAATGTGGTGCTAGGAAAAATGTATATTCTGTTGATTTGAGGTGGAGAGTTCGGTAGATGTCTATTAGG
TCCACTTGGTGCAGAGCTGAGTTCAATTCCTGGATATCCTTGTTATCTTTCTGTCTCGTTGATCTGTCTAATGTTTACAGTGGCAAGTTAAAGTCTCCCA
TTATTATTGTGTGGGAGTCTAAGTCTCTTTATAGGTCTCTAAGGACTTGCTTTATGAATCTGGGTGCTCCAGTATTGGGTGCATATATATTTAGGATAGT
TAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTCTCAGAGACTAGG
ATTGCAACCCCTGCTTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCCTTTTTTTTTTTTTGAGCATATGTGTGTGTCTGCAYGTGAGATG
GGTCTCCTGAATACAGCACACTGATGGGTCCTGACTCTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAGGTTAA
TATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGATGTGGTTTCTTCCTAGCATCTATGGTCTTTATAAT
TTGGCATGTTTTTGTGGTGGCTGGTACCGGTCGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTGTAAGGCAGGCCTGGTGGTGACAAAATCTC
TCAGCATTTGCTTGTCTGTAAAGAATTTTATTTTTCCTTCATATAGGAAGCTTAGTTTGGCTGGATATGAAATTCTAGGATGAAAGTTCTTTTCTTTAAG
AATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTAGGGTTTCTGCTGAGAGATCTGCTGTTAGTCACATGGGCTTCCCTTTGTGGGTAAGCCGACCT
TTCTCTCTGGCTGCCTGAAGGGGGCCACCCCCTCCACAGCCTGTGGGTGTTTCTCGTCAGGTGGGACGAGAGACCAGGAAAAGAAATAAGAGACAGAGAC
AAAGTATAGAGAAAGAAAAGGGGGCCCCAGGGACTGGCGCTCTGCATATGGAGGACCTGCGCAGCTGGCCCTGGTCTCTGAGTTCCCTCAGTATTTATTG
ATCATTATCTCTACCATCTCGGAGAGGGGGATGTGGCAGGACAATAGGGTAATAGTGGGGAGAGGGTCAGCAGGAGAACATGTGAACAAAGGTCTCTGTG
TCATAAATAAGTTTAAGGAAAGCTGCTGTGCCTTGATGTGCACGAGCACAAACATTTCGGTGCAATAAAGAGCAGTATTGCTGCCAGCATGTCTCACCTG
CAGCCCTAAGGTGGTTTTCTCCTATCTCAGTAAACAGAACATACARTCAGGTTTTACACCGAGACATTCTATTCCCAGGGATGAGCAGGAGACAGATGCC
TTCCTCTTATCTCAACTGCAAAGAGGCYTTCCTCTTTTACTGATCCTCCTCAGCACAGACCCTTTATGGGTGTTGGGCTGGGGGACAGTCAGGTCTTTCC
CTTCCCATGAGGCCATATCTCAGGCTATCACATGGGGAGAAACCTGGGGCAATACCTGGCTTTCCTAGGCAGAGGTCCCTGTGGGCTTGTGCAGTGTATT
GTGTCTCTGGGTACTTGAGATTGGAGAATGGTGATGACTTTTACCAAGCATACTGCCTTCAAGCACTTTTTAAACAAAGCACATCCTGCGCAGCCCTAAA
ACCATTAAACCTTCTGTCAACACAACACATGTCTCTGCAAGCACTGGGTTGGAGCTAGGGTTACAGATTAACAGCATCTCAAGGCAGAAGAATTTCTCTT
AGTATAGAACAAAATGGAGTCTCTTTTGTCTACTTCTTTCTACATAGACAAGTTAACAGTCTGATCTCTCTTTCTTTTCCCCACAGCTGCCCTTATTATT
TTTTCCTTCATTTCAACTTTGATGAATTCAAACAGGATACAATTTGGGGAATATATGCTTATAATTTGCACTTGAGCTATTCTGTCCGAGTATGCCCCAG
GACATTTTATGGAAATACCATGCAGTGCAATTTCAGACTCTGAGCATCTAAAAACCTGCCTCAGTATGCATGAATATTCACTATATGATTATAGTTCTAC
ATGCCTTTGTATGTATAAGATCCATGGCTTGCATTTGCCTTGATTTTTATGTGTGGTAAAAATAAAAATATAGCAAGTGTATACAAATATTAGGAAATGG
GCCAGGTGTTGGAGCTCATTCCTGTAATCCCAGCACTTTCGGAGGCCAAGGCAGGTGGATCACATGAGTTCAGAAGTTTGAGACCAGCATGAACAACATG
GTGAAACCATGTCTGTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTACACCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGAAGAATTGCTTGA
ACCCGGGAGACAGAGTTTGCAGYGAGCTGAGATTGCACCACTGCGCACCAACCTGGGTGACAGAGTGAGATGCAGTCTAAAAAAAAACTTATTAAAAAAA
TATATTATATATATGGAAATAAACAATAATTAGGAAATAAGAATTTCTTATTTGTGCTTAGAATACACAGTGAAGTAAACAGAAAAAAAGAACAACAACA
AAAAAGAATACATAGTGAAGTAATTTGAAAAGATTAAATGTTAAGACAGGCATGGTGGCTTATGCCTGTAATCCTGGCAYTTTGGAAGGTCGAGGTGGGA
GGATTGCTTGAGCYCAAAAGTTCAAGACCAGCCTGGGCAACATGATGAAACATCATCTCCACAAAACATACAAATATCAGCTCTGTTATATATGAAATAA
ACAGAGTTTTCCAAAGATCTTTTATAAGATGGGAGAAAGGAGATGAAATAGAAGAGAGATTGACTTGGTCCTTCAGGATTGGAATCTGATAGATGGGACA
CTAGAGGAAGTTTAATGTAATCTTTTTGGCTATCTAGATCTAGTTTTTAGGCCCTGGCTAGAAGCCAGTTAGTTCCTCTTCTAGAATGGCCAATTAAGTC
TACAATGCCGGCCACAGTGAGCTTGTGGTATTTAGCTTGCCCTAATCCTATCCCCATATCCTCAGCTTCAAGGTAGCCTTGAAAAGCAACCACCTTTTAA
CAACAGTAACAGTGAATATCTGCACCCTAGCAGAATATCTGCACTTGAGGAGGTAGAAATGGCTCTGAAAATGGCAGAAATGGCTCTGAAACACCCAAAA
GCCTCCATCCCCACAGAATGTTCACTACTAAGCCTGCTTTGCAGCCTGCTGAATAGGTCTATTCTCATAGTATTTCTCTATTTGGCTTGACTTTATTTAT
GTGAACACTCCTACCCATAGGGCACTTGTCAAAAAACAATCAGCAGCAATTGTTTAACACTAGAGTGTTTAGGGGAGTGACAGTGTGTGTCTGCGTGATA
GATGGAAGTAATAAGAGGGCACAGGGGAAAGGGGCCATACGCATAAGATGATGGAACAGAGAGCCTGGAGGGTGGGGTATAGAGAGTGTAGGGGAAGGGA
GAAGGCAGACAGGTAAAAGGAAAAAGAATGTTAAGTGTTGTTCAGCCTCAAGACTGACATGATGAAAGTACCTTTATTGTGGTTTTTGTAAATTAGAATG
CATGCTTTATTATTAAAAAAAACACAATTGAAAATGTTAAGGACCTTTTCCTCCTTGCTTCTTATAAGAAACCATCATAAGACATAACTTGTAATAATTC
TGTAGAAATATACATATATAAAGATATATGTATATATATATTTTAAAATAGTATGTTTTTATTGCAAAATATTCATTAGTGTCATCATATCATAGCCAGA
TCTACAACCCCAGAGTAATTCCCATGGTTATGTTACATGGCAAAAAGGACTCTGCATTGTRATTAAGTTTATTAATCAGCTGACTTTAGCATTGGGAGAT
TATTCTGGATTGCCCAAGCACTTAAGAATAGGAGAAACCGGAGAGATGCAGCAGCAATAGTCAGTGGTTTCAAATATGAAAGGGATTTCACATACTATTG
TTGGCTTTAAAGATAGGAAGTCGTGGGGGCAAGGAAACTCTCTAAAGGAAATTAATCTGGCAACAACCTAAATAATTMTAGAAAAGGATTCTTTTCCAGA
RTCAAGAACAGAGCCAGGTGGTTCTTCTCTTCTAAAGACATTTCCATGGGCCAGTTCCACCGCAAGCTTCTCAGAGAGAATATGTTCTGCSGTACGGACA
CCGAACGTCCCCTAAGATGGCCGCCCCCATGATGCTCTCCCCTAAGGGCTCTGGCTCCGTTACCTGCAACGCACCGCTCGCTTATTTTTTGTTCTAGTCT
CTCTTGCTTCAGTTTTTATACGGCTTCTAAAACGCTTCGCATTTACAATAGTGACTGAGGTGCCCAGAGGTGACTTTAATTTTCCATTGAGCTGAGACGT
CACAGCCATCATAACCGCTAAGAAGGGATGCCGCGCCTTTGTGGTAATAATGGGTTCTGGCCTTTGAGAAGTTTGCGCCGTTCACTGTCCCCTGCGAGGA
GAAGACTAACTTATTTCTGTTCCGTGTCTGTTCAGAGGACTTTACCCCCACGCCGTGTCTGCCTGTGTGAACTCAAGCCTCTGATAAGCTCTCCATTTTC
TGCCAGGGCTGAGGTGTCTGGAAATCGGACAGTTTAAGAGGCCTCCGTCCACCGCGTCTCCCGGCCGCTGTGCCTTCTGTACGTCACGTACTCAAAGATG
GCCGCCCCCAGAGCGGCGAGGCGACGCCGGCGCGGACGCGTCTCCTCCTGAGGAAAAGCCGGAAGGCCGCATTCCGCTCTCCATGGAAACGCGGCTGACC
GTCTCTGGAGGTTTAGAGGGGGAGGGAGTTGGGCGAGGRGCCCAGAAGTGGAAGAAGTTTAGGGAAGTAAGTTCAGCTTTTAAGAGGTCGCGGCGATTCC
MAGGAGAGTCAGGTCAGTGTGTGGGTCAGGGCGTGGAAACGTGGTGGGAGGGAGCTTTCTGAGGGCGTCTGCGTTGTTGGTGGCGCTATATGGTGGAGGT
AGCGCGGGGGTTGGGGGAGGCGGGGGCGGGTGTTTCCTTTTGGAGGGGAGCTGGTAGGAGTCCCTGGTGGGTGTCTGTGATAGGATATCTTTGGGGTCCC
TCATGGAGGCTCTGGTGGTCAGTGATTAAAGGCCTGAATAGATCAACGACCAAGAGTACTGAGGTCAGGGATTGTGGTCCTCGCGGGTCACTCCCCAGTG
GGGCTCAGTGATTGAGAATCGATGGGGTGGCTTTTGTCAACGAATGTGACTTCTGTTTCACATTCTGGATTAATCTGAGGCTTAGTGATTGATGAATCAT
TAAGGGAATCCAGTGTACGTGTGTGTCTATTCCAGGTTTTCCTATTTTATCTGGCGGGGTGRTGGTCTTTTGTSTAGAGACAAGTGAAAGCCGAAGTCTT
TTCACAAGAGCCCTGGCTGGTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGAGCTCAAACTTTGGCTGGAA
CAGACTTGATGAACGTTAACATTTCCTAAAAGTTTCAGGTCCGAGTACCTCCTCCACAATGAGTTTTCTAATCCTCTGGCTTTCCACAACAACCCATGCT
CTTGAACCTGCAGAAAATGAAAGTTTTTTGGGGGTGAAGGGGGGCGGATGAATAGGCTTTCTATTTAACATTATGTTTTTAAATTACTGCGCACAAATTA
ACAAGAGCCTATTTTTATCCTTCCTCTTGCAAATGTACTGCATATTTTTATGGGTGTTTCAGGTTTTGTATGTTAGTATATAAAGGCGGCTATTTTCCCA
GTATTTATATTTTTGAATTGTTTTCTAAATTTGTATTTATAACTCGTATTCCTTTTCTCTGTCTCCCTCTTTTTTTCTATGTGTTTCTTGTTCTTCATAT
TGAAGTGTGTATATAAACAYTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTTTTGTCGCCCAGGCTTGAGTGCAATGGCTGGGCTCACTGCAAACTTCGC
CTCCTGCGTTCAAGCCATTCTCCTGCCTCAGTCTCCGAGTAGCTGGGATTACAGGTGCCTGCCACCATGCCTGGCTAATTTTTTCTATTTTTAGTAGAGA
CAGTGTTTCACCATGTTGACAAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCCATCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTAAGCCA
TCATGCCTGGCCGTATATAAACACTTTTAAATATATATAAAGACTTTTAAAGAGGTGTGAGAGTAACATTGTATAAAGGAAAAAATGTAGTTTCTCACCA
TCCATATGGCCTGATTTAAAAAACTGATATGAGAATTACCTACTGCTTAGGCATGATGCTATGTGGATTCTCCTTTGTGACCTCCCCTTTCATCTTCATG
TTACTTCCACACTTCACCGAAGAAAGGCATTTGGCCTACATTGAGGGTCTTGTGTTTCCTTGGTTTGAGAGAACCAAATAAAGAGACAAATATTCAGGGC
CACGTGTTAAGGTGAATGTACCCCTGAAAGTTGTTTTGCTCTTCAGTCCACAGGTCCTGGCTACCCTGGGAAGAGACAAGAAGTAAATGAAGAAAGAGGA
AGATTCCAGGACCTAGATATGATTTCTGTGGACACCCTTCACTGGTGACTGAAGTTTSTAAATAGAAATTTAAGGCAGATCCAGAGGAGACAAAGACAGA
GTATCCCAGGTGCTGGCCATTTCCCACAACAGAAGAAAATGATCAATGCCCAGGTGACTTTTTCTCTATTTTATTCTCTCCTTTATTCCATAGTGGATTT
GTAGAGACCCRTAAGAAATCATTTCAGAATCTAGAGAGAAATAAACTTTAAATCTAACTCCAACATCATGGCAAAGTAAGATCAGGAATATAGTGTTTAT
GTGATTCCTACAAAATGACTGATGTTGGAAAATAATGCCTGACTAGAAGATCCTTTCCATTACCTTAGCTCTCAGTTTGCATCTGATGTCTCTGACAGCC
AGTACAAGAAAGTCACACTAAGTTATACAGTGACTGTGGGGAGAAAGCAGACAGGTTCCTCAGGAGATTATTATTTCATGGCACTTAGATCTCAAGAAAA
ATTTGCTATTCTTCCCAGAGKTGATATGGTGAACAGTGTTTTGAACTAGCTTTCTAATAAAGGCAGAAGATTTCTTACTGCTGTTTATTACACGGTTCCT
CAGAGACTCCTATGGAAATAGACCAGGCAAACTCAGTGGAAACAGTTTTTTTAGGGGACGAAAGCAAGGCCACACACTCAAGTCTTGCGTGTCTGTGTGA
GCTTATTTAGGAATAAAATCTAAGTGACCTAGGAAAATGGAAGGTGTGCATAGCTTCCATTTTCCTGAACATGTGGCTGAACTGGCATTAACTGCAGATT
TGGCATTAGGGAGTTGTCTGATAAGGTCTTGAGTCGTTGGGTGCCATGTTTGATAACTTCACCTCATCTCAGAATATACAATATCCTTCTGCATTTTCAC
CTCCAATTCTTGCATACTTATATTGCTTTTATTTTTTGTAATTACATAAATTACTCATGGAATCCAAAGGGAAAAAATTCTTTTTTTTTTTTTTTTTTTG
GTTTTTGTTTTTTGAGATGGAATCTCACTCTGTTGCCCAAGCCGGAGTGCAGTGCGTGATCTTGGCTTACTGCAACCTCCACGTCCTGGGTTCAAGGGAT
TCTTCTGCCTCAGCTTCCTGAGTAGCTGGGATTACAGGTGTGCACTTGCATGCCTGGCTAGTTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATCTTG
GCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCTCACAG
GGAAATAAATTCTGATGATGAAGTACACACTGGTTAAAAAAGTAAATTTCCGGGCCGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTTGGAGGCC
AACCAGGCGGGTCACCTGAGGTCGGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACCGTATCTCTACTAAAAACACAAAATTAACTGGGTGTGGTGG
CGCATGCCTGTAATCCCAGCTACTCAGGAGACTGAGACAGGAGAATCGCTTGAATCCGGGAGGTGGAGGTTGTGGTGAGCCGAGATCATGCCATTGCACT
CCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCGAAAAAAAAAAAAAAAAAAAAGGTAAAAAAAGTAAAAGTAGATTCCCTCTTCATAACTTTCTTCCTA
ATCCTCTTATACTGCTTCAACAAATGTTTGGTAGCACATACTTGCTGTCACTGAAATGTGTGCATCTCTGTATATATGTGTATTTATAAATCCATGTGTT
TTATGTATGTGTCTGCATATATAAACACATTTATTATGACTTCTTTTGCTTCAGTGGAATCACATTCCACCTGTTGGTCACCTTAGATCAAGCTTGTAYA
ACCTGTGGCCTGTGGGCTGCATGCAGCTCAGGATGGCTTTGAATGTGGCCCAACACAAATTTGTAAATTTTCTTATAATGAGAATTTTTTGCATTTTTTT
CCAGCTATCGTTAGTGTTAGTGTATTTTATGCATGGCCCAACGCATTTCTTCTTCCAGTGTGGCCCAGGGAAGCCAAAAGATTGGACACCCCTACCTTAG
GTGGTGTAGTTTTAGAATATAAAGGAATAATCACTGCAATTAATTGAAGAATATTGACTGTATAAAATTCCATTTGTCTAAAGTCATACATGAAAACATT
GTTAAACTATGTAAAGTATTTAGATGAGTGCCTGCCACATAGAAACTGATACATGGAGTCCTTTGTGCCTTAAATCTTTGCCAATACTTAAAAATATGAC
ATTATCAAATTATACAATTTTCAATGATCCAATATTCTTTTGTCTTATTTTGCATTTTCCTCATCACAGGTGAGGTTGAAAGCCTTCTTGTGTATTTCTT
GGCCAACTGGATTTTTTTCTCTTGTGAAATGCCTGACTTTATGATTTTTACATTAAAAAAACTTTTTTCTTACTGGCTAATGAGTTGCTTATATCTACTA
TATATTGATCTTTTGTTTATTGCAAAGTTTTTTTTAGCCTGTCATTTTTCTTTCAGCTTTGTTTATGATCTGTTTTTCAATGTAGAAATTAAATTTTTTT
TCTCATAAAATTTGTCCCTTTTTTTTCCTTTATGGCTTTTAACATGAATATATTTCGTATTTGCTTCTGCTTCCACAGGTKCTTTTGCTTTCTGGTAAGG
ACTTTAAAMAGGAAAAACTTATTTTTGAGTATGAAATTAGGTAGAAACCTACATTTTTTTTCAAACAGATTTATTTCTCGTGTGAAATAATTCCCGAATG
TGATGAGATCAGCAGCATTAAGAATTTGCAGACTYCAGCAAGTCTGTTCTTTTCTCTGTGTATTAATCTCTGTGATTATATGGGGATAGATTATCCCATC
AATTTGTGAAGGGGTGGGTTGCCCCTCCACRCTTGTGGGTGTTTCTCGTAAGGTGGAACGAGAGACTTGGAAAAGAAAAAGACACAGAGACAAAGTATAG
AGAAAGAAATAAGGGGACCCGGGGAACCAGCGTTCAGCATATGGAGGATCCCGCCAGCCTCTGAGTTCCCTTAGTATTTATTGATCATTCATGGGTGTTT
CTCCGAGAGGGGGATGTGGCAGGGTCACAAGACAATAGTGGGGAGAGGGTCAGCAGACAAACACGTGAACAAAGGTCTTTGCATCATAGACAAGGTAAAG
GATTAAGTGCTGTGCTTTTAGATACGCATACACATAAACATCTCARTGCTTTACAAAGCAGTATTGCTGCCCGMATGTCCCACCTCCAGCCCTAAGGCGG
TTTTCCCCTATCTCAGTAGATGGAGCATACAATCGGGTTTTATACCGAGACATTCCATTGCCCAGGGACGGGCAGGAGACAGATGCCTTCCTCTTGTCTC
AACTGCAAGAGGCATGCCTTCCTCTTATACTAATCCTCCTCAGCACAGACCCTTTACGGGTGTCGGGCTGGGGGACGGTCAGGTCTTTCCCTTCCCACGA
GGCCATATTTCAGACTATCACATGGGGAGAAACCTTGGACAATACCTGGCTTTCCTAGGCAGAGGTCCCTGCGGCCTTCCGCAGTGTTTGTGTCCCTGGG
TACTTGAGATTAGGGAGTGGTGATGACTCTTAAGGAGCATGCTGCCTTTAAGCATCTGTTTAACAAAGCACATCTTGCACYGCCCTTAATCCATTTAACC
CTGAGTTTGACACAGCACATGTTTCCGAGAGCACGGGGTTGGGGGTAAGGTCATAGATTAACAGAATCTCAAGGCAGAAGAATTTTTCTTAGTACAGAAC
AAAATGGAGTCTCCTATGTCTACTTCTTTCTGTACAGACACAGTAACAATCTGATCTCTCTTGCTTTTCCCCACAAATTTGCACCTAGCTCTTTCCTGCC
TCAAGTTCCTACTACCATGTGATTATAAGTCATGTTGAGACAGGAGAGTGGCAGTTTAGTTGACAAGAGGGTCTCAATTTATTTTCCAGTGGCATTCAGG
GCTAGGCCATACCATACAATTTGCCAATTGCCACAGAATCAGGACATTGAAGACATTATTCTGCACTTTTCTTGCTTCTTTTGTTTCTGTGGAAGTCAGT
TGTTAGGACATTTTATTTTTCTTTTGATGGTAATGCATCTTTTCCTTCTATTAACAGTTGTTTGCATAATGTTATATGTGCATCTGATGTTCAATAGTTT
CAGTCTGATGTGTCTAGATGCAGATTTTCTGCTTGGCTTTGTTGATTTATTAAATTTGAGTTATAGGATATTTAATCAGTTCTGAAAATTTCTCAGTCAG
ATATTTGGAAATTGCTTCTCTTATTTGAATATAATATTTCAAAAACTATGTATAGGCATATGTTAGGCCTCACTCTGTCTTCCATATTTAGTAAAGTCTC
CTTCATACTTTCTGTCACTTTGTGTCTCTGCTTCATTTTTCAGTTATTTTAATTTTTTGAGATAGGGTCTCACTCTGTCACCCAGGCTGGAGTACAGTGG
CATGATCACAGCTCACTGCAGCCTCAACTTCCTGGGCTCCAGCAATCCTCCCACCTCACCCTCCCAAGTAGCTGGGATCACAGGTGTGTGCCACCGCACC
TGGTTAATTTTTGTCTTTTTGGTAGAGATAGGATTTCACCATGTTTCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGCTATCCGCCTGCCTCAGCCTCCC
AAAGTGCTGGGATTACAGGTGTGAGCCACCACACCTGGCCCTGTTATTTTTTTTACTGTGAATTCCAACTCACTAATTATCTCTTCAGTGTATTTAATAT
AACCTTTCTGTTAATAGACACATATACCTGTGACTGTATACGTATATATACATAAACATATATTTATATGTATGTGTGCATACATATATATTTAATGTAT
GTTTCCAAGAATAAGTTTTCCCAATTTGGTTACTCTTTAATAGTTTCTCATGTTTTCTGTACATTTCTATTTTTTAATCCATTTAACAATTAAACATGAA
TGTAGTATCCTGTGGTTCTAGCATCTGAAGTCTCTCTATGTCTTATGCTAGTATTAGCTGGGAAGGCTTAACAGTGAATGAAACAATTTATATCAGATAT
CTAGATGTCAGTAGCATATACTTTCTTGACTGGTCAATAGATACCAAAATTAAAATTTATACATAAAACCCGCTTTTACTGAGAGGATTTGATATAAAAC
CTTAATTTTTGTTGAGCAAATGGGGCACTGTGCAATTATAGAATACTTGGAGATTCTCTGGCAATATTAAAAAATACAATAGACTTATAGATGGATGCAG
TCTATATGTTTAATGTGAGCGGGACAACTTCCCTTCACTTTCTTTTCATGTCAGTAAAAGAGAAACACTTCCTATTAAGCAAGGCTCTGTTTTCTTACAG
GAATTGCTGACACTGGAGGATGTTACTGTGGAGTTCACCTGGGAGGAGTGGCAGCTCCTGGGCCCTTTTCAGAAGGATTTGTACCGGGATGTGATGTTGG
AGATCTACAGCAACCTGCTATCAATGGGTGAGGACAGCTGCTCTGTGTCACCTGGAGGGTGCCCAGTCTGTGGCCTTTGCTTTCTCAGTTGCTTACCCTT
GGAAGTTACTGCAGTGCTCTGAATATTAGATTTTTGGCACATCCTCTGGYTTCTGATAAAAGGATATACCGTCACCCCTCAGTGTCCAAGAGGGATTGGT
TTCACAACTTTCCATGGATATGAAATCCACAGATGCTCAAGTCTCATATAAAATGGCATTGTATTTGCATATAACCTACACACACCTCCTCCTGAATACT
TTAAATCATCTCCAAATTATGCCTGATACTTAATACAATGTAAATGCTATGTACATAGTTGTTATACTATATGTTTTAATTWATTTATTTATTTATTTTT
TCTTTAGAGACAGTGTCTCGGTCTTTCACTCAGGCTGGAATGTAGTGGTGCCTTCATGGCTCGCTGCAGCCTTGAACTGGGTTCAAGTGTTCCTCCTGCC
TCAGCCTCCTGAGGAACTATGCCTACAGGTGCAAACCACCATGCTTGGCTAATTTTTTTTTTTTTTTGTAGAGATGGAGTCTATGTTGCCCAGGCTGGTC
TCCCACTCCTGGCTTYAAATGTTGGTTTCATGTCAGCCTCCCATAGTGCTCGGATTATAGGCAAGAGCCACTGCACTTTGTATTTTTTTTTATTATTGKA
TTTTTTATTGTTTTTTAAAAAATATTTTCAATCCATGGTTGGTTGAATCCCTGGATGTGAAATTTTCAGATATTAAGGTCTGACTGTAATCTGCCCTTTC
CTGAGAGAGAAGCCTCTACTTTCAGATGTGAAAACTGTCTAGTTACTTAAATGTAACATTCTCTCACATTACATACCCCAGCCCAATCCAGTGTGTCTGT
CTTCTATTATTTCCCGTAAACAGGTTATCAAGTCAGCAAACCAGATGCACTCTCCAAGTTGGAACGAGGAGAAGAACCATGGACAATGGAAGATGAAAGG
CACAGTCGAATCTGTCCAGGTATGTGAGAAGCAGCAAGATGCGTAAGTAATATTATAGTCAGTGAAAGAAGGCTCTGTGGGTGTCTGAGGACACAGAAGC
AGTGCCTACATTAGGAATGGGAATCGTTTTCCCTCCACAAGAAACCCTTCCCATCTTATTTTAAGGTTGCATTCTCCTTTAGTACCATACATCTGTCCTG
TCTGTGCTGGTGTTGTATTGAATGTCCTCTACCTATGGAGTTCTCTTCTTAAAAGTCTCTACTATTTTTGTTTACTGTTTACCTAGAAAGGACTGTTTTA
TGTCCTACATCAGTTCTAGACCAAACCAGGTCATAACTTATGTCTGTCTCAGAGTACTTCCTTTGTACATTTGATTTCTACTTTTCCTTTAGTTCATCTT
AGACGGTAGCATTGTATTCATTTCCCTAATGTGTTTTTCCCATTATAGATTTGTTTTTTCAACAGCTTAGATAATTTACATACCATACAATTTTCCAATT
TAAAGTTTATTTTTCAGTGCTTTGTAGTGTATGAACAGTTATGTAACCATCACCATAGTCAATTTTGGAAGATTTTCAAAGTATCACTTAAAAAAAAAAA
TTGTTTCCAAGCCCCCAGCCCTAGGCAATCACTAATCTACTTTCTTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCA
CCCAGGCTGGAGTGCAATGGTGTGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGGCTCCCAAGTAGCTGGGATTA
CAGGCGCGCACCATCATGCCCAGCTAATTTGTGTTTTTGTAGAGACAGGGTTTCACCATGTTGGCCAGTTTGGTCTCGTACTCCTGACCTCGTGACCCAC
CTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCTCTACTTTTTATCCCTATAGATTTGCCTGTTCTGGACATTTTATA
TAAATAGAATCATGAAATATATGGTCTTTTGTGTCCGGCTTCTTTCATTTAGCATAATGTTTTTGAAATTCTTCCATTCTTTAGCATGTATCAGTGCTTA
ATTTCTTTTTATTGTTGAATAATATTCCATTGTATGGATATACCACATTTTATTTATCAATTCATCTATTGCATTGACATTTGGGTTATTTCTACTTTTT
GGCTTTTATGAATCATGCTGCTATGAACGTTCATGTACAACTTTTTTAGGAACGTATGTTTTCATTTTTCTTGAGCCTTCACCTAGGAGTAGAATTGCCA
GGTCATTTGTAGTCCAGGAGGGGGTCCAAGTACAGTACTTCTCTGGTCCTCCTCTCACTGTGGATGTTACATCTCTTCCCAGCCACACAGTGTGTGACAG
TACAGAGTATTGACAACTAGGGAAGTTCACTTGAGCCTTTGGTGGCCAGAGTTTTGATTAGGTTTCAGTCACATACAGCCCACATGGCTGACTTTTAGTC
TTCAGCCTCTCCTGGAAGTCAGGCTAATACCTAGAGTGTCCAGTTTTTCCAAAGGCTGGAAGTGATATGGCATGGGCCAAAGCCCCTATCACAAATCATA
TTGTTAAACTGTCCAGTGGCTAAAGCCACCAGGCAAACAAAGACACTCCTATGGGCCAGGACATTCCAGGGGCCTAGAGATCATTTCCTAATAGCTAAGA
ACAAATGCTAGATCTCTGTTTGGATGAGGTTAGAGCTAGATCCTCACTACACAGAAGATTACCATAAAAATTAACAATAAAGGGGTTAATTAAGGAATAC
AGAGAACATAGAGCATATGGCAGGATAGTCAGAATTGCAGCAAGAGTATGATGTGCACAAGGCATATCTAGATTTTGAATTAGGAAGATGGTGACATGAA
TTAAGAATGAAGGCATGGGTCAGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGTGGGGGGAACACCTGAGGTCGGGAGTTTGAG
ACCAGCCTCACCAACATGGAGAATCCCCTTCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGCACATGCCTGTAATCCCAGCTACTCAGGAAGGCT
GAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGTGGTGAGCCAAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCACAACTCCATCTC
AAAAAAAAGAATGAAGGCATGAAATAGRAATTGTGCAAGGCCATGGGCCTGACTATCAAAAGATTGGCTTCAAGTTGGCCAAATACAGGTCAGTGATAGA
AGCTGCTTGTTGGAGAAATCGTGGAGCAGAAACATGGTAATATTCATGGTAATGTAAACTTTTTTTTATCAAGATGACTTTTGATTGTATATATGAGTAA
TTGAGGTAGCATGGTTGAGGGTTGGTTAATTTTATATTTTTGTCTTTTCATAAAATATGTTGCTAGTCTTGACCTTTCACTTGGATGACAGCAGTGTAGC
AATAATAAGAAACAGCTAAATATCTTAAGAAAAACTGAAGGTGAAGATGCCACAACCTTTGTCTAGAAGAAGTTTATCCTTTAGTACAACTTAACTGATG
CTGAGACATAAATGTAGCTTACTGAAGTAGATGTTATTGGTGGCAGATGAGGAAACAGTGTATCAGGGACATTGAAATGGGAAAAATTGGATATGACCTT
TTTTTTTTTTTTTTTTTAAGGTAGAGTCTCACTTTGTTGCTCAGGCTGGAGTGCAGTGGCACGATTTTGGCTCACTGCAGCCTCAACCTCCTGGGCTCAA
GCGATCCTCCCACCTCAACATCCCAAGTAGCTGAAACTACAGGCGCATATCACCATGCATGCCTGGCTAATTTTTGTATTTTGTGTTTCACCATGTTGCC
CAGGCTGGTCTGGAACTCCAGAGCTCAAGTGATCTGCCCACCTTGACCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCTTGATACG
ACTTTTCTACTGCATGCAGAATGTGATTGAAGAAAATGACAGTTTTCATATCCCATGCAGCARCAMATTTTCTTCTGAAGGCAACTACATGGTACACTGG
CCAGTTGCAAAATTCCCTATCATTGTTTTCCTGTTTCATAATTAATGAAACATATGATAACGCAACACAGCTAAACCAAAGGGTGGAGTGTTGACTATAG
GAGTTGTTCATTAAACGTGATGGATGTTTTTGGAAAGTTAGATGGTAGTCTACAGATTGAAGAGGGGCAAATTTAGTAACAATTACCACACAAGAGTCTA
TCTCAGTTGACTTAATTTCAACAGATGGAGATTTCCAATTCTTACTTGCCAGGCAACATGTACGTGAATGTATTTATTCTATATATCTCAGTAAGCATAT
TACCCTGATCTTTGTATTCACAGTTTGGTTCCTCTAACAGGGCTTAAATAATCCCAAAACCACATGTTGGAATGTCTACAACCTTGGTTCTGTACCTTCA
TCTTTCATTCTACATGTCTTCTCAACATGGTATCCTGGCTCAGTGCCTTGGCTCACACCTATAGTCCCAGCACTTTGGGAAGCAGAGGTGGGCAGATCAC
TTGAGCCCAAGAGTTCAAGACCAGCTTGGGCAATATGGCAAGACTCCATCTCTACAAACAATACAAAAATCAATCAGGCATGGTTGCATGTGCCTGTAGT
CCCGGCTACTCAGGAGGCTGAGGTGGGAGAATTGCTTGAGCCTGGGAGGTGGAGGTTGCAGTGATGCAAGATTGTGCCACTGCATGCCAGCCTGGGTGAC
AGTGAGACCCTGTCTCAAAAAAAAAAAAGTCATTCAGTCCTTTTTTCTCAAATAATATGTATGTACTGATTATTTCCATGCTGCCTTCTCCATTTATACC
TCCAACCAGATTCTTGATGTCTGTGTTACATATTTGATAACCATTTCAAAGTGTGTTTCACAGTATATACTTTACATGTGCTGGACTGCAGTAATATTTG
CCATCTCATTATCAGATGCTGTCATCTACCCAGTGGCTCAAGCCATATAGTTAGTAATCTTTGAGCCCTCACTTTCCTCACTCTCCCCATTGAATTCATC
ATTTAACCTTGTCTTTTCTTTATACAAAAATATCCTGCTTTTCTCCAACTCTCATCATCTACACTGCTCCATCAAACCACACTTAACATCACCAACTCCC
TTCTTTTTTTGTTCCTTCGTATTGTTTTTCCTAATTAGAATTCAGCATGAGTGAAAAGAAGGCATATTTTGTRTATCCCAAATGCCAGCAGAGTGCCTTG
TCCATAGGAGTCATTTGACAAATAACTAGTGGAGTGAATAAATACAACCCTCAGAATTGTGAATCAGTTGCCTTTTCCACCTTTGTGGTCTGGTGTCTCC
CAAAATTTTGTGGAATGGTGTTCCTCCAAGCCCTGTTGTTTGCTTGTAATAATGACTTGCTTGTATTTTACTGTGTCCGCATGTTTTGCAAGGTCCTGTT
TAGAAAGCTGTCAAATYGATATAGATTGTCAACTGCCTCACCTTATTTGCACACAGACTGCTTTTACTTTTTGGTTTGTTTATATTATTATGTTTTTACC
AAAGTGTATACATGAAGTTGCTTTTATACTATTATTGTAGTATTGTCATTAAATAGCGATATTTAAAAACACCTGGCCAGGTGTGGTAGCTCATGCCTGT
AATCCCAGCATTTTGAGAGGCCGACGTAGGGGTATCACTGGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATATTGAAACCCTGTCTCTACTAAAAAT
ACAAAAATTAGCTAGGCATGATGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGGTTGAACCCAGGAGGCGGAGGTTGCAGT
GAGCTGAGATCATACCACTGCACTCCAGCCTGGGTAACAGAGCGAGACTCTGTCTCAAAAAATAATAATAATAAACAAAATAAAACACCAAGGATTTTTT
TTTCTAAGAAGACAGTTTTATCCCCAACAAGATTATAAAAGGATTCATTGTTCTCTTCTTTCCTAGAAAACAACGAAGTTGATGATCATCTGCAGGATCA
CTTGGAAAATCAAAGGATGCTGAAGAGTGTGGAACAATACCATGAACATAATGCATTTGGAAATACTGCCTCTCAAACCAAAAGCCTTTGTCTTTTCAGG
GAAAATCATGATACATTTGAGTTATATATAAAAACTTTGAAATCAAATTTAAGTTTAGTCAACCAGAACAAAAGCTGTGAAATTAACAACTCTACTAAAT
TTAGTGGAGATGGGAAATCATTTCTTCATGGYAACTATGAAGAACTTTATTCTGCAGCTAAATTCTCTGTAAGTACAAAAGCCAATAGCACTAAATCCCA
AGTCAGTAAGCATCAGAGAACTCATGAAATAGAAAAAAACCACGTATGCAGTGAATGTGGGAAAGCGTTTGTCAAGAAGTCKCAGCTCACTGATCATGAG
AGAGTTCATACAGGAGARAAACCTTATGGATGTACTTTGTGTGCAAAAGTGTTCTCCAGAAAGTCCAGGCTAAATGAACATCAAAGAATTCATAAAAGAG
AGAAATCTTTTATATGCAGTGAATGTGGAAAAGTCTTCACTATGAAGAGCCGTCTGATTGAACATCAGCGAACTCATACTGGAGAGAAACCCTACATATG
CAATGAATGTGGAAAAGGCTTCCCAGGCAAGCGTAATCTCATTGTACATCAGCGAAATCATACTGGAGAGAAATCCTATATATGTAGTGAATGTGGAAAA
GGCTTCACTGGGAAGAGCATGCTTATTATACATCAGCGAACTCATACAGGAGAGAAGCCCTACATCTGTAGTGAATGTGGGAAAGGCTTCMCCACAAAAC
ACTATGTCATCATACATCAACGAAATCATACAGGAGAGAAACCATATATATGCAATGAATGTGGGAAAGGCTTCACCATGAAGAGCCGTATGATCGAACA
TCAACGAACTCATACAGGAGAGAAACCCTACATATGCAGTGAATGTGGAAAAGGCTTTCCCAGGAAGAGTAATCTTATTGTACATCAGAGAAATCATACA
GTAGAGAAGTCATATCTATGTAGTGAATGTGGAAAAGGTTTTACTGTGAAAAGCATGCTCATCATACATCAGCGAACTCATACMGGAGAGAAGCCCTACA
CATGCAGTGAATGTGGGAAAGGCTTCCCCTTGAAGAGTCGGCTGATTGTACATCAGCGAACTCATACTGGAGAGAAACCTTACAGGTGCAGTGAATGTGG
GAAAGGTTTCATTGTGAATAGCGGACTGATGTTACATCAGCGAACTCATACTGGAGAGAAACCGTACATATGCAATGAATGTGGAAAAGGTTTTGCCTTT
AAGAGCAATCTTGTTGTACACCAGCGAACTCATACTGGAGAGAAACCCTTTATGTGCAGTGAATGTGGAAAAGGCTTCACCATGAAACGCTATCTCATTG
TACATCAGCAAATTCATACAGAAGAGAAATCTTGTATATGTAGTGAATGTGGAAGAGGCTTTGCCAAGGAAACAGAGCTTGCTTTACATAAGCAAGTTCA
TACTGGAGAAAAACCTTATGGATGTAATGAATGTGGTAAAGGCTTCACTATGAAGAGCCGTCTAATTGTTCATCAACGAACTCATACAGGAGAGAAACCC
TTTGTATGCAGTGAATGTAGAAAAGCCTTCTCCTCAAAGAGAAATCTCATTGTACATCAGCGAACTCATAATGGAAACAAACCCTGACAATGCAGTGGAC
ATGTTCATGCCTTTGGGAAGAAAATCTGCCTTGTACAACATCAGAGATTTCACAGTATAGATTTTCTACATGTGTACTGAGTATGAAAAATCATATTTCA
AAATCCAGTGTTATTCACTAGGATGAATGCTATCAATGTCAGAAAGGCTTCAACATGAATTCAGGCTCTGAATTCTTTGATGTACCAATGTATAGAAAAT
TACTCATCTGAGAGAGAGTCTGTGGATTGGGGGTAACCTTTCATTTGTCAACCTTCATTAAAACTATGACAACGTCCACATGACAAATGTGTAAGGTACA
TAGTCCTTTTGCAGAGAATCTGAACTGATTACATACAAACAAATTCATGCAGAGAGAAAACCACGTTAGTAATGTGAACTGATTAAACAGCAGTGTGCTC
CTAGCATACATGCATATAGGCAGTGTAGAGCAGCCTGTTGCTAGATTTTCACCCTTGGAAGACAATGCAATTTCCAGGAGCGAATTTTAATGAATGCAGA
GAATGCACTAGTGCCTTCGGTGATTAATTACCTCATATTTTATGTCACAATAAACATGTAGGAAATAAACTTGATACATCCAATGCAGAAAAGTCTTGAA
AATTTTCTAAGTAACTATGTCTTGAAAAGTATTTACTGAGATAAATCTTACAAAGGAGTAGGCTAGGAAAGCCTTCTATGGGAAGAAAGACCCTATCTCT
TCAGTGATCATAATAGATCATCAATGAACTTACACATACTAGCAGCATTATCATGGGAAAGCCTTTGCCCAGAAATAAAACCTTAACAGTTGGCAGATAT
ATTTCATACTGGAGAACAAGTTTCAGATGGCAGTGAATACACGAGGATTTCAGTGATACATGCTGCCTCATCATCATTACTTCATACAGAAATAAAACTT
ATATGAAGAGTAACTTTAAAAAGGATCAGGAAATTCATGAAGTAAAAAAGTCTCATGAAAATGATACATAATGCCGGGCATGGTGGCTTGCACCTGTAAT
CCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGTGAAGCCCCCCTCTCTACTAAAAATAC
AAAATTAGCCGAGCATGGTGGCTCAYGCTTGTAATCCCAGCTACTCTGGAGGCTAARCTGGAGAATCACTTGAACCTGGGAGGCAGAGGTTTCAGTGAGC
CAAGATTGCGCCATTGCATTCCAGCCTGGGCAACAAGAGCGAAACTCTGCCTCAAAAAAAAAAAAAAAAAACCATATTTGAGGACTGTCACAAATCTAAA
CTCATGATACACTTGATATCTATTCTGTGACAGCATACCTTGCATCATATTATCAATGATTCCATAATTGTAAAGCGGGCTGTTCTTATCACTGATTAAA
TTTTAATCCTATATATAACACAGGTGTTTTCTGTGCCAATCTGGTGTTATTTATTAGTTCTTACATATTATAGGCCCCAAATTTATTTTTTTCAATTTAC
TGATAAATGTAATTCAGTATATTTGGATGTGTTTATCCMAGTTACTAGGTACCATTATGTAGTTTACAAAAATGCCTTAAATGTTATTTTTCTAAAATTT
GTTTTGAAATAATTCTAGATTCACAAGAGATTACAAAATATACAAAAGTTTCCTGAGTATTCTTTGCTTAGCATCATCAATGTTATCTTACATAACCATA
ATAATAAAAACCACGGAGTTCTGCTCTTGTTGCCCAGGTTGGAGTGTAATAGCACGATCTTGGCTCACTGCAACCCCGCCTCCCAGGTTCAAGAGATTTT
CCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCACCCACGACCACGCTCGACTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTGGCC
AGGCTGGCCTTGAACTCTCGACCCCGGGCGGTCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCTGGCCTCCTCTTGC
TACCTCTTTATACTCACACTGTCCTCCCAATATGACCCATGGTAGCCACTGATCCCATTACCCTAATTTTGTTATTTCAAGAATGCTATTAAAATGGAAT
CGTAAGGTACGCAAGCTTTGAGATAGGGCTTTGTTCACTCAGCAAATTACCCTTAAGATCTATCCAAGTTGTTAGGTGTCTAAATAGTTTTAATTTTTGT
TACTGAGTTAGTATTCTTTTAAATGGATGCACCAGGGTTTGTGTATCCATTCACTGTTGATGGACATTTGGGTTGTTTCCAGTGTTTTGCTGTTATAAAT
AAAGATGCTGTGACTATTTGTGTACCCGATATTGTGCGAACGTTAAGTTTTTATATATTTGGGATAGACACTGGGGGCATGACTGCTGGCGAATATGGTA
AATGTGTTTAACTTTATAAGAAATGGCCAAACTCTTTCCCAGAGTGGCTGTACTAGTTTACATTCCCACCACCAATGTGTAAGCATTCCATGCCCTTTCT
AGCTCTTGGCATTGCCAGTGTGCTTTAGCTTTCCTATTAGGTGTGTGGTGGTATATGATCATGGCCTCAACTTACACACCCCTAACACAAAATGATATTA
AGCATCTCTACATCCACTGAGAACCATATCAAGTAAAATTGTAACTTTTGCTTCCAACCAGCAAACCCAATGTTTAAAACTCAAAAGAATATTATATTTT
ATAATATATTTACCCTTTCTGTTCCTTTTTCTTCATTCCTGATGTAATATTTCCTTTAGTTATTTCCTTTTTGTGCGAACTTCCTTAATCATTTCTCTTT
GAGCAGGCCTGGTGGCAAAAAATTATTAGTTTCCCTAGAAACAGGGTTCCTGTTTTCTCTATCCAGAGTTATTTCCCTTGATCTAATGAGATTTAATCCA
GTTTATAAATGGTGAGTTCTCTTTATAAAAGTAATAGACATTTGCCATATAGTATTGTGGCAGAATTCAATCCCTGACTCCATATTGAGTAATTTACTTC
TTTGAAAATATTTTTTGAGCTTCTACACCATGGCAGGCATGTTGTAGGCAATGGAGACACATCAATGAACAAAACAGGCAAAGTGCTGGCTTTGATATGA
CATACAGTCTGGTGAAGGAGACTGAGTAAGATAAATACAAAATCGAATTCAGTTAAGTGCTAGGAAGAAATATAAAGCCTGGTAAGTTCATAGATTGTAA
CCTGAGTTATTTTAGGAAGAGTTTTCAGGATAGGCTTTTCTGTGCAGATATAATTTGAACCAAAGCCTAAATATACTGTGGGGACACAGCCATCATATTT
TTAAGTCCAGAACACTATAGAACTTTCTAAGTGTTTTCTTTGGGGTTCCTGCCTCAGCATTCTCTGAGAAGCTTGTAAAAGAAGGCAAATTCTTGAGTCA
CTCCCCAGACATTCCAAGCTAGAATTTCTGGGGATGGGGTTCGGACTCTGCATTTATAAAAAGAGCCTTCTTAAATTTGAACATCTCTGCCCTAAATTGT
GGATTGGTGCTCCCATCACCATTCCCACACTGTAACAGGATGGATTCAGGGCAGATTGTCTCCAGCAATGAATCAGACAAAAGTGCTCCACCAACCAGGC
CCTTGAATCACCTTCCTTGTCCCGTGAATCAGCACAGCCTGCCACGGCAAAGTTKTATCAGCCCACTCCTGGAAATGATCAGTGAAGGTCCCATCATGGG
CTGCTCATAGTCCTGTGGACCAGGTGCTAAACTTACCTACCAGAGATTAACATTCCAGATGAACGGGGCTGAAATTTAATCCTGGATGGAATATGTTATA
ACACTCAAGAAATACGAACATGAAATTCTTATTCTCTAGAAATTACAAAACGTAAGTAAAATGAAGAAATTTTAAGTCACCATAATTGTACGGAACAGTC
AAATATTRTTAGTATATTCTCCAGAATTTTTCAAATGCATGAGCATATTTATTTTCTGAAAGAAAACAGCCTATTTTGCATTTATCATGCCATGAACTTA
TTATACATCATCATACCTATTTTCTAAGATCAACATGTTTTATAATATATTCATGATTATGGTACAAAGATAGTAAAATTAAGTATAAATTGGGAATATT
TTTCAAGTAAAAACATGGCATTCTCTACCTATGAACACAAACAATATTAATTCAAACTAAATGTCTTGTTTAACCAATCACAATTTTCCAAAAGATGTTT
ATGATTTCTTCCAATAACAAGACCATAAAATATATACTATCCTGCAGATCATTTTTTTGTCCTCTGACAAAGTTTTCTTTTTTATAAAACAATTGTAGCA
TATTCTTTTAAATTGATATATACTCTTACAGTTCAGCAGATGTTCCATAATTTACCAAAGTATTCATCTCTCATTGTAATTCCYTTTTTTTGTAAATTAC
AAAAGTTGTGGTTAATATTAAGACAGATTTGCCTAGATAGCTTTTAGAATTGCTGTGTCAAAGAAAACGAAAAAATTAAATTGGCTCTAGGTTGCCTTCC
AAAAATACAATATTTACTTAAATCTTCTACAGTTACAACGCCAACATCTGCAAAAATAGAACTAATATTTTTTAAGTGTGACTTTTTAAAAAATCTGGAA
ACATTGCAAAGTAGGATGATCGCATTCTAATAATTTCATATTCTTAAGTGCCCCACTGTCATCTTCCTTTACTTCTGGAAGGAAACATRTAGATATTAAC
ACAGTTGCACCTTCACCTCCTCATCCCCTTCCCCACTGGCAGTGGTTTTAATAGCAAGCCCCATGTGGGTATTAGCATTTAATGGAGCATCACTCCTGTT
CTCGGCTTCGTCCATTCAGTCAGAGTCTAATCTAACCCACAAAAGCCTTACCCAGCCCAGAACCCCCGCCCTATCCCCAAATCTAACACTTTCAGTGACC
ACTGGTTTTGGCAACTCTGTGACCGCTTCCTGGCCAGCACCGTGACTTCTTCAAACCTTGTTTATTTTTCCAAATTGTCCTGGATATGAGCATCTTCTCT
GCCGTACGGCTGCTGCCTTCCTCTAAGATGGCCGTGCCCATGGTGCTCCAGCTAAGGCTCCACTCTCAGCTATAATGGGCACAAAGGGCGCCGCCATCTT
TTTTCCACAGCAGGCTGAATAGAATGCCACTGCGCCGTGTTGGCCTTGGCTGGGCACCCGACTCTTGAGTGTCCCTTGCAACGAAGAGAGAAAGGCACTG
AGGTGACTAAGAGTGATTCCCACAGCCATTATGGCCGCTCCTGTCAGAAACGCTGCGATGGGCGCARCCCTGTGACCTCATAGAGCGGCGCCCGCAGTCT
GAACTCGCGATYCCGGGCAGGCTCCGTGGTCCTCGCCTCGCTTCACGGTCTTTACCGCTCAGCTTCCCGGAGTCCGCGCAGGAGCGCGTCTGAATAGGAA
GCGTTTTCGGACGTGGATGCGGCGTTTTGTCGCTGCCAGTGGTGTCTGGAGAGGTTCGGGCTCGGGTGAGTCGAGTTCTGGGCATGGACTCGCGGCCTGT
GGGTCTGTGTACCGATGGTGCGTGGAGCGTCCTGATTGGGGCTGTATTTGAACGCAGTCGCTGAGGAAGCGGGGCGTTAATGACGGGTCCTTTGGCTGTA
GGGATGAAGAGTCTGAGGAAATCAGCGACGAGTCCGACTCTGTCTGGGTCTGGGGCCCTTGTGAGTCACCCTTTACGGGTGTTGGGCTGGGGGACGGTCA
GGTCTTTCCCTTCCCATGAGGCCCTATCTCAGGCTATCACATGGGATATTATCTTTCCTGAAGAATATAACATGTGCTCTTGAAAAAAATGTTTATTTTA
CTGCTGTTGAGTGCAGTGTTAAATGTTCGTTAAGTCTAGTTGGTTGATAATGTTGTTCAAGTTTTCGGTATCCTTGCTGAGTTTCTATTTGTTTTCTTTA
TTATTGCAAGTAGGGTAATGTAGTCTTCAATTATTATTGTTGAATTGTCTAATCCTCTCTCATTCTGTTTTGCTTCATACGTTTTTAAATTATCATATTC
TTATATATACACCCTTATATTATTATTGCCAGCCATTGTAACCATTGTTGCCACTCACCTAGGCCTTGGTGTCCAGAGTTTTATTGGATATCAGTTAACA
CACACACACACAATTGACTGCCTATGAGGCTGACTTCAATCTCCAGCTCCTCCAGATATCAAACTAATACCACGTGGTCCAAGGTCTCCCACAGTAAATC
ACATTATTAGGATAGACAATTTGGCATGGCTTAAATTGCCCTGATAACCAAAGACAGTTTTATCAAGCAGCGTATTCCAAAGGCTTAGAGTTTGCCTCAT
AGGAACTGTGGGCAAAGGACAAAGCTCTCTTGGGTAAAGTTACTCCTTTAGCGCATAATGTGAAATGAGACAGTTCTTGTGATTTGCTTAGTACATTGGT
CTTGACACGAGGTATGTATACCCAAAGAGCTTACAGAGACTTTCGAACCAGTACATGGGCACACGTGGTTTTTAAAGACATTCTTGGAGCCTTCCATGTG
TTCTCTTTCCTAAAATTGATCTGTCTGAGAATTCACCTTGAAGGGGGCCACCCCTCCACAACCTGTGGGTGTTTCTTGTCAGGTGGGATGAGAGACTGAG
AAAAGAAATAAGAGACAAAGTATAGAGAAAGAAAAGTGGGCCCAGGAGACCAGCACTCAGCATACGGAGGACCCACGCTGGCACTGGTCTCTGAGTTCCC
TCAGTATTTATTGATCACTATCTCTACCACCTCGGAGAGGGGGATGTGGCAGGACAATAAGGTAATAGTGGGGAGAGGGTCAGCAGGAAAACATGTGAAC
AAAGGTCTCTGTGTCATAAATAAGTTTAAGGAAACGTGCTGTGCCTTGATGTGCACGCACACAAACATTTCGGTACAATAAAGAGCAGTATTGCCACCAG
CATGTCTCACCTCCAGCCCTAAGGCGGTTTTCTCCTATCTCAGTAAATAGAACAGACAATGGGGTTTTACACGGAGACATTCCATTCCCAGGGACGAGGA
GGAGACAGATGCCTTTCTCTTATCTCAACCGCAAAGAGGCCTTCCTCTTTTACTGATCCTCCTCAGCAGAGACCCTTTACAGGTGTCGGGGTAGGGGACG
GTCAGGTCTTTCCCTTCCCACGAGGCCATATCTCAGGCTATCATATGGGGAGAAACCTTGGACAATACCTGGTTTTCCTAGGCAGAGGTCCCCGCGGCCT
TCCGCAGTGTATTGTGTCTCTGGGTAGTTGAGATTAGAGAATGGTGATGACTTTTACCAAGCATACTGCCTTCAAGCACGTTTTTAACAAAGCACATCCT
GCACAGCCCTAAATCCATTAAACCTTGAGTCAACACAGCACATGTCTCTGCTAGCATAGGGTTGGAGCTAGGGTTACAGATTAACAGCATCTCAAGGCAG
AAGAATTTCTCTTAGTACAGAACAAAATGGAGCCTCTTATGTCTACTTCTTTCTGCATAGACACAGTAACAGTCTGATCTCTCTTTCTTTTCCCCAGACA
CCTGCCTCTGAGGCATTGTGCTGTGCTGGTTCTGCTTTCCCACCTTCTCTATAATAGTCATGCCACTTCTACTTCACAAAAGAAAGGCATAGATTTCACA
CATTTAGAACCATGAAAACCTCTGAGGCAGCAAATAAAGGAACTGTTAGAAATATTAGGGTCTTTTATTTAAGGTAAGTGCAGAGCAGCAGTGACAATGT
CTGGACCCAGGGTTAATGTACACTGAAAGCCATTTTGTTTATCAGTCCTCAGGTCCTGGCTCCCAGAAGCAAAATAACTCAAGTGAAGCAATGAAGGAAG
AAGAAGGAGGTTGCTGGCCTTGGATATCATAATTTCTGGGGACAACTTTAAGTGGACACTAATATTTCTGACTAGGAAAACTTCARAAACTTCATGGCAA
RTGCAGAAGAGACAAAGACGTATAGTCCATGTTATCCACTATTTTCTGAKCACAGAAGAAAATGATCAAGACCCAGGTGATATTTTCCCTTTGATTTTTT
GATAGATTTATGGTGRCCTGAAGAAGTCAGTTGAACTTAAGGAAGTATATACTGGGATAATTGTGTTCTAGGGAGAAATTAACTTACATTGCTTTTGGGA
GTAGAGGTGGGGGTTCATTCTGCCTTAAGAAGTAGATTCTGGATCGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATGGTGAAACCCCGTCTCT
ACAAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACACCTGTAATCCCAGCTACTCGGGAGGCTAAGGTGGGAGAAGAATTGCTAGAGCTCAGGAGGA
CGAGGCTACAGTGAGCCATGTTTGCACCACCGCACTCCAACCTGGGTGACAAAGTAAGACCCTGTCTCAAAAAGAAGGAAAAAAAAGTAGACTCAATATG
AAAGAATCCATGCTTTGTTGGTAGTTCAACTTTTGACCATTACAATGATACATGAATCACCCACCACTCAAGAAGGAACTATGGTTGTCATTTTRATGTA
CATACTCCAGACCATTTTTGGAATATTGGCATTCTTTGCATGCTGGTGCCTGCCAACCAACTTTTTTAAAATTACTAATTTATTTATTTATTTATTTTGA
GACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAGTCTTGGCTCACTGCAAGCTCTGCCTCCCAGGTTCACGCCATTCTCTTGCCTCAGC
CTCCCAAGTAGTTGGCAGGAGACAGATGCCTTCCTCTTATCTCAACTGCAAAAAGGCCTTCCTCTTTTTCTAATCCTCCTCAGCACAGACCCTTTACGGG
TATCCCCCGGTGTCAYGCTGGGGGACGGTCAGGTCTTTCCCTTCCCACGAGGCCATATCTCAGGCTATCACTTGGGAAGAAACCTTGGACAATACCTGGC
TTTCCTAGGCAGAGGCCCCTGTGGCCTTCTGCAGTGTGTTGTGTCCCTGGGTACTTGAGATTAGAGAATGGTGATGACTTTTAACAAGCATACTGCCTTC
AAGTGCTTTTTTAACAAAGGACATTCTGCATAGCCCTAAATCCATTAAACCTTGAGTCAACACAGCACATATTTCTGCGAGCACAGGGTTAGGGCTACGG
TTACAGATTAACAGCATCTCAAGGCAGAAGAATTTCTCTTAGTACAGAACAAAATGAAGTCTCTTACGTCTACTTCTTTCTACATAGACACAGTAACAGT
CKGATCTCTCTTTCTTTTCCCCACATCTGACACCAGATATGTGGGGTTTTTCCCACACATCAATTCAATTCTCCATACCTATTAGGTATTCTAAAATTTA
CTCAATTCTGACACTAATTGTCTAGACTTAGGACAGACTCCACAGGTTGAGGGCTCAGTCCCACAATACTGCCCCCCTGAAAAGTGCTGGGTCCCCAGGT
TACTCACAAGTTCTTTTGGACTTGGCTACCAATTGGATGTCCCCACAACCCCCTTCTCAGATCTATTCATCTGCTAGAAGGCTCAAAAAATGCAGGAAGA
CAGTTTACTTACTAGATTACTGGCTTATTATGAAAGGGTACAACTCAGGAATGGCCAGTTGGAAAAGATGCATAGGTCAGGTAATGGGGAAGGGCCTCAG
GGCTTCCATGCCCTTTCTGGGTATTCTACCCTCCCAGGACTACCCTATGTTCAGCAGCCTGGAAGCTCTCAACCTCATCCTTTTATTGTTTTGGTGGGTT
CATTACATAGGCATAATTTATTAATTCATTAACTATTGGTGGTAAGCTCAATTTCCATCACCTCTCCCTTCCACAGAGGTCAGGGGTTGGTTGGAGAGGT
GAGACTGAAAGTTCCAACTGTCTGTCACAAGGTTGGTTCCCCTGGCAACCAGCTCCCTTCCTGAGGCCATGGAAGAGCCCCAGGCACCAGTCATCTCAAT
AGCATATAAAAGACACTTCAGCAATTCCAAAGATTTGGAGGGCAGAGACCAAATGTATATTTATTTTTCACAGTCTGGTATATAGAAAGTGACACGGATA
AGTATATTTGGTCATTGTTCCCAGTTCATGGCACAGTATGCTTAAAACCCTTGGAATTTCTTCCTGAGAAATAGGTGTGTCTTTTGTTATTCATAAGGAA
ACCCTGTGATACACCTGAATTTCTGCTCATGAGGTGACTACTCATGAGACCTCTAGATAGTGTCAGGATGAGACTGGTCCCCAGAAAGACCAAGCAATTA
GAGGATTGGAACTGAAAGGAGGAATGGACTGGAGAGTAAGTTCTATAAAAACTYTTGAACAGGCTGGGCATGGGGGCTCGCGCCTGTAATCCCGAGCGGA
TCATGAGGTCAAGAGATCGAGACCATCCTGGCCTACATGGTGAAAGCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACGTGCCTATA
GTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCCCTTGAACCCGGGAGGTGGAGGTTGCAGTGAACTGAGATCGTGCCACTGCACTCCAGCCTGGGTG
ACAGAGCGATACTCCATCTCAAAAAAAAAAAAATTTTATTTATTATTATTATTGTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGTGAGTTTTTTT
CTTTTTTTTTTTTTCTTTTTTTTTTTTTGAGATGGCGTCTCACTCTGATGCCCAGGCTGGCGGGCACTGGCATGATCTTGGCTCACTGCAAGCTCCGCCT
CCGGATTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCCACCACCACACCCGGCTAATTTTTTGTACTCTTGAACAAGCTT
CAGGTTTGTGAACATACCAGGGTGCTGGGAGGATGCCACACGCAGAGAGGAATGGAAGCTTGGCACACCCTCTTCCATATCTTGCCCTATGCATTTCTTC
AGTCTGGCTGTTCCTCAGTTATATCCTCTATTATTAACTAGGTACCATAGGTAAAGTGTTTCCTGAGTTCTATGAGCTGTTCTAGTAAATTATCAAACCT
GAGGAGGGGTTTGTGGGAGCCTCTAATTTATAGCCAGTTAGTCAGAAATACTGGTAGCCCAGGACTTGTGACTGGCATCTTAAGAGGAGGCAGTCTTTTT
TTTTTTTTTTTAAATTATATATTCTCCAATTTAAAAATTTTAATTGAAAAGTAAACTTTAATGTCGAAAATGCAAACTTGGGGAGGGCAGAAAGATCACA
CACAAGGCTGTCACTTCACACTTGGAGGGTCGCACAGCAGCCGCGCAAAGGCGCTCCTCACTTCCCAGACGTTGCGGGGGCCAGGCAGAGGCACTCCTCA
CTTCCCAGATGGCGGCGGTGGTGTGGGGCGGCCGGGCAGAGGTGCTCCTCACTTCCCAGATGGTGGGCGGCTAGGCAGAGGCGCTTCTCACTTCCCAGAC
AGTGGGGCGGCCGGGCAGAGGAACTCAAGAGGAGGCAGTCTTGTAGGATTGAACCCTTAAATCTGTGGATTCTGACAAAGATAGTGTCAGAATTGAATTG
AATTGTTGGACATCTAGTTTATGTTTAGATAATTGGAGAATTGGTTGTTAGTGTTGGAAAACACTGCACAAAAACATTCAGTGCTGCAAATCTTGCCAAC
ACTTACTATGTTATCAAATTGTGTATTTTCCATGATCTAGATGATCCAGTATTATTTTGCCTTATTTTGCATTTTCCCATTCACCAGTGAGGTTCAGATC
CTTCTCATCTCTTTGTTGTTTCTTTGGATTATTTATTCTGTCATAAAGTGTCTTTAGTCTTTGTTCATTTAATTTTTTTGTGGTCTTACTGATTTATAAT
TGTTTATCTTGACTGGATATTGATTCTTTTATATGTTGCAAATATTTTTCTAGAGTCTTACTTCTCTTTTAGCTTGTTCAAAATATTTTTTCCCATGCAG
AAGTCATTTTTTTTAAAGCTTTTTACTTATATCATGAACATGTTTTCATTTATTCCTTTTTTTTTTTTCTTTATTTGAGACAGGGACTCGCCCTCTTCCC
CAGGATGGAGTGCAGTAGCACAATTAYGGCTCACTGCAGCCTCAACCACCATCTGCCTGCCTTAGCCTCCTGAATAGCTGAGACCACAGGCATCCACTAC
CACACCCAGCTAATTTTTTGTTCTTTGTAGAGAATAGAGACAGAGTCTCACTATGTTGCTCAGGTTGGTCTCAAACTCCTGGGCTCAAACTCTCCTCTGG
AAGTACTGTAATTACAGATGTGTGCCCCACTCCTGGCCTCATAAGTTCTTCTTAAGTTTACATCTTATATTCATTGTCTATTAATACCTAAGAAATTACT
CCAAAAGGTAGTGACTTGAAACAACACTTAAAAAAAAAAATCTCACACTTTCTGTGGCTCAGGAATAAGGGCATGGCTTACCTGGCTACTTTGATTCACA
GTCTCTCATGGGGGTTGTCGTCAAGGTGTTAGCTGGGTTGGAATCTGATCTGAAGGCTGAAATGGGGAAAGATGCAGTTCTAAGCTCACTTATGTGGTTG
TTGGGAGGATTCATTTCCAGAATGAGAAATGAGGTAGTTTAGTTGAGGTCCTCAGTTTCTACCTGTCTGTTTGTCAAAGCCCACTTTTAGTTTTTTGTCA
CATGCACCTCCCCTATGTGCCAAATTGTTTAATCAAAGCTAGAAAATGACAGATTCTGCTAGCAAGATGGAAGTCATATAGAGTGTAATCTTAAAGTGGC
ATCTTGTCACTTTTGCTGTATTCTTTTCTTTAGAAACAAGCTTTTAGGCCACTTCATACTCAGGAGGATGGTACTGCACAGGGGCAGGAACACCTAGAGT
GTAATAAAGAATTTGGCTAGCCTTTGTTTTCGTTCCTGGGAGGTAACCTCTAAACCCTTGTAATTACCCAAGTTATGAGTGTCTCTGTCATTCATGGTGG
GCCACTCATATTTGATAGTTTATATCTATATGTATAGTGGTGACTCATAGTAGATCCCTAGATAATTTATGGCAATGACATGACTCTGGATAGGGGCTGC
CCATGCCAAAAAGCGCACTAAGTGATTAGAGAGTTGTGGCTTTGAGCCATGTAATACCAGTCAGGAAGGGGAGGGAACTGGAGACTGAACTCAGCTACAT
GGGCARTGCTTCAATAAACTGTGCCTACATCATGAAGTCTCAATAAAATCTCTGGACATCAAAGTTTAGGTGCGCCTCGCTGGCTGGCAAGTACTCTTGA
ATATTGTTACACAATGTAGTCAGGAAGATGTAATGCCACCAAGGATTCCATGAGGAGAGGACAGTCAGCAGCTTTGTGTTTGGAACCTTCCCAGACCTCA
CCCTGTGCATATTTTCCTTTAGCTGATTCTGATTTGTGTCATTTTGCAATAGTAAAGTGCTAATTGTAAACACAGCACTTTCTTGGGTTCTCTGAGTTGT
TCTATCAAGTTATTAAACCTGAGGGAGTCATGGTAGCTCCACACATTTGTAGCCAGCTCGCTGGAGTTGAGGGTGGTCTGTGTAGCCTTAAGCTTGCAGC
TTGTGTCTGAAGTGAGGGCAGTCTTGTGGAGGATTGTGCTTTTAACCTGGGAAGTTTGGCCTAACCCAGGTAGTTGATGTCAGAAGTCACTGCAGCTAGA
GAATGAGATTATCAGAGGACACCTTAGAGTTGGCCTGCAAGATTTCCATCCAGTAATAAATTCTTTTGGACTGTGGAGTGAGGTAGAAATTTAACTTTAC
ACTTACCCAGTCGATAGACATCTCACATAAAGATTTTGGAATGAGATAAACTGACCAGGCTTGAGCACTTGCGCACTCTCATGAGTCTACTTTCTTGACT
ATGCAGCATCCCACACAGTAATATAGCATAGATTCTCTTATCAGTATTTCCTTGGATCTTAGTTACCTCTACTTCACACTCTGCAGTTCTCTGAAAAGTT
ATTGTGAAGCAGGAGAATGACAGTTTAGTTGACAAACAGGTCCTTGATATCATGGTTGTAAGACAGCAAGTCATCTGCTAGCCATGTGTTTTAATCCCAA
ATGGCCTTCCAAAATTGGCCTTTTTTGTTGCAAGAATTAGGACTTTGAAGATTGTATTCCATACGTTTCTGGATTCTATTATTGAAATGTCAGCCATCAG
TATATTTTGTTATTTCTTTGTAGGTAATCTGTCTTTTGTCTCTTGATGATTCTATAGTTTTCCCTTTGCATTTGATGTATGGTAGTTTCAGTCTGATGTG
TCACACCAGTTGTGACTTCCTGCTCTGAACTTGTTGGGATTTCTGAATTTGAGATTTGAGGTATTTAGTTCTGAAATATTTTAGGTTTTGGATATTTATT
AATAGATATTGCTTCTCTATTACACTATTTTCCCTTTTAGAAACCATAAGTGGGCATACACTAGGTCTTGCAACTCTGTATTTCATATTTATTAACTTCT
TTGTTATGATTTATCTTTTTTCTCTGTACTGCATTTTCTGCCATTTCCACTTATATATTCCAATTCACCAATAATCTTCAATGTATCTAATATGCTGTTA
ATCTGTCCATTAATACACATATGTATATATGTTTTTCTGTTAGAAGTTTTTTTTTGCTGGGCGCAGTGGCACACACCTGTAATCCCAGCACTTTGGAAGG
CCGAGGCAGGAGGATCTCTTGAGGCCAGGACTTCAAGACCAGCCTGGTCAACATAACAAGACCCTGTCACTACAAAAATTGGTAGTAGCATCCACCTGTA
GTCCTAGTTACTTGAGAGGCTGAGGTGGGAAGGTCGCTTGAGCTTAGGAGTTCAAGGTTGCATTGAGCTATTACTGTGACACTGCACTCCATTTGGGGCT
ACAGAGCAAGACCATCTCTCTTTAAAAATTAAAAAATAAATAAAAATCTAATCAACTTTAGGGGCCTTTTGTGCTTTATACAGATATAGTTTCATCTTTT
CTCTTACATTTATTTAAAAGCACTATTTTATGAATTCAAGATGTGAAGTCTATTCATGACAGATCCTTATATTGGTTGTGAAGTCATTGGTAATGTAGGG
ATGTTTTATTTGTCCTGATGTCATTTGCCTAYGTTTAATATTTAGAAATAGGCGYTAAAATGTATAGATAGAGGATTTTGCTCCTACCAAAGTATATTTG
AGAAAGGAATATAGATGCAGGCTGTATTGTGAAAATTTTTAAAAAATTATCTTATACTTCTATATTAACAATAGGAGTTTATATCATATTGAATAGGACT
TTGTAATTACAGGAATCACTGACCCTGGAGGATGTGGCTGTGGAATTCAGCTGGGAGGAGTGGCAGCTCCTGGACACTGCTCAGAAGAACCTGTACCGGG
ATGTGATGGTGGAGAACTATAACCACCTAGTATCACTGGGTAAGAATAGTTTCCCTGTGTCACCTAGAGGTGCCTACAATGCCCAGACACCGTCCTATGC
TCACCTAATCAAAGCTTTACAGTCACTGTGGTGTTTGGAAGAGTTACATTTTCAGTCCCCTCTCTGACCCCAAAGTGGTATAATCTCTTCTAAGACAGAA
TGCTTACTTTGAAATTGTTTTCTTCATCGAATGTATTATTTTTCCATCTTGACATACTGGACTCCAATTCAGGATGTTTGTGTTTGTCTTTCCTCATGAA
CAGGGTATCAAACTAGCAAACCAGATGTACTCTCCAAGTTGGCACATGGACAAGAACCATGGAYAACAGATGCTAAAATTCAGAATAAAAATTGTCCAGG
TAAGTGAGAACCAGCAAGGACAGTGGCTATAGGAGTCTTATTGTAGTCATTAAGGAAAGGTGTCACAKATATGAAGTATCTGAGGGTACCTAAGCAGCTC
CACTATATATTCATCTCCCCATCTGATAACTTTTTTAATGCTGTTATAGCTTTAAAGACTTTTTGTCTTTTCTTGGATCTGATTTCTTGGATATATTTCA
GCTTATATCTTCATAATTTCCTTTTATACTGGGATCGTAGAGTTGACAATAAAGAGCCAGCCCCCAGCAAATCATCTCATAAGCTAAGATTTTTTTTTTT
TTTTTTTAGACTGAGTCTCGCTCTATCACCCAGGCTGGAGTGCAATGGCCCAATCTCGGCTTGCTGCAACCTCGTCCTCCTGGGATCAAGTGATTCTCCT
GCCTCAGCCTCCTGAATAGCTGGGATTACAGGCATGTGCCACCACGCCCGGCTAATTTTGTAATTTTAGTAGAGACGGGGTTTCACCACATTGGTCAGGC
TGGTCTTGAACTCCTGACCTCGTGATCTGCCCGCCTCAGCCTCCCCAAGTGCTGGGATTGCAGGCATGAGCCACCGTGCCCGGCCTCATAAGCATTTTTA
TCTCATACAATTCTCATGGAAGAATTTGTTACTCTGTTCTTTCTTAGGAATCGGGAAAGTTGACAGTCATCTGCAAGAGCACTCTCCAAACCAAAGACTT
CTGAAGAGCGTGCAGCAATGCAATGGACAGAATACACTTAGAAATATTGTACATCTCAGCAAGACACATTTTCCTATAGTGCAAAATCATGATACATTTG
ACTTGTACAGAAAAAATTTGAAATCAAGTTTAAGTTTAATCAACCAGAAGAGAAGACATGGAATAAATAACCCTGTTGAGTTTATTGRAGGTGAGAAAAC
ACTTCTACATGGTAAGCATGAACGTACGCATACTAAAACTAGATTTTCTGAAAATGCAAAATGTATCCATACTAAATTCCAAGTCTTCAAGCATCAGAGG
ACTCAGAAAATTGAGAAACCCCATGCATGCATTGAATGTGAGCAAACCTTCCTTAGGAAGTCTCAGCTCATTTACCRTGAGAACATTTGTATACAAGAGA
ATCCTGGAAGTGGTCAATGTGAGAAATTATCCAGAAGTGTCCTGTTCACTAAGCATCTGAAAACTAATACAACAGACAAAATCTGTATACCCAATGAATA
TAGAAAAGGCTCTACTGTGAAGAGTAGTCTCATTACACATCAACAAACCCATACAGAAGAGAAATCCTATATGTGCAGTGAGTGTGGAAAGGGCTTTACA
ATGAAGCGCTATCTAATTGCTCATCAGCGAACTCATAGTGGAGAGAAACCTTATGTGTGCAAAGAATGTGGAAAAGGTTTCACTGTGAAGAGCAATCTCA
TTGTACATCAGCGAACTCATACAGGGGAGAAACCCTATATATGCAGTGAATGTGGAAAAGGCTTCACCATGAAGCGCTATCTTGTTGTACATCAGCGAAC
TCATACTGGAGAGAAACCCTATATGTGCAGTGAATGTGGAAAAGGCTTTACCGTGAAGAGCAATCTCATTGTACATCAGCGCTCCCACACAGGAGAAAAA
TCTTACATATGCAGCGAATGTGGAAAAGGCTTCACTGTCAAACGCACTCTCRTTATACATCAGCGAACTCATACAGGAGAGAAATCTTACATATGCAATG
AATGTGGTAAAGGCTTCACCACAAAGCGCACTCTTATTATACATCAGCGAACTCATACAGGAGAAAAACCCTATGAATGCAATGAATGTGGTAAAGCCTT
CAGCCAGAAAATATGCCTCATACAACATGAGAGATGTCATACAGGAAAGACTCCCTTTGTATGTACCGAGTGCGGAAAATCCTATTCACACAAATATGGC
CTCATTACCCATCAGAGAATTCACACAGGAGAGAAACCTTATGAGTGCAATGAATGTGGAAAAGCCTTCACCACAAAGTCAGTACTCAATGTACATCAAA
GAACGCATACAGGAGAGAGGCCGTATGGATGCAGTGATTGTGAGAAAGCCTTCTCCCACTTATCAAACCTTGTCAAACATAAGAAAATGCACACAAGAGA
AATGGGTAGAATCAGTCAAGTTGAAAACTCCTGTAATGGAGAGTCACAGCTCCTTCCTTATAAGTGAACTCATGCAGAAGAAAACCCTACTAGTGCCGTG
ACTATGGAAATGCCTTTTGTGGCAACTCAGACTTCATTAAACATCAGTGTGTTTCTAGCCAATTGGAACATAAACATGGTGCTGCCTGTTGACAGATGTG
TGTCTGTCCTCAGGAGGTGAAATAATTTGCCCTAGAGATCAATTTGATGAATACAGTAAATAAGGTAGTGCCTTTAGTGGTCTTTTACCTCATATTTTCT
GTCAATGAAAATACGTTGAATAAACTATATTAATGTGGAGATGTTTTGAGCAATAATTTCTGCTCATATGTCTGAAAAGTATACAGAGATAAATTCTGTG
AATACAAAGACTAAGAAAAGTCTTCTGTGGAAAGATAGACTTTATTATCAGGTTTCATCATAGATTTCAACGTAAGTGAGCTTATTGTTGATAGAAACAT
GATGACCATGACAAAGTCTTTACTCAGAAATATGACCTCAGTGAGTGTCAAAGTTTACACTGGAAAATAACTTTAAGGTGACAGTATTGATGGCAGGATT
TCAGCGACGCACTCTGCTTCATCATTTGTCAGGAGATCACATAGAAAGTAAAATTGTTCCGAACATGCTATCAAATAAATGTGGAACACCTTTAGCAAAC
TATCAACAGCTCATGAAGGCATGAAATGTGGTGAAAATGATGAATATTTGAGTGCTTTTTCTTAATAAGTATAACCTTAAACATCAGCTAATACACCTGG
TGTGCATTTTCAGTCAGGATACCTTAATCCTCATTTCTAGTTGCCTTGCCAATGATTCCATAATATACTGTCTCATTACTGTTTATTTTTACTGTTGTGT
AAAATTGTGGTATAATGAGAAATACATTTGGTCTTTGTTCCTGGTTCCTGGCATAGAGCTCCTAAAACGCTTAGAATTTCATGAGTGATAAGAGTTTTTT
GGTTTTGTTTTGTTTTTGCTGTTGTTGTTATTCATAGCACTGCCCTTTTAATTACACCTGATTATACTACTGAAGTGACTTATGGTTGCTCCCCTAGACA
GCCTCAGAATGGGGCTGTTCTCTAGGAAGATCAAGTAACTAGAGGATGGAGACTTTGTGCCCCATTTCTCCCACCTCCTGGAAGGGGAGGGGTGCTGGAG
ATTAGATTAGACAATGAGATTAAGAGAACTCCAAATAGCCCAAGAGGGTGGTGCACCCCCAACTTYATAGGGGTAGAGGCTCCTGAGATTAGGAGAACCC
TTTTTAGGCTTTACTCTATGTACCTCTTCATTTGAGTGTTCATTTGCGTCCTTTATAACCAGTAAAACAAAGTACGCTGTTTTCTTGAGTTTTGTGAGCC
CTGTAGCAAATTATCAAACCTGAGTAGGGCAGTGGGAACTCGGAATTTATCACCATTCAGAACTGCAGGTTGTCCTTGTGAGTGGCATCTGATGTGGGGG
AAGTCTTGGACTGAGCCCCTTAACTTGTGGAGTCTGCACTAATTTAGACTGCACTAACTAACTTGCACTGCACTAACTTGGACTGCACTAACTTGTGGAG
TCTGCACTAACTTGGAGAAGTTAGTGTCAGAATTGAATTRTAGAACACCCAGTTGTTCAGAATTGAATTGTAGAACACCCAATTGGTGTGGGAGAATTAG
AGAATTTATTTGTGTCAGAAAATACTCCAGAACAACCACCCCATATTATGATTAGCTCTTTTCCTTTCTTTGGCTCTGAGCTTAATTGTACATTAAGCAA
ACTTAAGTAGAAAAGAAACTGAATATGTTAAATATATTAAHAACATATTTGGACTTGCTTAACTAAGATTATAGAGATGATCAGTTTATAAAACCACCTT
CAACTTAAATAAATTTGAACTYGAAATTGCAAAAGCAGTCTAGAGGCTTTGCTAGTATCCTTCAACCAATTTCTAGTAAAAATATCCTATATAACCATAA
TTATCAAAACCAGAAAAACAACATTGGTAGGATACTATAAAGTACTAATCTTATTTTGGATTTGACGAATTTTTACATGTTTTTTTCTTTTTTAGTTTGT
ACTCTAAGAAGTTGTATTACATGTACAGATTCGTGTAACCACTGCAACCACATAAAACTAATGAACACAAAGTCCCTCATGCTACCTTTTTATGCTTACA
CTCCATCCAAACCTAACTCTGCCAACCACTTTTCTCCTATCAGTATAATTTCATCATTTCATGAATATGATAAAAATAAAATTGTTTTTGTAAATGGTTT
TTATAAATTTTATATAAATAAGTTATATGAATTTTTATTGATAGAGAGTATGTAAGCTTTTGGCATTTTTGTCACTCAGCAAATTACTCCTAAGGTTTAT
ATGAGTTGATGAATAGTTGTTTTATTATTTTTTTTTACCACCATGTATCTAACCAGATGAAAGTTGTTTATATTTGAGAGTAGTATACATATTTGATGTA
GTAGTTTATCCATTCACCTATGAGATATATTTGCACTGTTTTCCTGGTTTTAAGTGCTATAAATAAAGATGCTGTGAAATCTACATACAGCTTTTGCTTT
TGCTTTTTTTTTTTTAGGATTTACAATCTTAACCTCTTTTTTTTCTTTTTTAAGAGACAGGGTCTCTTGAGAGGCCGAGGCAGGCGGATCACTTGAGGTC
AGAAGTTCAAGACCAGCCTGGCCAACGTGGCGAAACCCTGTGTCTACTAAAAATACACACAAAAAATTAGCTGGGTATGGTGCTGGGCTGTTGGGAGCCR
AAGGCCCATGGGATGTGACCAACTCAGCATTCCACTGGAGGCTATATGATCAAACAGCAAACTTTATCATGAATGCACGATGTGGGCAAACTCATGACTG
CTTCCGCTGCCAGAAGGTTTGCTGAGGGCAATCGCTTCCTGGTGCTGAGCTCCTTGAGGTTATCTACTGGGACATCTAGAGAATGCCATCTTGCAAACCC
TACTCTGGACTGAGTAGCTGACCCCTTCTTCCACCYGCCTTCTCACTRTCTCTTTTGCCTAATAAATATGGAGGGCTGTGTAAAGCTCAGGGCCCTTGTC
CACTAGAGGCAAGGTGTCCCCTGATCCCTTCTTCCAAATATACTCTTTTGTCTCTTTTATTCCCGTTTCCCCCACTTTTTTCAGTCCCCCTAGGTCCTTG
TGGGTTACGTAGTGGCGCCCCAAACAGTGACAGGATCGGGCGCTCTACAGTTGGCGCCTGTAATCCCAATTACTTGTGAGGCTGARGCAGGAATCACTTG
AACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCCTGCCACTGCACTCCAGGCCTGGGCAACGGAATAGGCTCTGTCTGAAAAACAAACAAAAACAACA
AAAAAAAGAGTCTCTGTTGCCTAGGCTGGAGTGCAGTGGTGCGATTATAGCTCACTGCAGCCTCAAACTCCTGGGTTCAAGTGTTCCTCCTGCGTCAGCC
TCCCATGTAGGTGGGACTATGTGTGTGCACCCTCATGCCTGGCTTTTTTTTTTTTTTTTTTTTTTTTTGTAGAGACAGCATGTTTTAGGCCATTCTTGCA
TTGCTATAAATAAATACTTGAGGCTGGATAATTTATAAGAAAAGAGGTTTAATTGGCTTATGATTCTACAGGCTGTACAGGAAGCATAGCACTGGCATCT
GGTCCTGGGGAGGCCTCAGGAAGCTTACAATCATGGTGGAAGGTGAAGAGGGAGCAGGAGTAAGACAGAGTGGAGGGGGTAGGTGCTGCACACTCAAATA
GCTAGATCTTGCTAGTACTCACTCACTATTGCAAGGGCAGCATCAAGCCATGAGGGATCTGCCCCCATGACTGAGACACCTCCCACCAGGCCCCACCTTC
AACATTGGGGATTACATTTCCTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCTCCCAGGCTGGAGTGCAGTGGGACGATCTCGGCTCACTG
CAAGCTCTGCCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTGGCTGGGACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTTTTTTG
TATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCTATCTCCTGGTCTTGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGAGATTA
CAGGTGTGAGCCACCACGCCCGGCTGACATTGGGAATTACATTTCAACATGAGATTTGGACAGGGACAAATATCCAAACTATATCATTCAGCCCCTGGTC
TCCCTCCCCAACAAATCTCATGTCCTCACATTGTAAAATACCATCATGCCTTCCTAAGAGTCCCCAAAGTCTTAACTCATTCCAGCATTAACTCAAAAGT
CCAAAGTCTTATCTGAGACAAGGCAAGTCTCTTCTACCTATGAGCCTGTAAAATAAAAAGTTATTTGCTTCCAAGATACAATGGGGGCATAGACGTTGGG
TAAACATTCCCATTCCAAAAGGGAGAAAGCCACAAGAAAGGGCTATAGGTTCCATGCAAGTTCAAAACCCAGCAGGGTARTCATTAAATCTAGTGCAAGG
CGTGGGTTCCCAAGGCCTTGGGCATCCTCTGCTCATGGGGCTCCCTCAGGCAGACATCATGGTTTGCAGACAGCTGTATCCTTCCCAGGTGGCCCTACAG
AGGAAGGCACACCYGACTTTTCCAATGTCCTGCAGACCCAGCTGTCTCAACTCTTATGGTGATCCAAGAGTGAGGGCCCCTCCCTACTTGGACACCACCC
AAGCTGGCAAGTCCTGCTTGGCTAGGAGCAGGGATAAGCACTTGGATGGCAGATTAGGTGACCCCCACCCACTCATGGCATTATGTTTGTCCACAGAGTT
TAGTAACAATTGGGACTGCTGGGCCGGAGGCTCTAGTGGTTGGATTTTGACTGGGGCTGCATGGTCTAAATAGCTTTTTTCACATATTTGGGCTTCTGCT
GGAATGGATGAGGCCTTTATTTACACAGTCAACAAGAGGCTAGTCTGGGCTTTCTTACAATGTGTTGGAAGATCTCTAAGAGACAAGCAAGSCTTGATGA
GCAAGCTTATTTCTCACCTCCATTTGTGTTACACTTGCTACTGTCCTATTGGACACATTAGTCAGTCACTATGGAGAATACTATCCAAAGATGTGAATAT
AGAGATGCAAGAATAAATTTATGCAATAACCACAAAAGTATTTGTTTCCTTATAATTGTCAGATCAATACCATAAATATCCTTGCACATATTTGTTCTCA
CAAAGAAAAGTTCTATTGAATCAATTCTTAAAATTCATGGCTCAAGGAGAAGGAAAAGTTTAAACTGGGTAATAACAGACTGTACTACAAAAACATTTTA
CGAATTTATATAGAAACACAATCCTATACCTAGAAATAATGTAATGCTTAAGAACTTCGAATTATGACCAGTATGATAATATCTCAATTCATTTAAAGCA
GTATGTAATTGACAACATTATTACCTACCATGCAGAAAAAGAAGACTTAAAGAGGCTTAGCATAACAGAATGCCTTTGTTCCATGGCCTTATAATCTAAA
TATGATTTGTCATTCAATCTTTACAAATCTTAATAAGGGTTAAAACATTTATATTTCACGTTTACTTTGCATTTGTTTGAATATTAGTAAAACTGGTATT
TTTTAAATTGTTTAGGATCATTTACATTAAAAAAAGTGTCCTGTTTATTTCCTTCATGTATTTATAGAAAATTTTAGGGAGCTTTTAAGTTGATCATCTT
TTCCTTATTTTTATTTATTTTTTTTTTTGAGACAAGAGTCTCACTCTGTCTCTCAGGCTGGGGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCC
TCCTGGGTTCAAGCGATTCTCGTGCCTCAGCCTTCCRAGTAAATGGGACTACAGGCCTGAGACACCATGCCCAGCTAATTTTTTTTGTATTTTAGTAGCT
ATGGGGTTTCGCCATGTTGGCCAGGCTGATCTCAAACTCCTGAACTCAGGCAATCCTCCCGCTTTGGCCTCCCAAAGTGTTAGGATTACAGGCATGAGCC
ACCGCGCCCATCTTTTTTCTTATTTCTTTTCAGATCTCTTTATAGGCCGGGTGAAGGGTGAAGTGGCTCACACCTGTAATCCCAGCACTTTTGGAGGATG
AAGTGGGAGGACTGCTTGAGGCCAGTTCAAGACCAGCTGGGCATCATAGTGAGACCCTTGTCTCTACAGAAAATTAAAAAATTAGCCAGGTGTGGTGGTG
CCCACCTGTAGTCCCAGCTATTCAGGAGCCCAGGAGTTCCAAGTTACAGTGAGCTGTGATCTCCCCAGGCACTCCAGACTGGGCAACAGAGTGGACCTTG
CCTCAAAAAGAGACAAAAAAAAAACAAAAAAAAAGAAAAACTCTCATATACCAAGGGTGAGAAKAGCAAATGGAACACGAACTTGACTCTGAAAAATAGT
TTGACAATTTCTCTGTATATTTATATACTGATACCTATATCACACACATAGATTCACACAGGCATTTCCTTTCTCTCATTCTTCTAATATAGGAAGTTTG
GTTGGATTTATATTTACAGTTCAGCATTGCCATGACTTTGCACATACTATTCGCGGTTGGCACACGTAGTATAACGTGATCTCCTTCTTAACCTTTCTTT
CTTTTGTTTTTTTTTTGAGAYGGAGTTTTGCTCCTGTTGCCCAGGCTGGAGTGCAATGACGCCATCTTGGCCCACAGCAACCTCYGCCTCCCGGGTTCAA
GCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCTGGCTAATTTTRTATTTTTASTAGAGACAGGGTTTCTCCAT
GTTGGTCAGGCTGGTCTCGAACTCCCGCTCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTC
TTTCCCAACCTTTTTTTTCTCACTGAAGTGGTCCTGTTCCCTTAATTTCTGGCCACTTCTCCTGAGTCCAGCCCTCATATTTGGCTCCACCTGGGTCCCA
GGCTCTCCCCTCCGCCTTGGGAACTATACTTTCTGGCTTTTACTGGCTTTTCCCCATGCCTTTCACCCAACATAATTTTGGCACGTTCCAACCGTTTTCA
TTACCTAGTCTGTGACTGCTACCCCTGTTCCGTCAGCGTAGCTAACAGCCCTCTTCTGCGTTCAAAAGGCGCTTCAAGCTACTTTGTTAGAAATCTGGCT
TTGGCCGAAGTGTCCCCTCTCGGCCGGTTCTCCTTTTCCCTCACAAGGAACTGTTTCCTAACCTTTGTACAAAGTGTAAACGTCGCGGCCATCTTAGCCT
TCTATTCAGCTGCTGAAAGGGATTTACCTCCACGCCATTTTTGTCTTGTGTAAACTGGAGCCTCTGTATATGGACCCSTATTTATGAAGGGTTGAGGTGC
CAGGAAATGGGACAGTTTCAGTGCTCTTTCATCTTCCCGGCCATCCCCGGTCACCCCCGGTCACCCCCGGTCACCAGCGCCAAAACGCGCCCTTTGCCTT
GTGTACGTCAGATACTCAAAGATGGCGGCCCCCATGGAGCCAAGGCGACGAGGGCGCGGCCATCTTGCATCTGCGCAAACGCTGGGAACGCCTCCGACCC
TGGATAGTCGCCGTCAGGCACTGAGGAGGCCGAGAGATGAGGCCGGAGCCCACCAAGTTCTGGGAAGTAAGTTCAGTCACTGGGTGGTCGCTGTGGTGAC
GGGGGAGGAAATTCTGTCCGTGGCTGGGCGTGTTCGTGGACAGTGGTGATGGACTGGTATCTGTCGGCGCCAGCGTTTGGCGACGCCAGTGGAATTCTTT
CAGGAGCTTAGCGTGGGTCCGATTCCTATCGCAGGGGAACTACAAGAGGTCCGTGATAGGGTGTGTGTGTGTGTGATCGGGGTACCTCTGGGACCAGTCA
CAGGGTCCTCGTGTAGTTTGTGGTTAAAGATCTCTAGAGATCCGCTACTGAGTGCCCAAGTCACATTCTGGTGTCTTTGGTGTTGTCCTTTGGCGGGGCT
CAGTGATTGCGAACTGGAGGGTTTGTTTTGTCAGCGAATCGGTTTATGGTTCAGGTTTTGTTTGGGACTAAATGATTGAGGAACTGTCTTGGGGGTTAAG
GTACGGAGGTTTCTGATYCAGGTTTTGGAATTAATCCCGGTGSCGGTGGTGGTAGCGCCACAGATTCCGATGTGGGCTGCAGCTCTGGAGGCCTGGGAAC
CATGGCAGGTGATGGGTTAGCCCCAGCCCTGGCTGCTGGAACAGAATTGATGCTCATTAGCATTCCCCTTCTGCCCAAGACCCTTCTCCACGACTGGTTT
TTAAATCCCCTTTGGCACCTTCCATCACCCCTTGGTCTTGAATCCTCAGAAATGGAAGTTTTTGGCGAGATCAGTCATCTAGCATACCTAAAAGTAGTAT
GTTTTATATTTAAGATGCGGCTTCTACCCTTTGTCCTGCAAGTTTCCAGCGTATCCTCTTGGATATTTCTTTTCAGGTTCTTTCTGACACAAGTAAGATA
ACATCTCTGCCATGGTAAGCTCGGTTACTCAAAGATAACCTTTGTCAAATTTTCAGAATATTTCAATTTTAGACGTGTATGTTATGTGCTTAATATTCAT
AATTCAGATAAATTATGTAAATGGTACTATTATCTTTTTCGCTTTATATTATGTAATAAACATTTAGAAGTTGTTTTTACTGTTTGAGCCGGTGGTACTA
TAAGTGCATTCACATTAAGTTTATGCGTACATTTGGATAGAAGTGAAATGTTTTAAAATGTTTAGGTATTATTTTTAGGAACATTTTATGATTATCCATT
TATCCATGAATTTTGTTTTTCCTGCCTTTAATCTTCAATCTAGACTATTACTTWTATTGCAGTGTATTGCTTTCTGACTCCCCTTTCCTTATAATCTATA
ACAAAAGATAAATTAATTTTAAATATTTATTTTATATTTGGTCATCTTAATTCTTAGTATTACAATATTTTTCTCTCTGCCTAACATATTATTTTGTGAA
AATTTTTGAACCTATGGAAATATTGAAAGAAGTTTAATGTTAATACCAATATGCCTACCACCTAGCTTTTACCATTAACATTGTATTAGATCAGCTCTAC
TGGTTTTCTAAGTATTCATCCATTCCTCTGTTTGTGAATCATTCCTTATTTGTTGTCGATTTTGGTATATTTCAAAGTAAGTTACAGACATAAGTACCAT
TCCTCTAAATAATTCTGTATATGATTAACTAGAATTCTACTAATAGCCCTTTAATTGCTTTATTTATTTACTTAATAGGGAGGCATCTGATTTACAGATA
ATTTTGGTTCGGTATAAAGTAGAGTAAAAGTGGATTTTGAAGTGAAACAAAAGTGGATTTTCAGCCCTGATTCTGCTTCTTGCTCATTGTGTGATTGGCA
TAACTTGTGTCGCTTTACTTGTTGGCCAAAAGAGGAGTTAAACATCTTTTCCTCACGATTATCTCTGAGGATTATTTTTGGTTTTGTCTTTTGTAAAATT
TGTATTTATATTCATTTTTTTCTCTCCCTTCCTCCCGCCTGGTTTCTCTCTTTTTTCTATTAATGAAAACATTTAAAGCCGTAAACTTATATTACTGAAC
TACCATCAGCAATTTTATTTTAAATGTAGAATGCTAATATTTTTCTGATGTAAACCTGTGTTTTCCCTATGAAAAATCAAGTGAAGAAAGTAAAAATGAC
CTGTCAGATAGCACACTTTTGCCAATATTACCTTTTAAGAAAGTTTTAGGAATGGRGTTTTGGGTTACCAGGTATACCTTTATTGGCAATTTTCAATAGA
ATGTTAAATTRTTCCCAAGAAAGGTTCTGCTCTTAATACTGACTCGATCTGTATATGCTTTAGGAGGATATAGGATTTTTCTATTTAAATTTTGTATCCA
GCCACCTGACTAAAGGAATACAGACGTATTAGGCAAATACTGATAATTTGCCCCTTATATTCAAAAGTCATCTTTGATTATTTTTTTATACTGCATTCTA
CTGAGTGACATTCTAGACCCAAATTCTCAACTCTGCCATTGTAATGTGATAATAGCCTGAGATGARATGTCATGGAATGCATGTAGCTGTGTTCYTATAA
GACTTTATTTACAAAACAGGTGGTCCAGGTCCTGGATACTATATTACTGACTCTTGATTTAGGTGACCATATGGCTTTTCTGCACAAATTCACAGTTGGG
CAACTAGAGCCCATGGACTAAATCTCCCAGCACCTGTTTCTGTTAATAAAGTTTTGTTGGGACCTGGCCACAATCATTTGTCTATTTTTTTGTATGTGGG
CATTTTTGAGCTACAACAGTAGAGTTGAGTAGCTGCCACGGAAACCATAGACCTCTCTTTTAACATGGAAATAATTTTTTAAAAATTAGTTTTATTGCTG
ACACTATTGATTACRAACAACATATAAACTTATTTGTTAATGTTATGGTAATTAGTATTTTATACTCTTCTGCTATGCAGATATCTTAAAATACGTTTTC
ATTTGCCATCCTCCTACTTTATATGTTCTTTTTTGTTGTTGTTGTTTTGAGATAGAATCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCACAATCTTG
GCTCACTGCACCCTCCGCTTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCACGCGCTACCATGCCCAGCTAATTT
TTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGATCTCGAACTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTGTTGGGA
TTACMGGCGTGAGCCACCGCACCCGGCCTATATGTTCTTATGGAATATTTTAACACTATATATATTAAAACTTCCTGATATATTATTATCAGTATTATTT
TTCCAGTCAATACTGATTTAGGCTTTATTAATTACTTACCRTTTTGTTCCTCTTCAGACCTTGCTCCTCTGCTTACACTGGAGTCATCTTTCTTTTGCTT
GAAGAATATCCGTTAGGATTTGCTGTAATATGTAATTCCTCAAGGATATTTTTGCTGAGTATCCTTTATACATTTATACTTAGAATACTTTGCAAGTATC
AAGATGTGGATGGCGGCCGGGTGCAGTGGCTCATGCCTGTAGTCCCAGCACTTTGGGAGGCTGAGATGGGTGGATCASTTGAGCTCAGGAGTTCAAGACC
AGCCTGGCCAACATGGTGAAACCCCGTTTCTACTAAAAGTACAAAAATTAGCAGCGCATGTGGCGTTCACCTGTAATCCCAGCTTCTCAGGCGGCTGAAG
CAGGAGAATCGCTTGAACCCAGGAGATGGAGGTTGCAGTGAACAGAGATCACGCCACTGGAGTCTTACTCACTCCAGCCTGGGCAACAGAGTGAGTGARA
CTCAGTCTCAAAAAAAAAAGAAAAAAAGTCAAAGATGTGGATGGTAATGAATAATTTAAATAAGATAGTGCTTATTATTTGCTTAGGACAGTGTTCTCAG
ATTGCAGTATCCTAGAATGTARAAAGACCTCTGAAAAGGTAGATGGGTACACATGGTTTTAAAGAAAAAATGTGTGCATCTTAACTGTCTATGTGACCTC
TTTCCTAAAACTGGTCTGCCTGAGGATTGCCCAGCTGCTGGGCATCACGTTGTGACGATTCTTTTCCCCACATTCTCTTTCACTTACTAGCAGTAGTCAT
ACCACGTCAACTTTATATAGAAGGGTGCTGTACCTCCCATATATTCAGAATGTTATATTTTACTAGCCCAGATATAAAAGCTTCTGGAGCACTAAATAAA
AGAACAGAGAGATATTTGGGGGCCTTGATTTAAGGTGAGCATATAGGAACAGTGACAACATCTGGGCCTAAAAAGAATGTACCACTCAGAGTAATTTGCT
CTTCAGCCCACAGGTGCTGAGAACAAGAGAAATCAAGTGAAGGAAGGAGGCGGAGTTTCCAAGACTTGGGTGTCATCATTTCTGGGGACATCCTTGATTG
GAGATTGAAGTTTTTGAACCGAAATTTAGAGCTGATTCAGAAGAGACAAATACAGAACGTCCAAGTTAGCAGTCRTTTCCCAAATTTAGGAGACAATGAT
GCAGGCCCAGGTGACTTTTGGTTTGTTTTATTCTTTCCTTTATTCTCCAATGTATTTTTAAAGTCCTGTAAAAATCAGGGTAATTAATCAGAAAAGTATA
AATTGGAAATATCAGGACCTGGAGAAATCTGGGCAAAGAAGGATCAGGGATATATTATTCATAGGATTCATACTACATGATTCATGTTGGAATTTGTGAC
TGTGTGGGACCCCGTAGGTTACATTTGCTGTAAACTTGCCTCTAGTATCTCTGACAAGCTATACAAGAGAAACATGATAAGTTATATCAACTGTGAGAAA
GCAGACCAGTTTCTTGAGGGATGTTAATGTTTCATGGCTTATAATTCTGAGGCTCAAATACATCTTTGATAGTTCTTCACGGAGGTGTTATGGTAGGTGG
TGTTCTTAACTGTAGCCTTCTCATAAATGCAAAAGTAGATTTCTTTTAGCTGTTTCTTCATTGTATTTAATGTTATTAACGCTGTCTAATAACATACACA
TATATATGAATTTGTCTGTGTGCATACATGTGTCTGCATATATATTCTAAGGATTTTTTTTTCCAAATTTGCTTAATCATGGCCAGGCGCTGTGGCTCAC
ACCTGTAATCCCAGCACTTTGGAAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTGTGAGACCAGCCTGGCCAACGTGGTGAAACCTCATCTCTACT
AAAAATACAAAAATTAGCCAGGTGTGGTGGCGTGCGCCTATAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAAGT
TGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAACAAGCAAGCAAAAAAACAGATTTGTTT
AATCATCTAATAATCTTTGTGCTTTATACATGTTTTATATAGTCTCTTTTATTTCATTCAGAATAAAATAATAATATGGTTAACTATRTTAACCATAGTT
ATTTAGAATGCATTGTCTTGTGATACTAGCATCTGCCATGTCTTCATTACAGAGTTTGATATTGGCCTGAAAGCTCATAGTGAATTTAAGAATCTGAATT
ATTCGTCTACTTGTAACTGGCATATACTTATGACTAGTTTGGTATTGGGAAATAGATGCTACATGTTATAGATGTTCTTTCATTAGCAAGAGGATTGGAT
AGCTGTGTATTACAGACATTTCTTTGACTTTTCAACATTGTTGAATGAATGGATGACCGCACAGTTACAGAATATTTTACTGGAATTCTTATTCTGYCAA
AATGTACTAAGAAAAAAACCCCACCAGCTTCCTATGTGGTGAAAATGAGCGGAATGACTTCCTTGACATTCTTTTCCTATCACCAAAAGAATATGACTTC
ATTAAACAGAAGTGTGTTATTACAGGAATCCCTAACACTGGAGGATGTGGCTGTGGACTTCACCTGGGAGGAGTGGCAGTTCCTGAGCCCTGCTCAGAAG
GACCTGTACCGGGACGTGATGTTGGAGAACTACAGCAACCTGGTGGCAGTGGGTGAGGACAGCTGCCCTGTGTCACTCAGAGGGTGCCCAGTCAGTGGCC
TTCCTTTSTCAGCTGCTTACCTGCAGTACTCTGAAGTGGTAGATTCTCACATCATTCTCTTGCCCCACACAAGAGAGTATAATCTACCTTCTTGTTACAG
ATCTGATACCTATGTAGTCCTTAAAAYGTAACTCTCCTTTTTCAATATTGCCAGCCCCGTTTGATTTGTCTAAATCTTCTGTCATTTCCCATGAACAGGG
TATCAAGCCAGCAAACCAGATGCACTCTCCAAATTGGAACGAGGAGAAGAAACTTGCACAACAGAAGATGAAATCTACTCTCGAATCTGTTCTGGTGAGT
GAGAGGAGCAGCCAGGTGGACAGCCACAGACACCATGTTCTGCCCACACAGAGCAGGCGTCAAAGCAGTGAGGGCATCTGAGGACACAGCAACAGCCCCT
CCATCACTCCTTCTTCCCAAGGAAGAGCTCTTTTTTGTTRTAGTATGGAAAATATGCCCCACTTTCTTTTCTTTTYYTTTTTTTTTTTTTGAGATGGAGT
CTTGCTCTGTCACCAGGCTGGAGAGCAGTAGCGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGGGATTCTCCTGCCTCAGCCTCCTGAGT
AGCTGGGACTACAGGTGCGTACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATATTGGCCAGGATGGTCTTGATCTCTTG
ACCTTGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGAGATTACAGGCTTGAGCCACTGCGCCCGGCCCCCACTTTTTTTCCTTGAGATTTCATCTTTG
TTTATTTTATGCACATCTTGTTTTTGTCTACATAATTATCTTCTTAGGATTTTCAAATCTGCCTTTTCTYGTCCACTGTCACAGTGTCTCTGCTTGTGTA
TTACCTCTCTTGCTATGAAATTCCATTTTCCAGGCCTCTCCGGAAAGAGAGACCTTTGAACTCATTACTTTTTTCTGACTACTGCATCTTCCTGCCCTAG
TAGGAAAATAATAATTTTCCTTCATTATTCCCACTCTGGGAATCATTATTTTCCCTCATTTTCTCCACTCTGGATGCTGTGCCCATGATAACCTGGTCTC
TGATTGGCATTTATGTGTTTCTTAAGTTCTCTTATTCCTCTTATACTGAATCCTGAGTTTCTCCATACTTTTTTTTTTTGGAAAGAAGGTCTCATCTGTC
ACCCAGGCTCACTGTAGCCTTGACCTCCTYGGCTCAAGCGATCCTCCCACCTCAGCCTCTTAAGTGGCTGGGACTACAGGCACACATCACCATGCTCAGC
TGATTTTTGTATTTCTTATAGAGGTGGGGTTTTGTCATGTTGCCTAGGCTGGTCTTGAACTCCTTGGCTCAAGTAATCTGTCAGCCTTGGCCTCCCAAAG
TGCTGGGATTACAGCGTGAGCCTCCGTGCCCAGCCCATCCTTCTTCCATTTTCTTTACTGTTCTCATAACTTTTAAAAGTTTTTTTCATTCCCGTGAATT
AACTCTTCATTCTCTGGAAGAGACTACCAAATTAACTTCTGCCTTAATATTATCTAATGTATACTTTATTTCCATGTATTTTACTTGTCTTCATGACAAC
TAGCCTGTAACTTCCCATTTTGTGTATGAGGAACAAGAATCATCTTCCCTCTAAGAATAATGCTTTTGGCTATCCTTATATAATTTTATTTTTTTAATTT
TATTTTATCTTTTATGTTTTTATTTTAGATTCAGGAGGTGCATCAGGAGGTGCATATGCAGGTTTGTCTCATGGATATATTGCCTGATGCCGAGGATTCA
CTAGAAGCTCAATCCTGTCACCCAAGTAGTGAACATAGTACCAAATAGGTGGTTCTTCAACCCTTGCCTTCCTCCCTTCTTCCTCTTGGAGTCCCCAGTG
TCTATTGTTCCTGTCTTGATGTCCCTGTGTTCCCAATGTTTAGCTCTTGCCTACAAGTGAGAATACACAGTATTTGGTTTTCTGTTTCTGAGTTATTTCA
CTTAGGGTAATGGCTTCCAGCTGCATCCATGTTGCTGCAAATGACATGCTTTAGTTCTTTTTTATGGCTTTGTAGTATTCCATGGTGTATATATACCACA
GTTATCCTGTTCACCATTGATGGGAACCTAGGTTGATTCCATGTCTTTGCTGTTGTGAATCGTGCTGCAGGCTGTCCTGTTTAAATCCAGGGTCTCTTTC
ATTACTGCACATCTTAAATTCTGGCATTACCTTAAGTGTTTTCTACATGCTGAACTCTCTTAAAGTTCTCTACTTTAAGATAATGTTTTGATTAATTAGA
AAAGATCTTTTAATATCGTATATTATTTCTAGCCCAAACCATCAGACATTTATGCCTGCTGCAAATTACTTCCTTCATAGTTTTGCTAATTCTGAACTTT
CTTTAATTCATGTTAGATGTTTTGACTGCATTCATTTCTGTATAGCTTTTGCTTTTTTCATCATATTTGTAAACTATTATTGAGATACAATGCACATATC
ACATGATTTCACCCATTTAAGGTGTATAAGCCAGTGGTTTTTAATCTATTCACCTAGTTGTGTAACCATACCACAATCAATTTTGGAACATATACTATGT
ATAAATATATATTATCAAATAGTCTTGATGATTATGGTTCTATAGTARGTTTTGAAATTGGGAAGTGTGAGTCCTCCATCTTTGTTCTTTGCTTTGAAGG
TTGTTTTGACTATTCTGAGTCCTTTGAATTTCCATTTGAAGTTTAGAATCAGTTGTAAATTTCTACAAAAAGAGTGGCTAGGATTTTGGTAGGTACTGCA
CTGAGTCTGTGTAACAATTTTGGGGAGTATTCCCATTTTCATCATATTAAGTATTCTGATCCATGAACACTGGACAGTTTTATATCCTGTTAGGTCTTTG
ACTTCTTTCGACAATGCATTATCACTTTCAGAATATAAATTTGGTACTTCCTTTGCTAAGTATATTCCTAAGTATAGTTTTCTTTTTGTTTCTGCAGTTA
ATGGAATTGTTTTCTTGATTACATTTTCAGATTATTCATTGCTAGAATATAGAAATAACATTAATTACTTTTCTATCATATTTTGATGACACCTAGTCCC
AGTTAATCATGTTTCTTGTCATATGATTCCTTCCTTTAAAACTTGTGTTTTGGGCTGGGCGCGGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCC
AAGGCAGATGGATCACTTGAGTTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTTTCTACTAAAAATACAAAAATTAGCCGGGTGTGGT
GGTATGTGCCTATAATCCCAGCTACTCAGGAGGCTGAGGTGGGAGAATCGCCTGAACCCTGGAGGCAGACATTGCAATGAGCCARGTTCATGCCACTGCA
CTCCAGGCTGGATGACAAACCCCCCTGCCTCCACCACACACCCAAAACTTGTGTTTTGATAGCCTACTATATTCCAACGCTATCAGCAGTACAAATAAGA
AAGAAAAAACATACCATGTCCTTATTCTTCACAATGCTTTTGTTCTCTTAGAAGTAAYCATATAACCAGTAATAAGCAGATATATAAATAACATATCTTG
GAGTAAAAATTGCTATAAGGAAAGTTAAAGCAGCTGGTGGAACAGTAAGTGTTAGGAGTTGGCACTGTGCTTGTAGGGTGGGAACAGCTCTTTGTTAAGG
TGCCTTTGAGCAGATAGATGATGAACAYGTGTAGGCTCCCTGGATGAAGAGTGTTCCAGGTGTGAGACAATGAGAAGTTGAAAAATGACCCTGGAGTGTG
TTTGAGGAACTTCTAGGAAGCTTGAATGGATAGAGTAGAGTGAGCAAAAGCAAAACTGTCTGGAAATAAGAACARTGGGGGCATAGTTGGAAGTTTTGGT
ACAGAGGTCACATACTGCCTGTCAAGGGCATTCATGACCTTGATTTTATTCCAAATGAGTTGAGAACACAGTAGGGAGTTTTGAGTAGAGAAGTGACATG
ATATAACTAATTTATTTGATAGATTACTTTGCCTGCTAYGTAGAAGGTAGACGTTAATGGGGAGGAGAGGGAACTGCTACACTCATGATTACAGTTTGTG
ACAGTGAAATAATACAAATTAAAATCATCAAAGATAAAAAGTATAGAAAGAAGAATCCAGGAGAAACTGGGTGCAAGCTTTCAGTTCTCCTGTTCTAGTR
GAGTTGCACAAAGTGCTRAATTTTCCCTGCAACAGTGTTTGTCAACACATGTGAAGTTATTGCCAACTAGGGAAGCTCATCTAAGCCCAGTGTCTGTAGC
CACCCAGAGTCAAAACAATACAAATGTGGCCCAAAGCCTGAGACATGCAAAACCAGGTGTCCACCATAAATCACATTGCTAGCATAAACTATCTGATATG
ACCCAAGGCCTCAGGCATTAAAAGATACCCTTAGCAGGCAGAATATTCCAGGGGCTCAGAGGTTATCTTTTAGAAGGCAGTTAAGACGAGTTCTTTCTTT
GGAATGTGTAGGGATGGAATAGCCCAGGCCTGCTGAGTTAACACTTTGCTGCAAATCATTGTTCCCTCTTTCTGTAGCAACACGGGATAGTATGATCCAG
TTAGGTCATTAGTTGGAGTCTTAAGTATAGAACCTTTCATCTAAACTTGAGATTGTGCTTTGGGAAAATTAGTTTAATGGTGGTACATAGAATGAAGAAG
AATAGCAAGTTTGGGGAATGTGATAATCACTCAGCATGTGACACTTTAAATCAAATGCTGAGGATCTCACATTCTTCTGTTTTTTAAATTTATGATTTCT
TTTCTTTATTTTTCTACTCTGTTACCCAGGCTGGAGTGCAGTGGCACAATCATGGCTCACTGCAGCCTCAATCTCCTGGGCTCAAGTGATCCTCCCACTT
TAGCCTAGCTGGGACTACATGCCACCACACCCAGCTAATTTCTGTATTTTTTATAGAGAAAGGTCTCACTATGTTGCCCAGGCTGGTCTCAAATTTCTGG
GCTCAAGTGATCCTCTTTGCCTCACCCTACCAAAGTGCTGGGATTACAGACATGAACCACCACACCAGGACATGATTACTTTTTAATTCCTAAATAAAAA
ATACATATATTTATCATGTAAAACATGTTGTTTTGAAATATGTGTACATTGTGGAATGGCTAAATTGAACAAATTAATGTATATACTACCTCACGTACTT
ACTTTTTTTGTGAGAACACTTAAAATCTATTTTAGCAATTTTCAAGAGGCTATTACATTCTTACCACTCCTAGATGTTTGTTTTGTACACCTGGGTCTCC
ACTTGTGCACCTGATCATAATAGTCAGCGTATGGTTCATTTCAGTGGACTTAACGAATTCCCAAACTCTACATGTTGGATTGACAAGATCCCTGGCCCTG
TGCCTTCATTCTTTTTTTCTACATGTTTCCAACTAAAGTCTCATCCAGTACTCTTTCTTTGAATAATTTGTAAATGTTGGATGTCATCTACATTGCTGTT
TCCAGATAAGGCCTTTTCGAGATTTATATATTCAACCAATTTCTTCATGTTTGTACTTGGATATGTGGTAATGGTCTTAAACTTTATGTGTTTCACAAGG
CATGCTAAATTTTTCCCTTCATTCCAGATAGTAATATTCCTATTTTCATCATGAGGTTTTTTCTTCCTATCCAATGGCTGAAGCCATATAGTTTTGCGTT
TTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTGTGTCACCCCAGCTGGAGTGCAGTGGTGTGATTTCAGCCCACTGCAACCTCCACCTCCTGGGT
TCAAGCGATTCTTGTGCCTCAGCCTCCCAAGTAGCCGGGACTACGGGCATGTGCCACCATGCCTAATTTTTGTATTTTTAGTAGAGACACAGTTTCACTA
TGTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCATGTGATCTACCCGCTTTGTCCTCCCAAAGTGCTGGGACTACAGGTGTGAGCCACTGTATCCAGCCT
GAAACCATATAATTTTTGGAATAATCTTTGAGTCCTCACTTCCATTAACCCTCTTTCACTCGTCCCATTGAACCTATTAGTGAACCTTGTCATTTCTTTA
ACTATATCTTGATTTTCTCCACCTCTTATATCTCCATTGTTCCATTAACCACATTTCACAAAATGCAATTACCTTCTTTATTTTTTTGCTTCCTTGTGAT
TTCATTTTTTCCTAACTAAAATTAAACCTTCGTGAAAATTGGCTGAGTGCAGTGGCTCATGTCTGTAATCCCAGCACTTTGGGAGGCGGAGGGAGGTGGA
TCTTCTTGAGCTTGTGAGACCAGCCTAGATAACACAGCAAAAACCCATCTCTACCAAAAATACAAAAAATTAGCTGGGTGTGGTGGCACATGCCTGTGGT
CCCAGCTAATCAAGAGGCTGAGGTGGGAGGATCACTTGAGCCTGGGAGGGAGAGGTTATAGTTGCAAGTAAGCTGAGATTGTGCCACTGCACTCCAGCCT
TGGTGACAGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAGGAAGGTGTTTGTATATCCCAAACATGAGCATAGTGACTTACACATAGATGTCATTCA
GCAAACATTTGTAGAATAAATTAATACAGCCTTTGTCATTTGGGATCAACCTGTGTGGTCTGATATTTCTCTTTATTTCTGTGGTCTGGTATCCTGCCAA
ATTTTGGGGTTCCCTGCAAAAAGTGACCTGTTTATATTTGACTATGTGTGTATTGTATAAAGACCTATTTAGAAAGCAGCCAAATCTATATACATTGTGA
ATTATCTAGCCTTGTTTGTACAGTTGCTTTTACTTTTMGGTGTGTTTATATTATTGTGTTTTATTTGTRAGAAATGAAGGATATTTATACATGGAATTTC
CTTTATGTGTAAGAGATAAAARGAATCTTACACATCTCTCCCAATGTGTAAGAGATGAGGGATATTTATACATGGAGTTTCCTTTATACTAAAATAGGGT
TTTCAACCCCCTTTARCTGTAATTTTCCAYTACCTACCCAAATGCTATAAAACTGCCCTCCCCTTATCACCCTTTTCTGACTCCTTTTTCGGACTCAGTC
YGCCTGCACCCAGGTGATTAAAAAGCTTTATTGCTCACAAAAAAATAAATAAATAAAATAGGGTTTTCACTAAAGAGTCACCTCACACCAAGGCAGTTTT
AAAAAATAGTTTAAATAGTTTATTTCAAAACAAGATGATGGAGTGATTGACTGTTCTCTTCTTTCCTAGAAATCAGGAAAATTGATGATCCTCTGCAGCA
TCACTTGCAAAATCAAAGTATTCAGAAGAGTGTGAAACAGTGCCATGAACAGAATATGTTTGGAAATATTGTTAATCAGAACAAAGGTCATTTCCTGCTG
AAGCAAGATTGTGATAYGTTTGACTTACATGAAAAACCTTTAAAATCAAATTTAAGTTTTGAAAACCAGAAAAGGAGCTCTGGCCTAAAGAACTCTGCTG
AGTTTAATAGAGATGGGAAATCCCTTTTTCATGCTAACCATAAACAATTTTATACTGAAATGAAGTTTCCTGCAATTGCAAAACCTATTAATAAGTCCCA
GTTCATTAAGCAACAGAGAACTCACAACATAGAGAATGCCCATGTATGCAGTGAATGTGGGAAAGCCTTCCTCAAGTTGTCTCAGTTTATTGATCATCAG
AGAGTTCACACTGGAGAAAAACCTCATGTATGCAGTATGTGTGGGAAAGCTTTCTCCAGAAAATCCAGACTAATGGACCATCAGAGAACTCATACAGAAC
TGAAACATTATGAATGCACTGAATGTGACAAAACCTTCCTCAAGAAATCACAGCTCAATATACATCAGAAAACTCATATGGGAGGGAAACCTTACACATG
TAGCCAATGTGGGAAAGCCTTCATCAAGAAGTGTCGGCTCATTTATCATCAACGAACTCATACAGGAGAGAAACCCCATGGATGCAGTGTATGTGGGAAG
GCCTTCTCTACAAAGTTCAGTCTCACTACACATCAGAAAACTCATACAGGAGAAAAACCTTATATATGTAGTGAATGTGGAAAAGGCTTCATTGAGAAGA
GGCGTCTTAYTGCACATCATCGAACTCATACTGGTGAGAAACCCTTTATATGCAATAAATGTGGGAAAGGCTTCACCTTGAAGAACAGTCTTATCACACA
TCAGCAAACTCATACAGGAGAGAAATTATATACATGTAGTGAATGTGGAAAAGGCTTTTCAATGAAGCACTGTCTCATGGTACATCAACGAACTCATACT
GGAGAGAAACCTTATAAATGCAATGAGTGTGGAAAGGGCTTCGCTTTGAAGAGCCCACTCATCAGACATCAGCGAACACATACTGGAGAGAAACCCTATG
TATGCACCGAATGTCGAAAAGGTTTCACCATGAAGAGTGACCTCATTGTACATCAGCGAACTCATACTGCAGAGAAGCCATATATATGCAATGATTGTGG
AAAAGGCTTCACTGTGAAGAGCCGCCTTATTGTGCATCAGCGAACTCATACTGGAGAAAAACCCTATGTATGTGGTGAGTGTGGAAAAGGCTTTCCAGCA
AAGATCCGGCTAATGGGACATCAACGAACTCATACAGGAGAGAAACCTTATATTTGCAATGAGTGTGGAAAAGGCTTCACTGAGAAGAGTCATCTCAATG
TACATCGGCGCACTCATACAGGAGAGAAACCCTATGTATGCAGTGAATGTGGCAAAGGCTTAACTGGGAAAAGCATGCTCATTGCACATCAGCGAACTCA
TACTGGGGAGAAACCTTATATATGCAATGAATGTGGAAAGGGCTTCACCATGAAGAGTACTCTCAGTATACATCAGCAAACTCATACTGGAGAGAAGCCA
TACAAATGCAATGAATGTGATAAAACCTTCAGGAAGAAGACATGCCTCATACAACATCAGCGATTTCACACAGGAAAGACTTCCTTTGCATGTACTGAAT
GTGGAAAATTCTCTTTGCGCAAAAATGATCTTATTACACATCAGAGAATTCACACAGGAGAGAAACCGTACAAATGCAGTGACTGCGGGAAAGCCTTCAC
TACAAAATCAGGGCTCAATGTTCATCAAAGAAAACATACAGGAGAGAGGCCCTATGGATGTAGTGATTGTGGGAAAGCTTTTGCGCACTTGTCTATCCTT
GTTAAACACAGGAGAATTCACAGGTAGTCATTTTGGGAAAGCCTCTTGCCAGATGTAGGCCCTTAAGATATCTGCAAAGAAGAGTAATTTCATGAATGCA
GACTACATGGTTGTTTATTTAGTGATCAGTTACTTCATGTTTTGTGTCAGAGAAAACATGTACAAAACATTTGAGAAAATATTTTAGGACATTATGTCTA
AAAATTGTATACTGAGAAAAATCCTATGAATGTGGCAGACTATAAAAGCCTTTGGTGGGAAGATAAACCCCCTCAGAAGTGATCATAGATCATGAATAAA
CTACTAATTCGTGGAAATGTAATAATTATAGGAACGTCTTTGCCCAAAAATAAAACYTCAACAGATTGAGAGAGTTCACACTGGAGAAATACTTTCCTCT
GGCAAACCCCTGTGGCAGGGTTTTCAGTAAAATGTTTTGCCTCATCGTGTGCTAGGAAATAATGCAGAAAAAACTWATGAAAACATTCAATGTAGAAGAC
TTTTAGGAAAAYATCAGAGAATTTAATGAAGGAAAGAAGCCTTGGCAAAATGATGGATGAGAGCTTTCTGTCACAATTCTAACCTTAACAGATAATATGC
CTCATGTGCATTTGGGAACAGGATAGCTTGAGCCATATTCCTAGTTGCCTTGTCACTGATTTTATACATTTTAAATTGTGACTTCCTCTAATCACGAACT
AAAATTTAATATTGTATATAATACCGGAGTATTTTATGCCTGCCTCATTTTATTATATGATTAGCTCCTGCATTTCTTTGGTTCTAAGTTTGTGTTATTT
CAGAATAACTAAAGTACTTCAGAATGAAACTGGATACAGTATATTCARTTCATAAGTGTAATTGACCATACTTGAATATGTTTAAGTTTATAAGTAACAT
CAGGTGTTATGAAATTAATATAAATAAGATGTTTTTGTAAGTTTTTATTTTGAAATAAGTTTAGATTCACAAAATCTTACCAAAATATTCCAGAGTTCTT
DCCCTTAACCCAGCTTCTTCCAAAGATAACAACTTACATAAGCATRGTTCRTTACCAAATACAGGAAAGTGAAATTGTTACAATACTGTTAACTACAGAA
TTTATTTGGAAATCACCAGTTTTAACATGCATGCATTTTTGTTTGTTTTTTATATGTAGCTTTAAGAAATCTTAACACATATATTGATTCATGTCACCAC
CACCGTAATCGAGATTCAGAATGTTGCATCAATGCAAACTCCCTCATGCTCCTTGTTTATAGTCACAACCTCTCCTCAGCCCTAACCCTTGGCAATCAGA
AATCTTTTCATCTTTAGTTTTGTCATTAGTAGCATGTTATAAAAATGGAATCATACAGCATGTACCCTTTTGGTATTGGCTATTTCAACTAAAGCAGATT
AACCTGAAATCCATCCAAGTTGTTCTGCATATCATTGTTCTGTTTTTATTGGCCACTAATAATCTATGATACGAATATACCACTATTTGTTTATTCACCC
ACTGAAGGACATTAGTTTTGTTCCCGGTTTTTCTTACTGTTACAAATAAAAATCCTATGAACATTTGTACACACAGGCTTTGTGTGAGCACAATTTTTTA
CTTCTCTAGGATAATTACTGCAGAGTATGATTCATGGGTCATAAGGTAAGTGTATGTTTACCTTTGTAAGATACTAACCAGAGTGGTGTTTCATTGCTCA
CCAACAATATATAGAAAGGTTCAGTTGCTCCACATTCTTCCACTTGATGCTGTCAGTATTTTTTTTGTTTTGTATTGTTTTGTTTTGAGATGTAGTCTTG
CTCTGTTGACCAGGCTAGAGTGCAGTGGCACGATCTTGGCTTGCTGCACCCTCTGCCTCCGGGGTTCAAGTGATTCTCCTGCTTCAGCCTCCTGAGTAGC
TGGGATTACAGGTGCCTGCCACTGCGCCTGGCTAATTTTTGTATTTTTAGTAGTGACGGGGTTTCATCATCTTGGCCAGGCTGGTCTCGAACTCCTGACC
TTGTGATCCACCCGCCTCAGCCTCCTGAAGTGCTGGGATTACAGGCGTGAGCCACCACGCAGGACTGGAATGTTTTATTTTACCTATTCTATTGTGTGTG
TATTGGTATGAATACAAACATACCAATTGTATGTGGCCTTCCATTTGCACCTCCCTAAAGGCTTTTTTTTTTTTTTTTTAAGAGACAAGGTCTCACTATG
TTGCTCAGGCTGGAGTGCAGTGGCTATTCACAGGCACCATTATAGCACACTACAGTCTCAAACTCCTGGTCTTGAGAAGTTTTCTGTCCCAGCCTCCAGA
GTAGCTGGGACTGCAGGCATTTGCCACTGTGCGCTGCTTAGAGCATTGTTTATTAATGCTGGATAAAGATTTTATCCAGCTGGATAAAGGTTTTATATCA
CTTGCAAATATTTTTCCATAGATGTGGTTCTTTCTTTTTTTTTCTCAGAGAAAAAGATTTTAATTATGATGAAGTCCAACTTTTTTTTTTGAGATGGAAT
CTTGCTGTCTTGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTTCTGCCTCAGCCTCCCGAG
TAGCTGGGATTACAGGCACCTGCCATCATGTCCCACTAATTTTTGTACTTTTGTAGAGATTGGGGTTTCACCGTGTTGGCCAAACTGGGCTCAAACTCCT
GACCTCAGGTGATCTGTCCACCATGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATTGCACCCAGCCTTTTTTTTTTTAATGGATTGTGGGGTTT
TGGCATTACATCTAAGTATTCCTTCCTTACTGTAATTGATAATTCTTTTTCCACTTCCTTTGACAAAATAATGTAGTTTTGCTTCTTTTTTTTTTTTTTT
TTTTTTTTTTTTTTGAGACAGAGTCTCACTCTCTCACCCAGGCTGGAGTTCAATGGCATGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTTAGGTG
ATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAGGCACGCACCGGCATGCTCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGT
TGGCCAAGATGGTCTTGATCTCCTGACCTCGTGATCTGGCCACCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCGTGAGACACCACGCCCAGCCAGTTTT
GCTTTTTAATATTTAGCAATATCCATTTAAATTCATCTTTGTATATAGGGTAAGGGTTAATTTAAAGTTCAGCCTATGGTTGCCCAGTTGATTCAACAGT
ATTGAAAACACTGTCCTCTTTCCATTAAATTGATTTTGAACATTTGTAAAAATCAGTTGCCTGTTCTTGTGTCCATTTCTTGACTCTATTCTGTTGATGT
GCGTGTCTATCACTCCACTAATAATCTACGGTCACTCCCATCAGAAATGACATAATATGCTCTATGAGGTAAAACAGCTATGTTACCTCATATAAAATGT
TCAAAGCCAGAACCTGGACTTTGGGAAATGTCCCATATCCCTCTCCGGAAGCCCGCCTCCCAGTCTCTCGGTGTTCTTAGAGATGGCGAAGGATGGGGTT
GCAGCACCAGAATTCCAGAATCGGAAGTAGGTTCTGATACGTGTTCAGCCTTTGGCAGCTGCTACTGTAGCCTTGAAAGCCTGATGCTGCGTGTGAATCC
GGATGGGGAGCTTGTGGGGACGACCATGAAGTGGAAACGCATGTGAATGTCCGTGTTCAGGGGTTTTATTTCAGTTTAGTCACCGAGGAATATGGGTGTG
AGAAAGAGACCCTTGGGATGTCAAAGGTTAAGGCTTAGTTTTAAGAGTTTAATGACTGAGGGTCCCACGGACAGAGCTTGAGGTCTATATGTTCACTTTT
CATGAGTCTCAGTAATAGAAAACTGGGGAAAGTGTGTCTCAGTGAATGCTGTTTTTTGCTCAGATTTGCAATTTAATATGGGGCTCAGATACAGAGAAGC
CCGAGCTAGGAAGAGGAGTGGCGTGAATGAAAGGTCTAGGGGGAGGAGTGTCAAAGGAGTGCCTCTGTGGTAAGTTTTAAATTGAATTTGAAGGCAATTT
TATTTAGAGGAAGACGGGGCTTGTCTGTGTTTGAGAATGTAATGAGGCTGGAGGCTTTCAGGTGTGCAGTTGAAGGTTAGTGGTTGCTTTGAGACTAACT
GGATGCTGGAAACACTTCCTGTCAGTCTTTCAAGTCCAAATCTGTCCTGAAGGTTTCTATTTAAAAACTTTTTCTTCCTAGGTCCACTATTCTCATTGTA
CCCATAAAAATCAGAGTAATTCAGGGTGACGAAGTGGTGTCTTTACCGAGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGGCGCGATCTCGGCTT
ACTGCAACCTCCGCCTCCCGGATTCAAGCGATTCTCCTGCCTCAGGCTCCCGAGTAGCTGGGATTACAGGCGCGCGCCACCGCGTCCGGGTAATTTTTGT
ATTTTTAGTAGAGACTGGTTTCGCTTTGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAGATGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTA
CAGGTGTGAGCCACCGTGCCCCACTTCACTTTCTTAAATGTTGTGTTTAGAAGCACAAACTTAAAAAAAAATCAAGTCCACTTTATTAATTTTATTTTGT
TTTGTGGGTCATCCTTTACTCTCCTCTCAGAATTAACTCACGTCCATGAGGATTATCTCCCTTTTCCTTCTCTAAGTTTTATACTTTCTCTTAAACTTAG
ATCTATGATCTATTTTGAGTTAACTTTTGTGTATGGTTTGAGGGTCCTAACTCATTTTTCTGGATGTGGATATCCAATTATCCCAGTGCCGCTTGTTGAA
AAGACTATTCTTATTGAATTGTCTTGGCACTTTTGTCAAAAACTCTTAACAATATTTTTATACTCTCAATTCTGGCTCTGCTCTTCCCATTGGCACCTTT
ACTAAAAGTGGCCTTTCTAGGAGGCCCAATTCCTTTAGTCTGTCGTGGCCAGGCTCACATCGTAATTCATTCTCAAAATCTCTTTTCTCTCCTCTCCTCT
CCTCTTTTCTCTTCTTTTCTCCTCTTTTCTCTTCCTTCTCCTCCTCCTCTTCCTCCTTCTTCTTCTTCTTTTTTGTAAATAATAATCATTTTTTCGAGGC
CAGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGACAGGCAGATCACGAGGTCAGGAGGTCGAGATCATCTTGGCCAACATGGTGA
AAGCCAGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCGCGTGCCTGTAGTCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATCGCTTGAAC
CAGGGAGGCAGAGGTTGCAGTGAGCCCAGATCTCGCCACTGCACTCCAGCCTGGCGACAGAGCAAGACTCCGTCTCAAAAAAAATTATAATTTTTTTCTT
TCTTCACCACCCGCCCCCCCGAATACCTGCTATTTTTCTGTTCTTAAAAACCGCTTCCTGCAAGCTAATTTTCGCCAGACGCTTTCCCGTGGGTGTCTGC
CTACCTGATGTGTTGCCTTTTCCCTTTCTACCTGATCTGTTACCTTTTCCATTTCCAATTCATTCTCTGGGATACCTACACCTGGCTGCACTGTTACTTG
TCTTTTTCAAAACCTTTTTTTTTAAATTTAACAAAGTGGATGGAAAAGCGCTAAAGGCAATTTAGCTTGCCCCATATTTGCCTGATAAAGCCTGAGTCTC
TGAAAATCTGCCCCCTTTCGCAAGACTTTAAGTGCCAGGAAACGAGGCGATTTCAGTGACTTCTCTTCTTCCCTGGCTCCTGGCTCAAAAACCTGCCACT
GCCTTCTGTGCGTCCAATTTTCAAACATGGCTGCCGTCAGGAGCCACGGCTATGGGCGCGGCCATTTTACAGAGTAGGAAATGCCGTAAATGCGCTTGTC
CTTGCTCTTTTAAACATTTTAGGTTCTCCTCGGCCGCCGTAGGTGGACCATAAACCCGTGCGAGGACTCCAGAAGTAGGAGCAGTTTACGGAAGTGTAAC
GTTGAGGCCCTTCTTGTGTATCTGGAGAAAATAGAGGTCAGTGTGTGGTTTTGTCCCTGAAAGTTTTTTGTCCTAGTTCAGGTTTTGTCTCAGTGGAAGG
TTTGGGAGATCTGAGGACGTGGTGTACCCTGGACCACATAGTTTTTGGCAGGAAGACTGGGGAGCGCCGGGGTATAGGCATTTGGGAGGTACCTGGTGGG
AGTCTGTGATCCCCCTGTCTGTGGTCCGCGTGCCTTTGGTGTGAGTACAGTGACTAAGGGTCTGTAGTGATCAACGGCCGTGTCCTAACTGTCAAGGTAT
GGATCACTCTGCTTGTAAAGGATGGAGGTGGCGATTAGGATCGATGCGGCGTCTGCTTCGGGTTCAGGATTTAATTTGGAACTCAGTGATGTTGGAGTCT
GGGAGGATGTCCATCGCTGTAGAGTGTCTGGTCCGTGGTTCGGATGAGTAAGAGGCATGGGGCCAGTGTCTGTGGTACAAAGGCTTGTGAGGGCTGAAGC
TTTCGAGACTTTGGAGCCCTGGGTCCTGGGTTGAGGTTCGAACCTCGGTTACTGGGGCAAAAGGCGACACAGCCCCCAGCATTAGTTCGAAACCATATAT
CTACTCTTCTGATCCTTGGGGTGGCTATTTACAGATCGGGGGGTCAAGTTCAGTCATACCCTCCGATTATATATTGTCTATGGCTGCAAAGGCAGCGGTT
GAGTTGTTGTGACAGAGACCTCGTGGCCGGCAAAATCGAAAATGTTGCCAACCTCTGCATTCACTTCTTTTATTTTTTATTTATTTTTTTTATTTTTTGA
GACGGAGTTTCACTTTTGTCTCCCAGACTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAATCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAG
CCTCCTGAGTAGCTGGGACTACAGGCCCACGCCACCACGCCCGGCTAGTTTTTGTATTTTTAGTAGAGACAGGGTTTTACCACGTTGGGCAGGTTGGTCT
CGAACTCCTGACCTCAGGTGATCCGCCCACCTTGGCTTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTTCACTTCTTAATATATAG
TGAGTGTTGCTTGCCCGCCTTATATTCACACTTTCTTAACAGAATCTCCATTTCGTGAAGTATTCATCCCTGTGGCAAGGCGACCCAAATCCCAGTTTCT
TAGTAAGGCCTTGTTGGTCTTAGCCAATCTTGCTGGTTCCAATTGCCATTGCTAGTGATAGGTTTGACATGGAAATGAGCTTAGGCGTATGGTGCAATTC
TAGCCAACTATGTATGTGAAAATCTGCCTGGGAGTTTCTGAGGGAGCATTTTCTTTTTTAAATATGTAATTTCTTGAATCTCTTTTTCCATGTTCGTGAT
GATATCGCCTGAAAATAACATTAATTTTCTGTCTTACTTTGTAATGCTTATAATTCATTCTTATCTTAATGCATTGGCTCAACTTTCCAGTATAAAGTAG
GAAAATAGGGTGTTAGTGGACGTTCTTGTTTTATTACCCACCTGTAAAATTCACCCGTTGTGTTGTCTGGAGTTAACACCTTTCCTGGAGGTAAACTGTT
TGGTATGGTTGATCTCTTCCTTTACTTTGTTAATTTTTCTACATTTATATATTTTAAATGTACAATTTAATTATCATGGAGGCAATATATGTATAAGCAG
TCATTGCCCAGGTCAAGAAATAGAATATGGTCAGCACACCAGTGGTGTTCTGTGAGTCTTTTTCCATTCTCACACCGAAAAGTATTTTAGGCTTTTCTTT
ATATAATTAATCATTATTTATCATTGTAGTTAATACAGTTTTGCCTATTTTAAACTCTGTATATCAGTGGAATTGTACATCACTCTTTTTTTGTGTCAGC
CTTCTTTTGCTCATTATTGGTGAGGGTCTTTCCTGTTGCATCTGAGTATATTTTCTTTGCTCAAT


SNP Information

Context             (SEQ ID NO:27232):
ATCAGAGAAATCATACAGTAGAGAAGTCATATCTATGTAGTGAATGTGGAAAAGGTTTTACTGTGAAAAGCATGCTCATCATACATCAGCGAACTCATAC
M
GGAGAGAAGCCCTACACATGCAGTGAATGTGGGAAAGGCTTCCCCTTGAAGAGTCGGCTGATTGTACATCAGCGAACTCATACTGGAGAGAAACCTTACA
Celera SNP ID:            hCV11526752
SNP Position Genomic:     111584
SNP Source:               Applera
Population(Allele,Count): african american(A,10|C,20)   caucasian(A,15|C,15)   total(A,25|C,35)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,17)   caucasian(C,2)   total(A,9|C,19)   
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,8)   total(A,8|C,3) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:27233):
GGAGTGGTGGTGCATTGGTCCTGAGGGCGTGGAACCCAGAGCTGCAGCACAGCAGGCACTCTCGATAGTGACTTCTGTGGGGTCCATCACTTTGGGGGCT
R
CATTTGTTATTTTGGAGTATTTTGGGCGGCAAGTTAAGATGGTTATAGATGCATTTTGGACTATCTAAATGTCAATATGGAGAGTTTCCTTGGAAGATGT
Celera SNP ID:            hCV11526680
SNP Position Genomic:     10394
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27234):
GATTCACATTGAAGTATTTACTCTATATTTTACTGCTGTTACATTCAAAATGTATCAGAAGTCTCATGGTTCAATTAATAAAATGTTATTCGTTTTCGTA
W
CTCAGTGACGTTCCTTTCACCAACACAGATTTATCCCACCTTAGTAAAGAACTTCTAACAGACACTGCATTACACTCTGCTGGTTAAAATAATGTGCGAC
Celera SNP ID:            hCV27493741
SNP Position Genomic:     33791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27235):
GAGATTTTAGCTGTTCTGGCCAAAACAGAGGGAAAAAAAAAAAAAGTAACTGTGAGATGATGGGTGTGTTAATTTGTTAAACTCTAATGACTTTTTTTTT
T
ACTATCCATACCATAATACCATGTTGTATACCTTAAATATACACAATGTAATTTATCAGCAAACAAAAATGGGCATCAAGGAAACATTTTAGCTTTTTTT
Celera SNP ID:            hCV26638860
SNP Position Genomic:     17052
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27236):
GCTTCTGGGGAGCCTGTAGGAAGATTCCAAACATGGTAGCAGGCGAAGTAGGAACAGGCGTCTCACGTGGCGGGAGCAGGAGCAAGAGAGAGTGAGGGGG
G
AGGCGCTACACACTTCTAAACAACCAGATGTCGTGAGAACTCACTGTGATAAAGAACAGCACCAAGGGGTGGTGCGAAACCATTCATCACAAATCCACCC
Celera SNP ID:            hCV26638861
SNP Position Genomic:     13290
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27237):
ACAAATTTTTTCCTTTCTACTCTCACACTTAACACAGAACTCTTCTGTGGCCAGTGTTGGGGAGTTTTCTCCTACACACTAAAAAATTCTCCAGCAGACA
M
CAGCTAGATTGCCTTATAATTCAATTTAATTCTGGCACTGTCTACCTGGAGTTAGAGTCATCTCCCACAGGTTGCCCACAGGTAAAGGGCTCAGTCTCAC
Celera SNP ID:            hCV11526682
SNP Position Genomic:     11265
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27238):
GAGCCACTGTGCCCGGCAGGATTTTCTTTTTTATGGTTGAATAATATTCCATTATATAAATATACACACACACACTCTGTATATATATATATATATATAT
A
CACATACATAAATATATATACACACACATTTTCTTTACATATTCATTCCTGGATGGGCACTTTGGTTGTTTCTATATCTTGGCCGTTGTGAATAATACTG
Celera SNP ID:            hCV26638862
SNP Position Genomic:     8849
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27239):
CAGGAGACAGATGCCTTCCTCTTATCTCAACTGCAAAAAGGCCTTCCTCTTTTTCTAATCCTCCTCAGCACAGACCCTTTACGGGTATCCCCCGGTGTCA
Y
GCTGGGGGACGGTCAGGTCTTTCCCTTCCCACGAGGCCATATCTCAGGCTATCACTTGGGAAGAAACCTTGGACAATACCTGGCTTTCCTAGGCAGAGGC
Celera SNP ID:            hCV11526756
SNP Position Genomic:     121016
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27240):
TACTCTCACACTTAACACAGAACTCTTCTGTGGCCAGTGTTGGGGAGTTTTCTCCTACACACTAAAAAATTCTCCAGCAGACACCAGCTAGATTGCCTTA
K
AATTCAATTTAATTCTGGCACTGTCTACCTGGAGTTAGAGTCATCTCCCACAGGTTGCCCACAGGTAAAGGGCTCAGTCTCACAAGACCTCCCCGGCTCA
Celera SNP ID:            hCV11526683
SNP Position Genomic:     11282
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27241):
TGAGCCACTGTGCCCGGCAGGATTTTCTTTTTTATGGTTGAATAATATTCCATTATATAAATATACACACACACACTCTGTATATATATATATATATATA
T
ACACATACATAAATATATATACACACACATTTTCTTTACATATTCATTCCTGGATGGGCACTTTGGTTGTTTCTATATCTTGGCCGTTGTGAATAATACT
Celera SNP ID:            hCV26638863
SNP Position Genomic:     8848
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27242):
GTGGCAGGGTTTTCAGTAAAATGTTTTGCCTCATCGTGTGCTAGGAAATAATGCAGAAAAAACTTATGAAAACATTCAATGTAGAAGACTTTTAGGAAAA
Y
ATCAGAGAATTTAATGAAGGAAAGAAGCCTTGGCAAAATGATGGATGAGAGCTTTCTGTCACAATTCTAACCTTAACAGATAATATGCCTCATGTGCATT
Celera SNP ID:            hCV15879979
SNP Position Genomic:     153512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27243):
GAAAATTACCACTCTTTTCTACAAGGCTTGTGCATTTTGTATTTGTTTATATCAAAAGATATTTGGAATCCCTATTTAGCCACAGGGCAGTGACTTGATT
Y
AGTCATTTTGTAACTCTTCTTTCCAGGGAGGGAGTAGAGGATGGAGGAGGAGAGAAATAGGCAAGAAATGACTGACTGTCACTACAAGATGTATCTTTGG
Celera SNP ID:            hCV26638864
SNP Position Genomic:     7637
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27244):
ACAGGAAGCAGATAAGCTGTAGGTCTGTTTTTCTTTCTGGCTTAGGCCATATAGCCCTTCTGCGCAGATAACATACATAGCTCATAAACTTTCTGCTTCA
R
TTTTTCATCAAACACCTAACAGAAGAAGGCAAGTTAGCTCCCTGCTTCCTTGGCGTTATCTTTCATTTATGTATTTGTTTATTTATTGAGACAAGAGTCT
Celera SNP ID:            hCV8706653
SNP Position Genomic:     47308
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27245):
TTGTGACTTTATACTCTAATTTAAAATTTGTTTCTTTAAATTGTACTCATGAGGATGAAAATTACCACTCTTTTCTACAAGGCTTGTGCATTTTGTATTT
R
TTTATATCAAAAGATATTTGGAATCCCTATTTAGCCACAGGGCAGTGACTTGATTCAGTCATTTTGTAACTCTTCTTTCCAGGGAGGGAGTAGAGGATGG
Celera SNP ID:            hCV26638865
SNP Position Genomic:     7581
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27246):
CCCCTTCACAGCCACTGCTTTTCCTGACTCCGCGTTGCAGGAGGTCACCCGAGTCTGTCTTGTGACACCCACTGTCGTTCCTTCCCAAATTTTTACTCCA
S
TGGAAAATGTGCTCTTCCGGGAGGTGGGCATCGTATTCCTCCCCTTTCCTCCTGAATGTGTGGGTGAGAGGGATCAGGAGAGGAAAAGAGGGGGAGCGAC
Celera SNP ID:            hCV26638866
SNP Position Genomic:     6665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   JBIC-allele(C,557|G,936)   total(G,936|C,557) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27247):
CGTGAAGAGCAATCTCATTGTACATCAGCGCTCCCACACAGGAGAAAAATCTTACATATGCAGCGAATGTGGAAAAGGCTTCACTGTCAAACGCACTCTC
R
TTATACATCAGCGAACTCATACAGGAGAGAAATCTTACATATGCAATGAATGTGGTAAAGGCTTCACCACAAAGCGCACTCTTATTATACATCAGCGAAC
Celera SNP ID:            hCV25986512
SNP Position Genomic:     129552
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,16)   caucasian(A,14|G,26)   total(A,26|G,42)
SNP Type:                 INTRON;MISSENSE MUTATION;UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;UTR 3


Context             (SEQ ID NO:27248):
ATCAATAGTAGTAGTTTAAAAAAAAACTCATGTTCATTATATTTTGCAGGTATCTCTCCTAAATGTGTGATCAAGGAATTACCACCAACAGAGAACAGTA
R
TACAGGAGAAAGGTTCCAAACAGTGGCACTGGAAAGACATCAAAGCTATGATATTGAAAATTTATACTTCAGGGAAATACAGAAACATCTACATGACCTT
Celera SNP ID:            hCV25955050
SNP Position Genomic:     28930
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,5)   caucasian(A,40)   total(A,71|G,5)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,5)   caucasian(A,32)   total(A,61|G,5)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:27249):
TAATCCCGGCACTTTGGGAGGCTGCAGCAGGCAGGTTGCTTGACCTCAGGAGTTCGAGATCAGCCTGAGCAACATAGGAAAACTCTGTCTCTACCAAAAC
W
ACAAAAAAATTAGGTGGGCGTGGTGGTGAACATCTTTGGTCTCAGCCATTTGAGAGGCTGAGGTGGGAGGATCGCTTGAGTCTTAGGAGTGGAGGTTGCA
Celera SNP ID:            hCV7801919
SNP Position Genomic:     27784
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27250):
AATGGGGGCATAGACGTTGGGTAAACATTCCCATTCCAAAAGGGAGAAAGCCACAAGAAAGGGCTATAGGTTCCATGCAAGTTCAAAACCCAGCAGGGTA
R
TCATTAAATCTAGTGCAAGGCGTGGGTTCCCAAGGCCTTGGGCATCCTCTGCTCATGGGGCTCCCTCAGGCAGACATCATGGTTTGCAGACAGCTGTATC
Celera SNP ID:            hCV7807080
SNP Position Genomic:     134580
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27251):
CCCCCTAGGTCCTTGTGGGTTACGTAGTGGCGCCCCAAACAGTGACAGGATCGGGCGCTCTACAGTTGGCGCCTGTAATCCCAATTACTTGTGAGGCTGA
R
GCAGGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCCTGCCACTGCACTCCAGGCCTGGGCAACGGAATAGGCTCTGTCTGAAAAAC
Celera SNP ID:            hCV7807081
SNP Position Genomic:     133286
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27252):
ACTATCTATACCTTGCTATATTGTGTACCTTAAATATACACAATAAAATTTGTAAGCAAACAAGTAAAAAACAGGGCATCAAGAACACCCTTCATAACCT
M
AAAAAAGAACATCAAGGCATATATATTTAAAAACTTTTAACTACAGAACATGAAATAGCTCCTAGAATGCAGTAAAAGAAAATTGAGCATAAAATGAAAA
Celera SNP ID:            hCV7807157
SNP Position Genomic:     62241
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27253):
ATGCACTGTCAGCTCTCAGTAGACCAGGAGTAGAGAAGCTGTATGTGGAAGTCACATGTTAATATGCAAAAATACCTCATAAATTCTTGAAAAGATGCCT
Y
TAAGGGGAGATCTTTTCTGCCTGATTTTATACCACATTTGAAGCTATAATGAATCAGTCACTCTTTCTAACTCCACAATCTTAATGACCGGGAATGGAAT
Celera SNP ID:            hCV7807158
SNP Position Genomic:     61535
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27254):
CAGGGCTCCACACTCAATAGACATCAGAGAATTCATACCGGAGAGAAACCTTACAAATGCAATCAGTGTGGGAATTCCTTTAGTCAGCGTGTCCATCTTA
R
ACTTCATCAGACTGTTCATACTGGAGACAGACCTTACAAATGTAATGAGTGTGGCAAAACCTTTAAACGGAGCTCAAACCTCACTGCACATCAGATAATT
Celera SNP ID:            hCV25955704
SNP Position Genomic:     30685
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,12)   caucasian(A,1|G,35)   total(A,5|G,47)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:27255):
CAGCCTGACCAACATGGTGAAGCCCCCCTCTCTACTAAAAATACAAAATTAGCCGAGCATGGTGGCTCACGCTTGTAATCCCAGCTACTCTGGAGGCTAA
R
CTGGAGAATCACTTGAACCTGGGAGGCAGAGGTTTCAGTGAGCCAAGATTGCGCCATTGCATTCCAGCCTGGGCAACAAGAGCGAAACTCTGCCTCAAAA
Celera SNP ID:            hCV482473
SNP Position Genomic:     113357
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:27256):
GGTGGATCACTTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGTGAAGCCCCCCTCTCTACTAAAAATACAAAATTAGCCGAGCATGGTGGCTCA
Y
GCTTGTAATCCCAGCTACTCTGGAGGCTAAGCTGGAGAATCACTTGAACCTGGGAGGCAGAGGTTTCAGTGAGCCAAGATTGCGCCATTGCATTCCAGCC
Celera SNP ID:            hCV482474
SNP Position Genomic:     113326
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:27257):
AGCTCCTTGAGGTTATCTACTGGGACATCTAGAGAATGCCATCTTGCAAACCCTACTCTGGACTGAGTAGCTGACCCCTTCTTCCACCCGCCTTCTCACT
R
TCTCTTTTGCCTAATAAATATGGAGGGCTGTGTAAAGCTCAGGGCCCTTGTCCACTAGAGGCAAGGTGTCCCCTGATCCCTTCTTCCAAATATACTCTTT
Celera SNP ID:            hCV7807089
SNP Position Genomic:     133048
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27258):
GGCCTTGGGCATCCTCTGCTCATGGGGCTCCCTCAGGCAGACATCATGGTTTGCAGACAGCTGTATCCTTCCCAGGTGGCCCTACAGAGGAAGGCACACC
Y
GACTTTTCCAATGTCCTGCAGACCCAGCTGTCTCAACTCTTATGGTGATCCAAGAGTGAGGGCCCCTCCCTACTTGGACACCACCCAAGCTGGCAAGTCC
Celera SNP ID:            hCV11526763
SNP Position Genomic:     134714
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27259):
ACCTCCGTCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCACCACACCTGGCTAATTTTGTATTTTTA
R
TAGAGATGGGGTTTCTCCATATTGGTCAGGCTGATCTTGAACTCCCGACCTCAGGTGATCTGCCAGTCTCGGCCTCCCAAAGTGCTGGGATTACAGACGT
Celera SNP ID:            hCV11526691
SNP Position Genomic:     23581
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27260):
CATGATACATTTGACTTGTACAGAAAAAATTTGAAATCAAGTTTAAGTTTAATCAACCAGAAGAGAAGACATGGAATAAATAACCCTGTTGAGTTTATTG
R
AGGTGAGAAAACACTTCTACATGGTAAGCATGAACGTACGCATACTAAAACTAGATTTTCTGAAAATGCAAAATGTATCCATACTAAATTCCAAGTCTTC
Celera SNP ID:            hCV25928020
SNP Position Genomic:     128788
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,2|G,34)   total(A,2|G,42)
SNP Type:                 MISSENSE MUTATION;UTR 5;INTRON


Context             (SEQ ID NO:27261):
ATGTGGAAAAGGCTTCACTGGGAAGAGCATGCTTATTATACATCAGCGAACTCATACAGGAGAGAAGCCCTACATCTGTAGTGAATGTGGGAAAGGCTTC
M
CCACAAAACACTATGTCATCATACATCAACGAAATCATACAGGAGAGAAACCATATATATGCAATGAATGTGGGAAAGGCTTCACCATGAAGAGCCGTAT
Celera SNP ID:            hCV25741648
SNP Position Genomic:     111291
SNP Source:               Applera
Population(Allele,Count): african american(A,2)   caucasian(A,3|C,1)   total(A,5|C,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:27262):
CATGACAGATCCTTATATTGGTTGTGAAGTCATTGGTAATGTAGGGATGTTTTATTTGTCCTGATGTCATTTGCCTACGTTTAATATTTAGAAATAGGCG
Y
TAAAATGTATAGATAGAGGATTTTGCTCCTACCAAAGTATATTTGAGAAAGGAATATAGATGCAGGCTGTATTGTGAAAATTTTTAAAAAATTATCTTAT
Celera SNP ID:            hCV25929906
SNP Position Genomic:     127255
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27263):
ACAAGGATGTGATGTTGGAGAACTATAGGAACCTGGTCTTCCTAGGTGAGTATAATTTCCTTCTAGAAGTTCAGATTCGCCCTTGTGCATTTTTGTATTT
Y
CTCTGTTGTCTTTCTTGGGAACCCCTCCGTTATTTGAGACTGAAGCCTTATTGGTTCAAAAATAAAAAGCTTCACAATGCTGCATCTGGCCTTTCACTGT
Celera SNP ID:            hCV25955203
SNP Position Genomic:     22036
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,36|T,2)   total(C,61|T,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:27264):
TTACTTCCATATATACTGTGTCTCCATGAACGTGTATTTAAACCTTGACAACAATTTCCTGCTTTCTTAGTTTTTTCAGATTAATATTTGCCCATTTTGC
Y
AGCGTGTCTTCTTCTGCATCCCAAGTCTCCTTAACATTGTTGTACTATCAATAAGGTTTTATGTTGTCTTTTTGTGTGTGTACAAAATAAATTCATCCAT
Celera SNP ID:            hCV7801921
SNP Position Genomic:     25834
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27265):
TTCTAGTGAAAAACCTTATAAATGTAATGAGTGTGGCAAATCTTACATTAGTCGCTCAGGCCTCACTAAACATCAGATAAAACATGCTGGAGAGAACCTT
M
CAACTAAACTCAATGTGGAAAGGCCGTTAGATGTTGTCCTAACCTCTGGGATCCCCAAATAATTTATACTTACTCATATAGCTTGTATATTTGTCCTTTC
Celera SNP ID:            hCV25932916
SNP Position Genomic:     80738
SNP Source:               Applera
Population(Allele,Count): african american(A,32|C,4)   caucasian(A,26|C,4)   total(A,58|C,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:27266):
AAACGTCGCGGCCATCTTAGCCTTCTATTCAGCTGCTGAAAGGGATTTACCTCCACGCCATTTTTGTCTTGTGTAAACTGGAGCCTCTGTATATGGACCC
S
TATTTATGAAGGGTTGAGGTGCCAGGAAATGGGACAGTTTCAGTGCTCTTTCATCTTCCCGGCCATCCCCGGTCACCCCCGGTCACCCCCGGTCACCAGC
Celera SNP ID:            hCV11974304
SNP Position Genomic:     137478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27267):
TTGACTATGTGTGTATTGTATAAAGACCTATTTAGAAAGCAGCCAAATCTATATACATTGTGAATTATCTAGCCTTGTTTGTACAGTTGCTTTTACTTTT
M
GGTGTGTTTATATTATTGTGTTTTATTTGTAAGAAATGAAGGATATTTATACATGGAATTTCCTTTATGTGTAAGAGATAAAAGGAATCTTACACATCTC
Celera SNP ID:            hCV11974305
SNP Position Genomic:     150638
SNP Source:               Applera
Population(Allele,Count): african american(A,21|C,17)   caucasian(A,17|C,21)   total(A,38|C,38)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,2)      total(A,1|C,2) ;(C,-|A,-)   Caucasian(A,31|C,47)   African-American(C,33|A,37)   Asians(A,31|C,51)   total(A,99|C,131)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27268):
AATATGAAAGAATCCATGCTTTGTTGGTAGTTCAACTTTTGACCATTACAATGATACATGAATCACCCACCACTCAAGAAGGAACTATGGTTGTCATTTT
R
ATGTACATACTCCAGACCATTTTTGGAATATTGGCATTCTTTGCATGCTGGTGCCTGCCAACCAACTTTTTTAAAATTACTAATTTATTTATTTATTTAT
Celera SNP ID:            hCV25990332
SNP Position Genomic:     120695
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,3)   caucasian(A,30)   total(A,61|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:27269):
ATAAAAGGAATCTTACACATCTCTCCCAATGTGTAAGAGATGAGGGATATTTATACATGGAGTTTCCTTTATACTAAAATAGGGTTTTCAACCCCCTTTA
R
CTGTAATTTTCCACTACCTACCCAAATGCTATAAAACTGCCCTCCCCTTATCACCCTTTTCTGACTCCTTTTTCGGACTCAGTCCGCCTGCACCCAGGTG
Celera SNP ID:            hCV11974306
SNP Position Genomic:     150816
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,13)   caucasian(A,15|G,21)   total(A,38|G,34)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27270):
ACAAAGTTCAGTCTCACTACACATCAGAAAACTCATACAGGAGAAAAACCTTATATATGTAGTGAATGTGGAAAAGGCTTCATTGAGAAGAGGCGTCTTA
Y
TGCACATCATCGAACTCATACTGGTGAGAAACCCTTTATATGCAATAAATGTGGGAAAGGCTTCACCTTGAAGAACAGTCTTATCACACATCAGCAAACT
Celera SNP ID:            hCV11974307
SNP Position Genomic:     151910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27271):
TATTTTGAAATAAGTTTAGATTCACAAAATCTTACCAAAATATTCCAGAGTTCTTGCCCTTAACCCAGCTTCTTCCAAAGATAACAACTTACATAAGCAT
R
GTTCATTACCAAATACAGGAAAGTGAAATTGTTACAATACTGTTAACTACAGAATTTATTTGGAAATCACCAGTTTTAACATGCATGCATTTTTGTTTGT
Celera SNP ID:            hCV11974308
SNP Position Genomic:     154046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27272):
CCTCATCTCTACCTAATCTGCTCCCCAGAACCTCTCTGACCTCATCTCCTCCCTGTGTCCTTCCTGCTCCCTCTGCTCCAGCCACACAGGCCTCTTTCCT
S
TTCCCTGGGCTGAGGTTGCTCCTGCCTCAGGGCCTCTACCTGGGCTGTCTGGCCCCTCAGCTGCAGGTGCAAACATCCTTCCTTCTTGAGGTCTTTGTTC
Celera SNP ID:            hCV27962982
SNP Position Genomic:     60193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27273):
TGAAATAAGTTTAGATTCACAAAATCTTACCAAAATATTCCAGAGTTCTTGCCCTTAACCCAGCTTCTTCCAAAGATAACAACTTACATAAGCATAGTTC
R
TTACCAAATACAGGAAAGTGAAATTGTTACAATACTGTTAACTACAGAATTTATTTGGAAATCACCAGTTTTAACATGCATGCATTTTTGTTTGTTTTTT
Celera SNP ID:            hCV11974309
SNP Position Genomic:     154051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;(G,-|A,-)   Caucasian(G,30|A,36)   African-American(A,22|G,30)   Asians(G,36|A,36)   total(G,96|A,94)
SNP Type:                 INTRON


Context             (SEQ ID NO:27274):
TTCCTGGTGCTGAGCTCCTTGAGGTTATCTACTGGGACATCTAGAGAATGCCATCTTGCAAACCCTACTCTGGACTGAGTAGCTGACCCCTTCTTCCACC
Y
GCCTTCTCACTATCTCTTTTGCCTAATAAATATGGAGGGCTGTGTAAAGCTCAGGGCCCTTGTCCACTAGAGGCAAGGTGTCCCCTGATCCCTTCTTCCA
Celera SNP ID:            hCV7807090
SNP Position Genomic:     133036
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27275):
TTTTATGTATGTGTCTGCATATATAAACACATTTATTATGACTTCTTTTGCTTCAGTGGAATCACATTCCACCTGTTGGTCACCTTAGATCAAGCTTGTA
Y
AACCTGTGGCCTGTGGGCTGCATGCAGCTCAGGATGGCTTTGAATGTGGCCCAACACAAATTTGTAAATTTTCTTATAATGAGAATTTTTTGCATTTTTT
Celera SNP ID:            hCV7801859
SNP Position Genomic:     100799
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27276):
CAGAAGTTCAAGACCAGCCTGGCCAACGTGGCGAAACCCTGTGTCTACTAAAAATACACACAAAAAATTAGCTGGGTATGGTGCTGGGCTGTTGGGAGCC
R
AAGGCCCATGGGATGTGACCAACTCAGCATTCCACTGGAGGCTATATGATCAAACAGCAAACTTTATCATGAATGCACGATGTGGGCAAACTCATGACTG
Celera SNP ID:            hCV7807091
SNP Position Genomic:     132800
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27277):
ATCTGGTGTTATTTATTAGTTCTTACATATTATAGGCCCCAAATTTATTTTTTTCAATTTACTGATAAATGTAATTCAGTATATTTGGATGTGTTTATCC
M
AGTTACTAGGTACCATTATGTAGTTTACAAAAATGCCTTAAATGTTATTTTTCTAAAATTTGTTTTGAAATAATTCTAGATTCACAAGAGATTACAAAAT
Celera SNP ID:            hCV7801787
SNP Position Genomic:     113739
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:27278):
TCCTCCCTTTTTGAAATGCAGGGCATTGGAGCTGCAAATCTTCTCTGAGTCTGAAGTATCCTGCCTGACACATTTGCTCGCACTCACCCATGCCTTCCTT
Y
AGTCCCTCTCTTCTGCACTTAGATTCCAGATCTCACAGTGACTCAGTGACATGAGCTTGGGAAGAGGCTCCACTGGGCATGGTCCTGGGAAGGGCTCACA
Celera SNP ID:            hCV7807166
SNP Position Genomic:     61253
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27279):
TTGTTCTGTCTCCTCCCTTTTTGAAATGCAGGGCATTGGAGCTGCAAATCTTCTCTGAGTCTGAAGTATCCTGCCTGACACATTTGCTCGCACTCACCCA
Y
GCCTTCCTTCAGTCCCTCTCTTCTGCACTTAGATTCCAGATCTCACAGTGACTCAGTGACATGAGCTTGGGAAGAGGCTCCACTGGGCATGGTCCTGGGA
Celera SNP ID:            hCV7807167
SNP Position Genomic:     61243
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27280):
CATTTAACACTCCAGCCACACCCTCACCCCACCCCTGGTGCATATTATGTGTCTCTGTGTTTCTGGTCCATTGTGTTCTACTGTCTACAAACTGGTAACA
R
TGAAGCCCCAAGGGGACAGCAGAGCTGGGAGGATGGGGCTGTGCTAGTCTTGCCCCCTTTAAGATGTGTTCAACCCTGGCTTCACATTAGCGTGCTGAGG
Celera SNP ID:            hCV7807168
SNP Position Genomic:     60442
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,18)   caucasian(A,16|G,22)   total(A,34|G,40)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27281):
CCCAGGCACTCCAGACTGGGCAACAGAGTGGACCTTGCCTCAAAAAGAGACAAAAAAAAAACAAAAAAAAAGAAAAACTCTCATATACCAAGGGTGAGAA
K
AGCAAATGGAACACGAACTTGACTCTGAAAAATAGTTTGACAATTTCTCTGTATATTTATATACTGATACCTATATCACACACATAGATTCACACAGGCA
Celera SNP ID:            hCV11526771
SNP Position Genomic:     136464
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27282):
AATATATGTTTGCACAACATAAGTCTTTTGGTCATAGGATGTTTGAAACTAGGCTTTCCTAAACTTAATTTGAATTACATGTAGTCACCCTTTCTTTACT
R
TAGACTTCTATTCATTTTGTATTTCTAAAAATAAAAGATCATGGTGGAGAACTCTCACACCTGTCTAGTATAAAGATTATGTTTAGTGTAGGTATGTTTC
Celera SNP ID:            hCV25955574
SNP Position Genomic:     28710
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:27283):
ACTTAGAATACTTTGCAAGTATCAAGATGTGGATGGCGGCCGGGTGCAGTGGCTCATGCCTGTAGTCCCAGCACTTTGGGAGGCTGAGATGGGTGGATCA
S
TTGAGCTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTTTCTACTAAAAGTACAAAAATTAGCAGCGCATGTGGCGTTCACCTGTAATC
Celera SNP ID:            hCV11526778
SNP Position Genomic:     141278
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27284):
AGCAGGAGAATCGCTTGAACCCAGGAGATGGAGGTTGCAGTGAACAGAGATCACGCCACTGGAGTCTTACTCACTCCAGCCTGGGCAACAGAGTGAGTGA
R
ACTCAGTCTCAAAAAAAAAAGAAAAAAAGTCAAAGATGTGGATGGTAATGAATAATTTAAATAAGATAGTGCTTATTATTTGCTTAGGACAGTGTTCTCA
Celera SNP ID:            hCV11526779
SNP Position Genomic:     141499
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27285):
ATGTTCATTATATTTTGCAGGTATCTCTCCTAAATGTGTGATCAAGGAATTACCACCAATACAGAACAGTAACACAGGAGAAAAATTCCAAGCAGTGATG
Y
TGGAAGGACATGAAAGCTATGACACTGAAAATTTTTACTTCAGGGAAATCCGGAAAAATCTACAGGAAGTTGACTTTCAATGGAAAGATGGTGAAATAAA
Celera SNP ID:            hCV25937795
SNP Position Genomic:     78377
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,26)   caucasian(C,1|T,11)   total(C,7|T,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:27286):
AATACAAAAATTAGCTGGGTGTGGTGGTACACCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGAAGAATTGCTTGAACCCGGGAGACAGAGTTTGCAG
Y
GAGCTGAGATTGCACCACTGCGCACCAACCTGGGTGACAGAGTGAGATGCAGTCTAAAAAAAAACTTATTAAAAAAATATATTATATATATGGAAATAAA
Celera SNP ID:            hCV25959357
SNP Position Genomic:     94723
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,8)   caucasian(C,7|T,23)   total(C,11|T,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:27287):
AAAGAAAAAGTAAGAGTGGGGGGGATCATCTATAATATCTAATTCTACCTTAGAACTTTCCTTTGGTGGTGGGGGTGGGTTCTGGGAGTTTGACAGATTG
Y
TAGGTTTTGGTATAAGGTCATAAAATCCTGTGCATATGGGATTTCTGACCATTTGCCCTGCCTCTTGCAAAATAGGTCTAATGGCAGGATGGTGTCATAA
Celera SNP ID:            hCV16143858
SNP Position Genomic:     84447
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27288):
TGGGCGTGGTGGCGTGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGTCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAACCAAGATCA
Y
GCCACTGCCTTCCAGCTTGGGTAACAGAGCGAGACTCAGCCTCAACAAAAAAGAAGTGTTAAAAAGTTTTACTTTTAAATATTTCTTTTGAAGAATGTTC
Celera SNP ID:            hCV7801931
SNP Position Genomic:     24787
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27289):
GATTTAGATTATAGTTAGATGCAGCTGTAGACTATAGACTTTTGAATTGGTAGTAGAAAAAGTTAAGACTTTGGGGGGCCATTGGGATGGAATGCATTTT
R
TATGTGAGGAGTACATGAATTTTGGTGGGGCAAGATGGAATGCTGTGGTCTGAGTGTTTTTCTCTCCTCCACAATTCATTTGAAACTTAATCTCCAATGC
Celera SNP ID:            hCV7801932
SNP Position Genomic:     20746
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27290):
TCTGAGGCTTAGTGATTGATGAATCATTAAGGGAATCCAGTGTACGTGTGTGTCTATTCCAGGTTTTCCTATTTTATCTGGCGGGGTGGTGGTCTTTTGT
S
TAGAGACAAGTGAAAGCCGAAGTCTTTTCACAAGAGCCCTGGCTGGTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
Celera SNP ID:            hCV27511680
SNP Position Genomic:     97674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27291):
GCAAAGCCTTTAATTGGGGCTCATTACTAACTGTACATCAGAGAATTCATACCGGAGAGAAACCTTACAAATGTAATGTGTGTGGCAAGGTCTTTAATTA
Y
GGTGGATACCTTTCGGTTCATATGAGATGTCATACTGGAGAGAAACCTCTCCATTGTAATAAATGTGGCATGGTCTTCACTTACTATTCATGCCTAGCAC
Celera SNP ID:            hCV25936562
SNP Position Genomic:     79681
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,26)   total(C,57|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:27292):
TTGCTGGCAAGTTTTCTCAGCAGGCCCAACTTTGTGGTCTTCATACTGAAGGCCCAGGGTCCTTCAGTTTGCAGTTTGTGTACACTCCTGCTGTGTTGCA
Y
GTGCCCAGAGATCCTGTACCTTTTAGCCTAGTTTGTTCATGCATGCATGGAGGAGAGGTAGAAAAATGGGGGAAAATGGAGGGGAGTCCATAGAAGGCTC
Celera SNP ID:            hCV7807175
SNP Position Genomic:     55981
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27293):
CAATGCCCAGCTGCCTTTAAACTAGACTTAATATTGTCAGCACTTGCTGGCAAGTTTTCTCAGCAGGCCCAACTTTGTGGTCTTCATACTGAAGGCCCAG
S
GTCCTTCAGTTTGCAGTTTGTGTACACTCCTGCTGTGTTGCATGTGCCCAGAGATCCTGTACCTTTTAGCCTAGTTTGTTCATGCATGCATGGAGGAGAG
Celera SNP ID:            hCV7807176
SNP Position Genomic:     55938
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27294):
TAGGGCCCCTCTTCTGAGACATCCTCACTGAACTTAATCTAGCCAATGCCCAGCTGCCTTTAAACTAGACTTAATATTGTCAGCACTTGCTGGCAAGTTT
Y
CTCAGCAGGCCCAACTTTGTGGTCTTCATACTGAAGGCCCAGGGTCCTTCAGTTTGCAGTTTGTGTACACTCCTGCTGTGTTGCATGTGCCCAGAGATCC
Celera SNP ID:            hCV7807177
SNP Position Genomic:     55895
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27295):
AAAAAAGTCAAAGATGTGGATGGTAATGAATAATTTAAATAAGATAGTGCTTATTATTTGCTTAGGACAGTGTTCTCAGATTGCAGTATCCTAGAATGTA
R
AAAGACCTCTGAAAAGGTAGATGGGTACACATGGTTTTAAAGAAAAAATGTGTGCATCTTAACTGTCTATGTGACCTCTTTCCTAAAACTGGTCTGCCTG
Celera SNP ID:            hCV11526785
SNP Position Genomic:     141622
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27296):
TGCTGGCCATTTCCCACAACAGAAGAAAATGATCAATGCCCAGGTGACTTTTTCTCTATTTTATTCTCTCCTTTATTCCATAGTGGATTTGTAGAGACCC
R
TAAGAAATCATTTCAGAATCTAGAGAGAAATAAACTTTAAATCTAACTCCAACATCATGGCAAAGTAAGATCAGGAATATAGTGTTTATGTGATTCCTAC
Celera SNP ID:            hCV25743198
SNP Position Genomic:     99111
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:27297):
GGACATCAAGGCATATATATTTTAAAAATTTAACTACAGAATATGAAATGGCTCCTAGAATGCAGTAAAGGAAAACTGAGCAAAGAATGAAAATTATTTT
K
GTTTGATTTCCACAAAATAATGAAACCTCCTCACAGTCCAAGGAATTGGAAAATGGAAATACGAAGGGTTTTCATTTTCCCCATAGCCTCAAAATGTAAA
Celera SNP ID:            hCV7801943
SNP Position Genomic:     17581
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27298):
AGTTATACAGTGACTGTGGGGAGAAAGCAGACAGGTTCCTCAGGAGATTATTATTTCATGGCACTTAGATCTCAAGAAAAATTTGCTATTCTTCCCAGAG
K
TGATATGGTGAACAGTGTTTTGAACTAGCTTTCTAATAAAGGCAGAAGATTTCTTACTGCTGTTTATTACACGGTTCCTCAGAGACTCCTATGGAAATAG
Celera SNP ID:            hCV7801871
SNP Position Genomic:     99421
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27299):
GTGTTTTATTCCATCATTGATTTAAAAATATGAAATCAACCTGAATGTCAGATTCTAGCCATGGTCAGAATATCCATCTCACAGAGACTGCGGTGTTCCT
K
CGGGGACTCTTACCAGCAGTTGTTTTAAGTTTTAAGGTTATAATTTTGCTCAGATGTAAGAGCTGAACATTTGTTATCAGAGAAGATGGAGCCAAATTCT
Celera SNP ID:            hCV7801944
SNP Position Genomic:     16354
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27300):
GAAATTTTTTTATTACTCACATGAGTCTCCCTGAAAACTCGGGGATCAGGGTTTTTAAGGATAATTTGATAGGTAGGTGTCAGTGAGTCGGGAGTGCTGA
Y
TGGTTGGGTAGGAGACGAAATCATAGAGATCTGAAGCTGTCATTTTGCACTGAGTCAGTTCCTGGGTGGGGTCACAAGACCAGATGAGCCAGTTTATGGA
Celera SNP ID:            hCV7798593
SNP Position Genomic:     3550
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 TFBS


Context             (SEQ ID NO:27301):
AGTGAAGTAATTTGAAAAGATTAAATGTTAAGACAGGCATGGTGGCTTATGCCTGTAATCCTGGCACTTTGGAAGGTCGAGGTGGGAGGATTGCTTGAGC
Y
CAAAAGTTCAAGACCAGCCTGGGCAACATGATGAAACATCATCTCCACAAAACATACAAATATCAGCTCTGTTATATATGAAATAAACAGAGTTTTCCAA
Celera SNP ID:            hCV25957405
SNP Position Genomic:     95014
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,39|T,1)   total(C,72|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:27302):
TTTTCTTTATTTCTTTTTTCAGATATTTTGTCTTTAGTGTATAGAAAGATTTAGGGCCCCTCTTCTGAGACATCCTCACTGAACTTAATCTAGCCAATGC
Y
CAGCTGCCTTTAAACTAGACTTAATATTGTCAGCACTTGCTGGCAAGTTTTCTCAGCAGGCCCAACTTTGTGGTCTTCATACTGAAGGCCCAGGGTCCTT
Celera SNP ID:            hCV7807184
SNP Position Genomic:     55844
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27303):
TAACACAGGAGAAAAATTCCAAGCAGTGATGTTGGAAGGACATGAAAGCTATGACACTGAAAATTTTTACTTCAGGGAAATCCGGAAAAATCTACAGGAA
S
TTGACTTTCAATGGAAAGATGGTGAAATAAATTATAAAGAAGGGCCGATGACCCATAAAAACAATCTTACTGGTCAAAGAGTTCGACATAGTCAAGGGGA
Celera SNP ID:            hCV25937882
SNP Position Genomic:     78446
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,25)   caucasian(C,1|G,11)   total(C,6|G,36)   
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,26)   caucasian(C,1|G,7)   total(C,7|G,33)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27304):
TTGGCTTTAAAGATAGGAAGTCGTGGGGGCAAGGAAACTCTCTAAAGGAAATTAATCTGGCAACAACCTAAATAATTCTAGAAAAGGATTCTTTTCCAGA
R
TCAAGAACAGAGCCAGGTGGTTCTTCTCTTCTAAAGACATTTCCATGGGCCAGTTCCACCGCAAGCTTCTCAGAGAGAATATGTTCTGCCGTACGGACAC
Celera SNP ID:            hCV7801885
SNP Position Genomic:     96401
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27305):
ATTGCAAAATATTCATTAGTGTCATCATATCATAGCCAGATCTACAACCCCAGAGTAATTCCCATGGTTATGTTACATGGCAAAAAGGACTCTGCATTGT
R
ATTAAGTTTATTAATCAGCTGACTTTAGCATTGGGAGATTATTCTGGATTGCCCAAGCACTTAAGAATAGGAGAAACCGGAGAGATGCAGCAGCAATAGT
Celera SNP ID:            hCV1129560
SNP Position Genomic:     96161
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27306):
CTTTTCCAGAGTCAAGAACAGAGCCAGGTGGTTCTTCTCTTCTAAAGACATTTCCATGGGCCAGTTCCACCGCAAGCTTCTCAGAGAGAATATGTTCTGC
S
GTACGGACACCGAACGTCCCCTAAGATGGCCGCCCCCATGATGCTCTCCCCTAAGGGCTCTGGCTCCGTTACCTGCAACGCACCGCTCGCTTATTTTTTG
Celera SNP ID:            hCV1129563
SNP Position Genomic:     96491
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27307):
CAGAAAAAAAGAACAACAACAAAAAAGAATACATAGTGAAGTAATTTGAAAAGATTAAATGTTAAGACAGGCATGGTGGCTTATGCCTGTAATCCTGGCA
Y
TTTGGAAGGTCGAGGTGGGAGGATTGCTTGAGCCCAAAAGTTCAAGACCAGCCTGGGCAACATGATGAAACATCATCTCCACAAAACATACAAATATCAG
Celera SNP ID:            hCV25957922
SNP Position Genomic:     94980
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38|T,2)   total(C,71|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:27308):
TCATTTTGTATTTCTAAAAATAAAAGATCATGGTGGAGAACTCTCACACCTGTCTAGTATAAAGATTATGTTTAGTGTAGGTATGTTTCCAATATAAAAT
R
TTTGTTTATCAATAGTAGTAGTTTAAAAAAAAACTCATGTTCATTATATTTTGCAGGTATCTCTCCTAAATGTGTGATCAAGGAATTACCACCAACAGAG
Celera SNP ID:            hCV25955175
SNP Position Genomic:     28822
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,16)   caucasian(A,4|G,36)   total(A,26|G,52)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27309):
GAAAGGGATTTCACATACTATTGTTGGCTTTAAAGATAGGAAGTCGTGGGGGCAAGGAAACTCTCTAAAGGAAATTAATCTGGCAACAACCTAAATAATT
M
TAGAAAAGGATTCTTTTCCAGAGTCAAGAACAGAGCCAGGTGGTTCTTCTCTTCTAAAGACATTTCCATGGGCCAGTTCCACCGCAAGCTTCTCAGAGAG
Celera SNP ID:            hCV7801895
SNP Position Genomic:     96378
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27310):
ATTCTGGATTAATCTGAGGCTTAGTGATTGATGAATCATTAAGGGAATCCAGTGTACGTGTGTGTCTATTCCAGGTTTTCCTATTTTATCTGGCGGGGTG
R
TGGTCTTTTGTCTAGAGACAAGTGAAAGCCGAAGTCTTTTCACAAGAGCCCTGGCTGGTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
Celera SNP ID:            hCV27495618
SNP Position Genomic:     97662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27311):
TAAATTATAAAGAAGGGCCGATGACCCATAAAAACAATCTTACTGGTCAAAGAGTTCGACATAGTCAAGGGGACGTAGAAAACAAGCATATGGAAAATCA
R
CTTATATTAAGGTTTCAGTCCGGTCTGGGTGAATTGCAGAAATTTCAAACTGCAGAGAAAATTTATGGATGTAATCAAATTGAGAGGACAGTTAATAATT
Celera SNP ID:            hCV25940470
SNP Position Genomic:     78574
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(G,26)   total(A,4|G,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:27312):
TGTAGAAATTAAATTTTTTTTCTCATAAAATTTGTCCCTTTTTTTTCCTTTATGGCTTTTAACATGAATATATTTCGTATTTGCTTCTGCTTCCACAGGT
K
CTTTTGCTTTCTGGTAAGGACTTTAAACAGGAAAAACTTATTTTTGAGTATGAAATTAGGTAGAAACCTACATTTTTTTTCAAACAGATTTATTTCTCGT
Celera SNP ID:            hCV1129573
SNP Position Genomic:     101581
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27313):
AATTAGGTAGAAACCTACATTTTTTTTCAAACAGATTTATTTCTCGTGTGAAATAATTCCCGAATGTGATGAGATCAGCAGCATTAAGAATTTGCAGACT
Y
CAGCAAGTCTGTTCTTTTCTCTGTGTATTAATCTCTGTGATTATATGGGGATAGATTATCCCATCAATTTGTGAAGGGGTGGGTTGCCCCTCCACACTTG
Celera SNP ID:            hCV1129574
SNP Position Genomic:     101735
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27314):
GACTTCAGCAAGTCTGTTCTTTTCTCTGTGTATTAATCTCTGTGATTATATGGGGATAGATTATCCCATCAATTTGTGAAGGGGTGGGTTGCCCCTCCAC
R
CTTGTGGGTGTTTCTCGTAAGGTGGAACGAGAGACTTGGAAAAGAAAAAGACACAGAGACAAAGTATAGAGAAAGAAATAAGGGGACCCGGGGAACCAGC
Celera SNP ID:            hCV1129575
SNP Position Genomic:     101831
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27315):
TAAAATGTTTAGGTATTATTTTTAGGAACATTTTATGATTATCCATTTATCCATGAATTTTGTTTTTCCTGCCTTTAATCTTCAATCTAGACTATTACTT
W
TATTGCAGTGTATTGCTTTCTGACTCCCCTTTCCTTATAATCTATAACAAAAGATAAATTAATTTTAAATATTTATTTTATATTTGGTCATCTTAATTCT
Celera SNP ID:            hCV1129579
SNP Position Genomic:     138954
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27316):
ACACATCTCTCCCAATGTGTAAGAGATGAGGGATATTTATACATGGAGTTTCCTTTATACTAAAATAGGGTTTTCAACCCCCTTTAGCTGTAATTTTCCA
Y
TACCTACCCAAATGCTATAAAACTGCCCTCCCCTTATCACCCTTTTCTGACTCCTTTTTCGGACTCAGTCCGCCTGCACCCAGGTGATTAAAAAGCTTTA
Celera SNP ID:            hCV27850285
SNP Position Genomic:     150830
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,18)   caucasian(C,21|T,15)   total(C,41|T,33)
SNP Type:                 INTRON


Context             (SEQ ID NO:27317):
TAGGTCCGTGCCCTGAATGGGAGCTCAGTCCAGCCTAGCTACACACTGCTGCAGCCTGTGTGTGGGCTTCTCCCAGAGGGGAGCTAATGCTGAAGAAAAC
R
GTGAAAGATTCACTTGGTCTTTGTGTAGGAATTTATTATTCTTGCATCCCCCCTGGTGCAGTGGGCTGTCTCTCCACAGGCTGAGTTCTTCCCTGTGTGC
Celera SNP ID:            hCV27850286
SNP Position Genomic:     15148
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,2|G,36)   total(A,8|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:27318):
GACCCACAGAGGTGACGGGGGGCTGTGCGCTGCATGGGGTTTGATCAGGGATAGGTCCGTGCCCTGAATGGGAGCTCAGTCCAGCCTAGCTACACACTGC
W
GCAGCCTGTGTGTGGGCTTCTCCCAGAGGGGAGCTAATGCTGAAGAAAACGGTGAAAGATTCACTTGGTCTTTGTGTAGGAATTTATTATTCTTGCATCC
Celera SNP ID:            hCV27850287
SNP Position Genomic:     15097
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,32)   caucasian(A,2|T,36)   total(A,8|T,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:27319):
ATTAAAATCATCAAAGATAAAAAGTATAGAAAGAAGAATCCAGGAGAAACTGGGTGCAAGCTTTCAGTTCTCCTGTTCTAGTGGAGTTGCACAAAGTGCT
R
AATTTTCCCTGCAACAGTGTTTGTCAACACATGTGAAGTTATTGCCAACTAGGGAAGCTCATCTAAGCCCAGTGTCTGTAGCCACCCAGAGTCAAAACAA
Celera SNP ID:            hCV7806989
SNP Position Genomic:     148018
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27320):
GCTTCTGCTGGAATGGATGAGGCCTTTATTTACACAGTCAACAAGAGGCTAGTCTGGGCTTTCTTACAATGTGTTGGAAGATCTCTAAGAGACAAGCAAG
S
CTTGATGAGCAAGCTTATTTCTCACCTCCATTTGTGTTACACTTGCTACTGTCCTATTGGACACATTAGTCAGTCACTATGGAGAATACTATCCAAAGAT
Celera SNP ID:            hCV1129582
SNP Position Genomic:     135092
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27321):
CCAAAAAGCGCACTAAGTGATTAGAGAGTTGTGGCTTTGAGCCATGTAATACCAGTCAGGAAGGGGAGGGAACTGGAGACTGAACTCAGCTACATGGGCA
R
TGCTTCAATAAACTGTGCCTACATCATGAAGTCTCAATAAAATCTCTGGACATCAAAGTTTAGGTGCGCCTCGCTGGCTGGCAAGTACTCTTGAATATTG
Celera SNP ID:            hCV1129586
SNP Position Genomic:     125306
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27322):
GCATATTGTTTTATGTATTTTACAAGATTTCCTTCTTTAGTACAGATGGTATAGCTCAGCAGCAGTTTCCCTAAAACTTACAGAAACTCCATAATGTTGT
R
TTGATAGTATCAGTTATTCCTTTTACTTCTGTTTCACCTGACTTAATTCCTACTATGAAAGTATATATTTGTCGGTTAAATTGATTACAGTTTTTAAGTT
Celera SNP ID:            hCV1129587
SNP Position Genomic:     71812
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27323):
CGTCTCCTCCTGAGGAAAAGCCGGAAGGCCGCATTCCGCTCTCCATGGAAACGCGGCTGACCGTCTCTGGAGGTTTAGAGGGGGAGGGAGTTGGGCGAGG
R
GCCCAGAAGTGGAAGAAGTTTAGGGAAGTAAGTTCAGCTTTTAAGAGGTCGCGGCGATTCCAAGGAGAGTCAGGTCAGTGTGTGGGTCAGGGCGTGGAAA
Celera SNP ID:            hCV1129588
SNP Position Genomic:     97139
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;JBIC-allele(A,546|G,951)   total(G,951|A,546)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:27324):
CTGTTTGTCTTACTGCCTTCGTTTTTATATAGTTGATTTTTTTTTCCTGAAATAGTTTTATTTCCATTGTGTGTGTCTTCTATACATTCTCTGTGGTTAC
Y
GTTGCAATTACAGAAAACACTTTAGATTTATAACATCCTATTTTAAACTAATAACAGCTTAACTTCAATTACATACAGAAATGACTTTTTACAGATCTGC
Celera SNP ID:            hCV11508172
SNP Position Genomic:     74221
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27325):
GTCTCTGGAGGTTTAGAGGGGGAGGGAGTTGGGCGAGGGGCCCAGAAGTGGAAGAAGTTTAGGGAAGTAAGTTCAGCTTTTAAGAGGTCGCGGCGATTCC
M
AGGAGAGTCAGGTCAGTGTGTGGGTCAGGGCGTGGAAACGTGGTGGGAGGGAGCTTTCTGAGGGCGTCTGCGTTGTTGGTGGCGCTATATGGTGGAGGTA
Celera SNP ID:            hCV1129589
SNP Position Genomic:     97201
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:27326):
TTTCTCTTACTTAATTTAGAGGAAATGAATCCAGTGTTTCACTTGTTGGGTGAAATATTTTTCCTTAACAGTTTTTGGGTTTTTTTTTTTTTTTTTTTTT
T
ACAGATTTCCTTTGCAACATGATTTTTAAATTTTCTAATAATTTATGCAAGCATATACTGCTGCAATACATATTGTTTCTATCTTAATCTGTTAAATTTT
Celera SNP ID:            hCV11508174
SNP Position Genomic:     66475
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27327):
GACATCAGTCCTGCTGACACCTTGATCTTGGATTCCCCAGCCAGCAGAATCATGAGAAATACATTTCTGTTGTTCATAAGTTAGTTAGTCTCTCTTATTT
Y
GTTATAGCCACACAGAAAGACTAGGACATACTCTGTAATATAACTGTCGGATTCTGTTGATTCAACTCTAATTTTTAGACATCTGGGTTCAGGTGCTTGC
Celera SNP ID:            hCV252140
SNP Position Genomic:     68138
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27328):
GACAGTGAAATAATACAAATTAAAATCATCAAAGATAAAAAGTATAGAAAGAAGAATCCAGGAGAAACTGGGTGCAAGCTTTCAGTTCTCCTGTTCTAGT
R
GAGTTGCACAAAGTGCTGAATTTTCCCTGCAACAGTGTTTGTCAACACATGTGAAGTTATTGCCAACTAGGGAAGCTCATCTAAGCCCAGTGTCTGTAGC
Celera SNP ID:            hCV7806990
SNP Position Genomic:     148000
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27329):
TCTTTTATCAGTGTCTTAAGAGCTTTCAGTGTACAGATCTTTTACTTCACTGGTTAAATCTGTTCCTAAGTATTTTATTCCTTTTGATGCTATTACAAAT
R
GGACTGTTTTCTTTATTTCTTTTTTCAGATATTTTGTCTTTAGTGTATAGAAAGATTTAGGGCCCCTCTTCTGAGACATCCTCACTGAACTTAATCTAGC
Celera SNP ID:            hCV11508177
SNP Position Genomic:     55737
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27330):
ATGATCTCTAACTACTGGTGTCAAGTGATCTTGTCGCCTCAGCTTCTCAGAGTGCTGGGATTACAGCCATGAACTGCTATGCCTGGCCTAGATGTCTCTT
M
AAGATACTGGTTTCATTTATTTCCTTTGGATATATACCCAGAAATGGGATTGCTGGATTGCATTGTTGTTCTATTTTTAATATTTTGAAGAATGTCCATA
Celera SNP ID:            hCV11508178
SNP Position Genomic:     53226
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,7)   total(A,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27331):
CTTGATTTTATTCCAAATGAGTTGAGAACACAGTAGGGAGTTTTGAGTAGAGAAGTGACATGATATAACTAATTTATTTGATAGATTACTTTGCCTGCTA
Y
GTAGAAGGTAGACGTTAATGGGGAGGAGAGGGAACTGCTACACTCATGATTACAGTTTGTGACAGTGAAATAATACAAATTAAAATCATCAAAGATAAAA
Celera SNP ID:            hCV7806997
SNP Position Genomic:     147839
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27332):
AAGCAGCTGGTGGAACAGTAAGTGTTAGGAGTTGGCACTGTGCTTGTAGGGTGGGAACAGCTCTTTGTTAAGGTGCCTTTGAGCAGATAGATGATGAACA
Y
GTGTAGGCTCCCTGGATGAAGAGTGTTCCAGGTGTGAGACAATGAGAAGTTGAAAAATGACCCTGGAGTGTGTTTGAGGAACTTCTAGGAAGCTTGAATG
Celera SNP ID:            hCV7806998
SNP Position Genomic:     147528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27333):
GATAGCCTACTATATTCCAACGCTATCAGCAGTACAAATAAGAAAGAAAAAACATACCATGTCCTTATTCTTCACAATGCTTTTGTTCTCTTAGAAGTAA
Y
CATATAACCAGTAATAAGCAGATATATAAATAACATATCTTGGAGTAAAAATTGCTATAAGGAAAGTTAAAGCAGCTGGTGGAACAGTAAGTGTTAGGAG
Celera SNP ID:            hCV7806999
SNP Position Genomic:     147358
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27334):
AAAATTAGGGACCAATAACTTTCTCACAGATGCCATATAGATATGTCAAAACACACACTTCAAAGTGATGTGATAGTTCTCTCCTCATTTTGTGTAAACA
R
AAGAGCTCTCATATTGCTTCTTTTTGAAATGTGTTTTTCATTTCAGGGGCATTTGACATTCAAGGATGTAGCCATAGAATTCTCTCAGGAGGAGTGGAAA
Celera SNP ID:            hCV25955339
SNP Position Genomic:     21807
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,16)   caucasian(A,4|G,34)   total(A,24|G,50)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27335):
CCATACCAATGTGATGTATGTGGCAGGATCTTCAGACAAAATTCAGATCTTGTAAATCACCGGAGAAGTCACACTGGAGACAAACCCTACATATGTAATG
M
ATGTGGCAAGTCCTTTAGTAAAAGTTCCCACCTTGCAGTTCATCAGAGAATTCATACTGGAGAGAAACCTTACAAATGTAATCGATGTGGGAAGTGCTTT
Celera SNP ID:            hCV25942302
SNP Position Genomic:     79071
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,34)   total(A,71|C,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:27336):
TAGATAGTGTCAGGATGAGACTGGTCCCCAGAAAGACCAAGCAATTAGAGGATTGGAACTGAAAGGAGGAATGGACTGGAGAGTAAGTTCTATAAAAACT
Y
TTGAACAGGCTGGGCATGGGGGCTCGCGCCTGTAATCCCGAGCGGATCATGAGGTCAAGAGATCGAGACCATCCTGGCCTACATGGTGAAAGCCCGTCTC
Celera SNP ID:            hCV27997345
SNP Position Genomic:     122454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27337):
TTGATATCCCAGGATACTTTCATCGTATATACTGTGTCTCCATTAACATATATTTAAACCTTGACAAGAGTCTCCTGCTTTCTTTGTTTTCTCAAATCTT
Y
GCCTGTTGTGCTACGGGTCCTCATTCTGCACCCCGTCTCCTTAACGTTCTTGTACTATCAGTAAAGTTTTGTGGTGTCTTTGTGTGTGTACAAAATGAAT
Celera SNP ID:            hCV27997346
SNP Position Genomic:     74437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27338):
TCTACTCAAAAGCCAGAACTTGTAAATCTAGGTAATTAAAAGGGCATAGATGTATGAAATGAAATGAGGGTGGCAAAACCTTTACTAGAGTTCAATCACT
R
CTTGTCATAAGAGAGTTTATACTGAAAGGAAATCATATAAATGTATGTGTCAGAGGCTTTCCCCAGGCATTGGAACTCACTAGGCATCAGAATATACATC
Celera SNP ID:            hCV11974298
SNP Position Genomic:     31787
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27339):
ACATCTGGGTTCAGGTGCTTGCTCTGCTGTTTGCAGGTTGTTGACCTAGGTGACTTTCTTAGCCTGTCTGTGACACAGTTGTCTTCTAGTAAGATGGGAA
R
AAATATTTCTGTCATAGGTGATTATGTCATCATTTGAGTTAGAACACGTAAATCCTTTGAAGTAATGCCCGGTACATGGGGAGTGTTCCAAAACTTTAGT
Celera SNP ID:            hCV27941051
SNP Position Genomic:     68317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27340):
ATTGTCTCCAGCAATGAATCAGACAAAAGTGCTCCACCAACCAGGCCCTTGAATCACCTTCCTTGTCCCGTGAATCAGCACAGCCTGCCACGGCAAAGTT
K
TATCAGCCCACTCCTGGAAATGATCAGTGAAGGTCCCATCATGGGCTGCTCATAGTCCTGTGGACCAGGTGCTAAACTTACCTACCAGAGATTAACATTC
Celera SNP ID:            hCV1129591
SNP Position Genomic:     115855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:27341):
CCTATTTAAAATAGCCTTCGTAAGAGGTATGAGGTGATAGCTTATGGTGGTTTTGATTAGCATTCCTCTGATGATTAGTGATCTTGAGCATCTTATTATA
Y
ACCTGTTGGTCATTTGTATGTCTTATTTGGAAAATGTTCAGGTCCTTTGCCCATTTTTATTGAGATTATTTGGGGTATTTTGCTGTAGAATTGTAGGAGT
Celera SNP ID:            hCV27941052
SNP Position Genomic:     53522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27342):
ATTCACCTAGTTGTGTAACCATACCACAATCAATTTTGGAACATATACTATGTATAAATATATATTATCAAATAGTCTTGATGATTATGGTTCTATAGTA
R
GTTTTGAAATTGGGAAGTGTGAGTCCTCCATCTTTGTTCTTTGCTTTGAAGGTTGTTTTGACTATTCTGAGTCCTTTGAATTTCCATTTGAAGTTTAGAA
Celera SNP ID:            hCV1129592
SNP Position Genomic:     146448
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27343):
GAATCTGTGAAGCCAGAGAAGTTATCTGCTTCCAAAATACAATGGTGGGACAGGCATAGGAAACACCCTCAGCCCTGGAAACCACCCTTCTACTTTGTTA
Y
TCTGAATTTGATGTTTGTACTTAGCACGTGTAAGTAAGTGCATGAAGTATGTTTCTTTGTGTGTGTTGGGAACGGGTGCTCAGTGTCGCAAAAATCAACA
Celera SNP ID:            hCV11508182
SNP Position Genomic:     48577
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27344):
CCCACTTTTTTTCCTTGAGATTTCATCTTTGTTTATTTTATGCACATCTTGTTTTTGTCTACATAATTATCTTCTTAGGATTTTCAAATCTGCCTTTTCT
Y
GTCCACTGTCACAGTGTCTCTGCTTGTGTATTACCTCTCTTGCTATGAAATTCCATTTTCCAGGCCTCTCCGGAAAGAGAGACCTTTGAACTCATTACTT
Celera SNP ID:            hCV7807007
SNP Position Genomic:     144670
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27345):
GTCATACTGGAGAGAAACCTCTCCATTGTAATAAATGTGGCATGGTCTTCACTTACTATTCATGCCTAGCACGTCATCAAAGAATGCATACCGGAGAGAA
M
CCTTACAAATGTAATGTGTGTGGCAAGGTCTTCATTGACAGTGGAAACCTTTCAATTCATAGGCGAAGTCATACCGGAGAGAAACCTTTCCAGTGTAACG
Celera SNP ID:            hCV25941940
SNP Position Genomic:     79810
SNP Source:               Applera
Population(Allele,Count): african american(A,28)   caucasian(A,3|C,1)   total(A,31|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27346):
AAGCAATGAAGGAAGAAGAAGGAGGTTGCTGGCCTTGGATATCATAATTTCTGGGGACAACTTTAAGTGGACACTAATATTTCTGACTAGGAAAACTTCA
R
AAACTTCATGGCAAATGCAGAAGAGACAAAGACGTATAGTCCATGTTATCCACTATTTTCTGAGCACAGAAGAAAATGATCAAGACCCAGGTGATATTTT
Celera SNP ID:            hCV25987606
SNP Position Genomic:     120086
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,5)   caucasian(A,34|G,4)   total(A,57|G,9)
SNP Type:                 UTR 5;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:27347):
GGGTTTCACCATGTTGATCAGGCTGGTCTCGAAATCCTGACTTCAAGTGATCCATCCACCTTGGCCTCGCAAAGTGTTGGGATTACAGGTATGAGCCACC
R
CACCCTGCCAAATTAGTATGTTGGGTTTTTAAAAATCCAACTGATACAGCTGTACATTAGCAACAGAGCTCTTGCTTTTACATTATACAATTTTAGTTCA
Celera SNP ID:            hCV11508187
SNP Position Genomic:     44346
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27348):
TCAGCATTGCCATGACTTTGCACATACTATTCGCGGTTGGCACACGTAGTATAACGTGATCTCCTTCTTAACCTTTCTTTCTTTTGTTTTTTTTTTGAGA
Y
GGAGTTTTGCTCCTGTTGCCCAGGCTGGAGTGCAATGACGCCATCTTGGCCCACAGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCT
Celera SNP ID:            hCV11872692
SNP Position Genomic:     136721
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27349):
TACTCTGAAGTGGTAGATTCTCACATCATTCTCTTGCCCCACACAAGAGAGTATAATCTACCTTCTTGTTACAGATCTGATACCTATGTAGTCCTTAAAA
Y
GTAACTCTCCTTTTTCAATATTGCCAGCCCCGTTTGATTTGTCTAAATCTTCTGTCATTTCCCATGAACAGGGTATCAAGCCAGCAAACCAGATGCACTC
Celera SNP ID:            hCV7807018
SNP Position Genomic:     143927
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   JBIC-allele(C,90|T,633)   total(C,90|T,633) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27350):
TTCCAAGTCTTCAAGCATCAGAGGACTCAGAAAATTGAGAAACCCCATGCATGCATTGAATGTGAGCAAACCTTCCTTAGGAAGTCTCAGCTCATTTACC
R
TGAGAACATTTGTATACAAGAGAATCCTGGAAGTGGTCAATGTGAGAAATTATCCAGAAGTGTCCTGTTCACTAAGCATCTGAAAACTAATACAACAGAC
Celera SNP ID:            hCV25988416
SNP Position Genomic:     128977
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,7)   caucasian(A,39|G,1)   total(A,68|G,8)
SNP Type:                 INTRON;UTR 5;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:27351):
AATAAATGTGGCATGGTCTTCACTTACTATTCATGCCTAGCACGTCATCAAAGAATGCATACCGGAGAGAAACCTTACAAATGTAATGTGTGTGGCAAGG
K
CTTCATTGACAGTGGAAACCTTTCAATTCATAGGCGAAGTCATACCGGAGAGAAACCTTTCCAGTGTAACGAATGCGGCAAGGTCTTCAGTTACTACTCA
Celera SNP ID:            hCV25939679
SNP Position Genomic:     79839
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,31)   caucasian(G,17|T,5)   total(G,20|T,36)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27352):
CAGGTGTTATGAAATTAATATAAATAAGATGTTTTTGTAAGTTTTTATTTTGAAATAAGTTTAGATTCACAAAATCTTACCAAAATATTCCAGAGTTCTT
D
CCCTTAACCCAGCTTCTTCCAAAGATAACAACTTACATAAGCATAGTTCATTACCAAATACAGGAAAGTGAAATTGTTACAATACTGTTAACTACAGAAT
Celera SNP ID:            hCV26638804
SNP Position Genomic:     154001
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1|G,1|A,1)   total(G,1|A,1|T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27353):
GTAGAAGGTAGACGTTAATGGGGAGGAGAGGGAACTGCTACACTCATGATTACAGTTTGTGACAGTGAAATAATACAAATTAAAATCATCAAAGATAAAA
A
GTATAGAAAGAAGAATCCAGGAGAAACTGGGTGCAAGCTTTCAGTTCTCCTGTTCTAGTGGAGTTGCACAAAGTGCTGAATTTTCCCTGCAACAGTGTTT
Celera SNP ID:            hCV26638805
SNP Position Genomic:     147940
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27354):
TCTTATTCCTCTTATACTGAATCCTGAGTTTCTCCATACTTTTTTTTTTTGGAAAGAAGGTCTCATCTGTCACCCAGGCTCACTGTAGCCTTGACCTCCT
Y
GGCTCAAGCGATCCTCCCACCTCAGCCTCTTAAGTGGCTGGGACTACAGGCACACATCACCATGCTCAGCTGATTTTTGTATTTCTTATAGAGGTGGGGT
Celera SNP ID:            hCV26638806
SNP Position Genomic:     145030
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27355):
TCTGAGGACACAGCAACAGCCCCTCCATCACTCCTTCTTCCCAAGGAAGAGCTCTTTTTTGTTATAGTATGGAAAATATGCCCCACTTTCTTTTCTTTTT
Y
TTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAGAGCAGTAGCGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGGGAT
Celera SNP ID:            hCV26638807
SNP Position Genomic:     144277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27356):
ATCTGAGGACACAGCAACAGCCCCTCCATCACTCCTTCTTCCCAAGGAAGAGCTCTTTTTTGTTATAGTATGGAAAATATGCCCCACTTTCTTTTCTTTT
Y
TTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAGAGCAGTAGCGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGGGA
Celera SNP ID:            hCV26638808
SNP Position Genomic:     144276
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27357):
ATTTCTTTGACTTTTCAACATTGTTGAATGAATGGATGACCGCACAGTTACAGAATATTTTACTGGAATTCTTATTCTGTCAAAATGTACTAAGAAAAAA
A
CCCCACCAGCTTCCTATGTGGTGAAAATGAGCGGAATGACTTCCTTGACATTCTTTTCCTATCACCAAAAGAATATGACTTCATTAAACAGAAGTGTGTT
Celera SNP ID:            hCV26638809
SNP Position Genomic:     143518
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27358):
GTGGCAAAGCCTTTAGAGTACGTTCAATTCTGCTTAATCATCAGATGATGCATACTGGAGAGAAACCTTATAAATGTAATGAATGTGGTAAAGCTTTTAT
Y
GAAAGGTCAAACTTGGTTTACCATCAGAGAAACCATACTGGAGAGAAGCCATACAAATGTATGGAATGTGGCAAGGCGTTTGGGCGGCGGTCTTGCCTCA
Celera SNP ID:            hCV25933797
SNP Position Genomic:     80518
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,30)   total(C,63|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:27359):
TTAGTCTTATTCTTGGAAGTGGAAGACAGCAGTTATCAGAGAGGAGAATTTAATCAAAAGAATCAGAATAGCATGGTCACAGGCCAGATTCACATTGAAG
Y
ATTTACTCTATATTTTACTGCTGTTACATTCAAAATGTATCAGAAGTCTCATGGTTCAATTAATAAAATGTTATTCGTTTTCGTAACTCAGTGACGTTCC
Celera SNP ID:            hCV8704925
SNP Position Genomic:     33705
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27360):
AACAGATTTGTTTAATCATCTAATAATCTTTGTGCTTTATACATGTTTTATATAGTCTCTTTTATTTCATTCAGAATAAAATAATAATATGGTTAACTAT
R
TTAACCATAGTTATTTAGAATGCATTGTCTTGTGATACTAGCATCTGCCATGTCTTCATTACAGAGTTTGATATTGGCCTGAAAGCTCATAGTGAATTTA
Celera SNP ID:            hCV7807026
SNP Position Genomic:     143188
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27361):
GCACAAACATTTCGGTGCAATAAAGAGCAGTATTGCTGCCAGCATGTCTCACCTGCAGCCCTAAGGTGGTTTTCTCCTATCTCAGTAAACAGAACATACA
R
TCAGGTTTTACACCGAGACATTCTATTCCCAGGGATGAGCAGGAGACAGATGCCTTCCTCTTATCTCAACTGCAAAGAGGCTTTCCTCTTTTACTGATCC
Celera SNP ID:            hCV11526703
SNP Position Genomic:     93646
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27362):
CAGTAAACAGAACATACAGTCAGGTTTTACACCGAGACATTCTATTCCCAGGGATGAGCAGGAGACAGATGCCTTCCTCTTATCTCAACTGCAAAGAGGC
Y
TTCCTCTTTTACTGATCCTCCTCAGCACAGACCCTTTATGGGTGTTGGGCTGGGGGACAGTCAGGTCTTTCCCTTCCCATGAGGCCATATCTCAGGCTAT
Celera SNP ID:            hCV11526704
SNP Position Genomic:     93728
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27363):
CCAGGAGATGGAGGTTGCAGTGAACAGAGATCACGCCACTGGAGTCTTACTCACTCCAGCCTGGGCAACAGAGTGAGTGAAACTCAGTCTCAAAAAAAAA
A
GAAAAAAAGTCAAAGATGTGGATGGTAATGAATAATTTAAATAAGATAGTGCTTATTATTTGCTTAGGACAGTGTTCTCAGATTGCAGTATCCTAGAATG
Celera SNP ID:            hCV26638810
SNP Position Genomic:     141519
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27364):
TCCCAAAGACCACACCTCCAAATACTATCACATTGAGGATTGGGTCCTCAACATAGGAATTTTGGCAGACATTAAGTCTTTATATCAAAGCAGCCTTCAT
Y
GTATCTGTAAGTTTTCATTTTGTAGTTTCTTCCAAACAGTGTTTGTTGTCTTTTATCTTAGTTCATATGCTTTTCAAGTAGAAATCTCTTGATGATATAT
Celera SNP ID:            hCV1719316
SNP Position Genomic:     27512
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27365):
ACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCTGGCTAATTTTGTATTTTTA
S
TAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGCTCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGT
Celera SNP ID:            hCV26638811
SNP Position Genomic:     136880
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27366):
CGGCTTCCCAAAGTGCTAGGATTACAAGCGTGAGCCACCGTGCCTGGCATTTGTATGTCTTATTTGCAAAATGTTCAGGTCCTTTGCCCCCTGTCCCCCC
Y
CCGCTTTTTTTTTTTTTGAGACAAAGTCTTACTCTGCTGCCTAGACTGGAGTGCAGGGGCGCCATCTCGGCTCACTACAACATCTGCCTCCTGGGTTCTA
Celera SNP ID:            hCV1719317
SNP Position Genomic:     9756
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27367):
CCCACAGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCTGGCTAATTTT
R
TATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGCTCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGAT
Celera SNP ID:            hCV26638812
SNP Position Genomic:     136871
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27368):
TTCTTAACCTTTCTTTCTTTTGTTTTTTTTTTGAGATGGAGTTTTGCTCCTGTTGCCCAGGCTGGAGTGCAATGACGCCATCTTGGCCCACAGCAACCTC
Y
GCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCTGGCTAATTTTGTATTTTTAGTAGAG
Celera SNP ID:            hCV26638813
SNP Position Genomic:     136785
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27369):
TAGTCCCAGCTATTCAGGAGCCCAGGAGTTCCAAGTTACAGTGAGCTGTGATCTCCCCAGGCACTCCAGACTGGGCAACAGAGTGGACCTTGCCTCAAAA
A
GAGACAAAAAAAAAACAAAAAAAAAGAAAAACTCTCATATACCAAGGGTGAGAAGAGCAAATGGAACACGAACTTGACTCTGAAAAATAGTTTGACAATT
Celera SNP ID:            hCV26638814
SNP Position Genomic:     136409
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27370):
AAGTGGACACTAATATTTCTGACTAGGAAAACTTCAAAAACTTCATGGCAAATGCAGAAGAGACAAAGACGTATAGTCCATGTTATCCACTATTTTCTGA
K
CACAGAAGAAAATGATCAAGACCCAGGTGATATTTTCCCTTTGATTTTTTGATAGATTTATGGTGGCCTGAAGAAGTCAGTTGAACTTAAGGAAGTATAT
Celera SNP ID:            hCV25987483
SNP Position Genomic:     120150
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,1)   caucasian(G,38)   total(G,67|T,1)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:27371):
CCATATTATGATTAGCTCTTTTCCTTTCTTTGGCTCTGAGCTTAATTGTACATTAAGCAAACTTAAGTAGAAAAGAAACTGAATATGTTAAATATATTAA
H
AACATATTTGGACTTGCTTAACTAAGATTATAGAGATGATCAGTTTATAAAACCACCTTCAACTTAAATAAATTTGAACTCGAAATTGCAAAAGCAGTCT
Celera SNP ID:            hCV26638816
SNP Position Genomic:     131841
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3|A,3|-,8)   total(A,3|C,3|-,8|T,3) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:27372):
CATAAGTTCTTCTTAAGTTTACATCTTATATTCATTGTCTATTAATACCTAAGAAATTACTCCAAAAGGTAGTGACTTGAAACAACACTTAAAAAAAAAA
A
TCTCACACTTTCTGTGGCTCAGGAATAAGGGCATGGCTTACCTGGCTACTTTGATTCACAGTCTCTCATGGGGGTTGTCGTCAAGGTGTTAGCTGGGTTG
Celera SNP ID:            hCV26638817
SNP Position Genomic:     124540
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27373):
ATTAGCGTGCTGAGGCAGTTTGCAAATACACGTTTTGTGCCCTTTTACCATAGATTCCACTTCCAGTAGGTAGGATGGACTCAACCTCCATATTGTTTAA
R
GTACCCAAATTGATTCTAATTTGTATCCAGCATTGAGCGTCCAGCCTTTGTGTCTTCTGTTTCTGAGAGCTGAGCTCAGCCTGTGATCCACAGGGAGGTG
Celera SNP ID:            hCV27854174
SNP Position Genomic:     60628
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,13)   caucasian(A,32|G,8)   total(A,57|G,21)
SNP Type:                 INTRON


Context             (SEQ ID NO:27374):
ATAAAACAATTGTAGCATATTCTTTTAAATTGATATATACTCTTACAGTTCAGCAGATGTTCCATAATTTACCAAAGTATTCATCTCTCATTGTAATTCC
Y
TTTTTTTGTAAATTACAAAAGTTGTGGTTAATATTAAGACAGATTTGCCTAGATAGCTTTTAGAATTGCTGTGTCAAAGAAAACGAAAAAATTAAATTGG
Celera SNP ID:            hCV26638819
SNP Position Genomic:     116584
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:27375):
CCACAGAGGTGACGGGGGGCTGTGCGCTGCATGGGGTTTGATCAGGGATAGGTCCGTGCCCTGAATGGGAGCTCAGTCCAGCCTAGCTACACACTGCTGC
W
GCCTGTGTGTGGGCTTCTCCCAGAGGGGAGCTAATGCTGAAGAAAACGGTGAAAGATTCACTTGGTCTTTGTGTAGGAATTTATTATTCTTGCATCCCCC
Celera SNP ID:            hCV27854175
SNP Position Genomic:     15100
SNP Source:               Applera
Population(Allele,Count): african american(A,31|T,5)   caucasian(A,36|T,2)   total(A,67|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:27376):
AAGTTGAAAAATGACCCTGGAGTGTGTTTGAGGAACTTCTAGGAAGCTTGAATGGATAGAGTAGAGTGAGCAAAAGCAAAACTGTCTGGAAATAAGAACA
R
TGGGGGCATAGTTGGAAGTTTTGGTACAGAGGTCACATACTGCCTGTCAAGGGCATTCATGACCTTGATTTTATTCCAAATGAGTTGAGAACACAGTAGG
Celera SNP ID:            hCV29188612
SNP Position Genomic:     147675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27377):
ACCGGGACGTGATGTTGGAGAACTACAGCAACCTGGTGGCAGTGGGTGAGGACAGCTGCCCTGTGTCACTCAGAGGGTGCCCAGTCAGTGGCCTTCCTTT
S
TCAGCTGCTTACCTGCAGTACTCTGAAGTGGTAGATTCTCACATCATTCTCTTGCCCCACACAAGAGAGTATAATCTACCTTCTTGTTACAGATCTGATA
Celera SNP ID:            hCV29188613
SNP Position Genomic:     143808
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27378):
GGATAGCTGTGTATTACAGACATTTCTTTGACTTTTCAACATTGTTGAATGAATGGATGACCGCACAGTTACAGAATATTTTACTGGAATTCTTATTCTG
Y
CAAAATGTACTAAGAAAAAAACCCCACCAGCTTCCTATGTGGTGAAAATGAGCGGAATGACTTCCTTGACATTCTTTTCCTATCACCAAAAGAATATGAC
Celera SNP ID:            hCV29188614
SNP Position Genomic:     143497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27379):
TTCAGTAAACGTTCAAGTCTTGCAGTGCATCAGAGAATTCATACTGGACAGAAAACTTACAAATGCAATAAATGTGGCAAGGTGTACAGTAAGCATTCAC
R
TCTTGCAGTGCATTGGAGAATTCATACCGGCGAGAAAGCTTATAAATGCAATGAATGTGGCAAAGTTTTCAGCATACATTCACGACTTGCAGCTCATCAG
Celera SNP ID:            hCV25955000
SNP Position Genomic:     30091
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,12)   caucasian(A,34|G,2)   total(A,40|G,14)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIC-allele(G,304|A,1179)   total(G,304|A,1179) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:27380):
TGGAATATTTTAACACTATATATATTAAAACTTCCTGATATATTATTATCAGTATTATTTTTCCAGTCAATACTGATTTAGGCTTTATTAATTACTTACC
R
TTTTGTTCCTCTTCAGACCTTGCTCCTCTGCTTACACTGGAGTCATCTTTCTTTTGCTTGAAGAATATCCGTTAGGATTTGCTGTAATATGTAATTCCTC
Celera SNP ID:            hCV29188615
SNP Position Genomic:     141041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27381):
CATACAAATGTCATGAATGTGGCAAAGCCTTTAATCAGGGCTCCACACTCAATAGACATCAGAGAATTCATACCGGAGAGAAACCTTACAAATGCAATCA
R
TGTGGGAATTCCTTTAGTCAGCGTGTCCATCTTAGACTTCATCAGACTGTTCATACTGGAGACAGACCTTACAAATGTAATGAGTGTGGCAAAACCTTTA
Celera SNP ID:            hCV25955298
SNP Position Genomic:     30650
SNP Source:               Applera
Population(Allele,Count): african american(G,14)   caucasian(A,1|G,35)   total(A,1|G,49)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:27382):
ATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGATCTCGAACTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTGTTGGGATTAC
M
GGCGTGAGCCACCGCACCCGGCCTATATGTTCTTATGGAATATTTTAACACTATATATATTAAAACTTCCTGATATATTATTATCAGTATTATTTTTCCA
Celera SNP ID:            hCV29188616
SNP Position Genomic:     140905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27383):
AACAGTAGAGTTGAGTAGCTGCCACGGAAACCATAGACCTCTCTTTTAACATGGAAATAATTTTTTAAAAATTAGTTTTATTGCTGACACTATTGATTAC
R
AACAACATATAAACTTATTTGTTAATGTTATGGTAATTAGTATTTTATACTCTTCTGCTATGCAGATATCTTAAAATACGTTTTCATTTGCCATCCTCCT
Celera SNP ID:            hCV29188617
SNP Position Genomic:     140515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27384):
TTTATGGTTCAGGTTTTGTTTGGGACTAAATGATTGAGGAACTGTCTTGGGGGTTAAGGTACGGAGGTTTCTGATCCAGGTTTTGGAATTAATCCCGGTG
S
CGGTGGTGGTAGCGCCACAGATTCCGATGTGGGCTGCAGCTCTGGAGGCCTGGGAACCATGGCAGGTGATGGGTTAGCCCCAGCCCTGGCTGCTGGAACA
Celera SNP ID:            hCV29188618
SNP Position Genomic:     138243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27385):
GCTTGGCTGAGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCACCCAAATTGCTGGGATTACAGGC
R
TGAGCCACCACACCGGCCTAAGAGTATGTTGTTTCCACATATTTGTTGATAATCTAATTTTCTTCTGCTGTTGATCTCTAGTTTTATTTTATTATGATGG
Celera SNP ID:            hCV15818380
SNP Position Genomic:     73328
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27386):
AGGGTTTGTTTTGTCAGCGAATCGGTTTATGGTTCAGGTTTTGTTTGGGACTAAATGATTGAGGAACTGTCTTGGGGGTTAAGGTACGGAGGTTTCTGAT
Y
CAGGTTTTGGAATTAATCCCGGTGGCGGTGGTGGTAGCGCCACAGATTCCGATGTGGGCTGCAGCTCTGGAGGCCTGGGAACCATGGCAGGTGATGGGTT
Celera SNP ID:            hCV29188619
SNP Position Genomic:     138218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27387):
AAACTTTGAAATCAAATTTAAGTTTAGTCAACCAGAACAAAAGCTGTGAAATTAACAACTCTACTAAATTTAGTGGAGATGGGAAATCATTTCTTCATGG
Y
AACTATGAAGAACTTTATTCTGCAGCTAAATTCTCTGTAAGTACAAAAGCCAATAGCACTAAATCCCAAGTCAGTAAGCATCAGAGAACTCATGAAATAG
Celera SNP ID:            hCV25772260
SNP Position Genomic:     110732
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,27)   caucasian(C,8|T,32)   total(C,15|T,59)
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:27388):
TCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATCTGCCACCATGCTTGGCTGAGGGTTTCACTATGTTGGCCAGGCTGGTCTC
R
AACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCACCCAAATTGCTGGGATTACAGGCGTGAGCCACCACACCGGCCTAAGAGTATGTTGTTTCCACAT
Celera SNP ID:            hCV15818384
SNP Position Genomic:     73268
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27389):
AGTTGCTTTTACTTTTCGGTGTGTTTATATTATTGTGTTTTATTTGTAAGAAATGAAGGATATTTATACATGGAATTTCCTTTATGTGTAAGAGATAAAA
R
GAATCTTACACATCTCTCCCAATGTGTAAGAGATGAGGGATATTTATACATGGAGTTTCCTTTATACTAAAATAGGGTTTTCAACCCCCTTTAGCTGTAA
Celera SNP ID:            hCV27830725
SNP Position Genomic:     150722
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:27390):
ACCCACAGAGGTGACGGGGGGCTGTGCGCTGCATGGGGTTTGATCAGGGATAGGTCCGTGCCCTGAATGGGAGCTCAGTCCAGCCTAGCTACACACTGCT
S
CAGCCTGTGTGTGGGCTTCTCCCAGAGGGGAGCTAATGCTGAAGAAAACGGTGAAAGATTCACTTGGTCTTTGTGTAGGAATTTATTATTCTTGCATCCC
Celera SNP ID:            hCV27830726
SNP Position Genomic:     15098
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,28)   caucasian(G,34)   total(C,2|G,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:27391):
ATTCTACTGAGTGACATTCTAGACCCAAATTCTCAACTCTGCCATTGTAATGTGATAATAGCCTGAGATGAAATGTCATGGAATGCATGTAGCTGTGTTC
Y
TATAAGACTTTATTTACAAAACAGGTGGTCCAGGTCCTGGATACTATATTACTGACTCTTGATTTAGGTGACCATATGGCTTTTCTGCACAAATTCACAG
Celera SNP ID:            hCV7807035
SNP Position Genomic:     140195
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27392):
TATTGTTAGTATATTCTCCAGAATTTTTCAAATGCATGAGCATATTTATTTTCTGAAAGAAAACAGCCTATTTTGCATTTATCATGCCATGAACTTATTA
T
ACATCATCATACCTATTTTCTAAGATCAACATGTTTTATAATATATTCATGATTATGGTACAAAGATAGTAAAATTAAGTATAAATTGGGAATATTTTTC
Celera SNP ID:            hCV26638820
SNP Position Genomic:     116204
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:27393):
ATATTGTTAGTATATTCTCCAGAATTTTTCAAATGCATGAGCATATTTATTTTCTGAAAGAAAACAGCCTATTTTGCATTTATCATGCCATGAACTTATT
A
TACATCATCATACCTATTTTCTAAGATCAACATGTTTTATAATATATTCATGATTATGGTACAAAGATAGTAAAATTAAGTATAAATTGGGAATATTTTT
Celera SNP ID:            hCV26638821
SNP Position Genomic:     116203
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:27394):
AATATTGTTAGTATATTCTCCAGAATTTTTCAAATGCATGAGCATATTTATTTTCTGAAAGAAAACAGCCTATTTTGCATTTATCATGCCATGAACTTAT
T
ATACATCATCATACCTATTTTCTAAGATCAACATGTTTTATAATATATTCATGATTATGGTACAAAGATAGTAAAATTAAGTATAAATTGGGAATATTTT
Celera SNP ID:            hCV26638822
SNP Position Genomic:     116202
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:27395):
TGAACCTGGGAGGCAGAGGTTTCAGTGAGCCAAGATTGCGCCATTGCATTCCAGCCTGGGCAACAAGAGCGAAACTCTGCCTCAAAAAAAAAAAAAAAAA
A
CCATATTTGAGGACTGTCACAAATCTAAACTCATGATACACTTGATATCTATTCTGTGACAGCATACCTTGCATCATATTATCAATGATTCCATAATTGT
Celera SNP ID:            hCV26638823
SNP Position Genomic:     113471
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:27396):
TCTCCCACTCCTGGCTTCAAATGTTGGTTTCATGTCAGCCTCCCATAGTGCTCGGATTATAGGCAAGAGCCACTGCACTTTGTATTTTTTTTTATTATTG
K
ATTTTTTATTGTTTTTTAAAAAATATTTTCAATCCATGGTTGGTTGAATCCCTGGATGTGAAATTTTCAGATATTAAGGTCTGACTGTAATCTGCCCTTT
Celera SNP ID:            hCV26638825
SNP Position Genomic:     105099
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27397):
ACACCTCCTCCTGAATACTTTAAATCATCTCCAAATTATGCCTGATACTTAATACAATGTAAATGCTATGTACATAGTTGTTATACTATATGTTTTAATT
W
ATTTATTTATTTATTTTTTCTTTAGAGACAGTGTCTCGGTCTTTCACTCAGGCTGGAATGTAGTGGTGCCTTCATGGCTCGCTGCAGCCTTGAACTGGGT
Celera SNP ID:            hCV26638826
SNP Position Genomic:     104782
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,7)   total(A,7|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27398):
ATTATAAGTCATGTTGAGACAGGAGAGTGGCAGTTTAGTTGACAAGAGGGTCTCAATTTATTTTCCAGTGGCATTCAGGGCTAGGCCATACCATACAATT
T
GCCAATTGCCACAGAATCAGGACATTGAAGACATTATTCTGCACTTTTCTTGCTTCTTTTGTTTCTGTGGAAGTCAGTTGTTAGGACATTTTATTTTTCT
Celera SNP ID:            hCV26638827
SNP Position Genomic:     102922
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27399):
GCAGTGTTTGTGTCCCTGGGTACTTGAGATTAGGGAGTGGTGATGACTCTTAAGGAGCATGCTGCCTTTAAGCATCTGTTTAACAAAGCACATCTTGCAC
Y
GCCCTTAATCCATTTAACCCTGAGTTTGACACAGCACATGTTTCCGAGAGCACGGGGTTGGGGGTAAGGTCATAGATTAACAGAATCTCAAGGCAGAAGA
Celera SNP ID:            hCV26638828
SNP Position Genomic:     102581
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27400):
GTTTTCTAAATTTGTATTTATAACTCGTATTCCTTTTCTCTGTCTCCCTCTTTTTTTCTATGTGTTTCTTGTTCTTCATATTGAAGTGTGTATATAAACA
Y
TTTTTTTTTTTTTTTGAGATGGAGTCTTGCTTTTGTCGCCCAGGCTTGAGTGCAATGGCTGGGCTCACTGCAAACTTCGCCTCCTGCGTTCAAGCCATTC
Celera SNP ID:            hCV26638829
SNP Position Genomic:     98220
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27401):
TTATATCATGAACATGTTTTCATTTATTCCTTTTTTTTTTTTCTTTATTTGAGACAGGGACTCGCCCTCTTCCCCAGGATGGAGTGCAGTAGCACAATTA
Y
GGCTCACTGCAGCCTCAACCACCATCTGCCTGCCTTAGCCTCCTGAATAGCTGAGACCACAGGCATCCACTACCACACCCAGCTAATTTTTTGTTCTTTG
Celera SNP ID:            hCV29188620
SNP Position Genomic:     124227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27402):
AAGAAGGAGGTTGCTGGCCTTGGATATCATAATTTCTGGGGACAACTTTAAGTGGACACTAATATTTCTGACTAGGAAAACTTCAAAAACTTCATGGCAA
R
TGCAGAAGAGACAAAGACGTATAGTCCATGTTATCCACTATTTTCTGAGCACAGAAGAAAATGATCAAGACCCAGGTGATATTTTCCCTTTGATTTTTTG
Celera SNP ID:            hCV29188621
SNP Position Genomic:     120101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:27403):
GGTCTTTGCATCATAGACAAGGTAAAGGATTAAGTGCTGTGCTTTTAGATACGCATACACATAAACATCTCAGTGCTTTACAAAGCAGTATTGCTGCCCG
M
ATGTCCCACCTCCAGCCCTAAGGCGGTTTTCCCCTATCTCAGTAGATGGAGCATACAATCGGGTTTTATACCGAGACATTCCATTGCCCAGGGACGGGCA
Celera SNP ID:            hCV29188622
SNP Position Genomic:     102174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27404):
AGGGTCAGCAGACAAACACGTGAACAAAGGTCTTTGCATCATAGACAAGGTAAAGGATTAAGTGCTGTGCTTTTAGATACGCATACACATAAACATCTCA
R
TGCTTTACAAAGCAGTATTGCTGCCCGAATGTCCCACCTCCAGCCCTAAGGCGGTTTTCCCCTATCTCAGTAGATGGAGCATACAATCGGGTTTTATACC
Celera SNP ID:            hCV29188623
SNP Position Genomic:     102146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27405):
AATTTGTCCCTTTTTTTTCCTTTATGGCTTTTAACATGAATATATTTCGTATTTGCTTCTGCTTCCACAGGTTCTTTTGCTTTCTGGTAAGGACTTTAAA
M
AGGAAAAACTTATTTTTGAGTATGAAATTAGGTAGAAACCTACATTTTTTTTCAAACAGATTTATTTCTCGTGTGAAATAATTCCCGAATGTGATGAGAT
Celera SNP ID:            hCV29188624
SNP Position Genomic:     101609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27406):
TTAGAAAGCAGCCAAATCTATATACATTGTGAATTATCTAGCCTTGTTTGTACAGTTGCTTTTACTTTTCGGTGTGTTTATATTATTGTGTTTTATTTGT
R
AGAAATGAAGGATATTTATACATGGAATTTCCTTTATGTGTAAGAGATAAAAGGAATCTTACACATCTCTCCCAATGTGTAAGAGATGAGGGATATTTAT
Celera SNP ID:            hCV27858039
SNP Position Genomic:     150669
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,34|G,2)   total(A,72|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:27407):
TTTCAACCCCCTTTAGCTGTAATTTTCCACTACCTACCCAAATGCTATAAAACTGCCCTCCCCTTATCACCCTTTTCTGACTCCTTTTTCGGACTCAGTC
Y
GCCTGCACCCAGGTGATTAAAAAGCTTTATTGCTCACAAAAAAATAAATAAATAAAATAGGGTTTTCACTAAAGAGTCACCTCACACCAAGGCAGTTTTA
Celera SNP ID:            hCV27840424
SNP Position Genomic:     150901
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,36|T,4)   total(C,70|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:27408):
GGTGTTCCTCCAAGCCCTGTTGTTTGCTTGTAATAATGACTTGCTTGTATTTTACTGTGTCCGCATGTTTTGCAAGGTCCTGTTTAGAAAGCTGTCAAAT
Y
GATATAGATTGTCAACTGCCTCACCTTATTTGCACACAGACTGCTTTTACTTTTTGGTTTGTTTATATTATTATGTTTTTACCAAAGTGTATACATGAAG
Celera SNP ID:            hCV7801800
SNP Position Genomic:     109917
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27409):
CAAACCACACTTAACATCACCAACTCCCTTCTTTTTTTGTTCCTTCGTATTGTTTTTCCTAATTAGAATTCAGCATGAGTGAAAAGAAGGCATATTTTGT
R
TATCCCAAATGCCAGCAGAGTGCCTTGTCCATAGGAGTCATTTGACAAATAACTAGTGGAGTGAATAAATACAACCCTCAGAATTGTGAATCAGTTGCCT
Celera SNP ID:            hCV7801801
SNP Position Genomic:     109673
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27410):
CTTTCCTACACATCTTTCATTGTGGTCTCTGGGAATAAATCAGTAAGGTGAGAGGGCCTGCTTCATTAGGTGTGGTTCCTTCATATCCATGTTTTCTGGA
R
GATTAAGGTCACTGTACTGTGTGAGTTAAGCAGCATGGAATATGGTGGAGAATGATGTAAATTTACAATGTAAGTCACTGAGCTTGTTGTGTTCAGAGTG
Celera SNP ID:            hCV29188628
SNP Position Genomic:     83401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27411):
GTTGGAAATTTTTAATATCTTGAGCATAATTTTTTAAGTTACTATCTTAATTGTGGAAATACCATTTAATAGATTGATCGTTCTTTGTTATATAACATAC
R
TTGCTTTTCTGTAGTAAGTTTCAGTTTCCTAAATATAGCTTGCTGGGTTTTGTTCAAATTGCACTGTTTTTTTCTTTCTTGGAACAAATGCTGTATTATA
Celera SNP ID:            hCV29188629
SNP Position Genomic:     72010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27412):
AGATGCTAAAATTCAGAATAAAAATTGTCCAGGTAAGTGAGAACCAGCAAGGACAGTGGCTATAGGAGTCTTATTGTAGTCATTAAGGAAAGGTGTCACA
K
ATATGAAGTATCTGAGGGTACCTAAGCAGCTCCACTATATATTCATCTCCCCATCTGATAACTTTTTTAATGCTGTTATAGCTTTAAAGACTTTTTGTCT
Celera SNP ID:            hCV25930114
SNP Position Genomic:     127968
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,2)   caucasian(G,9|T,23)   total(G,11|T,25)
SNP Type:                 INTRON


Context             (SEQ ID NO:27413):
AGTCATCTTTGATTATTTTTTTATACTGCATTCTACTGAGTGACATTCTAGACCCAAATTCTCAACTCTGCCATTGTAATGTGATAATAGCCTGAGATGA
R
ATGTCATGGAATGCATGTAGCTGTGTTCTTATAAGACTTTATTTACAAAACAGGTGGTCCAGGTCCTGGATACTATATTACTGACTCTTGATTTAGGTGA
Celera SNP ID:            hCV7807042
SNP Position Genomic:     140166
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27414):
GCACACTTTTGCCAATATTACCTTTTAAGAAAGTTTTAGGAATGGGGTTTTGGGTTACCAGGTATACCTTTATTGGCAATTTTCAATAGAATGTTAAATT
R
TTCCCAAGAAAGGTTCTGCTCTTAATACTGACTCGATCTGTATATGCTTTAGGAGGATATAGGATTTTTCTATTTAAATTTTGTATCCAGCCACCTGACT
Celera SNP ID:            hCV7807043
SNP Position Genomic:     139911
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27415):
CTGTGTTTTCCCTATGAAAAATCAAGTGAAGAAAGTAAAAATGACCTGTCAGATAGCACACTTTTGCCAATATTACCTTTTAAGAAAGTTTTAGGAATGG
R
GTTTTGGGTTACCAGGTATACCTTTATTGGCAATTTTCAATAGAATGTTAAATTGTTCCCAAGAAAGGTTCTGCTCTTAATACTGACTCGATCTGTATAT
Celera SNP ID:            hCV7807044
SNP Position Genomic:     139856
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27416):
AGTGATTCCCACAGCCATTATGGCCGCTCCTGTCAGAAACGCTGCGATGGGCGCAGCCCTGTGACCTCATAGAGCGGCGCCCGCAGTCTGAACTCGCGAT
Y
CCGGGCAGGCTCCGTGGTCCTCGCCTCGCTTCACGGTCTTTACCGCTCAGCTTCCCGGAGTCCGCGCAGGAGCGCGTCTGAATAGGAAGCGTTTTCGGAC
Celera SNP ID:            hCV25988442
SNP Position Genomic:     117512
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,32)   total(C,62|T,2)
SNP Type:                 INTRON;UTR 5;SILENT MUTATION


Context             (SEQ ID NO:27417):
AATATGTTAAATATATTAACAACATATTTGGACTTGCTTAACTAAGATTATAGAGATGATCAGTTTATAAAACCACCTTCAACTTAAATAAATTTGAACT
Y
GAAATTGCAAAAGCAGTCTAGAGGCTTTGCTAGTATCCTTCAACCAATTTCTAGTAAAAATATCCTATATAACCATAATTATCAAAACCAGAAAAACAAC
Celera SNP ID:            hCV1597636
SNP Position Genomic:     131922
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:27418):
GTAATTAAGTTTATTAATCAGCTGACTTTAGCATTGGGAGATTATTCTGGATTGCCCAAGCACTTAAGAATAGGAGAAACCGGAGAGATGCAGCAGCAAT
A
GTCAGTGGTTTCAAATATGAAAGGGATTTCACATACTATTGTTGGCTTTAAAGATAGGAAGTCGTGGGGGCAAGGAAACTCTCTAAAGGAAATTAATCTG
Celera SNP ID:            hCV26638830
SNP Position Genomic:     96259
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27419):
TGTAATTAAGTTTATTAATCAGCTGACTTTAGCATTGGGAGATTATTCTGGATTGCCCAAGCACTTAAGAATAGGAGAAACCGGAGAGATGCAGCAGCAA
T
AGTCAGTGGTTTCAAATATGAAAGGGATTTCACATACTATTGTTGGCTTTAAAGATAGGAAGTCGTGGGGGCAAGGAAACTCTCTAAAGGAAATTAATCT
Celera SNP ID:            hCV26638831
SNP Position Genomic:     96258
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27420):
GAGACTAGGATTGCAACCCCTGCTTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCCTTTTTTTTTTTTTGAGCATATGTGTGTGTCTGCA
Y
GTGAGATGGGTCTCCTGAATACAGCACACTGATGGGTCCTGACTCTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTT
Celera SNP ID:            hCV26638832
SNP Position Genomic:     92692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27421):
TTTGAAGTGTTTTTTATGTCTGTATCTCCGTCAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTCTC
Y
AGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTAGATCTTTTCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTATACACTGCTTTAA
Celera SNP ID:            hCV26638833
SNP Position Genomic:     91857
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27422):
CCAATTCAGGATGTTTGTGTTTGTCTTTCCTCATGAACAGGGTATCAAACTAGCAAACCAGATGTACTCTCCAAGTTGGCACATGGACAAGAACCATGGA
Y
AACAGATGCTAAAATTCAGAATAAAAATTGTCCAGGTAAGTGAGAACCAGCAAGGACAGTGGCTATAGGAGTCTTATTGTAGTCATTAAGGAAAGGTGTC
Celera SNP ID:            hCV25924133
SNP Position Genomic:     127864
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,19)   caucasian(C,24|T,14)   total(C,33|T,33)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:27423):
GGGTGTATGTGTCCAGGAATTTATCCATTTCTTCTAGGTTTTCTAGTTTATTTGCGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGG
R
GATCGGTGGTGATATCCCCTTTATCATTTTTTATTGTGTCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTTTTGCTAGCAGTCTATCAATTTTGTT
Celera SNP ID:            hCV26638834
SNP Position Genomic:     91619
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27424):
AAATAGGAAATCCTTTCCCCATTTCTTGTTTTTGTCATGTTTGTCAAAGATCAGATGGTTGTACATGTGTGGTACTATTTCTGGGGGCTCTGTTCTGTTC
C
ATTGGTCTATATCTCTGTTTTGGTACCAGTATCGTGCTCTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCGTGATGCCTCCAGCTTT
Celera SNP ID:            hCV26638835
SNP Position Genomic:     90141
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27425):
GTCCCTACAAAGGATATGAACTCATCCTTTCTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGATGGAC
R
TTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCGATAAACATACATGGACATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTAT
Celera SNP ID:            hCV26638836
SNP Position Genomic:     88591
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27426):
AGCTTCATCCATGTCCCTACAAAGGATATGAACTCATCCTTTCTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTA
Y
CATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCGATAAACATACATGGACATGTGTCTTTATAGCAGCATGATTTATAA
Celera SNP ID:            hCV26638837
SNP Position Genomic:     88579
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27427):
TGCTAGTCTTGCCCCCTTTAAGATGTGTTCAACCCTGGCTTCACATTAGCGTGCTGAGGCAGTTTGCAAATACACGTTTTGTGCCCTTTTACCATAGATT
S
CACTTCCAGTAGGTAGGATGGACTCAACCTCCATATTGTTTAAAGTACCCAAATTGATTCTAATTTGTATCCAGCATTGAGCGTCCAGCCTTTGTGTCTT
Celera SNP ID:            hCV27858040
SNP Position Genomic:     60584
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27428):
AGTGCTGGGATTACAGACATGAGCCACAACCCTGGCCCATTAATCTTTTATTTTTTAATTTTTTTTATTATACTTTAAGTTCTAGGGTACATGTGCACAA
Y
GTACAGGTTTGTTACATATGTATACATTTGCCATGTTGGTGTGCTGCACCCACTAACTCGTCATTTACATTAGGTATCTTTCCTAATGCTATCCCTCCCC
Celera SNP ID:            hCV26638838
SNP Position Genomic:     88230
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27429):
TCTAATTATTTCACTGAACTTAAAATGTAAGGGACCTTCTACATATTGATAGAACACATGCTTTGCATCTGTCATTTCTCTGTGTGTGTGTGTGTGTGTG
K
ATATATATATATATATATATATTTTTTTTTTTTTTTTTTTTTAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGCGGCGCGATCTCAGCTCACT
Celera SNP ID:            hCV26638839
SNP Position Genomic:     86516
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,7)   total(G,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27430):
AGGTGACTTTCTTAGCCTGTCTGTGACACAGTTGTCTTCTAGTAAGATGGGAAGAAATATTTCTGTCATAGGTGATTATGTCATCATTTGAGTTAGAACA
Y
GTAAATCCTTTGAAGTAATGCCCGGTACATGGGGAGTGTTCCAAAACTTTAGTTCTTGCTGTTGCTCTTGTCATCGCTGTTTTTAGTTTCTGACCTTTCT
Celera SNP ID:            hCV29188630
SNP Position Genomic:     68364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27431):
TTTGAATTTTTGTGTATATCTTTTTGTAGATTATATTTGATTGCTTTTAAAGTTTCAGATTATAAATGTCATAATAGGTTCATATGAAGATTGGCAAACC
Y
CTCCATTTTCTTTCCAAAATTTTGTTGGTTCTTTTTTTATACAACAGTCACATTTTATTAAATTCCCACATATTTTGTTTGTGTTTGAATGGCCATGAAT
Celera SNP ID:            hCV29188631
SNP Position Genomic:     63571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27432):
GGGCTGAGGTTGCTCCTGCCTCAGGGCCTCTACCTGGGCTGTCTGGCCCCTCAGCTGCAGGTGCAAACATCCTTCCTTCTTGAGGTCTTTGTTCTGATAT
Y
ACCTTCTCCATTGGGACTTCTGTGCCTCACCCTCCTCTCACCATTTAACACTCCAGCCACACCCTCACCCCACCCCTGGTGCATATTATGTGTCTCTGTG
Celera SNP ID:            hCV29188633
SNP Position Genomic:     60300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27433):
TTATGTTTAGTGTAGGTATGTTTCCAATATAAAATGTTTGTTTATCAATAGTAGTAGTTTAAAAAAAAACTCATGTTCATTATATTTTGCAGGTATCTCT
Y
CTAAATGTGTGATCAAGGAATTACCACCAACAGAGAACAGTAATACAGGAGAAAGGTTCCAAACAGTGGCACTGGAAAGACATCAAAGCTATGATATTGA
Celera SNP ID:            hCV7797088
SNP Position Genomic:     28887
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,33|T,7)   total(C,70|T,8)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:27434):
CTGTACTTCCTGGCTTTAGCTTTACATGTCAGCATATATTTGAAACAGAGAAAACATGACATTAAAAAGAAGTGCTTTAATTCATGTGATAAAGAAAAGT
Y
ATGTTTACTTAAAAAGGGTGAGGAAATGCATAGTTTCTGAAATTACTGTGAGCTGTGGGAGAAAGATGTTTGAATACCTCATCTCTACCTAATCTGCTCC
Celera SNP ID:            hCV29188634
SNP Position Genomic:     60016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27435):
CACCCACCTACCCACCTACACGTCTCCATGTCCCCTGCAGACCTGTCCCCTGAACTCTAGAATTCTGTGTCCTTTTGTCCTCTCCTCTCTCTGCTTAGCC
R
TCTAACAGGTATCTCCACCAAAAGTGATTGCCTGAACTCACCAAGTACATTCCCCTGCACTCCTGCACATCTCAGATGATGGTGACCCTGTACTTCCTGG
Celera SNP ID:            hCV29188635
SNP Position Genomic:     59828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27436):
CTGACTCTGAATGTTTCCCAATGTGGGAATGACTCATGGCTTAGTCCTTGAACCTCTTCTTGTTTCTGTCCACACCCACTGTCTTTCCTCATCATCTCAT
Y
TTATGAATTTAAACCCCACTGTATTAGTCCATTCTTGAATTGCTATAATGAAATACTGGAGACTGGGTAATTTATAAAGAAAACAGGTTTAATTGGCTCA
Celera SNP ID:            hCV29188636
SNP Position Genomic:     59297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27437):
TGCATTTTGTATGTATTTGTATCAAAAGATATTTGGAATTCCTATTTAGCCAGAGGGCAGTGACTTGATCCAGTTATTTGTGGTAACTCTCTTCTTCCCA
R
TGATGGAGTAGAGCATAAAGGAGGGGAGAAATGGGGCAAGAAATGACTGACTGTCACTACAAGATATGTCTTTGGTGTTTTTTTTGGCTTTGTTCTGTTT
Celera SNP ID:            hCV29188637
SNP Position Genomic:     51793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27438):
TACAGGTGTGAGCCACCGTGCCTGGCCTTGATACGACTTTTCTACTGCATGCAGAATGTGATTGAAGAAAATGACAGTTTTCATATCCCATGCAGCAGCA
M
ATTTTCTTCTGAAGGCAACTACATGGTACACTGGCCAGTTGCAAAATTCCCTATCATTGTTTTCCTGTTTCATAATTAATGAAACATATGATAACGCAAC
Celera SNP ID:            hCV7801811
SNP Position Genomic:     108466
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27439):
AATATCTAGGCTAAAATGTGGGAGCTAAGAACACAGAGTATATTGATTTATCTATTATGGCTAGCAGATATTTAAGAATATTAGCACAGGTCTTTGAGTA
M
ATTTTGCTTCTAAGAGAGGTTACTATCTATTCTCAATTAGACTGGGAGGAAAGTCCCTTTGAAGAGGAACCTCTACTTATTTCATTTTCTACACTGTGTC
Celera SNP ID:            hCV29188638
SNP Position Genomic:     49448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27440):
GATTACAGGTGTGAGCCACCGTGCCTGGCCTTGATACGACTTTTCTACTGCATGCAGAATGTGATTGAAGAAAATGACAGTTTTCATATCCCATGCAGCA
R
CACATTTTCTTCTGAAGGCAACTACATGGTACACTGGCCAGTTGCAAAATTCCCTATCATTGTTTTCCTGTTTCATAATTAATGAAACATATGATAACGC
Celera SNP ID:            hCV7801812
SNP Position Genomic:     108463
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27441):
GTTTACTTTCTGCAGAAAGGGTGCTGCTCACTAGCAGTCTTGCCACGAGAGTACACATGAACAAAAGAGAAGGGTCATTTATAACCTGACGCATCTGGCC
R
GGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACGCAGTGAAA
Celera SNP ID:            hCV29188639
SNP Position Genomic:     48807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27442):
AGGCAGAGGTTGTGGTGAGCCAAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCACAACTCCATCTCAAAAAAAAGAATGAAGGCATGAAATAG
R
AATTGTGCAAGGCCATGGGCCTGACTATCAAAAGATTGGCTTCAAGTTGGCCAAATACAGGTCAGTGATAGAAGCTGCTTGTTGGAGAAATCGTGGAGCA
Celera SNP ID:            hCV7801813
SNP Position Genomic:     107628
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27443):
TTCTCCCACCTCCTGGAAGGGGAGGGGTGCTGGAGATTAGATTAGACAATGAGATTAAGAGAACTCCAAATAGCCCAAGAGGGTGGTGCACCCCCAACTT
Y
ATAGGGGTAGAGGCTCCTGAGATTAGGAGAACCCTTTTTAGGCTTTACTCTATGTACCTCTTCATTTGAGTGTTCATTTGCGTCCTTTATAACCAGTAAA
Celera SNP ID:            hCV7807120
SNP Position Genomic:     131266
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:27444):
GAATTCAAGATGTGAAGTCTATTCATGACAGATCCTTATATTGGTTGTGAAGTCATTGGTAATGTAGGGATGTTTTATTTGTCCTGATGTCATTTGCCTA
Y
GTTTAATATTTAGAAATAGGCGCTAAAATGTATAGATAGAGGATTTTGCTCCTACCAAAGTATATTTGAGAAAGGAATATAGATGCAGGCTGTATTGTGA
Celera SNP ID:            hCV7807121
SNP Position Genomic:     127232
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27445):
GAACTCATGAAATAGAAAAAAACCACGTATGCAGTGAATGTGGGAAAGCGTTTGTCAAGAAGTCTCAGCTCACTGATCATGAGAGAGTTCATACAGGAGA
R
AAACCTTATGGATGTACTTTGTGTGCAAAAGTGTTCTCCAGAAAGTCCAGGCTAAATGAACATCAAAGAATTCATAAAAGAGAGAAATCTTTTATATGCA
Celera SNP ID:            hCV25772358
SNP Position Genomic:     110918
SNP Source:               Applera
Population(Allele,Count): african american(A,18)   caucasian(A,39|G,1)   total(A,57|G,1)
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:27446):
TACAGATTAACAGCATCTCAAGGCAGAAGAATTTCTCTTAGTACAGAACAAAATGAAGTCTCTTACGTCTACTTCTTTCTACATAGACACAGTAACAGTC
K
GATCTCTCTTTCTTTTCCCCACATCTGACACCAGATATGTGGGGTTTTTCCCACACATCAATTCAATTCTCCATACCTATTAGGTATTCTAAAATTTACT
Celera SNP ID:            hCV27872121
SNP Position Genomic:     121402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27447):
TAATTTAGACTGCACTAACTAACTTGCACTGCACTAACTTGGACTGCACTAACTTGTGGAGTCTGCACTAACTTGGAGAAGTTAGTGTCAGAATTGAATT
R
TAGAACACCCAGTTGTTCAGAATTGAATTGTAGAACACCCAATTGGTGTGGGAGAATTAGAGAATTTATTTGTGTCAGAAAATACTCCAGAACAACCACC
Celera SNP ID:            hCV1597640
SNP Position Genomic:     131640
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:27448):
AGTATTCAGAAGAGTGTGAAACAGTGCCATGAACAGAATATGTTTGGAAATATTGTTAATCAGAACAAAGGTCATTTCCTGCTGAAGCAAGATTGTGATA
Y
GTTTGACTTACATGAAAAACCTTTAAAATCAAATTTAAGTTTTGAAAACCAGAAAAGGAGCTCTGGCCTAAAGAACTCTGCTGAGTTTAATAGAGATGGG
Celera SNP ID:            hCV1597642
SNP Position Genomic:     151217
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27449):
ACTCCAGAGCTGAGGTACGTGTAAAACCTTATGGCGGAGTTAATATATCCAATTCCCTGTTCTTCCTGTTTTCTATCCTTGTGCTTTTTTTTTTTTTTTT
T
GACACAGTCTCAGTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTTGTGATCTTGGCACACTGCAACCTTAGCTTCTTGGGATAAAGCCATCCTCCC
Celera SNP ID:            hCV1597643
SNP Position Genomic:     69256
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27450):
TTGTTGATTCACAAATAAAAAGCTTCATAATGCTGCATCTGGCCTTTAACTGTCCCATTTCTATGGATATTCTGCTTCCTTCTTTGTACATTAGTGGTGA
Y
TCCAGAGCTGAGGTACGTGTAAAACCTTATGGCGGAGTTAATATATCCAATTCCCTGTTCTTCCTGTTTTCTATCCTTGTGCTTTTTTTTTTTTTTTTTG
Celera SNP ID:            hCV1597644
SNP Position Genomic:     69157
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27451):
GAGTGTCCCTTGCAACGAAGAGAGAAAGGCACTGAGGTGACTAAGAGTGATTCCCACAGCCATTATGGCCGCTCCTGTCAGAAACGCTGCGATGGGCGCA
R
CCCTGTGACCTCATAGAGCGGCGCCCGCAGTCTGAACTCGCGATCCCGGGCAGGCTCCGTGGTCCTCGCCTCGCTTCACGGTCTTTACCGCTCAGCTTCC
Celera SNP ID:            hCV25988525
SNP Position Genomic:     117467
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(G,32)   total(A,2|G,62)
SNP Type:                 INTRON;UTR 5;SILENT MUTATION


Context             (SEQ ID NO:27452):
TTTTTTATTATACTTTAAGTTCTAGGGTACATGTGCACAATGTACAGGTTTGTTACATATGTATACATTTGCCATGTTGGTGTGCTGCACCCACTAACTC
R
TCATTTACATTAGGTATCTTTCCTAATGCTATCCCTCCCCACTCCCCTCACCCCACGACAGGCCCTGGTATGTGATGTTCTCCACCCTGTGTCCAAGTGT
Celera SNP ID:            hCV7807129
SNP Position Genomic:     88290
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27453):
AGAAATACGAACATGAAATTCTTATTCTCTAGAAATTACAAAACGTAAGTAAAATGAAGAAATTTTAAGTCACCATAATTGTACGGAACAGTCAAATATT
R
TTAGTATATTCTCCAGAATTTTTCAAATGCATGAGCATATTTATTTTCTGAAAGAAAACAGCCTATTTTGCATTTATCATGCCATGAACTTATTATACAT
Celera SNP ID:            hCV1597645
SNP Position Genomic:     116108
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27454):
CTGCCCACACAGAGCAGGCGTCAAAGCAGTGAGGGCATCTGAGGACACAGCAACAGCCCCTCCATCACTCCTTCTTCCCAAGGAAGAGCTCTTTTTTGTT
R
TAGTATGGAAAATATGCCCCACTTTCTTTTCTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAGAGCAGTAGCGCAATCTT
Celera SNP ID:            hCV1597648
SNP Position Genomic:     144240
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27455):
TTGTTTCATGTTTATAATGAGATAGCATATTGGCTTTACCTTAGTCAGCATGACTAGCTATATCAGATACCATAGATAGGGTGGTTTAAACAGCAGAAAT
K
GACTTTTCACAGATCTGGGTGGTGCAAAGTTCAACATGTCAGAGCCAGCCACTTTGGTTCTTGGTGTGGACTTTTTTCTGGTGTGCCATGGCTGACTCTG
Celera SNP ID:            hCV26638841
SNP Position Genomic:     76093
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;(T,-|G,-)   Caucasian(T,11|G,71)   African-American(T,6|G,68)   Asians(T,30|G,44)   total(G,183|T,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:27456):
AGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTATAAAAACTTTTT
W
ACATATTTCTTTGTCCCAGTGATTTGCTTAATTTTTAAAATTGCCTTCTATATTATCATGTGAATGGATTAGTTTTATGAATAGTAATGTATTATGTGTG
Celera SNP ID:            hCV26638845
SNP Position Genomic:     67477
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27457):
GATGGAGTAGAGCATAAAGGAGGGGAGAAATGGGGCAAGAAATGACTGACTGTCACTACAAGATATGTCTTTGGTGTTTTTTTTGGCTTTGTTCTGTTTT
K
TTTTGGGGGGGGACATGGTCTCTCTCTGCCGCCTAGGCTGGAGAGCAGTGGCATGATCTCGGCTCACTGCAGCTTCTACTTCCTGGCCTCAAGCAGTCTT
Celera SNP ID:            hCV26638846
SNP Position Genomic:     51895
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,8)   total(G,1|-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27458):
AGGCAGAGCTTGCAGTGAGCCGAGATAGCGCCACTGCACTCCGGCCTGGGCGAAAGAACGAGACTCCGTCTCAAAAAAAATAATAATAATAATAACCTGA
Y
GCGTCCACCCTACTGCTGTGTCTGGTTTCCATTGGCTGGAATCGGACCCAATTCTGTGCTTGACCTGATTGGCTAGCACCTTAGAACTTCCCAAAAGAGG
Celera SNP ID:            hCV26638847
SNP Position Genomic:     49112
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27459):
CGTGGGTGCTTGTAGTCCCTGCTACTCTGGAGCCTGAGGCTCGAGAATTGCTTGAACCCAGGAGGCGAAGGTTGCAGTGAGCTGAGATCATGCCACTGCA
Y
TCCAGCCTGGGTGACAGAGGGAGACTCTGCCTCAAAAAAACAAAACAAAACAAAATTTTAAAAAACTGCCTTTCTTCATGGTCCAGGACATATAAACAAA
Celera SNP ID:            hCV26638849
SNP Position Genomic:     47105
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27460):
ATTAGCCGGGTGTGGTGGTATGTGCCTATAATCCCAGCTACTCAGGAGGCTGAGGTGGGAGAATCGCCTGAACCCTGGAGGCAGACATTGCAATGAGCCA
R
GTTCATGCCACTGCACTCCAGGCTGGATGACAAACCCCCCTGCCTCCACCACACACCCAAAACTTGTGTTTTGATAGCCTACTATATTCCAACGCTATCA
Celera SNP ID:            hCV27466041
SNP Position Genomic:     147185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27461):
CGCAAAAATCAACACTGAGACAAAGGATCTCTCAGCAAGGCTAGTTTACTTTCTGCAGAAAGGGTGCTGCTCACTAGCAGTCTTGCCACGAGAGTACACA
W
GAACAAAAGAGAAGGGTCATTTATAACCTGACGCATCTGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATC
Celera SNP ID:            hCV29188640
SNP Position Genomic:     48764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27462):
GTTTATTCAGGTTTCATTTTTCTGTTCCACAATGAAGTGTTGTGAGTGAGGAGAACTCTACTGGGCTCTCAATGAAAAGAAGTCTCATGAGACTGTCATG
M
GATCCTTGCTTGTGACTTGAAGTTACATTTTGGCTTATTCTTTTATATTTTTTAGAAGTGGGGGTGAATATTTGGTGTGAGCAAAAGAGGAACAGATTAT
Celera SNP ID:            hCV29188641
SNP Position Genomic:     43933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27463):
TAAGCTCTGTTATGCTTCTAGCAAATTGTGAGACTGTTTGTTTCCACCCTCATAACCTGTTGCAATAAATATTATTTCTCACATATTTTAATATTATTAA
R
TTTGTTGGAGAAAACAAACCATAAAAATTCATTTGCTGTTCAGTTTTCAATTACAATAAAGAAATAGAACATTGTTAATTTCTGAGACTTGATGGACAGT
Celera SNP ID:            hCV29188642
SNP Position Genomic:     37608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27464):
CCAGATTCACATTGAAGTATTTACTCTATATTTTACTGCTGTTACATTCAAAATGTATCAGAAGTCTCATGGTTCAATTAATAAAATGTTATTCGTTTTC
R
TAACTCAGTGACGTTCCTTTCACCAACACAGATTTATCCCACCTTAGTAAAGAACTTCTAACAGACACTGCATTACACTCTGCTGGTTAAAATAATGTGC
Celera SNP ID:            hCV29188643
SNP Position Genomic:     33788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27465):
TTGAGGATTGGGTCCTCAACATAGGAATTTTGGCAGACATTAAGTCTTTATATCAAAGCAGCCTTCATCGTATCTGTAAGTTTTCATTTTGTAGTTTCTT
Y
CAAACAGTGTTTGTTGTCTTTTATCTTAGTTCATATGCTTTTCAAGTAGAAATCTCTTGATGATATATATTTTGTGGCCAGTTAACTAGGTAATTAGAGG
Celera SNP ID:            hCV29188644
SNP Position Genomic:     27544
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27466):
CTAGCCAGTTTTTCCAGCACCCTTTATTGAATAGAATGTCTTATCTCAATTGTTTTTGTTGACTTTGTCAAAGATCAGTTGGTTGTAGGTATGTGGCTGT
R
TTTCTGGGTTTCCTATTCCATTCCATTGGAGATCTGTGGCTGTATTTCTGGGTTCCCTATTCTGTTCTATTGGAGATCTTCTATTTTAACAGAAGCATTT
Celera SNP ID:            hCV29188645
SNP Position Genomic:     24253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27467):
AGACGTATAGTCCATGTTATCCACTATTTTCTGAGCACAGAAGAAAATGATCAAGACCCAGGTGATATTTTCCCTTTGATTTTTTGATAGATTTATGGTG
R
CCTGAAGAAGTCAGTTGAACTTAAGGAAGTATATACTGGGATAATTGTGTTCTAGGGAGAAATTAACTTACATTGCTTTTGGGAGTAGAGGTGGGGGTTC
Celera SNP ID:            hCV25986424
SNP Position Genomic:     120216
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,17)   caucasian(G,36)   total(A,1|G,53)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27468):
GTAGCCCATTTCTTGCACTTCAAGGACTTCTCAACTGATGTTTATAAAACCTATATATTTTTTCCCGTCATGCTTAGGGAATGAGGAATAAATTTTTTTT
W
AAAAATTATATTTTATCCAGAAGTGTTTTTCCTAAGTTTTCTTCTAGGATTTTTGTAGCCTGAGGTCTTACATTTAAGTCTATATCCATCTTGAATTAAT
Celera SNP ID:            hCV29188646
SNP Position Genomic:     24002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27469):
ATTTTCAAATCTTACTTTATTATACATGTAGCCCATTTCTTGCACTTCAAGGACTTCTCAACTGATGTTTATAAAACCTATATATTTTTTCCCGTCATGC
Y
TAGGGAATGAGGAATAAATTTTTTTTAAAAAATTATATTTTATCCAGAAGTGTTTTTCCTAAGTTTTCTTCTAGGATTTTTGTAGCCTGAGGTCTTACAT
Celera SNP ID:            hCV29188647
SNP Position Genomic:     23975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27470):
GTGCCCTATTTGAGTTTCAGACTTAACATGGGAGTGGCTACCTCTTCTTTCCTGTTTCTGCATTTTGGAGTTGAAATATTTAGCCTGTGTCTACGCCACC
R
TTGGATGTTGGAAGCACTTAAGTCGTTTGATTTCACACGTTCACAGCTGGAGAGCAGTTTGCCTCAGGATGAAACACATTTTTGAGTCTCACCCATATCT
Celera SNP ID:            hCV29188648
SNP Position Genomic:     20545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27471):
TCTGGTACTGCAGATATCTGTGGTACTAGATCTTCACCCTCATGTCTTTCTGTGTTATTGCAGACACCGGTTTACGTCAGTTATCTTTTTGCTCAGTGGC
S
CCTAACCTTTCATCCTGTTCCTTTCAGTGCTACCACAGGAGGTCACCACTAAGGCAATTCTCAGCCTAGCCATGGAGGCAGGGACACCTTAGAGAGTGCT
Celera SNP ID:            hCV29188649
SNP Position Genomic:     20094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27472):
TCGCTCTTCACCCTTAGAGACAAGTGGCTCTTGTAAAAGGGGGTCATCTGGTTTGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAG
S
TGGGCAGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGATGGGCATGGTGGTGT
Celera SNP ID:            hCV11977546
SNP Position Genomic:     84113
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27473):
GTGTTCCCCACTGAGTGTTTGGGGGACTTAGTAGGGTCCCCAGTGTTTGCTCCTGGTTTTAGCCTCAGGAGCACTTGGTAAGGGGGCTATAGGGATGGTC
R
CTCTTCACCCTTAGAGACAAGTGGCTCTTGTAAAAGGGGGTCATCTGGTTTGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGCTG
Celera SNP ID:            hCV11977547
SNP Position Genomic:     84015
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27474):
ACTATGCCTACAGGTGCAAACCACCATGCTTGGCTAATTTTTTTTTTTTTTTGTAGAGATGGAGTCTATGTTGCCCAGGCTGGTCTCCCACTCCTGGCTT
Y
AAATGTTGGTTTCATGTCAGCCTCCCATAGTGCTCGGATTATAGGCAAGAGCCACTGCACTTTGTATTTTTTTTTATTATTGTATTTTTTATTGTTTTTT
Celera SNP ID:            hCV7801824
SNP Position Genomic:     105016
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27475):
CAAATACTCCCAAACCTGGAAAACAAAATCCTGCTGGGTGAGAGGCGGAGTGGAGAACAGGCCCCGCCTCGGCCCCGCCCACCCCTGGAGGCCCCGCTTC
R
TCCCAGTTTTCGGTCCAGCCAAGCCCCACCTAGTCACGCCCCCTACCGCCCTGGGCCTCCCACCACCCTTTCGGGCCACTCCCAAGTCAGGCCAGTCTTT
Celera SNP ID:            hCV7807203
SNP Position Genomic:     49954
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27476):
TTGGCCTCTCAAAATGCTGGGATTATAGGTCTGAGCCACCATACCTGTCTCCATTTTTTTTTTTTTTTTTGAGACTGCTCTGTCGCCCAGGCTGGAGTGC
R
GTGGCGAAATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCCAATGATTCTCCTGTCTCAGGCTCCGGAGTAGCTGGGATTACAGGCACGTGCCACCA
Celera SNP ID:            hCV7807130
SNP Position Genomic:     77269
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27477):
CCAATAGCACTAAATCCCAAGTCAGTAAGCATCAGAGAACTCATGAAATAGAAAAAAACCACGTATGCAGTGAATGTGGGAAAGCGTTTGTCAAGAAGTC
K
CAGCTCACTGATCATGAGAGAGTTCATACAGGAGAAAAACCTTATGGATGTACTTTGTGTGCAAAAGTGTTCTCCAGAAAGTCCAGGCTAAATGAACATC
Celera SNP ID:            hCV25772293
SNP Position Genomic:     110882
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,30)   caucasian(G,1|T,39)   total(G,5|T,69)
SNP Type:                 SILENT MUTATION;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,32)   caucasian(G,1|T,33)   total(G,5|T,65)   
SNP Type:                 SILENT MUTATION;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:27478):
CAACTTTAAGATTCAACCTTAAATTCTGAAACATTAATTTAAAATGGGCAAGGAGCAACGCTGCTTCACAGGACAAGAAATAGTCACAAATACTCCCAAA
Y
CTGGAAAACAAAATCCTGCTGGGTGAGAGGCGGAGTGGAGAACAGGCCCCGCCTCGGCCCCGCCCACCCCTGGAGGCCCCGCTTCATCCCAGTTTTCGGT
Celera SNP ID:            hCV7807204
SNP Position Genomic:     49868
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27479):
AGCTGAATCTCCTCTTCTTATAAAGAAATCAGCCAGATTGGATCAGAACCCACTTTAACAAGCTTATTTTTACTTGATCACTCCTGTAGATGCCATATAT
Y
CAAATACAGTTATATTCTGAGGTACTGGGTATTAGGACTTCAAGATAGGGTTTTTTTTGTGTGTGGAAATTTTTCTGCTCATAACACACTGTGTTCTGGA
Celera SNP ID:            hCV7807205
SNP Position Genomic:     47757
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27480):
GAGGTTTCACCATGTTGGCCTGGCTAGTCTCAAACTCTTGGCCTCAAGTGATCTGCCCACCTTGGCCTCTCAAAATGCTGGGATTATAGGTCTGAGCCAC
S
ATACCTGTCTCCATTTTTTTTTTTTTTTTTGAGACTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGAAATCTTGGCTCACTGCAACCTCCGCCTCCTGG
Celera SNP ID:            hCV7807137
SNP Position Genomic:     77208
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27481):
TTCCGATATTTCTTTTGAAAAATGTTTCATGTGCAGTTCTGAAAAATTTGTATTGCACTGTTTTTGGGTGATGTGTTATGCATATATAGGTTAGGTTCAA
Y
TTGATATATAGTTTAGGTTCTCTAGTTCCTTGTTTTTCTTCTGTCTGATTGTCCTATTTATAAGTAAAAATAGGCCATTGAAGTCTCTTATTATTACTGT
Celera SNP ID:            hCV7807138
SNP Position Genomic:     73583
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27482):
TTTCAGTATAACCACTGGTACTTGAGGAGTTGAATAGTTTTAATTTCTTGCCCTGTGTTTCACAAACACAGTTTATTTTGATTAGGAACTTCTACTGGGT
M
TGAAGATGAGGCTTGAACTGCTGTCAGTGTTTAAGATTTAGCAAGACTTGGTGTCCTTTTTAGACCCAGGAGTCAAAGCCCTTTAACTGAATGGAACAGG
Celera SNP ID:            hCV26638850
SNP Position Genomic:     42266
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27483):
TGTGATGGTGCACACCTATAGTCTCAGGTACTTGCGAGGCTAATGCAGGGGAATTGCTTGAACCCAGGATGCAGAGGTTGCAGTGAGCCAAGATGGTGCC
W
CTGCACTCCAGCCTGGGTGACAGAGTGAGATTCCATCTCAAAAAATAAAATAATAACATATAGTAAGTCATATCAGAATTATAAGAGTTTTCCATAATTT
Celera SNP ID:            hCV26638851
SNP Position Genomic:     41122
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27484):
AGAATCGCTTGAACCTGGGAGGCTGGGAGGCAGGGGCTGCAGTGAACCCAGATCATGCCATTGCACTCCAGCCTGGGCAACTGTCTCAAAAAAAAAAAAA
A
TTGCTGTCAATAGCTCAAAAGAAAAGTTTCCTTGACTCTGCAAAACAAAACAAAGGATCAAAAGAAAAAATCAGAAAGATTACTTTAGACTCCTATTAGT
Celera SNP ID:            hCV26638852
SNP Position Genomic:     40138
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27485):
AAAAATCTGGAAACATTGCAAAGTAGGATGATCGCATTCTAATAATTTCATATTCTTAAGTGCCCCACTGTCATCTTCCTTTACTTCTGGAAGGAAACAT
R
TAGATATTAACACAGTTGCACCTTCACCTCCTCATCCCCTTCCCCACTGGCAGTGGTTTTAATAGCAAGCCCCATGTGGGTATTAGCATTTAATGGAGCA
Celera SNP ID:            hCV15879968
SNP Position Genomic:     116889
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,552|G,935)   total(G,935|A,552) 
SNP Type:                 INTRON;UTR 5;UTR 3


Context             (SEQ ID NO:27486):
TTCCTTGAAAATGTCAGTAAGCTCTGTTATGCTTCTAGCAAATTGTGAGACTGTTTGTTTCCACCCTCATAACCTGTTGCAATAAATATTATTTCTCACA
Y
ATTTTAATATTATTAAGTTTGTTGGAGAAAACAAACCATAAAAATTCATTTGCTGTTCAGTTTTCAATTACAATAAAGAAATAGAACATTGTTAATTTCT
Celera SNP ID:            hCV26638853
SNP Position Genomic:     37591
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27487):
TGGCTACCCTGGGAAGAGACAAGAAGTAAATGAAGAAAGAGGAAGATTCCAGGACCTAGATATGATTTCTGTGGACACCCTTCACTGGTGACTGAAGTTT
S
TAAATAGAAATTTAAGGCAGATCCAGAGGAGACAAAGACAGAGTATCCCAGGTGCTGGCCATTTCCCACAACAGAAGAAAATGATCAATGCCCAGGTGAC
Celera SNP ID:            hCV25742356
SNP Position Genomic:     98958
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,3)   caucasian(C,40)   total(C,75|G,3)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:27488):
TTTTATTATATGATTAGCTCCTGCATTTCTTTGGTTCTAAGTTTGTGTTATTTCAGAATAACTAAAGTACTTCAGAATGAAACTGGATACAGTATATTCA
R
TTCATAAGTGTAATTGACCATACTTGAATATGTTTAAGTTTATAAGTAACATCAGGTGTTATGAAATTAATATAAATAAGATGTTTTTGTAAGTTTTTAT
Celera SNP ID:            hCV8706641
SNP Position Genomic:     153848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27489):
GGGAAGATAAACCCCCTCAGAAGTGATCATAGATCATGAATAAACTACTAATTCGTGGAAATGTAATAATTATAGGAACGTCTTTGCCCAAAAATAAAAC
Y
TCAACAGATTGAGAGAGTTCACACTGGAGAAATACTTTCCTCTGGCAAACCCCTGTGGCAGGGTTTTCAGTAAAATGTTTTGCCTCATCGTGTGCTAGGA
Celera SNP ID:            hCV15879969
SNP Position Genomic:     153357
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,540|T,943)   total(C,540|T,943) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27490):
ATCATTTCTGGGGACATCCTTGATTGGAGATTGAAGTTTTTGAACCGAAATTTAGAGCTGATTCAGAAGAGACAAATACAGAACGTCCAAGTTAGCAGTC
R
TTTCCCAAATTTAGGAGACAATGATGCAGGCCCAGGTGACTTTTGGTTTGTTTTATTCTTTCCTTTATTCTCCAATGTATTTTTAAAGTCCTGTAAAAAT
Celera SNP ID:            hCV8706642
SNP Position Genomic:     142175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(G,540|A,945)   total(G,540|A,945) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27491):
ACAAATGCAAAGAATGTGGCAAGGTCTTCAGTCAATGTTCACGTCTTACAGTGCATCGGAGAATTCATAGTGGAGAGAAACCTTACAAATGCAATGAATG
Y
GGCAAGGTCTACAGTCAGTATTCACATCTTGTAGGGCATCGAAGAGTTCATACTGGAGAGAAACCATACAAATGTCATGAATGTGGCAAAGCCTTTAATC
Celera SNP ID:            hCV25955619
SNP Position Genomic:     30485
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,38)   total(C,63|T,7)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:27492):
ACTCAGGACAGTATGTATTTTAAAGGAGCAAGTGCATGTGTGAAAATGGCTCATTCAGTTTATAAAATATTACATTAAATTTGAGGTTTCTGTTTTTTTT
M
TTTTGTGACAGTCTTGCTCTGTTCCCCATGCTGTAGTGCAGTGGCACCAGTTCACCTCACTGTAACTTCCACATCCTGGTTTCAAGCAATTTGTGCCTCA
Celera SNP ID:            hCV26638854
SNP Position Genomic:     32834
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27493):
GCTTTTGCAAGGCATCGGAGAATTCATACTGGAGAGAAGCCTTACAAATGCAAAGAATGTGGCAAGGTCTTCAGTCAATGTTCACGTCTTACAGTGCATC
K
GAGAATTCATAGTGGAGAGAAACCTTACAAATGCAATGAATGCGGCAAGGTCTACAGTCAGTATTCACATCTTGTAGGGCATCGAAGAGTTCATACTGGA
Celera SNP ID:            hCV26638855
SNP Position Genomic:     30442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:27494):
GAGACTTGCTTTGGATAAATGCATTTCTAGGGTCGGACATTTTATGCTTTTTTCCTGCTGTGATAACCCATCTTGGGGTTATGAATATCTTGTGGACTAT
Y
GTATGGAGTGAGTTTACTGGGTAAGAGAAAATTTTTGAAGGAGAGCACTTTGAGTAATGAGTTTTAACATCATCTTGCTACATACAGAGGTAACTATTAA
Celera SNP ID:            hCV8706643
SNP Position Genomic:     70813
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27495):
CTATTTTCATTTTCCTTTGTTTTGAGATATTTTATCATTTCCCTTGAGATTTCCAATTTGACATATTGGCTGTTTAGGAATATGTTGTTTCCACATATTT
K
TTGATATTCTAATTTTTTTTCTGCTGTTGATCTCTAGTTTTATTTTATTATGAAGGGATAAGTTACACTTTATGATTTCAGTCTTTAAAATGTGTTAAAC
Celera SNP ID:            hCV26638856
SNP Position Genomic:     24514
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27496):
TTTGAGACTGAAGCCTTATTGGTTCAAAAATAAAAAGCTTCACAATGCTGCATCTGGCCTTTCACTGTCACCTTTGTATATATATTCTGCTGCCTTCTTT
S
TACATCAGTGGTGGTTCCAGAGCTGAAGTTCGCAGAGAACTTTATGGCAGAGTTAAAATATCCAATTCCCTGTTTTCTGTCCATGTGCTTTTTTGTTTGT
Celera SNP ID:            hCV25955476
SNP Position Genomic:     22169
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,21)   caucasian(G,28)   total(C,1|G,49)
SNP Type:                 INTRON


Context             (SEQ ID NO:27497):
TCATACTTGTTATATCAGACACATTGCTTTTCTGTAGTAAGTTTCAGTTTCCTAAATATAACTTGCTGGATTTTCTTTAAATCACACTTTTTTTTTTTTT
T
GGAACAAGTGCTATATTATAATAATTATTCTCCTGTCTGCTTTCAAGTCCATCATGTTATACTGAATTATTATTTTCAAATCTTACTTTATTATACATGT
Celera SNP ID:            hCV26638858
SNP Position Genomic:     23803
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27498):
GCTGTATTGTTCAAGGGTCAGCTGAATTGAGGAGCAAGTCCTAAGCTGAGCCCACGGGGAGAGTGGGCAGCTGGAGTGGTGGTGCATTGGTCCTGAGGGC
R
TGGAACCCAGAGCTGCAGCACAGCAGGCACTCTCGATAGTGACTTCTGTGGGGTCCATCACTTTGGGGGCTACATTTGTTATTTTGGAGTATTTTGGGCG
Celera SNP ID:            hCV11526678
SNP Position Genomic:     10322
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27499):
AGTCCAAGGAATTGGAAAATGGAAATACGAAGGGTTTTCATTTTCCCCATAGCCTCAAAATGTAAACAGAACATAGTAGTAAGTTTTTTTTTTTTTTTTT
T
ATTGGGTGGGAAATCCACCCAATATGTGTCGTTGGTGTATGAGGACACCATTGCACCTTAGGGTAGTGGGAAATCTTGCCAGATCCAGGAAAATAGGAAA
Celera SNP ID:            hCV26638859
SNP Position Genomic:     17716
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27500):
AAGTCCTAAGCTGAGCCCACGGGGAGAGTGGGCAGCTGGAGTGGTGGTGCATTGGTCCTGAGGGCGTGGAACCCAGAGCTGCAGCACAGCAGGCACTCTC
S
ATAGTGACTTCTGTGGGGTCCATCACTTTGGGGGCTACATTTGTTATTTTGGAGTATTTTGGGCGGCAAGTTAAGATGGTTATAGATGCATTTTGGACTA
Celera SNP ID:            hCV11526679
SNP Position Genomic:     10357
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,8)      total(G,8|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27501):
GCTCCCCTATTTTCTGTACTATTGTGGATAGACTCTGGTACTGCAGATATCTGTGGTACTAGATCTTCACCCTCATGTCTTTCTGTGTTATTGCAGACAC
Y
GGTTTACGTCAGTTATCTTTTTGCTCAGTGGCCCCTAACCTTTCATCCTGTTCCTTTCAGTGCTACCACAGGAGGTCACCACTAAGGCAATTCTCAGCCT
Celera SNP ID:            hCV29188650
SNP Position Genomic:     20061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27502):
GGCAGGAATACGTGGCGGCTGGGGACAATGGGAAAGTTTGGGGAGAAAGAGCAACAAGAGGTGAAATAAATTTCGAAGCATTGGGCAGAATAGACATAAA
R
GAGGGAATAAAGAAAGGGGAGAAAAACAGCAAAGGGAAAAAAGACGTGCAGAATGAGAGCGGGAAACACATAGTAGTGAAGAGAGTGGGCGAGGACCCCA
Celera SNP ID:            hCV29188651
SNP Position Genomic:     7327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27503):
TATTCTTGCATCCCCCCTGGTGCAGTGGGCTGTCTCTCCACAGGCTGAGTTCTTCCCTGTGTGCATGGTTGTGACACAGAAAGGAATGTGTTGTTTCCAA
R
CATTAAACAACAGATTTTTTAACTTTCAGGTTTGATGTGTGAATAATTACATTGACTGAGAAAGAAACCCAGAAGAGGAAGAAGAGGAAGGAAAAGGAGT
Celera SNP ID:            hCV27852251
SNP Position Genomic:     15285
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,35)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:27504):
ACCTGGAGGGTGCCCAGTCTGTGGCCTTTGCTTTCTCAGTTGCTTACCCTTGGAAGTTACTGCAGTGCTCTGAATATTAGATTTTTGGCACATCCTCTGG
Y
TTCTGATAAAAGGATATACCGTCACCCCTCAGTGTCCAAGAGGGATTGGTTTCACAACTTTCCATGGATATGAAATCCACAGATGCTCAAGTCTCATATA
Celera SNP ID:            hCV7801835
SNP Position Genomic:     104550
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27505):
CCTTTTGCACTGAGTCAGTTCCTGGGTGGTGTCACAAGACCAGATGAGTCAGTTTATTGATCTGGGTGTCAGGTGATCCATCAAGTGCAGGGACTGCAAA
R
TTTCTCAAACACTGATCTTAGGTTTTAAAATACTGATGTTATTCCCAGGAACAATTTGGGAAAGGTGACAATCTTGTAGCCTCTAGCTGCATGACTCCTA
Celera SNP ID:            hCV7807213
SNP Position Genomic:     46032
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27506):
TTTTGTAGAGATGGTGTTTTACCATGTTTGCCAGGCTGATCTCAAGCTCCTGGCCTCAAGTGATTTGCCACCTTGGCCTCACACGTTGCTGAGATTACAG
R
CATGAGCCACCACACCTGGCCAATGGGGCGTTTCTTAAAATAGCTACTAGACTATGACGTTTATCCTAAGGTTTGAAGTCTATCATCTTCCTTACATATC
Celera SNP ID:            hCV7801908
SNP Position Genomic:     33093
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,6)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27507):
TTTTATCATGGGTTAATAGAGTGTTTTATTTATTAATTTATATGATGATTATTAATTAGTTTATCTTGTGAATATTTACCATTACACTATATCTTGCTGT
R
GTTTGGCATTTGTTTGTACACAGTAAATATGAAGTAAATATATATAACTTTTATTCTCTTATGAGAGAGCCACATTTTCTGCCAATCGGTTCGTAATTTG
Celera SNP ID:            hCV7801909
SNP Position Genomic:     28475
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27508):
AGTCTCACTCTGTCTCTCAGGCTGGGGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCGTGCCTCAGCCTTCC
R
AGTAAATGGGACTACAGGCCTGAGACACCATGCCCAGCTAATTTTTTTTGTATTTTAGTAGCTATGGGGTTTCGCCATGTTGGCCAGGCTGATCTCAAAC
Celera SNP ID:            hCV7807071
SNP Position Genomic:     135937
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27509):
TCACACTGGAGAAATACTTTCCTCTGGCAAACCCCTGTGGCAGGGTTTTCAGTAAAATGTTTTGCCTCATCGTGTGCTAGGAAATAATGCAGAAAAAACT
W
ATGAAAACATTCAATGTAGAAGACTTTTAGGAAAATATCAGAGAATTTAATGAAGGAAAGAAGCCTTGGCAAAATGATGGATGAGAGCTTTCTGTCACAA
Celera SNP ID:            hCV15879970
SNP Position Genomic:     153476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Gene Number:                 106
Celera Gene:                 hCG2009092 - 207000007139537
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W2RH(44203644..44591424)
Chromosome:                  Chr8
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12266):
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCCTGTGGCTTTAATTTATCGAGCACTGGCATGAATATTCCT
TCCAATTTTATATTTTAGACATGCCTCCAGTGGCATTTTTTGGGAACTTCGTTGGTATTATACTAGGAGCAGGTGATTCAAAGTAAATATTCCCAGTCTA
GAGAGTGAGATGGACACTGAAGAGGGACAGTTCCTCAAGAGGTGAAGTGACGTTTGATTCACTGCATGACTGTGTGGGAAAAGGGAATCCCCAAAGTTCT
CTCAGATGGTGGCCCATGAGTCACCATGTAGACAATGGTGGGGCGGGTGCTTTGTGGCCAAGTGTAGAGACTTGGAGAAGGATTGGAGAAGAGGTTGATG
TGGTAGGATGTGGAAGGGATGGGAGCCAGGGGCTTAAGATACAGGGGCACAGTGAGCAGAGACTAGATTGAAATTGAGAAGAAGGTAGGTCTTAATCCTG
CCACCAGGAAGATGAGATTTGTGAGTTGTGCTTTAGAAACATCCCTCTGTTGGGGCTCAGCTGTACCTCCTTCACCTCCAGGTTGTGTTGGCCTCCCTGT
GCATTGCATTGAGAGGATATTCAAACTGAAGGGGAGAAGCACGGATTCTGAAGGATGAAAAAGGAACAATGTGAGTTATTCCATGTCTTAGAGATAGTGT
GGTATGACAGAGAGAGTGTAAACTCTGGTATCACATAGTCCTGTGTTGGAGTCCTTCATGGAATCTGGCTCTGTCCCTTGCTTGGTGACCTTCGGCACCT
TTTTTCTGAGCCTCAGTTTCCTCTCCTTTCCACTTGCGCTGCCAATACCCCCTGCAGAGTATGGTGGAGATTAAATTGGGATYTTATAGGCCAAGTATGT
GGCATCTGAGAGGCCCTGAATAAAAGTCAGTTGTTCTACACTGAACCCTGTCCACATGTGGGATTCTCGGCAAGGGCTTATTGGTGCTTGTGAAACCTAA
TTAATCAGAGGTGGGAAGAGAGAGCTGGCCTTTGGAAGGGCTTGCATTTCATAGGAGTAAACACACTGTCAATATCAAGAGGAGCTGAGTCCCTGGGAGG
AAGGGGTGAGACATGGTGGCTCCTGGGAGGCCATGATAACTCTTACTGGCAGGTATAACCATGAAGTCCCCATTGCTCTCCGGTTCTTTAAAATATCAAG
AAAAGCAGGTAAAGGCTTCTCAGCTCTGGATGGCTTAAAAATAGCCACTGAACAGAGTGGCCAAGCTGTTTTCCCCATGACCTGGCACCTGAAGTCCCCC
TTCCCACCCACTCCTGCTCTGCCGTCTCTGCCCAGTAATGACTCCTCATGTATCCTCATCCTAGACACTCCAGCTAGGAACCTTGATATTTATTCCATGC
ATATTTGTTTGCATTTACATTGCATGCCGGTGGTATTCTAGGGGCGGGACAACAGTAGCAAACATGACAGAGAAAAATCCCTATCCTCATGGACTTTACA
TTCCAGTGGGGCAACAGATAGCAAACAAACATGAAACGGATGGTGTGTGAGACGACAAATAGTCCTTATGGAAGAAAAATCATCTGGAGAGGAGGCTGGG
GCATGCTGGGGAGGGTGTGCATTGTTAAATGGGGTGTTCAAGGAGGCTTTCCCTGAGAATGTGACACTAAGCAAAGACCCAAAGGAGCTGAGGGAGTGAG
CACACGGCAGTTTGGGGAGAAACGATTCCTAGGCACAGGGCCTGCCCCATGCAGAGACCCTGATAACTGCATGCATGGCACATTAAAGGTACCTCAAGGA
AGCCAGTGTGGCTGGAGTGGAGTAAGTGACAAGAAAGTTGGTGCAGGAAAAGGTTGATGGGGTGGGGATGAGGGCTTAACCTTGCTGGGCATTTTGTGGA
CTTTAGCTTTTGCTCTGAATGACAAAAGCAGCTCTTGGAGGGTTGTGAGTGGAAGAATGATATGAGCTTGGCTTACCCTTTTTTTTTTTTTCCTAACCAG
TGTATTAGTTTATGCTCACACTGCTATAAAGAACTACTTGAGACTGGATAATTTATAAAGAAAAGAGGTTTAATCAGCACATGGTTCTGCAGGCTGTACA
GGCTTCTGCTTCTGGGGAGGCCTCAGGAAACTTACAATTATGGTAGAAGGCGAAGGGGAAGCAGGTACATCTTACATGGCGGAGCAGGAGAAAGAGAGAG
AGAGGAGGAAGCTGTCACACACTTTTAAACAAGCGGATCTCGGGAGAGTTTATCATGAGACAGCACTAGGGGGATGGTGCTAAACCATTAGAAACACCTT
TCATGATTCAATCACCTCCCACAAGGCCCCTCCTCCGACACTGGGAATTACAGTTCTACCTGAGATTTGGGTGGGGACACAGATCCAAACCATATCAAGC
AGTATTTGCTGTCTGCAAATGCTTAATGCTGGTGAGAGTGGAAGCAGCGGCAGTGGTGGGGACGGCTGAACTCTGAAAGTATGGATTTCTTCTTCCTCCC
TCAACTCATCCAAACCATGGCTAAGCTGGGTCAGTTCTACCTTGGCCATTGTAGGGAGATTGGGAGGACTTTGGAGATACTATACATCAAGTTTGTTAGT
CTGTCAGCCGCTTTAGAACAGGAATGTGTCTTCTTTCTTAAGTGTCCTTAAAACCTAGCCCAGTGCCTGACATAACTTGTAGGCATTTTAAATGCTTATG
ATGATTAGCCTGTCATTCTCTGATCCCTAAGATTGAATTTGGAGCCATCTTCAGTGCTCCCAGGATCCCCCTTATGCTTAACCTTTTCAAAACATCTGTC
ACTCTGATCTTTCATTGTCTGTCTGTTCCCTCTGCTGGTCCATGAGCTTCATGAGACCCATGCTGTTTTTTGTTCTTTGTGTTTTTTGAGACAGAGTCTT
GCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGAGATCTCGGCTCACTGCAACCTCTGCCTCACGGGTTCAAAGGATTCTCATACCTCAGCCTCCCAAACAG
TTGGGACTACAGCTGTGTGACACCATGCATGGCTTATTTTTGTATTTTTATTTACATATATATATATATTTTGAGATGGAGTCTCACTCTGTCACCCAGG
CTGGAGTGCAGTGGCACAATCTCACCTCACTGTAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTTCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTG
CCTGCTACCATGCCCAGCTAATTTTTATATTTTTAGTAGAGATGGGATTTGGCCATGTTGGCCAGGCTGATCTTGAACTCCTGATTTCAAGTGATTTCGC
CCACTTCGGCCTCTCAAAGTGTTGGGATTACAGGGATAAGCCATTGCGCCCGGCCTGACCCACACTGTTTGTCCACTCTTTTTTTTATTTATTTATTTAT
TTATTTTTATTGAGACGGAATCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGAGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATT
CTCCTGCCTCAGCCTCCCGAGTAGCTGGAACTACAGGCACCTGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCATCGTGTTA
GCCAAGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCACCTTGACCTACCAAAGTGCTGGGATTACAGGCCTGAGCCACCACGCCTGGCCTGTTTTGT
CCACTCTTGTAAGTGCAGTACCTGTCTCTGGGCCTGCTACCTGGTAGATGCTCAGGAAGTGCTCTTTTAAATGAATGAATGCACCTGGTCCCTTTTATCA
CCTGCTGAGAAGGGCAGTGTTTCCAGCCAGTATCTCTTCCAATCCCAGCATGTCACTGGGAAGATTAAATTGTTTAAAAAAAACAAAAACAAACGCTGAG
CCTACAAGGTAGCCTCTGGGCTTTTTGAAGGGAAGAGCAAAGTCAGAGAGCTGTTACTGTTTGAATCAGCGGTGCTGAAGGGCTCTTGGGAAGTGGAGTG
CTCTCCGAGGCTTGTCTACATGGCAGAGGCATGTGGATAATTGCATCAGGAGAGTGGGGGCTAGGCCGTCAGACCAATAGGCTGGGGGTGGGCCGGAGTC
CTCCTGGGCTGGGAGATCTGGGACAGTGTTTTCCAGAAATTCTGGTTGACTGAGTTTGCCTGTATAGACCAGAGAATGGGCAGCCGCAGTCTCATGTGAG
GACATTTTGCAACTCTCCCATTTTCAAGCTCAGCTCACATTTATTGATTTTTTTTTAACCTCAAGGCCTTTTATAGTTTCTTTTGTTATCCATTTTAAAT
TATATTTTTGTAATAGCTTTATTGACATATAATTCACATGCCATGCAAATCACCATTTAAATTGCAGAATTCAGTGGTTTTTAATATATTCAGAGTTGTG
CAGCCATCGCYRCAGTCAATTTTAGAACATTTTCATCACCGCCCTTCAAAAAAAACTCCATCCATACTCATTAGCAGYCACCCCCCATTTTCCCAATTCT
CCTCCCCCAGCCCTAGATAACCTTTAAAGTACTTTCTGCACAATTACTTTTTCTCCTCCAAATGTAAACATAGTAAATGCTCATAACAGAAAATTCAGAA
AGAACAAGAAAAGATAAAGAAGCAAATAATSATCATCCATAATTATCCAGCCAATGAGAGATAACCACTTTTGTCTCTCTATGCTGATATACTCATAGAC
ACATAGTTTTTGCGAACAGTGACATCTTACACATTCTTTTCAACTTATTCCTTCATATAATATATAGGGACTCTCCTTCCATGTTGAATAAATATAGATT
TACATGATCATTTTTGCTGGCCATGGATAGATCATAATTTATTTGACTGGTTCTTTTTTAATGGACATTTAGGTTGTTTCTAGTTTTTGCWTGTACATAC
TTGTCCAAATACTTACTTTTGACAAATTCCCAGAGGTGGAATTTCAGGGACAAAGGGTRGGCACATTTTCAAGTGTTGTACATATTACCAAGCCACCCTC
CAGAAAGGTTTACCAATCTGTATTTCTATGAGCAATTTTGCAAGTATACATTTCTTGCCCGCCCCAGGCATTATCAATTATGTTAATTTTTGCATAGCTG
ATGGACTAAAGATAAATGTTCTTTATTTGCATTTTTAAATTTAATGCTAAAGTTGAACATATTTCCCAGCTATGCAGGTGGCTGATGCAGGAGAATCGCT
TGAACCTGGGAGCTGGAGGTTGCAGTGAGCCGAGATTGACCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAGTATAAATA
TGGATTGTAATAGTTGTTGTAAACTGACCGAAACCAATGGCGCAATTTAGTTCTATTACTTGGTACTGTGCTTATACATAGACTTGGATTCTAGACCTGA
CTTTGCCGTCAACTGTGACCTCAGGCTGCTTAACCTCTGAGGACCTCAATTTCCTATTCTTTAAAGTGTTGGAGGTGAAGCAGATGGATATTTGAGGTTG
TTTCCGGATCCATCTTTATCATTCCATGTTAAGAATAATAGAAGGCAGCAGTGGAGGAAACTGAGGCTTCAGCCTGCTTACTGGCTTGCTCCAAGTCCCA
GAATTCACAAATGACAGTGGAGATTTGAACCCAGAACTTGCTATGAACCCAGGACCAAGCCTCTTGCTGTTCCCTGGCTCCTGTCCCCTTTATGGGAAAT
GAACCAAGATTTGTCAAGATGATTGTTAATCTCCAGGCCTACTTCAAGGAGTGTGAATCCCCTCCAAGAGGCTGATCCATGGGAGAGAGTTTTGGGAGCA
CAGAGAAGGAAGGGTTTAGATTATTAGATTTCTAAGGACAATGGAATCTTGACAGAGACAGCTTAGGAGGAACTGCAGAGAAGCCCGAGGCAAGGGAGAA
GGCGGGAAAGTACACTGTGTAAGAGACAAGCACAGCCCAGGGAGCAGGAGCCAGGAAGCGTGGGTGATCCGAGCCTGGGAATTTACTTTTCTATCAAGGA
ATTAGAAAGTCAGGCCTCATCTGGAAAGGGCTAGATTAGATTAAATCAGTGTTTCTCTGTAGTCACAGTTTATATGCTCCTGGACCCTCACCAGGTGACT
GTGATGGTCTGGCTCCAGAGTCCTCATCGGCTTCATCTCCACGCCCCCTTCTTCCCTTTCCTCCCCTTCCTCCACCTGCAGCTGTTGTTGAAGATGTGCC
CATCCCCCTCAGGCCTCCACACTGTGGCTCAGGTTGGTCTCTGAAGGCCTGTAAGGTTTGTCTACATGATGAGCTCCTTATTCTGAGCTGGAGTATTCCC
CTCTTCCAGGAGGCCGTTCCTGACCAGCCTGATTCTGGGTAGAATTGACCACCTTCTTGTTTGTGCCCACCCCCTCTACCTTGTACATTTCACTGTCTGT
TTTGTTCATACCTCTGTCTCCCCCACTATTTTGTGGCTTTCTGAGAGCAGATATTCTTATATTATGTTTATTTGGAACTCACAGGATTTCTCACATAGTA
GGTATTCAGGTGAAGCCTTTTTTGGATGAATTAATGAAACCTTCTGTAATTCAATTCAGTAGACACATATTAAGGAGACTGGGATGGTGTATTAGTTAGT
AATATAGTGATAATAGCTGCAATAACAAATAGTCCCCACGATGTTTATTGGCTCAAACACAAGAAATGTTTTTCCTTCTTCATGTAAAAGCCCAAAATGT
GTATTTCTAGTTCGGTGGGAGTCTCTCATCCATGTGGTGGCTCATAGACCTAGGCCTCTGCTACATTCTGTGGCCCTGCTGCCCCCTGGAGCTTTGTTGC
TGTCAGCTTCCACTGGCAGAAGAGGGAAGGAGCCTGGAGAAAGCACACCCACTTCTTAAAAACCTTGGCCTGAAGAATGGCATGCAACATTTCTATCTCA
TTCCTTAGCTAGAAGTCTGACACATGGTCACACCCAGCTGCAAGGGAGTCTGGGAAATGTAGTCTAGCCATGCACCCAGGAGGAAGAGAAAACAGAGTTT
TGGTGAACTAGCAGTGCTGCCACAGATGGTGAATGGGGCTCAACATCTTGTCCTCTGAGGCTTGGTTGAAGGGATGGGGAATGTTTGGCTTGGAGAAGCA
AAACTCCTGATAAAGTGATATTTGTGACCAGGGCTATAATTTGCCAACCCCTAGTCTGGAGAGATCCAAAGTCCCTCCCAACTCTAGACACTGTGATTTT
TTTGTTGTTGTTGTTATGCACCCAGCGTATGCAGAACACTAAGACTGTTGCTGGTAGGAGGGGAGGAGAGAGGCAGAGGACAAGCAAGCTTGAAGTAATT
TGCCCAAGGTCACACAGCTAGTAAGGGATGGAGCTGAGATTCGGGTCCAACAAGCTGGTAACAGAGCCTGCCTGCTTAGTRGCTATACTGTATGTTCCTC
ATTGGAGCCCGATACCCATTCTACCAAGTAGGTATTATTATTGCCAGTGAGGGAAGACTCATAATTTTGTGTTAAGAGGAATGAATGAAGTAACTTTTTT
TTTTTTTTTTGAGTTGGAGTTTTGCTCTTTTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGAGTTCAAGTGATT
CTCCTGCCTCAGCCTTCCAAGTAGTGGGATTACAGGTGTGCACCACTACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGC
CAGGCTAGTCTCGAACTCCTGACCTCAGGTGATCCGTCTGCCTCGGCCTCCCACAGTGCTGGGATTACAGGTGTGAGCCACCGCACCTGGCCTCAGTACT
TCATTTATATTTATGGCTGAATAATTGCATTGTATGGCTGTACCACACTTGGTTTATCCATTCCATTCCTTGGCTGATAGGTTTTGGGTTGTTTCCACCT
CCTGGCCATCGTGAATAGTGCTGCTATGAACATTCATTTACAAGTATTTATTTGAATGTACATTTTCACTTCTTCTAGGTATATGGCCAGGAGTGGAGGT
GCTGGGTCATCTGATAACCCATGTTTTGACTTTTCCAAAGTAGCTGAACCATTTTGCACTCCCACCAGCAATGTATGAGGGTTCCAGTTTCTCTACATCC
TCGCCAAGACTTGTTATTGCTATTKTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTCATTATGGCCAGCCTAGTGGGTGTGAGGTTTTATCT
TACTGTGGTTTTGATTTGCATTTCCCTAATGACTAATGCCTTTAAGCATCTTCTCACCTGCTTTTTGGCCACATAAAGGAATCTTTAAGTAGGTGTAAGC
TGGTTGGCTGGGCGTGGTGGCTCACACCTGTAATCTCAGCACTTTGCGGAGCAGAGATGGGAGGATTGCTTGAGACCAGGAGTTCGAGACCAGCCTGGTA
AACATAGCAAGACCCCCATCTCTATTAAAAAAAAAAAAAAGAAGAAGAAGGTGGTGCAGGCAGATGTAGGGAAGCTCCAGGGATAGCAAAGCCCCAAGGC
TCCTGTGTGTGCCTAGTTTTGAGGAGCAAGGAGGAAGAGTTATTGGAAACCGGAGACAGCGAGGGCTGTGCGAAGGAGCCCTGGCCAGAGCTGAAACTTG
GATTGAGGCCAGCAGCCGTTTCACAGTGACCCCTAGAGAGGGAGCCCCAGGGAAGAGATCGGATGCCTCAGCCTCCCTCTYCCTCCCTCCTGTCTTCTGC
TGGGGCTCCCTGTTGCTRAAACCACCCTGTAGCAGAGGAGGAGCAAGCCCTTGCACTAGTCCCTGAGGTCAATTTGGGGTGCAGAGTCAGACGGAAAAGG
GAGGACCAGTGGAGGGGGACTGGCACAGTGGCTGCGCAGCTTCCTTTTCCCGTAGTTCTTTGGGTTCGACCTTCCTATGTTGGCATCTCCCCAAGACTGG
TAGTGAGATCGGCTGCAGCCGTTTTTAGCTTCACATCTTTCTTATAACATCCAAAAGAAGGGAGAAAACCCCATTTCAGAAACTTCTGGACAAAAGAGAA
AGGGCTTTCTCAGAAACCTCCAGCCTCATATCTTATTGACCCCAATTGGGTTACATATTCCTTCTAAAGTAATTAGTGGCAGAYGATGGGGATGGTTTTA
AGCCAGTGAGGCCCACACCTGGGACTGTGGGCACATGTACTTCATGGGAAGGGAGATCCCAGTTGAAATCAGCAATGAGGAGCGATGCTGGGCAGAAAAC
CCATAGCGCCGTGTCCTTGGGGAGTCCTTGGACCATCTGTTTGACKGAAGCCTCGGTTTTTTTCTGCTCCACCACACACTGGCTGGGGTGAGACAATGCG
TGCGGGACCCTGGCCTCCAGGAAGGGTCCCTGCCCTGGCTGCAGGGCCTGATGTGCCATGTTCGGCTCAGGCCTGCTGAACAGCACCATTTCCAGCTTCT
GCCTTTTACCAGGCCTCTTAGGGAGGGTCTCCTAAGCCTCTCATTCCTGTGGCCCATGTCGCTGAAGGGATGAACTGAAGCCCCTTCCACAGCAGTGATT
CCAGGGATTGAGACTTCACTCCATCAGAGCCACAAGGTCAGAGTTCAACTAGGAGTTTAGGGAAGGAGATCTTTTTGTAGATTTTGCCACAAAAGAAAGA
ATAATTAAAAAAAAAAAACTCCTATTTTTTTTGGCACCTATTGTATGATTCTATCCAAATAGGCAAAGCTATATAAACAGAGGTTATATTGTTATTTTTG
CCGGGGGTGTGTAGAGGGTGGAACGGGGAGTGACTGCTTATGGGTTCGGGGTTTCATTTTGAGGTGATGGTTGCACACTTCTGTGAATTATGCTAAAAAC
CATTGAATTGTACACTTTATTTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGACAGAGGTCACCCAGGCTGGAGTGCAGTGGCGCTGTCTCAG
CTCACTGCAACCTCCGCCTCCTGAGTTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCTCATGCCACCATGACCGACTAATTTT
TGTATTTTTAGTAGAGACGAGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCATGATCCGCCCGCCTGGCCCTCCCAAAGTGCTGGGAT
TACAGGCGTGTGCGACCGTGCCGGGCCTGAATTGTATACTTTAAATTGTGATTAATTGTATGTGAATTATAAGTCAAGAAACCTGTTGGAAAAAAACATT
AAAGAAAGACTTATGCTCCTATTCTCTTTGTTTTATTTAAGGCTGAAGTTGATTGCTACCTTATTCTCTGATAAAAATTATGGTTTACACCATCTCCTTT
CCTCTCCTCTCTCTTCTGTCCTTGTGGCCTTGGGGCAAGTTCTCCTCCCCTCCCTTGGTCTGTGGGTCTTGTGGAGCTGACCCGCTCCCCGTGTCCATCT
GGGCACATAAGCAATACCTGGCTAGTCCAGTGAGTGTTCCAGCCCCTGGCCACAGAAATTAGTTCAAGGATGGATGAACAGTCAGAGTCAATCCTGAGAC
TTTTATTAGAACCACCAGTACAGCGAGGCTTTCCTGCAGGGATTGCTGAATTGTGTCTGGATGTAAGCCTGAAAGCCAGTGGCCCCTTTGGTGAGATCCT
GCCTGAAAATGCCATCCTTCCCCTGAACAGAAATACAGAGCCAACAGATGAAGACTAACCTCTCCCTGACCACATCCTCTGAGCCCTTGAATCTAGCCAG
GCCTGAATTTCCATCCTTCCTGGACTTGTCAGTTTTGTCAGCCCATGCATTTGCCTCTCCTTTTTTTTTTTTTTTCCCCTGAAGCCAGGACTTGTGGGGT
TTTCTGTCTCATGAAGCATGTCTAGGTATGGGTTCTGCAAATTCGGACCCTCCAGCCTGACCCCTTTTCACAACAATCTCTGAACCGTGAGAAGGGACTG
CTCTTTCCGCCCGTATCWCTTGTGTCAGAGCGAGCCAAGAAAACTGCTTCCACAGAGGAAACGGGCTGACAATGGAATGTCCCGACCCAGCACATGAAGT
CCTTTGGAAGGGCCCCTGGAAGGGCATCTGGGAACCGCCCAGCATCCTTTCCATGGGCCCACAGGGAACAGCCCTGCTGCTGCGGCACATAGTCCATTGC
ATTTGTGTATGTGTGTATGTGTGCATGCAGTTGGACTTGGGTTGTATATCTGTCTGTCTGTATGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTG
CAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACATGGGTTGTATTTCTGTGTGCAGTTGTACATGGGTTTCACTTCTGTGTGTATGTGTGCA
GTTGTACATGGGTTGCACTTTGCATGTGTGTATGTGTGTATGCAGTTGTACATGGGTTGCACTTCTGTGTGTCCATATGCGTGTATGCAAATGTACACAG
ATGTGTGTACTGGGAGCTATGGCCTTTATTTCTTCCATTTGGCTATGTATTATCCCACTTGGGTCATAGTCATTCAAGATTTGATGTGTTTATAACAGAA
GAGAGAAGGTTGCCCCATCAGCTCAGGCTGCCGTGATACCAGAATGGGAAGTCTGATGCTCTTTCCCACAGTGGTTGTGGCATGTGGTCATTATGATTTC
TGTTTTACCACTGTGGCATCAGAGTCTCCGAGGAGCCAGTGGACTTTCCATTAGGTGGCAGCCTAAGCAGGTAGCTGAGCCAAATCTCCTGCCCCTTTTG
GGGCACTAATGCATTCTGCCTCAGACTAATTCCTTGTAGTTCTCTGTCATTCAGGGGAAATAGGGTTCGGAAAGGTGGGAAGCCTTGATTGATTTCTAAG
AGAAATCTAGTTTACAGCAGCCCCCAGAAGATGACAGTCAGGAATACCTATTTTGGAGATAGTTGCAAAGCANNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNGAGTCTTGTGGAAATTGGTTGATCCTTCTAAGTTTACAGGCAGTAAAATTTCTAAGAAATGGAGATGGATTTTCAGAAAG
ATGTTTGAGGACTGGAACAGTGGTGTTCCCTGGTCACAGGACTTTGTCAGGGTTGGCTGAAATGTAATTTGTTGTAGGACTTCCAGTGGAAGGGCCAGTG
TTAGGTCTCATGAATATTTTCCTGTAGTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGTGATCTTGGCTCACTGCAA
CCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTAAGCCTCCCGAGTAGGTGGGATTACAGGCACCTGCCACCATGCCCGGCTAATTTTTGTATTTTTC
GTAGAAATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCAGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCT
TGAGCCACCACACCTGGCTGTTTTGTTTTGTTTTGTTTTGTTTTTTTAAGAGACAGGGTCTTGCTGTCTTGCTGTGTTGCCCAGACTGGAGTGCAGTGGC
ACAGTCATAGGTCATTGCAGCCTCAATCTCCAGGGCTCAAGTGATCCTCCTGCTTCAGCCTCCAGAGTAGCTGGGACTATAGGTGTATACCACCACACCC
CACTAGTTTTTAAATTTTTTTAGAGATGAAGTCTCACTATATTGCCTAGGCTGGTCTTGAACTCCTAGCCTCAAGCTATCCTTCTGCCTCAGCCTGAATT
ACCCTGTAGTTTAAAARGCATCCCCAGTTTCCCATTTTGACAATGCATATAGAAGTCTTCCTGATGCTTCCCTTATTTGTTTTTATCTAATTCTGTTAAT
GTATTCATCAACAGATAATTTATTGAGCACCTGCTGTGCACTAGGCATTTTAAGAGTTATGGAAGTGTGCCGGGCACAGTGGCTTACGCCTGTAATCCCA
GCACTTTGGGAGGCCAAGGTGGGGGGATCACCTGAGGTCAGGAGTTCGTGACTAGCCTGACCAATATGRTGAAATCCTGTCTCTACTAAAAGTACAAAAA
TTAGCTGGGCTGTGGTGGCGTATGCCCATAATCCTGGCTACTTAGGACGCTGAGGCAGGAAAATTGCTTGAACCCGGGAGGTGAAGTTGCAGTGGACCAA
GATCTTGCCACTGCACTCCTATCTGGGCAACAGAGGAAGACCCTGTCTCAAAAAAAAAAAAAAAAGAGTTATAGAAGTGAACAAACAATATTCCCACCCT
CATAAATAAGACACGTATATCAAGAAAAAAGAATTTCATTGTTAAATAGATCATGTACTTTGGCTGATACATTTGCAATATTTTGAGGCTAGAGGGCCAA
ATAATTGGCCAAGAGAAGCATCAGTTATGTGTGTATTTCTGGATGGAAATCACAAGGCCTGATTCACAGCAGGCACCTGAGTTTAATATTATTAATGCCA
GTTTTACAGATGAGAAAACTGAGGTTCAGAGAGGTAAGGTGGCTTGTCCAAGGCTGGTAGAGGGAAGAGCCAGGACTCTCAAACTCTTGCCCCTTAATTC
TGAAACCCTGGNNNNNNNNNNNNNNNNNNNNCCTGGCTTTTTCCTTCTGCTTCTCTGCACCTTTCAGGTCAAGAACCTTGTAAATGCAAATCTGCCTGTT
TGTATAGGTGGTAACAAGGTTTTAGATGGAAGCACAGACTTAATGGCTTGAAACAACACACATTTATTATCTTAAAATTCTGGAAGTATCGTCATTGTGC
CTTGGACATGGCAGATGGGTCAGCAAACATTYGTCCARTGAAAGGTCTTTCTAAGACTGTGCCTTTGAACCTACTGTTCTGTCCATTCAGAATTCCCTCT
TCCTACCTTTCTGTCTGGTGTACTCCTGTTCATCCTCAAAACCAGAAGCTGCTACTATGTCCCCCATGAAGCCACTCACTATCCAGTCCTCTGTATTATT
TTCTCTACTTTATAGCAACTTCTGTTCTTGCAGGTACCAGCAATCATCGATTCACCTGTCTGCCTTACAGCAGAGGAAAATGCCTCACTTGGGTGGGCTC
CTCATAGGCAACTGTTGGAGTGTTACATAAATGAATGAATGAATGAATGAATGAATGAATGAATCTGGCAAAATAGAAGATGCAGTCAAATATATATTTC
ATATTTTAACAACATAATCGGCACTCATTAGATGTTATCTGTGGACTGACAAGTGAGGAACTGATCTCCTTTTTTTAAATTAAAAATGCAGATATATAGG
GATTCCATGAGATTTCAGAGCCACAGATAGATGGTAGTGGGCTGCTGTGTGGGGTGAAACTTTATGCAGGCACAGATATGCTTTGATGGATTTTTGGGGA
AGTCTGAAGGAGATGATTCAGGCTCCTCATTTTTCAAACTTACAGTCTTCTAAGGCCTGATCTGGGCTTTATCTTGATGAGATTTGAACATTTCTTAGAT
ATACTTTATTTCCTTTGATTCTGAGATGTCTTTGATTTCAAGATGCATTATTGATATCATAGCAGTGTTGGGAGAGAAAATAGTTCTGCCACATTATATT
TTATTGATAGGAGACACGTCCTGTTTCAGAAATGCTAAAATGTGAAAATGTGGTCATCATAAAATGGAGGAAATACGGTAATTACAAAGAGTGTGGTCAA
GTGGGCTGATGTTAATTGGACCTACTCCTAAGTGTTAGGAATGAGCTCGAGCGAGGCTGGTCTTGTTAGTGTGTTAAAGATCTTTTTTTAGTTCTAAAAC
TAGAAGGGAAATACATGCAGCAGAGACCTCTCCTGAGGCTGGCCCTGCTCTGAAAGGCTGGTGAGATTTAAAGGAAAGATAAGTCTTTGTAATCAGACAG
ACCTAGGTTCCATTTATTAGCTGTAAAAACTCTGGCAAGATACTCATCCTGTATTTGCCTCAGTTTCCTTCTCTGTAAAATCAAACAGCAATACCTGTTG
CCTAGGTTTGTTATGAAGGTTAAAGAAGTTATTGCTTGTGTAGTTAGTGTCAGATACACATAATAACTATGCAATATATGCTAGCTTTGTTATTTTTAAA
AATTGTGGCTGGGCACAGTGGCTCACTCCTGTAATCCTCACACTTTGGGAGGCCGAGGTGGGTGGATCACCTAAGGTCAGGAGTTCGAGGCCAGCCTGGC
CAACATGTGAAACCTCATCTCTATTAAAAAATTAGCCAGGTGTAGTGGCATGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTG
AACCCAGGACGTGGAGGTTGCAGTGAGCCAGGATCGCACCACTGCACTCTAGTCTGGGTGACAAAGCAAGACTCCATTTCAAAAAAAAAAAAGAAGAAAA
GAAAAGAAATTGTTATTTATTCTGCTAGACTCGTATTAGGTCATTCTTGCATTGTTATAAAGAAATATCGGAGACTGGGTAATTTATAAAGAAAAGAGGT
TTAATTGGCTCATGGCTCTGCAGGCTGTACAGGAAGCATGATGCTGGCATCTGCTCGGCTTCTGGGGGGCCTCAAAAAACTTAAAATCATGGTAGAAGGT
GAAGGGGGAACAGGCACGTCACATGGCCCAAGCAGGAGCAAGAGAGAGAGCAAGGCGCAACACAGTTTTAAACGACACATCTCACGGAAAGTCACTCACT
CACTATGGCAAGGACAGCAACAAGGGGATGGTGGCTAATCATTAATGAGAAATCTACCTCCATGATCCAGTTACCTCCCACCAGGCCCCACCTCCAATAC
TGGGGATTATAATTCAGTATGAAATTTGCACTGGGACACAGATCCAAACTCTATCAGACCTGTTGTTATTTATTCTATTAAAATTGTTATTTATCCTGTA
AGGGCTGTTGTTTCCTCTGTAAAGTGGGATGACATTCCTAGCTGTACCTCTCACTGCTCTGGGCTGGGTGAAGACTCAGCGTGATTGAAAGGGGCTATGT
GGCCGATACCCATACAGGGCCTGCGTGGTACCTGGTGAGCACTGGGTAATGGGGGCTTCCTGCGAGGGAGTAAACTCCTTTCCATGCAGACCCCTTTCCA
TCCTGGTTCCCTTTTCTTTGGACAGGGTGGAGGCTGGGACACTGGGGTGCTGCTCCTGGAAGGTGACTTCCAGGCCTTGGTTGTATTCTCTCTGTCACTG
GGACAGTGGTCAGTGGACACCAACAGGATTTCCAGCCACATAAAACATGCCTATGGTGCTGGCCTTGCTGGGAAGCCGCTGAGTCAGGCCCCTGGGCTGC
AGATGTCATTTCTAGTTTTGGGCTGTCATAATACTGGCAGTTGTTCATTGTACACCTGCTTTATGCTGGCATTTCTACACTTATACAACTTCCTTTTTTT
CCTCCTAACAACACTCTGTTAAAAGTATCATCATCCCTGTCTTAGGGTGGTTTCCCCAAGAAGCCAGCACTGAGAAAATATTGGAGCATGCATAGTTTCT
TTGGGAGGTGATCCAAGGAAACACAGGTGGAGGAATGAGGAAGGGAGACAGAGAAGAGAAGGAGCCAACGAATAGCATGTTATCAGGCAGGAAACTAGGG
TTTCATTCCTCTGGGGACCTCTCAGGTTGTCAGAACCAAGGGGCAAGGAGCTGGGATATTGTTTCCTGATTTCCACTCATCCTTGTCTGAAGGCCACAGC
TAGAAGCATTCATTTCCTGGCACTCCGAGCCTGTGCCTTGGTGGCTGAGAGCAAGCTCTTGGGGCAGAGTGGCAGGTGTTGCTTGCAGTAAGATGCACCT
GGCCTGTAATGACCTGTGAGAGTCAAGGCATTGTGTGTGGGCATCATCATAGTCTGCAGAAATCTCCATTTTTCAGAAGAAGACACAGGGCTGGGCCCAG
TGGCTCATGCCTGTAATCCCAGCAATTTGGGGGCCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGGCCAACATGGCAAAACCCC
GTCTCTACTCAAAATACGAAAATTAGCTGGACATGGTGGTGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGA
GACGGAGGTTGCAGTGAGCGGAGATTACGTCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAAAAAACAGAAAAAGAAGATGACACAGGT
TCCCAGAAGTGATTTTTYATCACTCAAGATCAGCCAGAAATTAGGTGGGAGAGCCYGTGTTGGAATGTGTCTTTCTGTCCCAAGGGCTCTCCTCTTTGCT
GTGCTTGGGAAATTCCCCCAGCCCTGGGCTGCAGCATGAGGGRGCAGCTGCCCAGATGGCTCTGCGCTCAGCATACTCGCTGAGAGTGAATTCAAGATTG
TTTGAAATGACCTTGAAGATATGATCACACAATGGGCAGCMCARCAGACCCTAGGCTCCCTTGGATTTCACATTCCACACTTGCACTTCTTCCCAGGGGA
ACCCTGAAGAAAATGTATAATTTGTGGTGGCCCAGACTGGGTTGAGCCTGCTCCTGCTGGCATGAGGAKTGGATTGCGTGGCTAGTTAGTGAGCCTAGCC
TCCCTCCGARTATAGAATAAACTTGAGAACTCTCAAGTTTATTTCGTTGTTCTCTTCTTGGGGGTCCCGAGGCTGTTTCTCTGGCATTCACTTATTCTAA
GAGTCACAAAATTCTTAGGATGTAACTTTTTAAAATGCTGAGGATTTATTAATCGCTTATAGTAGGTAGGTCCTATGGTACCAGTACGTGCCCTTTTTCT
TGTTGTCGGTGAGGTTTTTTGAYGAAGGTCTTATTCCTTAAGCAGAGACCACGTCTATTTTGCTAACCAATACTTCCTTGATATTTAGCTTAATATTTTT
TCTTCAGTATATTAGTGGATGAATAGATGCATTTTCCCAGAAGATAATTCTCACTATGGGAAGCTGTAGCCAATGGAAAATAGCATGCAGTAGGCACTTA
AGAGATGTTTGGAAGGCAGGTCCTATGACATTRTGTTCACACCCAGATGATATCACTGACAACCATTCATCCTGTCTGTTTCTATACCTGTCCCTGCCCC
ACCAGACTGTGAGCTCTCTATGGGCAATGACCTTGTGTTACTCAACTCACCCTCCTCACTGTCAGGCCCAGTGCCTGCARTATACTCAGAGTAGGCTATA
AGACATGCAGTCACAGTTGTCATGAGTGTATAATCCAGCAAGACAGTGGTTCTGGTCTTTTGGGTTGTGGGTCCTTCACAGTGACCTCTTCTTTGGAGAG
GAAAGACCCAAACCATCTTTGATTGTTATCATTTGAATCAACAAATGAGGCGGGCGGTTGGGGGCAGAGCCAAAGCTAAGGTCCAGCAGCCTCGGCATTG
TCAGGGAGAATACCTCAGCCCTTCTTGGCTTTCTTCTTGGGGTGGGCTTCTGCAAGGTCTCCTCTGTATCTCTCTGAACTGTAGCCTATTGGATTATCCT
GGGAAGATAGAGTTATCAGAAGGGCCCATCTCAAACACATGCATGCTGGCCAGGGAGAAGAGGGATTAGGAAAAATAGCAGGAGTCCAAAGTTACCTGGC
CTGAGGTTACAGATGCCTAAATCAGGGCTGATCAGGGTTGGTAGGGAGGCAGGACTTGTTGCTTGCCAGCAGATAYGGAAACTGAAAGACCTAGCGATTA
GTACAAAATCCCCAYGACCAATTCAAATGGTCTCAGCATTTACATTCAAGAATCACCACAGGAGAGGAGGTTTTTTGTKTTTTTTTTTGAGACACCGTCT
CACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTACAACCTCTGCCTACTGGGTTCAAGCTATTTTCCTGCCCCAGCCTCCCAAGTA
GCTGGGACTACAGGCGCCTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGA
CCTCAGGTAATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCACATCCAGCCAGGAGAGGAGATTTGACTTACCTCTATGAA
CAATCAGGAAATGATACCAAATGGGGTGTGTTTGGTCATGATCCATAGTGCCTTGCTTAGCACAGCAGATAAAGTTCTGAGCTTTGAAATCGAGCTCTTT
CAAGTTTGAGTTCTGAGTCTGCCACCACTAACCAGCTGTATGACTTGGGAAATGTTATGTAACTTTGGTGAGCCTCAGTTTCCTTATCTAAAATTCAGAC
AATCACARTTCCTTGCAAAGTTCCTTGTAGGATTTAATGAATGTGCCTAGGATGGGGTCTGATATGTAAAAGGGTTCTTCAGAGAAACAGAATTTATAGG
ATATATGTAAGGGGATATTTATTATAGGGAATTGGCTCACCCTTATAATAAGTGGAATTGATTATGGAGGCTGATCTGCCATCTGGAAGCTGGACAACCA
GGAAAGCCAGTGGTGTAATTCAGTCCTAGCCCGAAGGTCTAAAAACCAGGGGAAMTGATGGTGTAAATCCCAGTCTATGTTTGAAGTTCTGAGAACCAGG
AGCGCCAGTGTCCAAAAAAGAAGATGCATGTCCCAGCYCAAGCAGAGAGCAAACTCACCCTTCCTGCTACTTTCTGTTCTATTAATATTATGCCTTCAAT
GGATTGGATGATGCCCACTCACGTTGGGAAGGGTACTCTTCCTTACTCAGTCTCCTGATTCAAAGGCTAATCTCTTGCAGAAACACCCTCACAGACACAA
CCAGAAATGCTGTTTTACCAGCTATCTGGGCATCCTTTAGCCCAGTCAAGTTGACACATAAAACAAMAATAAGGGGTTGCTATGGTTATTAGCAGTGCTG
TTAGAGTTCACAAGTGGATAGATTACTGGGCTGGGAAAGTTTGAGAGAGCTTCCTGGAAGAGGTGGAATTTCAACTGGGACTAGACAAGTTGGGCTTCTG
ATCGCTTAAGAGGAATCGTATCACAAAAATATATTTGGTCTATTTTCTTTAGGTCCCTGATTTTCTAAGTACAGCTTCCACAGAACAGGAAAGAATTACA
TCAGTAAATAGGAAAAGTGCTTGGTTTGATATTATGGGGAAAAAATTGTCCAAGCTGTAACCAGCTGCAGATGACTCAAGAGTTTATAACATCCTCTATA
AAAGGATACAAATCCCAACATTCGTGGAGTCACTTCTGTTGAATAAAAAACACCTATTTGAGGAATGGCAATAAAGAAGGGTTTATGTACCAAATGATTT
ATGTCCCCGATTCCTGCATGGCATCAGGAATTCCTGTCCTGACTGACAAACTGTAAGTCGTAGAACAGAATTTCAGTGGAAAAGCAGAAACGTGGGTGGT
AACAAATCTGATGCTTGRTGGTAATGAATTCTGGTTCACTTTAGCAGGCAGGTGCTTTAAATCTTTCTGTCGCTGGTGGCAGCGGGAAATGAGAGGTTGT
ACAGAAGACCGTGGGGGTTGACAGACATTGTTCACTCACTCCTTCGACAGATATTTATTGAGMGTCTATGTACAGATGCTGCCGCTCCCCTGCTCATGTC
TTTGAGTGCTCCCCGGAAGGCACTGCAGACAGTGCYCATTCACACAGAGGGCTTCCTGCATCTCAGCCTGAGACTATGCCCTGGTTGTGTCTGGGCAGTT
AGGGATGGAAGGTGGCAGGTAAATGCCCCAGATTCCTTTCCCTTCGGTGGGGCAATTCTGAGATGTGCTCTCCACAGTCTCTCAGAAGGTCCCTTAGTGG
GATTGAGCCTGAGGTGCCCAAGCAATAACCTTGGACACGTTCCTCAATGTCTGAGTTTCAGCTTCTTCTAGGATAGGTATGGGGATTAAACGAGGCAGTA
ATATCACTACCACCACAACTAGATCCCATGCATTCATCAGTTACGGGGAGCCAACCATTTTTTGCTTAGTGCTTTAATCATGTTCTCTTATTAATTCTTG
CTATGACTGCATGAGGTAGGTACTTTCCTTATGGTTACTAGCTGTGCTGTAAGAGTTCAGAAATGGACAGATTGTTGCGCTGGGAAAATTGGAGAAAGCT
TCCTAGAAGAGGTGGAATTTCAGCTCGGACTGGACAAGTTGGGCTTCAGATAGCTTAAGAGGAATAGCATCATAAAAATAAGTTTGGTCTATTTTCTTTT
AAGTCCCTAATTTTCTAAGTACAGCTTCCACAGAACAGGAAATCCAATTTTAAAGATGAGAGAACTAGGGCAGGCACAGTGGCTCATTCCTGTAACCCCA
GCACTTTGAGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGATCATCCTGGTCAACATGATGAAACCCCATCACTACTAAAAATACAAAAA
ATTAGCTGGGCATGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCRCTTGAACCTGGGWGACGGAGGTTGCAGTGAGCAG
AGATCGCGCCACTGCACTCCAGCACTCCAGCCTGGGTGACACAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAGAACTAAAGTATGAAAGGATAAATAA
CTCATCAAAGATTCATAATCTGGATTCTAACCCAGATGTGTTTGTTCTAGGGGCCAACTTTTAATAAGTCATACTGTTAGAGTACAGGATCTGGCAAGGA
AGCTGTCATCATCATTATCATCATCATCATCCAGTGCCCAGTACTGGATGTGGGTGACCCATGTTTATGGAATTTAAGAATAATGAATGAATGAATGAAT
ATTAGTCCTTTAAGATCATGAACTTTCTTTTCTTTTGTTCTTTGCTCTGTCTTTAGGCAGCAGGAGCAGTCCCTGGCACAGGGTAGTTCCCTGCTTCTAA
GAAAATTATGGTAATTGAAATGTATTCTTTGTTTTACCCTTAACAACAACAACAACAAAAAACCAACAGAAAGAAAAGAGTCCCAGAAATGAAATCGCCT
TAGTATAGGAACAGTATTTATCTTCAGGTATTGGGATAATAATTGATTTTAATTTTATGCCTTAATATTTTTTCTGATGAACCTAGATTACTTTCTTGAC
TAGTATAGGAACAGTATTTATCTTCAGGTATTGGGATAATAATTGATTTTAATTTTATGCCTTAATATTTTTTCTGATGAACCTAGATTACTTTCTTGAC
TAGAAAGAAATAATCTCTGTTTGAATAAAAAATCATTCTCAGAGCATCAGATGGGTCTCCAAGTGCCGTGGGTGAGGTACGGACATAGACGTAGCTGCTA
ACCTACTTCGAATTAGTTCAGAGTCAAGGCAGCAGAATGTGAACTGACTATGGTGTCACACCTCACACAGCTCTTTCACACTTCATCTCTCTGAAGGTTC
ACGATGGTCTAGTGACGTAGGCCAGGCTGGGATTAGTGGCCTCATTTCATAAACCTGAGGGCTAAAGAGGCTCGCTGACAAGGGTGAAGCTCTCCATAGG
GGTGGAATTGGGACTGGAACTTTTGATGTTAGGCCCAGTGGCCTTCCCCCCGACCCCAGCAGCCTCTCATGAAGACCCACTGAAGGAATGGGACAAGAGT
GGAGGTAGGTTGGTACATCACAGACTCATGGGGCAGCATCTGCAAGACCCTTYTATGATTTATGCAGAGGAAGCCTGGCTTGGAGTTTTTTAGACCACCC
RGGTCAGGATCTTAGTTCTGCCRCACACTGTCTTGGACACGTTATTTCATATCTTGTGAGTTATGATTTTTTTCATCTATAAATCTGGCCCAGTGTCTCC
CTTGCAGGATTGTTGTGTGAGTCCARCTGGCACCAAGGAGGTGGGAATTCTGCAAGAACAGCTGTCAGTGGTCATCATACTTGTGCTGTCTATGTGCATG
GCTTTATTGATACTCGGTGTTCATAAATTAATATTCCCATGTGAATTAGGCAGTTTTTTCTGAGTAGCAAAAACCTCAGGATTTCAGAGGCTTGTTTGAC
AGCAGATATGTATCTTCATGCTCAAGGATCTATGGGTTGGTTGTGGTTTGGCTGATCTAGTTGCATGGCTGGTTCATGCCGGACTTGTGGTTGATTGGGA
TCTGCTCCACATGTCTTTGATCTGAGTTCAGACTAAAAGGCAGCAACAGACAGCGGCTATGGAGACATATTCCTTTTGTGGTGCATCATAAGAGGGCAAG
AGGAATAGACTTGGGAACAGCACACTGTCACTTCTAGCCACATTCCATTGGCTACAGCAAGTCAGTGATCCAGTCCAGAATCCAGTGGGACAGGGAAGTA
AACACCATTCACTCTAGTGGGAAGTACTACAAAGTCCCATGACAAAGGGCAGAAATGTGTAGTTCACAGTCATGTTGGAAGTGAACTGGGAAGACTCATG
CAGTCTACCATACTAACTCAGCTGCTCCACTTGGGTGAAGCAAGGAAAGCAAAAGAATAATAAACTGAGGAGCAGGCTGGGAGAGGCATTGACTATGTAT
GCAAGTAACAGATACTTATTTTTCATAAGCGTGTGCTTAGTAAAGTTGGGTTCTGGAGGTCAATATTATAGGAAGATCATGATCTTTGATTCTGAAGGAT
AGCATATGTTTATCCTTATGCCAGTACCACACTGTCCTGATTTCTTTCAAAGTCAGGAAATAGAAGTCCAACATTGTTCTTCATTTTCAAGATTGTTTTG
GCTATCCTGAGTCCATTGCATTTCCATATGCATTTTAAGATAAGCTTGTCAGTTCCCCATCTAATTTAAATTTGTGATTCAGTGCTCAGGAAGATTCAAT
TGCTGTTGGCATCTAAGTTTGAAGGAAATGGTTTGATCGTTTATCCAACAAATATTTATTAATATTGTTGTGCCGGGCATTGTAGAGTTGGTGCTGCAAC
ATACACCAATAAACAAATCCAAACACAATCTTTGTATCCACATGGCTTACAATTGAAGAAAATTAGCAGATATTAATCAGTCTTCACGTTGAAACATAAT
TAAAAACTGAGATAAATTCCATGATCTAATCTGAAGATGCAGAGTTTCTCTGAGAATATAATATTTAAGGAAGTACAGGAGTTACCTAGGCACTGAAGAT
GAGAGAGGAAGCCTTCCAGACAGAGAGAACAACATGGGCAAAGGACCTGTGGTGGAACAACTGCAGCATGTTCCAGGATCTAAGAAAATGTCCAATGGGC
CGGGCACAGAGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGCTYGACATGGC
GAAACCCTGTCTCTACTAAAAATGCAAAAAAGTAGCTGGGCGTGGTGGCGGACACCTGTAATCCCAGCTACTTGGGARGCTGAGGGAGGAGAATCAATTG
AACCCAGGAGGTGGAGGTTGCAATGAGCCAAGATCGCGCCACTGCACTCCAGTCTGGGCAACGAGTGAAACTGTCTCACAAAAAAAAAAAAAAAAAGAAA
AAGAAAAAGAAAATGTCTTATGGCTACAGCATTGTGCCTGGTAGACAGGATAAGGTCAGAGAGGTGAACAAGASTCAGAACATGTTCAGTGATTTGGATT
TTTATTCTAAAGCACTGAGAAGCTGTTGAGGGATGTTAAGCTAGTGGTGGAGAGTTGAGGGATGACACAATCAAATTTGTGTTTTCAAAATTGTATTCTT
CATATCACTCAATTGTTAAGTGTCAGTCTTATTTGGATCTGGGTTTTTTAAAAAAAAACACTTGTTAAAGACACCATTTTTGACATTTATGAGACTATTA
GGAATTTGAACACTGTGTGAATATTTGATGATATCAAGGAATTATTGCTATCTTTTTAAGGTATGGTAGTGGTTTTACAGTGTTATTTTTTTCCAAAGAC
CTTATCTTAGAAATCCATGCGGTAATATTTATGACTGAAATGATAAGATGACTGGAAATTTCCTCAAAATAATAATGCACGGGCAGGAAGGTTGAGGGTT
TGGATGTGGTGGGTATGATTATGGGTTAATGTGATTAGACTGGCTGGTGGGTTCAGGGGGTATATGATACACTTCTCTGTTTTTATGTCTGTACACAATT
CCCTGTAATAAAAGATTWAAAAAAAAAAAAACCCACAAAAGATTATTCTGCTTTCAGCATGGAAGACTAGATTTCAGAGGGAGAAATGGTGATGAGGGGA
GATCAGTTAGGAGGCAGCTGCAGTGGCCCAGGTAAGAATGATGGAGGCTTGGTCCAGAGCTGGACCAGTGGAGGTGGGGAGAGATAARTGGAGAGATCTT
TAGGAAGTAAAGTAGACATGAATTGGGGATGGATTGGATATGGGGGTGAGGGAGATGGTGGAACTGAGATGTCTCTCGGTTTTTYGCCCTGGATGGAGAT
GCCACAYTGAGCTAGGAATCACTGGATAAAAGCCAAGGAGGTCCCTTGGCTCAATTTATTTTTATATCCCCACCTCTGTTTCCCTCTATTCTGCAAATAT
TGAAGCTGTTCCCTTATGTAACATCTTTTATCCCAGACTTCCTGTGCTCTGTGCACTCAGCAATTAATTAAGCTTTGGTATGCATGAATTAATTAAAATC
CTCTCCCAGGTTCAGAGGGGCTGTCCTGAAATATGTATATTCTTCTATATCTGCCTTCTTCCTGCAACTGGTTTCCTTTGCCGGGTGAACACTTTTGCTT
TCTCGTGGGCACCCAGCTGCAGGTGTCTGTCTGTCTGTCTGTCGCATCCATCAGCACACTTTAATTTTATGTTTAGGAGCCTAGGTCTAGAGAAGTTAAT
GACTTGTAAATTGCTCTCCAACGTAGAGCTAGAAATAGAATGCCAGAAGGATTCCTGAGCACTTACTTGCACAGAGATTCAATGATGGAGGTATCAGCCC
CACCATAGGAAGCTGAAATAGTAGTTTCCTTCATATTTCTGGACAGCCACTCTGTGGTGCAAGAACATTCCTGACAAAGGTGCAGCCTCCATATGAAATC
CGATCTTGGTCTGAGACAATGTCTTCTGCCCAGTTTCACCGGATGACTCTTGTCCCCTTTTTGTCCTGCCCCCTATCCAGGTCGTTTTCTGATGTGACGG
CTGAGACATGAGATCTTCAGCCTCCAGGCTCTCCAGTTTTTCGTCGAGAGATTCACTATGGAATCGGTGAGTGATCTCTAGCCCATCCTGTCCAGAAAAC
TCGGCGTGGGAGAYACAGCGGGATTCTTCTTGGGAGTTGAAATGCAAAATTTTATCAAACACAAGCACTGGAATCTAACAGAGACTGTGTGCACGATTGT
TATTGGAGAACAGATCTCTAGCATTTGTACAGGTGTAGACYGCCTACTATGTTTTCTGTCACATTATCCATTGCCTTTATTTATAAGGAAAGTTGTCTGG
GTGGTGGTGCCTATAAGAAGTCAAGAGTAGCAACAACAGTGACACCAGCAACACTATAAGGTGCTATAGGAGTCCACTGTGTTTTAGGTTCTTTAAAAAC
ATTTCAGGCTGGACATGGTGGCTCACGTCTGTAATCCCAGCACTTTAGGAGGCTGAGGTGGGTGGATCATTTGAGGTCAGGAGCTCGAAACCAGCCTGAC
CAACATGGYGAAACCTTGTCTCTACTAAAATACAAAAATTAGCTGGGTGTGGTAGCATGTGACTGTAATCTCAGCTACTCGGGAGGTTGAGGCAGTRGAA
TTGCTTGAACCCAGGAGGCAAAGGTTGCAGTGAGCCAAGATTGCACCATTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCTTCTCAAAAATAAAAATT
AAAAGTACAATAAAATAAAATTTCATTTACTCCTCCCAACAATCCTGCCAAGTAAGAATTTCTACATTCAGTTGGGTGCAGTGGCTCATGCCTGTAATCC
TGGCACTTTGGGAGGCCGAGGCGGGAGAATCACCTCAGGTTAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAA
AAATTAGCCGGGTGTGGTGGCAGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGAGGGAGAATCACTTGAACCCCGGAAGCAGAGGTTGCAGTGGGC
CAAGATCRCACTGTTGCACTCCAGCCTGGGGGTCAAGAATGAGACTTCGTCTCAGAAAAAAAAGAATTTCTACATTCATTTTACGGGTAAAGAACTTGCC
CAGCTAGATGTAAGTCAATTTTCCCTTACTGCAGGACCCTTGCCTTTTTTTTTTTTTTTTGAGACGGAGTCTGGCTCTGTTGCNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGGCCTTTTTTTTT
TTCCTATGCCACGTTACCTCTTGGGAGAGGTAGAGATATGATTTATTCCATTTTGCAGCTGGGAATACTGAGGCCTGGTGTAGGGACACATGATGAAGAG
TCTAAGGAGTCTGGCCTCAGTGGATGAAAGTTTGTGTTAGAGGATGATAAAAATTAGACTGGACAGGAAGAACCATGAAAAGCTAGGCCGGGAAAACTTG
TAGAGTCTGAGAATCTTAAAAAGCTGGCAGACTGACTGGCACAGGGTTGACCTGTTGGGGCCAGGGTTTCTAAGAAGTCCGCGTARYGGAAAGTGTGTGG
GTGCTAGAAGGGGTGGTTGAATCCTGGCCCTGGCACTGATTTGCTGTGTGATCTCACACAAGACACCGGCTTTCGGCCAGGCGCGATGGCTCACGCCTGT
AATCCCAGCACTTTGGGAGGCCGAGGTGGGCRGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTAAGCAACATGGAGAAACTCTGTCTGTACTAAAAAA
GACAAAATTAGCTGGGCATGGTGGCACATGCCTGTAATCCCAGMTACTTGGGAGGCTGAGGCAGGAGAATCTCTTGAACCCGCGAGGCAGAGGTTTTGGT
GAGCCAAGATTGCGCCATTGTACTCCAGCCTGGGCAACAAGAGCGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAGACACTGACTTTCTCTGTTTCTTCT
GTTTTCTTATCCATGAAAAAGGGGTAATATTTATGTTTCAGATTTTTTTTGTGTAGTTTAGAAAAAATGTAAAGTATTTTACATAAAGTAGGCACATAGG
GCATTGTAATTACTTCAATTTTTAGGTTGAAAATAGTTTTTAAAGGATGATTAGATAAGCAAATGTGTCCTGAATGGGTGGATGAAGTGAGAGGCTGGAG
GCRGAGAGGCCAACCTGAGAGGCTTTTGATATGATCGAGACATGATACTGCCTTCCAGGGTAAATGAAGCTTTACTTTTATTTTCAAAATTTTTCTATTA
TAGGATTACCCAAAGTCATGTTTATTTTGTTTTTTTCTTTTTTTAAGTCAAGAGTCCAGCACAAAATGGCATTCATTTTRCAGGTATCTTTTCAGGTGAT
ATTAATTATAATTGCAATAACTCAGTGCATTATTAGAATTAGGTTTTGCTGACAATGACATAAAATCTAAAAGAACATTGGCTTAGAGAAGTGTCTCTCT
TACCTAAAAGTTCAGGTACAAGTAACACAGATTTTCTACAGCAATCTGTGAGAGACCTGGGCTTTTTCTCTAGTTTGTTTGCCATGTGAACCTCTATTCC
CAAGGTCACCTCACAGCCCCATTTTAGCTGCTTCTGCTCTAGCCATCACATCTAACAGCAGGAGGAAGGAACGAGACAGAGAAAGGCAYGTCCCATCCTT
TAAGGATGTTTCCTGGAAGTTGCACCTCCTGYTCCTACTTATATTCTACTGGCCAGAATTTAGTTCTCTGGCTACATTTTGCGGCARAGAAGGCTGGGAA
GTGTAATCTTTATTCTGCAAGACTGTGTGCTTACCAAATTGAGAGTTATTRTTATAGAAGAAGAGAGCAGATATTGGAGGACAAATCTTTTCCTCCACAC
TACTCATTCTTGAAAGATCGTGCTGACAGGATAGGCTCTGCAGCCAGCCTGCTGGAGTTTGCATTCTGGATCCATGGTTTCGTAGTTCTGTGACCTTGTT
GAAAAGCTACTTAACTTCTCTGTGCCTCGGCTTCTTCCTGTTCTCTCCTGTTTTATAGACTTACAAGGGTTGTTTTGAGCACTAGTTGAGTTAAGCTAAA
GCACTTGGAACAGTGCCTGGTACATGGTAAGTGCTATATAAGTTCTAGCTATTATGACTACTACTATTGCTAGTAGTATCTCTCTAGTACTTCTACTACT
ACTGCTACTGCCACTTCTGATATGACTACTGCTACTTCTGTTACTTATTACTATTAATACTTTTACTCTTACCATGACTGCTGCTTCTACTAATATTACC
ACTACTGCTTCTACTGTCACTTCTGCTGCTGCTACTACTGTTGTGACTACTTCTACTTCTCTTCTACTATTATTACTACTATACCATTATTATTTTTAAA
TTGTATACTCATAGCATAGTAAGTACTATTTTTCCCAATAGAAGATAAGAGTCAGAGAGGATAGTAACTTGTCAGATGCCATTCATGGTCTACCCTTGGG
TGGGTAGGGGATAGCGACTTGAAGGAAGCATAAGGCAGGTTTCTGTGGTTGTGCTAATGTGCTGTTTCCTGATCTGGGTGATGTTTCATTAGTGTAAAAG
TTCCTTGCATGACACACTTATGACATAGATAATTTTGTGTATGTATCTTATATGKCAATAAAAACATGTCATGTAGCTGAAAAGTGGTGGAACATGAGTG
AAACCTACACTCGCCTGATTCCAAAGCCTGTGCTCTTAGCTGTAACACAAGGCCAGCACCTTTAGTCCTCTGACTGACTGATTGATTCATTCATCTAACT
TGTATTGATAACTGCTTATTACTTATGTGCCAGTAACCTGGCTAGGATGCCTGGGATACAAAGGTCCATGCTGTAGACATGACCCTGCCCTCATGGGGCT
TCTTATCTAGAGGAAAAGGAAAGAGGTAAATACCATTCAGATTACCAGCCACCAGGTTAGGTTCAGTATGGGATGCCCTGGGGCCACAGGAGGGGCATGG
AAGCTAACCCAGCCCCACAGGCTCATCTGCTGAAATAACACAGATGTGCTTCTCAACCAACCCCTTTGWTGGGGGAAAAGTTCCCACATCAGTGGGTAAG
CTGACCACAGGAGGGCTACATCAAGAAATATAAAGCAGTTCCCCCCATCCYTTGCTTAACTGGCACTAAGAAGGGGTCAGCTTTTCTTGTCTTGTTGTCA
CTGTCATAGTTGTGAACCTACCTGATGTTCCATGGGGTAGGCAAGTGCTCGCCCTTGTGAGTTCAGTAGAAGACAAGGGAATCACAGGAGCAGAGACTTC
ACTTATGAAGACGTGTATACAGGGACCTCTTATTTAAAATAAATATACGGGCTGGGCATGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCGAAG
GCTGGCGGATCACCTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGTATGGTGGT
GGGCGCCTGTAGTCCCAGCTGCTTGGGAGGCTGAGGCATGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACTC
CAGTCTGGGCAACAGAACTAGACTCTTTCTTAACAACAACAACAWCAAAATTCTCATAAATATGTGAATGAATGAATGAATGAATAAAATCACAGTCCAC
AGCAATGCGGTTGTCATCCCTGGGAAAACTCAAGTCCAAGGGAATAAAGAACAAGACCCGTTTCCTTTATTCACCCCAAATACCATAAGGGAGACAGGAG
CGCAGCACATGGAAGTGGAATTGAATGCTGAATTCTGAGCCAGCAGTAGAAATCAGTTGGCCTTATGTTCAGGTTTTTCTCCATATGTAGAAAAGAAGTG
ACCTAAACTTTAGACCCTCCTCAACCAAGCCCATGAGAAACCTCTGTGACTCCTCCTCCCTCTTTTGCCTTTCCAAATGTCAAGCAGACGCCCTGTCATT
ATCATGCCACAGGCTGTCAGCCCAAATTGAATTTCCCTGAGCCCAGCTGATGTCCCTTTTTGGCTGCAGGGCAGGGATCAGGAATGCATGCTGCACATGG
ACGGGAAACGTGTCCCTGGAGCTGAATGCAGAAGGCTGACCTCTCAACTCTGCATTGCTAACATAGTTGGAAGGGTTAGGAAGCCTTGTGATTTCTGGAT
GTAAAAGAAAAAGAAATGTGTTTTARAAAAACAGTATTCAAGTTCTGCTGCGAAAATCCTTTCAAAATAATTGAGTCTATTTAAAATTCAACTGGTTGTT
TCACAGCATTGACTATACTTCAGTTAAATACATAAAGGAAGGAAGGTTATGGCTAAACTGAGAGATGGGAAGTGATGATGCTGGTCTTGTCTTCCTCCCT
CCCTTCATTTTTCCCTCCCTGCCTTTAAAATTTATTAAGCAGCGACTGTGTGCCAGGTCCTACACTCAAACCTGGGGAAATACATGAATAAGACTCATGG
CAAAGCCTTCTTGAGCTTATCCTTCATTTGTTTTTAGAAAACGTATTCATTCTACAAATGTTTCCTGAGCATCTAATTTGCTCAAGTCTCTTAGTAGAGA
TAAAAAACATGGTTCCTCCTTTTACTACATGTATACTTTATTTTTTGATCACTTTTCTGACGACCTACTAAGTGCCAGGGTCTGTGCAAGCTGCCAGGAT
ATCAAGGGAAACAAAAACAGCTTCTGCTTTGATGGAGCTAAAAGACTAGAAAATGTTCCATTAGTTTCCTAGGGCTGCTGTGACAAAGTACCACAAACTT
GGTGGCTTAAAACAACAGAAATATGGCCAGGCGCGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGACGGAGGCGGGCGGATTACCTAAGATCAGGA
GTTCGAGATCAGCCTAGCTAACATAGTGAAACCCCATCTCTACTAAAAATACAAAATTAGCTGGGCGTAGTGGCGGGTGCCTGTAATCCCAGCCCCTCGG
GAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGGTCACATCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCT
GTCTCAAAAAAAAAAAGAAATGTATTGTCTCACAGTTTGGAGGCCAGAAGTTCAAGATCAACGTGTTGGCAGTGTCGTGCTTCCTCTGAAACCTGTAGGG
GAGAATCCTTCCTTGCCTCTTCGTAGTGTCTGGTGTCACCAGCAGTCGTTGATGTTCCTCAGCTTGCAGCCTCATCACTCCAGTTCCTGCCTGTGTTGTC
CTGCGGCATTCTGCCTGTGTGCCTCTCTTCTCTCTTACAAGGACAGCAGTCATACTGGATTGCGGGACTGCCCTTCTCCCATGTGACCTCATCTTAATCA
CCACCTTAATTATATCTGCAAAGACCCTATTTCCAAATAAGTCCACATTCATGGATGAGGGGGTGGCTAAGATCTCCACTTTTTGCAAGAGGACGTGTCA
AACGTATGTAATATTAGAAAGCGCCCACAGTACCTGGTGCATGGTGGGCCTTGTTGTTGCCTTCCCTTTCTTTCCACTTTATCTCAGCATCTAAAGGGTG
AGCACCTTGAGGGCAGGAACTCTGTGTTACTCTGAGTGAGTGCTTCCAGATTTCTTGCCAGGGAAGTGAGACGGATGTTTTTCTTGTGCTGCGGCAGGGA
CATTCTTGTGTGGTCCCTGGTTGATGGGAAATGCTCTTTCTTGCTACTGTCCTTAGTTTTTGCTTCTTATGCTGATGGTTGATGAGGGAGTCATGGGGAA
AGAATACCTTGATTGGAAAGCTGGGCCTGGTGGGTAAAGTGGTTAAACCAGGCTCCTCTCCTGGTTCTGCTGTTTGCTGGTCATGTGAGCCTGGATACAT
TTCCTCCTCTCTGTGCCTCCAGGCATCTCATCTGTACCCCTTAGGAGTTTGTTTGTTTGTTTTGAGACAGAGTTATCAGGGAACCTGCCCCTGATAGTCA
CGTAGGTTCTTTTCTGTTTTCCCTAAGCGTTGGCYGGGTTGAGAAATAAAGAGACAGAGTACAAAAGAGAGAAATTTTAAAGCTGGGTGTCCTGGGGAGA
CATCACATGTAGGTAGGTTCCGTGATGCCCCACAAGCCGCAAAACCAGCAAGTTTTTATTAGGGATTTTCAAAAGGGGAGGGAGTGTACGAATAGGGTGT
GGGTCACAGAGATCGCATACTTTACAAGGTAATAGAATATCACAAGGCAAATGGAGGCAGGGTGAGATCACAGGACCACAGGACCGGGACGACATTAAAA
TTGCTAATAAAGTTTTGGGCACCATTGTCATTGATAACATGTTTGAGAGCAACCGGTCTGACCAAAATTTATTAGGCGGGAATTTCCTGTCCTAATAAGC
CTGGGAGCGCTATGGGAGTCTGGGGCTTATTTCATCCCTACAGTCTCGACCATAGAAGATGGCCACACCCAAGGGGGCCATTTCAGAGACCTACCCTCAG
GGGCGCATTCTCTTTCTCAGGGATGTTCCTTGCTGAGAAAAAGAATTCAGCGATATTTCTCCCATTTGCTTTTGAAAGAAGAGAAATATGGCTCTGTTCC
GCCCAGCTCACCGGTGGTCAAAGTTTAAGGTTATCTCTCTTGTTCCCTGAACATTGCTGTTATCCTGTTCTTTTTTCAAGGTGCCCAGATTTCATATTGT
TCAAACACACATGCTCTACAAACAATTTGTGCAGTTAATGCAATCATCACAGGGTCCTGAGTTGACATACATCCTCCTCAGCTTATGAAAATGATGAGAT
TAAGAGATTAAAGTAAAGACAGGCATAGGAAATCACAAGGGTATTGATTGGGGAAGTGATAAGTGTCCATGAAATCTTCACAATTTATGTTCAGAGATTA
CAGTAAAGACAGATGTAAGAAATTATAAAAGTATTAATTTGGGGATCTAATAAATGTCCATGAAATCTTCACAATTTATGTTCTTCTGCCACGGCTTCAG
CTGGTCCCTCTGTTTGGGGTCCCTGACTTCCCGCAACACAGAGTCTCGCTCTGTCACCCAGTCTGGAGTGCAGTGGTGAGATCTTGGCCCRCTGCAATCT
CTGCCTCCTGGGTTCAAGTGATTCTCATGCCTCAGCCTCCCGAGCAGCTGGGATTACAGGTGTGTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTG
GAGATGGGGTTTCACCATGTTGGTCAGGCTGTTCTTGAACTCCTGACCTCAAGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGACTACAGGCATGA
GCCACTGTGCTTGGCCTTCCTAGGAGTCTTTGTGAGGGCCAGGTGGGATCAAATGTTTAAAAGAGTACCAGGCCCACAGTAAATGTTTGCTGCTTGTTTG
TGGGAGTATTCCAAGACTTTTAATACCTTCCAGGGAGAAGGGCTTCCCTGGCCCATTCAGCACATTCCCCTCAGTAAAGACTCATGCTCACTGTTTAGCA
CTGTTCACCATCAGAACATTTCCTCATGATTTTCCTAAGGCAAGTTTTTCAGGAATATGGCAAACAGCCCTTGCACAAAGATATCCATTGGAGCATCATT
TAAAATGGTAAACCGCTACAAACAAGATAAAATCCTGCTCTACAATGAGCAGTGGGTTAACAAATTAGGGGCAGAAGGATGAAAAACAAATTAGGGTAAA
ATAATGCAGCCATTAAAAAGAAGATAAGTTATGAGAACACTCATAATATAACTGTCATGTTAAAAAAAAGGTTTATTTTTGAGGAAGTGACTTAATTTCT
GTGTGCCTCGGTGCCATGGTTTGGATATTTGACCCCTCTAAACCTCATGTTGAAATGTGATCCCCAATTTTGAAGGTGGGGCCTGATGGGAAATGTTTGG
GTCATGGAGGCGGATCCCTCATGAATGAGTTCTCACTCTGTTAGTTCCCGTGACAACTGTTTGTTTAAAAGATCCCAGCCCCTCCCCCACCTCCTTCTCT
CACCATCTGATCTCTGCACATGCTGGCTCCCCTTCCCCTTCTGCCACGAGTTGAAGCAACCTGAGGCCCTCACAGAAGCAGGTGCTGGCTTCTTGTGCAA
CCTGCAGAACCAAGAGCCAAATAAACCTCTTTTCTTTATTAATTACCCAGCTTCAGTTATTCCATTAGAGCAGGACAAATGGACTGAGACACTCAGCTTC
CTTATCTATAAAATGGAGATGATAACAGTACTTTCCTCATACATACGATTGTTTTGAGAATTAAATGGGATAGTACCTCTAAAACACATGAATAGTACTT
GGCACATATTAGGTGCTTACTAAATACTAATTGTTATTGTTAGTTATTTATCATGTGGTCTAAACCATGTGCAGAATATTCATAGAAAAAGATTAGAATA
AGTAACACAGATGAATGCACATCCCTTTTCCCTRTTAGATGTCTTATTCAAAGGGACTTCCTTTTGTCTGTCAGCAAACATTGCACAGCTTCTCTGTATC
AAGCACTCTGATAGTCTCTAAGGCAGCAGGTCTCCCTTTAGGAGTGTGTATGAGAGTCCCTTTTGGGGGCTTTTTAAAAAACAGATGCTTAGAGATGCTG
ATTCAGTAGATGTGTGGTGAGTCCCAGGCATCTGCAGTCTTAAAAACTATTCCACAAATGATTTTGACTCTCAAGGTTGATATATAAGTTACAGTCTTTC
CCCTCAAGAAGTYTGCAAACCAGATGAGAAGATGGGACAAGCAGTGGCATGAGGCAGAACGTAAGTGCTATAGATTAGGCGCTCCCAGGTCTGGCTCCCC
CTGCACAACTTTGCAAAAATAAAGATGGTCTTTGTTGTACCACTAGATGTGGAATCAGAACCCACAGGGTGAAGCCTTTCCAGGGGTTCTGGTGATCAGC
CTGGTAGGGGACCATGTGTGAGGACTGTGAGTGCTTCCTGTTTGAGAGAACCCAGGAGGGGGTCCCTCTGGCCTGGGATTGTYACAGGAGCTCTCTCTAA
AAAGGTATAATGTGCTATCTAAGAATACATTATTACATTTACTGWATTGGACTGAAATGACCTGTTAGATATCTATTGCCACTGACATACTCTGAGTGCC
TTGAAGGCGGGAACCATGCATGCATTGGTCAGCCCTGTGATAGTGCCTGCATGTCTCACCTTGGCATTGACCTCTCCTGTCCCCTAGTACCTGCCTAGGT
GCAGCAGGATAGATTGAGAACCAAAGTTTTTCCAAAGCTATTTTYTCAAAGCCATGAGGACTGATATATTTTCTCTGGTTGGTAGTAGTGAATGCTTTTT
AAAAAATCTTTATTTTAAAATATTTTAATTGTGGTGAAGTATGCATAACATAAAAATTACTATTGTTAACTGTTTTTAAGAACAATTCAGTGGCATTAAG
TATGTTCACATTGTTGTGCAACCATTGCCGCGAAATCCATCTCCAGAATTCTTTTCATCTTGCAAAATTGAAATTCTGTACCCATCAAATGACAACTCCT
TCTCTTCCCTCTCCCTTCCCATCCCTGGAAATAACCATTCTACTTTCTGTCTGTATGAATTTGACTACTCTAGGTATCTTTTATAAGTGGAATCATACAA
TATTTGTCTTTTTGTTACTGCCTTACTTAACATAATGTCCTCAAGGTTCATCCTTATTATACCATGTATCAAAATTTCCTTCATTTTTGAGGCTAAATAA
CATTCCATTGTATGTACATATCATATTTTGTTTATCCAGTCATCCGTGGATGAATACGTGTTTGCTTCTACCTTTTGGTTGTTATGAATTATGCTGCTAT
GAATATGGGTATACAAATAGCTCCAGATCCTGCTTTCAATTTTGGGGGGGCGGGGGATATATACCCAGAAGTGGAATTGCTGGATTATACAATAATTCCA
TGTTTACTTTTTTGAGGAACAGCCAGGCTGTTTTCCATTTTACATTCTGTACCAGTTTACATTCCCACCAATAGTGCACAAGAGTTCCCATGTCTCCATA
TCGTCACCAACACTTGTTATTTTCTGTTTTTGTGATAGTAGCCATCCTAGTAGGTATGAATGCTTGTAACTGGTGAATGCCTTTAGCGAGGACATTCCAT
TTTCAGCTTTGTATTTCACTTAGGTTGTGTGGCCCAATTAAACAGTCTCCAAGCATTTATTTAAGCCCTAGGCACTGAGAATACAGACCTAAATAATACA
TGCATGGTACCTGCCTTCACGGCACTCAGAGTATGTCAGGGGAAATAGATATCTAACAGGTAATTTCAGTCCAGTATGGTAGGTGTAATCATATATTCCT
AATAGCATATTATGCCTTAAATACAGTTGAAGATTCCGGGAAATCTTGACTGAGTTTGGTGCCTTAGTATAAAACACATGAGTACATCATTCAGGCAGTC
TGAGATTCCTAGATTGTTTAGGCTGGAAGGGACTTGTAGACTTTCCAGTAGAACTTTCTATGAAATGGAAATATTCTGTGTCTGCCACATGTGGCTTTTG
AGCACTTAAAATGTGCTTCGTACAACTGAGAAACTTATAAAGTTCATATAATTTTAGGGAATTTATGTTTAAATTGAAGTTAGCTATAGGTAGTGGCTAC
TGTGTGAGACAGAGAGGTAAAGCGAGGTAATAGTGAGCATTCTTTCCTGGTTCTCATGCTTGAATATGCATGTGGGTCACCTGGGGAGCTGTTAAAAATC
AGATTCTCAGGCCCTCCCTTTAGTGTTTCTAATTCTTTAAGTTGTAGTAGGGTCAAGGAACCTGCATTTTAACAACCACCACAGGTGATTCTGATGCAGA
CGTAGTTTGAGAAATGCCAAGTCTTGTGGTTTTCAAGCTTTTGTATCCTCAGAATATTTTCTTCAAATGAAAGCTTAAAGCCTGGGCAACATAATGGGAC
CCTGTCTCTACGAAAAAAAAATTTAGCTGGGCATAGTAGCACACACCTATAGTCCCAGGTAGTTGGGAGGCTGAGGTGGAAGGATTGCTTGAGCCTGGAA
AGTTGAGGCCGCAGTGAGCCGTGACTGTGCCACTGCACTCCAGCCTAGGCAACGGAAGGAGACCCTGTCTCAGGAAAAAAATAAATAAATAAAAAGAAAG
CTAAAGAGCTCAGTGTATAGAACAGAGAGTAGAGTTGTTCCAGCTTAGGTAGTTCTGGCTGGTACCAGAACTTTATACACGTTAGGGGATCACACTCTAC
CCTCTCTGGGGAAGGAACTGGGGTTTCTTGGAGTATAATTTGTACAACTCTAACCTAGCACAACCACATCACTTTATTCATCTTAAATCCTGTGAAATGC
AAAATAAGAYTTGGTTTTGTAATACCTATAAACATGCCAGAACCAATTACAGACCAACAGGCACCTCTGGAAATGCAGGTTGAAGCAGAAACACAATTAG
TGCATTAGTCAGCCATTTTTTCCCTTGTCCTGGACTTTAACCAGCCATCTTGGCATCACATGGCGGAACTGCAGAGTAGTGATTAAAAACAGGCTGTCTG
ACCTGGCAGGAAGGCAGTCTCCACCCTAGAGCTTACTGGGTGGTGCTAGGCAAGTTTCCTTATCTGCAAAATGGGTATAACAGTAGCTTCTACCTGAGAC
AATACATGTAAAACCCAGCACTTGGCACTAAGTATTCATTATTGTAACAACAACAACAGCAGCAACAACAATACTAATAGCTAATGCTCACAGAGCATTT
AACGTGAGCCAGGCCCTTTCTTCTAAGCACTTGCTGTTTATTAACTCATTCAATCCTTACAACAATCCTGTGAGTAGATAGTATTGTTATTTCCATTGTA
AAGACAAACTAAAGCTCACAGAGGTTTGGAAAATTATTTAAGGCCACATTGCTGGTCAGTGGCAGAAGTGGAACTTGGCTGCAGGGARTCTGGCCCTGGA
GCCTGCAGTTTTCACTTTTACTCCGTGTGCTACTATATTATCCCCAGGCTCTAAGGAAAGCCTGTTAAGATGATCCTTTCATCCCCTCCCCCAAGCCCTA
GCTCTAAATCTCAAAGCTTTGGAATTAATCTGTAAGTCAACTCAGCTTCTGCGAATCATCTGACCCAGTTGATCACTCCCTTCCTCTAAAAACACGGTTT
TCTTTTGGCTTCTATGACACCAAGCCGGCTTGGATTTCTTCTTGTGAYTCTACCCTCTCAGTCTCTCAGTTGGGCACCCCTTGCTCCAACTTACCTCTAA
ATATTTTTGAAGATGTCTGCATGCAAATTATACAGACATGCAAATTATATTATATGCTTACAAATTTTATCTCCAGCTGAATCTGTCCTCTGAGTTCCAG
ACTTGATGATCTGAAATGCCTAATTAATATCCCCATTTGGAAGTCTAGCAGGCCTCTCAAACTTAATATGTCCAACATGGATTATTCTCCTCACTCCTCY
TGCAGCTCATGCTGCACCCCTGCTTACAGCCACCGCTGATCTCCAAGACCCCTGCCCATTTTACTTAGAATGAAATTCAGATTTCTTACCGTGGCCTACA
AAGACTAGCATGATCTAGCCCCTGCCTATCTCTGTACCCTCCTCTGCCTCCACCCCGTTTCCCCAAGAGGCTTCAGCACATTGGCCTCCGTTCTGTTCCT
CACACTCAGCAAGTGCTATCCTGTCTCAGGACCCTGCTTCATGCTCTTCTTCTGCCTCCAGGGCCTTGTCCCTGTACCTCCTGTCCCCCACTCCATGGTC
GTCACATCCTGAAGTCTCAGCTTAAATGCTATGTCCTCAGACAGATCTTCCTAGCCACTCTAGCCTTTATTCTCTTTGGTTGCTCCCCGTATGTTTTCTT
CCTAGCAGTTGTAACAATCTGGAATTGTTTGTTCTCTTGTGTATGTCTGCCACCCCCACCAGACTATAAGCTCCTAATGGACAAGGTCRCTGATGGCTGC
TCATCTGCTAAAGTTACTCCAGTGCCAGGCACAGAGTCTGGTACATASATGTTCAGTAAATATGTATTGTTGTTGAAATAAAATCAATGGCTGCTGCTAA
GTCAACCATGAGCATAAAATACCAATTCTAGGCCTGTTATTTGTAGAATCCTTTCATGGACTAGACARTTTTCATATATATATACAAGTGGTTAAAAAGT
TGGTTGGGACTTGGGCTTTTTTTTTTTTTTTCTGAGATGGAGTCTCGCTCTGTCATCCAGGCTGGAGTGTAGTGGTACATTAGACAATTTTGATATATGT
AWACAAGTAGTTAAAAAATTGGTTGGGACCTGTGCTTTTTTTTTTTTTTCTTTCTTGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTA
ATCTTGGCTCATTGCAACCTCCACCTCCTGGGTCCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAAGTGGGATTACAGGCGAGCGCCACCATGCTCAGC
TAATTTTTGTATTTTGAGTAGGGACGAGGTTTTGCCATGTTACCCAGCCTGGTCTCAAACTCCTGATCTCAAGTGATCTGCCCACCTCGGCCTCCCCAAM
TGCCGGGATTACAGGTGTGAGCCACCACTTTCGCCGGACCTGGGTTTTTTAATGGGCCTTGGTCTCCATTTTCACATTTCTTCTTCCTGGGTCATCCAGA
GTGTTAGGATTTACTGAGATTCTCTTAAGAAAAACAGCAGCCTTGGATACCCAATTCATATGAAAGCAGGTTTGATTTCGGTTTAAAATGGAAACTGTGA
GCTAATGCATTTTACAGATTTGAGGAGAGAACAATTTTCTCTGTTTTTAAGAAAATAAAGAACAAAACGTGGGATAACTTTTTGTGAGTCACCATAGTGC
CACAAGCTCCTGAAAGGGGTTCTCTGCAAATATTTGGGGTTTGGTGCTTATAAACAGCTACAAAGGTTTTCTTGAGCGTTGGTAACCACGGCAACAAGGA
CGTCACTTCCACGGTGCAAACATGCTTGCCAAGCTGAAGTGTGGAGTGACAGTTTTTGGCTGAGCCRTGAACCTAAAAGTGGAGGTTTACAAAGTTACTG
CAGACAGGTCATTAGCACGACTGGCTGCAGTGAGCTCCCTAAGTCTTCATCGCTCCTGCCTTTTCATCAGCAGCGAGATAATTGACTGTTAGACTCCCGA
GCCACAGACCACGGCAGAGGTGAGTCCGCTTCTAACTGTTTCTGCAGRGTGAGGTACAGTTGTCAGAAGTTCCCAAACAATGTGAGTTTGGTAAGAGGAG
ACTGGAAATGGAGTTTTCACCAGTAAAGCGACGCGTGGCGATTGTGTATCTACAGGGTGGAGAGCRCAGCGCTTAGCCCTGTGTCGACAGCCCTGTGGGC
TGAGGCCACAGTCTGAATTTGCTGTGCCCAGCTGTGTTTTTTCATCAGGACAGGGTGTGGGAGCGGGGGCAGGCAGAGCTTCAAGCTATGGACTCGGCAA
TGGAACGTGTTACCTCCGTGGTCAGCACAGTTTTAGTTTTGGGTGATAGAAACCCAATTCAGGTTGCCTTAAGCAAGAAGGGAATGTACTGGCTTAGGTA
AGAGAGGAGTCCAGGGGTAAAACCTGGCCCCAGAAATGACTGGATTCCTAGATTTGGTCTCTCCCTTTTCTCTGCATCACCACTGAATCTCTCGCCCCCT
TCCTCTCTAGTGCTTTCTCCTCCACTGGCTGTATTCTCAGGTTCTCCAAGTATGGTTTCCAGAAGCATCGGTCCTAAAGCCACCGGTTTAAAGACCCCAC
CAGGTAGAGAGCTCTTCTTCCCAGAAGATTTTGCAAAATCTCTGGATTGATTCCCGTTGGTCTATCTTGGGTCACGTGGTCAGCCCTGTACCAGTCACTG
TGGACAAGGCCATGGACTATTCTGATTGGACAAGCCCATGTCACCTGATCATTCCCAGACTYCAGGGAGAGGTTGAAAGTGAGACCCACAGGAACCAAAG
GATGTGGGGGGACTCCCCAGTGGGAATTTGAAATGCATTCACCGGCAGGAGTACTGGGTGCTCGGGAAGTAAAACCGCAAATGCCCACCCCTCTAACCAA
GTAACTGGATGTAGGGAGAGTTAGTAGCTCAAGTTCGAATCAGCTTCCTTAGCGGGCTGTTGAAGAGCCTCTGTTGGGAGAGTGATGTCAGCAACATGGC
AGAAGAGAAGCTCCTGACTCTCCCTCCACTCGTGGACACACCAAATAAACATCCATTCACCAATCACTTCCCTCTGAGAGAGTCAGAGACCAGTTGAGAT
TCCTACCCACCTGGTAACTGAGAAAACATCCCCATGTAACGGGTCGGAAAAGCTGAGACTCTCTTGGGCACGCCCCCACCTCGGGCGCTGAGCCACAAAA
TTGGGAAAGGAATCTCTAGCACCCAGCATCTCCCCATGGAGAGGAGGCTTTGGGCCTCACAAGGCCCGCCCTAACTCTAAGGTGCCCCACGGTTGGCTCT
TAATTCACCAACTCTGGGGCTGAGGGAATTAGACACACTCAAGTCTCTGTTCTGCTTTGGCTCTATTTTATTTATTTATTTATTTTAGTGGAGACGGGGT
TTCACCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAAGTGATCCGCCCACCTCAGCCTCCCAAACTGCTGGGATTACAGGCGTGAGCCACCACAC
CCGGCCTGCCTTGGCTCTTTTAAATGAACCTCAAGCGACCACCAGCTAGCAACGTGCCTTCTGCCTCTGGGATTGCTCCAGGCCATGTCTGTGTAGTAGA
AGGAGGTGATGTTTCCCATTCCCCTCTTGTAGCTCCTTGTTCAAGCTCATCCTGTTAGATCAAAGACAATATTTGGACCTCAAGCCCCGGCCTCCATAGA
GCCATGGTGTGTGTATGTACGTGGGACACTGTCTCGCTTTTATTTATGTTCAGTCTCTGCCTCTCTCACTAGATTATAACTTCCAGGAGGGCGGGGGTCA
TCTCGGCCTTGCTCACCACAGTGCATAGCTTGGAGGATGTAGTGGACAGTCAGTAAATGTTTGTTGAAAGAACAAATTACAGGACAATGGGGAGTCATTG
AGGGATGTGAAGTGTGACAGGGTAACTTGCCCAACATTCCCCAGATAATAAAAGACACTATCAGTGGATCACCTGAGGTCAGGAGTTCAAGATCAGCCTG
GGCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAACATTAGCCGGGCATGGTGGCGGGCGCCTGTGTAATCCCAGCTACTCGGGAGGCCAAGGCT
CAAGAATCACTTGAACCGGCGAGGGGGAGGTTGCAGTGAGCCAAGATAGCGCCATTGCACTCCAGCTTGGGAGACAAAGTGAGACTCCGTCTGAAAAAAA
CACACTATCCTCCCTGAATCCCACGTCTTCTGACTCCCAATGTCCCACTTTCTGCCCCCTGCCCAGCAGTGGAGTTCTCTGAGTAAGAAGAGGGGGAGGG
TGGCACATACTAACACAGAATGGATGCTTGTATGCAGACCAGGCTGTAAATTACATAGCAATGACAGCTTTGATGTTGCATCTGAAAAGGTGTAATAACC
CCTTCTAGCAGGTCTCTCTCATGGTGGAGGGGAAAGTGGTTTGTGCTTTATTTTAATCAGCGAGGCCCTTCCCTGCTGGTAACTTGAGGTCATTCCATCT
CATCTCAGAAGGTCGTCTTGTCCTTGGGTTGCCATAATCTCCTTTGGTTATAAAGAGGACCTGGAGCCATGCAAGGGTGGGATGTTGACTTGCCATCTCA
GTAGCACATTTAATCCTACAGGACTCTGGCTTCCCCTATGCAAGCATTAGAATAAGAGTTCAGGTGAGTGTGACCTGCGTTACAAAGGGCAGTCTTCACC
ATGAACCGTAGGAAGGGCAGGTGGCCAGTTCTGGAAAGGAGCCAGGAGACCTGGGTCCTTCTTACAGCACCCAGACTGCTGGGGAGGGAGACATGGGCAA
GTCCTTTCACCTCTGTGGGAGAAATGGGCTGGTGCTCTTCTGTATCAGTTAGGTGTCTTTTAGTGTCAAGTGGTAGAAAAGAAAGAAAAATCCAAGGCTA
GTGCTGGCTTCAGGGCTCTCCTGGATCCAGGGATGCCACTGGTGTGGTCAGGCCTCTGTCTTCTGTTGTGATACTACATACATAAACATTAAGATAAACA
TAAACATAATAAACATTATTATCCCCCATCTAACATCTCCCTGCTGTGTGGCCTTGGACAAGCCACGAATCCCTGTGACCCTCGTTTCCTCATCTGGGAA
TAATATTAGATCCCACACGCCACTGCAGTGAAGATTAAACAAGGCAGTTCATGAGAGAGCTTAGCACTCTGTACCTGGTGCATGGTATATAGTAGGTCCT
CTGCACTGTGCCTGGTTCATAGTMGATCCTCTGGGCTCTGCTGTCCTCTCAGATGGCCTCATTTTCAGGCAGGCTTTCTCCCCTTGATGGTCTCTACTGG
TTCTGTGCTTACAGACTCCTGGCTTGTAGTCCACTCTAAAGAATTTATTTTCGACAAAAAGTCTGGGATGTGGACATGCACCCACGCTCACTGGCTGCAG
GCATATGCTACCAGGCAGGAAGCACTCCTCCCAGGGGCTGGAGCCTGGGGAATCCTTTGGGGGAGAATTCTGAGAAGTGAGCAGTCTGCCTGCCTTGCAG
GGAGGTTTGGCAAAAAGGGAATGGGGACCAGATTGAAGGTAAGATGTCATTTCCAGGCAGAAGATCGAATAGAGCCTTGCAAGCCCTTGTTTTGAGAGAG
GGGAAACCAGGAGAGAGGGAAGACCGTCAGTGTGTATTAGCAACATATACCATGCTCTTCTGTGCCTCTGTGCCTTTGCACATGCTGTTCTCTCTGCTGG
GACTTCCTTATCCACTCTGCACACTCCCATGCATCCCTGAGACCCAACTCTTCAATGAAGCTTTCTCTGGCTAAAGTGAAAGCTTTACCCCTCCCCTCCC
GCCCCATTTCCCTATCATTAATTGCTTTTCTTTTCTTTTTTTTTGGAGACAGTCTTGCTCTGTCGCCCAGGTTGAAGTGCAGTGGTGCGCAATCTCAGCT
CACTGCAACCTCCACCTCCCATGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGCCGCCATGCCCAGCTAATTTTTGTA
TTTTTAATAGAAAYGAGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCCGCCCACCTCAGTTTCCCAAAGTGCTGGGATTG
ATTTTCCATTTTTGAACAAGCATCTATTGGGTGGTAGCACTGCGTGCTGGGGATACAAATGAGAATACATGACAGTGCCTGTGTCAGAGTGAGTTTGGTC
CTTCCTCCCTGTTCTGCTTCTCCTTTATCAGAGCAGTTACTTGTTACTTATTCAACACATCTTTATTAAGCACCTTGTATTTTTCTGAGCATTGGTCTAG
AAGCTGGAGATTCGGGGACAGTGGGAGAGACAATAAAATCAATAAATAATATTAATGAACAAGGTGATATCTTTAATTTCTTTTTTTTTTTTTTTTTTTT
TTTGAGACAGAATCTCGCTCTGTCACTCATGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCC
TCAGCCTCCYGAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCAGCTAATTTTTTATATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGAT
GGTCTTGATCTCCTGACCTCGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCATGCTCGGCCTGAACAAGGTAATTTC
TGATGGTGTGTACCTTAAGAAAATAAACACGGGTAAAGGGAGAACAAGAGATGGGGATTAGGGTGGGAGGAGAGTGGTCAGGAAGGAGGGACCCTGTGGA
ATAAGACCTGGAGAGTGACAAGGAACAAGCATGCAGAGGCCTGCGTGCAGGGCATTCCAGCTGAGGGGAACAGCACGTGCAAAGGCCCTCAGGGGGGTGT
GTTCCAGAAATGACAAAAAGCAGGGCTGTAGTGAGAAGAGAGGACAAAGGTTTGGAAAGTGAGGTCAGGGAGATGGACAGTGGCCTGGTCATATAAGGCC
TTTAGACTAAGTCATGGGAGTAGATTTTATTCTAAGTGCCTTGAGAAGCCACCGTAGTGATTCTTTTCTAGCTTGGAGGACGCATTCTCCAAGCCAGGCG
TCATCCTGTCCCTTAGGTGCACAATTCTCCATTCTCTTTTGGTGCTCAAACTGTGTCATCTAATACAGTAGCCACTTCAAGTAGCTACTAAGAACTTAAA
ATATGGCTAGTCTGAATGGAGATGTCCTATAAGTCTAAAATATATGTTTTCAAAGACTTTGTATGAAAAACTCTGTCTCATTAATAATTTTTCTTTCAAT
CCATGTTGAAATGATAGTATTTTGAATATATTGGGTTAAATGACATATGTTATTAAAATTGGGCCAGGCAAGGTGGCTCATAGCTGTAATCCCAGCCCTT
TGGGAGGCCAAGGTGGAGGACTGCTTGAGACCAGGAGTTTAAGACCAACCTGCGCAACACAGTGAGACCTCCTCTCTACAAAAGATATTTAAAAAGTAGC
TGGGGCTGAGCGCAGTGGCTCATCCCTGTAATCCCAACACTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGGTCCGGAGTTCAAGACCAGCCTGGACGA
CATGGCAAAATCCCATGTCTACCAAAAAAATACAAAAATTAGCCAGGTGTGGTATTGCATACCTGTAGTCCCAGCTACCTGGGAGGCTGAAGTGGGAGAG
TCACTTGAACCCGGGAGGCGAGGTTTCAGTGAGCCAGGATCACGCCACTGCACTCCAGCCTGGACAAGAGAGAGAGACCCTGTCTCAATAAATAAATAAA
TAAAGTAGCCAGGTGTAGTGGTGCGCAACTGTACTCCCAGCTACTCAGGAATCTGAGGCGAAAGATCACTTGAGCCCAGGAGGTTGAGGCTGCAATAAGC
TCATGACTGCACGTCAGCCTGCATGACACAGTGAGACCCTGTCTCTAAAAAAATKAAATTAATTTCATGTGTTCCTTTTAACTTTTTTCCTGTGGCTGCT
GACAATTTGAAACTCCATGCATGGGTTGCACTGGGTTATATTTCTGTTGGCCAGCACTGCCCTTCAAGCACCTTCAGCCATTGCTTTTACCTTCATGGGT
TATAGTCACCTCTTGACTTGTCTGTGCTCCTCCTTGAGGACAGTGACCCCAGCCGGTTGGTGGAGTCCTCAGGCACCACATTGGTGCTCCCCCTGGGTCC
CCTTGGCGCACCCTGGTTCCCTGCACCCTGCACCCTGCAAACCCTCAGGCTGCTGCTCCTGAGGGTTTCTTTGGCATGCTCAGGCTGCATGCAGGGCAGG
TCAGAAGTGCTGGGAGTTCACTCCCCAGGAGCAGCCCTCAGCCAAGGAAGGAGCAGAGTTGGAGAATACACACTCCATCATCCTGCTTCTCAGGTGCACA
GCTCTGAGGTGTGTTCTCTAGCATCTCCCGAAGGTCACCTTCAGTGGTAACCTGCTCTGCAGTACACCCATTGTTGGCTTCCTTTCTGCCGCTGTTTTAT
TTCCCCATTCATCTAGTTGGGATCACTTCCCAAATAGACTCCTTGTACTCAGATCCTCCTTCCAGGCTGGGCTTCTGGGGGAACCCAACCTGAGACCTGG
GGTGCCCAACAGGTAGGTGCTTAGTAGGAGGAGAGGGCCTGTCCCTCCAGCACATGTCTGGTGCAGGCTAGCTGCCCACTGTCAGGGGTGGGGAGTAGGG
TGAGGTCGCAGGGGGATCCTGGCCAGTCTCCTGCAGCCTCTAGACCTTGAGCCTGAGGACAAGGAGCAGTGACATGAGTGTGCCAGGCTCAGGGCGTGGT
GTCTGGCTGGTCCCTAGTGCCTCTAGCTGCCACACCCAGAGGGACAGTTGAATCAGCCACTGAGTTAGTGAGGGCAGAGCCACCCTGATGAGCACTGGCC
TCTTGTGTCACTGTGGCAGTAGGGCCCGGGGAGTGTCTCAGCAGGAATGGCACAGGCAGCRTCCAGCATCTCTGGTGAAGTAGAGTGTTTCCAGGTGCAA
TGTCTTCTTTCTGACACCACTTCTGACTCCAAATGTTTGGGGTTTTCTCTATACCAAGCARTTCTCCAATTTTCCTACCCGAACTACATGTTCAACAACT
GAATTTAATTCTGACCCTAACTGTCTGGAATTAGGGCAACCCCCACAATTCTGTGGGCTCAGTCCCATAGAACAGCTCCCACTTCAGATGCCAGTCACAA
TTCCCAGAGGCTGCGTGTGTCTGACCAACCAGCTRTAAATTGAGAGGTTTCCACAATTTCCTTCTCAAGTGTGATGATTGGCTAGAACTCACAGAACTCA
GGAAAATACATCTACAGCCATACCACCCTGAACACGCTTGATCTCGTCAGAACTCAGGAAAATACTTACTATTACTGGTTTATTATAAAGGATACAACTC
AGGGACAGCCCAATAGAAGCGATGCTAGGGCCAGGTATGGGGGAGGGGGCGGTGGTACAGTCTCCATGCCCTCTCGGGACGTGCCACCTTCCCGGAACAT
GGCTGTGCTCACCCACTAGAAGCTCCTTGATCTCTGTGGTTTAGGGGTTTTTATGGAGGTTTCATTACATAGGCATGATTGATTAGATCATTGACCATTG
GTGATTGAGCTCTATCTTTAGTCCTTCTTCTTCCCCCAGACATCTTTTTGGCCGTCTCATTAGCGTACAGAAGACACTCTTACCACTCAGGAGRCTGCAA
GAGTTCTGTGCCAGAAGTCAAGGACAAAGACCAAATCTATTTTTTATGATACCACAATGATCTCATAATATTAATGAGATCAGATGAGAAAACATGTGGA
AAGGCCTGTGACTGTGAGTTGCCCAGATCATGGCATGTTATATGTGTGCACATTTATTGGAAGGAAGTAGGGAGGTGACAGATCTTGCTGTCTAGAACTG
CTAATATGCATTTGACAGACATCTGCAGGGCACCTACTGTGTGTTCATGCGGTGCCCAGGGCAGGCCCAACATTGCAGCCAGACTGAACCTTCTCAGCAT
CAAAACTGTTCGTGTCCATTGCCGTCTTAGAAACTCTCCCTCACTTTTAAAGCAACAACCAAATTCCTTGACATGACATCCAAGGTCTTCCTCGGCCACC
CTTGCCTACCCGTCTGACCTCAGCTCCAATCCCTCCCTGCACGTGTTATTTGTTTTCATTGCACTGAGCTATTTGCACCACTCCACATCTATGTGCGTGT
CAAGCCTCCGTGCACTTGCACCTGCTGTACTCGTGCCTGGACCATCCTTTGCCAGCCATCCTGCTAGTTAACCTCCTTCAGGAGGCAGCTCAGTGTCACC
TTCGCCGTGAAGTCCTTCCTGATTTCCTCTTTACCATTGCCTTGTCCCTTCTTCTGTGTCCCAGTATCTATTTCTTTTAGTGCTTCCATCATTCATCAGT
CACTTGCTTTATTAAAGGAATTGCACCATTAACTATATAGGAATCCCTGCTAATATTTGTCAGCATTGAGGCACTCTCGTTTAATCCTCATGGCCACCCT
ATTAAGTAGGCACTACTATTAACCGCATATTTCAAAAGTGCAAACTGAGGATTAAGAGGTTAACAGAGATAGTCAGTAGTAGAGCAAGGATGTACAACCC
AAGCAATCAGATTCCAGAGCTCTTTTACCTCACTGGGAAACAACATTATCTTTTACTGTTCTGCATTATGTTGTAACTGTCTGTTTACATGGCTGTCTCC
CTGTATCAGTCAGGGTCCCAGGAGGAAACAGACAGCACACTGGAAATAGGGTAATCCGAAGAGAGTTTAATAAGAGAGAAGTGTGGGCAGTGGGCAGGGG
GACCATAGAGATTAGTCGGGCACCCAGATCCTCAAAGGTCTGAAGGGGTGAGAGAGAGGAGGCCTCTGGGAAGCAGGAGCCAGAGAGGCTGTGTGGAGAG
CACCCTGAGACACAGCCGGGAGGGCTGGAGCCTGGAGAGCAGGGGAGCACTCCCCTCCTCTGACTTTCTGCTGGCTGCATTTTACCACATGCCTTTGCCT
GAATCCAGGTAGAAGCCAGAGGGTGGAGGAGCCCTGAGATGTGTCTGGAGCAGGTCAGCAGGAGAAGGAGGGTACAGAGTGGGCCTGGCAGGCCATCTGC
ATACTCTGATTGACCATAGGCTCCTTGAGAGCTGGGGCCCTGTATTGCTCACGTTTACATCCCGGTACTCAGCACAGAGGCCAGCAGGCAGGAGGCGCTT
GGTCAGTGCGTGTCAAATGAATAAACAACAAGGGACTGATCTTCAGTACAAAACACCCCTTCTGCAATGTCTGCTTGTCGATCACACATGGTCTCAGGAA
TTCTTTTTTTTTAATTTAATTTTTGGGGAACAGGTGGTGTTTGGTTACTTGAATAAGGTATTTAGTGGTGATTTGTGAGCTTTTGGTGCACCCATCACCT
TGTGTGAGCAGTATACACTGAACCCAATTTGTAGTCTTTTATTCCTCACCCCCTTCCTACCCTTTCCCCCTGAGTCCCCAAAGTTCACTGTATCCTTCCT
ATGCCTGTGCATCCTCATAGCTTAGCTCCCACTTATGAGTGAGAACATATGATATTTGGTTTTCCATTCCTGGGCTCAGGAATTCTAAGTGATGTATGTG
TGTTTGTCTGTCCATGCTATTTGTGAGGTTTGTCATGGGGAAGATGATGGCAAAGTCCATTCAACTCTGAGATGATCTGATTCTTTTCTGTGGTTCTCGC
AAAACTTTTCACATCTCTTGCCCCATTTCAACTTGGATGTGAAACTGGAGAGCAAGACTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTTGC
TCTTGTTGCTGAGGCTGGAGTGCAATGGTGCGATCTCATCTCACCGCAACCTCTGCCTCCCGGCTTCAAACGATTCTCCTGCCTCAGCCTCCCAAGTATG
TGGGATTACAAGCGCCTGCCACCACACCCAGCTAATTTATTTTATTTATTTATTTATTTATTTTGAGACAGAGTCTTGCTCTGTTGCCAGGCTGGAGTGC
TGTGGCGCAATCTTGGCTCACTGCAACCCCTGACTCCCTGGTTCAAGCGATTCTCTTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACGCGCCATC
ATGGCCAGCTAATTTTTGTATTTTTAGTAGCGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTGGCACTCCTGACCTCATGATCCACCCACCTCGGCCT
CCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGTGCCAGGCCTTTTTGTTTTGTTTTTAAGGAAGCAAGTATAAATGCCATGCTCTTCTTGCTCCAGCT
GCATACAGCCACAATTACTGAGATGACTGGGCCTTGTCCTATAGCCTTTGCCTGAATTCCTGAGATAAAGGAAAGAAAAGCAGCCTGGATGCGGATTCCA
CCAGGCCCTGGCTGTGTGGACCCAGCAGGATGCTCTGGCATTCAGGGTGGAGCACCCAGCCCAGCCTTGTGACCACATCTCCACGCCTTGTGGTTAGGAG
GCCCTATCTGTGCTTCCAAATGGAAAGTATCAGAATAGCTCCCAACCAGAGAGAGAGGAGAGAAACAACCTGAATTACTGTAGTATGTGCATCTGGGAGC
CCACATTTCCTGGAAGCTCTAATTCCAAATTGATTATGTCTTTTTGTTGTTGTTGTTAATTTGTGTATGGCGTGCCAATGTGTATTTATGTCTCTGAAGA
GGCAGGGGTAGAGGTAAATTAACTCCCCGCCTTCCCCACTACTCCTCAGGACATCAGATCACATGGAAATGTATGTTTTCCTGTTTATTATTCATTTCTC
AGGCACATCAGCAAAGGTAYGGCTGTAGACAGCTGATGTAGAAAACAGTCCTGGCTTTGAAATCATGCTTTTTAGTATTTAACCTCTCTGTGCCTCAATT
TCCTTGTGCATAAGGTGGGGAACATCTTATGCCACTCACAGGATAGTGTAAGAATTAAAGGAGATTTAAAAAAACAAAGGAGTAGAGGTTGAGTGAAGGC
AGGTGGGCAGTCATGGGAACTCCCTTCTTTGCCCTCCATTTCTTGCTGGTAGGACTTCACTTGCCTAAACTTTCTATTAACACATTTCAAAGCACTTTCC
AGTGAAACCAGAGGGAGGAGACCTTTTTTTTTTTTCCCTCGAGAGTCCAACTTATACTGGAGAGCAGTGGCACAATCATAGCTCACTGTAACCTCGAACT
CCTGGGCTCAAGCAGTCCTTCAGCCTCAGCCTCTCCAATTGCTGGGATTACAGGCATGAGCCACTATGCCCAGCTCATTTTGCTTGCATTACTTTTTTTT
TTTCCTCTGCTGCTCCCCCACCCCTAACCATAGCCAGACCCCTTGGGCCTCTCTTCCCAGCAGTTCTCCAGGGTCTCACTCTCCATGGCCCATTCCTGCA
GTGGCCAATAGAATATTAACCAGGGAGGGCGCATTATCCTCCTAACGCCTGGGGGATCCAAGGGTTTAGAGCCCTGCGACTAAGCACAAGACAATAACCA
TAAACCATCCCTGACACTGGCCTAGGTTCTTTGCGCCTGCTGATCCCCAAGTGCCCACCAGGGAAGGCAGCTGTCTTAAGTAGCCCCAGGCTGAGAGTGG
CAATATGGAGCAGTTAGGAAACCGGAGCCATAAATGTGCAAGTGGACGAGGTGAGGCAGCCAGTGATGAGTCCAGTTAGGCTAAGMTCCCAAAGCTGACT
TTGCTAAGAGGCAGATTCCTGAAGGGGGCCCACAAATGATTCTTTTTGTGGAATCCTCTTTCACATGTTACCTTGGAGGTAGTCTTGGATGTCTTGTGTT
TGGGGGCTCTGTGAACAGCGACACCACTATCCTTAAGGGATAAATCATTGCAGCTCTGTTATCCTCTTTGTGTGAAAAGAAGCTGGATGCACTGGGCTCC
TGACCTTTTCCAGGACTAGGAGGTTGGGCACCTCCTGTGGAAGCTGCAACCATGGTACAGGTCAGGATTCAGACACACTTGCTCAGCGCAACTTTAACAT
CTGTGCTGCTTCCCCATCGGGAAGCAAGTGATGATGATGCCAGTTCGCTGAGCTGGGCAAAACTTGCATTTTATTAAAGTYGWCAAGTATGTAAGCTTGT
TAAAAAGCAATTATACAAAATAATATAGCCACCTAGACCAAAGCTTGACCCTAACTAAATGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGCGCC
ACCGCGCCCGGCCTAGTCTTGAACTTTTGGGCTCAAGCAATCCTCCTGCCTTGGACTCCCAAGGTGCTGGAATTACAGGTGTGAGCCACTGGTCCCAGCC
CTATCCTTTTATTTTAATTAACATCATCAGAGAAATAATATTTTTAGTATTAGCTTCATGGAAAACAATGAAGATTCACATACGTAGTAAAATCTCAGTT
CTTTGGATTGAAAGAACATTTATGGGCTACATATGTTGTACTCTCACATATCTTATTTAATGTTTATAACAGCCTCTGAAGTTGCTGTCATTAGCCTCAT
TTTAGAGATGAGGAAAGTATGTCTAAGTTGATTCTTTTGCCCAATGTCATGCAATCTGTAAATAGTAGGGCAAGGATTTGATTGCAGGTCTTTTGACTTC
TAAGTTCTGTGCTTAGCTTGGACATGGCTGCTTTTTTTTTTTTTTTTTTTTTTAAAGGGAGTTACACTTTCTCCAAGGCCTTTGAGCACCAAATATTTTT
TAATTTTATATTATCTTTGCTGATTTGATTGGAAACTCTTATAAAGATCTGCATCCAGCATGGTATCTTGAATATAGCATCATGCCTAAAACCTTTTTTT
ATTACACAGGTTTATCTTTTTTTTTTTTTTTTTTTTTTCTGGAGACTCCATCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACT
GCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGATTACAGGTGCATGCCACCATGCCTGGCTGTTTTTGTATTTT
TTGTAGGGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCCAAACTCAGGTGATCCACCCTCCTTGGCCTCCCAAAGTGCTGGGATAACAGG
CGTGAGCCACTGCACCTGGCCAAGTTTATTATTTTGAATATCACTTATTTGAGGTTGGGATCGGTTGAGTAGAGTGTTTTTCACTAATTAGCAGGCCCAT
GTATTTAGAATTTATTTTTTGTGGAATGGTGTATTAGTAAATTTCTAGTTTGTGGTGGTACATTTTCCTCCCTTCCTTGTAGCCCCTTTTCACTATTCCC
AGCATAACTGCTGTGTTCAGTTTGTTGAAGGTCTAAAAACTAGCTCACCAAACTTGTTAGAATTTTGAGTATGGTAAGAGAAAATGGGAGCAAGTGAAAG
CTCAGAGGGTGCACCTGTGATTAAAATCCATAGGTTTTGTATGCAAAAAAAAGCCATTCATAATGAATGTGTCTGTCTAGAGATTTACATGGTTTTTTTT
TTTTTCTGGCTCTTGTTTTCCAGAAAAGATGAGACTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTATTTCTGTGTGTGTGGGGGGGTGTCTGTGT
GTGCTTATGTCTGTGTCTGTGTGTGGGTCTGTATGTGTGTATGTGTGTGTGTGTCTGTGTGTATGTGTGTCTGTGTCTGTGTATGTCTGTGCGTATGTGT
GTATGTCTGTGTGTGTATATGCCTGTGTATTTGTGTATGCGTGTGTGTCTGTGTATGTGTGTCTATATGTCTGTGTATGTGTCCATGTGTCCATATGCAT
GAGTGTGCTCTCTCAGAAAAGGAAAGAGTGGGGTAAAAATTCCAGCCAAGTCCTGGAGAAAGGACTGTAATACATTTCAATCTGAATTCTCTCTCAGGCA
ACAGCCTGTAACAGAAAATAAAACCAGAATTTTTGCCCTCATAAGGAATATTTGGGTTACCAGCTCTAGCCATCCATAGTGCATACAAAATTAGATATAT
CAAGCTACAGAAAAAAACTGTGGAAAAATCTTTTCTTCCTGCAAATGTTTCATCCTCACTTATGTCAYTGTGGCTTGAATTCTAAAGAACCCTGATGAGA
AAGAAGGAAAACCAAAGAAAAGCCACTCTTTACCAAACAGTACTGTATCAACCTGCTGTTGGGGTATAGATAATACACTGGTAGGTATCACATCTATTTT
ATGTAAACAAATTAACAGCAAACCTGGGGTTCTGTTTCAGCTGTGGCAAGCCCATTGCTGTTTGTCTCTTTGGCAGGGAACATTATTGTGGAATTTTAAA
TGATTGCTCTGGAGAGATTGGGCAGAACATTGATTTTAAAGCAAAGAAGTCTTTGAGCTTTATCATCTTCCTTCCTGTGTGGAATCTGCCTTGTCTCCTC
TCCCTTAGCCAAATTGTGCAAGGGTTGTGTAAATAAATTTGCTTCTTCAGAAATCCATTCTGTGGGAGCCTGTTGGCTCCTCTGTGACTGTATCTCTGAA
ACAATTTCTGAGATGAAATTTAAGTGCTTATAAAATGTAATGCCTGTACTTGGTGAATTGAGACCAGTCTTTTCAGTGATTCTATAATGCCACAAAATAG
GCCTGTTGCATGTCTTCAGAAGAATTCAGTAGGATCCCTAAGCCTCTTAAATATACAATCCCAAACACAGAGGACTAGTTGGGAAAATGACTCTGGTAGA
ATGCTTCTCATTTGACCACTTCTGAGATAAGCCGTTTTCATATATTCTTAGTTGGTTCAGCATTTTCATGGGCCCATTRTATAAATTAGGATTAGATTTC
AACTCTGTACAAACAAAAACCCAAATAACATTAGCAATTATGTTTGTTTGTTTGTTTTCCCTCTCTGACCAGAGAAGTCTGGAGGTAGTTCAAAGCTAGT
CAGTGCCTCCATGGTTATCAGGAGCCSAAGCCTTTTCTGTTTCCCTGGTTCTACTCTCTTTATCATATTGCTTTAGGATCCCAAATGGTTGCTGGAGTGT
CAGCCGTCACAACCACATTACAGTAGGCAGCAAGATGCAATAAGAAGGGAAGGATAACAGGAGTCCTCTTCCAGCTGTGTTAGCCCTTTTTAAGGCACTT
TACCAAAACTCCTACATAGCATTTCTGCTTACATCTCACTGGCTAGATTTAGCCATATAGCCACCTTAGCTGTAAGGGAGGCTGGAAGATGAGTCTTTTA
GCTAAACACATTGCTGCCCCGAATCAAACTGGGGCTCTGTTAGTGAAGAAACGGGGACTACATAGCAGGTACATAACTGGTAGTCCTGCCACATCAGCAG
AGTACCATTTGTACAGAGAGTGCGGTTTAGTGCAAAGGGCTTGAACTTTGAAATTAGATAGACTTCTGTTTGAATCTTAACTCTACCACTTACTCATTTC
AGCACCCTAGGTCTAGCACTTAACCTCTCTGAGTCTCAATTTCCTATCTATTAAACATGAGGAGAATAATAGCTACTTTGTAGGGTTGCAGTGAGGGTTA
AAGAAAATCATAAATAAATTGCCTTGTATATAGTAGATACTAAATCATCGTCATTCTAGTTGTTATTAACAGGTAAGGTATGCCTTCCATCTTCACCACC
ATAGTGGTTATTTTAAAATTGAGATAATTCATATAAAATTTGCACTTTTAAGATATACAATTCAGTGGTTTTTAGTGTATTCACAAAATGATAGAACTAT
CACCATTGTCTATTTCCAGAACATTTTTGTCACTCCTCACAAGAAACCCTGTACCCACTGGTAGTCATTGCACATTACCACTTCCCCCACAGCCCCTGAT
AACCACTAATCTGCTTTCTGTCTCTATAGATTTGCCTAGTCTGGACCTTTAAGGTATCATACAGTATGTGGTCTTTTGTATCTGACTTTTGACTTAGCAT
AATGTTTCCAAGTTTCATCCATGTTGTAGCATGTGCCAGTACTTTATTACTCTTTATGGCTGAATAATATTCCATTGTATGGATATACCACATTTTGTTT
ATCCATTTGTTTGTTCATGAACGTTTGAGCTGTTTCCATTTTTTTGAATGTTAAGAATGATGCTGCTGTGAACATTGGTGTACAAGGTTTTATGTGCACA
TATGTTTTCATTTCTCTTGTGTATATACCTAGGAGTGTCTTAGTCAGTTTGGGCTGCTATAACAAATTACCCTAGACTGGATGGCTTACAAACAACAAAT
GTATTTCTCTCAGTTCTGAAAGCTGGAAGTCTGAGATCAGGGTACCAGCATGGTTGGATTCTGGTGAGGCCCTCTTCCCTTGCAGGCTGCTGACCTCTCA
TTGTGTCCTTATATGGCTGAAAAATAGCTAGAGAGCTGCTCTCTGTTTTKTTTGTTTGTTTGTTTGTTTTTGAGATGGGGTCTTGCTCTGTCACCCCCCA
GGCTGGAATGCAACGGTGTGATCTCAGCTGACTGCAACCTCCGCCTCCTGGGTTCAAGCTATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGATTATATG
TGTGCGCCACCATGCTTGGGTAATTTTTTGTATTTTTGGTAGAGACGGGGTTTTGCCATGATGGCCAGGCTGGTCTTGAACTCCTGATCTCAGGTGATCT
CCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCGGCCTGGGGTCTCTTTTATAAGGCACTGTTCCCATTCATGAGGGCTC
CACCCTCATGACTTAATTACCTCTCAAAAGTGTCACGTTGTAATACCATCACATTGGGTTAGGATTTCAACATGTGAATTTGGGTGGGACACATGCATTC
AGTCCACAATAGTAAGCAGTTGCTGGGTCAGATGATAACACTTGGTTTAACCTTTTGAGGAGTTGCCAAATTGTCTTTCAAAGCTACTCCACCATTTTAC
ATTCCTACCAGCAATGTGGTGGGTTCCAGTTTCTTCACATCCTTGACAATACTTGTCAATTTCCATCTTTTTTATTACAGCCATCCTAGTGGGTGCAAAG
TGGCATTTCATTGTGTTTTTGATTTGCATTTTCCTAATGTTTAGTGATGTTCAGCATCTTTTCATGTGCTTATTATCCACTTGTATATCTTTGGAGAAAT
GTCTATTTAACCCCTTTGTCCACTTTTAAATTAGTTATTTATCTCTTTATTGTTGGGTTGCAAAAGTTTATATATTTTGAATACTAGGCCTTTATCAAAT
ACAAGTTGAGCATTCCCAATCTGAAAATCCCAAATGTGAAATTCTCCCAAATCCAAAACTTTTTGAATGCCAACATGAGATGCTGACACTTTTGCTTTCT
GATATTTCATTGTATACAAACTTTGTTTCCTGCTCAAAATCATTAAAAATATAGTATAAGATTACCTTCAGGCTATGTGTATAAGGTTTATATGTAACAT
AAGTGAATTCTGTGTTTAGTCTTGGGCTCCATCCCCAAGGTGTCTCATTATGTATATGTAAACATTCCAGAAATAAAAAAAAATATCTGAAACACTTCTG
GTCCCAAGCATTTCAGATAAGGAATACTCAACCTGTATACGATTTGAAACTATTTTCTCCCATTCTGTTATGTGTATTATCTAATTGATTCTGTATAACA
ATCCTTTGACGTAAATATCATTATCCCCATTTTACGGATGAGGAAGCTGAGGCCCTAAGGCAGTGAACAGCTTGCCTAACATAACACATCTAGTAACTGT
GAAGATGGTACTGGAACCCAGGAAAAGATTAGCCAGGGCTTTTTTAGTATTAGTGGTAGAAACCCAACTCAGACTAGCTTACACTAAAAAAGAAGTACAG
TTGCTCACATTACTAGGAAGTCCRAGGGTTGGACTAACATTAGGCATGGGATAGATTTTTGTGGATCCAGTGGTTCAAATGAGGTCACCACGACTCTCCC
GYATCTCTTGCCATCTTTTGGTTATGATCATTCTTAGGCCAGCTCTCTGATGTGTGGCAAAGATGGTCACCAGTAGCTGAAGGCCTACTAAGTCTTAGAG
AGAAAAGGCATATTCCTCTGTATCCTAGCATCTATATCAGTCCTCCATGAAGGATTCTGGTTGGCCATGCTTGAGTTAAATGCCTGTTCTAGTACCCATC
ATTGCTGTTATCAGGATTCTGGAATACTCTGATTGGACAGCCTGGGTCCAGCCCTTTAGTTGGGAAAGTAGAGACATGACTGACAGTCTAGAAAATTACC
TGGAGTCAGGGAGGAGTAGTTCCTACAAGAAGGGGATGTAGGAGAGACAGACAATGTAGTCAGTATGCTAAAAGTCTGTCTGAACTGCTGATAATTTCAA
GATGTTAAAATTAGTTGGGAGTAAGTGAAAGTTAATTCTTAAACCCAAACATCGGGAGAAAAGTAGTTTATTCACACAAAACCCCCCATGATATTGAAAA
TAATATTCATGAAAATAATATGATATTGAAAATAAGTTCTCTGCTGTCTATGTAAATATAGCAATTTTATAAATTTGTTTGTATAATGCCTCTCAACMTC
TAAGGCCAGAGCAAAAAACCTAATTTTTTAAAAACAAAAAACCAGAAAATATTAGGGAACAGAAGCTGGATGCTGTCTCAGAAGGTTTGCTAGCAATTGT
AGAGACTTGTTTTTTTTTCTGAATTAGAGCCCCTAGTGTGATTCAAATGCTCACACTTGAAAAAGGACGTTAACTAAATAGCATATGTTAAGAAGAAAAC
TCTGCAGTGGGCGGGCAGTTTTCCTGTTTCAAGTGGAGCAATGCCCTACATTTGACATGGTTATGGAAAAATCCTGTTATGATACAGCTCATTGTTATGT
GGGTTCAAATACATTGCAGGCGAAATCATATTTTTGAAAAGCAACAAGAGAATACTGTGACAGATTCATGTAATATAGGGTATCTTTAACGGGGGCCCCA
ACCCAGACGGAAGACCTCCAGACAGTTCTTAGCGTTTTGAAGCAGAGCTGGGGACCTCTTTGTGTTTGGAGTTGGTAGTCACACTGATGTCAAAAAAGCA
TTTATTGAGCTATAGGATGCCATTGCCAAGGGACCTCTGAGAGCCTGTGCCCCAAGGTGCTGATTTTAACCACAAGGAAAATGAGGCCGAGGGAGGTGAA
ATTATTTGGCTGAGGAAAAGGAGCCTACCTCCCTGGCATTCCATGTCACAAACATCTTGGTGCAAAAGTCACAAATAGCTACCATTTATCAAATGTTTCT
TTTGGAGTAGTATTTCAGAGCCTCAGTGGCTTTGAAAAGTGCTCATAAAAATAGATCTAGCTGGGCTGTGGGCAAATCAGAGAGAGAGCGTTACATCAAA
TTACTTTTACTTGGACTTTACATTCATTGGTCACTTTTAAAATACACCTTTATTTTCTGTTTGAATTATTTGAATATTCCATCACTTGTGCTGAAAACCA
GTATCTCTGCCTACATATGAGCTCCTTGATGACAGAGGTTGTCTCTTATGTTTTAAAATTTATTTTTGGCTCTTAAAGTATCTAGCGGCCGGGTGTGGTG
GCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGACAGGCAGATCATGAGGTCAAGAGATCGAGACCATCCTGGCCAGCATGGTGAAACCCCGTCTC
TACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCGCACACCTGTGGTCTCAGCTTCTCAGGAGGCTGAGGTAGGAGAATCGCTTGAACCTGGGAGGTGG
AGGTTGCAGTGAGCCGGGATTGTGCCACTGCACTCCAGCCTGGGGTGACAGAGAAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGGAATCTAGCA
TAGTACCTGTTTAGAATGCAAATAGTGGTATTAGTAGCTAATGTTTATTGATCACTTACTATATACCAGGCACTGTGCTAAGCATTTGCACAGATTATCT
CATTTCAATCTTACCACAACCTTGAGAGAGAGGGCTTATCATCATCTTCCTTTTAACAATAAAGTAATTTAAATTAAATAACTTGCCTAAGGTAACAAAT
CCTGTTAAATGGCAGCACTGAGATTGAACCCCAGGTAATCTGAATCCAGATCGCACACTCTTAGCCCCTAGAAAGGTTATAAAGCTGCTTAATAACTGTT
TGTGGATTAGAACTGAACTGACTGGTTCCCTCCTAATACCTCTGTACCCAGGGGAAAATGTTGTCAGAGACTCAGGAGGCAATGATCTCATCTCTGAAAA
TGACCAAGGGAGGAGGAACTGTGTCAATCACAATAGGCAACTGGACTTGAGAAAAGGAGAAATTTGACCTACACTCTGCATGTGCTGGGAAGCTTCTCTG
GGTAAAGGGTGGGTGGCTTAGAAAAACAGTACAACTAGGTGAGTACTGTGGGGCACAGTCCTCTTGCCCCAAATTAGGAGTGTCAGTTAAGTGATGGTGT
GCCAAACTTTATACTGTTACAATTTTWAAATAGTAGGCAATTGTGCATAGGCATTCCTTGATTCTGTGATGCAAAGACAACATAATCTGTTGTAGAYGGG
AGTTTCTGAAGGTCTTTAATCCTATCCTTGAAATATAACTGGGAAAGGTGGAGTGGGAAACCCTTGGGAACCAGGATACTTGGCATTTGGCTCAGTTCCC
ACAAATCTGTCAGGGAACACTGGGCAAGTCACCTAACTGCTTGGGAATCAGTTTCCTTATCCAAAAAATGAAAAGTTTGGAAAGCATGTTATCCTTAAAA
TTCTCGCTGGCTCTTATGGCTTATAGTGATGTAAAATAATGACAGCGACTCTAAAAACCGGGATCACTTCTGTGGATCTTACTCTCTTCTGGATCTCTCC
ATTTCTCCTCTCTCAATTCCTCTCATACCCTTCCCCCTATAAATGTTTGTTCATTCATTCATTCAGTCTTCCTTCTATTCAGTAAGTATCTCTTAAACAC
TTGGCACTTTGGGGCCATAATAGCAAATAGAAACCCTCCCTGGTCTTAGGTAGGTCACAGTCTAGTTGGATAAATATAAATATTTGGAAAATGGTACCCT
GGAAAATGATACCATTGAAAAGGGCCATAAAAGAGGAACGTTCTCATTCTTGATATAGCACAGAAGTTGGGCATCATTAAAGGTGATGAACTCAACTTAA
ATTCATCAAAGAAACCTGGGTGTATTGTAAGTTTTTCTCATTTTTCAGGTTAATGTGACTTTATCAGAAATAAGCAAGATTTTAAATCCCTCGTTCCTAT
AGATCGCAAGTTTTTAGGACTCCCATAAAACACCATGATTTTTTTCTTCATTGGAGGTTGTTTTACTTGTATTAGAAATGATGTAGCTCATAAAAGGGAG
CCAGTTCAATTCAAAACACATTTATGGGGGCCCACAAGGGACCCCAACTAGGCAGTGCTTTCCTAGAGAAGAAAAAGCCTACAGGGTTTGGATTCAGACT
GACTGAATAGCATTTTTCCACTTATTAACTGTTAACCTTGAGCAAATTGTGCTTATCTCTGAGTTCTCTTGCAGAAAACACACTACCTCACTAGGTTACT
AGGAAGATTTCAGGAGATGGTGCTTGTAAAAGGCCAAGCCTGGGGCTCCAGGAATCTTCTGTCCTTGCTTTAGTTGCTGGGGGATGTAGGTGATACAGAC
ATGGGTAGGATTTAGTCCCTGAATGCTGTCAGGGATTGATAGTCTGGGACTTTGCGGTATAGGATACTCACTTGGAAGATACAAGGTGTTTGTTTGTTTG
GCRTTTGTTTTTTGTGTTTTATTTTATTTATTTATTTTTTGAGACTGGATTGCTCTGTTGTCCAGGCTGGAGTGCTGAGGTGCAGTGGTGCAATCATAGC
TCACGGCAGCCTCAAACTCCTGAGCCCAAGTGAGAGATGAGTCAGAGCCAAGCCCTTCTGCTAACAGAGCTATKTGTTGCTGAGGAAGTTCTCAGTTTCT
CCTCTGAATGGTGCCAATATCCTCCAGTTGCTTAAGGCAGAGTGAGAGAAGCTGACTGTGGATACCCACATGAAGATTAATCCCACCTGGAGGAATGGGG
CAAGGAGCTGCTCTCTAGACCAGTCAAGCTTGCATTTGAATTGGGCTTGTAATGAGTTCCCCAGAAGGAAAACACACGCACATATACCCCAACAGAAAAA
GCATCCTGGGGCTGTGGACTCATCCATTGTCTTTGATAAGCCAACAGAGCATGGTGGCTGATCACATGGGCTATGAAATCAGATTGCTTGAGTCCTGCTC
CACTACTTGACAGGTAACCTCTAAGCTTCAGGTTTCCCATGCATATAACATGGGGAATAATACAGTACCTGCTTTATATTGTTGCTGCAAGTATTAAGTG
AGGTTGCGCCTGCAATGACTCAGGATAATACAGGGCGCATAATACTAAGCACAATTATTCTTTCATAGGACTAAACAGAAATACATCCCTGAGTTCATTC
AGTTGATATTTATGCTACATTTCTTCTAGGTTCCCACCATTCTGCCTCTTTTCTTCCTACTTCCATCAGAGGAACAGGGAGGTAGAACCAGAGTAGTTTT
TTGTCTCCAAACAAACCATGTTCTTCTCTTTACTGAGAAAACTCTAGTGGTTTTGCTTGGAGTATTTAAATTGAATTAAGTACATTTGGGACTAGAATTG
GCTTTTTTTTATTATTATTATTAMCTGAAATTGCACGAGTGCAATTGGGAAGCACTCATACAAAGAACATGAAAAAAGCAGTTTATGTAGACTATGGGAA
CATGAGCCTAAGTGTAAAAGATGGAATCAAGTACAGCCCCCTCCCTCCATCCTGCTCCTTCAGCACTTTCCTTTCCTCCACCACTTCATTAAGTTGGTAG
AAAATGAATTCATAAGTTGTCAGGTGAAATACAGATACTTCCTTTGGTTGCCTGGGCTGGGAAAAATACTGTATCTAACAAAGTAGCCCTATACAGAATA
CAGTAAAGAGACCAATTTTGCAGGCAGCAGAAAAAGCATTGGATTTAGAGTCTGCCAGGCTCAGGGACATTAACTTGCAGTGAGATTTTATTGTGTCTCA
GTTTCCATTATTGTAATACTTGCATCTCAGGACTGTTATATGAATGAATTCAGACATTACATATATAACCACCAATGCAGTACCTGACTCCAGATGGAAA
CTGAGAAAGTCATATTCTATACCCCAGCAGCCTTAGGTTTCTCTGGTAAGTTTGGGATAAATATACTTACTTTATAAAGTTGTCATGAGGCTTAAAGAAG
GATAAATGTATTCTAAATTCTATACTTAGCAAAGTGTCTGGTACGTAGCAGGTCATGGTGAATATTTTGTTTTTGCAAGAATATCAGAATTTATTTTATT
TTTTATTAAAAAAAATGAGATGCAGTCTCGCCATGTTGTCCAGACTGCTCTCAAACTCCTGGGCTCAAGCAGTCCTCCCACCTCAGCCTCCCAAGTAGTT
GGGATGACAGGTGTGTGTCACTGCACCCGGCAAGAATATCATAAGTTATATCTCCAGATAAGGTTTTCAAAGTTCCCATAATATCGGAAAAATAATTGTC
TACTTAGGATGTCTGAGACCCTGCTAAGCACTTTATATACCTTAGCTCGTTGAATTCTCAGAACACTGAGATAGGGGTTGTCATTGCCCCCATTTTATAG
ATATGAAAACTGAGACTCAGAGAGGAGAAATACTTTAACAAGGTCTAGTAGCTTCTTCATGGCAGAGACGGGAGCCTATCTTTTTTATGTGAGAATCAGC
CCATAATTCATGCTCCTGCAAAAGAAATGCCCCATGCTATCATCCCCTAGAAGTTGTTTTGCTCAGATTATCCTTCTTTACAGGGACTATGTTGCATGAA
AATAGGCTATTTTATTTTATTTTAGTGAGTTGGTCTTAACTTACTTCTCATCTTGATTGGTATGCAGCCAGTTTGACTCTAGATACTATTTATTTACCTC
CAAAATCCAAGCCATCACTAATGCATCTGACCTAACAAAGGATACTTTGAAAATAAGCGAGGTCTCTGAAGACTGTTTATTCCCAAATCTGAGATCCCAG
ACTTCGGGAATTACTGTGCAGCCTTCCCCGCTCCCTCTTTTTTCCTCCTCCTAGTGACTAATTTAGAGATATCTGAGTCGTGGAATGAAAGCAGATGTAT
TTATAGTCATCTTTCACAGAAAAGGGGAGTTCAAAGGGAATTCACATTGGTTGATTATTCACTATGCATCAGCCTACTTATCCATATTTTCTCATTTTAT
TTCACACAATAATCTGAAACATAGTTTAGAAAAGAAGGTGAATAAACAAGAAAGTAGAGTTTTAAGCTCAGGTCCATGTAATAAAAAGTGTGTTCCCTTC
CCACTTTAGCCATTGTCGTCATTCCATGAGGGCATCGGGAGCCTGTGATGAATGCTGTCGCTGGCTAACACTGTGGATCAAAGCTCCTTGTGGTTTCTTG
GGCCCACAGAGCACCTCTGACTCCCCACCCACACTCCCCCACCTCTGGTTTCTGGTCAGTCATCTTGCAAATGCATCCCCCCTTGGTTATAAGACAGATG
GATGAGAGTGAGGTCTGCAACTGGAAATGTAACTGAGAGCCAATTCCCTGATGGCAAGTGGGTCGTTAGCGCCATTGCTGTTCAGAAGAATAAGCCACCA
CTGTTCCTGCTGCCTTTTTTTCAAGGCGACAAAGTGCATCCTGCCATAATCATGGTGTTAGAAACCTCAGTCAGCAGTGCTCAGAGTAAGAGGCAGGCAT
GAGGAGGACAAGAGTGCTGAACAGTCTTATTATAATGGCGACAACAGAGATGATGCTTGCTTTATATAAAGCCAGGTGCACACAAATATGTGTGTGCGCA
CATTTTTCCTGGCTTTGGGGAGGATGGTGTATATTTCGGGGCAGCTCCACACAAAGAAATCCAGCATTTACGTTTTGCCCATGTCAGTCTCTATTTGCTT
TCAGATATCCAGGAATGATTTTCAGAGTATTTGAGAAAATGAGAGGTGCAGATGGTTTTCACTGAGGCATGGTTTCAAATTTAAAGAGGATTATGGCCCA
GAAATGGTGAGTAGAGGTGTGAACCTTTGAAATTCTAATTGCAGACCAGTCTGAGGAGGTATATACTTACCAAAGCACAATATCTCATTGTGAGCATATT
CCTTTCTTGGCCAAAGGAGATGGGGGAGGAGCAGATACATAACATAATCTTCAAATGAAACTGAAACAGCAATTGATGGCAGCAGTTTGGAGTCTTTGGT
GAATTCAGTCAAGAAAGAAATCCCCAGCTGTCTACCATTGCAGTTAGCTTAGCTTGTTGTAATAATCTTTCTTCTTTGCATCTCCAGAGCTGACTGTATA
CACAAGTCGGCTCCTGCTGGGAGGAATCTGTGGTCATTTTGACACACTCACTCCTTTATTTTACAAAGGATAGCACTAAGGCCCAAGATGACAGCATCAG
TTACTAGGAGGGAAAACTCTGGAACCCAGGGCCTCTTGGAATTGAGGCAATTAAACACTGACTTTTGGCTTTTAATAACAGCTCATATTTATTGAGTCTT
TACTATAATGCCAGATGAAGAAGATGGAAGGAACCACCACCTCAGTGGAGGTGACAGGTGCTAGACGACTACCTGGAATAGATGGGAGAACAAAATAAAT
GCAAGAATCCAAGTCTGAAATTGTTTCCAGCCTAGAGGAAGGAAGGCCTTCTTGGAGTGAAGCCTAAGTGCCGTGTGTTGTCAGTGCTCCATGGGGTAAC
TGAGTCTCAGAGAGCTTAATTAGCTYAACTAGCATGGGCCATATTTGTTCCAAGTCACAGAATTTTCCAGATGCAGAGTGACTTGGTTAGTATGTGGGGA
AGGATGGTAGGATTTTCTCCTGGGTAGCTCATACTTCAAAAGACCATGTTCTGTCAACTATGGCACATGAGCAAGTGACCTCCAGGTATGGATCTTCAGC
TGTCTGCTATCATCATCTGGCTGTCTCCTCTGAACTTCAAACTTGGTGTGTCCCAAACCAAGCTTTTAAAGTGCTAATGAGGACAAAGTGGGTGCCTGTT
TATTTATTTACTAATTTTTTAAAGAATGTGTTTTGAAGTTGACTTCTCAACTTCCCTTTGCCAGGGAAGAATATTTATTTATGGACATTCCCCTTACAAA
ATTTCCCTTTAATTAGCTGGAACCCTTGTTAGCTGAAGCATGGCCTCTTAGAGGACATTGATGAGCATCTCGCTGGAGGCACAGTGCAGGTTCAGTACAG
CCAATAGAGGGAGGTGAACATCTCACACTTTTCTAATGGCTTTCCTGTGCACAAAGCACTTTCTCTTCCATCATCAGTGAACTCAACATAACAGCCAGGT
CCTGGGGTTGGTGTCCTTATCTTTTGCTTTCATGTGAGGCAGCTGAGGGCCCAAGATGCCATAGACAACAGGATTATCTGGGTGACTTACTCTTGTCATT
CTTTTCTCAAGATGTCACCTTGTCAGCAAAGCCTTCTCTGCAGATTCTTTATACTATAGCGACTCCTTCACTTTCTTACTTTATATTTACTCCACTTTAT
GTATTTGTGAGTTGTCTAGTTCTGTCCTAGAAGGTAAGCTTCATGAGAGCAGGGGCCTTGGCATTACTCAATCTCCAGGGCACATAGTGCTTAGTAAATA
TTTGAGAGTTAATGAGGTGCTGTATTTTGACAGCCACTCTGCTACTTCTGTGTAGCAGGCCCAAGGCTAAGACAAGATCCCTGCTTTGGGGCACTCCCTT
GTAGTCAGGGGTAAGAACCAGAGAACGGATGTGAGGCTTAACAGTGCAAGATGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGC
CGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAAGGTAAAACACCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGT
GGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAAGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCA
GTCCGCAGTCCGGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAACAGTGCAAGATGGCAGAAGCCCAATCCCGGGGGTGAGGGGTAG
GGCGCGGTGGGTGTGTGTCGCAGAGGACAGGCTCAGCCTTCCATCCTAAGGCTATCAAAGGCTCTCCTGGCTTGAATTACAGGTACCAATCCTGTGGCCC
TTCCCAAAGGCCTAGCTTTTTTTTTCTTCTTCTTCTTCTTTTAAACCAAATTCATACTCAGCGAATGGTGAGAAATTAAATGGATTCTTCGGACTAAGTA
GATTGAGCTAGTTTTAAAATTAGCCATCTGTCAAGGCCGAGGAGTGAGGTGGTACTTTTTCCACCGAAATTTGGCATCTGCTTAGCATCGAACACCATTT
GCAGCTCGGGCAATGCCTTTTACATTCCCTGACCCTCGGCTTTCCTGCAAGTTAAAAAAAAAAGTGCAAATGAAAGATTAGAAAATTATTTTTTTTAAAA
GCCCCCAAACCCTTCATTCGTCTTCACGCTGCATTGTAGCGACCTAAGGCAACTGCACAAAACCAGCCTGTAAGCGGTGAGGAGCACCCTGCAGAGAGAT
GGGGCGAGCGGGCAGCTGCAAGCCCGGGCCCCGGGAGGCCGCCCCTGCGCCCAGCGCTTCCTTCGCGGGGTCGAAGGCCCTCGCAGTAGAAGGCGGCTCT
CCCGGGGCCTCACTTCCTGCACCCACACGCGACTAAAAAAGAACACGTACAGGTTTTTGGGCCCCCTCTTGCAAAAAGCTCAGCGCAACGAGCTCGGGAA
GGGCTCCACACCAACGAGGGACAGGGCTATCATAAGGGGTACCTTACCACAACGCATCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATCCTGGACGCTGAAACCCCATGTTGTGGAATTCGCGCACGCCCCAGC
GGCCGGCCGGAGCCCAGACCCCCGCGAAGACCCCGCGCGCAGCCGCGTCCCCTCCCCCGCCGCTGAGGAGCTGCCGCCGCCGGCATGAGCAGAGGGAGGC
GGGTCCCGGAGAGCCCCCTGCCTCGCGCGCGGCTTGGAGTTTGAAGGGCCCCGCGCCGAGCCCCGCCAGCGCCGCCGCCGCCTGCCTTCGCCCGCCTCCT
TCCCTCCCTCTCGCCGCTGCCGGGGACGGGAGCCGCGCGCCAGGCCGGGCGGCGGGTGGCGGGCTGCGCGCCGGGGTTCATGAGCCTCCGGGCGGCCCGC
GGCCCCGGGAGCCTGCGCCGTGACTCACCCCCCGCCCCCGCTTGTGTCTCGTCCCTCCCGGCAGGATGCCGGACCAGATCTCTGTCTCGGAGTTCATCGC
CGAGACCACCGAGGACTACAACTCGCCCACCACGTCCAGCTTCACCACGCGGCTGCACAACTGCAGGAACACCGTCACGCTGCTGGAGGAGGTAGGTCGG
GCCGGGACCCCCGCCGTCCACGCTCGCCGCTGCCGCCGCGCAGCTGGAGGATCTCCTCTCCGAGCTGGGAGGAAGGGGACGCGGGGGCCGGGGGCGCCAC
ACCCCCTCAGGGAGCCGCCGGGTGAATAAGGGACTTCGGACGGGCGGCGCCTTCCCCATCTCCTCGCCCTTTCTGGGTCTTGCGGGTTGAAAGGCCTGGG
GACTGGAGGTGGGAGAGGACTGAGCGAGCTGTGGACACTCCAGGGAGGACAGAAGATGGAAGTCCTGTCCCTGGCATGCACTGTTCGGCGCTTCCACATC
TTCGTGACCCTCCTGTAACCCTCGAGGTAGGTGGCGTCAGGCCACCGAGGGCCCAGAGGCGAAGTAGTGCAGCCAAGGTCACCAGCAAGGGACTAGGAGA
TGGGCAGTGAACGCACCCCTCAGCGGCCCGACTGGACCAGGCAGGCGTAGCTGCGGAGACGAGGGCCGTTGGAAAAATCCCAGAGGACCCAGAGAGAACT
CAGGCTGGGACTGTATCCACTCCAGGAGTCCTCCCTGTTAGTCTCTGGTGCCTGAAGCCCAGATGGAAAGAGATCTGTGCACATAGGTTTCCACCCGGCT
TCCCTAACCCGGAGGGTTTGGTAGGGCTTAGGGCTGCTGCGCCAGCAGGACCTGCCCGCAGGGCACTCCGAGGCTGGACAAGGAGATCGGAGGCCGGTGC
AGCCTGCTTGAGCTGACCAGACACGGAGAAGGGAGGCCCGAGGCGACAGTCAGACAGCTCCTCTTACCTGGACCCTTCAGGAAAGCGTTGCTGGTGGGGG
GTGGGGGGCAGGGCCAAGGCCAAATCGATTTTCTTTAGGATTTTCAGTGAGTTAATGAGAGAGTGGTATGGGCAAAGAGGAACCTGAAAGCCAAGGAGCA
GCAGAAGCCTCTGGGGCCACGATAAAAATAGGATATTTGCCCAGGAACTCAGCATCATCAATAAGTGCCATAAAGCATCCCTCCCCTTCAAACAAGGCAA
ACGTATTTCAACTGAAAATGGCACCATTGGGTGGAAAGTAGGAAGGGAGATGGTTTTCCCTGGGTGGGTTATGCTGTGGCTGGTTTAGGTGAGGTTTGGG
GAGCTCTTTCTGATGTAAGCCCCCCACCCCAAGGACGGACCTCTGTAATATGGGGAAGCTTGGGCTTCTGTGGGCCGACTCATCTTGAAATGAGCTTTGA
TACTCATGTTTCCACACACGTAGAACTGGGATTCAGAAGTAGAGGGATCCCAAATTTTAGGAGGAGAGAGACTTCTGTTAGTGCTGGGTCCCATCTGGCC
TGCTTGGTGCTATGACTGAATGTGTCATTCCGGCATACTTCCAGAGTTCTCTCTGGAGTCAGTATTGGGTGATGGGACTGAATTGTGAAGTGAATGGAGA
AATACCACCTAACTAGGTTTGTTTGAAAACCAGAGGTAAATGGATTTTTTCTTTTCTTTTTTCTTTTTTTTTGTCTTTGTGAACTGCCAGTCTGTTATAC
TCGTCTGGGATTAAACAGAATTGCCAGGCATTGAACCCCATCATGGGTCTGTCTTTCACTTAATTGTAATAAATTGAAACATGTTGATACAGGAGCATTT
TGCATCCCCTTTCTGTACTAATTGTATATACTTCTAAGGATGTGACATTGATTAGACTGAGTGGTTATTTTCCTTCTAGATAAGTTTTTCAGTGCCTCCT
AATAGAGCTGCCAGTTATTTTAACGTTCTCTTCCTGCACATTTAGATAGTGTTGCTGTATTCTGTTTGTGAAGGGTGTGATAAGATTAAGTATTCGGTGA
TGCTGTTTGTAGAGGTATGCGAGCATATTTTCCAGCAACCCTGTAGTAGAGGGTTAATGTTAAATTACATGCAGTTGCTGTTGATGTTAGTTTAAGGTTA
ATAAATTTAAAAGCAAATATTTTTTTTTATGAGAAATACTGTTGTAAGATTAGGTAGAAAAATAGAGTTAACTATAATGCAAGTGTAGTCACTTAGGAAC
TTGGAACCAGGCTAGAAGTTCAGTGTCATGTTAGAGTACATTGATGATACCCATGTTCTCAAAAATATAGCAATGTTTCAGGATGGCACAATAATTTTAC
AATTTTTATTCTGAACTTGAGGAAGGTATTGGCCAGGAAAACATTGTCTCCGGTCGGCATATTTTAATTCTTGAGGTTGCACTCTCTTGAGTGGTTACTT
TTTGCATAGATGTGAAAAGTATGCTTTAGGTTTTTTTACTGAWGGATAGCCACCATAGTTGAATTTTAATTTTTCCCCCATGCTTACATATGTGGAAGTA
GTGCATTATTATAAATATCTTAGGTGGGTCACAATTCAGTTCTTTAAAAATATGGGRCTTAACATTACCACACTCAATATAAGAAAAAATTTGGGGGCAT
ACCACAAAATCTTGTTGGCATATGCTTCACAACTGAGATATTTGGAAACTTTAAGAATGTGGCTTGTGTTATTTTGTGGTTATTCTTAGGAAGAGAACTT
TTGGGTACTTTTTGGTGATATGGAAACTCCGGAATAGGAATTAATTTGGGTAACTTGGAATTCTCATTTAAAAAAAACATTTTCCTAGTTCTAGTAAGTA
CCTTCCTGTTGATGACCTTTTTTTGCTCTTTRGATCACTAATGCACATACATAGAGCGCAACTGAAAAACTGTTAGATCTCCAAGATTGGAGCCCCAAAT
TAATCCATACTCTTTCTTTTACTATGTCTCCTTGGTAGAGATTGTGGTGTGTTGTGCAGATGTTGATGCTTTYAGTTAAATCTCTGTGATGAGCACTCTT
GGAAGTAGATGAGAAATATATGGTAAGAAGGCTGGGCGTGGTGGGTCATACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGGT
CAGGAGTTCGAGACCAGCCTGGCCAAGATAGGGAAACCCCATCTCTACTAAAAAATTAGCCAGGCATGATGGCGCATGCCTGTAGTCGCAGCTTCTTGGG
AGGCTGAGGCAGGAGAATCATATGAACCCGGGAGGCCGAGGTTACAATGAGCCAAGATCGCACCACTGCACACCAGGTTAGGCGACAGAGTGAGGCTACG
TCTCAAAAATGGTAAGAAGAGGCAAAGAGGAGTTTACTTCTGGTTTACTTCTGGGCTTTACCTTTTGGGGCGAAGGGTCACACATGGCTCAGGGGTTCAC
GGTTTGGCTGGCACACAATGAGTGGCTACCTTGGGGAGGCAGGAATGGATGAGCTGGTGTTCTGCCAAGGTTTCATCCTGGCGTGTGAGTGTTTTCCAAG
CAAAAAGCCAGTGTTTTACTTATTCAGCAGTGAAAGCACACTGATGTGTGCCATTTTACTCTTGACMATTTTTAAGTTATGAGTAAGTGACTAGGAGAGC
ATAAGCGTTTTCCCTAAACGGGAGCAGGCAGGCATTTTAGGACTGCTGTGACCCAGACAGTAGAAGGGACCCTCTATTTAAAGACTTAGAGTGGCTAATA
CTTAGTACCTTTGTCAGAGAGAGAGTCCAACATGATAAATGGAAGTCTACTTGGTTATTTTATATTGGGCCACATTTTAATTTGGTGACAATGAAGGAGG
CAAGTTCTGCTCATTTATTGAGCAGCTGCTCCATACCAGGCCTGCTGTCGACACATGGCATGAATGCTTACATTTACCTCTCATATGAGCTCTCTGAAAG
AGGAACATTTATCGTTTCCATTTTATAGAGAAGGAAATTGAGGCCCAGAGAGATGAAATGATTTCTCTCTAAGGTCAAGTGGCTAGTAAATAAAATGGAA
TTTAAAAATCTCCCTCCCGGCTGGGCGCGGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGAACACGAGGCCAGGAGATCGAGA
CCATCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAATACAAAAAAAAATTAGCTGGGCGTGTTGTCAGGCGCCTTGTAGTCCCAGCTACTTAGGA
GGCTGAGGCAGGAGAATGGCATGAACCCGGGAGACGGAGCTTGCAGTGAGCCAGGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGT
CTCAAAAAAAAAAAATCTCACTCCCTTCTCTCCGTGAAACAGGCTCTCTCACTCTGTCGCCGAGGCTGCAGTGCAGTGGTGCGATCTCAGCTCACTGCAA
CCTCTGCCTCCCAGGTTCAAGCRATTCTSTCACCTCTGCCTCCTGGGGCAGCTGGGACTACAGGTGCACACCGCCATGCCTGGCTAATTTTTGTATTTCT
AATAGAGACGCAGTTTCATCATGTTGGCCAGGCTGGTCTCAAACTCCCGACCTCAAGTGATGCTGCCTGCCTTAGCCTTCCAAAGTGCTGGGATTACAGG
CATGAGCCACCACGCCTGGCCCAGAGTTTAGAAATCTTAAAACAGTTGAGACATAAAATAGGTATTCTAAATGTCTACAAAAACATATTTCAGTGGCTTT
ATAGGGAACATAGGAGACTTTGCTGTCATTGCACCTTCAAGTTTTGGTCTGATTAAAAAAGGTGCCTAAGTTCCTTGGAGGCTTAGTGTTTCTTCATGTT
TATATTTCAGAGTTCTTAATAGTGATACTTAAATATACTATTTTTTCCCTGTACTTTCGAAGATTTGGATATGAGTTTTCAGATTTAAATGTGGGAACTC
ATTTGAGTATAATCCGTGAACAGCATTTGTTCAACACATTTTTGGGGAGGCCCTGCTATATACAAGTCATTTTCCAAGTCCTACTGAGGTATTGGGGTTA
TCCAGATTGTATTATGGAGAAGCTAGTGGTCTTTAAGAAATAAAGAAATAAGGCTAAAACTCTTTAACAGGGTAGAAAGGGGCAGTTCATAGGGGAGGGA
AATAGTATAGAACATTCATCCTAGGAATACAAGTGAAATCACTCAAATTACCATGTAGTCAATATACAGATTGTTCAGTGCCTCCTATGTGCCCAGCAGT
GTGCTAGGCCCAGGGATACAATGAAGAAGAACCCTGCCCTCAAAAAATGCAGCCTAAAAGTTTTCTTATGGAAACTGGAAATCAAGTTTGGGTCTGGCAT
TAGAGGCTTTTCTTAATGTATTCACCTGGTGTGTTCAGTTATTTCTGAAGATATAGAAATGTTTGATGAAATGAATGAAGAKACAGAATGTAGATTCAGT
ATCAAGCTCTATCTCATAACAGTAACATTCCTACTACATGCAAACCCTATACATACTATTATTTAATACCTTTTTTCACCCTACTATCATCAATGGCTCC
ATTTTATAGATGAAGAAATTCAGGATTACAGCAGTTAAGTATTTTGTCCAGCTAGGTCGTACAGCCAGTAAGTATTCTGCCCAGGTCATACAACCAGTAT
CAGATTTGTGATTAATCGCATTACTGTCAAGTCCTCATGCAGGCCAGTCAGACTTCTGTGTGTGTTCCCTCACCTTCCATTTAAGTTTCAGCCTTTATCT
ATGTCCTTTTGGGTGTCTGCCATGCTGATGATAGAGCTCATCAGTCTTTGATAAATACTGTTAGGTCCTTAAGTGATTTTCTGTGAAATCTTACGCATAG
GATTTCTGTGGTCAGGGTTTGACGTCTGATCTTGTTCGTCAGCTCCCCTTGCTCAAGAATGCAAGTGCATTACCTCTTAAATTTTAAAAGCTGGTAAACT
TAATAGGAAGTGCTTCTTTATATTGCAGGTGCTAAACTTAAGGAGCCCATTAATTACCCCCAAGGAGATTGTAGTCTTAAAAAAAAAAAAAAAAAAACCC
TTAGGAAGGATTTAGCTAAAATCAAGATTTATACTTTTGCTTAATGTAGAGAAAGTATGTTTGGGTCTGTCTCTGACCTCTTGAAGATAATACAACAAAA
GGCAAACAAACCTTCCCATAATGTTTCTCTCCCACACACAAGTCAAGGCTCTGTGCCCAGGCTTTTGACCCAGTCTGGAGGTACTTAGGATGAGGTTTTG
TCTGGATGAAACCAGCAAAGGTCAGTGAGTGAATATATCTGTCTGTAGAATCAAAGGGAGAAGGAAATTGTATATGTTGGAACTCATGCTCTTTCTAAAA
CAAGGCACAAGCCTGTTAGCCAGATATTCCATGCTAATGCTTTTGGTCCTGATATGGTTTGGATTTTTGTCCCCTCCAAATCTCAAGTTGAAACATAGTC
CCCAGTGTCGGAGGTGGGGCTTGGTGGGATGTGATTGGATCGTGGGGGCGGATGCCTCATGAATGGTTTAGCATCATCATCCCCTTGGTGATAAGTGAGT
TCTTGCTCAATTAGTTCTCTTGAGATCCAGTGTTTTAAAAGTTTGGGTCTCCACTTTTCTCTCTCTCTCGCCCCTGCTTTCGCCATGTGATGTGCCTGCT
CCCACTTCTCCTCCTGCCATGACTAAACACTCCCTGAGGCATCCGCAGAAGCCAAGCAGATACCAGCGCCATGCTTGTACAGCCTGCAGAATTTCCTTTC
TTTATAAATTACCCAGTCTCAGATATTCCTTTATAACAACACAAGAACTGCCTAACACACCTTATATATATATCTTTGGATTTAAAAAAAACATTTTTTA
CACCTATCATCTAATAAAAGCTTATTCTAGTAGCATTCTTATTATTGCTTTACATATGAATACATAAAGGCTCACAGACATTAAATAACTTGTCCAAGAT
CACACAGTGGTAAATGGTAGACTTGGGCTCTGAATGCAGAATCTGCATTGAAAACCCATTCCGTTTCTTCTGTATTTCACTGTCTTTTATGCTTCCTGTC
TGCCAGTTTGTTTTGTCTTGCAGGACCCGTGAGAAAGGCATCTATTAATTATCTTTTTACCTCTATTTGGTTTCTAGTGCTAGAGAGAAAGAGTTTGGGA
GAGGGAAGAAAAATGAAAAGATAGTTGCTTTTCTCTGTTCTTCTGAGACCTCTTGCTGGACCCCTCAGTAAATCTCTGCCTTTTGTGATCAAAGACAGTG
CTGCAAGCAATCCTYCTTGGACTGGGCAGATGTGAAAATGACCCTGTTGCTTCCAGCTCCACCCTGGCATGCTTAGTCTGGGACTGTTGACCCAACCTGA
TTTGCCTATGAGCTGCCCAGAGCCCTGGCTAAAGAACCACTACTCTCAGTTGCAGTTTCTTCAGGGCTGTCTGGCTGTCTGCTTCCAGCTTCCTGGCTGT
ACAAGAGCCCTGAGTTTTTGCTGGGTGTTAGTTATTCAGGGAATTGCCAAGTGTCCAAGTAAAAGCGACCTTGGAGAATATCTACTCTGGCGTTTGCCAA
CCTGAAAGCCTGATCTCCAAAAGGCTCATGAAAGCTGTGATGGGGGTCTGTAGCCACTTTGTGGAAAAATTAGTGGACACTGCTAGTAACTTAGTTTGGC
ATAACTCTCATGCCAAATGTGTTTGATTTTGGCTGAAATGCATCAGCTCAGTGGTGTAGGACGAATCATCTTCTGCTGATCAGATGCTTGGATTGCCAGT
TATAAAGTGGGAAAGCAAAGTGTTACCTCATTGAGGTGATTGGCTTCCTAGAAGGGCTTTGTATCTCCACGGGAGGAACCTCATGAATGATGGGACCCAC
CAGATCTAGTTTAGTCCTCATTGCTTTGAGAGGTGGAGACTGAGGCCCAAAGATGAGACAGAAACCATGCAGGGATTTGAATTCAGGGCTGCCCAACCCA
GGGATTTTTGCACTCTGCTGTTTAACAGGGTTGTGGGGACTGGCAATTCACAGTCTGGGAGTCCTCCCCAGTACCACTCCATGTAACTTGCTTCTAGGTG
GAAAGAGTGGAGAGTAAACCTTAAGTTTGGAACTGGATCTTGCTAGCCCAGTCTGCTGTCATTAAGTCCTGGTCTCAGAAGACACACTGTGCGAGGCCGC
AGTAGCTTTCCCTGATGTTAGGCTAGCAGCCTTTCATTAGAAGCCATTTGTGGTGTTGGATGTTCAAACACTACCCAGACCTTTGCCTTCATTGTCTGTT
TGTCCAGGGAGCCTCAGAGAGATGGTTTCCATATATGTAACCTAGTCATTTGGGGACTAAAACCAGATCTGGGTCTTGGCCATTCCCACATGTATTACTT
AAACATGAGTAAGGTTTGGGGCTACACTTCATGTCTAAGCCTCTGTTTCCCCATTTGATAAATAAATGACATTGCTTTTTGAGTATTAAAGGAGGCAATG
CATGGGAGGCACTCATCAAATGACTTTATGTGTCAGTAAAGTATGTCCCTATGGGTGTCAAGGTCTGACTACTCAGCTCTCCTGTGAGGCAGGGAAGAAG
GGGAGGCAAATGAGGCTAGAAGCATTCCTTCATGGAGAGTTAGATAGGTAGGACTGCTCTCTACTGAGGACCAGTGGCAACACTTGGGTTGAGGAGGGTG
AAATTCTCTTGCCAAGGTTAATTGTATCCCTATTACTTCTAGCGTGTGTTGGGCAAGTTACTGAGCCTTACTGTGTCCTACTTTCCTCATGGGGATAAGT
ACCTACCTCTCAGTGAGTCAGTATCTGTAAAGTGCTTACAACAGTGCCTGGTGTGCTAAGTGCTCTATAAATGATTGTTCTTATTATCCTTGTTGCTATT
GCCCTGTATTATTGTATTATTGCATTAGACAATTGCATGTGTAACTGAGAAGATGAGACTTGGTAGACTCATTTCTGAAGGGTCAGTGATGAGGTCAGAT
GACAGAGAAATGAAGTCAGATGTGTATACTTCAGGGACCCGGACTGGGGAGGCACAGATGGGACTAAGGAGAGGACTARGGCAACACCAAACACTTTGAC
CATTGTGGGTCATGGTCATAGCCAATTTGATCTGAAGCAGACTGTCAACTCAGTGTAACTGTATAATCAGCCCTTAGTGGGCTCTGTACTCTCTGAAGTA
AGGGAACCAGTGACCAGTGCTGCCCACTTTGACCCAGGCCAGCCTGATGGGCTCTACCAGTGCAACCTCATTGCCCATGCTTCCTTGTGTCACTGCTATA
ATCTTTCTGCCTTCTTCTACACCCCACTCGTCGAGTCCTCTCCATTGGTGTGTGAAAGCTGCCCCTTCTGATTCTTGCTGGGGCTTTGGGGTAATGAGCT
GTTTTCTCTGTTACATAATAAATGCAGGTATTTATTATGTACCTGCATAATTGATTGTGGTCATTTGTGGGGAGGTGAAACATTTATGCCTTGGCCCTGA
CTGGTACAGAGCATGGCAGCTAGGTTAGGTGCTTTACTGATTACAGTTTGAAGCACTGAGACCACAAGAAATTCTATTTTGGTTAGGAGGCAGGAGCCTT
AAAGCAAAAGAGATCTCTCCTTGAATTTTCATTTCTGTGTGCTTCATAGCTTGTTTTCAGTGTCAGTAAAACGAGTTTTAATTATTTGTGGGCAGGAGTT
AGGTCAAGATCAGGAGGCACTTGACTCTACTTGGTCTTAACAGAATCCAGGAGTTCACAGTAGGCTCTTTCCAGCCCACAGCCCTGTCTGAACAGCCCTC
TGTCATGGTGCTGTTTGTGGTCAGTTGTGTAAGAACTGAATTTTAATGCCAAGCTATGGTATAATTTTCCCCCAAAGAACTGGAATATGTGTCCCCTTGA
TAAGACAGCACCTAATTTAGCCACTCAAAAGCTGGGAAAATAAAATCAGAACCTCATATGCCAAGGAGGTAAAGCCCAAAAGACGACTGCATTTTGGCAC
CAACTATTATAGAAAGCAGAGTTGGCTAAGTCAATCTAGGCCACCCCTTTCCCTGCCAGATGCGTTTTGGGTGGAGGAAAATGTAAGCTCTTCTTAGCTC
TATTATTAAAATAGCCTGGATACCTTGCATTTCTGTAGCATTGTACCCAAAGGCTAGGGTCAGAATGGCCTTGTCTCCAGTGCCTGGTATAGCACCCAGC
ACGCAGTGGGCTGTAAGTATAGTGAGGACTATGTTATTATGACGCACATTCTGTAGAACTGGAAAAGGCCTCAGAGACCATCTAGTCCAACTCCTCTTTT
TATGGATGAGGAAGCTGAGGCCTAGAAACCCCAAGTGTGTTAGGCTGTTTTATTGTAAGAGGTCCCTTCCCCTTCCCCAGCAAAATGAAATACATTGGTT
AAAGCAAAATGGGGACTTATTGGAAGGATTCATGGGAGATATTTTATGGAACATGAGGGGCAAGAATGAGGGTCTTCTCTTTTGGGCAAATGGTAGATGA
AGGCAGCTCGCACCAAATTATTCCCAGCTCCAGTGCCCTACACCACATTGGTGTCTGCCTGATTCTGAGGCGAGGATATCTGGGAAGGAGGATTGGATTG
GCTCCACTTGGGTCAGGAGACCACCCTTGCTCCAGTCAGCTTTGGCCAGGATGAGGGGGTTATGTGATGGGTGGGGCTAAGTCTTCSTCTTCAGCCTGGG
GGTGATGGTGGTCCTCAGAGGAGAGTAGGAGGATAGGGAAGCACACCGTTTATACCCAGATCACACAGCAAAGCTGGGACTAGATTCAGTTCTTCTGGCC
TCATCTTCATTTTTCATTGACATGACAGTTAAATGTAAATGATGGTACTTCACAGCTGTTGGGAGAATCAGTAGGAATATAAGGGAGGCAGATGCCTGGC
ACTCAGTGACGCTTGGAAGATGTTAGTTTCTCTGCCCTTCCCTCTGCAAGTGTCACCTCCCCTTGATCCTTTCTGCTCTGTACTCATTTGGGATACTTGG
AAGGACTGTGGTCAGAGCACTGTGCTGCCTAGTTTTAGCTTTGCTGATGTGGTCAGGAAAAATCAACATTCCACATAGGGTATGGCCAGAAAAGAAACAT
CCCATTGCCACTAAATCCAAAGTGATGGCATGGTGCTCCTTGAATAATCTTTCCGTAGATATCCAGGATGGATGGAAGACCAGGCAGGGCAACTTGGCTG
TCTTCGGAAAATTTCTGGTTTAATTGGTTTTTCCTCAGTGTTAAATAACAGAGCCTGCTTAAAGGTCCAGTGAGGACTAATGGCTTTACTTCCATTGAAC
GGCTTCTTCACTGCCCAGTTACATACGAAATAAAATTGTCTTCATTGTTTTGAAACATGGGGAGCCTTCCTTTATGTTGCATTAATCATTTTTTATGATG
CCCATTTCCTTTTCCTTGTAATGTTTATTCACATTAATAGCATTTACATAAAATTAGATACTCCTTATTTCCACAAAGTACAAATCAAAATAAGCACTCA
CTGCTGGCCCAGCAGCTGCTGCTGCTTTAATAATAGTAATATTTTTCATAGCAAGGCAAGTGAATACACTGCCTCCCAATAAATAAACTGGTGCCAAGTC
AGTGCTGTCACATCCCAAGGCTTCTGCATTTTGTGTGTAAGAGTTTGAACAAATTCAGAATCTGCGAACATTGCTGTTAAGAACCTACTCTATGCCGGGA
ACTGTGCTGATTGCCCTACCCATATCGTCTCATATAATCCTCCCAACAGCCCTGTGGGGTGGGTGCTGTTTCTTCATTTCACAGATGATGAACTAGGTTT
AGAAAGGATTCAACTCAATTTATGCTCTTTCTACTCAGACTCATCCTCAARAAAAAAAATGCAGATATGCATGCAATGCTAATGAAAAAGAACAAACAGG
AAATAGGCTTCTGCTGAGACATGAGATATGTAGGTTAGACTCARAAGAACTTCCTGACAGTGTATTAAATACCAACCGGATGGCCATGGAAGTAGGATTT
TTTTCTTCCTGATTTTGGGATAATTTTGTCAATGATAGGCTGGTGAGCTAAGTTGTGTTCTTATTCATGTTCACGTATGTCTTCACTTTTAGTAGATTGT
AAGTACCTCAGGGACATCCCCCCTCACTTTTTAACCCTAGGTTTTTAAACTTGTTTTGTTTTTAATGTAGTTAGCATTCAGATATTTGAGTAAAATTATG
AAGATTGTAGCAAAACTACATTTGATTTATAAATCTTGAAGGCAGACCTGGTAAAAAGTTTTCCAAATACGGTTAAGTCTACCTCTCTGGGCTTTATATA
TATGCCTACCAATTGCATAGAGCAGTTGGAAAAACCCACAGTTACTAAATTTCTTGAAGGTTGTGCTGCAGATGCTTAGCAGACCTGAATGCTAAAGCCA
GATTCCTAGTCTGTCCTTTTGGTGTCTGCAACCTGCAGTCCTCTGTTGGCCTAGTAATACTAGTCACAGAGTTGGCTGTCACTTTTTGAGTACCAGCTCT
GTACTGAGTACTTTTTTGTGATGTTGCCCAGGCTAGTCTTCAACTCCTGAGCTTAAGTGATTGGCCTGCCTTGGCTTTCTTGGCCTCTCAAAAGTGGTGG
GATTATAGGCATGAGCCACCTGTGCCCAGCCTGTACTGAGTACTTTACATAGGCTGTTTCAAACTCTCACATTACCCTGCTAGTACCTGAGGGAGGTGGG
AATCAAATCTGGGTTTGCCTGGCYCCATAGCCCCCACCTCCCCACTGCCACCCTGCCTTGCTTTGGTATTAGTGATTTAGCTGCAAAGTGCAAGTAAACG
GAAGAGAATCTGGTTAGCATTTACTTTCTTGGTGGAAACAAACACACATACAGAGACACAAACAAGACATGCATCTGCCAGTGGAAAAGGAAAGCATTTT
TCCCTCCTGACTTGTTTCTTTCGAGTTGACGGGGAGGCATTTAAATCTAGATAATTTACATCATGCATCTGGGGCAGCCAGTCACAATATGGTATGAAAG
GGATTAATGAGAGAATTGGTATTTTCAAAAAGTATTGACCTCTCAGATTTTTCTTTATGGATGGTAAGTAGTGAATCATATGATTTTATGAGCAGTTGGT
GCCCTGAGTTTACTCTCCAGCATTTCTGCGCTCTGTTATAATATATTCTCATTTCGTCCACACAGCACTTTGTTAGGCAACAAAGCCACTATTTTCTCAT
TTGACAGATGAGGAAACGGGCTCAAAAAGTTAAAAATAATTTCTCAAAGGTCATTTGACTGAAAAAGCATGATGAGGCTTGAGTTCAGTTCTGCCAACCA
GTCTCCCCCTTCACTTTGAAAGAGACAGACCTATGCTGGAGATGTTTTGTCAAGTAATTTGTAACTAAAACAATACCTTTAGGACTAAAACATACGGGTT
TTATTATTGGATAATTTCATGATACTTTGCATTATTAGATTCTCCTTCCTCCCCACCTCCCCCATACCTTTTATAGTCTGTTTTGCGCTAGTAGCTCAGT
CCTCCAAGTGGTTTTTTACTTTGGGCAGTTTTTCTTTGTTGTTTTTTGTTTGTTTGTTTGTTTGTTTTTTTAAGAGACGCAATCTCACCCTGCTGCCCAG
GCTGGAATGCAGTGACATAATCATGCTTACTTACTGCAGGTTCTATCTCCTGGGCTCAAGTGATCTCGCTTCAGCCTCCCAAAATGTTGGGATTACAGGC
ATGAGCAACTGTGCCCAGCCAGTTTGCTTGCTGTTAACTTAAATTTTTGCACATGCAATAGCAGAGCGACATGTAACTATCATTCAGTTTCAACAATTGT
CTGCTTTTGGCCAATCTTTTTTTCATTTCTGCCTCCTTCCCCTGATTTTTTGAAGCAATATCAGGTATTTCATTTCATCCGTAAATACTTCAGTATGTAC
TTCTAAAAGATAAGGACTTGAAAAAAATAAACCTGAACCATAATATGTTTTCTCGTCTGAAAAAAACACTTCCTCGGTGTCATTAAATATTCAGTCGCTG
TTCAAATTTCCCTGGTTGTCTCTTTAAAAAAAAATGGTTTATTTAAACGGATCTGTATGAGATCTGTATGTTGAAATTCATGGACATATTTCAAATTTCT
TTTAATCTGTGGATTCCTCCCTCTTTTTTTCATTGTAATTCATTTGCCAAAGAAAGTGGTGGTKTATCCCGTAGTTTCCCATAGTATGGATAGTGTTGAC
TGCAACCCTGCACTGTCATTTAACGTAAGCTACAGTCTACTCTTAACAGACTTTTGTTATTAATAATTTCCTCTTACTAAAGAATAAGAAGAACCTATTC
CCTTTGTAGAAAATGAGGACAAGTATAAAAGAAGAAAATTTAAAAGTCATCCATAAGCCCACTAACCAGAGGTAGCCGCTACTGTCACTTCAAGTATTTT
GCTCAGATACATCTCTGTCCTGCTTATTTTCATTTAACACATCATGAACATTTCCACTTCATTAAAAAGTCTTCAATAATATTTAAAAAGGCATGTCATT
GTATTAAAYGTTTCCCTCCCTCCCTTAAGTTGCTCCCAATTGTGTGTTTTGTACMGTTGGCTTAGCAGTTTCACCAAAGGGAGGACCTGTTGTTCACCTT
GGAGCGGTGAATATTTGTGTATATCTGTCATATTCTGCTCTAGTGTTGATAGATTCCTAGAGTTGGAGTTAGAGGCTCAAAGGCCAGGCATATTAATAAA
TTTCTTATATATTTGTCATATTGCCAGCTTGTTTCACCAGAATGGTGGTCTTTGCCTTGTTCCAGCCCTGGGCAGCCTAGGAAAGTGCTTTTCTCCACAG
AGGGACAGCTTTGAGGTCTCGATTTAAGTTTCTCCAAAAGAAAAAACTGGGCTCTGAATGTGCTGTTGCCCTTGTGTGTGTTGGTGCATTATAAGTTACA
TCAAGCGAGTAGGAGTAGTGAAGGGAAAAAGGAGTGAGTGTGGGTGTTTTCAAACTCTCTGCTTAGCAGACTGAAAGCCAGTGTCATCTCAGTGTTAGGG
GGTGGTGAGTAGCTCTGCCTTATCAGCCCGTATCCGCCTTAGTAGTGACTTCTCTATCTGCCCCATACAGCCTCTTGTCTGAAATTCCTGCTTACCATGG
AAATAAGTTTGTTAAGGCCTCTCTCTTGGGCTCAGAAATAAATAAATAGCATTCACTATGAAAAGGGGAAATGGTTAAAGACCAGACATGGCCAGCTTCT
AGCCTGCCTGTTGCCTGACCCCAGGTAGTGCCTCCATTCTTCCTTGCCTGAACATTTTAACCTCCCATGACTAAGTCACAGGACATTTCTCCAGCTGAAA
ACCTTTTTGGCTTAGTAAGTATCTTTCACAGACCCAACCTGTACTGCCCCTTCGTTCACACATGGTTGTGAATTAGTTTGGTTGCTTCCCACTTAACACT
TGGCAGAGAAGTAGGGTGGGAAGTATCTTGGAGAGAGGGGTAGAAGTTAGATGTGCCTGGAGGGGTGTAGGGTGGGGGGCAACCAGGTTCTTGGAGCAAC
TTGAGGGGAAGGAGAAGAGGAGGAGGAGAAGGTGCCAAAAGCAACTTTAACTTGTCGTTTCTGAGAGTTGGCATCTTTTTTAAAAGTCAAGTTATATTTC
ACATTTTGTCCTTGAGCTGTCCTTTGGCTAGGGAACCCCATCACTTTGTCATGTGAGTTTGTTACGTTTTGTGTTTGTAACAGCCGCTTTTGTTTTTCTT
AGGATGGTGCTTTCTCAGTTCCAGAAGTTTCAGAGAGGCCCTCCTCAGTGTTTGGAAATTGCTTCTGGGTATATTGGGCCTCTGCTTCCCTAGGGGGCCA
AATAGCAGCTATCTGGAGCATCTTTCCCTGTGGATTTCAGCTTAGAATGGACATCTGTTAAGTCAAGGTCCACTCTTGGTAGAATGTGCTGGGTTTCATG
CTGAGTACTTTACCCACGGTATTTTACAGAAGGCCTCTGTTACTGGATGTTCTGAGGAGAAAATCTGGAAAGTAAACAATATTAACTTCATTTTACAGAT
GARAAAACTGAGGGAAGGAGTGACTTGACGAGGATGTGCAGTCAGGGGAAGCTGGAGTTTGTGTCTCTGAGGTCTGTGGTCTTACATGATGAGTGCCACC
CTTGCCAATTTGCCTTCTTCATCCTCCTCACCCCCTAAGACTTCTTGATTGCCCTTGGGGTCTCAGGACATTCTCTTTTCCACCTCACCGTGAATGCCCT
GGCTCAGGACCGACACTTTCCTTTCCAAAGTCTGCTTTCAGCTAACTCTTGGAAGGAAATCTCTCCCATGTTTCACTCAAAGGTATAAATGCCTGATGAG
GCATTACAGCAACTTATGCTGAAGTTAGTTTTAGGTGTTGGGCATGGAGATCCTGTCACACCTTACAGGGTAGCTGGCTGTCTCTTCCCATCTCTCGGTC
CAGTGAACCCTTAGAAAACAATGCCAAGAGTCTCCTAGTTTGACTCTCGTTTCTTGCTGCTCTTTTATCTCTTATTTGTTAATAAATAATTATATAAATA
AATGCTTTTCCTGTTTCTCTTTTTGGTGCCAGGACTTCCCTAAAGCCTGTTCGTGAACCATTGGTGACTGAACCTTGGTCACTTGGTACGTGTCCTTCAC
TGGGCTGGGCAGTCAAGTTGAAGACACGGAATTATTTAATCTTTGCACCAGCCTCATCAGGTGATGCTCTGGTTCCCATTTTATAGATTGTGGAAACAGA
GACTACTTAAGAGGTGCCAGGCTGTTGACACATATTTTATCCTTTGATCCTCATAACAAATCTGTAATGTTAGTAATATTTTAATTTTCAAGTAAGGGTC
CTGAGGCTTGGCAGTCAGCAGTTTYCTGTCCCAGGTTTTACTGCCGAAGGGAAAGAACCGAGGTTTATACAAAGATCTGTCTGACCCTCAAGTCTCCAAG
TCTCTGCCATTAACTGCTCTGCTTGCAGTTCTTACCCAAGATCCCACAACTGATGCTTGGTTAAGTCAACTCAAGCGCTTAGACACTGTGGGTGCTTCAT
GGAGCTTACTGAAAACAAAGTGAGTCATGGATAGGAGTTTGACATTGTAACACTTGAGCCATACATCCATTTTTGAGAACAGGGTGGCCTTCCTGGCGCC
CTGCACCCATCCAGGCAAGCTGTGGGTGGTAGGTGTGTTTCACTCTGGAGCAGTCAGTTGGAAGTTTTGTGTCGACTTTACCTTCTGCTGTAATGCATCT
TGTCACTAGACTTAGTGACTTAATTTGATCTGTAAGCACCCTCACAGCCACGTGGTGTTACTGTATCACATTTAATGTCGGTTAAAAAACACTCTAAAAA
ACCACCCCTCCACCACTGCCCCCCAGCGACAAAACAAAAACAAAAACAAAAACAAAAACAAAAAAAAACCTAGTATTTTATTCCCTTGAAGACTTTGGAA
AGATTTTGTCATTCATCGCGATGATTGGTCAGCCTCAAGAAGCATGCAGGAGCCATCATAAGAGTCACAAGGTATTAAGCTTCCTCTTTGGAGCCTGGTA
GTGTGCTAAGTTCTTTATGTAAATTTTATCCTTAAAATAGCTTTGCAGAGTTTCTCCATTTCACAGGAAGTGAATGAATGCTTAGAGAAGATCAATAAAT
GCCCAAATTGCACAACTGTTATATGGTGGAGCTAAGTTTCAAACCAAGTTTCTTAACTGTTCCATGTCACACTGCTTTCTTAGACGTTATAGCCTTTTTA
AAAAGGAGATGTGGAATGAACATTTTTAAATTCAAAGTTTAAGTATACACACACATTTTATGCATTGGGTACAAGAGTATAAATGCCATGAATACTTACT
AATCAGATATTTAATATCTGCTTCTGCCCTTTCTCCTAGAAAAGTGATAGTATGAAGGGAGACAGAGTGATTTGTTCCACACCCAACATAAATTATTGCC
CAGGGTGAGTTAATTTGTGTTTATTTCTGAAGTGGCAGTGGTTGCTTCCTGAGGGTCTAACCTTGTTTGACTSTTTTGTAGGCTAAATTTCTGCAGGCCT
TCTGCAGAGCCCTGTCTTCTTCCTCTCAGAGACAACCCAGGTGTTTTTCATTCCCTAGAAAGTTCCCCTTTGCCTTGTAGACACCTTTTTCACACAGATG
TGTGGGATCCTTGGTAAACAGTGACTTATTTGGGGTTATTTCTCCAGCCAGTCCTTTCAGCCTTTTCTTCACGTAGAACCCACTGTGCCGAAATGTTGGT
TTTAAGCCTATTGCATTATTGTTTTGAGGACAGGACTTATTTATTCATCTGTTTATCTCCAAAGCCTGCGACCCAGTAGAATGAACCCCATTTGAATGAA
CAAATGTACACACACGGAAGCCTTGAAGAATTTAGGCAAGGTGAGCCTGGCTCTGTGTATGGTGGAAGTGAGGATAAGGAGAGTCCAGAAGAAGTACTGT
CTGTAGGACTGACCAAGAGGGAAAGGGGAGGAATTTCAGGACTTGCAGGATTTCAAGGGAAATAGTGTAATCTTAGAGTTTTAGAGCCAGAAGGAGCCTT
AGAAATCATGGAGGTCAACCATCTCATTTTCCACATCATTGAGATTTCTCATCAGTCCTGAGTTTACAGCCACTGCCAACTGACCTTCAGGGCACAGAAC
CAGACATACCTCTTTAAGTTAGTGCTTTTATTGGTTAAAACACTTCCTGATTATAGCATTGTGTTTTATGTTTTAAGTAATTGATTTTTTTGTGTTTGAG
CCCTAAGATGATTTTGTCAGGAAGGAAGCTATTTTTAAACATCTACAAACCAAGCAGATAGAGCACTGCCTTCAAGTGGAGGAGACTTACCCCATGTTGA
ATCTTGTGATAGCTCCTTCTTTTTGCTGACTTCCGACTCTACTTGCTATTAATATATTCCCCTCCCTGACCGCATCGATGTACTCAAGGATACTTGTAAA
TTTGCTGATTCTTAAAATTTTCTCTCCATAAAGTCCTAAACTGTTTGTTCACCTCTTCCACAGCATGGTCTTTAAACAGGTGTGAAAGTTTCCAGCGTCT
TAAATTTGTTCTTACCGAGAATTTTTCTTTACGTTATTTTACCTTGAGATATTGGTGAAGAAACGATAGCCCAGATAAGTCACCTTGCTTGAAACTTTAG
AGAGGGTGGGTGGCTACTGGTTAAGTGTTGAGTCCAGGTGAGATGATTCGTGTCTATGGCTTTTGCCATGACAAAGACCTTTTAAAGTCTCTCCAATGAA
GAGTCRCTGTATCTGTATTTAAGTTTCCTTAGGATTCCTTGAGCTTGAGGGTTCATTCCCCCTCTCTCCTCAGGTGCTGTCTTCCTGACTGCTGCACTTC
TTAGGTGGGGAATAAGCTGCTCATTAGTGCCCAGGTGCTTTTGTTACTCTGCCCCCATCTTGTGATTTTGATTGTCTGCCCAGCAGCCCAATTCTGGACC
AACCAGTGTGCAGAAAGAGCCCAGCAACTGCTGCTCTGGGGGAAATGCCCAGGAAACAGTCCTCAGAAGGATTGTGATCCACTGAAGCAACAAGGCAGCC
AGAGCAGCAGTAGGAAGTCAGAATTTCTGCTGGCTCTCTGTGTGGAGCATTGGTGTGGCAGGGGAGATGGGATTGTCCTCAGCATTCAGCTGAGGAAACC
AGGCCCACAGATGTCATGTAGTTTGAAGGTGATGGAACCGGAGCCACTGTTAGCCCAGTGTGTACATTTTCCAGCACACCCCATTGCCTGCTGTTAATAA
AAGAAATGGAAAAAATTCCACACAGATGCATGACTAGCTAGAGTCATTAAAGATACTGCAGAGTGTTTGCTGGGATGACTGTGGGCAGTAAAGCTATTGG
GGAGTAGTCAGGATAATGTTCTTTTCTTGGAAGGAGAGTCCTGTCTTTATTTACCTGACACGTATCTTCTGTTGTTGCTGGCTGTTCTTTGTTGAATACT
TCCCCTATGCAGAATACTTTAATTGTAGCAGCTAATTTTTATTGAGTATTTGCTGTATGTCAGGTAGTTAACTACATCCACTGATGTAAACCTCATGACC
ACCATTTAGGTAGGTACTGTTAAGCCTGCTGCTGCCACTTAACTGTGCAGTTTTGGGCAAGTTACTTTACTTCTCTGTTACTTAGGCATCTGCTGCCAGC
ATCACCTATAAATATATACCTTTTTCTGAACTGTAATATTTGTATTGTACTATTGCATGGGTCTGTTGTGAGGGTGAGGTGAACGAATGCATGTAAAGCA
TCACAGGCTCCTTAGGTCGTCTTATCCCCCAGTGCCCAAATATGTGATCTAGGGCAAGCCACTTCACCACTCTGAGCCTGTTCTTCCTCTGTAAAATGAG
TGTAATATGTATTTCAACGATTGTTGTGAAGCAAAAATGAAGTAATGGATTAGGCATCTTACACTCCACATTGGTATGTAGTAAATGCACAATAGAAATA
GTTGCTATAATTGCCATCCCCATGGGGAACTGGCTGTCACTATTTTATATGTAGGTTCGATTTTAGGATCAAGGGAGTTTGCTACCAAGTCTGGCCATTG
CCTCTTCTCTGTTCTGACTTAAGAGAATGTTTTGGTGGATGGGTGAGATTTCAAGTTGAGAGGAGAGGAAAGTAAAAGACTTATAAAAATGGAAAGAAAT
GCATGAAAACAGATGTATTACAGAAGGTCTTTGAGAAGTTGTGGATGAGGTTTGGCTAGCCTTTAGTACTTCAATTTTCATGGGAAGGAGAGAAACCTCT
TCCTTCACCCCCATCTATACATAACCAACTTTTATTTCCTGATAGGATTATGTAACAATTTTTTTCTGTTAATTATCATGGACATGTTAGGATTTGATTA
TTTGGAGAGGACTAGCATGCTTAATTAGCGTTCAGAATTTACARTTTATAACAGGGCTCTCTTTGCAGTGTACTCATTTTTGTTACACTGGAGACTTCTA
AAAAAGCAAAAAGTTGCCTTGATTATCAATGAGGAATCAAATGCAGGTGGTTGGTGGTACAGGAAATCAACCCAATTACTGATTAATATGAGTGATAGAG
TGATTTTCCTATGATCTTATTTGAAGCATGCACCACTCAATTGGAGTTAAGATGATAGTTACAAGTAAGCAGATCCTAAATCAAACTTAAATGTAATTTA
ACATGGAAAACATGAACATCTTTTAAAATATTTTTGAATTAATCTCACCCTTTTACCAACCTGTGGCATTATTTTCTTGCTGTTGATGCCCAAGCCTTTC
CTTATTTCCTCATACAAACTCTGATGTGAGTCCTGACTGGSTTAGCTATTTGTGATTGTCCCTATTGTAAAGATATGTAAAGTATGGTCTGGGGTTCCCT
GTGGGAAGTCCCAGGATCCTTCCAGGGGTTCTGAGAGATCAARACTATTTTTATACTAAGGTCAAGACATTTTTTGCCCTTTTCTCTCTTATTCTTTCAT
AAATTTATAGTTTATGAGACTGGAGCTGTTTGGGAGAAGTAGTTTCTTSAAATGTTCTCTGGTGGTTTCATTGGGAGTTTAGTATCTTTTTAGCTTTTCT
GCTAGGTCTGACATCTATCTGGCTTACCGTCTTTTAGAGACAATGCAAATAGGTACTTTTTTGTCACTGTTCGGTGACTTATGTCAAAATGAAGACTGTC
AAAAAGTATTTTTCCCCCTGGTTGGCTTTACCATGCTCCTCTCAGATTGTAAGAGTATGGCATCTTTTCTGAATCTCTTTGATGCATCACATGATAGATG
CCGACACCATTCATCCTGCCTTAGTCTTTATTTCTTTTACCCATGTAAAGTGCCTAATACCAAAACTGGTACATAGTAGACATTCATCACATATTAGTTC
CTTTGGTTTATTGCCTTGTCTTTATCCAGCTTGCTTTGAATGTGTTTCTCAAACTTCAATGTGCATACAAATCACCTGGAGAGCTTATTATGTGCTGATT
CTAATTTGGTAGGTTTGGGGTAGGACCCAATAATCTGCATTTCTTTTCAATTCTCAGGTGATGCCACTGCTGCTGGTTCACTGACCACACTAGGAATAGC
AAGGATGATTGATGTATATATAACCTTAAACATGCTCCCGCACACATGCCCTTTTGTAACTTTGCCTTCTTCTCCCCCACTGTGATTATTAAGTTCGAAG
CAGGAATCATTGCCTTGAGTTGATTGATCACTGAATTTATTCAGCAAACATTTATCTTGGGTGATATGATTGTTTTCACAGGGCTGTTTCTGAAACTTYG
TTTTGCATTATCTTAATCCCAGGTGTCTATCTCTGGTAGGCTGATGAGACARTTTGGAGTTGAGTAGTCTTCATTGCATGCAGCCTGGTCTTATTCTGGG
GCTCTCTTTTCCTGTCTCACTTGGAAATTTCATTTCCCAGTAATCATACTTCATAACCATTAAGTTGCTTGGAGTTCACACTTTTTTCTTTTAGTGTCCT
GAAACTTATTTTTGACTGACTCAGAAGTACTATAAGAGAAATAAGTTTCCATATCATTTTTATTAACCTCTTGTTTAGATTCAAGCCTACAGAGTAGCTA
CTCCTGTTGTGTTCACAGGATTTTYTCCTGAGCTACATTTTYTTAACCTCAGACTATCTCTCCCTGACCAAAGAGCCCAGTAGTCCTTAGTGGGGTGGTG
TGGGAGACACAGCCTCAGCAGGGCTGCTGTACTCTTGATCAACTGTTGAAAGGGAAAGTCAGGCCCAGAATCTGCCTCCCAACTCTTTTTTTCCATCTCT
TTTTCCACTAGGGTGGTTGTATGCTCTTTAGGCACTGTTGATTTCTGGCTTTGAATCRTGATCTCTTCATATTTCAGTATGCATGAATAATAGGACAATT
TCATGCATTCATTTTGCTATTTCTGAGTAGAAGTTAGTGTGACCAACCAAGTTTTAATCTGATGGACCTGCATCTGAATCCTGGCTATGTTGCTCACTAT
TTGTCAGTTTACTACACCTCTCTGTGGGTCAGTTTCTCCAAGCCTTGGTTTCTCCTCTGTAAAATAGGGGTCATAAAGTGACCTTATTGAATGACAGTGA
GGATTACATGAAGCAATCTATTTAAATGCTTGGCTGAGGGTCTGTTGCATGATCGGCATCCAATTAATGGTCATCCTCATGGTGATAAAGATGATCAGTG
TCATCAAATGAAAATGAAAGGGAATACAGCCTGAGATAATAGTCTGGGGAAGTAAGTGCTTGTGGTAGGGAAGGAAGTAATAGGCAAAAAGTATGCTTTA
GCTCTCTGGATCCCAGTCTGAACTCTGAAGGGAGGAGAGAATAAATCAGTGATCGTTAATCCGTCTCATACCCAGTGACAGAGCAGTGTGGCCAGAGAGA
ATTTGGGGAAGAAGAACAGGAAGCACAGGAAGGCAATGAAGACAAGGAGGGATGCTTGATATTCTGAAAGGAGGGTTGGAGGTCTGATATGTATTTGGAT
AATCTAAAGGGAGGGTTTATTTATGACAAAGGTACTTTGTTAGTGGGATGATGATTTTTAGTCACATTGCTGTTTTGTATTATTAAATGGAGAGCTGTTG
GTATTTGAGAGAGATGCCCAGTTTTTCCAGAGTCTGAAAAGAGATTTTTGTTGATGTTGTAGTATAAAAAGTACTCTGTGACATGGCACATGGCTGCCAA
AAGTGTGAAAGAAACAGGAAATCACTACACACTTGAAATATAATAGACCTTTTCATTCATCTTGTGTTTTTTTCCCTCTGAATTGTTAAATAAAAGTATA
TTCTGTTACATGCTACAGCTAGAAGCAAGCTTTAAGCTATCAGAATGGTTGTGAAGAACTGTAGAATAATATGAAGATAACTGTATTTGTTTCATGGCAT
AAAGTTCTTTTCAAATTTGGTTACTCATCCTGTGGTTTAAAAGTTAAAAAGAGACCATATATATTGTCTCTGAACTCTAGCTGAATCTATGTGAAACACA
AGTAGAACTTTTGGGAGGCTGTGAGGTTTGTAGAAGACTTTAATAGAAATGAATGAAGAGCTGGCATTTTGTAATAATATTTCATCATGTGCTTTTCTTT
TTCCGTTACCCAAGGAACATATTTGATGTGCTTGATATTTTTGTTGTTGTTGTTACCTGAAAATCAAAGAGTACCTCTTTATATGTGTGCCTCAGCAACT
TTTTGTGGTTTATAGGATAATGTCCACTCTCCTTAACAGCTGCACCTAGAGTCCTCTGCCTTCTGCTGCTGCCAGAAGGAGCAGAAGCAAACTGGAAGCC
TCTTGCATTTTCACGTCTCCTTGCCTCCTCCTGTACCAGATGAACACCTACTCATCTTTCTGGACTGAGCTCAGATGTCACCTTCTGAAGAGACCCTTCC
TAACTACTGCTTTTCCCTGTTCCCCAGTCCCCATTAGAAGTTGGCAGCCCAGTCCTTGCAGCTCCAGCTGCTCTGTGCACACTGTGGCCCAACACCCATG
AGGCTTCACGGGGTTCCCTGATGGCTGTGAGTCTCTTCTGTAATCTCAGCTTCTGGGGGATAGGCATGGTGTTCCATTCTGCATGCTGCTYGTCACATAA
TAGGCCCTCCAGAAATACTACTGAATGAATAAATGCATCTAATAGTCTGATAATTTTATCTGTATGATTGGCGAAAATATTAATCTTCTGGTGTTGTGAC
TTGTATATGAACCTTTCTGTTTCATGATGGCAATATGCCCTGCCATACTTKAAAAAAATTGTTACAGCCATGCCGTTTGTTTTTTGTTTTGTTTTGTTTT
GTTTTTGAGACGGAGTTTCACTCTGGTTGGCCAGGCTGGAGTGCAATGGCACGATCTTGGCTCACCACAACCTCCGCCTCCTAGGTTCAAGCTACTCTCC
AGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCAGCATGCCTGGCTAATTTTTTTATATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTC
AGGCTGGTCCCGAACTCCTGACCTCAGGTGATCCATCCACCTCGGCCTCCCAAAGTGCTGGGATGACAGGCGTGAGCCACCGCGCCCAGCCAGCCATGCC
TTTTTACTATAGAAATAAAGATGAAAAATCTCAAGTAATCCCATCAACTAAAGATGATTAGAGTTAAAACATGTTGGTTTATAATTCTTTATAAAATAGC
CTTTTAAATCCAACTGATTTGGACTAGGGTTGGGGGTGCTTAGGAAATAAGGAGTAGATAATAAGGTAGTATGGAGTAGATATATAATTGTAATTCCCCC
TTGAGTTTTGAGAGCTACTTACCCAAAATAGAGCATGACACGGTTTCGCCTCCAAACAGAATTTCCATATGAAAGATTGAACCGCTTTGTGCTTGAATCA
CTGTGAATGTTGCTGCTGCTAGTTCTTTCTGTAATGTGAATAGAATTTCCTTAGATAAGTTGTCAGTGTATTATTTTCCCTTTAAAAAAAAAAACTTCTT
TTTTAGCTGTTATAGATTTCTTAGATTTTTATATAGAAATATTTTCTAAAATTTTTTTTACAAAAATAAAATGAAAATTGTGCCTGTTGTGCTGCATGTG
CTTTCAAGTTAGAATCAGTCATTGACATATTAATGGCTTCTTCCAGGTTGGAAAATTAATAAAGATTATCCTTTTACTTGAAGAAAGTGATAAGAGAAGT
AGAAAGAAAATCAGGCTGAGATTAACTAAGGAAGCAGCCTTTTTATTCTACTTTCAGCCATTCAGAARAGGGAAAAAATCCAGAGTTTCTAATAAGAAAA
CGAAAAGTTGTTTTGCATTCTGGAATATTTCCAAAAGCATTGCTATTGATGTTGAATTCCACTTTGGGGTTGGAGATTAGGAAATTTTTGGAAGTGTTGA
AGTAAAATTAGWTGTTCTTTGTATTATTTTTTATTTGACAGTGTACAAATAATGAAACTGTAAACTAAAGTACAATGACATAATCACAGAAATGATCATA
AAAATGGTTATTTAACTTGAAGTGGGATTGAATATTCAAAAAGTGCAGGTGGTGTGGATGGGCTTCTGGGTGAAATTAGGTTTTCTCTTTCAGCAGGAAA
AAAGACAGAGTTTTCATTATACTCCCTGCCATTGGTGATATGGTGTAGACCTGTAATGATAACAAGCACTCAACATCTTCATTGAAAAGCACCAGAAAGA
TGCAGAGCAGAAGCTGTAAACTTCACAAGTGCCATCAAATCAGACTGTTTCTTCAAAGTTGAATGGAAAATTTCAGATGTTGGTCATGAAATGTTTACTC
TGTGACCCAAAACCAAGTTAACAGGCCTCCAAGAGAGGTGCTTGCTCTTGGATTTGAAATAGTAGCCATAGTGATAACTTCTCTTCTCTGTGTAAGCCCT
GTAATTTTGTGTATTCCATCATTCTCTCTGGATTTAGTGGTTCTGAGAAAGCAAACCTAGACCTTGGGCCGAGACTTCACACAGAAATATTTGGGGATCT
GCTCTATGGTTCTCTGGGTTTGGGCCTCAGTTTCCCCATTTTTCAGCTTTTGTGGATTCTGRTCATTCTCCCCACTTGATGTGCATTGTGTGTTTGCATG
TGTGTGTGTATGTGTTTCTAGATATGTCTGTGAATTTTGGGGTGTATTTTTTAAATGCTTTGCTTGTATTTTTAATRTTGCTAATAAAATACTAGCTACA
TGATTTTGAGGGCTTGGCACCTCTTGACTAGGTAACAGTACTGTGCTAAACTCTTTACATGTTTATCTAATACTTTTCTCATGATAACCTGATGTGGGTG
GACGTCCTATTTTTTTACAAATGAGAAAAGGCTCTAAAATTAAGTAACTTCCTCCACTATAATAAGGAAGGCAGGAAGTAAGGCTGGATTTCATGCCTGC
CAGATTCCATAGTCTGTGGACTAAGCAACTGTGTGACTTGCTTTACTTAACATTCTGGGCCCGTTTTCTTCAGCTGATGCCCAGGGAAGTGAAGTAAACT
GACCAAGTTGACACAGTTAGTAAGGAATGCTCAGAGCCAGTGTTCCTTTCTCTCTCCAGACTGCTTCCATGGAATTCTTGCTCTGGGCTTGGCAGTTCCA
TCATGGTTCAGAAGGATGGATCTAAGAGCAAGATGACATTGTGATGTCAACTAACCTTCCAGAGAATGGTCTAAGGGGTAATAGGGCCCTACTCGCTCTT
TCCACTCRAAATAGCCATGCCCCCTTTCCTTAACTTTGGAGCCCACAACACTTAAGATTAGCTGACATTTAATATGTGTGCCTGCTAGGTTCCAGGCTCT
TTTTATATCCTATCTATTCTTTATGTCCATCTGCTTGGGAAGTAATCTTATTCCCTTTTTGCAGCTGGGGGAACTGAGCATTGGAAAGGCTGGTCTGGCC
AATGGACAGCTAAGGTCTTTCTGATGCCAAAGCCCATTTTTGGTACACCATATCATCTGCTACTGAGAAAAAAAGGCTAGAAGTGGAAGGAGGTTTGTTT
GTACTTTCAGGAGCATCCCAGAGAATCGTAGAATTGGGTTCAGTATATTCTTCATGGCTTCACCTAAAATTTTCAGCTCGGGGCATTTTTATAGGTTTAA
GAATGATTATATGTAAAAACAGGCAAAATTTCCAGAAGGCAACAAAAGATAAATGATAGAACCCTGTCTTCTGTCCCTTTCCCCATAGAGATACCTACAC
ACATTTAAACTGGGAAAGGAAACAATGATCCATCGTAAAGCTTACCCGTAAGACAAATTGCCTTTGGCAATATAAACCTTAAAYGCTCATGAAGGCCTCA
CATGAGTTAAGTACAGTTTAACATGATTCTGCCATTTGAGCACCTACTATGTGCCTGGTTTTTGGTAGATGACTGAGGGAAGGGTAACAGAATGAATTAR
ACATGCTTTCTGTCCCAAAGGTGTTCACAGGTGARTGGGGTGGTGGTTGTGGGGTGCCAGGTTAGCTGCAATATAGCATAGACCGGTCAGAGCTGTGATA
ATTCAGATTGCTCTGAGAGCACACATGAGGTCATGACAGGTTCCAACTGGAGAAATCTTACAGGGTCCTTTCGGACCTGGACCTGAGGAATAGATGGGTA
GAACATTTCAGGCAGAGGACACCTTTTGAGCAAAGACCCAGGGTGAGAAAATGCAAAGTGGAATGGAGACTCCCATTAGATGGGTAGTACGGTTTCATGC
TTACTCAGTTTGGTTTGATGAAGCAATCTCTCTCTCTGTCTTTGTGGGTTTGTGTACAGTACATGTGTGTCTTTCTCTGTTAAATGCCTTTTATGTTTTG
TTGGGGACGTGTGTGGGAGTGATTCATTTCCAGCTGGGTCCAGCTGTAATGAAAATGTCCTGTTTGACAAATTGAGGAATTAGATTACAACTRTCTCTCC
CTGAAAGCTGTGACACTAGCTGTAACATCAAACATCCCTCCCTTTGTGGGGCAGGACAGGAGGGAAATGGTGATTCAGGGCTGCTGGATGTGTTGACTAG
AAAATTATTTGAGTAAATAAGACTGTGTTGCTCCAGTTAATTGATAAACATGGCTTCTCACTGAGCCATGTGGTTTTCCTCCAAGGAGAACTTAGAATGG
TGCCATCTGAGGCTGCCCTAGTAGAGAAGTGCAACACGTCATAAGTGGTCAAAACATTTTTATTGGAAGTAATGCATCTGTGTGATTTTCTGTTTAGTCC
CTATTTCAGAGCTCTTTGTTTTTTCTTAAAATGTAAAATACTCTCAACTTTAGCTTGAGAATACCTGAAGTGTTTAGTTGGACATTTATTATGAGCCAGT
AACATATTTGCACAGGAGCTCTGGAGGAGAGCAGTATCACTTGTGGAACTCTGAGCGAGTTGTATAGCCACCCACCCATGCCACTTTCTACGTCTGTAGG
ACTATAGATTTGGACCAGCTGACCTCCAAGATCCTCTTAATAGCTCTTGGGAAATGGAATGAATAAATCCAAGATCCTGGATCTTTGCTCTACCCTTTGG
CAATACTTAGGATGTAGCAACTGTGCAAGTTCTCACAGTCTTAAATGAAAAGAGCCAAGCCAAAGCTGAAGCTTTGTTGTATCTTCATCAAGGGAGGTTC
CCACCCAATGTCTGTTCCACAACTGGATGCCATGTTTTGAGAGGAGCAMCAGAGACCAGGATGGAAACAGAACTGGAAAACTTATTTAKTTAAGTGGCTT
AGTGAACCGCTGTGTCACTCAGAGATGAGGCAGCAGCAGTGGTTGAGGGTTAAGGCTGGATTTTGAACAGTTGGAGGGCTCTCATACCCTAAGTGTTAAA
TCCAGTGTGAGGAAGAGCCACCCACCATCTGGTCAGGAGTAAAATGAAGTGCCTCTGGGGAACAAAGGCTTCAGTGGAACCATTCCAGCAGATATCATAT
TCTGACCATTAGAAATTTGATTAAGGGAAGTGTTACCCTATATTTCCTGCTAGTCTAAGAGGTCTGACTTTTAACAACCATAAAAATCTATACAGACCCA
TGTCTGTAATCCCAACACTTTGGGAGGCTGAGGTAGGAGGCTTGCTTGAGGCCAGAAGTTTGAGACCAACCTGAGCGACATAGGGAGACCACCATCTCTA
CAAAAAATAAAAAAATAAAAATTAATTGAGCATGGTGGCATGTGCCTGTACTCCTAGCTACTCGGGAGGCTGTGAGGTGGGAGGATTGCTTGAGCCCAGG
AGTTCAAGGCTGCAGTGAGCTATGATCACACCACTGTACTCCAGTGCACTCCAACCTGTGTGACAGAGGAGACCTTGTCTCTTAAAAAAAAAAAAAAAAA
GAACTACTGAGCCATAACTAATTAATTGGGTTTTTACAGCTTTTTGTCTTAAAACTGCCCACATCTCTCATGAAAATAATATGGTGCAGTATTGTGTGGC
CAAGGTGTTGTGTTTGTGTGGAGGGCCTACCACAGGGGGCAGATGATCAGAACTTACTTCTACTCAGCAAAATTTAATTACTTTATTTTTCCTCCCTCAT
CCTGAAATTAATACAGGTTTATTGTAACAAAAGTAGTATAAAGGTTGTCACCTGCACTTTCACTGCTTTTAAGACTATTGACTACTGTATTATTTGTCAC
AGTGGTTAAGAGCATAGTCTTTGGTCTCTTGGCCCTGGTTTTGAAACTCTGTTGTGGCACTACATACTAATTATGTGAACTTGCTCAAGCCTTTTTTTTT
GTCCACCAGTCGTGGTCATTTCCTCATTTAGTACCAGTTTCACAGAATTGTTATGATGATAGGCGAGAAATGCATGTAGAATACTTACGACACTGGCCAC
CAGAGTTCAAGTGCTCAGTAAATGTTAGACAGCTGCAGTAGTGGTGCTAGAAGTAGAAGATAATAAAACTCAGTGTGTATATATATATTTTTYTTTTGCA
AAAGTGGGATCCTGTTAAATCACCTGTCTTAAAAACTGCCATTTCCTTTTATATTGAGCATTTCTCCATGTCATTAGTCTACCAAACCATCATTTAAAAA
ATAGCTTTATTGGTGCTTAATTCACGTAGCATACTTCATCCATTTGAAGTATACAATGCAGTGTTTTTTAACTATATTCAGAGTTGCACAGTCAATTTTA
GAACATTTTTATCATGCAAAAGGAAGTCCTGTAACTGTCAGAGTCACTCCTCATTTTCCTCCAAATCCTTTACTAAKCTACTTTCTGTTTCTGTGGATTT
GCTTATTCTGGACATTTCCAAGCCATGCTTTTTAATGGCTGCACAATATTCTGTTATGTGGATATACCTTACTTTAGCAGCTATTCCACTGCTGTTGGAA
ATTTAATTTATTTTCATGATTATAGGAAATATTTATATTAATCTTCTTTACCCGTCTCAGTAGAGTCACCTGAGAGTCTTAATGAAGATTCTTCCATGTT
ACTTAATTAAGAAGTAACATAAAATCTTCACCTGTGGTCTTACATGCCTGTGCTGTGAGATGTTCCTGAAGAGCTTCAGGCTCCTAGAGCTGCTATCACA
CCATAACAAGGTCCCTAACACTGGAGCCAAGCTTTGGTAACACCCTACACTGAGGTCCAGTTGGAGCTGTTCAGGGAATAACAGCAGCAGCTTGCCCAAC
AATKTTGGTACAACAGTTTGGTGGGAGAGGATGAGTGACTTATTTGAGCGGAGCCATTGGAAGACAGACAGGGCCATAGTATCACCAGCTGTTCACATAG
TGCCACAACACTCAAATCCAAGGACAACTCTTAGAGGAACTGGAGTGMAGGGAGAATTATTCATTACATCTGCTCARAAAGATARAGTGCCCTACCAACA
CCTTTGCAAATTGAAATTCCCTTGCTCTTGGCATGTGATCATCCTGCCAACTCTGTGAAAGCTCCCTTAGCTACTCAGATGCTGCCTCCTGGGGGCATTC
ATCCAGTTATTCATATCTAAATCATGGTGCTCTGATGTGGACTGACCTGGGGAGGGGAAGGAATAACCACAGTGGGTCTGGTGTGCCAGAATCTGAAAGG
CTAAATTAAGATGACTTGCGAAATAAAGGGATCCTGAAGAAATAGGCCACTGATTGTCTCTGAATATATTCTATAAGGTCATTTTCAGTTCTCAGGGCTG
GGAAACACAATGTGGAGAGAAGCATTAARTTAATGCTTTGCTTTTAAATGTTGGGATTCTCATAGAAGAATCCATTTCTGCTCATTTGCTGTCTGGCTGT
CTTAATGCATTCAAAGTGTAGAACMCTTGAACATTTACATTTATTTGTTGTTGCTGGTGTTTTCTCTACTCTTTGTTGGCCTCCGGATGGACACCCTGTT
AATATTCTTTGACTAGCGTGGAGCGAGCTGTTTAAGCTTTTTTCAGGGGAAATAAAAATGAAAGTTGTTGCAACAGGAGTTCAGCAGTGTTGCACCAACT
ACCATTCCAGCACATCCAGTCTGTTCGTGGTGTGTATTGAAACCTGTATTTTATTTGGGGTGGAAATTGCTTGAGGCATTTCAACTTGTTTGTGCTTAAA
TTGGGGATCCTATTGCAGCACTGATGTTTTATAAAAGTTGTAGGAAAGTGTGGCCCTTACATTGCAGGCAGGTGAATTCACAGGCTTTGCAAGTCGGTGC
ATGAGTACTGTAATCATGATAGTAGACTTGTAAAAGCAAACTCCTGTTCTTTTGTACGTGAGCATGCTGGGACTTCTCTCATTTGTCGGTCTCCAGCAGT
AAGGATATGCGCTGGGAAGTCGGCAGTGAGGCACTGCATTGAGAGTGAGGCATATCACATGCCACCTCCTCCTTAAAGCCTTCTCTGATTTCCAGCAACC
CTCTACTACTTAGAACTATAGACGGTGGTTAAGGACACATGCTGTGGAGTCAAAAAGACCTAGGTTCCTAAGCCAGCTCCGCCATGGCAGTTTACTTAAA
TTTTCTCCATTTTCTCATTTGTGAATTGGGGATAATGATRGTACTTAAAACATCATTGTGAAGACAATAGAAAATTTCATGTAAGGTGCATAACTTACCA
CCGTTTCTGGCATATTTAGTACTCCCTAAAGCTTGTGATTACTGTTACTAATCATATGTTTTGTGGTCTCTTCTCGGAGCCTTGGTTTTGTCATCCACAA
TATAAGAACAAAAACATCTATCTCAACAGCAGTTTATAAGAAGTAGGAGAGACAGTGCTGGAAAAGCATTTAGCCCTGCCCTAACTTAGTCACTTGGCAT
TTCAGCATGTGGTAATTAATACAGTTATAACACTTCATTCTGTTCTATGTATGGTAACTAGTTGTTTACGTATTAGTGTCTCACTAAACTGTAAATAGAG
GCTATGCTTTCCTCTTTGTATRTCCCAAAACGCCTTCCTCAGCACAATAGCTGATCTTCAACTAGTCATTCAGACAGGTGTGTTTGAACTTTTAGATCAC
ATAGTTTAAGAACAGATGTCTCTTACTTTGCTTATAGAGTGAACAAAATATGATAAGTGCTACAGATGTCTTTTTCTTAACAAGGATACTTGTGGTGTGG
TTACCAAATTCACACGAGGCAAGCATAGTGTAGCACTGGTCTTTTCTCACTGTGCACTGTTTGAAGTTGGCCTCAGTGCKAGAAATCTGTATTACCTGAG
CAAATGTTTAGGAATTCTCTTTGCTTTTGAATACGTTGAAAGAAAGGAATTCTTTCTCCAATTTGTTCAGCTCTCCTCCTAGTTAAAAAGAAACTACCAT
ATTTGACCCCAAGAAAGAGTTAAATGTGAACTCATCTGAGTTTTCAGAAAAGGAAAGGTTGAAAGCTCACACATTAATTATTACTGCTGCTATTCTCTTC
CGCCCCCCAGAATTTGTCAGTGGAATTTTGGTCCCTAAATGTATAGGCATGTTTGGGTTAGGGTAGGACATACCCCACCTCTGGAAGGGCCTGCAAGCAG
GGCTGCCGGTGAGCAGCCAGTGTTCTGGGTTTTGGGGGTTCCTTGTTCTCAGTCACCTTTGCTTGGCTTTTGCAGAGCTCGGGGTTACGAGGCAGACTGT
CTAGAGCCTCTCCTGCTTCTTGCACCAGATGCTCATGCACTGTGCCACTAGCTGAGGATGCAAGGGTGTGCTTTTGCTTTTCAAAAGAGGTGCTGTAAAA
AATGAGTGCATGGTTAAGATGYGGGCCATGTGAATGTTCATTACAAGAACCTTAACTGTCTGGGTAAAACAGATGAAGTTGTAAGTACCACTGAAATTTC
CCAGCCCTATTCTTGTATCCATAGACTTGGAGGCCTCATATTTTAATGGATTTTACGAATTATGCTTCCTAAATTGTTGCATAGTTATATTAGGATATAA
TTAATTCCCTTGAACACATCTGAGTCATCCATTGCATGTATTGTCAGTTCTTGGTTATTTGATGTCCTTTTTCTAAGTACTTGCCCAAGTCAGTTTGCCT
CACTGTGCCTTAATTTCCTTTTCTGTAGAGCAAAGGGGTCAGACTTAGATCATCTTTAAACCTTTTAAAAAATTACTTCTTTGCAAGTGGATACAGCTCT
CCAGTTGGTTAATGATAYTCAACCTTTTCATCCCTACCTGCTTCCAAGACAGCCTTAGACAGTTTCGGCCATACTCCCAGACCTGCTGTTTCCTTACCCA
TGATGTTTACCTTCTCATTTCATTTTGTTAAAAGAGAAGTGAGCCTAACATTTCTGGAAGCTCAGTAAAGGTTAACAGCCAACCAGCCAGAGAAGTGGGG
TTGAGTCATGATGCTTCTGGCAGGACCAGGGAGGCCCTGCCAGAACCGTCCAGATCTTCCTGATTAGAAACTCACAGGCCCTTTACAGAAAGTTGGCTTC
TACTGATTTGATGATTGACTCAGAGGGTTTGGGTTAGTTGGTTTCTAACAGAGCTGGCAGGGAAGGAGAGGGGTGGCCCAATACATTTTGAGCCCCTGGA
GGAATAGGGTGATAACTGAGGGAGTAGTATTGTTAGGAAGCCCTGGCAGCTCTGGGAGCCATGGGGCAAGAAAGGACAATTGCTCCTGCATCTGCATCTT
TTTGTTTCTGGGTATTTATTTACAGATAAGTGGTTTTTTTTAATGCCTGGTAATCTATTAGGCAGTAGGATAAAAAGATGCCCTCAAGGATGTCTCTCAA
GGCTAGAGGGGAGATGCTTATTGTTTATCAAAGATCTRCTGAGTGCCTAGCATTGTGTTATGGGCCTTACATACATAGTATGCCTAATTTTAATATAGTA
TGATAAATTCTTTGCAAGTGATGTCTGCAAAGGACTATGGGACCATAGAGGAGTGGAGGCTGCATTCTGGCTGGAAATGGGAATTAGGGGGAACAGACAG
TAGAGGGAGGTAGGAGGAGTCAAAACGGTTTTTCACATGAGATAGAACTTTCAGCTCTTCTGCAGATGGCACTGGAAATGTGGTCACTTTCTTATCCAAC
ATGACAGGGGACTGGCAGGTGGAAATCTGTGCCTTGAAATTACTTATATTTGTCTGATAGAGCTAGGTCAGTTTAATGCTGCCTTTCCCTTGTCTGATAG
TGTTGGTTACAGTTTTAAAGGCTTATTTGTTCTTTTCAGAAAAGTGGCTAAAGAAAGTATGTTCCCTCTTGTTTCTTTACACTAGTGTTTAAAAACATCA
AGAGTTTCTGTCCCTCCTTCTCACATCCCTAAATGAGTGTCCAGTCCGTAATGTTCAGGCTTGAATAGAACGGCATAGCAGTCCATTTGCCTCAGCATTA
GGAATCTTGTCCTCCCCAGGAACATGGTGATGATCCAGAACGGAGTCTTAATACTACCATGCCATCAACAGGAGCAGTTGCTTTTGTTTAGGAACAACAG
TTTCCTTCCATTTCTGTGCAGTAGTTGTCTGTAATGACTGGAGCACTGTCTTCACTCCAGCAGATGCACGATAATTTCATTGCATTGCCTATTCTGATCT
TTTTCTCATCCAGTTTGATTCCACAAATGCCTAGTGCTTCACAAAGCCTGGATAGAACTGGTCCTATGGGTGTTTTGTTAGAAAGTTCCATCCGACACAT
GGACTTCCTTCTCCTCAAAGCCTTCTGCGTCTCCCTGGCCTGGAAATGATCTTTTCCCACTGCTCTCCATTGCAGGTCTTTGTATATCTCTCTTTGCTCT
TACCACATTCTGCCCTTTGTTAGTTATACGTATGTGCATCCTGTCTCTCCTACCAGGTTGTAAACTCACTTAGGTAAGGACTGTGTTCTATACATGCTTC
ACAATCCCTAGCATGAGGATTTGCCATAATAAGCACTAAATGAATATTTGTTGAATCGAACTGAATCCAGATAGCATTATATTGAACTGAGTCCTCATCA
TTAAGTACAAAGGAATTGTTAGAAGGTCAGTAATGTTTACTTCCCCTATCTGATTCCTAGTCCCCAGTTCTGTATTTAATTACTTAAGATATATGTGCCA
TCTGCAGCCTGAAGGATTTGGCAGCCAGTGATTCAAATACAAGGTAAAATGAGGCAGTTTGGGATAAGATCAATGTAATACCTCTCTGTAGGAGACAGCG
GGGACTCAAGACACCTGATTTCAGCAGATTGCAGTAACTCCATAATTTATTTGCATCTAAGAGAAGGAATCATGTTTAGTTACAGCATTTTCATTTTTTT
TTTTTTTTAACCACAGATGGCATAAAATTCATCTCCAGAGAGACTTCTAACTAAACCTGAGTATGAATTTTTATCTCTCAGTTTCTTATGCARTTTTTCA
CTGCATACCTACATAGCCTTCTTTTGGAAGTTGTTTTATTGACTTTTAAATTTTGCTTTTGTGTGTTTTACTTGCTGCTTCTCTTGTCTTCTCCCCAGCT
GATTTTTCTTAACAAAAAATCTCTAGAGATGAAGAACCGTGGCAGCACAGTAGCATCTTCATTACATTTATGATTTGCATTCCCAGCTCAGCACTTTGCA
ATGCATATTTTGCAAAGCAAGTTTAATTTGCTAGAAGTCAGATTGAGATTTAGCATCTATCTTTTTACCATCTGTTATATGCCAGGTATAATGCTGGACA
CTTGCACACTTATTTCATTTTATCATAGAAAATTAAAAGAGAAAATTATATGATTATTAAGAGCCTTGAATCTCATACTAGGGGAAGTAGTCCTCTGGGT
TTTATGTGATGGTGGGATGAGATAACTGATGTTAAAAGACAAACGTGGTATCTTTCTGGCATATTAGTTTTACTCAGAGATTTTGAGTGGGAGGAGTGGA
AGAACTTAGACAATTTAAGTGACTAGTAATCATTTTATATTTAARCAACCATGGAAATACAAAGGAGTGCAAACTATGCACAAGTGTTGGTGATAAAACA
GAGTCTTTATTAGGTTTATGTAGTTAGAGTAGTGAGTGCTTTAGGATGCACCCCCTGACTTCTAAGGGATACTTTGTGGAAAAGCTGGAGATTTCCATCT
AGTAAGTACATCTCTCTCCTTTTTTGTAAATGTAGAAATTGAGGTCCCAGAGTTCACATTCCTATTGACTGAGGAGGGATTTTAACTCCCAACTCACTGA
TTGACCCTCACATGCCTGCTTCTTCTTGCCCTTTGGAATCTTTGGTGCTGAACCAGACCCTCATGTGTAAGCCCACATGGTCAAATGGAGCCGAATTTGA
AATCAGTTGTACTTGCAGAGGTGGCAGAGTACCATAAATGAGGCTATAGAGTGGGTTGTAAATGCCAGGCCTGCTTCTTTGCAGTCACCTGTCTCTGTAG
CCACTGGGGCTTATTCACTATAATCCATGTTTTTTTGGGGGCAGGAGATTGACAGCCTTTTGGAAGATTTAATTAGCTGCTCTTCCAGGAAAGATAGCTT
AATATGCCAAAGATTAAACTTATTGTGTCTTGGAATCACAAAATTTCAAAATTGAAAGGATCCTTAGGTTTCCTCAGCCAGCATTCTTGATTTATATATT
TGGGATGAGATAAAAAGGTTTTCTCAAATTTCTGGTTGTCTCTATTTGAAGTTAGATAGGTGGCTAGCCCGTTAGTTGTTTACTTGTTTTATTGTTCCTG
ATGTCTTTAACCGAAGACTGGGCATGTTGCACTCTTTGGCAAAGTAAACTAGGGCAATGGTGTTGATGTCTACTGATCTGATCAGTGGTTTGGGATAGAT
AATTTTACTCTTTTCCATTGGTAAATTCTACTTTCAGAGTAGCCTGTTAGAAAGGATGAAAAGCTCTGAATTTTCTCCATTTTTTTTTAATGTGATACTA
GAGAGGAATGATACTTCTTCCTGGTWGTGTGGAAAGCTACATCTAGGTTGGTTATAATTTTCATTTTAACTCTTCCTCCTTCATACAGCCCTAGACTTCT
CAGTGTTTAAATCTAGGTGTCAGGCCTCATTCATATGTATGTATGTATTCTTTTTCTTTTTTTTTTAGACAAGATCTGACTCTGTCACCTAGGCTGGAGT
GTAGTGGTGCTCGCTGCAACCTCCACCTCCCGGGCTCAAGCCATCCTCTCACCTCAGCCTACCAAGTAGCTGGGACTACAGACAAGTACYACCACACCAG
CTAATTTTTGTATTTTTTATAGAGATGGGGTTTTGTCATGTCGCTCAGGCTGGTCTCAAACCCGTGAGCTCAGGCAATCCTCCCACCTCGGCCTCCCAAA
GTGCTGGGATTACAGGCGACAGCCACTGTTCCTGGCCCTCTGTATTTCTTATGATCTTAAATCCTGGAGGCACATGACATATATGCTCATTGATATTCCA
TTTTGGCAGTGAATTTGATAGGCATGATAAATTTGGTTTTGCATTAAAATATAGTGACTTTTCTGATTATGAAAGTAATTTCCCTTTTTTATTTTATTTT
TTAAAGAACATTRTAAGTAATTTCTCATTATAAAAATGTGGAAAATACAGAAAAGTACAAAGAAGATTGTGTGCTAATTTTGTGAATACTAATAGCATTA
ACTAGACAGGAATATGTTAAAATGTACTTTTCTATGCATTATATAGTAATAGTGAAGACTTTATATAGAACATGTAAATAATTGTATGAAGTAGTTAGTG
TACAAAATAATGTCATATATGCAGCTGCATTTTCTGCCTTTTTCACCTARAAAGTTTTTTYGTCATGTCATTAAAAACTTTTGCCCTCTGTTTTCATGAC
TACATAATATTCTGTTGTGTGGGTGTACCTGTCTTACTGCTTCACCTACTTTATTCATATTCCTGTTACTGATGTTGGTTTTTCCATCCCTCCGCTATTT
TAATACGTGCGTTGCTCTGTTCATCTTTTTGATGATTCCCAGGAAGGGATCTCAGTAAGTAGAGTTGCTGGGTCTAGGGCTTTTGAACATTGCCCAGTTC
CTCCCAGAATGCTTCCACCAGTGGATGCCAGTGTGTCCCATCTTCACGGATAAGGTAGGCTCTGACTCCCCATTCACAGGATTTGTAAATACTTGCTCTG
TTCTGTGCCACTCAGTGTTCCCATAGCCCTGCAAGAAGGGTACCACACTACCTCATTCAGGGCCTGGAGCAATCCCCACCACCCCTTGAACTGGCTGCTT
TCTCCCCATTTGGTTTTTAGTCTTCATTCACTAATACGACAGTCTGTCAGGGAAGTGCCAGGAATTTTTCTCAACATACTTTTATTCCTTTTTTTATTTT
ATTTTATTTTTTAAAGAACAGAAATGGCTCTCTTAAAATTAGTAGCAGCTGGGGGCTGGTTCTGGCTATGTGATCCAATGCAACAGTAACATAAATGAGG
GTGCCATTCTATTTCTAGCTGCAGAAGCTTCCTTGCCATCTTAGTGTTCTTCACCAAGGTGCTCAACTAGCTCCCTTGCAATTTCTTCTCCAAATAACCA
CAGTAATTGCTACAGAGGAAGTGAAAATTGTAAAAACGCTTCAGAAGACTGACAGTGGTGCTGATTATAGGAGTGACTGCTTTTAAGTTCTAATAAATTG
TTTTAATTTTCTTATAATTTCTACTCAGATAAAGCAGACTCCTAGCTTTTAATTCTGCTTCTAATGGGTTTTTTCCCTTCCCACTTCTCCTGTAGTAGGG
CAGTGTTGCAGTGATGAGACCATCAGCTGAAGGCCCCATTGCTTTGTCCTGCTGATCTTTTTTTCCATTGGCCACTCCATTTGRCATTTCCACTGACAAT
GTCTTATTTCTGAGATGAGGGGAAACGCTTTTTTAAGTGTCTAGKCTATATTTGAAGTTAGATGAACATGGACTGAACYCCAACTCTATCACGTAGTAGT
TTTAAGGCCTTGGGAAAGGGACCTAACTGTAAAAGGAGGTGATAATACCACTTCACTGGCTATGAGGGGGATTAACCAGGATGGCCTGTTAAAAATGCAG
AGAGCTGGCAGAGTGAACAGTAAATGTTTTAATTCGCTGTGTCATTTGCCCTTAGCTAGGCTGTTTCACCTGCCGACTCATTGTGTTGCTATGAAAATGA
AAGGAGATGTTCGTGAAAATGTCTGGTATGGTATCTGGCACATAGTAGTGCTTGCCAATAGTAGTTCTCCTCCTTGTAGCTCTGTCTAACTCCATGGCAC
AGCTAATGCACCTCATCATAAAAACACTGGGCTGGGTATGGTGGCTAATGCCTGTAATCCCAACACTTTGGGAGGCCAAGGCAGGAGGATCACTTGAAGC
CAGGAATTTGAAACCAGCCTGGGCAACATAGTGAAACCCTGTCTCTACAAAAGAATAAAAAATGAGCTGGGTATGGTGGTATGTGCCTGTAACCCCAGCC
ACTTGGGGGGCTGAGGTGGGAGGATTACTTGAGCCTGGGCGGTCAAGGCTACAATGAGCTGTGACTGCATCACTATGTTACAGTGAGACCCTCTCTCAGG
AAAGAATAAAAATAAAAAACAACATCTGGTCCATGGATTCCATCAAACAAGTGCTATTCCTTTTTGTCTTGTCATAAAAACTCTCTATCAGTGGATGCTT
TCTGCACGTCCATTTGCTAATAGTTTCCTGTTCCTTGTTTTAGCTATTTTGGTAAAAGTGACTAATGGTGCAGCAACCATTTCTTCACCAGCCCTTCCTC
AGCTCTCCTCTCCACTCCCTCCTCCTCAGGATTATAGGGTCCTTCTTGCTGCTGTATCAGGTCTCAGCTCATTAGTTGTTTGAGGAAAGGGCCTGCCATG
CCATGTTCATCACTTCAGCCACAAAGGATGGCTTTTACTCAGCAATCATGTGCTGAACATCTGCTACATTCCACTCTTAGCACTAGTGAAACAAACGCGT
AGCAACAGAGCCCCAGGCCTCAAAGCTCACAATGGAGGTAACTGGTTTCCAGGTTAAGTGCACTAAACTGTGTGGAAGGTGTTATGATAGTACCTCTACA
GGTTCTGATGGAAGCATCARTGATGGATTTGGCTTTTCCATTTGGGAGAGGAGGCTATAAAAAACCTTCCTGGAGGACGTGGGCTCATTCTGATTCACAG
ACAGGTCCAGCCCCTTCACTTCTTACTTTGAACTACTCCATCTGGAATCATAGAAACTCATTAGCAGCTAAGTGAGTCGTAGACCCTGTTCCTACAGTTT
CAACAAACCCTGATGGTGGCATTTCAGTTTATCGTAGAGGTTTCTTTTCCCCTACAAGGGTCATTCTCTCTTGCCCAATTTTGGCTGARAAGGGAGGAAT
ATCATGGCCGTTTTGGCTGTATGGTGTTACTGTATAATGATATGGGGATTGGTGAGTGAAAAATAAAATGAACCCTCACTTGCTTAGGTACCAGTTTTAT
GTAAGAAGAAACTCACAGCTTTTGCACATTATTTGAGATTTGCTTCTTCTGTTTAACATATTTGTGGTACTTTCCTAAAAAGTTTTGTTATAGACAGCTG
TAGAGATTAAAAAAAAAAAAAAAGCATGATGTGAAACTAAAAGCAAAATAGGAATGAGTCTCAAGGTGTATAATGTACCAAATGATAGTAGGGCCTGGAA
CATTCAACAGCATAGCCTGTACTGACATAAGGTTAAGAAACATTGGCCTTCAAGTCACTTTAGACTCTTCTTAATGAGTTGTCGTGTTGGAGAGCCTGCA
CCGCATTTTGTTATTTGCCATTAGTTGATCTTTGGCCAGTATTAATTATTTACATTGAGCTGCATATTACAGGGGGAAAATCCCAAATAAACAGAAGCTT
AAATGCGATAGTTTATTTCTCTCTCCTCTAAAAGGAACTTAGACATAGGCCTGGAATGCCAGGTTTGTGGCGTCCTTTGGGATTCAGGCCTCCTTCCTTT
TGATCTCACCTTCCTCAGCACATGACTTCCATCCTCAAGGTCACCTCTCAGCTTAAGATTGCTGCCAGAGCTCCAGCTGTCATTTCTGAGATGGAGAATC
TAAAATGGAAGGGCAAAATTGGGCTTTCCCAGCTGAGCCACTTCTTTTCCAGAACCCATATAAATAACACTAGTATTTATTGACCACATTTGACTGTAAG
AGAGGCTAGGAAATGGAAACTTGTATTTTCAAAATATTCTGGTAAAAACCAGGATTCTAGTACTAAGGAGATGGGGAGAATGGATGTTGGGGCAGCACAT
CAGCAGTGTCTGTCACAAGGCCACATCAGGAATACTTGGAGTAGAAAAGAGATAAAGCTTAGTGAAGTGAGGAGGTGGAGAAGTTGATGTTTACCAATAT
GGATACCAAAACTGCTGAGAGTGATGTTGCAGTAGAAAGAATTGTGATTAGATGGAAAAGTTATTGAAGTATTAGTGTCCTGGAGCTCAGTAGAGAAAGA
TGGTTGGCATAGCCCTCAGAAGAGGAGACTGGTATGAAGATGGCATAATAGTGGTCACAGGTGAACTTGTGGATGGGAACAGACAGTAGAAAAGGGACAG
CATTCTTTGAGAATAGGTCTTGAGGAAAGGGAATACCTTTTAAGCTGAAAAGACRGAAGTGCTTTTCTCTCCTAGCCATGGAATAGATGATGAGTTGGTC
CTCTGCAGAGAAGGGACCCGAAGGGCACAGGCGAAGGGAGTGGCCAATGCCAGTGGGAAGATGAGCCATGAAACCAGGTAGAGGGAGTAGATAAGTGGGA
TTTATATCTAGGCCTAGGCTAGTAGCTGTATTACCAAGAAAAAAGGAAGCTAGCACTTGGAAGTTAGGGAGAATGGGAATGATGGATGGGCAGAAGTGTT
GTGAATTGGTTTGGGTGCTCARTGTTGCTTTTTTTCTTTTGCATTTTCCAATTTCCTCTGTACGCCATACACTGTAATAGTCATTCCATTTAAAATTGCA
GCTGGGTAGACCAGATATTGCTAGGGGGCATATCTGTCATTGAACTTGGGAAGCAGGGGACCCTGCTAATGGAGGCACTCCAGACACCTCATGGGAGCAC
AGCTGGGAAGCAACAAGTGGTCTATTTCTTGGCTCAGCCTAATTCAGACTCGCCTCTTCTCCTTAGAGAAAGGAAGAGGAGCCTCTTCCTTATGCTCTGC
TCAATGTGTAGGGTTTTTCTTCCTATTTGTTGCAATTCTGAACATTATTAGTGGATAGTCCTGGTTTTGAGACTTACCCCTGCCTTAGACCCCCTGTTCC
TAGCTCTTATTTCCTGGGACCCAGTTTCATTTTTCTCTTTCTGGATCTCAACTCTCATCCCTGACAGGGCATGATCATTATGTTATATGATCTCTCTTGG
TTATATACAAAGAATGTACCAGTTTGTGGAGTATTCATAGACTTTTTTTGGTTTTGTTTCTTCTTCTTTTTGTAAATCCTAGAATGATCCCCTCCCATGC
CACCACCATGATTTGGGACTGCCTACTATTTTCCTTGTGAACTCTCCCTGCCCAATTGATATGTAGTATTTTTTGCTTGTTTTTACTTTTTGATATGTAT
TATTATTTCTGTTGCTGTAGTGTTTTGTGGTTTAATAGAGGCTCTTGTCACATTTTCTCCACTAATTGTCATAGTAAAATTGTGACGGGAGCAGACAGTA
GTTGTTACTTATTTACAAATCGGTAACCGAAATTCAGAAAGGTCACCCAGCTAACTTGTGGAAGACCTGGGGTTGGAACCCACTTTTTCTCTCTCTCTCT
TAAAGTTCAGAAGTTCAGAGTAAGCAAATGAATGTTAATTATTGGCCTGAACAAGATCTAATTAAAGTGGTCAGTCTGCTGTGGCTGAAGTAGTTGTCTG
CACATCCCGACCACATCTAAACCAGTCTTGGATTGTTTAATGTTTAGTATCTGTGGCTTAGCTCCCTTTCGTTTGCACCAGTTAGAGCATGTAGATGCCA
CAGCAGTTCCATCCTGACCCTGTGAAGCACGTTTTTGCAGGTCCCCACCTTGCAGGTGCCACTGGGAAGCGCAGCATGCTGTGGTTTGGAAAGCCTGCCC
AGGCATTGGTACTGAACAGGCCTGGCAATCTGTGTTTCCTAGTGTGGGTATTAACTCTGTTATCCTTGATACAGCACTTAGTATTTCTGGGCCTTCAACT
CCTCATTGTGAAATTGGGGTAGAAACAGGTAGTTTTTGGACAATTTGTTACCTCTGCAAACCTCAGTTCCCTCTCATCTGTAACATGGGCATGATGATAC
CCACTTTGTAATGTTTCAAGATTAAATAAACTGCTGTATAAAAGGAGCTCAGTGCCATGCCTAGCAATACAGCTGGTGCTTAACAAATGTTCCACCCTTT
TCTTCCTCCTCCTCATCATTTCAATATGTTTTGAGAGCATCATAAAAAGTGGTATGAAGGTTAAAAAATAAAGTCAGGGATGTCACAGTATGAAAGTTGT
TGCCCCTCCAGTAGAATTAATATGTGGGGTGTAAGTGGGGGGAGGAAGCTTACCTTTTTGACCCCAAGTGAGAGCCTTGCATGATTGTTTTCTTAAAAAT
GGCCTTTTCTGACCAAATTGAAGGTGACGCATTCTAGACTTTCATTTATAATGTCCATTTACATGCAGTACTTCTATATTCAGATTGACTTCCTGTCACA
CTGAGTGATTGGTGGGCTGCTTGCCAGCCTAGGGGTGGACTGCAGCAAATTGTGTGTGAGGGAAGCCAGCAGTCTGCAGGGCTGAGCTGAAGTGGGGAGA
GGAGAAGAGCATGGGACGTGGTGTCRAGTGCAGTGGCATTGACTGCAGACAGGCTGCTGCTTTACACTGGGGGATTCATTCCCTTTCCCCCAGTAAAGAC
TGTTAAAATATCAGAACTGATAGTATAAAGTCATGAGTTTTTTAGTTCATGCAGAATGTGGATCATGTCTGAGATAAAAATTCATAAGATTTTTGAATAT
CCTGGGGCTGATGGTTTTAGGCAGTGAAGTTAATTTAATTTTATTTTTTATTTTCTGTAGCTGAAACGTCTGCTTTTCTGTGAGGACGTTGATTATGTGT
TCCACTGCCAAAAGAAGTTTCTCATTTTCAAACTGCAGCTCCCCTAGTTGGGCAATATAACTGTAATTTGAGAATCCCACAAGGGTAGTCTGTTACTCGG
CAGATAACCCTACAGTAAATTTGCATGAAGGCATTATTTAAAACAGTTTTCTTCTCTGACCTATTATTGCACAGCAAAATAGCAGTTTCCTTTCTAAGGT
AAGAGATTTGGAAGGAGGACTCAATTTATACGTGATCTCATTGAGAGTGAGAGCTGCAAAGATGAGGAAAAGAAGTGGACCTTTTAAAAGTTTTTTTTTT
TTTTAAACGGTTATGTTATTTTATTTTGTTGAAGGCAGAGGATATGTTTTATTTTAGGGACCCACCAGAATTGCTTAGAAATTATCTKCAGGCTTTAGGG
ATTTTTGCTTATCAGTATATTTCATTTGCCCCATTGTTCAGCCCATCCACCACCTCCTTCCATTTGTTCTCAGAAACTAAACTAGGAGAACATAAGCACT
TGGTTATGTGAAAATGTACTTATGATTCTTCCATGAAAACCTAAAGTATTAAAAACCCAACAGTTCACTTGTGTTCTTTCATGAACAGGTATGTGCATGC
TATGATKGCTTTCATTTGCCAAGTCATTTTTTAATTTAATGAGCTGTCACTCTGCTGTCATTGGATCAGTTGTAGATGAGGGGACACCTTTTGGCCTTCA
TTTGATGTCTTTCTCACGTGCTTATTCCCTCATCTTGTTTGGTTGAAAATCACATTGGCAAAACCAAATCCAGAATGCTAGGGTATGACTAAATGGTAGA
ACAAGCTAAGCAACTATTTCTAGGGGGGAWAATTTCTGTGCTAGGCTTTGTTACTACAGTGGTTGAACATGGGCTTTAGAATCAGAAAGATCAGTTCAGA
TCCCCACATTGGAACATAAAAGTTGTGCTATCTTGATTTAATTTCCTTTAGCCTTGTTTTCCTTACCTATAAATAGAAATTATAATAGTACCCACCTGTA
ATGGTTGGTTCAGTGAGATAATGCCTGTGTATGCCTTGGGCCTGGAAATGTCCCTAATGCAGAGGACATTCACTATCAAAAGGGAGAGAAGGCCCCCTGG
AGTTGCTACGGGTTGCAGTATTTTTTTTAAAACCAGAATTCCTAATGGGTTTTTTTTCCCCTCCTTTTAGTGATATTGTATTTTGCTTAAGTGTGTTAGA
TTTAGCTCTCGTCTGGTTTGTGTTCAAGCTCCCTTTCAAAGGTGCCATCAGTGCTCAAGGCCAGGGGTTCAGCTGCAGGGATGGTGGATGGTAGCCAGCT
CTTTTAGGCATGGTACTTTTTTTTTTTTTTTTTAAAGACAGGGTCCTACTCTGTCACCCAGGCTGGAGGGCAGTGGCGTGATCACAGCTCACTACAGCGT
CGACCTCCCAGGCTCAAGTGATTCTCCCACCTCAGTTTCTTGATAGATGAGACTACAGGAGCACACCACCACACCCAGCTAATTTTTGTATTTTTTTTGG
AGAGACTGGGTCTTGCTATGTTATCCAGGCTGGTTTTGAACTCCTGGGCTCAAGTGATCCACATATTTACAGTGGTTGGTGTTCATTTAGAATTTAATGA
GGTGAACAAGAGTATATTTGCACCTACATGTTCTAGGCTGAATTCGGATCTTCTCATTTAGAAGGAGTACAATTAATAAATCATTATGGATCGTATTCAA
ATTACTATTTTTTTTTGAGTTGTTTTTGTTTACTTAAAAGTAGATTTTTAACCATCTAGCTTGACATACTATTATTATTTAGCCTAAAATCTTTGCTTTC
TATAATTATAAGTAACCTATATCACTTATTTTGCCTTTTTTTTTTTTTTGAGACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCT
CGGTTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCTTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCATGCCCAGCTAAT
TTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGCTGGTCAGGCTTGTCTCGAACTTCCAACCTCAGGTGATCCTCCCGCCTTGGCCTCCCAAAGTGCTG
GGATTACAGGCGTGAGCCACCACACTGGACCCTATTTTGCCCTTTTTAAGTACTGGCTTAACGAGTGAAAAAGATGCATGTGCACTGAAAAAAGACTAGG
AAAAGATAGAATACAATGCCAGTAGAGATTGTCTCTATGAGACAGCATAGGCTATTGTTATTTTAGACGTAAATTTCTCTACTTTTCAAAATTACCACCT
ATTTGGATACCTTTTCTTAGTTTTATAAAATATGGCCATTRGGGAAAACTTGAAAATTGAGCAAAATACAGAGAAGAGAATTTTAAAATGACCCATGATT
CCACCACTCAGATAACTACAGATGGCATTTTGGTGCATTGCACTTGTCACTTGTAGTCAGAACAGCAAATGTGCTTCATTTTCCAGGCCTGCAATTTGTT
CCTTTTGCACACATTTCTGACAACCTGCCCTGGACTGCGTTCTCATAGAATGGCTGTCCTCCCCACTGTGGGAGCCCTTGCTGAGCCTAACAAATAAAGC
CTCCTTCACAATAGAGCTAAAGAGGAGCTTCATCAGAGAAACACTGCCGCCTTAGTAGATACTGGCCCAGGTTGGTCTTGAGTCCCAAACTTGTACAGTG
GGTTCTCAAAGTGTAACTTAAACATTATGTTGGCATCATGTTAAGCTTGTTTATTTATAGTAAAGCTCAAATATATAGGGAAATGGAATTGTTCCTGCAT
TGAGCCCATTCAGAAAATTTTCTGTCAAGTTTGGGCAGAATTTAAAGACTATTTCCTTTGGTGGGCATGAAGTAGTACTGTTTAACATGCTTGCTCAATA
AAGTTTTCAGACTTTTTTTTTTTTTAACTAGAGAATATGTGATTTGGTGATTGACTCTATAAATAGTGTGACCCATTTTTAACTAGATTGCTGATATGTT
TTTCAGCAGGACTTTGTGGTTTAGTTAATGAAATCTTTTCAGGGATGATCCTCTGAGCCTTCTGTCTAGTTACTATCACTGCTGTTGCTTTTATGACTTA
ATTGCCTTTGTGGTTTAATTCACTTCATGACACATCTATCACCATGAAGTTTAGACTCTTCACCCCTATCTTTCCGAGTATTTGCTTGATGACTCCTGGG
GTCAAGGAGAGGTTGATAGGTGGTTTTATGCTGTTAAAAATAAGTGGTCTTGGCTAACTTATCACTTAGTTAAAACAGTCCTTTTAATTTTAATTAATGC
ATTGAAGCTACTTCTTCCTCATAATTTTCTACTTCATAATTCTGTTGTCTGAGCCCATAACAATRGTTATTTCTATTATTTGTAGAGAATTATAAAGCTC
TTTCATATTTGTTCTACCATTTAATCCCTCTATCTTTATCTCCTCCCCTCCCCTCACCCCCCTCCCCCCCCMAAAAAAAACTGTATTAGCCCCATTTTGT
AGATGAGGAAGCTGAGACAAAGAAATCATAGGCAAGTATGCCAGGTCGGTATGGTTAATGTATGGTAGAACTGGGAATTTCTACTATAGAAACTGGACGA
TTGGGATATTACGATTTAGAAAAGAGCCTCTGTTTTTTTATTGTCTGCTATTACTGAAATTACCATAGTGTTAACATCATAAAAATATGTCTAAAGACTC
ATGCTGAGTTCTGGATTTTGACAGATTTTCAACTAAACCTAGGAAATTTGCTTGGTCAGTCTTTGATTTTTGTGGACATGGTTGGGAGTTCACCTGGCAG
TACAGCTTGTGATTAAAAGTCCAGTTTTAGAGGAACCAAAATCTGTTCTTCCTTTAGAGCCAATCTCTGTTTGCATTGAGTTTTCTCATTTTCCCCTAGC
CATGAATGAAATATCAGGAAATTCCAAATGCATCTCAATATCAGAACTGTCTTCTTTGTGCTACCCTCTGCATAGCACTCCTCGGTGGCTGCCCTTTGCT
TCTGTGGTGAGAGCCGCATGTGGTGGTGCAGCCCACAAGGCCGTCCTGGTCACGCCTCTGTCTTGCCTCACTGCTTATCTTGCCTCATCTGCAGCAGCAG
TTGCATACCGTGCCTCATCTTATGATGTGTCCATTCATGTCAGCCCAGCTATCTACTTGTTCATCTCATTGATTCTGCCCATTGTTGAGGACTTAGTCTA
AGTGTCAWAGCACCCAAAGTCTTCTCTGATACCTTGCCACCCATCACCTCTCTGTTAGTCAGGATGAGTTAGTTTTTCTCCTCTGTTGTTTTATAGGAAA
TTGTGTACCTCTGTCTTAGTACTTATTCATTCTGTTGAAATTAATTGCTCACCTGTCTCTCTGTGTCCACCATTTGACTCCCAAGACTGAATTTCGTAAA
AAGGGACTATGCCCCAAAGCAAGCATTGTGCTTTTTAAAATAGTAGGCACTCCAGATATTATCAAATGGATAATCCCCCTGCCTAGCCCACTCTTTGATG
GATAGGTGCTTCAGGACATGTTTGGTGAAGTACTGAAAATCTAAGGCTACCCTGGTCAACTCTCACCTCTTTTATTATGCGTGTAAGTCATTTGTGGTGT
GGAGCATCAGGCAAATTTAAAATACCAACTGGCTCCCTTTCCCTCAACTGCCCGTGATAGTTGTAGACTCTTCATTGTCATTCTTTTTTTTGAGGCGCAC
ACCACCGTGCCCAGCTAATTTTTGTATTTTTAGTAGAGACCAGGTTTTACCATGTTGGCCAGGCTGGTCTTGAACTCATGACCTCAAATGACCCACCTGC
CTCGGCCTCCCAAAGTGGTGGGATTACAGGTGTAAGCCACCATGCCTTGCCTCTTCATCATCATTCTACAGGCCCATTTCTTATTAGTTGATAYGTACTG
AGGGAGTTGAAATTATGTTTTATGTCTGTCAAAAATATAGATGTTGAAAAATTAAATCTATTGTTGAAAAAACTTTAAAAATGATTTCCGGATTCTCCAT
GTTTGGGATTCCCTTCCTGATGCTAATGTTAATTGCTTTCTTCCTTGATGCTAATGTTAATTTGACTATAAACTATTGTTTTATCAAAAGATCTTAGTTA
CACTTACTCAATTTTTGCTTAAGATACTACAATTATTTTAAAAAGAACATCCGTATCTTATTCTAAAGGACTGAATTATTTTTGTATACAGACATACATA
CAGAATAAAAAATGTACAACTTGATTTTAGTCTGTTTGATTTAAATTTTATATATTGAGTAGTTCACCCCTGTCTGCCTGTATTCAGGTTTCTTATTTTG
ATCATAACATGGGGTTGGGTTATTTTCGAGTTTGGAGTTGAGAATCTTATTTTTATAATCCAGTGGGAGAAAACACTCAAGTATATTTTGAATTGGACAA
CTGTGAAAATCTTAGCTTATAGAATCTAAGTTTGGAGTAGACTTTTGAAGTCATAACTTATAAAATTTATCACTAAGATGGATAGTTATGTGCATTTAAA
ATATTTCTATAATAATTGAAGGAGCTTGTGATAACATTATAAATTCAAGAATGTTTTGCTAGAAGCAAATTGACTATGGGTTTTAAAATGTAAGCATTTC
CTAAATTAATTCTATGTCAGGAAATGGAGACAACTTTTGAGGAAGGAAGCTGCTTGCTGAGGCTGTGCAAACATTATTTCTCTCAAGTGTATTTTAACAC
TAAAGTTAAAAATCCATTTTATATATTAGGAAAGGCAACTTAACCATAGTAGAAGGAGTAAGAAATTTGGAGCCAGAAATTCCTGATTTCAAGCTCCGCC
ATCACCGGTTACTCCTTTGTGACTTTGGACTAGTGTTTTGACTTTCCGCAGGCTTTTGGTTTTCTCATTGGCAAATTAGAGCGTGGGAATTGGGAAATGG
AGGTGCTTATCGCTGTTACTCCTACCTCACCAAGCTGTTAGATGATCACTTGAGAGGTGGAAGGGAAACATTTAAATTGTCCAGCACTATGCAGATGATG
TGTATCTTTCTCTCATAGAAAGGTGGTTACCTGTKGGGTGTTGGGGAGAAAAAAGTAAGAGAAAAACTAGAGGCAGGTGGCAGGTAAAATTTTACCACTT
TGCTCTGGATTGCTAGACCCATTTGAATCACTGGAGGAGGAACAACCATCCCTAGTCTACTTGGCGTGGCTTAGACCTAAATCTGTGGGCCCCTTGCCAT
AGGTTGTACATATTATAGATTAACAGTTCCCATTTTGAGTCCCTCTTTATTTTTTGCCACAGGATCAGATAAAAATCTGTGACTTATAGTTAAATATTAT
TTCCTGAATACTTAATTATATTCACTTATTCAAGAAATATCAAATGGAGCACTTACTGTTTTATAGTAATTGTTCTGGGTGTTGGGGATTACAGCAATGG
AAAAAGCACAGACAGAATTCCCTTCTTCATAGAGGGTACATTGTAGAGGGAGACAGATAAAGCAAAAAAATGTAAAATTAAGTTCAGGTACTGATAACTT
TTATGGAGAACACAAATAGGGTGACTTGATAGAGCGAGGGTGGAAAAAACTTAGTAAGGATTGCCCAGAGGTATCTCTTTAAGGAAATTATATTTGAGCT
GCATCCTGAGATGTCAGAAGGAGCCAGAATGAGAAGAGTTGGCCAGGCACAAGTGCTCCATACTGAGGGAGCTAGTACAGACACTCAGACCTGGGTGGAG
TGAAGGAAACATGTTTCTAGTTTGTTAGGCTCTGAGGTCTCTGGCCTGAAATACTTAAATTTTTAATTGGAGGAGAAAAGCACCATAGAGATAAGACAGA
GAGATGGGGAATACAAATACATGTTAAGTTACATGGTCCGAGCATTGTGAGTATAGCTGAAGAATTTATGTGGTCCATTGGTATTTACTTAAAGTTTACC
CTAAATATATGAATGAAATGGCTTCCTAGCTCCTTTCATCCTTACATCTGCTAATTTAACCTTATGCAGAGAGCTGAGTTTGTTCCGYTTGTGCCCTAAG
GTTATTAACATCTGTCCCTTAGTCTCTCCAGTAAAAAGTTTGAGAGGAAACAAAGAACCAGCTCTACTTAGACCTTTGACCAATTGATCATGTGGATCCT
TGGGGGCTTTATGTTAATGTCAATGGATAAGGTATTCTCTTTGCCTTTGAATTGATTTTGTGGCTTTAAAAAAACATTTATCAAAGACTAAAGGGGTTGT
CAGTGTGGGGAGAGGGACATTTAAAAAGGAGCTATTAATCCAAGTGACTGGAAAGAAGTCACTTATGTGCATTTACAGTGACTTGCTAAATAGAAGTCAG
GAAATATTTGAGTGAGTGAATGACTTGCTAAATGATAATACTTGTAGTGAAAGGTAACACCTTCTAAGTGCCTACTCTGCTAGATTGCCTGCAGTATCAA
GGTGTTTCTATACATAATTTTCCCTGAATCTCTCTAAGAAACCCGTGAGGTTAGTATTACTATCACCATTCTTTATATGAAAAATTTATGGCTTAACTAG
TTAACCTTCTTGCTGAAGGTCTCATAGTTGGTGGCTGAATAAATTTGGACTGAGGACTTTATGATCCCAGAATCCTAGTTAATCATAACAAGTCATGACT
TGCCCTGATGATGTTGGAACTGTAAGTAAGGGACATTGAGTGAATATTGTCTGGGGGAAGAAGTGATGAATAGGAGTAAGGAGATCTAACCTAAGAGCTT
AAATAGTGATGTGAAGTTCTTGGCACTAATCCTTAAGATACCTCTCTTAGAGCCTTGAGGGGGTGCCAGTGAAACAGCTGGTAGTAAAGTCCATTTGAGT
GGTCCAGTTTTGGAGTTGCTTAAGGGTCAGATCACTTTCTATTTCTGACTTAAGGCTAGTGTAACTGATCTGGTCTTTAGTTTTCTCGATTTATAAAATG
GAGATGGTTAAGTGATGGATATAAAAATGAATGAATAGGCTGGGAGTGGTAGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCCGAGGGAGGAGGATCA
CCTGAGATCAGGAGTTCTGACCAGAACCTGACCAGCCTGGCCAACATGGTGAAACACCCCCTCTACTAAAAATACAAAAATTAGCCAGACATGGTGGTGG
GCGCCTGTAATCCCAGCTACTTAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGTGGTGAGCTGAAGCTTGCGGTGAGCCGAGAT
CGCACCACTGGACTCCAGCCTGGGCAACAGAGCAAGAGTCCGTTCCAAAAACAGTGAACGAATCTTTCATTAATTGAGTACCTACAATGTGGCAGGAATT
GTCTAAGCACTATGGATAGAACAATGAGAAAGAGACTAAGAAGTATGTGCATTGAATTTGTTTTTTAGTGGGGACAGGCAGTCAAGAAATAAACAGTATG
TTAGGTGTCAGTAGGTGCTATGAAGACAAAAAGAGAGGAGATACAAGAGAGAATGATTGTTGGGCAGTGTGGTAGCAGGAGGGGAGACTTCATGAGCAAA
CTTAAGTTGTGATGGAGTTTAGCTGTGGGGGTCCGACAGCACGAAGGTCCTCAGGTAGGTTCATGCCTGACACATTCACGAAACAACAAAAGGAGGTCAT
GTGGCCAAGGTGTAGAGCGTGTGAGGAAGAARAGGTTGGAAAGGTGGCAGGAGCCAGATTATGCATGGCCTGCTGACTGCTGTCAAGACTTTGGCTTTTA
CTCTAAATAATAGGGAGTCTTTGGAGTTTTGTTGTTTTGGGTTTTCCATTTGTTTGTTTTGTTTTGTAATTTTGAGAAAGACAAGCAGCACTGAATTACC
ATATTTACACTTAAAACGGATCCCTCTGGCTGCTCTGGAAAATAGATTGTGAGAGTATGAGGTGGAAAGAGGGTGCCCAGTTAAGAGGCTGTTGAAGTAA
GTAGTTTAGGTGAGATCATCATTTAGTTGGTGATGTACTTCCTGTGTAAAATTGAAAACATCACACATTTGAACAAGGTTGAAATTAAACATGAGATTGT
CACATACAACCACTGTCACTGGGGTGGGCAGATGCATAGAAGACTATTGGTTGTGTAAACGTAAATTGGACAGCGTGTTTCAGGGAGTGCAGATGCGTGA
AGGTTGGCTTTGAGCCTCTGCTAGACTTGACCAGGTTCATAGGTTAAAACTGTTTTTATCTTTATTCTTTCAATATATTAGTATTACAATAGAAGACTTA
GAGAACAATTGAGGGGGGAAATGATGTTCCTTTTTTTAGGGTGAATGTGTCAGACTTTCAAAGATGACTCTTTGGATATTAGGTGTTCATATCTACTTAG
AACTGGAACAGAAACATAAAATATACAAGGCGTTCTTTTCCGGGCAGTATAAAAAAATAATATATAATCAGTTCTAACATAAGATCTAGGAGCCGTTTCT
TTTTTTAAGCCAAAAAGGCAAAAAAGACTACTCCATTAATCCATGTTTCTCAGTGGAGATGGAATGATTCAATTTGTAGAGTTTTTTTTTAAAGAGCAGT
TTTAAATTTACAGAAAAATCGAGCCAAAAGTCCAGAGTTCTTATGTACCGTCTCATTTTGCTACCATTGCCACTGTGGTTTTCCCTATTGTTAACATCTT
CCATTAGTTAATAATTAGGTAATAACATCTTACATTAGTTAATAATAATGTATTGATACTGATTCATTAACCATGACAAGGGTGCCACACTAATGTAAGT
TCATAGTGTAGTTCACTCTATGTTGTACATTCTAGGGATTTGACAAATGTGCGATGATATGTATCCTCTGTTACTGTATCAGAGTAGTTTTAGCAGCACT
AAAAATCTCCTGTGGTCCACCTAGTCRTCTCTCCTTCCCTCATCCTAAACCCCTGGCAACCACTGATCTTTTTGCTGTCTACATAGTTTTGCCTTTTTCA
GAATGTCATATAGTCAGAGTCATAAAGTAAAGTATGTAGCCTTTTCAGATTGACTTTTTTCACTTAGCAGTACGCATTTAAGGTTCCTCCATGTCTTTTC
CCAGCTTGATAGGTCATTTCTTTTTATATAATAATATAAAAATAATATTCCATTGTCCAGAAGCACTACAGTTTGTTTATCCTTTCAGGTAATGAAGGAC
ATCTTGATTACTTCTCTGGAAACATTTTTTGGTCACCAACTAAGTGGTAGAGGGGATACTGGCAATTAGTTGACAGAGGGCAAAGATGCTACTAAACACC
CTGCAGTACACAGGAGACCCCCGCAACAAAGAGTCATCCAGTTCAGAATATCAGTAATGCTTGAGGTTGAGAAAGCCCTAGTCTAAATATATCTTAAATA
GTATAAAGAAAGTATTTTAGGCATACACTTATAGTTTTGCTGTGCTAGAATAGTTGGAGAATCTCAGCCTTACAGCAACCCCAGGAGCAAGGTGTAATAC
AAATTCCATTTTGTAGCTGAAGAAACAGTCTAAGATGTTAGCATGCTTCCTGTCATTCTGCTAGTAAATGGCCAAAGCCAGGATTCAGACCTGGAGCCTC
TGTCTCCAGGCTCAGCATACACAGGCACCTCCAGGTGTTTGTGGTTTTCCCTTCTGCCTTARGTATGGATTCTTTGGTTTTTAACCAAACAAAAACCAGA
GTACTCTTTTTTTTCCCGTGGTGACTTAAATTTCTTGTAATTGTTTTTATTTCAGTTCTCTTGAGTACATACCAGGTCTTACAATGTTGTAGAAACAGCA
AAGAAGGAGAAGACACGATCTTTCCACAGGAAGAAGAACTTTCCATCTGATTGTCTTCTGGAGTTCTTATTTCTTCATAGTTTTCTCCCCTTAGAAGTGA
TTGCACCAGAAGATAAAGGTACATTGGTACATGTCCTCTGGTGATTCAGCTCCTCCTAGCCCCAGAACCAAAAGCCTCTTTTCTCCAGAGAACCGTTTGT
TTAATGAAGCTAATGAAACTTGAGATGTCCCCAYGTGCCCCTCCCCCTCAGCTGGTGTCTCTCCAGGGCTTGGCTGCCACCTTTGGCCTTCTTTCTATGG
CCATTAATCTAGTGCTCCCAGCAGATGGCAGCTGATCTGGATAAAGAACTTGGTTGTTCTTTTCAGTGCCCATTAGAGGCCTGCCCTCTCTATCTGTTCT
TCCTGTTTGCCATGAAGAACAGCTGGCCGTGTTGGTTTAAAAGCCAGAATTTTTATTTGTTTGGAGTTTTGCCTCTTCATTTTTAGCATTTCTCTCTCAT
CTCTTTCTGCCTTTGAGATAGCTGTTCACAGTGCCACATTTTCTGTRTCTGTGAAAAAACGAGCCCCTTAACCTCCAGTACACACCATAGACATACTCAC
CCCCTTCTAAAATATTTATTCTTTTAGCAGCCCTGGCTGGTTTCCATTGTGTTTATTTAATCTTTCAAGAATTTTCTTATAAAAGACTGGACAATCAATG
CCTTTTTACTGATTAAGGTGAAAAGTTRTACATGGTTTTTCAAATATTTGTGCAAATGAGAGAATGTATGAGTCTTTGCATGCATGCAGATATTATACCT
AATGTTAGACTATAGCTGTAGGCAGATTATCTATTTACCTGTCTTTCTCTCCTTTTGGAATGCTAACTCTTAAAGCACAGAGAATATTAGTAGTTGAGTA
CTTACCAAGTAGCAGGCTCTGGGCTCTAGATTTTGGGGACACCCCTGCCATCGTGGAGGTTACAGTCTTCTCATTACAACTCTGACCCAGTCATTCTACT
TCTTTGAAGATTATCCTGTATGCAAGCTTTACTTAGAATTGCAGAAAGAATGAGACATCCTTAGTGGTAAACATTAATGAAATCTACGAATAGATACTCT
CAACAACAAYGCATATGCATATCTGTTGAYATGGAAAGACAGTCGTGTTGTATTAACTGGAAAACAGCATGATATAAAACAACACAGAAAGGATGATCCC
ATTTTATGTACCTATAAGGAAATATTGTAGGATATATTTCTGGTTACATTAGTTATTTCTGGTTGCTAGAGTTTAAGGACAATTGGGGTTTTTTGGGTAG
TGAACATGTGATTTATATTTAATCAATATATAAAGAAATAGAGCAAGAAAAAAACACCACTGCCATGATTATTCAGATAGGCAGACTTTTTTCATTCATT
CAACCACTATATATGGAGTGCAGCTATATGCCAAGCACAAGGCAGAGAACACAACATGCTACAGAAGTCCATGCCTTTAGAGCATTCTAGAACACAATTT
ACATTAAAATGCTACTAGGTAACAGAAGGAGCAGCAGTGTATGTGGATTAGAGTCACCTCAGGATTTCCATCGTTTCTCAGAACACACTGTTTTGTTTGT
GGGTGGAATAAAGGAGGCTGCCATGTTCAGTGTACATAAAGAAAGCAGGAGGTTTTCTCAAAGAGCAGGCATTGGTACAACATGTCATTTAATAGTTAAG
AGGTGGGGGAAGGTAGCCTAATGGGTTATGCCAGCCACTTATCTTTAGGATAGTCTGGATAAAATATAAAGTACTATTTCTCATGTCSTCTGCTTATGCT
GGGTCCCCATACACCATCTGAACTAATGGACTTTTTGGCATCATCTCCTTAAATGCATCATAGGGAATGAATTTCTCCACCAAGAAGCCCCATTATGGCT
TTGTCAGCCTAGGTTTTGATTTAGCGATAGCAATATGTGCCTTCCAGACATAGGATGGCAATGAGGGAGGGCCTCTGCTGGTCCTTAAGTGCAGGGAGCC
CCCCTTCTTAGAGATTAATCATCATTGTGACAGATGTGCTTTTGCTGAAACTTGGTCCAGAGAGCAGCAGATAAAGATTTGGATGATGTCTCCTTCCTTC
TTTCTTGGCCAAAGGAAGCCAGCCCAGTGCTGGGCTTTCAAGAATCCAGTTGTTTAGAAAGGAGGGAGGTAATAAAGCAGAAAAAGATGTTTTATTTTTA
GAAATTAATGTGCAGCTTTCTGATCTCCCAATCCAGTTCAGGTTCTTTCAACTTCATTATCTGTTGAGAACTATTAGCCTAAGAAATGATGTGACTGTGG
TTCTCTACCTTGGCTGTGTGTTAGAATCATGCTAGAAACTCTTAAAAATCTAGGCCACATCCTAGACAATTAAATCAGAAACTCTGGGGGAGGGGTCTAG
GCAGCAGTGTTTTAAAGCTGCCAGGTGATTCCAGTGTGCTGCTAGAACTGAGAACTTCCACAATATGGTTATACCAGCTACACAAGGCAGAGAGTTTTTA
CCTTGAAAAAATTAAAAAACAGCAGTAGTGTAAAAATATTATCCTCTTATTAAAAGAAGAAACATGTGACAGAGTGAATTCATTTAGATGTCTTGTTTGG
TTTGATTTTAAATTACCACACTTAAGGTTGAAAGCCTTATCTGTTGTTCCCCATTCTCATGGCCTGATCACTGTGAAATTCTGGGACCTTAGAAGCCTTT
TGTATTGACTGCTCGCTCGCTCKCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTSTSTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATT
TTTCTTTTACTTCTTGTTTGGCCAAGAAACTGTATGTGTTAATAGCTTGTTTGTTTTTCGTCTTTTGTTTTGGCTAAATTGCTTTTCAAGAAACTGCCTG
ACTCCTTGTTTAATTAACTTCCATATCCTGCATATGTGGCTCATTTCACAGTCCCTCCATCCCTTAGTGGTTTTCCAGTCCACCACGAAGATTTGTATGA
AGAAAATAGCCACCTCATCTATTTATACTATTTTATCTTGATGTTTTTCATTGTTTCTCTGAAGCACATTATTTCTGATCTTGAAATGTAATGTTTTAAA
ATATATTTTTATAGGAATTTATTTTTCTCCTCTGAATTGCCTTTGTTGTTATTCCTTTGGATTTTGAACTCACTTAACTCTGTGCTGGAAAGTTTCTGCT
GATTTTTGTCTTCTTGATCTCTCTGTTTCTTTAAATTCTAAATTATTTTGCATTTTTCCTTACTGTTGAATTGCAACACTTAGTCTCTCTATCTTGTCAC
AATTTATGGAGAATGATAGCAGAATCCATCTCAATAGTATAGCAACTAAACATGTATATCATCGTTTCCTAGCTGACAGCCTGCATGGAGATGCATCCTT
TAAAAAGGGGATGAGGATGAGAAAGGTACTGTGCCATATAGTGTTGGGCATACAACCAAGACGGCAGTAGACACAATTTGTTAGTGATGTCCAGTTACTA
GTATTGCTGAGTTTATTTGTGACCTACTTTTTTACCTTTTGTATTCCCTGTGCATACGTGTAGCATTAAAACAGTGTTCTGTTGCCAACATCTCCAAACA
TTAGAAACATAAGTAACTGTTTTTTTCAGTTTCCCTGGGCTCCACAGAATGTAGAGTGGGCACATCTGCACAAAGCACAGGGCACAGCTTGCCCTTGAAC
GCTTCACAGCCTCTGTCGTTGCCACTGTTATCCGCTTGTGTACTCATCCTAGCCTCTGGGCAGACCTGCAGAGGCACGGACACACGGGCATCCAGCTTAT
TCCTTCCCTTTTTTCACCTCCCCATTTAGCTTGTCTTCTTTACCCACTTTCCACAGTCCTCTTAGGTAAGAGGCCATTCATTTCGTTAATAAGGATGTTT
GTTTATTTGTGTTTCGAAAGTACATGCTATGTTCCAAGCACTTTGCTAGCTGCTAGGATGCAATTGACTACAAGACAGATGTGTTTTCTGCCGCCCTAAT
ACCTGTAATCTGGTCGGGCAGACATATGAATAAACAGGAGTTTACAGTGGAGTGTGGTCAGTGCTGTGATGGAGTTAGTGCAGAGGTTCTGGGAGACCAT
GGCAGGGCACCCAGCCTTGTCTCCCGAGTCAAAGAAGGATGTCCAGAGGAAGTGGCACCTCAACTGAGATCAGAGGGATAGAGGTGGGAGAGAACCTGCC
ACTTTTGAGGAAGTAAAAGATGTATGTTATAGCTAAAGGATAATGGGGAACAAGAMCGGTAATGAGCCTGGAAAGATGGGGGGCTTATCTTGGAAAGGCA
TGGAAAGCCTTTAGGGTTTGAAGCAAAGGATTGGCATGCTCTGATTTGCTTTTTAGAAGGACCATTGTGACTGCAGTGTGGAGAATGGATTGGAGAGGGA
AAGCATAAATGAAAGGTAACAGTGTTTGTAGACATGACCCAGTGAGAGCTATTGGTGGCCTGGCCTCGAAGAGGAGATGGGATGGAGCTAGCAAAGATAG
GGATTCAGGAAATATTTAACCCATGCCTTCTGTCTCAGGGCAGGAGTGATTTTCAACCCTTGAAAATGAGGGCTTGTCCTGCCTGTCTGCCATTTGGAGT
CTTCATCTATGTTGTACATCATGTTGAAAAGATGTGTATTAGCTTCCTACTAATCAAAGCATGTTTGTGGATATGGACACCATTACAGGTTTCTCATGCT
TCCCTTGGCTCCCAGACACTGGGCTAAAGTGTTGGATTGGTTGTGCAGTATCCATACTTGTCAACTAGCTATTTGTCATTTATTTTGCACCCTAGAGGCC
AAAAATGTTAGAGCAGAATGATTCCTTAAGTTTTATCCCATCCAACACCCATGTTTAGCAATGAAGACATGGGGATTCAAAGAAGGGAAGTGATTTGCCT
GGACTCCCACAGAGAATTGGGACTGGAACCCARATGTTTCAGCTCCCAGTTATGTGATTCTTTGGGCCAGACAATGGCCTCTCTGGCCAATTTAGCTACA
AGAGCATGTCACTTTGCCAGTTTTACTTTTCCCACTCCTTTTCAGCAGCAGTGAGTTAGTCTAAAATGTGGCAGTTAAATAAATCAAGGCTGATTTTGGG
TGCACCCTTCCTTTAAGGCAATGGGCCTCTCCAGAAGGAACAGTGTGAACATTGTCTTCCAGCTCTACCTCTGCTCCCCGCCCCCCCGCTTTGTTTTCTT
TGTCTCTGACAGCAGTGGACTCAGAACCTAAATTCCCCCTTCTTAAGCCACTTGGTGAGTGGCAGGGAGCAGTAGGACTCTGAGAGGTTCTGGGGGTTTT
ATTGTGATGGGAGATAGTCGTCCTGCACTTCTGTAGATTACAGGCCAGCAGGTGGAAGCCTGGGCTGTGGAATCAGATTGGGTTTGAGTCCCAGGTCTGC
TTCTTGGCCACTGGGCATGCAAGGCCTTCATTTTCTCATCAGTGAAATAGGAGCAGTCATACTTAGTTGACCCTTGAACAGCCACAGGTGTGAACTGTGC
TGGTCCACTTATATGTGGATTTTCTTCAGCCAAACGTGGATTGAAAATGCAGTATTTGCAGGATGCAAAACCTACTTATAAGGAAGGTTGACTTTCTGTA
CCCTCAGGTTCTGCAGGGCCGACTACGGGACTTGAGTATACACAGATTTTGATGCATGGGGGGAGACGAACTAATCTCCCACAGGCAGTGGGACAACCAC
AATTAGACTTCAGATTTTAAAAGATAATATATTTTTTAAAAACCAGTGCAGCGCCTGGCCCATAGTTGATGGTAACTATGCTTAAATTAGATTATTATTC
GCTGTCCTTTTACTACAGTTTCCCAAACCATAGATTTAACCCCCCACACAGCTGTCTACCATCAGTTGCCCTGGTATCAGTTTTTTAATGAAATTTCAGG
AGTGTGGGATTCTTTGTCTCTGCCCTTCTAATAGGTGGGAACTCTTACCTCTCTCATCCACTTAGCCCCCCAAAAAAGACAGTTAAACTTGAAAGCTACC
AGACTGTGAAAAAGTAAATAAGAACCMCTGGCCAGGGAGAGGGCTTCAGCCTTAGATGTTTACAAGGGCCTGAAGCAGAGAAAGAGATAGAAAATATGTA
AAAGCAAATTTTACCTGCTTGGAAAGTAGCTTAATTTTTTTTTTTTCTTTTAAACTAATTCTGTAGTCGGCCTTGTGCTCTGTAGAGCTGGATGAATGGT
TAAAAAGAAAGGGGGAAAAGCCAGAAGAAATTAATTCTGTGGCACAGAGCTGTGAATTCTTCCTTGATGCAGGATCTGAGGTTGAAGGAGGTTAAATATG
TGAGGGCCAGAAGGAAGTATCATGTAATGAATGATAAATCTCTAGCTGCTCCTCAGCAGGGCAAAACATGGGCTTAGCAAATGGGAAAAAAAAAAAAAAA
AAGGGAAGTAGCAGGTGGAGATAATTTAAATAGCACAGGGACCCCTGCTTACCAATCCCTCCACAGAGTTTTGCCCTGGAGTAAGCATGACATCAGGGTG
CTTGCTGCTTCCTCCAGTGGCCCGAGCTCTGTGTGCCTTTGTTGAACAAGGTTTTCGTGGAGCTGAGGTGACTCTCATGAACAGAGAATACCTGTCCTTC
ATACAGAGAAGCACCCAAATGCAAACATCTACTTTTTCTGGTGTTCAACCAGGTAAACCTCTGTTTAGCAAGAAACATCATCCCCAGAGTGGGGACTGTC
TTGTCCTTTCAGAAGCTAGTACCCTAAGCAAGACTCATAAGGAAGGTCGGGCCTCCCTAGGTCTCTGTTTCTTCTGAACAGTGATGAGCTAGGTGCAGAG
AGAGTTAAAGGTCACTATGCAGCTGACAAGTGTGACCAGTTCCCAGTAAATTCCACTTGGCTGGGGTTTCAGAGGTGAGCAAGGCAGGCTTTTTACTCAT
TACACAAGAATCTAGACATCCCTTTAATTGGGTGGCATTCTGGGTGCTAAAAGGAAGGGGCTTTGAGAGGCAAAGATGATGGGATATCATAAATTTTTTT
GTTTCCTTTTTAATATAGCGCAGCTCCTATACTTAAGATTTAACTTTGAAATGTAGCATAGCTAAGATCTGGTCCAAAAAGATTTCTGATATCTCCATGA
ATCCTAGTTAGGGATTGATAGGAAAAAAAAAATCTTGTGCCACAGCTTCATGCTATTTTTAGGAACCTTTCTGAAACCAGTGGCAGCCCAAGTTAGAGCC
CAGCATTAAGTCCACCTCATGCACATCATACAGTTGCAGCTTATGGTAAAAGCTTTCTGCAAAGCTTTTCTGCTCCTGGGTTAAGGCCTTCCAGCATCAG
TCACATGTAATTAACAGCTACATTGTGTGCTTACTTTTTGCTAGATGTTTCATAAACATTATCTCATATAAACCTCACAATAACTAGGTATTATTRTCCC
GTATCCCTGTTTTACAGCTGTGGAAAGTGAAGTGAAGGATTTTTGTCATACAGCCAGTAAGTGCCAGAACTGACTTGAACCTAGCTCTCTGTCTTGATTC
AGGAACTACTGCTCTTTCCATTGGTGGCTCCTGGCTAATCAATGTGATAGTCTTTGAAGAAAAAAAAAAAAGAGTTACTATCTTCAGAGTTTTAAACTTA
TCTGGGAGAGAATTTAGGACTTTTCTTTGTGAGACAGTCTTGCTCTGTTGCCTAGGCTGGAGTGCAGTGGTGTGATCATGGCTCACTGTAGCCTTGAACT
TCTGAGCTCAAGTGATTCTCCTTTCTCAGCCTCCCAAGTAGCTAGGACTCCAGGTGCATGCCACCACACCTGGCTAAATTTTTAATGTTTATTCATTTAT
TTATTATTTTGTAGAGACTGGGTTGCGCTATATTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGCAATCCTCCCACCTCAGCCTCCCAAAGCACTGGG
ATTACAGATGTGAACCACTGCTCCCAGCCTAGGACATTTTTATTATTCCTCTCGCTGTTAATCCAACAACCCTGTCCACATTCCTGTAAATTGGCTTTGT
TCATCTTTTTTACTTCCAGACATGTTAATTTTAAAAAGAAGGCATCTTACTATCTTTTTAATGGCTTCTGTTTTCTTCCAAGTTAAACCAAAGAGTCATT
TGTAATTTGCCTCAGTAATTGGACTGTGACTTTAAATGGCTGCTAGAATTGGCCTTTTGTTGACTTTACTGGAGTTAAAATAATTCTCTGTTTTCATTAG
CCAAGAGAAAGACTTGTGACTCTTGATGCTTTTCCCACTGCAGGAGCAAAGCAGTAACCCCAGTAAGGGAGAAGAGAACTTAGATTTGTGTAAGTCCACT
GTGTGTTGGACACTTAAACATACTTTAGATGTATTATCTCATTCATCTTTCTGACTGCATGAAGGTGCTATTGCTGTCCCCATTGTGTAGGTGCAGAGAG
AGTTAAAGGTCACTGTGCAGCTGGACATGTAGTCGATCTGGGATTCAAACCCAGGTCTGTCCAGCTCATGTTATTTCTACTGTATCACACTTCTCACCTG
TATATGTTGAATGGCCAGAGTGAAGGCTGGGCTTTATGGGATACAGAGGAGGTGACTGTACACCAGGGGAAATCAGTGTCACCTTTCTGACGCTCCGTGG
CATTACCCTCATTCAGAACTCATTACCAAATACTTCATGTAAGTAACCTCGAAAGTCTTATGAGTACATCGAGAACTAGTTCCAAGTCACAGAACTGTTC
TTGTGGTGAAAGTGGTTGAAAGGCTATAGTTCATTTTGGTTATTGGATGGAAATGCCCTCTCTCTCTGGTTGATTAACGGAGAAGACTTAGTATACCAGC
CATTGTTTCTTCGTATGGAACGTTGCTTGTTTTGTCCCATTTTCTCATCTGCAAAATGTGGGTATAATACCTATTACGTAAGATTATTGTGAGAATTGAG
AAGTGTGATAATGTAGGTAAAACATTAGCAGAGTATTTGGCTCTTACATAGAGGCTCAAATTGCATTAGTGGCAGGAGGAAAGTCTGTTTTATTCATTGT
TGCTCCCTCAGCAGCCAGGCCATTGCAAGGCACATGGTGCACATTCAGTAAATGTTGGTGAGTCATTGATTTCTTTTCTCCCTTTGTACTTATTTTTTAC
AGATATTTGAGCACCTAGCCTTGTGCTGGACAATAGGGGACATGGGGTCCTTCACACAAGAAACATTTGTAGCCTCATGAGATAGATGGTCATTTGTGAA
AATAATCTAAAGAAAATGACCCATTGTTGAGTGGTAGATGGTGACCCTTGAGGCTATAGTGTGCAAAGCTGATTTGGAAATCCCTCCAGCCAGCTCTGGG
GCTGATTGTGGTGGGGGTGGGGGAATCCTTACTTACTACTTTTGGCCCTGCTGTCAGAATTGGACCTTGTACTGTCATTCTAAGCTGGGTTGAGCCTGAG
CACGTCTTGTCACCTCTGTGACTGAAGGCTGATTTAATATGTCATGAGGCAGTTTGGTTTCAGGAAGTGGTTTGCTGGGGCATGAGCGATGGATGTTGGA
AGTTAGAAAAGAGCCAGAAATTAAAATGCTGCCTCAGTTGGGTGATTGAATCCAGTCTTACCTGGTGGGGCAACCACTTATTGATTTGGAAAGCCTTGGT
GAATCCATTTTTTGCTACTCACACTGGGGAATGGGGACCAGCAGCATCAGTATGACCTGGGAGCATCTTCAGAATGCTGAATCTGAGCCTCCTCGTCAGA
CCTGCTGAATCAGAATCTGTATTTTAAAGAGATCCCCAGATATTTATGTGCAGTGTGAAAAGCAAGCTTTGGAAAAGAAAGGGCAATTCTGTAGACTTTA
AGCTTAGGAACAAGAGTATTTTTCTGGAGTCATTTGAATGTCAGTCGTTAAGCAGGGCTGCCAATTAGGGCTGATTTTCTCACTGTTTAATACTTGCCAA
GTATCTTGAGCAGTGGCTTCCCAGACTGAGCTGCTAACTGAATAAAGGTGGCATGATTGCCGATGAAAATAATAGTACATTCGAGTTTTAAAATGTTTTT
ATATAGATCCTTTTCTCTGTTCACAGAACAGTCTTGTGAGATCATCTCATCTCTGCTTTACAGGTAATAAAACTGAAGCACAGAGAGGTTATGTGACATG
CCTAGAGTCACACAGTAAAATCAGTAGCAGTTTTGAACTGAGGTCTTAAAATTCCAAGAAGTTGGGAGCTTGCTTTTTTTTTCCTTTTCACCATCTAAAT
TTTCCACATTGAGATATGAGAGAAATCCTCCATTTCTGCCATTGCATTTGTGTAGGTGCACAACAGGGAACGTGAGACAATTATAGTAGAGAATAATCTG
GACCAGGAATGGCGTTCTGCAATAATCACCTCTTGAACAATAAACTTGGAAAGTTTCGTGGTTGTTTCTGATTCAGAGCCTGGAAGAGCAAGCCATTTCC
CTCCTCCTACCCTTGGTTTACTAATCATTCACTTCCTCTTCTGTAAAGCCCAACTCAAAGGACCCCTGCTTTGTAAAGCCTTCCCTCTGGGATGGGATTG
GGGGGCAGGCAGATAATTGGTTCCTCATTCATATTTTATTCATACTTCTGTTAACAAAGCTGATCACACCATCTTAACTGCACATCTTATTACCCACATG
CGCAGACAAGGCTGTAAGATTCCTGAGGATCTAGAAAGAGTCTTCTTCACCATTGTAGCCCCATTGTCTGGCATGTGTTGGTCCTTCATACATGTTAAGT
GAATGAATGCGTGTATGCATGATTCAGACTTTGTTTTTTGCCTTTCTTTTCTTTTTCCCTATAGTCTKCTCTTTATAGATTTTTAATAGCATCCAAAAGG
GTAGTAGGGGCAGGAAGCTAAAGGGTAGGAAATAAAACTCAAATTCTTCAGTTTCGAGTTCAGTTCTCAGTTCAGCTCCTCTCCAGCAGCTTTTAGGAAA
GCATTTTAAAGAAAGGGAGGCTCACTTGGGGCTTGAGGATGGTCTGGTCCCTCACAGTGAATAGACAAGCATCAGGCGCAGCTGCAGTTTTTACGGAATA
CGTGCACATTACCTTTCCTCAGTGTCCCCTCGTAAGCAGTGAAATGTAATAAATGGCGTTTTAGGGAGCCGAAGAGTTGTCAAGTTTCCACAGTTTGGAG
AACTTTAACATATGGCATCTTGGGATCTAATGAAATAAATAATTCATGCCTGGAAATATAAGCAAGAGTGAATCTCTCTCCTTGCTATGTGAATGGGGAC
TTTGGTTGCCTTTTTCAAGGTATGTATGAAACATATTTATTCAGTCCACTCATTTATGTCCCTTTACTTTCTCACTCACTCGTCAAACTTATCAGCCTCC
TCTTCCCCTTCCTTTTCCCCTCTTCTTTTCCCTCCTCCCCTCATCTCTCTTCTCACCGAAACCCTGAGGGAGATAGGAAGGTAATAAGTATTATTGTTTT
GTCAGTGTCTCCATCACACACCTTCTGTTTTTCTTTCTTGAGGCATCTCAGAGGGAAGTGGCAGGAGATGACTTTCAGCAGACCTTTCCCCTTAGTGAGG
ACAGTAAGTCCCAAGGACATGTGGAGGCAAGGATGAGGGGCAGATGAACAAGCAGCTGTCTGGCCTAGGTCTTACAGAATTATTTTTCCTGGAATTAATA
TGCTTAGAATGTATACTTTAGCAAGTGTCTATTTCTGGCTCCAGCATTTTTCTTTGGGTGTCAAACCTGGTTTTATCTCTGAGATTTTTCGACACTAGGA
GAATTTGACATTCACATTCTAAGAGTGTTCTGTAATGTTTCCATTTACATACCAGTTTTCTTCATTTTTTGGCTGGAGGGGTATGTGAATATATACAAGA
ATCTGAGCAGATTCATTTTTAGCTGCAGCAGAGGCAAGCCTCAGGGGAAAAGTCAAGATAACTGGATTCCTGAAATGGTATAACTTGGCAACTCGTCTTT
TCTGTTCCTTAGCCTGTAAAGCATTATTTGGTTTTAGAAGAGGAGTAGCTCCTACTTGTGAAGGTCTTCATTGGAATGGCACATTGAATGCATGAACCCT
TAAAATCCTTACTCCCTTTAACCCAAGCCACATCTCAGTGGCTTTAAAGCATATCAAAGCAAGGAGGGGAAAGTCTGTGTGATACGGTACTAAAATTGAT
CCTGTAGTACCAGGCATGAGGAGAGGAAGGAGGAGTATCATCATTATCCTGTTAAGGATTTGTCATGCCTCAGAGCATCTGCAAGGAAATAGTCCACAGA
TAAAGTTCAGCAAGTGATTTGCAATTGGTAGAGGTGGTTTGGCATTTTGAAAAGCTTTATAAATGTGACTGCAGCCTGAGAAGAATGACCACCACTGGAA
TGAGGGAAGGCTGGAAGGATTTAAGGGGTTCTTTATGAAATCAGGCACACATCCCCATGTCGACTAGGCTAGACTCAGGCACCATAATAGCCCTGGTTCA
GGGTCACTCCTCTTTCCAGGAAGGTTTGGATCCTACAGTTAGAAAAGAGGAATCTTGGATCTCTAGGTAAGGGTTAGAGAAAGTATTCTGGGCATCCCAA
GTTAGAATCTGGTGTCTTTGCTTAACGAGTTCTGAACATTTCATGTGAGGGAATATGGGCTACTGTTGTAGGCCTTGCTGTTTCACCTGAACCATCCCTG
CCCTTGAAGGACTTAAAGTTGGAAGGAATGTGAGGAGGCGGAGTAGCACAGTTATATGACATCTAATCCAAAGTAGAATATGCGAGCCTTAAGAGAAGTG
CAGAGGGCTGTGAGGAGTATGAAGTGGCTGGCAAATAGATTCAGTATTATATTTCATTTATTCATTCTGCAGATATTTATGGACCACCCTTTTATGTTGC
TATTGCTGTGCTAGTATTGGAGATACAAAGATGAATATGACACCTCTCGGGCCGTTGCCAACTGTCGAGTACCAGGAAGAGCGCTTAGATAAATGACCAT
GTACAATGGGGTACGTGCAATTATAGGTCCACTGTTATTTGCTGTTCTGAATTCCAAATGTTAAGAGTTTTGACATGAAATTTTGTTTCATGAGGCTTTT
AGAAGCTAAACTAGAAACGTACTGGATATTTAAAAACTGTGTTACCAGAATCTGATAATGGAGTTCTACACTAGTCCCTGTGGGGTATGTTGTATAATAA
ACAATAAGTATACTGTAATTTCTTTCTGAAATCTACAAAAGTATGAATTCTAAAACAGCCAGCCCCAGCTAAAGGATTGTGGATACAAGTAAGATACTTC
AGGTGATTTGAGAGTTTACCTGGCTGTATGGGCTACCCTGGGAATATAACCACTCTTTATAACATCCTTTCTTCGAGAATGGTATGTGCTAAGTTATAAA
CAGCTGACTTAGGGCCATCATTTTAAAGTATGAAGCCTTCCAGTCTTCGCCTCCCCAGTCTTTTCCATTCTTAAAGTTTGGACYAGTCTGCAAGGTAGCT
GCCTCCCTAAGGATTTGGGGTATTCTCTAAAATTTGAATATATGATATTCTTGTGCCCTTTGAATACGCTGTTTAAAAATAAATTTTAAAGAATATTCTC
ATGTAAAAGTAACACACATACTTTGGAAAATACAAAACATAGGAAGAAGGAAAAAATGGCCACATTCTTACTGTGAACACACTGATGCTTTTTCTGTGCA
TGTTTTTGTTTAATAGTGTTAGTCTGACGCCTTCTTATTCATTATAACATACCCATTTTCCCATGTTATTTACATAGTCTTGGTAAGTATAGTTTTTTTT
TTTGTTTGTTTTTGTTTTTTGTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCCGTGGCACCAACTTGGCTCACTGCAACCTATGCCTCCC
GGGTTCAAGTGATTCTCCTGCCTCAGCTTCCCGAGTACCTGGGACTACAGGCGTGTGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAAG
GTTTCACTGTGTTAGCCAGGGTGGTCTCGGTCTCCCGACCTCGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCGCGC
CCAGCCTTGGTAAGTATAATTTTTAATGGTTATACACAGTTTCATTCTGTGAATTTATCATAATTTGCTTAACCATCTCCCATCATTGGACATTGTTATT
TGTCCTTCCCTCCCTTCTTTCCTTCTWTAAGTAATGCTGCTGTGAACATCTTGCATTGACCAGATTACTGGGGCAGATTACCTGTGCTTCCACAGTGGTT
TTACCATAGTACAGATGCCATCTTCTTCCCATAGTGCCCTTGCCTAGTACATTTTAAATTCTTGGAGGACAGAGTCTCCTTCACATTTGTCTCTGGGTCC
TCTACACTGCCCTGCTTAGGGTCTTGAAGGTGATTAACACATTTGTTTAATGGATATGCAGTCCAGACTTCTGAATGCCCTTTTCCCTCTTAGAGTTAAT
GTGTAAGAGCTGGCAGTGCTCTGTAAATGCACAGCTGCAGGTAGGACACTGCGCCTCCAAATAAAACATGTCCTGATAAGCATTTGCAGGGAGGTTTATA
TTCTCAAAGATATCCTCTTTATTAACAGTTGTTTCAACAAGGAATTTTTTTTTTTTTTAATATCAGCTCTTGTAAAAGAATGGAATTACCCTAAGGAGTG
AGTTCTGGGGACCCAAATTGAGGAATGGTGCCCTCGAAGTCAAATACTGGAACCAGAAAGGTTAGAAATAGATTAAAAGCCTCAGCTTTATCAGAAAAAA
GCCACAGATGAAAAGCCTCAAGCAGCTTCCAGCATGGCTGAGGAGATAAGCTTCCCATATTTGCATTAATTAGCAGGAGCACCTAGCACTGATTGCTTGA
TGCGTGTAGCTGGAGCTCCTGCCAGGGGAGAAGAGTTCCACGCAGCATGGATGCAGGAGTCGGACTAGAGCACAGTTTGAAAGCGCTTTGGGATGGCCTC
ACCCTGCATGGGTGCTTGGTTGACTGTGCGTGGAGGTGACTAGAAAGGACAAGCCTGGGGAAGAGATAGGCTGGGGTAGGGACCTAACAGGGCAAGAGGG
TATGTGTTTGAAATGTTAAGTCAGTTTACCAAACCTTCCCAGGGTCTCTGCTATATGCTAGACTGAGTGGGAAGGGCTAGGGGTATAGAGGTGACAAAAC
CCAAACACAGCCCTCTGAGCRTTCCCTATGTTAAAGGGCACAAATAGTTGCTATAATAATGTTCTATTAAATATGTAATTATGGCCTTTGACATAATCTG
TGTCTGATAGTTTGCACCCAAACTTGTGAGATAGGGCTTACGCATTTTGCAGAGGAGAAATTCAAATGCAGAGGGTTTGAGGCATTTGCCCACAGAACTC
GCCTTCCTTGGCTGTTAGGCTTTGTGGGTTAGGCTTTATGTCCCCATCATCGCATTGAACTGTGTTTCCCATGGTCTGAGAAATTTAGCCTAACTAGGCC
TCCCCCCAAAAATCAGTTTACTTCTCAAAAATGGATGGATGAGGGGGTCAGTGGGTGAATGGGTGGATGGATGGGTAGAACAAAGACAATATTCATAAAG
GAGGGTGTGACTGATGAGTAAGTGCATGGTGCCATCATCTATACTGCATTGTCCCTTTGTTCAAGCTCTTCCTAATCTGAAGTAACCTTACCTACCCTAT
CTTATCTTTTATTATCCCCCAACATCCATCCATCAAGCTGTCCTGTCATCCTTCTATACTTTCATCCATCTAACTATTATTTGCTWGTTCCAGGCACTGT
GCTTTGGACAGGCAATATACAAAAATGTGTAAAGTTCAGTCCTTGAACTCTTGGTGATATGTAGTCAGCTTTGTTCAATTAGAGTCAGATAATTCTGCTT
AACAGTCAATTTCCCTGTGTTCCTTCTGGCCCCATTACTAAAAATGCTCTAACTGCTCCTCTCTGAGCAGTACTCTTCAAGGTCTCCCTCCTTGGCCACC
AAGAAGTCTTCCCTCAAATTGTGCTCATTCGCCTTTTTGACCCCCTACGGGCCTTCTTCATCTGAATCGCTCCCTGCTATGAGGTGTTTCCTTATACCAT
TAGCATATCTTACCTTGTTTATAAACTGATGTCTAGATAAATGTTCCCTGTGGGTGTGAACTTTTGCTTCTCATCATTTCATAATGATAAGCACAAAGGT
GTTAAAGTTGTTTGCTCATTTGTGCATTCGTTTGGGCAGTTGCACACTTTTTAAAGCTCAGTAAACATGTCGGATGCTGTGAATCTTGATCATTTTCCCC
AGTCCTGGTGTGATGAGCATGAAGATGATGATGGGTAACCCTTATTGGGTACTTCCTGTGCACCAGGCACTGTTCTTAGTGCTTTACATGGTTTAACTCA
TTAAACCCTCACCGCAAAGCTCACTGTATAGAGGAAGGAACCAGAGCATACAAGTATTAAGTAAGTTGCTCAAGCAGGATTAGAAACTCAGGAATTCTGG
CCTTCAGACACCCTCTGTAACTACAACTCCATCAGTACATGAAGGAGTTCTCTAGCTGCTGTGACTCCCGATTTTGTGAAGTGTTTTTATTTTATATCAA
AGTAAGTGATGGACTTAAACTGTGAATGGAAGTAGAATGTCATATACGCAGTGAGATAAACATCAGTGAAATAAATGCTAGCTTTGTTTTTAGTTAATTG
AGAATAACTTTGTAAGTTCATTTTGCAGCAGGTTTTTGTTATGGCCCAGTTTTCGCCAAAGCCTATTTCTAGTGTTTTATAAGAAACAGTGCAATGTACT
TCAGGTGGTCCTGGTGTCTAAAACCTACTCTGCCATTTGATACTGTGAGAACTTGAGCAGATTACTGTGCCCTGAGCCTTCTTTTCTTCATTTRGAAAAT
AGCAAATAATTCTGCCTGGCAAATTTGTTGTGAGGATTGAGGGAGATAACACCTGTTATTTTCTAGTACCATACCTGGCACATAGTAGGTTTTCAGTAAG
TGGCTAAAAATAATAGATATATCAGAAACTTGTTAGCAGGCAGTGATTTTCTAAGTTAAGACAGGTASCAAATTATTTATGATATCTGTTCCAGTAAAGC
CTTGGCTCATTATTTTGCTTTTATTTATTTTTAATCAGTATTGGAACATTGTTGGTACTCGCTCAGCAGGAACAGAACGTGATAAAGTTACATCAGAAAC
CAGAGGCGGAAAACTTTCCACGGTGATATGCATAAACAAATATTTCATATTTTTTACAGAAAGTCTGGCTATTGCCTATAGAAGACAAAAACTGGTAACA
GCCTTATTCCAGCTAAATTTGAATGCCAGGTTGACACTAATCATGGATGCTTTCCCAGAGCTTTCAGAAAAACAAAACCAACCTGTTGTGTTTAACTTTC
CAAAGATGTCAGAGTTACAATTGGCTGAATATTTTTGAAGCTACATATATGACGACTCTCTTCATTTCAGTAATTAAAACAAATTTTTTAAAAAGATACC
TCCTGAATAGATAAATATGATCATAATTATGTTTTTCCTTGGTTTTATTTAGACCATAAAATTTTTTCTAGTGATAAGATCATTTTGTTTTGGCCGACAT
ACATAAAATTCTCTTCATTCATGAAATTCTGTGTTCACTAGTACCTGTAGGCTGGCACCAAGTCAGTTTTGTTTTTTGTTTTTTTTTCTTTCCAACTTGG
TGGTTTACAACTCCTTGAGTATTCCATTTTTATTTGTGTATGTTTCTGAAAGTTCTGCAAGGAAGGTCAACTATTTAAAGTCATTACTGGTATATCTTAA
TATTTATTTTACTAATACTTTTTTTTCATGCTTGCTGTAGGAAAATGAATGTGGGTTGCCAAGTCTTCCTTTTCTCTTAGGTCTGGTGTTCTCTGAACTA
ATTCACTCCAAAGTGTTGCTGTCAAGGAAGACTCAAATTATAAGGAACCACTAGGACCATCTTTATTAGAGACTGGCCTTTACTTTCTTAGGTCTTAAAT
AGGGTGTGGATGGGAGAGGTTTTCCAGTTCCTGTTTCACAGGCATTAGGACCAATCTTTGTGGGCAGCCACCCACTCATGAGTGTATGTCTCTCTGTCTC
TCTCTCTCTTTCTCTCTCTCTCTCAGTATGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGAGTGTAAAAGGAATGATTGGTTTTACTACC
CCATGAGGAGATCCAGTATTCTTATGGGGGGAGGGAATATTAGGAAAGATGTTTTTTTCTTCTGTGCAAAGCTGTCATGCTTTGTCAGTGATTACAGAGA
TAAACTTAACAGCTGCATTGCTAAATTACCCCTCCCTCCCAGTGGCTGCATCCTACATCACAGTCTGCATGTGGTCTCTGTGGTTCATTGTCACTGGTTC
CCAAAYCAAAGGAAGCCATTGGTCTTGTTGAGTGGTGACGCTTATCTTCATAAATCCTGGCTGTACTGGGCGCATCCCTTTTAGTTTATKTTCAGCCCAG
CCCTCATAGCTCACTTTCCCCTGCTTAAAAATTTTCATGGGTTTTCCCTCACCTTTAGAGAAAAGTTGAGTTACTACAATTTGACTCCCGTTTTTGCCTT
TATGGGGGTTCATTTGAACCTCATACTTTGTGGCTAAATTACACTATAGTCACTTGAATCCATTTATATATACAATTTATCGTTTTGACTACTGTCTAGA
ATGGTTGTTTGTCCAGTTTTCATTTTCCTACTTTTATTGCTCCAATGTTTTGAGATCTTGGATCATTATTACTAAATTTCCAGGTTTTATGGATAGAATT
TTGTTTTTAAAAGGGATTTGTTCTTTAGGGCCCCCAAATTTTCAAGACRCCCTACACATTCGGTTGGCCATTTTAATCTCTTCTCAGGGATGGGTTTTGT
CCATTARAACCTCTGTCCTCCGTGCCAGTGAACTGGAAATTTAAGGCGGATGTSATGATGATGAGTCTAACAAAAAGCTGTCCTCATCACATACCCAGTC
CYCCACAAGGTTTTTGTGGATACAGTCAGTGMAATACCCACTCTTAGGCCATCTAGATTAGTTCCTCACAGATTCTGGGGATTTCCTACATCTGATGAGT
TTCTGATTGCATGTCCTGAAATGGCACCATTTTTTTAGGCCCTTACCCTTCATTGGACATTATCATGGCTTTTCAATTTAGACATCTACTGACAGTGATT
CTACTTTGCCCATCAACCAAATCTGATTTTCTAGACCTGGTTTTAAGGCATCCTATTATCTGACCCTTCCTCATGTATCCAGTCTCAACTACAACTTTCT
GTTCTTATCAAGTTAGTCTCTTTCCATTCTGAAACACTGTTCCCCACACATCCCTGCCTTTGTTTGGCCTTCTTTAGCTGTCTGCATCCTGCCTTCTTTT
TTTTTTTTTTTTTTTTTTTTTTTTTTTCTGTGATGGAGTCTTGTTCTGTCACCAGGCTGGAGTGGTGCAGTGACGTGATCTCCTCTCACTGCAGCCTCTG
CCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCGCATGCCACCATGCGCAGCTACTTTTTGTATTTTTAGTAG
AGACGAGGTTTCACCATGTTGCCAGGATGGTCTCGATCTCTTGACCTCGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCA
CTGTACCCAGTGTTTTTTTGGTTTTTGTTTGTTTGTTTGTTTGTTTGTTTCCTGGCATCCTGCCTTCTTTTAAGGCTAAGTCCAGATGCCATGCTCTCTA
CAAAGAGGGCCTTACTTTTCCAGCTGGTGTGGATATATTTTTCCTCTCTCCAACAGTAGTTACTGCAGAGCTCACAACGTAGTGGCCCACTTGCCAAATC
CATCCCATGAAGGTTTTGTTTGCTCCACCAAATTTGCCTAGTTGCTGTTATTTGTATTTCAGGAAATTTCACATAAATATTGGATTTCTGGCTTGTTTGA
AGAACATAGACCATTTAATAATAGTGCATCCCCTTTCCCAATTGGCAAAAGCCAGCTAAAGCTATTCAATTAGTGGCTGTTTTACTTAAATGATGAAGGT
TGTTGTAACTTTGCCGCAGCGAAACCCACTCCTTGTTATAATAGGCCAACCTTGCTTCTCTCATTAATATTATCTTCCTGACCCCAGTAACTATTTCAGT
TTATGATCCTTTGGGTTCTTGTTCATTTAGTTGTCTACCCCCACCACACTCTATTTCAAATTATTTGTGTAATTTTTATGAGAGTAGGGATAACAGCTTT
CTAAAAATATATTTTCCCCAATAATGTGGATACTTTGTTGGGTAATTGCCAAATCAGTGATTGGTTTTGATATTGTGGCTTGAATGCCATGGTTGATGTA
CACATGCCAGAGCTGAAAGGCCTTTCAGTTTGCCAAAAGGGGATCTTATTAAGTGCTTGCAGTTACATTCACACATCATGATTAATAATGAGTATCCACG
TGGAGTGCAGATGGTAACAGTCGTATTGCAATTGGTGAACCTTAAGCAGTTTCAGATGAAATTTCAAAAATATTTTGATTTRTTTTTACCAATAGACTAA
TAATTAAGCCATTTCTAAAAGGAGGAATTAATATACAAATGCAAAAGCGATTTGTAGTTTTGACTAAAACATCTGCAAGTGTGGAGTCACAATATATTTT
ATGTTTCTTTATTTTTTCCTATTTGGCAAAATAAGTAGGGAAATAGTGGTTTCCCAGATATAGATTATTAGATCCCTAAAACATGGTATACTTGCAGGAT
TTTAGACACTTCTGCTTTGACAGTGTGATTAAATCAAATTGGATTCTAATTAAAAGATACTGCAAAATGTAGAACATATATATTTGGTTGGTGCAAGAGT
AATTGCGATTTTTGCCATGCCATTCCTTTTTTTTTTTTTTTCGAGGCAGAGTCTTGCACTGTCGCCTGGACTGGAGTGTAATCGGTCATGATCTTGGCTC
ACTGCAACCTCCACCTCCCGGGTTCAAGTTATTCTCCTGCCTCAAGTCTCCCGAGTAGCTGGGATTACAGGCACCCGCCACCTTGCCCCGCTAACTTTTT
GTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGTGGGTCTCGAACTCCTGACCTCGTGATCTGCCTGCCTTGTTTTCTCGAAGTGCTGGGATT
ACAGGCGTGAGCCACCGCGCCCAGCCTCCATTACTTTTAAATGGCAAAAGCCACAATTACTTTTGCACCAATGTAATATAAGATGCAGAGTTTCTTAGAG
GAAAATGAGTTCACATGCCATGATTGTGTATGTTGATTCCTGGGTTCCCCACATATCACCATATAGATATGTTGCAAAACAGAATAAATTAAGTTGTTTG
TTTTTTTAACCCCCCCAAAAAAACTATTTTTTACACTTTGGATAAGTTTTTTAGCCTGAAAATCTGGACCAGTACTTAGTTGTAGATTTACAGTACCTAG
ACTTGGAGATATAAACCCCTGTTCTTAGAAGGTAGAAAGCCCTGTCATGATTAAAAAAATCAAGGACCAAGGAGGGTATTCCCTCTCTCCCAGTAGTAAG
TTTTCAAATTAGTTAATAAGCATATGTCAGTCTTTATGGACAAAATCAAGAAATGATGTCATTGACCATAGAGAGATTTGTAAAAACTTAAAAGCAATGG
AGAAAGCTATAAGTGATAGGGAAACATTGTTTATGTTGATCCACGGATCTCTAATACTAATTTTATTGAGTTGTAGGTTTATTTATTTCTCCCAGCATCC
TTTGTGAGGGGGTACATATCATTTCCAGTTTTACAGATAAGGTAATTGAGTTTATCTAGATGAAATAACCTTGTTCAGTGTCATACAGCCCCAGGTTATC
TGCCCCCAAACCTCTGCTATCTTCTACCACACAACACAGCCACCAAGTATAATGTTTTTTGAGTACATATACATATGTACTCTAAACCTATTTGTTATTT
GGAAAAACAGCATGTTGGTTGTTACATGTTATTTGGAAAAAGTGAATCTGTAAACATATTTACTCACCCATTTTTAGACAGATCAGTGACTGTTAGACAA
ATCACTGACATGGATTCTTGGTTATGGTTAAATGAAATGGTGCTATTAATGACCAAGCAGAAGAATGAACCAATAAAATTATCATTTCCTTGTTTATTTT
TAAATTTCAATAAAAACTGAAGTGTTAAATTCTAACATAGAAAATTAAATTCACTTTTGGCACTCTTCCCAGCCCCAATAACTGATTGTTCTGAATTTTA
AGTAACTGGATAATTCTGACTATTTTATTACAAATTTTCACTCTCTAATAGAATCGCTGATGAGCATGTATTGCTCTCCCTCTTTTCTATTGCCTTTTGT
TGATTTGGATAATGCTACAGCTCAAAGCTGGAAGAGTCCAGTAGGATTATTAAATTATATGAATCATGCTCTAAGAAAGTTCTAGTCTGGATTCTGAAAA
TGCTGACATGGTTGACTGCTCTCTACTGTGGCAGACTGTGTGTCAAGGATGCCTCCCAGGAGTTGTGCTGATTTGTGAGGACTAGTTGTCAAAAGATTCC
ATAACCATTATCACAAGTAGACTTTATCCACAAAATGCCCAGTTTCTTGGGACATATAATCACAATTGAATATATCACACACCACTTTTAAAAACTTGTA
TTCTAGGCCAGAGGTCAGCTACCATTTTATCCTGCTAGATTCTCCTGAAATCCATACTCCATATGAGAAGTAAAGGTAGAAAAGGGACAGCGAGGAATAT
GAGCAAGCACTGGTCTGGTAAAATCATCTTTGTTCAGTTCCAGCTGGGCTACTTACTGGCCTTGTGATGTGTTTTAAAGGCCCCTTGATCCCTCTGAACC
ATGGTTTCCTTGTCAGCAAAATAGTCAAGAACACTACCTCTGCCTATCTCTTTTTGATGACCAAATAAAATAAGGAACATGTAAGTGCCAGTTTGAGGTA
TTCTTAAACAGTACAAAGTTGCTGAATGAGACACAGACTCAGGTTTCTAACCTGGCACATAGTTGATGTTTATAAAAGTTAGTTCCCATCTCCTCTTTTT
AGTTGTAGGTTTTATATTGATTATTKGTTCAAGAGAGGCAAAAGGTTGTAAATAGCTCAGGGTCGCTTTAGTTATGGACGCCCCTAACTATTTTAGTGGA
CCGGTTTCCTGCTTAACGCTCTATGTTCTTTCCTCCCTGCCTTCACTTCTCTTTTTTCTCCTTCTCTGTCAACTACTACATTGCTAACTCTTTCTCATCT
GTAGTATAGAAATTATACAATATTTTTACAATAGAGAAAGATCTAGAAATTATCTAGTCAAGTCTATTTGTTTTATAGATGAAGGAACTAAAGCTGAAAG
AGGTTAGTTTCTTGTTTGAGATCACACAGCTGATAAGCACCCAAGCTGGAATTTGAACCCTGCGCTTGTTTCAAAAGCAAATTTATTTTCACTGCACTAT
GCTGCTTTTATGATTTGCATTCCCCCCACTCCATTTAAAAATATGCTTAACTATCTCTGCAGAAGTGGATTTCTAACATCTGCCATTAACATCCACTGCG
GTTTGTGAGCCAGTCCTCACATTCCCTCGTTGCCATATTCAAGACTCCATGTGGGACAGCCATGGATCTGGCAGAGAAGCAGATTTCAGCAGAAGGTGTG
GGTGACTTCAGAACCCCTAGTGCTGGGTGTATGATTCAGACCTTACATGAGGAAAGAGTAATTTCCTGTGCCTCCCCCGTGTACTTTTAGGCTATAGCAA
CCACAAAGTTCAGAGGAAGGTGTAGGATTCGTGTACTTCTGTTCATTTTTTTTCCCCTCTCTGTCTCATTGTGAATCAAGGGCTTGATTTTGGAGATTTT
GCTTTTACCTGCCAAGCAGAGGGACCAGGATTTGTTCTGTCCCGTGGTAGACATGGCTTTCGATACCTTATTAGGGTATCACTTTCAATAACACTTTCTA
CTTCAGCTTCCTCATCTGTGAAATGGGTTTGAGGGTTCCTGCCTTGCTTGTCTGTAAGGATTGTTTTGARTGAACTAATGGATGAGGAAGGGCTTTGTAA
ACATGCCTAACACTCTCTAATTGTGAGGGCCTTTATGAAAAGACTTAAAAGTAAGAGGTAAAAGCCATGGATTTGAATTCTGGTTCTGCCCCCAGAGTGG
TTACTGGGTACGGTGAGTAGATGTTGGGTGGCCCAGAAACAACAGCTCCCCCTCTCTTCTGTTTCACCCATGCGTATTTATATTTAGAAAGGATATTTAA
TGCATATGGATAAAATATCCCAGGAATTAATTAGAGTTTTTTTCGTCCAATGTCTCTCGACTGTTTTATCGTATGTCCCAGTCCAATATTTGCACTCTTA
GCTGCAAAACTTGATGATGCATCAAGGAAAAAAAGAGAAAGGCTTATTTGCATGGAAGACTTTTGCAAAGAATGTTTTCTTATTGGCATATATTGTCTTC
ATGTGTTTCTAATGAAACAGAAGCCAGTGAGTCTCTGGGTAATTTCTTTGTTTCCACCCTGACGCTGTTGATGTCAACAAAAAGTGCAGTTCATTTTTAG
GTAGGGTCATATTTTCTTTTTCTTTTTTTTTTCATTTAGCACAGGAGTGGTGGACTTAACCTGCCACACCCTTTTAATTTAATAAAATATGTCTAGATTA
TGGGATGTGACTACAGCTTTCTGTGGTTGGTCGTGTCCATCCTAAAGATCTGGACTCAATACCTTGAAATGCTCATGTTACTACAATGAAAAGCGTGTGT
AACACAGCAGTAAGTGTTTACATTGCTCATTCCCTTTATGCTGTCTAACATCATAGAGAGTTAAAGAACTCATGGTTTGAGGGATATTGGTACTAATTTA
CATAACTTTTATAAGGCCCTTTGATTTTTTTTTTTTTTTCTGGTTTTCAACACACTTATTAGGTCTCTTGTCATGGCACAGGGAAATAAATCTTCAGCCT
CGCTGAGAACCATACTACTTTGGATTTCTTCCTTTCATGGCTAAGAATTTATTTGCTCCCTTGAGCTCTACCCAGATGAGGTCCTCCCGAGAGGCTCCCT
GCCACTCTCTACATCTCTGTGAACTCCACTGGCAGTCTGAAAACTGTCCTGCTACGTCCATGTGATGGGCCCACAAACGCCTACAGCCCTTCGTCAACAG
ACACAATATGAGTGGCAAAGACATTTATGTAATCTGGGGACAAATTTGTAAACTCTTTTGAGAAATCTTACAGAAATCATTTCCCAATTGGAGCTAATGG
CTGCTTGCTGGTGGTGTTTCCTAAGGCATTTGAAAGCCATTTCTATATCTGTACTTCCTTTATTCCCACTCTTTAGACTTCTTGGTGCCCTGTTAGATTT
AGACTATTATGACACTTATTTTTTGTTTCTGTCATGAGAACTCTGTGTCACTTTGTGCTTGTCTTTAGGAGTTTTCAATGTTTGTTTTTGCTTACATTTT
TAAAGATGGGATTGTCTAAACATTTTTCATGTGGTAAAAATGGAATTCATATTTTGAATTTGTATTTTTTCTACTGAACTTTCTGGTTCTTTCCTCTCAA
CTTCATCTGCTTCATCTTTTGTTGTCTTAAATTCACTGGATATGAAGAACTAGTATGGCTTATAGTTATTGGTGTTTTTCTCCTGTTGCCTATAGCCGTT
GTCCTCGTTACCAAGTGGCTGCTACAGGAAACCATCTTTTAGGTGAATGGCCAGACTGGATGGGGCAGACTGGTTCCCCTTTCTCGCTGACGCTGTTTGG
CAGCTGCTTTCTCTCCAGTCTCACTCAGGTTACCGTGGCCTGTGGTCCTCAGCTAGAGCATGCATCGTAATCAACTAGGAGATTCTGATCTGGAGAGTCT
GGGATGGGGGGCCCTCGGTGCCTGCATTGAAAAGCACACACATGTGATTCTGATGTGGACGGGTGAGGGTGGGGTTACGCTGTCAAAGCCGTACCTATTG
TGAGTCAGCTAGGCTGCACATGGACAAGGGACCCCAGGGACTGACCTCCCTCAGCAGCAGGCAGAGTCCTTCCATCGTCTGCCATTGAGTTCACTTAGTT
TTCTGTGTCTGCCAAGACCGCTCCTGGCACTGTGAGTGCACTGCTCTCCTTGTCCCTTTATTTCTGTTCCTTAATTTCTGTTGACTCACACTTTCCACCT
TCTCATAGTTTAGGGTCTCTCATGCTGCCATGGAGCTTTTTTGTTAGAGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGWGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTTTGCAGTCTTGGCTCTCAGTTCACGTTTGGCCTGCAAATCCCAATCACAAATCCATTTGGTCAGAATTCGGGCTAAG
TATTTACTCCAGATTGTCTCAGCTGTGGCTGAGGTACTGTCACAGAAGACCCTGGGATCAGCCTACAGGACACAAATGCCAGCTTTTTTGTCTGAGGATA
CCTGTCAGTAGCATAGACCATCACATGGCTTAGCAAGCTGGTTCTTCGTAGTCCATGATTGGCTACAGTAGAAGAAAAGCCTAAATTTTGAATTCATAGT
TAAGAGTTACAGTCCTTGTTAGCACTTGTTTACAGTGTGATCTGGGGTAAATCATTTATCCTTTATAAAATGGAGACTAATGTAGCTTTTGTCACAGTAG
CAGAATGTATATGGAATCACTTTGTGAACTTAGAGGAAATGGAAGAGATTGTTACAGCTGGAGCGGCCCAGTGCCCCCCAGCCTTCTTTTTTAAACAAAT
GAGGAACGAAGCTCTAGGAGTTTGCTGTGCCCAGGAACATCATAATTTATTAGCAGCAATGCCAGACCTAGAGGTCAGGCCCGCAGGGTTCTTTTTGTGA
CATCTTTTGTCAGGGCAAAGCATCCATTCATGGAACTGGGCTGAATCTTTCTCATACTCTTCCCTTAAAGAGGCTTGCCTTTTTGAAACTTGGTTCTTTC
CTTGATCACTCTGTCATAGAATCTGTTCTTGGAGCCGCTGATGAAGTCCGGTCATTATCAGTACCTTTACTTCTGCAAAAAAATGTGACTGGTATTATCT
TCTACTTGGTTGTAACGGTTTACGTTCTCCTCCAGTTCTGTTGTTCTCYGTGAGGAATGTAGTTTTTTACATGCCTTTTCCATTGGAGAGTTACAACAAA
AAAGCAAAATAAATCTATCTTTTCTCTGATATGGCCTCCTTATTTGTTTTAAAAGCATTTTTATGTTTATTTGRATAATATTTAGAAAATATAATAGATT
TAAACATAATTTTAAAAGCATCRAAATGCTTACGTTTCTCTAATTGTGCAAGAATCTTTATATACATAGTTTTTTTTTTTAACTGAAGTTGCATCCTGCC
AGTAAAATTTGAACGAATTGCTTTATAAGTTGATAAGGCCCCTTTAAAACCCTTTTCACTTCTTAGCTCCTGTGTGTACCTCTGTTTAGAAGGTGTTTTC
TCCTTCCTAGGCTAGCCAGGAGGAGAGCTTTTGTGTGCAGGCGCTGGGACGCCTCAGGGGACTGGTAATTGAGAGAGGGGTATTGACCTGGGTCATCCAT
CTGAAAGTACGTAAGTGCTGCTGCCCAAAGCCATTATTACTGCCTTCCAGGAATCTTTGATAAGTGAATTAGTGGCTTTCTTTAGCTCTCTTTGACCTGT
GGAAAGCCCAATTACAGGCTTCTTTGTTCACCCATTTGTAACTTCTTTCTGTTAGGGCCAGGAATATAACTTCATCTGAAGACTTCTCCCAGTTGTGGGT
TTCAAAGCATTTGGAAGAAGAAAAGGAGCTACCATTTGTTGAGTGCCTTCGGAGTGCTCAGAGCTTTGTATATGCTCTCATTTCATTCTTGTCTAAGATC
TAGAGATGGTTAGGATTATTCATTCCTGTTTCACAGATGAAGACTCTAAAAAAGTTGGAGAAGTAGCTCAAGGTCATCCAGCTACAAAATAACACAGCTA
GGAGTTGAATATGGAGCTACAGTCTCAAGAGTCTATGCTTATTATGTCTCACTAAATGGTTTCTGTTCCAAGTTAAGGGTAGTGGACTATGAGGAAAAGC
GAAGAGAGGTTTATCCTCCATTTCCACCCACAGGTATACAGAAATAAGAACTACAGTAGGTGTAGCTAAGAGCCAATCCAATCCTGTACTGGTGGTATTC
AGGAAGGCTTTATGTGGATCAAGATTCTATGCCAGAGAACACAGATTCCTTCAGTTCACTTCAGCATACATCTGCTCTGTGCCTGGTACTCTGCTAAGGA
AAAGAAGTCCGTGCTTCCAAGGAAGTGAACTTCTGTTGATCACTCGGACTTGAATGAAATATTATGTCATCCAGTATTAATTCTCAAAGATACATCCTCA
ACAATGAATGCGATAGTGAGAAGAGAGGCAGAGGTTGCTATGTCAAGTTGATATTGTGTGGCGGGGTTAAGTATCCCCTTACCTGTTTTCCATTTAGGAT
TTAAGGTAGATCGAGTGGTCTGGTGCAAGGGTTCAGACCATAAACCACAGCTGTTTGATTCTTCAGCCTGGTTCTTTACCAGCTATTATCTCCTCTCTAC
CAAAGAACATAGTAACCTCCCCATTTCTGCACCTCCTCCAAAACAAAACTTCCCCGTAATGGTAAGTGAAAACTTGGACTTACTGAAAAATGCCAGCAAG
GCCCAGTTGAACCTCCATCTTTCATGCCTTATTGATATGCATGCCACTTCTTCCATCTTCATAGTATCAGTCATTTGTCATCCTCTAATAATTTCAAGGC
TTGCTGTCATTTTGAGTTGGTACTTCCCCAAGGGAAAGCAATGCAGGCAGGGAGGTATACATTAGTATGAGAAGAATGAAAAATGATTATATAAGGTATT
GTGAGTCATAGACTTTTACATTCTAAAGGAATTTATTGCAAACATTACCTTTTTGGAGATGGGGAAACTGAGAATCAAGATCTCAAAGCCAGTTAGTAGC
TGAGCCAAGGCTAGAACTCAGGTCTCTTTACTTTTCTCGTGGACCCCAGCTCCTCCGCCCCCCTTCATCCTATGGAGGATGCTGGGACTAATGGGATTTT
GAACAAGTCTTGGGAGTAGGAAGTGATGAGCTTTTTAAATGAGAACAGGCAAGGTTTTATCTATGTGGCGGATGTTACCAGACAGGGCAGTGTTAACCCT
GGCTGCCCATTGGAATCACCTGGGGAGTGTTACATGTGGGCTAATGTCTGGGTCGCACCACAGACCAGTTGAAACTACTACTTTGTTCTCCTCGAAGTGT
GACCTATCTCACCAGCTCTGTCATCTTTAGGAATGACATTATAAGCCAGGTTTTCTGGAAGTGAGGTTTGTAGACAACCTCCATCAGGATGCCCAGAGAT
ACCCAGAGAAGCAGATACCAAGATCCTGTGAGCTCCTCCTTAATACAAGCTCCTGGGTTCAGAAGCCTGGCTGCTGTGTTTATAGCAAGTTTCCCAAGTA
ATTCTGATGCACAGCCAGTGTATTGGATGTGGTTTATTTTTCTTCTAGTCCACATGTCCCCCGCAGTTCCTTGCTGATGCCTCCTGCTACTTTGCTTCCT
TACTTTCCCCTTCTGCAGAYCTTGAGTGGAAGCAGGCGTGACCCTGCCTTGGGAGGGACCGCTGAACTTCAAGGTTTTCAATTGATTTTGATGCTTTTCT
CCTTCCTCAGAAAGGAAAGAGATTTAGCATATGGGCTTTCTTCATATTAGATTTAAGATAAGAAATGATAATTACAACACTAAAACTAGCCTTTAAAAAA
ATCTGTTGATTTGTTTGGTAAATGAGTGATAGGATTTTATCTTTCTCCATTAGATTAGCCCCTCTGTTCTTATTGATACACTGTATTTATACATGTTTAT
GGGGTACATGTGAAATTTTCTTACATGCATAGGATGTGTAATTATGAGGTCAGGGTATTTAGGGTATCCATCACCTCGAGTATTTGTCATTTCTGTGTGT
TGGGAAGATTTCTAGTCCTCTCTTCAAGCTATTTTGAAATACACGATATATTGTCATTAACTGTAGTCACCCTACTCTGCCACTGAACAGTAGAGCTTAT
TCCCTCTAATTGTATGTTTGTACTCGTTAACCAGCCATTCTTTATTCTCTCTCTCTCCCACCTACATACTCTTCCCAGTCTCTAGTATCTGTCATTCCAC
TTTCTACCTCAACATTTTTAGCTCCCACATATGAGTGAGAACATAAGATATTGTTCTTTCTATGCCTGCTTTATTTCAGTTAACATAGTGACATCCAGTT
CTATCCATGTCATTGCAAATGACTTGATTTTATTGTTTGTTATGGTCAAATAGTATTCCATTTGTATATATACTACATCTTCTTTATCCATTTATCTGTT
GATGGACACATAGGTTAACTGCATATCTTTGCTATTGGGAATAGTGCTGCAGTAAACATGGGGGTGCAGGCATCCCTTTTATATACTGATTTCCTTTCGT
TTGGAGAAATACCCAGTAGTGGGATAGTGGAATTGCTGGATTGTATGATGAATCTATTTTAGTTTTTTGAGAGATCTCCATACTCTTTTTCACAGCGACT
GTACTAATTTAGATTCCTACCAACGATGTGTAGAGTTACCTTTTTTCCACGTCCTCGCCAACATAGGGGTTTTGTTTGTTTGTTTTGGTGTTTTTAATGG
CCATTCTAACTGGGATAAGATGATATGTCATTATGGTTTTAAATTGCATTTTCCTGAAGGTTAGTGATGTTGAATTTTTTTTTATATACCTGCTGGTCAT
TTTTATGTCTATTCATGTCCTTTGCCCATTTTTTGTTTTTGTTTTTTGAGACAGAGTCTTGCTCTGTCCCCTAGGCTGTAGTGCAGTGGTGTGATCACAC
CTCACTGCAGCCTGATCTCCCAAGCTCAAGCAATCCTCYTGTCTCAGCCTCCCCAGTATTTGGGACTGGAGCTTACCGCAGCCTTTTAGTGACAGTAAGT
CTTTTTTTAAATTTATTTTTATTTTTTATTTCTTCATCATTCAACTTGAGACAGCAAGTCTTGCTTCCTCCCCTTCCATTATAAAACATGACTTTTTTTA
TTTCCATAAAGATTTTATACATTATAAAAATAACAAAATGGGAGGAAAGCTCAGAGTGGCACACAATCTTCATAAACAGGATACTAGAGAATAGAATGAT
AATCTAAATTTAGTGATTTTTGAAGCAGGGATGACTATGTGAAAATGTATAGTTTCATTGGGAACCATTTCCTAATGATACGAAATCCTGGTAATGAAAG
CAAGTTTAGTTCAGTGGGTGATCAGCCCATCGTTTATAGTTTAACATTTAGTTTCATTTAAAAAACCTTGGGGCTTGTATCATACTCCTAAAAGATGCAA
AAACAAAAGACCAAGAAATAGGGAGATGCAGGTTGGTAGGTGTTGGAAGCTAATTTGCAAAGTTAGCTGAATAGCCCACGCATCTGAGCGGTACATGTAG
AAATGGAAGAAATGATTTTGACTTCCTACTCTCCTTTTCCTTGAGGGTGGTAAATAATCTTCTTATCAAAACTATGTAAAAGGTATATATAATTTCTTGG
TAAAGAAAAACAAATTCCTTGGAACTGTGTGGCCTACAAGCAGTGCAGTGTCTTAATAGCACATCAGAATAATTTGTACTTGATTTTTTTAAAAAGGGTA
GAGTGAGGTTGAAGGTACATATAGGATAAACTGCCCCTTTAACATGACACGTGCTGAAGCATCATCCTTTCCTCTGGGTCTAAGGCACTTGTTAGTATAG
CTCTTCTGGTCGAGTTCAGTTTTAGGAGCGAGCAGCCCCTCTGCTGATTGGAAGAATAAAGACTTGGGAATGAGAAGGATTTGTTGCTTGCAGGGCAAGT
GAGACCAAATCAGAGCAGCCCGGCAGCAGGCTCTCCTGATCAGTGGGCCATCCTTGGGGACCAGGAGCAGCCATTCTTGTTTCAGGACGGTGTGATCCTC
AGATTGCCCCCAGTGTGATTTGTTTGGCCAAGTGGATTGTTCAGCACTTGTTCTGTGTGCTGGTGACTCATCTTACACTGTAGGGTGAACTACTTCTCAG
GTAATACTTACAGGAAAGATTTCTGTTTCAAAAAAGGAGGATTAACTCAATTCATTAGGAAAAATTAATTTGAGCAGATGAGGGAAATGGCTTTTAAAGG
TAGAGAGAAACAGTGGACTAAAATCTGTAACTCTTTTCTAAGGACTGTTTTTTCCCAGCAGCTTCTACCTGTTGGACAGAATTACCTTCTTTAGGTACCT
CTGTTTAGGATAGATTTTGTTTGTTTTTTATTAAACTCAAATATTAGAACCAAATTGCCTTCTTGCAAAGAAACATACAGGATGAAGATTTAGCCTAGTT
GGTTTAGTTTTTGTGTTCTTATGCATGTTTTAGTTGAAAGACAGTTTCTATGAACATAGAGCAAAATATGAGCAAAATGAAAAGCTTTGAATTTATAAGT
TACTTGTCTCTACACTGGTTATCCAATTAACCTTTTAAATGAGGGAAGTTATTTCTTTATACTTTTACATACAGAGCTGATTCCTTGAGATCACACAGAT
CAGACAGAAAGAATGTTAGAATTAGGAATCATCAGAATTATAAGGGTCTGCAGAAGTATTCAAACTGCAGGTCACAATGTATGTTAATGGGTAATGAAGT
GAATTTAGTGTGATCTTTACCAAAAGAAAAAGTTTCATCTTATTGGAGGGGGAAACATGGGCCCAAAGTGACTTAGCTTGGTACTTTATTGTAAATGTTT
GATAACTTTTTATTTGATTTGGTTTGATTTTTTATTTTTTGAGACAAGATTCTCGCTCTGTCACGCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACT
ACAGCATCTGCCTCCCAAGTTCAAGCGATTCTTGTGCCTCGGCCTCCAGAATAGCTGGGATTACAGGTGTGGGCCACCACGCCTGGCTAATTTTTCTATT
TTTAGTAGAGATGAGGTTTCGCCATGTTAGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTAACTGCCTTCGCCTCCCAAAGTGCGGGGATAATA
GGTGTGAGCCACCATGCCTGGCCTGATATTTAACTTGGAACGAATGCCTCAAAATTTTGTGATCCTGGATGCTTGGAACACACACTTAGCACATTTATCT
AATGCAGGTACCAGAGACCAGATAAGACAAAAATTAAAAGTAATTCTACCCTTGCATGAATCCAGAGGCCTGTTCATATAACCAGAGACCCTGACCTTTA
CGTACCTTTCAACTTTCCCAGGACAGTGCCTCATCTAATAGTGACCCCCTTAGGGGTGAAAGAGACAGTCACACATAGTTATCAAAACCTAGAAAACCTA
GGTTTGCTACACTAAGCTGAGATGACCACTMTGTCAGTATGAAACTTGGAGAGGGACTTTGGTAGGTGGCATGTATTACTGGGAGGCAGTTTAATCTGTT
GGGACATAAGTTTAACATTCTTGTTTCTTTCCTGCTGTTGACCCTGTGAGCATGTGTAGACAGCCACTTGAACTGTCACTATCTGTATTCTCAGGACATC
CTGCTAACAATTTTTTTGTTTGCTTCCTTCGAGCTAGAGGTACAGTCAGGTCACAGAATGGCTATTTTACTTGGAAAYTGTATCACAGAAATCTGCATTG
GCCTTCTCTCTCTGGGTGTGTGGGTAATTCTGCAAACCTCGGATTTTACTTTCAAATTTATCCACAGCTAAACCAGACTCTGCCTTTTTCTTAAGTCTAA
AGAATGCATCCTAGACAAAAGGCCAATTTCAGTTGGCCTTAATTCTCCCACTGCAGCATTCCTTTAGTTGTATGTATTTGAAATTCAAGGCCTGTTCTGG
TTTCAAGTACACTTCTTTAAAAGTCTAAAACAGAAATGTATTATTGGACTGATAATGCCTTATGGAGGCCAATAATGGTTTTATGTACAAGCCACAGTAC
TTTTTTTGTTAGTAGTTTAAGTGCCTTTGACTGTTCCTTCTCCACCCTCCCTCCTCCTCCCTCAGATTTCACTAATCATGTTAAGTAACTTGATATTGCT
CTTGTCCTGCATAATGTAAGCTAACATTGGCAAAATTGATGGGGGAATGCTTCAAGGAAAGAATTTCGTTTAACAAACAGTAGTATAATTTTRTGGAGAC
TGCAAATGATTCTTAAACTGGAGTGCTATCAAGGAGCCTGAATGCCTCCCCTCTAAATGTAGTATATCATGCAACAATATAATTTTTTAAATATTTGGAG
AGAAAAGATCACCTACCATCCCACTACTCTAACCCAACTATTTTTAGTTATTATTTTTTAGTTTTTGTTGCTTGTATACATTGTTTTAACCGTTACCATC
TTCAAATACATGCCATGTTGAATTTTGCGTTTTTTTCTTTAAAATAGTACAAATATTGCTCTATAGTTACACAGTTGTGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTTTTAAGACGGGATCTTACTCTGTCACCCAGGCTGGAGTATAATGGCATGATCCCAGCTCACTACAAACTTCTGCCTCCTG
GGCTCAAGTGATTCTCCCACCTCAGTCTCCCAAGTAGCTGGGACTACAGGTGCACACTATCACACCTGGCTAATTTTTTAATATTTTTGTAGAGGCAAAG
TCTTGCTGTGTTTCCCAGGCTGGTCTCGAGCTCCTGGGCTCAAGTGCTCTACCTGCCTCAGTCTCCCTAAGTGCTGGGATTACAGGCATGAGCTACCGTG
CCAGGCCTATACAGTCTTATTTTGAGGGCCACATAATAATATCATCATATAGAGATGTTCCTTAATTTACTAAATCATTTCTGTGTTACTGGATCTGCAG
AGATTGTGTCTGTATTTTGGCTGATACCATCAGATCTGTAATCAACTTTGAGTTATTAGCCACTTTTCTCCTAGTGACCAATTTCCTTGGGGTGTATGGA
AGTGAGATGCTTGGACAGAGGGAATGGAGCACCACCTTTATGGAACTTGTGCTGCCATGTTGCTTTGTGTAACACCACTAGCCACAAAGAAGGTTCATGG
TTTTAGGAAAGACTACTTTTTCAGCTGCTCCTACCAGTTCTGGGCTGGACACTTCCTGAGTTTCTCTCTAGAGAGAGGGCCTCACCCAACATCCCCTTGT
ATAGACTACTTACGGGAAGATTTTYTCAAGGAGAAAATATATCAGTCACAACTAAGTTCCCTACTCTTGTGAAGGAAAATATTCTACCCAATGGGCAAAG
GATATTCCACCCTGACCACAATGCTTTTATAAGCATAGGGTAGAGGAGTTCCTTCAACACGTAATTTATTTATTAATTACAAAGTAGATTTTTATCAAGG
GAGAGGGGTTCTGCTGAGATACCAGAATGGTTAAGAGCCTAGCTGTAGAGATGACTTCCAGCCCCTCCATTTACCTGCTGTGTGACTGCAGGCAAGGTAC
TTAACATTCCTTATCTGTAAAATCATCATCATATTCTTATTCCCATCTCATTGGGTTTTTGGGAGGATCTAATGTGATTCTTCATCTAAAGAGCTTACTA
CAGTGTTTGCACAGGCTAAGTACTCAGTAAGTCTTAGCTGTCAGTATTATATCACAACATACCATTTATTCCCCTATTCTTCAAGGTCCATGAATTGCTT
GACTACTATAGCTCTTGTTACTCTTGTTTTCCTTGAACTTCATTAGATCTAGGAGCTGTCGCTAGGGTTAACTGTAGGCTTGAGTTGAGCAATAGATTCT
TTTTTACAAGGATTTCCCCAACTGGAGTGTATGAAAAGGGGCTGTACTAGTTTTTTTTTGTTTTGTTTTTTGTTTTGTTTTTTTTTTGTTTGTTTGTTTG
TTTGTTTTGAGACAGAGTCTCACTCTGGGCTGTACTACTTCTTTGTCCTCTTAATGACTACTTTTTTTTTGAGGGGGTGGGTGGCGGCGGTACCTGTAGG
TTTAGGTTAATATTAAGCTTTCTCATTCTATCTTCTATGTCTCTTATCCTCACTTATTATCCTACTTTTTCTTTCTCTGTGCTTCATTTTAAGGATAATT
TCATCAGATATATCTTCCAGTTAACTAATTCTCTCATCAGCTATTTTAATGGTTCCTTTGATACATATTTTTTATATTTTAGACCTGCTTAATGTGTATT
TATATCTGTCTATCGTTCATAGTGTCTTGTTCTTTTCTCATTTTTATTCTCATTTTATTTTACTATTTAGGTCTTTATTTTTACAAATTGTGTCATGTAT
TCAGTAACTGTATTAAATCAAATTATTGGGGAAATTAGTTCTGTTTTTTATAACTGTTGGTTCTCTCCCATGGTAGATTGTATTCTTTCATGTTTTTATA
TTTTTGGAAGGTAATCTCGTTATCAGGAGGGCTTTCTCTGTGGGAAATTTATATGGCCTGATGTGAGTCATTACCTTCCAGAGTGGTTTTGCATTTGATT
CTCCTGGGGTGCTTCCAGCTCCAAACTGCTTATTTAATTCATTTAAAAATATTTTTTAAAAGATTTTAAACTTTCTGAAAAATGGCAAGTACAGTACACA
GAACCCTCCCCCCTACAACCACTTATTTGAGATTAAGTMACTGATATGATTCCCCTCATCCCTGAATGTCTAGACCCCTGTTGTATACAATCACTTTGCA
GCTTGAGAGTGGATTCCACTCAGGTGGAATCACTGACCACTAGTTATGTAATCTCAGGTCAGACTCCTCCAGCCGCACCTTCACTCCTACCCCCACCTTA
GAGACAGACCAGCTTTCTTGCATCTCTCTGTGCTGGTGGGTGGATTTTTCTCTTCCCTAGTTCACCTTTCATTGAGATTGTAGTCCCTCAAGAGGTCCAA
CTTTGGGAGGGAATCTAAGTTTCAACCCCGCACCTGTGGGTCATTTTTTGCTGTCTCTGCAAGAGTGTTGAAACCTAAGCTCCCTTAGGTTACCAAAACA
ATGGAAAAGGGCTGTGGCAAAATCACCTCACATGCTTACTGCTTACTCACTATGGATGTTAGCCATACTTTATCCAGAACTTCTGTGTGCTTTATGCTGT
AACACTGGAAGTCCTTCTTTGCTTTTTTCGGGGGAGACAGTTTCACTTTCGCCCAGGCTTGAGACTTGAGTACAGTGGCGCAGTCTTGGCTCTTCAGCCT
CGACCTCCCAGGCCCAGATGATATCCCCACCTCAGTCTCCTAAGTACTTGGGACCACAGGCTTGTGCCACCTCACCTGGCTACTTTTTGTTTAGCGAGAC
AGGGTTTTGCCATGATGCCCAAGCTGGTCGCTGGTCTTGAACTCCTGGGCTCTAGCAGTCTGCCCACCTCAATCTTCCAAAGTGCTGGGATTACAAGTGT
GAGCTGCCAAACCTGACCTTTTTTTTTTTTTTTTTTTAAAGACAGGGTTTCACTCTGTTACCCAGGCTGGAGTGCAGTGGCACCATCATAGCTCACTGCA
GCCTTGAACTCCTAGACTCAAACAAACCTCCTGCTTCAGCCTCATGAGTCACTGGGACTGTAGGTGTGTACCACCACACCCTGTTACTTTTTTAAAAATT
TTAGTTGAGATGAGGTCTTGCTATGTTACCCAGACTGGTCTCAAGCTCCTGGGCTCAAGCAGTCCTCCCATCTCAGCTTCCCAAAGTGCCAGGATTACAG
GGGTGAGCCACCACACCCGGCCAATCTTTGCTTCTTTATCTTGTTTTGGGGAAAGTATGATGGGACACCCTCCCAAATCCTGATTGCTTATTTAATCATT
CACTTCTAGAAACATTTATGAGCATCTCCTGTTATTCTGCCTGCTCTAGGTGCTCTGGGGAACTGAAGGGAACAAGCTCCCCCATCACAGTTCCTATTTA
AAGCTGCCAGCAGCCCTTTGTTGCCATGAGWAAAGGGCCACATCCTTGGCTCAGTTCACAATATTCTTTGAAAGATCTTTTTCTTTTTTACCACTTCCTT
GTACMCCAGTAATTTTAGTCTTCATAGCTTCTCCTCCCATACTTTGCCTGTGTTCCTCCCTCTTTCTTAAGATGTTTTTCTTTTCCTTTGATTCTTGGGG
GTCATTTACTCTTCAAAGATGGTGAAATGCCACCTTCTCCAGGACATTCTCCCTGACTCACCCAAGTAGGGCTTCTGGAACCCCTTTGCGTACATARTGA
TCATCGTGTGTTGACATTGTGGTTTACTTGTGATGCACCAGCACTGTCACCCGGCATGTTTCTAGAAGGGAAGGATTCACCCTTTCTCATGTTCATATTC
ATGGGTTGAGGATGAGGAGCAAACACATTATTTATTAGCACATAGTGAAGTGAATTGAAACAAAATGAAATATGTTGTGCGTGAATATCTGGTAACATTT
CAAGAATACAGTTATAGTTCCAAAAAAAGCTTAGATAACCATTGCTTGCTAGTATTGATCAAGAAAGGAGAGACAAAGTAGGCTTCCACAGTCAGAGGTG
TTGCTTGGGCCACTTTTCCTTCCAAGCACTATTGGTATCTAAGCAGGCAGAGGAAAGGGAGGATAAGTCCTGCTAGCCAAGTCAGCTGCCTGGCACGCAC
GACTGCCTTTGCTGACTGAGAGGACTTGGCTGGCCTGAGAGTCGTGTCCATCTGGACAGAGTGCTGGTGACCACAGGATCCTATATAGATCCCAGCAGCG
TTTTCTGACAGGTCAACCATGGAAGGACCAGGTGAAATGAAACATCAGCACTTTTCTCTCTCCATTTCCAATCCTATTTAGGAGCCTCCGTTGTTTAGCT
AGCATTCTTGATTTGATTTGCCTTTAGGTTAAGCCCATCTCTGATGTTCTGAAATTTCATTCTCTTCTCCTTATCTGGAGGTAGCACTCAAGAAAGACAT
GTGTGTTGTGTCTCTCTGTTGACCTCCACACCATGTCCTGTCCATCATATTTAGGAATCCTCTGCCTTTTCCAGTTGTGGTTTTTTCCTCCTCACTAGTT
TTAACAGGGGCTARAACCTAAGTTGTCAGTGTGTGCACCACAGAGGTCTGTGGCAAGAAGAATGTGTGTGAGTCATTGGCCTGTCATTATTGTCTAYGTT
ACTTTAGACACACTGAACTGCTCTGAACCTCGGTTTCCTCATCTGTGAAATATGCCCACTTTTCAAGGCAAATTTGTTGTAAAACAGATGTAAAGTGTCC
CTCTGTGCATAGTTGGTAGAAGGCRCTGGAAGTTGTTATTGTGGAATGCATATAGCATGGTGAATAAGCCCTAGGATGTAGAGCAAGACATTGCTGAGCT
TGATTCCCTGATCTTGCTACTTAATAGCTCTGTGGCCTGCAGAGGTTAATAATACTCACTTCATAGGGTTTTTAGGCTTAAATAAAATAACAGAGAGAAC
CATTTCAGTTAGGCTCCCTAAGTGAGCAAAGGCTCATTTAAACTTACTCAAAAGTGGTGGTTGGTGGGGGATTAATTCCAGCCACCTCCTGGTGTCTCTC
AAGGATGTCTTCTTTTTTGTATTTATGTTTTGTTCTCTTCACACTCATGCTGTACCCAGACTTGCCTTTGCTTGTTGCATCTTTTTTCTACACCTAGTTG
TAGTTTGTGTTCCTTCAGTAAAATTTGTGCATGGCCCATCATGGTCTCTTCTCTGTCAAATTCTCTTCTCTAGTTCAAATTCCTGASAGGGTGGGATCTG
ACTGGCCCAGCTCATCTTTTTTTCCTCCAGCCACATCTTGGGTTGCTGGGAAGCCTTTGGGTCATGCTACCTTCCCTGGTTCAGTTAGCTATAGCTAGGA
GAAAAGTGTGGCCCTTTGGTCCAGAACCTGGCCACCTGATCTCTGAATTTGGGCATTTTGAAGGTAAGTTTTGTGATCAACACACGTAATCAGACACTAT
ATGCCAAGTCAAAGGGAGCTATTCATATTAGTAAATTCATAYTCGTATTAGTAAAAATCAGGTATTTCTGGGGATGGATCTTTTTCTGTTTCCATGTTGT
ACAAAAGCAGAAATATTCTCAACGTAAGGGGTTAAGGGTAACTTTTGATTTGAGGAGTGATTTCTCTCTTGGTCCAGGGCAGATCTTTGGTTGGAATGTT
GCAGACCCTGGTGCAATGAGTCAAAACTTCCACTGGTTTGCATTTTTCATTAGCGCGTCATTCAAGGAAATCCTGTCTTTAGGGTCATGGAACAGGCTTT
TGTGTTTATGCTTCTGCTGAAGTAAAAAATGTGAAGCATTTAATAATGCATCTGAAAATAAACTTGTATTTGAGGTCTGCTCTCTTAGAGCTTTTGGGGG
GAATTTTCAATGGAGCCTATTTTATAAATATTTTCAAAATTCTGTTATACCCTTTATCCCAACATGGATCATGGAAAGTAAGGGGTTYTTTTAGTCTAAA
TATTAGTTAAAGACATTTGAGGAGCTAGGAATTCCAGTTAACATTCAAAGGCTACTTTCTTCATACTTGATAATTATTTTCTACCTCAAGCATTCACTTG
AGGAGAGAGTAGTGAATAAACCTTCTGTYTAACCTATCTGAAATTCCACAGGTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTTTTT
TTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCATCCCCCGAGTTCAAG
CTATTGTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCTCCTGCCACCGTGCCCGGCTAGTTTTTGTATTTTTAGTAGAGACAGGGTTTCATGAT
CTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCACTTTGGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCAGCCGGTA
CTCCCTTTTTTAATAGCACTGGAAACATGAAGACAATGTATAAAATACATTTTTTCCCTCATATGCTGGTTGTTAGCAAGTGAAAAAAGTATTCATAGTT
TGTATTCTCCATATATTTATATATTGTCTAGCAGTTAAGTTTTATACCTGTTTACCATATTCCTTTTGTTCATTCTGTTTATTATATATATATGATATGT
AGGAATTGTGAAGTAGCTTGGGGAGAGGTTCAACTGTCAGTAGTCATAGAACTAAGAACAAAAACTAACATAGGGAGGGAGGGAGATCCCTTGACTATAA
TCCTAACTCCTTCAGAATCTCTCCGCCCCAGGTCCCTTGCCCCCCTCCACACAGGCTTCCATGTAGGCACTCACACTATTTGCATGAACTCTCAAGATTG
TATTGTGTATCAGAGTTCTTACTCTCTGTTGACTATATGATTGCCTCAGGGTACTTCCACCTGAGGAGTTATCAGCCTCTAATTTAGATGGGCCAGAGTG
TGTGTTAGGTATCTCTTGTATGAGGTCTTCCTGGTCATCTTTACTCACAATCAAAGATGCCCTGGGTTTCCCTAAGCCTACCCCAAGCCACTTGCTCACT
CATCACCCCATTCCCGTATTTTCCGAGCCTCCCACCACCCTACATCTCCCTTCTAGTCCTTTTCAAACCTACCCCCTGGAAGTAGAGTTGGAATTTATTG
GGTGGTTAAGTCATCACATTAGGTGCAAGTAGCATATAGGCAGAAATGCCCTTGAAAGTTGCTTAGGAAGATTCCATGATGGAGGCTTACATATCTGGGT
GCTTTTCCCTTCAGAACATTATTTATTCATTTGAGCACCAAAGTAACTGGCCTGTGTTTAGGGGCTATGATGTCATGTGTACACATACATCGCCATACAC
ACATATATTTAAACTGGAATCACTTTCAGAGTAGTGGGATCCTTGGAATATGAGAGAGCATGCAGGAGCTGAGGGGCCAGCAGATTCCTTAATCATCTTT
CACAGTCTCACTGGCATGGCTTCCTCACAGTGGGGTCTGTGACTAGTAATTGACCTCTCCCCACAGACGTTTTTTGAGAATATATAATTGAATAAATGTG
GACTGCATCTCTGCGTAAAGTTGATTGAGGAATGAAAGACCCTGGGAGACTTTGAAATTTCCTGGAAATACAGTGTTTTATCTTGAGGGGGGGAAAAGCA
AATTTGGTTTTATGCACCACAATATAGTTTATGTCTGTTTTAATATAAAACTTCTTTCTCCCAAAAATCTTCAGTGCCTGTGTTCATCCCGTGGCTGGAT
GTGCCCTGGTATTCCTTTGTTTATACTGTAGTGTACTGGCTGGAGAGCGCAAGTGGTTCGGCACATAGAGACAGACCCTGGGGATCCCTTCAGAGGCCAA
ATTGATCCATGCTTTTGAGGCTCATCCACCAAGTATCTGAGCTGAGGGACTTACTTGCTAGCCTGGGCCAGTGCTCCCCACAGTCTGAAATTCCAGTTAC
ATCTCAATAGAGGGAGAAGCCACAGGAGTGGGAGCCACACCCAGATTTAGTCCTGGTGCTAACCCGTCCAAGTTATGTGAACTTAGGCAAGTCATTGAAC
CTCTCAGGATTTCAGGTTTTGCTTTTTTATTATTTTTAATATGGCAATTAGAATATGTTACCTCTAAGGTCTTACCAGCTCTGTTAGTCAGTAAGATGGG
ATGAGCTTTTGGCTGTTAAGAGAAAAGTGGCTAAAACATTGTTAGCATGGAGGCTGAACTGCAGTGAGTATAAGAGAAGAGAATGGCACAGAGCTCATTT
ATGGTCTAGTAGCCCAACAATCAGAGTGCACAGTGATTTGATTGGAAGAGACTGTGATGGTATAGAATACACCCCTGTTGTGAATACTCTCTCAGGTTTT
ACTCAGATCTATTAGTTCATTATTATACACCTTACATTGTAAAGATCTTATACTGTCACAGAAATAACAAGAAACATTGGGAATAACTACTGAATGGAAA
GAAAAACATAGATTCTTAATGGGTTTTTTCCCATAACTGGACAATGTATAAATGAACAACATTGTCCTTTTTTGTTCTTTTCAAAAAGAATAGGAAGTTA
ACATATTCTTTATCCATTTTCCCTAAAGTTTTTGGAAGAGAGAAGAGTCACTTGGCAAGGAATTTTAAAATAATTTTCGGTGCTGCCTATGACTGATAGA
TAAATGCACTTAATTTGAAAGCCTTAGTATTTATTTATCCTCATGAGCATTATCCACAAAGGTACAGTTTGCTTGTCTTAGAACTCTTGGCCTGTATGTG
TGAAGTTCATTGAATTAAAATCTAACCTTTTATACTTTCTTTCTCAAGTGAAGACATTGTAGAATTGCACACACTGTCGCCCCTTCCTGTCCATTATAAG
CAACTAAAATGTTTGGAAGTCATGTGAGGCAGTGGGGCATAGCTAATTAGTCAGCTAGCATGACAAGATAATGATGGTTCATTAGGTTGGGTTTTAAAGA
ACAGCATTTCTAATTTATGCCAATTTTACTTGAAATTTTTGTACAGTCATAACCAGCCCACAAAGGGCACTTGTTGGATCAGAGCCCTGCTTTTTTTGTT
GTTTTGTTTTGTCCATCTACAAACTTCAAAGTCAGCAGGAGAGACCTTGCATCCAGGGTGATTTCAGTGTAGTCTCACAAAAGAGGCCTGGCAAGGGTTT
AAAGTGAATTTTAAGCATTTTAGCATCCACTTTGAGGTTTTCTTTTCATAGAAGGAACTCGTGAGAAATAACTTGTTATTAGCTAAAATAAAAGRGGACA
GATTTAAAAGGAGTAGAAAATAGAAGATTGTTTAAAGCTTGTTGGGAGCAAATAAAGATTTTGGGGAAAATCCCAAGGGAAATTCTCTGATATTTAGAAA
TCCCAAAGCACAGAGGAAGAAAATTCAGCCCATCTTAGTGAGTGAGTCATCACTTTATTTTCTGAAATAGAGGCAGATTGTTATTTCTCAAATCAGCTCA
GGTCATGAATTTTGTGAACCGTACTCTGTGGGGAGATTTTTTTTTTCTTTAAAGAGTTCTCTTCTTACCCCCAGCCATCAAAAAATTAAAATACCATAAG
CAAATGGACACATGCTCCTCTGGAATTTATTTTTGGAATCRATGGGGCAAATAGGGAAAAGGCCTTCCTACCACTTGCCCCAAAATTGGGGAGGAGAGGA
GTAGGGAAGGCATAAGAAACATGGGAATCGAAACAAGGACATTTCCAGTTTTGCAGGGAAGAAATCAGCAAATCAGTCAACCACCACGTATGTTATCTAT
TTACTGTAAGAACCCAAAACCATTCCATTTGGAGTATAAGAGATGTGTGAGAGACAGTCATAATTTCATGGAGATACAGTCTCAGAACTGATAAGTACTA
TTTGTTGAGCACCTACTATGTACCAAGCACTTGCTCCATCTTTGAACCTCCCATTCACCCTGTAAAATAGTGGGATGAAGATCCTCAATCCCAAAGGGAG
TAGGAGACATACCCAACTCACAGAGCCCTTCCGAGGTAGAGCCTGAATGCAGACCAAGTTATCTGGGCTCTCGTCTCTGTTGTTTCCACTACACTTACAT
GAAACAACTGGAAAGTAATGAAGGATACACTCAGTGTTTTAAAACATCCGTGGGACTTAAGGGTGGAGGAAGTTTAGTGAATTATCAGGGTGGTCTGTGA
CAGCTTCACAGCTAGAGTGTACATTTAACTTCTTCAAAAGAAGGCAAGGGTGAAGGTGGCTGTGTTAAATATGCCAGGGCAATGGGTGTAAACAGGGACT
GTCCTTGACAAACCATCCTGGGTCACGTGCAGAATTCTTGGAGGAGGTAGACTGCAGGGGATGGGCTGGTTGACGATTGACTTTTCTCCTCAAGCATCTA
AACGTGCCCTAACGTCTTCCATTATGGAGCTGGGGCCAGGTGTCAGCAAACTGGTTCAGTGGCAGCTGGAGAACCTAAAAAGGCATTGTGGGCCTCTGTA
GGCCCACTGACTGTTGTTGCTGGAAAAAGGTGAGTTCAGATCAACCAGGGCCTTCTATAGGAAAAGCTGATCTTTTAAATTTTTATTTTAAATATCCCAA
GTTTTGAAATGTTTGTACACTAATACACAAATTTACAAAAGATATTATACAGGCCATGTAAAACACCCATGGCAGGTTGAATTTGGATTTGGGGCCCCAC
ATTTGCAATCTCTTCTTTAACAGATTTGCTAGAATATTGTGGTTCAAGTGCATATAACTAACATGTTACATGGAGAACTACTTCTGAGATTAGTAGGCAC
TTCTAAAAAATAATGGGGGGGGGGTGCTCTTGAGTCCAAATCAGTTTAGAAAATATTGTGTTAAAGAAACATTTTTTAAAAAACAGAAATGTAATGAATT
TTAGTATATTAATGCTTTTTGAATTTTCGAAAGGAGATACAGCTTGGAGTATTTCCCAAATTTACCGACTRTAGATCCCTTTTTTTCGCAACAGCATTAA
TTGGGCTAGTTGGGCACAGATTTTGAGAAATACTGATCTCAATGAATATTACTCAAATTTAAGTATTTTCTAAATATGTCAAAATTTCTAAATCCTGTTT
TTTTTAACCAGACCTATAAAACAGAAGCTTATGAAGTGAAATATTCTTTATGAAGTACTGTGCCTAATACCAGATCCTCCAGAGTAGTGCTTTGTGAAAC
ATTAGCCAAACTATGTAAATAAATGTAGTTGGATTGTGACTGGTTTTGAACTACTTGTTTGTTCTTAGTGGACCTTGTCATTGGATATTGGGGGAACTGC
TTGCTCATTTTTGAGAAGTAGAGTAATTTGGTGAATCTCTGGGTTGTGTAGATAGTAAAATGTTGCTTGACATTCTATTAAGTAGTACCATAATGACTGG
ATTGTATTTTTAAAGAAATAAAAGATTTACTTGGGGGTGTATATTATAGTTACTGCTCTGGGCCCACACAGGCTCCAAAGACATACCCTCTAAATATGTG
ACTTTACTGTATTATCAGCGTGGACATTTGGAAAACAGTTAYATTAGTTTTTATAAAATTATGGGTTATAAGAAGGTACATTGATATAGTGTGGGAAATT
TTAAAAAAGGGAAGAAATGATGCTTCTTTACCACCTTTAGCACTCCAGCTCCATTTTTTAAATGTTGGGATTGGAAATGGAAACACACTTCTTAAATCAT
CGATATCCCTTTAATTTTACTCCCAGCGGTATATTAAATAAAACTTTCAAAGGAAATTTGTCCCCTCCCTTTATAGTATAACTCAATCCACAAAATGTAA
TTTAATAAAAGCTTATATATATATAAGGATATATATATATATATATATATATATATATATATATATATATAWGAATGTGTATATTCAGGAAGAAGATTTT
GAATTTTCTTTATCCTTCCTGACTTCAAGCTATATTTTTCTTTAAATATGTTCTAAAATTTACTACATACTTAGCTTCTAAGTGAATACATTTTTGCCCT
GGAAATTTTATCTCCAAGGCAAAAATACTAGAGGGAAGCATTCGTGTTTTAAAATATTTTGTATCTAGCCACCTAATAAGTGGGATTGAGGTAACCTATC
ACAGTCCCCAAGGTCAAGATTATCTCTGTATTTCTCAACTCTTGAATATTGTGCCAAATGAATGAATTCAGAGTGGTGATGGAAGTTCCCCCACCGCCCC
CCACCCCCCAGATCCTCTGCAGATGTATTCCCCGTTCAAGTAAGCTTGGTATACCAGAAGTCTGAATGTATGAGCTAGGGACAAGGGAGACTGACCATTT
GCTTTACAAAAGTACTCATTCTCCTAAAACAAAAAACCTGAGGAAAACATCTCTGAAGTGTTAGTGTGCATCTTCAAGGAAAAAGGTTTAATTTATAGAA
AACTTCATCAACTCTTGCGAACAGGAAGATTTATGTTTACGGAAACAATACCTAGTGGAACATAATGTTCATTAGTGCTTCAGGGCAAAGGTTGGTACCT
CATCCCTGTCTTCCTCAAGTTAATATTGAATCGTTAGGTCCCTGGGTCTGTGAACATTCTCTCACTCTCTTCCTAATAAGATATTCTGTCTGAATTGGCC
GTCCTGAGGGAGCTTTGTTTGAAAGGGTGCATGTTAAGAACCAGCTGTTCTGTGTGTGTGGGAGGAGTGGGTGTTGGGAGCAGGGGTCCATATTAGCCAT
TGGACCCTTTTAAGATACCTTCACTTTGAGTTAACCATATCCTAAATTGCACTCACATGTAATTTGCAAGAGGATTAGTTAGATTTTTGTGACATTTCTG
GTATGTGACCATCTTTTTAGAAGTCAAAAACTTAAGCAAGACTTTTTGTCAGTGTTGCGACTTAGGGACATAAATTATTAGTATCTGAAAAAATACTATT
CGTGTTTGCTGATAATTCATAATCATATTTTTAAACACACACAACTTAAAATTATTTTTCATAAAAGCAACTTTTTGTTATTTGACATTCATCCTGAAAA
TTAGGCTTTTATAATCAGTACCATTAATGAAAGTGGAAAAACTGACCATTAAGCTAATTTTTGACAGGAGTGAATAGGAGACAGATGATCTATCAGAGTG
ATACAATGCTATGCAACTGCTGAAGTAGCCATGCACATGCAGGAAAAAAAATATGCAAAGGTTATTTGCAGTTTAATATTAAGTGAAAAAAGCAGAATAC
AGGTTGCACATAAAACATTTATTAGGTACRTAGAGAAAATGTACATGAACAAGTTAGGAAGCCAACAAAAAAGAAAATAGCGTTTTAGAGTGGTAGAGTT
CTGGCTAAAGTTTAAGCTTTTTGTCTTTAGTTTGCTGGGTATTGTGTTCAAAACAAAAAGGAACTTGTCTTGGAGTTTTTCTTTTTGCCAGTACCAGGTG
TCCTAAGTGCCTTGTGATAAGTAGGAAACAGACTTAGGGGTGAAATATATATATTTTTATTTGCTTTTAGCAATATAAATATCTTTAAGATTATGGGAGA
TCTGTGAACAGAATAATTTTTTAAAAACTGAATTTTGATTTGGGAGATGACTTTCGAGACATTTATTACTTATGTGGAAAGTCACTTAGTCTCTCTAGAG
AGCCTTAATTTTCCCAGAAAGGGAAGATGGGGATAATATTTTGGCAGTTGGGGAAATCAGAAGCACAGTGGTAAAAATGGCAAGATATAAGGTATTATTT
TGTTTTTGAATAATGGTAATATCATTTGATGCCATCCTGTGTTCTAAGTTTAAAGTTGTTAGATTGGTTKTTGCTACTTAAGAAAAACTCATTCAGAGAG
TTAGGAAGGAAAAACCAATAGCTTGAAAACCTGTGTACCATTTTAAGAGTTACTTGATGTTTGGTAACTTCTCTTTACAAATTGAAGCCTTAGATAAAAG
TACTGATTTAGCTAAAAAGTCCTTGATTTAGCACTGTTTACATAAGGGTCATAATTTACAGACTATTTGCTGAAAGGGGACCTTTTGAGTTGAATTTTAT
TATTTTTATTTTGTTTAATGTCTGGTGCTTTTTATCTTCTAATCTTTTAATGTATTTGTTTGCAATTTTGGGGTAAAACTTTTTTATCAGTACTTTTTCT
TTGAAGTTTTAACTATAAATTTGCCTTTTTAATGAATGTGTGAAGTTATACTGTGGTTCATGCCGCAGCTATCATTTATGCAAGTCTTACTTTGAATTAG
TACCATAACAGACCACTGTATGATTACTTCTCACCATTTGAGTTTCCCTTCTTGTTTTATACTAGTCACATTCTTGTTTTAAGTGCCGTGAATTTTAACA
ATGCACTTTTTACAATGCTCTTTCCTGAATTTATTAATTAAATAAAAGCATCTAAAATATATTTAAAAAGAAAAACCCACTGGAATCCTTGGCAGTGGCC
TTTAAACATCAGGCAGTGTTGTTGCTGTCTCTTTGTACAGACAATAGATAGCTCCTGCGCTGCATTTTTGTCACATTTTACTCCACCTTTCCTGTAATGC
TTATAAGCATGGATGGCAGTCAGTAAATACATGTTGAATTATTCTGTATGTATAGGACCAAGACGTTTTATTGTCATAGGTTTTTTTTGGAGATGAAGTT
TCACTCTTGTTGCCCAAACTGGAGTGCAATGGTGTGACCTCAGCTCACCGAAAGCTCCACCTCCTGGGTTCAAGCGATTCTCATGGCTCAGCCTCCTGAG
TAGCTGGGATTACAGGCTCCCACCGCCACGGCTGGCTAATTTTTATATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTCGTCATTGTCATAA
TTTTTTACCAGAAATATTTAAGAAAAAGTAAAATCTTAACTTCCTTAATAGCAGTGGTGCCCAAACTTTTGTACATCTCATTTGTAAAGCTTTTTGAGCG
TGCATTTCGTCTTCATCTATATACATGTACATACATACCTATTTTCTGTTCTAATGCCATATAATTATACAAAATAAAAATGGCAGACGGAAGTTACAGT
ATTTTTCTTCCCACACCACAGTAGACCGACTTGTGTGCTGTCTTCTAGGAGATCACTAATCTAAAGAGCTTGTTCAATGGAAGGCTTTGTATCTACATCT
CCCTTTTCTTTTCCTTCTATAGTAGCACCACCATTCACATAAAATTTGTTCTTGCTAACTATGTATCTGTTGGGAACTTTGGGGAAAAAAATCAAAGCGT
ATGCATCTGCAAATTCTAGCTAACATTTATTGAGGGTTTGCTCTCTTCCAAGTACCATTCTAAGGCACTTTATATGGATTTCTTCACTTAATCCTTATAA
CTCTATGAGATTAATTACTATAAATTTCCCTGTTTTATAGAGGGAGGAAACTGAGGCACAGCCSGGTTAAGTTTCTGGCCCAGGTCATGTAAGTAGTGGA
GCTAGGATTTGACCACAGGCGGTTTGGCTCTAGATTTTGTGTTCCAAACCATGTTATTTAAATTCCAGCATCTRGTTGGTAGCTATGTGATTCTCCATCT
CAGACAAAAATTGTGTAACTAAGCCTGAATGACTGTGAGCCATGCATAGCATATTTTGAATCATTTAGGTCAAGACCCAGACAAATAGGTTTATTAGGAC
ATTATAGGATCTTAGAACTGGTGGGAAGCTAAAAGGCTYGGTGGTTTCCAAACTGTTCCAATCTGTTGTCTTTTGAAGTAGGATCCTGTAAGTTCTTACT
GTCCTGAAAAGATGTGACTCAGGAAACTTCTTTCCAGTCTGGGTTTTAATTCTTTTAAGGAACTCTCACTGTGTTGTAACATGGAAGTGGTGTTTTCATG
AGTATTTTTTTGGTCTTTAAATACCTTGTTGTACCTRTAATTATTATTTTCCCAAGAATGGGACTGAAATTGCATCAAGATGAACAAGCCATGGTGCTTG
TGGGTGGGTGTGCTAACTCCGAACTTTAAAACTACAACAGAAATTAGAGGTTCACAAGGTAATTGCTGTGATTACAGTTTTCTTTTGGGCCCCAGACAGG
AGCTCTTGAAACACAATATTCTACTAATTTTTTAAATGTACAGTTCACAAGGCAACATGGAGATTACTGAGAGTATGTACCATTTCTGCCTTGTTTTCTA
TGAAAGTTAACATATTGTTGGGTCCTTTGAAATTGCTCAGGAAAAAGCAGGCATTGCATGTATTATAAGACACTGTTAAGAGGATTAAAAATATTTTAAG
TACTGAATCAATCTTTTAATATTGTATAAGGAAATTATTTTAAAAGAAAAAATTTTCTTAATTACAACATAGCACAGCTGTTAAACATCTGTAGGTACCT
CTCTGCACTTTACAGTTCTAGATAATTTACATTATTATAATACATGTAACTTGATGTTCTAAATTATGATATTTTATGATATCTGCACATATGTATTAGA
CAATAAATGATAGACCTTTGTCCATTCTAATTTGTTCCATACATAATTTTTAGTAACCATAGAGTCCTTCCTATTTCTATTTTATTTTAGTTTACCATTT
TACTGTTGTTGGATTTAGGTTACTTCTAACTTTCTATAAAACACTGCTAATGATGATTTAGAACATTTGATAATACACATCCTTTATTATTGAGGAAATG
GCAACAGTTGTTTTGAAAGGAATTATCAGGACTGGATTTACTATGTCAAATGTAAGGGTGGTTTTGTGACTTGAAATATAATTTGTCTTCTGTATGGTTT
GTGGCCATTTCTCCAAAGCCTCTCCATTCACCAAATTTCTTTTTTCTATTTCTTACAGCTTTAGAAGGATAAAAAATGCATTTTATTATTGTTCCATGTG
GAATTTTAAACTTATCAGTGCAAYTGAAATTACTTGCATATGTTTGCTATTTTCGGTTTCTTGTGTTAATGTTTTTTGTCCCTCTGTTCTTCTGGGTCTT
TATAGCAGCAACATAAGAATTCTACATCCTAAGTATGTATTAGAGATGTCAACTTCGATATGTCTAATGCATGATTTTTGTTGTATTTTTCCCTCTTAGT
TCTTTTGTCTTGGTTTTGTTTGTTCTATAAAAATTGATTACAATTATTTATCTTTTTGCTGATAGTATCTGTTGTTGACATCAGAAAATTGTCAGACCTC
TTTAGCTGATGTACATAGTATATTTTTTTGAGGCCTAACTTTGTTCAGTTTTTTAAAATTAATTTATTATTTATGTATTTATTTATTTATTTTAAGACAG
AGTCTCACTCTATCGCCCAGGCTTGAGAGCAGTGGCTCTACCTCATCTCACTTCAGCCTCCTCCCCCCAGGTTCAAGCACTTCTCCTGCCTCAGCCTCCC
GACTAGCTGGGATTACAAGTGCCCATCACCACATCGGGCTAATTTTTGTATTTTTAGTAGAAATGCGGTTTCGCTATGTTGGCCAGGCTGGTCTTGAACT
CCTGACCTCAAGTGATCCACCTACCTCAGCCTCCCAGAGAGCTGAGATTATAGGCGTGAGCCATCACGCCTGGCCCATTTTAAAAAATTTAGTGTTCTAT
ATTGGTGTTCCAAAAAACATTGTTCTGCAGGTGTGCAAAAATAAAAACAAAACTAGGTATTCTGATTGTAATTAGTTATTTAATTATTTACTTTATCTTT
GTTGGGAATTGTTGGAGTATAGAGTTAAACATGTTTCTTTAAAACATTCCAGTCTTTGATAGCCTGACGTGCATTCAGTATCTCCAGGAAAAAGATATCG
TTAGAATGTAGTATTTTCCAAATTTACCATTTTACAAATGGTAAACAGATTAATTGTTTTCTCCAGAATACTTTCCAGCATCTCTCAGAAACAGTTTTCT
ACAAATCACAGGGTAGGAACTGCTGGTTTAATTCATTTGGATTTTTTTTTAACTCCATCAGTTTTTTTTATGAGAAGCAATTCTTCAGTTTTAGTAATCA
TCTTTATGCAAATGTATAGCCCGGGCTTCTTGGTCTCCTCTGCCAAATTAGGTCTTTCTCTCCTTATTAAAAAATAAAACAAAACAAAACCCACAATGAC
CAGATCTGTGGTTGGCAGCTCTGAGGTTTGTTTTGATGAATAAACAATTGGGTCTAAACTCATAATTGAAGTGGAGAAGTCACCAATGGCTTACCACTTG
TATTCCCTTCAAACTTCTGTTCTCAGAAACTAGGAACATGAAGCAACTATAGTAAGCTTAGCATGCGCCATACTTGGACGTGACAAAAAGTAGAATAAAA
CATGTTTTTTAGTTGGAGAAGCAGTCAGACATGGCAGAAAGCACAGACTTTGGAGTTAAGCTTTCCAGGGTTAAAATCCTGATTTTTCCRTTTACTAGTT
TTTTGGCCCTGGATCCCTACTTTCTGACTTAATTTCTTCATCTCCAAAAAGGCATTATTAATGCATGTCTTCTTAGATTGATGAAGTCTTTGAGTAGTAA
ATTCAAGGTAGACTTTTCAGAATATCTCTTGGAGGTCAGAGGATGCAAAATAGGGACACCGAAATGGCTGGAATTAGAATCTGAGCCTGACACTATGGCC
TATCTTTTTAATTGCATGGAAATCTTGAATATCAGATACTTTCCCAAATATATTTCCATGTTGATGCTATTTGTGTTACTTTTTTTTAAATTAAAATTTC
TTTCATTTAAAAGGAAATCTAGCATGCTAAGAGAGAAGAATAATGTTCCTAGGATTTGAAAATACGTGATTTTCAGAAATCAGAGCCAGAAGAGACTGCA
GATTGGTGTAGTCTTGCACATTTGCAGGTCAGGAAGCTGAGAACCAGAGACATCTGAGGGGCAGTCAAATTTAGATGGTAGGTTCCAGTTTCTGTACACT
GGGCACATCTAGATCTTCTCCTACACCCTGGGGTGCAGGGCCAGCAAGATGGCTCTACAACTGGGAGGAARTAATATATAAATAAACACATACATATGTG
TGTCTGGTATCTTAAAAGATTAATAACTGTTCTTTGTCAAGATAAAAATGTGAGGAAAATGTCATTATAACCTGGCAGGTGCTCTCATAGCACTAGTGAA
TGAAGAGAGATTATTTCTTAATTGGGGAAGGGGGGCAGTGAAACTTTCTTATTGGGTGATAAAACCCAATCTGAAAGGTTGAACAAGAGTTTGTAAAATT
GTTAAGAAGATGATGGARAAAATGGTGAGAGGCAGAAGTATTGTTCAGAAAAGAGAAAATTTTAGCTACTAGAATTAGCATCTCCAGAGTCATAAAGGCC
AGAAAGGAGCCTGGCRTGTTAGGACATCATGAACTTGGAGAACCAGGAATATAAAGTGGACAGTCACAGTGACAAGGGTGGGTTGGCTGCAAAGGCGAGT
CTGTGAAAGTAGATTGAGGTGAGGCAGAGAAGGGCTTTATGAGCCATGGTTGGGGGTTCCACTTGATTCTGTTTTAAAGTCAGAGRGTGGCATGACTAGA
CATATTTARAAACACTCTGCAATGGTGCGGAAGATGGATGGGTGGAGGATGAACTGCTAGAGGCTGTGGAAGTACCTGGCTGGGGCATGATTAAGTCCTA
AAGTAAGACAGGAGCCCTTGGAATGGGTTTCAGTAATGCTGCAGAATAACCTGACATAGAGGCACACACTTGTAGTCCCAGCTGCTCTGGAAGCTGAGGC
AGGAGGATCCCTTGAGCCCAAGGGTTCGAATCTAGCCTATTAACATAGTGAGACCCCTGTTTCTAAAAAATAGAAAGCAACAAAAAAGAAATGCTGCTGA
GATTGAATTGGCAGAATTTTGTGGCCTCTTGGGAAAAGGGTTAAACAAGAGGAATGTGACTTTGGTGTCCGGGTGAACATCTTTGTGCCATCACTGTGGT
ACTAAATAGACATGGAGGAGGAAGAGAAGATTTGGAGGAAGCCTTGAGTTTGGGGTGTGGTCCCAGAGGAGGAAGTGGATTGAACCACAACAGAAATACT
TCAGATAAGTGTTGTGATGTAATACCCAGCTTGTCTCCTCCCTTTCCAGTCTTGCCCCTTTACCTTCCATTTCCACCACAACAGCCAGAGTCATTTTTCT
CAAGGTCAGAGCTAATCACGTCTTTGTTCTAAAACCCTAGAGGCTCCATCTTGGCCAAACTACGGCCTCCAGAATACAATCCAGTCTCCTTACCATGGCC
CTTTCCTCCCTGTGTGATGGGTCCCAGTGTATCTCTTCATCCCTCCTGTGGCCACTTGTTTCAGGCATCTGATCTCCCTGATGCTTCTTAACAACAAGGG
CCTGTTTTCTCAGAATGTTGGCATGCACGTGGTTGTTCTCTGTCTACTCCACCTTGAAGAAGAGAACATTCTTGTCTTCACCAGGTATCCCCACACCTAG
AACAGACTTGATGCCTGGAGGTACAGGTCTTTGTAGATGTAGGAGCCGTATCTGCCTGTTCATTCCGCACTCCCCCCTCCAACCCCCCCGGCACCCGCCA
CATTCCTCAGCACAGACTGAATGCTTGAGTGACCTCTCAATGGGCCAGAGTTAGGATTAGAAATACCAGGTAGATAAACTATTCCTCTTTGATAAGTAAG
CTCCTATTTTCTTTCCTGATGCCACAGATAGGCCCACTAATTCTTTTCAAGGATTTTTCTACCAATCAGTCACTCTCAGTGGTGTTTTTCAGTAAGTCAC
CAGTATTTTAAAGGGCACCTGGAAGCTTTCACAAGCCTGTGCATCTCCACGTGGTGTTGTGGTTGGTTATTTATATTAAGCCTATTTTCTGTRTGCAGGT
ACACATGCCAGCGATCAGTTTTAGTGAAAATGATGCTCATTGTCAAGACTAGTTTTCAATTTGTGAAGTCCACAAAAGCTGTGGTTCCCAGGGTGTGCCT
GAAGCTAAGTGGAAAGCCCCTCTGTGGTTTTAACTGACACTCACTATGCTGAGCAAAGTATTTAGCAGATAGACCTATGTGAAATGGCTGATGTGCAGCT
CACGTCTGACCTGCTTGGGTGGCACAACCCCAGTGACCTGCAAGTTGACTCCTTCCCACTTTGCTTTTTATCTCAACTACTCTTTAGCTGTTTTACATAG
AGCCTSCTGGAATGGGAAGAAAAAGGTCTTTGAAACTGATTGTCTAGTGGCCTGATGACTGAATCCTTGTTGTTGTTTTTTTTTAAGGGTCCTCCATCTT
TTGAACCCCATTGTGTCAGGTTGAAGGGTTGGAGWGCAACATGGTTATGAATATAGACCTTGAGATCAGGAAGACCTGCTTTGGAATCCTGGCTCTCTTA
TTAGCTGCATATCTTAGGGCCATKCTGATGTTCAATTTTCTTATCTGTCAAACATAGGTAATAGAAACCTTCTTATAAGTTACTGTGTTGATTATATAAG
ATGATATAAGATTAATGGCAATGTCACATTGTCATTTTATCATCATCAATACTGGGGAGAAAAGAGACAAGAATGAACCAAAATCAGACTCTGAGGMCCA
TTGGGGAAAGGAGGAAAAGAAGCAAACACATGTCTGTGCCAGGTATTATATGAGAAAGGTGTTAACAGTACCTTTAGTATCAGAGAGAGTGACTAACTTG
ACCAGGGTCACACAGTCAGTGTGTGGTAGCCAAGCAGTGACACAGGTCTCTATGACCTCAAAGCTTGTGTTTGTAGCCGTGGCTTTACACCTCTCAAGAT
GGTAGCTTGCCGCGTGATAGGCTATGTTTCTTCCAAGAGGCAAAGGTTGGACCTCTTAACAAATGGTAGTTGATTTCTGGAACATTAATGGTCACTTAGA
ACTGTGGGTACTCATAKTAACTTAGTGCCAGATGGTGTGGGACCATCAAGGATTCTACTGATTAGGTGCAGAGAATGAGCATCCCAGAGAAAAGCAAAAC
TTAGCTTAGCCCTCAGAGGTGGGTTGAGTTCTCTTTACAGAATGTATGGAATGGCTGTAGTTGTTTAGGATGACAGGTTTGATTTTAAGGGTTGTATTAG
TTTGTTTTCACACTGGTATAAAGAACTACCTGATATTGGGTAATTTATAAAGAAAAGACGTTTAATTGACTCACAGTTCCGCGTGGCTGGGGAAGCCTCA
GGAAACTTACTGTCATGGCAGAAGGCAAAGACGAAGCAAGCACCTTCTTCACAAGGCCGCTGGAGAGAGAGAGAGTGGAAGCACCGTACTTTTTAACCAT
CAGATCTTGTGAGAACTCACTCACTATTATGATAACAGAATGGGGGAAACCACCCCCATGATCCAGTCACCTCCCACCAGGCCCCTTCCCTGACATGTGG
GGATTACAGTTCAACATGAGATTTGAGTGGGGACACAGAGCCAAACCATATCAAGGGTTTTGAAGGGGATCTGTTTTCCTTTCTCTGTACACATTGCTGA
ATTCTGCCATTGGTACAAAAGRCAGAGTGGTTTAATGAAAAGGTTGTTGATATGATAGGAGGCCCATACTTCACTCATCTCCCTTCACTCATCTAGTCTC
TCTCGGAGTCTGCTTTTCCCATGGGGGGGCGAAGGGGAGGGAGGTAGGCAGGCCCTTCACCGCAAATGGCTTCCTTTTGCCCGTGTTACATGTAGGACTT
TGTAAGACTTCCTTTACAACTCKCAGTGATTAATTGAGAGGAGTGTGCTTCATCCAGGTCGTAAGCCCTCATAAATGATTATAAAATGATTTCATTATTG
ATACGTGATGTGACTGACTTTTGAAAGGCAAGATGAGGCTTGGGAACCACTGTARCCTCCAAGAGTCCCGGGGCGATTAGATAGTGAATATTTTTACGTG
TGCTACCCAAACAAAAAATATGTGTTGCAATATTTACCTTAGTTAAGATGGTGCTTCCTTTAAGTGATTGTAATAAACACTAAGGCATTAAAACAAATAG
TACATGAGAAATAGCAGCATTATTGAGTTCCAGTTTTCTTCTGTACAGCTTTAATTCTTGATGCTTTTAATATAGAGGCAGATTTATTTGACAGATATTT
ATTGAGCCCTACTCTGGGCCTAACATAGGCCCTGCCCTCAAAACGTATACACACCTAACAGATAATTTATGCCTACGTAGGAGAGCAGACTTTTGCGAGC
TAGTTTTATGCAGTACCTTTTCTTTGGCTTGGGAAGTTGATAGCTTGGTGGTGTTTTCTTGSATGGACTAAATCCTTAGAATTGTTTAGGAGATATTGGT
CGAAGGTGGTATGTTAAATTTTTGCCAAGGATCTGAACTGTGAAGTAACTTGTCAAGTGGGGCCCAAACCTTTCAAAGTTTAGGATTTACAGATCTTTCC
TGTTCTTTGGTCAAATTCCAGCTGAGAACCATGCAGCCATTAAGCTGTAGGCACCGTAGAAGACGTTAAATGTTTCTGACAGAAATCTTTATAAGCACAG
GAGAATCTTAAGGACACTTTTTATAGTCTAAAACAGCACAGATAAACATCTTAAAACCTTTATTTGCAGATAACATACCAACTTTCAATTTTGGGGCTGT
GTTATGCAAATCAAATTTTATTTTAGGTTGGTCATTTCCCCTTCATGGCAGCCTCAATCAACTCATATTAATCTTGAAACTAACATGATAACATCTTTAC
CTCTTCCTTTCATATAAGCTGCGGCTGCCAGGTCCCTCTTCCTCTGTTGGCAAGTATTCTGCACTGCTGCTTCCTGGTTGAACCCCACTAACTGTGGGTG
TTGTTACACAGGATGATTCTTAGCACTCCACACCTCAACTCCTCAAACTGCTGTAATTGGAGTTCCTATTTCTGTTCTGCTTCTCTCTGCCTCAACTTGT
CTTTCCTGTCTGCACCCTTACTCCCATTCCTTCCTGGCTTGTTCCAAGAGGAGTGTCAGATAGAATGCCATGGGCGTCTTCTCCTCCAGGATTGCAGGGR
TTAAAGATGGAGATGACCTAGGACAGCACCTGGCCCACAGGGGACACTCTTAGTTAGCTCCCTTCTTCTCTGCTTAATTACTTTCCAACCTTCTTTTTGT
TATCCCTGGAACCCCGTGAAACTTAACTTTGCTCTTCCAAAGGTGTGCCATACAGACAGGCTATGTTTCACTCGCTTCTGTATCTTTATAGCCTAACCCC
TAGCCATTGCTTAGTAAATGTTTGCTGGGTGGATGAGTGCATAGAAAGATAATTCTAGTGAGGGGAAATGATGAGACATATTTTCAGACTAGTTAGGTTT
TAATTTCATTTGTGGCCACTCCACTTACCCTTTCAGATGAGGAGATAGAGCTGCTTTGGAAGGGTTTATTGTACCCACRTGGTCATTTTGGATTCTTGCA
CAGTCTCCAGGAATGGGCATTCTTGTTTTAATTTCAAGTAATCAGGAGATTCCGGGACCATCTGTTCACTAGTATAGGAGAGGGCAAGGCAACAAGGAGT
TCATATTCACATAGTACTCAGGCCAGTTTAACTGAAACCACCAACAGGTCCTCAAATGTCAGACACAGACATAAGAGAGATATTCATTCTTTCACCTTCC
ATTTGTTTGCTTGTTCATTCAGTCAGCTTCCACTGAGTGCTCTAATAGGTCTGATACCRTGCTACCTGTTGGGGCCTTTTAGTCTGGATCTGAAGATTAC
AACAGGGTGATCTATACACCCTTGATTCGGCCCTCCAGCCAGATCAGTGACTAACACAAGTCTTTAAAATGAATTTAATAGGTCATCACCTGTGAAAAGA
AGGGAAAGTAAAAAAAATAATAGATATTTACTGCACATCTCCTATTGTTTTCAGTGCTGGTGACATTGCCATGAACAGGATAGCACCACCTTCTTTGAGA
GATTACATTCTATTGGGACAGATCATAAACGCAGGAGCATAACAATAAGATCATTTCAGAGAGTGTTAGTTCTTCCTAGGAAGTAAGAGAGGGTAATGAA
TGGACAGTGACTGGGAGTTGGACCATCAGAATGTCCTTGTGAGATGGCATTTGACCTGAATGGCAGAAAAAAAGAGAGAAGGTACAAGCTAGGCCCGTTT
AGATTTAGGCGAAGAGAGTTTTAAGAAAAAGATTTCAGGAGAGAGGTCAGCAATTCTAAAAGCTTTAAGGCAGGACTAGCTCATTGGGGTTAGAAAGACT
GTAGGTGTGGCTGGAACATAATRAGTAGTGGAGGGTGTGGGAACAGAGGGGAGAGGGCAGAAGGCTGGGTCACGTAGGGCCTTGCAGGCAGTAGCGAGGA
CTTAGTTTTATTGGAAGAACAGTGAATTCTTTCATCTTTCCTTTCTTCCTCCAAAGAGAGAGAGAGTGTGTATGTGTTCATTCCTTTCATTCATGTCAGT
GAATCCTTACAAAGCATCTTCTATGTGAAGAAATAAACATGAATATTATCCTGGTATTATTCTTACGGAGTTTTTAGTTGATGGAGTACAGGGAGAGACG
CAGGTACTTAAACATCTAAAAAATAAGGTAGAGTGGAATGATGTGAGAAGTATGGATAAAGCAAGCCCCAGGTTAGCAATAATGAATGTTTTATGAACAA
CTTACTTTATCAATCTTATCAGAAGCCTTACCAGGCTTCCCATTTCTTCTAGCAAAGGGTTTTGCTGCTGCTGCTTTGCTGTGGCAAGAAGTGAGGAGGC
CTGCAGCTGGTTAAGGAGAGGTAGATGCACAATTTGGTTTTCACACTTTGGCTGGTGCCTGTTGAAGCGTCTAGCACACTGAGTGGATGAATAAGTGCCT
AAATGATGTAAAAACCCAAGTTTGATGATCRTCAGAAAAAATCTCAGAGAAATTGGTTCCAGGATCCCCACAGATACCAAAATCTATGCACATGCAAGTC
CCACAGTTGGCCTGTGGAACCCACAGGTATGGAAGGTCAACAGCACACATTTGCGTGGTTTGCCTATATCTTTCCCCTTTTTGAGGAGGAGACAGTGACA
ATTCTTCATTGTCAATTCTTTCTTCTGGCACCTTTATCCACAACTCTACTCATGATCACATTGGACAGTGTGAATGAATGCATAGAAAGAGCTTATGCCT
TCACATTATGATTATTCACGTATATGTTCTAGCATATGGAGATTTACAATGGGTAAATAATTTACTGATTTGGCTGTGAGGCTGCATGAGAACTTATGTC
ACTTTTTCATCCTCTTATGCAAGTGTTAATTAGGCATCCCTAAACACATTGCTCTTCAATCCTCACTCCTCCCATCAAGGTAGCATGATTGCCCAACAAG
CTCAAGGCTGAAGTAATCAGAGTCTAAACCAAAATTAGGCCAAAGTAGCATTCCCTTGCTTCCCCTATTAAAGGAATAACACATATAAGAACATTTGCCT
TGTGGCGATTATGGGACAAATGCATCCATTAAAAAGCATTTTTTAAATGACCTCTCTGAATATACTATAAAGCAATACAATGGAAGCCCTTTTTTTTTCC
AAGTGAGTTAAAAAAAAAAAAAAGTTGTTTTTTTTTTTTTTTTTTTTTTAAGGAAATCACTTTGGTATAGGAGTATTTGTTTCAGAGGTGTTTTGCTGTC
ACTGCTCCAAGTGTTTCACTGGCAACTGCCTTCTGAGGTGAGAGTAATGATAGCTGGTCATTTTTGAGCACCTGCTCCATTCAAGACTTTGTGCTAGCCA
CTTCTAGGCACATTAATGTATTGAATGCTCAGAGCACTCCTAGATGGTAGGTATAATTCCCTGCTACCTTGGCATATCTCTAGGAAGTTCTATGCTAATA
TTTTATTGTTATGTACTATTTCCTGCCTCTGTAAACATAAAATTTAGCTCCAAAGAGTTGTGGTTATTGTCTAAAATCTAATCTACCCAAAATAAAAGCA
ATTTTCCCACTTGAGTATATAGAAAGTGCCATAGATTTAGAAAGTAATTCTAAAATAGAAAGTCTTAATGAATAGTGGCAACAGTATTGCCATTGCTCAG
TTAGCATAAATATATTTCAATAAAATATTTTTAAAGAAAGTTCACAGAATAACTATTTGAAGGCAATGTCCTGTTAAGACATTATTCTCATGACTGTATA
GTCATATCTCTTCTACATATATGGCTATACATATTAGATATGTATACCTTTAAACTTTATTCAAAACCATTAGGGGAAGAATTACAGAGGACCATGTTTT
CTGAATCTAGAACTATTTTGTCAACCATTTTCAAAGCAAGTCTTATGTTGCCTACTTCTCTGTTTTGTGGAGATGATTATACTGATGAGTTTATGTATTC
AGTCATTTGTCGCTTCATTTCATAAGCATTTTTGAGCATCTACTGTGTGCTAGACACTAGGACTAGGAACTCAGCCATGAACAGGTTATACAAGCCCCTG
CTTTCATAGAACTTCCATTCTTCTAGTAGAGAGAAAAATACCGTAAAAGCAAACAAATCATGAACAGGATCATTTCAGGATGTGGTAACACTATGGAAAA
ACTGGCATGACGTGCATTTGAGAGTAACCCTTGGGTGGGCCGAGGGTATACACTGCTGTAGGGTATCCTTAGAAGGCTTTTGTGGGGAAAGGACTCTTAA
TCCGAGGCTTGTGTAAGAAGAAAGAGCCAGTCATCCAGAGAGCTTTGGGGAAGAGTTCTAGGCAGAGCAATCAACTAGTTCAAATGTCCTGAGCAGGCAT
GGTCAGATTCATACGCGTCTCTGAGAACATCTGCTCTTACACTCTGCTGTGACTGAGGGATACCACTCGGCCTGGAGAGGTATGCTACCCTCCTTGTCCT
CAAAGTCTCAAGGACTTTTCTGTCCTTATGGTCTGGTTTGTATAATTTTTCTACATCCTTTTGGCTGTCAGCTCTCATGTAGTGCCTCTGTCAGTATGGC
TTCCTAGCAGCCTCTCTCTGATTTGCAGCAGCCTGCATCTTCTCTGGGCCTAGATTCAAATGACAAAACTTGTTAGGACTATGTGTGAAATAAAAGTAAA
AAGTCTTCGTATCAAGGTTGGAAGTGCTCTCCTAGACTACCATCCCTGATCCTTAGTTATGTAATGTTAAAGAGAATGTAATAATGCCGTATGGCACAAC
TTTACATTCTCCTGTATTCATTTATTTGTTAATTCATTCTTTCCCCCTCACCCCACTCTTTTGAGTTGTCCAACTGCGGATACATACTTAGAAATGCCCG
CACACGTTTTATCATACTTCTAATGATTTGGGAAAGATAATCTTATAGCCTATATTATCTACCATTTTTCTCTTAGCCCTTATTTAATTTTACATATAYG
ACATTTCAGAGGATGTCACTGCAGTTGTTGTTTGGCATTTATGGGAATAAAACTTTGTAGCACAYTTAGACTTGTATTATTTCTAGAGGGAGCCTTGTTT
GATTGAAGGACAGTATCCCCTGTCTCTCTAAAACATGAGGCTCTTAAAAGTGCATTTTATTTAGCTTATTTTTGCCAGTGGCCAAACACTCAAGCTTAAA
AAAAAAGAAGTGTCACCTAGACTTACCTGACTGTAGCTGTCAAATGAGGATGCTTTCAATAAACTTTAAAAGTAAGTAGATGAACTTTACACCCTACCAG
TTCATAGGCAAGTTGGTAAACATTGAACAGAAATTCTGAGACTGTACCCGCTCCCCCCCACAAAAGGAAGTAGGTAGATGGTCTCAAAAAATGTTATGGC
TGAAATCTTTCACATTCATTTGCTCATTTGGAGTTAACTGTAAAGTCCACTTAGTAATTTCTGTTAGACTACAGCCATCCTTTTTTAGTCATTATTCCCC
CAAAGATAACCGATAGGTTATTCTCCTCCAGAAGCAGATCTTTGTTTCTTTCTTGAAAATAATTAAGAAATGTTGATTCAGGGGAAACTTGGACTTGCCT
TCCACAACAGATTAGATGGCATGGTTGAAAAAGCATAGGCTGGCTCTTCTCTTACTTAGTATGTGACACTTGGCAAGCTAACTAATTTCTCTAAGGCCCA
AGGTTTTTCATCAGGGAAAAAGGGCAATCATAAGTATGGAAAAAAATTAATGACTATTTTTAGCATTTTAAAACAATGACATCACAAAAACAGTTCATCT
AAGAATAAACCCATTGGATTCAGTCTTTTAAGTAAATGCTTATTTGCATCATGTTCTTTCCCTCCTGCTCTTAGCAATCTAAATGTCTTATATATTTTTA
AAACTCAGGTTTATCTCAAAACTGGTATATAGTCGTCACCTCCCCCATATGATGAGACTGTTTTTAGTTTCAGCCTATCGCGGATATCATTAGAATGCAG
AATTAGGTAGTGGTTAGAAGATAAGGCTCTGTGTTGTCAAAGACCTGGGTTCAAATTCCAGCTCAGCCACCCTGGACAAGTTAACCTTTCTAAGCCAAGC
CTCTGTTTCCTCATCCATAAAATGGATATAATAAGAATATTTATTTCACAGGACTTTTGTGAGAATTAAGTGAGATAATCTCTGTAAACCTCTTAGCATG
CTTTCTGGTTTATACCAAGTATATGTTAAATATTAGTTATCTTCCCTCTTTCCTCTACAATGCAAATCTTAAATCTTTTCAGTAATACAAAATTTATCTC
TTCCCTGAAATGTCTCATAAAACATTCCCTTAAGCATGACATGCAGCATGACAGGTATGTGAGATGACTTGAGATCCTAAGCGGAGGAGCATTTTGTATA
GGTAGAGGTACATTGTAATTTTCAAAGTGTCTTCTATCAATGGTAAGTGATCCTGGTTTTTCATTTATTGTAACTCTTTACAATACAGTTATTTAAATTT
TTTTAAAAAGATACAAGAGTATTTAAAGGAAGATATTGAACAGAAGTACAGGTAGGCAGTGGATGTGATAAGATATGGAGTTAGAATGTAGGTGATGGGT
ATGGTGGAAATCGTGTTAGACTTGCAGTCTGGAAACCCTGTTTTTTGTCTCAGCATCCCAGTAAAGAAAGCATACACTTTGGGATTTGGTAGATATAAGT
GTAGAATGTGACATTAGCATTTTCTGGCTCTGTGACCTTGGGAAAGTTACTTAACCTTTCTCACCTTGCCTTTCTATAAATATTTATTGAAGGTCTACTA
CATTTCCTTATCTGAAAAATGAAGATGATCCTTAACAGGTTTCTGTAAAGATGCAATGCAAAGAGATAAAATATTTGAAAGTGTATATATCTTATATAAT
TGATATGTTTTATAAATATAATAAGTTTTATACCTGATGTCTAGTAAGTGCTCAGTAAATGTTAGTTCTAGTGTTACTTAGGACCTGTGGTTGCAAGTGA
CAGAATTCCAAGCTCAACTGGCTTGGGACAGAAGGAATTTGTTGTCTCGTGTACTCAGACTGTAGGAAGGTTAACAGTGACATATGCCTTGGGAACAGCT
GGAAGCAAAAACTCAGATGCCAGAGGAGTGTCTCTACCTCTTTTCTCTGTTACTGTGTCTCTGTTAATGTCATTTTGTCTGGCCAGATTTTTCCTCACAT
CAAGAAACAGAACCACTGGCAGTCTTAAGCTGATGTGACCAGAAAGCGACTGAGCATTGTGGTCCTTGTTTCCAAGCCCAGAAATCCGAGGAATGACGTT
GAGTCCAGTATGAGTCTGGTGCTCACCTGGCCAGACACTGGGGTCTAGAGAACAAGAGGTGAAGGAAGGTGGTAGGAAAGACCATTTTCCATAAGGGGAA
TTGTAGGTGCCTGCTACCATTGCATTTATCCCTTTCGGCTTCTTCAGGGAAGTACTTAGCCTCTGTGGGCTTCAGTTTTCTGGTCTGAAGTTCTGAGGTT
TAGATGATGTAATGGATGTGAGTGTACATTTAATGTTTTAAATTTTTATTTATGCAGTTTATTACTGTTATTGCTCATGCCTTCCAAATCTTGACATATC
ATCTAGGGGTTCCCAAGCAGACCAGAGGCCCTTGAAGTAGCAGAAAGGGGCCTAAAATTGTTTTAACAAGTTAGTCCAGTGTGCCAAGTATATTGACTAT
GCCCCATTTTAAACTTGTTTTTGGAGTGTGATACACATACAGAAAGGAGTACATAGCCTAAACGCACAATTTGCTGAATTTTAACAAACTAAACACAATG
GTATATCCTGTACCTGGATTAAGAATCAACAACAATAGACTCCTAGAAGCCCCCCTGCTTATACCACAGGTAGATTAATGTGTTGATTCATCATCCAAGA
AATCATTTAAAAGCATTACCAGCATCATGATGGCATTTTCCAACCTGTTTTTTTAAATTAAAAGATTGCCAAAATTCAACTGCCRTATGTCATAACTAAT
TTTTTTTTTTAACACTAAAAGAAATCKCAAAACTTAAAAGCACTGTGAAAAGCTCTTCAGGTCATTCCTACTCATTATACCCCTTGAAATGTTTTTCTGG
CTAAAATTACCATTTAGGTGATAAAGTGTGTCCTGTTGCCTGGGTATTGTGCCATTCATGTCTATGCTTGCCTTTTCTCCTTACCAGATTGTAARTGCAT
GAAAGAATCCAAGCCTTAAGATTTCTTCAGTGTCTTGTACTGTCTTTCTTGTGCATAGCTTAGCATGATAATTGACTGACTAAAATGCTATCCATTTCAC
ACACTGAGCTTTGTGGAATGACTGCACTTCTCCGGAAAATATAACTACTCAGATCCCAGGGACTTCCAGTCTGATATGATTCATTGTTAATGAATATGTC
AGTTTGCTGTTGCTTTGGTACTCAGGAAAACAAATGCAATTACAAATGAATTTTTCTTATTATTTTTTTAATTTACCAAATCTTCTAATATCTTTTCCCC
CTTTTTTCTCTTTTAGGCTCTAGACCAAGATAGAACAGCCCTTCAGAAAGTGAAGAAGTCTGTAAAAGCAATATATAATTCTGGTCAAGGTAAGCACTTA
CTAAAAATGAGGTAACATGAATTATAAATAATGTCTACAGAGTTTTGTTAGTTATTTAAAAGATGTTAAGTTTATAGGAAACTTGACACAAATGGAAAAG
TAAGTAGGTAAAAGAAATTTCTCTTTTTTTCTCTTATCTCGACTGTCAGCCCAAACCTATTAGTGTTTCCAAAACAGAAAGAAGAAAAGCATTAGTCACA
GTGGATTTTACTGTACACTTAAGTGCTTAATAGAGTTATGAGTAAATTTGTCACAAGTAACATGAGATAGATAAAATCTCTGTGTGAATTTGGTCAACCT
GTAACTCAGTGGCTTCAGTTAAACACATCAGAATCTTTTCCCTTCTTCAGTGTACCTGTACACATTTGAAAATCAATATTGGCGATGGTTGTGGAAAAAG
TTAGAGAGGAGGGGGCAAAGTTAAATTCAGACCTCAACAGACCTGTGAACTATCATCTTTTCTTTTGTTGGAAGGTGTGCCAGATAACCTGTGTAACTAA
ATGTTTTAACTGTCTAGTGACTTTGTCACCTTGGAGGCAAAAGTATGTCATCAGTGAATAAGAGGAAACAAACTAAATTAAAAAAAAAAAAATGAGTAAC
CACAAAAAATGGTAGGCTCCAGCACTGTAGAAGAGAAGCTTGGAAACATAAAATGGATTTCAGAGTTTCTCACTCACATCTTTTGTTACTATTGCAGTAC
CAGCTCACCTACCAATAGGTTACTTCTCTAGGAAATCAGTGGTCTGTAACTTAACAGAAAACCTGGAAGGGAAGGCAGCAGACTATAATAGAAAGAGCRC
AGGCCGTGAAGTTGGACAGATRTGGGCTTTCGTCCTTGCTAATCCACTTCTTATTAGCAAGGTGACCTTGAGCTGGTTATTTCTCCTTCTTGAGCCTCCA
TTTTTCTTCTGTAACGTGAGGATAGTGGTATTWAAAAAAGTTGTTGAAGGGATTTAATGATCTCATATCTGTAAAGGGTCTGCCAGGTTATGGGAGTTCA
GTAAATGCATGTTCCTCTTAATTTTATCATCATGAAATTATTGAGCTGAATGGAACCTGAACAAGCCAAAACCCTCAGGTACTTTATGGCCTTCCCGTCT
CATCAGAGCTGGGAATCCCTAGCCAAATGAAACTGGAAACCTAATATTCTCTTGTTTTTTAAACCCCCCTAGGCCTTGAGACATTCTGTAATATTAATTG
TTAACACATTTTGCACCCTGGTGCCTTCATTTTGCTCCCTAATTTCTTTATATCCACTAACTTCTCATTAAGGTAGATAACTAATAGTCATGTAGTTATG
ACCAAATGTTGTTTTAGGTCTTGGCCTAAGTTATATACCTAATTTATAACTCCTGCCCTTTCGCTTTTATTTCAATGAACTCCCACACTGTGGTAGGCCC
TTATGTTTGATACTAGCTCTTTGGGGAGGTGAGTGAAATAAATAACTAGGAGATGCCACAAAGTGGGCTTCTAAGGTGCTGATATTGTTGTTTCTTGATG
TTAGTGGTGGTTACATGGTAAAGTTCACTTTTTGATAATTCATCAGATGCTGAACTTAGGATTTATGTACTTTTCTGTAGGTATGTATATTATATACCAA
TAAAAATATATTTAAAGTATTATATACAAGGAGGTTCACTGAAGCCTTGATTGYGATTTGGAAGAGCAGAAAATAAAAGGGATTTATTAAATAAACCATA
GTATACATATAATAGACTACTACACACCCCTTTGAAAAAGAGAGAAACTCAAGTAGTCTAGGTCTGAGTTTGAATCCTAGCTTTGTTATACTTGTTCAAG
TCAAGTATATTATTTAACTTCCAGGAGTCTTACATTTCCTTACCATAAATTTAAAAAATAATATCTAATGTGCAGGGGATTGTATGGACAAAAGGAGAGA
CCATCTAAGGCCCCTAATACACTGCCTGCCACATAGTAGGTGCYTAACAAATGGTAGATGGGGGAAAAGGACAGCTAGATGAATTCTTGAGTGCCTTCTC
TATTTTAATTCAGTGATTCCACATACAACATTTGACCAGCCTGATTTTATAAAGAGCTTAATGAGAACCATTGTTTGTCTCAGGAAGAATGGTCAGTTCT
CTGTAATGTGATGATGGTTTGTACCTGAGGCTCTATGCTTGTGAGCTGCAAAAGGGAGACCCTTGCTTTACAGCCACGAGGTGCTGCTGTATTTACCGTG
CTGAGGGCTCCCTCCATGTGACTCTTTTCCAAATGTTCCCCCTCAAGATGCATTTCATCCCTTGGCCACAATGACCACATCACTCAGCAGCTCATACAAA
GGCTCCTCTACTGGGGGATATGCTTCTTCCTGTTCTTTAAAGGATTTCCTTGATCACAGCTGCCATGGGTATGACAGAAGGGAGAGATTGTTCCTGTATG
GATGTAAAGAGGTGAGAGTTCAAGGGCTGTATGCAGAGTTTGGGTGCAGCCTCCTCCAGTAGACTGCACCCTCTTTGTGGATGGGGGTGGTACAGCTTAT
TGAACATTGAATCTCTCCAGTCTGGATTAGGGGTTCTGTGTGCCCTCCTCCTAGGTTTGTACTATTAGAGTAGCCTCTGGTGAGATATGGTTTTAAATTT
TAAATGAATTAAAATAAAATTTAAAATTCAGTTCCTCAGTTTTAGCCACATTTCAAGAACTTAACAGCCGTATATGACTAGTGGGTGCCATATTGGATAG
TGCAGAAATAGAAACTTCTCCATCATCACAGGAAGTCCTGTTAGACTGATACTGTAGGAGAACATGTATCCCATTGTATTGCAATTACTAACCATCTCTC
TTGGAGTAGATAATGATTCTTACCTTTGTTGATTAGGATCACCTGAAGAACTCTTAAAAACAAAAACAGGAATCTCTCAGACCCTTACCCTCGAATTGTT
CCAGAGTAGAGCCTAGCTATTGAGATTAAAAAAATATTATTCCCCAGCTGATTCTAACTTGCAGCCAAAATTAAGAACTGTTGCACTGGCCTATGAGTTT
TTTGATAAGACTAGTACTATGTTTTTCGTTTTTGTAGTTTATGCATTTGTCAATGTAATTTGTTTGTTTGAAAAGATATTTATTGAGCACCTATTATATT
CTCCTGTTCTGGGTGTTAGGTGTTTGGCACATCAAAGTCTCTGCCTTCATGAATTTTACAATCCAGTAGGGGAGAGATAAATGTTAATCAGATCATCAAA
CTGGGAAGTATTTATAACTAGAAACTAGGAAGCGCTATAAAAGAAAGCTTACAAAGTGCAAAGGGTGAAATAGGAAGAAGGATCTGAGGTAGCGTGAGGA
AGGTGCTAAGGGAGTACCACTTGGAGGAAATGATATTCATTTTGTATTTATACTGTACTAGGCTAAGCCAAACAAGCCAATAAGGTAAGTACCATTGTTC
TCATTTTATAGATGATGAAACTGAAGCTTAGAGAGACAGAATAACTTGTTCAGGGTACCATACCTAGCAAATAATGGAAAGAGAGCCCAGCTGACCCCAG
CTTTGCTCTTTACAGGTACTCTGTATTTGTCTTCTACCTAACACATGGTAGGGGCTCAACAAGGGTTGARTGAATCGCTACATGTTGGCTGGATGTGTTA
CTACCTGGGAAGCTCTCTGAGACCAGCTATTAATATTCACTAATCATGAATATTCATGAATGGATCCATCAAATGGAAAATCCCAGCATTRTAACCTGTG
GGATGACTTTGGTGTTTCCCAGATGAGACCACCAATAGTAGTTTCCATGGTCATGTCTCAKAAATATAGGGACAAACTCAGATCCCTCTGGGTTCCTCAC
AGACTATTGAGGCCTGATAGGGTTTCTGCAGTCACGAACAAGTATAGTATAGCTGGGTTTGTGGGCAGCACTATGACATTTAATTCTTTAAAAATGACTA
AATGAGTAAAACAGTGGTGTTGCATAGCTTTCCATGATACATGCTCAGTGGAATCCAAGCTGTTCCCCTCCAAGGGCTTTTGGCCTCATCCAGAGAAACC
ACAAGAAGCTGAACCCTGCTATCTGTTTCCCAATGCATTTTCATAATTTTCTTGTTTTCTCACAAWGCTTAAGTGATACAAAACCCATGTGATATTTTTT
AAACATTTAAAAAGGATTTCTATATTTCTGGTTGGAGATTACCAATCACTCAGCTTCCCAAAGTGATTTGAAAAATGGCTAAACATTGTGAAGCTTCTTA
CTCTTAAAATGTATTATTTTTACACATAAACTTTTATCAGTACTAGTAAACATTATAAAAATGAGGGTTTTTTGGTTTTTTTTTTTTAAACAAATTGTCT
CCATGCAAGCCCTTTGGTTTCAAGATTGTTCTAGGAATTTGTGTCTCACTTTTCCTTGTTGTGTATGAGGACATTTTAAAAAACAACACAAAACTCAATT
CTGTGAACTACTTAGACCAATGGAAAATTCTCCAAGCCATTCAGTTTTCCTGTGTTGTTCTCTAAGTTTTGAAGTTTTAACATTATTAATCTGTGAAACA
CATTGTCGTTAAGGAAGTCTGCCTTAGTGGTCCCTCTCCCTTTCCCATTTTCTCCCTCCTTCGCCCTTTTGCTAATATATGATTAAAATGACTAGTAGTT
TCTTGGGCACTGTGGAGGTTTTAATTTATTGTAATTCTTGGGCAATTTTCTTTAGAAAGATAGAGCCTAATCCCCTTTCCCCTTGAATGTACACCAGAGT
TACTAACTCCCTTCTAATGAATAGAATGTAGTAGAGGTGATGCCATGTGATTTCCAAGGCCAGTCCATAGACAAGATAGCTTCAACCTCGTCCTTCTGTT
CTTTTTCTGATCATTTTCTTTGGAGGAAGCCAGCTACCATATTGAGGATACTCAAGCAGTCCTATGGAGAACTACCACTCACTTACTAGCCATGCAAGTG
AGACGTAGAAGCAAATCTAACCCCAGTCAAACTTTCAGGTGACTGCAGCCCTGGCAGACATCTTGATCTTGATCTTTGTGAGAGACCCTGGGTCAGTACA
GTAGGAGTGGGGCTGGCTTTCCCTTGGAAGCATGGGCATGTGAATGCACGTAAGTCAGGTGTGGCTTGAGAAAAGAGCTTACTGCTTGCTTCTCAGTATT
GTTTAAAAAACACAGTGAGACATACTGCACTTTTAGAAATGGAAGCATGTGGTTCATAATAAGCGTGGGTATACTGAGTTGGCTATTCTACCAAATGAAT
TAGGTTGRAAATGTTAATCTTTTTGAGCAGATACATTCTCACACAACACAGGTACAGGTATACACTTCTTTCTGGGACTAGGAACTCAGGATATTCCTGC
TACTAGGTCTTTTTCTGTGTTAAAGTGTTGGCTTTTTTTTTCTTTGCTCAAATTAAATGAACATATTATTATATGGCTGGTTCCTTAGAATTTATGCCAG
GATATATTCAGAATAAATGTTAGCTTATTGGTAACACATGGTGCCCCTTAGAATCTATAACATTGTTGGTCTGAAAGTTGAGGCTTGTAAATCCTTTAAT
ATTTCTGGGCARGAAAAAAATGACAGTGGTATATAATTTTATTACCAGCATATGATGTGGAAGTCATATTTTCAAAACACAGCTAAATTGTTATAAACAG
TTTTGCAGCTTTTTCATTACAAGGAAGACAGCCATTGATTTTCTCATTTCSTTACATTTTTGTCTCCCATTCCTTTTCAGTTAGAATTAAGTAGTAGATA
GTTTTATAACACAGGGTTTGTGTTTTTTAAGGCAAAAAATGTGTGGTGTTCTCTCCACTTTTTCATTTTGTTAAATTATCTATTTTAAGAAAAAGCTCAT
AGTGCACAAGGAAATCTAGGATTTTAAAGGTAAAGTACTAAATTTATCAGTGGATAGGAAGCAAATGTTTTTGTAACCAAACAACTTCATTTGAGCTATT
TTTTAGTTAAGTATTTCCTCAAACTTGAAGGTATAGTGTGAATTCAGTTGTAACTAGAGTTGGTAATTAGGTTCGGTGTCTTACCATGGTGTCATGTAAT
GCTTATTTTAATCCTGCGGTTTTCAGTGGGGAGAAAAGTTTTCTTAACAAGCATATGTAAGAGAYATAATAGATTAGAATAAAATGTCACAAGGTGTACA
AAAGCAGCTTGTCTCTAGGAAATTTTACCTTTTTTTGCTGTTTTTCAAGTTTGTGGATAGCCAGATTTTTTAAAAAATCTTTTTGAATTACAGTAAATTG
ATTAGTAAAAATAATAACAATTCTTAAGCTCTCAAAAGGCTTTAGATAGAAATACTGGGATTGAGCAAAATCTAAACAGATTTCTTTGGGCCTTCAAGGC
ATTTTGCATTCTTGTGGGTCCACCTCCTTGGGAGGTGAAAACAAATTAAAATAATGAGTTCCTTCATTATTTTAATAATGAAGGGTCAAGGAAGGGRTTT
TTTTCCCCCAAAGGGAATATACTTACCCAGGAGAGCATTACTCCTTAAATTATGTGGGGATAAACTAGAGGGATTCAAAAGAATGCTGTTTAAAAATCAG
TGTCTCTTTCCAGAATAATATTAAAACCCGAGGCTTCTTAGGAAGTTTCAATTTTTGGATCCTAGTTATTGGCTCACATATTCTTTTACTTGAAATTAGA
AGCTATTCACTGTGTGTATGAGCCTGTGTATGCACTTCCTCCGTTTTGCTGGTTGTAGAATGAGTGCTCTCATTTTACTTAAAATGAGTTAATTTTTTAA
TGATGTGTGCTTCTTCTATCTTTGGGGAATGTACATCATGATAAATTAAGTAGTTTAAAATAAATTTGTGAGTACTCATCCCACGACCGCTAGTTTGGGG
TTGGTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGGAGACAGGATCTCACTGTGTTGCCCAGGCTGGAGAGCAGTAACGCAGTCTCACTCACGGCA
TCCTTGACCTCCCAGGCTCAGGTGATCCTCCCTCCTCAGCCTCCCGAGTAGCAGCTGGGACCACAGTTGCATGCCACCATGCCCAGCTAATTTTTGTTTT
GTGTGTGGGAGGGAGGTGGTGTTTGGTAGAGATGGGGCTTCACCATGTTGCCCAGGCTAGTCTTGAACTCCTGGGCCCAAGCCATCCACCCACCTCTGCC
TACTAAAGCGTTGGGATTTACAGGTGTGAGCCAGCACGCCCAGCCTATTTTGGGGTTTTTTAAAGCCTTAGGATGAACAACAAATTTGCTCTGTTAAAGG
TGAATATAAAAATGTATTTCTCTGCTTTAATGATTTATTTTGGTAAAAATAAATATAGCTGCCATTTGTTGAATACCTACTCTGTGCCAGGTAGAGTCCA
TTGTGCTTTTCAGTCTTCAATTAGTTATTTTCACTGTTTACATAAAGATTCAGATTAATRACTGTTAAGGACCACCTTTGAGCCTTAAACAGACCCTTCT
TGACAACTACAGTCAAAAGATTCTATGGCTTTACCTATATCTTGCTGCCTCCTATTTCAAAATGCATTTTCCTCATTCTTAAATGGTTTATGTCTCATCA
AAGTAGGATTGTATTTTCCTGTATAAAGCTGTTGCACTTAAACTGTAGCAAAGAATCTGCCCTCTGAAAACAACCATGCCATGACAACYTCTAACAAGCA
GTCATATGTGTGTGTTTAGTTTTATTTCTAGTTCACATGTCAATGTGAATTTTTAAGTGTATTTTTATGACTGGAGAGGTTTCTCCAATTAAGCGTTTAG
CAAGAAAGAATAACTATTTACTGATTCTGTGATGCCTCATTTGGGTATGCAAGTCAAGCAGATTGTTGCTRATTCTGAACTGGTTTTCATTGATAATCAG
TGCCATAAGACAGAACATTTAGAGGTTGATAGAGGATGACTTTGCTCGGCTAGTTTGTCTGTTGCATTCACAGACAACAGAAGGATATTCTCAGATCTTC
CATGTCTTGGGTAATTGATCAGACATGTACTTGTTTCATTGTGGAGAGCTGTATGGGTGCTGGGGGGACTGGAACACCCCGTGCTGATTTTTCTCACTGG
TGTTTTCTGGTTTCTTTCCCCATTGTGAAAGTGCAGTGATATTAATGTGTTTACTATAGAAAATTCAGATGAGCTAAAAGAAAAAAAAATAATAGCCACT
GGTCTTTTTAAAGGTTTTTTCCCATTGTTTATATATTTTTCAAGTTAAAGGTTTTTTTGGTTTTTTTCATTATTTAGATTCTTTTTCTTTTTTTTTTTTT
TTAAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCGATGGCATGATCTTGGCTCACTTCAGCCTCGCCATCCTGGACTCAGGTGGTCCTCCCACCT
CAGCCTTCTGAGTAGCTAGGACCACAGGCACTTGCTACCATGCCTGGCTAATTTTTGTGGTTTTTGTAGGGACGTGGTTTTGCCGTGTTTCCCAGGCTGG
TCTTGACCGCCTGGGCTCAAGCTATTCACCCACCTTCGCTTCCCAAAGCTCTGATTACCAGCGTAAGCCACTGCTCCTGGCCCATTGTGTATATTCTGAA
TCACAAACACACATACTTTTGGAGCACCCAGCACATCTGTGTTCTCTGTGGCCCTCATTATCTTGTCCACATTTGAGGGTGATGCTTTTTCCCAGAGTTC
TGAAGTGGAGAAGCCTAGTTGAGGTCATGTTTTGGGGGGTGTTCTATGCCACCTGTACAGTGAGGAGCTAGGATGCTCCTAGGTAGAGAGCTGGGATGTG
ATCTCTACTCTGACAGGAAGTAACTGAGTATTTCTTAACAAGTCCTTCGTTTCTCAGGACCTTGGTTTTTCTACCAGTGAAACAGAGATGATTTTTTTTC
TTGTCTGTTTATGAAATGAGATGAAGATACTTTTGTAGCCTCTAAAATGCACTGTTTATACCCAAAGGGGAGTTGATAGTGTCTAACAATACTGCATTTC
CCTAGCAACTGATCCAAAGAGACCTGCCCCTTTTGATCTCACATGTGCTGTTGCCCTTCCCTCAGACTCGCCAACTGTGCACCCAGAAAGGGCAAGAAGC
TTTGTCTTCAGATACAGCTAACATTTCTTCTAATTCTGAACATTTTGGGGTCATAGACCCCTTAGTAAGCCTCAGAACGACGACACACGTTATCTGAACT
TAAAACAAAAAATCTTACAAAGCAGAATATTTCAGTCAATTTCAGGGGTTTTTGGAACCCCTGACATTGAGATCAGAACCATTGATTTATATAAACAATA
TGTTATCTATACTATATACTGTGTTATATATAGTATAATATATATAATAATTTATAATTGATTAAATAAACATATAAGCATTGATTGGAAATGCTTTGAA
ATGTTTTACTGACACGGATTGATGATTAAAAATAGTTTGGAGAGTCCAGGTGCAGTGTGGCTCATGCCTGTAGTTCCAGCACTTTGGGAGGCCAAGGGAG
GCGAATCACTTGAGCCCAGGAATTCGAGACCAGCCTGGGCAACATGGCAAAACCCCATCTCTGCAAAAAATACAAAAAAAAAATTAGCTGGGCATGGTGG
CATGCACCTGTGGTTCCAGCTACTCAGGAGTCTGAGGTGGGAGAATTGCCAGAACCAGTGAGGTCAAGTGTGCAGTGAGCTGTAATTGCGCCAGTGTGCT
CCAACCTGCGCAACAGAGTGAGATCCTGTCTCAAAAAAAAACCACAAAAAAATAGTGTTCAGAGGGTAGCTGCTCAGGCTGAGTCCTATCGTAGGCTACC
ACCTCATTAGCAGAACAAGAACCCAATGAGGTTTTATTATCTCGATTTTACATATAATTTATAAGCCAAGAAGCTAAAGCTCAGAAGGACTTAAAGGTGG
TACCCAAGGCCATAATTCTAAACACTAAATAACCTTTGTATCCCATTGTAGGTGCTTGATGAAAGTTTGTGAATTAGTAGTTAAATATGGGGTCCTATTT
TTAAACACCTATTTATTTAGAAGGGTTGACTCCATTGGGTAGTCATACTGTGGAGGCTGAAGTAGGGGAGGAATTGGTTGTGTCTTTGCTACCTATTTTA
GGACCACATCTCAAAGCATTGCAATTACCTACAGAGCCATCAGTAAACCAAAGTGTATTGTGTATTTCTTCTGGCAGGTAGGAAGGCTGTATGATGAAGC
CAGAAGAGAGAACATTTCTGCTTCTGCTATAGGAGAGTGATGTTCAGGTGCTGTTTAAATGCTGAGTAATAGCCCTGTGGAACTCTTTGAGTATCTTTTC
TTGGGGCTCTGTTATTTAATGGATTTGTCAGTGCTGCAGAAATGAGAATATGCATGCTGAGTTTCCAGATAACACCCCAGAGGCTGGGGCCAGACTCTTG
CTGAGGCTTGGTTAGGACTTTGAAAGAACAACTCCAAAGTCAAAATGACCTTGAGAAATTATAGAAATGAATCATCCAAAGTGGCATGGAGGAAAGCAGT
TTTAAAAAATGTCCACAGGGCTTTCTGCCTCCAAGGATTTTGTCTTTAATCTTAACAATAGACTAATACAGTTAGTGGTGGGAAAATGTAAGGAAACTGA
GGCTCAGGGAAGTGAAATAATTTGCTCATAATCAGCAGTTGTTTCCAAATTAGTGTTATAGATAAGAAAATAAAGAGTTTAGACCCCAAATCCAGCCCTC
ATTCCCCAATAATATGGTGTCTGTAAAGTTAAAACAAATTATTTTCCGGGTCACAGGACAGGTGGCACTAAGTTTTTGGATTGGTGGCAAAAAGGATCTG
AGCCACTATCTGATGATGAACAGGAACAGAGGGCAGTGCTTTTAAAACGTTAATCACAGCACTTTGGGAGGCTGAGGCGAGAGAATTGCCTGAGGGCTGG
ATTTTGAGACTAGCCTGGGCAGCATAGTAGGGCCCCATCTCTTAAAAAAAAAAAAAAAAGCCAAGCATGGTAGTGCATTCCTATAGTCCCAGCTACTAGG
GAGAGACTGAAGTGGGAATATCACTTGAGCCAGGAGATCGAGGCTACAGCAAGCTATGACCATGCCGCGGCATTACAGCCTGGGCAACAGAGCAAGACCC
TGTCTCAAAACAAAACAAAATCTTAATCTACCTAGCTCTAGATTGAAGGTGGTAAGCTCTGGAGCAACCAAAGGCTCCATATTAGTTTCTGTGTATCTCA
GCCCACCTAAGCAAACACTGACTTCCTTATTGCTGAGTACTTTATGGTGCCTGTATGGTATGCTGCTACCTCTTGCCTTGAATGTCCACACCCCAAGTCT
ACTTGTTAAACAACTATTCATTTTTCAAGTTTCTGCTCAATTATCTTCTCTTATGAAACCTAACCCACTCCATCCAAGTGTTGTCTGTGTGTTCTTTTTT
TATCAAATATTAAATAGTTGCCTTCTATAGGCCATCTGAAATAGCAGTATGTTTTCATACAGAAGAAAGAAAAAAAAGTTAGAACTCCTCCTCATGCCAT
ATAGATAATTTCATTGCAGATGTATTACGTATTTAAATATTGAAGTGAATAAAACTTTAAAAAGTTTAATAACTTACTTTAACGAACCCTTTCCTGTGCT
ATATAAACAAATACATTGTTTTGGGTTAAAGGTTAAGGGTTTTTAAAAATACTAAATATTAGAAGGCTTAGGAACATAAGGCCGGAAACCCAAAAAAGTC
TTTTGCATACAGATTGATATATATGACTACATGACATTTTTAAATTTCTCCATGGCAAAGGACACCACTAACAAGTTACAAGACAAGTGGAAGAAATATT
TGCAACACATATTATAAAAGTTTCTATCCCTTGTACAAGACATTCTTACAAACTGATAGGAAAAATACTAGCATTGGAAAACAGGGCTAAATATGTAAAC
AGGCAGAAAAGGAAATGTTAATGGACAATAAAATGCAAAAAGATAGGCTTACTATAGGCAGTTTTTTATACACATGTGGCCAGAATTAAAAAAGAACAGT
AACATCTATGTGCTGATATGGTTGAAGAGAATTAGCCCCTTTTATATGTGCATTGCTGTTGGGAATGTGAATTGCTTTAACCAGCTTCTCTGGAAAGAAT
GTGGCAATATTAACTAAAACTTGAAATGTACACACTATCCCCCAGCAGTCCTGCTTTTGTGAAGATATTTTTCCAGAGATAAAGTAACAGCGTGTAAGAG
CTTGTGTATAAGAGTATTTATTGTAGCATTGTGTTTTGATGGCAAAAGCTGCAGAAAACCTAGTATCCTTTCAGCAGGCGTATTTATTATGGAACATATC
CCAGTTAAAATAATTAGATTTACTTATATTAAATTTCATGATTTTTATTCCATAGGAAAAAAGCAAGCCATGGTGGTCGTATGTAATATCCCATTTATTT
TTTTTAAAAGGGAGAAAGGGGTGAAAACACCTATATTTGTGTGTCTGTATGTGTGTGTATATCTTTTTTAATCCTAAGGTTTCACTGAGATACACTCCAG
ATTATTAACTTTGCTTATCTTAAGGAGGTGGGATTGGAAAAAGGGAAAGGAAATTATAATTTTATCTTTATATTTCTCTGTAATAGCATATGAATTACTT
ATATAATTTTAAAAACAAATAGAATTAAATATTTTATAAGTGTGATTARTGCTACAAAGTATGCATAGGATAATATAAAAAGAATTTGTCACTTCCCCTT
TTATGGCAGTGCTATGATTTATGTCACATATTACATGGCTTTATTATTACATTATAGCTCACTGTATTTTATATGGCTGGCACATGGCTGCTGGTAAGTA
TTTTTTGAAAGAAGGAAAAAGACTTGTTCTAGGAGAATCCACTACATGCAGTGAGCATTTTACTGAGCATTCACTATGTGCCAGGCTCAGCACTGGGAAC
TGGGCGTATAACAAAGTATGTAAAGCTGGGACCCCCACCTTGGCAAGAGGCTAAGAAGAGAGTGAAAAACAGGATGCTTGGTAGGTTACACTTACATTGA
AAGAGTCAGGGTGAATCCTGAAATTGTGATGGAACTTACAGACAGGAGAACTTTGGATAGGTTTTATGACTGGAGTGTAATAATGCGTGTATCCCAGCTA
TCCTCTGGAAGATTTTTCTTCGTTCATGAAGATAAGATGATAAACAAATGTTTATCATGTGTTCCTCTGGACTCTTGACACAGAAGGAGAACTTGCATAA
AGACCTTGGAAGAGAGGCTAGGCTCCCAGGAAAGAGTATGGGAAATTAAGGAAGTGAGACTCTGGAGTGTGGGATGGTACTTAGCATTTTATAAACACCC
ACTGTATACCAGATACTAGATGAGGCACTTCATAGTCTTTCTCATCTATTTCCYTTAATAACCCCATCAAGTAGGTATTACTATGGCTAAGAAGACAAGA
GTCTGAGATGATGTATAAATTGCCCTAGATCACAGTTTATAAACAGAAAACCTGGAATTTGATCCACAGTCATCTTATATATCCTGGAATCCTCCAAAAA
ATACCATGTTTAAATTAGCATCCATTAGCATCAGAACTTCAGCTCTGAATTTTGGAGTAAATGAAATTAATAGAAGTAAAGGTATTTTTAGACTCATTCC
ATGTTCCTTATAGGCATTGTCCCATTTCACGTATGAAGTTGAGGCCCACATAAGTTAAGTGCCATTTCCAAGGTTATATATGCCCAGTTAGAACCAGAGT
GGGGATTCAGACCCAAGTCTCTGTGTCACTGAGGCCTGTGTTCTGTGTGATCTTTCACCAAATGTTGTCTAGGTTGTGCTTGGTTGTGGTTTGGAATGCT
CCTCAGGATGGATTTATGAGAGTGTTCTCAAGGCCTTATTATACCCATTAAGTAGAAATAATCCTTTGTGGTTTTATAATTTTTTTGCATTTTTCCAAAA
GAGCTTTTATATTAATTATGACACCTTTACCTCTTAGTGGCCAATCAGCAGGGCAGATGTTATTAGACCTGTTTTATATATGAAGAAATTAAGGCCCCTA
GGAGCTTCAGTCTCCTGACATGGTAGAGTCTGGAGCTAAGACCTGGATTTTCAGGTTTCTCAATCACTTGGCATCTGGCTAAAGTTAAAAGACTTCTAGA
GGCTCCTGCACTTWACCAAGTACACTAGTTAGGAGCACAGGCTTTGGGGTCAGTGCCTGTCACTACTGCTTCTTAGCTGTATGACATTGAGCAACTTGCT
TAACTACTCTAAACCAGTTTCTAAATTGTGAACACTGAACGAGATAATGCAGGAGAAATACTTAGCACAGTTCTTGGCACATTAATCAAAACTTGTGATT
GCAAATTATTATTATTATTACTTTGTCAATATTATTACAGGACAGGAAGTCTTGTCTTATTCACCTTTTTGTTCCTGGTATTTGTCATCAAGTCTTTCAC
ATAGTGGATTCTGAATAGATATTGTGGCACACAATATTCTAGTATCCACGATAGTCTTTCCTGAGTGTRTCAGTGGAGAAGGATAGGATTTGGAATCAAA
TGAAGTGGGATCTAATCCTTTCTTCACCACTGAGTTTCATTTTTCTTATCTATAAAGCAACTGCCTTGAGGGAGTATCRCATGAGTTTCAGGATATTCAC
TGTGATTGAATCCCTCTACTTAGTCAGTGCTTAATAAGTMGCAGCCATAATTAGAGTCGCTGAGAATCAAAGGTTAGGTTGGCAGGCAGTCCAGTCCAGA
GGTTTTGTGAATATTGCCCAGTTTGGTAAGGTATAACACATAGTGTCAGTTAGATAAACCCCTCAGGGAGAGACCTATTTAATAATTGCTGTGGTTCTGA
AAGTTTTGAGGAAGGCCTCATTGGATGAATATACAAAGTATGTTTAAAGAGTATTGAATTTTAATGTATTCCTAAGGTACTTGTTATTGCCAACGCCTAG
GGATATAAACTCTTCAGCGTTGTCTGAAGCTTCTGCTTCCTGTCCACGGGGTAAAAGGCTGGCTCCAATGCAGTGGCCAAGGATGGATAGTTGGTATGGT
TGTCATCATTGTGTCATTGCCATTATAAATATTTATTGAGCTCATCGTGTACGAGGCACTTGGCATGCAGTATCTTGCTTAAATTTAATAACATCTCTGT
GAGGTAAATGCCATTATAATTTCCATTTTCCAKATGGGGAGGATGAGGTTTAGAAAGATAAAGCTGCTTGACCAAGGTACCACACAGACAGTAAATGATA
GACTTGAGATTTGAACCTAGGCCTGTCCTACTTTAGGATATGGAGTATAGAGGAGGGTACCCTGTAAGGTTCAGTGGCTGACATCTGCAAATTATATGGA
CAAAAGACAAATTAACAGGAGAAAAGGCTTATTTAGTATGGACATAAGGGGCCTCACGGAAAAGAAATGAAAAACCCCAAAGAAGCAGCTAGGCCTAGGA
GCTTATATACCATTTTAGCAAAGAGCAGAAAATTGTGGAGAAGTGACAAGACAGAGAAAAGGAGACTTCTAGGAATTATAGGGCAGTAAATTATAGGGAA
GATAAATATAAGGGGGAAACAAATAGATGATAGGGATTATTTTAACAAGGTTTATTTATGCAGACTCATCTTGGTACTGACATTTCATCTCTTGTGACAA
CAGTTTTTCTCCTCTTCCTAGAAAGGAGGTAGGGGAAACACTTTCACAAAGGGAGATTTATGCCTTGCTTTTAGGCAGAAAATGTTCTTCCTTTCCTTTA
CTTCCATCCTCCTCTCCCTTCTTCCTTCCTTCTCTTTCTTTCTTTTCTTTCCTTTCTTCCTCTTTTCTTTGTTCAAGGTCTCACTCTGTCACCCAGGCTG
GAGAGTAGCGGCACTATCACCACTCACTGCAGCCTCAACTTCCCAGGCTCCAGCAAGCCTCCTGCCTCAGCCTCACAAGTAGCTGGGACCACAGGCTCAT
ACCACAGTGCCTGGCTAATTTTCGTATTTTTGGTAGAGACCGGTGATATGGTCTGGCTCTGTGTTCCCACCCAAATCTCATCTTGAATTGTAATCTGAAT
TGTAATCCCCACATGTTGGGGGAGGGACCTCATAGGAAGTTATTGAATCATGGGGGTGGTTCCCCCATGCTGTTCTCATCATAGTGACTGAGTTCTCACA
AGATCTGATGGTTTTGTGGGGAGTTTTTCCTTCCTTCACTCTGCACTTTACTCATACTTCTCCTTGCCGTTACCATGTGAAGAAGGATGTGTTTGCTTCC
CCTTCCACCATGACTCTAAGTTTCCTGAGGCCCTCCTCAGCCATGGCTGAACTGAGTCAATTAAACCTCTTTTTTAAATAAATTACCCAGCCTCAGGTAT
GTCTTTTATTAGCAGTGTGAGAACGGACTAATACAGTGGGGTTTTACCATGTTGCCCACGCTGGTCTCAAACTCCTAGGCTCAAGCCATCTGCCCACCTC
AGCCTCCCAAAGTACTGGGATTACAGGTATGAACCACTGCACCCAGCCACCTTGCTGTTTCTTAATTGCTTTAAGCTCAAAATAATTGTTATGCCGAAGT
GGCTTGTTTTGGGGTGGCATATTCTAATTTAAATTTCCTTATTTATGAGTTGTATGATCAAGGGTAAGTGTTTATATCTACACAGTGAGGATGGTAATAG
TACTTATCTCATGGACTGTTAGTAAGAGTGAATGAAGTAATGTACTGTATGTAAAGTGCTTAATACAATAACATTTAGTCAATACCCAACAAACTAGCTA
TTGTAACGATTATTACTGGAATAGTAATACTAGAGTAGTAAATCAGTGATTAGTTTATATTAGTCATTTCCCCACAGAAATGCTGGCAGTTGAAATCGTG
ATGAAGTGGCCTTTTCTGGTCTAGTTTTTAAAACTAGACCAGATTTCATTCTCATATTATTTCATTCTTGTTTGAACTGAAAGGATTCACCTAGCTGTTA
GAATTATCTTGCAGGCCAGGCGTGGTGGCTTACACCTGTAAATCCTAGCACTTTGGGTGGCCAATGTGGGAGGAACACATGAGCCCAGGAGTTGGAGACG
AGCCTGGGCAACATGGCAAGACCCCATCTCTACAAAAAATTAAAAATTAGCCGGTCATGATGGCATGTGCCTGTAGTCCCAGCTACTTCAGAGGCTGAGT
TGGGAGGATTACTTGAGCCCAGTAGGTTGAGGCTGCAGTGAGCCATGTTCATGCCACTGCACTCCACGCAGGTCTACAATAGCAAGACCTTGTCTCAACA
TCAGCAACAAAACAATTATCTTGCCTTCTGCAACAATGTCGTGGATGCCAGAAGTTTCTTAGGAATATTGGGAAAGAATGTGTCTTCTTAACGGATGGAT
CACATTTCTCTGTTCTTTTCTTTTATCCAGTCTTCTTTTCTCACCTACTTACCCTAACTCCCACTGTACTATGTGCCCAAAAGTCTTCTAGCACTCGCAT
GTAGTAAAGATCTTAAAACAGAGCTGCATCCTGCTCTCTGAAACCTCTTGAAGTGAGTGGGCCATTTTCTGCCTTATCAGTCCGTCTCCTTCAGAAACAC
TCATTCCTGTGGCAGTGTCCCACCACCGCAGCCTTCTTTCCCTCCTCTTCCCTATACCTCTGAACTGACATTCCCCTCAGATGGCTTACTGTACTCTGCA
GTGTGTTCCTCCCTTCTGCCGTTGCCCTTGCTATTTCCTCCACCAGAATCATGGTTCTTTGCTGTCTCACTCTCTGTGCCTGTTGAAAGTCTGCTGGGTA
AACCCTTAATTTTGTACACAAGTGTGTGTGTGTTAGGGGACATGTGTGTGATCTTTCTAGTATTGACTTTACTAACTTTATAATACAGTATGTTAAAAAA
AAAAAAGACATGTGAGACCTGTGTTTTTATTCTGTTTGATATTACAGACATCGCTCTGTATTGTAAGTAGTCATGGATATATAGCGGTAACAGTAGCTGA
CATTTTGGGGCACATGCCACATGCCAGACACTATTTTAAGCACCTTACATTTAATTTTCTATCATTCTATTTTCATAGGATTATGATTATTATTGTTATT
ATTACCCCAAGATATATCTTACTAAACTGTTATATTTTTATGCTAGGAAATTATATATATACACATATATATGTGAGACATGTATATATATGTGAGACAT
ATATGCCAGTATATACACACATACATACATACATATGCATATATATATATATATGGAAAGAGACTACATGGTTATTCAGCTGTGGAATTAGCAAAACATA
CAGGACCCATGACCTAGCCTATACTTATCTAGTCTTCTGCCTCACTCACGTCACATTTCATGTTTCATCTACCTAATAAGCATAATTCTTCCCTTGCAGA
ACTAGTGGGGGTGAAATATGAGATTGTAGAAAGCATAAGGATTTGGGTCACAGAAGGTTCTGAGCTTCTCCCAACACCTTCTTCCTATGGCCTGTCTCTG
CCTTAGCCTTTAGCCAACTCCATCTTATTCTTTAATGAGTCTGTCATCACAGATAGATGGAGAGCTTCTTGTAATTCTTTCTAACCTTTGCATGAAATTT
CAATTCAGGATAATGGCTGTGTCTAGGGAGGGAAGGAAGGAGATCGGAATTGGGTAGAGGGACAGGAGTAGGGGAATAGGGAATCATTCTTTAATATTTT
ATTTATTAAGCTGGGTGGCGCATACATGTATATTCGATTAACTAATTATATTTTTCACTTGAAATATTTGATAGTCTCAAGAAAGCAGCCTATATACCTA
TTTTTACTACTGAGGTGCTTCCCTTGGGAGCAGGTAAAATGAACACACAGCTGAATTCTTTTTTCATAGGTCTCCAAAATCAGAAAAGGATATCAGATGA
GGTAGGAGTCTTGGTGGTAAGGTGGGACCTCTTTGGCCTCAGACAGAAGGTMTCAGGAGTAGCTCCAGCACATGAGGGAGATGAAACCTGTGTGTCTTCT
CGGTTGAGCTCGTGTGGCCTTTCTTTTCTGTTTTTCTGAGCCGCTCCTCTGAGTGAACTTGGATAGTAACCAGAGCTGCATTTTTTAATATCTCAGCCTG
AGATGCTGACAACCACTGCAGGCACCATGAATTTTTAATGTGGTGGTGATTAGAAGGCTGGCTAGGGCCTCATTTCGTTTCATTGGACTGCTGTGACACT
TGTTTCCTTCATGGTATTTAGACTTCCTGGGTTATTTCCCARTCCAGACTCATGTTCTGTTTCATGAGTGCCCATTGCACCCATGCACTTATTGAGGTGT
GTTTGAAAGCAGAATTTAAAAATTTGATCTCAGTTATTGAACATCCTACGCTATTTCAGAAAGGGATGCTTCTTAAATTCCTGAAAAGGAATTCAATAAA
TCCAGGTCAACAAATATTAACCAAGCCGCAGCTTTGAAAGTCCAGCTCACTGAAAGAACTACAGCAGTGTCCATTGGGTAGGGATGCAGAAGTGAACCAT
AGGTAATCCCTGCCTYTTGCGGTCTGGTGGTAGGAAAAGATCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTACATATATACACACATATATACACATA
TATACACATATAATATACATATATACGTGTGTATATATACGTGTATATATACATATATACACATATAGGATGTGGTAGAAAATACTGCAGTAGAGGTACA
GAGAATTGTGGGCAAGGAAGGATTGTTTCCAACTAAAGGAAGACTTTATAAAGAAAAGTAATTTATTGTAAAGCCTTTAAAAATATGACCAAAAAAAACC
AAAAAAAAAGATATGACTTTGATAAATATCTATTTATTCATTTATTCATTATGTAAATACTATGCATCTACTGTGGGCCTCCCTACAAATTCATGCTTCT
CTGTGCGCCACAACAGAGGAGGGAGGTGGAGAGTTGAGTACAGGCATCTGAAATGCTTCCAAGAGAACGTGGTATGCATCACTTCCACTCACATGGCCTT
GGATGGTGCATGCCATATTTCCTGCCTTACTTTGAGAGTATGGGGAAATGCAGTACTCCTTTCTGTAACCCTGCAAGGATTGGGAACTTGGATATCCATG
GCAAGTGGTAATGTCTGCCACAAGAGTCACAAGATCTGATGCACAGTATAACAGTGTTGCATTGGATGCTGTGTTGRTACCAGACTGCTGGGAGGCAAAA
GTAGCAACAGAGAGACCATTTCAGAAGCAGAGTGTATTTGCCATTGCCACAGATAGGGGACTGTGAGAAAAAGAATGGGAAGAAGATCAAGAGTTTGGTT
TTAGACATGTTAAGATTCAACATAGTTAGTGGAGATACTGAATAGGTAGTTGAATATATGTCTGTATTACAGAGGGTGGGTTTTTCTGGGCTGGGGATAT
CAATTTAGGAGTTATCAGCTGATAGAAAGTATTTAAAGCCGTAAGACTGAGATCCCAAGAGAGTAAGCAAAAATAGAGAAGAAAGGTCCAAGACTGAGGG
GCCTCAACATGATGAGGTCAGAGAGATGAAGAACCAGCAAAGACAATGGAGAGGACCAGTCGTGAGGCAAGAGGACACTCAAGAAAGTGTGATATCCTGG
AAGCCAGACAAAGAACATGTTTCAAGGCAGTGGGGGTTATTGTTTATGCAGTATTTGCTCTACTGAGAAACTTTTATATACTTTATGTCAGCTCATCAAT
ACCACAATTCTGTAAGTTAGATATTGGACTCATTTTATGGATTGGAAAACAAAAGCTCAGGGAGGAGAAATTTTCACAAATTAATGTTTCTCATGTGCAC
CTAATTCATCTGATCCAATTCTGAACATTTTGCAGCAAGAGCTGGACTGTGAAAAGCATTTTACAAATACTATTCCTCAGACCTGGAACTTAGACAAAAT
TAAAGGAAATGAAGATTAGTTGCAGGGAAAGAAACCTGTTAGGACACATGAATTTTTCTTTTGCAATCCAAGATTGTTTTTCCAAGGAGAATTTTCTACT
TTTTCAGGTAATCATAGTTTCTTTCTTCCTTTTCCCTTTCYTTTTTCCTTTTCTTTCYTTTCCTTTCCTTTTTCCTTTCCTTTCCTTTTTCCTTTCCTTT
CCTTTCCTTTCCTTTCCTTTCCTTTCCTTTTTCTTTTTCTTTTTCTTTCCCCTTTCCCCTTTCCTTTCTTTCTTTTTTTTTGGAGATAGGGTCTCATTCT
ATCACCCAGGCTGGGTGCAGTGGCACAAGCACAGCTCACTGTAGCCTCGACTTCCCAGTCTCCAGCAGTCCTCCTGCCTCAGCCTCCCAAGTAGCTGAGA
CCACAGGTGCATGCCACAATACCCAGCTAATTGTTTTTTGTTGTTGTTGTTGTTGTTGTTTTGAGACAGAGTCTCACTCTGTTGCTCAGGCTGGAGTGCA
GTGACGCGGTCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACACCATTCTCCTGCCTCCGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCTACTA
CACCTGGCTAACTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGTCAGGATGGTCTCGATCTCCTGACCTCGTGATCGGCCCGCCTTGGCC
TCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCGCTCCCGGCCCTACACCCAGCTAATTGTTAATTTTTTGTAGAGACGGGGTCTCGCCATGTTGCCCA
GGCTGGTCTTGAACTCCTGGGCTCAAGCGACCTGCCTACGTTAGCCTCCCAAAGTTCTAGGATTACAGGCGTGAGCCACCATACCCAGTCAATCATAGTT
TCTTAATTGCTTGAAAATGTGATGTAATTTGACCCCTCAGCCTATGAGGAATTAGTGGATTAACTGGACTATAAATGAGCTAAATTCTATGAAAGAAAAA
GGGAAAGGCGAGGTGCGGTGGCTCACACCTGTAATCCCAGCACTTTTGGAGGCCGAGGTGGGCGGATCACAAGGTCAGGAGTTTGAGACCAGCCTCACCA
ACTTGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCATGCATCTTTAATCCCAGCTACTCAAGAGGCTGAGGCAGGAGAA
TCACTTGATCCTGGGAGGCGGAGGGTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGAGACAGAGTGAGACTCTGTCTCAAAAAAAAAGAAA
AAAAGATAAAAGGGAAAATCTTCCTTAGTAGAGTGAGTTAGAATATTTAGTGTACTCCTAACCTAACCTTTGGGACATGTGCAATAAATAATTGATACAG
TTTATGCTTCCATTTTGAGAATTCGTAGTGATYGGTGTTCAAAGTAACTTTTCATTGTGGCAAATAATAGTTCAGACTCCTTTCTTCTTCTTTTTTGTTT
TTAGATCATGTACAAAATGAAGAAAACTATGCACAAGTTCTTGATAAGTTTGGGAGTAATTTTTTAAGTCGAGACAACCCCGACCTTGGCACYGCGTTTG
TCAAGTTTTCTACTCTTACAAAGGAACTGTCCACACTGCTGAAAAATCTGGTAAGACATTTCATATGTGAGTAAAAAGAATTACAGCCTTTCCAAAATAY
TAYGTCATATAGAGAACATTTCAATAATCCTTCCCCCTCAATCCTTGGTCCTAGGGGTGAGAAAGAAAAAACAAAAAGCTTTTTAGTCMTAGGTAACTTY
CACACCTCAACTAAAAAGCTTTTTAGTCGCCTAGGATTTGCTTAAAGAAAATCCCATTGTGAAATTCCTGGAATTTGTACCTTTGGCCCAGCTGATAGAG
TAGATTTATCGAAGCTGAGAGAGAAACTGCTTAACCTGAATTCTCTTCCACATCTCTACCATTGATTTTTTTTTAAAGATAACCTTTAGCAACTTTTGCT
TTTTAATTGGCTAAAAGAATGATGATTTCTGTGTCGAACATACATTGGAAATACACATTGAAAGTATTATATCTCACTTGTGTGAAGGTGATCATGCATT
TTGGTTTCTGATATATAAATAATGAACCTCCCTCAACTCCCCACATCCTTTTAACCCCCAACCAAGAAAAGGGTTTTGAGATTTAAGGAATCTCTGGTTT
CCAAAGTAAATGACAGGAAGAATCCCTAACGATCTGAGACACTAGAGGTGCTGGCCCCGGGAGGCAGACCCAGGGATGGGGGTGGTGGAGGAAACTGTTT
GCCAGGCAGTCGTGTGTGGGCATCCCCATGTTGTGCTGCAACCCCCTCCCCAGCCCTCAYACCATGTGCACACTTAGAAAGGTTCTGGGTAACACCACCT
GGACGGATCATTTGGATTTTGTTGGTTTTGGGGGATGAAATTATTTCTCTAAGAGCCACCCAGTGAAATAATTTAATCCTCCTAAGTCCCCAGAGAAAGG
AGTACAATGAGGTTGAAAGGTGCCAAAGGAAAACTATTTATATCATGCTTTTCCAAGTTAGCCCTGCCCTGGAGAAGAGGAGCTGTTCCCTCTTCTCTCC
CAGTCTCTTGGTATTGTGCTTTTACCTCCTTTAAGGATCCAGAACTCATTCTCAAGATGTCCTTAACCTAGGTCAGTTATTCATGTATCACATAGGCTTC
TGTGGCCTTAGGTGATAATTTGTCATAATCCATTAGATRCAAAAGGTTAGTTTACAGATGAAGATAACCTATTTGAAAAATGAAAACTACCTTTCTACAC
TCCATTAACCTATTTGGCCAGTTACAATATTCTTTTTCTCTGTCACAATAAATAAACGTGTGTATGTGTCTGTCTTCCTGACAGTTTTTCTAATTGGCGA
TGTATGCCATTGAATTAATCTTACACAGCGAATAAGCAAATCTGAAAGAAAATAAATATCGAACATAGAATTATTTATTATTTTCAAAAACTTCGGAAAG
GATAATTTTGAACTTTGGCTCTAATGTTTCTGTGCTTTTGGATTTAACAAATCCATGTTTTTGTAAATCTTAGATTATATAAACCTCATTTATTCAGAAG
AGCACCCTCGGTTTTCCTTCACTCTGAGCATTGCCTGCACTTTCACTGGAGGYCTTGCTCAAAGTGTGGTGTGGTAGAAAGAGAGGAAGCAAAACAAGAC
TGACAGTTCACTTTGGTAATAGCTGGTAAAGGACTTGCTTGGGCAGGAAGATCTGTTTTCTCTGAGATGGGTGTTTTCGCATTGATGTCTTGCTTTAGTT
TCCAAGGACCAAATGTATTGGCTTAAGTCAAGAGTCATCACCTCCAAGGTTCCTGGACCAATCTCATCTCTACGGTTTGCTACGCTGCAGGTTCCTTTCA
ACTGTGTGTATATGTGCCATACACACAGCTCAGTGGCCATTCAGGCCAACATTCATCATCTGCGTTTGCTCACCTAATACATTTGTTTGTCTCCATACAA
AACCATCTGAGATTTATTGAATGTTTTTGATGAACCTGGCAGTTTGGTGGGTGTGTTATGTAGATTATTTCATTGAAGACATTACAACAATCCTGTGGTT
ACTGTACCTTTAATCCAGATGAGGAAACTGAGGCAAATTGAGATATATAACTTGTTCATTTACCCTATTAGTATGTGTTACAGACTTGAACCCAAACATT
CTGTCTCTGAACCCGTTGCCTTTGCTCTTCTACAATATCCTGCCTCTGTCACCTCATGCTCTGGTTGTGCTGTTTCCCTCAGCAGAAGTACTGATCAAGC
TACTCCCATATACATACCTCAAGCTACAGCCCTTTTTCCACACCCACTCCCCTTTAAGGAGTAGAAGTCTAAGAAAAATCTAAAGGAAATTGCTGGAAAA
CCTAATTCATTTAGTAAAGGAAAACAAATTTTGCCTTTGAAAGTGGTGGTGGCATTCCTGGTGAGGGAGCCAAGTAGAAGAATCAGTTTCTACTGTAGTT
TGGTTACTAAGAAAACATTATTCTGATTGAATAAAAGGCAGTCCCAGGAGTTTACACAACTTGACAACAGCCAGCAACTTTCTGCTTCCCTTTTTATGCT
TTTCCTGGAAAGGGAAGAGCAAACTAGACAGATTGATAGGGCCACACCTTGGATTAGAGGGCTCCCAGAAAGCCAACTCACCCCGAGGGGGTCAGGGTTC
TGGATCTTCGTGCAGCACCTGCAGCCCCCAGCTGAGCAGCACTCAACACCCTCCTGGGGCTCAGGAGTACCCCCGTGGGAACCCATACTTCTCAGAAGAT
TCCCAAAAATCCTGTTCTCTTAGGCTAGTGAAGGCCAGAAACGTTAAGCAAACTGATACAGTAGAAATTAAAGAGAAGGTGCTTTGGTACTTTATAGACT
TTGTAAATTGTATTCCCAGTTCAACCAGCAAGTACCAAAAGTCTATTATGTTCGAAGGTCTATGCTAAATACTAAAAAATGTCATTTTCTAATTAAGTAT
TGCCTTTGAAGAGTATTTTAATAGTTTATACTAAATCATTACTTATTTTTATGGAGAAAAAGGAAAGGATAGATTTGCGGGCCAGGTCTCATACTAGCTT
TCAGCTTTTGACTAACTCTGGATGAGAAAAACATTTGTTATTTGTTCGATGTAAGAAATCACTATTGCAGGTGTATTGTGTTTATCAGTTTCTGGGGCAG
TGGTCTTAAAAAATATCAGTGCACTAAATGATGGTAACTATCTCAACCATCATTGAGATGCTTCGGGTTTTTTTCCTTTTTCTGAACTGTCTGTGATTAT
AGAAAGTACGATCAAGTGAGATGTTATGTGAAAACTCCCAAGGGCTACCTACAAAGATGTTGGCATTAACAGTGCATAGGGCTGAGGCTGTTTTTAATTA
ACCATACGTCTGAGGACTGCGAAAAGGATTGCACTTACAGCTGATTACTCTGTGAGCCCATACCGCAGTTGATGCACCAAGTCAGTTTTAAAGTAACTTG
CTTTTCTTACTCCCCCCTCCTCCACATTATAGAAAATTGTTCCTATAAAAAGTTTTTCTACCTTGTAACATAGGATTCGAGAGGCTATGAAGCATAGGTG
GTTGGAGGATCATGGGTTTTGGTCCCAATCACACCTGGAATCCTAGTTTCCGCCTCACCAGCTTTATAGCCTTTGGCAATTCACTTAACTTTTCTAATGC
TAGTTTCCTTGTCTCTAAAAATAAATAAGAGTGACTGTTTCTTGGTAGTGGCAGGGTTTCATTGAGGTCAGAGAAGCAAGTCACTAAGCATAATACCTGA
CAAAAAATTTGTTTCACAAATACAAACCTTAATTGTTATTTACATCTTCTCATTTTATTTTTAAGGTAACTCAGTGTAAAGACAGCTATCAGTCATATCC
CATTTTAGAGATAGATGCACCAAATCTTCAAAAAATATATACCTGCAAAATGGTGCAATTAGGGATTGAGCTCAAGCCCTGTGGCTACAGATTATGCCTT
GTTTCAGTGATGCTGCCCCACGAATTACATTGCCTTGATGGATTATGTGGATGGTAAAGGCCCACCTGACACAATGACCAGGGCCTGTCCTGGTGATAAT
TAAACTAATGTGTGTGTTTAGCGTGCAAGGTACTTTCTTGGTTGTTTTTGTCCTTTGATTTCTCTCATTGGTGAGTTATAGCATATTGGAAAGAGTGAGA
GTGTTAGATGGTAGTTCTCAAACTTTTTGGTTTTAGGACCTCAGTCTTAAAAATGACTAAGGACACTATGTGGTTTCTGTTTATGTGGACTACTTCTATT
CATATTTACTGTCTTAGAAATTAAAACTGAGACGTTTTCCATGTGTATTATGTATTTTAAAATAAACCCACTTTAAAAATCTATTTTTATGGAAAAATAA
CTATTTTCTCAAACCAAAAAACATTAGAAGGGTGGCATTGTTTAACATTTTTGTAAATCCCTTTAAAGCCAACTTAATAGACGGTAGCTATATTTTCATG
TCTACTTCTGTATTCATTTTGTTGCAATTTATTGTTTTAGTTGAGGTAGATGGGAAATAAGGCCTCATACAGATCTGTATTGGGAAAAGAGAAGAGTATT
TTAAGAGCCATTTCAGGTAATCTTTGATACTACATAAAAACTTCATAAGTAGTCCTTCCTTAAATGTTATTAACGGTGTGAATCTGAAACCATGCAAATG
AACATTATTTGGAAACTGTCAGCTCGTGGCAAATTCAAGTTTTCCAAAATTTTAGCTTCCACTGAAAGCTCTGTTTTTATCATTAGCAATAAATGCTATC
AGTTGTTTACCTCGAGGTGATAAGCTCACTTCATTCATTTTCAAGAAAATGTTTGGCAAATACTGGAGTCCGAATAACCATAGTTTGCTAGTCTTTCTTT
CAAAAAAAAAGGTGTTCCACTAAAAAAACAATGCCAGTTAGTTCAACTTGCAACTCAAAAAATTACATAAGTACTTTTCCTCAAAACAACCATCATATTT
TGGTATGCCTAAAAAGGGCTTTATGCATACTTCCTATTTCATCAAACAGAACATTGAAAAGATGCATTTGAGGGTCAAGATGTGATAAAAATCCATTTTT
ACTTTTTCATTATGGGTATTCTTAAATGAAAATAGCCTTTCTTTTTTTTTTTTTTACTGTAAGAGCAAGACCATGAAGAATACAGTAACTTTAGTTTGTA
GCAGTGCCTTGATTTATGCTTAAGACAACAGCTGTTTTACTCACTGTTGCTTTTACACTGTCAGTGCAAATGTCAACACAGTGAAAGATTCAGATAACCT
CTTAGTATTATTGTGAAAATAGTTTGGACCTTGGGAACCTCTAGGGGCCTAGGCGCCATACTTTGAGAACCACTGGTGTCAGAAATTGAAGGCTTTGTTA
TGATTCCAACCCTACCGTTAAGTAGGTTAATGTTGCCTAACTTACAGACGTAAATTTCCTCACTAGTAGAATGGGGAAAGTACTTTTTCTGCATACTTTA
TTGGTTGTGTAGGGATCAAATCATACCATTCATGTGAAAAATATTGTAACCTGCAAAGTCCTTTGTACACACTGGATTATTATAGTATTAATAGGCTACA
TTAATATTAGTATTACTATGGTATTAATAGCCACTATAGGGGACTTTGTATTATAAAAAGAACACATGCYTACAGGGGAATTGCAATTTCTCTTTCATAT
TCCCCCTAATCAAAGATAACTATAATTGACACTTGGAGTTTATCTTTCTAGTCCTTTTGTCTGTACCTCTTTTTTTTTAGGGGGATGGCAAATAGATGAA
ATGACATGTTCTAAGCAATTTTGAATTTGCTAGATTTCATGTAGTACTGGAACTAGAGCAGACACACTTTCCCAAGTTGAGTCAAGTCATAGATTCAGAA
GTTCAAAAGAATATGACTTATCCGAGAGCCCCATGTAATGAATTCCTCATCATTGGCAGATCAGCCTTCATCCTCATTGCAGCCTCATCCCCTTCTAGTT
GTGAGAGCCAATGCGGTGACATCTGCGGAATGGCAATCCAACTACTGGGGCAGGAAGATGATCGAAGATGACCCAAGTACGTGCAAGATCTTTTGTCTTT
TACATCCACGTTCTTTATACCCCTGTAAGCTTTTATTGCCTTAAAGTGAAAAAAAAAAAGTTCCCTAAAAGAGTGACTTTAAATAAGATAACCTTGCCAT
CTGTGTATTTTTATGACTAAAGTCAAAGTCATCCAAAATTACAAAGATGGAGAGCAGATCAGTAGTTACCAGCGGTTAGGAAAGGGAGCAGCAGTGTAAC
CTGAGGGAGTTGCTTTGTATTGATGGAACAGTTTGATAACTTGGTGGTGGTGATTGTTGTAGTTATCTATACATGTGACAGAATGCCATAGAACTATACA
CAAAGACATACCAAAACAATGAATGCATGCAAAAATGGGGGGAATTCTAGTAAAGTCTGTGGCCTAGTTGTCTTGCACCAGTGTCTGTTTTTTCGTTTTG
ATAATGTACTGTTTAACATATATAAGATGTTACTATTGGGGGAAGCTGGTTGATGGGTACAAGGGACCTCTCTACTAGTTTTACAATTTTTTGGTGAGTC
TATAATTTTTTCAAAATAAGTTTAAATAAAAGTATAACCTATCAAATTATTATCAAGGAGAGAAAAGTAGGGGAAAGTGTTTAGTATACATTGTTACATA
AAAATTTCAGCATAAAACAAATGTGCAGAACACAAATCAAACTCACTTCCTGATACTCTTTGAGCCAACTGATCTGCAGTCCTCAGTCCTGCTTCCTTCG
CACTTTAATAGGTTTTCTAATTTCTTCCTCTAATTGAAGTCCTATATGTGGTTGCTATTCCATAAAAGTAGGAATGATTAGCTATTTCCTCCCAGAAGTG
AGTCTAGTTGTCATGATTGAATATATCTAGGGAATGCTGCCTCTTAGTGGTGAGAAGCCAGAGAAATGTGGACAAGATCTATTCTATTGCTGTTGTTTTT
ACTATATTTGTGGCATACTTACAAGTGCATGGGTTTTGATTTTTAATGAGGCCTGTATTAAAATACTCAGCATCTTACTTGTGTGGGCTTGTTGAGTTCT
TTGAGTCTTGGTTTCTTCATTTTTGTAAAAAGGGTTTAGTAATCCCTCCTTGTGTTCATTTATGATTCATTCTGTTACTTATTAGGGTTCTACATAAGCA
CTGTGGGTAGGCTGTAGGGATGCAGCAGTAAGAAGAACACAGACAAGGGCCGTATCCTCTTGGAGTTGCCATTCTGGTGGCATTTTTAGAAATAATTTAT
GTGAAATACCTATGAAAGCATTCAGTTCGTAGCATGTACTTAACAGATAATGACATTTTTAAAAACATTTTTTAAATATTTATTTAGTTGCCTTGCAATC
TCTCTAAACTTATCCTTCCTCTCATTAAAGATGCCTTCCTAATCAAAGCCAACTCCAGACATAACAAACGATTTGTTGTTCATGGAATATATACCATTTC
ACGCTTCCATGCCTTTATAGATTCCATTCCTTCCACTTTGAGTGCCCCTTAGTAGTTAGTGTATTAATAATAAAGACTTTCTTTGCAATGCAGCTTTCTT
GTTTAAAAAAAGAAAAAGGAAGCAGAATGCTCTTGAGTTTTAGCTGTTTCTAAGTGGTTTTGTTATATGTTTGATTAAATGTATAGTACTGAAAAATTAC
GTTCAACCTTTTTTTTTTAACCATGAAAAGGAAACCAATAAAATCATTACTTGCTAAGCAATGCTGGGTCTGCTCTACTCCTGGCATCAGGCATCATTCC
TGTGATCCTAGCAAAGAAGTTAAGGAGTCAGCAGAGATTTGCATCCATTTAATACCAAAACCGCAAAATGGGTCAGGAAAGGAATAACTGGTGGATTGAA
ATAGATTCTCAATGGACAGAGGAAAACCATTTAAATGCCATACCCTTTGAAAGTCCCAAGGCAGCAATGGTTTTAGAAAATGTATATAAATTATTTTTTA
AATAGTGGGAGTCACCCGGAAGTATTCTAGGTCAGCCAGGACTCACCATGCATCTGGTTTCTTCTCTCCGGAGGCCTTTGGACAATTCTATAGCTTGCAT
AAGAGCTTGAGTCTCATTAAACAGTTGGAGGGCAGTTATTGCTTCAGAGCTGTTGAAGCAAAGCAAAGATTTCTCCATCTGCATAGCATTTCCTGTTTGC
AATCTCTGACTGTAGGGTATTGTGGTTTGTGTTAAAGWTGTTTTTTTTTTTATTTTTCTTCTTTTCTTTCCCCTCAAATAAGAATATCTGATAATGTACA
GGTTGGATCTAGATTTGTAGCCAGCAGATTATTTCTCAAGTTCTTCTTTGAAATGTTAAAAAGTATGGAGAGCATGGATGTGCCTAATGGTAAAATTGGT
AGCTTCTGGGTGCCCTGAACTATATAATGCATTTTTAAAACCTTATCTTTTAAAAAAATGGTCATCAATCATTGGCAGTTTTCAGCGTTTGATCTACCAG
GTATCCCCTTATTTCCTGACATGCCTCACTGCCTCACTACCAATTAATACTGTGGGACATTTTGTGAAATGTGATCTATCCATGTGGGTTGGTGGGTGGG
TAAGAGGGAAAGGTTTATTTTTAACTCCTTCTATTTAAAAAATCATACATATTTATTATAAAAATTTGAGATATATGGAAAATTTTAAAATAAAAATTAT
AATTCTAGCTTCTGTTAATATTTAAGAGTAGTATTTGAAACAATTTTATGGATTTGTACACAGAGATACTGCTGATTTGCATAGATATCTGCAGGTATAG
GTATATATCTCATTCAGGTCCAAAATCCTTGGGGTTAGATTTGTTTCAAAATTCAGAGTTTTACCGATTTCAGAAGGGTGACAGGGTGTACATGCCTTAT
ATTATGCAGCACACCCCCTAGTGACTTCTTGGGAAGATGCTTATAATTAAACACAGTTTTGTGTCTGCAGTGAAACTTGAATATTCACATGAAGTCTGAT
ATATAAAGACTATTAGGTGCCCCACCTCAAGTCTAGTCAAGAGATTACCAACCAAATGGAGTCAGAACAGGTTTTGCTATTAAGTGAGTTTAAGCTAAAA
AAAAAAAAAAAAAAAGCCGTGTATTTTATATATATATATGCAAATTTGCTCTAACAGGCTGCATACTGTTTCATTGTATATCTGTACCATAACTGATTAT
TTGAATTTTCTGTTTGTCAATACAGGTATACCTTGTCTTAAATACATCCAATAAACAGGTATCCTAGTGTATATATACCTCAGGCTGAATTTGAATATGG
TTTTTGTTTTTTTTTTTTTTTTTTCTTATAAGGATTCACATTCAGTGTTTCAAGGTAGGATTTCAAATAATACATTTTAAATAGGATTGCATTTTCAGCT
TGTGGCTTTTGCATGTTGTTCATAGCACTTGTCTAAAGGGTGTATGCACGCGATATGTGTACGTGATTGTCTAGTATTATTTCACTTACATTTGGTATAG
AGTTTTGGTTCTATGTGAGAGGAAGGAAGAAGGAAAAGGGAGAGTGGAGAAGGGAGAAGAAAAACCATCGCTTATTGGAGCAAAGTTTCATTGACCATAA
GAAAAGATTGAACTTTAAGAATGATTGGTACTGGAATGCTTTATGCTGTCTCTAACATTTTGCTAATCAATATCTCTTTGATAAAAGAGCTGGTCTCACC
CTCACAGCCTTAAGGCAGGTGAAGTTTTCATTATTTTTATTTTTATGGTTAACTTTTRCTATACAAGTAATTCTGATAACAGGAGCTTGTCTTTATACTG
TGGTGACTGTATGCCAGGCACTGGCACTTTGAGTACTTTACATGTTTTATTGGTTAAGATAGGCTAGGATATACTGCAGTAATACATGAACCCCCAAATC
TCCATGGCTTAACATGGTTTATTTTCTTCTCGTGTGACATGTCTACTGAAGGGATCTGTTCTGCTTAGCAACAGCAACTCAGAGACTTAGACGCATGGAA
GCTCCCCCTTCTCTACAGGGGAAGAGAGAGACTAGAGAAGCGTATGCATACTTTTCACAGCTTTCCTAGGTGTTGTAGTTCATTGGTTTGAACTGTGATC
TTGGCCCCACCTACCTAGCTGCAGGAGACCTGGAAATGGGAGGGAGCAGGAGCTGCAGGAGACCTGGAAAGGGGAGTATTTGGTGAGCATTATCCTCTGC
CTCATCTGTATGTAGCCTCATTTACTCCTCACAGCAGCCCTACCAGGTAGTAACCATAGTTACCCTTATTTAAGAGCTCACAAACTGAGTCACAGAGCAT
TAAGTAGATCTCAGATTCAGCATTCAAACCCAGGTGGTCTGCTCTAGGGCATCGGTCCCCAACCTTTTTGGCACCAGGGACCGGTTTTGTGGATGACAGT
TTTTCCACATACAAGAGGGTAGCCGGGAGGATGGTTTCGGGATGATTTGAGCACATTACATTTATCATTAGATTCTCATAAGTAGCGTGCAACCTAGATC
CCTTGCATATGCAGTTCACAGTAGGGTTCCGTCTCCTATGAGAGTCTGATGCTGCCCTTGATCTAACAGGAGGCGGAACTCAGCTTCGCTCAATAGCCCG
CAACTCACTCCTGCTGTGTGGCCTGGTTCCTAACAAGCCACAGACCTGTACCGGTTCGTGGCCTGGGGACTGGGGACCCGTGCTCTAGAGTATGCTGTAC
CTCCTCGCAAAAGATATGGACATCCTGTTTTGGACATAATGTAAAATTTACTTTTAAATTAATTTAAGTTAAAAGTTGTATTGATTTAAAAAACAGCAAT
TAAAACATAGACAATGATGTTACAAAGATAAGGCAAACACTGATTGGAGAGAATTAACAGCCTTCTGTCTGCATGATCTTTGTCCCAGAAGCCTCCAGAG
CTCTTTCTTTAGGCCCAGATCTGGAAGTACATTGCAAACAGCAAATGCAAGTCTTTTTCTCTTTTCCTTTCTTAACAGAAAATTCTGTCAAACTCTGCCC
CACATTCACTTCTTCCACTTCTTTCCACTCCACATTCCCTTCCACTATTCCTTGATTTCCCATTTTCCATCCCAGGCATAACCTTTTATCTGGATCTCCC
ACTCTTCCTAGCCGATTCAGATTAAATGTTCTGTCTTGAGCTGACTTTGGATTCCTCTGCACAATGTTGCCTGAGTCTCTCCTCACCTCCACATACCATG
GCCCTCAGACAAGGCCACCACTCCAGATCTGGACTGTTGGGAGGTCCTACAGCCCAGCCTGGTGCTTTTTTCAGGGCTGATGTTAGCCAGCACCGGGAAA
CAYGGGTTAGTGAGGGGAGCATGGCTGGACTTCAGGCTTCCCTTGTACAAGCCAGGTGGGTGCTTTGAGCCATGTACACCCTGCACAGCCGTACACAGTG
GCCATACTGTGTCCAGTGCATCTGGCATCTTCTTGCCTGGGAGCAAGAGTATAAAGAAACTTGTCCAATGCAGTGCTTTCTAATTTATTTGAGCATGGAC
TTTGTTGTTGTATAAGAAACATTGACTTTTCATGGAACCACTTCAGAAAATGCTGATTTAGATGTTTTGCTGGACCAGGTGATCCATTTCATTTGTTGTT
GTGTGTGTTTTTTTTTTAATTCAAATTCACTTCTGCCCTCCAACAATTTATTTCTAATTTATATTTCAGTATGTAATTTCTCATTGTTTTTAAGCTGGTT
GCCACTTCCCCTTTTCTTTTCATTTTAGATTATACTGTATGGTAACCCCTTAGGGTTAAACATGAAGAAATGGCCCGCTGATGCAGTCTTGAACTAGTAT
CTGACTACATCTTTCAGTAAAAATGAGTGGATCTTTTCATTGACATATTGCCACAGATAYGTTAAGCAACTGAAAATTCAGAAAATTGGCAGAAATAGCT
TGACTTTGAAGTTGGATATAATTGAGTTCTATCTCTGCTCCACCACCTCCCAAGCTAGGTCACCTGAGGCAGATTCATTCATTCACTCATTCATTCCTCT
AGAAAGCAAGAGTATCTAAGAAGGCTTTACAGAGGAGGTACCCTTTATCTGAGCCGTAAATTATCAAGAGATATTCATGAAACGCTGTTCTCTTAAGCTA
GCAGAGACTGTTTTCATAAGTAGAAACATTAAATAATATTAAGCAATGGTTGATATACTTGATAAAGGGTGAGGTGAAAGTCTATACTTTAGTAGTAAGA
AAGAAACTTCCTATGAAGTGTGTTCTTATCTCTGCCAGCAGTTACCAAGTGCCCACTCTGTTCCAGAATCTGTGCTAAGACTGTCATTTTCTATGTGAGA
GATTGCTTATACATAATATTTTAATAGTTTACCCTAAAGCACTACTTAATTTTACAAGGAAAGATGGACAAAGGTATAGGACCAGACTTTTAAAACATTG
TGCTTTTGGTTTCCCACAAGTGGGGTTTCCTGGCAGCAGCTGGCATCACAAATGTAATATCTAAGAAGATTCCTTTTCTGCAAGGGAAGCTTTGAAATAT
ATCAAACAACTGCCTATCACAGTTACCATTTAGGTGGATTCTTTGACTTCTGAAAAATTTAATGAGGATTAAGTGAAATAAGTCTTAAAACATGAAGATG
TAGACCAAGCAGACAGGGCAGGGCTTTCCAAGCAAAGGGAGCAGAGATGGCTTTGACCTCCTGTCAGTTAAATGAAGACAATAATGTCTACTATGAGACA
TTACTRTGTCACCCTAGTACGTGGTAAGCCCTGTGTGCTTGCATATGTTTGTTGAATTTTTTAAATTGTGTTAAGAAGGTGTGTCCTGAGTAAAAGATAT
TGCAAAACATTTATCATAATCTGTGATAAAGATGTTGAGTGAAAGCAAGGAAAATGTGATCCGATGTTACAGTGTGGTTTTATTCTAGGGAAAAAGAACA
AATTGTAGATGCCATGCGTGGAAATGAAATTAAAGGTCTGAAAGTTGATCATGAACTAACTGATTATCATTTTAAGTACAACAAAGAAATCCTTAGGATA
GGGATATCTTTCTCAAACCAAGGCCTAGCCATATAGCACACCCCCTCCTTTTACTTTCTCCTTTGTCTTGGTCTTATAAATCCTAGCTACTTCCCCTTTC
CATATAATTATCGTCAAATGAAATCAGRTGCTGCAGATAATGCACAGGGAAATGGTACTTTCATTTTCACTTGATGTAGGAGATGATGTTAAATCTAACC
CACCATTTACTAAATTGAATTAGATAAAATATAATTGCATTATTTTAAGTTAAGGAATTCTCATATTCCCTGGTACTCTTAGACCTACCCATTTTTCTTT
CTAGCATTTCCAGTAAAATGTACTTTATGAGTAAATTCAGTCTTGTCAGTCCCGAGTGCCTTTAGCACATGGTGTAATTTGTYTTGCATTTTTCCTTGGG
CCTTTCCCAGATCTTCCAGAGCAGTACCTCTGTTCTTCATTGTAATTATGCCTTAGACCATAGGCAAGTGATTTCTGCTCTCTGGCTGTAAGTCTTTCCT
TCTCTAAAGGAACTTTGGTTTTTCTTCCACTTGGACAGCCTTTAGTCTAAGGCAGTGGTTCTCACACTTGATCTTGCATCCATTTCACCTTGAGAGCTTG
TTAAAACTTAGGTTGCTGGGACCCACTCTTGGAGTTTCTGATTAATTAGGTCTGGGATTTCATAACCAACAAGYTTCCAGGTGATATTGACACTACTGAT
TTGAGGACCACACTTTTGAGAACCACTAGGAAGGATTGTCACTCTGGACAGAGATCCAGAATTTCCTAGTGTTACGGAGAAGCTGCAACTGTTTTTCTCT
CCAGATTCACTTTTATATTAATTGTTTTTACTTTTATACATGACATCTGATTTACATCTTTATCACTGAATAAAGAACAAGTTGAATGAGAAATAGGCTG
CTGGTTAATTATATCACCCTCTTGTGATTTTGCATCATGTTTCTTTTTAATAACTTTGTACGTACAAAAATAATACCACTTCATTGTTGAAAACTCAGAA
AATGTAGGGAGAAAAAGACTAAAATAAAAATCAACAGTAATCTTATCTGTTATGGAGTGTGTGTATGTGTGTTTGTGTGTACACCCTCTGTCTTTCTAAA
CTTTTTGCTGTTTAAACATCTTTTTTCTCGTATTTTTAAAGTCATATAATTTTTTTAACATTGGGTTCATACTGCAGTGCTATTTTATACTGTGGTTTTC
CACCGATAACATTTTGAAAATGTTTTCCTGTTTTGTAAAATACTGCAGCCTAAGAACCTTTGCTTAGTTGGAAGCCATACAACCTCTTAAATCAAGGCTT
GTTTGTGCAGGGTTTGGAGAAAGGATCCTCTCCCCCATTACCCCTGGCAGTCTCCGAAGAGGGGTCTGCAGAACCCAGAGGCACATTCTAAAAACTGTAT
AGAATGCCCATCTTATATTTGCACTATAATTTATTTACCCAACTTCCTGTTTTGAATATTTCTATTGTTTCCATTTACCACTGTCCAAAATGTAATAGTT
TGAAATCTCTACACATCTCATGATTATATATTATTTAGTTACTGGTTGTCATTACTCCATTAATTCAGTTTGTAATGCTTTTGCTTCTCCTCCTTCCCTG
TCATTTAAGAGTCAAGAAGTGGGGGAAAACTGCCAGTAGCCCAAGGCCCTGGTAGGTCATAGTTGGTGCCTTGCTCTGATCAAATTAAGATGCTCACTTT
GTTGAAATATTTCAGACTTTTTCAAAAAGTTATGTTTATACTGTGCCAGAAGTTTCATAGTGAACATTGTGGATGGACTATACTAAAAAATTGAGAATTG
TTATAAGAATTATGAATGGACTTTTCTAACTCTCCGGCTTTACCACAGAACTGTTTGTTTGTTTGTTTTTGTTACTTTGTTGAGTTGGGGACCAGGGCTG
CCCTGTCTCTGAGGCAGTTTGAGCATCTCCCTATAGTTCTCACCCATTTGAGGTGGAATTTTTTCTGCTTTATTCAGTTGTATCTCAGTAGCTCATTTTA
AGCTGTAAGAGTGTTACAACTGGAAGGTACCTTAGAGGTCTTTTTAGAGACCTCACACTTTATTGATGCCAGAAACAAAAAGTGACCTGCCTAAACATCC
ACAGCTGGTTGGAGACAGGTTCAAGTCTAGAACAGGTCTCCTGACCTTCATTCTTTCTTCTCTTCTTGCCAGACAAAGCCTAACAGCTGCAGGATGGGAG
GGGTACCCTTGGTTTGTCACTCCCAACCATATCCTGGGAGCAGTTCTAACTCTTCTGTCCCTCTCCTGAATCTWGCCCCTTCCCCCATTCTGGTGCTGAG
CACTCCAGGACGACCAAAACTGGTTCAGGTTCTATAACACTTGATGTTTCAGAGCAGTCCTTCTGATTTGGAGAGGAATTCATTCATCCATTTACTTAAT
CAGTAAGCATTTTTATTTGGTGTATAGAACAAGTCAACACTTTGCTCTAGGAGTTTGATGTAGCTCAATGGTGGGCAAAGCAGTCATAGCCTCTGCCTCC
AAGAAGCTTTGCTCTAGACAGTAAAGGAACACACGGATAATTGTAAAGTGCAGTACTCTGTGAAAGTGAGCCTATTCTGCCACTGGTCCAGAGTAACAGG
AGGTTAGGGAGAAGGGACTTATTTATTATTTAGAATGGTCAAGGCCTCACTGAGAAAGTGACATGGAGACAGAGGAAGAGTGTTCCAGACAGAGTAAAGC
ACGTGCAAAGTGGGAGAGATCTCTGTGGGTTGAGAAGCCAAAAGGAGTTGTAGYGCAGTGAGAATGGGTAGAGGGACTCAAAACAGGTTGGCAGGGCCAG
AGCTAAATTGGGAGCTTGGATATGAGTGTAGTTCAGTGGGAAGCCAATGATGGGTTTTAAGCAGGAGAGTGATATAATCTGGTAATCACTTTAAAAGATC
GCTGTAACAGCAGAGCACAGASGAAATGAGAGTGGCCTTTGGAGTCAGTAAAAACCTTAATTAATAACCTGATCATCTGCTTTACTCACTGTTTGACCTT
GGGCGAGTTACTTAACCTCTCTAAGCCTGTTTCCTCGTTAACCTAGTGAGACTAAGACCCATCTTACAGAGGTGTTGTGAGCAATATCTTTAGATAATAT
AYGTTAGATACAGTACCCTCTGTCATTTAAATAAAATTCATGCTGTTCTGCCTAGATTAGAACACAGTATAATGGGCTGCATTATCTTACAGTTTATGGA
GACTGCCTTGCAGACGAGGCAGGGAGGCAGGAACTGTGAGATGGAGAGAATGTGGTGCAATAAAAAGGAAATTTTGGAGCTCCCCATCCCAGCCTTAAAA
GTACCTGAAATGCCAGCTCATTATCATTTTTTCACCACTACTGCTGAGCTTTTCAAGTGTAAAGAATCTTATGATTCAACATGACGAAACCCTGTCTCTA
CTAAAAATACAAAAATCAGCTGGGTGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAAACAGGAGAATCGCTTGAACCCAGGAGGCAGAG
GTTGCAGTGAGCAAGGCTGCACTCCAGCCTGGATGACAGAGTAAGACTCTGTCTCAAAAAAAAAAAAAAAAATCTTATGAAAATAAACCTAGTTAAATTT
GATTAAGGGGTATTATGTAGTTGTTGTGCCAAACCCCTAGCCTCAGTAGGGAAGGCACCAGGTTCAAGAGGCCGAAGAAAAGACCCAGAGCCAGCAAATG
AGACATGGGGTGTATTAGGGGCTTACATACAGGGGAGAGAGTCCAGTGGCAGCAGGCTGAACAAGAAAACTTCACCCACTAGTGAACAGCACGTAGCTTA
TATAGGATTTTCACTTAACACTCCCCTTAATGACTTCCATCTGGCAACCTTCATGGAACCCAAAACTCAGGGCCTCAATCTTCTGTATGGCCTGTGTTCC
ACAGTTCGGGCCGGGGACTTGGACGTTTCTCATAGACAAGGAACTAATTTCTGTGATTACTACTCCTGGGATTCCCTAACTCAGAACACACATTCAGGTG
CATCTGCCACAGGGTCATTCTAAGGGTGTGCTTAAGTTACTGCTATCAGGGCACTTGCCCTACAGTAGTGTCAGGCATTTTGCCTGTATTTGCATCCACT
GTGTCTCAGCTAACTGCGTGTGTTTGGCCAAGTTATTTAGTAATACCTTGTAGGGTTACCAGGAGCAGCTAATGAGACTGTGTGTAAAACGAGCCACCTC
TGTGGCCTGGAATAAAGTGGAGCTTCATTGGTGTCAGTTCTTTTCTTTTCTYTTTTCTTTTGAGACAGTCTGTTCTGTCTCAAAAGGTCTCATTCTGTTG
CCCAGGCTGGAGCGCAATGGCATGATCTCAGCTCACTGCAGCCTCAACCTCCTGGGCTCAGGCAATCCTCCCACCTCAGCCTTCTGAGCAGCTGAGGTTT
AGGCATGCACTACCAAGCCCAGCTAATGTTTGTATTTTTTTGTAGAGATGAGGGTTTCACCATGTCGCCTAGGCGGGTCTCGAACTCCTGAACTCAAGCA
AACCACCTGCCTCAGCCTCCCAAAGTGCTGGAATTACAGATGTGCCACTGCACCTGGCCCGTTGGTGTCAGTTCTGTCTCGATCCACTGACACTGGCATG
GGCTAGTTCAGGAAGGTGCTGGGACACCAGCAAGGTTAAACGGTTTTCCCAGTTCACGCAGGCCGGGAGTGATGAGTGGCCACATGCCTCTGGGATTCTT
TGCTCTGTATCACAGTACCTTGGAAAGCAGCCTAATGACGAGGCATCAGTTTTATTTTTATTTAGTTTTATTTTTTGACCTGCCACTTCAGGAGGCACCA
GTTTTAAATAGCTTCAAGGTATTATAACTCTGTAGGGCATGAAGGAGTTAATATACTAGACAGAATACCCAGTTTATACCAGGGAATCGCAGACTTAACT
ACTGGGAGCTGGCTCATTATTTTAATTGGATTTTCCAATGCGTTGAGCAAGTCAGCAGATTTGCATTAGCCTTACTTTCAGAGAAACTGTTTCAGTTATG
GAGAGAGAGAGAACCAATGGGCAGTGGAGAGGGAATGTCAAGATTAATGCAAGATGACAAAGCAAGCAAATTATGTCCTCATTAATTAATACAGTCTTGT
GTGCATGTAGGTGTCCTGGAAGTACCATTTGTAGAGCTGTGCTCTGCTCTTCTGTCAGAGGCAAGAAAAAACGAGGCCCTGCTGACTGACTGTCTTTCTG
CCAGTTGGCTGCTCCAGCAGGACAGGGTGGCTTGTTGGGGTGAGCCCTCCCTTAAGGGCACTCCACCTGCAGGCCCATAGAGGGGCTTGGAGCTGAGTTG
GGCAGTATTCAGGCAAGCCAGAAATGATAGTACAGTGTGACCTACAACTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTCACCCAGGCTGGAGC
ACAGTGGCGTGATCTCAGCTCACTGCATCCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCTTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCA
ACACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCACATTGGCTAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCG
GCCTTCCAGCGTGCTCGGATTACAGGCGTGAGCCACTGTGCCCGACCTACAACTGCTTCTTGATTCCTTCTTTGGGATCTGATCAGTTAGTAAACAAAAT
AGATACAGGGCCTCCCCTTAAGAAGCAAACCTTCTAGTGAAGAAAGATGATAAATCAGTAAACAATAAGTGAGATCATTTCTTTTAGTGGTAAAGCATAA
AGACATTTTAAAAATCAGAGCAGAAGATGTATGTTTATATATACAGAGGGAAAACTGTTTATGAAGTCATCTCCAGTGACTAGGATAACGGGCTATTTGT
ATACTGCTGGCAGTGTTGAAGCAATTGTAAGGAATAAACGGCTATTTTTGTCCAGTTTAATATTAATTACAGTYACTTGCTTCCTTAAGCCCCTTTTGCA
TAATGAAAGATAGACCTCGGCCTCCCTCTGTTTGATTTACTCCAAATTTCTGGTTAGGCTTGATGTATGTACTAGCAGGGGGAATACCTCTTCTTTGAGG
AAAGAAATTTAGAAGCAATTTGTGCAGAAAGCAAAAATATTTACCATACCTAAATATCATTCTGGAATTTTTTTTTTAAGAGACAGGGTCACACTCTATC
ACTCAGGCAGTGGCAGGATCATAGCTCACTGTAATCTTGCAGTCCTTGCCTCAGCCTCCTGAGTAGCTGAAACTACAGGCRTGCGCCATCATGCCCAGCT
CATCTTTTTTTTTTTTTTTTTTTTTTTCCTAAAGAGATGGTGGAGTCTTGCTATACTTCCCAGGCTGTTCTTGAACTCMTGGGCTCAAGCAGTTCCCACA
CCTTGGCCCCCCCCAATTGCTTGGATTACAGGCATGAGCCACCATTCCTCGTCCTGAAATGATTTTAAATGTGTTGTTTGCTTAATAAAATGAAAAAAAT
GCACTTTAAAAAACATACCCTTCGACTTCTTATAGACTTGAATCATGTAAAGAACTTATGTTAATTCAACTTAATGAATAAAGGAAAGGAAATGATTTGG
AAGTTGAGTAAATGGAGATAGAGTAATCAATAGAATTTTAGTAAAATCAATGGGAAATAATTATATAATGGATTTGAAAAGCTTTTTTAAAAATTTATTG
AAGATAATGAAGGTCATACAGGAAGTTTACTGATACTGTTATTGTATTATGTCGGCTGTATTGTAAGTGCCTTGGAGATGACTGTTACACATCAGTTTGC
AAAACTCTTGCTCAGGTCATATAAAGGAGGGGCCCCCAACCCCTGCTGACTCATTGTCTTTGTTAGGAACCTTGCTGCATAGCAGGAGGTGAGCGGTGGG
TGAGCAAGCATTACCTCCTGAGCTCCACCTCCTGTCACATCAGCGGTGACATTAGATTCTCAAAGCAGCGCAAACCCTGTTGTGAACTGTGAATGTGAGG
GACTTAGGTTGAACACTCTTTATGAGAATCTAATGCCTGGTGATCTGAGGTGGAAGAGTTTCATCCTGAAAACAGCTCCCCCAACCCCTGCCATCTGTAG
AAAAACTGTCTTCCACAAAACCAGCCTCTGGTGCCAGAAAGGTTGGGGACTGCTAATATAAAGGATTCCTGAAAGAACTATAGAAGTGAAAACACAGGAA
ATTTGTAGAATCCCATGACTGTGAAGTCATATACTCCATCTTCGTGGCACAATAATCACCTAAAATAACTGAGAGAATAGGTTTTCTGTTCTTTGAGATC
TCCAAGAAAGGATTTTTTTTTTTTTGCTCCCCCCAGTGAATATTTCCTAAAATTTCCTCCTCTTGAGATTGGTTTGCTTTCTCTTTAACCTTTCTTTGTG
CCTTTATAATGACAAAGGTAATTACTATTCACTTGTCACTTAAAATTTTCGTTGCTGGTTTTTTTAATTAACCTACGTTTTCCTGGGAAGTTAGTTGGAA
AGACTTTGTAAATTTAAATTTTATTTTTCCTGTAGCCTTTTCATTGACTAGTCACTGGGAACATTCTGAATTCATAATAACATGTTTTGCGTTCATGATT
TCTTATCAGCCCTCAAGAATGTGTGTAGATAACCACGGAGAAATTCTTAATTCTTGGGGTTTTCTATCTTCCCCTCATGCCTAACCACAATGATGACATT
AAAAAGTTACTATGTGTGGCGGAGCATGGTTGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCGGGCAGATCACATGAGGCCAGGAGTTGGAA
ACCAGCCTGACCAACAAGGGAAGACCCCATATCTGCTTTTTAAAAAAAAGGATTTACTGTTTGTGTTTGGTGTGTGGTCAGTACATGATTTGAGGCACTT
TTTGTTTGGAACAACCTGCACATTCAGTACTAACCACAGAGTTTCATAATTCTTTAATTGTTATTTTATAATACAGCCTTTCAGATCAAGGTACTAATAA
CATTAATGTATTTTTTTTAATTTGCTGCTTCATTTCACAAAGGATTTGAGGCATTGATGCAAACCGTAATTTGGAACAAAGAGTTGAAAAGGGGTTATTT
ATAATCACTGTCTTTTCATATTTTGTTTTAAATTTTTGACTTTTTAAATAAACAACATATTACATATTACAATTTTTTTAAAATGCAAAAATCTCCTCTC
CCACCCTATTTCTTTGCCCAGTTTCCAACCCTGGAGGAAATTGGTATCAACAGATTTCTGTGTATTATTTCAGAAATAATTAAAGCAGAGAGTTTTTTGG
GGGTTTTTTTTGTCTTTTGTTTTTTGGGGTTTTTTTTTTAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCA
ACCTCCACCTCCCAGGTTCAGGCGATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGATTATAGATGTGTGCCACCATGCCTGGCTAATTTTTGTATTTTT
AGTAGAGGCAGGGTTTCATCTTGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATTCGCCCGCCTCGGCCTCCCAAAATGCTGGGATTGGAGGT
GTGAGCCTGGCCTTTTTTCCTCCTTGTTATGCAAATTCTTGCATACCATAAGTAATGTTTTATACCTTGCTTTTATCACATAAATATTTATCTTGGAGAT
ATTTTCAAAGTGAAGCATAAAGAGCTTTCTCGTTTTTTTTGGCTGTTGTTTAGAAACTCTGTAATTTATTTAGCCAGTGCCCTATTGATAGGCACGTAAC
TTTCCATCAGTTATAGATAGCCCTGTAGAGAAGAACTTTGTACACAAATGATTCTGTATTTCATTTCTTCTGCAAGTATTTTTTGAGCACCCTCTCTGTG
CTAGGCAGTGTTCTGGGAATATAGCAGTGAGCATATTGACCCCTCTCTCAAACTGGCAACCAGGCTGGGGAGACAGCAACAAATAGGGAAACAAACATAT
ATACAAATGGGTAGGGATGGTAAGTGCTTTGAAGAAAAATAAGGCAAGGATCTCCGTGAACAGAGGAAAAGTAGGCAATGGCTTGGCTAGTGAAGGCAGG
TCAGGCCCCCCAACCTTACTTACCCACCATCCATCCAAACTTCTAAGGCCCATAGGATAGGAGGATGCTAGGGAATTGTACTCCAAGAATGAAATTGAGG
ACTCAGAGCAAATTATTTCAGCTATCTGTGTAGAATAGAGGGTGAGTCCTATTAATCTTCATATTTTCAGTCTCAGACCCAGTTAGTGTTGCTCAACCTT
TTTTTTCCTCATTATGATCCAAAGCCTTCCTCCTTTTCCCCAAGAGCCTTTTTAGACATAGTCCCCCATCGCTCCCCCCCGTGAAATTTTAATACAGCTA
ATAGACATAGTTGATATCAGTTATATACTGTGGCCCTTTGGAGGGCCACAGACAGTTATAACAGCTAAGATTTTTTGGTTTTTTATTTTTTGCCCCACTC
CCCAAGAACCAGTGTCTTAGAGCCTCACAGAATGTAGACTCTCAGACTATAGCTCTCTGGTATGCCAGCCAGTCTGTTGGTGTGTGATTGTTGGCAAAAT
CACAGACAGAATTGTCTTGGTAGAAATCCCTTTGTCTTTGAAATAAGAAAGAAGTGATTGTTTCTTAGATGTGTGTCACCAGAGAAGCCCTCTGGTGACA
CACATTGGGAAACCTTCCGCTGTGTAAAATTAGTTGTTGTTCAGGGAGAGTAAAGAGGTAGAATGACTGAGAATTTCAAGAAGCCTAAGATGAAAACAAC
AGGAAAGGGTTAGGAAGAAGTTAAGAGCAAAAAGGGGAAAACCTGTTCCCCGCCCCTCTCTGCTCCCTCATTATCTTATCCATATTTAGCATGCCATAGC
ATTTAAAATATAAACATGTATTCAACACTTCCTAGGTATCAGGGAGTAAGCTAGCACTTTTTACACATATTAATTCATTCCATCCTCACAACAGCTGCTT
GCAGTAGGTTATAATATTCTACTTTACAGATGTGGTTAAGAGGGTCATGCACAAAGCCCTTTCAAGTCAGCGTTGGTCCTTCTCACACCACTCTCTCCCT
CTGCCACTAACACATAATACATAATAGCATAATGTAGTAGAGTTGGCTGTGTAGTGACTGCCTCTGTTCCTAGAATATGAGCTCTCCACAGGTAGGAACA
GTGTTTATTCATCTTTGCCTATCAAGCTTCTAGTGTAGTGTGTGGCACAGAGTAGATATCTTATTAATGATGGATGGATGGACAGGCTGACAGTTGAATA
CACTTATGTGTGAGTAAAATCATTTCTTGAGTGAGGGGACCCACAAACCTTTCCATCTATAATCTGCTCCTGCAGGTCTCTGCAGTCTTGGGTTCCACAC
CTACTAAAACTTGATTTTACCAAGATTACTTGGGGTCTCCTTGAAGACAAGTAGGTAAAAACTCTTCTCAGTCCTTGTTTTGGTTACTCCTTTCACACCT
GACTCTGCCTCCCTTGGTTCCCTCCTGCCATTCTTCTCTGCAGCTGGGTAGCATCTCCATCTCCATTTCCTTCTCCTTTGTAGATTCCTCTTTGTGCCAT
CTTAAAATCAAGGAGACTCAGGCCACTGCCGCAGAGCAGTGGAAAAAAAAAAAAAACTATTTCCCGGTTATAGATTGCACTTCCTAAATATCTCATCTTT
TTAATGGAATCTAGGCATTAAGGATATAGCTGTGAACAGAAAAGTCAAAGTCCCTGTCCCCATCGAGGTTATGTACTAGTGAGGGAGACAGAATACACAA
GCTGGAGGCATCACATTACCTGACTTCAAATTATACTACTAAGCTGTAGTAATCAAACCAGCATGATGCTGGCATAAAAACAGATGCATAGGCCAGGTGC
GGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCAAGGAGGGTGGATCACAAGGTCAGGAGTTTGAGACCAGCATGACTAATATGGTGAAACCCCA
TCTCTACTAAAAATACAAGAATTGGCCGGACGTAGTGATGCATGCCTGTGATCCCAGCTATTCAGGAGGCTGAGACAGGAGAATCGCTTGAACCTAAGAG
GTGGAGATTGCAGTGAGCAGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCTGTCTCAAAAAATAAAAATAAAAATAAATGCATAAA
TCAGTGGAACCAAATAGAGAACCCAGAGATAAATTCACATGCTCACAGTCAACTTATTTTTGACAAAGGCACCAAGAACATACATTGGGGAAAGAATATC
CTCTTCAATAAATGGTGCTGGGAAAATTGGATATCCATATTTAGAAGAATAAAACTAGACCCTATCTCTCACCATATACAAAAATCAAATCCAAATGGAT
TAAAGACTTAAATCTAAGACCTGAAACTGTGAACCTACCAGAAGAAAACTTTGGGGGAAACTCTCCAGCACATTGCTCTCAGCAAAGATGTCTTGAGAAA
GACCTCAAAAGCACAGWCAACCAAAGCAAAAATGAGCAAACGCAAGTGGGATCATATGAAGTTAAAAAGCTTCTGCACCACAAAGGAAACAATCAACAAA
GTGAAGAGACAACCCACAGAATAGGAGAAAATATTTGCAAATTACCCATCTGACAAGGGACTAATAACCAGAATATATAAGGATCTCAAATAACTCATAG
GAAAAAAATCYAGTTTTAAACTGGGCAAAAGATCTGAATATATATTTCTCAAAAGAAGACCTACAAATGGCCCACAGGTTTATTAAAAAATGCTCAACAT
CACTAATCATCAGAGGAATGCGAATCAAAACTTCAGTGAAATATCATCTCAAGCCAGCTAAAATGGCTTTTATAAAAAAAACAGTAATGGATGCTAGCAA
GGATGCAGAGAAAGGGGAACTCTCATACGCWGTTGGTGGTAATATAAATTAGTACAACCACTATGGAGAATGGTATAGAGGCTCCTCAGAAAACTAAAAA
GAGAACTACCATAAGATCCAGGAATCCCAGTGCTGGGTATATACCTAAAAGAAAAGAAATCAGTGTATCAACAAGATAACCCGTACTCTCATGTTCATCG
GAGCACTATTCACAGTAGCCAAGATACGGAATCAACCTAAGTGTCCATCAACAGTTGAGTAGATAAAGAAAATACRGTATATATACACAATGGAATATTA
TTCAGCCATAAAAAACAAAGTCATGCCACTTGCCACAAAATGGATCCAACATTATGTTAGGTGAAATAAGCCAAGTACAGAAAGATAAGTATTGCATGTT
CTGTCTCATGTGGGAGCTAAAAAAGGAAATTGATCTCATAGAGATAGAGAATAGAATGATGGTTACCAGAGGCTGGGAAGGATAGTGGGGAGGAGGGAAT
AAAGAGGGATTGGTTATTAGGTACAAAAATACAGTTAGATAGAAGTAACACAGTCTAGTGTTAGGTAGCACAGCAGAGTGACTGTAGTTAATGATTTTTA
TTATATATTTCAAAATAACTAGAGTGGAATTGAAATGTTCTAGCACAAAGAAATGATAAATGCTTGAGGTGATGGAAACCCCAATTCCCTGATTCGATCA
TTATACATTGTACGCTTGTATCAAATTTCACATGTACTTCATAAATACAACTATTATGTATCCATAAAAACTAAAAATTAAAAGATAAATCTGAGCAAAA
AAAAATCCAAACACAGTAATTTCAGATAATGATACATGCTATAAAAAAATGTGAAAAGGAAATGAGAAAAGCCCTCCTTACTCTGACAGAAGCAGTTGAA
GAAAATTCACCGTAAGAGCTACAATTTTGGCAGAGGTGTTAATGGAAGTGCTAAAATGATTTGAGGAATTATTTGTACACATATACGTGTACTGTAGTAT
AGTGTTTAAGAACACAAGCTCTGGAGCTACACCACCTAAATTCAATTTTCTTTTCTTTTCTTTTYTTTTTTTTTTTTTTTTTGAGAGAGTCTCTCACTCA
GGCTGGAATGCAGTGTGGTGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTTAAATGATTCTCCTGCCTCAGCCTCCCAGGTAGCTGGAACTACAGT
TGTACACCACCATACCTGGCTAATTTTTGTATTTTTAGCAGAGACGGTGTCTCCCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCCAGTGATCCT
CCTGCCTCRGCCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCACCATGCCCAGCCTACACTGCCTAAATTCAAATCTTAGCTCCTCACTCACATGCTTT
ATGGTTCTGCACAAATGACTCCACCTCTGTTCCCTCAGCTGCAAAGTAGTGATAATTGTGTCGCCTAACCTACAGAGGTGTCATGTAGGTTCAATGAAAT
AATGCATGGAAAGCCCTTCAACAGAGCCTGGTGTGTGGAAAATGCTCAGTCAATAGTAGCTGGTTTTATTGTTCATGTGGACTTTATTTTTTAACCATCT
CCCATCTTCCCTTTGCTTTTTCAGCTCCAGGGTTTGAGCCACAATGTGATCTTCACCTTGGATTCTTTGTTAAAAGGAGACCTAAAGGGAGTCAAAGGAG
TAAGTGTTCAGAAATTTGATTTTCACTTTAACTTGAAAGGATTAATTTTTTTTTTCCTCTTTCAAGATCATAGTAGTACTTGTATTTGAAAGACTCYTTG
AACATTTTCAGCGTTAAAAATGCTCTTGGAAAATGATCATTGGAAAAAATGTGCCTCTTCACATAATGGTATTGACAGAGGAATGAGATTAGGCACTTTC
AAGAAGATTGGGAAGGTCCTCCATGGGTGGGAGAGAGAAGCTAAGCCCGAGTCTTGGCTCCCACAGTGTGACCACTGGGGACCCAGCCCTTCTGAACCTC
GGGCTCCTGCTTCATCAGCATGACCAGGGCGCTTACCCTTCTTTCCTCTCTCAGGCTTCTTGTGTATATAACACATGGTTTGATGTTGGCCAGGCACAGT
GGTCATGCCTATAATCTGAGCACTTTGGGAGACCATGGCGGCGGGTAAATTGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATAATAAGACCCC
CATGTCTACAGAAGAAGTACAAGAATTAGCCAGGGGTGGTGGTGAGTGCCTGTAGTTCTAGCTACTCAGGAAGCTGAGGTGGGAAGATCAATTGAGCCTG
GGAGTTCAAGGCTACAGTGAGCTGTGATTGTGGCACTGCACTCCATTCTAGGCAACAGAGTGAGACCCTGTCAAAAAAAAAAAAAAATGGTGTAACGTGC
ATAAAGTGAAGTTCCCAGTGTCCTATAAAGGAAACAATTCTTGCTAAGATGTCATTTCAAAACTATTTATTAATTTTCAGCAAAAGTAGTTGCAATTTTA
ATCTCATTTTCTCGTTTCTAAGGATCTCAAGAAGCCATTTGACAAAGCCTGGAAAGATTATGAGACAAAGTTGTAAGTGGTTTTTTGTTTAGAGTTTTTG
TTTGTTTTTTAATATTGTTGTGAATTTTGGACAACAAAAAAAAAAACTTAACTGGAAAAAGGACAGAGCCCTTAACTAATAACTTCTCAACAAAAACCTG
TTTAGTATATCCTCTAGCATATCCTTATTAGGGCTAAGAGGTTGGGTACACTGACCTAAAGTGGTTGCATGTCCTGTGCTATTTGTCTGAAGGGAGAGGT
ACTTTTACTATCAGTTGTTCTCGCATTTATGGCTGCTAGTACTATCAAGTTATAGGGCTATGACTCTCATTATAGATAGCATGTAATTATGGACCATTTA
TGTTTCTGTATAGTATAAAAATTGGGAAATAATAGAAGTAACAGCTAATACTGTGACATCTTGGTGCCTGCCAGGACGTGCACTAAGTGTTTTTTGCATG
TATGACCTCTTCACAGGAAACTATCTGTACAGCTTTACTCTCTGTTTATATACATCAGGGAAACTGAAACCTGGAGAGGCTAAGGGGCTCATGAAAGGCT
AGAAAGCTAGTTATGTGTCCAGCTAGCATTCACTCCAGGTCTGTCTTGACCACAGAGCCTCAGCATAGCATGGGCACTGAAGTCAGACCACCAACCTCGT
GGAGTTCTTGTTAGGGATTAGGACAATAAGCACTTTGCAGGGTGCTCGGCCCATCTCGATACTGTGTGTATCATACCACATTCCTTTATTATTATTACCC
TGAGACATTTGTAACACCAAGCAGTAGGGTGGGGTGGGAGGAGATATGTATTTTTAAAGCTTTTAATAAAAGTCTTGGACAACTATAAACATAAGAGAAT
AAAACATTTCTGTAGGCAGCAATAGCAGCAGGATAAAAACAAGCAAAAGAAAAACAAATTCAGGATTAAAAAAAGTAGTTTTTCCCAAACTACTTTTGTA
ATTATGTGAAAAGTGCATTGTTAGGGACTTGCTGTCTTAGGAATATATCCGTACATTGACAGTTCTAAATGCAGCAGAGAACAAAAACGTTCTTAAAATG
GTCAACTGATAAATGAATGCTGTGGGCTATGAGTCTTTCTGTATGAAAAGTGGGTCATGAGTACTCAACTTGTAAGCGAAGTACTGCCGCTGCCCAGAGA
CAACAGTGCATGAACTTGGAATGGAATAGAATTAAGTACTTAGAAAATGGAAGGACAAAGGGGGAAGAAAAAAACCTTGTTCTACACTTGTAGAATATGT
CTTCTTTGTAGGATATAGGAACAACGAAACATGATGTAATATGTGCTTTGTCAACTAAAGTACTACCAATATTAGGTAGTACAACTTTATTTATATTTTT
TAAATCTCTGTTGGCTGAAGACCTAGAAGTATCTGGTGCTTAGTATTATAAATGACTTAGAATATAAAGCATTCTAAGATGGTACAGGTGCTCTTCCTTG
TACTTCTCACTCAACATATGAACTTGTCTGGCTTTTCTTTTTTTTTCTTTTTCTTTTTCTTTTTTTTTTTTTTTTTTTGAGGCGGAGTTTCACTCTTGTT
GCCCAGGCTAGAGTTCAGTGGCTCAATCTCGTCTCACTGCAGCCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAATTGGGATT
ACAGGTGCCTGCCACCAACACCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATTTTGGCCAGGCTGGTCTCTAACTCCTGGCCTCAGG
TATCCACCTGCCTCAGCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCGGCCTGGCTGTTCATTTTTCTGTATTGTCCTCTACAATCTAAATTT
GGTGAAGACCACAACCACATTATTCTTATATATGGTGTTATTCTACCAGTGCCTAATGACTCATAGTTTATGTACTATTTCATTGAAGAAATAAAAGAAT
TATTCAGACCTGGAAATGTATAACAGGAATAGCAAGTTGAGTGCCTCCTGAATTTAAGACCTTATGAAGGCAGGTTTTGTTTGTTTGCTTAGTAAATCCC
TGTCAACAATTTTCCTGAGATAGACTTCTTTGTCACTAAAGTATAGTGGTGCAGGAAAGAAAGAAAACAAGCATTTGTCTCTTTGATGTACTGGGACTTA
TGCTGTTATAAGTTAGAGAAAACAAAATGACTCCACACAAAAAAGTTCATTTATTAGTTTTGATAATGGAGAAGGCTGGACATTTTCTGTGGTCTTCTAT
TTGGAACTCTGGAGGCAGTGAAGTTTGTAATGATTTAGATCACAGACTTAGAAATCATTACCAGTTTTGTGACATTGAGCCAAAATACTTAATTTTGATG
ATCCTTACTTGTAAAATAATATAAAAATTACCTACTTCTCAGGGTTTTTGTGAGGACGAGATAAGGTAGTGTGTTGAAGCAGTTGTCACAGTGTTTAGCA
TAGGGAAGTCACACAATAAATAGTTTCTACTAAGTTCTCTTTAAGAATCAAATTTCATTTGGTCAAAGTGATAAATGTACGTAAACTAAAACATCAGATA
GTGCTTTTACTAGTTAAGACTTACTCTGTCAGCATGTAATGGAAACCCCAAATAACAGTGGCTTCAACATTGTTAAAGTTTATCATAGAACAGAGCATTC
TAGGATGGACCAGGTACCCTTTGTAGCACTTCTCACTTATCTGTATTGTCCTCCACAATCTAAACTCAGTGATTTTATGTCATACCTAATGGTACAGGGT
TCTTTACAAATCATGACAGGGAAAATATTAAGTAGGCAACAAATGTGCTTCTAATGGAAACACAGTGGCCKTCTGCCTGCCCCTCTTGATCCTGTTAGTC
CCTCCCCTTTTTCCAACTCTTTTACCTGCTTCCTGACTTATCTACACGTTCCTCAGTATTTTCTTGCTCTTTCTAGCTTTAGCTGTGATGTATTGCTGTG
GTAGACGAGGATTACATTCCCTTGCATAGACACCCCATCACTTTCGCACCCTTGTTCATCCATTGTGGTTAATAGAACAATTTTTATTAAACTAGTTTCA
GTGTTTACATTTTTATAGGTATAAGCATTCATTGCTAATCTGAATGGTAGAATAGGATTGAATTTCTGTTCTTAGAGTACAGTTGTTTACTTTTTCTTAA
TGACATAATGGCCTCATTTCTTCATTTGCTTAGTTCTGTGTGAATCTTCTGTGAATTCTTATCTGCTCTAGCAGATGTCAGACACCTGTCAATAATATTT
CTGTTTATAAAGTACATTATGTATTTTATTAGCATGATTATATATCTATTAGTATTAAATTGTGTCAGCTTCTTCTTTCCTGGAGACATCCCTTTGCAGA
GCTCTTTAGATCAGCAGTACAGCTGCCATCCTGGGATGGCGTTTGACTCTCTTTAGTTTTAAATCTAATTCCTCTTGACTAGTATAGTTCCATATTTTGG
TGGCCCATTACCTCCAGTAGTTTTCAGAGAACAGCTCTAAAGGAGGCAAAGAGTTTAGGTTTTGTGTTTCCAAAACTATCTTCATTCTGCCACCACAAAA
AGTGATAGTTATAAATCATTTTTATAAAAGTGGTAAATCAGTATAAAATACTGATTTTATAATAATTTTCAGGCACGGTGGCTCATGCCTGTGGTCCCAG
CACTTTGGGAAACCAAGGTGGGCAAATCGCTTGAGGTCGAAAGTTTGAGACCAGCCTGACCAACGTGGCAAAACCTTGTCTCTACTAAAAAATACAAAAA
TTAGCTGGGCGTGGTGGCGGGTTCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGTAGTGAGCCGA
GATCGGACCACTGCACTCCAGCCTGGGCAAGAAAGCGAGACTTTGTCTCAAAAATAATAACAATAATAATAATAATTTTATCTCTAAATGTTGAAGGCAT
TGTTCCATTGTTTTCTACTTTCCAGTATTGCTAATAAAAAAAAAAATCTGATACCTTTCTGATTCCCATTTATTTGTATGTGATATGTGGTTGTTGTTTG
TTGCATTTATTTTTGGTTAGAGAATGTAAGGTCTTGTCTCTGTAAAAGGTTTTACGAAGAGTCTTCAAGTGCCACGGTATGTGCATTCTGTTTGCAATCT
TTCTGTTTACAAGTTTGAGTTCATCACTCCTGGAAACTTCTTGTAATTCTTCCTGTTTTTTCTTTTATTCCTCTTTCGGGAATTTTCATTATATAATATT
TGACTTCCTAGACAGTTCTTAAAATTTTCTTCTCTTTTCTGTTCTATTTATATTATATTTTAGGTTATTTTTTCAGTGTTTTTTCCCCACTGTTTCAGTT
AGCTTTTTTATTTTGGCTGTCATTTTAAATTTCTAAGAGCTCTTTTGCTCAGTTGGGTTTTTTTTTTTTTTTTTTTGCCTTTTTATAGTTTCTATTTCTT
GTTTCATAGATGCAATATTTTAGCTGAAGATTTAATGACATTTTGTAAAATGTTTTATCTGCTTCCTTAGTGCCTCTGGTTCCTTCCCAACCCTCCCCCT
TTTGTTATTAATACTTTCACTCTCACTTTCATTTTGGAGACTTATAATCTTTGGGTGCATTCATATTTCAGAGCAAGGTACCCAAAGACTAAAAGTTTAT
ATGCATCATTAGAGATCTGCTTTCTCCAAGAAAGCAGAAAGCCTTCTTTTTAGGTTTCAAGTTTTAGGATGTGAAGGCAGCTCTTTTATTAGGGGTTTTC
CAAATGTCAGTGTCTGAGGTTTGTCTCAGAACCTTGCAGTTCTTTCACGCTCCTGCTTAGTAATCACATATGGTGGCATTTTGGAAGCTATGTAAGTGAG
GGAGACAGAGAACCCTATAGTTTGAGGTGCTCTCCTTCTCTCTTCAGCCTTGCTCTTCCAAATATTTATTGAATTCCGTCATCCTTTTTTGTCTTCAATT
CTTTCTTTGGGAGATTATCTGTTCTTATGCCTTTACTCTCATTTTAGTGGGATCACTGGAGGAAGAAGAAATAAAGACATGTATGTTTAAGTCACCATGG
TAAATTGAAAGGCTTATTATTAAGTTATGCCTGTCCCTCCATATTTCTTCTCTTCCCACCCACATCAGTGGAGAAAGAGCTGAGATTTATTCTTTCTGTT
AAAATCCCTGTTATGCCTCTTCGACTGCCAAGGTGGCATGATTAAAGAGTTTCTTAAATATAATAGCATTAGGGTATTAGAGTCAATCCCGACTGGGTTT
ATAAGTAGATTTTTCATTGGCTTGATCGGTGGATTTTCCACTATGTCTGTGTATAGGTAAGGATGTTGGCTTTCTTCAGAGTTGGTTTCCCCTACCACCA
CCATAACTTAAAGAAGACTTGACGGATAAATCAGTTAGTCTTTGCATTCACAGCTAGAAATTACAGGTTGTTTCTGAAATTAGAAGTCCATTTTCAGGTT
AATGATTTTTGGAAAGCAGGCTATAATCTTTGGTATTATTACCAGAGTATCATCTATCAGAGCCGAGCACTAGCGTCAGCTACTGTATGTTTAATGTGGG
CCTTTCTTCTTTATCACCTCGTTTCCCCTGGCCCCCTCCCCACACACAGAAGAACATTGTGATAGGATTCCAAATTAGGATTTCTTCTGAATTTTGTACA
TTCCAGTGACAAGTGGTTGACTGATTAAAATGTATTCTTGGAATGTGGAAATAGCTCAAGTTTAGAGGAATGTTGGAAATTACCTTTGACTAAATTTTGT
GCATACCCACAAAGACCCATTATATACTTTAATTATTTGAAATAATTGAAGTCTTGCAAGCTGTCGATATTCAAGGAAAGCCTCATGTCTCCAACTTTCT
GATTCTTTTTTTATTATAAAGTGCTTTACCCAATAGTAGGTAAACTATCAAAATTTCTTCATGCCTACCAAAATTTAAGAGAATGTATATGAATCTGTCA
TGTGTAAGATCAAAGGAAAAATGTAAGAGGTTTCCCCATATGAAAATCCATACAGTGTTTGTGTTCTGTTTGATTGTAGGCTTTTACTTCTGATTGATTC
TACCAACTTAAGAATTCTTGCCTTTTAACTTTAGGAATTAATAATCAGTGGCTTTTGTTAACGGGAAGACATGAGTGTGGTTTGTTTTTAGTAGACTTCC
TTCTTGAGCAGAAGATACAAGAGAGTTCCCATATGCTCCCTCCCCCCACACATGCACAGCCTCCCCCGTTATCACTGACCCCCACCAGAGTGGTACAATT
GATACAACTGATGAACCTACATAGACACATCGTCACCCCAAATCCATAGTTTGTATTAGGATCTGCTGTTGGTATTGTACATGAGTGTATTTTTTTTTTT
TTAAATAATGACATTGGCTTTAATTACAGTACAAAAATTGAGAAAGAGAAAAGAGAGCACGCAAAACAACATGGGATGATCCGCACAGAGATAACAGGAG
CTGAGATTGCGGAAGAAATGGAGAAGGAAAGGCGCCTCTTTCAGCTCCAAATGTGTGAAGTAAGAATGGACTTTTCCACCATTTGCCTAGAATTATAACA
ACTGTGATCTTTTCCTGCTAGTCAGCAGTCTTTATGCTTAAAGGCAGACTGTGTTTGATTATTAGAGAGGAAACTGTTTCTTAAGGATTCTAATCTCCAT
TTTTCTCCAAGCCTTTTGGGAACCTGCCATTGCACTGTTGTCTCATATTTTGAGCCTTGGCCCTATGGGGCTGTTTAAGCCAAAACAGGATTCTTTGGTG
AGAACCTTAATGTTGCTTGTGAGTGGTTGTGGGAGGAAAACATTGGTGAGAGGTAACACTGGTGAATATTAAGTTTTATTGGTGTATGTTTAGAGCATGT
TTTTTTAACCATATGTCCAGTTTGAATGAAAACTCAAATGAAGTTGTCATTAAGAAAGTCGATTTCACGAAAAATGCAACAAAAAGCATGCTGCCTTAAA
CTTAGAGCAGTGGTTCTCAAACTGAATTCCAATTGAACATGAACACTTCTTGACCTAGAAACCAACCTGTTCTGACACGGCTGTTGAGTAAGAGTTTCTT
TTGCAGTTTTCAGAAAATATTAAAGTGGAGAACTTTGTCAAATTTTTTTCCTTCCCTAGATTTTTTTCTCCTTTCCTTTTCCTTCTTCCTCGCTTTCTCT
CTCTATTCCCTCCTTCTCTTTCTCTTTCCCCCTTCCCCTTCCCCTTCTCCTCCCTCCCTCCCTTCCTTCCTTCCCTCCCTCTCCTTTCTTTCTCTCTCTC
TCTTTCTCACCTCTCTCTCTCTCATTCTCTTTCTCTTTCTCTTTCTCTCTTTTTTCTGTTTCATAACCCTTTGGCTCCTTGAGTTTGTGTGCTCATGAAC
CTTTTTACAGAATAAAACAAGTGAGCAAACAGTGTCAATAGAAAATCTTGACCAGTGCACAGTACAAGTACACTACTGTGTTTAGTTACCTCAATAAATT
AGTGGGTTATTCTTACTTTTATTCTTTAATTTTTGAGTAGTAAAAATTCTTTCTGATTCACCTCTTTTTCCTAAAGTTTCAATATCCTATGGTATATTCT
TTGATGAGAATGCTATTCTGCGTACTTTCTGCAAAAAACAATCAATCTTTCCAGTTTTTGACCACATAAACTATACGTTTGAGATCCACTGCACCAAGGG
GAAATAATAATTCTAGAATGTTTTGCTGTGTTTTATTTCTGCTTGTCGAGTAAACTAATCATAAAATAATTTATAAAATGCTAACACTCTAGTCAATTTG
TTTTGAACACTTTGTGACTGCGAAATCAGCATTCTCTAAACTGTCTAAAGGACACCAAGGCTTGGTAACTTGTGCAGATTCAGGGGTGATGTTCAGCCAC
CTGAACCCATGGCTGAAGAGCCCCATCTGGAATTAATCAACGCAAAACCCTGTTTTATTTTCACAGTATCTCATTAAAGTTAATGAAATCAAGACCAAAA
AGGGTGTGGATCTGCTGCAGAATCTTATAAAGTATTACCATGCACAGTGCAAGTGAGTAGAATATTGCAAGCATTGTTATTAGCCCAATTACTGCCCCCT
GTACTTCATTATTTGTCTTAATCCTCTTCATATCTTTTCTTCATCTCGTGACTAAATAAAGTGATATAATGACCTTTTTCAGCTAAATGGATAAGAAATA
GTGTCTTCCATCTTCAGTGTTTTATACAAATCAGTAGCTCAAATTAGGGCTTAAAAATATTGTCTTCCTTACAAGAAGACAAATACTTACAAATACTTCT
TCCTAAATTTGATCGCCTGTGGAGCTCTTATTACAGATGCATGATCCCCTGTCACTGAAGAGTCCTTTCTGATGACCCCCTACCCTGACTCTCTTACTTG
GCATTTTGCCTTTTTTTTTTTTTCCTTTGAGACGGAGTCTCACTCTGTTGCCTGGCTGGAGTGCAGTGGTGCAGTCTCGGCTCACTCTAATCTCCGCCTC
CTGGGTTCAGGCAATTCTTCTGCCTCAGCCTCCCCAGTAGTTGGGATGACAGGCGCACGCCACCACACCCAGTTAATTTTTTTTTTGTATTGTTAGTAGA
GACTGGGTCTCACCGTGTTGGCCAGGATGGCCTTGATCTCCTGACCTCGCGATCCACCTTGGCCTTGGCCTATTATTGCACCATTTGCACCATGTATTTC
CACCTGGAGTCTTCAGTTTTGTTTTGTTTCATCTAAAATAAGTGAATTTAAATAGTTGGGGCATTAAGAATACTTTGCATTTGTACATGGATTCCTATAT
AATTTGTGTTACATTTTGAGAAATACCATTGTTCTACACTGGCACCATTTTTGTTTGCCTATATTGCAGGGCTATCTTTTTGTTATGTTTGTGATTCTGT
GGTGCCACATTTGCTTGTTTACTTATTGGGTTAACTTTCATGGGTTTTCTGGTAGAGTCTGTGTGTGAAAATGTGCCAGCTACACATGGAGACTCTACCA
GAAAAGTAAAGTCTGTATTAGTAAAGTCTGTATTCGTTGATGGAAGTTATACCGAAAATAATGGAAGGACCTTCCAGAAATGGAATGGACAGCTCTCATA
AGCAAAATAATGTAAAGGTCGTTTGGACTAGATAAAATACTCTCAAAAAAGTTAAATTCATAATTTCCTTTGATCTTTCTTATTCTTTTCAATAGTTATA
TTTAGAAAGATACCTGTATTCAACTRAAACATTTAAGGAGGTYAGCATTAATATTATGTCAAAAGCACAAAGCTTGGGTTAGACAAATTAGATGAGTCAA
CATTTTGGCTCTGCAGCTRGTTAACTGTATTCTTAATCAGGTACTTCACTAAACCTCAGTATACTCACTCGTCAAGCTGGGTTACGATTCTGTAGCAACC
ACCTTAGGGTTTTTGTAAGGCTGTAAAAAGTGAAAAAGAATGCATGTGGAGTGCTTAGCCCAGTGCCTGCGACCTTGTATGTGTTGACAGCTGTGATGAT
TCTAAGTGGCATTTAAAATTATTTATTTATATATTTTATTGTCTAGGATATTTCTCTTAAGGAAAACCTTTTTGATGATCAAATTGTTGTTTACATAAAT
TTGATGATAACTTTTTTTCAAAGTAAATTGTACCTTATATAAGTGTCTTTCAAAAATAAAAATAATATATTGAAGTAGAAAGTTTTCACCTTCTTAAGAT
TAAGTTTGTTTATTGAAGACCTGGATTAACTAACTTACTTTTGGCTTTGTAGTGTGGTTGGGCAGTTATGAAACTTTGGCCTGTGTTCTAATGGTCCCTG
ATTTTAGTATTGGGTGGAATTTTTTATCTTTCATCAAATTTAGTTTTCCTGGAAACATTTAATTCCTTTGAAAGTTTTAAAGAAATAAGTGAATCTCTCA
GTCTCCTGAATTCTGCAGTACTTTGGCAGCAAAACTGATTTCACCTGACTTTAGAAATCTATTTTCACGTTAAATTCTCTAAGTTTATAAGGAAGAGTTT
GGCCTACACAAACAAGAGTTTTTCAAAATAGAAGATGCTTTGTAAAGTATACATATATTAGCCTTCGCTAGTAATGGTGATKCTAACTTGTATAGCTAAT
GCATCCTCCCTTTATTCTCTTATTCTTTGCTTTTTCCCTTTCCACAAATATGTATTAGTCTTTTACCAAAGATCAGCTACTGTGCCCAGTTCTGGGACAG
AGATAAAGCAAGGCTTTTCCGCTCAGGAGTTAATTGTCCAGGTATAGGAAGTAAGTCAGATCCRTTATTAATCATAATGGGGCTGGACAGTGACGGGTAC
CATGGAGCATCAAGAGGAAGAGAGACGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCCGCACTTTGGGAGGCTGAGGCAGGTGGATTATTAGATTACAG
GAGTTCAACACCAGCCTGACCAACATGGCAAAACCCCGTTTCTACTAAAAGTACAAAATTAGCCAGGTGTGGTTGCGCATACCTGTAATCCCAGCTACTT
GGGAGGCTGAGGCAGGAGAATCGCTTGAATCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCATTGCACTCCAGCCTGGACAACAAGAGCAAAAC
TCTGTCTCAAAAGAAAAAAAAAAAAAACAGGAAGAGAGACATCTGACCAGGAGGACTGAGGAGAAGGTATTAGCACCTTGAAGGAGGTGGTGGGACTTGT
CATTGAACTTGGAGGATAGCTAGGATTTTGTTACCAGATTGCAATCTGGTAGACGAATGTCCCCTAGGTCAGAGAGAGATCATCAGAAGAAAACCCTACA
CAGTAAAAACCTTGTAGGGAGAGAGATGTTCTGAGACATCAAGTAGTAGAACCATGTTATAAGGGGATTCAACTAAAAGTTACTCCATGGTGGAACCCCA
AGAACTCTATCATAGCAAGAAGCCAGAGTAGTTTCCTTTATTCTTTTCTACTTCTGTCAGTTCCTCAAAACTCTTAATAGGCATATTGTATGGACCTGTT
AAGCATTCTCTACGTAGGTGTTTTTTGTTTTGTTTTGTTTTTAAGATTTATTCTTCTCAGTACTTACTTCAGTTCCCAAAGTGATTTTCAGTACAAAGTC
AGCTGGTATTCAACAGTGAATTTGCCTAGGTAGTAATAGTCACGACACTTCCGTGTGGATGAAGCTACTACACTGGAGAAATAAATAAAGGGAACAGAAA
AGAAGGGCTTTTAACTGTTTCCAACTCATTTCAGCTCACTCACTAATTACTGCTCAATTTCAGACATGAACATTGTCGGGAACATGCTGCTTTCCARACA
GACATATCCTCCAGTTCACCTGCTCCTTTTACCTCCTCACAAGTGTCATTATGACCTGCAGAGTTAACAGCATTTATAAACATTGCTTTATTATCTGTCA
TTTTACAGATAATAAGAATAATAGCTAACATTTACCGAGAGCTTATTTTCTGGGACGAATTATATAGGCCCTGCCTCTAAGTTCCTTACATGTGTTTTCT
CATTTAATATTCCCAACACTCAAGAAGTTGTAGCTCAGAAAGGATCAGTATTTTGCTCAAAGTCATGTTCATTCATTTAATAAACGCTTAGTAAATGTGT
CAAAGCAGACAAAGTAAGCACAGGAAACCAAATAAAAATATAAATTGGACTTCAAAATTAAAAACTTTTGTTCATGGAAGTATATTATCAAGAAAGTAAA
AGACAACCCACAGAATAGGAGAAAATATTTACAAAATATTTTTCTGATAAGAGTCTGATATCCAGAATATATWAAAAAAACTCAACAACAGTCCAGGTGT
RCTGGCTCACACCTATAATCCTAGCACTTTAGGAGGCCGATGCAGGAGGATCACTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACACAGGGAGACTC
TGTCTCTACAAAAAATAAAAATAAAAAATTACCCTGGTGTGGTGGCACACGCCTATTTTCCCAGCTACTTGGGAGGCCAAGGTGGGAGGATCGCTTGAGC
CTGGGAGATCAAGGCTGCAGTGAGCCATAATGACTTACTCCAGCCTAGGCAACAAAGCAAGACTCTGTATATTAAAAAAATTGTACACACACACACACAA
ATGGCCAGAAAAACACGTGAAAAGGTGCTCAACATCATTAGTCGGTGTTAAGTACAAATCAAAACCTCAATGAAATAGCACTTCACACCCACTGGGATTG
TTGTAATTAAAACAAAAAAAGTCTTGGTGAGGATGTGGGAAGATTGCAACCTATGCATTGCCAGTAGGAATGTAAATGGTGCAACTTCTTTGGAAAACAG
TTTGGGAATTTCTCACAAAGTTAAGCATAGAATTATTTAAATAAAATGTGTACATGAATATTTATAACAGCGTTATTTACAATAAACAAAACACGGAAAC
ACCCAGATATCCATCAGTTGATAAAAGGTTAAACAAAATGTGGTATATCAAAATGGAACATTGTTCAGCCACAATGCTGAATGTGAATGAAATATTGATA
CATGTTACATATGGGTGAACATTTAAAACATTAATGCTAAGTGAAAGAAGCCAGACACAAAAGATGGCATATGTTCACTAACTCAGCAGCTCTCTAAACC
CCTTTGTTTAGAAGATTTTATAGAGGTTTTATTACATAGGCATGATTGATTAAATCATTGGCTGTTGGTTATTGGCCCAATCTCCAGCCCCTCTGCCCTC
CCCAGAGGTGGGAGGAGGGGTGGGGCTGAAAGTTCTGAACCTAGTTGCATGGTTGGTTCTGTAACGAGACTAAAAAGAGATTCCATGAATTGTGTATAAT
AGTGCGGTGACTGGTACAGAGTAAATACTCAGTTACATGTTAGCTGCCATTACTGTTACTGTTACTGGTTTTTGAAGATCTTGTTATGTTACAGTAATTT
ATAGAGAAAGTGGCTAAGAGATRAATGAGACATCCTCGAGGTAATTTTCCCTTCTATTTGGAAGATTTATGTGTTAAGTGTAGTGATAGGTAGTCAGAAC
TCACACATRTGCTTCACTTTCCAGCTAACAACACTTTTATCTGTAGTAGCTCATCTGATGCTCCTTGAAACTAGAAAATGTCCACTTTGGAGATGAGCAT
TCTGTTATTCAGACAGGGTGAATAACTGCCCAAGGTTACCACGTATAGTAAGGTTTAGAGCCAAAATATAAAATATGATATGGTTTTGACTCCTAAGCCT
TTTTTTTTTTTTTTTTTTTTTTTTGGAGACGGAGTCTTGCCACTCTGTCACCCAGGTGGGAGTACAGTGGCGTGATTTCTGCTCACTGCACCCTCCACCT
ACTGGGTTCAAACATCAAGCAGTCCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCATGCTGCCACGCCAAGCTAATTTTTTTTTTCTTTTT
TTTTTAGTAGAGACAAGGTTTTACCTTGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGCAATCTACCCATCTCGGCCTCCCAAAGTGTTAGGATTA
CAGGCGTGAGCCACCACACCCGGCCTTTTTATTTTTTTTTTTCTTTTTGAGTCAGAGTCTCACTCTGTCACCCAGCCTGGAGTGCAGTGGTACAATCCTA
GCTCACTGCAGCTTCAACCTCCTGGGTTCAAGCGATCCACCCACCTCAGTCTCCCAAGTAGCAGGGACTACAGGCATGTACCACCACGCCCGGCTAATGT
TTGTATTTTTTTTGTAGAGACAGGGCTTCACCATGTTGTCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCGTCCTGCCTTGGCCCCCCAAAGTGCT
GGTATTACAGGCATGAGCCATGTGTGCAGTAGCCCTTGCATGTCCACTGAACTAGGAYGAGCTAAAACAGAGAGAAGAGAGAAAGGAGGAACAGAGAAGC
CACTGCCCTCTGTGAAATGTTTTGGCAGGTCGTGGTGGCTCTCTGTCTACCCTGTCCACAGCTGGAACTGTGACCCTCAAGGAGAAGAGAATGAAGCTCA
GAGGGACAGTGCAGATGACAGCATGTCACCCTTTGCTTTTTATGGTGTCACTGATACATTGCTAATGACTGCCATGGTTATTTTATTCTTCTACAACTCG
TCCTCCTTTCCTGCTCCTATTTCTTACCAAAACTAGAACTTGGCCCTCCCTGAAATTACTTTCTGCAAGGGGCTTGCCTCCAAATTGTTCATCCCAGAGA
AAATGTTGACTCTTTAATTTTGTTTTAACTGATTAATACGTGATATCCTTAAGAAAAAAATTAGAAACTGAAGTTAAGGAAGAATGAAAAAACCCTGTAA
TCTCCTCACTTAGATGATTACTAGATTCATGTATCTGGTTTGTTTTGTTTACAAAAATGGGATTATGCTACAGATTAAAGCAATTATTACATTGATTTTT
CTTAGAATCTGGGTATGTAACAGTCTGAATAATTGAAGCAGAAGGAAAGTAAATTTGTTTGGAGTCTTCAGCCTTGTAATTGGCAGGAATTTTCATTTTT
ATCAGTGCCATTTCAAACTAAAACAGTTCCGTCTTTCTCCCTAAAATTTATAATGTGTTCTTCAGTATTTCTTTTGTGCTGTTCAAATATTTGCTTATTC
TTTTTCTAGAGTGTTGTCCAGTAGAACTTTCTGCTATGGTGGAAATGTTCATACTCTTTACCATCTACATGGTACCCATTGGCCACACGTGGCTACCAAG
CACTTGAAATATGGCTTATGAGTCTTCAGGAACAGAATTTTTCATTTAATTTTTAATAGCCAGATGTGACTAGTGGCTACCATATTGGAAAACACAGATG
TAGAGCATTCTCATTGAAACTCACCTTTAAAAAAAAAAATTGGGAAGAGATTTAATTAGTGTTCTCTTATTTTTAAAAAAWGTTTATTTCAGTAGTTTCT
GGAGTACAGGTGGTTTTTGGTTACATGGATAAGTTATTTAGTGGTGATTTCTGGGATCTTGGTGTACCTGTCACCCGAGCAAAACTCACATTTTTTTAAA
GCATAAAGATTAAATTCCCTTTATGTTAAAAGTGAAAATGAAATACCTTTTCAAAAATATCTACAAAGAATCTGTATCCCTCTGCAAAGGAAACAGTTCC
TTATATGATAAAGTTATGCAGCTCCGGGGAAGAGAATGATTTCTTGAGCACATGCTAACTGCCCCACACTTTGCTGGGTAGTTTCACATGTCCTATCTGT
ATTATTTGCCCATTTACACATGAGCAAACTGAGGCCAAGAGAAGTTAAATGACTTGCCAGAACACAGATTCTTGGTCATAATCATCTGACCCCAAAGCCA
TTGCTTCTTCTGTTGTAAGAAGTCCTGACAACATCCATCTTAAATTTAAATGCTCTACCTTCAAAACTTTTCTCCAGAAATCACTTAAGTGCAGTATCAG
AGACCAAAACAGATTTTGCTATGATTAACTTTGTACCCATACTTTTAACTCCTGGGCATATATCCCTTCCTTGATGTAGAGGATGCTGGTTTCAGGTTAA
CACTTATAGATGGCCTGCTCTGTGCAGAACATTGCCAACCTCTCCAGGTCTGGCACTTAGGCCTGGGCCCACATGCTCAATGAAGCCGCTGCTTTGACTA
TCAGGTCTAGAGAATACTGCTTATGGGGTAGCAGCCGAGCTGAGTCTTGATAAAAGAGAGTTTGGCAGGCAGGTTGATAGGGTTTGGCTCCATGTCCCCA
CCCAAATCTCACCTTGAATTGTAATTTCCATAATCCCCACATGTCAAGGGCAGGACCAGGTGGAGTTAATTGAGTCATGGGGGCAGTTTCCCCCATGCTG
TTCTCTTGATAATGAGTGAGTCTCAAGGAATCTGATGGTTTTTTAAGTGTCTAGCATTTCTCCTGCTGGCATTATTCTCTCTCCTGCCGCCCTGTGAAGA
GGTGCCTTCTGCCATGGTTGTAAGTTTCCTGAGGTCTCCCTAGCCATGTGGAACTGTGAGTCAATTAAACCTCTTTTCTTTATAAATTACTCCGTCTTGG
GTGTTCCTTCATAGCAACATGGGAACGTACTACTACACAGGTATAGAGGGGAAGGGCATTCCAGGCAGAGGGAATAGCATATGCAAAGGCTGAAGTGGGG
AAGGATGGATTGAAAAAGAACAGGCAACTAGAAATAATGTAGCATGGCTAGACCTTGGAGTTTTTAAGGGAAAATGGTAAGAGATAAAACAGAAGTATTC
AAGGGTCAGAACGTAAACTTTTAAAATTCTATACTGAGAAGTTTTACTTGCATCGCTATAGGCAGTGCCGAAAACCCAAATGCTAGAAAATAAGGGTTTA
GGCCAGGCACGGTGGCTCACACCTTTAATCTCAGCACTTCGGGAGACCAAGGAGAGCAGATTACTTGAGTCCAGGAGTTGGAGACCAGCCCAAGCAATGT
GGCAAAACCTTATCTTTACAAAAATAAAAATGAGCCAGGCATGGTGGGGTGCCTCTGTAGTCCCGGCTACTCAGAAGGCTGAGATGGGAGGATCACTTGA
GCCCAGGAAGTCTAGGCTTCATTGAGCCACTGCACTCCAGTGTGGGTGACAGAGTGAGACCCTGCCGAGAGAGAGAGAGAGAGATGAGGCTTTACATGTG
TTCATGTATTTTTCAGTTAAATGGTTAACTAAAAGGCCATTTTTATCTCTCATCCCTGTTGCTGAAAAACTTTCTAAAGGTAGTATTTTTCTTCTTTATT
TCAATAAGGTTTCTTTGCCAAAGATGTCAGCCTTAAAAAATGTTGGAACTTGTAGGATTTCAGTAATCATTCTGAAGGCCACTTCTAATAGCCTGTGTTA
TTGCCACTGAACACTGAATATACATATTAAGCTTAAAATATGTCTCTTAAGATATGCCTTAAGCTGGGCGCAGTGGCTCACACCTGTAATCCCAGCATTT
TGGGAGGCCGAGGTGGGCAGATCACTTGAGGTCAGGAGTTCAAGACGAGCCTGATCAACTTGGTGAAACCCTGTCTCTACTGAAAATACAAAAATTAGCC
TGGTGTGGTGGCAGGCACCTGTAGTCCCAGCTACCTGGGAGGCAGAGGTTTCAGTGAGCTGAGATCACGCCGCTGCACTCCAGCCTGGGCAACGAAGAGA
GACTCCATCTCAAAAAAAAAAAGATATTCCTTAAAATGTCTTGATATTGCTTCATTCAGTCTGCTTTGTGTTGGGCCCACTGTGATAGGGAGATGAGACA
GTCCTCATGCTCAAGGTCCTCGTTGTTTGTAGGGAGACAGCAAAACAGRTAGTGTTTTGAGAAATAGTCTGCTGTAGGGACATGGTTAGAGAAGCTTCCA
ATAGGGCAGAGAAAATTCTAAACACGTTTTCTGAGGCATATTGTTTATTTTTCTAAACTGATATCAGAGACTGGGTTCCTGAGTGGAAGTGTGCCACCTG
AGACAAGAAATCTTCACTTGCTGGTAAAGAGCGTGGATCAGAATCTGGCAGACCTGGATCTGAATTCCACCAGCTYTGCTGCTTACTAGCTGCAACTTAA
CCAAGTTTTATACATACTCTGTACCTCAGTTTTACAAATGGAGATGAGATTGAAGTGCTTTAATTCATTAGAGTTGTGTACATGAAATCACTTGTGTAAA
GTGTTCAGTGCAGTACTGGGCATGTGCTAAATGCTCCACAGATATTAATTCTTGTTATTTTTCAGGTGAAGTCATGCAACCATGTGTTGTAGGATAAAGC
TTTCCAAACCCGTTGGTATTATTGCTTTGAATTCTTGTGTTTCAAATATATGTTGGAACACAGGGATCTTTGAGGAACTGAATGAATTTTGACTTTTCTC
CTGCCTTTATCTGTAGTTCCATCATATTTCTCTTTATAGTGTCCAGATCAACCTCATGATATTCCACTGGTTAATGTGTCCTTCTCTCTCCTTCAAATTC
AAATATGGTTTAACTGGGAAGAACTGTTCTATGTATAGATGCATATGTACGTTATGAAATCACTGTTTTGGGACTGCAACTGTAATTTCCAGTGTCCTTG
TGATATCTTCTATCAAATGTCAACTGACAGCCATAATTTATTTGTTGGTACATCTTTATAAAAATGCCGTAATTAGTTTTATAACTGTCTTGTATAGATA
AATCCATAGAGAATGAGTATATATATACAGATAAGTGTATTTTCAGATTTTGTAGGTTATTATAGTTCCTTTTTTTATTTCCACATAAGGAAACAAATAC
TCTTTTTTTTTTAATACTGGTGGTAAATCTCTGATTTTTTTAATTGTAGTTTCTTTCAAGATGGCTTGAAAACAGCTGATAAGTTGAAACAGTACATTGA
AAAACTGGCTGCTGATTTATATAATGTAAGTTCTTTATAAAATACATGCAGTTTAACTTGCTTTCATGGATAAGTTTCAGTAAATTTGAAATCTGTATTA
GAAAGGTGTTAAAAGCAGAAAAGATTAAATGATATGTCTGTACAAACCTAGGACAGATAACCCTTCAGTTTAAGTCAGAGAAGTCATCGATGGTCAAATG
CTCCAGAGTCCTTCTGGGGCCATAAGAGGAGCAGGGAGGGGAGTATACAGCCATCAGTTCCAGATGGTTCTGCATTTACGATTCAGTTAGCATCACATTT
GAGTGTTCCTTGGTCAGCAGTTGCAGAAAGAATGCATGATTGTGGAAGGATAAAAATTGACTCTGAATAGGCAGGTTTATAGAGTTTTTTGGGGTTTTTG
TTTGTTTGTTTCTGTTTTTGTTTTTGTTTTTCAGAGTCTCACTCTGTCGCCCAGGCTGGAGTACAGTGGCACGATCTTGGCTCACTGCAATGTCCGCCTT
CTGGGCTCAAGCAATTCTCGTGCCTCAGCCTTTTGGTACAGATGGGGTTTCACTGTGTTGCCCAGACTAGTCTTGAACTCCTGAGCTCAAGTGATCCACC
CGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCACGCCTTTGATTTATAAGGGTTTTTGTTTTGTTTTGTTTTGTTTTTTGCATGTTTT
ATATTATCTCTCTTTTTTTAGTGTCTAGGTCTAAATGTATATATTAGAAATGGTAAAGTTGTTGCCCAAAAATCATTTGGGGGTAAATAAAAGCGTATAT
ATTATGAGTATGAGTAAATATCCTCAAATAAAGTTTTATAATTACAAAGAATGCCTTTTATATAACTTTAAAAATGCATAGCTATGTATTTTTTCTGATT
TTCTTTTAGTAGTTAACATGGTTCAGGTTACAGTTAAGTCCCAAGTGGTTAAAAAAAGCAGCACTGATCCCTTGTCCCCATTTCATGCTATGTAAACTTT
GATGTATGCATTGGCCCATTAGACTCCTGGTCATTCTTAGGATTCTCTCCTGGACCATTTAATCACATTATGGTATTTTCATTACCACCCTTTGAAAAAC
CAGAAGCAAATAATCTCAATGATATAAGCTGTTTAGAATAGTACTTCAGAGTTAACTATCTAGCTTAGATAGGTTATTTAATAAGAATGCATGTTGCATT
ATTCACTAATTTCAAAACCCACTGCTGCTTTTATAAGATGAGAAATATCATATCAAAAATGAGACAGTATAAAGGACTTTTAGTAAGAAAACCAAATATA
TAATAGAATTTTGATGAGTGGTATTTTTGGATAAATTAAACTCTGCCTGTGAAAGTGTAAATGGTAAGTAATAGAAGTAATTTTTTTTTCATAGATAAAA
CAGACCCAGGATGAAGAAAAGAAACAGCTAACTGCACTCCGAGACTTAATAAAATCCTCTCTTCAACTGGATCAGAAAGAAGTAAGTGGTTTACATGTTT
ACAACAGGGCTAACAGTGTAGGTAAGGCTGCTTGTAATACCCTTTGTGTTTCCTGATCTGCAAGACAGGCACAGTGATATATAATATGCAAGTATGTACC
TACCATAAGCCCCATGTAGAAACTGTATTTTAGTTCCTTTTCCTTGCTTATAGGAAAGATGTTCTGGGTATCCAATTCCATGACTCTGGATTTTTTTTTT
TTCTTTTTTCTTTACTTTTTTGAGACAGGGTCTCACTCTGTCACCCAGGCTAGAGTGAGGCGGCAGGCACACTTATGGCTCATCGCAGCCTTGACCTCAA
CCATTCCACCTCAGCCTCCCAGGGTAGCTGGGACTACAGGCACATGCCACCATGCCTGGATAATTTTTGTATTTTTTGTAGAGATGGAGTTTGACCATGT
TGCCCTGGCTGGTCTTGAACTGCTGGACTCAAGCAATTCTCCCACCTCGGCCTCCCAAAATTCTGGGATTACAGACATGAGCCACTGTGCCCAGCCCCAT
GACTATAGATTTTCAATCCTAGTTTTGARGACATGCACTTCAGGAGCATATGCTGAAACATAGTACATTCTACAACTTTCCTCTTTAGACCACTTCTGTC
TTTCTGGGCAGCCAAAACAGGCATGTCTCATTTGCCAGGGAAATATTTTGATGCAGAATCCTACAGAAGCTTTGCCCCACAATTAGGAAATTTGAGGTGA
GTTGGTCCTTGGATATTGAAAGAGCATAGAATGCATGGTAGAGGCTGGATGAATGCAGTACAGATCCTTAGTTATAAATGTCATTTGTTCAAACATTTCA
TTAACACCTGCTGTGTGCCAGGCACAGTTCTAGGTACTAAGCTTTAGTCCCTTTCATCTAGTAGCTCATTATCTAGTCAGCCATATGAACAATCCATCAT
GCCTAAAGTGGTATGGATACTATTAGAGATACRTTGGAAGATGACTGCAGCCAGACAGAAACCTACAAGACCCAGAGATGGAAAACTCCCCAGCATATTC
AAGGGGCTGCAGACATTTTGGGGCAGGATGGGTGGAGGAGTCAGAAATGCAGTTTCTGAGGTAAAAACTCAGAMCTGACTACGGAGGACCTTGGGTGTTG
TACTAAGGGACGTAGACTTCATGATAAGGATAAATTAAACAGTAAGCACCATTTGTTTTCTGGGAGAAATTAAAAACGTGCCTGTTTTTGTTATGAAATT
ATGGGTTAAATTTAAGAGCAGTGGCTCATGCCTGTAATCCAAACATTTTGGGAGGCCAAGGTGGGAGGATCACTTGGGCCCAGGAGTTTGAGACCAGCCT
AGGCAACAAAGTAAGAGCCTGTGTCTACAAAAAATTTTGAAAAATTAGCCACGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTAGGGAAGCTGAGGAG
CCCAGGAAGTGGAGGCTGTAGTAAGCTGTATTTGTGTCACTGTACTCCAGCCTGGGCAATGGAGGAAGACCCTGCCTCAAACAAACAAACAAACAAAAAA
TGAAGAGCAATATTTAATAATAATAACATGAAATACAGCATTTTTATAGTCAGTTTTTAAATACTATCACACAACAATAGCAAGTTCACTTATTTTAATT
TCTAAAATTTCTGAAAGGGGTTTATGAGTCTAAAACAAAACAACTCCCATAAAACATGGGAAGCCCTGCACTAGTGACACTAATCTTTTAAAGCAACCCT
GAAGGTTTTCTTTATTGAGTGAATATAAGCCTCTATTTTTCTGGTTCTCCAAATCCAGGTATATGCACTGGGGATTGGTCAAGTGAGAGAAGTCTATAGC
ACTGTAACACTAGGCATCTGCTAACCTGTGGAGTAGGCAGAGTGGCCAGGAACATCTGTGTACACTAAGGCAGTTTCTGCATCCATGTCATTCAGTCTCA
GGCAGTGACTGCACCTGTGGTTTGAGGCCTCTGACTGTGATTTACAAGAATTTCCAAGTATTAGACCCCCAGTAGACTTCAGACTGAAGCACAGATATGC
CATGCATGCCCTTTGAAGGTGCTTATTACTGACACATAAATCCTAGGAGAAATGTGGTCTCTTTGAATGATTTCTCAGTGTAAGAGCATTAAAAAGACCC
AGGTAGAAGGGAGTACGGGGTGGTAGATTTCAGTCTTGGGAGAATATTGTGAGGTTTTTTGGGGTTTTTTTGTTTATTGTTGTTTTACTTACTGTATGTA
CTTAACCACTCCCTACCTTTGTTTTGTCACACAGTATTACCTCTTTCCTACATATGGAAGCTTTCTTGAAAAATAAAGAGGAGGACTGTTACAACCCCTT
TTTGTTTTGCATGGAGACTTAAGTGTTCCGCTCATGCTAGCTAAAGAACAAAGTTGCATATAAGCCAAAGGAATGTGTACATGATGAAATGCACATGATT
TGATTTAACCCCACCCCAGATTAATAAATGATGAGTTTTCATTAGTACCTTGCATCACAGAGTTTTACAAGTAATACATTGATCTTTCACAACATGCCTG
TTCCTTTCTCATGCTGTTTATCATCACTCATTGCAGAATATGTTTAGAAGATAGTGATTTTTCATGACTGAGATTAAATGTGAGAGGAGACCATCCACAG
AGAGTTCTGACCATGGTACTATTTGAAAAGAATGTCAAGTAATCTTAAAGATTAACTGAGGAATCAAAAGCACCCAACAAATCATTTAGCCTACTCATCC
CCACCGGGTTCTAACTTGGCTCCATTAAAGGAAGTTCCAAGAATTTTAGTTGTGAATAGGATCCCTGGAATTTCAGTAAACTCATTTTTTTTCTATTAAG
TTTTTATTGTCTTAGCAAATAAATGTTCTATGAAATTATATTAAGCTTTTGTAATAGCTTAATCTACAAAAGAACTATTTGCTATATAACTGTTTTTAGA
GTTGGAAGTAGGTTTTTGTTTTGGTTTTTTTGAGACGGAGTCTCTGTCGCCCAGACTGGAGTGCAGTGGTACAAATCTCGCTCACTGCAGCCTCTGCCTC
CCAGGTTCAAGTGATTCTCGTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGTACCACCAYGCCTGGCTAATTTTTATGTTTTTAGTAGAGACCG
GGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTCAAGTGACCTCAAGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAG
CTACTGCGCCTGGCCTGAAAGTATTTTAAATGGTGATAAGTCATATTTAGGATATACAGAATTATTCCAAAAATTACACCTGTTTTGTTTGAATTCACTT
ATGGACTCTTTTAAAACCCCATCACATTATCGTTTGCAGGTTTGACAGATTCTTTGTTTCTGTTTTACTCATGTCACAGTATCTGTCCTGTAGCCTGGTC
CCAGAAAACTATTCAAATATTTAGAAAAATGAAACAGAAGGAATCTTTTGCCCACTCCATTGATACCTTGCATTAGAAATTTTAGGCTTCTGTAGTAGAG
GTTTAGTTTTAAATTGGATACCAGAAACATTTATAGCCCCATTAAATCAATGAATGTATAATTGCTTGCACTTTTAAAAGATTTGAGACTCTACCTCTTA
ATAATACATTTTATACATTAATAAGATTTTCAAATAAGAAAGTGATTTGTCTATACTAATAGAGAATAGGAAATTAAAAAGATTTTAAGTTCATTGTTTA
TGTTTTATGTTTTTGCCCAAATGAGTTTTTCTGTTTCCTGAATACATAATTTCCGTTAACACTATCAAAGGATTCAGAACCTATTTCATTCCTTCAGTGT
GTCAGTTTTTAAATTGTTGTTAATGTTATTAAATGTCCAGTATCTACTTTCTCAGGAAAGAAAATCCTCTTTGCATTTGTCTAGAGTGCCCTGCTTAGCA
AGCTGAATGGCCATCATTTCTCAAAGAGCACAAGTAATAATCGGTGTGACTTTATTAAGCCATGAAACTCATTCATAGTTAATTTAGGATTGTTGATACT
AAACTTCTGAAACATACTGCTTCCTTTCTGCTCAGTTTAATGAGGTCAAACCCTGGAGTTTAGCCACTTTATTCATCTTTAAAAGCATATTAGTTTGATG
TAAAGCAAGCACATTCACTCCGAGGAGTTTGTTATTCAGAATTTAAGGTTTACTTAAGCTAGTAATAAATATATAAGGAACGTCTTAATGATACATTTAC
AGAATATAATCGTTTTTATAAGTTGTTAGTGTCTGAATCCTTGTTTAAAAGAAGTATTTTTATTTTTTAAACTTAGTGTTTTATTTTAAAGGTTAGCAAA
GGTTAAGATTAGAGATACACAGTTGCTTGTTTTTGATTGAGTGCCTAGTAGTGAGACATCCATTTTTGTTTTTGTTTTTGTTTTCCTGCCACATGTGGGA
GCCATTCTCTGATAGAGGAAAGGCGTGAAAGGCTTGAGAGATATCTCATTGTCACAGGCCTTTGCCAACTCCAGTATAATACATGTGGCAGTGTTAGGCC
CATTTGAAAACTTAACAAATGTGCCAAAAAGAAAACTACCACGAGAGATACATAGTTTTAAAGCATTTGGACAGACCTAGGAATTATGTGGGCAGATGAA
GAGAAGTCTAGTTCCGTAACAAGGGTTCCAAGGAAGAGGGTTATGAGTGAGCACCAGTGTACAGGGAAATTTTAGATTTTGTTTGTTTTTTTTTTTTTTT
GAGACGGAGTCTCCCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGTTCACTGCAAGCCCCGCCTCCTGGGTTCACGCCATTCTTCTGCCTCA
GCCTCCTGAGTAGCTGGGAGTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGT
CTCGATCTCCTGACCTCATGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCCATGTTTTTAATGTTTCTGG
AAGATACAGATAGGGCAGAGATCCCTGACTCCAAATTCATAATTGAGTAATTTTCCTGTGATTTTGTTGGATTAAAGCAGAAAGCCCTGTGGATTTCTTT
AATCCCTGCCTCTTGCTTTGTCTCATGCCTCAGTTCCCTGCAACCCAATCCATTTTTCTTCATTAGGATTATGAACACACTGCTGCCTCTCTTAAAAAAC
AACAACAAAACAAAAACCTGTTACTACTGTTGTTACTAGGGACTGTTGCTGGAGGTATTGGTAGGGGAAGGCTGCTCTTCTTGCTTGTCTGCTATTTAGT
ACAGTCCCTCAGTCCTACCTCCATTTAGAAAGTGTGAAAATATCTATTAGGGAGGACTTAGTGAACCACATTACTATAGGAATTCAAGGCTATAGGCCCT
GATTAAAAGTGAACATTTAGGTCGAGCATGGTGCTCACACCTGTAATCCCAGCACCTCGGAAGGCCAAAGTAGGAGAATTGCTTGTGTCCAGGAGTTCAA
GACCAGCCTGGGCAACACAGTGAAACCCCATCCCTACAAAAAAGCAAAANNNNNNNNNNNNNNNNNNNNCCCCTCCCTCTCTCCCTCAAAAGCAAAAATT
AGCCTGACATGGTAGCACACACCTGTAGTCCCAGCTACTCAGAAGGCTGAGGCGAGAGACTCATTTCAGCTTGGGAGGTTCAGGCYGCAGTGAGCTGTGA
TCACACTATTGCATTCAGCCTGGGCAACAAAGCAAGACCCTGTCTCAAAAATAAATATATACATATGTATTTTTTAAAAGGAAATATTTAGGGAGAATTT
TGCAAGAAAATCCTAGATTCAAGTCCATGCCTCATCTCTCCCAAATGATTAATATTGTCCAATTAAATGTTTCATATGGAGGGAATCTGGCCAGTTATAA
ACAGAGAAATTATTCAAATAGAAAATAACTCAAGTTTGTAACCTCTTTAATGTGAGTCAGCTTGCCTGGTTAAGTGTACAGTAAGCTCCCAGTTACCTAC
ACAAGAGAGCAGGACAGTGATATGGTGAGAGTGTGAGCGTCCATGTCAAAGCCAGGGCTTATGTTGTATACTCAGGGTCCTTAATACCTGGCTTTTAGGA
GGTATTCAGGACATGCTTTTGAACACGGAATCTATGATTTTCCTTTGATTGTTACTTATATTAATTTTGCATCACTGAACATACATTACTTGGCCCAAAA
GGATCCTGAGTGTCAGAAAGAAGCCATCCTGGCGTTAAAGGTATTTCGTACACAAGTCAGTAAATAGCCAGTGGTTGGTTCAGCTTACCTCGACACTATC
ACATTTCAGGTGTTGTTTATGAACTGGATATATTTAAGTTCTTTTCCCTTGGGGAAAAATAAAAAAAAAAAGTCCTGCTACAATTTGTGGCTATTCCTAG
ATTTTCTGAATAATTCATTTTGGGTTTCACTGAGGTATTGATTCCCTATACATACACATTTGAGGTTTGTCAACCATTTTATCTTCCTAAAATGTGTGTG
TGCCTCACATTCTTCTATTTAGCCATGTTTCTGTTCTCACGCCATATGACCTGAAATAAAACCTGATAAATACAGACATTTGATTGTCCTGTCACCCAAA
GTTTATCCTGAATCTAGAGGTGTATGTGTTTTCTGGTATTATCTTTACAGTGATATTTTCTGTGTACATTATATAAAATGCTTAAATTATGGATAACATT
TTCAATGAAATTAACTATATTTTCAAATGTTCTGCCTTTTTTCTCTGTTTCTTTTGCCCTTCCTGATCGAAGTCTAGGAGAGTAAGTCAATACTTTTTAT
GAGAATATATTGTCCTACTTGTATGTCTAAAGACCATGTTCTCRTTCTGCAGTTCAACGTTGTTGATTTTATTTCTTACATTTTCGTAATGTAATGGCTG
TTTCTAGTCATGTAGTCCTTAGAAACTATGGTTAAATGTCAGTGGAATGCTAATAATAAATCAACCTTTTTTACATCTATGTTGTTGGTTTGGCCCTTGT
CACCCTCCACGACATCATAACACTTTTCACTGCTGTAGAATTGTCTTAATTTAAAAAATGTGGTTATAGGTATATTTTACAGAGCACTAATTACAAAATG
AGAGACATAATAATTGTTAAAACCTTGCTTAGAAGGTTCCCCTTTTATTTGGGGGCATATTGGCAGAATGTGTAAAGGGAGAAAGGTACAGCCTAAGGGA
AGAACATGTTTGGGTTGCATGGACTTTATTTTCTGGTCCACTTCATTTTTTCCAGTCCCTCCTGTGTTTGCCTCTGCCGCTAGTGTAAACTGGATTCAGT
CTTACAGTAGTCTGTCTACCAGTGCATTGTGCTTGTTTGAATTCAGTTCAGAGTAGAGGTGGGTTTTGAACTAGAAATCAGAGACCCAGACCCCAGCTCT
GCCTCGGACTTGCTTTGTGACTCTGGCAAGTGTTTAGCTGCCCTGTTTCCTCCTCTAAAATAAAGGAAAGGACCTGACAGCTCTTAAAGTTCCATAATTC
CCTTAGACCCAGACCAGTGCCAAAGGCTCAATGGCAGAATAGAATCAAAGATGGGAGAATTGTCTCTAGTTTTTGTTTAATCTGTAGTTTTTCTTTCCTA
GGATTCTCAGAGCCGGCAAGGAGGATACAGCATGCATCAGCTCCAGGGCAATAAGGAATATGGCAGTGAAAAGAAGGGGTACCTGCTAAAGAAAAGTGAC
GGGTATGTATGAGCCCAGCCCAGTGTCTCAGTGTGTGATTAACCTAGAAAATGTTTCCAGTCTCTCATATAGGGAAACACACTTAAAATTTTATAATACA
CTAGCTGCAGACCTTTAGCACACTGGTTTTCTTCAAGTAAATCCGAGATTTGACCAGCTCTCTTTAGAAGAAACAGTAATTGCTCTGTGGTCCCTAAATG
GCACTTCTGTCTTGTAACGTGCAATTATAGGAAGGCAGCTACTGAGTAGCACATGCAGCAGGCAAGTGCTGACCTCATACTCACCCACCTCTCCGCTTTT
TTTTTTTTTTTTTTTTCCTGAGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTGCAGGCGCCTGCCACCACGCCTGGCTAATTTTTTG
TATTTTTACTAGAGACGAGATTTCACCATGTTAGCCAGGTTGGTCTCGATCTTCTGACCTCGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTT
TAGGTGTGAGCCACCGTGCCCGGCCCCTCTACCCTTTTATTCACTGCAGTTTTCTCTGCCTGTTGCTCACCAGGCCACCCAACCTTGGGTGTCACCCTTG
ACTCCTCTTTTGCCTCTTGTATTATAGCCAATCTGGCAAAAGCTCTTCCATTTCTAACTCTGAAAGTAATATACTCTTGCCATCCCCTCAGCCCCTGCTC
TAGGGTGAGCTGCTGCTGTCTCTCCTGGAGTATTCAGCGGCCTCCTAACTGGTCTCTTTGTATCGCTCATTCTTCTTTTTCTGCAGTTCACCTTCACACA
GCAATTAGAGTGGTCTTTTAAAAATCATAAAGCACAGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACG
AGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCAGGCACCTGTGGTCC
CAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGCGAACCCTGGAGGCAGAGCTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCAACAG
TGCGAGACAAAAAAAAAAAAATCATAAAGCATATGATGTCATTCGCCTGCTTAAAATACTCCAGCGGCTTCCCTTTGCATATAGCATCTCAACCCTGCCT
TCCTGTCCCACCTCATCTTGTTCCATTTTCTCCCCTGATCCTGCCACATGAGGCTTCTTTTCTGTTGCTTAAACAAATGATTCTGCTTCACAGTAAGTGC
ATAAGTAGAATCTTCATTATTCCCTTTAATAATTGTCTTTTTGGAGGGAGGGGACAGGACCTTGCTCTGTCTTCCAGGCTGGAGTACAGTGGCACCATCA
CAGCTCACTACAACCTCCCAATTCCTGGGCACAAGCGATTCTACCACCTCAGCCTCCTGAGTAGCTGGGACTATAGGCACATGCCACCATGCCTGGATAC
TTTTTTTTTTTTTTTTTTAAATATAAGCAGGGTCCCTCTTTGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGAAATTCTCCCACCTTGGTCCCCCA
AAGTATTGGGATTACGGGCATGACTCACTGTGCCTGGCCTATTGTCATTGTTTTTTTTTAAAAGAAAGCTCCTTGTTTTCTGATTACTTGTGGATACGTA
CTCCTTGGCTTAATCTGAGACATGTACATTTTTTACTGTAATTTGTTTGTTAAAATTATAAATATTTCTCTTCTAAATTTCTGGGGTCATTGACTGTTTT
GCTTATTATTCTACTCATGCATTCAACAAAGATATTTTGAGTCCTGCTGTATGTCTAGGACTCACTCTTCTAGGTCCTGAGAATACAGCATTGAACAAAA
GAAAATCTGGCCCTGATAGAGCTGACATTCTAAGGAAGGAAAGAGACAAAAAATACTCAATATATGGTAGATCAGATGGTAATTAGTGCTACGGAGAAAG
ATCAAGCAAGAGATGCAGGTGGTGTGGGGGATGGGAGTGGTTCTTGCTATTATACAGGTGATTAGGGAAGACTTTATCAAGTTGATGTTTGAGCAAAGGA
AGTGAGAGAAATTCTATGCAGATACCTGGGAGAAGAGGAANNNNNNNNNNNNNNNNNNNNAAGTAGTCAGGAGCATGCATCTCATGGTGACAAAATACTT
GAGAGTTCAATGTAGCTAGAGTAGTGAGCAAGCCAGGAGGTCATAGGAGATAAGGTCAGAGGGACAGGGAACCACTCCGTGAGGTGGGGAATCATTAGAG
GGTTTTGAGCACAAGAGTGACATAATCCAACATGTTTTGGAAGCTTCTCTCTGACTACCAAGCAAAGCAGAGTCATGGAGGGTGAAAGCACAGAGACAAG
GAGACCAGTTAGAGGGAGGGCTGCATCAGAAACCTAGATGGGAGCTGATGATGAGGCCAGGGGAACTGCAGAAGAGAGGGTAAAAAGTGGTCAGTTGTGG
ATAATGGAGGCAGGGGCAGCAGGACTTGCTGATATGGGGTGTAGAGAAAGAAAATCACCCCTCGTCCAGCATCTGGCTCATTGTAGAATCAGTTAGCTTA
ATCCTGCTGTGAAAGTAAAAGGAGAAAAGAAATCCCAACTAACAATTCACAGATTTAAACTGGGCTCTAGAATGGTGACCAAATGCTAGTCCAAACTGCA
TGAGATAAAGTGTACATAAATTGTAAATTCCATAGCTTATCTTGCTGAAAAGCCTCAGGCTCAGCTCCTTGTTCTTCCCTGACCATCTGTGGTACAAACA
TCTCTTGGAAATGTGACCTGTTCTGTCATCAAACGAAAAGTTAATATTGTGTTCCATTATGAGCAACAATGTACTATTACATATCTATTGAAGCAAAAGT
ATAAAAGTCATTTTTTAACACTACTCTCCCGAAATCACAATGATCTTCTTGAAATTAGAATTGCCTAATTCTAAGTGAAACGGTTAAAATCTGTATATCC
AAGGAAGATCAACAGTCTTTTCTTAAGTGTTGCATAGTTCAAACCCTAAAGTGTTCAAGTAAATTATCTTGAGAGCACCTGTGTATGCCTGCCACACACC
CAGGTGCCTGCTCACTCATCTCATTTGACATCTTTTACAGAGGGATTAAATAATTTGACTAAGATCATACGGACAGTAAGTATGAACACTCAAATTTGAA
CCTGGGTCTTCTGACTTAATGCCAGGGTATCTCCCCTTTGTTTTTCAAAAGGGCCACTGCTGCTGTTATCACTCTAAGGATATGCAAGGCATAAACTGGC
ACAAATTCACCCCCTTGACTTCTTCGTTCTTTTGTTCTTTTCCTTCATGTACTCATTCCACACACATAGATGAAATACTCTAGTGTATGAGGCAGCCTGC
TAGATGCTGGAGGTAAAACATAAATGAGATACGGTCCTCACCCTCACTTTGACTGCAGTCTGTTGGAAAGAGATACAGACAGAGCTGTTGGATCATAGAG
TTGGAAAGGAGGTTGGAAGTCAGGTGGTTCCACCTCCTAATAATGGCACAGATAGCAAAGATGAGCACTAATAACCTGGAGTTGCTTGTGACTTCTGTGG
AAGAGTAAAAAATTRAAATGCTTATACATGAAAACAGACTCATTTGCAAACAATGACCACTGATATGTCCTGTGATTTTTCTCTGAAGTATTATTTGCGT
TGGTAATTTTTGACCSTAGCTTTGGAATGCTCTTTATTACTTAAAGGATTATAAAAATAATTTTTTAAAACTTTATGGACCAGAGGCAATTATTGAGAGA
CAAAGGAGCAATTGCTTTATTATATTTTCTCATTATATGTACGAAAGTGGGCATTACTGTCTTTGTAATACAGAAAAGGAGAATGAGTCTCCAAGAGGTC
AAATAACATGAGCAAAGTCACATAGCTAGAGATCGCGCTGGGATCAAAGCTCAAGTGATCTGGCATCAAAGTTGGAATTATCTATTTATACGAGACCATT
TTCTAATAGAATTTTCTTTTCTGGAATTGTAAGATTCTAGCATGGCATAATCAGTAATCGTGTGTGGCACTCTCTGTGAGCACCAGATGCCAAGAGTCTT
TGGTATGTCCATTCAGGAGCTATGCAGACTGGAACATTTGTAAAGCTTTCAGTACAGAGAGTGGGGGAGATCACAGCAATTCAGTCTAGTCCATAGAAGT
CTTGGGAATAGAAGCTATCAAAATGTTCACAAAGATCAGGTGCTGGCTGGGCGCAGTGGCTCATGCCTGTAATCCCAACACTTTAGGAGGCCGAGGCCGG
CAGATCACGTGAGCCCACCAGCCTGGGCGACATGGCAAAACCCTATCTCTACAAAAATTAGCCAGGCGTAGTGGCACATGCTTGTAGGCCCAGCTACTCA
GGAGGCCGAGGTGGGAGTATCGCTTGAGCCTGGGAGGTCAAGACTGCAGTGAGCCATGATCGCACCACTGCACTCTAGCCTGGGTTACAAAGTGACACCC
TGTCTCTCTCGCACACAAAAGATCAGGCAATACTGCTCTCAACTGTGCCAGGAGATATCTCAAGATTGTTCCCTTTCCTCTGGCGATCTGAAAGTGCCTC
AGTCACAATCTCTGTCAACCCAGAATAATGCTTCTGTGTTACTTTCCTTGGCTTTATTAGCAGCAGAAGAGAAGGGGTGTGTGCGCGCGTGTGTGTGTAT
TGTTTCCATAATATACATGTGTAAGTAAAACTAATGAGTAAAGACTTAATAAAATGGATAAACTGAGGCTTTAAACTATTCCTGAAGGTTGAATAGTTTG
ATTGGTGGATTGAGTGTTTGATRTTTAGGATGACACTGGTTTTGGCTTAGTGTATACAGGGATGCCTCACCTATGTTAGCAGGCTCTTGTGAGAGTAAGA
TGGATGCAAAACTACTTGCAGAGAGTTAGTCACGTTAACCAAATGTGGCTCTGATTAGTTGAGAGATGCCACCTCTAATCAGACATTTCCCTGGCCAGTA
CTTCTAGAAGAAAGTATGTGATTTAGCTCTTATTTGAGGATGGTTTATCAATTAGTAGTTAAATTACCTCCTCAGCAAGGCTAGCATTYTGAATACAGTA
TGTTCAATTTGCATTTGGTTAGATGGTGTCAGATTCTTACTTCCTTCTGTGAAGCATGCTTTAGAACAAACTGTGCTTCTAGTAGTTAAATGCACAATAT
TATTTGTGTTTAGAGATGGTTTTAAATTTGTGTTGTGGCAGCTTTCTTAGAGGACTAATTTAAGAAGGAAAAGAAAAACATAAGATGATACTGTTTTAAA
TGCCTGGGAAAGCTACAGTGGTCTCCTGATGTCATTTGTTTCCACAGCAACAGAAGGCCTTCAAAACTTACTTCCAGCCTAGGGAATCACTGTTCCCTGC
CCATTTCTTCTTATCTGATGGAAGTAGTTAGTCTCAACTAGTGCATTTGCATCTACCTGCACACACGCAGATCTACCACACATGCAGTCTCGTCTGTGCC
TGGAGCTTCACACACACAAAACTCTTCCAAGTTTTAATTCGTTCTCTTTGGCTTTTTTTATCCTTCAATATCATCAAATCACATTTTTCAAAATGTCTAT
CACTTGTTACTAACTATTTGTGAATGATTTGGTCACCATTTACTTCCCTTTGTGAATCATGAACAGTTTTTTCTCGGGGCTCTGAGGCACCATTCTGTCT
CTGGAAGACCCCTAAAGGGGTGGTGTATGAGTTACCAAAAATGATGATGCATTCTTGAGCCCTGGCTAAGCTTGTCCTGTACCTCCCGAGGCAGTTCACC
CCTCGCTCCTTGCATGGCAGACTTCTTGAGTTACTTTCTTAACTTTAATTTTTATTTTTTGTAGATATGGGATTTCCCTATGTTGTCCAGGCTGGTCTTG
AACTCCTGGGCTGAAGCAGTCCTCCCACCTCAGCCTCCCAGAGTGCTGGGATTACGGGCATGAGCCACCATGCCCAACCACTTTCTTAATTTTTAAAAAT
CAATTATTAATAACAAAAGTAATCAATTGAACATTCTTATGAAAGATTCACAGATATGATTGAAAACTACTTAATTAACACCACCCCCAACAGGTTTGGG
TCCCCTTCCTAGAGAGGAGTTATTATTATATCATTGTAGTACCTGTCATTCATTTATTGAGTCTCCTGCTGTTAGATTATTATTGTTTCTATTTCCCATT
TTTACTGTCCAAAGCAGTGCCACGGCCAGTCACAGTGGCTCACACCTGTAATTTCAGCATTCTGGGAGGGCGAGGCGGGCAGATTGCATGAGCCCAGGAG
TTTGAGACCATTCTGGGCAACATGGCAAAACCTTGTCTACAAAAAATGTAAAAATTAGCCAGGCATGGTGGGGTGTGCCTGTGGTCCCAGCTACTCTACT
CTGGAGGTTGAGGTGGGAGGATCATATGAGTCTGAGAAGTCAAGGCTGCAGTGAGCCATGATTATGCCACTGTACTCTAGCCTGGATGTCAGAGCAAGAC
CCTGTCTCAAAATATATATATATATATATATATATATATATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNCTACTAAAAATAAAAAAATTAGCCGGGCGCAGTGGCAGGAGCCTGTAATCCCAGCTGCTCGGGAGGCTGAGGCAG
GAGAATCGCTTCAACCCGGGAGATGGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACCACTCTATCTTGGGCAACAGAGCAAGACTCCATCTCAAAAA
AAAAATTAAAAAGCAGTGCTGTAATGAGCATCCTTGTACATGGCTACTTGTGTGAATTACCTTCCACCTGGGATAATAAAAGGCAACCAGGATTTTTTTG
GGGGGGTTGGATTTTTTGGTTTGGGGAAGTTATTTTGTAATTATTATTATGTATCATACTGTATCGTCGCATGTCCCAGAGTGAATCAGWTACTATATCT
AGTTGTGTTTGACTTCCTCCTTAGGATCCGGAAAGTATGGCAGAGGAGGAAGTGTTCAGTCAAGAATGGGATTCTGACCATCTCACATGCCACAGTAAGT
ATGTTTCTTAATTTACCCTGCCTCATGGGCCAGAAAGCAAACACGATTATGTACTCAGCAGTAAAAATTGGCGCAAATATATTTATGCATTTGGGTCAGA
TCATTTTAGATATTCCTTTACCAAAAAAAAAAAAAAAAAGTTTTATCTTGTCCTGTGGTAGTCTGCACCATTCTTTGGCATCACTAGAAACTTGTTTTTT
TGCTCTCTCAAAATGAATACGGTATTTTGATTTCATAATATTATCTTTTGGGAAATATTGATTGTTCTGAAAAACCTAGGTCTTTGAATTATAGAGATGA
CAGGCTGTTCTTTGCATGTAAAAATAATGTAGGAAACGTAACAGTAGATGTAAAAACCTTGGTGGTAGTCAAAGAAGTGCACAGTAAGTTTTGCCCTTTT
TAAACCAACAGAAAACTCTTTTCAGTTCTTAAAGATGCAGAGATTGTAGTGGAAAATGTACCAAGCAGGAATGGAAATGGCAAAGTATATGCCAAGACTT
TTTTAATGTGCTTGCTGTTTAACCCAGTAATCTCAGTTTGGATTTTAAAAACTCATTAAATTACAGTATCCTGTGCCAAGTGATGTCCTTGGGGCACTGC
TCAATGAATTGCCAGCAGAATAGTAGAAAWGAGAGATGAGCATTTATTATGTTGGCAATTTTGTATGACTTACAGCTGACTTTAGATATCTATCAGGGAG
GAAAGGAAGTACCACTTACCTTCATAAACTTTATTTCAGTTAATCCTCCCAACAACCCATGTGGTATAATAACCTTCATTTTACAGATGAAGAAACTGAA
GCACAAAGAACAGCTGTAACTTGGCTAGTTACTCACAGAATTGGAAGTTCAAACTCGGGTGTCTGTCTGACATTAGTCCTTGTGGCCTTTCTCTCTCTTC
CTGCAGAACACATCATCTTACTAGACTGTAAGCGCCCCCTTGGGCACTTACTAGTCCTGTTCTTTCTGTCTTCAGCCTCTCACACAGAACTTGACATACA
GAAGGCTCTTAGTATACACTTGTGGCCCAGTCCTTTGTGGTAAATGACTGCACACATCTTAAAGATTGTTGTCCTTTATGGAACTTGAGCAGTTGCATTG
TCTCTGTCCCTTGCCCCTCGCAGCACACTTTTCAGTGATTCTTCGGAGGAATTCCTCAGAGGTCTGCAATTTCCCTCAAACAGCCCAGCTGAGATTTTTA
GCTGTCATGCCAGTTRTGTCCAGCTACCCATCTGATATCAGAAATCCTGTCTACAGACTTGGATCTGTTTGTAATTATGATTGAGGCTGTCTAACAGTTA
TTCATTTCTTCAGCAATCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACTGAGTCTCGCTCTTTCACCCAGGCTGGAGTGCAGTGGTGC
AGTCTTGGCTCACTGTAACCTCCATCTCCCAGGTTCAAGCGAGTCTCCTGCCTCAGCCTCTTGAGTAGCTGGGACTACAGGCGCCCACCACCACACCTGG
CTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCATCATATTGACCAGGCTGGTCTCAAACTCCTGACCTTGTGATCTGCCCGCTTCGGCCTCCCAAAGT
GCTGGGATTACAGGCGTGAGCCTGCACGCCTGGCCCTTCTTCAGCAATCTTTTGTTAAGCTTCCATTCTGCCATGTTCTGGTGTAGGCATCAAAGATGCA
TGAATGAAAAATTAGATAATTTTTATTTTCTTATATTTAATTCCATACACAGTCATCTGTGTATGCCAGAGTGAACATTTCTGATCCTTTGACTATATAG
ATGGTGAGTTTTTAGTCAGTTACCATGTTTTTGTTTTGTTTTGTTTGAGACAGGGTCTGGCTCTGTCGCCCAGGCTGGAATGCAGTAGCACGATCTCGGC
TTACTGCAACCTCTGCATCCTGGGCCCAAGCCATCCTCCCATCTCAGCCTCCTAAGTAGCTGGGAATGCAGGCACACTTCACCACGCCCAGCTAATTTTG
GTATTTTTTTGTAGAGGTAGGGGTTTCGCTGTGTTGCCCAGCTGGTCTCAAGCTCCTGAGCTTAAGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGG
ATTACAGGCATGAGCCACCGCACCTGGCCAGCGTTACCATGCATACCCTAACTCTCTTTGCCTTCTGCTGCAGAGCTCTCCCCTGGGATTTGTGAGGCTG
TAACAGTCCTCACTAGGCATTTTGAGAAGTTATATGATGGTTTTATCATGTTGTATCTATTTGCTTTTCTTAGGAATCTGCTGTGGAAGGCAGTGCAGAG
TGATGGGAGATCATATAGTTGATGAAGTGAATCAGTGGCACTGCTTAGTGGTTATATGACCTTGGGCAATTTGCTAAAAATAAAATAAGTTCCCTTCCCC
CTCCTGATTTTATTCCTGCCAAAACACATTGTTGTGGCCAAAACAACTGTTTATATGCATTCTTAAGGCTTGAATTAACAAGTCTCATCACATCATCCAC
ATTGTTTAGTGGCTAAGATAATGGACTGTGGCATCTGTCTGATGTGAGTCTGAATGCCAACTTTGCCATTTACTTTGTGACCTTGAGAAAAGTATTTAAC
ACATAAAGATTATATGAGGATTCAGTGAGATAACATGCCATGTGTGGCCATTCTGTTAATACTTATTGCTGCTATTACCGTTAGTTTATTGGATGTTGCT
GACAATACTGAAATCTGTTGACAAGCAAACCCTCCTGCTACAAACATCAGCACTCTCCTGCCCCCAGAGCAGCCTGGAGGGAAATGGCTTACTCTCCTAA
CTTCTGATTCCCTCCTGCTAATTTGTGCTATTCTGTTCCCCACTTTTCACTGGCTTTGGCCCAGACCTTTTTTGCTGCCAGTWACATCACTCATAATCAC
ATTGCTGCTCCCACAGAAAGGTCTCTAGCCAGTTTTAGCGGGCTTTTCCTGACTTTGCAAACACCATTGATTAGAATTAGATTGAAAATCAAGGCCAGCA
GTTTTCTGAGAAAAACATAAAGGGCTTCTTTGAAAAAGTGGGGAGAAGAGCTTTTGTTGTCAGAAAACTTGAGGTGTTTGGGACACATGGAAATTCTTTG
GTTTGAAGGCCCTCATCAGTGTCACCTTTGCAAATTGTTCTTATCAAAGTGATTCAGGAGAAGGCCAAGTATGCATTTAGATTAATGATGCAGGGTTTGT
TGGCTTGGCCACCCAAGCAAGGTCTGCACCAGAGGTGATTCATCTCCCCAGCTTACTGTTCTAAAGAGAAATACATTTCTGTGTACACCTGAAAAATTGG
CAGCCCATCCTTAGAAGATTTCATTCATAAATTCTTTGCTTTTCATGTATCTGTTAAAACAAAAAAAATTCTTTTACCAACTATTCAAAGTAATGCAGAA
TTGTGGGAACCAAATTCAGTGTGAATCTCTGAATTTGCTATAACAGTAGTAATATTGTGATAGCAGCTTCCAACTATGGACCATCTAGTATGTTCTAAAC
ACAGTATAAGATGCTTTCATTTCAAAATACCAGTTCCAACAAATCTTTGGCAAACATTTCAGTTAGCCTCAGGCCAGGCGCGGYGGCTCATGCCTGTAAT
CCGCTCATGCCTCATTTTGGGAGGCTGAGACAGGCAGATCACTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACATGGAGAAACCCTATCTCTACAAA
AAAAAAAAAAAAAATGCAAAAATTAGCTGGGCATGATGGTGCACACCTGTATTCCCAGCTACTTGGGAGGCTGTGAAGTGGGAGGATCGCTTGAACCTGG
GAGGCAGAGGCCGCAGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCCAGGCCCTGTCTCAAGAAAAAAAAGTTTTAGCCTCAAAAC
TCAAGTATAAAGCTTATATGAAGCGACTAAACTATTATCATTTCTATAGTTTTGAATTGTTTGTTTTTTCTAACTAAAAGTATTGTAGTATAAATAAATA
TCATAAAACAAATTACAACAGAAAGTATAAGAATTATAGTTGACATATTTATTGTAGTAATCTTGAGAAATCAATTTCAAAAGTATAAGCAGCTATGTTC
TTCAAAAACCCTGTTCTGTGAATTAACCAGTGTCACATTCTGTTTAAATAATGGGTTGTAAAAAGAAAGAGAACTGCCATTTATGCAGCACTTAGAATGC
ACCCTGCACTTCATCTTCAAGATGGCCCTACAGGATAGGCATCACTATCTTCATTTCTCACCATGCTGGAAATTCCTAGGAGGTAGGGACCGCATCTTAC
TCATCTTTGAATTTTCAGTACCTAACACATTGCCTGACGTGTACTTAGTGCTCAGTGAATACTTTTCTAATGAGACTGCATTTTATAGATGAAGCTCAGA
GAGGTTAAATCCCATGCTCAGGGTCATGAAGTTTGTAAATAGCTGGACCAGTTTTCCAGCCTTAAAGCCTGTACTCTTTCTACTGTATCATAGGGTTTTT
TTTTCCTCAGCTGCCAGATTGTTGTTAGGTCTTTGAAAGTTTCATGAATAACAGTTCTTTGCAGTGGAACTGCTTACCTTGGCCTTACCTTGATACTCCT
TGAATTAGTCAGGGGTCTTAGGGTAGAGAGGGCTGTAAGGGATTCCGGGAAGGGAGGAGAAGGAGGAGTACTTGTCATGAAGATAATGCAAGTGTTCTAA
GAATTTATATTTGAATCTGAAACTGCCTAAATAATGCATTACATCTTTCAGATGTCTTCAGATGCCCTTATGATTAACACTTACAACGATTATTAAATTT
ATTGTCACTTTTTTCTCAATCAACCAACACCAACAGTATTTTTAATAGCACACAGAAGTTCATTAAGGTCTGGTGTTTTACTCAAAAGGGTTGGAAATCC
AGCTGGCCTCTTTAGAGGTTCCACCTCTTAGGTAGATAATGTGTGTGTGTCCACCTGCTTGATGGGCTGATCATTTTGAACAGGGGGAGAGTCAGACCAC
ATCCTTTTGAGTCCATCTGCAGTAAATGCCCATTCAGGATCTTAYTGTATGTGCCTTTTATTAAGCTACTTAACTTGTACTAATCTGTGAAACAGAATAA
CAGTACCTGTCTTCCATGTTACGAGAATTAAATAAGATGATGCATTTAAAGCTTTGCAGAGCCTGGACCGCAATAAGTGTTCCTTAAACTTAATAGCTGT
TGTCATCTCAGTGAGCTGAAGTAGGATCACAGCATCTGGAACCCTGGAGCCAGACTGCCTAGACTTGAATTTCAACCCTGACACTGAATCTCTAGTGAGG
ATTTTCCATCTAAATAAAATGGGGCTATTAATGAGGCCTAATTCATAAGTGATTGTAAAGATTAAATGAGTTTATTGATTATAAATAATTAGAACAGAAT
GTAGGGCAGAATTAGTGCTCAATAAATGTCAGCTATTAGTATTACTACTTCTCTAATGTACAACTATCCCCATTTTAAACTGTGGTTTATTGGAATTCTT
TTTTTTTTTTTTTTTTTTTTTTTTTGAGACTGCATTTCCCTTTGGAGTGCAGTGGCACCATCTTGGCTCCCTGGGCTCAAGCAATTCTCATGTCACAGCC
TCCTGAGTAGCTGGGACTACAGGCATGCGCCACCACAGCCAGCTAATTTTTAGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCGGGCTGGTCTC
AAATTCATGACTTCAAGTGATCCACCCACCTCGGCTTCCCAAAGTTCTGGGATTACAGACATGAGCTGCCACACCTGGCCGTTGGAATTCTTTTGTATTG
CTATTTTCATTACTACTCAGTGTACTTTACAGAGCCCATTTGGGGTACCTCTTCTTTCATAGAAATTTAATTTCTGCCTTTAGGGATTAACAGCAGCTCT
GTCACCTTCCATGGCATTTCACTAAAGCAAGAATTGGATGTGTCTCTTCTCCCTTTCCTTTGGATCTTTGGGTCTAAGGTCTGTTGTTTTCTTGCCCCAT
CCAGAGCGCTGAAGATAACATTCAGCTTCCAGGGCTTTAAAAGAAGCACTGAAAGCACATACAGGAAACAGGAAGAGACCTGCAAAATGGATTGCTCTCT
TCTTTGCTATTAATGTATTCAGTAACCTTGTTTCTGTTACTGGCCTTCGGAGCTCTCCTTGGCTGTCCTCTGATTCCACGTCTTTACTCTCATTGTCACT
GAAAAGAGAGAATGAGAATATTTTTCTTCGCTCCAACAGATTAGAAAGCAGCACTGTCAGTTGTAAGAGGGCGAACTTTGGAGCCAGTTAAACCCAGGCT
CACAAATTTAGAGCTCACAAATTTAGAAAGTGTGACCATTTGGTTAGAGTATGTGCTGTTGGTCCTTAGCATATACAGAGGTCTTAGCATATACGAAGGT
ATATGCTAAGGGGTAAAAAGGTTTTTTTTACTTTTACTAAGGGGTAAAAAGGCTTTTTTAAAGTCTTGATTTACAAATTTGAAGGTATAAAACCAAGGAA
CCTGCAGTTTGACATCAGCTGTGATGTTACCTCCTGCCCACATTCCTAATATAAGAAATAATAGAGTTCTTTAAAATGTTTCAGGCCAGGTGCATTGGCT
CTCACCTGTAAACCCAGCACTTTGGGAGTTTGAGGCTTAAGTCCAGGACTTGGAGACCAGCCTGGGCTACGTGGCAAAACCCCATCTCTAAAAAAAAAAA
AAAAAAACACAAAACTTAGCCAGGTATGGTGGCACATGCCTGTTGTACCAGCTCCTTGGGAGGCTCAGGCAGGAGGATCACTGAAGCCCATGTGGCAGAG
GTTGCAATGAGCCGAGATCACACCMCCGTACCCCACCCTGGGCGACAGAGTGAGACCCCATCTCAAAAAAAAAAAAAAAAGTTTTACTTTGACCTAATGT
TCTGTTGTTAACAGCTGTGACCTTAAGGCTGAGTTAACTTAACCTTTTGGTGCCTTATTTTCCACATCTCTCAAATAGTAATAATAGTGGTACTTAGTTG
TAGGGTGGTTATCAGAATTAAGTGAGCAAGTATATGTAAAACATATGGCATGGAGCCCAGCATGAGTAAATGCTGTGTTCTCATCAACATAATGATGCCC
TCGCTTTAAAGACTGCCCTTTCTGTGTGAGGCTAATAAAAGCCTCAAGCACATTTTGTCTCAGCCATTCATGAGGTCATGAGTTCAAGAACAGCCTGGCC
AACATGGTGAAACCCCGTCTCTACTAAAAATACAGAAAAGTAGCCGGGTGTGGTGGCGCGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGA
ATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTAAGCCAAGATCACACCACTGTACTCCAGTCTGGGCAACAGAGCGAGACTCCGTCTAAAAAAAAGAAAA
AAACATATGCCATAGCTCAGATGTTTTACTATCAAATTAATGCATTTTATACAAATATTCCAAGTCTGAAGGTTTTAGTTTTATGTACCCTTGTTGGATA
GCATGACGTAAAGTGGCTACTGAAATTAATAGGAAATGTGAATTTAAAAATTCTTCCTGTATTGGCCCAAACTCTATATACTATCAAATAGTAGGTACTT
AATACATATTTGCAGAAATGCCTGCGTGGATGACTATCTAGCACATTCATTGGGTGCAGTAACCTCAGCGCCACGTCTTAGCAGGAGCCCCAGTAAGCTC
TTTTTTTCTATTTGCATTGTAGCATTGATTGTTTAATGTTGATTTGAGTGGAACATCCTCTCAAAAGTAAGGTAACCGATTCCTTGCTGCAATAAAAAAC
ATTTTCTTGGAGATCTCCATTTTCAAATATTTCTTTCTCACATATACATACATTCTGCCAACTGGAAATGAGTCCCTTTATTAAAATGATTGGGAGATAC
AGTGATAAATGTTTGACAAAAAAATTAGTAAAATGGTTGGGAGGGTTAAGGGAATTCAGCCATCTACCCTAGAATGAATTACTTCAGTTAGATAATCACT
ACTTATCTTTTTCCCTGTCTGAAGGATCACACAGGGGATGTGAGAGCTTTAGTTGTGGCCACAGAGTAATAAGTTTGGAATTTGGAACGTGCATCTGGAG
GGAAGATGAGGGAACTGGCCATTTAAGGGCAGTAAGAACCAGAAAAGGCAAAACAGTAAAGCTATATTTTGACTGACTTTGTAAGTTTTCCTAGGGCTTG
GCTTGACAGGGAAACAGTGTGATAAGTGAGAAGAGATTTGTTCAGAATTCAGCTTTGCCTTTTATTTTTTGTAAAACATAGGTTAGTTTACTTCACCTTC
CTGATCCTTGGTTACCTCATTTATGAAATGGGTTTGGGAACAGTACCTAACTCATAGAGTCATTGCAAAAATTAAATAATAGAATTCATATAATGTATCT
GGCAGTTTAGGTACTCAGTTTTTCAAAAAATTGTTACCTTTTATCTGTTTGGAAGGCCAAAAGCCAATAGTCTTGATTGCTAAAATTCTGGCGATAAGAT
CTCTCTGCAGTGGTAAGTGTTCAGCATGTACCTTAATTTCTTACCACGGTTGTAGTTATTGATTGTATGCCAAAAATATATGTCCCTGTAGGGCACAGTA
GGTGTCTAAAAAACTATTTATTGAATGAAAACTTTGAAATGACCATAATGGTCTGAGCAGCTCTGTTTTCAGACACTAGCATAGGAAGTGAAGAGAGCTT
TGTCATTTTATTTTTACCTCTTTCCACGCGTCAGCCTCATCCTGGCTGGGTCAGGCCTATTTTCCAAGTAATTAATGTTCACTTCTTGTTTGTAAAGCAG
AGCAATTCAGTAAGATGATGGGAGGAAATAATTTCATTTCTGGGTACTAATTCCAGTAGCAGCTGTTTTCTGCTAACTGAGAAATATGCCTGTGCTAAYA
ACTTTACACTTCCAGCAAAAACACTGGAACCATGGTGCACACTAAGCTGTCTAAAGACAAATGTGCGGTGTTTATTTTCTTTTAGGAAACACAGAAACAT
TAATTGGGATTGACTCATTCTGTTTCTGCATGCATTTCTACTTACTTATTTGATGATTTTCCTAGCTAAACAGCCACTTTCTGTTATGTCAGAGGGATAT
CTTCATCACTTCTCTTCATGAAATGTACCCAGAGCTTCCCTGATTGAAACATTTTCAAAAATCAAAAACTTGAATAGGTTTGCCTTTTGTCTGAGGGTGT
GTAGGAGAGGGGTGTGTAAAATGAAGACATCTGTGTATATTGTTAATTGGGAAAAACAGTTTACAAAATAGTATATACAAGTTGAACCAACATATGTCAA
AAAAAAAAAAAACAGACATCTCACACACACATCTTGGTAAAATTAAGGTATTAACAGTGATTATTGCTGCATGTGAAAGTGAGATTCCAACAACTAATGT
TTGGTTTCTTCTTTGTACTATCTCTGTCTCCTTTTCTTCTATGAATGTGTTTTATTTTAATGAGAAGTGAAACCTATAAAAGGACAAGCCTCAGAGTTTG
AAGGAACAGAGTTGTAGAATTGTCAGYTTTGAAAAGTGTCATAACTATATTTAGAGAAGCTCTTGTAGCTTTTGAAAGAGATGCTGCTCAAGACAGCCTT
CAGGAACAATGTGTCCCTCCATTCACCATTCAAATTTCTGCACTGAATAATTCACATAGTAGGTAATGATTACTTGTGGAATGATGCATTGAAAGTCTCC
TTTTCTAGCTGTCTTAAGCCTCTGGCCACCAGCACCACTACCGTACGTAGCTCTAATTCAGGCCCTCCTCATTTCATTGCTCATCTTCCTTACTCTCTCA
GCCTCTCTCTGCCTCCTCTACCTTTCCCACCAACTGCCCCCCCACCACCCCACCGTGAAATAGAGATCTAACTGGCCACTCTGCTTTCTCCAGTAGATTG
CCAGAGTCATGGATAGGAATGTGAGTTTCTTAGTATCATATGCAGAGTCTCCCTTCCTGTGTGCTCAGTGTCACCTCCTGCAGCTTGTCCCCTCCTATGC
CCCAGGCCTTTGGACCTGCTTATCACACTTCCCAGTTTGTCCATATTCCCTCCTCCAAGTCCTCTCTGAAGGTTGAGGCTGCCTGTGTGGAACCTTGCCT
ACATCTTTGGTGCACACCCTTGAGCTCAGGTCCCTGGGCTCCCTGGGCCCCCATACGTAATCAAGTCTGTTTCCACAGATGTTTAATGGCATGGACCATG
TGTTTCTCAGATGTGCTTGGAATGTGGTAGAGACTTAATAAATATATGATGAATGAGTAAGTAGGAATTTCAAAGTGGCTTCTAAAATTTCTCTTTTCCC
CAATTATGAAAGTAAGTACTTAGAGGAGAGTCAGATAACCCAAGAAGATATTAAAATAGAAATTAATCTTTGGAGCTTTTGCTTCATTGACCTCTAACCC
TTACTGTAATCAGGAGGAAATGTTCTTGTGTGCTGGGCATCCAGCTGTTATTCTCCGAGCTATATCAGATTACTTTCTTTCCAGGCTGGACTGCAGAGTG
ACCGCAGAAGAGAAGGAGTGGGGGCTCTGACCCATCCAAACCACTTTCTTACCGGGAGAGCTTAGGAATGTTACTTAACCTTTCTGTGCCTTTATTTCTT
CACTTAGTAAAAGAAACTGAAGACTTCCCTCACAGGTAGTACATGAGATAGTATATGACATAAGATGCCTGGAATGTAGTCATTAATTTAGTAAATATTT
ATTGAGGGCTGGGCACGGTGGTACATGGCTATAATCTCAGCACTTTGAGAGGCTGAGGCAGGAGGATCACTTGAGGCCGGGAGTTTAAGATCAGCCTGGG
CAACAAACCAAGATCCCATCTCTACAAAAATTTAAAAAATTAGTCAAGCATGGTGAGGCATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGG
ATGCCTTGAGCCCAGGAGTTCAAGGCTGCAGTGAGCCATGATTGTGCCACTGCATTCCAGCCTGGGCAACAGAGTGAAATCCTGTCTCTAAAAAATACAT
ATTTTTAAAATTAGCCTCGTGTGGTAGCGTGCGCATATAGTGCCAGTTACTGGGAAGGCTAAGGTAGGACAATCACTTCGCCTGGGAGGTCAAGGCTGCC
ATGAGCCATGATCTTGCTAGTACCCGATGTGTGCCAAGCACATTTTAATGAGAAAAATGTGTGTGTCCTTAGTGAGAAGGAAGACAGGAAGCAAATAAGG
AGTGTTAAGAGCCAGAAAGAAAATACAGCAGGGTGTACAAAAATGGAACATCATGGGGAGGTGGTCAGGCCAGGTACCGCCTCCTCTGAGGAGGTGCTGA
TTGATGAGAGTTCTGCAGGGAGTGAGCAGGGAGSTCTCCGAGGGCCTGCAGGAGTGTGTGAGCAGCAGGAGGGACCAGTGCCCCTCCTCAGCCAAAGGAA
CAACTCAGAGTGACAGGAGCTGAGTGCGAGAAGGGGCCTGCGATTGGTGCCTGGAGGTCATGGCACAGATGTGTGTTTATTCTGAACAGGATGGGAATCA
ACAGCAAGGACTCAATAGATACATAGACGTTTCCAGAGTTTCTCCTGTTTTGTTTTCTTTTTTCTCTCCTGTACTTAAACAATATGAAAGCATTTCCTAA
ACTGTTCCACTGTGGTGTAGCCCAGAGTAAATCATTTAGTTTTACTTTAATTTTAGTCTGCTGAAATCCCAGGAAAGATTATACAGTCTCCAATCAATAT
ACCTATAAATTAGTACTAAATGTCAAGAAAGTGCTTTGAAATTTTGGAAAGTTACACAAACATCTGAAGTTACAATTATTACTGTAGTGATTTCTGTGCT
TCAAATGCCTTGGTTTTTGGACTTCTGTGGAACATACCACTCCCCTCTGGTATTCGTGGGCTCAGCCCTGGGTAAGTCAGCTGCTTAGACAGTCAAAACT
TAYGCGTACTTGGCTCCTCAAAGTCACATTTGGGATGATGGCCATTTGTCAAGTGCCTCACTGGCAGCTCAGTTTGGAGAAGAGCACTATGTTTAGGCAA
GATGTGCCTGTGTCAAATGCAGTTCATGTTAATGTAGCAAAAGTCAGTCTAGTAGATTTGGCAAACTTCTAAGAGAATAAACATCATAACGTCATCACCA
CTGAAGTTGTGGGTCAATCATGGAATGACTTAAACCATATAAATTCCTTATCAGCAAAATACTTTGAAATAGTCCGTGCTTAGAAATGAGAGGTGAGGAG
GATGGGAGGAGGGAAAGGAGCAGAAAAGGTAACTATTGGGTACTTGGCCTAATACCTGGATGATAAAATAATACGTACAACAAACCCCTGTGACACATGT
TTACCTACATAATAAACATTCACATGTACCCCCAAACCTAAAAGTTTTTTTTTAAAAAAAAAAGAAAGAAAGAAAGAAATGAGAGCTGAGACCTGAGGCC
AGCATGGTGCCTCACGCCTGTAATCTCACTTGAGGCTGACAGATCACTTGAGCTCAGGAGTTTAAGAGCAGCCTGGGCAACATGGAGAGACTGTCTCCAC
TAAAAATACCAAAAAAAAATAGTAATAACCAGGTGTGATGGTGTGCATCCATAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCGCTTGAGCCTAG
GAGGTTGAGACTGCAGTGATCTATGATCACCCCAGTGCACTCTAGCCTGGCCGACAAAGCGAGACCCTATCTCAAAAAAAAAAAAACAAAAAGGAGAAAG
AAAAAGAAAGAAATGAGAGGTAAATAGTGCTGTTTAACTTGCCTGAATGCAGTTAATACTCAGCTGAGTGTATGGTGTTTTTTTGTTGTTTTTTTTTTTT
TAAGATTTGTATCTACTCTTGGTTGTATCTGTTGGTAAGATTGTTCAGAAACACCGGAGAAATCTAGATTTTGGGAGAATTAAAAAATAAAGTTAACCTT
CTGTCACATTCAAATGTGAATAGTGTCTAAAAATTACTAAATTTTTCTTTTTCTTTTTTTTTTTGTTTTTTGTTTGTTTGTTTTTTTGAGATGGAGTCTT
GCTCTGTCACCCTGTTGCCCAGGCTGGAGTGCAATGGCGTGACTTTGGCTTACAGCAGCCTCCACCTGTCAGGCTCAAGTGATTCTCCTGCCTTAGCCTC
CTGAGTAGCTGGGATTACAGGCATGCRCCGTCATGCTTAGCTAAGTTTTGTATTTTCAGTAGAGACAACGGGGTTTCGCCACGTTGGCCAGGCTGGTCTT
GAACCCCAGGCCTCAGGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGACACCACGCCTGGTCAGCTTAAAAATTATTAAATT
TTTCAAAGGCAGTCCTTCTCTACTTAAGAAACCTGAAACCTCTTATTATGCATAATCAACTTAAGCTTGGGAAGTTCTTCCTTATTTCTGGCCCAAATCT
TCTGCAATTGGAGTGTATTTCTTTTCATCTGAGCTAATGGAAAACAGCTGCCCAACCTTCCCAATAACAACCTTCATATACTTGAAGATGGTCATTAAGT
CACCCCCTAGCTTTCCCTCCTCTGTACTAAGTAATGCCTCTAACTCATCTTCAGAGTTTCCATTTTCCACCCTTTCAATCATCTCTTCATCTCCCCAAGC
TTTTCTGCATCCTTCTTTAAATGTGGTTTCCTAATTGGAACATAATATCGTAGCAAGAGTTGTTCTCACCATTAACTGGGTCACTGCCTTTTCAGGTGGT
CATATGCCATTGTCATTTATATGAGAAAGTCAGCAATTTTATCAACATCCAAAAAGATGAGATGTAGAACTAACAGTTCTTTTTACAGTGAGCTAAGCCT
GCTTCGTGGCTACAGATTCTGATTTTGGAGTCTGAGGCCTTTAGCAACCCAAACACTTCAGCTGTTTTCTTTTTTTTTTTTTTTTTTGAGACGGAGTTTC
ACTCTTGTTGCCCAGGCTGGAGTGCAGTGGCGAGATCTCGGCTCAGTGCAACCTCCACCTCCCAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTA
GCTGGGATTACAGGCACCCGACACCACGCCCGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGATCAGGCGGGTCTGGAACTCCCGAC
CTCAGGTGATCCACCCACCTCAGCCTTTCAAAGTGCTGGGATTACAGGCATGAGCCACCTCGTCTGGCTCTTCAGCTGTTTTCTCAGAAAAACTTGCAGG
CCCACAAGCTCCTGCCTCCCCTTCTAGGTTTGGTGACAAGTTCTGGAGTACAGGAATCTTCCCAAGCACTGTTTCCTCTTTGGCAAAATTCTCTTGTACT
TGACTTCTGGTTCCATTCCTAAATCAAAGGTACATGCATTGAACATGGAATCCCCTGGGGTCTCTCACTTCCTCCCCTAAAGCAGTTCGCTTTGGAATAG
ATAGATATGGGACAAAGGGCATTGTTTTCTATGTTTAATCTCATTGAAATCATAGAGGGAGAAAGATCTTGAAAAATGGTCCAGAGAGCACAGGAAGATA
AATAGAAATTGTTTAATGCCCATTATTTAGAAGGAGAGGTGGCAGTGTGTCATTGAAGGTGTCTTGATTGTATGCCATCTCTGTTGTTTCAGGCTTACTG
ATGTGACTTGTCTCTAACTCCCTCCCCCTCTCTTTTCCCTGAAAATTTTAATTCCTCAGCTGGAGATGCACCTGGTACTAGGATTTTCAGAACCACAGCT
CTCAATCGAAACAGGGATATAGGTCCAATTAAAGAGTTTCATTGCTTATTTCTCCAGGCTTCTCGTGTTCGAGCACAGCCCAGCCTGGGCACTCAAACAT
TTCATTCCTTGGTCAGCTTCTGCAGGAAGGAGGGATCCTAGTATCAGCCATTGTCCAGCATGTGACCTTGAACATGGGCAGGCAGGAGAGTGTTTTGACC
AGTGTGAATACGTGGTGAGACTTCCTAAGTTAGCGTGACTATCTAGATACTATAGGGTCTGTTTTATATGTGTGACCAAGAGATTTGCTGATAAGTTATA
TGAAATCCTTATCAAATTTTCTCTCTCCCCAGATATTGGGGTTCATTAAGCATTGCCTCACAGGTAGTAATTGTCATTGTACTTCTGAGAGAAGTAATGT
AAATTTTGCATCACAACCAAAATTTGTTGAATCCATGGATACCTGGGAGATCAATTTGGGGATGATTGATTACCGGGGTCATTTTGAATGAATAAATGAA
ATATAGCTCAGCTACATTTCATAGTAAGATACAGCATTAAAAGTGCCAACTGTTGGTGCTTAGTTATGGGTAGGTTCCAGAAAGGTGCATTTCCATGGAC
CATGCCGACTGTTCATTGGAAGTGAGGTGGATTATTTTTTTATTCTCTTCTGAAAAATCACCAGGATATTTATGCACAGTTTAAAGACATTTAGTAGGAC
ACCTAATTTTTTTTTCCATCTTTAATGAGATTCAGAATTCAACTGGGATAAATAAAACTTTACTAAACTTACCAGCTTATATTTGAGGGCAGAAACCTAC
AGATCTGTTGTCTTCTTGCAGCAAACTTGGAACAATGCTCAGATGTCTGTTTCTTCTTTGCTGAAAATGTATTTTTGTACCACTGAGCAGGCCTTATGAA
CAGCATACCTGCCCTACAGGGCACTGAACCTGCAGACAAGAGAGTGGAGCTGCATGTAACTTCTCCATTTTCTCTTTTTTTCCAGTCTAACAGGCAACCA
GCCAAGTTGAACCTTCTCACCTGCCAAGTAAAACCTAATGCCGAAGACAAAAAATCTTTTGACCTGATATCACGTGAGTCCTTTTTCTCTCTCTGAGTTG
GTTATTGTGGCTTCTGACACCTGCACATTTCCATTCTCCAGGTCAGCAGCTTTTCCAAGCAGGGCTCCTCACAGTTGGCATTGGAACAGTTATTCCTGCA
TGTGCTGCTCTAGGAAGATGCCCCAGGTCTCTTAATTTCCACTGAGCCCACCTGCAGTTGACAAGGCATAGCAGTGTCAGATCTGACCAGCAATAGAATA
GAATCTAGGATTTGTACATTGAACTAAACCARTGCTTGACTGTGAGTACACAGCTTTATCCCCTTGGAGAGATGTTTCTTAGTATATTCCCATTTCTGTC
TTAGATCTACTGAATTATAGTTGTTGGTATGAGGCCCAGACATAGTTTAAAAAAAAAAAAAAAGCCACTAGGTGATTGTAATGTGCACCTGTGGTTAAGA
AGCACGGATGTAGACTTGGGAATGCAGATGTGCCACTATATCTGTACAACGAATTTGCCCAGAGTTATATCCCTGCAAAATCTAGCTCTTAAAGGAAAAA
TCATTTCCTTGCTTCCAAGCAGAACTGCCTTCAACCTCTGTGAATTGATGGCACTGCACCCTGTCACTCTTCTACTTCATGGTTCAGAGTTTGCTTTTCT
CTTGTGATGAGAGAGCGTAATGAGCTACCCACCCCACAGCCTGTTATAGCCTGTGCCCTCATAGTGTGTAAAGAGTTGGGGGGAGATGTTCCTTTAGGCT
GGCTACCTGTGCTTGTACTGATTCCTATGGGTGTGCTTACCGACCCACACTGTAGACTGAGAGGACTCCTCTTTGTAAAGAGAGGATGACAGTGCCATTG
AAGTGACTCTCGTGAATATCCTGAAATCCTGCAACACTAATCTTAAGTATCCTTCCTTCTCTATCACAGCCCAGCAAGGCAGACCCACAGCCAAAGTGGA
TGATCTATGTATAGAAGCACAGAAATATTTTCTTGCCCTTTGAAACCTTTCTGATGCAGTTGTGTGAATAGTCCTGACCCAAAAGATAGAGTCAGTCATG
AGGCTCTTTAGGGGTAGTCGAAACTGTATTCTGCAGCATCTGTATGAAGTTTAGATTCCCTGTGATTTTCATGACCAAGAGATTTATTGAGTTATTGATG
AGAAAGAAATAGGAAAATTTGGAATTATTTTATGACTTCAAAAAGCCAAAAACCCCTAGTTATGAGAGTCTGTAGGTTATTAATAATAGTTGGCAGTTAT
AGAGCATCTGTTACATGCCAGGTGCCTTATATACATTAGTGCTAATCCTCATGAAAGCCCTATCAGTTTTCCATTTTACAGAAGAAAAAACTCAGACTCC
AAGAGGTTCAGTGACCTACAGAAGGTCACACAGCAATAAAGCAGAGATTCAACCAAAGCTCTCAGGCTCTGCCACCCATGGCATGTTCTTTTTTTTGTTT
TGTTTTGTTTTGGGTTTTTTTTGTTTTGTTTTTTGTTTTTGAGGCAGGGTCTCACTCTGTCACCCAGGCTGCAGTGCAGTGGTTCAGTCGCAGCTCACTG
CAGCCTCAACCTCCTGGGCTCTAGTGATCCTGCTTCACCCTCCCAAGTAGCTGGGACCACAGGTGCATGCCACCACATCTGGCTGATTTTTAATTTTTTG
TCTAGAGGCAGGGTCTCTGTTGCTGAAGCTGGTCTCGAACTCCTAGGCTTAAGCAGTCCTCCTACCTCAACCTCCCAAAGTGTTAGGATTATAGCCATGA
GCTGTAACATTAAGCATGGTATGTTCTTTGACATACACATTGTCTCTCTCTCCAAGAGAGATGAAGGGTGTGAYTGCCTAGCCTAGAGTAGTCACACAGG
AAGTGCTCAGGATATGTTAGTTTGACCTGAATATATTGAGAAAGAGCTTCCCTCATGTACATCCAGCCCAAAGTATCCAAGTTAGGTCACTCCTTCCCAC
TCCTTCCCTTACATGGATAGCAGAGATTGAGCCTTTCTTCCTGCAACCTGATTCAGCCAGAGAGCAGCCCCAACATCTGGGGCATAGTATGTCTAGTGTT
GGGGGTGTTGGGGCTACCCCATGGTTAAGTCTCAGAACAAATAGGGAACAGTAAATGAATCATTTCTGAAAAGGAGATTTCTTTAAAAAAAAAGAAAACA
CAGTAACAATTGAATTGAAAATGAAACAGAAAATACTGAATTAGCTGGCACTCTCCAGTTTGTCATGGAAATCCATTTGGATCAAATAGGACCTTCCCCT
CTCCTCACTGTTTATTCAAAAGCAGTGCCAGATGTATGCATGGTATTTGTGGTTATTTTATTGTATTCTTGTTGCACTTAAGAAGAATAACCTCGACAGA
ATGAATCATGTAGCTGTTTTATTGCCGTGTGACCTTGTGTAAGTCACTGAACCTCTTGGAGCCTCAGTTTTTTTTTCTGTAAAAATATGAGAAACAGATA
GAGCTTTTGTGAAGATTAGCAATAATATACACAAGGCACCTGGCACATAATGGCGTAAAACTAAAATAATATTAAAATTCTACTTTTACTGGTTTTCTTC
CCAGGAACTTAAATCTGTGTTGTACCTGAAAGTACCCTGCTTTCTAAGGTTTCACTTATTTTTCTTTTTTTTTATTTTAGATAATAGAACATATCACTTT
CAGGCAGAAGATGAGCAGGATTATGTAGCGTAAGTAGTTTTGAAATAAAGGTGCGATGCCTTGGATTGAAAAAGCACCTCTCTGTTTACAATACACATCA
ACATTTTCTTTTCATTTGTAAGAACCTCGCCTGGTGGCTCCATGCTTCTTTCCCGCCTGTGGGCCATCACATGTTGCTCTTCTCTCTGTCTGTGGTTCTC
CCTCTTGTCTACTCAATAAGCTCTGGTACCTCCTGCAAGATTCTGCTCAAGCCTCACCCTCTCTGGGGTTATAGCTCACTACTCCTTGCCCGCGGCCTCT
TCATAACCTTCTGTGATCCTGTGGTGCATGTCTGCAGCCCTTTAGAGACCAAGAGCTTTTCGAGGGCAAGGACCGTGCCTTATGCATCTTTTAATCACAT
CCCTTGCCCTCAGGAGGGGCCTTTGCTCAGTTTTTGGTGGCCAAACATATCAGCCAGCCTACCTGGGCACTTGACCATTATTGTAAGAGGAGCAGGTGAG
CCAGGCCCTGAAGGAAGGAAACTGCCATGTGCCTTTCACTGGGGTGAACAGAGTCAATAAAAGGGAGYGTGATATAGTGGAAAGGAACAGGTTGGTATCA
CATACTCCTGGGTTGGAGTTTTTTGTTTTTTTTTTTGTTTGTTTGTTTGTTTGTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGACTGCGGACT
GCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCTTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCA
CCGCGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCGG
CCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCCTGGGTTGGAGTTTTGCACTCACCTGACCAGGTATGCAACCTTAGATAGTCCC
TAGTCCCTTTTTTAAAATGCTAGCCCTGGTCCTGAGCTGTCTTTATTCCCTCTTCTTTCCTGTAGCCTGTCTAGACTGAAAAAGGCAGTGTGTGACTATT
ATAAATCTCAGCTGCTTGGGAGAGGGATGTTTTTGTTAAAATGGGCAATTATTGTTCACTTTTTTTTTTTTTATTTCTAATGAGTACTTGGGGTAATTTG
GACCGAGTTTTATAAACTGTCAAACTTCCTGTCCCATCAGTGGCACAGAATACATGCTATGTTCCTCTCTTATTTCTGGAGAGCCACAGAATTCTGCTCA
TACCCTTTTTGCCTTATACTCACTTCTYTTCTCTCTCCCACTCGCTTACTTTTGTTATTGCTCACACACACAATCTTCTCTGGGGAATTTTACTCTTTTC
CCATTTCAAAGGAGAAATGATAAAGGATCAGAAAGAGAAGAGAACATGGGTAGAAAAGATACAGAGGTGGGAGGAACAGGGTGGGGAAAGAAAACTGAGA
GAGAAGGTAGAAAGACAAAGGAAAAGGATGAGAAAGGTCTAATTAGCTATTCATTATTTGAATATTTAATGAATGCCAGCTGTATGCCAAGGCTATGCAA
AGCCTTGAGAATACAACATTAAATTAGATGGAGCCCCTGCCCTGAAGGAACTGCATCTCTACTGCAGGAGGCTGTTGGTACGACATGGTGCAGGTGCTAA
GTGTAAGGACAGAGGAGGCCATGTGCTGGAGGAATAGACTCGGGGCACACACCCTCATGGTTTCCTGGGGTTGTTCCTCAGAGATGACTTCCAAGAGGAA
GGTAAGGCTGAGCTGGCTCAGGAACGTAGGGGAAGGTTGTAAATACTCTATACTCCAGGCAGGAGGCTCTGATGGCACAGAAACAGGAGGATGGAATAGG
AAGGAAGTGATTGATGACTTGTTGTTATGGGTATAGAGTTGGTAGACTGAAAGGTGACTAGAAGTCAATGAGGAGGAAGTCAGAGGCCTGGCCCTCCACC
CACAGGTTCAGAGAGGTACTATTTATAATAAAAATGGGTAATAGTTATTGAGATGTTACGTGCTAAATGCACTTCATGTCTTATTAATCCTCACAACCCC
AGAAAGTAGGGACTTTTGTCCCTAGTTTGCAAATGAGGAAACAGAGGCACAATGTGCCCATGGTAACAGTCCTAGTAAGCTAGGATTTGAACCCAGATAG
AATTCCACAGTCACCTTGGAATATTGTTTCTCCTTCTCCGATTTCATTCTCTCTTCCTCATTTCCCTTTCTCAAAACCCTAAGTGAAACACAGGTGAGTA
ATTTGGGTGAGGCAGGGAACACAACCACTTTCTGTTTGTTCCCTTATGACTCAAACTCAGATCTTCAATATTTTATTTACTCTTAGAACTTACAGGTAAT
TCAGTCCCAGTTTTGTTAAGAGATTGGTGTCCTGCCCGTGAGACTTAACATTTTTCAGTAAAAGAATTACATGGCCCACCCTGAAGTTGCGCATTTTGCA
CTTTGCAGTTTTGTTTTGTTTCTGAGACAAGGTCTCACTCTGTCACACATGCTGGAGTGCAGTGGCGTGATTATAGCTCACTTGCAGCCTCAGTCCTCAG
TCTCCCAGGCTCAGGTGATCCTCCTGTCGCAGCCTTGCAAGTAGCTAGTGCTATAAGCACGCATCACCACGCCCAGCTAATTTTCRTTTCTTTTTTTTTT
TTTTTTTTTTTTTTTTTCAGTAGCCATGAGGTCTTGCTGTTGTTACCCAGGCTGGCCTCAAACTCCTGAGCTCAAGCCATCCTCCCACCTCGACCCCAGA
AAGTGCTGGGATTACAGGCGTGAGCTATAGTGCCCAGCCTGCATTCTCTCTGGGTGCTGGTGGTGAGAGGGGAACTTTGTTTTGAGTGCTGTAGGAGGTA
ATGGCAGTCCACAAAGAAAGCACATGCCTCAGAGGGAAGCCTTAGTTCTTCACTTACCTCCAGGTTACATAGAGGCAGTTTCACTGCATCATTGAGTTTA
TTTTTCATATGAAAGTGTTCGATGAAATTGAATGAAAAAATTTCTTCTCACTGAGGAAAGTTCACAAAGAGCAGATGCATGTTAGACTCATTTGGCTTCT
TGTCCAGGCTCTGCTGGCTAGTGGCTTTTTTGTTTGTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTCAGAGTCTTGCTCTGTCGCCCAGGCTGGA
GTGCAGTGGCGCGATCTCGGCTCACTGCAACCTATGCCTCCCGGGTTCAAGCAATTCTGCTGCCTCAGCCTCGCGAGTACCTGGAACTACAGGCGCGTGC
CACCACGCCTGGCTAATTTTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATTTGCCCGCCT
TGGCCTCCCAAAGTGCTGGGCTTACAGGCGTGAGCGTGGCTTTTTTTTTTAAAATGAGATCTATGTTGCCCAGGCTGGACTTGAACTCCTAGGCTAGAGC
GATCTTCCCGCTTCAGCCTCCCCAGTAGCTGGGACTACATACGTGCACTATGGTGGTTAGTGGCTTTTTAACCTTAGGCAGATCATCTGGCTTCAGTCTT
CTCATCAGTAAGATGGGATTATATACCTCGATTGCAGGATTTTGAGAGGATAAGCTATGTAAAGCCCTTAGCACAGTGCCAAGTTATTTTTTATCTTATA
AAACTCAAAGCGACGTTTAAAGTATTAAAATACAATTATGCATTCTTTATGCTTTTGAGTATGCTTGTTACTTGAAAATAATTTAAAAGTTAATGTCACA
AATGATCACTGTGAGTCTTGGTCCTTTTGAAATTTAGCCATTTCATTCCACCAAATTTGAATTATTTTCTCTAGAAAATTATCCTTTAAATATACTTTTT
CTGATTATCATGACAAACTTCTTTATTTATTTGTCATGAGCTCCTGAGTAAAGAGGCAAATGGAAGGAACTCTGAAAAAGTGAGTCAACAAAAGTGTTTT
CTTATCCCCATCTGGTCTGACAGAATCCAGCCTAGAACCTTAGGCAAGTCATATAACTTCAGTTTCCTCATCTATAAAGTATTATAAACCCTAACTTAGA
GGCATGTGAGAAGATTCTACAGGTTGAGTATCCCTTATTTGAAATGCTTGGGCCCACAACTTTTTTGGATTTCAAATTTGGGGTGTTCAATCTATATGTT
AAAAATTGTAAGTATTTGGTACATAGTAGATACTGGCCAATATTAGCCAAATGCTAGAATGCCTGAGGAAAGCGAAATAGAGGCTTTGCAGTCAAGTGAA
AAATCCAGTAACATCAGTGCCGCTGATAAAATGCAGTAATCAGTCCTGTTGAACCCAGGTTCTTGATTTGTTTTTAACAAAACAATTTCTAGTTTCTAAC
TTCAGACTGATATAAAAAWTACTGTTTTAATCTTCTAAAAGGTATAAAATCCCCCCATTCCTTCTGCATATGAATTCCTAGACTCTTGGTTTTGAAATGT
TCRGTTTTCTGCATCACAGAAGTTAAGCTGTGTATATGCGTTTCTCCCAACATACTGAAGGTGAGCGCCACCTAGAGTCAAAGGTGTGACTTGCATAGTT
CACATACTCCAAAAACATAATTTGGTTTTTAATTCTTATGCTGTCACTATTGCTTATTCAAAGTCTTTTGTATAGTGCTTTGTTTCATATCCATTTCATT
CAACGATATACAAAAAAATGAGAGACTCAGTTCTGAACCTCTGTATTGTCTGTTGAGAATAAACATTAGCTGTCTATATAGTAACAAAAAATTAACACTG
GTTTGGAAATGTTTTTTATTTTCTTTTTAGAAAATAAATTTGGCTTTTTTCTCATTCATGAAAGTAATACAAGTTCATTATAGTTTTGAAAAATTATAGA
AAGGCACAAAGTCGGGCAATTCCTCTATCAGTTGTTTTCTATAGAAAATCACTCAGAGACAACCACTATTGACGTATTTGTGAAATTCCTTTTAGCCTTT
ATTACATACATATATTTAAATTTGGGATTATATCATTCTATTAGCCCGTTCTCACACTGCTATAAGGAAATACTGTAGACTGGGTAATTTATAAAGGAAA
GAAGTTTAATTGACTCACAGTTCCACATGGCTGGGGAGGCCTCAGGAGACTTACAATTATGGTGGAAGGGCAGCAAACATGTCTTTCTTCACATGGCAGC
AGGAGAGAGAAGTGTGTGGAGCAAAGAGGGAAGAGCCCCTTATAAAACCATCAGATCTCAACTCACTCACTATCATGAGAACAGCATGGGGGAAACCGCC
ACCTTGATCCAATCACCTCCTACAYGGGTCTCTCCCCAGACACSTGGGGATTATGGGGATAACAATTCAAGATGAGATTTGGGTGAGGACACAAATCCAA
ACCATATCAATCATATAATAGGTTTTTTTGTTGTTGATTTCACAAAACACTATATTATGAGCATTTATCCAATGTCACCCAAAAATTATTTGAAAATGTA
CACTTTAATGCCTGCTTAACTGTTCTACTTTGTGGTTATTTCAGGCCTAGTTAATCAACTCTCTGTTGTTGGGTTTCTAGGTTATTTTAGTAGCAAAGGG
TTATTTTGTTTGGGACATACAGTAGTCATACTGTATATAAGTAAATCTGCAGTCTTCATTTAATATTATAAATGTCATCATGTTTCCATGTTAATATGCC
TTTTTCATAAGTATAAATTTTTATGGCTGCTAATGAAATATCCCTTCATTTTCACTGTTAAGTGTCCCCACTGACATGGACTTGCAGAAAATACATACCT
TTTGCTAAACTCCTTTTCCTGGCTCCTCTCCATTTCTCATCATTTCTTTCTCATCCTTGCATTGGATGGGTCCCTCATTGAGTCCTCTCCATTCCAACAT
TCCCTTTATTCAGTATGCCCACACGGAAATGCAGTCTCCTTGTATATTCGTTCAAGTCCTCAGTTATATTGATTTTTTACTTTTCTCATCTGCTCCTCTC
CTCTCTCTCATTTTCCCCTATGTGTCATTTTTCATTCTTTAACTCTCACCTTCCTTCAAGTTTGATTTCTTTGTTTTTCCTCACTTTATTGCTATTTTGG
AAGGGGGCTTCTCTTTTGGAATTACTTGACAAAAGTAGATTTTTTTTTTTTGCAGTGGCAAAAAAAAAAAAAAAAAAAAAAAAATGACCATGCTCTTATA
AAGACTTTTTTCCTCTTATGTTTTTACCAACAGATGGATATCAGTATTGACAAATAGCAAAGAAGAGGCCCTAACCATGGCCTTCCGTGGAGAGCAGAGT
GCGGGAGAGAACAGCCTGGAAGACCTGACAAAAGCCATTATTGAGGATGTCCAGCGGCTCCCAGGGAATGACATTTGCTGCGATTGTGGCTCATCAGGTT
TTTGTCCCCATATTTGAACGAGCTTTTACAACATCCTTTCTCTTCCTGTAGAATATAAAACGATCTAGTTATTGAAAAACCTTAACCCCTATGGACACAC
TCACATACACACACAAAACACGTATTCCCAACGTGATTTTTCCTACCGCTGAGCTGCTTTTACCTATGCTGTTTTCTCTACCTGGAAAGCCCCCTCTTGC
TCTCCTAGGTGTCACTGCCAAAATACTACCTTTCCTATAAGGTCCAGGTATATAAGCACCATGGACATTATGGAGAGAGTAGGGGGCATGGGGTCCACAT
TTTGTATCACTGTCCACCACTCCCAGCCTGGACCATCTCACACTGAGTCCCTTTAGTATTCTGATTCGTAGTTTACTTATCCTAAAAAATGGGTCAGTAA
ACCTCTTGCTATGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGG
CCAACATGGTGAAACCCCATCTCTATTAAAAATACAAAAACTAGCTGGGCGAGGTGGCGGGCACCTGTAATCCCAGCTACTTGGGAGGATAAGGCAGAAG
AATCATTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCACCATTGCACTCTAGCCTGGGCGACAGAGCGAGACTGTCTCAAAAAAAAGAAAA
AAGAAATGGTGCATGTGAAATCAACTGACATGTGGTACATGATTTTCCTTCCTTCCTACTCAGCCACACCTTCCCTCACCTCTGTATCACATTGAAGTCG
CCTTCTCCCAAACTTTTATTTTCAAATAGCACTATATTACCAGTGTATTGGCAACAGCTAACACTGAGTGTTCCCGCTGTACTGAGAATCATGCTAGGTG
TTTTGCTTATCTCAGTGAATCCTTGCAGAACCCCTGTGAGCAAGATCCCAATGTTCTCATTTTACAGATGAGGAAACTGGGACTCAGAGAGGTTGAATGA
CTTGCATAAGGTCACACAGCTAGTAGGAGTCAGAACAAGGATGCAAACCTGGTATTCTTAAGCACTGTGATATACCTTTTTTGCGGTTTTACTTGTGAAA
CTGGATTTTCTACACAAGAAGCCATAAGCACCTCAGAGAGAAGTCTCAGATTTTCTGCCATTATTGTGTACATGTATGATAGTGACACACGTAGTGTCAG
GAAATGGCAAGCAGGTAGTAAAATCTCAAGCATTGACCAGTCAGGAAGAAGCTTGACCCAGAGAGAGAAACCTGAAGATTTGGCTAACATGGAAGTAATA
GTTCCCATTGTTCTAGGGCCATTGGAGGTTGTAGAAAAAAGGCCTTAGGTCACTGAAAGAAACATTTGGTGTTCAATATTTACAGCTGTCTTATTACTAA
GAAGTGCTCATGGGGAGGCCATGACCAAGAACTGTTGAGGTTAATGTTAGTTGCAACTTGGAGGTTAATGATGGCTATAGAATCCACTCCCCTGTGAGCA
GTACTTAATAGACCTTCAGTCCATCACTGTCAGAGGTGATAGTGGCAGTGAGGGAACATCTCTCACAGGCCTAGAGGTGTTGCATAGGGTCTCTKAAGGA
AAGCCTTTCTCACTTTTTCACAAGGATAAAGTGCTTAATTTTGTTTTCAGTTCAGTATCAAAGGGAAACTTTTATGGTAGCCCCTAGGCTAAACCTCAAG
AGTCCATTTCTTCCATTTAAGTCTTTTCTTCATAGTTCTTAACAATTTGTACTACTGTTTTAGCTTCCTCTGTAGTTGGCACACTAAAATTAGATGTCTT
TTTTGTTTCATTGTCTTCAACATTCKTTCCACAGAACCCACCTGGCTTTCAACCAACTTGGGTATTTTGACCTGTATAGAATGTTCTGGCATCCATAGGG
AAATGGGGGTTCATATTTCTCGCATTCAGTCTTTGGAACTAGACAAATTAGGAACTTCTGAACTCTTGGTAAGTAGTGACCTGTACTTGGGAAGAATGAT
ATTATTGTCATGAGTAATTTTAATATATTGTTTTGGATTTTTTTTGTATGTCTGCTGAGTACAAAGAATTATAATTCCTGAATTTTGTGAGTTTGCGTAG
ACGTTTAAAATGTAACTTTTGTGGTATGTAATGCTGACTTTCTATTTCCTGTTTGAAGAAAGGATGAATCATACATGTCTATAAGTAGCTCAGTGAAATT
GGCTCTTTTCTTTTGGGATGGTCTTCTTCAAAACTACATTTTTCTTTATGAATTAGTTTTCATATAACTCGTGGAAATAGCAGTTAAACTCAAATGTTCA
CATTACCTCATGGCTTCTGTTGTAAATAATGACTAAAGAGTTTATCTCAATTTTTTTTTATTATTTCTAAGTTTGTAAAAGTACACATGAATTACAAGTG
GCTTGTTAACTATTGTCATAAAACCAACTACTCTTGAACCCATAACTTCTTTAGGTAGTAAGGGAAGAAATTGTGAGAAGTTGTGGTGCTTAGCTTCTTA
ATCCAAAAAAGGGGTTATGTACACTTAAACTTGTTTTCCTTTAACCTCTGCCCTTCCCATCATGAGTCACCCAGATTTGGAGTTGTCATCAGGTCCAAAT
TGCTCCCCGAGATATACCAAAATACAGAAGGGGAGCCTACTTGGCATCCCCCAAGTAGGATGCCTACTGGACAAATGCCCCATTTTGCATAATTTTAACA
CCTGGTGCACTGTGAGAGAGTCTTTGTACTAAGAGTGAAATTTTTAAAATAAAGTATGACTTCTCAGACAGGAGGCTCACCCTTGAGCAGAACCTGAATG
AACCTGGGCTCAAAAAAAAGCTGAAAGTCTAGCTTATCATTAGCCTTAACCAAAAAGGGCAGTTAGTGACCCAGCCAGCAGCCCTGGTCATCTGAGCGTT
CACTAAGCAATCGTGATCTGTCTTGTGTTCTATGCACAATACAAGACATTCCTTCTAATTTAGAATGTAGGAAGTTACCATGCTGATACTCGGCTCCCTA
GTTCACTTCAGGATTGTAGAGAAAAGACACAGACCTATTACCTGTAACACATTCTTTAGTGCAGAAATGATGTCCCTCATCTCCTTGACCTGTATTAATG
AAACCCAGTTTGACAACAAGAAAGAGGAAAGTCCAAATCCTAAACGTTTGCCATGCAATAAACCCAAGACTTTTTCCCTCAAAGACATGGTTGCATGTAT
GTTTCTTAAACTTTGCATCCCAAAATTACATAAAATGATTAGAGGCCCTTCAGAACAAATTTTCTTAGAATGCTCTTGAACCCAGAAGCAAAATGGTTCC
TGGGTCCTCTGCTGCCTGCAGCATCTTAATCTGTATCCAGATATAAAGTAATCCTGTGTCCTTTTCTGTCCTGGGAGTAAATTTGTTCAATATAAAAAGG
AAACATGATGGTGGTTGATAAGCTATTGCTGTTTATTAAAAGTTTAACCTAGACTCACATATGGAGCCTGCTCTCTGTAATCTCATATAGTTTATATGTG
TGTAGAACCAGATTCTGTTCTAGCATTTATCACATATTTGTAGACATGATTGATTTCCTTGTCAATGGCCCCACTAGACTATGAGCATCTATGGAAAGGG
AACATAGTTTACCCATCTCTGTATTTCCAGCACTTAGTTTGGTGCTTGGCACGTAGTAGATGCTCAGTAAATATTTGTAGACCAGATGGACGGTGGTTTG
TATTCTAAGTCAAATGAGGGAAAATACATATTCATAAATCTCAAAAACAAATAATAGGAGACTTTTAACTAGTAGCAAAGAGTTTGCTATATTGTGGTTG
TTTGTTTTTTCTGTTACAGCTGGCCAAGAATGTAGGAAACAATAGTTTTAATGATATTATGGAAGCAAATTTACCCAGCCCCTCACCAAAACCCACCCCT
TCAAGTGATATGTAAGTATTTCTGATATATTGAACTTTTTTAAACCATTCTATAATTGTTTTTCTACCCTTCCAAAAAACTTCTTTTTTTTTTTTTKGCT
GGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAAACGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAA
ACCCGTCTCTATTAAAAATTTTAAAAAAATTAGCCGGGCGTGGTGGCAGGCACTTTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGA
ACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCACCCCTGCACTCCAGCCTGGGCAACAGTGCGAGACCCCATCTCAAAAATAAAAGAAAGTCTTTA
GTTTTTTACAGTGTTTGTTTGTTTGTTTATTTGTTTTCCAGAGCAAACCCCATTGTCAGGGGAAAGCAGAACAAAGAAAAGTATTTAGAAATGTATTTCC
GGGATGCACAGATTCTTTTCACCCTCACCTTCCCCTAGGTTGTTGCAGCTGCGCACCTGCTCTGTGAAGCACAGATTGTCATGGGGGCAGTTCTCTCAAA
AACATGGCATATTGTGATGAGTAAGAGACATTCAAAGACAATGGGAGATTCCTTTTAGCCTGGCAAAAATCCAAATGCTTAAAAACCCACTCAGCAAGAC
TGTGGGGAAACTGACATTCTGTCTCATAATATTGCCAGTGGGAGTACAAAATGGTACACTATGAAAAACAAATTAACCATATTTACCAAAATTATAAATG
TACTTACCCTTTGACTCAGCAGTCCCACTCCTGGGAATTTATTCCTATTCTGTAATGCAAAAAGATTAGGAACAAAACAAGTATCCATCTGTAGGCATCT
GATGAAATACTCTATGGTAGAGCCACACAACAGAACACTATGCAGATGGAAAAAAAAAGCACAAATTACACTGAAAAGGCTTTTCAAAAGTTAATTTGAT
YGTAAAACTACCATGAACAAATAAGACCTAAGTTTTACTTTACCAGCTTGATAACAGCAAGTGCTCAAGCACATACACAGTGCACTCTTGTCCACACCAG
CATTTTTTAAATGTTTGCATGACCCAAACCTTGAAGGCACAGCTGCCAGATGAATGTCATAACAACATGGGTTTTTATGTCCTGTTTCTCATGTGGGAAG
CAGCATCAGCGCCACCTGGTCAGCTTTGTGCCTCATCTAGTCATTTGGCCTCTGTAAGACTTTCACCTTCAAAATGTCTGTGATTCTCCAATATCTCTAA
TGTAGTGGTTAGGGTCATAGATTTTGAAGCCAGACTGCTGGAGTTCATATCATAGCTCTGCCACTTCCTAAACTATGTGACCTTGGACAAGTAACTTTAA
TTGTCTGTGCCTTAGTTTCCTCATCCAGAACATATATCTACCTCATAGGGTTGTGGTGACAATTAAGGGGCTTGAATAAAAAGTGCTTGGAGCAGCATTT
GGTCTATAGTTAGTGCTGTATAAGTATCTGTTATTATTATTATTGGTCTGTAGTAAGTGCTGTATAAGTATTTACTACTACTACTATTATTACTTCCTTG
TTTGGCCAGTGACCCAGAAGCATAAAGTGAACCTCTTGTAACATGCAGTTTGATCACTCATTTAGTTGTTGATCAAATCCTTACGAGGCAGCTTCCCTAC
TTCAGCCAGTCTTGTAGGTGCTGAAGATACAGTAGCAAACAAGACAGAGTTTCTGTCCTGCTTACATTCTGAGGAGATGAAAACACAGGGAATTAAAAAG
TCAGTCATACAATTACACATTGTATTAGGTGTTATGAAGAAATTACAACAAGAGGAGGTGTTGAAGTGTGTGGGGAATGGGGAGAGGGTATTTTTTTCAA
GTTGAAGGTGGGGAAAGTGCAGAATTGAGGGGCATGAAGGCACCCTCCCTGGGGGGAAGCAGCCAGGCAGCTGGAACAGGTCATATGGGTGCCCCAAGGG
GCAGTAAGGCATATTTGAGCTATGTCATGAAGGAAGATGTGGCGGGAGAGAACTGAGCAAGAGGGAGATGCAGGGGAATGCTGGGCAAGATAGAGGTGGA
GCCAGATCGTGTAGGTCATGGACTGCCTGGGGATTTGATTGTAAGTGTGATTGAGAGGTTTTAAACAGGAGTGGCGTGATCTGAGTTATTTTCTAAATTG
ATCGTATGTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAATTTCACTCTCATTGCCTAGGCTGGAGTGCAGTGATGCGATCTTTGCTCACTGC
AACCTCCACCTCCCGGGTTCAAGTGATTCTCCTGTCGCAGCCTCCCRAATAGCTGGGATTACAGGCATGCGCCACTATGCCCGACTAGTTTTTTGTATTT
TTAGTAGAGAAGGAGTTTTCTCCATGTTGATCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATTCACCCACCTCRGCCTCCCAGTGTGCTGGGATTACA
GGCATGAGCCACTGCACCCAGCCTCTTAAACTGATCATATGATATTGGTTCTCAACCAAGGGTGACTTTGCCCYCAGAGGATACTTGGCAATGTCTGGAG
ATACTCAGTTGTCATGACTTGGACAGGTGCTACTGTCACCCAGTGGGTAGAGGTCAGGGATGGTGCTAAACATAGGACAGCTGTCAAGAGAAAAGAATGT
ACCCAGCCCCAAATGTCAGTAGGGCTGAGGTTGAGAAACCCAGCTGTAGCTGACGTGTGAAGGACAGACTGGCGGGGAGTGTGGCGGGGCCTGGGTGCCT
ATGAAAACAGACAGAGGAGAAGCTGTTAGAATAGATCCACTGAGCGCYGAAGGTAAACTGGACAAAGGTGGTAGCAATGAAGATAATGAAATGTGGTTGA
CTTCCCAATGTATTTTGAAGGGAGAGCCAACAGGATTTGCTGATCAGTTTTAATATGAGATGTTTAAGACTCAGTCAAGATGACACCCAAGGTTTTACAT
CTAGGTAAATAGATAGTAGCATTAACAAAAACGGAGCAGATAAAGAGAGGACTGGGTTTAAGGGGACAGAGGAGAAAAGTTGTCTTTATCAGCCATAGGA
CTAGAATTCTAGTGTCCAGATTTCCAGACAAATCTATTTTCCACTCTCCCTATTACTCCAGTGTCAGAAAACATTAAATTGCCAGGGGACTATGGGCTGA
GTGCCCATAAAAAGTTGAAGGCATTGTGCCTAGTAAGAGGCCAGATACTTCCTATGGCCACAGAATTAGAGACCTAAGGGTAGAGGTGATTTTCAAGGTG
ATCATGTGATACCTGAGCACCCTCTGCATCATTGCTTCCAAATAATTGCGTGGCATCTGCATGATATTTCCAGTGACAGGAAGCCACCTGCAGACATTCC
TGAAACGCAGATGAATGCATGGAAACAGTAATCTAAGATCTACCTCCCCGCAACTTTGCATCTTTAAGCCTAGTTCTGGCCTCCCGGATAATAATGGGAA
GGAAGCTTTCAAATGAACCCCTAACATGTGCATCCCTCTTTGTTCCTTACCCATAATCTTGCTTCCTTGGAAGGCAGCTATGATTACTAATATTTTACAG
GTAAAGAAACTGAGATTCAGTGAGAACTTGATTTACCCAGGGTCACATAGTTAGCACGTGGTCTCAGACTTGAATCGAGCGATTTAATTTTTAAGTCTGC
TGCTCCATCCATCAACACAGTAGCTGCCTTTCACACTTTATATAAGACACATGCAGCAGAGGCCTCAGAAGCCAGGCTTGGGCCGTTCTTTTGGTTACTG
GAAGTCCTCTAATTCATCAGGCTCTAGCCATCCTAAAAAGGACTTTGACCTAAGCATAAGGGACACACGTGAGCATAAGATTTTGGTTACTTAGTAGAAT
CAGTTGGTCTCTTCTCAACTGCACAGGGTTGAGAAAAGACCAGAGGCTGTGTGCCATCATCAACCAGCTCAACTGTTTTTACTGCCAACCCAAAATGAAA
GAAAAAGGTACCAGCACAGTGTTAAACTGTGTTGCCTGACTGTGGGCTGTTGGAAACAGTAGCAGCTTCCACAGGTGGAATGCATATTTTTGAGCAAGAA
AGTTTATGTCCTTTGTGTTAGAGCCCTCTCAGAAGGAAGAAAACACTTCTTAGGCACTGTACATCCTTTAATTCAAAATATACCAATGTCTTATCCCCAT
TTTCAGATTAAAAAAAAAAAACTGAAGCTCATGACGATTAAGCAGTTTACTATGGTCACACAGCTGGGGTGCTGTAGAACTAAAAGATTTAATCCAAAGT
TCATTTACTGTCTTTATTAATTAGCTCATGTAACTGGGAAATTCAAGGGGTGGATTCAGGTACAGCTGGATCCAGGCTGTCAGACAGCATCACGTGGACC
CTAGCTCTCTTTCCTTGACTCCTACCTCTCCTTTCCTCTGAGCTGACTTCCATTTTAGTCTTTCCCCAGAGGTGGCCAAGGTGACCATTGGGCCACTTAG
GTCATTTACTCACCCCTGTGGCTGGGAGGTGAGCTCAGTCCCACCAGAAACACTTGAACGGAAGTAAAGAAGGCAATTCCTCAAGAAAAGGAAAAAGTAC
TACACCCTTTCAGACTTTGGGCATGTTATCCATGTGGTCTCCTGCTCCCATACTGAACCTGTGCAGGAAAGACAGCTCATCTTCACCCCTTTGGAGCTCA
ATGCCTGGCCTGGGGGAGTTGCTTCAGTGACAGCCTTTCTGAGCCTTAGTTTCCTCACCTATAAAATAGAGAGTTATGGCCGGGTACAGGCCGGCTCACA
CCTGTAATCCCAACTCTTTGGGAGGCCAAGGCAGGAGAATTGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATAGCGAGACCCGATCCTTTTAA
AAATTTTACAAAATAAATAAAAAATAGAGAGTTATATCAGACGACCAAAATCCTTTCCGTGAAGCTCTGAAAACTTTTAATTGGTCTTTCAGAATGTGTT
TAACTTCTTAAATTTTTAAATTTATTCATATGCTTATATATCAGAGTTTGAAGTATTTATAAATAGTTGATTTCTCATGCTGTTGGTCAAGGTGAAAAAG
AAATCTGTGATTTATGTGCCCGTTTACTTTGTAACTATATCTATTACTTGTATATATTAGTAAACATATATTATTTTCTTTATTCTGTCTCTGTTGGAGT
AATTTGGTCTAAAACCTGGTTTATTTGAATGGTGAAAAGAAGCGTATCTTAATTAAAATAACTTCTCAAAGAGAAATGTTTGTCAGAAAAATGTAAACCT
TTCCTAGCACTTGGAAAATAAAAATTCTTTATTTTGTTCTGTTTTAGGACTGTACGAAAAGAATATATCACTGCAAAGTATGTAGATCATAGGTTTTCAA
GGAAGACCTGTTCAACTTCATCAGCTAAACTAAATGAATTGCTTGAGGCCATCAAATCCAGGGATTTACTTGCACTAATTCAAGTCTATGCAGAAGGGGT
AGAGCTAATGGAACCACTGCTGGAACCTGGGCAGGTAAGGCCTCACTAAAATCATTGGATAAAAAGTAATGTGGAAAATCAGTTTAAAAGGTGACTTATT
TTAACATTATACCATATAATGAGATTCTTATACATTGGGTGGCCATGTCTAAATCAAGAGAATATGAGAGTGAARAGGTGTGCTCCTTATAATTACTTGG
GGGCAACTGATATATATGAAGCCTCCCTTGGCAGAGCATATTATTGACTTACTTATACTTTTCTTTCCCTTTTTAGGAGCTTGGGGAGACAGCCCTTCAC
CTTGCCGTCCGAACTGCAGATCAGACATCTCTCCATTTGGTTGACTTCCTTGTACAAAACTGGTATCGTTTTTGTTTTCTCTGTTGAATTACCTGAATAT
GCCTTATAAATTAACACAAACCAGTCCTATCAGTGGCCTAGATCGGGAATTGGCAAGCTTTTTCTGTGTCATGCTAGATATAAAAATTATTTTTGGCTTT
GCAGGCATGAAGTCTCTCTGTCAGAGCTATTCACTTCTGCCATGGTAGTGTGAAAGCAGCCACTGACAATGTGTAAACAAGCAAGTGTGGCTGTATTCCA
ATGAAACTTTATTATTTTGTTTATAAAAACAGACAGTGAACCAGATATGGCCTACAGGCTGTAGTTTGCCATCTCTTGGCCTTTATAAATGTAAAATTAT
GTCTGTATCCAAAAATCTGCTGCACAGATTGGACACATTTGCTAACCGTTAGGAGAGGTTAAAAGAGAGAAGACTTAACAGCACAGGTCAACCATATTTG
TGAGTTTTCATTGTTCCTAAATTTAATATAAGACAGCAGCAGTGTGTGTGGCTGGATCAATAGCTCATTCAAGTTTGGGATATACTGATGGAAGTATAAG
AGTGAATATAGGAAGTTTGGACTTGCTGGATTCTTTATTCTCTTTATCTGTTCTGTAAGCAACAGATGATGAGGAGGAACTAGAGCTCATCTAAAGAAGA
AGATCAAAATAGTGAGGGGATTTGAACCCATAGAGGAAAAATGGTACATAGACACAAGCCAAATTGTATAAAAGTCCAGGTTTCTTCCTCAGAGACAATA
TAGCATAGTGGCTCAAAACATTGGCTCCAGAGATAGATTACCTGTGTTCAAATATCCCTGCTTCACCATCCCTATCTTGAAAATCTTGAAAGCAAGCACT
TCAGCCTCTCTGCGCTTCAGGGTTTTTTATCTGTAAAAGCGGTTATTATTAGTATTTACCCCATCATATAGTTGTAAAGATTCAATGAACTAATACATGT
AAATGTTAAGAAACAGTGTCTGTCCCRTAGGACCTGGCACTCTAAATAAATACTGCCTGTTATCACTGTATTGCTTATAAATCTAGGTTAGAAACATCAT
AATTTTCTCTATTATAATAATTAGGTCTCAAATTTGACTCAGTTGTCAGCACAAAAATAAGTGGCTAATCTATAGTTTTAAGTTATAAAGTAAGTCATTT
TTTTCTAATCATCATCTAATTTTTCAGTGGGAACCTGGATAAGCAGACGGCCCTGGGAAACACAGTTCTACACTACTGTAGTATGTACAGTAAACCTGAG
TGTTTGAAGCTTTTGCTCAGGAGCAAGCCCACTGTGGATATAGGTAAGAGTGTGTCTAGTGTCTTCATGACTGTAGTAAGCGTGTGTTGCATGGTACATT
GTAATTTGATTATTGTTCCTTGCCTTCTTAAGGTGTTTCCTAGATAATTATGCAAATTAATTTTTTTCCTATTTCAGTTAACCAGGCTGGAGAAACTGCC
CTAGACATAGCAAAGAGACTAAAAGCTACCCAGTGTGAAGATCTGGTAAGCAAAAATGGACGTGGGAGATTTATTAGACATTGGCTGCCTTAAAAGTGTC
ATTCTGAGAAGCTAGAATTGAATATTAAAAATGCAGATTCATTTTTTTTTAACACTTGCTAAAGAAAATCAGATGAGCAATGTGCTACATTAGAAAAAGT
GGTAAAATGATAAATTTGTCATCCACATGTTTTTGGAATGCAGTTAAAGGAGGTGAAAGGCATTACACAAGTATTATTACCAGATCGACTTGTGCATTGA
GGTCATGCTTTTTATTTCCCAGACCATTAGACTTTCTCTGCAGCTTAATAGTAAAGAATTATTTGAGAAGCTGCTCCAAAAATTGGGCAAGTAAAGCTCA
GAGAGTAGTGGTCTTCAAAATGTTAACACACTGTTCTCCCAGCCCCTCCCCTTCCTGTGCACATTCACCTTTTTTGACCCTACTAGTTCTTGCTTAGCAA
GTCAGGGCCTTCACATTAGTGTGATTCTCTTGAGTTTCTGCTAAGTGCCAGGTTCCAGGCCCACCAGTTGGGCCTTTTTATTCTTAAAAGAATCCTTTGA
GACAATTATCCCTGCTCCCATTTTATGAATGAGAAAATGGGGCCACAGATTGGACTGGGACCTTAAAAGCCTACGTCTTAAACTTCAAAGACTCGTTTTG
CCTTTCAGCCAGGAATTTGCAAGTTTGAGGCCCATTTAATAAGAAGAAAGCTTTTAATTTTGGAGACAAGTCATCAAAATAAAGAAGGCTCTGCCTGCAA
TTGTTTGCATTTCTTCTTGAGCCTGTCACATAGCAGTGCAGCTTGTCTAAGCAGAGTGTTGCCTATAGTACACCTACAGATGATTCATTGAAAACTAGGA
ATAAGGTGGGATTTGCTCAGTGTTTGTATAATATTGGGATGTTTCAGCATTTAAATTAAAATGGTGCACATTTGCTGTTCCTTCCAGCTTTCCCAGGCTA
AATCTGGAAAGTTCAATCCACACGTCCAYGTAGAATATGAGTGGAATCTTCGACAGGAGGAGATAGATGAGAGCGATGATGATCTGGATGACAAAGTGAG
TGTAAATTATGTCCTCGAATTCTCAACAACTACCCCARCTTTTCTAGTCTGTGTAGACAAGATCCATTTTTGGTGAGATTGATTGATTGTGGTTTTATGA
TCCAATGTATCAGGGCCATTTATGTTGTTCAGTCCTTATTGGGCACCATTTAACAGCTATATTAAGGTTGTCCAGAGAAACAGAGCCAACAGGATAGGGA
GAGAGACAGAGAAATTTTTTTTAAGGAATTGGCTCACATGATTGAAGGAGCTGTCAAGTTCAAAATGCACAGGGCAGGCCAGCAGGCTGGAAATCCCAGC
AGGAGTTAATGTTGCAGTCTTCAGGCTAAAGACAGTCTGGAGGCAGCATTCCTTACCCTTTGGGGGACCTCAGTCTTTTTAAGGCCTTTCTTTGGCTGAT
TAGGTGAGGCACACCCACATCATGAAGGGTAGTTCCCTTGACTCGAAATCTACTCATTTAAATGGTAATTGCATCTAAAAAATTCCTTTACAGCAACATC
TAGACTAGTATTTGACCAAACACCAGGACACTGTAGCCTGTTGACACATAAAATTAACCATGAAGCTAGGCATGGTGGCTCATGCCTATAATCCCAGCGC
TTTGGGAGGCCAAGGCAGAACTATCGCTTGAGACCAGGAATTCGAGAGCAACCTAAGCAAAATGGTGAGACCCTGTCTCTACAAAGTAAATGGATCAATC
AATAAAACGTGGTGGTGCTATTTGACAAGCTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTGAGGCTGCAGTGAGCTATGATTGTACTACTGCACTCT
TGACCTGAATGACAGAGCAAGACCCTATATCTTAAAAAAAAAAAAAAAAAAAATTAACCTTCAAAACAAGTAATTAGTAAGTAAATAACAGTTGTTATTT
ATTGAACATAATCATGCACTGTATAATAACATTTCAGTCCACAACACACTGCATACTCAATGGGGATCAATATAAGATTAAAACGGAGCTGAAAAATAGC
CATCACCTAGTGATGCCATAGATGTCATAATACGGTAGTGCAACACATTCCTCAAATGGTTGTGGGATGCTGGTATAAACCAACCTACTGCACTGAGTTG
TATAAAAATGTACAGTAATGTCCTAGGCCTTCACTCACACCCAGAGCAGCTTCCAGTCCTTCCAGCTCCATTTATGGAAAGTGTCCTACATAGATGTACC
ATTTTTTAATCTTATATAACATGTTTTTATTTTACCTCTTCTATGTTTAGATACACAAGTAATTACCATTGTGTTACAGTTGTTTACAATGTTTAGTATA
GTAGCATGCTGTACAGGTTTGTAGCCTGGGAGCAATAGGCTATACCATATAGCCTAGGTGTGTAGTAGGCTCTCCCATCTAGGTTTGTGTAAGTATACTC
TATGATGTTCGCACAAGAACGAAATCACCTAACACATTTCTCAGAATGTATGCCTGTCATTAAGGAATGATGTTCATTAAATATGGATTAGACAGATTTA
AGCACTTACGTTATCTCAGATCATCTTTATTGAAAGTCCATAACTGAGTGCTGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGGTGAGACGGGTGG
ATGCCTTGAGCCCAGAAGCTTGAGACCAGCCTGGGCAACATGGCGAAACCCTCTCTCTACAAAAAATACAAAAATTAGCTGGCCGTGGTGGTGTGCGCCT
GTGGTCCCAGCTGCCCGGGAGGCAGAGGTGGGAGAATCACCTGAGCCCAGGAACTCAAGGCTGTGATGAGCCAAGATTGTCCCATTGCACTCCAGCCTGG
GTGTGGGTGTCTGAGTGAGACCCTGTCTCAGAGGAAAAAAAAAAAAAAGTACATAAGGGACATTGTTATCCCCATTTTACAGAAGAGAAAACTTACAAAG
AGAATTTAGCAACTTGTCTAAAGTCTCCCAGCTAGTAAAGACAGTTTGGAGGATTAAACCCAGTTCTCACTGAGTTTTCCTTATAAGCAGTTAACTACCT
CTGAAAGTTCATTCATGCATTAATTGATTGCCTATGTATTGGACATTTCCTGTATCACAGGCAGGATGTAAGGAATGGCCAAAGAGGTCCTCAAGCCTTA
ACAACTTTAAGAGGAAATAAATTATAATACAATGTGATAATCATTATAAGAGTATRGAAAAATTCCTGAGAGCTATTCAGAGGACCAAGCAGCTGCCTCA
GTCTGCCTTCTCAAGGACATTGGAGATGGGTTTCTAAGGATAGGTGGAAGCTTGCCAGGGAAAGAAGTGGGGTGGAATGCATCATTCCAGAACACCACGT
GCCAAGGGAAGGAGTCATGGTAGAGTCTGGATGTCGGAGGAATGGAGAGAAGCACTGTGTGTGAGATGCATTCACCTGGCTGGGTGGGGAGAGGCAGGCA
GCTGCCTTGTAGAGTCAGGCAAACCAGATCAGGATGGCTTTGTGGGCAAGGTTTGGCCTTTGGGTTTTTGTGCAAGCAGTCAGAAGCCCACAGAGGTTTA
TTGTCTAAAGAGCAAGGTTTCCCACCAGCTCTGGCTGCAGTGTGGAGAATGGACTGGAGGAAGGAAACTGGAGAAGGGGCCATTCTGGAGGCTAGAGCTG
CAGTGGGAGCTGGTGAGCACCTGTACTAGRAGGGGCTTCAAGGGATATTTCCAARGGGAATGCAGGAACCAGGGACTCCAGGTGACACTGAGGTTTCTAA
CCTGGGCAGTTGAGTGGATCCTAATGCCATCACCACAAGCGCAAATACCAGAGATACCTCATGGGCCATTGGTTTGGAACACAAGTCACTGGGGTTGTAT
TTACAGATCTGTAAGTAATTATTGTGTAGCGGGCAGTGGGTGTGAATCCGTTTACTTTGCAGGGGGATATAAAATGAGAAAAGAGGCAAAGAAAGAACTT
CAACGTTAAAGGGTTGAGCAGGGAACAAAACTTAATGTAGCAAATTAGAAATAGGTGGAAATACTATTCAAATGTTGCTGAAAAAGTCCTGCATTCTGAA
GGTGTTTGCTTATTAAAAGTTAAATCTACCTGTGACCTTACTGTGCTTCTGACACTGCTGCTGATCCTAACCAGTGTTTCACTAGTGTGATTATTCATAG
TGGTGAACGATATGAAAGTGTGGTATCTAGATCCTTCCCTTGTACTGTGTCAGCATCATGAGGCTCATTGTGGCTGACCTCATAAAGCTCAGAGAGCCAC
AGGAACCCAGATTCCCACCTGAGCCCGCCCTGCGGAGGCCCTCTGTACACATGAAGGGTGGTCCTTGATTATTATCTCACCTTCTTATTTCATCTGCCAG
CCAAGCCCTRTCAAGAAAGAGCGCTCACCCAGACCTCAGAGCTTCTGCCACTCCTCCAGCATCTCCCCCCAGGACAAGCTGGCACTGCCAGGATTCAGCA
CTCCAAGGGACAAACAGCGGCTCTCCTATGGAGCCTTCACCAACCAGATCTTCGTTTCCACAAGCACAGACTCGCCCACATCACCAACCACGGAGGCTCC
CCCTCTGCCTCCTAGGAACGCCGGGAAAGGTATGGGCTTTGAGAAGGGCTTGTGACTCCATCCTCGAAGGGCTTGTGACTCCATCCTCAGAGCTGATAGT
CTAGCCAGCTTTGAGGTAAGAATTGCAAGGTACATTTGAGTGGCGCGGATCGTGTTGTCAGGAGCAGCTTGAAATAGGGACCATGCCATTTGCCAGGTAC
CAAGAGCAGGACAGGCAGTGCTGTGGGCTCTCTTTGTGCATTATTTGTGTTAACCTTACAACAATCCTGTGAAGTATGTGCTTTTGTGCCCATTTTACAG
AAGAGGAAACTAAGGCTCAATGAGATACACTGACCAGCCCAAGGTCACACCACTGGTAAGAGGTAAAGTTGAGATTCAATCTGAGGTCCACGTGGCTCCA
GAACCTGTACTTTTTRTAATGTGGAGTGGAGTTTCAGTTCTCTGGAAAGTTACTTTTCTCTACATTAAAATGCCACTCTTTTGAAGACGCTAGTAATAAT
AGTGGTAGTTAATAGTTATGGAGCACTTGCCTTATGAGAGGCTCTACGCCTAGTACTTCTTTTGTAATCATCTCAAAATGAGGTAGGTGCTATTATGCAG
TTACTGGCATCATGTRAATTAGGGGATTTGTTCAGAGATACTGAGTAATTGGCCTGTAGTTCTCAGCCTGGGATTCTAACCCAGGTTCTGTGTGACCAAA
GCCCATTCTCTTGTACTCTCTAATAAGGAACATTTTTCCAGAGACAGTACTTGGAGAGGAATTTTTTTTTTCCCTTGAGACAGGCCTTTCTCAGTCGCCT
CCATCTCCGGGGCTCAAGTGATCCTGATCCTCCCACCTCAGCCTTCCAAGTAGCTGGAACCACAGGTGTGTGGCACCATGCCCAGCTTTTTTTTTTTTTT
TTTTTTTTTTTTGGTAGAGATGAGGTCTTGCTATGTTGCCCAGGCTGGTCTTGAATTCCTGTACTCAACTGATCCTCCCACCTTGACCCCTCAAGGTGCT
GGGACTACAGGCTTGAGCCACTGCGCCCAGACGAGGAATCCCGCTCATAGGAGGGTTGTTGTGCTGTGAGTTGTCAAATGTCTCACAGGGCTGGCGCCTC
AGGCTACCATTAAAGTGTTGCCTCAGCCAGTAGGGATAATTGAGAGGTACCCAGAGCTATAGCTTCAAGTTTGGTCTTTGCCAGTGAATCCAAATGCAGG
GTTCTCCCTGTGTGCTCAGCTCGTGCTCCCACAGGTTTCATGGCTTCTCGCTACACAATGCCATGCCTATTTGAATCACACTAGGGCTATTTTCTGGGAA
ATGTGAGCTTTATTCAAAACAGTGTTTTTTCAGAGCTTATTCTCTATTGAAATAGTGTTATAAATGGGAGCTGTGTTCTTAGAGAGACCCCAAATGGCCT
CATAGATCATAAAGTAATAGAGAAAAGTTAAAATAACGCTTTGGCATGAACAGCTATCCTCAAAGATAACCAGTGGCCACACAGTAATAGTGCATGTAAG
CCAAAGGTCTAACCCACCAGTGTTTTCTTACCATTCCATACATTGTACTAAAATGTATGTTTTTAAATCACTCACATATCAAGCTGCAGGTCTGTAGTGT
AAGAATGCTGTGTTGCTGCTTCCCTGTGGGTAATGGCATTCCCCATCAGGGTAGCAGTCTGACAGAGAGCAGAGATTCTCTTTCTGCACCCTACAGAGGA
CTGTGAGAAGCCTCCAGACTGAATRCAATAATGGAAAAAGTGACTGAAAGATTTCACATCTCCTGAGTGTGGTTACCAACATAGCAGTGGGGACCTATCT
AGACAGGCACAGCCTATGCCTGTTCAGAGAGCCTCTAGGTCATTGAGAGTCCTGAAAATGGTTTATAGGAGAAAATGACACCAGAGTCCTGGGGGCCAAG
AGACCCCCTCATTTCCCTCCACCCCCTTCTGTAATTTTATCTCAAGGGGGACAACAGAAACCCATAATATATACTGTCTGACTTTGTGCCAGGCATATCT
CTCATGTCTTGAATAAATTCTAACTAGCTCTTTACCAAAGACCCAGAAGACAAAGACTAAATTTATTTAGTGTTCCAGCTGCTGAAACAAGTGTTTGAGA
CTTGGCCACAGCAACCGTGGTCATCTAAGGATACAGTACTTTCCCCACTTCCCCCAAAAAAAGCCCATAATTGAAAATAGAAATCCTCCCTACAAAAACC
AAGAGTGTTCTTCATGGCTGTTCACAGCAGGACATCAAATTCAGAGATTTGGCCTGTCTGCTGGTGAGACATAGGGAGTACAGCCTTCTCATGACTTTTA
TAAGGGATTTGAAGTGTGCGATATCCCATAGCTAGCTCAGCTCACATGCGCTTACATTTGGAAAACTGATAATGTTTAGAATGGAGCTCTTAGAAGACAT
TGTTAAAGATCAGCTGATACTCTGTGTGCAGAGATAATTCTTCTCTGTTTTTTTGGCCCCTATGTTTTTTTTCATTTCCTTCTGTTGAGCTGATAGAACC
ATTTGCATGAAAACAAGGATGCCTTGGATCTCTCATTTGAGTTCCTTGTTCTCCATGACAAATAAAGCAGAGGTCTCTATTTGCAGCAGAAGTCATTTCC
TCAACTGAATTTAGGGGTCTGAAGGACCCCTAAATTAAGTCTTCCAGTGAGACAGAAACAGACACTTGAGATAAAGTCCCCACAAAAGCGAAGAGGAGAA
AGAATTATTCTGAATCTAGCTGAGAATATTTTCAAGAAACTCCAGCTGCCTCATCGAAATTCAAGGAAGCTTGACCTAAATTACCGTCAAGCAAAGCCCC
CTTGTGCTTACAAGTGAGCAGTGCCCCAGAGTCTCAGAGGAGCTCAGTAGCTCAGAATCCCAAAATCACTATCCTCAAGCCCCATACCGAAACACTTCGC
TGCCTAACCCCTCTTCAGATGTGGGGTCCCGAGAGACTAAATCAAAGCTGTAAAATTAATTTGTGTGTGGTAGTTTCTCGTTTGTGATCAGTAGCTTCCC
CCTGCCCCCACCCCACTTCTACTGTACGTTTATTAACACTGGTTCTTGGACCGGGTGCRGTGGCTTACGCCTATAATCCCAACACTTTGGGAGACCGAGG
TGGCCGGATCACCTGACGTCGGGAGTTCGAGACCACCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATGAGCCGGGCGTAGTGGCGC
CTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGTGGTGAGCCGAGATTGTGCCATTGCACTCCA
GCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACTGGTTTTTGAGGCTTGCCAAGATTAGTTTCTTTTT
AACCTTTGATTAAGATTAATTAAAATAATATCACAGAACCTAGGTTTATTTACTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGGGACAGGGTT
TCACCACATTGGCCAGGCTGGTCACGAACTCCTGACCTCAGGTAGTCCACCTGCCTCGGCCTCCCAAAGTGCCAAGATTACAGGCGTGAGCCACCACACC
CGGCCAAGCCTGTTAAATTAACAAATGCTCTGGATAATGAGACCGGGCACTTGGTAGGCATCTTAACTCAAAGATAGGATGTGTTAAGTAAAAGAATGAT
AATTCCAATCTCAAGAACCTTCTTTAACATGCTTAAAAGAACTAACCTTTTAAGCGTTTAGAAAGGTGAACACCTGATATGCTAATTACAGTTCATTCCC
ATCTATTCCTGAAGCCAGGCCTCTAGAATCAGGCATTATATAGCCCTTCTCAATAGCATGTGAATACCTGTAAGTATTAATTCTTCATTTCATACACATT
TGCTATAATGTAGACTTCCTACCTTAGAGAGGCTCTGGCTTGGAACTAATAAACTAGCAGATAACCTGCACGAAAGTAGCGTGCTGTGTGGCATACTGAG
AGCGTCAATAGATGCTTGTTGTTGAAGGGTTGGTGCCACAGAGAAAATTGAACCAGATGCTACCCTTGCCAACAGGTAGGTGAAGAGACTAACTACTCTC
ATTAATCAAAGTATATGCAGTAGTTTGAGAGTAACAAACTAAGGCAGATCAGTCTGTGTCAAGCCAGACCATGGCTGCCTAGACAGCTGTGAACTCCTGA
GAAGCCTTTCCAGCRTCACCTTCTCCTCTTCCAAGAAGCCTTCTTTTCCGTGCCACACAAAAGAGACTATGGTGGTCGGGCGTGGTGTCTCATGCCTGTA
ATCCCAGCACTGTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAAACCCTATCTCTACTAAAAATA
CACAGAATTAACCAGGCTTGGTGGCCCGTGCCTGTAATCCCAGCTACTCAGGATTCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGT
GAGCCAAGATGGCACCACTGCACTTCAGCCCGGGCGACAGAATGAGACTCTATCTCAAAAATACATACATACATACATACATACATACATACATACATTT
TTTWAAAAAAAAAAAAAAGAGAGACTATGGGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGYTGAGGCGGGCGGATCACGAGGTCA
GGAGATCGAGACCATCCTGGCTAACATGGTAAAACCCTGTCTCTACTAAAAATACAAACAAAAATTAGCCGGGTGTGGTGGAGGACGCCTGTAGTCCCAG
CTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAAGCGGAGCTTGCAGTGAGCCGAGATTGTGCCACTTCTCTCCAACCTGGGCCACAGGGT
GAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGAAGAAGAGAGAGACTATAGTTCTTCCTCATAAGGCCCAATCCTGCCCCATACTTGTCTCATCCTAA
CATTGAGCCAATCTTGCTGATTTTCAGAGTCTTCAACTGAAAAATAAGGATTAGGTGTCTACCTTGCTTAGAGAGCATGAAATAATGTCTATGAAATGAC
TGGCACGTAGTGAGCATTCAGTAAATACAAGTTTGTTCAATCCTCCTGCATGTTTTCAGTTTAACAAACATTCTGGGCACTGGAAATGTAAAGAAGAAGG
AAGAAGTACCTCCCACTCTCAGGGCTCCAGGGAAAGAGGACACAGTATAATGTGCCCCTGGGGCCACTAGGGAGTATTCCTGGAGGARCAGGAAAGAGAA
GTGCTGTTCACAGCTTCAGAGAGAGGATTAGGGAAGTCTTCAATGCACTCTTCCAGTTAGGAGCAGAACTCCTCAAGGATAAGGGCTGTGAATGAGCTGC
CTTTGCATCCCTGGCACAGAGAGTAGGATGCTCGTCAGTACTCGTCAGATGCATAAACAACAGCAGAAAGAATCAGTGAAAGCATGTCCCAGAAATAGGT
GGCCAGGATAAGGAGGGGACATTTATAAAACTAAACCAGATGTCCACAGGTGTGATAGTTGACTTGCTGAAAATYTAATAAATGCAGCAGTTGTGCCCAG
ACACAGCTGTGTATGCATTTTAGACATTTCTCCAACTTTCCTTGGAGATCTGTGGCAGTAGATAGGAAGAAGAGTAGAAAGGGTGAAGACTTGCTCAGTA
TRTGACAGCACCTGCCACCATGAAAGTACACTACTGCATGATTCAGACTCGCATGGGAAATATTTTCCTATCAGTGGTGTTATTCATATATTGATGACTT
TACAGTTTCCTGCGGTTTTTTATCTCATGGGAAGACAGTCATTAGAGTAGCTTGATATTAAAGCTTCTCATAGGCTGTCACCCTTGATTCGTGTTTTGTT
TTAGGGTGTTTTTTTCATTTGGGTTTGGTTTGCATTTGGGTTTTTGGCCTTTTTAAATCCTTTCCCCCTGTCCTTTGTAAGGCATTGCACGTGAATCACC
TAGTGCTGGCCCAGAGTATCATCTGTGATTTTTGCCCTGAATAGTGACCTTGACTGAGGCTCTCTAGCTAAGTCACCTGACTGCCAGGKTGTGGAAAGGG
AAGCAGAGGAAATCCTTGTTGTGCCTCTGGCATTCAGGGGTGGATGAGTTAATTGTTAAAGAATCAGCCCTAAGTCTCTYGAATCCTGGTACTTTCTTCT
TAATTATCAGTGTCATAGAAGGAGGTGGAAGGACAGATGGATAGCTAATGCTGTTTCCTGTGTGGAAGTCAGTTGACAGAGCAATGTGGCACATATCATG
CCCGGGCACCAGCCTGTCCTGTAATCCTGGCCAGCCCTGCTGACTTACACTAGTGTCCCAGCRCACTCTACTCCACCATGCCTGTTTCTCCATCTGAATG
TGGAGATAACAGCTCCTCCGTTCTACACTGAGTCCTTCTTTGTATAAWTATACGGTTAATTACTTTTTAAAGTARTTAACTTAAGCTTTCCACTCTTTTA
AGCTTTATACTATGAAAACCATTAGATCAGTTAGGAGGAATAAGTTCAAGAGATCTGTTGTACAACCTGGTGCCTGTAGTTAATAACGTACTGTATTCTT
GAAAATTGCTAAGAGAATAGATTTTAAATGTTCTCGCTACAAAGAAAAAGATGCATACGTGAAGTAATGCATCTGTTAATTAGCTCAATTTAGCAATTTC
ACAATGTACAGTTATCCCATGCCAAAACTCCAGGAATGCTCAAGTGCCTTATATAAAATGGTGCAGTATTTGCATATAACCTACACGCATTCTCCTGTGT
ACTTTAAATCACCTCTAGATTACTTGTTATACCTACTACAATGTAAATGCTRTGTAAATGGTTGCTATACTATATTGTTTGTTTGTTGTTATTGTTGTTG
GATTGTTATTTTTTATTGTGAGTTTCTTTTTTCTGAATATATTTAATCCAGGGTTGGTTGAACCTGCAGATGCAGAACTCCCAGATACAAAGGTCCAACT
GTATACATATTTTAAAACAATATGTTATACATAATAAATATATATGTTATCAATTAAAAATAAATTGAAAAAAGAAAACTATTAGAAAGTGATAAAATCT
TCATGTATATTGTCCCAAGTTGGATAGATATAACTTTTGTCATTACCCTTCCTATGTGGCAGCTTAGAATGTGTAAATTATGTTTCTACAGACAACTTTT
TCAGAAACTGTCAAGATAATTTTTAAGCCATCTTCTAGGTCTTTTTTTTTCTTTGAAACTTCAGTTATACTTTTATTTGGTCTCCCAGTGTAAGAGACTT
TTGGTTTTTCTGTGTGTAACTAAAAACCAGATATACAAGGATATTGAAAAAACATCCTCCTGACTTACATCATGAATTATCTTTATAGTCGTTGTTTGAA
ATGCTTGTTTCCCAGTGCCATAAAGAAATAGCACTTGAACATAAATTTAATTTTTTCAGCAAGGCCGTTTTTATACTTTCTGTAGAAAGGGTATACTTGC
CAGCAGTTTTGCCACGAGAGTACACTGAACAAATGAGACAGGATCATTTATAACCTGACGTGTCCATCCTATTGCTGTGTCCAGTTTCCATTGGCTGTTT
TGTATTTGTCCTGATTGGCTAGTAACTTAGAACTTTTTAAAAGAGTTGCAAAGGCAGAGAACAAAGGACGGAGGAAGTAACTTGTGGAATGCTGAGAAAG
GTAAAAACACCTTCAAATAAGGAAGAGGAACAGGCCATGACCTAATGCTTGCTTGAACCAGTATAAGCATGCCAGGGCAAAGATTCAGGCTAAATTTTGG
GAACTAAGAACATAAAGTACATTGATTTCTTTATTATGGCTAGCAGAGATTTAAAAATGTTAGCACAGGTCTTTGAATAAATTTTACTTCTAAGAGAAGT
TACTATTTATTCCTAATTAGATGGGGAGGAAAGTCTTTGAAGAGGAACCTCTACTGTACTTTTTCAGTTGTGTACTGAGTACCCAGAGCATGCCGGGCCC
TGGCAGGAGAGCTGTGGAGACAGTACAGATCATGCCCTATGGATGCACACAGTCTGGAAAGGAAGAGAAATTGTAGCTGTAATGTATGGTAGAGAATATC
CATTAAGCCCTGGAAGCTCAGAGATAAGAGTGGGTATTCCAGGGAAGAGGGGATGGATTAGAGAAGGATTCTGGATGAAGTTACATTTGAACTGACCCTT
AAAAAAATGAAGATGTAACCAAAACCTGTGGGATACAGTAAAAACAATACTAAAAAGGAAGTTCATAGCAATAAATGCCTACATAGAAAAAGAAAAACAT
CACTAGGTGCAGTGGCTTACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGGAGGTCAGGAATTCAAGACCCAAGACCAGC
CTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACACGCCTATAATCCCAGCTACTCGGGAGGCTGAGGCA
GAAAATCACTTGAACCCGGGAGGCAGAGGTTGTAGTGAGCCGAGATCGCGTCACTGCACTCCAGCCTGGGTGACAAGAGCGAAACTCCATCTCAAAAAAA
ATAAAAAAATAAAAATGTCAAATAACCTAATGGTGCACCTCAAGGAACTAGAAAAGCAAGGACAAACCAAATCCAAAATTAGTAAAAGGAAAGAAAAAAG
ATCAGAGCAGAAATATATAAAGTTGCAACTGAAAAGACAATACAGAAAAGCAGCAAGTGTTGTGTTTTTTTGAAAAGATGAAAAAAATTGACAAGCCTTT
AGCTAGACAAGAAAAGAAGGGAGAAGACCCAAATAAATAAGATTAGAAATGAAAAAGGAGGCTGATACCACAAAAATACAAAGGTCATTGTAGGAGACTA
TTATAAATAATGATAGGCCAGCAAATTAGGAAACCTAGAGGAAATGGACAAATTCCTGGAAACAACCACCAAGATTGAACCAAGAAGAAATAGAAAACCT
GAGCARATTAATAATAAGTAACAACATTGAATCAGTAATAAAAAGCCTCCCAACAAAGAAAACTCCAGGACCAGATGGCTTTATTACTTGAATTCTGCCA
AATCTTTAAAAAACAGACAGCTAGGCTGGATGTGGTGGCTCGTGCCTGTAATCCCAATGCTTTGGGAGGCCAAGTCAGGAGGCTCACTTGAGGCCAGAAG
TTTGAGACCAATCTGGGCAACATGGTGAGACCCTGTCTCTACAAAAAATATAAATAAAAAATTACTTGGGCACGGTGGTACCTACCTGTGGTGCTAACTA
TGTAGAAGGCTGAAGCAAGATGATCACTTGAGCCCAGGAGGTCAAAGCTGCAGTGAGTCAAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAG
ACCCTGTCTCAATCAATCAATCAAATAGTAAAGAAAAACTAGCACCAATTCTTAAACTGTTCYAAAAAAATTGAAGACAAAGGAATTTTTCCTAACTCTT
CCAATGAGGCCAGCATTGCCCTAATACCAAAACCAGACAAGGACACAACAAAAAAWGAAAACTACCAGCCAATATTCTTGTGGAACGTAGATGCAAAAAA
TCCTAACCAAATACTAACAAACTGAATCCAACAACACATCAAAAGATAATAAACCATGATGAAGTGTGATTTATCGCAGGGATGCAAGGATGTTTCAACA
TACGCTAATCAATAAATGAGACACACCACATCAACAGAATGAAGGACAAAAGCCATATGATGACCTAAATGGATGCAGAAAAAGCATTTGATAAAATTCA
ACATCCATTCATAATAAAAACCTTCAATAAATTAGGTATAGAAGGAACATATCTCAAAATAATAAAGGCCGTATGTGACAAACTCACATCTAAATCATCC
TGAATGGGGGAAAGCTGAAAGCTTTTTCTCTAAGAACTGGAAGAAGACAAGGATGCCTGCTTTGACCACTCCTGCTCAGATAGTGCTGGAAGTAGTCCTA
GCCAGAGCAGTCAGGCAAGAGAATGCAATAAAGGGCATCCAAACTGGAAAAGAGGAAGTTAAATTGTTCCTCTTTTCAGATGACATGATCTTCTATATAG
AAAAACCTAAAGACGTCACCAAAAAACACATTTAGAACTGATGAATAAATTCATTAAAGTGACAGGATACAAAATCAACATACAAAAATCAGTAGTGTTT
CTATACACCAGTAACAAACTAGCTTTAAAAAATCAAGAAAAAGCCGGGTGTGATGCTTCATGCCTGTAATCCCAGCACTTTAGGAGGATGAGGTGGGTGC
ATTGCTTGAGCTTAGGAGTTTTGAGACCAGCCTGGGCAACATGGTGARACCCTATCTCTGCAAAAAAAAAAAAAAAAAAAATTAACCAGGTGTGGTAGCA
CATGCCTGTAGTCCCCAGCTAGTAGGGAGGCTGAGGTGAAAAGATCGCTTGAGCATAGGAGGCTGCAGTGAGCTGTGATTACGCTACTGCACTCCAGCCT
GGGTGACAGAGAAAGACCCTGTCTCAGAAAAAAAAAGAAAAATTGAGAAAGCAATCCCTTTTACGATAGCTACCCCCCAAAAAACTAAAAAACCCAGGAA
TAAATCTAACCAAGGAGGTGAAAGAGCTCTGCAATGAAAACTTATAAAACAGTGATAAAAGAAATTGAAGGGGACAATTAAAAATGGAAAGACATCACAT
GCTCATGATTGGAAGAATTAATGCAGTTAAAATGATCATACTACCAAGAGCAATCTACAGATTCGATGCAATCTCTTTCAAAATACTAATGACATTCCTC
ATAGAAACAGAAAAAAGCAATCCTAAAATTCATATGGAAACACAAAAGACTTCAAATAGCCAAAGTAATACTAAGCCAAAAGAAAAAAGCTGGAGTCATT
ACACTACTTGACTTCAAAATATACTACAAAGCTATAGTAACCAGAAYAGCTTTGTATTGGTGTAAAAACAAATGCATAGACCAGTGGAACAGAACATAGA
ACCCAGAAATAAATCCACATATTTATAGCCAACTGATTTTTGATAAGGGTGCAAAGAACATACATTGGGGAAAGGATCCTTCTTTAATTTGCTGAGAAAG
CTGGGTATCTCTCAACTCAAGATGAATTAAAGACTTAAACATAATACCCGAAACTATAAAACTACTAGAAGAGAGCATAAGGGAAACACTTCAGGACATT
AGTCTGGGCAAAAATTGTATGTGTAGCACATCAAAAGCACAGGCAACAAAAAAATAGACAAAGCAGACGATATCAAACTAAAAAGCTTCTGCACAGCAAA
AGAAACAATCAGAGCAAAGAGACAACCTGTTGAATGCAGAAACTATCTGCAAACTATTCATCTTACAAGGGACTTGTATATCCGGAATATACAAGGAACT
CAATTCAGCAGCAAAATAATAATGATAATGTGATTTTAAAATGGGCAAAGGATCTGAACAGACATTTCTCAAAAGAAGAAGTAGAGGCCGGGTGTGGTGG
TTCATGCCTGTAATCCCAGCACGTTGGGAGGCCGAGGTGGGTAGATTGCCTGAGGTCAGGGCTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCT
CTACTAAAAATACAAAATTAGCTGGGTGTGGTAGCATACACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACCCGAACCTGGGAGGCGG
AGGTTGCAGTGAGCCGAGAACACACCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCGTCTCAAAAAAAAGAAAGAAAGAAAGAAAGAAAGAAAA
CACGACATATAAATGGCTAATAAGTATATGAAAAAATGCTCAACATCACTAATCATGAGAGAAATGTAAATCAAAACCACAATGAGATATTATCTATTTC
CAGTTAAAATGGCTATCATCAAAAAGACAAGAAATAACAAATCCTGATGAGGATGCAGAGAAAGGGGAACTCTTATATAATGTTGGTTGGAATGTAAATT
AGTACAGGTACTAATGAAAAACAGTATGGAGGTTTCTCACAAAACTGAAAATAGCACTGTCATACCACTGAGCAATTCTACTACTGGGTATTTATCCAGT
GCAAAGGAAATCAGTATATTAAAGGGATACCTGCACCCCATGTTTAYTGCAGTGCTATTTACAGTAGCCAAGATATGGAATCAGTCTAAATGTCCATCAG
CAGGTGAATGGATGAAGAAAATGTGTATATATACATATGGAATATTATTCCCATAAAAATGAATGAAATCCTATAGGCTGGGCACAATGACTCACATCTG
TAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGACGACACAGC
AAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAGAATGAAATCCTTTCATGTGCTACAACATGTATGACCCTGAAGGACATTATTTTAAGTGAAATAAGCC
AGGCACAGAAAGATAAATACTGCATGTTCTCACTCATGTGGGAGCTAAAACAAAACAAGAAAAGCTCAAGCCTGGACAACATAGCAAAACCCCATCTCCA
CAAAAAGTTTTTCTTAAAAAATTAGCTGGGCCTGGCCGGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTTGGAGGCCACGATGGGCGGATCACGAG
GTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGCAGGCACCTGTAGTCC
CAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCGAGATCTCGCCACTGCACTCCAGCCTGGGCAACAG
AGCGAGACTCAGTCCACCAAAAAAAAAAAAAATTAGCTAGGCCTGGTGGCGTACACGTATAGTCCCAGCTACTGGGCAGACTGAGGTAGGAGGATCACTT
CCAGAGCCCCGGAAGTTGAGGCTGCAGTGAACTGTGATCATACTGCAGCATTCCAGCCTGGGCAACAGAGTGAGACTGTCTCAAAAAAAAAAAAAAAAAA
GCTTATATTAGTAGAGAGTATTGAGCTTATATTAGTAGAGAGTATAAGAGAGGTTATTAGAGTTCTGGGAAGGGGTTGAGCGGAGGATGAGGCTGATTAA
TGGATACAAAATAACAGCTAGATGGGAAGGATAAGTTCCTGTGTTCTGTAACACTGTAGAGTGACTGTGGTTAACAGTAATTTGGTGTATATTTTCAAAA
TCTACAAGCAAGGATTTTGAATGTTCACAACACAAAGAAATGATAAATCTTTGAGATGATGGATATTAGCTACCCTGATTTGATCATTACACATTATACA
CATGTATTGAAATATCACTATGTATCCTATAAATATGTACAATTGTGTCAACTAAAAAGTTTTTAGGCCTGGCACCGTGGCTCACACCTGTAATCTCGGC
ACTTTGGGAGGCCGAGGCGGGCGGATCATGAGATCAGGGGTTTGAGCCCAGCCTAGGTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAAAATACAAA
AATTAGCCGGGCGTGGTGGCAGGCACCTGTAATCCCAGCTACTTCGGAGGCTGAGACAGGAGAATCGCTTGAACCCGGGAGGTGGACATTGCAGTGAGCT
AAGATCATGCCACTGCACTCCAGCCTGGGCAACAAAGAGCAAAACTTCATCTCAAAAAAGTGTYTAAAGATGAGAATGTGGAAGTGAAGTGATAACTCAG
TTATGTCCCTGAAAGTTCTAGCCGGAAAGGATGTGATGCCATTTAGAGGAAGGGAAGCAAGCTGTTGTCAAGGCTGAGAGTCTGGCCTTGAGTCAGACAG
AATGGGGTTCTGCCTGGACGTAGCTGCTCATTTGCTGTGACTTGCCAAGTTCCTAAACCCTCTGAGCCTTGGGTCTTTTTATCCTTCAAATGGATAATGT
GACAATAATGATAATATTTTACAAGATAAATTTTAAATACTGTGTTTTAGCTCAAGCACATAATACTCAGTAAATGGTAGCTCCAGAAAATGCAAGAAGA
GGAGGAAGAGATTTGAAAAGCATGCTGATTATGATTTTAGGAATTAATTTTCATTTTTTAAGGTATATTTATATCTATTTAGGTATAAGTGAATGAATTT
CCAGGACATTTTTTCTGGGCTAAGTGGAGAGATTGCCTTGCTGAGTACTGTTKGGGGAGATATTCTYAAACCACCTTCATAGTTTAAGAATATATCGATT
TCCCATAAGGGAGCTTCAGTGAGAAGAGAATGTCAGTTCCTGGGRGAGTCTCAGGAGATCGCTGCCACTTTTTGAGAGACTAAATTGTTGGGCCCAGGAA
TGTGGGACAAGAGCTTTGGCCTGAAAACTGCCCGTGGGCCTGCCAGGGTGARCATAGTCACTTCTGCAATACACTGCCTGGGTGCACTTCCTGAGCCCTG
GCTGTATGCCGGGCACACTTCTGACATAGACCTCAGACAGAGGCATCCCCGAGGCTAAGGACGTTGAGGTGCTCTGGCAGCACATCAGGTAGGTTCAGCG
GCAACCACTTGAGTTGAAGGCACAGCAGAATGTCCAAATGGAGTGACCAAGAGGCTGTTGGAGATGTGGGAAGGGACCCAGGCATAGCCAGGGTCAGGGA
TGGGGATGCTGTCTGTGCAGGGAGGGCCGTTAACAAGGGAGGACGGTGAAGAACAGATCAGAAGACACATTTAGAACCCCTGGAGAACAGGGCAGGTGAG
GAGAGAAGCCACAGAGCAGAGTGCCTTGAGGACAGGCCTGTGTCCAGAGCACAGCACCTGATACCCAAAAGAGGACCCAGAAGTGCCTCCAGAATGAAGG
GTGGTGAGAACAGGCACCAGTGGGTGTCCACAATACAGTTTTCAAGGACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGAGACTAACTGTCAC
TCTGTCTCCTAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCATCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCT
GGGATTACAGGTGCATGCCACCATGCCCAGCTAATTTTGTATTTTTTAGTGGAGACAGGGTTTCATTATGTTGGCCAGGCTGGTCTCAAGCTCCTGGCCT
CAAGTGACCCTCACGCCTCGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCATGCCCGGCCTCAAGGACTTTTTCTGATCATGGATTATTTAAA
AATAAATATGTGGCTTGCCTTCTCACCCTGCAGAACACTAGTCCTGTCATCCATCTCTGTTTAAGGGCAGGGAATGCTTTCTCGTGGAAAACACATGCTC
CTAGATGATTCAGCTTCTTTGAATGTGACAGCTGATGCTAAACTAACATGTAAACCCTCAGGAAGAATGAGGTGTACTCTACTTCCTCTTAGAAGATCTT
CTAATTATTTAACCTCAGATTTATTCATAGAAGCTTTGGAAGGCTAGACCCATGTTTTTAAGAAGATATAGACATTATTTCACATGGTAGCCAATATTAG
TGGCAAGTGAGGTTTGGGGCACTTTCTTGTTACTTCCACAGGCCTCTGGCAGAGTTCAGGAGAGAAAATTGCCTCTTAGTCACCTCTGCATCTCTGTCAC
CACTCACTAATCTTGCCTCCCCACCCTTTTTTGTGTTGCGTTTGATGCTGTGTTCCATTTTATTTTGTTTCAGCTTTCTTTATCTTACCAGAATTGCTTT
TTTCCTGACTGAACCAGTACTCAGATTTATTTTGCATAAAAGATCCCTTTTAATGCTGTGGGACTGGTTACTAATTTTGGAAGTCTTCTGAGCTCTTTAA
ATCTTCAAACATTTTTTTAAGTCTGCATTTCTGGGGTCTTATATATAGTATTTTTCAACCTTATTTTACCTCATGTCTTCCCAGCCAAGATTTTGTAGCA
TCTTCCTTTCTGTAGCTTCTACTACAAGACAATAGATAGGTCTGTCTGTGTGTTTGTTTTCCAAGTGTAAGATTATAAACTTGAATATCCCTTTTCACAC
TTAACACTGTTCCCTCCTGCTAATTCTCCCCACTTGTTTCTGATCAGTCAACCTAAGTGAAACRTATTGGCCTCCTTAAGAATTACTGGCCTGGCCGGGC
ACTGTGACTCACGCCTGTAATCCCAGTACTTTGGGAGTCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAAC
CCCATCTCTACTAAAAATACAAAACTTAGCCGGGTGTGGCGGCGTGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGACAGGAGAATCCCTTGAATCTG
GGAGGCAGAAGTTGCAGTGAGCCGAGATTACACCACTGCACTCCAACCTGGGTGACAGAGTAAAGCTCTGCCTCAAAAAAAAAAAAAAGACAAAAGAATC
ACTGGCCTTAGGCCAGGCATGGTGGCTCACGCCTGTAATCCAAGCACTTTGAAAGACTGAAGCAGGTGAATCACTTGAGGTTGGGAGTTCAAGACCTGCC
TGGCCAACATGGCAAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGACGTGGTGGCACACATCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAG
GAGAATCACTTGAACCCAGGAGGGGGAGGTCACGGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGTGAAACTGCGTCTCAAAAAAAA
AAAAAAAAAAAAAATCACTGGCCTAAAAAGATAGAAGTAGTGGTTGAGTCTTCTATTTATTCAGTAAATATTTACTCTACACGAAACCAGAGAAAAGCCT
GGCCCTAATACAACTCTCCCAGTCTTATGGGAGAGTCAGGTAACAAGTAAGTAAACAAAGACTTAATTAGAGATTATACTCAGCAATATGAAGGAAGTCA
GAAGTATATAAGGGCATGGGACGCACAATTACTTAATTTTTGAAATGATTCAGGAGGTTGGATTTTACATGGTTTATGGTTACAGGATGCCTCTTTGGTG
TAATCTCTCCTACAGTCTCATACATATATAATGCAGCGTTGCTCAGAGACATGGCTCCATTAGCATTTTGTCTTTGACAATTTTTGTTTCCTAGCAGGGA
ACTGCATCTGCATCAGAAAGTCCCTAGATGGCGATAAAGATGAAATTGCTAGAGAACCTCRCCATTGTCTATTATCTATTATCCATTTATTTCCAAAAGG
AAAGTTACACTTCCTGATACTGAGCATTTGTTGTTGTTTTCCTCATATGCCAAGCACAGGAAATGCTGCTCTGGCTTTCAGGAACCAGCAGCATCATTTG
ATGGGGTGAGTGCCTCGCCAGTCCTGGACACCTGCCTTATCCCAGCTCTGCCCCTCATGGCTTGTGACTTTAATCATGCCTCTGAGTTCTCGGCTGCAAA
ATGGGGACAATACTACCTGACCCACATACTTCACAGAGTTAGTATGAAAATGAAGAGGTACAACTATTCGTATCCATAAACATTTTTTTTTTTTAAATTT
AGACTAGGCGTGGTGACTCACGCCTATAATTCTAGCACTTTGGGAGGGTCGCTTCAGCTCAGGAGTTCAAGGCCAGCCTGGACAACAGAGTGAGACTCTG
TCTCTACTAAAAATTTAAAAATTTTTAAAAATTAGCTGGATGTTATGATACATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGAGGGAAGATTGCTTG
AGCCCAGGAGATCAGGGCTGCAGTGAGCTGTGATCTTGCCACTGCACTCCAAGCAGGATGACAAAGCAAGACCTTGTCTCAAAAAAAATTTTTTTTAACG
ATAAACCTAGGGAAGAAGCTGAGGAATAGCATATATAAACACATTTTGAAAACTACAAAGCATTATACAGATGCAAGGCCATAATAACAATCTCTGTATT
GTTACAAAAATAAAATAGTTTCTGAAAACTGCTGTGACTGACACCCTAATTAAGTGTTGATTTGGGGTAAGCATCAGGCTTCCATTGTGTAATAGAATTA
CGCAATGGGACAAAGATGTAAATTATATAGCCTGGCAATTTAAACCTAAAGCAGATGATAATTTTACTGAGATTAACAGTATTTACTTTCAGAACTAGCC
TATCTTATAGAAATAATGGTTTAAGTCAATATTGGTAGGGACTAGTAATTGACAATGGGAAATAGGAAAGCTTACTTTGTACCAAGGAAAGAGGCCAGCA
GTAATTAGACTTTTTTTTTTAATATGAAGAGTGTATAAAGCTCTTTTGGAGCCCTTCTGGATTACTAGGTATCTACTAATCTGTGTTAAACATTCAGTGT
GGCAGTGTTCTTAGCTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTGTGACAGCCAGGCAGGAATGCAGTGGCATGATCTCAG
CTCATTGCAACCGCCACTTCCTGGGTTCAAGCGATTCTCCAGCCTCAGCCTCCCGAGCAGCTGGGACTACAGGCGTGCACCGCCACACCTGGCTAATTTT
TGTATTTTTAGTAGAGACAGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCTGCCCACCTCGGCCTCTCAAAGTGCTGGA
GTTACAGGCGAGAGCCACCGTGCCTGGTCCTAGCTTTTTTTTCTTAACGTTTACAGAAGCAGTTTGCCATGAACACAGTTAAACCATATACCTTAAATAA
AGCAATAGTAGTGAAAGTGCCCAGCATGGAATACCTGGCACACACCAGCCACTTCAATGTCACTTTGAATAAACAAAACTAAGATCAAATACACTACTCC
CTTAACAGCTTTTAAAAACGAACCCCATTTTTGTGTGTATGTGGAATATTACTATCATTCCTGCTGTCTTGTCTTTAGCTCTGGAGAAAGTTGAGTCTTT
TTTTTAGTCTATAAAAATCAGTGTCTATATAAATGTTGTTCAGGCTTCCAATATAACAGATGGTTTGGTTTCTAGAGCAAAGGGTTTTTGGATTTCTCTT
TTTTCTAGGTAATGCTTTACGTCCAGTTCTTTCTTCATTATTTAGAAAAGCCTTAATTTTTTTTTTTTTTTTTTTTAAGAAAAGCGTCAGGCAGTTTGCT
GACTAGAAGAAAAAGTTGTAGAAAGAAAAATTCTATTATATGAATCATTTCATGTTTCAGCTTGTGGCCCAGTGAAGGCTTAGCCTGTACTCTGTTCTTT
CTCTGTTGATTTTGYTGGTAGTGGTGTGTGATTTCTCCTTCAGTAGGTTCTGTGATGGTTATAAGGAGTTATTGTTTTAAGATGTGTGTGTGTGTTTGTT
TTTCCCATTGTACCTAAATGATCTAAACTCAGTAGCATTCTGTGTTGACTGGCATTTTGTTCCTAAAAGCACACACTCTTCTTACCTTTGTTGTAAATTT
TTCTCTGTTGCCTAGGCTGGAGCGCAGTGGCATAATCATAGCTCAGTGTATCCTCGAACTCCTGACTTCAAGTGATCCTCCTACCTCAGTCTTCCAAGTA
GCTGAGACTACAAGCACACACCACCACACCTGGCTAATTTTTTAAATTTTTATAGAGATGGCGTCTTGCTGTGTTACCCAGGCTGGTCTCAAACTCTTGG
CCTCAAGCAATCCTCCCACCTCAGCTTTCTACAGTGCAGGGGATTACAGGCATGAGCCACTGCACCTGGCCAATTTTATTTTTTTTTTAACCAAATTTTT
GAAACCCTACTTGTGAGTTATTAGGTTGATGGAGTTAGCCATATCCAGCCTTTTGCTTTTGTCTCTGTGTGTCATACCACATTCTGATGTGTGGAAGTGA
TTTCATACTGGCTGTTTTGTATCTGTGAGACTGGGATTAATCTTCCTGCCCCCATTCAATTTCCTTTCTAGGTCCAACTGGCCCACCTTCAACACTCCCT
CTAAGCACCCAGACCTCTAGTGGCAGCTCCACCCTATCCAAGAAGAGGCCTCCTCCCCCACCACCCGGACACAAGAGAACCCTATCCGACCCTCCCAGCC
CACTACCTCATGGGCCCCCAAACAAAGGCGCAGTTCCTTGGGGTAAGTTATCCTAAAGTCAGGGCCAAAGCTGCTGGGGCCAGGCAGCGTGTGGGGCTCC
ACTGGGCAGTGGCCTGTTAGCACATTCAGAAAGTGTGCCAAAATGCACACACATGCTGGGTGCTGACTYGGGTATATATGACATGATTCTACCTGTCTCT
TAAGGGAAAGGAACATTTTGAAAAATATTTAGGCCATTAAAAACTAAAAGGTGCTGAGCACTTCCTAAATCTTACTCAATTATAATAGCAACTCTGTGAG
GTAGGTATTATTAGTCTCGTTTATATATAAGGAAACAGAGGCTCAGAAAAGCAAAGTAATCCATTTTCCTCACAACAGCCAGAATGGTTTTCTTATAAAG
TGTAAATCAGCTCATGGTCACTTTTCTCCTTAACACCCTTTTGAGATTTCCTTTTGAGCTTCAGATAAATGCAAGCTCCCTATATCAAGGCCCACAGGGC
CCTGCATGATCRGGCTCTTATCTCCTAGACCCTCTCCTGCCACTCTATCTTCAGGGCTGGCCTTCTTTCACTTCTTGGATACACCATCCTCTGCCTCCTG
AGGGCCCTCCCACTCCCTGGAACTCTGTCATGCTTTTTGAACAGCTGCTTCCCTTTCATCCTTGAGTTCTCAGCCAGCATGTCTATCTCCCCCGCCCTCC
AACGCAGCTTCCTCCCTACCTGTTTTCCCCCAAACACCTTATCACAGAATGTAAGCCGCCCCACTAAAATGTAAGCTCCATGAGAGCCAGAACCTTGTCT
TGGTCTTGTTCTCACCAGTGTTTACTGGAACCACRCCTGGCATACAGTGAATATTCAGGAATCACTTGAGAATGAATAAATTTGCCCAGAGTCAGCTTGT
TAATCATTTCAGTGACATTGACTGCACATGACAAATTCCCATCTACAAGGGACATAATTCCCATCTTTACTACTAGCCTGCTAGCGACTTAGGGGTCACC
CCATCACGAAACAGGGTCTTGGCCCGTGACAGACACTCACAGAAGCTTTGCTGAATAAATTTGTTAGTTTGTGTGTCTCACCTCTTCCTGCTGTGGAGTT
TCATTGTGGCTTTCTTCATATTTTTTGTGTTTTGAGTTTTGGGGGAAAGTTATATTGTCCCGTTGCTGATTGTCACCTGTTCACCATCTGGCCCAGACAC
CCCGGGTTATGTGTGTGCAAGCATGTGTGTGCATTTAGCCGTTCATTCTCTGACTCTGTTTGCTTACTTGAGGCACTTACTATGCCCCTTGCTTGGGCCT
TCTCAGTCCATATGCTCGTGGAGTTCATGGTCTAATGCAGGACACACGTGGGTAAGTCATTAGAGCACATGTTCTTTACTATCAGGATAGACATGTTGTC
TAAACACTAGAAATGCCAGAAAACTGAATGTCAGACTTTAGAGGAAAGCCAGGGAAGGTTTAGAGAAGAGGAGACATTGGAGTTTGGTGTTAATGAATTA
GTTCCCMCAAGCCAGGCAAGAACAATTGAGGTGTGCTAGCACATATGTACATAAAGACTAAGGATGTCCGTGACATTTTCAGAGGCTGCTGTGTAAGGCC
TTCGGGATCCCCAGATTTCATCAAAAAGGCCTTTCCCCCAAATAACATTCCATGAAAGTCACAAGTTTCACATCAGCGTTTCATATCACAAATTAACCTC
CTTTCCAAATTTCTCTTTAAGTTTTAATCCTCTTGTTTAAGTGGCTTTATTTCTTAAGGTTTGAAGTGCCTTTATTCACATTGTATAGACTCGAACATTC
CTCAAATAAATTTACCAAATTTCTGCTTTCTGGCTTGAAAATCATCACTTTTTTAGATTTTCACATCACTCAAGAGCAAGACTAGCAGCTGGCCGTTTTT
CCCCCCATTGTTGATGGGTCAGGGAGCATTTTTTATTAAACAAAATTTACTTTAAAAGAGTGCCTGACAGTGAGCTGGGAGCCTTATAACCTTTTCCAGA
TGAGGACGCTGTTCTGTCTGTCAGTTTCTCACCAGCTAAGAGCCTCTCACCTACAACCAGCCTTGAAGGACAAAAATCATCATCTGTCCTCGGCCACAGT
GACAGTTCGCCACATGGCATGGACTTTTGATTGTTGAAATCAAAATTTTAAATTTAAAAAACAATTTAAATTTTTTTTTAAATTTTGATTTTAGAAAGCA
TATGTTGGTGTACATGCATGTATGTGAGATATACTGTCTACAGACACAGGTCAGTAATGGGCATGTATGTGTGGGTGCATTCATACACGGCTGGACTTCT
CCTTAGAAAGGTTATAGTTGCTCTGCTCCTAGTGCTTGAGGTCTGTGTTGTATTATTACTGCTTGGTTTTATCCCTTCCCCGCCTCCTGCTGACATTGTA
TTGTAGAAGCCAAAGGCAGGGCCCAGACAGGTCATCAGCAAGGCACTTAGGGGATCAACCTTCTAGGCAACCTTCCTCTCTGATGCCTGCAGCTTTCGTC
TGTGGACGCACCTTTCCAACGCTCTTATGTTCCCCTAAACCTCTCATCTCTCCTCAGCCCATGAGGATCAGGGCCTTTGAACTGTGAGAGATCAGGACTG
GGAGGTAGACACCAGGCAYGAGCAGGTAGTAAAAGAACAGCCCCTTAGCTCTCACCAGGCCTTACCTCTCCACCCCCAAAGCTGAACATGTCTGCCATCT
TGAGGTACACCACATTCCCCAAAGTTCTATTTTTTTCTCTCAGATCTGAGCCTTTGCTTACAGTATGCCCTCAACCTAGAATCTTCTTCCCTCTACTTCT
TTATGTTAATGTTTAGTCATCTTTCAAGATCTGCTGTCCTGGGATCTACTTAAAAGGCCTTTTGCAGTCCAGTAAAACTCCCCACTCCCCACCCTTTTGT
CCCCACTGGTGTAGTGGGTATCACAGTGGCTGTTTCCTTGCCTGTCTTTCCTAGTACATGAACTCCTTCTGAGGGCATGTGCTGCTTCTCTCAGCAGAGC
AAAGTGCTCTAAGGTGAACTCAAGTGTCATACTGTCTGGATTCTCATTCCATCTCTACTACTCAATAGCCTTGTGATTTTCAGCAAGTATCTTTGAAATG
TTCAGTGCCAAAGCTTCTCCAACTATAATATGGGGCTAGTAATAGTGTCTGTATTGCATATGGAGTTATGAAGATTAAATGAGAAGAACACATAAAAAGC
AACCAAAACCATAGGCAGCACCCAATAAATGATAGCTACTGTTACCATTATTCTCAGCCTAGCATTTTGCTGGATAGCTAGAGATGGGAGAAACCTGCAT
TMGTTTCCTGAGGCTCCTGTAACGCATACCGCAAACTGGATGTTGTAAAATGACAAATTTATTCTTTCAGTATTAGAAGCTAGAGGTCCAAAATCCAGCA
GGGTTTTGCTCCCTCCAGAGGCCCTGTGGGAAGAATCTGTTTCTTGCCTCTCTCAGCTTCTGGTGACTCCAGGTGATCCRTGGAGTGGTGCAGCCTCTGC
CTTCATGGTCATCTCCCCACTGCCGCCGCCTCTCTGTGTTCTCAGAACTGCCTTTGCCTCTCTCTCATAAGTGTACGTGTGATTGTATATAGGACCCACA
TGAATTTTCTGTGATAATCTTGTCTCGGGAGGCCAAGGCGGGCGGATCACTTGAGGTCTGGAGTTCAAGACCAGTCTGACTAACATGGAGAAACCCCATC
TCTACTAAAAATACAAAATTAGCTGGGCATGGTGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTAAGACAGGAGAATCGCTTGAATTCGGGAGGCG
GAGGTTGTGGTGAGCCGAGATTGCACCATTGCACCCCAGCCTGTGCAACAAGAGCGAAACTCCDTCTCAAAAAAAATAATCTCCTTGTCTCAAGATCCTT
AACTTAATTATATTTACAAAGACCCTTTTTCCTAGTCAGGTCACATTTACAAATTCCAGGGATCAGGACTCGATAACTTTGGGTGGCCATTATTCAGCCT
ACCACAGCTTGTCCTCTGACCCCCAAAGAGTCACATCCAACCCACATGCAAAATATGTTCACCCATCCCAGCAACCTCAAAAGTCTCAAACCCCTGTCTT
GGCCATTGTTTTTTCTAGTCTTCAGAGAAGATGTGAGCTGTCATGTACTCCTCTCCCCACTGTGCCTAGGATTTCCTCCTCCAGATTCACAGGGGAGATT
TGGGGGTAATAGTTGTTGTCAGCAGCTCTCTATTTTTTAGATCAATGGGTTCACGCTGATCGCTTGCCTAACATTAAATATGGAATCAAACTTGTAAAGT
AGGCAAGACTCGAGGCCTCCTGTCCCAATCTGTTTTAGGCCACCTGTTCACACCACCACTCTGTTGTACCCACCAGTCTCACTAGCCATCCATACAGCAG
CACTGGCATCACTCCCATGACCCCTCCCTGCAGCACATTAGCCTCTTTCCTCAGCCAGGTGGAGGTTTCCACCTGTCAAGTTCTCTTTTTTTTATTTCGA
AACAGACTCACTCTGTTGCCCAGGCTGGAATGCAGTGGTGCAGTCCCAGCTCACTGTAACCTCCACCTTATGGGTTCAAGCAATTCTCCTGCCTCAGTCT
CCCGAATAGCTGGGATTGCAGGCACCCGCCACMATGTCCAGCTGATTTTTGTATTTTTAATAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAA
ACTCCTGACCTCAAGTGATCCACCCATCTCGGCCTCTCAAAGTGCTGGGATTATAGTCATGAGCCACCGAACTTGGCCCACCTGTCAAGTGTGAAGCCTA
TACCCCTCTTTGGTTCCCCGACATTTGTGTTTCTGGTCTCAGGGGCACCTCTGACATTCAGCTCCTTTGCAGAGTAGCCATGGCTGACAGGTCTTGGCTC
TGCTGATGATCACACTTTCTATGCTGATGATTAGCCCCGCCCAGTCCCCCATGCTGACCTTTAAGAAGGAGGTAGAAGGTGGTTTAAGAAGGAAGTAGAT
GTTGCATTTAGCCTTGGAAGATGARTGGAATAGGCAGGAGGAAATAAGCAAGGCAGCTGATGTTGAGTGTTTTGTGAGAACGAGGGCCAGAGATCATAAC
CTTTAATGCATCTACTTCACAGAAGGCCACACTTCCTTCATTACAAAGAGTCTGTCTTTCCCCCTCTCAAATTCCATTTCATGCCTTCATAAACTCCTTT
TTCTTTGTTTTTGAGRCAGGGTCTTATTCTGTCACCCAGGCTGGAGTGCAGTGGCKTGATCATAGCTCACTGCAGCCTCCACCTCACAGGCTCAAGCTAT
CTTCCYACCTCAGTCTCCTGAGTAGCTGGGACTACAGGTGTGCACCACCATGCCCAGCTAATTTTTGTATTTTTTGTGGAGACGGGGTTTCACCATATTG
CCCAGGCTGGTCTCAAACTCCTGAGTTATGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGAGACTACCGGCATGAGCCACCACACCCAGCCCATRAA
TTCTTAATACAGGTTTATGGCTTGTAAGACAAAAGAAAATGACAATTCATTATTTTAGAATCTTCGGATAAAAAACTACGTACGTAATATTTTATAAGGC
CATCACTTGTAAGTGCCTCACAGAGTGCTGGGCATTGTGTTGAGCACTTCGCATRTGTTAACGTACCTCATTCTTAACCATGGTTACACAGAGAGAAAAT
GCTATTATCTCAACTTCGGGGCGCAGAAAGGTTAAGTGATTTACACTGTTTCTCACAGCTAGTACGKSGGGGCCAGGATTCACCTGCAGCCTGTGTGGCT
GAGAGCCAGCCCTCCTCACCCTCTCCACGCACCACTCTGTGCTCGCAAAATGCAGGCCCACTGGCCATTTCTCCTCACAGCAGTGGTTTCTGTGCCCATG
AAGCTGAAGTGTGGAGAAGGCGATCAACTTAGCATGGTTCTCCTGGCAAGCAGCACAAGCTCTGCTGGCTGTGCCTCCTTATCCATCTGCAGCATGGCAC
CCTGGTATGCAGCTCCTGCGCTGCCCAGGCTGGGAGGGCCACCCCAGGCTTTTTCCCTGCCAGAACCACAACATCCACAGTGCCCAAAATAGCCCCAGCR
TTACATTACTGAAGTCCTGCTTCTGTGATGAATCCAGCCATCTGTCTCAGGAGACTTCTAAGGCAGGCTTTTGATAGCAAAACAAATAGTCCTGTGGACA
GATTTGGGTTTTGTAGGGAATTTATGATTTTTGAAGTTGCATTTCATTGAACCTCTTTCCTTTTTTTTTTTTTTTTTTTYTTAAAGACAACGTCTTGTTC
TGTCGCTTAGGCTGGAGTACAGTGGCACAATCATGGCTTATTGTAGCCTCAACCTCCCGGGCCCAAGTGATCCTCCCATCTCAGCCTCCCAAGTAACTTG
GGACTCTGGGTGCGTCACACCACACCCAGCTGATTTTTTAATTTTTGTAGAGACAAGGTCTTACTATGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCA
GGTGATCCTCCTGCCTTGACCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCTCTTCACCCGGTCCTCCTCTTTCTTTAATAACCTACTTTATAACAGAC
TAACACATATTTTAACACAATTTAAATAATAAGAAATGAGGACAAAGGGAGAATAAAGGTAGCAAAGTAAGGTGAATTCCAGGAGTGTGATTTCTCCACA
AAATGAGTAACAAAAAGTCACATACAGTGTCTGGAAGTGGGCCACGGATTTGACCCTAAGATTCTTACAGGCAAGAGCAAAGAGAGAAATACAACTAATT
GTTAGGTTCATGGTAGCCTTAAGACTGACACTATTCTAACACTCTTGAATTAATACCTGATAACAATTTCCCCCCTCCCCTGGCCCTCCATCCTTTGGCA
TTTAGAGAAGTGTCTGCAGTGCACGTGGGAAACCATAACATGCACTGAAAGAACATTCCAGAAGCCCAGGTTCTGATCCAGGTTCTACCAATCCCTGACA
AAGTGACCTCTGGGAATCACTTACATTCCTCATCTTTGGTCACTGGGAGTTAGAATTGTACTTTTATTTAATATAGAGCAAATAATGGATGAAAAACTAT
ACCAAAAATTGGTTTACTGCTTATATTTCAGGCCTGGGACTTCCAGGTAAAAAAGCTCCATAGATGAAATGTCTGAGACATGCATATTTACTTATTTTCT
TTTCTTTTCCTTTGTTTTTTTGTTTTTTCTTGTTGTTTGTTTGTTTTATTACATATCTACTTATTGGAAGTGGGACTGTCATTGTCCCAGTTACTGATGA
GGAAATTAGGCACAGAGAAGTCAAATGACTTGCTTAAGATCTCAAATCCAGGAACTGCAGAAGTGAGATTTGAACCCATTTCCAACTCCAAGGCCTGTAT
AGTAATTCACTATTCCAGAATACTCCTGTAGCAACCTGGCCATTCGCTGCTGAGCCAATGCCCCCTCTCTTTCCACAAACTCTTCTCCTGTAGCTTCGAA
GCTATGGTAGGTGACCAGGAGTCTTGGCCACACTTCTTCCATTGCCTGCCCAGGAGGTATCTCCAACTTTCTCTTACACACATCTGTATGATACACTAAG
ACCTTTTTCCAAATTGCACAGAGAGAGAAAAAGGGATTGAGTTGCTTCCATATTTTTGCTGCTCATTGTCCTCTTTTCAGTACTATTTTATTTTCAGAAT
TTTTTCTAGCCACACTTTTCTTCTCAAGCACAGCAGGTAGCCTTTGCATAGCTATGAGAGTGACAGGATTCTTGTCAACCAGACCATAGACGCCTACCCA
GCCAGGTGTAAGAAGGTCCGCTGTGGGCAGAGAAGTTGATGAGCCAGCACGGTCAGTCCTGTCTTTCGCTAGCAGGGACTATTGACTGCTCTGTGCCAGA
CATTTTGTTAAAAAGTGGTGTTATCGGCCTGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGACCGAGGCAGGTGGATCACTCGAGGTCAGG
AGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCCACTAAAAATACAAAAATTAGCCAGACRTGGTGGCGCATGCCTGTAATCCTAGCTACTT
GGGAGGCTGAGGCAGGAGAATCAGTGAACCTAGGAGGCAGAGGTTGCAGTGAGCTGAGAYGATGCCGTTGTACTCCAGCCTGGGCAACAAGAGCAAAACT
CCATCTCAGAAAAAATAAAAATAAAAATAATGGTGTTACCAAGACATAGAAGGTGGGGTCCATTCTTTGAAGTGACCACTCATTGAGTAAATTAACATCA
TTTCTGTTTCATGCCATTGAAGAGCTGTGAATAATAATACCCTTGTGTCAGGCTTCCTGTGGTCTAGCACTGTGTCCCGTACTTTATAGTTTATTTCCTT
TAATACTCATGCCCATCTAGGGTAGTAGGTACCATGGTTGTTCCCAGTTGATATATGACGGAATCGAGGCTTAGCAGAATAAGAAGTCACCCAAACTCAT
ACCCACTGGTCAGCAGTACAGCTAGAATTCAAAGCCACACTTGTCTAGGTCCAAAATCTGCACCCCTAATTAACCACTCCTGGTAAGAAGCTGGTTATAA
GGGCTGGTCAAGTCAGCTATGGAAGAATTCTCAGAAAGTGACTCTAAAGGTGTTCTTTGAAGGTTGTGTAGGAATTCACCAAAACTGGAAGGAGACAGGC
CTTCCTTGCAGGGAAAAGGAACGTAAGGGGCAAAGTTACAGAGACATAAAAACTCACACCATCTTTGGAAAAAGGAGACTCATTTTGAGAAGCCAAAGAG
TAAGGTTAAGTGAGAACTCTGGACATTTGGGCCTGTGGGTATTGGGCAGCAGCCCCTGACATGATGACTCGTCTGTGTGACAGCAGAATGAATGACCACA
GCAGAGCCAGAGGGCCTTTGCAGCCCTGTTGGTCTCAAATTTACTCATGTATAGCACATGCAACCTGCATTAATAATCACTTCTTTGGAATGTTTTCTAC
CTGGAAAGGGAATTAGTGGATGTAACAGTTCATTCCCCAAACATAAAATTTTCCTTGACGTTTTGATTGTTATAACTCATTTAAGTGGGAAAGTATAAGA
TTTGATATCTAGCCCTGAAGACTCATCATTGAGCACAGTGCTAGAAAGAAATGCCTACCAGGCTAGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTT
GGGAGGCCAAGACAGGAGGATCACTTGAGGCCAAGTATTTGAGACCAGCCTGGGAAATACAGTGAGACCTTGTCTCTACCAAAAAAAAAAAAAAAAAAAA
AAATTAGTAATGAGACCTTGTCTCTACAAAAAAAATAAAAATTAAAATTAACCAGGCATGGTGGGTCATGCATGTAGTCCTAGCTACTTGGGAGGCTGAG
GCGGGAGGATCATTTGAGCCCAGGAGTTTAAGGCTGCAGTGAGCTATGATTATGCCACTGCACTCCCACCTGGGTGACAGAGCAAGAMCTTGTCTCTTAA
AAAAAAAAAAAAAAAAGGCCACGTGTGGTGGCTCACACCTGTAATCCTAACACTTTGGGAGGCCAAGGTGGGAGGATCAGTTGGTCTCAGGAGTCCAAGA
CCAGCCTGGGCAACTTAGACCCCATCTTGAAAAAATAAATAAATAAAAAATAAGAAAAAAAATAAATGCCCTACCTTGAAGAACATCACAGCTCTGAGGA
TTTTATGAGTTACCAAAGAAGTCCTTAAATATTAAGTTATATGGGCTCATGAACATATACTGATGGTTAGTTTAATTAAAATTAAATAAAACTAAATTTG
AAAGCCTTTGGTTCTTCTAGTAATGCCAGTTTATCTCATTTCTTCTTGTATCAATATCATAGAATTACAGAACATTCTGTCCAGGAGGTGAGCACCCTGC
CAGCCTCTCCCTCTTCAGTAGGTGCAGTCAGACCAGGAGGTGATAGGTGCTAGAGTGTGGTGATTCACAGTACAGACCCTGGAAGAGGGCTGCTGGCTTT
CCATCCCAGCTTTGACCCTTACCAGTGACCTGACCTTGGGCAATTGACTTTACTTCTCTGTGTGCTTCTTCATATATAAAATGAGGGGTGATTATACTAT
TTATCTCATAAGCATAATTACTATGAGTATGTAGCACAGTATGTTGCTCACAGTAAGTGCTCAGTAAACGGTCGTTGCTGTTAATAATGTTACTATCAGG
GCGTCTTGATGGGTAATGAAGAGCACATTGATTTGYGGTCAGGACTCCCAGGTACACCATTTCCCCACGGGACCTGCAGCCATTTATTCATTTAGTCTCA
TTTCCTTATCTTATGATGCCAGTCTCATGCTGTGAGGAAGGAAGGCTGGATGAATATAAAAGCATGTGGGCAATCGGTGGTGCTATTGAGCAGATGTGCA
GTGTAGTGAGGATCAGTTAGTTTTTTTTTCAGCCCTGCCCTCTTCATCTGCCCTCCTGGTGCTCAGCCTCCTCAGCCAGCCCATTCCCAGTGCCACCTAG
GCAGTATTATAGTCTTCTAGGTAGAGGAGGAGAGGAGGCTGCTGAAAGAAGAGAACAAGAGTTTCCAGAGCAGTCATAGGAAGAAAGGACAAGGAAATGA
ACTAGAGCCCCAGAGACAGGGTGCCCATGCAGGGTCCCGGGGAATCCTCCTGGGTGCCTGCAGCTTGGGGCTCCACAACTGCCCTGCACTCTGCCCACCA
CAAAATGGATCATAGAAGAGCCCTCATTTATTGTCTTGTGACCCTCTCCTGGACATAGCACACTTACCTCCACCTGTGTGCCTCTGGTTTTGCTGCTCAC
CCGCTAGAAAGTTCTTCACCTGTCCAGGTGCTATGTCTTCCCCAGACAGCATTCCCTACTCCCTCTTCCCCACTCCTGCCAGCAGTCAGAGTTTAGAAAC
TATTCTCCTCAATTGACAGCAACTGATGTTCATCTCATTACACATTATTAGTGTATTTCCTATGTCTTAAGTCTCACAGGCCAGAGCATAAGCTCTGTGA
GAGCAGTGAAGTTTTATTTGTTTTTGTGCCTTCTGCTTCACATTTATGCCTTGCACATAGTAGATGCTTAATAAATGTTAATACTTGGCCGGGTATGGTG
GCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCGGAGGCCAGGAATTTTAGACCAGCCTGGCTAACATGGTGAAACCCTGTT
TCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTATATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGC
CGATGCTGCAGTGAGCTGAGATTGCACCACTACACTCCAGTCTAGGCAACAGAGTGAGACTCCATCTCAAAAAAAAAAAGTTAATATTTGAATGAATGCC
CCTGTAGTCCCAGCTACTTGGGATGCTGGACAGGAGGAACACTTGAACTCTGGAGTTCAAGGCTACAGTGAGCCATGATTGCACCACTGCACTCTAGCCT
GGGTGACAGAGTGAGACTGTCTCAAAAAAAAAAAAAAAARAGAGAATGAATGACGAGTCAGTAAGTGCCTGAGGGCCTGGCCCAACAGATGACCACTTAT
CCACCACCCTGCTAATGGTGTTCACATGCACATTCCACTTGTGAGTTGTGTGTTTCTTCTGAGTTTGGATACTAGAGGGTAGTCTCCTAGCATGAGGCCT
CTTGGTGAACTTGAAATTTATTCTTCTTTCTCTACCCTCAAACTAAGGACAAGATCCTGAGCCAGTGGGAACATCACCAAGTTTCTATGCTCTTTGAGGC
CTTGCCACAGAGCAGCTGCTCACCTCTTTGATACACTCCTTTACCAGARATAAAAAACCGCAAAGCCCAAAACAGTGCTCAGTTTTGTTTTGGTCTTAGG
CCAGAAATGCATGCCGTTTTGGCTTGGGTCTTTTAAATGCCGTTCTGGAACCTGAGCAATGCCTGTCTACAGGCCAAACCCATGTATTCTCATTGCATTT
CCCCATCTAAAGACATACCTTTTCACCTTCGGTTTTCCTTGTAGGTAACGATGGGGGTCCATCCTCTTCAAGTAAGACTACAAACAAGTTTGAGGGACTA
TCCCAGCAGTCGAGGTAAGCCATCTCAGCGCTTCATTTCCCCTGTTGGATCCATTGATGCAATGGACAGAATTCTAGAAATGAGTTTTCATGAATTTCCC
AGCGCTGCTCAAAGCTGTGGTCAGCCAAGTGGGGCWGGCCACAACAAGAAACCAGACGTTCACTCTTGGTTTGCATGCACATCTTGTGACTGGACTGGGC
ACAGGTCTGCAGACCGTTCTCTGAGCAGCAACGCTGTCTACCCAGTTCACAGACAGGAGCTAACCTCACTTCCCGGTGGTCGCAGGGTTGTGCAGTGGTC
TTGAACAAAATTCCTGTCAGAATGAGTTTTTATTTTTGATATTTTAATCAAGTAACTTTGTTACTTTTCCACTTGACTCCTTTTGCAGATTTGGAAATGA
AAAGATAATCCTTAGGGAAATCTGATTGCCTGGAGATTTTCAAACATAAAAATAGCACTCTTTCAAGTTCTGTTTCTAATATTTTTTTTTTTAGGCTAGG
CTGACAGCAGTGTTCTTTTCTTCCCTTTTTTCACTGAAATTGTATACTTGAGGAGATCTCTTACGGGCARTTTTTATCCAGCCTTACCCTAAAGTGTTTT
CTCTGGAGGTGCCATCCAAGGAAAGGACAGAGAGCCACTTCCAGACCCAAACTTCAGGGAAAAAGAGTCAGCTCTTATCCAGAGTTTCTGAAAGATGAGA
AAACAAAATCTCTCTTTTTTTGAGATAGGGCCTTTCTCTGTCACCCRGACTGGAGTGCAGTGGTATGAGCACAGCTCACTGTAGCCTCAACCTCCTGGGC
TCAAGAGATGGTCCTGCCTCAGCCTCCCGAGTAGCTGGAACCAGAGGCATGCATCACTGTACTCAGCTGATTTTTTTATTTTTTTGTAGAGACAAGGCCT
CAGCATGTTGCCCAAGCTGGTCTTGAACTTCTGGGCTCAAGCAATCCTCCTGCTTCAGCCTCCCAAAGTGCTAGGATTACAAGTGGGAGCCACCATATCC
AGCCTTTTTTTTAATACCACTATCTTATGTACTCTTTATAACCCTGTGAGATAGGCCCAATTACTATTATCCTCAGTTTTGCAGGTGAGGAGAGCGAGGC
CCAGAGTGGTTAGGTGGTGGGTGCAGATGTCAGAGCCAGCTCTCCAGCCTACTTGTTCTCCCAACTCCACATTCCACACCCCTTCCTTGCCCTTGTGCCC
TGCCTTTCATTCCTCACTCACCTTCCTTCAACCCTAATTTGGGGGACCCTGTAAAACTAAAGTTCTGGTGTTCTTTTTCCAGAGTGAGGAGAATATCTGA
CACTCCAAAAGCACTCATAAAAGGTTTTTAAAGGCTGGACACAGTGGCTCACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGTGAGGATTGCTTGAGC
CCCGAAGTTTGAGGCCAGCCTGGGCAACATAGCAAGACCTTGCTTCCTAAAAATAAAAAAAATCAGCCGGGTATGGTGGTACATACCTGGCTATACGGGA
GGCTGAGGCAAGAGGACCGCCTGAGCCCAGGAAATTGAGGCTGCAGTGAGTCATGATCGCACCTCTGCACTCCATCCGGGGCGACAGCAAGACCCTGTCT
CAAAAAAAAAGTTTTGGCAGGGCACAGTGGCTCTCGCCACTTTGGGAGAACCAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACTTGAGGTCAG
GAGTTCAGGACCAGCCTGGCCAACATGGTGAAACCCCGTCTGTACGAAAAATACAAAAATTAGCCGGGCATAGTGGGGTGCGCCTGTAGTCCCAGCTACT
CAGGAGGCTAAGGCAGGAGAATCACTTGAACCTGGGAAGTGGAGGTTGCAGTGAACCGAGATCACGCCACTGCACTCCAGCCTAGGTGACAGCGAGACTT
CGTCTCAAAAAAAAAAAAAAAAAGTTTTTAAACAAAATCAAGCTGATTGTGAACTAGAGCCTTTGGCAACTCGTTAAGTTTGTTTGTTTGCTTTTGAGAT
GGAGTCTCTTTCAAGAGAAACAAAGCCCTCTCATGTTTACTGTTTCTTGTTTAGTGGTGGCTTTATCTCAGCAATATTCCCCCGTTGCCCAGAGACAGGA
GGATTTCAAGTGAGCTGAGGAAAGAGCAGTGAAGATCAAGGATGGCCAAGAGCCAGGACAGAAAGGAGCACACACCTTTCATCTTCTCTCTTTGACTACT
TTTTGTTTTGTTGGTTGGTTTGGCTTTTTCTTTTCTTTTAAAYGCAGTTAGCTGAGGCACAAGAATCGCTTGATCCCGGGAAGCAGAGGTTGCAGTGAGC
TGAGATCGTGCCACTGCACTCCAGCCTGGTGACAGAGCAAGACTGTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGCAGCAGCARCAGCAACCAACTCT
TAGGACATCAGGGGACAGAAATGGAGAGATGAGATAATAAAGGGGTTCTTGGCAGATGGGGCTCAGGCACTTGGCTACTGCTGCTTCTCAGGCATGCAGG
CCTCCTGGTGTCCTCTGAGAATCGCCAAAACCTCTTGTTAAAGAAAAATAGTGGCTTCCACCTAATGTAGACCACTGATGGCACTGGGGTTTCAGTTGCA
GAGGTTAACGTTTGATGATTTAGACAATGTGGTATGGACCTGTATTCCAGGGACTTGGGCCTTTGTCACCCTCATTTACCTGTCCTCCAAAAGGAAAGCA
AGGCCTAGGAGAGCCTGGAGGCCCGAGAACCAAGCTCTTTGCTATAGTGGAGGAAGTGAGGGCTCTGGAGGCCCAGGGGAGCTAGGGCCGAATTTCCACT
TCTACCTCTGACCCACGTGAGACCTTCTGCCAGCCGCCAACACCCCCATTCCCTTCCATTTCCTTGTCTGGAAACACAGAGCTGCTTTGTGGGATCATGT
GGGAAGAGTTACTTCTGTGCACTACATTGGGGTCACCACTTAGAGTGTGCCAGGTGCCTTCATAAATGCTTTGAAGTGGAGGAGTTGGGCTTTATCATTA
AGAGGGACTTTTTTTTCATCCTTTTACTGTGCCTCCTCAGCCAGGCAAACTGAAATATGGAAAATAGACTAATCTTTTGTTAAAGACATTTTGAGGCTGG
GCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGAAGGCTGAGGTGGGTGGATCCACGAGCTCAGGAGTACAAGACCAGCTTGGCCAAGATGGTGAAA
CCCCATTTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGGAATTGCTTGAACCCA
GGAGGCCGAGGTTGCAGTGAGCAGAGATCGCGCCACTACACTCCAGCCTGGGCAACAGAGGGAGACTCCATCTCAAAAAAAAAGGAAATTTTGAAAGCAT
TCTTTAGATGATTATGTAAATACCTTTGATTTGATTTACTTGAATAATATTTTGCTATTGATATTCTAGCACTTTTAGATCCTAAATGATTCTTATTTGT
TGATTAGCACCAGTTCTGCAAAGACTGCCCTTGGCCCAAGAGTTCTTCCTAAACTACCTCAGAAAGGTAAGATCTATCATTTTTACATTTACATGTAATT
AAAGTGTCACTACCCCCTCCAAGGGGCCCAAGGTTTTTATCTCCCTTGTTCATTGATCCATCCCAAATGCCTAGAGCAGCACCTGGCATGTAGTGGATGC
CTAGTAAATACACATTAAATGACGAAAGGTATTTATAAACTCAAATTTGGTGATTAGCAAAGCACCATACTTTTCCAGAATACATAATAATTTTGTAGAC
ATTACATTATTATAATCCCCAGGAACCATTCTTTCTCCCCTTATAAACATAATCAGAGAGACTTGGGAACCAACACCAGCTCTACCACTTAGTAGCTGTG
TGGCCTTGGGCAGGTGACGTAGTAGCTTCACTAAACCTGAGATTCCTCATCTGTAAAATGGGGAAAATAATACTTCGTGAGGTTTTGTAAGGACAAAATG
AAGTCATGTTTCAGAAAGTCCCCAGCAAGTGGGTGGCAAAGGAATCCTTCCCTAGGATGGCATCTGTTGTGCAGAGTAGAGATACCCATGCTCTGCAAAG
TACAAGAAAGCAGTGTCTATAAATACTGTTTTTTTGCCAAGCTAAGACACTCAGCTCTTTGACTGAGTCTTCTTTAATGCTGACAAGGTTTTCATTTGTG
AAACCAAAATTTCAGTCTTCTTATTACAACACAAGTGATAGTTATGCCTTTTTTGTTGTCGTTGTTGTTACCATACCTTACCTTTAAAGCTGCAAAATAC
CTTTAGGAGCATCTAGATCATTCCATCCTTCTATAAGCCTGCAAGGCCAGCAGGGCCCACCTTGGATACAGACGGAAGCTCSGAGGAGCTCAGGGCCTGC
TCCTTGGATTTTCAGTGCCAGCAGCAAGATTTGTGACCCCAGTCTAGTGCTCCGTTGCCTAGTTTGAGCAGAAGTCAAACTGGGGGTTAGTATTGGGAAG
CTGAAATTCACCACTCTCTAGAGTTCTTCAGTGAAGTAACACACTTTGAAGAGCACTGACTGGTCAGGCCAGGCTCCTGTGTAGTAAGATGAGGGGACTC
CCAAATGACTGCTGATTCACTTTCCGTAGAACAGATGCAAGACTTCCCCTGGGTTTGCTGAGTCTTTATCTAGGGTTGGTTTTTGTTGTCTTTTATTTTT
AAACTCTGCCCAACGGGCTGTTTTGATCTCAGAAGAGTTTGAAACAAGTTTCCCAGGCATGTATCCCCATTTACAGTGTGCCCAGATTCCGTCCTAGATC
GCTCACATATCACCCTACCTCTCCAGCCTGCTTTCTCTAGCAGCAGACCCCAGCACTTCCCAGTGCCCATGGGGCTTTACCGCAACTGCCGCCAGCTCTT
CCCTGCACCCATCCCCTCCATGCCCTCCCTTCCCTCGCAGCATGGCGTCAGCCCATCACCAAAGTCACTCCCTGATGTGCTCCCTCAGCTCCTGCCCCTC
CTGTGCTGGGTTCTGCCACTCAACTGACTTCTGAGAGGCACAGTCAGTGTGGCAGTCTGGCTCTCCCTATGACTGCTGACCTCACATGGTCATCTGGGGC
TGCCCAGCAGTCCCAGCACCGCAACCTTTCAGCCCACTCCCCTACACTGTCTCTCCTCTCCTTAGGAGCACCTTGTTTCTGTTCCTCATTGAGTCAGCAC
AGGAGTCCACCCCTACTACCACCTGCCTGGCATGGTGGCCGTGGTCCTAAGGTAGACCTTGTACCCTCCCACCCCCTCGGGGACAGACTCCAGCAGGTGT
CCCTCCATCTTTTGCATTGCTGTTTCCTTCCATCTGACTTGCCCTATCAGGGCAGGCCTACTGTCAATACCCATGAAGACCTGTGTCCCTCCTACCACCA
CCCCGTTGCTCTACTCTCGTTCTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTACTATTTGGAATTTTCCGTAATAAA
CATATACAGAAATACAAAAAAAGACACAGAATAGTATCCTGCAGCCTCCTCCACCACACCCACATACTTATCACCCATTCCAGCACTTAACAGTTTATAC
CTGATCTTCTTTCATCTAGTTCCCTGCCCAGCCACTCTCAGTAATTCTGTAGCGAATCCCAGCCAATTTCATACATACGCAATTCTATTACTACATCAAA
AAATTCATCATGTCTAAAAAATCAAAAATTTCTTAATATCATCAAATACCCAGTGTTAACATATCCAGCTGTCTCACAATTGCCCCCTTTTTTTTTTTAA
GAACTTGTTTGTTTGAATAAGGATTAAAATAAAGTCCACACAGTAGAGTTGATTGATTTGTCTCTAAGTGTCTTAGGCTAAAGTTTCCCCTGCATCTCTC
TTTTTATTTGTTGAAGAAACTGTGTTATTCGTTCTATAGATTTCTCCAGTCTAGATTCCATCCCCTCGTGTTTGTTCATCTAACGTGTTCCCCTGCCTGT
CATATTTCCTATTAATTGGAAGTTGATTCCAGAAACCTGATCAGATAGATTGAGGCTTTGGCAAAACCACTTCATAGGTGGTAGTGTGTTCTATCACGAG
GTGTACACCATCGCATTGTCTCTGTGTGTGAAGTTCACAGCTGTTAATGCTCAGAGCCAAGATTGATCCATCCATCCTCTCTTTCCATCCCTCTGCAAGC
CGATGGGCCAGCGGTTAAGCTTCAGCCCTGTCTTCCTTGGCCGTCTGCAGCTCTTGGCACAGTCACTGCTTCTCCCCTGCCTGGAACGCTATGTACTTGT
GTTCTGGACACTACCTGTCCACTCTCGCTGCACTGTCAGTTCCTTCCCGACCCCCTTAACTGCTTTCTCGTCTCCTCCACCTCAGCATGTTGAGCACCAC
AGGCCGTGGTCATGGACTGCTTCTGTTCTGCATCTTCCCTTACTCCTTAACTCATCCAAACAGTCCCACAGCTTTACACCCATCTGGAAAGCTCCACATT
TGTATTTGTTTTTTTTTTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCCCCGCAACCTCCGCCTCCCAG
GTTCAAGCGATTCTCCTRCCTCGGCCTCCCAAGTAGCTGGGATTACAGGCATGTACCACCACGCCCATCAAATTTTGTATTTTTAGTAGAGACAGGGGTT
TCTCCGTGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCCCCCGCCTCAGCCTCCCAATGTGGAAAGCTCCACATTTCTATCTCCTACCAA
AGTATTCGTCCATAATCCGAATTCACCAACAACAGCCTATTTCACATCGCCACTTGATGCCTGTGGGGGATAATTCTCTAACTGTGTTTTTCCTCTGCTC
TCACATCACAACAATCATCAACACAGAAGAAGATTTCTGTGACAAACGTGTGGGGATTTTTCCCCACACACCAAGCAGCAGACACCAGTTGGGTGTCCTC
GAATTCAGTTCCGACACTGTCTACCTGAAGATAGTGCCAGTCCCACCGGGTGAGAGCTCAGTCCCCAAAACTGCCCCCCCCCGCGCGCGCGCGCGCGCAC
ACACACACACACACACACACACACACACACACACACACACACACACACACCAGTTGCAAGTCCAGGCCTTCAGAACTTCTGACTGACTGGCTACAAGGTG
GGGCTCCTACAACTCCCTCTTTGGATTCATTTAATTTGCTGTAGCAGCTCACAGAACTCAGGGAAACACATTTACCAGTTTATCATAAAGGATACTGCAA
AGGATACAGATAAAGAAATGTGTAGAGAGAAGTATGGGGGAAGGGGTGCTGAGACTGGGTAATTTATAAAGAAAAAGAAGTTTAATGGACTCACAGTTCC
ATGTGGCAGGGGAGGCCTCGCAATCATGGCAGAAGGCGAAAGGCACGTCTTACATGGCAGCAGGCAAGAGAAAAATGAGAGCCAAGCAAAAGGGGAAACC
CCTTATAAAACCATCAGATTTCATGAGACTTATTCACTACCATGAGAACAGTATGGGGGGAACTGCCCCCATGATTCAATTATCTCCCATCAGATCCCTC
CCACAACATGTAGAAATTATGGGGGCTACAATTCAAGGTGAAATTTGGGTGGGGACACAGCCAAGCTATATCAGGTGCAGAGCTTCCAAGCCCTTTCTGG
AAACTCCAGGAGCCTCCACATGGTCAGCTCTCCAGAGGCTCACTGAACCCTGTCCTCTTGGCTTTTTATGAAAGCTTCATGATGTCAGCATTCCTTCCCC
CAGGGTATAGGGTAGGACCCTCTCATGGAAGGTGTTTTAAGACCCACAATCGGAATAGAGTCCTGCCTTGGGATAGGTAATAAGAGGGCAAGAGAAGGTC
AGGGGCCTGCCTCAGAGGCCTGACACACCTAACATAATAACAGATGACTATAACAAGGGTTATAAGCCAGCAACTGTGGACGAAAACTAATACATATCAT
AGCACCACAGCCTACTCCCTGGTTTTCTACTGTGGATCCTTTATATCAAAAAACATATATATACACAATCATTAATAATTAGTCCAGTCCATCATAGTGT
ATGAATGTCTCCCAGGATGATGAGGACACTCAGGTTTGCAGGTTTCCTCTCAATATTGTCAGGTTCCACAAGCAGGAGTGGTCTGGGTAAATACACAGCT
TCACCCTCTCAGGCATGTGGAATCATTGAGCTAAGAGGCAGTGTCATCTCTTGCCCTGAGACTCTTTTGAGTTGTCTCATTTGCCCATTTATTTRTTTAC
TCTCAGCTACTATTTCTCCTTCTCTCCATTAATCTCCAAACTTTTTTGAAGGGACATTAGAATCACCACTGTGCTGGTCTAGATTACAAGCAGCAATACA
AGTCTAGCAAGTAGCTCCTCAGTCCACTCCCATTCAGATAGGGTGAGGCTACATAGATGCAGAACCAATGAGCTATTTTTACCACCGGCCATATTCACTG
TTAGCCCCAATTTTGTTAGAAGGGGTGAAGGCACATCTCACCCCCATGATGCCCTCAGGAATTTTGACATAATATTTAAAAACATGGTTACAGTTTTTTA
CTTAGCATTCCTGCTAAAAATTTTTTGAAGTGTTGGGCGCAGTGGCTCATACCTATAATCTAAGCTCTGTGGAAGGATGGGAGGATGGATTGAAGTCAGG
AGTTGGAGACCAACCCAGGCAATACAGTGAGACCCCATAGCTAAAAAACAAAAATCATCTTTGCTGTCCCAGCAACTCCTGTCCTAGGATCACTGCATCG
GGTAGGGGAGAAAAAATACTTTTTTTTCTTAGATGATTTGGGTAAACTCTGCTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCCTCCCCTCCT
CGCACATCCGCCTAGAGTTCCTCAGGTAGCATGATCCTCTATAAACCAGTTCCACTTTATTGTGGAACTCTTCTAGGCACTGCTTCCCCATTAGAATGTT
CTTGGACATCACCTGAGACANNNNNNNNNNNNNNNNNNNNTGAGTACAGTGATGCATGCCTCTGGTTCCAGCTACTTGTCTGTCCCCCTCTCTCTCCCTC
CCTCTCTCCCTCTCTCCCTCTCTCCCTCTCTCTCCCTCTCTCCCTCTCTCTCCCTCTCTCCCTCTCTCTCCCTCTCTCCCTCTCTCCCCTCAAGGAGTAT
CTCCTCCTTGAGTTCCTCAGGTAGCATGATCCTCTATAAACCATTTCCATTTTATTGTGGAACTCTTCTAGGCACTGCCTTCCCCATTAGAATGTTCTTG
GACATCACCTGAGACAGCATGGGTATTTCAGATGTCATAGGGGTAACTTCAACTAACATTTCATAGCAAGGTCCCTTAAGTGGAAATTCTCTATTCCAAA
GTCCCAGTAGTTGTTGCTGGGAGGTGCTCAAAACACTTTTGCCATAAGCCCCAGGAACTGCTCCACAGGGGGTTATCAAGTGGAGAGTTTGTCCCTGCCA
GCACTCTAGCTTCTACTCTGCACTCTGCAGGCTTGGGCATGTCCAATTAATATTGGAGAGCAGATTTACATGCCTTCTGTTTTATAGTACCAGGTAGGGG
AAACATTCTCCAGTGTGATACTGTGTTCATTACCATGATACAATCAAATAAAAGAGATGCAGTCGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCA
CTTTGAGAGGCCAAGGTGGGCAGATCAGGAGGTCAGGAGATGGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAAATAGAAAAAATTA
GCCGGGCATGGTGACGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGAT
TGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCTCAAAAACAAAAAAAAAGAGATGCAGTCAATTCACATGAAGTGTGTTCAAATATAC
CAACTTTCATCATCCTATCAACCCTTACATTTTTATATTCTAGTTTCAGGAACTTCTTCACCCCCAGACCATTTTACTCTCTCTTGCGCAAAAAGCTTTG
GGTCTTCTGCCAAGGGTTGAGCCAAAGGACCCTGGACCTTTTGTCAATCTTTATTTTGATTAGTCTGCCCCATTTTTGCCCCAGGCAATTTCATATCATA
TGTTTCATTGTAATCTCTACCTTGCAACTTTTAAAATTTCTTCAAACTGCAAGAAATACAGTAAACTGGGTTAGGGCCGTTTAATGTTGGGAGAGCGGAG
GGGTTTGGTCCACCCAAGCTTCGATAATGTTGTATTAAGATCTTTGTTGTGCTCACTTCGGCAGCACATATGCTAAAATTGGAACCATACAGAGAAGATT
AGCATGGCCCCTGCTCATGAATGACACGTTATTTTTTAACAACAGCAAAAAAAGACCTTTGTTTTGGTAAGCGCAGTGGCTCATGCCTGTAATCCCAGCA
CTTTGGGAGGCTAAGGCGAGTGGATTGTTTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAGCATGGCAGAACCCTGTCTCTACATAAAATACACAAAATT
AGCCAGGCGTGGTGCCACATGCCTGTAGTCCCAGCTACTCAGGAGGCCGAAGTGGGAGGATTGCATGAGCCTGGGAGGCAGAGATTGCAATGAGCTAAGA
TCACGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGCCTCAAAAAACAAAGACCTTTGTTTTAACTGTATCAATTTCCATTTTATTCATTCCA
TTTCTTAATAACCATCTAAAGATTTCTACCCTGCTGGGATGAGTCCCATGACTCTCCCCTTTCTTTTTCTTCTTAGTTTTATCCTATCAGTGTTTTCTTC
ACCTTATTTGTTAATAACCATTTTAAAATTTCCACCTTCCTGGGAGGAGTCCTTTGGCTCTCACTTTTGCCTTTCCCTGTTCTCTTGTTAATTAACCTAA
TATTTTTATTAGCATCTATAAGACCCATGAAGGGAAGCTGAGACAGCAAATTTAATAAGGCTTCTTGAACTGTTCATTTCTGTAGGAGTAATATCACATG
GGGTGCCCATGTAGAAGGGGCCCTCTTAACCACACATTTACCATGACTTGGGTAACAGGCATGTTCAGCGTGTGAATAGCCCTGTCATCATAAAGCCAGT
CCCACATGCATACAGAGCATATCAGCTACTGCATCTGGGGTGTCCCACTTGACATTTGTAGGTAGAGTTGGACAGTCCCCCTTCTCAGGGTGAACAGACC
TTACAGTGGCTTTTATCTGTTCCACCAAGCTGCCAGTTACCGCAGGAATAGCCTCCTGTGTGTCTGGATCATRTATACCCATATGCAGTTGTTCAATAGT
GAGCTGTGGGTCCCATCAATCCAAACATGTACTTCTACTCTGTAGTGTTTAAAACCAAAGATACTGCCCCTAAATTAGTCACTCTTACAGTGCGTTTTAG
TAAAGGTTCCTCAGGAAGCTGATGATACTGATCTACAGAATGAAACAGTTCTTTCGCACTATACCCTCTAGTTTCCATAGTTACTTAGTTTTGCCCCTCC
TTCACATTGACTACCTTCTTGGTAACCACAAGTCTCAGAGGTACTTTCTGTTGTCCCTGCGTAATTTTCTCCTTTGTGGGTAACTTTAAGGCTAGTGGAC
TAAGCTCAGGCAGACCCACATCTGAGCTTAGTCYAGCCTCAAGTCCTGACCCAGCACCCTCTTTTATTTTAGCCATTATAGACAACAATAACCAGGGATT
AAATATTTCACTTTTTTCTTAGTTTGCATTTCTTTATGCATCCAGTGCCCCAACTCMTGGGGAGTTGGATCCATCTCTGAATTCCACTGGTAACTTTTAC
CTTTAGTAACTGATCTCAGCACAGCTGTGGCTTCATACCCTGGGTGACCACATGGCCACATAGGAATCCAAAGATTCCTGATCCCCCACCCTTTTATCCT
TTCTCTTCTCAAACCACATGTTTCTGTGAGTCAGAGCTGTTCCAACAAATCCTGCTTCGCTGATACCAAATGTGTGGTGTACGGCTCCCAGCAGACTGAT
TTTTATGTCGCTATTAATATAAACCTTGATGATCAGATGCTTTGAAAGATCTTTGGGTGTAAAGGACAAAATGTAATGGCAGCATACACAACATGCCGCA
GTGTGCTATGTACACTTTTATCACCGTTCCTTTTGTGGATGAAAAGCTATTAAGCAGAATACAGGAAAACRCTGGGTTCTTAATGGGATTAAAGCAGTGG
GGCTGGGCACGGTGGCTCACACCTGTAATCCAAGCACTTTGGGAGGCCCAAGCTGGAGGATCACCTGAGTCCAGAAGTTTGAGACCAGCCTGGGCAACAT
GATGAGATGAGACCTTGTCTCTACAGAAATTTGAAAAATTAGCAGAGTGTGGTGGTCCGCACCTGTGGTCCCAGCTATACAGGAAGTTGAGGCTGGAGGA
TCTCTTGGACCCAAGAGGTCGAGGTAGTAGTGAGCCATGTTTGCACCACTGCACTCCAGCCTAGGTGACAGAGTGAGACCCTGTCAATCAATCAATCAGT
AAAATAGTGGGCATCACATAGTGGATCTGAGTTCCTTTAGGGAATGGTCCCACCCTGAGACAAGGAAAGCTGTAGGAGGCCTTGTGGCACACTCACACTA
AACTACATGTAGATGTGACCACCACTCATCTAACTCTAGTATGGGTCACCCAACATTTCTGGGTGCAAAACATATATCCTAACTGTACTCAGGCCTTTAC
TACACACTGCAGCAACATGCATGTTGGATGAAACAACACTGACCCACCAGACAGAAAAGGGCCTTATAGGAGATAGGTGCAGGTCTGGGTATCCTGGGAT
AAGTTGAGTTTGCTTTCAATGAGCAGCAGAATTCAGAGGAAAATGCAGATTAGAGGGAGTTCTCTTCCAGGAGGAAGGCAAAAGGATGGGAGTCAGCTTG
GAAAGATAAGGAGGCTTTGGCAGAGTGAGCCAGGCCAACTCAATAAACAGTGCTGAAGAGAATGCTAAGATGCAGCTTTGGGAAAGGGCCTGTACCCAGA
CCCAACAGGGCCTCTTCACAATTTTAATACAAATAGAGGCTGAAATGGGGGGCAGTGGCCCTCAGTCTTGGCTGCTGAGGCTCAGGGCACACCTGTGGGA
CTCTTATGGCCCTCTGAATTTACGGAAGTTCTCTGAGGGCACTTGCAGTTTACATCAATGTGCTATGACTGCCCATGCCTTTAGGTTAGGGCAAAGTAAA
ACATGTTCTGCAGTGTAGTTGGTAGGTATAGGAACTATTCTAAACACCCATCAAATGAATGAATGAATGAATGAATGAAAGAAAAAGAAACAAGGAAGGA
AGGAGAGAGAGAGAAGAAAGAAAGAAAAAAGAAAGAAAGAATGAGAAAGAAAAGAAAGGGAAGGAAAGGAAGAAAGAAAAGAAAGAAATAGGCCAGGTAT
TGTGGCTCAAGCCTTTAATCCTAGCACTTTGGGAGGCTGAAGCGGGAGGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAATGAAGTGAGACCC
TGTCTCTATTTAATTAGTAAAATTAACACCACCCATGTACTGTCTGCAGGAGGCAGGTGGGCTGTGCTATAACTGATAGCACCCAGTGGAAACCAGCAGT
ACAAGCCTGTGAGATGAGACAGGGTGATTGGCTCTGCCCCTAATTAATTTCAAATCCAGAAATGACTGAGTCATGGCCATTGTAACAACACCTGTCCTTA
ATAACATTTGGTATATGGGCAAGGGGAGATTTTATTGGGAAGGCAAAGGAAATACCTCTGTCATTCTTACTAATCTATAATGAAGCTAAATTGTACCACG
ATTGTATCACAATATGGTGTAATACTGGGGGCATTGGTAAGGTTCAGCTTCCTCATGTAAATAAGCTTTATGATAATACTGATACGATCAGATGTATTGG
GAGGTTGAGTTGAAGCTCCCTCAGGATGGAATGCCTGTGGAAAACGGCCCAAGAAGGAACTGGATCTAGCTAACCATCAGCTGATCTCTGTGCGAAACAG
CTCTGCACAAGTTTATCCTAAGGTCCAATAGCGGTAGACCAAGGCAGGAAAGAACAGTGAGGCTAGTACACGATTATGAAAGTGTTTGTGTGACTTCATA
GGACAAATTAGTCATTTCTTTAAATTCATCCCTACCCACACTGGCTTCTCCAGATTTTAGGTGGCGGCATTGCTGTAACTGTTTTATAAATGCTACAACA
AATGTTCTGATAGATACATTTGTTTTGGTATAAGGGATCTGTGATTGAAAACCAAGGAATGGCCTATGGAGCTGTAGATATATATGTATTGGTATCCGTC
CACAGTTCCTGGTTTATAGTGTCCACATCCCTTGTTACAGTCTGGTTGTAATGCTGGATGTGTTAGGCCTCAGGAAACAGAATCTCTCCTGCCCTCCTTT
ATGTACCCCAAGGCAGGACTCTAATCTTTTCCCATCTTGTGGGTTTGAGATCCTACCCTATACCCTGGGGGAAGGAATGCTGACGTCATGAAGCTGCCAT
TAAAAACCCTAGAGGACTGGGTTCAAGGAGCTTCTAGAAAGCTAAACCCGTGGAGGCCAACAGGAAAGTGAAGAAGAACTCGCTCACGTGCCGGGAGGGC
GACACACCCCCAACTCCTCAGGTTCAGAAGCTCCTGTGCTCAGGACCCTTCCAGACCCCGCCCTGTGTGTCTGTTCATCTGGCTGTTTATCCTTTAAAAT
ATCCTTCTTAGAGCCAGGAGCTGTGGCCCTGAGAAGGCTCAGACCTGTAATCCCAGCGCTTAGGGAGGCTAAGGTGGGTAGATCACTTGAGCCCAGGAGT
GGAGACCAGCCGGGTAACATAATGAGACCTTGTGTCTACAGATAATAATAAAAACAAAAATAGCTGGGCATGGTGACACAGGCCTGTAGTCCTAGCTGCT
TGGGAAGCTGAGGTGGGAGGATAGCTTGAGCCTGGGAGACCGAGACTGCAGTGAGCTGTGATTCTTACACACACACACACACACACACACACACACACAC
ACACACATTCTTAGTAAACTGATAAACTTAGGTAAGTGTTTCTTTGAGTTCTGTGAACCACTCTAGCAAATCAGTCAAACCCAGAGGGGATTGTTGGAAC
CCCAGTTGAAGCCAACTGGTCAGAAATTCCAGAGGCCTGGGCTTGCGACTGGACAGGAAGGTGGGAACATTCTGGGGGACTGAGCCTCAAGCTGTGGGAT
CTAACGCTGTCTCCAGGTAGATGGTGTCAGAATTGGATTGGAAGACACCTGGCTGGTATCCGCTGCTTGGTGGTGGGGTGAGACCCCCACACATTTGGTC
ACAGAAGTTTTCTTCTGTGTTGATGATTGTTGTGGTGTGAGAGTAGAGGGAAAAGCACGGTTAGAGGAGCAAGTTTTCCCCACACAGTGTCTGACAGGCT
TCTCTACTTAAAACTGGAATACGGACTCCGGCTCCAYTCCAGACTGTTCCTTCCTCAGTGTCCCCGTCTGTTAAAGGCAGTGTCATTCTTCCAGGTGTTC
AGGCCTTAAAGCCTGAGAGAGGTGCTTAGCTCTTCCGTTTCTCTCACACACCACATCCTGTGCTTGTACAAATACTGTTTCTTCCCCCTTCCACATCTAT
TTAAAACCCAGTCACTTCTCATCATCTCCACCGTTGTCAGCTAGGATCAAATGAGCATCATCTCTTGTCTGGACAGTTGGAGCCTCCTACCCTGTCTGCC
TGGAGCCTTCTAACCTGGTCCTGCAGKCTGTTCTCAACAGAACACTGGAGCCTTCCACATTCAATCATGTCACTCCTCTGTCCTGAACCATCTGGTGGTT
CTTCTCGCAACCCCCACCAGATATCAGCATGGCTGGTGTCCAAGCCTCCTGCACATTTTTGACGCACTCTTGCCATATCAGAGTGGCCTTCCCTGACCAC
ACCCTCCTTGGTGGTCACTCTCCTCCTCCCCACCCAGCCAGCACTCTTTTCTCCCTTCCCCTGCTTACCTGCCCTCACCCTCTGGTAACTCCATGTTTAC
TTGTCACCCTCTCGTGGAATGTGAGCTCCCAGCAGGCAGGGCCCTAGTTCTTTCCATCAGCTGTGTCCCAAGTGCCTGAAAGGGTGCTGGGCACGGCACA
TGCCCAGCAAATAGGGGTGGAATGGTAACCCTTTTCCTGTAAGTCTGAACTATCCTTGGGCTAGGAATCGACCATCTCTTCTTACTCACTTTGTGATGTG
GGAGGCTCCACGGCCTCCCTCGGTATCTTGGAAGATGGGGATGATGGTGATATCCACATCGCGGGGCTCTTAGGAAGATGAAGCTACRTCATGCAGCAGG
TCTCAAGAAGGCCARTCTCCTCTCTTTCCCTGCCCTGTAGTCCCATCTCTCTCCTGCCCAGAGTTGAGTCACCTGGGCCAGTGTACCCTGAGGCCCTGGC
CAGCCTTGCCTCTTCCCCTCAAGGGTCTCAGACTGGTGCCAACAGTCACATTGTCACACCAAAGCCAGGAGTGCGGAGAGAGGATGTGGAACAGGGTCTA
RATACCTGAAGCTGGGGACAGCATGGCCCTGCACGTCTCTACTAAAAAATTAAAAATTAGCTGAGTGCGGTGGTACATACCTGTGGTCCTAGCTACTCAG
GAGGCTGAGACAGGAAGATCATTTGGAGCCTGGGAGGTCAAGGTTGCAGTGAGCCCTGATTGCACCACTGCACTCCAGCCTCAGTAACAGAGGGAGACCC
TGTCTCAATAGAACTAAAAAGAAAAATAAAATANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTATATCTTTCATCTTTTTTTTCTCTG
CTCTTCTTTAAAGTTTCTGTTTAAGCTAATATTTTTCACATAATAAAAACATTTTTCATGCTATTAATTATACAACAGTATAATTTTTATTGGCTACATA
TCATTGTTGTTTGTTGGTTTATTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCACCGTCATAGTTCACTGTAGCCTTGGACCCYGGG
CTCAAGCAATCCTCCAGTCTCAGTCTCCCGAGTAGCTAGGACTGCAGGCATGTACCACCACACCTGGCTAATTTTTATTTATTGTCCATACAATCCCCTG
CATTCAGATGGGTGGCATTTTTTTCGTTATAAGCAGTACTGTGCCAAACACTCTAGCACAGACATCTCAGTGTATGACTTTGATCACTGTTTTAGGATAA
ATTCCTAGAATTGGAGCTGCAGGTGAAGAGGGTGGGGTATTTTGAAGGTTTTCCATGCCTGGCACTTAGAGTTTCTCTTGCCCCATCAGTGTGACTCACA
GCCAAGGCCTTTCTAGCCCCACCACCTCAGGGATTCCCCCTAGCTTTTTCCCTCTTGACTGCCTGGCTCAGATTGTTTCTTAGCCAATTTCAGACTTCCA
AGAGAGGAACGAGATTCATGTAAATTAACTTTTAGAGCCAAGCCACCTCAGCAGAAGCTTAGGGACCAGCCTGTGAGCAGGGTGCCCCTTGATTTTGACT
TTTTTRGAGATATGACTAGACAGGTCATGAGCAGAAACAGCCCTAGTACAGCCTGTGACATTTACAACATGAGGTTTATCTGTTTCTTCTCCTTCTTTAA
GAATGTCTTTCTGAATACGTTATATTTTTAGGATCAAATTCCTAATGTGAGTCACTCAGTGTGCCTTAGTCAGCTGTTTCCTCCCTGAGTGCAGGCTATG
TCCTTGGCCCTTGTGCCAGGAGCCAAAGTTACAAAAATGAGTAAAACAGGAATGTAATACTGTAATAGGGCCTTAAAGAACCCTAACAGTGATGGTAGTA
CTACTGCATAATGCTTACAGCCTGCCAGGGCTTGTCAGTAAATTCTTTGCATATATTAACCCATGTAATCTGCATGCCAACCCTTTGAAGTAGGGTTTTA
AGAGATCAGTAAATTGCAGCATAGAGAGGTTGTGTAATTTGCCCAAATTCACACAGCTAGTAAGTGGTGGAGCTAAAATTGGAGACATGTCCATAGTTTT
CTAAGTACCAAGAGCTGTACAAAGAGCTATGGAAATGGGTCAACAAATTGATACATTTCCTAAGCTGTGCATACTGTGCAGCCATTAAACAGAATAAAAA
AGAACTGATTTGGAGCTYTCCTAAACATAGTAAGTGGGAGAAAAGCAAAGTTTCAGACTATGTATCCCTTGTATGGTTTTTAAAAGACATAGCACACGCG
TGTGTATCACCAAAATGTAACAGAGGTTAACCCGAGACAGGGGCACAAAGTAGAAGAAGCCTTTTGCTACCTCGCTTATATACTGCATGAATCATGTAAA
ATGGGGAGAAATAATAATAAATTATGATACAGCTATAGAATGGAATAGAATGCACCATTCAAAATTACATACAACTAGTAAATAATTTTTAATAACATGA
CAAATACTGTTGCTAAAATGGTATTAGATAAAAGCAAGTAAAAGTTATATCTATAGAAAATATATAGGAAAATTAAAAGGAACTATATAAAAGAATTTTA
AATGGCTACATTTAGGTGTTAGGCTTAAGAACTCTGTACTTTCCGATTCTCTGCAATCTGTTTCTATTTATTTTTTTTAATTCTGGATGAATGTAGACAT
CCTGTTCTTATATAATTGAAGCATAAAATCATGAATTGTAACACTTTCCAGGCTTTCAAACTTTGTCTTTGTAAAACTGCCTGGGTGGGCCTGGCCCCTG
AGTTCATCCATTTCAAGTGCTCACTATAGGTCAGTTCCCTTCATGATGATGGTGCCTCTTTTAGGTGACTGACAGGAAAGCAGCCCTTCCCACCAATGAC
CTCCTTGTTTTTGATTGCTTCCACAGTGGCACTAAGGAAAACAGATCATCTCTCCCTAGACAAAGCCACCATCCCGCCCGAAATCTTTCAGAAATCATCA
CAGTTGGCAGAGTTGCCACAAAAGCCACCACCTGGAGACCTGCCCCCAAAGCCCACAGAACTGGCCCCCAAGCCCCAAATTGGAGATTTGCCGCCTAAGC
CAGGAGAACTGCCCCCCAAACCACAGCTGGGGGACCTGCCACCCAAACCCCAACTCTCAGACTTACCTCCCAAACCACAGATGAAGGACCTGCCCCCCAA
ACCACAGCTGGGAGACCTGCTAGCAAAATCCCAGACTGGAGATGTCTCACCCAAGGCTCAGCAACCCTCTGAGGTCACACTGAAGTCACACCCATTGGAT
CTATCCCCAAATGTGCAGTCCAGAGACGCCATCCAAAAGCAAGCATCTGAAGACTCCAACGACCTCACGCCTACTCTGCCAGAGACGCCCGTACCACTGC
CCAGAAAAATCAATACGGTGGGTGGGACAATGTTCAGGCCCTTAGGAACCCTATTCCGCACTTTGCAAGTTGGTGGGAGGGCAGGTGCTCCAACTTACAC
AAGAAAAAGTGAGAGCTTGCTCACCTGACCCTTATGTGCTCTGGTTCAAGCATGATGGTGGATTAGAGCCTGTGGGTTACAAACCCAGGCTTTAGGCTCC
AGCAGACAGGCTTCAAGACCTGGCTTCAGTGCCTGACATAACTGCACAACCTTGGCAAGTTACTTTCTCTGAGTCTTACTTTCTTCACATACAAAAAGGA
GCTAATACAATATTTGAGCTCACAGATGATTAAATACAGTGACAAATGAGCAGCACTTGGCTGGCACCTAGACCACTGAGCAAGTAGTCACTATTACCTA
GGAACCTTGAGGATGAAACTTTTCCTTTCCTGAGGGTCACGAGAAACCAATTTCCCTCTCGGGGTTCTGGGTATTTTCTCTCTCTCTCTATTTTTTTTTT
TTTTTTTTTTTTGAGAAGGGCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCACAGCTCACTGCAGCCTCAGTCTCCTAGGCTCAGGTGATCC
TCTTACCTCAGCCTCCTGAGTAGCTGGGACCAAGGTACATATCACTACGCCTGGCTTTTTTTTAATATTTTTGGTAGAGATGGGGTTTTGCCATGTTGCC
CAGGCTGGTCTTGAACTCATGGGCTCAAGCACTCCTCCCATCTTGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCTCCCTGAGT
TGCTAAGTCAGACTTTCTCGCTGCATCTTCCTAAAGGAATTGGAGATAAAGCTCTCGATATAATAGAATAGCATAGAATTTTGTAGAAATCTCATATTCT
GTCATTTTCATGAAATGTTTCCTACTCTATATCCAGAAGTTCTCCCATTGCACATGGCAGCTCTACCTGCCTCACATTCTGTTATAAAATGTTACAGTAC
CCAGCACTTTGGGAAGAGGCGAGTGGATCGCTTGAGGCCAGGAGTTCAGGGCTGCTGTGATCACACCACTACACTCCAGCCTGGGTAACAGAGCAAGACC
CTGTCTCAAAAAAATTAAAATGGGGCTGGGTGCAGTGGCTCACATCTGTAATTTCAGCACTTTGGGAGGCCAAAGTGCGAGGTTCCCTTGAGCCCAGGAT
TCATGACCAGCCTGGGCAACATACAGAGAAACCGTCTCTATAAAAAATAAAAATTAATTAGCTGGGCATGGTGGTACATGCCTGCGATCCCAGCTACTTG
GGAGGCTAAGGCGGGAAGATTGCTTGAGCCCTGGAGATCGAGGCTGCAGTGAGCGTAATCATGCCACTGCACTCTAGCCTGGGCAACAGAGTGAAACCCC
GTCTCAAAAAAAAAAAAAATTTAAATGTTGCAGTAAAAGTGTGTCATATCAATACTTAAATTAAGAAAAATAAAACCCATCTTCCTGTAGGTTGGAGGCT
GCCGTGTCTGATGGTGGATACTTCTGCTATTCAAAAGGGAACTCTCCCATGACTCCCAAGCACCACTGATGCAAAATTTTCATTTCATGCTACACACTAT
ATAGTTTTATTATGTCATTTAATCTCTGTGTTATAAATTAACACACTACAGGCCTCTCAGTTGCTCACGCAGTCACTGCCACAGTTCTGCCAGGCTTCTC
CAACCCACCCGCACGGCCCAGAAGGGAGCTCGGAAAGCAGCTGGAACTATCAGGGTGATTAAAGGAGAAACCAGGGGACAGAGAGGAAGAGGCACTCCAC
CCAAAACATTTAAAGAGACAGCTTGCTTTTTTTAAAATTGCCAATTAGCCAGGTGCAAAACAAAAACCCATCATTTAGAAGGTGATACCTCTATTTTCAC
TTTTCTATTTGCAAAGAACTGGAAGTTCAACAAATAAATGCTCAAATCAAAACTAATCAAAAATTAAAACTGTTTTAGGAACTGCATAGACTTCTCCGAG
CCCCAGGCCGATCCTGCTGTGTTTAACCAGCATGTACTGACTTGCTGTTTTGCATGAGGGGACTGACAAATTTGTTTATGCTGCACATTCATTATGCAGA
AGCTGCAGATTTTGCTTTACATCATGTTTCCTAAAAACATTTTTAGACTCTGCTGTCATTCTGCAAGCTGATGTGGGTTGGGGGTGCGTACAGAGTGCTT
GATGGTTTTTGGTGAAGCTCAATTTTGATCCCTACCCATAGTGTTTGCTTTCTGGTGAAAATAACTTGATGATGCCCAATCACCAATGCAGGGCCACCCT
GATGATGGGGGGAGAGGAAGGGCCTGTAGTTAAGAGTACACAGTATGCTGGGTGCCTGACAGACACTCTTCTTCCCGCCCTTCAAGGGTGAGGAAATCAA
GGCTCAGCGAGGTTAAGTTACTGGCCAAGGTCAACCATTTTACAAAGAACCGCTGCTCTTTTTTTCCATTCAGTCCATTCTTTCAATTAAAACCCAGTTT
CTTTCTTTAAGGGGAAAAATAAAGTGAGGCGAGTGAAGACCATTTATGACTGCCAGGCAGACAACGATGACGAGCTCACATTCATCGAGGGAGAAGTGAT
TATCGTCACAGGGGAAGAGGACCAGGAGTGGTGGGTACGTACGAATATCCATCCACTTCATCCGTACATTCATACAGCATGCCTGGGCAGGCACCACATT
GGAGCCTACAGACAGTGCAGTAAAAGAGGGCTCTTGAGCACAAGGACCCTGTCAGCTGCATCACTCACCCAACAGCCATTGCATTTGGTGTCTTTTCTAT
GTCACACACTATTACATGCTAGAAAAACAGCCGTGGAGCTGGCCGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGATGGA
TCTCGAGGTCGGGAGTTCGAGACCAGCCTGGCCAGCATGGTGAAACCCCGTGTCTACTAAAAATACAAAAAATTAACTGGGCATGGTGGCACGCACCTGT
AGTCCCAGCTACTCRGGAGGCCAAGGCAGGAGAATCGCTTGAACCCGGGAGGCACAGGTTGCAGTGAGATGAGATCACACCACTACACTCCAGCCTGGGC
AACAGAGCGAGACTCCATCTGAAAAAAAAGAAAAACAGCCATGGGGCTTTGAAGACAGGTCAAGAGAATTAACATTTGTATGTACTTTACCCATGGTATC
ATGTAACCTTGTGAGTTGTAGGCATTTTCTGATTTTTCATATAAATACTAAAGCGGAAGAAAGTTGAGCATGTTGCCTGTGGTCCCTCAGCCAGTAAGCA
GGCTAAGTCAAGATTCCAGATCGGCCCTGACCCCAGAGCCTATGTGCTTTGCTCACCATTCCACACTGTCCCCAGGCTGGGAATCAGAATGCCCAAGTTC
CTGCTCAGGCTGAGCAGTTGACAAGTCCTCAGACTCAATTCTTAATCCAGTCTGCAGTTCTTTCTTTGTCAAATAGGCCAAGACACCTTCTCCACGTAAT
TTTAGGAAAAGATTAAATGAAAATATCTATGAAAACTCCTTTTACATTAAAACCTGCAGCTCAGGCATCAGGAGGGAAAGACATCAGCATCCTCATAGGC
CCTGCTAGGTACCCAGGCTGTGAGTGACCTGCGAGGGCAGTCCACACATCTATTGGTTTTCACGTTGCCAGGGAGTAAGTCTCCCGATGGGAACTGCCAG
GCCAAGGTACAGTGAATAAGCCACCTCTTCTGCTCTCCTTGTTGATCATTTCCTGACATCAGGGTGAAAATTCCCCTTCCTTGGCAGCCTGAGCCCCGTC
CTGCCAAGAGGGACTCAGTTCTGTCTGCCAGGAAGGGACCTGAGGCTCGCAGTTGAGCCAGCAGTACCTAAGAATACCCAGAAATACATATGTATATACA
TGTGTGCACACACACATAGGCATGGGCACACATTCACCTTTGACTTTTCTTCCTTCAGGCCTAGACAGTGACCTCAGATTCTTAATCACAGCTGTAGGGA
TTTTGTTTGGACTCAACTGGGGCAATTTTGCCCTCCAGGGACATTTACAATATCTGGAAATATTGATTGTCAGGACCTAGGAAGGGGGTTGCTACCAACA
ACTAGTAGATGGAAGTTTAGTGGCCAGGGATGCCACTAAACATCCTCCAGTACTCAGGGAGCCCCCACAAGCAAGGATGCCAGTAGCACCATGGTTGAGA
AACTGGACTGAAGGGATCAGCCTGGGGAGGCCCAGGGGTACCTCCAGCCTCTGTCAGCAGAGTGGGGCCAGCCCCTGGCATGAAGCCTGTCAGAGAGTCC
ACTTCATCTCATGACGAGGAGGTGGGCTCTGAAGCCCCCCCACGTGAATCAGTTACTAGCTCTATGGGCCTTGGATAAAGCATGTCCCTTCTGTAAGCCT
CACTTTCCTCTGAAAAATAGGACATGATTAATCGTTTCTCACAAGGATGTTGAGGAACTCACTTTGTAATCTGTTAATATTATTATAATCAAGCAGTGAT
CATGTTCTTTGCTAAGCAACTGATGACTACAGCAGAGATACCTGCGGGGAATGGGAAGCTGTCATTGGTGTCCCTAGCATCATTCCTAGGGGACATTGTG
TGTGCCACCATTACGTGCCTCGCCAGATGTAAAGATGGTGCCACACACACATGCTAACTGTGATGTGAAATTCACAAAGACCTCACACATGCATGATGCC
AACTAAGACCACACGCRGTGGGTGGGCAAGCCTTCAGGAGAGCTGGGCAGGCCTGGTTGACTCTGTTCCACTCTTAAAACCACCTTCCTCTCTATCGATT
TGGCATTGGAAGCCAATATGCACGATTTTGTTTTTTCTATTGAAGGCCYATTACATGATTCTCTTTAGTGCAATCAATACTAATCTAATTGAGGTAATTA
GAAAATTTTTACAGGTAACTGGCTTACAGGCCAATGCAGCAGACAATAAAATTGCCATTCGCCACCATCAGTCTCAAACTTTCACAGTATTCTTCCTCCA
CGGTAACCAGAAAACAAGTGATAGTACATAGCAGCCTTTTTTTTTTTTTTTTACTGGCTAGAACAACACTTTACTCACAAAGAGAAGAGACAGAACAAGA
TTAGCTTTGATTTGAGTATGGTACCCYGCAGTGGGTCTTGCCAGGCAGCTGACACAGCTTAATGGTCTGTATGCATCCTACCTGGGCTGTGGGCAAAGAA
ACCCCTTCCTTCCCAACTAGGAATAGGTAATAGTACTGGGATTGGCCAGGTGCCATAGCAGCCTTTTCATTTGCTTTTTTTTTTTTTTTTCTTTTTTAAA
TGTATCACACAAGCCTGGAGAGAAGGGATTTTCTTTAGCCCCACTTAACAGAGAAAAGGCTTAGCAAGGTTTGTGTGAGGTCACCCAGCTGTAAAGGCAG
CCAGGCGCCCTGGTTCAGAGCAAGGACTCTAGAGCCCCACGCCTGTGGGAGAGCATGTCACCTCTCTGGGCCACTGTCCCTTCATCTGTAAAATGAAGAT
TGTAAACTGTATAAGAAATATCCACCTCAGGGGGTTGCTGTGTGGGTACAGCAAGATCCATGTAGAATGCTGAGCATATTGGAAGTTCTGTCGTTTGCTC
TTTCCTTATGTAGTTTATGACCGTTAAGCTCTCTGTAGTTCACTAAAGGGTGGGAAGAAGGGTAAGCCTGGGATTCCACCGCCAGGTCTGTGGGCAGACT
AGGCTGGGCTCTTACCCACTGGGTTTGTCGTGGGGCCACTGCCTGCTGCCTCCATCCTGACCACTCTCTTTTCTCCCTGCAGATTGGCCACATCGAAGGA
CAGCCTGAAAGGAAGGGGGTCTTTCCAGTGTCCTTTGTTCATATCCTGTCTGACTAGCAAAACGCAGAACCTTAAKATTGTCCACATCCTTCATSMAAGA
CTGCTKCCTTCATGTAACCCTGGGCACAGTGTGTATATAGCTGCTGTTACAGAGTAAGAAACTCATGGAAGGGCCACCTCAGGAGSGGGATATAATGTGT
GTTGTAAATATCCTGTGGTTTTCTGCCTTCACCAGTATGAGGGTAGCCTCGGACCCGGCGCGCCTTACTGGTTTGCCAAAGCCATCCTTGGCATCTAGCA
CTTACATCTCTCTATGCTGTTCTACAAGCAAACAAACAAAAATAGGAGTATAGGAACTGCTGGCTTTGCAAATAGAAGTGGTCTCCAGCAACCGTTGAAA
GGCATAGAATTGACTCTGTTCCTAACAATGCAGTATTCTCAATTGTGTTACTGAAAATGCAACATTAGCAAAGAGGTGGGTTCTGTTTTCCAGGTGAAAC
TTTTAGCTCCATGACAGACCAGCCTGTAGTTATCTGTGTACACAGTTTACAGCTACAAAAACCTACTTTGGTATTTATTACAGAAAAGTGCTCAGTTAAA
TGTAAGTGTTATTCCTTCAGCAAAATATTCACTGACCCAAAACTCTTTATGGCATTTTACAATGCACACAGCCTCATGCAAGTTTAGACAAGTGGATTTA
TACTGTCTTATGAGTGCCCGCCCCTGATATATTACCTCATTATGCAAAAATAACATATCTTTCATGACTATTTTGACAAAAGTTTAAAACACATATGAAG
TTCAAATTTCAGGAACCAAGGACTGCCAGAAAATATTAGCCTCTACATTACGCATGCATTTAGAAGCTTACCTGAAATCTGCCTTTTATAAAGGAATAGT
ATGGATAAGTGGAATTGTACATTTTTTAAACTTGATTGCCATTAAAGCAGAAATTATAAGGTTGCAACAATATTTGTTTCTAATCACTGGCTTTCTCAAG
AGTATGGATTGACATATTGTGTTATGAATGCACATCTCTCAGATGTGTTGAAGCATCCATTGCATCCATTTTTTATTATTTTCTTAGTTTTGTTCTTGGA
CAAATTTAAACTTTTAAAAGATTATTCAAGATGAATTTAAAAGTCAACCCTTCACACAGTTTCCCTACTGTATGTAGAATCCAGGTGCTGAAACCAAGTG
TTTCTTTTCCCATGCTCTTTGTTAAACCCCAATTATAGATAATTTTTCCAGTCTTAAGCTCTGTCCACCTTCAAGTCAATTCATAACCAAGTTTTTGAAC
GCTGCTATGAATTGCACTGTGAAAAGCACTCTTCCCTCTCAGTTTTCTTTTCATCCCAGCCATGTTTATCAGATCCTTAAGAACATTGTATTTCAGTCTT
TTACATCAGTCTGAATTTTGGAAAAGAATGCAATAGTTGTACTCCACAGTCAGTGGAACTGTTCCCTGAGTCCGAGGCTCATGTGTCATTCTGGCACTAC
ATTTGCTTAAATTGCTATTTTGGCAACAGCACAGAAAACTAATATTTTTAAGCAGAGAATCTTGGCAATGAGTGAGAGATGTTAATTTCACAGAAGCACA
ACTCCCAACCCAACCCTTAGGAAAAGCCCTCTTCCATCGTTACAGTGCTCAGTGAATATTAATTTAGTTCTGCTTAAGTGGTTGCTATACAAACTTTGAA
TAGCCACCTAATAAATAAACCTTGCATGACAAACCTGCAAAATATTTTATCAGCTGTTATTGGAAAGTGATTTTAAGCAATTGCTTCCTCAGTGTCAGGG
CACATGTGAATTTCCACACCAAACAGAGCATGAGGAACCAGTTGACATGCTGGGTTGTGACTGGCAGCTTTAGCAGCCTCRGTACTGAAGCCACACCAGT
GTCMGGATGGAAGTCTGCATCTGAGGTTGCTCAGTGTCCCGGTCATTCATTTACACATTTTAACTTGCATTAAAGAGCTGTTCTTTTCTGTGGCCTAGAC
TCTTTTCACTGATCTCAAAATAAACTGGTTTTTTTCAAAAAAAAAAAAAAAACAAAAACAAAAAAAAAACACAAAAGCTGCATGTCTAAAATTACATGGA
GTTAGTGTCTATTCTTTTTCCCCTTTTGCAGCAACTTACACAGCATTTTTAACACCTTTTTTTTCTAGTTTTTTTGTTCGGTTTTGTTTTCCATCAGGAA
TTTGAGTTCTCTCTAACCCAGCTTACTGTGGGACATAGGAAAACTCAGTAGAAATACCTTTGGTGATCTTGTTGAGTTTAAGTCTGATCTTGATCTTAAA
CTCAGTAAGCCACTATCTGCAATTTTGTACATTATATAGTATTTTGAAGATATGGAACCTTATGAAAAAAAAATAGCAAATTAGTTCTTTTTCCCCCAGA
GGGGAAAGTTATGTTCTGCAAATAGTGTGTGTCTTATTTTACTGTTGAACAGCAATTGCTATTTATTTTTTTATTGCCTAGAACTTCAACATGTTGTATA
GGAATCCTGTAGTGCCACTAGTTAAATGCCGAATTCTCATCTGGATGTTACCATCAAACATCAGTACACTTGTCATTTCACATGTGTTTAATGTGACAGT
TTTTCAGTACTGTATGTGTTAATTTCTACTTTTTTTAATATTTAAAATTGCTTTTAAATAAACATATTCTCAGTTGATCCCAAACTTCTGAAATCAGGCC
ATTTTGTGAGTTGTTCACTACCCTGCTGACAGGAAAGAATCAAGGCTTCCTCTGGCTGTGCTTTCGGGTATATAGATGACACAGGTCACTCCAACCCTTG
TCAGAGATCACTCTGGATACATAAAAATATGTGGCACTTGCCCCGGCTTACAAACTGTGGGCCTTCGGCCCCTTTCTGTCCTCCACCTTCCGCATTCCAC
CTCCACCACGTCCACTTGTGCGCCCGTTGATGTGAACAGGGCAAGAAGAGGGTGGAGGGGCACGAGGCTTACATGTTGTCGTGTGGACAGCACTTCTGTC
ACGTAGCTGTCACAACTAGTGCTGCCACGCAGTGGAGCAGACCTGGCCCAGGCACTCTGCCTGCATTAACCCCTGAATCCTTAGCAAGCCCAGGAGAAGC
GTGAGCCCCTCAGCTTTACAGAGCTGACAAATGAGGCTCAGAGGCATTCATTCACACACAGGAGACATGTGGCTTGTAAATCACTAAGGTGGGAGTGCAC
ACAGGTGGTTCTGGCTCCAAGGCCATCCTTGCAATTCCCACTGCCTGGAAGACACTCTCCTTTATGGAGAACCACAGTGGCGGAAAGCAGGCCGAGACTG
CGGCAGGGAGGATCCCGAAGTGCTGGTCTCAGCATTCCTTCTGTCATCTTTCATGGAAGTTGGTAGACATGGCTGGGCACGGTGGCTCACGCCTGTGTTC
CCAGCACTTTGGGAGCCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTTGGGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAA
AAAATTAGTTGGGTGTGGTGGCTCACACCTGTGATTCCCAGCTACTCGGGAGGTTGAGGTGGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGA
GCGAAGATCACGCCACTGCACTCCATTCTGGATGACAGAGCAAGACTCTGTCAAAAAAAAAAAAGTTGGTAGACATAATGTGCCTGTTCATAGTCCAAGA
CAAACCCTTTAAACACCGTGCTACCGGGGAAAATGGGCTTGGGCATGGAAGCCAGCGGCTTTCTATCGGGATATTTCTGGGAAAAGCTAACATAGTGACC
TGGATAATCCAGGGGGAGGCGAAGCCAGCTTTTTATCTGATGACAAAATGTTCTTTCACATCGGTTGTATGTGGTTTTAAGCCTGGAACAGTATCTGTTT
GGAACTGACGTCCCCCTTCACCACCCCCTGACTCCGTTGAAAGCAGCCCCTCCCTTTATCCACCAGCCCCCGACAGCCCAGCCTCCAAGGTGAGGCCAGG
AGCTGGAGGCTTACCCCTGTCTCTCCACCTCAGGTCCTTTGAGGGCTTACTGTGCTTGGGCCCATGTTTCCTTTACCTGCGTTTAGTCTTTGGCAGGGCG
CGTGACACCGTTAGGCACATTACCACAGTTGAGTGATGGGCAGCCGTGTGGACCCAGGTCCTTGTGGCCCCAGCCACAGCCCCCTACTCTCCACACCCTT
GTTCTTCTCCCCTCCCCTAACCTTGTGCCCACTTTTCGTATGTGTTTTTTTCTTTTTTTGTTTTTTTCTTTTTTGTAGACAGGGTCTTACTTTGTTGCCC
AGTCTGGCCTCGAACTCCTGGGCTCACATCATCTTCCCACCTGAGCCTCCCAAAGTGCTGGGATTACAGGAATGAGCCACCATGCCCAGCCTAGCCCCCC
ATTGGATACTGTTTCAGGCTTGAATGTGTGTGTGTGTGTGGCAGGGGTGCAGTGGTGGTGGGGATGATCATTACTGAGATCATTCAACCTATTCTCCTCT
GCCCCCCATGTGTTCCCCTCTTCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTA
TTCCCCTCTGCCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCCCCTCTGCCCCCCA
TGTGTTCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCTCCATGTGTTCCCCTCTGCCCCCCATGTGTTCTCCTCTGCCCCCCATGTATTCCCCTCTGCCC
CCCATGTGTTCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCCCCTCTGCCCCCCATGTGTTCTCCTCTG
CCCCCCATGTATTCCCCTCTGCCCCCCATGTGTTCTCCTCTGCCCCCCATGTATTCTCCTCTGCCCCCCATGTGTTCTCCTCTGCCCCCCATGTATTCCC
CTCTGCCCCCCATGTGTTCCCCTCTGCCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCTCCTCTGCCCCCCATGTG
TTCTCCTCTGCCCCCCATGTATTCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCCCCATGTATTCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCCCCAT
GTATTCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCCCCCTCTGCCC
CCATGTGTTCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCTCCATGTGTTCCCCTCTGCCCCCATGTGTTCCCCTCTGCCCCCCATGTGTTCTCCTCTGC
CCCCCATGTGTTCTCCTCTGCCCCCCATGTATTCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCCCCTCTGCCCTCCATGTGTTCCCCT
CTGCCCCCATGTGTTCCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCC
CCTCTGCCCCCCATGTGTTCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCCCCATGTGTTCCCCTCTGCCCTCCATGTGTTCCCCTCTGCCCCCATGTGT
TCCCCCTCTGCCCTCCATGTGTTCTCCTCTGCCCCCCATGTGTTCCCCTCTGCCCCCATGTGTTCTCCTCTGCCCCCCATATGTTCCCCTCTGCCCCCAT
GTGTTCTCCTCTGCCCCCCATGTGTTCCCCTCTGCCCCCCATGTGTTCCCCTCTGCCCCCATGTGTTCTCATCTGCCCCCCGTGTTCTCTTCTGCCCCCC
ATGTGTTCTCTGCACCCCATGTATTCTCTGCCCCCCCATGTATTCTCCTCTGCGCCCCCCAATGTGTTCTCCTCTGCGCCCCCCCAGTGTGTTCTCCTCT
GCCCCCCATGTGTTCTCCTCTGCCCCCCCATGTGTTCTCCGACCCCATGGAAATCTTTGATTCTCCTCATTATGCAGTCTGTGGGTAATTTGGAGTGAAT
GGGCTCACATCTCTAGCAGGGGTGTCTGAGCACGTGTCCCTCCCACAGAGGCCTGGCCTCTCCAGCCAGCTGCCTGGGATGGAGGTGAAGTCCACTAAAT
TAGGTCACCTTACTCTTACACACCTGAGGCTCACATGGTCCACAAGCATTCCATTTTTGTCTAGACAGTGCCAGGCCTTTGGTTGCAAAGACAGCCCCAT
ATTCTGTCCCTGAGAAGCGGAGAAACACAGGTAAGTAATGATGACTGTAGAGTTCACCTGGCAGGGAGCTGCCTGAAGAAAGGAGCGTAGCTCATCCTAG
GAGCCTGCACAGATTGAGCTCCTGCAAAGCTGCTGGGATGGGGTGGCATCCCTGCAACAGATGGAGCAGACAGGAGAAGGAAACGGCAGACTGAAGGCAG
GCAGGACCAGCCCCAAAGTCCCTGTGCTGTGCTGAGGAGCACTCTGTGCAGGCGGATCCGTGGACCACCAGCAGCTCATCATACTGAGGCCTCCACGGGG
GCTGAGCACCAGGCCAAGCGCTTGAGCAGCACGATTGCAGTTCTCTCAGCAGTACTGAGAGGCAGGGACTGTTACTTTCCCCGTTCACAGATTAGGAGAC
TGATACTCAGAGCAGCTGAGCCGTGGCGTGCCAAAAAGTCAAGTCACTCATGAAGGGTGGAGGCAAGAATTTTGAGCCCTGACATCAGGGTTCAGCCATG
GAGCTCCTGGCCACAACCCTCTGCTGCCTCTTGGCTGCTGCTGGTCAAAGCTGGCCTGTCCCGGCCCTCTACCATTAGGTCAGCACCAGGGAGGGGTGAA
CCATGAAGGGCAATGAAGTTCCGGATTCGGAAATTAAGGCATTTGCCAGAGGGCCCCACAGCGAGCATTTCTCATAACATGTCATGGACAGCCACTGTGC
ACTTGGGAGCTAGAGGTGGAGCTGGCACACAGGGTGACTTGGTGCACGTACAATGTGAGTGACTGAGAAGAAAGCAGAGTGTGCATGTCTGTGTGTGAGC
ACAGCAGCCCGTACACAAACACTTGAGCTCCTGAACACCAGAATTAAAGCTCAGATAAACAGCTGTTTTGCAAAATCTTACCACATAGCAAACCCTGGTC
TGAAGCTCAGGAGGCCAAAACTTTCACCTTCTGCAAAACCGCCAGGGGAGAAGCCTTATTTGGGTTCACTCTTCAACAGAACTTAAAACTTTATAGCTCT
GAGAAAATATGAGGGCACAAGATGGCAAATGTGTCACATGCACACTGGCCTAAAATATATTAGGGCCAGGTTTTCACATTTTGGCAGCATCACCTGAGGT
CCCCAGTGCCGACGGATTCGCAAGTCTCAGGAAGTGCTTGAGAATCTGCATTTAGCCAGCGTCCCTGGGTGGGGTACTCAGGTCGCTCCTGGGCCACCTT
GAATCCCTGAGACTCTGGAACTGACACCACAAGGGAGGATTACCTGGAATCCATACAGGGGCACCTTCTAATAGTGGAGAGAACCCTCATCCTGGGCTCG
GTACTTACAGAACTACAGCTCTTTTTCCTGCTATGTTAAGATGCAGTGAAAAGACCACAGAAGCCAGGTAAAGTGGCTCACGCCTGTAATCCCAGCACTT
TGGGAAGCTGAGGCGGAAGGCTCACTTGACCCCAGCATTTGAGACCAGCCTAGGCAACATGGTGAGACCTCATCTCTATGGAAAACTTAAAATTAGCCGA
CGTTCTGGTGCACACCTGTGATCCCAGCTACTCAGGAGGCTGAAGTGGGAGGATTGCTTGAGCCTAGGAAGTCAAGGCTG


SNP Information

Context             (SEQ ID NO:27510):
TTTTTTCTTTAAAGAGTTCTCTTCTTACCCCCAGCCATCAAAAAATTAAAATACCATAAGCAAATGGACACATGCTCCTCTGGAATTTATTTTTGGAATC
R
ATGGGGCAAATAGGGAAAAGGCCTTCCTACCACTTGCCCCAAAATTGGGGAGGAGAGGAGTAGGGAAGGCATAAGAAACATGGGAATCGAAACAAGGACA
Celera SNP ID:            hCV2059693
SNP Position Genomic:     174741
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27511):
GGGTTTAAAGTGAATTTTAAGCATTTTAGCATCCACTTTGAGGTTTTCTTTTCATAGAAGGAACTCGTGAGAAATAACTTGTTATTAGCTAAAATAAAAG
R
GGACAGATTTAAAAGGAGTAGAAAATAGAAGATTGTTTAAAGCTTGTTGGGAGCAAATAAAGATTTTGGGGAAAATCCCAAGGGAAATTCTCTGATATTT
Celera SNP ID:            hCV2059694
SNP Position Genomic:     174395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27512):
GCTGAGGTGCAGTGGTGCAATCATAGCTCACGGCAGCCTCAAACTCCTGAGCCCAAGTGAGAGATGAGTCAGAGCCAAGCCCTTCTGCTAACAGAGCTAT
K
TGTTGCTGAGGAAGTTCTCAGTTTCTCCTCTGAATGGTGCCAATATCCTCCAGTTGCTTAAGGCAGAGTGAGAGAAGCTGACTGTGGATACCCACATGAA
Celera SNP ID:            hCV244346
SNP Position Genomic:     68874
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27513):
AGTTTTAACAGGGGCTAGAACCTAAGTTGTCAGTGTGTGCACCACAGAGGTCTGTGGCAAGAAGAATGTGTGTGAGTCATTGGCCTGTCATTATTGTCTA
Y
GTTACTTTAGACACACTGAACTGCTCTGAACCTCGGTTTCCTCATCTGTGAAATATGCCCACTTTTCAAGGCAAATTTGTTGTAAAACAGATGTAAAGTG
Celera SNP ID:            hCV2059697
SNP Position Genomic:     169797
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27514):
CTCTGTTGACCTCCACACCATGTCCTGTCCATCATATTTAGGAATCCTCTGCCTTTTCCAGTTGTGGTTTTTTCCTCCTCACTAGTTTTAACAGGGGCTA
R
AACCTAAGTTGTCAGTGTGTGCACCACAGAGGTCTGTGGCAAGAAGAATGTGTGTGAGTCATTGGCCTGTCATTATTGTCTACGTTACTTTAGACACACT
Celera SNP ID:            hCV2059698
SNP Position Genomic:     169714
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27515):
GGGGGTCATTTACTCTTCAAAGATGGTGAAATGCCACCTTCTCCAGGACATTCTCCCTGACTCACCCAAGTAGGGCTTCTGGAACCCCTTTGCGTACATA
R
TGATCATCGTGTGTTGACATTGTGGTTTACTTGTGATGCACCAGCACTGTCACCCGGCATGTTTCTAGAAGGGAAGGATTCACCCTTTCTCATGTTCATA
Celera SNP ID:            hCV2059699
SNP Position Genomic:     168897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,16)      total(G,16|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27516):
TAATAGCTTTATTGACATATAATTCACATGCCATGCAAATCACCATTTAAATTGCAGAATTCAGTGGTTTTTAATATATTCAGAGTTGTGCAGCCATCGC
Y
GCAGTCAATTTTAGAACATTTTCATCACCGCCCTTCAAAAAAAACTCCATCCATACTCATTAGCAGCCACCCCCCATTTTCCCAATTCTCCTCCCCCAGC
Celera SNP ID:            hCV28953520
SNP Position Genomic:     9811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27517):
AATAGCTTTATTGACATATAATTCACATGCCATGCAAATCACCATTTAAATTGCAGAATTCAGTGGTTTTTAATATATTCAGAGTTGTGCAGCCATCGCT
R
CAGTCAATTTTAGAACATTTTCATCACCGCCCTTCAAAAAAAACTCCATCCATACTCATTAGCAGCCACCCCCCATTTTCCCAATTCTCCTCCCCCAGCC
Celera SNP ID:            hCV28953521
SNP Position Genomic:     9812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27518):
TTTTTAATATATTCAGAGTTGTGCAGCCATCGCTGCAGTCAATTTTAGAACATTTTCATCACCGCCCTTCAAAAAAAACTCCATCCATACTCATTAGCAG
Y
CACCCCCCATTTTCCCAATTCTCCTCCCCCAGCCCTAGATAACCTTTAAAGTACTTTCTGCACAATTACTTTTTCTCCTCCAAATGTAAACATAGTAAAT
Celera SNP ID:            hCV28953522
SNP Position Genomic:     9878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27519):
ACTTTCTGCACAATTACTTTTTCTCCTCCAAATGTAAACATAGTAAATGCTCATAACAGAAAATTCAGAAAGAACAAGAAAAGATAAAGAAGCAAATAAT
S
ATCATCCATAATTATCCAGCCAATGAGAGATAACCACTTTTGTCTCTCTATGCTGATATACTCATAGACACATAGTTTTTGCGAACAGTGACATCTTACA
Celera SNP ID:            hCV28953523
SNP Position Genomic:     10031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27520):
AATATAGATTTACATGATCATTTTTGCTGGCCATGGATAGATCATAATTTATTTGACTGGTTCTTTTTTAATGGACATTTAGGTTGTTTCTAGTTTTTGC
W
TGTACATACTTGTCCAAATACTTACTTTTGACAAATTCCCAGAGGTGGAATTTCAGGGACAAAGGGTGGGCACATTTTCAAGTGTTGTACATATTACCAA
Celera SNP ID:            hCV28953524
SNP Position Genomic:     10291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27521):
GTTTCACAGTGACCCCTAGAGAGGGAGCCCCAGGGAAGAGATCGGATGCCTCAGCCTCCCTCTCCCTCCCTCCTGTCTTCTGCTGGGGCTCCCTGTTGCT
R
AAACCACCCTGTAGCAGAGGAGGAGCAAGCCCTTGCACTAGTCCCTGAGGTCAATTTGGGGTGCAGAGTCAGACGGAAAAGGGAGGACCAGTGGAGGGGG
Celera SNP ID:            hCV28953525
SNP Position Genomic:     14118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27522):
TCAGACACAGACATAAGAGAGATATTCATTCTTTCACCTTCCATTTGTTTGCTTGTTCATTCAGTCAGCTTCCACTGAGTGCTCTAATAGGTCTGATACC
R
TGCTACCTGTTGGGGCCTTTTAGTCTGGATCTGAAGATTACAACAGGGTGATCTATACACCCTTGATTCGGCCCTCCAGCCAGATCAGTGACTAACACAA
Celera SNP ID:            hCV16036101
SNP Position Genomic:     189559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27523):
TCTCAACCAACCCCTTTGATGGGGGAAAAGTTCCCACATCAGTGGGTAAGCTGACCACAGGAGGGCTACATCAAGAAATATAAAGCAGTTCCCCCCATCC
Y
TTGCTTAACTGGCACTAAGAAGGGGTCAGCTTTTCTTGTCTTGTTGTCACTGTCATAGTTGTGAACCTACCTGATGTTCCATGGGGTAGGCAAGTGCTCG
Celera SNP ID:            hCV310706
SNP Position Genomic:     36051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27524):
TTCTGGACAAAAGAGAAAGGGCTTTCTCAGAAACCTCCAGCCTCATATCTTATTGACCCCAATTGGGTTACATATTCCTTCTAAAGTAATTAGTGGCAGA
Y
GATGGGGATGGTTTTAAGCCAGTGAGGCCCACACCTGGGACTGTGGGCACATGTACTTCATGGGAAGGGAGATCCCAGTTGAAATCAGCAATGAGGAGCG
Celera SNP ID:            hCV28953526
SNP Position Genomic:     14484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27525):
TAATGTGCTGTTTCCTGATCTGGGTGATGTTTCATTAGTGTAAAAGTTCCTTGCATGACACACTTATGACATAGATAATTTTGTGTATGTATCTTATATG
K
CAATAAAAACATGTCATGTAGCTGAAAAGTGGTGGAACATGAGTGAAACCTACACTCGCCTGATTCCAAAGCCTGTGCTCTTAGCTGTAACACAAGGCCA
Celera SNP ID:            hCV310707
SNP Position Genomic:     35555
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27526):
TATAGTATAACTCAATCCACAAAATGTAATTTAATAAAAGCTTATATATATATAAGGATATATATATATATATATATATATATATATATATATATATATA
W
GAATGTGTATATTCAGGAAGAAGATTTTGAATTTTCTTTATCCTTCCTGACTTCAAGCTATATTTTTCTTTAAATATGTTCTAAAATTTACTACATACTT
Celera SNP ID:            hCV16189359
SNP Position Genomic:     176972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|-,5)      total(A,2|-,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27527):
TAATGGACATTTAGGTTGTTTCTAGTTTTTGCATGTACATACTTGTCCAAATACTTACTTTTGACAAATTCCCAGAGGTGGAATTTCAGGGACAAAGGGT
R
GGCACATTTTCAAGTGTTGTACATATTACCAAGCCACCCTCCAGAAAGGTTTACCAATCTGTATTTCTATGAGCAATTTTGCAAGTATACATTTCTTGCC
Celera SNP ID:            hCV508446
SNP Position Genomic:     10359
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27528):
GTAGATTGAGGTGAGGCAGAGAAGGGCTTTATGAGCCATGGTTGGGGGTTCCACTTGATTCTGTTTTAAAGTCAGAGAGTGGCATGACTAGACATATTTA
R
AAACACTCTGCAATGGTGCGGAAGATGGATGGGTGGAGGATGAACTGCTAGAGGCTGTGGAAGTACCTGGCTGGGGCATGATTAAGTCCTAAAGTAAGAC
Celera SNP ID:            hCV16036108
SNP Position Genomic:     184509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27529):
TTAATTGGGGAAGGGGGGCAGTGAAACTTTCTTATTGGGTGATAAAACCCAATCTGAAAGGTTGAACAAGAGTTTGTAAAATTGTTAAGAAGATGATGGA
R
AAAATGGTGAGAGGCAGAAGTATTGTTCAGAAAAGAGAAAATTTTAGCTACTAGAATTAGCATCTCCAGAGTCATAAAGGCCAGAAAGGAGCCTGGCATG
Celera SNP ID:            hCV16036109
SNP Position Genomic:     184218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27530):
AGCCTCAGTCCTCAGTCTCCCAGGCTCAGGTGATCCTCCTGTCGCAGCCTTGCAAGTAGCTAGTGCTATAAGCACGCATCACCACGCCCAGCTAATTTTC
R
TTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTCAGTAGCCATGAGGTCTTGCTGTTGTTACCCAGGCTGGCCTCAAACTCCTGAGCTCAAGCCATCCTCCC
Celera SNP ID:            hCV11592843
SNP Position Genomic:     302086
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27531):
ATGCAGTAGTTTGAGAGTAACAAACTAAGGCAGATCAGTCTGTGTCAAGCCAGACCATGGCTGCCTAGACAGCTGTGAACTCCTGAGAAGCCTTTCCAGC
R
TCACCTTCTCCTCTTCCAAGAAGCCTTCTTTTCCGTGCCACACAAAAGAGACTATGGTGGTCGGGCGTGGTGTCTCATGCCTGTAATCCCAGCACTGTGG
Celera SNP ID:            hCV7686256
SNP Position Genomic:     325815
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27532):
AGCTGACGTGTGAAGGACAGACTGGCGGGGAGTGTGGCGGGGCCTGGGTGCCTATGAAAACAGACAGAGGAGAAGCTGTTAGAATAGATCCACTGAGCGC
Y
GAAGGTAAACTGGACAAAGGTGGTAGCAATGAAGATAATGAAATGTGGTTGACTTCCCAATGTATTTTGAAGGGAGAGCCAACAGGATTTGCTGATCAGT
Celera SNP ID:            hCV7686185
SNP Position Genomic:     312548
SNP Source:               Celera
Population(Allele,Count): no_pop(T,8|C,8)   total(C,8|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27533):
GTAAAGAAGAAGGAAGAAGTACCTCCCACTCTCAGGGCTCCAGGGAAAGAGGACACAGTATAATGTGCCCCTGGGGCCACTAGGGAGTATTCCTGGAGGA
R
CAGGAAAGAGAAGTGCTGTTCACAGCTTCAGAGAGAGGATTAGGGAAGTCTTCAATGCACTCTTCCAGTTAGGAGCAGAACTCCTCAAGGATAAGGGCTG
Celera SNP ID:            hCV7686258
SNP Position Genomic:     326888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27534):
CCCTGGCCAGTACTTCTAGAAGAAAGTATGTGATTTAGCTCTTATTTGAGGATGGTTTATCAATTAGTAGTTAAATTACCTCCTCAGCAAGGCTAGCATT
Y
TGAATACAGTATGTTCAATTTGCATTTGGTTAGATGGTGTCAGATTCTTACTTCCTTCTGTGAAGCATGCTTTAGAACAAACTGTGCTTCTAGTAGTTAA
Celera SNP ID:            hCV176468
SNP Position Genomic:     278989
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27535):
AAGTAAAACTAATGAGTAAAGACTTAATAAAATGGATAAACTGAGGCTTTAAACTATTCCTGAAGGTTGAATAGTTTGATTGGTGGATTGAGTGTTTGAT
R
TTTAGGATGACACTGGTTTTGGCTTAGTGTATACAGGGATGCCTCACCTATGTTAGCAGGCTCTTGTGAGAGTAAGATGGATGCAAAACTACTTGCAGAG
Celera SNP ID:            hCV176469
SNP Position Genomic:     278723
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27536):
ACTGGAAATTTAAGGCGGATGTGATGATGATGAGTCTAACAAAAAGCTGTCCTCATCACATACCCAGTCCTCCACAAGGTTTTTGTGGATACAGTCAGTG
M
AATACCCACTCTTAGGCCATCTAGATTAGTTCCTCACAGATTCTGGGGATTTCCTACATCTGATGAGTTTCTGATTGCATGTCCTGAAATGGCACCATTT
Celera SNP ID:            hCV16189360
SNP Position Genomic:     149732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27537):
GAATTCCAGTTAACATTCAAAGGCTACTTTCTTCATACTTGATAATTATTTTCTACCTCAAGCATTCACTTGAGGAGAGAGTAGTGAATAAACCTTCTGT
Y
TAACCTATCTGAAATTCCACAGGTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTC
Celera SNP ID:            hCV16036110
SNP Position Genomic:     171229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27538):
CCCTGGTATGCAGCTCCTGCGCTGCCCAGGCTGGGAGGGCCACCCCAGGCTTTTTCCCTGCCAGAACCACAACATCCACAGTGCCCAAAATAGCCCCAGC
R
TTACATTACTGAAGTCCTGCTTCTGTGATGAATCCAGCCATCTGTCTCAGGAGACTTCTAAGGCAGGCTTTTGATAGCAAAACAAATAGTCCTGTGGACA
Celera SNP ID:            hCV7686400
SNP Position Genomic:     347800
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27539):
ATTTTTTAAGGTATATTTATATCTATTTAGGTATAAGTGAATGAATTTCCAGGACATTTTTTCTGGGCTAAGTGGAGAGATTGCCTTGCTGAGTACTGTT
K
GGGGAGATATTCTCAAACCACCTTCATAGTTTAAGAATATATCGATTTCCCATAAGGGAGCTTCAGTGAGAAGAGAATGTCAGTTCCTGGGAGAGTCTCA
Celera SNP ID:            hCV7686330
SNP Position Genomic:     335853
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27540):
CTGCTCCTACCAGTTCTGGGCTGGACACTTCCTGAGTTTCTCTCTAGAGAGAGGGCCTCACCCAACATCCCCTTGTATAGACTACTTACGGGAAGATTTT
Y
TCAAGGAGAAAATATATCAGTCACAACTAAGTTCCCTACTCTTGTGAAGGAAAATATTCTACCCAATGGGCAAAGGATATTCCACCCTGACCACAATGCT
Celera SNP ID:            hCV16036117
SNP Position Genomic:     165925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27541):
TTAAAAGGGATTTGTTCTTTAGGGCCCCCAAATTTTCAAGACGCCCTACACATTCGGTTGGCCATTTTAATCTCTTCTCAGGGATGGGTTTTGTCCATTA
R
AACCTCTGTCCTCCGTGCCAGTGAACTGGAAATTTAAGGCGGATGTGATGATGATGAGTCTAACAAAAAGCTGTCCTCATCACATACCCAGTCCTCCACA
Celera SNP ID:            hCV16036118
SNP Position Genomic:     149607
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27542):
GGAAGTCAGGTGGTTCCACCTCCTAATAATGGCACAGATAGCAAAGATGAGCACTAATAACCTGGAGTTGCTTGTGACTTCTGTGGAAGAGTAAAAAATT
R
AAATGCTTATACATGAAAACAGACTCATTTGCAAACAATGACCACTGATATGTCCTGTGATTTTTCTCTGAAGTATTATTTGCGTTGGTAATTTTTGACC
Celera SNP ID:            hCV176470
SNP Position Genomic:     277515
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27543):
ATTATCCTGTATGCAAGCTTTACTTAGAATTGCAGAAAGAATGAGACATCCTTAGTGGTAAACATTAATGAAATCTACGAATAGATACTCTCAACAACAA
Y
GCATATGCATATCTGTTGACATGGAAAGACAGTCGTGTTGTATTAACTGGAAAACAGCATGATATAAAACAACACAGAAAGGATGATCCCATTTTATGTA
Celera SNP ID:            hCV16036119
SNP Position Genomic:     131910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27544):
AGGATTATGTAACAATTTTTTTCTGTTAATTATCATGGACATGTTAGGATTTGATTATTTGGAGAGGACTAGCATGCTTAATTAGCGTTCAGAATTTACA
R
TTTATAACAGGGCTCTCTTTGCAGTGTACTCATTTTTGTTACACTGGAGACTTCTAAAAAAGCAAAAAGTTGCCTTGATTATCAATGAGGAATCAAATGC
Celera SNP ID:            hCV7685390
SNP Position Genomic:     96244
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27545):
CCAGCTACCCATCTGATATCAGAAATCCTGTCTACAGACTTGGATCTGTTTGTAATTATGATTGAGGCTGTCTAACAGTTATTCATTTCTTCAGCAATCT
T
TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACTGAGTCTCGCTCTTTCACCCAGGCTGGAGTGCAGTGGTGCAGTCTTGGCTCACTGTAACC
Celera SNP ID:            hCV26209567
SNP Position Genomic:     282320
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27546):
TCAATAAAAGGGAGCGTGATATAGTGGAAAGGAACAGGTTGGTATCACATACTCCTGGGTTGGAGTTTTTTGTTTTTTTTTTTGTTTGTTTGTTTGTTTG
T
TTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGACTGCGGACTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCTTCCCGGGTTCACGCCATT
Celera SNP ID:            hCV26209568
SNP Position Genomic:     300054
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27547):
ACGTGAATCACCTAGTGCTGGCCCAGAGTATCATCTGTGATTTTTGCCCTGAATAGTGACCTTGACTGAGGCTCTCTAGCTAAGTCACCTGACTGCCAGG
K
TGTGGAAAGGGAAGCAGAGGAAATCCTTGTTGTGCCTCTGGCATTCAGGGGTGGATGAGTTAATTGTTAAAGAATCAGCCCTAAGTCTCTTGAATCCTGG
Celera SNP ID:            hCV7686269
SNP Position Genomic:     327689
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27548):
CCCTTCAAGTGATATGTAAGTATTTCTGATATATTGAACTTTTTTAAACCATTCTATAATTGTTTTTCTACCCTTCCAAAAAACTTCTTTTTTTTTTTTT
K
GCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAAACGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACACGGT
Celera SNP ID:            hCV26209569
SNP Position Genomic:     309797
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3|G,3)   total(G,3|T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27549):
AGAGAACCCAGGAGGGGGTCCCTCTGGCCTGGGATTGTCACAGGAGCTCTCTCTAAAAAGGTATAATGTGCTATCTAAGAATACATTATTACATTTACTG
W
ATTGGACTGAAATGACCTGTTAGATATCTATTGCCACTGACATACTCTGAGTGCCTTGAAGGCGGGAACCATGCATGCATTGGTCAGCCCTGTGATAGTG
Celera SNP ID:            hCV28976267
SNP Position Genomic:     41945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27550):
GGGGTTCTGGTGATCAGCCTGGTAGGGGACCATGTGTGAGGACTGTGAGTGCTTCCTGTTTGAGAGAACCCAGGAGGGGGTCCCTCTGGCCTGGGATTGT
Y
ACAGGAGCTCTCTCTAAAAAGGTATAATGTGCTATCTAAGAATACATTATTACATTTACTGTATTGGACTGAAATGACCTGTTAGATATCTATTGCCACT
Celera SNP ID:            hCV28976268
SNP Position Genomic:     41883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27551):
TCACTCCTTCGACAGATATTTATTGAGCGTCTATGTACAGATGCTGCCGCTCCCCTGCTCATGTCTTTGAGTGCTCCCCGGAAGGCACTGCAGACAGTGC
Y
CATTCACACAGAGGGCTTCCTGCATCTCAGCCTGAGACTATGCCCTGGTTGTGTCTGGGCAGTTAGGGATGGAAGGTGGCAGGTAAATGCCCCAGATTCC
Celera SNP ID:            hCV149947
SNP Position Genomic:     26336
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27552):
TGTGGTGAGTCCCAGGCATCTGCAGTCTTAAAAACTATTCCACAAATGATTTTGACTCTCAAGGTTGATATATAAGTTACAGTCTTTCCCCTCAAGAAGT
Y
TGCAAACCAGATGAGAAGATGGGACAAGCAGTGGCATGAGGCAGAACGTAAGTGCTATAGATTAGGCGCTCCCAGGTCTGGCTCCCCCTGCACAACTTTG
Celera SNP ID:            hCV28976269
SNP Position Genomic:     41613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27553):
CTTTCTGTCGCTGGTGGCAGCGGGAAATGAGAGGTTGTACAGAAGACCGTGGGGGTTGACAGACATTGTTCACTCACTCCTTCGACAGATATTTATTGAG
M
GTCTATGTACAGATGCTGCCGCTCCCCTGCTCATGTCTTTGAGTGCTCCCCGGAAGGCACTGCAGACAGTGCCCATTCACACAGAGGGCTTCCTGCATCT
Celera SNP ID:            hCV149948
SNP Position Genomic:     26263
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27554):
AATCTCACCCTTTTACCAACCTGTGGCATTATTTTCTTGCTGTTGATGCCCAAGCCTTTCCTTATTTCCTCATACAAACTCTGATGTGAGTCCTGACTGG
S
TTAGCTATTTGTGATTGTCCCTATTGTAAAGATATGTAAAGTATGGTCTGGGGTTCCCTGTGGGAAGTCCCAGGATCCTTCCAGGGGTTCTGAGAGATCA
Celera SNP ID:            hCV8340534
SNP Position Genomic:     96641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27555):
ATGGCATCAGGAATTCCTGTCCTGACTGACAAACTGTAAGTCGTAGAACAGAATTTCAGTGGAAAAGCAGAAACGTGGGTGGTAACAAATCTGATGCTTG
R
TGGTAATGAATTCTGGTTCACTTTAGCAGGCAGGTGCTTTAAATCTTTCTGTCGCTGGTGGCAGCGGGAAATGAGAGGTTGTACAGAAGACCGTGGGGGT
Celera SNP ID:            hCV149949
SNP Position Genomic:     26118
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27556):
AGCAGGAATCATTGCCTTGAGTTGATTGATCACTGAATTTATTCAGCAAACATTTATCTTGGGTGATATGATTGTTTTCACAGGGCTGTTTCTGAAACTT
Y
GTTTTGCATTATCTTAATCCCAGGTGTCTATCTCTGGTAGGCTGATGAGACAGTTTGGAGTTGAGTAGTCTTCATTGCATGCAGCCTGGTCTTATTCTGG
Celera SNP ID:            hCV8340535
SNP Position Genomic:     97599
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27557):
TGTACAAAAATGGAACATCATGGGGAGGTGGTCAGGCCAGGTACCGCCTCCTCTGAGGAGGTGCTGATTGATGAGAGTTCTGCAGGGAGTGAGCAGGGAG
S
TCTCCGAGGGCCTGCAGGAGTGTGTGAGCAGCAGGAGGGACCAGTGCCCCTCCTCAGCCAAAGGAACAACTCAGAGTGACAGGAGCTGAGTGCGAGAAGG
Celera SNP ID:            hCV402207
SNP Position Genomic:     292334
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27558):
GAGTGCAATGGCGTGACTTTGGCTTACAGCAGCCTCCACCTGTCAGGCTCAAGTGATTCTCCTGCCTTAGCCTCCTGAGTAGCTGGGATTACAGGCATGC
R
CCGTCATGCTTAGCTAAGTTTTGTATTTTCAGTAGAGACAACGGGGTTTCGCCACGTTGGCCAGGCTGGTCTTGAACCCCAGGCCTCAGGTGATCCGCCT
Celera SNP ID:            hCV402208
SNP Position Genomic:     294127
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27559):
TTAATTTCCACTGAGCCCACCTGCAGTTGACAAGGCATAGCAGTGTCAGATCTGACCAGCAATAGAATAGAATCTAGGATTTGTACATTGAACTAAACCA
R
TGCTTGACTGTGAGTACACAGCTTTATCCCCTTGGAGAGATGTTTCTTAGTATATTCCCATTTCTGTCTTAGATCTACTGAATTATAGTTGTTGGTATGA
Celera SNP ID:            hCV402209
SNP Position Genomic:     297032
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27560):
ATTTTTTTTTTTTTTTAACCACAGATGGCATAAAATTCATCTCCAGAGAGACTTCTAACTAAACCTGAGTATGAATTTTTATCTCTCAGTTTCTTATGCA
R
TTTTTCACTGCATACCTACATAGCCTTCTTTTGGAAGTTGTTTTATTGACTTTTAAATTTTGCTTTTGTGTGTTTTACTTGCTGCTTCTCTTGTCTTCTC
Celera SNP ID:            hCV8340539
SNP Position Genomic:     111493
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27561):
GGAGGATTGGATTGGCTCCACTTGGGTCAGGAGACCACCCTTGCTCCAGTCAGCTTTGGCCAGGATGAGGGGGTTATGTGATGGGTGGGGCTAAGTCTTC
S
TCTTCAGCCTGGGGGTGATGGTGGTCCTCAGAGGAGAGTAGGAGGATAGGGAAGCACACCGTTTATACCCAGATCACACAGCAAAGCTGGGACTAGATTC
Celera SNP ID:            hCV295649
SNP Position Genomic:     86087
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27562):
ATGTACTTCAGGTGGTCCTGGTGTCTAAAACCTACTCTGCCATTTGATACTGTGAGAACTTGAGCAGATTACTGTGCCCTGAGCCTTCTTTTCTTCATTT
R
GAAAATAGCAAATAATTCTGCCTGGCAAATTTGTTGTGAGGATTGAGGGAGATAACACCTGTTATTTTCTAGTACCATACCTGGCACATAGTAGGTTTTC
Celera SNP ID:            hCV16189370
SNP Position Genomic:     147594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27563):
CATAGAGATACCTACACACATTTAAACTGGGAAAGGAAACAATGATCCATCGTAAAGCTTACCCGTAAGACAAATTGCCTTTGGCAATATAAACCTTAAA
Y
GCTCATGAAGGCCTCACATGAGTTAAGTACAGTTTAACATGATTCTGCCATTTGAGCACCTACTATGTGCCTGGTTTTTGGTAGATGACTGAGGGAAGGG
Celera SNP ID:            hCV16189371
SNP Position Genomic:     103084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27564):
CTGGCCAGAGCTGAAACTTGGATTGAGGCCAGCAGCCGTTTCACAGTGACCCCTAGAGAGGGAGCCCCAGGGAAGAGATCGGATGCCTCAGCCTCCCTCT
Y
CCTCCCTCCTGTCTTCTGCTGGGGCTCCCTGTTGCTAAAACCACCCTGTAGCAGAGGAGGAGCAAGCCCTTGCACTAGTCCCTGAGGTCAATTTGGGGTG
Celera SNP ID:            hCV11543252
SNP Position Genomic:     14081
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27565):
TGGTGACCTTCGGCACCTTTTTTCTGAGCCTCAGTTTCCTCTCCTTTCCACTTGCGCTGCCAATACCCCCTGCAGAGTATGGTGGAGATTAAATTGGGAT
Y
TTATAGGCCAAGTATGTGGCATCTGAGAGGCCCTGAATAAAAGTCAGTTGTTCTACACTGAACCCTGTCCACATGTGGGATTCTCGGCAAGGGCTTATTG
Celera SNP ID:            hCV11543256
SNP Position Genomic:     6283
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27566):
AGACCGAGGCAGGTGGATCACTCGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCCACTAAAAATACAAAAATTAGCCAGAC
R
TGGTGGCGCATGCCTGTAATCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATCAGTGAACCTAGGAGGCAGAGGTTGCAGTGAGCTGAGACGATGCCGTT
Celera SNP ID:            hCV7686414
SNP Position Genomic:     349769
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:27567):
GTGGTATCTTTCTGGCATATTAGTTTTACTCAGAGATTTTGAGTGGGAGGAGTGGAAGAACTTAGACAATTTAAGTGACTAGTAATCATTTTATATTTAA
R
CAACCATGGAAATACAAAGGAGTGCAAACTATGCACAAGTGTTGGTGATAAAACAGAGTCTTTATTAGGTTTATGTAGTTAGAGTAGTGAGTGCTTTAGG
Celera SNP ID:            hCV16036125
SNP Position Genomic:     112045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27568):
AGTGTAAGATTATAAACTTGAATATCCCTTTTCACACTTAACACTGTTCCCTCCTGCTAATTCTCCCCACTTGTTTCTGATCAGTCAACCTAAGTGAAAC
R
TATTGGCCTCCTTAAGAATTACTGGCCTGGCCGGGCACTGTGACTCACGCCTGTAATCCCAGTACTTTGGGAGTCTGAGGTGGGTGGATCACCTGAGGTC
Celera SNP ID:            hCV7686342
SNP Position Genomic:     337764
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27569):
TAGCATTTTGTCTTTGACAATTTTTGTTTCCTAGCAGGGAACTGCATCTGCATCAGAAAGTCCCTAGATGGCGATAAAGATGAAATTGCTAGAGAACCTC
R
CCATTGTCTATTATCTATTATCCATTTATTTCCAAAAGGAAAGTTACACTTCCTGATACTGAGCATTTGTTGTTGTTTTCCTCATATGCCAAGCACAGGA
Celera SNP ID:            hCV7686343
SNP Position Genomic:     338861
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27570):
ACTGCCAGGGTGTGGAAAGGGAAGCAGAGGAAATCCTTGTTGTGCCTCTGGCATTCAGGGGTGGATGAGTTAATTGTTAAAGAATCAGCCCTAAGTCTCT
Y
GAATCCTGGTACTTTCTTCTTAATTATCAGTGTCATAGAAGGAGGTGGAAGGACAGATGGATAGCTAATGCTGTTTCCTGTGTGGAAGTCAGTTGACAGA
Celera SNP ID:            hCV7686270
SNP Position Genomic:     327780
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27571):
TGGAAGTCAGTTGACAGAGCAATGTGGCACATATCATGCCCGGGCACCAGCCTGTCCTGTAATCCTGGCCAGCCCTGCTGACTTACACTAGTGTCCCAGC
R
CACTCTACTCCACCATGCCTGTTTCTCCATCTGAATGTGGAGATAACAGCTCCTCCGTTCTACACTGAGTCCTTCTTTGTATAAATATACGGTTAATTAC
Celera SNP ID:            hCV7686271
SNP Position Genomic:     327963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,10)      total(G,4|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27572):
CCTTTGTGTTAGAGCCCTCTCAGAAGGAAGAAAACACTTCTTAGGCACTGTACATCCTTTAATTCAAAATATACCAATGTCTTATCCCCATTTTCAGATT
A
AAAAAAAAAAACTGAAGCTCATGACGATTAAGCAGTTTACTATGGTCACACAGCTGGGGTGCTGTAGAACTAAAAGATTTAATCCAAAGTTCATTTACTG
Celera SNP ID:            hCV26209570
SNP Position Genomic:     313910
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27573):
GGCAGGAGAATTGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATAGCGAGACCCGATCCTTTTAAAAATTTTACAAAATAAATAAAAAATAGAG
A
GTTATATCAGACGACCAAAATCCTTTCCGTGAAGCTCTGAAAACTTTTAATTGGTCTTTCAGAATGTGTTTAACTTCTTAAATTTTTAAATTTATTCATA
Celera SNP ID:            hCV26209571
SNP Position Genomic:     314630
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27574):
GCAGGAGAATTGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATAGCGAGACCCGATCCTTTTAAAAATTTTACAAAATAAATAAAAAATAGAGA
G
TTATATCAGACGACCAAAATCCTTTCCGTGAAGCTCTGAAAACTTTTAATTGGTCTTTCAGAATGTGTTTAACTTCTTAAATTTTTAAATTTATTCATAT
Celera SNP ID:            hCV26209572
SNP Position Genomic:     314631
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27575):
CAGGAGAATTGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATAGCGAGACCCGATCCTTTTAAAAATTTTACAAAATAAATAAAAAATAGAGAG
T
TATATCAGACGACCAAAATCCTTTCCGTGAAGCTCTGAAAACTTTTAATTGGTCTTTCAGAATGTGTTTAACTTCTTAAATTTTTAAATTTATTCATATG
Celera SNP ID:            hCV26209573
SNP Position Genomic:     314632
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27576):
AGGAGAATTGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATAGCGAGACCCGATCCTTTTAAAAATTTTACAAAATAAATAAAAAATAGAGAGT
T
ATATCAGACGACCAAAATCCTTTCCGTGAAGCTCTGAAAACTTTTAATTGGTCTTTCAGAATGTGTTTAACTTCTTAAATTTTTAAATTTATTCATATGC
Celera SNP ID:            hCV26209574
SNP Position Genomic:     314633
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27577):
GGATTTTTTTGGGGGGGTTGGATTTTTTGGTTTGGGGAAGTTATTTTGTAATTATTATTATGTATCATACTGTATCGTCGCATGTCCCAGAGTGAATCAG
W
TACTATATCTAGTTGTGTTTGACTTCCTCCTTAGGATCCGGAAAGTATGGCAGAGGAGGAAGTGTTCAGTCAAGAATGGGATTCTGACCATCTCACATGC
Celera SNP ID:            hCV26209575
SNP Position Genomic:     280890
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27578):
GGCAGGAGGATTGCTTGAGCCCAGGAGTTTGAGGCTGCAGTGAGCTATGATTGTACTACTGCACTCTTGACCTGAATGACAGAGCAAGACCCTATATCTT
A
AAAAAAAAAAAAAAAAAAATTAACCTTCAAAACAAGTAATTAGTAAGTAAATAACAGTTGTTATTTATTGAACATAATCATGCACTGTATAATAACATTT
Celera SNP ID:            hCV26209576
SNP Position Genomic:     318934
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27579):
TCTAAAAACCAGGGGAACTGATGGTGTAAATCCCAGTCTATGTTTGAAGTTCTGAGAACCAGGAGCGCCAGTGTCCAAAAAAGAAGATGCATGTCCCAGC
Y
CAAGCAGAGAGCAAACTCACCCTTCCTGCTACTTTCTGTTCTATTAATATTATGCCTTCAATGGATTGGATGATGCCCACTCACGTTGGGAAGGGTACTC
Celera SNP ID:            hCV149950
SNP Position Genomic:     25338
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27580):
TTATTGTTAGTTATTTATCATGTGGTCTAAACCATGTGCAGAATATTCATAGAAAAAGATTAGAATAAGTAACACAGATGAATGCACATCCCTTTTCCCT
R
TTAGATGTCTTATTCAAAGGGACTTCCTTTTGTCTGTCAGCAAACATTGCACAGCTTCTCTGTATCAAGCACTCTGATAGTCTCTAAGGCAGCAGGTCTC
Celera SNP ID:            hCV28976270
SNP Position Genomic:     41334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27581):
GCAGGAGGATTGCTTGAGCCCAGGAGTTTGAGGCTGCAGTGAGCTATGATTGTACTACTGCACTCTTGACCTGAATGACAGAGCAAGACCCTATATCTTA
A
AAAAAAAAAAAAAAAAAATTAACCTTCAAAACAAGTAATTAGTAAGTAAATAACAGTTGTTATTTATTGAACATAATCATGCACTGTATAATAACATTTC
Celera SNP ID:            hCV26209577
SNP Position Genomic:     318935
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27582):
TTCTCTTTACTGAGAAAACTCTAGTGGTTTTGCTTGGAGTATTTAAATTGAATTAAGTACATTTGGGACTAGAATTGGCTTTTTTTTATTATTATTATTA
M
CTGAAATTGCACGAGTGCAATTGGGAAGCACTCATACAAAGAACATGAAAAAAGCAGTTTATGTAGACTATGGGAACATGAGCCTAAGTGTAAAAGATGG
Celera SNP ID:            hCV28976271
SNP Position Genomic:     69624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27583):
GAGAAAACTTACAAAGAGAATTTAGCAACTTGTCTAAAGTCTCCCAGCTAGTAAAGACAGTTTGGAGGATTAAACCCAGTTCTCACTGAGTTTTCCTTAT
A
AGCAGTTAACTACCTCTGAAAGTTCATTCATGCATTAATTGATTGCCTATGTATTGGACATTTCCTGTATCACAGGCAGGATGTAAGGAATGGCCAAAGA
Celera SNP ID:            hCV26209578
SNP Position Genomic:     320085
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27584):
GTGTGCCAAACTTTATACTGTTACAATTTTTAAATAGTAGGCAATTGTGCATAGGCATTCCTTGATTCTGTGATGCAAAGACAACATAATCTGTTGTAGA
Y
GGGAGTTTCTGAAGGTCTTTAATCCTATCCTTGAAATATAACTGGGAAAGGTGGAGTGGGAAACCCTTGGGAACCAGGATACTTGGCATTTGGCTCAGTT
Celera SNP ID:            hCV28976272
SNP Position Genomic:     67497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27585):
CCAAGATGGCACCACTGCACTTCAGCCCGGGCGACAGAATGAGACTCTATCTCAAAAATACATACATACATACATACATACATACATACATACATTTTTT
W
AAAAAAAAAAAAAAGAGAGACTATGGGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACGAGGTCAGGAG
Celera SNP ID:            hCV26209579
SNP Position Genomic:     326204
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27586):
ATCACTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGG
W
GACGGAGGTTGCAGTGAGCAGAGATCGCGCCACTGCACTCCAGCACTCCAGCCTGGGTGACACAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAGAACT
Celera SNP ID:            hCV154702
SNP Position Genomic:     27179
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27587):
CAGTACAACTAGGTGAGTACTGTGGGGCACAGTCCTCTTGCCCCAAATTAGGAGTGTCAGTTAAGTGATGGTGTGCCAAACTTTATACTGTTACAATTTT
W
AAATAGTAGGCAATTGTGCATAGGCATTCCTTGATTCTGTGATGCAAAGACAACATAATCTGTTGTAGACGGGAGTTTCTGAAGGTCTTTAATCCTATCC
Celera SNP ID:            hCV28976273
SNP Position Genomic:     67427
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27588):
ATGATGAAACCCCATCACTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATC
R
CTTGAACCTGGGTGACGGAGGTTGCAGTGAGCAGAGATCGCGCCACTGCACTCCAGCACTCCAGCCTGGGTGACACAGCGAGACTCTGTCTCAAAAAAAA
Celera SNP ID:            hCV154703
SNP Position Genomic:     27166
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27589):
CTTCTCCTGTAGTAGGGCAGTGTTGCAGTGATGAGACCATCAGCTGAAGGCCCCATTGCTTTGTCCTGCTGATCTTTTTTTCCATTGGCCACTCCATTTG
R
CATTTCCACTGACAATGTCTTATTTCTGAGATGAGGGGAAACGCTTTTTTAAGTGTCTAGTCTATATTTGAAGTTAGATGAACATGGACTGAACCCCAAC
Celera SNP ID:            hCV8340540
SNP Position Genomic:     114884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27590):
CACTTGACCATTATTGTAAGAGGAGCAGGTGAGCCAGGCCCTGAAGGAAGGAAACTGCCATGTGCCTTTCACTGGGGTGAACAGAGTCAATAAAAGGGAG
Y
GTGATATAGTGGAAAGGAACAGGTTGGTATCACATACTCCTGGGTTGGAGTTTTTTGTTTTTTTTTTTGTTTGTTTGTTTGTTTGTTTTTGAGACGGAGT
Celera SNP ID:            hCV402210
SNP Position Genomic:     299968
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27591):
CCTGTCCCATCAGTGGCACAGAATACATGCTATGTTCCTCTCTTATTTCTGGAGAGCCACAGAATTCTGCTCATACCCTTTTTGCCTTATACTCACTTCT
Y
TTCTCTCTCCCACTCGCTTACTTTTGTTATTGCTCACACACACAATCTTCTCTGGGGAATTTTACTCTTTTCCCATTTCAAAGGAGAAATGATAAAGGAT
Celera SNP ID:            hCV402211
SNP Position Genomic:     300728
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27592):
TTTCCCAGAAGATAATTCTCACTATGGGAAGCTGTAGCCAATGGAAAATAGCATGCAGTAGGCACTTAAGAGATGTTTGGAAGGCAGGTCCTATGACATT
R
TGTTCACACCCAGATGATATCACTGACAACCATTCATCCTGTCTGTTTCTATACCTGTCCCTGCCCCACCAGACTGTGAGCTCTCTATGGGCAATGACCT
Celera SNP ID:            hCV28027032
SNP Position Genomic:     23733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27593):
TGTCCTGCTGATCTTTTTTTCCATTGGCCACTCCATTTGACATTTCCACTGACAATGTCTTATTTCTGAGATGAGGGGAAACGCTTTTTTAAGTGTCTAG
K
CTATATTTGAAGTTAGATGAACATGGACTGAACCCCAACTCTATCACGTAGTAGTTTTAAGGCCTTGGGAAAGGGACCTAACTGTAAAAGGAGGTGATAA
Celera SNP ID:            hCV8340544
SNP Position Genomic:     114945
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27594):
GACAGCATAGGCTATTGTTATTTTAGACGTAAATTTCTCTACTTTTCAAAATTACCACCTATTTGGATACCTTTTCTTAGTTTTATAAAATATGGCCATT
R
GGGAAAACTTGAAAATTGAGCAAAATACAGAGAAGAGAATTTTAAAATGACCCATGATTCCACCACTCAGATAACTACAGATGGCATTTTGGTGCATTGC
Celera SNP ID:            hCV8340545
SNP Position Genomic:     122441
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;(G,-|A,-)   Caucasian(G,84)   African-American(G,84)   Asians(A,4|G,80)   total(G,248|A,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:27595):
TCCGACAGCACGAAGGTCCTCAGGTAGGTTCATGCCTGACACATTCACGAAACAACAAAAGGAGGTCATGTGGCCAAGGTGTAGAGCGTGTGAGGAAGAA
R
AGGTTGGAAAGGTGGCAGGAGCCAGATTATGCATGGCCTGCTGACTGCTGTCAAGACTTTGGCTTTTACTCTAAATAATAGGGAGTCTTTGGAGTTTTGT
Celera SNP ID:            hCV8340546
SNP Position Genomic:     128732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27596):
AAATGCTTATACATGAAAACAGACTCATTTGCAAACAATGACCACTGATATGTCCTGTGATTTTTCTCTGAAGTATTATTTGCGTTGGTAATTTTTGACC
S
TAGCTTTGGAATGCTCTTTATTACTTAAAGGATTATAAAAATAATTTTTTAAAACTTTATGGACCAGAGGCAATTATTGAGAGACAAAGGAGCAATTGCT
Celera SNP ID:            hCV26003820
SNP Position Genomic:     277616
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27597):
TAGCCAGACGTGGTGGCGCATGCCTGTAATCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATCAGTGAACCTAGGAGGCAGAGGTTGCAGTGAGCTGAGA
Y
GATGCCGTTGTACTCCAGCCTGGGCAACAAGAGCAAAACTCCATCTCAGAAAAAATAAAAATAAAAATAATGGTGTTACCAAGACATAGAAGGTGGGGTC
Celera SNP ID:            hCV7686424
SNP Position Genomic:     349860
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON;NONSENSE MUTATION


Context             (SEQ ID NO:27598):
TTGGGAGGCTGAGGCGGGAGGATCATTTGAGCCCAGGAGTTTAAGGCTGCAGTGAGCTATGATTATGCCACTGCACTCCCACCTGGGTGACAGAGCAAGA
M
CTTGTCTCTTAAAAAAAAAAAAAAAAAAGGCCACGTGTGGTGGCTCACACCTGTAATCCTAACACTTTGGGAGGCCAAGGTGGGAGGATCAGTTGGTCTC
Celera SNP ID:            hCV7686425
SNP Position Genomic:     351188
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27599):
ACAGTATGTTGCTCACAGTAAGTGCTCAGTAAACGGTCGTTGCTGTTAATAATGTTACTATCAGGGCGTCTTGATGGGTAATGAAGAGCACATTGATTTG
Y
GGTCAGGACTCCCAGGTACACCATTTCCCCACGGGACCTGCAGCCATTTATTCATTTAGTCTCATTTCCTTATCTTATGATGCCAGTCTCATGCTGTGAG
Celera SNP ID:            hCV7686426
SNP Position Genomic:     351936
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27600):
CATACATACATACATACATACATTTTTTAAAAAAAAAAAAAAAGAGAGACTATGGGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGG
Y
TGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTAAAACCCTGTCTCTACTAAAAATACAAACAAAAATTAGCCGGGTGT
Celera SNP ID:            hCV26209580
SNP Position Genomic:     326276
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27601):
CACTAGTGTCCCAGCACACTCTACTCCACCATGCCTGTTTCTCCATCTGAATGTGGAGATAACAGCTCCTCCGTTCTACACTGAGTCCTTCTTTGTATAA
W
TATACGGTTAATTACTTTTTAAAGTAATTAACTTAAGCTTTCCACTCTTTTAAGCTTTATACTATGAAAACCATTAGATCAGTTAGGAGGAATAAGTTCA
Celera SNP ID:            hCV7686281
SNP Position Genomic:     328048
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,9)      total(A,9|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27602):
GTTGTAGAAAGAAAAATTCTATTATATGAATCATTTCATGTTTCAGCTTGTGGCCCAGTGAAGGCTTAGCCTGTACTCTGTTCTTTCTCTGTTGATTTTG
Y
TGGTAGTGGTGTGTGATTTCTCCTTCAGTAGGTTCTGTGATGGTTATAAGGAGTTATTGTTTTAAGATGTGTGTGTGTGTTTGTTTTTCCCATTGTACCT
Celera SNP ID:            hCV7686354
SNP Position Genomic:     340915
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27603):
ACCATGCCTGTTTCTCCATCTGAATGTGGAGATAACAGCTCCTCCGTTCTACACTGAGTCCTTCTTTGTATAAATATACGGTTAATTACTTTTTAAAGTA
R
TTAACTTAAGCTTTCCACTCTTTTAAGCTTTATACTATGAAAACCATTAGATCAGTTAGGAGGAATAAGTTCAAGAGATCTGTTGTACAACCTGGTGCCT
Celera SNP ID:            hCV7686282
SNP Position Genomic:     328075
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27604):
AATAAGTAACAACATTGAATCAGTAATAAAAAGCCTCCCAACAAAGAAAACTCCAGGACCAGATGGCTTTATTACTTGAATTCTGCCAAATCTTTAAAAA
A
CAGACAGCTAGGCTGGATGTGGTGGCTCGTGCCTGTAATCCCAATGCTTTGGGAGGCCAAGTCAGGAGGCTCACTTGAGGCCAGAAGTTTGAGACCAATC
Celera SNP ID:            hCV26209581
SNP Position Genomic:     330713
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,6)   total(A,5|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27605):
TCAGCGCAACTTTAACATCTGTGCTGCTTCCCCATCGGGAAGCAAGTGATGATGATGCCAGTTCGCTGAGCTGGGCAAAACTTGCATTTTATTAAAGTCG
W
CAAGTATGTAAGCTTGTTAAAAAGCAATTATACAAAATAATATAGCCACCTAGACCAAAGCTTGACCCTAACTAAATGCCTCGGCCTCCCAAAGTGCTGG
Celera SNP ID:            hCV27966279
SNP Position Genomic:     59083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27606):
TATAAAATGGTGCAGTATTTGCATATAACCTACACGCATTCTCCTGTGTACTTTAAATCACCTCTAGATTACTTGTTATACCTACTACAATGTAAATGCT
R
TGTAAATGGTTGCTATACTATATTGTTTGTTTGTTGTTATTGTTGTTGGATTGTTATTTTTTATTGTGAGTTTCTTTTTTCTGAATATATTTAATCCAGG
Celera SNP ID:            hCV7686283
SNP Position Genomic:     328452
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27607):
ATAAGTAACAACATTGAATCAGTAATAAAAAGCCTCCCAACAAAGAAAACTCCAGGACCAGATGGCTTTATTACTTGAATTCTGCCAAATCTTTAAAAAA
C
AGACAGCTAGGCTGGATGTGGTGGCTCGTGCCTGTAATCCCAATGCTTTGGGAGGCCAAGTCAGGAGGCTCACTTGAGGCCAGAAGTTTGAGACCAATCT
Celera SNP ID:            hCV26209582
SNP Position Genomic:     330714
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|-,6)   total(C,5|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27608):
TAAGTAACAACATTGAATCAGTAATAAAAAGCCTCCCAACAAAGAAAACTCCAGGACCAGATGGCTTTATTACTTGAATTCTGCCAAATCTTTAAAAAAC
A
GACAGCTAGGCTGGATGTGGTGGCTCGTGCCTGTAATCCCAATGCTTTGGGAGGCCAAGTCAGGAGGCTCACTTGAGGCCAGAAGTTTGAGACCAATCTG
Celera SNP ID:            hCV26209583
SNP Position Genomic:     330715
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,6)   total(A,5|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27609):
ATGCAGAAGGCTGACCTCTCAACTCTGCATTGCTAACATAGTTGGAAGGGTTAGGAAGCCTTGTGATTTCTGGATGTAAAAGAAAAAGAAATGTGTTTTA
R
AAAAACAGTATTCAAGTTCTGCTGCGAAAATCCTTTCAAAATAATTGAGTCTATTTAAAATTCAACTGGTTGTTTCACAGCATTGACTATACTTCAGTTA
Celera SNP ID:            hCV27944421
SNP Position Genomic:     37126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27610):
ACTGTTCCAAAAAAATTGAAGACAAAGGAATTTTTCCTAACTCTTCCAATGAGGCCAGCATTGCCCTAATACCAAAACCAGACAAGGACACAACAAAAAA
W
GAAAACTACCAGCCAATATTCTTGTGGAACGTAGATGCAAAAAATCCTAACCAAATACTAACAAACTGAATCCAACAACACATCAAAAGATAATAAACCA
Celera SNP ID:            hCV26209584
SNP Position Genomic:     331156
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27611):
GTACTGTTTGGGGAGATATTCTCAAACCACCTTCATAGTTTAAGAATATATCGATTTCCCATAAGGGAGCTTCAGTGAGAAGAGAATGTCAGTTCCTGGG
R
GAGTCTCAGGAGATCGCTGCCACTTTTTGAGAGACTAAATTGTTGGGCCCAGGAATGTGGGACAAGAGCTTTGGCCTGAAAACTGCCCGTGGGCCTGCCA
Celera SNP ID:            hCV26209585
SNP Position Genomic:     335945
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2|-,4)   total(G,2|A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27612):
CAGATGGTTTGGTTTCTAGAGCAAAGGGTTTTTGGATTTCTCTTTTTTCTAGGTAATGCTTTACGTCCAGTTCTTTCTTCATTATTTAGAAAAGCCTTAA
T
TTTTTTTTTTTTTTTTTTTAAGAAAAGCGTCAGGCAGTTTGCTGACTAGAAGAAAAAGTTGTAGAAAGAAAAATTCTATTATATGAATCATTTCATGTTT
Celera SNP ID:            hCV26209586
SNP Position Genomic:     340757
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27613):
TTTCATCAAAAAGGCCTTTCCCCCAAATAACATTCCATGAAAGTCACAAGTTTCACATCAGCGTTTCATATCACAAATTAACCTCCTTTCCAAATTTCTC
T
TTAAGTTTTAATCCTCTTGTTTAAGTGGCTTTATTTCTTAAGGTTTGAAGTGCCTTTATTCACATTGTATAGACTCGAACATTCCTCAAATAAATTTACC
Celera SNP ID:            hCV26209587
SNP Position Genomic:     343416
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,8)   total(T,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27614):
AGGCAGGCTTTTGATAGCAAAACAAATAGTCCTGTGGACAGATTTGGGTTTTGTAGGGAATTTATGATTTTTGAAGTTGCATTTCATTGAACCTCTTTCC
T
TTTTTTTTTTTTTTTTTTTTTAAAGACAACGTCTTGTTCTGTCGCTTAGGCTGGAGTACAGTGGCACAATCATGGCTTATTGTAGCCTCAACCTCCCGGG
Celera SNP ID:            hCV26209588
SNP Position Genomic:     347961
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,7)   total(-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27615):
GGCAGGCTTTTGATAGCAAAACAAATAGTCCTGTGGACAGATTTGGGTTTTGTAGGGAATTTATGATTTTTGAAGTTGCATTTCATTGAACCTCTTTCCT
T
TTTTTTTTTTTTTTTTTTTTAAAGACAACGTCTTGTTCTGTCGCTTAGGCTGGAGTACAGTGGCACAATCATGGCTTATTGTAGCCTCAACCTCCCGGGC
Celera SNP ID:            hCV26209589
SNP Position Genomic:     347962
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27616):
TTTAATAGTTAAGAGGTGGGGGAAGGTAGCCTAATGGGTTATGCCAGCCACTTATCTTTAGGATAGTCTGGATAAAATATAAAGTACTATTTCTCATGTC
S
TCTGCTTATGCTGGGTCCCCATACACCATCTGAACTAATGGACTTTTTGGCATCATCTCCTTAAATGCATCATAGGGAATGAATTTCTCCACCAAGAAGC
Celera SNP ID:            hCV8340626
SNP Position Genomic:     132588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27617):
TCTAATAGGTGGGAACTCTTACCTCTCTCATCCACTTAGCCCCCCAAAAAAGACAGTTAAACTTGAAAGCTACCAGACTGTGAAAAAGTAAATAAGAACC
M
CTGGCCAGGGAGAGGGCTTCAGCCTTAGATGTTTACAAGGGCCTGAAGCAGAGAAAGAGATAGAAAATATGTAAAAGCAAATTTTACCTGCTTGGAAAGT
Celera SNP ID:            hCV8340627
SNP Position Genomic:     136827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27618):
ATATTGCTCTTGTCCTGCATAATGTAAGCTAACATTGGCAAAATTGATGGGGGAATGCTTCAAGGAAAGAATTTCGTTTAACAAACAGTAGTATAATTTT
R
TGGAGACTGCAAATGATTCTTAAACTGGAGTGCTATCAAGGAGCCTGAATGCCTCCCCTCTAAATGTAGTATATCATGCAACAATATAATTTTTTAAATA
Celera SNP ID:            hCV8340629
SNP Position Genomic:     164893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27619):
CTGTTTCTAATATTTTTTTTTTTAGGCTAGGCTGACAGCAGTGTTCTTTTCTTCCCTTTTTTCACTGAAATTGTATACTTGAGGAGATCTCTTACGGGCA
R
TTTTTATCCAGCCTTACCCTAAAGTGTTTTCTCTGGAGGTGCCATCCAAGGAAAGGACAGAGAGCCACTTCCAGACCCAAACTTCAGGGAAAAAGAGTCA
Celera SNP ID:            hCV7686437
SNP Position Genomic:     354370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27620):
AAACAAATAGTCCTGTGGACAGATTTGGGTTTTGTAGGGAATTTATGATTTTTGAAGTTGCATTTCATTGAACCTCTTTCCTTTTTTTTTTTTTTTTTTT
Y
TTAAAGACAACGTCTTGTTCTGTCGCTTAGGCTGGAGTACAGTGGCACAATCATGGCTTATTGTAGCCTCAACCTCCCGGGCCCAAGTGATCCTCCCATC
Celera SNP ID:            hCV26209590
SNP Position Genomic:     347980
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27621):
AGTCTCATGCTGTGAGGAAGGAAGGCTGGATGAATATAAAAGCATGTGGGCAATCGGTGGTGCTATTGAGCAGATGTGCAGTGTAGTGAGGATCAGTTAG
T
TTTTTTTTCAGCCCTGCCCTCTTCATCTGCCCTCCTGGTGCTCAGCCTCCTCAGCCAGCCCATTCCCAGTGCCACCTAGGCAGTATTATAGTCTTCTAGG
Celera SNP ID:            hCV26209591
SNP Position Genomic:     352121
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27622):
TCATGGTCACTTTTCTCCTTAACACCCTTTTGAGATTTCCTTTTGAGCTTCAGATAAATGCAAGCTCCCTATATCAAGGCCCACAGGGCCCTGCATGATC
R
GGCTCTTATCTCCTAGACCCTCTCCTGCCACTCTATCTTCAGGGCTGGCCTTCTTTCACTTCTTGGATACACCATCCTCTGCCTCCTGAGGGCCCTCCCA
Celera SNP ID:            hCV7686365
SNP Position Genomic:     342212
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27623):
CACTTGAACTCTGGAGTTCAAGGCTACAGTGAGCCATGATTGCACCACTGCACTCTAGCCTGGGTGACAGAGTGAGACTGTCTCAAAAAAAAAAAAAAAA
R
AGAGAATGAATGACGAGTCAGTAAGTGCCTGAGGGCCTGGCCCAACAGATGACCACTTATCCACCACCCTGCTAATGGTGTTCACATGCACATTCCACTT
Celera SNP ID:            hCV26209592
SNP Position Genomic:     353240
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3|-,4)   total(G,3|A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27624):
AATAATGATAGGCCAGCAAATTAGGAAACCTAGAGGAAATGGACAAATTCCTGGAAACAACCACCAAGATTGAACCAAGAAGAAATAGAAAACCTGAGCA
R
ATTAATAATAAGTAACAACATTGAATCAGTAATAAAAAGCCTCCCAACAAAGAAAACTCCAGGACCAGATGGCTTTATTACTTGAATTCTGCCAAATCTT
Celera SNP ID:            hCV7686293
SNP Position Genomic:     330606
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27625):
TATGGTGGCACATGCCTGTTGTACCAGCTCCTTGGGAGGCTCAGGCAGGAGGATCACTGAAGCCCATGTGGCAGAGGTTGCAATGAGCCGAGATCACACC
M
CCGTACCCCACCCTGGGCGACAGAGTGAGACCCCATCTCAAAAAAAAAAAAAAAAGTTTTACTTTGACCTAATGTTCTGTTGTTAACAGCTGTGACCTTA
Celera SNP ID:            hCV26209593
SNP Position Genomic:     287825
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27626):
ACGCTCTTATGTTCCCCTAAACCTCTCATCTCTCCTCAGCCCATGAGGATCAGGGCCTTTGAACTGTGAGAGATCAGGACTGGGAGGTAGACACCAGGCA
Y
GAGCAGGTAGTAAAAGAACAGCCCCTTAGCTCTCACCAGGCCTTACCTCTCCACCCCCAAAGCTGAACATGTCTGCCATCTTGAGGTACACCACATTCCC
Celera SNP ID:            hCV7686367
SNP Position Genomic:     344319
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27627):
TCAGGCAGGAGGATCACTGAAGCCCATGTGGCAGAGGTTGCAATGAGCCGAGATCACACCACCGTACCCCACCCTGGGCGACAGAGTGAGACCCCATCTC
A
AAAAAAAAAAAAAAAGTTTTACTTTGACCTAATGTTCTGTTGTTAACAGCTGTGACCTTAAGGCTGAGTTAACTTAACCTTTTGGTGCCTTATTTTCCAC
Celera SNP ID:            hCV26209594
SNP Position Genomic:     287865
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27628):
TGGCCAAGAGCCAGGACAGAAAGGAGCACACACCTTTCATCTTCTCTCTTTGACTACTTTTTGTTTTGTTGGTTGGTTTGGCTTTTTCTTTTCTTTTAAA
Y
GCAGTTAGCTGAGGCACAAGAATCGCTTGATCCCGGGAAGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGTGACAGAGCAAGAC
Celera SNP ID:            hCV26209595
SNP Position Genomic:     356043
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27629):
GTCATGGACTGCTTCTGTTCTGCATCTTCCCTTACTCCTTAACTCATCCAAACAGTCCCACAGCTTTACACCCATCTGGAAAGCTCCACATTTGTATTTG
T
TTTTTTTTTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCCCCGCAACCTCCGCCTCCCAGGTTCAAGCG
Celera SNP ID:            hCV26209596
SNP Position Genomic:     360309
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27630):
GTTATTCTGCCTGCTCTAGGTGCTCTGGGGAACTGAAGGGAACAAGCTCCCCCATCACAGTTCCTATTTAAAGCTGCCAGCAGCCCTTTGTTGCCATGAG
W
AAAGGGCCACATCCTTGGCTCAGTTCACAATATTCTTTGAAAGATCTTTTTCTTTTTTACCACTTCCTTGTACACCAGTAATTTTAGTCTTCATAGCTTC
Celera SNP ID:            hCV8340630
SNP Position Genomic:     168631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27631):
TGCCAGCAGCCCTTTGTTGCCATGAGAAAAGGGCCACATCCTTGGCTCAGTTCACAATATTCTTTGAAAGATCTTTTTCTTTTTTACCACTTCCTTGTAC
M
CCAGTAATTTTAGTCTTCATAGCTTCTCCTCCCATACTTTGCCTGTGTTCCTCCCTCTTTCTTAAGATGTTTTTCTTTTCCTTTGATTCTTGGGGGTCAT
Celera SNP ID:            hCV8340631
SNP Position Genomic:     168705
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,15)      total(A,15|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27632):
TCTACACCTAGTTGTAGTTTGTGTTCCTTCAGTAAAATTTGTGCATGGCCCATCATGGTCTCTTCTCTGTCAAATTCTCTTCTCTAGTTCAAATTCCTGA
S
AGGGTGGGATCTGACTGGCCCAGCTCATCTTTTTTTCCTCCAGCCACATCTTGGGTTGCTGGGAAGCCTTTGGGTCATGCTACCTTCCCTGGTTCAGTTA
Celera SNP ID:            hCV8340632
SNP Position Genomic:     170387
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,13)      total(G,13|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27633):
GTCTGGGTTTTAATTCTTTTAAGGAACTCTCACTGTGTTGTAACATGGAAGTGGTGTTTTCATGAGTATTTTTTTGGTCTTTAAATACCTTGTTGTACCT
R
TAATTATTATTTTCCCAAGAATGGGACTGAAATTGCATCAAGATGAACAAGCCATGGTGCTTGTGGGTGGGTGTGCTAACTCCGAACTTTAAAACTACAA
Celera SNP ID:            hCV8340633
SNP Position Genomic:     180937
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:27634):
ACTTAGGATTTATGTACTTTTCTGTAGGTATGTATATTATATACCAATAAAAATATATTTAAAGTATTATATACAAGGAGGTTCACTGAAGCCTTGATTG
Y
GATTTGGAAGAGCAGAAAATAAAAGGGATTTATTAAATAAACCATAGTATACATATAATAGACTACTACACACCCCTTTGAAAAAGAGAGAAACTCAAGT
Celera SNP ID:            hCV8340634
SNP Position Genomic:     198454
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27635):
AGGCATTTTGCATTCTTGTGGGTCCACCTCCTTGGGAGGTGAAAACAAATTAAAATAATGAGTTCCTTCATTATTTTAATAATGAAGGGTCAAGGAAGGG
R
TTTTTTTCCCCCAAAGGGAATATACTTACCCAGGAGAGCATTACTCCTTAAATTATGTGGGGATAAACTAGAGGGATTCAAAAGAATGCTGTTTAAAAAT
Celera SNP ID:            hCV8340635
SNP Position Genomic:     203197
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27636):
GCACCAGATGCTCATGCACTGTGCCACTAGCTGAGGATGCAAGGGTGTGCTTTTGCTTTTCAAAAGAGGTGCTGTAAAAAATGAGTGCATGGTTAAGATG
Y
GGGCCATGTGAATGTTCATTACAAGAACCTTAACTGTCTGGGTAAAACAGATGAAGTTGTAAGTACCACTGAAATTTCCCAGCCCTATTCTTGTATCCAT
Celera SNP ID:            hCV28009410
SNP Position Genomic:     108922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27637):
GGTGGTGATTAGAAGGCTGGCTAGGGCCTCATTTCGTTTCATTGGACTGCTGTGACACTTGTTTCCTTCATGGTATTTAGACTTCCTGGGTTATTTCCCA
R
TCCAGACTCATGTTCTGTTTCATGAGTGCCCATTGCACCCATGCACTTATTGAGGTGTGTTTGAAAGCAGAATTTAAAAATTTGATCTCAGTTATTGAAC
Celera SNP ID:            hCV8340636
SNP Position Genomic:     215842
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   African-American(A,84)   Asians(A,84)   total(A,168) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27638):
ATTAACCAAGCCGCAGCTTTGAAAGTCCAGCTCACTGAAAGAACTACAGCAGTGTCCATTGGGTAGGGATGCAGAAGTGAACCATAGGTAATCCCTGCCT
Y
TTGCGGTCTGGTGGTAGGAAAAGATCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTACATATATACACACATATATACACATATATACACATATAATAT
Celera SNP ID:            hCV8340637
SNP Position Genomic:     216116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27639):
TGAATTCTTTTTTCATAGGTCTCCAAAATCAGAAAAGGATATCAGATGAGGTAGGAGTCTTGGTGGTAAGGTGGGACCTCTTTGGCCTCAGACAGAAGGT
M
TCAGGAGTAGCTCCAGCACATGAGGGAGATGAAACCTGTGTGTCTTCTCGGTTGAGCTCGTGTGGCCTTTCTTTTCTGTTTTTCTGAGCCGCTCCTCTGA
Celera SNP ID:            hCV28009411
SNP Position Genomic:     215552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27640):
GTGAGTTAGAATATTTAGTGTACTCCTAACCTAACCTTTGGGACATGTGCAATAAATAATTGATACAGTTTATGCTTCCATTTTGAGAATTCGTAGTGAT
Y
GGTGTTCAAAGTAACTTTTCATTGTGGCAAATAATAGTTCAGACTCCTTTCTTCTTCTTTTTTGTTTTTAGATCATGTACAAAATGAAGAAAACTATGCA
Celera SNP ID:            hCV8340638
SNP Position Genomic:     218933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27641):
AAGTTTTCTACTCTTACAAAGGAACTGTCCACACTGCTGAAAAATCTGGTAAGACATTTCATATGTGAGTAAAAAGAATTACAGCCTTTCCAAAATATTA
Y
GTCATATAGAGAACATTTCAATAATCCTTCCCCCTCAATCCTTGGTCCTAGGGGTGAGAAAGAAAAAACAAAAAGCTTTTTAGTCCTAGGTAACTTCCAC
Celera SNP ID:            hCV8340639
SNP Position Genomic:     219203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27642):
GAGGCGAAAGATCACTTGAGCCCAGGAGGTTGAGGCTGCAATAAGCTCATGACTGCACGTCAGCCTGCATGACACAGTGAGACCCTGTCTCTAAAAAAAT
K
AAATTAATTTCATGTGTTCCTTTTAACTTTTTTCCTGTGGCTGCTGACAATTTGAAACTCCATGCATGGGTTGCACTGGGTTATATTTCTGTTGGCCAGC
Celera SNP ID:            hCV221672
SNP Position Genomic:     52955
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27643):
AAAGATTAGCCAGGGCTTTTTTAGTATTAGTGGTAGAAACCCAACTCAGACTAGCTTACACTAAAAAAGAAGTACAGTTGCTCACATTACTAGGAAGTCC
R
AGGGTTGGACTAACATTAGGCATGGGATAGATTTTTGTGGATCCAGTGGTTCAAATGAGGTCACCACGACTCTCCCGCATCTCTTGCCATCTTTTGGTTA
Celera SNP ID:            hCV478855
SNP Position Genomic:     64824
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,7)   total(G,5|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27644):
TGCTCACATTACTAGGAAGTCCAAGGGTTGGACTAACATTAGGCATGGGATAGATTTTTGTGGATCCAGTGGTTCAAATGAGGTCACCACGACTCTCCCG
Y
ATCTCTTGCCATCTTTTGGTTATGATCATTCTTAGGCCAGCTCTCTGATGTGTGGCAAAGATGGTCACCAGTAGCTGAAGGCCTACTAAGTCTTAGAGAG
Celera SNP ID:            hCV478856
SNP Position Genomic:     64902
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27645):
GAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGTGACAGAGCAAGACTGTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGCAGCAGCA
R
CAGCAACCAACTCTTAGGACATCAGGGGACAGAAATGGAGAGATGAGATAATAAAGGGGTTCTTGGCAGATGGGGCTCAGGCACTTGGCTACTGCTGCTT
Celera SNP ID:            hCV7686448
SNP Position Genomic:     356186
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27646):
ACCAAAACCATAGGCAGCACCCAATAAATGATAGCTACTGTTACCATTATTCTCAGCCTAGCATTTTGCTGGATAGCTAGAGATGGGAGAAACCTGCATT
M
GTTTCCTGAGGCTCCTGTAACGCATACCGCAAACTGGATGTTGTAAAATGACAAATTTATTCTTTCAGTATTAGAAGCTAGAGGTCCAAAATCCAGCAGG
Celera SNP ID:            hCV7686376
SNP Position Genomic:     345002
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,7)      total(A,3|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27647):
AGGCTAAGACAGGAGAATCGCTTGAATTCGGGAGGCGGAGGTTGTGGTGAGCCGAGATTGCACCATTGCACCCCAGCCTGTGCAACAAGAGCGAAACTCC
D
TCTCAAAAAAAATAATCTCCTTGTCTCAAGATCCTTAACTTAATTATATTTACAAAGACCCTTTTTCCTAGTCAGGTCACATTTACAAATTCCAGGGATC
Celera SNP ID:            hCV7686377
SNP Position Genomic:     345564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(T,-|G,-)   no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27648):
TGATGATTAGCCCCGCCCAGTCCCCCATGCTGACCTTTAAGAAGGAGGTAGAAGGTGGTTTAAGAAGGAAGTAGATGTTGCATTTAGCCTTGGAAGATGA
R
TGGAATAGGCAGGAGGAAATAAGCAAGGCAGCTGATGTTGAGTGTTTTGTGAGAACGAGGGCCAGAGATCATAACCTTTAATGCATCTACTTCACAGAAG
Celera SNP ID:            hCV7686378
SNP Position Genomic:     346725
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27649):
TTACGTCATATAGAGAACATTTCAATAATCCTTCCCCCTCAATCCTTGGTCCTAGGGGTGAGAAAGAAAAAACAAAAAGCTTTTTAGTCCTAGGTAACTT
Y
CACACCTCAACTAAAAAGCTTTTTAGTCGCCTAGGATTTGCTTAAAGAAAATCCCATTGTGAAATTCCTGGAATTTGTACCTTTGGCCCAGCTGATAGAG
Celera SNP ID:            hCV8340640
SNP Position Genomic:     219300
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,31|T,5)   total(C,57|T,7)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27650):
TGCAGTGAAGATTAAACAAGGCAGTTCATGAGAGAGCTTAGCACTCTGTACCTGGTGCATGGTATATAGTAGGTCCTCTGCACTGTGCCTGGTTCATAGT
M
GATCCTCTGGGCTCTGCTGTCCTCTCAGATGGCCTCATTTTCAGGCAGGCTTTCTCCCCTTGATGGTCTCTACTGGTTCTGTGCTTACAGACTCCTGGCT
Celera SNP ID:            hCV243672
SNP Position Genomic:     50224
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27651):
TCTCTGATATGGCCTCCTTATTTGTTTTAAAAGCATTTTTATGTTTATTTGGATAATATTTAGAAAATATAATAGATTTAAACATAATTTTAAAAGCATC
R
AAATGCTTACGTTTCTCTAATTGTGCAAGAATCTTTATATACATAGTTTTTTTTTTTAACTGAAGTTGCATCCTGCCAGTAAAATTTGAACGAATTGCTT
Celera SNP ID:            hCV3210429
SNP Position Genomic:     158023
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27652):
ACCCCAGCAGCCTCTCATGAAGACCCACTGAAGGAATGGGACAAGAGTGGAGGTAGGTTGGTACATCACAGACTCATGGGGCAGCATCTGCAAGACCCTT
Y
TATGATTTATGCAGAGGAAGCCTGGCTTGGAGTTTTTTAGACCACCCAGGTCAGGATCTTAGTTCTGCCGCACACTGTCTTGGACACGTTATTTCATATC
Celera SNP ID:            hCV450112
SNP Position Genomic:     28353
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27653):
GGAGGTAGGTTGGTACATCACAGACTCATGGGGCAGCATCTGCAAGACCCTTCTATGATTTATGCAGAGGAAGCCTGGCTTGGAGTTTTTTAGACCACCC
R
GGTCAGGATCTTAGTTCTGCCGCACACTGTCTTGGACACGTTATTTCATATCTTGTGAGTTATGATTTTTTTCATCTATAAATCTGGCCCAGTGTCTCCC
Celera SNP ID:            hCV450113
SNP Position Genomic:     28401
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27654):
GACTCATGGGGCAGCATCTGCAAGACCCTTCTATGATTTATGCAGAGGAAGCCTGGCTTGGAGTTTTTTAGACCACCCAGGTCAGGATCTTAGTTCTGCC
R
CACACTGTCTTGGACACGTTATTTCATATCTTGTGAGTTATGATTTTTTTCATCTATAAATCTGGCCCAGTGTCTCCCTTGCAGGATTGTTGTGTGAGTC
Celera SNP ID:            hCV450114
SNP Position Genomic:     28423
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27655):
TTTGCATTCTGGAATATTTCCAAAAGCATTGCTATTGATGTTGAATTCCACTTTGGGGTTGGAGATTAGGAAATTTTTGGAAGTGTTGAAGTAAAATTAG
W
TGTTCTTTGTATTATTTTTTATTTGACAGTGTACAAATAATGAAACTGTAAACTAAAGTACAATGACATAATCACAGAAATGATCATAAAAATGGTTATT
Celera SNP ID:            hCV95546
SNP Position Genomic:     101212
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,5)      total(A,3|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27656):
ATCCTTTTACTTGAAGAAAGTGATAAGAGAAGTAGAAAGAAAATCAGGCTGAGATTAACTAAGGAAGCAGCCTTTTTATTCTACTTTCAGCCATTCAGAA
R
AGGGAAAAAATCCAGAGTTTCTAATAAGAAAACGAAAAGTTGTTTTGCATTCTGGAATATTTCCAAAAGCATTGCTATTGATGTTGAATTCCACTTTGGG
Celera SNP ID:            hCV95547
SNP Position Genomic:     101068
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27657):
TTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCCCCGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCT
R
CCTCGGCCTCCCAAGTAGCTGGGATTACAGGCATGTACCACCACGCCCATCAAATTTTGTATTTTTAGTAGAGACAGGGGTTTCTCCGTGTTGGTCAGGC
Celera SNP ID:            hCV7686450
SNP Position Genomic:     360418
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27658):
TTCTGGCTAAAATTACCATTTAGGTGATAAAGTGTGTCCTGTTGCCTGGGTATTGTGCCATTCATGTCTATGCTTGCCTTTTCTCCTTACCAGATTGTAA
R
TGCATGAAAGAATCCAAGCCTTAAGATTTCTTCAGTGTCTTGTACTGTCTTTCTTGTGCATAGCTTAGCATGATAATTGACTGACTAAAATGCTATCCAT
Celera SNP ID:            hCV27831848
SNP Position Genomic:     196395
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27659):
ACTGATTGTCTAGTGGCCTGATGACTGAATCCTTGTTGTTGTTTTTTTTTAAGGGTCCTCCATCTTTTGAACCCCATTGTGTCAGGTTGAAGGGTTGGAG
W
GCAACATGGTTATGAATATAGACCTTGAGATCAGGAAGACCTGCTTTGGAATCCTGGCTCTCTTATTAGCTGCATATCTTAGGGCCATTCTGATGTTCAA
Celera SNP ID:            hCV7685653
SNP Position Genomic:     186235
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,13)   total(A,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27660):
CTGACCTGCTTGGGTGGCACAACCCCAGTGACCTGCAAGTTGACTCCTTCCCACTTTGCTTTTTATCTCAACTACTCTTTAGCTGTTTTACATAGAGCCT
S
CTGGAATGGGAAGAAAAAGGTCTTTGAAACTGATTGTCTAGTGGCCTGATGACTGAATCCTTGTTGTTGTTTTTTTTTAAGGGTCCTCCATCTTTTGAAC
Celera SNP ID:            hCV16165022
SNP Position Genomic:     186106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27661):
AAGGGTTGGAGAGCAACATGGTTATGAATATAGACCTTGAGATCAGGAAGACCTGCTTTGGAATCCTGGCTCTCTTATTAGCTGCATATCTTAGGGCCAT
K
CTGATGTTCAATTTTCTTATCTGTCAAACATAGGTAATAGAAACCTTCTTATAAGTTACTGTGTTGATTATATAAGATGATATAAGATTAATGGCAATGT
Celera SNP ID:            hCV7685657
SNP Position Genomic:     186324
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,11)   total(G,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27662):
TAAGATGATATAAGATTAATGGCAATGTCACATTGTCATTTTATCATCATCAATACTGGGGAGAAAAGAGACAAGAATGAACCAAAATCAGACTCTGAGG
M
CCATTGGGGAAAGGAGGAAAAGAAGCAAACACATGTCTGTGCCAGGTATTATATGAGAAAGGTGTTAACAGTACCTTTAGTATCAGAGAGAGTGACTAAC
Celera SNP ID:            hCV7685658
SNP Position Genomic:     186497
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27663):
CTTTCCCCCTCTCAAATTCCATTTCATGCCTTCATAAACTCCTTTTTCTTTGTTTTTGAGACAGGGTCTTATTCTGTCACCCAGGCTGGAGTGCAGTGGC
K
TGATCATAGCTCACTGCAGCCTCCACCTCACAGGCTCAAGCTATCTTCCCACCTCAGTCTCCTGAGTAGCTGGGACTACAGGTGTGCACCACCATGCCCA
Celera SNP ID:            hCV7686388
SNP Position Genomic:     346956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27664):
CCTTTTCCATTGGAGAGTTACAACAAAAAAGCAAAATAAATCTATCTTTTCTCTGATATGGCCTCCTTATTTGTTTTAAAAGCATTTTTATGTTTATTTG
R
ATAATATTTAGAAAATATAATAGATTTAAACATAATTTTAAAAGCATCAAAATGCTTACGTTTCTCTAATTGTGCAAGAATCTTTATATACATAGTTTTT
Celera SNP ID:            hCV3210430
SNP Position Genomic:     157974
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27665):
TGTGAAAATGTACTTATGATTCTTCCATGAAAACCTAAAGTATTAAAAACCCAACAGTTCACTTGTGTTCTTTCATGAACAGGTATGTGCATGCTATGAT
K
GCTTTCATTTGCCAAGTCATTTTTTAATTTAATGAGCTGTCACTCTGCTGTCATTGGATCAGTTGTAGATGAGGGGACACCTTTTGGCCTTCATTTGATG
Celera SNP ID:            hCV3210432
SNP Position Genomic:     120707
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,11)   total(G,2|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27666):
TTCTACTTTCAGAGTAGCCTGTTAGAAAGGATGAAAAGCTCTGAATTTTCTCCATTTTTTTTTAATGTGATACTAGAGAGGAATGATACTTCTTCCTGGT
W
GTGTGGAAAGCTACATCTAGGTTGGTTATAATTTTCATTTTAACTCTTCCTCCTTCATACAGCCCTAGACTTCTCAGTGTTTAAATCTAGGTGTCAGGCC
Celera SNP ID:            hCV3210433
SNP Position Genomic:     113026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|A,6)      total(A,6|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27667):
ATGAGACACAGACTCAGGTTTCTAACCTGGCACATAGTTGATGTTTATAAAAGTTAGTTCCCATCTCCTCTTTTTAGTTGTAGGTTTTATATTGATTATT
K
GTTCAAGAGAGGCAAAAGGTTGTAAATAGCTCAGGGTCGCTTTAGTTATGGACGCCCCTAACTATTTTAGTGGACCGGTTTCCTGCTTAACGCTCTATGT
Celera SNP ID:            hCV28970646
SNP Position Genomic:     153826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27668):
CATTAGAACCTCTGTCCTCCGTGCCAGTGAACTGGAAATTTAAGGCGGATGTGATGATGATGAGTCTAACAAAAAGCTGTCCTCATCACATACCCAGTCC
Y
CCACAAGGTTTTTGTGGATACAGTCAGTGCAATACCCACTCTTAGGCCATCTAGATTAGTTCCTCACAGATTCTGGGGATTTCCTACATCTGATGAGTTT
Celera SNP ID:            hCV28970647
SNP Position Genomic:     149702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27669):
ACACATTCGGTTGGCCATTTTAATCTCTTCTCAGGGATGGGTTTTGTCCATTAGAACCTCTGTCCTCCGTGCCAGTGAACTGGAAATTTAAGGCGGATGT
S
ATGATGATGAGTCTAACAAAAAGCTGTCCTCATCACATACCCAGTCCTCCACAAGGTTTTTGTGGATACAGTCAGTGCAATACCCACTCTTAGGCCATCT
Celera SNP ID:            hCV28970648
SNP Position Genomic:     149654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27670):
TTTGAGATCTTGGATCATTATTACTAAATTTCCAGGTTTTATGGATAGAATTTTGTTTTTAAAAGGGATTTGTTCTTTAGGGCCCCCAAATTTTCAAGAC
R
CCCTACACATTCGGTTGGCCATTTTAATCTCTTCTCAGGGATGGGTTTTGTCCATTAGAACCTCTGTCCTCCGTGCCAGTGAACTGGAAATTTAAGGCGG
Celera SNP ID:            hCV28970649
SNP Position Genomic:     149549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27671):
CTAATTTTTGTATTTTGAGTAGGGACGAGGTTTTGCCATGTTACCCAGCCTGGTCTCAAACTCCTGATCTCAAGTGATCTGCCCACCTCGGCCTCCCCAA
M
TGCCGGGATTACAGGTGTGAGCCACCACTTTCGCCGGACCTGGGTTTTTTAATGGGCCTTGGTCTCCATTTTCACATTTCTTCTTCCTGGGTCATCCAGA
Celera SNP ID:            hCV217959
SNP Position Genomic:     46400
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27672):
ACAGCTTCACCCTCTCAGGCATGTGGAATCATTGAGCTAAGAGGCAGTGTCATCTCTTGCCCTGAGACTCTTTTGAGTTGTCTCATTTGCCCATTTATTT
R
TTTACTCTCAGCTACTATTTCTCCTTCTCTCCATTAATCTCCAAACTTTTTTGAAGGGACATTAGAATCACCACTGTGCTGGTCTAGATTACAAGCAGCA
Celera SNP ID:            hCV7686460
SNP Position Genomic:     362095
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27673):
CTCAGAGGTACTTTCTGTTGTCCCTGCGTAATTTTCTCCTTTGTGGGTAACTTTAAGGCTAGTGGACTAAGCTCAGGCAGACCCACATCTGAGCTTAGTC
Y
AGCCTCAAGTCCTGACCCAGCACCCTCTTTTATTTTAGCCATTATAGACAACAATAACCAGGGATTAAATATTTCACTTTTTTCTTAGTTTGCATTTCTT
Celera SNP ID:            hCV7686461
SNP Position Genomic:     365534
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27674):
CCCTCTTTTATTTTAGCCATTATAGACAACAATAACCAGGGATTAAATATTTCACTTTTTTCTTAGTTTGCATTTCTTTATGCATCCAGTGCCCCAACTC
M
TGGGGAGTTGGATCCATCTCTGAATTCCACTGGTAACTTTTACCTTTAGTAACTGATCTCAGCACAGCTGTGGCTTCATACCCTGGGTGACCACATGGCC
Celera SNP ID:            hCV7686462
SNP Position Genomic:     365657
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27675):
TCATTCTTAACCATGGTTACACAGAGAGAAAATGCTATTATCTCAACTTCGGGGCGCAGAAAGGTTAAGTGATTTACACTGTTTCTCACAGCTAGTACGT
S
GGGGCCAGGATTCACCTGCAGCCTGTGTGGCTGAGAGCCAGCCCTCCTCACCCTCTCCACGCACCACTCTGTGCTCGCAAAATGCAGGCCCACTGGCCAT
Celera SNP ID:            hCV7686390
SNP Position Genomic:     347468
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27676):
ACCATACCTGGCACATAGTAGGTTTTCAGTAAGTGGCTAAAAATAATAGATATATCAGAAACTTGTTAGCAGGCAGTGATTTTCTAAGTTAAGACAGGTA
S
CAAATTATTTATGATATCTGTTCCAGTAAAGCCTTGGCTCATTATTTTGCTTTTATTTATTTTTAATCAGTATTGGAACATTGTTGGTACTCGCTCAGCA
Celera SNP ID:            hCV16165032
SNP Position Genomic:     147768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27677):
TTAACAGCTGCATTGCTAAATTACCCCTCCCTCCCAGTGGCTGCATCCTACATCACAGTCTGCATGTGGTCTCTGTGGTTCATTGTCACTGGTTCCCAAA
Y
CAAAGGAAGCCATTGGTCTTGTTGAGTGGTGACGCTTATCTTCATAAATCCTGGCTGTACTGGGCGCATCCCTTTTAGTTTATTTTCAGCCCAGCCCTCA
Celera SNP ID:            hCV28970650
SNP Position Genomic:     149106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27678):
CACCTTATCACAGAATGTAAGCCGCCCCACTAAAATGTAAGCTCCATGAGAGCCAGAACCTTGTCTTGGTCTTGTTCTCACCAGTGTTTACTGGAACCAC
R
CCTGGCATACAGTGAATATTCAGGAATCACTTGAGAATGAATAAATTTGCCCAGAGTCAGCTTGTTAATCATTTCAGTGACATTGACTGCACATGACAAA
Celera SNP ID:            hCV8340664
SNP Position Genomic:     342535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,13)      total(G,13|A,3) ;(A,-|G,-)   (G,-|A,-)   Caucasian(G,84)   African-American(G,84)   Asians(G,84)   total(G,252)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27679):
AGTTTATAAGGAAGAGTTTGGCCTACACAAACAAGAGTTTTTCAAAATAGAAGATGCTTTGTAAAGTATACATATATTAGCCTTCGCTAGTAATGGTGAT
K
CTAACTTGTATAGCTAATGCATCCTCCCTTTATTCTCTTATTCTTTGCTTTTTCCCTTTCCACAAATATGTATTAGTCTTTTACCAAAGATCAGCTACTG
Celera SNP ID:            hCV28970651
SNP Position Genomic:     256482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27680):
GGTTGGGACTTGGGCTTTTTTTTTTTTTTTCTGAGATGGAGTCTCGCTCTGTCATCCAGGCTGGAGTGTAGTGGTACATTAGACAATTTTGATATATGTA
W
ACAAGTAGTTAAAAAATTGGTTGGGACCTGTGCTTTTTTTTTTTTTTCTTTCTTGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTAAT
Celera SNP ID:            hCV217960
SNP Position Genomic:     46102
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27681):
GTAGCTGTATTACCAAGAAAAAAGGAAGCTAGCACTTGGAAGTTAGGGAGAATGGGAATGATGGATGGGCAGAAGTGTTGTGAATTGGTTTGGGTGCTCA
R
TGTTGCTTTTTTTCTTTTGCATTTTCCAATTTCCTCTGTACGCCATACACTGTAATAGTCATTCCATTTAAAATTGCAGCTGGGTAGACCAGATATTGCT
Celera SNP ID:            hCV28970652
SNP Position Genomic:     117922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27682):
TGTTGTTGAAATAAAATCAATGGCTGCTGCTAAGTCAACCATGAGCATAAAATACCAATTCTAGGCCTGTTATTTGTAGAATCCTTTCATGGACTAGACA
R
TTTTCATATATATATACAAGTGGTTAAAAAGTTGGTTGGGACTTGGGCTTTTTTTTTTTTTTTCTGAGATGGAGTCTCGCTCTGTCATCCAGGCTGGAGT
Celera SNP ID:            hCV217961
SNP Position Genomic:     45968
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27683):
TTTTAATGCCTGGTAATCTATTAGGCAGTAGGATAAAAAGATGCCCTCAAGGATGTCTCTCAAGGCTAGAGGGGAGATGCTTATTGTTTATCAAAGATCT
R
CTGAGTGCCTAGCATTGTGTTATGGGCCTTACATACATAGTATGCCTAATTTTAATATAGTATGATAAATTCTTTGCAAGTGATGTCTGCAAAGGACTAT
Celera SNP ID:            hCV28970653
SNP Position Genomic:     109938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27684):
TGCCACCCCCACCAGACTATAAGCTCCTAATGGACAAGGTCACTGATGGCTGCTCATCTGCTAAAGTTACTCCAGTGCCAGGCACAGAGTCTGGTACATA
S
ATGTTCAGTAAATATGTATTGTTGTTGAAATAAAATCAATGGCTGCTGCTAAGTCAACCATGAGCATAAAATACCAATTCTAGGCCTGTTATTTGTAGAA
Celera SNP ID:            hCV217962
SNP Position Genomic:     45848
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27685):
CCAGCTGTTCACATAGTGCCACAACACTCAAATCCAAGGACAACTCTTAGAGGAACTGGAGTGCAGGGAGAATTATTCATTACATCTGCTCAGAAAGATA
R
AGTGCCCTACCAACACCTTTGCAAATTGAAATTCCCTTGCTCTTGGCATGTGATCATCCTGCCAACTCTGTGAAAGCTCCCTTAGCTACTCAGATGCTGC
Celera SNP ID:            hCV28970654
SNP Position Genomic:     106585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27686):
CCAAACTTCAGGGAAAAAGAGTCAGCTCTTATCCAGAGTTTCTGAAAGATGAGAAAACAAAATCTCTCTTTTTTTGAGATAGGGCCTTTCTCTGTCACCC
R
GACTGGAGTGCAGTGGTATGAGCACAGCTCACTGTAGCCTCAACCTCCTGGGCTCAAGAGATGGTCCTGCCTCAGCCTCCCGAGTAGCTGGAACCAGAGG
Celera SNP ID:            hCV8340668
SNP Position Genomic:     354547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27687):
GTATGTTTTCTTCCTAGCAGTTGTAACAATCTGGAATTGTTTGTTCTCTTGTGTATGTCTGCCACCCCCACCAGACTATAAGCTCCTAATGGACAAGGTC
R
CTGATGGCTGCTCATCTGCTAAAGTTACTCCAGTGCCAGGCACAGAGTCTGGTACATAGATGTTCAGTAAATATGTATTGTTGTTGAAATAAAATCAATG
Celera SNP ID:            hCV217963
SNP Position Genomic:     45789
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27688):
ATGTTTTGTTGGGGACGTGTGTGGGAGTGATTCATTTCCAGCTGGGTCCAGCTGTAATGAAAATGTCCTGTTTGACAAATTGAGGAATTAGATTACAACT
R
TCTCTCCCTGAAAGCTGTGACACTAGCTGTAACATCAAACATCCCTCCCTTTGTGGGGCAGGACAGGAGGGAAATGGTGATTCAGGGCTGCTGGATGTGT
Celera SNP ID:            hCV28970655
SNP Position Genomic:     103693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27689):
ATGTAATGGCAGCATACACAACATGCCGCAGTGTGCTATGTACACTTTTATCACCGTTCCTTTTGTGGATGAAAAGCTATTAAGCAGAATACAGGAAAAC
R
CTGGGTTCTTAATGGGATTAAAGCAGTGGGGCTGGGCACGGTGGCTCACACCTGTAATCCAAGCACTTTGGGAGGCCCAAGCTGGAGGATCACCTGAGTC
Celera SNP ID:            hCV8340669
SNP Position Genomic:     366071
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27690):
TCAGAAGGATGGATCTAAGAGCAAGATGACATTGTGATGTCAACTAACCTTCCAGAGAATGGTCTAAGGGGTAATAGGGCCCTACTCGCTCTTTCCACTC
R
AAATAGCCATGCCCCCTTTCCTTAACTTTGGAGCCCACAACACTTAAGATTAGCTGACATTTAATATGTGTGCCTGCTAGGTTCCAGGCTCTTTTTATAT
Celera SNP ID:            hCV28970656
SNP Position Genomic:     102508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27691):
GTCAGGCCCAGAATCTGCCTCCCAACTCTTTTTTTCCATCTCTTTTTCCACTAGGGTGGTTGTATGCTCTTTAGGCACTGTTGATTTCTGGCTTTGAATC
R
TGATCTCTTCATATTTCAGTATGCATGAATAATAGGACAATTTCATGCATTCATTTTGCTATTTCTGAGTAGAAGTTAGTGTGACCAACCAAGTTTTAAT
Celera SNP ID:            hCV28970657
SNP Position Genomic:     98158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27692):
TAGCTATTTGTGATTGTCCCTATTGTAAAGATATGTAAAGTATGGTCTGGGGTTCCCTGTGGGAAGTCCCAGGATCCTTCCAGGGGTTCTGAGAGATCAA
R
ACTATTTTTATACTAAGGTCAAGACATTTTTTGCCCTTTTCTCTCTTATTCTTTCATAAATTTATAGTTTATGAGACTGGAGCTGTTTGGGAGAAGTAGT
Celera SNP ID:            hCV28970658
SNP Position Genomic:     96743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27693):
GCCCAGCCTGTACTGAGTACTTTACATAGGCTGTTTCAAACTCTCACATTACCCTGCTAGTACCTGAGGGAGGTGGGAATCAAATCTGGGTTTGCCTGGC
Y
CCATAGCCCCCACCTCCCCACTGCCACCCTGCCTTGCTTTGGTATTAGTGATTTAGCTGCAAAGTGCAAGTAAACGGAAGAGAATCTGGTTAGCATTTAC
Celera SNP ID:            hCV28970659
SNP Position Genomic:     88124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27694):
GTGAGAGTAGAGGGAAAAGCACGGTTAGAGGAGCAAGTTTTCCCCACACAGTGTCTGACAGGCTTCTCTACTTAAAACTGGAATACGGACTCCGGCTCCA
Y
TCCAGACTGTTCCTTCCTCAGTGTCCCCGTCTGTTAAAGGCAGTGTCATTCTTCCAGGTGTTCAGGCCTTAAAGCCTGAGAGAGGTGCTTAGCTCTTCCG
Celera SNP ID:            hCV7686472
SNP Position Genomic:     369337
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27695):
TCCACCGTTGTCAGCTAGGATCAAATGAGCATCATCTCTTGTCTGGACAGTTGGAGCCTCCTACCCTGTCTGCCTGGAGCCTTCTAACCTGGTCCTGCAG
K
CTGTTCTCAACAGAACACTGGAGCCTTCCACATTCAATCATGTCACTCCTCTGTCCTGAACCATCTGGTGGTTCTTCTCGCAACCCCCACCAGATATCAG
Celera SNP ID:            hCV7686473
SNP Position Genomic:     369627
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27696):
CTCCCTCGGTATCTTGGAAGATGGGGATGATGGTGATATCCACATCGCGGGGCTCTTAGGAAGATGAAGCTACGTCATGCAGCAGGTCTCAAGAAGGCCA
R
TCTCCTCTCTTTCCCTGCCCTGTAGTCCCATCTCTCTCCTGCCCAGAGTTGAGTCACCTGGGCCAGTGTACCCTGAGGCCCTGGCCAGCCTTGCCTCTTC
Celera SNP ID:            hCV7686474
SNP Position Genomic:     370215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27697):
GCCGGGCACAGTGGCTTACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGGGGATCACCTGAGGTCAGGAGTTCGTGACTAGCCTGACCAATATG
R
TGAAATCCTGTCTCTACTAAAAGTACAAAAATTAGCTGGGCTGTGGTGGCGTATGCCCATAATCCTGGCTACTTAGGACGCTGAGGCAGGAAAATTGCTT
Celera SNP ID:            hCV26010086
SNP Position Genomic:     18769
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27698):
TTTTTAGAGATGAAGTCTCACTATATTGCCTAGGCTGGTCTTGAACTCCTAGCCTCAAGCTATCCTTCTGCCTCAGCCTGAATTACCCTGTAGTTTAAAA
R
GCATCCCCAGTTTCCCATTTTGACAATGCATATAGAAGTCTTCCTGATGCTTCCCTTATTTGTTTTTATCTAATTCTGTTAATGTATTCATCAACAGATA
Celera SNP ID:            hCV26010087
SNP Position Genomic:     18517
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27699):
AGGCCTGGTTGACTCTGTTCCACTCTTAAAACCACCTTCCTCTCTATCGATTTGGCATTGGAAGCCAATATGCACGATTTTGTTTTTTCTATTGAAGGCC
Y
ATTACATGATTCTCTTTAGTGCAATCAATACTAATCTAATTGAGGTAATTAGAAAATTTTTACAGGTAACTGGCTTACAGGCCAATGCAGCAGACAATAA
Celera SNP ID:            hCV8340670
SNP Position Genomic:     378149
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,13)      total(C,13|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27700):
GCTCAGCGCAACTTTAACATCTGTGCTGCTTCCCCATCGGGAAGCAAGTGATGATGATGCCAGTTCGCTGAGCTGGGCAAAACTTGCATTTTATTAAAGT
Y
GACAAGTATGTAAGCTTGTTAAAAAGCAATTATACAAAATAATATAGCCACCTAGACCAAAGCTTGACCCTAACTAAATGCCTCGGCCTCCCAAAGTGCT
Celera SNP ID:            hCV27987809
SNP Position Genomic:     59081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27701):
AGGGTCAGTGATGAGGTCAGATGACAGAGAAATGAAGTCAGATGTGTATACTTCAGGGACCCGGACTGGGGAGGCACAGATGGGACTAAGGAGAGGACTA
R
GGCAACACCAAACACTTTGACCATTGTGGGTCATGGTCATAGCCAATTTGATCTGAAGCAGACTGTCAACTCAGTGTAACTGTATAATCAGCCCTTAGTG
Celera SNP ID:            hCV28970660
SNP Position Genomic:     84479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27702):
ATGTGAATTTCCACACCAAACAGAGCATGAGGAACCAGTTGACATGCTGGGTTGTGACTGGCAGCTTTAGCAGCCTCGGTACTGAAGCCACACCAGTGTC
M
GGATGGAAGTCTGCATCTGAGGTTGCTCAGTGTCCCGGTCATTCATTTACACATTTTAACTTGCATTAAAGAGCTGTTCTTTTCTGTGGCCTAGACTCTT
Celera SNP ID:            hCV8340674
SNP Position Genomic:     381004
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:27703):
TCTCCGTGAAACAGGCTCTCTCACTCTGTCGCCGAGGCTGCAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCT
S
TCACCTCTGCCTCCTGGGGCAGCTGGGACTACAGGTGCACACCGCCATGCCTGGCTAATTTTTGTATTTCTAATAGAGACGCAGTTTCATCATGTTGGCC
Celera SNP ID:            hCV28970661
SNP Position Genomic:     79929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27704):
TTGCTTCCTCAGTGTCAGGGCACATGTGAATTTCCACACCAAACAGAGCATGAGGAACCAGTTGACATGCTGGGTTGTGACTGGCAGCTTTAGCAGCCTC
R
GTACTGAAGCCACACCAGTGTCCGGATGGAAGTCTGCATCTGAGGTTGCTCAGTGTCCCGGTCATTCATTTACACATTTTAACTTGCATTAAAGAGCTGT
Celera SNP ID:            hCV26077952
SNP Position Genomic:     380981
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:27705):
CCCTTCTCTCCGTGAAACAGGCTCTCTCACTCTGTCGCCGAGGCTGCAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGC
R
ATTCTCTCACCTCTGCCTCCTGGGGCAGCTGGGACTACAGGTGCACACCGCCATGCCTGGCTAATTTTTGTATTTCTAATAGAGACGCAGTTTCATCATG
Celera SNP ID:            hCV28970662
SNP Position Genomic:     79923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27706):
TCCCGGTCATTCATTTACACATTTTAACTTGCATTAAAGAGCTGTTCTTTTCTGTGGCCTAGACTCTTTTCACTGATCTCAAAATAAACTGGTTTTTTTC
A
AAAAAAAAAAAAAAACAAAAACAAAAAAAAAACACAAAAGCTGCATGTCTAAAATTACATGGAGTTAGTGTCTATTCTTTTTCCCCTTTTGCAGCAACTT
Celera SNP ID:            hCV26077953
SNP Position Genomic:     381137
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:27707):
ATGAGTGTAGTTCAGTGGGAAGCCAATGATGGGTTTTAAGCAGGAGAGTGATATAATCTGGTAATCACTTTAAAAGATCGCTGTAACAGCAGAGCACAGA
S
GAAATGAGAGTGGCCTTTGGAGTCAGTAAAAACCTTAATTAATAACCTGATCATCTGCTTTACTCACTGTTTGACCTTGGGCGAGTTACTTAACCTCTCT
Celera SNP ID:            hCV28970663
SNP Position Genomic:     234922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:27708):
GTTCGAGACCAGCCTGGCCAGCATGGTGAAACCCCGTGTCTACTAAAAATACAAAAAATTAACTGGGCATGGTGGCACGCACCTGTAGTCCCAGCTACTC
R
GGAGGCCAAGGCAGGAGAATCGCTTGAACCCGGGAGGCACAGGTTGCAGTGAGATGAGATCACACCACTACACTCCAGCCTGGGCAACAGAGCGAGACTC
Celera SNP ID:            hCV26077954
SNP Position Genomic:     376315
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27709):
GAAAGTGACATGGAGACAGAGGAAGAGTGTTCCAGACAGAGTAAAGCACGTGCAAAGTGGGAGAGATCTCTGTGGGTTGAGAAGCCAAAAGGAGTTGTAG
Y
GCAGTGAGAATGGGTAGAGGGACTCAAAACAGGTTGGCAGGGCCAGAGCTAAATTGGGAGCTTGGATATGAGTGTAGTTCAGTGGGAAGCCAATGATGGG
Celera SNP ID:            hCV28970664
SNP Position Genomic:     234754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27710):
CAGCAGACAATAAAATTGCCATTCGCCACCATCAGTCTCAAACTTTCACAGTATTCTTCCTCCACGGTAACCAGAAAACAAGTGATAGTACATAGCAGCC
T
TTTTTTTTTTTTTTTACTGGCTAGAACAACACTTTACTCACAAAGAGAAGAGACAGAACAAGATTAGCTTTGATTTGAGTATGGTACCCCGCAGTGGGTC
Celera SNP ID:            hCV26077955
SNP Position Genomic:     378337
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,13)   total(-,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27711):
CAAAGCCTAACAGCTGCAGGATGGGAGGGGTACCCTTGGTTTGTCACTCCCAACCATATCCTGGGAGCAGTTCTAACTCTTCTGTCCCTCTCCTGAATCT
W
GCCCCTTCCCCCATTCTGGTGCTGAGCACTCCAGGACGACCAAAACTGGTTCAGGTTCTATAACACTTGATGTTTCAGAGCAGTCCTTCTGATTTGGAGA
Celera SNP ID:            hCV28970665
SNP Position Genomic:     234274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27712):
CATAGCAGCCTTTTTTTTTTTTTTTTACTGGCTAGAACAACACTTTACTCACAAAGAGAAGAGACAGAACAAGATTAGCTTTGATTTGAGTATGGTACCC
Y
GCAGTGGGTCTTGCCAGGCAGCTGACACAGCTTAATGGTCTGTATGCATCCTACCTGGGCTGTGGGCAAAGAAACCCCTTCCTTCCCAACTAGGAATAGG
Celera SNP ID:            hCV26077956
SNP Position Genomic:     378427
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27713):
TTGCATCCATTTCACCTTGAGAGCTTGTTAAAACTTAGGTTGCTGGGACCCACTCTTGGAGTTTCTGATTAATTAGGTCTGGGATTTCATAACCAACAAG
Y
TTCCAGGTGATATTGACACTACTGATTTGAGGACCACACTTTTGAGAACCACTAGGAAGGATTGTCACTCTGGACAGAGATCCAGAATTTCCTAGTGTTA
Celera SNP ID:            hCV28970666
SNP Position Genomic:     232674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27714):
GCCATATAGCACACCCCCTCCTTTTACTTTCTCCTTTGTCTTGGTCTTATAAATCCTAGCTACTTCCCCTTTCCATATAATTATCGTCAAATGAAATCAG
R
TGCTGCAGATAATGCACAGGGAAATGGTACTTTCATTTTCACTTGATGTAGGAGATGATGTTAAATCTAACCCACCATTTACTAAATTGAATTAGATAAA
Celera SNP ID:            hCV28970667
SNP Position Genomic:     232128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27715):
ACATGAAGAAATGGCCCGCTGATGCAGTCTTGAACTAGTATCTGACTACATCTTTCAGTAAAAATGAGTGGATCTTTTCATTGACATATTGCCACAGATA
Y
GTTAAGCAACTGAAAATTCAGAAAATTGGCAGAAATAGCTTGACTTTGAAGTTGGATATAATTGAGTTCTATCTCTGCTCCACCACCTCCCAAGCTAGGT
Celera SNP ID:            hCV28970668
SNP Position Genomic:     230860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27716):
CCTCAGACAAGGCCACCACTCCAGATCTGGACTGTTGGGAGGTCCTACAGCCCAGCCTGGTGCTTTTTTCAGGGCTGATGTTAGCCAGCACCGGGAAACA
Y
GGGTTAGTGAGGGGAGCATGGCTGGACTTCAGGCTTCCCTTGTACAAGCCAGGTGGGTGCTTTGAGCCATGTACACCCTGCACAGCCGTACACAGTGGCC
Celera SNP ID:            hCV28970669
SNP Position Genomic:     230303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27717):
CAGCCTTGCCTCTTCCCCTCAAGGGTCTCAGACTGGTGCCAACAGTCACATTGTCACACCAAAGCCAGGAGTGCGGAGAGAGGATGTGGAACAGGGTCTA
R
ATACCTGAAGCTGGGGACAGCATGGCCCTGCACGTCTCTACTAAAAAATTAAAAATTAGCTGAGTGCGGTGGTACATACCTGTGGTCCTAGCTACTCAGG
Celera SNP ID:            hCV7686484
SNP Position Genomic:     370401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27718):
GGAACGAGATTCATGTAAATTAACTTTTAGAGCCAAGCCACCTCAGCAGAAGCTTAGGGACCAGCCTGTGAGCAGGGTGCCCCTTGATTTTGACTTTTTT
R
GAGATATGACTAGACAGGTCATGAGCAGAAACAGCCCTAGTACAGCCTGTGACATTTACAACATGAGGTTTATCTGTTTCTTCTCCTTCTTTAAGAATGT
Celera SNP ID:            hCV7686485
SNP Position Genomic:     371506
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27719):
TACAAAGAGCTATGGAAATGGGTCAACAAATTGATACATTTCCTAAGCTGTGCATACTGTGCAGCCATTAAACAGAATAAAAAAGAACTGATTTGGAGCT
Y
TCCTAAACATAGTAAGTGGGAGAAAAGCAAAGTTTCAGACTATGTATCCCTTGTATGGTTTTTAAAAGACATAGCACACGCGTGTGTATCACCAAAATGT
Celera SNP ID:            hCV7686486
SNP Position Genomic:     372118
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27720):
GGGGCAGCTGCCCAGATGGCTCTGCGCTCAGCATACTCGCTGAGAGTGAATTCAAGATTGTTTGAAATGACCTTGAAGATATGATCACACAATGGGCAGC
M
CAGCAGACCCTAGGCTCCCTTGGATTTCACATTCCACACTTGCACTTCTTCCCAGGGGAACCCTGAAGAAAATGTATAATTTGTGGTGGCCCAGACTGGG
Celera SNP ID:            hCV29295901
SNP Position Genomic:     23141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27721):
AAGGATAGGATTTGGAATCAAATGAAGTGGGATCTAATCCTTTCTTCACCACTGAGTTTCATTTTTCTTATCTATAAAGCAACTGCCTTGAGGGAGTATC
R
CATGAGTTTCAGGATATTCACTGTGATTGAATCCCTCTACTTAGTCAGTGCTTAATAAGTAGCAGCCATAATTAGAGTCGCTGAGAATCAAAGGTTAGGT
Celera SNP ID:            hCV28970670
SNP Position Genomic:     211279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27722):
TTGTTCCTGGTATTTGTCATCAAGTCTTTCACATAGTGGATTCTGAATAGATATTGTGGCACACAATATTCTAGTATCCACGATAGTCTTTCCTGAGTGT
R
TCAGTGGAGAAGGATAGGATTTGGAATCAAATGAAGTGGGATCTAATCCTTTCTTCACCACTGAGTTTCATTTTTCTTATCTATAAAGCAACTGCCTTGA
Celera SNP ID:            hCV28970671
SNP Position Genomic:     211169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27723):
CCTGACATGGTAGAGTCTGGAGCTAAGACCTGGATTTTCAGGTTTCTCAATCACTTGGCATCTGGCTAAAGTTAAAAGACTTCTAGAGGCTCCTGCACTT
W
ACCAAGTACACTAGTTAGGAGCACAGGCTTTGGGGTCAGTGCCTGTCACTACTGCTTCTTAGCTGTATGACATTGAGCAACTTGCTTAACTACTCTAAAC
Celera SNP ID:            hCV28970672
SNP Position Genomic:     210814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27724):
CTGGAGAGGTTTCTCCAATTAAGCGTTTAGCAAGAAAGAATAACTATTTACTGATTCTGTGATGCCTCATTTGGGTATGCAAGTCAAGCAGATTGTTGCT
R
ATTCTGAACTGGTTTTCATTGATAATCAGTGCCATAAGACAGAACATTTAGAGGTTGATAGAGGATGACTTTGCTCGGCTAGTTTGTCTGTTGCATTCAC
Celera SNP ID:            hCV28970673
SNP Position Genomic:     204571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27725):
TATGTCTCATCAAAGTAGGATTGTATTTTCCTGTATAAAGCTGTTGCACTTAAACTGTAGCAAAGAATCTGCCCTCTGAAAACAACCATGCCATGACAAC
Y
TCTAACAAGCAGTCATATGTGTGTGTTTAGTTTTATTTCTAGTTCACATGTCAATGTGAATTTTTAAGTGTATTTTTATGACTGGAGAGGTTTCTCCAAT
Celera SNP ID:            hCV28970674
SNP Position Genomic:     204389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27726):
TATGATGTGGAAGTCATATTTTCAAAACACAGCTAAATTGTTATAAACAGTTTTGCAGCTTTTTCATTACAAGGAAGACAGCCATTGATTTTCTCATTTC
S
TTACATTTTTGTCTCCCATTCCTTTTCAGTTAGAATTAAGTAGTAGATAGTTTTATAACACAGGGTTTGTGTTTTTTAAGGCAAAAAATGTGTGGTGTTC
Celera SNP ID:            hCV28970675
SNP Position Genomic:     202451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27727):
AATAAATGTTAGCTTATTGGTAACACATGGTGCCCCTTAGAATCTATAACATTGTTGGTCTGAAAGTTGAGGCTTGTAAATCCTTTAATATTTCTGGGCA
R
GAAAAAAATGACAGTGGTATATAATTTTATTACCAGCATATGATGTGGAAGTCATATTTTCAAAACACAGCTAAATTGTTATAAACAGTTTTGCAGCTTT
Celera SNP ID:            hCV28970676
SNP Position Genomic:     202312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27728):
AAACACAGTGAGACATACTGCACTTTTAGAAATGGAAGCATGTGGTTCATAATAAGCGTGGGTATACTGAGTTGGCTATTCTACCAAATGAATTAGGTTG
R
AAATGTTAATCTTTTTGAGCAGATACATTCTCACACAACACAGGTACAGGTATACACTTCTTTCTGGGACTAGGAACTCAGGATATTCCTGCTACTAGGT
Celera SNP ID:            hCV28970677
SNP Position Genomic:     202008
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27729):
GGATGTGTTACTACCTGGGAAGCTCTCTGAGACCAGCTATTAATATTCACTAATCATGAATATTCATGAATGGATCCATCAAATGGAAAATCCCAGCATT
R
TAACCTGTGGGATGACTTTGGTGTTTCCCAGATGAGACCACCAATAGTAGTTTCCATGGTCATGTCTCAGAAATATAGGGACAAACTCAGATCCCTCTGG
Celera SNP ID:            hCV28970678
SNP Position Genomic:     200491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27730):
GGGGGGGCGAAGGGGAGGGAGGTAGGCAGGCCCTTCACCGCAAATGGCTTCCTTTTGCCCGTGTTACATGTAGGACTTTGTAAGACTTCCTTTACAACTC
K
CAGTGATTAATTGAGAGGAGTGTGCTTCATCCAGGTCGTAAGCCCTCATAAATGATTATAAAATGATTTCATTATTGATACGTGATGTGACTGACTTTTG
Celera SNP ID:            hCV28970679
SNP Position Genomic:     187623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27731):
GGAGTAAGTGTTCAGAAATTTGATTTTCACTTTAACTTGAAAGGATTAATTTTTTTTTTCCTCTTTCAAGATCATAGTAGTACTTGTATTTGAAAGACTC
Y
TTGAACATTTTCAGCGTTAAAAATGCTCTTGGAAAATGATCATTGGAAAAAATGTGCCTCTTCACATAATGGTATTGACAGAGGAATGAGATTAGGCACT
Celera SNP ID:            hCV25972347
SNP Position Genomic:     245697
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:27732):
AGTTGAATTTTAATTTTTCCCCCATGCTTACATATGTGGAAGTAGTGCATTATTATAAATATCTTAGGTGGGTCACAATTCAGTTCTTTAAAAATATGGG
R
CTTAACATTACCACACTCAATATAAGAAAAAATTTGGGGGCATACCACAAAATCTTGTTGGCATATGCTTCACAACTGAGATATTTGGAAACTTTAAGAA
Celera SNP ID:            hCV11592214
SNP Position Genomic:     78057
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27733):
GTAAAGTAGACATGAATTGGGGATGGATTGGATATGGGGGTGAGGGAGATGGTGGAACTGAGATGTCTCTCGGTTTTTCGCCCTGGATGGAGATGCCACA
Y
TGAGCTAGGAATCACTGGATAAAAGCCAAGGAGGTCCCTTGGCTCAATTTATTTTTATATCCCCACCTCTGTTTCCCTCTATTCTGCAAATATTGAAGCT
Celera SNP ID:            hCV490003
SNP Position Genomic:     31107
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27734):
TAAGTGGAGAGATCTTTAGGAAGTAAAGTAGACATGAATTGGGGATGGATTGGATATGGGGGTGAGGGAGATGGTGGAACTGAGATGTCTCTCGGTTTTT
Y
GCCCTGGATGGAGATGCCACACTGAGCTAGGAATCACTGGATAAAAGCCAAGGAGGTCCCTTGGCTCAATTTATTTTTATATCCCCACCTCTGTTTCCCT
Celera SNP ID:            hCV490004
SNP Position Genomic:     31085
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27735):
GTCCAGCATCTCTGGTGAAGTAGAGTGTTTCCAGGTGCAATGTCTTCTTTCTGACACCACTTCTGACTCCAAATGTTTGGGGTTTTCTCTATACCAAGCA
R
TTCTCCAATTTTCCTACCCGAACTACATGTTCAACAACTGAATTTAATTCTGACCCTAACTGTCTGGAATTAGGGCAACCCCCACAATTCTGTGGGCTCA
Celera SNP ID:            hCV490943
SNP Position Genomic:     54061
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27736):
TGAAAGGAAGGGGGTCTTTCCAGTGTCCTTTGTTCATATCCTGTCTGACTAGCAAAACGCAGAACCTTAAGATTGTCCACATCCTTCATGCAAGACTGCT
K
CCTTCATGTAACCCTGGGCACAGTGTGTATATAGCTGCTGTTACAGAGTAAGAAACTCATGGAAGGGCCACCTCAGGAGGGGGATATAATGTGTGTTGTA
Celera SNP ID:            hCV7686496
SNP Position Genomic:     379206
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:27737):
ATCCTTCATGCAAGACTGCTGCCTTCATGTAACCCTGGGCACAGTGTGTATATAGCTGCTGTTACAGAGTAAGAAACTCATGGAAGGGCCACCTCAGGAG
S
GGGATATAATGTGTGTTGTAAATATCCTGTGGTTTTCTGCCTTCACCAGTATGAGGGTAGCCTCGGACCCGGCGCGCCTTACTGGTTTGCCAAAGCCATC
Celera SNP ID:            hCV7686497
SNP Position Genomic:     379286
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:27738):
AGCAAGACTCTGTCTCAAAAAACAGAAAAAGAAGATGACACAGGTTCCCAGAAGTGATTTTTCATCACTCAAGATCAGCCAGAAATTAGGTGGGAGAGCC
Y
GTGTTGGAATGTGTCTTTCTGTCCCAAGGGCTCTCCTCTTTGCTGTGCTTGGGAAATTCCCCCAGCCCTGGGCTGCAGCATGAGGGGGCAGCTGCCCAGA
Celera SNP ID:            hCV55953
SNP Position Genomic:     22956
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27739):
GCTGCAAAGGCGAGTCTGTGAAAGTAGATTGAGGTGAGGCAGAGAAGGGCTTTATGAGCCATGGTTGGGGGTTCCACTTGATTCTGTTTTAAAGTCAGAG
R
GTGGCATGACTAGACATATTTAGAAACACTCTGCAATGGTGCGGAAGATGGATGGGTGGAGGATGAACTGCTAGAGGCTGTGGAAGTACCTGGCTGGGGC
Celera SNP ID:            hCV28970680
SNP Position Genomic:     184486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27740):
GCCATGCATAGCATATTTTGAATCATTTAGGTCAAGACCCAGACAAATAGGTTTATTAGGACATTATAGGATCTTAGAACTGGTGGGAAGCTAAAAGGCT
Y
GGTGGTTTCCAAACTGTTCCAATCTGTTGTCTTTTGAAGTAGGATCCTGTAAGTTCTTACTGTCCTGAAAAGATGTGACTCAGGAAACTTCTTTCCAGTC
Celera SNP ID:            hCV28970681
SNP Position Genomic:     180739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27741):
TCTGGCCCAGGTCATGTAAGTAGTGGAGCTAGGATTTGACCACAGGCGGTTTGGCTCTAGATTTTGTGTTCCAAACCATGTTATTTAAATTCCAGCATCT
R
GTTGGTAGCTATGTGATTCTCCATCTCAGACAAAAATTGTGTAACTAAGCCTGAATGACTGTGAGCCATGCATAGCATATTTTGAATCATTTAGGTCAAG
Celera SNP ID:            hCV28970682
SNP Position Genomic:     180574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27742):
CTAGAAATGCCAGAAAACTGAATGTCAGACTTTAGAGGAAAGCCAGGGAAGGTTTAGAGAAGAGGAGACATTGGAGTTTGGTGTTAATGAATTAGTTCCC
M
CAAGCCAGGCAAGAACAATTGAGGTGTGCTAGCACATATGTACATAAAGACTAAGGATGTCCGTGACATTTTCAGAGGCTGCTGTGTAAGGCCTTCGGGA
Celera SNP ID:            hCV15811915
SNP Position Genomic:     343207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27743):
CATATCATTGTTGTTTGTTGGTTTATTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCACCGTCATAGTTCACTGTAGCCTTGGACCC
Y
GGGCTCAAGCAATCCTCCAGTCTCAGTCTCCCGAGTAGCTAGGACTGCAGGCATGTACCACCACACCTGGCTAATTTTTATTTATTGTCCATACAATCCC
Celera SNP ID:            hCV11594761
SNP Position Genomic:     370997
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27744):
GTGTGTCCACCTGCTTGATGGGCTGATCATTTTGAACAGGGGGAGAGTCAGACCACATCCTTTTGAGTCCATCTGCAGTAAATGCCCATTCAGGATCTTA
Y
TGTATGTGCCTTTTATTAAGCTACTTAACTTGTACTAATCTGTGAAACAGAATAACAGTACCTGTCTTCCATGTTACGAGAATTAAATAAGATGATGCAT
Celera SNP ID:            hCV27914702
SNP Position Genomic:     286045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27745):
CAGTCCCCCTTCTCAGGGTGAACAGACCTTACAGTGGCTTTTATCTGTTCCACCAAGCTGCCAGTTACCGCAGGAATAGCCTCCTGTGTGTCTGGATCAT
R
TATACCCATATGCAGTTGTTCAATAGTGAGCTGTGGGTCCCATCAATCCAAACATGTACTTCTACTCTGTAGTGTTTAAAACCAAAGATACTGCCCCTAA
Celera SNP ID:            hCV11593109
SNP Position Genomic:     365173
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27746):
TCTGTTTCTTTTGCCCTTCCTGATCGAAGTCTAGGAGAGTAAGTCAATACTTTTTATGAGAATATATTGTCCTACTTGTATGTCTAAAGACCATGTTCTC
R
TTCTGCAGTTCAACGTTGTTGATTTTATTTCTTACATTTTCGTAATGTAATGGCTGTTTCTAGTCATGTAGTCCTTAGAAACTATGGTTAAATGTCAGTG
Celera SNP ID:            hCV11592162
SNP Position Genomic:     273044
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27747):
GATTCATCATCCAAGAAATCATTTAAAAGCATTACCAGCATCATGATGGCATTTTCCAACCTGTTTTTTTAAATTAAAAGATTGCCAAAATTCAACTGCC
R
TATGTCATAACTAATTTTTTTTTTTAACACTAAAAGAAATCGCAAAACTTAAAAGCACTGTGAAAAGCTCTTCAGGTCATTCCTACTCATTATACCCCTT
Celera SNP ID:            hCV27829917
SNP Position Genomic:     196185
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,1)   caucasian(A,36)   total(A,43|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:27748):
TCAAAAGCAAAAATTAGCCTGACATGGTAGCACACACCTGTAGTCCCAGCTACTCAGAAGGCTGAGGCGAGAGACTCATTTCAGCTTGGGAGGTTCAGGC
Y
GCAGTGAGCTGTGATCACACTATTGCATTCAGCCTGGGCAACAAAGCAAGACCCTGTCTCAAAAATAAATATATACATATGTATTTTTTAAAAGGAAATA
Celera SNP ID:            hCV26078864
SNP Position Genomic:     271886
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27749):
TTAGAAACTATGGTTAAATGTCAGTGGAATGCTAATAATAAATCAACCTTTTTTACATCTATGTTGTTGGTTTGGCCCTTGTCACCCTCCACGACATCAT
A
ACACTTTTCACTGCTGTAGAATTGTCTTAATTTAAAAAATGTGGTTATAGGTATATTTTACAGAGCACTAATTACAAAATGAGAGACATAATAATTGTTA
Celera SNP ID:            hCV26078865
SNP Position Genomic:     273219
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27750):
GGGAAGGGAGATCCCAGTTGAAATCAGCAATGAGGAGCGATGCTGGGCAGAAAACCCATAGCGCCGTGTCCTTGGGGAGTCCTTGGACCATCTGTTTGAC
K
GAAGCCTCGGTTTTTTTCTGCTCCACCACACACTGGCTGGGGTGAGACAATGCGTGCGGGACCCTGGCCTCCAGGAAGGGTCCCTGCCCTGGCTGCAGGG
Celera SNP ID:            hCV54098
SNP Position Genomic:     14646
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27751):
TGTTTTTGAGACAGGGTCTTATTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCATAGCTCACTGCAGCCTCCACCTCACAGGCTCAAGCTATCTTCC
Y
ACCTCAGTCTCCTGAGTAGCTGGGACTACAGGTGTGCACCACCATGCCCAGCTAATTTTTGTATTTTTTGTGGAGACGGGGTTTCACCATATTGCCCAGG
Celera SNP ID:            hCV11593116
SNP Position Genomic:     347006
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27752):
CAGTGGTGCAGTCCCAGCTCACTGTAACCTCCACCTTATGGGTTCAAGCAATTCTCCTGCCTCAGTCTCCCGAATAGCTGGGATTGCAGGCACCCGCCAC
M
ATGTCCAGCTGATTTTTGTATTTTTAATAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCATCTCGGC
Celera SNP ID:            hCV11593117
SNP Position Genomic:     346333
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27753):
AGCTGCTGGGGCCAGGCAGCGTGTGGGGCTCCACTGGGCAGTGGCCTGTTAGCACATTCAGAAAGTGTGCCAAAATGCACACACATGCTGGGTGCTGACT
Y
GGGTATATATGACATGATTCTACCTGTCTCTTAAGGGAAAGGAACATTTTGAAAAATATTTAGGCCATTAAAAACTAAAAGGTGCTGAGCACTTCCTAAA
Celera SNP ID:            hCV11593119
SNP Position Genomic:     341869
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27754):
CCTCGCAGCACACTTTTCAGTGATTCTTCGGAGGAATTCCTCAGAGGTCTGCAATTTCCCTCAAACAGCCCAGCTGAGATTTTTAGCTGTCATGCCAGTT
R
TGTCCAGCTACCCATCTGATATCAGAAATCCTGTCTACAGACTTGGATCTGTTTGTAATTATGATTGAGGCTGTCTAACAGTTATTCATTTCTTCAGCAA
Celera SNP ID:            hCV11592244
SNP Position Genomic:     282216
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27755):
TCTAGTATGTTCTAAACACAGTATAAGATGCTTTCATTTCAAAATACCAGTTCCAACAAATCTTTGGCAAACATTTCAGTTAGCCTCAGGCCAGGCGCGG
Y
GGCTCATGCCTGTAATCCGCTCATGCCTCATTTTGGGAGGCTGAGACAGGCAGATCACTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACATGGAGAA
Celera SNP ID:            hCV11592245
SNP Position Genomic:     284584
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27756):
TGACCAACATGGCGAAACCTTGTCTCTACTAAAATACAAAAATTAGCTGGGTGTGGTAGCATGTGACTGTAATCTCAGCTACTCGGGAGGTTGAGGCAGT
R
GAATTGCTTGAACCCAGGAGGCAAAGGTTGCAGTGAGCCAAGATTGCACCATTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCTTCTCAAAAATAAAA
Celera SNP ID:            hCV11592247
SNP Position Genomic:     32397
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27757):
CTGTATGTTGAAATTCATGGACATATTTCAAATTTCTTTTAATCTGTGGATTCCTCCCTCTTTTTTTCATTGTAATTCATTTGCCAAAGAAAGTGGTGGT
K
TATCCCGTAGTTTCCCATAGTATGGATAGTGTTGACTGCAACCCTGCACTGTCATTTAACGTAAGCTACAGTCTACTCTTAACAGACTTTTGTTATTAAT
Celera SNP ID:            hCV211339
SNP Position Genomic:     89564
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,8)   total(G,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27758):
ATTTGACATTTCCACTGACAATGTCTTATTTCTGAGATGAGGGGAAACGCTTTTTTAAGTGTCTAGTCTATATTTGAAGTTAGATGAACATGGACTGAAC
Y
CCAACTCTATCACGTAGTAGTTTTAAGGCCTTGGGAAAGGGACCTAACTGTAAAAGGAGGTGATAATACCACTTCACTGGCTATGAGGGGGATTAACCAG
Celera SNP ID:            hCV15870300
SNP Position Genomic:     114979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27759):
AGACTTCAAATAGCCAAAGTAATACTAAGCCAAAAGAAAAAAGCTGGAGTCATTACACTACTTGACTTCAAAATATACTACAAAGCTATAGTAACCAGAA
Y
AGCTTTGTATTGGTGTAAAAACAAATGCATAGACCAGTGGAACAGAACATAGAACCCAGAAATAAATCCACATATTTATAGCCAACTGATTTTTGATAAG
Celera SNP ID:            hCV11593123
SNP Position Genomic:     332547
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27760):
ACATCTCTGTCCTGCTTATTTTCATTTAACACATCATGAACATTTCCACTTCATTAAAAAGTCTTCAATAATATTTAAAAAGGCATGTCATTGTATTAAA
Y
GTTTCCCTCCCTCCCTTAAGTTGCTCCCAATTGTGTGTTTTGTACCGTTGGCTTAGCAGTTTCACCAAAGGGAGGACCTGTTGTTCACCTTGGAGCGGTG
Celera SNP ID:            hCV211340
SNP Position Genomic:     89909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27761):
GTGTGATGCTTCATGCCTGTAATCCCAGCACTTTAGGAGGATGAGGTGGGTGCATTGCTTGAGCTTAGGAGTTTTGAGACCAGCCTGGGCAACATGGTGA
R
ACCCTATCTCTGCAAAAAAAAAAAAAAAAAAAATTAACCAGGTGTGGTAGCACATGCCTGTAGTCCCCAGCTAGTAGGGAGGCTGAGGTGAAAAGATCGC
Celera SNP ID:            hCV11593125
SNP Position Genomic:     331948
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27762):
CACTTCATTAAAAAGTCTTCAATAATATTTAAAAAGGCATGTCATTGTATTAAATGTTTCCCTCCCTCCCTTAAGTTGCTCCCAATTGTGTGTTTTGTAC
M
GTTGGCTTAGCAGTTTCACCAAAGGGAGGACCTGTTGTTCACCTTGGAGCGGTGAATATTTGTGTATATCTGTCATATTCTGCTCTAGTGTTGATAGATT
Celera SNP ID:            hCV211341
SNP Position Genomic:     89955
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27763):
GTGGGTGGATCATTTGAGGTCAGGAGCTCGAAACCAGCCTGACCAACATGGCGAAACCTTGTCTCTACTAAAATACAAAAATTAGCTGGGTGTGGTAGCA
T
GTGACTGTAATCTCAGCTACTCGGGAGGTTGAGGCAGTGGAATTGCTTGAACCCAGGAGGCAAAGGTTGCAGTGAGCCAAGATTGCACCATTGCACTCCA
Celera SNP ID:            hCV11592251
SNP Position Genomic:     32358
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27764):
GAATTGATTATGGAGGCTGATCTGCCATCTGGAAGCTGGACAACCAGGAAAGCCAGTGGTGTAATTCAGTCCTAGCCCGAAGGTCTAAAAACCAGGGGAA
M
TGATGGTGTAAATCCCAGTCTATGTTTGAAGTTCTGAGAACCAGGAGCGCCAGTGTCCAAAAAAGAAGATGCATGTCCCAGCTCAAGCAGAGAGCAAACT
Celera SNP ID:            hCV27961721
SNP Position Genomic:     25255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27765):
CTGGACATGGTGGCTCACGTCTGTAATCCCAGCACTTTAGGAGGCTGAGGTGGGTGGATCATTTGAGGTCAGGAGCTCGAAACCAGCCTGACCAACATGG
Y
GAAACCTTGTCTCTACTAAAATACAAAAATTAGCTGGGTGTGGTAGCATGTGACTGTAATCTCAGCTACTCGGGAGGTTGAGGCAGTGGAATTGCTTGAA
Celera SNP ID:            hCV11592252
SNP Position Genomic:     32309
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27766):
AATGCAAAATTTTATCAAACACAAGCACTGGAATCTAACAGAGACTGTGTGCACGATTGTTATTGGAGAACAGATCTCTAGCATTTGTACAGGTGTAGAC
Y
GCCTACTATGTTTTCTGTCACATTATCCATTGCCTTTATTTATAAGGAAAGTTGTCTGGGTGGTGGTGCCTATAAGAAGTCAAGAGTAGCAACAACAGTG
Celera SNP ID:            hCV11592253
SNP Position Genomic:     32041
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27767):
AAGTAACAACATTGAATCAGTAATAAAAAGCCTCCCAACAAAGAAAACTCCAGGACCAGATGGCTTTATTACTTGAATTCTGCCAAATCTTTAAAAAACA
G
ACAGCTAGGCTGGATGTGGTGGCTCGTGCCTGTAATCCCAATGCTTTGGGAGGCCAAGTCAGGAGGCTCACTTGAGGCCAGAAGTTTGAGACCAATCTGG
Celera SNP ID:            hCV11593129
SNP Position Genomic:     330716
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|-,6)   total(G,5|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27768):
TCTTCAGCCTCCAGGCTCTCCAGTTTTTCGTCGAGAGATTCACTATGGAATCGGTGAGTGATCTCTAGCCCATCCTGTCCAGAAAACTCGGCGTGGGAGA
Y
ACAGCGGGATTCTTCTTGGGAGTTGAAATGCAAAATTTTATCAAACACAAGCACTGGAATCTAACAGAGACTGTGTGCACGATTGTTATTGGAGAACAGA
Celera SNP ID:            hCV11592256
SNP Position Genomic:     31914
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27769):
GGTGATGAGGGGAGATCAGTTAGGAGGCAGCTGCAGTGGCCCAGGTAAGAATGATGGAGGCTTGGTCCAGAGCTGGACCAGTGGAGGTGGGGAGAGATAA
R
TGGAGAGATCTTTAGGAAGTAAAGTAGACATGAATTGGGGATGGATTGGATATGGGGGTGAGGGAGATGGTGGAACTGAGATGTCTCTCGGTTTTTCGCC
Celera SNP ID:            hCV11592257
SNP Position Genomic:     30988
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27770):
TCTCACAAAAAAAAAAAAAAAAAGAAAAAGAAAAAGAAAATGTCTTATGGCTACAGCATTGTGCCTGGTAGACAGGATAAGGTCAGAGAGGTGAACAAGA
S
TCAGAACATGTTCAGTGATTTGGATTTTTATTCTAAAGCACTGAGAAGCTGTTGAGGGATGTTAAGCTAGTGGTGGAGAGTTGAGGGATGACACAATCAA
Celera SNP ID:            hCV11592259
SNP Position Genomic:     30274
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27771):
GCCTAAATCAGGGCTGATCAGGGTTGGTAGGGAGGCAGGACTTGTTGCTTGCCAGCAGATATGGAAACTGAAAGACCTAGCGATTAGTACAAAATCCCCA
Y
GACCAATTCAAATGGTCTCAGCATTTACATTCAAGAATCACCACAGGAGAGGAGGTTTTTTGTTTTTTTTTTTGAGACACCGTCTCACTCTGTCACCCAG
Celera SNP ID:            hCV1602037
SNP Position Genomic:     24415
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,7)   total(C,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27772):
TCTCCTTTTCTTCTATGAATGTGTTTTATTTTAATGAGAAGTGAAACCTATAAAAGGACAAGCCTCAGAGTTTGAAGGAACAGAGTTGTAGAATTGTCAG
Y
TTTGAAAAGTGTCATAACTATATTTAGAGAAGCTCTTGTAGCTTTTGAAAGAGATGCTGCTCAAGACAGCCTTCAGGAACAATGTGTCCCTCCATTCACC
Celera SNP ID:            hCV29031626
SNP Position Genomic:     290527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27773):
TAGCAGGAGTCCAAAGTTACCTGGCCTGAGGTTACAGATGCCTAAATCAGGGCTGATCAGGGTTGGTAGGGAGGCAGGACTTGTTGCTTGCCAGCAGATA
Y
GGAAACTGAAAGACCTAGCGATTAGTACAAAATCCCCACGACCAATTCAAATGGTCTCAGCATTTACATTCAAGAATCACCACAGGAGAGGAGGTTTTTT
Celera SNP ID:            hCV1602038
SNP Position Genomic:     24376
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27774):
ATCTCAGTTTGGATTTTAAAAACTCATTAAATTACAGTATCCTGTGCCAAGTGATGTCCTTGGGGCACTGCTCAATGAATTGCCAGCAGAATAGTAGAAA
W
GAGAGATGAGCATTTATTATGTTGGCAATTTTGTATGACTTACAGCTGACTTTAGATATCTATCAGGGAGGAAAGGAAGTACCACTTACCTTCATAAACT
Celera SNP ID:            hCV29031627
SNP Position Genomic:     281630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27775):
CCAATGGGCCGGGCACAGAGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGCT
Y
GACATGGCGAAACCCTGTCTCTACTAAAAATGCAAAAAAGTAGCTGGGCGTGGTGGCGGACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGGAGGAGA
Celera SNP ID:            hCV1602039
SNP Position Genomic:     29992
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27776):
AAATGCCTTGGTTTTTGGACTTCTGTGGAACATACCACTCCCCTCTGGTATTCGTGGGCTCAGCCCTGGGTAAGTCAGCTGCTTAGACAGTCAAAACTTA
Y
GCGTACTTGGCTCCTCAAAGTCACATTTGGGATGATGGCCATTTGTCAAGTGCCTCACTGGCAGCTCAGTTTGGAGAAGAGCACTATGTTTAGGCAAGAT
Celera SNP ID:            hCV29031628
SNP Position Genomic:     292903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27777):
GCCGCTGATAAAATGCAGTAATCAGTCCTGTTGAACCCAGGTTCTTGATTTGTTTTTAACAAAACAATTTCTAGTTTCTAACTTCAGACTGATATAAAAA
W
TACTGTTTTAATCTTCTAAAAGGTATAAAATCCCCCCATTCCTTCTGCATATGAATTCCTAGACTCTTGGTTTTGAAATGTTCGGTTTTCTGCATCACAG
Celera SNP ID:            hCV29031629
SNP Position Genomic:     303819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27778):
GCGGAGATTACGTCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAAAAAACAGAAAAAGAAGATGACACAGGTTCCCAGAAGTGATTTTT
Y
ATCACTCAAGATCAGCCAGAAATTAGGTGGGAGAGCCCGTGTTGGAATGTGTCTTTCTGTCCCAAGGGCTCTCCTCTTTGCTGTGCTTGGGAAATTCCCC
Celera SNP ID:            hCV26963956
SNP Position Genomic:     22918
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27779):
CTTACAGCAGAGGAAAATGCCTCACTTGGGTGGGCTCCTCATAGGCAACTGTTGGAGTGTTACATAAATGAATGAATGAATGAATGAATGAATGAATGAA
T
CTGGCAAAATAGAAGATGCAGTCAAATATATATTTCATATTTTAACAACATAATCGGCACTCATTAGATGTTATCTGTGGACTGACAAGTGAGGAACTGA
Celera SNP ID:            hCV26963957
SNP Position Genomic:     19864
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27780):
GGATTGGGAACTTGGATATCCATGGCAAGTGGTAATGTCTGCCACAAGAGTCACAAGATCTGATGCACAGTATAACAGTGTTGCATTGGATGCTGTGTTG
R
TACCAGACTGCTGGGAGGCAAAAGTAGCAACAGAGAGACCATTTCAGAAGCAGAGTGTATTTGCCATTGCCACAGATAGGGGACTGTGAGAAAAAGAATG
Celera SNP ID:            hCV27908314
SNP Position Genomic:     216777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27781):
CCTTACAGCAGAGGAAAATGCCTCACTTGGGTGGGCTCCTCATAGGCAACTGTTGGAGTGTTACATAAATGAATGAATGAATGAATGAATGAATGAATGA
A
TCTGGCAAAATAGAAGATGCAGTCAAATATATATTTCATATTTTAACAACATAATCGGCACTCATTAGATGTTATCTGTGGACTGACAAGTGAGGAACTG
Celera SNP ID:            hCV26963958
SNP Position Genomic:     19863
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27782):
GCCTTACAGCAGAGGAAAATGCCTCACTTGGGTGGGCTCCTCATAGGCAACTGTTGGAGTGTTACATAAATGAATGAATGAATGAATGAATGAATGAATG
A
ATCTGGCAAAATAGAAGATGCAGTCAAATATATATTTCATATTTTAACAACATAATCGGCACTCATTAGATGTTATCTGTGGACTGACAAGTGAGGAACT
Celera SNP ID:            hCV26963959
SNP Position Genomic:     19862
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27783):
TGTGGGTAATGGCATTCCCCATCAGGGTAGCAGTCTGACAGAGAGCAGAGATTCTCTTTCTGCACCCTACAGAGGACTGTGAGAAGCCTCCAGACTGAAT
R
CAATAATGGAAAAAGTGACTGAAAGATTTCACATCTCCTGAGTGTGGTTACCAACATAGCAGTGGGGACCTATCTAGACAGGCACAGCCTATGCCTGTTC
Celera SNP ID:            hCV11593130
SNP Position Genomic:     323325
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27784):
CACTGTCTTGGACACGTTATTTCATATCTTGTGAGTTATGATTTTTTTCATCTATAAATCTGGCCCAGTGTCTCCCTTGCAGGATTGTTGTGTGAGTCCA
R
CTGGCACCAAGGAGGTGGGAATTCTGCAAGAACAGCTGTCAGTGGTCATCATACTTGTGCTGTCTATGTGCATGGCTTTATTGATACTCGGTGTTCATAA
Celera SNP ID:            hCV11592260
SNP Position Genomic:     28526
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27785):
GAGACCAGCCTGCTCGACATGGCGAAACCCTGTCTCTACTAAAAATGCAAAAAAGTAGCTGGGCGTGGTGGCGGACACCTGTAATCCCAGCTACTTGGGA
R
GCTGAGGGAGGAGAATCAATTGAACCCAGGAGGTGGAGGTTGCAATGAGCCAAGATCGCGCCACTGCACTCCAGTCTGGGCAACGAGTGAAACTGTCTCA
Celera SNP ID:            hCV1602040
SNP Position Genomic:     30078
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27786):
AATGGCTTACTCTCCTAACTTCTGATTCCCTCCTGCTAATTTGTGCTATTCTGTTCCCCACTTTTCACTGGCTTTGGCCCAGACCTTTTTTGCTGCCAGT
W
ACATCACTCATAATCACATTGCTGCTCCCACAGAAAGGTCTCTAGCCAGTTTTAGCGGGCTTTTCCTGACTTTGCAAACACCATTGATTAGAATTAGATT
Celera SNP ID:            hCV29031630
SNP Position Genomic:     283883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27787):
ATTTATATCTATTTAGGTATAAGTGAATGAATTTCCAGGACATTTTTTCTGGGCTAAGTGGAGAGATTGCCTTGCTGAGTACTGTTTGGGGAGATATTCT
Y
AAACCACCTTCATAGTTTAAGAATATATCGATTTCCCATAAGGGAGCTTCAGTGAGAAGAGAATGTCAGTTCCTGGGAGAGTCTCAGGAGATCGCTGCCA
Celera SNP ID:            hCV29031631
SNP Position Genomic:     335867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27788):
GTGGGTGGCTACTGGTTAAGTGTTGAGTCCAGGTGAGATGATTCGTGTCTATGGCTTTTGCCATGACAAAGACCTTTTAAAGTCTCTCCAATGAAGAGTC
R
CTGTATCTGTATTTAAGTTTCCTTAGGATTCCTTGAGCTTGAGGGTTCATTCCCCCTCTCTCCTCAGGTGCTGTCTTCCTGACTGCTGCACTTCTTAGGT
Celera SNP ID:            hCV1602042
SNP Position Genomic:     94606
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,11)      total(G,11|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27789):
CAGGAGATCGCTGCCACTTTTTGAGAGACTAAATTGTTGGGCCCAGGAATGTGGGACAAGAGCTTTGGCCTGAAAACTGCCCGTGGGCCTGCCAGGGTGA
R
CATAGTCACTTCTGCAATACACTGCCTGGGTGCACTTCCTGAGCCCTGGCTGTATGCCGGGCACACTTCTGACATAGACCTCAGACAGAGGCATCCCCGA
Celera SNP ID:            hCV29031632
SNP Position Genomic:     336052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27790):
ACCTCCCATGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGCCGCCATGCCCAGCTAATTTTTGTATTTTTAATAGAAA
Y
GAGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCCGCCCACCTCAGTTTCCCAAAGTGCTGGGATTGATTTTCCATTTTTG
Celera SNP ID:            hCV1602043
SNP Position Genomic:     51014
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27791):
CTAGAGGTCCAAAATCCAGCAGGGTTTTGCTCCCTCCAGAGGCCCTGTGGGAAGAATCTGTTTCTTGCCTCTCTCAGCTTCTGGTGACTCCAGGTGATCC
R
TGGAGTGGTGCAGCCTCTGCCTTCATGGTCATCTCCCCACTGCCGCCGCCTCTCTGTGTTCTCAGAACTGCCTTTGCCTCTCTCTCATAAGTGTACGTGT
Celera SNP ID:            hCV29031633
SNP Position Genomic:     345180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27792):
TTCTATACCTGTCCCTGCCCCACCAGACTGTGAGCTCTCTATGGGCAATGACCTTGTGTTACTCAACTCACCCTCCTCACTGTCAGGCCCAGTGCCTGCA
R
TATACTCAGAGTAGGCTATAAGACATGCAGTCACAGTTGTCATGAGTGTATAATCCAGCAAGACAGTGGTTCTGGTCTTTTGGGTTGTGGGTCCTTCACA
Celera SNP ID:            hCV11592268
SNP Position Genomic:     23880
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27793):
TAACTTTTTAAAATGCTGAGGATTTATTAATCGCTTATAGTAGGTAGGTCCTATGGTACCAGTACGTGCCCTTTTTCTTGTTGTCGGTGAGGTTTTTTGA
Y
GAAGGTCTTATTCCTTAAGCAGAGACCACGTCTATTTTGCTAACCAATACTTCCTTGATATTTAGCTTAATATTTTTTCTTCAGTATATTAGTGGATGAA
Celera SNP ID:            hCV1602044
SNP Position Genomic:     23523
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27794):
TTCACAGAAGGCCACACTTCCTTCATTACAAAGAGTCTGTCTTTCCCCCTCTCAAATTCCATTTCATGCCTTCATAAACTCCTTTTTCTTTGTTTTTGAG
R
CAGGGTCTTATTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCATAGCTCACTGCAGCCTCCACCTCACAGGCTCAAGCTATCTTCCCACCTCAGTCT
Celera SNP ID:            hCV29031634
SNP Position Genomic:     346916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27795):
AAAATGTATAATTTGTGGTGGCCCAGACTGGGTTGAGCCTGCTCCTGCTGGCATGAGGATTGGATTGCGTGGCTAGTTAGTGAGCCTAGCCTCCCTCCGA
R
TATAGAATAAACTTGAGAACTCTCAAGTTTATTTCGTTGTTCTCTTCTTGGGGGTCCCGAGGCTGTTTCTCTGGCATTCACTTATTCTAAGAGTCACAAA
Celera SNP ID:            hCV1602045
SNP Position Genomic:     23310
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27796):
TTGCCCAGGCTGGTCTCAAACTCCTGAGTTATGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGAGACTACCGGCATGAGCCACCACACCCAGCCCAT
R
AATTCTTAATACAGGTTTATGGCTTGTAAGACAAAAGAAAATGACAATTCATTATTTTAGAATCTTCGGATAAAAAACTACGTACGTAATATTTTATAAG
Celera SNP ID:            hCV29031635
SNP Position Genomic:     347198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27797):
CACATTCCACACTTGCACTTCTTCCCAGGGGAACCCTGAAGAAAATGTATAATTTGTGGTGGCCCAGACTGGGTTGAGCCTGCTCCTGCTGGCATGAGGA
K
TGGATTGCGTGGCTAGTTAGTGAGCCTAGCCTCCCTCCGAGTATAGAATAAACTTGAGAACTCTCAAGTTTATTTCGTTGTTCTCTTCTTGGGGGTCCCG
Celera SNP ID:            hCV1602046
SNP Position Genomic:     23269
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27798):
TTAGAATCTTCGGATAAAAAACTACGTACGTAATATTTTATAAGGCCATCACTTGTAAGTGCCTCACAGAGTGCTGGGCATTGTGTTGAGCACTTCGCAT
R
TGTTAACGTACCTCATTCTTAACCATGGTTACACAGAGAGAAAATGCTATTATCTCAACTTCGGGGCGCAGAAAGGTTAAGTGATTTACACTGTTTCTCA
Celera SNP ID:            hCV29031636
SNP Position Genomic:     347355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27799):
CTCATTCTTAACCATGGTTACACAGAGAGAAAATGCTATTATCTCAACTTCGGGGCGCAGAAAGGTTAAGTGATTTACACTGTTTCTCACAGCTAGTACG
K
CGGGGCCAGGATTCACCTGCAGCCTGTGTGGCTGAGAGCCAGCCCTCCTCACCCTCTCCACGCACCACTCTGTGCTCGCAAAATGCAGGCCCACTGGCCA
Celera SNP ID:            hCV29031637
SNP Position Genomic:     347467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27800):
TGCCTTACAGCAGAGGAAAATGCCTCACTTGGGTGGGCTCCTCATAGGCAACTGTTGGAGTGTTACATAAATGAATGAATGAATGAATGAATGAATGAAT
G
AATCTGGCAAAATAGAAGATGCAGTCAAATATATATTTCATATTTTAACAACATAATCGGCACTCATTAGATGTTATCTGTGGACTGACAAGTGAGGAAC
Celera SNP ID:            hCV26963960
SNP Position Genomic:     19861
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,4)   total(G,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27801):
ACAAGATCCTGAGCCAGTGGGAACATCACCAAGTTTCTATGCTCTTTGAGGCCTTGCCACAGAGCAGCTGCTCACCTCTTTGATACACTCCTTTACCAGA
R
ATAAAAAACCGCAAAGCCCAAAACAGTGCTCAGTTTTGTTTTGGTCTTAGGCCAGAAATGCATGCCGTTTTGGCTTGGGTCTTTTAAATGCCGTTCTGGA
Celera SNP ID:            hCV29031638
SNP Position Genomic:     353549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27802):
CCGGGTGTGGTGGCAGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGAGGGAGAATCACTTGAACCCCGGAAGCAGAGGTTGCAGTGGGCCAAGATC
R
CACTGTTGCACTCCAGCCTGGGGGTCAAGAATGAGACTTCGTCTCAGAAAAAAAAGAATTTCTACATTCATTTTACGGGTAAAGAACTTGCCCAGCTAGA
Celera SNP ID:            hCV26963961
SNP Position Genomic:     32808
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27803):
TTTCCCCTGTTGGATCCATTGATGCAATGGACAGAATTCTAGAAATGAGTTTTCATGAATTTCCCAGCGCTGCTCAAAGCTGTGGTCAGCCAAGTGGGGC
W
GGCCACAACAAGAAACCAGACGTTCACTCTTGGTTTGCATGCACATCTTGTGACTGGACTGGGCACAGGTCTGCAGACCGTTCTCTGAGCAGCAACGCTG
Celera SNP ID:            hCV29031639
SNP Position Genomic:     353936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27804):
GTGATTAGACTGGCTGGTGGGTTCAGGGGGTATATGATACACTTCTCTGTTTTTATGTCTGTACACAATTCCCTGTAATAAAAGATTAAAAAAAAAAAAA
A
CCCACAAAAGATTATTCTGCTTTCAGCATGGAAGACTAGATTTCAGAGGGAGAAATGGTGATGAGGGGAGATCAGTTAGGAGGCAGCTGCAGTGGCCCAG
Celera SNP ID:            hCV26963962
SNP Position Genomic:     30831
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27805):
TGTGATTAGACTGGCTGGTGGGTTCAGGGGGTATATGATACACTTCTCTGTTTTTATGTCTGTACACAATTCCCTGTAATAAAAGATTAAAAAAAAAAAA
A
ACCCACAAAAGATTATTCTGCTTTCAGCATGGAAGACTAGATTTCAGAGGGAGAAATGGTGATGAGGGGAGATCAGTTAGGAGGCAGCTGCAGTGGCCCA
Celera SNP ID:            hCV26963963
SNP Position Genomic:     30830
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27806):
ATGTGATTAGACTGGCTGGTGGGTTCAGGGGGTATATGATACACTTCTCTGTTTTTATGTCTGTACACAATTCCCTGTAATAAAAGATTAAAAAAAAAAA
A
AACCCACAAAAGATTATTCTGCTTTCAGCATGGAAGACTAGATTTCAGAGGGAGAAATGGTGATGAGGGGAGATCAGTTAGGAGGCAGCTGCAGTGGCCC
Celera SNP ID:            hCV26963964
SNP Position Genomic:     30829
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27807):
AATGTGATTAGACTGGCTGGTGGGTTCAGGGGGTATATGATACACTTCTCTGTTTTTATGTCTGTACACAATTCCCTGTAATAAAAGATTAAAAAAAAAA
A
AAACCCACAAAAGATTATTCTGCTTTCAGCATGGAAGACTAGATTTCAGAGGGAGAAATGGTGATGAGGGGAGATCAGTTAGGAGGCAGCTGCAGTGGCC
Celera SNP ID:            hCV26963965
SNP Position Genomic:     30828
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27808):
ATTATGGGTTAATGTGATTAGACTGGCTGGTGGGTTCAGGGGGTATATGATACACTTCTCTGTTTTTATGTCTGTACACAATTCCCTGTAATAAAAGATT
W
AAAAAAAAAAAAACCCACAAAAGATTATTCTGCTTTCAGCATGGAAGACTAGATTTCAGAGGGAGAAATGGTGATGAGGGGAGATCAGTTAGGAGGCAGC
Celera SNP ID:            hCV26963966
SNP Position Genomic:     30818
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27809):
CTAATCTCTTGCAGAAACACCCTCACAGACACAACCAGAAATGCTGTTTTACCAGCTATCTGGGCATCCTTTAGCCCAGTCAAGTTGACACATAAAACAA
M
AATAAGGGGTTGCTATGGTTATTAGCAGTGCTGTTAGAGTTCACAAGTGGATAGATTACTGGGCTGGGAAAGTTTGAGAGAGCTTCCTGGAAGAGGTGGA
Celera SNP ID:            hCV26963967
SNP Position Genomic:     25567
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27810):
GAGTTCTGAGTCTGCCACCACTAACCAGCTGTATGACTTGGGAAATGTTATGTAACTTTGGTGAGCCTCAGTTTCCTTATCTAAAATTCAGACAATCACA
R
TTCCTTGCAAAGTTCCTTGTAGGATTTAATGAATGTGCCTAGGATGGGGTCTGATATGTAAAAGGGTTCTTCAGAGAAACAGAATTTATAGGATATATGT
Celera SNP ID:            hCV26963968
SNP Position Genomic:     25008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27811):
AAACTGAAAGACCTAGCGATTAGTACAAAATCCCCACGACCAATTCAAATGGTCTCAGCATTTACATTCAAGAATCACCACAGGAGAGGAGGTTTTTTGT
K
TTTTTTTTTGAGACACCGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTACAACCTCTGCCTACTGGGTTCAAGCTATTTT
Celera SNP ID:            hCV26963969
SNP Position Genomic:     24479
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,7)   total(G,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27812):
GTCACTGGTTCCCAAACCAAAGGAAGCCATTGGTCTTGTTGAGTGGTGACGCTTATCTTCATAAATCCTGGCTGTACTGGGCGCATCCCTTTTAGTTTAT
K
TTCAGCCCAGCCCTCATAGCTCACTTTCCCCTGCTTAAAAATTTTCATGGGTTTTCCCTCACCTTTAGAGAAAAGTTGAGTTACTACAATTTGACTCCCG
Celera SNP ID:            hCV28031183
SNP Position Genomic:     149190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27813):
AGCCATCCATAGTGCATACAAAATTAGATATATCAAGCTACAGAAAAAAACTGTGGAAAAATCTTTTCTTCCTGCAAATGTTTCATCCTCACTTATGTCA
Y
TGTGGCTTGAATTCTAAAGAACCCTGATGAGAAAGAAGGAAAACCAAAGAAAAGCCACTCTTTACCAAACAGTACTGTATCAACCTGCTGTTGGGGTATA
Celera SNP ID:            hCV506340
SNP Position Genomic:     61068
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27814):
TCATCTTGTTTGGTTGAAAATCACATTGGCAAAACCAAATCCAGAATGCTAGGGTATGACTAAATGGTAGAACAAGCTAAGCAACTATTTCTAGGGGGGA
W
AATTTCTGTGCTAGGCTTTGTTACTACAGTGGTTGAACATGGGCTTTAGAATCAGAAAGATCAGTTCAGATCCCCACATTGGAACATAAAAGTTGTGCTA
Celera SNP ID:            hCV28031184
SNP Position Genomic:     120930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27815):
TTGGGAAAATGACTCTGGTAGAATGCTTCTCATTTGACCACTTCTGAGATAAGCCGTTTTCATATATTCTTAGTTGGTTCAGCATTTTCATGGGCCCATT
R
TATAAATTAGGATTAGATTTCAACTCTGTACAAACAAAAACCCAAATAACATTAGCAATTATGTTTGTTTGTTTGTTTTCCCTCTCTGACCAGAGAAGTC
Celera SNP ID:            hCV506341
SNP Position Genomic:     61779
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27816):
TTTTTCTTATCTATAAAGCAACTGCCTTGAGGGAGTATCGCATGAGTTTCAGGATATTCACTGTGATTGAATCCCTCTACTTAGTCAGTGCTTAATAAGT
M
GCAGCCATAATTAGAGTCGCTGAGAATCAAAGGTTAGGTTGGCAGGCAGTCCAGTCCAGAGGTTTTGTGAATATTGCCCAGTTTGGTAAGGTATAACACA
Celera SNP ID:            hCV28031185
SNP Position Genomic:     211340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27817):
AACATTAGCAATTATGTTTGTTTGTTTGTTTTCCCTCTCTGACCAGAGAAGTCTGGAGGTAGTTCAAAGCTAGTCAGTGCCTCCATGGTTATCAGGAGCC
S
AAGCCTTTTCTGTTTCCCTGGTTCTACTCTCTTTATCATATTGCTTTAGGATCCCAAATGGTTGCTGGAGTGTCAGCCGTCACAACCACATTACAGTAGG
Celera SNP ID:            hCV506342
SNP Position Genomic:     61927
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27818):
GCTCTGGAGCTACACCACCTAAATTCAATTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTGAGAGAGTCTCTCACTCAGGCTGGAATGCAGTGTG
G
TGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTTAAATGATTCTCCTGCCTCAGCCTCCCAGGTAGCTGGAACTACAGTTGTACACCACCATACCTG
Celera SNP ID:            hCV11593145
SNP Position Genomic:     245018
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27819):
AAGCTCTGGAGCTACACCACCTAAATTCAATTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTGAGAGAGTCTCTCACTCAGGCTGGAATGCAGTG
T
GGTGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTTAAATGATTCTCCTGCCTCAGCCTCCCAGGTAGCTGGAACTACAGTTGTACACCACCATACC
Celera SNP ID:            hCV11593146
SNP Position Genomic:     245016
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27820):
CTTTAAAGCTGCAAAATACCTTTAGGAGCATCTAGATCATTCCATCCTTCTATAAGCCTGCAAGGCCAGCAGGGCCCACCTTGGATACAGACGGAAGCTC
S
GAGGAGCTCAGGGCCTGCTCCTTGGATTTTCAGTGCCAGCAGCAAGATTTGTGACCCCAGTCTAGTGCTCCGTTGCCTAGTTTGAGCAGAAGTCAAACTG
Celera SNP ID:            hCV29031640
SNP Position Genomic:     358182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27821):
GCAGCTGCCCAGATGGCTCTGCGCTCAGCATACTCGCTGAGAGTGAATTCAAGATTGTTTGAAATGACCTTGAAGATATGATCACACAATGGGCAGCACA
R
CAGACCCTAGGCTCCCTTGGATTTCACATTCCACACTTGCACTTCTTCCCAGGGGAACCCTGAAGAAAATGTATAATTTGTGGTGGCCCAGACTGGGTTG
Celera SNP ID:            hCV11592278
SNP Position Genomic:     23144
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27822):
GTATTGGATGTGGTTTATTTTTCTTCTAGTCCACATGTCCCCCGCAGTTCCTTGCTGATGCCTCCTGCTACTTTGCTTCCTTACTTTCCCCTTCTGCAGA
Y
CTTGAGTGGAAGCAGGCGTGACCCTGCCTTGGGAGGGACCGCTGAACTTCAAGGTTTTCAATTGATTTTGATGCTTTTCTCCTTCCTCAGAAAGGAAAGA
Celera SNP ID:            hCV16110853
SNP Position Genomic:     160320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27823):
TTATCCCATCCAACACCCATGTTTAGCAATGAAGACATGGGGATTCAAAGAAGGGAAGTGATTTGCCTGGACTCCCACAGAGAATTGGGACTGGAACCCA
R
ATGTTTCAGCTCCCAGTTATGTGATTCTTTGGGCCAGACAATGGCCTCTCTGGCCAATTTAGCTACAAGAGCATGTCACTTTGCCAGTTTTACTTTTCCC
Celera SNP ID:            hCV16110854
SNP Position Genomic:     135733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27824):
CAGCCCTGGCTGGTTTCCATTGTGTTTATTTAATCTTTCAAGAATTTTCTTATAAAAGACTGGACAATCAATGCCTTTTTACTGATTAAGGTGAAAAGTT
R
TACATGGTTTTTCAAATATTTGTGCAAATGAGAGAATGTATGAGTCTTTGCATGCATGCAGATATTATACCTAATGTTAGACTATAGCTGTAGGCAGATT
Celera SNP ID:            hCV16110855
SNP Position Genomic:     131528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27825):
TTCAGAGTTGCACAGTCAATTTTAGAACATTTTTATCATGCAAAAGGAAGTCCTGTAACTGTCAGAGTCACTCCTCATTTTCCTCCAAATCCTTTACTAA
K
CTACTTTCTGTTTCTGTGGATTTGCTTATTCTGGACATTTCCAAGCCATGCTTTTTAATGGCTGCACAATATTCTGTTATGTGGATATACCTTACTTTAG
Celera SNP ID:            hCV240653
SNP Position Genomic:     105977
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,14)      total(G,1|T,14) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27826):
TAACTCCCCGCCTTCCCCACTACTCCTCAGGACATCAGATCACATGGAAATGTATGTTTTCCTGTTTATTATTCATTTCTCAGGCACATCAGCAAAGGTA
Y
GGCTGTAGACAGCTGATGTAGAAAACAGTCCTGGCTTTGAAATCATGCTTTTTAGTATTTAACCTCTCTGTGCCTCAATTTCCTTGTGCATAAGGTGGGG
Celera SNP ID:            hCV436930
SNP Position Genomic:     57820
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27827):
GGATCCTGAAGAAATAGGCCACTGATTGTCTCTGAATATATTCTATAAGGTCATTTTCAGTTCTCAGGGCTGGGAAACACAATGTGGAGAGAAGCATTAA
R
TTAATGCTTTGCTTTTAAATGTTGGGATTCTCATAGAAGAATCCATTTCTGCTCATTTGCTGTCTGGCTGTCTTAATGCATTCAAAGTGTAGAACCCTTG
Celera SNP ID:            hCV240657
SNP Position Genomic:     106929
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27828):
TGCTGTGGAGTCAAAAAGACCTAGGTTCCTAAGCCAGCTCCGCCATGGCAGTTTACTTAAATTTTCTCCATTTTCTCATTTGTGAATTGGGGATAATGAT
R
GTACTTAAAACATCATTGTGAAGACAATAGAAAATTTCATGTAAGGTGCATAACTTACCACCGTTTCTGGCATATTTAGTACTCCCTAAAGCTTGTGATT
Celera SNP ID:            hCV240659
SNP Position Genomic:     107740
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27829):
TTGGTGGGTGTGTTATGTAGATTATTTCATTGAAGACATTACAACAATCCTGTGGTTACTGTACCTTTAATCCAGATGAGGAAACTGAGGCAAATTGAGA
T
ATATAACTTGTTCATTTACCCTATTAGTATGTGTTACAGACTTGAACCCAAACATTCTGTCTCTGAACCCGTTGCCTTTGCTCTTCTACAATATCCTGCC
Celera SNP ID:            hCV11593152
SNP Position Genomic:     221144
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27830):
TTATTGAGCTCATCGTGTACGAGGCACTTGGCATGCAGTATCTTGCTTAAATTTAATAACATCTCTGTGAGGTAAATGCCATTATAATTTCCATTTTCCA
K
ATGGGGAGGATGAGGTTTAGAAAGATAAAGCTGCTTGACCAAGGTACCACACAGACAGTAAATGATAGACTTGAGATTTGAACCTAGGCCTGTCCTACTT
Celera SNP ID:            hCV27965964
SNP Position Genomic:     211833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27831):
TAATATTGGGATGTTTCAGCATTTAAATTAAAATGGTGCACATTTGCTGTTCCTTCCAGCTTTCCCAGGCTAAATCTGGAAAGTTCAATCCACACGTCCA
Y
GTAGAATATGAGTGGAATCTTCGACAGGAGGAGATAGATGAGAGCGATGATGATCTGGATGACAAAGTGAGTGTAAATTATGTCCTCGAATTCTCAACAA
Celera SNP ID:            hCV15977530
SNP Position Genomic:     318029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27832):
TGCCATTTGTTGAATACCTACTCTGTGCCAGGTAGAGTCCATTGTGCTTTTCAGTCTTCAATTAGTTATTTTCACTGTTTACATAAAGATTCAGATTAAT
R
ACTGTTAAGGACCACCTTTGAGCCTTAAACAGACCCTTCTTGACAACTACAGTCAAAAGATTCTATGGCTTTACCTATATCTTGCTGCCTCCTATTTCAA
Celera SNP ID:            hCV11593154
SNP Position Genomic:     204160
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27833):
CCCTCCAAGGGCTTTTGGCCTCATCCAGAGAAACCACAAGAAGCTGAACCCTGCTATCTGTTTCCCAATGCATTTTCATAATTTTCTTGTTTTCTCACAA
W
GCTTAAGTGATACAAAACCCATGTGATATTTTTTAAACATTTAAAAAGGATTTCTATATTTCTGGTTGGAGATTACCAATCACTCAGCTTCCCAAAGTGA
Celera SNP ID:            hCV11593155
SNP Position Genomic:     200866
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27834):
AGGTGGGAGAGCCCGTGTTGGAATGTGTCTTTCTGTCCCAAGGGCTCTCCTCTTTGCTGTGCTTGGGAAATTCCCCCAGCCCTGGGCTGCAGCATGAGGG
R
GCAGCTGCCCAGATGGCTCTGCGCTCAGCATACTCGCTGAGAGTGAATTCAAGATTGTTTGAAATGACCTTGAAGATATGATCACACAATGGGCAGCACA
Celera SNP ID:            hCV11592280
SNP Position Genomic:     23043
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27835):
AATAATGGAAAGAGAGCCCAGCTGACCCCAGCTTTGCTCTTTACAGGTACTCTGTATTTGTCTTCTACCTAACACATGGTAGGGGCTCAACAAGGGTTGA
R
TGAATCGCTACATGTTGGCTGGATGTGTTACTACCTGGGAAGCTCTCTGAGACCAGCTATTAATATTCACTAATCATGAATATTCATGAATGGATCCATC
Celera SNP ID:            hCV11593156
SNP Position Genomic:     200370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27836):
TTTTTCTCTTAGCCCTTATTTAATTTTACATATATGACATTTCAGAGGATGTCACTGCAGTTGTTGTTTGGCATTTATGGGAATAAAACTTTGTAGCACA
Y
TTAGACTTGTATTATTTCTAGAGGGAGCCTTGTTTGATTGAAGGACAGTATCCCCTGTCTCTCTAAAACATGAGGCTCTTAAAAGTGCATTTTATTTAGC
Celera SNP ID:            hCV11593157
SNP Position Genomic:     193265
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27837):
CGCACACGTTTTATCATACTTCTAATGATTTGGGAAAGATAATCTTATAGCCTATATTATCTACCATTTTTCTCTTAGCCCTTATTTAATTTTACATATA
Y
GACATTTCAGAGGATGTCACTGCAGTTGTTGTTTGGCATTTATGGGAATAAAACTTTGTAGCACACTTAGACTTGTATTATTTCTAGAGGGAGCCTTGTT
Celera SNP ID:            hCV11593158
SNP Position Genomic:     193199
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27838):
ACATTCTAGGGATTTGACAAATGTGCGATGATATGTATCCTCTGTTACTGTATCAGAGTAGTTTTAGCAGCACTAAAAATCTCCTGTGGTCCACCTAGTC
R
TCTCTCCTTCCCTCATCCTAAACCCCTGGCAACCACTGATCTTTTTGCTGTCTACATAGTTTTGCCTTTTTCAGAATGTCATATAGTCAGAGTCATAAAG
Celera SNP ID:            hCV16110865
SNP Position Genomic:     129927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27839):
ATGATGGCATTTTCCAACCTGTTTTTTTAAATTAAAAGATTGCCAAAATTCAACTGCCATATGTCATAACTAATTTTTTTTTTTAACACTAAAAGAAATC
K
CAAAACTTAAAAGCACTGTGAAAAGCTCTTCAGGTCATTCCTACTCATTATACCCCTTGAAATGTTTTTCTGGCTAAAATTACCATTTAGGTGATAAAGT
Celera SNP ID:            hCV27839582
SNP Position Genomic:     196227
SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,4)   caucasian(G,30)   total(G,56|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:27840):
CTTAGTTAAAACAGTCCTTTTAATTTTAATTAATGCATTGAAGCTACTTCTTCCTCATAATTTTCTACTTCATAATTCTGTTGTCTGAGCCCATAACAAT
R
GTTATTTCTATTATTTGTAGAGAATTATAAAGCTCTTTCATATTTGTTCTACCATTTAATCCCTCTATCTTTATCTCCTCCCCTCCCCTCACCCCCCTCC
Celera SNP ID:            hCV16110866
SNP Position Genomic:     123465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27841):
TAGTGAAGACTTTATATAGAACATGTAAATAATTGTATGAAGTAGTTAGTGTACAAAATAATGTCATATATGCAGCTGCATTTTCTGCCTTTTTCACCTA
R
AAAGTTTTTTTGTCATGTCATTAAAAACTTTTGCCCTCTGTTTTCATGACTACATAATATTCTGTTGTGTGGGTGTACCTGTCTTACTGCTTCACCTACT
Celera SNP ID:            hCV16110867
SNP Position Genomic:     113850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27842):
AGACCTGAAACTGTGAACCTACCAGAAGAAAACTTTGGGGGAAACTCTCCAGCACATTGCTCTCAGCAAAGATGTCTTGAGAAAGACCTCAAAAGCACAG
W
CAACCAAAGCAAAAATGAGCAAACGCAAGTGGGATCATATGAAGTTAAAAAGCTTCTGCACCACAAAGGAAACAATCAACAAAGTGAAGAGACAACCCAC
Celera SNP ID:            hCV26059600
SNP Position Genomic:     243517
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27843):
TTTTGCTAATCAATATCTCTTTGATAAAAGAGCTGGTCTCACCCTCACAGCCTTAAGGCAGGTGAAGTTTTCATTATTTTTATTTTTATGGTTAACTTTT
R
CTATACAAGTAATTCTGATAACAGGAGCTTGTCTTTATACTGTGGTGACTGTATGCCAGGCACTGGCACTTTGAGTACTTTACATGTTTTATTGGTTAAG
Celera SNP ID:            hCV26059601
SNP Position Genomic:     228758
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27844):
AGGTGCCCCACCTCAAGTCTAGTCAAGAGATTACCAACCAAATGGAGTCAGAACAGGTTTTGCTATTAAGTGAGTTTAAGCTAAAAAAAAAAAAAAAAAA
A
GCCGTGTATTTTATATATATATATGCAAATTTGCTCTAACAGGCTGCATACTGTTTCATTGTATATCTGTACCATAACTGATTATTTGAATTTTCTGTTT
Celera SNP ID:            hCV26059602
SNP Position Genomic:     228115
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27845):
AGAGATGGAAAACTCCCCAGCATATTCAAGGGGCTGCAGACATTTTGGGGCAGGATGGGTGGAGGAGTCAGAAATGCAGTTTCTGAGGTAAAAACTCAGA
M
CTGACTACGGAGGACCTTGGGTGTTGTACTAAGGGACGTAGACTTCATGATAAGGATAAATTAAACAGTAAGCACCATTTGTTTTCTGGGAGAAATTAAA
Celera SNP ID:            hCV26059603
SNP Position Genomic:     267274
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27846):
GCCTGCATGTCTCACCTTGGCATTGACCTCTCCTGTCCCCTAGTACCTGCCTAGGTGCAGCAGGATAGATTGAGAACCAAAGTTTTTCCAAAGCTATTTT
Y
TCAAAGCCATGAGGACTGATATATTTTCTCTGGTTGGTAGTAGTGAATGCTTTTTAAAAAATCTTTATTTTAAAATATTTTAATTGTGGTGAAGTATGCA
Celera SNP ID:            hCV27909219
SNP Position Genomic:     42145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27847):
GGTACTAAGCTTTAGTCCCTTTCATCTAGTAGCTCATTATCTAGTCAGCCATATGAACAATCCATCATGCCTAAAGTGGTATGGATACTATTAGAGATAC
R
TTGGAAGATGACTGCAGCCAGACAGAAACCTACAAGACCCAGAGATGGAAAACTCCCCAGCATATTCAAGGGGCTGCAGACATTTTGGGGCAGGATGGGT
Celera SNP ID:            hCV26059604
SNP Position Genomic:     267133
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27848):
TCAAGCAATTCTCCCACCTCGGCCTCCCAAAATTCTGGGATTACAGACATGAGCCACTGTGCCCAGCCCCATGACTATAGATTTTCAATCCTAGTTTTGA
R
GACATGCACTTCAGGAGCATATGCTGAAACATAGTACATTCTACAACTTTCCTCTTTAGACCACTTCTGTCTTTCTGGGCAGCCAAAACAGGCATGTCTC
Celera SNP ID:            hCV26059605
SNP Position Genomic:     266729
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27849):
CTTTTGCAATCCAAGATTGTTTTTCCAAGGAGAATTTTCTACTTTTTCAGGTAATCATAGTTTCTTTCTTCCTTTTCCCTTTCCTTTTTCCTTTTCTTTC
Y
TTTCCTTTCCTTTTTCCTTTCCTTTCCTTTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTTTCTTTTTCTTTTTCTTTCCCCTTTCCC
Celera SNP ID:            hCV26059606
SNP Position Genomic:     217658
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27850):
AGGACACATGAATTTTTCTTTTGCAATCCAAGATTGTTTTTCCAAGGAGAATTTTCTACTTTTTCAGGTAATCATAGTTTCTTTCTTCCTTTTCCCTTTC
Y
TTTTTCCTTTTCTTTCTTTTCCTTTCCTTTTTCCTTTCCTTTCCTTTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTTTCTTTTTCTT
Celera SNP ID:            hCV26059607
SNP Position Genomic:     217641
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3|C,3)   total(C,3|T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27851):
CAGCCATAATTAGAGTCGCTGAGAATCAAAGGTTAGGTTGGCAGGCAGTCCAGTCCAGAGGTTTTGTGAATATTGCCCAGTTTGGTAAGGTATAACACAT
A
GTGTCAGTTAGATAAACCCCTCAGGGAGAGACCTATTTAATAATTGCTGTGGTTCTGAAAGTTTTGAGGAAGGCCTCATTGGATGAATATACAAAGTATG
Celera SNP ID:            hCV26059608
SNP Position Genomic:     211442
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27852):
GCAGCCATAATTAGAGTCGCTGAGAATCAAAGGTTAGGTTGGCAGGCAGTCCAGTCCAGAGGTTTTGTGAATATTGCCCAGTTTGGTAAGGTATAACACA
T
AGTGTCAGTTAGATAAACCCCTCAGGGAGAGACCTATTTAATAATTGCTGTGGTTCTGAAAGTTTTGAGGAAGGCCTCATTGGATGAATATACAAAGTAT
Celera SNP ID:            hCV26059609
SNP Position Genomic:     211441
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27853):
TTGTTTTTTGAGACAGAGTCTTGCTCTGTCCCCTAGGCTGTAGTGCAGTGGTGTGATCACACCTCACTGCAGCCTGATCTCCCAAGCTCAAGCAATCCTC
Y
TGTCTCAGCCTCCCCAGTATTTGGGACTGGAGCTTACCGCAGCCTTTTAGTGACAGTAAGTCTTTTTTTAAATTTATTTTTATTTTTTATTTCTTCATCA
Celera SNP ID:            hCV11593163
SNP Position Genomic:     161639
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27854):
TTCTTCATAGTTCTTAACAATTTGTACTACTGTTTTAGCTTCCTCTGTAGTTGGCACACTAAAATTAGATGTCTTTTTTGTTTCATTGTCTTCAACATTC
K
TTCCACAGAACCCACCTGGCTTTCAACCAACTTGGGTATTTTGACCTGTATAGAATGTTCTGGCATCCATAGGGAAATGGGGGTTCATATTTCTCGCATT
Celera SNP ID:            hCV15977540
SNP Position Genomic:     307626
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,256|T,1231)   total(G,256|T,1231) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27855):
TGAGCAGTACTTAATAGACCTTCAGTCCATCACTGTCAGAGGTGATAGTGGCAGTGAGGGAACATCTCTCACAGGCCTAGAGGTGTTGCATAGGGTCTCT
K
AAGGAAAGCCTTTCTCACTTTTTCACAAGGATAAAGTGCTTAATTTTGTTTTCAGTTCAGTATCAAAGGGAAACTTTTATGGTAGCCCCTAGGCTAAACC
Celera SNP ID:            hCV15977541
SNP Position Genomic:     307395
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,645|T,826)   total(G,645|T,826) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27856):
TTTTGATGACCAAATAAAATAAGGAACATGTAAGTGCCAGTTTGAGGTATTCTTAAACAGTACAAAGTTGCTGAATGAGACACAGACTCAGGTTTCTAAC
C
TGGCACATAGTTGATGTTTATAAAAGTTAGTTCCCATCTCCTCTTTTTAGTTGTAGGTTTTATATTGATTATTGGTTCAAGAGAGGCAAAAGGTTGTAAA
Celera SNP ID:            hCV11593165
SNP Position Genomic:     153752
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27857):
CCTTACCTACCCTATCTTATCTTTTATTATCCCCCAACATCCATCCATCAAGCTGTCCTGTCATCCTTCTATACTTTCATCCATCTAACTATTATTTGCT
W
GTTCCAGGCACTGTGCTTTGGACAGGCAATATACAAAAATGTGTAAAGTTCAGTCCTTGAACTCTTGGTGATATGTAGTCAGCTTTGTTCAATTAGAGTC
Celera SNP ID:            hCV11593169
SNP Position Genomic:     146486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27858):
TAGTATCACCAGCTGTTCACATAGTGCCACAACACTCAAATCCAAGGACAACTCTTAGAGGAACTGGAGTGCAGGGAGAATTATTCATTACATCTGCTCA
R
AAAGATAAAGTGCCCTACCAACACCTTTGCAAATTGAAATTCCCTTGCTCTTGGCATGTGATCATCCTGCCAACTCTGTGAAAGCTCCCTTAGCTACTCA
Celera SNP ID:            hCV16110871
SNP Position Genomic:     106577
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27859):
AAAGAGCCAAGCCAAAGCTGAAGCTTTGTTGTATCTTCATCAAGGGAGGTTCCCACCCAATGTCTGTTCCACAACTGGATGCCATGTTTTGAGAGGAGCA
M
CAGAGACCAGGATGGAAACAGAACTGGAAAACTTATTTAGTTAAGTGGCTTAGTGAACCGCTGTGTCACTCAGAGATGAGGCAGCAGCAGTGGTTGAGGG
Celera SNP ID:            hCV16110872
SNP Position Genomic:     104449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27860):
GAGTACTTTACCCACGGTATTTTACAGAAGGCCTCTGTTACTGGATGTTCTGAGGAGAAAATCTGGAAAGTAAACAATATTAACTTCATTTTACAGATGA
R
AAAACTGAGGGAAGGAGTGACTTGACGAGGATGTGCAGTCAGGGGAAGCTGGAGTTTGTGTCTCTGAGGTCTGTGGTCTTACATGATGAGTGCCACCCTT
Celera SNP ID:            hCV16110873
SNP Position Genomic:     91403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27861):
CCTGTGGGGTGGGTGCTGTTTCTTCATTTCACAGATGATGAACTAGGTTTAGAAAGGATTCAACTCAATTTATGCTCTTTCTACTCAGACTCATCCTCAA
R
AAAAAAAATGCAGATATGCATGCAATGCTAATGAAAAAGAACAAACAGGAAATAGGCTTCTGCTGAGACATGAGATATGTAGGTTAGACTCAAAAGAACT
Celera SNP ID:            hCV16110877
SNP Position Genomic:     87251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27862):
AATTTGGTTTTCACACTTTGGCTGGTGCCTGTTGAAGCGTCTAGCACACTGAGTGGATGAATAAGTGCCTAAATGATGTAAAAACCCAAGTTTGATGATC
R
TCAGAAAAAATCTCAGAGAAATTGGTTCCAGGATCCCCACAGATACCAAAATCTATGCACATGCAAGTCCCACAGTTGGCCTGTGGAACCCACAGGTATG
Celera SNP ID:            hCV26059610
SNP Position Genomic:     190731
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27863):
GAAAAGATAGTTGCTTTTCTCTGTTCTTCTGAGACCTCTTGCTGGACCCCTCAGTAAATCTCTGCCTTTTGTGATCAAAGACAGTGCTGCAAGCAATCCT
Y
CTTGGACTGGGCAGATGTGAAAATGACCCTGTTGCTTCCAGCTCCACCCTGGCATGCTTAGTCTGGGACTGTTGACCCAACCTGATTTGCCTATGAGCTG
Celera SNP ID:            hCV16110878
SNP Position Genomic:     82715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27864):
TAAAAATGGCAAGATATAAGGTATTATTTTGTTTTTGAATAATGGTAATATCATTTGATGCCATCCTGTGTTCTAAGTTTAAAGTTGTTAGATTGGTTGT
T
GCTACTTAAGAAAAACTCATTCAGAGAGTTAGGAAGGAAAAACCAATAGCTTGAAAACCTGTGTACCATTTTAAGAGTTACTTGATGTTTGGTAACTTCT
Celera SNP ID:            hCV26059611
SNP Position Genomic:     178872
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27865):
CCCCTCCCTTTATAGTATAACTCAATCCACAAAATGTAATTTAATAAAAGCTTATATATATATAAGGATATATATATATATATATATATATATATATATA
T
ATATATATAAGAATGTGTATATTCAGGAAGAAGATTTTGAATTTTCTTTATCCTTCCTGACTTCAAGCTATATTTTTCTTTAAATATGTTCTAAAATTTA
Celera SNP ID:            hCV26059612
SNP Position Genomic:     176962
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27866):
GAGCTTTTGGGGGGAATTTTCAATGGAGCCTATTTTATAAATATTTTCAAAATTCTGTTATACCCTTTATCCCAACATGGATCATGGAAAGTAAGGGGTT
Y
TTTTAGTCTAAATATTAGTTAAAGACATTTGAGGAGCTAGGAATTCCAGTTAACATTCAAAGGCTACTTTCTTCATACTTGATAATTATTTTCTACCTCA
Celera SNP ID:            hCV16053626
SNP Position Genomic:     171088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27867):
TCACAGGTGAACTTGTGGATGGGAACAGACAGTAGAAAAGGGACAGCATTCTTTGAGAATAGGTCTTGAGGAAAGGGAATACCTTTTAAGCTGAAAAGAC
R
GAAGTGCTTTTCTCTCCTAGCCATGGAATAGATGATGAGTTGGTCCTCTGCAGAGAAGGGACCCGAAGGGCACAGGCGAAGGGAGTGGCCAATGCCAGTG
Celera SNP ID:            hCV16053627
SNP Position Genomic:     117655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27868):
TTTTGTTTTTAGATCATGTACAAAATGAAGAAAACTATGCACAAGTTCTTGATAAGTTTGGGAGTAATTTTTTAAGTCGAGACAACCCCGACCTTGGCAC
Y
GCGTTTGTCAAGTTTTCTACTCTTACAAAGGAACTGTCCACACTGCTGAAAAATCTGGTAAGACATTTCATATGTGAGTAAAAAGAATTACAGCCTTTCC
Celera SNP ID:            hCV25964629
SNP Position Genomic:     219093
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:27869):
TACTTAGAATTGCAGAAAGAATGAGACATCCTTAGTGGTAAACATTAATGAAATCTACGAATAGATACTCTCAACAACAATGCATATGCATATCTGTTGA
Y
ATGGAAAGACAGTCGTGTTGTATTAACTGGAAAACAGCATGATATAAAACAACACAGAAAGGATGATCCCATTTTATGTACCTATAAGGAAATATTGTAG
Celera SNP ID:            hCV11593172
SNP Position Genomic:     131930
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27870):
CACCTGCCTCGGCCTCCCAAAGTGGTGGGATTACAGGTGTAAGCCACCATGCCTTGCCTCTTCATCATCATTCTACAGGCCCATTTCTTATTAGTTGATA
Y
GTACTGAGGGAGTTGAAATTATGTTTTATGTCTGTCAAAAATATAGATGTTGAAAAATTAAATCTATTGTTGAAAAAACTTTAAAAATGATTTCCGGATT
Celera SNP ID:            hCV11593173
SNP Position Genomic:     124994
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27871):
TAGGCTGGAGTGTAGTGGTGCTCGCTGCAACCTCCACCTCCCGGGCTCAAGCCATCCTCTCACCTCAGCCTACCAAGTAGCTGGGACTACAGACAAGTAC
Y
ACCACACCAGCTAATTTTTGTATTTTTTATAGAGATGGGGTTTTGTCATGTCGCTCAGGCTGGTCTCAAACCCGTGAGCTCAGGCAATCCTCCCACCTCG
Celera SNP ID:            hCV11593175
SNP Position Genomic:     113290
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27872):
TGAATTTTCTCCATTTTTTTTTAATGTGATACTAGAGAGGAATGATACTTCTTCCTGGTTGTGTGGAAAGCTACATCTAGGTTGGTTATAATTTTCATTT
T
AACTCTTCCTCCTTCATACAGCCCTAGACTTCTCAGTGTTTAAATCTAGGTGTCAGGCCTCATTCATATGTATGTATGTATTCTTTTTCTTTTTTTTTTA
Celera SNP ID:            hCV11593176
SNP Position Genomic:     113067
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,7)   total(-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27873):
CAGTTATAACACTTCATTCTGTTCTATGTATGGTAACTAGTTGTTTACGTATTAGTGTCTCACTAAACTGTAAATAGAGGCTATGCTTTCCTCTTTGTAT
R
TCCCAAAACGCCTTCCTCAGCACAATAGCTGATCTTCAACTAGTCATTCAGACAGGTGTGTTTGAACTTTTAGATCACATAGTTTAAGAACAGATGTCTC
Celera SNP ID:            hCV11593177
SNP Position Genomic:     108122
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27874):
TTAAGTTAATGCTTTGCTTTTAAATGTTGGGATTCTCATAGAAGAATCCATTTCTGCTCATTTGCTGTCTGGCTGTCTTAATGCATTCAAAGTGTAGAAC
M
CTTGAACATTTACATTTATTTGTTGTTGCTGGTGTTTTCTCTACTCTTTGTTGGCCTCCGGATGGACACCCTGTTAATATTCTTTGACTAGCGTGGAGCG
Celera SNP ID:            hCV11593178
SNP Position Genomic:     107025
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27875):
GCGGAGCCATTGGAAGACAGACAGGGCCATAGTATCACCAGCTGTTCACATAGTGCCACAACACTCAAATCCAAGGACAACTCTTAGAGGAACTGGAGTG
M
AGGGAGAATTATTCATTACATCTGCTCAGAAAGATAAAGTGCCCTACCAACACCTTTGCAAATTGAAATTCCCTTGCTCTTGGCATGTGATCATCCTGCC
Celera SNP ID:            hCV11593179
SNP Position Genomic:     106548
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27876):
ATCGCTTGAACCCGGGAGGTGGACATTGCAGTGAGCTAAGATCATGCCACTGCACTCCAGCCTGGGCAACAAAGAGCAAAACTTCATCTCAAAAAAGTGT
Y
TAAAGATGAGAATGTGGAAGTGAAGTGATAACTCAGTTATGTCCCTGAAAGTTCTAGCCGGAAAGGATGTGATGCCATTTAGAGGAAGGGAAGCAAGCTG
Celera SNP ID:            hCV475864
SNP Position Genomic:     335364
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27877):
AAGGTTTCATCCTGGCGTGTGAGTGTTTTCCAAGCAAAAAGCCAGTGTTTTACTTATTCAGCAGTGAAAGCACACTGATGTGTGCCATTTTACTCTTGAC
M
ATTTTTAAGTTATGAGTAAGTGACTAGGAGAGCATAAGCGTTTTCCCTAAACGGGAGCAGGCAGGCATTTTAGGACTGCTGTGACCCAGACAGTAGAAGG
Celera SNP ID:            hCV502169
SNP Position Genomic:     79067
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,7)   total(A,5|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27878):
TTTCCAAAATATTACGTCATATAGAGAACATTTCAATAATCCTTCCCCCTCAATCCTTGGTCCTAGGGGTGAGAAAGAAAAAACAAAAAGCTTTTTAGTC
M
TAGGTAACTTCCACACCTCAACTAAAAAGCTTTTTAGTCGCCTAGGATTTGCTTAAAGAAAATCCCATTGTGAAATTCCTGGAATTTGTACCTTTGGCCC
Celera SNP ID:            hCV1021491
SNP Position Genomic:     219289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27879):
ATGTGCTAAGTTATAAACAGCTGACTTAGGGCCATCATTTTAAAGTATGAAGCCTTCCAGTCTTCGCCTCCCCAGTCTTTTCCATTCTTAAAGTTTGGAC
Y
AGTCTGCAAGGTAGCTGCCTCCCTAAGGATTTGGGGTATTCTCTAAAATTTGAATATATGATATTCTTGTGCCCTTTGAATACGCTGTTTAAAAATAAAT
Celera SNP ID:            hCV1021492
SNP Position Genomic:     144184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27880):
TTCCTACAGTTTCAACAAACCCTGATGGTGGCATTTCAGTTTATCGTAGAGGTTTCTTTTCCCCTACAAGGGTCATTCTCTCTTGCCCAATTTTGGCTGA
R
AAGGGAGGAATATCATGGCCGTTTTGGCTGTATGGTGTTACTGTATAATGATATGGGGATTGGTGAGTGAAAAATAAAATGAACCCTCACTTGCTTAGGT
Celera SNP ID:            hCV16053637
SNP Position Genomic:     116389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27881):
TAAGTTTCCATATCATTTTTATTAACCTCTTGTTTAGATTCAAGCCTACAGAGTAGCTACTCCTGTTGTGTTCACAGGATTTTCTCCTGAGCTACATTTT
Y
TTAACCTCAGACTATCTCTCCCTGACCAAAGAGCCCAGTAGTCCTTAGTGGGGTGGTGTGGGAGACACAGCCTCAGCAGGGCTGCTGTACTCTTGATCAA
Celera SNP ID:            hCV16053638
SNP Position Genomic:     97942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27882):
TAACAAGGTCCCTAACACTGGAGCCAAGCTTTGGTAACACCCTACACTGAGGTCCAGTTGGAGCTGTTCAGGGAATAACAGCAGCAGCTTGCCCAACAAT
K
TTGGTACAACAGTTTGGTGGGAGAGGATGAGTGACTTATTTGAGCGGAGCCATTGGAAGACAGACAGGGCCATAGTATCACCAGCTGTTCACATAGTGCC
Celera SNP ID:            hCV11593180
SNP Position Genomic:     106404
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,7)      total(G,6|T,7) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27883):
AAGTACTATAAGAGAAATAAGTTTCCATATCATTTTTATTAACCTCTTGTTTAGATTCAAGCCTACAGAGTAGCTACTCCTGTTGTGTTCACAGGATTTT
Y
TCCTGAGCTACATTTTCTTAACCTCAGACTATCTCTCCCTGACCAAAGAGCCCAGTAGTCCTTAGTGGGGTGGTGTGGGAGACACAGCCTCAGCAGGGCT
Celera SNP ID:            hCV16053639
SNP Position Genomic:     97925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27884):
TTTGAGCACCTACTATGTGCCTGGTTTTTGGTAGATGACTGAGGGAAGGGTAACAGAATGAATTAGACATGCTTTCTGTCCCAAAGGTGTTCACAGGTGA
R
TGGGGTGGTGGTTGTGGGGTGCCAGGTTAGCTGCAATATAGCATAGACCGGTCAGAGCTGTGATAATTCAGATTGCTCTGAGAGCACACATGAGGTCATG
Celera SNP ID:            hCV11593182
SNP Position Genomic:     103235
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27885):
TGATGTGCATTGTGTGTTTGCATGTGTGTGTGTATGTGTTTCTAGATATGTCTGTGAATTTTGGGGTGTATTTTTTAAATGCTTTGCTTGTATTTTTAAT
R
TTGCTAATAAAATACTAGCTACATGATTTTGAGGGCTTGGCACCTCTTGACTAGGTAACAGTACTGTGCTAAACTCTTTACATGTTTATCTAATACTTTT
Celera SNP ID:            hCV11593183
SNP Position Genomic:     101977
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27886):
CCTTGGGCCGAGACTTCACACAGAAATATTTGGGGATCTGCTCTATGGTTCTCTGGGTTTGGGCCTCAGTTTCCCCATTTTTCAGCTTTTGTGGATTCTG
R
TCATTCTCCCCACTTGATGTGCATTGTGTGTTTGCATGTGTGTGTGTATGTGTTTCTAGATATGTCTGTGAATTTTGGGGTGTATTTTTTAAATGCTTTG
Celera SNP ID:            hCV11593184
SNP Position Genomic:     101862
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27887):
TTGACACATATTTTATCCTTTGATCCTCATAACAAATCTGTAATGTTAGTAATATTTTAATTTTCAAGTAAGGGTCCTGAGGCTTGGCAGTCAGCAGTTT
Y
CTGTCCCAGGTTTTACTGCCGAAGGGAAAGAACCGAGGTTTATACAAAGATCTGTCTGACCCTCAAGTCTCCAAGTCTCTGCCATTAACTGCTCTGCTTG
Celera SNP ID:            hCV11593188
SNP Position Genomic:     92225
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27888):
GTCAAGTTTTCTACTCTTACAAAGGAACTGTCCACACTGCTGAAAAATCTGGTAAGACATTTCATATGTGAGTAAAAAGAATTACAGCCTTTCCAAAATA
Y
TACGTCATATAGAGAACATTTCAATAATCCTTCCCCCTCAATCCTTGGTCCTAGGGGTGAGAAAGAAAAAACAAAAAGCTTTTTAGTCCTAGGTAACTTC
Celera SNP ID:            hCV15971685
SNP Position Genomic:     219200
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(C,4|T,36)   total(C,6|T,72)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27889):
TCCTCAAGAAAAAAAATGCAGATATGCATGCAATGCTAATGAAAAAGAACAAACAGGAAATAGGCTTCTGCTGAGACATGAGATATGTAGGTTAGACTCA
R
AAGAACTTCCTGACAGTGTATTAAATACCAACCGGATGGCCATGGAAGTAGGATTTTTTTCTTCCTGATTTTGGGATAATTTTGTCAATGATAGGCTGGT
Celera SNP ID:            hCV11593191
SNP Position Genomic:     87344
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27890):
AAGAAAAAGATTTCAGGAGAGAGGTCAGCAATTCTAAAAGCTTTAAGGCAGGACTAGCTCATTGGGGTTAGAAAGACTGTAGGTGTGGCTGGAACATAAT
R
AGTAGTGGAGGGTGTGGGAACAGAGGGGAGAGGGCAGAAGGCTGGGTCACGTAGGGCCTTGCAGGCAGTAGCGAGGACTTAGTTTTATTGGAAGAACAGT
Celera SNP ID:            hCV16053651
SNP Position Genomic:     190123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27891):
GTGTAGGAGAGGGGTGTGTAAAATGAAGACATCTGTGTATATTGTTAATTGGGAAAAACAGTTTACAAAATAGTATATACAAGTTGAACCAACATATGTC
A
AAAAAAAAAAAAACAGACATCTCACACACACATCTTGGTAAAATTAAGGTATTAACAGTGATTATTGCTGCATGTGAAAGTGAGATTCCAACAACTAATG
Celera SNP ID:            hCV7685222
SNP Position Genomic:     290299
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27892):
CAGTGTGATTTGTTTGGCCAAGTGGATTGTTCAGCACTTGTTCTGTGTGCTGGTGACTCATCTTACACTGTAGGGTGAACTACTTCTCAGGTAATACTTA
C
AGGAAAGATTTCTGTTTCAAAAAAGGAGGATTAACTCAATTCATTAGGAAAAATTAATTTGAGCAGATGAGGGAAATGGCTTTTAAAGGTAGAGAGAAAC
Celera SNP ID:            hCV26059577
SNP Position Genomic:     162811
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,7)   total(C,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27893):
ATGGTTGGATTCTGGTGAGGCCCTCTTCCCTTGCAGGCTGCTGACCTCTCATTGTGTCCTTATATGGCTGAAAAATAGCTAGAGAGCTGCTCTCTGTTTT
K
TTTGTTTGTTTGTTTGTTTTTGAGATGGGGTCTTGCTCTGTCACCCCCCAGGCTGGAATGCAACGGTGTGATCTCAGCTGACTGCAACCTCCGCCTCCTG
Celera SNP ID:            hCV26071544
SNP Position Genomic:     63350
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27894):
CCAGTGTGATTTGTTTGGCCAAGTGGATTGTTCAGCACTTGTTCTGTGTGCTGGTGACTCATCTTACACTGTAGGGTGAACTACTTCTCAGGTAATACTT
A
CAGGAAAGATTTCTGTTTCAAAAAAGGAGGATTAACTCAATTCATTAGGAAAAATTAATTTGAGCAGATGAGGGAAATGGCTTTTAAAGGTAGAGAGAAA
Celera SNP ID:            hCV26059578
SNP Position Genomic:     162810
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27895):
GCTGTGGCAAGCCCATTGCTGTTTGTCTCTTTGGCAGGGAACATTATTGTGGAATTTTAAATGATTGCTCTGGAGAGATTGGGCAGAACATTGATTTTAA
A
GCAAAGAAGTCTTTGAGCTTTATCATCTTCCTTCCTGTGTGGAATCTGCCTTGTCTCCTCTCCCTTAGCCAAATTGTGCAAGGGTTGTGTAAATAAATTT
Celera SNP ID:            hCV26071545
SNP Position Genomic:     61340
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,20)   total(A,2|-,20) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:27896):
CCCAGTGTGATTTGTTTGGCCAAGTGGATTGTTCAGCACTTGTTCTGTGTGCTGGTGACTCATCTTACACTGTAGGGTGAACTACTTCTCAGGTAATACT
T
ACAGGAAAGATTTCTGTTTCAAAAAAGGAGGATTAACTCAATTCATTAGGAAAAATTAATTTGAGCAGATGAGGGAAATGGCTTTTAAAGGTAGAGAGAA
Celera SNP ID:            hCV26059579
SNP Position Genomic:     162809
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27897):
CCAGGCTGAGAGTGGCAATATGGAGCAGTTAGGAAACCGGAGCCATAAATGTGCAAGTGGACGAGGTGAGGCAGCCAGTGATGAGTCCAGTTAGGCTAAG
M
TCCCAAAGCTGACTTTGCTAAGAGGCAGATTCCTGAAGGGGGCCCACAAATGATTCTTTTTGTGGAATCCTCTTTCACATGTTACCTTGGAGGTAGTCTT
Celera SNP ID:            hCV26071546
SNP Position Genomic:     58686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,10)      total(A,10|C,1) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27898):
TCCATTTCTTGCTGGTAGGACTTCACTTGCCTAAACTTTCTATTAACACATTTCAAAGCACTTTCCAGTGAAACCAGAGGGAGGAGACCTTTTTTTTTTT
T
CCCTCGAGAGTCCAACTTATACTGGAGAGCAGTGGCACAATCATAGCTCACTGTAACCTCGAACTCCTGGGCTCAAGCAGTCCTTCAGCCTCAGCCTCTC
Celera SNP ID:            hCV26071547
SNP Position Genomic:     58135
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27899):
ACCATTGGTGATTGAGCTCTATCTTTAGTCCTTCTTCTTCCCCCAGACATCTTTTTGGCCGTCTCATTAGCGTACAGAAGACACTCTTACCACTCAGGAG
R
CTGCAAGAGTTCTGTGCCAGAAGTCAAGGACAAAGACCAAATCTATTTTTTATGATACCACAATGATCTCATAATATTAATGAGATCAGATGAGAAAACA
Celera SNP ID:            hCV26071548
SNP Position Genomic:     54694
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27900):
GAATCTCGCTCTGTCACTCATGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCC
Y
GAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCAGCTAATTTTTTATATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATC
Celera SNP ID:            hCV26071549
SNP Position Genomic:     51510
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27901):
ATAGGCTATGTTTCTTCCAAGAGGCAAAGGTTGGACCTCTTAACAAATGGTAGTTGATTTCTGGAACATTAATGGTCACTTAGAACTGTGGGTACTCATA
K
TAACTTAGTGCCAGATGGTGTGGGACCATCAAGGATTCTACTGATTAGGTGCAGAGAATGAGCATCCCAGAGAAAAGCAAAACTTAGCTTAGCCCTCAGA
Celera SNP ID:            hCV27455855
SNP Position Genomic:     186817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27902):
AGGGTTACCAGGAGCAGCTAATGAGACTGTGTGTAAAACGAGCCACCTCTGTGGCCTGGAATAAAGTGGAGCTTCATTGGTGTCAGTTCTTTTCTTTTCT
Y
TTTTCTTTTGAGACAGTCTGTTCTGTCTCAAAAGGTCTCATTCTGTTGCCCAGGCTGGAGCGCAATGGCATGATCTCAGCTCACTGCAGCCTCAACCTCC
Celera SNP ID:            hCV16223735
SNP Position Genomic:     236252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27903):
TATTTTCAGACTAGTTAGGTTTTAATTTCATTTGTGGCCACTCCACTTACCCTTTCAGATGAGGAGATAGAGCTGCTTTGGAAGGGTTTATTGTACCCAC
R
TGGTCATTTTGGATTCTTGCACAGTCTCCAGGAATGGGCATTCTTGTTTTAATTTCAAGTAATCAGGAGATTCCGGGACCATCTGTTCACTAGTATAGGA
Celera SNP ID:            hCV16053661
SNP Position Genomic:     189279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27904):
TAAGTCACCAGTATTTTAAAGGGCACCTGGAAGCTTTCACAAGCCTGTGCATCTCCACGTGGTGTTGTGGTTGGTTATTTATATTAAGCCTATTTTCTGT
R
TGCAGGTACACATGCCAGCGATCAGTTTTAGTGAAAATGATGCTCATTGTCAAGACTAGTTTTCAATTTGTGAAGTCCACAAAAGCTGTGGTTCCCAGGG
Celera SNP ID:            hCV16053662
SNP Position Genomic:     185793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27905):
CCCCAGTGTGATTTGTTTGGCCAAGTGGATTGTTCAGCACTTGTTCTGTGTGCTGGTGACTCATCTTACACTGTAGGGTGAACTACTTCTCAGGTAATAC
T
TACAGGAAAGATTTCTGTTTCAAAAAAGGAGGATTAACTCAATTCATTAGGAAAAATTAATTTGAGCAGATGAGGGAAATGGCTTTTAAAGGTAGAGAGA
Celera SNP ID:            hCV26059580
SNP Position Genomic:     162808
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27906):
TTGACTCACACTTTCCACCTTCTCATAGTTTAGGGTCTCTCATGCTGCCATGGAGCTTTTTTGTTAGAGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAG
W
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGCAGTCTTGGCTCTCAGTTCACGTTTGGCCTGCAAATCCCAATCACAAATCCATTT
Celera SNP ID:            hCV26059582
SNP Position Genomic:     156981
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27907):
TTAATAATGAGTATCCACGTGGAGTGCAGATGGTAACAGTCGTATTGCAATTGGTGAACCTTAAGCAGTTTCAGATGAAATTTCAAAAATATTTTGATTT
R
TTTTTACCAATAGACTAATAATTAAGCCATTTCTAAAAGGAGGAATTAATATACAAATGCAAAAGCGATTTGTAGTTTTGACTAAAACATCTGCAAGTGT
Celera SNP ID:            hCV26059583
SNP Position Genomic:     151282
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27908):
TTTTCTTGAGCGTTGGTAACCACGGCAACAAGGACGTCACTTCCACGGTGCAAACATGCTTGCCAAGCTGAAGTGTGGAGTGACAGTTTTTGGCTGAGCC
R
TGAACCTAAAAGTGGAGGTTTACAAAGTTACTGCAGACAGGTCATTAGCACGACTGGCTGCAGTGAGCTCCCTAAGTCTTCATCGCTCCTGCCTTTTCAT
Celera SNP ID:            hCV26071550
SNP Position Genomic:     46867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27909):
CATGGAAGTATATTATCAAGAAAGTAAAAGACAACCCACAGAATAGGAGAAAATATTTACAAAATATTTTTCTGATAAGAGTCTGATATCCAGAATATAT
W
AAAAAAACTCAACAACAGTCCAGGTGTGCTGGCTCACACCTATAATCCTAGCACTTTAGGAGGCCGATGCAGGAGGATCACTTGAGCCCAGGAGTTCGAG
Celera SNP ID:            hCV26059584
SNP Position Genomic:     258173
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27910):
TATTTCCATTGTAAAGACAAACTAAAGCTCACAGAGGTTTGGAAAATTATTTAAGGCCACATTGCTGGTCAGTGGCAGAAGTGGAACTTGGCTGCAGGGA
R
TCTGGCCCTGGAGCCTGCAGTTTTCACTTTTACTCCGTGTGCTACTATATTATCCCCAGGCTCTAAGGAAAGCCTGTTAAGATGATCCTTTCATCCCCTC
Celera SNP ID:            hCV26071551
SNP Position Genomic:     44788
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27911):
CATGGCCTGATCACTGTGAAATTCTGGGACCTTAGAAGCCTTTTGTATTGACTGCTCGCTCGCTCGCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT
S
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTCTTTTACTTCTTGTTTGGCCAAGAAACTGTATGTGTTAATAGCTTGTTTGTTTTT
Celera SNP ID:            hCV26059585
SNP Position Genomic:     133558
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27912):
ACGGCTTCAGCTGGTCCCTCTGTTTGGGGTCCCTGACTTCCCGCAACACAGAGTCTCGCTCTGTCACCCAGTCTGGAGTGCAGTGGTGAGATCTTGGCCC
R
CTGCAATCTCTGCCTCCTGGGTTCAAGTGATTCTCATGCCTCAGCCTCCCGAGCAGCTGGGATTACAGGTGTGTGCCACCATGCCTGGCTAATTTTTGTA
Celera SNP ID:            hCV26071552
SNP Position Genomic:     39991
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27913):
TAAGGTTGAAAGCCTTATCTGTTGTTCCCCATTCTCATGGCCTGATCACTGTGAAATTCTGGGACCTTAGAAGCCTTTTGTATTGACTGCTCGCTCGCTC
K
CTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTCTTTTACTTCTTGTTTGGCC
Celera SNP ID:            hCV26059586
SNP Position Genomic:     133523
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27914):
TTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACTCCAGTCTGGGCAACAGAACTAGACTCTTTCTTAACAACAACAACA
W
CAAAATTCTCATAAATATGTGAATGAATGAATGAATGAATAAAATCACAGTCCACAGCAATGCGGTTGTCATCCCTGGGAAAACTCAAGTCCAAGGGAAT
Celera SNP ID:            hCV26071553
SNP Position Genomic:     36545
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,9)   total(A,1|-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27915):
TCTATTATTTGTAGAGAATTATAAAGCTCTTTCATATTTGTTCTACCATTTAATCCCTCTATCTTTATCTCCTCCCCTCCCCTCACCCCCCTCCCCCCCC
M
AAAAAAAACTGTATTAGCCCCATTTTGTAGATGAGGAAGCTGAGACAAAGAAATCATAGGCAAGTATGCCAGGTCGGTATGGTTAATGTATGGTAGAACT
Celera SNP ID:            hCV26059587
SNP Position Genomic:     123572
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27916):
GGCCAGAATTTAGTTCTCTGGCTACATTTTGCGGCAAAGAAGGCTGGGAAGTGTAATCTTTATTCTGCAAGACTGTGTGCTTACCAAATTGAGAGTTATT
R
TTATAGAAGAAGAGAGCAGATATTGGAGGACAAATCTTTTCCTCCACACTACTCATTCTTGAAAGATCGTGCTGACAGGATAGGCTCTGCAGCCAGCCTG
Celera SNP ID:            hCV26071554
SNP Position Genomic:     34751
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27917):
AAGACACCTGATTTCAGCAGATTGCAGTAACTCCATAATTTATTTGCATCTAAGAGAAGGAATCATGTTTAGTTACAGCATTTTCATTTTTTTTTTTTTT
T
AACCACAGATGGCATAAAATTCATCTCCAGAGAGACTTCTAACTAAACCTGAGTATGAATTTTTATCTCTCAGTTTCTTATGCAATTTTTCACTGCATAC
Celera SNP ID:            hCV26059588
SNP Position Genomic:     111408
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27918):
CTGGCCACCAGAGTTCAAGTGCTCAGTAAATGTTAGACAGCTGCAGTAGTGGTGCTAGAAGTAGAAGATAATAAAACTCAGTGTGTATATATATATTTTT
Y
TTTTGCAAAAGTGGGATCCTGTTAAATCACCTGTCTTAAAAACTGCCATTTCCTTTTATATTGAGCATTTCTCCATGTCATTAGTCTACCAAACCATCAT
Celera SNP ID:            hCV26059589
SNP Position Genomic:     105693
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27919):
CATGTCCCATCCTTTAAGGATGTTTCCTGGAAGTTGCACCTCCTGCTCCTACTTATATTCTACTGGCCAGAATTTAGTTCTCTGGCTACATTTTGCGGCA
R
AGAAGGCTGGGAAGTGTAATCTTTATTCTGCAAGACTGTGTGCTTACCAAATTGAGAGTTATTATTATAGAAGAAGAGAGCAGATATTGGAGGACAAATC
Celera SNP ID:            hCV26071555
SNP Position Genomic:     34687
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27920):
CCCAAAGTGTTAGGATTATAGCCATGAGCTGTAACATTAAGCATGGTATGTTCTTTGACATACACATTGTCTCTCTCTCCAAGAGAGATGAAGGGTGTGA
Y
TGCCTAGCCTAGAGTAGTCACACAGGAAGTGCTCAGGATATGTTAGTTTGACCTGAATATATTGAGAAAGAGCTTCCCTCATGTACATCCAGCCCAAAGT
Celera SNP ID:            hCV7685235
SNP Position Genomic:     298574
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27921):
TTCTGCTCTAGCCATCACATCTAACAGCAGGAGGAAGGAACGAGACAGAGAAAGGCATGTCCCATCCTTTAAGGATGTTTCCTGGAAGTTGCACCTCCTG
Y
TCCTACTTATATTCTACTGGCCAGAATTTAGTTCTCTGGCTACATTTTGCGGCAAAGAAGGCTGGGAAGTGTAATCTTTATTCTGCAAGACTGTGTGCTT
Celera SNP ID:            hCV26071556
SNP Position Genomic:     34632
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27922):
AACCTCTATTCCCAAGGTCACCTCACAGCCCCATTTTAGCTGCTTCTGCTCTAGCCATCACATCTAACAGCAGGAGGAAGGAACGAGACAGAGAAAGGCA
Y
GTCCCATCCTTTAAGGATGTTTCCTGGAAGTTGCACCTCCTGCTCCTACTTATATTCTACTGGCCAGAATTTAGTTCTCTGGCTACATTTTGCGGCAAAG
Celera SNP ID:            hCV26071557
SNP Position Genomic:     34589
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27923):
GAAGGACAGCCTGAAAGGAAGGGGGTCTTTCCAGTGTCCTTTGTTCATATCCTGTCTGACTAGCAAAACGCAGAACCTTAAGATTGTCCACATCCTTCAT
S
CAAGACTGCTGCCTTCATGTAACCCTGGGCACAGTGTGTATATAGCTGCTGTTACAGAGTAAGAAACTCATGGAAGGGCCACCTCAGGAGGGGGATATAA
Celera SNP ID:            hCV28978574
SNP Position Genomic:     379195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:27924):
ATTTTCAAAATTTTTCTATTATAGGATTACCCAAAGTCATGTTTATTTTGTTTTTTTCTTTTTTTAAGTCAAGAGTCCAGCACAAAATGGCATTCATTTT
R
CAGGTATCTTTTCAGGTGATATTAATTATAATTGCAATAACTCAGTGCATTATTAGAATTAGGTTTTGCTGACAATGACATAAAATCTAAAAGAACATTG
Celera SNP ID:            hCV26071558
SNP Position Genomic:     34280
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27925):
AAGGACAGCCTGAAAGGAAGGGGGTCTTTCCAGTGTCCTTTGTTCATATCCTGTCTGACTAGCAAAACGCAGAACCTTAAGATTGTCCACATCCTTCATG
M
AAGACTGCTGCCTTCATGTAACCCTGGGCACAGTGTGTATATAGCTGCTGTTACAGAGTAAGAAACTCATGGAAGGGCCACCTCAGGAGGGGGATATAAT
Celera SNP ID:            hCV28978575
SNP Position Genomic:     379196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:27926):
ATTGTAATTACTTCAATTTTTAGGTTGAAAATAGTTTTTAAAGGATGATTAGATAAGCAAATGTGTCCTGAATGGGTGGATGAAGTGAGAGGCTGGAGGC
R
GAGAGGCCAACCTGAGAGGCTTTTGATATGATCGAGACATGATACTGCCTTCCAGGGTAAATGAAGCTTTACTTTTATTTTCAAAATTTTTCTATTATAG
Celera SNP ID:            hCV26071559
SNP Position Genomic:     34103
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27927):
ACTTTGTGATGTGGGAGGCTCCACGGCCTCCCTCGGTATCTTGGAAGATGGGGATGATGGTGATATCCACATCGCGGGGCTCTTAGGAAGATGAAGCTAC
R
TCATGCAGCAGGTCTCAAGAAGGCCAGTCTCCTCTCTTTCCCTGCCCTGTAGTCCCATCTCTCTCCTGCCCAGAGTTGAGTCACCTGGGCCAGTGTACCC
Celera SNP ID:            hCV12004822
SNP Position Genomic:     370188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27928):
CACAGCTGTGTATGCATTTTAGACATTTCTCCAACTTTCCTTGGAGATCTGTGGCAGTAGATAGGAAGAAGAGTAGAAAGGGTGAAGACTTGCTCAGTAT
R
TGACAGCACCTGCCACCATGAAAGTACACTACTGCATGATTCAGACTCGCATGGGAAATATTTTCCTATCAGTGGTGTTATTCATATATTGATGACTTTA
Celera SNP ID:            hCV27989692
SNP Position Genomic:     327302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27929):
TTATCTTGGGTGATATGATTGTTTTCACAGGGCTGTTTCTGAAACTTCGTTTTGCATTATCTTAATCCCAGGTGTCTATCTCTGGTAGGCTGATGAGACA
R
TTTGGAGTTGAGTAGTCTTCATTGCATGCAGCCTGGTCTTATTCTGGGGCTCTCTTTTCCTGTCTCACTTGGAAATTTCATTTCCCAGTAATCATACTTC
Celera SNP ID:            hCV26059590
SNP Position Genomic:     97652
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2|-,9)   total(G,2|A,2|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27930):
GAGGGGTGTAGGGTGGGGGGCAACCAGGTTCTTGGAGCAACTTGAGGGGAAGGAGAAGAGGAGGAGGAGAAGGTGCCAAAAGCAACTTTAACTTGTCGTT
T
CTGAGAGTTGGCATCTTTTTTAAAAGTCAAGTTATATTTCACATTTTGTCCTTGAGCTGTCCTTTGGCTAGGGAACCCCATCACTTTGTCATGTGAGTTT
Celera SNP ID:            hCV26059591
SNP Position Genomic:     90960
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,10)   total(T,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27931):
TTTTATACTAAGGTCAAGACATTTTTTGCCCTTTTCTCTCTTATTCTTTCATAAATTTATAGTTTATGAGACTGGAGCTGTTTGGGAGAAGTAGTTTCTT
S
AAATGTTCTCTGGTGGTTTCATTGGGAGTTTAGTATCTTTTTAGCTTTTCTGCTAGGTCTGACATCTATCTGGCTTACCGTCTTTTAGAGACAATGCAAA
Celera SNP ID:            hCV275891
SNP Position Genomic:     96849
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,9)      total(G,2|C,9) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27932):
CTGGAGGGGTGTAGGGTGGGGGGCAACCAGGTTCTTGGAGCAACTTGAGGGGAAGGAGAAGAGGAGGAGGAGAAGGTGCCAAAAGCAACTTTAACTTGTC
G
TTTCTGAGAGTTGGCATCTTTTTTAAAAGTCAAGTTATATTTCACATTTTGTCCTTGAGCTGTCCTTTGGCTAGGGAACCCCATCACTTTGTCATGTGAG
Celera SNP ID:            hCV26059592
SNP Position Genomic:     90957
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,10)   total(G,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27933):
CGGTCATTATCAGTACCTTTACTTCTGCAAAAAAATGTGACTGGTATTATCTTCTACTTGGTTGTAACGGTTTACGTTCTCCTCCAGTTCTGTTGTTCTC
Y
GTGAGGAATGTAGTTTTTTACATGCCTTTTCCATTGGAGAGTTACAACAAAAAAGCAAAATAAATCTATCTTTTCTCTGATATGGCCTCCTTATTTGTTT
Celera SNP ID:            hCV16053673
SNP Position Genomic:     157849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27934):
CCTGGAGGGGTGTAGGGTGGGGGGCAACCAGGTTCTTGGAGCAACTTGAGGGGAAGGAGAAGAGGAGGAGGAGAAGGTGCCAAAAGCAACTTTAACTTGT
C
GTTTCTGAGAGTTGGCATCTTTTTTAAAAGTCAAGTTATATTTCACATTTTGTCCTTGAGCTGTCCTTTGGCTAGGGAACCCCATCACTTTGTCATGTGA
Celera SNP ID:            hCV26059593
SNP Position Genomic:     90956
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,10)   total(C,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27935):
TCCTCTGGTGATTCAGCTCCTCCTAGCCCCAGAACCAAAAGCCTCTTTTCTCCAGAGAACCGTTTGTTTAATGAAGCTAATGAAACTTGAGATGTCCCCA
Y
GTGCCCCTCCCCCTCAGCTGGTGTCTCTCCAGGGCTTGGCTGCCACCTTTGGCCTTCTTTCTATGGCCATTAATCTAGTGCTCCCAGCAGATGGCAGCTG
Celera SNP ID:            hCV16053674
SNP Position Genomic:     131034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27936):
GTTGGGAGTTCGAGACCAGCCTAAGCAACATGGAGAAACTCTGTCTGTACTAAAAAAGACAAAATTAGCTGGGCATGGTGGCACATGCCTGTAATCCCAG
M
TACTTGGGAGGCTGAGGCAGGAGAATCTCTTGAACCCGCGAGGCAGAGGTTTTGGTGAGCCAAGATTGCGCCATTGTACTCCAGCCTGGGCAACAAGAGC
Celera SNP ID:            hCV26071560
SNP Position Genomic:     33744
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27937):
AACTGGATCTTGCTAGCCCAGTCTGCTGTCATTAAGTCCTGGTCTCAGAAGACACACTGTGCGAGGCCGCAGTAGCTTTCCCTGATGTTAGGCTAGCAGC
C
TTTCATTAGAAGCCATTTGTGGTGTTGGATGTTCAAACACTACCCAGACCTTTGCCTTCATTGTCTGTTTGTCCAGGGAGCCTCAGAGAGATGGTTTCCA
Celera SNP ID:            hCV26059594
SNP Position Genomic:     83631
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,16)   total(C,16|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27938):
TAGTAAATGGCCAAAGCCAGGATTCAGACCTGGAGCCTCTGTCTCCAGGCTCAGCATACACAGGCACCTCCAGGTGTTTGTGGTTTTCCCTTCTGCCTTA
R
GTATGGATTCTTTGGTTTTTAACCAAACAAAAACCAGAGTACTCTTTTTTTTCCCGTGGTGACTTAAATTTCTTGTAATTGTTTTTATTTCAGTTCTCTT
Celera SNP ID:            hCV16053675
SNP Position Genomic:     130662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27939):
GGCACTGATTTGCTGTGTGATCTCACACAAGACACCGGCTTTCGGCCAGGCGCGATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGC
R
GATCACCTGAGGTTGGGAGTTCGAGACCAGCCTAAGCAACATGGAGAAACTCTGTCTGTACTAAAAAAGACAAAATTAGCTGGGCATGGTGGCACATGCC
Celera SNP ID:            hCV26071561
SNP Position Genomic:     33632
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27940):
TCAAGTTTGGGTCTGGCATTAGAGGCTTTTCTTAATGTATTCACCTGGTGTGTTCAGTTATTTCTGAAGATATAGAAATGTTTGATGAAATGAATGAAGA
K
ACAGAATGTAGATTCAGTATCAAGCTCTATCTCATAACAGTAACATTCCTACTACATGCAAACCCTATACATACTATTATTTAATACCTTTTTTCACCCT
Celera SNP ID:            hCV26059595
SNP Position Genomic:     80882
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,8)      total(G,1|T,8) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27941):
TCATTTAAAAATATTTTTTAAAAGATTTTAAACTTTCTGAAAAATGGCAAGTACAGTACACAGAACCCTCCCCCCTACAACCACTTATTTGAGATTAAGT
M
ACTGATATGATTCCCCTCATCCCTGAATGTCTAGACCCCTGTTGTATACAATCACTTTGCAGCTTGAGAGTGGATTCCACTCAGGTGGAATCACTGACCA
Celera SNP ID:            hCV2059700
SNP Position Genomic:     167339
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27942):
GCCGGGAAAACTTGTAGAGTCTGAGAATCTTAAAAAGCTGGCAGACTGACTGGCACAGGGTTGACCTGTTGGGGCCAGGGTTTCTAAGAAGTCCGCGTAG
Y
GGAAAGTGTGTGGGTGCTAGAAGGGGTGGTTGAATCCTGGCCCTGGCACTGATTTGCTGTGTGATCTCACACAAGACACCGGCTTTCGGCCAGGCGCGAT
Celera SNP ID:            hCV26071562
SNP Position Genomic:     33487
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27943):
GCGAGCATATTTTCCAGCAACCCTGTAGTAGAGGGTTAATGTTAAATTACATGCAGTTGCTGTTGATGTTAGTTTAAGGTTAATAAATTTAAAAGCAAAT
A
TTTTTTTTTATGAGAAATACTGTTGTAAGATTAGGTAGAAAAATAGAGTTAACTATAATGCAAGTGTAGTCACTTAGGAACTTGGAACCAGGCTAGAAGT
Celera SNP ID:            hCV26059596
SNP Position Genomic:     77619
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27944):
ACTATCTGTATTCTCAGGACATCCTGCTAACAATTTTTTTGTTTGCTTCCTTCGAGCTAGAGGTACAGTCAGGTCACAGAATGGCTATTTTACTTGGAAA
Y
TGTATCACAGAAATCTGCATTGGCCTTCTCTCTCTGGGTGTGTGGGTAATTCTGCAAACCTCGGATTTTACTTTCAAATTTATCCACAGCTAAACCAGAC
Celera SNP ID:            hCV2059701
SNP Position Genomic:     164378
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:27945):
GGCCGGGAAAACTTGTAGAGTCTGAGAATCTTAAAAAGCTGGCAGACTGACTGGCACAGGGTTGACCTGTTGGGGCCAGGGTTTCTAAGAAGTCCGCGTA
R
TGGAAAGTGTGTGGGTGCTAGAAGGGGTGGTTGAATCCTGGCCCTGGCACTGATTTGCTGTGTGATCTCACACAAGACACCGGCTTTCGGCCAGGCGCGA
Celera SNP ID:            hCV26071563
SNP Position Genomic:     33486
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27946):
GGAATTATTTGTACACATATACGTGTACTGTAGTATAGTGTTTAAGAACACAAGCTCTGGAGCTACACCACCTAAATTCAATTTTCTTTTCTTTTCTTTT
Y
TTTTTTTTTTTTTTTTTGAGAGAGTCTCTCACTCAGGCTGGAATGCAGTGTGGTGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTTAAATGATTCT
Celera SNP ID:            hCV26059597
SNP Position Genomic:     244965
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27947):
TCATCTAATAGTGACCCCCTTAGGGGTGAAAGAGACAGTCACACATAGTTATCAAAACCTAGAAAACCTAGGTTTGCTACACTAAGCTGAGATGACCACT
M
TGTCAGTATGAAACTTGGAGAGGGACTTTGGTAGGTGGCATGTATTACTGGGAGGCAGTTTAATCTGTTGGGACATAAGTTTAACATTCTTGTTTCTTTC
Celera SNP ID:            hCV2059702
SNP Position Genomic:     164131
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27948):
CTTCAGTGAAATATCATCTCAAGCCAGCTAAAATGGCTTTTATAAAAAAAACAGTAATGGATGCTAGCAAGGATGCAGAGAAAGGGGAACTCTCATACGC
W
GTTGGTGGTAATATAAATTAGTACAACCACTATGGAGAATGGTATAGAGGCTCCTCAGAAAACTAAAAAGAGAACTACCATAAGATCCAGGAATCCCAGT
Celera SNP ID:            hCV26059598
SNP Position Genomic:     243931
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27949):
GGGTAGGATTTAGTCCCTGAATGCTGTCAGGGATTGATAGTCTGGGACTTTGCGGTATAGGATACTCACTTGGAAGATACAAGGTGTTTGTTTGTTTGGC
R
TTTGTTTTTTGTGTTTTATTTTATTTATTTATTTTTTGAGACTGGATTGCTCTGTTGTCCAGGCTGGAGTGCTGAGGTGCAGTGGTGCAATCATAGCTCA
Celera SNP ID:            hCV26071564
SNP Position Genomic:     68703
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27950):
TTCCTGAGTGGAAGTGTGCCACCTGAGACAAGAAATCTTCACTTGCTGGTAAAGAGCGTGGATCAGAATCTGGCAGACCTGGATCTGAATTCCACCAGCT
Y
TGCTGCTTACTAGCTGCAACTTAACCAAGTTTTATACATACTCTGTACCTCAGTTTTACAAATGGAGATGAGATTGAAGTGCTTTAATTCATTAGAGTTG
Celera SNP ID:            hCV440883
SNP Position Genomic:     263876
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27951):
AACCCACAGAATAGGAGAAAATATTTGCAAATTACCCATCTGACAAGGGACTAATAACCAGAATATATAAGGATCTCAAATAACTCATAGGAAAAAAATC
Y
AGTTTTAAACTGGGCAAAAGATCTGAATATATATTTCTCAAAAGAAGACCTACAAATGGCCCACAGGTTTATTAAAAAATGCTCAACATCACTAATCATC
Celera SNP ID:            hCV26059599
SNP Position Genomic:     243711
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27952):
CCCGGGAAGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAA
A
CAGTGCAAGATGGCAGAAGCCCAATCCCGGGGGTGAGGGGTAGGGCGCGGTGGGTGTGTGTCGCAGAGGACAGGCTCAGCCTTCCATCCTAAGGCTATCA
Celera SNP ID:            hCV26071565
SNP Position Genomic:     74057
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27953):
ATTAGGGTATCACTTTCAATAACACTTTCTACTTCAGCTTCCTCATCTGTGAAATGGGTTTGAGGGTTCCTGCCTTGCTTGTCTGTAAGGATTGTTTTGA
R
TGAACTAATGGATGAGGAAGGGCTTTGTAAACATGCCTAACACTCTCTAATTGTGAGGGCCTTTATGAAAAGACTTAAAAGTAAGAGGTAAAAGCCATGG
Celera SNP ID:            hCV2059707
SNP Position Genomic:     154770
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27954):
GCTTCATTCAGTCTGCTTTGTGTTGGGCCCACTGTGATAGGGAGATGAGACAGTCCTCATGCTCAAGGTCCTCGTTGTTTGTAGGGAGACAGCAAAACAG
R
TAGTGTTTTGAGAAATAGTCTGCTGTAGGGACATGGTTAGAGAAGCTTCCAATAGGGCAGAGAAAATTCTAAACACGTTTTCTGAGGCATATTGTTTATT
Celera SNP ID:            hCV2059636
SNP Position Genomic:     263649
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27955):
CCTGGGCTCAAGCAATCGTCCTGCCTTGGCCCCCCAAAGTGCTGGTATTACAGGCATGAGCCATGTGTGCAGTAGCCCTTGCATGTCCACTGAACTAGGA
Y
GAGCTAAAACAGAGAGAAGAGAGAAAGGAGGAACAGAGAAGCCACTGCCCTCTGTGAAATGTTTTGGCAGGTCGTGGTGGCTCTCTGTCTACCCTGTCCA
Celera SNP ID:            hCV2059638
SNP Position Genomic:     260258
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27956):
AGTGGCTAAGAGATGAATGAGACATCCTCGAGGTAATTTTCCCTTCTATTTGGAAGATTTATGTGTTAAGTGTAGTGATAGGTAGTCAGAACTCACACAT
R
TGCTTCACTTTCCAGCTAACAACACTTTTATCTGTAGTAGCTCATCTGATGCTCCTTGAAACTAGAAAATGTCCACTTTGGAGATGAGCATTCTGTTATT
Celera SNP ID:            hCV2059639
SNP Position Genomic:     259409
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27957):
TGGATCCATCAAATGGAAAATCCCAGCATTGTAACCTGTGGGATGACTTTGGTGTTTCCCAGATGAGACCACCAATAGTAGTTTCCATGGTCATGTCTCA
K
AAATATAGGGACAAACTCAGATCCCTCTGGGTTCCTCACAGACTATTGAGGCCTGATAGGGTTTCTGCAGTCACGAACAAGTATAGTATAGCTGGGTTTG
Celera SNP ID:            hCV27944119
SNP Position Genomic:     200561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27958):
ATAATTTATGCCTACGTAGGAGAGCAGACTTTTGCGAGCTAGTTTTATGCAGTACCTTTTCTTTGGCTTGGGAAGTTGATAGCTTGGTGGTGTTTTCTTG
S
ATGGACTAAATCCTTAGAATTGTTTAGGAGATATTGGTCGAAGGTGGTATGTTAAATTTTTGCCAAGGATCTGAACTGTGAAGTAACTTGTCAAGTGGGG
Celera SNP ID:            hCV12004838
SNP Position Genomic:     188162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27959):
GGTAAAAATGGCAAGATATAAGGTATTATTTTGTTTTTGAATAATGGTAATATCATTTGATGCCATCCTGTGTTCTAAGTTTAAAGTTGTTAGATTGGTT
K
TTGCTACTTAAGAAAAACTCATTCAGAGAGTTAGGAAGGAAAAACCAATAGCTTGAAAACCTGTGTACCATTTTAAGAGTTACTTGATGTTTGGTAACTT
Celera SNP ID:            hCV12004839
SNP Position Genomic:     178870
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27960):
CCTGCAGATTGGCCACATCGAAGGACAGCCTGAAAGGAAGGGGGTCTTTCCAGTGTCCTTTGTTCATATCCTGTCTGACTAGCAAAACGCAGAACCTTAA
K
ATTGTCCACATCCTTCATGCAAGACTGCTGCCTTCATGTAACCCTGGGCACAGTGTGTATATAGCTGCTGTTACAGAGTAAGAAACTCATGGAAGGGCCA
Celera SNP ID:            hCV27475189
SNP Position Genomic:     379176
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,34|G,1451)   total(G,1451|T,34) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:27961):
CTTTTCTGTAGAGCAAAGGGGTCAGACTTAGATCATCTTTAAACCTTTTAAAAAATTACTTCTTTGCAAGTGGATACAGCTCTCCAGTTGGTTAATGATA
Y
TCAACCTTTTCATCCCTACCTGCTTCCAAGACAGCCTTAGACAGTTTCGGCCATACTCCCAGACCTGCTGTTTCCTTACCCATGATGTTTACCTTCTCAT
Celera SNP ID:            hCV16053685
SNP Position Genomic:     109318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27962):
CAAGGGAGGTTCCCACCCAATGTCTGTTCCACAACTGGATGCCATGTTTTGAGAGGAGCAACAGAGACCAGGATGGAAACAGAACTGGAAAACTTATTTA
K
TTAAGTGGCTTAGTGAACCGCTGTGTCACTCAGAGATGAGGCAGCAGCAGTGGTTGAGGGTTAAGGCTGGATTTTGAACAGTTGGAGGGCTCTCATACCC
Celera SNP ID:            hCV16053686
SNP Position Genomic:     104489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27963):
TCAGTTTACCAAACCTTCCCAGGGTCTCTGCTATATGCTAGACTGAGTGGGAAGGGCTAGGGGTATAGAGGTGACAAAACCCAAACACAGCCCTCTGAGC
R
TTCCCTATGTTAAAGGGCACAAATAGTTGCTATAATAATGTTCTATTAAATATGTAATTATGGCCTTTGACATAATCTGTGTCTGATAGTTTGCACCCAA
Celera SNP ID:            hCV2059710
SNP Position Genomic:     145921
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27964):
ACATGAGTTAAGTACAGTTTAACATGATTCTGCCATTTGAGCACCTACTATGTGCCTGGTTTTTGGTAGATGACTGAGGGAAGGGTAACAGAATGAATTA
R
ACATGCTTTCTGTCCCAAAGGTGTTCACAGGTGAGTGGGGTGGTGGTTGTGGGGTGCCAGGTTAGCTGCAATATAGCATAGACCGGTCAGAGCTGTGATA
Celera SNP ID:            hCV16053687
SNP Position Genomic:     103200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27965):
CTGGCATGTGTTGGTCCTTCATACATGTTAAGTGAATGAATGCGTGTATGCATGATTCAGACTTTGTTTTTTGCCTTTCTTTTCTTTTTCCCTATAGTCT
K
CTCTTTATAGATTTTTAATAGCATCCAAAAGGGTAGTAGGGGCAGGAAGCTAAAGGGTAGGAAATAAAACTCAAATTCTTCAGTTTCGAGTTCAGTTCTC
Celera SNP ID:            hCV2059712
SNP Position Genomic:     141568
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,13)   total(G,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27966):
GCCTCGCCAGATGTAAAGATGGTGCCACACACACATGCTAACTGTGATGTGAAATTCACAAAGACCTCACACATGCATGATGCCAACTAAGACCACACGC
R
GTGGGTGGGCAAGCCTTCAGGAGAGCTGGGCAGGCCTGGTTGACTCTGTTCCACTCTTAAAACCACCTTCCTCTCTATCGATTTGGCATTGGAAGCCAAT
Celera SNP ID:            hCV27512337
SNP Position Genomic:     378017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27967):
ATCAGTCACATGTAATTAACAGCTACATTGTGTGCTTACTTTTTGCTAGATGTTTCATAAACATTATCTCATATAAACCTCACAATAACTAGGTATTATT
R
TCCCGTATCCCTGTTTTACAGCTGTGGAAAGTGAAGTGAAGGATTTTTGTCATACAGCCAGTAAGTGCCAGAACTGACTTGAACCTAGCTCTCTGTCTTG
Celera SNP ID:            hCV2059713
SNP Position Genomic:     138196
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:27968):
AAATACTCAGTTACATGTTAGCTGCCATTACTGTTACTGTTACTGGTTTTTGAAGATCTTGTTATGTTACAGTAATTTATAGAGAAAGTGGCTAAGAGAT
R
AATGAGACATCCTCGAGGTAATTTTCCCTTCTATTTGGAAGATTTATGTGTTAAGTGTAGTGATAGGTAGTCAGAACTCACACATATGCTTCACTTTCCA
Celera SNP ID:            hCV2059640
SNP Position Genomic:     259323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27969):
AGACAACCCACAGAATAGGAGAAAATATTTACAAAATATTTTTCTGATAAGAGTCTGATATCCAGAATATATTAAAAAAACTCAACAACAGTCCAGGTGT
R
CTGGCTCACACCTATAATCCTAGCACTTTAGGAGGCCGATGCAGGAGGATCACTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACACAGGGAGACTCT
Celera SNP ID:            hCV2059641
SNP Position Genomic:     258201
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27970):
GAAAAGAAGGGCTTTTAACTGTTTCCAACTCATTTCAGCTCACTCACTAATTACTGCTCAATTTCAGACATGAACATTGTCGGGAACATGCTGCTTTCCA
R
ACAGACATATCCTCCAGTTCACCTGCTCCTTTTACCTCCTCACAAGTGTCATTATGACCTGCAGAGTTAACAGCATTTATAAACATTGCTTTATTATCTG
Celera SNP ID:            hCV2059643
SNP Position Genomic:     257697
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27971):
TACCAAAGATCAGCTACTGTGCCCAGTTCTGGGACAGAGATAAAGCAAGGCTTTTCCGCTCAGGAGTTAATTGTCCAGGTATAGGAAGTAAGTCAGATCC
R
TTATTAATCATAATGGGGCTGGACAGTGACGGGTACCATGGAGCATCAAGAGGAAGAGAGACGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCCGCACT
Celera SNP ID:            hCV2059645
SNP Position Genomic:     256664
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27972):
GAATTTTTATTTGTTTGGAGTTTTGCCTCTTCATTTTTAGCATTTCTCTCTCATCTCTTTCTGCCTTTGAGATAGCTGTTCACAGTGCCACATTTTCTGT
R
TCTGTGAAAAAACGAGCCCCTTAACCTCCAGTACACACCATAGACATACTCACCCCCTTCTAAAATATTTATTCTTTTAGCAGCCCTGGCTGGTTTCCAT
Celera SNP ID:            hCV2059718
SNP Position Genomic:     131347
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27973):
TTCAACTGAAACATTTAAGGAGGTCAGCATTAATATTATGTCAAAAGCACAAAGCTTGGGTTAGACAAATTAGATGAGTCAACATTTTGGCTCTGCAGCT
R
GTTAACTGTATTCTTAATCAGGTACTTCACTAAACCTCAGTATACTCACTCGTCAAGCTGGGTTACGATTCTGTAGCAACCACCTTAGGGTTTTTGTAAG
Celera SNP ID:            hCV2059646
SNP Position Genomic:     255719
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27974):
CTTAAAGTTTACCCTAAATATATGAATGAAATGGCTTCCTAGCTCCTTTCATCCTTACATCTGCTAATTTAACCTTATGCAGAGAGCTGAGTTTGTTCCG
Y
TTGTGCCCTAAGGTTATTAACATCTGTCCCTTAGTCTCTCCAGTAAAAAGTTTGAGAGGAAACAAAGAACCAGCTCTACTTAGACCTTTGACCAATTGAT
Celera SNP ID:            hCV2059719
SNP Position Genomic:     127088
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27975):
TCTGAATTTGGGCATTTTGAAGGTAAGTTTTGTGATCAACACACGTAATCAGACACTATATGCCAAGTCAAAGGGAGCTATTCATATTAGTAAATTCATA
Y
TCGTATTAGTAAAAATCAGGTATTTCTGGGGATGGATCTTTTTCTGTTTCCATGTTGTACAAAAGCAGAAATATTCTCAACGTAAGGGGTTAAGGGTAAC
Celera SNP ID:            hCV12004843
SNP Position Genomic:     170642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27976):
TCAAAAAAGTTAAATTCATAATTTCCTTTGATCTTTCTTATTCTTTTCAATAGTTATATTTAGAAAGATACCTGTATTCAACTGAAACATTTAAGGAGGT
Y
AGCATTAATATTATGTCAAAAGCACAAAGCTTGGGTTAGACAAATTAGATGAGTCAACATTTTGGCTCTGCAGCTGGTTAACTGTATTCTTAATCAGGTA
Celera SNP ID:            hCV2059647
SNP Position Genomic:     255643
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27977):
GAACCTCGGTTTCCTCATCTGTGAAATATGCCCACTTTTCAAGGCAAATTTGTTGTAAAACAGATGTAAAGTGTCCCTCTGTGCATAGTTGGTAGAAGGC
R
CTGGAAGTTGTTATTGTGGAATGCATATAGCATGGTGAATAAGCCCTAGGATGTAGAGCAAGACATTGCTGAGCTTGATTCCCTGATCTTGCTACTTAAT
Celera SNP ID:            hCV12004844
SNP Position Genomic:     169925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:27978):
GACTAGATAAAATACTCTCAAAAAAGTTAAATTCATAATTTCCTTTGATCTTTCTTATTCTTTTCAATAGTTATATTTAGAAAGATACCTGTATTCAACT
R
AAACATTTAAGGAGGTCAGCATTAATATTATGTCAAAAGCACAAAGCTTGGGTTAGACAAATTAGATGAGTCAACATTTTGGCTCTGCAGCTGGTTAACT
Celera SNP ID:            hCV2059648
SNP Position Genomic:     255626
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27979):
GATTTTATGTCATACCTAATGGTACAGGGTTCTTTACAAATCATGACAGGGAAAATATTAAGTAGGCAACAAATGTGCTTCTAATGGAAACACAGTGGCC
K
TCTGCCTGCCCCTCTTGATCCTGTTAGTCCCTCCCCTTTTTCCAACTCTTTTACCTGCTTCCTGACTTATCTACACGTTCCTCAGTATTTTCTTGCTCTT
Celera SNP ID:            hCV2059649
SNP Position Genomic:     249271
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27980):
ATGTCTAGGTATGGGTTCTGCAAATTCGGACCCTCCAGCCTGACCCCTTTTCACAACAATCTCTGAACCGTGAGAAGGGACTGCTCTTTCCGCCCGTATC
W
CTTGTGTCAGAGCGAGCCAAGAAAACTGCTTCCACAGAGGAAACGGGCTGACAATGGAATGTCCCGACCCAGCACATGAAGTCCTTTGGAAGGGCCCCTG
Celera SNP ID:            hCV26019038
SNP Position Genomic:     16318
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27981):
TTCCATGGGCCCACAGGGAACAGCCCTGCTGCTGCGGCACATAGTCCATTGCATTTGTGTATGTGTGTATGTGTGCATGCAGTTGGACTTGGGTTGTATA
T
CTGTCTGTCTGTATGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACATGGGTTG
Celera SNP ID:            hCV26019039
SNP Position Genomic:     16549
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27982):
CTGTTAGATGATCACTTGAGAGGTGGAAGGGAAACATTTAAATTGTCCAGCACTATGCAGATGATGTGTATCTTTCTCTCATAGAAAGGTGGTTACCTGT
K
GGGTGTTGGGGAGAAAAAAGTAAGAGAAAAACTAGAGGCAGGTGGCAGGTAAAATTTTACCACTTTGCTCTGGATTGCTAGACCCATTTGAATCACTGGA
Celera SNP ID:            hCV2059720
SNP Position Genomic:     126135
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,8)      total(G,2|T,8) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27983):
AAAATCAGTTTAAAAGGTGACTTATTTTAACATTATACCATATAATGAGATTCTTATACATTGGGTGGCCATGTCTAAATCAAGAGAATATGAGAGTGAA
R
AGGTGTGCTCCTTATAATTACTTGGGGGCAACTGATATATATGAAGCCTCCCTTGGCAGAGCATATTATTGACTTACTTATACTTTTCTTTCCCTTTTTA
Celera SNP ID:            hCV7686209
SNP Position Genomic:     315375
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27984):
TGGGATGCCCTGGGGCCACAGGAGGGGCATGGAAGCTAACCCAGCCCCACAGGCTCATCTGCTGAAATAACACAGATGTGCTTCTCAACCAACCCCTTTG
W
TGGGGGAAAAGTTCCCACATCAGTGGGTAAGCTGACCACAGGAGGGCTACATCAAGAAATATAAAGCAGTTCCCCCCATCCTTTGCTTAACTGGCACTAA
Celera SNP ID:            hCV11591853
SNP Position Genomic:     35969
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:27985):
ACCATACCTGGCTAATTTTTGTATTTTTAGCAGAGACGGTGTCTCCCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCCAGTGATCCTCCTGCCTC
R
GCCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCACCATGCCCAGCCTACACTGCCTAAATTCAAATCTTAGCTCCTCACTCACATGCTTTATGGTTCTG
Celera SNP ID:            hCV2059650
SNP Position Genomic:     245209
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27986):
AAGTTTTTTTTTTTTTTAAACGGTTATGTTATTTTATTTTGTTGAAGGCAGAGGATATGTTTTATTTTAGGGACCCACCAGAATTGCTTAGAAATTATCT
K
CAGGCTTTAGGGATTTTTGCTTATCAGTATATTTCATTTGCCCCATTGTTCAGCCCATCCACCACCTCCTTCCATTTGTTCTCAGAAACTAAACTAGGAG
Celera SNP ID:            hCV2059723
SNP Position Genomic:     120488
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27987):
AGCCTAGGGGTGGACTGCAGCAAATTGTGTGTGAGGGAAGCCAGCAGTCTGCAGGGCTGAGCTGAAGTGGGGAGAGGAGAAGAGCATGGGACGTGGTGTC
R
AGTGCAGTGGCATTGACTGCAGACAGGCTGCTGCTTTACACTGGGGGATTCATTCCCTTTCCCCCAGTAAAGACTGTTAAAATATCAGAACTGATAGTAT
Celera SNP ID:            hCV2059724
SNP Position Genomic:     119826
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27988):
TACCCCTTAGGAGTTTGTTTGTTTGTTTTGAGACAGAGTTATCAGGGAACCTGCCCCTGATAGTCACGTAGGTTCTTTTCTGTTTTCCCTAAGCGTTGGC
Y
GGGTTGAGAAATAAAGAGACAGAGTACAAAAGAGAGAAATTTTAAAGCTGGGTGTCCTGGGGAGACATCACATGTAGGTAGGTTCCGTGATGCCCCACAA
Celera SNP ID:            hCV11591855
SNP Position Genomic:     38935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27989):
TCAAAGCTCACAATGGAGGTAACTGGTTTCCAGGTTAAGTGCACTAAACTGTGTGGAAGGTGTTATGATAGTACCTCTACAGGTTCTGATGGAAGCATCA
R
TGATGGATTTGGCTTTTCCATTTGGGAGAGGAGGCTATAAAAAACCTTCCTGGAGGACGTGGGCTCATTCTGATTCACAGACAGGTCCAGCCCCTTCACT
Celera SNP ID:            hCV2059725
SNP Position Genomic:     116120
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27990):
TTATATAGAACATGTAAATAATTGTATGAAGTAGTTAGTGTACAAAATAATGTCATATATGCAGCTGCATTTTCTGCCTTTTTCACCTAGAAAGTTTTTT
Y
GTCATGTCATTAAAAACTTTTGCCCTCTGTTTTCATGACTACATAATATTCTGTTGTGTGGGTGTACCTGTCTTACTGCTTCACCTACTTTATTCATATT
Celera SNP ID:            hCV2059726
SNP Position Genomic:     113861
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27991):
GGAAGGAACTGGGGTTTCTTGGAGTATAATTTGTACAACTCTAACCTAGCACAACCACATCACTTTATTCATCTTAAATCCTGTGAAATGCAAAATAAGA
Y
TTGGTTTTGTAATACCTATAAACATGCCAGAACCAATTACAGACCAACAGGCACCTCTGGAAATGCAGGTTGAAGCAGAAACACAATTAGTGCATTAGTC
Celera SNP ID:            hCV11591857
SNP Position Genomic:     44210
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27992):
ATAACCCGTACTCTCATGTTCATCGGAGCACTATTCACAGTAGCCAAGATACGGAATCAACCTAAGTGTCCATCAACAGTTGAGTAGATAAAGAAAATAC
R
GTATATATACACAATGGAATATTATTCAGCCATAAAAAACAAAGTCATGCCACTTGCCACAAAATGGATCCAACATTATGTTAGGTGAAATAAGCCAAGT
Celera SNP ID:            hCV2059654
SNP Position Genomic:     244176
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27993):
ATTTGATAGGCATGATAAATTTGGTTTTGCATTAAAATATAGTGACTTTTCTGATTATGAAAGTAATTTCCCTTTTTTATTTTATTTTTTAAAGAACATT
R
TAAGTAATTTCTCATTATAAAAATGTGGAAAATACAGAAAAGTACAAAGAAGATTGTGTGCTAATTTTGTGAATACTAATAGCATTAACTAGACAGGAAT
Celera SNP ID:            hCV2059727
SNP Position Genomic:     113613
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27994):
TCTGCGAATCATCTGACCCAGTTGATCACTCCCTTCCTCTAAAAACACGGTTTTCTTTTGGCTTCTATGACACCAAGCCGGCTTGGATTTCTTCTTGTGA
Y
TCTACCCTCTCAGTCTCTCAGTTGGGCACCCCTTGCTCCAACTTACCTCTAAATATTTTTGAAGATGTCTGCATGCAAATTATACAGACATGCAAATTAT
Celera SNP ID:            hCV11591858
SNP Position Genomic:     45048
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:27995):
GCGTGCGCCATCATGCCCAGCTCATCTTTTTTTTTTTTTTTTTTTTTTTCCTAAAGAGATGGTGGAGTCTTGCTATACTTCCCAGGCTGTTCTTGAACTC
M
TGGGCTCAAGCAGTTCCCACACCTTGGCCCCCCCCAATTGCTTGGATTACAGGCATGAGCCACCATTCCTCGTCCTGAAATGATTTTAAATGTGTTGTTT
Celera SNP ID:            hCV2059655
SNP Position Genomic:     238379
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27996):
GACTTGATGATCTGAAATGCCTAATTAATATCCCCATTTGGAAGTCTAGCAGGCCTCTCAAACTTAATATGTCCAACATGGATTATTCTCCTCACTCCTC
Y
TGCAGCTCATGCTGCACCCCTGCTTACAGCCACCGCTGATCTCCAAGACCCCTGCCCATTTTACTTAGAATGAAATTCAGATTTCTTACCGTGGCCTACA
Celera SNP ID:            hCV11591859
SNP Position Genomic:     45300
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27997):
AGACAGGGTCACACTCTATCACTCAGGCAGTGGCAGGATCATAGCTCACTGTAATCTTGCAGTCCTTGCCTCAGCCTCCTGAGTAGCTGAAACTACAGGC
R
TGCGCCATCATGCCCAGCTCATCTTTTTTTTTTTTTTTTTTTTTTTCCTAAAGAGATGGTGGAGTCTTGCTATACTTCCCAGGCTGTTCTTGAACTCATG
Celera SNP ID:            hCV2059656
SNP Position Genomic:     238281
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27998):
TCCATGGGCCCACAGGGAACAGCCCTGCTGCTGCGGCACATAGTCCATTGCATTTGTGTATGTGTGTATGTGTGCATGCAGTTGGACTTGGGTTGTATAT
C
TGTCTGTCTGTATGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACATGGGTTGT
Celera SNP ID:            hCV26019040
SNP Position Genomic:     16550
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,9)   total(C,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:27999):
CAGTGACTAGGATAACGGGCTATTTGTATACTGCTGGCAGTGTTGAAGCAATTGTAAGGAATAAACGGCTATTTTTGTCCAGTTTAATATTAATTACAGT
Y
ACTTGCTTCCTTAAGCCCCTTTTGCATAATGAAAGATAGACCTCGGCCTCCCTCTGTTTGATTTACTCCAAATTTCTGGTTAGGCTTGATGTATGTACTA
Celera SNP ID:            hCV2059657
SNP Position Genomic:     237974
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28000):
CCATGGGCCCACAGGGAACAGCCCTGCTGCTGCGGCACATAGTCCATTGCATTTGTGTATGTGTGTATGTGTGCATGCAGTTGGACTTGGGTTGTATATC
T
GTCTGTCTGTATGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACATGGGTTGTA
Celera SNP ID:            hCV26019041
SNP Position Genomic:     16551
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28001):
GGCGAGTTACTTAACCTCTCTAAGCCTGTTTCCTCGTTAACCTAGTGAGACTAAGACCCATCTTACAGAGGTGTTGTGAGCAATATCTTTAGATAATATA
Y
GTTAGATACAGTACCCTCTGTCATTTAAATAAAATTCATGCTGTTCTGCCTAGATTAGAACACAGTATAATGGGCTGCATTATCTTACAGTTTATGGAGA
Celera SNP ID:            hCV2059658
SNP Position Genomic:     235102
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28002):
CATGGGCCCACAGGGAACAGCCCTGCTGCTGCGGCACATAGTCCATTGCATTTGTGTATGTGTGTATGTGTGCATGCAGTTGGACTTGGGTTGTATATCT
G
TCTGTCTGTATGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACATGGGTTGTAT
Celera SNP ID:            hCV26019042
SNP Position Genomic:     16552
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,9)   total(G,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28003):
ACCTACCCATTTTTCTTTCTAGCATTTCCAGTAAAATGTACTTTATGAGTAAATTCAGTCTTGTCAGTCCCGAGTGCCTTTAGCACATGGTGTAATTTGT
Y
TTGCATTTTTCCTTGGGCCTTTCCCAGATCTTCCAGAGCAGTACCTCTGTTCTTCATTGTAATTATGCCTTAGACCATAGGCAAGTGATTTCTGCTCTCT
Celera SNP ID:            hCV2059659
SNP Position Genomic:     232383
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28004):
TGGTTATACACAGTTTCATTCTGTGAATTTATCATAATTTGCTTAACCATCTCCCATCATTGGACATTGTTATTTGTCCTTCCCTCCCTTCTTTCCTTCT
W
TAAGTAATGCTGCTGTGAACATCTTGCATTGACCAGATTACTGGGGCAGATTACCTGTGCTTCCACAGTGGTTTTACCATAGTACAGATGCCATCTTCTT
Celera SNP ID:            hCV12004856
SNP Position Genomic:     144927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28005):
ACAGCCCTGCTGCTGCGGCACATAGTCCATTGCATTTGTGTATGTGTGTATGTGTGCATGCAGTTGGACTTGGGTTGTATATCTGTCTGTCTGTATGTGT
G
CAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACATGGGTTGTATTTCTGTGTGCAGTTGT
Celera SNP ID:            hCV26019043
SNP Position Genomic:     16568
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,10)   total(G,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28006):
AGCCCTGCTGCTGCGGCACATAGTCCATTGCATTTGTGTATGTGTGTATGTGTGCATGCAGTTGGACTTGGGTTGTATATCTGTCTGTCTGTATGTGTGC
A
GTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACATGGGTTGTATTTCTGTGTGCAGTTGTAC
Celera SNP ID:            hCV26019044
SNP Position Genomic:     16570
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28007):
GCCCTGCTGCTGCGGCACATAGTCCATTGCATTTGTGTATGTGTGTATGTGTGCATGCAGTTGGACTTGGGTTGTATATCTGTCTGTCTGTATGTGTGCA
G
TTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACATGGGTTGTATTTCTGTGTGCAGTTGTACA
Celera SNP ID:            hCV26019045
SNP Position Genomic:     16571
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,10)   total(G,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28008):
CCCTGCTGCTGCGGCACATAGTCCATTGCATTTGTGTATGTGTGTATGTGTGCATGCAGTTGGACTTGGGTTGTATATCTGTCTGTCTGTATGTGTGCAG
T
TGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACGTGGGTTGTTTTCTGTGTGTGTGCAGTTGTACATGGGTTGTATTTCTGTGTGCAGTTGTACAT
Celera SNP ID:            hCV26019046
SNP Position Genomic:     16572
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28009):
CAAGCAAGCTTGAAGTAATTTGCCCAAGGTCACACAGCTAGTAAGGGATGGAGCTGAGATTCGGGTCCAACAAGCTGGTAACAGAGCCTGCCTGCTTAGT
R
GCTATACTGTATGTTCCTCATTGGAGCCCGATACCCATTCTACCAAGTAGGTATTATTATTGCCAGTGAGGGAAGACTCATAATTTTGTGTTAAGAGGAA
Celera SNP ID:            hCV26019047
SNP Position Genomic:     12781
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28010):
TTTGACTTTTCCAAAGTAGCTGAACCATTTTGCACTCCCACCAGCAATGTATGAGGGTTCCAGTTTCTCTACATCCTCGCCAAGACTTGTTATTGCTATT
K
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTCATTATGGCCAGCCTAGTGGGTGTGAGGTTTTATCTTACTGTGGTTTTGATTTGCATTTCC
Celera SNP ID:            hCV26019048
SNP Position Genomic:     13525
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1|G,1)   total(G,1|T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28011):
GAACGGGGAGTGACTGCTTATGGGTTCGGGGTTTCATTTTGAGGTGATGGTTGCACACTTCTGTGAATTATGCTAAAAACCATTGAATTGTACACTTTAT
T
TTATTTATTTATTTATTTATTTATTTATTTATTTTGAGACAGAGGTCACCCAGGCTGGAGTGCAGTGGCGCTGTCTCAGCTCACTGCAACCTCCGCCTCC
Celera SNP ID:            hCV26019049
SNP Position Genomic:     15221
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28012):
TTATCTGTAAAAGCGGTTATTATTAGTATTTACCCCATCATATAGTTGTAAAGATTCAATGAACTAATACATGTAAATGTTAAGAAACAGTGTCTGTCCC
R
TAGGACCTGGCACTCTAAATAAATACTGCCTGTTATCACTGTATTGCTTATAAATCTAGGTTAGAAACATCATAATTTTCTCTATTATAATAATTAGGTC
Celera SNP ID:            hCV7686210
SNP Position Genomic:     316527
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28013):
TGAGTGGAATCTTCGACAGGAGGAGATAGATGAGAGCGATGATGATCTGGATGACAAAGTGAGTGTAAATTATGTCCTCGAATTCTCAACAACTACCCCA
R
CTTTTCTAGTCTGTGTAGACAAGATCCATTTTTGGTGAGATTGATTGATTGTGGTTTTATGATCCAATGTATCAGGGCCATTTATGTTGTTCAGTCCTTA
Celera SNP ID:            hCV7686211
SNP Position Genomic:     318138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;JBIC-allele(A,474|G,1007)   total(G,1007|A,474)
SNP Type:                 INTRON


Context             (SEQ ID NO:28014):
AGAGCAATTCAGTAAGATGATGGGAGGAAATAATTTCATTTCTGGGTACTAATTCCAGTAGCAGCTGTTTTCTGCTAACTGAGAAATATGCCTGTGCTAA
Y
AACTTTACACTTCCAGCAAAAACACTGGAACCATGGTGCACACTAAGCTGTCTAAAGACAAATGTGCGGTGTTTATTTTCTTTTAGGAAACACAGAAACA
Celera SNP ID:            hCV31930
SNP Position Genomic:     289899
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28015):
CATCGCTCCTGCCTTTTCATCAGCAGCGAGATAATTGACTGTTAGACTCCCGAGCCACAGACCACGGCAGAGGTGAGTCCGCTTCTAACTGTTTCTGCAG
R
GTGAGGTACAGTTGTCAGAAGTTCCCAAACAATGTGAGTTTGGTAAGAGGAGACTGGAAATGGAGTTTTCACCAGTAAAGCGACGCGTGGCGATTGTGTA
Celera SNP ID:            hCV11591861
SNP Position Genomic:     47048
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,10)      total(G,10|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28016):
GAAGTTCCCAAACAATGTGAGTTTGGTAAGAGGAGACTGGAAATGGAGTTTTCACCAGTAAAGCGACGCGTGGCGATTGTGTATCTACAGGGTGGAGAGC
R
CAGCGCTTAGCCCTGTGTCGACAGCCCTGTGGGCTGAGGCCACAGTCTGAATTTGCTGTGCCCAGCTGTGTTTTTTCATCAGGACAGGGTGTGGGAGCGG
Celera SNP ID:            hCV11591862
SNP Position Genomic:     47166
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,15)      total(G,15|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28017):
CAAGCAGACAGGGCAGGGCTTTCCAAGCAAAGGGAGCAGAGATGGCTTTGACCTCCTGTCAGTTAAATGAAGACAATAATGTCTACTATGAGACATTACT
R
TGTCACCCTAGTACGTGGTAAGCCCTGTGTGCTTGCATATGTTTGTTGAATTTTTTAAATTGTGTTAAGAAGGTGTGTCCTGAGTAAAAGATATTGCAAA
Celera SNP ID:            hCV2059660
SNP Position Genomic:     231706
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28018):
TGAGTTAGTGAGGGCAGAGCCACCCTGATGAGCACTGGCCTCTTGTGTCACTGTGGCAGTAGGGCCCGGGGAGTGTCTCAGCAGGAATGGCACAGGCAGC
R
TCCAGCATCTCTGGTGAAGTAGAGTGTTTCCAGGTGCAATGTCTTCTTTCTGACACCACTTCTGACTCCAAATGTTTGGGGTTTTCTCTATACCAAGCAA
Celera SNP ID:            hCV11591864
SNP Position Genomic:     53961
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28019):
GGCAACCCCCACAATTCTGTGGGCTCAGTCCCATAGAACAGCTCCCACTTCAGATGCCAGTCACAATTCCCAGAGGCTGCGTGTGTCTGACCAACCAGCT
R
TAAATTGAGAGGTTTCCACAATTTCCTTCTCAAGTGTGATGATTGGCTAGAACTCACAGAACTCAGGAAAATACATCTACAGCCATACCACCCTGAACAC
Celera SNP ID:            hCV11591865
SNP Position Genomic:     54235
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28020):
ATTGCTTCAGAGCTGTTGAAGCAAAGCAAAGATTTCTCCATCTGCATAGCATTTCCTGTTTGCAATCTCTGACTGTAGGGTATTGTGGTTTGTGTTAAAG
W
TGTTTTTTTTTTTATTTTTCTTCTTTTCTTTCCCCTCAAATAAGAATATCTGATAATGTACAGGTTGGATCTAGATTTGTAGCCAGCAGATTATTTCTCA
Celera SNP ID:            hCV2059663
SNP Position Genomic:     227238
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28021):
CACCTCAACTGAGATCAGAGGGATAGAGGTGGGAGAGAACCTGCCACTTTTGAGGAAGTAAAAGATGTATGTTATAGCTAAAGGATAATGGGGAACAAGA
M
CGGTAATGAGCCTGGAAAGATGGGGGGCTTATCTTGGAAAGGCATGGAAAGCCTTTAGGGTTTGAAGCAAAGGATTGGCATGCTCTGATTTGCTTTTTAG
Celera SNP ID:            hCV12004860
SNP Position Genomic:     135056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28022):
AAATAATATTCATGAAAATAATATGATATTGAAAATAAGTTCTCTGCTGTCTATGTAAATATAGCAATTTTATAAATTTGTTTGTATAATGCCTCTCAAC
M
TCTAAGGCCAGAGCAAAAAACCTAATTTTTTAAAAACAAAAAACCAGAAAATATTAGGGAACAGAAGCTGGATGCTGTCTCAGAAGGTTTGCTAGCAATT
Celera SNP ID:            hCV11591868
SNP Position Genomic:     65498
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28023):
CACTGGATTATTATAGTATTAATAGGCTACATTAATATTAGTATTACTATGGTATTAATAGCCACTATAGGGGACTTTGTATTATAAAAAGAACACATGC
Y
TACAGGGGAATTGCAATTTCTCTTTCATATTCCCCCTAATCAAAGATAACTATAATTGACACTTGGAGTTTATCTTTCTAGTCCTTTTGTCTGTACCTCT
Celera SNP ID:            hCV2059664
SNP Position Genomic:     224670
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28024):
TCCAGCCTAGAGGAAGGAAGGCCTTCTTGGAGTGAAGCCTAAGTGCCGTGTGTTGTCAGTGCTCCATGGGGTAACTGAGTCTCAGAGAGCTTAATTAGCT
Y
AACTAGCATGGGCCATATTTGTTCCAAGTCACAGAATTTTCCAGATGCAGAGTGACTTGGTTAGTATGTGGGGAAGGATGGTAGGATTTTCTCCTGGGTA
Celera SNP ID:            hCV11591869
SNP Position Genomic:     72726
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:28025):
AACGGGGAGTGACTGCTTATGGGTTCGGGGTTTCATTTTGAGGTGATGGTTGCACACTTCTGTGAATTATGCTAAAAACCATTGAATTGTACACTTTATT
T
TATTTATTTATTTATTTATTTATTTATTTATTTTGAGACAGAGGTCACCCAGGCTGGAGTGCAGTGGCGCTGTCTCAGCTCACTGCAACCTCCGCCTCCT
Celera SNP ID:            hCV26019050
SNP Position Genomic:     15222
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28026):
CCAGAACTCATTCTCAAGATGTCCTTAACCTAGGTCAGTTATTCATGTATCACATAGGCTTCTGTGGCCTTAGGTGATAATTTGTCATAATCCATTAGAT
R
CAAAAGGTTAGTTTACAGATGAAGATAACCTATTTGAAAAATGAAAACTACCTTTCTACACTCCATTAACCTATTTGGCCAGTTACAATATTCTTTTTCT
Celera SNP ID:            hCV2059666
SNP Position Genomic:     220239
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28027):
CCGTGCCTCATCTTATGATGTGTCCATTCATGTCAGCCCAGCTATCTACTTGTTCATCTCATTGATTCTGCCCATTGTTGAGGACTTAGTCTAAGTGTCA
W
AGCACCCAAAGTCTTCTCTGATACCTTGCCACCCATCACCTCTCTGTTAGTCAGGATGAGTTAGTTTTTCTCCTCTGTTGTTTTATAGGAAATTGTGTAC
Celera SNP ID:            hCV12004864
SNP Position Genomic:     124308
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,8)      total(A,2|T,8) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28028):
ACGGGGAGTGACTGCTTATGGGTTCGGGGTTTCATTTTGAGGTGATGGTTGCACACTTCTGTGAATTATGCTAAAAACCATTGAATTGTACACTTTATTT
T
ATTTATTTATTTATTTATTTATTTATTTATTTTGAGACAGAGGTCACCCAGGCTGGAGTGCAGTGGCGCTGTCTCAGCTCACTGCAACCTCCGCCTCCTG
Celera SNP ID:            hCV26019051
SNP Position Genomic:     15223
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28029):
GGAGGCAGACCCAGGGATGGGGGTGGTGGAGGAAACTGTTTGCCAGGCAGTCGTGTGTGGGCATCCCCATGTTGTGCTGCAACCCCCTCCCCAGCCCTCA
Y
ACCATGTGCACACTTAGAAAGGTTCTGGGTAACACCACCTGGACGGATCATTTGGATTTTGTTGGTTTTGGGGGATGAAATTATTTCTCTAAGAGCCACC
Celera SNP ID:            hCV2059667
SNP Position Genomic:     219860
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28030):
CGGGGAGTGACTGCTTATGGGTTCGGGGTTTCATTTTGAGGTGATGGTTGCACACTTCTGTGAATTATGCTAAAAACCATTGAATTGTACACTTTATTTT
A
TTTATTTATTTATTTATTTATTTATTTATTTTGAGACAGAGGTCACCCAGGCTGGAGTGCAGTGGCGCTGTCTCAGCTCACTGCAACCTCCGCCTCCTGA
Celera SNP ID:            hCV26019052
SNP Position Genomic:     15224
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28031):
CACAGGCAGGATGTAAGGAATGGCCAAAGAGGTCCTCAAGCCTTAACAACTTTAAGAGGAAATAAATTATAATACAATGTGATAATCATTATAAGAGTAT
R
GAAAAATTCCTGAGAGCTATTCAGAGGACCAAGCAGCTGCCTCAGTCTGCCTTCTCAAGGACATTGGAGATGGGTTTCTAAGGATAGGTGGAAGCTTGCC
Celera SNP ID:            hCV7686223
SNP Position Genomic:     320256
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28032):
CAGACTGATATAAAAAATACTGTTTTAATCTTCTAAAAGGTATAAAATCCCCCCATTCCTTCTGCATATGAATTCCTAGACTCTTGGTTTTGAAATGTTC
R
GTTTTCTGCATCACAGAAGTTAAGCTGTGTATATGCGTTTCTCCCAACATACTGAAGGTGAGCGCCACCTAGAGTCAAAGGTGTGACTTGCATAGTTCAC
Celera SNP ID:            hCV7686150
SNP Position Genomic:     303903
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28033):
AGAGGGAAGAGCCCCTTATAAAACCATCAGATCTCAACTCACTCACTATCATGAGAACAGCATGGGGGAAACCGCCACCTTGATCCAATCACCTCCTACA
Y
GGGTCTCTCCCCAGACACGTGGGGATTATGGGGATAACAATTCAAGATGAGATTTGGGTGAGGACACAAATCCAAACCATATCAATCATATAATAGGTTT
Celera SNP ID:            hCV7686151
SNP Position Genomic:     304725
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28034):
CCATGTTTTTGTAAATCTTAGATTATATAAACCTCATTTATTCAGAAGAGCACCCTCGGTTTTCCTTCACTCTGAGCATTGCCTGCACTTTCACTGGAGG
Y
CTTGCTCAAAGTGTGGTGTGGTAGAAAGAGAGGAAGCAAAACAAGACTGACAGTTCACTTTGGTAATAGCTGGTAAAGGACTTGCTTGGGCAGGAAGATC
Celera SNP ID:            hCV16127486
SNP Position Genomic:     220653
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28035):
TTAGATCTCCAAGATTGGAGCCCCAAATTAATCCATACTCTTTCTTTTACTATGTCTCCTTGGTAGAGATTGTGGTGTGTTGTGCAGATGTTGATGCTTT
Y
AGTTAAATCTCTGTGATGAGCACTCTTGGAAGTAGATGAGAAATATATGGTAAGAAGGCTGGGCGTGGTGGGTCATACCTGTAATCCCAGCACTTTGGGA
Celera SNP ID:            hCV76733
SNP Position Genomic:     78473
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28036):
GAATAGGAATTAATTTGGGTAACTTGGAATTCTCATTTAAAAAAAACATTTTCCTAGTTCTAGTAAGTACCTTCCTGTTGATGACCTTTTTTTGCTCTTT
R
GATCACTAATGCACATACATAGAGCGCAACTGAAAAACTGTTAGATCTCCAAGATTGGAGCCCCAAATTAATCCATACTCTTTCTTTTACTATGTCTCCT
Celera SNP ID:            hCV76734
SNP Position Genomic:     78332
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28037):
AACACCCATGAGGCTTCACGGGGTTCCCTGATGGCTGTGAGTCTCTTCTGTAATCTCAGCTTCTGGGGGATAGGCATGGTGTTCCATTCTGCATGCTGCT
Y
GTCACATAATAGGCCCTCCAGAAATACTACTGAATGAATAAATGCATCTAATAGTCTGATAATTTTATCTGTATGATTGGCGAAAATATTAATCTTCTGG
Celera SNP ID:            hCV507475
SNP Position Genomic:     99891
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28038):
ACAAGGATACTTGTGGTGTGGTTACCAAATTCACACGAGGCAAGCATAGTGTAGCACTGGTCTTTTCTCACTGTGCACTGTTTGAAGTTGGCCTCAGTGC
K
AGAAATCTGTATTACCTGAGCAAATGTTTAGGAATTCTCTTTGCTTTTGAATACGTTGAAAGAAAGGAATTCTTTCTCCAATTTGTTCAGCTCTCCTCCT
Celera SNP ID:            hCV7685426
SNP Position Genomic:     108380
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,9)   total(G,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28039):
TAATTTTATCTGTATGATTGGCGAAAATATTAATCTTCTGGTGTTGTGACTTGTATATGAACCTTTCTGTTTCATGATGGCAATATGCCCTGCCATACTT
K
AAAAAAATTGTTACAGCCATGCCGTTTGTTTTTTGTTTTGTTTTGTTTTGTTTTTGAGACGGAGTTTCACTCTGGTTGGCCAGGCTGGAGTGCAATGGCA
Celera SNP ID:            hCV507476
SNP Position Genomic:     100051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28040):
ATTGTCTCCGGTCGGCATATTTTAATTCTTGAGGTTGCACTCTCTTGAGTGGTTACTTTTTGCATAGATGTGAAAAGTATGCTTTAGGTTTTTTTACTGA
W
GGATAGCCACCATAGTTGAATTTTAATTTTTCCCCCATGCTTACATATGTGGAAGTAGTGCATTATTATAAATATCTTAGGTGGGTCACAATTCAGTTCT
Celera SNP ID:            hCV76736
SNP Position Genomic:     77943
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,9)      total(A,1|T,9) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28041):
GTGAGACTCTGGAGTGTGGGATGGTACTTAGCATTTTATAAACACCCACTGTATACCAGATACTAGATGAGGCACTTCATAGTCTTTCTCATCTATTTCC
Y
TTAATAACCCCATCAAGTAGGTATTACTATGGCTAAGAAGACAAGAGTCTGAGATGATGTATAAATTGCCCTAGATCACAGTTTATAAACAGAAAACCTG
Celera SNP ID:            hCV2059672
SNP Position Genomic:     210054
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28042):
GGAAATTATAATTTTATCTTTATATTTCTCTGTAATAGCATATGAATTACTTATATAATTTTAAAAACAAATAGAATTAAATATTTTATAAGTGTGATTA
R
TGCTACAAAGTATGCATAGGATAATATAAAAAGAATTTGTCACTTCCCCTTTTATGGCAGTGCTATGATTTATGTCACATATTACATGGCTTTATTATTA
Celera SNP ID:            hCV2059673
SNP Position Genomic:     209349
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28043):
TGTTCCACACCCAACATAAATTATTGCCCAGGGTGAGTTAATTTGTGTTTATTTCTGAAGTGGCAGTGGTTGCTTCCTGAGGGTCTAACCTTGTTTGACT
S
TTTTGTAGGCTAAATTTCTGCAGGCCTTCTGCAGAGCCCTGTCTTCTTCCTCTCAGAGACAACCCAGGTGTTTTTCATTCCCTAGAAAGTTCCCCTTTGC
Celera SNP ID:            hCV12004871
SNP Position Genomic:     93373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28044):
AATTAGGTTCGGTGTCTTACCATGGTGTCATGTAATGCTTATTTTAATCCTGCGGTTTTCAGTGGGGAGAAAAGTTTTCTTAACAAGCATATGTAAGAGA
Y
ATAATAGATTAGAATAAAATGTCACAAGGTGTACAAAAGCAGCTTGTCTCTAGGAAATTTTACCTTTTTTTGCTGTTTTTCAAGTTTGTGGATAGCCAGA
Celera SNP ID:            hCV2059674
SNP Position Genomic:     202865
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28045):
CATAAATTTAAAAAATAATATCTAATGTGCAGGGGATTGTATGGACAAAAGGAGAGACCATCTAAGGCCCCTAATACACTGCCTGCCACATAGTAGGTGC
Y
TAACAAATGGTAGATGGGGGAAAAGGACAGCTAGATGAATTCTTGAGTGCCTTCTCTATTTTAATTCAGTGATTCCACATACAACATTTGACCAGCCTGA
Celera SNP ID:            hCV2059676
SNP Position Genomic:     198744
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28046):
TCCTTGCTAATCCACTTCTTATTAGCAAGGTGACCTTGAGCTGGTTATTTCTCCTTCTTGAGCCTCCATTTTTCTTCTGTAACGTGAGGATAGTGGTATT
W
AAAAAAGTTGTTGAAGGGATTTAATGATCTCATATCTGTAAAGGGTCTGCCAGGTTATGGGAGTTCAGTAAATGCATGTTCCTCTTAATTTTATCATCAT
Celera SNP ID:            hCV2059677
SNP Position Genomic:     197733
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28047):
ACTTCTCTAGGAAATCAGTGGTCTGTAACTTAACAGAAAACCTGGAAGGGAAGGCAGCAGACTATAATAGAAAGAGCGCAGGCCGTGAAGTTGGACAGAT
R
TGGGCTTTCGTCCTTGCTAATCCACTTCTTATTAGCAAGGTGACCTTGAGCTGGTTATTTCTCCTTCTTGAGCCTCCATTTTTCTTCTGTAACGTGAGGA
Celera SNP ID:            hCV2059678
SNP Position Genomic:     197622
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28048):
CAGCTCACTACAACCTCCCAATTCCTGGGCACAAGCGATTCTACCACCTCAGCCTCCTGAGTAGCTGGGACTATAGGCACATGCCACCATGCCTGGATAC
T
TTTTTTTTTTTTTTTTTAAATATAAGCAGGGTCCCTCTTTGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGAAATTCTCCCACCTTGGTCCCCCAA
Celera SNP ID:            hCV448625
SNP Position Genomic:     275401
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28049):
CTCATGGCCTGATCACTGTGAAATTCTGGGACCTTAGAAGCCTTTTGTATTGACTGCTCGCTCGCTCGCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT
S
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTCTTTTACTTCTTGTTTGGCCAAGAAACTGTATGTGTTAATAGCTTGTTTGTTT
Celera SNP ID:            hCV12004876
SNP Position Genomic:     133556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28050):
ACCAGCTCACCTACCAATAGGTTACTTCTCTAGGAAATCAGTGGTCTGTAACTTAACAGAAAACCTGGAAGGGAAGGCAGCAGACTATAATAGAAAGAGC
R
CAGGCCGTGAAGTTGGACAGATGTGGGCTTTCGTCCTTGCTAATCCACTTCTTATTAGCAAGGTGACCTTGAGCTGGTTATTTCTCCTTCTTGAGCCTCC
Celera SNP ID:            hCV2059679
SNP Position Genomic:     197599
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28051):
TCTTTCCTGTCTGCACCCTTACTCCCATTCCTTCCTGGCTTGTTCCAAGAGGAGTGTCAGATAGAATGCCATGGGCGTCTTCTCCTCCAGGATTGCAGGG
R
TTAAAGATGGAGATGACCTAGGACAGCACCTGGCCCACAGGGGACACTCTTAGTTAGCTCCCTTCTTCTCTGCTTAATTACTTTCCAACCTTCTTTTTGT
Celera SNP ID:            hCV16127490
SNP Position Genomic:     188900
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28052):
TCTGGCTGCAGTGTGGAGAATGGACTGGAGGAAGGAAACTGGAGAAGGGGCCATTCTGGAGGCTAGAGCTGCAGTGGGAGCTGGTGAGCACCTGTACTAG
R
AGGGGCTTCAAGGGATATTTCCAAGGGGAATGCAGGAACCAGGGACTCCAGGTGACACTGAGGTTTCTAACCTGGGCAGTTGAGTGGATCCTAATGCCAT
Celera SNP ID:            hCV7686232
SNP Position Genomic:     320730
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28053):
TGGAGGAAGGAAACTGGAGAAGGGGCCATTCTGGAGGCTAGAGCTGCAGTGGGAGCTGGTGAGCACCTGTACTAGGAGGGGCTTCAAGGGATATTTCCAA
R
GGGAATGCAGGAACCAGGGACTCCAGGTGACACTGAGGTTTCTAACCTGGGCAGTTGAGTGGATCCTAATGCCATCACCACAAGCGCAAATACCAGAGAT
Celera SNP ID:            hCV7686233
SNP Position Genomic:     320755
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28054):
AAAACCATCAGATCTCAACTCACTCACTATCATGAGAACAGCATGGGGGAAACCGCCACCTTGATCCAATCACCTCCTACATGGGTCTCTCCCCAGACAC
S
TGGGGATTATGGGGATAACAATTCAAGATGAGATTTGGGTGAGGACACAAATCCAAACCATATCAATCATATAATAGGTTTTTTTGTTGTTGATTTCACA
Celera SNP ID:            hCV7686161
SNP Position Genomic:     304744
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28055):
GATTCCCACCTGAGCCCGCCCTGCGGAGGCCCTCTGTACACATGAAGGGTGGTCCTTGATTATTATCTCACCTTCTTATTTCATCTGCCAGCCAAGCCCT
R
TCAAGAAAGAGCGCTCACCCAGACCTCAGAGCTTCTGCCACTCCTCCAGCATCTCCCCCCAGGACAAGCTGGCACTGCCAGGATTCAGCACTCCAAGGGA
Celera SNP ID:            hCV7686234
SNP Position Genomic:     321410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;JBIC-allele(A,401|G,1100)   total(G,1100|A,401)no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:28056):
GTGGTACAAATCTCGCTCACTGCAGCCTCTGCCTCCCAGGTTCAAGTGATTCTCGTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGTACCACCA
Y
GCCTGGCTAATTTTTATGTTTTTAGTAGAGACCGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTCAAGTGACCTCAAGTGATCTGCCCGCCT
Celera SNP ID:            hCV11593554
SNP Position Genomic:     269266
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28057):
GATGAAATACTCTATGGTAGAGCCACACAACAGAACACTATGCAGATGGAAAAAAAAAGCACAAATTACACTGAAAAGGCTTTTCAAAAGTTAATTTGAT
Y
GTAAAACTACCATGAACAAATAAGACCTAAGTTTTACTTTACCAGCTTGATAACAGCAAGTGCTCAAGCACATACACAGTGCACTCTTGTCCACACCAGC
Celera SNP ID:            hCV7686163
SNP Position Genomic:     310701
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28058):
CATATTGGAAAACACAGATGTAGAGCATTCTCATTGAAACTCACCTTTAAAAAAAAAAATTGGGAAGAGATTTAATTAGTGTTCTCTTATTTTTAAAAAA
W
GTTTATTTCAGTAGTTTCTGGAGTACAGGTGGTTTTTGGTTACATGGATAAGTTATTTAGTGGTGATTTCTGGGATCTTGGTGTACCTGTCACCCGAGCA
Celera SNP ID:            hCV11593555
SNP Position Genomic:     261281
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28059):
GAATCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCATTGCACTCCAGCCTGGACAACAAGAGCAAAACTCTGTCTCAAAAGAAAAAAAAAAAAA
A
CAGGAAGAGAGACATCTGACCAGGAGGACTGAGGAGAAGGTATTAGCACCTTGAAGGAGGTGGTGGGACTTGTCATTGAACTTGGAGGATAGCTAGGATT
Celera SNP ID:            hCV11593557
SNP Position Genomic:     257027
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28060):
CAGGTCGTAAGCCCTCATAAATGATTATAAAATGATTTCATTATTGATACGTGATGTGACTGACTTTTGAAAGGCAAGATGAGGCTTGGGAACCACTGTA
R
CCTCCAAGAGTCCCGGGGCGATTAGATAGTGAATATTTTTACGTGTGCTACCCAAACAAAAAATATGTGTTGCAATATTTACCTTAGTTAAGATGGTGCT
Celera SNP ID:            hCV2059682
SNP Position Genomic:     187755
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28061):
TTTGAGTGGGGACACAGAGCCAAACCATATCAAGGGTTTTGAAGGGGATCTGTTTTCCTTTCTCTGTACACATTGCTGAATTCTGCCATTGGTACAAAAG
R
CAGAGTGGTTTAATGAAAAGGTTGTTGATATGATAGGAGGCCCATACTTCACTCATCTCCCTTCACTCATCTAGTCTCTCTCGGAGTCTGCTTTTCCCAT
Celera SNP ID:            hCV2059683
SNP Position Genomic:     187422
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28062):
GAGAAAATGGTGAGAGGCAGAAGTATTGTTCAGAAAAGAGAAAATTTTAGCTACTAGAATTAGCATCTCCAGAGTCATAAAGGCCAGAAAGGAGCCTGGC
R
TGTTAGGACATCATGAACTTGGAGAACCAGGAATATAAAGTGGACAGTCACAGTGACAAGGGTGGGTTGGCTGCAAAGGCGAGTCTGTGAAAGTAGATTG
Celera SNP ID:            hCV2059684
SNP Position Genomic:     184316
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28063):
TTAGATGGTAGGTTCCAGTTTCTGTACACTGGGCACATCTAGATCTTCTCCTACACCCTGGGGTGCAGGGCCAGCAAGATGGCTCTACAACTGGGAGGAA
R
TAATATATAAATAAACACATACATATGTGTGTCTGGTATCTTAAAAGATTAATAACTGTTCTTTGTCAAGATAAAAATGTGAGGAAAATGTCATTATAAC
Celera SNP ID:            hCV2059685
SNP Position Genomic:     183971
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28064):
GTAGAATAAAACATGTTTTTTAGTTGGAGAAGCAGTCAGACATGGCAGAAAGCACAGACTTTGGAGTTAAGCTTTCCAGGGTTAAAATCCTGATTTTTCC
R
TTTACTAGTTTTTTGGCCCTGGATCCCTACTTTCTGACTTAATTTCTTCATCTCCAAAAAGGCATTATTAATGCATGTCTTCTTAGATTGATGAAGTCTT
Celera SNP ID:            hCV2059686
SNP Position Genomic:     183390
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28065):
CCATTCACCAAATTTCTTTTTTCTATTTCTTACAGCTTTAGAAGGATAAAAAATGCATTTTATTATTGTTCCATGTGGAATTTTAAACTTATCAGTGCAA
Y
TGAAATTACTTGCATATGTTTGCTATTTTCGGTTTCTTGTGTTAATGTTTTTTGTCCCTCTGTTCTTCTGGGTCTTTATAGCAGCAACATAAGAATTCTA
Celera SNP ID:            hCV2059687
SNP Position Genomic:     181924
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28066):
CTATCTTGGGTCACGTGGTCAGCCCTGTACCAGTCACTGTGGACAAGGCCATGGACTATTCTGATTGGACAAGCCCATGTCACCTGATCATTCCCAGACT
Y
CAGGGAGAGGTTGAAAGTGAGACCCACAGGAACCAAAGGATGTGGGGGGACTCCCCAGTGGGAATTTGAAATGCATTCACCGGCAGGAGTACTGGGTGCT
Celera SNP ID:            hCV218532
SNP Position Genomic:     47762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28067):
GGCACTTTATATGGATTTCTTCACTTAATCCTTATAACTCTATGAGATTAATTACTATAAATTTCCCTGTTTTATAGAGGGAGGAAACTGAGGCACAGCC
S
GGTTAAGTTTCTGGCCCAGGTCATGTAAGTAGTGGAGCTAGGATTTGACCACAGGCGGTTTGGCTCTAGATTTTGTGTTCCAAACCATGTTATTTAAATT
Celera SNP ID:            hCV2059688
SNP Position Genomic:     180464
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28068):
CATGCACATGCAGGAAAAAAAATATGCAAAGGTTATTTGCAGTTTAATATTAAGTGAAAAAAGCAGAATACAGGTTGCACATAAAACATTTATTAGGTAC
R
TAGAGAAAATGTACATGAACAAGTTAGGAAGCCAACAAAAAAGAAAATAGCGTTTTAGAGTGGTAGAGTTCTGGCTAAAGTTTAAGCTTTTTGTCTTTAG
Celera SNP ID:            hCV2059689
SNP Position Genomic:     178330
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28069):
AGTGAAAGCATGTCCCAGAAATAGGTGGCCAGGATAAGGAGGGGACATTTATAAAACTAAACCAGATGTCCACAGGTGTGATAGTTGACTTGCTGAAAAT
Y
TAATAAATGCAGCAGTTGTGCCCAGACACAGCTGTGTATGCATTTTAGACATTTCTCCAACTTTCCTTGGAGATCTGTGGCAGTAGATAGGAAGAAGAGT
Celera SNP ID:            hCV28033348
SNP Position Genomic:     327175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28070):
ACTTAATGGCTTGAAACAACACACATTTATTATCTTAAAATTCTGGAAGTATCGTCATTGTGCCTTGGACATGGCAGATGGGTCAGCAAACATTCGTCCA
R
TGAAAGGTCTTTCTAAGACTGTGCCTTTGAACCTACTGTTCTGTCCATTCAGAATTCCCTCTTCCTACCTTTCTGTCTGGTGTACTCCTGTTCATCCTCA
Celera SNP ID:            hCV11593560
SNP Position Genomic:     19538
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28071):
GCACAGACTTAATGGCTTGAAACAACACACATTTATTATCTTAAAATTCTGGAAGTATCGTCATTGTGCCTTGGACATGGCAGATGGGTCAGCAAACATT
Y
GTCCAATGAAAGGTCTTTCTAAGACTGTGCCTTTGAACCTACTGTTCTGTCCATTCAGAATTCCCTCTTCCTACCTTTCTGTCTGGTGTACTCCTGTTCA
Celera SNP ID:            hCV11593561
SNP Position Genomic:     19532
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28072):
ATCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGTCTCAATCAATCAATCAAATAGTAAAGAAAAACTAGCACCAATTCTTAAACTGTTC
Y
AAAAAAATTGAAGACAAAGGAATTTTTCCTAACTCTTCCAATGAGGCCAGCATTGCCCTAATACCAAAACCAGACAAGGACACAACAAAAAAAGAAAACT
Celera SNP ID:            hCV7686317
SNP Position Genomic:     331063
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28073):
CTCAATGAGATACACTGACCAGCCCAAGGTCACACCACTGGTAAGAGGTAAAGTTGAGATTCAATCTGAGGTCCACGTGGCTCCAGAACCTGTACTTTTT
R
TAATGTGGAGTGGAGTTTCAGTTCTCTGGAAAGTTACTTTTCTCTACATTAAAATGCCACTCTTTTGAAGACGCTAGTAATAATAGTGGTAGTTAATAGT
Celera SNP ID:            hCV7686244
SNP Position Genomic:     322016
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28074):
TTATGGAGCACTTGCCTTATGAGAGGCTCTACGCCTAGTACTTCTTTTGTAATCATCTCAAAATGAGGTAGGTGCTATTATGCAGTTACTGGCATCATGT
R
AATTAGGGGATTTGTTCAGAGATACTGAGTAATTGGCCTGTAGTTCTCAGCCTGGGATTCTAACCCAGGTTCTGTGTGACCAAAGCCCATTCTCTTGTAC
Celera SNP ID:            hCV7686245
SNP Position Genomic:     322216
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28075):
GAAAATAGCACTGTCATACCACTGAGCAATTCTACTACTGGGTATTTATCCAGTGCAAAGGAAATCAGTATATTAAAGGGATACCTGCACCCCATGTTTA
Y
TGCAGTGCTATTTACAGTAGCCAAGATATGGAATCAGTCTAAATGTCCATCAGCAGGTGAATGGATGAAGAAAATGTGTATATATACATATGGAATATTA
Celera SNP ID:            hCV7686319
SNP Position Genomic:     333747
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28076):
ATTTGTGTGTGGTAGTTTCTCGTTTGTGATCAGTAGCTTCCCCCTGCCCCCACCCCACTTCTACTGTACGTTTATTAACACTGGTTCTTGGACCGGGTGC
R
GTGGCTTACGCCTATAATCCCAACACTTTGGGAGACCGAGGTGGCCGGATCACCTGACGTCGGGAGTTCGAGACCACCCTGACCAACATGGAGAAACCCC
Celera SNP ID:            hCV7686246
SNP Position Genomic:     324659
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28077):
ATTTCACTCTCATTGCCTAGGCTGGAGTGCAGTGATGCGATCTTTGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGATTCTCCTGTCGCAGCCTCCC
R
AATAGCTGGGATTACAGGCATGCGCCACTATGCCCGACTAGTTTTTTGTATTTTTAGTAGAGAAGGAGTTTTCTCCATGTTGATCAGGCTGGTCTCAAAC
Celera SNP ID:            hCV7686173
SNP Position Genomic:     312047
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,10)   total(G,10|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28078):
TATGCCCGACTAGTTTTTTGTATTTTTAGTAGAGAAGGAGTTTTCTCCATGTTGATCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATTCACCCACCTC
R
GCCTCCCAGTGTGCTGGGATTACAGGCATGAGCCACTGCACCCAGCCTCTTAAACTGATCATATGATATTGGTTCTCAACCAAGGGTGACTTTGCCCTCA
Celera SNP ID:            hCV7686174
SNP Position Genomic:     312176
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,12)   total(G,12|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28079):
TCGGCCTCCCAGTGTGCTGGGATTACAGGCATGAGCCACTGCACCCAGCCTCTTAAACTGATCATATGATATTGGTTCTCAACCAAGGGTGACTTTGCCC
Y
CAGAGGATACTTGGCAATGTCTGGAGATACTCAGTTGTCATGACTTGGACAGGTGCTACTGTCACCCAGTGGGTAGAGGTCAGGGATGGTGCTAAACATA
Celera SNP ID:            hCV7686175
SNP Position Genomic:     312274
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,9)   total(C,6|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28080):
TATTATAGTTACTGCTCTGGGCCCACACAGGCTCCAAAGACATACCCTCTAAATATGTGACTTTACTGTATTATCAGCGTGGACATTTGGAAAACAGTTA
Y
ATTAGTTTTTATAAAATTATGGGTTATAAGAAGGTACATTGATATAGTGTGGGAAATTTTAAAAAAGGGAAGAAATGATGCTTCTTTACCACCTTTAGCA
Celera SNP ID:            hCV2059690
SNP Position Genomic:     176642
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28081):
ATTTTTTAAAAAACAGAAATGTAATGAATTTTAGTATATTAATGCTTTTTGAATTTTCGAAAGGAGATACAGCTTGGAGTATTTCCCAAATTTACCGACT
R
TAGATCCCTTTTTTTCGCAACAGCATTAATTGGGCTAGTTGGGCACAGATTTTGAGAAATACTGATCTCAATGAATATTACTCAAATTTAAGTATTTTCT
Celera SNP ID:            hCV2059691
SNP Position Genomic:     176071
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Gene Number:                 107
Celera Gene:                 hCG2011522 - 79000075464494
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VTY6(36164886..36177159)
Chromosome:                  Chr9
OMIM number:                 192977
OMIM Information:            VERY LOW DENSITY LIPOPROTEIN RECEPTOR;VLDLR


Genomic Sequence (SEQ ID NO:12267):
CTCAGTTTGTTCATGTTGCCCTTGTCCACCCATTCACCAGGAGTGGGCTCAGATTGTATTCTTGAATGAGGCCTCAATGCCTTTTTTGGAAAAACTAGGT
ATGGTCTGGCTGCTTTCTCATAATAGTCCCTGTCACAGAGCCATCACCCAAGGAGATGAGTTCAGCTACCATTTTTCACCTTTAGACACAGAGATCCCCT
AAGGCATGGGCTGCAGTTCACATTTGTAACTCAGGACCTGGTGCCTGACATCCTATATTCTCTAGGCACTAGTTGGTAGTCTTGGGTGCATGAGTTGATT
TATTAGTTTACTAATAAAGCTGGTCTGAACTAAAAACTTTTGTCAAAAACATTTCCCCCAGCTTTTTCAGAACTTGAAACCAAGTGTGACTGGTTGTTTT
ACTAGCTAGAATACTTTGAAAGACTCTAGGTTATAAAGGTCCCTGTTCCCTAGGCCTATGAGGGTACCTTCACCTCATCTTTGTAGCAATTTTTTTTTTT
TTTTTTTGAGATGGATTCTCGCACTGTAGCCCAGGCTGGAGTGCAGTGGCGTTATCTCGGCTCACTGAAATCTCTGCCACCCGGGTTCAAGCGATTCTCC
TGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCTCGCACCACCACACCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGCTTTCACTATGTTGGCC
AGGCTGGTCTCGAACTCCTGACCTCGTGATCTGCCTGCCTCGGCCTCCAAAAGCACTGGGATTATAGGTTTGAGCCACCGCGCCCGGCCTCTTTGTTGCA
ATTTATCATTTAAAAACAGTGCATTTTCACACACTTGTCTGTCAGAATGAGTGTGTCCCTTTGGGTGTGTTGGCTTCATTTCCATGTGAAAAGAGAGGTT
CCAACACCTGAGAAGGTTAGCAGCGGCTAACTGGTAAAGTTGAGTGTGATATATCAGACGCAGATTTTACTTCTGACATGTTTTAATGCTCTTTGGTAAT
ACTGGCAGTAATCCATTGTTGCTTTAGTCATATCACTTTTGTAGGATTATCTGCAGACATAGAATTATTTCTGGCTTTTTGAAATTAAAGTCTAAGTTCT
TGGTAATTTTAGGGAAACTTCATAAGCTAGAACCCAGATAGCATATGGAAATTCCAGAAATCTCCAGCTGCTATCTGCCTCTTTTATGATTAAGTCTTAA
ACACTGGATCTGCTCACTCCTCTTCAGAGCTTCTATTCCAAGCGGTCTTTGGCTGTTTCCTGCTTTGATTCCCCTACTAGACTAAGTGCCACAAAGGAAG
GAACCACCAGTGCTATGGTCACTCTGTCCCCATGCCTGGTGCCATATGGTAGGTACTCAGTAGATGTACATTAAGTGGTTTCCAGAAGATGCACAAAGAT
GACCAACATCAATCTGCAACCTACTTAGTGAACATACAGATCAGTTAATACCTCAGATGTGGGGAAGTCTTTCTTAAGAAAATGAAAGATTAGAGGCAGT
CTATAAAATAGAAACCCTGTTTATTCACAGCATGTGGGAGAACTATTAAGTTCTAACATGTGATGTAACTCACAAATGCTGTCTATCGCCGAGGCTTTGT
TATGTCCCTTGGTTGGCAAATTGCAAGTCCCCCCATCCCCACCACCTCGTCTACATACATAAAGGCTCCCCAGATGGCCCCCAAGTTGGCAAAATCAGCT
GCTCTAGCCAGAGGCTTCATCTTATAGTTTCCAGCATCTCTAAACTACAAAGTAGGCAAAGGATCTCTAAGCAAGCATTGAAACATTTCTAACAGAATCT
CCACACTTACTCTCACAGGACCTAACAGGCATTCTCTTGCTTAGAGACTCAAAATAACTGTTGGGCCCAAGCTTTCCTAGGAGACTTCACTCAAGGGGAA
AAGTATGCTAAATTTATGGTCCAGGTTGAGCATCCCTAATCCGCAATCTGAGATGCTCCAAAATCCAAAACTTTGAGTGCTGACATGATGCCGTAAGTGT
GGAAATTCCACACCTGACATCACGTGACAAGTTGCAGTCAAAACTTTGTTTCTTGTACAAAATCATTAAAAATAGTCTATAAAATTACCTTCAGGCTATG
TGTATAAGGTATATGTGAAATATAAACGAATTTCATGTTTAGACTTGGGTCCCATCCCCAAGATACCTTATTATGTATGTGTGAATGTCCCAAAATCTGA
AAAAATCTAAACTCTGTGGAACCCTTCTGGTTTCAAGTATTTCAGATAAAGGACACTTAACCTGTGTTATCACCTGCCATCTCATTTGGTTCCTGCAGTG
CAGTTAGTGTACTTAACTAAGTGGTATTAACAGTGTTTAGAGTTTTTGTTGCAAGCCAATAGACGAACTTAGCAAAGAGACACTGATTTAGTTTGAAAAA
TGCAGACAGTAAAATTGAGATGATTTTTACTTAAAAGCCAGATTCGCCTATAGCTAGGTTAGACTCTGCCCCAACTCTTCAGAAAAACTATCAGTCCTCA
GATTTTCTAGCCCAAAACTCTTTAGGTGGCAGAAAAAATTGTCCCTGGACTACTTACTTCCGCTTAACAAGTATATCTCGCCCATAACCTCAGCAGACAG
TATTTTTGGACTGTTTGCCTTGAAAGTAGTCTATCACTCTGTTGTCCAAGTATTCTTTTGAGATTAAATTAGTAGGGACCAAACTAAGCAATTTTGAATT
TATCAACTAACCATGTAGAGGGCAGTTGTATTAGCCACCACAAGGAGCTCCCTAAGGCAGGTACATTTACAACGAACATCATTATAGACCTCATCAAGCC
CTTTAATACATTTAATTTCTTATAGGCTAGTATGTGAAGGTGGTTTTCCAAATGAAAGTCAGTATCCAAAGTGAATGCAATCATTACTTTAAGTCACGTA
GGCAACTGCCTTGTCTTAAACACTTTTCCCTGCACTGAAAAGAACAAATTTACATTCTGTGAGAAACAGAAAATGGGCTAGATATTTAAAATGAATTAGC
TGTATTTCTATGCTGTGTGCCAAGTCTTCAAGGTTTGGGATCAAAACCCGAAGCCACACGGCTGGGTACTATGTGTTCCCTTGATCTTATGGTCATGTTC
TACTCTAGGAGTTCTTGTTAAGTCTTATCAATTTGATACCTCTCCTGGAGCAGAAGGGGCTTGTAACAACTTTTTTCCTCTTCCAAAACTGTAATGAAAC
TACTCAAGTCAAGTTTACGGTTATTCAATTTTATGACAGGTAGAGACACTTGGATCAGGTCTTCACTTCTTTTGAGCATGGAGACTGTCACCTTTGCTAG
CAATGTTTAGTGTTAAATAGCAGTCTATTGTACTAAAGTCTTAATATTTGGCAGCTCTACTTGACCTTTATACATGCTTTAAGTATCTGGGGACTCAGGC
CATAAAAGCAAACAATCAAAATGACACAGGACAGGCACTATAGGTAAATGCCACATAAAGTGGGCAAGAGGGTGATCCAGGGAACAAAGCTACACTAGAT
TTCATGAAGCTGTTACTGCCAAGGAGGGCTTGGCTGGTGACCTTCCTTTACGCAGTCCCTGCTCACATGAGTGATCAGTCTTTGATAAGGGGTACTATCA
TCGTCATACCTTCATTGGTGCTATCTGGATGAGCCAAGTTTACTTTCCATGCCAACCAGTTTCCTACCTCCAGGTCTATTACTACCACCAGTACCACCAA
CCCACTTCTCACAATGAGGGAATTTTCTTTCTATTCTTAGGCTAGTTGCTAGCCATATATGAATAGCTCTCAAAAAACCTTGGTTCTTTTAGACTCTGGC
CTTAAAGAATATATCATACCACAGATCTTAATCTTGACTACTTAGGCTGAAGGAAAATGTCCCAGAACCCCCAGGAATTGTGCAATCAGGTATACCAACT
TCTTGTTAGCCTTAAGTTCCTTGCCAGAGTCTCAGTGTTCACCTGTCTTGTCCAGGAGTATTGTGGAACAGCACCATGTGCCAGTGGACAGAAGGGGTAT
GTGTAGAAGCTCCAGGGTAGAAAGTCAGCCCACATGCCCTGAGACTTTGAACTTAAGACAGATGCCGGTTGGGATTGGTTTAGGGTCAATAACTGCCTCA
GCCCAAATTTCCTCCAGTTCTGGAAGAATCTGCTTCCTCTCCTTTGAAGAATTTGTTTTTCCATTGTTCATGGCATGTCAAATATTTCACATGTGACAAA
GTGAAAAGGATCCTCACCTGCCCAATACAAGGTGAACATCTGGCTTTGACTAACTCATGTCAGTAGTTTAGGTGCATTCCTAGCATTCTATAAGGTAAAG
TTAACCTCTAGTGGAAGGGACATGCAGCAAAAACGAAACTTTTCTCTCACCTTCCTGGATAATTGTCCCTCCTTCTGGTATACCTTAGCGTTTTGAAATG
TTACAAAAGGCATAATGCAAGTCATGGCACTATACTGAGAAATCGTTTAATAAGTTAGTATTACTCATCTATTAATGATTAATGCTAGCGTTTGGAAACT
CTTGTAAGCAGAGCTTTTCTAGGCTCTCAGGCTTGTTACACATCAGATTCCATGTTCACTACACATTCGTCCTCTTCAAAGAGTCCAGGCAGGGGAAGGC
ATTTGAGAGAACAGCCCGTAAGAGCCTGTGGAGTCTCCTACTTTCCATTGAAAATAACACTGCCCATGCTGCCCACTTAAGAGTCCGCGGAACCATGTGA
CCAACCTAAACGTGATCGCACCGCTAACCAATCGCAGAGGGCGGAAAGGCCAGTCCCAGTTCACACGCTCCGGACAGTGGCAACCAAAGGGCAGGGGCAT
TCGGAGACGTAAAAACCCCAGGCGCTGCCCGACAGGCTCCTTGACCACATGCTTTAAAGTTCGCTCTCACTTCAGGAGCACGTGACTGCAGGCCGGCAGG
GCCCCTGAAGCCACCCGGCGACGGGAGCCAGGGACTCTGGAACGGGTGTTAAGGGCCTGGGCGGCTTTCAGTCCCAATTCCCTGCAGCTGGCAAGCAAGC
CCCTCGGCGTCACATCTGAAGATCACTTCGGGGACGCGCTAGGATTCCGACTGAGTCCTCTCAGAAAGGCTTCCTGTCGCCTGTCCAGGAAAGTTACGAG
GCCCCAAGTGGGAACGTGGCTGACGACCAGGCGGGGCCCCCAGGCCCCCGCGGCAGAGTCTGGGGACCCGACAGTAGTCACCGCCGCCCTTCCCAACAAG
ACAGGGCCACACGCTCGCTCTCGCGCTGCTCCTTTGAGCTATTGTGTAGAATGAAGGCTAATTACAGTCACTAGCCTAGGACTCAATTCCTCTCGAGGAA
ACGTCACCGGGAAGGAGGGTCAGCAAACTAACCAGATTAAGTCTCCCCTCCACTCCCCCTCCGCGTTCAGCTACACGGGAGACCCGAGCGGTTTCCAAAC
GCCGCCCGAGGCGGGGAAAAGGGAGAGGAGAAGCGCCCAGAGCAGAGTCCTGCGTAAAGCCCCGCCGCTCCCCTACCCCGCACGCCGGAGAGGCGGCCCC
GCGCCGGGGGAGTCGCAGTCCGGGTGCCCTCGGCTCCGCGGAGCCTCCCGGCCGCCGCCCACCGAACGTGCGCCAGCTCGCGGCCGCCGGAAGACTCTGA
AGCCCGGCCGGCCCCTGGCGCTCCGCGTCCCCGGAGGCGCTCACCTTCTCCCCCCGTCCGCTCCCGCACTCCCCGGGGTTCGAGGGTGCGCCCGAGGCTG
CCGCACACGTCTTGGCCCTCTGCCTCCTTCCCAACACTGCGCCTGGCAGAGGAGGCAGAACCATTGTTCAATGCTCAGAAGCCCACGCACCTCGGCGCCC
GTCAAGAGGGCGAGAAACGAGGCAAAGCAGCGGCTCTGGGGGAGGCGGAGTGAGGGGCAGAAGACTAGTTCAGGCGAGGCGTCGGGGCACCCCGAACCCC
GCTGTTCCCCAAGCCCGGCTCCCTTTAGCCTCGGCGCTGACAGCTCAGAGGCGCCACCACGGAGGGGAGGGAGGGAAGGCGAGGAGAACCGAGAGGCGCC
TCCTAGGAGGCGGGTGGGCAAACGGAGACCTACGCCTCGGGGTCTCCCGGTGCCCCGGCTGGGTCCCGCCCGCCGGCGGAGGGGCGCGTCCTYACTCACC
GGTTCCGGTGGCGCCGCTCTCCCGGGGCGCCCAGCACAGCGCGAGCAGCAGCCAGAGCGCCCAGAGCGCGGACGTGCCCATGGTGCCCGCCTGGATGGTG
CCGCCGCCGCCGCCGCCGCCGCCGTYCGCTCCGCACGACAAGTTACCAGTCCTTCCGAAAGGAGGAAGAAGGTGGGGGCGGGGAGGGGAAAGGGGGAGAA
GGAGGGGAAGGAGTTGGCGGGGGAAGGGAGCGGGGAAGAAGAGGGCACCCCCTCCCCTACAACTTGCACAGTCTCCTCCCCACCCACCCAGCCACCTCCC
CGGGCTGCAGCAGCAGTGCAAGCCGAGCCTGCGGGCAGAAAATAATGCAGGCGCTGCAGAGGAGGGGAGGCAAGGGGAGAGGAGGGAAGGGAGAGGGGGT
GGGGAGCCGAGAGCAGAAGAGAGCACAGAACGGAGAGGAGCCGGTAGCGGAGCACCCGCACCGGCGGCGGCCGGAGAGCGGGGTGAGCAGCGGGGAGGGG
GCCGGAGGGGGCGTGGTCAACGGGAGGCGCGGCGGGCGGGCGGGAGCGCGGCGGCTTCGGCCCTCCTTTCCCTCGACGCGCTCCTCTTGCACGCGCCGGG
CAGCCGGGTGCCCGCGCGGGGAGCGTGCGAGTGTGAGCGTGCGTGAGTGACCGCGGTCGTGGTCGTGGCTGCCGCCGCCGCCACCCGGACCGCTCTAGGG
GCCCGGCTGCTCCGCGCGTTCGCCTGGGGCTCACGGGGGCCCGGGGCGACCGCTGGTTGGCTCGCGCGCCGCCCTCGCCTCCAATCCCGGGTGCCTGTCC
TAATTTCCTGATCCAGGGAACCTGCCGCCGCAGCGGCTGTGCGCTCCCTACAGTCATTACTGTACCCTCCCGGCAGCCTCCGGCAGAACACGCAGCAGCA
GCAGCAGTTAGCGCTGATGCAACTATCGTTGCTGTTGCCACCGCCTCCCCACTGACGGGGCGTGCACCTGGGGGGTACTTGCAGTTTCCAGGGGCAACAA
GCATCTCTCTACCACCCTCTCCTGCGCCCCTGAGAGAGGCTGGTAGGTAGCATCTTCTTCGGGCCTCCTCTATCCACTCAGAAAGTGATGAAGCGGAGGG
GCTCCAAACGTTTGGGCTGCTCAAAAGTGGGGTTTGGGATGCCGGTCTCAATCGCACGCTGAGATGCCGTTTTGCCGAAAACTAAATGTGTCTTTAAGTG
AGAGAGTGTGTATGTTTGAAAGAGAGTGCGCGCGGTTGTGGCTGGTCCTCTGTAATAGAACAAGACTGAAATAACCCAGCCTGGGATGAGGAGAAGGGAA
ATTGCTAGCGCAGCTTTGCATTTGCTCATCAACGATTATAGTTAATTGCTAATTGCACAAAATGATAGTTTGAGGGCCTGTAATTAAAAGCTTAACCTTT
TCTTGTTTGGAAGAGAGGGGCCCCATACGTTTATTCCTCTTGATATACTTTGTAACATTCAATTACAAGAATCGAGGAAAGAATAAAGGAAGCAAAGACA
AGACTCCTAGAAAGGGTTGGTTCTTCTTTTGTGCCTGACAGTACCTGAGTCTATAATTTGCTTTTTGTGTACTTCAGTTTTCTTGCACACTTAGCCCTGG
TTGAGGTGCATTGTCTGCTGTGGTCTGTTGAGCATCTAACCAGAGTGGGAGGGCACATCGAGCGATTTCACTTTCTTAAATAAAAGGTTTTTGGTATTTT
GAAAAAGTTGTTTTTATCTTAATTCAAACTTGGAAGGTTTCAATAATATCATATTCTGACTCTATTCTGTTGGTGATCTGAAGAGCAGCGGGCACTGCCT
CACTGTCTTCTCCTTGCCCTGGTTCTCCTGGAAATTTGTCAAGGCTAGCAATCAGAGGAGATGTTTATTAGGAACTTACTATATCCAGGAGACACACAGG
AGAGGAAAATTCCAGTCAGGATAGGTTTCTGTGGGCCAAAGATATCCTGATTGTGACTGCTAAGCATGAAAGGGCTTAACTCTACGTATGGATGGTATCT
TGCACTATAGCTCATTTTGAATGCTATTTTGCCCACCCTGTGGTTACATAGTTGATACAAACTGCAGCAGCCACACAGGTTGCATGTGAAACAACTGAAA
TTTGTTTGTATGACATTTAGTAGTGAAGATGCATGCCGGTGTTATTCACCTAATGGCATTGAGATGTGATAGGAAAACCTTAGTGCATGATGTCTTTCAT
ATTCTCAGGGTTCTGAAATGCCATCTGATGAGCTACTGCTTTACAGAAGAGGAAAGGAGTAGAAGGGATGGGTGGAATCAATACAAAAAGAGGCAGCATT
AATAAACAGTCATATGACTTGTTTTTAATACTTTACTCAGAGATACAGGTATACTACAAGCTATACATTGATATGGTATAATAAGACTTAACTTTGAAAA
ACGTGTGTGAGTACTTTCTAATTCTCCAAGGGATATAAATAAACTTTCAGTGAACTTAGCTGCAGCTCTGTATTCAATCCTGTAGCTTTTTTGTTGACTC
AAAAGAAAGCATAACTTTTGGCTCCATCTCTGATTGACTGTGTAACTTGGGAAAAATCACTGTGCCTCTCTGTGTCTGCCTTTTGGCCTGTAAACTGAAA
AGAAAGCCAAGCCACATTATATCAAAGTGCTCCGTGGCCTCAAGGACCAGCTCTCTGCAAGGTGTTGTTTATTAGAAGAAAAAGGTTGTATGGAGAAATT
CATTGGATTATGATAGAAAGTAGCTAATAACTAAAAAGATAAATTGATGATAAGTGGATATTGAAGTGGTTGAACTAACAGAGCTAATTGATCATAAGTG
GAGACTGAAATGGTTGAACTAACTGGGTTCAGAGAAGTTGACACTGCTGGATTCCCGACGCCGTCAGGTAAATGCAGAGGCAATCCCATTCACTCCTACA
ATCCACCACATTCATTTATTTGTTGAAGCAACACATAGTGAGCATCCCTGGCTAACGGGCACTGTGCAAAGTAGTGGGCATACAGAAGTGCTTATCTAGG
AAGCTCAGCATCTGGTAGGGGAGGCAGGCAAGTGGGCAACTGTAGTACCCTATGTATAGCACTCTGATTAAGAGATGCTTAAAGTGCTAGAAGATTGCAA
GGAAGAAGCAGCTATTCTGGCTGCAGGATGAAGGTATCAGAAAAGGCTTCACAGAGCGTTTGTCTCTGAGCTTTTTTCATAATTTTTACCCGGTGATCTG
AATTCTCCCTACTTCTGGACACATGGTAGGATTGGACGTCCTGGCCCCCTTATGGTTGGATGGGGTCGAAAGACTAACTTTGGCTAATTATTTGTGAGCC
TAAGTTACAGGGTGCCACTTTCAGACCGGAGCACTTAATTGCTTATGTGAAACCCTCTCTTTGTGTCTGCGTGGTGACAAGAAATGTTTAAGAGGTGGCT
GCTGCATTAGCCCAGGTCTCCGAGTGATTCGATTCATTTAGAACTACCCATGTGAGTAGTTCCCTGCTGTCTATGTGTCTTTAGCACTGGTCACATAGAG
TAGAGGTTAGCAAACTAGGGCTCATGGGCCAAGTCTAGCCAGTCACCTGCTTTTGTATGGCCTACAAATAAGAGTGATCTTTACATTTAAAAAGAGTTTT
ACAAAGAAGAGGAATAGTGTGCAACAGAGACTGTATGTTGCTCCCAAAGCCTAAAATATTTACCATCTAGTCCTTTAGAAAAAAAAAAAAATCAAACAAA
CTTGCCAACCCCTAACATAGAACGGGTGAGAGAGTAGTAAATCTTTGTCATCTTCATCTACTGAGATTTTGTTACCTCAGCATAACCTAGTGTTAACCTG
ACTGATACACCAGGGGAAGAGGGAAGGAAAACCATGGTGAGCAGAGGGCACAAAGGCAAAACAGCAGTATCTATTCAAGGCAATGGAAGGGATTCAGGGT
GATTCAAGGGTGGGGTTCAAATGGACTAACAATGTGAAGTAAGGCTGAAGAAGAAAGGCAAGGACTGGATTAGCTGGAGTCTAGGATGTCATGCTAAGGC
TTTGGATTTTATCCTGTGAACCATAGTAAGGACTTGTGATAGATTTTGATCAGAGGCCTGACATCCAGTTTCTTTTACTGTGACAATGGTATGGAAAGCA
ACTTGTTTAGGGTGTGGGATAGGGTCAGACTAGAGGAAGAAACATTAGTTAGAGGCCCCAGTAGTGAGGGAGTGCATTGAAGAAAGTAGAGGAGGCTGGG
TGTGGTAGCTCACACCTGTAATACCAACACTTTGAGAGGCCGAGGCAGGCAGATCACCTGAGCTCAGGAGTTCAAGACCAGCCTGGGCATCATGGCAAAA
CCCCACAAAAAATACAAAAAACTAGCTGGACGTGGTGGTGCGCACCTATAGACTCAGCTACTGGGGGTGGAGGGGGGCCTGAGGCAAGAGAATTGCTTGA
GGCCTGGAGGGTGAGGCTGCAGTGAGCTGTGATCATGCCATTGTACTGCTGCCTGGGTGATTCAGGGAGCCGTGTCTCAAAAAAAATAATAATAAAAATA
AGGGGAAGAAACTACCGTTTGATTAGTCAGAAGCATTCAAATAATTCCTCCATGAGATTTTTCTCCTTGATTTTTTTGGCTTTATCTCCTTGAAGCATTT
TCCAAACATATATAATCCCTGTGTATCACTGGCTATGTCTGCTAAAAGTACAGATTCTCAGGCCCCTCCGTTGATGATCCTGATTCAATTGGTCTAGGGT
AGAACCCAGGAATCTGTATATGTAACCCTATTCTAGTTGATTCTTAGGATTAGTCATGATTAAGAAACTGTTTTAGAGAATGACTTCTTCAGTGCCGTTT
AATTGCTAAGTAGGTTTACTTCTGTCATATTTGTGTAAATTAATTTGTCAAATTTCTCCTAAGGGAGTAGGTTAGGACCCATAGAAAATGCTAAGGTTGA
TGCTTATCATTATTTTTCTTCAAGATCCTTAGACTGATAATATTGGCATCTGAAATAATCTTCAAACCAATTTGCTAATTTGTAGTACTCATCACTGTGA
TTTCTACCCCACAGCCTCAGCATAGAAAGTAAGATGTGAAATGAGCTGTCCTCTTCTGGGGCCATCCCCTTCTGAAGTGTTTCGATGGTAACTTCACAGG
CCTCCATTCCATTATTTTCTAATTGTGTGACAGCCCAGGGAAATGAGTGGGATTCCCCCCTTCTAGGCTCCATGAGTAGGACCTGATGGTCAAAATCAGT
GGGTCATGCATTTTAGCTTCCATCAGAATCACTTGGAAGGCTTGTTAAAACATAGATTGCTGGGCCCCACCTCCAGAGTTTCTGGATCAGTAGGCCCAAG
AATTTGCATTTTTAGTAAGTTCCCAGATGATGTTAATGCCACTGGTCAGGGAGCATACTTTGAGAACCACTGTTCTGAACCCATTGACATCACTTCCCCC
CTTAGCTACTGTAATTGGTTTAAGGGCCTCAGCCAGTCAACCTATGACCTTCCTCTGTTGGCATTGATTGGATGCTTCAGCCTTAGGCACATTACAAAAG
CTAGCTCAGTTACGACGAAGCTCAGGGCTTTTGCTTGGCTAGAAAGGCATTATCTTCTAAGTAATGAGATGTGTGGACGTAAGGCCAGAACTGCTTCTGC
CATTTTGCCACCCTGAAGGAAGCCAGTTGGAAGACGAAACTGACTTATGGAGAAGAGGAAACTGAAATAAATGGCACTCATATTTGTAAGCCCAAGCCCA
GATCAGCTTGTTTCAAAAGCTGCCATTCCATCGGACTTCTTGTTTACCTGCACCAAAAAATTCCCTTTGTTGCTGAAGTCGGTTTAGATTGCGTTTTCTC
TTACTTGCTACCTAAATGACAGAGGTGCCCTCTTGAGGGATGGAATGTGCTTACCTGAAAGCAATAGGCAAAACTCTGCACATGGCTAACCCCTCCTGGA
GGGCATTCAGAAGAGGAATACAGGTATTAGTAAGGACAGTTTTGAACAACTGTATTCTTGTGTAACCTGGCCAGATGAATTCCCCACTCTAAATCAGGGG
TTAATGTGGACGTATTATAAGTGAATGCCGATTGAGGGTTACAATCTGGTAACGACAAGGTTTTTGAAATTCCAAGGCCAAAGACAATTTTACACACTGC
TTTTGAACAATTTCAGAAAGTAAAAAATGTGGCCAAATGTAAAAACAGTGGAAATTCCAAAATGGGTTGAATA


SNP Information

Context             (SEQ ID NO:28082):
GAGGCGCCTCCTAGGAGGCGGGTGGGCAAACGGAGACCTACGCCTCGGGGTCTCCCGGTGCCCCGGCTGGGTCCCGCCCGCCGGCGGAGGGGCGCGTCCT
Y
ACTCACCGGTTCCGGTGGCGCCGCTCTCCCGGGGCGCCCAGCACAGCGCGAGCAGCAGCCAGAGCGCCCAGAGCGCGGACGTGCCCATGGTGCCCGCCTG
Celera SNP ID:            hCV1595795
SNP Position Genomic:     6093
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:28083):
GGCGCCCAGCACAGCGCGAGCAGCAGCCAGAGCGCCCAGAGCGCGGACGTGCCCATGGTGCCCGCCTGGATGGTGCCGCCGCCGCCGCCGCCGCCGCCGT
Y
CGCTCCGCACGACAAGTTACCAGTCCTTCCGAAAGGAGGAAGAAGGTGGGGGCGGGGAGGGGAAAGGGGGAGAAGGAGGGGAAGGAGTTGGCGGGGGAAG
Celera SNP ID:            hCV27089654
SNP Position Genomic:     6226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS


Gene Number:                 108
Celera Gene:                 hCG2012694 - 30000034453286
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(39316131..39383018)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12268):
ACCTGGCCGTGTTCTGGGTGGAGTTTGTGATGAGGCACAAGGGCGCGCCACACCTGCGCCCCGCAGCCCACGACCTCACCTGGTACCAGTACCATTCCTT
GGACGTGATTGGTTTCCTCTWGGCCGTCGTGCTGACAGTGGCCTTCATCACCTTTAAATGTTGTSCTTATGGCTACCGGAAATGCTTGGGGAAAAAAGGG
CGAGTTAAGAAAGCCCACAAATCCAAGACCCATTGAGARGTGGGTGGGAAATAAGGTAAAATTTTGAACCATTCCCTAGTCATTTCCAAACTTGAAAACA
GAATCAGTGTTAAATTCATTTTATTCTTATTAAGGAAATACTTTGCATAAATTAATCAGCCCCAGAGTGCTTTAAAAAATTCTCTTAAATAAAAATAATA
GACTCGCTAGTCAGTAAAGATATTTGAATATGTATCGTGCCCCCTCCGGTGTCTTTGATCAGGATGACATGTGCCATTTTTCAGAGGACGTGCAGACAGG
CTGGCATTCTAGATTACTTTTCTTACTCTGAAACATGGCCTGTTTGGGAGTGCGGGATTCAAAGGTGGTCCCACCGCTGCCCCTACTGCAAATGGCAGTT
TTAATCTTATCTTTTGGCTTCTGCAGATGGTTGCAATTGATCCTTAACCAATAATGGTCAGTCCTCATCTCTGTCGTGCTTCATAGGTGCCACCTTGTGT
GTTTAAAGAAGGGAAGCTTTGTACCTTTAGAGTGTAGGTGAAATGAATGAATGGCTTGGAGTGCACTGAGAACAGCATATGATTTCTTGCTTTGGGGAAA
AAGAATGATGCTATGAAATTGGTGGGTGGTGTATTTGAGAAGATAATCATTGCTTATGTCAAATGGAGCTGAATTTGATAAAAACCCAAAATACAGCTAT
GAAGTGCTGGGCAAGTTTACTTTTTTTCTGATGTTTCCTACAACTAAAAATAAATTAATAAATTTATATAAATTCTATTTAAGTGTTTTCACTGGTGTCG
CATTTATTTCTTGTTAAGTTGCATTTTCTAATTACAAAAGTAATGCATGATTATGACAGAAAGTTTGGAAAATATAGAGGTTCACACACACACGCCTTCA
TTGCGTGTGCATGCATAAATGCATGAGAAAAGAAAAATAACCAGTAATCACATCGCCCAGAAATAACCCCAGTTACAATTGTGGCAAATACACATACTTA
TAAATATTGCAGATATATTAAGTATACCTAGTATTTGCTAACACTCTTTCTTCTACTCTGTCATGAAGATTCTCCCAAGGTGTTTTTGTATAATATTTAA
TTCATTTTCAGTGGCCAAGCAGTATTCTACTTCATGGATATACCAGGATTTATTTAACCATAACTTCTGGTTGGATTCACTCTTATTATTTTGTTTAATT
AAAAAAAAAAGACCTCGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTAAGATCGGGAGTTTGAGA
CCAGCCTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAATACAGAAAATTAGCCGGGTGTGGTTGCCAGCACCTGTAATTCCAGCTAATTGGGAGGCT
GAGGCAGGAGAATTGCTTGAACCGGGGTCAGGGGGTTCGGAGGTCGGAGGTTGCAGTGAGTCCGGATCATGCCACTGCATTCCAGCCTGGGTGACACAGC
CAGACTCTGTCTCAAAAACAACAACAACAACAAAACAACAACAACAACAACAACAAAAATCTCACTGGACATCCTAGTAGCTAAGGCTTTCCACATATTC
ATGATTACTTCTGTTGGAAAGTGCTTTACAACAAATTGCTAGTTGTCTCAGTCTGGGTTCCCCTGAGATGAGGATTCAAGGGCCAGGAGTTTATTTAGGA
AGTAAAGGAAACACTGATAGAGGAGTGGCAGAGTGAGAAGGGGTGATGGTCATCCACAGCTGGCTCTCTTGTGGTCAATCGGAGCTTAATCCTGCTGGGT
GACTCTGGGAGCCAGTGGAGAAAAGACACCCCAGACTTATCCCAATGAGGAACACGGCTGTTGGGTGCCTGAGTACTTGCCTCGTCAGGGATTGAAACGT
ACTCCCAGGTAGTAGTAATTTCTCTGCCCTTCCATTAGGCCACAAAGGGGGCTCTGACAGAGAGAGCTGACGAGAAAAAACACACGCCCTTGTCACTGAA
GAGGTACACAGGGGATCTGTGTGGGGCACCACCTGCACTGCTACCCTGGACAAATAGCTTAAGAAATCCCCACACTGCATCCCCAAACTTACTATCAGCG
TGTGAGGGAGACAGGTTCCCACACCCTCATTAGCACAAAGTACTATCTTGAAAAAGAAAGCCTGTCAGTTTGATAGGAGAAAAGCAGGATCTTGTTTACA
ATGTGCTTTTATTATTGTTATTATTAGAGATTGTATTTCTTTTCAAGCTGATGAGCCGTCTGTGTTTATTTTTTGGAGGATACCCTTTGCCCACTTTCCT
ATTGGAGTGTATTACCCTGAGGATTTGGTAAGAGTGCTTATTGCATTCACCAGAATGTCCTTTTTGTCATTTACTGTATTTTCTCTACTTTTTTTTTTTT
GCCTTGTTTTACTTTTTTTGTTTTGTATTACAAGCAGAAGTTTTAAATTTGTAAGCTTCAAATTGGAGCTGGGGTGGTGCAGAGCGAAGATTTCAGCTGG
TTCCCTGACCCCAGCTCCATCTCCTTCCCTAGGCAGTGGCTGGAACACATTCTGTCCACTATTTCCCTCTCTACATCCTTGAGGCTGTGCAGTCACCCCT
CAACTACGTTCACCCTCCTTCAAAGCCCTTCCTGGTCCACCCGGGGACCATCTCCCGGCCTCACTGCCCCTAGCTCCTTGACGCCCCAACCTCTCTCAGG
GACCCCAAGTTGCCATGACCTCTAGCCAGCTCATGTTCATTTGCACCTTCGTGTCTGCAGCACTGAGGCACTCTTGTTTACAAGTGAGAGAACCCAACTC
GGGATACCTTAAGCATAAACAGTATTTTTGTAAGGAGACAGGCTTCTGACGACGCGAGGCTCATAGCCAGGCCTGCGCTGGGTGGAGCCTCCCCTTCTCA
CTCCTGTCCCTGTTGGGTCAGAGTGCCAGCTTTCCTCTTCCCTCTCCTCCGGGTCTTTTCGGCCCCTCAGTCCCCATATTCCTCTGCCCTAGCTCCCAAG
ATCCCACAAGAGACAGACTGGATTCTCTCTGGCCTGGAGTGCCACCTTCCTGAAAGTCAGAATCTGATTGGTCCAGCTGGATCAGGTGTCCTCTCCCTGT
CCAATCATCAATGCCGAGAGGGATTACGGAGAGAAAAACATGGCTCCCACCATCCCATTGCTGTGGCTGCTTGGGCCACGGGAGAGGGAACCTTGTGAGC
CGGGCAGAATCCACCCTGTAGAGACTGCCTCTGGGTGAGTCATATGGTTTGGCTGTGTCCCCACCCAAATCTCATCTTGAATTGTAATTCCCATTACCCC
CATGTGTCATTAGAGGGACCTGGTGGGAAGTGATTTGAATTATGGGGGCAGTTATCTCCATGCTATTTGTGTGATAGTGAGTTCTCACAAGATCTGATGG
TTTTATAGGGGGCTTTTCCCCCTCTTGCTCATACTTCCTCTTGCCTGCCACCATGTAAGATGTGCCCTTGCTCCTCCTTCACCTTCTGCCATGATTGTGA
GGCCTCCCCAGCCATGTGGAACTGTGAGTCCATGAAACCTCTTTTTCTTTATAARTTACCCAGTCCTGGGTATTTCTTCATAGCAGTATGAAAATGGACT
AATACAGTCAGCTTCTGCACAATATTTCCATTTTCCCACATTATGTCTTGGGCCTTTTGTGTATTTAAGCTCACAGGATGCTACGAATAAAGCGTTTTCT
TATTTCCTGGGTAGTTCCCATAGAAGTAGTGGTGCAACGTGCCATAGAGTGACAGCACCTAAGAGAAGCTGATTTTGTGAGTGGATTGTGAGTTCAATAT
TGTTGTCATAATCAGAAAAAAATGTATTTACTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCT
TGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTTCCTACCTCACCCTCCTGAGTAGCTGGGATTACAGGCACATGCCACCCCACCACACCCG
GCTAATTTTTGTATTTTTTAGTAGAGACAGCGTTTCCCCATGAAAAAAAGTATTTTCAATTTGGAAAGCCAAGCAGAGCCCCCTTCTTCCTCCTTGGTCT
CACTGTCTTCATGTCCTCTGTAGATAACATGCTCAGGGGCCTCTTACTTTTGGCCATGGCTTACACACTCGACCTGTGTGTAATTTAAAAATGACCCCTT
TCTCCACTCCTCCTGATTGCCATATCCTTCACAATGTGACTTTGCAACTCTTCTCATGAAAAGGAGGAATCTATTTCTCCAGCCTGTGGGTCCTGGCTGG
CCTGTGACCTGCCCTGGCTGACAGAGTGTGGCAGGTGATGAGCACTGGTTTCAAGTCTAGGCCTCAAGAAGCCTTCATATTCCCGCTCACTGTCTCAGAA
CCCTGTCCAGCTGCTATGAGAACAGCCTGGGTGAGCCCTGCTGCACAATGTCCCCATCACCCTAGTCATTTCAGCCAATAGCGAGCCAATGGCCAGCCCT
CTAGCTGTCTGAGATACATGGGTGAGACTCTAGTTGTGCTTGGCTGGACAGAGCACAGATCCACAGACCCACGCAGGTGACTCATACACTTGTGAACTAT
AATAATCGGTTGTTTTCAGTCATTAAGTTTTGAGGTGGTTTGTTACACAGCAATTGCTGACACATTCACTTCTGGCTCTAAATGTATCACTTTTCATGTG
TTGAGTCTGAAGACCTTCAGAGGACAGAGATGTGTTCCACCTACCCTATATCCACTGCAGCATGGAAAGCCATGCTTAGCTGCACACAGTAGGCGTGCAG
TCTGGGCCTGTGGAATGGACTTGGCAACCACATCACCTCAGTGATCTTTCAAACGGAAAAGAAGGCTCAGTGGGGAGTGGGAGGAGGTAGTGCAGAGGGG
CAGTCCTGTGAAAGAAGGGGCATGGGATAGCTGCTTGTGTCTATTTCATGTTGATCAATGTATCTCCAAGTGCAGAACAAGGAATAACGCAGGAATTTTA
TGAGGAAGAAATGTTGGGCATGATAAGAAAGCTCATTTTCTAACCATCTGAATTCCATGAAGTAGAAAGAGGCTGGTCCTGAGAGTAATGAGCTCCCTCG
TATTGGAGGTGTCCAAGCACAGGCTGAGGAACTCCCATTTGGCTGGATGGGCAAACTTGGAGTGGAAATTCCACWTAAGCAACCTTGGCCCTAGATGTCT
CTGAGTTTTGTTCCTGTTGTCTTGCAGTGCATAGAAAGATTTCCCAAAGGCCAATATTTCATTGTTGTACCTATGATCTGGATCATCTCTCCTAGCTATA
AATGACAGGGAAATCCTTTGGGCTCCACTTTTGGTTTAGGAAATCAGGGTGCCTCCTCTCCTACCTGTCTTTGATGTTCTTTATCTTGTAAGTATTGTGC
TAGTGGAAATCCAATTTCTTATCCTGCAAGTYATCCAGTCCCCGGGAAGGAGGAGTGCTCTCCCCAGGGCCTCTCAGTCTGCCCCTCCTCTCCTCTCCAA
CTGTCCTGACCACACCTCCCCACCCAGGGCTCACATGACTGTGTTCCCCTGGGACTTGGTTGTAAGCCATCCCCACTTCTACCATCTCCCTTTCCCAAAC
AGGCCCCTGTACTTCAGCACACACATGTGAATAACAGAAATGTTGAATGACAACATGATGTGGAGTTTTCACCCCAGAGCCCTGTGCACTCTTCAAAGAC
CTGGGTTGATAGAGACTCAGGGAGGCAGTTGGATCTCAAAGTTCCGAGGGTCTGGGATCTAACGGTGATAGTTCTAGTGAAACCCTCCCACCCTTCCAGG
AGACCCATTCCTATAAGAAATATGACTGAAGAGCCCAGCTGTCTCACTTTGATAACCAATTCTTCCATTTGCATTTCCATTGATGTGTATTGGGCCAAGA
GCAGAGCTTTTTCTTGTGGTTAATATCTGTTTAATCCAGAAGAAGACCCTAAGGAAAGGTCAGTATTTAGGTCCCAGAGTAGCTCTTTAAAATCCTTTAA
AGGAAAAGAGAGTATGGGATAGTAAAGGGCCATGGGATGRATCTTTGAGGATCAAGGAACTTGGGACAGGAGGAGAAAGGATCTGAGAGCCTTTCTTCCA
CCATCTCGACATCTATGTTGGTGTTTCTCAATTTTTAAGAAGCTGTGGATGTTGAGAGAACCCCTTAAAGGAGTTATGAGAGATRCTGATATGAATTTCT
CATTAGCCATTAATTATCAGTGTGTAGAAGAGAGGGCGAGAGGGCTCTWTTAAACTAAGGATATTATCTATTGCTGTGTAACAAATTATCATAAACTCAG
TGGCTTAAAAGAACATCCATTGATTATCTCACGGTTCCACTGGCCAGGAGTCTAGGCATGGCTTTCCTTGGTCCTTTGTTTAGGGTCTCAGAGACTGCAG
TCCTTTCTGGAGTYCAGCTTCCTCTTCCAAGCTCATGTGCTTATTGGAGAATTCAGTTTCTTATGGTTGTAGGACTGAGGCCCTCAGTTCCTTGCTACGT
GGCCCTCACCACAGGCAGTTTGCATCATGGCTGTTTACTTTTCAAGGCCAGTAGAATGTTTCTGTTCAATCTGATAAGAGGGAATCTCATGTGGCATAGT
GTGATCATGGGAATGACATCCCACCATCTTTGCCATATGATGTAATCCACTCGAGAGAGGGTCACCCATCACCTTTGCCATATTCTGTTGATTAGAAGGA
AGTCACAGGTTCCACCCACACACCCTCAAGGGGATGGCTTTATGGAAGGGTGTGGGTCGTTGGGGTCATCTTAAGGTGTGTGTCACACCCCGTATTTTAC
AAATTCTGTTGATCTCAAAAGAGCTTGAGGAAGAGATGACTGAAGCCATTACAGAAGCAGCAGTAGMCTCAAGTGAGGAGGTGTCAGAGGAAAGAGACGA
CCTGGGGCCTCTTGAATTACATGACAGTGGTAAGAATGTCATCCACATTTCTGCTTTCCTGCCCCATCTCAGACACTAACTCTTTGACTGCAGCCCCAGC
CTAGGTCTCCCTTTCTCCATCTGCACAGTGGACATCATACCACACATGAAGCTGGAGCTGCGCAGGTGGAGGCAAGGCCAGGGACACAAGGGCACCTCCT
GTCATGGTCATTTCCACACTGCACCTGGGTGGCGTTTGTTTTCATAGGTACCTTTCAACAAGTCGTGAACCTTCTGGACATCATTGACAGCGAGTCAGCA
AAGACGGACACAACAGGGGCAGGCCTTGACATGCGGAAGACCCTGGCCTCGGTGATAATCATGGAGAAGGCCACCACTGAGCCTTCTGTAGTGATAAACA
CTCTCATCCGCTGCCTGCAGGTGCCAGAGGTAGGGCCATCTTACCCACTGGGCTCAGCCACCTTTAGCTCTGTGTGCATCCATCCACCACCCAGCACATA
GTTACTGACTATCAGAGATGTGATGTGTGGTACTGGGATACAGAGATGGGCAAGACTGTGAGGTGCTTACTCCCTGAGGACCAATTGGGACCTGAGATGT
TCATAATTTTTAAAAGTTCCCTTGTCTTCTGACACAGTGGGTTTGGGAGCCATTGTCCTACAGCACATGAGCTGAGTTGCAAAGATGTTGAGCCAGTGGG
CATGGGAGAGTAAAGATACACCAGACACAGTGTGCAGGGATGTTTGGCTAGTGGGGAGATGCCTAGCTGGGTTAAGGGGCTGGGGTAGAGGATGTTGGAG
GGAGTGATACAAAGTGCAACCAGGGGACCTGGTGGGCTTGTACAGACAAGGTTTGCATCACGTGGTACCAGACAAGGTTTTGGACTAGACAAGGGTTTGG
AACAGAGCTGATCCAAACCTTGCTGGGCACCACCCCCAGAGTTTCTGATTCAGTAAGTCTGGGGTGGAGCCTGAGAATCAGCATTTCTAACAAGTTCCCA
GGTGATGCCAAGGCTGATCTRGAGAGCCTACTTTGAGAACTGTTGGATTTTAGACTACCCTTTTGTCTTGGAGTGGGTAGCAAAGGGGTGCTATRAGCAG
AGGAGCTTATTTATAAAAAKTTTTATTATTTTTGTTGGATTTGGATTTGCATTTGCGTTTTCCCCCTTTTATTTTTAGTTGACACATAACAATTGTACAT
ATTTATAGAATACAAAGTGATATTTCAAAACATATATACAATGTGTAATGACCGAATCAGGGTAATTAGTATATCCAACACTGCAAACATTTATCATTTC
TTTGTGTTGCAAGCATTCAAAACTGTTTCTTCTAGTTTTTTGAAAATATACRATCAATCATTGTTGACTATATTCACAACCTACAGTGCTATAGAACACA
AGAGCTTATTCCTTCTCTCCAGCTGTAATTTTGTATCTTTTAATCAACTTCTCCCTATCCTCCCCTGCCCTTACCTTTCCYATACCCTAATACCGAAATT
CTACTCTTGACTTCTATGAGCTCACCATTTTTATAGCTCCCATATATGAGTGAGAACATGTGGTATTTATCTATCTGTGCCTGACTCATTTCACTTGACA
TAATGTCCTCCAGTTTTATTCATGTTACGGTAAATGACAGGGTTTCTTTTTTTTATGGTTGAATAATATTCCGTTGTCTGTYTATACCACATTTTCTTTA
TCCCTTCATACATTGATGGGTACTTACGTTGATTCCATATCTTGGCTATTGTGAATAGTACTGCAATAAACATGAAAATGCAGCTATCTCTTAGATATAT
TGACTTCCTTTCTTTTGGATACACACCCAGTAGTAGAATTGCTGGATCATACGGTAAATCTAGTTTTACTTTTTTTGAGAAACCTCCATAGAGTTTTCCA
TAATGGCTGTACTAATTTATAGTCTTACCAACAATGTGTGAGGTTTCCCCTTTCTCCACATCCTTGCTAGCATCTGTTATTTTCTATATTTTGGATAAAA
GTCTTTTTAACTGGAGTGAGATARTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGATTAGTGAGGTTGAGCATTTTTTTATATCCCTGTTGGCCA
CTTGTATGCCTTCTTTTGAGAAATGTCTGTTCAGATCTTTTGCCCATTTTTAAATTTGATTTTTTTGCTATTGAGTTGTTTGAGCTCCTTGTGTATTCTG
GTTATTAATCCCTTGTAGGATGGAGAGATATTCTCCTATTCTGTGGGTTGTCTCTTCGCTTTGTTCACTGTTTCCTTTGCTGTGCATAAGTTTTTTGCTT
GACATAATCCCATTTGTCTATTTTTGCTTTTGTTGCCTGTGCTTTTGAGGTCTCACACAAAAAATCTTTGCACAAACCAATTTCCTGGAGCATTTCCCCA
ATGATTATTTTCTAGTAGTTTCATAGTTTCAGGTCTTGGATTTAAGTCTTTAATCCATTTTGATTTGATTTTTGCRTATGGTGAGAGATAGGGGTTTAGT
TTCATYCTTCTGCATATGGTTATCCAGTTTTCCCAGCACCATTTATTGAAGAGACTGTCCTTTCACCATTATATGTGCCTAGCACCTTTGTCAAAAATGA
GTTGACTGTAAATGCATGGATTGACATCTGGGCTCTCTATTCTGTTCCATTGGTCTATGTGCATGTTTTTATGCCAGTACCATGCTATTTTGGTTACTAT
GGCTTTAAAGTATATTTTGAAGTCAGGTAGTATGATGCCTCCAGCTTTACTCTTTTTGCTCAGGATTGGTTTGTCTGTTTGGAGTCTTATGGTTCCATGT
AAAAATTGTCTGTAAAGAATGTCATTGGTATTTTGATAGAGATTTCAATGAATCTCTAAATTGCTTCTGGTAGTATTTTGATAATATTAATTTTTCTATC
AGTGAGCATGAAATAGCTTTCCATTTTTTGGTGTCTTCTTCAATTCTTTTCATCAGTGTTTTATAGTTTCCCTTGCATAGATCTTYCACTTCTTTGGTTA
AATTTATTCCTAGGTATTTTATATTTTTGTGGCTATTGTAAATGAAATGGATTTCTTGGTTTCTTTTTCAAAATGGGTGAAGTGTTCTGTTGTTTGCCAT
TTGGCATATACTAATGTTACTGATTTTTGTATGTTAATTTTGTAATCTGCAACTTAACTAAATTTATTTATCAGTTCTAACAGTTTTTGGATGGAGTCTT
TGTATTTTTCTAGTATGAGATCGTGTCATCTGTGAACAAGGATAATTTGACTTCTTCCTTTCTATTTTGTATGCCCTTTGTTTCTTTCTCTTGCCTAACT
GCTCTGGCCAGGACTTCCAGTATTATGTTGARGAGCAGTGGTAAAAGTGGGCATTTTTRTCTTGTTCCAGATTTTAGGAACAAGGCTTTCGATTTCTTCC
ATCTGGTACAATGTTAGCTGTGGGTTTGTCATATATGGCTTTTATTATCGTGAGGTATGCTCTTTCTATGCCCAGCTTGTTGAGTTTTTAAAAAATCATA
AAGGGCTGCTGAATTTATCAAATACTTTTTTTAGCATATATTGAAATGATCATATGATTGTTGTTCTTGGCTCTGTTAATGTGATGTATCACATTTATTG
ATTTGTGTGTATTGGACCATCCTTACATCCTTGGGATGAATCCCACTTGATCACGGTGAATGATCTTTTTATTGTGTTGTTGAACTCAGTTTGCTAATAT
TTTGTTGTGGATTTCTGCATCTATGTTCATCACAGATATTGGCCTGTAGTTTTCTTTTTTTGTTGTGTTCTTGTCTGGTTTTTCTATCAGGGTAATGCTG
GCCTTGTAGTATGAGTTTGGCAGTATTCCCTCCTTATCCATCTCTTTTTTTGAATAGTTTGGGTAGAATTGGTATTTGCTTTTATTTAATGTTTGGTAGA
ATTCAGCAGTGAATCCATCCGGTCCTGGGCTTTTCTTTGATAAGAAACTTTTTATTACTGTCAATCTCATTATTCGATACTGGTTCATCGGAGTTTTCTA
TTTCTTCGTTGTTCAATCTTGGTAGTCTGTATATGTCCAAGAATTTATCTGTTTCCTATAGGTTTTCAAATTTGTTGGCATGTAGTTGTTTGTAACTCTA
ATAACTCTAATAATTCTTTGWATTTATTTATTTATTTTGGTGACAAGAGTCTCACACTGTTGCCCAGGCTGGAGTGAAGTGGCACAATCTTGGCTCACTG
CAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACGCACCACCATGCCCGGCTAATTTTTGTATTT
TTGGTAGAGACGGGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCACTTCGGCCGCCCAAAGTGCTGGGGTTACAGACGTGA
GTGCCGGGATTACAGACATAAGCCAATGTGCCCAGCCAGTTCTTTGTATTTCTGCCAGTCTCAGTTATGTATCCTTTCATTTCTGATTTTATTTATTTGG
GTCTTCACTCTTTTTTTTTTATTTATTTACTCTAGCTAAATATTTATYAATTTTGTTTGTTTTTTCAAAAACTCAACTTTTCTTTTGTTCTCCTGTATTG
TTTTATTACTCTTGATTTTGTTTATGTCTGCACTGATCTCTTGCCCTTCTTTAAATTTTGGGTTGGGTATATTCTTGCTTTTTTTAGTTCCTTAATGTGT
ATCATTAGGTTGCTTATTTGAATTCTTTCTACTTTTTTGAGATAGGCTTTTATTGTCGTAAACTTCCCTGTTATACTGCTTTTGCTGTATCCAATAGATT
TTTGTATGTTATATTTCTATTTCCATTCATTTCAGTAAAATTTTAAATTTCCTTCTTAATTTMTTTATTGAACCAGTGGTCATCCAGCAATATATTACAT
AATTTCTATGTGTTTGTGTATTTTCCAAAGTTTTTTTGTGGTTGATTTCTAGTTTTATTCCATTGTGGTCAGAAAAAATAATGTGATTTATAGTTTTATG
AATTTGTTGAGACTTGTTTTGTGGCCCAAAATATGGTATATTCTGGAGAATATTCCATGTGCTGATGAGAAACTAATGACGTTGAAATGTGACCTCAGAG
TTGGAGGTGAGGCCTGGAGGGAGGTGTTCGGGTCATGGGGGAAGATCCCTCATGAATGTCTTGGTGCCCTCCCTGTGGTAATGAGTTCACATGAGAGCTG
GCTGTTTAAAGGAGCCTGGCGCCTCCTCTGTCTCGCCTTCTCCCTCATCACATGATGCACTGGCTCCCCTTTTGCCTTCCACCATGGGTAGGCCTTACTA
GAAGCAGAGGCCAGCAGCATACTTGCTGTGTGGTCTGCAGAACCATGAACCAAAATAAACCACTTTTCTTTATAAATTATCTAGCCTCAGGTATTCCTTT
ATAGCAATGCAAGAACAGACTAACACGGGCTTTTAAAAAATGTAGGCCAGGCGCAGTGGCTCATGCCACTTTGGGAGCACTTTGGGAGCCAAGGCGGGCG
GATCACGAGGTCAGGAGTTCGAGAGCAGCCTGACCAATGTGGTAAAACCCCATCTCTGCTAAAAATACAAAAATTAGCCAGGCGTGGTGGTGCACGCCTG
TAATCCCAGCTACCCGGGAGGCTGAGGCAAGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGG
TGAAAGAGCGAGACTCCATCTCAAAAAAAAAAAAATGTAGGCTTTGTTTTTATTCAGCTATGATGAGACCAACAGCTCAGGAGACACTTGCTCTTGAAAG
GACAGTTTATTGGCTGGGTATGGTGGCTCATGCCAGGAGTGCAAGACCAGCCTGGGTAACATAGCAAGACCACATCTCTAAAAAAATTAATTAATTGGGT
ATGGTGGCACCTGTCTGTAGTCCCAGCTACTTGGCAGGCCGAGATGGGAGCATTGTTTGAGCCCAGCATTTTTGAGTCAAGGCTGCAGTGAGCCATTTTG
CACCACTGTACTCTAGCCTGGGTGACAGAGCGAGACTTTGTCTCAAAAAAAAAAAAAAAAAAAGGAGAAAAGACAGTTTGTTACATTCCCAAGAGAGGGG
GCCAACCAYGCCATGCAGGGTCACACAGGGGAAGCACTAGGGTCTGTGAGGAGGCAGAGGGAGTCAGGGGAAATTATAGGCAACAGGCTTTATTGTGGTT
TCTGTAGAAAGAAACTGGTGAGGTAGGGTAAGAAGGCTTAGAATTAGCTAATTTGAATATTCTCAGTGGACTCTGGGGCAAAGTAGCTGTCCCTGGCTGT
TTGATACCTCCCCTGTGTGATTAGGACAGGTGGATAGTGGCCCAGAGTGTGAGAGCCCAATAAAGGAGGTGATTGGGAGAGGGGCTCTGTGTTGGTTGGA
ATACTGTGTTCAGGATGCCCTAATGGAGTACTATAGTATGGGTGGCTTAGAAAACAGAAATTTATTTTCTCACAATTCTGGAAGCTGGAAGTCCCTGATT
GAGGTGCGATATGGTTTGGCTGTGTCCCCACCCAAATCTCACCTTGAATTATAGCTCCCATAATTCCCACATGTTGTGGGACGGAACAATTGGGAGATAA
TTGAATCATGGGGTGGTTTCCCTCATACTGTTCTCATAGTAGTGAATAAGTCTCACGARATCTGATGGTTTTATAAGGGGTTTCCCCTTTCTCTTGGCTC
TCATTCTCTCTTGCTTGCTGCCATGTAGAACATGACTGTGTTCCCCCTTTGTCTCCTACCATGATTGTGAAGCCTCCCAACCACGTGGAACTATGAGTCC
ATTAAACCTCTTTTTCTTTATAAATTACCCAGTCTCAGGTATGTTTGCATTAGCAATGCGAGAACAGACTAATACAAGGTGCCAGCAAATTTGGTTTCTG
TAAAGCCTTGCTTCCTTGCTGGCTTTCTTGTGTGACTGCCCTCTCACTGTGTCCTCACGTGGCTCTCCTGTGCATGCGCACAGTGGGAGAAAGCACTCTT
GTGTCTTCTGCTTCTTTTATAAGGGCACCAATCCCATGAGATTAGGGTCCCACCCTTGTGACTTCATTCAACCCTAATTACCTTTCGAAGGGCTCATCTC
CAAATACTATCCCACTGGGGGTTAGGGCTTCAACATAGGAATTTTTAGGGTACATKATTCAATCTGTAACAGTTGTTTTGTACTTAAAAAGCATGCTGAT
GGACAACTTGTTACTATCTCTAGGAACTGGCTAGCTCTGGGAGGAGTAGTCTCTCTAGGGTCAGCAAGGACCCAGGTGCCAAAGCATCAGGAAATGAAGA
AAATAAGAAACCATGATTAACACACAGGTCTTAATCAGTCATCAGTGGCAATAAACAGACAATAAACAAATAGGCACATTTTAAAATTAACATGCATCAA
AGATTTTATTTTCTCCTTAACTAGTTAAGGAACTAGTAAGATGTTAAAAGCTGTTCAAATGAGAATTTTACCTGTGCTTTACCAGACAAAATCCATTTGC
ACTGCCATGAACAGGAATCATTTTCATTCCTATGTAGGAAACACGTGCATTGTTATCAGTTTTCTAGGATTTAACTTTTTTCCCTACAGAGATGTAAAGT
AGCCTTGGCAATCACAGATGCACACTCTACAGAATCCAGTAATTCCACAGCATCTGCCAGACAGAACCAAGCTCTGCTCTGGAAGGCCACTCAGTGATCG
CTTTTGTTATTTCCAAGTCTTTGACAGTTTTTCTCTTGTGACTATAAATATTCTCCGAAGATTATTCTTGATCACAAAAAAGGCTGATCTTCTTATAATT
TGCCTGGCTATTTGTACAGGGTGCAGTAAGAGTGTTAATTAAGCATATTGGCCTCCTTGAGTTTACTGTGAAAATCTAGAGCTTGCATTCTCAATGGGGT
GATATTGCCCCCCAGTTAAGTAAAACTAGTTCTTGGGGGACAAAGAAAATTTTACTTTTTCATTATAAAGCATGGATATGTATAACACACACACACACAC
ACACACACATATGTATATACATATACATATATATTATATATATATACACATATACATATATATTATATATACATATACATATATATTATATATACATATA
TATTACATATATCATATATACATATATATTATATATACATATATATTATATATATCATATATACATATATATTATATATATCATATATATCATATATACA
TATATATTATATATATTATATATATCATATATACATATATATTATATATATTATATATACATATATATTATATATATCATATATACATATATATTATATA
TATCATATATACATATATATTATATATATTATATATATCATATATATTATATATATTATATATATTATATATTATATATATATATATATATACATATATA
TATATTATATATACATATATATTATATATACATATATATTATATATACATATATATTATATATACATATATATTATATATACATATATATTATATATACA
TATATTATATATACATATATATTATATATACATATATTATATATACATATATATTATATATACATATATTATATATATACATATATATTATATATACATA
TATTATATATATACATATATATTATATATACATATATTATATATATACATATATATTATATATACATATATTATATATACATATATATTATATATACATA
TATATTTTATATATATATAATATATATTTTATATATACATATACATATATTATATATATACACACACATATACATATATATGGCATTAAAGTCTCGTTGG
GGTGTGATTAGGAAAAAAGTCTAAATGTCCTTGGGAGTAATAATAATAATAATAATAATAATAATAATAAAGATTGAGAAACACTGGTCTTGAGCCACAC
AGCACTGAGCAGCTACTAAGGCCACATCATTAATTTCTGGGAGCTGTCATAGGGATTTCTGATTGGAGTTTTACAAATCCCTATTATTTGCTATCCCAAA
AGTAGGAAACCAAGACCAAGACTCCCTGTACTGGATTTCACCAGTAGAACTTACACATTTGGGTGAATTCCTCTCTTCTTAAGGTCCCCAAATTTGCTAA
GGATTCTGGACTGTTGGGAGTGACCTCCCTACCACCAGAGGAGGAAGGACATTTTTTCCTGAGGGCTTTGCAGGCAGTGGCTCCACCTAGAAAGTAACCC
TCATTCCTTAAGAGTGGCTTGTCAGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCCGGCAGATCACGAGGTCAGGAGAT
GGAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTASCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCG
GGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGGCGAAATCGCGCCACTGCACTCCAGCCCGGGCGGCAGAGCGAGACTC
CGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGTAACTTGTCATGCCTGATTAAAAGTATTCTCAAATACGACCCTCCAGGTGTGATCTGGGA
TGTGCAATCTATCTGCCCAATCCCATCCTAAACCAGGTCATTTTCAGTGGTGATAAGCGCTATCATGCAGGAATTGGAAGAGAGTAAGAGGCAATTTTCC
TGGGCCCACAGACTCCCTCAATAGGGCAAAGGCAAGGTGAGCCTGCCTTCTTTGGGCTTTCAAGATGGCCAATGCCCCATGCATAGAGAACCTTGTGTGT
TGATCACTTAACACCTGCCTTGCCAGATATTTACTGAAATCGGGCAGGAATACAGATACGCAAGTCATATTGACAGGGCCAGTGGGATGAGAAGGGCAGG
AGAAGCGAAGCAGGAGGATTTAGAAATGGAGGAATGGGGATCTAAGATTTGTGTGTTTGGAGGCTGGTGGTTTGGGTGTAGGGAAGGAGGACAGTGGGAG
AGAGAGGTGGACTTGTGCTGGGGGCAGGGTGAGGTCCATTCCACCCACCATACTTGTTTCCCAGATTTCCACCCAGCGCAAGGTCAACATTTACAACATC
CTCCAGGACATCATCCAGCAGGAGGGGGAGCTGGAGGAGCAGTGCGTGCAGAGGCTGGTGGCCATTGCCTCCAAGGAGATGAGGGAGATCCCAGAGGTAG
GACCCCAAGCTCCATCGGTGCCTTCCCTCTGCCAGCCCAGGAGCTGGGCCACGGGGGGCCTGGCCCAGGATGCCCACAGCCCTGTGCAGTTACCTCTCAG
AGCAGGGGTAAGGCTGAGCCCAAGGGAACCAGGAGGGGTGGAGAGAGCCTGGGGTAGGAAGGTTTTCCTGGAGGCCCGGCTGGTGGTGGTGCCATATGTC
CCTCTTCTGTCTCCTGCAGATGGAGGGCTATATGAAGGCAGAGGTGGCCAGCGACACACTGGTGGCTCTGTCCCGAAACCACTTCAGCTTGGTCATGTAC
GAGCTGCAGCACCACCTCAAGCCCCTCAACCTCACTGATGAATTTGTCATCATCACACTGGCCAAGCTGGCCAACGGCAATGGTAGGGGCTTGAGGGCCC
TCAGCCGGGCCCAGTGTGCCCTTCTGGTCTCTGCCTCTCTCTGCCCCTCCCATCTATCCCTATGTTCACCTCTTCCTCTTACCTTTCATTTCTCTCTTTT
TCCCTCTAAAAYTGATTCATTTTGTGTCTGCAGTCCTTTTGTCTCTTAGCTGTTAAGATTCTGTGTGTTCTGTCTCTCATCCTTCTTCCCCCTCTCTCCT
GCTCCCCTCCACCTGCATTGTTCTGTCTTTCCATCTCTTTCTTTTTTAATTTCCTTCCTTCCTTCCTCTTTCGTTTCCTTTTTTATTACCTGCCTTACTT
ACTCCTTCCTCTCCCTCCCCCTTTTTCTCCTTCTTCCCTCCCTTCCTCCCTTCCTCCATCCCACCCTTCCTTCCTCCCCTTTTCTTCTCTCCTTCCTCCC
TCCCTCCCCCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCTCCATCCTCCCTCCCTTCCTTTCATCCCAGAAGCATGCGCTG
AGCTCCTACTCCATGCAGGCCTTGTGGCAGGTACCTGGCCACTACAATACATAAGACACACATGGCTCCGGTGCTCAGAAAGGACCAACAGGCAAACAAG
GAAATAGACGTTTATAACAGGAGGTGACGGGTATGAAGAGAGCAGCCAAATGGGCGTTTGAGATCTGGCTAAGGGAGGGGACCTCATCTCTGCAGCCCTT
GTTGAGGTAGCGATATTTCAGCTAAGACCTGAAGGCAGAGAGGAGGATGTCTGTGTGAAGCATAGGACCGGGAGAGCATTCCACACGGAGAGAACATTGC
AGAGGCTCTGGGGCAGAGAAGAGCTTGGAATCTCTGAAGAGTTGAGAAGTGGCTGTGGCTGGAGTTAAGGAGTGAGAGAGAGATGAGGGGGAGCGTCAGG
CAGGGCCTTGGGGACGTCACCTCGGGCACTAGGAAGCTATCGAAGGACATTAAGCTGCAGGGTCGCCTGGTGAATGCAGGTTGTGGGAAGGCCTTTCTGA
CTGCTGCCTGGATGGAGAGTACTAGGAGGTGGGTACTTGTGATGGTGGCTGGGCTGGGAAGCATGTGGTGAGGGGTGACAGGTGGGAAGGGGCTCTGAGA
CGGGACCTGCTGAGGACGGGGGAAGGAGCAGAGGTAGCAAGCCACTGGGAGCGTGTTGGCCTCCTTTCCCGAGCTAGAAGCACTGAGAGTTGGGAGCTCA
AGTGAAGAACTTCATGCTGTGTGTGGAGCTCATGTTGCCTGTGGGAGCCCCCAGGGGAGAGGTGAAGGGGGCAGTTGATTTGTGGCGCGGAGTTCAGAGG
GCAGGTCTGGGCTTGGCTTTGGTTCTTGGTGACCTCAGAGTGCAGGTGATGTTCAAAGCCATTGATATCCGGGAGTGAAAGTAGAGAGAGGACCCAGCCC
GGAGGGGTCCTGGCATTGGCAAGGCTCGGGAGGAGTCGTAAGAGACAGCGTGGAATGTGAGGCCTGGCACAGGGAGAACAATCTCAAGGGGTGMAGGCCC
CCGTGATGCCCATCCTGCCAAGGGGTCCAGTGAGATAAGGCTGGAGAAGGCGGGAGGTGGAAGAGCTTCACGGCTTGCTGGGGATAAAGGCCTGGATGGA
GTGGGAGGGGAGGAASGGAAGGCAGGCCTGGAAAGAGGACAAGGGACAGCAGCGAGGGGGATTATTATGAAGTCTGAAGATGGGGGTGCACTCAGGGTGG
GTGAAGTGGAGGGGCCTGCCTCCTGTTGCAGGGTGGCCTGTTACGGCTCCCTTCCTTCATCCGTCTGCTCTTTTTCTCTGCTGGCCTCGTGCCTTCTCTC
AGTTCCTTGCTCTCACCTGCTGTCTCCCTGCTTCTGTGTTCGCCCAAGAACGTTTGTGGGACCCCTGAAGGAGGCTGGCCTGTGTCCGGGAGGATGGACG
CACTCTGGGGGCTGCTTCTTTCTGCTTCTTGCCCCTCCTTCCCTGGGGCTCCTCTGTCCTCTCTTCCCTCCCTCTCTCGGACCTCCTCTTCCTTCTCCTG
GTCCTCTCTCTTCTTCCCTTTCCTCCCCTTTTGCCTGGCTTTCTTCCTGTGTCACCTGCTTCTAGCTCACTTTTTTTTTTTTTTTGAGATGGAGTCATGC
TCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCTGCCTCCCGAGTGGTT
GAGACTACAGGCGCCTGCCAACACGCCCGGCCAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCAACCGTGTTAGCCAGGATGACCTCGATCTCCTGAC
CTCGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGACACCGTGCCCTTCTAGCTCACTTTTTAATGCTTTTCTGACTCCTGGA
CTATTTCCTGGGCCCCAGCCAGGACAGAGGGCTAAGCCAGCTCTGGACTGTTAGGGGTTGGAGGTGGAGGGCAGCAGGGTTGTCCTCTCTGCCTTCTCTC
TGCTCACCCCCAGCCCCAACTTCCTGTAATCATCCCTCACAACCTCACAGTGTTTGAGTTCATGCCATACATGGGCATCACCCTGGCTACCATATTCACC
ATGCTGAGACTTGCCAATGAAGCCAAGATACGCCAGGCGATCTGCAGTGGTGAGTGTCCCACTTGAGCCTGCAGGTCTGGCTCGATCAGGGCGCCGGAGG
GAGACTGCTGGGTAAGGAGCAGATGGAGGGGTTGTTGAAAAAGAGGTGCACTGTTCACTTGTTCTCCAAAGGAGTTTGCTTAATCTTTTACTTCGTGTGG
CCTCTGATTGGCTGCCTGGGGCACAAGAGGCTGAGACATGGTGGGGGCCTTTTAGAAGATCCCGGCTTAGAGGGAAGAAGCTGCAACGGTGACTCCATTT
AGCTTGCTTTGTAATTAAGCACTTCAGTTCRTGAGACCACAGAACAGCAATGAGCATTCACAGGAGAGGGAGACCGGGGAAAACGGCTCCATGTGGAGCT
TGACGGGGACTGGTCTTAGATGCTATTTCAATCTGATCACCTTGCCCCAGATTTTGATTACTTAATGTTCTTGTGGGCTTATAAAAAGCCCTAGTGCCTG
AGAAAAAGAGGGCCACATGTGTTCACTGTTCACTGCCCTCTGACCTGGAATCCCCAGGATGTGGGCAGGGTCATACTCCAGGCCTCGCCCTTGACCCCGT
CTCTGTCCTTGAAGGAGAGGGACCCAGACACCCCCGAGTGCTCAGTTCTCACACACACAGGCACGCAGAGTAAAAATGAAGGTGCTGTGGGGGGTTGGAA
GGGCAGGGTGCAGCCTGCTCSCTACGGCAAGGCATGAGCACTTCCACTCGGGAAGCTGGGCTGGGAAGGCTTGGTTCTGCTTCCAGCCCCTCTGGCGCCA
AGTGCATTCCCCTGTTGCTGTTGGTAGCCATGGAGACCTTCTGTGAGACGGTGCAGTTTTATCTGAAGCACCTGGAGGAGAGCGTGTACCCCGTGATGAC
TGAGGAGGAGTTTGCCCTGAAGGTGTTCCCCATGTATCGCTACTTCGTGACAGTGTGGCTGAGGCACYACAACCCCGAGGTGAGATGCACCCCTCTTAGG
AGGGCCTGGTGGTCCCCAGGCCACAGCTCCCCAGCCTGTGGGGCCGGGAGGTGCTGAGGGACCGTCGGGTCCACACTTACTCCCAGGACCCTAGAGGGCA
GTGACCTGACTCATGGCAGAGCCGGGGAACTCATGGATGCTGAACAGCTGGGACCTAGGAGCCTCATCCACGAGGCCAGGCTTGATGAAGGTTGGTGATA
ATCCTGAGAGCACTTGTTACATGCTGGGCACTCTACCAGCGTCTTACCCATGGGAGCTATTTTCACACCCACTCTGTGATATAGGACTAGTTGACAAATG
AGGAAACTCAGGCACAGAGGGGTTAAGTACCTGCTCAAGGTCATGTGGCTGCTAAGTGGGAGGGACTCAAACCCGGCCGCCTGTGCAGGAAAGACCTTGC
TCTGCTTCTGAGGYGCCTTCTGTCCTGTGTCCTTGGATTCTGTGGCTGGGGCTGAGGTCACTGGCCTTGCTGGAGGGTGGTGAGACAATGCGTCCCAGAG
CTGGTTTCTGGTGGCAGGTGAAGCTGGGGGTGATCAAGTCCCTGAAGCCCATGCTCGGCCTCCTTCTGCCCAACGATGACCTGCGGGAGCAGGTCTACGA
CTACATCCCCCTGCTGCTGGCGGAGTACCAGGGCAGTCTGGAGGYGCTCTTCGTCACGCAGGCGAGTGGCCAGGCAGCCACGGCTCTGGGCAGGAGGCTT
AGGGAATTGGGGGCTCCCAAGTGTTTAAAGGGGATGAGTGGGAGCCGGGGGGATGTCAGATATTTTGACACTGTGTCAGGAACCCGACATCTGTGCCCTG
CGAGGGAGGGGCGTGGAGCCTGGCACCCGTGGGACTCATGGGAATGAACACTGCCCTTCCGGGTGGAAGGGACCAGGTGCTGGTCCCTCGGAGGCTGCAG
TGAGGCTGTGGCCTTTGCATTAGTTTGTTAGGGTTGCTGTAACAAAGAACCACACATGCGTAGCTTGAAGCAACAGAGATGTATTCTCTGTACGTCCTGG
AGGTCAGGAGTCCAAACTCAGGGTGTCGGCAGGGCTGTGCTCCTTCTGAAGGCTCTAAGGAAGCAAGCTCTCTTGCCTCTTCCAGCTTCTGGTGGCCCCA
CATGTTCTGTGACTGTGGCAGCATCACTCCAATTTCTCCCTTCCTCATTGCGTGGCCTTTCCCTGTGTGTCCCTCYGTGTCCTCTTCTTACAAGGACACC
TACCCAAAATCCAGGATGATCTCACTTCGAAATCCTGAACTAATTCCATCACAAAGACCCTATTTCCAAATAAGGTCACATTATCAGATTCTGGGCGAGC
CTGAATTTTGGAAGGACACCGGTCAACTCAAGGCAGCCTTGGTAGAGGGGTGAGATGTGTGAGATGGAGCCGTTGCAGTGTTCCGCGTGGAGCTGTGGAT
GGGGCTGGTGCCCATGTAAAGGGATCACTCATCTATAAGGAGGGTGTGGGTCTCAGCTCTTAAAGCAAGGAGTGGAAAGGGATGTGACTGATTTAGGAGC
CATCTGTAGATCATTCTGGCTAAATAATGGGATTCACTTTTAAGTGAAGGAGGCCTTGAATGCCACACTCAKGGGCCTAGCGCAGCACTTCCCAAGCCTT
GCTGTGGTTAGGAACAACCTGGGGGCTGGGTGAAATGCAGGCTTGGATTCAGCAGGACYGGGGTAGGGCCTGAGAGTCTGCATTTCTAATCAGCTCCCAG
GGAATGCTGGTGCTCAGTGGGTCAGTGGGCCCCTGAGTARCGAGGGTCTAGAGTTTGACCTTGAGTTGGTAGAAGGTCACCTGCCACCATTTGCCAATCC
ACTGCAGGTCTTGAGGCAGATCCTGGRACTGTCAGTCACCACCAACACCCCTGTCCCCCAAATGCAGCTACACACCATTTTCACAGAACTGCACGTCCAG
GTGAGGCCAGCAAGCTCAGCTGGACAAGGGCATTCTCTGGGTGGATCAGCAGGAAGCTGGCGGCGGGAGGTGGCCTGGCCCACAACTCACTCGCGTGCTT
CCTKTATCCTGATGGGGTATGAGGCTGTGGTGCCCATGCAGCCCCAGGTATGGTCAGCTGGGCTGCCCCTGCACCTGTGTCCCTGTGATCTCCTCCAGCC
TCACTGCACGTCCCTYACCAGGTGTGCAACAAGGCCCCGGCCCAGCATCAGTACAGCAGCCAGAATCTGATGGAGATGGTGCACTGCTTCGTAGCCCTYG
GTGAGGCTCTGCGGCAGGGTGCTCCCTGCCTGCCCCGAGGCCTGCAGGAGGCCTSTAGGAGTCCCGGCCCCTCTGAGCGCTGGGCCTGGGACTGCCTTGC
TGGGCCTGCTCTGGACCCGGTGAGCATGACTAAAGCTGTCCTTCCACCCTGCAGCTCGCTCCTACCCCAAGGAGCTGATGAAGTTCTTCTTCAGCCAGAT
GGAGACAAACAAGGAGGCCGTCCGCGTGGGGACTCTGAATCTGATTAGGGCTATAGTGAGCGCAGATGGTGAGCAAGGCAGGGTGGGTGGGGTGGGCGGG
GAGGGTGGGGTAGGCAGGGTGGAGAACAAGGGAGGCAAGTTTCATTCATGTTCGGGCATTGCCACTTCCTAGACACTACTGGGTGGGCCAAGAAAGCCAA
GGTTCTTGGCTGCTTTGCATTTTCTAAGCTTTAACCTAATCAGCACTGTGGCTTACCCTCCCCACACCCAACCCTCTGAGTCCGAATTGTTAACCCGAAT
CCTCCTGCTAACCTCCAAAGCTCAATCAGAGGCTGGATATAAGGCCAAACTACACCACATAGGCATAACTCTGAAGCCCCGTGGACTCAATGCTCAACCA
TAGTCTACACATCTGATTCCAATTCCTAAGCCCAAACTCTAAACCTAGCCCTGAGATTTAAAGAGAACCCCTGTCCCTAACCAAGGCACTAGCTCACRCT
CTGCCTTTGTGTGAATTTGAAGAAGGCCCCTGTTGACAGCATGCAGCCCTACAGGTACATAATGGTTAGAAGAGCATGGGCAGCTCCCGCTCAGCCCTAA
AGTTGGGTAGCTTTGTTCAGTGCACAAATTGGGCAACTGTATGTAAAGGGCCTTGTGCTGCCATTAAACCTTTCTCTTGAAGAAATGCACATTTAAGCAA
CAATGAAATCCTTTTTACCTATTCAATGAATAGAGATGATAATGGCTAGAGTTCACCTGGTCATTTTTCTGTGAAAGGCCAGAGAGTAAAAATATTTTTG
GCTTTGCAGGCCATATAGTGTCTTTGACAATTACTCAGCTCTACCATTGCAGACCAAAAACAGCTGTGGACTCCTGAGCATGGCTGGTTTTGTAAACTTT
ATTTACAGAAACAGGCTGTGGGTTATACTTTGCTTATTGCTAGTCTAGGGTGACAAGAAACCACCTGTGATACTTCAGTGACAGAGATGTAAATCAATAA
ATGATTTTGGGTGCTCAATTGGATACGGACCAACATTTGCACTCAACAATCCAACTTTTTGTCAACCATCCAAAGGACATAATTTCCCAAAAGTAATTGG
ACAAAGGTGCTCATTAAAACATTGTATTAAAAGCAAAGCATGAGAAACAGCCTAAATGTTTTTCTGTAGGGAATTTGTGGAATAAACAATATATCTGCAT
AATGGAATATTATGCAGCTATTAAAAAGTGTGTAGTCAATCCACTTTTTGTGGAAAAGCTGCCCTCTTTCTATTGRGTGTATTAAGTGTAGCAATACAAC
GTGGGGCAGTATTTATAGCATGACYTTAGTGATGTGGAAGAAATCTATGTTCATTTATGCATAAACAGGTCTGAAGGACAAAATCTATTAAAAAGTGGTT
ATTTTTTATTTTAATTTTGCAATGAACATATGCTATTTTTTCTTTCATTCAGGGAAATTAGTATTTGCCCTAATGCTCTCCCTCCCCTTTCCCCCAACCC
TCTAGCAGGCCCCTGTGTGTGATGTTCCCCTCCCTATGTCCATGTGTTCTCACTGTTCAACTCCCACTTATGAGTGAGAACATGCACTGTTTGGTTTTCT
GTTCCTGGGCTAATTTGCTGAAGATGATGGTTTCCAGCTTAGACTGGATAAAGAAAATGTGGCACTTATACACCTTGGAATACTRTGCAGCCATATACTA
TTTTTATAATCAGAAACAGTTTGCATCTTCAAGATGAAAACTCTCAATTGTCTCATGCTCACTTGGTGCCTGACTGCCACCTTGTACCTGCTCTCATTTC
CTTTTTCCTACTCTGGGGTTGACTTAGTAACACCTAGCCTTGAGTGCAGTATCATCCTGGATGTCTAACTCTACCTCCATCCACACCAGCCCTCTCCAGA
ACTTTCTCATGGCTCTTTCTTGCCCCTCTTAAGCTTCCTGCTTTAGTTGGGTGTGCTGTCATCAGTTGTACAACTAGCAAACACTTGCCCAGCCCTTACG
GTGTGCCAGACTCTGTGTTAACTCTGTGAGAGAGGCACTGTCATTATCCACACTTTACAGGCGAGGAAACTGAGGCGCAGAGGGGCTACGTAATTCACTT
TACGTCCCACAGCTGGGATGTGGTGGAGCCAGGATTTGAACCCAGGGAAGGCCTGGTGTCAGGACCCATGCTCTTCACGGTGGTGCTTTGCAACCTCTGT
GTGCCCACTGCATGCCCACTTCATGCCCAGTGCTCTGTGCCCAGCTGCAGGACACTAAAGAGCTCGTAGGCAGAGATCTTGCCCTCAAGGCGAGTTCACC
TGGGTTCAAATGAGATACACACAAAGCAGTGGCCAAGGGAACGAGGCRTGGAAACAACAGAGGGGAGGGAGATGGCCAGGGAGAGCATGGCCAGGGAGGC
TCCTAAGAAAGTGCCCCTGAGCTTGGAGAATGTGGGAGGAGACAGAACGYGAGGCMCTGATGTGGGACGAGCCACCTGACCTCTCCCTGAGCCACAGCCC
TCCAGCCCACCCAGTTTTCCTCTTTCAGAGCCCAGGATGAGTATCAGGGCCATCTACCTGGCTATCCGGGTAGTCAAGAACACCATCTCTGATACCCGGT
CCAAGGTAACAGGGCAGAGACCTGGAAATGGGGGGCACTCAGGGGACCCTGCCAGGGAGGCAAAGGGAAGTCTGGGCTCTGGGAGGCAGAGGCTTTTGAT
GGAAAACCCGGCTTTCCATCGGGTCTCGACTGGGGCTGCAGAATGGTGAGGCCAGTGAAAGCTGAGGTTCCACTCTCGAGACCTCATTCTCTCCATGGAT
CTAGAGTTTTTGAGTGGTGTGTCTCAGGCACCACCTTGGACCCAACAGAGGCCGAGTAAATCCAGCTGCAGCTAGAGTCACTTGGCTGTCAAGGGTTTTG
TGAGGTCTTTATCGCATGTGAAAAAAGCAACTAAGGGGTACTCCTCTACCCATCCTCAAAAGGCTGAAAACCACAGTCCCAGGCTCCATGGCAGCCACAT
CCACCTTGGAGTGGAGCTTGGTTCTGGCCRTGGGCTGGGGAAGGGAGGTCCGGCATAGTGAGGGGTCTGCACAGCAGTTTTGAGGAACATCAGAGAGGGA
ATGGAGGAGAATGGGGGCTAGAGATTTAGGCAGAGCTGTCTTCAGTCCCTGGAGGCTGTGGAGGGAAGCGAGAAGAGGCTCGTTCTGCATCTCCTTCACA
TAGTGATTCTCATCAATGGAGCAAGCCCCAGGGGGTCCAGGATAACAGATGGGCTCCCCAYGGCAAGGGCTGCTAGAATGGAGCAGCCGAGGTTGGAAGG
GAGGGAGGGAGCTTTGTGTCTCTCCAAGGCTCAATTAGGCTCCCAGGTGGGCATGCTGCAGAGTGGGACCCCTGGATGAGGCAGGGGGAGGTGGACAGAG
TGGGCAGTAATCAGGTAGTCCCTGAGGCCCCTTCTAGCCCAGAGCACCCCCAATTCCTAGCTCTCTATGTCACAGGATTGGGTGCCTTGGAGCCCACCCC
AACCCCCAGCATGTCCACGGTCCTGTCCCCTCAGGTRAGGATGGCTATTCTCCACATCATTGGGCAGTTGGCTCTCTGTGGCTACCAGGAGAGAATCAAA
GGCTGGGGCCTGAAGTACCTGTCTGTGCAGCTGACCTTATCCACCTACAAACTGGTGAGTGGCCCTGATACGCAGACCRCAGAGCAGCTGGACTTGGAAA
TGGTTTCCACAGTGCTGAGGGGAGAATGCCACTCAGCRTACCTGTGTTCAAACCTGCGTATCCATTCATGACAGGAGTTCATAGACACAGTGAACCTGCA
GGTGACAATGTGTGGGGTCCTAGATATAKGCACAGCTCTGAGCATTCTGTAGACTCAGTATCTGGGCATGGAGCCCCTGGGGAGTGAGGAGACCACACCT
GAGACCACGACAAACCTCTGCTAGGCCACAGGTGGGAATCCCTTGGTTCTTTCTTCCAGACAAATCGCCGGGAGAAGTTTTATCAGAGGGACTTGGAGGA
GAGGATGGTCCACAAAGTCACCATGGACACTGTGAAGATCATTACCTCTTCTGTCAGTGGGATGACCACCGTGAGTGGGCCCTGCCCCACCCGCACAGTG
GGTCACCACGCCAGGCTGGGGGTGAACCACACATGCCCAGAATTCCACATCTTTGCTTCTTCCGTTCCTGCTGTCTGGAGTGTTGAGGGGCCTTCCTCTT
CCAGTTGCCTGGAATTACTCAAAACCCAGTTCCAAAGCCAGGTCCTTGATGAGAACTTACTCTTCATCTCTGTACCCCTAGAGGCTGGGCAGTGCACGAC
CTCAGCATGGCTGGCAGTATCAGTCTGTATCATTTGAGCAAGTACCTGAAATGTGTCCATTACTTTAAGGCCCGTGTGTGTGTGTATGTGTGTGTGTGTG
TGTGTGTGTGTGTCTGTGTGTAGACCAATGATTTTCATGGTTTAATTTTGTAAACATTCATTGAGTTCTAACTCTGTGAAAGACAGGACAGAGGAGTGTG
CACTAGGAGGACTCAGTATGACGGGAAGGAGTGGAAGGAGTTCACAGACTATGGGAGAAACAAATGTGTCAACTTTTAATTGCAACAAAATGTGACGTAG
CAATAAGAGGAAAAATGTACCATGAGAACATCAAGGAGGGAATGATTAYTCACTGAGGCTGCAGGCTAGATGATCCCTGTCCAGCGACAGCTTTTTTTAA
TTGCAGAAATAATAATAATCATCATCATCATCATAGCTACAGTCCATGTGGCACCCACATATAGCAGGTATACTGTACTAGGTGTGCAACCTGTGCAATC
TTGTTTAATTATCCCAGCAACTACCTGCATAGAGGGTAGTTATTATCCTGATTTTGTAGATGAAGAAACAGACCCAGAGGGATTCATTAATTTGCTCAAG
GCCTCATATCTGGTAAACAATAGATCCAGGATTGAAATTCCCTTGGAATTCACCATGCTGTCTTTATGGGGAAGCCCAGGAACTGGGAGATTCTAGTCCT
GGTGGCTACAACAGGTTAAGCCATTGCACTTGATGGTTGGTAGCACAAGAGCCTCACCTTCAACTCCTAGGGGTGGGGGTGGGGTGGAGAGGGATTATAA
TTAGTCGGGGGTGTTGAACGGTCACCCAGGGAGAGAGGAGATGGTGGGGTGAAGTTGGAAACACAGCTCCAAGAATCCATATCAGTCAGGGTTCTCCAGA
GAAACAGAACCAGTAGAAGACATATATAGCCTGGTTTATTTTAAGGAAGTGACTCATGCAGTTGTGGGGGCTGGCAAGTCTGACACCTGTGTGGCAGGCC
AGCAGGCTGGAGACTAGCAGGGGCGGATGCTGCAGCCTTGTGGCTGAATATCTTCTTCCTCAGAGAAATCCCAGCGTTTCACTCTTAAGGCGTTTCACCC
ACCTATGTTATTGAGGATAATCTCTTTTATGGATTATGCACTTTCGTCACACCTACAAGCTACCTTCACAACAACACCTAGATTGGTGTTTGACTGAATG
ACTAGGTACAGTCGCCTAGCCAAGTTGACACACAAAACTGACCGTCATACCAGGCATGCACAACTGGATCATCTGCCCGGGGTGCCCCTCTAGAGGACTT
GGGATCAGAGGGAGGGCCCTGGATGAGAAGGGTTTGATGAGTGTGGGTTTGTATGAGGCTGGCAGTGATAGGAGTTGGGCAACAGGGATGCTGGCCCCAG
CAGGGACTAGCAGACTCTCTTGCCACATCAGGGTGGGTGACACTTAAATGCCCCTGACAAAGACTGGATTTGGCGGTGGAGCCAGTTCAGGGCTGAGACT
GTCAGGGGACATCTCTGGGGAAGCAGGGATGGGATGGCACCATGGCAGAGCCTGACTGTTCTCCTTAGAAGCCCAGGGCTTGGGCTAATTCTGAGCCCCT
TTCTCTCCCACCCCTACCCCAGGAGTTTTGGGTGAGGCTGCTGTGCTACATCATGGAGACAGACTACGTGGAAGCTTTGACTCCTATCTGTATCAGCCTC
ACAAACCTGGCAGAACACCAGCTCCATGGCCAGGATGTGGATGTCAGCGTGGCTGGCAAGAGCAGGCAAGGTGGGCAAAGTTCCTGTCCAGCTGATTGGA
TTGGGCAGGTGGGCTGKCTCCTTGTCTGGGAATGCCCACCCCTCTCCACATTCCTCCCACCCTCATTCCCCCTTCTCCTGGAAACATCCAAGTCCAAATT
AATACTATTAATGCCTACCTGGATATTAATGCCTACCTGATCATATCTAGGTCATGTTAGAATTGTGTAAACYTCCTTTGGATAGCTCACTCCTCATGTC
CTGTCCCCYCAGCCCACAGCCCTGGTCCAGATCCCATCCTTGGGAGCTCCTGGCCCAGCCTTTCCCATGCATGACCTTACTGGGCCTCTGCTCTGCCTGG
CTTCTCTGAGCCAGCTAGAGTAACTATAGGCATCCCATCCTCTGTAGACTACCCTCACTGTGGTCCACTCAGAGTGGGCACTGTTAACACCAGGCTCTCA
AAACAACTATGCCCACCTACCATGCTTGCTCCTGTCCCCTTCCCTCCAACTCTGGCCCCAAGGGCATCGCTGGTGATGTAGGTGATTGATGGGGTCCTTT
AGGATCCAGGGCTAGCAAAGGGCAGAGCCTGCTCTCTGACTTTGATCTAAACAAGCTGGCCAGTCAATCCTCTGAGGTCTTCCTCATGCCCCTCTCACTC
TTGACTCTGGTTGAGTCCTCTCCAGGTCCCCTGCACTGGCATCTTCTCAGCAGGCCTGGCCGTGCCCTTGTCCATTTGTTTGTGCSCTGTTGGTTTGCTT
TTCCTGGGCTCATTGGCTCCCAAAGCCTGTGGAGAGAGTCAGGAGTGGGTAGAATGGCAGTGTCTAATTACTTTTGGCTCAACAGAGGATGGGGTTCACA
GTAGGAGACAAAACACTGTCATGGAAAGTCTTGGTGTCCACTACAAAATGCGCATGGCCTGAAAAGAGCATCTTCTAAACCTCAACCCATTAGCACGATT
CTCCCCTCTTCCCAGGATAAGTGAAATGTAATGATGTTCTTAGGAAATTCCCTGTGCCAACCCATTCTCCATTCTGGGGGTTTGGGGAACAAGATCATGT
TGGGGAGGAACCTTCTAGGGTAAAGTTCCTAGATGGGGACATAGGAGCATGTCCTGGTACAAGCCAGGAAGGCTCAGCTGGGGTTGCATTTCCTTCAATC
AGTGGACCTGCCTGCACCTCAGAAGCTGCTGGCCCGTCTCCTGGTGAGTGGCTGACCTGCACCATGCCCTGGCCTGGCAAGGCCATGCCCTGTGGCACCT
CTTCTTTAAACTCCTAATTCCCAGAGCCCCAGGGGTATGAGGAAGCTGAGGTGCAATGAGGGAGTTTGATGCTTGGCAGGACAGATCATTCCATGTCCCT
GAAATTCCTCTCGAGTTTGGTAGAAGCAGTGCACTTGTAATAACTGGGGAGCTGACCTGGACCTGCTTTTAGATTCCTCTGCCCAAAGCATCCCCACTAC
ACTGCCAATGCCTGCCTACCCCTGGGGGTTGGCTCAGTCCAGGACCCATGAGTTCTTCTCTTTATGTTAACTGTGGACACTCATCCATGTTGCACTGAAG
CCTGGGGTGGGGAGGGAGCCCAGGTCTAGCCCCCATCCCCCATCCTTCCTGTAGTGTCCTCTGCAGGTGCACTCTCTATTTGAAATCCCTATTTGAAAAC
CACCGATCTTGTCCAGCTCCTCCCTTTAAAAATGAGGACAAAGAGCTCCAAGACAAGGAGCAAGGTGCTCAGGTGCTACTTCACTGGAGCCTTGGTGCCC
TCCAGGTGCTGATGTCATCACCTTACAAGGGGGAGGGTCGTGGGATAGCCATGCTCAACCTCTTGAGGACCCTGAGCCAGAGCATCGCACCCTCCATGGC
CGACATGTGGGAGCTGGAGATTGCGCTACTGGTCCGGTACCTGGAAGGTGAGGTTCCTGGGGAGCCCATCCCAAGCCAACCCTCCAATCCGTGTATGTGC
TGGGGTTCTAATCACATGACTTGAATAACGAGAGCTGAGGCTCACAGTTGACCCACACAGCCAGCCCACTTTTGTCCTGAGAACTGGTTGAGCAGCTTGG
GAAGGTGAGGAGTGCAATGCAACGTGTGATGTGTTCATCCATGGAGGGCCTCAAATGCCACGCTAAGGAGGCATAGAGGGCCTTGAATACCAGGCTTAGG
GGAGCAGTGGAAGAAAGTGGCATGTGTGACCATACATGTGTTCCTGCAGAACATACTGAGTTCACTTGGGATCAGAAAGCCTGGGAAGACAAGCTGATTC
AGGTAAACGGGTAACAAGTTTGCTGAGGCCTGGGAGGAGGAGAAAGATGGGAGCAGATGGAAAGGCATTTGGTGGGCTGGGCACATGAGGAGTTTAGAAG
CCCCTAAAGGACATGTTCTCCTTCTGTCAGAGAAGACTTGGGAGTTACAAAGTCTATAGCTGTGTCCATCCCCAGGGGAGAACTGAGAGAACCTTCCATC
CCGAGAGCCAGGTGGCCAGGAGGGCAGCAGGGAGTGAYACCCCTTCTGCTAGCCGCCAGAGCCACAGCCATTCCTCAGACCCACAGATCATTATTAGCAC
TGGATCAGGGATCTATGGACTTAGTGATCTGGAGATGTGGGCAAGGGAAGCGAGAGAGGGCAAGTCAGTACTCAAGGTCCCGTAGCATTCCCAGAGCCCA
GGCAAGAACAAGGATGAAGGCCTTTGGCCCTTCTCACCAACGTCTTGTGCCTCCCCAGTTTCTGCGAAACTCCCTCAAGAAGACCCGGGGGTCTAGCTGG
AGCCTGCGCTTGAGYAAAGAGCTGAACAACCAGATTGCGAGCTTTGACAGCCCCTCTCTGGAGAAGGTTTGTCTTCATAGGGACAGGAGAGTTTGGACAA
GGAGTAGACTCCAGGGGTGAKGGAGTGGAGAGGATAACACCGTGTGTGTGAGATCAGCTGGACCTGTGGCTGTTTACAGGGTCCTGGGAGGAGAGGAGCG
TGGTCTGGATTGGTGGTTTTAGTTTTGTTTTGGTTTATTTTTTTGCTTTGTTTTGTTGATCCTCCAGATTCTGGCTAGCAATCACATGTGTGTATTTCTT
TGTAAACACAAAACTATACCACATTGCTACAAAATTCTAAAACATTTTTGAAAGAAATCAGTGAGGGTCTCAATAAATAGAAAGCACCCCATGTTCATGG
ATTGAAAGATGCTATAGTTCAAATGGTGATACTCTCCAAATTTATCTTCAGTTTTAGCATGACACCTATCACAATCCAAGCTAGTTCTTTTTTTTGATCC
TAAAATTGATCCTAAAATTTATATGGAAATACCAGAGGCTCTGAATAGCCAACAAAATTATGAGAAGAAGAATAAAGTTGGAGGACTCAAACTTCTCAAT
TTCAACTTCTTACACAACTGCAGTAAAACTCCTTACACAATTGCAGTAAACAAGACAGTGAGATACTGGCATAAGGATAGATTGATAAAATAGAAGTGAG
AGTCCAGAAATAAACTCTCACATTTATGGGTAATTTATTTTCAAGAAGGGTGCCAAGACAATTCAGTGGGGAAAGAATAGTTTTTTTCAACAAATGGGGC
TAGGGTAACTAGAAATCCACATGCAAAAGAATGAAATTGGATATCTTCCTCACACCACACATAAAGCTGAATCAAAACGAATCACAGACCTAAATAAAAG
AACTAAAATTATAAAATTCTAGAAAAACACAGGATAAATCTTGTGACCTTGGGTTAGGCAAAGCCTTCTTAGAGATGACACCAAAAAGCACAAGTGACAA
AAAGAAATAAATTGGACATCATGAAAATTAAAACCTCTTGTGCTAAAAATAATACAATAGAGAAAGTGAAAAAGAAGCACATTAAGGAAGAACATGTTCT
TCCATAACAGATCAAAGACTTAAGTGTACAAAATAAAATAGAACCATGGAACAACTAGAAGAATATATTGATGAATATTTTTATAATGTTAACATGGAAT
AGCCTTTATATGCTTGCAAAGAAACCAAGAAAGACGAGGGAAAAGAGGTAAATTTTATAGATATTAACATTTTTTGTGTGCTTCTACTACTTCCTGTTTG
TTTTCTCATCTCCARAAACAATAATATTTACCTTATGGAGTCGTGGTGAGGATTTAATGAAATATGGATGGTTGCTCTTATTATGTCTCCAAATATAAAA
CAAAATTCTTACAAATAACAAAGAAAAAGCCCACCAAAAAATGGGAAAAAGAATATAGCCAGAAATTCAAAGAATTAAAACGGATCATGAGAATATGAAA
AGATGATCAGCACAACTAAAAATCAAAGAAACACATCACAGTGAGAATGTTCCACTTCTCACTGATCATGACGTATGTTGGGGAGTAGGTGGAGAAATTG
GTGCGCTTAGGTTTGTTGGAGGGAGTGTAAATTGGTTCAACTTACACAGAAGTTGAACAAACTTACCCCTCCCCCTTTAACACGTATAACATGCCTGCCC
TTATGTAGTCTGACCTCCCAGAATAACCTGAACACTTATTTTATTTATTTTTTTGAAATTTTTTATTTCCATAGGTTTTTGGGGAACTGGTGGTCTTCGG
TTACATGAATAAATGGGAATTTGCAAGATTTTGGTGCACCCATCGCCCAAGCAGTATACGCTGCACCCAATTTGTAGTCTTTTATCCCCCACCCCTTTCC
TACCCTTTCCCCCTGAGTCCGCAAAGTCCATTGTATCATTCTTATGCCTTAGCATCCTCATAGCTTAGCTCCCACTTATGAGTGAGAACATACGACGTTT
GGTTTTCCATTCCTAAGTTACTTAGAATAATAGTCTCCAATCTCATCCAGGTTACTGCAAATGCCAGTAATTCATTCTTTTTTGTGGCTGAGTAGTATTC
CATTATATATATATATAATATGAACTGATATATGTATATATAAACTGATATATGTATGTATGTATATATCAGTTTCTTTATCCACTCATTGATTGATGGG
CATTTGGGCTGCTTCCACATTTTTGCACTTGTGAATTGTGCTGCTGTAAACGTGTGTGCAAGTATCTTCTGCACATTAAAATAAATTGAAAAATACGTAG
AAAACTCTCTACAACAGCACCCCCTGAAGGCTGGCTGTAGGGAGGCCTGAGCTCCTTCCTCCCTTCTGCCTCTCCAGGGCTTTCTGTACCGGGCCTTGGG
CTTCACCTTGGCCACAGGCCTGGAGGCCAGCAAGGTGGAGGTCCTGCTGTTGGAGCTGCTGTACAAGACGGACTACAGCAATGACTTTGACAGCGAGGTG
AGGGTGCCTGCAGCCTCCTCCTGTCCACCAGATGCCTCTGGACCCTCGGGGACATGTGTGTTCATGTGGCTGCATGCGTTTTGTGTGTGTGTGTGTACAT
GTGTGTGTGCCTTGCACGTGTGTGTGTGGGATCCTCCTCTGCCCACTGGCCCCTGCCCTCACCCTGGCTGGCTGGGTCTCCCTGCAGGGTGTGATTATGT
GCTTTGGCCTGTGTGCCCGGGGCCAGGTAAAAACGGTGCTGAATGTGCTTCATGACTTCGAGGAGAGGATCCAGGAGTCAGAGCAGTCCTGGCAGATCAG
TGCTTGGCGGGTAAGCCACCTTCCCTCCACAACTGGGTCTTGGGATCTCTTAGCACAGTGCTCTGGGCACTGACACAAAGTCCTTTCTAGATCTCAGTAG
GAAACTTGCCTCACACGGAGTCTCCTGTCATCAAAATGGCTGAGACATTGTCTTACTCTGAGACCTCCTGGACAGAGCTTTTGCTATTGGATCATCTTAA
AAATGCAGGGTGGGCCTTTCCAGGACCCAGATACTGTCACGGAGTCCCAGCCCCTTGCTACTCATGGTGGGGTTCTCAGACTGGCAGTGGGGGCTCCCTG
GGTGCTGATTGGAAATGTAGAGTCCCAGGCCCCACACAGACCCACAGGATTTGAAGAAGCTGTTCAGGTAGTGCTCAGTGGGTGCTTGACACTAGGAGCT
CTGCCTCAGTGGATGGACGGTGCTGGGATTGAGGGGCTCTAGCCACTGTTGCAGGGTGAGAACACTGAAGCTTGTCCATTGGCGTGCGGCTGGTTCCCTG
GTGAAGCCAGTATTTGGACCCAGACAGCCCATGGCCCTATCCTCTGGAGGCTGCCCCTCCCTGCCACAGGAGATGGTCCCACCAGCTGGCTGAGCTCCTA
GTGGGAAACCATCTGAAACCATCACCCATGCCTCAGGCTTTGCCCTTGACCTGGAACACTTGCCCTGGGGTCTGGTTGTTTGGATGAAGAAAATCGAGAG
AGTCCCAGGCTTTCTTCCAGCTTTTCTGCAAAGAGGACCCGACACCTAGATTTCTACTCAGTCTGGCAGGGCACTGGGGCCCCTGCTCCCCATCCACAGT
GGGTTTGGTGGCCTCCAACATCTCCTCCCACTCAGAGATTGTTCTGAGGGTGTGAGCACCGTGAGGGCAAAGTGGAGGCTGTCGGTTCCTGCTGGCTCTC
CAGCCTCATGTGTGCCTGACCCATAGCCGGTGCCTGGTAGGTGAAGGTATGAGGTGTGCAAGCAGCCTCTGTTTAGGGGTGTTCACTTGAGCACCTCCCC
CCACAGGTGATGGGTGGTCTGGGCGTCTATAGCCCTAGTCTGTCTTGCTCATTACTGCATGCCCAGTGCCTGGTGTCTAGTAGATGCTCAGTAAAGATGC
ACTGAGTGAATGAATGCATGCATGAAAATACGATGAACATTTCAGGCACCCAGAAAACAGTCAGGTGAAGCACCGCCGGCTGACTCAATGGATCCTTTGG
TTGTGTGGCCAGAGACCATCACCTGCATCTGGAGCAGCCCCTGCTGCCCCCAGTGGTTCTTTTTCTCTTTGGCCTCGTAGAAGGACCATCCCTGGAGGCG
GGAGACAGTGAAAAGTGCCCTCATGGTGATGTATAGCTGCGTGGCCTCCTACTGCCACCCCCAGTTGCTCCTCAACCTCGTGGACAGCCCCATCACCGCT
AAGATCATTCACCATTATGTCAGCAGCTGCCAGGTAGCCCCATCTGCTGCCTGGGGGGATGTCTTCTGGACCAGGCTGGTGGGTAGTAGCCTTCTGGCAC
TCTCTGGGCTCCTGCATCCCTACCCAGGGGACATCCAGGCATCTTACCTGATGCCCAGCACGTGGGAAGCCCATTGCCCAAATGTGCTGTTCTCTGTGCT
TTGGTGTCATGCAGAGGGGCTGGGGGGCGGGTTGAGGATAGCCCCTCTTCCAGAGTGCTGGGTGGGGTCTCCAGAAGCCACAAGATGAGCCCCACCTCTT
CCCAGCCTTACCCACTCCCTCTGCCCTTGCCTCTGGCCCTCTCTGACACTGACCCAGACCCTTTCATAAGGAACAAGAGGTGGGGTTGTCTTCATAGACA
TGYAAAGGAACTGGCTATTTTCTTGGAATGGCAAGGAGGGGAAAACACAGAGAATAAAGCAAAAACTGTTTTTATTTTTTAAAACTATGGCAAAATACAC
MTAACATAAAGTTTATCATCATAACCATTTTTAAGTATATATATATAGTTCAGTGGCATGAGGTACATTCACGTTATTGTGCAACTGTCACTGCCATCTG
TCTCCAGAATTCTTCATTTTACAAAACCAAAATCCTATATCCATTCAACACCAACTCTCCATTCCCTTCTCCTCCCAGCCCTGRCAACCACCTTTACTCT
TYCTGTCTGTGTGGCTTTGACTAGTCCAGGTACCTCATCTAAGTGCAATCATATGATAGTTGTCCTTGTGTGTCTGGCTTATTTCATTTATCATAATGTT
CTCAAGGTTCATCCATGTAAAAGCAATCATTTTCTCAATAACCTCTCCTGCCTCTATGGTAACACATAGGGCTCGGGGCCCCTGGTCACTGAAGGCGGCC
CCTGAGCTGCTTTGCTGCCCTCAGGAGGCTTGGGAAGGTGGCATCTTCCGTGGTGTATTAGTTCGTGTTAACGCTGCTGCTAAAGGCATACCTGAAACTG
GGAACAAAAAGAGGTTTACTTGGACTTAGAGTTCCACATGACTAGGGTGGCCTCAGAATCATGGCGGGAGACAAAAGGCACTTCTTACATGGTGGCAGCA
AGAGAAAAATGAGGAAGAAGCAAAAGTGGAAACCCCTGATAAACCCATCAGATCTTGTGAGACTTATTCACTGTCATGAGAATAGCATGGGAGAGACTGG
CCCCCATGATTCAATTACCACCCGCTGGGTCCCTCCCACAACACATGGGAATTCTGAGAGTTACAATTCAAGTTGAGATTTGAATGGGGACACAGCCAAA
CTATATCACGTGTGGACCCAGGTGCTGCACCTCACCTCGTATCCCCGCCATGTGCCTGTGGCCCTGCCATGTGGCAGGTGCTCCATTCATGTGGTCGAAG
GACAGAGTGAGGCTGGCCATCTCTCAGAGCATTCAACATTAAACGCTTTCTTCAGAGCAGAGGGAGTCCAGGAGCAGAAGCTGCAGCTTGGATTCTTCTG
GGGCTGCTCACAAACATTCTCTCCCTCCTTTTCCCCTTCTGGGCTCAGGACATCTGTCTCAAAATGGCCTTCATGAAGAGTGTTGTGCAGGTTACCAAGG
CCATCAACAACATCAAGGACCTGGAGGACTTTCACTTTGCCCAGAAGACGACTCTTACCAGCATTATAGTGGTAAGCTGGGTGGGGCACCTCCTTGGTCC
TGTTCCTGGTTTTGGGGTCTAACTCCCTGCGGTGAGAGGTTTTCAAAGTTCCTGAGGGCATCTGCAGAGCTCTCTGAAGTCCTTCCCTGTCTTGGCTCTG
CTTTGTCCTAACYGTAGGAGTTCTGAGAATGATTTTTGTATCTGATAAAGAGTTTCACAGCCAGTCAACTGTTTGGAAACCAGGGTGGGAGATTCTGGCT
GTCCTGGGTCCTGCAGTGCCCAGGGCAGCTGGTTAAGGCCTGATAGACAGAGATTCCCTGGGCCGGCTTGGCTGTAGCTTCCCTGTCTCTCCGTGGGAGG
GCCTTAGGGGCAGGGATCTGCTGGAAGCAGGACTTAGAGTGAAGCCCTGAAGGATGCACAGAAGGATGTAAGACAAAGAAAACGTCCACTGTCCAAAGGC
TGATGGAACCTGTGGGGCCGCCAATGTCCTTAATCCCCAGGCCTCCCCACTCATGTCATTGCCAGTGCCTTGGCCTCTCAAAGCTGCTTGGGTTGTGCTG
GAAGTGGCCCTTAAGGGACATGAGATTGGGTGGAACAGAAGGCAATGAGGAGGAAATGGGATTTATTTGGCTCTCACTGGCCAGGAGCTTTGAACCTGTA
CTTTCACGCTAGCCTGGAGCAGCCCTGTAAAATGGGTCTCCAGGTCTTGTTTTACAGAGAAGGGGACTTGGGCTCAGGCAGAGGAAGTGCTGGCCCAGGG
GCACACAGCAAGTAGATGAGCAGCGCGAGCTGGGAGCCCAGGCCCACTTTGGGCCCTGCTCCCACTCTGCTGCCTCCCCTAAGATGCCAAAAGCCAAATG
GCCCTAAAAAGAATGAAAGAGATGTGGGGTGTTAGACACTTTGGGAAGTGCCAGGTCTTCCTCATGCTAACACTGGGGAGTGCTGCCGCCATCATGGTCA
CCAAAAGCCACCACCCCCTGCTTGTGTTGGACAGGCGGTCATCAAGGCAGAACCGACTGACAACCTGGTTTCTCCAGTGCGAGCCTTGGCGATGGAGGCC
CTCTCGCACCTGAGGTGAGCTGGGTTCCCACCCTCACCCCATCCCAAGGGGTAGGGAAAAGTTCAAGACCATTCCTCGGTGCTCCTTCAGGGGTTGTGCC
TCCTTTTTCCTCTCCTCCCTCTGTAGCAGGGGTCTCACTTGGMGGCTCCCCAGGGCAATGGGCCAGCCTAGATGATGGGGGTCGGCCTCAGCCACTCTTT
TCTATAATTCTCAGCCAGATTTCAAGTTGGGTGCTTCTCCTTGGATTTATGGCACATGGGTGGGCTGCTCTTCCATTGATTGGGGATATTTTGAGCAAAA
TAACAGTGATAACACTGAAGAGCATTGCAAGCATCCTTCAAGATGAGTCAGGCTCAGTGAGTGAGTTGAAGGGCTYAGTCAACTATTTGTTGATACCACT
GGTACAAAATGATCTAAAGCCCAAGACTTACCTTCCTGGAGATGCCAATCCATTGGTGGGGAGGGGGAAAGGGGAAGAAGTTATGGATTTATAAAATTAG
TATTTAAAGAGTTTGGGTCATCTCTAAGAATACCTCCCCTATAGGGGAAGATTCATTACTTAGGCGCATAGCAGAACTATCTGTTACTTTAAGCTGCATC
AAACAGGCAGATTTTAAAATAAATGTCATGAACATCAACTAAGCACAATGATATGCTGAGTACTGAAGGGACACAGAGATACATAAGACCTAGTCMCAGC
CTTTTAAGGACTTAGAGATAAGACAGACACATACAAACAGGATTATAGGTCAAAGCTGACTAACAGGACTGTGTTTACAGGTAAACCCACACACACATCA
GCAAAAAAATATCTGAGAACAAAAAAAAAGGGGCTACTAACAAAAGCAACTCRGTTTATACAAAAGGAGCTATCAAGAGGCTTGGTGCAAAGTTGGCATT
TGGCTTTTGACCTGGGCTTAGGCAGAACGACTGGACTTGGCGCTTCCTAGGAGAGTGTAATACAAGACACTTTGGGGGAGCAGGAGTTTAAAGCAGGATG
GTGGCTCTCAACTCTAGGGGCACAATAGAACTCATGGGGAACTTTTAACAGTATGGATATCCAGGTCCCACCCCAGATCCTGGGGCTTGGACGTGGTCCC
TGGGGGTCCTTAAAAAATCCTCGAGGTATCTTTAATATGCATCAAGCTTGAGAATTGTTGATGAAGGAGCTAGAAGAAGAATGAGCTAGCATGCACCAAT
CACTAGCAACTTCCTCTGGAGGGCTTATCAAAACACAGATGGCTGCAGTCCACCCCCAGAATTTTTGATTCAGCAGGTCTTGGCTGGGGCCATAGAATTT
GTGTTTCTCATAAATTCCAAGGTGAAGCTGCTGCTGCTGCTGCTGCTGGTGATGGTGGTCCAAGCATTACCCTTGAAAGCCCCTGGACTAGCACCAGCCA
GGGAGGGCAGATTCCATAGTTGCAGTCGGCAAGGAGCAATGGAATGTTTCTGAGCAGATTAACAGGTTCAGAGTAGACAACAGCAGATAGGAGAGATGGC
CTTGGACCCCTGCATCTCCCCTTCAATCACAAGCAAGAGTCACTGGACACTGGTTACTGGTCAGAGCCAGGGCCCCTGGGGAGGGATGCTTGCCAGAGCC
TCCAACTGGAGAAGTAGGCCTCTTCCTCTTCTAGGATGTGTTTCCGTGCCCAGATTGGGCAGTGGGGCAGCAGAAGCTCAACTCCCCAATGACTGTTCCT
CTCTTGTCACTGCTTCTTCTCCAGCAAGCTGAAGCCTTTCTACTCCACAGAGGAAAACAGTGAGCTGATGGATATCAGCATACATTCTGTAATTTCTCTC
CAACTCCCAGGAGAGGACAATGAGTCCATTAAGGTAGGTCCCTCTGGGATGCCTCATTTGCTGGGTCAGGACCTGGGAGTTAACATTAACATGGGCCATG
CTGAGAGTCCACCTTCCTGAACCACCTTTGAGTGTTTAGAGGCAGCGGAGTGTAGCAAGCTCTATCAGTAAATGTAAGGTAATGCTAGCTGTTGAAACAT
AAACCCTGAAATCTCAGTGGATTAACAACATAAAAGTTTATTTATCACCCAAGTCAAGTCAAGCCCAGCTGTCAATGGGAGTGGAAATGGAGCTGCTTTG
TGCAATTATTCAGGAACCCAGGCTGGTGGAGTCCTCCTGCCCATCCTCAGTGCATGAATCCCAAGATCCCAATCAATGGGTATTGATACCCAGCATAGAT
AGAAGAAAGAGAAAGTCTAGGGAAGACTTGAGAGTCATTTTGCCCTCCTTCTATTGGCTGAAACACAGTCACATGGCTCCACCCATGCAAGGAGTCCTGG
GAAATGTAGTCCCTGATGAGATGGCTGTTTCCCTGACAACACTGTGGAAGAGGAGAAGGAATCTTTTGTGGACAGGTAGCCATCCCTGCCTCCAGGGCTT
GGCCCTGGATGAAGAATCAGAACTGGGCTCCAGGAGTTCAGTATCCTGCTTTGTAAAGTGAATCCCTCTTAAATGGTTGTCTTGTACTTCACTTGAGAAA
ATAAGTGTCAAGAGCTCAGACTGAACAGAAGTTAGTGGATGACTGCCAGACCCCTCCCTGGCATGAACTCCCTGCAGGGAGGGGGGTTGTGGGTGCCCCT
CATTGCCGCCTATCTCTCTCTCCCTCTTGGCTGTAGACCCTGTATGCAAATGCCCTGAGCTCCCTGGAGCAGCTGATGGAGAGCCTCCTGCAGAGGCAGC
TGGACCCCAAGGGGCTGCAGGAGATGGTGCAGGTGAGTTGCCTGGTGGCGGGCCAGAGCCAGGGATGGCCACTCCTCCCCAGAAGCTGGACTGAGGGCCA
GACTCTGGGGAACAGGGGAGTGCATGCAACATTGTTTTAGTGATTTCATTGTTATAAAATTCCAGATCTGCTAAAAATTTGCAAGGATAGTGCAAAGATA
CTCTTCATGCAGATTCACAGTTCTTAATACTTTGTCACATTTTCTTTCTCGGTTTTCTTCTGCCTCTGTCCTTCCACACACACACATCTTTTGAACCACG
GATAGCTGCAGACATCCAGAGTAACAGTACTCTCTTATATAACAACAGTACCATGATCAAATTCAGGACATTTAATGTTGACACGATGCATGTATTAAAA
CTGATGGCCCATATTCAAATTTCATGAATTGCCCCAGTAATGTCCTTTAGAGCTGTTTTCTCCTCGATCCAGGATATAATCCAGATTAGGCAGTGCATCT
ACCTGTCAGGTCTCTTTGTTCTCCTTTCATCTGGAACAGCTTCACAGTCCTTCTTTGTCTTTCATAACCTTGGCACTTTTGAAGGGTGCTGGTTAGGTTT
TTAAAAATTGGGTTGTTTGCTTTCTTTTTATAGAACCTTTTACAGGTTTTACATATTCTGGATACAACCCATCAGATATGTGATTTGCAAATATTTTCTT
CTAGTCTGTGGCCTTTTTATTGATTTCCCAATATCTTTTAATGAGCAGAAGTTTTTRGTTTTGACGAAGTMGAATTTATCTTTTTTTCTTTTATGGATCA
TGCTTTTGGTGTCAAATCTAAGAAACCGTCCAAAGATTTTCTCCTATGTTTTCTTCCAGAAGTTTTGTATTTTCAGATTTTATGATTAGGTCTATGATAT
ATTTTGAGTTAATTTTTGTATGGTCTGAGGTACAGGTCAAAGTTTATTTTAATTTTTTGCACATGGATAGCCAATTGTTTCAGCACCCTTTGTTGAAAAG
ACTGCCCTTTTTCTGTTCAATTATCTTTGCACCTTTGTTGAAAATCAAAGGCTATGTACGTGTGGGTGTATTTCTGGACACTTATTTGGCTCTGTTGATG
TGTTTGCCTATGGTACACCAATACTGCACTGTCTCGATTACTGTTATATTATAATAAGCCTTGAAATCAGGATCAGATAATGTAAGTCCTTAGATTTTGC
TTTTTTTTTTTTTTTTTTTGCTGCATCTCACAGATCCTGATACGTTGCGTTTTAATTTTATTTCGGTTCGAAACATTTTAAATTTCCCTTATGATTTCTT
CTTTGACCTGAAAGTTATTTAGAGATTTTCAAATATTTGGGAGTTTCCGAGAATCTTTCTGGTTTGGATTCCTAATTTAACTGCATTGTTCTCTGATGAC
ATACTTAAATTCCGTATTTTAAATCCTTTTAAATTGACTGAGATTTATTTTGTTGCCCAGATACCATCTATCTTGGTAAATATTTCATGTGTATTTGAAA
AATATTCTGCTGTTGTTAAGTGTAGTGTTTCAAAATGTCTATTAGGCCAAGTTGGTTAATAGTATTTTTCAGGTTTTCTGTCTCCTTTTTGATGTTCTGT
CTTTTTGTTCTATCAATTATTGAGAAAAAGGCACTGAAATCTCTGACTAATAGTGTGAACTTGTTTATTTCTCCTTTTGGCTCTTTCATTTTTTGCTTCA
TGTATTATTTAGCTATGTTATTAGGTGCATAAACATTTAGGATTGTTATGTCTGGTTGATGAACTGACCCTTATTGTGATGACATGACCCTGTTTATCTA
TGGTAATGTCATTTGCTCTAAAATGAACTTTTATATCAGAACGGCCTCTGGGGCCATCTGGAGTGCAGGGTGGGCTGTGCTCCTGGCCCTTCATTACAGG
CAGACATTTGGAGCCAGGCCAAATGCAACAGCCAAGCACCATCCTGGTGAGAATGCTGGGGATGCTCTTTCCCTGCCTACAGCCTCATCTCCCTTCATGA
TGGGGCCTGTCTAGAACCACAAGGAAGCATTGAAAGTCGATCTGAGTAGGAGGGTGAGGTGGGCAAAAGCTGGCCAGGAAAGGGCTGGCCCCAGGATTTT
AACACCCACTTTGGTGTTCTGGGCTCTACCCATAGCTCCTGGAAAAGTGGATCTTGTCGGAGAAAGAATGGGAGCGGGAAAAGGCCGTGAGCCTCCATCT
CTATCTCATGYGGATTTATGTCCACAGCACTGCTGTCTGTGTGAGTCCAGGAGTCCCCAGCCCCCAGCCTGCTGCTCTGACATGCACAGAAAAATTCCTG
TGTCTATCTGGAAGATGAGGGAACACTTATGAAATCAAGTTCTGTCCCCAGAGGGCCCCTTGGGAGAGGCTGCAGTGACCTAGTGCCCTGGGCTGGGTCA
GGGAGGGAGAGGGTGGGATTGTGGTTGGCAGAGCTCCAGGCTTTGTGGGGCCTGTGGCTTCTGTAGCGGTGAGAGCCCTTTTTAAGAAAAAAGATACATA
GTTATGAACCCCACATTGGCTAGGAAARTGAATATTTACTTTGAGAAAATCAAGTGCTGCAAAATCATAAATTTTGCAAAGCTTGACAAGTACCGCAACC
CTTAAAATGTCTAGAACGACGTAGTGTTTTTACTGATTGACCATCTGACACAGCCTGATGAGACTTAATTGTCTACACTTTTTGGCTCCATGCTGTTTGA
CTGTCTTGTCCTCAGGATGGCTGTGGCAGGAGGATGATGGAGTCAGGGTCTGGGGCGCAGGGATGGTCGTCTGGTGCAGGGAGAGAAGYGGGCTGGGCAG
GAGGACCCTGGTCCTGGGCACCTGGATGGAGGTGGGGATGAAGGCTCAGCAAAATGAGGCAGGGGCCAAGTCCAACACTCAGTAACATGTGAGGCCAGAG
GCTGTGTGGAAGGCTTCACCTGGGCTCTCATGACATTCCCTGCAAGAGGAGGTGCCATCATCATCTCCACTGTGCAGACAGGAAACATGAGACTGAGAGG
CAGAGTACCCTGCCTGGACTGCTCAGCTAGTGAGCAGGAAGCTCTGATTTGATCCCCAGGGTTCGTTACAGGWACAACTGGGCCCAAGTTCAGAGCTGTG
AACTGAGCAGAGCTGAGTCAGAGGGAGTCCTGATCCAGGGCCCACAGATCCAGGCTGCTCAGCCTCCAGGGGCCCAGCTGTGGGCAGGGGAGGCTGATGC
TTGGACAGGGGACAGACAGTGGCACCCTCCCCTTCCCCAAATGGGTGTTTCAGAGCAGGGTTTGCCCTATCAAGTTGTCCTTTACACTGCCCCTGGGCAG
CCCCAGGTGTGCATGAGAGCACAGWGGTGTGAGCCCCACGGTCTCCTGTCCCTCAGATCCACCTAAAGCTGGGGCAGTTTGGCACAATGGTCGGACTCAT
TGCCCCGTGCACCTGTGATGCCCATCAAAGAACCCGCATGGCCTCAATGAATGTCCTGTCCAGCCTGCTAGATCTTCACGGTATGAGAGGGCAGGACATG
AGGACCAGCTCCTCTGGGAGGGAGAGAGGGCTGACTCCAGGAGTATGGGCTGCGGCCTGCCCTGGAGGGAAGGATGGCCTCTGTGCAGGCAGGCATGGAG
ACAAACACAGGTGACCATCAGAGGGAGCAGTGAGGGGAGAGTTCACCAACAGGCCATGGAAGCTTCCAGAAGGAGAGGTTCATTAGCCCAGATTGACCCA
TGGAGGGCATGTGCTGGGCACTGAGGGCCTGGCTGGGAGAAAGTCAGCTCCCAGATGCCAAGCATGTGACAGAGCTGGCCAGAGCTGAGTTCAAGGGAGA
GCAGGCCTCTGAGCTGGGCGGAGAGGTGGTGCGGGCAGAGGCCGCCACAGGGAAGGACCAGTGAGAGCAAAGGTCAGAACGCCTGGGACGTTCACATGCT
GGAGGGTGGCTCAGGCCTGCAAAGCCAGGGCAGGAGGTAGCCACGAAGGGGGGGTGGCKGGGCCTTTTGTCCCTGCTGGTCATTTCTGAAGTTGTATTCC
CGACAGCAAGCCAGACCTGCTCCTTGTGGGGCCCTTCCAAGSAGAAGGAGCTTGAGAAATGTAAGGGGGACCTCCAGAGCACAGATGTGGAGAAGATCTT
CTGTGCATCCTCCAGAATCGCCAAGGTGACAGCCGGGGAGCCTGCCTGGGCTGCCAGGCTGGTCTCAGGGCCCTTGGCCGTCTCTCRGGGAGGGAGGCCT
TCCTGGGCTGGCCTCACAGCCCAAGTTTTCTGGGGTCTCAGCTTCCACGGCCTTTGGCCCAACTGCTGCCCTCTGTGTTGAAAGGGCCTGCAGTATGTCA
TGTCCCTACTTTGTCTCTGGCACRCAGTAGGTGCTTAATCTGCTTTGCTGTCTTCTCCCTGTCCCTGTGATGTGCCACACTGAGTGCTGAAAGGGCCATG
GGAATGATCTGGACAGGCCCTGCACGTGGTGTGGGCACGTGGGCAGGCTCATGGCACAGTGATGAATGGAAGTGCCTGGAGCCACCCAAACAGGGGCTGG
GGACTTCAGGAGACCAGCCCCTTCTGGCTCAGCCCAGGAGGAGGCCATGGCCATGGTCTGAGAGAGGATAGGAGCCTGGAGTGGGGCCATGGGGTGGGAC
AGGGGAGGAGAGAGTGTCAGCAGTCATGGAGTGGCAGGGGAGGGCAGGGGAGTCACCCGCTCTGCTCCTAGGTGGTCTGCATGGAGTTTAGCTGYGATGA
GGTGGTCTCGCTCATCCAGAAGCTCTGCGAGAACACTGGGGCCATGAACCTGCAGCATGACAAGGCCTCTGTCACCTGGATAGCCTYCTTCCTCCAGATG
CGGGCCAAGGAGCTGGAGGACAAGGTGGCAGAGCCGCGGCAGGGCCACCAGAGAGAGGGGCTGGGGCTGCCTGGTGTGCCCAGATGAGAGGGAAGGACGA
GGGCCTCACCAGCACTCGCTGAGAATGCCTCCCCCAACCCCTGGCTGCTAAAGAGGAGGAGGAAACAGAGTTCTAGAGCTAGAAAGAAGCGTGTTGAAGG
TAGCCTCGTTAGTTAAGTGCACGCTGACCTGGAGATCAAGGTTCTCCTCCCCAGAGCACACCACCTCCTGCACTGAAAGCCTGGGAAAATGAGTTTGAGG
CAGAGACCAGAGGATGCACTAGAGAGGGTGCTGGGCGCTTAACCTCCCCATTGTCCAACTGGGCCAGAGCCCTTAGAGCAGGGGCATGTCATGGGGTTAG
TGCAGGAGGCCATAGGGGCCTGGGCTGCCCCCCGGTGATGCCCCATCCCTACCTAGGTGGCCGAGATCCTGAGTGCCATCCTGGTGCACCTGCCGGTGGT
GGACCACCCAGAGGTGCGGCGCCTTCTCATTGACGGCATCCTGCTGCTGGCGCACCACCACCAGGAGACCATCCTCACATCGCTCCTGAGGCAGCCACTG
CCCATGGAGAGGTGGGTGCCCTGGAGGAGGTGGCCCCGGCCTCCTGTGCCATTTGACCATGCCCAACTCACCACCCCGATGTGTCCCAGAAGCCTGGAGC
CTTGGGCAGTACCCTGCCCCACCCTGAAGGAGGTCGAAGCCCTCTTCCTGTACCTCCTGCAGGAGGTGCCAGCCTCCGACGAGCCACTGACAGAGCCCAG
GCTTGTAGAACTTCGCCACATGGAGCTGGAATCTGGACCCGTAGCTCCCCACATGCCCGGGACAGTGTCTGTGGAGTTCATTCTCTCCCAGAGTAGCCCT
TTCCTTCCCTGTGAACAGAGCTCCAGCAGATGGGCTGCAGGGTGCGGCTCCAAGGCATGAGCAAGCCCTGGATATATTCCAGGCTGTCCCTATTTCTTTC
AAAATGTGTCCTAAGAGGGGAAGCGACTTGTCCCAKTCTCCAAGGGGAGAATGGCCCAACCTCCAGCCCCAGAGGTGGCCATGAGTGATGCAGAGCCACC
CCATCTTTATTGGTGTTTCTCTGCAGACAGTGCAGAGCTCCTGTGTGTGCTACAGCATGATGGCACAGGCAGCTGGGCATGGTCTCCCCACATGTGGGGA
GTCTGTTTGGGGTGGTACCAGAATTCATCTGGGAGGAGCCAGAAAGAGCTAGACAGTCATCCCCAGAGCAGTGGAGCCTGTGCTGGTGCAGGGACGTGAG
GAGATGTCAGGCTAAGTAAGAGGCTTGGAACAGAGAAAAGAGTTTTAAAAATAGGCCCCGGCTCCAGAGCCACAAGGGCTGACCTGCCCGAAATGCAGGC
ATGRCTCCCCTGTGGAGCTGCTTCTCATAAGGGCAGCCCTGCCGTGGGTCCAGCTGGGAGGGTGGTGCAGGTGTCATGATTTAATGAGGCTCAGTGGCTC
ATGAGGCAGTGCTGGGTGGGGGTAAGGGGGATGTGCGGTGCAGCCCTGGGTCAGGCTGGCGTACTTGGTGGCCACGTCACACTGGCTTTCACTTAGTTTG
CCAAAATCTGTATTGGTTTGCTATTGCTGAATAACAAATTATCACCCACTTAGAAGCTTCTAACAACATCCATGGATTAGCTCACAATTTCCATGGTTCA
GGAGTCAAGGCATGGGTTAGCTGGGCTTTCTGTTCAGGGTCTCACAAGCCTGTGATGAGGGTGTCAGCTGGGCTGCATTCCAGAGCCTGGGGTTGTCTTC
CAGGATTGTGTCATTGTTCGTAGTTGCTTCTTGCCATTGTAGGACTGAGGTGCCCCTTCTTGTTTCCTTGCGCCCCATGGCTTCTTTACAGAGGGTGCTG
ATGAGTGCACTCTGCCCCCTCTCCATTTACTCCTGCCCCCAGGCCCCCAGGCACATCTCCCTTCAGACCCAAACTCACCACCCTGCTCTTGTGCATTGGT
TTTGTGGGTTCCAATAGTCAGTTTACACATCTCTTTGTTCAACTTGACCTTGTTAAATTACATTTAGACTTGTTAGACTCACATTAGCCTTTTAGAACCT
CCCAGATGCCCCGCTCTCTGTGCCTCTGTACCTATCCTGGGGGACATCCCTTCTCAGCAGGGCCATGGGCTTGGACTTGGAAACCAGGAAGGCCCTTTTC
CAACTGTAGTTTGGCAGGTGGCCTGACTGCTGCAAGCCTCACTTCCCTCTTCTGTGGAATAGGGAGACAAAATACCTTCCTCAAAGATGTGTTGGGAGGG
TTAGGTGATATAATATCAGAAAGCTACCGACAACCAACCTGATGCAAATTGGGCACTAGGAGGTATTGTGGGACATGTCCGTACAGTCATCAAACAGGTG
GGGGTCTCTGTGGTCATCTAGCAGTGGAGGTGGGGCTTCCGTGGGGGCCATGGCTTTCCCAAAGGTACCGTGAGCCCGTGCAGAGAAAGGGGGTTGAGTA
TAGTGTCAGGGGCCTGGGTTCTAAGCACGCAAATTTTGGCGGCTCCCTCCGCCTCCCTGAGATTCAGTCCCCAGAGTCCAACCCCTACTTAGGGGGCTGC
CAAGGGTTTGAAAGGGATTCTTACCTGCCAGGGCACATGCCAGGAAACTCACAGTCCTTGTGCCCTGACTTTGGTTAGCCACCTGGCAGAGGTGTGGCTG
GCAGTGTCGGAGAACRTGCCCTTCGCCCGGACCATGCTCCACAGCCTGATGGGCCGGCTGCAGTCACGGCTCAGCCCCAGAATCAGTGCCACCTCCAAGG
CTGACATCTGGCGCCTGGCTGCGGTGGACCCCCTGATGGTGAGTTGCAGGCGCAGGCCCCAAGGCTCCTCAGGGGTCTCTGGGTAGGAGCCCGATGCCCT
GGACCTTCTCTCTGCAGACCCTGTGCACCATCCACCTTCTCATTCAGAAGCTGGATGAGAATGACAAGCTCCCGGACTTCCTCCCTGACCTCATCTACAC
CCTCCTGCTGCAGCTTGGAAGCAGCCACCGACCAGAGGCCGCCCCGCCGGTCTTGAAGATGTGGAAGCTGGTCCACACCACTCCTCTGCCGGAGGAGATG
AACCTGCAAAGGTGCTCTCGAGGGCGGTGGGTGCAAGGCAGCAGGCCTGGGCTGGCTGTAGCCACGGGCTGCCCCTTAGTTGCCAGTGGACTCCAGTGAG
GGGCCCTCTGTCTCCTCCTGGTGGGATCTGATCTTACTCAAAATGCCGTTCTCATGTGTGTCAAGCACGGTGTGGTTTTCAGAGCTTGCAGATCCACTCC
CTCCCTGGACCTTTCCCTCAGTCCCTTGGGCTGGGCCCGGCAGGCACTGGGGCCCCACTTCACAGATTGCAGCAGCCTCCCCAGGCCATGCGCTCCCAGC
AGGGCAGCGCATCACAAGCTCCCACCTCCCTTCAGGGTCACTATCAAGTCCATGCAGCTCTTGTTCAAGAGAGTCAAGAGCCAGCACCTGGCACATACCC
TGGACGAGCAGGCAGTGTGGGACCTCCTGCAGGACGGCGGGACATTCCTGGAGGGTGTGAGCCTGCTGGCCAGGTGGGCCCTGGCTCCCACAGGGTGGCA
GGGGGACCTGCAGAGGCACCTCCTTGCTGGATGGAAGGGCTCCTTGTGAGGACATGGTCCAGTCATGGCTGAAGGCCTTCTTTCTGGGGGAACTGCCACG
CCAACCTGTGACTCTAGGATGGCAGTGGTGTGCAAGAGAATGAGAACCTTTTATTCGAACCCTTCCTGCTCAGAGCAGATATGAGGGCAGARAGAGGAGG
GGCTCGCCCCCAGGGCCACACAGGGTCTAGAGTAGGCCAGGGATGGGAGTTACTTCTGGGGTCCTAGTCACTCCGGAGCCGCCCTCACTCTAGTCCCCTT
TGTAAAAAGGAGATAGACATTGACTGATTCACTGACAACCTCAACCAAGTCCCCAGGAAGAGGAGGGAGAAACCCAGAGATGTTACGACATCTTTCCGGG
GTTATCTTGCCACCAGGGTCCAGGCACCGATGTGGCCCTGCCCAGCTCTTGGCAAACGTCAGGCAGGGGTGGGGCCGCCTCCACGACCTGGCACTGTCTC
TCCTCTGCAGGCTGTGCATGCAGCACGTGGAGGGCCACAGGCAGAGGCTGGCCGAGCTGGTGCTCAGGGGCATGGACTCAGAAGTCCTGAGCTGCCGCAT
CAGCAGCACAGCGGTCTGCRTGGAARTGAGGCACCGGGTGTGGGCGGGGTGCAAGCGGAGGGGATGGGGTCCCTGGATTCTTCTGGGGATGGCTTGTCTC
CAAGGCATGGGAGTCGGGGGGACAGGCGAGCGCCCCTCCTCTGAGTGCTCATTCTCTCATCTGCTCCTTCATTCATTCATCACATGAGTAGTGCAGGGCA
GGCCCTGCTGGAAAGACAGGCTGAGCCCTGCAGCATTGCAGTTAACTGATGTGTGACCCAGGCAAGTACAGTGACCCAGGGGACCCAGGGAGGGCACCTG
GGTTCTCGCTGGGGCAGGCTTCCTGCAGGAGGACTCAGAGAGGCCGAGGGGCTTTGCTAGGTGGGAAGGCAGGGCCCAGCGACCCTATCTCAGAGTGAGT
GTTGGAGCGTCCTGAGGGCAATGATGCCCAATGCACCCTAGGAACCAACCACAGCCCAGGCCAGAGGCCGGCCAGTGTTTTCTGTAAAGGACTGCAGAGT
AAATTTTTGGCTTTGTGGCCAACTMAGCTGTAGCAGGAAAACAGCCACAGCCAATAAGTCAACCAGTGGGCATGACGGTGTCAACAAAACCTTATTGATG
GACACTGGAATTTAAACTTCATGGAATTTTCATGTGCCATAGAATTTTCTTTTCTATATTTCTTTTCCCCAACACTTAAAAATGGGAAAATGAGTTTTGG
CAGTGGGCTGTACAAAAGCTCCTGGAAGTACAAGACCAGTCTGGGAGGTACTCACCAAGCTTTTATAGGTTCTTCAGGCCCCTCCCTGTGTTCAGGCCTC
TGTAAATCTTCAAAATGAGGATGGGAAGGAGAAGTGCTCCCTCGTTGTCTCACCCAGGACCTGTCCTTTGATGTGCCTGAGTTTGGAATTTTCAGCGGCT
GGAAGCCACACAGGGCCAGGCGCAGGTGCTGGAATCCGAGGGCCTGGTTAAGAGCCTCCGCTCAGTTGCTGATTGGCTGGAGATGAAGTTACTTAGCGTC
TCTGAGCTTCAAGCTCTCCATCTGCCCAACTGGGGAAAGCAGTGCCTTCTTTTCAGGGCTTTGGTGAGAGCTAAATGAGATAGACCGTGTATGCATTGCT
TGCTTGGGAGGTAAGTGCTCATTAAATGCTAGCTAATTATGGCAGTTTAAAAATTAGGTTCAGCTTTTTTGGTTCCATATGAATTTTAAAATAATTTTTT
TCTAATTCTGTGAAGAATGTCAMTGGTAGTTTAATGGGAATAGCATTGMATCTATACATTACTTTGGGCAGTATGGTCATTTGCATGATACTGATTCTTC
CTATCCATGAGCATGGAATATTTTTCCATTTGTTTGTGTACTCTCTGGTTTCTTTGAGCAGAGGTTTGTAGTTCTCCTTTGAAGAGGCCCCTCACTTCCC
TTGTTAACTATATTCCTAGGTATTTTATTCTCTTTGTAGCAATTGTGAATGGGAGTTCATGATTTGGCTCTCTGCTTGCCTGTTGTTAGTGTGTAGGAAT
GCTTGTGACTTCTGCAGATTGATTTTGTATCCTGAGACTTTGTTGAAGTTGTTTATCAGCTTAAGAAGTTTTTGGGCTGAGACAATGGGGTTTTCTAGAT
ATAGGATCATGTCATCTGCAAACAAAGACATTTTTACTTCCTCCCTTCCTATTTGAATACGCTTTATTTCTTTCTCTTGCCTGATTGCCCTGGCCGGAAC
TTCCAATACTATGTTGAGTAGGAGTGGTGAGAGAGGGCATCCTTGTCTTGTGCCGATTTTCAAAGGGAATGCTTCCGGCTTTTGCCCATTCAGTATGATA
TTGGYTGTGGGTTTGTCATAAATGGCTCTTATTATTTTGAGGTACTTCAATACCTAGTTTGTTGGGAGTTTTTAACATGAAGGGATGTTGAATTTTATTG
AAGGCCTTTTCTGCACCTATTGAGATAATCATGTGGTTTTGTCTTTAGGTCTGTTTATGTGATGAATTACGTTTATTGATTTACATATGTTGAACTAGCC
TTGCATCCTGGGAATGAAGGCTACTTGATCGTGGTGGATGAGCTTTTTGATATGCTGCTGGATTCAGTTTGCCAGTATTTTATTGAGAATTTTTGCATCG
ATGTTCATCAGGGATATTGGCCTGAAGTTTTCTTTTTTTTGTTGTATCTCTGCCTGGTTTTGGTATCAGGATGATGCTGACCTCATAGAATGAGTTAGGG
AGGTGTCCTTCCTTTTCAATGGTTTGGAATAGTTTCAGAAGAAATGGTATAAACTCCTCTTTGTGTTTCTTTTTCCTTTTTTTTTTTTTTTTTTTTTTTG
AGACAGGGTCTTGCTCTGTCGCCAGGCTGGAGTGCAATGGCGTGATCTCAGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGC
CTTTCGAGTAGCTGGGACTGTAGGCATGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGATGGTCTC
GATCTCTTGACCTTGTGATTTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGACCACCTCTTTGTATTTCTTGTAGA
ATTCAGCCTGTATAGCCAAGACAATTCTAAGCAAAAAGAACAAAGCTGGAGGCATCACCCTACTGGACTTCAAACTATACTATAAGGCTACAGTAACCAA
AACAGCATGGTACTGGTACAAAAACAGATACACAGACCAATGGAACAGAATAGAGAACTCAGAAATAAGATGGCACATCTACAGGCAACTGATCTTGGAC
AAACCTGACAAAAACAAGCAATGGGGAAAGGATTCCATATTTAAAAAATAGTGCTGGGAGAACTGGCTATCCATTTGCAGAAAATTGAAACTGGACCCCT
TTCTCACACATTATGCAAAAATTAACTCAAGATGGATTAAAGACTTAAATGTAAAACCCAAAACTATAAAAACCCTAGAAGAAAATCTAGGCAATACCAT
TCAGGACATGGGCATGGACAAACATTTCATGATAAAATCACCAACAGCAATTGCAACAAAAGCAAAAATTGACAATTGGGATCTAATTAAACTAAGGAGC
TTCTGCACAGCAAAAGAGACTATCATCAGAGTGAACAGGCAACCTACAGAGTTGAAGAAAATCTTTGCAATTTATCCATTCAAAAAAGGTCTAATATCCA
GAATCTACAAGGAACTCAAACAAATTTACAAGAAAAAAACAAACAATCCTATTAGAAAGTGGGCAAAGGACATGAACAGACCCTTCTCAAAGAAGACACT
CATGCAGCGAATAAACATATGAAAAAAAGCTAAATATCACTGATCATTAGGTAAATGCAAATCAAAACCACAAGGAGATACCATATCATGCCAGTCAGAA
TGGCCATTATTAAAAAGTCAAGAAACAACAGATGCTGGCAAGGTTGCAGAGAAATAGGAACACTTTTACACTGTTGGTGGGAATGTAAATTAGTTCAACC
ATTGTGGAAGACGGTGTGGTGATTCCTCAAAGATCTAGAACCAAAAATACCATCTGACCCAGCAATCCCATTACTGGGCATATACCCARAGGAATATAAT
CATTCTATTACAAAGATATATGCATGTGTATGTTCATTGTAGCACTATTCACAATAACAAAGACATGGAATCAACCCAAATGCCCATCAATGATACACTG
GATAAAGAAAATGAGGTACATATACACCATGGAATACTATGCAGCCATAAAAAGGAATGAGATCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAGTC
ATTATCCTCAGCAAACTAATACAGGAACAGAAACCAAACACCACATGTTCTCACTTATAAGTGGGAGCTGAACAATGAGATCACATGGACACAGGGAGAG
GACCAACACACACTGGGCCTGTTGGGAGTGGGGTGGGGGAAGAGAGAGTATTAGGAAAAACAGCTAATGCATGCTGGGCTTAATAACTCGGTGATGGGTC
GATAGGTGCAGCAAACCACTRTGACACACGTCTACCTATGTAACAAGCTTGCACTTCCTGCACATGTACCCCAGAACTAAAAATAAAAATTAAAAAAAAA
ATTAGGTTCAGGTTTAAGAAGCAAGCTATTTAAATTCTTCAAATTTGATAGGGATGGATTATAAATGATTTTTTTTTAATGCTTGCTGACAATAGTGTGG
GGGCTTTACTCTTCAGGAATTTTCCCTGAAGAGCATTTAAAATAGGTTGTGATCGTTGTATTCACTGCTCTACCTGGCCCTGAATAGGTGCTCAGTATAT
GTTTAAATGAATGGAAGTGCTGTAGGAAGCTCCTGTGATTGCTGATGTTGGTGTCTGGGACAGGCTGGAGGTGGACTGAGGTGGAGACAAAACATTTGGA
AGCTTAGAGCAACTGCGCCTAATGGGGGTTTAAGGAACTAGATGTGGGGATAGTCAATAGATGCTCATTTCTCCTGTCCCTGGACTCACCAATTTGGTGT
TTAGTTTTCAGGCCTCTTTCAAACATACTCAGGTACTTGCATGCACACATGTACACACATGTACACACATGCATGCACCCACACGCATACCAGTGAGGTT
TTGGCACTCAGAATACTAGGCCATTAGTAATTCTCCTGAAAGTGAAATTCATGTTTTTTGTGCCTTTCTGTTCAGATGCAGGTGGGCGTGGCTCTTGCAT
TTGGCAGTGGCTGTTATGTTACCTGAAAAAATAAATGACGAATTTATATATATAYKTAACACTTATCTAGCATTCCCCCCATATTTCCTTATTAAATCCC
CACACAGACCCTGAGGCAGGTACTAGCATCACCCGCTTTTTATAGAGAGGAAACGGAGGCTCTCAGAGCCCCTCCCCTCCTGTCCACAGAGCCACCAATC
TGCATTACCTCTCCTCCCACGTCCCACCTTGCTGCTGAGAAATGAGCCCGCCCTGGGGATAACTGCCCAATGTCCTCCCTTCCAGTTCATGAGCGGCCCA
GTTCTGTACCAGGAGAAGCTGCTGAAGCCGGCAGCTTTGCTGCTGGAGAAGGGTGCCGACCAGGAGGAAGACGAGGCCCTGMGGGTGCTGTCCCTGCGCG
CCCTCGGCAACATGGCCCTGGGCGCCCCCAAGAAGGTACTGTGCCTGGCCCTGGGCCCAGGTCCCGGGAGCTGAGGGTGCAGGCCGGGTGCCCTGGTCAG
CCTGGGAGGGAGGGTGCAGGCTGAGGGCTGCCCATGCCCCTCCAGGTGAAGCAGTACCGGAAGGTCTTGCTGGAGAAGTGCCTGGGCCCCCTGAGGGAGC
CCGTGAGCAACAGCGTGACTGCCGAGGGCATGGAGGCCCTGACCAAGATCCTGGCTGAGCTCCGGGAAGGGGATGTGGGGTCCTCTTTCGACGCCATGTC
TGAGCAGTGCAGGATCTTCTTCGACAACGTGAGTCCGATGAGAGCCTCCCTGAGCTTGCTCAGTGAAGGAGGGGCACTTCTCAGACCCTAAGGAAGAGAT
GGGCTCTAGAGCAGAAAAGAGCCGAGGCTCCTGCTGGGTGTCAGTTTAGCGACTGGCTGATCACGGGATCTTGTGAAGTAAAAGGTATTCTTCTAAGTTC
CAGAGAATCAGTGCTGTCAAGTGACGGCTCCTGGGCCTCTGCAGCCCTGCTAGGAGGGAAGGGTCTCCCCCTTTTATTCCTTGCASCTACAAATACCCCC
AGGGCACCTGTGTCACCCTGGGCCTCTGCTAGGCAGGGCTGTGCACTCAGATCCTGCACAAGCCCTCACCCAGGGAAGAGGCGGGCACAAAGACCAGAGC
AATGCCCAGCCCCTTGAGGGCTACGTGATCCCTGCCAAAGGAGAGACTACACCCTGACGGAATGATCCAGAAGGCTCTGCAGGGRCCAAGGCATTGGGTA
TTCCTTGGAGAATGGCTGGGGTTTTGCTGGGCTTCCTGCTGCCTGCATGTCAGCCTGTGTCCATCCTGGCCACAGGAGAGCGAGCTGCTGCGTCTGAAAG
CCTTCATCCTCTTTGGAAAGCTGGCAAGGGTGGTCGGGATGTCCAAGAAGCATTTCTTCAAAGGGGAGGTGAAGAAGGCCTGGATCCCCCTCATGCTGCA
CTCCCAGGACCCCTGCTCCAATGCAGCCCAAGTAAGATACATCCTGGGCTTTGTGTCCCAGTCTGGGGCCCGCTGTTCCCCRAGGAAACAGGTCCTTGGG
TCTGCTGGCTCGGTGAGCTGCAAGCTTTTCTCTGCCTCAGTTGGTTTTCTCTGAGATCCCAGAGGCCACAGCCTGCTCCCTGCTGTCCTCCATCCCTCAC
ACAGGCTGAGGAGAGAGGCCATCCGAGATGACCTGCAAAGCCACCTCACTAAGCAGTCTCAGCCCCGTGTCGGGGGACATGGTGTGGTGGCTGCCTATAG
CCCTCCTCTGCCCAAACCCTTTCTTCTAGCAGATTCTGTAACTGGCAGGTCACTTTTGAGTATTAGGACTCAAAATACCCCAAAGTGGTCTTGTCCACTG
CCTGCAGGCCCATGTTGGGATGGGAGCGGGCCTGGCTTCTCCCTCTCCACAGCCCAGYTCCTCTGTTGCTTTGGGGCAGGAGGAGAGGGAGAGACAGATT
TGTTAGTAAATGTGCCTTCTCATTTGAGTTGCTGCCTCTCAGGCTAACCCCGGCTGGCTGGGGACCTCAGGATCCTCACTCCCTGCATGGCCCATGACCT
TGACCGCCCTCTTCTCTCCCTAGTCTCTGCTTACAGACTTGGGGGGTGGGGTCAGGAAGTGGGGAGGTGGCTGATTTGGGGAGGTTCTGCCCCCGCCTAG
TAAGCCTTGGGACGCAGCTGGCCTAACATGAAAGAAATGCAATGGTCATTTTCAGCAGGTGCCTTGGACTCCAGCTCTGGGGTCACAGGACAAGTMCTGT
CACTATGAGGGCAGCAGTTTCCAGGTGGGGTGGAGCGGGTGGCCCAGATGGCCTGGGTGGCCCAGGTGGGATGGCCCWGGTGGCCCAGGTGGGATGGCCC
TGGTGGCCCAGGTGGGATGGCCCAGGTGGCCCTTACAGGCAGTGAGGGGKATTGAGATGCACACTCCCTAGACCTGGGCTTTGCACTCACCACCCCAGCT
TCTGGACTTTGCCACATCCCTCTGCCACACCATCCCTGGCCACCCTGGGCACAAGGTGTCACTGCCCAGAGGCTCCTTTTCCTTGCCAGTCCTCACCACC
CTCTGTCTTCAGCCCACACTGTTCTTCCATGTTTTATCGACAACTGTCCAGTGGGGTGGGGGGGCTTCAGGGAAGGAACCAGGGTGCACCCAGCAATGGT
GACCGAGAGTGAGGAAAGGGCTACCGAGACAGAAGCATTTTGTCTTCCTGCCCTGCCGTCTCCAGAAGCTGTGGCCAGCAGGCTTGGTCACAGGCAGATG
CTGGTGGACTGGGCCTGGGAGGTGAGGACACGTGCCCAGTCTTGCCTGCTCAAGCCCGGCTCCCGCCTCTGATCCCATGGAGGGCTGGGTCCCAGGCAGG
GCTGCTGAGGGCACGAAGGKGCTGGCTGAGGGGGCGGGTGGGGCTGCATCTGCCCCCAAGGGGCTTTCTATAAATGTACMTGCAGCCATGTTCAAGCTGG
CAGGGGCCCAGGTCCCAGGTGGCCTCCCAGGAGCCACCAGCCCTGCCTTTCTTTGGCTTGGTGAGGCTTTTCTGGGGCTGCCCTCTGGCTTCCTGCCAGC
CTCACCCCTCTGGGGAACCACGTGGCCTGGCTGATGGCTCTGCTGCCGTCCTGTGTCCCTGCAGGCCTGTATGGCTACCATGTTTCAGTGTGTGCACTTC
TGGGGCTGGAAGTCCCTGGAGCATCCCTCAGGGCCAAGTGATACCRCTACTGATGACAAGATGACCRTTTTCCAGACAACCATGTGCTCCATCCTGGTGA
GGAAGCCAAAGGGGGAACCAGCCCGTCCCAGGTGGCCACACGCTGGCTTGGAGCTGGGGGGTCGAGATTGCCACAGCTCTTTCTTGGGGCCCTATGTTTA
CCTTCCACACATGCCATGTYGAGACCRGCACTGTGCAGCAGAAATAGAAGGCAAGTCAYGTGCCTATTTCAGCTGTCTGATGTTTCTTTTAGTAGGCACA
TCCAGAAAAGTGCAGAGGTGAAACTAATTTTCATGTATTTTATTTCACTCAAATAACTAAAACATGATCATTTCAACATGTAATCAGTATAAAAACTATK
ATTGTGATATTTTACAATTTTTGGGGTACCATCTTAAAACCCAGGGGGCACTTTACCTTAATTCAGACCAGCCACACTTGAAGTGCTGCAGGGTTACACA
TGGCTTGTGGCTACCATGTTGGACAGCACAGGTTCTCTGGTCAGATGGGATATGAAAAATATAACTGGTGGCCAGTGGTCCTTCACTTGCCAGCTACTCA
CCTGCTGTGTGACGCTGGGATGGGCGCTTGCCCTCTCTGATGCATCTTGGTGATGGGAACACGCTTGRTGAATGACAGCCCATTGTCAGGGTCTCATCCT
CCAAAGCWAAAAGTGTGTATCACTTACTTTTTGCAGACTCGGAAAAAGCCGGCTGTTCTCTACCGCTTCTTGCTAGAAACAATGGCCTATGTTAAAAATA
ACTTGTCAAGAATCAGAATCGCTGCTTGCAACTTGGCAGGTGAGCAGAGAGACGTCTCCTGACTCAAGATAGACTTTGAAGGCCCTCTAGTCCACCCCRG
SACTCGGGGGAAGGGTGGATCATGAGTGGGAGGCAYGTGGCAAGCTGAGACCAGAGCTCAGGTCTAAGCCCTGCACTGTGCTTTCTATCCCGTTTTGATT
TTGGCTTCCTCCCTGCCAACGTGGGCTCAACAAAATCTTTCATCAATGCTCTCATAACGTAAAGTAAGTAAACCACAGGACGACTTGCCTGCTGACCTAA
TACTCGCGTGATGAGCATTTCTTTGGCTATTGTTTTAGGAATTATTATGAAGCAGATGTCTACACATTATCTGAAAAAGCTGGACTTCCCAGCATTACGG
AATTGTGAGTAGTGGAGAGTGTTAGATGTTGAGTCCACGACTCACCAACTCACTAGGGGAGCTTAGAGAAACTGCTTCAAGGGAAGAGCCAGAGGACCCT
TTGCTGTGGGGTTTYGGGGGGGTGGGAGTGCAACCAGGGCAGAGAGATGCACCTGGRGAGGCCTTTCCAGGACGACAGCTATTGATGGGTGGAGTCCCTT
TCATTCCCTGGGCTGTTTCTCCCATTCATAGCTTCTTATGAAATGCTTTTGGCCTGATGCTGCTATCAGGTTCTGTGGGTGATTTCTGTCCCTGTTAGGG
TGGTTACTGAAGCCCTGAGAGCTATGATGTGTGTTGAAACAGCTCCACCTGCAGTCCTCTGCTTTCCCACACAGGAGTTTCCCCGTCTGCCCCTGCCCAC
CTTCTGCGGCCCTTGCCTGCCATCACTGCCCAGGGCATGCAGCATGTGGTCCTGACTGGGCRGGGCCTGAACCTTCCCTCTTTGTGTTCTCTCTCAGCCC
TCCAGGAACTACAGCTGGACCYGGATCCCGGGGTCAGGAGGGCAGCCCTGGAGACGCTCACAGTCTTGGATAGCTGTAGTCAGCATGGGTTTCTGGCTTC
ACCCCAAGGAATGTCCTAGGTGGTCCAAACATAAGACGTAAACTGTCTTCTTAGTGCCAAATGCAAGCCCTTTTTAATTTAGTTTGTAAGAAGTTTAGTT
TGTAGGAAAAACACYATTGTAAAATAACTAGTATCCTTTTGTTTCCTTCCGTTGAAATAAACCTCCACTGTCGTTGGAGTAGACTTGTGACTGTAAGGTG
GTGACAGCCCAGAACCAAGACAATGAGGCAAAGGGAACTTTGGCCTTAATGAGCCACTTCATTTCCGATTTCCCCCCAAGTACGTTTGTCTGACAGCCCA
CTGGCCCAAAGGGTCGGAAACTAGCTTTGTGTCTTCACTCGGAGTTCATCCACACGCATGCTGACAGCGTGCCTAAGGCCAGGCACTGTGCCAAGCGGTG
AGGGGAGGCCTAGAGTGTCCCATCTGTCTCCAGGGACTCTTCTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCCCTGTCGCCCAGGCTGGAGTG
TAGTGGCGCAATCTCGGCTCATTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCCAGGTGCGCAGCACCACGCCCAGCTAATTTTTG
TATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGTGATCCACCCACCTTGGCCTTCCAAAGTGTTGGGATTA
CAGGCGTGAGCCACCGTGCCAGGCCAGGACACTTCTTAAAGGGAAAGGCACCTAACCACAACACACATCAGAGGGAGGACTGCAGCCAGGGTGCAAGTGC
TACAGTGGCACAGGAGGGTGGGTGTGCAAGTCTGGAGACAATCCAGAAAGGCCGCATGGAGGAACTGACATTTATTCCAGGCCCTTCCCTTTGCGACTTA
AAGTTACCAAAGTTAAGTTTGGACTGTTGCAACTGGAGCCCAGTGAGGCCTGGAACAGAATTTGGCTGCTGGTCAAAAAGGAGAAATTAGCCCCATGTCT
AAGAACATGTAGGGGAAGAGAGGGGCAGTGTGGGGAAGGCTTTTGCTATGCTCAGGCCATCAGAATAGTCTAGGTGTCCCCAGAGCAGGTAAACCAGGAC
TTCCAAACTGTTCCCAGTCCAACTGCCAAAGGAAWTCACCATCCGGGGTCCCATCAACAGGAGAGAGCTGCTATGCTGTCCAAAATCCAACCCGTGCTAA
AGCCTTCTCTGGAACAGTGGTCTTCAAACTGTTTTGTGGAGCAAATGGTGACTTGATTTCCTGCCCAGTGATAAAGAGTATTGCTGCTAAACAAGCTTGA
ACACCACTGATGCAGTGGGGAGAGTGCACCATTCGATAGAGTACAAGGAGGCAGCTGTACATCTGTACAATTGGCTCTCCTTCCATGCCTGTGCAGAAAC
ATTTCCAGATGGTTTATAGACCTAAATGGAGAGAGCAAAATTTAAGACAGTACAGTATTTTTTTTATCCTGAGAGTATGGTAGTTTTTCTTTTAAAAGTA
ACAGCAGAAGCCAGAAAAAAGGAGGAAGTTATCTGCCTTAGTATGTTTAGCGTTGCTAAAACAGAATACCCAAGGCTGGGTAATTTATACAGAAAAGGTT
TGTTTAGCTCCTAATTCTGGTGGCTGGAAAGTCCAAGAGCATGATGTTGGCATCTGCTTGGTTTCTGGTGAGGGCCTTGTGCTATCTCGAGACACAGTGG
AAAAGCAGAAAGGTGAGTGGGCAGGTGCAAAGGCAACCCGCTCTCACAGAGAGTGAGAACTCACTCCTTCAAGAGGGCATTCATCTATTCATGGGGTGTC
CACTCCCATGACCCAAAAACCTGCCACTAGGCCCCCACCCCCTAACAATTACATGTGCAATTAAATTTCAAGACAAATGGCATCCGAACCATAGCATTGT
GTTAAAATGTAACTTCCATACAATAAAATAACACAAAGTTAAATGACAAATGATAGATGATAGAAGTTAAAAACTGGATTGTTTCATATCATTGGATCCA
GAATACATCCAAATCAGGAAGAGGCAAATATAAAACCAGTGTCCTGAGGACATTTAAAAAACCAGGACTCCCAGGAAGACATGCTCAACAAGTCATCAAG
AGAAAGCAAACTGTGAAGCAACACATCTTACACCTGCCAGAGCTCAGACTGGCAGCAACTGGCAGCGATAATGTGGGGAAAAGGTACCTCTTATATTGTG
GGACATTGGGCAAACTGGGGCAGCCATTTGGGAGAGCAATTTGGCAATAACTATGGAAGTTCAAGGCACACCCATCCGTGACCTGTAATTTGCCTCTAGG
TGTGTGTGTGCCACAGATAGTTGACAGTTATGCACAAGGATCACGGGTGGATTTTGCACCCGTCCGCAGACATCCAGGACAATAAACCACCTAGAGAACT
CAAAGTGAGATGCCCACATCTATCAGCTCTTGTCATATTCAGTCTCTTGATGAAACAAAACTGTAGCATATGTACAGTATTAATTTACTCATATAGTTTG
AAACAGAGAGACTATACCATATATAGTTTATGGGGCCCTTATTGGCAGATCTGTAAGTTGGCAAGACCCATGCCCAGATCCTTCCACCTCACCTTCCTCC
ACTGGATGACAGAACACCGGCCTTTCTGGCAGCCAGGCCTGGCCCGGGCAGCAAGGTTTCAGCTGTCTGCTGGGTGTGGGGGAAGGAGAGGCACAAGCAG
TTCTGGGTTGCAGTGATGGTTTTCCTGAAGAGGAAAGGGTGGGTCGCGTTGTCCTTTAGGAAGCAGCAGGCCTGAGGGAAGGCTCTAGATCTGTAGGGGC
CATTCTGGCCCTGGCTGAGCCTGAGCCAGCATTACACTGCCGGCCTGTTCTTTGAGGAAATGAGCCGTCTGTGAGGTCTGCAGCACCTGGCGAGGTTCTC
GGCTCTCAGCAGCGTGCACCCTCCTTACTGACTCACAGGCTATGGATTGAATTATGATTAAGTCCTAGCCCCTGGCATGATGGTATTGGAGATGGGGCTT
TCTGGAGGTGATTAGGTTTAGATGAGGTCATGAGTGAAGGGCCCTTATGATGGGATTAGTGCCCTCCTAAGATACCAGAGACCTTGCTCTCTCCAGCATG
TGGGGACACAGCAAGAAGACAGCTTTCTGCAAGCCAGGAAGAGTCCTCACCGGAGCCCAACCATGCTGGCTCCCTTGTCTTAAACTTCTAGTCTTCAAAA
ACTGTGAGAAAATAAACTTCTACTGTTTAAGCCACCTGGTCTCCAGCATTGTTATGGCAGCCTGAGCATGCAGGTGCGCACGCACACACACACATAACAT
GGTCCCAATGTAAGACGCAGGGGGGAAGAGATATGGGGCAGGGTATGGGGGTGATACCTGACATCAGGAGAGCAATCGCCTGGGGCGGCAGGCGGGAATG
AAAAATGTGTAATTTAATCTCATTTTAAATCTTTCATAAAAAAAAAAAACCCAAACTCATATGGCCATATATTAACTATTTACTCCAGCATGAGTTTCAC
CAATGTATTCTGAATATGTGAAATATTTCATTACAAAAACGTCACCATGATATCCTGTCATCAACAGCTTCAGTAAGAATCATGAGGAGTCACAGGCGCT
GTGGCTGCAGGAGCGTCTGGGACCACCAGGACTGTTTATTTTCCTTCAAGGGTCATTGCATGCAGGGCTCGAACTTACGTCTCACAAGCAAACAATATTC
TCGAATGAAATGGGAAACAGGAGAGAGGATTCTCTGGACATATCTAAATTTAAAAAAGAACACACGGCTGGGAGCAGTGGCTCACGCCTATAATCCCAGC
ACTTTGGGAGGCCGAGGCAGATGGATCACGAGGCCAGGAGCTCGAGACCAGCCTGGTCAATATGGTGAAACCCCGTCTCTACTAAAACTACAAAAATTAG
CCAGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCCGGGAGGCGGAAGTTGCAGTGAGCCAAGATT
GTGCCACCGCACTCCAGCCTGGGCGATAGAGAGAGACTGTCTCAAAAACAAACAAACAAACAAACAAACAAACAAATAACCCCCCCCCMAAAAAAACACA
CACATCAGAAAAACAGGCCTATCAAAGAGAACCCTAAAAATTCTAATTGAGCAACTTTATTCACATAATTTCTACACCAAGAACTCGAGGTTATCTCTGA
TGGAACCAATTTCACTAATATTTACTTTAAGGGCAGAGAAGTCAACCAAGTCCTCACAGTCTCAAGAATCAAAAACAAAACAAAAATACAAACAGAGAGC
AAGTGGGAAGATAAATAACACTCCGAAATAACCTAGCTACACACTTTTAGTTTCCAATTTTTCTAGCATGAAATCACTTTTCTCTTCCATCCTGTAAGAC
GTGTTCTCTCCTCTAGGAAAAAAAAAAGACAAAGAAAATGATGTTAGCAAAATTCTAGAATTCCCAATGCCAGCCACTAAAAGGTTAACTGTTTTCTACT
TATTCCATTGCATGTATAAAAATACTTATAGAAAGTGGCATTACGTTAAATAAGTAAGTTATGTTAAAGAAACAACAAAAATATAATGGCAACCCCCCGA
CCCTGCTCCCCACACTCCCCCAGGGAGCACAAGCTGGTGGGGAAGTCCACATCCCACACCCTGGCCCAGCTAGCGCTGCTGCACGAGTGAATTTAGGAGT
TCTAAGACTTAAGCTACTTTTCCATATCTATTAAAAGGAGAGACAGCCTGCCTATTGGACAGAATCGATCTAATCAAGGGGTTCTGGTGGGGATGAAAGA
AGATAAGACGTAAAAACGGTTCAGCATGGCCTGGCACACAGAGAGCACTCAGACGTTAGGCATGAAAACTCCATATGTAGTTGCAGCTCATGAAGAATTG
GTCTCTTTCCTCAAGAAATCTATCATTTAAGCGGGAAAAGCAGAAAAACATAGGAAACCAGTTAAACATGTTTATATTGTGGTTTAAAATGAAACCTGGG
GTGTTCATGATTTGACTTGCTATCAAATTCCAGGGTAGCTGGGAGGGCCCTGCGGGGCCACCAAGGGCTGAGTCCTCAGGATGGTCCCACAATAATGCAA
CCTCACACCATTCTCTACAAGGCCGAGGTCCCTCCTGTGTGGCTGGGCCAGAAGAAAGCCCTTTAGACTGAGCAGGTGAAAAAGCAAGGCAGGAGCCTCT
GCACGGAGCACTGGGGCAGATGTCACTCATGGAAAGGGGTCTGCAGGCGACTGGCACGGTGCCAGATCATGGAACAAGGTGGGAAAAGGCACGAGACAAA
ATCCCAGGGGCAGGATGATGGTAAAAGGAAGAGCTGGGGCACTATCTGAGAAAAAGCAGTTAGGTTTAGACAAGCAGGACAAGCAGAGCAGAGGAGCTCT
GATGTGTGGGAGACCAGGAGAAACCTCAGATCTCTCTCTGGGCCGGACAGTTGTTTTTGGTGAAATTCTCCCCTTTCAACTGAGAAGGAGACTCTTGAGA
GGTCATCTGTTAAACAGAACGCATAAAYTTTGCCTCAAAGCAGCCTCCATGAAGTGTCTGCCATGAAGATGTGGCTGAGATTCTTGAAGGCTTCACTAAC
TGTGGCTGAAAGTCACCCGGCTGGTGGTTTGGTCTGAAAAAGCCCCAAGTGGGCACAGGAGTGGGCATCAGGCACACAGTTGGAGACCAAGACCCGAGGG
AAAGACTGCTGTTAGCCGTGCACTGCCAGGGGAGGAGCTCCGAGGGCCCTGCCCACACAGTGCCCCTGACCCTAGCTGGGGCCCTGCAGAGAAAAACCTT
TCCCATCACCTGAACACTTACGTATGTCCATCCTCAACTGGGAAGACAGATGACAACCAAGGCTTGTTTCATCTGCTTCTGGTTAGCTCACACAGTATGA
CTTTATACACGAAAATAACTTTGAAAACCAAAACATCCAACAAAACCTGGGAGCTTCTAGAACTGAGCCAAGGAGCCTGAGCCGCTAACCCATGAGACTG
GTCTGTGTCCAGACAGCTCCCCACTGCAGCACCCACCATGTGCAGCCCCTGGGAGGGTGGGGGTTACCTGCACGGAGCAGGCAGCTGAGCGGTGGGTGGA
GTCTAGGGAGGATGTCCGAGGATGCAATAGCAAAGAACTGGGGAGTAGGGGGAGAATGCCAGTGAAAGTTCCCTGGAAGGGAAGGGC


SNP Information

Context             (SEQ ID NO:28084):
CCTCACTGCACGTCCCTCACCAGGTGTGCAACAAGGCCCCGGCCCAGCATCAGTACAGCAGCCAGAATCTGATGGAGATGGTGCACTGCTTCGTAGCCCT
Y
GGTGAGGCTCTGCGGCAGGGTGCTCCCTGCCTGCCCCGAGGCCTGCAGGAGGCCTCTAGGAGTCCCGGCCCCTCTGAGCGCTGGGCCTGGGACTGCCTTG
Celera SNP ID:            hCV2669288
SNP Position Genomic:     23499
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|T,8)      total(C,6|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:28085):
GTAAGATGTGCCCTTGCTCCTCCTTCACCTTCTGCCATGATTGTGAGGCCTCCCCAGCCATGTGGAACTGTGAGTCCATGAAACCTCTTTTTCTTTATAA
R
TTACCCAGTCCTGGGTATTTCTTCATAGCAGTATGAAAATGGACTAATACAGTCAGCTTCTGCACAATATTTCCATTTTCCCACATTATGTCTTGGGCCT
Celera SNP ID:            hCV27155471
SNP Position Genomic:     3755
SNP Source:               Celera
Population(Allele,Count): no_pop(G,7|A,8)   total(G,7|A,8) 
SNP Type:                 TFBS


Context             (SEQ ID NO:28086):
AGGCCAGCAAGCTCAGCTGGACAAGGGCATTCTCTGGGTGGATCAGCAGGAAGCTGGCGGCGGGAGGTGGCCTGGCCCACAACTCACTCGCGTGCTTCCT
K
TATCCTGATGGGGTATGAGGCTGTGGTGCCCATGCAGCCCCAGGTATGGTCAGCTGGGCTGCCCCTGCACCTGTGTCCCTGTGATCTCCTCCAGCCTCAC
Celera SNP ID:            hCV2669289
SNP Position Genomic:     23304
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,8)   total(G,8|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28087):
GTGAACAAGGATAATTTGACTTCTTCCTTTCTATTTTGTATGCCCTTTGTTTCTTTCTCTTGCCTAACTGCTCTGGCCAGGACTTCCAGTATTATGTTGA
R
GAGCAGTGGTAAAAGTGGGCATTTTTATCTTGTTCCAGATTTTAGGAACAAGGCTTTCGATTTCTTCCATCTGGTACAATGTTAGCTGTGGGTTTGTCAT
Celera SNP ID:            hCV27155476
SNP Position Genomic:     10432
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28088):
ACAAAACCTTATTGATGGACACTGGAATTTAAACTTCATGGAATTTTCATGTGCCATAGAATTTTCTTTTCTATATTTCTTTTCCCCAACACTTAAAAAT
G
GGAAAATGAGTTTTGGCAGTGGGCTGTACAAAAGCTCCTGGAAGTACAAGACCAGTCTGGGAGGTACTCACCAAGCTTTTATAGGTTCTTCAGGCCCCTC
Celera SNP ID:            hCV8570547
SNP Position Genomic:     51784
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|-,7)   total(G,4|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28089):
TTTCTATTTTGTATGCCCTTTGTTTCTTTCTCTTGCCTAACTGCTCTGGCCAGGACTTCCAGTATTATGTTGAAGAGCAGTGGTAAAAGTGGGCATTTTT
R
TCTTGTTCCAGATTTTAGGAACAAGGCTTTCGATTTCTTCCATCTGGTACAATGTTAGCTGTGGGTTTGTCATATATGGCTTTTATTATCGTGAGGTATG
Celera SNP ID:            hCV27155477
SNP Position Genomic:     10459
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28090):
TTGTCATATATGGCTTTTATTATCGTGAGGTATGCTCTTTCTATGCCCAGCTTGTTGAGTTTTTAAAAAATCATAAAGGGCTGCTGAATTTATCAAATAC
T
TTTTTTAGCATATATTGAAATGATCATATGATTGTTGTTCTTGGCTCTGTTAATGTGATGTATCACATTTATTGATTTGTGTGTATTGGACCATCCTTAC
Celera SNP ID:            hCV27155478
SNP Position Genomic:     10626
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28091):
GGTATGAGGCTGTGGTGCCCATGCAGCCCCAGGTATGGTCAGCTGGGCTGCCCCTGCACCTGTGTCCCTGTGATCTCCTCCAGCCTCACTGCACGTCCCT
Y
ACCAGGTGTGCAACAAGGCCCCGGCCCAGCATCAGTACAGCAGCCAGAATCTGATGGAGATGGTGCACTGCTTCGTAGCCCTTGGTGAGGCTCTGCGGCA
Celera SNP ID:            hCV559720
SNP Position Genomic:     23416
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   (C,-|T,-)   Caucasian(T,9|C,73)   African-American(T,1|C,81)   Asians(T,2|C,80)   total(C,234|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28092):
AGCCCACGACCTCACCTGGTACCAGTACCATTCCTTGGACGTGATTGGTTTCCTCTTGGCCGTCGTGCTGACAGTGGCCTTCATCACCTTTAAATGTTGT
S
CTTATGGCTACCGGAAATGCTTGGGGAAAAAAGGGCGAGTTAAGAAAGCCCACAAATCCAAGACCCATTGAGAAGTGGGTGGGAAATAAGGTAAAATTTT
Celera SNP ID:            hCV7607421
SNP Position Genomic:     165
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28093):
ATCCAGAAAAGTGCAGAGGTGAAACTAATTTTCATGTATTTTATTTCACTCAAATAACTAAAACATGATCATTTCAACATGTAATCAGTATAAAAACTAT
K
ATTGTGATATTTTACAATTTTTGGGGTACCATCTTAAAACCCAGGGGGCACTTTACCTTAATTCAGACCAGCCACACTTGAAGTGCTGCAGGGTTACACA
Celera SNP ID:            hCV27856834
SNP Position Genomic:     59300
SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,31)   caucasian(G,4|T,36)   total(G,9|T,67)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28094):
TGGCCTTCATCACCTTTAAATGTTGTGCTTATGGCTACCGGAAATGCTTGGGGAAAAAAGGGCGAGTTAAGAAAGCCCACAAATCCAAGACCCATTGAGA
R
GTGGGTGGGAAATAAGGTAAAATTTTGAACCATTCCCTAGTCATTTCCAAACTTGAAAACAGAATCAGTGTTAAATTCATTTTATTCTTATTAAGGAAAT
Celera SNP ID:            hCV7607427
SNP Position Genomic:     239
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:28095):
CCGAATCAGGGTAATTAGTATATCCAACACTGCAAACATTTATCATTTCTTTGTGTTGCAAGCATTCAAAACTGTTTCTTCTAGTTTTTTGAAAATATAC
R
ATCAATCATTGTTGACTATATTCACAACCTACAGTGCTATAGAACACAAGAGCTTATTCCTTCTCTCCAGCTGTAATTTTGTATCTTTTAATCAACTTCT
Celera SNP ID:            hCV11742309
SNP Position Genomic:     8452
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28096):
GAAGGCTTTTGCTATGCTCAGGCCATCAGAATAGTCTAGGTGTCCCCAGAGCAGGTAAACCAGGACTTCCAAACTGTTCCCAGTCCAACTGCCAAAGGAA
W
TCACCATCCGGGGTCCCATCAACAGGAGAGAGCTGCTATGCTGTCCAAAATCCAACCCGTGCTAAAGCCTTCTCTGGAACAGTGGTCTTCAAACTGTTTT
Celera SNP ID:            hCV2641559
SNP Position Genomic:     61835
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,10)   total(A,10|T,3) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:28097):
GGGCCCCTGAGTAGCGAGGGTCTAGAGTTTGACCTTGAGTTGGTAGAAGGTCACCTGCCACCATTTGCCAATCCACTGCAGGTCTTGAGGCAGATCCTGG
R
ACTGTCAGTCACCACCAACACCCCTGTCCCCCAAATGCAGCTACACACCATTTTCACAGAACTGCACGTCCAGGTGAGGCCAGCAAGCTCAGCTGGACAA
Celera SNP ID:            hCV2669290
SNP Position Genomic:     23127
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28098):
GTGGAAAGGGATGTGACTGATTTAGGAGCCATCTGTAGATCATTCTGGCTAAATAATGGGATTCACTTTTAAGTGAAGGAGGCCTTGAATGCCACACTCA
K
GGGCCTAGCGCAGCACTTCCCAAGCCTTGCTGTGGTTAGGAACAACCTGGGGGCTGGGTGAAATGCAGGCTTGGATTCAGCAGGACCGGGGTAGGGCCTG
Celera SNP ID:            hCV2669291
SNP Position Genomic:     22872
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28099):
CCTCTTCCAGCTTCTGGTGGCCCCACATGTTCTGTGACTGTGGCAGCATCACTCCAATTTCTCCCTTCCTCATTGCGTGGCCTTTCCCTGTGTGTCCCTC
Y
GTGTCCTCTTCTTACAAGGACACCTACCCAAAATCCAGGATGATCTCACTTCGAAATCCTGAACTAATTCCATCACAAAGACCCTATTTCCAAATAAGGT
Celera SNP ID:            hCV2669292
SNP Position Genomic:     22476
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28100):
ACAGAGGGGTTAAGTACCTGCTCAAGGTCATGTGGCTGCTAAGTGGGAGGGACTCAAACCCGGCCGCCTGTGCAGGAAAGACCTTGCTCTGCTTCTGAGG
Y
GCCTTCTGTCCTGTGTCCTTGGATTCTGTGGCTGGGGCTGAGGTCACTGGCCTTGCTGGAGGGTGGTGAGACAATGCGTCCCAGAGCTGGTTTCTGGTGG
Celera SNP ID:            hCV2669293
SNP Position Genomic:     21714
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28101):
TGCCAAGGGGTCCAGTGAGATAAGGCTGGAGAAGGCGGGAGGTGGAAGAGCTTCACGGCTTGCTGGGGATAAAGGCCTGGATGGAGTGGGAGGGGAGGAA
S
GGAAGGCAGGCCTGGAAAGAGGACAAGGGACAGCAGCGAGGGGGATTATTATGAAGTCTGAAGATGGGGGTGCACTCAGGGTGGGTGAAGTGGAGGGGCC
Celera SNP ID:            hCV2669294
SNP Position Genomic:     19316
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28102):
CCAGCCCGGAGGGGTCCTGGCATTGGCAAGGCTCGGGAGGAGTCGTAAGAGACAGCGTGGAATGTGAGGCCTGGCACAGGGAGAACAATCTCAAGGGGTG
M
AGGCCCCCGTGATGCCCATCCTGCCAAGGGGTCCAGTGAGATAAGGCTGGAGAAGGCGGGAGGTGGAAGAGCTTCACGGCTTGCTGGGGATAAAGGCCTG
Celera SNP ID:            hCV2669295
SNP Position Genomic:     19194
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28103):
AAGAAGACCCTAAGGAAAGGTCAGTATTTAGGTCCCAGAGTAGCTCTTTAAAATCCTTTAAAGGAAAAGAGAGTATGGGATAGTAAAGGGCCATGGGATG
R
ATCTTTGAGGATCAAGGAACTTGGGACAGGAGGAGAAAGGATCTGAGAGCCTTTCTTCCACCATCTCGACATCTATGTTGGTGTTTCTCAATTTTTAAGA
Celera SNP ID:            hCV29367997
SNP Position Genomic:     6240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28104):
GAGAGCCTTTCTTCCACCATCTCGACATCTATGTTGGTGTTTCTCAATTTTTAAGAAGCTGTGGATGTTGAGAGAACCCCTTAAAGGAGTTATGAGAGAT
R
CTGATATGAATTTCTCATTAGCCATTAATTATCAGTGTGTAGAAGAGAGGGCGAGAGGGCTCTATTAAACTAAGGATATTATCTATTGCTGTGTAACAAA
Celera SNP ID:            hCV29367998
SNP Position Genomic:     6385
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28105):
TGACTCATTTCACTTGACATAATGTCCTCCAGTTTTATTCATGTTACGGTAAATGACAGGGTTTCTTTTTTTTATGGTTGAATAATATTCCGTTGTCTGT
Y
TATACCACATTTTCTTTATCCCTTCATACATTGATGGGTACTTACGTTGATTCCATATCTTGGCTATTGTGAATAGTACTGCAATAAACATGAAAATGCA
Celera SNP ID:            hCV29367999
SNP Position Genomic:     8782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28106):
ACCAGCTCCATGGCCAGGATGTGGATGTCAGCGTGGCTGGCAAGAGCAGGCAAGGTGGGCAAAGTTCCTGTCCAGCTGATTGGATTGGGCAGGTGGGCTG
K
CTCCTTGTCTGGGAATGCCCACCCCTCTCCACATTCCTCCCACCCTCATTCCCCCTTCTCCTGGAAACATCCAAGTCCAAATTAATACTATTAATGCCTA
Celera SNP ID:            hCV2307577
SNP Position Genomic:     29817
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28107):
CTGAGACATGGTGGGGGCCTTTTAGAAGATCCCGGCTTAGAGGGAAGAAGCTGCAACGGTGACTCCATTTAGCTTGCTTTGTAATTAAGCACTTCAGTTC
R
TGAGACCACAGAACAGCAATGAGCATTCACAGGAGAGGGAGACCGGGGAAAACGGCTCCATGTGGAGCTTGACGGGGACTGGTCTTAGATGCTATTTCAA
Celera SNP ID:            hCV29368000
SNP Position Genomic:     20631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28108):
AGCAGCCAGAATCTGATGGAGATGGTGCACTGCTTCGTAGCCCTTGGTGAGGCTCTGCGGCAGGGTGCTCCCTGCCTGCCCCGAGGCCTGCAGGAGGCCT
S
TAGGAGTCCCGGCCCCTCTGAGCGCTGGGCCTGGGACTGCCTTGCTGGGCCTGCTCTGGACCCGGTGAGCATGACTAAAGCTGTCCTTCCACCCTGCAGC
Celera SNP ID:            hCV2307578
SNP Position Genomic:     23555
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28109):
GACCCAGACACCCCCGAGTGCTCAGTTCTCACACACACAGGCACGCAGAGTAAAAATGAAGGTGCTGTGGGGGGTTGGAAGGGCAGGGTGCAGCCTGCTC
S
CTACGGCAAGGCATGAGCACTTCCACTCGGGAAGCTGGGCTGGGAAGGCTTGGTTCTGCTTCCAGCCCCTCTGGCGCCAAGTGCATTCCCCTGTTGCTGT
Celera SNP ID:            hCV29368001
SNP Position Genomic:     21021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28110):
ATTTCTGCCAGTCTCAGTTATGTATCCTTTCATTTCTGATTTTATTTATTTGGGTCTTCACTCTTTTTTTTTTATTTATTTACTCTAGCTAAATATTTAT
Y
AATTTTGTTTGTTTTTTCAAAAACTCAACTTTTCTTTTGTTCTCCTGTATTGTTTTATTACTCTTGATTTTGTTTATGTCTGCACTGATCTCTTGCCCTT
Celera SNP ID:            hCV11742310
SNP Position Genomic:     11648
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28111):
AAGCCCATGCTCGGCCTCCTTCTGCCCAACGATGACCTGCGGGAGCAGGTCTACGACTACATCCCCCTGCTGCTGGCGGAGTACCAGGGCAGTCTGGAGG
Y
GCTCTTCGTCACGCAGGCGAGTGGCCAGGCAGCCACGGCTCTGGGCAGGAGGCTTAGGGAATTGGGGGCTCCCAAGTGTTTAAAGGGGATGAGTGGGAGC
Celera SNP ID:            hCV29368002
SNP Position Genomic:     21945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:28112):
CCTAGGTGGTCCAAACATAAGACGTAAACTGTCTTCTTAGTGCCAAATGCAAGCCCTTTTTAATTTAGTTTGTAAGAAGTTTAGTTTGTAGGAAAAACAC
Y
ATTGTAAAATAACTAGTATCCTTTTGTTTCCTTCCGTTGAAATAAACCTCCACTGTCGTTGGAGTAGACTTGTGACTGTAAGGTGGTGACAGCCCAGAAC
Celera SNP ID:            hCV25971969
SNP Position Genomic:     60815
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,35)   total(C,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:28113):
GGCTTGGATTCAGCAGGACCGGGGTAGGGCCTGAGAGTCTGCATTTCTAATCAGCTCCCAGGGAATGCTGGTGCTCAGTGGGTCAGTGGGCCCCTGAGTA
R
CGAGGGTCTAGAGTTTGACCTTGAGTTGGTAGAAGGTCACCTGCCACCATTTGCCAATCCACTGCAGGTCTTGAGGCAGATCCTGGGACTGTCAGTCACC
Celera SNP ID:            hCV29368003
SNP Position Genomic:     23040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28114):
GAGAGTGTTAGATGTTGAGTCCACGACTCACCAACTCACTAGGGGAGCTTAGAGAAACTGCTTCAAGGGAAGAGCCAGAGGACCCTTTGCTGTGGGGTTT
Y
GGGGGGGTGGGAGTGCAACCAGGGCAGAGAGATGCACCTGGGGAGGCCTTTCCAGGACGACAGCTATTGATGGGTGGAGTCCCTTTCATTCCCTGGGCTG
Celera SNP ID:            hCV2641560
SNP Position Genomic:     60215
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,2)   caucasian(C,2)   total(C,8|T,2)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28115):
CAGGACACTAAAGAGCTCGTAGGCAGAGATCTTGCCCTCAAGGCGAGTTCACCTGGGTTCAAATGAGATACACACAAAGCAGTGGCCAAGGGAACGAGGC
R
TGGAAACAACAGAGGGGAGGGAGATGGCCAGGGAGAGCATGGCCAGGGAGGCTCCTAAGAAAGTGCCCCTGAGCTTGGAGAATGTGGGAGGAGACAGAAC
Celera SNP ID:            hCV29368004
SNP Position Genomic:     26048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28116):
GCAGGTGAGCAGAGAGACGTCTCCTGACTCAAGATAGACTTTGAAGGCCCTCTAGTCCACCCCGGCACTCGGGGGAAGGGTGGATCATGAGTGGGAGGCA
Y
GTGGCAAGCTGAGACCAGAGCTCAGGTCTAAGCCCTGCACTGTGCTTTCTATCCCGTTTTGATTTTGGCTTCCTCCCTGCCAACGTGGGCTCAACAAAAT
Celera SNP ID:            hCV2641562
SNP Position Genomic:     59836
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,7)   caucasian(C,10|T,14)   total(C,21|T,21)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,3)   caucasian(C,12|T,2)   total(C,27|T,5)   
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28117):
TTGGGAGTTACAAAGTCTATAGCTGTGTCCATCCCCAGGGGAGAACTGAGAGAACCTTCCATCCCGAGAGCCAGGTGGCCAGGAGGGCAGCAGGGAGTGA
Y
ACCCCTTCTGCTAGCCGCCAGAGCCACAGCCATTCCTCAGACCCACAGATCATTATTAGCACTGGATCAGGGATCTATGGACTTAGTGATCTGGAGATGT
Celera SNP ID:            hCV29368005
SNP Position Genomic:     32238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28118):
ACTTGTCAAGAATCAGAATCGCTGCTTGCAACTTGGCAGGTGAGCAGAGAGACGTCTCCTGACTCAAGATAGACTTTGAAGGCCCTCTAGTCCACCCCGG
S
ACTCGGGGGAAGGGTGGATCATGAGTGGGAGGCATGTGGCAAGCTGAGACCAGAGCTCAGGTCTAAGCCCTGCACTGTGCTTTCTATCCCGTTTTGATTT
Celera SNP ID:            hCV2641563
SNP Position Genomic:     59801
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,8)   caucasian(C,10|G,8)   total(C,16|G,16)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28119):
CAGCCTTACCCACTCCCTCTGCCCTTGCCTCTGGCCCTCTCTGACACTGACCCAGACCCTTTCATAAGGAACAAGAGGTGGGGTTGTCTTCATAGACATG
Y
AAAGGAACTGGCTATTTTCTTGGAATGGCAAGGAGGGGAAAACACAGAGAATAAAGCAAAAACTGTTTTTATTTTTTAAAACTATGGCAAAATACACCTA
Celera SNP ID:            hCV29368006
SNP Position Genomic:     37103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28120):
TAACTTGTCAAGAATCAGAATCGCTGCTTGCAACTTGGCAGGTGAGCAGAGAGACGTCTCCTGACTCAAGATAGACTTTGAAGGCCCTCTAGTCCACCCC
R
GCACTCGGGGGAAGGGTGGATCATGAGTGGGAGGCATGTGGCAAGCTGAGACCAGAGCTCAGGTCTAAGCCCTGCACTGTGCTTTCTATCCCGTTTTGAT
Celera SNP ID:            hCV2641564
SNP Position Genomic:     59799
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,12)   caucasian(A,6|G,16)   total(A,10|G,28)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,8)   caucasian(A,11|G,3)   total(A,21|G,11)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28121):
TGCAAAGGAACTGGCTATTTTCTTGGAATGGCAAGGAGGGGAAAACACAGAGAATAAAGCAAAAACTGTTTTTATTTTTTAAAACTATGGCAAAATACAC
M
TAACATAAAGTTTATCATCATAACCATTTTTAAGTATATATATATAGTTCAGTGGCATGAGGTACATTCACGTTATTGTGCAACTGTCACTGCCATCTGT
Celera SNP ID:            hCV29368007
SNP Position Genomic:     37201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28122):
GGTCCTGAGAGTAATGAGCTCCCTCGTATTGGAGGTGTCCAAGCACAGGCTGAGGAACTCCCATTTGGCTGGATGGGCAAACTTGGAGTGGAAATTCCAC
W
TAAGCAACCTTGGCCCTAGATGTCTCTGAGTTTTGTTCCTGTTGTCTTGCAGTGCATAGAAAGATTTCCCAAAGGCCAATATTTCATTGTTGTACCTATG
Celera SNP ID:            hCV7607436
SNP Position Genomic:     5375
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|T,12)      total(A,1|T,12) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:28123):
ACTAAGGGGTACTCCTCTACCCATCCTCAAAAGGCTGAAAACCACAGTCCCAGGCTCCATGGCAGCCACATCCACCTTGGAGTGGAGCTTGGTTCTGGCC
R
TGGGCTGGGGAAGGGAGGTCCGGCATAGTGAGGGGTCTGCACAGCAGTTTTGAGGAACATCAGAGAGGGAATGGAGGAGAATGGGGGCTAGAGATTTAGG
Celera SNP ID:            hCV11742318
SNP Position Genomic:     26730
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28124):
TGTGACGCTGGGATGGGCGCTTGCCCTCTCTGATGCATCTTGGTGATGGGAACACGCTTGGTGAATGACAGCCCATTGTCAGGGTCTCATCCTCCAAAGC
W
AAAAGTGTGTATCACTTACTTTTTGCAGACTCGGAAAAAGCCGGCTGTTCTCTACCGCTTCTTGCTAGAAACAATGGCCTATGTTAAAAATAACTTGTCA
Celera SNP ID:            hCV2641565
SNP Position Genomic:     59608
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28125):
ACTGTCACTGCCATCTGTCTCCAGAATTCTTCATTTTACAAAACCAAAATCCTATATCCATTCAACACCAACTCTCCATTCCCTTCTCCTCCCAGCCCTG
R
CAACCACCTTTACTCTTCCTGTCTGTGTGGCTTTGACTAGTCCAGGTACCTCATCTAAGTGCAATCATATGATAGTTGTCCTTGTGTGTCTGGCTTATTT
Celera SNP ID:            hCV29368008
SNP Position Genomic:     37384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28126):
CTACAGTGCTATAGAACACAAGAGCTTATTCCTTCTCTCCAGCTGTAATTTTGTATCTTTTAATCAACTTCTCCCTATCCTCCCCTGCCCTTACCTTTCC
Y
ATACCCTAATACCGAAATTCTACTCTTGACTTCTATGAGCTCACCATTTTTATAGCTCCCATATATGAGTGAGAACATGTGGTATTTATCTATCTGTGCC
Celera SNP ID:            hCV7607438
SNP Position Genomic:     8581
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28127):
TGGCTACCAGGAGAGAATCAAAGGCTGGGGCCTGAAGTACCTGTCTGTGCAGCTGACCTTATCCACCTACAAACTGGTGAGTGGCCCTGATACGCAGACC
R
CAGAGCAGCTGGACTTGGAAATGGTTTCCACAGTGCTGAGGGGAGAATGCCACTCAGCGTACCTGTGTTCAAACCTGCGTATCCATTCATGACAGGAGTT
Celera SNP ID:            hCV2965182
SNP Position Genomic:     27379
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28128):
GTGGCCAGTGGTCCTTCACTTGCCAGCTACTCACCTGCTGTGTGACGCTGGGATGGGCGCTTGCCCTCTCTGATGCATCTTGGTGATGGGAACACGCTTG
R
TGAATGACAGCCCATTGTCAGGGTCTCATCCTCCAAAGCAAAAAGTGTGTATCACTTACTTTTTGCAGACTCGGAAAAAGCCGGCTGTTCTCTACCGCTT
Celera SNP ID:            hCV2641566
SNP Position Genomic:     59568
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,14)   caucasian(A,2|G,12)   total(A,6|G,26)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,18)   caucasian(A,6|G,18)   total(A,20|G,36)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28129):
CTCCAGAATTCTTCATTTTACAAAACCAAAATCCTATATCCATTCAACACCAACTCTCCATTCCCTTCTCCTCCCAGCCCTGGCAACCACCTTTACTCTT
Y
CTGTCTGTGTGGCTTTGACTAGTCCAGGTACCTCATCTAAGTGCAATCATATGATAGTTGTCCTTGTGTGTCTGGCTTATTTCATTTATCATAATGTTCT
Celera SNP ID:            hCV29368009
SNP Position Genomic:     37402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28130):
TATCCACCTACAAACTGGTGAGTGGCCCTGATACGCAGACCGCAGAGCAGCTGGACTTGGAAATGGTTTCCACAGTGCTGAGGGGAGAATGCCACTCAGC
R
TACCTGTGTTCAAACCTGCGTATCCATTCATGACAGGAGTTCATAGACACAGTGAACCTGCAGGTGACAATGTGTGGGGTCCTAGATATAGGCACAGCTC
Celera SNP ID:            hCV2965183
SNP Position Genomic:     27438
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28131):
GGGTCGAGATTGCCACAGCTCTTTCTTGGGGCCCTATGTTTACCTTCCACACATGCCATGTCGAGACCGGCACTGTGCAGCAGAAATAGAAGGCAAGTCA
Y
GTGCCTATTTCAGCTGTCTGATGTTTCTTTTAGTAGGCACATCCAGAAAAGTGCAGAGGTGAAACTAATTTTCATGTATTTTATTTCACTCAAATAACTA
Celera SNP ID:            hCV2641567
SNP Position Genomic:     59159
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,20)   caucasian(C,4|T,36)   total(C,20|T,56)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28132):
CCACTCAGCGTACCTGTGTTCAAACCTGCGTATCCATTCATGACAGGAGTTCATAGACACAGTGAACCTGCAGGTGACAATGTGTGGGGTCCTAGATATA
K
GCACAGCTCTGAGCATTCTGTAGACTCAGTATCTGGGCATGGAGCCCCTGGGGAGTGAGGAGACCACACCTGAGACCACGACAAACCTCTGCTAGGCCAC
Celera SNP ID:            hCV2965184
SNP Position Genomic:     27529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,5)      total(G,5|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28133):
AGCCCGTCCCAGGTGGCCACACGCTGGCTTGGAGCTGGGGGGTCGAGATTGCCACAGCTCTTTCTTGGGGCCCTATGTTTACCTTCCACACATGCCATGT
Y
GAGACCGGCACTGTGCAGCAGAAATAGAAGGCAAGTCATGTGCCTATTTCAGCTGTCTGATGTTTCTTTTAGTAGGCACATCCAGAAAAGTGCAGAGGTG
Celera SNP ID:            hCV2641568
SNP Position Genomic:     59120
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,17)   caucasian(C,33|T,5)   total(C,52|T,22)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28134):
CATCTTAAGGTGTGTGTCACACCCCGTATTTTACAAATTCTGTTGATCTCAAAAGAGCTTGAGGAAGAGATGACTGAAGCCATTACAGAAGCAGCAGTAG
M
CTCAAGTGAGGAGGTGTCAGAGGAAAGAGACGACCTGGGGCCTCTTGAATTACATGACAGTGGTAAGAATGTCATCCACATTTCTGCTTTCCTGCCCCAT
Celera SNP ID:            hCV2965185
SNP Position Genomic:     7067
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:28135):
TGCTGGGCACCACCCCCAGAGTTTCTGATTCAGTAAGTCTGGGGTGGAGCCTGAGAATCAGCATTTCTAACAAGTTCCCAGGTGATGCCAAGGCTGATCT
R
GAGAGCCTACTTTGAGAACTGTTGGATTTTAGACTACCCTTTTGTCTTGGAGTGGGTAGCAAAGGGGTGCTATGAGCAGAGGAGCTTATTTATAAAAAGT
Celera SNP ID:            hCV28004371
SNP Position Genomic:     8121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28136):
TGGAGAGCCTACTTTGAGAACTGTTGGATTTTAGACTACCCTTTTGTCTTGGAGTGGGTAGCAAAGGGGTGCTATGAGCAGAGGAGCTTATTTATAAAAA
K
TTTTATTATTTTTGTTGGATTTGGATTTGCATTTGCGTTTTCCCCCTTTTATTTTTAGTTGACACATAACAATTGTACATATTTATAGAATACAAAGTGA
Celera SNP ID:            hCV28004372
SNP Position Genomic:     8220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28137):
TTTGGGAGGCCGAGGCCGGCAGATCACGAGGTCAGGAGATGGAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTA
S
CCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGGCGAAATC
Celera SNP ID:            hCV27155492
SNP Position Genomic:     16461
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28138):
GGGCAGTGCACGACCTCAGCATGGCTGGCAGTATCAGTCTGTATCATTTGAGCAAGTACCTGAAATGTGTCCATTACTTTAAGGCCCGTGTGTGTGTGTA
T
GTGTGTGTGTGTGTGTGTGTGTGTGTCTGTGTGTAGACCAATGATTTTCATGGTTTAATTTTGTAAACATTCATTGAGTTCTAACTCTGTGAAAGACAGG
Celera SNP ID:            hCV27155493
SNP Position Genomic:     28087
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28139):
GGCAGTGCACGACCTCAGCATGGCTGGCAGTATCAGTCTGTATCATTTGAGCAAGTACCTGAAATGTGTCCATTACTTTAAGGCCCGTGTGTGTGTGTAT
G
TGTGTGTGTGTGTGTGTGTGTGTGTCTGTGTGTAGACCAATGATTTTCATGGTTTAATTTTGTAAACATTCATTGAGTTCTAACTCTGTGAAAGACAGGA
Celera SNP ID:            hCV27155494
SNP Position Genomic:     28088
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,4)   total(G,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28140):
AATACTATGTTGAGTAGGAGTGGTGAGAGAGGGCATCCTTGTCTTGTGCCGATTTTCAAAGGGAATGCTTCCGGCTTTTGCCCATTCAGTATGATATTGG
Y
TGTGGGTTTGTCATAAATGGCTCTTATTATTTTGAGGTACTTCAATACCTAGTTTGTTGGGAGTTTTTAACATGAAGGGATGTTGAATTTTATTGAAGGC
Celera SNP ID:            hCV27155495
SNP Position Genomic:     52905
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28141):
CCTAGTAAGCCTTGGGACGCAGCTGGCCTAACATGAAAGAAATGCAATGGTCATTTTCAGCAGGTGCCTTGGACTCCAGCTCTGGGGTCACAGGACAAGT
M
CTGTCACTATGAGGGCAGCAGTTTCCAGGTGGGGTGGAGCGGGTGGCCCAGATGGCCTGGGTGGCCCAGGTGGGATGGCCCAGGTGGCCCAGGTGGGATG
Celera SNP ID:            hCV27155496
SNP Position Genomic:     57996
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28142):
CTTTCCCACACAGGAGTTTCCCCGTCTGCCCCTGCCCACCTTCTGCGGCCCTTGCCTGCCATCACTGCCCAGGGCATGCAGCATGTGGTCCTGACTGGGC
R
GGGCCTGAACCTTCCCTCTTTGTGTTCTCTCTCAGCCCTCCAGGAACTACAGCTGGACCCGGATCCCGGGGTCAGGAGGGCAGCCCTGGAGACGCTCACA
Celera SNP ID:            hCV15958734
SNP Position Genomic:     60562
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,16|G,1449)   total(G,1449|A,16) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28143):
GGCCTGGGTGGCCCAGGTGGGATGGCCCAGGTGGCCCAGGTGGGATGGCCCTGGTGGCCCAGGTGGGATGGCCCAGGTGGCCCTTACAGGCAGTGAGGGG
K
ATTGAGATGCACACTCCCTAGACCTGGGCTTTGCACTCACCACCCCAGCTTCTGGACTTTGCCACATCCCTCTGCCACACCATCCCTGGCCACCCTGGGC
Celera SNP ID:            hCV27155497
SNP Position Genomic:     58150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28144):
AGGTGAGGACACGTGCCCAGTCTTGCCTGCTCAAGCCCGGCTCCCGCCTCTGATCCCATGGAGGGCTGGGTCCCAGGCAGGGCTGCTGAGGGCACGAAGG
K
GCTGGCTGAGGGGGCGGGTGGGGCTGCATCTGCCCCCAAGGGGCTTTCTATAAATGTACCTGCAGCCATGTTCAAGCTGGCAGGGGCCCAGGTCCCAGGT
Celera SNP ID:            hCV27155498
SNP Position Genomic:     58620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28145):
GTGACGCTGGGATGGGCGCTTGCCCTCTCTGATGCATCTTGGTGATGGGAACACGCTTGGTGAATGACAGCCCATTGTCAGGGTCTCATCCTCCAAAGCA
A
AAAGTGTGTATCACTTACTTTTTGCAGACTCGGAAAAAGCCGGCTGTTCTCTACCGCTTCTTGCTAGAAACAATGGCCTATGTTAAAAATAACTTGTCAA
Celera SNP ID:            hCV27155499
SNP Position Genomic:     59609
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28146):
CAGTGTGCCCTTCTGGTCTCTGCCTCTCTCTGCCCCTCCCATCTATCCCTATGTTCACCTCTTCCTCTTACCTTTCATTTCTCTCTTTTTCCCTCTAAAA
Y
TGATTCATTTTGTGTCTGCAGTCCTTTTGTCTCTTAGCTGTTAAGATTCTGTGTGTTCTGTCTCTCATCCTTCTTCCCCCTCTCTCCTGCTCCCCTCCAC
Celera SNP ID:            hCV15777954
SNP Position Genomic:     17812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28147):
TGGGGTCTAACTCCCTGCGGTGAGAGGTTTTCAAAGTTCCTGAGGGCATCTGCAGAGCTCTCTGAAGTCCTTCCCTGTCTTGGCTCTGCTTTGTCCTAAC
Y
GTAGGAGTTCTGAGAATGATTTTTGTATCTGATAAAGAGTTTCACAGCCAGTCAACTGTTTGGAAACCAGGGTGGGAGATTCTGGCTGTCCTGGGTCCTG
Celera SNP ID:            hCV29368010
SNP Position Genomic:     38513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28148):
GGTAGTCTGTATATGTCCAAGAATTTATCTGTTTCCTATAGGTTTTCAAATTTGTTGGCATGTAGTTGTTTGTAACTCTAATAACTCTAATAATTCTTTG
W
ATTTATTTATTTATTTTGGTGACAAGAGTCTCACACTGTTGCCCAGGCTGGAGTGAAGTGGCACAATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTC
Celera SNP ID:            hCV8570205
SNP Position Genomic:     11221
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,6)   total(A,1|-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28149):
TTGATTGGGGATATTTTGAGCAAAATAACAGTGATAACACTGAAGAGCATTGCAAGCATCCTTCAAGATGAGTCAGGCTCAGTGAGTGAGTTGAAGGGCT
Y
AGTCAACTATTTGTTGATACCACTGGTACAAAATGATCTAAAGCCCAAGACTTACCTTCCTGGAGATGCCAATCCATTGGTGGGGAGGGGGAAAGGGGAA
Celera SNP ID:            hCV29368011
SNP Position Genomic:     39776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28150):
GCATCAAACAGGCAGATTTTAAAATAAATGTCATGAACATCAACTAAGCACAATGATATGCTGAGTACTGAAGGGACACAGAGATACATAAGACCTAGTC
M
CAGCCTTTTAAGGACTTAGAGATAAGACAGACACATACAAACAGGATTATAGGTCAAAGCTGACTAACAGGACTGTGTTTACAGGTAAACCCACACACAC
Celera SNP ID:            hCV29368012
SNP Position Genomic:     40096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28151):
GCACAAAGACCAGAGCAATGCCCAGCCCCTTGAGGGCTACGTGATCCCTGCCAAAGGAGAGACTACACCCTGACGGAATGATCCAGAAGGCTCTGCAGGG
R
CCAAGGCATTGGGTATTCCTTGGAGAATGGCTGGGGTTTTGCTGGGCTTCCTGCTGCCTGCATGTCAGCCTGTGTCCATCCTGGCCACAGGAGAGCGAGC
Celera SNP ID:            hCV2641570
SNP Position Genomic:     56985
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28152):
TGCAGACAGGAAACATGAGACTGAGAGGCAGAGTACCCTGCCTGGACTGCTCAGCTAGTGAGCAGGAAGCTCTGATTTGATCCCCAGGGTTCGTTACAGG
W
ACAACTGGGCCCAAGTTCAGAGCTGTGAACTGAGCAGAGCTGAGTCAGAGGGAGTCCTGATCCAGGGCCCACAGATCCAGGCTGCTCAGCCTCCAGGGGC
Celera SNP ID:            hCV29368013
SNP Position Genomic:     45173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28153):
TATTCTTCTAAGTTCCAGAGAATCAGTGCTGTCAAGTGACGGCTCCTGGGCCTCTGCAGCCCTGCTAGGAGGGAAGGGTCTCCCCCTTTTATTCCTTGCA
S
CTACAAATACCCCCAGGGCACCTGTGTCACCCTGGGCCTCTGCTAGGCAGGGCTGTGCACTCAGATCCTGCACAAGCCCTCACCCAGGGAAGAGGCGGGC
Celera SNP ID:            hCV2641571
SNP Position Genomic:     56786
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28154):
CCCTCCCCTTCCCCAAATGGGTGTTTCAGAGCAGGGTTTGCCCTATCAAGTTGTCCTTTACACTGCCCCTGGGCAGCCCCAGGTGTGCATGAGAGCACAG
W
GGTGTGAGCCCCACGGTCTCCTGTCCCTCAGATCCACCTAAAGCTGGGGCAGTTTGGCACAATGGTCGGACTCATTGCCCCGTGCACCTGTGATGCCCAT
Celera SNP ID:            hCV29368014
SNP Position Genomic:     45425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28155):
GTTGGGAGTGGGGTGGGGGAAGAGAGAGTATTAGGAAAAACAGCTAATGCATGCTGGGCTTAATAACTCGGTGATGGGTCGATAGGTGCAGCAAACCACT
R
TGACACACGTCTACCTATGTAACAAGCTTGCACTTCCTGCACATGTACCCCAGAACTAAAAATAAAAATTAAAAAAAAAATTAGGTTCAGGTTTAAGAAG
Celera SNP ID:            hCV2641572
SNP Position Genomic:     55121
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,11)   total(G,3|A,11) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28156):
GGGAGCTTAGAGAAACTGCTTCAAGGGAAGAGCCAGAGGACCCTTTGCTGTGGGGTTTCGGGGGGGTGGGAGTGCAACCAGGGCAGAGAGATGCACCTGG
R
GAGGCCTTTCCAGGACGACAGCTATTGATGGGTGGAGTCCCTTTCATTCCCTGGGCTGTTTCTCCCATTCATAGCTTCTTATGAAATGCTTTTGGCCTGA
Celera SNP ID:            hCV2296963
SNP Position Genomic:     60257
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28157):
GTGGAGAAGATCTTCTGTGCATCCTCCAGAATCGCCAAGGTGACAGCCGGGGAGCCTGCCTGGGCTGCCAGGCTGGTCTCAGGGCCCTTGGCCGTCTCTC
R
GGGAGGGAGGCCTTCCTGGGCTGGCCTCACAGCCCAAGTTTTCTGGGGTCTCAGCTTCCACGGCCTTTGGCCCAACTGCTGCCCTCTGTGTTGAAAGGGC
Celera SNP ID:            hCV29368015
SNP Position Genomic:     46287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28158):
AGTTTTCTGGGGTCTCAGCTTCCACGGCCTTTGGCCCAACTGCTGCCCTCTGTGTTGAAAGGGCCTGCAGTATGTCATGTCCCTACTTTGTCTCTGGCAC
R
CAGTAGGTGCTTAATCTGCTTTGCTGTCTTCTCCCTGTCCCTGTGATGTGCCACACTGAGTGCTGAAAGGGCCATGGGAATGATCTGGACAGGCCCTGCA
Celera SNP ID:            hCV29368016
SNP Position Genomic:     46424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28159):
GCACCTGGAGGAGAGCGTGTACCCCGTGATGACTGAGGAGGAGTTTGCCCTGAAGGTGTTCCCCATGTATCGCTACTTCGTGACAGTGTGGCTGAGGCAC
Y
ACAACCCCGAGGTGAGATGCACCCCTCTTAGGAGGGCCTGGTGGTCCCCAGGCCACAGCTCCCCAGCCTGTGGGGCCGGGAGGTGCTGAGGGACCGTCGG
Celera SNP ID:            hCV7607446
SNP Position Genomic:     21268
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28160):
ATGTCAGGCTAAGTAAGAGGCTTGGAACAGAGAAAAGAGTTTTAAAAATAGGCCCCGGCTCCAGAGCCACAAGGGCTGACCTGCCCGAAATGCAGGCATG
R
CTCCCCTGTGGAGCTGCTTCTCATAAGGGCAGCCCTGCCGTGGGTCCAGCTGGGAGGGTGGTGCAGGTGTCATGATTTAATGAGGCTCAGTGGCTCATGA
Celera SNP ID:            hCV29368017
SNP Position Genomic:     48304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28161):
GATTCTTACCTGCCAGGGCACATGCCAGGAAACTCACAGTCCTTGTGCCCTGACTTTGGTTAGCCACCTGGCAGAGGTGTGGCTGGCAGTGTCGGAGAAC
R
TGCCCTTCGCCCGGACCATGCTCCACAGCCTGATGGGCCGGCTGCAGTCACGGCTCAGCCCCAGAATCAGTGCCACCTCCAAGGCTGACATCTGGCGCCT
Celera SNP ID:            hCV29368018
SNP Position Genomic:     49616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:28162):
GGATCCCCCTCATGCTGCACTCCCAGGACCCCTGCTCCAATGCAGCCCAAGTAAGATACATCCTGGGCTTTGTGTCCCAGTCTGGGGCCCGCTGTTCCCC
R
AGGAAACAGGTCCTTGGGTCTGCTGGCTCGGTGAGCTGCAAGCTTTTCTCTGCCTCAGTTGGTTTTCTCTGAGATCCCAGAGGCCACAGCCTGCTCCCTG
Celera SNP ID:            hCV2296966
SNP Position Genomic:     57282
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:28163):
TTTTTGTGCCTTTCTGTTCAGATGCAGGTGGGCGTGGCTCTTGCATTTGGCAGTGGCTGTTATGTTACCTGAAAAAATAAATGACGAATTTATATATATA
Y
GTAACACTTATCTAGCATTCCCCCCATATTTCCTTATTAAATCCCCACACAGACCCTGAGGCAGGTACTAGCATCACCCGCTTTTTATAGAGAGGAAACG
Celera SNP ID:            hCV2296967
SNP Position Genomic:     55855
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28164):
ACTGCCACGCCAACCTGTGACTCTAGGATGGCAGTGGTGTGCAAGAGAATGAGAACCTTTTATTCGAACCCTTCCTGCTCAGAGCAGATATGAGGGCAGA
R
AGAGGAGGGGCTCGCCCCCAGGGCCACACAGGGTCTAGAGTAGGCCAGGGATGGGAGTTACTTCTGGGGTCCTAGTCACTCCGGAGCCGCCCTCACTCTA
Celera SNP ID:            hCV29368019
SNP Position Genomic:     50692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28165):
AAAGTGTGTAGTCAATCCACTTTTTGTGGAAAAGCTGCCCTCTTTCTATTGAGTGTATTAAGTGTAGCAATACAACGTGGGGCAGTATTTATAGCATGAC
Y
TTAGTGATGTGGAAGAAATCTATGTTCATTTATGCATAAACAGGTCTGAAGGACAAAATCTATTAAAAAGTGGTTATTTTTTATTTTAATTTTGCAATGA
Celera SNP ID:            hCV2965195
SNP Position Genomic:     25025
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28166):
TGTGGAATAAACAATATATCTGCATAATGGAATATTATGCAGCTATTAAAAAGTGTGTAGTCAATCCACTTTTTGTGGAAAAGCTGCCCTCTTTCTATTG
R
GTGTATTAAGTGTAGCAATACAACGTGGGGCAGTATTTATAGCATGACCTTAGTGATGTGGAAGAAATCTATGTTCATTTATGCATAAACAGGTCTGAAG
Celera SNP ID:            hCV2965196
SNP Position Genomic:     24976
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28167):
GAGTTTGTGATGAGGCACAAGGGCGCGCCACACCTGCGCCCCGCAGCCCACGACCTCACCTGGTACCAGTACCATTCCTTGGACGTGATTGGTTTCCTCT
W
GGCCGTCGTGCTGACAGTGGCCTTCATCACCTTTAAATGTTGTGCTTATGGCTACCGGAAATGCTTGGGGAAAAAAGGGCGAGTTAAGAAAGCCCACAAA
Celera SNP ID:            hCV27536009
SNP Position Genomic:     121
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:28168):
CCCAAGGGGTAGGGAAAAGTTCAAGACCATTCCTCGGTGCTCCTTCAGGGGTTGTGCCTCCTTTTTCCTCTCCTCCCTCTGTAGCAGGGGTCTCACTTGG
M
GGCTCCCCAGGGCAATGGGCCAGCCTAGATGATGGGGGTCGGCCTCAGCCACTCTTTTCTATAATTCTCAGCCAGATTTCAAGTTGGGTGCTTCTCCTTG
Celera SNP ID:            hCV2965198
SNP Position Genomic:     39543
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28169):
TGACGCTGGGATGGGCGCTTGCCCTCTCTGATGCATCTTGGTGATGGGAACACGCTTGGTGAATGACAGCCCATTGTCAGGGTCTCATCCTCCAAAGCAA
A
AAGTGTGTATCACTTACTTTTTGCAGACTCGGAAAAAGCCGGCTGTTCTCTACCGCTTCTTGCTAGAAACAATGGCCTATGTTAAAAATAACTTGTCAAG
Celera SNP ID:            hCV27155500
SNP Position Genomic:     59610
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28170):
TTTTGTGCCTTTCTGTTCAGATGCAGGTGGGCGTGGCTCTTGCATTTGGCAGTGGCTGTTATGTTACCTGAAAAAATAAATGACGAATTTATATATATAC
K
TAACACTTATCTAGCATTCCCCCCATATTTCCTTATTAAATCCCCACACAGACCCTGAGGCAGGTACTAGCATCACCCGCTTTTTATAGAGAGGAAACGG
Celera SNP ID:            hCV29368020
SNP Position Genomic:     55856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28171):
AATGCCACACTCAGGGGCCTAGCGCAGCACTTCCCAAGCCTTGCTGTGGTTAGGAACAACCTGGGGGCTGGGTGAAATGCAGGCTTGGATTCAGCAGGAC
Y
GGGGTAGGGCCTGAGAGTCTGCATTTCTAATCAGCTCCCAGGGAATGCTGGTGCTCAGTGGGTCAGTGGGCCCCTGAGTAGCGAGGGTCTAGAGTTTGAC
Celera SNP ID:            hCV16148800
SNP Position Genomic:     22959
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28172):
GACGCTGGGATGGGCGCTTGCCCTCTCTGATGCATCTTGGTGATGGGAACACGCTTGGTGAATGACAGCCCATTGTCAGGGTCTCATCCTCCAAAGCAAA
A
AGTGTGTATCACTTACTTTTTGCAGACTCGGAAAAAGCCGGCTGTTCTCTACCGCTTCTTGCTAGAAACAATGGCCTATGTTAAAAATAACTTGTCAAGA
Celera SNP ID:            hCV27155501
SNP Position Genomic:     59611
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28173):
CCAGTTCATGAGCGGCCCAGTTCTGTACCAGGAGAAGCTGCTGAAGCCGGCAGCTTTGCTGCTGGAGAAGGGTGCCGACCAGGAGGAAGACGAGGCCCTG
M
GGGTGCTGTCCCTGCGCGCCCTCGGCAACATGGCCCTGGGCGCCCCCAAGAAGGTACTGTGCCTGGCCCTGGGCCCAGGTCCCGGGAGCTGAGGGTGCAG
Celera SNP ID:            hCV29368021
SNP Position Genomic:     56182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:28174):
AAAAATTAGGTTCAGCTTTTTTGGTTCCATATGAATTTTAAAATAATTTTTTTCTAATTCTGTGAAGAATGTCAATGGTAGTTTAATGGGAATAGCATTG
M
ATCTATACATTACTTTGGGCAGTATGGTCATTTGCATGATACTGATTCTTCCTATCCATGAGCATGGAATATTTTTCCATTTGTTTGTGTACTCTCTGGT
Celera SNP ID:            hCV2669245
SNP Position Genomic:     52349
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,8)   total(A,4|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28175):
ACGCTGGGATGGGCGCTTGCCCTCTCTGATGCATCTTGGTGATGGGAACACGCTTGGTGAATGACAGCCCATTGTCAGGGTCTCATCCTCCAAAGCAAAA
A
GTGTGTATCACTTACTTTTTGCAGACTCGGAAAAAGCCGGCTGTTCTCTACCGCTTCTTGCTAGAAACAATGGCCTATGTTAAAAATAACTTGTCAAGAA
Celera SNP ID:            hCV27155502
SNP Position Genomic:     59612
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28176):
TAAATGCTAGCTAATTATGGCAGTTTAAAAATTAGGTTCAGCTTTTTTGGTTCCATATGAATTTTAAAATAATTTTTTTCTAATTCTGTGAAGAATGTCA
M
TGGTAGTTTAATGGGAATAGCATTGCATCTATACATTACTTTGGGCAGTATGGTCATTTGCATGATACTGATTCTTCCTATCCATGAGCATGGAATATTT
Celera SNP ID:            hCV2669246
SNP Position Genomic:     52323
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,7)   total(A,7|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28177):
AGTTCATCCACACGCATGCTGACAGCGTGCCTAAGGCCAGGCACTGTGCCAAGCGGTGAGGGGAGGCCTAGAGTGTCCCATCTGTCTCCAGGGACTCTTC
T
TTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCCCTGTCGCCCAGGCTGGAGTGTAGTGGCGCAATCTCGGCTCATTGCAACCTCCACCTCCTGGGT
Celera SNP ID:            hCV27155503
SNP Position Genomic:     61143
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28178):
TGCCCAATGCACCCTAGGAACCAACCACAGCCCAGGCCAGAGGCCGGCCAGTGTTTTCTGTAAAGGACTGCAGAGTAAATTTTTGGCTTTGTGGCCAACT
M
AGCTGTAGCAGGAAAACAGCCACAGCCAATAAGTCAACCAGTGGGCATGACGGTGTCAACAAAACCTTATTGATGGACACTGGAATTTAAACTTCATGGA
Celera SNP ID:            hCV2669248
SNP Position Genomic:     51625
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,7)      total(A,3|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28179):
TGAGCCAAGATTGTGCCACCGCACTCCAGCCTGGGCGATAGAGAGAGACTGTCTCAAAAACAAACAAACAAACAAACAAACAAACAAATAACCCCCCCCC
M
AAAAAAACACACACATCAGAAAAACAGGCCTATCAAAGAGAACCCTAAAAATTCTAATTGAGCAACTTTATTCACATAATTTCTACACCAAGAACTCGAG
Celera SNP ID:            hCV27155505
SNP Position Genomic:     64789
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|C,2)      total(A,1|C,2) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:28180):
CACTGTTTGGTTTTCTGTTCCTGGGCTAATTTGCTGAAGATGATGGTTTCCAGCTTAGACTGGATAAAGAAAATGTGGCACTTATACACCTTGGAATACT
R
TGCAGCCATATACTATTTTTATAATCAGAAACAGTTTGCATCTTCAAGATGAAAACTCTCAATTGTCTCATGCTCACTTGGTGCCTGACTGCCACCTTGT
Celera SNP ID:            hCV7607454
SNP Position Genomic:     25385
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28181):
CGTGGAGGGCCACAGGCAGAGGCTGGCCGAGCTGGTGCTCAGGGGCATGGACTCAGAAGTCCTGAGCTGCCGCATCAGCAGCACAGCGGTCTGCGTGGAA
R
TGAGGCACCGGGTGTGGGCGGGGTGCAAGCGGAGGGGATGGGGTCCCTGGATTCTTCTGGGGATGGCTTGTCTCCAAGGCATGGGAGTCGGGGGGACAGG
Celera SNP ID:            hCV2669249
SNP Position Genomic:     51126
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28182):
AACAGAGGGGAGGGAGATGGCCAGGGAGAGCATGGCCAGGGAGGCTCCTAAGAAAGTGCCCCTGAGCTTGGAGAATGTGGGAGGAGACAGAACGTGAGGC
M
CTGATGTGGGACGAGCCACCTGACCTCTCCCTGAGCCACAGCCCTCCAGCCCACCCAGTTTTCCTCTTTCAGAGCCCAGGATGAGTATCAGGGCCATCTA
Celera SNP ID:            hCV7607455
SNP Position Genomic:     26156
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28183):
AGATCTCTCTCTGGGCCGGACAGTTGTTTTTGGTGAAATTCTCCCCTTTCAACTGAGAAGGAGACTCTTGAGAGGTCATCTGTTAAACAGAACGCATAAA
Y
TTTGCCTCAAAGCAGCCTCCATGAAGTGTCTGCCATGAAGATGTGGCTGAGATTCTTGAAGGCTTCACTAACTGTGGCTGAAAGTCACCCGGCTGGTGGT
Celera SNP ID:            hCV559687
SNP Position Genomic:     66228
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(C,583|T,882)   total(C,583|T,882)   (T,-|C,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28184):
TTGTGACTTCATTCAACCCTAATTACCTTTCGAAGGGCTCATCTCCAAATACTATCCCACTGGGGGTTAGGGCTTCAACATAGGAATTTTTAGGGTACAT
K
ATTCAATCTGTAACAGTTGTTTTGTACTTAAAAAGCATGCTGATGGACAACTTGTTACTATCTCTAGGAACTGGCTAGCTCTGGGAGGAGTAGTCTCTCT
Celera SNP ID:            hCV2669321
SNP Position Genomic:     14256
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28185):
CATAATTCCCACATGTTGTGGGACGGAACAATTGGGAGATAATTGAATCATGGGGTGGTTTCCCTCATACTGTTCTCATAGTAGTGAATAAGTCTCACGA
R
ATCTGATGGTTTTATAAGGGGTTTCCCCTTTCTCTTGGCTCTCATTCTCTCTTGCTTGCTGCCATGTAGAACATGACTGTGTTCCCCCTTTGTCTCCTAC
Celera SNP ID:            hCV2669322
SNP Position Genomic:     13759
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28186):
GCAGCACGTGGAGGGCCACAGGCAGAGGCTGGCCGAGCTGGTGCTCAGGGGCATGGACTCAGAAGTCCTGAGCTGCCGCATCAGCAGCACAGCGGTCTGC
R
TGGAAGTGAGGCACCGGGTGTGGGCGGGGTGCAAGCGGAGGGGATGGGGTCCCTGGATTCTTCTGGGGATGGCTTGTCTCCAAGGCATGGGAGTCGGGGG
Celera SNP ID:            hCV2669250
SNP Position Genomic:     51120
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28187):
TACTCTAGCCTGGGTGACAGAGCGAGACTTTGTCTCAAAAAAAAAAAAAAAAAAAGGAGAAAAGACAGTTTGTTACATTCCCAAGAGAGGGGGCCAACCA
Y
GCCATGCAGGGTCACACAGGGGAAGCACTAGGGTCTGTGAGGAGGCAGAGGGAGTCAGGGGAAATTATAGGCAACAGGCTTTATTGTGGTTTCTGTAGAA
Celera SNP ID:            hCV2669323
SNP Position Genomic:     13209
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28188):
TTTAGCTGCGATGAGGTGGTCTCGCTCATCCAGAAGCTCTGCGAGAACACTGGGGCCATGAACCTGCAGCATGACAAGGCCTCTGTCACCTGGATAGCCT
Y
CTTCCTCCAGATGCGGGCCAAGGAGCTGGAGGACAAGGTGGCAGAGCCGCGGCAGGGCCACCAGAGAGAGGGGCTGGGGCTGCCTGGTGTGCCCAGATGA
Celera SNP ID:            hCV2669251
SNP Position Genomic:     46887
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28189):
CTTCCCTGTTATACTGCTTTTGCTGTATCCAATAGATTTTTGTATGTTATATTTCTATTTCCATTCATTTCAGTAAAATTTTAAATTTCCTTCTTAATTT
M
TTTATTGAACCAGTGGTCATCCAGCAATATATTACATAATTTCTATGTGTTTGTGTATTTTCCAAAGTTTTTTTGTGGTTGATTTCTAGTTTTATTCCAT
Celera SNP ID:            hCV2669324
SNP Position Genomic:     11963
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28190):
TGGGACAGGGGAGGAGAGAGTGTCAGCAGTCATGGAGTGGCAGGGGAGGGCAGGGGAGTCACCCGCTCTGCTCCTAGGTGGTCTGCATGGAGTTTAGCTG
Y
GATGAGGTGGTCTCGCTCATCCAGAAGCTCTGCGAGAACACTGGGGCCATGAACCTGCAGCATGACAAGGCCTCTGTCACCTGGATAGCCTTCTTCCTCC
Celera SNP ID:            hCV2669252
SNP Position Genomic:     46795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:28191):
CACGAAGGGGGGGTGGCTGGGCCTTTTGTCCCTGCTGGTCATTTCTGAAGTTGTATTCCCGACAGCAAGCCAGACCTGCTCCTTGTGGGGCCCTTCCAAG
S
AGAAGGAGCTTGAGAAATGTAAGGGGGACCTCCAGAGCACAGATGTGGAGAAGATCTTCTGTGCATCCTCCAGAATCGCCAAGGTGACAGCCGGGGAGCC
Celera SNP ID:            hCV2669254
SNP Position Genomic:     46142
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;(C,-|G,-)   (C,-|G,-)   Caucasian(G,3|C,81)   Asians(G,33|C,47)   total(G,36|C,128)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28192):
ATTAATTTTTCTATCAGTGAGCATGAAATAGCTTTCCATTTTTTGGTGTCTTCTTCAATTCTTTTCATCAGTGTTTTATAGTTTCCCTTGCATAGATCTT
Y
CACTTCTTTGGTTAAATTTATTCCTAGGTATTTTATATTTTTGTGGCTATTGTAAATGAAATGGATTTCTTGGTTTCTTTTTCAAAATGGGTGAAGTGTT
Celera SNP ID:            hCV2669327
SNP Position Genomic:     10086
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28193):
TATTTTCTAGTAGTTTCATAGTTTCAGGTCTTGGATTTAAGTCTTTAATCCATTTTGATTTGATTTTTGCGTATGGTGAGAGATAGGGGTTTAGTTTCAT
Y
CTTCTGCATATGGTTATCCAGTTTTCCCAGCACCATTTATTGAAGAGACTGTCCTTTCACCATTATATGTGCCTAGCACCTTTGTCAAAAATGAGTTGAC
Celera SNP ID:            hCV2669328
SNP Position Genomic:     9606
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28194):
CAGTGAGAGCAAAGGTCAGAACGCCTGGGACGTTCACATGCTGGAGGGTGGCTCAGGCCTGCAAAGCCAGGGCAGGAGGTAGCCACGAAGGGGGGGTGGC
K
GGGCCTTTTGTCCCTGCTGGTCATTTCTGAAGTTGTATTCCCGACAGCAAGCCAGACCTGCTCCTTGTGGGGCCCTTCCAAGCAGAAGGAGCTTGAGAAA
Celera SNP ID:            hCV2669255
SNP Position Genomic:     46059
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28195):
ACCAATTTCCTGGAGCATTTCCCCAATGATTATTTTCTAGTAGTTTCATAGTTTCAGGTCTTGGATTTAAGTCTTTAATCCATTTTGATTTGATTTTTGC
R
TATGGTGAGAGATAGGGGTTTAGTTTCATTCTTCTGCATATGGTTATCCAGTTTTCCCAGCACCATTTATTGAAGAGACTGTCCTTTCACCATTATATGT
Celera SNP ID:            hCV2669329
SNP Position Genomic:     9576
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28196):
TGCAAAGAAACCAAGAAAGACGAGGGAAAAGAGGTAAATTTTATAGATATTAACATTTTTTGTGTGCTTCTACTACTTCCTGTTTGTTTTCTCATCTCCA
R
AAACAATAATATTTACCTTATGGAGTCGTGGTGAGGATTTAATGAAATATGGATGGTTGCTCTTATTATGTCTCCAAATATAAAACAAAATTCTTACAAA
Celera SNP ID:            hCV7607462
SNP Position Genomic:     33815
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28197):
CATGCTGTTTGACTGTCTTGTCCTCAGGATGGCTGTGGCAGGAGGATGATGGAGTCAGGGTCTGGGGCGCAGGGATGGTCGTCTGGTGCAGGGAGAGAAG
Y
GGGCTGGGCAGGAGGACCCTGGTCCTGGGCACCTGGATGGAGGTGGGGATGAAGGCTCAGCAAAATGAGGCAGGGGCCAAGTCCAACACTCAGTAACATG
Celera SNP ID:            hCV2669257
SNP Position Genomic:     44889
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28198):
ATCAGATATGTGATTTGCAAATATTTTCTTCTAGTCTGTGGCCTTTTTATTGATTTCCCAATATCTTTTAATGAGCAGAAGTTTTTGGTTTTGACGAAGT
M
GAATTTATCTTTTTTTCTTTTATGGATCATGCTTTTGGTGTCAAATCTAAGAAACCGTCCAAAGATTTTCTCCTATGTTTTCTTCCAGAAGTTTTGTATT
Celera SNP ID:            hCV7607463
SNP Position Genomic:     42871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28199):
GCAGAGCTCCAGGCTTTGTGGGGCCTGTGGCTTCTGTAGCGGTGAGAGCCCTTTTTAAGAAAAAAGATACATAGTTATGAACCCCACATTGGCTAGGAAA
R
TGAATATTTACTTTGAGAAAATCAAGTGCTGCAAAATCATAAATTTTGCAAAGCTTGACAAGTACCGCAACCCTTAAAATGTCTAGAACGACGTAGTGTT
Celera SNP ID:            hCV2669259
SNP Position Genomic:     44628
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28200):
TGCAGGGTGCGGCTCCAAGGCATGAGCAAGCCCTGGATATATTCCAGGCTGTCCCTATTTCTTTCAAAATGTGTCCTAAGAGGGGAAGCGACTTGTCCCA
K
TCTCCAAGGGGAGAATGGCCCAACCTCCAGCCCCAGAGGTGGCCATGAGTGATGCAGAGCCACCCCATCTTTATTGGTGTTTCTCTGCAGACAGTGCAGA
Celera SNP ID:            hCV7607464
SNP Position Genomic:     47936
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28201):
ATTAGTTCAACCATTGTGGAAGACGGTGTGGTGATTCCTCAAAGATCTAGAACCAAAAATACCATCTGACCCAGCAATCCCATTACTGGGCATATACCCA
R
AGGAATATAATCATTCTATTACAAAGATATATGCATGTGTATGTTCATTGTAGCACTATTCACAATAACAAAGACATGGAATCAACCCAAATGCCCATCA
Celera SNP ID:            hCV11624558
SNP Position Genomic:     54689
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28202):
TAATGCCTACCTGGATATTAATGCCTACCTGATCATATCTAGGTCATGTTAGAATTGTGTAAACTTCCTTTGGATAGCTCACTCCTCATGTCCTGTCCCC
Y
CAGCCCACAGCCCTGGTCCAGATCCCATCCTTGGGAGCTCCTGGCCCAGCCTTTCCCATGCATGACCTTACTGGGCCTCTGCTCTGCCTGGCTTCTCTGA
Celera SNP ID:            hCV27893241
SNP Position Genomic:     30009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28203):
CTTACCAACAATGTGTGAGGTTTCCCCTTTCTCCACATCCTTGCTAGCATCTGTTATTTTCTATATTTTGGATAAAAGTCTTTTTAACTGGAGTGAGATA
R
TATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGATTAGTGAGGTTGAGCATTTTTTTATATCCCTGTTGGCCACTTGTATGCCTTCTTTTGAGAAAT
Celera SNP ID:            hCV2669330
SNP Position Genomic:     9124
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28204):
TTCCCAGGTGATGCCAAGGCTGATCTGGAGAGCCTACTTTGAGAACTGTTGGATTTTAGACTACCCTTTTGTCTTGGAGTGGGTAGCAAAGGGGTGCTAT
R
AGCAGAGGAGCTTATTTATAAAAAGTTTTATTATTTTTGTTGGATTTGGATTTGCATTTGCGTTTTCCCCCTTTTATTTTTAGTTGACACATAACAATTG
Celera SNP ID:            hCV2669331
SNP Position Genomic:     8195
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28205):
CATCCATTGATTATCTCACGGTTCCACTGGCCAGGAGTCTAGGCATGGCTTTCCTTGGTCCTTTGTTTAGGGTCTCAGAGACTGCAGTCCTTTCTGGAGT
Y
CAGCTTCCTCTTCCAAGCTCATGTGCTTATTGGAGAATTCAGTTTCTTATGGTTGTAGGACTGAGGCCCTCAGTTCCTTGCTACGTGGCCCTCACCACAG
Celera SNP ID:            hCV2669332
SNP Position Genomic:     6614
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28206):
ATGTTGAGAGAACCCCTTAAAGGAGTTATGAGAGATACTGATATGAATTTCTCATTAGCCATTAATTATCAGTGTGTAGAAGAGAGGGCGAGAGGGCTCT
W
TTAAACTAAGGATATTATCTATTGCTGTGTAACAAATTATCATAAACTCAGTGGCTTAAAAGAACATCCATTGATTATCTCACGGTTCCACTGGCCAGGA
Celera SNP ID:            hCV2669333
SNP Position Genomic:     6449
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28207):
TTGGTGTTCTGGGCTCTACCCATAGCTCCTGGAAAAGTGGATCTTGTCGGAGAAAGAATGGGAGCGGGAAAAGGCCGTGAGCCTCCATCTCTATCTCATG
Y
GGATTTATGTCCACAGCACTGCTGTCTGTGTGAGTCCAGGAGTCCCCAGCCCCCAGCCTGCTGCTCTGACATGCACAGAAAAATTCCTGTGTCTATCTGG
Celera SNP ID:            hCV2669260
SNP Position Genomic:     44311
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:28208):
TGGTTTAGGAAATCAGGGTGCCTCCTCTCCTACCTGTCTTTGATGTTCTTTATCTTGTAAGTATTGTGCTAGTGGAAATCCAATTTCTTATCCTGCAAGT
Y
ATCCAGTCCCCGGGAAGGAGGAGTGCTCTCCCCAGGGCCTCTCAGTCTGCCCCTCCTCTCCTCTCCAACTGTCCTGACCACACCTCCCCACCCAGGGCTC
Celera SNP ID:            hCV2669334
SNP Position Genomic:     5632
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:28209):
TCTGGATACAACCCATCAGATATGTGATTTGCAAATATTTTCTTCTAGTCTGTGGCCTTTTTATTGATTTCCCAATATCTTTTAATGAGCAGAAGTTTTT
R
GTTTTGACGAAGTCGAATTTATCTTTTTTTCTTTTATGGATCATGCTTTTGGTGTCAAATCTAAGAAACCGTCCAAAGATTTTCTCCTATGTTTTCTTCC
Celera SNP ID:            hCV2669263
SNP Position Genomic:     42857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28210):
AAGCTGACTAACAGGACTGTGTTTACAGGTAAACCCACACACACATCAGCAAAAAAATATCTGAGAACAAAAAAAAAGGGGCTACTAACAAAAGCAACTC
R
GTTTATACAAAAGGAGCTATCAAGAGGCTTGGTGCAAAGTTGGCATTTGGCTTTTGACCTGGGCTTAGGCAGAACGACTGGACTTGGCGCTTCCTAGGAG
Celera SNP ID:            hCV2669264
SNP Position Genomic:     40253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28211):
GAGTATTAGGACTCAAAATACCCCAAAGTGGTCTTGTCCACTGCCTGCAGGCCCATGTTGGGATGGGAGCGGGCCTGGCTTCTCCCTCTCCACAGCCCAG
Y
TCCTCTGTTGCTTTGGGGCAGGAGGAGAGGGAGAGACAGATTTGTTAGTAAATGTGCCTTCTCATTTGAGTTGCTGCCTCTCAGGCTAACCCCGGCTGGC
Celera SNP ID:            hCV7607472
SNP Position Genomic:     57658
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28212):
TGGGGTCACAGGACAAGTACTGTCACTATGAGGGCAGCAGTTTCCAGGTGGGGTGGAGCGGGTGGCCCAGATGGCCTGGGTGGCCCAGGTGGGATGGCCC
W
GGTGGCCCAGGTGGGATGGCCCTGGTGGCCCAGGTGGGATGGCCCAGGTGGCCCTTACAGGCAGTGAGGGGGATTGAGATGCACACTCCCTAGACCTGGG
Celera SNP ID:            hCV7607479
SNP Position Genomic:     58078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28213):
CCATAGTCTACACATCTGATTCCAATTCCTAAGCCCAAACTCTAAACCTAGCCCTGAGATTTAAAGAGAACCCCTGTCCCTAACCAAGGCACTAGCTCAC
R
CTCTGCCTTTGTGTGAATTTGAAGAAGGCCCCTGTTGACAGCATGCAGCCCTACAGGTACATAATGGTTAGAAGAGCATGGGCAGCTCCCGCTCAGCCCT
Celera SNP ID:            hCV11473228
SNP Position Genomic:     24198
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,13)      total(G,1|A,13) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28214):
GCTGAACAACCAGATTGCGAGCTTTGACAGCCCCTCTCTGGAGAAGGTTTGTCTTCATAGGGACAGGAGAGTTTGGACAAGGAGTAGACTCCAGGGGTGA
K
GGAGTGGAGAGGATAACACCGTGTGTGTGAGATCAGCTGGACCTGTGGCTGTTTACAGGGTCCTGGGAGGAGAGGAGCGTGGTCTGGATTGGTGGTTTTA
Celera SNP ID:            hCV2669273
SNP Position Genomic:     32621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28215):
TGAAGGCCTTTGGCCCTTCTCACCAACGTCTTGTGCCTCCCCAGTTTCTGCGAAACTCCCTCAAGAAGACCCGGGGGTCTAGCTGGAGCCTGCGCTTGAG
Y
AAAGAGCTGAACAACCAGATTGCGAGCTTTGACAGCCCCTCTCTGGAGAAGGTTTGTCTTCATAGGGACAGGAGAGTTTGGACAAGGAGTAGACTCCAGG
Celera SNP ID:            hCV28026199
SNP Position Genomic:     32515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:28216):
GAGGGCTGGGTCCCAGGCAGGGCTGCTGAGGGCACGAAGGTGCTGGCTGAGGGGGCGGGTGGGGCTGCATCTGCCCCCAAGGGGCTTTCTATAAATGTAC
M
TGCAGCCATGTTCAAGCTGGCAGGGGCCCAGGTCCCAGGTGGCCTCCCAGGAGCCACCAGCCCTGCCTTTCTTTGGCTTGGTGAGGCTTTTCTGGGGCTG
Celera SNP ID:            hCV7607480
SNP Position Genomic:     58680
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28217):
ATGCCCCTCTCACTCTTGACTCTGGTTGAGTCCTCTCCAGGTCCCCTGCACTGGCATCTTCTCAGCAGGCCTGGCCGTGCCCTTGTCCATTTGTTTGTGC
S
CTGTTGGTTTGCTTTTCCTGGGCTCATTGGCTCCCAAAGCCTGTGGAGAGAGTCAGGAGTGGGTAGAATGGCAGTGTCTAATTACTTTTGGCTCAACAGA
Celera SNP ID:            hCV2669276
SNP Position Genomic:     30486
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28218):
CCGTCCTGTGTCCCTGCAGGCCTGTATGGCTACCATGTTTCAGTGTGTGCACTTCTGGGGCTGGAAGTCCCTGGAGCATCCCTCAGGGCCAAGTGATACC
R
CTACTGATGACAAGATGACCGTTTTCCAGACAACCATGTGCTCCATCCTGGTGAGGAAGCCAAAGGGGGAACCAGCCCGTCCCAGGTGGCCACACGCTGG
Celera SNP ID:            hCV7607481
SNP Position Genomic:     58946
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28219):
TTCTCCTGGAAACATCCAAGTCCAAATTAATACTATTAATGCCTACCTGGATATTAATGCCTACCTGATCATATCTAGGTCATGTTAGAATTGTGTAAAC
Y
TCCTTTGGATAGCTCACTCCTCATGTCCTGTCCCCCCAGCCCACAGCCCTGGTCCAGATCCCATCCTTGGGAGCTCCTGGCCCAGCCTTTCCCATGCATG
Celera SNP ID:            hCV2669277
SNP Position Genomic:     29973
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28220):
CTGTATGGCTACCATGTTTCAGTGTGTGCACTTCTGGGGCTGGAAGTCCCTGGAGCATCCCTCAGGGCCAAGTGATACCGCTACTGATGACAAGATGACC
R
TTTTCCAGACAACCATGTGCTCCATCCTGGTGAGGAAGCCAAAGGGGGAACCAGCCCGTCCCAGGTGGCCACACGCTGGCTTGGAGCTGGGGGGTCGAGA
Celera SNP ID:            hCV7607488
SNP Position Genomic:     58967
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:28221):
CCCAGGTGGCCACACGCTGGCTTGGAGCTGGGGGGTCGAGATTGCCACAGCTCTTTCTTGGGGCCCTATGTTTACCTTCCACACATGCCATGTCGAGACC
R
GCACTGTGCAGCAGAAATAGAAGGCAAGTCATGTGCCTATTTCAGCTGTCTGATGTTTCTTTTAGTAGGCACATCCAGAAAAGTGCAGAGGTGAAACTAA
Celera SNP ID:            hCV27854936
SNP Position Genomic:     59127
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,26)   caucasian(G,40)   total(A,8|G,66)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28222):
ATCACTGCCCAGGGCATGCAGCATGTGGTCCTGACTGGGCGGGGCCTGAACCTTCCCTCTTTGTGTTCTCTCTCAGCCCTCCAGGAACTACAGCTGGACC
Y
GGATCCCGGGGTCAGGAGGGCAGCCCTGGAGACGCTCACAGTCTTGGATAGCTGTAGTCAGCATGGGTTTCTGGCTTCACCCCAAGGAATGTCCTAGGTG
Celera SNP ID:            hCV15958788
SNP Position Genomic:     60622
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,25|T,1)   total(C,56|T,4)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,147|C,1356)   total(C,1356|T,147) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:28223):
CTATGGGAGAAACAAATGTGTCAACTTTTAATTGCAACAAAATGTGACGTAGCAATAAGAGGAAAAATGTACCATGAGAACATCAAGGAGGGAATGATTA
Y
TCACTGAGGCTGCAGGCTAGATGATCCCTGTCCAGCGACAGCTTTTTTTAATTGCAGAAATAATAATAATCATCATCATCATCATAGCTACAGTCCATGT
Celera SNP ID:            hCV2669283
SNP Position Genomic:     28349
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28224):
GCCCAGAGCACCCCCAATTCCTAGCTCTCTATGTCACAGGATTGGGTGCCTTGGAGCCCACCCCAACCCCCAGCATGTCCACGGTCCTGTCCCCTCAGGT
R
AGGATGGCTATTCTCCACATCATTGGGCAGTTGGCTCTCTGTGGCTACCAGGAGAGAATCAAAGGCTGGGGCCTGAAGTACCTGTCTGTGCAGCTGACCT
Celera SNP ID:            hCV2669285
SNP Position Genomic:     27237
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:28225):
GAGGGAAGCGAGAAGAGGCTCGTTCTGCATCTCCTTCACATAGTGATTCTCATCAATGGAGCAAGCCCCAGGGGGTCCAGGATAACAGATGGGCTCCCCA
Y
GGCAAGGGCTGCTAGAATGGAGCAGCCGAGGTTGGAAGGGAGGGAGGGAGCTTTGTGTCTCTCCAAGGCTCAATTAGGCTCCCAGGTGGGCATGCTGCAG
Celera SNP ID:            hCV2669286
SNP Position Genomic:     26961
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28226):
GGAAACAACAGAGGGGAGGGAGATGGCCAGGGAGAGCATGGCCAGGGAGGCTCCTAAGAAAGTGCCCCTGAGCTTGGAGAATGTGGGAGGAGACAGAACG
Y
GAGGCCCTGATGTGGGACGAGCCACCTGACCTCTCCCTGAGCCACAGCCCTCCAGCCCACCCAGTTTTCCTCTTTCAGAGCCCAGGATGAGTATCAGGGC
Celera SNP ID:            hCV2669287
SNP Position Genomic:     26150
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Gene Number:                 109
Celera Gene:                 hCG2012957 - 145000147120007
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(43121952..43134939)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12269):
TGGGGATCCTTCAGGAACCACCCCCCTGAGAAAATGGAAGGGCTCCCTAAATAGCTAACGTCATGTGCCACATCTTGCAATTGTGTTTCTGTGTTTGGTG
CATCTGTTTAGCTGGTTATAGAATCCATCCCACCTAACGCAGGCCTGCAAAAGGGTTCATGCTCAACAGATGCCTGTTAGATGAGTAAATGAATGAGTGA
ATTTGGAGATGTGCAGCTTATCCATGTCAGAGTCCGAATTTGAAACCGAGGCTCTGATTCTGCATGTGTTCCCCCAGGGGGAATGGGCATAAAGAACACG
CTGGCTTTCCCCATTTCAGGTGAAAACTGGGTTTCACTGCCTAGGCAGACTGTGCCCACAGCAGGATGGGAAGGAGGCCAGCAGCCTGCAGATGCCCCAT
ACAGTTACTCCTGAGCTTCATGACAGGTTAGCCTTTTTAAGAAACACAGAGAGAAGGTCTCCCTCCCCGCCCACCCCCAAAATGATCTTCCCACCCCCAA
TCCAGGCCAAGCTGGTAAACCAAGTCCAGGCAGGAAGGAAGATGCTGTTGGGGTAAATAAAGCAAGGGAGCAGTGTTAGCAGGAGGGCGGCCTGGGTGGT
GGGAGAGGACAGCTGGTTTAGGCCGCTGAGTGGCCAGGGCCCAGGAGGCTTCTTCCGGGCTGTCCCTTCCACCAGCATAATCCCTCGCACCCAGCCCGAC
CCTTTGGGGCCAGAGGTCCTACCCCAGAATCTCCACCCCCTGCAGACTCCAGCTGAGCTGAAACCTGACCCAGAGCCAAGGGCATTTCCTGTCTTTGTAG
ATTCTGTGGCTGCCCTCTTGGACCTCACCCCCTCCCCTCACGCACTGGACACAGGCAGCTCAAGGTCCCAGCATGGGGATTCCTAGGTGGGCCTCGTCCC
CATCTGCCCCAGGTGTGGGTCAGCAGCCCAGACTTCTGCACTGAAGACCAACAAAGGGGTGCTCTGCCCTCACTTACAGCCCACCGTAGGCAGGATACTC
TTGAAGTCGTTCTTCACGTACCGAAGAGCCAAGCTGGACTTACCCACGGAGCCACTTCCCAGGAGAACCAGCTTGAACACACGGGGCTGGCTGGGGGCAG
CCCTGGGCTGGGGGGTCCTGTGTGCCTGTGCCATGCCCTGCAAAGAATCACAACCGTCTGAAGCAAGTGGAACATCGGAGCCACATCATCTCAGCAAGCT
CAACCCCGGGGCTGCTTCTCGGTCAGGAGCAGATGGCCCAATACAGAGCTCCCAACTCAGAGGCCACCTAGGTCCACACTCCTGCTTCCCTCTGCACCCC
ATGCCCCATCTCCCCATCTGCAATTTTTAGGTCCATTTTTAGGTCTGTGGTAAGGAACAAAAGGAGCTTTGCTTGGAAAGCTCCGGGCACGGGTCATTGC
AGACCCTGAAAAGCAATGATTACATGTGACGGTCTCAGGGCTTGTTGTCCTCCTTCCATTACTTTCAGTTTTTACAAATCTATTACTTGTCCCCAAAGTA
TCTAATGCAAGGAGAGGTAAAAAGCATCTGAGCATTTCTTGGGTGGTTGTTCATGGATTAAAGTTGGTGTTTCAGAAAAAATCTACCTAAAAAAAGGTTG
GTGTCTCAATGATCTCAAAACATCGTAGACACATTCCCATTGTGTCTAAAGCCTCAGAACCCACAGTAATATGCCCCAGAGAAAACCAACTTCGTGATCA
AAATAAACGTGGGCGACCCCTGCGTATTTTTCATCATAGAAACTTTCATGTACACACCACAATAGAGAGAACGGTCCGATGGGCCCATAGACCCACCTCC
CGCTTCCCCAGTAATCAGCTCAGCCATTTGTATCACTCACACTCCCAAACCTCCCCCTGCAGGGTACTGTGTAAAGCAGATCCCAGGCATTCTATCATCT
GCAAATCTCAGTAGAGATACAGGTATTTTTTTTTCTTTGCAGTTCATGTGTTGAAGAAATCAGGTTGTCCTGTAGATTTCCAGTACGGATGTTGCTGATT
ACACCCCTGTGTTATTGAATAGAGTCCTATGAACTCTGTATTTTTGATACCGCGGTGGTTCAGGACATAAACCTGATTAGATACAGGCTATTTTTTGGCA
AGATTGCCATGAGAGTGTGCGTGCACTTCCCACAGAAGGCAAATAATGTCCAGTTGTCTTTCTGTGATGTTGGCAGTCACTGAAGACTATTACTTCGACC
CACTATTTTACTAAGGGGTTGCAAAATGGTGACATTCTAATAATGTTCTAATGTTATCACTTTGTGTTTATTATCTAGGAAGAGAAGCTCCCCACAAAAA
ATATGAAACCCATCAGGGGCAGCTGGTCCTGGGAACAGAGTCTCTTCTCCCTTCCTCACCACAGTGGGCAAGAGGGAGGCTCCCTAAAGGGGGAAGGGGA
GGAATTTTGAAAAGGAAAGAAGAAAAGCAGGAGTGGTTGGAAGCAGCCCACATGCCCTCACTGCCGCCAGTAAGGAGCCATGGCCACAGACTGGTCTGGT
CTGCCCTGCAGGGATAAGAGGGGAGGGAATCAAGTTTGGAATCAATCTCAAAACAAATAGGACTGAGTCCTAGATACCAAGAAGATCGTTCTAGAGAGAA
AGTGACTGAGAGTCATGGAGTCCAGAACAGGAGGGTTTAGGGCTCTCTACCCATCAGAGAAGAAGGGTTCCACATAGTAGACTCGGGTGGTTATCCCAAA
CATGCCTGGAACCCCATCTTAGCTGGAAATACTCAAGTTTCACCATCAAGTATGATGCTGGCTTCAGAGACGGATAAAAAACATAACATTAAGTTTTCCA
TCTGTGTTTCTTAAAAAAAAAAAAAAGAAAAGAAAAAGAAAGAAAAAGAAAAAGAAAAGCTCTCCAGGTGATCTCAGTATGCAGCCAAGACTAGGAATCA
CTGCTAGAATTCTGTTTTCCTTGGAGCTGGGAACAGTGTCTAGCACATAGTAAGTACTAATTCCTAAGAAATGAATGAATGAGGCCAAGCATGAAGAGCA
CATAACACAGCACCTGTGCTTTGAAATATCCACCTGGATTGAGGATGATTTCTTGGGGCCAGCTATGGTTTGCATGGATCTTCCAAAAAGCAGATTTGGA
AACTTAGTCCCCAGTGCAACCATGCTAGGAGGTGGGGCCTAATGGAAGGGGGTTGGGTCATGAGGACTCTGCCCTCGTTAATCCACGCCCAGCACAGATT
AACACTGCTGCGTCTTGCACATCCACAAGCCTGCGTGTTCTCTTGCCCTTTCACCTTCCACTGTGGGATGACACAGCAAGAAGGCCCTCAACAGATGTAG
ACCCCTTGGCCTTGGACTTCCCAGCCTCCAGAACCATAAGAAACAAATCTTTGTTCTTTATACATTTCTGTCCCAGGAATTCTGTTAAAGCAGCACAAAC
AGACTAAGACAGCATCTGAGGCACAGTGAGAGTGCCTGGGGTGGGAACTTAGTCCAGCAGATGATCCGCTCAAGTCAGCTGGGGACAGGCTCTCAGAGGT
CAAGGCACGGCCCAGACTTTCCACCCTTTGGTGGAAGGGGAAAGGGTAGCGGGGGCGGGGTGAGGGAAAAAAGACTACTCAATGGCTACAGTGTACACCG
CTCTGGTATGGGGTGCAACAAAATCTCAGAAATCACTAAAGAACATATCCCTGTAACCAAATACCACCTGTTCCCCTAAAATCTATTGAAATAAAAAATA
ATTTAAAATAAACAGAGATACCCCTTCAAGTTCTCTTTGCTATTTATTTGCATAGGTTAATAAAACCTTTCCTAAGTCAAAAAATCTGTAGCCCGAAACA
TGTCTGAATTAACTGAAACAGGTGGACTCTGAAGGAATGCACCATGACCACTGGGATGCCGGCGTCTCATTCCTTTGACAATGATATGTCTCTTTGTTTA
ATGAAGTTATTTTATTTTTGGGCTGGGCGCAGTGGCTCATGCCTGTAAAGGCACTTTGAGAAGACGAGGCAGGTGGATCACTTGAGGTCAGGAGTTGGAG
ACCAGCCTGTCCAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACACGCTTGTAATCCCAGCTACTCGGGAGGCT
GAGGCAGGAAAATCGCTTGAACCCAGGAGGCAGAGGTTTCAGCGAGCCAAAATCCCACCATTGCACTCCAGCCTGGGTGACAGAGCGAGAATCTGTCTCC
AAAAAAAAAGGTTATTTTACTATAAACATACAAGTGTCAATATAAAAGAAGCAGCTACCCATAACTCCACCCCCGTAATACAACCACAAATGGTATTTTT
GCCTACTTCTAGTTTTTTTCTATGACTCCTAAAAACAAACCAAAACCCATAGTTTTAACATAAAATTATTATCCGATGGGTAAGAAATACTTAATACCAA
AGGCAGTCTCACACATTGCTTCAAAATCATGTTTAATGGACATATAACATTTCTACAACTATCTCAACTTGCTGAACCATTTTCCTAATACTGGATTTTT
ACTTAGTTTTAATTTTTTCTCTGTAATAAGACTGCAGTAAACATTTTCTTATATAACTTTTTGTGTGATTGAGTGTTGTAAGCTTTCAATAATGAGAGGT
TGGAGCCTTCTGTCCAAAGAGAAAATTAAAAGTGTGGCACCTGACCCCCACCTCCAGAATTTAATCAAGATGGGGTTATTAGTAGTGAAAGATGTTATTA
GGTTGTTGAAGACAAAGATGTTTTCAGGAACACCATATTCAAGACTGGCGCTTCTCTAGTAATCTTAACTTGGGGCTTTTTAATCTCTTGCACCTCCCTT
CCACTAAAGGGAAAAAAAACGGAGAGCAAATCCCACATTAGTCTTTTTTGCGGGGAAGGGGCCATTCCAGGGAAGGGTCTGATTGATGAGTCTATCGGCA
ACTGTGATCCTGTGTCACCCTTGCCTGGGGCCTGTGAAGAATATTGAGATTACGAGAGGTACACCTGTACATTGCATTCAGAATACAGCCATCTGATACA
GAAAACACAATGTAGATTGTAAAAAGGAGTTTACAAGAAAACCTGACAAGCTTCCTAGATATCACTGGGTATTAAATTGGGAATGTTGATGTCATTTGAA
ATGGATTTCTTTAAGAGTTCTTCTCATTACCAGAAGTTTTTTGTGTTTTTTTTTTTCAAGACCTTAAAACCGGAACTTTCCCGAAGAAAAATGCAAATAA
GAATCTCCTTCTGGGAATCCGACTTAGTGAGCCATCAGAAATCTGAACTAGGAAGTCTCCGCCCCAGCTTTGTCCTTTGATTATACACACATGGGCACAT
GCACAGACACAAACAAATACAGACATGGGTACAAACACGTGAGCACACACACAGACACACAGAGACTCACACACAGAGAAGCAGAGACACACACACACAC
AGGCAGACACTCCACAAAGGGCACAGAGGTTTAAACAATGACTCACCTGTTCCCCAGGCCCGGTCACTTGCAGGGAGCTGAAGAGCCTGTCATCACCAGT
CCACAGCGTTGCTACCTGTCTCCGCTTTCTCCTCTCTCTGGTCCAGGGGAAGGTTTGCTTCCCTCCACAGGCAGGACAGGACAGGAGGAGCCTCTACTCC
AATGGAAAACAGCCGCAGAGCAGAGGTCAAGAGCAGCAGCCTCGGACCAGAGCAATGCCCACTGGACCCCAGCGCCAAGGTCAGGCCTCTTCTCCTCCCA
GAAGGTTTCAGGGCAAAGTCCACAGTGGTCATGTGGTCACCTGAGGCAGGGCAGGAGGCTGGACCTCAAAGCAGGTGACCCGGGAGCACCTGCGCGCTGC
CGGAAGTCAAGTCACATTCCAGTCCTGCATTTCCTGGCACCCAACTGGAGCCCGTTTTTCAGCTTTATTCCGGGGTTTCACTTCCAGGATCTCACTTTGG
CACAGAATGTTTTTCTTGGCTCCTTCCTTGGAGCTGTATGGAATCTTTGTTGCACTTGAAAAACCAACAGCCCAGAAGAGAAAAGAATATTCCGGTCAGA
TGAATTAATTCCTCCCACTGTCAGCTRGAAGCCATCCCTGGCTGAGCCCTGCACTGGCCAGAGRCAACTGAGTGTGAGCCAGTCCAGGGTCAGATCCTGG
GCTGATGCCACCTGAGGGCGGGGTGGGGGCGTGGCCTCCGTGCACATGGGAGACTCCAGGTGCAGGAGAGGGGGAGGTGGACTTCCTCTTGGTCTTCCCA
AGCCATGAAAYTTCCTGGCTTGGTGGTAACAGAAGAGTCTCCTCCAGGTAAGATTTCCAGAGCCTCTGAGTATGGCTGGGGTAGCAGGGTTGGGCCTGAG
GCTGAGGAGATGGAAATCTGTTGCCGTGAACATYRCTCCACACAGCCAGTATACGGGAAGCCAGCTCACTTTATGTCCTCCARACTCACCCTAACTTCTC
GTTTGGGTCTCATCCCGCGGGGCTGCTGGGAAATAAGCTCCGCCACCACAGTGGTTCCTCCGCCCTGTGGGAGTGGGGGGCTCTTATGCTGGAGGGGGGA
CACTGGCCTGGACTTCTGCTGAGGCTCTGCCCCTCATCCCTGCAGGAYGGACTAGCCAGTCCTAACACAGGACTAGCGTTGCTCTACCACGTCCAAGCCT
CCTCTGAGATTCTTCCTCCATGCAACCACTTCCCCTGGGGCGTGGCCACCTCCCTGGAAGCCGCCAGCATGCTCGGCTGGGCCCCCGCACTCTGGAGGCT
TGAGAATCTCTCTATTTTTGAATGACGTCCTTATCCTCTGCCCCCAGGCTGGTAACCAAAGGTCTGGGGGTGGTGACGTGCTGGGAATGGTGTAACTCGT
GAGATGGAGGCTGAATGTGGAAATACATGAATGTGCTTCTCTTCTCTCCAGTTCCCTTGAAGAATCCACCTTCCTGCAGGGTTGGGGGAGCGCAGAATGG
GAGGAAGATACAAATACCAATTTTATAGCAAGAATGCAAAAAGAGGCCAGCGCGGTGGCTCGAGCCTGGAATCCCAGCACTTTGGAAGGCGAGCTGGGCG
GATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCTCATCTCTATGAAAAATACAAAAAAAAAAATTAGCCAGGTGTGGTGGCA
TGCACCTATAATCCTAGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCACTGCATGCCAGCCTGGGCAAC
AGAGTGAAACTATCTCAAAAAGTAAAAAAAAAAAAAAAAAAAAATTAAAAAGACAAAATGGTTAAGAACCAGCTTTTTACACCCAAAATGGGAGGTTTGT
ACCTACAGTCAGACAACAGGTTTGAAAGCCAGGCCTTGTGTGGAGAAGGGAGTTTTGGAATCAGCTAAGCTCAACTGTGATTATGTCACAGCCCATCGCT
CATGTTAGAGAGGGTCCCGACTCCCTAGAAGGCGAAAACCCCTCAAAGACCCCAAGCCAGTCCCCAAACAGCACAGAGCTGTGCCACGTGGCACCCCAGC
CACCCTTTGAGCAATGCACATGCGTAAGATCTCAGAAGTGACCGGTGACGGTGCAGAGAGGCCCTGAGGGCCAGGCACGGGACAGCAGAAGGAGACACCA
AGACAGGCAGGCTCAGGAGCTGGTGCAGGCAGGGCCAAGGTGCCTCAGAGGCTGGCGGTCCAGGCAGACATTTTCAGCAGAGACCACGGGGAAGCGAGGA
CCTCTCACAGATGTAAGGACACACATCCCCTCCCCACACTGCCACGAAGTCACCGGCCATACTCCCAACCCAGGCACCAGTGTCCATGTGAGAGAGAGGG
GCAAGGTGGCGGCGTCCGGGAGAAGCAGCGTTTTACCTGGTGATCCTTTACGTTACTGTAGGACAGCAGATCTACAGGGTTGGACGGACTGAAATTTAAA
ATCCCCCCCTCCTCTGTTTCCCACTAGATCAAGCCCCTGGAGAAGATCTCCTTCATTAACATGAGGTAAAACACATGAAGAAAGTCTGTGACTTGTGGCA
GGGGACAGGGCACAGAGCTTCTGCAGCTCAGAGGAGAGAGCCCTGTGTTCACAGTGGCTCTCACCATGGCCTGGAGTAAAACCAGCACAGCCCCTCTAGC
ATCCCCGGGTGGACAGGGTCGATGCCTGTGTAGTTATCTCTGGATGTGTAACACATACCCACTGACTCGGCGGCTTACAGTAACACGCAGTTATGGCCTC
ACAGCTCCTGCGGCCCGGAGTCGGGGCTCAGCCTCGCTGCTCAGGGTCCCACAGGCTGCAGTCAAGACACTGGCCAGGCTGGGGTCTCCTTCTGAGTTCA
GGGTCCTCTTCTGAGCCCACATGTTTGTTGGCAGAATTCAGTTCCCTCAGTAGGCTGAGGTCCCCATTCCTGCTGGCGTCAGTGGGCAGCTGCTGTCAGC
TCTTCAAGGCCCCTTCACACAGGGCAGCTTGCTTTCTCAAGGCCAGCGAGAGATGCTCTCTGACTTCTAGATCCTCTTTTAAAGGGCCCACCTGATTGGG
GCAGACACCCCCAGCACAATCTCCCTTTTGCTCAACTCACAGTCAATGGACAAGGGACCCTAATTACATCTGCAAAATCCCTTCACCTTTACCATGTAAT
ATAACCTGATCTCAGGAGTGACACCATCACAGTCCCAGCCCTGCACACACTCAAGGGGACAGACATGTCCACCAGGGGCTTGGAATCTTGGGGCCCATCC
TAGAGTCCGTTGTCCACAGTGCCTGAACCAAAGCTCACACAAGGGAGGCCCCCCCAGCCCAGGTGACTTCACAGCCCACTGGCACACGCGGGCGGGTGGC
AGGGGAGCCAGTGCCGAAGCCCGCCTCCTGCTTGGCCAGTGTGGCAAGGCCTGGTGCTCATGCTGATCTCAAGCAACCTGACACCCTCCTCATGAAGGCC
CAAGGGTACAGTGAAAGGCCAGAACTCGGATACTTAAGAGGGTCTGGGGGCTCACAGCTTCCCCTCCTGCACAGAGGTCATCTGGGAGCAACCTGCCAGA
TCCTCCCTCGGGAACCAGTCAGCTCCTCCCAACACCAATTTACTCGCCTCCAAAGTAAGGGGGCTGAGCCAGATGGTTCTAAACCTCCCTCCGCTTCCAG
CCTCTGTGACGGATCACTCTATGCACTAAGGGCCATCCAGCGTGAGCAGGAAGCCTGTGGTGCGCTCGTGTAAATCAGAAGGTGCATTCCCATGGGGACA
TGGGATGTCAAGCTCAGACACAAACCTCTCGTGGAAGGCGGGTCAGGACTCACCGCCCAGACAGTATCCATAATGCCACATAGATGTGGTATCGTGCACA
ATCATCATTGCTTGTAGTGGAAATGAGGCAAAACGGAACATAAGCAATTTACTTACAGGACCAGAATTAATATTATTTTAACACATACCAATTTTTAAGT
TTTTCTCTGGCCATTTTATCAACTTTTCTGTGTTACCATTGACAGGGAGAATATTCGCAATGCCACTTACACAGGCCACGTAGGCAGGCATGCACACATT
CTCCTTCCAAAACATGTAAAATTATATCATTGTGGAGCAGGAAGGGCCCCCTGGGGAGGATGTGGCCTGAGTGCCCGCCCAGGGGCTGAAGAATCTCTGC
AACTCTCCTGCCACCTGATGTCTCGGGTTCTGCTCAAATATTGACAGTGATGGGATTTCCTCTGAGAGTTTATCCCATGTGGGTTCCTTTCTAGCCAAGT
CAGTCCTTTGTAACTTTCCACTCTTTACTGCCCTGGGGTTGCGTGGAGAGCCAGGCCTACTGCTGCATAAACATTTCAGAGATGTTGAAGCAGCTCTCAA
GGCTTGCAACAGGCATTGCTAACGGCCTGCCCCAGATCCGTGCCCCCCTTGTTCCTTATGAGGAGATTCCCCACTGTGGTTCAGGTTGTTAGTGCCTCTC
CGTATCTTCTTTCTTGCAGATGTGACCAGGTGACCCCCCTCTGGCCAGGGAACAATGGGCCGAAGTCCTCAGGGGATTTGTGGGGAAGCGCGCCCCCTCC
TCCTTGGGGTTTTCTTGCGGAGCTGCTGTGAAGACTCAGCTCAGCTGTGATAATTACCTGAGGTCAGCTTCTCCAGAATGCCCTTATCTCCTAAGGCCTT
TGAGATAAGCAGGAATTGTGGTGTCTGCCTTGCCTCCAAACCTTTATCCTTGCTTATCTCAGTGGAAAATTCCAGCAGGGATTTCTGAACACCAAGTTAA
ATTCCTCCACTCAACAATCAGTTTGGCACGTGGCTGCCCGCCAGTCTGGGCAGAACAGAGGGGAGCCAAGGGAATAAACCCAAGTCCTGCCCCCAGGTGC
CCAGAGCCTGGCGGGGATGGGACAGTTGCCTGCAGAGCAAGAGGCTGCCACCCAGTTTCACACAGGCCAGAGAGGCTGACCTACCTGCCCAGAGGCAGGG
GAAGAATCCAGAGGACCTCTCCCGGAGGAGGCACGAGAAGCCCACGTGGCAGCCAAGAAGAGGGAGAGCATCCTGGGCCCCGGAAGCACAATGCCAGGGG
CAGACATGCACTGGGAGGCACGGGGCCAGGGACACCTTCAGTGAGCACAGGGTCTGGGTAGGCTTCGGGAGGGGTGAGGGCGGAGAGGCAGCCAAGCCGG
GTTGTGGGAGGCCCTGCCTAATTCTGTAAAGACTAGGATTAGAAACATGACAAAAATGGGTTAGGCACGGTGGCTCACACCTGTTATCCACTTTGGGAGG
CTGAGGCTGGTGGATCATCTGAGGCTGGGAGTTCAAGACCAACCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTG
GTGGCGCACACCTATTAATCCCAGGTACTAAGGAGGTTGAGGCAGGAGAATTGCTTCAACCCAGGAGGCAGAGGTTGCAGTGAGCCCAGACCATGCCACT
GCACTCCAGCCTGGGCAACAGAACAAGTCTCTGTCTGAAAAATAAAATAAAATAACAAAAATGAAGGGCCGGGTGCAGTGGCTCACACCTGTAATCTCAG
CACTTTGGGAGGCCGAGGTGGGAGGATCACTTACACTCAGGAGTTTGAGACCAGCCAGGGCAACATAGTGAGACCCTCATCTCTAAAAAAAAGTTAAAAA
ATTAGCTGGGCATGGTGGTGCATGCCTGTGGTCCCAGCTACTAGGGAGGCTGAGGCGGGAGGATTGCTTGAGCCTGGGAGGTTGAGACTGCAGTGGGCCA
TGATCATACCACTGCACTCCAGCCTGGGCAACAGAGCGAGATCTTGTCTCACCAAAAAAAAAAAAAAAAAAAAAAAAAAATACACTGCTTTTATTGAGCA
CCTACTATGTGCCAGGCACTGTGCTAAGTCCTTGGCTTAAAATATCTGATTCAGTCCTCACAGCAACCCTTCAGAGGAGCCCCACCCTGTGACCACACCC
TAGAGGGCCCCACACTGGCCTTCCTCTGGCCATGCTCTGGCTTCTAGGTGAGCAGTCCTCCAGGCCAAGGGACAACACTTCTAGATCACACTGCCAGATT
CGGGAAGCGCAGAATTGCCCACCCAAGCCCACTTCTGAGGCCTGCAGGGGCCTCTGTTCCGGGTCCACTCCCCAAGAGCAAACCACAGCAGGCCCCACGG
CAAAGGCACAGCTGTCAATAGGAAGCATGGCTGGAGGCTGGATGTGTGGGCCAGGCACCCACGTGCTTATCCTGAGCTCCTCCCAGTGTGAGACAGGCCC
AGGGAAGGAGGCTGGCTGGGGCTGGGACACCCCATTCTGGCCAAGGAGCCCCAGGGTTCTAAGTGCAACCCTAGGCTTCCAGGCTGTCAGGAACATGTTT
CTAGCAAAGTAGCGCGTGGGGCATTGTGTTCAACAAGGCATTTGCTTGGCTTTTTTCATGAATTTATTTATTCACATGGTGCACGGAGTACCATTTGTAC
TCCTGTCCCAAGCCCTGCAAATGTGAGAGGGGGGATCCCTTATTTTTATCCTATTTTATGAGTGAAGAGTCTGAAGCCCAGACCCACTCCAGGCCACAGA
GAGGAGGACAAGGGTAGGAACCCTGTGGTCCGTAGGAGTGAACGGGAGGAACTGATCAGACCTGGATCAGCCTCTGAGGAGGTGCACAGCTTCACGCTAC
TGCTGTCCCTCGGGGAGGAACCTTAGCTCTTCCTGCAGAGGCCTCGGCGCTTCTCCCAGAAAGGGGGCAGATAAGCTCGGCCATTCTTGCCCTGGGCTGC
ACAGCCCCTGGCCACTCGCCCCCTAGGACGGATGCTGCTCTAACATTCTCCCAGCCAAAGCTGTCCTTTCTATTAGGGGGTTCCCATGGGCACGCACCTG
CACTCTAGCTTCTCTTGTAATTAAATTTAAAAGCACGGCTCCCGGCCCCACACCCCCAGCACCATTTCGCCCTTTAGAGTGGCCTCCGCCCTCGGTCTAC
ACTTCCTCTCTCCTGGGTCTCTCTTGAATCTACTCCACCGGGGCTGTGGCCTCCTTCACTTCACCCAGAAGGCTCCTGGACAGTCACCCAGGGCCTCTGT
GTTACCAAACCCTCAGTCCCCGCTGGCATAGCCGTGAGCACCACGCGGCCTGGCTGGCCACCCTCTTGAGCAGGACCCCGAGAGGCTTCCGACAGCCTGT
CCTGATGGCCCAGTACCACTGGCTCCCCTCCTCCTCCTCCCAAAACTTCTCAACACTGGGGCAAAAATTCTCAGGCCTGTGCCTCTTCCCTCCTCTTGCT
CCCTGCCCCCCTTGGAGATCCACAGATGAAAAACACGGACCGACAGACGATGCTTGGACACAGGCCTCCATCCAGGCCACCCTCCGGCTCCAGAGGCCCA
AATCCGCCTCCCTCCCACGAGAGGCATCTCAGATGCACAGGTCCACACTGGCGCTCCTGATGCCCAAAACCTGCCCCACCTGCAGCCCTGCCTCACTTCA
CGGCAACTTGATCCTTCCAGGTGCTCAGGCCAAAATCCCAGAGTCACCTGTGTCCTCTCCTCCTCACACGTCTCACGTCTAACCCAC


SNP Information

Context             (SEQ ID NO:28227):
CCAACAGCCCAGAAGAGAAAAGAATATTCCGGTCAGATGAATTAATTCCTCCCACTGTCAGCTAGAAGCCATCCCTGGCTGAGCCCTGCACTGGCCAGAG
R
CAACTGAGTGTGAGCCAGTCCAGGGTCAGATCCTGGGCTGATGCCACCTGAGGGCGGGGTGGGGGCGTGGCCTCCGTGCACATGGGAGACTCCAGGTGCA
Celera SNP ID:            hCV29368743
SNP Position Genomic:     6064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:28228):
AGAGTCTCCTCCAGGTAAGATTTCCAGAGCCTCTGAGTATGGCTGGGGTAGCAGGGTTGGGCCTGAGGCTGAGGAGATGGAAATCTGTTGCCGTGAACAT
Y
ACTCCACACAGCCAGTATACGGGAAGCCAGCTCACTTTATGTCCTCCAAACTCACCCTAACTTCTCGTTTGGGTCTCATCCCGCGGGGCTGCTGGGAAAT
Celera SNP ID:            hCV29368744
SNP Position Genomic:     6334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28229):
GAGTCTCCTCCAGGTAAGATTTCCAGAGCCTCTGAGTATGGCTGGGGTAGCAGGGTTGGGCCTGAGGCTGAGGAGATGGAAATCTGTTGCCGTGAACATT
R
CTCCACACAGCCAGTATACGGGAAGCCAGCTCACTTTATGTCCTCCAAACTCACCCTAACTTCTCGTTTGGGTCTCATCCCGCGGGGCTGCTGGGAAATA
Celera SNP ID:            hCV29368745
SNP Position Genomic:     6335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28230):
CCTGAGGGCGGGGTGGGGGCGTGGCCTCCGTGCACATGGGAGACTCCAGGTGCAGGAGAGGGGGAGGTGGACTTCCTCTTGGTCTTCCCAAGCCATGAAA
Y
TTCCTGGCTTGGTGGTAACAGAAGAGTCTCCTCCAGGTAAGATTTCCAGAGCCTCTGAGTATGGCTGGGGTAGCAGGGTTGGGCCTGAGGCTGAGGAGAT
Celera SNP ID:            hCV15969508
SNP Position Genomic:     6211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:28231):
AGCAGGGTTGGGCCTGAGGCTGAGGAGATGGAAATCTGTTGCCGTGAACATTACTCCACACAGCCAGTATACGGGAAGCCAGCTCACTTTATGTCCTCCA
R
ACTCACCCTAACTTCTCGTTTGGGTCTCATCCCGCGGGGCTGCTGGGAAATAAGCTCCGCCACCACAGTGGTTCCTCCGCCCTGTGGGAGTGGGGGGCTC
Celera SNP ID:            hCV29368746
SNP Position Genomic:     6383
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28232):
ACAGTGGTTCCTCCGCCCTGTGGGAGTGGGGGGCTCTTATGCTGGAGGGGGGACACTGGCCTGGACTTCTGCTGAGGCTCTGCCCCTCATCCCTGCAGGA
Y
GGACTAGCCAGTCCTAACACAGGACTAGCGTTGCTCTACCACGTCCAAGCCTCCTCTGAGATTCTTCCTCCATGCAACCACTTCCCCTGGGGCGTGGCCA
Celera SNP ID:            hCV29368747
SNP Position Genomic:     6548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:28233):
CTTGGAGCTGTATGGAATCTTTGTTGCACTTGAAAAACCAACAGCCCAGAAGAGAAAAGAATATTCCGGTCAGATGAATTAATTCCTCCCACTGTCAGCT
R
GAAGCCATCCCTGGCTGAGCCCTGCACTGGCCAGAGGCAACTGAGTGTGAGCCAGTCCAGGGTCAGATCCTGGGCTGATGCCACCTGAGGGCGGGGTGGG
Celera SNP ID:            hCV15969509
SNP Position Genomic:     6027
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,317|A,414)   total(G,317|A,414) 
SNP Type:                 UTR 5


Gene Number:                 110
Celera Gene:                 hCG2013161 - 145000147122494
Gene Symbol:                 RAB17
Protein Name:                RAB17, member RAS oncogene family;FLJ12538
Celera Genomic Axis:         GA_x5YUV32VWPT(43105345..43134024)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12270):
GGCTGATCCAGGTCTGATCAGTTCCTCCCGTTCACTCCTACGGACCACAGGGTTCCTACCCTTGTCCTCCTCTCTGTGGCCTGGAGTGGGTCTGGGCTTC
AGACTCTTCACTCATAAAATAGGATAAAAATAAGGGATCCCCCCTCTCACATTTGCAGGGCTTGGGACAGGAGTACAAATGGTACTCCGTGCACCATGTG
AATAAATAAATTCATGAAAAAAGCCAAGCAAATGCCTTGTTGAACACAATGCCCCACGCGCTACTTTGCTAGAAACATGTTCCTGACAGCCTGGAAGCCT
AGGGTTGCACTTAGAACCCTGGGGCTCCTTGGCCAGAATGGGGTGTCCCAGCCCCAGCCAGCCTCCTTCCCTGGGCCTGTCTCACACTGGGAGGAGCTCA
GGATAAGCACGTGGGTGCCTGGCCCACACATCCAGCCTCCAGCCATGCTTCCTATTGACAGCTGTGCCTTTGCCGTGGGGCCTGCTGTGGTTTGCTCTTG
GGGAGTGGACCCGGAACAGAGGCCCCTGCAGGCCTCAGAAGTGGGCTTGGGTGGGCAATTCTGCGCTTCCCGAATCTGGCAGTGTGATCTAGAAGTGTTG
TCCCTTGGCCTGGAGGACTGCTCACCTAGAAGCCAGAGCATGGCCAGAGGAAGGCCAGTGTGGGGCCCTCTAGGGTGTGGTCACAGGGTGGGGCTCCTCT
GAAGGGTTGCTGTGAGGACTGAATCAGATATTTTAAGCCAAGGACTTAGCACAGTGCCTGGCACATAGTAGGTGCTCAATAAAAGCAGTGTATTTTTTTT
TTTTTTTTTTTTTTTTTTTGGTGAGACAAGATCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTATGATCATGGCCCACTGCAGTCTCAACCTCCCAGG
CTCAAGCAATCCTCCYGCCTCAGCCTCCCTAGTAGCTGGGACCACAGGCATGCACCACCATGCCCAGCTAATTTTTTAACTTTTTTTTAGAGATGAGGGT
CTCACTATGTTGCCCTGGCTGGTCTCAAACTCCTGAGTGTAAGTGATCCTCCCACCTCGGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACTGCAC
CCGGCCCTTCATTTTTGTTATTTTATTTTATTTTTCAGACAGAGACTTGTTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGGTCTGGGCTCACTGCAACC
TCTGCCTCCTGGGTTGAAGCAATTCTCCTGCCTCAACCTCCTTAGTACCTGGGATTAATAGGTGTGCGCCACCACGCCCGGCTAATTTTTGTATTTTTAG
TAGAGACGGGGTTTCACCATGTTGGCCAGGTTGGTCTTGAACTCCCAGCCTCAGATGATCCACCAGCCTCAGCCTCCCAAAGTGGATAACAGGTGTGAGC
CACCGTGCCTAACCCATTTTTGTCATGTTTCTAATCCTAGTCTTTACAGAATTAGGCAGGGCCTCCCACAACCCGGCTTGGCTGCCTCTCCGCCCTCACC
CCTCCCGAAGCCTACCCAGACCCTGTGCTCACTGAAGGTGTCCCTGGCCCCGTGCCTCCCAGTGCATGTCTGCCCCTGGCATTGTGCTTCCGGGGCCCAG
GATGCTCTCCCTCTTCTTGGCTGCCACGTGGGCTTCTCGTGCCTCCTCCGGGAGAGGTCCTCTGGATTCTTCCCCTGCCTCTGGGCAGGTAGGTCAGCCT
CTCTGGCCTGTGTGAAACTGGGTGGCAGCCTCTTGCTCTGCAGGCAACTGTCCCATCCCCGCCAGGCTCTGGGCACCTGGGGGCAGGACTTGGGTTTATT
CCCTTGGCTCCCCTCTGTTCTGCCCAGACTGGCGGGCAGCCACGTGCCAAACTGATTGTTGAGTGGAGGAATTTAACTTGGTGTTCAGAAATCCCTGCTG
GAATTTTCCACTGAGATAAGCAAGGATAAAGGTTTGGAGGCAAGGCAGACACCACAATTCCTGCTTATCTCAAAGGCCTTAGGAGATAAGGGCATTCTGG
AGAAGCTGACCTCAGGTAATTATCACAGCTGAGCTGAGTCTTCACAGCAGCTCCGCAAGAAAACCCCAAGGAGGAGGGGGCGCGCTTCCCCACAAATCCC
CTGAGGACTTCGGCCCATTGTTCCCTGGCCAGAGGGGGGTCACCTGGTCACATCTGCAAGAAAGAAGATACGGAGAGGCACTAACAACCTGAACCACAGT
GGGGAATCTCCTCATAAGGAACAAGGGGGGCACGGATCTGGGGCAGGCCGTTAGCAATGCCTGTTGCAAGCCTTGAGAGCTGCTTCAACATCTCTGAAAT
GTTTATGCAGCAGTAGGCCTGGCTCTCCACGCAACCCCAGGGCAGTAAAGAGTGGAAAGTTACAAAGGACTGACTTGGCTAGAAAGGAACCCACATGGGA
TAAACTCTCAGAGGAAATCCCATCACTGTCAATATTTGAGCAGAACCCGAGACATCAGGTGGCAGGAGAGTTGCAGAGATTCTTCAGCCCCTGGGCGGGC
ACTCAGGCCACATCCTCCCCAGGGGGCCCTTCCTGCTCCACAATGATATAATTTTACATGTTTTGGAAGGAGAATGTGTGCATGCCTGCCTACGTGGCCT
GTGTAAGTGGCATTGCGAATATTCTCCCTGTCAATGGTAACACAGAAAAGTTGATAAAATGGCCAGAGAAAAACTTAAAAATTGGTATGTGTTAAAATAA
TATTAATTCTGGTCCTGTAAGTAAATTGCTTATGTTCCGTTTTGCCTCATTTCCACTACAAGCAATGATGATTGTGCACGATACCACATCTATGTGGCAT
TATGGATACTGTCTGGGCGGTGAGTCCTGACCCGCCTTCCACGAGAGGTTTGTGTCTGAGCTTGACATCCCATGTCCCCATGGGAATGCACCTTCTGATT
TACACGAGCGCACCACAGGCTTCCTGCTCACGCTGGATGGCCCTTAGTGCATAGAGTGATCCGTCACAGAGGCTGGAAGCGGAGGGAGGTTTAGAACCAT
CTGGCTCAGCCCCCTTACTTTGGAGGCGAGTAAATTGGTGTTGGGAGGAGCTGACTGGTTCCCGAGGGAGGATCTGGCAGGTTGCTCCCAGATGACCTCT
GTGCAGGAGGGGAAGCTGTGAGCCCCCAGACCCTCTTAAGTATCCGAGTTCTGGCCTTTCACTGTACCCTTGGGCCTTCATGAGGAGGGTGTCAGGTTGC
TTGAGATCAGCATGAGCACCAGGCCTTGCCACACTGGCCAAGCAGGAGGCGGGCTTCGGCACTGGCTCCCCTGCCACCCGCCCGCGTGTGCCAGTGGGCT
GTGAAGTCACCTGGGCTGGGGGGGCCTCCCTTGTGTGAGCTTTGGTTCAGGCACTGTGGACAACGGACTCTAGGATGGGCCCCAAGATTCCAAGCCCCTG
GTGGACATGTCTGTCCCCTTGAGTGTGTGCAGGGCTGGGACTGTGATGGTGTCACTCCTGAGATCAGGTTATATTACATGGTAAAGGTGAAGGGATTTTG
CAGATGTAATTAGGGTCCCTTGTCCATTGACTGTGAGTTGAGCAAAAGGGAGATTGTGCTGGGGGTGTCTGCCCCAATCAGGTGGGCCCTTTAAAAGAGG
ATCTAGAAGTCAGAGAGCATCTCTCGCTGGCCTTGAGAAAGCAAGCTGCCCTGTGTGAAGGGGCCTTGAAGAGCTGACAGCAGCTGCCCACTGACGCCAG
CAGGAATGGGGACCTCAGCCTACTGAGGGAACTGAATTCTGCCAACAAACATGTGGGCTCAGAAGAGGACCCTGAACTCAGAAGGAGACCCCAGCCTGGC
CAGTGTCTTGACTGCAGCCTGTGGGACCCTGAGCAGCGAGGCTGAGCCCCGACTCCGGGCCGCAGGAGCTGTGAGGCCATAACTGCGTGTTACTGTAAGC
CGCCGAGTCAGTGGGTATGTGTTACACATCCAGAGATAACTACACAGGCATCGACCCTGTCCACCCGGGGATGCTAGAGGGGCTGTGCTGGTTTTACTCC
AGGCCATGGTGAGAGCCACTGTGAACACAGGGCTCTCTCCTCTGAGCTGCAGAAGCTCTGTGCCCTGTCCCCTGCCACAAGTCACAGACTTTCTTCATGT
GTTTTACCTCATGTTAATGAAGGAGATCTTCTCCAGGGGCTTGATCTAGTGGGAAACAGAGGAGGGGGGGATTTTAAATTTCAGTCCGTCCAACCCTGTA
GATCTGCTGTCCTACAGTAACGTAAAGGATCACCAGGTAAAACGCTGCTTCTCCCGGACGCCGCCACCTTGCCCCTCTCTCTCACATGGACACTGGTGCC
TGGGTTGGGAGTATGGCCGGTGACTTCGTGGCAGTGTGGGGAGGGGATGTGTGTCCTTACATCTGTGAGAGGTCCTCGCTTCCCCGTGGTCTCTGCTGAA
AATGTCTGCCTGGACCGCCAGCCTCTGAGGCACCTTGGCCCTGCCTGCACCAGCTCCTGAGCCTGCCTGTCTTGGTGTCTCCTTCTGCTGTCCCGTGCCT
GGCCCTCAGGGCCTCTCTGCACCGTCACCGGTCACTTCTGAGATCTTACGCATGTGCATTGCTCAAAGGGTGGCTGGGGTGCCACGTGGCACAGCTCTGT
GCTGTTTGGGGACTGGCTTGGGGTCTTTGAGGGGTTTTCGCCTTCTAGGGAGTCGGGACCCTCTCTAACATGAGCGATGGGCTGTGACATAATCACAGTT
GAGCTTAGCTGATTCCAAAACTCCCTTCTCCACACAAGGCCTGGCTTTCAAACCTGTTGTCTGACTGTAGGTACAAACCTCCCATTTTGGGTGTAAAAAG
CTGGTTCTTAACCATTTTGTCTTTTTAATTTTTTTTTTTTTTTTTTTTTACTTTTTGAGATAGTTTCACTCTGTTGCCCAGGCTGGCATGCAGTGGCATG
ATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCTAGGATTATAGGTGCATGCCACCACACCTGGCTAATTTTTTTTT
TTGTATTTTTCATAGAGATGAGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCGCCCAGCTCGCCTTCCAAAGTGCTGGG
ATTCCAGGCTCGAGCCACCGCGCTGGCCTCTTTTTGCATTCTTGCTATAAAATTGGTATTTGTATCTTCCTCCCATTCTGCGCTCCCCCAACCCTGCAGG
AAGGTGGATTCTTCAAGGGAACTGGAGAGAAGAGAAGCACATTCATGTATTTCCACATTCAGCCTCCATCTCACGAGTTACACCATTCCCAGCACGTCAC
CACCCCCAGACCTTTGGTTACCAGCCTGGGGGCAGAGGATAAGGACGTCATTCAAAAATAGAGAGATTCTCAAGCCTCCAGAGTGCGGGGGCCCAGCCGA
GCATGCTGGCGGCTTCCAGGGAGGTGGCCACGCCCCAGGGGAAGTGGTTGCATGGAGGAAGAATCTCAGAGGAGGCTTGGACGTGGTAGAGCAACGCTAG
TCCTGTGTTAGGACTGGCTAGTCCGTCCTGCAGGGATGAGGGGCAGAGCCTCAGCAGAAGTCCAGGCCAGTGTCCCCCCTCCAGCATAAGAGCCCCCCAC
TCCCACAGGGCGGAGGAACCACTGTGGTGGCGGAGCTTATTTCCCAGCAGCCCCGCGGGATGAGACCCAAACGAGAAGTTAGGGTGAGTTTGGAGGACAT
AAAGTGAGCTGGCTTCCCGTATACTGGCTGTGTGGAGTAATGTTCACGGCAACAGATTTCCATCTCCTCAGCCTCAGGCCCAACCCTGCTACCCCAGCCA
TACTCAGAGGCTCTGGAAATCTTACCTGGAGGAGACTCTTCTGTTACCACCAAGCCAGGAAGTTTCATGGCTTGGGAAGACCAAGAGGAAGTCCACCTCC
CCCTCTCCTGCACCTGGAGTCTCCCATGTGCACGGAGGCCACGCCCCCACCCCGCCCTCAGGTGGCATCAGCCCAGGATCTGACCCTGGACTGGCTCACA
CTCAGTTGYCTCTGGCCAGTGCAGGGCTCAGCCAGGGATGGCTTCYAGCTGACAGTGGGAGGAATTAATTCATCTGACCGGAATATTCTTTTCTCTTCTG
GGCTGTTGGTTTTTCAAGTGCAACAAAGATTCCATACAGCTCCAAGGAAGGAGCCAAGAAAAACATTCTGTGCCAAAGTGAGATCCTGGAAGTGAAACCC
CRGAATAAAGCTGAAAAACGGGCTCCAGTTGGGTGCCAGGAAATGCAGGACTGGAATGTGACTTGACTTCCGGCAGCGCGCAGGTGCTCCCRGGTCACCT
GCTTTGAGGTCCAGCCTCCTGCCCTGCCTCAGGTGACCACATGACCACTGTGGACTTTGCCCTGAAACCTTCTGGGAGGAGAAGAGGCCTGACCTTGGCG
CTGGGGTCCAGTGGGCRYTGCTCTGGTCCGAGGCTGCTGCTCTTGACCTCTGCTCTGCGGCTGTTTTCCATTGGAGTAGAGGCTCCTCCTGTCCTGTCCT
GCCTGTGGAGGGAAGCAAACCTTCCCCTGGACCAGAGAGAGGAGAAAGCGGAGACAGGTAGCAACGCTGTGGACTGGTGATGACAGGCTCTTCAGCTCCC
TGCAAGTGACCGGGCCTGGGGAACAGGTGAGTCATTGTTTAAACCTCTGTGCCCTTTGTGGAGTGTCTGCCTGTGTGTGTGTGTGTCTCTGCTTCTCTGT
GTGTGAGTCTCTGTGTGTCTGTGTGTGTGCTCACGTGTTYGTACCCATGTCTGTATTTGTTTGTGTCTGTGCATGTGCCCATGTGTGTATAATCAAAGGA
CAAAGCTGGGGCGGAGACTTCCTAGTTCAGATTTCTGATGGCTCACTAAGTCGGATTCCCAGAAGGAGATTCTTATTTGCATTTTTCTTCGGGAAAGTTC
CGGTTTTAAGGTCTTGAAAAAAAAAAACACAAAAAACTTCTGGTAATGAGAAGAACTCTTAAAGAAATCCATTTCAAATGACATCAACATTCCCAATTTA
ATACCCAGTGATATCTAGGAAGCTTGTCAGGTTTTCTTGTAAACTCCTTTTTACAATCTACATTGTGTTTTCTGTATCAGATGGCTGTATTCTGAATGCA
ATGTACAGGTGTACCTCTCGTAATCTCAATATTCTTCACAGGCCCCAGGCAAGGGTGACACAGGATCACAGTTGCCGATAGACTCATCAATCAGACCCTT
CCCTGGAATGGCCCCTTCCCCGCAAAAAAGACTAATGTGGGATTTGCTCTCCGTTTTTTTTCCCTTTAGTGGAAGGGAGGTGCAAGAGATTAAAAAGCCC
CAAGTTAAGATTACTAGAGAAGCGCCAGTCTTGAATATGGTGTTCCTGAAAACATCTTTGTCTTCAACAACCTAATAACATCTTTCACTACTAATAACCC
CATCTTGATTAAATTCTGGAGGTGGGGGTCAGGTGCCACACTTTTAATTTTCTCTTTGGACAGAAGGCTCCAACCTCTCATTATTGAAAGCTTACAACAC
TCAATCACACAAAAAGTTATATAAGAAAATGTTTACTGCAGTCTTATTACAGAGAAAAAATTAAAACTAAGTAAAAATCCAGTATTAGGAAAATGGTTCA
GCAAGTTGAGATAGTTGTAGAAATGTTATATGTCCATTAAACATGATTTTGAAGCAATGTGTGAGACTGCCTTTGGTATTAAGTATTTCTTACCCATMGG
ATAATAATTTTATGTTAAAACTATGGGTTTTGGTTTGTTTTTAGRAGTCATAGAAAAAAACTAGAAGTAGGCAAAAATACCATTTGTGGTTGTATTACGG
GGGTGGAGTTATGGGTAGCTGCTTCTTTTATATTGACACTTGTATGTTTATAGTAAAATAACCTTTTTTTTTGGAGACAGATTCTCGCTCTGTCACCCAG
GCTGGAGTGCAATGGTGGGATTTTGGCTCGCTGAAACCTCTGCCTCCTGGGTTCAAGCGATTTTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAAGC
GTGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTGGACAGGCTGGTCTCCAACTCCTGACCTCAAGTGATCCAC
CTGCCTCGTCTTCTCAAAGTGCCTTTACAGGCATGAGCCACTGCGCCCAGCCCAAAAATAAAATAACTTCATTAAACAAAGAGACATATCATTGTCAAAG
GAATGAGACGCCGGCATCCCAGTGGTCATGGTGCATTCCTTCAGAGTCCACCTGTTTCAGTTAATTCAGACATGTTTCGGGCTACAGATTTTTTGACTTA
GGAAAGGTTTTATTAACCTATGCAAATAAATRGCAAAGAGAACTTGAAGGGGTATCTCTGTTTATTTTAAATTATTTTTTATTTCAATAGATTTTAGGGG
AACAGGTGGTATTTGGTTACAGGGATATGTTCTTTAGTGATTTCTGAGATTTTGTTGCACCCCATACCAGAGCGGTGTACACTGTAGCCATTGAGTAGTC
TTTTTTCCCTCACCCCGCCCCCGCTACCCTTTCCCCTTCCACCAAAGGGTGGAAAGTCTGGGCCGTGCCTTGACCTCTGAGAGCCTGTCCCCAGCTGACT
TGAGCGGATCATCTGCTGGACTAAGTTCCCACCCCAGGCACTCTCACTGTGCCTCAGATGCTGTCTTAGTCTGTTTGTGCTGCTTTAACAGAATTCCTGG
GACAGAAATGTATAAAGAACAAAGATTTGTTTCTTATGGTTCTGGAGGCTGGGAAGTCCAAGGCCAAGGGGTCTACATCTGTTGAGGGCCTTCTTGCTGT
GTCATCCCACAGTGGAAGGYGAAAGGGCAAGAGAACACGCAGGCTTGTGGATGTGCAAGACGCAGCAGTGTTAATCTGTGCTGGGCGTGGATTAACGAGG
GCAGAGTCCTCATGACCCAACCCCCTTCCATTAGGCCCCACCTCCTAGCATGGTTGCACTGGGGACTAAGTTTCCAAATCTGCTTTTTGGAAGATCCATG
CAAACCATAGCTGGCCCCAAGAAATCATCCTCAATCCAGGTGGATATTTCAAAGCACAGGTGCTGTGTTATGTGCTCTTCATGCTTGGCCTCATTCATTC
ATTTCTTAGGAATTAGTACTTACTATGTGCTAGACACTGTTCCCAGCTCCAAGGAAAACAGAATTCTAGCAGTGATTCCTAGTCTTGGCTGCATACTGAG
ATCACCTGGAGAGCTTTTCTTTTTCTTTTTCTTTCTTTTTCTTTYYTTTTTTTTTTTTTTAAGAAACACAGATGGAAAACTTAATGTTATGTTTTTTATC
CGTCTCTGAAGCCAGCATCATACTTGATGGTGAAACTTGAGTATTTCCAGCTAAGATGGGGTTCCAGGCATGTTTGGGATAACCACCCGAGTCTACTATG
TGGAACCCTTCTTCTCTGATGGGTAGAGAGCCCTAAACCCTCCTGTTCTGGACTCCATGACTCTCAGTCACTTTCTCTCTAGAACGATCTTCTTGGTATC
TAGGACTCAGTCCTATTTGTTTTGAGATTGATTCCAAACTTGATTCCCTCCCCTCTTATCCCTGCAGGGCAGACCAGACCAGTCTGTGGCCATGGCTCCT
TACTGGCGGCAGTGAGGGCATGTGGGCTGCTTCCAACCACTCCTGCTTTTCTTCTTTCCTTTTCAAAATTCCTCCCCTTCCCCCTTTAGGGAGCCTCCCT
CTTGCCCACTGTGGTGAGGAAGGGAGAWGAGACTCTGTTCCCAGGACCAGCTGCCCCTGATGGGTTTCATATTTTTTGTGGGGAGCTTCTCTTCCTAGAT
AATAAACACAAAGTGATAACATTAGAACATTATTAGAATGTCACCATTTTKCAACCCCTTAGTRAAATAGTGGGTCGAAGTAATAGTCTTCARTGACTGC
CAACATCACAGAAAGACAACTGGACATTATTTGCCTTCTGTGGGAAGTGCACGCACACTCTCATGGCAATCTTGCCAAAAAATAGCCTGTATCTAATCAG
GTTTATGTCCTGAACCACCGCGGTATCAAAAATACAGAGTTCATAGGACTCTATTCAATAACACAGGGGTGTAATCAGCAACATCCGTACTGGAAATCTA
CAGGACAACCTGATTTCTTCAACACATGAACTGCAAAGAAAAAAAAATACCTGTATCTCTACTGAGATTTGCAGATGATAGAATGCCTGGGATCTGCTTT
ACACAGTACCCTGCRGGGGGAGGTTTGGGAGTGTGAGTGATACAAATGGCTGAGCTGATTACTGGGGAAGCGGGAGGTGGGTCTATGGGCCCATCGGACC
GTTCTCTCTATTGTGGTGTGTACATGAAAGTTTCTATGATGAAAAATACGCAGGGGTCGCCCACGTTTATTTTGATCACGAAGTTGGTTTTCTCTGGGGC
ATATTACTGTGGGTTCTGAGGCTTTAGACACAATGGGAATGTGTCTACGATGTTTTGAGATCATTGAGACACCAACCTTTTTTTAGGTAGATTTTTTCTG
AAACACCAACTTTAATCCATGAACAACCACCCAAGAAATGCTCAGATGCTTTTTACCTCTCCTTGCATTAGATACTTTGGGGACAAGTAATAGATTKGTA
AAAACTGAAAGTAATGGAAGRAGGACAACAAGCCCTGAGACCGTCACMTGTAATCATTGCTTTTCAGGGTCTGCAATGACCCGTGCCCGGRGCTTTCCAA
GCAAAGCTCCTTTTGTTCCTTACCACAGACCTAAAAATGGACCTAAAAATTGCAGATGGGGAGATGGGGCATGGGGTGCAGAGGGRAGCAGGAGTGTGGA
CCTAGGTGGCCTCTGAGTTGGGAGCTCTGTATTGGGCCATCTGCTCCTGACCGAGAAGCAGCCCCGGSGTTGAGCTTGCTGAGATGATGTGGCTCCGATG
TTCCACTTGCTTCAGACGGTTGTGATTCTTTGCAGGGCATGGCACAGGCACACAGGACCCCCCAGCCCAGGGCTGCCCCCAGCCAGCCCCGTGYGTTCAA
GCTGGTTCTCCTGGGAAGTGGCTCCGTGGGTAAGTCCAGCTTGGCTCTTCGGTAYGTGAAGAACGACTTCAAGAGTATCCTGCCTACGGTGGGCTGTAAG
TGAGGGCAGAGCACCCCTTTGTTGGTCTTCAGTGCAGAAGTCTGGGCTGCTGACCCACACCTGGGGCAGATGGGGACGAGGCCCACCTAGGAATCCCCAT
GCTGGGACCTTGAGCTGCCTGTGTCCAGTGCGTGAGGGGAGGGGGTGAGGTCCAAGAGGGCAGCCACAGAATCTACAAAGACAGGAARTGCCCTTGGCTC
TGGGTCAGGTTTCAGCTCAGCTGGAGTCTGCAGGGGGTGGAGATTCTGGGGTAGGACCTCTGGCCCCAAAGGGTCGGGCTGGGTGCGAGGGATTATGCTG
GTGGAAGGGACAGCCCGGAAGAAGCCTCCTGGGCCCTGGCCACTCAGCGGCCTAAACCAGCTGTCCTCTCCCACCACCCAGGCCGCCCTCCTGCTAACAC
TGCTCCCTTGCTTTATTTACCCCAACAGCATCTTCCTTCCTGCCTGGACTTGGTTTACCAGCTTGGCCTGGATTGGGGGTGGGAAGATCATTTTGGGGGK
GGGCGGGGAGGGAGACCTTCTCTCTGTGTTTCTTAAAAAGGCTAACCTGTCATGAAGCTCAGGAGTAACTGTATGGGGCATCTGCAGGCTGCTGGCCTCC
TTCCCATCCTGCTGTGGGCACAGTCTGCCTAGGCAGTGAAACCCAGTTTTCACCTGAAATGGGGAAAGCCAGCGTGTTCTTTATGCCCATTCCCCCTGGG
GGAACACATGCAGAATCAGAGCCTCGGTTTCAAATTCGGACTCTGACATGGATAAGCTGCACATCTCCAAATTCACTCATTCATTTACTCATCTAACAGG
CATCTGTTGAGCATGAACCCTTTTGCAGGCCTGCGTTAGGTGGGATGGATTCTATAACCAGCTAAACAGATGCACCAAACACAGAAACACAATTGCAAGA
TGTGGCACATGACGTTAGCTATTTAGGGAGCCCTTCCATTTTCTCAGGGGGGTGGTTCCTGAAGGATCCYCAGGGGATACAGGGGAATTGGCAGGGGTCT
GCCTGGCCCGACTCCCAGAGCTAGTGGTGAGAAGGGCCAGGGTGATGGTGAGAGGCTGTCTGCAGAGGGGGACCCTGGGGAGAGAGTCAAGGTTACCCTG
TGGTGTGCAGTACAATCCTCTTCTCCATTAGCAAGGAGATCTGTACCCCTCACCCCCCAAGTCCTGATATTGGACTTGGCTTCCTTTAAAAATACATCAA
AATGCCAAGGCTGGCCTGAGGGTGGCCTCAGTTGAGAATAGAGCACACAGATGGGGGCCTCACCAGGCCTGGATGTTGAGAGCTTTGTACCTGGGTGGCT
GGTATTCAAGATGCAGAGAGAGGCAGCAGGTGTCAGGCCAGGTGAGCTGGACTGGGGATGGATCTCACTCTGACACGGAGGTCTGCACACTGTGGCTCTC
TGGCTGTTCTTGTTGTTTTGTGAGTAAGGTTCTGTGGAGACACAACTCTACCTSTTCAGGTACTTACCCTCTGTAAATGATATTCTTGCTGTTCCTCCTC
CTCTATTCACTCTAAAAYGGCAGCAGGGTTGAGTGGTTGCAGCAGTGACCCCATGGCCAGTAAAACCTAAAGTATCTGCTACAGGGCCTTTTACAGAAGG
ACTCCATGACGCCACCCTAGCAGAGCCTGCAGGAGCCAGCGCCCAAAGGCACTCACTAGGTGAGCGCAAGCAGGGCTGAGAGATTCCGAGATGCCCGGTT
GGAGCGTAGGAGGGTGCTTTGGATTCATTGAGACGTGCTTGGACGTGCTCAGCCCACAGAGAGCTGTACCCACAGAGCACCCACCTTTCTTGGGTGGGGG
TGGGGGGGTGATGTGTGGGGTCTGTGAAGCTTCAGGGTGGTGCCGGGCATTCTGTATTTTACAGGTGAGGGGGATGGAGGCCCCGACAATGAGGCGCGAG
GCCCTAGTTCCTTTCATTCCAGCAAGCCAGGGTCCGAGCATCCCCCTCACACCTGCCCTGCCTGTACCAATTGCCTGCCCTCTCTTCAGGGGGCCTACCA
GGGTCGGGGGGTGAACAAAGCTGGGCTTGCTGGGGAGTCCTAGGCCAGGTTGGGGGTCTTTGCTTGGGGGGCAGGCCTGTATGTCTCACTCTACTCCTGG
TCCTCTGTCTGGCCCCGCAGGGGCCATCCCCCTGCCGGCAGCTTTCAGATGAAAGCCAGGGCCTCCCTTCCTCCAAGCCCCTCTCTTCCAGGCCTGGGTT
TATCTCCTCTCTCTGAGGGGAAGGACCGTTCTACAGGCTGGGCTCTGCCTTTCACCCAGAACTGGTGGGTGGAGTCTTTGTTCCCACTCTGGGTCTCTGT
GATGGGGCCGGGGTGGGAGGCTGTGGGCTGTGGCCCGTGGCACAACGGGGAGAGGAGAACAGCCAGATTAGGTTAGCCTGTGGCTCATGAGCTGCCTTCA
TCCCATCAGCCTCCAACCCTGGGGTCCGCACTTTTGTATTGAGCACCTCTGTGTGTGGGCAGCTGTGCCGGGTTGCGGGGTTAGAAATGTGGAAGCTCCT
TCCTTTGCTGTTGGCTGAGTCCCCTGTGGGAACCATGGTCTCCTCTGCTTCCATCCAAGTGTCTGCGTCACACCTTGGGATAATATTACAGCTTTTAGAG
GTAGATATTACTGTAACTATGGATAGATGTCATGCAATTTATTATTATCATTATGTTAATTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAG
TGCAGTGTCTCACTGGAACCTCTGCCTCCTGGGCTCAAGCCATCCTCCCACCTTAGCCTCCAGAGTAGCTGCTATCACAGGTGCGCACCACCATAGCCAG
CTAATTTTTATATTTTTTGTAGAGATAGGGTTTTGCCATGGTGTGCACCACTGCACCCGGCCTATGTTAATTATTTTATTATTATTTTTTTTGAGACGGA
GTCTCGCTCTGTTGCCCAGGCGGAGTGCAGTGGTGCAACCTTGGCTCATTGCATCCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGA
GTGGCTGGGATTACAGGTGCATACCACCATGCTGATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATGTTGGCCAGGCTGGTTTTGAACTCCTGACC
TCAAGGAATCCACCACCCTTGGCCTCCCAAAGTGTATGTTAATTATTAATCCTCATTATAATAATTACATGATCACATATTATAAATGTGGATATTGCCA
CTTTTAGGATGAGGAGATGGGATGTGCTCACTCCTTTAACTTACGTGCTTTGGGGGAAGAGTGATCTGTGTTGCACAAAAACCCTTTGAGAGCAGACACT
CCTGCTTCTTTTGTCACGTGTGGCTTCAGCTTTTATCAAGAACACTGGGCTCCTGTCCAGGGGAGAGGGTAGGCCAGGAGCAGAGCCTCAGAGGAGAATG
GGAGTGCTGTCCTCACAGGCGGCCTGGAAATGCAGGAGGCAGCACGCCCAGTGCTTGGCTGCAGGATCCCCGAGGGAGGGACAGGATGGATGGCCACAGG
CATGCCACTCCTTCCCTCCGTCTGGATTTTTTCCCTGTGAAACGGGAGTGTAAACACCTTCCTGGAGTGGCCTCTCCATGAAAGGTTGCTGTCACCCTGG
GTGGCTTAAGGTCACCAAGGCCGGCCCTGTCCRAGGGGTCAGCCTTCAGGAGGATTGACTCAGGTCCCTGGGGCCCTCCCGAGGGTCTGGTTCAGTCGAC
AGGTGTGTGGGGTGGGGCCCACAGCAGGACATGACACAGGTGGTGGGCTCAGCTCCTGGCAAGACACCGTCCATCCAGAGGAAGCAGGAAGCAGAGCCAG
AAAGGGACATGGACTCGAGCCCTGAAGCTGGAAAGCCAACGTGCTGGCTGGAGCCAGAAGAGCAGGCAGGAGCAGAGGCAGAACGGACGGGAGTCCGAGG
GACGGGAGTCCAAGTGAGCGCAGCCTCCCGCCCACCCCCGCCAGGGCCTGCTGCGGAGGTGGCAGCTTTAGGAGCCCCTGCTGTGTCAGGGACGGGGGCT
GGACCTCCCCATGGACTGCCCCCACTGTCCTAACAGGCCACAGCAGGGGAGATTCTGTGCGCTGCTGACTTTCTGCATGACATCTTTTGGAAGGATGGTG
ACATCTAGTGCTTGTGTGCACATTTGCCAGCTGAAGCCACAACTAACCCCAGACTTGTTGGGCTTTTTCCAGGAAGGGGACGGTGACAAACAGGTACTGA
GCACATTCAACTTGGCACCAGCTGACTTCCCTTCTAAATCGAGAACGTGGCTGACGTCCTAGAGCCCCCAGAAAATAAGTTTCCATTTCATGTTCCTTTC
AATTTGTCATCAGCTCACTATTTTTACAAAACAGCCAAGTGCTACAGAGAGGGCTTCAATGAGCAGAATTGGCTGTTTATTTAAATTAAAAGGTAAAAAA
AGCAAAACCACTTAAATGATATTAACATTTAGTAGAGAGGCTGGGCGCAGTGGCTCATGCCTATAATCTCAGCAATTTGGGAGGCCGAGGCGGGCAGATT
GCCCGAGCTCAGGAGTTGGATACCAGCCTGGGCAACATGGTGAAACCGTGTCTCTACTAAAAAAATAAAATTAAATTAAAAAAATAAAATTTAGTAGAGG
AACTTTTTTTTTTTTTTTTAAGATGGCGTCTCATTCTGTTGCCCAGGCTGGAGTGTGGTGGTATGATCACAGCTCACTGTAGCCTCAACCTCCTGGGCTC
AAGCAAGCCTCCACCTCCACCTCTTCAGTAGCTGGGACCACAGGTGTGCGCCACCACACCCAGCTAATTTTTGTGTTTTTTGTAGAGACAAGGTTTCACT
GATCTTAAGCTCCTGAGCTAGATTGATCTTCCCTCCTTGGCCTCCCAAAATGCTGGGGTTACAGGCATGAGCCACTGTACCCAGCCAAAACTTTATTTTT
TAATTACATTTTGGCCTTAGCCATGGAGATATAGAAATGTGGTTAGTGGGTTTCTGAAAAAGGTTATGATAATAAATGCATGCTGTCTTCCGGGTCAGAG
CCACGGAGTGCACGAGACTAGGTTGCCTCAAATACCTGTCCAGGGGCCCACCTGAGGGCCTTACATCTCTGCAGGGAAGGGAAGGGTCTATGTTCTGTAA
ATAGCCAAACATTGACTATTATTATGCATTATCATTGCTTGGACTAAAACCCATGCCCTCCTTGGAAATTTGCTGGAATTTTACATTAGTGTAAATTCAA
CCACCAGCCATCATTTTCCCTCCCCTCCTCCCCCCCCTTCTTTTTTTGAGGCAGAGTCTCACTCTGTCTCCTGCTGCCCAGGCTGGAGTGCAGTGGCACA
ATCTTGGCTCGCTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCCTGCTTCGGCCTCCCGAGTAGCTGGGACTACAGGGGCATGCCAGCACACCTGGC
TAATTTTTGTATTTTTAGTAGAAACAGGGTTTCACCATGTTGGTCAGGCTGGTCTTGAACTCGACCTCAAGTGATCTACCCACCTCGGCCTCCCAAAGTG
CTGGGATTACAGGCATGAGCCACTGTGCCCAGCCTCCAGCCATCATTTTCAACATGGAAAAGGAAAATATGAGAGGCTAAGATTGGTAAATGGAGGAAGA
AAACCTGAATTTTATGCTCACGTTTCACCCTGCGCCAGCTTTTAAGATAAAACCAAATTCAAACTGAGAAATGTGATTTGAAGTGATGGGAAACAGAAAG
ATGTGGATAAAAGGCCCACGTTTTAAGACAACAAGTCCACAAAGAGCAAAGAGGACAGAAAGAAGAAGCAAAATTCATATGCCCTTTCTCTCCTTGCTCA
GGCGATTTAACAGCCACCNNNNNNNNNNNNNNNNNNNNTGGGCACGGTCTTCATTCTGGCACCATTGTCAATCCAGTGGAGCATCTGGTGTGTTCAGAGG
TTTATAGCCGGTTCAGTCCCGACAGTTGCCCCATCTAAGCTGGAAATCACTGGTCCTACTGTCTGGATGGAGACTGCAGCTTTGTTTGACCTGGGGAGTT
GGTCTGACTTCAAGTTCCTGGACCTGCAGGGAACTGCAGGACATGCGGGCAGAAGAGCCCAGGCAGTGGTTTCCGTTTAGGAAGAGGTTGTCTCATGATA
GAGAAGCACGGTCTTGCTGCACCATGCTGGAAAGCTCTGTCCAGCCTCCTGTTCTCTGTCCAGCCTCCTGTTCTCTGTCTAGTGGGTGCAATTGAGTTTC
TCCCACCCGTAAAGAGGCGATTAAGTCCTAACCCCCGGAACCTGTGAGTGCGACCTTATTTGGAGAGAGGGTCTTTGCAGATGTAATTAATTAAGGCCAA
CAAGATGGAACTTAGGATAGCCCTTAAGTCCAGTGACTGACATCCTTATAAGAAGGGGAGAGGACACAGCCACAGAGGGGCAGCCACGTGAAGACAGAGC
CAGAGATGGGGGTGATGCAGCCACCAGGAACACCAGGGTTGCCGGCAGCCCCTGAAGCTGGAGGAGGCCTGGAATGGATTCTCCTTCAGTCTCCGGAAGG
AACCAACCCAGCCAACGCATCAGTTTTGGACCTCTGGCCTCCAGAACTGCAGGAAGAAATTTGCTAATTTGAGCCACTCGGCTCATGGGACTTTGTTTTG
GCAGCCGCAGGACACTCATGCACTGTCCTTGGAGTGTAAGTTTTTATTTTAAACATGTGGCTCCATTTGCCAGAATCTCCCCAACAGACCCCAAACCCAA
TCCAGGGTCTAGGCAGGGTAGCAGCTTTGACAGGAGCCTGTCGGTGCTGGTGGCTCCTCCATGCCCCAGACACCTTGCCTTCCCCCGCCCCGTCCTCTCC
AGTTCTGTGTATAACACATTCCTGACAAGCCACACACAATGGGGCAAAACATTTTGGAGATCTATAAAATAACCATTTTAAAATCATATAACTTTGGAAA
GCAAAGGGTAGAAAATCTTTAAATGAACAGTGCATTGCCCAATATGTTAAAGTGCTTGGGAGTAGTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TTAAGCAGGTACATGGCTGAGTAAGACAAAGCCCCTGCCTTCCTGGGGGAGACAGGTGGAGAACGCAGGAGGCCTTGCCTCTGGGTGTGTATGGGGTGCA
GGGAGGCTTCCGTGGAGGCAGGGGGCCCAGCAGCCCTTCCGGGGTTGCCGCTGGAAGATCTCAGAGGATGCCTAAGAGTTTTCTAGGTGAASAAGAGGAA
GGATACCATGCAGAGGGGACAGTAGAGAAGGGTGTTGGTGGGGAGCAGCATTGGGAAAGTGGGGAGGTTAGCAGGAGGCGAGGAAGGCCTTGGAGGAGCC
TATGCAATCGTGACTGCCTCTGTGCAAGATGGGTCTGGCAGGCGAGGGGCCGGTAGGCCGGGGGTGCCCAGGGCTCTAGGGGTTCCCAGAGCCCAGCTGC
ATCGCTGGAAGCTGGCAGGGATGCATCGGACTCCCAGTAAGTGGAGATCCCTTTCACGGCATATGTAGCCCAGAGCTTTTGTATTAGGTCCTGGAGAGAT
TTATCTTCCCATCCAAAGCCTCTCCAAAGGCCCCATAGCAATCACTCCCAACACTTTGCTCGATGTGGAAGGCTCCATCTCCCAGAAGAACTGTTTGCTC
AACCTCCTGGCCATGCGGGCGTGGGAGATGCATGGCCAGCTGTCCCTCTGAGCCCATTGCTGTGCCTGCGGCTTGCCGTGGTCCCACCTGAGCCGCATGT
GGCAACCTCGTCCTCTGAGTAAGCCCTCTGGGCCTCCCTGTTTCAGGTGCGTTCTTCACAAAGGTGGTGGATGTGGGYGCCACCTCTCTGAAGCTTGAGA
TCTGGGACACAGCTGGCCAGGAGAAGTACCACAGCGTCTGCCACCTCTACTTCAGGGGTGCCAACGCTGCGCTTCTGGTGTACGACATCACCAGGAAGGT
AGGGCCCGCCTTGAGKCACRTCCCACCCTCCTTCCCAAGCACCTGCCTTCTGGTTTCTCCAGTGCAATGATGCCATGGCGTAATCACAAGGAACAGAGAC
TCCATTAGTGAGCAACAGTCACCTCCTCCAGGATGGCCTCCTGACAACCCCCCATCCTCCTCCACAGTGGGGTTCTGCTCCTCCGTGGTCCACAAAGAAC
ATGCCGTTGCCATCTGCCACTCAGTAGTTCCTGGTGCTGCATTAGGGTCAGGGTTTGGGGTGGTGGCCAGTCCCCCAGACTCTCTTGCACAAAGTGGTCC
TTTGAGGACAGCTAGGCGTGGGAGATTCAGGAGCTCGAGGCCTGACCTGAAATACCCCGTGGCTGGCAGTCTCCTGGGCCTGGTCAGGGTGAAGGATCTG
ATGTGTGTCCTAGCAGTTTTCTGCCTGGCCGCACAGGTCACCCAGGACAGGAACGTGCCCTCCTCAGAGGAAYGGAGCAGCCCTGCAGGTGCGCCCATGG
CCAGTTGGATTCTGTGACATTTTACACAACGTGATCAGCAACACTGGCTTCCCCCTCCCGGAATAGCTAATGACCACCTATAAGTTTTGTTTGATGTTAC
TTTTTTTCTTCTTTTCTAGGATTCCTTCCTCAAGGCTCAGCAGTGGCTGAAGGACCTGGAGGAGGAGCTGCACCCAGGAGAAGTCCTGGTGATGCTGGTG
GGCAACAAGACGGACCTCAGCCAGGAGCGGGAGGTGACCTTCCAGGTACCGCCCAGGAGACCCTGCTCTGCTCTTCCACAGCAGGAGAGAGCCCTGCCYG
CCTGTGTCAAGACCTTGGCACTCACACTTTCATACACGCACACCCACACACGCACACACTTACACATGTGCACACACACCTCTACACGCCCACATGCATT
TACACACATGCACACYCCCCACATTCACTCTYACTTGCACCCACACACATTTACAAGTGAACACACACACACGCACACACACACAGCTTTCCACCTGAGT
TTCTCTTTTAGTCAAAGATTTCCGGTCTTTCCTGAAAAACTCAGGCCCAGTGCAATGGCAGTTCAAGCCCAGTGGCCGGCAGAGGGAAGGGCAGGGCGGC
AGCTGCAGGGTGGGCTCGGCTTGAACGAGAAAAGTGATCTAGTTCCTCAGCAGGGCTCCCTTCCCTACTCTGTTCCCAGAAGGGGCTTCTGTGCAAATGT
AGCCTCCTTCACTCGAGTTTTGTCAGTCCTCCTTACAGGCAGAGGCAGCGGTCACCCAGGTGTCGCTGTTGTTTCTCTTCCACGGCATCCCACCTCCCCC
ACCACATTTAGGACGAAGACCGTGTAAACAGCTGCAGACAAGTGGCTGATGGGGAGACCCCACACACACTAGAGGCTGGCGCAGGGGAAGACCCAACTCA
GGGCTTAGACCGACGGGCGCGCCTCCCAAAGAGAAAAGGCCCCAGCTTCAATGGAGGCTGTGGAGAGATGGAGAAGTGGGGTGAAGATTTTGGAGAATCT
CGGGGGAGAGCAAGGGGAGCAAAGGGAGACAGCGTCAGTCTGAGCCCTCGTTGCAAGTTGGGGTGGGGGAGAGAGGATCCTGGCAGCAGAGCTGTGCCCT
CTGAGAGTGACTACATGGGCTGTGTGCTTGGGCAGGCACAAAAACATGGGCACGAGGTTACTCAAGGCTTGGAGGGGCAGTGGGCGGCCAGGGTGGGTTT
GGAGCGTCTGTCTGGGGAGCTGGCTGGGGAGCTCAGTGGGGACAAATGCAGGGCCGGCCGAGGGATCTCCGGGCCAGGACAGGAGGAGTGCACTCACGAT
GGTGGATGGTGCGAGAGCTGGGGGCATGGCCGGCCACACCTGCTGCCAGCTCCATGTCTGGCTGGACAGTCAGGAGCCTGAGCTGTGCCCTCTGGGATCC
ACCACAGGCTCCTCTTCCTGGGAGAGTCCCGGAGGCCAGGGGAGGGGCCTGCACAGGAAGGCCCCCATTCCTCGGCCACCCTCGACTCCTGGGCAAGGCT
GTGGCCTTCCCATGAATGCTTTCTCCTGGTCACCCGTTGCAAGCCTGCTGTTTTCTGGTTTGCCTTTGCTCTGGGACATCCATTTCTCCCCAGAGGAGAG
CTGTGTTGGAAAATGAGGGTTCCCCAGAAGAAGGGCCCAGGTGGGTGCCGTCCAGGGGCCTCCCTCTGCCTCATGTTTCCTGGGTTCTCAGTTGGTTCTT
TGCCCAGCATCAAAGCCCACAGGTGCCAACAGGCATGATGGGAGGGGAACCTGGGGGTGGGGACTTGGCTTTCCAGGCCCTGCAGGAGGAGGAAGGCCGC
MCCCYGCCAGCTAGAGGAAGAGCCTCTTCCAGGGAGCACACCCCGCCCCTCCCTGGTCCTGGCTGCTCAGGAGTGCCAAGAAACACAACTTGGACACGAA
ACGTGGAGGAGTGCGGGCTCCAYGGCTGCAGCTTTCTCGGATCTTACTGTTGGARGTGAACCAGGTGTCCTTAGGAAACTCTCTTATAAACAGCGCTGGA
TTTTGTGGCTGTTTCCTTCAGGAAGGGAAGGAGTTTGCCGACAGCCAGAAGTTGCTGTTCATGGAAACTTCGGCCAAACTGAACCACCAGGTGTCGGAGG
TGTTCAATACAGTGGGTGAGTCACGTCCCCGTGGGCCAGACAAGGGGGAGGTGCTTGTCCCTGACCAACTTCCCTGGGTCCCTGTTGCTGGTGACGTGGT
ATCCCATAGAATGTCTTTAGGGACTGGATGGTGACCAGGAGGGKCAGGAGGCCCTTGTTCTATGGTTCAGGGTAAACACAGGAGGGGCGGGTCCTGGGGT
GGCTGGTCTGCAGGGCTGTGCTGGGCTGGGCGACTTCCCTCCCTAGCCAGCCCCCTCCTCTTGCTGTTCACAGCCCAAGAGCTACTGCAGAGARGCGACG
AGGAGGGCCAGGCTCYACGGGGGGATGCAGCTGTGGCTCTGAACAAGGGGCCCGCGAGGCAGGCCAAATGCTGYGCCCACTAGGTGCAGCYACTCCTGGG
GGCTGTGGGGAAGACACCCCCTGCCTGGGCCATGGCCAGCTCTAGGTGGATTCTGATTCACTGTCAATGCTGGGTTGCTCCCGAGCCCTAGATGTTCCTG
GAAGTTGGCCCCCTTTATGAAAACCACTTCCCACAGCCAGTGGGAACTGCCAGAGGAAGATCTGGCGTCRCATGGCTCCCAGGAAAGTGCTGTGCCCTAT
CCCCACTGATACCATCTGATTCCCCGATGCCTGTGCCTGTTCCACCTGGACGGTGGCCCCCTCAGCCTGGCAGCCTCTGGACAGAGAGGAAGGAAGGATT
GGAAAAGTCCCCGSAGCACAGCGACGGTGGGAAGATGCCTTACGTCTGATCTTGATGGGGGCACTGGCCTGGAGCCTGGGCCCACCTGCTTCTGGGGGGT
TGGGGAGCAGGCCAGATGGAGGTGGTGGTGCCAGGAARAAATGGAGCGATGACTGACTGTGGGGTGGGCCCAGGATTTCCRCATCTTGGTGAAGTTGCCC
CTGGRAAGGGCAGCTGGGGGCAGTGGCGCCAGTTCCCTTCCATGGTCTCCCGGCTGGCAATGTGGTGAAGCTGAGTTTCTGTCCAATGAGCAGGAAGATT
YTGAGACATTTCGCCTGAGATATAAGTTGTACTGCGTATGCAGTTTTTCCTCCAAAAATTAAATTGCTTTTGACAATCTGGCTTTTAGAAGTTTTTGAGG
ACAAGGCAGGGCACTGCGCCTGGTGGATGGTTGTAGGTATTTCTGTATAGATTCTGGGAGGGCTCCTGTTAAGTAAATAAGGAAGCAGGCCCATGCGGCA
GGCTGTGACTATCGTGGGCCTGGCCCAGCTCTCTGGATGGGATGCATTCCCAGATGGCCACACTTCTTCATCCTGCCTGCCTCCCTTTACAGAGAAACCC
ATGTCTGAGTCTGTTTTTGTGTTGCTATAAAGGGATACCTGAGGCTGGGTGATTTATGAAGAAAGAGGTTTATTGGGCTCATGGTTCTGCAGGCTGCACA
GGATGCACAGGGCCGGTATCTGTTTCTGGTGAGGCCCCAGGCTGCTTCCACTCATGGCAGAAGGCAGTGAGAGCTGGCGTGCAGAGGTCACACGGGGAGA
GGAAGTAGGAGAGGGTAGCAGGGAGGTCCCACTCTTTTTAACAACCAGCTCTGGGGGAACTCTTACAGGAGCTTTGGAGTAAGAGCTCCATCATTACTGC
TAGGATGGCACCAAGCCATTTATGAGGGACCCACCCCCATGACCCAACACCTTCCATTAGGCCCCACCTCTCACACTGGGGGTCAGAGTTCTTCTTCTTT
TTTTTTTTTTTTTTTGGAGATGGAGTGTCGCTCTGTCATCCAGGCTGGAGTGCACTGGCACGATCCCAGCTCACTGCAATTTCTGCCTCCCAGGTTCGAG
CGATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACGTGCCACCACACCCATCTAATTTTTGTATTTTTTAGTAGAGACGGGGTTTCATCA
TGTTGGCCAGGCTGGTCTCCAACTCCTGGCCTCGGGTGATCCACCCGCCTCCACCTCCCAAAGTGCAGGGATGACGGGCATGAGCCACTGCGTCTGGCCC
TGGGGGTCAGATTTCAACATGAGGTTTGGAAGGGACAAATATCCAAACTGCAGCAACCCAGACCCTGTTTTGGGAGGTAAACCCCACATGATGTTTTCCT
GTTGGGTCTCTATCTGGACACCTGATGTGGCAAGGTTATTTCAAAGGTGGCCACTTTTTGGAAGGTGATATTGGTTTTCATCCTTGTCCCTATGATAAGC
AGGTGTAAGTTTTAAACAATAAGACATTGTTATCCACCTGGAAAAAGTGGCATCACTGTATTGGCTGCTGTAAGGATCAAGGAAGGAGAAAGCAAAATAC
CTCCCGTTTGACGCTGAGCTTCTCATCACACAGAAGGGGAAAGAGCTCTGTGCCTGAGGCTTCCCCGGCTCCTCCGGGCTTCCTTCTGCTCTCACTCACT
TTGTGTAGAGATGCCAGGCCTTGACCTTCAGTGGGGCCCAGACCATGGGGAGCCCTGGCAGGGGATGGGGGAGGGGACACAGAGGCCAGCCATTGCCTAG
GGCCTGTCTGGTGAGGCTGGCTGTGTCCTGGCCAGAAGCCACTGCCCCTGTCCAAGAGGCCTCTTCCTCCTGCAGGTTCTGGTGGCTGCTCCCTCTGCTC
ATCCATTGGGCCTAGGGTGGGCACAGCCCCTCCTTGCCAGCCTGGGTTTCTCAGTGTTCCAACCACAGCTTCATAATAGCTCCTCCCTCATGATCCCTGG
CTTCGTTTTCCTAACTGGAGGAGCCACCTGGGTCCACTGGGCCCCTGGCAGATCCAGCTTTCAATCTTGGGGACAAGGAAACATCTTGGATCTTCCTTGG
AGTCTGGCTTTCCTGGTGCTAGTGTGACCTGAAATGAACTCCTCACGTGATCTTTACTAGACAAATGCAGAGCAGATTTCACACACCTCTGTCATGATCT
CCAAGAAAAGCTAAAGGATAAATAAAGAAAACAATAGCTTCCTAGAGGGCCTGTTCCCTTGATTTTCGCGAGGACTGTCCTCGTTTCTTAGACAATTTCA
CAGGTGAAATCTGACACTGTATTATTGCTATCCACACTGCAGTTTCCGGCTGCGAGTAAAGTTGGACCATTTTTCACGCGATGATTCCCTTGCCGATGAA
GAACATGAAGTGTGAGTCCCTAGTGTGCTAGGCTGTGTCCTCGCGCCCTGTGCCCCCGCAGCGGGCCCTCAGCCGGGGTGGGGACCCAGCTTGCGGGCGG
CAGGAGGCTGAGGTTGCCCGTGGCCACCAGATGGCGCTCCAGCATTGTGGAAGGCAAGCCCCACGGTCCTGGCGTCCGGAGTGCTTGCTCTGCTGAAGGG
CGAACCAGGAGGCTCTCAGAGGAGCTGCAGAGGAGCGGCTTGATGACATAGAAGGGGAAGAATACAAGGGAAGTTTGTAGGATGCCTGTAGGTCTGACTG
CCTGCTTCCCCCTCTGTTTTGACGACCTCCTGTGACTATGCCAGCATTTATTATTAAAATGTGTCCTTTGACTCCTTCAGGAATCATTTCATGGCCTCCC
CAAGAGTGGACAGATCTGTGGTGGTCCTGGAACCCTGGGTCTCCCAGGACTGTGACTGCCCCTTTCCCCTCCTCCCTCACCACTAGGCAGGTGGGGCTCA
ACCCTGTGCTGGAGTCACCTGCGGAGCTTCGGAAAGCCCCACACYGGGGCAGGGTGCGGTGGCTCATGCCTGTAATCCTGGCACTTCGGGAGGCCGAAGC
GGGAGGACCACTTGAGGCCAGGAGTTTGTGACCAGCCTGGGCAACAAAGGGAGACCCTGTTTCTACAAAAAGCAAAACAAAAAATTAGCTGGGTATGATG
GTGCACACTTGTAGTCCTGGCTACCCTGGAGGCTGAGGTGGGAGGATTGCTTAGGCCTCGGGGGTCGAGGCTGCAGTGAGCCATGATCAAGCCACTGCAT
TCCAGCCTGGGCACCAGAATGAGACCCCATCTCAAAAAAAAAAAAAAAAAAAATGGAGCGCCTCAGCTGCATATCACCCAGAGGTTCTGATTCCATCAGA
CTGCCCAGGGATTTCTAAATCCTTCCAGGTGAGCATAGGTGAGGCTGAGAACCTCAGTGAGGGCAGGGCCTCTGTCTGTCCTGATTTCTGTGGGATTCCC
AGGGTCCTCTACACTGTCTGGCACACACCAGGCACTCAACACATGTGTATCCAACAAAGGGAGGAAAGCATGTTTTTTTTCCCCAGAGACCTAAAGAACA
GGCAGGCTTTCCTGAAAACAGCCCCCGCCGCCCCTGACACCTGCGTGTGGAAGACTCACCTGTGTCAGTGCTCCACCACCTTATCTTCCTGTCCCGAAAC
GGGGCTGGGGTGGGGCAGCAGGCAGGAAGGCCCTATTTCTGCAAGCACACAGGGAGAGGCCCCAGCAGGGCTGCAGACATTTGTGTCGCAGATGATTCAG
GATAAATGGGTCCAGGACCCCACTGGCCCCAGATCCTGGGAGAAGCTGGTCCATGTACCCACTGTCCAGGCTGCTGCTGGGGAAGCAGCTCCAGCCCTGC
TTAGCCTGAGTTCGGACCTGGGTCTTCTCGTGAGCTGTTGTTTGCCTGTGGGGGGTGGTGGTGGATGCCGGAGGCATGGCAATGTTGATGAGTGGCCCTG
GGAGCCCCTGCCATCCCAGCCTGTGATGCTAACCTTTTCTTCTCTCTCTCTTTCTCTTTTTTTTTTTTTTTGTTTTGAGACAGAGTTTTGCTCTTGTCAC
CCAGGCTGTAGTGCAGTGATGGGATCTCAGCTCACTGCAGACTCTGCCTCCTAAGTTCAAGTGATTCTCTTGCTTCAGTCCCAAGTAGCTGGCACTACAG
GCGCCCGCCACCACACCTGGCTAATTTTTGCATTTTTAGTAGAGATGGGGCTTCACCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCGCCCATCTC
GGCATCCCAAAGTACTGGGATTACAGGTGTGAGCCACCGTGCCCGCCCTGTCTTGTTTCCTCTTGAGTATGTTCCCATCCCATTCTTCTGATGGGTCTGC
GTTTCCCAGAGTGGCTGACTCACAGAACTATTCTTTTTAATTTTTTTAAAATTTATTCCCTGTTTAGGACTCCCACTGGCCAAATTTAGGCCAATTCGAG
TGTCAAAAATTATAAAGTTCTGAAAAAAAAGAAAAAAAGAAATATCTTCTCTGGAAGAATCCAACTAATGACTGTGGAAGGAATTAGAGAATCACCATGG
TGTGGGGGTGACTGGTGGTGCAGCAGCTGAGCCTGGCATGGGTAGTCAGGGGACACTGACATCTCAGGCCGCAAGCTGGCTGGGAAACAGGATTTGGCCA
TGGGGCCCTGGCCCCAGCACAGATTTCACATTGATCACACAGGGAAAAAACCTCTTACAATGAAGAGATCTGTCTCTACCACAGGGTCAAATAGCACTGT
CAGAGAGGGAGCCCAGGATCCCATGGTCAGATATGATGCAGTGGGAAGGACACAGTTTTTGGGTCCACAGTGCGCGACCTGAATCCAGGCAAGATCCTGG
ATGCCCCTCTCTGATGACAGGAAGTACAGGGAACGGAAGAACAGGGACATCACCTTGGGGGAACAACTTACAAATCACACAGGTGGAGCATTTTCCAAGA
CGACTCATCTGGGTGCTTGAAAAATTCAACACCAGGACAACATAAAAAATTAACTGGTCGGAAATCAAAGAGAAACAACGGACTGTGAATGCAGATTGGA
GCCCGGTGGGGGAAAAAGGAGACTGTCTTGCTGCATGTGGGGATTTCTGAGTACAGACTAAAAACTAGATGATATTGTGAAATTACTACAACGGTTTGTT
CAGGTATGATGATTTTATGGCTATGTAGGAGACTGGCCTTATTCGTGGGAGAAGGATGCTGAAAATATGCTTCTAGTACATTCACTCTGTTCTTCAGCCA
CTGCCGTGGTCCAGTTCTAAGACGTTTCACCACCTCCAAAAGGGAACCCCCATATCCATTAAGCAGTCATCCCCCCACCCCTCTTCCCTATCCCCTGACA
GCCATGAATCTGCTTCCATAGAATATGCAATGTCATACAACGTTTTTATATAAACAGAATCATACAACATTTGAATTCTTGTGCCTGGCTTCTTTCACTT
AGCATGATGCTTCCAAGGTTCATCCGTGTTGTGGCATGTATCAGTGGTCCATTCCTTTTCCTGGCTGAGTAATATTCCATTGCATGGATAGACCACGCTG
TGTTTTTCTATTCTTCTGTTGATGGGTGTTATGAAATGTTTGTGTCCCCGCCACTGCAAATTTATATGTTGAAATCCTCCCCCCATTATGGTGGTATTAG
GAGATCGGGTCTTTGGGAGGAGATTAGGTCATGAAGGTGGAACCCTCATGGATGAAATTAGTGCCCTCATAAGAAGAGGCTAGAGAGCTTGCTTCCTGTT
TCTGCTCTCTGCCATGTGAGGATACAACGAGAAGACGGTGTCTGTCAACCAGGAAGATGGTGTCGGATCAAGGTGTCGGATCAGCCAGCACCTTGATCTT
GGACTTCCTGCCCCCAGAACTGTGAGGAGTGAGTGTTTACTGGCTGAGCCTCTGTGCCTATGCTATCTTATTAGAGCAGCCCGAACTGACTAAGGCAATG
GGCATTCAGGTCATGTCCACCCTTTGGCTACTTGGAAGGGTGCTGCTGTAAACGCTGCTGTGATGTGCTGAGCACCTGCCCTCAGTTCTCCAGGGTCTAC
ACCTGGGGCGAATTGTTGGGTCGTTTGATAACTCCGTGTTTAACTTTTTGAGGGCTGTGGCCTCTTTAAGGCCTGACCCAGCCCCTGCTGCCTTCGGAAC
AGACCTTGCCCCCCTTCCTGTTCCTGCAGGCTCACTCTACCCTGGCGAGGTGGCTCAGGGCTGGAGGGGCTCCCCTGTAGCTGGGGAGGTGCAGTCACCC
CAACTCAGCCCCGTGTAGGTGGTCTGGGCCTTGCCACTGGCCCCTCTGAGCATGGATGGCCAAGAGGGCTGTGGTCAGGATGGGCTCCTGAGATCAGCAT
CTGCAGGCAGGGTCCAGCAAGAGTCCAGGCCAAGCTTTGGGTTGGAGGGAGCTGGTGAAGCCTGTTACATGGCTGGGTG


SNP Information

Context             (SEQ ID NO:28234):
CCCTGTGAAACGGGAGTGTAAACACCTTCCTGGAGTGGCCTCTCCATGAAAGGTTGCTGTCACCCTGGGTGGCTTAAGGTCACCAAGGCCGGCCCTGTCC
R
AGGGGTCAGCCTTCAGGAGGATTGACTCAGGTCCCTGGGGCCCTCCCGAGGGTCTGGTTCAGTCGACAGGTGTGTGGGGTGGGGCCCACAGCAGGACATG
Celera SNP ID:            hCV15983803
SNP Position Genomic:     14733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28235):
GCTTTTTACCTCTCCTTGCATTAGATACTTTGGGGACAAGTAATAGATTTGTAAAAACTGAAAGTAATGGAAGGAGGACAACAAGCCCTGAGACCGTCAC
M
TGTAATCATTGCTTTTCAGGGTCTGCAATGACCCGTGCCCGGAGCTTTCCAAGCAAAGCTCCTTTTGTTCCTTACCACAGACCTAAAAATGGACCTAAAA
Celera SNP ID:            hCV27858774
SNP Position Genomic:     10648
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,40)   total(A,75|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:28236):
GCTGTTGGTTTTTCAAGTGCAACAAAGATTCCATACAGCTCCAAGGAAGGAGCCAAGAAAAACATTCTGTGCCAAAGTGAGATCCTGGAAGTGAAACCCC
R
GAATAAAGCTGAAAAACGGGCTCCAGTTGGGTGCCAGGAAATGCAGGACTGGAATGTGACTTGACTTCCGGCAGCGCGCAGGTGCTCCCGGGTCACCTGC
Celera SNP ID:            hCV15969510
SNP Position Genomic:     6202
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,308|G,1173)   total(G,1173|A,308) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:28237):
GAGCAGGCCAGATGGAGGTGGTGGTGCCAGGAAGAAATGGAGCGATGACTGACTGTGGGGTGGGCCCAGGATTTCCACATCTTGGTGAAGTTGCCCCTGG
R
AAGGGCAGCTGGGGGCAGTGGCGCCAGTTCCCTTCCATGGTCTCCCGGCTGGCAATGTGGTGAAGCTGAGTTTCTGTCCAATGAGCAGGAAGATTCTGAG
Celera SNP ID:            hCV11935207
SNP Position Genomic:     22505
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:28238):
TCAGCAAGTTGAGATAGTTGTAGAAATGTTATATGTCCATTAAACATGATTTTGAAGCAATGTGTGAGACTGCCTTTGGTATTAAGTATTTCTTACCCAT
M
GGATAATAATTTTATGTTAAAACTATGGGTTTTGGTTTGTTTTTAGGAGTCATAGAAAAAAACTAGAAGTAGGCAAAAATACCATTTGTGGTTGTATTAC
Celera SNP ID:            hCV11525123
SNP Position Genomic:     7698
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28239):
CCCACCTGCTTCTGGGGGGTTGGGGAGCAGGCCAGATGGAGGTGGTGGTGCCAGGAAGAAATGGAGCGATGACTGACTGTGGGGTGGGCCCAGGATTTCC
R
CATCTTGGTGAAGTTGCCCCTGGGAAGGGCAGCTGGGGGCAGTGGCGCCAGTTCCCTTCCATGGTCTCCCGGCTGGCAATGTGGTGAAGCTGAGTTTCTG
Celera SNP ID:            hCV11935208
SNP Position Genomic:     22481
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;JBIG-allele(G,589|A,912)   total(G,589|A,912)
SNP Type:                 UTR 3


Context             (SEQ ID NO:28240):
GATTTTGAAGCAATGTGTGAGACTGCCTTTGGTATTAAGTATTTCTTACCCATCGGATAATAATTTTATGTTAAAACTATGGGTTTTGGTTTGTTTTTAG
R
AGTCATAGAAAAAAACTAGAAGTAGGCAAAAATACCATTTGTGGTTGTATTACGGGGGTGGAGTTATGGGTAGCTGCTTCTTTTATATTGACACTTGTAT
Celera SNP ID:            hCV11525124
SNP Position Genomic:     7745
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28241):
CCCAAGAGCTACTGCAGAGAAGCGACGAGGAGGGCCAGGCTCTACGGGGGGATGCAGCTGTGGCTCTGAACAAGGGGCCCGCGAGGCAGGCCAAATGCTG
Y
GCCCACTAGGTGCAGCCACTCCTGGGGGCTGTGGGGAAGACACCCCCTGCCTGGGCCATGGCCAGCTCTAGGTGGATTCTGATTCACTGTCAATGCTGGG
Celera SNP ID:            hCV25973482
SNP Position Genomic:     21974
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,17)   caucasian(C,21|T,5)   total(C,36|T,22)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:28242):
CTGCCCCTGATGGGTTTCATATTTTTTGTGGGGAGCTTCTCTTCCTAGATAATAAACACAAAGTGATAACATTAGAACATTATTAGAATGTCACCATTTT
K
CAACCCCTTAGTAAAATAGTGGGTCGAAGTAATAGTCTTCAGTGACTGCCAACATCACAGAAAGACAACTGGACATTATTTGCCTTCTGTGGGAAGTGCA
Celera SNP ID:            hCV11525125
SNP Position Genomic:     9851
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28243):
CAAAGATTTGTTTCTTATGGTTCTGGAGGCTGGGAAGTCCAAGGCCAAGGGGTCTACATCTGTTGAGGGCCTTCTTGCTGTGTCATCCCACAGTGGAAGG
Y
GAAAGGGCAAGAGAACACGCAGGCTTGTGGATGTGCAAGACGCAGCAGTGTTAATCTGTGCTGGGCGTGGATTAACGAGGGCAGAGTCCTCATGACCCAA
Celera SNP ID:            hCV27893231
SNP Position Genomic:     8820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28244):
AGCTCCAAGGAAAACAGAATTCTAGCAGTGATTCCTAGTCTTGGCTGCATACTGAGATCACCTGGAGAGCTTTTCTTTTTCTTTTTCTTTCTTTTTCTTT
Y
CTTTTTTTTTTTTTTAAGAAACACAGATGGAAAACTTAATGTTATGTTTTTTATCCGTCTCTGAAGCCAGCATCATACTTGATGGTGAAACTTGAGTATT
Celera SNP ID:            hCV15983757
SNP Position Genomic:     9245
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,2|T,3)      total(T,3|-,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28245):
GTGAAACCCCGGAATAAAGCTGAAAAACGGGCTCCAGTTGGGTGCCAGGAAATGCAGGACTGGAATGTGACTTGACTTCCGGCAGCGCGCAGGTGCTCCC
R
GGTCACCTGCTTTGAGGTCCAGCCTCCTGCCCTGCCTCAGGTGACCACATGACCACTGTGGACTTTGCCCTGAAACCTTCTGGGAGGAGAAGAGGCCTGA
Celera SNP ID:            hCV15969519
SNP Position Genomic:     6292
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,164|G,1121)   total(G,1121|A,164) 
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:28246):
TCCGATGTTCCACTTGCTTCAGACGGTTGTGATTCTTTGCAGGGCATGGCACAGGCACACAGGACCCCCCAGCCCAGGGCTGCCCCCAGCCAGCCCCGTG
Y
GTTCAAGCTGGTTCTCCTGGGAAGTGGCTCCGTGGGTAAGTCCAGCTTGGCTCTTCGGTACGTGAAGAACGACTTCAAGAGTATCCTGCCTACGGTGGGC
Celera SNP ID:            hCV25960078
SNP Position Genomic:     10994
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,26)   caucasian(C,4|T,32)   total(C,14|T,58)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28247):
TAAACCTCTGTGCCCTTTGTGGAGTGTCTGCCTGTGTGTGTGTGTGTCTCTGCTTCTCTGTGTGTGAGTCTCTGTGTGTCTGTGTGTGTGCTCACGTGTT
Y
GTACCCATGTCTGTATTTGTTTGTGTCTGTGCATGTGCCCATGTGTGTATAATCAAAGGACAAAGCTGGGGCGGAGACTTCCTAGTTCAGATTTCTGATG
Celera SNP ID:            hCV25961341
SNP Position Genomic:     6740
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(C,1|T,35)   total(C,2|T,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:28248):
CCTCTTCCAGGGAGCACACCCCGCCCCTCCCTGGTCCTGGCTGCTCAGGAGTGCCAAGAAACACAACTTGGACACGAAACGTGGAGGAGTGCGGGCTCCA
Y
GGCTGCAGCTTTCTCGGATCTTACTGTTGGAAGTGAACCAGGTGTCCTTAGGAAACTCTCTTATAAACAGCGCTGGATTTTGTGGCTGTTTCCTTCAGGA
Celera SNP ID:            hCV25968712
SNP Position Genomic:     21423
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,22)   caucasian(C,26|T,14)   total(C,38|T,36)
SNP Type:                 INTRON


Context             (SEQ ID NO:28249):
GGGGGAGGTGCTTGTCCCTGACCAACTTCCCTGGGTCCCTGTTGCTGGTGACGTGGTATCCCATAGAATGTCTTTAGGGACTGGATGGTGACCAGGAGGG
K
CAGGAGGCCCTTGTTCTATGGTTCAGGGTAAACACAGGAGGGGCGGGTCCTGGGGTGGCTGGTCTGCAGGGCTGTGCTGGGCTGGGCGACTTCCCTCCCT
Celera SNP ID:            hCV25959373
SNP Position Genomic:     21744
SNP Source:               Applera
Population(Allele,Count): african american(G,20|T,4)   caucasian(G,31|T,1)   total(G,51|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:28250):
TTGTGAGTAAGGTTCTGTGGAGACACAACTCTACCTCTTCAGGTACTTACCCTCTGTAAATGATATTCTTGCTGTTCCTCCTCCTCTATTCACTCTAAAA
Y
GGCAGCAGGGTTGAGTGGTTGCAGCAGTGACCCCATGGCCAGTAAAACCTAAAGTATCTGCTACAGGGCCTTTTACAGAAGGACTCCATGACGCCACCCT
Celera SNP ID:            hCV29368753
SNP Position Genomic:     12618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28251):
CTGGGGTGGCTGGTCTGCAGGGCTGTGCTGGGCTGGGCGACTTCCCTCCCTAGCCAGCCCCCTCCTCTTGCTGTTCACAGCCCAAGAGCTACTGCAGAGA
R
GCGACGAGGAGGGCCAGGCTCTACGGGGGGATGCAGCTGTGGCTCTGAACAAGGGGCCCGCGAGGCAGGCCAAATGCTGCGCCCACTAGGTGCAGCCACT
Celera SNP ID:            hCV25972958
SNP Position Genomic:     21894
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,11)   caucasian(A,36)   total(A,59|G,11)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:28252):
GGGGATGGATCTCACTCTGACACGGAGGTCTGCACACTGTGGCTCTCTGGCTGTTCTTGTTGTTTTGTGAGTAAGGTTCTGTGGAGACACAACTCTACCT
S
TTCAGGTACTTACCCTCTGTAAATGATATTCTTGCTGTTCCTCCTCCTCTATTCACTCTAAAATGGCAGCAGGGTTGAGTGGTTGCAGCAGTGACCCCAT
Celera SNP ID:            hCV29368754
SNP Position Genomic:     12554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28253):
GTGGTCCCACCTGAGCCGCATGTGGCAACCTCGTCCTCTGAGTAAGCCCTCTGGGCCTCCCTGTTTCAGGTGCGTTCTTCACAAAGGTGGTGGATGTGGG
Y
GCCACCTCTCTGAAGCTTGAGATCTGGGACACAGCTGGCCAGGAGAAGTACCACAGCGTCTGCCACCTCTACTTCAGGGGTGCCAACGCTGCGCTTCTGG
Celera SNP ID:            hCV25959643
SNP Position Genomic:     18878
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,5|T,29)   total(C,5|T,67)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:28254):
TGCTTCCAACCACTCCTGCTTTTCTTCTTTCCTTTTCAAAATTCCTCCCCTTCCCCCTTTAGGGAGCCTCCCTCTTGCCCACTGTGGTGAGGAAGGGAGA
W
GAGACTCTGTTCCCAGGACCAGCTGCCCCTGATGGGTTTCATATTTTTTGTGGGGAGCTTCTCTTCCTAGATAATAAACACAAAGTGATAACATTAGAAC
Celera SNP ID:            hCV29368755
SNP Position Genomic:     9728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28255):
CCTGCCCTGCCTCAGGTGACCACATGACCACTGTGGACTTTGCCCTGAAACCTTCTGGGAGGAGAAGAGGCCTGACCTTGGCGCTGGGGTCCAGTGGGCA
Y
TGCTCTGGTCCGAGGCTGCTGCTCTTGACCTCTGCTCTGCGGCTGTTTTCCATTGGAGTAGAGGCTCCTCCTGTCCTGTCCTGCCTGTGGAGGGAAGCAA
Celera SNP ID:            hCV312706
SNP Position Genomic:     6418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:28256):
TGCATTCCTTCAGAGTCCACCTGTTTCAGTTAATTCAGACATGTTTCGGGCTACAGATTTTTTGACTTAGGAAAGGTTTTATTAACCTATGCAAATAAAT
R
GCAAAGAGAACTTGAAGGGGTATCTCTGTTTATTTTAAATTATTTTTTATTTCAATAGATTTTAGGGGAACAGGTGGTATTTGGTTACAGGGATATGTTC
Celera SNP ID:            hCV29368756
SNP Position Genomic:     8332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28257):
TCCTGCCCTGCCTCAGGTGACCACATGACCACTGTGGACTTTGCCCTGAAACCTTCTGGGAGGAGAAGAGGCCTGACCTTGGCGCTGGGGTCCAGTGGGC
R
TTGCTCTGGTCCGAGGCTGCTGCTCTTGACCTCTGCTCTGCGGCTGTTTTCCATTGGAGTAGAGGCTCCTCCTGTCCTGTCCTGCCTGTGGAGGGAAGCA
Celera SNP ID:            hCV312707
SNP Position Genomic:     6417
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:28258):
TGGGGTGCAGGGAGGCTTCCGTGGAGGCAGGGGGCCCAGCAGCCCTTCCGGGGTTGCCGCTGGAAGATCTCAGAGGATGCCTAAGAGTTTTCTAGGTGAA
S
AAGAGGAAGGATACCATGCAGAGGGGACAGTAGAGAAGGGTGTTGGTGGGGAGCAGCATTGGGAAAGTGGGGAGGTTAGCAGGAGGCGAGGAAGGCCTTG
Celera SNP ID:            hCV1720958
SNP Position Genomic:     18292
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28259):
GCCAGGAGAAGTACCACAGCGTCTGCCACCTCTACTTCAGGGGTGCCAACGCTGCGCTTCTGGTGTACGACATCACCAGGAAGGTAGGGCCCGCCTTGAG
K
CACGTCCCACCCTCCTTCCCAAGCACCTGCCTTCTGGTTTCTCCAGTGCAATGATGCCATGGCGTAATCACAAGGAACAGAGACTCCATTAGTGAGCAAC
Celera SNP ID:            hCV25960369
SNP Position Genomic:     19016
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,38)   total(G,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:28260):
TTCCCAGCTCCAAGGAAAACAGAATTCTAGCAGTGATTCCTAGTCTTGGCTGCATACTGAGATCACCTGGAGAGCTTTTCTTTTTCTTTTTCTTTCTTTT
T
CTTTTCTTTTTTTTTTTTTTAAGAAACACAGATGGAAAACTTAATGTTATGTTTTTTATCCGTCTCTGAAGCCAGCATCATACTTGATGGTGAAACTTGA
Celera SNP ID:            hCV27156330
SNP Position Genomic:     9240
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28261):
GGCATGGGGTGCAGAGGGAAGCAGGAGTGTGGACCTAGGTGGCCTCTGAGTTGGGAGCTCTGTATTGGGCCATCTGCTCCTGACCGAGAAGCAGCCCCGG
S
GTTGAGCTTGCTGAGATGATGTGGCTCCGATGTTCCACTTGCTTCAGACGGTTGTGATTCTTTGCAGGGCATGGCACAGGCACACAGGACCCCCCAGCCC
Celera SNP ID:            hCV25959395
SNP Position Genomic:     10868
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,38)   total(C,1|G,75)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28262):
GTTCCCAGCTCCAAGGAAAACAGAATTCTAGCAGTGATTCCTAGTCTTGGCTGCATACTGAGATCACCTGGAGAGCTTTTCTTTTTCTTTTTCTTTCTTT
T
TCTTTTCTTTTTTTTTTTTTTAAGAAACACAGATGGAAAACTTAATGTTATGTTTTTTATCCGTCTCTGAAGCCAGCATCATACTTGATGGTGAAACTTG
Celera SNP ID:            hCV27156331
SNP Position Genomic:     9239
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28263):
CCCGGAGCTTTCCAAGCAAAGCTCCTTTTGTTCCTTACCACAGACCTAAAAATGGACCTAAAAATTGCAGATGGGGAGATGGGGCATGGGGTGCAGAGGG
R
AGCAGGAGTGTGGACCTAGGTGGCCTCTGAGTTGGGAGCTCTGTATTGGGCCATCTGCTCCTGACCGAGAAGCAGCCCCGGGGTTGAGCTTGCTGAGATG
Celera SNP ID:            hCV25958774
SNP Position Genomic:     10786
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,9)   caucasian(A,30|G,10)   total(A,39|G,19)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,6)   caucasian(A,34|G,4)   total(A,62|G,10)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28264):
GAACAACCACCCAAGAAATGCTCAGATGCTTTTTACCTCTCCTTGCATTAGATACTTTGGGGACAAGTAATAGATTTGTAAAAACTGAAAGTAATGGAAG
R
AGGACAACAAGCCCTGAGACCGTCACATGTAATCATTGCTTTTCAGGGTCTGCAATGACCCGTGCCCGGAGCTTTCCAAGCAAAGCTCCTTTTGTTCCTT
Celera SNP ID:            hCV27833466
SNP Position Genomic:     10621
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,18)   caucasian(A,10|G,30)   total(A,28|G,48)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28265):
AGAAGCGACGAGGAGGGCCAGGCTCTACGGGGGGATGCAGCTGTGGCTCTGAACAAGGGGCCCGCGAGGCAGGCCAAATGCTGCGCCCACTAGGTGCAGC
Y
ACTCCTGGGGGCTGTGGGGAAGACACCCCCTGCCTGGGCCATGGCCAGCTCTAGGTGGATTCTGATTCACTGTCAATGCTGGGTTGCTCCCGAGCCCTAG
Celera SNP ID:            hCV25973522
SNP Position Genomic:     21991
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,29|T,5)   total(C,60|T,6)
SNP Type:                 UTR 3


Context             (SEQ ID NO:28266):
CTGGGTTGCTCCCGAGCCCTAGATGTTCCTGGAAGTTGGCCCCCTTTATGAAAACCACTTCCCACAGCCAGTGGGAACTGCCAGAGGAAGATCTGGCGTC
R
CATGGCTCCCAGGAAAGTGCTGTGCCCTATCCCCACTGATACCATCTGATTCCCCGATGCCTGTGCCTGTTCCACCTGGACGGTGGCCCCCTCAGCCTGG
Celera SNP ID:            hCV15969866
SNP Position Genomic:     22170
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(G,577|A,906)   total(G,577|A,906)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:28267):
CTGTGCTGGGCTGGGCGACTTCCCTCCCTAGCCAGCCCCCTCCTCTTGCTGTTCACAGCCCAAGAGCTACTGCAGAGAAGCGACGAGGAGGGCCAGGCTC
Y
ACGGGGGGATGCAGCTGTGGCTCTGAACAAGGGGCCCGCGAGGCAGGCCAAATGCTGCGCCCACTAGGTGCAGCCACTCCTGGGGGCTGTGGGGAAGACA
Celera SNP ID:            hCV15969867
SNP Position Genomic:     21916
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,15)   caucasian(C,7|T,23)   total(C,26|T,38)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,574|T,911)   total(C,574|T,911) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:28268):
TGGCACTCACACTTTCATACACGCACACCCACACACGCACACACTTACACATGTGCACACACACCTCTACACGCCCACATGCATTTACACACATGCACAC
Y
CCCCACATTCACTCTCACTTGCACCCACACACATTTACAAGTGAACACACACACACGCACACACACACAGCTTTCCACCTGAGTTTCTCTTTTAGTCAAA
Celera SNP ID:            hCV25965415
SNP Position Genomic:     19916
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,34|T,6)   total(C,63|T,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:28269):
CCTTACGTCTGATCTTGATGGGGGCACTGGCCTGGAGCCTGGGCCCACCTGCTTCTGGGGGGTTGGGGAGCAGGCCAGATGGAGGTGGTGGTGCCAGGAA
R
AAATGGAGCGATGACTGACTGTGGGGTGGGCCCAGGATTTCCACATCTTGGTGAAGTTGCCCCTGGGAAGGGCAGCTGGGGGCAGTGGCGCCAGTTCCCT
Celera SNP ID:            hCV11935213
SNP Position Genomic:     22438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28270):
GTTTCATATTTTTTGTGGGGAGCTTCTCTTCCTAGATAATAAACACAAAGTGATAACATTAGAACATTATTAGAATGTCACCATTTTGCAACCCCTTAGT
R
AAATAGTGGGTCGAAGTAATAGTCTTCAGTGACTGCCAACATCACAGAAAGACAACTGGACATTATTTGCCTTCTGTGGGAAGTGCACGCACACTCTCAT
Celera SNP ID:            hCV11525130
SNP Position Genomic:     9864
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28271):
GGTCCTGGCTGCTCAGGAGTGCCAAGAAACACAACTTGGACACGAAACGTGGAGGAGTGCGGGCTCCACGGCTGCAGCTTTCTCGGATCTTACTGTTGGA
R
GTGAACCAGGTGTCCTTAGGAAACTCTCTTATAAACAGCGCTGGATTTTGTGGCTGTTTCCTTCAGGAAGGGAAGGAGTTTGCCGACAGCCAGAAGTTGC
Celera SNP ID:            hCV25968779
SNP Position Genomic:     21455
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,38)   total(A,72|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:28272):
TGCCCAGCATCAAAGCCCACAGGTGCCAACAGGCATGATGGGAGGGGAACCTGGGGGTGGGGACTTGGCTTTCCAGGCCCTGCAGGAGGAGGAAGGCCGC
M
CCCCGCCAGCTAGAGGAAGAGCCTCTTCCAGGGAGCACACCCCGCCCCTCCCTGGTCCTGGCTGCTCAGGAGTGCCAAGAAACACAACTTGGACACGAAA
Celera SNP ID:            hCV25974184
SNP Position Genomic:     21301
SNP Source:               Applera
Population(Allele,Count): african american(A,11|C,25)   caucasian(A,23|C,15)   total(A,34|C,40)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28273):
TCCTAGATAATAAACACAAAGTGATAACATTAGAACATTATTAGAATGTCACCATTTTGCAACCCCTTAGTAAAATAGTGGGTCGAAGTAATAGTCTTCA
R
TGACTGCCAACATCACAGAAAGACAACTGGACATTATTTGCCTTCTGTGGGAAGTGCACGCACACTCTCATGGCAATCTTGCCAAAAAATAGCCTGTATC
Celera SNP ID:            hCV11525131
SNP Position Genomic:     9893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28274):
TTCTTCAACACATGAACTGCAAAGAAAAAAAAATACCTGTATCTCTACTGAGATTTGCAGATGATAGAATGCCTGGGATCTGCTTTACACAGTACCCTGC
R
GGGGGAGGTTTGGGAGTGTGAGTGATACAAATGGCTGAGCTGATTACTGGGGAAGCGGGAGGTGGGTCTATGGGCCCATCGGACCGTTCTCTCTATTGTG
Celera SNP ID:            hCV11525132
SNP Position Genomic:     10215
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28275):
CCTGGGCCTGGTCAGGGTGAAGGATCTGATGTGTGTCCTAGCAGTTTTCTGCCTGGCCGCACAGGTCACCCAGGACAGGAACGTGCCCTCCTCAGAGGAA
Y
GGAGCAGCCCTGCAGGTGCGCCCATGGCCAGTTGGATTCTGTGACATTTTACACAACGTGATCAGCAACACTGGCTTCCCCCTCCCGGAATAGCTAATGA
Celera SNP ID:            hCV15969520
SNP Position Genomic:     19473
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,6|C,1477)   total(C,1477|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28276):
TCTGAAACACCAACTTTAATCCATGAACAACCACCCAAGAAATGCTCAGATGCTTTTTACCTCTCCTTGCATTAGATACTTTGGGGACAAGTAATAGATT
K
GTAAAAACTGAAAGTAATGGAAGGAGGACAACAAGCCCTGAGACCGTCACATGTAATCATTGCTTTTCAGGGTCTGCAATGACCCGTGCCCGGAGCTTTC
Celera SNP ID:            hCV11525134
SNP Position Genomic:     10597
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,33)   caucasian(G,4|T,36)   total(G,7|T,69)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28277):
CAGGACTGTGACTGCCCCTTTCCCCTCCTCCCTCACCACTAGGCAGGTGGGGCTCAACCCTGTGCTGGAGTCACCTGCGGAGCTTCGGAAAGCCCCACAC
Y
GGGGCAGGGTGCGGTGGCTCATGCCTGTAATCCTGGCACTTCGGGAGGCCGAAGCGGGAGGACCACTTGAGGCCAGGAGTTTGTGACCAGCCTGGGCAAC
Celera SNP ID:            hCV127568
SNP Position Genomic:     25245
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:28278):
ATACACGCACACCCACACACGCACACACTTACACATGTGCACACACACCTCTACACGCCCACATGCATTTACACACATGCACACCCCCCACATTCACTCT
Y
ACTTGCACCCACACACATTTACAAGTGAACACACACACACGCACACACACACAGCTTTCCACCTGAGTTTCTCTTTTAGTCAAAGATTTCCGGTCTTTCC
Celera SNP ID:            hCV192239
SNP Position Genomic:     19932
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,32|T,8)   total(C,63|T,13)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28279):
CCCACCCCGCCCTCAGGTGGCATCAGCCCAGGATCTGACCCTGGACTGGCTCACACTCAGTTGCCTCTGGCCAGTGCAGGGCTCAGCCAGGGATGGCTTC
Y
AGCTGACAGTGGGAGGAATTAATTCATCTGACCGGAATATTCTTTTCTCTTCTGGGCTGTTGGTTTTTCAAGTGCAACAAAGATTCCATACAGCTCCAAG
Celera SNP ID:            hCV15969509
SNP Position Genomic:     6046
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,317|T,414)   total(C,317|T,414) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:28280):
GCTCCAAGGAAAACAGAATTCTAGCAGTGATTCCTAGTCTTGGCTGCATACTGAGATCACCTGGAGAGCTTTTCTTTTTCTTTTTCTTTCTTTTTCTTTT
Y
TTTTTTTTTTTTTTAAGAAACACAGATGGAAAACTTAATGTTATGTTTTTTATCCGTCTCTGAAGCCAGCATCATACTTGATGGTGAAACTTGAGTATTT
Celera SNP ID:            hCV15983767
SNP Position Genomic:     9246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28281):
TGGGCAACAAGACGGACCTCAGCCAGGAGCGGGAGGTGACCTTCCAGGTACCGCCCAGGAGACCCTGCTCTGCTCTTCCACAGCAGGAGAGAGCCCTGCC
Y
GCCTGTGTCAAGACCTTGGCACTCACACTTTCATACACGCACACCCACACACGCACACACTTACACATGTGCACACACACCTCTACACGCCCACATGCAT
Celera SNP ID:            hCV25964749
SNP Position Genomic:     19799
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,40)   total(C,66|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:28282):
CTGCTCCCTTGCTTTATTTACCCCAACAGCATCTTCCTTCCTGCCTGGACTTGGTTTACCAGCTTGGCCTGGATTGGGGGTGGGAAGATCATTTTGGGGG
K
GGGCGGGGAGGGAGACCTTCTCTCTGTGTTTCTTAAAAAGGCTAACCTGTCATGAAGCTCAGGAGTAACTGTATGGGGCATCTGCAGGCTGCTGGCCTCC
Celera SNP ID:            hCV15983768
SNP Position Genomic:     11600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28283):
TGCACCTGGAGTCTCCCATGTGCACGGAGGCCACGCCCCCACCCCGCCCTCAGGTGGCATCAGCCCAGGATCTGACCCTGGACTGGCTCACACTCAGTTG
Y
CTCTGGCCAGTGCAGGGCTCAGCCAGGGATGGCTTCTAGCTGACAGTGGGAGGAATTAATTCATCTGACCGGAATATTCTTTTCTCTTCTGGGCTGTTGG
Celera SNP ID:            hCV29368743
SNP Position Genomic:     6009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:28284):
TTTTGGTGAGACAAGATCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTATGATCATGGCCCACTGCAGTCTCAACCTCCCAGGCTCAAGCAATCCTCC
Y
GCCTCAGCCTCCCTAGTAGCTGGGACCACAGGCATGCACCACCATGCCCAGCTAATTTTTTAACTTTTTTTTAGAGATGAGGGTCTCACTATGTTGCCCT
Celera SNP ID:            hCV1720960
SNP Position Genomic:     916
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:28285):
GGACCCCCCAGCCCAGGGCTGCCCCCAGCCAGCCCCGTGTGTTCAAGCTGGTTCTCCTGGGAAGTGGCTCCGTGGGTAAGTCCAGCTTGGCTCTTCGGTA
Y
GTGAAGAACGACTTCAAGAGTATCCTGCCTACGGTGGGCTGTAAGTGAGGGCAGAGCACCCCTTTGTTGGTCTTCAGTGCAGAAGTCTGGGCTGCTGACC
Celera SNP ID:            hCV25960196
SNP Position Genomic:     11055
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,31|T,5)   total(C,62|T,8)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:28286):
ATGCACCAAACACAGAAACACAATTGCAAGATGTGGCACATGACGTTAGCTATTTAGGGAGCCCTTCCATTTTCTCAGGGGGGTGGTTCCTGAAGGATCC
Y
CAGGGGATACAGGGGAATTGGCAGGGGTCTGCCTGGCCCGACTCCCAGAGCTAGTGGTGAGAAGGGCCAGGGTGATGGTGAGAGGCTGTCTGCAGAGGGG
Celera SNP ID:            hCV1720965
SNP Position Genomic:     12070
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28287):
GGAGAAGTACCACAGCGTCTGCCACCTCTACTTCAGGGGTGCCAACGCTGCGCTTCTGGTGTACGACATCACCAGGAAGGTAGGGCCCGCCTTGAGGCAC
R
TCCCACCCTCCTTCCCAAGCACCTGCCTTCTGGTTTCTCCAGTGCAATGATGCCATGGCGTAATCACAAGGAACAGAGACTCCATTAGTGAGCAACAGTC
Celera SNP ID:            hCV8738531
SNP Position Genomic:     19020
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28288):
CAGCATCAAAGCCCACAGGTGCCAACAGGCATGATGGGAGGGGAACCTGGGGGTGGGGACTTGGCTTTCCAGGCCCTGCAGGAGGAGGAAGGCCGCACCC
Y
GCCAGCTAGAGGAAGAGCCTCTTCCAGGGAGCACACCCCGCCCCTCCCTGGTCCTGGCTGCTCAGGAGTGCCAAGAAACACAACTTGGACACGAAACGTG
Celera SNP ID:            hCV25974202
SNP Position Genomic:     21305
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,33|T,5)   total(C,71|T,5)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28289):
ATCTGATTCCCCGATGCCTGTGCCTGTTCCACCTGGACGGTGGCCCCCTCAGCCTGGCAGCCTCTGGACAGAGAGGAAGGAAGGATTGGAAAAGTCCCCG
S
AGCACAGCGACGGTGGGAAGATGCCTTACGTCTGATCTTGATGGGGGCACTGGCCTGGAGCCTGGGCCCACCTGCTTCTGGGGGGTTGGGGAGCAGGCCA
Celera SNP ID:            hCV8738532
SNP Position Genomic:     22314
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28290):
CTGGGAAGGGCAGCTGGGGGCAGTGGCGCCAGTTCCCTTCCATGGTCTCCCGGCTGGCAATGTGGTGAAGCTGAGTTTCTGTCCAATGAGCAGGAAGATT
Y
TGAGACATTTCGCCTGAGATATAAGTTGTACTGCGTATGCAGTTTTTCCTCCAAAAATTAAATTGCTTTTGACAATCTGGCTTTTAGAAGTTTTTGAGGA
Celera SNP ID:            hCV8738533
SNP Position Genomic:     22601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:28291):
TAGGAATCCCCATGCTGGGACCTTGAGCTGCCTGTGTCCAGTGCGTGAGGGGAGGGGGTGAGGTCCAAGAGGGCAGCCACAGAATCTACAAAGACAGGAA
R
TGCCCTTGGCTCTGGGTCAGGTTTCAGCTCAGCTGGAGTCTGCAGGGGGTGGAGATTCTGGGGTAGGACCTCTGGCCCCAAAGGGTCGGGCTGGGTGCGA
Celera SNP ID:            hCV27497399
SNP Position Genomic:     11288
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,253|A,1238)   total(G,253|A,1238) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28292):
TAGATTTGTAAAAACTGAAAGTAATGGAAGGAGGACAACAAGCCCTGAGACCGTCACATGTAATCATTGCTTTTCAGGGTCTGCAATGACCCGTGCCCGG
R
GCTTTCCAAGCAAAGCTCCTTTTGTTCCTTACCACAGACCTAAAAATGGACCTAAAAATTGCAGATGGGGAGATGGGGCATGGGGTGCAGAGGGAAGCAG
Celera SNP ID:            hCV27845070
SNP Position Genomic:     10691
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Gene Number:                 111
Celera Gene:                 hCG2013435 - 84000314069466
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(46547919..46625767)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12271):
CAGGCTGGAGTGCAGTGGTGCTATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACA
GGTGCCCACCACTACACCCAGCTAATTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTGAT
CCACTCACCTCGGCCTCCAAAATGCTGGGATTACAGGTGTAAGCCACCGCACCCAGCCACCCTACTACCTTTTTTGTGCAAAATTTCCCACTGTTTTATA
TTTTTTCTCTCTCTCCTTTCTTGGCATGTTTTATGTTGAATATTTTAATCATGCCTTATTTTATCTTATTTTATTTTATTTTATTTTATTTTATTTATTT
TTGAGACAGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAATGGTGTGATCTTGGCTTACTGCAAACTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCT
CAGCCTCCCAAGTAGCTGGGATTACTGGTGCCTGCCACCACACCTGACTAAATTTTTTTGTATTTTTAGTAGAGACTGGGTTTCACCATGTTGGCCAGGC
TGGTCTCAAACTCCTGACCTTAGGTGATCCATGTGCCTCAGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCATGCCTGGCCAATCATGCCATAT
TATCCCCTCTATCAGTATAGAATATGGACACTGTTTCTATTTTGGTGATTACCCTAGACCAGGGGTCCCCAGTCCCTGGGGCTGCAGACCAGTACTGGTC
TGTGGCCTCACAGCAGGCAGCAAGCAGCAGGAGAGTGAGCATTACCACCTGAGCTCTGCCTCCTGTAAGATCAGTGGCGGCATTTGATTCTAATAGGAGC
ACAAACCCTATTGTGAACTATGCATGCGAGGGATCTAGGTTGTGTGCTCCTTATGAGACTAATACCTGATGATCTGAGATGGAACAGTTTCATCTGCAAA
CCATCCCCACACCCCCACCCCAGTCCATGGAAAAATTGTCTTCTATGAAACTGGTCCCTGCTACCAAAAAGGTTGGGGACCACTGCCCTAGACAACACGA
TATACACTTTTAACTTATTAATATTCACTACCAAGTTCATTTATACGTTTACTCTCCTCCTGGGAAATGCAATGACCTTGGAACACTTCAACATGATTTG
TCATCTTTCAATGTATATTATTGTAATGAGTTTTAATTCTATAGATTTTTTACACCATTTCATAAGGCAATATATATTATTTCTTTATATTTCATTTGCC
CTTCTTTCCTTCTTGCATCTCTGATCTTACATTTCCCTCTGACTTGAAGTTGATCTGTTAGCATCTCTTTTAGTGTGGGTCTGCTGTTTATTATTTATTT
ACCTGAATTATCTTTATTTTGCCTTCCATAGTAAAGGGTATTTTATCTGGATATAAGACTTTATGTTGGCAGTTGTTTTCTTTTAGCACGTTGAAAATAT
GATTCCACTGTTTTCTGGCTTTCATTGTTGTATATGAGAAGTCAGCTGTCAGTCTACTTGCAATGCCCCTAATGGTAACCTGTTTTTTTCTTTTTAAGAT
TGTCTCCTTGTGAATAATTTGTGCAGCAGCAATAGAAAAAGAAAAAAAAAATGAAGATTGTCTCCTTGTCATTGATCTTGTGCATTTCTGACATTTGTTG
ATGTGGCTTTGTTTTTCTTTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTT
GGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCAACACCACGACCAGCTAAGT
TTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTTGTCTCGAACCCCTGACCTCATGATCCACCCACCTCAGCCTCCCAAAGTGCTG
GGATTATAGGCGTGAGCCACTGCGCCCAGCCTGTTTTTATTTTTCTAGCTAGTGAATCAGTGGGATTGTTGAGCATATGGCTTGATGTCTTTCATCAGTT
CTGGAAAATTCTCACCATTGTCTTTGTGTCTCCTTTCCTTCTGGTGCTCCAAGTTGTGCATTTGTTTGGTCATCTTACTGTTTTCCATTATGTCTCATCC
TTTCTTCTGTATTCTCCATCTTTTTGTCTCCTTTAAAATTCTGGATAGTTTCTTCTGACCTTTTAGTTCCAGTTCATAATTCTTTCTTAATGCATCAAGT
CCACTCTTCAATCTATCCAGTTAGTTCTTAATTTCTGTTATTTAGTTACTTATATCGTATTCATTTGGTTCTTTAAAATGTCTTTTGATTAAATAATTTA
CATTCCTGATTAATTTTTTTAATCTAGTGCTTTTCTGTCAAGTTTTTCATTGTGGTAAAACACATAACATAAAATTTAATATCATAGCCATTTTTAAATG
TGTGGTTCAATGATTAAAGTACATTCACATTATTGTGTAATCATTACCACCATCCACCCACAGAATTCTTTTCATCTTTCAAAATTGAAACTCTAATCCC
ATTAAATAATAAGTCCCTATTCCCCTCTTCCTTCAACACCTGGAAACCATCTTTCTACTTTCTGTCTCTATGAATTTGACTCTGCTAGGTACCTCATATA
GGTGGAATCATATAGTATTTGTCTTTCTGACTGGCTTATTTTACTTAGCATAGTGTCTTTAAGGTTCAACTATGTTGTAACCTATGACAGATTTCCCTAC
TTTTTTTTTTTTTAAAGACAGGGTCTCACTCTGTCACGCAGTCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTG
ATCCTTGTGCTTCAGCCTCCTGAGTAGCTGGGATTACAGGTATGTGCCACCATGCCCAGCTAATGTTTGTATTTTTAGTAGAGATAGAGTTTTGCCATGT
TGGCTGGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCACCAAAAGTGTTGGGATTACAGGCATGAGCCACTGTGCCTGGCCAAGA
TTTCCTTACTTTTTAAGGCTAAATAATATTCCATTGTATGGATGTGCTACATTTTGTTTACCCATTCATCCTCAGTGGACACTCAGGTTCCTGCCAGCTG
TTAGCTATTGTGAATAATAATGCTATGAACATGTGTGTACAAATACAAATCTCTTCAAGACCCTGCTTTTGATTCTTTTCGTTATAGACCCAGAAGTGAA
ATTGCTGGGTCATATGGTAATTCTGTTTTTAATTTTGAGGAACCACCATATTGTTTTTCACAGCAGTTGTACCATTTTCCATTCTCACGAACAGTGCACA
AGGGTTCCAATTTCTCCACATCTTCACCAACCCTTGTTATTTTCTTCTGTTTTTTTTTTTTTTTTTTAAGGTGGAGTCTCGCACTGTGACCCAGGCTGGA
GTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCCAC
CACCATGCCTGGCTAATTTTTTGTATTTCTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCACCCACCTC
GGCCTCCCAGAGTGATGGGATTACAGGCGTGAGCCACCGCGCCGGGCCAGGTTTGTTTTTTTAATAGCAGTGATGTTGAACATGTTTCCAGGTGCTCATT
GGTTCTTTGGAGAAATGTCTGTTCAAGTCCTTTCTCATTTTTGAAACAAGGGTTTTTTGTTGTTGAGTTTTAGGAGCTCTCTCTATATTCAGGATATTAA
TCCTTTATCAGATATATGATTTGCAAATATTTTCTGTTATTTTGTTTTCAGGCTGCCTTTTTACTCTGTTAATAGTGTATTTTGATGCAGGAAAATTTTT
AATTTTCATGAAGTCCGATTTGTCTGTTTTTTCTTTTGTTGCCTGTGCCTTTAGTGTAATATCCAAGAAATCATTTCCAAATCCAGCGTCATGAAGCTTT
TGCCCTATTGTTTCTTCTAAGAGTTTTACAGTCTTAGCTCTTATGTTTAGGTTTTGGCTCTATATTGAGTTAATTTTTGTATATRGTGTTAGGTAAGGGC
CCAACTTCATCCTTTTGTATGTGGATGTCCAGTTTTGCTGGCACCATTTGTTAAAAAGACTGTCCTTTCCTCACTGAATGCTCTTGACACCCTTGTGAAA
ATCGTTTGATTATATATCGAAGGCTTATTTCTGGGTTCTGTTTCATTCCATCAGTCTGTATATCTGTCTTTATGCCAGTACCACACTGATTACTGGAGAT
TTGTAGTAAGTTTTGAAATCTGGAAGTGTAAGTCCTCCAATATTGTACTTCCTTTCCAAGATTGTTTTGACTACTCTGATAAAATTCTAAAGTTTGCATT
GATCTCTTTGAACCTAGTTATTTTATGTTCTGAGTCTGATAATTCCAGTATCTGCTGTTTCTCTCATTTCTGTCTATTCCTCTTGGTGGTATCATGCTTC
CTTGGGTGCCCGATTATTTTTGGCTGTGTCCTGGACTGCGTATTTGTAAAATTATTTGCAGGAATAACTTGAGGCCTAAGATGATGCCATCTTCCTCCAG
AGAGGGTTTTCCTTTGCCTCTGTGTAGAAGGCAGGGGTGCTGCCAGTCTGGGACCCCCTTAGTGCCCGTTCCAGGCTTCACCCAAAGGGGAAGTCCAGAG
GGTCTTTTCTAAAAGCATGGTTCTGGTCACATTCTTCCCAGTAGCAAATAATGACAGCGCAGAGCTGACCACTGTGACCAGCAACTCATTCACCTGGGCC
CAGCACCCTGTCAGGTCAGAGCCAGTGCCCTGGTCAGCTCGAGCTGCTGCAGTAAAATGCCTTAGATTGAGTGGCTCATAAGCAACAGAAATATATTTTG
TATAGCTCTTGAGGCTGGGAAGTCCAAGATCAAGGCACTGTCAGTCAGCCTCAGTGACTGGTGAGGGCCCACTTCCTGGGCCATAGATGGCATCTTCTTG
TGTATCCTCCCATGGCAGAAGGCAGCTCTCTGGGGCTTCTTTTCTTAGGGCACTAATCCCATTCACCAGGGCTCTACCTTTATTGCCTAATCACCTTCCA
AAGGCCCCACCTGCTAACACTATCTCTGTGGGAGTTCGGATCTCAACATAGGAATTTGGGGGGACACAAACATTCCAACCATAGCCCCCTGTTATAAGTA
AGAAAACCAGAGCACAGAGAGGTCGGCAGCTGAACTGTGTCACTGATGGATGCGCAGCCAGTGGCATGGAGTGTGGGGCCAGGATGGAAGCATGTGTATC
TCACTGCAGAGGTGCTGCTCAGAAACGTTATGGGGCTCCCCGCTGCCTGGAGGCCGAGCACAGGCTCCCCTACTTGGCCCCTGCAGCCTCCCCGGCCATG
CTGGCCCCTGGCCATCCCCCTCCGCTCTAGTGGGGGCACCCCTCCCCGAAGCCCACCTTGTGTGACCCCTGCCCACCCTTTCAGGCTTAGCTCAGATACT
GGGGCTCCGCCTCGCCTCCTGCGGCCCCAGCCGGAGCAGAGCTGAGGAGCAGTAGCTGCTGGGCAGGCCCAAGTGCCCCACTGACTGAGGCCAGGGCCCA
AAGGGGGACTTTCCTACCCCCTATAGCAGCCAACCAGGACTGGGCACTCCACAGGGCATCGGGTACTGCACACAGGTCAGAGCCTGTGCCCTGAGCACAC
AGCATGACAGGAGGGGGTGGAGCAGGCCATGCTGGGCCCATCTCAGGGACGGGGGGCTGTCAGGCCACCCTGGGGATACCCTGCCCAGGACTGGCTTCCC
CTCAGAGGGTGCCTGGTGGCAGGGGCTGGGGAGGCTGCTGGGCCCACCCGCCTGCCCACAGCCCCCAGTCAATCCCCGCTCTGGCTTTCTGCCTCCCAGG
TGAACAACAACGGGATCATCTCCTTCCTGAAGGAGGTTTCTCAGTTCACCCCAGTGGCCTTCCCCATTGCCAAGGACCGCTGCGTGGTGGCAGCCTTCTG
GGCAGATGTGGACAACCGGCGTGCAGGCGACGTGTACTACCGGGAGGCCACCGACCCAGCCATGCTGCGCCGAGCCACGGAGGACGTCAGGCACTACTTC
CCCGAGCTCCTGGACTTCAATGCCACCTGGGTTTTTGTTGCCACCTGGTACCGAGTGACCTTCTTTGGAGGCAGTTCCTCATCCCCTGTGAGTCCAGGCA
CTTGTCCTGGGGAGGGTGGGTGTGTGGCTAGGGCCCAGGGTCTCCCCGCACCAGGGCTCCCTCTTGCTGATGTGGGTGTGGTGCAGTCACTGGTCCATAC
CCAAGAGGGGAACACGTGGTCAAAACCACAGAGCCAGAGCAGAAGAGGACACGTCCCCAACCTTCCCCAATGCTCCTGGAAGCCACTTGCCTCCAGGAAA
CACCAAATTCCCCAAAGCAGCAGCTCACATGTCAGAGAGAGGTGTTAGGAGGATTTCCATTTGGAATGGCCCAGTACTCAAAAGGTTAGACTGGAAGGTT
ATTCTGTTTTATACCCTTCCTTGATAATGCCAAACATGACAGAAACATTGACTCAAGAATAATCAGCCACTTTGCAGGCTTGATGAGTTATGGTGGGCTG
ACACTCCCTAACGAGGACACCTGCCCACTCCGGTGGCAGATGTATTTACTCAGCACCTACTGTGGCCAGGCCTGCACTGGGCACTGGGTCATGACTGTGC
AAGACAGACAGTGACTCCCTAGAAAAGAGGCGCTGGGTGCAGAACCGCCATTTTCAGAGCTGTTTGTTCATGCATTTAATAAACACTTTTTTTTTTTTGA
GATGGCGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAATAGCACGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCCATTCTCCTGCCTCAGC
CTCCTGAGCAGCTAGGATTACAGGCATGCATCACCACACCCAGCTTATTTTTGTATTTTCAGTAGAGAGGGGGTTTCCCCATATTGGCCAGGCTGGTCTC
GAACTCCTGACCTCAGGTGATCCGCCCACCTCGGCCTCCTAATAAACACTTTTTAAGAGCACCTTCCAAGTGACAGGCAAGTGTTCTAGGCACTGGGCAG
ACAGCCCTGGACGAAGCAGACAAGACGCATCTGCCCCRTGGGGTCACTCTAGCAAGGCATCAGGAAGTGCTCAGAAGCATAACCCAGCCAGGGGCACTTC
CAGGAGCAGGTTCATTGACAGAAAGTGGACAGTTCAGCTTCATGCATCTCCTCATTGCGCCTCTCGGCTCCCAGAGCCCCACCATGGGCCCTTACTGGCT
CTAGTCCGCCCTGTCCCCTAGACGGTGCCACCACCCCAATTCTACGGCCCTCGCGTCTTTGTTTGTTTTCCGAGTGTTAGCACTTACGTTCGCCTTCCTG
AAGCAGAGCACGTAGTTTCTCTAATGTTGACTTTTACATAAGTGGAATGTACACTGTATGATCACCCATCTTTCTCAGTGACTACAAACTAGCCCAGCAC
CAAGCGGCACGTGAATTTGTTTCACCTGCACCCCATGACTGGACAGCTGCAATACCAGGGGCCTGAGGCGGGCACGGCATAGCCCAAGTCGCCTTATGCA
TGATCCTGTCCTGGTACACATGTTTAGAAGGGAGATTGCCACCTGCAGAATTCCAGTTTTCCTCTCAAAAATCTACATATTCAGGCAGGGTGCGATGGCT
CACCCCTGTAATTCCAGCACTTTGGGAGGCCAAGTCAGAGGGATCACCTGAGGTCAGGAGTTTGAGATCAGCCTGGCCAACATGACGAACTCCCCTCTCT
ACTAAAAATACCGAAGTCAGCCGGGTGTGATGGCGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGA
GGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCGGCCTGGGTGACAGAGGGAGATTCCATCTCAAATAAAAAAAAAAAATCTACAYGTTCATACTCGG
AGCCACATTTAGAAGTGCCAGTTTCCRTTGTTCAGTTCCCACCTATGAGTGAGAACGCTTGGACACAGGAAGGGGAACATCACACACCAGGGCCTGTCGT
GGGGTGGGGGGGTCGGGGGAGGGATAGCATTAGGAGACACACCTAATGTAAATGACTAGGTAATGGGTGCAGCACACCAACATGGCACATGTATACATAT
GTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAAAAAATAAAAAATAATAAAAAAAGTGCTGGTTTCCTTGCACCCCAGCTG
TCATTTTCCAACTTTGCCAACTCAATAGACAAAACAATGAGTGCTACTTTTTAACTTACATATCTTTAATTTCTAGGGGTGCTGAATTTGTTCTAATATT
ATTGGTTACTTGTATTCTACTGTGATGTGTCTCTTCATACCCTCTGACATTTTTTCTGTAATACTTTTGGTCTTTTTCTTATTGATCTGTAGTTCTTGAA
TTAAGGGTCTCGATAATTTTATCTGCTGTATGCGTTATAAATAGGTTTTTCACATTGCTGTTTGCCATTCAATTTGATCTTATGGATTTTTTTAAGTATT
CGGAAGCCCTTTGCAGTCAAATGTTTAATTCTCCCTTTTGGTTTTTGCTGTGAACAAACATCACACTTAAAAGTCCTTTCCCTTTCCTGAGTTATACATA
TATGCCTGTATTTTCTTCTAGGACTTTTCTTTCACTTTAAAACCTTATTTGATTTGGGATTACTTTTTGTGTGTGGTGAAAGGCAGGACCCTGATCTGAT
TCTTTTTCAGGGGGTTTCCTGTTTGTCCCAAGATCATTTCTTAAACAGTCCCGATCCTTTGCTTGATTCTCATCTGGCGTACCTCATCTGTACGCTGCCT
GCCAATATTTCCTTGCAGTAGAATTCTGTGAAAACCATAAGGCCTGACTGTTAAACGCTGCAGCACGGCTCTTCCTTGCTTCTTTTTACCTTTCCTCTTT
TCCTTTTTGCAATTTTGCTCATTTCACACAGGAGATTTTGTGGATCTGGCTAAGGGCAGGGGACAGTGTCTGCTCCCATCTGTGGGCCCCGCACCCACCC
CAGGTGTTTCACTCACCCCAGCAATAGTTGTGGGTTGCAGACGGCCTCTGCTGAGTGGCAGGCGCTGGGAGACAGCAGAGGATGAGGCCACCAAGGTCCT
GCCTCGGCTGCCCGTCCAGCTGGAAGACACAGACATTGAGCAAGCCAGGGGCCCAGTGGACAATGACAGTGCACCAGGATGGTGGACAGGGCAGGGCTTC
CCTGGGCCAAGGGGAGTGCAGGGCCCTGTTCAGCCCCCTCTCCCCGGCAGGTCAACACATTCCAGACTGTGCTCATCACAGACGGCAAGCTCTCCTTCAC
CATCTTCAACTATGAGTCCATYGTGTGGACCACAGGCACACACGCCAGCAGCGGGGGCAACGCCACTGGCCTCGGGGGCATCGCAGCCCAGGTAGGCGAG
TGCAGTCGGTGCTCTGTGTTCAGAACCCCTGCTCCCCACAGCCAGGACTGTCATGAGCTGATGAGGTAGGCAGGGGCTCACCATAGGCAGATCCCCCAGT
ACCGTGCAGAGGCCAACGAGAGACATCCACAACCATCCCTGAGGCCTCTCACTGCCCAAAAACAGAAACATCCTCAGGCCCAAAGGCACCTTTGTCCCCC
TGACCTGCCCCGCCCTGCCCCTGCAGTCCCCTTTAACAGCTGCAACAGCAACAGAAATGTCCTCTGCTCCTTGTGCCCTGCAGTCTGGCCTAGCCAGTGA
CACAAGGGACCACAGCCGGCAGGAAACCCCGGGTGTGGAGGGAATGAAACAGGACAATGGCCACAGGGTCAGTGCTCCCCAGGCCCGAGAGTGCCTTTGG
GCTGTGCGCACCCCCACTCACCTCCTGGCCACCTGCTTTCTCTTGGGTTCATACTTGCCCCTGGCCCCAGGGGAGGCCCAAGAGCCCAGAGGTGAGCTGC
CGGAGGACTGGGCTGGGGAGCCAGGGCCAGCCCTCTCCTTGGCTCCCAGGAACGGTTGGCTGAGGTCAGGACCTGGCTGGGAGGTTGCCGACCCTGGCAG
GAACATGGTGGGGGCAGGGTAACCCCCACCTCTGTAGACCTGGGGAACTGGCCTCCCTCACTCTGCCCCCACCCCACCCCCAGGCTGGCTTCAACGCAGG
CGATGGGCAGCGTTACTTCAGTATCCCCGGCTCGCGCACAGCAGACATGGCCGAGGTGGAGACCACCACCAACGTGGGTGTGCCCGGGCGCTGGGCGTTC
AGAATCGATGATGCCCAGGTGCGCGTGGGGGGCTGCGGCCATACAAGTAAGAGGACAGAGGAGCAGCTTGGGGTGGGAGCGGGCTGAGGAAGGGGGTTGA
TGGCAGAGGAGAGGTGGAGACGAAGGGGGCTGGATGCTGACGGGGAGAGCAGGAGCACTTGGGTGTCCAGCCCAGCCCACCTCAGGCRTGTGAAACTAAG
GAAAGCCTGGCTGGTCCTGCAGCCTCAGCTTCCCCTAGAGAAGACCCCACACACACACTGCTCTGGGTTGGAGGGAACCCTCTGGAGACTGTGCCCTAGA
GAAGATCCCGCACACACACTGCTGTGGGTTGGAGGGAACCCTCTGGAGACTGCGGGTTTCGGGGGTAAAGAGTTCTGGGTCCTCAGGGGAGGAGGAGCCC
AGGGACRCCTCTCCCTGGGACCATGTGGTCCCTACTCTCCCCTTATTCCCACCCAGCCTCCTGCCTGGGCTGGGGGAGGAGCAGCATGTGGTCTCTGACC
CTCAGGGCCACCCATGAGGCAGGTCCTCTTACCACCCAGGTCCTCATTTTTGCCAGCGGGCTTGCTGCTTGGTGGGATTTGGTGWCTGCTTGACAAACCC
AAGCATCACGTCTACAGGGGAGTTCCAGGGGTCCTTCCAGCCCACAGTGCACAAACGGACGGGGTGGGTGTCCCTCCCAGGGGTGGGCACGTGGTTTGTG
GGAACAGCCAGGGCGGCAGCAGAGCCATAGATGGTAGCCTTAGCCCTGCTGCTGTGCGGCCTTGGGAGCCAAGGAGCCTTCAGAAATCACTGCTTACACT
TGGGGCGAGGGCAAGCGACTGATCCGCTCCACTGAGGGCGGCGCATCACAAGCCCTGCCAAGCCTGGGGCCGCAGTGAGGCTCGCACCGGGACCTGCCCC
AGACTCGCCTCCCAGCCGCGAGCATCTAGGCTACGAGAGGGGAGAGGGGCCGCATCTCCGCAACACTGAGTCCCCAGAGAACACGACAGGGGTAGCAGAT
GCGCGCGCACCACTGTCGGGGCGGAGGCGGGGTGCAGGCGCGCCATGGGGTGGGGGATGAGGGGTAGAGAGTGTGGGGGTGGGGGATGGGGTATGCAGGT
GCGCCACAGGGTTGGGGATGAGGGGTAGATGGTGTGGGGATGGGGGGTGCAGGCGCGCCACAGGGTTGGGAGTGAGGGGTAGAGGGTGTGGGAGGTGGGG
GCGTGCCATGGGGTGGGGGGTGCAGGCGTGCCACGGGGTGGAGGGGTGGGGGGTGCAGGTGTGCCACGGGGTTGGAGGTGGGGCGTAGTAGGGGTGGGGG
GCGGAGGCGCGTCACGGGGAGGGGAGTGGGGGGTGGAGGTGCGTCACGGGGTGGGTGGGGGGTGGAGGTGCGTCACAGGGTGGGGGGTGGGGGGTGGAGG
CGCATCACGGGGTGGGGGTTGGGGAGTAGAGGCGCGCCACGGGGTGGGGAGAGCACCGCGCGCTCATGGGAAGAGGAAAGATGCAGTCGCAGGGCGGGAA
GACCCATCTGAGGGCTGCAGGTGGTGCCGCGACGAAGGAGGCCCGAGGAGCCCGAGCTACCCACACACTGGGGCACGAACAGGCCCCCGCTTGCATCTGA
GCTTAGGGAGTCCGGGCTCACGGGGCGGGGAGCCCAGAGCGGCCGCCCAGCATCCGAGGGACACAGCCCTCCTGCAGCCCCCAGCCACACCCCCTGCGTG
GCCCGCCTTGTCCCAGAAACGCTGACATGACGGCTGAGTGCCAGCCTCGGGTTTTCCACGCCAGGAACCCTGGAGGGGAGGCGGAGTGTGCCAGTTTTTA
GACCTGTCCACGGCAGCGCTGAGAGGGATGGAGGGGACGGGGTGCTGGTGTGAGTCGCTTCAGGGAGTCCGCCCCACACGAAGCCACCTCCCCAGAGGCC
ACGCCAACAGCACCGCCCCTGCTCCCCTGCTCCCCTGCTCCGACCTAAAGTGAAACCTGAAACCTGGCTGCTTTGCTGCGGTCACCCGGGCACCCAGAGG
CCGACCTTTTGGGTCAGGGGAGGGAAGGGAGATGCGGATGGGAGTGGCTCTCCTGCCGAGTCCGGAGGCAGCGGCTGAGGCTCCAGCCCCTCCCTATGTC
TGCAGCGTCCGTGTGCCTGGCCCTGCGCCCCTGCCTCAACGGCGGCAAGTGCATCGACGACTGCGTCACGGGCAACCCCTCCTACACCTGCTCCTGCCTC
TCGGGCTTCACGGGGCGGAGGTGCCACCTGGGTGAGTGACTGGCCCAGGGCGGGACCACCCGCTGGCTGCGCTGGGCTCAGGAGGAGCACTGTAGGCTCC
GCCAGTGGCCCTGGGCGCCCAGGGTCCCAGGTCAGGAGTCTCTGTCCCCAGGGTGTGGGTGACTTGCTTAGGGGACCACTGGGGACCAAAGGCCATGGCC
CCCTGGAGTGAGCACCATGGGCGGGTGCAGTTGCTGCCCTCTCTGAGCCAATCTCGGGCTTGCTCCTCCTCCGTCCCCGGCCCAACCCGAGCCCTTAGAG
AAAACTCCTCATCCGGGTTCCCGCCGCTGAGGCCTCAGCCTGCCCCATGTTTCAGACRTGAACGAATGTGCCTCCCAGCCCTGTCAGAATGGTGGGACCT
GTACTCACGGCATCAACAGTTTCCGCTGCCAGTGCCCGGCTGGCTTTGGGGGACCCACCTGTGAGACAGGTAAGAGGAACCCACCGGGGCCCACGGGGCC
CTGCTGGGGGCAGGATAGCGGGAGACACAGCTGGACAAGGCTGAGGTCTTGGAAGGTCCAGCAGCTGTGCATGCTGCAAGGTAGACAGCCCAGAGAAGCC
ACCCTCGAGGAGTGGAGGAGCCCAGATGCCCAGGGAAAGGCCCATATCTGGGTAGGGGGCAGGAGCCATGACCAGTCACACAGGCTTCCTAGACCATRGC
ATTCGGACCAGGGATGGGGCCTCAGAACAGGCCAGTGCCCAGGTCCCAAACCAGGCCAGGATCAGGGTCAGACAGGCACCAGAGCCCGGATGGGAGCCCG
CTGGGGATGTGGTGGGGCCGTCAGACCCCCTCTCAGCCCAGGACCAGCTTGAGGGGAACGTGAAGTGCTTCTGGGGTCAGATGGGCTGGCTGTGGGGCAG
GAAGGGCACAGCCACACGGTCCCTGCCGCTCCCTGCGGCTGCTCCTGGACGCTGTTTCTCTCCTGCCCCTGCCTTCAGGGAAAGGGGGTCTCACAGCCTA
GGTGGGGCCTGGAGTCCCTCTCCATCCTCACTGCTGCTACCAAACCTCAGCTTGCCCTCCCAGTTCAGAGCCCAGCTCTTTCGAAGCAGTTGTCATCAGA
GTCAGCCTCTACTTACTGCCCTTCCCCCGGCACCTCTTTAGGCCCCTCACCCATGCCCTTCACCCACCTGGTAAAGAAAGGTGGACCCCCCCCCAATTCC
TGCTCTCCATCTCACCATAGGGCTCTGCTCAGGGAGCTTTGCAAAGGGAGCCCCTAAAATCAAAGCACCGTGACCTGCTGCTCCCCACCCAGCTCAGCCA
GGTGTGCGTGTCCTGTGTGACAGTCGCTTACAAAAACATGTAATAGATTGTTTAGATCAATGCRTTCAAATAGTGACTATATCAATATCTCAATCTAGAA
AAAAACAATTCTTATCAGATATTTATGGTCATGGGAGGTTTTTTAAAGTACTTCCTTCCTGTGTTTACACATATTGGTATTGGAGAGAGCTATAGTTGAA
TGGCAGTAAGGGACTTTTGCACCTGAAAGTACATTAGAATGAAGTTCTGCAGGAATGCAATGGAAATGTGACTTCAAGGTCCAAAGCAGTGAAGCACAAT
TCCCACCTGGCGAGATGGGCTTGCCAGTGTGTTTACAGATCACACATAGGTGACAGCACAGTGACCCCAGTTATCCCTTGCTCCCCGAGCCCTGCCACTG
TCTTCCCACAGCCAGYGTCGGAGCAAGCTCCATTCATAGGAGCCTTTCTTCATCCAGAAACTCCTGCCCTGCTTGCCCACGTGCTCTCAACGTGAGACGK
GTGGGAGTCGGGCTTCTGTGGCATTGGTGCCGTGGCAGACTCAGCCCTGCAGGCGTCTGTCCCTTGGTAAAGGCCAGGGAGGCTGGCAGGWTCTCCTTCC
TCTTGCTCAGTGCTCTCCCTGTGCGGTGCTGGCCAGGGGCCTGGCTGCGGGAGGACCCAGGCCTATGATGAGGGTCCCCAAGGGTGACTGGGCAGAGCTT
CCCAGGAATGGGCTGCTCCTCGGCTATGCCCCAGGCTCCAGGAGCCCCTCTGTGATGTGCAGCCTGGTGAGGTCCCCTAAGAGGGCTTGAGGCTTGGCGC
CAGGAGGCTGGTTCAGGTCTTGGGTCTGCAGCATGTCAGTTGTACGTGTGGCCTCGGACCGTGAGCCTTCRCTTTCTCAGTGCAGCTGTGGCACAAGCCT
TGGGTACAAGCCTTCCCGCCTCGACCCCCCACAGGGGCTCCCTGATCTTGGAAGCCACCTTGGCCCCCAGAACCCATAACAGCAGGGGCGCCCGCAACTA
AAGGCTAGGGTGTGCATGCTCCTCCACCTAGCGGAGTTGGGGTCAGGGAGACAGGGATCACCATGTCCCATCAGCCACCAAAGGGCTTTCACACCTCCTG
GGGGAGTAGTCAGGCCCTCCTGTCTCCTTCCTATGCCAAAGAGAGGGCCCCACCATTCCCCCATGACTCCAGGGAGGGACACACGCTTTGGCTATCACTC
TTGTTTCTGAGTTTGTTCTGGGTATGAGCTGTCAGTAAGACAGGGGATGTGGTTCTCCTCTGCGTCTGGCTCTGCTGGCCAGGGCAAAGGAGAGACCTGG
GATGTGTGGGCCAGGTGCTCTGGACTCAAGGAGGGCCAGCATCCGGTGAGGAGGGAGGGCAGAGGGTGGGCTCCCCTAGCTCACTCCCACTCAGTAACTG
GGGGCCAGAGTCCCTTTGCCCTGGCCGTTCCTGCACAGGCCACTGCCTGCCCCACCCAGCCTCTCGCCCCAGGGGCCACTCCTACACCCTGGGTGCTGCA
CACCCTTCCAGGCTCAGTCACAGCCTGCATCCTTGACCACAGCTCTTCTCACAGTCCACTTGGAATAAGAGCCACCTAGGGAGGGACCATCCCCCAAGAG
TGGGAGTGATTTCCATGCACCCCCATTTGCCCCTGCCCAGCATACACACCCATCCCTCCATCCCAGGTTTGCTGAATTAGACCCAGTTCAGACAGAGCTT
CGGGTGGCCAGTCAGGACTGCCTGGCCAGGCCTCTTTCTTGCCTGTCGCCCGCTCAGAAACCTGCCTGCCAGGCCCCCCTGCAATGTAAGCCAGTTGGGG
GTGGGGCTCAGTGTACGTCCCAGGGGTTTCTGTCCCCTCAGGTAACCATAACTGGGAGTCCATCGTCCTGTCTACACCTCCTCACTCTAGCCCAATCCCC
CTGTGACACCAAAGAGTGTCAACATGGTGGCCAGTGCCAGGTGGAGAAYGGCTCTGCGGTGTGTGTGTGCCAGGCCGGATACACCGGAGCAGCCTGCGAG
ATGGGTGAGTGGCCTGGCTTCGGATTGGAGAGGGGCTCCTGCCCGTGGCCAGGTGCTGGGCACAGGGTGGTTGTGGCCTGGCTCAAGCCAAGCCCGCACC
TCTGCTGCCCCTCAGATGTGGACGACTGCAGCCCTGACCCCTGCCTGAATGGAGGCTCTTGTGTTGACCTAGTGGGGAATTACACCTGCTTGTGTGCCGA
GCCCTTCAAGGGACTTCGCTGTGAGACAGGTAACTGGCCAAGTGCCTGCAGGCCACCATGGCTGATGGTGGCTTTGTGCCGTGAACACCCCCATAGCCAC
TTTCCCCTTCCTTCCTTGCCATCTGACTCACCTCACACCTGTCTCTGGGGTGGGAGGATGCCTCTGCCCCCTTCCCACTCCCCAGCGCTTCCCGCTCAGC
CTGGATCCTAAGCCACCAACTGCAGGGAAAATAGGAAGCAAAAGATGGATGCTGCCTCCAGGGTGCTGTGTGAGGCTGAGCAACCCCTTCCCCTCTCTGG
GCCTTGGTTTCCATCTGTGAARTGCCAGGAGGGATGACAAAGTTCACAAGTCTCCTCTTCCAGCCTGGGTGACTCTTGACTTTTTTAACATCTTCCTCTC
CTACTCTAGAACCCTCAGCACACAAGGGAAAGTAACGGGAATCAGAAAGAAAACTGACCTTTCACTATTTTCTATTCTATTTTGTGTTGTTTAACTGCTA
GTTGTGACTTGTTAGAGGAATTAAAAGGCCAACTGGAGATTGCAGCCTACAGTATAAAAATGGCTTTCGTGTCTGATTGTTGCACCTGCCTCCAGAGGCT
CACCCACTGTGCCGACTTCTGTGGACGCACCAGGTGCTGCTTCTCTCCAGGGAGATGCTAAAGACAAACTATTCAGGTTATTTTTAGTTTAAAAAATTCA
GGAGGAAATTCTGTTTTACCCGTAAGACACAGAGGGTCATGGGCCCTCCATCAGTCTTTGCCGAGTGCATGGGAGGCCAGGGTGTGTCCTGAGGGGAGGG
TGGGGCAGGAGCGGGAGGAGGCAGCCTCACCTATTTGGCTGCTTTAAAGTCACTGTTCCGTGTCACAGCTCACTTTGCCCAGATTGTTATCTAAATATCA
ATGTATTTCACTAAATTCATGTCAGGAAACGGATAAGTGGTTTCAAAAATTTTTTGCAAATAAACCGTGTTTTCTACAGAATAATGATGCAAGTAGAGTG
AATAATAAGAAACAGACTGGCCGGGTGTGGTGGCTTATGCCTGTAATCCCAGCACTTTGRGAGGCTGAGGCGGGCGGATCACTTGAGGTCAGGAGTTCRA
GACCAGCCTGGCCAACGTGGTGAAACCCCATCTGTACCAAAAATACAAAAGTTAGCCAGACGTGGTGCTGCATGCCTGTAATCCCAGCTACTCGGGAGGT
TGAGGCTGGAGCATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCACCCTGGGTAACAGAATGAGTGAGACTCTG
TCTAAAAAAAAACAAAAGAGGAAGAAGAAAGAAACAACAGACTGACGGTGGTGCTAACGTAATGACTGATTGACTGTATTACAAGGCGCAGATGCTGACA
GTCTAATCAGGTCTGACAGGAAGTGGGCCACAAATTGGACACTACAAAAAAGAGTCTCTAGTCTTCTGCTTCTGGCCAACAAGAATTAACTGCTCTTGGA
ATTTCCCTCTCACCATCAACACCTAGAAAAACAGACAAAATCTGTGAAACCCTTTTCAGCCATTAGACAACAGACAGCACAAGCCTGTCACCCCTGAGAA
AAGGGAATCAAATGAGGTGAGCCCTACAATTGCCCCAGATTCTGCCTGGGGCAGTTTCCACTCCACTGTGCTGGGAGGAGGAACTGAGAGTCCAGCAGTC
CCTTTGAATTGAGGAGACAAAGATCCTAGTTCAGTGGCTACAGGATGGTGCTCCTGAGGCAGGAGGGAGCATGAGATCAAGAGGAGACCTCCCTGAATTT
TGGCTTATTATTATCAGGCTCAGGATGAAATCTGCAAGGCTGGGGAAAGAACCACTAGAAAGCAGTAAGTCAAACACTTCCTGGAGCTCAAACAGGGCTG
GGAGTCTATTGCATAGAGTCCTCAGTGGGGTGTCACTTTAGTAGTGCTGAACTAAAGACTAATGTCGACCTGCCCTAACAGATCTTAAAGAAAGCTTAAA
AGGATCAAACTGATCCTAAGTCATTGAGCCATGTGCCAGAATAAAATCCTATACTCCTCAACAGGAGTATATCAATAATACAACAGAATCCAGAACTCCA
AAATRCCCAGTCAAAAATTATCAGGTCTACAAAGAAGTAACATATAACTCACAGTCAGGAGAAAAATAGATCAATAGAAACAGGCACCAGAAATGACAGA
ATTAGCAGATACAAATGTTTAATTATCTATTATGAATATGCTCCTATAATCAAGATTGTTGAGGGGAAAAAAACCTAATGAGAAGTAGAAGGTATTTTTA
AAAACTTGTAGAAATGAAAAATATATCTGAGTTTTTAAAATACACTGAATAGTATTTACAGCAGGTTAGATATTGCAGAAGGAAAGATCAATGAACCTGA
AGAGTGAAACAGAAACAATTCAATATGCATCACAGAGAGAATAAGACTAAAAGAAAAAGAAGAGATCTTCAGCAACCTGCAGAACGATATTAGGGTAATA
GGATCCACGTATCTGGAGTCTGCGAAGGAGGATGGAGAACAGTATCAAGCAGCCTGGGATCCAYGTATTTGGAGTCTGTGAAGGAGGATGAAGAACAGTA
TCAAGCAGCCTGGGATCCATGYATGTGCAGTCTGCAAAGGAGGATGGAGAACAATATTAAGCAGCCTGGGATCCACGTATTTGGAGTCTGCGAAGGAGGA
TGGAGATGGGTGTGGAAAGGAGTGTTATAGAAAAAGTATGTGAAGAAATAATACCCAAACATTTTCCACATTTGATGAAAACTAAAACCCACATTTCCAA
GAAAAGCATGAAGAAAACCATGCAAAGCCATACCATAATCAAATTGCTGAAAACTAATGATAAAAAACCTCAAAAACAGCCAGAGGAAAAAGCCACATTA
CATACAGCGAAACAAGAATGAAACAGACTTCTCGTCAAAAACAATGCAAGCCAGGAGACACTGGAGTAACACCTTCAAAGCACTGAAAGAAAAAACCATC
AACCTAGTGTACTGTATTACCAGCAAAACTACATTTCAAAAGTTAAGCTGAAATAAAGACTTTTTTACACAAACAAAAATGAAGAGCATTCATCACCAGC
ATACCTGCATTACAAAAAAATGTTAAAGGAAATTATTTAGTCAGAAGCAAAAAAAAACTGGTACCAAGGGAAAATCTGGATCTACACAAAAGAATGAAGA
GTGTTAAAAATGATAAATATGTGGGTTGAAGACTTTTTAATCCCTTTAAAGAAAAATTTTAAAATAATAAAACTTAYATGCAGAAATAAAATAGATGACT
CCAATAACATAAACCAAGCTGTGCAAACTTTTTCTGTAAAGGGCCAGAAAGTAAATACTTTTGGCTTTGTGAGCCATATGGTCTCTATCACAACTCAACT
CTACCATTGTAATGTGAAAGCAGCCAGCCATAGACAATATGTAAATGAATAGGTATGGCTGTGTTCCAATAAAACTGTACTTTTAAAAATTGATGGCAGG
CAAGATTTGGTCTGTGGGTTATAGTTTACCAACTCCAATGTAAAAGATAAGAAGAAATGGAAGTATAATATTGTAAGGTCCCTATATTACATAAAGTGGT
ATATACTGTTTGAAGGTAGGCTGTGTAAGTAAAAGATATACATTGTAAACCCAAAACAAGTGAAAAATAATAATAAAGAATTACAGCTAATAAACCAATT
GTGGAGATAGAAATTGAATCCTAAAAATACTCRATCCAGAAGGCAGGAAGAGAGGAAAAAAAGAAAGAAGTGGGACAAGTAAAAGCCGATAGCAAGATGA
TAGGTTCAGTCTAGTCATATTGGTAGTTACATTAAAATGTAAAATGATTAAACATACAAATAAAAGGCAAAGATTGTCAAATTGAATTGAAAAGCAATAC
CCAACTATATGCTGTCACAAGAACCCACTCTAAGTATAAAGACACAGGTAATTGTAAAGTAATAGAATGGGTTTCTGGTTCTGAAAAAGATAGAGTAAGC
ACAGTCTACCCCTGTCTCTCCCCCACTGAATACAGCTACAATCCTGGACAGAATGCATGGAGTAGCTGTCAGAGGACTCTGAAAAGTAAATAGTAGCAGG
TGGATTGGGGAAGAAGACCAAGCTTCGAAGTACCACCAAACCAGTGGTGAGTTTACCATTTTTTGTTTTTTGCTTTGGTATCCCCCCAGCCAGGACTCAA
AGCCACCTCAAAACCAGAAGTGGGCATCCACACGGACAGAAAGAGTGCTCCAGGAGAAGCCCTCTAGTCCAGCTTAAGAAGCAGGGCTGACAGTGCAGAA
GTTGGGGAATCCTCAAGTGCCCTTAAACTGCGAAGGAAGAAACCTTCCTCTCCAGTTGGAGGTGCTGTGGTTTCAAAGGGGTTGGGTATTGTTTTTCCCT
TTCCTGTTGTTTTTCCCTTTGTCTGTCATCCCATTACTTGGTCCCAGCCATGAATGCCATCATTATAAAAGTGGCAAGGTAGGGAAATAAAAGCCGCAGC
GTTTTTGCCAGAGGACTGAAAAAGGTAGCCCCAGAAAACTGGAAAGTACTGGGGAAACTGGAGGGTGAATCTTGGGACAGCAACTCCATAAAGTTACTTA
TGAACTCCTGAGCTCCCCCAAGTTGAAGGAATCTGTGTAATCTGATCTAAATTGTATTGACAATACCATTTATAATAGCTCCTCTCAAATTGAAAGACTT
TAGTATAAATCTACTAAAACATTAGAGAATTTGCATGCTGAAAAACTACAAAGTGCTGATGAAAGAAATCAAGATCAAGTAAATGGACAGACATACCATG
TTCATGGATTAGAAGACTCAACGTAGTAAATATGGCAGTGCTCTCTAAATTGATTTATAGATTTAACATGATTCCAACAGAGGTCTCAGCAGAATCTTTT
GTAAATGTAGACAAACTGCTTCTAAAATTTATATGGCAAGAAAAAGAATTTAGAAAACCAAAACAATTTTGATGAAGAATAAATTTTGAGGAATCACACT
ACTGAGTATTAAGATTTACTGTAAAGCCACAGTGATCAATTCAGTGTGATATTGGCAAAGGGACTGACACATGGATCAATGAAACAGGAGAGGAAATTCA
GAATTAAGCCCAAACAAATATAGCCAATTAATTTTTGAAAAAGATTTAAATCCAATGGAGAAATGATAATCTTTTCAACAAATGGGGTTGAAACAATTAA
ATATCCTTATATGTATAAAAAAAAAACCTCAACTTCAACCTCACACCTTATACAAAGATTAACTCAAAATGGATCATAGACCTAAATGGAAAAACATAAA
CTATAAGATTTTTAGAAGAAAACATAGGCAAAAAAAAAAAAAATTTATGACCTGGTCTTAAGCAAAGTGTTCTTAGATAAGACAGCAAAAGCATGATTCA
TTAAAAAGAAAAAGATAAATTAGACTTCATCAAAATTTAAAACTTTTGCTTTGTGAAAGACATGGTTAAAAGAATAAAAAGACAAGCTACAGACCAGGAG
AAAACGTTTGCAAAACTCATACCCAACAAAGGACTTGTGATCAGAATACACCAAGAATTCTCAAATCTCAACTGTGAGAAAACAAACAACCCAATTTTAA
AAATGGACAAAAGACTTGAACGGATACTTGGCCACAAAAGATACATATATGGAGGTGAATAAACGGATGGAAAAATACTCTTGTCATTAATATCAGCCAT
TAGTGAAATGCAAATAAAAGCCACTACGAGGAATCACAACAAACTCATTAGAATGCCTAAAAAAAATAATACTGACCTGGTGTAGATACAGAGCAACTGG
AACTCTCACACATTTTTAGTGGAAATGCAAAATGGTTCAGCCACTCTAAAAACAGTTTGGCAGGTTTTTTATAAGGTTAAGTATATGCTTATAATATGCC
CCAGCAATCCCACTCCTTGTATTAACTCTAAAGAGATGAAAACTTATGTTTACACACAAATCCATATACAGATGTTTATATTATTTCTATTTATAATCAC
CAAACCCCAAAACTCAAATACCCTTCACTGGGTGAATGGATAGACAAATTGTGGAACCTCTGTATGGTGGAATACTACTCAGTCATAAAAAGGACCAATT
ATAGATACATACGACAACTTAGATGGATCTCAGGGGAATTATGCTGAGTGAAAGAAGCCAGTCTCAAAGATTATATCCTGTATGGTTCCACTAAATGGCA
TTCTTCGTAAAACAAAACTATAGTGATGAACAAATCAGTAGTTGCCAGGGACTGAGGGGTAACAGGAGCTCTGTGACTCTGAAGAGATAGACCAAAGAAG
TCTTTCAGGGAGATGGAATGTTCTGTATCCTGACTGTGGTGGGGGTTAAACAAATCTATATATGTGTTAAAATTCATAGAGGTGTGGTGAACAAAAGTCA
ATTTTACTGTATACTGATTTACAAAGACACATTTTGAAAGCACGTGAAGAAACTGAACATCTTTTAAAAACCAAAAAGTAGCTGGCGTGGTGGCTCACCC
CTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCCAACAGAGTGAAACCCCATCTCTACTAAAA
ATACAAAAATTAGCTGGGTGTGGTAGCACGTGCTTATAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCACTTGAACCCCAGGGAGTTGGAGGTTG
CAGTGAGCCGAGATCGCGCCACTGCACTGCACTCCAGCCTGGCAAGAGAGCGAGACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAGTAAATTAGGTAAAC
TAATCAAGATAATGCTGCAGTGGCTATATTAATATCGAATAAATTAAACTTTAGAATGGGGAATACTGCTGGGAATTAGGAGGGACCTTTTATAACGATA
GAGGGGTCAATTCATCCAGAAGACATAACTCTAGATATACTTGTACCTATTAACACCTATTCACATGAAGCAAAAGCTGACTGAACTGCAAGGAGAAATA
GGTCCATAATTATTGGTGGAGATTTCGACACTCCCCTCTCAGTGGTTCATAGAACATGTACACAGGAAATCAGTAAAGCTAGAGGAGACTTGGGCTTGGC
CTACTTGGCATTTATAGAGCACTCACGTTATTCTCAAGTGCTCTTGGCCATCATAGGCCATATTGTGAGCCATAAGTAAGGCCCAATACATTGAAAAGGA
TTGTGTTTTCTGACCATAGCAAAATTAAACTAGAGATCAGCAGAAAGATATCTGGAAAATCCCAAATACTTCACTGATAGGGATGCCTGACCAGAAACGT
TTGGAGGCCCCTGGCCCCTGGGTGGTCTCTCTGGTCCTTCTTGTTCTGTCCATTCCTGGGTGGCTTCTCTGGTGCTTCTTGTTCTATCCAATCCTGGGTG
GTCTCTCTGGTGTTTCTTGTTCTGTCCATTCCCAGGTGGTTTCTCTGGTGCTTCTTGTTCTGTCCAATCCCGGGTGGCTTCTCTGGTGCTTCTTGTTCTG
TCCAATCCTGGGTGGTCTCTCCGGTGCTTCTTGTTCTGTCCAATCCTGGGTGGTCTCTCTGGTGCTTCTTGTTCTGTCCAATCCTGGGTGGTCTCTCTGG
TGCTTCTTGTTCTGTCCAATCCTGGGTGGTCTCTCCGGTGCTTCTTGTTCTGTCCAATCCTGGGTGGTCTCTCCGGTGCTTCTTGTTCTGTCCAATCCTG
GGTGGTTTCTCTGGTGCTTCTTGTTCTGTCGAGGAAGGAGCTGGGAGATGCTRAGCTCCATGGGGTGCAGCGCAGCTACAAATCCATTTCCAGAAATAAG
CTTCTGGCTTAAATTCCACTTGGGAATGACAACAGAGGTGAAAACCCAAAGGTGCCATTGGAGCTGGGCGGGGAGACCACTCTCCCCACATTCCCTGCGT
GGCCGCTGGTGACTGCCGTCTTTCTTGCAGGAGACCATCCAGTGCCAGACGCCTGCCTCTCGGCCCCTTGCCACAATGGGGGCACCTGTGTGGATGCGGA
CCAGGGCTACGTGTGCGAGTGCCCCGAAGGCTTCATGGGCCTGGACTGCAGGGAGAGTGCGTCTGGGCTGCAAGGGCTGCCGTTTTAGGGCTGGGGCAGG
AGACCCAGGGAGGGCCTTCCTGTGGGTGCATGCAGGAAACGCCCCGAAAAGAAACGTGTGAGTGCGCGTCCACTGCAATTTGTATGGGAAGTTGGCCAGG
AGCAGGGCAGGGTCTGGAGCGAGGGTGCCATCTTTCTGCGCCCCCACATGGGAGGCTCCTCCCTCTCTTCGTGGCAGGAGTCCCCGATGACTGTGAGTGC
CGCAACGGAGGCAGATGCCTGGGCGCCAACACCACCCTCTGCCAGTGCCCCCTGGGATTCTTTGGGCTTCTCTGTGAATTTGGTAGGTGCCCAGGTCACC
CTTCCTGCCCTGTCCCTGAGCATCCTCATAATCGGGAAATGAATGGTGGCTTCGGCCGGGGTCCGTAGGTCCAGACTGTCGACCATTGGTTCTACCCCCA
CCCAGGAGGGACTGGCCACAAGAGTGCCTGAACCTGTTGGGGCCACTGGGTCTTGGGAGGCCCCATCCTTGACAAGGACTCGAGGTCTGCTGGAAGACAT
GTGGAATATGGGATGGGGCTTCCTCCTTTCTCTCTAGAAATCACAGCCATGCCCTGCAACATGAACACACAGTGCCCAGATGGGGGCTACTGCATGGAGC
ACGGCGGGAGCTACCTCTGCGTCTGCCACACCGACCACAATGCCAGCCACTGTGAGTAGCTCGGGGACGAGCCTGCTGGGCCGGGGGCCCGGACAGAAGC
CAGGGAGAAAGCGGTGGATGAGGCAGGCAGAGGCCAGAGTCCCTACTTCCCTTCTGACTCTCGGGAGAGCTGGCACCTGGGGAAGCCTCTCTCAATAGCC
TTCCTGTAATATGGGGCTAGACATCTCCTCTTCCCCAGTGGAGTAAGCTCACAGGGGGAAAAGCACTTCTGCAAGTATACAAACACCATGTGGTATCTTA
CCTAAGCCCCAACACAAGCTATTAAAATATTTAATGCATACATAATTAGGCATGTGTAATGAAATGTATCACTACTATACGTTTGTTAGTGTATAGATGA
GATGGTTAATCACTTGCATCACGTATAGTTATATAGAATAATGATGTGATGCTGGCAGTGATGACAGGAAGGCGTTTCTGTATCACAGCTCAGTCCTGCC
TCGTAGAAGACGGAAGGGTGAATTCTGCTAAAATCGAGAAAAAGAGAAATTCCAGGGAGGGGCCCTAGAGCCCACTCTGAGGAATCAAGATGCCCACAGA
GTGTATTTTCAGTGGCCTTGGTTCCAGACAGGATGTCAGGGTAACCCTGGCAGGCAAGGTGCCCGCCAGCCTCTTGCCGCCCGCACAGATGCGGCGTAAG
CTCCAGGACCACCCTCTGTCCCCCGCCCCCAGCCCTGCCATCACCCTGCGACTCGGACCCCTGCTTCAACGGAGGCTCCTGCGATGCCCATGACGACTCC
TACACCTGCGAGTGCCCGCGCGGGTTCCACGGCAAGCACTGCGAGAAAGGTATGGCGGGCAGGGGCGTCCGGGCCGGCGTCAGCACCCTGGAGAGCGCCC
GCGGTCCGCCGTCCTGCTTCTCTGCTGTCTCTCTCCTTGTTTCGCGAATTGCTGACCTCGTCTAGAGCCTTGCCTGATGTGCTGCTCTGTTCTGTGTATT
TAGAGGTGAGCACCTCACTGTTTGGATGGTTCTGATCTGCACCAGTGCCAGGCCTGCTGGTCATTACCTTGCTCTTCTGAAAATAGGCTTCATTGCCTGC
TCAGCATTTTTCCAAATAGATTTTAGAATCATTATATCAAATTTTATTTTTAAAATTTCCATAGGATTTTGCTCAATCTAATTCAGCATGGAAAATGTCG
AATTTTATTACATTTAGTCGCTTGAGAATAGAAGTGTCCTTCTGTAAGCACACTGCAGGCGTAGCTATCCCCGCCAGGCCCCACCCAGGACTGTCCCTTC
TGTGCAGTTTGAAGCAACAGTCAGGACTCCCATCAGTCACCCCCAGACCTGTTCAGCATCTCAGTGGTCAGTGCCCAGAGGGGGCTGCCTGACCGCAGAG
TGACCTGGCACCCTCTCCAGGGGCTCAGCCCCAGGCACCCCCGCAGCCTGGACTGGTGTGGAGCCTTCCACGGCCCCTCCCCTGCTCTGTTCCTTGTCCC
TGAGGGAAAGACCCTGAAGTCTGAGCCCTGGACCCCGTGGCTCCCCCAACCACTGCAGCAGAGGTAGAACAGGTTTCCAAAGAGAAGACCCCAACTGCTT
GGTTCTTTGCAAGCTCTGACGAGGTCTTTGTCTCTCAACACACTCCTAGGACCACCCTGAGGCCCTTCATGGGCCCTGCCCAGAGCTGACTCTGGCCCTA
CTCCAGCTCACACCTGCCAGTGGTATGAAGTCCACTGTACCCAAGGKGGGGGTCCTACCAGAGCCCACATCTCCTCACTAGACCAGACTGCTGGTACCCA
GTGTCCCTGCCCCAAAGGTTCTGTGCCCGCCCCAGGAACTGCACAGCCCTCCCCCAGCATCCCAGCTTCCGTGAGCACACAGGCCACCAATGTGGACACC
TCTGACCCCGGAGGGAGTACGGAAGGGACAAGGATGGCTGTCCTCAGGGGTGGGGCAGCCAGAGCTTGGACCTGCAGCGTGGGATGGCTGGCAGGAGAGG
AGCGAGCACAGTGGGGCAGGCCCCTCCCGCCACTCAGAACACCCAGGGGTCCAAGGATTCGGCACTCCTCACTGGCCCTTTGACAGTGTGATTGTCAAGG
TGGCAGGACAGATGTGCTTGGTTTCGCAGACACCTTTAAATATGTGCTTGCCTCAAGCACAGGCCCGGCCGTCTGAGCTCCTCGGGTTCCAGGAACTGTT
AGGACCCAGGGAAAATGTGGCAATGYCAATGCAGGTACAGAACACACAGAAATCCAGATTGACTGCTGGGGACCCTGATGTCACGGCAGATGAGACTCAG
CTGCTTCCTGTCAGATGGGGAATGCCCGTGTGCAGGAGGGAGGGAGTGCTGCGCCCGCTGCAGTGTTGGGGCCGGTTCTCCACAGGAAGGGCCCAGCCAT
TGCCAGAGCCTGGGCAGAAAAGAGGACAGGCAAGCAAAGGGCCCACCTGTGACTGAGTTGGGGTCTCCAGCCTGTGAGCCCCACCCCAGCCCCCACCATG
TGTGCGGACCTGCTTGGCCCCTGCTGCRGCCAGGCCCCAGGGCTTCGTCGAGAAGGCCCCACCAGCACCAGAGGACTGAGGAGATGCCAGGAGGGTATAG
TGGCTCTGTGGGGCCAGCAGCCTGGCCCCGTTCATCTGCCTCTCTGTCCTTCCACACAGCCCGGCCACACCTGTGCAGCTCAGGGCCCTGCCGGAACGGG
GGCACGTGCAAGGAGGCGGGCGGCGAGTACCACTGCAGCTGCCCCTACCGCTTCACTGGGAGGCACTGTGAGATCGGTGCGGCCCCCAGGGGCAGGGGGG
AGGGCAGGAACGACGGGCCAGCCCTGAGCTGGGGCCCCTGATGCACCCTCCCTGCCAGCTGTGGGTCTGCTTCTCATGAAGAGGCCCCAGCTCTGGGATG
TTGGGGAACGTGGGAGGGGCAGTGGGCTGTGACCCTGACCTGGCTTCTGTTTCCAGGGAAGCCAGACTCGTGTGCCTCTGGCCCCTGTCACAACGGCGGC
ACCTGCTTCCACTACATTGGCAAATACAAGTGTGACTGTCCCCCAGGCTTCTCCGGGCGGCACTGCGAGATAGGTAAGGTGGGTGGGAGGCCAGGCCAGG
GCGGCCAGGGGTGAACCCTCTCTGCAGATGTGAAAACAGGCCCATGGGCAGGGCTGGTCCAGGCCCTGGAGGCGCAGGAGGTGGAGCTGGGTGCAGGAGG
CAGGATGCCCCACACAGTCCCGAGCCTTCAGGGAAGACACAGTGGCCAGGACCTTCCTGCATTCTGGCAGCCCCCTCCCCCTGCTTCCGGAGCCCGTGTG
TGAATGGGGGCACCTGCGAGGACCGGGACACGGATTTCTTCTGCCACTGCCAAGCAGGGTACATGGGACGCCGGTGCCAGGCAGGTGAGAGGGTCAGGGG
GATCAAGCAGGGTACATGGGATACCAGTGCCAGGCAGGTGAGATGGCCAGGGCCCAAGCAGGGTACATGGGATACCAGTGCCAGGCAGGTGAGAGGGCCA
GGGGGCCAAGCAGGRTATATGGGATACCAGTGCCAGGCAGGTGAGAGGGCCRGGGGGCCAAGCAGGGTACATGGGACACCGGTGCCAGGCAGGTGAGAGG
GTCGGCGGGGGGGGGGGGGGTCAAGCAGGGTACATGGGATACCAGTGCCAGGCAGGTGAGAGGGCCGGGGGGCCAAGCAGGGTACATGGGATGCTGGTGT
CAGGCAGGTAAGGCCTGGGGGGCCCAAGCAGGGTACATGGGATGCCGGTGTCAGGCAGGTGAGATGGCCGGGGGGCCGAGCAGGGTACATGGGATACCAG
TGGCAGGCAGGTGAGAGGGCTAGAGGGGGGTCAAGTGGGGAGCGTGGGATTTCTTGCTAATCCCTGCAGAGCTGGGCAAGGCAGGAATGGGAAGAAGGAA
ACGTATCACGGCAACCAGGCCCCAGAAGTCGAGGCACCTTTCCCCGGTGAAGGGCAGTGTGGGAGCAGGACATCCCTGGGCCCTGCAGTCGGGTCGGGCA
GAGGCAGGGCGGTGGGGAGGGGCCAGGAAGGCACAGGACCGTGCGAGACAGGCTGCCGTGCCTTGCAGAGGTGGACTGCGGCCCCCCGGAGGAGGTGAAG
CACGCCACACTGCGCTTCAACGGCACGCGGCTGGGCGCGGTGGCCCTGTATGCATGTGACCGTGGCTACAGCCTGAGCGCCCCCAGCCGCATCCGGGTCT
GCCAGCCACACGGTGTCTGGAGTGAGCCTCCCCAGTGCCTTGGTGATTCTGTGGGCCCTTGGGGTGGGGCAGGTGGGGCCCACACCCTCCTCATCCTGGC
CATGTGGAGGAGCACAGGGGCTGCAGGCCCAAGCCTGGATGCCCAGCTCTGACCTGGTCCTGCCCCTGCTCCCCTCAGTCTCCTGTCTGTGAATGTGGAC
CTTGGGGTGACAGTGGTGATGATCACAGTCAACTTTGCTCTGGGGCATTCACTAAAGGCTTCCCCATCCTCAGAGCAGCCCGGAGCAGGAGGTCAAACAC
CCAAATACCCACTCTGCAGATGCAGYAGCTGAGGCCAAGAGGTAGCCCAGGGGCAGAGTCCTAAAGAGCCAGATACGGATTCAGGACCTACCTCTTACTC
CTGGCCCCTTGAAGACTTGTGGAATCAGAACAAGATCCCCCTTCCCCCTGCAGGCATTTGAGGAGTGCTGCTCCAGAGAGCATTGCCACTGAGGTCCCAC
CCCTGTCTGGCTTGGGAGCTGGGAGTGCACAGCCTAGAGACAAGGCTCCCTCTGACCGAAGCCCCTGGAGAAGTAGGGCCATTAACACCCTGCAGGTGCA
TCGCATTATGCCAGAGGAGTCCAAACTGTCCATCAGAAAGTCTGTGTGATGTGAGCTAGTTTTTACGAAGCAAGGATTTTAAAACAAGCTTAGGAACAGT
GGGTGACAGCACCCAGATTTGAGTGGGGCACATAAGCCCATCCCTGTCCCCCACATGCCCCGCAAAGCCAAGGCCAACCTGCGTGGTCTCAGGCGAAGGG
TTCTGGGAACACCTGGCTTCAAGCATCCCTCCTTTCCTTCTGGGATTTCAAGCCCCAGGGTGAGCTCCTGACTGTCTTGGAGATGACCCCCCCTCCCAAT
GCTACTTCCCCACCTATATGTTGCCAGAAGATGAGAAGCCGATATCCTCAGAGAATATGAGCAACCAGCCAGGATATCGAGACACCTGAAAAGTACGATT
GCCTCAGAAAACAATAATAAAAGTCCAGAAAATATGTATGATCGGAAGCAGAAGTGTAGAAGACAGACTAACACAGGAGTTCAAGACCAGCAAGGGCAAC
ATAGGGAGACCTCATCTCTACAAAAAAATTTAAAAACTAGCCCGGCGTGGTGGCACATGCCTGTAGTCCCAGCTACTTGGGAGACTGAGGCAGGAGATCA
CTTGAACCTGGGAGGTCAAGGCTGCAGTGAGCCATGAGCCTGCCACTGTACTCCAGCCTGGGTAGCAGAGCAAGACCCCACCTCATACAAAAAAAGAAAA
TGGATTAACGGTATAAAATAACCGTGACAAATTTACAAAGTAAACATGGCATTGGCCATCCAAAACAGGATCGATAAATTATTTTAAAAACAGTGGGAAT
AAGCAGATTAAAAACTATAATAGTTGAAATAACAGACATAATTTATAAATGGATGCAGATGAAGAGTAAGTTAGTGAGTTGAAAGATCAGCTTGAAGAAC
TCTTCCAGAAAGAAGCAGGGAAAGATAAATAAATAAAAAAGAAAATGTTGGGGCCAGGTGCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCG
AGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACTCCGTCCCTACTTAAAATACAAAAACTAGCCGGGTGTGGTG
GCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAGCCTGGGAGGCGGAGGTTGCAGTGAGGTGAGATCGTGCCACTGAAC
TCCTACTTGGGTGATAGAGTAAGACTCTGTCTCAAAAAAAAAAAAGAAAAAATATTTGTGCTGTAGAGGGTAGAAGGTGTGCTAAAGCTGAGATAATCGG
AGCCCAAGAAGAAGAGAAAATGAAAATGTAAAGGATAAGTGGCTAGGGAGTTAAATTCCCAGAGTTCCAGATGAACAGCAGATTAAAAGGGCCCACAGAA
CGTCAGACAGGAGCAAAGGGGAAACAAACACCAGACACATTATAGTAAAATACGAGAATATCCTAGACAAACAGAAAAAGTTTTAACTTCCAGAGGGAAA
ATCAGGTCATGTACAAAGGAACAAGAATCAGCTTGACATCAAACTTCTCAACAGCAATATCAGATATAAGACAGTGAATTTTTTTAAATACTGAAGAGAT
CCATTTGGTTAGGGTGTAGACAGTCACAGAATACCACCACTGTCACTGTAATGTTAAAGGAACATCATGAAGCCTATGAAATCCTATCTTTTCACCTATT
AAAGAGTTGAGGAGGCAGAGAAGTTGAGGCTGTTGGCTGCTTTCATCCTCCAGCCAAATTTGTCATGCTGCAGGGGCAAGCACAATGGATTGAAATCAAG
AGAAGCCACAGATGCAGAGAGTAAGTTCTCAGCACCTACCAGGTCTCACCCACAGGATCATTACAAATGCATGAGAAGCCAGGGACTGGTCTGTAAAGCA
GAGATAGATTTCATAGTCTCACAAGGATTAGATTCCAAGTCCACCTGGAGGGAGAGGCCTGTCCAAATCCTTAAGCGTTTAAAACCAATCTTGAGCTGAA
ACTACTTAAAACTGCTCTAGCCCCAACCCAGCTCAACTCCTAATGATATCACAGGTCAGCTACTCAGCTTCGCTACCTAGTAGAGAATACAGTATGTTCA
TCCTAGTGTGAAATTTTCTACTTTGATTTCCACTGTTCTTATACGCACTATGTCTAAGAAGCAAGAAATGATGACACATAATCTAAAGAAGAAACAATCG
ATAGAAAAAGACCTTATGGATCACCCAAGTGTTGGAATTTAGACAAAGACTTTAAAATTCCATGAAAAATTTTCTTTATGTTAAAGAAAAACGAGAGGCA
GAATGATTGAGAGAATAGAAAATTTGAGCAGAGAAAAAAAGTAACAAAATAGAAAATCTAGAACTGAAAATATATCCGAAATGAATAAATTGTTTTATTT
GTTATTTATTTTTGTAGAAACAGGATCTCATGGTGTTGCCCAGGTTGGTCTTGAACTCCTGARCTCAAGAGATCCTCCTGCCTCTGCCTCCCAAGCTGCT
GGGATTACAGGCATGAACCACTGTGCCCAGCTGAAATGAATAAATTGGATAGGCTTAACAAAATGGATACAACAAAATGGATACAACAGAAGAAAAAAAA
CCATAGAACTCAAAGACAGGACAACAAAATTATCTAAACTGCAGATCAGAGAGAAAAAATAATTTAAAAATGAATTAGGAATTCTGAATAAGTGAAATTT
TTTTTTTTTTTTTTTTTTTTTTTTTGAGAYGGAGTCTCGCTCTGTCTTCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAATCTCCGCCTCCT
GGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCATCACCACGCCCGGCTAATTTTTTTTTATATTTAGTAGAGACAG
GGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCGCCTCAGCCTCCCACAGTGCTGGGATTACAGGCATGAGCCACTGCG
CCGGGCCAAATAAGTGAATGTTTTAAAAAACAGCATCAGAGATCTGTGGGACAATATCAAACAGGCAAACAAGCACATAATTGAAGTCCCAGAAATAGAG
GACAGAATGGGCAAAAGAATATTTGAAGAGATAATAATTGGACATTTTCTAAAAATGAAGAAATACATCAACCCACAAATTCAAAAAGCTCAGCAAATCC
CAAACAGTATAAATATTGAAATAGGTTGGGTGCAGTGGCTCACACCTGTAATTCCAGCACTTTGGGAGGCCAAGGTGGGAGGATCACCTGAGGTCAGGAG
TTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGGGCACCTGTAATCTCAGCTACTCAG
GAGGCTGAAGCAGTAGAATTGCTTGAACCTCGGAGGCGGAGGTTGCAATGAGCCGAGATTGCGCCATTGCACTCCAGCCTGGGCGACGAGCAAAACTCCA
TCTCAAAATATATATATATATATATATATATATATATATGCCATACGCAGTGGCTCACACATATAATGGGAGGTCAAGGCAAGACGATCATTTGAGCCCA
GCAGTTCAAGACCAGTCTGGGCCACATAGCAAGACCCCAACTCTACAAAAAACTTTAAAAATTAGCCAGGCATGGTGGCATGCTCCTGTAGTCCCAACTA
CTCAAGAGGCTGAGGTGAGAGGATCACTTGAGCCCAGGAATTCGAGGCTATAGTGAGCTATGATCATGCCACTGCCCTCCAGCCTGGGTGACAGCAAGAC
CCTGTCTCTAAAAAATTAAAAATTAAGAAATAAACTTAATACCTAAATATCTTTATTCAGTCAAATTGTTATTCAAATGTGAGACCATAAAAAAATATAT
TCTCATACAAACACAGCTTCAGAGGCTTAGCAAAAAAAAGTGTCCTTTTCTGAAAGAAGTAAGATAATAATAAGATAATAAGATAAACCCAGTTAAGAGA
AGGGAGAGTTATCAGATTTCATGGTAAGACTTGTCACTATCCAAAAGGAGAAAAAAGTAATCAGAAGAACATGGCAAATATTAAGATTGGAAAGAATTAT
GATAGAAAAAATACAAATATGAATGGACTAACTCTCCAGGTGAGAGATTGCCAGATGTGGTATAAAACAAGCTAGCACTCTTAGACATTCCTAAAACATA
AGACTATACAAAGAATGAAAGTGAAAGGAAAAAAATAGGTGTATACAAATCAAAGCTGGCGTATTAGCTATATTACTATCAGAAAAAGAAGAGTATAAGA
CGAAAAGCATCATTAAGAATGAGAGGGTGTCTCTCAATGATAATTGGTTCCGTTCACGAAGAAGATACAATTATTATAAATATTCAAGCATCTAATACAA
TAATCTCAATATATATAAAGCAAAAATTAAGAAACTGACATTAATACCAATGTTAGAAAAGAAGAAAATTTCAAACTTGATTAATTAAATGTCTGACTTC
AGAAGTTAGGAAAAAAAATACGAAATGATGCTGAAAAAAGTAGAAGGAAAGAGGAATAAAGGTAAAAGCCATAATTAATGAAGTAGAGATCCAAGATACA
AAAGAAAGGACAAGCCAAAATYAGTTCTTTGAAAAGCCTAATGTAACATGTTTAGTGGATATAGATTACAACAAAATTAATTATGTGCTTATGTATCAGC
AACCAACAATTAGAAAATGTAATTATAAAAAAGACAGATACAGAGAAAGATCAATGAAACCAAAAGCTATTTCCTTGAAAAGATCATTAAAATTGGGCCG
GGCGCGGTGGCTCATGCCTGTAATYGCAGCACTTTAGGAGGCCGAGGCAGGCACATCACAAGGTCAGGAGATGGATACCATCCTGGCTAACACGGTGAAA
CCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGAGGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGTGTGAACC
TGGGAGGCGGAGCTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGTGACACAGCAAGACTCTGTTTCAAAAAAAAAAAAATCATTAACATT
GATAAACCCTAGCTAGACTGATCAGGAAAAAAAGAGAGAAATTAGCAAGATCAAAATAGAAAAGGAGATCCTACCTCGTGTTTACAGTGGAGTCCTTTAA
ACATTAAAGATCCTGCCAGTACTTAAAGGACAAGAGAACACCTATGAGCAATTTTAGGCCAATGTATCTGACAACTTAGGGGAAATGGATACCCTGAAAG
ACAAATTACCAGAACTGACACAAGAATAATAGAAAACATATACAGCCTTATATCTGTTACACTTAATTTGTAATTAAAAACCTTCCTCAGAACAGCTGTG
TCAGATTGCTTCACGGATGAATTCTACCAAATGTTTAAGAAAGGAATGATACCAACTTTGTACAACCTCTTTTAGAAAGAGCTACATATTTTTTAGAAAA
TCTAGGAGGGAAGAACACTTCTCATTTGATACCAAACTCAATTGATACCCAACTTATTTGATAACTTCTCAACTCACCTTGATACCAAAACCAGACACAG
ACACTACAAAATTTGAAGTTACAGACTGGTATCTCTCAAGAACATAGACACAACAATCCAAACAAAATATTACTAAGTCAAGCTCAGTACTATATAAAAG
AATGATACAGTCATGACCAAGTGGGATTTTTCTCAAGGACACAGGTTGGTCTAACTTTTAATGTCAATCAATGTACTTCATCATATTAGGAGATGAAAGA
GAAAACTATATATCTCAATAGATGCAGGAAATTATTTGACAAATTCAACTGGTATTTAAAATTCTTAGTCAACTAAGAGTAGAAGATAATTTCCTCAACC
TGATAAAGGACATCCATTAAAAACCTCAGCTACCAGTGTACTCAGTGGTGAAAGACTCCACCTGGAATCCGTACAAGGCAAGGTGTCCATTCAGTACGTA
TTCCCAGCATTTTCCTGGAGGCCCTAGACAGTGCCAGATGACAAGAAAAGGAAATAAAAGGAAGGAAAGGAAGAAAGAATTAGAGATCACATGATTGTAT
GCATAGAAAATCCTAAGGAAATTCTACAAAAGAAGCTATAGAACTAACAAGTGAATTCAACTAGATCCCAGGATACAGGGTCAGTATATAGAACCTGTTG
TAGCAGTGAACACTTTGAAATGAAAGTGTTACATTAATAGCATCAAAAACATGATAAATTTTTAAATGCGTAAAAGGAACTATAAACATAAATGTAAAAG
CTAAAACTATAAACTTTTTTTTTTTTTTTGAGACAGAATCTCACTCTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCGCCTC
CCTGGTTCAAGCGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGCACTCACCACCATACCCAGCTAATTTTTGTATTCCTAATAGAGACGG
GGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCTGGTGATCCACCCGCCTTGGGCTCCCAAAGTGCTGGATTACAGGCGCGAGCCACCAT
GCCCGTCCCTAACTATAAACTTCTAAAAGAAAGAAATACAAAAGCATATGAGAAAATATTCATGAGAGCTGGAATACAATGGTTTTGTACTTGGAAAAAT
ATTATATTGGTTCTCTATTTTTCATACACTGGAATTAAATCCAGGTGGATTAAAGACCTAAATGTTTCTTTAAAAAAAAACTATACAGGGCCGGGCACAT
GGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGACAGGAGTTTTGTTTGAGCCCAGCCTGTGCAGCATAGAGAGACCCCCAACTCTACAAAAATA
AACTAAAATTAACCAGGCGTAGTGGCATGCACCTGTAGTCCCAGCTACTCARGAGGCTAGGGTGGGAAGATCACTTGAAACCGGAGTTCAAAGCTGCAGT
GAACTGTGATTGCACCGCTGCATTCCAGCTTGGGGGACAGGGTGAGACCCTGTCTCAAAAAAAAACAACCAAAAAAAACTATATAATTTTGTGTGGAAAA
TATAGGTAAATATATTTTTGACTTTGGGGTAGTGAAAGACTCCTTAAGCCACAAAAAGAATTTAAAAAGAAATGATGAACATACTTGACCATATGAAAAT
TAGAACCTAAATCCATAAACCTTAAGAAAGTGAAATCTAAACTACAAACTGGGAGAAGAGATAAATAGTCTCAAGACTACATGAAGAACTCTGATAAATC
AATGAGAAAACAACCTAATAGGAAAATAGAAAAAAAAACATGCATAGGCATTTCATGGAAGAAGAGATACAAAAGGCCAACAAACATAAAAAGAAATATT
CTATTTCATTAGTAATCAGGGAAATGCAAATCAAAAGTGCAATGAGGTACATTCAGCTGGTAAATTTTCAGAAGTCTGAAAAGCCTATACCGGTGAGAAT
GTGGATCAACAAGATTTCTTATGCATTGCTGGCAAGAGTATAAATTGCTAGAAGCACTTTGAAAACAATGTGGCACTCTGCCTGTTGAGCAATCTGCCCA
CTGTTGCTCATTTACGTCAACTGTGTTCCAGCAATTGCACTTCTGGGTATAAACCTAAGAAAAACTTCACGTCTGCACCAGGAGATGGGAAAGAATATAC
ACAGCAACATTTTTTGTAAAAGCAAAAAGTCTAGGCTGGGCGTAGACTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACGAAGT
CAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGTCGGGCATGGTGGTGGGCGCCTTTAGTCCCAGCT
ACTCGGGAGGCGGAGGTTGTGGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCAACGAGCGAAACTCCATCCCCCCAAAAAAAAAAAAAGAAAAA
AAGAAAACAAAAAAAGGAAAAAGTCTAGAACCAACCCAAAGACCCAGCCAGTGAGAATGGGTGAAGTATGATATAACCACACTGTGTAATGTTATTCAGC
AGTGAAAATCTATGAACCACAGTGACCTACAGTGTGGAGTTCTCTTCTTCATATAATGCTGAGAGAAGACAATATATATCATGATGTACTATGAATAAAG
TTCATAAACAACAAAAACATTCACTATTGTTTAGGCAATTTATAAAATTTTTAAGCTAATTTTAATTACATATTTTACTGCCAGAAAACCTAGTTTTTAA
AGACAAGGAAATTATAAACCCAGAGATTCTTATCGCAAGGGAAGAGAAGGGTACACGGTCGGATGAGCCCATTCAGCATTCTGGCTGCCGGGGTGGCTGC
TAGTCCCAGATGTCACTAAGTCATTACCATTTATTTACTTTTTAAGCATGAAATTAAACTTTAAAAAAATAAATATTTAAATTCAGGAGCACAACTCCCG
CTTGAAAAGAAAGCTGTGGTGAATCATTTAAAACCAAGATTTGTCCCAGATGGACTGGTTTCACAGGTGACTATTATACATTGAAATGGCAAGATGGGAC
ATGAGACATTTTCTGTCAAACCCCTGAGGCCTTTGTCCTGTCGGCCTGAACCACTGGAATTAAGTCCCACAGCGTCTTCTGGGAGCCCTGGGGTGGTTTC
RAGCCCGCCCTGCTGCTTCACAGACACAGCCAGGCACTGAGCCCCAGGCCCACTGCCCTGCCCCGACTCCAAGGATATCCAGCCCTGGTCTCTGGCCTTT
CCAACCACTGATGATGTATCATCGAATTCTGTCTGGCCCCTCAGGACTAGTTTATGTGCATCTTAATTTGGCTTAATCGTGGCCACATTGCTTTATTCTT
GGGCTCTCTCCTCTCAGAAATCGATGAGTGCCGGTCTCAGCCGTGCCTGCATGGGGGCTCTTGTCAGGACCGYGTTGCTGGGTACCTGTGCCTCTGCAGC
ACAGGCTATGAGGGCGCCCACTGTGAGCTGGGTAAGAGGGGCCCTGGCCCCGCTGGGGTGACAGCTGCAGCACACTGGCCATGTGCCTGAGGCACTGGGT
CCCCCGGACAGGTCTCTGTCTGGATGGCCAGGGTGGCCACTGCATGCTTTCTCGGGCCCCTGCCAGCTCTGACATCCAAGACAAAGATTTTACAAATATC
CCTTCCTGCACCTCCCCAGGGGAGACTGAGAGCCCAGCTGAGAAATGCTGGCCTGGCTTCAGGGCGCASAGAAGGTGGGCGTCGGAGAGGGCAGGTCACA
GTCTCTGACACCTGGTSGGTGCTTCCAGCCAGTGGAGGGAGGGGAGGCCTGCCCCATGAGCCCTGCACACTCTTGTACCTCGCTAGGGCTCTAAGCCTGA
GAAACGCAGGGTCCAGGGAGGGCAAGGCCCAGGGAGCCGTGCCCAGTCGTGGCCCTGGGGAGCCTCCCATTGCGGAGTGGCCTGGAGGAAGGCATGGCCT
GGAGGTGGGGCTTTGCCAGCAGGCAGTGGAGGTGGCAYGCCTCCCGAGGAGGGGTGGGTTTGGGGCTGATGGAAGAAAAAGCACATGTCCTGAGTAGTTG
CTCCCAGCTGGGAAAGGGGTAACTGAAGCCCCAGGAAATGCACGGAATCCTGGGGGCATGTGGGCGCCTCAGACTTGAGCCAGCAACACCCTTGACACCC
CTTCTCTGTGCAGAGAGGGATGAGTGCCGAGCTCACCCGTGCAGAAATGGAGGGTCCTGCAGGAACCTCCCAGGGGCCTATGTCTGCCGGTGCCCTGCAG
GCTTCGTTGGAGTCCACTGTGAGACAGGTAGGGGCTCCCTCCAGTGGGCCCCACATGCAGAGCCTGGGCCTCTGGAAGATCAGAGAGGAGGTGGGGCATC
CCCACATTCCCTGCTGGGCAGGCCACCTGGGGAGAGGGACCCCCAGGGCTGCGGCCACCTTGGGAGGGAGGGGTGGAGGTGAGGGTGCTGGGGAGGGCTG
AGGGGCGGGACCTGCCCACTGCCCCTCTCTCCTGGCCTCCGCCCCTAGACTCCTCCTTTCCCTTCTTCCCGCTGTCCTCTCCTCCCTCCCCCAGACTCCC
CCCTTGCAGCTTGGGCCCACTCTCTGGGTGTTCTCCAGAGGTGGACGCCTGCGACTCCAGCCCCTGCCAGCATGGAGGCCGGTGTGAGAGCGGCGGCGGG
GCCTACCTGTGCGTCTGCCCAGAGAGCTTCTTCGGCTACCACTGCGAGACAGGTAGGGCGGCAGGCCYGCCTGCTCCCCGCCCTCTGCCCGCCTGCTCCC
CGCCCTCTGCCCGCCTGCTGCCCGCCCTCTGCCCGCCTGCTCCCCGCCCTCTGCCCGCCTGCTCCCCGCCCTCTGCCCGCCGCCTTGGAAGTCCCCTTCT
CAGGCCAGTGGCCCTCCGCCTGTCTCCCTTGGTCCCACAATGGTGCCTTCTAAACCTCCCCATCTCCTGCGCTCACCCCCCAGACACCCCTCTTCACCCG
AGGACACACCCAGGGGTGGGGCCTCACGTCCACACATAGGCCCTGCTGCCCTTGGACAGGCCAAGTTTCTTGCACACCCAGGTCTGGCCCCTGGCTGTCC
TTCCATCTGGAACATTCTCCCTAATCAGCCCCCAGTGGGATACCTCCTGATGAGGCTTCCCTGACCACTGACCTCCCCTCCTCAAGCAGGACTGTCACTG
GGGTGGTGGCCTGTCCTGTCCTGATCCAGTGTCTCCTCCCCTCAGCCAGTCCGGCTGGTGGCACTCCGCTGTGGAGGGTGGAGGAGCTGCTGGGTTGGGC
CCCGCAGGGCAGTGGAGGTGGCAGAACCGAAGGGAGGCAGTAGCTGTCCTGTGCCCCCCGCCCCTCCACACCCACGCAGGAGGGACCCAGTGCCCCAGGA
GCAAGGGCSGGGCTGGAGCAGGGACCCCTGGCCACGCCCCAACATACACTGCCACTTTTTCTCCCCTCAGTGAGTGACCCCTGCTTCTCCAGCCCCTGTG
GGGGCCGTGGCTATTGCCTGGCCAGCAACGGCTCCCACAGCTGCACCTGCAAAGTGGGCTACACGGGCGAGGACTGCGCCAAAGGTGGGTGGCGAGGGCG
CCTCCAGTGAGGGAGCCACGAGGGGGTCCCCTCTCCCTAGAGGGCCCAACGGTCTCCAAGGGCAGAGCGTCTGGCCGCTGCTTGCCCAGGCCCCTTCCCT
GAGGAACAGGGAGGGGATAAAATCCCCCGGTGGGCTTGAAACACGGTCACACATTCAAAAGTGTGACCCTCCTGGAGGTAYGTGGCCAGGGACAAAGAAG
GACTCTGCCAGCGATGGCTGTGTCAGGCCCAAGAGCCAGACCCRGCTGAGCCGCCGACGGGAGCCAGGCATGCATAGCTAACGGCTGACCAGTCCCCTCC
CCTTGTTTTGACCCAAACCCTGAAGAGCTCTTCCCACCGACGGCCCTCAAGATGGAGAGAGTGGAGGAGAGTGGGGTCTCTATCTCCTGGAACCCGCCCA
ATGGTCCAGCCGCCAGGCAGATGCTTGATGGCTACGCGGTCACCTACGTCTCCTCCGACGGCTCCTACCGCCGCACRGACTTTGTGGACAGGACCCGCTC
CTCGCACCAGCTCCAGGCCCTGGCGGCCGGCAGGGCCTACAACATCTCCGTCTTCTCAGTGAAGCGAAACAGTAACAACAAGAATGACATCAGCAGGCCT
GCCGTGCTGCTGGCCCGCACGCGTGAGTGTCCCCGAGCCTGGCCGTCCCTGCCCAGCCCCTGCCCCTCGAGGGCAGCGCTGGCCCCGGCACCTGCAGGGC
GGCTGTCATGCCGTCCACCCTCCTAGTTCTTGCAGCAGCAAGACAGACAGCTGAGCTGGGGGTTGGAGGCACCGCCCTGCTGGAGACAGAGCTGTGTGGG
AGTGGCCTTGGGTCCACAAGATACAGGCATGGGATTGGGGCGCATAGAATCGAGCCAAGAGTGGGAGCAGCACAACCCCCAGGCATGGAGCTAGGAAGTG
GGACTGGGGAGGAATGGGGSCTTCCCAAAAGGGTCCCTAGAAGGAGCCAGTGTGGGAGACAGGGGCCGCGGGGGTGGGCTTGGGGGGGCTGGGACTCTGG
GGTGCTCTGAAGGCCTGGGGAGAGTTTGAAAGAGGCACCTGCTCACAGGGATATGTAGGCGCTGAGGTGTGCTAAGGGGAGGCATCGGTGGCTCAATCGG
GAAGAGCCGTGGGGCAGGCCCTAGATGGAATGACAGACCCAGAGCCTCCACCTGGAGCTGGCACTGAAAGCTGTGACCAGATGTGACCCCTGAAGAGGGG
GTCCTAGGAGGAGCCTCCTCAGAGCCTGAGCCACCAAGATTGCAGGGGAGGCCCGGGTTGTGCACAGCCTGTGGGGTTGTTGCCGTGTCGGGGAGCAGAA
GATGCTGAGCGCTCTAGGGAAGGCGTCAGGGCTTAGCGGGCTTGTGTGCTGCTGGGAGGGATTCTGGGAAGGAGAAAGGAGCCCTAGAACATGGCAGTGG
ACGGACAGGGGCAGGGCCGGAAGAAAGCAGAGGGCTGGCCTTCCACGGAGCCCGGCCGCATCAGCTAGAGCACAGGGGATCTCGGAACAGGCTGGGCAGG
AACCAAGTGGGGTGCAGGGCCATGGGGCCATGGGACTCTCACCCAACATGCCTGTGGCCTCCAGACACAGGAGCAAGAATGGGGAAGGGGTGCTAGAGGC
TCGAGGAAAGAGGAAAAGGTGCTGAGAGCACAGACTGCTGCGAAGTGGCGTGATGGATGGRTGGGTGGGTGGGTGGCCAGGGCTTCAGGGAGGCCTAAGC
ATCCAGCAGGGCCCTGCGGGGCGGCCACGTGAGTTTGGTGAAACCTATGGGTAGCATGGCGGGTAGGTGGGGAGGAGCTCGGCGGTTCTCACAGGAGGAA
AGCCTCCTGGCCACACCTGGGCCCTAGCTTGATGCCAATGCCAAGGGCATTGAGGGACAGGAGAAGGCATTCAAGGCAGCTTGAGCCCACCCAGAGGCCC
ACAAGGGCCTGTCCTGCAGGAGTTGACCACCAAGGGGCTGGAGTTCCCAACACAGCAAGGACACAGAGCACACCTCGGCCAGTGGAGAGCCTGGGCGCAT
GTGCGGGTGGCACTGAGCAGGTGTCAGCAGGAGCTGCCAGGGGCTGAGTAGGGGTGGCTCGCCTGGGCTGTTTTAGGAAGAAGCACCTGCAAGGCCGCCC
CATGTGAGATCTGCCCTCGGAAGGTATCTGGAGTGAAGACAGAGCCCGCCCTGCCCGCTGCAGAGTTGGGGCTCCAGCCAGCCATGGTGGGTGGAAGGGA
CCGCTGTCCACAGACCGGGGTGCTGAGTTGCCGGGAGCTGAGCGCTGCCCTCTGGGCTCTGCCTGGTGCATCAGCAGTGGCACTGGAGCTTCGGAGGAGA
CTGGCTGGGCGGGAAGCGGAGCTCACAAGTGGCCCCTTCCCTGCAGTYGCTGGGAGTTCTGTATGTCTGTCCTCCTAAGACAGCGTTGCCCAGACCAGGC
CCGGATGTGTGCTCTTAGACCAAAATAGTCAACTGGCACAGAAAAGGGGAGGTCCGGGTTACTCATGTCCAGAGGGACTCCGGCCCATCCCCTGCCATGT
CACTGCCACATCTAAATGGAGACTAAGACCCCTGCCTCTGGTAAGACGGGCTGGCCCACAGCGGGCTCTGCAGCCGTCATGCTCACAGCGGGTTCTGCAG
CTGTCAGCCCTGGAGGCCAGAGCCTGGGCATCCCACTCAGCCCGAGTTCCCTGAGCAGTTGATGGGACACCCTCTCCAGTGCCTCTCTGTGGCCCCCAGC
ACCCTCCCAAGCCTGGTTTCATCTTGAGCCCCTGCACTCCCCCAGGAGCAAGGAGGGGCCGGCACCTGCTGAACAGTCCATTCCCCCTAGGACCCCGCCC
TGTGGAAGGCTTCGAGGTCACCAATGTGACGGCTAGCACCATCTCAGTGCAGTGGGCCCTGCACAGGATCCGCCATGCCACCGTCAGTGGGGTCCGTGTG
TCCATCCGCCACCCTGAGGCCCTCAGGGACCAGGCCACCGATGTGGACAGGAGTGTGGACAGGTTCACCTTTAGGTAAGAAGGGACACCCAGAGCATGGG
GCTGGGGTGAAGGCAGGGGTGGGGGCTCGGGGACACGGGGCCCAGGTCTCGGGCACATTCTCCGTGTGTGGACTGTACCACCTGCCGCTCCTCACCTGAG
CGGAGACAAAGGTCTCAGGTGAGCCAGCCTCAGACCCTGGAGGCTTCACTCCCGCCTCACCTCATCAGGGCTGCCAAGAGAGGATACACCTTGGTAGTGT
TTTAAAGTGTCCAAAAAGAGCAGGAAAAGCTCAGAAAATCCGGGGGCACACTTTCCACACAGATCATGAGAGTGACTTGGCCCCTCAGAGAGCAGCRGCC
AGCGAGGGTAGATGGTAGCAGCCCCGAGCTCTCCCAGKAGTCCCACAGTGGACCCCTCAGAGAGCAGCGGCCAGCGAGGGTAGATGGTAGCAGCCCCGAG
CTCTCCCAGGAGTCCCACAGTGGACCCCTGTGATTTGGTCGCCAACCAAARAGAAAGCTTCCGAATCGTGCTCAGCGCAGGCAGGGGTGCAGGAAAAGAT
CGGAGAGCGAGTGGGAAGGAAGACTCCAGCCAGCAGCTTCCWGGGGCTGGGGTGGCATTGGCCTCACGTTGTCCTGTGGTTTCCTGAGAATTTACATCAA
CTCACCTGTGCTGAGGGCCCRTCCCCCATCCCTGCACAGTGACCACTTCCCCCTTCTCTGGCCTCTCCCAGCTGAACACCGGCCCTCTGACCATACTGTA
GCAGCCCCAAGCGCACCCGATCCTCCTCCGCTGCCCGGACTATGGGTTGGCTTCCCGCCCTAGGAGCACACGGCTCTGAGGGCCATGAGTCTGCCCCTCG
TGGAGGTTGCCTGGGCCACCAGCAGCAGGATGACCTCCCCGCAGTCACCTCCTGCCTGGGGGAGCTGCGGTCTGGCAGCAGAGTCACACACAGGTCCCAG
ACATCCCTGTTCTCTCTTTGTCACCTCCTGCCCACAGGGCCCTGCTGCCTGGGAAGAGGTACACCATCCAGCTGACCACCCTCAGTGGGCTCAGGGGAGA
GGAGCACCCCACAGAGAGCCTGGCCACCGCGCCGACGCACGTGTGGACCCGTGAGTAGAGCAGCGCGGCCCCCGGCACACGAAAGGCCGTCTTCTAGAAG
CTCTGGCTTCCTTCCAGCCTCCCCTAGTCCTCTCCAAAGCGTCCACAACACCAGAAACCCAGCCCCTGGCCTCCCAGATGTCTCTTCCGCTGGGGCCACT
GGGCAGGAGCCGCTGGGCTGGGCTGGGCCCTTGTGCTGGGACAGCTGTCCAGGGCAGTCTCCATCTCTAAAGGCTCCTGGTAGCTCCTCAGCATGGAGTT
CCTACTGGACACCGACCAGAGGGCCAGAGGACCTCACTGGGCCAGGGATACCCATGCTATCCAGGGCCCTTGTACCTTGCAACCAGCCCCCTCTAGCTAA
GCTCCCTAAGTTCCTGGTGTCACTAGGCCCACACCCCCTCCCCAGTGCATGGGAGGGGTGACAGCATGGACAGTCAGCGCGCAGGGGAGGGACAGGTGAA
CTGGGCAGAGGGGAGGCTGCAGCTCCCTCTGTGAGGAACAGAGGCTTAAGCAGACCCCTGCCCACCTGTGCACTCAGATGCTGCCCGCCTGGCATGGGAA
AGGCTGGTGGGGCAGGGGAGTCTGCACAGGGCTCCACGCAGCCAGGCTCAGGGGAACCGACTGTGCCGCAGGGAGGGCGCCAGCTGACGGGCCAGGGCCT
GGGGGCTTCACAGGGTGGATCCTAACCCGAGGGGAGGGTGGCAACCAGGGGCCTGCAGGTCTCTCGGTTGGAAGATTGTGCTGTACGTGCCAGCCCACAC
CCCGCCTCGGCACTGTACCATTCTCCATAATAAAGAATCTGGCTTCCAGCAAGGCTGCRGCAGCCCATGTCSGGTTCTCAAACCKTGTTCTTGCCAGAAG
ACCCTGTGGGCACCCCCTCACCTCTCCCTGCTCCTGCCTCATCCAGGGCCCCTGCCTCCAGCAAACCTGACCGCCGCCCGAGTCACTGCCACCTCTGCCC
ACGTGGTCTGGGATGCCCCGACTCCAGGCAGCTTGCTGGAGGCTTATGTCATCAATGTGACCACCAGCCAGAGCACCAAGAGCCGCTATGTCCCCAACGG
GAAGCTGGCGTCCTACACGGTGCGCGACCTGCTGCCGGGACGGCGGTACCAGCTCTCTGTGATAGCAGTGCAGAGCACGGAGCTCGGGCCGCAGCACAGC
GAGCCCGCCCACCTCTACATCATCACCTGTGAGTGCCGTGGGCCCTGCGCGTGGGCGGGGCCAGTGTTTGCCAGCCCTCCACCCTGTTCAGGACTGACCT
GGCCCTGCAGGGGCCTGGGATGCCAGGCAGACAGCCTAGAAACAGGACCGTGTTAGCAGGGGAGGAGTCTGTGTATGAAAGTGGAGGCTTTTCAAACCCA
CAAGGAAAGGAAGGACTCATGGGCAGGTGGCACCAACAACTGGAATAATAAGCACATTGAGCCTCAGTTTGTGCCGGACCCTCCCGTAGATCCCAGACAG
GCCGAGCATCACCTGAAAACGGGTGCCGAGGGTGGCAGCGAGGAGGAAGCCCCCGGAAGTGGCCTGCATTGCAGCCCAGGCCTGACCCACGAAGAGCCAC
TGGACACAGACAGACAAAGGGCCAGGAGGCCACAGGCAGGGGCCTGCAAGGCAGGCAGGAATGCTGGGGAGCAGAGGCACAGGGCAGAAGCCGCTCGGAG
TGGGGACAGATGCTCCGAAGGGCTCAGGTCTGCTCCCAAGTGCAGGGGTGGCCCTTCCAGGCTCCACCAGGGTCCCGAACGCCCCACTTAGGTCTTCCAA
GTTCACAGAAGGAGCAGTGGGAAAATGCAGGAGCAGAACAGGGAGAGAAGAAAGAGACGGAGACAAGCAGGGAGGAGAGGCCACGGCGGGACAGAGCAGA
GCAGTGYGCGGCTCCCCAGGGAAGAGAGGGCTCTGACCCCAGGCTCCTCCCCAACCCGTGAGGCTGTGCTGGGGACACGAAGTGCATAAGCTTGCCGAGT
TCTCAGACCCAACCCTGCCACCCCCACCAGCTTGGGGCCAAGCCCACCAGCCAGGCAGAAGGGGCAGGCTGGGACCTCTGTGAGCCGGCGTCAGAGTGAG
AGGGAGAGGGAAGGGGAAGGAGGGCCCAGCCTGGGAGGCTGAAGGACGCTGTTAGGGTGACAGATGCACCCTCACTCTCAGGGCACATGCTGGGGTGGGG
ACTCCCAGCTGAAGCGTCCCATCAGGAGGCCACTGGGGAGAAGCACTGTGTCTCCAGGGCAGCCTGGGACCTGAGTCYGAGCCCGAGTGCCCAGCCCCTT
GAGAACTTGAGTGACGGGCAGGGGCCTAGACTCAGCCCTGCCTCATGACTCCCAGGCCAGTGCACGCCTGTGTCATGGCTGCGCATGGCTCCTCCTCAGA
AGGGATGCGGCGGGTRGGCTGGAAGGGAACCCAGGGCATCTGGGGAAGCCACAAGCACCTTGGATGACCACGGCCCACGCACATGCCCCCCTTCCCTTCT
CCAAGCACGGCTGAGTGTGAGGGGCACCACCCATGCCACAGGGGCAGGGACAGGAGCAGAGGGCAGCCCCAGACCAGCCCCTTCCTCCTGCCTGCTCTGC
AGCCCCCAGGGATGGCGCTGACAGACGCTGGCACCAGGGAGGACACCACCCTCGGGTGCTCAAGAACAGACCGCCCCCGGCGCGCCTGCCGGAGCTGCGC
CTGCTCAATGACCACAGCGCCCCCGAGACCCCCACCCAGCCCCCCAGGTACATGCCCCACCCGTCGGCCCCATCGCCCGAGGCGGCGCTCGGACTGTGGT
GACCCTCCCACCCTCTCTGCAGGTTCTCGGAGCTTGTGGACGGCAGAGGAAGAGTGAGCGCCAGGTTCGGTGGCTCACCCAGCAAAGCAGCCACCGTGAG
ATCACGTGAGTGCCAGGGCCTCCCCACCCACCTTGGTGGCCMACCCTCGTCCTCACTGCCACTCTCACCAGGTCCTGTCCCCTACATGATGAGCCCACCC
CCACCGCCAGCGCAGTCTCCAGCCAGTGACCCCCACCCCGACTGTGCACAAGGCGCGGGGCTCGTGGGCCGCCGGCAGCATGCACCTCCATGGCAGGAGG
GGCAGCTCGTGAGGGCCTCACGTCAGTGTGTGGGCTGGAGGCGCAGGCTGCTGGTAGGGCACGCAAGAGAAGATAAACATTTTAGAAGCAGGTCTGAGAC
ATTACAGCAGCTTTATTTGCCAAAGTAGGGCTCTGAGCTTTGTTTTAGTAAACCATGGGCAGGAGGCCATGAGGGTCTAACCCGCCACTCCGAGTGTGGT
CCGGCAAATCCTCCGCCACTGTCCTGGCAAGATCTTCCCGGTGGCAGCAAGGCTGATGGGCCCARGTGCCTTGGGCCCTTCCCACCGGGTTTACTGGGTG
AGTGCCGCTCTGGGAATCTGCCTGTGATTCTGACACAGAAGCCCTGAGACATGTTGGCAGGAGTGAGGCAGGCRCGACCCTGCCCCAGAGGGGACCTCTC
TGGCCCTTGCCTCTCACCTGGAAGGCCAGGTGGTCATCCTCATGGAACTCCCCAACAGAGCCTAGTCACCAGTTTAATGAACACGCTCTGAGCAAAAACT
CCTCAGGCAGAGGAGGGAGGGAAATGCAGCAAGGAGAGTGGCAAGCAGGGACCAGAGCCCTGGGGTCCCTGCCGCACGGTGAGCAGGGGAGAGAGCCCCC
AGCAAGGTGTCTGAGGAGAGGGCAGGCAGCTGCCCGGGATGCCCAGTGGTGGGCAGGTGAGATCTGGAGTACAGAGGGGGGCCCGTTGTACTTGCAGCTA
TGGAAGCGGATATGAAGTGCCCGAGGGTGCGGTTGAGATCCCTGCATAAGAAGTGATGCAGTTGGGGGCGAGGGCATGAGGAAGGTCAGTACAGACTGAG
GGCAGCTCAGAAAGAGCAGGGGGTGCCACAGCCTCCAAGAAGCAGGGGTGGAAGGAGAGGAATGCAGAATTTGACCCTAAGAAGAAAGCAACCGCATCAG
CCGTGAGGATGGGGCCTCTCAGCATGATCAGTGGTGGCTGTCCCTGAAGCAGCTCTGAGGGGGCCCTGCAAGGGGAAGGCCGAGCCCCTCCAGAGGGTCA
GCAGGAGGGTGAGGCCAGCCCTTCAGGGGAGGCAGCTCTGGGGCCGACAGGTGCTGGGGCCACGCAGGGAGCCTGGTCCCCACCAGGGACATCCGTGCTC
CCTGAGATATAGAAGCACTCAAAAGGGTGGCCCCAGGACCATCCCGGGTGCAAAGCAGCTGCGCCGTGTGGTCACCGCCTGGCTTCTCCTAGAACCCACA
GCCTCGGCGCAGCTCGAGAACATGGAGGAAGCCCCCAAGCRGGTCAGCCTGGCCCTCCAGCTCCCTGAACRCGGCAGCAAGGACATCGGAAGTRAGTCAG
CAGCGCTGGTGGGGACTTTGGGACTGACTGACTGCTCTCAGGGGCCTTAGAGGCTGCAGGCAGGAGGGACCACCCACGGTGAGGAATCAGGAGGCACAGA
GCCTACCTGAGGGGAGGCTGAGCACCAGGCACCCCGGTGTGGGAAGATGGGGTGAAGCTACACCACCCAAGCAGTGGGACCCCACAGACGGGAACAGGCC
AGGGGGCAGGACCCACCCAAACCACCCAGAGTCTGAGCTAGAGAGACTGGCTTTGATGCTGCCTCCCCTCCCCTCTCCTCCTTCGCCTCCACATGCAGCA
GAGCCCACCCCAGCCCCTGCCTCTGGGCCCCTCACCCCTCACTTCTCCAAAGAGGAGCAGGCGGAGTCAGGATGGGAGAAGCAGAGGGAGCAGCCACTGG
GCGAGCCCCAGCTTGAGGACTAGCTGGGCCCTGTGGACACTCAGGTTATGCAGGACCTGAACTGTCTCCTAGTCCGGGGCTCTGCCTCGTGAGGATCGAG
GCCAGCACGTCCCTGCAGGGCACCAAGCATCTGCTGAGCACCTGCAGTAAGAGTTCCCAGACGCTCACGAGGCAGTTCCCCTTCGGGCAGCACCAATAYA
TGTGTGTTCCTCACCCTGAGTCAGACTCTACCTTTCTCCTGGTTCTAATCCTTTGGGGCTGTGTCCTCTATGGACAGCTCTCCTAGCACCCGGTGAYCTG
TTCTCCCCTGAGTCATACCATAGACTCAGATTGGGATCACCCCTCAACCCAACCCCAAAGAAGTCCTAGTACTTGGTAAAGGTGTGAGCTGCTGAGCGTG
GTCTCACCCGCAAGGCCTTGCCCCCAGCTTCTCAAGGACRTGTGTACACATCAAGGGCACCTGCGGTGGGGTGTGTTTGCAAGTGGCGGTTTCGCTGAAC
CCTAAGTTCACCATCCCCCCCCCGCCCTCACCATACAAGGTCTGGACTTGCTGCTAGCCCCTGTGAGCACCAGGAGGACTGGTTTGTGCATCCGACGCAG
AGAGTGAAGGATTCTCTTAATTCAGGTGTGGCCCATTCAGAGTGAAGACTCTCGTGTTGATCTTTAAGTGAACTAAAACAAACATTTCATCAGATGATTT
GCATTATGTCAGCCCCTTTAAATACCAGGTGTTCATTTCCTAGAACTCAGAGATTGGAGGGGCGTGTGTTACCCTCCTGGGTCTCTTCAGCAGGAGAGAT
TCAAGATGACCCCCGGGCTGGCCCTGAGGTCACCACGGTCATGTGGTGTTTGCCAGCACGAGATGCTCATGCCCTGGTGGGTGCAAAATGATTTTAAGTG
ATAACATGAAAAGTAGACTCTTTAATGGCCCCTCGATGCGCAAAGCCAGTCATGATCTTTGGTTCATGTTGCACTCTCACGCTAGCTACCTTTTATTTAG
TTATTAGCCTTTGAATAATGACTAAATCAAGAACCCAACCTATAAACTTGGATGTGAACGATACCTTCTATCTTGCCATCATACTCCCTGTTCTCTCCCC
TCAGTTAACCATGATCCTGAACTTTGTGCCTAGAATTCCTTTGTTTTTTCAGAGTGGAAGGTGCGGGGAGTGATTYTATGGTACATATATGTATGGCAGA
ACAATAAGTGAGTTTTCTTTGCAAGATAATTATCTTGCCATGTGTGATCGTTAGACCTGTGTTTTCACTCCGCATTCTCGGACTGAGGTTGGCCCATGCG
GTCTGGGCGGCTGCGGCTTATTCACACCTACTATTGAGCACAGAGTCCACTGAGTGAACTGACCGGCTCTTCTCCCCTCTCTGTGCAGAGAACATGTAGG
TTGTGTTTGGTATGAGCAGTGCTGCAGTGGATGTTCCTGTACAGGTTTTCCAGTACGTGTGCGGGAGTGGAAAAGCTGGATCTAGGATGAGGATGTGTGA
ATGCCCAAATTACATGAGAACTAAGTCATTTTCTAAGAGGCGATAGCAGTCTGCGCTCCCTCCAGCAGTGATGAAGACATGCAGTGAATCCAGTCTCTCT
AGAACTAGGTTTTGCCGGGTTTGCAGATCCTACAGGCAGAACGGGTGGGATGCACACCCCTGGGATCTGGGTTTGCATCTCCTGGGCACTGATGTGACTG
CGCCTCTCCTCATGGGCATCCACCAAAGGTGTTTGCTTCTGTGAAATGCCTGATCACGCCTTTTGACTTTATGTTGGGTTATTTGTACTCTTTTTATTCA
TTTGTCAAAATTCTTATATGTTTTGATACTGATCCTTTGTCAGGTCTGTGTTCTGCAGGTATCTTCCTCCAGCCTCTGGCTTGTCCTTCCCTGTTCTTGG
TGGTACTTCCTAATAGAGAAAAGTTCATAATCAAATTTATCAAGCATTAGTGGTTAACAAGTTGGGAGCCTTCTTTAAAAAATATCCTTCCCCACACCAA
AGTTAGAAAGTTATTCATGTATATTTTTTTCACAAAGATGTAAAGTTTTGCTTTTGACCTGTAGGTCATTAATCTGTTAGACTGTGTGTGTGTGAGAAGT
TGGGCTACAATTTCATTTTTTATGCATATGGGTAAACTGGATTTTTCATCTCTTCATGCTAAAAAGTCCCTTTTTCCCCCACTGTCAGTATCAAAATTCC
ACATATAAAAGTAGAATTCTGGCGRCGTCAATTTGATACATCTGTGCCAATACTGCCCTGTGTTCACTCTAACTTTGTAAGTCCTGGAACTGATTGGCAA
AGTTCCTTTCCTTTACTCTTCATCTTCAGAAGTATCATTGCTACCCTTGGCCTTTTTTCTTCCACATATACACCTTCAAATCTAGTCACACTCTATGGAA
AAGGCCTTTGAGATAATGATGACTGGGTGTGCATTCAATCCATTGACCATTTTTGTGAAAATTGACATCTTTAGGATAGTAAGTCTATATCCATGGACAT
GGGATGTCTCTCCATATATGACATTATGACTTATTTAATATCTTTCAGTAAAGTTTTATATGGAATTCAGACTTATTCCTAGGTATTTTATAGTTTGATA
CTATTATATAGTTTGATACTAGTATATACTTTAAAAGTTACTTTTCCTGATTATTTATTACTGGAGTATAGATATTTATTTGACCTTTGCATACTGACCT
TATAGCCAACCATCTTGCCAAACTCTCCTATTCTTGTCATACATTCTTTGGGGTTTTCTATATATATATAAAATCATATCCTTTTAAAGATTAATTGTTT
GCCTTTTAAAACTCAGACCTGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCTAGGCAGGTGAATCACTTGAGGCCAGGAAGGAGTTCAAGACTAGCC
TGGCCAACATGGTGAAACCTGTTGGTGTGGTAATGGGTTAAGGATAGGCATTTAGATCAGTGGAAAAGAACTGAGAGTCCAGGGCCGGGCGCGGGGGCTC
ACGCCTGTAATCCGTGGAAAAGAACTGAGAGTCCAGGGCCGGGCGCAGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCAC
CAGGTCAGGAGATCGAGACCATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTGGTCCCAGCTACTCCG
GAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCC
GTCTCAAAAAAAAAAAAAAAGAATTGAGAGTCTGGAAATAAACCACACGTCAATGGCCAACTGACTTCTACAAGGGGGCTGAAACYATTCAATGTGGAAA
GAATAGTCTCAGCAAATGGTGCTGGGACAGCTGGATATCCACATGCAAAAAGAATGAGGCCGGAGCCCTCGTACCATATACCTCATAACACAAATTACCA
CAAATTGACCAACAACCTAAATGTTAGGAGCTAAAACCAAAACTCTTAGAAGAAAACATAGGAGTAAATCTTCATGACCTTCGATCATGAGGGTCCTTAG
GCTCAACAATAAAAGTATGAGCAACAACAAAAATCTATATATAAACTACTCTTCATCAAAACTTAAAACTTCTGTGCCTCAAAGGATGCCATCAAGGAAG
TGACATGACAACCTGTGGAGTGGAGGAAACATGCAAATCATACCTGATCAGAGACCCGCGTCTAAAATAAAGAGCTCTGACAACTGAACAATAAAAAGAC
AAACAACCCAGTTCAGACATGGGCAAATCATACCTGATCAGAGACCCATATCTAAAATAAAGAGCTCTGACAACTAAACAATAAAAAGACAACCCAATTC
AGACAGGGGCAAAGGACCTAAAAAGACATTTCTGCAAGGAAGATATGCAAATGGCCAGTAATCACACCGAAAAGATCCTTGACATCATTAGTCAGCAGGG
AAATGCACATCAAAACCACTAGGATGGCGGGAATTAAAAAGTCAGATAATAATAAGCATTGGTGAGGACGTGGAGAGATCAGAACCCTCTACGCTGCTGG
TGGGACTGTAAAGTGGTACAGCTGCTCTGGAAAACAGTCTGGCAGTTCCTTAAAGGATTAAACCAATAGTTACCGCATGACCCAGTAATTGCACTCCTAG
GTATATACCCAAGAGAAATGAAAACCTATGTCCACATGAGGTCCTGTACACAAATATTTATAGCAGCACAGCACAAAAGCCAGAAAGTAGAAACCACCAA
AGTGTCAATCAACTAACGAAAGGAAAAGTGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACCAGGTCA
GGCGTTCGAGACAAGTCTGGCCAACGCGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTCC
TCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGTTTGCAGTGAGGTGAGATCGCGCCACTGCACTGCAGCCTGGGAGACAGAACTAGA
CTCCGTCTCAAAAAAAAAAAAAAAGAAAGAAAGAAAAGAAAGGATAAGCAAAACATGGTATATCCACTCAATGGAACACGATTCAACCATAAAACAAGGA
CGCATGCTGCATGCTACAACATGGATGAATCTTGAAAACATGCTAAGTGGAAGAAGCCAGACACAGAAGACTCTATGTACTATGATTCCATTCATATGAA
AGTCCAGCAGAGGGAGCTCTCTAGTGACAGAAAGTACATTAGCGGTTGCTCAGGACTGGAGGGTGGAGGGGATGGGGAAGGCAGTAACAGCTAAAAGGTA
CAAGGTTTCTTTCTGAGGTCACGAAAATGTTCTAAAATTGTGCTGATGGATGCCTGTATCTGTGAATATGCTTAAAACCAATAAATTGTACACTTTGGGT
GAATTTTATGTTATATGAATTATCTCAATAATGCCTGCTTTAAAAAAGTTATGTGCAGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGG
AGGCTGAGGCAGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGGGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGC
ATGGTGGCACACGCCTATAATCCCAGCTATTCAGGAGGCTGAGGCAGAAGAATTGCTTGAACCCAGGAGGCGGAGGCTGCAGCGAGCCGAGATCGCACCA
TTGCACTCCAGCCTGGGTGACAGGGTAAGACTCCATCTCAAAAAAAAAAAAAAAAAGGCCGGGCGCGGTGGCTCACATCTGTAATCCCAGCACTTTGGGA
GGCCGAGGCAGGTGGATCACAAGTTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCGC
AGTGGCAGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGCGGAGCTTGCAGTGAGCCAAGATCGCCCCACT
GCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAGTAACGTGCAGAACAGTGTTTTCAGTATGTTGTCTTTTGTGTAGGA
AAATGGAGAAGGGAAATACAAATTTTGTCCTCATTTTAATAAAGAAATGAAACTAATAAGATGGTTCACTAAATGAGGAGGGAAAGAACTGCATAATGGG
ACTGGAGATCGGCGAGGCTTCTCTGAATGAACCTTGTTTTACAGTTTTGACTTTAGAACCAAAAAAAAGGTTTTAAAAACAATAAAAAGAAAAGGCAACA
CCTAAAAATTGAAAACATACTGAAATAAGTAAACCTAGTTATCATGTGGATGGCATAACCACACAGGAAAAAAATATCATTGCAAGCGATTTTAATAAGA
GTAGTCTGTTCACCCCTAATGGAATATGGTCTAAGGATAAAAAGCATCGCCAAGGAATGTTAGGCTATACTCAGTGATCTTAATGTTAGTAGTAATACCT
GAATTGTTATTTTGAAATGATTGCATGTATATGGTAGGATAAAGAAAATAATTGTTAACGCCACCAAGATTTTCAGTGTAAAGAATTAAAAATATAAAAT
GAAAGAAGTTAAAAATCTTGTTTGTTTTGGCTGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAAACGGGCAGTTGACTTGAGGTC
AGGAGTTTGAATCCAGCCTGGACAACATGGTGAAACCCCGTCTCTACTAAAATACAAAAATTAGCCAGGCATGGTGGTGCGCGCCTGTAGTACCAGCTAC
TCGGGAGGCTGAGGTGGGAGAATCACTTGAACCCAGGAGGCAGAGGTTACAGTGAGCTGAGATCGCGACACTGCACTCCAGCCTGGGCAACAGAGCAAGA
CTCCATCTCAAAATAAATAAATAAAATCTTGTTTGTCTTTTGATTCTGTTAATTTGAAATGGAAATATTAGTATGAACTCATAATGTGTTTATTTTTTAA
AGAAGCCTAATTTTCTAGTTCTGTTCATTGAAAGGCCTGAAGCTGTGACATCCCATAATAGGGAGCGGTGTGAGTGCCAGGCTGTGGGCTCTAGATCTCG
TTCTCACCAAGAAGCCAGTGATCTTTGGAGAAATGGGTGATTCCAAGACTGAAGCAGGATGTGGACAAAATAAGCCCAGGACATGTTGTGTAAAAAGCAA
GCAAGCTTTCAAAACAGCAGACCATGTCCTGAGGGCGGGGAGCCAACCTGAAGGGCTCCCGCTGTCCAAAGACAGAATAAATTGAGCATCAGGAAAACAA
CTGACAGCAATGGACGGAAGCCCATGAAATATACCAATATCTCTGTGTTCATCGTGATGCTCAGAAAGAAGAAGCAACCTAGTGGGCAACTTTGGAGCTT
GCTGAGGACCAACTCGGTCTGCAGGCACACAAGCAAAGGAGCAGGGTGGAGCCTTCACGCTGCCGTGCCTGTGTGGACCAGTCCAGGGTGACCACGGGGT
AGGTGAGGGAAAGCCTGTCTTCACAGACCACTCTCCAGCTGGTGAGGGCAGGAGCGACAGGGWCAGACACAGGTCTGTGAGAGGACAGCCCTTGGATCAG
GGATCTCGATGTCTTGCTCGAGCCATCAGGTGCAAGGCCCGTGGGGACTTTTTTCTGGGTTGGTCAGGCTGCCAGCACTGGACCAGTGACCAGTCCTCGT
GTCACTCGAGTGGGACTTGGACACATCACAGGCYGCCTGGGCTGGCTGGGGGTGCACACGCATCCCTGGGCAGCAGCCCTGCAAAGACCATCTGAACCTA
AATCCTATCAAGCACCTCTCTCTAGTGAGAGTTCACAGGAAACACAGGGGTGGGATCAAGTGAGCAGTAAGTCACATCCATTAGAGCACCAGGAGGGACC
TCAGGATCCAAGCAGCAGAAACCGTGTTCAGGGGCAAAGCCAGCAAGGGTCGGGGTGGGGAGGGGCCACAGGCCAGTGGGGGCTCAGCACTGAAGGCCCC
GCTCCTCCCTCCCTCTCCCTCCTCCTYCTCCTCCTCCTTGTTTTTGTTTGTCTTCCTTCCTTCCAGTAATGAGGTCAGGGCCGAGCACACTGCGGCCTGT
CTCCTCACCTCTGCTCTCTCTCAACACCTGAACTGGGACCACGCTCTAGGGCCCAGAGGCGTTTGGGAGGCCACYGCAGCACACCACAGAGGAGTGCACG
GCCACCCTGCATCAGGTCATCAAGGAAGGGACAGCAACATGTCCATGAGGCAGGCCTGTCCTGGGGTTCCAGTGACTAACCTCTCGTGACCTCTGTTTCC
AGACGTCCCTGGCAACTGTTCAGAAAACCCCTGTCAGAACGGAGGCACTTGTGTGCCGGGCGCAGACGCCCACAGCTGTGACTGCGGGCCAGGGTTCAAA
GGCAGACGCTGCGAGCTCGGTAAGTCRGGGCTTGGCCTCAGGGCGCCCCTTCCAACACAGCCTGTGCCTCAGCCTAGGACTGCTGGGCCACAGCTGGGTT
TGCCACGGGAGCCTCCAAACGATGAGGTGCCAGACAGGGAGTCTGGTGCACGGGGCTGACCCCTGAGCCCCCAGGGGCTGCGCTGCTGCCCCAAGCACCA
GGATGAGAGGTGCTGCCCATCACGGGGGTCAGAACAGCCACAGCATGCGAGGCACAGCTTCGGAGGGCTCCCTGACCCAGCCAGAGCGGTGTCAGGAGAA
GGGACTCTCCACCCCCACAATACCAACCCACCCCGGCCTTAGAGGAAGCCAGCTGCAGACCCCCRGGCCCTCTCCCACCATCCCGCCTTGGAGGAAGCCA
GCCTAAGGACCCCCGGGCCCTCTCCCTTGGGCAAGGCCTCTCAAGAGGGGCAGGAGGAGCCGTCAGGAGCACCTGGTGAGCCACTGCCCTTCTTTGTCGC
AGCCTGTATAAAGGTGTCCCGCCCCTGCACAAGGCTGTTCTCCGAGACAAAGKCCTTTCCAGTCTGGGAGGGAGGCGTCTGTCACCACGTGTAAGTTGGY
TTCTGTCCTCCGCCTTACCGCATTTGTCGTGTGTTCTTGACTCCTCAAAGTGCTGTCTCAAAGCTACCCAGCTAACCCTGAGGAGGGAYGATGGCTGCAG
TCACAGAAGGGACTTGCTTTGACCATCGATTCCCTCCATGTCACAAATTAGGCAGCTGAGGCAGAAAAACCGAATAACTGCCCCAAGTCCATGCAGCTCA
GGAGCAGGGGCTGAGAAGAACGCAGGCTCCTGGTCCCCAGGCCCCCAGRCCTTCCTTCCCACACATCAGCCCAGTCCCCACTGGATGGCAGAGCCAACTG
ATGTGACCTTCCTCTCTTCTCYTCCTCAGAGCCCCCTGGAAAAACAAACAGCTCATGAGAATGCCGGCCCCAGTTCTGCCATTAACTCATGATGTGGCCT
TAGGCCCCCCATCTCCAAAATGGGCTGTGGAGGGAGAGATGCCCAGCCCATCTCTTAGGTCCTTTCTTGCTAACACTCTATGACTCTGTCGGTCACACAG
TCCATTTAGTCAACAGATGACTTACTGAGCACCTGCTGTGTGCCGGGCACTGTCCATTTAGTCAACAGATGACTTACTGAGYACCTGCTGTGTGCCGGGC
ACTGTTCTAGATACTCAGCACACATCAGAACAGAGCAGACCAAAGCCCTGCCTTCAGGACCCGTTCATTGCAGATGAGGGGACAGACAACAGACAGCAGT
GAGAGTGTGGTGTGTGGTGTGGCAGGTGGTGAGTGCAAAGGGAAAAAGGACGAGATGACAGGACGAGACCAGGAGAGCCTGCTGGGGATGGGCAGGGCTG
GTGCAGCAAGAGGGCAGCCTCCTGGGGAGGGCGATGCTGAACAGACATGGAGGAGGGATGGACATTCCAGAGCCAGAGGACAGTTACCAGGGCCCCAAGT
CAGGAGTGTCCCTGGCATGTTGGGGGAGAAGTGGAGAGTGGTGAGAGGTGAGGGACAGGGAACCCWCGGGGCCATGGAGACCCACAGAAGGACTCTGGTG
TTTGTCCGGCATGAAATGGGGAGGAGCTACTGAAGGGTTCTGAGCAGAAGAGTGACATGTTCGATTACACTACTTTGGATGCTCTGTGGAGAATGGGATG
TAGACRGGCAAGGGTAGAAGCTTCATTAGAGCTTGGACATGAAGCCAGGTGTAATATGTAGCAGGAACACATATGAGATACTAATCTGTGTTGGGATTTG
GGAAGCCGTGTTGACAGCCCACTGAATTCGGATTCTATGCAGTGAGAGTCCGAATCCACAGTATCTGCCATCTTCCCGCTGTGCTTAGTTACACCAGTGC
CTGCTGGTGACCACCAAGTATCCAACAAGAAGACCCTTCACTTCCTGAAAGCATTCTATCCTTTCACTTTTAACCTATCTGCATATTTCAAGTGACTTTC
TAGTATTTAACATAGAGGTGGGTCTTGCTGGATATCTAGTCTGACAGTCTGGTTTTTATTGGAGTATTTAGACCATTTACTACCTTCCACATAATGGCTG
ATGTGGTTGGATTTAAACTGCCATATTACTATTTGTTTTCTATTTTTCCCACCTGCTTTTTGTTCCTTTTTTCTTTTTTCCTGCCTAATTTTGGATTACT
TTTTAGGATTCCATTTTGTCTCCACTATGGGCTTACTGGTTATACTTCTTAGGTTTATTGTTTAGAGGTTGCTCTGGGATTTGCCATACACATCTTCACC
TTAACACAATGTACCCTTAATTACTATTGTACGAGTTCAATATGATGGCAGCGTCTAGGATTTTTTTTTTTTTTTTTTTGAGACAAAGTCTCCCTCTTGT
CCCCCAGGCTGGAGTGCGATGGTGCGATCTTGGCTCATCGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCCCCCGAGTAGCTGGGAT
TACAGGCGCCTGCCACCACACCCTGCTAATTTTTGTATTTTTAGTAGAGACAAAGTTTACGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCA
AACTCATGACCTCAGGTGATCCACCCACCTTGCCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTGACTGTGCCCGGCCAGCAGTGTCTAGGATTTACCA
TACACATCTTCAACTTCACGCCGCATACCTTTAATCACTAGTAGACAACTTCAGTATCCATGGCAGCGGCTGACATCAAGCTTCCACTTCCCTCCCATCC
TTTGAATTATTATCAGACTTTTTCCTTCCACATATGCTGTGAACTGCACTATACGTTATTTTTGCACTCAAAAATTATCTTGTTTTAGATATTGAAAGTA
AAGTATTTTGTATTTATTGTACATCTGCCTGCCGACTCCAGCACTCTTCATTCCTTTTTGTAGATCTAGGATTCCATCTGGTATCATTTCTCTTTGCCAT
AAGAACTTAACTCTAACATCTCCTATAGCACAGGTCTGCAGGAGATGAATTCTCTCTGCTTTTGTCTGAAACTATTTTTTTTTCACCTTCATTTTTGAAG
AATATATTTGCTGAATATAGACTTCTTGATTGACAGTTATATTTTTTTCTTTCATGACTTAAAAGTTGTCATGGCTTTGTCTTCTGGCTTGCATAGTTCC
AGACAAGAAGACTGCAGTCATTCTTACCTGTGTTACACTGTATGGAATGTGTCTTCCTGCCCCTTTTATGTTTTCCCTTTATGACTGTTTTTGGACAATT
TAATTATGATGTGCTTCTCGGTATGGCTACGTTTTGATTCTCTGGAGTTTAAGCTTCTTGTATTTCTGGGTTTTAATTTTGTCAAACTTCGTAAAATTTT
TGCCATTATTTCTTCATATATTTTTCCTGTCCCTCCATTTCTTCTACTTCTGGGACTCCAGTTATGCGTGTATTAGACTGATATTGTCCCACAGGTCACT
GCAGCTCTTCTCAACTTTTTCAGTCTTTTCATTTTGGACAGATTCTATTGCTATGCACTCAAGGTCATTGATCTTTTCTTCTGCAGCATCTACCATTAAT
CCTGTTCAACAAAAGTTTTATTAATACTGTGTTTTATCATCTCCAGAAGTTTCATTTAGTTGTTTCTTAGATGCTCCAATTTCTATCTTCATTATCTTTA
TATTTTCCTTTAGCTCACTGAACATGTGGAACAAATTTATAATAGATATTTTAAGGTCCTCATCTGCTATTTCTGTCATCACTCTCATGTCTGGGTCTTA
TTCTATTTGATTATTTTTCTCTAGGTTATGGGTCACTTTTTTGATTATTCAAATGATTCTTGAATGTCTTATAGTTTTTTATTGGATGCTGGGCATTGTA
AGTTTTATGTTACTGACGCTGGATTTGTTTGTTTGTTTGTTTTCTTTTCAAGAATGTTTTTTCTCTGCAAGGCATTATCTGAGTATAGTTTGATCCTTCT
GAGGCTTGTTTTAGGTGGCTTTGGAGTAGCCTTTATTCTGGGGTTAATTTTGCCCTAGTTCTATGGCATGGCCTTTCTGCGGTTTCTTTTTTTTTTTTTT
TTTTTTTTTTGAGACAGTGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGAGCGATCTCAGCTCACTACAACCTCCGCCCTCCTGGGTTCAAGCTATT
CTCCTGCCTCAGACTCCCAAGTAGCTGGGATTACAGGCACTCACCACCATGCCCAGCTAATTTTTGTATTTTAGTAGAGACAGGGTTTCACCATGTTGGC
CAGGCTGGCCTCAAACTCCTGACCTCAAGTGATCGGCCCGCCTTGGCCTCCCAAAGTGCTGGTATTACAGGAGTGAGCCACCGCACCTGGCCCTGTCTGG
GGTTTCTATGGATGGCCTAATAAACAAGATCTCTCTACTCTGGCTCTGGAAATCGTTCAACTCCTCAGTAGTTCTTCTTTGCCTTGTGGGGATTCACCCT
ATGCATGCACAGCTTTATTTCCAACCACAGGCCCAAGGGGACCCTACACAGATTCTGGAGTTCCTCCTCTGCATAGTTCCCTCCTCTTCAGTACTCTGCC
CCACAAATTCCAGCTGCCTCTGTCTCCCCAACTTCAATCTCTGTTTCCTCAACTCAGTGTGACCACTGCTTGGATCCCCTTTCTCTGTGATGCCATCCAA
AAACTTCTCTAGGCTGAATTCCAGGCTGACCACAGGACTCATCTCATCTGTTTCTCCTCTCTCAGGGATTACAGTCTCGTGTTGTCTGTTTTCTAACATC
TGACATACAGTTACTTACTATATTTTGTCCAGTTCTCTGGTTGTTCACATTGGGAGGTTAATTCCAGATTCTGTTACTCTTTCATGTCCAGAAATGGAAG
TCTTACCACAGGTTTTCGATCCTAAAGGTTCTATGAGACTTAGCATATGAGTTGGAGCTTTGCCTGCTGAACTCCTTGGATTTCCCTTTTAAACAGCTCT
GACATTTGAGAACTTTAACAAAAGACAAAACGCCTTCCCATCCATTATTATCTACAAACTTGTAAGAGAGATGGTATGAGTAGGTCCCATTTTTACCTGC
AACCGAGGCTTAAAACTTGAAGAGACTTGCTCAAAGTAGCCTGGTTAATAAATGGAAGAGGCAGGAGATGAAATCGGGTCTCCTGTTCTACAATGCCTAC
ATCCGAATCCCGAATCCCCAACACTCCTCAAACTTCTCTGTGAAATACCCAGAAAAACAGAAAAGCGAGGCCATACCTTCCCCAGGCCTCCGGCCAGGTG
GCTGCCTCTAGCACTGACATGTCTTTGACATTTCACATTTTATTTTTAGTACCATATCCTTTGTCAGTGCTCATCAGAATGCACATTAAAATGGGTTTAT
TTTATGCATATTACTGTACCRCAATAAATTTATTACAAATCACATGACCTTTATGTTAGACATTTTAATACATCAATAGGAGGTCACGTTTCATTCAGAA
AATAGCAGTTTTTCCCTCAAACACCTTCAGGTTTACTGTGGGTTCACATAGCCTAGGTTAAGCAGTTGGCAACATTTTGCTTCACTGTCTGGTTTTACAA
AGCTTTCTTGTGACAACAGGTATAAAAGAGTCTACCGAGTTCACCAAGACATCTGCTTCAAAGAGAGCTGTGAAAGCACAAGCCTCAAGAAGACCCCAAA
CAGGTGCCTCTGGGGAGCAGGCCCATGCCGTGTCCTGCATGTAGCCCACAGGGTGATGGGGCAAGGGCGGGGTGCTATGGGATGCTGCAGGCCTGTGGGC
TGAGCCAGGCGGTCTACTCGCCCAGATAGGCAGCCCCTGGGCAGCCACGTTCTGCTACGAAACTGTATGTCCATATATGTGCATGTGAGCATACCCAGAG
GGGCACAGCCGGGCATGCTGGGTGCTGGGGGGGGTCACTCTGGTTATGCATATTCACACAGAACATGGTGCTACAATTGGGAAGCACAGGGTGTTACGGA
CAGCCCCGAGTATTTAATGGCCGATATAGCGCGTCGCTCTTTACTTTTTATTCACTCACACCCAGGTTCTTTCCACAAAGGGTTCAAGGTAGTTACAAGA
ATTACTACTGTTTGGCGTTTGCTGAAAGAAGTACGTGAGAATATTATATGCTTTAGAAACCACAGAGTCGAAGCCTGTCATCGTCCTCATAGACCAATGA
GTAGCCACACGTACTTGTTTGGCATTACCAAGTGTCCGGGCAAGGCCGCAGCCTGCAGCTCACCAGCCGTGCTGCTCGGCCTGTGCACGTCACCGGCTCT
TCCCTAGGGTAGCTTTTGCTTGCTTTCTCCCACGTCCRTCCTCTCTCTCTCTGACTCACAGCCAGCCAGGTTTCTAGCCTTGTCATTCCTAAACTACTGC
CTCAAGCCAGGCGGGCGCACACAAACTAAAATGCTAATCTCCACAGCGGTGTCTGGACTAATGGTGTCCCCCACCGTGGAATGTATGTGAGCTAAAGACA
GGATCTCAGCAGGCAGCCTGGACTGAGGTAGCTGTAGAATTCAAGGTACACAGTCTCTTTTTCATTAAACGACTTTTCTCTAATTATTTCAGGAAACAAA
GTAAGAGTCAGACACTGGAGAAATCTTAAGGTACGTCCCTGCTGCTCCCGCCCCACTACCACAGAGCTGCTGGGAAGTGGGGGGCGACTGCCCAGCCCCG
GGATCTCAGAGTGCCGCTGCCTGCTTACTCAGCACTGCWAAAGGAAGCGCGGTCCTGTGCTGCTGTGTTACAGACTCCCGGGCAGGAAGGTTCAGAAGTC
CCCAAGGGGAAACAGACATGAACCTGGTCTAGCCACTGACAAATACACCTTCAGGTGGAAATGAGGCTCTCTGTGGATAGGGCAAATCCCACTCTCTCTC
AAGGGAAATGTGGCCAAGAAACCCCTAGATCAGCTGCAGTGGGAGGAAGAGGCAGGGGGGTGGGCCCTTGGAGAGGCTGGAAGACCACCTGGCACCTGGG
AGGAGGGGCCACGGGCAGCGGGAGGGCCTGGGCTGCTGAGAAATTCCGGGGGCTCCAGGAGAGGGCTGAGAGAGTGCCTCCCAGATCTTGTGAACGGCAT
TCTGTTGGAACTAAAAGTGGGGCAGGGGCCTTGATCGCTTAATATTTAGAAAGTGTTGAAGACCGCCGCTAGAAAGTCGTCACTGACACTGGGCTCATAG
GCATTCATAAATCCTGACGTGAAAGGAACTTCCTCTCGCCTTTGTTTAAGCCAGCATTTCCCAAACTCTTTTGGCAACCAAACCCCATCCTGCCCCCACC
TCCCCACACAAACTGCCGAATCTTAAACAACACTGGCATTCTTCACAATCGTTTGCAAGAGACTGGGATATACCATAGAAAGCCATCTACAACCTGTTAC
CAGTTTCATACTGACCATCATTTTTTATCAACATGTCACTGCATGAAAGATGAATCTCTGGTTGGCCTAGGACAGCTTTGCTCTTCCTGCCCCTTATAGG
AGCCCTCACAGTTCATCTTCCTGGTGGCGCAGATGAGTGAGGCACCCTTGGGTRACAAGCCACTTCAAAACAGGYCTATGTTTTGTTACGTGCCTAAAAA
AATAAAGGAGAAATGTCATTCAGGAACCTTTAAAAACAAACAGAAGCAAAACAGCTTTTCAGATATAGGCTCACACACACCAAAGGAAGAGTGTCCACAC
CCCCTTGGGGGAAAGGTCTGGGCCGGAGCTCCGCACATGGCAGGAACTTGAGCTCTGAGTTGGCCATGACAGAGTGCATGCATCTGCCTCTTCGGATGTG
GAAAGTCTCTCCATAAGAGAGTAGCCGGCAGCATTCACTTCCTGTTGACTCGAGGGAATCACTTCCCGCTCCCACCTCACCCTCCAAAGACACACACACT
AAGCACACTCCAGGCTTGTAAGCAATTTCCTACAGCCGAGCATCACTTAACAATGGAGATGCATTCTGAGAAATGCTTTGTGAGGCAATTTCATCTGGGC
GAACATCATAGCGCATACTTAGAACAAACCTAGATGGCACCGCGTACTGCGCACCTAGGCTGTGTGGCAGAGCCCATGCTCCCGGGCTACACACCACAGC
GTGTTACTGAATACTGTAGGCGGTCGTAACACAGTGCCAAGTGTGTGTGTATCTAAACGTAGAAAACCTACAGTAAAAATAGATATAAAAGATAAAAAAT
GGTATACCTGGGCAGGGCGCTTAGCGTAGCTGGAATGCGCAGGACTGGCAGTTGCACAATAATAAATTAGTCCTGCAATAAGAAATTAACCTTAGCTTAC
TGTAACTTTTTTACTTTATACATTTTTAATTTTTACTTTTTAACTCTTTTTAATAACAGCTTAAAATACAAACACACTGTACGGATGTTCAAAATTGTTT
TCTGTCCTTAGTGCTTTTCTCTGTTTTTAAAATTTTTAATTGTTTTTTACTATTTAACTTTTGTTAAAAACTAAGACACAAACACACACATTGGCTTATG
CCTACACAGGGGCAGGATCATCCATGTCACCTTCTTCCACTTCCACATCGTGTCCCAGTAACACACATGGAGCTGCCACCTCCTGTGACAATGATGCCTT
CTTCTGGAAACCTCCTGAAGGACCTGCCTGAGGCCATTTTATAGTTAACTTTTTTTCATAAGTAGAAGGAGTACACTCTAAAATAATGATGAAGAGTATA
GTAAATACGTAAACCAGTAACATCACAAATTATCATCAAGTATTATGTACTCTACATAATTGTATGTGCTAGACTTCTATACACAGGGCAGTGCAGTAGG
TTTGTATACACCAGCATCACCACAAACACAAAAAGAATTATTCTAGCACTTTGGGAGGCCGAGGCCGGCGGATCACTTGAGGCCAGGAGTTCGAGACCAG
CCTGGCCAACATGATGAAACCCTGTCTCTACTAAAAATACAAAAATTAGTCAGACATGGTGGTGGGCACCTGTAATCTCAGCTACTGAAGAGGCTGAGTC
AGGAAAATCACTTGAACTTGGAAGGCAGAGGTTGCAGTGGGCTGAGATTGCGCCACTATACTACAGCTTAGGCAACTGAGCAAGACCCTCTGTCTCAAAA
AAAAAAAAAAAAGAAAAAAGAATTCTGTACGATGGCTATGACCTCAGCTCCACTGTAATCTCATGGGACCACTGTCATGCGCGCGGTCCTTCATCGTGCA
GTGCCTAACTGTACTAGGATTAAGAATCCACAAACATAATTTGGGTTTGAGATATTTATACGGTGGTAAGTCACCTGAAATATTAATGTATCTTTTTAAA
TGCTTGCCTAGCACATCCACTCCCATAAAAACAAATCAGAAACCCCCAACTAATTATCAAATACTGACTTATWGAATACCTATTCTTGAAATAATGGAGA
CAACACACAAAAAAGCAGGAAACAGAAACACACGCACCCAGACACCCATCCAAGAACAACACGAGAATTCATTTCAACCCAGAGCAACCTGACACAGCTG
TGCCCTTGGAGAAAAGACCCAGAGTCGTTACCGGAAGGAGGAGGGCAGGGAAGAGGAACAGGCTGTGATTTCACATTTAAAAGTTGCAATGCTGAGCCCA
CATGTTCCTAAAGATGGGGATGTAGTCGGTGGAGGCTGCCCCTCCCCGTGTGCACTGCCATATGGTAGAATCCTGGTGCTCTAAGAACGCGGGGTCCTCC
CCGTGTGCACTGCCATATGGTAGAATCCTGGTGCTCTAAGAACGTGGGGTCCTCTGGGTGACAGAGGCCCTGAGGGCCACTAAGAGAAGCAGGAAGCAGC
CCATTTAAAGAGGAGTGGGAATGCCTGTCATTCTCCTCATGCTTCACTTTGTTTTTTCTTCAAAGGATTTAAGACGTTCTTGTTACACTCCACCAACCTC
ACGAGTTTCTAACACCCAGGAAGATGAGGTCTAAAAACTGGATGAAAAAGGACACCCTGAGAAAAGGTCCTAGCTGGAGTCAGTCCCCTCTGTGACCTCT
CTCCTCAGGCCTCTAGAGGACAGATGGCCAGGCCTGTGCACACACCAGCCCACCCTGAGAGACCCCTCTGGGACCAACCACCTGTGAGTCCTGCGATGCG
TTTAAGCAGCCTGTGCCCTCACCCAAGCTGCAGTTCCTGAAGGTGTAGTCTGTGTCTCTGCGGATGAGATGACAGCTCGCCATTCCCCGGAATCAGTGAG
GCTGTCAGTCAGCCACGCTTCTGCAGTATGCAGAAACCTGTTCTTAGACTCCAAAGCCAGAGAAAGAATTCTCCCTTCGAGGCCCAACAAATTGAGAAGG
AACTGTGATGGACCACTTCCAAAACAGAGACGGGGGCAGGGGCTGAAGGGCAGAGACCAGGTGATGTCAGAAGGAAAGCCGGGTTGCAGACACAGCCGCC
CCTGCTCTGGTCCTCCAGCGTGTTTATGACGCTCGTGCAGGTCGACGAGCCATCCTATGGACTAGTTAACACTAAGGTGGAGTTCAGACTTTTTTAGACA
ACGGCGCGACTGGCAGCCTTTCTCTATCAAGGGTCAGACGGTAAACGTTTTCAGCTTTGCAGACCAGAGGTCCCTGTGGCTACAGTAGCGCAGACACAGC
CACAGGCATGTCATTGAATGGCTGCGGCTATGTTCCAATAAAAACTTATTTACAATAACAGGTGGTGGCCAAATTGGCCCATGGGCCTTATTTGGTGAAC
CCTGTTCTATGAGATCACCTAGGCTTCAGCCTTAAACAGTGGAAGCCATCCCCTGAATGACAAGTCACAAGGGTATCAAAGAAAGACCCCTGAATTTTCA
TGGAAAAAGCTATTCAGACCCCTGCTTGGAAAGCTAAGGCACACTGCCACGAAGCAGCAAGGACGCCTTACAAGTCTCAGTGCAACAGAGATGGACACCT
GGGCTGGGCTGGACAATGTTTAAGGTTCCTTTTAGTCCATGACTCAAGTGATACTGTTTTAGGCTATCAGGTAGTAAACACGATCTTAGACATCCCCATC
TTTGTAAGCAGAACAGTACGGCACTTCACCACATCTGCTTCCCACCATGCTTCTAAGCAGCTGTCTTCCCCCTGCTAATGTTACAACCAAAGCAGCCACC
CCACCTCCTCTCGTGTTGAGCCTCACGACCRCTGACCCAGCTGGAAAGCCAGCGCCCTGCCGCGTCACCCTGACTCTGCTCAGAGCCAGCATTCCAGCCA
CAAAGAGGGCCTCCTTCCTTTCCTCTTTCATAAAARTGTTTTTTGAAGAGTTAGAGTATATTTTAGGCTTTTTATCTTTATTAAAATTTCATGTGCATGT
GTCTGTGTATTCTGCAATTTGTCATTTTCAGAAAGAAGGAACAGGCAATTCGMGAAGTTTCACCTGTACTCCCGAGCTGTTCCCCAGGCTCCAGACCCAC
TTGAGAGCAGAAGGTGGAGCTCAATGAAGGGTCTCGAGCTCAGCRAAGGGTCACTGGGTGAACTGAGAGAAACCACGTTCACAAACGCGTACTGCGGACT
TCCTGCCGCCCTGGGACCTGTCACTGTTTGTCCATGTAAGCTACAGCATTACTAGCAGATGCTAAGATCGAGTGRTATCACTGGAAAAGTAGGTGAATCC
TACTAGGAAACTTTCTACTCCCTACTAGGACCTCAAGCCCCTCAGCCACACAGCAAATGCTAATATGCTCCAGTGTTAGCTTAGAAGCCTTGTGTCAACA
AGAACTGGCTCCTGAGTCCCAAGCTTGGTGCCACACAGCAAATGCTAATATGCTCCAGTGTTAGCTTAGAAGCCTTGTGTCAACAAGAACTGGCTCCTGA
GTCCCAAGCTTGGTGCCACACAGCAAATGCTAATATGCTCCAGTGTTAGCTTAGAAGCCTTGTGTCAACAAGAACTGGCTCCTGAGTCCCAAGTGCTGTC
ACAGGACTTGCCCATTGGGATGTTTTCCACATTAAATATCAAGTAAAAAGACTTCCTGGTGCTCAGGAATTACAGTTCGTTCTTGAAACATTCCAAAGAG
GCCACCACAGCTTTTCCCATGTGGCTTCTTTTAAAAACTCAAATGGCTTCCTTGAAAATACTCAAAGTCCACCCAAGGAAATTAGTAATAATAGAATCAG
AAAACTGTCAGGAGCATAAAGATTTCTGTATCAAAATGAAAGAAGCAATCCTGAGTTGCTGAATTACCCATCTGCTAATGAAACCGGGATGGACTGATCA
TCTAACCAAGTGCAGACTGAGGATTCTACTTAGTCCTCCGACTGGGTACAACAACAGCCTAGGTTCTAGGGAGGGTGGCAGTGACCGGGATGCCACAATG
GAAGAGAAAATGAAAACACTGGCACAGTGAAATGTCTCATTTCCAAACAGTTTTGCCTATGGCCAAGCAAGGCAATAAAGACAAACTCTCCCTTTTCCCC
ATTGCRTGTGGGCTGCCAGGTACAAGTAAGGGAATCTTTGCTGTGCCCACTGTCCTCCAGTAGAGAACCCAACAGGCAAGGGCCCCACTCAGGTATCAGC
TCACCTCCYGCACCTCCCCTTAGCAGGAACTCCTTCCACTGGCAAAGGACTGCCACTGCCATCTGACTCAACTGTGGCGATGWGGACGGAGTCACCGAGC
TGCTTTTCTTTTGCAAAACAAAAGTCTTTTTCTTTGCAGTCACGCTGTAAGACGAGGCTGCTGGAGAAAACAAAAGCACCTAGATTTCAGTGCTGAATCC
CCACAATTGCATGCAGCTCACACCTACCAGGGGTATTCCAGTGCATAGGGGAAAGGAACCCGGCTGAAAAACCAGCTCCTTATTTTTCTTTTAAATAAAA
TAATACGATCCTAAGTCCATTTACCATCTGAAGTTGTCACGAGTGAACAGTCACATTACTGTTGTGGACCAGGCCTTAGATGAGTTTCTCAGGCTCAGCA
CTGACATTCTGGGCCGGATCATCCTCTCTTGTGGGACCATCCTGTGCACTGCAGGATGTTTYACAGCACCCCTGGCCTCTACCCACTAGAATCCTACAAT
CTACCAGATCCTAGGATCTAGTTGATCCTAGAATGCTACCAAGGAGACTTGAATTTTGGTCCCATCATCAAAAATGCCTTCTGCATCAATCCTATGCCAG
TTTCCCCTAAAAGAGGGCTAACTGGAATGTTCTAGGATGTACCAATCCTCCAGGACCCTCTTAGAGCTCATGCCATCAGAGACAGGCCTCTATCTCAGGG
ATCACCCCGGCTGACATCAAATTCCTCTTCTCTTTTCCCAACATTTCAAATTGTTCTTCGGACTCATTGAGTTCCCTAAGGTGACACGCCCCCCCCCCCC
CCCACACCCACCTTGGGGGGTCACGGATTGCTCCCTGTGGCCCTGGCTTCAGCCCACCTGCTCCATGACCCTATGCTCTTCTCCTCTGGTTCTCGAAGCT
GTCTGTAACCAGGGCAGGGGAGATAACTGTATGGGACCATTCCCTGGCCTCCACCTGCCCCAGCACTCTCCAGGCCAGCACAGTCTGGCACTACAGACTA
CAGGGCCGGAGACACCAGGCTTGGAAGTGACCACTGGCCAAGAGCTGACATAAAAGCCAACTTCCCCAAACAGGAAGGGCCTGTTCTTCACAAAGATAAA
GAAAACTGCCAGCATTTTGCTGGCCTTAAGAAGCCATGCAAAATTAACCAGTACATCATGAATTAACTTCTTTTACTCTGCTGTGCACTGAATACCATTA
TGAAGCAATATACTTTTGGATTAAAAATAAGCATTTTTGTGGAAAATCTGCTACATGTTTTCATAAAATAAAGTGCTATGATGTACTAAAACCTCACATT
GCCTTCTCGTAATTTTATTTTTATCACAAGAAGGAAATACATAGTGATTCCTGAACCGGAAGAATGAACCCCATCTTCCAACTGTCACGGAATTATCACC
AACATATTCAAAAGAGAAAAAAATAAAAMCAATTGTTGATATATTGAGTCCCCTTGATKTGAATAGCTCAACATAAGTATCTTATTCAGGATGGGACAGG
GCCCTCCCCACAGACACGTGACAACAGATCAAACATGCATTTCCTGTTTCCTGTTTGGTTTGATCTGTCTGCCTCTCAGGTGACTTATAATTTTTTTCAT
CAAGAGACCAGTTTTAGAATAAAAAATAACTTGAGAAGATTCAAGTAAAGGACCCAAAAGCTTTAAGAGAATGAAAAGCTTCCTTGATATCTCTGGGCCC
TTTCGCTCTAGTCCTTCCATCACAGCTATTCCTCCTCGTCGTCGTCCTCATCCTCATCATTGTCCTCCGCCTCGTCGTCGTCCTCATCATCGTCATCCTC
ATCATTGTCATCCTCATCATTGTCCTCCTCATCATCGTCATCCTCATCCTCATCCAGACTTGCCCTTTTGTCATCAGATGTGCTGCTCTCAGACTCCTCC
TCCTCCCGAGCCAGGAGCTTCTTAAAAACTTGAAACTCCTCAACAGAAGTACAGGCTGTCCTGGCCAAAAACTCAGCTTCTGAAACTCTGAGAATGTCCT
TGAGCAATGGGTTAGGGATCTGTGTCTGCCCCTTCTTATCAGGGGTTTGGTACCGTCCCAGGCGCTCCAGGTAAATGTGTCTCTGCTTAATCTTGGTTAG
TGAATACTGCAAGTACTCACTCTTTACAATGTCTGGATGCTTAATTCCCATCCTGAAGTATGCATACTGGAAGACACAAACACACTTAGGAGTCCCAGAT
ACAGAGTATTGAAACCTATCATTCTATAAACCATAAAAACTTAAGTTGTACAAAAGGATTCAAAAAGAATTGCCTAATTGACAACAGCGAATACCCAGTC
TAGGATACTGACATTTGTGTGACAGCCAGCAGTTTCAAAACACTTTCAAATTCATCCTGAGAAACATGGAGCAGGAAATAAAGGGGTGGGAGGGAAAAGG
GGCAGGAGGGAGAAGGGGCAGAAGGAAGAGGTGGTATTTTTCTTTAAATGGGGAAGGAAAAGGATGAATATGGAAAGAATAGGCAAAACATTCAGAAAAC
ATCTAGAAATTCGACCTAAGTTGTCATAATTATTACCAAAAAATCGGACAACTGTTAAAATTACATTTTCAAAATCAACATGCAAAATAGATTCTAAGGA
CAGGAAGGTTTCAGCTATTTTAAAATTAGCTATTTCAGAGTCCCCACTTAGACTCTAAGAATAGGACTGGATCATTCATTATTAATGGCAGAAAAGTTGA
AGAATAGGTTTGATCTGTAGTAAAGAAATTAAAGATTTCTCTTTGGCTGATGTATGCAGAGAATCTAGTCTTTCACTTCCTCCACTCAAATATGAGGTGT
CCGAGGCTTCTTATCCATATAACTGACCTTCACTACATTTGAAAAACCTGAGAAACTTGCTGTTACTACACTAATCACGGTACCAGTCATTCTCACCTGA
AACTACGCTAATCCCATTACCAGTCATTCTCACCTGAAACTACGCTAATCACGCTATCAGTCATTCTCACCTGAAACTTGTATTCCAGTTGACCCAGGTC
CTCTCGAAGAACAGAGGGGCAACTGTGCAAAATCTTGGTGACTTGCTGTACCGTGAAAAGGCACTTCTCCTTGAGAAGCCTGACAGTGTCGTTAATGTCC
TGCTGGCGCATGGTGAAAATTTCAGGGCAACAGTAAAGCACCCTCTTTAATTTCCCTGCAGAACATTCAAAAAAGGCAAGCATATAATTTCAGGATACTC
CAGAAACTCAAGGAGCTAGCTGCACCCAATTTAAGTCCACATTTAAAAACAAACAAGGATCCTCTCCTTCCACAGAGCAAGTGGCAATTTCAGATCTATC
TTCCCAGAAGCACCATGGAAATGATACATCTCCCCACTGACTTCCTGACACTCCTCAGACTCACCATCCTTCCCTCCCTATATTCCTGCTTTATTCTGGC
CTCCCACCTGAAAGGTGCCAACTTTGTATTTTGGGTCTCCTCTTGCCCTCCTCACTTGGAAAAGAATTTCCCAGGCATTTACTGGAAAGATCAGAGAGTA
ATATGGGAGAGTAGTTTCCTCCATATTGCTGGTTTGGGTTGATGTTTCCTTCTATAATAAAATAGTCATTGAAGCATTCACAACTAACATTCTCAAGCTG
AACTCAATGAAAAGGAGTTCCATCACCATCGTCATCATAACAGTAATAACAATAATAGTAATCATGAGGACACACAACACCAATGCTGACGTCCTGGTTA
CCAGGGTCACCATATATCTTCTCCAAGCCAGGGCACCTTGAGTGAAAGAGGCCCTATTAAAACCGCACTAACTGGTGTAAACTGGGACTATTCCAGGCCT
TCCTAGGGATAGCTGAGCAAAATTCAGTAATGGGAAACTTAAAGTCAACTATTTAAACTGTTAATTAAAATTTTCCTAACATTTGAGTTAGTGATTATCT
TAATATGTGAGGAATTTCAGTTTAGGTTTATCTTCATTTCTTAAGGCTGTGCTGAGTTTGCTAATTAATCACCACCACACATAATATATTTAGACTTTTA
GATTACACTGTAAGAATCTGTTAAGAAAAATATACAAGGCTACCTTTTTCTTATCTTCTAGAGAAGGAGGCCTGTAGAGATGCTGTGAAATGGTGGATCC
TAAACCTTCTACCACTGCCTCAAAAAACATCTTACCAGGAAGAGTCAATAATGCAAAGAAATAATAGTGGAACTCCTCTGGTCAAAGTGGGTAAGGGTCC
TTGGAGACCCCCAACTCCTCCAGAAGGCCCTTAAAGAGATTCAAGGAACTTTGAGCATCCTTGAGATGTGAATATTGTTGGGGGCAGGAGTGGGGGATAA
ATAGAAGGGAAGGCCACTCCACGAGTATCCCAGGAACCTGGCCAGATCTCTCATGTTCCAGAGTAAATCTAAACACTCGACTAGAATCTAAGTCTTTACA
AGAGATGTTGGTTTGACATCACATCACAGAGACAGAGCACTAAGACCATTTCATGTTGATTTAAACATCAAATGCTATATGTACACATATTTATCAACAT
CACATTATCAGCATCAACCCACTGAACACATACCATATGCCCACCACTGCACTAGGTGCTGAAGATCCCACGGTGAACAAGGCAGACAAGAGTCTCTGCC
CTGGCACTCAATTTTTTCTTCTAGTCTTAACTCCTCCTCCTTCCCTCTCAAAATGTATTCTGCACAGAAAGCCACTCCTATTCCTCACCTCCAAGCCAAA
TTATACAGTCCTCTCCAGGAACACTGACATACTCAGAAACCTCCCCTAATCCATCTCACCTTAGGCTGCTCTTTCCCCACCTCTGGCTCCTGTCACACTA
TATAAAATCTTTTTTTTTTTTTTTGAGACAGCCTTGCTGTCACCCAGGCTGGAGTGCAGTGGCGCCATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTT
CAAGCGATTTTCATGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGTGCGTGCCACCAAGCCCAGCTAATTTTTCTATTTTTAGTTGAGTCAGGGTTTCA
CCATGTTGGCCAGGCTGATCTTGAACCCCTGACCTCAAGTGATCTGCCTGCCTCGGCCTCCCAAAGATCTGGGATTACAGGCATGAGCCACCGCACCCAG
CCAAAATCTGCAACTTCTTGTACCTTCTCCAAGCCCAAGCTTTTGCAGGTAACTGGAGCGCTTCCTCATTTGCATAATAGGCAGTTTCAATAACTGGGGA
CTTTTCTTCAAGACCACACACACAGGCTCTGGATTCAGACCCAAGAGAATAAATTCTGAAATGATGTCCAGCAACTGTTGAAGACTGGCACCTCGCCGTA
CACTGAGCAATTCATTAATATGGGCATTGCTGAAACCCATGTCCAGGAGGGAACTCATGACCCTCTCTAGCTCCAAGGACCCTTGTACCACAGGAGTCCC
CTGCTTCTCAAGGAGGCACTGAACAAGATTCCTCCTGCACTCTGGTTCCTGCACATAGTTATTGGATCTAACACAAGATAACTCCTCAATGACCCCTCCA
TTGGAGGCTGTAGTCAGTTTGCGCAACAAAGAAGCTGTCGTCCTTCTCTGTTCTCCAAGATGAGGAGTCTGCCTAGCCATACAGGCCCAGGTGAGGGGGA
TCAGGCGGTGCCAATCAAGGACCTGTAAGACACAGGACCAAAAGACAATTAATTCCTCACTATTCCAGTGTAATGGACACCATAAGACTTCTGAGCCAGA
GTACTTACTGCCTTGGTTCCACACAAACATACAATTTTTATAAGCAATCTGCAAAATCCTATCTGAACTTAAGCCTACAGAGAAGGAAGCTCACAAAGAA
CAGGGTATTTCAAGGCCACAGAGATGGGAGTCAAGCAGGTACAATATTGTTAGCTTTTGCAGCTTTAAGGATGGGAGCAGGGACATGGAGGAAGAGGGAA
AAACTATTTCTAGGCCACCTGGTCATGTGTGCCAGAAAAGTCTGGACCTCAGACTACTTTCCAGATTCATGTTCTTAAATTCATTCCACGAGAAGAATCT
TGTGGGATACAGAGTTGGCCCTTGAACAACAAGGGTTTGAACTGCTTGGATCCACTTATATGTGGATTTTCTTCCGCCTCTGCCACCCTTGAGACACCAA
GACCAAACTCTCCTTCACCTCCTCTTCAGCCTAAAGACCTTATGAGGATCTACTTCCTCTTAATGAATAGTAAATACATTTTCTCTTAGGATTTTCTTTT
TGTTTTTTGAGACGGGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCATGGCTCACTGCAGCCTTGACTTCCCCAGGCTGAGGTAATCC
TCCCACCTCAGCCTTCTGAGTAGCTGGGACTACAGGTGCACACTACACCCTGCTAATTTTTGTATTTTTTGTAGAGACGGGGTTTTGCCCTTATGATTTT
CTGAATAACGTTTTCTTTTCTCTAGCTTACTTTAAGAATACAGAATGCAATATATATATATACAAGATATGTGTTAACTGTTTATGTTGTCGGTAAGGCT
TCCAGTCATGAGTAGGCTATTAGTAGTTGAGTTTTGGAGGAGTCAAACGTTATACACTGATTTTCAACTGGTGTGGGGGCGGTCTGGTGCCCCTAACCCC
TGTGTTGTTCAAGGGTCACAGTAATTAGTCAACTTGCATACACAATTCCAGTTGACCTCAAAAGTCTTCAGTGGTTCAGGCTGGTGCTTAACAAACTATG
CACAAATCATCCAGGCACTCTAAGCCAGCAGTCTTCAACGTTTTTGGCACCAGGGACTGGCTTCATGGAAGACAATTTTTCCACAGACTGGTGAGGGGTT
TCAGGATGATTCAAGCATATTACATTTGTTGTGCACTTTATTTCTGTTATTTTCACGTTGTAATATAAGATGAAATAATTATACAACTCACCATAATGTA
GAATCACTGGGAGCCCTGAGCTTGTTTTCCTACAACCAGGAGGTGCCATCTGGGGTTGATGGGAAACAGTGACAGATCATCGGGCATCAGATTCTCATAA
GGAGCGCAACCTGGACCCCTCAAAGGCGCAGTTCACAATAGGGTTCGCGCTCCAGTGAGAATCTAAGGCGGCTGGTCTGACAGGAGGCGGAGCTCAGGCG
GTAATGCCAGCGAAGGGAGCGGCTGTAAATACAGTCTGGCTGGCTCACTTGCCGCTCACCTCCTGCTGTGCAGCCTGGTTCCTAATAGGCAAGGGACGGT
ACCGGGGGTTGGGGAACCCCTGCTCTAAAACCTTCACATCGGTCCCAACCCCTTCTCCAGCGTCATCGATTGTCGCCCTGGGGCCACCCTGCCAAGCCCA
AGCTCTGGCTGCTCTCCAGCCTCCCCTGTCCAGATGCTCCCTCCGCCAGGAACACCTGGCAGTCGCTGGGGTCAGCGGGCGCGGCCCGTGGAACTGGGCT
CAAGCCTAAAGACCTCTATGCTGATTCCGCTTCCTCTTAATGAAAAGTACATGTTATCTTCCTTGTGAAGTTCAAACTCTTGTTCAACAGTCAACTCAGG
CCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGTTCGAGGCGGGTGGATCACCTGAGGCCAGAAGTTACAGACCAGACTGGCCAACACGG
TGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCGGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAAGCAGTAGAATTGCTTG
AACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGAGACAGAGCGAGACTTTGTCTCAAAAAAAAAAAAATGTCAACT
CTATATCCCACAATAATTGAGCAGAGCCACGGGTCCAGGATGCCAAAA


SNP Information

Context             (SEQ ID NO:28293):
AAGGCCCGTGGGGACTTTTTTCTGGGTTGGTCAGGCTGCCAGCACTGGACCAGTGACCAGTCCTCGTGTCACTCGAGTGGGACTTGGACACATCACAGGC
Y
GCCTGGGCTGGCTGGGGGTGCACACGCATCCCTGGGCAGCAGCCCTGCAAAGACCATCTGAACCTAAATCCTATCAAGCACCTCTCTCTAGTGAGAGTTC
Celera SNP ID:            hCV15757103
SNP Position Genomic:     56834
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,120|C,1183)   total(C,1183|T,120) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28294):
CCGGCATGAAATGGGGAGGAGCTACTGAAGGGTTCTGAGCAGAAGAGTGACATGTTCGATTACACTACTTTGGATGCTCTGTGGAGAATGGGATGTAGAC
R
GGCAAGGGTAGAAGCTTCATTAGAGCTTGGACATGAAGCCAGGTGTAATATGTAGCAGGAACACATATGAGATACTAATCTGTGTTGGGATTTGGGAAGC
Celera SNP ID:            hCV2780350
SNP Position Genomic:     59206
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28295):
GTCTTTGACATTTCACATTTTATTTTTAGTACCATATCCTTTGTCAGTGCTCATCAGAATGCACATTAAAATGGGTTTATTTTATGCATATTACTGTACC
R
CAATAAATTTATTACAAATCACATGACCTTTATGTTAGACATTTTAATACATCAATAGGAGGTCACGTTTCATTCAGAAAATAGCAGTTTTTCCCTCAAA
Celera SNP ID:            hCV2780351
SNP Position Genomic:     62921
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   ;(A,-|G,-)   POOLE|_CEPH(G,54|A,134)   total(G,54|A,134)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28296):
TAGGACCACCCTGAGGCCCTTCATGGGCCCTGCCCAGAGCTGACTCTGGCCCTACTCCAGCTCACACCTGCCAGTGGTATGAAGTCCACTGTACCCAAGG
K
GGGGGTCCTACCAGAGCCCACATCTCCTCACTAGACCAGACTGCTGGTACCCAGTGTCCCTGCCCCAAAGGTTCTGTGCCCGCCCCAGGAACTGCACAGC
Celera SNP ID:            hCV2780319
SNP Position Genomic:     26547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,3)      total(G,3|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28297):
ACATCTGCTTCCCACCATGCTTCTAAGCAGCTGTCTTCCCCCTGCTAATGTTACAACCAAAGCAGCCACCCCACCTCCTCTCGTGTTGAGCCTCACGACC
R
CTGACCCAGCTGGAAAGCCAGCGCCCTGCCGCGTCACCCTGACTCTGCTCAGAGCCAGCATTCCAGCCACAAAGAGGGCCTCCTTCCTTTCCTCTTTCAT
Celera SNP ID:            hCV2780354
SNP Position Genomic:     68631
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:28298):
AGAAGGAAATACATAGTGATTCCTGAACCGGAAGAATGAACCCCATCTTCCAACTGTCACGGAATTATCACCAACATATTCAAAAGAGAAAAAAATAAAA
M
CAATTGTTGATATATTGAGTCCCCTTGATGTGAATAGCTCAACATAAGTATCTTATTCAGGATGGGACAGGGCCCTCCCCACAGACACGTGACAACAGAT
Celera SNP ID:            hCV2780355
SNP Position Genomic:     71429
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28299):
GACCCCTCAGAGAGCAGCGGCCAGCGAGGGTAGATGGTAGCAGCCCCGAGCTCTCCCAGGAGTCCCACAGTGGACCCCTGTGATTTGGTCGCCAACCAAA
R
AGAAAGCTTCCGAATCGTGCTCAGCGCAGGCAGGGGTGCAGGAAAAGATCGGAGAGCGAGTGGGAAGGAAGACTCCAGCCAGCAGCTTCCTGGGGCTGGG
Celera SNP ID:            hCV11526863
SNP Position Genomic:     44151
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;JBIC-allele(A,124|G,1183)   total(G,1183|A,124)
SNP Type:                 INTRON


Context             (SEQ ID NO:28300):
CTGCTGCTCCCGCCCCACTACCACAGAGCTGCTGGGAAGTGGGGGGCGACTGCCCAGCCCCGGGATCTCAGAGTGCCGCTGCCTGCTTACTCAGCACTGC
W
AAAGGAAGCGCGGTCCTGTGCTGCTGTGTTACAGACTCCCGGGCAGGAAGGTTCAGAAGTCCCCAAGGGGAAACAGACATGAACCTGGTCTAGCCACTGA
Celera SNP ID:            hCV15860911
SNP Position Genomic:     64239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28301):
ATCCGGGGGCACACTTTCCACACAGATCATGAGAGTGACTTGGCCCCTCAGAGAGCAGCGGCCAGCGAGGGTAGATGGTAGCAGCCCCGAGCTCTCCCAG
K
AGTCCCACAGTGGACCCCTCAGAGAGCAGCGGCCAGCGAGGGTAGATGGTAGCAGCCCCGAGCTCTCCCAGGAGTCCCACAGTGGACCCCTGTGATTTGG
Celera SNP ID:            hCV11526864
SNP Position Genomic:     44038
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28302):
ATAAACCGTGTTTTCTACAGAATAATGATGCAAGTAGAGTGAATAATAAGAAACAGACTGGCCGGGTGTGGTGGCTTATGCCTGTAATCCCAGCACTTTG
R
GAGGCTGAGGCGGGCGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACGTGGTGAAACCCCATCTGTACCAAAAATACAAAAGTTAGCCAGA
Celera SNP ID:            hCV29041180
SNP Position Genomic:     17160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28303):
GTGTTTTAAAGTGTCCAAAAAGAGCAGGAAAAGCTCAGAAAATCCGGGGGCACACTTTCCACACAGATCATGAGAGTGACTTGGCCCCTCAGAGAGCAGC
R
GCCAGCGAGGGTAGATGGTAGCAGCCCCGAGCTCTCCCAGGAGTCCCACAGTGGACCCCTCAGAGAGCAGCGGCCAGCGAGGGTAGATGGTAGCAGCCCC
Celera SNP ID:            hCV11526866
SNP Position Genomic:     43997
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28304):
GAAGGGACACCCAGAGCATGGGGCTGGGGTGAAGGCAGGGGTGGGGGCTCGGGGACACGGGGCCCAGGTCTCGGGCACATTCTCCGTGTGTGGACTGTAC
C
ACCTGCCGCTCCTCACCTGAGCGGAGACAAAGGTCTCAGGTGAGCCAGCCTCAGACCCTGGAGGCTTCACTCCCGCCTCACCTCATCAGGGCTGCCAAGA
Celera SNP ID:            hCV11526867
SNP Position Genomic:     43779
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,6)   total(C,6|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28305):
TAACTGGGAGTCCATCGTCCTGTCTACACCTCCTCACTCTAGCCCAATCCCCCTGTGACACCAAAGAGTGTCAACATGGTGGCCAGTGCCAGGTGGAGAA
Y
GGCTCTGCGGTGTGTGTGTGCCAGGCCGGATACACCGGAGCAGCCTGCGAGATGGGTGAGTGGCCTGGCTTCGGATTGGAGAGGGGCTCCTGCCCGTGGC
Celera SNP ID:            hCV29041181
SNP Position Genomic:     15849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;SILENT MUTATION;hmCS


Context             (SEQ ID NO:28306):
TTAATCGTGGCCACATTGCTTTATTCTTGGGCTCTCTCCTCTCAGAAATCGATGAGTGCCGGTCTCAGCCGTGCCTGCATGGGGGCTCTTGTCAGGACCG
Y
GTTGCTGGGTACCTGTGCCTCTGCAGCACAGGCTATGAGGGCGCCCACTGTGAGCTGGGTAAGAGGGGCCCTGGCCCCGCTGGGGTGACAGCTGCAGCAC
Celera SNP ID:            hCV27509169
SNP Position Genomic:     38573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:28307):
GCCACCCTCGAGGAGTGGAGGAGCCCAGATGCCCAGGGAAAGGCCCATATCTGGGTAGGGGGCAGGAGCCATGACCAGTCACACAGGCTTCCTAGACCAT
R
GCATTCGGACCAGGGATGGGGCCTCAGAACAGGCCAGTGCCCAGGTCCCAAACCAGGCCAGGATCAGGGTCAGACAGGCACCAGAGCCCGGATGGGAGCC
Celera SNP ID:            hCV29041182
SNP Position Genomic:     13298
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28308):
ACCTGAAATATTAATGTATCTTTTTAAATGCTTGCCTAGCACATCCACTCCCATAAAAACAAATCAGAAACCCCCAACTAATTATCAAATACTGACTTAT
W
GAATACCTATTCTTGAAATAATGGAGACAACACACAAAAAAGCAGGAAACAGAAACACACGCACCCAGACACCCATCCAAGAACAACACGAGAATTCATT
Celera SNP ID:            hCV9034827
SNP Position Genomic:     66873
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,6)   total(A,1|-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28309):
GATCTTCAGCAACCTGCAGAACGATATTAGGGTAATAGGATCCACGTATCTGGAGTCTGCGAAGGAGGATGGAGAACAGTATCAAGCAGCCTGGGATCCA
Y
GTATTTGGAGTCTGTGAAGGAGGATGAAGAACAGTATCAAGCAGCCTGGGATCCATGTATGTGCAGTCTGCAAAGGAGGATGGAGAACAATATTAAGCAG
Celera SNP ID:            hCV26232121
SNP Position Genomic:     18664
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28310):
GACTCTGTCGGTCACACAGTCCATTTAGTCAACAGATGACTTACTGAGCACCTGCTGTGTGCCGGGCACTGTCCATTTAGTCAACAGATGACTTACTGAG
Y
ACCTGCTGTGTGCCGGGCACTGTTCTAGATACTCAGCACACATCAGAACAGAGCAGACCAAAGCCCTGCCTTCAGGACCCGTTCATTGCAGATGAGGGGA
Celera SNP ID:            hCV11935571
SNP Position Genomic:     58682
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28311):
GCAGACACCTTTAAATATGTGCTTGCCTCAAGCACAGGCCCGGCCGTCTGAGCTCCTCGGGTTCCAGGAACTGTTAGGACCCAGGGAAAATGTGGCAATG
Y
CAATGCAGGTACAGAACACACAGAAATCCAGATTGACTGCTGGGGACCCTGATGTCACGGCAGATGAGACTCAGCTGCTTCCTGTCAGATGGGGAATGCC
Celera SNP ID:            hCV2780320
SNP Position Genomic:     27026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28312):
CCCAGCTGGAAAGCCAGCGCCCTGCCGCGTCACCCTGACTCTGCTCAGAGCCAGCATTCCAGCCACAAAGAGGGCCTCCTTCCTTTCCTCTTTCATAAAA
R
TGTTTTTTGAAGAGTTAGAGTATATTTTAGGCTTTTTATCTTTATTAAAATTTCATGTGCATGTGTCTGTGTATTCTGCAATTTGTCATTTTCAGAAAGA
Celera SNP ID:            hCV25642185
SNP Position Genomic:     68736
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,40)   total(A,74|G,4)
SNP Type:                 UTR 3;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28313):
AGGCAAGCAAAGGGCCCACCTGTGACTGAGTTGGGGTCTCCAGCCTGTGAGCCCCACCCCAGCCCCCACCATGTGTGCGGACCTGCTTGGCCCCTGCTGC
R
GCCAGGCCCCAGGGCTTCGTCGAGAAGGCCCCACCAGCACCAGAGGACTGAGGAGATGCCAGGAGGGTATAGTGGCTCTGTGGGGCCAGCAGCCTGGCCC
Celera SNP ID:            hCV2780321
SNP Position Genomic:     27328
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28314):
CATCAGAGTCAGCCTCTACTTACTGCCCTTCCCCCGGCACCTCTTTAGGCCCCTCACCCATGCCCTTCACCCACCTGGTAAAGAAAGGTGGACCCCCCCC
C
AATTCCTGCTCTCCATCTCACCATAGGGCTCTGCTCAGGGAGCTTTGCAAAGGGAGCCCCTAAAATCAAAGCACCGTGACCTGCTGCTCCCCACCCAGCT
Celera SNP ID:            hCV9034977
SNP Position Genomic:     13794
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,6)   total(C,3|-,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28315):
GCAGGCTCCTGGTCCCCAGGCCCCCAGGCCTTCCTTCCCACACATCAGCCCAGTCCCCACTGGATGGCAGAGCCAACTGATGTGACCTTCCTCTCTTCTC
Y
TCCTCAGAGCCCCCTGGAAAAACAAACAGCTCATGAGAATGCCGGCCCCAGTTCTGCCATTAACTCATGATGTGGCCTTAGGCCCCCCATCTCCAAAATG
Celera SNP ID:            hCV11935577
SNP Position Genomic:     58422
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28316):
CATGGGATACCAGTGCCAGGCAGGTGAGATGGCCAGGGCCCAAGCAGGGTACATGGGATACCAGTGCCAGGCAGGTGAGAGGGCCAGGGGGCCAAGCAGG
R
TATATGGGATACCAGTGCCAGGCAGGTGAGAGGGCCAGGGGGCCAAGCAGGGTACATGGGACACCGGTGCCAGGCAGGTGAGAGGGTCGGCGGGGGGGGG
Celera SNP ID:            hCV2780322
SNP Position Genomic:     28315
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28317):
TAGGCAGCTGAGGCAGAAAAACCGAATAACTGCCCCAAGTCCATGCAGCTCAGGAGCAGGGGCTGAGAAGAACGCAGGCTCCTGGTCCCCAGGCCCCCAG
R
CCTTCCTTCCCACACATCAGCCCAGTCCCCACTGGATGGCAGAGCCAACTGATGTGACCTTCCTCTCTTCTCTTCCTCAGAGCCCCCTGGAAAAACAAAC
Celera SNP ID:            hCV11935578
SNP Position Genomic:     58349
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28318):
GCCCAAGCAGGGTACATGGGATACCAGTGCCAGGCAGGTGAGAGGGCCAGGGGGCCAAGCAGGGTATATGGGATACCAGTGCCAGGCAGGTGAGAGGGCC
R
GGGGGCCAAGCAGGGTACATGGGACACCGGTGCCAGGCAGGTGAGAGGGTCGGCGGGGGGGGGGGGGGTCAAGCAGGGTACATGGGATACCAGTGCCAGG
Celera SNP ID:            hCV2780323
SNP Position Genomic:     28352
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28319):
GAAATGATGCTGAAAAAAGTAGAAGGAAAGAGGAATAAAGGTAAAAGCCATAATTAATGAAGTAGAGATCCAAGATACAAAAGAAAGGACAAGCCAAAAT
Y
AGTTCTTTGAAAAGCCTAATGTAACATGTTTAGTGGATATAGATTACAACAAAATTAATTATGTGCTTATGTATCAGCAACCAACAATTAGAAAATGTAA
Celera SNP ID:            hCV2780325
SNP Position Genomic:     34222
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28320):
ATAAAAAAGACAGATACAGAGAAAGATCAATGAAACCAAAAGCTATTTCCTTGAAAAGATCATTAAAATTGGGCCGGGCGCGGTGGCTCATGCCTGTAAT
Y
GCAGCACTTTAGGAGGCCGAGGCAGGCACATCACAAGGTCAGGAGATGGATACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAA
Celera SNP ID:            hCV2780326
SNP Position Genomic:     34425
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28321):
ATGAGACATTTTCTGTCAAACCCCTGAGGCCTTTGTCCTGTCGGCCTGAACCACTGGAATTAAGTCCCACAGCGTCTTCTGGGAGCCCTGGGGTGGTTTC
R
AGCCCGCCCTGCTGCTTCACAGACACAGCCAGGCACTGAGCCCCAGGCCCACTGCCCTGCCCCGACTCCAAGGATATCCAGCCCTGGTCTCTGGCCTTTC
Celera SNP ID:            hCV2780328
SNP Position Genomic:     38301
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28322):
TTGTGGACCAGGCCTTAGATGAGTTTCTCAGGCTCAGCACTGACATTCTGGGCCGGATCATCCTCTCTTGTGGGACCATCCTGTGCACTGCAGGATGTTT
Y
ACAGCACCCCTGGCCTCTACCCACTAGAATCCTACAATCTACCAGATCCTAGGATCTAGTTGATCCTAGAATGCTACCAAGGAGACTTGAATTTTGGTCC
Celera SNP ID:            hCV29041222
SNP Position Genomic:     70462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28323):
CTGACATCCAAGACAAAGATTTTACAAATATCCCTTCCTGCACCTCCCCAGGGGAGACTGAGAGCCCAGCTGAGAAATGCTGGCCTGGCTTCAGGGCGCA
S
AGAAGGTGGGCGTCGGAGAGGGCAGGTCACAGTCTCTGACACCTGGTCGGTGCTTCCAGCCAGTGGAGGGAGGGGAGGCCTGCCCCATGAGCCCTGCACA
Celera SNP ID:            hCV2780329
SNP Position Genomic:     38869
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28324):
GGGCAAGGCCGCAGCCTGCAGCTCACCAGCCGTGCTGCTCGGCCTGTGCACGTCACCGGCTCTTCCCTAGGGTAGCTTTTGCTTGCTTTCTCCCACGTCC
R
TCCTCTCTCTCTCTGACTCACAGCCAGCCAGGTTTCTAGCCTTGTCATTCCTAAACTACTGCCTCAAGCCAGGCGGGCGCACACAAACTAAAATGCTAAT
Celera SNP ID:            hCV29041223
SNP Position Genomic:     63838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28325):
GCTTTGCTCTTCCTGCCCCTTATAGGAGCCCTCACAGTTCATCTTCCTGGTGGCGCAGATGAGTGAGGCACCCTTGGGTAACAAGCCACTTCAAAACAGG
Y
CTATGTTTTGTTACGTGCCTAAAAAAATAAAGGAGAAATGTCATTCAGGAACCTTTAAAAACAAACAGAAGCAAAACAGCTTTTCAGATATAGGCTCACA
Celera SNP ID:            hCV16179343
SNP Position Genomic:     65075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28326):
TCCAGAGCCAGAGGACAGTTACCAGGGCCCCAAGTCAGGAGTGTCCCTGGCATGTTGGGGGAGAAGTGGAGAGTGGTGAGAGGTGAGGGACAGGGAACCC
W
CGGGGCCATGGAGACCCACAGAAGGACTCTGGTGTTTGTCCGGCATGAAATGGGGAGGAGCTACTGAAGGGTTCTGAGCAGAAGAGTGACATGTTCGATT
Celera SNP ID:            hCV29041224
SNP Position Genomic:     59066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28327):
TCTCTATCTCCTGGAACCCGCCCAATGGTCCAGCCGCCAGGCAGATGCTTGATGGCTACGCGGTCACCTACGTCTCCTCCGACGGCTCCTACCGCCGCAC
R
GACTTTGTGGACAGGACCCGCTCCTCGCACCAGCTCCAGGCCCTGGCGGCCGGCAGGGCCTACAACATCTCCGTCTTCTCAGTGAAGCGAAACAGTAACA
Celera SNP ID:            hCV16179344
SNP Position Genomic:     41177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:28328):
GTGTAAGTTGGTTTCTGTCCTCCGCCTTACCGCATTTGTCGTGTGTTCTTGACTCCTCAAAGTGCTGTCTCAAAGCTACCCAGCTAACCCTGAGGAGGGA
Y
GATGGCTGCAGTCACAGAAGGGACTTGCTTTGACCATCGATTCCCTCCATGTCACAAATTAGGCAGCTGAGGCAGAAAAACCGAATAACTGCCCCAAGTC
Celera SNP ID:            hCV29041225
SNP Position Genomic:     58189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28329):
CTTGCCCAGGCCCCTTCCCTGAGGAACAGGGAGGGGATAAAATCCCCCGGTGGGCTTGAAACACGGTCACACATTCAAAAGTGTGACCCTCCTGGAGGTA
Y
GTGGCCAGGGACAAAGAAGGACTCTGCCAGCGATGGCTGTGTCAGGCCCAAGAGCCAGACCCGGCTGAGCCGCCGACGGGAGCCAGGCATGCATAGCTAA
Celera SNP ID:            hCV16179345
SNP Position Genomic:     40881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28330):
GGCCCTGTTCAGCCCCCTCTCCCCGGCAGGTCAACACATTCCAGACTGTGCTCATCACAGACGGCAAGCTCTCCTTCACCATCTTCAACTATGAGTCCAT
Y
GTGTGGACCACAGGCACACACGCCAGCAGCGGGGGCAACGCCACTGGCCTCGGGGGCATCGCAGCCCAGGTAGGCGAGTGCAGTCGGTGCTCTGTGTTCA
Celera SNP ID:            hCV25963009
SNP Position Genomic:     9522
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,40)   total(C,73|T,3)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:28331):
TCCAATCCTGGGTGGTCTCTCCGGTGCTTCTTGTTCTGTCCAATCCTGGGTGGTTTCTCTGGTGCTTCTTGTTCTGTCGAGGAAGGAGCTGGGAGATGCT
R
AGCTCCATGGGGTGCAGCGCAGCTACAAATCCATTTCCAGAAATAAGCTTCTGGCTTAAATTCCACTTGGGAATGACAACAGAGGTGAAAACCCAAAGGT
Celera SNP ID:            hCV11526878
SNP Position Genomic:     23853
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28332):
TGGGCTGCCAGGTACAAGTAAGGGAATCTTTGCTGTGCCCACTGTCCTCCAGTAGAGAACCCAACAGGCAAGGGCCCCACTCAGGTATCAGCTCACCTCC
Y
GCACCTCCCCTTAGCAGGAACTCCTTCCACTGGCAAAGGACTGCCACTGCCATCTGACTCAACTGTGGCGATGTGGACGGAGTCACCGAGCTGCTTTTCT
Celera SNP ID:            hCV25954225
SNP Position Genomic:     70009
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,19)   caucasian(T,2)   total(C,9|T,21)
SNP Type:                 UTR 3;SILENT MUTATION


Context             (SEQ ID NO:28333):
GCGAAGGAGGATGGAGAACAGTATCAAGCAGCCTGGGATCCACGTATTTGGAGTCTGTGAAGGAGGATGAAGAACAGTATCAAGCAGCCTGGGATCCATG
Y
ATGTGCAGTCTGCAAAGGAGGATGGAGAACAATATTAAGCAGCCTGGGATCCACGTATTTGGAGTCTGCGAAGGAGGATGGAGATGGGTGTGGAAAGGAG
Celera SNP ID:            hCV9652013
SNP Position Genomic:     18722
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28334):
TCAAACTGATCCTAAGTCATTGAGCCATGTGCCAGAATAAAATCCTATACTCCTCAACAGGAGTATATCAATAATACAACAGAATCCAGAACTCCAAAAT
R
CCCAGTCAAAAATTATCAGGTCTACAAAGAAGTAACATATAACTCACAGTCAGGAGAAAAATAGATCAATAGAAACAGGCACCAGAAATGACAGAATTAG
Celera SNP ID:            hCV9652015
SNP Position Genomic:     18205
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,14)      total(G,1|A,14) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28335):
GTCTTCCCACAGCCAGTGTCGGAGCAAGCTCCATTCATAGGAGCCTTTCTTCATCCAGAAACTCCTGCCCTGCTTGCCCACGTGCTCTCAACGTGAGACG
K
GTGGGAGTCGGGCTTCTGTGGCATTGGTGCCGTGGCAGACTCAGCCCTGCAGGCGTCTGTCCCTTGGTAAAGGCCAGGGAGGCTGGCAGGATCTCCTTCC
Celera SNP ID:            hCV27968360
SNP Position Genomic:     14400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28336):
CAGGGGAGACTGAGAGCCCAGCTGAGAAATGCTGGCCTGGCTTCAGGGCGCAGAGAAGGTGGGCGTCGGAGAGGGCAGGTCACAGTCTCTGACACCTGGT
S
GGTGCTTCCAGCCAGTGGAGGGAGGGGAGGCCTGCCCCATGAGCCCTGCACACTCTTGTACCTCGCTAGGGCTCTAAGCCTGAGAAACGCAGGGTCCAGG
Celera SNP ID:            hCV2780330
SNP Position Genomic:     38917
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28337):
AGAGTATATTTTAGGCTTTTTATCTTTATTAAAATTTCATGTGCATGTGTCTGTGTATTCTGCAATTTGTCATTTTCAGAAAGAAGGAACAGGCAATTCG
M
GAAGTTTCACCTGTACTCCCGAGCTGTTCCCCAGGCTCCAGACCCACTTGAGAGCAGAAGGTGGAGCTCAATGAAGGGTCTCGAGCTCAGCGAAGGGTCA
Celera SNP ID:            hCV25642195
SNP Position Genomic:     68853
SNP Source:               Applera
Population(Allele,Count): african american(A,21|C,17)   caucasian(A,23|C,17)   total(A,44|C,34)
SNP Type:                 UTR 3;INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,294|A,587)   total(A,587|C,294) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:28338):
CGTGCCCAGTCGTGGCCCTGGGGAGCCTCCCATTGCGGAGTGGCCTGGAGGAAGGCATGGCCTGGAGGTGGGGCTTTGCCAGCAGGCAGTGGAGGTGGCA
Y
GCCTCCCGAGGAGGGGTGGGTTTGGGGCTGATGGAAGAAAAAGCACATGTCCTGAGTAGTTGCTCCCAGCTGGGAAAGGGGTAACTGAAGCCCCAGGAAA
Celera SNP ID:            hCV2780331
SNP Position Genomic:     39138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:28339):
GCAATTCGCGAAGTTTCACCTGTACTCCCGAGCTGTTCCCCAGGCTCCAGACCCACTTGAGAGCAGAAGGTGGAGCTCAATGAAGGGTCTCGAGCTCAGC
R
AAGGGTCACTGGGTGAACTGAGAGAAACCACGTTCACAAACGCGTACTGCGGACTTCCTGCCGCCCTGGGACCTGTCACTGTTTGTCCATGTAAGCTACA
Celera SNP ID:            hCV25642196
SNP Position Genomic:     68945
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,38)   total(A,3|G,71)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28340):
GATACAGGCATGGGATTGGGGCGCATAGAATCGAGCCAAGAGTGGGAGCAGCACAACCCCCAGGCATGGAGCTAGGAAGTGGGACTGGGGAGGAATGGGG
S
CTTCCCAAAAGGGTCCCTAGAAGGAGCCAGTGTGGGAGACAGGGGCCGCGGGGGTGGGCTTGGGGGGGCTGGGACTCTGGGGTGCTCTGAAGGCCTGGGG
Celera SNP ID:            hCV2780333
SNP Position Genomic:     41620
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28341):
CCAGACACAGGAGCAAGAATGGGGAAGGGGTGCTAGAGGCTCGAGGAAAGAGGAAAAGGTGCTGAGAGCACAGACTGCTGCGAAGTGGCGTGATGGATGG
R
TGGGTGGGTGGGTGGCCAGGGCTTCAGGGAGGCCTAAGCATCCAGCAGGGCCCTGCGGGGCGGCCACGTGAGTTTGGTGAAACCTATGGGTAGCATGGCG
Celera SNP ID:            hCV2780334
SNP Position Genomic:     42361
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28342):
AGACTCCAGCCAGCAGCTTCCTGGGGCTGGGGTGGCATTGGCCTCACGTTGTCCTGTGGTTTCCTGAGAATTTACATCAACTCACCTGTGCTGAGGGCCC
R
TCCCCCATCCCTGCACAGTGACCACTTCCCCCTTCTCTGGCCTCTCCCAGCTGAACACCGGCCCTCTGACCATACTGTAGCAGCCCCAAGCGCACCCGAT
Celera SNP ID:            hCV2780339
SNP Position Genomic:     44321
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28343):
ACACCTTATACAAAGATTAACTCAAAATGGATCATAGACCTAAATGGAAAAACATAAACTATAAGATTTTTAGAAGAAAACATAGGCAAAAAAAAAAAAA
A
TTTATGACCTGGTCTTAAGCAAAGTGTTCTTAGATAAGACAGCAAAAGCATGATTCATTAAAAAGAAAAAGATAAATTAGACTTCATCAAAATTTAAAAC
Celera SNP ID:            hCV11526881
SNP Position Genomic:     21443
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28344):
ACGTTCACAAACGCGTACTGCGGACTTCCTGCCGCCCTGGGACCTGTCACTGTTTGTCCATGTAAGCTACAGCATTACTAGCAGATGCTAAGATCGAGTG
R
TATCACTGGAAAAGTAGGTGAATCCTACTAGGAAACTTTCTACTCCCTACTAGGACCTCAAGCCCCTCAGCCACACAGCAAATGCTAATATGCTCCAGTG
Celera SNP ID:            hCV27488618
SNP Position Genomic:     69075
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,145|A,1160)   total(G,145|A,1160) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28345):
CCCCACTCAGGTATCAGCTCACCTCCTGCACCTCCCCTTAGCAGGAACTCCTTCCACTGGCAAAGGACTGCCACTGCCATCTGACTCAACTGTGGCGATG
W
GGACGGAGTCACCGAGCTGCTTTTCTTTTGCAAAACAAAAGTCTTTTTCTTTGCAGTCACGCTGTAAGACGAGGCTGCTGGAGAAAACAAAAGCACCTAG
Celera SNP ID:            hCV15757091
SNP Position Genomic:     70083
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,26)   caucasian(A,1|T,1)   total(A,5|T,27)
SNP Type:                 UTR 3;MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,141|T,1350)   total(A,141|T,1350) 
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:28346):
GGAGGAGCCGTCAGGAGCACCTGGTGAGCCACTGCCCTTCTTTGTCGCAGCCTGTATAAAGGTGTCCCGCCCCTGCACAAGGCTGTTCTCCGAGACAAAG
K
CCTTTCCAGTCTGGGAGGGAGGCGTCTGTCACCACGTGTAAGTTGGTTTCTGTCCTCCGCCTTACCGCATTTGTCGTGTGTTCTTGACTCCTCAAAGTGC
Celera SNP ID:            hCV15757092
SNP Position Genomic:     58053
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(G,-|T,-)   JBIC-allele(G,396|T,505)   total(G,396|T,505)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28347):
CATATGGGTAAACTGGATTTTTCATCTCTTCATGCTAAAAAGTCCCTTTTTCCCCCACTGTCAGTATCAAAATTCCACATATAAAAGTAGAATTCTGGCG
R
CGTCAATTTGATACATCTGTGCCAATACTGCCCTGTGTTCACTCTAACTTTGTAAGTCCTGGAACTGATTGGCAAAGTTCCTTTCCTTTACTCTTCATCT
Celera SNP ID:            hCV29041168
SNP Position Genomic:     51725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28348):
TACATGTGTGTTCCTCACCCTGAGTCAGACTCTACCTTTCTCCTGGTTCTAATCCTTTGGGGCTGTGTCCTCTATGGACAGCTCTCCTAGCACCCGGTGA
Y
CTGTTCTCCCCTGAGTCATACCATAGACTCAGATTGGGATCACCCCTCAACCCAACCCCAAAGAAGTCCTAGTACTTGGTAAAGGTGTGAGCTGCTGAGC
Celera SNP ID:            hCV29041169
SNP Position Genomic:     49797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28349):
CCTAATAAACACTTTTTAAGAGCACCTTCCAAGTGACAGGCAAGTGTTCTAGGCACTGGGCAGACAGCCCTGGACGAAGCAGACAAGACGCATCTGCCCC
R
TGGGGTCACTCTAGCAAGGCATCAGGAAGTGCTCAGAAGCATAACCCAGCCAGGGGCACTTCCAGGAGCAGGTTCATTGACAGAAAGTGGACAGTTCAGC
Celera SNP ID:            hCV11526889
SNP Position Genomic:     7238
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28350):
GGGCTCCCTGACCCAGCCAGAGCGGTGTCAGGAGAAGGGACTCTCCACCCCCACAATACCAACCCACCCCGGCCTTAGAGGAAGCCAGCTGCAGACCCCC
R
GGCCCTCTCCCACCATCCCGCCTTGGAGGAAGCCAGCCTAAGGACCCCCGGGCCCTCTCCCTTGGGCAAGGCCTCTCAAGAGGGGCAGGAGGAGCCGTCA
Celera SNP ID:            hCV15757096
SNP Position Genomic:     57865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28351):
ACCCCTGTCAGAACGGAGGCACTTGTGTGCCGGGCGCAGACGCCCACAGCTGTGACTGCGGGCCAGGGTTCAAAGGCAGACGCTGCGAGCTCGGTAAGTC
R
GGGCTTGGCCTCAGGGCGCCCCTTCCAACACAGCCTGTGCCTCAGCCTAGGACTGCTGGGCCACAGCTGGGTTTGCCACGGGAGCCTCCAAACGATGAGG
Celera SNP ID:            hCV15757097
SNP Position Genomic:     57527
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,154|G,1133)   total(G,1133|A,154) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28352):
GGCCCTTCCCACCGGGTTTACTGGGTGAGTGCCGCTCTGGGAATCTGCCTGTGATTCTGACACAGAAGCCCTGAGACATGTTGGCAGGAGTGAGGCAGGC
R
CGACCCTGCCCCAGAGGGGACCTCTCTGGCCCTTGCCTCTCACCTGGAAGGCCAGGTGGTCATCCTCATGGAACTCCCCAACAGAGCCTAGTCACCAGTT
Celera SNP ID:            hCV26232105
SNP Position Genomic:     48174
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,17)      total(G,17|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28353):
GGCCATGAGGGTCTAACCCGCCACTCCGAGTGTGGTCCGGCAAATCCTCCGCCACTGTCCTGGCAAGATCTTCCCGGTGGCAGCAAGGCTGATGGGCCCA
R
GTGCCTTGGGCCCTTCCCACCGGGTTTACTGGGTGAGTGCCGCTCTGGGAATCTGCCTGTGATTCTGACACAGAAGCCCTGAGACATGTTGGCAGGAGTG
Celera SNP ID:            hCV26232106
SNP Position Genomic:     48065
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28354):
CAGCATGGAGGCCGGTGTGAGAGCGGCGGCGGGGCCTACCTGTGCGTCTGCCCAGAGAGCTTCTTCGGCTACCACTGCGAGACAGGTAGGGCGGCAGGCC
Y
GCCTGCTCCCCGCCCTCTGCCCGCCTGCTCCCCGCCCTCTGCCCGCCTGCTGCCCGCCCTCTGCCCGCCTGCTCCCCGCCCTCTGCCCGCCTGCTCCCCG
Celera SNP ID:            hCV26232107
SNP Position Genomic:     39868
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28355):
CCCAGCTACTCGGGAGGCGGAGGTTGTGGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCAACGAGCGAAACTCCATCCCCCCAAAAAAAAAAAA
A
GAAAAAAAGAAAACAAAAAAAGGAAAAAGTCTAGAACCAACCCAAAGACCCAGCCAGTGAGAATGGGTGAAGTATGATATAACCACACTGTGTAATGTTA
Celera SNP ID:            hCV26232108
SNP Position Genomic:     37594
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28356):
CCAACCAAAGAGAAAGCTTCCGAATCGTGCTCAGCGCAGGCAGGGGTGCAGGAAAAGATCGGAGAGCGAGTGGGAAGGAAGACTCCAGCCAGCAGCTTCC
W
GGGGCTGGGGTGGCATTGGCCTCACGTTGTCCTGTGGTTTCCTGAGAATTTACATCAACTCACCTGTGCTGAGGGCCCGTCCCCCATCCCTGCACAGTGA
Celera SNP ID:            hCV2358146
SNP Position Genomic:     44242
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,4)      total(A,1|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28357):
TCAGGGCACATGCTGGGGTGGGGACTCCCAGCTGAAGCGTCCCATCAGGAGGCCACTGGGGAGAAGCACTGTGTCTCCAGGGCAGCCTGGGACCTGAGTC
Y
GAGCCCGAGTGCCCAGCCCCTTGAGAACTTGAGTGACGGGCAGGGGCCTAGACTCAGCCCTGCCTCATGACTCCCAGGCCAGTGCACGCCTGTGTCATGG
Celera SNP ID:            hCV2358147
SNP Position Genomic:     46978
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28358):
TTGAGCCCAGCCTGTGCAGCATAGAGAGACCCCCAACTCTACAAAAATAAACTAAAATTAACCAGGCGTAGTGGCATGCACCTGTAGTCCCAGCTACTCA
R
GAGGCTAGGGTGGGAAGATCACTTGAAACCGGAGTTCAAAGCTGCAGTGAACTGTGATTGCACCGCTGCATTCCAGCTTGGGGGACAGGGTGAGACCCTG
Celera SNP ID:            hCV26232109
SNP Position Genomic:     36552
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28359):
CCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCGGCCTGGGTGACAGAGGGAGATTCCATCTCAAATAAAAAAAAAAAATCTACA
Y
GTTCATACTCGGAGCCACATTTAGAAGTGCCAGTTTCCATTGTTCAGTTCCCACCTATGAGTGAGAACGCTTGGACACAGGAAGGGGAACATCACACACC
Celera SNP ID:            hCV11935590
SNP Position Genomic:     8088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28360):
TCAGGGCCGAGCACACTGCGGCCTGTCTCCTCACCTCTGCTCTCTCTCAACACCTGAACTGGGACCACGCTCTAGGGCCCAGAGGCGTTTGGGAGGCCAC
Y
GCAGCACACCACAGAGGAGTGCACGGCCACCCTGCATCAGGTCATCAAGGAAGGGACAGCAACATGTCCATGAGGCAGGCCTGTCCTGGGGTTCCAGTGA
Celera SNP ID:            hCV2358149
SNP Position Genomic:     57275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28361):
CTGCACTCCGGCCTGGGTGACAGAGGGAGATTCCATCTCAAATAAAAAAAAAAAATCTACACGTTCATACTCGGAGCCACATTTAGAAGTGCCAGTTTCC
R
TTGTTCAGTTCCCACCTATGAGTGAGAACGCTTGGACACAGGAAGGGGAACATCACACACCAGGGCCTGTCGTGGGGTGGGGGGGTCGGGGGAGGGATAG
Celera SNP ID:            hCV2780304
SNP Position Genomic:     8127
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28362):
GCAGGGAAAATAGGAAGCAAAAGATGGATGCTGCCTCCAGGGTGCTGTGTGAGGCTGAGCAACCCCTTCCCCTCTCTGGGCCTTGGTTTCCATCTGTGAA
R
TGCCAGGAGGGATGACAAAGTTCACAAGTCTCCTCTTCCAGCCTGGGTGACTCTTGACTTTTTTAACATCTTCCTCTCCTACTCTAGAACCCTCAGCACA
Celera SNP ID:            hCV16122010
SNP Position Genomic:     16422
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,15)      total(G,1|A,15) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28363):
GGAAGGGGGTTGATGGCAGAGGAGAGGTGGAGACGAAGGGGGCTGGATGCTGACGGGGAGAGCAGGAGCACTTGGGTGTCCAGCCCAGCCCACCTCAGGC
R
TGTGAAACTAAGGAAAGCCTGGCTGGTCCTGCAGCCTCAGCTTCCCCTAGAGAAGACCCCACACACACACTGCTCTGGGTTGGAGGGAACCCTCTGGAGA
Celera SNP ID:            hCV2780305
SNP Position Genomic:     10588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;JBIC-allele(G,305|A,982)   total(G,305|A,982)
SNP Type:                 INTRON


Context             (SEQ ID NO:28364):
CCCGCACACACACTGCTGTGGGTTGGAGGGAACCCTCTGGAGACTGCGGGTTTCGGGGGTAAAGAGTTCTGGGTCCTCAGGGGAGGAGGAGCCCAGGGAC
R
CCTCTCCCTGGGACCATGTGGTCCCTACTCTCCCCTTATTCCCACCCAGCCTCCTGCCTGGGCTGGGGGAGGAGCAGCATGTGGTCTCTGACCCTCAGGG
Celera SNP ID:            hCV2780306
SNP Position Genomic:     10807
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28365):
CATGTGGTCTCTGACCCTCAGGGCCACCCATGAGGCAGGTCCTCTTACCACCCAGGTCCTCATTTTTGCCAGCGGGCTTGCTGCTTGGTGGGATTTGGTG
W
CTGCTTGACAAACCCAAGCATCACGTCTACAGGGGAGTTCCAGGGGTCCTTCCAGCCCACAGTGCACAAACGGACGGGGTGGGTGTCCCTCCCAGGGGTG
Celera SNP ID:            hCV2780307
SNP Position Genomic:     10985
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28366):
GCTTGCTCCTCCTCCGTCCCCGGCCCAACCCGAGCCCTTAGAGAAAACTCCTCATCCGGGTTCCCGCCGCTGAGGCCTCAGCCTGCCCCATGTTTCAGAC
R
TGAACGAATGTGCCTCCCAGCCCTGTCAGAATGGTGGGACCTGTACTCACGGCATCAACAGTTTCCGCTGCCAGTGCCCGGCTGGCTTTGGGGGACCCAC
Celera SNP ID:            hCV2780308
SNP Position Genomic:     12958
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:28367):
AAGATTGTGCTGTACGTGCCAGCCCACACCCCGCCTCGGCACTGTACCATTCTCCATAATAAAGAATCTGGCTTCCAGCAAGGCTGCGGCAGCCCATGTC
S
GGTTCTCAAACCTTGTTCTTGCCAGAAGACCCTGTGGGCACCCCCTCACCTCTCCCTGCTCCTGCCTCATCCAGGGCCCCTGCCTCCAGCAAACCTGACC
Celera SNP ID:            hCV2780340
SNP Position Genomic:     45572
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28368):
GAAAATGAAAACACTGGCACAGTGAAATGTCTCATTTCCAAACAGTTTTGCCTATGGCCAAGCAAGGCAATAAAGACAAACTCTCCCTTTTCCCCATTGC
R
TGTGGGCTGCCAGGTACAAGTAAGGGAATCTTTGCTGTGCCCACTGTCCTCCAGTAGAGAACCCAACAGGCAAGGGCCCCACTCAGGTATCAGCTCACCT
Celera SNP ID:            hCV25954634
SNP Position Genomic:     69906
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,25)   caucasian(G,2)   total(A,3|G,27)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28369):
ACGTGCCAGCCCACACCCCGCCTCGGCACTGTACCATTCTCCATAATAAAGAATCTGGCTTCCAGCAAGGCTGCGGCAGCCCATGTCCGGTTCTCAAACC
K
TGTTCTTGCCAGAAGACCCTGTGGGCACCCCCTCACCTCTCCCTGCTCCTGCCTCATCCAGGGCCCCTGCCTCCAGCAAACCTGACCGCCGCCCGAGTCA
Celera SNP ID:            hCV2780341
SNP Position Genomic:     45585
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28370):
AGAAGGAGCAGTGGGAAAATGCAGGAGCAGAACAGGGAGAGAAGAAAGAGACGGAGACAAGCAGGGAGGAGAGGCCACGGCGGGACAGAGCAGAGCAGTG
Y
GCGGCTCCCCAGGGAAGAGAGGGCTCTGACCCCAGGCTCCTCCCCAACCCGTGAGGCTGTGCTGGGGACACGAAGTGCATAAGCTTGCCGAGTTCTCAGA
Celera SNP ID:            hCV2780342
SNP Position Genomic:     46607
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28371):
AGGCCAGCACGTCCCTGCAGGGCACCAAGCATCTGCTGAGCACCTGCAGTAAGAGTTCCCAGACGCTCACGAGGCAGTTCCCCTTCGGGCAGCACCAATA
Y
ATGTGTGTTCCTCACCCTGAGTCAGACTCTACCTTTCTCCTGGTTCTAATCCTTTGGGGCTGTGTCCTCTATGGACAGCTCTCCTAGCACCCGGTGACCT
Celera SNP ID:            hCV2780343
SNP Position Genomic:     49699
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28372):
CCCCTCAACCCAACCCCAAAGAAGTCCTAGTACTTGGTAAAGGTGTGAGCTGCTGAGCGTGGTCTCACCCGCAAGGCCTTGCCCCCAGCTTCTCAAGGAC
R
TGTGTACACATCAAGGGCACCTGCGGTGGGGTGTGTTTGCAAGTGGCGGTTTCGCTGAACCCTAAGTTCACCATCCCCCCCCCGCCCTCACCATACAAGG
Celera SNP ID:            hCV2780344
SNP Position Genomic:     49940
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28373):
CCATCATACTCCCTGTTCTCTCCCCTCAGTTAACCATGATCCTGAACTTTGTGCCTAGAATTCCTTTGTTTTTTCAGAGTGGAAGGTGCGGGGAGTGATT
Y
TATGGTACATATATGTATGGCAGAACAATAAGTGAGTTTTCTTTGCAAGATAATTATCTTGCCATGTGTGATCGTTAGACCTGTGTTTTCACTCCGCATT
Celera SNP ID:            hCV2780346
SNP Position Genomic:     50676
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28374):
GAAGAATGAACCCCATCTTCCAACTGTCACGGAATTATCACCAACATATTCAAAAGAGAAAAAAATAAAACCAATTGTTGATATATTGAGTCCCCTTGAT
K
TGAATAGCTCAACATAAGTATCTTATTCAGGATGGGACAGGGCCCTCCCCACAGACACGTGACAACAGATCAAACATGCATTTCCTGTTTCCTGTTTGGT
Celera SNP ID:            hCV11526854
SNP Position Genomic:     71459
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,2)      total(G,2|T,2) ;JBIC-allele(G,637|T,852)   total(G,637|T,852)   no_pop(G,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28375):
ACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAGAATTGAGAGTCTGGAAATAAACCACACGTCAATGGCCAACTGACTTCTACAAGGGGGCTGAAAC
Y
ATTCAATGTGGAAAGAATAGTCTCAGCAAATGGTGCTGGGACAGCTGGATATCCACATGCAAAAAGAATGAGGCCGGAGCCCTCGTACCATATACCTCAT
Celera SNP ID:            hCV2780347
SNP Position Genomic:     52886
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28376):
CAGCCTGTATAAAGGTGTCCCGCCCCTGCACAAGGCTGTTCTCCGAGACAAAGGCCTTTCCAGTCTGGGAGGGAGGCGTCTGTCACCACGTGTAAGTTGG
Y
TTCTGTCCTCCGCCTTACCGCATTTGTCGTGTGTTCTTGACTCCTCAAAGTGCTGTCTCAAAGCTACCCAGCTAACCCTGAGGAGGGACGATGGCTGCAG
Celera SNP ID:            hCV2780349
SNP Position Genomic:     58100
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28377):
GCAGTGGAGGTGGCAGAACCGAAGGGAGGCAGTAGCTGTCCTGTGCCCCCCGCCCCTCCACACCCACGCAGGAGGGACCCAGTGCCCCAGGAGCAAGGGC
S
GGGCTGGAGCAGGGACCCCTGGCCACGCCCCAACATACACTGCCACTTTTTCTCCCCTCAGTGAGTGACCCCTGCTTCTCCAGCCCCTGTGGGGGCCGTG
Celera SNP ID:            hCV16179363
SNP Position Genomic:     40509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28378):
ACCCACAGCCTCGGCGCAGCTCGAGAACATGGAGGAAGCCCCCAAGCGGGTCAGCCTGGCCCTCCAGCTCCCTGAACACGGCAGCAAGGACATCGGAAGT
R
AGTCAGCAGCGCTGGTGGGGACTTTGGGACTGACTGACTGCTCTCAGGGGCCTTAGAGGCTGCAGGCAGGAGGGACCACCCACGGTGAGGAATCAGGAGG
Celera SNP ID:            hCV29041171
SNP Position Genomic:     49094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:28379):
GTCACCGCCTGGCTTCTCCTAGAACCCACAGCCTCGGCGCAGCTCGAGAACATGGAGGAAGCCCCCAAGCGGGTCAGCCTGGCCCTCCAGCTCCCTGAAC
R
CGGCAGCAAGGACATCGGAAGTGAGTCAGCAGCGCTGGTGGGGACTTTGGGACTGACTGACTGCTCTCAGGGGCCTTAGAGGCTGCAGGCAGGAGGGACC
Celera SNP ID:            hCV29041172
SNP Position Genomic:     49071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28380):
ATCCCGGGTGCAAAGCAGCTGCGCCGTGTGGTCACCGCCTGGCTTCTCCTAGAACCCACAGCCTCGGCGCAGCTCGAGAACATGGAGGAAGCCCCCAAGC
R
GGTCAGCCTGGCCCTCCAGCTCCCTGAACACGGCAGCAAGGACATCGGAAGTGAGTCAGCAGCGCTGGTGGGGACTTTGGGACTGACTGACTGCTCTCAG
Celera SNP ID:            hCV29041173
SNP Position Genomic:     49041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:28381):
GGCAGAGGAAGAGTGAGCGCCAGGTTCGGTGGCTCACCCAGCAAAGCAGCCACCGTGAGATCACGTGAGTGCCAGGGCCTCCCCACCCACCTTGGTGGCC
M
ACCCTCGTCCTCACTGCCACTCTCACCAGGTCCTGTCCCCTACATGATGAGCCCACCCCCACCGCCAGCGCAGTCTCCAGCCAGTGACCCCCACCCCGAC
Celera SNP ID:            hCV29041174
SNP Position Genomic:     47642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28382):
AGCGTCATGAAGCTTTTGCCCTATTGTTTCTTCTAAGAGTTTTACAGTCTTAGCTCTTATGTTTAGGTTTTGGCTCTATATTGAGTTAATTTTTGTATAT
R
GTGTTAGGTAAGGGCCCAACTTCATCCTTTTGTATGTGGATGTCCAGTTTTGCTGGCACCATTTGTTAAAAAGACTGTCCTTTCCTCACTGAATGCTCTT
Celera SNP ID:            hCV11526892
SNP Position Genomic:     4185
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:28383):
GGGCAGGGGCCTAGACTCAGCCCTGCCTCATGACTCCCAGGCCAGTGCACGCCTGTGTCATGGCTGCGCATGGCTCCTCCTCAGAAGGGATGCGGCGGGT
R
GGCTGGAAGGGAACCCAGGGCATCTGGGGAAGCCACAAGCACCTTGGATGACCACGGCCCACGCACATGCCCCCCTTCCCTTCTCCAAGCACGGCTGAGT
Celera SNP ID:            hCV29041175
SNP Position Genomic:     47116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28384):
CCCTCTGGGCTCTGCCTGGTGCATCAGCAGTGGCACTGGAGCTTCGGAGGAGACTGGCTGGGCGGGAAGCGGAGCTCACAAGTGGCCCCTTCCCTGCAGT
Y
GCTGGGAGTTCTGTATGTCTGTCCTCCTAAGACAGCGTTGCCCAGACCAGGCCCGGATGTGTGCTCTTAGACCAAAATAGTCAACTGGCACAGAAAAGGG
Celera SNP ID:            hCV29041176
SNP Position Genomic:     43048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28385):
CCGTGCCTGTGTGGACCAGTCCAGGGTGACCACGGGGTAGGTGAGGGAAAGCCTGTCTTCACAGACCACTCTCCAGCTGGTGAGGGCAGGAGCGACAGGG
W
CAGACACAGGTCTGTGAGAGGACAGCCCTTGGATCAGGGATCTCGATGTCTTGCTCGAGCCATCAGGTGCAAGGCCCGTGGGGACTTTTTTCTGGGTTGG
Celera SNP ID:            hCV9034850
SNP Position Genomic:     56663
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,2)      total(A,2|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28386):
CGGTCACACATTCAAAAGTGTGACCCTCCTGGAGGTACGTGGCCAGGGACAAAGAAGGACTCTGCCAGCGATGGCTGTGTCAGGCCCAAGAGCCAGACCC
R
GCTGAGCCGCCGACGGGAGCCAGGCATGCATAGCTAACGGCTGACCAGTCCCCTCCCCTTGTTTTGACCCAAACCCTGAAGAGCTCTTCCCACCGACGGC
Celera SNP ID:            hCV29041177
SNP Position Genomic:     40944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28387):
TCTCTACAAAAAAATTTAAAAACTAGCCCGGCGTGGTGGCACATGCCTGTAGTCCCAGCTACTTGGGAGACTGAGGCAGGAGATCACTTGAACCTGGGAG
G
TCAAGGCTGCAGTGAGCCATGAGCCTGCCACTGTACTCCAGCCTGGGTAGCAGAGCAAGACCCCACCTCATACAAAAAAAGAAAATGGATTAACGGTATA
Celera SNP ID:            hCV9034926
SNP Position Genomic:     30215
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,4)   total(G,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28388):
CAGTCAACTTTGCTCTGGGGCATTCACTAAAGGCTTCCCCATCCTCAGAGCAGCCCGGAGCAGGAGGTCAAACACCCAAATACCCACTCTGCAGATGCAG
Y
AGCTGAGGCCAAGAGGTAGCCCAGGGGCAGAGTCCTAAAGAGCCAGATACGGATTCAGGACCTACCTCTTACTCCTGGCCCCTTGAAGACTTGTGGAATC
Celera SNP ID:            hCV29041178
SNP Position Genomic:     29326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28389):
TTACATTAATAGCATCAAAAACATGATAAATTTTTAAATGCGTAAAAGGAACTATAAACATAAATGTAAAAGCTAAAACTATAAACTTTTTTTTTTTTTT
T
GAGACAGAATCTCACTCTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCGCCTCCCTGGTTCAAGCGATTCTCCTGCCTCAGT
Celera SNP ID:            hCV26232110
SNP Position Genomic:     35929
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28390):
TGAATAATAAGAAACAGACTGGCCGGGTGTGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACTTGAGGTCAGGAGTTC
R
AGACCAGCCTGGCCAACGTGGTGAAACCCCATCTGTACCAAAAATACAAAAGTTAGCCAGACGTGGTGCTGCATGCCTGTAATCCCAGCTACTCGGGAGG
Celera SNP ID:            hCV29041179
SNP Position Genomic:     17199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28391):
TTATCTAAACTGCAGATCAGAGAGAAAAAATAATTTAAAAATGAATTAGGAATTCTGAATAAGTGAAATTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGA
Y
GGAGTCTCGCTCTGTCTTCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAATCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTC
Celera SNP ID:            hCV26232111
SNP Position Genomic:     32330
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28392):
ACTGAAAATATATCCGAAATGAATAAATTGTTTTATTTGTTATTTATTTTTGTAGAAACAGGATCTCATGGTGTTGCCCAGGTTGGTCTTGAACTCCTGA
R
CTCAAGAGATCCTCCTGCCTCTGCCTCCCAAGCTGCTGGGATTACAGGCATGAACCACTGTGCCCAGCTGAAATGAATAAATTGGATAGGCTTAACAAAA
Celera SNP ID:            hCV26232112
SNP Position Genomic:     32063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28393):
CCGCAAAGCCAAGGCCAACCTGCGTGGTCTCAGGCGAAGGGTTCTGGGAACACCTGGCTTCAAGCATCCCTCCTTTCCTTCTGGGATTTCAAGCCCCAGG
G
TGAGCTCCTGACTGTCTTGGAGATGACCCCCCCTCCCAATGCTACTTCCCCACCTATATGTTGCCAGAAGATGAGAAGCCGATATCCTCAGAGAATATGA
Celera SNP ID:            hCV26232113
SNP Position Genomic:     29860
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28394):
TTGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTGCACTCCAGCCTGGCAAGAGAGCGAGACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAGTAAA
T
TAGGTAAACTAATCAAGATAATGCTGCAGTGGCTATATTAATATCGAATAAATTAAACTTTAGAATGGGGAATACTGCTGGGAATTAGGAGGGACCTTTT
Celera SNP ID:            hCV26232115
SNP Position Genomic:     22891
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28395):
GTCTCTCGGTTGGAAGATTGTGCTGTACGTGCCAGCCCACACCCCGCCTCGGCACTGTACCATTCTCCATAATAAAGAATCTGGCTTCCAGCAAGGCTGC
R
GCAGCCCATGTCCGGTTCTCAAACCTTGTTCTTGCCAGAAGACCCTGTGGGCACCCCCTCACCTCTCCCTGCTCCTGCCTCATCCAGGGCCCCTGCCTCC
Celera SNP ID:            hCV27989933
SNP Position Genomic:     45559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28396):
GTTGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTGCACTCCAGCCTGGCAAGAGAGCGAGACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAGTAA
A
TTAGGTAAACTAATCAAGATAATGCTGCAGTGGCTATATTAATATCGAATAAATTAAACTTTAGAATGGGGAATACTGCTGGGAATTAGGAGGGACCTTT
Celera SNP ID:            hCV26232116
SNP Position Genomic:     22890
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28397):
AGTTGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTGCACTCCAGCCTGGCAAGAGAGCGAGACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAGTA
A
ATTAGGTAAACTAATCAAGATAATGCTGCAGTGGCTATATTAATATCGAATAAATTAAACTTTAGAATGGGGAATACTGCTGGGAATTAGGAGGGACCTT
Celera SNP ID:            hCV26232117
SNP Position Genomic:     22889
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28398):
AGCACCGTGACCTGCTGCTCCCCACCCAGCTCAGCCAGGTGTGCGTGTCCTGTGTGACAGTCGCTTACAAAAACATGTAATAGATTGTTTAGATCAATGC
R
TTCAAATAGTGACTATATCAATATCTCAATCTAGAAAAAAACAATTCTTATCAGATATTTATGGTCATGGGAGGTTTTTTAAAGTACTTCCTTCCTGTGT
Celera SNP ID:            hCV2780310
SNP Position Genomic:     13964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28399):
GAGTTGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTGCACTCCAGCCTGGCAAGAGAGCGAGACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAGT
A
AATTAGGTAAACTAATCAAGATAATGCTGCAGTGGCTATATTAATATCGAATAAATTAAACTTTAGAATGGGGAATACTGCTGGGAATTAGGAGGGACCT
Celera SNP ID:            hCV26232118
SNP Position Genomic:     22888
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28400):
TGGGCTTGCCAGTGTGTTTACAGATCACACATAGGTGACAGCACAGTGACCCCAGTTATCCCTTGCTCCCCGAGCCCTGCCACTGTCTTCCCACAGCCAG
Y
GTCGGAGCAAGCTCCATTCATAGGAGCCTTTCTTCATCCAGAAACTCCTGCCCTGCTTGCCCACGTGCTCTCAACGTGAGACGGGTGGGAGTCGGGCTTC
Celera SNP ID:            hCV2780311
SNP Position Genomic:     14316
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28401):
GGAGTTGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTGCACTCCAGCCTGGCAAGAGAGCGAGACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAG
T
AAATTAGGTAAACTAATCAAGATAATGCTGCAGTGGCTATATTAATATCGAATAAATTAAACTTTAGAATGGGGAATACTGCTGGGAATTAGGAGGGACC
Celera SNP ID:            hCV26232119
SNP Position Genomic:     22887
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28402):
CGTGAGACGGGTGGGAGTCGGGCTTCTGTGGCATTGGTGCCGTGGCAGACTCAGCCCTGCAGGCGTCTGTCCCTTGGTAAAGGCCAGGGAGGCTGGCAGG
W
TCTCCTTCCTCTTGCTCAGTGCTCTCCCTGTGCGGTGCTGGCCAGGGGCCTGGCTGCGGGAGGACCCAGGCCTATGATGAGGGTCCCCAAGGGTGACTGG
Celera SNP ID:            hCV2780312
SNP Position Genomic:     14491
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,5)      total(A,5|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28403):
GGTCCCCTAAGAGGGCTTGAGGCTTGGCGCCAGGAGGCTGGTTCAGGTCTTGGGTCTGCAGCATGTCAGTTGTACGTGTGGCCTCGGACCGTGAGCCTTC
R
CTTTCTCAGTGCAGCTGTGGCACAAGCCTTGGGTACAAGCCTTCCCGCCTCGACCCCCCACAGGGGCTCCCTGATCTTGGAAGCCACCTTGGCCCCCAGA
Celera SNP ID:            hCV2780313
SNP Position Genomic:     14771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28404):
TGGATCTACACAAAAGAATGAAGAGTGTTAAAAATGATAAATATGTGGGTTGAAGACTTTTTAATCCCTTTAAAGAAAAATTTTAAAATAATAAAACTTA
Y
ATGCAGAAATAAAATAGATGACTCCAATAACATAAACCAAGCTGTGCAAACTTTTTCTGTAAAGGGCCAGAAAGTAAATACTTTTGGCTTTGTGAGCCAT
Celera SNP ID:            hCV2780314
SNP Position Genomic:     19377
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28405):
AAGATATACATTGTAAACCCAAAACAAGTGAAAAATAATAATAAAGAATTACAGCTAATAAACCAATTGTGGAGATAGAAATTGAATCCTAAAAATACTC
R
ATCCAGAAGGCAGGAAGAGAGGAAAAAAAGAAAGAAGTGGGACAAGTAAAAGCCGATAGCAAGATGATAGGTTCAGTCTAGTCATATTGGTAGTTACATT
Celera SNP ID:            hCV2780315
SNP Position Genomic:     19833
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28406):
TTCAGGGGCAAAGCCAGCAAGGGTCGGGGTGGGGAGGGGCCACAGGCCAGTGGGGGCTCAGCACTGAAGGCCCCGCTCCTCCCTCCCTCTCCCTCCTCCT
Y
CTCCTCCTCCTTGTTTTTGTTTGTCTTCCTTCCTTCCAGTAATGAGGTCAGGGCCGAGCACACTGCGGCCTGTCTCCTCACCTCTGCTCTCTCTCAACAC
Celera SNP ID:            hCV15757102
SNP Position Genomic:     57127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28407):
ATCTCTGGTTGGCCTAGGACAGCTTTGCTCTTCCTGCCCCTTATAGGAGCCCTCACAGTTCATCTTCCTGGTGGCGCAGATGAGTGAGGCACCCTTGGGT
R
ACAAGCCACTTCAAAACAGGTCTATGTTTTGTTACGTGCCTAAAAAAATAAAGGAGAAATGTCATTCAGGAACCTTTAAAAACAAACAGAAGCAAAACAG
Celera SNP ID:            hCV9651994
SNP Position Genomic:     65054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Gene Number:                 112
Celera Gene:                 hCG2016840 - 84000314227577
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VYAU(23585478..23599787)
Chromosome:                  Chr11
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12272):
GCACAAGCTGTCAGCCATGCCTGATGTGGTCCTCTAGGCATCATTCTGCCCTGCTTTCTCCTTGTCCTGCCTGACCCACTGTCCCATCCTAGGAACGGTC
CTCATGTCACACCACCATGCACACCACTCTTGCACGTGTCCCTCCTTCACTTTCTGCTCCACCCTGCACCCCCAAGGATTGCGTTGGGCACCCCCCAACT
CCCAGGCCCTTTGGATGTATTTCCCCASTTGCTACATGGCCTTCACCACTGCTTCACATCTGTCTGCTACCTCTGTGCCCGACTTCCACTGCACTGCTCA
CTGCAAAGAAACTCACTTCCCGACCCCACTGCAGAGTCCCCTGCACTGCCCTGTGCCTCTGCCCAGCCTGTGCCTGTCCCAGGGTTCCCCTCAGTCCCTG
CATCACCCCCATCCACACCACACTCCCTCCCATATTCCCCACCCCTTTACCATGTGTTCCTGCCCCATGTGCTTGGTCGCCCAGCTTGGTCCAAGCCTTC
CCCTGTATGCTGCTTTCAAGGTGGGGCTGGCGGGGGCCTCTGAGGGGACTGGGGAAGAGGACTAGCCCTTGGGCMTAGAGTGGCCTGTAGCTCCAGAGTT
CTGGGGACCCAGACCCCACAGTGTCCTTGTCATCTCCACCACCCGAGCTCCAAGCCCTGCTCCTTGCTGCTCTAGGTTGGCCATCAGTTTTCCCTTCCTT
TTGTCCTTCATCTTCTGCCTCTGCACCCCACAGCAGCTGTCCTGCCATGGCCTCAGCCTCAAAGTGGGTTCCCTGCAGATGTCAGCTTTCCCTCTTCATC
TGGGCATCTAAGTCCTTTACCCCTCAAGACCACTGCTGAGCCTCCGTCTCCACCATCTCCTCTTTTAGTGGCCTTGCTTCTCTCCTGCCAAGAAAAACAG
GAATGAAAAAGTCCATTATCCACTTTGGTTTGCTGGTCCTTGACTCCCTGGGTTGGTGAGACTTGTCTTCTGGGACTGAAGGAGAGGTAGCCCAGTGGCC
GGAGGGAAGATAGCTGAGGGCTGTGACTGAACGTGAGGTGTGGAATCTGGCTCAGAGCCCCAGCCCTTCCCTCCAAACATCTGGTAGAGAGTCAGGTCTA
AAGGACAGGAAGAGGCTGAAGGATGCTTTTTGGAAGTAGCTCCTAACTAAGGTGGGTGGAGGCATGGCCATTACTGATAAAAATCACAGCTGGGCCCCGA
GTGGGCAGAGGAGGTGCCTTGATCAGGCCCTCACCTCCCAGGGGAAGGGTTCAGGGTCCCTGATGTCAAGTGCTTTGAAGGCTGAGACTGGCAGAGTAGA
GAGGAGGTGGATGGGAGGAAGAACGGGAGAGGGGAGAGGGGAGATGGGAAGGGCCAGCTCTGGAGATGCTGCCTCCTGGGCTCTGCGGTGGCCCTCTCAT
CACAGCTTGGCACCCTTGGAAGGCTCTGAGGACTGCCGCACGTCTGTCCACTCCTGCATGGTGTTCTGCAGGGCCTGGGTCTTCTCCTTGTCCACCTGAA
CGTAGTCCACCTTCTCATCAGAGGTGACGGATGAAGTAGATGGCTGAGGGGACAGAGTGGGAAAGAGGGAGTAGCTGTGAGTTACCAGTTAGGTGGGGAG
GAAGAAGGTGGGCACGGGATCTTCCTGAGCTGTCTGAAGGGGAGAAGAGCATGGCCTCTGCCTGCCACTGACCAGCCTCAGGAGCCTGGCTTCTCTTTCT
GAATGTGGGCTTTAAAGCTCAGACTCCAAACTCATCATCCCTCCTGCAGGATGTAGCAGCACCTGCCAGCCCTTCTTACTTCCCGGCTTCTGGGAGGACC
CAGGCCCTTCCTTGGCCCTGGTGGATGGGTCCAGGCCTTCATCTCTGCCTCCACCCATCTCTGTCAGGTCGCTCATCCAGGGGAAGGAATTTGCTAGGTG
CAAACAAACATCAGCCACAGGACTTTACGTGCTGTGCTCACTGCCACCCTGTGAAGGGGAACCATGCTGAGGCACAGCTCTGCACCCTTCTGTCTAGACT
GCTTAGCTATAAGGATGCCTCCTGGGGAGGCTTTCCCAGGCCTGGAAGTCCCTTCTGAAGGCTGATGTATCGACGGCAGGGCTCTGGACCCACTCGAGAG
CCCAGGACCAGGAGGCAGTATCCTCATTCCTGGATCTGTTGCTGATTCACTTTGTAACCTTAGGACAATCAGATCTCTGTGCACTCATTTGCCCATCTCT
ACAACACGGGGGATGGGCTGACTGATGAGGTTCTCTGACTGAGGGTACTGTGCTCTGAGAGCAGGAATAGGAGTCTTTAGACCTAGATGAAAGCTCTATG
ACTAAAGATGCATCATAAAAGCTGGGTACTGGAGCAGGAGGGAGGCTGAGTGCTGCTGTTCAGTGTTGAAGGCACCCTGGCCTCCATGATCTCTGCCTCC
GGGACCCTGAGAGCTCTTACTGCCCCCCCAACTCTACTCCAGGCACCTTGCGGTGGGGGCTTGGGGAGCTCGGCTGGAAGTCCAGGGCCAGATAATCAAC
GCTGCCGGTGCTCTTCTTAGGGGCAGGACTGTTCGTGCCACTGGGAACGGGAGATGCAGACACTGGGTTTTGCTGTCACGAGGAGGAAAAAACTGTGAGT
GACTGCAGAAAACAGACTAACCCACCACCCAGAAAAACACCTCTGGGAGTAAGAACACTGTTTCCCTGAGCCCTACTCTGACACATGCACCATGCTAAGG
ACTTTTCATGTTTTCATTTTAATCCTCATGACAATCCTGTAAGGTAGGTATGATTACTGTTGATACTGTTTAAAGCAAAGATGAAACTGTGGTTCACTTT
ACTTTCAGAGAAGTGACTTTGCCTGTGGCTGCACAGCTGTTGAGTGATGGGAATCAGGTCTGTTTTCTGACTTCCAAACCTGTGCTAACCCCTGTACCAC
ACTGCCTCCTTTCTAGCACATCAGGCCAAGTCTCATCAACAGTGGCTCTCCTGAGACATCCAGCCTTTGCTTGCTGGCGCTTAAGAAAGGAGCACATTTC
CTTTATGCACTGGAAAGTTTTCTTCTGTCGCACCAAATCAGCCCCTGTGAAACTCCCACCTGTGGCCTAGAGTGGGGTAGTCACCCCAAAGCAGCTTGCT
CCCCCGCCTAGCTCCTCCAAGATCTGAAGAGGGTGGCTTCATCTCCAGGCTGCACAAGCCCGCATTTCTTCAGATGACACGCTCTAGGATCCTGTCCATC
CAGGCTCGTGCTCTAGCAGAGCACCACCTCCTCTAGAACTTTCTGGAAGTCTTATTCTAATGAGAAGGTGATAGTCCTGTGTTCTGTTTGTTGGCTGCTT
TACTGGTTGGTTAATTCATTCTTTCACTATCTATGCAGTGACTACCAGGTGCTGGGCAGTTACGCCCTTAATGGAAATCTCAGGGAAGAAATATCCTCCT
CTGCCTGTGTTGATAGCTCTATTATGGCCTCACCAAAGTGAGTTATGTGCACGTATGCCTCTCACCACTGAGGAGATACCTCCACCACTGAGGAGATACC
TCCAGCACTGCCTATCCAAGGGCACAGATCATGCCACCCATGTCACTGTCATGAGAGGCAGGCCCCTGCTCTTGAAGACCATGACTTCGTTGGGACAGGT
CTCATGTCTTCCTTACATCTGATGACAACTCCTACTGCTTGATAAACAGGTGCTCAAGAAGGGTTTGTAGCAGGAGACTAAATCATGAATAATACAAGGA
GTCCCTGGGCTGAGGTGAGTTAGCTAAGCTGGGAAGTGGGGAACTGAGGGGTGGGTCCCAGGGGACTTGAAAGGCGTCATTCCAGCGAAGCCCGAAGGAC
TCACCATAGGGACATAGTTCTCTTCGCTGTCTCCTGAGTCTGTGCTGGTGATGCTCTGGGTGGAGATGGGGCGGCAGTACTGGGAGGAGCTGGAGTTGAA
GGTGTGGCTGTTGTGGGAAGGAAGAGTTAACACTGGGGAAGCTGCATGGCTGCTGCCATGTTTCTAGCCTCCAGCTGGGCCCTGACCCTCACACACCCAG
ACCTCAGCCATTAGAGCTGCACACTCCATCAGATTAAGATCTGATATAGGGCAGGTATAATTATTCTCTTTTACAGCTGAGGAAACCAAGCCACAAGACA
TCGAGACATGATCAGCTAATGATAGCGTTAGCATCAGAATCCAGCTGTCCCGGCCCACAGGCCAGCTACCACATCACTCATTTTCCCTAATGGCCCGACT
CCAAGCTCCCACCCCCACACATACGCACTTACTTGGCCCTAGACCAAGACTTGGTGATAGGTGACTTGAAGGGGAGTTCATCGATGACGGTGTTGTTCCT
CAGGTCAAGTGGTGTTGGCTTTGCTGGAGCAGGAAAAGAAAGTCTGGTAATCAGCCAGTAATGATAATGCTACACATACACACCTTATATATAACACATG
AGCATGTTTATAAAGGCCTGCAAAGTCATTCCAGTTTCACACAGGGAAACTGACGCTCAGCGAGGTTGTATAATCTTTGCCCATATTGATGAGCCTTGAA
GTCATGTCTTCAGATTCCAAATTATATATTCTTTCTGCTGTATCTATGGTAATTATATTTTCAGAATCAAAAGTGGGGACACAGGGTTTGACAACAGATT
TTTCTCCCTCAATTTATGACTTCATTTAAAAATAAAAGACTATATATAAAATATATTTATATATTAATATATTAATATTTATAAAAATATATACTATTTA
TATATTAACACACATATATGTATTTTTTAAGACGGGGTCTCACTCTGTTGCTCAGGCTGGAGTGCAGCGGCGCAATCTCAGCTCACTGCAACCTCTGCCT
CCTGAGTTCAAGTGATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGACTATAGGCGCCTGCCACCACGCTTAGCTAATTTTTATATTTTTAGTAGAGACG
GGGTTTCACTATTTTGGCCAGGCTGGTCTCGAACTTCTGACCTCAGGTGATCCACTCGCCTCAGCCTCCCAAAGTGTTGGGGTTACAGGCGTACAGGCGT
GAGCCATGGCGCCCAGCCAAGAGACCATATTTGAAGTATAGATGGTCACCGTGACTACTCCCTGCTGCTCCTGGCCAGGTCGGTGCAAGCCACAGTGGAG
GAAGGTAGATGCCATAAGGGCTTGAGGGCTTCAGTTCCAAATGCTAAGATTTGAATTCCCTGTTGGCCAGACCCACAGGGGGCTATCTCTGCCTAGCTAT
CCTACTCCTCCCTTTGAATCCTTGCCACTGATCCAATGCCAGGAGAGTGAGATTGTAGCAGACGAGGACCTTGCCTGGTCTACATGCAGGGGGCACAAAG
CTGACTTTACTGAACGCCTGCTATGTACCAAAGTACTATCCTAGATGCTCTCCTTTGCAGCAAACCTGGGAGGTAGGAATTACCATCTGCATTTCACAGA
TAAGAAAACTGAGACTCAGATTTTACATGATTTGCCCCAAGTCACACCTCTCAAGTCCAGGATCCACATGACCCCTAAGCAAATGGAAAGAGTCCCTAGC
CACTGTCCAGAGATGGGACAGGGGAAAGAATGGACTTACCTTTCCGATCAGGTTTGAGGTTGCGGTTGACAGGGGGTGGCTGAATCTCACTTCCTCTGCT
GGGGCCTCGGTGCACAGGAAGGGTTGTTGATGGGTAGCCAAGTGAGTCAAAGTGATGGGCCCCTGGGCTCATTGGGATGTAGACGCTCTGGGAATTATCA
CCTGCTCGTTCCATGGCCAACAGGGTGGAAGAACCTGGATTCATGGGCACATAGTTGTCTTCAGAATTGGTGCTGTCCGATCGGCCCACAATCATTTTCC
CTGGCTAGGGAGAGGAACAGTGAAAGAAATACAGCTGTTACTAGCAAGAAGAAACAGGAAGGGGGTAAGACTTTGTAAATGAGGCAAGACAAGTCATGAC
TGGGTTAGCTATACTTTGAAGCTGTAAGGGAGACCTTGGGGAGACCAAATAAGAAAGCAGAGTAGTGGGAGGCTGAGGCAGGTGGATCACTTGAGGTGAG
GGGTTCGAGACCAGCTTGGCCAACATGGCAAAACCTCCTCTCTACTAAAAATCCAAAGTATTAGCTGGGCGTGGTGGCATATGCTTGTAGTCCCAGCTAC
TCAGGAGGCTGAGGCACGAGAATCGCTTGAACCTGGGAGGCCAAGGTTGTAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGA
CTCTGTTTCAAAAAATAAAAAATAAAAAAAAGGAAGCAGAGTGGGAGACAAGAATATATGAGGTCTGTGGGCCCCTTCAAGCCTTCACGATCCTTTGGCA
TCCACTAATAATTTTTGATAAATCTAGAGTATAAAATATTCTTGGTGACTGGGTCCACTTGGCTTTCTGGACGCCTGACCAACACTGTGGGTGGCATAGT
CCATAGACTGTAGGTTTGGTTCAGGACCTGCCCTCCACCTCAAGTCCAGACTCACCACTGGCAGGTCAGCATCTCAGGCCCTGGATCAGAACAAGGAGCA
TATTAGGAGTCCTGGCTCTGGAAGGTGAGGTCTGGGGCCAGTTGTGTTTCCCCAGTCCAGGTTTCTAAGTACCTGGGGCTCACTCCAGGCACCTAGGGGA
CCACCAAGCTGCAGTCAGAGCTTCTACAGAGTTGTGTGATACAGCAATCCCAGCCTTCCTCTAACTCTTGCTCTATCTGCCGTGACATACAACTAAGCTG
CTTCTGCCTTGGTTACCTGATTTCACTGTCTTTTCAGTGGGCCTGAAGCCAGGCCCTGGTCTTCTTGCCTGACACCTTGGAGAACTGCGGTTAGCATCTT
CCAGAGGGCAGCCTGGGATCCTGCACTCAAGCCATAATTCTGCCACTTAGCCTGACTGTGAGTACCACCCTTGCCTGGAGTCTCACACTGCAGCCTCCCT
CCTGCATGTGAGGCCACGTGGGTAAGGTTGCTGTCTTAGAGGTTCCCCCACCGTGCAGCCTGGGTCTATTGCATTCTAGATCCTCTGCTTACCTACAAGG
TTGGTGAACCTTGTAATCCAGTCTACCTTAGCACATACATTTCTTCCAGACTAGAATACTTATATCTTACTTGTCCAAAGACTCAACGCAGGGTTCTGAA
CTGAGACAAGAACTTGGGCAGGGTCCTAAGATGGAGACGCCATCAMTCTTTTGGGGTTGTGCTTTTAATTCCATAAGGTGTGACCTTTTACCTAACCAGG
CCGGCCTGAGGACCCTTGGGTTAACCCACACTCACCAGGAAAGAGCCRACTCCATCACTCATGGATTCAGCAGACCGGCCTGCACTCTCTCCACCACGCT
GTGGGTACTCGTAGGTCTCACAGGAAGAAGCTGACAGAGGAAGGAGGATTCATAAGTACTCATGGTTGATTCATGTGTTGACACTTACCCATACCCTCAC
CAGTGTGGTTCAAGGTCTTACTGATACTCCAGAAGATACTACTCTCAACCCCAAATGATAAGGAATTTCTTCGAACACATCACTCCTCAGTTCAAAAATT
CCTCCTGGGCTTCTAGATGTAGCTCCAGTGTTAGCATCTGCAGAGAAGCTGTCCTTGACTACTCTACCCTCATMTATGCACCTCTCCTTTGACTCCTACA
CCACTCACSTGTCSTGCTCACCCCAGCCATCACTTCTSTGAACACCACAGTAACAATACTTGTCCTGATTTATATGTGTTGGTTTTATTTTCCCAATGAG
ATGTAAGCTCTRAAGGGCAGGMACATGTTTTATGTATGTCTTTATCATCWCAGTTCCAAAACGGAGTATGACTGCTCAAATTGTCGATGGATTGAAAGAC
GGCAAAGAGGTCTAAACTAGGAGCTGGGACTMTAGGGTCTGAGTCTCATCTCTGGCACAATGACTCTGCAACTCTATTTAAGTCTCTTAACTGTCATTGG
CCTCATGTGAGATGGAGACAAGGAGGTTTTGTCCCACCAACCTCTCTGCCTGGCTTAAACAACAGGATGGACAAGAAAAGGCTTTGCAAACCATAAAGCA
AGATGCAAAATGAAAGGAATTAATATTGTTCTATTTTTTCATCATACAGAGGAGGTTACATGCAGAGTTGGAATACTCTCAGTGGAAAACAAGTAACAAT
AGAATTTAGGTACTTCAAATAAAAGTTTTGACTTCAACCAAAGAGATTCAAGTATGATTTAGAAAATATTAAGACCTCGTTTTGCTTTAGCAGTCTGTTA
GTCCACACAGGTTTCACTCCAGTTTGGACTGATCTTCTGAATTTATTTTTTAAATCTTTGATTTGATTTACAAATGAATAAAATAMAATGATTTGGGCTT
CTAAACCCATAATATGTTATACTGTGGTTAATCAAGAATGTCCTATTCTCCATTAGTAGAACATTAACTTCTCTGGGGCTAGCTCTGTTAGACAACTACT
ACTAACAGCCTCCAGTGCTGGAGGACCAACTGGTAAGGGATCTGGGTAGAAGACACCTATGTTTTTGAGTATCAGTGACCTAGGTGGTTCGTAAGTTCCC
CTCGGCCATGGATGACCAAGGACCATCAAACTATTGAGAACCCCTGTGTTACCTCCTCCTCCCTCTGAGTCTCAGCTAGGACTTATACTGACCTCGGTGA
AGTCGGCTGTTGTCCATTGCAGGGAGGGTGTTGCGTCTGGGGATGGTGGCAGCGACAGATCTGCTATTTTCACTGATTGGCGGTCTCTGCTGAGGACTGC
CCCATCGAGGTGTTTCTGCCTGACTTGGCTTGGGGGGGCGGGGTGGGGGAGCTATGGCTGAGTCCCCAGGAGTGGCCACTGTCATGGCATTGTGGTTTTT
GTCCAGAGTGAATGTCCTAGGGATCTGGTAGGCTGAGAGTGGGGTGGCCGGAACATCCATATTGTCTACCAGGAGGTCCCCRAACTCCCTGCACAGGGTG
TTGCTGGGCGTCTTGAAGGTGTACACATCCTCATTATCTGTCTCGGAGCCTGTGAGGCTGCCCTTGGTGTGGCCATGGGAGGCCAGGCTGCGGGGGAGGT
CGTAGGTACTGTCTCTGAATTCTGTATTGTGCCGGCTCGGCTTGGGAAGGCTATAGAAGCCATGGACTTGACCACTGATCCCGTTGACACAGTGTCCATT
GCCCTGGGCAAGTTTTTGTACAGCTGTGTCACTCCTCATGAGAAAAGAGGCTCTGGTGCCCTGAGAGAAGCTGGCACTCCTAAAAGAGAAAGAAGGGAAA
GGGCAGGAGGGTGAGACAATTACTAGCTGTGTGACCTTGAGGCAAAGCACTTTCTCTTTCTATACTTTGGTTTAGGCATCTGTAAAATGGTGACTAAAAG
CATATTTTGAAGGTTGTTCAGACTCTAGTATATGAATGTTTAAACAATGTTAGACTTCATCCGTCCCCCATCTCCAAATGGCAGTTAATAGCAGGGGTTA
TAACCCCCACTCCCTGAACAAGTATCAATAAGCCAGATGGATTGCCTATTTGTTCACTGTTTTAAGTACCGCAGAATATGCACATTCGAACACAAATGTT
GTGAGACAGTGGAAAGAACCTTTAAGTTGATGACAGGAAACAGCAAACAAGTCATTTTACCTCTCTGAGTCTATTCTGCCACTGTGAAACTAGCCCATGG
GTATTGATGTTGTAAGTTGAAAAGAATTATTTGGGTCAGGTGCAGTGTGCAGTGGCTCATGACTGTAATCCCTGCACTTTGGGAGGCTGAGGTGGGAGGT
TCACTTGAGGCCAGGAGTTCAAGACCAGCCTGGGAACACAATAAGACTCCATTGCCACCAAAAAAAAAAAAAAAAGAACTAGCTGGGCAGGGTGCTGCAC
ACCTGTAGTCCTAGCTTCTGGTGAGGCTAAGGGAGGAGGATCGCTTGAACCCAGAAGTTCGAAGTTAGAGTGAGCTATGATCGCACCACTGCATTCCAGT
CTAGTAAACAGAATGAGACCCTGTTTCAAAAAAACACACGCCCCAACACAAACAAACAACAAACTATTCAAACGTAAGCTCTAGATTTATTTTCTACCAT
GATTTATGGTTGGTTAAGAGGCATTTTGAGGGGAAAGATCTCTTTCCAGAGACCTAGAAATCTATATGAAGAATGGTTTCCTGTTTGGGAACTATATATA
GAAAAAGTTTTGATTAGTACATTTTTAAATTTAGGTTTTGGGCAATAAGGCAAGCAGTAAAAAGAGAAGAGAAACAAGAGGGGAGACTTGTGTTAGGTTC
CAGTACTGCTACTGATACGTGCTGTGTGTATCACCAAGCCTCCTCTCTCAGGTGGGACCTAGTACGTCACAATGATTTCTAAGGGCCCATCTGGCCCCGA
TGCTCTACAAGCCCTTCGTTTCACAAGAGTGGTTTTCAAACTAGATTCCAGGTTCTCTGTAAGTGCTTTGGGAAATTGGAGGGTGAGGTTCTGAGCAAGC
AGGGATTTAGGTCTGCTTCTTTAGCTTGTGTATGATTCTTCATAGGATTTCACTTGGGGAAAAAAAGAATCAATCCTTTGTAGCAGGGATTCTAAGCCTT
TTGGAGGCTATAGGAGTTTTTAAGATTCTGGTCAAAAGCTCTTGGAGTGTCTCATCAGAAAAGGCAAATCTCGTATACATATAAACTTGTTGGGGCTGTA
ATACATAATAGCCCTCTGAGGCCAATCCCTGGACCTTTTGCCTTATAGAAGCTCTCTCAGCTCCTGAGGAGTTTGTTATTTACAGATGTGGCCACCAGAT
GGTGTTAGAAAATAGGGGCCAGAGCTTAGAAAGAGGAAACAGGTGTGTAAAGCCAGGCTTCCTCTCATGTAAACTGTACCCACCATGATGGCTAGGAATT
CCAGGTCAGTCTCCAAACCTTCACTGATGCTCCTCCTTGGGCCTCTGCACTCCTCCTCCCTTTCTGTTCCATTCCAGACACATAACCAAGCCAACAGCCA
TGGGCTTGGATGATTGAACATCTAGGCTTTAGATAATGTAGTGCTTAGGGAAGAGGACGGGGGTGGCGGGGGGAGCGAATGGTAGACATAAGGTGTTAAT
GTTGTATGCATTTTTTTGGTGCCTTTCATTTTGCTTTTTTTGGAATTTCCAACTCTCTGTTGGATGCTCCCATCTGGATTTGTTCATTTTACATTTACTG
ATGTCCTAATTTCCATCTGGGCCAGGCAAAAGGGATACAGAGATGCCACCTGCCCAGTGAGGGGTGGTCTGGGAATGTCACAGTAGGGCAGGAGATGACA
TGGATGCAAATCATTACAGTCAAGTAGGGGTGAGTATGTAGCTGCTGACAGTTGGTATCAGCCCTTGCTGGGGGTGGTGGTAGACAATGTCAGGGAAGCC
TCCTTCAGAGATGTTTTATCTTGAGTGAGTCTGGAAGGATGAGCCACAACTGGCCAGGCAGAAGGCAGGAGAAGGGAAATGGTGTTCTAGTTGAAGGCTC
AAAGATGTAGAACACAACCTGGCAAGTTCTAGAAACTCGAAGCTGCTCAGGCTGCAGCAAGCACATTAGAAGGCAGGGCTGAGAGAAGACACTGGAGGCC
AGGCCAGGACTAAAGGGAACGGGGAGCCTCTGAAGGATTTCAAGGTGGGGATGGGGTTGCAAGAGCATCACAGGCACCCTGCAATAACCTTCAACATACT
CAAGAATGAACTCATCATCTTCCTCTGGAACTCTTCTCCTCCTGCCTCTCTTATTTTGGGAATGGCAACAGTTACTCAAGCCAGAAACCTGGGAGTCACC
CACATTATGATTTCTGCCCAGGGCCTCTCTGATCCTTCCATCCTACTAATATTTACTTTCCTAACTTCCCAGTGTAAACATTTTCAACACCGCCTCAATG
CTTCAGGATTAAGCCCAAACTCCTAGGTTTATCCCAACTCATCTCACCAATCTTTTCTCTTTAGTTCCCTTTTCCACTCTAGGATCCAAACCAAACTTTG
CAGTGTTCCCTGTGTGCCCCAGTTAGTCAAGCATTGGGCTTTGCTGCATTGTTGGGCTGTGTCTGGAAGGCTTCTTACCTCAATCTGGCAAGTTCCTACT
CCATTTATCCTTCAAACTCATCTCAGAAGACACATTTTTTAAGGCCATTCTTACATCCTCTACCTCTAAGCATTGCTTAACTTAATCACTTGCTTAACTT
TGTTCTTGGAGCAGGTAGCAAGTGTTACCTATATTAGGCACCATTACTACTTATCTCTGCCAACAGACTGTGATTTCCTTGAGGAAAGAAACTGTGTCTT
ACTCATTTTTCTCTCCTTAGCACCTAGGTTAATGCTTGTTGCATTATAAATAATGAATAAACGTTTGTTGTAAGTAAGCAAATGAATAAACAAACGTATG
TTGCTGCTATCCCTTTTCCTGGGCTTGGCCCAAACCTTCTGATCAGCAGATCAAAGCCCTTCCTCTGTAGAACCCACTAGCTTACGTTCCAACTTCCCTC
TACCCCGGCATCCTCCTGTCTCGCTCACAGAACTACTCACTCATCCCTAAACATGTCCTGTGTAGTCTAAACTTCAGCCCTGGTCTTGCATTACTCACCT
CCCTGTGGAACGCTTCCTTGATACATCAACACCTTACACAAAGTCCACAAGAAGCCTTTTCACTCTACAAAGGTATTACAGGTCCCTAATTCTCCTTTTT
ATGGTAATCATTCCTTCCTCTGTGCTACCACAGCACTCTGTGCTTCCATCGCAACACTCACCTTATTCTGCCTTATGTCAGTTATTCAGGTCTGTGTCTT
TCCACTTCTACCAGACCATGTGCTCCTAGAAGGCAGAGGGCCATATCCTGTACCCTGGCATAGTGCCAGGCATATGATAGATAATAGTGACACATGTTGA
GGGAGACTGATTATCACCTCAGTAACCAAGTAAGAGGAGTTGAACAAGGGACTCTTGCCCAAAGTTACATACTCAGAGGGCAGGGAATTTGTTCTAGCAG
CCAGGTCTCTGGGTGCCCCCACTGCGCAAACCATGCTAAAATGTGGTCCCTTTGGGCAATAATCTAGATGGGGAATTCCAAATACTCAGCAGTCTTATGG
CCTTTAGTATTTTCATGTAAACCTTAACTGAGGCCTGTGTCACTGTGATGACCTGAGTTGCTTTTGTGGGATGGATAATCCACCTGGAAGTGGTGGATTT
GGAGAGAGGCTTCTCTTCCAGGGCTGGGCTTACAGAAGCCTTATAAAATAGGCAAGATACTATGCCATACATATCACATGTGATCTCATTTTAAATCCTC
CTAATAGTTCTGAGACACACCTCTTACTTTCACATTATCAGATGAGGAAAACAGTAAATGGCAGAGTTGGAGCAGGAAGATACTCAAACACAAGCACGTA
TGGGAGCTCCCCAGAATCAAAAAGAAGTTTGAGAGAAGATATTCCCTCAAGCCAGCAGTGCCAAGTGCCTTCCCTTTCCATTCCTGGCCAATGGCTCTTC
CAGAGGCTATAGAGGCTATTGCCACCATACAGTCTCTCCCTTGGTGCGCGCGCGCGCGTGTGTGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTCGGAGTCTCATTCTGTCTCCCAGGCTGGAGTGCAGTGATGCAATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAAGCGATTCTCCTGCCTCAG
CACCCTGAGTAGCTGTGATTACAGGAGCGTACCACTGCACCTGGCTAATTTTTGTATATTTAGTAGAGACGGGGTTTCATCATATCGGCCATGCTGGTCT
CGAACTCCTGACCTCGTGGTCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCGGCCTTCCCTTGGCTTTTAAAAATG
GTTTTCTAGTTTTTCTAGCCACTTCATTTTGTACTTGTTCTTCCACACATTTTCATATAATTTTATATACCATACTATATGATGATTTTGCTTTTTTCTA
TCCCACTGGACTCCAAGAACCCTAATGATGAAGGACTCACTTTGATTTTCAATGAGTATGTTCCCATTTAAGGGTGACTTAATATAAAATGCTTGTAAGT
AGATTAAACACCATTTAGAGTTCTGTAACTGTCACTGGCCATGTTTAAGAGGTCATTTGAACTATCCTCTTGCATTTGACCCATTCCAAATGGATCCTTC
CTGTGAAAGAAGAAAACTCTGTGTCACAAATCTTTATGAGATGAGGCAATCTTTGTATCTCAAACCCTTCTGGCTGCAGTTCTGAGCCAATTTTGGCAGG
ACTCTGGTTACAGAGCAAAGCTGTATATGTGAAACTAAAAGTTGTATATTTTGCCTTTGGTCAGTCAATCAAAGCCTCTGGTGAATGAGTCAGGGAAGAC
TTAGAAAAG


SNP Information

Context             (SEQ ID NO:28408):
TAGATGTAGCTCCAGTGTTAGCATCTGCAGAGAAGCTGTCCTTGACTACTCTACCCTCATCTATGCACCTCTCCTTTGACTCCTACACCACTCACCTGTC
S
TGCTCACCCCAGCCATCACTTCTCTGAACACCACAGTAACAATACTTGTCCTGATTTATATGTGTTGGTTTTATTTTCCCAATGAGATGTAAGCTCTGAA
Celera SNP ID:            hCV26530864
SNP Position Genomic:     7614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:28409):
GTAACAATACTTGTCCTGATTTATATGTGTTGGTTTTATTTTCCCAATGAGATGTAAGCTCTGAAGGGCAGGAACATGTTTTATGTATGTCTTTATCATC
W
CAGTTCCAAAACGGAGTATGACTGCTCAAATTGTCGATGGATTGAAAGACGGCAAAGAGGTCTAAACTAGGAGCTGGGACTCTAGGGTCTGAGTCTCATC
Celera SNP ID:            hCV966436
SNP Position Genomic:     7750
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28410):
CTGCAGAGAAGCTGTCCTTGACTACTCTACCCTCATCTATGCACCTCTCCTTTGACTCCTACACCACTCACCTGTCCTGCTCACCCCAGCCATCACTTCT
S
TGAACACCACAGTAACAATACTTGTCCTGATTTATATGTGTTGGTTTTATTTTCCCAATGAGATGTAAGCTCTGAAGGGCAGGAACATGTTTTATGTATG
Celera SNP ID:            hCV26530865
SNP Position Genomic:     7638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28411):
CCCAGCCATCACTTCTCTGAACACCACAGTAACAATACTTGTCCTGATTTATATGTGTTGGTTTTATTTTCCCAATGAGATGTAAGCTCTGAAGGGCAGG
M
ACATGTTTTATGTATGTCTTTATCATCTCAGTTCCAAAACGGAGTATGACTGCTCAAATTGTCGATGGATTGAAAGACGGCAAAGAGGTCTAAACTAGGA
Celera SNP ID:            hCV966437
SNP Position Genomic:     7722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28412):
TCCTGCTCACCCCAGCCATCACTTCTCTGAACACCACAGTAACAATACTTGTCCTGATTTATATGTGTTGGTTTTATTTTCCCAATGAGATGTAAGCTCT
R
AAGGGCAGGAACATGTTTTATGTATGTCTTTATCATCTCAGTTCCAAAACGGAGTATGACTGCTCAAATTGTCGATGGATTGAAAGACGGCAAAGAGGTC
Celera SNP ID:            hCV966438
SNP Position Genomic:     7712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28413):
AACACATCACTCCTCAGTTCAAAAATTCCTCCTGGGCTTCTAGATGTAGCTCCAGTGTTAGCATCTGCAGAGAAGCTGTCCTTGACTACTCTACCCTCAT
M
TATGCACCTCTCCTTTGACTCCTACACCACTCACCTGTCCTGCTCACCCCAGCCATCACTTCTCTGAACACCACAGTAACAATACTTGTCCTGATTTATA
Celera SNP ID:            hCV966439
SNP Position Genomic:     7574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:28414):
TCTTGCACGTGTCCCTCCTTCACTTTCTGCTCCACCCTGCACCCCCAAGGATTGCGTTGGGCACCCCCCAACTCCCAGGCCCTTTGGATGTATTTCCCCA
S
TTGCTACATGGCCTTCACCACTGCTTCACATCTGTCTGCTACCTCTGTGCCCGACTTCCACTGCACTGCTCACTGCAAAGAAACTCACTTCCCGACCCCA
Celera SNP ID:            hCV966448
SNP Position Genomic:     228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:28415):
GGTCGCCCAGCTTGGTCCAAGCCTTCCCCTGTATGCTGCTTTCAAGGTGGGGCTGGCGGGGGCCTCTGAGGGGACTGGGGAAGAGGACTAGCCCTTGGGC
M
TAGAGTGGCCTGTAGCTCCAGAGTTCTGGGGACCCAGACCCCACAGTGTCCTTGTCATCTCCACCACCCGAGCTCCAAGCCCTGCTCCTTGCTGCTCTAG
Celera SNP ID:            hCV26530805
SNP Position Genomic:     575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:28416):
TTTAGCAGTCTGTTAGTCCACACAGGTTTCACTCCAGTTTGGACTGATCTTCTGAATTTATTTTTTAAATCTTTGATTTGATTTACAAATGAATAAAATA
M
AATGATTTGGGCTTCTAAACCCATAATATGTTATACTGTGGTTAATCAAGAATGTCCTATTCTCCATTAGTAGAACATTAACTTCTCTGGGGCTAGCTCT
Celera SNP ID:            hCV29155690
SNP Position Genomic:     8286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28417):
CCAGACTAGAATACTTATATCTTACTTGTCCAAAGACTCAACGCAGGGTTCTGAACTGAGACAAGAACTTGGGCAGGGTCCTAAGATGGAGACGCCATCA
M
TCTTTTGGGGTTGTGCTTTTAATTCCATAAGGTGTGACCTTTTACCTAACCAGGCCGGCCTGAGGACCCTTGGGTTAACCCACACTCACCAGGAAAGAGC
Celera SNP ID:            hCV26530860
SNP Position Genomic:     7146
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)   JBIC-allele(C,666|A,815)   total(A,815|C,666)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28418):
CTTTTGGGGTTGTGCTTTTAATTCCATAAGGTGTGACCTTTTACCTAACCAGGCCGGCCTGAGGACCCTTGGGTTAACCCACACTCACCAGGAAAGAGCC
R
ACTCCATCACTCATGGATTCAGCAGACCGGCCTGCACTCTCTCCACCACGCTGTGGGTACTCGTAGGTCTCACAGGAAGAAGCTGACAGAGGAAGGAGGA
Celera SNP ID:            hCV26530861
SNP Position Genomic:     7248
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   (G,-|A,-)   JBIC-allele(G,691|A,800)   total(G,691|A,800)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;UTR 5


Context             (SEQ ID NO:28419):
TCATGGCATTGTGGTTTTTGTCCAGAGTGAATGTCCTAGGGATCTGGTAGGCTGAGAGTGGGGTGGCCGGAACATCCATATTGTCTACCAGGAGGTCCCC
R
AACTCCCTGCACAGGGTGTTGCTGGGCGTCTTGAAGGTGTACACATCCTCATTATCTGTCTCGGAGCCTGTGAGGCTGCCCTTGGTGTGGCCATGGGAGG
Celera SNP ID:            hCV26530870
SNP Position Genomic:     8882
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;JBIC-allele(A,676|G,801)   total(G,801|A,676)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:28420):
ATGTATGTCTTTATCATCTCAGTTCCAAAACGGAGTATGACTGCTCAAATTGTCGATGGATTGAAAGACGGCAAAGAGGTCTAAACTAGGAGCTGGGACT
M
TAGGGTCTGAGTCTCATCTCTGGCACAATGACTCTGCAACTCTATTTAAGTCTCTTAACTGTCATTGGCCTCATGTGAGATGGAGACAAGGAGGTTTTGT
Celera SNP ID:            hCV966435
SNP Position Genomic:     7832
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28421):
GCTTCTAGATGTAGCTCCAGTGTTAGCATCTGCAGAGAAGCTGTCCTTGACTACTCTACCCTCATCTATGCACCTCTCCTTTGACTCCTACACCACTCAC
S
TGTCCTGCTCACCCCAGCCATCACTTCTCTGAACACCACAGTAACAATACTTGTCCTGATTTATATGTGTTGGTTTTATTTTCCCAATGAGATGTAAGCT
Celera SNP ID:            hCV26530863
SNP Position Genomic:     7609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Gene Number:                 113
Celera Gene:                 hCG20199 - 64000127155801
Gene Symbol:                 TEGT
Protein Name:                testis enhanced gene transcript (BAX inhibitor 1);BI-1
Celera Genomic Axis:         GA_x5YUV32VTSP(12468636..12506563)
Chromosome:                  Chr12
OMIM number:                 600748
OMIM Information:            TESTIS ENHANCED GENE TRANSCRIPT;TEGT


Genomic Sequence (SEQ ID NO:12273):
AGGTCAGGCAGTTGGCTCATGCCTGTAATCCCGGCACTTTGGCAGGCCGAGGTGGGTGGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCTACTT
GGTGAAACCCTGTCTCTACCAAAAAAAAAAAAAAAAAAATTAGCCAGGCGTGGTGGTGTGCGTCTGTAGTCCCAGCTACTAAGGAGGCTATGGTGGGAGA
ATCACTTGAACCAGGAGGTGGAGGTTGCAGCGAGCCAAGATCGTGCCACTGCACTCCAACCTGGGTGACAGAACGAGACCCTGTCTCAGAAAAAAAAAAA
AAGAGTGGATATATGCTCCGTGGAGCCTGAAACATATACAATTGTGGGGCTCTAAAATTATGTAATAAATTCAATATTTATTTAGAGTAAATAAACTTAT
GTAATAAAGAATTAAATGATGTCATAAAGTCAGTATTTAAAATGAGAAGAATCATTGTAGATTTTGAAATACTGACAAAAACCACAGACATCACAAAGTC
CAGAAAAATAATATTAATAACTGCCCAGCAACCGCTATAAGTCTTCACCCATCTTGCATTTTTTAGTTGCATACTCTTTGCAACTAAATGACCATTTTAT
AGAGATGTTAGAAAGATAAATTAGTCAAAAATAGATTTTAAATAATTGATAGTCTCTAAACTTTGTATTATCAGCTTTCCAACTCCTTGCTATAATGTCT
TGCACGGGTGATGCTTCTCGCTGAGGAAAAGCCCTGGGGAGAATTCCAGCCCTTTGATCTCCCTTGGCTTGGTCTCCAAAGGGGCTTCTAAGACAGCTCC
ATCTGGTGGTCACTGCCCTCGTCCCTAGCCCACCGACCCTAGTCCACCCTCAACTGACACTTGGCCTGAGAGAATGACCTCCATGCTGGGGTCCAAGTGT
CCGATGAAGGGCTGGTAATACTTTTTTTTTCCATTCTGATGGAATGAGGTTCAGAGTAAATATTAGGTTGTACAAATAAGGGAGGAGACCACCCCTCATA
TTGTCTTACGCCCAATTTTTGCCTCCAAAGAAAGAAGAAGTAAAAACTAAAAGGCAGGAATGAAGTCCACAAGCAGACAGCCTGGCACCACACTCTGGGC
CTGGTAGTTAAAGATCAACCCCTGACCTAATCGGTTATGTTTTCTATAGATTACAGACATTGTATAGAAAAGCACTGTGAAAATCCCTGTCCTGTTCTGT
TCTGATCTAATTACCAATGCATGCAGACCCCAGTCACGTACCCACTGCTTGCTCAATCGATCACAACCCTCTCAAGTGGACCCCCTTAGAGTTGTGAGCC
CTTAAAAGGGAAAGGAATTGCTCACTAGGGGAGCTCGGCTCTTGAGACAGGAGTCTTGCCAATGCTCCTGGCTGAATAAACTGCTTCCTTCTTTAACTCG
GTGTCTGAGGGGTTTTGTCTGCAGCTTGTCCTGCTACATTTCTTGGTTACCTGATCGGGAAGCAAGGTGATTGGCAGATGGTCGAGACAGCTCCTTAGGC
GGCTTAAGCCTGCCCTGTGGAACATCCCTGTGGGGGACTTCGACCAGCCCAAGTGACGCAGATTCTGAGAGCGCTCCTGGGTAGGCATTTGCCCAGGCGG
GATGCCTCGCCAGAGCAGTGTGTGGCAGGCCCCTGTGGAGGATCAATGCAGTGGCTGAACACCAGGAAAGAACTGGTACTTAGAGTGTGGACATCTGAAA
CTTGGTAAGACTAGTCTTTGGAACTTGCCTACTCCATTTGAGTGGAAGCGTGGCCTGATCACCGACGGCATGCTTTTAATGGCACTTTGGTTTGGTTTTG
GTTTTGGTTTTGACTTGGTTTGAATTGCTTGACAAGACCGGTCTTAGGAACTTTCCCACTCCATTTGAGTGGAAGCGTGGCCTGATCACCCACGACGTGC
CTTTATCGGCACTTTGGTTTTGGTTTTGACTTGGTTTGAATTGCTTGACAGGACTGGTCTTGGGAACTTGCCTACTCCATTTGGGTGGAAGCGTGGCCTG
ATCACCCACGGTGTGCCTGTACCGGCACTTTGGTTTTTGTTTTTGACTTGATTTGGATTGCTTGATACTTTGGTTTTGGTTTTGACCTGGCTTGGATTTC
TTGATACTCTGATTTTGGTTTTGATTTTGGTTTGGTGTAAACTGCAAAAGTGTGTGTGTGCCCTTTTTACCTGTTCTTTGTTTTGTGGTGTGCGTGTGGT
GTGAGCATGGTGTTTTGTCTCAAAGAAGCATGGGTCAGGCACAAAGTAAGCCCACCCCACTAGGAACTATGTTGAAAAATTTCAAGAAATTTAAGGGAGA
CTATGGAGTACTATGACACCAGGAAAACTTAAAACTTTGTGGAAGATAGACTGGCCAGCATTAGAGGTGGGTTGGCCATCAGAAGGAAGCCTGGACAGGT
CCCTTGTTTCAAAGGTATGGCACAAGGTAACCTATAAGCCAAAGCACCCAGACCAGTTCCCATACATAGACACTTGGTTACAGCTGGTTTTAGATCCCCG
ACAGTGATTGATAGAACGGCAGCATAAGTGGCTGGCAGAGGCAAGGAAAGACCAGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGGC
AGAGAGAGAGAAAGAGACAGAGGCAAAAGAAAAGTCAAAGAGAAAAAGAGACAGAAAATCAAAGAAAGAGAGATATACAAGTAGTTAAAAGAAAAGTGTA
CCCTATTCCTTTAAAAGCCAAGGTAAATTTAAAACCTGTAATTGATAATTGAAGGTATTCTCCGTAACCCTATAACACTCCAATACCACTTTGTTGACAG
TGTAAACAAGGGCGTATCTTGAAAGCACTGAGGCCTTCCTATCAAAAATCCTTAACCCAGTAACCCGTGGATGGCCCAAATGCATTCAATCTGTAGCGGC
AACTGCTTTGCTAACAGAAAAAAGTAAAAAAAAACTTACAGGAAACCTCATTCTGAGCACACCTCACCAGTTCAGAAGCATCCTAAGGAATAAAAGGGGG
GGGGGGGGCGGAATTTATGTAAAAAGAGTATTATATGGTAAATTTTTGTCCTGAATTAAATTAACTGGTTGTTTAAAGAAAGAAATATTTGTAATAAGTC
AGAAAGTTGAAGCATGTCAAAGAATTGTCTGCAAAAGTTGTGAAAGAGAAAAATGTTATTAAAAAAAGAATTTATGCAAGAAATTTTGTATAATTTAAAA
GTAACTAGGCCTCCTGAATGTAAACAACAAACAAACAACAGTTTATGTGCAAGGTGTATAAGGAAAGTAAAATATACCTGTGGTAAAAGAATTATAAGGA
GGCATGAGAATATAAATTTTTACCTACATTAAAAGGCTAAAAATATGTATATTTTGTTTTAAAGGTTTAATCAAGTTTTAAAGTGTTAATTGGAAAGAAA
ATTCTGTGTGTAAACATTGGCTAAAGTTAAAGCAGTATCATCCAGTTTTTCTGTAAACTGGACATTAAAATAAAACCATAGCAGGTTTTTCTTAAAGCAC
CAACCTGCTCTTTAGCAAAAATTATAAAAAGTTAAAAAGAGTCTATAAAATCTTACCTTGTGGTCTAACATTAAAAATTGCATAAATATGTCTACAAGGT
TTTGTTAAAATTAGGTTTAATATTAATAACACACTAATATAAAAGTAAAATTTAGCTTATCTGGTGTAAAAATCATAGAAAAAGCATTGTTAAATGTAAA
ATGGTATTTGGCTTTCTTTGGTTTAAAAACTAATAAAAATAGGTGCTAAAGAAAATTTCTCAGTAAAAAGGCACTAAGGACTAAGTCCACTGCCAAGGTC
CCCACATTTAAAACAAAAGGTCAATTTCTTAAAAATTATATACTTGGTTTATCTTCCACTTTCCTTTCCCTCAAAAACTAAAAGTCTTTTAGCACATGTA
CCACCCCTAGAATTTCCGGTAAACCAGCACCAGCCTGAAGATCACGTTCTCATCAAAGGGTGGAAAGAAGAAAAACTCGAGCCAGCCTGGGAAGGACCCT
ACCTTGTGCTGCTAACCACCGAGACTGTTGTTTGTACAGTGGAAAGGGGATGGACTCACCACACCCAAGTCAAGAACCCCCTCCAGAGTCGTGGGCCATA
GTCCCAGGGGAAAACCTTACCAAACTAAAGCTAAGAAAAATTTAACTTTTTCATCTATTCTATTACTCTTCCTTCTTTCCTCGCTCTATTGCTAACCGTC
TAGTTATTAACATTACCAAGTCAATTTTGCCTCAAACTATTGCATTTAATGCTTGCCTTGTTATACCCTGTGGGGACTTGCCAAGTCAAAGACAGCTCTT
TACTTCAGAAAAGTACTTCTGTCCCTTCTGACTCTCCTCAGATTGGGCATTAGTAAATTAGGACCATTTAATCTGGGGAAATTTCGATAAAGATTCCAGT
GTCAACCAGGAGTCTTGCCCCACAATGTAGAGCTTTTATGCTGTAGTTGGTCCAACATTCTATGGACCACTAAAGAGCAAGGATGGACTGCCCTAACTGG
TTTTTGTAATTTCCTAAAATCATACATTCATTTTACTAGAGGATCATAGAAGTTAAAGACTTAAAACAAACTTTAGCAGTTAAGACAGGATACCAAGATG
CAAATGCCTGGTTAAAATGAATCAAATATTCCATCTGCACATTAAACAAAAGCAATTGTTATGCTTGTGCACATGGCAGGCCAGAGGCCCAGATTGTCCC
CCTTCCACTAAGGTGGTCCTCCAGTTGACCAGGCATAGGTCTGCATGGTAGCTCTTTTCCAGGATTCTACAGCCTGGAGTAATAAGTCATGCCAAGCTCT
CTCTGCTATATCCCGAAGTCCGGCACCCTGCGGGTCAGCCCCCAAGGGCTATCCAGCTTCCGTCTCTCAACACTAAGTTCACTTCATGTCTCCCTGGCAT
TCCTTGGAGACCTGAAAGGATGCAATGAGCTTAAGAATTTTCAAGAGCTTATCCATCAGTCAGCCCTTGTTCATCCCCGAGTGGATGTGTGGTGGTATTG
TGGTGGACCTTTACTGAGCACTCTGCCGAATAACTGGAGTGGCACTTGTGCTTTGGTCCATTTGGCTATCCCTTTCACCCTGGCATTTCATCAACCAGAG
GGAGAAAAAAATAAGACATCGTAAAGTGAGAGAAGCCCCTTATTGGTCTTCCGACTCTCACGTCCATTTAGACACAATTGGAGTCCCACAGGGAATACCA
GATCAATTTAAAGCTTGGAATCAAATAGCGGCAGGATTTGAGTCAATATTTTGGTAGGTGACAGTTAATAAAAATGTAGATTGGATAAACTATATTATAA
CCAACAGCAACAAGCTTTTCATGAGTTAAAACTCATGTCGGCCCCAGCCCTGGGGCTACCTGACCTGACAAAACCCTTTACACTCTATGTATCAGAAAAA
GAAAAAATGGCAGTTGGAGTTTTAACCCAGACTGTGGGGCCATGGCCAAGGCCAGTGGCCTATCTCTCAAAACAACTGGACGGGGTTTCCAAAGGCTGGC
CCCCATGTCTAAGGGCCCTGGCAGCAATGGCCCTGTTAGCACAAGAAGCAGATAAACTAACCCTTAGGCAAAACCTGAATATAAAGGCCCCCCATGCTGT
GGTAACTTTGATGAATACCAGAGGACATCATTGGCTAACAAATGCTAGATTAACCAAGTACCAAAGCTTGCTATGTGAAAATCCCCGCATAACCATTGAA
GTTTACAACACCCTAAACCTTGCCACCTTGCTCCCAGTATCAGAGAGCCCAGTTGAACATAACTGTGTAGAGGTATTGGACTCAGTTTATTCTAGTGGGC
CGAACCTCCAAGACCATCCTTGAACATCAGTAGACTGTGAGCTGTACATTGACAGGAGCAGCTTTGCCAACCCCTGCAAAGTGACTCTGAAAAAGACGAC
AAGCCCTGCTCCAGTCATATCCGGAAGCTGACTAATCCACACACGGCTGAAGCATGAGAAAACTCATCACGGGACTCATTTTCCTTAAAATTTGGACTTG
TACAGTAAGGACTTCAACTGACCTTCCTCAGACTGAGGACTGTTCCCAGTGTATACATCAAGTCACTGAGGTAGGACAAAAAGTTGCTACAGTCTTATTA
TTTTATGGTTATTATAGGTGTACCGGGACTCTAAAAAGAACTTGTTTGTATAATGCTATTCTATACAAGGTATGTAGCCCAGGAAATGACCAACCTGATG
TGTGTTATGACCCATCTGAGCCTCCCATGACCACAGTTTTTAAAATAAGATTAAGGACTGAGGACTGGTGGGGAGGACTCATAAATGATACGAGTAAAGT
GTTAGCCAAAACAAAAGAAAAAGGGGTGCCCAAACAAGTCACCTTGAAGTTTGATGCCTGTGCTGTCATTAATAGCAATAAGTTAGGAAGGGGATGTGGC
TCTTTTAGTTGGGAAAAAGGCTATATGACCGAAAATAAGTACATTTGTCATGAATGAGGACTGTGTGAAAATGAATGTGGATACTGGTCTTGTGTCATTT
AGGCCACTTGGATAAAAAATGAAAAGGATCCAGTCCACCTTCAGAAAGGAAAAAATGGCTCTTCCTGTACTAAGGGACAATGTAACCCCTTAGAGCTAGT
AATAACCAATCCCCTTGATCCTCGCTGGAAAAAAAGGGGAGCGTGTGACCTTAGGAATCGACAGGGCTGGACTGGATCGTCGAGTAAATATCTTAGTTCG
AGGAGAAGTCTGTGGAAAATTTAACCTTACCAATTGCTGCCTGCACATAGATGATCAGAGGCAAGTAGTCGAAGATATAGTTAAAGACATGACGAAACTG
GCACATGTGCCTGTACAAGTGTGACACGGATTTGACCCTGAAGCTATGTTTAAAAATGGTTCCCAGTGCTAGGAGGATTTAAAACTCTTATAATAAAAAT
TATAGTAGTAATAGCCTGCTTACTGATCCCTTATTTACTAYCTGTACTCATTCAAATGGTAAAAGGTTTCATCACTACTCTAGTTCACCAGAATGCTTCA
GCACAAGTGTACTACATAAATCACTATCGATCTGTCATGCAGGAAGACATAGGTAGTGAAGATGAAGGTGAGAACTCCCACTAATAAAATGAGTGAGAGT
CTCAAAGTGGGGGAATAAGGGAGGAGACCACCCCTCATATTGTCTTATGCCCAATTTCTGCCTCCAAAGAAAGAAGTAGTAAAAACTAAAAGGCAGAAAT
GAAATCCACAAGCAGACAGCCAGGCACCACACCCTGGGCCTCGTAGTTAAAGATCGACCCCTGACCTAATCGGTTATGTTATCTATAGATTACAGACATT
GTATAGAAAAGCACTGTGAAAATCCCTGTCCTGTTCTGATCTAATTACCGGTGCATGCTTGCTCAATCGATCACTACCCTCTCAAGCGGATCCCTTTAGA
GTTGTGAGGCCTTAAAAGGGACAGGAATTGCTCACTCAGGGAGCTCAGCTCTTGAGACAGGAGTCTTGGCCGATGCTCCTGGCGGAATAAACCGCTTCCT
GCTTTAACTCGGTGTCTGAGGGGTTTTGTCTGCGGCTTGTCCTGCTACACTACAGCAAAAATTAGGTTGTATTATAGAAAATTAACTTTTTTGGTTTTTT
TGAGACGGGGTCTCGCTCTGTCTCCCAGGCTGGAGTGCAGTGGCACCATCTCGGCTCACTGCAACCTTCACCTCCAGGGTCAAGCAATTCTCCTGCCTCA
GCCTCCCGAGTAGTTGGGATTACAGGCACACGCCACCACGCCCAGCTAATTTTTTAAATTTTTAATAGAGATGGGGTTTTACCATGTTAGCCAGGCTGGT
CTCAAACTCCTGGCCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGACGTAAGCCACCACGCCCAGCCGAAAATTAACTTCTATT
AATTGCATACCTGGGTTTGCCTACTGAGAATCATACCCTGGATATTTGTATTCTTTACTGAAAAGAACTGTTCTATCTTTCCAGAAAGTGGTTTCCTAAA
TTCTGGTTTTCCTCCTGGAATCCTGCTATTTCCTTCTCGCATACTCTAGAGAAATCGAAGTGTTTTCAAAGGTGCTCTGAAGCTTACGCTCCACTAGTTT
CACAGTAAATCGCCCCTTGCGAGGGCGCTTTTTTTTTTTTTTTAATGTGTTCTCTGAATCGCTTTCCCCCTTTAACACTGCATGACAAGACTAAAGCCAG
AATCCCAAGACTGCAGCGCTACCCCTTCACAAGCCGTCGGGCTGTCCCGGGCGGGGCCGGCCCATTTTCACTTTCTCCACTAGAGGCAGCAGCGCACCGT
GACCCTGGCTTACTACGGTAAGAAAGCGGAGACCTTTTGCTTCGAGGCGGTTGGTGGCCAGTAGTCTTGATCGACAAGCTCAGGCCTCTGAACTAAGCAG
CCGCTGTTTATGCACGTACAGCCAATGGAAAGGCAGGAGTGCGGCCAACGGCCAATGAGGACTGGTCTTAAGCGGACCACAGGGCGGGGTTTCCCTCGAG
AGGCGAACGCCGGGTAAAAGATCGGGAGCGGAAGTGGGCGAGTCAGAGCACATCCGGTGTTAGAAGCGCTGGTAGGCCTTGGAGAGGCGGGTTAGGAAGG
TACGTCTGAACCTAGTACTGGGCGAACTGGGAGTGAGAAATGGAAAGGGAGTTAGCAGTTACTGTCTGAGCAAGAGTGGCAGTAGCTTCCTTCTGCGGAC
AGATGGCACCCTGAAGGAACGAGGCCCTGCTCGGAGACCAGACTCGGGAAAACAGGGTGTGGAGGGAAGCTAGGGAACTAGTGCTGCGCGTGCGCAACAG
TGCTGAAGCGGGGGTGGGGCGGAGGCGAGTCTGCGGGGGTTTTGGGGGGTGTCGAGGCCTCTATTCTGCCCCAGAGCGCTGGCGAAGGCCCCTTCTCAGC
CCGCCTTTTCCTTTCTCCCGCTCCTTCTCCTCTACTAAGTGTAGACGCAGGGCCCCTTGGCCTAGCTTCGATCGTTCGAATTCAGAGCACGTCCTTCCGA
GGTGAAGGAACGCGAAACTCCACCCATCCGATTGCTGTTCGGCTGCGGGCGGGTCCTTTGGTCGGGCTGACCCTGGGTGAGCGGCCCGGAGCCAAGACTC
GAGGTAGGGCCTGGCGGGCGGGTGATGTCACACTCCTCTGTGACACGCGAGGCTCCTCAGTTACTTAGCCAACGGCAGAGGCGGGAAGTGAGAGGAGTCT
GGGGCTGGGGCTGCCTTCCAGGCCCACGGGGCGGCCCCGCTCTTTTCGGATTGGTTACCTTTGGGCAGGTGAGGTGGCTTTGCTTTGCTTGGTCTTGAGG
TTTTGTGGGCGTCTTTCTAAGTCTGCTCAGCAAGGGCGTCGTTGGGCAGTTTTTATCTTGGGCCTACTTGCTGGACCTGTGGTAACAAGTAGGCTTTGGT
ATCTTTGTATATTTACTGAGTGTAGAATTACTACCCGGTGCCAGCCCGGGCTGCTTGGGGTCATCAGCCTTTCATTGACCACCCCCACAACAAAAATCAC
TATGAACTTGAGACTGTGTTCTAGCAACTTGTGAATGTGTAACCCAGTAGAAGGGCTGACTGTGCTTGAAACAGACAAGGATTTTAAGGTCAAAGGTAAA
TAAATGGCAAATGGACTTTTCTAGTTACTTATTGATATTTATTTACAGTTTATCTTTTGTATGTGTGGTTTAAGAATTGAATTCTGGAAAGATACCGGAA
TTGCATAAACACATTTCTTATGACCTGCGTATACACACTTTTTTCTGTAATTATTGTATTTACACTCTTTGGTGTTTTCTTATTCTTTGTGTCTAATATT
TTTGTTCTGGCCTAAAGAATATGTTGACATTTAGATTCTCTGCCGCCACTTTCCTCCAGTAGGGACAGAATAGTTGAACCCTTGAGAAATACAATCTGTA
CTTTTGATCCATAGTTTGCTTCTTCCGTTATTTATCTGGTTGTGGAAACATGGTTTAGTACCTTCCTCCTCTTTTTTTTTTTTTTTTTTTTGAGGCAGAG
TCTCACTGTCGCCCAGGCTAGAGTGCAGTGGCGCAGTCATGGCTCACTTGAACCTTGACCTCTCCTGGCTTAGGTGATCCACCCCAGCCTCCTGAGTAGC
TAGGACCACAGGTGGACGTCACCAGCTCCAGCTAATTTTTGTATTTTTTGTGGAGATGGGGTATCACCATGTTGCCCAGGCTTACCAACTCCAGAACTCA
AGCGATTTATTTATTTATTATTATTATTATGTTTTTTTTTTGAGACAGTCTCACTCCCTTACCCAAGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGC
AACCTCCGCCTCCCTGGTGCATTCAATTCTCATGCCTCAGCCTCCTAAGCAGCTGAGATGACAGGCGCGCACCACCATGCCCAGCTAATTTTTGTATTTT
TAGTAGAGACGGGCTTTTGCCAAGTTGTCCAGCCTGGTCTCGAACTCCACACCTCAAGCGATTCGCCCGCCTTGACCTCCCAAAWTGCTAGGATTACAGG
TGTAATCCTTTCCTAAAGAAAAAGAGTCATCTCTCCTGAAGAATAAGAAAAGGTAAAATTAATCTAGATACTTAGCATTTTCAAGTTATTTTCCCTGATT
ATAGATATAGTTCGCGCTCTTTATACAAATGCTGAAAATGCAGAAAAATGTCATAGGAATCAATGTATGTTTTGGGAGGGTTTTTTTGTTTTAAAGATTT
GTTTTCACCTATGGCTGAAACTTTTGAAAGCTTATATAAATGAAAGCTTATTTTTCTACTGTAGGATGGAATAGTAAAAAGAGCACTAGACTATAGTGGT
CAGAAGACCCCAAATCTGGTTCTGGCTCTGCTATTTAACTTTCTAATGTTGGTCAAATCAATACTAATGTTTGTTTTAGTACTTTACGTTGATTTCACAC
AGATTTTCTTATTGGCATTCAGTAGAGCAGGTATTGATCATCATCGTTATCTTACAGATGAGGAAGCTGAAATAACCTTAGGTAAAATGATTTTTCCTAG
GTTATATAGTAGAAAGTGGCAGCACTTGTGACACCAAATCCTGTCCTCTTGCCACTATTACATTGCCTTTTTGAACTTAAAAAAGATGTATAAAATGGGC
CTAATCTTTCCCTTTCCTTGTGGGTTGATGTGTGAGGATTGAAGGTGATACATATATAAAAGCACCTTAAAAGTTATAAATTTTATATAAATATAGTCAG
GRGTATTAGTATAGAAGGTACTACTGCTGGCCTGACGAGTTTCATTTTATTTCGTAAACTGCCCAAGGGTATTAATTTTCTCTAGAGAAACCATTGAATA
TTCTGATGCTCTAACTTCTGATTTTTTTTCCTTTACTACTTTGACCTGGTTGTAGAATCTGGTAGAAATGTCTTCTACCACTCTGTTTTGTTCCCCCAGA
GTTTCTAACCAAACTGCATGCAGCCCTTCGTAGTTTTTATACACATTTTGTTTTCCAAAGATGGTGTTCGAGACCAAGGAGAGAAAGGCTGTCTCCTTGA
CTTAAAGGTTACCTAAGTGACCCCTTGAGGTAGGTTCCACTCTGAGCCAGCTGGGGAATGTTGATTTGAGGTTACAGCACTCTTGATCTGATAATAGGGT
CTAAATTTGCTCTAGAGACTTTGTAGTGCTTAAATCTTGGGGATAGCTGAGCTGAACCAGATGCAAGCTCTGCCCTCAGGGTGAGAAGTTTCTGCACAAT
TAACTGGAATCCAAAACACGTGAAAAAGGAGCTTCACCAGTGAGGGTGAAGTGGGTATGCTGTTTGTCTTAATTTATGTGTGCTCCCCATTTGGGCTAAA
TATGGTGTTATTAGGGAGGGATTACTGGTTTATACTGGAAGAAGATTATGTATTTAGGATTTTGGGGCCTTCTTAGGATTCAGTATCTGTCAAACGTTAT
AGAGAGGGAGATGAAGTAGTGTCAACGTTTGGTACAAAAAATAATTTACTGAAGGCAGTAGGCATTTCATCTCCAGTTACTGGTTTGGTTTTGAGGCAGC
CCCCTGGAGGAGATGGATTCAGTATTAGCTAATCCAGGGATTTGGGTCCAAGTTAAGGGAGAGGCGGGGACATCTAGGGTGTCCACCTGGGAAGATCAAA
GCTTGGTCCTAGTTGAATGAAACAATTCCTTGGATGGTTCCGAAACTGAACTGACCTACCTCCTGGGAGTGGCAGGGAAAGCATCAAGCTTTTGCGCATT
TACTTCATCAAATCCTTTACCATATCAGATTATCACTTAGTGGCTATTAGGCTGTCTCAAAATGTCCATGGCCCTGTGGGACAAGAGAGATAGTATAAAT
GTGCTAGAAGAAAGGTATGCCATTTAAACAAAAGTACAGACGGGCCCCAATTTATGATGATTGGACTTAATGATTTTTTACTTTATAATGATGCAAAAGT
GCTACCTGTTTGCTAGAAACTGTACTTCAGGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACTTGAGGT
CAGGAGTTTGAGACCAGCCTGGCCAACATGGCAAAACCCTGTATCTACTTAAAATACAAAAATTAGCTGGGCATGGTGGCACACACCTGTAATCCCAGCT
ACTTGGGAGGCTGAGGCATGATAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCAACAGAGCGA
GACTCTGTCTCAAAAAAAAAAACCCAGCACATTTAGAATTTCCATCTTTTCCCAGACTAGGGATATCTGGTATGATATTTTCACATGAGATATTTAACAC
TTTATTATAAAGTAGGCTTTGCGTTAGATAGTTTTGCCCAACTTCAGACTAATGTAAGCGTTCTGGGCACATTTAAGGTAAGGTAGGCTAGGCTTAAGCT
ATAATGTTTGGTAGGTTATATGTAGTAAGTGCATAAATTACGATACTTTCAGTTTACAATGGGATTATTGGGATGTAACTTCATTGTAAATCGAGCATCT
ATACTTTTACCAGTAATGAGATTTTTCAAGTGCCTTTATGTTTCAGTTTATAATTTTCTTTTCTCTCTTTTTTTTTTTTTCTTTTTTGAGACAGAGTCTC
ACTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCAAGTAG
CTGGGATTATAGGCGCCCACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCATTGTGTTGGCTGGGCTGGTCTCGAACTCCTGA
CCTCAAGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCTAAAACTAGACTTTTAAAAGAGAATAATCTACTGAAGATATTGTAGTAAT
GAGTACACCAGTAATAACAATGTTAGTACACCAGTAATAACAATGGTTACCATGTATTGAACTCATTCTATGTACAAAGAGCTATTTTAAGAACTTTATT
TGTATTATCTCACCTAATCTGCAACCTTAGGAAATAAGGATTGTTATGTACTAGTATTTTACACATGGTAGGTGAAACTGAAGTACAGTGAGGTTAAGTG
CCAGCAGCTTGCTGCATGTCCCACTGCTAAGGAAATAACTAGGATTCAGAAGTAGCAGGCAGTCTTAACCACTATGCAGGGGACATGGTTATACAGTGTA
TGAACATTACTCAGTAGTAAAAACTAATGAATGGAAAGCTTTCTTGGCCAAAAACACAGAAGAAGAAGAAGAAGAAGAAAAAAAACTACTGACAAATTAC
TAACAGTTCTTCCCCCTCCTTTTTTTGTTTTTGTTTTTTTGAGACAGAGTCTGGCTCTGTCACCCAGGCTGGAGTGCAGTAGCGCAATCTCGGCTCACTG
CAAACTCTGCCTCCTGGGTTCAAACGATTTTCCTTCCCTAGCCTCCTGAGTAGCTGGGATTACAGGCGCCCACCACCACATCTGGCTGATTTTTGTATTT
TTTTACTAGAGACTGGGTGTCACCATGTTGGCCAGGTTGGTCTCGATCTCGTGACCTCAGGTGATCCACCCACTTAGGCATCCCAAAGTGCTGGGATTAC
AGGCATGAGCCACCGTGCCCAGCCCTTTCCCCTCTTTTAAACTATATGGGATTTTTCTTCTAAGTATCAATTTGGTCCCTTCTAGATATGTGGGAACAAG
GTTCAGGATGGTTGAATTTATACAACAGGAAGAAAGAACCATGTAATTGACAAACTAATTTTTTTGTTTTAATTTTATAAAACGGTTTTGCTGTGTTGCC
CAGGCTGGGGTGCAGTGACACATTTTTGCTCTGTTACCAGGCTGGAGTGAAGCAACATGATGATGGCTCACTGCAGCCTGAAATTCCTGGGCTCAAGCAA
TTCTCCTTCCTCAGCCTCCCAAGTAGTTGGGACAACAGGCGCACACCACCACACCCAGCTAATTTTTTAATTGTTTGCAGAGATGAGGTTTTGCTGTGTT
GCCCAGGTTGGTCTGGAACTCCTGGGCTCAAGCGACCCTCCCACCTTGGCTTCCCAAAGTGCTGGGCTCACAGGTGTGAGACATTGTGCATGGCCTTTTT
CCTTTTTTGTTTTTTGGAAGTGAACATAACCTTGAGACTTTATTGTCTTCATAATAAAACATAAACTGATATTTAATTAAATGTGCGAACAGTGTTTCTT
TGACTTGCTGTTTTAATGTTGCTGTACACACTGAGGCAAAGTCTGTCTTGGCTCCAGCATTGCATAGAACGCATACTAAATCCACGATAGTTTTGTTTTG
CATAGCTTTTGGCTACTTCAGCATGTTTCATGTTCACTGTAGCTCCTAGGTGTGTGGGAATAGGACTGAAGAGAATGGTTGTGTTTTTTTTAATTTTTAA
ATTTTTTTTACACGTAGTCTCGCACTGTCACCCATGGTGGAGGGCAATGGCGTGATCTCAGTTCACTGCAACCTCCGCTTCCCTGGCTCAAGCGATTCTC
CTGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGTGCCCGCCATCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCA
GGCTGGTCTCCAACTCCTGACCTCATGATCTGCTTGCCTTTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCTGTTTTTTTTTT
GTTTTGTTTTGTTTTGTTTTTAATTTAAGGCTGGACCCTTGATAATAGTCTTTCATTTTAGGACAAGGGTAAGGGAGATACCTAGAACAAAACAAGGCAT
TTAACATGACCTAGATGTCCACTGCTAAGAATGCCTGTCTCCTCCTACCAGCCCCTGCTGTCCCTGTCTTCCCAAGCAAAAGCAGACCACAGGAATATCT
AACTCAAACAATTGTGTTTACTTGAGTTTTTTCTTGGGAGAGCTATGTATTAAGCTCTTAGCTTTTTGTTTTTGCATGGCTCTGGCAGAGGAGGCTGGTC
AGGGATACCACAGAATGATGACACTTCAGCAAAACTTTAGCAGTATGTGCATGACATGTTGACAGCTTCTGACAGGTTTTCCTCTCCTGGGATGAAGGCA
TAACAGGAGGCTCTGAATGAAATTAGAGGAATTTGGTTATGATTAACACCTGAACATTTACTTTTCAGTTACAAACGCAGTATAGGCAGATTTTCCACAA
CTCCAGGAGGCACTATCCACATTGTATTCTATGTAAATAACCCCTCCTCTTTATTTTAGAATTGAATTAGTAAGTAATAGGCTTAGAGGTGTGAAAGGAC
TGCTGTATTGAATTTTTTAGCAGCTTGTAATGTACTTTTTTTCTTTATTGTGGTAAACTATAACATTTTAATGTGTTTTTTTAAAACAAAGATTTTCATT
TAACTGTGGGCTCCTCTGGAATGTTAGCGAGTTACTTGGTTAATGGTACTGAATATAATACTTCAAGCTCTTAAGAGCTGATTGCTCCTAGAATGGAAAA
TACTTGATATGAGAGCTGCTATTTTTGAGTTAAGTGCAACTTAATCTTGTTTGGCTGAGTTTGCATATCGGCCATTGAAATGTAGGTATCTTTTCTGAGC
TTCGCTAGTTGAAGCTAAGATTGAAACTTGGTAAGTTTATTTTATCTGGCAAAACTTGTCAGAACAGTTTGATCTCATTACTTATCTGTATATTCTTGTC
TATTTGGAACAGCTCTAGAGCAAACTATCATATTTCTTTGATTCTAAGACCTATGTATTCCCTCTCACATTTTAACATTTCTGAAATTGTCATCTGTACA
TTGTGTCATATACATTAAATGTATACAGATGCTCCTCAAGACGGGGCTGCATCTGGAAAACCCCATCATAAGTTGAAAATACCGTAAGTTGAAAATGTAA
GTCCTTTTCTTTTTGTAAGTCATTTTTGTTTTTTTTTGAAACGGAGTCTCGCTGTGTTGCCCAAGCTGGAGTACAGTGGTGTGATCTCGGCTTACTGCAA
CCTCCACCTCCTGGATTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGGGCGTGCCTCTATGCCCAGATAATTTTTGTATTTTTT
GTAGAGACAGGGTTTCGCCGTGTTGGCCAGACTGGTCTCGAACTCCTGACGTCAAAGTGATCCACCTGCCTCGGCCTCCCAAAGTACTGGGATTACAGGC
GTGAGCCACTGTGCCCAACCTGTAAGTCATTTTTGAGTCAACGATATTTTTAATTTACAATGGGTGTATCCAGATGTAAGCCATCGCAAATCAAGGAGTG
TACCGAATGAGTATCAATTTCTCCCAGTGATAGGTCAACCCTGGTAAGTCAGGGACCATCTGCTTTACCAGGTTTCTTTTTTTTCTCCATAAAGCTAATA
AAATTGCTGTGCCCTTTTGCGTCTATAATATTTGGTAGTTACATGTTTTGTTTTAAATTTTGAAATACTGATATTGAAAAACAGAAGTTTTAGTTATTTT
TTAATGATTTCAAACCACAAGCTTCTATTAAATCAAAGTGAAATTGCCGTTTGACATCTCATCCCCCTGCCCCAACCCACACAGCCTTTGATGGTTTTGG
TTTTTCCATCAACAGTTGTTAAGAGAGAACCAGAAAGAGGCAGTCAGTACCCCCTGGGAAACGTCAGAGAAGTATCTGAGAAAGGGGAGTTTCTGCCATT
CTCCCCTCGAACAGATTCCGCCAAGCAGGGTCTGGTTACATGAGCATTGCCTCTTTCTTAGAATCCCCTGGGCGTTTGAGGATCCACCCCGCTCCATCCC
TTACCTTTCTTTAATTCTTGTAATTGGAAGCAAGAGGTTCTTTAGCATTGCTGTTGTGAATACTGAGAAACTTGGCTCTGAAAGTTGCTTCAGTATTATT
GTAAGTGCTGTCTAGGGATGTCATTAGGGGTGTTAATGGGAAACCTTAAACAAAGACACTTTCCAGGTGCTGAATTCTGCCATGCTGTAAGTGTGCTCTC
TAGAGGACATAGTCATATTCATCTTGGTTATGGAAGGCTGTGGTTGGCCTTGTAACAACCTGCAATAATTGCACCATCTAGATCAAGAGGGCCCAGATCC
GTGTGACTCAGAGGAGAGAGCAACAACCTTAGTAGGTTCTGCAGCTTCTCACTGTATCTGTCCTTAAGAACAGAATTAACAAAAGTTCTGAGGTGAGTAG
TGATGTTAATGAGAGAAGGAAAGAAGAAACCAGAGAAAGCAAGCCAGCCATTGTGATTGTTTCATTTGTGGGAGAGAGCCTCAGGAAGCAGATGATGTTT
ATATCTTTCCACTGGCCCAGGATTCCTTAGGAAATTTGTTTGGGGACTGTAACTTTTATTATTACCTAGATGAATTGTTCTGAGTGTTGGGCTGGGTGCT
GATTAGAGTGCTTCATTCAGTAGGTGGCGTTTCACACAACTTTATGTTTGAATCCCTTCCTCCCTGCCCCTCCTTTTCTGGTAGATTTAAAATGGATGGG
CATTATGGCCCTGATAGGAGTTTGGAGGATTTATATTTAGAAGAGATGAAAGTTCTTGACTGGATCTTTAGTACTGTAGATTGAACACGTTTACTTAGGA
TTGCATGTGAAATAGGGGAGGGAGCAAAACTTAAGAACTTGACTTTATGGTGTTGATATGATCTAACCTGGATATAGTTCAGTTTAAAAATGCCCTTTTT
GACATTGGGACAGTTGGCAAAAATCTGAATAAGGTCTGCAGATTAGAAATAGTATTGCATTAGTATTAATATCCTGATTTTGATCATTGCTTTCAGGATA
TACACACTGAAGTGTTTAGGAGCACTGTGTCTGTATGGTTAGGGAAAAAATATTTTTACATCTGTCTATATATTGCTATATAGAAAGAAGATGAAGCAAA
TGTGAAATATTAGCATTTAGGAAATCTGGGTGAAGGTTGTACAGGAATTCTTTGTACTGTTCTAACCTTTCTGTAGGAAAGGTTCTGAAACTGTCAAAAA
AATACCCCCCAAAAAATCCTCCTTTCTGCATAAATTCCTTTTTTATGGAGGTAGGAACCTCTCTTTTTTTAAAATTGTGAGTCCTTTTCAGTTCAGTTCT
TAAATGTGTTAGGTTAAGAAAATTTGATACGCATATATTTAAAATGCAAGTCTTAATGCCAGACCCAGCTTTATAGTTTTTGTTTGTTTTGTTAAGACTA
GTCAAAGTTTTGTTTTTTATCTTTGAGGTGCTGCTAGTGAGATAATTTTTTTTTTTTTTTTTTTTTTTGAGATGGACTCTTGCCCTGTTGCCCAGGCTGG
AGTGCAGTGGCGTGTCTTGGCTCACTGCAGCCTCTGCCTCCCAGGTTCAAGCAATTCTTCTGTCTTAGGCTCCTGAGTAGCTGGGATTACAGGTGTGTGC
CAACACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCACCT
CAGCCTCTCAGAAGTGCTGGGATTATAGGCCTCAGTGAGCCACTATGCCCAGCCAAGGGAATTCTTTAGCATCTTGAAACAATGACATAAAATTGCTTTA
TGTGCCAATGTCTAGGTTCCTTTAACTAGATTGTTAATTGAGAATTTCTTTTATAAACTTACTGCCTTTTAAAGTGGCAAATCACCTGAAAGAATAGAAA
TCAGATGATAGTAACAAAATAGTTTGAGGGAGAAGAAGATGCATTCAATTCCTCTGTCSTCTTTAAGATGGTTGACTATGATTGCAAATATATTGTAGGA
CACATAAAAATAAAAATGGTTGTGTTAGGGCTGTAGAATTTTAGGCAAGTTTTCATCTTTCTGAACTTACATGTTGCTTTTTTTTTTTTTTATAAGCTGT
TCGTGTGATTCTGTATGACTTAATGACTCTAACCTTTCTTTATTCTGCAGAGTGGAGACTGCTGCACGGACTCTGGAACCATGAACATATTTGATCGAAA
GATCAACTTTGATGCGCTTTTAAAATTTTCTCATATGTAAGTGTTTTGACCTTGACTGGTTTTGTACTGCATTTCTTTTCATATCTCTTTGTCCCTTTTC
TGCATTTATAACTTTTGTGTGTATAASCTAACAAATTAACTTGGCCAGAATCCAGAGGACCTRATGAAAATGTCCARATTCTACACGTTGCTGTGTGGTT
ATTGGAAAGGCATTTATTCTAGTTTGGGTACTGATTATTCATAATTTTGGGCATTTGGTCTTCCTCAGCATTTAAGGTTCTGTTAACCTATTTTCAAAAT
ATTATTTTTTATTGTAATATGCTTTCCTAAAAGTATTTCAAACTATTTGTAACAGAACTTTTACATATTCCCAGGAAGGGAAAGAGAGAAATGATTCTTC
TTAGCTTAAATATGAGATTGATCTGGGACTGATTGCTCTTATTCACATTCTTTTCTTAGAACCCCGTCRACGCAGCAGCACCTGAAGAAGGTCTATGCAA
GTTTTGCCCTTTGTATGTTTGTGGCGGCTGCAGGGGCCTATGTCCATATGGTCACTCATTTCATTCAGGTAAGAACGATTTTCTCTCCTGGTTGCTGTGG
TACAAATTACATTAGGAAAAAACCAGCTCAGCAAGGTGGTCCAAGGGACCCTGYTCCTCTCTTTAATCTTTATCAGTAGTTTAGGATTTAAACTCAGACA
TTAAATCAGGACATGTAAAGCCATTTTAATTTTCTGGCAACTGTGCCCCCTCTAGATACCGAAAAACAGAATGCCTTAACCTTGGCACTGAATGGTGTGC
TGCTGACGTACAAGACCCCCACCCACTGAGTAGGCGCATGGCATGCATGCTGGGATTCTTTGGCACAGAAGCTTTTTTATCTTTTCCTCCATTCTTCCTT
TACAAAACTCTGATTGTGTGATTAACTATCAGGAGAGGCAGGATTGAGATCTTTTTAAGGAATTGACCTGTTTTATTTTCCGATAACTGTTGTCTGCATG
GTTGGGTAAAAACCTTCAACAATTTGTTTTCCTGTATTGAGAGAGAATCTGGGTTTGGTCAGCAGGAGTAGAAGGTACAGTTTGAGGAATAACCAGAAAG
TTTGAAGACTCCCTAACATAGTCTTGTGCCTTTGTAGAGTATTCCTTTTAGCATAAATGTAGAGGTGGGCCTCTGTTGGCATTTGCCACTGTTGAGAACT
ATCCTTATGTTCAGGCATCTCCTGGCAGGGATTGTGTGAAAAATTACTTTAGACACTCAAAGGATAGGGCTTTGATCGCTTGAGTTTTAGGCAAGGTTAG
CCCTTAAATAATTTAGTAAAATACAGTCAATCCTTGTTATTCACAGACTCTATATTTGTGAATTCACCTACTCATTAAAATTTGTAACCCCAAAATCAAT
ACTCATGGCACTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTACTCATGGCACTTTTTGCAGACAGTCACAGAGTGGTGAAAAAGTTGAGTCAC
CCTGCTGTTGCAGTGTTTTCAGCTGAGGTTGAACAAGACAGTGCTCTGCCTTCTTGTTTCAGTTCTCGTATTGTAAACAAATGTTCTTTTCATGGTCATT
TAGTGCCACTTCCTTTGTATTTTTGTGCTTTTAATTGGTGATTTTGCTGGGTTTTTTGAGTGGAGGTCTTGTGGTGTCGTCCTGACTGGTCTCAAACTCC
TGGGCTCAATTGATCCTCGCACCTCAGCCTCCCAAGTAGCTGGGAATACAAGCACATGCCACCATGCTTGGCTTAATTTTGCTGTTCAGAATGCAAACAG
CATAGTGCTGAAGTGCTGTCTAGTATTCCTGAGTGCAGAAAGACCGTAATGTGCCTTATGAAGAAAATGTGTATATTAGATAAGCTTCATTCCGGCATGA
GTTGTACTGCTGTTGTAACTGTGAGTTCAATGTTAAGGAATCAAAAATAATGTCAAATGAGGTGTCCTTAAACAGAAACACATATAAAAGCAAGGTATCT
ATTGATCATTTGATGAAAATGTTGTGACCTTAGGCTTGCAGGAACCTACCTACCTTTTATTTCCCTCAGGAACAAGGGTTTACTAATTCATTGTCCACTG
TGATTTTATAACATAAACACTGAATAATGAGAATCAACTTCTTCCTTTAAAGGAAGGAAGGAACTTCAGTGTCTACGTCCATCCTTAATGATTTCTCTTT
TTTCTAATGCCTATAGTTTTTCCCACTTGGCGTTTTTAAAAAAAGAAACACTTTTTTCTTACTACAAAGCTAATATGTGTTCATTTTAGAAAATTCAGAA
AACAGACTAGCAATGAGAAGGAAGTATTTTAGAAACTTCCATAATCCCATCATCCAGAAATAACTACTGTTAACATTTTAGTACTTTGCAGTCTTCTGTA
TATGTATGTGTCTTGGTGTTTTGGTGTTTGGGGGTTTTGTTTGTTGGTTTTTGTTTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGAAGTGCAA
TGGCGTGATCTTGGCTTACTGCAACCTCTGCCTCCCTGGGTTCAAGCAATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGTGCCACCA
TGCCTGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGATCTCAGGTGATTTGCCCACCTCGGCCT
CCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGTTTTTTTTAAAGTGACCAAAGGGGGATCATTTCTATTTGTTCTACAGATGGAATGTACTTTAAG
CACTTGTCACGTTTCATTCATCCTTTCTATTTTTTGGGCAAGACTCACTCATAGTTTGACTTGGGTAGTTGTACTGTAGTTGAAGGACTACGCAAGCCAG
AAGAGCCTCCAGCATCCACCATGGTCCTAACTCTGTGCTTCAAGGCTTCTGGGTTATCTCCTCAGCCCCATCCCTGAGAAAACACTACTTTTTCTCCTGC
CTCCAGGTTATAAGCAAATGTTAGGAAGTTCAGACGAGTGTTTGAACCCAATAAAGGTCTCTTGCAAAATAAATTTGAAACTTTCAAGTGTTTAATGATT
GATTGATTCTGACTCTAACAGGCTGGCCTGCTGTCTGCCTTGGGCTCCCTGATATTGATGATTTGGCTGATGGCAACACCTCATAGCCATGAAACTGAAC
AGAAAAGACTGGGACTTCTTGCTGGATTTGCATTCCTTACAGGTACGTTAAGGGATTTGTCTAATTTTGAGGGGTGAGCTATATTTTCAGTATCTCTTAA
TTAGTTCCCCCCCCTTTTTTTTTCTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGCCAGAGTGCAGTGGCTTGATCTTGGCTCACTGCA
AGCTCCGCCTCCCAGGTTCACACCATTCTTCTGCTTTAGCCTCCCGTGTAGGTGGGACCACAGGCACCTGCCACCACACCCGGCTAATATTTTGCATTTT
TAGTAGAGACGGGGTTTCATCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATGATYCGCCCGTCTCGGCCTCCTAAAATGCTAGGATTACAGGCA
TGAGCCACCGTGCCTGGCCCTTTTTTTCCTTTTTTTTTGAGACAGTGTCTCYGTCTGTCACCCAGGCTAGAGAGTGCAGTGGCGTGATCTTGGCTCACTG
CAAACTCTGCCTTCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGCATGTGCCACCATGCCYGGCTAATTTTTGTATTT
TTAGTAGAGATGGGGTTTTACCATGTTGGCCAGGATGGTGTTGATCTCTTGACCTAGTGATCCACCCACCTTAGCCTCCCAAAGTGTTAGGATGACAGGC
GTGAGCCATAGTACCCTGCCTCCTGGCTTTTTTTTTTTTTTTTTTTTTTAAGATGGAGTCTCACCCTGTKGCCAGGCTGGAGTGCAGTGGCGAGATCTCA
GCTCATTGCAATCTCTGCCTCCCAGGTTCAAGCGATTCCCCTTCCTCAGCCTCCCAAGTAGCTGGGACTACAGCGGCTAATTTTTTGTATTTTAGTAGAG
ACGGGGTTTCACCATGTTGGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCTGCTCGCCTCAGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCAC
CACACCCAGCGCTTTTTTTTGTTTTTTTGTTTTTTTTTTTGAGACTGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACT
GCAGCCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAATAGCTGGGATTATAGGCATCAACCACCACGCCAGCTAATCTTTTGTATT
TTTAGTAGAGATGGGCCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCAT
GAGCCACTGCCCCTGGCCCTAATTTTGTATTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGACTGGTCTCGAACTCCTGACCTCAGGTAATCTACCT
GCCTCAGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCCACTGTGCCTGGCCTTCCTGGCCTGCTTTCTAATCTCATATAGGTTCATTTTGTTTCCCCA
TCCATTAGGGGAAACTCTGTGAGTAGCCACTGTGACTCTACTTTTGTGTCCAAAAATAGCCATTGTGTACTTGAATGAATGAGGTTCAAGAGCTTAGGTA
GCATAACCTATTAATAGTAGGCATAGAACTTTTAATAAACTAGACTTGAGAATCCGACATAGTTGCACCCATACTGGCAATTATCATAGGAGCTTCTGTT
CTGAGTCTTACAGACAGTGCATTAAAGCTATACATTGAGATCTATTGTGCAGGACACTTTGCTGATTCTCAAAAAAAGAAAGGCACAGCTCTTCTAGAAT
TGTCATAAAGGAAACAAGACTCAAGCTATGTAATAAAAATGTTTGCAAAACATTTRAATTAGAACAGCTTGTTCTGAGTGACAGTCTAATATACGTAGGA
GAAATTTTAGAAAGGAAGAGATTTAGGGATTAARATTTTTGCATCAGGGCAAGCTAGTTTTTGAAGGCATTAAGGGGTGGAATTATCAGAAGGAAAGAGG
AAAGTAATTAGAACGAAAGAAATGTTAGAGCTGGAACAGGTTGCCCTCCTGTTGGCAGGTGTCCACCTGCAGAACCAGTCTCACCTTTCTTTGCTACAAA
GGGGAGTCAGTCCTACATGACTATAAGGTTGCTGGCCACGAGGCACTGTTTTGCTCTTTATCCTTTTTTTCTAATTCCTGATCTGGCCTATATTACCATC
TTACATCACTCTAGCTCTGAAATGTTTGGCATGCCTACTTTATTTTCTTSTAATCTCTGTACCCTCCCTGAGGTCATCCATGATTTTCAGCTAAGAGGAC
AATTTTGCAGCTATTTCTATAAAAAAAAAAAAAACAACGCAGTCAGGTATACATTTTATTGAAAACAATTACAGCGGAGGGGAGAGAGATTTAATTCTTT
AGTCCACGTTTGTTAAGAGCATGAGTATGCCTATATTTCGGGATCAGCTTTTGGATGAGGATCCTATTCAAGAATTGATCRTAATACTGTGTTCTGGGTT
TTCTGTTTTCTAGGAGTTGGCCTGGGCCCTGCCCTGGAGTTTTGTATTGCTGTCAACCCCAGGTAACTCTTTTGGTAGTGTCTTATGTGCTTTTATCTTT
ATGAATATACCTTCTAAATGTAGACSGTATACCTGTAGCCCTTAATCTAATGGTCTTTTTTTCTAACAGCATCCTTCCCACTGCTTTCATGGGCACRGCA
ATGATCTTTACCTGYTTCACCCTCAGTGCACTCTATGCCAGGCGCCGTAGCTACCTCTTTCTGGGAGGTAAGTGTGAACTGGGAAACAGGGAATGGGGGC
TCCTTTTTAGCCAGAATTCTCACTAGTACTCCTTCCTTACCCCTAACTCCTTTGCGACTATTGAGTTGAGATTAACCTTCATTCTGGGGGAAGTTAAGGA
ATGGCTTTAATGGGATTGCTTTACTTTGCCTTGGCTTCTCTCAAGACAGCTTTTTGCTGTGTCTTATAGGTATCTTGATGTCAGCCCTGAGCTTGTTGCT
TTTGTCTTCCCTGGGGAATGTTTTCTTTGGATCCATTTGGCTTTTCCAGGTAAGACTTAGCCTGGAACTTTCCAGCAGCCATTTGCCTCACACTTCTTYC
YTTCCYTTTTTTTTTTTTTTTGCACTTCTTTCTGTACTACTTTGGGCAGTGCTCTCTAAGCCTTCCCATTATCCTTCATAGGATGGAGCCTTCTGCCACA
AGTGAAAACAGGCTGCACAAGGTTGGGCATTGCTAAGAGAAAATGGTTTGCTCAGACACCATTTGTGTAAGGCCAGTCTGGCAGTGGCTGATTGTTAAAA
TGATTGAAACTCTTCCAGTGACCAGTGCAGTATTGTGCCTAGGGAAGTAAAGTGGTCTTCACCCTAGGCTGCAGTTCTCGTGAATGGTAATGTTCATAGG
GTTCACATTTGATGTACTTTCAAGTGACTATGAGCCAGAAAGTATGGCTGGTTTTTTTTTCTCTGCAACTTCTGCTGTATAGTAACTTCATCTCTTACAT
TTGTTAGGCAAACCTGTATGTGGGACTGGTGGTCATGTGTGGCTTCGTCCTTTTTGATACTCAACTCATTATTGAAAAGGCCGAACATGGAGATCAAGAT
TATATCTGGTGAGTGTGGGAACTAGTCTTTAACAAGCATGAAGGTTGAGGCATACCGTTCAGCAGCTGAACTTAGGTTGGCATTGGCTGAACATAGGTGG
CCAAGCTTTGGGAGTGTATGTGGTAGGAAACCCACGGTTTTGGAACTGTGTACCATAATCTTCCTCAATTCCTGAAAGATTTCAGATTTTTTAAAAATCT
GGGCTAATAGGCCAGGTGTGGTGGCTCACACCTATAATCCTAGCACTTTGGGAGGCTGAGGCCACTGGATCGCTTGAGCTCAGAAGTTTGAGACCAGCCT
GGGCAACATGGCGAAATCCCATCTCTACTAAAAATATAAAAAAATTAGCTGGGCATGGTGGCACATGTATATAATCCCAGCTACTCAGGAGGCTAAGGTA
TAAGAATCATTTGAACCTAGGAGGTGGAGGTTGAAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGCAACAGAGCGAGACCCTGTCTCAAAAAAAA
AAAAAAAAAAGTGTGGGGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTCGGGGCAGGCGGATCACGAGGTCAGGAGATCGAAAC
CATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGTCGGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCAGGAGGCGG
AGGCAGGAGAATGGTGTGAACCGGGGAGGCGGAGCTTGCAGTGAGCGGAGATTGCACCACTGCACTCCAGCCTGGACGACAGAGCGAGACTCCTTCTCAA
AAAAAAAAAAAAAAAAAGTGTTGGGGGGTGGCTATATATTTACATATCCATAGTGGCTACCTCCAAGCAGAAGTGAGGGAAAGAGATCTTTCTCCTTTTC
CTATTTATACTTCTGTATTTTTTAAACAATGAGTAGAAGATACACTCTTTTTTTAGAGACAGGGTCTCGCTCTGTTGCCTAGGCAGTAGTGTGGTGCCAT
GAACACAGCTCGCTGCAGCCTGAATTTACTGTGCTCAAGCAGTACTCCTGCCTCAGCCTCTTGAGTAGCTGGGACAACAGGCACGTGCGACCATGCCAGG
CTAATTTATTTTTTGTAGAGATGGGGTCTTACCATATGCCCAGATTGGTCTCAAGCAGTCCTCTTGCCTTGGTTTCCCAAAGTGTTGGGATTACAGGCTT
AAGCCACCATGCCCAGCCACTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGTTTTGCTTTGTCACCCAGGCTGGAGTGCGGTGGCAACATCTCAGCTCAC
TGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTTGTGCCTCAGCCTCCCTAGTAGCTGGGATTACAGGCACTCTCCACCACGTCCAGCTAATTTCTGTAA
TTTTAGTAGAACGAGGTTTTGCCACGTTGCCCCGTGAGGACATGGTGTCGAACTCTTGGCCTCAAGCAATCTGCCTTCCTCAGCCTCCCAAAGTGGTGGG
ATTACAGACATGGGCCACCATGCCCAGCTCACTTTTTTTTTTTTGAGACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAACGGTGTGATCTTGGCT
CACCGCAGCCTCCGTCTCCCGGCTTCAGGTGTTTCTCCTGCCTTAACATCCTGAGTAGCTGGGATTACAGGCATGCACCACCATGCCCRGCTAATTTTGT
ATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACTCAGGTGATGCCCGCCTCAGCCTTCCAAAGTGCTGGGATTACA
GGTGTGAGCCACTGTGCTCGGCACTTTTTTTTTAATGTAGTGATTCTCTCAGTCTCATGACTAATTAGTGGTAGTTAAGGGTTCAGACKTGGACCTCTGC
AGAGTTCAGAGCGCTTGAGACAGGGCTTGCTCTGTCACCCAAGCTGCAGTAGGAGAGTGGCACTGTCATGGCTTACTGTAGACTCAAGCTCCCTGGGCTC
AGGTGTTCCTCCCATCTCAGCCTCCTCAGTAGCTGGGATTACAGGCACATGCCACAATGCCCTGCTAATTTTTGTAGAGACGGGATTTTGCTATGTTACC
CAGGTTGGTCTCGAACTCCTGGGCTCAAGCAGTCCACCTGCCTCAGCCTCCCAAAATGTTGGGATTACAGGCATGAGCCACTGTGCCTGGCCCAGTCTCT
TTTCTCTATGCTGCATGACTTCGATGAGTCTAAAGGATCTCAGACACCAGAGTTTTACTTCCTTAGTTGGGGGTAAAGTGTGGGAGAAGCTGGCTCGTGG
GGGTRGGGGTGGGGTTTATATTCTGCATCTTTGTGGGCTTGTGGATAAAAAAGTCTGAAGTACAGATCCTAATCTGGTTCTTGCCTTTCAGGCACTGCAT
TGATCTCTTCTTAGATTTCATTACTGTCTTCAGAAAACYCATGATGATCCTGGCCATGAATGAAAAGGTTAGTTAGCCTACAACCCAAAGATGAGACAAT
AATGGCTCCTGAGCTTGGCATGTGTGTATACTTCAGATTTGAAAACTTGCTCACACACTGTGTTAGGTCCAGGGTAACTGTAAGGCAGGCCACTGAGTAA
GAGGTAAGCCAGAAGTCTTCAGTTGTTAGAAAAAAAGCAGCAAGTGAAAAAAAAATTTTTTTAACTAATTCCTGCGTTTAGTATGAAAGGGAAAAAAGCT
TCAGTGGCAGTAAACACAACCTGCTACATGAATAATTTAAAGGCTATATAGTTGTGACTCAGAGAAAGGTATTGTGGAGGACGTTGTAAATTTCAGAAGT
AGACTAATTTTATCCATTTGTTAATTTTTTTTTCCAAGGAAGCATTCTATATAGGGCTAATGAGTATCTAACGTAGTTGAGTCAAGCAGTGGGGGAAACA
AATGAAATGAGCTTTTCTTTATAGACCTTATGGAGCTTAGAGATAGCATAGTGGTAGCGGGAGTAGTTGACCAGATAGGATTGCTGGCTCTGTCTGGGCT
ATGCCATGGTTGGACTGAGCACTAGGCAGATGTACAAGTTTCAGAACAAGCAACTGAATTTTCATTCCTTAATACATTGGGCTTCCATCCAAGATTGAAT
GAAGAATTCTGCTGGACCAAATTATTTCTGAATGTCAGTTTATGCCAGAGTCATGCTCACTTTGCAGGGTGGAGCACTTCTCGCGCCTAATGGTTGGTTG
GTGGTCTTGGCCTCTAGTTTCACTCTTTGAGGATAGAGTGCCATCTGCAGCCTTCACTGTTGGGATCTGAGCTGTAGTGGCTGTGAATAGCCTAGAGTGG
TCAGGCAGCCCACCTCGGCACTCCTGGGGTGGGGGTGGGGACAGCTGCTTAACCTTTATTCTTGGTCGGTCTGTCGGCAACTTTGGGAACCACCAGTAGG
ATRTGGTTAAGATTCAGTTCTTGCTGAGCTAAGGAAGCATTTCTCATTTCTTTTTAATTGTCTGGCTCACTTCTAGTCCCTAACTAAATGCTCACTCAAG
AGTTTTAGCTTGAATGTCAAATGTCAAAAAATTAATTGGGTGATYTTTCTCCATTTCTAGGATAAGAAGAAAGAGAAGAAATGAAGTGACCATCCAGCCT
TTCCCAATTAGACTTCCTCTCCTTCCACCCCTCATTTCCTTTTTGCACACATTACAGGTGGTGTGTTCTGTGATAATGAAAAGCATCAGAAAAGCTTTTG
TACTTTGTGGTTTCCTCTATTTTGAATTTTTTGATCAAAAAACTGATTAGCAGAATATAGTTTGGAGTTTGGCTTCATCTTCCTGGGGTTCCCCTCACTC
CCTTTTTTGTCARCCCCATCTGTAGCCTCTTCCTCTACTCAGGCAGTCGACCCRCCACGATGAGAAGTGGGACCAGCAGAGGGCGCCAACTTCAGGAGTC
CGCTTTCCCACCAGGCTTCATTCACCCAGTGGACCTGAACTGTTTGGTAGAGCCACCCGGCCCTTCCTTCCTCATYGTTGTTTGGTATGCGCACAGTTCC
TGTGGGACTGGGCCGTGAGTTTTCCATTGGAAAGAAGTTCAGTGGTCCCATKGTTAACTCAGCCTCAAATCTCAACTGTCAGGCCCTACAAAGAAAATGG
AGAGCCTCTTCTGGTGGATGCTTTGCTCCCTCTGAGCTGCCCATGCTGGTCTGGCAAACACACCTTTCTGCTTTGCCTTCACAAAAGTAATGTGTTCCCT
TTCCCACCCCTTGCCTGACCCTCAGGGAGTCAGCCTGCTTCCATCCATGGGTGGGAAGACTTCAGCACAAAGGAAAGACTAATTCTTGTCAGGCATTTTT
GAAAAGGCTGATTATGTGTATCAAGGTACAGCATCGTAGGGTTCCCCTAAACTTGCCCTGTTTTTGTTTTTTTAGTTTGTTATCCCCTTACTGAGCGGCC
TCTACTAGGTGGCTGTGATTAAATGTCCCAAGCAAGGATAGGGAAGGGGAATGGTTGAGCCTCTGGAGATCATTGTAACCAATCCTGCCAGACCTGTTTG
GGGCAGTGGGGAGCAAACCTAGATAAGGACCTGTTTGGGGCAGCAGGGAGCAAAATCTCCTTTAACAACCAAGCAGTTCCTCATTCACATCAACAGAGCG
AGGCTGTGATAACTTAGGAGGCAGCAATCCTAATAGTCCTTCAGTGCATTTTAGTCTGTCTCCAACTGGACACCAGTAGGTAGTGTCAAGCCAGAGATTC
GGGGCAGTAGATAAATGTTCATTTTACTGATGCACTTTAGTTTTTGGTCTGTTACCTGTTTTCCAGAAATTTGTGGCCTTTTAGGCGGGAGTTAGGCGAC
CAAACCAGTGAGAGCCCCAATCCCTGCAGTTTTGTGGCTTCAAGTGTGGGTGGACAGTCCTAATGGGGATCTCCAGCTCCTTCCTGTGGGCTGCCACAGA
CAGCTACCCCCAGAAGGGTCAATGTTGGGAGTGGTTGTGGCTYTGAGCTGCTCTACAGAGCTTCAGTGTGAGAGGATCGAGCCATTGAAAGCTCATTACC
AGTAGGACATAATTTTTGGCTCTCCCTATTCACAACCAGTGCACAGTTTGACACAGTGGCCTCAGGTTCACAGTGCACCATGTCACTGTGCTATCCTACG
AAATCATTTGTTTCTAAGTTGTGTTTATTCCTGGAGTGACATGCCACCCCGAATGGCTCACTTTCACTGAGGATGCTGTCCTCTGATTTAGCTGCTGCCT
CCAGCCTCTGGCTTGAGAACTTACTAAAGGCACTTCCTTCCTGTTAAACCCCTGTTAACTCTCCATAAATTTGGTGATTCTCTGCTAGGCCTAAGATTTT
GAGTTAACATCTCTTGAAGCCAAACTCCACCTTCTGTGCTTTTTGCTTGGGATAATGGAGTTTTTCTTTAGAAACAGTGCCAAGAATGACAAGATATTAA
AAAAAAAAAARAARGAAAAAAAAAAAAACACCTACTTTTAAAGAAAATRCCTAACAGATTTTTAATATAGTTATCTCTACCACTTTCTTTTCTAGTTTCT
TGATTTTCAGCTCAGGCTGCATTCTAACTCATACTGTGAAGACAAAGGTGTTTTTGATTCAGAAATATATGAAATCTGCATAGTCTTAATTTGTAAAAAA
TAAAGAAAATTCCTTAACCTTTCCTGGTGTTTGTGTTAAATTCAAGGGTACAGCTGGTCATGGAGCTTGTGATACTGCCAGGGTTTGCTACTGGGGGCTG
GGAGTGGGACACGATTGAGTTCGTGTCATAAGTATGAACAGAGACAAAGACCTCCCACTCTGTAGCCCCAGCATGCCACAAATGTTGAGAATTTTCTCTG
TCAAATATGTAAGCCAGTTTTTTTTCCAGTCCTCTCCACCCCCTGCCACCTTTGCTATATGTTGTTTGTGGTGATATGTGCAGTTGGTTCAGATGTGCAG
CCAAGCTTTGGAGTTTGAGGATGCATAATGGAAAAAAGGCAAATGATACCCACTCATTCTGCAAGTATTTTTGTTCACCCACTGCTGCCCGGCTGTATTC
TAAGTGCATTAGTTAATAAAGATGTAAAAGTTGGCCAGGCATGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCTCGAGG
TCAGGAGTTCAAGACCAGTCTGGCCAACATGGTGAAACCCCATCTCTACTAAATACACCAAAAAAAAAAAAAAAAAAAAAAAATTAGGCAAAGTGGCAGG
CACTTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTACTTGAACCTGAGAGGTGAAGGTTGCAGTGAGCTGAGATGCACCACTGCATTCCAGC
CCGGGTGACAGAGAAAAAAAGTCGGCCAGGCGTGGTGGCTCACGCATGTAATCCCAGCACTTTGGGAGGTCGAGGCAGGCGGATCACCTGAGGTCAGGAG
TTTTGAGACCAGCCTGGCTAATAAGGTGAAACCCCGTCTCAACTAAAAATAACAAAAAATAGCCCGGCATGGTGGTGGGCGCCTGCAGTGCCAACTACTC
GGGAGGCTGAGGCAGGAGAATCGCTTGTACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGAGCGCACCACTGCACTACAGCCTAGGCGACAGAGACTCCCA
TCTCAAAAAAATAATAAAAGTCCTTGTCATAGTTCAGATATGAGATTATCAATCGGAACTTGCATTACAATCAGGTTGCTCAATTCTGTGTTTGTGTTTT
TGTTTTGATTTTTGGAGACAGGGTCATGGTCTTGCCCTGTCACCCAGGCTGTAGTGCAGTGATGCGATCATGGCTCACAGCAACCTCAGTCACCTGAGCT
CAAGTGATCCACCTCAGCCTCCCGAGTAGCTGGGACCACAGGAACATGCCACTGCACCCCGCTGATTTAATTTTTGTAGAGGTGGGATCTCACCATGTTG
CTCAGGTTATGTTGAACTCGTGTTCCTCAAACGATCCACCTTAGCCTCCCAAAGTGCTGGGATTATAGGCTTAAGCCACCATGCCGAGCCTAGTAGCTCA
ATTTTACCATGCTTGTTCTCCGCTTGTCATATTCATTGTAGACCCAGGCCTTCCTGTTAGAATTTGACCATTATTCTGACTGGTTCATCTAGGTTACTCC
CAGTTGACCTGTTCGGACTCCACATGTGCCCGTGCCAACTAAGGATAGCCATTTTCCTTAAGCTTGGGAAATATTCCTTAAGCATCTTTTCTCTCTTGCT
GACTTTGAGAAAAGACTGGTCCTAAAGACTCTTTAAAGCCCCCATTTTATCTGCTAGGGGAGAAGTACAAGGTGCAACACCTTTTGAGTGTTTACAAGGT
CAGGCACTGTACAAAGTGCCTTACATGGATTGCTTAACATCCCCAGTAGTTTAAGAAGATGGTGTATTTACTACGTACGGTCAGTTACTTCCAGGGCTGG
CAGATGTGTGCCCAGAAAGAATCTAGGCACACTATCTCCAGAGCCCCTATCCTTTACTGTTAACCTATGTAAGCAGTGTTAAGGTTAGTCCTCCTGGGCT
GGAGTCATCCTTTCCATCCTGACCTACATCCTGGCTATGGCTCTGGCCAAGGGTGGAAAGGGAAATTGTGAAGGGGTTTGAGCAAAATCTCCCCACCCCA
AATCTTTGTAACCAAAGAAACGTAGAAGAGTGAGCGGCCTTTTTAGTCTTTCTTCCCCCAGCCAGCCCACCAATTACCAATTAAATGGAAGAGGATAACA
AACAGCAGCTCTTTCCATGTGTAGGAGACCTGCAGGCCAAAACTAGACCAAGGAAGACCCTAGTGGGCGGCAGAAGTGGAAGGTCCTCTGGGTTGAAAGA
AGAAACAGTATTTTTTTTTTTTTTTTGGAGATGGAGTCTCACTCTGGCCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTAACAGCAACCTCCACCTCCT
GGGTTCAAGCAATTCTCCTGCCTCAGCCTCTCCAGTAGCTGAGATTACAGGTGCATGCCACCATGCCCAGCTAATTTTTCATATTTTTAGTAGAAAGGGG
GTTTCCCCATGTTGCTCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCCTTAAGTGATCTGCCCACTTCGGCCTCTCAAAGTGCTGGATTACTT
ACAGGCATGAGCCACCACGCCCAGCCAAGAAACAATATGTTCTTTCTAAGCATGGTGAGCAGATGAGGGGATCTGTCTTGTTTAAGCTGGGGATAAAGAT
GTAGAAGACAGTTCCTGCCTTGGAGTCCTTCACCACTGAGTAGTGCTGGAGAGCCACATGTGAACATTACATGTGAATAGGAGTTAAGCATAGTGGGCCA
TGAGACAACAGCAGGAGACACAGCCTGGTCTGGTCGGTCAGAGAAAGTGCTTTGTAGATGACACCTCAGCTAAGTCTAAATCTCAAAGTTTGAGTCAAAG
TGAGGCAAGTGAAGAGATTAAGAAAGGCAGTGGGAGTGGATGTTTCTGATCAAGGGATCAGCACGAGGAAAGACAGGAGTACGCTCCAGCATGGGGAGTG
CAAGGAAGGAGCTGCAAAAACAGGTTTTGCTAACTAGGAAAGTTGGAGGAAACTAGTAGGAAATGGAGGGGGTAAGTCAACAGTTACTGAAGACCTGGTA
TGAGGCACTGTTGCATCAAACCTCTGATGAAGCTGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTATGGGAGACCCCAGGCGGGTGAATCACCTGAG
GTTGGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACCTAAAAATACAAAATTAGCTGGGCGAGGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAG
GCTGAAGCAGGAGAATCGCTTGAACCCAGGAGGCAAAGATTGTGGTGAGCCAAGATCGCACCATTGCACTCCAGCCCGGGCAACAAGAGCGAAACTCCGT
CTCAAAAAAAAAAAAAAACAAAAACACTTTTGATAATGAAAGTAGATAATGATAATATAAGAATGGCCACTAATGCCGGGCGCAGTGGCTCAAGCCTGTA
ATCCCAGCATTTTGGGAGGCAGAGGTGGGCGGATCACGAGGTCAGGAGTTCAAAACCAGCCTTACCAACCTGGTGAAACCCCCTCTCTACTAAAATTACA
AAAATTAGCTGGGCTTGGTGGTGCACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAAGATAACTGCTTGAACCTGGGACGTGGAGGTTGCAGTGAG
CTGAGATCATGCCACTCCACTCCAGTCTAGGCGACAGAGTGAGACTTTGTCTCAAAAAAAAAAAAAAGAATGGCCACTAACATCATATTAAGACAGACAA
CCTGACATCACATACCTTCTGATAGAAGTAAATACTACCAATGAAGTGTGTATTTTTTTTGTTTTTGTTTTTGTTTTTTTGAGATGTCTCATTCTGTTGC
CCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTTCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTACCAAGTAGCTGGGATTAC
AGGCACCTGCCACCACGCCCAGCTAATTTTTTTATTTTTAATAGAGATGGGGTTTCACCACATTGGCCAGGCTGGTCTCGAACTCCTGACCTCGAGTGAT
CAGCCCACCTCAGCCTCCCAACGTGCTGGGATTACAGGAGTGAGCCACTGCGCCCAGCCTACCAATGAAGTTTTCTTAACAACAACAAAAAAATTGAATC
TGGGCTGGGCACGGTAGCTTACACCTGTAATTCCAGCACTTCGGGAGGCTGAAGTGGGTGAATTGCTTGAGTCCAGGAGTTCGAGACCAGCCTGGGCAGC
ATGGCAAGACCCCATCTCTACAAAAAAATATAAAAATACACCTGTGGTCTCAGCTACTTGGGAGGCTGAGGTGGGAGGATCAGTTGAGCCTGGGAGGTTG
AGGCTGCAGGGAGCCATAAACGCATCGCTGCACTCCAGCCTGGGGAGAAAAAATTGAATCTGAATCATATTAAGTTCTGTGTGAGGTAATAATACATACG
TCAGTTCACTAGATTTAATCATGCCACAATGTGTATACACTTCAAAAGATGTTGGACACATATATGGTTTTATCTGTCAATTAATAATAAAAAGAAAACT
TTAAGTTCAAACTATTGGTTTCTTTTTTCAAAAAATATGGCAAAGAACAAATCCAAAAAGAGAGGGAAGGAAACCTAGACATTAAGAGACTTATAAGCCA
TATCAACAAAATGCAATCAATGATGTGATCTTGTTTGAATCCTGATTCAAATAAATCAAGTATAGCCGGGCGCAGTGGCTCACGCCTGTAATCCAGGCAC
TTTGGGTGACCGAGGCTGGTGGATCACTTGAGGTCAGGAGTTCAAGATCAGCCTGACCAACATGGTGAAACTCTGTCTCTACTAAAAATACAAAAATTAG
CTGGGTATGGTGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGCGGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGTAGTGAGCTGAGATT
GCACCACTGCACTCCAGCCTGGGCGACAAAGTGAGACTTCGTCTCAAACAAAAACAAAAATAAACAAAAAAACCAAGTGTAAAAGGAAAAGAAAAAGGGA
GAGAATTGGAGCAATTTGAACCCCGATTCACATTCTCCAAGATGGCCCCCAAGGATCCTCACCTTGGTGTGCCCTGGTAGAGTTCTCCACATTGAGGCAG
GCTGGCACGCATGACCAAAATATCACTGCAGAAGCGTGTGTGGCTTCTGAGGCCAGGTCTTCAGAGGAATTGCAGCTTCCTCCTTGTCTCCTTGGATCAC
TTGCTCTGAGTGAAACTAAGTACAGGTTCTGAGGCCATTCAAGCCGCCCTGTGTGGAAAGCCTTGAAGTGAAGACTGGAGCCCCCTGCCCACAGCCAGCA
CCGACTTGCCAGCCAGTGGGAAGGAGCCACCATGAAAGCAGATCCTCCAGTTTCAAACTTTCAGGTGACTACAGTCTCATGAGACACTGAGCCAGAACTG
CCTCACCAATCTACCAATCTGTTTCTGAATGCCTGGCCCACAGAAACTGTGAGCAATAATACATTTATTGCTGTTTTAAACCACTGTGTTACACAGCAAT
AGATAACAGCTCAAACACTGACTACATGATAAAGAAATATTATTAATGCATAACGCTAATAATGTTATGATTGCATTCTTCAAAAGTTATCTTTTAAAGA
TGCATACTGGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTG
GACAACATGGTGAAACCCGGTCTATACTAAAAATACAAAAATGAGCCAGGTGTGGTGGTGGGCGCCTATAGTCCCAGCTACTCGGGAGGCTGAGGCAAGA
GAATCGCTTGAACCTGGGAGTGGAGGTTGCAGTGAGCCGAGATCTCACCACTGCACTCCAGACTGGGTGACAGAGCGAGACTCCATCTCAAAAATAAATA
AATAAATAAAAATTAAAGATGCATACTGAAATAAGTATGGATTAATTACTATGATGTCTGAGATTTGCATCAAAATACTCAGTTGGGCTTGTGGAGTGCC
TGGAGTGAGGGTTCTGGATCCCACCCG


SNP Information

Context             (SEQ ID NO:28422):
TTTCATATCTCTTTGTCCCTTTTCTGCATTTATAACTTTTGTGTGTATAAGCTAACAAATTAACTTGGCCAGAATCCAGAGGACCTGATGAAAATGTCCA
R
ATTCTACACGTTGCTGTGTGGTTATTGGAAAGGCATTTATTCTAGTTTGGGTACTGATTATTCATAATTTTGGGCATTTGGTCTTCCTCAGCATTTAAGG
Celera SNP ID:            hCV16258277
SNP Position Genomic:     19677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28423):
TAATCTTTCCCTTTCCTTGTGGGTTGATGTGTGAGGATTGAAGGTGATACATATATAAAAGCACCTTAAAAGTTATAAATTTTATATAAATATAGTCAGG
R
GTATTAGTATAGAAGGTACTACTGCTGGCCTGACGAGTTTCATTTTATTTCGTAAACTGCCCAAGGGTATTAATTTTCTCTAGAGAAACCATTGAATATT
Celera SNP ID:            hCV26829716
SNP Position Genomic:     11202
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28424):
ATGATTGCAAATATATTGTAGGACACATAAAAATAAAAATGGTTGTGTTAGGGCTGTAGAATTTTAGGCAAGTTTTCATCTTTCTGAACTTACATGTTGC
T
TTTTTTTTTTTTTATAAGCTGTTCGTGTGATTCTGTATGACTTAATGACTCTAACCTTTCTTTATTCTGCAGAGTGGAGACTGCTGCACGGACTCTGGAA
Celera SNP ID:            hCV26829717
SNP Position Genomic:     19378
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28425):
TAAAAATGTTTGCAAAACATTTGAATTAGAACAGCTTGTTCTGAGTGACAGTCTAATATACGTAGGAGAAATTTTAGAAAGGAAGAGATTTAGGGATTAA
R
ATTTTTGCATCAGGGCAAGCTAGTTTTTGAAGGCATTAAGGGGTGGAATTATCAGAAGGAAAGAGGAAAGTAATTAGAACGAAAGAAATGTTAGAGCTGG
Celera SNP ID:            hCV9257454
SNP Position Genomic:     24634
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28426):
CCTCATGATCCGCCCGTCTCGGCCTCCTAAAATGCTAGGATTACAGGCATGAGCCACCGTGCCTGGCCCTTTTTTTCCTTTTTTTTTGAGACAGTGTCTC
Y
GTCTGTCACCCAGGCTAGAGAGTGCAGTGGCGTGATCTTGGCTCACTGCAAACTCTGCCTTCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAATA
Celera SNP ID:            hCV26829718
SNP Position Genomic:     23152
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28427):
TCCCAGGAAGGGAAAGAGAGAAATGATTCTTCTTAGCTTAAATATGAGATTGATCTGGGACTGATTGCTCTTATTCACATTCTTTTCTTAGAACCCCGTC
R
ACGCAGCAGCACCTGAAGAAGGTCTATGCAAGTTTTGCCCTTTGTATGTTTGTGGCGGCTGCAGGGGCCTATGTCCATATGGTCACTCATTTCATTCAGG
Celera SNP ID:            hCV25597287
SNP Position Genomic:     19969
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,36)   total(A,68|G,2)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,2)   caucasian(A,38)   total(A,54|G,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:28428):
ACTTTGCTGATTCTCAAAAAAAGAAAGGCACAGCTCTTCTAGAATTGTCATAAAGGAAACAAGACTCAAGCTATGTAATAAAAATGTTTGCAAAACATTT
R
AATTAGAACAGCTTGTTCTGAGTGACAGTCTAATATACGTAGGAGAAATTTTAGAAAGGAAGAGATTTAGGGATTAAAATTTTTGCATCAGGGCAAGCTA
Celera SNP ID:            hCV9257455
SNP Position Genomic:     24556
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28429):
CGTGATCTTGGCTCACTGCAAACTCTGCCTTCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGCATGTGCCACCATGCC
Y
GGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGGATGGTGTTGATCTCTTGACCTAGTGATCCACCCACCTTAGCCTCCCAAA
Celera SNP ID:            hCV26829719
SNP Position Genomic:     23283
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28430):
CGGCAACTGCTTTGCTAACAGAAAAAAGTAAAAAAAAACTTACAGGAAACCTCATTCTGAGCACACCTCACCAGTTCAGAAGCATCCTAAGGAATAAAAG
G
GGGGGGGGGGGCGGAATTTATGTAAAAAGAGTATTATATGGTAAATTTTTGTCCTGAATTAAATTAACTGGTTGTTTAAAGAAAGAAATATTTGTAATAA
Celera SNP ID:            hCV26829737
SNP Position Genomic:     2997
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,6)   total(G,2|-,6) 
SNP Type:                 TFBS


Context             (SEQ ID NO:28431):
GCCACCCGGCCCTTCCTTCCTCATTGTTGTTTGGTATGCGCACAGTTCCTGTGGGACTGGGCCGTGAGTTTTCCATTGGAAAGAAGTTCAGTGGTCCCAT
K
GTTAACTCAGCCTCAAATCTCAACTGTCAGGCCCTACAAAGAAAATGGAGAGCCTCTTCTGGTGGATGCTTTGCTCCCTCTGAGCTGCCCATGCTGGTCT
Celera SNP ID:            hCV27500391
SNP Position Genomic:     30352
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,13|T,1480)   total(G,13|T,1480) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:28432):
TGTACTGCATTTCTTTTCATATCTCTTTGTCCCTTTTCTGCATTTATAACTTTTGTGTGTATAAGCTAACAAATTAACTTGGCCAGAATCCAGAGGACCT
R
ATGAAAATGTCCAGATTCTACACGTTGCTGTGTGGTTATTGGAAAGGCATTTATTCTAGTTTGGGTACTGATTATTCATAATTTTGGGCATTTGGTCTTC
Celera SNP ID:            hCV25981951
SNP Position Genomic:     19663
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(A,2|G,36)   total(A,3|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:28433):
CTTCCCTGGGGAATGTTTTCTTTGGATCCATTTGGCTTTTCCAGGTAAGACTTAGCCTGGAACTTTCCAGCAGCCATTTGCCTCACACTTCTTTCTTTCC
Y
TTTTTTTTTTTTTTTGCACTTCTTTCTGTACTACTTTGGGCAGTGCTCTCTAAGCCTTCCCATTATCCTTCATAGGATGGAGCCTTCTGCCACAAGTGAA
Celera SNP ID:            hCV15884114
SNP Position Genomic:     25806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28434):
TTTGTCTTCCCTGGGGAATGTTTTCTTTGGATCCATTTGGCTTTTCCAGGTAAGACTTAGCCTGGAACTTTCCAGCAGCCATTTGCCTCACACTTCTTTC
Y
TTCCTTTTTTTTTTTTTTTTGCACTTCTTTCTGTACTACTTTGGGCAGTGCTCTCTAAGCCTTCCCATTATCCTTCATAGGATGGAGCCTTCTGCCACAA
Celera SNP ID:            hCV15884115
SNP Position Genomic:     25801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28435):
AGGCAGCCCACCTCGGCACTCCTGGGGTGGGGGTGGGGACAGCTGCTTAACCTTTATTCTTGGTCGGTCTGTCGGCAACTTTGGGAACCACCAGTAGGAT
R
TGGTTAAGATTCAGTTCTTGCTGAGCTAAGGAAGCATTTCTCATTTCTTTTTAATTGTCTGGCTCACTTCTAGTCCCTAACTAAATGCTCACTCAAGAGT
Celera SNP ID:            hCV7469256
SNP Position Genomic:     29703
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,15)      total(G,15|A,1) ;SC_12_AA(A,1|G,20)   total(G,20|A,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:28436):
TTGTGGATAAAAAAGTCTGAAGTACAGATCCTAATCTGGTTCTTGCCTTTCAGGCACTGCATTGATCTCTTCTTAGATTTCATTACTGTCTTCAGAAAAC
Y
CATGATGATCCTGGCCATGAATGAAAAGGTTAGTTAGCCTACAACCCAAAGATGAGACAATAATGGCTCCTGAGCTTGGCATGTGTGTATACTTCAGATT
Celera SNP ID:            hCV7469257
SNP Position Genomic:     28739
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28437):
TTTCTCATATGTAAGTGTTTTGACCTTGACTGGTTTTGTACTGCATTTCTTTTCATATCTCTTTGTCCCTTTTCTGCATTTATAACTTTTGTGTGTATAA
S
CTAACAAATTAACTTGGCCAGAATCCAGAGGACCTGATGAAAATGTCCAGATTCTACACGTTGCTGTGTGGTTATTGGAAAGGCATTTATTCTAGTTTGG
Celera SNP ID:            hCV25981990
SNP Position Genomic:     19627
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,1|G,35)   total(C,1|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:28438):
ACTCATTTCATTCAGGTAAGAACGATTTTCTCTCCTGGTTGCTGTGGTACAAATTACATTAGGAAAAAACCAGCTCAGCAAGGTGGTCCAAGGGACCCTG
Y
TCCTCTCTTTAATCTTTATCAGTAGTTTAGGATTTAAACTCAGACATTAAATCAGGACATGTAAAGCCATTTTAATTTTCTGGCAACTGTGCCCCCTCTA
Celera SNP ID:            hCV7469814
SNP Position Genomic:     20154
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28439):
TTACTGCCTTTTAAAGTGGCAAATCACCTGAAAGAATAGAAATCAGATGATAGTAACAAAATAGTTTGAGGGAGAAGAAGATGCATTCAATTCCTCTGTC
S
TCTTTAAGATGGTTGACTATGATTGCAAATATATTGTAGGACACATAAAAATAAAAATGGTTGTGTTAGGGCTGTAGAATTTTAGGCAAGTTTTCATCTT
Celera SNP ID:            hCV7469815
SNP Position Genomic:     19259
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28440):
AAGCTATGTTTAAAAATGGTTCCCAGTGCTAGGAGGATTTAAAACTCTTATAATAAAAATTATAGTAGTAATAGCCTGCTTACTGATCCCTTATTTACTA
Y
CTGTACTCATTCAAATGGTAAAAGGTTTCATCACTACTCTAGTTCACCAGAATGCTTCAGCACAAGTGTACTACATAAATCACTATCGATCTGTCATGCA
Celera SNP ID:            hCV27993177
SNP Position Genomic:     6941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28441):
CTAATTTTTGTATTTTTAGTAGAGACGGGCTTTTGCCAAGTTGTCCAGCCTGGTCTCGAACTCCACACCTCAAGCGATTCGCCCGCCTTGACCTCCCAAA
W
TGCTAGGATTACAGGTGTAATCCTTTCCTAAAGAAAAAGAGTCATCTCTCCTGAAGAATAAGAAAAGGTAAAATTAATCTAGATACTTAGCATTTTCAAG
Celera SNP ID:            hCV7469816
SNP Position Genomic:     10485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,5)      total(A,1|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28442):
CAGGCACCTGCCACCACACCCGGCTAATATTTTGCATTTTTAGTAGAGACGGGGTTTCATCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATGAT
Y
CGCCCGTCTCGGCCTCCTAAAATGCTAGGATTACAGGCATGAGCCACCGTGCCTGGCCCTTTTTTTCCTTTTTTTTTGAGACAGTGTCTCCGTCTGTCAC
Celera SNP ID:            hCV16205186
SNP Position Genomic:     23061
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28443):
CATTTCTTTTTAATTGTCTGGCTCACTTCTAGTCCCTAACTAAATGCTCACTCAAGAGTTTTAGCTTGAATGTCAAATGTCAAAAAATTAATTGGGTGAT
Y
TTTCTCCATTTCTAGGATAAGAAGAAAGAGAAGAAATGAAGTGACCATCCAGCCTTTCCCAATTAGACTTCCTCTCCTTCCACCCCTCATTTCCTTTTTG
Celera SNP ID:            hCV22273363
SNP Position Genomic:     29845
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,15)   caucasian(C,1|T,33)   total(C,4|T,48)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,3|T,37)   total(C,6|T,72)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28444):
TAAATGTAGACCGTATACCTGTAGCCCTTAATCTAATGGTCTTTTTTTCTAACAGCATCCTTCCCACTGCTTTCATGGGCACGGCAATGATCTTTACCTG
Y
TTCACCCTCAGTGCACTCTATGCCAGGCGCCGTAGCTACCTCTTTCTGGGAGGTAAGTGTGAACTGGGAAACAGGGAATGGGGGCTCCTTTTTAGCCAGA
Celera SNP ID:            hCV11478839
SNP Position Genomic:     25415
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:28445):
CTTAGCCTCCCAAAGTGTTAGGATGACAGGCGTGAGCCATAGTACCCTGCCTCCTGGCTTTTTTTTTTTTTTTTTTTTTTAAGATGGAGTCTCACCCTGT
K
GCCAGGCTGGAGTGCAGTGGCGAGATCTCAGCTCATTGCAATCTCTGCCTCCCAGGTTCAAGCGATTCCCCTTCCTCAGCCTCCCAAGTAGCTGGGACTA
Celera SNP ID:            hCV26829720
SNP Position Genomic:     23470
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28446):
ATGGGGTCTTACCATATGCCCAGATTGGTCTCAAGCAGTCCTCTTGCCTTGGTTTCCCAAAGTGTTGGGATTACAGGCTTAAGCCACCATGCCCAGCCAC
T
TTTTTTTTTTTTTTTTTTTTTTTGAGACAGTTTTGCTTTGTCACCCAGGCTGGAGTGCGGTGGCAACATCTCAGCTCACTGCAACCTCCGCCTCCTGGGT
Celera SNP ID:            hCV26829722
SNP Position Genomic:     27521
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28447):
TCCTCTATTTTGAATTTTTTGATCAAAAAACTGATTAGCAGAATATAGTTTGGAGTTTGGCTTCATCTTCCTGGGGTTCCCCTCACTCCCTTTTTTGTCA
R
CCCCATCTGTAGCCTCTTCCTCTACTCAGGCAGTCGACCCGCCACGATGAGAAGTGGGACCAGCAGAGGGCGCCAACTTCAGGAGTCCGCTTTCCCACCA
Celera SNP ID:            hCV25597278
SNP Position Genomic:     30113
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,1)   caucasian(A,36)   total(A,61|G,1)
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,8)   total(A,37|G,1)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:28448):
GGGATAATGGAGTTTTTCTTTAGAAACAGTGCCAAGAATGACAAGATATTAAAAAAAAAAAAGAAAGAAAAAAAAAAAAACACCTACTTTTAAAGAAAAT
R
CCTAACAGATTTTTAATATAGTTATCTCTACCACTTTCTTTTCTAGTTTCTTGATTTTCAGCTCAGGCTGCATTCTAACTCATACTGTGAAGACAAAGGT
Celera SNP ID:            hCV7469240
SNP Position Genomic:     31749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28449):
GCCCTGCCCTGGAGTTTTGTATTGCTGTCAACCCCAGGTAACTCTTTTGGTAGTGTCTTATGTGCTTTTATCTTTATGAATATACCTTCTAAATGTAGAC
S
GTATACCTGTAGCCCTTAATCTAATGGTCTTTTTTTCTAACAGCATCCTTCCCACTGCTTTCATGGGCACGGCAATGATCTTTACCTGCTTCACCCTCAG
Celera SNP ID:            hCV25597279
SNP Position Genomic:     25326
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,3)   caucasian(C,18)   total(C,43|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:28450):
AATATAGTTTGGAGTTTGGCTTCATCTTCCTGGGGTTCCCCTCACTCCCTTTTTTGTCAACCCCATCTGTAGCCTCTTCCTCTACTCAGGCAGTCGACCC
R
CCACGATGAGAAGTGGGACCAGCAGAGGGCGCCAACTTCAGGAGTCCGCTTTCCCACCAGGCTTCATTCACCCAGTGGACCTGAACTGTTTGGTAGAGCC
Celera SNP ID:            hCV25982000
SNP Position Genomic:     30154
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,32)   total(A,1|G,57)
SNP Type:                 UTR 3


Context             (SEQ ID NO:28451):
GTGATCTTGGCTCACCGCAGCCTCCGTCTCCCGGCTTCAGGTGTTTCTCCTGCCTTAACATCCTGAGTAGCTGGGATTACAGGCATGCACCACCATGCCC
R
GCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACTCAGGTGATGCCCGCCTCAGCCTTCCAAAGTG
Celera SNP ID:            hCV29248143
SNP Position Genomic:     27989
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28452):
TTGAAGCCAAACTCCACCTTCTGTGCTTTTTGCTTGGGATAATGGAGTTTTTCTTTAGAAACAGTGCCAAGAATGACAAGATATTAAAAAAAAAAAAGAA
R
GAAAAAAAAAAAAACACCTACTTTTAAAGAAAATACCTAACAGATTTTTAATATAGTTATCTCTACCACTTTCTTTTCTAGTTTCTTGATTTTCAGCTCA
Celera SNP ID:            hCV7469247
SNP Position Genomic:     31714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:28453):
GCTGGGATTACAGGTGTGAGCCACTGTGCTCGGCACTTTTTTTTTAATGTAGTGATTCTCTCAGTCTCATGACTAATTAGTGGTAGTTAAGGGTTCAGAC
K
TGGACCTCTGCAGAGTTCAGAGCGCTTGAGACAGGGCTTGCTCTGTCACCCAAGCTGCAGTAGGAGAGTGGCACTGTCATGGCTTACTGTAGACTCAAGC
Celera SNP ID:            hCV29248144
SNP Position Genomic:     28189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28454):
CTCTTGAAGCCAAACTCCACCTTCTGTGCTTTTTGCTTGGGATAATGGAGTTTTTCTTTAGAAACAGTGCCAAGAATGACAAGATATTAAAAAAAAAAAA
R
AAAGAAAAAAAAAAAAACACCTACTTTTAAAGAAAATACCTAACAGATTTTTAATATAGTTATCTCTACCACTTTCTTTTCTAGTTTCTTGATTTTCAGC
Celera SNP ID:            hCV7469248
SNP Position Genomic:     31711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:28455):
TCTATGCTGCATGACTTCGATGAGTCTAAAGGATCTCAGACACCAGAGTTTTACTTCCTTAGTTGGGGGTAAAGTGTGGGAGAAGCTGGCTCGTGGGGGT
R
GGGGTGGGGTTTATATTCTGCATCTTTGTGGGCTTGTGGATAAAAAAGTCTGAAGTACAGATCCTAATCTGGTTCTTGCCTTTCAGGCACTGCATTGATC
Celera SNP ID:            hCV29248145
SNP Position Genomic:     28605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28456):
GCAGAGGGCGCCAACTTCAGGAGTCCGCTTTCCCACCAGGCTTCATTCACCCAGTGGACCTGAACTGTTTGGTAGAGCCACCCGGCCCTTCCTTCCTCAT
Y
GTTGTTTGGTATGCGCACAGTTCCTGTGGGACTGGGCCGTGAGTTTTCCATTGGAAAGAAGTTCAGTGGTCCCATTGTTAACTCAGCCTCAAATCTCAAC
Celera SNP ID:            hCV7469249
SNP Position Genomic:     30276
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:28457):
AGTGTGGGTGGACAGTCCTAATGGGGATCTCCAGCTCCTTCCTGTGGGCTGCCACAGACAGCTACCCCCAGAAGGGTCAATGTTGGGAGTGGTTGTGGCT
Y
TGAGCTGCTCTACAGAGCTTCAGTGTGAGAGGATCGAGCCATTGAAAGCTCATTACCAGTAGGACATAATTTTTGGCTCTCCCTATTCACAACCAGTGCA
Celera SNP ID:            hCV29248146
SNP Position Genomic:     31243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:28458):
GGAGAGAGATTTAATTCTTTAGTCCACGTTTGTTAAGAGCATGAGTATGCCTATATTTCGGGATCAGCTTTTGGATGAGGATCCTATTCAAGAATTGATC
R
TAATACTGTGTTCTGGGTTTTCTGTTTTCTAGGAGTTGGCCTGGGCCCTGCCCTGGAGTTTTGTATTGCTGTCAACCCCAGGTAACTCTTTTGGTAGTGT
Celera SNP ID:            hCV22272893
SNP Position Genomic:     25181
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,6|G,20)   total(A,9|G,53)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(A,13|G,25)   total(A,15|G,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:28459):
CTTTTGTCTTCCCTGGGGAATGTTTTCTTTGGATCCATTTGGCTTTTCCAGGTAAGACTTAGCCTGGAACTTTCCAGCAGCCATTTGCCTCACACTTCTT
Y
CTTTCCTTTTTTTTTTTTTTTTGCACTTCTTTCTGTACTACTTTGGGCAGTGCTCTCTAAGCCTTCCCATTATCCTTCATAGGATGGAGCCTTCTGCCAC
Celera SNP ID:            hCV15884056
SNP Position Genomic:     25799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28460):
TTTGCTCTTTATCCTTTTTTTCTAATTCCTGATCTGGCCTATATTACCATCTTACATCACTCTAGCTCTGAAATGTTTGGCATGCCTACTTTATTTTCTT
S
TAATCTCTGTACCCTCCCTGAGGTCATCCATGATTTTCAGCTAAGAGGACAATTTTGCAGCTATTTCTATAAAAAAAAAAAAAACAACGCAGTCAGGTAT
Celera SNP ID:            hCV15924793
SNP Position Genomic:     24950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28461):
CTTTATGAATATACCTTCTAAATGTAGACCGTATACCTGTAGCCCTTAATCTAATGGTCTTTTTTTCTAACAGCATCCTTCCCACTGCTTTCATGGGCAC
R
GCAATGATCTTTACCTGCTTCACCCTCAGTGCACTCTATGCCAGGCGCCGTAGCTACCTCTTTCTGGGAGGTAAGTGTGAACTGGGAAACAGGGAATGGG
Celera SNP ID:            hCV7469808
SNP Position Genomic:     25397
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,12)   caucasian(G,26)   total(A,8|G,38)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Gene Number:                 114
Celera Gene:                 hCG2023558 - 209000072114878
Gene Symbol:                 TF
Protein Name:                transferrin;PRO1557
Celera Genomic Axis:         GA_x5YUV32VYQG(61828877..61910318)
Chromosome:                  Chr3
OMIM number:                 190000
OMIM Information:            TRANSFERRIN;TF


Genomic Sequence (SEQ ID NO:12274):
ATAAGGCTTGGTAAGTTTTTGCTGCTGTAGTCACTGTTTTTAGATTTCTAGAAGGGTAGTGAAAAGGTCAAAAACAAAGAGCATGTATGTGCATGTTTTT
ATCTTGGTGACCTTATCTATAAGTATACTTTTTTACTCTATTAGAAAAATTAATTGATTAAAATAATAAGTGAATTATTAGTGTATTATCTAGAGAAATG
AATTATTTATTGAAAATCTTTGTTGTGCCAGGCACTGAGTACAGTGCTAGTGGGATTATGGGAACAGATTTGAACTCCATTATCTGGAAGAAACATATCC
CATAGAAACAGGTTAAATGCATTTCCTGAGTCTGGCCATGTTAATTGCTGGGTTGAGTGACTATAGCCACAAAGAAGGGGTGGTGAGGTCATATCCAGGA
CGCAGCATGGGTCTCATCAGAGGACACAGAGATGTCCAGGGGGCATGACCTGGGTTGGAACTTGTTCCCAGGTCAACAGGCCAAGAGCATGTCCAGTTTT
CTAAACCCTGTGTTTACATGGCAGAAGCTTTGAGTGATCCACAATTGGTTAATCACAAGGATGTTTACATGAAGCCAGTGAAATGAGAACCTCTGAGGGT
CAGAGGCCCAGGAGACAGCTATTGTGCTATTGATTTGTTTCTTAACTTCAGAAAGGGGAAGCTGATGCCATGAGCTTGGATGCAGGATTCATCTACATAG
CAGGGAAATGTGGTCTGGTGCCTGTCCTGGCAGAGAACTACAGTAAGTGGAGGGGAGTGTCCGTCTCCATTTTTTCTGTCCACAGTTCCCCTGGGCTGTG
GGCATAGAAAGATGAGGAAATAACTTAGTTTAGTGTTGAGATAATAACTATTGTTGGAATGTATGGAGCTAGTAGAAAAAAAAAGTCTCCCTCTCCTGGA
GCCAGAAACAATTAAGATATAGACAAAGGAATCAGGCAGAAAGAGATCAAAATAACACCTTTACTTCTGAGATTGTGATACTGGAGTGTGTGATGTAGAG
CTGGCACGGGGCTGCAAGTCACCCTTACCTTAAAGTTGCCCACTAGTTCAGGAAAACGGGTCTGATGGCTTATGCCAAGACTAAGGGCAAAGGGAAACAC
ATTTTATCATAGGTGAGAAGACCCAAACAACTCTCTCCCCATTGTCTTCAAGAAAGAAAGAGGGGCTGAGCCACATGTGCTCATGATCCTTCACCCAGAT
GCACTGGGTGGTTGAGAAGGTGGGGCTGCAAGGTCATGTTCTTTAGTGGGGATCCATCCACATGGAAAAATGAAGCTGGTGTAAAAGAGGGTTTCCCTAA
TATCATTGATTACACCTCATCTGCTACATTATCTTTCAAAACAAAACGACTCTGTGAGGTAAATAGTGGTATCTCCATTTTATAGCTGTAAAAACTGAGG
CTTAGAAAAGATAAGTGATGGGTCGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGACACTGAGGTGGGTGGATCACGTGAGGTCAGGAGTTC
GAGACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCGGGGCATGGCAGCAGGTGCCTGTAATCCCAGCTACAGGGAGG
CTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAACAGCAAAACTCCATC
TCAAAAAAAAAAAAAAGGATAAATGATGTTTCCATTGTAGAATAAAGACTGAATCCAGATCTTTCTGACTCCCTGGACTGGGTTCTTTCCCTCCCGTATA
GCAAAAATAATGATTGCCTACCACAGTCTAAGACTCTGAAGGGAAGAAAGATATCAGGATGACTTATTACACAGCTAATGCAAAGGGATATGACCTCTCC
CTCTCTTCCCCTTCAATGAGCACCTCCACTTTCTTTGCCTGCATCTGCTAGAGTACTGGGGAGATTTTGGGATGGAACCTATCTTCAAATAGGAAAGAGC
AGAAGAGGGTAAAATGGGCTTGCAGAACCTTAACCCACTGATACCCAATGATACCTTGCTCATATTATTATTGACTATTGAGATTGAGAAGCTCCTGACT
TTGGATGGAGTAATGTGAGGGTTTAATGTCATGTACCTTGATTGTTTTTCTTTTTCTTTTTAGAGCAGTTTAGGTCTAAGTGTGTGAATTTACCCATGGA
AGGTGAGTTAGAATCAGTAATACTGGCTCAAAGGTAAAGGCCCATTGTTGGGGAGAGGAAAGCTTAAAAACAAATAAAAATGACTGGAGGTGGAAAAAAA
TTCACAGTTAATTGTTAAGATGCAAACCTATCCTGGGGTGTAATAATACTATTTGCAGGGCACTTTATAGTTGGCAAAGGACTCCTGTTTGCACTATTCC
TGTTCCCTCTTCTCAGCAACCCTGGAGTATGTGGGCATTGTTGTCTCATGTTATGGAGCTGGAGTCTGAGACTCAGGGACTGAGTGACTTGCCCAGGGCC
ACACTGCCAGGAGGCGGCTGCACCTGGGTTTCAGAAGAGGAGGAATGGCTGGAAACCCCAGGCCCTTCCTGGCACCACACTGCGCCTGAGCACATGCTGC
CTGCCCATCTCTGTGTGAAGGTCCACACTGGGGCCCATTCCTGGCATTTCTGGACTAAGTAGAGACCTCACGAGAGAAGGAGATTCATAGATGCTGATAA
TGAAGATGAGGAGGAAAATAAAATCCACCTTTCAGCTTTTAGCCAGCTGGAGCTTGATGGCAGGGGAGTTGATCAGTCTTTAGAGTAGAAGACCACCACT
AGGAGGCAAGTTCCTCCGTTTTGTGCCTCCAGATAAGCAGAGAGGGTCTGTCTCTAGTACCTACTCCTGGAAAATGGATAGAACAGTGGTTCTCAGGTGT
AGTCTCTGGACCAGCAGCATCAGCATCCCCTAGGAGTTTGTTGGGAACAAAAATTCTGGGGCTCCATCCTAGATCTGAGTCAGAAGCTCTGAGGCTGGGG
CTAGCAATCTATGTTTTAACAAATTTAATGCGCATTATGGTTTGAAAACTGCTGTGATAGAGAATTCCCTGAGGTGAAAACCAAGTGCATACTTGGGTTT
AGAGTTTCTTCTGAGGCAGGAGGGCTGGGGAAGTTGAGGGATTTAGAGCATCACAGCACAAGGAGCTGTGGTCTCTGTCCCCTGCTGAGCACTGGGTCAT
AGGACCCTGCACAGCCCACCCTGCACAAAGGCCACTGGAGTGCAAAGTTGAGGCATCATTTCCCTGCTCACCTGCAGCAGCTCCCCTTCCTGTGTGGCAG
GACCCCAGCCCGGGGATATGCTGTACCTCATCCCTCTCTGCTGTCATGTCTAAGAAGCCTTCTTTAAATTGTGTCTTCATCCCTAATCCTGAAGTCCAGC
AAACAATCTTCTATCTGCTATGTATTCTATTCTGATCATTTATAGTCAGAAACAACCCTAACTGCTTCAAGAGTAGTTGACATATTCAGAAACTGCAATG
ATACACAAATGTAGATCAGCAAGCATACTTAGAGGATGGTTTAGTCACCAGCAGAGTGACTGACTGTGATGGAGAAGGTGCCATCTGAGTAGAGAGGGGG
AGAGTTAACCTCAGAGTCACACACACACACACACACACACACACACACACACACGCATGGAAAGATGGATGACAATAATGAATGCCATAGGTACAGAAAT
AGTGGCATTGAAGGAAGGCACTATGACAGCATTTGGCTACCAGACTGGTGTCATGGACCGCAGTGTGGTAGGCAAGGGCTTGCCATGGCCTCAGGAGAAC
CTGCTTCACTGGGAGGGGCCTCCAGTCCTGCTTCTGCACTACTGCTGGAAAGCCACCTCCCTAACCTGCTCTTCCCATTCCTGATTTGCCTGTGCTCATA
TCTGCACCTCTGATCCCCATCAGTCACTCCAGGAGGGGTTCCACTGCCACCATTTAACTGAAGAAAAATTTAGGCTCCTAGATGATAAGGACGTGTCTGA
GGTCACCTAAGAAGGACAAGACGGACCTTCCATCTGCCATGTTGACTCCCAACTTCTCCAAGTTTGAATTTGTAGAGACCTGATCTACAACACAGAGAAA
AGGTGTGTACGTGGGGAAAGCAGGGAGTGGTGAGCCGCATTATCGTCTAATTCTAAGAATTTATGATTCAAATCTTATGATTCTTTTCAGTTTGCAGTTC
AACCTAACTCAACAAGCACAATTCAGTTATATAGTATTGGCACTGGAATAAATGAAATATTCATGATATTCTCATTAGAATCAGGAGCAAGGCAAGAATG
CCCACTCCCACCAAAGACATTCAGCATTATATTGGAAGTAAATGCAGTAAGATAAGAAAAAGAGTTGGGTTTTTAAATATTGGGAAAGAGAAAAGAGATT
AAATTGTCATTATTAGAAAATATTATTGTAAACCTAGAAAATCAGAGACTTAACATTAAAAAATAACTCATTAAAGCTTTCTTTTGAACTTATATTCAAC
AGAAAAACTTAAACAAGTGCATACTCATAATTACAAACATTTATAGAAATAAATGGGTTTTAGTAGGGGAAAATGGGCCACAATAAAAATACCTACTAGT
ATAGATATGATACATCCATATATAATAAGATATAACTTAGATTCAGCCAAATAAAAGAATGATGTAGCCATATCTATCACTACTGAATCAAAGAAGTGTC
CACAATATATTATTGAGGAGGAATAAAGCAACTCACAGAAAATAATGCAGCAAGACTCCGTCTCAAAAAAAGAGAAAATAATACATAGCAAGATTCTATT
GAAAAAGTACGGTGTATGTAAATATATGTGGGTGCATGTATGTAGACATAGCTAGGGAGCAGTAGTGTTAGTCTGTTTGGCTCAGTTCCTAATAATGGTA
GCTATTGGGAGGGTCCTCTACTAGAGTAACATGAGGGGTTCAAGATATTCCCTCTCCCCAGGGAGAGTGACAGGCAGGGGCTAGCAGCAGTAGCTCTAAA
ATATATTTTCAGAGTGCCCTGGAGGTCTGATAATAGTATCTTGGCACCCCTTCCACTAATATATATATGTAAATATGTGTGTGCAAACATATATATATAA
TTTATAATGTGTGTATTTATAAATATGTATACTTATATGTATATATGTATAAATACATAGTATATAAGTAAATACTATATGTATATATTTAAATGTATAG
GTTTTTTTTTTTTCCGAAAGAGCAACTTGCTGCCAGCAAAGTCTTCTCTGAGATGGTCTTGCTGTCTGCTTGAAAGGACAGACAGAGTACATCACTGAGG
GGTCAGTAAAGAAATGAAGCACTATTTTAAGCAGGAAGGGATTTAATACAGGGAATTAAATGTTAACAAAAAGTGGACACTAGGTTCCTGGAATGACTCC
CACCCATAGTGAAAGAGAGCTGACTCCCTAGGAGACCTACTACCTGCAAGACCTCTACTAGTACAGTGATTTCAAGACACATCCTGTAGCTGTGACCAAG
GGATAGGAAGCCAGAATTGATAGTGGCTGCTGCTGCTGCATTTGCTGTAATAGCTTCTAATCCTCTAGGATGGAGAAGGGATACTAGAGATCTGGACAGA
AAAACCTAACATCTCCAAGAATTTATTTCCTAGCAGAAAAGAGGTGAGGGGGAAGGCAAAGACCTCTATGTGACTTCCACCTTCCAAATTTCACACATCC
TTTTACACTAAGAACACAGCTGCAAGGAAACATTGGAAGTGTAGTTTCCATATTTCCAGCCAGAAGGGGGACAGGATGGAAATGGAGAATACCAGCTCCA
GCATAGCCACCATATGGAGATGGCATTTAATGGCCCGGTGCAGGAGGGCTGGCCAGATCTCACTGGATCGTACATTCTTCCTCCTCCTTCCCCTTCTCTC
CCTGAAAAAGAAGAAATTGCATCTTGGTATTTCAATTTCTAGGCTATTATGTCATGGCTGTGGTTAAGAAATCAGATGCTGATGTCACCTGGAACTCTCT
TTGAGGCAAGAAGTCCTGCCACACTGCAGTTGGCACTTCTGCAAGCTGGAACATCCCCATGGGCTTAATATACAATCAAACCGGGTCCTGTAAATGTGGT
GAGTATGTTCTGGGAGGTGTTGTGGCAGTTCATTCCCTGTGCCTGTGCCTGGGTAAAGGAGAAATTCAGTTTGATGAATGGCAGAAAATGCCATAAATGG
GTGGTGAGCTTAAGAGCTTGACAGAAATTGTGGGCGAGCCTCACATCTCCTTGAGCAGGTCCTCCTCCTTCTCATCCTTTTGCTTCTGAGGGAAATACCT
TGGCCCAAAGGGCAGATCTCAGGGAAATAGCTCTATTTTTGATGTCTCACAAATGGCTCAGGGAACAAGCCTGGGTTCGCAAAGCAAGACCAGCCTGGAT
GCGTTGGTGMGCGCGAGTGTGTTGTTTTCACATATAAACCGAAATGGCTGCCTTCTTAATTGGAAACCTTCCACCAGTAAGTCCTGGAGTGCTGTTTTTC
ATGTTCATCCTCATCTCTCCCATCCAAGTACTAGCAAGGCCTGACCCTGCTTAGCTTCCAAGATCAGACAAGATCAGGCGCATTCAGGGTGGTATGGCCG
TAGACCATCCTCATCTCTCTTAGATGCATTCATCATTTCAGCTATGCTCATGCCACTACCTAAGAGGCTCCTGCTCCTCTGCTTTCCCCAACTCTCTGAA
AATCCCAGCCCTGACTGAACCCTATTACCTGCTCTCTTTTTTACCTGAGCAGCTGAACGTGGCTGGAGAGCGTCACAGCGCGGCAGAGCAGTTTGTGTCA
CTGGAATGCTTCAGGCACTGTCGTTGGTGTGCCCCCAACATTTACAAGCGCCCCCACCACTTCTCTGCTCCACATGCCACATTTCCCGGTGATTCTCCTA
ATGTCCTAATTGTCCACACACCTCAAACCCACACCATCTACCACCTTTCTTAGCAGACCATTTCACCTGCACCTGCAGGAGACAAAGAAACCATCAGAGA
AGTTTCTCTTAACATCCCCCTGCCAAAACTGCGGGCCTCCTGGGGGCTGCACCTCCCCACCTCCTCCCTCCGCAGCCAATCCCTCTACCTGCACTTGGGT
GCGGGTCACTCCCATGTTCCCTTCCATGGTCTCAACCCTCAGTTATTACTTCTCCTTCTGGTGTGTCCAACAATTTCTCTCAACATGTAAACACACCGAA
TGTTTTCCATCTTTAAAATTGGCCCCCCYACAACATTCTCCTGCAGCTCCTGYCTTCCTTCCCTCCTCCTCTTTAAGGCCAGAGTGATCAAAGTGTTGTT
GGAACCACTCCCCTTCCACTCACTCYTCAACTCCCTGCCGCCTGGCTCCTCTGCATCACTCCTCAGGAAGGATTCTGGTCAAGCCACCAGTGGCCTCCAT
ACTGCTCAGTTGGAACGATGTGCTTCTGTTGCTTCCCCCATGACCTCTCAGCAGCATTTCCTCATTTCGCCCTAAAATAATATCTCCTGGCTTTTATGAA
AACACACTGGTTTGTTTTTCTTCTATTCTCACAAGGTCCCCATTTCCCAATCTAGTTAAGAAACGTTTGCGTTGCTAAATGAAACTCTTTTTCCCAATCT
CAACGGAATCCCCAAGCACTCACATCCAYGCCCACAGCCTCAATTGCCATCCAAAGGGGTGTTACACAAACAAAGCTAGGCACATGATAAGCACTAGGTA
AATGCTTTTTATCTATCTCTGTGTTGATAATTGTCAACACAGATCTCTCAACACAGATCCCCAACACAGATCTCTCCTTAGCCTCCAGACATGTATGTAT
TTAACTGCCTATTTGACATCTCTAGATGGATATCTCAAAAGCACACTAAGCTCATCCTGTTCAAAACTGAATGCACCATCCCTGCCGAGCCTGGTCCTTT
TCCAGAACTACCTGGTGTGGTGGAGGATCCTACAGTCCATCCTCTTGTGCCCACTGGAAGCCTCATCCTCCGCATAGCCATCTATCTCCAGGGGTGCCAA
TTTCTCCTCCTTCCACTCATCTCCCTCCCCTTTGTGCTCCTCTAGCCCCAGCTGCCCTCATTTCCCCTGAACTTCTCCAGGAGCCTGCCACCTGAACTCC
ACATCCGCTCTGGTTTCCATCCACCCTGTTGCCAGGCCAATCTTTGCAAAGTGCAGATATGACCATATCCAGCTTACTGCCCCTGGCCCAGCATTGTCTA
AAACCCTTCACAGACTTCTCATCTCTCTAACGATAAAGAACAAAACTAATGACAGTAAAAGGGTCTGGACCCTGCCCCCCACTGCACTCACCGTCATTTT
CTTGGTGGTTTAGTCCTGAAGGCCTCCATGAGGCTCTCTGTGCCGTGCCTCCACCCCACCCCAACACAGGCCTGTGCAGATGCTGGTCCCCTGTCTGGAG
GGCTCTTCCCCTCCACTCTTCACTTGGGTAACTCCTACTCACTCTTCATGTCTCGGCTTAAACCTTCTCCCTGACCCCTAGGGCTGCAAGGGGCTCTTTT
ATTGTAGCTTCATGGAACCCTATAATTTTTTCCCAGAGCAAAGAGGGAAACATGAATTTACTGGTGTGGTTACTTGAGTTCTGACTATCGCCCTACAGGC
TGCAAGTTTTCAAGAGGGCAGAGCCTGTGTCTGATTTCCTCATGGTGGTGCCCTGGAGCCCAGCACAGGGCTTGGCAGCTGTGCCTCTCTAGACTCTTCC
TGGACTTGAAGCTGTGATGGCACACCTTGTGAAAAAGGGCAATGGCAGCAGAGCCCAGAAAACATGTGCTCCGGGTTCTGCGAGCCAGGACTTCTCTTTT
GTCCCCTCACTGTTAAACTCTGTGTCCATCTTTCGATGCCACTGCCCTGTGCTGGGATGGAGTAGACCCCTGTGAGCTCACAGACCCTTGATCCAACTTG
AGTCAGTTCCCCTTTACTTAGCTCCAGCTGGAACCTTTTTTTTTTAATTCCATAAAGTCTTGCTTTTAATAATATGTTACAAATAACTGAATGTGTCTTT
ATCAGGCAATTTTGGGGACAGAATCTGAGGCTTTCTTGCTAACACAGGCAGGGAGGGCTGATCCTGACCTCTGGTTGTCCTTTCTCGCAGATGATTTCTT
CAGTCGCAGTTGTGCCCCTGGGTCTAATCCGGATTCCCCTCTCTGTGCTCTGTGTGGTGGCAGGTGCAATCCTGCCCACATATGGGCTTACAACAGCCAG
GAGAGATACTACRGCTCCAGTGGGGCTTTCAGGCAAGTAATGTCTGTGCACCACCTTTATCTTTGCACCAAGCCAGTACATTTCTTGTCCTGTCACTTCT
TCCATCATCCCAGCATCTGGCTGCTGCATTTGGAAGGAGCCAGAATCTAGGAAACAGAACTACTGCAAACTTTGAATGGCTCCAATGACTCAAGTCCTGC
TCTTCTCTAGGGCACTCTCCTGCAGACCCAGATGATTTAGGGCACCTTASGGCACCTAGGGAGAAGCAAGAATGATGGCGGCAGAGTCACAACTCTAGTT
CTACTTTTGCCACTTTCTTCTGTGTGACTGTGGACAAGTCAAGAATCCATCAGAGCCTTGGTTTAAAATCACAGGGGGGACACCAGACACCTCACTTCTT
ACACTTGGCTGGTAAGTATATTTTAAAAATAGATATTCCTGGGCTCCTCCATCCATTCAAGAAATATTTATTGAGCACCTAATAGGTATTGTTCTAACTA
GAGGTGTTACAGCAGTTAAGCTGTTACCAACCATGGGTTGTTGGGCTCTCAATGCAATAGAAATTGTCATAAGGCCAAGATAGTTTTCCCAGACAAGGCT
TTGTTGGAGCTTATGCCCAGGAATATGGGAGGCAACACAAGAGAGAGAGAATTTTCTGGCTGGCTCCCCAGAGGGTGTTGAAAAGGAAGTTGTAAAGGGG
CYGCGGTGAGAAAGGAGTGATGTCTAGGAATGTAGAGGCAGGGAACTTTTAGCACCTCCACAGTTTGATGACATGCTTCTTCATGCATCGCTTGTCTTAT
AAGCATGTTACATCTCCACCCCTGGGTGTGATTTTTAGTATTATAATGAAGCTAAAGTTAAGGATCAGTCATTCTCCTGGCCTTGCGTGCATGTGGGAGA
TAGTAAGATTTATGGTGGGAGCTGCTGCTTTTAGCTTCCTCAGGGTCCGGCAGTCAGCAGGTATGGCTCCTTGAGCAAGGTTTATGTTGCAAGGTCTGGA
GGGGCTGGTTGGGGTCCCTGCCACCCATGGGGCCTCCCCTCTACCAGTTTGCAGTGAGGTCCTTGGTGGGGTATGGGGGGTACCAAGTCCTGTCCCTCTT
CTGTCTCAAAGCCACACATAATACCTGTCCCTCCCCTGCTCCCAGTCTTCTGGGGAAAGTAGGACAACAGCACATAAATAAAGGGCAGGATACTTTCCAA
CTGTAAGTGCTACTGAGGAACCAAGGGAGGTGATGCATCAGCAACCAGTTTTAGAAATTTCAGAAAAGGTGGTCAGGGCAGGCCTCAGCAGGCAGAGGGG
TCATGTGGGAATCAGGCCTGAGAAAACCTGGAGGAAGAGCAACGTAGGATGAAGGAACAGCAAGCACAAAGGCATGGGGGCAGGGCAAGTCATGCTGTGT
GGAGGCCAGAGAAGAAGGTCTGTGGATGAGGGCACAGAGAGAGAGGCACTGGCTGTCTCGGAGCCCTGTTGGCCTGGCTAAAGACGTAGATTTAACTCTA
GGTATTGTGGGCAGTGCTGGACCTTTGAGGAAGCAGGGCAGTGCTGTATGAATGAGTTATGTGAACAATGTATGAGGCTCTAGAAAGTTCTCTTTTATTC
ATAGACACCAGGGTATTCCACTACCAGACTACTTTGTCCTGCCCTCTCCAAAGTTTTCTCTCTTTCATAAGCCATGCATAAATTACATATTTTCACAGAT
CTACAACAACATATACTATTATTACATTAAATCTGGATGAAATTGCTTAATTTTTCTTTACATCAGAAGGTGCATTGGTGTTAGGCTTGATGGTCTGTCT
AGAACCACAACTTCTTCCAAAATGAACATACACATAAAAAGCAGTCTTAGCTTCAAACCTCTCATTCTCTCCATCTCCTACCTGTCTTTTCACTTCCTTG
AGTTGTTTTTTTGTTTGTTTGTTTGTTTTTTTGATGGAGTCTTGCTCTGTCACCTAGGCTGGAGTGTGGTGGTGCGATCTCGGCTCAATGAAACCTCCGC
CTCCTGGGTTGAAGCAGTTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCACTACCACACCCAGCTAATTTTTGTATTTTGAGTAGAGA
CGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCA
CCACACCCAGCCCTTTAAGTTTCTTGACTCCTCTAGCCATTCACTCCTGGCTGACCTGTGATCTATCAATCCCGCACCTTTCCCCGTGGTCTTTTTTTCC
ATCCTTTCTGAGCATACATTTCACAATCAACTGTGCCTGCACTTCCAGCCTGGCTGGTTTCCCTTTAAGTGATGAGGACCTTGTTAAATGAGCCATGTAT
CTCTAGTCCTCCCACTACCCCATTTCTCCTAGAAGACAATTCCATACTTTCTCCTCTCCTTAAGCCTCCAACACTTCTTCCCCCACCTTTCATACCTTTG
TTTCCTATTTCTCCTAAGAAAAGAAATCGAAAGATAAATTCTACAACACCCTGCTGCCATATCTACCCACATGCCAGCATCTGTGGCCCTAGTCACTGCC
TTCCCTCCTCCTACTGGGGTGAACTGGCTGTCTCCTCGCTAAGTCCTGTCCTGCACCGGTTCAGGATTGTTGCCCTGGCAGTTCTCCCTTTTTCTGTGGC
AGCATCAAATCTTCTTCTCTACTAGATCATTTCCATCAGCATACAAAACATGCTGCTATGTTTTTCCATCTTAAACACAAATAACTAAGTAAAACCTCTC
CACCTCACTTTCCTCTCCCATTTCTCCTCTTCTTTTTACAACAAAATTCCTTGAAAGAGTTAAATATCTTTGCTAACTCATATTTCTCCCCTTTAAATCT
CCCCAGGACCCAGTTTAAGAATCTGTTCAGGCCCCAAACTGCCAACATGGAGTTGGTTTTATTATTGTTTTTCAATGATCTACAGAAAATATACCTCTTT
ATTGTCAGAGTATGGGCAGACTACTCCCACCACTCCAACCCCCTTGGTACACCACCGACCACTGTGGAGATGAAACTATACCAGTGATCTCTGTTGCTAA
ATCGAAAGGCCAGTTCTTGGTCCTTGTGTTGTTGCAGGATTTTTAAGGAATCAGCTTACACACTCTTTAATTTCTTTTAATTCCTGTTCCAGTGTTAATT
GAWCTACCAGCATCACTGGCAGCCCCCATCACTTCCTCCTCTTGGATTTCTTCCCTGGCTTCTGGAATACCACACTCTCTTGGATTCTCCCTTCCCCCTC
CTGACACTGCACCTCAGTCTCTTTTGCTGGTTCTGTCCACTTCCCCAGCCTCTACATGCTGGCATGACTCAGGGCTCTGTACTTGGAGTTCTTCTCTCTG
CTGCCCATTCTCTTGGTGGGTTTATCTCTGTATGCTGACAATTCCCAAATTTAACATTCTAGTTCTGACATTTTCCTGAAACCCCAGACCTGTAGATCCA
GCTGCCTACTGGCTATCTCCACTTGGATTTCTAACCACCATCTCAAACTTAAATGTCCAAAACTGAGCTCCTGAAACTCCATACACTCCCACCCAAGTGC
TGCATCCTGTAGCCCACCTCATCTCAGTTAAGGGCAACTCTATTTTTCATTTTGGAAAAAATGTCAATACCTTGCTGCTTTCTGTGCCTGCCCTTGTTCT
CTCTCACCCCATATCTCGTCCATCACCAAATTATATTGGTTGTACCTTCTCAAGGTATCCAGAATCGATCTCTCTGCCCATCTCCACTGATACCATTCTG
ACCTAAACCACCATCGTCTCTCCCCAGATTTTTATCATAGCCCCTTGACAGGTCTCCATGCATCTGTCTTGTCCCACTCTCCTCCACAACACATGAGCCA
AAGTGATTCTGTTAAACTTAAAGCATTACATTAATACTTCTCTGCTCAAAGCCCACCAGTGATTTCCCATATCACTCGGAGTAAAAGTTAAGGTGCCTCT
TTGATCTGTAAGGTTCTTTGTAATCTAAGAGGCCTTTGCAACCTCATCTACTTCTTTCCCTGTGCACTCTCTGCTCCAGTCAGCTTGGCATCTCGGCTGT
TCCTTGAAGACCTCAGGCACACTCCTTCCCCGGGGACTTTGCACTTGGTCCTACCCCCATCTGGAGTGCTTGTCTTCCTCAGATCATCATGGCTAGTTTC
CTCATTTTATTTAGGATTTCTCAGGGCAGACTTTCCTGGCCACTCTGTAATTTTCAACCTATAAACACACATGCTTGCACATACCCTTGCCAATACTTCA
TATCCCCCTTTCTTGCTTTATGTTTTCTTTAGCACTTATTACTCTCTAGCTTGCTATATATTTTKTCTACTTACCTTGCTTCGTGTCTCTTTTCTTCTGT
AGAATGAACAAGGACCCCGTTGGTTGTAAGTGAGAAAACCTCATGTGAAGCAGCTTACACCAAGGGCACTGTCTTGACAGGTGCTCTGGGTGCTCCCTCC
TTGAAAGGGCTGATACCTGAGMCTAGGAGGCCAACGAAAATTCTTTAAGGGTAGGGTTGCCACATACAATTCAGGATGTCCAGTTAAATTAGAATTCCAA
ATAGACAACACATGATTTTTTAATATAAGGGGATACACTCTGCTTCTCCCGTCTGCTTGTCTTTCTCTGCACATCTGCCTCATTGTTCTTCTCCCCTGCA
GGGTGGGTTTTGGTTTCTCAGGCTACCTGGAGGGAAATGTTTGCAACCAGCAGTCCCAATGTTGTTACAGTTCATCAGTTATAAAGGAGCAGTCAAACAA
AGACCATAGTGTATTCGTCCCAATGCTCAGGAAGGGGGATTGACACAACAGTCTGGGCGAAAGCTTCCTGTTCACWCAACTCATGCAGTGAAGTCACATT
GTAAGGTGACAGCTGCCTCCACTGTGACCACATGGATTGAGGCGGCTGGGGTGGGGGGAGTTGGTTCTCAAAAAAGTAACAATGCTTGAGGGACCAAACA
AGGACTGAATACACAAAGGGAATTTTGTTTTCCTGGATACAAAAATCACATTATAATGATGTAATAATGGTTTAAGGATGGTTTAAGTGCAAGAATGACA
AATAAGTGGAAAAGAATTGAGGTCCAAGAGAGATTCATGGATATATTGCCATTTGGTCACAAATGGTGACATTTCAAATCACTGGGGAAAGAATGAACTT
GAGAGACCCAATAAAATATATGCCAAGAACTGGCCCCTGTGCTCCCTGATGGGAGCACGTTTAATCATGAGTGAGTCCTGGACGCTGGATGGGCAAGGGT
CCAGGAGAGTGGTGGGAAGGGAGAGTGGTGGGAAGGGGTGCTGATGGTGAGTGAGGATGATTTCTTTTAGGTATTTGTATGAGTGGGAAGAGAAGCCCAT
TGCTGGAGAATAGGGTGGGATAAATGCAGGGTTTGTTGTTTTTGTAAAATGAAAAGACATAAATGTGATGAAAAGGGCCCAGTGAACAGGGAAAGGTTCT
AATTGAGTAAGAGAAAGAGTATAGCTGTAGCATAAGGTTGCCAAGAGTGAGGGCAGGGTCCCTGGTGAGGACATGTTTGCTGGGAGGGAGACCTTCCCTC
CTCTGTACCTGGACGGCAGAAGAGGGCACTGGAGATGCAGGCTGGCAGATCTGTTGGAGGGATGCTGAGAAAAAGCCACATAATGAATTCTGTGTTTTCT
CTGGGAAGCAGGAGCACAGGTCAGTGTATGAATGTTGTGGGGTAGGGGGATGTGGAGAGGCAGAAGTTTGTGGAAAGTGGGAAAATGTTTGCTCTACAGA
GCAGGGAGGCAGCTGTCTAAAGCAGTGGTCCTCATGCTTGAGCATGGATCAGAATCTCCTGGAGGTCTTGTTAAGGCACAGGTCCCTGGGCCCCACCTCC
AGAGCCCCAGAATTTGCATTTCCAACAAGTTTCCAGCCAACACTGATGYTGSWGGTTCCTCACCTCCAACTTTGAGAACCATTAGTCTAGAGTAGAGAAA
GGAAAGCAGGAACGCTGAGGTGAAGTTAAGGATCAGGAAGGTTTCTTTTTGTTTACCTACCTTGCCCTGAAATAGAGACACATGTAAGACAAGGGATCAT
GCTCATTCAGGACTGGGATTCTATGAAGGGGCATGAAGGAAAGACATAGGGTGGTGGAGCTTARGAAATGTGAATGGGAGTGATTGATCCTAGCTAGGTA
TAGAGGGACCTGAAGATAGGAGAGAAAACTGGAGAGGTGCTCCTGACAATTGCTAGCCATTTCCACCTAAGTGTCATAACACTGATTTTGGATGTGCTCA
GCATTCTTAAAAAGAATGTACCTTGAACCCAGAGAAACATTTTTCATGGGATTAGGGGAACAAATGTATAGTGATATACATTCACTTCATTAATCCTGAG
TAGACATATAGRAGTGTGATAAAATTCCTGCAAAATCACCTTTCATGCTGATTTTAATCTCCGATATTGTGAGTTTGGATCCAATCAGAGAGTCACCCCT
TGCACATCCCTGTTAACGGGAGAACACAAGCACCTCCTCTGGAGAGACTAATTAGTATTTAAAATAAGGACCCAAACAATGGTTGTCCATAGTAGAAATA
AGTAAGCAGTTTTCTTTGTCCATGACATTTTCCCCTATAATTCCCAGGGRTTGTGTGGGCATTGCAGGTGTTGGTGTGGAAGTGTTGGGCATGTGGGGAA
GGGGTATGAGGCTCAAAGTGTGTTCCTTGCGGTGTCTCCCTCCCACTCCTGTAGTATAGTAAAAGTCAGGTACTGTGATACCCCCAGCTTTGTTCTTTAT
GCTCAGGATTGTTTTGGCTATTTGGGGTCTTTAGTGATTCCATATAAATTTTACAATTTTTTTTTCTATTTCCATGAAGAATGCTGTTGTTATTTGAGAG
GGATTACATTAATTCTACAGATTGCTTTGTGTAGTATGGCCATTTTTACAATGTTAATTTTTCCAATCCATGAACATGGGATGTCTTCCCGTTTATTTGT
GTCCTCAATTTTCTTCATCACAGTTTTATAGTTTTTAGTGTAGAGATCCTTCACCCTCTTGATTAAGTTTATTCCTAGTTATCTTTTTTGGTAGCTATTG
TAAATGGAATTATTTTCTTGATTTCTTTTTTAGTTTATTATTAGCGTATGAAAATGATACTGATTTTTGTATGCTGATTTCATATTCTGCAACTTTACTA
AATAGTTTATTAGCTCTAAGTTTTTTTGATGGAGTTTTTAGGGTTGTCTTTATATAGGATTATGACTCCTCCAATGATAATTTGACTTCCCTCTTTCCAA
ATTGGATGCCTTTTCCCTATTTTTTCTCCTTCCTAACTGTTGTTACTAGTATTTCCAATATTAAGATGAATAGAAGTGGTGAAAGTGAGCATCCTTGATC
TCTTCCTGATCTTAAAGGGAAAGGTTTCAGCTTTTCCTCCTTCAGTATGATGTTAGCTATGGGTCTGTAATAGGTGGTCTTTATTGTGTTGAGGTACATA
CTTTCTGTACTTAATTTGTTCAGTTTTTATCATGAAGTGAGGTTGAATTTTATCAATGCCTTTTTTGTGYCTATTCAAATAATCATATGGTTTTTGTCTT
TTATTCTATTAATGTGGTGTATCCCATTTGTTGATTTGTCTATGTTAAATCATCCTTGCATTTCTGGGGTGAATCCCACTTGATTATAGTGAATGATCTT
TTTAATGTGCCATTTGATTGCATTTACTAGTATCTTCTTGAAATGTTTGCATCTATATTCATTRAAGGTGTTGATCTGTAGTTTTCTTTTATTGTTGTGT
CCTTGTCTGGTTTTGGAATCAGGATAATTCTGGCCRTATAAAATGAGTTTTAAAATATTCTCTCCTCTTCAATTTTCTGAAATAGTTGGAGGATAATTAA
TGTTAGTTCTTCTTTAAATGTTTAGTGGAATTTAGCAGTGAAGCCATTGGGTCCTGGGCTTTTCTTTGATGGAAGATTTTTTATTACTGATTCAATTTTC
TCACTTATTACTGGTCTGTGCCTATTTTCTATTTCTTCTTAATTTAATCTTGGTAGTTTTTAATGTGTCCAGTAATTTACCTATTTCTTCTATGTTATCA
AATTTGTTGGCATATAATTATTCATAACAGTCTCTTATGATCTTTCATGTTTCTGTGGTATCAGTTATAATGTCTCCTCTTTCATTTCTGATTTTATTCA
TTTGAATCTTCTCTTGTTTTCTTTGTTTAGCTAAAGGTTTCTCAATTTGGTTTACCTTTTCAAAAAACCAAATCTTTGTTTTGTTAATTTTTTTGAACTG
TTTCTTTAATCTCTATTTCATTTATTTCTGCTCAGAGTTTTATTATTTTCTTCCTTCTACCAATTTCAGGTTTAGTTTGTTCTTGTTTTTCTAGTTCTTT
GAGGTGCACAGTTAGGTTGTTTATTAGAAATCTTCTTTCTTGATGTAGATGTTTATTGCTAAAAATTTCCCTCTTAGAACTGCTTTTGCTGTGTCTCATA
GGTTTTAGTACGATGTGCTTCCATTCTCATTTGTCTTAAGGAATTTTTAAATTTTCCTTTTTAATTTCTTCATTGACTCACCAGTGGTTTAGAAGCATGA
TGTTTAATATATATGTAAAGATTCTGAAGTTTTTCTTACTGTTGATTTTTAGTTGTATACCATTGTGGTTAGAAAAAATACTTTGTATGATGTCTGTCTT
CTTAAATTTGTTAAGACTTGTTTTGTGGCCTAATGTGATATATCCTAGAGAATGTCCCATGTGCAGTTGAGAAGAATGCATACTTTGCAGCTGTTGGATG
GAATGTTCTGTAAATATCTTTTAGGCCAATTTGATCTATGATGCAGTTAAAGTCTTTTTTCTTTTTGCTTATTTTTTGTCTAAATAATCTGTTCATTGTC
AGAAGTTGAGTGTTGAAGTCCTCTATTATCACTGTATTACAGTTTATCTCTCCATTTAGGTGTAATAATATTTGCTTTATATATTTGGGTGCTCCACTAT
TGGATGCATATCTACTTACAATTGTTATATCTTCTTGTTGAATTGATCCCTTCATCATTATCATCATCATATAATGACCTTCTTTGTCTCTTTTTATAGG
TTGTTTTTGTTGTTGTTGCTGTYGTTCGAGACAGGGTCTGGCTGTGTCACCCATGCTGGAGTGCAGTGATACGAACTTGGCTCACTGCAACCTCTGCCTC
CTGGGGTCAAGCCATCCTCCCACCTTAGTTTCCTGAGTAGCTGAGACTACAGATGCTTGCCACCAAGCTCGGCTAATTTTTTTGTATTTTTTGTGGAGAC
TGGGTTTCACCATGTTGCACAGGCTGATCTCAAACTCCTGAGCTCAAGCAATCTCCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCAC
CATGCCTGGCCTCTTTTTACAATTTTTGACTTAATGTCTATTTTATCTGATGTAATATGGCTACTTCTGCTTGCTTCTGGTTTCTATTTGCATGGAATAT
CTTTTTCCATCTTTTCACTTTCAGTCTATGTTTGTCTTTAATGGTGAGGTGAATCTCTTGTAGAGAGCACATAGTTGAGTCTTATTTACTTAGCCACCCT
CTATCTTTTAATTTGAGAATGTAACCCATTTACATTCAAAGGCTGTTACTGATAGATAAGAACTTACTCCTGACATTTTTGTTAATTGTTTTCTGGTAGT
TTGGTAGATTCTTTGTTTCTTTATTCCTCTTTTTTTGTTTACTTCTGTGGTTTGGTGGTTTTCTGTGGTTTCTCTTTCTTATTTTTGTATCTGCTGTGAT
TTATTTATCTGTGGTTACCATGGGGCTAATGTCAGTCTTGTAAGTATAATAGACAATTTTAAGCTGATAGCAACTTAACTTTGGCTGCATAAAAGTACGC
ATTTTCCTTCCCACAGTTAATATTTTTGTTGCCCTAATTTACTTCTTTATCTATGATGTGTTCCTCAGCCACTAATTGTTGTTGTTTTTTAACCATTTAA
CTTTAAATCTTCATACTAGAAGACTGAGAGTTTTACATAGCACCATTATATCATGGAGTATTCTTAGTTTGATTTATGAAATTACTTCTACTGGTAAGTT
TTATATTTTAATGTGTTTTTAATGACAGTAATTATCATCCTTGTGTTTCTTGTTGTAGCACTCCTTTAAACATTTCTTGTAAGGCTGGTCTTAGGGGTGA
TGAATTCTCTTAACTTTTGCTTGTCTGTGAAGGACTTTATTTCTTCTTCATTTCTGAGGGATAACTTTGTGGGACACAATATTCTTGGTTGACAGTTTTT
TTTTTCCTCTCAGCACTTTGAATATGTCATGCCATTCTCTCCTGGTCTGCAAAGTTTCTGCTGAGAAATATGCTGATAGTCTGATAGGAATTCCCTTATA
TGTGACTTGTCACTCTTCTCTTGTGGCTTTTAGAATTTTCACTATCTTTGACTTTTGACAGTTTGATTATAATGTTCCTCAGAGAGAATCTTTTTGGGTT
GAATCTAGATGGAGACCTTTGGGTCTCCTGAATCTGGATGTTCATATCTCTTACTATATTTGAGAAGTTTTTAGCTATTATTTCATTAAATTGGTTTTCT
GTGACTTTCTTAGTCTCTTCTCATCTGATATTTCTATAATGTGAATATCTGTTCACTGAATGGTGTCCCATAAGTACCATAGGGTTTCTTCATTCCTTTT
TATTCTTGTTTTTTTTTTTTTCTCTCTGACTGGGTTACTTTAAAATAACTATCTTCAAGTTCAGAACTTCTTTCTTTTGCTTGATTTAGTCTGTTGATGA
AGCACTTAATTGTATTATTTTATTTTATTCATTGAATTTTTTCAGTTCACAATATCTGTTTGGTTCTATTATTATTATTATTACTATTATTATTATTATT
ATTATTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATCTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCAT
TAACTCATCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCCCCTTCCCCACCCCACCACAGTCCCCAGAGTATGATGTTCCCCTTCCTGTGTCC
ATGTGTTCTCATTGTTCAATTCCCATCTATGAGTGAGAACATGTGCTGTTTGGTTTTCTGTCCTTGCGATAGTTTACTGAGAATGATGATTTCCAATTTC
ATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCAATCATTA
TTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAATATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTT
TGGGTATATACCCAGTAACAGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATTGCCACACTGACTTCCACAATGGTTGAACTAGT
TTACAGTTCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCACCATTCTAACTGGTG
TAAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGCCTTTTGGCTGCATAAATGTCTTCTTA
TGAGAAGTGTCTGTTCATATCCTTTGCCCACATTTGATGGGGTTGTTTGGTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCC
CTTTGTCAGATGAGTCGGTTGCGAAAATTTTCTCCCATTTTGTAGGCTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTT
AATTAGATCCCATTTGTCAATGTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCT
AGGTTTTCTTCTAGGGATTTTATGGTTTTAGGTCTAACATGTAAGTCTTTAATCCATCTTGAATTAATCTTTGTATAAGGTGTAAGGAAGGGATCCAAGT
TCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAGATAGGGAATCCTTTCCCCATTKCTTGTTTTTCTCAGGTTTGTCAAAGATCAG
ATAGTTGTAGATATGTGGCGTTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTA
GCCTTGTAATATAGTTTGAAATCAGGTAGCGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCGATGGGGGCTCTTTTTTGGTTCCATA
TGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCTATAAATTACCTTGGGCAGTATGGCCAT
TTTCACGATATTGATTCTTCCTAACCATGAGCATGGAAGGTTCTTCCATTTGTTTGTATCCTTTTTTATTTCATTGAGTAGTGGTTTGTAGTTCTCCTTG
GGGAGGTCCTTCACGTCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTT
GTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGTACATTGATTTTACATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGC
TGAGACAATGGGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCC
TGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAAGGAATGCTTCCA
GTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAGATACGTCCCATCAATACCTAATTTATTGAGAGTTTT
TAGCATGAAGGGTTGTTGAATTTTGTCAAATGCCTTTTCTACATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACA
TTTATCAATTTGCGTATATTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTGGACGTGCTGCTGGATTCGGTTTG
CCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATTAAGGATATTGGTCTAAAATTCTCTTTTTTGATTGTGTCTCTGCCCGGCTTTGATATCAGGAY
GATGCTGGCCTCATAAAATGAGTAAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTCTCAGAAGGAATGGTACCAGTTCCTCCTTGTACCTCTGG
TAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTTTTTTTTGTTGGTAAGCTATTGATTATTGCCACAATTTCAGAGCCTGTTATTGGTCTATTCAGAG
ATTCAACTTCTTCCTGGTTTAGTCTTGGGAGAGTGTATGTGTTGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCGTAGAGGTGTTTGTA
GTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATTGGTGGTGATATCCCCTTTATCATTTTATATTGCATCTATTTGATTCTTCTCTCTTTTCTTCTTT
ATTAGTCTTGCTAGTGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCT
TCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCATTTCTAGTTGTTTTAATTGTGATGTTAGGGTGTC
AATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTCTGAATGCGTCCCAGAGATTCTGGTATGTTGTG
TCTTTGTTCTCGTTGGTTTCAAAGAACATCTTTATTTCTGCCTTCATTTTGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAG
TTGAGCGGTTTTGAGTGATTTTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGACAGTTTGTTATAATTTCTGTTCTTTTACATTTGCT
GAGAACTTTACTTGCAACTATGTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAAAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAG
ATGTCTATTAGATCAGCTTGGTGTAGAGCTGAGTTCAATTCCTGGGTATCCTTGTTAACTTTCTGTCTCATTGATCTATCTAATGTTGATAGTGGGGTGT
TAAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTTTCTTTGTAGGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATAT
ATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTA
TCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCTTTTATTTTGAGCCTATGTGTGTCTCTGCACG
TGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGTCCATTTACATT
TAAAGTTAATATTGTTATGTGTGAGTTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGATGCAGTTTCTTCCTAGTCTCGATGGT
CTTTACATTTTGGCATGATTTTGCAGCGGCTGGTACCGGTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAACTCTTTTAGGGCAGGCCTGGTGGTGA
CAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGATGCTTAGTTTGGCTGGACATGAAATTCTGGATTGAAAATTCTT
TTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTGGCAGGGTTTCTGCTGAGAGATCAGCTGTTTGTCTGACGGGCTTCCCTTTGTGGGTA
ACCCAACCTTTCTCCCTGGCTATCCTTAACATTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGTTCTTCTCGAGGAGTA
TCTTTGTGGCGTTCTCTGTATTTCCTGAATCTGAATGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAAC
TTGGTTCCATTCTCCCCGTCACTTTCAGGTACACCAATCAGATGCAGATTTGGTCTGTTCACATAGTCCCATATTTCTTGGAGGCTTTGTTCGTTTCTTT
TTATTCTTTTTTCTCTACACTTCCCTTCTCGCTTCATTTCATTCATTTCATCTTCCATCACTGATACCCTTTCTTCCGGTTCATTGCATCAGCTCCTGAG
GCTTCTGCATTCTTCACGTAGTTCTTGAGCCTTGGCTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTGTATTGGTTATTCTAGTTATACATTCRTCT
AAATTTTTTTCAAAGTTTATAACTTCTTTGCCTTTGGTTTGAATTTCCTCCTGTAGCTTGGAGTAGTTTGATTGTCTGAAGCCTTCTTSTCTCAACTTGT
CAAAGTCCTTTTCCATCCAGCTTTGTTCCGTTGCTGGTGAGGAACTGCATTCCTTTGGAGGAGGAGAGGCRCTCTGCTTTTTAGAGTTTCCAGTTTTTCT
GTTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTTTGGTCTTTGATGATGGTGATGTACAGATGGGTTTTTGGTGTGGATGGCCTTTCTGTTTGTT
AGCTTTCCTTTTACCAGACAGGACCCTCAGCTGCAGGACTGTTTGAGTTTGCTAGAGGTCCACTCCAGACCCTGTTCGCCTGGGTATCAGCAGCGGTGGC
TGCAGAACAGCGGATTTTTGTGAACCGCGAATGCTGCTGTCTGATCGTTCCTCTGGAAGTTTTGTCTCAGAGGAGTACCCGGCCGTGTAAGGTGTCAGTC
TGCCCCTACTGGGGGGTGCCTCCCAGTTAGGCTGCTTGGGGGTCAGGGGTCAGAGGGGTCACTTGAGGAGGCAGTCTGTCCATTCTCAGATCTCCAGCTG
CGTGCTGGGAGAACCACTGCTCTCTTCAAAGCTGTCAGACAGGGACATTGAAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCCCC
AGAGATGGCGCCTACAAAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTTGAGCTTCCCAGCTGCTTTGTTTACCTAAGCAAGCCTGGG
CAATGGCGGGCRCCCCTCCCCCAGCCTCGCTGCTGCCTTGCRGTTTGATCTCAGACTGCTGTGCTAGCAATCAGTGAGACTCCGTGGGCGTAGGACCCTC
TGAGCCAGGTGTGGGATATAATCTCCTGGTGCGCYGTTTTTTAAGCCCGTCGGAAAAGCGCAGTATTCGGGTGGAAGTGACCCGATTTTCCAGGTGCTGT
CTGTCACCCCTTTCCTTGACCAGGAAAGAGAACTCCCTGACCCCTTGCACTTCCCGAGTGAGGCAATGCCTCGCCCTGTTTCGGCTCGTGCACAGTGCRC
TGCACCCAGTGTCCTGCACCCACTGTCTGGCACTCCCTAGTGAGATGAACCTGGTACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGCATCGCTCA
CGCTGGGAGCTGTAGACTGGAGCTGTTCCTATTCGGCCATCTTGGCTCCTCCCCCCCGTTTGGTTCTTTTATATGATATCTCTTTGTTGATTTTTTTCAT
TCAGATCATGGATTGTTTTCCTGATTTCATTGAATTGTTTGTCTGTGTTCTCTTGTATCCCACTGATCTTCCTTAAGATCAATATTTTTAAATTTCTTTT
CAGGTATTTTGTAAATTCCTCTTTCTTTGTGGCCTCTTACTGGACATTTATTGTGGTGTCATATTCTCTTGCTTTTTCATGTTTCTTATGTCCCTACATT
GATATCAGCACATCTAGCGAAATGAGCTTCTATCTCAAGTTCCTCATCTACCCAGTGAGCTACCAGATTGACTCTTCCAGCTCATTTAGTTGCCAGAGCT
GAAGAACCCAGCAGAAGGCAGATCTTCTCTCCAGCCTAGAACTCAGTCCTAGAGGGGACAGGAAGGGCCCCTGGCTCATGAGCTTCCTACCCAGGAGTTT
CTGGGGACAGGACCTCACTCCTTCTGGAAATGGCATTTTCACATCAAGTCCTATGTTCTCTCCTTGAAGTTTTCCCTCAGGAAGCCATGAGGCATGCCTA
TCCTTTATGCTGGGCTTCTGGAAGACTCTCCCCTGGAGTTTCACCTGCTACAAATCTTCAGACTCTGTTATCCAAAGCCCAGAGACTGCTGGCTATGGTG
GGCTTGTGGTTCTACCACCAATTTTCTATACCAGGAGAGTCAACCTTGCAGTCCTAAGTGGCACAGACCTGAGGCAGGAGCCTGTAGACCCTGGTCCAAC
AGGGGTCTTTCAATGGCACTGGGGAAGAGCTGTCAAGAACCCCACCTCTGCTTTGTCCCAATTCTAAGAACCTGGAAAGAAAGCCAGAGCAAATAATTAA
TGTTTAACATTTCAATATATTTGGGATACTAATGGATCCCTTTGAAGATTAATAAAAGCCAGGAACTCTCATTCTAGTAACACACACACAAGCATGCATA
CACACACATGTTTACATACAATTTTTGTGCATTCATAGCTTCAGTTCAGTGATTCTTCTGTGACCTCACACTGCCTTTCCCTGAGTGGTAGAAGTGTAGG
GATGGAGATTTGTTGATCTGATTTTAAGTAGATGCTACCCTAGGGGGTTGGTAAGTCTTATTAAATTGTACATGTATACACTTTACATATATGTACTTAA
AAGGCCTATCTGTGAGGAATATTTAAAACAACTAAAAGGGTAAAATCATTCCATTGTAGAAACCAACAGTTGACACCAATTATTTGCAAATCTGTATAGG
TCAGAGATTTACTTTGGACAGCTGAGAAAACTGGTGAACTTTGATCTTCTTTTTCCATGGACCCTGAGGACATTAAACAAGGGAGTTTGCTCTGGAGGCA
GTAGAAGGATCAGTGATCAGTTTACTTTGGCCCTAGGAGYACTGGACTCTGTTCAGCTTAACCAGCTGAACAGAGCTGATTCAGCTCATGGGCCTATCTG
AAGGTCTTGGGACTTGACCTGTCTTGGTGAAGGAGCAATGGGAAGTACAATCCTTAAATAATGTTGGAAGAAATTGTGAATAACACTTTTCAAGAAAGTG
TGTTACAGGACAGTGGGGACAGCTCAGGCTATTGAGTTCATAGTCCTAGATTCTAGCTTTCCATCTTGCTGGACAGCCTACCAGTTATGTCCTCCAGCTG
AGCTCAGCTTTTGTCTCTGTAAAACCACTTCTCTATACTAAATGGTCTCTCAGGGTGTATTTTGCCAAAGGKCCCAGCAGCAATGGAGGGAGACATAAAG
CAGTCACACAGAATAACTTCATTAGTTCACTGAGTGTGTATTTGGTATGTAGTCTATGTTGGGTGTTCTGTAATAATGATAGTTGTCATCACCATCTATT
GGTGTCATTACCATCTATTGGTCAGACAGAGCAAGCAATCTAATAGCAATGTGAGCAATCTTCAGAATGACAAGGTAGACATTTGTACTCCTATTACTAA
TGAGAAAACAGAGCCTCAGAGTAGTTAAGTAACTTGTCCGGTATGATGCAGCTACTCAGTGGTCTAACATCCAAACCCAAGAGTCTTTGACTCCAATCCC
ATGCCCATTTTATTACTGTAYGGATTGCATGTGACAATACTCAGTGAATGAATGGACAGGTGACTGTTAATAGAAGGTGGGCATAGGGAACTAGTATACA
GAGAAAAAGTCCTGCTAGGATCTGTCTGCTCTGTTCTCTGTGATGGACTTCCTAGGACTTAGTGGTCAGCATCCTTGCAGGGTCCTTGATGTAGTGGGAC
CTGAGGGGCTGGGCTCAGGAGCTGTGCACATGGGACTTAGAAGGGGAAGATATTGGTCAGGATATAAATAAAAATTAGAGGAAAAATGCTAAGGTGCTGG
ATACTGTACTAGGTGATTTACAGTAATTACTAATTTAGATCTCACAATAACTCTATGAAGCAGGCATTATTGAGAGGTGAAGCTGGCTGGGCTTCTGGGT
YGGGTGGGGACTTGGAGAACTTTTCTGTCTAGCTAAAGGATCATAAATGCACCAATCAGTGCTCTGTGTCTAGCTAAAKGTTTGTAAATGCACCAATCAG
CATGCTGTCAAAACGGACCAATCAGCACTCTGTAAAACGGACCAATCAGCACTCTATAAAATGGACCAATCAGCTCTCTGTAAAATGGACCAATCAGCAG
GATGTGGGTGGGGCCAAATAAGGGAATAAAAGTAGGCCACCAGAGCCAACAGCGGCAACCCACTCCGGTTCCTTTTCACAGTGTGGAAGTTTTATTCTTT
TGCTGTTTGCAATAAATCTTGCTGCTGCGCACTGTTTGGGTCCACACTACCTTTATGAGCTGTAACAGTCATCTTGAAGGTCTGCAGCTTCATTTCTGAA
GTCAGCAAGACCACCAGCACACCAGAAGGAAAAAACTCCAGACACGTCTGAACATCAGAAGGAAGAAACTCTTGACACACCATCTTTAAGAACTGTAACA
CTCGCTGCAAGGGTCTGCAGCTTTGTTCTTGAACTCAGCGAGACCAATGAACCCACCAATTCCGGACACATGATCCTCATTTTCTAGATGGGGAATTGGG
GCACTGAGAGCTTGGGTGACTTGCCTAATTCACTGTCCAACCTGAAAGTCTTGGTGTATAGAAGTGAACGACCAAGCCACTGTAGCTTTAGTGGTGTCTT
CAGTCAGGGAGAACCAGGGCCAGGATCTTCTCTTGTCCTAATTCGTGCAGTTATGATCTTGTCCTGTGTTTACTGAATGCCACTTCTACCAACGYTATGT
TCCTGCCTTGCAGTGTGAAGATTATTTCCAAATTCAGATCTAGGAATAAACCCCACTTCTGGGGGCCCATTCATCTATCAGAATTTATTCTTTTGTTTAA
AATCCAAATTATTTGACACCTGTTGTCCCAGCCCACTTTRTGCCATGCTGTCAAAATTTCACAGCCTTCCTTTCCACTCCCGAGCATCTACTATCTCACC
TGGGAGAGGGGCCTGTGGAGGAAGGGGCTGAAGCAGCTGCTGTGACACAGGCTGCCTATTTCACAGTTTGGGGCACAAAACTCGTGTGTCCCCATCCCTG
ACTACTAACCTCCTTCCCATCTTTGCCAAGCCTGCCGAGGTGTCCTGTAAATAGTGTGTCAGGGAAGGCTAGCATTCCTGCACACCTGCCTTTGATCAGG
GACCTTTGTTCCTTTACACATGAGAGTTCCCAGAGTGCGCTGGGCTCCAGGGTCAGTGGCCCTTCTAGCTGTCAGCCTGGGGGGTCAAGTGGAACTGGGT
GAGATTGAAAATATGGTGATGAGAAAAGGGGTTTCTTAGCCRGGTACATCTCTGTCTTAAAATGAGAACAGACAGCTCCTGGTCTGTCCCAGTTGTAGAA
GAAGGACTGAGTTAAGGAGAAGGAGCCCTTGGCTTTGTAACATTGAACAATGCTGAATATCTCTGCTCCGTTATTCCTCCATTCTGCACACAATCCTATC
TGCCCTTCACAGTCCTGTAGAGGAGATGATTAAAAGGCTGGCTGCTCCCTTTCTTCTTTCATTTCCCTGCCTTTCTCTTGTTTCCATTTTCTTTCCTTCC
TTAAAAAACAAAAAAAACAAAAAAACATGTATTTATTCTATTCTCGTTCCTTTGCTTGAGGTGGCTATGGGCAGTGGCTCCTGAGACACTGGGGTGAAGC
AGGCAGTGGGAGGATCAGGAGGTTGTTTATGTACAAGAGAAATGAGCAAAGAGCTGAAAATAGTGAGCACACTGGGACTGCGGTTTCTCATGGCCAGAGA
AGGGAGCTGCACATATGGGGAGGAAGACAGCTAGAATATCTGCAGTGCTGTTCAGTTGGAATTGAGGGATCAGTGTGAACTCATGGTTGTGTAAGGGTGT
GGGACAGGTATAGACGTGTGTGTGTTTCTGTGTCCCCTAGCTCTGTCTGGAGAGCCTAGTATCAATGATTCTGCAACAAGAATTACCACACCTGGCACCC
AGAATTTGCTTTCTAAATACCGTTCTCCACTAAAAGGTTACGTCCGTCACCTYAGAGAAGGAGATTCTAGAAATAGAGATCCCAGAGCTGGTACAGGGAA
GGTACAAAGTAGGCTTGAATGTCTTGTTCTATCAGAAAGTGAAGTGCTTAAAAAATGTTGAGGCTTGTCACAGGTCTGCAGGAGCCAGCTGGAAATGCCT
CCAATTGGCCACATGTGCAACAGTTTGAGCACTGAACTAGATAATGTCAGTAACTGGCTATAACCCACCAAACTCACGAGTCCATGCAGATATAAACAAG
TCATAGAAAAAACTAAACAGATGAAGAAAGGGAAGTTCTTCCTTACCTCAGAATGCTAATTAATAAGCATAGAAGAAGTGATATCTGAAAATCCTCATTT
TGCAATCAATGTAGTACTAATTCATTCTGTGAATCATTAAGAACACAGCATTGTGTCTGTGATATTGCTGCCAAAAATGCACAACCTGAGTCAAATCATG
TGGTGATGCCACAAAAACCCAAATGGAGAGTTTCTTAAAAAAAAAAAAAAACCTGTTAAATACAAAATCACACCATGAGAACACAGACCAGCCAAATCCA
GAATGTTGGAAATTCCCAAGGACAAGTGATCCAGTTTATTTGACAAGTATGCAACATAAAATGCTGCCAATTGTTTAGAGTGAAAGAGATTTAAGAGTTA
AATGTAACATGTGGATCTTCTTTGGGATCCAGTTTGAACAACCTAACACTTTTTTAGACAACAAGGGTAATTGCTATATTGACTGAGTATTAGATGATAA
TAAGAAAAAATTGTGCTGTTGTCCCAGCACTTTGGGATGCTGAGGCGGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCTTGGTCAAGATGGTGAAACC
CCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCAGGTGCCTGTAATCCCAGTGACTCGGGAGGCTGACACAGAGAATTGCTTGAACCTGGC
AGGCAGAGGTTGCAGTGAGCCAAGATCACACCACTGCACTCTAGCCTGAGCAACTGAGCAAGACTCCATCCCAAAAAAAAAAAAAAAAGAAATAATTGTG
GAAAATTCCAAAAGCCAGAACACCTCTTCTCCTCCAAAGGATTGCAACTCCTTGCCAGCCAGGAACAAAACTGGACAGAGAATGAGTTTGACGAATTGAC
AGAAATAGGCTTCAGAAGGTGGGTAATAACAAACCCCTCCGAGCTAAAGGAGCATGTTCTAACCCAATGCAAGGAAGCTAAAAACCTTGAAAAAAGGTTA
GAGGAATTGCTAACTACAATAATCAGTTTGAAGAAGGACATAAATAAGCTGATGGAGCTGAAAAACAGCACGAGAACTTTGTGAAGCATACACAAATACC
AATTGTGCCGAATTGATCAGGCAGAAGAAAGGATATCAGAGATTGAAGATCAACTTAATGAAATAAAGCATGAAGACAAGATTAGAGAAAAAAGAATGAA
AAAGAACAAATAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAACCTACATTTGATTTGTGTACCTGAAAGTGACAGGGAGAATGGAACCAAG
CTGGAAAAGACTCTTCAGGATATTATCCAGGAGAACTTCCCCAACCTAGCAAGACAGGCCAACATTCCAATTCAGGAAATACAGAGAACATCACAAAGAT
ACTCCTCAAAAAGACCAACCACAAGCCACATAATCGTCAGATTCACCAAGATTGAAATGAAGAAAAAATGTTAAGGGCAGCCAGAGAGAAAGGTTGGGTT
ACCCACAAAGGGAAGCCCATCAGACTAACAGCAGATCTCTCAGCAGAAACCCTGCAAGCCAGAAGAGAGGGGAGCCAATATTCAACATTCTTAAAGAAAG
GAATTTTCAACCCAGAATTTCATATCCAGCCAAACTAAGCTTCCTAAGTGAAGGAGAAATAAAATCCTTTACAGACAAGCAACTGCTGAGAGATTTTGTC
ACCACCAGGCCTGCCTTACAAGAGCTTATAGAGGAAGCACTAAATATGGAAAGGAAAAACCGGTACCAGCCACTGCAAAAACATAACAAATTGTAAAGAC
CATCAACACTATGAAGAAACTGCATCAACTAACAGGCAAAATAACCAGCTAGCATCATAATGACAGGATCAAATTCACACATAACAATATTAACCTTAAT
GTAAACGGGCTAAGTGCCCCCCAGTTAAAAGACACAGACTGGCAAATTGGATAGAGTCAAGACCCATCAGTGTGCTGTATTCAGGAGACCCATCTCACGT
GCAAAGACACACATAGGCTCAAAATAAAGGGATAGAAGAAGATTTACCAAGCAAATGGAAAGCCAAAAAAAAAAAAAAAAAAAAAAGCAGGGGTTACAAT
CTTAGTCTCTGATAAAACAGACTTTAAACCAACAAAGATTAAAAAAAAGACAAAGAAGAGTATTACATAATGGTAAAAAGATCAATGCAACAAGAAGAGC
TAATTATCCTAAATATATATGCATGCAATACAGGAGCACCCAGATTCATAAAGCAAGTTCTTAGGGACGGACAAAGAGACTTAGACTCCCACACAATAAT
AGTGGGAGACTTTAACACCCCACTGTCAATATAAGGCAGATTAATGAGACAGAAAATTAACAAGGATATTCAGGACTTGAACTCAGCTCTGGACCAAGCG
GACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAATAGAATATACATCCTTCTCAGCACCACATCGCACTTATTCTAAAATTGAACACATAATCG
AAAGTAAAACACTCCTCAGCAAATGCAAAAGAAGAGAAATCATAACAGTCTCTCAGACCACAGTGCAATCAAATTGGAACTCAGGATTAAGAAACTCACT
CAAAACTGCACAACTTCATGGAAACTGAGCAACCTGTTCCTGAATGACTACTGGGTAAATAACGAAATTAAGGCAGAAATAAATAAGTTCTTTGAAACCA
ATGAGAACAAAGACACAATGTACCAGAATCTCTGGGACACAGCTAAAGCAGGGTTTAGAGGGAAATTTATACCACTAAATGCCCACAGGAGAAAGCAGGA
AAGATCTAAAATTGACACTCTAACATCACAATTAAAAGAACTAGAGAAGCAACAGCAAACACATTCAAAAGCTAGAAGAAGACAAGAAATAACTAAGATC
AGAGCAGAGCTGTGGGAGGTAGAGACACACAAAAAAAAACCCTTAAAAAAATCAATGAATCCAGGAGCTGGTTTTTTGAAAAGATTAACAAAATGGACCG
CTAGCCAGACTAATAAGAAAAGAGAGARGAGTCAAATAGACACAATAAAAAATGATAAAGGGGATATCACCACTGATCCCACAGAAATACAAACAACCAT
CAGAGAATACTATAAACACCTCTATGAAAATAAACTAGAAAATTTAGAAGAAATGGATAAATTCCTGGACACATACACCCTCCCAAGACTAAACCAGGCA
GAAGTCAAATCCTTGCATAGACCAATAACAAGTTCTGAAATAGAAGCAGTAATTAATAGCCTACCAAGAAAAAATAGCCCAGGACCAGAAAGATTCACAA
CTGAATTCTACCAGAGGTACAAAGAAGAGCTGGTACCATTCCTTCTGAAACTATTCCAAACCATAGAAAAAGAGGGACTCCCCCCAACTCATTTTATGAG
GCCAGCATCATCCTGATACCAAAACCTGGCAGAGACACAACAAAAAAAGAAAATTTCAGGTCAATATCCCTGATGAACATCAATGAGAAAATCTTCAATA
AAATACTGGCAAACTGAATCCAGCAGCACATCAAAAAGTTTATCCACCACGATCAAGTTGGCTTCATCCCTGGGATGCAAGACTGGTTCAACATACTCAA
ATCAATAAACATCATCCATCACATAAACAGAACCAATGACAAAAACCACATGATTATCTCAATAGATGCAGGAAAGGCCTTCAACAAAATTCAACACCCT
TTCATGCTAAAAACTCGCAATAAACTAGGTATTGATGGAACATATCTCAAAATAATAAAAGCTATTTATGACAAACCTACAGCCAATATCATACTGAATA
GGCAAAAGCTGGAAGCATTCCCTTTGAAAACCGGCACAAGACAAGGATGCCCTCTCTTCCCACTCCTATTCAACATAGTATTGAAAGTTCTCGTCAGGGC
AATCAGGCAAGAGAAAGAAATAAAGGGTATTCAAATAGGAAGAGAGGAAGTCAAATTCTCTCTGTTTGCAGATGACGTGATTGTATATTCCGAAAACCCC
ATCGTCTCAGTCCAAAATCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCCTATACACCAATA
ATAGACAAACAGAGCACCAAATCATGAGTGGACTCCCATTCACAATTGCTACAAAGAGAATAAAATACCTAGGAATACAACTTACAAGGGATGTGAAGGA
CCTCTTCAAGGAGAACTACAAACCACTGCTCAACTAAATAACAGAGGACACAAACAAATGGAAAAACATTCCATGCTCATGGATAGGAAGAATCAATATT
GTTAAAATGGCCATACTGCCCAAAGTAATTTACAGATTCAATGCTATCCCCATCAAGTTACCATTAACTTTCTTCACAGAATTGGAAAAAACTACTTTAA
ATTTCATATGGAACCAAAAAAGAGCCCGCATAGCCAAGACAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACGCTACCTGACTTCAAACTATACTA
CAAGGCTACAGTAACCAAAACAGCAGGGCACTGGTACCAAAACAGATATATAGACCAATGGAACAGAACAGAGGCCTCAAAAAATAACGCCACACATCTA
CAACCATCTGATCTTTGACAAACCTGACAAAAACAAGCAATGGGGAAAGGATTCCGCATTTAATAAATGGTGCTAGGAAAACAGGCTAGCCATATGTAGA
AAACTGAAACTGGACCCCTTCCTTACACCATATACAAAAATTAACTCAAGATGGATTAAAGACTTAAACATAAGACCTAAAACCATAAAAACTCTAGAAG
AAAACCTAGGCAATACCATTCAGGACATAGGCATGGGCAAAGACTTCATGTCTAAAACACCAAAAGCAATGGCGACAAAAGCCAAAATTGACAAATGGGA
TCTAATTAAAATAAAGAGCTTCTGCACAGCAAAAGAAGCTATCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTACAATCTATCCCTCC
GACAAAGGGCTAATATCCAGAATCTACAGGGAACATAAACAAATTTACAAGAAAAAAAAAACCCTATCAAAAAGTGGGCAAAGGATATGAACAACCATCA
AAAAGTGGGCAAAGGATATGTCACAAAAGAAGACATTTAGGCAGCCAACAAACATAAGGGAAAAAGCTCATCATCACTGGTCATTAGAGAAATGCAAATC
AAAACCACAATGAGATACCATCTCATGCCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGATGCTGGAGAGGATGTGGAGAAATAGGAATGC
TTTTACACTGTTGGTGGGAGTGTAAATTAGTTCAACCTTTGTGGAAGACAGTGTGGCAATTCCTCAAGGATCTAGAACCAGAAATACCATTTGACCCAGC
AATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATTCTACTATAAAGATACAAGCACATGTATGTTTATTGTGGCACTATTCACAATAGCAAAG
ACTTGGAACCAACCCAAATGCCCATCAATGATAGACTGGATAAATAACATGTGGCACATATACACGATGGAATACTATGCAGCCATAAAAAAGGATGAGT
TCATGTCCTTTGCAGGGGTGTGGATGAAGGTGAAAACCATCATTCTCAGCAAAGTAACACAGGAACAGAAAACCAAATACCACATGTTCTCACTCATAAG
TGGGAGTTGAACAATGAGAATACATGGACACAGGGAGGGGAACATCACACACTGGGGCCTCTCAGGGGGTTGGGGGCTAAGGGAGGGATAGCATTAGGAG
AAATACCTAATGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCYGGGTTTAAGTGATTCTCGATTCTCATGCCTCAGCCTCCCGAGTAGGTAGGAC
TACAGGTACATGCTACCATGCCCGGCTAATTTTTGTATTTTTAGTATACACGGGGTTTCACCATTTTGGCCAAGCTGGTCTCGAACTCCTGACCTTAAGT
GATCCTCCCGCCTTGGCTTCCCAAAATGCTGGTATTACAGGCATGAGCCACCGTGCCCAGCCTCTTTTGCATTTTCTTTTACAAACTTTAGAATTATGTT
GTTAATTTACATGAAAAAACATTTGGAATTTGATTGGGAGTACATTGAATTTCTACATCAATTTAAGGAGAATTGTAATTTTTACAATATCAAGTCTTCC
ACTCCCTGTTCAAGATATAGTTTTCCATTTACTTTGAGTTTCTTAATTTAAAGTCTGGTACATAAAAGTTTTAGATGTCTTTTGATAGATTTAATCCTAG
GCATTTGTTTTTCTTATGTTACTTTAGGTAGCATTTTTCATGTTTTTTTTTTTTTTTTCAATTTGAGTATAGAAATACAATTGACTTTGGTGTGTTTACC
TACCTTGATCCAGCTCTATTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTCACCCAGGCTGGAGTGTAGTGGCACAATCTCAGGTCACT
GCAACCTCTGCCTCCCAGATTCAAGCAATTCCCCCACCTCAGCCTCCTGAGTAGCTGAGACTACAGGTGTGCACCACCACACCTAGCTAATTTCTGTATT
TTTAGTAGAGAAGGGGTTTTGCTATGTTGGCCATGCTGGTCTCAAACTCCTGACCTCAGGTGATGCTGCCTGCTTCAGCCTCCCAAAGTTCTGTGATTAT
AGACATGAGCCACCATGCCCAGCTTTAACTCATTTATTCTAAGGTATACTCTAGTTTCTTCAGAATTTTATATACATACAATTTATTATGCATAAAGATG
AGAATTTATTTTTTTCCTTTTCAATCCTTTTACTTACTATTTCTTTTTCTTGCCTGACTAAACTAGCAAGGGCCTCCCGTAAAAAGGATGACCAGAAATG
ATAATAGTAAACATTCTGGTCTTATTACTGATCTCAACAGAAAAGCTTTATTCAGCATGCCACATTAAGTATGATTTCTGTAGATTTTTATGGTACACTA
ATACTTGATATCAGACTGAGAAAGGTTTGTCGAATAAATTTGCTAAGAGGTTTTGTTATGAATGGATATTGAATTTTATGAAATGATGTTCCCATACTGA
GTGATAGGGTCATACCGTTTTCCTTTATTATTCCACTAATATGATATATTACAGTGATTGATACTTGAAAAGATAGCTTACATTCCTGGAATAAACCCAA
TTTGGTAATTATTTATTAATCTTTTTTACATTTTGCTAGATTCTATTTGCTAATCTTTTGTGTAGAAATTTTGCATCTGAGTTCATAGAAGTTATTTTTT
TATCTTTGTCATGATGTCTTTGTTAGTTTTTCCTTTCTAAGTATACATACTGTCCTCAAAACATTAGTTAAGGAGTGTTCCTACTTTTCTGTTCCTGGAG
GAATATATTGGTTTAATCCTTTTTCTTTATTTAGAGACAGGGTCTCACTTTGTTGCCCAGGCTGGAATGCAGTGTTGTGATCTTGGTTCACTGCAGCCTT
GAACTCCTGGGCTCAAGCAATCCTCTTACCTTAGCCTCTTGGGTAGCTGGCACTACAGGTGCATGCCACTGTGTCCAGCTGATTTAAATTTTTTGTAGAG
ACGAGTTCTCACTATATTGCCCAGGCTGGTCTTGAACTCGTGAGCTCAAGCAATCCTCCTGCCTCAGGCTTCCAAAGCCCTAGGATTACAGGCATGAGCC
ACCACCCCCACGCTGTAATTCTTAAATGTTTGATGGAATTCATTCCACCTGGCCCTGGACTATTCTTCATGAGACAGGTATTTTTGCAGACTCCCCTGTG
AAAAGAATGGAAACCTTGAGAATCTTCATTGTCCAAGGACTTCTGAGAGGTAGAACAGAGATAGAGAAAGGGAAAGAGAAGGAGAGAGAGAGAGAGAAAG
AGAGAGAGAGTGAGAGCGAGTGAGCAGTGGTGTCATGTGGCATTTCAAAATGCCTGGCATTTTCCTAAAAGTACCCTGCCCAGTCCCCAACCCCCTAGCC
ATACAGCCCGACCCAGCGGGCTTGCAGGGTGACTGATTTCGTGAATGTCGGTTCTCAGGCTGCCAGGCTGCTGCTTCTCAAGGATGACCCAGACTYAGAG
AAGTCTCTGGTGTCAGGCAGAGGACACTGGGTGGGGGAYAGGAGGAACTGCTCAAAACAGACAGAGGCTCTTTGTTTGCTTTGCTTCTGTGTCAACTGGG
CAACATTTGGAAACAACAAATATTGGTTCAGAGGCCCACTGCTTTCTTACCCACCTCCTGCTGGTCAGCTTTTCCAGCTTTCCTGCACGTACACACAAGC
GCAGCTATTTCTTTAAGGGCCAACTCRTGGTTGAAATTTGAGAGTTTTGCCCTGTTTGCGGTGAAAGATTTGGCTCATGCTTGGGTTGGTCTAGAACTGG
AAGCTTCCTTTATGTCCTCTATCAATCTCTTTCTCTTTCTCTTTCTCTCTCACCTCCCTCCCTCTCTTTCCTCCCCCACTAAATAAATAAAGAGAAGGTC
AATATCAAGAAGGCAGCTGTGGTCTGGAGAAGGGCAAGATTTAGGAAGTTTGAGTTCAGGTCTCAGAGCTCCATGAATAAGGACCCATCATTTGACTGTA
ATGACCACATGTGATAAATGGAGGTACTGATCTTATCTTGCATGGCTGCCCCAATGATCTTGCCCCAGGACAGTGCCTGACACATACAAGGGGATAAAAA
CATGATATTTTCTTCCAGCTGAGCATAATCAAGCCAGTCCATGTCTAAGGATCTGCAGTTGGTACTCAGACCTCTCCCAGACTGACCAGCCCCTGTGCTG
GCAAAGCCCTGGGGGCTGTGTGCTTTTGGAGAAATGGCAAGGCTGGGAGTCTCATGTCTGTCCCTCTCTCGGTGTGACCCCAGATGAGCTCCTTGGCCCC
TGYATGTCCTGGTTTCCTGGGAGAGGCAGTGTCCCTGGTGGATGTGTACACTCTGGAACCAGACTGCCTTCTTTTGTATTCTGACTTTGCAGCTGACCTT
GAACAAGATATCATCCTCTCTTGTCCTCAGTTTCCTTGTCTCATCTGTAAGATACAGATGCTAAAGCACCAAAGTCAGAGGGGTRTGGTAAGTGCTCAGT
GAAGCTCCCAGTAAATCTCAGCCATCATTAAGCTATTAAAAGGGACAGTGATTCTCCAACTCCAGAACATCTCTGGTATAGAATTAAAGAATATAAATGA
GAGCACAGGTACAAGTGTCATGGACATGGAGCGCTGTAATGTTAACCTCTTACCTTCACATGCTCCTATAGACATATACAGGCATAGGCACCCCATACAG
CTAGGGCCATGCACACATGTACACCCCAAAGCTGGCCTCACCCCTGCCTACCCCATCCAAGGAATGGCAAGCACGAAGCTCTGCTGTTGTCCTCTTGAGC
AAAAGCCAAGGCCCTGGCCTCTCCATCTAGGTGTGTGTAGATGACGTGGGAGCACCAGTTCTCTATGTCTTGTCTGAGCTTCCTTCATATCCCATGAGGC
TGTATATTTCCTTCCCAGCACCTGTCTTGGGCTTGGACTCAAAGGACCCTTCTGAGGACAGGGCATAGAGCTGGCTGCTCTGGAGAGGACTCAGCCTGGC
CAGTAGGTAGTTGCTCCCTGCTGAGGGGCTCTGGCTAGGCTATGGGCCTGTGGCTGGAGGACTGGCCTCAGCGGGGCTTAGTCTACGAATGTAGATGGGC
TCCAGAAAAGGAGAATCACTGACCATCTTCTTTCCATGCCCTGCGTTGAGCTTCCCTGAGTTTGTGGCATGGGCTCAACCTTYCGTAACTGCACTTCCTG
CTCTCTGGCAGACCCTGCAAGCTTACTACAGGGCCTGTCCATGCATCAGCTGTATGTGTRCATGCTGCTCTGCTGGGTGCCTTCCAGTTAGCCTTGCCCC
TGACTTTTCCTGCTCATCTCACATCCTTACCTCAAGGTCTCCAAATGAATCCAGACCACTGCCTAGAGCCTGCTGCAGGGGCAGTAGGAATATGGCCCTC
ATGCTAACAGTCTTCTTTCCCTATGGCTCAAGCACAAGGGGCCCRTGGACGGGCAAGGGGGGAGTAAGACAGGGCAGCAGTGGTCACTCTCCCTCGCTGG
TGAGGCTGATGTGTTGGGAAAGCCAGACTTGACTTCTGTCCTCACTGTAAACAGAAAGCTTCTGTAGTGGACTCTAAAGTGGGAGGTATGTAACCCCTTT
GCATATGAGATAATCTTTTGGAGTGTGGGAGAACATAATCTAACTTCCAGTTATATTTATTGTTATTGCAAAAGATTAACAAATTATCATTCATTCATAT
TGAATGTGTGAATTGGCCCTATCTCCCACCTGAGTCTGCAGTCATGACAGATGGAGCCTTTCAGGTGTCCTAAGGGAAGATGGGGTTCACCTCACAATGC
TAAAGGTGAAAAGGGGAGTGCCGACCCTGCCCTTTGTTTTGGCATTTTTATTTCCATACTTTGTGGTTTGTATGTGCCCAGTTAAACGGATGTACAGATT
AGATAATCTGGCTTTAACTCCAACCTTCAYGAGATGCACACATGCCTTAAAAAGATTCTTACAAAGAAACTAGAATTAGGAGACAATTCTGACAACACAA
AAACAAGTGAACAAAAATCAAATGACTGACCTGACGTGTCCACTAGGCTTGATATGAGCTTGGTCAACTAAAACATGAGACAGAATGAATGACCATCTGG
TCAGGTTGGATAAGAAGTAACTTTTGGCAAAATCTCTGAAGTCTGGATTTACACTTCGTGGAAGGAATCTTGACCTTTCCCCAAGTATATTATGCCTTGA
GATAATAATCCTGTATAAGGCCGCATAAGCAAAACGACATTTGAAAATGAGTTTCATCTTTAGCTCATCCTTTTACAAATTTCTATTCCTTGTGCATGAT
TGAAGTGTACACATTTTTTAGTTAAAATATAAGCATATAGAAGGCACAAGTTCAATATTTTTCATGATAAGGATGTGTAATTAAACTGGTTAGGAGACTC
ATCGACTAGAGGGGGACATGGTGGCCCCAGGCTGTAAGAACAGGCCACACCGTCCACTGGGCCGCTTGCTTTGTGCTAAGATGACACTTTGTTCTGAGCC
TCACAGTGTCTTGACCATGTTCCTGGAACCTTCTTGTTGGAGGGAGTTCATCTTCCCCTATGACTCTGTCCCTAGTCTAAGGTGTCCCACAGGAAGCTTG
AGGGCGGGAAGTTTTCCAGCCCAGGAGCYTGAGCTCAGCGGGGCAGGAAGAGGGAGCAGCTCCTCCGTGGGRGACCTTTGAGAGCCCAGGAGCAGGATTT
CGAGGGACACCTGGTGGGGAGCAAAAGGTGCTGAGTCTGTCTTTGACCTTGAGCCCAGCTTGTTTCTCCTGCATCCTCCCCCAAAAGGGGCTTTGCCTGT
CATTCTGCAGTTCTAGTGTGGGGTCTGGGCGCAGTTCTTTTCCCTCTCCAGCCTCGGAGTCTTCCTCTGTGGACTGCGCAGATAGGACTGGTGGCACGGA
CCAGCTCTGCAGCCCTGGAGTCAGGAGCAGAGCCCCCCGGCTCCCAGCCCGCCGTAGCCGCTCCTGGCACCGAGCGAGCCGCGATGACAATGGCTGCATT
GTGCTTCATGTCCCTTCCCATCAACATTTCTGTGCTGGACTCCTTCCACTCGCGGGTCGTCTCCAGAGCTCAGAAAATGAGGTGATCAGTGGGACGAGTA
AGGAAGGGGGGTTGGGAGAGGGGCGATTGGGCAACCCGGCTGCACAAACACGGGAGGTCAAAGATTGCGCCCAGCCCGCCCAGGCCGGKAATGGAATAAA
GGGACGCGGGGCGCCGGAGGCTGCACAGAAGCGAGTCCGACTGTGCTCGCTGCTCAGCGCCGCACCCGGARGATGAGGCTCGCCGTGGGAGCCCTGCTGG
TCTGCGCCGTCCTGGGTGAGTGCGGGCACGGGGTAGCACCGCAGAGTCGCTGGCCCGCGCGTTCCCTGCAACCCGGGCGGCCACCGCGCAGCCTGCATGC
ACTCCGCGCTCAGGCTGGAAGCCTGGGTGTCTGGGTGCCTTTCCATTGCCTCTCTACGCCCCACCCCTGGCCTTTGCTTGGGCTTCTAGACACCTTTCAC
TGCACTCACTGTCTTCTCCCCCTCCTCCTCTTTGTCCAGTAAATCTTGCAGCAGTGAAATACAATAAATCAGAGCACGTCTAACCAGGTTATCAAAACCC
TTTGCTGCTGCCTCTTGTCAAGTCCGAACTCCTTAGCATGGCATTCAAGGCCTCCCGGGTCTGACCATTCCCCTTTCAGAGGCTGAYGTCCCCTGGGTGC
CCTGGGAGCTGTAGATGTCCTGCCAAGGAAGCGGTGCCATCGAGCGGTCAGAGCATGGGGTTTGAAGCCAGACTTCTTGGATCCAAGTCCTGGCCGGCTC
CTCACCAGGGAGGGGGTCATCACAGCACTTGCCTGGGAGGGTCAAATGAGGGTCAGCGAGGTGGCAGATGCTGAGTACCAGTGGCAGATGTTGCACACAT
CCTGCTATGGGGCAGTGGCTGACGCCACACTCCCCGACCTCCTGAGGTGGGGCCCCCTTCATACTCTAACTTCTGCCTGCCATTCATGGGGCATTTGTCA
CACTGTTGGGGCTTCCACGTTTAGTTTTCTCTCCCCATAAGCTAGCAATTCCTTGAGAGAGGACCCCACGTTACTTGCCTTTATCCCCGCACAGAGCACT
TCACAGGCTGTGCAAGGTAATGCTCCACTGAGGACACATTCTYGCCTATGGGAACTCTGGAGGCAGGGCTTTGTGGAGGGGCTGCCACAGGCTTATGTTG
CCTCCTAGGRTTTCCCATGGGCCAAGAGGGAAAATGGGGGTCGCTGGGGTGGCCATCCCTGGTGGCCCCTCCTCATGCATCCTGGAGAGCTGTGGGCCTC
CTCTCCACAGGCTTTGTGGATCTTCTTCAGAGCCAGTGAGTCAGCCTTGCTGTGGTGGCCCRCAAGGAGTGGAGATGACAGAGGGCCTTGGGGACAGGGC
AAAAGCTCATGTGATAGGGATGCTGTCTCTGCAACCACATGGATWTTAATAGTTACCCATGGCTGGCTTCAGCTTTTTTTGTGAATGGCAGCCAAAAAGT
GTGGTGAAAATGGAGGGATAGTTCAGTGGAGACAGAGGGGAGACTGTTGAATTTGTGGAGTTTTTAGTTCTTCCTRAACAGAGAGCAACAGACAAGAGTT
ACAGACAAATTAATTCTTTTCGTTAATTTACCCTCAACTACTGGCCAAGAAGGGGTGTAACTCAGAATGTTTTCTTCTTTTGTGCCCTGAGTAGCAGACC
CAGAGTCTGGAGACCCAGATTCTAGGCCTGGCTTGGCCAACGACAAGCAGGGTGACCTTGGGTTAAAAAAAAAAAAAGGCATCATTCTCTGAGTCTCACT
CCCTCTTCTCAAAAAGATGGCAATTCCTCCCCCGCTGGTTTTCCATAGTTGAGGTAGCAAGCCAATGTGTTGRGGTAGCTGAAAACGCCCTGTGCATACT
GAGGCTTATGTTCCATGGGGGGCCAGGGGCCAGGACAGTGATGGGAGGAGACAAGGCGGATACAGAGGAGCAGATTGTCATCTCCAGCTGGGAGGTGATG
GCCATGCCTGCACCCCTCTGGCCAGCAGAGGGTGGTCAGTAGGAAACTGGGAGGCCATTAGGGCAACCTTCTATTGGCTCAGACTCAGAATGCAGTAGAA
CTTGTGCCCTGTAGTGTTCATGGACAGGAGTGAGAGGAGGACAGGACTGAGGGGATGTGGCTGTCAAGGCCTTTCTAGGGGCGATGCTGTCTCTCCCTCA
GCATAGGGAGTGGGCCCTTCCACCTCTGGCCTCTCTCCCCCAGGGCTGTGTCTGGCTGTCCCTGATAAAACTGTGAGATGGTGTGCAGTGTCGGAGCATG
AGGCCACTAAGTGCCAGAGTTTCCGCGACCATATGAAAAGCGTCATTCCATCCGATGGTCCCAGTGTTGCTTGTGTGAAGAAAGCCTCCTACCTTGATTG
CATCAGGGCCATTGCGGTAAGTCGCTGCTGCCTAAAAGAGAGTGGAAGAAAGCCATACTTTCTCTGTTTCCAGTCACTTTGGAACAATTCTTTACTCACA
GGTAGGAGGCTGATATATGGGGCAGTCAACCTTGACTTACTAAAATCACTTCAAAAGTGGAAATGGGGAGGTTTTCTTTAATGTGTCTGGAAAGCAAAAG
TCAAAAAGCACATTAACTTTTGCTTTCCAGACACAGTAGACGCAAGGGTGACTGTTTTGAGACCCTAGGTTCTCTGAACTTGGCGAAAATATAAGAATGC
CTGCTATCAGGCTGGGCGCGGTGGCTCATGCCTGAAATCCTAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCT
GGCCAACATGGCGAAACCCCATCTCTACTAAAAAATATAAAAATTAGCTGGGCATGGTGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAG
GAGAATCACTTGAACCGGGGAGGCAGAGGTTGCAGTGAGCCAAGATCCTGCCACTGCACTCCAGCCTAGGTGACAGAGTGAGGCTCCATCTCAAAATAAR
TAAATAAATAAGAATGCCCACTATCAAAATTATTATATAACCTTCTTTGGCAGCTTTTGATACACAACTGGGAAGATGAGTGATGCATGCAGGGGGAAGA
GTAAAGTGTCCTGATTGCAGGTGACAGCTGATCTTTTTGTTCTTAGGTCTACAAAAATGCTCTTCATTCTTTCAACGTTGCCCCTGCCCATCTGTACATG
TCAGATCCTGTGCTGGGCAATGGGGCTGCAGTGGTGAATTAAACACATTGGTCCTTACCCTCAGGGAGCTCATGGGCTAGTCAGGAGAGCAGAAAAACAC
ACGAATAAGTAAACTACTAATTCCAAAATGTGGGGATGTACAATGGAGGGAAAAAGGAGAGTGTTCTGACAGGGACTCACAGAAAAACCTGCTTTGTCCT
GGGTGGTCAGAGRCCATCTCTCTGAGAGAGATGTAATGAAGGACTGAGCCTGGGTGGGCTCCAGTGTAAAATACACCAGGCAGCAAACAAGAGCATATGC
AAAGGGCCTGAGGCAGAGCAGAGTGGGCTTATTTAAGTTGCTAGTGGGAGGCCAGGGTGATGGGAGCTGTCAAAGATAAGCACAGCCAGATATTAGTTTA
GGCAGTGACAATAGGTTTCATTCAGTAACTGCTGACAGTGGGGGAAAGAGCTAGGCTCCATTCTGATTTGTGCAGTGGTGATGTGAGCATTTTAAAGGGA
GAATGAGGGAGGGGAGAACGCAGGGCTCTGTAGAGTCAGAGAAGTAAAAAGGTAGAAAGGGCTGGTCAGTGTAAATGTGAGGAGGCCAGCTGTGTCTGAT
AGCTGGCAGTTCTCTCKATTAGGACTCTATTCTCCCGCAGAGACTGCGAGACAGACACTCTATCCATCCTGATGATTGTGTTGCAAAGGAATGGCTCTCA
GTCCTTGAGAGAGATGCTTGTGAGTTTCAAGAGATACATATTCACAGTTTTAAGTCCTTTTTAGTAAATTCTCTTGGAAAGGGAGGTCAGGGGCCTATCA
TCAGTTGTGTGTTGAGTAGAAGAAACAGGTACATTTTCCTGGCAGCACTGAGTTTTCTCAGGCAAGCACTTTAAGGGGAACCGGGCCATCCTAGGGACAC
AGATTTGTTCTGCTAGGAGCCATGCCAGAGTCTGGTCAGGTCTCTTAGTGCAGAGGTTTGGACAGATGTGTCAAGTGTGGGAAATTCTACAGTTCTCAGC
ACAAAGCAAGCAGTAGGTTAGCCGAAGGGAAAAGGTGGAAGAAACATCCAGATGCAGCCTGGCTTCCCTCAATCCCCGCGCTGGGGTTTTCCTCCTCTAC
CCGTGTCTTTCTGCTGGCTTCSCCTTGGCTTCCCTCCAGCCTTCTCTCTGTAGCTTTCCCTCTTCTGGGTTTGGTTATTTTGACTTGTGAGAGCTTGCTT
GATTATAATCCTGTCCCTCCCAGCTGGCRCAGGTTCCCCTGGGAACCCTGCAGCTCTAGGGCTGGACGCTGTGTTTTAGGCCTTAGCTCTTTGGCTCCCT
GAGCCCCCGAGGCACCAGTGATTTCTTRGTGTCTTGGCAAAGAAAGACCAGGTTCCTGACCACTCTCCCAACCCCACTGCAATGGGCAAAGCTCTCGTTT
GTTTGCTTCATTTTTTAAAAAATATATATATATTTTATTATACTTTAAGTTCTAGGGTACAAGTGCACAACATGCAGGTTTGTTACATATGTACACATGT
GCCATGTTGGTGTGCTGCACCCTGTTTGCTTCATTTTTATTCAACAATGTGAGGACTGGGGAAGGGAAGGTGTTTGCAGATTAAACAAAACCACGAAGTG
TGTTTCATATATAAGGTCTAGTTGTTGTGGAACAGAAAGGCCCATGATGTCTGTTAATTTTGTTTTGTATTGTGGTATATTAAAAATATGTTTTACAACC
CAAATATCCATTGATGAGTGAATAGATAAATAAAATGTGGTAAACACAAATGATGAAATATTTTTAGCCTTARAAATAAATGAAACTCTGATATATGCTA
CACTGAGATGAACCTTGAAAACATAAGTGAAGCAAGCTAGATACAAAAGGACAAATATTGTAAGATTCCACTTTTTTTTTTTTTTTTTTTTGAGACGGAG
TTTYGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGACTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGT
GTAGCTGGGACTACAGGCGCGCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGKATGGTCTCGATCTCC
TGACCTCGTGATCCGCCCGTCTCGGCCTCCCAAAGTTCCACTTTTATGAAGTATCTAGAATAGTCAAATTTATAGAAACAGAAAGTAGCATAATGACTAC
CAGGGGCTGGAGTGGGGGAGAAATAGGAGGTAATTGTTTAATGTGTAAAGAGTTTCAGTTTCTGGAGATGGATAGATGTGATGGCTATAAAACAACGTGA
ATGCATGTACTTAATGCCACTAAAATGTACACTTGAAAATGGTTAAAATTGGCTGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGA
GGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAAAAATACAAAAATTAGCCGGGTGTGA
TGGCAGGCGCCTTAATCCCAGCTACTTGGGAGGCAGAGGCAGGAGAATCGTTTGAACCCTGGAGGCAGAGGTTACAGTGAGCCGAGATTGAGCCATTGCA
CTCAAGCCTGAGGGACAAGAGCGAGACTGCTGATATAGTTTGTCTTACAACATATTTTATTTCATTTAGAAATACTATTGTCTTATTACTTGATTGTAAC
ACAACAAAGTTCATGGAACTATAGCTTTTGCTTTGTAATTTTTTTTTTTTTTTTGAGAGTCTTGCTCTGTCACCTAGGCTAGAGTGCAGTGGTACAATCT
CGGCTCACTGCAACCTCTGCATCCCAGGTTCAAGCGATTCTCCTGCCTCAGCTTCCCAAGTGGCTGGTATTACAGGCATGTGCCACCAAGCCCAGCTAAT
TTTTGTTTGTTTGTTTTGGTAGAGACAGTGTTTCACCATATTGGCTAGGCTGGTCTCGAACTCCTAACCTCAGGTGATCCACTTGCCTAGGCTTCCCAAA
GTGCTGGAAGTACAAGGTATGAGCCACTATACCTGGCCTGCTTTGTAATTTGATCAATAAGAAATCTTCATAGAGAACTGGCAAGGGCTTCTGGAAAAAT
CATTTTGATTAAAGACATTTAAAACAAAAAAGGAGTAAAACTATGTGTTTAAGTGTCTAAATAAAAGATGGTTGGGCTCACTTTAAGGATTTACATAAAA
AGAAAATAAATTATAGATCTAGTAAGAAGGCAGCTATAATATTTCAAGGGACCTGTTGATGTAAAGATGAGGGCTTACAGAAGCACAAAGTCAAAAAGGA
ACATAACCTGAAGTAACAGTGTAATGATAAGAAATAAACCCGGAATGTCTGCACTGAAATCCCAGCTCCATGACTTACTGGCTATGTGGCCCAGGGAAGT
GACTTAACCTTTCTGTGCCTCATATTTCTCACTTGTAAAATGGAGCTGAGAGAGAAAGAGAGATGAGCTGCCCATGTGTTGGAGTAGACAATTATACCAG
AGATGAGCAAAAATGGAAATAATAATCAAGCTTTTGATCATTCAGTACATAGTATCACCAAGAAGCTAAACCCAGAGAAAGTGCCCAATCCCTCAGCAAA
AGGGTCATGCAGTTTTATGGACCCAGGACAGGAAGGAAGAGCATTGAGTACTGAGTCAGAGTGAAGACGAATGTTTTCAAGGTTCCCATCTTCCCCCAGA
AAAAAAATCTCCACAGAAGCACCTGAGGAAGACCTCAAAGGAAGTCTCAAAATAAAGAGGGCTCTGAGCAAAGGTCATGGGCTAGGAATGAAAACAGGTG
TAAGAAGAGCGTGGCCAGCCCAAGAGAGCTGTGTCCTTGACAGCAGAGTCCCCTCCAGAGACTGCATTGCACTGGCTGTGCTCTGAGTCTGGGGTGGCGA
GGGCGGCTTTCTCCCACGGAGCCTGCCAGGTTAAGCCTTCGTAATTGCCTACGGTAAAGTCACGTAGGATTTTTGGCCAGGAGCTGGGCACCTCACCGGG
GAAAAGAGAAACACAATCCATCACTCCCTCTATGCAGAAGGAATAGGAATGTGGTGGCTAAGTGCCCTTGCGAGGGAGACAGAGTCAACTGAAGCCAGCA
GGGCTGTGCGTGGTCTAGTCAAGTTCTGGCCCTGGGTCCGTGGAGTCCTGGTAGCCACTCTCTACTTGTGTGGGTTGAGGTGGGCCTTCCTTGGAAGTCA
AGGCTTCATCCAGGACTGGCCTGTTCTCTTTCAGGCAAACGAAGCGGATGCTGTGACACTGGATGCAGGTTTGGTGTATGATGCTTACCTGGCTCCCAAT
AACCTGAAGCCTGTGGTGGCAGAGTTCTATGGGTCAAAAGAGGGTAAGTTCTCCCTGGGACCCCAGGAAGGAGTTGTCATCCTTATTCTATATGCTGAGT
GCTGTGTTTTACAGGCAGGTTTTGGATATCAGATATAATGAACATTCATCTTTGGAGAGTGAGTAGAGAATGAGGGGCCCTGTCAGCTGCCACAGCCACA
CATCAAGGCCTCTGGGGGCTTTGGGCTGGCTGAGGACTGGTGCTCCTAAAACTGAGCCCTGGGCCAGGGGSATATGCTTATCAGAGAAACACAGCAGGCT
GTGTGCAGCTTGACCTGAAGGCTACTGCGGTCTACTGATATGTCTAGGGTCCCTGGAGGCCTCTGGAGCCATAGGTACCACTCACACAGGAGRGGTCACT
CTGGAGCACACACTCAGAGGCCAGCAGCCCTGCAAGTCTTCTGAGATCAACCTGACTGTCTCTGGGCCTGTGCCAGGGGACATGAAATACTTTGATGGGC
CTCTGTTACCACAGCTCCAGTTTCCTGGTGGCTGAGGTTGGTAGGTGTAGGCAGACACGCTGCAGGGCCAGGGGAGGCAAAGCATTCAGGACACATGTGC
GTGTGGCCTTCTTGCCCCTGTTTGCCTGGAGGGGTAATATTATAAATATTCCTTCTATGGTCTTCTCTCTCCCCTGCAACCCTAGGAAGGTTTTCCTGAT
TCCCCACTCCTTATCGCCCAGTCCAGTAAAAGCATGGCCTCTCCGCTCCCCTCCCTCCTCAAGAGTCYGGTGGTGATGAGCCATGTTTCCCTGCACCAGG
CTGAGGGCCTTSCATTCACACTGTGCCTTTGCAGATCCACAGACTTTCTATTATGCTGTTGCTGTGGTGAAGAAGGATAGTGGCTTCCAGATGAACCAGC
TTCGAGGCAAGAAGTCCTGCCACACGGGTCTARGCAGGTCCGCTGGGTGGAACATCCCCATAGGCTTACTTTACTGTGACTTACCTGAGCCACGTAAACC
TCTTGAGAAAGGTAAGCTGGCAGGAGTCTGGGTGCCCTCGAGCAGCTGCCTCTGCTCCAGATGCCCACACAGGCTGCACTAGACAGTCACCATCAGCAGA
CATGTGGGATGAACTCAGGTGGGGGAAAGAGGTTAACAGACTTTAAACTGGCAGGTCTGCTGCACCAGCAGCACTTGGGAGGTGGAGCTGAGCTTTTTTC
TGCTCTGAGCTTCCAAAACCCCAGCAGAGGCTGTTCTGATGAGTGAGGAAAGGGCGCAAGGCTCGGCAGAGGGTTTCAGTCTAGGCGATGGTGGTTCTCT
TGTCCACTTCTCTGGATTTCTTTCCTGGAGGTTTCTCTGGAGCCCTGCACCTCTCTTAAGCAGTTCTCATGTCTGGGGCATGGATCCCAGAGGGGACCTC
TCTCTGAGCTGTTCCAGCCTCTGACAAAGCAGGGAGAAGGKGCTCTGAGAAAGACCCGAGATAGGCCTTGGTTAGTGGGAAGCATAGGCCTGTTTCCTST
GATGGATGGTGGCCAGACAGAGGTCAACTTGTTCCTATTAGAAATCCTTGATCTTGATGAGTTAGCATAAGGGCAAGCTGGGGCTGCATGTGCTGGTTTG
GTTTTAGTCCCCTCTGTTCCCTGATGGGCCTGGGTGGGGTGATGCCATTGGCTGTGGCCAGCCTCACTCATGCTCTGTTGTCCATTTCTCTGTGCTGAGC
AGCAGTGGCCAATTTCTTCTCGGGCAGCTGTGCCCCTTGTGCGGATGGGACGGACTTCCCCCAGCTGTGTCAACTGTGTCCRGGGTGTGGCTGCTCCACC
CTTAACCAATACTTCGGCTACTCRGGAGCCTTCAAGTGAGTGAGATGTCTGCTGCTCCATGGTGGCCAAAGTGCCAAATGTCCTCAGGGTGAGAGTTCTT
TGCTGGTCCAAAGCCGAGCCCTGCCTGCCTACAGGGGCATCGAGGTGGCCTAATCCCCTCCCAGTGAGTCAGAAGCACAACCTGGGACTCYTAGGCCAAG
CCAGCCCATGTTCCCTTTCATCTGACCCTGACAAGTAGGTCCTTTTCCTGGGGACCCTTCCTTTCTCCCCAGAGCCCTCAAGCCTGGTCAGTGTCTCCTC
TCRGTGGATCGGGCAGAGCCTGAAAGGACAATCATGCCTCTAGTGTCTGGGCCCACTGTCCAGGGACTGGCCCTCTTCCCTCAATCTCAGCAGTGTTACC
TGCTCAGCACACTGCCTGTCTCCTGCCCCCATCACCGTCTCTATCTGGGAAGCTGATTTCTTGCTTTCTCTTTTTACCTTGATTATATCCTAAAGTTTTA
CAACCAGCCAAAGGCACATTTTCACCCYCAGGAGACACTATACCATTATCTTCTATTCCAGAAGTTTAAAAGCTCTTTTCACATGAAAATATCTTCAGTT
GCATTTTGCTTCTTTGGGTTATGAGGGCTTTTTATCTCGTGTGAGCTCATTCCCCCATCTCAGCACTACGCTGGAGGTCTGCACACCATGGTGTTGCTTC
AGCTACGGGGCTGCACCAGGCTCTATCCTAGTGTGAGTGCTGGACAGTGTGATCAGACTCTCCAGGTGCAGGAGAAGGGCCTGCCCTGCAGGAGCCCTGC
TGATGTGTTTCTTTGACCCAGGTGTCTGAAGGATGGTGCTGGGGATGTGGCCTTTGTCAAGCACTCGACTATATTTGGTAAGAATGGGACAAGAATCCAC
CAGGGCCACTCCAAGTAGTGGGTGTTCTTTTTCTGTGTTCCCTTTTTCATGCTCAGTAATTGGAAATGAGCATACTGTATTTCTCCTTTATCATTGCCTG
GGTTTCCACCTGTGCAGAGTTAGGTACCTACGGGGTCCCCATCTGGATTCCTGGGCCTCTTTCCATCATTCAATCTCTCCACACGGTGCCTCTGCCTCTG
GGGTAGTGTTGCCATAACCAAAGACTGGGGGTTGGTGCTGCTAAGATCAGGCTCATGGTGGAATGAGGAGCAATCACTGCTACATGGGCATCAGAAGCCT
TTACCTGGCTGTGGGCTCTTGAGCGAGTCATTCTCCCGCATGTTCTCTGGCCTTCAGTKCTCACTCCAGACCTCTCAGCTCATACTTTCTATGATCAATT
GAATTTCAASGATGGGCACCACAGCCCATGGCTCTCCTGTGTTAAGCTCACCTGGGCTTTCCCTCCCCAGAGAACTTGGCAAACAAGGCTGACAGGGACC
AGTATGAGCTGCTTTGCYTRGACAACACCCGGAAGCCGGTAGATGAATACAAGGACTGCCACTTGGCCCAGGTCCCTTCTCATACCGTCGTGGCCCGAAG
TATGGGCRGCAAGGAGGACTTGATCTGGGAGCTTCTCAACCAGGCCCAGGTATCCCCACCTGCCATCCTCCCCTCCAGCTTAGTGCTCCCTGCTTGGATT
TGGGGGTTTTCCTCCTGGCCATCTTGTCACTCTGGAAGTCTGTGTGTTCAGGATACAGTGGGAGCCATGCCACATGTCACTAAGTTCTCTAAAAGCTGGG
ACTCCCCACAGAGCAGCAGGGAGCCTGCTGTGGTGCTACCGTCTGCCGCCCTTGCCTTTCTGGCTGGTGACACCTGAARAGGCTCTGTATTGCTCTGTTG
CATTCCTTTCTACCTAAACTTCAAGGCCCAAAGCTAAACCCCTCCCCAAGGAGGCTTTCCATGACCCTCCCAGAAGGAAATGGTCTCTCTCCCCATGCCC
CTCAGCCCGGCTGTGAGGGGGCTGCCTGCACAGCGGCTTTACTTCCCAAGAGCTGTGTGATTTGGGCTCAGCCAGCTTCCTCTTGCCGAGCCGTCCCATC
TGTCCACTGAGAGTTTGACTGGYAACCACACAGGGCAGCCTCTGGATTAGCCACGTTTCTTGTTCTCACCGATGTCTCAACCCGTTCCGGGAGACAGGCA
CAGAAGCAGGTTCAGGSAAATCGCGGACCCACGAGGGCTACAGGCAGAGGAAGTGCTGGGTGAGCAGGAGCAGGTCCGACTGCCCTCTCTCCTGGCATCT
TGAACTTTTTCATGTTGTTTCCTGCAGAGATTTCTTTTCTCTTCAGTCCCATTTCTCAGCCTCCTTTCTTCTGTGTTGCCATCCACTATTCTGTTTTTCT
ATGAACAGGAACATTTTGGCAAAGRCAAATCAAAAGAATTCCAACTATTCAGCTCTCCTCATGGGAAGGACCTGCTGTTTAAGGACTCTGCCCACGGGTT
TTTAAAAGTCCCCCCCAGGATGGATGCCAAGATGTACCTGGGCTATGAGTATGTCACTGCCATCCGGAATCTACGGGAAGGCACATGTGAGTACCTGGGA
AGAACCAGGTGACCACAAGCACTTGGGAAACCTGGTGAGCACAGGGGYCAGAGATTGAGTCTTTTCAGGGACCTGCACGCCTCTCCTGATGCTCCTTTTT
CTGACCTGTCTGTGAGCCCAGTGTTAGACTGATGCTGAATGGCGTTAGTCATTATGAGATGGCCTTGATGTCACCATGGGCTTTACAGGAAATCCACATT
TAAAATGACGTGGGTTGGTTCCAGTATTTCCTTTGCATCAATCAGGACTGCCTTACCTACTCTGTGAAGGCAATTAGCTTATCACAGAGTAAGTGAAATA
GAACAAAATTGCTATATATTGCACATCTCCAGCCAGTCAACATGTACCATAATGAAGAGGTGCTCTAAGAGAGGTTGATCCCAGTCCTGGATTTCACTGA
GTCACTGTGGTTTTGCTTGACCATTCATTTATTCAGCAGACATTTATTGAACATCTAGCCATATGCTCTGCTAGGTGCTGGACATAGGATGGCATGACAA
ATATATATTTGATTCTGTTGTCCTGGAAATTTCAAACTGGGGAGAAGATAAATGTTTAATGAATAGTCATGCTATTGGATGATGAATTACAAAGTAAGAG
ATATGTTTAAAAGGGGAAAAATATGACAACAAAATACCATGGCCCTATGAGACTGCAAAACAAAGAAAAATAGGCCCTGGACTTGGCGTTAAGGCAAAGC
TTCCTTGAGGAAGTGACTCTTGAGCTCAGTCTGAAAGATGAGCAGATGTACATTTATTCATCAGACATTTATTATGCTGACCATGTGCTAGCATTGCCCT
AACCCTGAGGATGCCCTGGTGAACAAGACAGGCAGGGCCCTTTCTGTGTTGGAGCTTCTGTTCTCCTGCAGAAAACCTGACAATAAACAATGAACAKATA
AATAAGAACACCTCCAGTAGTTAAGTGCTATCTGAAAAACAAGAAGGAAAAAAACAGCCAGAGGTCATATAGTGCCCAGAGGCTGGAGAGGAAAGTTGGC
TTCTCGGAAGACATAAAAAACTAAATTTAAATGAGAAGTCAACCAAGAGATTGTGCATTGACTTTGCTTTCTAAGGTGATTAATTCCTTGAATGGGGTCT
GTTTGTTTATTGCTGGCAAATCCCAGCATTTGCATGAAGACAGTGAGTAGTGCTGAYAAACACCAGGCAACAGCTAGGGCCGCTTCTGATCTTTGTTCTT
TTTTTATGCCATAGGCCCAGAAGCCCCAACAGATGAATGCAAGCCTGTGAAGTGGTGTGCGCTGAGCCACCACGAGAGGCTCAAGTGTGATGAGTGSAGT
GTTAACAGTGTAGGGAAAATAGAGTGTGTATCAGCAGAGACCACCGAAGACTGCATCGCCAAGATCATGGTATGTCACTCCAGCCTTCCTAGGGCAGCGT
CCCTGTCATTGCTGCCTGCTGGCCCCCAAGACTGAGCTAGGGAGTGTTCCTGGGAATGATGCAAAAACCTGGCTCCCAGGAACCTTGCCCTGACTATGTG
AGCACAGCCCCACCGGAGGTTCAGAATCTTTGAGCTTGTGGATCTGAAGRGTGCCCACAGGGCTCAGTTTCCTCCTTGTATGAGTGTATGGTGAAAGGGC
AGGCTGAGCAGTGCCTGCTTAGGGAGGCTGGACCATGGTGTGGGTGTCCTGAGACCAGTGGTGTGCCACGATCACTGAGATAAGATCCTGAGTACATGGT
AGGATCCAATCAGGTACAAATTTGCTTTGTTGATCAAAAGAGTATCCTAGCCKGGCATGGTGGCATGCACCTGTAGTCCCAGCTACTTCGAAAGCTGAGG
CAGGAGGATTGCTTGAGCCCAGGAGTTCAGGGCTAGCAACTTAGCAGGACCTTGTCTCTAACAACATTTTTTTTTTAAGAAAGAATATTCCATGTTGGCT
TACAGAGAATTTTTAAAATCCTGAATGATATAAAGAAGAAATAAAAAGTACTTATAATCATGTAATTCAGAGAAAATTCCCTTATTGGGATCATTTCATG
TAGGTTGCTTGCTACCTTTTACTCACTCACAGTATCTAGTAAGCTTTTCCCATATCATAAATCATTCTTGTAAAACCTAATCTGGAGCTTCTGTGTTAGT
GCACACATCGAGATGGGGGAGTATGGTTTGCCTAGAGAGAACATGAAGTGCCAAGCTCCACTCCCCCTCCTCCCCACATTTCTTGCCCTCTGTGTCTCTT
CCATTTGGCTATTCTTGAGTTGGATCCTTTATAATAAATCAGCAAATATATTGAAACAAAGATGCATATTATAAAGGTACTTCCTGCCATTGTCAACAGA
TTTTTGCTGAAATATGTTAATTCTACTTTTTGAGCACTTATGAATAACCATGTATCTTCAGAACTATCTACCATGAAGCAAAAAGGGACCATCAASCTCA
TTATTTTATATTTCATACAATTTATAGATATCACTTTATGCTATTTTAACATATATTCCATTTTAATTTTTGTCTGAGTCAAGACAAGAAAAACCAAACT
AAGTTAAAGCAAAGCCTACAAATTCAAAACCTGAGTCTATACAAATCTGTTAGCAGTTTGAGTGGCTGGGCTTCAATATTATACTCTGGATGTGATACAA
TAGATAAAGTTTTTTACGTCTGTAAAAAAAAGGAAGAGCAAAAGACTCTTGGGAACATGTGAAATCTTAAATGAAGATTAAGTACAACCAAATGTAAACA
TATTTTAAAAGGTTCTTCTTGGACATCATAATTTGCTCTCCTATGAAGATGTCATCGTTTGAGCCTTTAATGTTGGAAATAGCTTACAGATGTTGGGGCA
GAAACCAAAGACCAACATTGCCATGTTCTGTGAGACCACGTCCAAGTGGATGATTGCTGGATAGGTATGTTTCATGCATAACATTTAGTTCATAAAATTA
TATGCTACTTTAGGAGGTCCAGGGCCCATGGATTAATGAAACAAAAGTAACTAATCTCATTGCTAGTAAAGAATTATTGGAAACAAAGTTGAAAGACATA
GTTTATTTGGTCCCACACCTGTGACACATCATCACTGTCAATGGGAAGCCACTGACCTGTCCCAATTTCCCAAGGTTGTTATCATGGACATCATGGCTGC
AGTAGAAAGTGAAGGTGAGTGTGGAAAACAGATCCCAAAGTGACCAGTGCCCTCGGTTATTGCAGTAATCATGTTCATGAGTAGACACACAGGACTTCCA
AAGGGAGTCATCATCTCGCATAGAAACATCATTACTGGTATTACTGGGATGGCAGAAAGGATTCCCAGACTGGAGGAGGAAGATGACTACATTGGATATT
TACCTGTGGCCCATGTTCTAGAATTAAGCTTTGAGCTTCTTTGTTTTTCTCATGGATGCCTGCTTGGCTCCTCTTCACCCCAGACTTCAGTGGATCAGTC
TTTAAAAGTAAAAAATGGGCTGCCCACTGTGGCATGCAGCTGTAGTACCAGCTACTCAGGAGGCTAAGGTAGGAGGATTGCTTGAGCCCAGGAGTTTGAG
TCCAGCCTGGGAAACATAGTGAGACACCATCTCAAAAAAATAAAAAATAAAAAAATAAAAACCAGAAGCAAAGGGTGTACTTCTGGGTTGAGACCAACAC
TGATGGCAGCTGTTCTGGAAATCATGGATCAGATCTACCAAAATGTCATGAATTAAGTGTATGAAATCAGTAGTCTTCAACACAATCTGTTTATTCTGGC
TTATAATTATAAAATGGAACACATTTCAAAAGAGCATAGTACTGGATTGTGTGACAGCTTTGTTTTCTGGAAACTGTGAAGCTAGCTAGGTGGAAATATT
CAGCTTTTATTGTATGAAAGTGCTCCACTTTCTGCAACACGCAGCAAGTTCATGAATACAGACTCACTGAACCTACAGGGGCTGGAACAATTACAGATGT
GTGGATTACAAGACTGGCAGAAGTGAGAGTCCCATTAGTTTGCTGTGAAATTAAATTAAAGAACTGGGAGGAAGGTGGATACTTTAATACTGAAAAACCA
CATCCCAGAGGTRGAATTCTTATCGGTGGCTAAAATGTGACAATGGGATGCTACAGAAATGAAGCAGAAACAAAAGCTGATTTATTTGAAGATGGAAATG
GACAGAAGTGATTATGTCCTAGAGATGCTGAAGAGTTTGATGGTTGTTTACAGATGATCGATCATAAAAAGGACCTTGTAAAACTACAGGCAGGAGACTA
TGTTTCCCTTGGGAAAGTAGAGCCAACTCTGAAGAATCTCCCAGTAATAGATGACGTTTGTGCATTTGCAAACAGTTAATTGTTCTTATGTCATTGGATT
TGTTGTGCCAAATCAAAAGGAACYAACAGAACTAACTTGAAAGAAAGGACTTACAGGAACTTGAGAGTAGCTCTCTAACAGTTGTGAAACAGAAGATGAG
GTGCAGTAGTCCCCCTTTATGTGAGGTTTCGCTTTCTTGGGTTATACCTACAGTCAACCGTGGTCCAAAAATGTTAAGATATTTTGAGAGAGAGAGAGAG
CACATTAACATAACTTTTATTATAGTATGTTATAATTGTTTTATTATTGTTGTTGTTAATCTCTTACTGTGCCTAATTTATAAACTTTATCATAGGCTTG
TATGTATAGGAAATAAACATTGTATAGGGTTTCAGGTTCCAAGACTGGGGGTCTTGGAACATATCCCTTGAGGATAAGAGGGGACTACCATACKTAAAGT
ACTTTCTGAAGCTGCTATTTGGGCGTGTCTGAAAAAGTTTGAAAATCTATTAAAAATTGGTTTGAGCCCTGACCCATGAATCCTGAAACTGGTCTGGTGA
CAGGTGCCTTCAAGCTAAAACACAAAGAATTTAATACACATTACCAGGCAGACTCTGAGCGAATGTGTGGAAGAAATGATTTTTCTCTTTTGGCATCAGT
TTGCTACAGTGAGYTCAAATCAAATAGGAAATTATTTGAAATGCATGTTTCAAACTGTGAGGCAAACTCCATTCTTCATATTCAACCTAGATTTTTACTT
CTTAAGACATCACCATTTTCAACAGACAGGATTAGTAAAATAGTAGGAGAGCAAACTTGTGTCTGTCTTTTTCCTTTTCCCCTCCTACAACTACCTTTAC
CTAACCTGTGACTGTATTGTCAGTATAAGGAGTTTTCTGAATCATAGTGAGGAAGCAGATTTCTAAAACCTCAAGTTTCTAAACATGACCTATATATTCA
GKTTATGTTTAAAGTTTGGATGTGTAGAGGGAGTTATGGAAAATATATAAAGTGGCTGTTGGGGGGTGCTTTTTAACTTACAGTATTAAAAAAATGCAAG
GCTATTGATGTGAAATTACATACATTTCAAATGCTTATGAATCAAATCATTATTGAGGATAATATTTGCTGATGTGTAATTACTATCTTGCATGAATTAA
GAGAAATAAATATAGCCATACTTACRTTTTAAAGAAAAAAATGATATTTTAAGACTGATATCTATTCCATAGCATGGATGTGCTTCCACTTATTTAGCTA
TTTCTCTGTCATTGAGCATTTAGTTTAATTTTCTTTTTGCTATTATAAATCACACCTGTTATTTTTGCCCACTTACACATTTTGTCCAAATAGTTGCCCA
CCAATCTGATTGTTCTTTTATGGTTTATTACTAGAAAGTATATTGCCAGGCCAAAGGGAAATCTTACAAACCTTGTTGAATCTAAGCATCTCTGAAATTT
GGGGCTTACTAGAGCTGAGATTTAGAACATTTGAAAATATTTGACTCATTCATTAAACATGTTGTATGCACCAAACACGGAAATAGCACTCAGCCAAGGA
GGCTGACATTAGAGGCTAGAGCCCCCCTTCAGAAGGTGCTGTGTTCCACAGCCACAGCCACGAGTCCCTGACTCCACTCATCCATCTGCACGTGAGAATT
CTTGGTGTCAGAAATGTGTCGTAGGAGTGTCTCTGGGACAGTGTGTCCTACAAGAGGGCAAGAGGACTGAATGTGGGTCTTTGCTCTTGAACTAGGCACC
TGGAGTTGATGATCAGTTCATGATGGTTGGGTGAAAATGAGAGTACATTTGATTTTCTCTGCTGAGTGTGCCTGGCTGATCTTTKGGGGGTTCAGTATCA
GCATCTGCTATCTCCCTGGCATTCATGTGCTGGAAAGGCTGCTTCAAGGAAACAGCTGGAAAAGTGGGTGGCACAGGAAACAGCCTCTTTTCATCTGCTG
TGATTTGCTGTGTCTTTGCAGAATGGAGAAGCTGATGCCATGAGCTTGGATGGAGGGTTTGTCTACATAGCGGGCAAGTGTGGTCTGGTGCCTGTCTTGG
CAGAAAACTACAATAGTAAGTGGTGGGGAGCACCTCTCTGTGTTTTCTTCCCTCAGGGCCATGGAGAGAGGAGATGGAAAAATCACAGTCTGATTCATAC
CACAGCTGCCATAAAGCTTTCCCTCTCTGAGCACCTCCTACTTTGCAAGCTCTGGGCTCCTTCATCTCAAATCCCCACAGTCATCTTGAAGGTTGGGAGT
TATAGTACATTCCAGAAATGGGAAATGAAAGTTCTGCACTGGGAAGTCCTCACTAAAGATGACCCCATTGCAAAGGACAGCTGGGATTTCTGGCAGTCTT
CCAGGTTCCAAAACTCACACTTCTCTCACTGCCCTGTTGCTAGGATTTAAATATAGTTGGCTAGCACGCCTCTGTGGTCTCAGTGCAGACAGAGCAGGAA
ACTTGACATTCGCAGTTTGTGGATAAATTCTAGAGGCCAGGAGGTGAAATGGACTTGCATGATCCAGAGAGTCTGGACTTGTTGGGAATTGATGACATGT
ATAGATAATTTTCTCTGACTTTCTTTATTCTTAGCTGCAGCATAAAAAAAAGGCATGGTTTCCCAATCTATAAATCAGGGTTTAATGCCTTYTTCATTTT
CTTTTCTCCTGCAGAGAGCGATAATTGTGAGGATACACCAGAGGCAGGTGAGTTTGAATTGGTAACCTCTGGAGTTAAAAGATAAATTCCCATTGTTTTG
GGGAATTGGTTAGATTTAAAATTCAAGTATATAAGGTGCTGTAAGAGACCAATTTTCACAATGCGAGAGAATCATGGAAGGATAGTAATGGATAATGATG
GTTATCCCTTTACACTTGCCATGGCTTGCACACAGGATTTTTCATTTAATGCTATAAGGTAGGTTTTGGCATCCTCTGAGGATACACAAGTGGACCCTAA
GCTGAGGGAGTTTACAGACAGATCRTCTAGGATTATACATCTAGGAAGGGAAATCCAGGTCTTTCCCACTGATCCTCACCTGACATGACATGAGGCCTGC
ACATTTTCAGATAAGAGTAAGCACCAACCAAGGAACTTTGCTTATTTATTCCTTACAGGGCTCAATAGAGAGCCTCACACAGGYAGATATCAAGGAACAT
AAAATTATCTGACCTTCTAGCCAGGGCTGGGTCCAGGAACCCAGGCCAACCTGGCTTCTCACCCAGGGCTCTGGGTAAGGGTACATCTGAAGAAACAGAG
CAGGAGCAAGTCAGGAAGTCTTACACCAAGGTGAGCACTGGCCCCCTATGCTCAGGCCCCTGCAGGTCACATTCCAGACAGCCATTACYGTACAAGTCTG
TCCTTGCCACTTCCACTGATTATAACCTCCCAGCCTCTCCCCATCACTTGGGGAGCTAAGCCCTTCAGCAGATATAGAAAAAGCCATTCTTATTCTATGG
ATAATAAAGATTCTGTTTTCTGTTGGAAACTGTAATCTGAATTAAACTGGCAAACTGAAATCATAGGTTGATGTTCTATTTCCCATTTTAAGGACCAGTA
TATATTTGCTGCTGAAAATGGAAGCTGACTTGATATTGACATTTTCCATTTTGCATATTTATTTTGGTATAAAACTATATTCTCCTTATCAGAAAATGTT
TGGCTCARTTTTTTCTCTTTTGCTTATTGATCTTTTACTACTATATCTCAACATATGTTAATTTATGAAAGTTTGTGGTTACATTAGCTGTTTCAGTATC
CATTCCTCTGATAGGACTCATTGGATGGTGAATTGCTGGCTTATAACTTCAGTGACTTTATGCACTTAGGGAAGGGTTATACACCCAGCCATTGATCTAA
TGATGGTGTTTTCACAATATTTTGTTTTTAAAGTTCAGATTAATCTTCTCCTGACAGAGTTCCTTGTACTTCCCCTCAGTCAGATACTGGGAAGATCCTC
TCAAGACACAATGACTGATTGAGGATATCTTTGCTTCCCTAGGGAAATTGATTGGAAGCAGACACTCTGGAAGCCCCAGAGGTGTTAATACATCCTTTTC
TGGTGTCTTTCTTGTAGGGTATTTTGCTRTAGCAGTGGTGAAGAAATCAGCTTCTGACCTCACCTGGGACAATCTGAAAGGCAAGAAGTCCTGCCATACG
GCAGTTGGCAGAACCSCTGGCTGGAACATCCCCATGGGCCTGCTCTACAATAAGATCAACCACTGCAGATTTGGTGAGTGAATATTGGGAAGGAGGGCTG
GTGAGGGCCATGCCAGAAAGCAGGGTCCTGCCTTAGGGAAGAGGAGTGTGGCATAAGGTGCTGTGGSCTCTGGTTCTAGAGAAGTAGAATTTGGTCAAAG
AACAGTAGAATTTGCTGTCCTCAAGGACATAGCAACAAGGGCTGGAAGGRCTGGAACTGGGTTGCTGAGTTGGGACGGTTCATTTAGGTTGAACATATTA
GCATGAGTGAATATACATTTATCTCTCAGGAGAAAGACCAGAGGTGAGCAGTGCATGGCTGGTATGGTCATGAGAAACCCAGGCTCCTTCACACTTTCTG
CTCCTCTATTCTGAGCATAAGACTTCCATCTTCAAGGTCACCCCATGGTTGCCATCGCATCCATGATCCAGGCAGCCCCAGTCACCAAGGGGTTACAGCA
AATGGAAGTTTATGCCACCTTTTTAAAGGAGCTCTCTAGGAAGTCTAACCAGTTATTTCAGCAAACTTCTCATTGCCCAGAACTTAGGTACATCACCATA
CCTAGCTGTAAAAAAGAAATGTAATYGTTCATCTGGAAATGTCCCTACCCCAGATAAAACCAGATTTTTGTTACAAAGTACAAGGAGAAACAGATATTGG
GTAGACAGGTAGCAATCCCTGCCACAAGGTTTTGTATGGTATGTGAGTGTGGGAGATCCCGGGTCTCTTCATGGTGTTGGCAATCTCACCAAGTCCCTAC
CCAGCTCCTAGGACCCTTCTAAGCAGTAGAAATCACCTCATTTTCTATGTCCTCTGAATACCACCAGGTATGAGCTTATTTCTACCCCRCTTAAACTTTT
AAGTGTAAGTTCTCCTACAGACAGATGTTTTCCAGTGGTTCTGATTTACATTAGCTTCCTAAGTACTTTGTCCCTGCCACCTCCAAATTTGGGCAACTCT
TTAAAAAAGAAAAGGCCTCTAAATCTGGTTATTAACCCAGAAAACCCTGTGGGGTCAGGGAAGTGGTGATGAGAGTATGCCTCTGTACCAGGGTGCTTTG
TGACACCACTTAGACATGAAGCAAAGTGTGGCCAAGGTGACATTCAGAAAACTCAGGATCCCCACTGACAAAGGCACTACCTCTGCCCTCCTGAACCTCC
TAGCACTTTTATGGCCACAGGAGAGCAGCTGAGCTGCAAAGAAAATTCCCCATCCCTTTCCTGAGGTTGGAGATGTAGCAAAGGCTCTTCTAATGAATGG
CAGGGAATGGGGACATCTGAAAACAGGTGGCACAAGCTCAGGAAGCAAGACCTTCAGTCTTCATCTTTTTCTGTTCCCTTTCATGACATTTTTCATCTCT
TCTTTGTTTAGCGTAGTGATGACATCATTATTGTGCTCAAATAAATCCCCTCTGCCCTGAATTGTAATGGTCATTAACTCCTTTTCCCAATCTCAATAGG
TTCCCCTTTAAAGCCTATAGCCTGGCAAGTCCTGGGTTGGTGGTGGCTGGTCACAGAATTAATGAATATGTTCTACTTATTATGGGCCATGCAGCCCTGT
TATCTCTTAAATAAAAGCTGCTTGCATTGACTCAGGAAAAGCTGACTTCCTCTTGTCCTTCTGCACAGATGAATTTTTCAGTGAAGGTTGTGCCCCTGGG
TCTAAGAAAGACTCCAGTCTCTGTAAGCTGTGTATGGGCTCAGGCCTAAACCTSTGTGAACCCAACAACAAAGAGGGATACTAYGGCTACACAGGCGCTT
TCAGGTGAGTCTTTTAACCCTGAAACAAATAGAATAATATACAAGCCCTGGCCAGATTTCTTTTAGGAACTAAGGTAAGATTCTTAGGTTCCTATTCCAT
TAGTGCGGCATGTATTAAGAGAGTATATTTCACAACCAGATATAGAGCCACATGGGGAGGGGCAGCCAGACTCCCCCAGGATGCTGACATGGCTGTCAAA
GACAGCAGAGACTTGTGTTTGGTACAGTTTAGCAGTTGTCAACGGGTGATTTGACCCCCACGGGACATTTGGCAATGTTTGCATATATTTTTTATTGTGA
CAATGTTGGGGTGGGGGAGGAAGTGCTACTAGCATCTAACACGTAGAAGCCACTAAACATTCAACAATGCACAGGATAGCATGGTACAACAAACAATTAT
CCAGCCCCAAGTGTCACTAGTGCCTCGGCAATGATACCCTACTGTAGTTGAATAAACACTGAGTGGAGTGGAGAGTTTGGCTCAAGCTTTTCCAYGCACC
TCTGGATAATCCAGAACAATACTCATCTGGAAATACAGAATAGTACATGATTCCTAAATTCCTAACTACAATTGTACTTTATGGAGTGCCTATCATTCAT
TTTCATAGAGATACCTGTGTASCTTGCTATTTTTTTTTTTTTTTTTTTTTTTGGAGACAGGAGCTCTCTCTGTTGCCCAGGCTGGAGTGTAGTGGCACAC
TCATGGTTCACTGCAGCCTCAACCTGCTGAGCTCAAGCGATCCTCCCACCTCAGCCTCCCTAGTAGCTGGGATTACAGGCATGCACCATCACACCCAGCT
AATTTYTGTATTTTTTTGTAGAGACAGGGTTTTGCCATGTTGCCTAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTCCTGTCTTGGCCTCCCAAAG
TGCTGGTACTCACAGGCGTGGGCCACGTCTGGCCCTACCTTATTACTTTTTAACTACCCATTCTGCTTTAGGCCTTCTGTTATTTGGTGGTTCATGAATC
CATGAACTGCACAATGATGATGGTATTATAACTGAGCTTCCCCGTAATGATGTAAAAAACAAAGGTCATTCCTATTTTCCAGTTAGAGCCACTTTGTAAG
TTAGATTAAGTACAATTCACATTCCCCAAGTTTCTAATTTCACAAAGTAGAGCATGTTGTTTTCATAAAGATTGAAGAGTTTGGGGGACTTAAAATAGAG
TTCCCCTTTGCATTTTTGTACCTTGTCTTTTTCTGGTGATAACATATGTTTGAGAATTATAGGTCATGAGAAAAGGCTCAAATAACATGTATGTATAAAC
ATGCTTAAAATAAATGTGTATAAAGGCTTCTTTTTCTAAACATGTCTTATAAAACTTAGCTATGAAGTAAAATGTACCAGACTGATAAAAAGACTCCAAA
CTCCAAAGAAAATAAAATTAAATCAATATGTGGCACAATAGGTACCCCGTCTTCTCAGCTAGCTACCCCCAAAACTCTTGAACCGATGCAGTAATAGGCA
GGTTCTTTTCCTTGAAGCAAGGGGATTAAAGTACATGGAGAGCAGGGTTCAGTCCATTGTCCAAAAGTCCAACCCACTCGGCTCATTGAGGAGGGCCTTG
TGTAGATTTTGAAGTACACACTAGTTCATCATCTGTGTGGTATGCCCTTTCAAAGGACTGGAAGACAGTCAAAATTAAAATTAGAACCCTACTAACCAGA
GTTTATTTTGTTATTATTTCTTTTCTGAAACTTCTTGGGGACTTGTAGCTCAGAGCTGTGTTACAACCCCCATTACCACACCCAGAGATATGTGGCCTGG
GAGTTAGTAGAGTCAGGTGCCTTTATGCCATGTTTTGCCATATTCTCTGCATTTCTCAAAAACAAAAACAAAAAAMCCCACAACATAGCAAATGCTCCAT
AAATGTTAAAATTCTTTTTCAAAGGAATGAAGGACAGCACAAATTGCAATTTGTGATGGAGTTTCAGTCTCTCACAAATGTTGCCTAGACATTCGCCTTG
TATGAGAACCTGAAGGAACTGAGTTTTTCATTCATATGCTGGGGGAGGCATCACCTCACTGAAAATCAATTCCCTACTATCCTTGTTGATGTCAGGGAAA
TTATGTCATCTCTCAGAGAAACAGTACAAAAAATTAAGATTTAGTATGTGGAACTGAGATTGTAAAACTACAATCAATTCAGAGKGTTTTGTTTTTGTTC
TCTTTATTCCTTACATTGCTTACTGTTAGAATGGAAGTTACAGTTGCTGTTTTCAGATGGCTGTCCTGAATCTATAAGGTAGCCCCCTGAATGACAGATA
AGTCACTCTGACCGCCTTTTTTTTTCTCTCCCACTTCTGGACCTCTGCAGGTGTCTGGTTGAGAAGGGAGATGTGGCCTTTGTGAAACACCAGACTGTCC
CACAGAACACTGGGGGTAAGTGCACCTGCTCCTCTGTCCCCCTAGATCACTAGATCCTGGTCACTGGTATTCACTTGTATTCAGGGATGCCTTTGTGGAA
GTATTATGTACACTGTCAGACTTCAAAGCTCTGATTCTCAGTCTGTCTGCTCAGTGAAGAGAGACATGTTCACCTGAGTGCRCAGAATGATCAGGATTAT
GGGGCCCCCAATGGCCCTAAATCCTCCCCAACACACACTCCCACAGCTGCAAGCCTTGTGCTCCTTTCCCCTAAATACTTCAGTGCCTATTTCCTAAGAA
TAAGACAATCTCTTGCATACCCACAGTATGATTACCAAGATCAGGATCTTTTACATTATGTGGATTTAATACTCGTCACGTCCACAGTCCACATTTAACT
GTTGTCAGTTATCCCAGTAATGCCTTTTATAGCTATTTACTGTACTTCTGGGTTGTGTCCATTGAGAAGGCCTAGAGGCAATGGCATACCAGCAGGAGTA
AGCACCAAGATATTGGCTTGTAAGTACTCTTCTTTACTAAAAGGAACCAGAACTCCTTGGAAAAATAGCTGACTTCAGGGCTGGGGCAGGAAAAATAGAT
GCTGAGCCTAGAACAACACACTGAAGTGCTCMAACAGTGATGGGACACTCAAAGCATACAAGAACCAATTTGAAGGATCTCCTGTTGCCAAGTCTGGGAA
TTTTGAGCATTAAAATAAATAATGATAGCAGTAAGGGATAATAGCCCATTGAAAGAAATAAGAATGCATGAGGCAATACTGATTAAACAAATGAAGAAGG
GAAAACTAATCAATGTGGAAGGAATGATAGAGTTAGAAAACTATCACTTGGCAACCAATATATTGATAACTGATTCAAGCAAGAATCAATGGGTGTTAAG
CCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCCAACAAGGTG
AAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGA
ACCYGGGAAGCRGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAA
AAAAAAAAAAGAATCAATGGKTGTTAACTTGTGGGTGAACGTTGGACAGCCATAATATTAATAAAAACAAACAAAACAAAGCAAAACAAACATTGGCCAG
ACTGAGCACTCCACACCTGACCCCTCAGTATCACTAAGTGCTAGCAGAGCCCACTGGAATTCAAGCTGTGAATACTTCCCTGCCTTCTCTCATGTTCATT
CCCCAACTCCTCACTTTTCCTGGGCAACTCATCCAGAATGAACCGGCTCAGCACCAGCCCCTCCAGGAAGCCTTCCCAGATGGCATACCCTGTCCTACAA
GAAGACTCCTCTGTTCATATTGCCATTATGATTGAATTCACCACACTCTGTAATACACTTTGGCTACAGAAACTCTTTGAGCTCTTTTTCTTCATCTTAT
ATTCCCAGAACCTAGTGTAGCACATAGTACACAGCAGTTGCTAAGAATTTGTTTGCAGAAATATTGGGTTGACTAATTTTCCTTTCTTCCCTCGTATTAT
TGCTTTTTCCTTTAAGAGAGTGTTACCCTAAGCTTGGCTCTTTGCCACCCTTGATTTCTTTTGGTACTTTTCTGAGTAGAGCTCCCTTCTTTAAGCTTTG
ACTCTCTTACTCTTTGCAATGACTCAAAAATTCTTCCCTCCTGCATAGAATTAAGATAGGAGGCCTGACATCCAATCTCAATTCCATTCCAGTCTATTTC
CCAAGGTGTCACTTTTATGTAGAGAGTACATTGGCATTGCAATTGTATTTTTTTACGTGTGTATATGGATGTCCTCATATATTGTAGTTGTATATATACA
ATCCATATACAACTCAACTGTCCTCATCTTTCTGTCAACGTTCCCTCCTCTTCTCCCAGCCTCTATCCTTATAGAGAATCCTGCTATACTCCCTGCCCAT
CAGGCCTAGATTAAGTCTGTCAGTCAATATCTTATTTCTTCAAAACGTGTCTTTTTTCAAACTAAATTTTATTGTGTGTATTTAAGGTAGACAACATGAT
TTTTAAGAGCCAAAGTAATTTTGATGTATTGTAAGTTTGGGAACTACTGGTCTAATACCCCTGACTTAATATCACATTCCTGATAAATATTACTAAATGT
AAGTCACATCATGTCTGATTCATCATACTTATATTTTGCACCTTCTTACCTTCTTCTGTTATTAATTTGTTGCTTTTTCAACTTATATTTTAGATTGAGG
GTACATATGCAGGTTTGTTACATGGTATACTGCATGATGCTGAGGTTTGCGGTATGATTGAACCTGTCACCCAGGTAGTGAGCATAGCACACAACAGGTA
GCTTTTCAACTCTTGCCCCCCTCTCTCCCTCCTCCAAAATCTGTCTTAAGTGCTATGGTATATACAAGAAGGAAGACACAAAACCACGTGGGCTTTTTTT
TTTTCTTTTTTTTCTTTTTGAGATGGAGTCTCACTTTGTTGCTAGGCTGGAGTGCAGTGATGTGATCTCAGCTCACTGCAAMCTCCGCCTCCCAGATTTA
AGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGTGCACCACCACGACCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACC
ATGTTGGCCAGGATGGTCTCCATCTCTTGGCCTCATGATCCGCCCACCTCGGCCTCTCAAAAGTGCTGGGATTACAGGTGTGACCCACCGCGCTCAGCCC
ACATGGGCTCTTTTATCACAATTTGTGTGKGTGTGTGTGTGTGTGTGTGTGTGTATGTGCATATTATAGGTGTGTGTAGGAAAAAGAATGTTAGAAATGT
ACCAATTTTGAAGGCGTAGACTATGAAATTACAAATGCTTCAAAATTTTCTTCCCAATACTTACGTGGCATTTTATAAATTTCCACCAATAAACGTGTAT
TATTTTTATTGAAAAAGCATATTTTTAACATGCCCTTCTAGATGCCCTCCTAGCCAGACTGAATCACCTCCCATTTGATTTTTCTTAATTTTCTACCTTT
AGGTTCTGGCTCATTCATTAACATCAATTTCCATTCATAAGTCCTCACAAACCCACTTTTCCTCTTGCCTGAGTGCCTCACATACCCTACTGCCTGAGAT
GGTTCCAGAGGCGGTCTCCTCTCTCCCTTAGAAACACCAGGCACACACCTGCCCCCAGTCTCGCCTGCACTCTCCTTTCCTCCCGCAGAGAGGCATTCCT
TTCTCCTCCTCTCATCCTACACACACTATAAGAGACAACTGAAATCTTGCCTCCTCCAGCCAGCTTCTTAATTCATTTGTTCTCAAAGCCCTGGTTTGAG
CTCACACAGCATCTAGAGTGTTTTACAAAATATAAAATATTATTATCCCTGCCCTGAATTTTTTGTTTTGGTATGTGTGTTATTTTCCCCTCCAATAAGA
TTGTGCCTTGGAGAGGGCTGAGAACATAGTATCATAGATAAATGAATAAAATAACATAAAATAAAATAAAAATACATATACCCTTTGAACTAACTATTCC
ACTTCTATGTAAGCACAATTATATGCCAGTAACACTCATTTTAACGCTACTTTAGTGGCAAAAAATTGTAAACACCTCAGATGCCTATTAAAAGAGGAAT
GGTTTAAAGATACTATTATAGCCACACTATGAAATATAATACAGTAGTTAAGAAGAACGAGCTTGATTTGTATGTACTGACAAGAAGAATCTATAAGGTA
TGTAAACAGTTGAAAAAAAAGCTACAGAGTTTTACATTTGTCAAGATCTAACACTAAACAAAATTAGAAACATGTGAAATCCATATACACACGTAGAAAA
ATACATATAATGAGCCGTGGATGGAAACTCGCAAATGTGATATTAAAGACTAGCACTATAAGACTGAGTGAGATTTGGAGAGTATAGGAAAGGAGGCTTT
TAGTTAATATAGAGAGATATTCAAAAATTTATGAGTGTGATCTCATGTATTAGTTATTCGGTTAAAGAAACAAAATTAAATGAAAAATACATTTTTAAAA
AGGTTGCAATTCTGAATTATGGGAGAGAAATAAAAATTAGCAAAACATATTTGCAAAGTGGCTCAGGAGGAAGGAGCTGAAACCCTAAGAATGGGTGAGT
TTTTTTTTTTTTCAGAGACAATACAGAAAAGAAGAGGCAAAGGGGCCGAGATGGGATACAGACCTGTATCACACAGGTGTGTGCACATTCTCATTTAGAA
CTGGAACAAGGGAGTCAGAYTTAAAATTCTGGTGCAGATTCCAAAGGTGTTCTCTGAGGAAAAGTTCTTTTGTTTGGAGATGCCATGTGTTACAGCACAG
AAATTGATCAACCTGGCTTAGAGCGTCACATTCTTCCTCTGTTGGAGCAAGAGGTACAGAAGGAATTGGAATTTAGTGGAATTGAAGATCTTTTTGAACA
GCATCTGCAGAATGTAGTTCATTCTCACCTGGCTGGGTAGGGAAGGTTGGAAGGGGATGGTCAATAATCATTCCTGGTCACTGTGAGTCTGGCATCACCT
TGTAGACCACATGGGTGTCTCTTCCTGTCCACATCACTGTAACCCCAGTGTGGGCACTTCTGCTGGCGAGAAGGCCCAGGTTCTCTACACACCACTGAGT
CAGTTCCATCTCCCCAGCGGGGCACCTTGACCAAAGCCATCAGCTGAACCACCTTCTTCCTGTCCCTAGGAAAAAACCCTGATCCATGGGCTAAGAATCT
GAATGAAAAAGACTATGAGTTGCTGTGCCTTGATGGTACCAGGAAAYCTGTGGAGGAGTATGCGAACTGCCACCTGGCCAGAGCCCCGAATCACGCTGTG
GTCACACGGAAAGATAAGGAAGCTTGCGTCCACAAGATATTACGTCAACAGCAGGTATGGACCAGCCAGGTCCTCCCACCTTTTCTTCCTAGATGGCCAT
AGGCTATTCGGGGGGAGTTTAMAACAAAGTGCAGCCATGACTCCAGCACTTTCTTTTTGAAAACTAGAATTCCATGCATTGTGCATTTCATGCCATGCAT
TGTGGACTAGAGTATCAGGGTTCAAATCACAGCTCCACAGCTTCCTAGTTGTGCCATCTTGGGTATGTTACATAACCTCTCTATGCCTCAGCTTCCTCAT
ATATAAAATTGTAATAATAATATTTTTACCTACTTCTCAGTTAACATGAGTATTAAGTGAAGACATGCACCCAAACGGCATAGGAAAATTCCATTTCCTA
TAGGACGTGCTCAAAATATGTTAGCTGTGTAATTATGGAACYAGACCTCTCAGGCCCAGCTCTGCTTCTAGCTCCTGGTCACTGGTGATTAGATCTGATC
CATGTACTCTTGGGACTAGGAATCTGCCTTTCTGCTCCCCCTAACCTTGTTCAGGGGTACCCTCATTTCCCCTACTCCTGTCCTTCCCGAAAATGAAGAA
GACAGCTCCYGTTTCCCAGCGCTTGTTGATACGAGTCATGAAGAGTGGATTTCTGTTCCTCTTGCCTAGGCAGACTGAGCACTGTTCTCAACAGTCTGAA
AAACACAGGACCCTTGCCCTCGGAGAGCCTGCCCTCTGGGGGAACAACCACTCAGGGCCAGCCTTGTTGAAGACAGGGGCTGCCTGAGTATTCTAATCCT
AAAGGCCCCTCCACACACACACATCACCTTCCTTTTGGGCATAGCTGCCTGCTGTTGATTCACCATTACCTTTTTTTAAAAAAAATAAGAGTATATTTGA
AGTCCTTTTAAGGTACATGACAATAATAAGCATTTAACATACATTTCCTAGCTGCTATATGGAAAGTTCAACATTTTGCAGTCATCATTTCACTTACAAC
CTTTGGAGATCTGGAGAAGCTGAGTGGCTTGCCCAAGAAAGGATTCAAAATGCRGTCAAACATGAACTTTTAAGAACTACCTCTGCCACTCCTCTGGGAG
GGTTCACATTTAACATCTTCTTTGACAATAACATCTGAAGGGACATGTTATTGTCCTCTCATTTCCTATAAGCAGCCCCCAGTGAAGGGCAATGAAGTGG
GGAAGAGAGGTCAGAGTAGGCAGGCATGGGTGTGGGTGGGAGGGACTTATCAGAGGAAGGTGGGAMCAGGGACCCTATAGATGATTTTGGGGGCATCATG
AAAGCATGCAGCTGGGGCCCTAAGTGGATAAATGGCAGATAAAGGAGGTGGAAAATTCCCAAGACATACTCCGTAGCTTCCCTTTTTCCCCAGGGCTGGT
TCAGAGCTTTCAGACTCTTCTCATCCATGTGTTCCCAGCTGCTAAAGACCACAAGGTCCTCACGGACTTTCTGTTCACTTGACAGCACCTATTTGGAAGC
AACGTAACTGACTGCTCGGGCAACTTTTGTTTGTTCCGGTCGGAAMCCAAGGACCTTCTGTTCAGAGATGACACAGTATGTTTGGCCAAACTTCATGACA
GAAACACATATGAAAAATACTTAGGAGAAGAATATGTCAAGGCTGTTGGTAACCTGAGAAAATGCTCCACCTCATGTGAGTAGGAGGAACAGCATGGGGA
AGTGGCAACCAAACATGGTGGTGAGTGCTGGGATGGTGGGTGGGTACAGGAGGGGTAGGCTGTGGCCCTTGGGATAGGACAACATGGACAAAATGAAATG
GTGAGTGAACAATCTAAGCCCGGCATGTATGACAGGCTAGACTGTAGGGGCAGATAGTAAGGGGATACAGGCTCAGAGCACTAAGGTAGTGAACTTATTG
GGTATAGAGAATTCCATCTTATTTCTAAGAAAAGGACTGGGTTTATGTGTACATGCCATTGCTCTGCAGTAAACTTTTGATTAGAGTTGCCTTGTCCAAT
ATGGTAGCCACCAGCAAGATGTGACTATTTAAATTTAAGTTAATTAAAATTAAACTAAATAAAAGATGTATTTCTTCAATCCCACCTAGCTGCATTTCAA
GTGCTCAACAGCCACATGTGGCTCCATATTGGTCAGCAAAGAGAAYGTTTGCATCATCACAGAAAGCTCTTTCAGACAGTGCTGCTCTAGACAGCTTCAA
CAATGATAGGTTCTGGTAACCATAAAGTTGCTATGCATACTACTCATTTGGAACACCAGTTTCTGAGAACTGAAATAGAATAAAACACATCTTTGCAGTA
TAACTATGTTGGGTGTAACTGAGTCACCTGAAAAAGTTTGGAAGCTGGGGAATAACATGTGGTGTAGGGCAGTTAGTCTTTCCACAGGAGTATGCAGATA
AGGGAGTCTTGATCCTTATTAAAATGCTGATTCTCAGAGCCTTGAGATACTGATTTAGAAAGTCTGTGCTAGGTCAGGTATCCGCATTTGAAAAGCTGCC
CCCATGTAATTCTGACGGAAGCAGCAATGTGCTTGTCTAGGTTCGCTATTGTGAGAATCAAGTTGATATTTACCTAACCTATATCCTCCACAAAAGCAGA
CAGTCTGGCTCTGCTCTTCTTTCCTCCATCCTTAGCCCACAGCACAGAAACTGGCACATTGCAGGTGCTTTTTGCTATGTCAGTTCCTCACCTGCTTAAA
GAGGTCAGGGAGGACAGTCTTCCTGGGCGACTCCTGGCCTCAGGAACTCAGATGTGTGAGCCTCGCCCATAAGAAACAAGGTGGAGGACCCTGTAGGGCA
GGAAAATCATGTTAACAGCTTTGGCGTGGGGCACTCCCCAGGATAGGCACAGGAGCTGTGCAGGCAAGTAGAAAAGAGCACTGGGAGAACGGCCCAGTTC
ACAGAAGAGGAGGCAGCAAGTCTGCACACTTTGTACTATGCTGAAATTGTTCAATCACTCGACAGTTCAGAAATAAATATAGGAAGATTTTGAAAATCCT
ACCTCTCTGCTCTGCTCCACAGCACTCCTGGAAGCCTGCACTTTCCGTAGACCTTAAAATCTCAGAGGTAGGGCTGCCACCAAGGTGAAGATGGGAACGC
AGATKATCCATGAGTTTGCCCTGGTTTCACTGGCCCAAGTGGTTTGTGCTAACCACGTCTGTCTTCACAGCTCTGTGTTGCCATGTGTGCTGAACAAAAA
ATAAAAATTATTATTGATTTTATATTTCAAAAACTCCATTCTTTCCTAAATATTTTCAACAAAGGATTTCTTTATGCATTCTGCCTAAATACCTATGCAA
CTGAGCCCTTCCTTCTCAGCTCAAGATTCGTCTGGTCTTTCCCTACAGCTTTGTGTGTGCCATGGCCACATCTCCTGGGTACAGTTCAAGGAGACATCTT
TTCTAAAAGGGTCTGCGTGATCATTAAAATATAATCAAATGTATACTGGTGTGTGTGTGCACGTGCRCGTGCGTGTGTCATGCTAAGGAAGGGGCAAGAA
GGAGGATGCAGAGTGAGTTACAGAGATCAAGTACTCAAGTGAGTACAGAAAGACTACAGAAGACTTACCTTTATTTGGTATTTTAAATGAATTCCATCAG
GCTGAGGTCCTGATTCTAACTAGCTGAAAAAAGTGAAACACTGACATCTTTTTTGCTGAAAAGCATTCCCTGAGCTTGATGCCACAGCAGTTACTGCCCT
GTCTCCTGCCCTTCTCAGCCCAGCTTCCTGTAAGGTGGAGGCTGACTTTTCTGTCTCACTTATTATTGGCTGAACATACAGAATTTGGTCTTCTGCTTCA
CCAACTTACCTGAATGTACCCTGGCAAAAGTCACCGTCTACCTGCCAACTGTTAAACCAATTCAGGTCTTCCATTCCTGAGCCCATTTCCTGCAGTTGAT
AAAGTTGACCACTCCCTCCTCCTTGGAACTCTTTTCCTCAGTTTCTCTGACATGGCAGGTCTCTGCTTTGATTCCTACCTCTCTCTGTTCATTTGTAGTC
TTCACTGTGGGCTCATCCTACTGGCCTGGAAACCTTAGGGAAATCTTCCTGGGGTTTTCTCTTGATCTGGTCAGTGCTCCTCTCACTTTGCAGGCCCTCC
TTCAGTGATGCTCATGACTCCTAGGCATCTGTATCTATAGCTGTGACCCCAGCCTCCAGCAGTATCCCTGCACTTATACATCCTACTACCTACCTGTGGG
TCTATACTCGAGTCTTGCAGCAGTCAGAAACCCAACAAATCAAAAATTGAAGTGATCATCCTGTTCTTCTCTCTCTTGCTTCCCTAAACCAACTGTTGTT
ATAGTATATTCCATATCAGCTGAAGACCTGGTCATCTACCCAATCACATAAGCCATAAATAGAGGGGTGAAATTTCAGTTCGCCATTTTCCCTCACACTA
CATCCAGCGTCACCAAGTTCTGTTGATTTTGCTTTCTAAATAACTTCAGTTGGCTCCTTTCTTTTCCTGACTCCTAACACAGCCTCATCTTATACTCAAA
TACAGAAGTGCAGATAAGGGGTATCTGGACACAACATTCCACACCTCTCTCAACTGTCTAGTATTCAAGAAAATAGGACTCTGGGTCCACTTTGCAGTCC
AGACCTGATATGGACCGTTTTACACACAGCCCTGCTTTCCTCTGAGCCTATCAACGATCTGCCTTATTTAATATTAACCTAAACTTACCCCAAATCCTAT
AACTCTGCCTTTTCCTTTGTTTGGTGAGATACCCCATGGCTCCCCTGGGACGCAGTCTGTCTCATTGCAATGGATCAATAAACCTAATTTTATTACACTA
CAGGTATATTCCTGGAAGTCTTAGACAACTGGGCTAAAACAAAAATATTCAACATCCATTCTTAATTATTAAATTAGTTACTAAAATAGGATAGACAGAT
GTTATTTGGCCATAATTTTATATACATGTAAACAAAAGCTAATACATACCTAATGATGAAGAAACAGAAGCATTCCTACTAAAGTTAGGAACATGAAAAA
AATTGATTACTATCTATCTTATTTTACAGTGTTTTAGAACAGGTGGCCAATCCAATTATACAAGAAAAATAAGTTATAATATTTAAAGAAATGCCAAAAT
TACTTTTATTTGTAAGTGATTATACACCTAGGAAATCCATGAGAACCAAATAATAATAAAGTATTATGGCCAGGCGCAGTGGTTCATGCCTATAATCCCA
GCATTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTTCTAAAAATACAAAAA
TTAGCCTGGTTTGGTGGCACACACCTGTAGTCCCAGCTACTCAGGAGGCTGAAGCATGAGAAGTGCTTGATCCTGGGAGGCAGAGGTTGCAGTGAGCCAA
GGTCGCACCAGAGCACTCCAGCCTAGTGACAGAGCAAGACTCTGTCTGGAAAATAATAAAAATAATAATAATAGGCAGGGCGTGGTGGCTCACACCTGTA
ATCTCAGCACTTTGGGAGGCCAAGTCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCTTGACAACATGGAGAAACTCCATCTCTACTTAAAATAA
AAATTAGCCGGGCGTAGTGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCGGGAGAATTGCTTGAACCTGGGAGGCAGAAGTTGTGGTGAGC
CGAGATCGCACCATTGCACTCCAGTCTAGACAACAAGAGCAAAACTCTGTCTCAAAATAATAAAAATAATAATAATAATAAATAAAGTGGTAAAAGTGGT
AAGATAAAATTCAGTAAAGTGAAAGGAAATATTAAAATAAAAAATAACTTTCTTTTATACAAATAATAGTGAGTTAGGACAATAATAATTAACAAGAATA
AATAAAATGTATCATTTAGTAAATTAATAAAAGCTACATTTAAACCACACTTATCAAAGTAAAAAATAATGTAAAGAAGACATATTGCTTTGGATAGGAA
GACTCAGTATTGTAAAGATGTCAATTCTCCCTAAATTAATCAATATACAATTTTTTAACTTGACAAAATGATACTAATCCTCAACTAAAAAACAAAAGTG
AGACAGATAAGAAAAATTCTGATGAGAGTGGAAGAGCTCTTCCAGCTGTTAAAATGTAATGATAAGCTCCTGAACCTTGGCCTTAGCAATGATTTTTTGG
CTATCACATCAAAAGCCCAGGCCACAAAAGCAAAAATAAATAAATGGGACTACATCAAGCTGAAAAGCTTCTGCATAGCAAAGACAACAAGCAACAAAAT
GAAATGGCAACCTATGGATTGGAAAAAATATTTGCAAACTATATATCTAATAAGATACAACAAATTGATAAAGAACTCATACAACTCAATAGCAGGAAAA
CAAATGATCCCAGTTAAAAATGGGCAAAAACCTGAAAAGACATTTCTCCAAGAAGAAAAATGGCCAAGATGGATATGAAAAGGTGTTCAACATCACTAAT
CATAAGGGAAATGTGAATTGAAACCATTATGAGACACTAGATAATAATAGGATGACTATTATCAAAAAGTCAAAAGATATTAATCATAAACGTGGATAAG
GGTGAAGAGAACAGAAAACCTTTGTGCATTGTTGGTGAGAATGTACAGCCATTGTGGAAAACAGTATGGAGGTTTCTAAATAAACTGAAAATAGGGCTAC
ATATGACCCAACAATCCCTCTTTAGGGGATATACACAAATAAAATGAGATAGCCACCTTGTAGAGATAAATGTGATCCCACGTTCATTGCAGCATTGCAG
CCAATATAGGGAAGCAACCTAAATGCCTGTTGAAGAATGAATGGATAAAGAAACTGTATACACACACACACACACACAATGGAATATTATTCAGCCCTAA
AAAGAATATCTTGCCATTTGCCACAACATGGATGAAACTGGAGGATATTAAGTGAAATAAGGCAGATACAGAAAGAAAAATATTACACGATTTCACTCAC
ATGGGGAATCTAAAGAAAACACTCAAATACAGGTATACAGAGATAACAAAACCTGAGGTGGAGGAGGGTGGAGAGATGTAGGTCAGAGGATACAAAGCAG
CAGATAGGAGGGCTAGGCGCAGTGGCTCACTCCTGTAATCCCAGGACTTTGGGAGGCAGAGGTGGGCAGATTGCTTGAGTCCAGGAGTTTGAGACCAGCC
TAGGCAACATGACAAAACCCCATCTCTGCAAAAAAAAAAAAAAAACAAAAAAAACCCCAAAAAACCAAAACAACAACAAACAAACAAGCAAACAAAACAC
ACACACACAAAAAAAATTAGCGAGGAGTGCTGGTGCCCACCTGTAGTCCCAGCTACTCAGGAGGATGGATTGAGCCTGGGAGGTCGAGGCTGCAGTGAGC
AGTGATTTGATCGTGCCACTGCACTCCAGCCTGGGGACAGGAGACCCCGTCTCAAACAAAACAAAACCAAGTAGCAGATATGCATGATGAACAAGCCTAG
AGATCTAATGTACAACATAAGGACCACAGTATAGGTAATAAATTCTACTTTATTTGGGATTCCTCCTTCACTGTAGTAATCTTTTTTTAACTATGTATGT
ATCTCATAACATGTTGTATACCTTAAATATATTCAACGAAGCTTATTTTAAAAAATGAAATGTATAATGATGACTGGAAAGGGTGGTAGTCACATGGAAA
TAATGAAGCAGAATAAAAGTTCCAGATATTAAATGCAAATGAGAATTTATTACATGATAAAGCTGGCATTATACTCGGGGGGGACAGATAGGCTACTCAC
TGAAGTGTTTAGAAGCAGAGTAGCTGAAAATTTTGGCGCAGAAGAAAATCTCGTGGACCTCCAACTTACCGGTTAAAGTAAAAACTTTCGAAACGTATAA
AGGTTTAAATATAAAATTAAAATCGTAAAAACAATTACTATGTTAACATATTTCTTATATAGTACTTAGATTTTCCAACATTCCACAAACCTAGTAGCAA
TTAAGGAAAATATTAATTTCAGATCATATAAAATTCAGAAGTCCTGTAAGACAAAAATAGACAAATAAAATGTGAAGATTTTTAAGAAAGAACAAAGGGC
TAATCTATATTTTGAAATCAGTATAAAAAGACGAACAGAATTTGAGATGTGAGCGCGGACAGCTCTGCTGGGCCCTCCAGGCCCTCCGCCCGGTAGAACC
CGGAGCCCTGGCCGCGGCTGCCCCACCGGGCCCATTTCTTGAAGCAGCGGCGAACCACTTTTCCTCCCCGACCTGCCGGCTGCAGGGTCTCCCCGCCCAA
CCCTGCCAGGCTCAGACGAAGCTTCTGCTGAGCCGCCTGGACGCAGCGCCCCTGGGTGGCGGCAGGTATAGCAGGGCGGGAAGCAGGGAGGCGGCCCCAA
CGCCGCGGAGGCCACCAGCGGGTGCAGAGGGCCAGGAAAGCTGGTCTGCGCGCGGCTCAGCTGCCTCCGTAGGCCATGGAGCCGAGCAGATCCGGGTCTT
CGGGTGGCCGCAATGTCCCAAGTGGACGACACCCACCTAGTCCCGAGGACAACCGACAAAGTCCTTAATGGGCCCAGAAGGTGAGGGGAGTCCGGCAATG
AGGGGTGGTAGGGTTAGCGGCCATCGCCCAGCTCGTCTTCCTTCTACCAGACGCTGGTGCTGGAAAAGAGAAGTGTAAGAATAACTTGCGCCATTAGGCC
CATCGGAAAGGCCCACCACCCTTTAGGAAGATTACTGGCTGTTTATAGAAGGCCCGTGTATATCCTATGAAGAAGCTGCTCTCAACTTCCCCCCCAGCCT
TTTAAAAGAAAACATTTGCTACATCGAGCCGTTCTAGGTGTAAAGAGGTTGTGACTTATGATAGAGTTAGAAAATCACACATCTTGTAAATTCCCATTTG
TTAAAAAAATAATAATAATAATAATAATAATAATAATAATAATAGGACATAAATGGCTTCTGGAGATGACTTTTTGCAATGAAGTTGTTAGACCACCTCT
GGAAGTGACAGCAGGAGCCACACATCCACGTTTATTAAGTGAGTTAGAGCAGGAGTCCCCAACCCCTGGATCTAGGTTGCACGCTCCTTATGAGACTCTA
ATAATGCCTGATGATCTGAGGTGGAACAGTTTCATCCTGAAACCATGCCCCTACCTTCCATGGAAAAATTGCCTTCCGTGAAACCATTCCCTGGTGCCAA
AGAGGTTGGGGACCACTGGGTTAGAGGACATGGGGCAGAAGACCTGAGAAGGAAGAGAGGACAGTTCTGTGCCACACTGGTCATATTTAGAAGACATTTT
CATATTCCAACCATTGTTCTGTGTGTGCATTTTATTTCTCACGACTGTATATGTAGTTAACAATACTATTTTTTGAACTATCTACCCTTTCTAGATGTTC
TGAAATGCCTATGTTAAAATTAGAGATAGTAAAATAACACA


SNP Information

Context             (SEQ ID NO:28462):
TAACCTGTGACTGTATTGTCAGTATAAGGAGTTTTCTGAATCATAGTGAGGAAGCAGATTTCTAAAACCTCAAGTTTCTAAACATGACCTATATATTCAG
K
TTATGTTTAAAGTTTGGATGTGTAGAGGGAGTTATGGAAAATATATAAAGTGGCTGTTGGGGGGTGCTTTTTAACTTACAGTATTAAAAAAATGCAAGGC
Celera SNP ID:            hCV29035481
SNP Position Genomic:     59602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28463):
AGCAGGCTGTGTGCAGCTTGACCTGAAGGCTACTGCGGTCTACTGATATGTCTAGGGTCCCTGGAGGCCTCTGGAGCCATAGGTACCACTCACACAGGAG
R
GGTCACTCTGGAGCACACACTCAGAGGCCAGCAGCCCTGCAAGTCTTCTGAGATCAACCTGACTGTCTCTGGGCCTGTGCCAGGGGACATGAAATACTTT
Celera SNP ID:            hCV27522947
SNP Position Genomic:     50493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28464):
CCAGCCCGCCCAGGCCGGGAATGGAATAAAGGGACGCGGGGCGCCGGAGGCTGCACAGAAGCGAGTCCGACTGTGCTCGCTGCTCAGCGCCGCACCCGGA
R
GATGAGGCTCGCCGTGGGAGCCCTGCTGGTCTGCGCCGTCCTGGGTGAGTGCGGGCACGGGGTAGCACCGCAGAGTCGCTGGCCCGCGCGTTCCCTGCAA
Celera SNP ID:            hCV25647443
SNP Position Genomic:     42871
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,4)   caucasian(A,9|G,3)   total(A,15|G,7)
SNP Type:                 UTR 5;INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,11)   caucasian(A,8|G,8)   total(A,21|G,19)   
SNP Type:                 UTR 5;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5;INTRON;hmCS


Context             (SEQ ID NO:28465):
TATCGCCCAGTCCAGTAAAAGCATGGCCTCTCCGCTCCCCTCCCTCCTCAAGAGTCCGGTGGTGATGAGCCATGTTTCCCTGCACCAGGCTGAGGGCCTT
S
CATTCACACTGTGCCTTTGCAGATCCACAGACTTTCTATTATGCTGTTGCTGTGGTGAAGAAGGATAGTGGCTTCCAGATGAACCAGCTTCGAGGCAAGA
Celera SNP ID:            hCV25647444
SNP Position Genomic:     50912
SNP Source:               Applera
Population(Allele,Count): african american(C,21|G,1)   caucasian(C,2)   total(C,23|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:28466):
GTCTCAACCCTCAGTTATTACTTCTCCTTCTGGTGTGTCCAACAATTTCTCTCAACATGTAAACACACCGAATGTTTTCCATCTTTAAAATTGGCCCCCC
Y
ACAACATTCTCCTGCAGCTCCTGCCTTCCTTCCCTCCTCCTCTTTAAGGCCAGAGTGATCAAAGTGTTGTTGGAACCACTCCCCTTCCACTCACTCCTCA
Celera SNP ID:            hCV11777984
SNP Position Genomic:     7229
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28467):
TCCTTCTGGTGTGTCCAACAATTTCTCTCAACATGTAAACACACCGAATGTTTTCCATCTTTAAAATTGGCCCCCCCACAACATTCTCCTGCAGCTCCTG
Y
CTTCCTTCCCTCCTCCTCTTTAAGGCCAGAGTGATCAAAGTGTTGTTGGAACCACTCCCCTTCCACTCACTCCTCAACTCCCTGCCGCCTGGCTCCTCTG
Celera SNP ID:            hCV11777985
SNP Position Genomic:     7253
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28468):
CCCCACAACATTCTCCTGCAGCTCCTGCCTTCCTTCCCTCCTCCTCTTTAAGGCCAGAGTGATCAAAGTGTTGTTGGAACCACTCCCCTTCCACTCACTC
Y
TCAACTCCCTGCCGCCTGGCTCCTCTGCATCACTCCTCAGGAAGGATTCTGGTCAAGCCACCAGTGGCCTCCATACTGCTCAGTTGGAACGATGTGCTTC
Celera SNP ID:            hCV11777986
SNP Position Genomic:     7326
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28469):
TTCAGAGGCCCACTGCTTTCTTACCCACCTCCTGCTGGTCAGCTTTTCCAGCTTTCCTGCACGTACACACAAGCGCAGCTATTTCTTTAAGGGCCAACTC
R
TGGTTGAAATTTGAGAGTTTTGCCCTGTTTGCGGTGAAAGATTTGGCTCATGCTTGGGTTGGTCTAGAACTGGAAGCTTCCTTTATGTCCTCTATCAATC
Celera SNP ID:            hCV27839854
SNP Position Genomic:     39327
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,32)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:28470):
GTAGTTAAGTAACTTGTCCGGTATGATGCAGCTACTCAGTGGTCTAACATCCAAACCCAAGAGTCTTTGACTCCAATCCCATGCCCATTTTATTACTGTA
Y
GGATTGCATGTGACAATACTCAGTGAATGAATGGACAGGTGACTGTTAATAGAAGGTGGGCATAGGGAACTAGTATACAGAGAAAAAGTCCTGCTAGGAT
Celera SNP ID:            hCV103550
SNP Position Genomic:     28321
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28471):
TGTCTTCAGTCAGGGAGAACCAGGGCCAGGATCTTCTCTTGTCCTAATTCGTGCAGTTATGATCTTGTCCTGTGTTTACTGAATGCCACTTCTACCAACG
Y
TATGTTCCTGCCTTGCAGTGTGAAGATTATTTCCAAATTCAGATCTAGGAATAAACCCCACTTCTGGGGGCCCATTCATCTATCAGAATTTATTCTTTTG
Celera SNP ID:            hCV103552
SNP Position Genomic:     29495
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28472):
CTGGGGTGAATCCCACTTGATTATAGTGAATGATCTTTTTAATGTGCCATTTGATTGCATTTACTAGTATCTTCTTGAAATGTTTGCATCTATATTCATT
R
AAGGTGTTGATCTGTAGTTTTCTTTTATTGTTGTGTCCTTGTCTGGTTTTGGAATCAGGATAATTCTGGCCGTATAAAATGAGTTTTAAAATATTCTCTC
Celera SNP ID:            hCV8327108
SNP Position Genomic:     16964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28473):
TCTTGAAATGTTTGCATCTATATTCATTGAAGGTGTTGATCTGTAGTTTTCTTTTATTGTTGTGTCCTTGTCTGGTTTTGGAATCAGGATAATTCTGGCC
R
TATAAAATGAGTTTTAAAATATTCTCTCCTCTTCAATTTTCTGAAATAGTTGGAGGATAATTAATGTTAGTTCTTCTTTAAATGTTTAGTGGAATTTAGC
Celera SNP ID:            hCV8327109
SNP Position Genomic:     17036
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28474):
TCACAAGGTCCCCATTTCCCAATCTAGTTAAGAAACGTTTGCGTTGCTAAATGAAACTCTTTTTCCCAATCTCAACGGAATCCCCAAGCACTCACATCCA
Y
GCCCACAGCCTCAATTGCCATCCAAAGGGGTGTTACACAAACAAAGCTAGGCACATGATAAGCACTAGGTAAATGCTTTTTATCTATCTCTGTGTTGATA
Celera SNP ID:            hCV26218234
SNP Position Genomic:     7629
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28475):
ACAGATTTTTGCTGAAATATGTTAATTCTACTTTTTGAGCACTTATGAATAACCATGTATCTTCAGAACTATCTACCATGAAGCAAAAAGGGACCATCAA
S
CTCATTATTTTATATTTCATACAATTTATAGATATCACTTTATGCTATTTTAACATATATTCCATTTTAATTTTTGTCTGAGTCAAGACAAGAAAAACCA
Celera SNP ID:            hCV15921956
SNP Position Genomic:     56796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28476):
ATGCCACTGCCCTGTGCTGGGATGGAGTAGACCCCTGTGAGCTCACAGACCCTTGATCCAACTTGAGTCAGTTCCCCTTTACTTAGCTCCAGCTGGAACC
T
TTTTTTTTTAATTCCATAAAGTCTTGCTTTTAATAATATGTTACAAATAACTGAATGTGTCTTTATCAGGCAATTTTGGGGACAGAATCTGAGGCTTTCT
Celera SNP ID:            hCV26218235
SNP Position Genomic:     8936
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28477):
GATGTAGATGTTTATTGCTAAAAATTTCCCTCTTAGAACTGCTTTTGCTGTGTCTCATAGGTTTTAGTACGATGTGCTTCCATTCTCATTTGTCTTAAGG
A
ATTTTTAAATTTTCCTTTTTAATTTCTTCATTGACTCACCAGTGGTTTAGAAGCATGATGTTTAATATATATGTAAAGATTCTGAAGTTTTTCTTACTGT
Celera SNP ID:            hCV26218236
SNP Position Genomic:     17742
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28478):
TGTTATATCTTCTTGTTGAATTGATCCCTTCATCATTATCATCATCATATAATGACCTTCTTTGTCTCTTTTTATAGGTTGTTTTTGTTGTTGTTGCTGT
Y
GTTCGAGACAGGGTCTGGCTGTGTCACCCATGCTGGAGTGCAGTGATACGAACTTGGCTCACTGCAACCTCTGCCTCCTGGGGTCAAGCCATCCTCCCAC
Celera SNP ID:            hCV26218237
SNP Position Genomic:     18323
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28479):
TTTGTATAAGGTGTAAGGAAGGGATCCAAGTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAGATAGGGAATCCTTTCCCCATT
K
CTTGTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGTGGCGTTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGG
Celera SNP ID:            hCV26218238
SNP Position Genomic:     21370
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28480):
GCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATTAAGGATATTGGTCTAAAATTCTCTTTTTTGATTGTGTCTCTGCCCGGCTTTGATATCAGGA
Y
GATGCTGGCCTCATAAAATGAGTAAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTCTCAGAAGGAATGGTACCAGTTCCTCCTTGTACCTCTGG
Celera SNP ID:            hCV26218239
SNP Position Genomic:     22600
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28481):
CTATAAGCAGCCCCCAGTGAAGGGCAATGAAGTGGGGAAGAGAGGTCAGAGTAGGCAGGCATGGGTGTGGGTGGGAGGGACTTATCAGAGGAAGGTGGGA
M
CAGGGACCCTATAGATGATTTTGGGGGCATCATGAAAGCATGCAGCTGGGGCCCTAAGTGGATAAATGGCAGATAAAGGAGGTGGAAAATTCCCAAGACA
Celera SNP ID:            hCV155202
SNP Position Genomic:     73266
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28482):
TTGGGACTAGGAATCTGCCTTTCTGCTCCCCCTAACCTTGTTCAGGGGTACCCTCATTTCCCCTACTCCTGTCCTTCCCGAAAATGAAGAAGACAGCTCC
Y
GTTTCCCAGCGCTTGTTGATACGAGTCATGAAGAGTGGATTTCTGTTCCTCTTGCCTAGGCAGACTGAGCACTGTTCTCAACAGTCTGAAAAACACAGGA
Celera SNP ID:            hCV155203
SNP Position Genomic:     72610
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,10)      total(C,5|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28483):
TAACATGAGTATTAAGTGAAGACATGCACCCAAACGGCATAGGAAAATTCCATTTCCTATAGGACGTGCTCAAAATATGTTAGCTGTGTAATTATGGAAC
Y
AGACCTCTCAGGCCCAGCTCTGCTTCTAGCTCCTGGTCACTGGTGATTAGATCTGATCCATGTACTCTTGGGACTAGGAATCTGCCTTTCTGCTCCCCCT
Celera SNP ID:            hCV155204
SNP Position Genomic:     72442
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28484):
GCTTGCGTCCACAAGATATTACGTCAACAGCAGGTATGGACCAGCCAGGTCCTCCCACCTTTTCTTCCTAGATGGCCATAGGCTATTCGGGGGGAGTTTA
M
AACAAAGTGCAGCCATGACTCCAGCACTTTCTTTTTGAAAACTAGAATTCCATGCATTGTGCATTTCATGCCATGCATTGTGGACTAGAGTATCAGGGTT
Celera SNP ID:            hCV155205
SNP Position Genomic:     72122
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,7)      total(A,3|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28485):
AATACAGAAAAGAAGAGGCAAAGGGGCCGAGATGGGATACAGACCTGTATCACACAGGTGTGTGCACATTCTCATTTAGAACTGGAACAAGGGAGTCAGA
Y
TTAAAATTCTGGTGCAGATTCCAAAGGTGTTCTCTGAGGAAAAGTTCTTTTGTTTGGAGATGCCATGTGTTACAGCACAGAAATTGATCAACCTGGCTTA
Celera SNP ID:            hCV155206
SNP Position Genomic:     71420
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28486):
CTTTACTAAAAGGAACCAGAACTCCTTGGAAAAATAGCTGACTTCAGGGCTGGGGCAGGAAAAATAGATGCTGAGCCTAGAACAACACACTGAAGTGCTC
M
AACAGTGATGGGACACTCAAAGCATACAAGAACCAATTTGAAGGATCTCCTGTTGCCAAGTCTGGGAATTTTGAGCATTAAAATAAATAATGATAGCAGT
Celera SNP ID:            hCV7504309
SNP Position Genomic:     67632
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28487):
TAGCAATTCCTTGAGAGAGGACCCCACGTTACTTGCCTTTATCCCCGCACAGAGCACTTCACAGGCTGTGCAAGGTAATGCTCCACTGAGGACACATTCT
Y
GCCTATGGGAACTCTGGAGGCAGGGCTTTGTGGAGGGGCTGCCACAGGCTTATGTTGCCTCCTAGGATTTCCCATGGGCCAAGAGGGAAAATGGGGGTCG
Celera SNP ID:            hCV7504236
SNP Position Genomic:     43743
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Iowa(C,14|T,345)      total(C,14|T,345) ;(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28488):
TCGTGAATGTCGGTTCTCAGGCTGCCAGGCTGCTGCTTCTCAAGGATGACCCAGACTCAGAGAAGTCTCTGGTGTCAGGCAGAGGACACTGGGTGGGGGA
Y
AGGAGGAACTGCTCAAAACAGACAGAGGCTCTTTGTTTGCTTTGCTTCTGTGTCAACTGGGCAACATTTGGAAACAACAAATATTGGTTCAGAGGCCCAC
Celera SNP ID:            hCV7504237
SNP Position Genomic:     39139
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Iowa(C,21|T,338)      total(C,21|T,338) ;(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28489):
TGTCCTTCTGCACAGATGAATTTTTCAGTGAAGGTTGTGCCCCTGGGTCTAAGAAAGACTCCAGTCTCTGTAAGCTGTGTATGGGCTCAGGCCTAAACCT
S
TGTGAACCCAACAACAAAGAGGGATACTACGGCTACACAGGCGCTTTCAGGTGAGTCTTTTAACCCTGAAACAAATAGAATAATATACAAGCCCTGGCCA
Celera SNP ID:            hCV148061
SNP Position Genomic:     64554
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|G,8)      total(G,8|C,4) ;no_pop(C,-|G,-)   ;(C,-|G,-)   JBIC-allele(G,56|C,669)   total(G,56|C,669)    
SNP Type:                 SILENT MUTATION;INTRON;UTR 3;hmCS


Context             (SEQ ID NO:28490):
AAGGAGCTCTCTAGGAAGTCTAACCAGTTATTTCAGCAAACTTCTCATTGCCCAGAACTTAGGTACATCACCATACCTAGCTGTAAAAAAGAAATGTAAT
Y
GTTCATCTGGAAATGTCCCTACCCCAGATAAAACCAGATTTTTGTTACAAAGTACAAGGAGAAACAGATATTGGGTAGACAGGTAGCAATCCCTGCCACA
Celera SNP ID:            hCV148062
SNP Position Genomic:     63426
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28491):
AGATTTGGTGAGTGAATATTGGGAAGGAGGGCTGGTGAGGGCCATGCCAGAAAGCAGGGTCCTGCCTTAGGGAAGAGGAGTGTGGCATAAGGTGCTGTGG
S
CTCTGGTTCTAGAGAAGTAGAATTTGGTCAAAGAACAGTAGAATTTGCTGTCCTCAAGGACATAGCAACAAGGGCTGGAAGGGCTGGAACTGGGTTGCTG
Celera SNP ID:            hCV148063
SNP Position Genomic:     62967
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28492):
GCTGCTGAAAATGGAAGCTGACTTGATATTGACATTTTCCATTTTGCATATTTATTTTGGTATAAAACTATATTCTCCTTATCAGAAAATGTTTGGCTCA
R
TTTTTTCTCTTTTGCTTATTGATCTTTTACTACTATATCTCAACATATGTTAATTTATGAAAGTTTGTGGTTACATTAGCTGTTTCAGTATCCATTCCTC
Celera SNP ID:            hCV148064
SNP Position Genomic:     62308
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)   JBIG-allele(A,661|G,842)   total(G,842|A,661) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28493):
TCTTGAACTAGGCACCTGGAGTTGATGATCAGTTCATGATGGTTGGGTGAAAATGAGAGTACATTTGATTTTCTCTGCTGAGTGTGCCTGGCTGATCTTT
K
GGGGGTTCAGTATCAGCATCTGCTATCTCCCTGGCATTCATGTGCTGGAAAGGCTGCTTCAAGGAAACAGCTGGAAAAGTGGGTGGCACAGGAAACAGCC
Celera SNP ID:            hCV148065
SNP Position Genomic:     60485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28494):
TTCAAATGCTTATGAATCAAATCATTATTGAGGATAATATTTGCTGATGTGTAATTACTATCTTGCATGAATTAAGAGAAATAAATATAGCCATACTTAC
R
TTTTAAAGAAAAAAATGATATTTTAAGACTGATATCTATTCCATAGCATGGATGTGCTTCCACTTATTTAGCTATTTCTCTGTCATTGAGCATTTAGTTT
Celera SNP ID:            hCV148066
SNP Position Genomic:     59826
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28495):
AGGCTTGTATGTATAGGAAATAAACATTGTATAGGGTTTCAGGTTCCAAGACTGGGGGTCTTGGAACATATCCCTTGAGGATAAGAGGGGACTACCATAC
K
TAAAGTACTTTCTGAAGCTGCTATTTGGGCGTGTCTGAAAAAGTTTGAAAATCTATTAAAAATTGGTTTGAGCCCTGACCCATGAATCCTGAAACTGGTC
Celera SNP ID:            hCV148067
SNP Position Genomic:     59094
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28496):
TGAGGCTTCTGCATTCTTCACGTAGTTCTTGAGCCTTGGCTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTGTATTGGTTATTCTAGTTATACATTC
R
TCTAAATTTTTTTCAAAGTTTATAACTTCTTTGCCTTTGGTTTGAATTTCCTCCTGTAGCTTGGAGTAGTTTGATTGTCTGAAGCCTTCTTCTCTCAACT
Celera SNP ID:            hCV26218240
SNP Position Genomic:     24997
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28497):
CAACTCTGAAGAATCTCCCAGTAATAGATGACGTTTGTGCATTTGCAAACAGTTAATTGTTCTTATGTCATTGGATTTGTTGTGCCAAATCAAAAGGAAC
Y
AACAGAACTAACTTGAAAGAAAGGACTTACAGGAACTTGAGAGTAGCTCTCTAACAGTTGTGAAACAGAAGATGAGGTGCAGTAGTCCCCCTTTATGTGA
Celera SNP ID:            hCV148068
SNP Position Genomic:     58724
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28498):
ATACATTCGTCTAAATTTTTTTCAAAGTTTATAACTTCTTTGCCTTTGGTTTGAATTTCCTCCTGTAGCTTGGAGTAGTTTGATTGTCTGAAGCCTTCTT
S
TCTCAACTTGTCAAAGTCCTTTTCCATCCAGCTTTGTTCCGTTGCTGGTGAGGAACTGCATTCCTTTGGAGGAGGAGAGGCACTCTGCTTTTTAGAGTTT
Celera SNP ID:            hCV26218241
SNP Position Genomic:     25089
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28499):
ATTGTCTGAAGCCTTCTTCTCTCAACTTGTCAAAGTCCTTTTCCATCCAGCTTTGTTCCGTTGCTGGTGAGGAACTGCATTCCTTTGGAGGAGGAGAGGC
R
CTCTGCTTTTTAGAGTTTCCAGTTTTTCTGTTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTTTGGTCTTTGATGATGGTGATGTACAGATGGGT
Celera SNP ID:            hCV26218242
SNP Position Genomic:     25171
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28500):
CTACAAAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTTGAGCTTCCCAGCTGCTTTGTTTACCTAAGCAAGCCTGGGCAATGGCGGGC
R
CCCCTCCCCCAGCCTCGCTGCTGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATCAGTGAGACTCCGTGGGCGTAGGACCCTCTGAGCCAGGTGT
Celera SNP ID:            hCV26218243
SNP Position Genomic:     25812
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28501):
TGGTGGGCTCCACCCAGTTTGAGCTTCCCAGCTGCTTTGTTTACCTAAGCAAGCCTGGGCAATGGCGGGCGCCCCTCCCCCAGCCTCGCTGCTGCCTTGC
R
GTTTGATCTCAGACTGCTGTGCTAGCAATCAGTGAGACTCCGTGGGCGTAGGACCCTCTGAGCCAGGTGTGGGATATAATCTCCTGGTGCGCCGTTTTTT
Celera SNP ID:            hCV26218244
SNP Position Genomic:     25842
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28502):
GCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATCAGTGAGACTCCGTGGGCGTAGGACCCTCTGAGCCAGGTGTGGGATATAATCTCCTGGTGCGC
Y
GTTTTTTAAGCCCGTCGGAAAAGCGCAGTATTCGGGTGGAAGTGACCCGATTTTCCAGGTGCTGTCTGTCACCCCTTTCCTTGACCAGGAAAGAGAACTC
Celera SNP ID:            hCV26218245
SNP Position Genomic:     25935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28503):
GAATCTCCTGGAGGTCTTGTTAAGGCACAGGTCCCTGGGCCCCACCTCCAGAGCCCCAGAATTTGCATTTCCAACAAGTTTCCAGCCAACACTGATGCTG
S
TGGTTCCTCACCTCCAACTTTGAGAACCATTAGTCTAGAGTAGAGAAAGGAAAGCAGGAACGCTGAGGTGAAGTTAAGGATCAGGAAGGTTTCTTTTTGT
Celera SNP ID:            hCV27968220
SNP Position Genomic:     15152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28504):
GGGCTCCAGGGTCAGTGGCCCTTCTAGCTGTCAGCCTGGGGGGTCAAGTGGAACTGGGTGAGATTGAAAATATGGTGATGAGAAAAGGGGTTTCTTAGCC
R
GGTACATCTCTGTCTTAAAATGAGAACAGACAGCTCCTGGTCTGTCCCAGTTGTAGAAGAAGGACTGAGTTAAGGAGAAGGAGCCCTTGGCTTTGTAACA
Celera SNP ID:            hCV26218246
SNP Position Genomic:     30042
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28505):
CACAAAAAAAAACCCTTAAAAAAATCAATGAATCCAGGAGCTGGTTTTTTGAAAAGATTAACAAAATGGACCGCTAGCCAGACTAATAAGAAAAGAGAGA
R
GAGTCAAATAGACACAATAAAAAATGATAAAGGGGATATCACCACTGATCCCACAGAAATACAAACAACCATCAGAGAATACTATAAACACCTCTATGAA
Celera SNP ID:            hCV26218247
SNP Position Genomic:     34028
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28506):
ACTACTAATTCCAAAATGTGGGGATGTACAATGGAGGGAAAAAGGAGAGTGTTCTGACAGGGACTCACAGAAAAACCTGCTTTGTCCTGGGTGGTCAGAG
R
CCATCTCTCTGAGAGAGATGTAATGAAGGACTGAGCCTGGGTGGGCTCCAGTGTAAAATACACCAGGCAGCAAACAAGAGCATATGCAAAGGGCCTGAGG
Celera SNP ID:            hCV27968221
SNP Position Genomic:     46013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28507):
GTTTGTGGCATGGGCTCAACCTTCCGTAACTGCACTTCCTGCTCTCTGGCAGACCCTGCAAGCTTACTACAGGGCCTGTCCATGCATCAGCTGTATGTGT
R
CATGCTGCTCTGCTGGGTGCCTTCCAGTTAGCCTTGCCCCTGACTTTTCCTGCTCATCTCACATCCTTACCTCAAGGTCTCCAAATGAATCCAGACCACT
Celera SNP ID:            hCV26218248
SNP Position Genomic:     40860
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28508):
ATGAATCCAGACCACTGCCTAGAGCCTGCTGCAGGGGCAGTAGGAATATGGCCCTCATGCTAACAGTCTTCTTTCCCTATGGCTCAAGCACAAGGGGCCC
R
TGGACGGGCAAGGGGGGAGTAAGACAGGGCAGCAGTGGTCACTCTCCCTCGCTGGTGAGGCTGATGTGTTGGGAAAGCCAGACTTGACTTCTGTCCTCAC
Celera SNP ID:            hCV26218249
SNP Position Genomic:     41045
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28509):
CAGGGATGCCTTTGTGGAAGTATTATGTACACTGTCAGACTTCAAAGCTCTGATTCTCAGTCTGTCTGCTCAGTGAAGAGAGACATGTTCACCTGAGTGC
R
CAGAATGATCAGGATTATGGGGCCCCCAATGGCCCTAAATCCTCCCCAACACACACTCCCACAGCTGCAAGCCTTGTGCTCCTTTCCCCTAAATACTTCA
Celera SNP ID:            hCV7504310
SNP Position Genomic:     67182
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28510):
CCACACCCAGAGATATGTGGCCTGGGAGTTAGTAGAGTCAGGTGCCTTTATGCCATGTTTTGCCATATTCTCTGCATTTCTCAAAAACAAAAACAAAAAA
M
CCCACAACATAGCAAATGCTCCATAAATGTTAAAATTCTTTTTCAAAGGAATGAAGGACAGCACAAATTGCAATTTGTGATGGAGTTTCAGTCTCTCACA
Celera SNP ID:            hCV7504311
SNP Position Genomic:     66476
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,7)      total(A,4|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28511):
ACACACATGCTTGCACATACCCTTGCCAATACTTCATATCCCCCTTTCTTGCTTTATGTTTTCTTTAGCACTTATTACTCTCTAGCTTGCTATATATTTT
K
TCTACTTACCTTGCTTCGTGTCTCTTTTCTTCTGTAGAATGAACAAGGACCCCGTTGGTTGTAAGTGAGAAAACCTCATGTGAAGCAGCTTACACCAAGG
Celera SNP ID:            hCV27903838
SNP Position Genomic:     13565
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28512):
ACCACAGCCCATGGCTCTCCTGTGTTAAGCTCACCTGGGCTTTCCCTCCCCAGAGAACTTGGCAAACAAGGCTGACAGGGACCAGTATGAGCTGCTTTGC
Y
TGGACAACACCCGGAAGCCGGTAGATGAATACAAGGACTGCCACTTGGCCCAGGTCCCTTCTCATACCGTCGTGGCCCGAAGTATGGGCGGCAAGGAGGA
Celera SNP ID:            hCV12061602
SNP Position Genomic:     53318
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;Caucasian(T,59|C,400)      total(C,400|T,59);(C,-|T,-)   
SNP Type:                 SILENT MUTATION;INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:28513):
TCTCTCTGAGCTGTTCCAGCCTCTGACAAAGCAGGGAGAAGGTGCTCTGAGAAAGACCCGAGATAGGCCTTGGTTAGTGGGAAGCATAGGCCTGTTTCCT
S
TGATGGATGGTGGCCAGACAGAGGTCAACTTGTTCCTATTAGAAATCCTTGATCTTGATGAGTTAGCATAAGGGCAAGCTGGGGCTGCATGTGCTGGTTT
Celera SNP ID:            hCV80377
SNP Position Genomic:     51599
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28514):
CCATTTCTCTGTGCTGAGCAGCAGTGGCCAATTTCTTCTCGGGCAGCTGTGCCCCTTGTGCGGATGGGACGGACTTCCCCCAGCTGTGTCAACTGTGTCC
R
GGGTGTGGCTGCTCCACCCTTAACCAATACTTCGGCTACTCGGGAGCCTTCAAGTGAGTGAGATGTCTGCTGCTCCATGGTGGCCAAAGTGCCAAATGTC
Celera SNP ID:            hCV80378
SNP Position Genomic:     51882
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 SILENT MUTATION;INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:28515):
TCTTTTTTTATGCCATAGGCCCAGAAGCCCCAACAGATGAATGCAAGCCTGTGAAGTGGTGTGCGCTGAGCCACCACGAGAGGCTCAAGTGTGATGAGTG
S
AGTGTTAACAGTGTAGGGAAAATAGAGTGTGTATCAGCAGAGACCACCGAAGACTGCATCGCCAAGATCATGGTATGTCACTCCAGCCTTCCTAGGGCAG
Celera SNP ID:            hCV7504245
SNP Position Genomic:     55697
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;UTR 3;hmCS


Context             (SEQ ID NO:28516):
CTCATCTGGAAATACAGAATAGTACATGATTCCTAAATTCCTAACTACAATTGTACTTTATGGAGTGCCTATCATTCATTTTCATAGAGATACCTGTGTA
S
CTTGCTATTTTTTTTTTTTTTTTTTTTTTTGGAGACAGGAGCTCTCTCTGTTGCCCAGGCTGGAGTGTAGTGGCACACTCATGGTTCACTGCAGCCTCAA
Celera SNP ID:            hCV7504319
SNP Position Genomic:     65222
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28517):
GCTGCTTTGCCTGGACAACACCCGGAAGCCGGTAGATGAATACAAGGACTGCCACTTGGCCCAGGTCCCTTCTCATACCGTCGTGGCCCGAAGTATGGGC
R
GCAAGGAGGACTTGATCTGGGAGCTTCTCAACCAGGCCCAGGTATCCCCACCTGCCATCCTCCCCTCCAGCTTAGTGCTCCCTGCTTGGATTTGGGGGTT
Celera SNP ID:            hCV7504246
SNP Position Genomic:     53408
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): Caucasian(A,-|G,-)    ;(A,-|G,-)   ;(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;UTR 3;hmCS


Context             (SEQ ID NO:28518):
GCAGCTGTGCCCCTTGTGCGGATGGGACGGACTTCCCCCAGCTGTGTCAACTGTGTCCAGGGTGTGGCTGCTCCACCCTTAACCAATACTTCGGCTACTC
R
GGAGCCTTCAAGTGAGTGAGATGTCTGCTGCTCCATGGTGGCCAAAGTGCCAAATGTCCTCAGGGTGAGAGTTCTTTGCTGGTCCAAAGCCGAGCCCTGC
Celera SNP ID:            hCV80379
SNP Position Genomic:     51924
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,25)   caucasian(A,5|G,13)   total(A,8|G,38)
SNP Type:                 SILENT MUTATION;INTRON;UTR 3;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;INTRON;UTR 3;hmCS


Context             (SEQ ID NO:28519):
CACAGCCCATGGCTCTCCTGTGTTAAGCTCACCTGGGCTTTCCCTCCCCAGAGAACTTGGCAAACAAGGCTGACAGGGACCAGTATGAGCTGCTTTGCCT
R
GACAACACCCGGAAGCCGGTAGATGAATACAAGGACTGCCACTTGGCCCAGGTCCCTTCTCATACCGTCGTGGCCCGAAGTATGGGCGGCAAGGAGGACT
Celera SNP ID:            hCV7504247
SNP Position Genomic:     53320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:28520):
CCGAAGGGAAAAGGTGGAAGAAACATCCAGATGCAGCCTGGCTTCCCTCAATCCCCGCGCTGGGGTTTTCCTCCTCTACCCGTGTCTTTCTGCTGGCTTC
S
CCTTGGCTTCCCTCCAGCCTTCTCTCTGTAGCTTTCCCTCTTCTGGGTTTGGTTATTTTGACTTGTGAGAGCTTGCTTGATTATAATCCTGTCCCTCCCA
Celera SNP ID:            hCV462967
SNP Position Genomic:     46922
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28521):
CGCAGGTTCCCCTGGGAACCCTGCAGCTCTAGGGCTGGACGCTGTGTTTTAGGCCTTAGCTCTTTGGCTCCCTGAGCCCCCGAGGCACCAGTGATTTCTT
R
GTGTCTTGGCAAAGAAAGACCAGGTTCCTGACCACTCTCCCAACCCCACTGCAATGGGCAAAGCTCTCGTTTGTTTGCTTCATTTTTTAAAAAATATATA
Celera SNP ID:            hCV462968
SNP Position Genomic:     47128
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28522):
GTGGCCCCTCCTCATGCATCCTGGAGAGCTGTGGGCCTCCTCTCCACAGGCTTTGTGGATCTTCTTCAGAGCCAGTGAGTCAGCCTTGCTGTGGTGGCCC
R
CAAGGAGTGGAGATGACAGAGGGCCTTGGGGACAGGGCAAAAGCTCATGTGATAGGGATGCTGTCTCTGCAACCACATGGATTTTAATAGTTACCCATGG
Celera SNP ID:            hCV26218250
SNP Position Genomic:     43962
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28523):
GTTGATGTCAGGGAAATTATGTCATCTCTCAGAGAAACAGTACAAAAAATTAAGATTTAGTATGTGGAACTGAGATTGTAAAACTACAATCAATTCAGAG
K
GTTTTGTTTTTGTTCTCTTTATTCCTTACATTGCTTACTGTTAGAATGGAAGTTACAGTTGCTGTTTTCAGATGGCTGTCCTGAATCTATAAGGTAGCCC
Celera SNP ID:            hCV27511327
SNP Position Genomic:     66785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28524):
AAAAAGGCATCATTCTCTGAGTCTCACTCCCTCTTCTCAAAAAGATGGCAATTCCTCCCCCGCTGGTTTTCCATAGTTGAGGTAGCAAGCCAATGTGTTG
R
GGTAGCTGAAAACGCCCTGTGCATACTGAGGCTTATGTTCCATGGGGGGCCAGGGGCCAGGACAGTGATGGGAGGAGACAAGGCGGATACAGAGGAGCAG
Celera SNP ID:            hCV26218251
SNP Position Genomic:     44473
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28525):
GGAGAATCACTTGAACCGGGGAGGCAGAGGTTGCAGTGAGCCAAGATCCTGCCACTGCACTCCAGCCTAGGTGACAGAGTGAGGCTCCATCTCAAAATAA
R
TAAATAAATAAGAATGCCCACTATCAAAATTATTATATAACCTTCTTTGGCAGCTTTTGATACACAACTGGGAAGATGAGTGATGCATGCAGGGGGAAGA
Celera SNP ID:            hCV26218252
SNP Position Genomic:     45600
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,10)      total(G,10|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28526):
CTTTGCTTCCCTAGGGAAATTGATTGGAAGCAGACACTCTGGAAGCCCCAGAGGTGTTAATACATCCTTTTCTGGTGTCTTTCTTGTAGGGTATTTTGCT
R
TAGCAGTGGTGAAGAAATCAGCTTCTGACCTCACCTGGGACAATCTGAAAGGCAAGAAGTCCTGCCATACGGCAGTTGGCAGAACCGCTGGCTGGAACAT
Celera SNP ID:            hCV26218254
SNP Position Genomic:     62729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;UTR 3;hmCS


Context             (SEQ ID NO:28527):
GGCATAAGGTGCTGTGGCCTCTGGTTCTAGAGAAGTAGAATTTGGTCAAAGAACAGTAGAATTTGCTGTCCTCAAGGACATAGCAACAAGGGCTGGAAGG
R
CTGGAACTGGGTTGCTGAGTTGGGACGGTTCATTTAGGTTGAACATATTAGCATGAGTGAATATACATTTATCTCTCAGGAGAAAGACCAGAGGTGAGCA
Celera SNP ID:            hCV26218255
SNP Position Genomic:     63050
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28528):
CCAAGTCCCTACCCAGCTCCTAGGACCCTTCTAAGCAGTAGAAATCACCTCATTTTCTATGTCCTCTGAATACCACCAGGTATGAGCTTATTTCTACCCC
R
CTTAAACTTTTAAGTGTAAGTTCTCCTACAGACAGATGTTTTCCAGTGGTTCTGATTTACATTAGCTTCCTAAGTACTTTGTCCCTGCCACCTCCAAATT
Celera SNP ID:            hCV26218256
SNP Position Genomic:     63689
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28529):
ACTTCCTCTTGTCCTTCTGCACAGATGAATTTTTCAGTGAAGGTTGTGCCCCTGGGTCTAAGAAAGACTCCAGTCTCTGTAAGCTGTGTATGGGCTCAGG
C
CTAAACCTGTGTGAACCCAACAACAAAGAGGGATACTACGGCTACACAGGCGCTTTCAGGTGAGTCTTTTAACCCTGAAACAAATAGAATAATATACAAG
Celera SNP ID:            hCV26218257
SNP Position Genomic:     64545
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:28530):
AATTATCCAGCCCCAAGTGTCACTAGTGCCTCGGCAATGATACCCTACTGTAGTTGAATAAACACTGAGTGGAGTGGAGAGTTTGGCTCAAGCTTTTCCA
Y
GCACCTCTGGATAATCCAGAACAATACTCATCTGGAAATACAGAATAGTACATGATTCCTAAATTCCTAACTACAATTGTACTTTATGGAGTGCCTATCA
Celera SNP ID:            hCV26218258
SNP Position Genomic:     65095
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28531):
CCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACC
Y
GGGAAGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV26218259
SNP Position Genomic:     68104
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28532):
AAAGCCCTGGGGGCTGTGTGCTTTTGGAGAAATGGCAAGGCTGGGAGTCTCATGTCTGTCCCTCTCTCGGTGTGACCCCAGATGAGCTCCTTGGCCCCTG
Y
ATGTCCTGGTTTCCTGGGAGAGGCAGTGTCCCTGGTGGATGTGTACACTCTGGAACCAGACTGCCTTCTTTTGTATTCTGACTTTGCAGCTGACCTTGAA
Celera SNP ID:            hCV126228
SNP Position Genomic:     39903
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28533):
CTACGAATGTAGATGGGCTCCAGAAAAGGAGAATCACTGACCATCTTCTTTCCATGCCCTGCGTTGAGCTTCCCTGAGTTTGTGGCATGGGCTCAACCTT
Y
CGTAACTGCACTTCCTGCTCTCTGGCAGACCCTGCAAGCTTACTACAGGGCCTGTCCATGCATCAGCTGTATGTGTACATGCTGCTCTGCTGGGTGCCTT
Celera SNP ID:            hCV126229
SNP Position Genomic:     40783
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28534):
GAAGAAACAGAGCAGGAGCAAGTCAGGAAGTCTTACACCAAGGTGAGCACTGGCCCCCTATGCTCAGGCCCCTGCAGGTCACATTCCAGACAGCCATTAC
Y
GTACAAGTCTGTCCTTGCCACTTCCACTGATTATAACCTCCCAGCCTCTCCCCATCACTTGGGGAGCTAAGCCCTTCAGCAGATATAGAAAAAGCCATTC
Celera SNP ID:            hCV7504320
SNP Position Genomic:     61989
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28535):
GAGAGTTCTTTGCTGGTCCAAAGCCGAGCCCTGCCTGCCTACAGGGGCATCGAGGTGGCCTAATCCCCTCCCAGTGAGTCAGAAGCACAACCTGGGACTC
Y
TAGGCCAAGCCAGCCCATGTTCCCTTTCATCTGACCCTGACAAGTAGGTCCTTTTCCTGGGGACCCTTCCTTTCTCCCCAGAGCCCTCAAGCCTGGTCAG
Celera SNP ID:            hCV80380
SNP Position Genomic:     52091
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28536):
CATGACATGAGGCCTGCACATTTTCAGATAAGAGTAAGCACCAACCAAGGAACTTTGCTTATTTATTCCTTACAGGGCTCAATAGAGAGCCTCACACAGG
Y
AGATATCAAGGAACATAAAATTATCTGACCTTCTAGCCAGGGCTGGGTCCAGGAACCCAGGCCAACCTGGCTTCTCACCCAGGGCTCTGGGTAAGGGTAC
Celera SNP ID:            hCV7504321
SNP Position Genomic:     61784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28537):
TGCCTGCACAGCGGCTTTACTTCCCAAGAGCTGTGTGATTTGGGCTCAGCCAGCTTCCTCTTGCCGAGCCGTCCCATCTGTCCACTGAGAGTTTGACTGG
Y
AACCACACAGGGCAGCCTCTGGATTAGCCACGTTTCTTGTTCTCACCGATGTCTCAACCCGTTCCGGGAGACAGGCACAGAAGCAGGTTCAGGGAAATCG
Celera SNP ID:            hCV80382
SNP Position Genomic:     53923
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28538):
GACTGGCAACCACACAGGGCAGCCTCTGGATTAGCCACGTTTCTTGTTCTCACCGATGTCTCAACCCGTTCCGGGAGACAGGCACAGAAGCAGGTTCAGG
S
AAATCGCGGACCCACGAGGGCTACAGGCAGAGGAAGTGCTGGGTGAGCAGGAGCAGGTCCGACTGCCCTCTCTCCTGGCATCTTGAACTTTTTCATGTTG
Celera SNP ID:            hCV80383
SNP Position Genomic:     54017
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28539):
CCCTAACCCTGAGGATGCCCTGGTGAACAAGACAGGCAGGGCCCTTTCTGTGTTGGAGCTTCTGTTCTCCTGCAGAAAACCTGACAATAAACAATGAACA
K
ATAAATAAGAACACCTCCAGTAGTTAAGTGCTATCTGAAAAACAAGAAGGAAAAAAACAGCCAGAGGTCATATAGTGCCCAGAGGCTGGAGAGGAAAGTT
Celera SNP ID:            hCV80384
SNP Position Genomic:     55297
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28540):
CCCATCACCGTCTCTATCTGGGAAGCTGATTTCTTGCTTTCTCTTTTTACCTTGATTATATCCTAAAGTTTTACAACCAGCCAAAGGCACATTTTCACCC
Y
CAGGAGACACTATACCATTATCTTCTATTCCAGAAGTTTAAAAGCTCTTTTCACATGAAAATATCTTCAGTTGCATTTTGCTTCTTTGGGTTATGAGGGC
Celera SNP ID:            hCV11777360
SNP Position Genomic:     52428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28541):
ATTGACTTTGCTTTCTAAGGTGATTAATTCCTTGAATGGGGTCTGTTTGTTTATTGCTGGCAAATCCCAGCATTTGCATGAAGACAGTGAGTAGTGCTGA
Y
AAACACCAGGCAACAGCTAGGGCCGCTTCTGATCTTTGTTCTTTTTTTATGCCATAGGCCCAGAAGCCCCAACAGATGAATGCAAGCCTGTGAAGTGGTG
Celera SNP ID:            hCV80385
SNP Position Genomic:     55557
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28542):
ACTAAGTTCTCTAAAAGCTGGGACTCCCCACAGAGCAGCAGGGAGCCTGCTGTGGTGCTACCGTCTGCCGCCCTTGCCTTTCTGGCTGGTGACACCTGAA
R
AGGCTCTGTATTGCTCTGTTGCATTCCTTTCTACCTAAACTTCAAGGCCCAAAGCTAAACCCCTCCCCAAGGAGGCTTTCCATGACCCTCCCAGAAGGAA
Celera SNP ID:            hCV11777361
SNP Position Genomic:     53679
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28543):
GACCAGTGGTGTGCCACGATCACTGAGATAAGATCCTGAGTACATGGTAGGATCCAATCAGGTACAAATTTGCTTTGTTGATCAAAAGAGTATCCTAGCC
K
GGCATGGTGGCATGCACCTGTAGTCCCAGCTACTTCGAAAGCTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTCAGGGCTAGCAACTTAGCAGGACCTT
Celera SNP ID:            hCV80386
SNP Position Genomic:     56153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(G,2|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28544):
ATGACATGTATAGATAATTTTCTCTGACTTTCTTTATTCTTAGCTGCAGCATAAAAAAAAGGCATGGTTTCCCAATCTATAAATCAGGGTTTAATGCCTT
Y
TTCATTTTCTTTTCTCCTGCAGAGAGCGATAATTGTGAGGATACACCAGAGGCAGGTGAGTTTGAATTGGTAACCTCTGGAGTTAAAAGATAAATTCCCA
Celera SNP ID:            hCV12061614
SNP Position Genomic:     61292
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;(T,-|C,-)   JBIC-allele(T,699|C,780)   total(C,780|T,699)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28545):
GCTAAAACACAAAGAATTTAATACACATTACCAGGCAGACTCTGAGCGAATGTGTGGAAGAAATGATTTTTCTCTTTTGGCATCAGTTTGCTACAGTGAG
Y
TCAAATCAAATAGGAAATTATTTGAAATGCATGTTTCAAACTGTGAGGCAAACTCCATTCTTCATATTCAACCTAGATTTTTACTTCTTAAGACATCACC
Celera SNP ID:            hCV7504328
SNP Position Genomic:     59314
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28546):
AGATCCACAGACTTTCTATTATGCTGTTGCTGTGGTGAAGAAGGATAGTGGCTTCCAGATGAACCAGCTTCGAGGCAAGAAGTCCTGCCACACGGGTCTA
R
GCAGGTCCGCTGGGTGGAACATCCCCATAGGCTTACTTTACTGTGACTTACCTGAGCCACGTAAACCTCTTGAGAAAGGTAAGCTGGCAGGAGTCTGGGT
Celera SNP ID:            hCV7504256
SNP Position Genomic:     51033
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): UNKNOWN(A,25|G,106)      total(G,106|A,25) ;(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;UTR 3;hmCS


Context             (SEQ ID NO:28547):
CTGGGAATGATGCAAAAACCTGGCTCCCAGGAACCTTGCCCTGACTATGTGAGCACAGCCCCACCGGAGGTTCAGAATCTTTGAGCTTGTGGATCTGAAG
R
GTGCCCACAGGGCTCAGTTTCCTCCTTGTATGAGTGTATGGTGAAAGGGCAGGCTGAGCAGTGCCTGCTTAGGGAGGCTGGACCATGGTGTGGGTGTCCT
Celera SNP ID:            hCV15918973
SNP Position Genomic:     55950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28548):
GTTCACTGCAGCCTCAACCTGCTGAGCTCAAGCGATCCTCCCACCTCAGCCTCCCTAGTAGCTGGGATTACAGGCATGCACCATCACACCCAGCTAATTT
Y
TGTATTTTTTTGTAGAGACAGGGTTTTGCCATGTTGCCTAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTCCTGTCTTGGCCTCCCAAAGTGCTGG
Celera SNP ID:            hCV11777368
SNP Position Genomic:     65406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28549):
AACCACCTTCTTCCTGTCCCTAGGAAAAAACCCTGATCCATGGGCTAAGAATCTGAATGAAAAAGACTATGAGTTGCTGTGCCTTGATGGTACCAGGAAA
Y
CTGTGGAGGAGTATGCGAACTGCCACCTGGCCAGAGCCCCGAATCACGCTGTGGTCACACGGAAAGATAAGGAAGCTTGCGTCCACAAGATATTACGTCA
Celera SNP ID:            hCV7505275
SNP Position Genomic:     71947
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Scottish male and female non-demented controls for non-familial Early Onset Alzheimers |isease study(T,97|C,558)   Scottish male and female non-familial Early Onset Alzheimers |isease patients(T,71|C,402)   Japanese(T,128|C,453)      total(C,1413|T,296) ;(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:28550):
GTCTGTCACCCCTTTCCTTGACCAGGAAAGAGAACTCCCTGACCCCTTGCACTTCCCGAGTGAGGCAATGCCTCGCCCTGTTTCGGCTCGTGCACAGTGC
R
CTGCACCCAGTGTCCTGCACCCACTGTCTGGCACTCCCTAGTGAGATGAACCTGGTACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGCATCGCTC
Celera SNP ID:            hCV11776780
SNP Position Genomic:     26099
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28551):
AGACCACAAGGTCCTCACGGACTTTCTGTTCACTTGACAGCACCTATTTGGAAGCAACGTAACTGACTGCTCGGGCAACTTTTGTTTGTTCCGGTCGGAA
M
CCAAGGACCTTCTGTTCAGAGATGACACAGTATGTTTGGCCAAACTTCATGACAGAAACACATATGAAAAATACTTAGGAGAAGAATATGTCAAGGCTGT
Celera SNP ID:            hCV7505276
SNP Position Genomic:     73546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:28552):
CTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAAGC
R
GAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGA
Celera SNP ID:            hCV26218260
SNP Position Genomic:     68112
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28553):
AGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAATCAATGG
K
TGTTAACTTGTGGGTGAACGTTGGACAGCCATAATATTAATAAAAACAAACAAAACAAAGCAAAACAAACATTGGCCAGACTGAGCACTCCACACCTGAC
Celera SNP ID:            hCV26218261
SNP Position Genomic:     68221
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28554):
GCCTCATGATCCGCCCACCTCGGCCTCTCAAAAGTGCTGGGATTACAGGTGTGACCCACCGCGCTCAGCCCACATGGGCTCTTTTATCACAATTTGTGTG
K
GTGTGTGTGTGTGTGTGTGTGTGTATGTGCATATTATAGGTGTGTGTAGGAAAAAGAATGTTAGAAATGTACCAATTTTGAAGGCGTAGACTATGAAATT
Celera SNP ID:            hCV26218262
SNP Position Genomic:     69930
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3|-,6)   total(G,3|-,6|T,3) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:28555):
TTTGATCTTCTTTTTCCATGGACCCTGAGGACATTAAACAAGGGAGTTTGCTCTGGAGGCAGTAGAAGGATCAGTGATCAGTTTACTTTGGCCCTAGGAG
Y
ACTGGACTCTGTTCAGCTTAACCAGCTGAACAGAGCTGATTCAGCTCATGGGCCTATCTGAAGGTCTTGGGACTTGACCTGTCTTGGTGAAGGAGCAATG
Celera SNP ID:            hCV11776785
SNP Position Genomic:     27640
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28556):
CCTTCTTGTTGGAGGGAGTTCATCTTCCCCTATGACTCTGTCCCTAGTCTAAGGTGTCCCACAGGAAGCTTGAGGGCGGGAAGTTTTCCAGCCCAGGAGC
Y
TGAGCTCAGCGGGGCAGGAAGAGGGAGCAGCTCCTCCGTGGGAGACCTTTGAGAGCCCAGGAGCAGGATTTCGAGGGACACCTGGTGGGGAGCAAAAGGT
Celera SNP ID:            hCV126230
SNP Position Genomic:     42229
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28557):
GTGGGACGAGTAAGGAAGGGGGGTTGGGAGAGGGGCGATTGGGCAACCCGGCTGCACAAACACGGGAGGTCAAAGATTGCGCCCAGCCCGCCCAGGCCGG
K
AATGGAATAAAGGGACGCGGGGCGCCGGAGGCTGCACAGAAGCGAGTCCGACTGTGCTCGCTGCTCAGCGCCGCACCCGGAGGATGAGGCTCGCCGTGGG
Celera SNP ID:            hCV126231
SNP Position Genomic:     42789
SNP Source:               Applera
Population(Allele,Count): african american(G,18|T,2)   caucasian(G,16|T,2)   total(G,34|T,4)   
SNP Type:                 UTR 5;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,3)   caucasian(G,20)   total(G,29|T,3)
SNP Type:                 UTR 5;INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:28558):
GCTATATGGAAAGTTCAACATTTTGCAGTCATCATTTCACTTACAACCTTTGGAGATCTGGAGAAGCTGAGTGGCTTGCCCAAGAAAGGATTCAAAATGC
R
GTCAAACATGAACTTTTAAGAACTACCTCTGCCACTCCTCTGGGAGGGTTCACATTTAACATCTTCTTTGACAATAACATCTGAAGGGACATGTTATTGT
Celera SNP ID:            hCV26218263
SNP Position Genomic:     73054
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28559):
TTTTTGTGAATGGCAGCCAAAAAGTGTGGTGAAAATGGAGGGATAGTTCAGTGGAGACAGAGGGGAGACTGTTGAATTTGTGGAGTTTTTAGTTCTTCCT
R
AACAGAGAGCAACAGACAAGAGTTACAGACAAATTAATTCTTTTCGTTAATTTACCCTCAACTACTGGCCAAGAAGGGGTGTAACTCAGAATGTTTTCTT
Celera SNP ID:            hCV126232
SNP Position Genomic:     44176
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28560):
TCAGAATCTCCTGGAGGTCTTGTTAAGGCACAGGTCCCTGGGCCCCACCTCCAGAGCCCCAGAATTTGCATTTCCAACAAGTTTCCAGCCAACACTGATG
Y
TGCTGGTTCCTCACCTCCAACTTTGAGAACCATTAGTCTAGAGTAGAGAAAGGAAAGCAGGAACGCTGAGGTGAAGTTAAGGATCAGGAAGGTTTCTTTT
Celera SNP ID:            hCV28033466
SNP Position Genomic:     15149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28561):
AAAATTAAACTAAATAAAAGATGTATTTCTTCAATCCCACCTAGCTGCATTTCAAGTGCTCAACAGCCACATGTGGCTCCATATTGGTCAGCAAAGAGAA
Y
GTTTGCATCATCACAGAAAGCTCTTTCAGACAGTGCTGCTCTAGACAGCTTCAACAATGATAGGTTCTGGTAACCATAAAGTTGCTATGCATACTACTCA
Celera SNP ID:            hCV26218264
SNP Position Genomic:     74146
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28562):
CACATCTCCTGGGTACAGTTCAAGGAGACATCTTTTCTAAAAGGGTCTGCGTGATCATTAAAATATAATCAAATGTATACTGGTGTGTGTGTGCACGTGC
R
CGTGCGTGTGTCATGCTAAGGAAGGGGCAAGAAGGAGGATGCAGAGTGAGTTACAGAGATCAAGTACTCAAGTGAGTACAGAAAGACTACAGAAGACTTA
Celera SNP ID:            hCV26218265
SNP Position Genomic:     75467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:28563):
ATACTGTACTAGGTGATTTACAGTAATTACTAATTTAGATCTCACAATAACTCTATGAAGCAGGCATTATTGAGAGGTGAAGCTGGCTGGGCTTCTGGGT
Y
GGGTGGGGACTTGGAGAACTTTTCTGTCTAGCTAAAGGATCATAAATGCACCAATCAGTGCTCTGTGTCTAGCTAAATGTTTGTAAATGCACCAATCAGC
Celera SNP ID:            hCV28033467
SNP Position Genomic:     28701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28564):
AATCTCCTGGAGGTCTTGTTAAGGCACAGGTCCCTGGGCCCCACCTCCAGAGCCCCAGAATTTGCATTTCCAACAAGTTTCCAGCCAACACTGATGCTGC
W
GGTTCCTCACCTCCAACTTTGAGAACCATTAGTCTAGAGTAGAGAAAGGAAAGCAGGAACGCTGAGGTGAAGTTAAGGATCAGGAAGGTTTCTTTTTGTT
Celera SNP ID:            hCV27915076
SNP Position Genomic:     15153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28565):
CACACTGGGGCCTCTCAGGGGGTTGGGGGCTAAGGGAGGGATAGCATTAGGAGAAATACCTAATGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTCC
Y
GGGTTTAAGTGATTCTCGATTCTCATGCCTCAGCCTCCCGAGTAGGTAGGACTACAGGTACATGCTACCATGCCCGGCTAATTTTTGTATTTTTAGTATA
Celera SNP ID:            hCV27915077
SNP Position Genomic:     36848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28566):
CTTTGCAGCTGACCTTGAACAAGATATCATCCTCTCTTGTCCTCAGTTTCCTTGTCTCATCTGTAAGATACAGATGCTAAAGCACCAAAGTCAGAGGGGT
R
TGGTAAGTGCTCAGTGAAGCTCCCAGTAAATCTCAGCCATCATTAAGCTATTAAAAGGGACAGTGATTCTCCAACTCCAGAACATCTCTGGTATAGAATT
Celera SNP ID:            hCV27915078
SNP Position Genomic:     40085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28567):
CTAGTCTAAGGTGTCCCACAGGAAGCTTGAGGGCGGGAAGTTTTCCAGCCCAGGAGCCTGAGCTCAGCGGGGCAGGAAGAGGGAGCAGCTCCTCCGTGGG
R
GACCTTTGAGAGCCCAGGAGCAGGATTTCGAGGGACACCTGGTGGGGAGCAAAAGGTGCTGAGTCTGTCTTTGACCTTGAGCCCAGCTTGTTTCTCCTGC
Celera SNP ID:            hCV27915079
SNP Position Genomic:     42272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28568):
TGAGGGGCCCTGTCAGCTGCCACAGCCACACATCAAGGCCTCTGGGGGCTTTGGGCTGGCTGAGGACTGGTGCTCCTAAAACTGAGCCCTGGGCCAGGGG
S
ATATGCTTATCAGAGAAACACAGCAGGCTGTGTGCAGCTTGACCTGAAGGCTACTGCGGTCTACTGATATGTCTAGGGTCCCTGGAGGCCTCTGGAGCCA
Celera SNP ID:            hCV27519833
SNP Position Genomic:     50371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28569):
AAGGTTGTGCCCCTGGGTCTAAGAAAGACTCCAGTCTCTGTAAGCTGTGTATGGGCTCAGGCCTAAACCTGTGTGAACCCAACAACAAAGAGGGATACTA
Y
GGCTACACAGGCGCTTTCAGGTGAGTCTTTTAACCCTGAAACAAATAGAATAATATACAAGCCCTGGCCAGATTTCTTTTAGGAACTAAGGTAAGATTCT
Celera SNP ID:            hCV12061621
SNP Position Genomic:     64584
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:28570):
AACCACGTGGGCTTTTTTTTTTTCTTTTTTTTCTTTTTGAGATGGAGTCTCACTTTGTTGCTAGGCTGGAGTGCAGTGATGTGATCTCAGCTCACTGCAA
M
CTCCGCCTCCCAGATTTAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGTGCACCACCACGACCAGCTAATTTTTGTATTTTTAG
Celera SNP ID:            hCV11775916
SNP Position Genomic:     69682
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28571):
CTAGGAATAAACCCCACTTCTGGGGGCCCATTCATCTATCAGAATTTATTCTTTTGTTTAAAATCCAAATTATTTGACACCTGTTGTCCCAGCCCACTTT
R
TGCCATGCTGTCAAAATTTCACAGCCTTCCTTTCCACTCCCGAGCATCTACTATCTCACCTGGGAGAGGGGCCTGTGGAGGAAGGGGCTGAAGCAGCTGC
Celera SNP ID:            hCV11776790
SNP Position Genomic:     29640
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28572):
AGCCTAGTATCAATGATTCTGCAACAAGAATTACCACACCTGGCACCCAGAATTTGCTTTCTAAATACCGTTCTCCACTAAAAGGTTACGTCCGTCACCT
Y
AGAGAAGGAGATTCTAGAAATAGAGATCCCAGAGCTGGTACAGGGAAGGTACAAAGTAGGCTTGAATGTCTTGTTCTATCAGAAAGTGAAGTGCTTAAAA
Celera SNP ID:            hCV215037
SNP Position Genomic:     30753
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,12)   total(C,2|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28573):
TGGAATGAGGAGCAATCACTGCTACATGGGCATCAGAAGCCTTTACCTGGCTGTGGGCTCTTGAGCGAGTCATTCTCCCGCATGTTCTCTGGCCTTCAGT
K
CTCACTCCAGACCTCTCAGCTCATACTTTCTATGATCAATTGAATTTCAAGGATGGGCACCACAGCCCATGGCTCTCCTGTGTTAAGCTCACCTGGGCTT
Celera SNP ID:            hCV27989803
SNP Position Genomic:     53159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28574):
GGTTATCAAAACCCTTTGCTGCTGCCTCTTGTCAAGTCCGAACTCCTTAGCATGGCATTCAAGGCCTCCCGGGTCTGACCATTCCCCTTTCAGAGGCTGA
Y
GTCCCCTGGGTGCCCTGGGAGCTGTAGATGTCCTGCCAAGGAAGCGGTGCCATCGAGCGGTCAGAGCATGGGGTTTGAAGCCAGACTTCTTGGATCCAAG
Celera SNP ID:            hCV27915080
SNP Position Genomic:     43287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28575):
AGCCCTGCACCTCTCTTAAGCAGTTCTCATGTCTGGGGCATGGATCCCAGAGGGGACCTCTCTCTGAGCTGTTCCAGCCTCTGACAAAGCAGGGAGAAGG
K
GCTCTGAGAAAGACCCGAGATAGGCCTTGGTTAGTGGGAAGCATAGGCCTGTTTCCTCTGATGGATGGTGGCCAGACAGAGGTCAACTTGTTCCTATTAG
Celera SNP ID:            hCV27915081
SNP Position Genomic:     51541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28576):
GACAGCCTACCAGTTATGTCCTCCAGCTGAGCTCAGCTTTTGTCTCTGTAAAACCACTTCTCTATACTAAATGGTCTCTCAGGGTGTATTTTGCCAAAGG
K
CCCAGCAGCAATGGAGGGAGACATAAAGCAGTCACACAGAATAACTTCATTAGTTCACTGAGTGTGTATTTGGTATGTAGTCTATGTTGGGTGTTCTGTA
Celera SNP ID:            hCV8322065
SNP Position Genomic:     27972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28577):
CAGAGATTTCTTTTCTCTTCAGTCCCATTTCTCAGCCTCCTTTCTTCTGTGTTGCCATCCACTATTCTGTTTTTCTATGAACAGGAACATTTTGGCAAAG
R
CAAATCAAAAGAATTCCAACTATTCAGCTCTCCTCATGGGAAGGACCTGCTGTTTAAGGACTCTGCCCACGGGTTTTTAAAAGTCCCCCCCAGGATGGAT
Celera SNP ID:            hCV27864036
SNP Position Genomic:     54225
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:28578):
AGGGTATTTTGCTGTAGCAGTGGTGAAGAAATCAGCTTCTGACCTCACCTGGGACAATCTGAAAGGCAAGAAGTCCTGCCATACGGCAGTTGGCAGAACC
S
CTGGCTGGAACATCCCCATGGGCCTGCTCTACAATAAGATCAACCACTGCAGATTTGGTGAGTGAATATTGGGAAGGAGGGCTGGTGAGGGCCATGCCAG
Celera SNP ID:            hCV27536034
SNP Position Genomic:     62816
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;UTR 3;hmCS


Context             (SEQ ID NO:28579):
TGCCCCTGGGTCTAATCCGGATTCCCCTCTCTGTGCTCTGTGTGGTGGCAGGTGCAATCCTGCCCACATATGGGCTTACAACAGCCAGGAGAGATACTAC
R
GCTCCAGTGGGGCTTTCAGGCAAGTAATGTCTGTGCACCACCTTTATCTTTGCACCAAGCCAGTACATTTCTTGTCCTGTCACTTCTTCCATCATCCCAG
Celera SNP ID:            hCV29035469
SNP Position Genomic:     9213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28580):
CAGTTATAAAGGAGCAGTCAAACAAAGACCATAGTGTATTCGTCCCAATGCTCAGGAAGGGGGATTGACACAACAGTCTGGGCGAAAGCTTCCTGTTCAC
W
CAACTCATGCAGTGAAGTCACATTGTAAGGTGACAGCTGCCTCCACTGTGACCACATGGATTGAGGCGGCTGGGGTGGGGGGAGTTGGTTCTCAAAAAAG
Celera SNP ID:            hCV27532830
SNP Position Genomic:     14076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28581):
CTCTGCTCTGCTCCACAGCACTCCTGGAAGCCTGCACTTTCCGTAGACCTTAAAATCTCAGAGGTAGGGCTGCCACCAAGGTGAAGATGGGAACGCAGAT
K
ATCCATGAGTTTGCCCTGGTTTCACTGGCCCAAGTGGTTTGTGCTAACCACGTCTGTCTTCACAGCTCTGTGTTGCCATGTGTGCTGAACAAAAAATAAA
Celera SNP ID:            hCV12061636
SNP Position Genomic:     75105
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:28582):
CTTGCACACAGGATTTTTCATTTAATGCTATAAGGTAGGTTTTGGCATCCTCTGAGGATACACAAGTGGACCCTAAGCTGAGGGAGTTTACAGACAGATC
R
TCTAGGATTATACATCTAGGAAGGGAAATCCAGGTCTTTCCCACTGATCCTCACCTGACATGACATGAGGCCTGCACATTTTCAGATAAGAGTAAGCACC
Celera SNP ID:            hCV27492858
SNP Position Genomic:     61625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28583):
AGCCCATGTTCCCTTTCATCTGACCCTGACAAGTAGGTCCTTTTCCTGGGGACCCTTCCTTTCTCCCCAGAGCCCTCAAGCCTGGTCAGTGTCTCCTCTC
R
GTGGATCGGGCAGAGCCTGAAAGGACAATCATGCCTCTAGTGTCTGGGCCCACTGTCCAGGGACTGGCCCTCTTCCCTCAATCTCAGCAGTGTTACCTGC
Celera SNP ID:            hCV27492859
SNP Position Genomic:     52203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28584):
CGAAAGGCCAGTTCTTGGTCCTTGTGTTGTTGCAGGATTTTTAAGGAATCAGCTTACACACTCTTTAATTTCTTTTAATTCCTGTTCCAGTGTTAATTGA
W
CTACCAGCATCACTGGCAGCCCCCATCACTTCCTCCTCTTGGATTTCTTCCCTGGCTTCTGGAATACCACACTCTCTTGGATTCTCCCTTCCCCCTCCTG
Celera SNP ID:            hCV8327084
SNP Position Genomic:     12403
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28585):
ATAGGTGGTCTTTATTGTGTTGAGGTACATACTTTCTGTACTTAATTTGTTCAGTTTTTATCATGAAGTGAGGTTGAATTTTATCAATGCCTTTTTTGTG
Y
CTATTCAAATAATCATATGGTTTTTGTCTTTTATTCTATTAATGTGGTGTATCCCATTTGTTGATTTGTCTATGTTAAATCATCCTTGCATTTCTGGGGT
Celera SNP ID:            hCV428740
SNP Position Genomic:     16770
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28586):
AATTAGTATTTAAAATAAGGACCCAAACAATGGTTGTCCATAGTAGAAATAAGTAAGCAGTTTTCTTTGTCCATGACATTTTCCCCTATAATTCCCAGGG
R
TTGTGTGGGCATTGCAGGTGTTGGTGTGGAAGTGTTGGGCATGTGGGGAAGGGGTATGAGGCTCAAAGTGTGTTCCTTGCGGTGTCTCCCTCCCACTCCT
Celera SNP ID:            hCV428741
SNP Position Genomic:     15850
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28587):
TGTTGGAGCTTATGCCCAGGAATATGGGAGGCAACACAAGAGAGAGAGAATTTTCTGGCTGGCTCCCCAGAGGGTGTTGAAAAGGAAGTTGTAAAGGGGC
Y
GCGGTGAGAAAGGAGTGATGTCTAGGAATGTAGAGGCAGGGAACTTTTAGCACCTCCACAGTTTGATGACATGCTTCTTCATGCATCGCTTGTCTTATAA
Celera SNP ID:            hCV29035470
SNP Position Genomic:     9902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28588):
AAGAATGTACCTTGAACCCAGAGAAACATTTTTCATGGGATTAGGGGAACAAATGTATAGTGATATACATTCACTTCATTAATCCTGAGTAGACATATAG
R
AGTGTGATAAAATTCCTGCAAAATCACCTTTCATGCTGATTTTAATCTCCGATATTGTGAGTTTGGATCCAATCAGAGAGTCACCCCTTGCACATCCCTG
Celera SNP ID:            hCV428742
SNP Position Genomic:     15612
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28589):
GCCCTGAAATAGAGACACATGTAAGACAAGGGATCATGCTCATTCAGGACTGGGATTCTATGAAGGGGCATGAAGGAAAGACATAGGGTGGTGGAGCTTA
R
GAAATGTGAATGGGAGTGATTGATCCTAGCTAGGTATAGAGGGACCTGAAGATAGGAGAGAAAACTGGAGAGGTGCTCCTGACAATTGCTAGCCATTTCC
Celera SNP ID:            hCV428743
SNP Position Genomic:     15364
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28590):
GAAGCTGGCTGGGCTTCTGGGTCGGGTGGGGACTTGGAGAACTTTTCTGTCTAGCTAAAGGATCATAAATGCACCAATCAGTGCTCTGTGTCTAGCTAAA
K
GTTTGTAAATGCACCAATCAGCATGCTGTCAAAACGGACCAATCAGCACTCTGTAAAACGGACCAATCAGCACTCTATAAAATGGACCAATCAGCTCTCT
Celera SNP ID:            hCV29035472
SNP Position Genomic:     28779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28591):
CCCTTTGTTTTGGCATTTTTATTTCCATACTTTGTGGTTTGTATGTGCCCAGTTAAACGGATGTACAGATTAGATAATCTGGCTTTAACTCCAACCTTCA
Y
GAGATGCACACATGCCTTAAAAAGATTCTTACAAAGAAACTAGAATTAGGAGACAATTCTGACAACACAAAAACAAGTGAACAAAAATCAAATGACTGAC
Celera SNP ID:            hCV29035473
SNP Position Genomic:     41530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28592):
GTGCAAGGTAATGCTCCACTGAGGACACATTCTCGCCTATGGGAACTCTGGAGGCAGGGCTTTGTGGAGGGGCTGCCACAGGCTTATGTTGCCTCCTAGG
R
TTTCCCATGGGCCAAGAGGGAAAATGGGGGTCGCTGGGGTGGCCATCCCTGGTGGCCCCTCCTCATGCATCCTGGAGAGCTGTGGGCCTCCTCTCCACAG
Celera SNP ID:            hCV29035474
SNP Position Genomic:     43810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28593):
TGGTATATTAAAAATATGTTTTACAACCCAAATATCCATTGATGAGTGAATAGATAAATAAAATGTGGTAAACACAAATGATGAAATATTTTTAGCCTTA
R
AAATAAATGAAACTCTGATATATGCTACACTGAGATGAACCTTGAAAACATAAGTGAAGCAAGCTAGATACAAAAGGACAAATATTGTAAGATTCCACTT
Celera SNP ID:            hCV11776804
SNP Position Genomic:     47573
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28594):
CCTTGCTGTGGTGGCCCACAAGGAGTGGAGATGACAGAGGGCCTTGGGGACAGGGCAAAAGCTCATGTGATAGGGATGCTGTCTCTGCAACCACATGGAT
W
TTAATAGTTACCCATGGCTGGCTTCAGCTTTTTTTGTGAATGGCAGCCAAAAAGTGTGGTGAAAATGGAGGGATAGTTCAGTGGAGACAGAGGGGAGACT
Celera SNP ID:            hCV29035475
SNP Position Genomic:     44045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28595):
AACGCAGGGCTCTGTAGAGTCAGAGAAGTAAAAAGGTAGAAAGGGCTGGTCAGTGTAAATGTGAGGAGGCCAGCTGTGTCTGATAGCTGGCAGTTCTCTC
K
ATTAGGACTCTATTCTCCCGCAGAGACTGCGAGACAGACACTCTATCCATCCTGATGATTGTGTTGCAAAGGAATGGCTCTCAGTCCTTGAGAGAGATGC
Celera SNP ID:            hCV29035476
SNP Position Genomic:     46417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28596):
AGTATGTCACTGCCATCCGGAATCTACGGGAAGGCACATGTGAGTACCTGGGAAGAACCAGGTGACCACAAGCACTTGGGAAACCTGGTGAGCACAGGGG
Y
CAGAGATTGAGTCTTTTCAGGGACCTGCACGCCTCTCCTGATGCTCCTTTTTCTGACCTGTCTGTGAGCCCAGTGTTAGACTGATGCTGAATGGCGTTAG
Celera SNP ID:            hCV27492860
SNP Position Genomic:     54448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28597):
CTTCCCTCCAGCCTTCTCTCTGTAGCTTTCCCTCTTCTGGGTTTGGTTATTTTGACTTGTGAGAGCTTGCTTGATTATAATCCTGTCCCTCCCAGCTGGC
R
CAGGTTCCCCTGGGAACCCTGCAGCTCTAGGGCTGGACGCTGTGTTTTAGGCCTTAGCTCTTTGGCTCCCTGAGCCCCCGAGGCACCAGTGATTTCTTAG
Celera SNP ID:            hCV29035477
SNP Position Genomic:     47029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28598):
TCTCCCCTGCAACCCTAGGAAGGTTTTCCTGATTCCCCACTCCTTATCGCCCAGTCCAGTAAAAGCATGGCCTCTCCGCTCCCCTCCCTCCTCAAGAGTC
Y
GGTGGTGATGAGCCATGTTTCCCTGCACCAGGCTGAGGGCCTTCCATTCACACTGTGCCTTTGCAGATCCACAGACTTTCTATTATGCTGTTGCTGTGGT
Celera SNP ID:            hCV29035478
SNP Position Genomic:     50868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28599):
TGAGATGAACCTTGAAAACATAAGTGAAGCAAGCTAGATACAAAAGGACAAATATTGTAAGATTCCACTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTT
Y
GCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGACTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGTGTAG
Celera SNP ID:            hCV11776809
SNP Position Genomic:     47704
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28600):
TGTGGGCTCTTGAGCGAGTCATTCTCCCGCATGTTCTCTGGCCTTCAGTTCTCACTCCAGACCTCTCAGCTCATACTTTCTATGATCAATTGAATTTCAA
S
GATGGGCACCACAGCCCATGGCTCTCCTGTGTTAAGCTCACCTGGGCTTTCCCTCCCCAGAGAACTTGGCAAACAAGGCTGACAGGGACCAGTATGAGCT
Celera SNP ID:            hCV29035479
SNP Position Genomic:     53210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28601):
GGGCAGATCTCAGGGAAATAGCTCTATTTTTGATGTCTCACAAATGGCTCAGGGAACAAGCCTGGGTTCGCAAAGCAAGACCAGCCTGGATGCGTTGGTG
M
GCGCGAGTGTGTTGTTTTCACATATAAACCGAAATGGCTGCCTTCTTAATTGGAAACCTTCCACCAGTAAGTCCTGGAGTGCTGTTTTTCATGTTCATCC
Celera SNP ID:            hCV27528968
SNP Position Genomic:     6410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28602):
TAGCCATACAGCCCGACCCAGCGGGCTTGCAGGGTGACTGATTTCGTGAATGTCGGTTCTCAGGCTGCCAGGCTGCTGCTTCTCAAGGATGACCCAGACT
Y
AGAGAAGTCTCTGGTGTCAGGCAGAGGACACTGGGTGGGGGACAGGAGGAACTGCTCAAAACAGACAGAGGCTCTTTGTTTGCTTTGCTTCTGTGTCAAC
Celera SNP ID:            hCV27834106
SNP Position Genomic:     39096
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,40)   total(C,72|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:28603):
GGAAACAGAACTACTGCAAACTTTGAATGGCTCCAATGACTCAAGTCCTGCTCTTCTCTAGGGCACTCTCCTGCAGACCCAGATGATTTAGGGCACCTTA
S
GGCACCTAGGGAGAAGCAAGAATGATGGCGGCAGAGTCACAACTCTAGTTCTACTTTTGCCACTTTCTTCTGTGTGACTGTGGACAAGTCAAGAATCCAT
Celera SNP ID:            hCV27985977
SNP Position Genomic:     9450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28604):
GGTTGTAAGTGAGAAAACCTCATGTGAAGCAGCTTACACCAAGGGCACTGTCTTGACAGGTGCTCTGGGTGCTCCCTCCTTGAAAGGGCTGATACCTGAG
M
CTAGGAGGCCAACGAAAATTCTTTAAGGGTAGGGTTGCCACATACAATTCAGGATGTCCAGTTAAATTAGAATTCCAAATAGACAACACATGATTTTTTA
Celera SNP ID:            hCV27964493
SNP Position Genomic:     13722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28605):
TGCCTCAGCCTCCCGTGTAGCTGGGACTACAGGCGCGCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAG
K
ATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGTCTCGGCCTCCCAAAGTTCCACTTTTATGAAGTATCTAGAATAGTCAAATTTATAGAAACAGAAAG
Celera SNP ID:            hCV11776810
SNP Position Genomic:     47885
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28606):
ACTGGCAGAAGTGAGAGTCCCATTAGTTTGCTGTGAAATTAAATTAAAGAACTGGGAGGAAGGTGGATACTTTAATACTGAAAAACCACATCCCAGAGGT
R
GAATTCTTATCGGTGGCTAAAATGTGACAATGGGATGCTACAGAAATGAAGCAGAAACAAAAGCTGATTTATTTGAAGATGGAAATGGACAGAAGTGATT
Celera SNP ID:            hCV29035480
SNP Position Genomic:     58413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 115
Celera Gene:                 hCG2030035 - 209000073883476
Gene Symbol:                 LRP11
Protein Name:                low density lipoprotein receptor-related protein 11;FLJ14735, bA350J20.3;bA350J20.3
Celera Genomic Axis:         GA_x54KRFTF0F9(20791807..20849386)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12275):
TGTTTCACTTAATCCTCACCACACTTGTGGGAAGCAAGGTGAGGCAATTATTCCTATATTACGGCGGGGTGATCTGGTGCTTGAAGAGGGTAGGTGACTT
GCCCAAAGTCACACAGCCAGCAGGTGTTTGACACTGCTGTCATAAGCCACACTCAACACTGTGCTGTACTAAGCAAGCTGAGTTGCCTGAGCTTCAATGG
CATTTTAAAATTATTTAAAGGACTATCACTTGGGAGTAGGTGTAGGTTGCTCTGAGTGGTCCCAAGAGAAGGAACTGGGACAAATACTTGGAAGCTACAA
AACAGATTGTAACTGAATATAAGGAAAACATTCTAATGAATAGTAAGAGTTGCCCAAAGATGGAAGGAGCTTTGGTGTGTGAAGGTGAAACTAGCTCAAT
TTCCCCCGAGAACTGATGTTTGCCATTTTTTTCCTATTAAAGCTAGAAATGGACCCTGCTTTTCTTAATGCTTAAAACTTACATTTGTCTTATCTGAATT
CCTTTTTCAGGAAACCCTCCGACTTCCAGATAATATCGAGGAAGTAAAACTCACATCACCACATCCAGATAACGAGACACCAGACTCCTCTCCTTACTCC
TCCATAATTCCTGTTTTCCTAACCAACCATCTGCTTCCCGTTGACCAATTGTTCTTCCTTACCCCTCCTTAATTCCTGTTTTCCTGTGGGTAGCTACACT
CCTTCCCCACTATATACACCCCAATTTAAGTTGGTCGAAGATCTGAGACTTATCTCCACTTATCTTTATTTGGCAGCACCAAAGAAAGCCTTCTTCCCCC
AAAAATACTTGATCCAGTGATTGGCTTTCTGTGCTGCAAGCAACAGGACCTAAACTGAACCCCTGGTGTTTCAGTAACAAAATATTGCATTCCCTACCTG
TGAATTGGGGGTAATACTAGCACATGCTGCGTAATTGTTGTTTTAAGTAAATAAGTGACTGTGCAGAACTCAGAACGGTTCCTGGTAGTCGTAGCACAGT
ACTTTTTATAAGCGTTTCTTAAATTTAAAATGAAAATTAATGAACATGTTCAAGCAGACATGGGGCATTGCCTGAGTCAACGCAGAAGACAACTTCTCAG
GATTTTCCCCAGTTACTACCACGTCCTTCCTCTAAGAACGGCCTCTCTTTCCATCCTCAATGAGGAGAGGGAAGGCCATGTTTGTAGCCCTGTTTGTGCC
TCATGGTCTCTGCACACTAACCTCAGTTTAGGGTGGACACAGGACCAAGCTAGACTCATCAGAGTCTCTCTCTTGGTACTGATGGTCACTGTTCTGAGTT
TCTGTTCATTGCTGCAGGTGAGGTGAGATAGACTCAGGCTCTGTGCATGGAGGGCAGAAAACTCCAGACTCTGAGAGAAGCATGAATCAGATGTGCAGAG
AGAAGTGGAGATCTCAGACTACTTGGTCCCAGAAGAGAGAAGCAGCAACTGGGAGACCAGCTGCTTGACTGCTGAGGGTTCTGCCATGTCTGGTCCAGGC
CCTCCCAAGGCCTGGCTGCATTTCCTCCCTGCCTGTGAGTGCATGTGTGTAAACACGGTAGCTATTTTTTCTTTAAACCAATCTAAAATGAGTTTCTGTT
GTTTGCAATCCACAGAGATTTAACTAGGATGAACCTAGATCACTGAGCTGCAAGGCAAGAACTCCATGAGAGGAATTCCAGGTAGAAGGCCAAGTAGGTG
CTCAGGGGAGAGATTTGAGACCAGAAAGTGTCAGGCAACTCCTGTCTTCACTCCCTCCCTCTCTCAAGGCTATGTATGCACTGTTCTCTATTTCCTCTTT
TCACGGTTCCATTTGTCCCCCTCTGCTGAACAGCTTCTCTCTGCTATCATCCCCTTCCATGTCCCCTGGAGCTCACCTGGCTTCCCAGCTACACTTCCCT
CCCTGACTCAATTTGTTGAGTCAGTTTGTTGAGTTGATTTGCTGAGTCAGTTTGTTTCTCAATTCTGTTTTTACATTCCTTGGAGAGAGTATCTGATTGG
CTGTGCTTGGGCCAGGCATTCATTATTGATTCCATCCCTAGTGAACAGGGGGTGTGGCCACCTGGGGGTTGGGGCTGCCCCTTCCAGGGACGTGAGCAGA
GCAGATTCCATGAAAGGGGTATGGAGAAGGAAGAATCTTAGTGCAACAGCCACTCAGCTGGGATGTTGTAGAGGAGATTCAGGCTTCAAGTGGTTTCATG
ACTTCTAATCTTAGGAAAGGTCCTTCATTTCTGTTGTAATAACAACAACAACTAGCATTTATTGAACTTCTATAATGTGTCAGATGCCCTTCTAAGCACT
TCACATGCACTGACTTAACTTATTCGATGCCTGTAAAAGTACTTAGATGGGCAGTAGTGGGGAGGGGAGGGCAACAAAAAACGATGTCACTAGGGTGTTG
CTGTAGATTGGATGTTTGTAACCCCCCAAAATTCCTATGTTGAAACCTAATGTGATGATGTTTGCAGTGGAGAATTTGGAAGATGATTAGGGCATGAAGG
TGGAGCCCTCATGAATGGGATTAGTGTTCTTATAAAAAAGATCCCAGGCCAGGCACGGTGCCTCATGCCTGAAATCATAGCACTTTGGGAGGCTGAGGCA
GCCAGATCATAAGGTCATGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCAGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGTGTGCG
CCTGTAATCCCAGCCACTCAGGAGGCTGAGGCAGAAGAATCGTTTGAACCCAGGAGGCAGAGGTTGCAGTAAGCAGAGATTGTGCCTCTGAACTCCAGCC
TGGGCAACAGAGCGAGACTTTGTCTCAAAAAAGAAAAGAAAAGAAAAGAAAAAAATCCCAGAGAGCTCCCTAACTCCTCCCACAAGGTGAGGACTCAGTG
AGAAGACTGCTGTCTATGAACCAGGAAGTGGGCCCTCACCAGATATCAGCGTCTGCCAGCACCATGATCTTGAACTTCTCAGCCACTAGAATTGTGAGGA
ATAAATTTCTGTTGTTTAGAAGCCTCCCAGTCTGTGGTATTCTGTTACAGCAGCCCAGCTAAGACACAGGTTATCTCATTCCAACATTCAACAAACTGAC
CTACGAAGTCCAATCTCAATTTGATCCACTCTTACTCTTAATGATCTATCTTATAAAACAGAAACACATCTTCCTGACATTTTCATCCTCACATAAAAAT
TCTTCTATCCATTGATAAGGTTTTGATGTTTAGGCTTTTAAAACAAAGATAGTTTATTTCTGAAAAAAACTGAAAAGAGAACTAGAAAAAGAAGATAAAT
CACAATGCACAGTGCAATGAAACTTCGTTTTTAAAAAATAGCCTTATTAACATATAATTGACTATACCCACTTAAAATACACAATTTGATGAACTTTGAT
CAATGTATTCACCAGTGAAACCATCACCACAATCAAGGTAATGAACACACCTATCACCTGCAAAAGTTTTCATGTGCTTCTCTGTAATCCCTTCCCTTCC
TACTCAAACTCATGCCTCTTGTCACAAGGTTTCTCCACTCTGGCTGTTGGGAACGAACTATTGCCTGGCCAATGCAAGCTCAGAAGTTTTTCTGCCAGCT
TTTTTCTAGTGGTTGCCTCTCTGTCTTGGGAAGTTTCCTCACATGCATGTACCTGGTCGAACTTCTGCTGAAGACTCAGAGGAACCCTGCACAGATCTCC
AGAGCTCCCTCCTTCCGTTGCACTCTCTCCTCTCTGGTACTCTAGCCACCCTGGCCTCCCTGAATTCTCAGCTCTATTTTCCAACTCAGAGTCTCTTTTG
GTTCGCCTGTCTGCATTGCGGCTTGGAAACCCTCTCCAGGCAGTAAGCTGGAGCAAGCAGCATGTTCACTTCCTTTGTCTCCCTTCTCTTGGGCCCTGCA
TTGCCTGTTGCCCAATGTCTGAAAACCATTGTTCCATACATTTTTTTCACAGATTTTTCATTTCAGGTCACAGAGTAAGTCCAGTCCTTGTTGCTCCCTC
CTGGCTGAAGCAGATGTCAACACTTATTTTTAAAAAATAGAAAATCATTTACAACAAGCTCATTGCAAAAAAAAAATTCAACAAAGTCTTATAAATTATA
AAAGTCAGTATTTCCCCTTCAGTACTTGCAACTCACAGCCCAGAAATAACCACTGCTCACGGTAAACACAACATTAAATAATTTCCACTTCTCCCAAAAA
GACCTATTGTAAAGTTGCAGATGCAGGAAAATCTTTGATGGTGCTGGAGGGATTTAGAAATGAATGCCCCTGAGAAATGCTGTCCTCTCCCCTGTCCACT
TCCCTACCACGGAACATGTGAGCTAGGGCTCACTCTATACTGACTTCTCTTTCACGGTCCCAAAGGCAGGAGTGAGGTGGTCAAAGTCTCTGTGAAGGCA
CATAAAATCATGTATGTGAAAGTGTTTGGCAAACTTTGAAATCATGTACAATTCTTAGTTAATATTATATATTATCATGTTATTTTTAATATTAATAACT
TATATAACAACTAGTCCTTGGAGGGTTTGATGATACCCTCAGTCAGCATTTTCATCACTAGTGAAAGTTTCTCCTCATAACAATCCTGCTCAAGCTCTCC
AAGGTCTATGGCAAAAAATAAAAATAAAAAATAAAAAGCATTATGTTGCTTCAAGGTCATCTTACAATGACTGCAGTTGTGTGGGATGAGTATGCCATAT
GAGGAAGAATCTCCAGGCCGAAGTGGTACAGTCCAGACACAGCCTTTAGAGCTAAGAGGCCATTTCTTTTAGCCTCAAAAATCACTCAAATATACCCCTG
CAAAAACTTTATAATTTCTCCCTTTGATGGAATGGCAAGTAACATTGAGCTTTTTTCTTTCTTTTCTATTGCTACCTTTTAATTTTACCTCCTACTCTGA
TCTGGATCTGCAAGCAATGGGTTCCTAAATGTCAACTCTGGAGATAATAAACACATAGCAGAGACTGATATTTTCCCACCAATTATTTATTCTTTCAATC
CTAAAAAATACAGACACTTAACAGTGTTCTATTTACAATGTGCGCATCCAGGCAAAAATTTCCGGACAGGCTAAAAAGCAAGAAAATGCGATCCACAATC
AGGAGAAAAATGAATCAACAGAAACTGATTCAGAAACAAACAAGATGCAGATGCTGCTCACAGAAGTCTAGAACGCCAAGGTGAAGCCCCCACTGGGTTG
GACATTTTCTTATTCCTTATGTCATTTAAAGCACAACTCCCGAGATTTTACGTGATATAACCGCTAGAGGCCTCTCTGTCACAGGCTGTATTACTCCCAG
GTCCCCATGTTGGCTGTGTTCAGATTTTTTGTTATATTTGTGGAAATCTGAGTGCATGTGACGACTGCTATTTATGGGTTTTGTTTTTATTTTTAAAGAC
AGGGTCTTGTTCTGTCCCCCAGGCTGGAGTACAGTGGTGTGATCACAGCTCATTGCAGTCTCGAACTCCTGGGTCCAAGCCATCCTCCCAACTCAGCCTC
AGGACTTACAGGCGAGTACCACCTCACCAGGCTTGATTTTTGTGTTTTTAAACAGACTGAACATCTTTCAGTACTTCCCATCCCCACCCCTCCCGGCCCT
GACTCCGCCACCCCAACCCCGCCCCACTTTGTACTACCCAAGCACATCTTGGGAACATGATGCGGAAAGTCAGGGACGCTGGAGGTGAAGGACTGATGAC
GCGCTACGGTGGTCCTAGGTGCGCGTGCCCCCTCTCTGGAGTAGTCCCGGGGGTCACGAGGATTTGAAGACAGGCCCTCCCTTCCCACTGCCCCCATTCC
CCCGAATGCCAAGCCCCTGTGGGCAGGCGCCCTGGGCAGGTGTGGTTGGTTGCTAAAGCCTGCTGGGCCCAGACATGAACCCTGCCCTAGCTGGGCAGCG
GCGCGGGAGCAAAGTTGTTCTGAGGCTGCCCTCCCCGGGGCCTGCTCTCCCAGCCCTGGAGGAGCCGGCGCGAGACGCGCGGGGGCGGGGCCGCGCGGGG
GGGCGGGRCTCACCAAGGCTCCWCCCCGCCGCGGCCACTGTTCGCACACACCTGGTGCTGATCAACGCCGAGGCCGACTCGTCGCCACCCAGCGCGCCGC
AGGCCGGGGCGGAGAGGCGCAGGGCGCTGGGCAGTCTCCGGCGAGGGCAAGGAGCGGTGCCCGGCTGGGCCGGCTATGTCTCCCGCTACTGCGGTTCCCG
CCGGCGCCCGCGACCTCGGGGGAGCAGCCGGGTTCGGGGGCGCCGCGCTGTGAGGCCGGGGCCTAGAGCCAGCCGCGGCCGCGCAGGAGGGGCCCAGGGC
CCGCGCTCGCCCGCGTCCCCGCCTTCCTCCCGCGCTCAGCCCCGCCTCGGCTCGCTGCCCTTGGCTCTCGTCGCCATGGCCTCCGTCGCCCAGGAGAGCG
CGGGCTCGCAGCGCCGGCTACCGCCGCGTCACGGGGCGCTGCGCGGGCTGCTACTGCTCTGCCTGTGGCTGCCAAGCGGCCGTGCGGCCTTGCCGCCCGC
GGCGCCGCTGTCCGAACTGCACGCGCAGCTGTCGGGCGTGGAGCAGCTGCTGGAGGAGTTCCGCCGGCAACTGCAGCAGGAGCGGCCTCAGGAGGAGCTG
GAGCTGGAGCTGCGCGCGGGCGGCGGCCCCCAGGAGGACTGCCCGGGCCCGGGCAGCGGCGGCTACAGCGCAATGCCTGACGCCATCATCCGCACCAAGG
ACTCCCTGGCGGCGGGTGCCAGCTTCCTGCGGGCGCCGGCGGCCGTGCGGGGCTGGCGGCAATGCGTGGCGGCCTGCTGCTCCGAGCCGCGCTGCTCCGT
GGCCGTGGTGGAGCTGCCCCGGCGCCCCGCGCCCCCGGCAGCCGTGCTCGGCTGCTACCTCTTCAACTGCACGGCGCGCGGCCGCAACGTCTGCAAGTTC
GCGCTGCACAGCGGCTACAGCAGCTACAGCCTCAGCCGCGCGCCGGACGGCGCCGCCCTGGCCACCGCGCGCGCCTCGCCCCGGCAGGGTAAGCGCGCGA
CTGAGGGGCCGGCCTTGGCCAGAGCGCTCGAGACCCGCAGCGCCCTCGCCAAGTTGGAAGCGAAACACACTCGTGCCAAGTTATTTTAGCCGCGGGCACC
CAGAAGAGTTTCTGGCATGGGTTTCTCTGTCTTAGGGAAGAGGAAGCCCAGTAGTTTGGCAGAAGCGGGCGGGCGGGCGCGGTGACGTGCTACTGGAATT
TTTCTAGGCTTGAAGAGAAAGGCTGATCTGAGAGGATTCGTGGAAATATGACTTAAAAGGGGAGAAATGCTGAGAGAAAAAAGTTTGTTTTAGTCTCATG
GGTTGTATAAGGCATGGTTTGTGTTAAGTAATTGCAAGAGCAAAATCTAATTAGATGCCGGGCTTCTCGTAACACCCACTCCTTTTTCTTGACGTGGCTC
TCCTGACTTTGCCTGCGGTGGCTTTCATCATACAAAAATGGGAGGAAAACTTCTGGTCCCTTTTATAAAAAGTGAAAAGAGGGGACTTGATTTTCGTTGA
AAATAAGAAACTTTAAGGCCGGGCGTGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGGCGGATCACCTGAGGTCAGGAGTTTGAGA
CCTGCCTGACCAATGTGATGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGAGCTGGTGGCATGCGCCTGTAATCCCAGCTATTCGGGAGGCTG
AGGCAGGAGAATCGCTTGAACCTAGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTTA
AAAAAAAAAAAAAAAAAGGAAAAGAAAATAGGAAACTTTAAAGCGTGTTTCTTAAGGACTAAAAATGATGCTGATTCGACGGTTTGACTTTTTGTAGATG
CTCTGAATGAGAGAATCAGGACACATACAGGAGGCACAAAAATGGTAGTGGTTGGACATGAATGTCACGGAGGGAATAAGAGACCTTGATTGTGCCCACG
TGTGGTCAGGCTCCGTGTGTTTAATCATGCCCTGTTGCTGTTTGATTTATAATAGCACGAATGATATCAGCAAGATGGGGGCGGAGCTCAGCCCCTTTGG
AAGTGTGGATTCTCCAAAACCTGTGGATCCATTGAAAGAGTCTGGAAATCTGTGTCCATCACATCCTGCCTCCCTCCCCACCTCTACCTTAGATGAGGCT
CAGARTCCTTGTCAGGGGAGCAGATATCAAAGGGTCACCCTGCGACTGCTTGGCCTTGAGGCAAACACTGGGAAGGACTCCATAGCTTTCCTTCTGAAGT
GGAGGCAGGCAGCACTTTCACTTGGACCCCCCATCAGCATCTCTGAGGCCCACCACGGCTGTTGCACACACATCCTCTCTGCCCAAACACAGACCAAAAT
ATCCCAGCAGCAAAGAAACAAAGTCTTTTCTCTGTGTTCTCACTACTTACCTGGAAGAAACTGACATTGCCAAAGTGAGCTTTCCTATAAACCCAGAGGA
AACCTTTGAAAAGGAAAATAAACAAGGAAAGAATATGCCATAGAACAAAAATTTTAAAGTTTAGATTACTTGGAGACGCCAGGCACGGTGGCTCATAACT
AACCCCAGGACTTTGGGAGGCCAAGGCGGGTGAATCACTTGAGGCCAAGAGTTAGAGACCAGCCTGGCCAACATGACAAAACCCGTCTTTGCTAAAAAGA
AATAAACACAAAAATTATCCTGGCATGGTGGCGCCTGTCTATGATCCCAGCTCCTCGGGCGGCTGAGGCAGGAGAATCGCTTGAACTGTGGTGGTGGAGG
TCGCAGTGAGTACAGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAGGGAGACACTGCCTCAGAAACAGAAACAAAAACTTCAGGTTACTATGAGAAG
TKTCTGGGTTGTTTTTCCTCTTGCTTGCTTCGTTGCCCTTCCTTTCCCCAGGGGAGTTTGTCTAGRAATTGTTTTGTAGATGTTTGGGATGAAAATAGGC
GAGCGCGGTGCTGGTCCTCATTTCTGGGAGAACACTGCTGTGCTCAGACTTCCTGAGGTCCCAGCAACATGGAAACGCGGAAGGTGCGGCTCAGGTTCCT
GTASAGGCTCATTTGTTCTCTCTGCGTGGAGGTCAAAAATTGTTCCCCAGTGTCCTGTGTGTCCCCTGCTCAGATGCTTGACAGGTTGAAGTTGTTTATG
CTTCASAGACTAAGTTTTTCCTTCTTGAATTGTTCGTTTTTGGGTTGTGAGCATGTGAAAATGGTTTAGAAGAGCCCTTGSAGAGGAGCTGTGACTGGAT
CCATCTGAGGTGGATGAAAGCACCATGAAGAAATGGTGATGGGATAGCACGAACTTACAGCAGGACACACCAGCCCTGTTTTCATGCCCACATTTGTTGA
CTTTGGTGTTAGGTGCTGTCCTCAGCCCTTTGCACGCATGAACTCACTCTGTCCTCACAACAACACAAAGGCCTAGGTTCTGTTATAATCCCTAGTGTAT
ACAAGGCTTGGCAAGCGAAAGTAACCTGCCCAAGGGTCACACAGCATGGGGTTGTGGAGCCTGAACTCCTATGCTTTCTCCAGCAGCACCAGCAGAAGCT
GAGAAAGGGATCACTAGGCTGGGACTGCGAGGGTAGAGGTAGGGAAGGCGGGAGGATGCAGGAATGAGTGAGAGATGCTGGAGAGAGGTGTCTTGTAGTG
ACTGAGCCTGCCTGCTAGAATCTGTAGAACAGAGGARGGTGCTTGAAGTTCTGGGGCCTGGCGTCTCCACAAACAAGTCCCTGCTCATGCCCCCAGGACT
TGGTGTCTGCTTGTCCTCCATCCCAGGCTGTCGTGAGGTTCAAGGGGGGACATGCTTTGTGAGTTAGGAAGGTGGCACGCATGTACATGATACTGTTCTA
GGAACCTGGTTGGGTCATGCCCATGACTAGAGGGTTGGGGGACTGGATGTCATGATAAAAAGTGAAGAACAGCAGGAGGGAGGGAGGGAGGGAGGAGAGG
TAGAAGCTAGAGCTGCTAGGATTCCAGAAGAGCAGGGAATATAACCTCCAAGGACTCAAGGACGATAACCTTTATGTGGTTTTTGCTGGATATTCAGCCT
GAAGTCCAGTATCTCGGGGAAGAATTTGGGAAGTGGGCCCCTTGCCTTGTGTGTCAGGGAAAATCAAAGCTATTAGGCAGAGGTCTGCTCTCCTCTCTGC
AGACCCACCTGCTGCCACCCCCAGCCTTTCCCTGTCTCCGCCAAGTGCAAACAAAAGAGTTGACCTTCCCATTCAAGGTTAATCCCTCTGCAGATGCTTG
ACCACTCTCCCTCTCCAAGGGCCTTACTTTCTCACATTCTTATCTTCTCCCTTTTGTGTTATAAACAATTATATTTAATAAATAATAGTAAGATAACTGG
TTGGCAGTGTCAGGGAAAGTACATTTAGACCTACAACTCTGACCATACACAAATTCCAGATGGATTAAAGAATTAAATTTTTTTTAAATTAAGCCATAGA
TTACTCCATACATAAAAAAACTTAAAGGAAGTAAACTTCCATATCTGGAAGGAAGACAGGTTTCAAATCAATTAAAGAGGTCACAAAGAAAGGGGATAGA
TTATATGCACATTTATAAAAAACTTCATATCAAGAAACAAAAGGAATTGCAAACAAGAGTCTGGGAAAAATGTGACATTATTTATTCGTAGAGTTTATGG
GCCAGGCACAGTGGCTCACACCTGTAATCCCAGCGCTTTGGGAGGCCAACGCAGGTGGATTGCTGGAGGCCAGGAGTTAGAAACCAGCCTGACAAACATG
GTGAAACTCCATCTGTACTAAAAATAGAAAAATTAGCCTGGTTTGTTGACACACGCCTGTAGTCCTAGCTACTGGGGAGGCTGAGACATGAGAATAGCTT
AAACCCTGGAGTCGGAGGTTACAGTAAGCTGAGATTGCAACACTGGACTCCAGCCTGGGCGACAGAGCAAGACTCGGTCAAAAAAAAAAAAAAAAATATA
TATATATATATATATATGAGTCAGCAAGAAAAATAAAAATAAATGGGCAAAGGACATGAGCAGACACTTCCCAGAAGAGGAGGTATGGTGGATAAACATG
GAAAAATGTTCGACCTTAGAATCAAAGAAATGTAAATAAGGCCAATTTTCATTTATTAACTTGGTAAAAATAGGTTTACTCATATTGGCATGCATATGGG
AGACTTCATATACACTTCTGTGCTCACCGATGGTGTAAATTGCTACTTCCCTCTTGGAAACCAGTTGGGAARTATGTGGCAGAGACCATTAAAATATTCA
TTTCATACTTCTGGAATATTTTTTAGGAAAAGGAACCATGCTGAAGAGAACATATGAGCAAAAAAGTGTTTTACTCATATTGACATGCATATGGGAAACT
TTATATACACTTCTAGCTCACTGATGGTGTAAATTGGTACTTCCCTCTTGGAAAGTAATTGGAAAATATGTGGCAGAAACCATTAAAATATTCATACTTC
TGGAATATTTTTTAGGAAAATSATCTATGCTGAAGAGAACGTATGAGCAAAACATGTTTATTATGGCATTATTTATAATGGTGAAAAAGTAACAAAGTAA
ATGTCCAGTAGTACAGATTAGGAAACTCAAGTGGCAATTGTGAAGCTTAGGTTATCACATGGGCAGTGCTAAGATATATGAAGAAATATCAATAACAGGA
ATATACCAATAAGTTGATGGATTAAATTCAGGATGTAAAATTATATTTATTGTAACTGGAATACACCTAGGGTTGTCTCGAAGTATAGTGGAAGGATAGA
ACCTTTGAGTTAGAAATAACTGGGCTGCATTCCTGGGTATATATTCAAAGGATTATAAATCATGCTACTATAAAGACACATGCACATGTATGTTTATTGT
GGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAGATGTCCATTAATAATAGACTGGATTAAGAAAAYGTGGCACATATACTCCATGGACTACTGT
GCAGCCATAAAAAAAGGATGAGTTCATGTCCTTTGCAGGGACATGGGTGAAGCTGGAAACCATTCTCAGCAAACTATCACAAGGACAGAAAACCAAACAC
CGCATATTCTCACTCATAAGTGGGAGTTGAACAATGAGAACACACGGACACGGAGGAGAACATCACACACCAGGGCCTGTCGGGGTGGGGGTCAAGGGAA
GGGATAGCATTAGGACAAATACCTAATGTAAATGACGAGTTGAAGGGGGCAGCAAACCAACATGGCACATGTATACCTATGTAACAAACCTGCACGTTGT
GCACATGTACCTTAGAACTTTTAAGTATAATAATAAAAAAATAATTAAAAAGAAGTATCTGATCTGACAAATTTATCGCCTGTGTGATGTAACTTAGCCC
TCTGAGCCTAGTTTCTGCATCAGTATTATGCAGATGATAATACCTACCTCAGAGATTCGTTGTGAAAGTTAAGTTCTTTCTATAACTTCACCTGGCCTGG
TACCTGGTACAAGGAAATTGTAACCGCCCAATGGGTTCTCCTTGCCCACTGCCTACACAGAGCTGATTTATCAAGACAGGGGAATTGCAATAGAGAAAGA
GTTTAATTCACAAGGAACTGGTTGTGCGGATAAAACACAAGACCAGATGAGCCAGTTTATCAACCTAGGTACTGCCAACGGGGTGCTGCCAACCATCGAG
GACAGGGTCTATAAAATATCTCAAGCACTGAACTTAGGTTTTATAATAGTGATGCCTAAGCCATAATTTCTAATCTTGTGGCTTATTTGTTAGTTTTGCA
AAGGCAGTCCAGTCCTCAGGCAAGAAAGGGGCTTATTTGGGGAAAGGGCTGTTACCATCTTTGTTTCTTTTTACTTTTTTTTTTTTTTTTGACACAGGGA
CTCACTTTGTTATGCAGGCAGGAGTGAAGTGGCACAGTCTTGGCTCACCGTAGCTTTGAATTCCTCAGCCCCCCAAGTAACTGGGACTATAGGCATGTGC
CACACATCAGGCTACTTTCTGTATTTTTAGTAGAGATGGGGTTTCACCAGTTCCAGGCTGGTCTGGAACTCCTGGGCTCAAGCAGTCTGCCCACCTCAGC
CTCCCAAAGTGCTGGGATTACAAGCATGAATCACCACACCCGGCCGCGTCTGTTTCAAAGTCAGACTGTAAACCAAGTTCCTCCCAAAATTAGTTCGGCC
TATGCCCAGGAATGGACAAGGACAGCTTGGAGATTAGAAGCCACATGGAGTCAGGTCAGATCTATTTCACTGTTATAATTTTCTCAGCTATAATTTTTGC
AAAGTCAGCTTCAAAATCCCTCAGTAAATGGCAACTATTATAATTATTATCAGCAGCACCATAGGGAGAAGGACTGGATCAGTACATACCAAAAATCACA
ATAATCATATTGGGGTTGCGGATAATTTTTTTTCCGAAGTGTTGCAGTTGGAAATCCATGATGGATTTTGACCGCATGTATCTGAGCCTCTTCCCCTAGT
CTCGCCCCGCTTCCGTACCCTGACTTCAGGGTTCTTTCCAGTTGCTCTGCCTGAGCTATACCATTCGTTCCCACACAGCACAGAATGTCTTCCTTGTCAT
GGAGGCTCTGTGCACAGTAGCGTGTTGTGAATGAGGCTGGTTGATATTATATTACACTTCTCTGAATAAAATGCCACCTTGATTTGCTCATTCTCAATCG
GCAGGAGTCTTATTTCACCTCTGTAGGTCTTACTAAGTGTGTTTAGTTTTCAAAAGAAACCAGTGTTTCCCTAGTACTTAACATGGGTTTATTACATTTT
TTTGACAAAAATTCAAAATTACATATATTTTGTTCTTCATTAGCAAGTCACACATTTTAAAATGGCACACTCCCTTCCTCTTCSTGTTGTTATTTGTTTA
TTTTAAGGACTGTTTCTGGGTAGATAAGCTCTGGGTTATTTTAAAATACATTTTACAATGGAAATGGCCTGGACTTGAACTGAAAAGGAAACATTATCTG
TGTTATTTCAGACACATCAGTGATCAGTTTAGAAGATAGGATGATTTCACTAAGCTTATAATTCATCTTAAAGCTCACCTAAWTAAAAGTAAGTGACTAA
AATGATCTTTTTCTTCCAGGAGAGGTAGGATTAATTAATTGTATAATGTGTGGAATATTTCAGCGCTTATCTGATTCTTCCATCTTAAATCTTTGAGAGT
TTTTAAAAAATTATGTGTCCATTACTGTTTATATCACATAGACATATTTTCATTTGTCTACTTAAAAATGTATTTTTAACAAAGTTTAAATAGCTGCTAG
CTGTAATGTATAACTGCTGAGTTATAAGATGCTTTCCAGAATTATAAAGTCATAAACCATTGTGTGGAAACAATGAACCTTTCAGAACCAAAGAAAAGRT
CAACACTATGAAAGGACTATCAAAATAATGCAAGTGTCCTATCTCTCCTTACCTGGCAGAAGCAGCATAAAGACATCAGACACTCCGTGTTTGTTCAGAG
GTGGAAAAAGGCAGAAGAACAAGTTTCTTCCTAGGCAGGGGATTGTTTACTTGGCTTATTTAAATCACAGTTACTAGTCCTCACTCTTAAGTGACTGGAA
AAATGGGACACGTCTTCTCCATAGTTAGCAATAGCATGTAAAAAGCAATTGTGCTTAATTCCTCATAATGTGTTTTTTTTTTWAAAAAAAAAAAAAAGGC
ATCTTCCCTTTGTGGCTGGCAGCAGCATTCTCATTCAGAAAAGCCGCATCTCTAAGAGCCCCAGACCCCTCACATAAATCCCCTTGTTCCTGGATGATCA
AGGTCCGGCTGCTTTTTCTCGCTTTCCAATGAGATGCAGACAGACTGGGAAAGAAGGGAGTTTATTTCTGCAACTGGTGACAGGAAGATGGTGGGAGTGA
CTCACCAGACCAACTCAAAGTTACAAGTTTTTCTTCAGTGTTTATTTACATTCAATTCAACCTCTATGCCTGTGTGAGAGTGTGCACCTACAAGCAGGAG
TGTTTCATTCAGTCTAATCTTTAGGGTCTGGGGTCTGGAAAGTCTCTAGAGCCTTGGAAAATTTTCTTTAATCTTAAGTGGCCTTGATACAAGGTATATG
TGTAAGAATGCCTTCGATCAGATGTTAGGGTCTGAGAAAGTCCAGGCGAGGTCTTAATGTATTTGTTTTCACATTCCAGGCCTTGTACTCAGGCACCAGT
TTCTCCAGCTTGAATGTTTAACTTATGCATTCATCAGAATTACAGGAAAGGGTTAGTGGAAACTGGCTGCTCTGGTTGCTGATGACAACCTGTTGCCACA
CCCTGGTGCTGGGCATTGAGGGAACCACTAGAAGAGAAGAGAATCCTGGAGGGTTAGGTCCTAAACATCTGAAAGGCAATGGTAACTTGCTGAAGGGTTT
TTCCTACTCGCAGAATGACCCCGTCAGATTAGCTTTCCAGAAGAGTCATTTCAGCTGCAATGTATCAAGAGTGGTCACCTTTTGTTCCGTAATGAGACAC
TGAGGTGGGATTGCAGTAAGCCCCGAAACTCAAGCACTGGGATGTGTGGCTTGGCCCTTTAGAAGTTTGTGTAGGTAGCAACATTGGCCCCTGTGGAGGA
AAGTGATGGGCTCGAAAGCAGGAGGAGAGGCGGTGCCTTGCAGCACTGTGCAGGGTGAGCCAAAGAGGGGCAAGCCCAGCCAGCACTYGAACCAGAGCTT
TGGCACTGAAGGAATGGGGAAGTGGATGCCAAAGAGGGCGTGGTACACAAACCTGTAGAGTTTTTCCAGTTCTGTTGCTGTTTCTTTAAAATATGTGTGC
ATTTGGGTGAATTTACTAAGAAGCTTACATCAATTAAAATTTTGGTAACTATGCTCTTAGAAATGTTTTCTTTGTACAGCTTATCCTTTCGGTCATCCCT
GTAGCAGCTGTCAGTAAAGTATTAATATTGAAATAAACATAATTAACCTTATATTATTTAGTACCATTCTAGGTTAAAGGTAAATATAGGCTGGGTGCAG
TGGCTCACACTTGTAATTCCAGCACTTTGGGAGGCTGAGGTGGGAGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGGCAACTCTCACTACAAAAG
AGTGAAAATAGGTGGGAAGGTTAGCACACACCTGCAGTCCTAACTACTCGGGAGGCTAAGGCAGGAGGATCACTTGAGCCCAGGAGTTGGAGGCTACAGT
GAGTGAGCTATGATCGTGCACCAGCCTGGGTGATAGAGACCCTGTCTCAAAAGCAAAACAAAACAAAAACAAAGGTAAATACAGATTTATTTTGCTGTTG
TAGTCATCTGAGCCTGCTGGCTTCTATTATAAAAATTAGTTATTAGAAACGGTGAACGTCTTCAATTTTCCTAGATGAAAAATTGGATTCCAGAGAATTT
ACATGCAGGCTTTATTTTGTATGGCTCTAAAAATTTGCCTTAACTTTTCAAACTTAATATATTTCCCATTCATTGAATACTTTATATCACTCCTATTTTT
AAAACTTGAGGATAAGAAAAAAAGAAAATCCATATTAGAGGTGAATTTGGTGTTTTTCAGGTTTGTTTTAATAATCTTTTCAAGGCCAGGCGCAGTGGCT
CACGCTGCTAATCCCAGCACTTTGAGAGGCCGAGGCAGATGGATCACCTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGCAAAACCCTGTGTCT
ACTAAAAATACAAAAAACAATTAGCAGGATGTGGTGGCACACACATGTAATCCCAGCTACTCGGGCGGTTGAGGCAGAAGAACCGCTTGAACCCGGGAGG
GAGAGGCTGCAGTGAGCCGAGGCTGCACCATTGCACTCCAGCCTGGGTGACAAGAGCAAAACTCCATCTCAAAATAATAATAATCTTTTAAAATAAATTT
ATTTAACAGTATTTTGAACTTAAGTGATTTTAAAATTAAGTGAAAAATCCACTCTAGAAAATAAAACTGCTTCTCCATATTTACACATTGGTGGGACCTC
GTATGCTGCCTTGTACCCAAAATYGCTACCAGCCAACACTCCACACAGCCTCTTCTGCGCATATTATAGCTAAATTCCACGATCATAAAATAAATAGAAA
AATAATTTCCATTTAATATGGATTCTCTTAGCAGTTATTTGCCGAATCATATCTATTCAGCAAACAAGATACCTCTCCATAAATTAGAAAAAATAAGAAA
TCATCTTTTATGAATTATTTATTTTCTTTCTCAGAAAAGGATGCGCCTCCACKTAGCAAGGCTGGGCAGGATGTGGTTCTGCATCTGCCCACAGACGGGG
TGGTTCTAGACGGCCGCSAGAGCACAGATGACCACGCCATCGTCCAGTATGAGTGGGCACTGCTGCAGGGGGACCCGTCAGTGGACATGAAGGTAACGCA
TGTTGTCACTGCTAACAAAAACGAGTATTTCAGTGAAGTGGTCTTTTGTAATGTCCTGCCACTTCATGCTCCCTAAATGTCTGTACGCTAGCAGAAGGCA
TAAAATGGAGACTGTATAAAACTGATTATGCCAAAATGGTTTATTATCTCAATGTGCTTTTCTGCTGAGAGTGAGCAGCAATCTCGATCATTTGTCTTGG
AGCCTACCCTCCTTCTAGCTGCTGTTTGTGACTTGTCTAGAGGACAAAGACACTTCAAGGAAGAAGGCTCATGCTTTGTTTTAATGACTCAGATTACTTT
TTTAAAGTTCTATTTCTTTTTCTGAGCTCAAGATCCAGGTAGAAAATTTGAAACTACAAAGGAGTCTAAAGAGGACAATAACAATAGGATGAACTTATCC
TTCACATGAGCCGGAAAGTAGACAGCTTACCTGGCAGCTAGGTCTGCTGGGGCACACCGAGCCTGTGAGGGAGGGAGGCCAGCATGCGGTGCTCCTGCCC
GGGGCTCCTGCCCGGGGCTCCTGGGATAGCCGCCGATGGAAATCAGCCATGTGGCTGGTGGCTGCCTATGCTCAGGAAGTCTTGGGTGGTGAGACAAGTG
GCTTTTTATTCACCCTCTCAGGGTGGATTCCTGGCTTAGGCAAATAAGCACTTCCTGGCTTAGGCAGATAAACTGCATCCAAACCACTTCAGTTAGAGGA
AGTGGAGAAAGAGGGTGAGGTAAGGAGGCACTGATTTGTACTCTACTGGAACCAAAACAAAAACAAATCTGGAAGTCCCTCATCACTGGTTTAAGTAAGA
GTGATTTTACTCCCTGATTATATTGCATTAGAATTGGACTCACCCTCGTCCAGTATGGTTTGCCTTTGTCCCCACCCAAAAATCTCATCTTGAATTGTAA
TCCCCATAATCTCCACGTGTCAAGGGAGAGACCAGGTGGAGGTTACTGAATTATGGAGGCAGTCACCCCCATGCTATTCTCATGATAGTGAGTGAGTTCT
CGCAAGATCTGCTGGTTTTATAAGTRTTTGGTTGTTTCTCCTGCCACCTTGTGAAGAAGGTGCCTTGCTTCCCCTTTGCCTTCTGCGGTGATTATACTAG
TAAGTTTCCTGAGGCCTCCCCAGCCATGTGGAACTATGAGTCAATTAAACCTCTTTCCTTTGTAAATTACCCAGTTTCGGGCAGTTCTTTGTAGCAGTGT
GAGAATGGACTAATACACCCAGCATCCTTCCCAGCCTCTCCTCCAAACAAGAGTGCCTTCCACAACACCCCTTCCAAGGCTCATCTGCCATCTGTCTGAC
TTTTCCAAGGGCAGAAGCTCACTACTTCACATCATGTCCATGACATTACTCATCACTGTGTTGGGCAAGCAGGCTACGCCTCCCCTTACTTCTGTGCATT
GGTGTTGGGTCTTCCCTTTGGAAAAACACTGAACTCATCTTTTTATCCTGTGTAAAAGCTTTGGAAGTCTTTGAAAAAAAGAAAGAAAGAAAGAAAGAAC
ATCACCAATTGGTATGCTGTTCTCAGAACTCAGCACCCCACAGTTTGTCAGATGTTCCTCATATGAATTGATTTTTCAGGCCCGCCACTATCCTGCCTTG
TCTGGATTTTCTCATATTAATCCATACCCTTCTTAACATCTAATACCCCTAATTGAACCCCATATTTAAGCTTTGGTTTTCTGACTCATTCATTACCTAC
TGTGATCCAGATATTGCCTCTCCTTCTATTAATGAGCTTCGTTACATGAACTGTGTCAGTAGCTGCATCACACAGTGGGTTCGTGCTGCATTTTTCTTGC
CTTCAAGAGGAAACTCTGAACCAGTTCCCAATCGTGTATAACAGTGACGGCAGGTAGACCTCAAGTTATGAAGCCATCATCTAAATGACAGGGCCTGTAC
TAGGGGAAACATCTGTTACCAATTTGTGACTGTCTTAGAATGATATACATTCATGAATGTCACCCAAAGTTAACACTCATCCTGCTGAGACTTCATCATA
ATCAAAGCCCCCACGGATTGAGCACCCACTGAGTGCCAGGCAGCTTAGAGAGATCTGTAATCCACTGGACACCCTCACTTGTAGGCACATCCCCATTTGG
TGGATGAAGACTGTCAGGAAACATTGTGGAAGACTTTGAGGTGGGCAAAAGATTACTAAGTACCTTTCAATGGAATGCTGGGTTGGTTAGTGGATCCTTC
AGGGTTAACATCTATAAGTTGCAGAAAACTGATAGTAACCAAATGATTCTTGTCCATAGAAATGCAAAAGAAAATTAGGTATATAGGGGTAATTGACTTT
CACCCTAGAGAAAATAAGATTTCAAACATGACATTTTAGTACATGTAGATACTAACCGATCTATTAGTAGATTCATTTCAGTACTGATTAGCAAACCCAT
TTCAGTTTTGCATCTCCTAGCAACTTCTTTTTGGCATTCATGATTGCCTGTATATGTGTAGTCTTCAGATTCTTTAAATCAGTTGAACACCTTATTGGTT
CCCTCTTTAACTAATGTCTTTGAAAAATATTCATATTATATTTGTGTGACAGTCATAGCTTTACTATTTTGAGAATTTTCCTTTAACAGTAATTAACCCT
CAGGAGCTATGCCTCTGATCCCTTTAACTTGAGCAGCCTTATTTCACACCCCAACATTTCTGCCAGGAGAATTGGGCCTCTCAAATCAAATTCCTTTTTC
TCTGAGAATGGCTTCCTGCTGACTGGAACACTGATGCACTCCGCCCTCAAGCTGCAAAATGGGGCTAAGTTTGAAGGTTGTTGAGAATAGAGGGAGGGCA
GTCACACAGCAAAATAGTTAAGTTAAAACCTGTTATTGGATGCCCTTGTTCCTAAGTCCCTTGACTGTCCCTAGCACCCAAGAGTGTCCATTGATTGGGC
TTTCCCCTGAGCGCCCATCTCCTCCTCTTCTTGAGCCATTCATCCCTCCTCTCATCTCCCCTGCTCTCCACCATCTGCACGGGCTCCTCACCCTTGCTGT
CTGTTCTCAGGCAGAGTAGTGATCTCTCCCTTTGCCTCGTGATACTTTAAGATCAGCTTCTAGGGCCCATCTTTTCATGTCCAAGTGACCCAGACAGGTA
TTCAACCTGCAAGGAATTATGCTGTCAGATTAGTTATGAAACAATTAATAGTTAATTTTTAAGCATCTGGTATGTGTCCAGTACTGTACTAGGCACTAAG
CATACAGGAAAGCTCATGTTCCTGACTTGTCTCATTCATTCGTTTATTCATTCATTCATTCATTGACAGGGTCTCTGTTGCCCAGGCTGGAGTGCAGTGA
GTGGCACAATCATAGCTCACTGCAGCCTCAAGCAGTCCTCCCACCTCAGCCTACTGAGTAGCTGGGACTATAGTCATGGCTAATTTTTTTTTTAACTTTT
TGTAGAGATGAGGTCTCACTATGCTGCCCAGGCTGATCTCAAACTCCTGGGCTCAAGCAATCCTCCCTCCTTGGCCTCCCAAAGTGTTGAAATTACAGGC
ATGAGCCACAGCACCTGATCTGTCTTTTTCATTTGTGAAGACAGAATGGATGATTGGTCAGAACCAAGAGGCTATCCACTGGATTTAAAGTTATATATTT
TATGCCCTTGAACAGGATATTTTACATCCACTTAACTGAATATTTATAATACATCAAAATGCAAGATGACACATATTTTTCAGGCAACCCATTAAATGAT
GCTGACTTTCATGGTTATTAAACATAATACATTTAAATCTGAAGTCAGAATGTAAAATATGACATTTAGGAACATGATACAAAGTAGGACATTCAGGAGA
TTTGGAATTCATAAATCAGTATATTGATTTACATTCGTCAGTTGCTTAAAATTTTCTAAATGATTATCTTAGTCCATTTGGTCTGCTATAATAAAACACC
ATGACTGGGTGGCTTCTAAAGAGCAGAAATGAATTTCTTTCAGTTCTGGATGCTGGGAAGTCCAAAATCAAGGTACAATCAGCTTTGGCGTCTAGTGAGG
ACCCATTTCYTATTTTATAACCAGCCATCTTCTCACTGTGTCCTCATATGGCAACAGAGGCAAGGCAGCCCTCTGGGGCCTCTTTTATTTTATATTTAAA
CATATTTTAACTTTTAGGTTAAGGGGTACATGTGCAGGTTTGTTATATAGATAAACTTATGACTTAGGGGCTTGGTGTACAGATTATATCCTCACCTGRG
TATTAAGCATATTACCCAGCAGTTTTGTTTTTTTTCTAAACCTCTCCCTCCTTCCATCCTCCACCCTCAAGTAGGTCCCAGCGTTGTGCTGTTCCCCTTT
CTCTGTCCATGTGTTCTCATTTAGCTCCCACTTATAAGTGAGAACATGTGGTATTTGGTTTTCTGTTCTTGCATTAGTTTGCTGAGAATAAGGACCTCCA
GCTGCATCCATGTTCCTACAAAGGACATGATCTTGTTGTTTTGTATGGCTGCATAGTATTCCATGGTGTATATGTACCACATATTCTTCATCCAGTCTAC
CGTTGATGGGCATTTAGGTTGATTCCATATCTTTGCTATTGTGAATAGCGCTGCAGTGAACRTATGCATGCATGTGTCTTTATAGTAGAACARTTTGTAT
TCTTTGGGTATATACCTAGTAATGGGATTGCTGGGTCAAATGATAGTTCTGTTTTTAGTTATTTGAGGAATTGTCACACCACTTTCCACAGTACACCACT
TTTCACAATGGGTGAACTAATTTGCACTCCCACCAGCAGTGTGTAAGTGTTCCCTTTGCTCCACAACCTCACCAGCATCTGGTGGGGTTTTTTTTGTTTT
GTTTTGTTTTTTACTTTTTAATAACATGGGACCTCTTTTATAAGGGCACTAACCTCATTCATGAGCACGTATCTCCAAACGCCATCACACTGGGCGTTAG
GTTTGAACATGTGACCTTGGGAGGGCACTCAGCCATTCAGTCTACAGCAGTGACTTCAGAAAACCACACGTAAGGAAGCTTGCTAAAGGATGGGCATTAT
TTAAACCAACAACTTCATTATTAAATTAAAACTAACTGCATCCTGGCCTACCTGCTGTACATAATTTTTTTAAATAGACAGGTATTACTAAGTCTTTGTA
ACCAAGTATATACAATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAATTTAGTTTAGACATATATGAGAAGCCCA
AACGTGTATTGCTAGCCACTGAATTCCTAGCTAGGAAGATGGGGTTGAGTCAGACAACAGGCTGAGTCATTCATTGATTTGGCCAGAAGCCAACCACCAA
AGGCTGTTACTGCTGAACAGGGATCTTGAGCAGAGATTGGGAGCTCCTGGTTTATGATCATGTCTTTTTCCAAGTTACAAATTGGATATGTTGTGTGTAC
ATATATAGATAGTTTTTTATCCTGATACTTGGAACATGTCTGTGAAACACTGTAAACCCTCTCTCCAGTGTCATCCTAATGGGAGAAAATGTATAGAAGG
GTCACCTGGGCCCTTAAAGGGAAAGCATCCGTGTGACAGTTCTACATCTTCTAAATATCTGAATGCAGGAGAGACAGCTCTCGTTAGCTAAAAGAGCTAG
GGAAGGGACATTCAATCTGGATAGATCTAAACTGGAGTGTGCTCAGGAGGCTGAGGTGATATCATCATCTGCATCTGGACCCAGTGTTGCCTGTATCAGA
GAGGCAGTGCCTGGGCAGGCAGGGGGGAAGCATGCCAAGGCCAGGTGTGAGGATGGCCCCTGACCCAGGGATGCTCTGTCCTTTCAGCCCCAGTGTTGAC
AAGAGGCTTGCTAGTGAACCGCAGGCCTGCAGAGTTTAGTCTGACATTGGCACTCTGAGCTTTGACACCCAGAAGCTCAGTGACTCACTGACTTTTGCAG
GGAGCTCTGGCACAGGGTGACGCCAGCAGCCTCATGGATGGTACACCCAGCTCCCTGGCCTCAGTGCTTCCTTGGTTTHTTCTATTCTATTCTATTCTAT
TCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTATTTTATTTTATTTTATATTGAGATAGGATCTCGCTCTGTCACCCAGGCTAGAGTGCAG
TGGTGCAATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGAGTTTCTCATGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGCACCACCTG
GCTAATTTTTGTATTTTTAGTAAAGATGGGGTTTCACCATTGTTGGCCAGGCTGGTCTCRAACTCCTGGCCTCAACTGATCCACCCACCTCAGCCTCCCA
AAGTGGTGAGATTACAGGCGTGAGCCACTGTGCCCGGCCCCTTGGTGTTTTTTAAAATCTCTGTTAACTTTGTCTCCACTCCGATGGCCACTCTCAGAAT
CTGGTCATGACTCAGCATCCCCGTCACACCAACCTTCTAAATCTCTGCTCCGAATCAATCCTGCAGCCCACGCCTCCACTCACATACCATGGCAGGGGGC
CAGCACCTGCTGCTCCCTGGCAGTCTCAGGGCTTCTTGTCTGCTTTCAGGCGGAGCAGCTGGGACAGAGCAGCTTTCTTGTGTCACCTTACTTGACTGAA
GGCTGCAGGGTCTCACCTAGACATACTCCAGCATGCCTGTCATTTGCAGCCATGCTCCCTTGTGTTCCTAAGTCCCAAGAGACAGTAAATGAGGGCATAA
GCTATTGCACTGCTGCCCACCAGCCTGGTTCCRAGCTAGGATTAAAGAGAGCCAGAGCCTGTGACACACCCGCCCACCTCTCCACTTATGCAGCTCTGAG
CTTCACCACCTGCACCTTGCCCTGTCTTTGTCTTGCCTTGGTTCAGCCTGGTGCCCATGGGAAGAGGCCATAACTGACCTTCCTCTCACTGCGGATGAAG
GTGGGAGGAAAAGTTTCCAGAAAAAAGGAGACAGCAGACCCTGGTCTTCCCAGAGCTCAGGCCTCCTGGCCACTGCAGTGACCCAGGCAAGAGACAGGCT
GGGGTCAGAGCAAGGTGGTACCYGCGGACAGGGTGATACATGGTCAAATTCTGGATGTGTTTTTAAGGCAGACCCCATGGAAATTCCTGATGGATTGGAG
GTGAGATAGAAGGATCATTAAATGCAATCTTGAGGTCTCAAACCAGAGTTCTAGTCTTGTTTTCACTCTTATTTATCTGATTCTCTGATCTTATCTATCT
GACGACAGATAAGACCTGAGCCCCAAGTCTTATCTGATCAGATTAAGACATTATCTGGTCTTGTCCTGTCTCAGACTGACTTCCACTTTTATTTCAGTGG
GTTCTGATTCCTAGCATCAGCAGCCCACTCCAGGCTCTTTGGAAGTTCTCTTATTGTCATTAGAGCTCTCTCTGCTGCCCTTAGTATTTTAGCACTCACG
TAAATGACCCGTTTGGCATTCTGTCAGTGTAGTTGGGCCTGAAGGTAATGTAACAGCGTGGCAGTGAGCACTGCTTAACATCTCTTTGAAATAAACAACA
AAAGGCAGGTGGCCGTCATTGCCAGCCCTCCAAAGTAAGGCTTYTGCAGGGAAAGTGGTGGACAGCTTGTAGGCCAGTGTAGACTGTTTTACAACTCGAG
GTCTCAATTCTGTCACTGTCGCAGTGAATGAAAATCACTTCACGGGGATTCGTTTCTTTGTCTGTAAAGAGTCATTGTGTAATGTTCAGTTAGAGATAAG
AATCAACCAGTGGAGATGGTGGATATATTTAAGCGCTTACTATGGGCCAGGCCCAGCTCTTTTACATGAGTTACCTTATTTGATCCTCATCAGGTAGGTG
CTATTATTACTTCCATTTTACAAATGAAAACAATGAGGTTTGGAGACGTTAAGTGACTTGTACATCATCAGCCAGCTGGTACGGGGTAGGGCTGGCATTC
AAACCCATGTCTATTGGACACCGGGTTCTGTGCTCTTAACCACGCACCAGTGTTTCTTTCAGTGTGATCATGGGTCACCTGGGTGGGCTTGGTAAGTGTA
GAATCCTGGGTCCTGCTCTCCTGACCAACCCACTGACTCTGACTCTCTGAGGCTGGGACCTGGAAATCCATWCCTTAGCTAAAGTGGCATAACATATGAC
AACCACGGTAATCTCATTATATCTAAATGATTGTAAAGCATCCTATGGGTGTGTATATGTAATGTTGACAAATCCTCTAAGCCTAAGTCAGTCCAAATTC
TAGGATTTCCTAATTAAAAACAAGCAGATGGTTCTTATAATAGTACAATCCCATCCTCTGTAATTTCCAAAGTCCATTATTAACGCATCAATGTAATAGA
ATGTCAAATGGTCAGCATTCTGCAGAGGACAATATCCAGACTAGTTCATTTAAGCAGAAAGGAATTTTTTTAAATAGAATATTAAATAGGTAATAGAATC
ATTAGGAGAGCTGGAAAAACAGTCTTCAGGCTGACTGTCCAGCAGTGACTCCCAAAATCCTACCACAGAGCTGAGCTTCAGAAGCTGTTGTTCCAGCATG
CTCAGCAAGCTGCCTGTGAATGTTGGGAGAGCAGAGGGCAAGCATGGAGCCCTGGGTTAGGGAGTGATCAGAACTGAAGCCCAGGAGGGCTTCTGCAATG
AATGACTGGGGGAACTTGGATAGAAAAGGAGGCCAAGGAAGCAGGGGTTTTCAAACAGCCAAAGTGGCCAGCATGGCCAGATACAGTAAGAGGGCCAGTT
AAACATGGATTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCAGCAGATTGGAATGCAGTGGGTGATCTTGGCWCACTACAACCTCTGTCTCCCA
GTTTTAAGCGATTCTCCTGCCTCAGCCTCCCGAGTACCTGGGACTACAGGCGCACGCCACCATGCCCAGCTGATTTTTGTATTTTTAGTAGAGATGGGGT
CTCACCATGTTGGCCAAGATGGTCTCCATCTCCTGACCTCATCATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCC
AACCAAGCATGGATTTTTTAAAAATAGTATTGTTGGTCTTGACACCTAGGAGACTTTTGCTAGGTCAGTTAGTGAGTTTTGCCAGCACTGTTTCAGGGGG
ATGGTGGGGAAAGCAGCTACATTGGGTGGGCGAAGACTAAATGGGAAGTGAGCAAACAGAAACAGCAAGCACGGCACAGCCAGGCCTTTCAGGGAGCCAA
GTGGAGATGGGAAGGAAGCGGGGCTGTGGCTGGTGAGCCCTTAGAGCTCAGGGAATTTTTTTTATTTGTTGTTTTGTTTGTTTCTTAGGATGAGAGAAAC
TTGAGCATAGTAATAGCAGAGCCATTTGAAAGAGAAATGAGTCGATGTGTCAGTGTTCTAAAGGTCCTAGAAAGAAAGGGGGCAAGGACTAGAAGGAGGG
GTTGGCCTGGAACACAGGAGGGACAGCTTCTCCCTGCTGGCTGTCAGAAGGAAGTGACAGTGGGTACAGGTAGGGTACCAGGAGGAGGTGGGTGGTGGAG
CCCTAGTCATGGTCCTGATTTTCTCCCTGAAGCTGATGAGTCCCCCTGCTGAGACGGCAGGGCCTGGATCCTGAGCGTGAGGCTGGGGATGAGGTGCAGG
TTTGGAGCAGCAACTGCTGCAGACAAGTGAAGGGATTGTCAGTCAAGGCCTTGGCCACCTAAATAAACTAGAACTTATGAGTTCAAGGTGGGCCAGCTGC
CAACAGTGTGTGATGTAGTTCAGCAGCCTCGGGCNGGAGTGCAGAGGCAGGTCCTGGGGCTGCTCTGAGGACATGGACTTTYGGTTGAGGATGGTGTTGG
GCTCGGAGCTCAAGTCTGCTGCTCGACGTGATGTGTCCCATCTGTGTGGCAGGTGCCTCAATCAGGAACCCTGAAGCTGTCCCACCTACAGGAGGGAACC
TACACCTTCCAGCTGACCGTGACGGACACTGCCGGGCAGAGAAGCTCTGACAACGTGTCAGTGACAGTGCTTCGCGCAGCCTACTCCACAGGAGGTGAGA
AGAAAGTCCTTCCCTCGCTTCCCACTGCTTGTGGAAGGCAATGTCGGGTTGGCGCTTTGTCCTCTGGCTCTGCGCTCCATGGGCTCTTCCATTTTATTTT
TGGTTATTGCTGAATGAGAGAGTCTTTGCTAAAAACACAATAACAAAAGCAGGCTCTCTTCTGTTTTGGGCTTAGCCGATGCTACTGGGTTGGGGTGGAG
GRAGCACTCCAGGGGATGAGAAGAGATGCTCCCGCTTCTCTTGACTCGACTTCATCAAAGACAATTGCTTGGCTATTCTGGGAGAGGACTTTGTTTACAG
ATGGATGGTCCATTTGCTGCATCTGTTCCAAGAGGGAAGCTAAGGAGTTTAGTGAAACCAGTTGAACTCGTGGAAGCAGAGAGTGGAATGGCGGTTACTG
GAGGCTGTGCRGGGGACGGACTGGGAAAGGAGAGACGCTGGTCAAAGGGTACAAAGTGTCACTGAGACCGGAGGAACAGGTTCTGGTGATCTGTTGCACA
GCATGGTGACTATAGTTAATGATAATGTATTGTCTGTTTCAAAATTGCTAAAACAGTAGGTTTTAAATGTTGTCATCACAAAAAGATTACAAGTAGGGGA
GATGATAGATATGTCAGTTAGCTTGATGTAATCATTCCACAATGCAAACATATATCAAAACATCACATTGTGCCTCATAAATATATACTCTCCTCTTTTG
TCAATTAAAAATACATATTAAAAAAACAAGGAAAAGGCATACCACAGGATTGAAGAAAGACTTGGCTCTTGGGTGTAATCAATTGCTGATATAATAAGTC
ACTTCAAAAATTTTAGAAAGAGAAAAAGAGTGCAGCTAAGGAGTACGGTTAAAATTAATTGAAATACGCAAAGGACCCATCAATTTGAAAGTGCTACCTA
CACATTTTCATAGACACTTTACGCAGATGCAGTTATATTAATAATATAACTTTAAATACATATGATGGTTCTCACATTCTGTTGTACAATGTAACAATGT
AAAACTTATTTCATTCATCTATGTTTCTTACTTTTCTAAACATCTACATTTTTTTTTTGAGAGGGAGTTTTGCTCTTGTTGCCTAGGCTGGAGTGGGAGT
GCAGTGGTGCAGTCTCGGCTCACTGCAGCCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGTGCACCA
CCACGCCCTGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAACCTGGTCTCGAATTCCTGACCTCAGGTGATCCACCCGCCTCAG
CCTCCCGAAGCACTTAGACTACAGGCGTGAACCACCGCGCCCAGCCCAACGTCTACATGTCTAAGAAAGATTAGGTCATCAAATTTTTTAAAATATCCAT
TGCATGGAACTTAGCGACACTAAAGATATTGTAGTATTGTAGAGGGAACCCCTCACCAYACACACAATTCACTTCTGGAGAGGTGCTAAGGTCTTGTACA
TTTAAATATCCTGTTACTCGGTCATCGTGTATTTTCTTAGTGTATGCAGTGTGCAGGGTCCTTGCCAGGCACTGGGGATAGAGTGGTGCACTGGTGGTCC
CTGACTCTGGTAAACTTGCAGTAAGTCTGTGACATTTTTGAATTCTCAGTATTCAATACTCAGGATCCAGATGGTAATTAAGCCAGCAGAGTGCAGAATG
AGGATAAAAGAGTTGGAACAGGACTGTGATTTACTTGTACTATATTGGATCTAGCCTTCTATCAAAAACTGAGGTTAGTATGCATACTGGAAATGAAATT
TTCTAAGGAGTTAGAGATTTTAGGATCCTAAGGACTTGTCAACTTTGATAATTTTCATAGGCGGCATTAAAAATTTGTTTGGCTGATGACAACCTGTCCA
GCCAGGGGTTAAGCTTACTGTAAGGAAGCAGGGTAACCATTCACAGACAGGACAGGCACCAAACTCCAGCCCGTGCCAGCACTGTGAGGTCACCAGTGAT
AGCGAGTAAACAGTCTGTCCAGCTCAGCCCGGATTCCATCAGCCCTGCTAATTCATTGCAGCTGGACAGGAGAGCCAGCCAGCTACTCAAAACATTGTTG
AGTCCCTTTGCTGGGCAGCTACTCAAAACATCATTGGTCCCTTGGCCACCAGGACCAGTGGAGACATGACATTGTCTCCAGCAGGGATGGCTCACTTCTG
TAGATCTGGGCGCCCTCTAGAGGGCTTTCCCCCTGGGTACCRGGACTCACCTGGACAGGGTCTGAGTCAAGTGCTGACTCTGGGAGGAAGGGACTCTTGG
GAAAAAGACACAGATACCCTGTCATCCCCACAGAAATCAGAAAAGGATTGCTCTTGTACAGCTGAAGTGCCTGGGAGGGAGGAAGGGCCTGCACTGATAT
GAGCAGATGGCCAGCACCTCACCGGCCACTTGTTTGTCCTGGTTTATTTCCTCAGGCAGCTTTCCGGGCTCCAGAGGTAAATTGCCAGCTGTAAATTTCT
GGCCCTTCTCCAAGATGATAATAAACTGTATTTGAAGTAGCAGAGAGTGGTRTGTGAATCATTTTTGATTACTCAGTGGCCGCTTGAGTATAGGTCTTGT
GTGGGTAACTTTATATGGAAAATAAAAAGGAATTGGTGAAGTACTAACTGCTGTCTAGAATCACTTAGTGGTTATATTGGAATAACATGCTATGAATTAA
AGTTAATAAAACACCACAGAGAGACATTGGAAAATAGAGGTAGAAGAGACAAGTGTTTCCCTCCCCTGCATTGTATGTATTGGTCTTGCAATGAATGACC
CAGATGTTATGGTAACCAAGGGTGACACTAGCTGAGGTAGACAGATGAGCAGGTACCCTGCTTATATGATYATAACTTGGTTCAATTTTTAATAAGTTGA
CATTTTGAACATTTTTCATGCTTAGAAAAATGATCAAACAGCAAGCCAGCAAGCTCTTCCAACATGATCTAACTCAGCAGTCTCCAAACAGGATGCCCYT
GAGTTGTTCAAGACATTTTTAGGGTGAGAAAGAAGACAGCAGAGTTTATATTTTTGCTGATTTTTAATTTTTTTCCTTAAAATTTGAGTATATTTTATAA
GATACACCCCATGTTAGTACAGTAGTATGCACGTATTATTTATAAATAAACCGGACTAGCCRGATGTGGTGGGACACGCCTGTAATCCCAGCTACTCAGG
AGGCTGAGACATGAGAGTCAGTTGAGCCTGGGAGCTGGAGGCTGCAGTGAGCTGAGATTGTGCCACCGCACTCCAGCCTGGGCGACACAGCGAGACTCCG
TCTCAAATAAATAGATAAATAAATAAACTGGAGATGCCTGTTCAACAATATATTATTGATCAGGATGCATGATCAAAAAAGTTTGGAGGCTGCTAATCCA
AAAATAGATAGAAAATTTACAAATATGGATCCATCTCCAAAATCACCAAAGAATAAATAAAACCTTGAGATATCTGGGATTTTCATGCCATGAATTTAAG
AAACCTGACGAGGAACTGTATCCTGCTTGATATCCAGCGTGTCCCCCACCTCCGCTCCCTGCTTCTTCCCAGTGGCCGGAGCTGACTCTCCTTCAGGCCC
ATGTTCTCAGTCATAACTGCAGGCTCTTTGCTTCCTCTTCTTCCGCAGGAGCTTCTATCACCATTTATTTTCTTTAACTTCTCTTCCTCCTGGATCAATA
TATCTTCAAATTGCCTCACACCAAGATAGACTCCTTTTCCAACCTCTTGATTTAACCACGTTTCAATAAAAGATGTGTCCAAGGCCGGGCGCAGTGGCTT
ACACCTGTAATCTCAGCACTTTGGGAGGCTGAGGCAGGAGGATTGCTTGAGTCCAGTAGTTCAAGACCAGCCTGGGCAACATAGTGACACCCTGTATCTA
CAAAAAAAAAAAAAACAAAAAAAAACCAAGTGTATGTCCAAGATTTCACTTGGGTTTGTGAACTGTGCTCAGCCATTTGGTTTTGAAGGAATATCATATA
ATCTGCCACTTCCCCATGTTCCTGAGAGAATTGTCTAGTCCACTCTGTCCCTGTAAAACCGTGGAGCTCCTGTGACCTGCTTCTAGCCTTGTGCCTTAGT
CCATGTTGCCAGTACCAGATAGTCACCCGGTTCTCCTCTAGCTAAGTCTAATAAAGTTGGCTTAATCAAGGGAGAGGGAAAATGCATTTCAGGAAAATAT
TTGTAGCTCCTATGAATTGCACTGCAAATTAAAAGCTCCTAAGAACTCCAGAAGGGAGAAATGTCGTTATTTCTTTCTTTTTTTTTTTTTTTGAGACAGA
GTCTCCCTCTGTCGCCCAGGCTGGAGTGCAGTGTCACAATCTTGGCTCACTGCAACCTCTGCCTCCCAGACTCAAGTGATTCTCCTGTCTCAGCCTCCCG
AGTACCTGGGACTACAGGTGCATGCCACCAAGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCT
CCTGACCTTGTGATCCACCCGCCTTAGCTTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCTGGCCAATGTCATTATTTCATGAAACTAAATT
CATGCCAGCCCATAACTAAATTTTGTTTATTCTCTACAGTACCAGGGACGTTATGATAATCAACAAATAGGATTCAATAGTAAAAACTTAATCTCAGTGA
AAAGTATTACTTAGGAGACAAGAATGTAAGACATAGCATATGTAAAATAGTACCTCTGGGCCAGGCACGGTGGCTAACACCTGTAATCCCAGCACTTTGG
GAGGCCGAGGCAGGTGGATCAGTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACAAGGTGAAATCCCATCTCTACCAAAAAACACAAAAATTAACCGG
GTGTGGTGGTGCATGTCTGTAGTCCCAGCTACTCCAGAGGCTGAGGCAAGAGAATCTCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATTGTGC
CACTGCACTTCAGCCTGGGCGACAGAGTGAGACCTTGTCTTAAGTAAGTAAATAAATAAATAAATGGTATCTCTGTTAAAACATAGCCAACTGCCATCCA
GGGGATGGGATGGTATTAGGTGCCCTCCTGCAGAGCAATCGACAGCCAGAAGAAGAGGTTCCAACAATGGTTTCTATGAATGAATGAATGAAGAGGGAGA
CAGCTGAGGCGGGGAATCAAGGGTGGAGAGAGACCTGGGCTGTTGCTTCTGTGTGCCACCTCCTGGCAAGGCAAGCATGGAGAACAGCCCTCAGACCAAG
AGCCCCTGAGGAGTCTGAAGAATTAAGTCGGGAGGCTCAAAAAGAGCCCTCCAACCTCTCCAGAACCTGTTGCTGGAATTGTTAGGTTTGCCTCATTATT
TGCATCTCTTCCCCGAAGTGCATTTTATCATCCCCACGGACTCCCCTTTGTCATCCCCATCTTGAGAGTCTGAACTTCTGCACTCGTGTGACTTGAGATT
TGTTTACAAATAGGATGTTTGCACACTTGCTCACGCTACCACTTCTTCTGTGACGATGGCTGCTGCATTGACATCACGCTCGCCTGCGATGGAGTGCAGC
AGTGTCCTGATGGGTCTGATGAAGACTTCTGCCAGAATCGTGAGTTGGCTATGTCACATTGCTAGGCAGTGGCTGGAAGGGATGGAGTTGGGAGGTCTGT
GTTCTGAGAATGAAATGCAAACACAGTGTCCTTCCCCTGCTTGATTTTAGTTATAACTTTACATGTAAAAGCTATGCCTTAAATGAGAATTCAATATGTC
TCTAGTCTAAGTCTCAAATGTCAAATTTTTAGTATTGCTTATGTTTTTAATTTTTTTCAATTTTCCAGGTTCTTTCTATCCTAAAAATGCTGCATGTCAT
GTGCTTTCTTAAAAACTGMAGTGATTTGATGCTTTGTTTTGATAATTTTTTAAAGAAAATTTGCGATACACCAGGGTGTGGCTAAGTCAGAGCTGTAAAT
CAGTCTTATAATATCATACACATAGAAACACCCTGTAAGAAAGAAGAAAAACTGAAGAAAATGTAATGAAGTATGGATTTGAGGAAGGACGAAGAGTCTC
AAAACCTTAAGTTTACGTTTAGTCTTTGTCCATTTCTTTTTTCTTTTCTTTCTTTTTTTTATGAGACCAGTTCTCACTCTGTCACCCAGGCTGGAGTGCA
GTGGCATAATCATGGCTCACTGCAGCCTCGACTTCCCCAGCCTTAGGTGTTTCTCCCACCTCAGCCTCCCCAGTAGCTGGGACTGCAGGCATGTACCACC
ATGCCCAGCTAATTTTTGTTAATTTTTTGTAGAGATGGGGTTTTGCCTTGTTGCCCAGGCTGGTCACGAACTCGTGGGCTCAAGTGATTGCCTACTTCTG
CCTCCCAAGGTGCTAGGATTACAGGCATGAGCCACCGTGCTGGGCCCCGTCCATTTCTTTATGTGTAACATTTGGAAAGCTGACTATTGGAAGAAGAAAG
AACAGATTACCCATTTGAAAACGTGAGAATAGATTTTTATGGTCCTCTGACATGTCTTAGATGAGTGGGCTGTTACATCCAAATATCCGTGATTTTAAAT
CAGCTGCAGATGTAGTGTTTTTAGTATTAAAGCTCAGAAAAGAAATCCAGCAACTAACAGTAGCTCTTCCACACTTCAGTGGGCCTGGACCGCAAGATGG
TAACCCACACGGCAGCTAGTCCTGCCCTGCCAAGAACCACAGGGCCGAGTGAAGATGCAGGGGGTGACTCCTTGGTGGAAAAGTCTCAGAAAGCCACTGC
CCCAAACAAGCCACCTGCATTATCAAACACAGAGAAGAGGAATCATTCCGCCTTTTGGGGACCAGAGAGTCAAATCATTCCTGTGATGCCAGGTAAGGAT
TCACGGTGGGTTCTCAATGAAGAACCTTGTTTTCTGTAGCCAAACTTGGCTCACAATTAAGTTTATGTTTGAAGAGTGTTAAGGAAGTATCTTGAAATAA
GAGTTAAAATTAAGAATTTGGCCAGAAAGGCGGGGGGAAATCTTGACATTTGCACTAATTTGTAGTAAGGGACACTTACTAAATACACTCATGTACCTAC
TCCAGAGACACYAATACATTTATTTGTAAATACATTAACACTTAGCTTACGTAAACCAATACCCAAAGTGTTAAATTTTAGGTTGTTTTGAGATGAAACA
GCATAACCATTATGTATTTGTGTAAATCCTCTTCACCCAAGCAAGTGAACATTTAAACAAGTTGTCTTGAAAGAGATGCATGTGCTAGTAATTCAACGTT
ATGCCTCCAATTTAACTAAATCTATCACTAAAAAAAGTAAGGCTAATGAGATTTATTTTTATTTTTTTTGAGACAGGGTCTCACTCTGTTTCCCAGGCTG
GAGTACAGTGACGCGATCACAGCTCACTGCAGCCTCAGCCTCCCAAACTCACATGATCCTCCCATCTCAGCCTCCTGAGTAGCTGGGACTATAGGCGTAG
TAGCTGGGACCACCATGCCTGACTAATTTTTGTATTTTTTATAGAGACAAGGTTTTGCCATGTTGCCCAGGCTGGTCTTGAACTCTTGGGCTCAAGCAAT
CTGCCCACCTCGGCTGGCCTCCCAAAGTGCTAGGATTATAGGTGTGAGTCACTGCACCTGGCCTAAAATACATTAACATGACTAAAGCATTACAGAATTT
AGCCAGATGCAGTGACTCACCTATAATCCCAGCTACTCTGGAGGCTGAGGCAGAAGAATTGCTTGAGGCCAAGAGTTTGAGACCAGCCTGGGCAACATAG
TGAGACCTTGTCTCAATCAGTCAATCAATAAGTATTACAGGATTCCATCATTTTTTACACACTTATTATTTGCATGATTATGTGACATGAGACAGAAATA
GAGATTATYACATTTCCAAAAGCTTTTCTAATGTCTTTTCAGACTCTGCATAAGTTGTATTGAAATAACCTGACATGATTTTAGTAAGTTTATTAAGAAA
AATTTTTGTTCATTGTACAAGATACGGAAGATGCAAAATAATTTAAGAAGGAAAGTGAATTTAAAATACCACCTCTTTTGAAAACTGCTTTTAATATTTG
TTATATTTCCTTCCACTCTTGTTTATGTGCCTTGTAGATTTTAAGTGCCTCCATAAAAATATGTCTGCAAAACATTGCATTCTATCAGGGGCTTTTCTTT
CTGAGTTTTGGTTAAGAATGCTGCCAAGTGTCTGCTTTTTTGGTCCATTCCTGGTTGGTACTGCCACCTACTGGTAAAATCGGTCACTACATGCAAGCCT
TTGGATGTGGTTTTAGTGGGTTTTCTCTGCTTAAGATAGTTTGTATGGAGAAGAGCATCACAATCTAAGAAACAGAGTTGGGCAGACCAGGCATCTTTGG
CAGGACTGCCGAAGGGGTGAAGAGTTTATGGAGAGATCTGTGTTATCAGAGGCCAGGATGGATGAATTCCTACCACATTACTGTGGTGGAGAGAACCACG
TGAGCATGAACAAATTAGCTGAAAGTAGAGTCGAGACCAAAGCCCAGGTCTTGGCTCTACCTTTAGAACCTTGAATAAGTCACTTCATATCTCTGGACCT
CAGTTGCCTCATCTGTTAATAAGGGACTTCAACCAGATGTCCTCCAAGGTGCYGTCCAGCACTGAGGAATGATAAATAGGCTGACATTCATACTTTACCC
CATCAGCCCTTACCCATGCTAGGTGTCACTCATTGGTCCCAGCACTGTCCCATGGGGAATGTGGACTTAGCTCAGAATCCTTTTGAAAATAGTGCTCCAG
GCTAGAAGCCATTATTCTCAGCAAACTAACGCAGGAACAGAAAACCAAATACTGCATGTCCTCACRTTAGAAATGGAAGCCGAATGATGAGAACACATGA
ACATATGGAGGGAAACAACACACACTGGGGCCTGTCAGAGGGTGGGAGGTAGGGGGAGGGGGAGCATCAGGCAGAACAGCTAATGGATGCTGGGCTTAAT
ACCTAGGGATGGGATGATCTGTGCAGCAAACCACCATGACACGTTTACCTGTGTGACAAACCTGCACATCCTACACATGTACCCCGGAACTTAGAAGTTG
GAGGGAAAAAAAAGAAAATAATGCTCCAGGCTGCCACCTGCGGCTGATGGGAGTCAGCACCCAATTTCCAATCTATTTATGATCTCTCCTTTTGCTTTTT
GATAATCAGCCTTTGGATTTGGTTATGAAGATGTAAAGAGTGGTCTTTCACAGATGCAGAGAGATTAGATGTACAGTTATTATATTAGGGCTTTTTCTAA
TTATTAAAATAATATGGATTTACTGTAGAAAATATAGAAAAATACAAAGAAAGTTAAAAGCATCTAGCAAAACTCACCATTAAAATTTTGTCGCATTTTC
TTCTGGTTACTTCTATTCATACACATATACATATTTATTCATTTTTAACAAAAGCAGGATAATGCTTTTATAAAACTTTTTTCTTACTCATGAGCATTTT
CATGTATTATTAACTATTCATCAAAAACACACTTTTTGAAAGTCCTGGGGTGAAGAAAGTGGGAAGAAAAAAACAAAACTGAAAATGTTAGAAAGAGCCM
TCACATCCTGTAGTTTCTGTTCAGACAGTAGCTGTCCCTGCCCTCCCCCTCTGCTGTCCCTAAGACCACCAGAGTAGAGTCCTCAGCCTCTGATTTCATG
TAAGTTAAAGACCCATAAGTAGATTTAAAAGTGCATTATTGGCCGGGCACGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCGAGGTGGGCGGA
TCATGAGGTCAGGAGATCGAGATCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAGGCCAGGAACGGTGGCTTACGCTTGTAATCC
CAGCACTTTGGGAGGCCGAGGCAGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACGCTGTCTCTACTAAAACTACAAAAA
ATTAGCTGGACGTGGTGGCGGGCACCTGTGGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCA
AGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTCAAAAATAAAATAAAAAAATAAAAATAAAAATACAAAAAATTAGCCGGGCA
TGGTGGCGGGCRCCTGTAGTCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATGGTGTGAACCCAGGAGGCAGAGCTTTCAGTGAGCTGAGATTGCGCCAC
TGCACTCCAGCCTGAGCAACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAGTACATTGTTGTTCATGACACATGCCTGGGTTTTAAGAAGACCAT
CAGCTAGTACAATAAATATGAATGAGTTAAATTCACTGCTGCCTCCTTCCTGCACAGACATGTGGTGAGGACAAATAAGACTTAGCTCGGCTGGGCGCGG
TGGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAAATCACGAGGTCAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCT
ACTAAAAATACAAAAAATTAGCTGGGCGTAGTGTCAGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGG
AGGTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAGCCCAGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAGACTTAGCTCATGGAA
GACTTGTTAACAAGATACTAAGATTAATACTAACAGTGTAGCATGCAAAGTAGTGAGATGTAGTTTTTCACCTATCACATTGACAATGATGAAGAATTAT
AATAATTAATGTTTCTAAGAGTAGAGAGAAACAAGTCTCACACTCTGCTGGTAGCAATGCAATTAGTACGTCCTTCCAGAGGCCAGTTTCTGAAGGCTTA
AAACTATGTATATGATCGGGTGCAGCAGCTCACACCTGTAATCCCAGCACTTTGGAAGGCCAAGGCAGGTGGATTGCTTAAGGCCAGGAGTTCTAGACCA
GCCCTAGCAACATGGCAAAACCCCATCTCTACAAAAACTACAGAAATCAGCTTGTGGTATTCACCTGTAATCCCAGCTACTTGAAAGGCTGAGGTGGGAG
AATYGCTTGAGCTTGGGAGGTCGAGGCTGCAGTGAGCTGTAATCCCACCACTGTAYTCCAGCCTGGGTGACAGAGTAAGACCTCATCTCTAAAACAAAAC
TATGTGTGCTTTGACCCAATTGTCCCACTTTTGGGGATTTATTCCACACAGGTTACTGAGGATAAAATGAAGGTATGTGCAGACATTCAGTTACACCAGC
GAATGCATGCTCAGTACACTCTGAGCCACCGGGCAGGAGGAGCACAGAGCTCCAGTGTGGCCTGTGTTTGCTCAGCATGTAAAGGCACAATGGCTGGATT
GTTGACCATGGTCATAGCCGTAGGGCCTGTTCTCTGTGTGGTCCATGTCATTCATTAACAATTCCACCCTCTTGTATCCAAGCTACCCCGAGGAAAGAAA
TCTGGTTTCCAGCCCTACRAAGGGCTAGAAAAGTGGTGCTACATCCACATTCACGTGGAATCTGCTTTTTGAAACTTGAGAATTCCTGGGCATGTTAAAG
TATTTCTTCCGGATCATGCCTGCATGCTCTATGGCAGCTGGAAATGAAATGAAAACAGCTTCCATCCAGCTGCCAATTCCCTCTGTGAATGTGTCGCCAT
GCATAGTAAACATAATACATTCAGAAGAAAGGAAAAATGGTCTCCTAAGACATGTAACTCTTCCAGAAGGATCATTACCAAAAGTAACTATTTCCAGAAG
CAAGTGATGTCATTGTTTTGTTTTGTTTCGATTCGCCACACTGGCTAGAGCCTGTGATTGGATGTGTGAAAGTGAAGCATTTCTCTATGGCGTTCCTTAT
GCTGAAATCTAGGAAAAATGAATCAGGCAGACTGGGAAATCATAGGGAATTCCTTCATGGAATGTAAACAGCAGAAATTCACATTTCAGTTACCCAGAAG
GCAGGGCCAGGTTCCTGGGTAATCCTAGAGTCTGGGGCAACTGCGCCTTCTGAAGTCTCCCATGCACACTGCCCGCTGCCTGATACCTGATCCCTCCCTA
CATCACCATCTTCCTCTCCCCAGGGAATAAGGGCATTTAAGAAAATGCTGTTTAAAAAAATTTTTCTTAAAGAAAGAAAGTGCTCTTTAATTTTGACAAC
TGAAGATTCAGAAAGAATTTGCATAGTTTTTTACATGAACCCACCTGTGAGGTTAGGTCCCTTTTGCAAGTACAGTTAGCCAATTTCTCTACTGCATCCT
TAATAAAGCTTTGTCCAGAACCTTCCTAAAAATCATTTAAAAGTGTGTGATTTTGCCTGGGTATGAGTAAATAAATATAGTATTGACTTGGTTCTTGGAG
TAAAAAACTCGTATTTGCTAGTTGTGACCTTGAGAGCAGTATGGTTCAATGGAAAACTGCTTTGGATCAGTCCTGGGTTCTAATTCCAGCACCACCAATT
ACTAGCTACTARGTAATCAACTTCTCTAAACTTCATTTCCTTACCTGTAAGAGGATAATAATCTCAGCTGGGCACGGTGGCTCATGCCTGTAATTCCAGC
ACTTTGGGAGGCCACGGCGGGTGGATCACCTGAGGTAGGGAGTTCGAGACCAGCCTGGCCAACACGGAGAAACCCCATCTCTACTAATAATACAAAAATT
AGCCAGGCGTGGTGGTGCATGCCTACAATCCCAGCTTCTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGA
TTGCGCCAGTGCACTCCAGCCTGGGCAACAAGAGTGAAATTCTGTCTCAAAAAAAAAAAAAAAAAAAAGAGGATAATAATCTCTCATAATATGGCTACAA
AGATTGCAGGAGATATTATATGTAAATATAATTGATGTCTCTCAGTAAATGTTAGTGCTGTTTGAATTTTTGCTAGAACATTCAAGTCCAGTGGTATTCG
CTAGGAAACCAGGGTAAGAGAGCGCCAAGTGTATAAGGCAGTTAATTCAAATAAAAAATAGAAATAGTGCAGTAGTGTTTCCAGTACTGAGTTCCTTTAA
GAATTAAGATGAGCAAGCTCTCATCTTCATTGGGAAGAAACAGTGAGGTGAACACTGTAAATGCAGTTATCTTATTTTTTTTATTGGGTGAAAGACAAAC
CAGTTAGTCCTCTGAAAAAAATCGGGAGTTGGTGAATTTTGGCACTTTGTTTTTATTCCTGGCTCATTTTTAATTTTATTTTTATTTTTATTTTATTTTA
TTTTATTTATTTTTTTAGATGGAGTCTCGTTCTCTTACCCAGGCTGGAATGCAGTGGCGCTGTCTGGGGTCACTGCAACCTCCACCTCCCAAATTCAAGC
GATTCACCTGCCTCAGCCTCCCAAGTAGCTGAGATCACAAGCGTGTGCCGTCATTCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATG
TTGGCTAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTTGGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCAGGCCCT
GGCTTATTATTTTTAAAAAGTAGGACTTGAGTTTCCCACCATGTGATCTTCCCACTTCCAAATTTATTATTGGAGAGAGAGATAAAGCAGAATGCATAGA
AGTTCCTTTGCAAGCTAACCTGGCAGTACGGCATGGGGGAGGAGGAAAGGGATGAAGGGAGAAGTGCCACAAGTGGTTTTTAGGTAACTTAGCAGTTTGA
TTTCCAAGCTGTTTCAGGGCTGCTAGTTTTGTGTGTGCGGCTGCTGGATGGACTGTTTTGCATATCACTGATTTATATCTCTACAGAACAAATCTTGTGT
TTCTTTTGGAGATCCACGAGCAACTGGCATTTGAAAAAATCAGGCATTATTGACTTTAAAACACAGTAATGTTTTCTATATCTCTACCAAGCAAAAGCTC
AGGAACATTCACTGGAGTCTCTGTAGTAATCTAAACAAGGCTTACATTGAACCTTCAAAATGCTATTGAAAATATTCATATTTTTAGGTCAGGTGCTGTG
GCTCACACCTGCAATTCCAGCACTTTGGGAGGTCAAGGCGGGAGGCTTGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGAAACATGGCAAAACCCCATC
TCTACAAAAAAATAGAAAAATTAGTCAGGTGTGGTGATGCTTACCTGTAGTCCCAGTTAGTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCTGGGAAG
TCGAGGCTGCAGTGAGCTGAGATTGCACCACTGCACTCTAGCCTGGGCAACAAAGGGAGACCCTGTCTCAAAAAAAAAAAAGAAAATAAAACATACTCAT
ATTTTCAATATGGATATCAACACCATGAGATTTGCACCATAAAAGCAGTGGTTAAATATGTACCTATTAACTACCTCACCCCTGAGAAAAAGTGTAAAAA
TTACTTGCCACAAAAATTGCACTCTGGTCTGTCTACTAGCAGTAAAAATATAATAAAATAAAAAAGCTGCATGGTCTTATTTTTCTGTATTAAATAGTGC
TTTCCTATGTCAGCAGATGTTTACAGTACTTCTAGTATAGCTTCCTAGGCCAGAATCATATATAATAAAATCTTTTTTTTTTTTCTTTTGAAAAGGAGTC
TCTGTTGCCCAGGTTGGAGTGCGGTGGCATGATCTTGGCTCACTGCACCCTCCGCCTCCCAAGTTCAAGTGATTCTCCTGCCTCAGTTTCCCAAGTAGCT
GGGATTACAGGCGCCCACCACCATGCCTGGCTAATTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCAGTCGCCCAGGCTGGAGTGCAGTGGCGCG
ATCTCGGCTCACTGCAAGCTCCGCCTCCAGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCCAGCAGCTGGGACTACAGGCGCCCACCATGCCTGGCTAA
TTTTTTTTGTATTTTAAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCATGAGCCACTGCGTGCGGCCCTTATGTAATACAATCTTATAGAACTACCTG
GCCTGGGATCAGGTATCATATAAGAGAATCCAGGTAGCTGGAGAGGTCCTTGGTGACCACTGTCGTGGCTACTGCAGTGAGTTGGACAGTAACAGAACTC
TTTTTGCAGGGAAATCTGATCCTGCAGCCTATGAGCAATGGCTGTGCTTTCCTCATCTCTCTCCTTCTGTCTGAGCTCAGAGTTTATGGAGAAAGCCCAA
ATTATTGGCTGTATGTAGGACCAACATACATGGAACTTTCTAGAGTAACAAGACACAGTAGACTGTCCCCAAAGTGCCAGGATTATAGGCATGAGCCAGT
GCACCTGGCCAACTTTGTGACTTAGTAAATTTGCAAAATGCAAGTTACCAAAGAATTTTATATACTACCTTTAAATAGTCTTATTTCATTTGCAGGAATT
AGGAACATTTATGTTGATGCCATATGAGTAAAGAAGCTTTAAAAATTTTCTCAATAAAATTTGTCAGTAGATTATTTCTAATTCATTGCCATTAAGCATT
GTAATACTCAAAAATCCCACTTAAGGCTGGGCATGGTGGCTCACGCCTGTCATCCCAGCACTTTGGGAGGCTGAGGTGAGCGGATCACTTGAGCCCATCT
GGGGAACATGGCAAAACCCCGTCTCTACTAAAAATACAAAAATTAGCGAGGCATGGTGGCACGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGG
AGAATTGCTTGAACCCAGGAGGTGGACGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAATCTGGGCAACAGAGACTCTGTCTCAAAAAAAAAAAAA
AGTAAATAAATAATAATAATTTCCCCCTCAGTATTATAACTTAATAGTTAAGTAATATATCATTAAATTAGAAGTACTGGTCTCTACCAAGAAACCAGTT
TGCATCCCAGCCCTGTGACCCACTTACTTGTGTGAACCTAGGTACGAACCTGACCCTGAGCCTAACCAGAAAGAAAATTGAGCTATTTATACCTGCCATC
CAGAGTTGTGAGAAAGAGAAAGAGCATGTCTAAATGCCTTATATATGCCCATTGTTTATTCTTCAAAGAAAAACCTTTCTGGTTTCTGCTTTTCATGGCG
TGATATCCGGAGACTCCCTGTGACTCTTCTAGCCTGAGATCTCCCTTCTCCAAGAGGCGTGGTGGTAGTTCGGTGCAGGGTGTGTCTTCCGCTCTCTCTG
TCGGTGGTTTCGTATTAGCTGCGTACTTTGCTTTATTCAGTGGGTCACCTTAGTTATTTACTGCTTAACTATCAAACATAGGCCTTTGTTTAGTAGAGAA
ATAAACAGTTCTTCTCTAAGTCCATCTTAAAAAAAAATAAGGCTGTATTTTCACATTTGTTTCCTGAAGTTTCTGATGCATACACCTTCAATATATGTTC
TCTTTCTTTTCTGCAGATAGTAGTTCCTCAGGGAAGAACAGAAAAGAGGAAAGTTATATATTTGAGTCAAAGGGTGATGGAGGAGGAGGGGAACACCCAG
CCCCAGAAACAGGTAAATGTCCACCTTGGAAACCCTTTGCAGACTGTAGTCTTCTCAGAACTGCATGCCCTCTGGCTGAGGATATTCCCTGAGGCCATGA
GAGCTCAGGACAGGAGGAGTCCGTCAGTGGACCGAAAGAACTGTCTCCTCGTTGCTTGTATTGCACTGCGTCTTGGGGCTCCTGATAGTAACCTTCCATC
TTTGGACCTCAGCTGCCTTTTCTATACACCCTTCCAGGTGTGACACCTGTGGAAAATGTCATACTTGTGGCATGGTGGGAGAACACAAGCTTTAGAGTCA
GATGCCACAATTCAAATCCTTGCTCAAAGCTGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCGCTTGAGCTCA
GGAGTTCAAGACCGGCCTGGGCAATATGGCAAAATCCTGTCTCTACAAAAAATACAAAAATTAGCCAAGTGTGGTGACATTCGCCTGTAGTCCCAGGGAG
GCTGAGGTGGGAGGATCACTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGATAAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCGTCTC
AAAAAAAAAAAAAAAAAATTCTCACTTACCCACTAAACTGTATGACCTTGAGCAGGCTATCTTATCTCTCTGGATCTCAGTTTCCTCATTCGTAAGATGA
GGATAGTAACAATACCTGCCTCATAGGGTTGCTGAGAAGAATATATGGGATAATTAATCTCAAGCATTGAATGCACTGTGTGGCTCATATSATGAGCCAA
ATATAGAAACGATGGCAGTTATTACTCAGTTATTTACGATGAAAGAAGAGTAAAGGTCTTAGAATACCTAGTTCTCTTTCCAAGTGCCCTAGTGACAAAG
ACAGAAAACAACAGAAATGAGGGAAGGGTGTAGGAAGTAGAATATTTACTAAGTGGAAGAAGAATACAATAATTTCTTTAATTTTGGTTGATTTTAACTA
GGAAGAAAAGACTTTGGAAACCATCCTTTAGAAAGGCAGGCTTTAGTCTTAAATCCCACAAACTAGTAAAAGAAGCTTTAGAAGAACAAAATATAAGCTT
AAGTTATAAACATTGAGAAAACTTTCTTTTTACCCTATTTATAATATCAGGACAATATTAAAATATAATGTTTAAACAATAGATAGCTAAGAATACTCCA
GATGTCAAGTACCTGGGTGACCCCCTTGGTCTGCTGGCCTCCTGGACTTAGCCTGTCCCAAGATATTTGAATAAAAGGGGCCCTGTCCCCTATCAAGGGA
AGAGGGAAACCAGCCTGCCTCTTGCCTCCCCACACATATGTATCCAGAGAGTCTCAGCTCTAGTTGGCTGTTGCCTATTCTGGTTGTTACATATTTTTGT
TTTGTTTTGTTTTTGAGACATCGAGTCTCACTCTGTTGTCCAGGTTGGAGTACAGCGGCGCGATCTCAGCTCACTGCAGCCTCTGCTTCCCGGGTTCAAA
CGATTCCCCTGCCTCAGCCTCCCTAGTAGCTGGGATTACAGGTGCATGCCACCACACCTGGCTAATTTTTGTATTTTTAGCAGAGATGGGGTTTTGCCAT
GTTGGCCAGGCTGGTCTCAAAACTTCTGACCTCAAGTGATCCTCCTGCCTCAGCCTCCCACCATGCTGGGATTACAGGTGTGAACCACTGTGCCCAGCCT
GTTACATATTTTAAATGTCACCCCCATTCATATGAACAGAATACATAATTCATCACCCTAGCTGGTTACTGAGAATAGCATCATGGTGTGTTTTAGAAGG
AGCTAGAAAGTTGTAAATCTCAAATTATCCAAACTAAGCCAACTAAATATTAAAAGTCAAGAATAATTTTCAATATTCTGGCAAGTACTTTTGGGAGATT
TCATTTTCCTTGTCATAAAAGCATTAAACAGGAATCAGATCAGACAGTTCAGCAGCCTCATATCTGACTTAGCAAATAGAACATTTTCCCAGATCTCGTC
TGTTTTATTGTTACCATAGCTAAACCTGAGCCCCGGCATTGGGATTGGCATCTTCAACCACAGCTTCATAACCCTTTAGCCTAAATGCTGATGCTCATCT
TTAAGCAAGTCCCCCGGACTGGGGCTGGGTGTTGCGGTCCAATTCATGAGAAATGATTTGGGGTTCCTGGGGTTTTCTGTGGGTATTGACCAAAGTCTCT
TTTTTTGTCCTGTTCCTTTGTAACATATGCAACTTATAGGAAGGTGGAGGGAGAATGACACCTTGGGGCCACTTAGCCTTGTCAGAACTTCTTTCATCAG
GTGGAGACTAGGAGGCAGTAGTAGCTACTGAAGCCCCAAACTGCTGGCATGGAGAGACCAGGCAGCCATCTTGACACCTCCAGAACTGCTGTGTATGGAA
TGAGACAGCCGTAGAATCCAATTCCAGTCCATAGGGTTATCACCGATTTGTATCTTTCACAATTCTCTGGAGGAATGCTGGCCTCTTCCAGAACTTTGTT
TGATACCTAACAGTCTCTAAAGCAGCTTTCCCATCCCCTCCTCCGGCAACCAGACACTTTCAAACTGTTCTTGAGAATCTTGTTCAGGAGTTTTACCTGG
GATTCTAAAAATACACCAGAGTTCAAGTGCCGTGAGTGTGTCATCAGCTCCAGGTCCTCTTGTCTTCAAGAGGCGGCCAGCTATACCTGGGACCAGTTTT
AAGCCCAGTAAATCAAGACTGTCTGGAGTGAACTTCCTCAGCTACCTGCCCCCCAAATGTAAAAACTCATCTGGTTGCATTCACCCCTCTTCCTCCCCTC
CAGTACTAAAGGAAGAGGTGTCGCCTCTTTCCAAGGTCTCTCCCTGATCTGGCTAAAGCCCCTGATTTCCTCAGGTTCATTTCTCATCATCTCCTAGCTC
TCCCGTGTTTTTCATCTCTGTTTCTTTACTGGCTCATTCTCCTGACTGTGATCATGTTCAGATTTCTTAATGTGTAAAGAAACAAAGTAGCATCCTCCAT
CTTCTGTACTCCCATAAATGAATTACCAATTGCTAAATCCAGGGGGCTCTCCAGGCTTCACCTCACTTGACATTTCCTTAGCATTTGATTCAGCTGAGGA
CTTTCTTCTTGGACGTCTCTTTCCTCAGCTTCCAAAAGCCCACTCCCTACTATAGCGGTTGTCCTCCTATTTCTCTGACTGGTCTTCTTCTGTTTTTTTT
TGGTCCTCTGCTTTTGTCTGCCCTCTAAATGCTGGTGTTTCCCAGGACCTCGTTCCTGGCTCACCTTTCTTCTTCCTTTCTCTCTGGCTGTCCTAACCCC
TATTGTGACTGCAGCTACCACCTTTATGCTAAAGGCTCCCACATATTTAGGCCCAGCTAATCCAAAAGCCTAAGAGAAAATTCCACCTGATCGCTGATAG
GCATCTCAATCTGAAAATGTCAAAAAATAAACTTACCTCCTTCAGCCACCCAACAGTCTCTATCATACATCAAAATCACTCAGGCAAAAATCCTACAGAC
CAGGTAGATGGACCACCTATTTTATTAATACAACTATGCTTCATCTATAATTCTATCATAGTAAGTATAACACTTTGTTGCATTTTTTCCCATTTAAATG
TCTGTCTACCCAGACTTACTCGTTCAAAAACTGTCTCATTTACATTTTGTAGAAGTAGAGTACCATAGTGGATAGAACCACAGGCTCTGGGGCTGTCCTG
TCTGGGGTTATTTGCTAGCTCTACCACTTAACAATCTTAGACAAGTCACTTCAGTCTTTTTTTTTTTTTTTTTTAAGACAGGATCTTACTTTGCCACCCA
AGCTGGAGTACAGTTTAAGAGCTCACTGAAGCCTCTACCTCCCAGACTCAAGTGATCCTTCTGCTTTAGCCTCCCTAAGTATTGGGATTATAGGCATGAG
CCACTGTGCCCAGCCTCACTTCTCTTTTTTTTTTTTGAGATAGGCCCTTACACTGTCACCCAGGCTGGAGTGCAGTAGCCTGATCATGGCTCATAACAGC
CTCAACTTTCTGGGCTCAGGTGATTCTCCTACTTCAGCCTCCCGAGTAGCTGGGACTGCAGGTGCATGCCACAACTGGCTAATAATTTTTTGTAGAGACA
AGGTCTCGCCATGTTGCCCAGGCTGGTCTCGAACTCCTGGGATCAAGCAATTTGCCCACCTCTGCCTTCCAAAGTGCTGGTATCACAGGCCTGAGCCACC
GTGCCTGGCCCTCACTTCATTGTTGATGCCTTAGCTCCCTCATTTGTAAAATGGGGATAATAATAGCACCAACTTATGTGGTGGTTGTGAGAATTCARTG
ATTTAAGCTATAAAGCTGGTATTCTTGGCCTTAGCTTATCTTGAGGGGGGTGGTATTTATTTACAAATAAAAGGATTATCAGCACTTAGCTCAGTGTCTG
GCACATGGAAGAAGGCTTTTAATGAATGCAGAATGAATGAATAAATGAGAGCAAATGGTAYAGAATGAGCCTACACAAAGGAGATGTTTCTCCTCTAGTT
CTACCAGTTGGCAAGATCCCTACAGCTAAAAACAGTTCCACCATATAATCTCCAGACCTGGCCTGGCCACAGAGTAGATCAGACTAAAAATAGAGCCTGC
TAAGCTTGATAAAAAAGACTGATATTGGCACACCCTGTCCTTCCAGACTCCTGCAAGCCTCGCTACTTCTACTCTGGTGTCTAGAATCCACCTCACAGGA
AAAACTAAAGAAATGTTTTCCTTTAATGTCCAAAATCACACCAGCATATTTGGAAGTTAGTTTTCAACAAAGGTTCTACTGACTGAGTCAGTTCCCTGGA
TTTAGAAGGAAATAAATTTCTTAAGCCCTAACTAGAACAAGAAATCAGGAGTTAGTTCATACTTAGTTGAAGAATGATCATGTATGAATTCATAAATATA
GTCAATGACTACAACAAAAAAATTTCGTGATCAGAATGCCTATTTCAGTTGGATATGAGTGATCAGATGGTAGTATGTGTACCCATTGATGCCATACAAA
TTTTGTAGGAAGCTGGTAGAGAATTTGGTTTTAAAGAGGTCTGTGTTGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGC
AGGTGGATCACGAGGTCAGAAGTTTGAGACCAGCCTGGCCAAGATGTTGAAACCCCATCTCTACTAAAAATACAAAATTTAGCTGGGCACAGTGGCAGGC
ACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGGGAATCGCTTGAACCCAGGAGGTAGAGGTTGCAGTGAGCCGAGATTGAGCCATTACACTCCAGC
CTGGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAGTCTAGGTTTGGGACCTGAACCTACAACTTACAGCCTCCTAGGCAAATAAGCA
AATTACTTAACCTTGGTACACCTTAGTTAATCTGCAAAATAGTGATAATACTAATAACAATTTGTTTGGATTAAATAAAATAGTGCATGCAAAGCGCGTA
TCATATAGTGACCAGTAGCTGTCACTGTGACTAATCACTGGCTTGCCCTCTTCATGTCTAACCTTCTCAAAGGTGCAGTGCTACCCCTGGCGCTGGGTTT
GGCTATCACTGCTCTGCTGCTTCTCATGGTTGCATGCCGACTACGACTGGTGAAACAGAAACTGAAAAAAGCTCGTCCCATTACATCTGAGGAATCGGAC
TACCTCATAAATGGGATGTATCTATAGTAATGTAATTTCAATACCTTGGGGCAGGGACATGTTTTGTTTATAATTTATACATCTATTAAGTTCTGGATAT
TTACAGCTTCTTTTGTTTTTAATTGGGCCAGAAGATTCTGCAAATCCCAAATCTTTCTTTATTATTTATTGTAAAAAAAGKTTCCTTAGAAGTCATAAAA
TATTTTGAAATTTAGAGAGGAATTCATGATTAAAGATTCCTAAAAATATAATTCTGATTTATGTAAGCTGTCCCTGAAAATAGAAATGTGTACTTAGCTG
AGAGAAAATTCAGCATCTCAGGAGGTGGTATTAGGATGACTGTGTTAACCCATTACCTTTTAGAAGCCAACTGTTGGCCCCTTACCATGCTGGACTGCTA
TAGGCCCAGCTTCCCCTTGTTCTGTGGCCCTTTTCTTCCTCCTTGAAGCTCCCAGTATTCTTTTTCTTTTCCCCTCTAAACCTGTTTCTGAGAGTGGATC
TCAAGCAAGTTCATGCCTTCAATCAGATGTTACTTAGGGTGGGTATACCTAAATTATAAACCTTATGTACAAGTCAGTAAGCCTTAGGGAAGGTGAGTGT
GGGTCCTTCCTAATCCCTCTGACGTCATGTCATATAGGTGGCTGCCTCCTTAGACTGACCTTTGGGAGAAAAAAACCCCAGACTTTGAATTAGTAACAGC
TCTAAGATGGTCATGCAGTGAGATAGGAAATCAAGATGGAAGCAGAGAATCTGGCATGCCAAAAACTAACAGAAACTTAGTTGAAGGCAAAGAGAGCAAG
GAGAAMGTTTAATACTTCATTACATCAAATCAACACTGCTCCATGGTGAGAGCACAGCAACTCATTTATATATATATATATAGGCTTTGTTGATGAAAAA
CGACAATTGAAGAGAGGACGTTGAGTGGATTCCTGGGTACAGCTTTTGTAAAAATGTCACCATGGCTTTCATCCAATGGAATGAGTCGATGTTTTTTAAT
GCTATAAAATGTTAGAATGTGCCATCAGCTAATGCCAGGCTTACGTATTTCTAGACCATAAAGCAGTTTTTCACAAATTCATCTTTACAGAAAACCAGCA
TCTAGCTTAGCATCTTTCCCCTTTTAATTTGTAGGCTTTTAAAGGCAAATCATTCCCACCATCACTTAACGCCGGGATTATACACATTCTAGAAATGATT
CTGAGAGGAGTGTATAGTATGGTGCCTATCTACACTCACATGATATTCTTATTCACGTTTTTTTTAACCATAAGTGGCAAATATTTTAAAATATTTGAAA
AACACTCCAGAATCTAGTACGCTTTATTTTTAGACTGAACCTAAAGTAGGTTGTTCTTTTAACAAAGGGTTTAATTCGGGTGGGGAATATAACATATCAA
AATACATGAACAAATGGAAAGTTACTTCTAGAAAAGCAAAGAAATTGGGTATCATTTTTGTTTCTTGGGAAGCTAATTTTGTTGAATGTTTAGAATTGAG
CAAAGATGTAAATTTTTGAAGGGCAGTTTAGAAAAATTAACTTTGTGAATGAACTTAAGATGTCTGTACTCTATATGTGATGCTGTGCAGTTTGTTTTTA
TATGGAAAGATGTCAACTATAGCCATAACCAATAAAATAAAAACTGATGAGGCATGCAGCTTTCAGCACATCTTTTATACATGAAGAAATTAATTTTGTG
TTGCTATGGTGTTGAAATATCCAAGATGTTCTGTATCTATGTAAACATGATTCCTTTAATAAATTGTATTTTATTATTAAGCCTTTTTTTCCTTTTAATA
TAATCATAAGTTGCTATTATTGACTGAGCTGTTACTGCATTATTTGGATTCAATCATACCAACCCTATTTTACAACGGGGGAAATTGAGTATTAGAGAAA
GTGACATGCCCAGGGCCACATAAAGCATACTCGAGGGAAGGAGAATCAAGGTCTACAAAATATTTATATCAGGTAGACTGAATGTGACTTTTAAAAGTGA
TCTTCTTACCTGTAGATTATCTGATTGAAGGAGTTCTGCATCTAAGACAATGGAAACATAATTTTAAAGGGAAAGGTGTCCACAATTTCTCTCTTAAACA
TGTTCTTGTGTTTTACATGTCTTTTCCTAAGGCTCACTAACTCCTCCTGAACACTTAAAACTTACTTTTTCCTTTCATTCTTAGTAGATAGCAGCTACTC
CTCCAGCCTTCCACAGCATTTTACTGTTTCAAATCAGCTGAGTACCCAATACATTCTCTTCCATAGGAAAATAACAGGATTTTTTTCATCTTGCTCCCAA
TGACTTCAAAACCTGTGTTCTGGCCCCACAACTCAGTGCCACTCAGCAACACCTCTCTTCAGTTACTGATGGCTGTTCACATGGCCCTTTACTAGATTTT
CCTTTGACCCACACATAGAGATGCTCTTTTTCTTTTTTTGGGACCGAGTCTCACTCTGTTGCCCAGGCTGTAGTGCAGTGGCATGATCTCACCTCAGCTC
ACTGCAACCTCCGCCTCACAGGTTCAAGCAGTTCTCGTGCCTCAGCCTCCGATTAGCTGGGACTACAGGTGTGCGCCACCATGCCCAGCTAATTTTTGTA
TTTTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAGCTCCTGACCTCAGATGATCCACCCGCCTCGGCCTCCCAAAATGCTGGGA
TTACAGGCGTGAGCCACCATGCCTGGCCGAGATGCATATTTCTATTTCCCTTTCCATTTTGCTGTTCAAGGCCAACTCTGTTGATTACTTCACCTGTGTA
AACAAACAGGTGTGCTGTGCCCCAGAACACAAGCCACCATCCTTACCTTCAGATGTTCCCTCAACATCATGTTGATGATGCCTCTTAACACAGCATCTGA
GCCTGAGATTCCGTAATTTGGGCTCCTTGTTAAATTCAACTATAGCATCTCAAAACAATTTCATGTTTTGGCTTACTTTCTCAAAATGGATTATGCCACT
TTATTCCTAGCAGAATTACTTTAATGTTTTGTTTTCTGGACTCCAGGTTTTCTACAACTTTTCAGATTAAAATTGAATGAGAATTTCTAACAAAGAACTG
CCCAAGCTGAATACAAAGAGGGAGAAGCTTAGTTTGCAGTTTGCCATTCACAAATTTCTCGTCTCGTTGGCTTTTTAAGCATCTGTGTTGCAGACTTTTC
TGTTCCTGTCCCCATTTTCCGACCTACTGGATTCTAGTATTCTAAAAATAAAATGAATATTTTAAGTTATAGCTACTTTAGTGGATAAACACAGATTCTC
CAGCTAAATAGAAAACCACCAAGGACAAAAATAAGGTTCGACATCCCAAAGCTGAATGTTTTTGGGAATTGACTGGTTAGAACTGAGCCTTCTCCTATAT
TTCCCATATTTAGGTCTAAGCATATCTTCCTTCCTACTTATTTTAATTCTCAAATCACATCAGTTTTTAAAATCTTATGTCATCACCCTGCAAATTGGAA
AGAGATCAATTTATAATATTATTCAGCTTAAATCCTTTTATGAAGTTATTTCAAAATTTAGGAAACTTCTCAAAATATTTTAATACAAAAATAATGTTAA
CTTTTACAAAAATAGCTTAGGGAAATTGGACCAGGTGCAGTGGATCATGCTTGTAATCCCAACACTTCGAGAGGCGAGGTGGGCAGATCGCCTGAGGTCA
GGAGTTTGAGACCAGCCTGGCCAAAATGGTGAGACTAAAAATACAAAAATTACTAAAAATACAAAATTAGCTGGGCATGGTGGCAAGCCTGTAAAGCCCA
GCTATTTGGGAGGCTGAAGTGGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATTGTGCACTCCAGCATGGGCAACAGAGCAAGAC
TCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGCCACGCGCAGTGGCTCACACCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGCAGACC
ACGAGGTCAGGAGTTCGACACCAGCCTGGCCAACATAGTGAAACCCCGTCGCTACTAAAAAAAATTAGCTGGGCGTGCTGGCACACGCCTGTAGTCCCAG
CTACTCGGGAGGCTGAGGTAGGAGAATCGCTTGAACCCAGGAGGCAGAGGCTGCAGCGAGCCAAGATAGTGCCACTGCACTCCAGCCCGGGCAACAGTGT
GAGACTCCATCTCAAAAAAAAAAAAAAAAAAGCTCAGGAAAATAGTGTACGGGCTTTTTTTTTTAAAGGTGCTCTTTCATTTTCATAGTCATTTCATATG
ACCAAATACTCAAAATCCAAATGAATCAAAAGAGTTCTTACATATAAACAAAACAGTTCTACAGATGAAACTAGAGATCTTGATAAATCTGTAAATATAT
GATCTAGAGATTTGTGTATAGAAAAAGAAATCAGAACCATGAACTGCAATCTGTGAGACCACAGCTTTAACTTTTTTTCTGCCAGGGAGGTGGAAAGATG
AGGAAAAACAGGGGGGTGAGAGGAGGGACAGACAGAAGCATGCCTCAGAGGTTCTGAGGGCCCCCTAGCACAGCACAGTACTATATGGGAACTGAAAGTT
AGATTTTACTCTATTTTCTCTCCCAGCAAGCAAAGGGCCGTTTCACAGAGATTCCTGACTGAAACAACACAAAGTCAGTTAAAAAGATGAAGCTGGGGCT
GGGCATGGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGTGGGAGGATCACGAGGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAA
ACCCTGTCTCTACTAAAAATACAAAAATTAGCTGAGCATGGTGGCGCACGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACC
TGGCAGGCGGAGGTTGCAGTGAGCCGAGACTGCGCCACTGCACTCCAGCTTGGAGAAAGAGTGAGAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGC
CAGAAAGATGAAGCCGGAAGTGGGGAACCAACAATCATTATTGTAGCAATGATATTAGAAGGATTAAGGATAAGGAAATTATTGGACTTGATTCCCTCTT
TTTTGTTTTTTTTGAGAGAGTCTGGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCATTGCAACCTCTGCCTCCTGGGTTCTAGTGATT
CTCCTGTCTCAACCTCCCAAGTAGCTGGGATTACAGGCACCCACCACCACACCCGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGT
CAGGCTGGTCTTGAACTCCTAACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTAAAGGCGTGAGCCACCCCACCCGGCCTGATTTCC
TTTTTATCATATTACAATACACAAACATTCCTTGGCCCCTTGGGTCAGCTGGTTTTCTTCAAGTGGGATTCTTTCACCAGCCCTCTATTTGAGCCACGTG
CTAGGTTCAGTGAGAACACAACACTCATCTTTCTGGAAAATGGTCAGAGGAATCCAGAGATCCAACTGAAATCCAATCAGAACCCATTTGTTTTACTGTT
CAGTTCTTTAAGAACACAATAAGTTGTAGGCAATGATTTATACCTAGAAGAATGTTAGCACTTACCTAAAATAATGTATTAGCCTCTGAACCCCATTTAG
AACACTAAAAATAATCCATTAGTTCATTTACAATATTAGTGTTCAGTTACCATACTCATATATTTTAGTAAAATATCAAACTATTGAAAATTTGTTAACA
TTTAGCTGAAAACCAAAAATACCCACCTGGCTAATGAAACAAAACTAAGCAGCTGTTTCCTGGCTGACAATCACACACCAAGAATAGCTTCAAAAATTCA
TGAGCATTATTACTCAAAGATGTCAGTCTATTTTAGATCAATTGAATTTTTAAGATGCTTTAATAGAGGTACATTATATACCAATTTTAAAAGTTCAGTG
GGCCAGGGACGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCAAGGCAGGCAGATCCCAGGGTCAGGAGATGGAGACCATCTTGGCTAACCCAG
TGAAACCCTGTATCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGACGTGGAAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGTAGAGGTTGC
AGTGAGCCGAGATCGCACCACTGCACAGTGAACTTTTTTTGAACAATGGCAGTATTTAAAATTAGGGCAGTGGAATTTAAAACACTTGCATGAACAATGT
TAATGGATTATTTTCCTCCCAGAATGTCATTTTCTTCTAATGTTATTGACTGGAAAAGAGTTGAAACCCTCGACCGGGTGTGGTGGCTCACACCTGTAAT
CCCAGCACTTTGGGAGGCTAAGGTGGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAAAATA
CAAAATTAGCCGGGTGTGGTGGCGTCTGCCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGAATTGCTTGAACCCCGGAGGTGACGGTTGCAGTAAGCT
GAGATCACACCATTGCACTCAAAAAAAAGAAACCCTCAATAAAAAGCTGATATTCATAATTCAGGCTTAGATTATATAAGTGGTTTTTGTTTTAAGAGAT
AGGCTTCTTAGGTTTCTATTAGAAGGGTGGAGGAAAAGAGTTTTTAAAAAAGAGAGGGAGAGACTGAGTCTTACTCGTTGCCCAGGCTGGAGTGCAGTGG
CATGATCATAGCTCACTATAGCTTTGCTCACTACAGCCTCGAACTCCTGGGCTCAAGCAATTCTCCTGCATCAGCCCCCCAAGTAGCTAGGACTACAGGA
GCACATCACCATGCCTGGCTAATTTTTGTTTTTTTGTAGAGACAAGATGTCACTTTGTTGCTCAAGCTGGTCTTGAACTCCTGGCCTCAAGCAATCCTCC
TCGCTCGGCCTCCCAAAGTGCTGAGATTGCAAGTTTGAGCCACCATGCCTGGGCAAGATTACATAAATTTTGAGAGCTTGATTTGGCCTTTAATAAAACC
AAATCTGTAGAAAAAATCTCATTTCAACATGATCTCACTAGACTGAAACTTTTTGAAATGTTTTCATTGTTGCCCTTCATATTATGTAAAGGAATCATGT
CTATTAAGGAAAATGACATAAGGAAATGTTTTAGAAATTATGAATACTAAAGATTAAGGAGACTTTTCTTGCCTGTAACCTGTACACACACACACACACA
CACACACACACATCTTACAGAAAAAAAAACTCTTAGGCCTAGCTAAAATCCATTATTTCCGTTTCTACCCATTTATTCATGCTCCCTTAAAGCCCATTCC
TGTTTATTCAACATTCTACAATTTTAATTCATAAACATGTAAAGTCCAAGAGCAGTGCTTGAACAATGCTGAAGGCATAGCACTGTCTGTACTAATCAGG
TGGCACTTAAGTTTGTCTTGTCATATTTATATAATTGTCTCCTCAAACAGACTTCACACTTTTGAGAGTAAGGGCCCTTTTCTATTCCCAAAACCAAACA
TAGAGACTCATATATAGTAAAATGTTGGTAATGGCTATGAAAGACACAGACCAGTGGATACATTTAAGAATTAACTTCAGTTGTAAGGAATATCTGACCT
TGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGGGGATCACAAGGTCAGGAGATC


SNP Information

Context             (SEQ ID NO:28607):
ATGCCTGTCATTTGCAGCCATGCTCCCTTGTGTTCCTAAGTCCCAAGAGACAGTAAATGAGGGCATAAGCTATTGCACTGCTGCCCACCAGCCTGGTTCC
R
AGCTAGGATTAAAGAGAGCCAGAGCCTGTGACACACCCGCCCACCTCTCCACTTATGCAGCTCTGAGCTTCACCACCTGCACCTTGCCCTGTCTTTGTCT
Celera SNP ID:            hCV8789008
SNP Position Genomic:     24133
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28608):
AAAAGGAGACAGCAGACCCTGGTCTTCCCAGAGCTCAGGCCTCCTGGCCACTGCAGTGACCCAGGCAAGAGACAGGCTGGGGTCAGAGCAAGGTGGTACC
Y
GCGGACAGGGTGATACATGGTCAAATTCTGGATGTGTTTTTAAGGCAGACCCCATGGAAATTCCTGATGGATTGGAGGTGAGATAGAAGGATCATTAAAT
Celera SNP ID:            hCV8789009
SNP Position Genomic:     24423
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28609):
CTAGCAACATGGCAAAACCCCATCTCTACAAAAACTACAGAAATCAGCTTGTGGTATTCACCTGTAATCCCAGCTACTTGAAAGGCTGAGGTGGGAGAAT
Y
GCTTGAGCTTGGGAGGTCGAGGCTGCAGTGAGCTGTAATCCCACCACTGTACTCCAGCCTGGGTGACAGAGTAAGACCTCATCTCTAAAACAAAACTATG
Celera SNP ID:            hCV26172970
SNP Position Genomic:     38604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28610):
CTTAGCTCAGAATCCTTTTGAAAATAGTGCTCCAGGCTAGAAGCCATTATTCTCAGCAAACTAACGCAGGAACAGAAAACCAAATACTGCATGTCCTCAC
R
TTAGAAATGGAAGCCGAATGATGAGAACACATGAACATATGGAGGGAAACAACACACACTGGGGCCTGTCAGAGGGTGGGAGGTAGGGGGAGGGGGAGCA
Celera SNP ID:            hCV3082503
SNP Position Genomic:     36266
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28611):
GGTATTCACCTGTAATCCCAGCTACTTGAAAGGCTGAGGTGGGAGAATTGCTTGAGCTTGGGAGGTCGAGGCTGCAGTGAGCTGTAATCCCACCACTGTA
Y
TCCAGCCTGGGTGACAGAGTAAGACCTCATCTCTAAAACAAAACTATGTGTGCTTTGACCCAATTGTCCCACTTTTGGGGATTTATTCCACACAGGTTAC
Celera SNP ID:            hCV26172971
SNP Position Genomic:     38656
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28612):
ACAGGTTGAAGTTGTTTATGCTTCAGAGACTAAGTTTTTCCTTCTTGAATTGTTCGTTTTTGGGTTGTGAGCATGTGAAAATGGTTTAGAAGAGCCCTTG
S
AGAGGAGCTGTGACTGGATCCATCTGAGGTGGATGAAAGCACCATGAAGAAATGGTGATGGGATAGCACGAACTTACAGCAGGACACACCAGCCCTGTTT
Celera SNP ID:            hCV8789046
SNP Position Genomic:     9281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28613):
GGCTCATTTGTTCTCTCTGCGTGGAGGTCAAAAATTGTTCCCCAGTGTCCTGTGTGTCCCCTGCTCAGATGCTTGACAGGTTGAAGTTGTTTATGCTTCA
S
AGACTAAGTTTTTCCTTCTTGAATTGTTCGTTTTTGGGTTGTGAGCATGTGAAAATGGTTTAGAAGAGCCCTTGGAGAGGAGCTGTGACTGGATCCATCT
Celera SNP ID:            hCV8789047
SNP Position Genomic:     9206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28614):
CGCGGTGCTGGTCCTCATTTCTGGGAGAACACTGCTGTGCTCAGACTTCCTGAGGTCCCAGCAACATGGAAACGCGGAAGGTGCGGCTCAGGTTCCTGTA
S
AGGCTCATTTGTTCTCTCTGCGTGGAGGTCAAAAATTGTTCCCCAGTGTCCTGTGTGTCCCCTGCTCAGATGCTTGACAGGTTGAAGTTGTTTATGCTTC
Celera SNP ID:            hCV8789048
SNP Position Genomic:     9104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28615):
GTGGATTCTCCAAAACCTGTGGATCCATTGAAAGAGTCTGGAAATCTGTGTCCATCACATCCTGCCTCCCTCCCCACCTCTACCTTAGATGAGGCTCAGA
R
TCCTTGTCAGGGGAGCAGATATCAAAGGGTCACCCTGCGACTGCTTGGCCTTGAGGCAAACACTGGGAAGGACTCCATAGCTTTCCTTCTGAAGTGGAGG
Celera SNP ID:            hCV1803651
SNP Position Genomic:     8205
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28616):
TGGCTTCTAAAGAGCAGAAATGAATTTCTTTCAGTTCTGGATGCTGGGAAGTCCAAAATCAAGGTACAATCAGCTTTGGCGTCTAGTGAGGACCCATTTC
Y
TATTTTATAACCAGCCATCTTCTCACTGTGTCCTCATATGGCAACAGAGGCAAGGCAGCCCTCTGGGGCCTCTTTTATTTTATATTTAAACATATTTTAA
Celera SNP ID:            hCV1803652
SNP Position Genomic:     21410
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28617):
CATGGTGTATATGTACCACATATTCTTCATCCAGTCTACCGTTGATGGGCATTTAGGTTGATTCCATATCTTTGCTATTGTGAATAGCGCTGCAGTGAAC
R
TATGCATGCATGTGTCTTTATAGTAGAACAGTTTGTATTCTTTGGGTATATACCTAGTAATGGGATTGCTGGGTCAAATGATAGTTCTGTTTTTAGTTAT
Celera SNP ID:            hCV1803653
SNP Position Genomic:     21962
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,1)      total(G,1|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28618):
AGCAAAGTTGTTCTGAGGCTGCCCTCCCCGGGGCCTGCTCTCCCAGCCCTGGAGGAGCCGGCGCGAGACGCGCGGGGGCGGGGCCGCGCGGGGGGGCGGG
R
CTCACCAAGGCTCCACCCCGCCGCGGCCACTGTTCGCACACACCTGGTGCTGATCAACGCCGAGGCCGACTCGTCGCCACCCAGCGCGCCGCAGGCCGGG
Celera SNP ID:            hCV11156383
SNP Position Genomic:     6008
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:28619):
AGGCTGCCCTCCCCGGGGCCTGCTCTCCCAGCCCTGGAGGAGCCGGCGCGAGACGCGCGGGGGCGGGGCCGCGCGGGGGGGCGGGGCTCACCAAGGCTCC
W
CCCCGCCGCGGCCACTGTTCGCACACACCTGGTGCTGATCAACGCCGAGGCCGACTCGTCGCCACCCAGCGCGCCGCAGGCCGGGGCGGAGAGGCGCAGG
Celera SNP ID:            hCV11156384
SNP Position Genomic:     6023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 5;UTR 3;TFBS


Context             (SEQ ID NO:28620):
CAGCCTCCCAAGTAGCTGGGACTACAGGCATGCACCACCTGGCTAATTTTTGTATTTTTAGTAAAGATGGGGTTTCACCATTGTTGGCCAGGCTGGTCTC
R
AACTCCTGGCCTCAACTGATCCACCCACCTCAGCCTCCCAAAGTGGTGAGATTACAGGCGTGAGCCACTGTGCCCGGCCCCTTGGTGTTTTTTAAAATCT
Celera SNP ID:            hCV1803656
SNP Position Genomic:     23660
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28621):
TTGGCCACCAGGACCAGTGGAGACATGACATTGTCTCCAGCAGGGATGGCTCACTTCTGTAGATCTGGGCGCCCTCTAGAGGGCTTTCCCCCTGGGTACC
R
GGACTCACCTGGACAGGGTCTGAGTCAAGTGCTGACTCTGGGAGGAAGGGACTCTTGGGAAAAAGACACAGATACCCTGTCATCCCCACAGAAATCAGAA
Celera SNP ID:            hCV1803658
SNP Position Genomic:     29642
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;JBIC-allele(G,393|A,1094)   total(G,393|A,1094)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28622):
TTGTATGTATTGGTCTTGCAATGAATGACCCAGATGTTATGGTAACCAAGGGTGACACTAGCTGAGGTAGACAGATGAGCAGGTACCCTGCTTATATGAT
Y
ATAACTTGGTTCAATTTTTAATAAGTTGACATTTTGAACATTTTTCATGCTTAGAAAAATGATCAAACAGCAAGCCAGCAAGCTCTTCCAACATGATCTA
Celera SNP ID:            hCV1803659
SNP Position Genomic:     30271
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28623):
CAGTCTACCGTTGATGGGCATTTAGGTTGATTCCATATCTTTGCTATTGTGAATAGCGCTGCAGTGAACGTATGCATGCATGTGTCTTTATAGTAGAACA
R
TTTGTATTCTTTGGGTATATACCTAGTAATGGGATTGCTGGGTCAAATGATAGTTCTGTTTTTAGTTATTTGAGGAATTGTCACACCACTTTCCACAGTA
Celera SNP ID:            hCV28032880
SNP Position Genomic:     21993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28624):
GGTAATGTAACAGCGTGGCAGTGAGCACTGCTTAACATCTCTTTGAAATAAACAACAAAAGGCAGGTGGCCGTCATTGCCAGCCCTCCAAAGTAAGGCTT
Y
TGCAGGGAAAGTGGTGGACAGCTTGTAGGCCAGTGTAGACTGTTTTACAACTCGAGGTCTCAATTCTGTCACTGTCGCAGTGAATGAAAATCACTTCACG
Celera SNP ID:            hCV8789010
SNP Position Genomic:     24944
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28625):
GGGTCACCTGGGTGGGCTTGGTAAGTGTAGAATCCTGGGTCCTGCTCTCCTGACCAACCCACTGACTCTGACTCTCTGAGGCTGGGACCTGGAAATCCAT
W
CCTTAGCTAAAGTGGCATAACATATGACAACCACGGTAATCTCATTATATCTAAATGATTGTAAAGCATCCTATGGGTGTGTATATGTAATGTTGACAAA
Celera SNP ID:            hCV8789014
SNP Position Genomic:     25472
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,7)      total(A,7|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28626):
TCAGGCAGCTTTCCGGGCTCCAGAGGTAAATTGCCAGCTGTAAATTTCTGGCCCTTCTCCAAGATGATAATAAACTGTATTTGAAGTAGCAGAGAGTGGT
R
TGTGAATCATTTTTGATTACTCAGTGGCCGCTTGAGTATAGGTCTTGTGTGGGTAACTTTATATGGAAAATAAAAAGGAATTGGTGAAGTACTAACTGCT
Celera SNP ID:            hCV8789015
SNP Position Genomic:     29952
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28627):
TATTTGCTAGTTGTGACCTTGAGAGCAGTATGGTTCAATGGAAAACTGCTTTGGATCAGTCCTGGGTTCTAATTCCAGCACCACCAATTACTAGCTACTA
R
GTAATCAACTTCTCTAAACTTCATTTCCTTACCTGTAAGAGGATAATAATCTCAGCTGGGCACGGTGGCTCATGCCTGTAATTCCAGCACTTTGGGAGGC
Celera SNP ID:            hCV8789016
SNP Position Genomic:     40012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28628):
ATCTATTAAGTTCTGGATATTTACAGCTTCTTTTGTTTTTAATTGGGCCAGAAGATTCTGCAAATCCCAAATCTTTCTTTATTATTTATTGTAAAAAAAG
K
TTCCTTAGAAGTCATAAAATATTTTGAAATTTAGAGAGGAATTCATGATTAAAGATTCCTAAAAATATAATTCTGATTTATGTAAGCTGTCCCTGAAAAT
Celera SNP ID:            hCV8789019
SNP Position Genomic:     49981
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:28629):
AAACAGAAACAAAAACTTCAGGTTACTATGAGAAGTTTCTGGGTTGTTTTTCCTCTTGCTTGCTTCGTTGCCCTTCCTTTCCCCAGGGGAGTTTGTCTAG
R
AATTGTTTTGTAGATGTTTGGGATGAAAATAGGCGAGCGCGGTGCTGGTCCTCATTTCTGGGAGAACACTGCTGTGCTCAGACTTCCTGAGGTCCCAGCA
Celera SNP ID:            hCV8789052
SNP Position Genomic:     8966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28630):
CGCAGTGAGTACAGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAGGGAGACACTGCCTCAGAAACAGAAACAAAAACTTCAGGTTACTATGAGAAGT
K
TCTGGGTTGTTTTTCCTCTTGCTTGCTTCGTTGCCCTTCCTTTCCCCAGGGGAGTTTGTCTAGGAATTGTTTTGTAGATGTTTGGGATGAAAATAGGCGA
Celera SNP ID:            hCV8789053
SNP Position Genomic:     8902
SNP Source:               Celera;dbSNP
Population(Allele,Count): Gaucasian(G,8|T,52)   Ghinese(T,9|G,11)   Japanese(T,16|G,24)   Tfrican(G,14|T,46)      total(T,123|G,57)no_pop(T,2|G,2)    ;(T,-|G,-)   Caucasian(G,8|T,52)   Caucasian, from CEPH families(G,38|T,280)   African-American(G,14|T,46)   Asians(T,25|G,35)   total(G,95|T,403)
SNP Type:                 INTRON


Context             (SEQ ID NO:28631):
GACATTTTGAACATTTTTCATGCTTAGAAAAATGATCAAACAGCAAGCCAGCAAGCTCTTCCAACATGATCTAACTCAGCAGTCTCCAAACAGGATGCCC
Y
TGAGTTGTTCAAGACATTTTTAGGGTGAGAAAGAAGACAGCAGAGTTTATATTTTTGCTGATTTTTAATTTTTTTCCTTAAAATTTGAGTATATTTTATA
Celera SNP ID:            hCV1803660
SNP Position Genomic:     30399
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28632):
TTTTAATTTTTTTCCTTAAAATTTGAGTATATTTTATAAGATACACCCCATGTTAGTACAGTAGTATGCACGTATTATTTATAAATAAACCGGACTAGCC
R
GATGTGGTGGGACACGCCTGTAATCCCAGCTACTCAGGAGGCTGAGACATGAGAGTCAGTTGAGCCTGGGAGCTGGAGGCTGCAGTGAGCTGAGATTGTG
Celera SNP ID:            hCV1803661
SNP Position Genomic:     30562
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28633):
TGTCAAATTTTTAGTATTGCTTATGTTTTTAATTTTTTTCAATTTTCCAGGTTCTTTCTATCCTAAAAATGCTGCATGTCATGTGCTTTCTTAAAAACTG
M
AGTGATTTGATGCTTTGTTTTGATAATTTTTTAAAGAAAATTTGCGATACACCAGGGTGTGGCTAAGTCAGAGCTGTAAATCAGTCTTATAATATCATAC
Celera SNP ID:            hCV1803662
SNP Position Genomic:     33319
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28634):
AAGAATTTGGCCAGAAAGGCGGGGGGAAATCTTGACATTTGCACTAATTTGTAGTAAGGGACACTTACTAAATACACTCATGTACCTACTCCAGAGACAC
Y
AATACATTTATTTGTAAATACATTAACACTTAGCTTACGTAAACCAATACCCAAAGTGTTAAATTTTAGGTTGTTTTGAGATGAAACAGCATAACCATTA
Celera SNP ID:            hCV1803663
SNP Position Genomic:     34512
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28635):
TTTATTTTCTTTCTCAGAAAAGGATGCGCCTCCACTTAGCAAGGCTGGGCAGGATGTGGTTCTGCATCTGCCCACAGACGGGGTGGTTCTAGACGGCCGC
S
AGAGCACAGATGACCACGCCATCGTCCAGTATGAGTGGGCACTGCTGCAGGGGGACCCGTCAGTGGACATGAAGGTAACGCATGTTGTCACTGCTAACAA
Celera SNP ID:            hCV11156392
SNP Position Genomic:     17318
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28636):
AGATACAGTAAGAGGGCCAGTTAAACATGGATTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCAGCAGATTGGAATGCAGTGGGTGATCTTGGC
W
CACTACAACCTCTGTCTCCCAGTTTTAAGCGATTCTCCTGCCTCAGCCTCCCGAGTACCTGGGACTACAGGCGCACGCCACCATGCCCAGCTGATTTTTG
Celera SNP ID:            hCV11156393
SNP Position Genomic:     26179
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28637):
CGTAGGGCCTGTTCTCTGTGTGGTCCATGTCATTCATTAACAATTCCACCCTCTTGTATCCAAGCTACCCCGAGGAAAGAAATCTGGTTTCCAGCCCTAC
R
AAGGGCTAGAAAAGTGGTGCTACATCCACATTCACGTGGAATCTGCTTTTTGAAACTTGAGAATTCCTGGGCATGTTAAAGTATTTCTTCCGGATCATGC
Celera SNP ID:            hCV1803665
SNP Position Genomic:     39019
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:28638):
AGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGACGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAATCTGGGCAACAGAGACTCTGTCTC
A
AAAAAAAAAAAAAGTAAATAAATAATAATAATTTCCCCCTCAGTATTATAACTTAATAGTTAAGTAATATATCATTAAATTAGAAGTACTGGTCTCTACC
Celera SNP ID:            hCV1803666
SNP Position Genomic:     43388
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28639):
CGTAAGATGAGGATAGTAACAATACCTGCCTCATAGGGTTGCTGAGAAGAATATATGGGATAATTAATCTCAAGCATTGAATGCACTGTGTGGCTCATAT
S
ATGAGCCAAATATAGAAACGATGGCAGTTATTACTCAGTTATTTACGATGAAAGAAGAGTAAAGGTCTTAGAATACCTAGTTCTCTTTCCAAGTGCCCTA
Celera SNP ID:            hCV1803667
SNP Position Genomic:     44891
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28640):
ACCGTGCCTGGCCCTCACTTCATTGTTGATGCCTTAGCTCCCTCATTTGTAAAATGGGGATAATAATAGCACCAACTTATGTGGTGGTTGTGAGAATTCA
R
TGATTTAAGCTATAAAGCTGGTATTCTTGGCCTTAGCTTATCTTGAGGGGGGTGGTATTTATTTACAAATAAAAGGATTATCAGCACTTAGCTCAGTGTC
Celera SNP ID:            hCV1803668
SNP Position Genomic:     48398
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28641):
TTACAAATAAAAGGATTATCAGCACTTAGCTCAGTGTCTGGCACATGGAAGAAGGCTTTTAATGAATGCAGAATGAATGAATAAATGAGAGCAAATGGTA
Y
AGAATGAGCCTACACAAAGGAGATGTTTCTCCTCTAGTTCTACCAGTTGGCAAGATCCCTACAGCTAAAAACAGTTCCACCATATAATCTCCAGACCTGG
Celera SNP ID:            hCV1803669
SNP Position Genomic:     48561
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28642):
AGGTTTACTCATATTGGCATGCATATGGGAGACTTCATATACACTTCTGTGCTCACCGATGGTGTAAATTGCTACTTCCCTCTTGGAAACCAGTTGGGAA
R
TATGTGGCAGAGACCATTAAAATATTCATTTCATACTTCTGGAATATTTTTTAGGAAAAGGAACCATGCTGAAGAGAACATATGAGCAAAAAAGTGTTTT
Celera SNP ID:            hCV16080315
SNP Position Genomic:     11272
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28643):
AACATATTTTAACTTTTAGGTTAAGGGGTACATGTGCAGGTTTGTTATATAGATAAACTTATGACTTAGGGGCTTGGTGTACAGATTATATCCTCACCTG
R
GTATTAAGCATATTACCCAGCAGTTTTGTTTTTTTTCTAAACCTCTCCCTCCTTCCATCCTCCACCCTCAAGTAGGTCCCAGCGTTGTGCTGTTCCCCTT
Celera SNP ID:            hCV27394194
SNP Position Genomic:     21599
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28644):
AAAGACACATGCACATGTATGTTTATTGTGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAGATGTCCATTAATAATAGACTGGATTAAGAAAA
Y
GTGGCACATATACTCCATGGACTACTGTGCAGCCATAAAAAAAGGATGAGTTCATGTCCTTTGCAGGGACATGGGTGAAGCTGGAAACCATTCTCAGCAA
Celera SNP ID:            hCV7825304
SNP Position Genomic:     11972
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28645):
AGTGACTCACTGACTTTTGCAGGGAGCTCTGGCACAGGGTGACGCCAGCAGCCTCATGGATGGTACACCCAGCTCCCTGGCCTCAGTGCTTCCTTGGTTT
H
TTCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTATTTTATTTTATTTTATATTGAGATAGGATCTCGCTCT
Celera SNP ID:            hCV27394195
SNP Position Genomic:     23379
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2|C,2|A,2)   total(A,2|C,2|T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28646):
AGCTGTAATGTATAACTGCTGAGTTATAAGATGCTTTCCAGAATTATAAAGTCATAAACCATTGTGTGGAAACAATGAACCTTTCAGAACCAAAGAAAAG
R
TCAACACTATGAAAGGACTATCAAAATAATGCAAGTGTCCTATCTCTCCTTACCTGGCAGAAGCAGCATAAAGACATCAGACACTCCGTGTTTGTTCAGA
Celera SNP ID:            hCV7825305
SNP Position Genomic:     14399
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28647):
ACTCTTAAGTGACTGGAAAAATGGGACACGTCTTCTCCATAGTTAGCAATAGCATGTAAAAAGCAATTGTGCTTAATTCCTCATAATGTGTTTTTTTTTT
W
AAAAAAAAAAAAAAGGCATCTTCCCTTTGTGGCTGGCAGCAGCATTCTCATTCAGAAAAGCCGCATCTCTAAGAGCCCCAGACCCCTCACATAAATCCCC
Celera SNP ID:            hCV7825306
SNP Position Genomic:     14683
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28648):
CCCCTGTGGAGGAAAGTGATGGGCTCGAAAGCAGGAGGAGAGGCGGTGCCTTGCAGCACTGTGCAGGGTGAGCCAAAGAGGGGCAAGCCCAGCCAGCACT
Y
GAACCAGAGCTTTGGCACTGAAGGAATGGGGAAGTGGATGCCAAAGAGGGCGTGGTACACAAACCTGTAGAGTTTTTCCAGTTCTGTTGCTGTTTCTTTA
Celera SNP ID:            hCV7825307
SNP Position Genomic:     15688
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28649):
GCTCCCTAAATGTCTGTACGCTAGCAGAAGGCATAAAATGGAGACTGTATAAAACTGATTATGCCAAAATGGTTTATTATCTCAATGTGCTTTTCTGCTG
A
GAGTGAGCAGCAATCTCGATCATTTGTCTTGGAGCCTACCCTCCTTCTAGCTGCTGTTTGTGACTTGTCTAGAGGACAAAGACACTTCAAGGAAGAAGGC
Celera SNP ID:            hCV7825308
SNP Position Genomic:     17568
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28650):
AAGAAAGAAGAAAAACTGAAGAAAATGTAATGAAGTATGGATTTGAGGAAGGACGAAGAGTCTCAAAACCTTAAGTTTACGTTTAGTCTTTGTCCATTTC
T
TTTTTCTTTTCTTTCTTTTTTTTATGAGACCAGTTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATAATCATGGCTCACTGCAGCCTCGACTTCCC
Celera SNP ID:            hCV27394199
SNP Position Genomic:     33537
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,8)   total(-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28651):
ATTGTCAGTCAAGGCCTTGGCCACCTAAATAAACTAGAACTTATGAGTTCAAGGTGGGCCAGCTGCCAACAGTGTGTGATGTAGTTCAGCAGCCTCGGGC
N
GGAGTGCAGAGGCAGGTCCTGGGGCTGCTCTGAGGACATGGACTTTCGGTTGAGGATGGTGTTGGGCTCGGAGCTCAAGTCTGCTGCTCGACGTGATGTG
Celera SNP ID:            hCV16151723
SNP Position Genomic:     27135
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,12)   caucasian(C,17|T,9)   total(C,29|T,21)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(G,6|A,17)   SC_12_C(A,9|G,15)   SC_12_AA(G,11|A,12)   SC_95_C(A,58|G,129)   total(G,161|A,96)no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28652):
TGATGGTGTAAATTGGTACTTCCCTCTTGGAAAGTAATTGGAAAATATGTGGCAGAAACCATTAAAATATTCATACTTCTGGAATATTTTTTAGGAAAAT
S
ATCTATGCTGAAGAGAACGTATGAGCAAAACATGTTTATTATGGCATTATTTATAATGGTGAAAAAGTAACAAAGTAAATGTCCAGTAGTACAGATTAGG
Celera SNP ID:            hCV16209600
SNP Position Genomic:     11522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28653):
TGTCTCAATCAGTCAATCAATAAGTATTACAGGATTCCATCATTTTTTACACACTTATTATTTGCATGATTATGTGACATGAGACAGAAATAGAGATTAT
Y
ACATTTCCAAAAGCTTTTCTAATGTCTTTTCAGACTCTGCATAAGTTGTATTGAAATAACCTGACATGATTTTAGTAAGTTTATTAAGAAAAATTTTTGT
Celera SNP ID:            hCV16209607
SNP Position Genomic:     35309
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28654):
GATGGTCATGCAGTGAGATAGGAAATCAAGATGGAAGCAGAGAATCTGGCATGCCAAAAACTAACAGAAACTTAGTTGAAGGCAAAGAGAGCAAGGAGAA
M
GTTTAATACTTCATTACATCAAATCAACACTGCTCCATGGTGAGAGCACAGCAACTCATTTATATATATATATATAGGCTTTGTTGATGAAAAACGACAA
Celera SNP ID:            hCV27477658
SNP Position Genomic:     50606
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,381|A,1088)   total(A,1088|C,381) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:28655):
CATTTGCTGCATCTGTTCCAAGAGGGAAGCTAAGGAGTTTAGTGAAACCAGTTGAACTCGTGGAAGCAGAGAGTGGAATGGCGGTTACTGGAGGCTGTGC
R
GGGGACGGACTGGGAAAGGAGAGACGCTGGTCAAAGGGTACAAAGTGTCACTGAGACCGGAGGAACAGGTTCTGGTGATCTGTTGCACAGCATGGTGACT
Celera SNP ID:            hCV25956012
SNP Position Genomic:     27811
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,23)   caucasian(G,38)   total(A,1|G,61)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28656):
GAGAGACCAGGTGGAGGTTACTGAATTATGGAGGCAGTCACCCCCATGCTATTCTCATGATAGTGAGTGAGTTCTCGCAAGATCTGCTGGTTTTATAAGT
R
TTTGGTTGTTTCTCCTGCCACCTTGTGAAGAAGGTGCCTTGCTTCCCCTTTGCCTTCTGCGGTGATTATACTAGTAAGTTTCCTGAGGCCTCCCCAGCCA
Celera SNP ID:            hCV11415841
SNP Position Genomic:     18426
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28657):
CTATTCAGCAAACAAGATACCTCTCCATAAATTAGAAAAAATAAGAAATCATCTTTTATGAATTATTTATTTTCTTTCTCAGAAAAGGATGCGCCTCCAC
K
TAGCAAGGCTGGGCAGGATGTGGTTCTGCATCTGCCCACAGACGGGGTGGTTCTAGACGGCCGCGAGAGCACAGATGACCACGCCATCGTCCAGTATGAG
Celera SNP ID:            hCV25967911
SNP Position Genomic:     17253
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,17)   caucasian(T,6)   total(G,1|T,23)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:28658):
GTGATTTTAAAATTAAGTGAAAAATCCACTCTAGAAAATAAAACTGCTTCTCCATATTTACACATTGGTGGGACCTCGTATGCTGCCTTGTACCCAAAAT
Y
GCTACCAGCCAACACTCCACACAGCCTCTTCTGCGCATATTATAGCTAAATTCCACGATCATAAAATAAATAGAAAAATAATTTCCATTTAATATGGATT
Celera SNP ID:            hCV29018163
SNP Position Genomic:     17024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28659):
GGTTATTGCTGAATGAGAGAGTCTTTGCTAAAAACACAATAACAAAAGCAGGCTCTCTTCTGTTTTGGGCTTAGCCGATGCTACTGGGTTGGGGTGGAGG
R
AGCACTCCAGGGGATGAGAAGAGATGCTCCCGCTTCTCTTGACTCGACTTCATCAAAGACAATTGCTTGGCTATTCTGGGAGAGGACTTTGTTTACAGAT
Celera SNP ID:            hCV16183560
SNP Position Genomic:     27602
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,397|G,1078)   total(G,1078|A,397) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:28660):
GTCTAAGAAAGATTAGGTCATCAAATTTTTTAAAATATCCATTGCATGGAACTTAGCGACACTAAAGATATTGTAGTATTGTAGAGGGAACCCCTCACCA
Y
ACACACAATTCACTTCTGGAGAGGTGCTAAGGTCTTGTACATTTAAATATCCTGTTACTCGGTCATCGTGTATTTTCTTAGTGTATGCAGTGTGCAGGGT
Celera SNP ID:            hCV29018164
SNP Position Genomic:     28859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28661):
CTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTCAAAAATAAAATAAAAAAATAAAAATAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGC
R
CCTGTAGTCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATGGTGTGAACCCAGGAGGCAGAGCTTTCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCC
Celera SNP ID:            hCV27394200
SNP Position Genomic:     37612
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28662):
TGAGGTGGGAGGATCACTTGAGCCTGGGAAGTCGAGGCTGCAGTGAGCTGAGATTGCACCACTGCACTCTAGCCTGGGCAACAAAGGGAGACCCTGTCTC
A
AAAAAAAAAAAGAAAATAAAACATACTCATATTTTCAATATGGATATCAACACCATGAGATTTGCACCATAAAAGCAGTGGTTAAATATGTACCTATTAA
Celera SNP ID:            hCV27394201
SNP Position Genomic:     41870
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28663):
GGCTCTACCTTTAGAACCTTGAATAAGTCACTTCATATCTCTGGACCTCAGTTGCCTCATCTGTTAATAAGGGACTTCAACCAGATGTCCTCCAAGGTGC
Y
GTCCAGCACTGAGGAATGATAAATAGGCTGACATTCATACTTTACCCCATCAGCCCTTACCCATGCTAGGTGTCACTCATTGGTCCCAGCACTGTCCCAT
Celera SNP ID:            hCV27989177
SNP Position Genomic:     36053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28664):
TCATGTATTATTAACTATTCATCAAAAACACACTTTTTGAAAGTCCTGGGGTGAAGAAAGTGGGAAGAAAAAAACAAAACTGAAAATGTTAGAAAGAGCC
M
TCACATCCTGTAGTTTCTGTTCAGACAGTAGCTGTCCCTGCCCTCCCCCTCTGCTGTCCCTAAGACCACCAGAGTAGAGTCCTCAGCCTCTGATTTCATG
Celera SNP ID:            hCV26172969
SNP Position Genomic:     37000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28665):
GCTGAGGTGGGAGGATCACTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGATAAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCGTCTC
A
AAAAAAAAAAAAAAAAATTCTCACTTACCCACTAAACTGTATGACCTTGAGCAGGCTATCTTATCTCTCTGGATCTCAGTTTCCTCATTCGTAAGATGAG
Celera SNP ID:            hCV27394206
SNP Position Genomic:     44701
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28666):
CTGAGGTGGGAGGATCACTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGATAAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCGTCTCA
A
AAAAAAAAAAAAAAAATTCTCACTTACCCACTAAACTGTATGACCTTGAGCAGGCTATCTTATCTCTCTGGATCTCAGTTTCCTCATTCGTAAGATGAGG
Celera SNP ID:            hCV27394207
SNP Position Genomic:     44702
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28667):
AGGTAGGGAAGGCGGGAGGATGCAGGAATGAGTGAGAGATGCTGGAGAGAGGTGTCTTGTAGTGACTGAGCCTGCCTGCTAGAATCTGTAGAACAGAGGA
R
GGTGCTTGAAGTTCTGGGGCCTGGCGTCTCCACAAACAAGTCCCTGCTCATGCCCCCAGGACTTGGTGTCTGCTTGTCCTCCATCCCAGGCTGTCGTGAG
Celera SNP ID:            hCV29018205
SNP Position Genomic:     9737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28668):
TGGGTTTATTACATTTTTTTGACAAAAATTCAAAATTACATATATTTTGTTCTTCATTAGCAAGTCACACATTTTAAAATGGCACACTCCCTTCCTCTTC
S
TGTTGTTATTTGTTTATTTTAAGGACTGTTTCTGGGTAGATAAGCTCTGGGTTATTTTAAAATACATTTTACAATGGAAATGGCCTGGACTTGAACTGAA
Celera SNP ID:            hCV29018206
SNP Position Genomic:     13884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28669):
AAAAGGAAACATTATCTGTGTTATTTCAGACACATCAGTGATCAGTTTAGAAGATAGGATGATTTCACTAAGCTTATAATTCATCTTAAAGCTCACCTAA
W
TAAAAGTAAGTGACTAAAATGATCTTTTTCTTCCAGGAGAGGTAGGATTAATTAATTGTATAATGTGTGGAATATTTCAGCGCTTATCTGATTCTTCCAT
Celera SNP ID:            hCV29018207
SNP Position Genomic:     14083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28670):
TTCAAGGTGGGCCAGCTGCCAACAGTGTGTGATGTAGTTCAGCAGCCTCGGGCCGGAGTGCAGAGGCAGGTCCTGGGGCTGCTCTGAGGACATGGACTTT
Y
GGTTGAGGATGGTGTTGGGCTCGGAGCTCAAGTCTGCTGCTCGACGTGATGTGTCCCATCTGTGTGGCAGGTGCCTCAATCAGGAACCCTGAAGCTGTCC
Celera SNP ID:            hCV25972968
SNP Position Genomic:     27182
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,1)   caucasian(C,34)   total(C,57|T,1)
SNP Type:                 INTRON


Gene Number:                 116
Celera Gene:                 hCG2030094 - 206000038721815
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRFTF0F9(20736689..20804710)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12276):
GAGTCCCTGTGTCAAAAAAAAAAAAAAAAGTAAAAAGAAACAAAGATGGTAACAGCCCTTTCCCCAAATAAGCCCCTTTCTTGCCTGAGGACTGGACTGC
CTTTGCAAAACTAACAAATAAGCCACAAGATTAGAAATTATGGCTTAGGCATCACTATTATAAAACCTAAGTTCAGTGCTTGAGATATTTTATAGACCCT
GTCCTCGATGGTTGGCAGCACCCCGTTGGCAGTACCTAGGTTGATAAACTGGCTCATCTGGTCTTGTGTTTTATCCGCACAACCAGTTCCTTGTGAATTA
AACTCTTTCTCTATTGCAATTCCCCTGTCTTGATAAATCAGCTCTGTGTAGGCAGTGGGCAAGGAGAACCCATTGGGCGGTTACAATTTCCTTGTACCAG
GTACCAGGCCAGGTGAAGTTATAGAAAGAACTTAACTTTCACAACGAATCTCTGAGGTAGGTATTATCATCTGCATAATACTGATGCAGAAACTAGGCTC
AGAGGGCTAAGTTACATCACACAGGCGATAAATTTGTCAGATCAGATACTTCTTTTTAATTATTTTTTTATTATTATACTTAAAAGTTCTAAGGTACATG
TGCACAACGTGCAGGTTTGTTACATAGGTATACATGTGCCATGTTGGTTTGCTGCCCCCTTCAACTCGTCATTTACATTAGGTATTTGTCCTAATGCTAT
CCCTTCCCTTGACCCCCACCCCGACAGGCCCTGGTGTGTGATGTTCTCCTCCGTGTCCGTGTGTTCTCATTGTTCAACTCCCACTTATGAGTGAGAATAT
GCGGTGTTTGGTTTTCTGTCCTTGTGATAGTTTGCTGAGAATGGTTTCCAGCTTCACCCATGTCCCTGCAAAGGACATGAACTCATCCTTTTTTTATGGC
TGCACAGTAGTCCATGGAGTATATGTGCCACATTTTCTTAATCCAGTCTATTATTAATGGACATCTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGT
GCCACAATAAACATACATGTGCATGTGTCTTTATAGTAGCATGATTTATAATCCTTTGAATATATACCCAGGAATGCAGCCCAGTTATTTCTAACTCAAA
GGTTCTATCCTTCCACTATACTTCGAGACAACCCTAGGTGTATTCCAGTTACAATAAATATAATTTTACATCCTGAATTTAATCCATCAACTTATTGGTA
TATTCCTGTTATTGATATTTCTTCATATATCTTAGCACTGCCCATGTGATAACCTAAGCTTCACAATTGCCACTTGAGTTTCCTAATCTGTACTACTGGA
CATTTACTTTGTTACTTTTTCACCATTATAAATAATGCCATAATAAACATGTTTTGCTCATACGTTCTCTTCAGCATAGATCATTTTCCTAAAAAATATT
CCAGAAGTATGAATATTTTAATGGTTTCTGCCACATATTTTCCAATTACTTTCCAAGAGGGAAGTACCAATTTACACCATCAGTGAGCTAGAAGTGTATA
TAAAGTTTCCCATATGCATGTCAATATGAGTAAAACACTTTTTTGCTCATATGTTCTCTTCAGCATGGTTCCTTTTCCTAAAAAATATTCCAGAAGTATG
AAATGAATATTTTAATGGTCTCTGCCACATATTTCCCAACTGGTTTCCAAGAGGGAAGTAGCAATTTACACCATCGGTGAGCACAGAAGTGTATATGAAG
TCTCCCATATGCATGCCAATATGAGTAAACCTATTTTTACCAAGTTAATAAATGAAAATTGGCCTTATTTACATTTCTTTGATTCTAAGGTCGAACATTT
TTCCATGTTTATCCACCATACCTCCTCTTCTGGGAAGTGTCTGCTCATGTCCTTTGCCCATTTATTTTTATTTTTCTTGCTGACTCATATATATATATAT
ATATATATTTTTTTTTTTTTTTTTGACCGAGTCTTGCTCTGTCGCCCAGGCTGGAGTCCAGTGTTGCAATCTCAGCTTACTGTAACCTCCGACTCCAGGG
TTTAAGCTATTCTCATGTCTCAGCCTCCCCAGTAGCTAGGACTACAGGCGTGTGTCAACAAACCAGGCTAATTTTTCTATTTTTAGTACAGATGGAGTTT
CACCATGTTTGTCAGGCTGGTTTCTAACTCCTGGCCTCCAGCAATCCACCTGCGTTGGCCTCCCAAAGCGCTGGGATTACAGGTGTGAGCCACTGTGCCT
GGCCCATAAACTCTACGAATAAATAATGTCACATTTTTCCCAGACTCTTGTTTGCAATTCCTTTTGTTTCTTGATATGAAGTTTTTTATAAATGTGCATA
TAATCTATCCCCTTTCTTTGTGACCTCTTTAATTGATTTGAAACCTGTCTTCCTTCCAGATATGGAAGTTTACTTCCTTTAAGTTTTTTTATGTATGGAG
TAATCTATGGCTTAATTTAAAAAAAATTTAATTCTTTAATCCATCTGGAATTTGTGTATGGTCAGAGTTGTAGGTCTAAATGTACTTTCCCTGACACTGC
CAACCAGTTATCTTACTATTATTTATTAAATATAATTGTTTATAACACAAAAGGGAGAAGATAAGAATGTGAGAAAGTAAGGCCCTTGGAGAGGGAGAGT
GGTCAAGCATCTGCAGAGGGATTAACCTTGAATGGGAAGGTCAACTCTTTTGTTTGCACTTGGCGGAGACAGGGAAAGGCTGGGGGTGGCAGCAGGTGGG
TCTGCAGAGAGGAGAGCAGACCTCTGCCTAATAGCTTTGATTTTCCCTGACACACAAGGCAAGGGGCCCACTTCCCAAATTCTTCCCCGAGATACTGGAC
TTCAGGCTGAATATCCAGCAAAAACCACATAAAGGTTATCGTCCTTGAGTCCTTGGAGGTTATATTCCCTGCTCTTCTGGAATCCTAGCAGCTCTAGCTT
CTACCTCTCCTCCCTCCCTCCCTCCCTCCTGCTGTTCTTCACTTTTTATCATGACATCCAGTCCCCCAACCCTCTAGTCATGGGCATGACCCAACCAGGT
TCCTAGAACAGTATCATGTACATGCGTGCCACCTTCCTAACTCACAAAGCATGTCCCCCCTTGAACCTCACGACAGCCTGGGATGGAGGACAAGCAGACA
CCAAGTCCTGGGGGCATGAGCAGGGACTTGTTTGTGGAGACGCCAGGCCCCAGAACTTCAAGCACCYTCCTCTGTTCTACAGATTCTAGCAGGCAGGCTC
AGTCACTACAAGACACCTCTCTCCAGCATCTCTCACTCATTCCTGCATCCTCCCGCCTTCCCTACCTCTACCCTCGCAGTCCCAGCCTAGTGATCCCTTT
CTCAGCTTCTGCTGGTGCTGCTGGAGAAAGCATAGGAGTTCAGGCTCCACAACCCCATGCTGTGTGACCCTTGGGCAGGTTACTTTCGCTTGCCAAGCCT
TGTATACACTAGGGATTATAACAGAACCTAGGCCTTTGTGTTGTTGTGAGGACAGAGTGAGTTCATGCGTGCAAAGGGCTGAGGACAGCACCTAACACCA
AAGTCAACAAATGTGGGCATGAAAACAGGGCTGGTGTGTCCTGCTGTAAGTTCGTGCTATCCCATCACCATTTCTTCATGGTGCTTTCATCCACCTCAGA
TGGATCCAGTCACAGCTCCTCTCCAAGGGCTCTTCTAAACCATTTTCACATGCTCACAACCCAAAAACGAACAATTCAAGAAGGAAAAACTTAGTCTCTG
AAGCATAAACAACTTCAACCTGTCAAGCATCTGAGCAGGGGACACACAGGACACTGGGGAACAATTTTTGACCTCCACGCAGAGAGAACAAATGAGCCTC
TACAGGAACCTGAGCCGCACCTTCCGCGTTTCCATGTTGCTGGGACCTCAGGAAGTCTGAGCACAGCAGTGTTCTCCCAGAAATGAGGACCAGCACCGCG
CTCGCCTATTTTCATCCCAAACATCTACAAAACAATTCCTAGACAAACTCCCCTGGGGAAAGGAAGGGCAACGAAGCAAGCAAGAGGAAAAACAACCCAG
AAACTTCTCATAGTAACCTGAAGTTTTTGTTTCTGTTTCTGAGGCAGTGTCTCCCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATCTGTACTCACTG
CGACCTCCACCACCACAGTTCAAGCGATTCTCCTGCCTCAGCCGCCCGAGGAGCTGGGATCATAGACAGGCGCCACCATGCCAGGATAATTTTTGTGTTT
ATTTCTTTTTAGCAAAGACGGGTTTTGTCATGTTGGCCAGGCTGGTCTCTAACTCTTGGCCTCAAGTGATTCACCCGCCTTGGCCTCCCAAAGTCCTGGG
GTTAGTTATGAGCCACCGTGCCTGGCGTCTCCAAGTAATCTAAACTTTAAAATTTTTGTTCTATGGCATATTCTTTCCTTGTTTATTTTCCTTTTCAAAG
GTTTCCTCTGGGTTTATAGGAAAGCTCACTTTGGCAATGTCAGTTTCTTCCAGGTAAGTAGTGAGAACACAGAGAAAAGACTTTGTTTCTTTGCTGCTGG
GATATTTTGGTCTGTGTTTGGGCAGAGAGGATGTGTGTGCAACAGCCGTGGTGGGCCTCAGAGATGCTGATGGGGGGTCCAAGTGAAAGTGCTGCCTGCC
TCCACTTCAGAAGGAAAGCTATGGAGTCCTTCCCAGTGTTTGCCTCAAGGCCAAGCAGTCGCAGGGTGACCCTTTGATATCTGCTCCCCTGACAAGGATT
CTGAGCCTCATCTAAGGTAGAGGTGGGGAGGGAGGCAGGATGTGATGGACACAGATTTCCAGACTCTTTCAATGGATCCACAGGTTTTGGAGAATCCACA
CTTCCAAAGGGGCTGAGCTCCGCCCCCATCTTGCTGATATCATTCGTGCTATTATAAATCAAACAGCAACAGGGCATGATTAAACACACGGAGCCTGACC
ACACGTGGGCACAATCAAGGTCTCTTATTCCCTCCGTGACATTCATGTCCAACCACTACCATTTTTGTGCCTCCTGTATGTGTCCTGATTCTCTCATTCA
GAGCATCTACAAAAAGTCAAACCGTCGAATCAGCATCATTTTTAGTCCTTAAGAAACACGCTTTAAAGTTTCCTATTTTCTTTTCCTTTTTTTTTTTTTT
TTTTAAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCCGCCTCCTAGGTTCAAGCGATTCTCCTG
CCTCAGCCTCCCGAATAGCTGGGATTACAGGCGCATGCCACCAGCTCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCATCACATTGGTCAGGC
AGGTCTCAAACTCCTGACCTCAGGTGATCCGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCACGCCCGGCCTTAAAGTTTCTTA
TTTTCAACGAAAATCAAGTCCCCTCTTTTCACTTTTTATAAAAGGGACCAGAAGTTTTCCTCCCATTTTTGTATGATGAAAGCCACCGCAGGCAAAGTCA
GGAGAGCCACGTCAAGAAAAAGGAGTGGGTGTTACGAGAAGCCCGGCATCTAATTAGATTTTGCTCTTGCAATTACTTAACACAAACCATGCCTTATACA
ACCCATGAGACTAAAACAAACTTTTTTCTCTCAGCATTTCTCCCCTTTTAAGTCATATTTCCACGAATCCTCTCAGATCAGCCTTTCTCTTCAAGCCTAG
AAAAATTCCAGTAGCACGTCACCGCGCCCGCCCGCCCGCTTCTGCCAAACTACTGGGCTTCCTCTTCCCTAAGACAGAGAAACCCATGCCAGAAACTCTT
CTGGGTGCCCGCGGCTAAAATAACTTGGCACGAGTGTGTTTCGCTTCCAACTTGGCGAGGGCGCTGCGGGTCTCGAGCGCTCTGGCCAAGGCCGGCCCCT
CAGTCGCGCGCTTACCCTGCCGGGGCGAGGCGCGCGCGGTGGCCAGGGCGGCGCCGTCCGGCGCGCGGCTGAGGCTGTAGCTGCTGTAGCCGCTGTGCAG
CGCGAACTTGCAGACGTTGCGGCCGCGCGCCGTGCAGTTGAAGAGGTAGCAGCCGAGCACGGCTGCCGGGGGCGCGGGGCGCCGGGGCAGCTCCACCACG
GCCACGGAGCAGCGCGGCTCGGAGCAGCAGGCCGCCACGCATTGCCGCCAGCCCCGCACGGCCGCCGGCGCCCGCAGGAAGCTGGCACCCGCCGCCAGGG
AGTCCTTGGTGCGGATGATGGCGTCAGGCATTGCGCTGTAGCCGCCGCTGCCCGGGCCCGGGCAGTCCTCCTGGGGGCCGCCGCCCGCGCGCAGCTCCAG
CTCCAGCTCCTCCTGAGGCCGCTCCTGCTGCAGTTGCCGGCGGAACTCCTCCAGCAGCTGCTCCACGCCCGACAGCTGCGCGTGCAGTTCGGACAGCGGC
GCCGCGGGCGGCAAGGCCGCACGGCCGCTTGGCAGCCACAGGCAGAGCAGTAGCAGCCCGCGCAGCGCCCCGTGACGCGGCGGTAGCCGGCGCTGCGAGC
CCGCGCTCTCCTGGGCGACGGAGGCCATGGCGACGAGAGCCAAGGGCAGCGAGCCGAGGCGGGGCTGAGCGCGGGAGGAAGGCGGGGACGCGGGCGAGCG
CGGGCCCTGGGCCCCTCCTGCGCGGCCGCGGCTGGCTCTAGGCCCCGGCCTCACAGCGCGGCGCCCCCGAACCCGGCTGCTCCCCCGAGGTCGCGGGCGC
CGGCGGGAACCGCAGTAGCGGGAGACATAGCCGGCCCAGCCGGGCACCGCTCCTTGCCCTCGCCGGAGACTGCCCAGCGCCCTGCGCCTCTCCGCCCCGG
CCTGCGGCGCGCTGGGTGGCGACGAGTCGGCCTCGGCGTTGATCAGCACCAGGTGTGTGCGAACAGTGGCCGCGGCGGGGWGGAGCCTTGGTGAGYCCCG
CCCCCCCGCGCGGCCCCGCCCCCGCGCGTCTCGCGCCGGCTCCTCCAGGGCTGGGAGAGCAGGCCCCGGGGAGGGCAGCCTCAGAACAACTTTGCTCCCG
CGCCGCTGCCCAGCTAGGGCAGGGTTCATGTCTGGGCCCAGCAGGCTTTAGCAACCAACCACACCTGCCCAGGGCGCCTGCCCACAGGGGCTTGGCATTC
GGGGGAATGGGGGCAGTGGGAAGGGAGGGCCTGTCTTCAAATCCTCGTGACCCCCGGGACTACTCCAGAGAGGGGGCACGCGCACCTAGGACCACCGTAG
CGCGTCATCAGTCCTTCACCTCCAGCGTCCCTGACTTTCCGCATCATGTTCCCAAGATGTGCTTGGGTAGTACAAAGTGGGGCGGGGTTGGGGTGGCGGA
GTCAGGGCCGGGAGGGGTGGGGATGGGAAGTACTGAAAGATGTTCAGTCTGTTTAAAAACACAAAAATCAAGCCTGGTGAGGTGGTACTCGCCTGTAAGT
CCTGAGGCTGAGTTGGGAGGATGGCTTGGACCCAGGAGTTCGAGACTGCAATGAGCTGTGATCACACCACTGTACTCCAGCCTGGGGGACAGAACAAGAC
CCTGTCTTTAAAAATAAAAACAAAACCCATAAATAGCAGTCGTCACATGCACTCAGATTTCCACAAATATAACAAAAAATCTGAACACAGCCAACATGGG
GACCTGGGAGTAATACAGCCTGTGACAGAGAGGCCTCTAGCGGTTATATCACGTAAAATCTCGGGAGTTGTGCTTTAAATGACATAAGGAATAAGAAAAT
GTCCAACCCAGTGGGGGCTTCMCCTTGGCGTTCTAGACTTCTGTGAGCAGCATCTGCATCTTGTTTGTTTCTGAATCAGTTTCTGTTGATTCATTTTTCT
CCTGATTGTGGATCGCATTTTCTTGCTTTTTAGCCTGTCCGGAAATTTTTGCCTGGATGCGCACATTGTAAATAGAACACTGTTAAGTGTCTGTATTTTT
TAGGAKKGAAAGAATAAATAATTGGTGGGAAAATATCAGTCTCTGCTATGTGTTTATTATCTCCAGAGTTGACATTTAGGAACCCATTGCTTGCAGATCC
AGATCAGAGTAGGAGGTAAAATTAAAAGGTAGCAATAGAAAAGAAAGAAAAAAGCTCAATGTTACTTGCCATTCCATCAAAGGGAGAAATTATAAAGTTT
TTGCAGGGGTATATTTGAGTGATTTTTGAGGCTAAAAGAAATGGCCTCTTAGCTCTAAAGGCTGTGTCTGGACTGTACCACTTCGGCCTGGAGATTCTTC
CTCATATGGCATACTCATCCCACACAACTGCAGTCATTGTAAGATGACCTTGAAGCAACATAATGCTTTTTATTTTTTATTTTTATTTTTTGCCATAGAC
CTTGGAGAGCTTGAGCAGGATTGTTATGAGGAGAAACTTTCACTAGTGATGAAAATGCTGACTGAGGGTATCATCAAACCCTCCAAGGACTAGTTGTTAT
ATAAGTTATTAATATTAAAAATAACATGATAATATATAATATTAACTAAGAATTGTACATGATTTCAAAGTTTGCCAAACACTTTCACATACATGATTTT
ATGTGCCTTCACAGAGACTTTGACCACCTCACTCCTGCCTTTGGGACCGTGAAAGAGAAGTCAGTATAGAGTGAGCCCTAGCTCACATGTTCCGTGGTAG
GGAAGTGGACAGGGGAGAGGACAGCATTTCTCAGGGGCATTCATTTCTAAATCCCTCCAGCACCATCAAAGATTTTCCTGCATCTGCAACTTTACAATAG
GTCTTTTTGGGAGAAGTGGAAATTATTTAATGTTGTGTTTACCGTGAGCAGTGGTTATTTCTGGGCTGTGAGTTGCAAGTACTGAAGGGGAAATACTGAC
TTTTATAATTTATAAGACTTTGTTGAATTTTTTTTTTGCAATGAGCTTGTTGTAAATGATTTTCTATTTTTTAAAAATAAGTGTTGACATCTGCTTCAGC
CAGGAGGGAGCAACAAGGACTGGACTTACTCTGTGACCTGAAATGAAAAATCTGTGAAAAAAATGTATGGAACAATGGTTTTCAGACATTGGGCAACAGG
CAATGCAGGGCCCAAGAGAAGGGAGACAAAGGAAGTGAACATGCTGCTTGCTCCAGCTTACTGCCTGGAGAGGGTTTCCAAGCYGCAATGCAGACAGGCG
AACCAAAAGAGACTCTGAGTTGGAAAATAGAGCTGAGAATTCAGGGAGGCCAGGGTGGCTAGAGTACCAGAGAGGAGAGAGTGCAACGGAAGGAGGGAGC
TCTGGAGATCTGTGCAGGGTTCCTCTGAGTCTTCAGCAGAAGTTYGACCAGGTACATGCATGTGAGGAAACTTCCCAAGACAGAGAGGCAACCACTAGAA
AAAAGCTGGCAGAAAAACTTCTGAGCTTGCATTGGCCAGGCAATAGTTCGTTCCCAACAGCCAGAGTGGAGAAACCTTGTGACAAGAGGCATGAGTTTGA
GTAGGAAGGGAAGGGATTACAGAGAAGCACATGAAAACTTTTGCAGGTGATAGGTGTGTTCATTACCTTGATTGTGGTGATGGTTTCACTGGTGAATACA
TTGATCAAAGTTCATCAAATTGTGTATTTTAAGTGGGTATAGTCAATTATATGTTAATAAGGCTATTTTTTAAAAACGAAGTTTCATTGCACTGTGCATT
GTGATTTATCTTCTTTTTCTAGTTCTCTTTTCAGTTTTTTTCAGAAATAAACTATCTTTGTTTTAAAAGCCTAAACATCAAAACCTTATCAATGGATAGA
AGAATTTTTATGTGAGGATGAAAATGTCAGGAAGATGTGTTTCTGTTTTATAAGATAGATCATTAAGAGTAAGAGTGGATCAAATTGAGATTGGACTTCG
TAGGTCAGTTTGTTGAATGTTGGAATGAGATAACCTGTGTCTTAGCTGGGCTGCTGTAACAGAATACCACAGACTGGGAGGCTTCTAAACAACAGAAATT
TATTCCTCACAATTCTAGTGGCTGAGAAGTTCAAGATCATGGTGCTGGCAGACGCTGATATCTGGTGAGGGCCCACTTCCTGGTTCATAGACAGCAGTCT
TCTCACTGAGTCCTCACCTTGTGGGAGGAGTTAGGGAGCTCTCTGGGATTTTTTTCTTTTCTTTTCTTTTCTTTTTTGAGACAAAGTCTCGCTCTGTTGC
CCAGGCTGGAGTTCAGAGGCACAATCTCTGCTTACTGCAACCTCTGCCTCCTGGGTTCAAAYGATTCTTCTGCCTCAGCCTCCTGAGTGGCTGGGATTAC
AGGCGCACACCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACTGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCATGACCTTATGATCT
GGCTGCCTCAGCCTCCCAAAGTGCTATGATTTCAGGCATGAGGCACCGTGCCTGGCCTGGGATCTTTTTTATAAGAACACTAATCCCATTCATGAGGGCT
CCACCTTCATGCCCTAATCATCTTCCAAATTCTCCACTGCAAACATCATCACATTAGGTTTCAACATAGGAATTTTGGGGGGTTACAAACATCCAATCTA
CAGCAACACCCTAGTGACATCGTTTTTTGTTGCCCTCCCCTCCCCWCTACTGCCCATCTAAGTACTTTTACAGGCATCGAATAAGTTAAGTCAGTGCATG
TGAAGTGCTTAGAAGGGCATCTGACACATTATAGAAGTTCAATAAATGCTAGTTGTTGTTGTTATTACAACAGAAATGAAGGACCTTTCCTAAGATTAGA
AGTCATGAAACCACTTGAAGCCTGAATCTCCTCTACAACATCCCAGCTGAGTGGCTGTTGCACTAAGATTCTTCCTTCTCCATACCCCTTTCATGGAATC
TGCTCTGCTCACGTCCCTGGAAGGGGCAGCCCCAACCCCCAGGTGGCCACACCCCCTGTTCACTAGGGATGGAATCAATAATGAATGCCTGGCCCAAGCA
CAGCCAATCAGATACTCTCTCCAAGGAATGTAAAAACAGAATTGAGAAACAAACTGACTCAGCAAATCAACTCAACAAACTGACTCAACAAATTGAGTCA
GGGAGGGAAGTGTAGCTGGGAAGCCAGGTGAGCTCCAGGGGACATGGAAGGGGATGATAGCAGAGAGAAGCTGTTCAGCAGAGGGGGACAAATGGAACCG
TGAAAAGAGGAAATAGAGAACAGTGCATACATAGCCTTGAGAGAGGGAGGGAGTGAAGACAGGAGTTGCCTGACACTTTCTGGTCTCAAATCTCTCCCCT
GAGCACCTACTTGGCCTTCTACCTGGAATTCCTCTCATGGAGTTCTTGCCTTGCAGCTCAGTGATCTAGGTTCATCCTAGTTAAATCTCTGTGGATTGCA
AACAACAGAAACTCATTTTAGATTGGTTTAAAGAAAAAATAGCTACCGTGTTTACACACATGCACTCACAGGCAGGGAGGAAATGCAGCCAGGCCTTGGG
AGGGCCTGGACCAGACATGGCAGAACCCTCAGCAGTCAAGCAGCTGGTCTCCCAGTTGCTGCTTCTCTCTTCTGGGACCAAGTAGTCTGAGATCTCCACT
TCTCTCTGCACATCTGATTCATGCTTCTCTCAGAGTCTGGAGTTTTCTGCCCTCCATGCACAGAGCCTGAGTCTATCTCACCTCACCTGCAGCAATGAAC
AGAAACTCAGAACAGTGACCATCAGTACCAAGAGAGAGACTCTGATGAGTCTAGCTTGGTCCTGTGTCCACCCTAAACTGAGGTTAGTGTGCAGAGACCA
TGAGGCACAAACAGGGCTACAAACATGGCCTTCCCTCTCCTCATTGAGGATGGAAAGAGAGGCCGTTCTTAGAGGAAGGACGTGGTAGTAACTGGGGAAA
ATCCTGAGAAGTTGTCTTCTGCGTTGACTCAGGCAATGCCCCATGTCTGCTTGAACATGTTCATTAATTTTCATTTTAAATTTAAGAAACGCTTATAAAA
AGTACTGTGCTACGACTACCAGGAACCGTTCTGAGTTCTGCACAGTCACTTATTTACTTAAAACAACAATTACGCAGCATGTGCTAGTATTACCCCCAAT
TCACAGGTAGGGAATGCAATATTTTGTTACTGAAACACCAGGGGTTCAGTTTAGGTCCTGTTGCTTGCAGCACAGAAAGCCAATCACTGGATCAAGTATT
TTTGGGGGAAGAAGGCTTTCTTTGGTGCTGCCAAATAAAGATAAGTGGAGATAAGTCTCAGATCTTCGACCAACTTAAATTGGGGTGTATATAGTGGGGA
AGGAGTGTAGCTACCCACAGGAAAACAGGAATTAAGGAGGGGTAAGGAAGAACAATTGGTCAACGGGAAGCAGATGGTTGGTTAGGAAAACAGGAATTAT
GGAGGAGTAAGGAGAGGAGTCTGGTGTCTCGTTATCTGGATGTGGTGATGTGAGTTTTACTTCCTCGATATTATCTGGAAGTCGGAGGGTTTCCTGAAAA
AGGAATTCAGATAAGACAAATGTAAGTTTTAAGCATTAAGAAAAGCAGGGTCCATTTCTAGCTTTAATAGGAAAAAAATGGCAAACATCAGTTCTCGGGG
GAAATTGAGCTAGTTTCACCTTCACACACCAAAGCTCCTTCCATCTTTGGGCAACTCTTACTATTCATTAGAATGTTTTCCTTATATTCAGTTACAATCT
GTTTTGTAGCTTCCAAGTATTTGTCCCAGTTCCTTCTCTTGGGACCACTCAGAGCAACCTACACCTACTCCCAAGTGATAGTCCTTTAAATAATTTTAAA
ATGCCATTGAAGCTCAGGCAACTCAGCTTGCTTAGTACAGCACAGTGTTGAGTGTGGCTTATGACAGCAGTGTCAAACACCTGCTGGCTGTGTGACTTTG
GGCAAGTCACCTACCCTCTTCAAGCACCAGATCACCCCGCCGTAATATAGGAATAATTGCCTCACCTTGCTTCCCACAAGTGTGGTGAGGATTAAGTGAA
ACACAGCACATAAAGCACTTAGCACAATGGCTAGTGCGCTAAAGGCTCCTAAGTGTTAGCTGGGATCATCCCCTCTCAGTTCATCGATTCATCACATCGT
GAGGCTTGCAGATCTCCATTCTGTCATCTAACCTGTTTTCTATCCCACCTGGCTTTGTTATTGTTGCGTTTTTCAGCATTACTGAGGTATAACTGACAAA
TAAAAATTGTAGGCTGGAGCAGTGGCTCACGCCGGTAATTCTAGCACTTTGGGAGGCTGAGGCGGGCAAATCACGAGGTCAGGAGTTCAAGACCAGCCTG
GCCAACATAGTGAAACCCGCATCTCTACTAAAAATACAAAAAAAAAAAAAAATAGCTGAGCATAATGGCTGGCACCTGTAATCCCAGCTACTCGGGAGGC
TGAGGCAGGAGAATCGCTTGAACCTGGGAGGCCCAGGTTGCAGTGAGCTGAGATGGTGCCACTGTACCCCAGCTGGGCAACAGAGTGAGACTCCACCTCA
AAAAAAAAATTGTATGTATTTGACAAATATGACATGACCATTTTACGTACATATATATTGTGTATGATTACCACAATCACATTAATGAACATATCCATCA
CCACACACAGTTACCATTGTGTGTGTTGTGTGTGTGGTGAGGGTACTTAAGGTCTACTCTTTTAGCAAATTTCAAGTAAACAATACAGTATTATTAACTA
TAGTCACCATGCTGTACATTAGATCCAACTTAACATCTTATAACTGAAAGTTTGACCAACTTTAAAGTTTGACCCTTTGAGCAACATCTCCCCCAGCCCC
TGACAATGACCGTTCTATTCTCTGCTTAAGTTTGACTTTTTAGATTCCAAATGAAGAAAAATCATATAATATTTTATGTTGATGTCTAGCTTACTTAAGT
AGCATAATGTCCTAATGTTCTCCAGATTCACCCATATTGTCACAAATGGCAGGATTTCCTCCTTTTTATGGCTGTATAATACTCCATTGCATATCTATCT
GTATCTACATCTATCTGTGTATCTATATCACATTTTCTTAATTGGCCTGTCAGTGAACACTTAGGTTGTTTCCATATCTTGGCTATTGTGAACAGTGCTG
CAATAAACATGGGGGTACAGATATCTCTTGGAGATACTGCTTTCAGTTCGTTTGGATACATACCTAGAAGTGGGATTGCTGGGTCATATGTTAGCTCTGT
TTCTAATAGAACTTTTTTTTGTACTGTTTTCCATAATGGCTATACCAATTTACATTCCCACTGACAGTGTGCAAGGGTTCTCTTTTCTCCACACACTCAC
CAACACTTGTTATTTCTTGTGTTTTTTTTTAAATGATAACACCACTTTAACAGATGCAAGGTGATATCTCATTGTGATTTTGATTTGCATTTCTCCGATT
ATTAATAATGTGGAGCACCGTTTTATGTATTTGTCACCCACTTGTAGGTTTTCTTTGAATAAAATGTCTATTCGTGTCCTTTGCCAGTTTTTGAAAAGCA
GGTTTTGTTTTTGTTTTTGCTATTGAGTTATATGAGTTCTTTCTGTGTTAAAGACGAACATTGGATATTAATTCTTTATCAGATACATGGTTTGCAAGTA
TTTTCTCCCATTTTGTGGGTTGTCTTTTCACTCTGTTGATTGTTTCCTTTATTGTGCGGAAGCTTTTTAGTTTGATACAGTCCCAGCTGTTTATTTTTGC
TTTTGTGTGCTTCTGGTGTCACATCAAGAAAATTATTACCAAGACCAATGTTAAGAAGCTTTTTCCCTATGTTTTCTTCTAGTAGTTTCAGTTTCAGGTC
TTACATTTAAATCTTAATACATTTTGGGTTAACTTTTGTATAGGTTGTAAGATAAAGGTCCAATTTCATTCTTTGGATGTGGTTACCACTTATTCTCAAT
ACCATTGACTGAAGAGACTATCCTTTCCCTATTGCATATTCTTGACACCCTTGTCAAAATTAGTTGACCATATATGTGTGGGGTTATTTCTGGGCTCTCT
GTTCTGTTCCACTATTGGTCTATATGTCTGCATTGATGCCAGTACCATACTGTTTTGATTACTATAGCTTTGTAGTATAATTTGAAATCAAGAAGTGTGA
TGTCTCCAGTTTTGTTCTTCTTTCTCAGATTGCTTTGGCTATTTGAGTTCATTTGTGGTTCCATTTTTTTTTTTTTTTTTGAGATGGAGTCGTGCTCTAT
CACCTAGGCTGGAGTTCATGGCATAATCTTAGATCACTGCAACCTCTGCCTCCTGGATTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTATCTGGGACT
ACAGGCGTGCACCACAACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTG
ACCAGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCTATTGTGCCCAGCCTTGTGGTTCCATTTGAATTTTACGATTGTATTTTCTATT
TCTGTGAAAAATGTCACTGGAATTTTGATAGGGATTGTAATGAACCTGTAAAACATTTTGTGTAGTATGGACATTGGAACAATATTAATTCTTCCAATCC
ATGAACACAGGATATCTTTCCTTTTATTTGTGTCTACTTTAATTTCTTTCATCAATGTCTATATTTTTCAGTGTACACACCTTTTACTTCCTTTGTTAAA
TTTATTCCTAAGTATTTTATGCTTTTTGATGCAATTATAAATGTGTCTTAATTTATTTTTTAGATAATAYATTGTTAGTGTATTGAAATCCAACTGATTT
TTGTATGTTGATTTTGTATCCTACAACTTTGTTGTATACATTAACTTATTTATTTTTGAGACAGGGTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTAC
AATCACGGCTCACTGCAGACTTGACTTCCTGGGCTCAAGTGATCCTCCCATTTTTAGCCTCCTGAGAATGAGGGTCTCACTATGTTGCCCAGGCAGGTCT
CAAACTCCTAGCCTGAAGCAATCCTCCTGCCTTAGCCCTCCAAAGTACTGGGATTACAGTTGTGAGCCACCATGTCTGGCCTACTGAATTTATTTATTAG
TTCTAATGGTTTGGGGGAGTAGTTTTTAGAGTTTTCTATATATAAGATCATGTCATATGCAAACAAAGACAATTTAACTTGTTCCTTTCTCATCTGAATA
TTTTATTTTCTTCTCTTGCCTAATTGCTCTGGCTAGGATTTCTAATACTTTCTGGAATAGAAGCACTGAGAGTGGGCATTCTTGTCTTTTTCCTGATTTT
TGGGGGAAAGCTTTCAGGTTTTCACCTTTGAGTATGACGTTAGCTGTGGGCTTGTTGTATACAGTCTTTATTATGTTGAGATACATTTCTTCTACATCTA
ATTTGTTGAGAGTTTTTTTATAAAAAGATGCTAAATTTTGTCAAATGCTTTTTCTGTGTCTGTTGAGATGATCATATAATTTTTATCCTTCATTATGTTA
ATATGGTGTGTCACATTTATTGCTTTGCATGTTGAACCATTCTTGCATCCCAGGGATAAATCCCACTTGATCGTGGTGTATGATCCTTTTAATGTGCTGT
TGAATTCAGTTTGCTGGTATTTTGTTGAGAATGTTTGCATCTGTGATCACTGGGGATATTGGCCTGTAATTTTCTTTTCTTATATTTTTCTTATCTGGCT
TTGGTGTGAGGGTAATGCTGCTCTTGTAAAAGGAGTTTGGAAGTGCTCCATCTCCTTCAATTTTTTGGAAGAGTTTGAGAAAAACAGATGTTATTTCTTC
TTTAAATGTCTTGTAGAATTTACTGATGAAGCCATCTGACCCTGGCCTTTTCTTCCTGAGGAGATTTTTGATTGTTGATTCAATCTCCTTTCTCACTAAT
TGTCTATTCTGGTTTTCTTTCTTCATGATGCAGTCTTGATAGGTTATGTTTCTAGCAATTTATCCATTTCTTCTAGGTTACCCAATTTGTGGGTGCACAA
TTGTTTATAGTAGTCTCTCATGATCTTTTGTCTTTCTGTGATATCAATTGTGATGTCTTTCATTTATAATTTTAATCATTTGAGTCTTCTCTGTTTTTCT
TCATTAGTCTACGTTTGTCAATTTTATCTTTCATAAAACCAACTCTTAGTTTCGTTTATCTCATCTATTGTTTTTCTAGTCTCAAATTCATCGATTATTT
CTGCTTTAATTTTTATTATTTCCTTCCTTCTGCTGACTATCAACTTAGTTTGCTTTTTTTTTTTCTAGTTCCTTGGGATTTAAAGTTACATTATTTGAGA
TCTTCCTTTTTTCTTTTGTTATTATTTATTTATTAGACTTAATGTTCTGCTGAATCTTTTTTAATCTAGGCATTTATTGCCGTAAATACCTGTCTTAGTC
TGTTTTGTGCTGGTATAACAAATACCTGAGATTGGGTCATTTATAAATACCATAAATTTATTTTCTCACAATTCTAGAAACTGAGAAGTTTAAGATCAAG
GCACTGGCATTTGGTGTCTAGTGATGGCCTTCTTGCTGCATCCCCACATGGTGGAAGGCAGAAGGACAAGCTAGCCAAATGGCACATGAAACCTCTTTTA
TAAGAGTAGTAATCCCATCGAGGTGGGAGGAGCCCTCGTGACMTAATCAACTCTTAAAGGCCCACCTCTTAACACTATCACAGTGGTAACACCTGAATTT
TGGAGAGAACACATCTAGACAATAGCAACATCCTTCTTAGAACTGCTTTTGCTGCATTACATAAGTGTTAGCATGTTGTGGTTCCATTTTGTTTGTCTCA
AGATACTTTTTGCTCACCTGGCTTTGTATCCTCTATAAACTGATGATCCTGCCTTCTATGTCTTCATCCAAGAAATCCATGTAAAATATGGACTATGAGA
AGGCCAAGGTGAGAGCCTTGAGACACTTCATTAAAGGCTTATGCCAACATTGATATCAATTCATTAATTTGAATCCTCTAACTATGATTATTAGGTTATT
TTATTTTAATTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCTAGGTGTACAATGGCATAATCTCATCTCACAGCAACCTCCGCCTCCYGGGTTCAAGC
AATTCTCCTGCTTTAGCCTCCCCAAAGTAGCTGGGATTACAGACATGCGCCACTATGCCAGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTCTCCATG
TTGGTCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCCGCCCGCCTCGGCCTCCCAGAGTGCTGGGATTACAGGCATGAGTCACCGTGCCCGGCGATT
ATTAGTTTATTAATCCACCCAGTTGCCCTTATCCAGCCCATGTATTTCCATCTTCTCCACAAACATATGCAAAATTGTTGAAAATCTTGGAGTTGAGGTT
ATTGTATTCTCATACTTGCCAATTTATAACAGCAATTTAAAAAATAAAAATATACCGGGGAATTTAGTAAGCAATTTAAGGTTCTGATGAGCATYGTTTT
TTTTGTCAGAATTTTCCAAATAGGCCCTCAAAAACTGTTGCTAGAATCTTGTACAGGATTGATATTGGACTGGTATCGTCTTTGCAAAATAAACTATACT
CCCCTCTTGACGTTTGTTATCTTTTGCCCATTTCTGTAGTCTAGACACCTTTGATAATGTCCATAATCTCTCAAAGGTCACAAACAATGGTCCAGTCCTC
TCATTTGCAAATTGGTATCTGGGACTGTCATTCATGTAGATCAGGAAACCTGGGCTCACCGAGAGCAGTTAGGACTCCCTGATGTTCGTTCCTCCCCTAA
CTAGTGTTTGTTCTCCCTGGTTAGTCTGAAAATCATTCCCTTTGCCAAAAAAGAAATACTCAATGCCCAAGCACCTAAGTTTCCATGGCACCTATAAAAT
ACTGGAAGCTGACAGTATTTCTGATTGAATAGGTGATAGGAAAGGGGTAGGGGCCAGACACTGGAGAGGACTGGAGAGAAAGAAAGAAAACTGTTTCTCT
TTTCAGATGACATGAATGACTGTGCACGTAGTAAAGCTTTGTCTGCTATATCCAACATCTGGATTAGTTCAGAGTTTGTTTTTATTGACTGCTTTTTTTT
CTTGAGCAACATTTTCTTGCTACTTTGCAGGTTGCACTGATGATTTTTGCTTTTTAAAGAAAACAAAACTAAAACAACCATTCCAAAGATTAATAGTTTA
AAACAACAACCGTTTTATGGGTTCTTATAGATTCTGTGGGTCAGGAAATTTGGAGAGGGCACAATAACTATTGTCTGTCTCTGTTCCATGGCTGGAAAGA
CCAGAAAGTGGTGACTCAGTTCTTGGTGGAATGACATGGAGATTCCTTTACTAGCATGTCTGATGCCTGGGTTAAGATGATTTGATGTCTAGGCCCACTG
ACTTTACTACCCACATGTGGCTTGGCTTTCTCACACCATTGGCCTGAGTGGTCTGACCTAAACATCTTCCAAAAGGCCTCACATCCCAACACTGTTGCAT
TGCGGATTAAGTTTCTGACACATGAATTTTGGGGGACACATTCAGACTATAGCACCCACCGAGAATCAAGGGGAAAAGGCAGAGATTCTACCTCTTGATG
GGAAGTGTGTCAAAGAATTGGCAGCCATTTTACAAAACCACCATACTGTCCAGAGATTTTTCATTATTATATCTTGACTATTATTGATGACACGTTGTAG
AAACTCTGGATTCTGTTGTTTTCCTCTGAACTGTGTTGATTTTTGTTCCAGTAGGCAATTCAATGACCTGTTAACCATCTTGAACTTTAGAAGGCTTGGT
TTTATGCTCTATTAGGTAGATCTGTGGAAAGTCCACGCAGTTCCTATGACCTTCTAAATGCAACTTCAAAACTCTGTCTCCCCTGCTCATCTTGACAGGG
ATTGATTTTAAGCTTTGTTGGGTAGATCTCACTCTGGGAYGTGACCCTTATTTCTAAGCTATGRCCTTAGGATGTTCATGGTGTTAATAAAGTATTAACA
ACATCTCTCCTCTCTGGCTGGGCTGGCCCCCAATGTCCTGCAACATGTCTCTGCCTCTACTATCTCTGTTTCAACCCCATAGCAGTGRTTCTCTGGCAAA
CTTCAGGAGGTCTCACTCTGAGCAAGCACTACTCGGCCAAGGACTYCCCCCACAGACTTCTGCCCCTCCTCTCCACTTGGCAATCCCCTCTTTGGTGACC
TGTCCTGCAAATTCCAGTCACTTTAGCTGCCCCAATCTCTGATCTCTGCCTTCTATGCTAGTGAGGCCCCTGTGCTGTGTTTGGACTTCAGCTCATAGCA
CCATGGGGAACTGTCCCCGGCAGACAGTTGTAGGGCTCACCATGGGAATGTCCCCTCTCTCAAGGATAGCAGTCTTGCACTGTCTGTTGTCCACTGCCTG
ACAATAGCTGCCTATTTTCTTTATTCCTGGGATGCAAGGTGGTTTAACATATGCAAAGTAATAAATATGATTCACCACATCAGCAGAATTGAAAGCAAAA
ACCATATGATCATCTCAGTAGATGCAGAAAAAGCTTTCAATAAAATCCAACATACCTTCATGGCAAAAACTCTCAACAAACTAGTCACTGAAGGAACATA
CCTCAAAATAATAAGAGCTGTCTGTGACAAACCCACAGCCAACATCATACTGAATGGGCAAAAGCTGGAAACATTCCCCTTAAGAACAGCAACAAGACAA
GGATGCCCACTCTCACCACTTCTATTCAACATAGTACTGGCAGTCCCAGCCACAGCAGTCAGGCAAGAGAAACAAAGAAAAGACATCCAAATAGGAAAAG
AAGTCAAGCTGTCACTCTTCACTGTCGACATGATAGTAACTAGAAAACCTTAAAGACTCTGCCACGAGGCTCCTAGAACTGGTAAATGATTTCAGTAAAG
TTTCAGGATACAAAATCAATGTATACAAATTAGTTATTCCATACACCAATAATGTCCAAGCTGAGAGCCAAATCAAGAATGCAGTCCCATTTACAACACA
CACACACAGACACACGCACACACACACCCCTAGAAGTATATCTAACCAAGGAGATGAAAGATCTCTACAGGGATAACTACAAAATCCTGCTGAAAGAAAT
CATAGATGACACAAGCAAATGGAAGAACGTTCCATGCTCACAGGTTGGAAGAATCAGTACCATTAAAATGGCCATACTGCCCGAAGCAATCTACAGATTC
AATGCTATTCCTATCAAACTTCCAATGTTATTTTTCACACAATTAGAAAAAACTATTCTAAAATTCATATGGAACTGAAAAACAGCCCCATTAGCCAAAG
CAATCCTAAGCCAAAAAAAAAAAAAAAAAAAAAAAAGGGAGAGGCATCACATCACCTGACTTCAATCACATCACCTGACTTCAAGCTATCCTATAAGGCT
ACAGTAACCAAAACAACATGGTACTAGTACATAGTGAGAACATGAAGTATTTGGTTTTCTGTTCCTGCATAATTCACTTAGGATAATGGCTGGAACAGAA
AACCCAGAAATAAAGCTGCACATCTGCAGCCATCTGATCTTTGACAAAACTGACACAAATAAGCAATGGGAAAAGGTATTCCCTATTCAATAAATGGTGC
TGGGATAGCTGGCTATTTATATGCAGAAAAATGAAACTGGACCCTTAACTTTCACTATATACAAAAATCAACTCAAGATGGATTGAATATTTATTTATTT
TTTATTTTTTGAGAAGGAGTCTCGCTCTTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATT
CTCCTGCCTCAGTCTCTCGAGTAGCTGGGATTACAGTTACCTGCCACCACACCCAACTAATTTTTGTATTTTTAGTAGAGACTGGGTTTCACCATGTTGC
CCAGGCTGGTCTCGAACACCTGACCTCAGGGGATCCACCTGCCTCAGCCTCCTAAAGTACTGGGATTGCAGTTGAGGGTCACCACACCCAGCCAGATTGA
AGATTTAAATATATGACCTCAAACTATAAGAATCCTAAAAGAAATTTTCAGAAATACCATTCTGGACATTGGCCTTGGGAAACAATTTATAACAAGTCCT
CAAAAGCAATTGCGACAAAACCAAAAGTTGAAAAGTGAGACCTAATTAAACTAAAGAGCTTCTGCAGGGGAAAAAAAAAAAAAAAAAAAAAAACTATCAA
CAGAGTAAACAGGCAGCCTACAGAATGGGAGAAAATATTTGCAAACTATGCAGCCAACAAAGGTCTAATATCCAGAATCTGTAAGAAACTTAAACAATTC
AACAAGCAAAAACCAAATAACCCCATGAAAAAGTGGGCAAAGAACAGGAACAGACACTTCTCAAAAGAAGACATACTAAGTGTCCAACAAACATGAAAAA
ATTCTCAGCATCACTAATCATCAGAGAAATGCAAAACAAAACTACAGTGAGATACCATCTCACACCAGCCTGAATGGTGATTATTAAAAAGTCAAAAATT
AGGTGGATTGCTGGGCGGACCCGTCACGGAGAAGAGAGGAGAGTCGCGGGCCACTGAATAAGCTTCCAAAATGATGCCCACACTAGTTATCCTGTTGAAA
GAGGGGACTGATAGCTCCCAAGRCATCCCCCAGCTTGTGAATAACCTCAGTRCCTGCCAGGTGATTGCCAAGGCTGTAAGAGCCACCCTGGGTGCCTGTG
GCATGGACAAGCTTATTGTGGATGGCGGAGGCAAAGCAACAATATCTAACGATGTGGCCACAATTCTGAAACTTCTTCATGTTGTCCATCTTGCAGCAAA
GACGTTAGTAGACATTGCCAAATCCCAAGACACTGAGGTCGGTGATGGCACCATCTCAGTGACCTTGCTGGCTGCAGAGTTTCTGAAGCAGGTGAAACTG
CAGGTGAAGGATGGTTTACACCCTCAGCTCAACATTCGAGCTGTCTGCACAGCCACCCAGTTGGTAGTTAACACGATCAAAGAGATTGCTGTGACTGTGA
AGAAGGCAGATAAAGTGGAGTAGAGGAAGCTGCTGGAGTAGTGTGCCAGGACCACTCTGAGCTCCAACTGATCTCACAGCAGAAAGCTTTCTTTGCTAAG
ATGGTGGTGGATGCAGTGATGACGTGTGATGATTTGCTGCAGCTTAAAATGATTGGAATCAAGAAGGTACAGGATGGAGCCCAGCTGGTGTTGCATTTAA
GAAGACTTTCTCTTATGCTGGGTTTAAAATGCAACCCTCCCAAAAATACCAAAATCCCTAGATTGCCCTTTTGAATGTTGAGCTYGAGTTGAAAGCTGAG
AAAGATAATGCTTAGATAAAAGTCCACACGGTTGAGGATTATCAGGCGATTGTTGATGCCGAGTGGAACATTCTCTATGACAAGTTAGAGAGGATCTATC
ATTTTGGAGCCAAAGTTGTCTTGTCTGAACTCCCCACTGGAGATGTGGCCGCCCAGTACTTTGCTGACAGGAACATGTTCTGTGCTGGCCAAGTACCTGA
GGAGAMTCTGAAGAGGACAATGATGGCCTGTGGAGGCTCAATCCAGACCAGTACGAATGCTTTCTTAGCAGATGTGCTGGGTCGACGCCAGGTGTTTGAA
GAGACCCTGATTAAAGGTGAGAGGTACAACTTTTTTACTGGCTGCCTCAAAGCCAAGACAGGCACCTTCATCCTCCATGGTGGTAGTGAGCAGTTTATTG
AGGAGACAGAGCGGTCCCTGTGTGATGCCATCATGATCATCAGGAGGGCCATCGGGAATGAGTCAGTGGTGGCTGGTGGCAGGGCCATTGAGAGGGAGTT
CTCCAAGTACCTCCAGGATTCCTCAAAGACTATTCCAGGAAAACAACAGCTGTTGATTGGGGCATATGCCAAGGCCTTGGAGATTGTCTCATTCCAGCTG
TACAATAATGCTGGCTTTGGGGCCACAGAGATTCTCAACAAGCTGCAGGCATGGCATTCCCAGGGGCACGTGATATGAGGTGGACATCAACAACGAGGAC
ATTGCTGACAACTTTGAGGCCTTCGTGTGGGAGCCAGCTTTGGTATGGATCAATGCCCTGGCAGTGGCCTCTTAGGCTGTGTGCCTGATTGTGTCTGTGG
ATGAAACCATCAAGAAYCYGATTGACTGTGGATGCTCCCCCAGCAGCTAGCTGGGGCCGTGGTCGTGGCCGCCCCCATTGAGAGGCACCCCGCCTATCAC
ATGACTGGCTGGCAGGCTGGCTGCAGGGTGTGCTTACTCTCCTTGGTTTGGTTAATAGACTTTACAAGGAAGGGGTAGTCACTGGCCCACTCTGTTCTCA
CTGGAGGCTATTTAAATAAAACTTGAGACTTTGGGGGGAAAAAGTAAAAAAATAGCATATGGGTGATGAGGCTATAGAGAAAAGGGAACACTTTACACTG
CTGGTGAAAATGTGAAATAGTTTAGCCACTGCAGAAAGCAGTTCAGAGGTTTCTCAAAGAACTTAAAACAGAACTGCCATTTGACCAGCAATTTCACTAC
TGGGCATATACCCAAAGGAAAAGAAATCATTCTAGCGAAAAGACACACATGCTCACATGTTCATTGCAGCACTATTCACAACAGCAGACGTAGAATCAAC
CTAGGTGCCCATCAATTGTGGATTGGATAAGGGAAATGTGGCACATATACACCATGGAATACCATGCAGCCATAAAAAAGAACAAAATTGTGTCCTTTGG
ATCAACATGGATGCAACTGGAGGCCATTATCCTAAGTGAATTAATATAGGAACAGAAAACCAAAYACTGCATGTTCTCATTCTTAAGTGGGAGCTAAGCT
TTGGGTACACATGGACATAAAGATGGGAAGAGTAGACACTGGGGACTATGAGGAGGGGAGAGATGGAGGGGCGAGGACTAAAAACTGCCATTGAGTACTG
TGCTGCTGCTCACTACATGAGATCATTCATATCTCAAACCTCAGTGTCACACAATATATCCATGTAACAAAACTGCACATGTACTCCCTGAATCTAAAAT
GTTAAAATTATAAAAAAGAGAAAACCAAAATTACATTAACATGTTTCTCTTACAATCCTGTTTTAAATATAACTAGAATTTTCTGTTACTGCATAGCTTT
TTTCCTAGTTTGAAAATATAAAATAATAATGATAATAAAGAGGCCAGGCACAGAGGCTTATGCCTGTAATCCTAGCGATTTGGGAGGCTGAGGCAGGGGA
TCACCTGAGCCCAGGTGTTTGAGACCAGCCTAGGCAACATAGTGAAACGCCCATATCTATAAAAAAAATCTGAAAATTAGCTGGGTGGGATGGCTCATGC
CTGTGGTCCCAGCAGTATGGGAGGCTGAAGCAGGAGGATCGTTTCAGCTTAGGAGTTCAAGGCTGTAGTGGGCTGCGTTCACACCTCTGTACTCCAGCCT
GGACAACAGAGCAAGACCCTGACTCAAAAAAAAAAAGACCCACAAAAAAAGCCCCCACCAAATCTATTGCAACATCAGTCAAAATTTTAGTTCTACTTAT
TAAATACAATTTTATTCTTATAGCAAGTATTTTAAAATTGTTATCTGTTTTTTTAAATATGTAAAATATCTTCTTGTCGAAGCGACAGGTGCTTTGAATT
GTTACCTTTATGTTTGTTGAAACTATGAAGAAGAGATTAGGAAGACTTTAGGTTTAAAATGGAAGACAGATTACATATATTATATTCTTGTAAAACTATG
AAAATAAAAATAAAGGAGTAAAAGTCAAAAAAATAGCTACCTATTTAATTCAGTTTCATGATCATAATAGAAGGGATAGTCTGAAAACAGAGTTGCAAAT
AAGTTTATAATTTGTAAAGATCTGATAAAAATTATCAGATGATAAGAATTTACAACCATATCATCACTGAGAATGGAGGAGAAAAAGAAAGATTTCCATA
TTACATTTATTTAGAAACATGTTTGGTGTGTCTATTTTAAAGTAAAATTAAAAAAAGTACACACACAATTTTTTTTTTTTTTTTGCATTCAGTGTTAAAG
TGTTTATCAGAAAGAACTACTTGTGTCTGGGCTCAGTGGCTCATGCTATAATCCCAGCACTTTGAGAGGCTGAGGGGGGCAGATCACCTGAGGTCCGTAG
TTCGAGACCAGCCTGGCCAACAGGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCTCATGCCTGTAATCCCAGCTACTCAG
GAGGCTGAGGCAGGGGAATCGCTTGAGCCTGGGAGATCGAGGTTGCAGTGAGCCGGGATCGCACCACTACACTCCAGCCTGGGAGATAGAGTGAGACTCT
GTCTCAAAMAAACAAACAAACAAACAAAGAATTACTTGCACTGTGCTCACATAATTTATACAGTCAGTTCTGCTATATCAGGTTGTTTGAAAACCGTACT
TTATTCCAATGCAAATGATGTATTAGGGAAGAATTTCAGTGTAATGTGAATTGCACGTTTGCTTATGAGTAACTTAGTCTGTGAGAAATGGTGAATGCAG
AAAACTGCCTCACAAATGATTATACTRCCTCTCAAATAATTTCCAACAACTCTTCTTCCTCCACTGCGTAGTAATCCACAAGCTGCTACTCTTCTAACTC
CCGGGGATCCATGCCCTCCCCTCTGTTTAATTCCCCCAATTTCCTCTTATTTTCCATTTTTCCTCTCTGTTCTTTGCTTATCTCTCTTTTCTCCCTCACT
TTTCTTCTCTCCCTCTCACACATAGAGGAGGGGGTGTTAGAACCAGGTGGGCTGGTGGTAGGATCATAGGTCCACAATCTCACGAGCAAAGGCTCACTGC
AGCTTCAGATTCCTGGGCTCAAGTGATCCTCCTGCCTAGGCCTCCCAAAGTGTTGGGATTATAGATGTGAGCTGCTGTGSCCAGCCCTATCTTTTAAAAA
ATATGTACTGAAAAAAAAWTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCAAGACTGGAATGCAGAGGCGCGATCTCCGCTCATTGCAGGCTCCGC
CTCCACTTGACTCAGGGAACACACAGCAGTGGGAGCCAAGGCTGTCAGCGATCGAGGACCACAGGTGAACAACTCTGCGCCGCCGTGGTATCACCTCTAG
GTGGATCTTCTGCCTTTAGGAAGGAGACAAAAGAGTGCAGAACCCTGGGTCAGATCAGCTCAGGATTGACCCCTCCGTGATCTCTCAGGACTCAGATCCC
ACCTCTCTCTCAGGGAGAGATCAGCCGCTATTGTTCACATTCTGCCTCTCTGTCATCTAGTTTATGATTGTTCACTTTCCGTTACTTCATCATTAGTTAG
ACCCAGACCCCAGCAGAGATTTTAGGGGTTCAGAGCCAAGGAAGGCAAAGTATCAGTGGGAACACAGTGGGAAGGCCCACAGCGGGGGCAAGAGTCTTCC
AGCTGTGGGCAAGGGTATCCCTGCGGCAGGTCCAGAGCACTGAGGGTGGGGCTTGGCACGACGCCATTTGCCAGGATTCCTGTGTCAGGGGTGAACCAGA
AACCCAGGTGTCAAAGGAATCCCACCTTCTAGTCCTTGCTGTCCTCACAGAGTGTCTAGGGTTCACTTTCAGCCTTCCCTTCTGCTCACAATCCCCTCTC
CCACGGTCTGTGTGGCCCTGCCTCCAGCCTGCTTTGTTGGAGCCCAGGCAGCCTTCTTCATTATGTCCTCCTAGGAATTAAACCTAGAGACCCCTCAACC
TTTGGCATGTGATATACTTTCCCATGGTCAGATGGTCAGATCATCAAGCTGCTGCCCCACCCAAAATTGTGTCTTGCCCACCCTCTGTGTTTCTGTCCAT
CAGACCACCCATCACATAGGCAACCCCTGGAGAGTGACCCTGGTTTAAAGCCYGACTTTGCCAAACCGCTGTGGATGCATTAATTTGGAAAGGTCCCTGT
TCACCTCAGGGCCCACTTGCAAAGCAGAGACAGTCCCCGAGACTCATTCAGCCTTTGCCTTTCTCCTGTTGGCCAGGGACAGAGAGGGCTCAACTTGACC
CAGAGCTAAGCCTCTCAGGTCGTGAATGCCCAGGCGATAAATGAAATTCACCTCATCTTATGTCTATGGTGAGATTTGGCAGGGGTCTTGGGGAGACTTA
GCAACCTCATTTCTCCCTGTCCTCATACAGGACAAGCCCTGCCCCTAATCCAGAGGCCAGTTGGCCCCATCTCATACTCTGTTTTGCTCACAGTATACCT
GATGCCCTCCCTCCTGACCTGTGATTGGGATTGAGCTGAAGATAGTCACTGACATGATTCAAAGGATTAGCACTTGGTACAGGTAGGATGGTGGAGATGT
GGTTGGGGACATGGATGGTTGAGGTGAAATGGAACAGAAGAGTGCAGGTTCTTGTCCAAGCTCCATACCCAGGAGATGACCCTTACCTCCGCTGCCACTC
AAGTCCTCACATGTCCTGAGCGTCTACTATATAGCAGCCATGATAGATTCTCAGGTTACAAAAGTAATGTCCTCAAGTAAGCGCATCAATTTACTGACAT
ACACCCAATCATAAAACAATGTGATAATTTTTCTGTGGTCAGAGTTTCTGAGCTACGAGTGGGGGTAGTTAATTCTATCCAGGAAGAATGGTGACTTCTT
AGAGGAGGTGACAGTTAAACTGGACTTGGATAGCTGTCTGGAATTCGGTCAGGTAAGAAAGAAAATTCCAGGCAGAGATGAGCATGAGCAAAAAATTTGG
CAGCAATGATGCACGGTGATTCAGAGATCAAAAAGTTCAGTGTGGATGCCTCTAGACATTTTCTTATCTGTGTCTGATAGATTTTGATATTTTGTATTAT
CATTTTCATTCATTTCAAAATACTTTCTAGTTTTCCTTGTACTTTTTAATTTGATATATAGTTATTTGGAAGCATATTATTTGATATCCAAACATTTGAG
GATTTTTCCAGATAGCTTCCTGCTGTTGATTTCTAGTTTATTTCCATTGTGCTTGGACAAGATGCTTCGCATGATTTTAACCCTTTACATATGTTGAGAT
TTATTTATTTATTTATTTATTGAGATGGAATCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCGCAATATCAGCTCACTGCAAACTCCGCCTCCTGAGT
TCAAGCGATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGGCCCATGCCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTC
GCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAATGATCCACCCAACTTGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCTATCACGCCCA
GATGAGATTTATTTTATGATCCAAAAATGGCCCTTCTTGGTGAATGTCCCTGTGTATTTGAAAAGACACTCCCTGTCAACCCCTTTGCTCTGTCATTTAG
CTTTGATCAGCTTTTTCTCTCTTCTGTCACTTCAKCAGAAACAATGCCCAGAAATGCCAGAGACAACAAAATAGGAATGTGTCATGGGCACACAAARCTC
TTTTTCCCTGGGTGCTGCTCTTCCCCGTGACAGAGAAATCCATGCGACACAGTGGGGAGGCCCTCCCCAAAGGGTGGCAGATAYATTTTTTTCCCCTTGA
ATTGTAAYACACCTTTCCCCAGGCCCACTCTGCCTCCCACTTCTGTTCAGCTCAGCTGTGGGCACTGACCTCCACCGGCGCTTGATCCCTGCCTGCTCCT
GCCCAGACAGGAAGCCCTTCAGCAGCCGACTCGGTTRCCAGGATGARGCTAGAGGCCAGGAACTCCCAGGTGTCTATGGAGGTCCCACCTCCTTTAAATC
CCTACTGTTCAGACCCAGCTTCTAAAACTGTTCTTTTGCCTCCCTTCCTACTCACCAATCCCCTTCACTATTGTCAATGGCACTGAAGTCCCAGCCTGCT
TGGTTGGGGCAGTTAAGTCCTTCTCAGTCACCTTCCACCAGGGATTAAGGTGGGACCCCTTTGCCTGCAGCTCTGTGGGTGGGACCCCTTCCTATCTCAG
CATATTCACTCCCTGGGTTCCTGCTGCCATCACACCACCCACCACACGAGCCCCTTCTGGACCAGTGGCCCTTATCTGACTCAAGCCATATCTTGCCAAG
CCTGTTGTGACACCGATCTTGGCRAACTCACTTTTCATGTCAGGGCCCCTGCAAAACAGACACATATCTGAGTCATGGTATTCGTTTAAGCAATGAAAAG
GGTAGAATCATTTCTTACATCAGAAACATTGATCCTCAGTGAGTCAGATGGAGTAGCCTATTTTTCTCATTAGAGGGAATCCTAACTTTGAACTCCACAG
AGAGAGCCCCAGGAACTGTGACTTGAACCCTAGAGCTCTACTTAACTTTTCCAAATTGCTGTACTTGAAAATGTTGAGGTCTGCCTGGGTCAATTTAGAG
AAGACACTATGAGGACAAAGACAGCAATGGAAGAAAGAAATGAATTCTTCATGTCAGAGCAGTGGCGGAGAAACAGGACCAAAGAGCAGAAGATGTCTGG
CAATGTGTCTGGCATATAATAGTTCTCTCAGCCAGGTGTGTTGGCTCCCCCTGTAATCCCAGCGCTTTGGGAGGCCGAGGCGGGAGCATCACCTGAGGTC
GGGAGTTCAAGACGAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATGTAGGATGTAGTTCGGCACTGTAATGTTTAGAGGGTGGTGAAAGGA
TTTCTTATACCACATCTTGTATGTTATCTGGGAGTAAATGCTGCAGCCACAAGCGCCACCAGCAAGTCTTCTCAGGGTGAACGGGAAAAGGGGATGGGAC
CTGCTGAGCTAAATCACGGTAAACGCAGACAGCAAACAAACTTTCCGTCAAAGAGCTGGATGAAACCTGGGCCGGATGGCAAGGAGACAACACCCCAGGC
AGGCRTTCCAGATCTTTGACCTTGCCCCTCCTCGAGAGGAGATGATTGCTTCATCCCTCCTCTCACTGCACATTGTGCTGCCAGCCCTGCTGTGTAGTGT
GGGGGCTCAAGACTAAGGCAGTGCACCATTTCTGTGGAGAGAGATGGATCAGGGAGCGGGGGCTTGGATGAGACCCATGATTCACCTCTCTTGAGTCCTT
ACCAGACTAAGACGTCCTCAAGGGCCAGAGACCAGCCTGCCACTCACCATTTTGCCACCAGACACAGATGAGAACAATTCCCATTAAAASTAACAGGATG
AATGCCCCCAGGATGATCCATCTATCTGGTAGACTAGAAGAAGACCAGTGGATATCTGAAGCATTTACTGGTGACACTAAAAAAAAAAAAAAAAAAAGAA
RAAAAAGCACAAGCCCTGTCACATAAAAAAAAAAAGCATAAAAATATGCTTTCCTTAGCCCCTGCTTTCCCCAGGAACACATGGTGCCCCACATAATCAC
TGGCTCATGTGACAGCCACTCTACCAGGCCCTGGGCCATGAAGATGAATAGGGGTTGTGCCTTGTCCTTATGGAGCTCAGATTTCTACTGAGAGAGGTAG
CAAATATCCATCTGATTACCACACAGTTTCACGATTACTGTGGTTAGAACTGTTTGGAGGATGACACAATGGGTGGTGCTTAATTCTGTGTGGGGAAGGT
GGGGAAGGCTTCCTAAGAAGTGGCATTAGAGCTGGTGGAAGGGTAATTATAATAGAGGAAGAGAAGGCCTGGATGTTTGCAATGACACAGATAGACTTGG
GACCATTTAGCAGTGGGTCATTGTGACTGGATCATTGGTTAATGGGAAGGGGTTTCTACACTGAGGAAGAAACAGTGGGAGGTGGGATGGGAAAGGGAGG
ATGGTGGGAAATCCTTATRGCCATCACTGACTCTCCAGACAGGAAGCCCACGGAGAAGTCAATCAAATTTTCTATCGCACACACACACTGACACCCACAC
AGGGAAGGCTTTTGACCTTTAAAGGGAGCTGCCACATTCTCCCACCCAGCTCAGTTACCTGTCGGTTCTGGCATTGCCTCCCAGTGCCCTAAGAATTCCC
TGAGCCAGTGATCGCAGTCTCCCTTTGAGAGCTTCCTGAAATACTTTTCCAGCCCTCTGTCTTTCTTCCATGTCTCCTTGATCTTACTGGCTTCATGATT
AATTACTGTCCAGGTCATGTTCATTGCGTCAAAGAGGAGGGATTTCTCTCCATTGRTGGYGAACTGCCAGGATGCACCAGTGCACCGTTCTGCTTCAYGT
TGACAAAACATCTCGACTTGCAGAGTGGAAGGATCTGCAATCCAAACACAAAGCCATCATCCTCCACTCTTTGAGARGTCCATCATCCTCCAATAGGTCA
AGTGTTTCTCTGCACATTTAGGGGTCTGTATTCTTTCTGCCCAGACTTGCCCTTTCCTGCCCATTGGGTCCCATGTGCCTCTATGGTTGGGCCAATGATC
AATACACAGATATACCTAAAGCCCCTCCCCATCTGTGTTCTTCCCTCCCCTCTCTTACTGCCTGCCTCYGTTTSCCCACCCCATTCCACACTTACCACTG
GTCTTTATCTGGGGTTTGATGTCACAAAGGAGCATCCTGAGGTCTYGCCCCACTTCTCCCAGCGTTTGGGTCAAYTCTCCCCAAGTGCTGGTGGCATWTA
CCTTCTTCCCCAGGAGGCCCAGAGGTTTGACCATGTTGTTGTCACTGTTGTACTGAAGGAAAAGATTTTTATTCAAGAAGACCTGCGCTTCACACCAGGG
CTGTCCAGGTCTGGACAATGATTTTATAGTGAAGTTGAAGCAAAGAGAGTGACCACCTGTGAGACAAAGATGCAGGTGAGGTCCAGGACAGGGGAAGAGG
CCCATTAGAACCTGCGCTTCTGTGACCCAAGACTCCCTGGACTGGGCCAGGCTAGCAGAGGCGGGGCAGCTCCATCCCAGACTCCCTCAACCTTCTGGAT
CCCTGTTCCCATCTCTCCCTGACTGTCTGGGATGAGATACTTGATGGTACCAGGGACCCCTGGGGTGCACTTAGTGTTAATGGTGTTAACAGGAGGATTC
ATGTCACAAGTACTTTTAGCAACATCTACCAAGTTCTGAGGCACAAAACAGACAAGCCAGTGTATGACCTCCTGAGACTTAAACTCTAGCTGAACACACA
TGACATTCAATAGAAAGGAAAAAGAGGCATTTATCACAGGACACACGCTGAATTCCTGYGGGGTCCCAGATGTTCAGGAAAGTGACCTGGAGTAGAAGGY
GGGGGGTAGCATTGTAGAACTGCCCTCTGTGAGCCAGTGCCTTGCCTAGGGCCTCAGGCTGTGGTCTCCCATGAACTGGGTGTAACATCCCAGGGATCCT
CTYCCTCACGTCATCCTTAAGAGCAGGCACCCACTTGTCTGAAGCCTGCATGAAGCCCCATTCGCCTACCCCCTACCTTTCTCYCTCCTCCTTGTCCTCA
GCCAGTTCTTGTGCTCAGGACACTCACCAACCATGATCTCCAAGGCTATTAGTAGCAACAGCAGAAACAAAAGAAGGYGCACAGGGCTAGAAGTCAGGGA
TATTCTTCRCATACTGTGGAGAGTAACAGGCAGGAAGCTGGGCGTGTACACATTCACCCTCACTGGTATGGTGAAGAAATGTTATCCAACAGCRTGGGTG
TGGGCACTGCCCAAATTCTTTACCYTGGAACAACTGAGGTCAGGCCTGTAGAGACCCAATTAAAGAACAATTTTGTGAMGAGAGTGTTTTCCAAGTATTC
AGAATATAATCATTTATTGAAAAATAAAAGAAGACATTTAAAAACAAAATTAACTTTGAATAAACTCTCTCTCCTCTCCTGTCCCTGCTGCCCCTGCAAA
AAAAMCCCCCTCTGGTGTGAGCAGGATGGTTGGAGGTTATGTGAGCTCCTTCTCCTTTCCTCCAGTTTCCTCTTCCCTTCTCCTCCCTGCCTCTTTTGCT
TTTCCCTTTCTTCCTGGTACCCCCTGCCCATTCCTGTATTTTCTCCCATCGCCATTCTCCCCTCTCCCACTGTCCCTAACCCGTTCAAACTCTTTCCTCT
TAAATGGTTGAGATTTTCTCTCACCAAGCACACCCCAGTATTAATTAAACTAGCTGCAAACAGGCAGCAASTGGTCTACCATGACAGATGGGTTTTGTGT
GTGTGTGTGTGTGTGTAATTGTAATAAAACATATTGAGTCACTCAATAAACACAGAGTGTCTACTACATGTATCAGGCACTATCATAGATGCTAATTAAC
GAAACTGAAATGGCCAGGCCCTCACAGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGATGAGGCAGGAGGATCACTTGAGGCCGGGAGTTCAAGAC
CAGCCTGGGCAACATAGTAAGACTCCATCTCTACAAAAAAAAAWTTTTTTTTATTATACTTTAAGTTTTGGGTTACATGTGCAGAACGTGTAGTTTTGTT
ACATAGGTATATACGTGCCCTGGTAGTTTGCTGCACCCATCAACCCATCACCTACATTAGGTATTTCTCCTAATGTTACCCCTCTCCTAGCCCCCCACCC
CGTGACAGGCCCTGGTGTGTGATGTTCCCCTCCCTGTGTCCATGTGTTCTCATTGGTCAACTCTCACCTATGAGTGAGAACATGTGGTATTTGGTTTTCT
GATCTTGTGATAGCTTGCTGAGAATGTTGGTTTCCAGCTTTATCCACGTCCCTGCAAAGGGCATAAACTCATCCCTTTTTATGGCTGCATAGTGTTCCAT
GGTGTATACGTGCCACATTTTCTTAATCTATCATTGATGGACAAGTTTTGCTATTGTGAATAGTGCCACAATAAACATACGTGTGCRTGTGTCTTTATAG
CAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATCACTGAGTCAAATGGTATTTCTCGTTCTAGATCCGTAAGGAATTGCCACACTGTCT
TCCACAATGTTTGAACTAATCTACACTCCCACCAACAGTGTAAAAGYGTTTCTATTTTTCCACAACCTCTCCARCAWCTGTTATTTCCTGACTTTTTAAT
GAACGTCATTCTAACTGGCGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTAACGACCAGTGATGATGAGCATTTTTTCATATGTCTGTTG
GCTGCATAAATATCTTCTTTGGAGAAGGGTCTGTTCATATACTTTGCCCATTTTTTGATGGGGTTGTTTTTTTTCTAGTAAATTTGTTTAAGTTCTTTGT
AGATTCTGGATATTAGCCCCTTGTCAGATGGATAGATTGCAAAAATCTTCTCCCATTCTGTAGGTGGCCTGTTCACTCTGATGATAGTTTCTTTTGCTGT
GCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGCCAATTTTGGCTTTTGTTGCCAGTGCTTTTGGTGTTTTAGAAAGGAAGTCTTTGCCCATGCCTATA
TCCCGAATGGTATTGCCCGGGTTTTCTTCTAGGATTTTTATGGTCCTATGTCTTATGTTTAAGTCTTTGATCCATCTTGAGTTGATTTTTGTATAAGGTG
TAAGGAAGGGGTCCAGTTTCAGTTTTCTGCATATGGCTAGCCAGTTTTCCCAACACCATTTATTAAACAGGGGATCTTTTCCCCATTGCTTGTGTGTGTC
AGGTTTGTCAAAGATCAGATGGTTGTAGCTGTGTGGTGTTATTTCTGAGGCCTCCATTCTGTTCCATTGGTCTATATATTTGGTACCAGCACCATGCTAT
TTTGGTTACTGTAGACTTGTAGTATAGCTTGAAGTCAGGTAGCACGGTGCCTCCAGCTTTGCTCTTCTTGCCCAGGATTGTCTTGGATATGCAGCCTCCT
TTTTGGTTCCATATGAAGTTTAAAGTAGTTTTTTCCAGTTCTGTGAAGAAAGTCAGTGGTAGCTTAATGGGGATAGCATTGAATCTATAAATTACTTTGG
GCAGTATGGCCATTTTCACGATATTAGTGCTTCCTATCCATGAGCATGGAATGTTTTTCCATTTGTTTATGTCCTCTCTTATTTCCTTGAGCAGTGGTTT
GTAGATCTCCTTGAAGAGGTCCTTTACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGCAATTKTGAATGGKACTTCACTCATGATT
TGGCTGTCTGTTTGTCTGTTATTGTTGCATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTGTCAGCTTAA
GGAGATTTTGGGCTGAGATGATGGAGTTTTCTAAATATACAATCATGTCATCTGCAAAYAGAGACAATTTGACTTCCTCTYCTCTTGTTTGAATGTACTT
TATTGCTTTCTCTTGCCTGATTGCCCTGGCCAGAAGTTCCAATACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCTTGTCTTGTGCTGATTTTCAAA
GGGAACGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCTCTCATTATTTTCGGATATGTTCCATCAATACCTAGTT
TATTGAGAGTTTTTAGCATGAAGTGGTGTTGAATTTTATCAAAGTTCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCATCGGTTCTGTTTAT
GTGATGGATTACGTTTATTGACTTGTGTATGTTGAACCAGCCTTGCATCCCAGGTATGAAGCCAACTTGATCGTGGTGGATAAGCTTTTTGATGTAATGC
TGGGTTCGGTTTGCCAGGATTTTTGCATCAATGTTCATTAGGGATATTGGCCTGAAATTTTATTTTTTTRTTGTGTCTCTGCCAGGTTTTGGTATCAGGA
TGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGTTTGGAATAGTTTCAGAACTCCTCTTCTTGAGGAGTATCTTTGTGATGT
TCTCTGTATTTCCTGAATTTGAATGTTGGCCTGCCTTGCTAGGTTGGGGAAGTTTTCCTGGATAATAACCTGAAGAGTGTTTTCCAACTTGGTTCTATTC
TCACTGTCACTTTCAGGTACACCAATCAAATGTAGATTTGGTCTTTTCACATAGTACCACATTTCTTGGAGGCTTTGTTCATTCCTTTTTATTCTTTTTT
CTCTAATCTTGTCTTCTCTCTTTATTTCATTAAGTTGATCTTCAATCACTGATATCCTTTCTTCCGCTTGATTGATTTGGCTATTGATACTTGAGTATTC
TTCACAAAGTTCTCATGCTGTTTTTTAGCTCCATCAGGTCATTTATGTTCCTCTCTACATTGGTTATTCTAATTAGCAATTCGACTAACCTTTTTTCAAG
GTTCTTATCTTCCTAGCATTTGTTAGAACATGCTCCTTTAGCTTGGAGTTGTTTGTTATTATTCACCTTCTGAAGGCTACTTCTGTTAGTTCGTGAAACT
CATTTTCTGTCCAGTTTTGTTCCATTGCTGGCGAGGAGTTGTGATCATTTGGAGGAGGAGAGGCGTTCTTGTTTTTGGAATTTTCAGGCTTTGCGCACTG
GTTTTTTCCTATCTTTGTGGATTTATCCACCTTTGGTCTTTAATGTTGGTGACCTTCAGATGGGGTCTTTGAGGGGACGTGCTAATCCTTTCTGTTTGTT
TCTTTTCCTTCTAACCATCAGGCCCCTCTGCTGCCAGTCTGCTGGAGTTTGCCGGTGGTCCACTCCCAACCCTGTTTACCTGGGTATCACCAGCGGAGGC
TGCAGAGCAGCTAAGATTGCTGCCTGTTCCTTCCTCTGGAAGCTTTGACCCAGTGGGGCACCTGCCAGATGCCAGCCAGAGCTCTCCTGTATGAGGTGTC
TGTCGGCCCCTACTGGGAGGTGTCTCCCAGTCAGTATACGTGGGTGTCAGGCACCCACTTGAGGAGGCAGTCTGACCCTTAGCAGAGCTCGAATGCTGTG
CTGGGAGGTCTGCTGCCCTCTTCAGAGCCATCAGGCGGGGACATTTAAGTCTGCTATAAGCCCCTGATTGGGGCTGCTGCCYTGTTTACCAACATGCCCT
GACCAGAGAGGAGAAATCTGGCAGTCTGGCCATAGCAGCCTTGCTGAGCTGCAGTGGGCTCCGCCCAGTTCCAACTTCCCAGCAGTTTTGTTTACACTGT
GACCTTAAAACCATTTCCTCAAGCCTCAGCAACGGCAGAGGTCCTTCCAGATGAGTTTTRTAATAGACTCCAGCAGTCCTACTGGGGCCAAGACCTCAAG
GAAAGCCAAGTCTATCATTGGGAAAAGTCTTAGGGCTCTAAGTTTTGAATTCTGAAAATTTTTCTTAGAACAAAATTTTGTGTCATTTTCAAATAAAGCA
CAAGTTTTCCTCATAAAACTTAGTATCTGTAGACCCCCTTCCCACCTCACTTTTACAGCTGTCCCATTTGATCATCAGACCCTGCTACCTTAGCCAGTTC
AGGCTGCTACAACAGAATAGACAAGGTGGCTGAAACACCAAGCATTTATTTCTTACCTTCCTGGAAGATGGGAAGTCCAAGATCAAGGTGTCAGCAGGTC
CGGTATCTGGCGAGGGCCCTCTCTTCCTCACCAGATGGCTGTCTTCCTGTTGTATCCTCACACAGTGGAGAGCAGAGACAGACAGCAAGCTCTCCTATCA
CTTCTTAATCCCACATGGCTCCACTCACATGAGTTATGACTTCCTAAATAGCATCACCTTGAGAATTAGGATTTCTGCATATGAATTTGGAAGGCAGGCA
AACATGCGGCCTGTAACACCACCCATATCCGTTCCACATCTAGGTTCCCTCTGTGTGCCGGGCAGTATGCCAGTTAATTCAAGTGCATGTCAGACCCAGA
GGGTGACATCCTGTGACTCAGATGCTAGGGCCCTTATGATGCCTGGTAAGGTAAGTGGGTCTTTACCACTGTCCTTTCTTAACTAGATGGAACAGACTTC
AAAGAAAGTAACCATGGACTATCGGCAGGGCTCTATCTCTGGGGCTGGGGGATAAGGGGTTGTCTGCTCAGAGGACAGTGGGTCAAGCGTTTGAAGGAGC
CGAGGAATGCACATTTTTTACATGTCCCCTATGTGGTTCTCTGTCTGCTAAGGTTAAAGAACCTCAATTTTGAGGGTGCACTTCCACCTCTTGGTCTGGA
GAAGGGGTCTCAAATCTGTCCTGAGTGGAGCCTGTTCTGTACACATCCAGGCCCTGAGAGTACACAGAGAGGAACTCACTGCTACCGCCCTGCCAATACT
GCTGCTGTGGGGACACCAGCGGGGGTGGGCCAAGAACAGAGTGTATGTGTGTGTTTGTGTGTGTGTGTGTGTGTGTGCATGGGTGYTTGTGTGTGTGTGC
GTGCATATGTGTGATATGACCACTGAGTAGCTCCTTAGCAGGGCCAATATTTTCTACAAGTCTGATGACTCACAGGAAGGAGCACACCAGGCCTATACTT
GGGTCCTGACATCTGGGATGCCAACCTAACACTGAAGAAAAAGAAAGAGCTGCAGACAGGCTGGGAAAAATATACAGAAAGGGGAAAGGGGCCCTTCCAC
CTTTGTTGCCCTCTGTGGTCCTGAATCTCAGCTTGGCCTGAGCCAACCTGAAGATGGGAAGGAATAGCCATTTTCCAACTGCAAAATGTCAGCTTCAGGC
AATGGTTTCAAAACTGAAGTAATGGTTACATATGAAGTAGATTTTTGTTTGTTTTGTTTTTTGAGACCAGGTCTTGCTCTGTCATCCAGGTGGAGTGCAG
TGGCATGAGCACGGCTCACTGCAGCCTTGAACTCCCAGGCTCAATCAGTCCTTCCACTTCAGCCTCCAGAATAGCTGGCACTACAGGCATGAGCCACCAC
ACCCAGCTAATTTTTAAATTTTTGGTGTGGAGATGGGGTCTCATCACGTTGCCCAGGCTGATCTCGAACTCCTGGGCTCAAACAATCCTCCCCCCTCAGC
CTCCCAAAGTGTTGGGATTACAGGAGTGAGCCACCACACCCGGCTGAAATGGAATTTTAATTGAAGTAAGAAGCGGGTGATAAGGAAAGTGAAACCAATA
ATTTCACATAGTCCCTGGAAGCCCGTTGCTATAAAGAACTTTCAGCCTGAAGTCCAAAGAGAGACGAAAATTTTAAAATGAATTGGACTGCAGTTTTCAA
TCCCTGAAAATGAGTCACAGCCTTTTTGTGGCAGTGTGCCCTGGGCTTCTAACCGTCCTCTCCCTGCCCCAGCTGCCTTGAGGTCCCGGCCAATGGTTTC
AACACTCAGGCTAGGAATGCCAAGGCCMGGCAGAGCGAGGCTGTGGAAGCCTTGGCATAAGCGGAAGGGAGGATCTGAGGGAGAATGGGACAAGAGAAGT
CGGAAAGAAGGAGTTAGGGCAGGAGAACAAGGAGAAATCCCTGTCCCCCAAATTGGAGAGARGGGCGATTGGGACTCCAGACTGGAAGGAGGCACGGATC
CCTGAGTGCTTGGTGTGGAGGCAGAGGACCCGCAGAGCCACCCCGTCCTCCCTGCCTTATCCAGCGTCCCCGCCGCCACACCCCCAGCATCTCCCCCAAC
CCCACTTTTACTTCATTATCTGCCCCTGGTTCTCTCACCACTCGAGCCCCTGCTTTCCTCCTTCACTCCCAAACATGCACACGTTCCCTCTGCACKGGTG
TTTGGAACACCAGCCATCCCCCACCCCCTACCTTGTGCCAGCAGGAGATGTTTGTCCTTCTGCYGTCTCTAGGATGGAGAGGCCTGAGGTGACTGCTTCC
TCAGAGTCTCTGTGCAAACTCTCTGAGGAGCAGAAACCAGTTCAGTCTCTCTGGGYGTGGAGAGGCCGGCCTAGCAGAACACCCGTCCACCATGCAAACC
VGGTGGGGCCACCTGTCAACTGTCACGTGTGAGTGATTCTAGGACAGGGTAACTCRTCCAGAATTGGATCCAATTCAGTACTGGATTCACCATCAGTAGA
AGGACCAAGACCAGACTCAAGTCCCAGCCACGAAATTCTAGAAAGGATTTAATGTAATTTTAGCAGTTGTTGGAGACCAGCATGTGATGGCATACATATG
TTTTCCTTGATATGTAGGTGGGGGCCCCCACCTTTTTTCAGGGTTTAGGCTTCTGCAGGTCCTGGCATAGCTGTGACAGCGGCCCTACCTCATTTCTGGT
GRGTGCTGGCTCCCTCTATTGCTTGGTTTCTGTGCAAACACTGCATTATCGTCCTGCCCTCTTGAGACCTGGAGCTCCTGCCCCCTGAGCTCGTGTTCGC
ACTGTGTGTCACTGAACCTCGCTGTTTTCTTCTTGCAACTCCATTCCCCTCTGCAACTGGAAGACCAGCACTTCTCCTGAGTCTTCCTTAAAAGACACCC
TGCCCACTTCCTTACAAAGCCCCCACCAAAGTGACACCAGCTACTTGTGAATGTAGCCAACTTTACTGAAGATTTAGAGGTTATGTTATAAGGCTGTGAA
TAATTWWAAAAAAAAATCACCTATTTGCTCGACCTCTTTCTTATCTCTTCTTTGGACTAGAAATAAAATATCTATGATTTGACCACACTGTCATCTAGTA
CTCGACCCTGGTTCTAGGCCACCGTCCTCCTGGCCAGGGTGATTGCAGTGCTGCCCTACTTGGTTCTCCGTGCCTGTCCCCACCTCCCAAATGGCTACAG
CGCAGCCAGAGTGATCTTCAGAACCTCATCACTCACGCCCCCCTCTGCTCCAATTCTCCAAAAGTGCCCTTTTTCTCTCAGTAAAACCAAAGTCACTACA
GATGCCTAGAGAGCCCTGCACAGTCTGGCCAGCTGTCCATTATGCCCCCTCACTCGCTCAGTTCCGACCTCCACCCTCGGCCTCCTTGCTGGTCTTCAGA
GCCCTGCAGATGTCCCCGTGCCTTGGGACTTTGCATTGCCCTCCCTTCAGCATGGACTGCCCTTCAGGCATCTGCCCGGCTCACTCCCACTCCTGCTCCC
AGGTGGCACACCCTTCCACGCCTGGTTCTCCCTGCCCCTCGCATTTGGAAYCCTTGTATTTCTTTCTTTCTTTCTTTTTTTAAAATTGTGGTATGATTCA
TGTAACGTGATTTTTCATCTTAACCACTGTTAAATGTAAAGGCCTCTATTTCATAATGGGAGACCTCTGCCTGCCCAGGCCATCCTGGACCTTCTTCACC
TGAACTTGTTCCCCTAAAGCAATGACCACTTTAAAACATACCTTAGTAARCCGCGCACAGTGGCTTACACCTGTAATCCCAGCATTTTGGGAGGTCAGGG
AGGCTGGATCACCTGAGGTTGAGTTTGAGACCAGCCTGGCCAACATGTTGAAACCCTGTCTCTACTAAAAATAAGAGAATTAGCYGGGTGTGGTGGCCAG
TGCCTGTAATCCCATCTACTCAGCTTATTGAGTCAGGAGAATCACTTGAAGCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGCCACTGCTTTGCAG
CCTGGGCAACAGAATGAGACTCTATCCCTATAAACAAACAATCAAACAAACCTTATTAACTTTTAATTGTGGTTGCAACAAATTACTGCAAATTTAGTGC
CTTAAAACAACATACATTCATTCTTTTACCATTCTGGAGCTCAGAAGTCTGAATAGTCTCACGGAGCTATCATCACTGTGCTGTCAGGGCTGTGTTCCTT
TGGGAGGCTCTCGGGGAGAACCTGTCTCCTCCTTGCCTTTTCCAGCTGCTCAACTGCCCACGTCCATGGCTCAGGACCCCATTTCCTCATCTTCAAAGGC
AGCTCCACCAGGCTGAGTCCTGGTTTACATGAGAACACTACCCCTCCATGGCTGGTTTTCCCAGGGCAGCTGATTAGCCACCTCAGCTCCATCCACAGCT
TTCACCGCCCTTTCCATGTACCCCAACACAGAGGTTCCAGGGACTGGATCTGCCATCCTGAGGATTGGAGAGGGAATTCTTCTGCCCAACACACATACCA
TATAATTTACATATCTATCCATTTAAAATTTCTATCTCTTACTAGAATGCCATTTCTGTGAAGACAAAAACCTCATACAAGGCACAGAAAACAGCTCCCC
AGGGGTGAAGGGGCTCAGATGGGCCCCCTGGCTCAGGGAACAAGGAGAGGTGTCAGGGCAGCCTCCCTGGGTCTCCAGCCTTCACAGCCGGTGCCTCCCA
GGCAGGTTCCAGCCACAGCAGCAGCAAAAGAGATGTGGTGGGCAGCATCAGGCATTGGCGAGATTCCTGACACAGTTCAGTCGAAAAGAAACTTCCTAAA
CTGAGCTCACCTCAAGGAAGCTGGAGATAAATGCCACCTTACCCAATGGGTACATGAAATACAAATACAAATCCTTTTCCAGGTTGTGCAGGTTACAACT
GGCCCAATTCTATGCCTGGTCCCCTGCCCTGTCCTGCTGTGACTTGCCAGGGTGGGGTGCTCATTGGCCTCCAGGCTCCACTCACTTTTCTGACCGCACC
CAGTTTCCACCTCCAAGTCACCCCCCAGACTGCTTCTCCTTTTRCTGTTTTTTCTCAGCCCAGCAGAAATTCTAATATTCGCCAGGCTTGGCCCTGCTCA
GGGCACCGGAGAAGGAGCCTCTGAGGAAAATCTTGGCACAAGGAGCAGCTCTCCCACCTGGATTTCCAGCACCCTCTGTTTTCTGGGAACTCCTGAATTT
CTCTGGCCATTGGCACAGGGGCTCTGCCACGCAGTTCCCCTGGCGGCTGGCCCCTGACATCTGGCAAAGAGTTAGGAATGCAGGTGTTTCTGGCAAATAT
GTAGGGCCYATGAGATAAGAAAGTGGGGGAAGCAAGATCACGTAGGTTCTCTGTGAGAGAGGCCGCATGCCCAGCAGGACAGAACATCCCTGGCTGACAA
GGGCCATCTTCCCCTGTCCTTATCTCTGCCTGGGMTCCAGCTCCGTCCTGCCTGACAGAGGCCGTGGAGCAGAGCACTGGGCTGCTGGTCAATGTCCTGG
TCTTTAGATAGACCAGTCTCCGGATGGGGTCACAGTGGGAGAGCAGTGGGCCTGGGAGGTGCAGGGTTAGTGCAGGGCAGGGCTGCCTTGAATCTGCAGG
TGCGGGGCCACCAGGCTGGACCTATCTGTATGCTCAGCACAGGAGGTTGCAGTATTGCCTGCCCTCAACCTCCTTTTCCTATTTCTGCTGCTAGAGGGCA
CTGGGGACTGGGGTCAGGCTGGGGGTCTTGCCATCCCCTCCTGATCTCCTCCACTCCCTGTCCACAGCTCCTGATTTCCCTGCCTGGGCTGCCCCCACCA
GAAGTCTCCAGGCCTAAAATCCAGTAGGAACAGGCAGCCTAGCCTGTCCCCAGGGGTTTCTTTAGCACTTGCAGGAGTCAATAAGGCTTCAGGTAGGAAG
GCCTGATGCCTTCCTCATCCACAGACGCCTAACAGGTGTTTCTGGAAATGTATCCTGTGGCAGCCAAAGAGGCTGGACTCCTCAGTGTGTTTCCAAACAG
AGCCAAACACAGAGTTCATCGGTTGGAGGAGCCCAATCAGCTGCTCATTAGTGTGCCTTTGACAAGCCTTTGTACGGCGGGGAGGAAAAATGATTTTCAT
GAAAAAAAMAAACAAACAGGAGTTTATTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCGTCTCTTGT
ATATACACAGGAAACACCTGGAGAAAACAAGTAATCCTTAAAGTGCTGGCTTAGAGCTCCAGCATCTTCAACAGAAAACAATAAACGTCTAGAGAAGTGG
CAGATCATGGGAAGGCCAATCTATGGCATCAGAGAAGCTTGTGRTGCCTCTGCTGCTGTCCCTAGGCCTGACAAGAGTCTGAAATTGTCTTTGGTGATCA
ACCTTTGTCCTTTCTGGTAGAGAAGGGAGGATRCAATCAAAAGTGGCTCAATAATAACTGGAAAATAAATGGAAAAGAAAGATGTTCATTTCATCCAGGT
TCTTGAATTCATTGACATACGGTTGTACATAGTATTCCCTTATAATCCTTTTTGTTTCTGTAAAGTTGGTAGGGATGTTTCTTCTTTCATTCCTGGTATT
AGTCATTTGAGTTTTATCCCTCCACCATTTACCTAGTCATTCTAGGTTAAGGTTTGACAATTTGGTTGATCTTTTCAAAGAACCAACTTTTGGTTTTATT
GAGTTTGCCAATGTTTTTCTATTCTTTATTTCATTTATTTACACTCCAATTTTTATTTCCTTCCATTTGTTATTTGGGGCTTAGGTCGCTTTGCTCTTTG
AGTTTCTTAAAGTGAAATATCAAGTTATTAATTTGACATAATCCTTTCTTTGTCCTGTTCTTTCTCAGTATACTGGCATTTACAGCAGTAAGTTTTCCTT
TAAGTGCTGCTTTATCTGCTTCTTATAAATCATAGTATGCTGTGTATTTGTTTCCATTCATCTCAAAGTATTTTCTAATTTTCCTTGTGAGTTTCCCTTT
CGTTGATTGGTTCTTAGAATGTTTATAAAATTGTTTGTCTTAAAGATGATTCTGCCTGATATTATTAATAGCAATTTCAGTTGTCTTTGTTTACTATGGA
TGTGTTTTATCTTTTCCATATGTCTACTTTTAAACTACTTGTATCTTGGGATCTACATTGTATCTTTAGATCATTTTTTAAATGCATTCTGAGAATCTTT
GCTTTTTCTTTTGAATGTTTATCACTTTGACATGTAAGGGAATTACTGCTAAGGTGGAACAGAATTTACGTCTGCCACCTTTTTCTTAGTTTTCCATATG
CACTATGTCATTTTCTTCATCTTTTCCACCACTATTGCTTTGTTTTGTGTTAAACAGATATTTTCTACTGCATCATTTTACTTCCTTTATTGTCTCTTTT
TCATTTTTTATTTAAAAAAGTTATTTTGTTAGTCATTTCAGGGGATTCCAATTAATATCTTAATTTACCACAACCTAGATCATATTAAAACCAACTTAAT
TTTAACAGGATGCAAAATCTCTGCTCCAATATTGCTCTGCTTCTTCCCCCATCTTTGTGGTATAAAAATGATATATACATAAATTATATGGCATGTGTTT
TGCAAAGAATAATCACCTGCCACCCCCACCCACTCCCGCCAATCCCAGAGGATGCCGGTGTGAATCCCTGGAACCCCCCACTGGGTTATATGGAAAAGGG
AGTGAAGGCTACAGATGGAGTTGAGGTTGCTCATCATCTGCCCCGGAAACGGGGTGATTTTCTGGATTTCCCTGGGGTTCCAATGTAATCACAGGATCTT
TATAGAGGAAGAGGCAGACGGAAGAGGGAGAACCAGATGAGGGGCACAGTGAGGACTTAATCTGATGGAACTGCCTTTGAAGATGGGGAAATGGGCCCTG
AGCCATGGATGTGGGCAGTTGGAGAAGCTGGAAAAGGGGAGAAGGAGACAGGTTCTCCCCGAGAGTCTCCTGAAATAACAGCCCTGACAACACAGTGATG
TTAGCCCATTGAGATCCATTCCAACTTCAGATCTCTAGAATGGTAAGAGAACAAATTTGTGTTATTTTAAGCCACTAAATTTGTAATTTCTTACAATAGC
AATCAAAAGCTAACACTGTCTGTTTTAAAGTGGTCATTGCTTTAGGAGGAAAAAGTTCAGGTTAAGAAGGTTCAGGATTGCCTGAGCAGGCACAGATACT
GCCATTTTAAATAGATGCCTGTACATTTGAAAACGGTTGAAATGGCTCCTGGCTGTGGCAGGGCAGCAGGCTGGGGCCATGGCAGGCCAAGTGCAGGCCC
AAATCAGACTGCAGGAGCTTCHCATACACTCTGGGCAGGCACCTGCCTCTCAGTAGCTCACTGAGAGATGAGGGCACCCAGCAGGGGTCCCCAAGGGAAG
GCACAAAGAGGGAGCCAGCCTGAGATTAAGGGGCTGTGAAAACAATGCTTTTCCAGAAGTCCTAGCTGGTTACCTTCACAGCTGCTTGCAAAACAGAGAA
ATTCTACATYCACTCACAGCAGCCATGTCCACAGGGTGCTCCAGACGGCCAGGAAGTTAAAGTCACGCCACCTGGCTGTGGAGATCAATGAGGCTGAAGT
GCAACAGGAGCAGCAGGAATCCCTCCTGGGAGATCTCCAGGATGACATTCCCCCAGGTGACAGCCTACCAGGCCCGTGGAAAGCCCTGGCTAGTAACCTC
ACAGCTGCAGTGTGGCAAATCAAACAGAGCTGGAGTTGTCTGGTAGATCCTTGGAGCAGGTGCTGCTGCCCCACATGGACACCTTCCTGYAAGTGCATTT
CGGCCCCATCTGAAAGAGCTTAAAGGAAAGCTTGCATGGCTTTTCCCCGGACATAACAAATCTGTTTCTTGATGTGGAGGCCAACACCAGGCCATCACGA
TGGTCCAGGATAGTGCTGTGGCCAGGGCTGACTGCCAGGAGCTTGGTGGTAAATTTGAAGCCAAGATCCAGGAAAATGCTCAGAGAGTGGGCCAGCTGTG
AAAGGATGTGGAGGACTGACGGCATGCTCGGTGCTCTTCCCTGTACACTCCCTCTCTGAGGTCCAGGCTGATGTGGACACCAAATTGAAGAGGCCAAACC
CAGGAGGCCCCAAGGACTAATGGCAGCTGCGTGTTGATGACGGCAGGGGCTGGGGCAAGGCCTGAACTGGAGAGCCTGCAGGCCAGGCTGGCCAACTGCA
GAGGAACCTCTGGGTGCTGCACATGGACTCAGCCTGCAGGGAGGAGGAATTGCAAAACACCCCTCAGGGATATGAGGGCTACCCTGACCCGGCACGTGGA
TGAGATGAAGGAGCTGTGCTCCGAATTGGACGAGACCTTCCATCAGATCAGCAAAATGGAGCCAGAGATGGAGGTGAACCACAGGGCGCTCTGTGAGCTG
TGTGTGGTCCTGATGAAGCCTTTAATTATGGAGGCAAACAAGGTGGAGGTGGAGTAGCAGCTCCTGGAGCTCAGCCTCACCCTGCAGCACCTGTGGGGCG
ACCACACTGACCTCATCAAGTATGTCAAGGAGGCAGCTGCCACAAGCTCTACTTTCACTTGGAGGCCGTCCGGGAGTGCCACGGGGACACCACGCACCCT
GAAGGAGACCCAGGGGAGCCTGGATGGCGGCGCCAGCTGCACAGCTCCTAGGCTGCCCTGATGGAGGCCTGCTGGCCTCCCTCTCTGGGGAGGAGGTGAT
GGAGGAGAGGTCAAAGGAGGCGCACGGCCAGCTTCCCCTGCCCGTGAGCAGATCTGCCTGGCCCTGAAGGAGCAGGTGCTCGGTTGGGACTCGCTGGCTA
CCCGGGTGGCAGCCCTGGAGCAGGCCACGAGTGGGCCGTGGCTTGGAGCCCCCATGGCCGGCAGAGCACTTGGAGCTGGCGACCACTTGGGCCCAGAAGA
AGCTGTGTGAAGCCCTGGCTGGGCTGGCTCAGGAGCTCCAGCTCCTGAGATCTGACTTCAGTGGCTCGGGTGGTGCTGCAAGGCTGCCCAGCCACCTCTC
TCACCTGCCTCGGGGCCTCCATGGTCCGCCTCCGAGTGCAGCTTGGACTGCACCAGCTGCTCCTCCTTGGAAACTTCCAAGAGCTGGTGACAGCAGTGTC
AGCCTAAATCTGGGGAAGCTGGAAACCGTGCCCAGCAGGAAAAGGAAGCAGAAGCAGAAAGGCCCAGAAGTTCCCCGGAAGAGGGACAGGAAAGAAGCTG
AGCCTTTGCCAGACACACACATCAAAGGGCCAGTGCCAGATGCCTTGAACACTGAGCTCTGGCAGGCAGGCTYCCCTGTGGCCTTCTATGCCAGTTTCTC
AGAAAGGACAGCTGCCCTGCAGACATGGAAGTTCAACACTAGCTACATCGACACTGACAGCAGCAACTTCCCTGAACATGGCTACTACCAAGCCGGAGTT
TRGTGTCYCATTTGCAGTGAGCATTGAATTTGGCCCAGGGCCAGGAACCAGGCACCTGGTGTTTGGAGGGCTCCATCAGGGACCCTGGGCGGGAAGCACA
GCAGCCACCTTTGCCATGGCTGAGCTGCGAAAGGGTGAGAGAGTGTGGTTGGAGTTAACCCAGGCATTGGTAACAAACAGAAACCAGCGAGGCACTGCAT
TTGGGGGCTTCCTGATGTTCAAGACATGAACCCTGGGCCCAGCTCTGATTGGACATCATGGACTTGCCCAGCTCTCCTTGGTCTAGGGCTCTGGCCAAGG
ATGGTCTGCAGATCATCCTGTTGGTCTATCTCTTCCCTGGACAGCTTCTGCGAGAGAGTGTGGTGTACGTGGTCTCTGTCTAGCGCACTGGGTTTGGCTA
TTTCTCAATGACAAGGGGGACTGGACTACTTCTCTGGGTGGGACCTGGTTCTGAGCTTGGTATGCCTTCTCAGACAGCACAGGCTGGACTCCAGCCCTTT
GCCATACTGTGTATTCTACAGCTGCTTTGGTGGCGTGCTCCTCTTGTGGATGGAAGCTTCTGTGCAGCACTTTAACTCTTTCTCCTGCTTCCTATTCTCT
TCTCCCTAATTGTTGGCTACAAAGTCATCTTTCCCAGAAGGAGTCTCTAAGATGGAGGTGACATTTGGACAGTATTGGAAAGCAGTCTCCAACSACTAGA
GGACAGTGGAATAAAGCCAACCTGTTTGGTCTCTGTCAGCCAGAAATGGAGAAGAAAACCTGGTTGAGTCAACAAGAGAAAGAAAATTAGTATCTTTCGT
TTCAGTTATTCCTTGTATTTATCTGTAATTTTAATTTCATATCTTTCTCTCCTTGCCATACACAGAGCAAAGGCCCAAACATGCCAAATGTGAACCAAAA
TGTATATGGCCTTCACCATTTTTACTTCCTCCAGTATCTTTGGGCCATCTGAATTCTTGCTAGCATGTCTAACCAGGAGGCAGCTGAGGAAGGAGTGAAG
GAGGACTGTAAAAATACCTCTCAATAATGATCAACCTTGGGGTAAAGCGATGCCCATAGATAGAGAGATAGATAAACAGATATAGATATATATGTGGTTA
AGATGGAACATTTTGTGTTACATCAATTATATCAAAATTTAAAAATTAAACAAAGAAAATAATAAATAAAAGGATTCCAAAGTGGGAGGGTGGTGGCAGC
AGGTGTGGAAGGGTGTATCACTTAGGAACAGGTGTGGAAGTGAGCTGGGTAGACTTCTGAGGGAAGAACAGTCCAGGCCCAGGGGAGGGTGATGCAAAGG
CCCTGAGGCAGGGGAACAGGCCCTGAGAACCAGCAAGGATGCCAGGGATAGGAGATGAACGAGCAAGGACAGAGTCAGGGACAGCTGTGCAGGGCTCCCT
AGGCCTCTGCAGTGGCTTTGGTTTTACTGAGAGGAAAAGGGTGCGTTTGGAGGGTGGTATGGTTTGGCTGTGTCCCCACTTAAATCTCATCTTCAATTGT
AGCTCCCAAGATTCTCACATGTTGTGGGAGGGACCCAGTGAGAGATAATTGAATCATGGGGGCAGTTTCCCTGATACTGTTCTCATGGTAGTGAATAAGT
CTCATGAGATCTGATGGTTTTATAAGGGGAAACCCCTTTCACTTGATTTTCATTCTGTCTTGCCTGCTGCCATGTGGGATGTGCCTTTTGCCTTCCATGA
TGATTGTGAAGCCTCCCCAGTCATGTGGAACTATGAGTCCATTAAACCTCTTTTTCTTTATAAATTATCCAGTCTCAGGTATTTCTTTATCAGCAGCATG
AAAACTAACTAATACAATAAATTGGTATTGGGAGTGGGGCAGTGCTGTAAAGATCCCTGAAAATGTGGAAACGACTTTGGAACTGGGTAACAGGCAGAGG
TTGGAACAGTTTGGAGGGCTCAGAAGAAGACAGAACAATGTGGGAAAGTTTGAAACTCCCTCGAGACTTGTCGAATGGCTTTGATCAAAATGCTGATAAT
GATATGGACAATGAAGTCCAGGCTGAGGTGGTCTCTAATGGAGATGAGGAACTTGTTGGGAATTGGAGTAAAGGTGATTCTTGCTATGTTTTAGCAAAGA
GACTAGTGGCAGTTTGCCCCTGCCCTAGCGATTTGTGGAACTTTGAACTTGAGGGAGATGATTTAGGGTATCTAGCAGAAGAAATTTCTAAGCAGCAAAG
CATTCAAGAGGTGACTTGGGTGCTGTTAAAGGCATTCAGTTTCAAAAGGAAAATGCACATAAAAGTTCAAAAAATCTGGTGATGGGATAGGAAAGAAAAA
CCCATTTTCTGGGGAGAAATTCAAGCTGGCTGCATAAATTTGCATAAGTAACAAGGATCCAAATGTTAATCGCCAAAACAATGGGGAAAATGTCTCCAGG
GCATGTCAGAGACATTTGTAACAGCCCCTCCCATCACAGGCCCAGAGGCCTAGGAGGAAAAAATGGCCTGGCTCACGAAACCACAGAATGATTTCCTGGG
CCAGGCCCAGGGTCCCCCTGCTGTGTGCAGCCTAGGGACTTGGTACCCTATGTCCCAGCTGCTCTACCCATTGCTAGAAAGGGCCAAGGTACGGCTTGGG
TTGTTGCTTCAGAAGGTGCAAGCCCCAAGCTTTGACCGCTTCCATGTGGTGTTGAGCCTACAGGTGCACAGAAGTCAAGAATTGAGGTTTGGGAACCTCT
TCCTAGATTTCAGAGGATGAATAGAAAGGCCTGGATGTCCAGGCAGAAGTTTGCCACAGGAGCAACACCCTCATGAAGAACCTCTGCCAGGGCAGTGTGG
AAGGGAAATATGGGGTTGGAGCCCTCACACAAAGTCCCCACTGGGACACTGCCTAGTGGAGCTGTGAGAAGAGGGTCACTGTCCTTCAGATTCTGGAATG
GTAGATCCACTGACAGCTTGCACTGTGTGCCTGGAAAAGCCAGAGACACTCAATGTCAGTCCTTGAAAGCAGCCAGGAGAGGGGCTGAACCTTGCAAAGC
CACAGGGGCAGAGCTGCCGAAGACCATGGGAGCTCACCTCTTGCATCAGCATGTCCTGGATGTGGGACATGGAGTCAAAGGAGATCATTTTGGAACTTTA
GGATTTGACTGCCCCACTGGGTTTTGGACTTGCATGGGGCCTGTAGTCCCCTTGTTTGGCCAATTTCTCCCATTTGCAACAGCTGTAATTACCCAATGTC
TGTACCTCCATTGTATCTAGGAAGTAACTAACTTGCTTTTGACTTTACAGGCTCATAGGCAGAAGGGACTTGCCTTGTCTCAGATGAGACTTTGGACTAT
GGAATTTTGAGTTAATGCTAAAATGAGTTAAGACTTTGGGGGACTGTTGGGAAGGTAGGATTGGTTTTGAAATGTGAGGACATGAGATTTGCGAGGGTCC
AAGGGCAGAATGATATTTTGGCTCTGTGTCCCCGCCCACTATGATCTGGATGGGGTAAGGAGGTGAAAGCATTGATAAGCCAAAGTGACAGCCTCTTTTG
TAGACATGATCCTGCCTAAATTTCTCATGCCCCACAGAAGAGGGCACTGAACTCCCCACTTCTCCAGAGCTTCATGCAGTCCTTGAAGCACTCTCTGGCT
GTCTCTGCAAGTGGCTGAACAGCTCCTCCTGGTCTCTATGGGGCTGCAGAGGCTCCAGGTCCCTATGGCTCAGGGGCTGTCACRCTCACCAGGTCCCACC
AAGGGTGCCCCCCACCGTGGGTGGTGGAGGAGACCAGGTGTAGCTGCTCTTGCCCCTACCCCTCTCCTGACCTGCCAATCTTAATAGGAGGAAGCAGTAG
GGATGAGTGGAGCCATGGAGGTTGTTCCCACCTCCTAGGACCACTTTTCCTTTCCTCTTTCTTGGTCTGTTTCTGGAAATCTATCAAAACTACCTCCAAT
GCCAGCCCTGAGACCCTCCCCTCCCCCACCCTGGGGCATCACCTCCTCTTCTGMCACAGCGGGAGGGTGGGGTGTGCTGTCATCTTGCTTCCCTCAGCAG
CTGTGTGAGCTCCCTGAGGACAGGGGACACCCCCTCTCCCTACCCCAAAACCTGTCCCAGGGGCTACCCCATAGCGAGGGGGAGGGGACAAAACCTCTGC
CTTCCAGGATGACCTGGCTCGGCAGGAGMTGAGGAGGCGTCTCCTCAGATTTGGGGCCTGGACAAGGGCTGTCACTCCTGTGTTTCCCTTTCGGCACCAC
CCACCGTGGCCCCAGGCACAGCTCAACCTAAAGCCATGGCCACCACCCTCAGCTCCTGAAGCCTCATCATCGTCCTCCTCTTCTTCATTCTACTTGGCAT
CTGAGGAGAGTTCCATGCAGAGGGAGAGGAAACTGGTACAGGCTTCCTGAAGGACAGGGTAACAGGGCTCACCAAGAGTCAAAAATATCCACATCTGAAT
GAAGAATATGTATTCATATGCGTTTCAAATGGCGGCAAAGACTCCCTGGAAAGATGAGAAGAATCCAATCAAATTTCGTCCCGGGCTGTGGCCAATGAGA
GTGGATGCAGGCAGGGGCCGGGGAGCCTTTCACACATGACTTTTCATGGTTTCGATCCTGAAACAGGTGAAAATATGGAGGTGAAGGAGTAAGGAAGAGT
GGGGCCGGGAGCCCCGGGGACGGTCACCAAGTATGCTCGCCAGATCTGTTGTGGGCCATGAGGGTCCGGAAACGTGGAACCCGGGCAGGGGCGCGCGGGG
CTGCTGCAGTGACGAGGCACTGGTTCTAGATATTTACCCAACTGTGTTGTCATAAGGATGATATTACAGGTGATTGCTGATTTCAACCACAGATGACTTT
CGGGGAAAGTTGGCTCCTGAGGGTTTCAGTTTCCACCTAGCCGCGTGCTCTCCGGGTTCTGCGTGCTCCTCCCAGGGCGCCCGCTGTGCCCCAGTTCTGG
ACCTGGGTCCTACCCAGTGGAAACCAACGAGTGGGTGCCCCGCCGCCCACCGCAAGAGTTCTTTATATATTCAGGATACCAGTCCCTTACCAGATACATC
ATTTTCAAATATTTTCTCTCATTCTGCAAGTTTTTTTTCTTTCTAAATGGAATCCTTTTTGAAGCACAAAAGTTTTATATTTGCATGAAATGAAATTAAA
CTACCTTTTATTTTGCCATCTGTGCTATTGGCATACAGTACTTAAGAAGCCTTTGCCAAATCCAGGGTCACAAAAATTTACTGCTCTATTTTCTTCTGAG
ACTTTCATAGTTTCATGTCTTATGTGGACATCTGCCATTCATCTAGAGCTAGTTTTTGTGTGTGCTGTAAGGAAGGGGCCCGCCTCATTCTTCTGCATGC
AGCATCCAGTTGTCCCAGCACCATTCACTGTAGTGTASAATGCACCTGCCCAACCTCCTGTCCCTCCCTCCTGCACTCAGCATCAGAAGTGCGTCCTGCT
GAATGGTTCTCCCAGGGTTTCCACCAATGAATTCCCCTCATGTGAATCCCATATAGGCATCTGCTTCTCAGAGGACCTGGACCGAGGAGTGGATTCACTG
GAGGAAATTATATTTCATAAGATAGAACATTCTGAGAATAGTAACACTTGGCATACMCCTTACTACATCAAAAGTAAGAAATTGGCCTGGCACGGTGGCT
CATGCCTGTAATTCCAGCACTTTGGGAGGCTGAGGCGGCAGATCACGAGGTCAGTAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCTTCTCTACT
AAAAATACAAAAAATTAGCCGGGTGTGGTGGCACGTGCCTGTAGTCCTAGCTACTGGGAAGGCTGAGGCAGGAGAATTGCTTGAATCCGGGAGGCAGAGA
TTGCACTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAGGTAAGAAATTGCATGATT
TGGTCATTTGGGTTCCACAATTCTTATGTCAACATAGCTTATCAATGTTTATTTATTTTTTCTTATTTCTGTTGTTGTTGTTGTTTTCTTTGAGACAGGC
TCTCACTCTGCACCCAGTCTGGAGTGCAGTGGCACCACCTCAACTGCCTGCAACCTCAGACTCCCAGGCTCAAGTGATCCTCCCACCTTAGCCTCCTGAG
GGGCTGGGACTACAGGCACATGCTACTACACTTGGTCAATTTTCAAAATTTTCTGAAGAGACAGGGTCTCACCATGTTGCCATGGCTTATCTCCAACTCT
GAAAATAACAAGTTACTTTTCACATGGTTGTATGACATTATGTAGACTTTTAAAATTCTGTATAAATAATTTAGACAATACTGTATTAGAAAATGTTTTC
TACAGCCACAGCTTCCTAAAAATAGAAGTGGTATTAAAATGTGCATTTGTCAAATCTTGAAGAAGTTTCAAATGTTTAGGGTGATTCTGACCTCTCATTT
TGGTTGACACAATAATCCATAAAAACAAGTAAAGTGCCCACTCTGATCTGGAAGGGGTAAGGAGGTGAAAGCATTGATAAGCCAAAGTGACAGMCTCTTT
TGTAGACATGATCCTGCCTAAATTTCTCATGCCCYACAAAAGAGGGCCCTGAACTCCCCGCTTCTCCAGAGCTTCATGCAGTCCTTGAAGCACTCTCTGG
CTGTCTCTGCAAGTGGCTGAACAGCTCCTCCTGGTCTCTATGGGGCTGCAGAGGCTCCAGGTCCCCATGGCTCAGGGGCTGTCATGCTCACCAGGTCCCA
CCAAGGGTGCTCCCCACCGTGGGTGGTGGAGGAGACCAGATGTAGCTGCTCCTGCCCCTACCCCTCTCCTTACCGGCCAATCTTAACAGGAGGAATGAGT
AGGGATGAGTGGAGCCATGGAGGTTGGTGCTGGAAAGAACAGAAATGAAGACCTTTGTCCAATTCTCCCAAGTTATGGAGATCCTTTTCTGAGTTCTAGT
AGCCCTGGGGTAGTCTGATGATTGGATTCCTCCCACGTGTCTTAAACCCTATCATATGGCAGCCACTGTGCTAGGTGCTGGGTTTACAGGTGGTGACTGA
TGTGTCCAGTCCTCCAGGAACTTAGAGTCCAGGGACAGAAACAAACACCCACATGGCTGCTACTGCTGATGTGATGTCCTTGTGGTGGTTGGGGCTATCA
GAGGACAGAAGAGGGGGTGACTCATTCTGCCTGGGGATTTGCATGGAGGCTTCTTGGGAGGTGGCATTTCAGACTGTTCTTGTAGGAATAGGAAGAATAC
AGCGTGGCCAGGTGGGAGGAGAAGATAGGGCACCCAGCAGAGGGACAAGCATGAAGAGGAGGCCTGGGGGTGCAAATATCATAGAACTTTGGGGAGCTCT
GAGAAGTCTGTAGTAATGAACCCTCAGTTACTAGGGTAGACTCTTTCCACAGGGAGGAGGAAATGTCAGGAGGGAAGACAGGGAAGGAGGGGAGGGCAGG
AACCACCCTGGAGTCCCTTCTCTCTCCACAGCAAATCAACCAGGAAATCAATTCACCATTCATACATGCATGTTATCACACACACACAGACACACAGACA
TGCACACACAGTCTCTCTCACACACACTCACACCACACAGGTGTTTACACATTCACACACACACACATACACAAATGCATGCAGAAATACAGACACAGAC
ACGCACATGCACACACAAAGACACACATAAACACATGGGAGAAACTGGGTGTCATCTCAAGAGTTGTCGTGTTGGGCCCATCCTGCCCCCTCACTTGTCA
CCTCGGGGGCTGTCTCCCAGCTCATGAAGGATTCCTGAAGCCATCAAGCAGGATGTCACTGTGTGATCTGAAACACTCAGACACCTCCTCACTCTGACCT
TCCTTCCTGGTTTCCTTGGCTCTGGGATGAAACAGTGTCCTGCTAGTTTTCACTGCATCAGAAGAGAAWCCTCTCCCGTGGGGCAGAACTGCTGGGCCAC
CAGAGCGCACCGCTCTGCTCTTTGCCCTCAGGGCATCTTGATCTGCATGGTGGGAGGAACTTCCCCAATCCTCAAAAATGAACTCTTTATGGATTCCTCA
TTCGACATGATGTCAACGTCTCTTTTGTCTTCTCTGTAGCCCTTGACTGTGGATCCCAAGCTGTGTGCCAARGAGCTCATGGTGCAAACTCACTGTGAGC
AAACCCTCTGGGTTTATTGAAATATTTGAAAGATGAGCAGTGTCAGGCTAATTTTACCATTTTTAGCAGACACGGTGTTTTACCATGTTGATCAGGCTGG
TCTCAAACTCCTGAGCTCATGATCTGCCCACCTTGGCCTCCGAAAGAGCATTTTTTCATGTTTGTCGGCCACTTGCAGGTCTTCTTTTGAAAAGTGTCTG
TTCATATTCTTTGCTTATTTTTTAACTGGGTTTTTTTGTTCTTGCTTGTTGAGTTGTTTAAGTTCCTTGTAGATTCTGGATATTAGAGCTTTGCCAGATG
CATAGTTTTCAGCTATTTCTCCCATTCTATAGGCTGTTTACTGCGTTGCTAGTTTCCTTTGCTCTGCAGAAGCTCTTTAGTTTAATGAAGTCCCATTTGG
CAATTTTCAGTTTTGGTTGCAATTGCTTTGGGTGTCTTCATCATGAAATCTTCGCCAGGCCCTATGTCCAGAGTGGTATTTCCAAGGTTATCTTCCAGGA
TTTTTATAGTATTAGGACTTACATTTAAATCTTTAGTCCATGTCGAGTTATTTTACTTATATGGTGAAAGGCAGGGCTTCAGTTTCATTCTTCCACACAT
GGCTAGCCAGTTATCCCAGCACTATTTGTTGATTTTGTTGAAGGTTAGACGGCTGTAGGTGTGAAGGATTCTTTCTGAGTTCTCTATTGTGTTCCACTGA
TCTAAGTGTCTATTTTTGTACCAGTACCATTCTGTTTTGATCACTGTAGCCTTATATTATAGTTTGAAGTCTGGCAGTGAGATGCCCCTGGCTTTTTTTT
TTTTTTTTTTTTTTTGCGTATGATTGTTTTGGCTATTTGGGCTCTGTTTTAATTCCAAATAACTTTTAGATTAGATTTTTCTAATGTTGTGAAAAATGAT
GTTGGTTCGATAGGGATAGTGTTGCATCTATAAATTGCTTTTGGAAGTATGGCCATTTTAGCTATATTGTATCTTCTAACCCATGAGCATAAATTATTTT
TCCATGTATTTGTATTGTCCCTGATTTTTTTCAGCCACGTTTTGTAGATTCTGTTTCCACACAAAATCTAGCAGAATCACTCATTTATTACTCACACCAT
GGAGGAAAAATGAAATAACATTAATTCTCTACTGGGTAATACAAGAAAATTCTAAACTCAGTAGGTTTTTGSGAAATAGAACTCTTTGTGGAAATATTAG
TACAGAGCAATAAATTACTGAGGAAATATCATTAATRTAATTTTTTCTTATTAAATAAAGAATTATCCTTCAGGACGCGGAAAGAAACCTTGGAGGTCTG
AAATCTAACATGATTGTTTTACTGACTGTATCATTTGGAAGAAAGAGGTCATCATTCAAAAAGTACTTGATTTTTCAAACAAAAGCAGAAGAAAGAAAAT
GTTGACATATCTTKTTTAGTCAGCCAGAACTTTAATTGCAGGAATTCCATCAGGTAGCACCAATAAAAAATAACATAAGATGTTAGGAATAACCGCTGGT
AAAATTATTGACAAAAGGAATCAAGGCAGTGAATGAGCTATTGGGTCCATGGTGTCATCATGATCTGCTGGAGGCCACTGGACATACACAGTAGGTGGTG
GGCAGGTGGCCAGACAGAAGGGCGAGTTTGATCAAGACCCTGCTCACAGGGGCTTTTTGGTATCATCTTTAACTTTCAAAAAGGACACAAATGTTGGTTT
AAGAGATGAAGGAGAACCTGGATCACTTTTGCAGGGCAATCTTTCCCTAGGCACTCCACGTCTCAGAGCCCACTGCACTAAAGGACCCGTTTTTCCCTTG
AGCCCCAACCCTGGCACCTGCAGCTTGGAGCAGCCTCTTTCCTCCTTTGTCAAATCACAGTGTCAGCCCAGGCCCTGCACCTGACCAGGGGATGGAGTGG
AGGGGCCTGCAAGACTGAAGCTGGTAGTGATGGGCCTGCTCCCTCACTCAAGGCCCTCTCTACCATCTGATGAGAAGGCCTAAAACATGGCAAGGGGTAG
GGGGAGCCCATCCAAAGAGAGGGCTCTGTATTCCTGTGTCCTTGGCATTGGGTGGGCCTGCAGGCAAATATTCCTCCTTCCCCTTCTTCCTCAGCCTCTC
CTCACACTGCAATCAGCACCCATAGCTCTGMAGGTGACTGTCCCTGTTCCACCTTATTCATTCCTGGTCCAGCCCAGTGGTGCCCATGGACTTAAGCAGC
AGCTCAGGTCCCCCGTGTCTGAGTCCACTCTGCTCCTGGCAGGGCCATGAGCGGGCTCAGGATCTGGGGTGTGCAGGAAGGTGATGGCAAGGGAGCTGCC
TCAAGGTCTGGACTCGAACCCCATGGGTCCATGGGACTGACTTTTTAAAAATTTTTTTCATGTGCAGCCTCTACTCTTCGCCTTCCACCTTAATTCCTGG
AACCCAAGCCACTTTCTGTGGGAAGGCAGCCCTGCGCCCCCTCCTTTTCAATTAGGTGTACCAAGGCTCTCCCAGCCCCCTCCTTCTGGGATTACACTCA
TAGTTGTAGGGACCAGCCCTACAGGGCCTGTGGGTTTTTCTCTTCGTGTGCGGAGATGAGAGATCGTAGAAATAAAGACACAAGACAAAGAGACGGAAGA
AAAGACAGCTGGGCCCAGGGAACCATCAAGATATGGAGACCTGTAGTGGCTCCGAATACCTGGCTGCGCCGTTATTTATTGTATACAAGGCAAGAGGGCA
GGGTAAGGAGTGTGAGTCGTCTCCAATGATAGGTAAAGTCACGCGAGTCACGTGTCCACCAGACAAGGGGCGCTTCGCTATTTGGTAGCTGAGGCGGAGA
GAGAGAGGACAGCTTACGTCATTGTTTCTTCTATGTATTTCTCGGACTTCAATACTTTCACTAATTCTGCTACCGCTATCTAGAAGGCGGAGCCAGGTGT
ACAGGGCGGAACATGAAAGTGGACCAGGAGCGTGACCCTGAAGCACAGCATCACAGGGAGACGTTTAGGCCTCCGGATGGCTGCGGGCAGGCTTGACTGA
TGTCAGGCCTTCCACAAGAGGTGGTGGAGCAGAGTCTTCTCTAACTCCCCCGGGGAAAGGGAAACTCCTTTTCCCRGTCTGCTAAGTAACAAGTGCCTTC
CCAGGCACTGGCGCTACTGCTAGACTGAGGAGCCCACTACTGGCCCTGTCTGGGCATGACAGAGGGCTCACACTCTTGTCTTCTGGTCACTTCTCACCGT
GTCCCTTCAGCTCCTGTCTCTGCATGGCCTGGTTTTTCCTGGGTTATAATTGTGGAACAGAGATTATTATAACATTGGAAAAAAGAGTAACACTACAGAC
TAATGATTGATAATATTCATAGATAATCATGTCTGTATTCTACGTCTAATACAACTATTCTTATTTTAAGTATTTTCTTTATTATACTGGAACAGCTTGT
GCCTTCAGTCTCTTGCCTTGGCACCTGGGTGGCTTGCCGCCCACACATATCTCTCTCTTAGCCTCAGAGATGGAATCCCCCTTCCCTTGTCATACCTCAT
GTAAAGCTACCCTGATGCACCTAACCCAATTAAGAGGACTGCCCATGTCTGAATTCCTGCTGCCTGCAGGCCACACACCCTTCCTGAACAGAAACCTGCT
CTGAATCAGGCCTGAACTTGCTAAACCCTCTCAAGCTCAACAGACCCTGAGCCTTGGTATGGCACCACTGCGCCTTTCCCTCTGGCCTTTGATGGTGAGA
ATCCATCAGAACTCAGGGCAGAGCTGCCCAGGTCATTTCCAACAAGCAACACAAGGTCTCATTCACCTGTCTCATGTTAGGATGAGAAGGTCCCAGCCAT
AGGGAGTGGGACTCTGGGAATTCTCCATCCCTGTCCTCCCTCCTCACCCACCTGCCCTTTGCTCCACTCCCAATTCTGCCCCCATACCTGTCACTCCAAA
GGACTCTYCTCAGCAGCCAGGTAGGATGAAGCAGGGGAGGATGAGGAGGAGGCTGCAGGGACTGAGGGTGGTGGCCATGGCTTTGGGTCAGACTGTGCCT
GGAGCATATGAGGAGACACATGATGAGGAGGCAGCAAAGGATGAGGGTGGTGGCCGTGGCCYTGGGTTGGGCTGTGCCTGAGGACATGGTGGGTGGTGCT
GAAATGGAAGCACAAGAGTGACAACCCTTGTCCAGGCCCCAAATCTGAGGAGATGCCTCCTCAGCTCCTGCTGACCCAGGTCATCCTGGAAGGCAGAGGT
TTTGTCCCCTCTGCTATGGGGCAGCCCCTGGGAGAGTTCCTGGGGTAGGAAGGGAGAGGGGGTGTCCCTTGGCCTCAGGGAGCTCACAGAGCTGCTGAGG
GAAGCAAGGTGACAGCAAAGCCCACCCTCCTGCTGTGGCGGAAGAGGAGGTGATGCTCCAGGGTGCGGGAGGGGAGGGTCACGAGGCTGGCCTTGGAGGA
GGTTTTGATGGATTTCCAGAAACAGACCAGAGGAGGAAAGGAAAAGTGATTCTCAAGAGGGAACACTAAGGAGAAAGGCCTGAAAATAGTGACACCTGCA
GTTTCGAGGCTGGTGAGAAATCCACAGTGTGGGGAACAGAAGCAAGTGCAGTGAGGAAGAGGAGTCAGGAGGGAGAAGGAAGAGGAGGGTGGGAGAGCAC
AGGCACGCCAGCACCCCCAGGAGGAGCACCCCACGAGGAGGTCATTTTAACATAAACGTGTACACTGGGATGATTGAAGCTGAACTCAAGAATTAGTTTC
TTGAGATCCCCATTTCTGATCTCATTGGAGATCCCCATTTCTTTTTCTCCTGTTACCTCCTGCACTTGGCTCCAGGGTGCTGTCCATGCCCATCAAGAAG
TCCTCAAGCCATCCTGTGCAGTCTCCCATTGAGATGTAATGGAAGGACATGGTCATATCCTTGTCATTCTCCCACTTTTCTTTCATCTTTCTGGCTCCAG
GATGAACCGTTGTCCACATTCTGTTTTCTGAGTCAAAGAGGAGGAAGATCTGTCCATCGAAACTGAGCTGCCAAGATCCACTGCCGTGTCCTTCGGCTTT
CTGCTCACAAGACATCCTGGCCTGCAGGGTGAGGGGTTCTGCCCCCATCAAAGAGAGATCAGCTCTGGCCTTGACAGATATTGAGCCCCCATCCTCTTCC
ACTTGCAATTTCCTGGTCTTACTTGCTCTGCCACATCCTGGCCTTGCCTCTAGACGTCTTGCGGGGTGAGATGACCTTCCTATTTGTATTTTTACATGAA
AACTATAAATGCCTCTAACCTACCACTGTATCTGCTCCCTGCTGTCCTGGGCCATCTGAAACTTACCCTTGGGTATGTAATTCTCCAGCTGAATGTCAAG
CAGTTGCTCTGTAAGTATGTCCACCACCTCTCTCAGTACTGGGTTCTGTGCTTTCCAGGCCGTTGTGACATTTAGTTTCTTCCCCAGGGGACTGACGGGT
GTGACTGTCTTGCTGCCACAGTCATAGTGAAGAAAAGTCTTTTCATCCACCTGGCCTTGAACCGCACACCACCGTGGTCCAGGTCTGAACTTAGGGATGA
CGGTGATGTCATAGCAAAGAGAGTGAGGGTCTGTGGAGAAAGGCAGGTGAGGGGTGGGTGGGGAGGAAAAGACCCCTAGATACCCCTCCTCCACACTGTG
ACAATAAGAGGAAGCCTCTGGAGGGCTGGGCTGGCCCAGCAAGGAGTGCCTCCTCCAGAACTGTGGTGTCCACAAGATTAAGGCGAGTGCTCCCCACTTC
CATGAGGGCAAAGAGGAGGAGGAGGTCCCTGCCTGCTGAGAAACCACATGTCCCCAGACATGTCCCACTGCCCCTCTGTCCACATCGGTCAACACAGGAC
CTTGCTAGAGAGGTGCCAGGAGTGCTAGAGGAGGAAGGGCCTGGATGACAGAGGATCTTCAGCAGTAGCCCACGTGGACTGTGGGAGGTGGGACAGGGTG
TGGGAGCTGCACCTGAGGATACTGGTGCATGGTGGGACGGAGTGAGGATGGAACCCAGTTGGATAAAGAAGAGTTAATTATCATGGTCACAGGATTTAAC
ACGTTGGCAAAGCCCCTGGTGGTGGTGCTCATCTACTATGAGGATGCCTTCCTGAAACCTTGGACAAAGGGATGGTCCACACAGCAAGAAATAGAAAAAT
CTGAAAATCTAAGGCAGGCAGTAGACGGAGGGATCACAGGCTCAGAGAAGTGCCCAGGCTGGAGGGGTCTGAGTGTGAAAATCCAGAACAATGTCCATCT
GCTGTGCTCATGGGAAGCCTGGAGGACTCCTGTTTACCTGGCATATAAAGAAGGCCCCATGAGAAGGCACCAGAATGGGATGAAGCTCAGGGATGCCTAT
TGCTGAAGGCCAGGGTTGGGGGTAGGAGATGCTCTTCCTGAAATGGGCTCCCAGTAGTAATGGGATGAAAAATCCCGAAATAACAGATTCCAGGTGGAGG
TTGTCAACTGTCAGGAACAAGGAGGGTGCAATGATGGAAATGATTAGAGAAGTCACAATGCCAGCTGGAGACCTCAGTCATACAAAGCTATGCCCATGGC
TCATAGAACAAAGGGGTCCAAGATCCAGAAGAGATGGAAACCCAACCTGAATAGTGCTGGATTTAAATAATTACAAGAAACAGAGATAAAACAAATGATG
GATGACCAGGAGGCTGAAAGTAGCCAGTCCTTCAAGAACAAGGCTGCTTTGCCTAATTTGCAGAATAAAGCCACTTCTCAGACCGTGAACCCATGACTAG
AAGAAGACACCAGTTTCCAGTGAGGAAGGACCCTTTAACCCCGCAACAAGTGCAATGATTCTTTGTGGGCTTCTCCAAACGTATTTATGGCCACTAGAGT
TTGCTATGAAGGGCAATTTTGTAAACATGTAAAGGTGTGCAGGGAATATATTCTCCATTGTAACTACTCAGCTCTGCTGTTGAAGCGCAAAGGCAGCCAC
AGGCAATCCATGAATGAGCGAGGCTGGACCTGCCTTAAGTGCCCAATGACCCAAGACCCCCTAAGATCCTAGAGGTGCATGTGGTTCCAATGTCTAATTG
GAGAATCACAACATAGATTCCATGTGAATGTTCAGAGGCAAGGCAACGCCACTCACAGCAAGGAAATCTCAACATTAAAAAGTGTCTCCTGTAGAGTACT
GGGCCTTGGCAGAGATGGGGCCTTTAGCCATGGAAGGGCCGTGACCATCCAGCCTCAGAGCTGCCCATTACGGGTGGGCTCCTCACCCTCTAGGTCATTA
GGAAGAGAGGTCTGGCAGTGAGAAGACACAGGTGGTTCTCCTGGGATGGGCAGAAGTAGGGCCACAGGGAACCGGGAAGCTGCACAAGCAGTTGGCCCCG
ATTCCCAGGACACCACGTGGCTGCACCCCCTTACCCTCAGCTTACACCTCAGGTTTCAGGGAAGGTCACTGATGGCCCCCGTGGACCATAGATGCCACTC
AGCAGCAAAGGAGGGGAGAGTAGACCCTGAACCATGGGACCCCCACTCCCATCACATCCACACCACCCAGAAGCCACAGGCAAGGTAGGACCACCTTCTA
CTCTCCAACTGACACCTGAGACACCACTTGGAGATGACACCATAGGGGATGGGGTACTATTTGCTGGTACACTGTAATCCCCTCATCTAGGGTCAGCAAC
CTAGGACAGGGTCCAAATCTGGTCCCCCCTATTTGAAGGTTGCCATTGCCTGCTGTTGCTCTGCAAAGGGACAGGACTGGACACTGAGACAGAGAACCCA
AGGCCTGCAAAGATCACAGGGCATCCTTCCTCCCTTTCTAGAAAGGGTTTGCTGACCCCTGTCTACACACTGACTATTCTCTATGACGCTGGCGCCCCAG
TAGGAAGAACAGGCAGGTCTGGGCCCCAAGGGCAGAAGTGGGTGCCTCTACTCACCAGAGTTCCCAGGGTCATCCTGGAGGAAATGGTGCTTCCCATCCC
CCCTGCACAGGTTCTGTGGGGAGCTTGGGGTGTGTTTGCTGGGGTGTGTCCTCAGGCAAGAGGCAGAAGGTGTCACGTGGTGTAAGAGGTCGCGAGGGCC
CCTTCATGGATGGGGAGACCTCTGGGGTGACCAGCTGGGCTGAGGTGGGGAGTAAGAGGATGTTACCTGGGTGGTGGCAGTGGATGGTGAGGGGAGGGTG
GGAAGTGTCTGCTGAGCCGCTGGGTGCAGGTGAGTGTCTACAGGAAAGTGCAGGGAAAAATTCAAGGGCACGCAGCCCTGGGGGTGCTGGAAGGTTTGTG
TGGTTGAGAGCGGGTGAGAACAGAGCAGGCTGGTGGCTGGTGGGAGTGTCTGTGATTGTGTCCCTGTGCAACCCCACTTCACCCCTGTCCTGACCCCAGC
TCGGATTCTGGGGGCTCTGGTTTCTCCTTCCCGAGGGCGGGTGGGACTGCCGGGCTGCACTAGGGATCCCCGCTCCACGTCGCCCTCTGCAGCCCTCTGG
CCCCTCCACTCTCCGGGGGTTCCTTTCCAGCCTCCTCTCTGACCAGCTCCTCCCCTCGGAGGATAAGTAGCCTCTGGGAACGGACCCGGCGGGAAGGAGA
CGCGGAGGGAAACTGAGCGGGGGCGCAGTCCGGGGTGATCGCACGGGTCCTTCCAGAAGCCTCCCCTCCTCTGAAGCCCACAGTCCACAGCCCCCCACGG
TTGGCCTCCGCCCCGCTTAGGCTCCATCCCCGAACTCACCGGCCAGCCCGGTCCTGCACCAGCTGGACAGCAGGAGCAGAAGCGGGAGGCGTAGAAGGAA
CGCGGGGCTGGCGGCCGCTGCCATTGGGGAGTTGGATCGCAGGGGACAGCAGAAGCGAAGCCCAGCCCGTGGATCACCTGGCGGCTCGCAGGCTGTCTGA
ATGCAGCCCGTCTGAATGCAGCCCTAAACTCCAGTAAGCCCTAAACTCTAGCACTCCTTCTGCCCCGCCCCTCGGAGGAAACACACCCCCTTTGCTGAGC
CGCTAGCCAATCAGGTGTCTCTCAGCCAAGTTGCTCATCCAAGTCTACCCCACTTTCTACTGCAGCGCTCGCGCACTTCCCCCTGCTTCAGCCAGTCAGA
CTTTGCTGGCTGCCTGCCCGGGACCAGTCCTGCCAAAGGCTTCTTTCCATGACCCCCTCATGTAATCATCACCGCAATTTTTTCATTTTGTATTAATCCA
ATGTGGATACCGATGCACAGAAAGGTGAAGAAAATGCACAGAAGTGTTCAGCCGCGACAGGGTCTCCCTGTCCTCGCCTGTACCTGCGACACCCGCCTTC
CCTCTCCCTGCGTTGCAGAGTGCTCCCAACCCACCGTCCTGTGCGCAGATCCAAGCCCAGTCCCATCCCCGCGGCCTCATCCCAAATCCCGAGTGGACGT
GGTTATAGCCTGGGCTAGGTTTGTTTGTTTGGTTGGTTGGTTTTTCTTTCTTTTCTTTTTTTTCTTCGTGACAGAGTCTCGCTCTGCCGCCCAGGCTGGA
GTGCAGCGGCGCGATCTGGGTTCGCTGCAACCTCTGCCTCGCGAATTCAAACGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGACCACAGGTGCGCGC
CACCAAGCCCGGTTAAGTTTTGTATTTTGGTGGAGACGGGGTTTCACCATGTTGCCCAGGCTGGCTTTGGACTCCTGGGCTCAAGTGATCAGCCCGACAC
GGCCTCTCAAAGTGCTGAGATCACAAGGGTGAGCCACCACGCCTGGCCCGGGGCTAGATTTTATTACAGAAGCACCAGGTCTTCAGAGGCTTCAAAGAAG
ATATTGTACACTAAACAATTGGTTAAGATAGTAAATTTTATGTTCTACTTTTTTACCAAAATTAAACAGCTTTAAAAATTGTCTTAAAAATATGTGTCTT
GCTGGGATCTGCCCAATTCGGATTGGCAAAAAGACTCTGCTCATTAAAATCTTTGCATTTTAATGCAAAGCATTGAAAACCTTGTCTCTAAAATCACAAC
CTGTGAGGCACCTTGCTGATTTAGAAAGCACATCAGAGAGATTGACCCTGAGCTCCCCTTAGAACAGTGCCCCACCAGGTGTGGGGATGGCCCAGGGGAC
TCAGCAGAGCAGGTTCAAATGAAAGCTCCCCATAGCTACTAACTGCCAGCGCTTGCTTTGGGCCTGTTCCCCCTGGGCAAGGACCAGCCATCCTTCCAAG
CCGCGCACAAATACCCCCTCCCATGTGTGTCCCTCATCTTCCCACATGAAGGAACACCCTCCTGCTCCCTGAGGCCTGGATCCACAGTGATGGAGCGTAT
CCGGATCTCCCTGTGTGACAAATGCTCACACATTTCTTTGCTTCTCTACTAGAAGCATGAGGTCTTTGAGACTATACTAGATCTGTGTACAGCTTTTGAG
GGAAAAAAGCCCTAGTGGCCTACTGTTGCTCAATTGGAATGTGATCAATTGTGTTTCCCATGGGAGCAGGAGGCAAGGGAGGGGTCTGTGCGTGCGTGGA
GCTCACTTTGCAGTACACCCATCTGTGGCCAACCATTGATGCCTGGATCCATGGCTGCACCCACACCTCTGCTCAGTCCCTGGACGGTCCCTGCAGCCAT
CCTCAAAAGGAAACCCCAATTGTATCCTTGTCTTAATTATCATGAGGGCATCTGGAAGTGGTGGCAGAAACCAGAGACAGGTGAGGGTCCCAGTGGTTCC
TGGCAGCTGTGGAGGGCTTAGCTTAGGGTGAGGACTGGACAGAGCCCCTGGGTCCCATTCTGCCCCCAGCCACTCAGGCAATATCCTCTTTTCCCCTTCT
CTCTCAGCCTCTTCTCACCCTAGGGCTGTACCCAAAGCTCTGAATGAGACTGTCCCTGCCCCGCCCCATCCACTCCTGGTCCAGCTCAGCAGTGACCTTG
GAACTCCAGGAGCAGCTCAGTACCCCTGTCTCCGAGTCAGCTCTGCTCCAGGCAGGGCCAGAATCTGGAGTGTGCAGGAGGCCGGATGGCAGGGGCATTG
CCCCAGGACTGAGCCGTATTCTGAGGGTTCCCAGAGACCTGACCTCCTACTTGTATACAGTCTTTTCAGTCAGCGTCTGCCTTAAAGGCTGTGACCCAGG
CACCTTCCCTGGGAATTAACTCCAGCATTGTCCTCTGGGTCGACACAGTCCTTGGCAGCCTCTCCTTCCTGGGGTTACACCCAGTTCCTCTGCTCTTCTC
CAGTGGATGGAATCTCCTTCTCCTTGACACACAGCATCTGGAGCCACCAATCTGCTGCCCCACTCAAATGTGAGGACCGCACATGCCTGAGCTCCTGCTG
TCTGCACACCACGCACCGTGG


SNP Information

Context             (SEQ ID NO:28671):
TTCATCTAGAGCTAGTTTTTGTGTGTGCTGTAAGGAAGGGGCCCGCCTCATTCTTCTGCATGCAGCATCCAGTTGTCCCAGCACCATTCACTGTAGTGTA
S
AATGCACCTGCCCAACCTCCTGTCCCTCCCTCCTGCACTCAGCATCAGAAGTGCGTCCTGCTGAATGGTTCTCCCAGGGTTTCCACCAATGAATTCCCCT
Celera SNP ID:            hCV27989180
SNP Position Genomic:     54038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28672):
AACATCCCAGGGATCCTCTTCCTCACGTCATCCTTAAGAGCAGGCACCCACTTGTCTGAAGCCTGCATGAAGCCCCATTCGCCTACCCCCTACCTTTCTC
Y
CTCCTCCTTGTCCTCAGCCAGTTCTTGTGCTCAGGACACTCACCAACCATGATCTCCAAGGCTATTAGTAGCAACAGCAGAAACAAAAGAAGGCGCACAG
Celera SNP ID:            hCV25935884
SNP Position Genomic:     33284
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:28673):
GCCTTCGTGTGGGAGCCAGCTTTGGTATGGATCAATGCCCTGGCAGTGGCCTCTTAGGCTGTGTGCCTGATTGTGTCTGTGGATGAAACCATCAAGAATC
Y
GATTGACTGTGGATGCTCCCCCAGCAGCTAGCTGGGGCCGTGGTCGTGGCCGCCCCCATTGAGAGGCACCCCGCCTATCACATGACTGGCTGGCAGGCTG
Celera SNP ID:            hCV11415822
SNP Position Genomic:     24019
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28674):
AGGCCTTCGTGTGGGAGCCAGCTTTGGTATGGATCAATGCCCTGGCAGTGGCCTCTTAGGCTGTGTGCCTGATTGTGTCTGTGGATGAAACCATCAAGAA
Y
CCGATTGACTGTGGATGCTCCCCCAGCAGCTAGCTGGGGCCGTGGTCGTGGCCGCCCCCATTGAGAGGCACCCCGCCTATCACATGACTGGCTGGCAGGC
Celera SNP ID:            hCV11415826
SNP Position Genomic:     24017
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:28675):
CCCGGCCTGCGGCGCGCTGGGTGGCGACGAGTCGGCCTCGGCGTTGATCAGCACCAGGTGTGTGCGAACAGTGGCCGCGGCGGGGTGGAGCCTTGGTGAG
Y
CCCGCCCCCCCGCGCGGCCCCGCCCCCGCGCGTCTCGCGCCGGCTCCTCCAGGGCTGGGAGAGCAGGCCCCGGGGAGGGCAGCCTCAGAACAACTTTGCT
Celera SNP ID:            hCV11156383
SNP Position Genomic:     6896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:28676):
CCTGCGCCTCTCCGCCCCGGCCTGCGGCGCGCTGGGTGGCGACGAGTCGGCCTCGGCGTTGATCAGCACCAGGTGTGTGCGAACAGTGGCCGCGGCGGGG
W
GGAGCCTTGGTGAGCCCCGCCCCCCCGCGCGGCCCCGCCCCCGCGCGTCTCGCGCCGGCTCCTCCAGGGCTGGGAGAGCAGGCCCCGGGGAGGGCAGCCT
Celera SNP ID:            hCV11156384
SNP Position Genomic:     6881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 5;UTR 3;TFBS


Context             (SEQ ID NO:28677):
CACTCCCAAACATGCACACGTTCCCTCTGCACGGGTGTTTGGAACACCAGCCATCCCCCACCCCCTACCTTGTGCCAGCAGGAGATGTTTGTCCTTCTGC
Y
GTCTCTAGGATGGAGAGGCCTGAGGTGACTGCTTCCTCAGAGTCTCTGTGCAAACTCTCTGAGGAGCAGAAACCAGTTCAGTCTCTCTGGGTGTGGAGAG
Celera SNP ID:            hCV16209590
SNP Position Genomic:     40564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:28678):
CCAACCCCACTTTTACTTCATTATCTGCCCCTGGTTCTCTCACCACTCGAGCCCCTGCTTTCCTCCTTCACTCCCAAACATGCACACGTTCCCTCTGCAC
K
GGTGTTTGGAACACCAGCCATCCCCCACCCCCTACCTTGTGCCAGCAGGAGATGTTTGTCCTTCTGCCGTCTCTAGGATGGAGAGGCCTGAGGTGACTGC
Celera SNP ID:            hCV16209591
SNP Position Genomic:     40496
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,13)      total(G,13|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28679):
AATGCCCCCAGGATGATCCATCTATCTGGTAGACTAGAAGAAGACCAGTGGATATCTGAAGCATTTACTGGTGACACTAAAAAAAAAAAAAAAAAAAGAA
R
AAAAAGCACAAGCCCTGTCACATAAAAAAAAAAAGCATAAAAATATGCTTTCCTTAGCCCCTGCTTTCCCCAGGAACACATGGTGCCCCACATAATCACT
Celera SNP ID:            hCV16209598
SNP Position Genomic:     31201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28680):
CTGGTCTTTATCTGGGGTTTGATGTCACAAAGGAGCATCCTGAGGTCTCGCCCCACTTCTCCCAGCGTTTGGGTCAATTCTCCCCAAGTGCTGGTGGCAT
W
TACCTTCTTCCCCAGGAGGCCCAGAGGTTTGACCATGTTGTTGTCACTGTTGTACTGAAGGAAAAGATTTTTATTCAAGAAGACCTGCGCTTCACACCAG
Celera SNP ID:            hCV25933139
SNP Position Genomic:     32498
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,35)   caucasian(A,5|T,31)   total(A,6|T,66)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:28681):
GTGACAGAGAGGCCTCTAGCGGTTATATCACGTAAAATCTCGGGAGTTGTGCTTTAAATGACATAAGGAATAAGAAAATGTCCAACCCAGTGGGGGCTTC
M
CCTTGGCGTTCTAGACTTCTGTGAGCAGCATCTGCATCTTGTTTGTTTCTGAATCAGTTTCTGTTGATTCATTTTTCTCCTGATTGTGGATCGCATTTTC
Celera SNP ID:            hCV8789054
SNP Position Genomic:     7722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28682):
TGTCTCTGCCTCTACTATCTCTGTTTCAACCCCATAGCAGTGGTTCTCTGGCAAACTTCAGGAGGTCTCACTCTGAGCAAGCACTACTCGGCCAAGGACT
Y
CCCCCACAGACTTCTGCCCCTCCTCTCCACTTGGCAATCCCCTCTTTGGTGACCTGTCCTGCAAATTCCAGTCACTTTAGCTGCCCCAATCTCTGATCTC
Celera SNP ID:            hCV8789058
SNP Position Genomic:     20046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28683):
CACTGAATAAGCTTCCAAAATGATGCCCACACTAGTTATCCTGTTGAAAGAGGGGACTGATAGCTCCCAAGGCATCCCCCAGCTTGTGAATAACCTCAGT
R
CCTGCCAGGTGATTGCCAAGGCTGTAAGAGCCACCCTGGGTGCCTGTGGCATGGACAAGCTTATTGTGGATGGCGGAGGCAAAGCAACAATATCTAACGA
Celera SNP ID:            hCV8789059
SNP Position Genomic:     22552
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:28684):
GGAGGCTGAGGCGGGCAAATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAACCCGCATCTCTACTAAAAATACAAAAAAAAAAAAAA
A
TAGCTGAGCATAATGGCTGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCCCAGGTTGCAGTGAGCTGAG
Celera SNP ID:            hCV11415832
SNP Position Genomic:     13252
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28685):
TCATCACATTAGGTTTCAACATAGGAATTTTGGGGGGTTACAAACATCCAATCTACAGCAACACCCTAGTGACATCGTTTTTTGTTGCCCTCCCCTCCCC
W
CTACTGCCCATCTAAGTACTTTTACAGGCATCGAATAAGTTAAGTCAGTGCATGTGAAGTGCTTAGAAGGGCATCTGACACATTATAGAAGTTCAATAAA
Celera SNP ID:            hCV11415833
SNP Position Genomic:     10546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,4)      total(A,4|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28686):
TTTTGGGAGGTCAGGGAGGCTGGATCACCTGAGGTTGAGTTTGAGACCAGCCTGGCCAACATGTTGAAACCCTGTCTCTACTAAAAATAAGAGAATTAGC
Y
GGGTGTGGTGGCCAGTGCCTGTAATCCCATCTACTCAGCTTATTGAGTCAGGAGAATCACTTGAAGCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCAC
Celera SNP ID:            hCV3082488
SNP Position Genomic:     42185
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28687):
TTGTGCTCAGGACACTCACCAACCATGATCTCCAAGGCTATTAGTAGCAACAGCAGAAACAAAAGAAGGCGCACAGGGCTAGAAGTCAGGGATATTCTTC
R
CATACTGTGGAGAGTAACAGGCAGGAAGCTGGGCGTGTACACATTCACCCTCACTGGTATGGTGAAGAAATGTTATCCAACAGCGTGGGTGTGGGCACTG
Celera SNP ID:            hCV25931972
SNP Position Genomic:     33409
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 NONSENSE MUTATION;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,38)   total(A,2|G,74)   
SNP Type:                 NONSENSE MUTATION;INTRON


Context             (SEQ ID NO:28688):
TTCATAATGGGAGACCTCTGCCTGCCCAGGCCATCCTGGACCTTCTTCACCTGAACTTGTTCCCCTAAAGCAATGACCACTTTAAAACATACCTTAGTAA
R
CCGCGCACAGTGGCTTACACCTGTAATCCCAGCATTTTGGGAGGTCAGGGAGGCTGGATCACCTGAGGTTGAGTTTGAGACCAGCCTGGCCAACATGTTG
Celera SNP ID:            hCV3082489
SNP Position Genomic:     42050
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28689):
TTTGTACCAGTACCATTCTGTTTTGATCACTGTAGCCTTATATTATAGTTTGAAGTCTGGCAGTGAGATGCCCCTGGCTTTTTTTTTTTTTTTTTTTTTT
T
GCGTATGATTGTTTTGGCTATTTGGGCTCTGTTTTAATTCCAAATAACTTTTAGATTAGATTTTTCTAATGTTGTGAAAAATGATGTTGGTTCGATAGGG
Celera SNP ID:            hCV27394268
SNP Position Genomic:     57615
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28690):
CTCATTTTGGTTGACACAATAATCCATAAAAACAAGTAAAGTGCCCACTCTGATCTGGAAGGGGTAAGGAGGTGAAAGCATTGATAAGCCAAAGTGACAG
M
CTCTTTTGTAGACATGATCCTGCCTAAATTTCTCATGCCCTACAAAAGAGGGCCCTGAACTCCCCGCTTCTCCAGAGCTTCATGCAGTCCTTGAAGCACT
Celera SNP ID:            hCV27394269
SNP Position Genomic:     55194
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,9)   total(A,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28691):
TCCCCTCTCTTACTGCCTGCCTCTGTTTGCCCACCCCATTCCACACTTACCACTGGTCTTTATCTGGGGTTTGATGTCACAAAGGAGCATCCTGAGGTCT
Y
GCCCCACTTCTCCCAGCGTTTGGGTCAATTCTCCCCAAGTGCTGGTGGCATTTACCTTCTTCCCCAGGAGGCCCAGAGGTTTGACCATGTTGTTGTCACT
Celera SNP ID:            hCV25933504
SNP Position Genomic:     32446
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,35|T,1)   total(C,69|T,1)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:28692):
TACATTTGAAAACGGTTGAAATGGCTCCTGGCTGTGGCAGGGCAGCAGGCTGGGGCCATGGCAGGCCAAGTGCAGGCCCAAATCAGACTGCAGGAGCTTC
H
CATACACTCTGGGCAGGCACCTGCCTCTCAGTAGCTCACTGAGAGATGAGGGCACCCAGCAGGGGTCCCCAAGGGAAGGCACAAAGAGGGAGCCAGCCTG
Celera SNP ID:            hCV8789060
SNP Position Genomic:     46622
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,11)   Caucasian(C,0|T,60)   Chinese(A,2|T,14)   Japanese(C,0|T,40)   African(A,4|T,56)      total(A,6|T,170) ;(A,-|T,-)   (A,-|T,-)   Caucasian(A,60)   African-American(T,4|A,56)   Asians(T,2|A,54)   total(A,170|T,6)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28693):
GGGAGCCAGCCTGAGATTAAGGGGCTGTGAAAACAATGCTTTTCCAGAAGTCCTAGCTGGTTACCTTCACAGCTGCTTGCAAAACAGAGAAATTCTACAT
Y
CACTCACAGCAGCCATGTCCACAGGGTGCTCCAGACGGCCAGGAAGTTAAAGTCACGCCACCTGGCTGTGGAGATCAATGAGGCTGAAGTGCAACAGGAG
Celera SNP ID:            hCV8789064
SNP Position Genomic:     46810
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;(C,-|T,-)   Caucasian(G,84)   African-American(A,6|G,76)   Asians(G,78)   total(G,238|A,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:28694):
CATGGACTGCCCTTCAGGCATCTGCCCGGCTCACTCCCACTCCTGCTCCCAGGTGGCACACCCTTCCACGCCTGGTTCTCCCTGCCCCTCGCATTTGGAA
Y
CCTTGTATTTCTTTCTTTCTTTCTTTTTTTAAAATTGTGGTATGATTCATGTAACGTGATTTTTCATCTTAACCACTGTTAAATGTAAAGGCCTCTATTT
Celera SNP ID:            hCV3082490
SNP Position Genomic:     41851
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28695):
AACAGGCAGGAAGCTGGGCGTGTACACATTCACCCTCACTGGTATGGTGAAGAAATGTTATCCAACAGCGTGGGTGTGGGCACTGCCCAAATTCTTTACC
Y
TGGAACAACTGAGGTCAGGCCTGTAGAGACCCAATTAAAGAACAATTTTGTGAAGAGAGTGTTTTCCAAGTATTCAGAATATAATCATTTATTGAAAAAT
Celera SNP ID:            hCV3082492
SNP Position Genomic:     33525
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,30|T,2)   total(C,60|T,6)
SNP Type:                 UTR 5;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,29|T,3)   total(C,61|T,7)   
SNP Type:                 UTR 5;INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:28696):
TTTCTCCCTCCTCCTTGTCCTCAGCCAGTTCTTGTGCTCAGGACACTCACCAACCATGATCTCCAAGGCTATTAGTAGCAACAGCAGAAACAAAAGAAGG
Y
GCACAGGGCTAGAAGTCAGGGATATTCTTCGCATACTGTGGAGAGTAACAGGCAGGAAGCTGGGCGTGTACACATTCACCCTCACTGGTATGGTGAAGAA
Celera SNP ID:            hCV3082493
SNP Position Genomic:     33378
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,33|T,5)   total(C,63|T,13)   
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,35|T,5)   total(C,65|T,13)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:28697):
GGGGTAGCATTGTAGAACTGCCCTCTGTGAGCCAGTGCCTTGCCTAGGGCCTCAGGCTGTGGTCTCCCATGAACTGGGTGTAACATCCCAGGGATCCTCT
Y
CCTCACGTCATCCTTAAGAGCAGGCACCCACTTGTCTGAAGCCTGCATGAAGCCCCATTCGCCTACCCCCTACCTTTCTCCCTCCTCCTTGTCCTCAGCC
Celera SNP ID:            hCV3082494
SNP Position Genomic:     33203
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,4)   caucasian(C,6|T,4)   total(C,8|T,8)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,23)   caucasian(C,17|T,19)   total(C,32|T,42)   
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28698):
AGATAAACAGATATAGATATATATGTGGTTAAGATGGAACATTTTGTGTTACATCAATTATATCAAAATTTAAAAATTAAACAAAGAAAATAATAAATAA
A
AGGATTCCAAAGTGGGAGGGTGGTGGCAGCAGGTGTGGAAGGGTGTATCACTTAGGAACAGGTGTGGAAGTGAGCTGGGTAGACTTCTGAGGGAAGAACA
Celera SNP ID:            hCV27394270
SNP Position Genomic:     49870
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28699):
ATGACATTCAATAGAAAGGAAAAAGAGGCATTTATCACAGGACACACGCTGAATTCCTGTGGGGTCCCAGATGTTCAGGAAAGTGACCTGGAGTAGAAGG
Y
GGGGGGTAGCATTGTAGAACTGCCCTCTGTGAGCCAGTGCCTTGCCTAGGGCCTCAGGCTGTGGTCTCCCATGAACTGGGTGTAACATCCCAGGGATCCT
Celera SNP ID:            hCV3082495
SNP Position Genomic:     33100
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28700):
TAGATAAACAGATATAGATATATATGTGGTTAAGATGGAACATTTTGTGTTACATCAATTATATCAAAATTTAAAAATTAAACAAAGAAAATAATAAATA
A
AAGGATTCCAAAGTGGGAGGGTGGTGGCAGCAGGTGTGGAAGGGTGTATCACTTAGGAACAGGTGTGGAAGTGAGCTGGGTAGACTTCTGAGGGAAGAAC
Celera SNP ID:            hCV27394271
SNP Position Genomic:     49869
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28701):
AGTGTATGACCTCCTGAGACTTAAACTCTAGCTGAACACACATGACATTCAATAGAAAGGAAAAAGAGGCATTTATCACAGGACACACGCTGAATTCCTG
Y
GGGGTCCCAGATGTTCAGGAAAGTGACCTGGAGTAGAAGGCGGGGGGTAGCATTGTAGAACTGCCCTCTGTGAGCCAGTGCCTTGCCTAGGGCCTCAGGC
Celera SNP ID:            hCV3082496
SNP Position Genomic:     33059
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28702):
ATAGATAAACAGATATAGATATATATGTGGTTAAGATGGAACATTTTGTGTTACATCAATTATATCAAAATTTAAAAATTAAACAAAGAAAATAATAAAT
A
AAAGGATTCCAAAGTGGGAGGGTGGTGGCAGCAGGTGTGGAAGGGTGTATCACTTAGGAACAGGTGTGGAAGTGAGCTGGGTAGACTTCTGAGGGAAGAA
Celera SNP ID:            hCV27394272
SNP Position Genomic:     49868
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28703):
TATAATCATTTATTGAAAAATAAAAGAAGACATTTAAAAACAAAATTAACTTTGAATAAACTCTCTCTCCTCTCCTGTCCCTGCTGCCCCTGCAAAAAAA
M
CCCCCTCTGGTGTGAGCAGGATGGTTGGAGGTTATGTGAGCTCCTTCTCCTTTCCTCCAGTTTCCTCTTCCCTTCTCCTCCCTGCCTCTTTTGCTTTTCC
Celera SNP ID:            hCV27851550
SNP Position Genomic:     33705
SNP Source:               Applera
Population(Allele,Count): african american(A,32)   caucasian(A,20|C,2)   total(A,52|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:28704):
ATTAATTACTGTCCAGGTCATGTTCATTGCGTCAAAGAGGAGGGATTTCTCTCCATTGGTGGCGAACTGCCAGGATGCACCAGTGCACCGTTCTGCTTCA
Y
GTTGACAAAACATCTCGACTTGCAGAGTGGAAGGATCTGCAATCCAAACACAAAGCCATCATCCTCCACTCTTTGAGAAGTCCATCATCCTCCAATAGGT
Celera SNP ID:            hCV3082497
SNP Position Genomic:     32098
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:28705):
GATAGATAAACAGATATAGATATATATGTGGTTAAGATGGAACATTTTGTGTTACATCAATTATATCAAAATTTAAAAATTAAACAAAGAAAATAATAAA
T
AAAAGGATTCCAAAGTGGGAGGGTGGTGGCAGCAGGTGTGGAAGGGTGTATCACTTAGGAACAGGTGTGGAAGTGAGCTGGGTAGACTTCTGAGGGAAGA
Celera SNP ID:            hCV27394273
SNP Position Genomic:     49867
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28706):
TCTTTCTTCCATGTCTCCTTGATCTTACTGGCTTCATGATTAATTACTGTCCAGGTCATGTTCATTGCGTCAAAGAGGAGGGATTTCTCTCCATTGGTGG
Y
GAACTGCCAGGATGCACCAGTGCACCGTTCTGCTTCACGTTGACAAAACATCTCGACTTGCAGAGTGGAAGGATCTGCAATCCAAACACAAAGCCATCAT
Celera SNP ID:            hCV3082498
SNP Position Genomic:     32060
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS


Context             (SEQ ID NO:28707):
TCTGTCTTTCTTCCATGTCTCCTTGATCTTACTGGCTTCATGATTAATTACTGTCCAGGTCATGTTCATTGCGTCAAAGAGGAGGGATTTCTCTCCATTG
R
TGGCGAACTGCCAGGATGCACCAGTGCACCGTTCTGCTTCACGTTGACAAAACATCTCGACTTGCAGAGTGGAAGGATCTGCAATCCAAACACAAAGCCA
Celera SNP ID:            hCV3082499
SNP Position Genomic:     32056
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS


Context             (SEQ ID NO:28708):
TGATTTTCATGAAAAAAACAAACAAACAGGAGTTTATTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTAT
C
GTCTCTTGTATATACACAGGAAACACCTGGAGAAAACAAGTAATCCTTAAAGTGCTGGCTTAGAGCTCCAGCATCTTCAACAGAAAACAATAAACGTCTA
Celera SNP ID:            hCV27394276
SNP Position Genomic:     44491
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28709):
ATGATTTTCATGAAAAAAACAAACAAACAGGAGTTTATTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTA
T
CGTCTCTTGTATATACACAGGAAACACCTGGAGAAAACAAGTAATCCTTAAAGTGCTGGCTTAGAGCTCCAGCATCTTCAACAGAAAACAATAAACGTCT
Celera SNP ID:            hCV27394277
SNP Position Genomic:     44490
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28710):
CTGGTGTTGCATTTAAGAAGACTTTCTCTTATGCTGGGTTTAAAATGCAACCCTCCCAAAAATACCAAAATCCCTAGATTGCCCTTTTGAATGTTGAGCT
Y
GAGTTGAAAGCTGAGAAAGATAATGCTTAGATAAAAGTCCACACGGTTGAGGATTATCAGGCGATTGTTGATGCCGAGTGGAACATTCTCTATGACAAGT
Celera SNP ID:            hCV27945869
SNP Position Genomic:     23185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:28711):
AATGATTTTCATGAAAAAAACAAACAAACAGGAGTTTATTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCT
A
TCGTCTCTTGTATATACACAGGAAACACCTGGAGAAAACAAGTAATCCTTAAAGTGCTGGCTTAGAGCTCCAGCATCTTCAACAGAAAACAATAAACGTC
Celera SNP ID:            hCV27394278
SNP Position Genomic:     44489
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28712):
AAATGATTTTCATGAAAAAAACAAACAAACAGGAGTTTATTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATC
T
ATCGTCTCTTGTATATACACAGGAAACACCTGGAGAAAACAAGTAATCCTTAAAGTGCTGGCTTAGAGCTCCAGCATCTTCAACAGAAAACAATAAACGT
Celera SNP ID:            hCV27394279
SNP Position Genomic:     44488
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28713):
GAGTTCATCGGTTGGAGGAGCCCAATCAGCTGCTCATTAGTGTGCCTTTGACAAGCCTTTGTACGGCGGGGAGGAAAAATGATTTTCATGAAAAAAACAA
A
CAAACAGGAGTTTATTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCGTCTCTTGTATATACACAGGA
Celera SNP ID:            hCV27394280
SNP Position Genomic:     44412
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28714):
ACAGAGTTCATCGGTTGGAGGAGCCCAATCAGCTGCTCATTAGTGTGCCTTTGACAAGCCTTTGTACGGCGGGGAGGAAAAATGATTTTCATGAAAAAAA
M
AAACAAACAGGAGTTTATTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCGTCTCTTGTATATACACA
Celera SNP ID:            hCV27394281
SNP Position Genomic:     44409
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28715):
CTGAGGGTGGTGGCCATGGCTTTGGGTCAGACTGTGCCTGGAGCATATGAGGAGACACATGATGAGGAGGCAGCAAAGGATGAGGGTGGTGGCCGTGGCC
Y
TGGGTTGGGCTGTGCCTGAGGACATGGTGGGTGGTGCTGAAATGGAAGCACAAGAGTGACAACCCTTGTCCAGGCCCCAAATCTGAGGAGATGCCTCCTC
Celera SNP ID:            hCV25962372
SNP Position Genomic:     60862
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,37|T,3)   total(C,69|T,3)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS


Context             (SEQ ID NO:28716):
CTTCCTTACAAAGCCCCCACCAAAGTGACACCAGCTACTTGTGAATGTAGCCAACTTTACTGAAGATTTAGAGGTTATGTTATAAGGCTGTGAATAATTT
W
AAAAAAAAATCACCTATTTGCTCGACCTCTTTCTTATCTCTTCTTTGGACTAGAAATAAAATATCTATGATTTGACCACACTGTCATCTAGTACTCGACC
Celera SNP ID:            hCV27394282
SNP Position Genomic:     41307
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28717):
ACTTCCTTACAAAGCCCCCACCAAAGTGACACCAGCTACTTGTGAATGTAGCCAACTTTACTGAAGATTTAGAGGTTATGTTATAAGGCTGTGAATAATT
W
AAAAAAAAAATCACCTATTTGCTCGACCTCTTTCTTATCTCTTCTTTGGACTAGAAATAAAATATCTATGATTTGACCACACTGTCATCTAGTACTCGAC
Celera SNP ID:            hCV27394283
SNP Position Genomic:     41306
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,6)   total(A,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28718):
CGCCCTGCCAATACTGCTGCTGTGGGGACACCAGCGGGGGTGGGCCAAGAACAGAGTGTATGTGTGTGTTTGTGTGTGTGTGTGTGTGTGTGCATGGGTG
Y
TTGTGTGTGTGTGCGTGCATATGTGTGATATGACCACTGAGTAGCTCCTTAGCAGGGCCAATATTTTCTACAAGTCTGATGACTCACAGGAAGGAGCACA
Celera SNP ID:            hCV27394285
SNP Position Genomic:     39186
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28719):
TGTGCCTCTATGGTTGGGCCAATGATCAATACACAGATATACCTAAAGCCCCTCCCCATCTGTGTTCTTCCCTCCCCTCTCTTACTGCCTGCCTCTGTTT
S
CCCACCCCATTCCACACTTACCACTGGTCTTTATCTGGGGTTTGATGTCACAAAGGAGCATCCTGAGGTCTCGCCCCACTTCTCCCAGCGTTTGGGTCAA
Celera SNP ID:            hCV25933597
SNP Position Genomic:     32374
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,20)   caucasian(C,17|G,19)   total(C,29|G,39)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28720):
TTTTGTATCCTGAGACTTTGCTGAAGTTGCTTGTCAGCTTAAGGAGATTTTGGGCTGAGATGATGGAGTTTTCTAAATATACAATCATGTCATCTGCAAA
Y
AGAGACAATTTGACTTCCTCTTCTCTTGTTTGAATGTACTTTATTGCTTTCTCTTGCCTGATTGCCCTGGCCAGAAGTTCCAATACTATGTTGAATAGGA
Celera SNP ID:            hCV27394288
SNP Position Genomic:     36159
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28721):
AGAGGTCCTTTACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGCAATTGTGAATGGGACTTCACTCATGATTTGGCTGTCTGTTTG
T
CTGTTATTGTTGCATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTGTCAGCTTAAGGAGATTTTGGGCTG
Celera SNP ID:            hCV27394289
SNP Position Genomic:     36015
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28722):
GTGGCAGTGTGCCCTGGGCTTCTAACCGTCCTCTCCCTGCCCCAGCTGCCTTGAGGTCCCGGCCAATGGTTTCAACACTCAGGCTAGGAATGCCAAGGCC
M
GGCAGAGCGAGGCTGTGGAAGCCTTGGCATAAGCGGAAGGGAGGATCTGAGGGAGAATGGGACAAGAGAAGTCGGAAAGAAGGAGTTAGGGCAGGAGAAC
Celera SNP ID:            hCV27512496
SNP Position Genomic:     40128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28723):
CATTGTGACTGGATCATTGGTTAATGGGAAGGGGTTTCTACACTGAGGAAGAAACAGTGGGAGGTGGGATGGGAAAGGGAGGATGGTGGGAAATCCTTAT
R
GCCATCACTGACTCTCCAGACAGGAAGCCCACGGAGAAGTCAATCAAATTTTCTATCGCACACACACACTGACACCCACACAGGGAAGGCTTTTGACCTT
Celera SNP ID:            hCV3082500
SNP Position Genomic:     31719
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28724):
GGAGCCAAAGTTGTCTTGTCTGAACTCCCCACTGGAGATGTGGCCGCCCAGTACTTTGCTGACAGGAACATGTTCTGTGCTGGCCAAGTACCTGAGGAGA
M
TCTGAAGAGGACAATGATGGCCTGTGGAGGCTCAATCCAGACCAGTACGAATGCTTTCTTAGCAGATGTGCTGGGTCGACGCCAGGTGTTTGAAGAGACC
Celera SNP ID:            hCV3082501
SNP Position Genomic:     23406
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS


Context             (SEQ ID NO:28725):
TTTTCTTTTCTTTTTTGAGACAAAGTCTCGCTCTGTTGCCCAGGCTGGAGTTCAGAGGCACAATCTCTGCTTACTGCAACCTCTGCCTCCTGGGTTCAAA
Y
GATTCTTCTGCCTCAGCCTCCTGAGTGGCTGGGATTACAGGCGCACACCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACTGGGTTTCACCATG
Celera SNP ID:            hCV26172978
SNP Position Genomic:     10162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28726):
AAGAGGTCCTTTACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGCAATTGTGAATGGGACTTCACTCATGATTTGGCTGTCTGTTT
G
TCTGTTATTGTTGCATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTGTCAGCTTAAGGAGATTTTGGGCT
Celera SNP ID:            hCV27394290
SNP Position Genomic:     36014
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,4)   total(G,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28727):
GAAGAGGTCCTTTACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGCAATTGTGAATGGGACTTCACTCATGATTTGGCTGTCTGTT
T
GTCTGTTATTGTTGCATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTGTCAGCTTAAGGAGATTTTGGGC
Celera SNP ID:            hCV27394291
SNP Position Genomic:     36013
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28728):
TGAAGAGGTCCTTTACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGCAATTGTGAATGGGACTTCACTCATGATTTGGCTGTCTGT
T
TGTCTGTTATTGTTGCATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTGTCAGCTTAAGGAGATTTTGGG
Celera SNP ID:            hCV27394292
SNP Position Genomic:     36012
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28729):
CCTTGAGCAGTGGTTTGTAGATCTCCTTGAAGAGGTCCTTTACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGCAATTGTGAATGG
K
ACTTCACTCATGATTTGGCTGTCTGTTTGTCTGTTATTGTTGCATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGT
Celera SNP ID:            hCV27394293
SNP Position Genomic:     35985
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28730):
GATGGCTGCGGGCAGGCTTGACTGATGTCAGGCCTTCCACAAGAGGTGGTGGAGCAGAGTCTTCTCTAACTCCCCCGGGGAAAGGGAAACTCCTTTTCCC
R
GTCTGCTAAGTAACAAGTGCCTTCCCAGGCACTGGCGCTACTGCTAGACTGAGGAGCCCACTACTGGCCCTGTCTGGGCATGACAGAGGGCTCACACTCT
Celera SNP ID:            hCV29018184
SNP Position Genomic:     59876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28731):
GCATCTGCTTCTCAGAGGACCTGGACCGAGGAGTGGATTCACTGGAGGAAATTATATTTCATAAGATAGAACATTCTGAGAATAGTAACACTTGGCATAC
M
CCTTACTACATCAAAAGTAAGAAATTGGCCTGGCACGGTGGCTCATGCCTGTAATTCCAGCACTTTGGGAGGCTGAGGCGGCAGATCACGAGGTCAGTAG
Celera SNP ID:            hCV11415795
SNP Position Genomic:     54257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,5)      total(A,5|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28732):
TCTTATTTCCTTGAGCAGTGGTTTGTAGATCTCCTTGAAGAGGTCCTTTACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGCAATT
K
TGAATGGGACTTCACTCATGATTTGGCTGTCTGTTTGTCTGTTATTGTTGCATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTT
Celera SNP ID:            hCV27394294
SNP Position Genomic:     35977
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28733):
TGAAACACTCAGACACCTCCTCACTCTGACCTTCCTTCCTGGTTTCCTTGGCTCTGGGATGAAACAGTGTCCTGCTAGTTTTCACTGCATCAGAAGAGAA
W
CCTCTCCCGTGGGGCAGAACTGCTGGGCCACCAGAGCGCACCGCTCTGCTCTTTGCCCTCAGGGCATCTTGATCTGCATGGTGGGAGGAACTTCCCCAAT
Celera SNP ID:            hCV29018185
SNP Position Genomic:     56569
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28734):
TCTGGAAATCTATCAAAACTACCTCCAATGCCAGCCCTGAGACCCTCCCCTCCCCCACCCTGGGGCATCACCTCCTCTTCTGCCACAGCGGGAGGGTGGG
G
TGTGCTGTCATCTTGCTTCCCTCAGCAGCTGTGTGAGCTCCCTGAGGACAGGGGACACCCCCTCTCCCTACCCCAAAACCTGTCCCAGGGGCTACCCCAT
Celera SNP ID:            hCV11415796
SNP Position Genomic:     52672
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,1)   total(G,1|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28735):
AGAAGCTTGTGGTGCCTCTGCTGCTGTCCCTAGGCCTGACAAGAGTCTGAAATTGTCTTTGGTGATCAACCTTTGTCCTTTCTGGTAGAGAAGGGAGGAT
R
CAATCAAAAGTGGCTCAATAATAACTGGAAAATAAATGGAAAAGAAAGATGTTCATTTCATCCAGGTTCTTGAATTCATTGACATACGGTTGTACATAGT
Celera SNP ID:            hCV28032886
SNP Position Genomic:     44733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28736):
ACCCCCTCTCCCTACCCCAAAACCTGTCCCAGGGGCTACCCCATAGCGAGGGGGAGGGGACAAAACCTCTGCCTTCCAGGATGACCTGGCTCGGCAGGAG
M
TGAGGAGGCGTCTCCTCAGATTTGGGGCCTGGACAAGGGCTGTCACTCCTGTGTTTCCCTTTCGGCACCACCCACCGTGGCCCCAGGCACAGCTCAACCT
Celera SNP ID:            hCV29018186
SNP Position Genomic:     52829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28737):
TGCTGGCTTAGAGCTCCAGCATCTTCAACAGAAAACAATAAACGTCTAGAGAAGTGGCAGATCATGGGAAGGCCAATCTATGGCATCAGAGAAGCTTGTG
R
TGCCTCTGCTGCTGTCCCTAGGCCTGACAAGAGTCTGAAATTGTCTTTGGTGATCAACCTTTGTCCTTTCTGGTAGAGAAGGGAGGATACAATCAAAAGT
Celera SNP ID:            hCV11415797
SNP Position Genomic:     44644
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28738):
GATCCGTAAGGAATTGCCACACTGTCTTCCACAATGTTTGAACTAATCTACACTCCCACCAACAGTGTAAAAGTGTTTCTATTTTTCCACAACCTCTCCA
R
CATCTGTTATTTCCTGACTTTTTAATGAACGTCATTCTAACTGGCGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTAACGACCAGTGATG
Celera SNP ID:            hCV27394296
SNP Position Genomic:     34874
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28739):
CCTCTTTCTTGGTCTGTTTCTGGAAATCTATCAAAACTACCTCCAATGCCAGCCCTGAGACCCTCCCCTCCCCCACCCTGGGGCATCACCTCCTCTTCTG
M
CACAGCGGGAGGGTGGGGTGTGCTGTCATCTTGCTTCCCTCAGCAGCTGTGTGAGCTCCCTGAGGACAGGGGACACCCCCTCTCCCTACCCCAAAACCTG
Celera SNP ID:            hCV29018187
SNP Position Genomic:     52654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28740):
TCCCAGCACTTTGGGAGGATGAGGCAGGAGGATCACTTGAGGCCGGGAGTTCAAGACCAGCCTGGGCAACATAGTAAGACTCCATCTCTACAAAAAAAAA
W
TTTTTTTTATTATACTTTAAGTTTTGGGTTACATGTGCAGAACGTGTAGTTTTGTTACATAGGTATATACGTGCCCTGGTAGTTTGCTGCACCCATCAAC
Celera SNP ID:            hCV27394297
SNP Position Genomic:     34244
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28741):
TGAAGCACTCTCTGGCTGTCTCTGCAAGTGGCTGAACAGCTCCTCCTGGTCTCTATGGGGCTGCAGAGGCTCCAGGTCCCTATGGCTCAGGGGCTGTCAC
R
CTCACCAGGTCCCACCAAGGGTGCCCCCCACCGTGGGTGGTGGAGGAGACCAGGTGTAGCTGCTCTTGCCCCTACCCCTCTCCTGACCTGCCAATCTTAA
Celera SNP ID:            hCV29018188
SNP Position Genomic:     52384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28742):
ACAGCTGCCCTGCAGACATGGAAGTTCAACACTAGCTACATCGACACTGACAGCAGCAACTTCCCTGAACATGGCTACTACCAAGCCGGAGTTTGGTGTC
Y
CATTTGCAGTGAGCATTGAATTTGGCCCAGGGCCAGGAACCAGGCACCTGGTGTTTGGAGGGCTCCATCAGGGACCCTGGGCGGGAAGCACAGCAGCCAC
Celera SNP ID:            hCV29018189
SNP Position Genomic:     48708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28743):
TAGAAGAAGACCAGTGGATATCTGAAGCATTTACTGGTGACACTAAAAAAAAAAAAAAAAAAAGAAAAAAAAGCACAAGCCCTGTCACATAAAAAAAAAA
A
GCATAAAAATATGCTTTCCTTAGCCCCTGCTTTCCCCAGGAACACATGGTGCCCCACATAATCACTGGCTCATGTGACAGCCACTCTACCAGGCCCTGGG
Celera SNP ID:            hCV27394299
SNP Position Genomic:     31235
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28744):
CCCACCCCATTCCACACTTACCACTGGTCTTTATCTGGGGTTTGATGTCACAAAGGAGCATCCTGAGGTCTCGCCCCACTTCTCCCAGCGTTTGGGTCAA
Y
TCTCCCCAAGTGCTGGTGGCATTTACCTTCTTCCCCAGGAGGCCCAGAGGTTTGACCATGTTGTTGTCACTGTTGTACTGAAGGAAAAGATTTTTATTCA
Celera SNP ID:            hCV25933172
SNP Position Genomic:     32475
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(C,13|T,23)   total(C,16|T,54)
SNP Type:                 SILENT MUTATION;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:28745):
GGAAGAATTTCAGTGTAATGTGAATTGCACGTTTGCTTATGAGTAACTTAGTCTGTGAGAAATGGTGAATGCAGAAAACTGCCTCACAAATGATTATACT
R
CCTCTCAAATAATTTCCAACAACTCTTCTTCCTCCACTGCGTAGTAATCCACAAGCTGCTACTCTTCTAACTCCCGGGGATCCATGCCCTCCCCTCTGTT
Celera SNP ID:            hCV15951640
SNP Position Genomic:     26427
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28746):
AGATCACGTAGGTTCTCTGTGAGAGAGGCCGCATGCCCAGCAGGACAGAACATCCCTGGCTGACAAGGGCCATCTTCCCCTGTCCTTATCTCTGCCTGGG
M
TCCAGCTCCGTCCTGCCTGACAGAGGCCGTGGAGCAGAGCACTGGGCTGCTGGTCAATGTCCTGGTCTTTAGATAGACCAGTCTCCGGATGGGGTCACAG
Celera SNP ID:            hCV28011115
SNP Position Genomic:     43735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28747):
ATTCTCTTCTCCCTAATTGTTGGCTACAAAGTCATCTTTCCCAGAAGGAGTCTCTAAGATGGAGGTGACATTTGGACAGTATTGGAAAGCAGTCTCCAAC
S
ACTAGAGGACAGTGGAATAAAGCCAACCTGTTTGGTCTCTGTCAGCCAGAAATGGAGAAGAAAACCTGGTTGAGTCAACAAGAGAAAGAAAATTAGTATC
Celera SNP ID:            hCV1803626
SNP Position Genomic:     49394
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,10)      total(G,10|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28748):
TCCCATGTGCCTCTATGGTTGGGCCAATGATCAATACACAGATATACCTAAAGCCCCTCCCCATCTGTGTTCTTCCCTCCCCTCTCTTACTGCCTGCCTC
Y
GTTTGCCCACCCCATTCCACACTTACCACTGGTCTTTATCTGGGGTTTGATGTCACAAAGGAGCATCCTGAGGTCTCGCCCCACTTCTCCCAGCGTTTGG
Celera SNP ID:            hCV25933606
SNP Position Genomic:     32369
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,22)   caucasian(C,15|T,19)   total(C,25|T,41)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28749):
GAAAGGACAGCTGCCCTGCAGACATGGAAGTTCAACACTAGCTACATCGACACTGACAGCAGCAACTTCCCTGAACATGGCTACTACCAAGCCGGAGTTT
R
GTGTCCCATTTGCAGTGAGCATTGAATTTGGCCCAGGGCCAGGAACCAGGCACCTGGTGTTTGGAGGGCTCCATCAGGGACCCTGGGCGGGAAGCACAGC
Celera SNP ID:            hCV1803627
SNP Position Genomic:     48702
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28750):
GGGACTCTGGGAATTCTCCATCCCTGTCCTCCCTCCTCACCCACCTGCCCTTTGCTCCACTCCCAATTCTGCCCCCATACCTGTCACTCCAAAGGACTCT
Y
CTCAGCAGCCAGGTAGGATGAAGCAGGGGAGGATGAGGAGGAGGCTGCAGGGACTGAGGGTGGTGGCCATGGCTTTGGGTCAGACTGTGCCTGGAGCATA
Celera SNP ID:            hCV25963119
SNP Position Genomic:     60708
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,6)   caucasian(C,35|T,5)   total(C,59|T,11)
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:28751):
TTCCTGTGTCCTTGGCATTGGGTGGGCCTGCAGGCAAATATTCCTCCTTCCCCTTCTTCCTCAGCCTCTCCTCACACTGCAATCAGCACCCATAGCTCTG
M
AGGTGACTGTCCCTGTTCCACCTTATTCATTCCTGGTCCAGCCCAGTGGTGCCCATGGACTTAAGCAGCAGCTCAGGTCCCCCGTGTCTGAGTCCACTCT
Celera SNP ID:            hCV11558636
SNP Position Genomic:     58931
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28752):
TTGTTTTACTGACTGTATCATTTGGAAGAAAGAGGTCATCATTCAAAAAGTACTTGATTTTTCAAACAAAAGCAGAAGAAAGAAAATGTTGACATATCTT
K
TTTAGTCAGCCAGAACTTTAATTGCAGGAATTCCATCAGGTAGCACCAATAAAAAATAACATAAGATGTTAGGAATAACCGCTGGTAAAATTATTGACAA
Celera SNP ID:            hCV11558637
SNP Position Genomic:     58214
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28753):
TAATACAAGAAAATTCTAAACTCAGTAGGTTTTTGGGAAATAGAACTCTTTGTGGAAATATTAGTACAGAGCAATAAATTACTGAGGAAATATCATTAAT
R
TAATTTTTTCTTATTAAATAAAGAATTATCCTTCAGGACGCGGAAAGAAACCTTGGAGGTCTGAAATCTAACATGATTGTTTTACTGACTGTATCATTTG
Celera SNP ID:            hCV11558638
SNP Position Genomic:     58037
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28754):
CCCCGGAAGAGGGACAGGAAAGAAGCTGAGCCTTTGCCAGACACACACATCAAAGGGCCAGTGCCAGATGCCTTGAACACTGAGCTCTGGCAGGCAGGCT
Y
CCCTGTGGCCTTCTATGCCAGTTTCTCAGAAAGGACAGCTGCCCTGCAGACATGGAAGTTCAACACTAGCTACATCGACACTGACAGCAGCAACTTCCCT
Celera SNP ID:            hCV29018190
SNP Position Genomic:     48573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28755):
CTAGTAACCTCACAGCTGCAGTGTGGCAAATCAAACAGAGCTGGAGTTGTCTGGTAGATCCTTGGAGCAGGTGCTGCTGCCCCACATGGACACCTTCCTG
Y
AAGTGCATTTCGGCCCCATCTGAAAGAGCTTAAAGGAAAGCTTGCATGGCTTTTCCCCGGACATAACAAATCTGTTTCTTGATGTGGAGGCCAACACCAG
Celera SNP ID:            hCV29018191
SNP Position Genomic:     47090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28756):
ATTGGCACAGGGGCTCTGCCACGCAGTTCCCCTGGCGGCTGGCCCCTGACATCTGGCAAAGAGTTAGGAATGCAGGTGTTTCTGGCAAATATGTAGGGCC
Y
ATGAGATAAGAAAGTGGGGGAAGCAAGATCACGTAGGTTCTCTGTGAGAGAGGCCGCATGCCCAGCAGGACAGAACATCCCTGGCTGACAAGGGCCATCT
Celera SNP ID:            hCV29018192
SNP Position Genomic:     43609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28757):
TGTGGAGAGGCCGGCCTAGCAGAACACCCGTCCACCATGCAAACCGGGTGGGGCCACCTGTCAACTGTCACGTGTGAGTGATTCTAGGACAGGGTAACTC
R
TCCAGAATTGGATCCAATTCAGTACTGGATTCACCATCAGTAGAAGGACCAAGACCAGACTCAAGTCCCAGCCACGAAATTCTAGAAAGGATTTAATGTA
Celera SNP ID:            hCV29018193
SNP Position Genomic:     40756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28758):
CCTTCTGCCGTCTCTAGGATGGAGAGGCCTGAGGTGACTGCTTCCTCAGAGTCTCTGTGCAAACTCTCTGAGGAGCAGAAACCAGTTCAGTCTCTCTGGG
Y
GTGGAGAGGCCGGCCTAGCAGAACACCCGTCCACCATGCAAACCGGGTGGGGCCACCTGTCAACTGTCACGTGTGAGTGATTCTAGGACAGGGTAACTCG
Celera SNP ID:            hCV29018194
SNP Position Genomic:     40656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28759):
CGGAAGGGAGGATCTGAGGGAGAATGGGACAAGAGAAGTCGGAAAGAAGGAGTTAGGGCAGGAGAACAAGGAGAAATCCCTGTCCCCCAAATTGGAGAGA
R
GGGCGATTGGGACTCCAGACTGGAAGGAGGCACGGATCCCTGAGTGCTTGGTGTGGAGGCAGAGGACCCGCAGAGCCACCCCGTCCTCCCTGCCTTATCC
Celera SNP ID:            hCV29018195
SNP Position Genomic:     40262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28760):
ATCGTGGTGGATAAGCTTTTTGATGTAATGCTGGGTTCGGTTTGCCAGGATTTTTGCATCAATGTTCATTAGGGATATTGGCCTGAAATTTTATTTTTTT
R
TTGTGTCTCTGCCAGGTTTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGTTTGGAATAGTTTCAGAAC
Celera SNP ID:            hCV29018196
SNP Position Genomic:     36670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28761):
CCAGTGCACCGTTCTGCTTCACGTTGACAAAACATCTCGACTTGCAGAGTGGAAGGATCTGCAATCCAAACACAAAGCCATCATCCTCCACTCTTTGAGA
R
GTCCATCATCCTCCAATAGGTCAAGTGTTTCTCTGCACATTTAGGGGTCTGTATTCTTTCTGCCCAGACTTGCCCTTTCCTGCCCATTGGGTCCCATGTG
Celera SNP ID:            hCV29018197
SNP Position Genomic:     32177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28762):
TGAGCTAAATCACGGTAAACGCAGACAGCAAACAAACTTTCCGTCAAAGAGCTGGATGAAACCTGGGCCGGATGGCAAGGAGACAACACCCCAGGCAGGC
R
TTCCAGATCTTTGACCTTGCCCCTCCTCGAGAGGAGATGATTGCTTCATCCCTCCTCTCACTGCACATTGTGCTGCCAGCCCTGCTGTGTAGTGTGGGGG
Celera SNP ID:            hCV29018198
SNP Position Genomic:     30805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28763):
CTGCCATCACACCACCCACCACACGAGCCCCTTCTGGACCAGTGGCCCTTATCTGACTCAAGCCATATCTTGCCAAGCCTGTTGTGACACCGATCTTGGC
R
AACTCACTTTTCATGTCAGGGCCCCTGCAAAACAGACACATATCTGAGTCATGGTATTCGTTTAAGCAATGAAAAGGGTAGAATCATTTCTTACATCAGA
Celera SNP ID:            hCV29018199
SNP Position Genomic:     30024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28764):
CTGAGTCAAATGGTATTTCTCGTTCTAGATCCGTAAGGAATTGCCACACTGTCTTCCACAATGTTTGAACTAATCTACACTCCCACCAACAGTGTAAAAG
Y
GTTTCTATTTTTCCACAACCTCTCCAACATCTGTTATTTCCTGACTTTTTAATGAACGTCATTCTAACTGGCGTGAGATGGTATCTCATTGTGGTTTTGA
Celera SNP ID:            hCV7825632
SNP Position Genomic:     34847
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28765):
CCGTAAGGAATTGCCACACTGTCTTCCACAATGTTTGAACTAATCTACACTCCCACCAACAGTGTAAAAGTGTTTCTATTTTTCCACAACCTCTCCAACA
W
CTGTTATTTCCTGACTTTTTAATGAACGTCATTCTAACTGGCGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTAACGACCAGTGATGATG
Celera SNP ID:            hCV7825634
SNP Position Genomic:     34877
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28766):
TCCGCCCAGTTCCAACTTCCCAGCAGTTTTGTTTACACTGTGACCTTAAAACCATTTCCTCAAGCCTCAGCAACGGCAGAGGTCCTTCCAGATGAGTTTT
R
TAATAGACTCCAGCAGTCCTACTGGGGCCAAGACCTCAAGGAAAGCCAAGTCTATCATTGGGAAAAGTCTTAGGGCTCTAAGTTTTGAATTCTGAAAATT
Celera SNP ID:            hCV1803630
SNP Position Genomic:     38060
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28767):
ATGGGCACACAAAGCTCTTTTTCCCTGGGTGCTGCTCTTCCCCGTGACAGAGAAATCCATGCGACACAGTGGGGAGGCCCTCCCCAAAGGGTGGCAGATA
Y
ATTTTTTTCCCCTTGAATTGTAATACACCTTTCCCCAGGCCCACTCTGCCTCCCACTTCTGTTCAGCTCAGCTGTGGGCACTGACCTCCACCGGCGCTTG
Celera SNP ID:            hCV27394300
SNP Position Genomic:     29484
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28768):
GCAGAGCTCGAATGCTGTGCTGGGAGGTCTGCTGCCCTCTTCAGAGCCATCAGGCGGGGACATTTAAGTCTGCTATAAGCCCCTGATTGGGGCTGCTGCC
Y
TGTTTACCAACATGCCCTGACCAGAGAGGAGAAATCTGGCAGTCTGGCCATAGCAGCCTTGCTGAGCTGCAGTGGGCTCCGCCCAGTTCCAACTTCCCAG
Celera SNP ID:            hCV1803631
SNP Position Genomic:     37882
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28769):
TCAAGTGATCCTCCTGCCTAGGCCTCCCAAAGTGTTGGGATTATAGATGTGAGCTGCTGTGCCCAGCCCTATCTTTTAAAAAATATGTACTGAAAAAAAA
W
TTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCAAGACTGGAATGCAGAGGCGCGATCTCCGCTCATTGCAGGCTCCGCCTCCACTTGACTCAGGGAA
Celera SNP ID:            hCV27394301
SNP Position Genomic:     26819
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28770):
ACAAAAAAAGCCCCCACCAAATCTATTGCAACATCAGTCAAAATTTTAGTTCTACTTATTAAATACAATTTTATTCTTATAGCAAGTATTTTAAAATTGT
T
ATCTGTTTTTTTAAATATGTAAAATATCTTCTTGTCGAAGCGACAGGTGCTTTGAATTGTTACCTTTATGTTTGTTGAAACTATGAAGAAGAGATTAGGA
Celera SNP ID:            hCV27394302
SNP Position Genomic:     25442
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28771):
TGTCCCTAACCCGTTCAAACTCTTTCCTCTTAAATGGTTGAGATTTTCTCTCACCAAGCACACCCCAGTATTAATTAAACTAGCTGCAAACAGGCAGCAA
S
TGGTCTACCATGACAGATGGGTTTTGTGTGTGTGTGTGTGTGTGTAATTGTAATAAAACATATTGAGTCACTCAATAAACACAGAGTGTCTACTACATGT
Celera SNP ID:            hCV1803633
SNP Position Genomic:     33971
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28772):
CTGGGTGCTGCTCTTCCCCGTGACAGAGAAATCCATGCGACACAGTGGGGAGGCCCTCCCCAAAGGGTGGCAGATATATTTTTTTCCCCTTGAATTGTAA
Y
ACACCTTTCCCCAGGCCCACTCTGCCTCCCACTTCTGTTCAGCTCAGCTGTGGGCACTGACCTCCACCGGCGCTTGATCCCTGCCTGCTCCTGCCCAGAC
Celera SNP ID:            hCV1803634
SNP Position Genomic:     29508
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28773):
CACAAAAAAAGCCCCCACCAAATCTATTGCAACATCAGTCAAAATTTTAGTTCTACTTATTAAATACAATTTTATTCTTATAGCAAGTATTTTAAAATTG
T
TATCTGTTTTTTTAAATATGTAAAATATCTTCTTGTCGAAGCGACAGGTGCTTTGAATTGTTACCTTTATGTTTGTTGAAACTATGAAGAAGAGATTAGG
Celera SNP ID:            hCV27394303
SNP Position Genomic:     25441
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28774):
CCACAAAAAAAGCCCCCACCAAATCTATTGCAACATCAGTCAAAATTTTAGTTCTACTTATTAAATACAATTTTATTCTTATAGCAAGTATTTTAAAATT
G
TTATCTGTTTTTTTAAATATGTAAAATATCTTCTTGTCGAAGCGACAGGTGCTTTGAATTGTTACCTTTATGTTTGTTGAAACTATGAAGAAGAGATTAG
Celera SNP ID:            hCV27394304
SNP Position Genomic:     25440
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,2)   total(G,2|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28775):
GAAGTTGCTTGTCAGCTTAAGGAGATTTTGGGCTGAGATGATGGAGTTTTCTAAATATACAATCATGTCATCTGCAAACAGAGACAATTTGACTTCCTCT
Y
CTCTTGTTTGAATGTACTTTATTGCTTTCTCTTGCCTGATTGCCCTGGCCAGAAGTTCCAATACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCTTG
Celera SNP ID:            hCV11415807
SNP Position Genomic:     36181
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28776):
TTAGCTTTGATCAGCTTTTTCTCTCTTCTGTCACTTCAGCAGAAACAATGCCCAGAAATGCCAGAGACAACAAAATAGGAATGTGTCATGGGCACACAAA
R
CTCTTTTTCCCTGGGTGCTGCTCTTCCCCGTGACAGAGAAATCCATGCGACACAGTGGGGAGGCCCTCCCCAAAGGGTGGCAGATATATTTTTTTCCCCT
Celera SNP ID:            hCV1803636
SNP Position Genomic:     29397
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28777):
GAGGTTATTGTATTCTCATACTTGCCAATTTATAACAGCAATTTAAAAAATAAAAATATACCGGGGAATTTAGTAAGCAATTTAAGGTTCTGATGAGCAT
Y
GTTTTTTTTGTCAGAATTTTCCAAATAGGCCCTCAAAAACTGTTGCTAGAATCTTGTACAGGATTGATATTGGACTGGTATCGTCTTTGCAAAATAAACT
Celera SNP ID:            hCV27394305
SNP Position Genomic:     18395
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28778):
TCTTGGTGAATGTCCCTGTGTATTTGAAAAGACACTCCCTGTCAACCCCTTTGCTCTGTCATTTAGCTTTGATCAGCTTTTTCTCTCTTCTGTCACTTCA
K
CAGAAACAATGCCCAGAAATGCCAGAGACAACAAAATAGGAATGTGTCATGGGCACACAAAGCTCTTTTTCCCTGGGTGCTGCTCTTCCCCGTGACAGAG
Celera SNP ID:            hCV1803637
SNP Position Genomic:     29335
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28779):
TTGCCCTCCCCTCCCCACTACTGCCCATCTAAGTACTTTTACAGGCATCGAATAAGTTAAGTCAGTGCATGTGAAGTGCTTAGAAGGGCATCTGACACAT
T
ATAGAAGTTCAATAAATGCTAGTTGTTGTTGTTATTACAACAGAAATGAAGGACCTTTCCTAAGATTAGAAGTCATGAAACCACTTGAAGCCTGAATCTC
Celera SNP ID:            hCV27394306
SNP Position Genomic:     10630
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28780):
TCAAAAATGAACTCTTTATGGATTCCTCATTCGACATGATGTCAACGTCTCTTTTGTCTTCTCTGTAGCCCTTGACTGTGGATCCCAAGCTGTGTGCCAA
R
GAGCTCATGGTGCAAACTCACTGTGAGCAAACCCTCTGGGTTTATTGAAATATTTGAAAGATGAGCAGTGTCAGGCTAATTTTACCATTTTTAGCAGACA
Celera SNP ID:            hCV7820266
SNP Position Genomic:     56772
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28781):
CTTTACAATAGGTCTTTTTGGGAGAAGTGGAAATTATTTAATGTTGTGTTTACCGTGAGCAGTGGTTATTTCTGGGCTGTGAGTTGCAAGTACTGAAGGG
G
AAATACTGACTTTTATAATTTATAAGACTTTGTTGAATTTTTTTTTTGCAATGAGCTTGTTGTAAATGATTTTCTATTTTTTAAAAATAAGTGTTGACAT
Celera SNP ID:            hCV27394307
SNP Position Genomic:     8790
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,2)   total(G,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28782):
CAGAATCACTCATTTATTACTCACACCATGGAGGAAAAATGAAATAACATTAATTCTCTACTGGGTAATACAAGAAAATTCTAAACTCAGTAGGTTTTTG
S
GAAATAGAACTCTTTGTGGAAATATTAGTACAGAGCAATAAATTACTGAGGAAATATCATTAATGTAATTTTTTCTTATTAAATAAAGAATTATCCTTCA
Celera SNP ID:            hCV11558641
SNP Position Genomic:     57972
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28783):
TCACGAGCAAAGGCTCACTGCAGCTTCAGATTCCTGGGCTCAAGTGATCCTCCTGCCTAGGCCTCCCAAAGTGTTGGGATTATAGATGTGAGCTGCTGTG
S
CCAGCCCTATCTTTTAAAAAATATGTACTGAAAAAAAATTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCAAGACTGGAATGCAGAGGCGCGATCT
Celera SNP ID:            hCV1803639
SNP Position Genomic:     26780
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28784):
TTTCCTTGATATGTAGGTGGGGGCCCCCACCTTTTTTCAGGGTTTAGGCTTCTGCAGGTCCTGGCATAGCTGTGACAGCGGCCCTACCTCATTTCTGGTG
R
GTGCTGGCTCCCTCTATTGCTTGGTTTCTGTGCAAACACTGCATTATCGTCCTGCCCTCTTGAGACCTGGAGCTCCTGCCCCCTGAGCTCGTGTTCGCAC
Celera SNP ID:            hCV1781225
SNP Position Genomic:     41002
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28785):
TCAGAGTCTCTGTGCAAACTCTCTGAGGAGCAGAAACCAGTTCAGTCTCTCTGGGTGTGGAGAGGCCGGCCTAGCAGAACACCCGTCCACCATGCAAACC
V
GGTGGGGCCACCTGTCAACTGTCACGTGTGAGTGATTCTAGGACAGGGTAACTCGTCCAGAATTGGATCCAATTCAGTACTGGATTCACCATCAGTAGAA
Celera SNP ID:            hCV1781226
SNP Position Genomic:     40701
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28786):
TCAGCTCAGCTGTGGGCACTGACCTCCACCGGCGCTTGATCCCTGCCTGCTCCTGCCCAGACAGGAAGCCCTTCAGCAGCCGACTCGGTTACCAGGATGA
R
GCTAGAGGCCAGGAACTCCCAGGTGTCTATGGAGGTCCCACCTCCTTTAAATCCCTACTGTTCAGACCCAGCTTCTAAAACTGTTCTTTTGCCTCCCTTC
Celera SNP ID:            hCV29018200
SNP Position Genomic:     29647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28787):
GCATAGTGTTCCATGGTGTATACGTGCCACATTTTCTTAATCTATCATTGATGGACAAGTTTTGCTATTGTGAATAGTGCCACAATAAACATACGTGTGC
R
TGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATCACTGAGTCAAATGGTATTTCTCGTTCTAGATCCGTAAGGAAT
Celera SNP ID:            hCV11415810
SNP Position Genomic:     34687
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28788):
CCACTTCTGTTCAGCTCAGCTGTGGGCACTGACCTCCACCGGCGCTTGATCCCTGCCTGCTCCTGCCCAGACAGGAAGCCCTTCAGCAGCCGACTCGGTT
R
CCAGGATGAGGCTAGAGGCCAGGAACTCCCAGGTGTCTATGGAGGTCCCACCTCCTTTAAATCCCTACTGTTCAGACCCAGCTTCTAAAACTGTTCTTTT
Celera SNP ID:            hCV29018201
SNP Position Genomic:     29637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28789):
GGCAGGGGAATCGCTTGAGCCTGGGAGATCGAGGTTGCAGTGAGCCGGGATCGCACCACTACACTCCAGCCTGGGAGATAGAGTGAGACTCTGTCTCAAA
M
AAACAAACAAACAAACAAAGAATTACTTGCACTGTGCTCACATAATTTATACAGTCAGTTCTGCTATATCAGGTTGTTTGAAAACCGTACTTTATTCCAA
Celera SNP ID:            hCV1803640
SNP Position Genomic:     26209
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28790):
TGCCCCACCCAAAATTGTGTCTTGCCCACCCTCTGTGTTTCTGTCCATCAGACCACCCATCACATAGGCAACCCCTGGAGAGTGACCCTGGTTTAAAGCC
Y
GACTTTGCCAAACCGCTGTGGATGCATTAATTTGGAAAGGTCCCTGTTCACCTCAGGGCCCACTTGCAAAGCAGAGACAGTCCCCGAGACTCATTCAGCC
Celera SNP ID:            hCV29018202
SNP Position Genomic:     27753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28791):
TGTGGATCGCATTTTCTTGCTTTTTAGCCTGTCCGGAAATTTTTGCCTGGATGCGCACATTGTAAATAGAACACTGTTAAGTGTCTGTATTTTTTAGGAT
K
GAAAGAATAAATAATTGGTGGGAAAATATCAGTCTCTGCTATGTGTTTATTATCTCCAGAGTTGACATTTAGGAACCCATTGCTTGCAGATCCAGATCAG
Celera SNP ID:            hCV29018203
SNP Position Genomic:     7907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28792):
TGCAGCCATAAAAAAGAACAAAATTGTGTCCTTTGGATCAACATGGATGCAACTGGAGGCCATTATCCTAAGTGAATTAATATAGGAACAGAAAACCAAA
Y
ACTGCATGTTCTCATTCTTAAGTGGGAGCTAAGCTTTGGGTACACATGGACATAAAGATGGGAAGAGTAGACACTGGGGACTATGAGGAGGGGAGAGATG
Celera SNP ID:            hCV1803642
SNP Position Genomic:     24665
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28793):
TTGTGGATCGCATTTTCTTGCTTTTTAGCCTGTCCGGAAATTTTTGCCTGGATGCGCACATTGTAAATAGAACACTGTTAAGTGTCTGTATTTTTTAGGA
K
TGAAAGAATAAATAATTGGTGGGAAAATATCAGTCTCTGCTATGTGTTTATTATCTCCAGAGTTGACATTTAGGAACCCATTGCTTGCAGATCCAGATCA
Celera SNP ID:            hCV29018204
SNP Position Genomic:     7906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28794):
CTTGAGTCCTTACCAGACTAAGACGTCCTCAAGGGCCAGAGACCAGCCTGCCACTCACCATTTTGCCACCAGACACAGATGAGAACAATTCCCATTAAAA
S
TAACAGGATGAATGCCCCCAGGATGATCCATCTATCTGGTAGACTAGAAGAAGACCAGTGGATATCTGAAGCATTTACTGGTGACACTAAAAAAAAAAAA
Celera SNP ID:            hCV11415814
SNP Position Genomic:     31090
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:28795):
GTCACGGAGAAGAGAGGAGAGTCGCGGGCCACTGAATAAGCTTCCAAAATGATGCCCACACTAGTTATCCTGTTGAAAGAGGGGACTGATAGCTCCCAAG
R
CATCCCCCAGCTTGTGAATAACCTCAGTACCTGCCAGGTGATTGCCAAGGCTGTAAGAGCCACCCTGGGTGCCTGTGGCATGGACAAGCTTATTGTGGAT
Celera SNP ID:            hCV1803643
SNP Position Genomic:     22523
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:28796):
TCAGGGATATTCTTCGCATACTGTGGAGAGTAACAGGCAGGAAGCTGGGCGTGTACACATTCACCCTCACTGGTATGGTGAAGAAATGTTATCCAACAGC
R
TGGGTGTGGGCACTGCCCAAATTCTTTACCCTGGAACAACTGAGGTCAGGCCTGTAGAGACCCAATTAAAGAACAATTTTGTGAAGAGAGTGTTTTCCAA
Celera SNP ID:            hCV27847642
SNP Position Genomic:     33494
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 UTR 5;INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)   
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:28797):
CTCACGACAGCCTGGGATGGAGGACAAGCAGACACCAAGTCCTGGGGGCATGAGCAGGGACTTGTTTGTGGAGACGCCAGGCCCCAGAACTTCAAGCACC
Y
TCCTCTGTTCTACAGATTCTAGCAGGCAGGCTCAGTCACTACAAGACACCTCTCTCCAGCATCTCTCACTCATTCCTGCATCCTCCCGCCTTCCCTACCT
Celera SNP ID:            hCV29018205
SNP Position Genomic:     3167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28798):
TAAAGTATTAACAACATCTCTCCTCTCTGGCTGGGCTGGCCCCCAATGTCCTGCAACATGTCTCTGCCTCTACTATCTCTGTTTCAACCCCATAGCAGTG
R
TTCTCTGGCAAACTTCAGGAGGTCTCACTCTGAGCAAGCACTACTCGGCCAAGGACTCCCCCCACAGACTTCTGCCCCTCCTCTCCACTTGGCAATCCCC
Celera SNP ID:            hCV1803644
SNP Position Genomic:     19988
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28799):
CTTCAAAACTCTGTCTCCCCTGCTCATCTTGACAGGGATTGATTTTAAGCTTTGTTGGGTAGATCTCACTCTGGGACGTGACCCTTATTTCTAAGCTATG
R
CCTTAGGATGTTCATGGTGTTAATAAAGTATTAACAACATCTCTCCTCTCTGGCTGGGCTGGCCCCCAATGTCCTGCAACATGTCTCTGCCTCTACTATC
Celera SNP ID:            hCV1803645
SNP Position Genomic:     19864
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28800):
ATTAGGTTATTTTATTTTAATTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCTAGGTGTACAATGGCATAATCTCATCTCACAGCAACCTCCGCCTCC
Y
GGGTTCAAGCAATTCTCCTGCTTTAGCCTCCCCAAAGTAGCTGGGATTACAGACATGCGCCACTATGCCAGGCTAATTTTGTATTTTTAGTAGAGACAGG
Celera SNP ID:            hCV11156374
SNP Position Genomic:     17990
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,14)   total(C,14|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28801):
GTTCCTATGACCTTCTAAATGCAACTTCAAAACTCTGTCTCCCCTGCTCATCTTGACAGGGATTGATTTTAAGCTTTGTTGGGTAGATCTCACTCTGGGA
Y
GTGACCCTTATTTCTAAGCTATGGCCTTAGGATGTTCATGGTGTTAATAAAGTATTAACAACATCTCTCCTCTCTGGCTGGGCTGGCCCCCAATGTCCTG
Celera SNP ID:            hCV1803646
SNP Position Genomic:     19840
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28802):
CCCACATGGTGGAAGGCAGAAGGACAAGCTAGCCAAATGGCACATGAAACCTCTTTTATAAGAGTAGTAATCCCATCGAGGTGGGAGGAGCCCTCGTGAC
M
TAATCAACTCTTAAAGGCCCACCTCTTAACACTATCACAGTGGTAACACCTGAATTTTGGAGAGAACACATCTAGACAATAGCAACATCCTTCTTAGAAC
Celera SNP ID:            hCV1803648
SNP Position Genomic:     17543
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,9)   total(A,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28803):
AGTGTACACACCTTTTACTTCCTTTGTTAAATTTATTCCTAAGTATTTTATGCTTTTTGATGCAATTATAAATGTGTCTTAATTTATTTTTTAGATAATA
Y
ATTGTTAGTGTATTGAAATCCAACTGATTTTTGTATGTTGATTTTGTATCCTACAACTTTGTTGTATACATTAACTTATTTATTTTTGAGACAGGGTCAC
Celera SNP ID:            hCV1803649
SNP Position Genomic:     15670
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28804):
GGAGGCCAGGGTGGCTAGAGTACCAGAGAGGAGAGAGTGCAACGGAAGGAGGGAGCTCTGGAGATCTGTGCAGGGTTCCTCTGAGTCTTCAGCAGAAGTT
Y
GACCAGGTACATGCATGTGAGGAAACTTCCCAAGACAGAGAGGCAACCACTAGAAAAAAGCTGGCAGAAAAACTTCTGAGCTTGCATTGGCCAGGCAATA
Celera SNP ID:            hCV11156378
SNP Position Genomic:     9245
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;(C,-|T,-)   Caucasian(T,15|C,63)   African-American(T,4|C,78)   Asians(T,21|C,53)   total(C,194|T,40)
SNP Type:                 INTRON


Context             (SEQ ID NO:28805):
TGCCCACTCTGATCTGGAAGGGGTAAGGAGGTGAAAGCATTGATAAGCCAAAGTGACAGCCTCTTTTGTAGACATGATCCTGCCTAAATTTCTCATGCCC
Y
ACAAAAGAGGGCCCTGAACTCCCCGCTTCTCCAGAGCTTCATGCAGTCCTTGAAGCACTCTCTGGCTGTCTCTGCAAGTGGCTGAACAGCTCCTCCTGGT
Celera SNP ID:            hCV112792
SNP Position Genomic:     55235
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28806):
AGACATTGGGCAACAGGCAATGCAGGGCCCAAGAGAAGGGAGACAAAGGAAGTGAACATGCTGCTTGCTCCAGCTTACTGCCTGGAGAGGGTTTCCAAGC
Y
GCAATGCAGACAGGCGAACCAAAAGAGACTCTGAGTTGGAAAATAGAGCTGAGAATTCAGGGAGGCCAGGGTGGCTAGAGTACCAGAGAGGAGAGAGTGC
Celera SNP ID:            hCV11156379
SNP Position Genomic:     9084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28807):
TTGCCAGGGTGGGGTGCTCATTGGCCTCCAGGCTCCACTCACTTTTCTGACCGCACCCAGTTTCCACCTCCAAGTCACCCCCCAGACTGCTTCTCCTTTT
R
CTGTTTTTTCTCAGCCCAGCAGAAATTCTAATATTCGCCAGGCTTGGCCCTGCTCAGGGCACCGGAGAAGGAGCCTCTGAGGAAAATCTTGGCACAAGGA
Celera SNP ID:            hCV16209589
SNP Position Genomic:     43344
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28808):
ATGTTATCCAACAGCGTGGGTGTGGGCACTGCCCAAATTCTTTACCCTGGAACAACTGAGGTCAGGCCTGTAGAGACCCAATTAAAGAACAATTTTGTGA
M
GAGAGTGTTTTCCAAGTATTCAGAATATAATCATTTATTGAAAAATAAAAGAAGACATTTAAAAACAAAATTAACTTTGAATAAACTCTCTCTCCTCTCC
Celera SNP ID:            hCV27832004
SNP Position Genomic:     33579
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,2)   caucasian(A,22)   total(A,48|C,2)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,36|C,2)   caucasian(A,40)   total(A,76|C,2)   
SNP Type:                 INTRON


Gene Number:                 117
Celera Gene:                 hCG2030155 - 145000147710222
Gene Symbol:                 FLJ22558
Protein Name:                hypothetical protein FLJ22558;FLJ22558
Celera Genomic Axis:         GA_x5YUV32W0QP(46780662..46861842)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12277):
CTCCTTGGAGCCTCATCTATAAGGGGACCCTGAGCTCCCCTCCAGCCCTGCCTGATTCTGGGCCTAAGAGTCATGTGGGGTCATTGTTACTGCTTGGTCT
GGGTGCCACCCAAGGCAGGGAAGGGCAACCTGGAAAGAAGGTCTTGCCCAGAAAGGGACAGCAGAGCAGGGCCACCTTCTAGCTTTACGCCTAAGGTCCA
GGGAAGAAGGGTCTTGGTCTTAACCTCCCTGCTGTGTTTGGCAAAGGGCTGGGACAGCCACACCACCTTGCCAGGTGGGCCCTGGGTGAGGAGGTCTTTA
GTTACCTGGCTGGTGCCCCGAGGGTCTGTGCTACCTAAGGGGGCCCAGAGGGAGGGTCTTTGCATCTGAACGCTAGTCGTGCATCCACCCGTGCGATCTC
CGACAAGGCAGCAGACCCASGTGCCACACCTTTCTGTCTGTTAATGAGGTGTCCCAGTCATCCCATTGTATGGGCTCTTGAGGATCAAACAAGACGCGTG
TGTGGTGACAATAATAGTAGGAATAATAATAGCTAACAGTCACTCAGCACTTCCTACACATTCACTCATTTGACCCTTGCAGGGCAAAGACACTTATGTT
CCCCATTTGAGCAAAGAGCAAATTGAGGCACAGAGACGTGAAGTCACTTGCCCAAGAAGGTCCCAGTGGAGGAAGCGGCAGAGCTGGGGTTTGACCCTAC
ACTCTGGCTCTGGGGTCCCCACACCTGACACCTGCCCACACCACCTCTCTGTGCTCTCTCCACATAAAAGCAGTCTTTCCCCATTAGTAACTTTTTCTTC
TTCCCAAACTATTTCCTGTTTATTGTAGGAAATTTAGAAAAAGAACTAACTACCTTTGACCCCAGCACCCAGAGAGTCTCTGCATACCACTGTGAGTGTG
GCCCACAGTGACATGTTATTGGTTATCGGCATGTGTCTTTGCTTCCCATGGGAGGACTGAACAGGTGTGGTATGGAGGCAGTTCTTCTTTTTGGGGGTGG
AGGGGACGGGGTCTCACTCTGTGGCCCAGGCTGGAGTGTGGTTGCCCAATCTTAGCTCACTGCAGCCTCCATCTCCCTGGCTCAAGAGATCCTTCTGCCT
CAGCCTCCCAAGTATCTGGGACTACAGGTGTGTGCCACCATGCCTGGCCAATTTAAAACAAATGTTTCTCTGTAGAGGCAAGGTCTTGCTGTGTTGCCCA
GGCTTGTCTCAAACTCTTGAGCTCAAGCCATTCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGCGTCCACTGCGCCCAGCCCCAAGGCAGTTCTT
ATTTGGAGTGTGATTTTTCCCCCGCTCTGTGGGCAGTGGGGCAGTTATGTGGACTTGAAAGTTGAGCACTGGTAAGAAAACTTATTCTGGCTGCAAAGCC
ATGAAGGATTTGCGTTTCAGTGTCTGCCATGTGATAGATTTCTTCTCATGCACTGTACACCCCTGCCTGAGTTCTGCCTTCCTAATTTATCCTGAGATTC
CCCTGAGAGGAGCTCAGGGAGGCTAGAACCTCTCCTGACGTAACATGACACATCAACCCCACCAGGCCTGGGGAGCAAGGTAGTCCCCTTCTTTGGTCTC
TGTGCAAGGGGGAGCGTGTGGTGATGGTGTGGCAAGGATGCTTGTGTGCTCCGAGTGGCCTGCTGGATAAGCACCCTGCCTGGATGGGGGCAGGAGCACC
TCCCAGCTGCTATCTCACCTGGTCCTTGGACCACTGGCTCCACTCCCCACCACCACGTGATTTATCGCTGGTGGAGGTACAGAGAATCACTGCCCCTAAA
TAATCCATTGCTCATTGTGGAAACACTTGGAAGACACTATAATGCTCAAAATTATGATTTAAAAATCATCTCTAATCCTACCCTCACAAAAAGTTGCAAA
AGTAAGTCAGGCACGGCTATGCGCACCTGTAGTCCCAGCTGCTTGGGAGGCTAAGGCAGGAGGATTTCTTGAGCCCAGCAAGTTGGAGGCCAGCCTGAAC
AACATAGTGAGCCCCCCTTTTCTAAAAAGAAGAAAAAAAAGTTGCAAAAGTAGTACAAAGGGCTCCTGCATACCCTTCCGCCAGCTTCCCCCAATGGTGA
CATCTCACATAAGGAGCACATTAGCAAAGCCAGGACCATGACAGCGACACAGCACAGCCTCGACTGCAAACCTGAGCTCAGATTGTACCCGCCTGTTACA
CACACTCATTTCTCTGTGTGTGCAGTGTTTTATGAGATTTTATCACATGTGTATGTTAGTTATATGTGCTTTTTTTTTTTTTTTTTTTTAAGACAGAGCC
TTGCTTTGTCACCCAGGCTGGAGCGCAGTGACGCGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTTCTGCCTTAGCCTCCTGAGT
AGGTGGGACTACAGGCGTCTGTCACCATGCCCGGCTAATGTTTTGTATTTTTTTAGTAGAGACGTGGTTTTACCGTATTGGCCAGGCTGATCTCAAACTT
CTGACCTTGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATAACAGGCATGAGCCACTGTGCCCAGGATTTTTTTTTTTTTTTTTTTTTTGAGAAG
GAGTTTTGCTCGTTGCCCAGCCTGGAGTGCGATCATGCGATCTTGGCTCATTGTAACCTCCGCCTCCCACGTTCAAGTGATTCTCCTGCCTCAGCCTCCA
AAGTAGCTGGGATTACAGGCATGTGCCACCACGCCCAGCTAATTTTTTGTATTTAGTAGAAATGGGGTTTCACCATGTTAGTCAGGCTGGTCACAAACTC
CTGACCTTAGGCAATCCATCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGACACCATGCCCAGCCAGTTATACACACTTTTAAAAATAAACTT
TGTTTTTTAGAGCAGTTTTATCTTTTAAAAATTTTTTTTAGTTTAATTTTTTTAAAAGGCATTTAAAAATAATATTTTAAAAGGCTAGTCAAGTGAAGCA
GTGGGAGTGGAGAAGGAACAAAGAAATCTATAACTGATTGTGATCAATTAGTTGTAAATACCACTGCACTCAGACCAGCCTAGGGCAGATTTTAAATTTA
TGGAAAAATTGAGGAGATACAGAGAGTTCTCGTATAAACTCTGCGCCCAGTGTCCCCTATTAACTTCTTAACTGGTCTTGTGCATTCATTACAATGAATG
AACCTGTATTGATTGGTATCAATTAGAATCCATTCTTGATTCACATTTCCCTAGTTTTTACTTAACTTTTTTTTTCTTTTTTTGAGACGGAGTCTTGCTC
TATCACCCAGGCTGGAGTGCAGAGGCGCAATCTCAGCTCACTGCAACCTCCGCCCCCTGGTTTCAAGTGATTGTCCTGTCTCAGCCTCTCAAGTAGCTGG
GATTACAGGCGTGCGCCACCACACCTGGCTAATTTGTATTTTTCATAGAGAGGGGGTTTCACCATGTTGGCTAGGCTGGTCTTGAACTCCTGACCTCAGG
TGATCCACCTGGCTTGGCTTCCAAAGTGCTAGGATTACAGGCATGAGCCACTGTGCCCAGCCGACTTAACATTTTTTTTTTCTGTTCAGGATCCTATCCA
AGACATCCATTTTCGGCTGAGATCAGGTGCGTTCACGGTGGTATGACCATAGACAAGACATCCGTTTTCAAAAACACATTTTGCCACGTGATATTCCTAC
CATTTTTGATCCCAACTCTTTTTACATGCGCAGGTGGAGAATACCTTGTCACATCACTGACTGTTCTTTGTACACCTCATGCGAAGTGGCTGTTTGCTTG
TTCCGTGGTGTGGACGTCACCCTGGGGACCTCAGGGTGGTCGTCGTCAGAAGTGCAGCTGTGTCTGCTAGGCCGCGCCTACCCCTTTCTGACAGTGATGG
GGGGCCAGGCCTGGTACCCCCATCCATGTCAGGAGAGGACAGCCTTGGAAACACACAGGCCTCTGCCAGCATCCCCCCGCCCCCGCTGGGTGTGGCCACC
TGAGATGGCTGATCCTGAGTGAACATGGGGATGTGTGTCTGAAACAGCTCAGACTAGGTCACATAAGGGGATATGCCTCAGCTTCCTGAGCCTCGGTTTC
CCCCTGGGGAAACGGGGCATGCTCTGATGTCCTTCACAGGTTTGTTGGGAGAAGCCAAGGGGGGTTCACACCGGGAAGTGACTTGCCGTGATGCGTCGGT
AATGGTCAGTCATGGGAAGACGCAGGTTTTAGTTGTTAAGATGGAACGACCTTTCTGACCAGCTCCTTATCCACCACGCAGCCCGAAGATGGCACGGTTT
AAAATAGCTGCTCACATCTGGGGCCATTTACAAAGGGTCGTCGGCCCCCATCCTGCTTCGTGGCCTTTCAAGGAAGGCCATGAGCAGCAGGTCCCACTGC
CAGGWTGTTTCCCTGCGAGCCCATTGAGAAATCCCCCTGGAAATCCTCCTTTGGCCTGGCGCAGGCAGGCGAGAGAATTGCAGACAATGGGGAGCCGGGG
AACAAAGGGAGCGATTGTGCGGTGGCCGAGGCAGGGGTCATGGACGCCCCAGGCCAGGCAGGCAGGCCTGCACCGGTCACTGGGTTTCTGCCCACCCGTG
GAGTGGCCGTGAGTGACCATGGGTGGGGGGAGCGAGGCCAGACCCCAGGTGTGAGGCTTCATACGCTGTCCTCCTACCTGGCAGCTCTGTCCTGGAAGAT
AGAACTTCCACGGTTGTCTTCAGGGGCTGTGTTCTTTGCAGGCGGGGTCCAGCATCTGGTGGGTCTGACCAGCTTGGTGTGGCATAGTTGGTGGTCTGTT
CACGGGGCTCTGGGTTGACCAGGCCCTGTCCATCCTGCCTTGCCCAGGTCTTTGCCCTGGAGAGCCCAGTGGTTTGAGCATGGGTGTGGCCTTTGCCAGG
GTAGGGTGGCACTGGGCACACCTGCCATTCCTTCTCCAGTGCTGATGGTGGGGTTTCACCCTCCCACTCCTCCTCTTTGCTTCAGCGATCGTGGAACCAG
CCTCCCAGCTGGCCTCCCTGCCTCCAGGATGGTCTCCTCCAGCCCTCACTCTGTCTTTCCTGAAACACAGCCCCTACCCTGCACTTGGCTCTCTGGGGAC
CCCTCAGCATCAGGTTCAGGATTCTGAAAATAAAGTTGGAGGTGCTCTGTGATCAGGCTCTGATGCCTTTGCCACATTCCTCTCCCATGTCTTCTGGAAG
AAGATGAACAGCAGTTCCTTTTTAATTTTCTTGAGATGGAGTCTTGCTCTATCACCCAGGCTAGAGTGCAGTCGCGCGATCTTGGCTCACTGCAACCTCT
GCCTCCCGGGTTCAAGCCATTCTCCTGCTTCAGCCTCCCAAGTAACTGGGACTATAGGTGCCCGCCACCATGCCCAGCTAATTTTTGTAATTTTAGCAGA
GGTGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACGTCAAATGAGCCACACACCTTGGCCTCCCAAAGTGCTGGGATTACAGACGTGAGC
CACCATGCCCGGCCATGAGTGGCAGTTCCTTAACACCATTAGCCAGGCGTTTTCATACCTCCCCTCTTTCCCTGGCTGTCTTCTCCGCCTCCAGTTCCCC
CCATCCCCGCCCCCTTCCCCCCCTCCCCTCACTGGGGACGTCCCTCATGTCTCCAGCCTGTGGCTGAGATGCCGCCCTCTGCTTGCTTTTCCAGCTACCT
CAGTGTCCAAAAGCCCCTCCTGCCTCCCCCACTGCACTCACGGTGACTCTGGGAGGTGTGCTCTTCTGTCTGGGCTGGGCTGTGTTAATGGCAGTCTCTG
CCTTGAGCTCTTAGGACAGCACTATATCTTAGCTGGTCTGTCACCCACTGTGCACGTGGGCTGTGTCCCTGGGGGCTGGGCCTGCCGAGCTCCGGGGCCA
CACCTGAGCCACCCAGCCTCTCCTTCCTCTGGGTGTGCCGGGGGCCAGGCCTGCACAGGCTGTCTGTCCCAGCAGCTCCAGCCACTTTGCTGACCGAATT
CCTGGAAGGTGTCTACTGTTTAGGAATGTGAGACCAAGAGGAAGGGGCCAGCCCTGCCCATGTGACTCACTCCGGGGTATGTGGGGTATGTGGGGTTTGT
CATGGTGGTCCGCTGCTGAGGTGATTAATGCCCTACCCTGGCCAAGACTCCCAAAGTCTTGGACTGAGCCAGACGGGGGTGGGCAGGGTGGCCTGGCCTT
GGGCGACCTCTGGTAGACAGCCTAACGACCAACAACCGTGTGTGTCTCAGTTTCCTCATTAGTGAGATGGGATCCCCCATCCCCACTCCTGAGTGGGATG
GGGAAGGAATCAGGAGAGGTGACAGCAGGCAGGAGCTGACATGTGGGGACCTCTCCCCCGCTGCCCTGGACTCCCCCAGGCCTGCCCCTGCCTCCCGCTG
CCTCCCCCAGGGAGCTGACCATAGCCCCCACCTCAATCCCGAATCCAGTCCTCACCTTTCTGGCCCCACCTCTTCCTTCTGGGTTTCTTGCCTGGGCTGT
CTGGGGCTGCGCCCTGGAGAAGGCTCCAGGAAGAGTTGGGAGTGAGGCAGTCAGTGGGGCAGCTGGGAACACATGCCCTGGGATCTGGGCAGAAGGACCA
GGGCTGGGAGGGCAGGATAGGGGGAGCCCCCAACCCCAGGCCCCTGCCAGCTCCCCTGTAGGTCCCACTCACTGTGTGAGTATCTCTGAGCCCACAGCAG
ACTCGGAGTCACACTGGGCCTCCCTGCCCCCCTCCCCCACTTCTCTTCCTCCACCGGCAGAGCAGGTTCCACAGGTGTGCACAGGGACACTGCGTCCAGG
ACGGTGCCTGTTGGGGCAGCCCCGCCACTTCTCTGGCTTGTTTGGCACCAAGGCTGGAGGCAGAACTTCAGCCCCAGGACAGGGGGTTTCCCTGACGTCA
TTTCATGGGGGAAAAGGCACTCAGGAGCCCAGGGGACTGTGTGGGTACCCAGGCGAGCACCTCTGGACTCAGGGCCACCTGGGTCAGACAGGCCTCCATG
GTGTGACCTGAGCACCTCTCTTGGGCTCTGTGCCTCAGTTTCCTCACCTGCAGTAGGGGCTTCATGAGCAATGGAGAGAGTCTGTGGGTTCTCAGCCCGA
AGTGTTGGTAAGAGAGCACCCTCCTCCATGCCCCAGCAGGGCTTGTGGATGGAGGTGGGGCAGGGAGTGTGTCAACACCAGCAGGGTGACACGGACCACA
TCCACCTGTCACCTAGAGCCTTCCACGGCACGGTCACGCCTTCCAGCAGATTATTACATCCTCACTCTAGGGAAGCGCTTAGAGAAGCCAGCTCCGGTCT
TGGAAGGGGGCTGGGGCAGCAGCGCTTGTATTAGAGGAAATAAAATTGTCCTGTCTCCCGATTACACGTGATGAACTCACCATCACGCCAACGGCCCAGC
AGCTGTGAGCATTCAACTAAAGGTCAAAAGCAAAAATAGAAGCAGTGGGGAGGGATGCTTTTAAATCATTGAACATGACCAAGAGGAGGGTGCAGGCTGT
GGAGGCTCACACACACAGTGACAGGGGACATAGGTACAGGCCATGTGGGTGTGGAGACATGTGCACAGTCACACACACACAGTGATGGGAGTTGACATAC
ACACACTGAATAAGCAACCACATCACTACCATTTAAGAACTACTGCATGACGGGGAACATAGGTGTGGGCTGTATGGGTGTGGAGAGGTGTACACTCACA
CACACACACAAACACACCGATGGGGGATACAGGACGGGCTGTATGGGTGTGGAGATGTGTACACACACACACACACACACACACACACTGATGGGGGATA
TAGGATGGGCTGTATGGGCGTGGAGAGGTGTACACTCACACACACACACAAACACACCGATGGGGGATACAGGATGGGCTGTATGGGTGTAGAGATATGT
ACACACACACACACACACACTGATGGGGGATACAGGACGGGCTGTATGGGTGTGGAGATGTGTACACACACACACACACACACACACACTGATGGGGGAT
ACAGGACGGGCTGTATGGGTGTGGAGATGTGTACACACACACACACTCTGATGGGGGATATAGGATGGGCTGTATGGGCGTGGAGAGGTGTACACTCACA
CACACAAACACACCGATGGATACAGGATGGGCTGTATGGGTGTAGAGATGTGTACACACACACACACACACACACACACTGATGGGGGATACAGGATGGG
CTGTATGGGTGTGGAGATGTGCACACGCACACACACACACACTGATGGGGGATACAGGACGGGCTGTATGGGTGTGATGTGTACACACACACACACACAC
TGATGGGGGATACAGGACGGGCTGTATGGGTGTGGAGATGTGTACACACACACACTGATGGGGGATGCAGGACGGGCTGTATGGGTGTGGAGATGTGTAC
ACACACACACACACACACTGATGGGGGATGCAGGACGGGCTGTATGGGCATGGATACATGCACACACACATGCACTCGCAGACACACACTTCACTCCTTC
CCACCCCATCCTGCACCTTCCCAAGTGCAGCTCCTCAGCTCCCCACACAGGTCTTGTTCACTGCAGGGGTGTCCCGGAGCCCATTTAGCAGCTGAGGAGA
CTGAGGCTCAGAGAGGTGAGGCGGCGTGCCCAGCAAGTGGGCGGCAGACATGGAGTCACCCTGGGCCTCCCTGTCTGTCCCACCCACCCTGTCCTGGGCC
CAGGGAGCCCAGTGTGACTCCACGTCTGCCGCCCACTTGCTGGACACGCCGTCAGCCCTCTCTGAGCCTCGGTCTCCTCAGCTGCTAAGTGGGCTCTAGG
ACACTCCTGCAGAGCTGTGAAACCGGAGGCGCATAGTGGCCTGCAGTCGGTTCTGAAATGGTAGTGATATGGTTGCCTATTCAGTGTGTGTTTATTAAGC
ACCGTGGGCAGGGCTGCCTGGGAAGGGGGAGTGAGGAGTAAGATGCCGACTTGGAACCAGAGAGGAGACGAGCCCAGGGATGTTGTTTTCTGGGGTTTGG
AACTGGCCCAGCTCCATGCAGCCCCGTTCCGCAACAATGTCTGCTGTGACTCCCCAGGCCTCCAGCCAGCTGTGGGACTGATCAGGGAGGGGAGGGCAGG
GGTCCTGGGCATGGGCATTCGCTGGTGTCCACCGTGCCCCCAGGCAGCCTGGGGGCGAGGGAGAGCTCAGCAGTGGGTGTGGGTAGGAGCTGTGCTGAAG
GCATCCGGGGTGACCCGGAGAGAGTGCTGCCCCGCTGTGCTGTCTTGGGCATGTTGCTTACCCTCTCTGAGCCTCTGCTTTCCTGTAGAGTGACTGATAG
TCCGTTCCACCCTCTGAATCCCCAGGGTGTCATGGGTAGGAAGATTGTAAACCTGGAAAAAGGCCATGCGATTGTTTGCTGCTATCCAGGCAGCCCTAGT
CAGGAGCCCGGATCCTACCAAGTTTGGTGGGAAAGGGCAAGGCTTGGGGGTTGGGGCAGGTGTGGGGGAACTCTGGAGCCATTTGCATCCTGCCTGCCCC
TAGCATCCCTGTGTGGACTCCCTGGGCCTCACAGGTTCTCAGCTAAGCTGCTGGRCCAGMGAGGCAGGTCCCACTGGTGTGGTTCATGAGAAGTGCGTGG
ACAGCACCATCCTGTGCTGGGAGGTGACAGACAGGTCAGGAGTCTCCAGGCAGAGCTGAGGGTGGGGCTCCCGGGAGCTGCTGCTCACAGGGACTCAGTC
CTTCTCCTGGGCCAGCTTGGTCCTGCATGTCAGAGCAGGAAGGGGTGCCTTAAGCTGTGTGGCCTGGGGACCTTTGGGACCACCCTCGAGGGGCCCTGGC
CCTGGATTTTAGATGGGGTCAGAGGGTGGGCTTCGGGAGGCCTGTGTGCAAAGCAGCCATGCTCTGAGTTTTACTGAAGGGCTCTTGAAATCCTCACCCA
AGGTCACAGTTTGACTTGTGGTCTGTTTATGCCTTGGATGTACCCCTGGCCCTCTTTGTGGGATTGTGGCTACTTTTTGGGGATGGAGGAAGATGTGGCC
ATTAGTGTGAGCCACCCTCATTAGACGGGCACAGATCGGTGAGGTTTGGAGGAGTGGGGTGGTCACAGCAGCRGGTTTCCCCCGGGTTTTCTGTWGCAGC
TCAGTTTCTGGAAGGGAGTGGATGGGGTGTCATCTCAGCCCAYGTGTGTGATTTGGCCTGGTAGGTGATTTGGATTCCTGATGTCTACCTCTGCCCCCTG
TAGGCAGCTGTGAACCACAGGCGGTCTGTGGGGGTTAGTCCGTGTAGCAGCGCACCAGCTTCCAGCCTGGGTGTCCCTGGGTGGGCCCCTTGCCCTGGAA
GCCAGCTCCCTACTTGTCTTGTTTTATCTCTGACAGCTGGTGATGGCCCTGGTGGCTCAGGGCAGGCCAGTGGAAGCCTGGAGAGGGGTGACCTCATGGC
CTGCTCATCCCTGGCAGCCTGCAGGCCCAGCACATGCAGGTCCGCTGTGCGCAGAGGCACAATTCATACAGGGTCCTCCGGCAGGTGGGACATACAGGGC
TGCCACCCTGTTGTCCATTTAAGGGGAAGAAAGTTAGTGGTCACATATGTTTGTGGGTGATTTCCTTTGGTGTTGGCAGCTTGCATTTTTGTGGTGCTTT
GAGCTCTTGAGAGAGTTTTCTCCCTTTCTCAGCAGGTCTTTCTGGCAACCCTTCGAGGTGTGTTACCAACAGAAGGGGGTGAGGGTCGCTGAGTGATTGC
TGGGCGCTGGTGCCAGCTGAGCTCTGGATGGTAGACAGTAGGCGGCTGAGGCCCTGGCGGCAGGGGGACCCAGGAGCCACGCTCATGAGTCATGGGGCCT
CTCCCAGGTTCCTGAGGGCCTTGGCACTCCCCTGGCGCAGTCACTAATGCACACTAAGCATCCTAATGCCCTGCGCTGGCTGAGGGCCAGGACGCRGCCT
CACCCCACGAAGACTCCTGTGTACGGGAACTCAGGTGGAACAGGGCTGGATCCTGGGGGCAGGGCCAGCCAGCAGGAAGGAAGAGCACCCTGACCATCCC
CGTGGAGGCTGGGACCAAGCCCCGTTCCAGATGCCATCCAAAAGGCCACCCTCTGGCTGCAGTCTCGACCCTCCAGGAAGTCTTTCTGCCCCTCCTTGAA
GGCATTTGCCCTGTGACCTTGACCAGTCACTGGCTTCTCAGGGTCTGTGGGTGCAACCCTGGGGGTGACCCATGGGATGGCCAGCGTCCCACAGAATGGC
TTCTACAGCCTGTCCCTGGGTGGGGATCTGGCCCCTGACCTCCTTAACCTCCTAGAATCCCCTGCAGGCCATCCACCAGTCTCTTTTGCAGATGTGGAAG
CAGGTTCAGKAATGTGCCTGGGTCATAGCTGTGAGTGGTCAGGCCACCTGACCCGGCTGGTGCCCCTCGGGCGGACACAAGGACCAAGTAAATCAGATGG
TGCTCATGAAGCTCCTTCCCAGCAGGCTAATGCTGTCAGCACCACTGCCTCTCCTCTCCGCTCTCCCCTTATCTCCCTGCATTCCCTAAATTCCTCGCAG
GCCACCCTGCCTCCCCTCCTCACAGGCCGGGAGTTCCCCACCTCCCTTAGCTTTATTGCCTCCCTGCCCAAGGTCTGGATTGAACTTGGCAGGGTTCCCT
GTGCCTCGGCCTGTGAGGAGTGAGTGGGGATGGGGTGAGGGGAGCATGTGGGAGGGTGAGGGGAGCGTATGGGGTGTGACAGGACCTGTTTGGGGGAGAG
TGAGCTGTGGCCGGGATATAGCACGGAGAGTGGCTCAGTGTCTTCCAATCCAGGAAGGATTCCAGCTGAGATCAGATCTAACTGCTTCTGCCAGACAAAA
AAAAATCCCTGGAGCAATGTTCACTTCTTTGTTGAGCTTCCCTGGTGGGAGGCTGAGGTCTTGCTAGTGTTGCTGGTGCTGAGGGCAGGTGGCGGGTCAG
AGAGCACAGCTGGGTGGCAGCTTGCAGCACATGGTCTTGTTCTGGAGGCTGGGCAGGCACAGCAGAAGCAGGACAGAGCAGCACTCCTGTCTCAGAATTT
AACTCCTGCGCGTCCCTGGCATGTGCRCTGAGCCCTCCTGTCAATTAGGACATTCCATCAAGATCCAAATGCCAGTTCCAAATGGCAGCTCATGAACACG
GCTGTCCCTGACCACCCTTCGCATCCCAGGATGAGACGAGTTGATGAGACAAGGAGAATTGCACCTASGGAGGGTGTGGGAGGCCCCAGCGCATGCCCCT
CACTTGCATAGAGGCCCTGGAGTGCTCGGCGGCCCAGAAGAGTGAGGCYATGGGCTCTAACCAGGCTTCTGCAGGGCAGGGGCAGAGGGATTGGGTGGGT
TGTGAGGGGTGCATCTCCTGGAGGGCTGCCGTCCCACCCAAAGGCAGCACCTCTGCCCTGTGTCATGGGGACTGCAGGGCCACCCCAGGGCTGTGCAGAG
CAAGGAGGTTGGCGTTATTTAGAGCCAAGCTCTGCAGCTGCAGGCCCCTGCCCTGGAGGGAAGTGTTGGCATCTGGCTGCACCCTGTCCTTTGAGCCAGA
ACGTCCAGGCYGGGTCTGCCTCACTGGTGACTGCCTGCCATCAGCAGGGCTCTGGATAGCCAGCACCTCCATGGGGAGACTGAGGCCCAGGGTGGGGGAG
GAGCGCCGGACCTCAAAGGCATGGCCTCAGCTGGTTTTCCTTCACGTGGGTGACAGCTGAGGGTTCCCTGCTTCCATTTAAGACTAAATGACCTTCAGTG
GAGCTCAGAACAAAACTCTTCTAAGGGGATTGGGAAAATGGGGGCCTGGGAGCAGCTTCTGAAACTGATGAGCACCTCGACCCATGCACCAGGCAGAGCC
GGCTCCCTGAGGGTTCCTGCTAGAGTCCTGGCCACCCAYGGCTCAATCCCCTGCAGGGAGCACCTGGAGGTCCTGTTCGCTCTAGGCGGGAGGCTGAGTG
ACGCTGGACCGCTGAGCAGCAGGTCCYGCGGGGACTCCGAGGCACCGGGGGAAATGAAGCGGTGCCCAGGCAGCTGCACGCCTGAGTCCCTGCCTGGTCT
GAGCGCCCCGGAAACAGCYKAGGCTTCACTTGTCCCCTCTCATTTTTAGCACCAGGCTCTGTTCTCTGCCTTTATGTGTGGYGTCTCCTGCGGTCACCAG
GGTGCCTTCTGCTCTGAGGCTGCTGCCATCCTATCTTGTAGGAGGCGAAGGCAGGGCTCAGAGCTAAGAGAAGGCGCTGCCTCAGGTCCGTGCCTCCCAC
CCTGCCTGGGACTTGGGCAGACATTCCTTCCTTAGCCGTTTACTGAGCACCTGTTGCACACCAGGCCCCGTTTCCATGCTCCTGGGATACTTCCATGAAG
CAAGACAGACAGAAGTCTCCTTTGSAAGATGGATAAACTGGCAAACAAATCCATGGATGGGACAGTTTCATATCCTGGTGAGTGCTAGGAAGAGCAGAAA
ACAGATGGTGGCAGGGGAGGYCTCTTAAGGAGGGGCCAGGTCACCTGGGGCTTGGATGATAAGCAGCTGTCGTCCCTGGAAGGTTTCCAGCAAAGGACAG
ATGTCAGAGCTTTCCCGGAGCTGACCAGGCCCTGTGGCTGGACTCTGGTGACCGAAGGGGGCAGGGTAGGAGGAGCTATTGGGGTTGGGATTTTATCTAA
AGCCTGGCGGAGGTGTGATACCTGATCATTTATACTTGTGAGGCCCTCTGGCTTCCCTGTGGAGCAGGGCCTTGGGGTGGGGGTGGGAGCCGGGATTGCA
GGCTGAGACACTAGCCCGCAGCGCCCGCAGTGTCCCGTGAGGAAGGCCACATGCCACAGCTTTCAGTTTCCTTGGGGAAAGTAGCGGGGAGGAGACGGCA
GTGATGGCATGAAAAGACCCATCCCTGGGGAGGGAGGGACTCTCGGGGAGGGCCACAGCCTGGCCATTCACTAACGCTGCTGGGGCCAGGGCCACTGAAG
CCCACCCTGGAGGTCTTTCTAGGGACCACCACCCTGTGAATTTGAGYCCTCAGGCTTGGGAGGGYATGTGGGGAATCTGRCCCTTGCCGCTGCCTTCCAG
AGACTTGCGGGTGCTGGGTTAGGGTTGGGGGCTCTGGGGRTCACGCTCTGAGATGCCCCGTGGAAGGGTGCCTGCTGCAGGCAGTCTCCAGCTCCTYGGC
CCACATGCCTCACTCCTTGTCCCCTCCAGTTCCTTCCCCTGAGGCTTCAGGGCCTAGCTCAATGAGGCAGGAGGCTGGATAGGTGTGATGTCCCAGGCCA
CCCATGTGCCAAGAGGTGCCAGAAAGCAGGAAGAAAAGSGGCAGGTGGGATTTGTTGTTCTGATCAGCTCACTGGAGACAGGCTCTTGTCACAGGGGGCA
TTGAACTGGGCACCTRCCTGCCTGAAATATTTACATTGGCAAAGGCCCGGACAGGCCACAAATTACCCTGTGCATGTGATTCCATTTCCCAGCCACTTTT
TTTCTCTAAGGAGTTGCTGGCATCGTAAATCTTACTGMAAACAGTGGGGAAGAAAAGAATCTGAGATTCTACAAAGCACATTTAACATCCATGACTGTGT
TTGATCTTTCCAGTGGTGGAGGGGCCCGCCTGCTCCCCTGCAGACGTGGCTGAACCTCCCCGTCAGGGTAGCCCAGTGCTGCTGCCTGTGGGCCTTTGGT
CTGCGTCTCAGCCTTCCAGTGGGGCCTACAGAACGGCACGGCTGTGCACCTCTGGCACCTGCAYGCCCAAAAGGCACTTGGTCATCACAGCAGCTGGAGC
TGGGGGGTTATCGTAACTTGGTAGCCATTATTATTATTATTATTATTATTACTACTACTACTHTTGCTGCTGTGGCTRTGCCTGTTCCAGTAGCTCTGGC
AGGCAGGCCTTGGCGAGATGGCCTGGGGAGGGAGTTTGTGAGGCCCAGGTTAGAGTCCTGCATGTTGGTTCTGGAAGGGACTTCTTGTCTCCYAGCCCCT
CCCCCATGATCCCTGTCTCCGGCTGGCCCCTCACTGYRCTGCCTTTGTCTTCCTCATCCTTTGTCTTCATTCCTCCTTCCCGTGAGGGTGGGGTGGTCTG
CTGAAGAGGGAGTGTSCCTGGCAGGTGGGGTCACTYGGGCACAGGCAGGGGTGGCAGGGCTGGCCGGACAGTRGGTGGGAGTGGGGGAAGCTCCAGGGCT
GACTTTGTGCTGGCTGTGAGTTGGAGAAGCCCCTCGTGGGATCTGGGAGGCAGGGGTGGGTTGCCTTCCCCCGCCTACTGGGAGGGAAGGAGGCCCCTTT
CCATTTCCTGGGACCACCCAGGCCAGAGGCCTGTGCCCACCCAGCGGGGCGGCTCTGCCCTTCTCCTTTTCTGCTAATGCCCCACCGTTTGTGTGTAGGT
CTGGCTCTTTCTGCCCCTCCTCCAAAGCTGCACGTGCCTGTGAGCTCCACACTTTCTGTTCTGCTCAGGGGCCGGGAAGGTGAATATCTAGATAAGGAGA
ATCTGGTGCCGRGAAGACCCCCTGGACTGTAGGATAGCTCTCTTGAGGTCCTGGAATGCATTTTATGTCTCCTGCCTGGCCTGGAAGGTTATATCCCTGG
CCCCACACCCTCCCATGACCCTCTCCTCCTGTCCCCCTCCCTGAAAAAGAAGCAYCCGAGGCCCAGCCCCGAGCCCCTGCCRTCTGGGCTCTGCCTGGGC
CCCTCTGGCCCCTGCCGTGACTCCTCATCCACAGAGTGGTGTCCGTTCATCTGTGTRGAAGGGTCAGGGTGTGGCAGGGGCCAGGCACGCAGGTGCTGCC
AAGCTGTCTGAGGTCAGCACCTCCCCCACCATCCTGACCATTCTGAGCCTGGCAGGATAAAGAGGTCACCTGTCCAGGGCCCCAGGGCCTGGCTCACAGT
GGCCCCAGCATTGGTTGCTGTGTGGCCCTGGGCTTTGTGAACTTCTCTGTGCCTCTTTCCTCAGGGGTAAAGTGGGGAGATGCTAGAACTTTCCATATTG
CAGGGCTGCAATGAGGGCTGGATGGGATGAGGTATGTGAGGCACTCAGAACAGATGTGAAAGCTGCRCGTGGATGCCCCTGCCTGGCAGGGGGATTTGGT
CTCAGGAGGGCACATTTCAAGCCCCACTTCCTTCCTGGAGTCYTCCCTGTCCCCACAGGTCCGTGTCCTGCCTACCTGTGAACCACTCAGGGTAACGCTG
GGCCTGAGCTCAGGCTCTTTCTTTTTTTTTTGAGACAGTGTGTTGCTGTGTCACCCAGGCTGGAGTGCAGTGACACTATCATAGCTCACTGCAGCCTTGA
CCTCCTGGGCTCATGCTATCCTCCCGCCTCAGCTTCCCAAAGTTGGGATTACAACAGGGGTCTTTCTAACCTCCAGTATCCGCAGATGTTCCAAATCAGT
CCTGCCTGGGTCTAGATCCCTCCCTGCGTCGCCTTGGAGCATTGCACCTGAAATGTGGGGTGTGTGACATGTTGGGGGGAAGCAGAGGTGCAAAGAACTA
GCAATGTCTCAAGTGCTGATGAGGTTGCCTGGGGTGGTGTAGGATCCAGGTTTGAGGCTGGATGTGCCTGGGTTCAGCTCTTGGCTCTGGAGTGTCCTGG
CTTTTTGGCCTGGGACCGTTGAATCACTGTCTCTTGTCTGTTCAAAGCCTTCCTGGGTAGGTGGCATTGGTTTTTGTGGCTGTGGGTTTGGTCCCAGCCC
TGGGGCAGCCGTAACTGCTTAGATCCCCAGGCAGTGGTGGGTGCCTCTGTGGGKCAGGGCAGCCTGGCGGAGCTGGGGCCCAGGTGTGGACATCCAGGGA
ACCCTTTGGAATACTGTCTGGTGGAGCCGAGCACACACCCCACTGGCCCAGCAGCCTGTTTGTTTTGGGGACATCAGTGCTTCAGAAACCAGAGCCCTGT
GTCATGTGGTTCTGTTTCTTGGTTCCTTGTTTTCAGCCTTCGTACTGGAGGGCCACCCCTGGGAGTTGGGAGGATTTAGGTCTTCCTTCACGAAGATGGG
TCGAYGTGGGCCTTACTGCTTTATTCTTTGGTTAAAGATGGATATTGCTGTGGCTAGGTCTGGGGACGGGGCTTGGCAGACAGTGAGGACACAGGCCAGG
AGTGGGGATTTGATGTCCCCTCTTTGAGCTGCCTCTGTCTGCAGTGACGCCTCCTGGGGTCCCCAGGAACCCTCAGCTAGCCCATGGACCTGGGGCTGTG
CCAGGCGCCAGCCCTCCCAGGAGAGAGAAGTTCCTCCTGCCTCCAGAACCCATGTTCAAGGTGAGGTGAGGCRAGGACCCYGCAGAAGTCTGCTGGAGCG
TCCCCTCATCACGGTTCCCTTTCTGTCTGTGACATGCTGACTCTCCACATTGTTGATGGCCTGGTGGAGAGGCTGACTGAAGTCACGTTTTATCTGCCCT
TTTCTCAGAGCCTGTGTCTGGCTTTGGGCCAAACCACTAATAATAAAGCAACTTGAAGTACTCCTYACATTTGTGGGATGTGCAGCCCAGCGGCCCTGCC
CTCCTGCCCCGAGCGAGGCCCAGCGGCATCCTCCTTGAGGGTTTCACCCTGTCGCCCCCTGTTAGCTCCTCTGCAGCCCCCTCGGGGTTGGCACTGGGTC
CAGYGGCCACGTCTTTCCTGAGYGGGGTCCTCAGGTCGTCATGCAGGCTTGCCTGTGGTAGTGGGGGTGCTGTCTTCTAGGTGTGCAAGGGCTTGCCTCC
CACCCCCCAAGGAAGCTGGGGAGGCGGGATATGCCCTGAGCTGCCTCGGACAGAGGTTCTGAGAGAGGAAGGCCAAGGAGGAAGGAGGAGTTAGGAGGGG
TCYGGGGACCTGGGGCCCCACCACTCCAGCCCTTTAGAAATGCSCATGAACCCATGAGACTATAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGG
TGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGGGCAGGTGGCCTCCAGAGAGTGTCTGTGGCTTCCCCAGGGCTCCCCTTCC
CTGCTGTCCATGAATTTGTTCCCCAATACGGGGCCTGGGGCTGCTAGGCCAGGGCCATTCAAACTGGGCAGTTGTACCAGCCTGAGCCCCTCCTGCCTCT
CTGCCTAAAGGGACCAGGCCAGTCTGGGACCAGTGCCCTGGAGTCTCTGCATCTAGACCTGCTTCAGTTCCTGGGTATTTAACCATTTCCTCTGGGGGTG
GGAGTGGGGGGCAGTCTTGTGTATTTGGAGTCATCCGCAGCTGTCGAAAAGAGTGCTGGCATCTTTGTTTGGCTGTAGCACCCTGTGTGATCCAGGTCCC
CAGCCCCAAGGTGGCAAGCTGGAAAGCTGGAGACAGGCATGTGCATTTCTTTTTTGTTTTGTTTTGTTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGC
TGGAGTGCAATGGTGCGATCTAGGCTCACCGCAAGCTCCTCCTCCCAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTGCAGGCAT
GTGCTACCATGCCCAGCTAATTTTTGTATTTTTAGTGGAAACGGGGTTTCACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCTGCCC
ACTTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCCCTGTGTCCGGCCTCCTGCCCTATCTTAAGATTAGTTTTATCTGCCGCACCTTGGCTGTC
CTGGCCCAGGGGTCCCTCCYGCTGGTGAGAACACAGCCTTACCAAGCTCTTTAGGAAACTGCAGGTGCCCTGATGGGGTCTCGGCACCACCATGCCTCCC
CTGGTTGTCACGCCCCCAACTCATCCACCCGAAAAACTTCTGTCCCTCCTGTGACCCCCCTGGGGCGACCAGAAGTCCCATCTGCTGTGTTCCTGTGGGT
CTGTTCTGTGCGGCCACATCCTTATCACAGTGTATAGACCGTGCCTGGCTGGAGCGAGCTTTAGGGTGACTTGTGAATGTGTGGGTGAACCTGCTCTTCC
TGTGACTGTGCACTCATCTGTCCTCCTACATCAGCGCAGATGAGAATCGGGAGGGACCGCTTCCCATCTCACACATGAGGAAGCAAGGCTGAGGCCCAGA
GATGGGCCGCGTTGGAGGGGAATCTAGGCCTGGACTACTTGGGAACTTGGGTGGCTCTTGGCTTGGCTTTGAAAGGGCAGAGGGGTTCGGGCCCTCTTGA
GGCTGGAGCGCTGCCTTCTGGTTTTCTGGGTGTACTGGATGTTATGCTAGCATGCTCACCTCAGGAAGCCAGGGCACGGCAGGCCGCCACCTTGAGAGTG
GAAGCCATCTRGGCCCCTTCCCTTCAGTAGAGGGTGCAGGACAGTGAAATGTCCAAGGCCCTGGTCACCCTGAGAGSCCCCTGCTGCCTGCCTCCTGCAG
GCCCCCTCGTTGGGAGGGACCACGTGATGGGGTGGTTCATGCCAAATGCTGCCCAGGTGCCATGGTGGCCAGTGGACGTGGGGCAGAGTTTGCTTACAGG
CCTTTTCAGGGTAGCAGGTGCCTGGTAGGAGGTRGGCGCCTGCCCAGACACTGATTCCATGAGGCTGTCCTGATGTAAATGGGTGCAGAGTTCATGGGGC
CAGGCAGGGAGAACAGGCATTTGAGACCTGGGGGAGCCGAGGGACCTTGGCACCTTGCACACACTGGAGGTCAGTGTGAACCTGAAGCCCCACCTCTCCG
GATGGAGGGGAGGGGAGGGGAGGTGGGAGGCCAGGGGTGTATCCCTGAAGATCCCGGCTGTGAGCCAGTCAGCCCTGGATTCAAAATCTTAGGCTACCAG
GAACCATTCTTGGTGAGTACGTAATTTACAGCACTGTCCAGAGCTTCGGTTTCCCCACCTGTAAAACAGGGCACTGATAGTGCTTACCTTGGAGGTCTGA
GATGATCCATGCAGTGTGCTTGGCCCTGTGCCTGGCACATGGTAAATGCCAACAAGACATTGGCAGTGATGCTGACTGGCAGGAGTGAGTCGTCCACCGA
GTGGGTGGTCAGGAAAGACCAGTTTCCTTTTCAAGTAGCATTCAGTACGATTCTGGAGCGTAGGGCTGGGAGAGCACAGAGCCCCTTGCAGCTTCCTTCC
CTAGTCTCCTGTGACCCTCCATAAWGTTGCCTGTTTGCTGTCAGAGTTGTCTCCATCAGTTGGCCTCATGGTCAGCGGTGCCCAGGACATTTCGGCGCTG
CGTTACGACAGCTCATTGTGCCTCTGGGCTCGGGGCTGGAGCAGACGGGCGCAGCAGCCCYGCGGCTGAAAGCCACYGTCCCCTGCMTTGGTGGAGGCTG
CTGGCATGCCCTCGTGTATCATCCTGCCTCTTCTCTGGGGTCTCCCCACCCTCCTCCCTGGCCTGGCCTTCTGGAAACCCATTTGTGTTTGTTGCTCTTC
TGGAGTCTTTTCTGCTTGGGTTGGGGTGTCCACTATAGACTCTTCCATGAACCCAACAGCCAGACAATGAGTTATTAGGCAGGTGGGGTGGGGGCCGGTG
TCCTCCCGGGCTTCTGTATCCACCTGCACCAGGGAGAGAGGAGGCARCTCTTCCCGGCTGCCCATGCAGCCTGCCCCCGCTCCCAGCCTCCCTCCTGGCT
GCATGAATCACAGAGACACACTCTGCCCCTGGGTTCATGCACCTGGAGCATGTGACCAACCTAATTTTTAGGCTTCCAGTTATTCTAGAACTTGAATTTG
TMCAGGCCAGTGCTACTAAGGTTTTAGATGATCTCTTGTAGAGGGTTCTAGGTTGTCTCCCTTTTATGGGAGGGATTGAAGGCTTTCCTCCTCCTCCTTC
CCTTCTCCACATTGTGCCAGGCATTGCATGCCAGGGGGTGCCAACCCAGGCATCCCTCTGCACTGGGGGTCAGACCTCCATGGCGTGAGAGAGCCTGCTC
AGAGCTGAGCCCCGCAGGGGTGGTGGAGGAGGAGGGGATTGTGCACACGACGAGCTGTGGAAGGTGAGAGGGGCAGCTGGAATTAATGCAGGGGGATGGG
CTCCAGCGAGCCCAAGAACAGGGCCAAGTCCCATCATCCCCAAGTGGCCATGCTTTAGTTTCAGCAGCTCTTGGTGGAAAACCAGTTGGGGGACAGTGAG
CTCACCGGCCCATGACTAAAAGCCAAGTGCAGCCGCCTGGCTGCATGATCAGAGGYCGCGGGCTGCCGGGAGAGGGTCTGCGTCCCCTCTCCTTGGAAGG
CGGTTGGTTGCCCCCTGTGGCAGCTGCCGCCACGCAGATCCCGCACCTTCTGGAGCTTCCATGGACGAGTGCACGTTCTCCAGTGAGTGTTTTCTCTGCA
CTTGTCCCCACGCCCTCCCCACCYGTGTCCAGTGTCCCTCTAAGCTGAACTCAGTCTGTCCAGAAGGCTCAGGTTGGCTGGGTTCCTAGCYTTCTGTAAG
GAAAATTTAATTTGGACGGTTGCCAAGGGGCCTTAAAAGGCTGGATGTTGTTCCTGCTGTTGTGAGATGGGCCTGGACGAACCAGCAGCCAGTACTGTCT
CAGCCTCCTGATTGCCCCAGCCAGATACTTCCTGCCACTGGGACTGCATGACAGGCCCTSGGGGATGCACACACCAGCCAGCTGGGGCCTGCCCCCCTGG
GGGGCTCAGAGTCAGGTGGTAGAGACATTACAAGATGAGATAGAATAAAAAAGAACTAGAGGTGCTGGCGCCCAGGACAGATAAACGGTGTCGTGCAACT
CAATAGGGAAATCAGGAAGGCTCCATGGAGGAGGAGGCTTCAGAAAAGTGCGGACGTGCTCCTGCTGACCAAAACCCTAACATGCTGCAAGGTGGGCACA
GGCATATGGGGCATGTCCTGGGGTCAGCTGGGCCCTGCTGCTGCTGGCTTCTCCACCCTCTTCCATCTTGTGGGTCTGGGGAGGGTGCAAGGAGGAGAGT
GCAAGACCCTGGTGCTTCTTGGTTATCAGGACCAGAGAGCAGCAAGGACGCAGCAGTGGGTGCGAAGAGGTCTCCACCTSTCTGTCCCCTTCACTGCRCA
GAACAAACAACAAAACAAGAAACTTCTGTGGAGAGACAGTGCTCTCTTCCATGGCTAATGGGAGTGAGGTCCAGCCTCTATGGAGCGTAATCTGGTCATT
TCTAGACAATTGCAAAGGCAAGTCCCCTTCAACCAGCAATCCCACCACCTGTGTACATGTAGGCTGGAAATTTTTCCTGCAGGAAAACGGGCTGCTTATA
CACTTGCAGATGGTCCGTGCCCAGGCTGCTTACTTGAAGCGATGCTTGAAATGGCCAAGTTTGGGAACAGCCCAGGGTTCCATTGCCAAGGACCTGTGCC
CACCCCCTGCCCCACATACCCTGGAGGCCGTGCTCAGAGGGCAGACTCTGCTAGCCCATCTGGCTCGTGCCCAGGAATGGCACAGTGAATTTATTCCTTC
CTGCCTATGCCATTTTGCATGTCCCCTTGCCCACAGAGAGGCACAAGGGATGCTGGCACATGGAGGCCAGCACGGCCCACGGGAGTGGGTGATTTATGTC
TGCCGGCTGGTGAGCGCCATGCCGCTGCCTTCTGCCCGCCTCGTGGGAAGCATGGTGCCTGACATCTCCCTGCCTGCTCTCTCACCCTCCCATTTCCTCC
CTATATCTTGCAGATGCAGAGTGACCACCTTATTATCTGGTGCTTCTGCCGGCTCCCCCTTTGGGGGATGTACCTGCCCGAGTTATTCCCAGATGGCCCA
GTTGTGCTCGAAGCTGCCTGTGCCTGTGGGCTCAGGAGCAGAAGGTGGCCAGGGCAGGGTGAGGGGGGCGTGGCTTGGGCCAGTTTCCCAGGTCTCCTGC
CCACAGCCCTGCTGGGTCCTGACAGCATGAGCGATTGCCTTGCAGAGGCTGCTCCCTGCACCGCGCCATCTGGCGGGGCTATTGTTGACCATACAAAGGA
TGGAACGCGGCAGGGCAGGGGCCCAGGCCCGAGGAGTGGACGGAGAAGCAGGAGGGAGGATGCCTGGCCTCCCAGTGCACCCAGTCCCTGCCATGGCTGA
GGCATCTGTTTTATTGCTTCTTGGGTTGGGGAGTGGAGGGGGCAAAGGATCCCCCTCTACCCTTCCAGAATCTTCAGCTTGGATGCTTTAAACTCTGGTT
CTGAGCTGATTTATTACTCTGCTAAGATGCAAAGGCCGTTTTATGTACTAGGTAATTAAGTGGCATTATAGACGGCTCGAGAGTAAGTGGCTGCTGTTTT
AATAATTAAAATAAATGACCCCTGGACTGTTCCCCAGCTCAATACTCTTTCCGCAGTGTCAAGACCCTGGAGAGACAGAGTGAGTGTGTGAGTGTGCACA
TACCTGTGTGTGTGTGTGCATATGGGTGTGTGTGTGCATATGAGGGTGAGTGTGTGAATATGCACTTGTGTGTGGATGTTTCTGGGAGCGTGCCTTTGTG
TGTACATGTGGGCATGTGCATACATTTGTACACGTGTGTGCATGCATGTGTGTGTGAGGGTGAGGTGTGCAGGAGGGATGGAGGAGGAGGTGGCTCCTTT
GTGACCTTCTGTTTCCGTGAGAAMCCTTGGGACACACCTCTCACCCAGGTTGGGGGTTCCCTGTCCTGGATTAACTTTTGTTTCACCCAGAGGCCAGGCC
AACCTAGGCAGGTTTCGGATATCGCCTCCTGTGTGGGCCAGCCCTGGTTCAAACCCSAGCTCTGGCCCTATGTGGCTGTGGCCAACTGCCCTTCCTCAGA
AGCTTGGTTTTTGTGCCTGTACAGTGAGGGTGGCCATGTCCAYCTCATGCACCATGTGCCTGATGTCCAGCAGCGCGTTACTGTTCCTCAGTGATTGTGT
GGCATTGCGCTGTGGCTCTGTGGCACTTGGTTAGGGCTTGTGGAGGTAGAAGGGTGAAACTGGCTGGCCACTGCCCTCAGGGGTGCCAGAGGAGGGAGGG
GCAGGAGCCAAGGTGATGGGCAGAGATGAAATGGGGAGCAGGACCTGGGGACCCCCAGGTAGCCAGGGGGTTTGCATAGGCCCGGGGGCAGAGGGTCAGC
TTGCTGGAGGGCGTCGCTCTCTTCTGCCTGGTTGTGCTTTTGTTTTGTGGAAGGGTGGCCTTTTCCCAGAAGACGTGGGCCATGATGACATCATCATGTC
CTCACCTGTGGGGTAACACTGGGCTGGCTCCCTACCGGGCATTTCCGTGAATAGGTGGAGCTGAAGGAAGCAGGTGTTCCAGTCAGTGGCTCTGCACTGA
GGTCCTCGCGTGGGGAGCCCAGGAAGAGGGATGAGGAAGGAGGGGATAAGCACGTCACTGCATGCCAGGCAAGGGCCAGGCCCCCTTGGTGCCATTCCCT
ACTGAGTGGAGTTTCGTTTAATCTCACCAACGCCGTAGCGCAGGGGATTCTTTCACAGCTGGGTTCCAAAACCTAAGGCSGTCTCCCTGCTCCCACCTGG
CATCCCTCCTCTGCCCCCTTCCCACATTTACCCAGCTTCATGTGTGCTGGGCACAGTGCCTGGAGCTTGTGGGTTCTCCAGGCTGGGGCCYTGGGTGGCT
GTGGTGTGCGCCTGGGCCCCTGGGGGCTGTTTCCTCATCTGCAGACTGAGRAATGGAGGGTCTGCCCGCTCGCAGCACAGAGCAGGTCCTGCAAGGTCTG
AGCCAGGAGCCACTGCATGGCGCCCGCCCCTGGTGCCCAACAAAGGACAGTAATGCTGATTTATGACCTGATTTTCCAGTGGGGGAGGGACTGCCCTGTA
GGTGTCCCCTGGAGGGAGACCAAGTACCAGCAGAGCGCTCTGCTGCCGTGGAGGATGGCTGGGCAGGTGCCCAGGCCCCACCCCTGCTGAGCCACATGCC
AGTCCAGCTGGTCACGGGGCTGTCCACTCTCTGTGACATGGGTTTGTAGGAATGGATGCTCTGTGCCTAGAGCGACCAGGTGCCAGCTGGTGTCCCTAAG
GCCTGTGTTCCTGGACAYTGGGTCTCCCTGCCTGACCTTGGGTCTGGTGGCATTTTTCACATCTGACCTTTCAGAGTTTTCCTCCTGGCCTTGGGTCCCA
GGARGCCAGGGCCGCTACGGCCATGTGGCTTGTCGGGAGCCCTGGAGGCGTGTGGCAGCAGGCACCCCCCCATGCACGTAGTGGGTGGGGCTTCAGCACT
CAGTGGCTTGTGGATTCTGCYGAAGGGAGCAGCAGAGCCCTCTCTGCAAATGCAKCCCTGCCCTGTGGAGACTGAGGGAGGCAGGGGAACTGTCCTGTGG
CCCGGCCCAGGCTTCTAGTGGACACAGGCAGCTTTACCCTGGCAAGGCTCCCTGTGGGCCTGGGGGTGGAGGCCTTGTGGGAGCCCTGTTCTCTGAGGAG
GCCCGTCCCTCTCCAGACCTTGCTTCCCTTCTGCAGAGATGGCTTGGCTCCCATGGGCCCTGGTATCGGGCAGAGGTGGTCTGTGGCTGTTGATGAACAA
ACCTGCTCGCTTGGTGTTCTGCGACTCCGCCCAGGCGGCCACTCTCTCACCTGTTTCCCTGCCCTCAAGACCTTTCTCTAGGCCATAGGGTTGGGGCAGC
AGGGAGGAGGCGTGCATTGAGTACACCGGGCCCAGCGAGCACAGCCCACTCTGCACCCTCCTCCAGTGGCATTTGAATGCCCAGGTGGACAGAGCCTGCG
CAGYCCCTTCCCTGTGAGGCGGGCGTGATGCTGGCGGTCTGGGGGCTGCTCTGAGAATAGAGAAGCAGTGCTGGGGCCGGGCCTGGCRCCTGGCATACAG
GTGCCCTGGAGTCTCTGTGTGYRGTACTCATGGCTCTCCTGCCTCCCCTGAGGTTCCACTGATGGTGCTGTGAGCAGTCRTCCCTCCCAGGGATCTCGTT
GAGTGTGTGGTTTKTATCATTTTACAGATGGGAAAACTGAGGCCCAGAAGATTCATGGGCTGTCCTAGGCTCTCCCGGCCCAGACCCTCCCACCTCCTGG
CTGCCCCTTCACCCTACCCAGCCCTGGCTGCAGCRTTGGTGCCCGCAGGCATGAGGCAGGCATGAGGGCTGCGTGTGTGGGTGGGCAGACCCCCTTCCTT
GCTAAGAGGGCAGSCTTTGGTGGAGGCCACTCTGGGCTGAAAGGTCCTGGGTCCCTTTCCCTGGTGTCCAGGGAGCATCTATCCAGGGGGCAGCTGGTGT
GAGTAGGTTCCYACAAGGAGRGAAAGAACACCTGGCTGTGTGCAGGGGGTGAGTGGGGCCTAGGTGCAGGTTTGATTTTTTTTTTTTTTAATTTCAAAGG
GGATGTGTTCCCTAGAGAAGCTTAGGAAGATGGGGAAATGTAGAAGAAAAACCCAGACCCATGCARCCCAGTCCCGTGGCCTCTGCTGGGAAGATTTCTT
TCCCCTGAGATTGATCTGTGTGTTCTCTCCCGGGCAGGGGTGTGCTGGCTGCGGGCCCRCCTGCTGTGGGTTTATGTGGAATCTGGCTTTTTCAGTCCAC
GCTGCATCAGATGCATTTTTCCTCTTAGTCTGCAGCCACCCTGTCAGTGGCTACATCACAACCCTGCAAGCGGGTTAACTAGAATTTCCTTAACAGCTCC
TCGGCTGCTAGACATGGGCACGTTGCTCCCTGATGGAAGAGACAGCCAGCCTTCCTCACTGCAGTGTTTTTGGTTAACAGGCGACTGCTGGCTGGTGAAG
TTGTGATCGGTTTGGAGGCTGTGGCAGGTGGCTCCGAGTTACCTCCATGGAAGTCACTTTGGGAAATGAGGCAGAATGTTGCACAGGATGGCAAATGTGG
KGGGTGAGAAGTGTGTCTGGAATTTGCTCAGCCTTCTCTCGTCAGTGATGTCATGTTTACCCTTAAAAATCTATAAGAGAAGGTGTAATAGCTTCCTACG
GCACTACCACGAATGGCCACATTATGATGGTCATTTGTGATGGCAGCCACAGCAAACGATCAYGTGGGAAACCCTAGGGGTCTTAAAACAACAGAAATTT
GTTCTCTCACATTTTTGGAGGCCAGAAGTCCAAAGTCAAGGTGTCAGCGGGGCCAGTTCCTTTTGGAGGCTCTSGGGGGGGAMTCCTGTATTCGGCTGCT
CTCGCATTGCTGTAAAGAAATACCTAAGATTGGGTAATTTATAAATAAAAGAGGTTTAATTGGCTCACAGTTTTGCAGGCTGTCCAGGAAGCATGGCAGC
ACCTGCTCAGCTTCTGGGGTGGCCTCAGGAAATGTACAATCATGGCGGAAGGCGAAGGGGAGGCGGGTGCGWCTTGCAGGCGGGAGCAGGAGAAAGAGGG
GAGTAGAGTGCGGGGAGGAGCCACACACTTTAAACAACCAGATCACAGAGGAACTGTATCACAAGAACAGCAATAGGGGGTGGCACTAAACCATCAGAAA
CCACCCGGATGATCCGGTCACCTCCCTCCAGGCCCCACCTCCAGCACTGGGGATACATTCAACATGAGATTGGGTGAGGACCCAGATTCAAACCACATCA
CCTTCCTTGCCTCTTCCTGCTTCTGATGACTCCTGGTGTTCCTTGGCTTGTGGCCTCATCTCTCCCATGTCTGCCTTTCTTTCCATCCGGCCTCCTCTGT
TTCCATTTGCCCTTTTCTGTCTCTTACAAGGACACCAGTCATTGGATTAATTGTTTTTATTTTTATTTAATTTTTTTGAGACAGAGTCTCGCTCTATCTC
CAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACA
GGCAACTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGGTGGGGTTTCACCATGTTGGCCAGGCTGGTTTGGAACTCTTGACCTCACGTGCAG
TCACTGGATTTAGGGCCACCCTAATACAGTGTGGTCTCCTCTGGACCTTACCTTGACTACATGTGCAAAGACCGTATTTCCAAATAAGATCACATTCTGA
GGTTCTGGGCGGACATGAATTTGGAAGGACACTGCTCGGCTTGCTACGGTAGGTGGCAGGGAGGTGGAGTGACTCTTCTGCTGTTGGGCAGATGATGAAG
GCCAGTGGCTTTCACACGGCTGAGTTCTCTGCCATCAGTCCACACTGGAAACCTCGTGGTTTCAAGGAGACCCTGAGAAACTGTGGAGGTTTGTCCAGGT
TTTTCCAGAATCGACTTAAATAGACCACTGAAGTAGACCTGGTTGATATTTTTTTCCCCTAAGATTAAGCTGCACACGCACTTTCTTCTGTGATATTTCA
TCCTTTCAGCTATTTTATGTTATGTTTGGAARGGTGCGGACTAAAATAGTGATTGTTTCTTTTTTCTTTATTTTTTTGAGGCAGAGTCTTATTCTGTGGC
CCAGGTTGGAGTGCAGTGGCACGACCTTGGATCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATCCTCGTGCCTCGGCTTCTCAAGTAGCTGGGATTAC
AGGCGTGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGCCTCGAACTCCTGGCCTCAAGTGAT
CCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACATGTGKGAGCCATGTGGGAGCCACCTGTACCCTGGGCATTCCTTTCTCTGAGCCATTGTCTCCTT
CYAGCCTGGCTTCACCTCTGCTGGGCCCAGGAGTGACTTGGTGAAGAGCCAGATGCAGCCTTTGCCTTGGGGCTGGCAGATGTTTAAAGATGGACACTAG
ATGACCCTTGTTTCTATATGGGGAAATGGCACAGACAGGGAGATGGGTGAGCTCACCTGTCCAGGATCACAGAGTGAGCCAGGCAGTGGCCAAGGGACCA
GCATCCCTCAGATGCTGGCCTTGTTAACCCAGCTCTTGTCTCTTCCTCCAGCCGAGAACAGCCTGGGCTGTACCTGGTAGACGATCTCTKAGACCACGTG
CCCTGGTGAATTAGAGCCTGGGCCTTGGGAAAGGGCTTTGGGCTCAAATCCCRACTACAGCACTTTCTGCTTTGTGATCTTAGATGAGTCTCTTCATCTC
TGCGAGCCTCAGTTTCCTCACTTTTCAATAGGAATAATTGCATTTTTCTCCGAAGGTTACYGTGAGGATCTGAGAAGGTAACAGAGGTAAAGTGCTCAGC
ATAACACCTCCCACGTGGTTCTATAAATGGAGTTGAAGATTTTTCTTTTCTTTTGAAATGAATTAAAACTTACAGAAAAGTGGCAAGAATGTACAAAAGG
TGCTGATATAGCATTCATTTCGATTTGCCAACTGTTTTGACCTCATTGCTTATCATTCTCTCTCTGGACTTTTTTTTTTTTTCTGAACTATTTTAGAGAC
GTTAGAGTTAACACACCCCTTTCACACGAAATACCTTGGTACACATTTCTTAAGAAAAAGGACTTCAGCGGGGCACAGTGGCTCATACCTGTAATCCGAG
AACTTTGGGAGGCTGAGGCAGGCGGATTGCTTGAACCCAGGAGTTTGAGATCAGTCTGGGCAACATAGTGAGACTTTTACAAAAAAGTAAAAATAAAAAA
TACTAGCTGGGTGTGGTGACATATGTCTGTGGTTCCAGCTCTTTGAGAGGCTGAGGTGGGAGGATTGCCTGAGCCTGGGAGTTCAGAGTTCAAGGTTTCA
GGTGAGCCATGATCACACTGCTGCACTCCAGCCTGGGCAACAGTGAGATACTGTCGCAAAAAAAGRACGAGAACTTTCATATAGCATAGTGACAAAAAAT
GATCAATATCAGAACATTTAACGTTGATACTATTAATACTTGTCCCAATATGATGCTCTAGAGCAAGTTTCTTTTTTAAGAGACAGGGTCTCATTCTGTG
ACTCAGGCTGGAGTGCAGTGGTGTGATCATAGTTCACTGCAACCTCAACAGGGCTCAAGTGATCCTCCCGCCTTAGCCTCCCAAGTAGCTGGGACTACAG
GCATGCACCACCATGCCCGGCTAATTTTAAAAATGTTCTGTGGAGGCGGGATGCCGCTATGTTGCCCAGACTGGTCTTGAACTCCTGGGCTCAAGTGATC
CTTGCTCCATGGCTTCTCAGTGCTGGTATTACAGGCGTGAGCCACTGCACCCGGCCTGAGTGATTATTTTCTAATGCAGGATCATATGTGGTCCATTCTC
TCTTTAGCTTTCCTTCATTTGGAACTGTGTCTCAATCTTTCTTTACATTGACATTTTTCCAACTGCATTGACAGTACAGACTGGTTCTTTGGTAGAAGAT
CAGCCGATCAGGCTGTCTGATGTTTCCGTGTCATTAGGTTCAGGCTGTGCATTTTGGGCAAGAACAGCCCACAAGGGACGTGTGTCTGATCAGGGGCACC
TGAGGTGTGCATCTTGGGGTGTGAACTTGATCACGTGGTTTGGGAGGGTCCCCCATTGTAAGCTGAGCATACAAATCTCTGTAAGTAATAACTGGTTTGC
GGGAGACTCTTGGAGACATGCAGATGTCTTGGTCTCCARCAGGCAGACACGCACTTGTCTCAGCATCCACAGTTAGCTGTCTGGTGGGGACGATGCTGAT
TTTCTAACTTCTCCCGTCCTTCCACCTCCTTCCACATTTAATACTTGGCCTTCTCCTGGGAGGGCCGCTTCCCCTTTCCCTCAGTGAGCTATGTATGGAT
GCCTTTTTATCAGCGTGGACTCAGGATTTTTATTTCATCCAACAGGGYTGTAATCCCTGGCTCTTATTATCATTATTGCCACTTGGCCTGGGAGAAAAAA
GTGGCTGTGTGCCAGGGAGGAGAAGGGATTTGAAGGCCCAGGTGTGTGTGCTCATAGGACAGCTGTGGGGCAGGGCCAGGGCACATGTTGTCACCCCGGC
CATGCCACTGACTTGACCTGTAGCCTTGGACAAGCCGGCGGACACCCTAGAGTCCCAAGGTCGTCCTGCTGGTAGGACAGGTGGGGACAGGCTGACCTTT
AAGGCCCACTTGTCCCATCCCATGAGGCTCTGAGGGCCCACGCCATCCTCCCTGTTGAGACCAGGAGTTGGCTTGGGGCAGTTCTCAGCAGCTGGGCTGT
CACCTCTCACCTGTGGGCGTGATTACACAGAGGGAGGCTCCCTAGCTCCCTGTCCCGCCCGCCTCACTTCCAGCAAGGCCACCCTCTGCAGGACTGAGGC
CTGTTTGTTCTCATCAGTAACCAAACATTGACCTCATCCTGGCACTGGCTCTCCCCTGACCTTCAAGTCTGTTCTTGCTCATACCTTTCTTAAAGAAACA
CAGTCTTGTGGGCAGGCACCAGACCTGAGGCCCCCATGGGCCTATGTCCATCTGTGCCCACCTGTGCTGCCAGAAGGGTCCTTGGAAGCTCTCAACTCCC
TTGTACAGAGAGGTGCTCTGGGGCCCAGAGAGGGAAAGAAACCTGCTCAGAGTCACACAGCAAGGAGGTGGTAGGACCAGGAGTCATGAACTCTACTCCA
CTCACTGTGGGTGCCCTGTGCCCCGTTTATGATGATGAGCTTCGAGGTGGGACCTCAGGCATGCCCGTTGGCTTTTCTGAGAGCCCAGTTAGGTGTTGAT
CCTGCAGAAAGGCTGGAGCAACCCGAGAAGAGGAGCTTGAGCCTGGGTGGGGACCAGGTCAGACCTGGGCCTGTGGGTGGTGGCTTCCCATTGACCGGGG
TCCTCATTTGACAGCAAGGCTAACGGTTCCTGCTGTCACCTGCTTGGAGCTGGCAGCATGCAGTGATGTGCGGGCTGCCAGCATGCGCTTACCCCCTGCC
CGCCTGCCACAGCTGGGGCTGCAGATCACGCTGTGCCAGACACAGCCCTGCAGGAGCCTGCAGAGGGACATGCACACTCCAGTGCCAGGCTTTCTGCTGT
GCCGGGCGGGCACACTCAGGCGGAGGCCTTGCCTGCCACAGTGACCAAGGCTGGGTGGGGGTGTATCCCTAGAAACGAAGGATCTGGTTAGAAGTGCAGT
GCCRTGGTGGGGCTTGTGTGCTGGGATGGCCACAGTCCCGGGCTTGGTTAGAAGCACAGTGCCATGGGGGAGCTCGTGTGCTGGGATGGCCACAGTCCTC
TTCAGTTACTGGAGCTGAGGGTGTGGGCTGAGGGCATGGGGCAGGGGACTGAAGCTGGGGTGGGTGGCTCCGGAGAGTTCAGGCAGGAAAGCAGTGTAGA
CAGATTCACRGAGCAAGTGGAGCCGACCACACTGGGTGGCGGGGAGAGGGTCTGCAGCAGCTCTGAGAGCAAGACACAGTCCTGTCCCTCCCGCAACCTG
CACTCTCCCAGAGTGCAGAATCAGTGGCTTCCTGGGATGGGAGAGGCAGGACCCTGGACCCTCTGTCCCCCAAGTTTGAGCCCATCTCTTGAGGTCATGG
GGAGAAGGGACCGTCCCCAGCACAGCTCAGGGGAGCTGTTCCCGTGGGTGGACCCTGCCCTCAGCCTCGGGTCCTTGCCCTATCTCCGCCGCAGGGGCTC
AGCCCAGCCCTGGGCTTCTGTGCAGGGCTTTGCATCTGTGCCCTTGGGGGCTCGGCATGCAGTCATTGAACAGCCTMCCTTTACAGAGGCGCTGCYGAGG
CTGAGGGATGCCAYGTGTTCAAGAGCCATGCTGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAG
GAGTTCGAGACCAGCCTGGCCAGTATGGTGAAACCCCGTCTCTACTAAAAACACAAAAATTAGCCGGGCGTGGTGGCACGTGCCTGTAGTCCCATTTACT
CGGGAGGCTGAGGCAGAAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCACCATTGCATTCCAGCCTGGGCRACAAAGCARGAC
TCTGTCTCAAAAACAAACAAACAAAAAAAAACCACACAGGGAATTAGTGGCCCCCGTGTGAGATTTGAACCCGGAGTTTGTGCTTGTGAAGACTTTTGAA
GGGCCTGTGAGAAGATTGTGACATTCCTCTCCCCATGTCCTGAGCTGCAGGGCTCTGGCCTGGGTGTTCTGGAATCTATCCAGCATCCTCTCGGCGGCTC
AGTGAGGGGGCCTCATCCTTCCCATTTACAGATGAGAACATGAGAGGCTCAGAGACGGTCAGTCACTGGTGCGAGGTCACACAGCTGTGATGTGAGACCA
GTGTTTCTGTGATTACAGAGGCCCAGCTGACCCCAGGCCTCTCCTCCCTTCTATCYGGCACTGCTAGGGGAAGCCTAGGGTCCTTCTCCCATTGAGGGCC
ACACCCCCAGGCCATCCCYRGTGGCCTGGGGTAACCAAGTCCCTGGCCAGCAGGACAAYGAGCTCCTGGTCTGTTAGTCCTATTTTGGGTCACCCAGTGA
TGTCACGGTGCCAAGAGCCATGCAGGAAGCACCGGGTTTTCCAAGCCTTGCCCAAGGTGAGCAGGTGACCCTTGAGCCCCGGAAGCTCGTGGCCCCCTTG
CGGGGAGAACCTTGGGTCCAAAGGGCGATGATTCCAGCTGCACTTACTGGGTGAAAGGCAGCCTGGCCTATGGGTCATTGGCAGCTGAGCACGTGAAGTG
GTGACAGGATGGGGAGGGCCTGGGTGGAGGTTGGCTTGGCAACCCCTCCCACACCTCAGACAGCAACAGCTCCGTCAGTGCCAGCACCTTCAGCTGGCCA
GGACCCTCTCCAGAAGGGGGCTTTCAGGGTGCCTGGCCTTCCCTTTGAGAGGTCTAGAGAGTCTGACCTCGTCCCACCGGACTGAGGGGACACTGAGGCT
TGGGCAGAGACACTCCTGCCCAACACACTCAGCCAGCACAGACCTGCTGACTCTGTGCCCAGGCTCTCTCTGAAGCACTGTGGGGCTCAGGTTTGCGCCT
CCCCSTCCCTGCAAGGGCCTGGTCCTGCCTTGCTGGGGTCAGTCTCATGAAGGCCCCCAGAGACCCTTGTGGAGGGCAGGTGTGTCAGCCTCCGCAGAAT
GCTTGGGCCGTAGGGCAGGATTGCAGCACCCCTAGCAGTGTGGCCCAGGTCCTGCCTACCTCCTCCCCAGTGGTGCAGGGGCAGCTAGAGGGGGCTCACA
GCCTGATCAACCTTGGGGCTTTTTGGGGCGCAGGCTAGCCGGGCCTGGGAGGAGCTTCGCCTCCTCCACTCCTTCCTGAGCCTCCCACCTGGACCCCCAG
GTTCCGGGTTAGTGCCCACCCTTGAGGCTTTCAGATGAGACCTCCAGGTTGTCTGGGACCAAGGCCATCCTCCTTGGCCTCCTCTTAGCCTCAGGTCCTC
ACTGCCACATGGGCCCGGGGCCTGGAATTTACTTTTCCTCTGCTTTCCTTTCTTCTTTTGGGACCTGGCTGCTGTCGCTGGTCCCACCTGTCTGCTAGAA
TTTGGCTTGGGCTGTCTCTTGAGCCCTTTTCCCTAGAGGCTCTGACCTAGGGAGGGGGCTTGCTGGGGAGTGGGAGGCTGAGCCTGGCTGGTGGACTCYG
GTCTCAGCCTGCRCTCACCTGCCTGCTGCRTGCTTACTCACTTGCTCACTCACCTGCTCACCCATCTGCCCACCCACCTGCTCACCCACCTGCACACTCA
CCTCTCACCCACCTGCACACCCACCTCTCACCCACCTGCACACTCACCTCTCACCCACCTGCACACTCAACTGCTCACCCACCTGCACACTCACCTCTCA
CCCACCTGCKCACTCACCTGCACACCCACCTGCACACTCACCTGCCCACCCACCTGCACACTCACGTACTCACCTGCACACCCACCTGCACACTGCCTTC
TACACCCACTTGCTCACTTACCTGCTCACTCATTCACCTGCTCACCTGCACACCCACCTGCTCATTCACCTGCTCATCTGCATACTCACTTGCTCACKCA
TTCACCTGCTCACCTGCACACCTACCTGCTCACTCATTCACCTGTTCACCTGCTTGCTTGTTCATGTGACCTTCCCCCCACTGCCTCCAATCCCGTGTGG
CCTCTGGCAGGATGCGCATACTGGTGGTGTGAACTTGGTGGCCAATCTCTAGTGTCTGTCCAGCCCCAGTGCTCCGTGTACGCTGTGACCCTCACCCCAC
CCCAGGACTCCGTTAGGGCTGGGAGGGCATCTCCTCTGCCGCATATGGAATTAGCATTGGTTTGTCATTATGTCACAAGCAGCTAGTGGTTCCAGTACTT
CATGGTCTACAAAACCTCAACTTTAGAATAGAGAAGAGGCTATGCACTGTATGGGTGATACCACACTGGCTTTGGATCACCTTGCAGTGTGCATGCCTGC
ACTGGGTAATGTTGGCAGTGATGTGGTAGCCTTTGCTGGATTGGTGATGGAGGCTGGTGCCAGCAGCTTGGTCGAGCTGGACCCAGGTGAGCAGTCGTAT
ATTGGAGGAGTGTGGCCTGGGCACCCCAGGCCTGTTATGGTACCGCTGTCCCCATGGTCAGCTGGTGCTGGTATCTCGGCTCAGAGGGCAGCGTGCAGGC
CTCAGCTGGCCCTTCCTTTCCATCAAGGTCGGACAGTTAGAGTGTGAGCAGTCGGGGAACAGGGCAGTTTTTGTGAAGTATCTGCTAAGTCCAGGTCCTA
TGCCAGGGCTTTCGGAGCTGGTCTTCTCCTAGTCTGCACTGCAGTCTCCTAAGGTTGGGTTTTTATCTCATTTTTAAGTGAAACCGAGGCTCAGAGTGAC
TAAGCAAGCAACCTAAAGTCACACAGCCATGACTTGTAGTTCTTGTGTGGGTTTCCTATGGCTGCTGTCACACATGACTACACCCTGGTGGCCTAAACAA
CACACATTTATTCTCTTGCAGTTCTGGAGGTCAGAAGTGCCAAAATCAAGGCATCAGCAGGGCTGCGTTCCCTTCTAGGGGCCAGAGGGGAGAGCCCGCT
TCCCTGTCTGTCCAGCTTCTCCCCTTCCCCATCTTCAGTATTACAGTGGCCACCCCACCGTGGTCACATCTCCCTCTGAGCTCAGCGGGGAAAGGCTCTC
TGTTTTTAAACATTCATGCAGTTAGATTGGGCCCACCTGGATAATCCAGACTAATCTCCTCCTAATTTTGAGTTCCATAACCTTGATCTCATCTGCAAAG
TCCCATTTGCCAGGTCAGATAGCATTCAGAGATCCTGAGGATTAGGGTGGGGGCATCTTTGAGGGGTTGTTATTCTGCTGACTACGGTTCACAAGCCCAG
GCTGAGAACTTTATCCAGAACAAGGCCCTTGTGTTGTCATTTGGGGAAACTGAGGCCCAGTGTGTCATGGAGGGCGCTGCCAGGGCTGGGACTCCTGACC
CAGTTTCTTCCCCCRCACTACACTGCCTCTTCTGAACAGAGATCGCAGCAGCCCTCACGGGCACACAGCTTGTGTTGTTTGCATTGCTCAGCACCAATTA
TCTCCTCTTGCAACATGCCCTGCGCATGAAAGGAGCTGGTCCTTCTCCACGGCTGGAAGAATGTGTCCTCCCCAGGACCTCTGGGAGGATGGCACTATTA
AGCCAGGCTTGTTGATGATCATTTCGGTCAACAATCACCCTGCTGTTAGTTTTATGTGAAACGCGGGAAGCCCAATTTGCTRTCCTCAAACTGAGTCTAT
CTCGCTTCTAACCGGGCAGGTCCACTCCGCTCTGCCTAATTTCGGGGACAGTGTCTCGCAGGAGACCCAGTTGCGTTCCTGTCCTGCCCTCTGAGTCCTC
TGAGTTATCTGGGCCTCCTGCCCTCATTTCTCTGGGGCCTGGGAAAGGGAAGGGGCTTGTCCAAGGTCACAGAGCAGGTTGGGGCAAAGAGGGGGCCTGC
TCTGGCCTCTGTGTGCTGGTGGGTGGCTTCCTACCACCACCTTCCAGCCAGACGCCTGTGAACCCCTCATCTCCCTGGGGCTCTCAACTGCTGCTGTTGG
GCTACTCCTTCTGGGAGTGGGTGGCACCCAAGGAGGTCACTGCTGGGGGTGTTTGTGGGATTTCCATATGCAGCCCAGGAATGGGGACCCGGGGAGGAAG
TGGTACAACATGAGGAGTTTCCAGCATCTTTTCTAGAACAGCCGCCCAGACTTTCTTCCTTTAACTTACTTCTTATTAAGAAATAGATAAAAAGCAATRA
GCTTGGAGAATAATGAGACAGCGATTACTCCACAGCCCGCCTTTATCACACTGTCAGCAATAAGCATTTTAGCTTCAGATCTTTGCCTTTTAAGAAATCA
AGCTTGGCAGGTGGAGCRGAGGCACCCTGTGTGTCATCCTCCTCCCTCCCCGACTTTTCCCAGGGAGAGCTGAGGCCCAGAATCGGAGCTCAGCATTCTC
RTGCAGTTTTTAAAAATTTCTCCTGCCTGGCAAGCCTCTAACAATGTGAGGATGCTTTGCAGATTTTCAGACTTTGTAGAAATGGCATCGCACTGTGTGT
CCCTCAGTGACTTGCCCCCATCCTCTTCATGTTTTTGAGATGTATTTGGTTCATCTTTTTGTTTTGTTTTTGTTTTGGGTTTTTTTGCTTTTAGTTTTTA
GAGGTGGTCTTTTTTTAGATTGCCCGGGCTGGACTCACACTCCTGAGCTCCAGCACGCCTCCCGCCTCGGTCTCCCGAGTACCTGGGACTATAGGAGTGT
GCCCCTCTGCCTGGCTCTTGTTTGTTCATTTTTATCTCGCTACAGTATTTCATTGTTGGGTTAAACGACAATTTGTCTGGTCTCCTGGGGAGGGCATTTG
GGTGGTTTACAGTTTTCACTAGTACAGCTGGTGTTGGCAGACACGGTCTTGTGCCTGTCTCGTTGGGCGCTTGTGCTGGGCTTTGTCAAGGGTGTGAGCA
TCTTCAGCTGCAGGAAACCGCGCCAGGCTGCTCTCTGATCCGCTGCGCCGATCATCAGCATCCCCTGTGTGGCCCGTTCTTACGTGTGCACCGTCACACA
GCATGACCACTTTTTACTCTCCGCCAATCCAGTGGCATCTCATTGTCGGAATTGGGTTTCCTTGATGACACCTGCGGTTGGGCGTCTCCTCACAGACTTC
TTGGCTATCCAGGATTCGTCTTTTGTGGCTCTCCTCTTCCTATACCTCTGCCCCTTCCCATGTATTTCCTTATTGATGTTAGGGATTCTGGGTATGATCC
TTTATCTGGGAGGGGACTTACACATGGCTCCTCCCAGATGGCAGCTTGTTGTCCAACTCTGCTCACCTAGCCACTCTCTGGCAGCGTTYGTAATCCTCAT
ATAGTCGGGTTTCACGGTCGTTCCCTTCATGGTTTGTTCTTTTTGTTCCTTGATTAAGAAATCCTTTTCTACCTGAAAGCTCAAGTTTTTATTTTTCTTT
AAAATGTTCTCTTTGTTTTAAAATAATAGTTTTATGGAGATAGAATTCACAAACTAAAAGTATGCTATATGTGTATGTATGTGTATATATGTGTGTGTGT
GTGTATATATGTATATATATGTGTGTGTATATATATATGTGTATATACACACACACATATACCCATAAATATATATGAAAGTATGCAATCCTGTGGTTTT
CTTTTTTTTTTTCTTTGGGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTTACTACAACCTCCGCCTCCTGAGTTCAAG
CAATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACCATACCCAGCTAATTTTTGTATTTTCAGTAGAGACAGAGTTTCACCAT
GTTGGCCAGGCTAGTCTCGAACTCCTGGCGTCAGGTGATCTGCCCGCCTCAGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCAA
TCCAGTGGTTTTCAGTATAGTCGCAGAGTTGCACACTTATCACCACTATCTAATTCTGGATCATTTTAGTCACCCCAGAAAGGAACCCCGTTTCCATTAG
CAGTCACCCCCTATCCCCTCCTTGCCTGCACCAGCCCCTGGAAACTACTCATCTACTTTGTCTCTATGAATCTGCCTATTCTGGAGATTTTATATAAATG
GAAACGTACAGTATACGATCTTTGGTGTCTCACTTCTTTCCTGTAATATAAGAAAAGCCGAAGTTTTTGTTATTTTTATTATTTTATGATTTTTAGAGAY
GGGAGTTTGCTATGTTGCCCAGGCTGAGGTGCAGTGGCTATTCACAGGCATGATAGCACACTACGGCTTTGAACTCCTAGCTTCAAGTGATCCTCCTATC
TCAGCCTCCTGAGTGGCTGGGCCTACAAGCATGTACCACCATGGCTGACCTCAGGAAAAAAAGTGTAAAATTAAAAAAAAAGAAATCACAATGGGGTCTC
GCTATGTTGCTCAGGCTGGTCTCTAACTCCTGGGCTCAAGCGATCCTCCCACATTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTG
GTCAAAATAGTTTTTTCACATAGAACTCTCTGACCTTCCTGGAACTGTTTTCTGTATATGGTGTGAGGCTGAGATAGAGTTTTACTGTTTTCTGGGTGGA
CAGCTTGTTGCTACYGCAGCCCCGTTCATGAAGCGCTCTGTTCTTTCCCCGCCGGCACCGTGGCCACACACCAGGTGTGTGGGTCTTTTCTGGGCTCCAC
CTTGCCTCTCCACGTGGCTATGTTATCTTTCCTGTAGAGTCTGGTGCACATAGAGCTGTCTTCTCTGAACTCCCATCGCCCTAGGAATCCTACCACCTGG
CTGGTGAGGATTTATTCTTGTTTTCATTGCCTCAGTGAAACACAGTCCAGATGTGTTGCTGCTGCCAGATGGAACCGCCCAGAGCCCCCTCTTTCTCTTG
CTGCAGGGCCTTGGATTCCCACCACTGCTCTCACCGCAGATCAAGTGCCTTCCCTGAGCCGCTCTCCCAGTGCTGGCTGTGATGACCCAGCCAAGCCTGG
ATTTCCCTGTTTCCTGAGCCGCCTCCACCTGCTGCACCTCCCACCTCTGCATGTGGCTGAGATGTCCCACCCCTCCCACGCCTCCCCACTGTTCTTACTA
ACTCTGCAGGAAAGCAGGCTCCGGGGCAGAGCTGTGGGGGCAGGGCATCATCCYGGCCCCCCAGCTCTTCCCACAGAGCCTGGCACTCGATAGAGATTTG
GTTGACATCTAGTGATGAAAGCAGCCCCCACACACTTTCTCCTGAAACCAGCAAAATTCTCCCCTTTATGCTACCGGGGGGCTTGGCACCTGCGTTCTAG
GGCTCGGTAAGGGTTGTTTATTCCCCCCCCCCATGCAGACTTCAGTCCTGCGCGATTAGTTGCATCATAATCCCTCTAGCTTTTTTTGCCTTTGCTTCAG
AGTTCAGCTCCACTAATTAATAGTCAGGGGCAGGAGGGTAAAGGGTCCCTCGGAGTTGGAGGCTGGGAGTTGGATGATTGGAACAGTGACCACAGAGCTG
CATGTTAGAATCACCCACAGGGCGTTTAAAATGCAAACTGATGCCCAGGTCCCTCCCCTAGAGTGTCCAGTTAGTCTCAGGGGAAGAGATCAGATTTTAA
AAGCTCTCCAAGGAGCCAGGAGGGCGTACCTTTCAGCCTGATGCTGGGAGCTGCAGGCTGAATGTGATGTGACCGCTGTGTGGTGAGATGTCTCTCCCCG
GCGGGACTAGCTGATGTCTGCACACAGTCCAGATCTATCACTGATTCCCAACTTCAGCAGTGAAGTTGGGGTTGGTAGGGGAGTGTGATGGGCATTAACA
GTGCCGACACCTGCACCACCGTCTCACACACACAGGTCAATTTCCAGATGCGTGCAGCCCTTGAAGGCACAGGGAAGGAATTCTTTTCCCCTTGTCCCCA
TATTTGAAGCAATTACACAGTTTTCATTTGGCTTGTCAGGCTTCCCAAGCAGCGGATGGAGAAATGAGTTTGAGTTTTGGTTTGAGAACACTGGTGGTTC
CCAGGCAGATCCAAAGTAGGGCACATTCTAGATGAACTGAGCCGGAGCGGGGCTTTCCATTCAGCTGCCCCCTCCACATTGCAGTGTCATTGGGAAGCCT
CGTGGCTTTTCCTGGAATTAAATGCTGGGTGCCCAGTGGCCCCTGAAGCTGGGGAGAGGCAGGCAGCTGATGTGTGGGAGAGGCAGGCAGCCGGTGTGGG
AGTCCCCAGCCCAGAGCAGAGTGGCCCACGAGGGGACAGATGACACTGAGAGGACAGGCGTGCACTCACTGGGGAAGGCTGACCGGCCAGCACCAGGAGA
TTTCATTCTCATTAGGGCAGCCGTTCGTTTTCCTCTTCTCTAGCTACTTTTTTTCCCTGGAGGCACTGGGAAGGGTGTCCTCGGCGTGTTTGATTTCTAA
TCCGGCTGTGGRAGTGTGAGATGGAGAGTGTGGGGCTCCGGTCATGGCAGCTCCGTTTTTGCATGCATCCGCGAGGTGGGACTTTAGGTTCCCATGATCC
CATGTCTCCGGGCATGGAGGTGGATCTCAGGGGAAGCTGGTGCCAGCCTGCAGGCCATGTGTGACCTGGCGAGGCTCAGAGGCTGTGGGGTCTTTGGCTC
AGACTGAAAACCTCACTAACATCAAGTCTTTTCACATCTGGGGCTGGGCGCTTATCTGGTGCCCTTGGAGGCGAGGTCTCGGAGGAGAGATGGGTCAAGG
ATAATGGAGTTCAGAGTGACGCTCCCTGGAGCCTGGGCCCTGAAAGTCACCTTGCGTCACGAAGAGAATTTCTGCTCTGGGAGAGGGGAGTCAGGCTGTC
TTCCAAGCCCCATCCCCTGCCTCAGTGGGTTGTCTAGAAGAGTCCTGGGTGTGGGAACACACAGACACACAGACACACACACACACACACACACACACAC
CCTTYAAATTTTAGCCCTGTTTTTATGAGTTCTGTGACTGGGTGGTTATGGAGCCCCTCGGAACCTCGGTCTCTTTGTTGGGGGAGTAGGTGAAAGTTGC
TGTGCCTCCTTGCCAGGCAAAGCTTAGAATGAACAGCCCTGACAACCATGGTGATGATGTCTTGAGAGGCCCAGGGTCAGTGCGCCAGAACCCCGGGGTT
GGTGTGGAAGCTGCGAGTTAGATGGAGAGAGCCTTGGCTGTAGACAGACCCAGGTTCAAATCTCAGCCCTGCAAGGTTCCCGCCGGGTGACCTTGGCCTT
GCTGCCTAACATCGCTGAGTCTCAGGCGCCTTGTCGATGACACAGTGGTAGCAGTTACAGGATGTCCCTCGTCAGCTTGGTGTGATGGGGTTGTGCTCCG
TGTGTGCTGGCATATGGTGGGTACTCAGCAAACTGTGTGTGTGCGAATGGGAAAGATGGTTCTCTTCTTTATGCCCCAAGTGGATGGGAGAACTCTTTTC
CACGCCCAGGGCACTGGAAGGCATCGCTGAGCTTGCAGCCAGCTGCCTCGGCCTGCAACACCCTGCATGCCCATTTGTGGGCTGTGGGCACTGAGGCCTG
CCTGGCTCCATGCAGCCACCGCCAAAAGCTGTCCTCACAGGAACCCGATGCCCTCTCTCAGGCCTCTTGCCTTCATCCATAAATAATGCCCGTTTCACAT
TCAGCCTGCCCCTCCGAGAGCTGTGATCCCTTCCAGGAGCTGGTGTCAGCTGGGATTGGCATGGCCACTGATGCTAAGGGGCACAGCACAGGTGTACCTG
GACCTGTTGTGGCTCTACCTCCCTGCCTTTGCTCAGGCTGTGCCCTCAGCTCCTATGTGCCTTTCGTCTTCCCCATCCTCACAAACTCTGTCAGAGTCCT
GCTTGCTCTTCAGTGCTCAGCTCGAGTGTCACCTCCTTCAGGAAGGAGGCCCTGATTTCTCCTGGTCAGCACACCCTGTTCTCTGCCCCTCTCTCCTGGG
CTGCGCCTCCTTGCTCCACTCTTTGCGTTGCAGTAGATGTGGTTATTCTTGCAGCTCCTTCATTAGGCCAAGGGTCCCTCACAGGAAGGGATGTGCCTTT
GACCAATAATATACTGCCCCTGCCCGCCGACCCCCGCTGGTCCTGTGGGTGGCTGGCTTTGTGACCTTGGGCTACTCTGAGCATTCCTTTTTTCCTTTGT
AAGACGGSGTTCTGCAYGGCAGGGTCCTGTGGAGATTGGAGGAGCAGAGTTAGCTCTTCTGGCACTGGGGTAGGTAAGCAGCTTCCTTTGCCATACTGGG
AACCTTCATTGTTCCAGAGGCTTCTGCCCAAAGAAAGACTGTTCAGCCGCTGCTTTCTCTCCCCCTATGATGGGGAACTCACCACCCCACTGGTAGCCTG
GACTGTGATGAAATCGATAACTCCTTTTGGGTCTCAGATTAGAGGATTCTCTCTGCTCTCCAAGAATTTCTGTCCTTTGGTGACCCTTTGGAATGCTGGG
ATCCAGGGAGTAGGCAGGCCTGGAGTTGCGGTATCTCCCAAGTCCCTCGAGAAGATGGGGCCGTCCCCAGGCTCTGGTGGCTCAGCTCACAGGGCTCTTT
GGTGAACCCACACAAGGAGAGCGCCCCAGGCCTCGCTGGGGGAAACCCGAAGTGCTCATGCCTCAGAGGTGTAGGGCGGCCAGGAACATGCAGCTGCAGG
ACCCGCTGGGCCTGGCATGCGGGCAGTGGCCACCTCGGGATGAAGCAGCGGCCAAGGGTTAGTGCCTGCTGGGTAGGAGGGGGCACTGCAGGATGTGTGG
CCAGTGTGGCCCTTCTGTTGCCTCCAGCCCAGGATGGGTGGTGCTGAGCTGGAGGGTGGGGAGGACTGCCTGGGAAGAGGAGGCCGGCTGCTACCCGGAG
CCTCTAGGCCACCACTCCCTGGGTCTGTGGCTGCCACTTTGCCTCCTTGACCCTCAGTTTCYTCATCTGTAAACTGGGGGGGCCTGGTCACCTGCCTCAT
GGTGAGGAATGTTGAGGACTAATGTGTGTAAGCCACACGATTGCTGTTCGGTAGATGAATGTGGTTATGGACGGGTTTTTCTGGAATCTGCATCTCCGTC
CGTGTCCCTGGTTCTTGGAGCTCCCCGCAGTTGGTGGTACCAAGAGCACTGGCTTAAGAGCCTGGAGCCCGGTTCTCCCTGGCCCTGCCCTGCCTGTTAC
TTGGTGCACCTTTGCACCTTGTTTCTGCACTTTGTGGGAAGTACGTGTTCGTTTAATGAGGCCCTTCCACCTCATGGAGCCACCAGCCCTGAGGCTGCAG
CTGACTCCTCTTAATGAAGTGGAAGGAGAAGGGGATTTAATCAGCCAAGCTGCTGCGCTGAACGGTGGTATCAGCTGTCTTGCACAGGGCCCATGGAGCT
GCTGGGCAGGAGCCCCGATGGAGGCCYGCGGCTTGGAGTGGCCAGGTCTCCTGCTAATGACCTGCCACGAGCCTGCCTGGCCCCAGACCTTGCAGAAATT
GACCAGGGCTGGGAAGCCATGCCGTAGGGCCTTGCTCAGGGGGAGGGGCTGGGAGGCAGACCTGGGGAGGGTGCACAGCAACTGGAGAGTCAGGCTCTGT
GTGTCACCATGTGTCACCATGTGTCCCTGTGTGTCACTGCAGCTCCCTCGCCCCCAGCCTCCACCTTCTATGGAGAGAGGATAAACCATATTTTCTCCTG
AGTGGTCACAGACACTGTTGATGCCCAGCCCTGATCCCTGAGGCACTTCCTGTTTCTGAGCCCACGGCTGTATCGCCTGCTGGCACCTGCAGCTCTGCCC
AGGAGCCCTTCCTGTCCATTCTCCTCTTGGGCAGTGCTGGGACGTTAATACTCCCAGTGAACCATTGGACAGGTGGGGTGACTCCGAGCCCTAGAGCTCA
CCGGCAGAGTGGACACCCCTTCCATTGGCTTCTTCCCTTCCCTGCCTCCCTTCTCTACCCCTCTMCCTGGGTTTCCTGGGGTTGCCACCCACATAACCCA
CGTGAAGTTGATTCCTCCTCTCTCAGTCTGCACCCAACCTGAGATATAASATCATAGGGAGGCGTGTGTGAGACAGGAGCATCAGGCACCGCMGAGTCAG
ATGCAAGGAGCGTGTGCCCAGAGCCCAGGATGCTCTGCCCCCTGTAGCCTCGGCAGCTCCTTGTCTGGGGTTCCCCAGCTTGGGGTGCGGGGTGCTGTGT
CACATGCATGGCTGAGCGCTCCTGAGGAGCTCATTGCAGCTACTCCTTCTGGTGGGAGATGGTGGGACGGAGCCAGGGAGGCAGCTAAGAACAGGTCCCT
CCAGGGATGAGTTCCTATTAGGGCTGCAGACATTTTTCTGGAGGCTGACTGTGTGCCAAGTGCTGAGCTAGGGAAGGAAGGTCACAGAGGTGATGGGACA
TGGCTTCTGGCCCCCCAGTTCTTACTGTTCTGGACACAGCAAAGTCTGGAGGGGAGGTGGAGGTGACATCATCTTGCCAGTGTGAAAACCAGGCCAGGAG
GGGGAATACCACCCAGCCCCTGCCTCACAGCTTCCCAGAAGGCCAGTGAGTCCTGGTCCCAGTGGCAGGACCCAGTGCAGGGTATCTGGGATGGAGCYGG
CACAGCGCCAATGGGGAGGGCTTGGCAGACCTGCAGGCTCTGTGACTCCCCCCACCATGCTGCACAGCTTTCCCCCACCCCCTCCTCATGGGAGCAAGGG
ATCCATGAAGAGGGCGGGGTGAGGGGAGCTTAGGTCTGGCTCCTGGACACAAGAACGTTGTAGGGAGACACCCTCCTCCCCGGTTGGCAGCTGGATAGGG
AATCCCCCAGAATTGGTCCGATGGCCCCCAGAYGGGTTAGGGGAGCACCCCAGGGGACCCCTTGGCCAGGCCAGCCCAGGGTCACCTCCCTCATTTTGCC
CTCAGGCAGCCAAGCTGGGAAATGATGTCCCCTCCCCTGTGGCTCCAGCACTCATTACTGTAAACCCTGGGATTAACTTAATTACCCGCTCATCTCCAAG
AGGCTGGGGCTTGCAGGCACCCAGTGGGATCACGAGTTTTGAGGCTGCCAGGAAGGACAGTCCTCCCGGGGAGCCGGCCCTTCCCGGGGTCTCCTGCCCT
CCAGCCCCCGCCTGGGAGTGCCCAGATCACTCTTGTTCTTCCTGTCTGAAGAGTGCCTGCTCCTGACCCAAGGGTGACTGACGCCCGGCTCACTGGCTCC
TGGCAGCCTGGAGAGCTCTTCTAGGGAGCTGAGTGTGGGGAGAGGGTCAGGGTGGTGGGTTTAAAATGTCCATTGCTTCATTGGGTGGCCATGCATGTAA
TGTGAAGGTGCAAGAGTTTAATCCGTTCCCCCCCCTTTTTTTTTAAAGACAGTCTCGCTCTGTCGCCCATCTGGACTGCAGTGGCGTGATCTCGGCTCAC
TGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCTTCAGCCTCCTGAGTAGCTGAGATTACAGGTGCCCACCACCACTCCCAGATAATTTTTATAT
TTTTAGTAGAGATGGGGGTTTCACCTTGTTGGCCAGGCTAGTTTTGAACTCCTGATCTTAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTA
CAGGCATGAGCCACCGCGCCCGGCCATTCTTTTTTTCTGAAAGAAGGATTTCAGAACTAGACTACAAGTCGATTATTTGAAAATTAACAAGAAACGATGT
GAATAAATAAAAACCCACTGGTTCCCTCATCTGAGCAGCCGCACAGTCAGGATTTCTGTGGACTTCCTTCCTGAACTCACGTCAATGCCTGGATATTTTT
AAACGTCGCAGCCATTGTGCATGTCATTTTGTGTCCAGTTCTTTCCACTGGCATTTTAAGTGTTTTTCCATATTGTTTAGGAGAGAAACTTTCTAAACAT
CATTTTAATGATGACAGGGTAGAACCCTCAGCTGTTGTTGGACAAATAGTTATTTCCAGTTTTGGCCACTCTGTCTGCTTTCTTCATAATTATAATTAAT
TCTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTTGTGTGATCTCGGCTCACTGCAACCCCCGCCTCCCAGGTTC
AAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCATCACGCCCAGCTAATTTTATATTTTTAGTAGAGATGGGGTTTCACC
ATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAATTGCTGGGATTGCAGGCATGTGCCACCGTGCCCAGCC
TAGAATTAATTCTTTAGGATAGATTCCAYTGGAATTACTGGATGGTCTAAAATATTTTTTAAGAGTGTTATGTTGTTATTTTGAAATTTAAAAGAAAAAC
CCAATGAAGCCTGGTGGTCTGCAGTGTATTTTATTCTGCATAGCTGCCTGGGGTTTGGGGTAAACCTCAACAGATGGGTCTGTCAGGGGCAGCCCCTTGG
TCTGGGGCCGTGGGTGTGTGGCCACCTGTCTGTGCCTACAGGTGGCCCGATGTGGGGGATGGTAGCCTGTGGGTTCTGAGGTGAGGTGCTGGCTATGGGC
AGKCAGGGCATTGCTGGCGACCTGTGGGATGGCCTGTCTGCATCCCTTCTCCGGATGCCACCTGCCAGCCTGATCACTGTCTTTAACCCTTACTGGGAAG
TGGGTGTGAAACCCCAGTTGTATCTGAGGGGGCRGACTGCTCAGACAGGAGAAGGGTCACCCAGCGAAGGTGCTGAGGCTGACGGGGCAGCTGTGGACTT
GGGTTCCAGCCCATCCCTCCTCCGATTGTGGGCTCATGGAGAGGGAAGTGCTGGGAGCTCCTYGCTCACCCTGTGGGAACCAGCAGGGGGAGGCGGGTGG
GCTGAAAGTGCACCCACCTCCTGAATGGTTCTGTGGCAGCGAAGGGCAGAGAACAAGTTAGTGCCCATCTTGGGCTGTTGGTCACACACAGTGGCTGGGT
CCTCCCCCTGGCTCAGGGCCATCCCCGGGAGCACAGTCCCATGGGGGTGCTGTGGTGAGCAGGGGCCCTGTGGCCGTGCTGAGGATTGCGCTGCGGAGAG
CCTTCAGGAGAGTGGTGTGACTGGGAATGGCGTCTTCTTTCTGAGTCTCTGCCAGCTTCTCTCCAAGGCTGGGGCTGTCAGCTCTGCCCAGGGTGGCCAG
AAACACTGGGTCCTAAAGACTGACCTGTGGCGTGGGCCTGGGTAGTGGGGAGAGGGGCTGGAAGGCTCACCTGCTGGTGGTGGGGACACTTTGTTCCTTG
TGGCCTCTGCACCTGGAAAATGAGGATGGTAGCTGCTTGTCCTTTGCAAGGCATCAGATGCAGGGGGTACCACGTGTTCCACATGGGACAGTGGGTACCC
CCCACCCGACTCCACCCAGAGGGAGACCCCACACGTGGGTCCATAGTCATTGGTGCGTTCTTGTCCTAGCTCTGTCAGAGTGAGGGAGCCGGAAGGGTCT
CTGGAGTTTACTTGGTCACTGCTTCCCAGCTGGTGTTCCAGGGAGCCCTCCTGTTAGTAGGGTACAGGACATGAAGGTTTGGGGAGCCTAGGCTGCACCC
TACCTCCCCATGCTCAGAGGGACCCAGCACACCCTGAATGCTGAGGCCTCTTCCCATCACACCGCTTTGCTTGGGTGGGCATGGGAACTGTTTGTCGGGG
TTGATAGAGTAATGAGTAAACTGAGGCCAGGGAGGGAGGGATCAGGGCTGGTGAGGTGTGAGGCTCTGAGGTCACCCTGAGGGCAGGGGTGGTCTGCCTG
GCAGGGCGGGGAGGCTGGGCCTGGATGGGGAGCTGCCCTTCTCTCCTCTCTAGAAGGCCCCACATTCCTGGGAGGTGACTGGGCTGGAGGAGGAGGGGAG
GCTGGTTTGCGCTCTTCCCCAGCAGTGAGTGCGGCCGGGCCGGGCTCCAGTACCTGCTCCTGCCTGTGGCTGGGCCAGTGGCTCTGCTGGGCCCTAGGCC
TGGTCCAGGGCTGAATAGGGGGCTCCCAAGCATCCTTTTATTGGTGTGCTGGGGGCAGACAGATGCTTCATTGGTCCTGTGGTTGGCATGGTGGTCCTGG
CTTGTCCCCAGTAGCACCCAAGCCCCTGTCCCCCCAGGCATGTTAACAGCCTGTGGAGTCCATCCCCAGCCCTGAGGTGGTGATGGGGACTAGATAGCTG
GCTGTGTGTGGTCAAAGGGGCTGATGTCTCTGCTTCTGCAATCGAGGGTGAGCGGCATGAATCTGGGAAGACCCTGCGTCCTGTTGTCGGGTGGGCCGGT
GGGTGGACAGCTGTCAGGGTGGATGGGGTCTGGGCTGGCATCTGGGCCAGGTGATCTCTGCGAGAGATGTTAATAACCCATCCCTTACCAGGTGGMTTCG
TGGCTCACAGGGGTACTTGGGACAGCCTTGCTTCCCCCTTGCCTCCTCCTTCCAAACCTGCTGTTGCTGGGTGGTCCCCCGGCCTGTGTTCTGGGTCCCG
TTCCTGCCTCTCCTCCCTTCCCCCAGCCCTCTGCCCTGAGGGTTTGCCCTGGGCATCCTGGCAGCTGAGCTGACTCCCAGCCTGGGGGGAGGCAGGACCA
GGGGTATGGGATGGCTGGACGTGGGGGTGGGGATGGGATTTTTTYGTGTTTTCCTGATGTGACTGGAAAGCAGGGTCAGTGTGGTGAGGGTGGGTGAATT
TCACCCTGCACCAGTGGTCTGCATAGATAGGGCTCCCTTGGCCTGAGGTCAGAAACTGGGGACACATGACCAGGGTGTTCCACGGGGTTCCCGACTGTCA
TATGGGGAAGGTGGCTGCTCACCTGCAGCATATGCTGTGGGCACACATAGCTTGTGAGAAGTTCCTGGGTGATCAGGCGAAGTGGACTGGAAGGATCCCA
GATGCTGACTTGGCAAGTTCAGGAGTCTRTTTCCCCACTGTGTAGAGGAGGGGGCTCCCCGGACCCCGACCCTGGGGTGGGCTGTGCCCTGGCTGTGTTT
GTGAGAGCTCCRTTTGAGCCTGCAGCATCTTGGAAGCTGAAGGAATTGCTCCAGGGCAGGCTGGCGAGGCCACCCCCACACCCCCCACCTTTCTACAGGT
CCTGAAGGTCCTGAGAAGGGCTCAGAGGCCCACAGCGAGGGCAGCAGCGGGTCCTGCAAGGCTGGCCTCTGTGTGTCGTGCCTTGGTGTCAGGTGCCCTA
TGGCCGGAAGCCTTTGGCCACAGGCCGTGCTGTTTCCACAGGGCGGGCGAGGGCTCGGAGGGGCTGGGGCGTCACCTGGCTGTGGGGTGGGACTCCTCAG
ACCCAAACCTTCCATGCCGGGTCTGGGGCCAGTCGGGGTTGCGCAATGGGGACGGAGTCTGCTGGAGGCTAATGTCCCCCTTCCTCTTGTGTCCTTCCAG
ATCCCTCATCCACCTACATCAGGCAACTGGAGAGCAAAGTGAGGCTGCTGGAGGGTGACAAGCTCCTCGCACAGGTAGGCCGGCTTCGGGTGGCGCTGCC
TTGAGGACCGCGACCCAGCACCCACCCCTCCAGCTCACCCAGGGCACCCTTCCCCTTGGGACCTAGGCTGTCCCCCCAACTGCTCCCACTGCCACCTGTC
ACCTCCTGGAAAGTGGGGTCAGGGACCTAACCCTGGCTCCCACACCTCTGGGCTTCCCTCTGCCCAACCTTCCATGCTGACTGCCCAGTATGCGAGCTCC
TCAGGGCTGGCCCAGGGCCTGAGAGGGTGGACAACACCCAGTTGATGAAGAAATGGGCTGCTTCACTCCTCTGGCAGATGGGCAGATCCAGGCAGGAGAT
GGGGCAGACTCACACGGAAGCCTCCCCGCCTCTGCCGTGCTGGACTCACTGGCCGGTACCTCCCTGGGCTGGGTTCCCCTCCTCCCTCCTGGGCCCGACC
TCACCCACAGACAGATGAGGCTGCTACCCCTGTGCAGAGCTGGGCAGCAGGGGCACGGCGTGGGAGGGGTTGGCTGTAGGGGGGAGGTGGGGTTGGGTGA
GGGGCTGTGCCTCTTGAGTGTGGCTGGAGCTTGGAGGGGACGTGTGACTGCCAGGACAAGGGCTTTCCCTGCTGCAGGTGGGGCAGGCGTGGGGGCTGCC
GAGAGGAGGCTATGGGCAGTCACGCTTGGGTGTTGGGGGCCAGCTGGCTTGGCGACCTCTCAAGCCGCTCGCTCCCCCAAGCCTCCGAGCCCTCGTGCGC
ATCCCTGGCTTCATCCCAGTCTCCCTCTCCCTGCTTTTCCCACTGCGCCGTGAGCGGTCAGCCTGGGATACCCAAGGCGTCTCTCTGGGAACCAACCGCA
GGGATGGCTCAGCTGCCTGGCCCTGTTGCTAGGTGACCAGCCAGGCTTGGTGCCGACTGCCCAGCTCAGGAATTCCACGGCACCCTCTCTGCCCACTGGG
CGGCTGCTGGGAGGCTCACGGCCCCAGCAGGGAGCACAGCTCCCACTGAGGTCATCCTCACGTCTCACCCCTTTGTGGGCTGTGGGGAAGGTTCCCAGGG
CCTGGTGGGATTAGCAGAGTGCACGTTCCTCATTTGGCCTCTTGTGAACTCTCCTCCACACCCCGCCCCCCACTCCCCACCACCATACAGGCGCAAGTGC
ACAGCCAAGCTCTGAATGGCAAGGCTGGCTTTTGTAATTTCATGCCTTGCTGTCAGGTGCCCTATGGTGAAGGGCTTTGGCCACAGGCCGTGCTGGCTTC
CCAGGGCTGGTGAGGGCAGGAGGGGCTGGGGTCTCACCTGTCTGTGGAGTGGGGCTCCCTAGACGCCAGCCTTCCATTGCAGACCTGGCGGGGCCATTGT
GGTTGCTAAGGAGGGTGTGTGGAAGCTGTAGGCAGAAGTGACACCAGGAGAAGGTCATGGCTTAGGGACCTTTGCTTTGGAGAAGGTCCCCATGCAGTGT
GTAGGAGAGGCAGTCCTGCCTCTGGGTGGTGGCAGGGGCTACTGCTCTGCAGAGCAAGGGCCAGGACCATGCTCTGGTGGCTGAAGCTCGGGCCCCCGGG
TCAGTGACCTCACGCGTCTGCCCTGATCTGGAGTTTCTTTGTCTCATTGTTCCTGTGGAGAAGTGGGTTGGAAGCTCCAGCTCTGAATTTGGGATGCTGT
TTGCAGTGTTCTTTCTTTCTTTTTTTTTTTTTGAGATGGAATTTAGCTCTTGTTGCCCAGGCTGGATTACAATGGCGTGATCTCAGCTCACCACAACCCT
CTGTCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGAGCCACCACGCCTGGCTAGTTTTGTATTTTTAGTAG
AGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCCTCTCACATCAGGCTCCCAAAGTGCTGGGATTACAGGTGTGAG
CCACCACGCCCGGCCCTGCAGTGTTATTTCTATGAGAAATGTGTTCCGCGGTCCAACCAGAGAGCAGCTCATGGTCCTGTTTCCATAAGGACAGGAGTGT
CCCTGATCCCTTGGCCCCTGCAGGCCACAGTGTCCCACTGGAAAAATACACCCCAGTTCCTGACCACGGACTTGCAGAAAACCTGCGCCCAAGCGGGCTG
TGGAGGAGCAGCCCTTCTTCCTGCCTTCCTTCCTGGGGTGCCCCCCGGTCTCACAGGGGGCCCTCCACCATAACCTGTGTCCACCTGCCCTGCACCCACC
TGTGCACAGGTGGAGGTAGATGGGAGCTTCAGCCTTGAGCCTCAAGGATGGACGGGCTGGCTCTGCCCAGGGACCTCTTCCTCCCCAGGCCTGCTCCCAC
CAGCTCCCTGGGGGTAGCAGCAGGGCTCTGTTCACATCCTCATCCGTGGGCCAGGTCTGCAGGGCACCGACATCAGATCCTGATGGCTGGGGAGCTGCTG
ACCCTTGCCTGGACACAGGCTTGCTGGCTGCAGGCAGTTGGACTGGAATTTAGGGACAGAAACCCACTGTTGCCTGCTTGTTGTTACATACAACCAGGGC
GCGGAATTCAGAGATCATCCAGTGCAGAAAGGGTTCAAAGTATTTTGTTTCTTTAGCAGAAATTTGCTTTCTCACCAAATGATGCCCAGTCAAGCCATGC
TGCTGGAGTGGTCGCTGAAGGAGCTTGTATCTCTGTGTGGTGTGGCAGGAGGGCACCCAGGGCCCATCCCTAGCTGCTTTCTCAGCATGGACTCTGCAGC
AGGCAGAGGTCTTGCCCTGGGGCTCCCAGCAAGTGTTGTCAGGGCCATACCCAGTACCCTGAAAGGAGGCAGCCGTATGCTGCTGGGGCCTTGGCCCCGG
TGCCCTGTCCCCATGCTGCAGTGGAGGCCCCTGAACCTCATAACAAAGGCTCCAGGAGCTGGTGGCATCCCCAGAGCCCATGGCATCAGCAGAACCAGAG
GAGCCACGGCTGGGTGTGGTGGCTCACACCTGTAACCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACTTGAGGTCAGGAATTTGAGATCAGCCTGG
GCAACACAGCAAAACCTCGTCTCTACTAAAAATACAAAAATTAGCCTTGCAGGGTGGCACGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGTAGGAG
AATTGCTCAAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCCCCACTGCACTCCAACCCGGGAAATGGAGTGAGACTCCACCTCAAAAAAAAAAA
AAAAAAAGAAGAAGAAGAAGAAGAACCAGAGGAGCTGGGATCATGGGTGGGGTTCCTGCTGGCCATGGAGGAAGGCACTGCTGTTCTGAGCCATGCAGGA
GAGAGAGAGACAGAGAGACGGGGTGAGGGAGGGGCCCTTGGCTCTCGGCAGCAGTGGGTCCCAAGCCTGCCTTTGGATTCCTGGGGCAGCTTCAGTGGCG
CCAGCTTTTTGGGGATCCTTGAGCCACTTTCTCTCCCAGACCTGTGTTTGCTCATCTGAGAAGTGGGCACTCATTCACTCAGTGTTTAACTGACCACCTA
CTATGTATGTGGCCCTGGGGATGCAGGGCTGGCAGGCCAGTCTCACCCTTGTTCCTGCCTGACCACCACCTTGCCCAGCCCGCAGGACCCACATGCACAG
AGAGGCCCCTGGAGGATAGGGGAGGTGAAGAGAGCTCGTGGCAGGGCACTGCCTGTGAGGAAAGTGGTGGCCCCATTCTCAGGGAGGCGCCAGGAAGATG
GGGTTTACTTAGTCTCCATCCTCCTGGCCTCCTGTCTGCAGCCCTCCCTGACTACCCACAGGTGGCCTGGTGCTTGCCCTGAGCTCTCTCAGTCCCTGGG
CTGCCCACCTTTGCTGATAGGGTGTCATGACCCACCCTTGTGGATCCTGGCCCCCACCCCTGTGGGACTGTCATCTTCTCCAGGACAGGGCTGCAGGGTC
TGAGTGGCCACATTGGTGTCTCCAGTGCTCAGCATGGTTGAACTGGGTGGATGTGTCTTGGGGAGCCTGTGGCTGATCCCTGTCCAGTCTCCACGGCCAA
GAGGGGAGGCTGTTCTTGCTCAGAATAAGGAAGGCCCACTTAACCAAGGGAGGGCTTCAGCAGGTAGTGAGGGTACCATCTTTGGAGATAATCAAGAGAT
GGCTGGGTGACTATGTTTGGGAATCTTGAAGAAAGAGTTCRCAGCCTTGAATGAGATGCTGTCCTAAGCCTCATGGACTCTGGCTCGTGAGATTCTGTGA
TTCTGGCATTTAAATCTTGTCAGGGAAATCAAGTTGTACAGAAACCCCCACCTCTGCGCAAAGCAGGGACTCTTCCTGTTGGTGAAAAGCAGGAGAGAGG
AATGCTCTTCTCTGGAATAGCATAAGGTGACGTGGCTTTGGGGTTTGGGTGGGAGGGTAGGGAGCCTCCCTGGATTCCTACTCCCCGCGGTCCCACCCCC
CCCCCCACCCATGGCCTCTATTTAACTCCAAAATAGGTTTAATTAAAAATGTGCCAGCATGTTCACAGACTCAATTACTGTATTGCTGTTCGTATTTTCT
TTCTCATGTTGGCTTTAAAATTTCATCAACACAGCTGCTTCCTCCACGATGATTCATCTCAAGACTCCGTGTGCATTCTTATTTTTCCTGTGGATTCTCT
GTGCCCAGCCGGGCTGGGCTGGGGGCGGCTGTAATTGACGCTGGGGCCTCTCGTTAACTCCCCTGCTGGGCTGATAAATGAAGACTCCATTGTGCGCCAA
AAAAGCCAGCTTTACAAAAGAGCAGGGAGCTCTCCTGATATTCTCTCTCCCTAGACCAGAGGGCCAGCTTGGGGAGCGAGGCTGGGGTCTGGGCTGGTGA
CTGAAGGGCCCCCAGCCCACCCTCCTCCTCTCCCCTCTTCCCCCACGCTGTGCCCACCTCTCCCCTGGCCTGCCACGTACCAAAGGGCTGCTGAAAGAGA
CCCAGAATTCACACTAGGCACAGATGGGGAAACTGAGGTCTGGATGAAGGTGGATTTCCTGACATGGATGTTGTATTCGTCTGGTAGGGCTGCCATAACA
GAGTTGCACAGACTGGGGGACTTAAACCACAGAAATTTATTTCCTTACAGTCCTGGAGGTTGGAAGTCTGAGATCAAGGCATCAGCAGGGCTGGCTCCTT
CTGAGGCCTCTCTCCTCAGCTTGTAGACAGGCTCTTCTCCCTGTAAACTCCAATAGCCCCCGCCCCAGCGCTCACCTGCTGTGTGGCTTCAGGTGAAATC
CTCTCTCTCCCAGAGTCTCAGTGTCCTCACCTGGGAGGTGATGCCCAGCGCAGTGTGATGTGGCCCCTGGGAAGCACCCCAGGCGGTCCCAAGGGCCTGG
GATCTTTCGAGGTCTGGCTGACCATGTGCCCTCTGCTGTCCCTTGGGCCTGGCCCATCCCCAAGGAACCGCTGCTCTTTGTCCTTTGAGTTCTGAGCCCT
TCAAGGGGCGGGGAAGAGGGGATCGATCTGCTGCTGTCTGAATCCATGGCCAACGCTTCAGTTCTGTGTCCCTAGGAGGATGGGCTGTCCTGAGCCCGGG
TTCCTCCGGAGATGCTGGCGTCGCRGTGGTCCACGTGGGCATCTCTGTTGGTYAGCGTTTCCATGCCTTGGTAGCAGGCTCCAAGCCCTTCCCTGCCCTG
TGTGTTTGGCATCTTGGGTTGGCCGCCATACCGTATCACCTCTGTCATAGGCAGTGTAGTCTTTGGGTCTCTGGAGGACTTTAAAYGCTTCCTTAGTTGA
ACCTCAGAGTCAGTTTGGCCTCTCCCTTGCCCAGGGAGGAAACCCCCTCTTTCCAGCCTTCCAGCCAATGAACAGATGGTCAGTCTCGCAATGTGGGCAG
AATGGAGACAGGAAATTCCACCTCCGTGCCCTAGCACCAGCAGTGTAAGGAGTGTCCACCGTGAGCCAGATGCTGGGGGAGAGTCACCAGGGCTGACAGG
CCAAGTGCAGGATGCCAGTGCCAGAGGGCCTGGTTCAAGTCTCACTAGTGCCACCTGCCAGCAGAGTGGCACTGAACAGGTCGCTTAACCTCTCTGCACC
TCAGTTTCCCCCTCTGCAAAATGGGGACACTAATGGTGTCTGACACATACATTGTTCAGAGGATGAAAAGGCAAATTGTGGGAAGGACTGGGAGTCGGGC
GGTTGGCGGTAAGGGTGGCGGGTTAACCACCGTGATCTTTCCTGTCCATTGTGGGCCAGCCATAGCCTCCGCCAGCCTCCGCCTGATGCCAGTTTATGTG
CAAACAAACAGAGGCCCRGAAAGTTGAGGAGCTGCTCTGGCTTACTCAGCCAAGRTAGGATTTGGTTTTGCAAATCCGCACCCCTCAGCTGGGCGCAGTG
GCTCACGCCTGTAATCCCGGCACTTTGGGAGGCCAAGGCTGGCAGRTCACCTGAGATCAGAAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCTCGTC
TCTACTAAAAAATACAAAAATTAGCTGGGCATGGTGGCCGGCACCTGTAATCCCAGCTGCTTGGGAGGCTGAGGCAGGAGAATTGCTTGAAACCTGGAGG
CAGAGGTTGCAGCAAGCCGAGATTGCAGCACTGCACTCCAGCCTGGGTGACAGAGTGAAACTTCATCTCAAAAACAAAATAAAACAAAACAAAAAAACAA
AAGAAACAAAACACACACACACACACACAAAACTGCACACCTCAAAGCTCCCACAGGCCTGTCCCTCACTTACCTCACTGGAACAAGTAATGGGCCTGCA
GAGGGACCTGGGAAGGGAGGGATGGTCTGCGTGGTGGACAAGACTGGTCTGCCTGTTACCCTGAATGGCACATACACGTGAGTTTGAAAAATGGGATTTC
GGGTGTGAAATGACATGGGGACCAAGGGAGGAGCAGTGCCAGCCATGGGTAAGTGACATCAGCCACACATGGCCGCACCTTCATCTCTACTGCCTGATCT
GAGTGCAGATTGGGAATATGTCTCTGGACCCCCAGCTGAAGCGGCAGCCCCCTTGTTCTTTTTTTATTTTCCTTTTTTTTCCCTATCAACTTTTGTTTTA
AGTTCCTGGGTACATGTGCAGGACATGCAGGTTTGTTACATGAGTACACGTGTGCCGTGGTAGTTTGCTGCACAGATCAGCCCATGGCCTAGGTAATAAG
CCCAGCATGCATTAGCTCTTCTTCCTGATGCTCTCCCTCCCCTCGTCCCCCTAACACGCCCCAGTGTGTGTTGTTCCCCCCTACAAATGAGTTCTCTCAA
AATTAAAGAAGAAAAAGAAAGTAAATCCAGTTGGTATGACTGTGTAGCTCTTGTGGGCGACCTTGCAGGTCATCTTTGCCTTGAGGCTAGAACAGGGGGC
CAGATAGGGCGTGCATCCCCCACCTGGCCTCTCTGAGCTGCTGGGATCTTGGGGTGCCTCTAGGCCGGGGCACCCCATCCCAGGGCTTCTCAAAGGTTTG
CTTTTCCCTGGGAGGGTAGCAGGGCACTTGGGGTGGCTCCACCCTGGTGTGAGTTTTGGGGTGGGCTATGGGGGGTGGTGGGTGCTCCTAGGGACCCAGT
GCYGGGCACATGGCAGGTCTTCAGTGAGTCCTTGTGAATCTGGAGTTTCTGAAGACGTGGAGCTCCTGGAGTCGCCTTGGCGAGCCCCAACCCTGGCCTT
CGGTGTGGGAAAACCACTCCGGCTCAGCTGAGGTCCTGGTGGCTTTGGGCTAATAGATGTCCAGGGAAGGCACTGGGCAGAGTGATGGGCATGGTTGGCA
TTTACTGGGTGACACTGTTCTCCTTCCTTCTAGCTGCCCCGCCCCTACGGCCGCCCGAGAAGCTGGCTTCAGGTARAGCTGCCTGGTGGGAGGCGTGTTT
GCAGTGGTGTTTGTGGGGGTCGGGAGGCTGCTTTGTGTGCTGTGMGCTGCTGTGTGCTCTGTCCCCTACTCCCCAGCACCCTCCCGTTCTTTCCTGGGAG
CACTTCCTTCCCAGGCTGCGCTGGCCCTGCCTTTAGAGTCTTCTTGGGATCTGCCCTCTCCTCGAGCTGGCATTACTGGCGAAACTTCCAGTTTTGCAAA
ATAATAGCAAGACAGTGATGCAGCGACCGCCCCCGAGGGCTCTCCGTGGTGTGAGCCCCTTCTCACGCACCTTGCCCAGGTGCCCGGGGTCCTCCCGCCT
CTGCAGGGCGGCAGGGCTGGTGCTAATCCCCACTTTGAAGTGAGACACCTGCAGTGCACGGAGGGAGAAGAGGCTTGCAAGTCTGCATGAGTTAGTGGAG
ACGAGGCTGGGGCCCACATGCCCACCCAGCTGTGGCTCCCGGTGGGAAGCTGCCTGGGTCCTTGAGGGAGGTCTCCAGGGCTGCTGAGCTGGGTGGGCAC
TGGGCTGAGGGTTCTGCGTGGGTTGCACAGTTCTGAGGGTCAGCATGAGTCACCATGCCAGGCACCCTGGGCTGCAGCCAGATCCCTGCTGGACAGGGCC
TGGGACTGGGGAGCTGCTGGGTGAACTCAGCTCCCACCTGTGCCCAGCCTCGAGACCCGTGGAGCCAGGCCCTTTAGGCACTGGCCACTCTCCTGCCAGC
TCTCAGGTCTCCACATGGTTTCATTTCTGTCCCCTTCTCCCCGTCCTGAGACTGCCCGCCCCAGAATACCTGCCCCGCATTACCCTCCGGGGGTCTTCCA
CCCCATGCCCGAGCTGACACTAAAAAGTGTCTGTAGACACTGCGAGTTGTCCTCTGGGGGCATCACCCCCATTTGAGAACCAGTGACCAACTGTGTGCCA
GCCCTGGGCTTGGGCTGGGAGGTGAACCACACCTGTCCAGCCATGCAGACAGACGATAAACCAACAACGTCRTTACACAGTGCCAAGTCTACCTCCCCTT
CCAGAGCAGCCCACAGGCATGACTGACGGACGTGTGGACACAAACCTCCTGCGTGCCCTCGTGGGAACAACTCTGGTGCAGTTCCCGTGGGGTCAAGTTG
AGGCCTGTCTTCTGTGGAGGCCTCTGTGCTACGCTGCACAGCCCTGACCCCTGCCCTGTCCTGCATCCTCCCTGCTTTCTCTGCACTCTCCCTCTGAGGA
TCTCCGAGACGGATGACAGCTGGATCTCGGTGGGCTTTAGTTTGGGGCCGGACAGTGGAGCCCAGGCTAGTCTGTGGCCCCAGCTGCCCCTGGAGCTGCT
GGGGCCCCTGGTGGGAGAATGGTCTCCCCAAGTCACGCATTCGAGCCTCTGCTTCCAGGTGGGTCCCCCAGCCCAGCCAGCTGAGGGTGCACTGTCTTCC
AGCACTTCCTGGGTGGAGGTGTCAGCCTGATAGGCCACTGAGGCCCTGCGTTTATTACTCGGCACCCAGACCATTGATTACGCATCACTGACCAACCCTG
GGAGCTCCCACAGTGCTTCGTCTTCCTGGAGGGAGGTCGCCAGGTCTTGGGGACGGGGTGTTCCCTGGGCCCTGGCCTTGCCCCCACTTCCTCTTCCTGG
AGGGAGGTCGCCAGGTCTTGGGGACGGGGTGGTCACTGGGCCGTGGCCTTGCTCCCTGGGTCTCACCTCTCGCCTCCGTAGCCCCTGGGATGATGGCTTA
TCTGTGGGAGTGGGATTGGTGGGAAATGTGAACTGGAAGGAGCTCTCTCCAGCTCCCTGTCCTCCAACCTGGCTCCCATCCYAGCCTSGGGACTGCACAG
TGACCACGGGGACCTGGAGACCATCTYAGCACACGCTCAGGGCAGAGGCATTGTTAGTGCCTGCAGGAGCTGCACGGGGCCTGGGCTCATGTGGCTTTTT
CCTGCCCAGGTTCCCATTGCTCTGAGGGTGGATGTAGGCCCCTCCCTGCAGACGGCACCTTCAAGCTCTTCAGCTGCGGTGAAACTGGCCTCTTGTGACA
GATCCCCTGGAGCCCCCACAGGCCAGAAGCAGGAGGGCACCTGACCCAGGAGAGTCTGGGCTGGGGGAGGCCTGTGTTGGGGTCCTCTCCCTGAGCCCCA
CAGTGTCTCCCAAGTCAGACACAGTCATTGGCATGACCTAAATTTGGGAGGGGGAGAGGGATGTGGCTGCGTTGCTGTCCACTGTGGTCCTGGACCCTGG
CCACACCTGGCTGTCCGGCTGAGCCGAGCTGTGCTGTGCCACACGGTGCCAAGGGCCCATGCTCACCTGTCAGCCATCCTGGAGGGTGCTGAGGAGGGAG
GAGCCTCGCAGGTCCCCACCCATCCCTGCACCGAGCACTGAGACACCGGTCCAGAGTCGCGCCAGGTGGCCCCTCCACGAGGACTCCTTCCCAGGGCATT
CTGTATGAATCAGCCTGGGGCTTCGAGTCTGGTGGTCCAAGTGGTCACTTGCGGGCAGGCTGCCCAGGTGGGGACACAGGGCACCCCCTCTTCAGTGCCT
GCCTCCACCCGCACCCCCAGCCCTCACTCCCCTTTAGTTGCTGCCTCCCTGATGGGGCACGGCGTGGTGCCTGGCACACAGGAGGCGCTCTGTTTGTGCC
TCTCGGACACATAACCGATGCAGCACATTTGAGGGCCCAAAAGCTCTCTGGGAGCAGGAAGCAGGGTGACAGCAGCTCCCCTAAGCACAGCCCAGAAAGG
CGCTTCCTGCCTGCAGCCACCCCRCCCATCCTTTCCAAACAAGCAGCCTCAGGTGGGCAGGCTGGGGTGGGTGGGCTCTGTYTCCATGTCTTATCCTCTT
TCTGTTCAGCATCCCCTCTGACAATGCTCCCTAGGGGTCACCCCAGGGTGGCCCCACATAGGCCCCCTGCAGCTTTGCAGGCAGGCATTCRCTGCAGGAC
GGGGTTCCCCTCTGGGGAGAAGGCTGGGCYGCACTGCAGAGGCCCAGAAAGGGCTGGGGAACAACTGGAGTTCACCCAGCGAGTCCTCGCTGGGCCCCAA
GTCGGGCAGTGTTGCAGTGAAGGCCCTGGATACAGGCTGGAGGTGTCCTGAACTCCGGTCCTCAGTGGAAAAGGAGGCCCTGCAACCTCCTGGGTCTCTT
CCTCCCTAGTCYAGGACACTCRTGCTGCCCTCTGGAGGCTCTAGAAGTGAGTAATGCGGATTGGGCCTGGCCAGGGTGGAAGGGGCCACGCTGAGTGTTT
GGCAGGGCTGGCCCCACCCTGTTAAGGATTCGGGAAATCTTGTTTGAGCTCTGAGCTGGCAGCTCTGTGTGTAAGATCCCTTCTCCCTGGGTCCTGAGGG
AGCCACCCGAGGAAGACTGGGCAGGTGGGTGTTTCTGGGGAGCGGCAGTGGACCCCCYGCCTCCCCCTGWGGAAGGGCCAGCACCTTCCTTAGCTGGRGC
TCTTCTCTGTGTGCAGAACAAGCCCAGCAGGTGATTTCAGCTCCTGCTTYCCCTCCTCGGGGAAATCCTAGGGAATCTCATTCTGCAAAGGCAGCGACCT
GTCTCATAGCAGGATTTTTAATTTGGATTTAAGTGCAATAATGGTTACTCATTTGATGCGCCATTAGTCACATTGCCCCTTAATGAGAGATTGTGYGTTT
TTCCTGCCTGGCTTTGTGGCTTGCTAATAAAGTTCTATGGACATGCAAATGTTTATAGAGGCTCACCGAAGGCAAGGGTGGGAATTGCGTGCAGCTAATT
AAAAACCTCCCTCACGCTCACGCACACACATCTCCTCCCAGGGAAATTATCTGGGGGAGGGGAGGGGACGGCAGCACAAACCTGCGTTTTCGGTAACAGC
ACGTGGGAGCCCATTTGGTCGAGGGCCAGAGAGGATGTGGAGGAAGGGACGCCGGAGTCCAAACAGAAGCTGAGCAGGGCAGGGCAGGGCCGGCTGAAGG
GGAGGGCAGCTGTTCCAATCCCAGGTGTACCCTTCCTGGCTGTGTGGCCCAGTAGTCAGACTGTGTGTATGTGCACGCACGCATTCAGAGTGTGTGCTGG
CTTAGAATGCCATTCTCCATTGGAGAAGATTTTGTAACTCTCTTACTGTTGCAGAGTCCTGGCCAAGAAAATCAGGTGGTTTGGAATTTTCGCCCTTAAG
TGGAGCTAGGGGTACATCTCTCAGGAGAGGTGACCCAGRGAGGCATGGGTGGCTCTGATGGGGTGGGGGGAGGGGTGTCACTCATGGTTGGGGGAGGGTG
AGTGCTGGGCCTAGGGGTGGGGGCTGTAGCCTCTTCCTCTTTTTGGTACCTGGTGGGTGGGGAGGGGGCTTTCCTTGATCTGACCTCCACCTGCGGGCCG
TGAGTGCCTCTAGTTAACCTAGGCAGGGTCAGCCAGGGTTAATGCCGTGGTCAGGGCATGGCAGTCCCATTTGATGGTTCAGGGCTGTGCCCAAGGCCCC
CGTGCTGAGACCCCTTTGTGATGCTCGCCAGGGTTATCTAAAACCCATCACACTTTGGGGGCCCTGCAGGAAGGTTGGTTCCCACTTCTCTGTCTCTCCT
TTATGTCCCTCCCTGACCTTGGACCACACCCAGGTCCTCCCTGAGGCCCAGGAAGCAGCTCCCAGCCTCCAGTGCCCGGCTGCCCTGGCTGACCGGCGTC
TGGTGGGCGTGGGCTATTTAATGAGGGGAGTCAGTGCCGGATCCCTGCTTTCCTGTCTTGGCTCCGTGGGAGCTGGTAATAGAGCATCCACTTGCCTCCT
CACGCCCGCAGGACACGGCTGTTTGCTGGCCCTTGAGCCAAGCTCTTGAGACCTCCCAGCCCCAGTGGGGGGCCTGGCCAGGGCTCTGATGGGGCTGGGA
GAACACAAGAGCTGGACCTCAGTGAGGCTGGGGCTTGTGAGAAGTGCGGGGCCAGGTCCAGCTTTTGAGGGAGGCAAGCAGGGTGTGTGTGGGATCTTTC
ACAGCCAGGCCGAGGGGCTGGTGAGTGGAACTGGGACCCCAGACATGGCTGCAGCCTGTCCTGCCTTCCTTGCCCCTGCCCCAGCCCAGCCCCAGCCTGG
GCCTCCCCTGCCCCTGCAGTTTGTTTGGGTAACTCAACAGCCTGCTGATTTATGGGACATTCCGCAGGGTTTTATCTGCCCAGCCRCTTTCTCTCAGTTC
CTTTGAAGTAGAAAAGGGTGTTTCGGCCAGAAACACCCAAAACCCTTTAGTGATGCAGAAAGAAAAGAAAGGCCGGGCCTTCTGCTGGGCCGGGCCAGGG
GAGGGGCACTGTGGGACTGACCAGAGAAGTTTATGGGACCTGTGGATTCATTCTGGCTCCTGGTCCCAGCCCCAGCCCCAAATTCTGGGGGTCGGTGGTG
TTTGCTTTGCTYTTAAGCAAAGGGTCTAAGGCCAAGCCTTCCTCCCTCCCTCCTGTGTGCAGGAGTTAGTTACRACCCCACAGCTTGCACGAGTTCTCAG
GGATTCAGAGGCAGCACCCAGGACCTGCTTTAGGAGCTCCCTGCCCATCCGATGGGGGAGGCAGCCTGGGCGGAGCATCCCKAGAGAGCCCCGAACCCGT
GGGAGGTGGGAGGTGGGAGGCCTCGCCTGTGGATGTGGCCCCATCTGCTGCCGATGGCTGGCCCAGGCCCTGTGAGTGGTGCCGTCTGTGCAGGGACCCA
AGGGCAGGAAGTTGGAGCGGAGGAGCCAGGGTGAGTCACGGGGTGGGAGAGACACTCTCTCCTCACTCGCTCTCACTGGCTCTTCTTCATTCATTCATTC
ATTCTGTTTATTCAGCCATCCAACAAATGTTTACAAAGCCCACGYTGGAGAGTGGATCGCTGACATTTGAGCTGGGGAGAGTGAAGATCGATTGATCCCG
GCTCGGGGGAYGGATAAGCGGTGTGGAGGGGAGGGTGGAGGGGTCCTCCGGGGCCGTGCCTTTGAGCAGCCCCTGCTGCCGTGAGGAGCCATGCCCAGGG
CCCTTGTCCTCCTCAGCCTGGCCCTCCGTCTAACCCCTCTCCTTCTCTCCCCTGCAGCAGGCAGGCTCCGGAGAGTTCCGCACGCTGCGGAAAGGCTTCT
CGCCCTACCACTCGGAGTCCCAGCTTGCGTCCCTGCCGCCCTCCTACCAGGACTCCCTGCAGAACGTGAGTGTGCACCCCAAAAAAGCCCACATGTTCTG
GATGAGGGGCTGAGGCTCAGGCGGGCCAGTGACCTGCCCGGAGGGGCACAAGGATCTGGGTGCCTGAGTTCAGCCCCAGCCCTAGGCCCTGTGTCCGTGT
CCCATCCAGTGTGGCAGTTAGAGGCGGAGCCCCAGGTGGGTTGACACTGCTGGAGGTGCGGGGCAGTCTCCAGAGGCCACGTGCGCAGGGCTGCCCGTGC
CTAGCCCCTGTCCCTCTGAGCAGCTCATTAGCCTGTGCCACTCCTTGGCCACGGTGGGGAGAGGGTACCCGGCCAGCCCTGGAGCTTGGGGTTCAGGTTT
GTGGATTCTGCACTGAAATGACCAGCCTGATGCCTCCAGGGGTATCCTCTGCCCCTACCTGGCTGACCTGGCCTGGAGGGAATGGGGTGGGCGGCTTGGA
GCCAGCTCCCGGGAAGTGGAACCTAGCTCAGGACTGTGCCCTGTAGATAGATATGATGGCAGTGGGGAGCCACAGGAGTCCAGGCCCACTTGCCCTCCTA
GGACTGGGGGCCTTGCCTTGTGGGACTTCACGCCTCCAGGAGCCTTGGTGGGTGTGTAGCGGATGCTTGGGAAGCATCGGCTGTTCTCGTTGCGGCACCT
GCAGAGCCGTGTATGGAGGTGCTTCTTGGGCAGCACGTGCGCTTGTAGCAGCTGTGCCCCTTCCTGCTCTCTYCCCTGCACCCCTTGCCCACAAGGCTGA
CCCCAGGCCCCCGGTGCAGAGCTTGCTGGGCCTCAGTGCTGGCTGCTGGCTCTGCGATTTCTCTTTTGCTGCCCTTCCACCTTCTCCAGGAATGCAGCTG
TAGAGCCTGTGCAGGCAGCAAAGCCCGCCAATGGCCGATATTCCAAGCATTTATCCGGAGTCCCGTGGCTGAACGAGGCTCTAACTGTTTCATGGTGGAG
GGCTCTGAAAAGCCAAGGGATGCCCTCACGGGGCTGGCTCCTTAGTCTTCATGCCCCGTGCCTCTCATTCATTCAGATCGTGGGAGGGAGTAATAGCAGC
TAGCAGTTACTCAGTGCTATGTCCTGAAGTCTTCCGCGTGGCCTGCAGGTTGGGAAGTGCTGTGCAAGCACAGCTCTCACATGTACCAGGCCCGCCAGAT
GCTGTCTCCCTGCAGGCCTCTGGAGAGCACACCTCAGGCATGGGCCGAGCCTCAAGGCCTGAGAGTGCGGATAAAATGCTGTCAGAGTTCAGGAATGTTC
AGGAAGGCTTCCTGGAGGAGGCAGCCTTGGGAAAGGGTTTGTTCCTCTTGCCTCCTTTTTTCCTCTAGACTGCTCTGTGCATGAAGGGGTGTCCCCTACT
TTGGAGAGGAGGAAGTGAGGCTCACAGGGGTGGGGTGGATGGCCAGGGCCCCATGGTGAGTGCGTCCTGGTGCCTGTGTGTGCCTAGAGGTCAGGGGCCA
GCGTGGGGGCTGTGCAGGGGTCGCTCCTCCATGAGGCCAGGAGGCCGGGTGATAAACTGAGGTTCAGGGGCCATGATCAGGGCTGGTCGGCGGGCAGGCC
CCCAGGAGTGGGATGAACTGAGGTGCAGGGGCCGTGATCGGGGCTGGTCGGCGGGCAGGCCCCCAGGAGTGGGATGAACTGAGGTGCAGGGGCCGTGATT
GGGGCTGGTCGGCGGGCAGGCCCCCAGGAATGGGATGAACTGAGGTGCAGGGGCCGTGATCGGGGCTGGTCGGCGGGCAGGCCCCCAGGAGTGGGGGTTG
AGGGGTCAAGGTATCTCGTGGGAGGGGCCGATGAAGCCTGGAGAAGTGGCTGCTGTGGAGGGGCCAGGGCCAGAGGCCCTTGCTGGGGCCTGGAGAGCCC
ATGTCTGGCACTTGGACCCCCGGGGAGAGTGAGGGGGTTATCCAGAGAGGGCCGTCTCCGGGCTCAGACACTGCCTGGCACACAGGCCCTTCCAGACCCA
GGCAAGTCTCCTTTAAGGCTACCTGTGGGTCATGGGCACATTGAGGGCATGCTGGAGAGTCCCTGGGTAAAGCAGGTGACTCTCTGGGGTGGACACCCCC
TCCCTGCCCACTGCTGCCCATACCCTCCATCCACTGGCTGTCAGGGCAGGTGCCCAGTGGAGGGTGGGAGGTGGTTTATACCCATCAGCCTCCTAAGGGA
GGACACTCAGACTTGTGCCGTCATCACAGTAGAACATTTTCATCACCCCAGAAAGACACCCTGTACCCATCGGCCGTCACTCCCGTCCCCCTTCCTCCCA
GCCACCAGCAACCACCGACTGGTTGGTGCTTTCTGTTTCCACGGATTTGCCAATTCTGGATATTTCGTATAAATGGAATCACATGACGTGTGGCCTTTTG
TGTCAGGCTTCTTTCACTCCAAATCTTGTTCTCAGGGTCCAGCCACAGGTACCCTGTATTGGTCTTCATTGCTTTTCATGGCTGAATACTATTCCATTGT
GTGGGTGGAACACATGATTCCTTCATTTGTTGCTGTACATTTGGATCGTTTCCATGTTTGGGCTCACATGAATGGTGTTGCTCTGAGCGTTTGGCGACAG
GTATTTTGTGGATGTCTATTTTCAGTTCTCTCTGGTGCACACTGGTATCCTCACTTTGGGCACCAGCTCAGGAGTCCCACAGACTTGGGTTTGGCGCCCA
GCCCCATTGTTTACAAGCTGTTTGGTCTTGGGCAAGCCATTCTCTTAGCCTCACTCTCCTTGTCTGTAAAGTGGGCATGTAGGCCAGGCTCAGTGGCTCA
CGCCTATAATCCCATCACTTTGGGAGGCCAAGACAGGAGGATTGCTTGAGTCCAGGAGTTCAAGACCAGCCTGGGCAACATGATGAAACCCCATCTCTAC
CAAAAAAAAAAAAAAAAAGCTGGGCATGGTGGTGTGCATCTGTAGTTCCAACTACGCTGGAAGCTGGGGTGGGAGGATTGCTTGAGCCTGGGAGGTCAAG
GCTGCAGTGAGCTGAGATGGTGCCACTGTACTTCAGCCTGGGCGACAGAGTGAGATCCTCTCACTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGC
ATGTATGAACATGTAAAAAGATAGTGCCTGCTGGGAGCAGTGTGGCAAGGACTCAGTGGGCCCATCTGCCCTAAGTGGGTACCTAGTCAGTGGGAGGTGT
GTGTGGCCCGAGGGGGCTGAGTTCTAGTACAGTTGGGGGCCCCTGCACCCCGGGAATGCCCTGGAGGTAACACTAGGGCTTTGTCTAGTCCTGGTGTCAC
TTTCAGGATCCCGGGCCATGCCCTCGCTGGCACCCACCACTGCCCAGTGAGGCGGGCAGGAGAGGGGCGGCTTGCACAGCCCACCCCCACGCTCCTGGCT
TCCCTCCTGCCTGTGCTGCAGAAATCCCAGCCCCCTAGAGCCGGGGGCTGTAACAGGACAGGCAGCCCAGGGGCCTGGTGCAGATGAGGCCAGAGGTGCC
AGGGGCCGGCTGGCACATGGCCTGTGTTCTGCAGCGGAAGGTGCAGGAAGGTGTAGGTGCCCAGGTCTCCCAGGGCCGTATGTGTGCGACTGGCGCCCCC
TGCTGTCTGGCGCGGGGAGTGCCGCCTTGCGTTGCCCCAGGGGGAATCCCCAGCGTCCCTGTTGGGTTCCCTACACTACAGAGACCCAACAGCCTGGGCT
GGAGTTAGGGGTCTGCACACACCCTGGGGCAGAGGACCCTTTCTATTGTCCAGACGAGGAAACCGAGGCTCAGCGTGGGTTGAGCCCCACCTCAATGACG
CTTTCCTAGACCCCAGGGCTCGGGGGGCCTCCGGAGGTAGCAGCTCCCAGGCCCCCTAGCCTCAGGGGTGGGGCCTGGTCTCCATGTGGAGGCGGGAGCC
GGTCAACCTGCAAGGCCCTGGGAGCAGGTCCAGGCCAGGGCGGGCRGGGAGGGCACCAGGGGTTGGCTGCCAGGCCTGCAGGGGGTTCCAGGTCCTGAGG
GTCKCWGAACCCAGCCCTGCAGTGTTAGGTGGCCCCATGATGCAGGCCTGGGTGGGTGGGATTCCAGCCCAGCTCCCTGAGCTTGCCAGGCCGTTGGGAG
GCGTCATCAGGGCCCCATTTACAGAGAGGGCGGCAGACTCAGCTTCCATGGTTGGCCCAAGGATTGCCAGAGGTGGGAGCCCSGAAGATGTCCTGGAAAC
CCCGCTTCCAGGGCCCACAGGGCACCGCTGGGTGTTTTCTGTCTGGCTCTGGGCACTTGTAAGTTCCTCCCAAGCCTCTCCCAGCATCTTGTGACCTGCT
GGTTTCTGTTGGGCCCCTGTGGTCCCCACTGCAGCCCGAGGCAGAAGCCCTGCACCTGGCTTCCCAGCCACATGGACCCTTCCAGGCAGGAAGCTGGGGG
TGGGACTGCCTGCCCCTGGGTAGACAYGCAGCTTCTGRCAGAGGCTGGGTCCCCTCCCCAAGGCCTGATGTGGGAGCTGGGCAYCTGGCAGCCAATTCAT
CCCGCAGGGCTGGGAGGTGGCAGCTGGGAGGCAGGCCCCAGGGAGTGCTCAGGGCGAAGCCGGCCTCRCCCACCGGTGGCTCCAGGGTGGGCAGGGGAAG
GGAGTTTGGAGTCAGGTGCCAGGGTTAAGTCCAGACCTTCCTGGTCTTGCTGTGATCTGGGTCTCTTGCCCTCCCTAGGCTGAACTTACTTTCCTTGCAA
AACAGACGCTAGGTCTTATCTGTGGGGTGTTGTAGAGGAGCCTGAGAGGTGTGGGTGGGCCCTGGACTGCCCCTCTTGCCTCTGTGCTATCAGGGACCAT
TTCATCTGCAGAAGACCTGGTGGGYGGGACTGGCCAGACTGGCTGTGGGCTCCTTGGGTCTCCATCCTCACACCTGCCTCCTCTGCCTCACCCCGGTCCC
CTTTTCCTCCTGCCTGGGCCCTGGCCCCTCAGAATGGGGGCCTTGTCTGAGCCACCGGTCATTCCTGTGGGAGCCAGCCAGGGTGAGCTGAGATGTGTGA
TTGCCTTCCCCAGGGCCCGGCCTGCCCCGCACCTGAGCTGCCCTCGCCCCCCTCTGCTGGCTACAGCCCTGCAGGACAGAAGCCCGAGGCTGTCGTGCAT
GCCATGAAGGTGAGGGCCACTACCCGCTCCCTCAGAAGTCCTCAGAYGCTGGGTGCACTGTGAGACTGTGGGACCTTTGCACCTAGGGGTATCCAAGTGG
CAGGGGTGGGAGGTTTCATCTGTGTGTGGGTGGCTGGGTGACCATGGCTGCCTGGAGCACTGTGAGGTTGAACTCAGAGGTGGCAGTCATAAGTGTGTCA
CCTGTCTGCCATCCCTGAGCTACTGCACCTAACAAGACTGAGGCCTGGGGTCGGGGAGGGCAGGCACCCAACTAAGGCCAGAGAGAGAGGGGCAGGAGTG
GGGCTAGAACTAACCTCAGGTCTGCCAGGCCCAGCCTCTGCAGGTGCAGACTGGTGAGTCCGATGGGCTCCGGTTCCTCCAGGCTGTGCACACCTGAGCA
CAGTCCCCACTCCCATGCCCCYCTTCCTCCTACGTACGTGCCCCATGACATCCCACATGCATGCACGGCCACGCCTACTCACACCCCCTCCACGTGGCGA
GTGCCCACTCATCTCCAGCGGGCCCTGGGTTGSAGTGAGTCCACCTGTCTGAGGGTCTTCCTTGCCCAGCCTGTCTACTTCCTCCCGGGTGGCCCAGCCA
TGAGCTGCTTCCCTYGTAGGGCATCCAGTGTCAGCAGGGTGAGATGACAACCTGCCCCTCAGTTTTTTCCACGCTTGTCCCCAGGGGCCCAGCGGCTCAG
GGTCCTCAGCTTTGGTTCGCAGCAGGGGAGGCTGAGGATCAGGGGCCAGGTGACTTGCCCGAGGTCTGCCGGTGGCCTCTGCCCCTGACCCCGAGACCCG
TTCCCTTCAGGTCCTGGAGGTACACGAGAATCTGGACCGGCAGCTCCAGGACAGCTGTGAGGAGGACCTGAGTGAGAAGGAGAAGGCCATCGTTCGCGAG
ATGTGCAACGTGAGGCTTCCAGGGGTGGGGGGCAGAGGCTTGGCACTGGGAGTGCGACCAGGGCCACCCAGCATGGCCATACCCTTCCCCATGTGGGACT
CCATTTCTCGAATGCTCAGCGAAGGCTGGGTGACCTTGGATAGCTGGGGGGAGGCCTCAGAGGTGCTAGGAGCCCTGGCCCGTTGTCATCTCGCTGCCCC
CTGCCCTTCCCAGAGGGCCCCTGGTGTCTGCAGATCCGCCCTCCCCAGGAGTGCCGTGCCTGGGGTTCTGGATAGAGCTTGAGCCCCCCACCCCCCCGGG
ACTGGTTTGTTCACCCCAGGTGTTCCCTGGGTGCTGGCCCCCGGGCCTCTCAGCTTGCTGGTGCCCCCTGTGGCTGCTGGCTGGGCAGATGGTGCTCAGA
GCAGGAGGTCCAGGTGGAACCCTCCAGCCCACCAGGCTGGGGCTGCCCAGGAGAGCCCCGTGCCCGACCCAGCTGAGCACCATCGGCGGTCTCCTTGGGG
GTGCTTGCAGGAGCCATCRGGGAAGGAGTTTCATAGGGTCTGAACCCARRACTTAAAGGGGGGGCGAGAGGCTCTGAACTGTGCAGCCCCTCCCCCGCAT
CACCTAGTGGGGCCTGTGGACCCCACTGGACAGCTGCAAGGCTGAGCCACACCCCAGCAGTGACCTGCTCAGGCCYGATAGTTAGCGCGGCATGCAAAGA
CCTGGTGTGGGTGTCTCTGGGCCTGCAGTGGCCTCCGTGTCCCTCCTGGCCCCATGGCTCTGAGGACGTGGGTGATTCTGCCGTGATGAGGCGGCGGATG
TGCATAGGCGGCAGGTGGACGCGGGTGAGTCCCACCACTCACATCTCTCTCCTCTCCACAGGTGGTCTGGAGAAAGCTGGGAGATGCAGCCAGCTCCAAG
CCCTCCATACGGCAGCACCTGTCTGGGAACCAGTTCAAGGGGCCTTTGTAGGGCCACTCTTCTGTGGACGTGGACTGGCCCTGCTGGGGGTCCCCAGGGG
GAGTTTCAGGCCCCAGACACGGGCAGGACCTCCAGCCCAGCCCCTGTCTTCTTCCTCTGTRGTGAACTGTACATAGGACGCTGCCCGCCCTGGCCCAGCT
GCCATGGGTCCGATGCACTGGCCCAAGCCGCCATCTCCCGCCTCATACACCAGCAACCTGGGAAGACGAGACGCTGCGACTGTTCCTGCAGCAGAGCGGC
CCGGACGCCTCATTCCCCCTCTGGGCCCTGGGCTCCATGAGCAAGAGGCTGCAGGCTGCTTCTGAGATCCAGCCTGGGAACTGTCCAGGCTCCTCTGTCC
TGCCTGGGATGGAGGGGCCACTCATCAAACCCTCTACTCCCCGGCTRCCACCCACACTGGACAGAGACCACCACTACCTGGGTCTTGACGCAGGTGGCAC
CACTTCTTGCCCAAATGCCGTGGCCTGGSCCCAGGCCCCCCAAGCACTGGGTCCCCGGCATGTGGACAAGGCCACTCACCACATCTGTGGCTGGCTGGAG
GCTGCCCTGGGCCCTTCCTGTGACCCTCAGCCTTGGAGGTCAGGGTGCCCTCACACCTGGGGATCTGTGCTCAGCCACCCGATGCCCGCTGCTCCTTGCT
TTTGGAGGTCATCCCCCTCCCCCCCAGTCTCTGCAATGTCCCCCTGCCACCCTGTCCAGGCTATGCCCTTCTTGGGCTCCTCCTGCCCCATGCCTGAGGC
ACGTCCCTTTTCGTGGTTTACATGACAGGCCAGTAACAGGAAGGGCCTGGGGAGAGTTTCTGGGCTGAGCCACATGTGATTTTCCTGATGGGCAGCACTG
GGCCACAGCTGGGGCTCTGGTTGGCTGTGACCTCCCCCAGGGCCTGGCTGCATCTTGGGTCCCTGTGGACAGAGCTGTGTAGGCTGCAGATGAGAGTTCT
GTTCTTTTTGGGAAGGAGCGTGTCTGGCCAGGTTCTGCCTTTAGTTTGTGGTGTGACCTTTAGCAGTTCACTCAGCCTGTCTGGGCTCTTGGTGGAAACA
GGTCTCTGAGGTTCCTTTTCGGCCATGCTTATGGCTCCAGGTCATCCAGCGCCACAGGGCAGGGGTCCTCACTGAGGGGGCGTGAGCCAACAGCCGACGG
CTGAGGGCGGGCCGGGTGGAGCTGAGTTCTGCTGCCTTGCAGTCGCTGCGGGTGGAGAGTTGCCTCCCCACTCTGAGCCCGTGTCCTCAGTAGTAAAATG
GGCAGCATAAGGCCCTCCTCACAGGATTCTGGCATCAAGTGAGATCTTCAGTGTAAATGACCATGTATAAACTGTAAAGTGCAATAGAAAACTGTGTGTG
TGAGGAAAGTAAGGCCTAGAGGGGGTGATGTGTGGCACATGACAGGWDWGATCCCACAGCTGCAGCACGGGGACAGGCCGCTTCCCCACATCCGCTCATG
CCACTGTAAGCAGCCCTAGCTCTTGGGTCCAGGACCTCACCAGSTCCTCGTCAGACTCCTGTGCTCTTCCAGGGGCTGCTCAGCCCCACCTGAAGAGCCC
AGAGAGGCTGTCTTCCTACCCAGCAGGTCTCATGCAGGCCCAGGGCTGGGGATGCAGGCAAGAGGAGGGAGATGGYCGCCCTGTCCCTCTCCCTAGCTGG
CGGCTCTATTCTGAGCAGTTCTTGCTGCCCGTTTGCTCTCAGGGGAAAGGCTCACGCCCCCCATCTTAGCCCCARGGGGGTAAGTGGGTGCTGGTGATGG
GATGGTGTGGCGCTCCTGCCGTGGGTGTTGCCAGGAGGCTCTTTGGGAAGGAGTGTCGCCCRGTCAGGTGGTGCGCTCCCGGTCACTAGGGGTGTACACG
TGAAGTTGGGTGAACACCTGCTGCTCATGGTACCCAGTGATTCTTGCCCGAGTGGGCAGCTGAGCAGAGGCCCCTCTGGGTCTTGCAGTCCAAAGAACCG
CAGAGTAGCCCAAGGGCTGTGGGTCCATTTTGAGTGGCAGCCAAGTCTGGGAGCCCGTGTGCATCATGTTTGGGTCAGGTTGGCGTGGCCACCACTGAAA
TAAGCAATAAGTACGGGCTCCTGGTACCTGCGGATCTCCTGCAAACAGGCCCAGAGAACAGCCTTGAAGCCACCTTTCCCCTCAAGGGGACTGACCCTGT
CTTTAATGCTGCAGTGGCATCCAGGGATCAGTGGAACATTGCTTTGAGAACCCTCCTGCTGTTACGGAGGCAGCACAAAGCTGGTGACCCCTGAGCCAAC
ACGGCACTGGGATGGCTTTCTAGGACAGAACCCTGTCGGCGACTGTCACATCTCAAACTAATAGCTGATTTTAAAAGCCAGCAGCAGCGACGCCATGTAC
CTGAGTACAGGTGGCAGTTGCAGAGCCGTGGGCTGTAGAAGGTCAGATGGGGCTTCCCACAGGGGAAATCTGGGCRTGCTGTAGCTCAGGGTGACTCCCA
GCTCCGTCACTAGCAGGGCGACCCCCTTCCTTCTGGAGCCTTAGCTCTGAAAGCCCCCAGTGGGGGTGCCCTTTCAGATGCCCCCTTTCCATTTCAAAGG
CTCTGACTCTTGATCTTGAAGCCGGACGCGGCACTGGCACTCGGCTTCAGTTTCCACTGTGACAGATGGAGGTCTCCTTTCGCCCCAGCCCAGGTGGCCA
AGCCCATCCTGGCCTCAGAACATGCTGAGCACATTTTGTAGGGTGGCACCTTTTTATCCAAGTTACTAGCTACACATCAGTGTTTAAAGAGAAAAAAGTG
ACCTTTCATTTTTTTTTTCTTGAAACTTGAGGAAACAAGATACATACTACTGATTTTTTTTTTTTCTTAAAACTAAATGCATGACTGCAGAGCGGTAGAG
GTGTATATTTTTCATACTGTGGGGCAAAGTATTTGTGCTGCTTTTTGGAGATGGACTGGAACGTCTGGTTTCTGTCCCCGGGCCCGGCAGCTACGTCTAT
TTTCTGTAGAAGGTGCCACAGTGAGACCTGGAGCCACCCCTTCCTGCCCTGGCGCCGTTTAGAGCTGGGAGCCCGTGGACTCCCGGCCTGTTTCTACCTT
CTATTCAACCACTCTGACGTGGGGAGACAAGAAGAAATAGAACTTTTTKATAGTGTGGTAAAAACATTGATTTGAACTATTTTAGTAAAAGGAGTAACAA
ACAAGATTGTGATAGTGTCTACTTTGAGCTAGATAAATAAAGGCCTCTTTGTGAGCCTCCTGGCTGGGTGCTCAGTGCTTGTTTCTGTCGTGGGTGGCAG
GGTCAGCAGGCAGAGACAGGGCCAAGGCCCCTCAAGCACCGCAGATGGGGGCTCAGTCGGGGCCCCTTCCACAGACAGAGCCGTGGCCCCTCAAGGTGGA
CAGTGAGGCCGCTGCTCCTCCAGCTGCCTCTGTCTCATCACAGGCCAGAAGTGGAAAGGGTTTCAAATCCAAGCCCCCGGGTTCCTGTGTGYGTTCTACG
CAGCAAGGCTTCAAAGTTTCAAACTGGTTTGGAACTCAACCAGGTCCTCCAAAGGAAACCAAGGCAGGCACAGGATGGGGGCAGGCTGGCTTGGCAGGCA
GCTGTGCGGATCCACCCAGAGTGCCTTGGGAGGCAGTGGGGTTGGCTGTGGCTGCTGTGAGCTGCAGCCAGGCCTCTCCCGCGTCCCCAGGGTCTGGAAG
GAGGGCCTCTGCACATTTTATAAGCCACAGACTGCGAAGGCCTGGAGCCCCACCTTCCACCCATAACAAAGAAAGGGATAGTTTCAGAACTGCTTTTATT
TGGATAACTGACTGAAGGAGTCTCATTTGTAACCAAGATGGAATTCACAGTATGTTGTTACATTCACACTTAAAAAATATATCTCTATGTACAGGAATTT
GCAAAGAGATGTAAACATACATTAATTTCCAAGTACATTTCTCCCCTTCTCCCTGGAGGAAAAAAAAAAAGCCATCCAATGAGGCAACCCCTTCAAAATA
ATTTTAATACAAAGGATGCAAACATCTATAAATGAAAAATGTGGTTCTTCTGCCCCTTCTGGGTGTCATGGGAGAGAATGTCACCGAATGAAAATGACAA
CAGCTTGGCTTCAGATGGAATTGGACTATTTAAAATTGAGTTTCCAGGAAAAATAGGCACTGATTTCTAGAAGGAAATTAACTCCTTACCGAAGCTATTT
ATTGAGCCAATATGGCTGGTTAACGTCCTCACTAKTATAAAGTAACCCAGTGCAGGACTCTCAGACATTAGCTGAACCAAGTGTACACAGTCAGACTGCA
AGGGCACTGATGAGGCTACTCTGAAAGCTGGTTGTCCCCGTCCTCTAGGTGTGAGGACCACTCTGATTTTATCCCAGGGGCCCGGTCCATTCTTCCCATA
CTGCAACTGTCGTGCATTATACAAGGTACCCTGCTGCTTACCCACTTCAACTACTCTGCAAGTCGATTAGAAAATCTTGTTAAAAAAACAAAGAGGGAAA
AAAGGCTCACGTTATCTCATCCAGGCTGCCCGCCCCAGCCCCCCAACTGGAGGCATGCCGGGTGGGGGAATGGGCGGGGGCACAGGAGGCTGTCCTCCAG
GGGGGACGGCAGGAGGTGGGTAGCTGGCTGGCGGCAGGCCCAACCCTGGAGGAGGATGAGGGGGGACTGCGTGGGTAGGCGGGAGGCGTGGGGGTGGGGG
TGGGAAATTGGGGTTGTAGGTGGGTGGGGGTGGGGGGTAGCCAGGAGTAGGGGGTGGGATGGCAGGTGGGGGGAAGGAGGCTGGGGGAGGAGGCACAGGT
GGCGGGGGCGGGTTGGGCGGGTAGACATGGGGGTGGTAGGGCAGGTGTGCAGGTGGGCCGTAGGCGGGGGGCAGGGCACCGTAGGAGGGTCCCTCGGTCT
TCATCATGGACTGCAGGCTCTGGTAGCCCTCTCCAGACATGTAGGAGCTGGTGGTGGACATCCCGGTCATGTAGCTGGAGGGGGGTGGGGGCGGGGGCCG
GTGTGGCAGCGGCGGTGGCTGGTGCACAGGGGCCGGGTGGGCCGGAGGGGGAATCTGGACTTTGGGGAGGTCAGTGGCATCCACAGGGCCCGGCGGCTCA
GCCTCACCTAAGGCAGCAGCGAGGGGAGGCTTCCGGTCTGCAGGAGAGAGACGCATCAGTGCCCGGCCTCCGCCAGCAATGGTTGCTTTTTCAGTGCCTC
CTGGCCCTTCAGGGCCATCTTTACAGAGGAGCAGGGAGCAGCTGCCCGCCTCCTCTGTGGCCCAACGCATGGGCCCATGCCCCATGTCCTGATGCCACCA
GATGTCTCCCCACCATCTGTCAAGAAGGCCCTCCACCCTGTCTGCGACGACCTGGGGTTTTCCCTCCCTCAGCCCTGACCACACCACCTACAGGCAGTCT
CGGCAGCACCCGAAGCCCCCTTGTGCCCTGGCCCCAGCCCCCTCTTCCTAGTGCAAAACGTGTGGGGGCTCCTCTGTTTTTCTGCCTTCAGAAACTGACC
CCAGGGGTCAGGGCCACACTGAACTCCTGTCTGCAGCAGTGGCATTTTGCAGAAAACCTCAGAGTTAGTCAAATGAATGTGATGGCACTTAAAACAATTC
TGTACAAGTCTCTGACATTCCCGGTGTACCCATCGAAGCAGCAATTCAGGTTCTATTCTACTCAAGAGAGGCTACATCAAACCCCACTGTGTGCTCTCAG
ATAGCAGCCTCCTTGAGAGGAGTGTGTGCATGTGTGTGCGTGTGCGTGCTGCGTGCGTGCTGCATGTCTGTGCGTGCTGCGTGTGTGTGCGTGCTGCGTG
TGCAGCAGGGACAGGCAGCACTAGGTGTTGAGCACGCCCAAGATACTCGTGCTCAGAACCAGCCTCAGGCCCCTCCCACAGCGCCTCCCAACCCATGAGC
CCTCACGCCCCCTTCTGCCAAAGCCTTATTTAACATGTTTTGGCCTGTGATCCCGGGTCACCGTCAGACCACTGGAAAATGACATCGCAACACCCCACCA
CAGGTAGCCAAACACACAGAATGAGTGTCCTTTCCCAAGGCAGCCCAGGAGACAGACCACAGGAGCAACATTTCTGGTTCCAGAGAACATAGAGAGGACA
AAGCCACGAAGATGCTTCTGGTTCCCCAGGCACTTGGGTTAGGCAAGGCACAGCACGACATCCTGGTTGGGTAGACGTGGCCATTGGCACACAACCCGTT
TGATCTTGCCAAAGCGAGCATGAGCAGGATTTCATCAGGTCGGTAACAGGTGTGCCACTGGTGTGCCACATCAGCACCCCGCCAGCCTACCGGGTAGGAA
GGTCATATGTGCCTGGCCTTAGATAACTGGCTTTGGCTCCAGGTCAGGGCCAGATGCCCTGTGGTTCTAGGAGCTGACTAAAAAAGAGGTGCAGAAAAGT
GCTGACACCCTTCAATGCCTCCTGTGTGTCACTCCACAGCCACCTGGGCCCACAGGCCTGCTCCTCCACCTTGCAGAAATCAACTTTTCCAACACTCGAC
CCTGTAGCCTGAATCTTCAAGTCACCAGTGTGCCTGCCCTTGTGCTGTGTGACTGAGCTGGAACAGCAAGTGGGGGTCTCTCCTGGGCACCCCATTCCCT
CTCTGTACACTTGCTCCTGACCAAGTCCCACACACTGCCACCAAACTGCTCCCTAAACATCACTGCTGACCTGAATGCCTCTTCCCATGGCCTAGGGCCT
CCCAGGAAGCGTACTTCCCTCCCTTCCTCACGGCCCAGCTTTACTGCGCCTCCCAGGCCCTGCTCTCTTCAGCCATGGCCTCCTGGCAGTGTATCTGGCA
CCCAGGTCCCACTCAAGTCCCAGGCCTACTCCTGGCTATCTGTAATGGGGGAGGGAGCAGAGCTCTGAGGCCTCCACAGCAGCTACTCAGTGCCCTGGAG
GTAGCAGCACCCCTGTGGCTGCCCCAGGCTCCCCAGATAAACCACCCATCTCCTCAGTGAAGGCACAGCCCCAGGCTCGGACCAGGGGAACTGCACTTGG
CGAGGAGGTGCTCCATAAATGCTTCATGAGCAACCACAGGCATTTAAGTAAGGTTCATATTGAATTGGGGGTTTTGGGATTTGGCCCCAAAGTGGAAAAT
GACGCCTCTGTTCTCCCAAAGCACAAACACTATCATGATTGAGTAGGAACAGAAATGTAATCTGTGGCACATCTGTTACGGGCACACAGTGCTGTCAGCC
CCAGTGTGAGCCACGTGCACCGACCAACAGTGAGTGTAGCAGGCTGGAGGAGCTGCTGACAGAGGCTTGGAAGCCTCCGGAGTATCGACCACCTTTTGGA
GAGCAAGCACAGGTCACTCTGGCCTTCTCTAGCGCATCACCTTCTGAAATGGTGCCACAGGTAAAGAATGCCATCTACTTTACAGCTTTTCTCCTCTATT
GCCAGCGGTATCAGAGAGGCTTTCCAGCTTACCATGTACTACTTGTTGAGAACTTTTCACTCTTTCATTTACTCTCTGTACAATTGCTTATTCTTCAGAA
TGCACTAAGACGACACACTGCCAATAGGAAGCAGGTGTAGGGGCGGCCGGAGCCTAGTAGCCACAGTAACCCTGCCTCTATCTCAGAAGGCGGGGTTTGG
CTTTCTTTCCTAAAACTGATTCTAATACAATGTGTAGTTTAGCATTTCTGGATGTGAGAGGTCGGAAAATATTCAGATATACTTAACAATTTACAACATT
CTCAAAATACCTGGTCAAAATCAGAACTTTGAGACACGGTCTCCCTCTCACCCAGGCTGGAGTACGGTGGTGCAATCATAGCTCACTGCAGCCTTGACTG
CCCAGGGCTCAAATGATCTTCCCATCTCAGACTCCTAAGTAGTTGGGACTACAGGTGTGTGCTACCACACCTGGCTAATTTTTTAGACAGGGTCTCACTT
TGTTGCCCAGGCTGACCTCGAACTCCTGGGGTCAGGTGATTCTCCTGCCTCCGCCTCCCAAAGTGCTGGGATCAAAAACACAAGCCATTGTGCCCAGCCC
AAGAACAATTTTGCAAAGATTCCTGCCTGTGGCTGACATTGTCAATCTGGGCCCCAGTCTCCCTTTTCTAAGTTCCCAGGACCTGCTGCGTCCAACATTC
AGAGGCGATGTGCACAGCTGGCCAAGCTGCTTCAGCAGATGCTTACCTGGAGGTGGGTGGGCTGGAGGCAACGGTGGATGAGTGGTCTCAATTTTGGGGA
TTTTAGGTGGTGGTGGTTCTACAAAGAAAAAGCAGATTAGAAAACCACTCATACTTCTTCACATGAATAAGCATGTCATAAAGAAAAATGTACTGGCAGA
GATTTCTTTGGGAGAAAAACAACAGAGATGACCAAGGCTTTAAGGGAACTTGAAGAAGGTTTCAGCTAAACCATTATGCATGAATCCTGTTAACAAATTA
AATGCCACCTCCCTCCAAAAGACCTGCGAGCTTCCCACAGGCAGCCCATTTTCCATGTCTACCTAAGTTTCCTTGCTGACCACTTCACTCAAGTCCTTCC
GACCATGTGAGACCAGCAGAGCAACGTCTTCATGAGCATGTATGACCTATCTGGAGTCCTCCCTGGTACAGAGGACACAAAGAAGGGTCCAGAGTAGCAA
CATCATGTCACTGAGTCCCCTGAGGGTTCCACAAGAGAATCTCTATCTTTTCATTCTTAGACATAGTTTATTCTCTCTTTCCCAAATACTGACTTCCAGT
TGGCAGCATGTCAGAAGCAGCACATTAACTGGAGTCAGCAGAGCTCTGGAGGTTGACACACTGATGGCAGGAAGAATGTGCCGCTCACAAAAGCCCAGCA
GTCAGGACCCCTTGAGGTGGAGGAAACAGCCCACCCTTCCGGGGTCAGGCAGCGGCACGCAGCCAGAATCCACAATGACAGCACTAGGTCTCCAAGGCAG
CCCAAGGGAAGTCCAATCTCATCCGTTTAAGAAGGCAGCGTGCACATCACAACTGAAAAAGAACCCTATTTTTCTGTTTGCATGCTGAGGCTTTTTCTTC
CTGAAATGTACTTTCTTCTGGCTTGTACACCACTCAGATCTGAGTCTCCTCTGCCATCACTGGCCTCTTTCTCTGGATTTCCTCCATCTCAAATACAGGC
TCAATTTAAGTTCCAGGGACTTCCTCTCTCTTCACCCTCTTCCTCAGAGTCCAAAGCCCCTCTCTAAGTGGACAACTACAAACCTACATTTCTAGCGTCC
ATCTTGCCACCAAAACCATGGCCCATCCCTAGACCCACCAATCAGCACCTCACACACTACCTTTTGCCTCTGTATCCTATAACTGCTATTACTCTCACCT
CAGGGACCCACCTCCTGCCTTTTTCCACAGCTGGTAATAGTTAGCTAAAGCCGTCTACATCAGGGCTGTCCAACAGCAATATAACTGAGAGCCACATATC
TACAATTTTAAACTTTCCAGGAGCCATTTTATTTTTTGAGACAGGGTCTCGCTCTGTCACCCAGGCTGGAGTGTAGTAATGTAATCATGGCTCACTGCAG
CTTCAACCAACCAGGCTCAAGTGATCTTGCTGCCTGAGTCTCCCAAGTAGCTGGGACCATAGGTGTGGCGCCACCACGCCGAGCTGATTTTTAAGTTTTG
TGTAGTGATGGGGTCACCCTATGTGGCCCAGTCTGGCCTGGAACTCCTGGGCTCAAAGCATGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGTGTGCCA
GGAACCACTTTAACAAGAAAAAGGAGCACTCCAGCCTGCATTAACAGAGCAAGACTCTGGAAATAAAAGGAAAAAGGATAAAAATTTATTTAACCCGATA
GATCGAAAATTTTATTTCAACATGTAACCAATATAAAGCTTTACTAATGAGATGTCTTACGTTCTCCTTTCTTGGAAATCTCTGTGTATTTTGCATTGTC
AGTGCTTCAGAATTTGACCCAGTCACATTTCGAGTGCTTGCAGCCCTCTGCAGCCAGTAGCCTTCGGCATGGCACAGTGCAGCTGAGTTCCTCTATAAAG
CTTCCTCCGGATCTGCCCTTCCTGCCCCGCAGCCAGCATGCTGAGGCCACCATGTTTCCCATGAGTGCCAGCAAGATTCTCCCCATTCCTAACCACTTGC
CCTATTTACTGCTGCCAGGGGACTCCTTCTCAAATGAATTTAGACTCTGCCATTCCCCTGCTAAATCTCCAATGGCTTCCCTTGCCTCTGCCAAACTCAC
AGTCCTCCAGGTAAACTCTGTGATCTGGTCCTAACCCACATTTTAGATCCTATCAGAAGCTATTGCCTTTCAATTCATCACATTCCAGAAAGACTCCTCT
CCATTTCCCCTGATTCTCAATTCCTTTGCTCACTTGCGTACTTCCAACTTACTGCTCCATCCTCCCCCTCTGCTCTCGCT


SNP Information

Context             (SEQ ID NO:28809):
CAACCTGCAAGGCCCTGGGAGCAGGTCCAGGCCAGGGCGGGCGGGGAGGGCACCAGGGGTTGGCTGCCAGGCCTGCAGGGGGTTCCAGGTCCTGAGGGTC
K
CAGAACCCAGCCCTGCAGTGTTAGGTGGCCCCATGATGCAGGCCTGGGTGGGTGGGATTCCAGCCCAGCTCCCTGAGCTTGCCAGGCCGTTGGGAGGCGT
Celera SNP ID:            hCV26475790
SNP Position Genomic:     67904
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,8)   total(G,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28810):
ATTTGAGCCCTCAGGCTTGGGAGGGTATGTGGGGAATCTGGCCCTTGCCGCTGCCTTCCAGAGACTTGCGGGTGCTGGGTTAGGGTTGGGGGCTCTGGGG
R
TCACGCTCTGAGATGCCCCGTGGAAGGGTGCCTGCTGCAGGCAGTCTCCAGCTCCTTGGCCCACATGCCTCACTCCTTGTCCCCTCCAGTTCCTTCCCCT
Celera SNP ID:            hCV2984540
SNP Position Genomic:     14040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28811):
GACCTGTCTCATAGCAGGATTTTTAATTTGGATTTAAGTGCAATAATGGTTACTCATTTGATGCGCCATTAGTCACATTGCCCCTTAATGAGAGATTGTG
Y
GTTTTTCCTGCCTGGCTTTGTGGCTTGCTAATAAAGTTCTATGGACATGCAAATGTTTATAGAGGCTCACCGAAGGCAAGGGTGGGAATTGCGTGCAGCT
Celera SNP ID:            hCV28013606
SNP Position Genomic:     61496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28812):
CCCAGGCCCCCTAGCCTCAGGGGTGGGGCCTGGTCTCCATGTGGAGGCGGGAGCCGGTCAACCTGCAAGGCCCTGGGAGCAGGTCCAGGCCAGGGCGGGC
R
GGGAGGGCACCAGGGGTTGGCTGCCAGGCCTGCAGGGGGTTCCAGGTCCTGAGGGTCGCAGAACCCAGCCCTGCAGTGTTAGGTGGCCCCATGATGCAGG
Celera SNP ID:            hCV26475791
SNP Position Genomic:     67846
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28813):
CCAGAGACTTGCGGGTGCTGGGTTAGGGTTGGGGGCTCTGGGGATCACGCTCTGAGATGCCCCGTGGAAGGGTGCCTGCTGCAGGCAGTCTCCAGCTCCT
Y
GGCCCACATGCCTCACTCCTTGTCCCCTCCAGTTCCTTCCCCTGAGGCTTCAGGGCCTAGCTCAATGAGGCAGGAGGCTGGATAGGTGTGATGTCCCAGG
Celera SNP ID:            hCV2984541
SNP Position Genomic:     14097
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28814):
TCCTTTTCAAGTAGCATTCAGTACGATTCTGGAGCGTAGGGCTGGGAGAGCACAGAGCCCCTTGCAGCTTCCTTCCCTAGTCTCCTGTGACCCTCCATAA
W
GTTGCCTGTTTGCTGTCAGAGTTGTCTCCATCAGTTGGCCTCATGGTCAGCGGTGCCCAGGACATTTCGGCGCTGCGTTACGACAGCTCATTGTGCCTCT
Celera SNP ID:            hCV28013607
SNP Position Genomic:     20025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28815):
TCTTAAAACAACAGAAATTTGTTCTCTCACATTTTTGGAGGCCAGAAGTCCAAAGTCAAGGTGTCAGCGGGGCCAGTTCCTTTTGGAGGCTCTGGGGGGG
G
AATCCTGTATTCGGCTGCTCTCGCATTGCTGTAAAGAAATACCTAAGATTGGGTAATTTATAAATAAAAGAGGTTTAATTGGCTCACAGTTTTGCAGGCT
Celera SNP ID:            hCV8431414
SNP Position Genomic:     26881
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,7)   total(G,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28816):
GTAAAGTGGGGAGATGCTAGAACTTTCCATATTGCAGGGCTGCAATGAGGGCTGGATGGGATGAGGTATGTGAGGCACTCAGAACAGATGTGAAAGCTGC
R
CGTGGATGCCCCTGCCTGGCAGGGGGATTTGGTCTCAGGAGGGCACATTTCAAGCCCCACTTCCTTCCTGGAGTCCTCCCTGTCCCCACAGGTCCGTGTC
Celera SNP ID:            hCV2984542
SNP Position Genomic:     15967
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28817):
AGCTTGCACGAGTTCTCAGGGATTCAGAGGCAGCACCCAGGACCTGCTTTAGGAGCTCCCTGCCCATCCGATGGGGGAGGCAGCCTGGGCGGAGCATCCC
K
AGAGAGCCCCGAACCCGTGGGAGGTGGGAGGTGGGAGGCCTCGCCTGTGGATGTGGCCCCATCTGCTGCCGATGGCTGGCCCAGGCCCTGTGAGTGGTGC
Celera SNP ID:            hCV26475793
SNP Position Genomic:     63382
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28818):
ACTCAGAACAGATGTGAAAGCTGCGCGTGGATGCCCCTGCCTGGCAGGGGGATTTGGTCTCAGGAGGGCACATTTCAAGCCCCACTTCCTTCCTGGAGTC
Y
TCCCTGTCCCCACAGGTCCGTGTCCTGCCTACCTGTGAACCACTCAGGGTAACGCTGGGCCTGAGCTCAGGCTCTTTCTTTTTTTTTTGAGACAGTGTGT
Celera SNP ID:            hCV2984543
SNP Position Genomic:     16043
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28819):
GCACATGGTCTTGTTCTGGAGGCTGGGCAGGCACAGCAGAAGCAGGACAGAGCAGCACTCCTGTCTCAGAATTTAACTCCTGCGCGTCCCTGGCATGTGC
R
CTGAGCCCTCCTGTCAATTAGGACATTCCATCAAGATCCAAATGCCAGTTCCAAATGGCAGCTCATGAACACGGCTGTCCCTGACCACCCTTCGCATCCC
Celera SNP ID:            hCV29133020
SNP Position Genomic:     12027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28820):
AGCCCCAAATTCTGGGGGTCGGTGGTGTTTGCTTTGCTTTTAAGCAAAGGGTCTAAGGCCAAGCCTTCCTCCCTCCCTCCTGTGTGCAGGAGTTAGTTAC
R
ACCCCACAGCTTGCACGAGTTCTCAGGGATTCAGAGGCAGCACCCAGGACCTGCTTTAGGAGCTCCCTGCCCATCCGATGGGGGAGGCAGCCTGGGCGGA
Celera SNP ID:            hCV26475794
SNP Position Genomic:     63274
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28821):
TGGGTAGGTGGCATTGGTTTTTGTGGCTGTGGGTTTGGTCCCAGCCCTGGGGCAGCCGTAACTGCTTAGATCCCCAGGCAGTGGTGGGTGCCTCTGTGGG
K
CAGGGCAGCCTGGCGGAGCTGGGGCCCAGGTGTGGACATCCAGGGAACCCTTTGGAATACTGTCTGGTGGAGCCGAGCACACACCCCACTGGCCCAGCAG
Celera SNP ID:            hCV2984544
SNP Position Genomic:     16654
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28822):
CTGTCCCTGGGTGGGGATCTGGCCCCTGACCTCCTTAACCTCCTAGAATCCCCTGCAGGCCATCCACCAGTCTCTTTTGCAGATGTGGAAGCAGGTTCAG
K
AATGTGCCTGGGTCATAGCTGTGAGTGGTCAGGCCACCTGACCCGGCTGGTGCCCCTCGGGCGGACACAAGGACCAAGTAAATCAGATGGTGCTCATGAA
Celera SNP ID:            hCV29133021
SNP Position Genomic:     11310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28823):
TGGGACTGACCAGAGAAGTTTATGGGACCTGTGGATTCATTCTGGCTCCTGGTCCCAGCCCCAGCCCCAAATTCTGGGGGTCGGTGGTGTTTGCTTTGCT
Y
TTAAGCAAAGGGTCTAAGGCCAAGCCTTCCTCCCTCCCTCCTGTGTGCAGGAGTTAGTTACGACCCCACAGCTTGCACGAGTTCTCAGGGATTCAGAGGC
Celera SNP ID:            hCV26475795
SNP Position Genomic:     63212
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28824):
TGTGGTTCTGTTTCTTGGTTCCTTGTTTTCAGCCTTCGTACTGGAGGGCCACCCCTGGGAGTTGGGAGGATTTAGGTCTTCCTTCACGAAGATGGGTCGA
Y
GTGGGCCTTACTGCTTTATTCTTTGGTTAAAGATGGATATTGCTGTGGCTAGGTCTGGGGACGGGGCTTGGCAGACAGTGAGGACACAGGCCAGGAGTGG
Celera SNP ID:            hCV2984545
SNP Position Genomic:     16905
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28825):
CACATTTGAGGGCCCAAAAGCTCTCTGGGAGCAGGAAGCAGGGTGACAGCAGCTCCCCTAAGCACAGCCCAGAAAGGCGCTTCCTGCCTGCAGCCACCCC
R
CCCATCCTTTCCAAACAAGCAGCCTCAGGTGGGCAGGCTGGGGTGGGTGGGCTCTGTCTCCATGTCTTATCCTCTTTCTGTTCAGCATCCCCTCTGACAA
Celera SNP ID:            hCV26475796
SNP Position Genomic:     60624
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28826):
TCAGCTAGCCCATGGACCTGGGGCTGTGCCAGGCGCCAGCCCTCCCAGGAGAGAGAAGTTCCTCCTGCCTCCAGAACCCATGTTCAAGGTGAGGTGAGGC
R
AGGACCCTGCAGAAGTCTGCTGGAGCGTCCCCTCATCACGGTTCCCTTTCTGTCTGTGACATGCTGACTCTCCACATTGTTGATGGCCTGGTGGAGAGGC
Celera SNP ID:            hCV2984546
SNP Position Genomic:     17173
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28827):
CACCTGCACACCCACCTCTCACCCACCTGCACACTCACCTCTCACCCACCTGCACACTCAACTGCTCACCCACCTGCACACTCACCTCTCACCCACCTGC
K
CACTCACCTGCACACCCACCTGCACACTCACCTGCCCACCCACCTGCACACTCACGTACTCACCTGCACACCCACCTGCACACTGCCTTCTACACCCACT
Celera SNP ID:            hCV26475797
SNP Position Genomic:     34510
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,6)   total(G,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28828):
CCCATGGACCTGGGGCTGTGCCAGGCGCCAGCCCTCCCAGGAGAGAGAAGTTCCTCCTGCCTCCAGAACCCATGTTCAAGGTGAGGTGAGGCGAGGACCC
Y
GCAGAAGTCTGCTGGAGCGTCCCCTCATCACGGTTCCCTTTCTGTCTGTGACATGCTGACTCTCCACATTGTTGATGGCCTGGTGGAGAGGCTGACTGAA
Celera SNP ID:            hCV2984547
SNP Position Genomic:     17181
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28829):
AGTCCCATTTACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCACCATTGCATTCCAGCCTGGGC
R
ACAAAGCAAGACTCTGTCTCAAAAACAAACAAACAAAAAAAAACCACACAGGGAATTAGTGGCCCCCGTGTGAGATTTGAACCCGGAGTTTGTGCTTGTG
Celera SNP ID:            hCV26475798
SNP Position Genomic:     32688
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28830):
GGAGAGGCTGACTGAAGTCACGTTTTATCTGCCCTTTTCTCAGAGCCTGTGTCTGGCTTTGGGCCAAACCACTAATAATAAAGCAACTTGAAGTACTCCT
Y
ACATTTGTGGGATGTGCAGCCCAGCGGCCCTGCCCTCCTGCCCCGAGCGAGGCCCAGCGGCATCCTCCTTGAGGGTTTCACCCTGTCGCCCCCTGTTAGC
Celera SNP ID:            hCV2984548
SNP Position Genomic:     17366
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28831):
CTAGGGGTCTTAAAACAACAGAAATTTGTTCTCTCACATTTTTGGAGGCCAGAAGTCCAAAGTCAAGGTGTCAGCGGGGCCAGTTCCTTTTGGAGGCTCT
S
GGGGGGGAATCCTGTATTCGGCTGCTCTCGCATTGCTGTAAAGAAATACCTAAGATTGGGTAATTTATAAATAAAAGAGGTTTAATTGGCTCACAGTTTT
Celera SNP ID:            hCV26475799
SNP Position Genomic:     26874
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,7)   total(G,7|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28832):
CTGCCCCGAGCGAGGCCCAGCGGCATCCTCCTTGAGGGTTTCACCCTGTCGCCCCCTGTTAGCTCCTCTGCAGCCCCCTCGGGGTTGGCACTGGGTCCAG
Y
GGCCACGTCTTTCCTGAGTGGGGTCCTCAGGTCGTCATGCAGGCTTGCCTGTGGTAGTGGGGGTGCTGTCTTCTAGGTGTGCAAGGGCTTGCCTCCCACC
Celera SNP ID:            hCV2984549
SNP Position Genomic:     17504
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28833):
GAGGGTCTGTGCTACCTAAGGGGGCCCAGAGGGAGGGTCTTTGCATCTGAACGCTAGTCGTGCATCCACCCGTGCGATCTCCGACAAGGCAGCAGACCCA
S
GTGCCACACCTTTCTGTCTGTTAATGAGGTGTCCCAGTCATCCCATTGTATGGGCTCTTGAGGATCAAACAAGACGCGTGTGTGGTGACAATAATAGTAG
Celera SNP ID:            hCV29133027
SNP Position Genomic:     420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:28834):
CTCCTTCCCGTGAGGGTGGGGTGGTCTGCTGAAGAGGGAGTGTGCCTGGCAGGTGGGGTCACTCGGGCACAGGCAGGGGTGGCAGGGCTGGCCGGACAGT
R
GGTGGGAGTGGGGGAAGCTCCAGGGCTGACTTTGTGCTGGCTGTGAGTTGGAGAAGCCCCTCGTGGGATCTGGGAGGCAGGGGTGGGTTGCCTTCCCCCG
Celera SNP ID:            hCV15794055
SNP Position Genomic:     15073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28835):
GTGCTGCCTTTGTCTTCCTCATCCTTTGTCTTCATTCCTCCTTCCCGTGAGGGTGGGGTGGTCTGCTGAAGAGGGAGTGTGCCTGGCAGGTGGGGTCACT
Y
GGGCACAGGCAGGGGTGGCAGGGCTGGCCGGACAGTGGGTGGGAGTGGGGGAAGCTCCAGGGCTGACTTTGTGCTGGCTGTGAGTTGGAGAAGCCCCTCG
Celera SNP ID:            hCV15794056
SNP Position Genomic:     15036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28836):
GGACCCCCCGCCTCCCCCTGTGGAAGGGCCAGCACCTTCCTTAGCTGGAGCTCTTCTCTGTGTGCAGAACAAGCCCAGCAGGTGATTTCAGCTCCTGCTT
Y
CCCTCCTCGGGGAAATCCTAGGGAATCTCATTCTGCAAAGGCAGCGACCTGTCTCATAGCAGGATTTTTAATTTGGATTTAAGTGCAATAATGGTTACTC
Celera SNP ID:            hCV27970122
SNP Position Genomic:     61350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28837):
TCTCCGGCTGGCCCCTCACTGTGCTGCCTTTGTCTTCCTCATCCTTTGTCTTCATTCCTCCTTCCCGTGAGGGTGGGGTGGTCTGCTGAAGAGGGAGTGT
S
CCTGGCAGGTGGGGTCACTCGGGCACAGGCAGGGGTGGCAGGGCTGGCCGGACAGTGGGTGGGAGTGGGGGAAGCTCCAGGGCTGACTTTGTGCTGGCTG
Celera SNP ID:            hCV15794057
SNP Position Genomic:     15016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28838):
ACATTTCGGCGCTGCGTTACGACAGCTCATTGTGCCTCTGGGCTCGGGGCTGGAGCAGACGGGCGCAGCAGCCCTGCGGCTGAAAGCCACCGTCCCCTGC
M
TTGGTGGAGGCTGCTGGCATGCCCTCGTGTATCATCCTGCCTCTTCTCTGGGGTCTCCCCACCCTCCTCCCTGGCCTGGCCTTCTGGAAACCCATTTGTG
Celera SNP ID:            hCV27970123
SNP Position Genomic:     20187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28839):
GCGGCATCCTCCTTGAGGGTTTCACCCTGTCGCCCCCTGTTAGCTCCTCTGCAGCCCCCTCGGGGTTGGCACTGGGTCCAGCGGCCACGTCTTTCCTGAG
Y
GGGGTCCTCAGGTCGTCATGCAGGCTTGCCTGTGGTAGTGGGGGTGCTGTCTTCTAGGTGTGCAAGGGCTTGCCTCCCACCCCCCAAGGAAGCTGGGGAG
Celera SNP ID:            hCV27948392
SNP Position Genomic:     17523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28840):
GACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAATTGCTGGGATTGCAGGCATGTGCCACCGTGCCCAGCCTAGAATTAATTCTTTAGGATAGATTCCA
Y
TGGAATTACTGGATGGTCTAAAATATTTTTTAAGAGTGTTATGTTGTTATTTTGAAATTTAAAAGAAAAACCCAATGAAGCCTGGTGGTCTGCAGTGTAT
Celera SNP ID:            hCV15793902
SNP Position Genomic:     46929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28841):
CTTTGGGAGGCCAAGACAGGAGGATTGCTTGAGTCCAGGAGTTCAAGACCAGCCTGGGCAACATGATGAAACCCCATCTCTACCAAAAAAAAAAAAAAAA
A
GCTGGGCATGGTGGTGTGCATCTGTAGTTCCAACTACGCTGGAAGCTGGGGTGGGAGGATTGCTTGAGCCTGGGAGGTCAAGGCTGCAGTGAGCTGAGAT
Celera SNP ID:            hCV11296896
SNP Position Genomic:     66818
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28842):
CAAGGTGGACAGTGAGGCCGCTGCTCCTCCAGCTGCCTCTGTCTCATCACAGGCCAGAAGTGGAAAGGGTTTCAAATCCAAGCCCCCGGGTTCCTGTGTG
Y
GTTCTACGCAGCAAGGCTTCAAAGTTTCAAACTGGTTTGGAACTCAACCAGGTCCTCCAAAGGAAACCAAGGCAGGCACAGGATGGGGGCAGGCTGGCTT
Celera SNP ID:            hCV25988912
SNP Position Genomic:     74292
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,2)   caucasian(C,37|T,1)   total(C,43|T,3)
SNP Type:                 UTR 3


Context             (SEQ ID NO:28843):
CTGCCTTCTGGTTTTCTGGGTGTACTGGATGTTATGCTAGCATGCTCACCTCAGGAAGCCAGGGCACGGCAGGCCGCCACCTTGAGAGTGGAAGCCATCT
R
GGCCCCTTCCCTTCAGTAGAGGGTGCAGGACAGTGAAATGTCCAAGGCCCTGGTCACCCTGAGAGGCCCCTGCTGCCTGCCTCCTGCAGGCCCCCTCGTT
Celera SNP ID:            hCV2984551
SNP Position Genomic:     19211
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28844):
CGGCAGGCCGCCACCTTGAGAGTGGAAGCCATCTAGGCCCCTTCCCTTCAGTAGAGGGTGCAGGACAGTGAAATGTCCAAGGCCCTGGTCACCCTGAGAG
S
CCCCTGCTGCCTGCCTCCTGCAGGCCCCCTCGTTGGGAGGGACCACGTGATGGGGTGGTTCATGCCAAATGCTGCCCAGGTGCCATGGTGGCCAGTGGAC
Celera SNP ID:            hCV2984552
SNP Position Genomic:     19277
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28845):
GGTTCATGCCAAATGCTGCCCAGGTGCCATGGTGGCCAGTGGACGTGGGGCAGAGTTTGCTTACAGGCCTTTTCAGGGTAGCAGGTGCCTGGTAGGAGGT
R
GGCGCCTGCCCAGACACTGATTCCATGAGGCTGTCCTGATGTAAATGGGTGCAGAGTTCATGGGGCCAGGCAGGGAGAACAGGCATTTGAGACCTGGGGG
Celera SNP ID:            hCV2984553
SNP Position Genomic:     19434
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28846):
ATGAACCCAACAGCCAGACAATGAGTTATTAGGCAGGTGGGGTGGGGGCCGGTGTCCTCCCGGGCTTCTGTATCCACCTGCACCAGGGAGAGAGGAGGCA
R
CTCTTCCCGGCTGCCCATGCAGCCTGCCCCCGCTCCCAGCCTCCCTCCTGGCTGCATGAATCACAGAGACACACTCTGCCCCTGGGTTCATGCACCTGGA
Celera SNP ID:            hCV2984554
SNP Position Genomic:     20447
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28847):
CATGAATCACAGAGACACACTCTGCCCCTGGGTTCATGCACCTGGAGCATGTGACCAACCTAATTTTTAGGCTTCCAGTTATTCTAGAACTTGAATTTGT
M
CAGGCCAGTGCTACTAAGGTTTTAGATGATCTCTTGTAGAGGGTTCTAGGTTGTCTCCCTTTTATGGGAGGGATTGAAGGCTTTCCTCCTCCTCCTTCCC
Celera SNP ID:            hCV2984555
SNP Position Genomic:     20602
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28848):
GGCGTGATGCTGGCGGTCTGGGGGCTGCTCTGAGAATAGAGAAGCAGTGCTGGGGCCGGGCCTGGCGCCTGGCATACAGGTGCCCTGGAGTCTCTGTGTG
Y
GGTACTCATGGCTCTCCTGCCTCCCCTGAGGTTCCACTGATGGTGCTGTGAGCAGTCATCCCTCCCAGGGATCTCGTTGAGTGTGTGGTTTGTATCATTT
Celera SNP ID:            hCV2984558
SNP Position Genomic:     25622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28849):
GGCCTGGCGCCTGGCATACAGGTGCCCTGGAGTCTCTGTGTGTGGTACTCATGGCTCTCCTGCCTCCCCTGAGGTTCCACTGATGGTGCTGTGAGCAGTC
R
TCCCTCCCAGGGATCTCGTTGAGTGTGTGGTTTGTATCATTTTACAGATGGGAAAACTGAGGCCCAGAAGATTCATGGGCTGTCCTAGGCTCTCCCGGCC
Celera SNP ID:            hCV2984559
SNP Position Genomic:     25680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28850):
CTACCCAGCCCTGGCTGCAGCGTTGGTGCCCGCAGGCATGAGGCAGGCATGAGGGCTGCGTGTGTGGGTGGGCAGACCCCCTTCCTTGCTAAGAGGGCAG
S
CTTTGGTGGAGGCCACTCTGGGCTGAAAGGTCCTGGGTCCCTTTCCCTGGTGTCCAGGGAGCATCTATCCAGGGGGCAGCTGGTGTGAGTAGGTTCCCAC
Celera SNP ID:            hCV26475800
SNP Position Genomic:     25914
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28851):
GACAGAGCCTGCGCAGCCCCTTCCCTGTGAGGCGGGCGTGATGCTGGCGGTCTGGGGGCTGCTCTGAGAATAGAGAAGCAGTGCTGGGGCCGGGCCTGGC
R
CCTGGCATACAGGTGCCCTGGAGTCTCTGTGTGTGGTACTCATGGCTCTCCTGCCTCCCCTGAGGTTCCACTGATGGTGCTGTGAGCAGTCATCCCTCCC
Celera SNP ID:            hCV26475801
SNP Position Genomic:     25588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28852):
GAGGAGGCGTGCATTGAGTACACCGGGCCCAGCGAGCACAGCCCACTCTGCACCCTCCTCCAGTGGCATTTGAATGCCCAGGTGGACAGAGCCTGCGCAG
Y
CCCTTCCCTGTGAGGCGGGCGTGATGCTGGCGGTCTGGGGGCTGCTCTGAGAATAGAGAAGCAGTGCTGGGGCCGGGCCTGGCGCCTGGCATACAGGTGC
Celera SNP ID:            hCV26475802
SNP Position Genomic:     25504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28853):
TGTGTTCCTGGACACTGGGTCTCCCTGCCTGACCTTGGGTCTGGTGGCATTTTTCACATCTGACCTTTCAGAGTTTTCCTCCTGGCCTTGGGTCCCAGGA
R
GCCAGGGCCGCTACGGCCATGTGGCTTGTCGGGAGCCCTGGAGGCGTGTGGCAGCAGGCACCCCCCCATGCACGTAGTGGGTGGGGCTTCAGCACTCAGT
Celera SNP ID:            hCV26475803
SNP Position Genomic:     24904
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28854):
GGCTGTCCACTCTCTGTGACATGGGTTTGTAGGAATGGATGCTCTGTGCCTAGAGCGACCAGGTGCCAGCTGGTGTCCCTAAGGCCTGTGTTCCTGGACA
Y
TGGGTCTCCCTGCCTGACCTTGGGTCTGGTGGCATTTTTCACATCTGACCTTTCAGAGTTTTCCTCCTGGCCTTGGGTCCCAGGAAGCCAGGGCCGCTAC
Celera SNP ID:            hCV26475804
SNP Position Genomic:     24818
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28855):
GTGAGGCCCAGGTTAGAGTCCTGCATGTTGGTTCTGGAAGGGACTTCTTGTCTCCTAGCCCCTCCCCCATGATCCCTGTCTCCGGCTGGCCCCTCACTGT
R
CTGCCTTTGTCTTCCTCATCCTTTGTCTTCATTCCTCCTTCCCGTGAGGGTGGGGTGGTCTGCTGAAGAGGGAGTGTGCCTGGCAGGTGGGGTCACTCGG
Celera SNP ID:            hCV15794067
SNP Position Genomic:     14938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28856):
TCCCACCTGGCATCCCTCCTCTGCCCCCTTCCCACATTTACCCAGCTTCATGTGTGCTGGGCACAGTGCCTGGAGCTTGTGGGTTCTCCAGGCTGGGGCC
Y
TGGGTGGCTGTGGTGTGCGCCTGGGCCCCTGGGGGCTGTTTCCTCATCTGCAGACTGAGAAATGGAGGGTCTGCCCGCTCGCAGCACAGAGCAGGTCCTG
Celera SNP ID:            hCV26475805
SNP Position Genomic:     24391
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28857):
TGTGAGGCCCAGGTTAGAGTCCTGCATGTTGGTTCTGGAAGGGACTTCTTGTCTCCTAGCCCCTCCCCCATGATCCCTGTCTCCGGCTGGCCCCTCACTG
Y
GCTGCCTTTGTCTTCCTCATCCTTTGTCTTCATTCCTCCTTCCCGTGAGGGTGGGGTGGTCTGCTGAAGAGGGAGTGTGCCTGGCAGGTGGGGTCACTCG
Celera SNP ID:            hCV15794068
SNP Position Genomic:     14937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28858):
TTCCCTGTCCTGGATTAACTTTTGTTTCACCCAGAGGCCAGGCCAACCTAGGCAGGTTTCGGATATCGCCTCCTGTGTGGGCCAGCCCTGGTTCAAACCC
S
AGCTCTGGCCCTATGTGGCTGTGGCCAACTGCCCTTCCTCAGAAGCTTGGTTTTTGTGCCTGTACAGTGAGGGTGGCCATGTCCATCTCATGCACCATGT
Celera SNP ID:            hCV26475806
SNP Position Genomic:     23557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28859):
GCTCTGGCAGGCAGGCCTTGGCGAGATGGCCTGGGGAGGGAGTTTGTGAGGCCCAGGTTAGAGTCCTGCATGTTGGTTCTGGAAGGGACTTCTTGTCTCC
Y
AGCCCCTCCCCCATGATCCCTGTCTCCGGCTGGCCCCTCACTGTGCTGCCTTTGTCTTCCTCATCCTTTGTCTTCATTCCTCCTTCCCGTGAGGGTGGGG
Celera SNP ID:            hCV15794069
SNP Position Genomic:     14893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28860):
ACGCCCAAAAGGCACTTGGTCATCACAGCAGCTGGAGCTGGGGGGTTATCGTAACTTGGTAGCCATTATTATTATTATTATTATTATTACTACTACTACT
H
TTGCTGCTGTGGCTGTGCCTGTTCCAGTAGCTCTGGCAGGCAGGCCTTGGCGAGATGGCCTGGGGAGGGAGTTTGTGAGGCCCAGGTTAGAGTCCTGCAT
Celera SNP ID:            hCV26475807
SNP Position Genomic:     14763
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2|C,2|A,2)   total(A,2|C,2|T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28861):
AGGGGAGATCCCACAGCTGCAGCACGGGGACAGGCCGCTTCCCCACATCCGCTCATGCCACTGTAAGCAGCCCTAGCTCTTGGGTCCAGGACCTCACCAG
S
TCCTCGTCAGACTCCTGTGCTCTTCCAGGGGCTGCTCAGCCCCACCTGAAGAGCCCAGAGAGGCTGTCTTCCTACCCAGCAGGTCTCATGCAGGCCCAGG
Celera SNP ID:            hCV12062254
SNP Position Genomic:     72344
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:28862):
TCTGTGTGTGGTACTCATGGCTCTCCTGCCTCCCCTGAGGTTCCACTGATGGTGCTGTGAGCAGTCATCCCTCCCAGGGATCTCGTTGAGTGTGTGGTTT
K
TATCATTTTACAGATGGGAAAACTGAGGCCCAGAAGATTCATGGGCTGTCCTAGGCTCTCCCGGCCCAGACCCTCCCACCTCCTGGCTGCCCCTTCACCC
Celera SNP ID:            hCV2984560
SNP Position Genomic:     25714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28863):
GAGGCAGAAGCCCTGCACCTGGCTTCCCAGCCACATGGACCCTTCCAGGCAGGAAGCTGGGGGTGGGACTGCCTGCCCCTGGGTAGACATGCAGCTTCTG
R
CAGAGGCTGGGTCCCCTCCCCAAGGCCTGATGTGGGAGCTGGGCACCTGGCAGCCAATTCATCCCGCAGGGCTGGGAGGTGGCAGCTGGGAGGCAGGCCC
Celera SNP ID:            hCV12062259
SNP Position Genomic:     68338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28864):
AGCCTTTGGTGGAGGCCACTCTGGGCTGAAAGGTCCTGGGTCCCTTTCCCTGGTGTCCAGGGAGCATCTATCCAGGGGGCAGCTGGTGTGAGTAGGTTCC
Y
ACAAGGAGGGAAAGAACACCTGGCTGTGTGCAGGGGGTGAGTGGGGCCTAGGTGCAGGTTTGATTTTTTTTTTTTTTAATTTCAAAGGGGATGTGTTCCC
Celera SNP ID:            hCV2984561
SNP Position Genomic:     26012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28865):
GCAGGTTTGATTTTTTTTTTTTTTAATTTCAAAGGGGATGTGTTCCCTAGAGAAGCTTAGGAAGATGGGGAAATGTAGAAGAAAAACCCAGACCCATGCA
R
CCCAGTCCCGTGGCCTCTGCTGGGAAGATTTCTTTCCCCTGAGATTGATCTGTGTGTTCTCTCCCGGGCAGGGGTGTGCTGGCTGCGGGCCCGCCTGCTG
Celera SNP ID:            hCV2984562
SNP Position Genomic:     26166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28866):
CCATGCAGCCCAGTCCCGTGGCCTCTGCTGGGAAGATTTCTTTCCCCTGAGATTGATCTGTGTGTTCTCTCCCGGGCAGGGGTGTGCTGGCTGCGGGCCC
R
CCTGCTGTGGGTTTATGTGGAATCTGGCTTTTTCAGTCCACGCTGCATCAGATGCATTTTTCCTCTTAGTCTGCAGCCACCCTGTCAGTGGCTACATCAC
Celera SNP ID:            hCV2984563
SNP Position Genomic:     26259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28867):
TTGTGATCGGTTTGGAGGCTGTGGCAGGTGGCTCCGAGTTACCTCCATGGAAGTCACTTTGGGAAATGAGGCAGAATGTTGCACAGGATGGCAAATGTGG
K
GGGTGAGAAGTGTGTCTGGAATTTGCTCAGCCTTCTCTCGTCAGTGATGTCATGTTTACCCTTAAAAATCTATAAGAGAAGGTGTAATAGCTTCCTACGG
Celera SNP ID:            hCV2984564
SNP Position Genomic:     26601
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,6)   total(G,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28868):
AGAAGGGGATTTAATCAGCCAAGCTGCTGCGCTGAACGGTGGTATCAGCTGTCTTGCACAGGGCCCATGGAGCTGCTGGGCAGGAGCCCCGATGGAGGCC
Y
GCGGCTTGGAGTGGCCAGGTCTCCTGCTAATGACCTGCCACGAGCCTGCCTGGCCCCAGACCTTGCAGAAATTGACCAGGGCTGGGAAGCCATGCCGTAG
Celera SNP ID:            hCV8900150
SNP Position Genomic:     44027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28869):
TTAAAAATCTATAAGAGAAGGTGTAATAGCTTCCTACGGCACTACCACGAATGGCCACATTATGATGGTCATTTGTGATGGCAGCCACAGCAAACGATCA
Y
GTGGGAAACCCTAGGGGTCTTAAAACAACAGAAATTTGTTCTCTCACATTTTTGGAGGCCAGAAGTCCAAAGTCAAGGTGTCAGCGGGGCCAGTTCCTTT
Celera SNP ID:            hCV2984566
SNP Position Genomic:     26763
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,8)   total(C,6|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28870):
CCCCTGCCCGCCGACCCCCGCTGGTCCTGTGGGTGGCTGGCTTTGTGACCTTGGGCTACTCTGAGCATTCCTTTTTTCCTTTGTAAGACGGCGTTCTGCA
Y
GGCAGGGTCCTGTGGAGATTGGAGGAGCAGAGTTAGCTCTTCTGGCACTGGGGTAGGTAAGCAGCTTCCTTTGCCATACTGGGAACCTTCATTGTTCCAG
Celera SNP ID:            hCV8900153
SNP Position Genomic:     42817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28871):
CATCTTAGCCCCAGGGGGGTAAGTGGGTGCTGGTGATGGGATGGTGTGGCGCTCCTGCCGTGGGTGTTGCCAGGAGGCTCTTTGGGAAGGAGTGTCGCCC
R
GTCAGGTGGTGCGCTCCCGGTCACTAGGGGTGTACACGTGAAGTTGGGTGAACACCTGCTGCTCATGGTACCCAGTGATTCTTGCCCGAGTGGGCAGCTG
Celera SNP ID:            hCV29132969
SNP Position Genomic:     72662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:28872):
AGGACTGCCTGGGAAGAGGAGGCCGGCTGCTACCCGGAGCCTCTAGGCCACCACTCCCTGGGTCTGTGGCTGCCACTTTGCCTCCTTGACCCTCAGTTTC
Y
TCATCTGTAAACTGGGGGGGCCTGGTCACCTGCCTCATGGTGAGGAATGTTGAGGACTAATGTGTGTAAGCCACACGATTGCTGTTCGGTAGATGAATGT
Celera SNP ID:            hCV11296902
SNP Position Genomic:     43562
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28873):
AATATACTGCCCCTGCCCGCCGACCCCCGCTGGTCCTGTGGGTGGCTGGCTTTGTGACCTTGGGCTACTCTGAGCATTCCTTTTTTCCTTTGTAAGACGG
S
GTTCTGCACGGCAGGGTCCTGTGGAGATTGGAGGAGCAGAGTTAGCTCTTCTGGCACTGGGGTAGGTAAGCAGCTTCCTTTGCCATACTGGGAACCTTCA
Celera SNP ID:            hCV8900154
SNP Position Genomic:     42808
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28874):
TGGAGCTGAGGGTGTGGGCTGAGGGCATGGGGCAGGGGACTGAAGCTGGGGTGGGTGGCTCCGGAGAGTTCAGGCAGGAAAGCAGTGTAGACAGATTCAC
R
GAGCAAGTGGAGCCGACCACACTGGGTGGCGGGGAGAGGGTCTGCAGCAGCTCTGAGAGCAAGACACAGTCCTGTCCCTCCCGCAACCTGCACTCTCCCA
Celera SNP ID:            hCV8900155
SNP Position Genomic:     32010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28875):
TTAAAACAACAGAAATTTGTTCTCTCACATTTTTGGAGGCCAGAAGTCCAAAGTCAAGGTGTCAGCGGGGCCAGTTCCTTTTGGAGGCTCTGGGGGGGGA
M
TCCTGTATTCGGCTGCTCTCGCATTGCTGTAAAGAAATACCTAAGATTGGGTAATTTATAAATAAAAGAGGTTTAATTGGCTCACAGTTTTGCAGGCTGT
Celera SNP ID:            hCV2984569
SNP Position Genomic:     26883
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,7)   total(A,7|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28876):
CCCTTCCCTGCCCTGTGTGTTTGGCATCTTGGGTTGGCCGCCATACCGTATCACCTCTGTCATAGGCAGTGTAGTCTTTGGGTCTCTGGAGGACTTTAAA
Y
GCTTCCTTAGTTGAACCTCAGAGTCAGTTTGGCCTCTCCCTTGCCCAGGGAGGAAACCCCCTCTTTCCAGCCTTCCAGCCAATGAACAGATGGTCAGTCT
Celera SNP ID:            hCV25936990
SNP Position Genomic:     55786
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:28877):
GGAAACGTACAGTATACGATCTTTGGTGTCTCACTTCTTTCCTGTAATATAAGAAAAGCCGAAGTTTTTGTTATTTTTATTATTTTATGATTTTTAGAGA
Y
GGGAGTTTGCTATGTTGCCCAGGCTGAGGTGCAGTGGCTATTCACAGGCATGATAGCACACTACGGCTTTGAACTCCTAGCTTCAAGTGATCCTCCTATC
Celera SNP ID:            hCV11296906
SNP Position Genomic:     38900
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28878):
GCAGCAGGCACCCCCCCATGCACGTAGTGGGTGGGGCTTCAGCACTCAGTGGCTTGTGGATTCTGCTGAAGGGAGCAGCAGAGCCCTCTCTGCAAATGCA
K
CCCTGCCCTGTGGAGACTGAGGGAGGCAGGGGAACTGTCCTGTGGCCCGGCCCAGGCTTCTAGTGGACACAGGCAGCTTTACCCTGGCAAGGCTCCCTGT
Celera SNP ID:            hCV8900159
SNP Position Genomic:     25055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28879):
AGCTTGGCAGGTGGAGCGGAGGCACCCTGTGTGTCATCCTCCTCCCTCCCCGACTTTTCCCAGGGAGAGCTGAGGCCCAGAATCGGAGCTCAGCATTCTC
R
TGCAGTTTTTAAAAATTTCTCCTGCCTGGCAAGCCTCTAACAATGTGAGGATGCTTTGCAGATTTTCAGACTTTGTAGAAATGGCATCGCACTGTGTGTC
Celera SNP ID:            hCV11296907
SNP Position Genomic:     37101
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28880):
AGTGGTACAACATGAGGAGTTTCCAGCATCTTTTCTAGAACAGCCGCCCAGACTTTCTTCCTTTAACTTACTTCTTATTAAGAAATAGATAAAAAGCAAT
R
AGCTTGGAGAATAATGAGACAGCGATTACTCCACAGCCCGCCTTTATCACACTGTCAGCAATAAGCATTTTAGCTTCAGATCTTTGCCTTTTAAGAAATC
Celera SNP ID:            hCV11296908
SNP Position Genomic:     36899
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,13)   total(G,2|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28881):
ACCCTCTACTCCCCGGCTGCCACCCACACTGGACAGAGACCACCACTACCTGGGTCTTGACGCAGGTGGCACCACTTCTTGCCCAAATGCCGTGGCCTGG
S
CCCAGGCCCCCCAAGCACTGGGTCCCCGGCATGTGGACAAGGCCACTCACCACATCTGTGGCTGGCTGGAGGCTGCCCTGGGCCCTTCCTGTGACCCTCA
Celera SNP ID:            hCV25939104
SNP Position Genomic:     71329
SNP Source:               Applera
Population(Allele,Count): african american(C,15|G,15)   caucasian(C,7|G,33)   total(C,22|G,48)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:28882):
TTGGTCATCACAGCAGCTGGAGCTGGGGGGTTATCGTAACTTGGTAGCCATTATTATTATTATTATTATTATTACTACTACTACTATTGCTGCTGTGGCT
R
TGCCTGTTCCAGTAGCTCTGGCAGGCAGGCCTTGGCGAGATGGCCTGGGGAGGGAGTTTGTGAGGCCCAGGTTAGAGTCCTGCATGTTGGTTCTGGAAGG
Celera SNP ID:            hCV15794079
SNP Position Genomic:     14778
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28883):
CACTGCAGCCCGAGGCAGAAGCCCTGCACCTGGCTTCCCAGCCACATGGACCCTTCCAGGCAGGAAGCTGGGGGTGGGACTGCCTGCCCCTGGGTAGACA
Y
GCAGCTTCTGACAGAGGCTGGGTCCCCTCCCCAAGGCCTGATGTGGGAGCTGGGCACCTGGCAGCCAATTCATCCCGCAGGGCTGGGAGGTGGCAGCTGG
Celera SNP ID:            hCV12062260
SNP Position Genomic:     68327
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28884):
TTGCCAGGCCGTTGGGAGGCGTCATCAGGGCCCCATTTACAGAGAGGGCGGCAGACTCAGCTTCCATGGTTGGCCCAAGGATTGCCAGAGGTGGGAGCCC
S
GAAGATGTCCTGGAAACCCCGCTTCCAGGGCCCACAGGGCACCGCTGGGTGTTTTCTGTCTGGCTCTGGGCACTTGTAAGTTCCTCCCAAGCCTCTCCCA
Celera SNP ID:            hCV12062261
SNP Position Genomic:     68083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28885):
TCTCTTACTGTTGCAGAGTCCTGGCCAAGAAAATCAGGTGGTTTGGAATTTTCGCCCTTAAGTGGAGCTAGGGGTACATCTCTCAGGAGAGGTGACCCAG
R
GAGGCATGGGTGGCTCTGATGGGGTGGGGGGAGGGGTGTCACTCATGGTTGGGGGAGGGTGAGTGCTGGGCCTAGGGGTGGGGGCTGTAGCCTCTTCCTC
Celera SNP ID:            hCV12062266
SNP Position Genomic:     62039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28886):
GCCGCCCTGTCCCTCTCCCTAGCTGGCGGCTCTATTCTGAGCAGTTCTTGCTGCCCGTTTGCTCTCAGGGGAAAGGCTCACGCCCCCCATCTTAGCCCCA
R
GGGGGTAAGTGGGTGCTGGTGATGGGATGGTGTGGCGCTCCTGCCGTGGGTGTTGCCAGGAGGCTCTTTGGGAAGGAGTGTCGCCCGGTCAGGTGGTGCG
Celera SNP ID:            hCV29132970
SNP Position Genomic:     72575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:28887):
ATGTGGGAGCTGGGCACCTGGCAGCCAATTCATCCCGCAGGGCTGGGAGGTGGCAGCTGGGAGGCAGGCCCCAGGGAGTGCTCAGGGCGAAGCCGGCCTC
R
CCCACCGGTGGCTCCAGGGTGGGCAGGGGAAGGGAGTTTGGAGTCAGGTGCCAGGGTTAAGTCCAGACCTTCCTGGTCTTGCTGTGATCTGGGTCTCTTG
Celera SNP ID:            hCV29132971
SNP Position Genomic:     68468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28888):
AGTAGACCTGGTTGATATTTTTTTCCCCTAAGATTAAGCTGCACACGCACTTTCTTCTGTGATATTTCATCCTTTCAGCTATTTTATGTTATGTTTGGAA
R
GGTGCGGACTAAAATAGTGATTGTTTCTTTTTTCTTTATTTTTTTGAGGCAGAGTCTTATTCTGTGGCCCAGGTTGGAGTGCAGTGGCACGACCTTGGAT
Celera SNP ID:            hCV2984571
SNP Position Genomic:     28132
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28889):
AGGCAGGAAGCTGGGGGTGGGACTGCCTGCCCCTGGGTAGACATGCAGCTTCTGACAGAGGCTGGGTCCCCTCCCCAAGGCCTGATGTGGGAGCTGGGCA
Y
CTGGCAGCCAATTCATCCCGCAGGGCTGGGAGGTGGCAGCTGGGAGGCAGGCCCCAGGGAGTGCTCAGGGCGAAGCCGGCCTCGCCCACCGGTGGCTCCA
Celera SNP ID:            hCV29132972
SNP Position Genomic:     68384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28890):
GTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGCCTCGAACTCCTGGCCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACATGTG
K
GAGCCATGTGGGAGCCACCTGTACCCTGGGCATTCCTTTCTCTGAGCCATTGTCTCCTTCTAGCCTGGCTTCACCTCTGCTGGGCCCAGGAGTGACTTGG
Celera SNP ID:            hCV2984572
SNP Position Genomic:     28441
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,6)   total(G,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28891):
AGCATCGGCTGTTCTCGTTGCGGCACCTGCAGAGCCGTGTATGGAGGTGCTTCTTGGGCAGCACGTGCGCTTGTAGCAGCTGTGCCCCTTCCTGCTCTCT
Y
CCCTGCACCCCTTGCCCACAAGGCTGACCCCAGGCCCCCGGTGCAGAGCTTGCTGGGCCTCAGTGCTGGCTGCTGGCTCTGCGATTTCTCTTTTGCTGCC
Celera SNP ID:            hCV29132973
SNP Position Genomic:     64673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28892):
CACCCACCTCGGCCTCCCAAAGTGCTGGGATTACATGTGTGAGCCATGTGGGAGCCACCTGTACCCTGGGCATTCCTTTCTCTGAGCCATTGTCTCCTTC
Y
AGCCTGGCTTCACCTCTGCTGGGCCCAGGAGTGACTTGGTGAAGAGCCAGATGCAGCCTTTGCCTTGGGGCTGGCAGATGTTTAAAGATGGACACTAGAT
Celera SNP ID:            hCV2984573
SNP Position Genomic:     28502
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28893):
GGCAGCTCTGTGTGTAAGATCCCTTCTCCCTGGGTCCTGAGGGAGCCACCCGAGGAAGACTGGGCAGGTGGGTGTTTCTGGGGAGCGGCAGTGGACCCCC
Y
GCCTCCCCCTGTGGAAGGGCCAGCACCTTCCTTAGCTGGAGCTCTTCTCTGTGTGCAGAACAAGCCCAGCAGGTGATTTCAGCTCCTGCTTTCCCTCCTC
Celera SNP ID:            hCV29132974
SNP Position Genomic:     61258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28894):
CCATGTGGCTTGTCGGGAGCCCTGGAGGCGTGTGGCAGCAGGCACCCCCCCATGCACGTAGTGGGTGGGGCTTCAGCACTCAGTGGCTTGTGGATTCTGC
Y
GAAGGGAGCAGCAGAGCCCTCTCTGCAAATGCATCCCTGCCCTGTGGAGACTGAGGGAGGCAGGGGAACTGTCCTGTGGCCCGGCCCAGGCTTCTAGTGG
Celera SNP ID:            hCV8900160
SNP Position Genomic:     25021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28895):
GGCCCTGGATACAGGCTGGAGGTGTCCTGAACTCCGGTCCTCAGTGGAAAAGGAGGCCCTGCAACCTCCTGGGTCTCTTCCTCCCTAGTCTAGGACACTC
R
TGCTGCCCTCTGGAGGCTCTAGAAGTGAGTAATGCGGATTGGGCCTGGCCAGGGTGGAAGGGGCCACGCTGAGTGTTTGGCAGGGCTGGCCCCACCCTGT
Celera SNP ID:            hCV29132975
SNP Position Genomic:     61022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28896):
GCCCTATCTCCGCCGCAGGGGCTCAGCCCAGCCCTGGGCTTCTGTGCAGGGCTTTGCATCTGTGCCCTTGGGGGCTCGGCATGCAGTCATTGAACAGCCT
M
CCTTTACAGAGGCGCTGCTGAGGCTGAGGGATGCCATGTGTTCAAGAGCCATGCTGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCG
Celera SNP ID:            hCV2984575
SNP Position Genomic:     32377
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28897):
CAGGGTAGCCCAGTGCTGCTGCCTGTGGGCCTTTGGTCTGCGTCTCAGCCTTCCAGTGGGGCCTACAGAACGGCACGGCTGTGCACCTCTGGCACCTGCA
Y
GCCCAAAAGGCACTTGGTCATCACAGCAGCTGGAGCTGGGGGGTTATCGTAACTTGGTAGCCATTATTATTATTATTATTATTATTACTACTACTACTAT
Celera SNP ID:            hCV8900161
SNP Position Genomic:     14664
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28898):
TTGCAGTGAAGGCCCTGGATACAGGCTGGAGGTGTCCTGAACTCCGGTCCTCAGTGGAAAAGGAGGCCCTGCAACCTCCTGGGTCTCTTCCTCCCTAGTC
Y
AGGACACTCATGCTGCCCTCTGGAGGCTCTAGAAGTGAGTAATGCGGATTGGGCCTGGCCAGGGTGGAAGGGGCCACGCTGAGTGTTTGGCAGGGCTGGC
Celera SNP ID:            hCV29132976
SNP Position Genomic:     61012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28899):
GGCTCAGCCCAGCCCTGGGCTTCTGTGCAGGGCTTTGCATCTGTGCCCTTGGGGGCTCGGCATGCAGTCATTGAACAGCCTCCCTTTACAGAGGCGCTGC
Y
GAGGCTGAGGGATGCCATGTGTTCAAGAGCCATGCTGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGG
Celera SNP ID:            hCV2984576
SNP Position Genomic:     32396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28900):
CCTAGGGGTCACCCCAGGGTGGCCCCACATAGGCCCCCTGCAGCTTTGCAGGCAGGCATTCACTGCAGGACGGGGTTCCCCTCTGGGGAGAAGGCTGGGC
Y
GCACTGCAGAGGCCCAGAAAGGGCTGGGGAACAACTGGAGTTCACCCAGCGAGTCCTCGCTGGGCCCCAAGTCGGGCAGTGTTGCAGTGAAGGCCCTGGA
Celera SNP ID:            hCV29132977
SNP Position Genomic:     60830
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28901):
TGGGAGGATGGCACTATTAAGCCAGGCTTGTTGATGATCATTTCGGTCAACAATCACCCTGCTGTTAGTTTTATGTGAAACGCGGGAAGCCCAATTTGCT
R
TCCTCAAACTGAGTCTATCTCGCTTCTAACCGGGCAGGTCCACTCCGCTCTGCCTAATTTCGGGGACAGTGTCTCGCAGGAGACCCAGTTGCGTTCCTGT
Celera SNP ID:            hCV11296911
SNP Position Genomic:     36382
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,10)      total(G,4|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28902):
TTAGGGCAGCCGTTCGTTTTCCTCTTCTCTAGCTACTTTTTTTCCCTGGAGGCACTGGGAAGGGTGTCCTCGGCGTGTTTGATTTCTAATCCGGCTGTGG
R
AGTGTGAGATGGAGAGTGTGGGGCTCCGGTCATGGCAGCTCCGTTTTTGCATGCATCCGCGAGGTGGGACTTTAGGTTCCCATGATCCCATGTCTCCGGG
Celera SNP ID:            hCV1259064
SNP Position Genomic:     41112
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;(G,-|A,-)   Caucasian(A,37|G,39)   African-American(G,25|A,57)   Asians(A,29|G,55)   total(G,119|A,123)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28903):
GCTTCTGTGCAGGGCTTTGCATCTGTGCCCTTGGGGGCTCGGCATGCAGTCATTGAACAGCCTCCCTTTACAGAGGCGCTGCTGAGGCTGAGGGATGCCA
Y
GTGTTCAAGAGCCATGCTGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGTTCGAGACCAG
Celera SNP ID:            hCV2984577
SNP Position Genomic:     32414
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28904):
TTATCCTCTTTCTGTTCAGCATCCCCTCTGACAATGCTCCCTAGGGGTCACCCCAGGGTGGCCCCACATAGGCCCCCTGCAGCTTTGCAGGCAGGCATTC
R
CTGCAGGACGGGGTTCCCCTCTGGGGAGAAGGCTGGGCTGCACTGCAGAGGCCCAGAAAGGGCTGGGGAACAACTGGAGTTCACCCAGCGAGTCCTCGCT
Celera SNP ID:            hCV29132978
SNP Position Genomic:     60791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28905):
AAGCCCCATCCCCTGCCTCAGTGGGTTGTCTAGAAGAGTCCTGGGTGTGGGAACACACAGACACACAGACACACACACACACACACACACACACACCCTT
Y
AAATTTTAGCCCTGTTTTTATGAGTTCTGTGACTGGGTGGTTATGGAGCCCCTCGGAACCTCGGTCTCTTTGTTGGGGGAGTAGGTGAAAGTTGCTGTGC
Celera SNP ID:            hCV1259065
SNP Position Genomic:     41605
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28906):
TAAGCACAGCCCAGAAAGGCGCTTCCTGCCTGCAGCCACCCCACCCATCCTTTCCAAACAAGCAGCCTCAGGTGGGCAGGCTGGGGTGGGTGGGCTCTGT
Y
TCCATGTCTTATCCTCTTTCTGTTCAGCATCCCCTCTGACAATGCTCCCTAGGGGTCACCCCAGGGTGGCCCCACATAGGCCCCCTGCAGCTTTGCAGGC
Celera SNP ID:            hCV29132979
SNP Position Genomic:     60682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28907):
CCAGAACAAGGCCCTTGTGTTGTCATTTGGGGAAACTGAGGCCCAGTGTGTCATGGAGGGCGCTGCCAGGGCTGGGACTCCTGACCCAGTTTCTTCCCCC
R
CACTACACTGCCTCTTCTGAACAGAGATCGCAGCAGCCCTCACGGGCACACAGCTTGTGTTGTTTGCATTGCTCAGCACCAATTATCTCCTCTTGCAACA
Celera SNP ID:            hCV11296912
SNP Position Genomic:     36115
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28908):
TTGGACAGGTGGGGTGACTCCGAGCCCTAGAGCTCACCGGCAGAGTGGACACCCCTTCCATTGGCTTCTTCCCTTCCCTGCCTCCCTTCTCTACCCCTCT
M
CCTGGGTTTCCTGGGGTTGCCACCCACATAACCCACGTGAAGTTGATTCCTCCTCTCTCAGTCTGCACCCAACCTGAGATATAAGATCATAGGGAGGCGT
Celera SNP ID:            hCV1259066
SNP Position Genomic:     44565
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28909):
TACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCACCATTGCATTCCAGCCTGGGCAACAAAGCA
R
GACTCTGTCTCAAAAACAAACAAACAAAAAAAAACCACACAGGGAATTAGTGGCCCCCGTGTGAGATTTGAACCCGGAGTTTGTGCTTGTGAAGACTTTT
Celera SNP ID:            hCV2984579
SNP Position Genomic:     32697
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28910):
TTCTACACCCACTTGCTCACTTACCTGCTCACTCATTCACCTGCTCACCTGCACACCCACCTGCTCATTCACCTGCTCATCTGCATACTCACTTGCTCAC
K
CATTCACCTGCTCACCTGCACACCTACCTGCTCACTCATTCACCTGTTCACCTGCTTGCTTGTTCATGTGACCTTCCCCCCACTGCCTCCAATCCCGTGT
Celera SNP ID:            hCV11296913
SNP Position Genomic:     34698
SNP Source:               Applera
Population(Allele,Count): african american(G,16|T,20)   caucasian(G,32|T,6)   total(G,48|T,26)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28911):
ATAACCCACGTGAAGTTGATTCCTCCTCTCTCAGTCTGCACCCAACCTGAGATATAAGATCATAGGGAGGCGTGTGTGAGACAGGAGCATCAGGCACCGC
M
GAGTCAGATGCAAGGAGCGTGTGCCCAGAGCCCAGGATGCTCTGCCCCCTGTAGCCTCGGCAGCTCCTTGTCTGGGGTTCCCCAGCTTGGGGTGCGGGGT
Celera SNP ID:            hCV1259067
SNP Position Genomic:     44693
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28912):
GGTTTGGAGGAGTGGGGTGGTCACAGCAGCGGGTTTCCCCCGGGTTTTCTGTTGCAGCTCAGTTTCTGGAAGGGAGTGGATGGGGTGTCATCTCAGCCCA
Y
GTGTGTGATTTGGCCTGGTAGGTGATTTGGATTCCTGATGTCTACCTCTGCCCCCTGTAGGCAGCTGTGAACCACAGGCGGTCTGTGGGGGTTAGTCCGT
Celera SNP ID:            hCV8900166
SNP Position Genomic:     10143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28913):
ACGCTTCAGTTCTGTGTCCCTAGGAGGATGGGCTGTCCTGAGCCCGGGTTCCTCCGGAGATGCTGGCGTCGCGGTGGTCCACGTGGGCATCTCTGTTGGT
Y
AGCGTTTCCATGCCTTGGTAGCAGGCTCCAAGCCCTTCCCTGCCCTGTGTGTTTGGCATCTTGGGTTGGCCGCCATACCGTATCACCTCTGTCATAGGCA
Celera SNP ID:            hCV1259068
SNP Position Genomic:     55653
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,10)   caucasian(C,21|T,15)   total(C,45|T,25)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28914):
GTGGCCATTAGTGTGAGCCACCCTCATTAGACGGGCACAGATCGGTGAGGTTTGGAGGAGTGGGGTGGTCACAGCAGCGGGTTTCCCCCGGGTTTTCTGT
W
GCAGCTCAGTTTCTGGAAGGGAGTGGATGGGGTGTCATCTCAGCCCACGTGTGTGATTTGGCCTGGTAGGTGATTTGGATTCCTGATGTCTACCTCTGCC
Celera SNP ID:            hCV8900167
SNP Position Genomic:     10095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28915):
GCGGGTTAACCACCGTGATCTTTCCTGTCCATTGTGGGCCAGCCATAGCCTCCGCCAGCCTCCGCCTGATGCCAGTTTATGTGCAAACAAACAGAGGCCC
R
GAAAGTTGAGGAGCTGCTCTGGCTTACTCAGCCAAGGTAGGATTTGGTTTTGCAAATCCGCACCCCTCAGCTGGGCGCAGTGGCTCACGCCTGTAATCCC
Celera SNP ID:            hCV1259069
SNP Position Genomic:     56318
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28916):
CTTTTTGGGGATGGAGGAAGATGTGGCCATTAGTGTGAGCCACCCTCATTAGACGGGCACAGATCGGTGAGGTTTGGAGGAGTGGGGTGGTCACAGCAGC
R
GGTTTCCCCCGGGTTTTCTGTTGCAGCTCAGTTTCTGGAAGGGAGTGGATGGGGTGTCATCTCAGCCCACGTGTGTGATTTGGCCTGGTAGGTGATTTGG
Celera SNP ID:            hCV8900168
SNP Position Genomic:     10073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28917):
TCCCTAGAGGCTCTGACCTAGGGAGGGGGCTTGCTGGGGAGTGGGAGGCTGAGCCTGGCTGGTGGACTCCGGTCTCAGCCTGCACTCACCTGCCTGCTGC
R
TGCTTACTCACTTGCTCACTCACCTGCTCACCCATCTGCCCACCCACCTGCTCACCCACCTGCACACTCACCTCTCACCCACCTGCACACCCACCTCTCA
Celera SNP ID:            hCV11296916
SNP Position Genomic:     34330
SNP Source:               Applera
Population(Allele,Count): african american(G,2)   caucasian(A,16)   total(A,16|G,2)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28918):
TGTCTCTTGAGCCCTTTTCCCTAGAGGCTCTGACCTAGGGAGGGGGCTTGCTGGGGAGTGGGAGGCTGAGCCTGGCTGGTGGACTCCGGTCTCAGCCTGC
R
CTCACCTGCCTGCTGCATGCTTACTCACTTGCTCACTCACCTGCTCACCCATCTGCCCACCCACCTGCTCACCCACCTGCACACTCACCTCTCACCCACC
Celera SNP ID:            hCV11296917
SNP Position Genomic:     34313
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28919):
AATTTGGCTTGGGCTGTCTCTTGAGCCCTTTTCCCTAGAGGCTCTGACCTAGGGAGGGGGCTTGCTGGGGAGTGGGAGGCTGAGCCTGGCTGGTGGACTC
Y
GGTCTCAGCCTGCACTCACCTGCCTGCTGCATGCTTACTCACTTGCTCACTCACCTGCTCACCCATCTGCCCACCCACCTGCTCACCCACCTGCACACTC
Celera SNP ID:            hCV11296919
SNP Position Genomic:     34299
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28920):
CCCCCCTCTGCTGGCTACAGCCCTGCAGGACAGAAGCCCGAGGCTGTCGTGCATGCCATGAAGGTGAGGGCCACTACCCGCTCCCTCAGAAGTCCTCAGA
Y
GCTGGGTGCACTGTGAGACTGTGGGACCTTTGCACCTAGGGGTATCCAAGTGGCAGGGGTGGGAGGTTTCATCTGTGTGTGGGTGGCTGGGTGACCATGG
Celera SNP ID:            hCV25935482
SNP Position Genomic:     69047
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,40)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:28921):
TGGAGGCCACTCTGGGCTGAAAGGTCCTGGGTCCCTTTCCCTGGTGTCCAGGGAGCATCTATCCAGGGGGCAGCTGGTGTGAGTAGGTTCCCACAAGGAG
R
GAAAGAACACCTGGCTGTGTGCAGGGGGTGAGTGGGGCCTAGGTGCAGGTTTGATTTTTTTTTTTTTTAATTTCAAAGGGGATGTGTTCCCTAGAGAAGC
Celera SNP ID:            hCV16150439
SNP Position Genomic:     26021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28922):
CGTACGTGCCCCATGACATCCCACATGCATGCACGGCCACGCCTACTCACACCCCCTCCACGTGGCGAGTGCCCACTCATCTCCAGCGGGCCCTGGGTTG
S
AGTGAGTCCACCTGTCTGAGGGTCTTCCTTGCCCAGCCTGTCTACTTCCTCCCGGGTGGCCCAGCCATGAGCTGCTTCCCTTGTAGGGCATCCAGTGTCA
Celera SNP ID:            hCV25931993
SNP Position Genomic:     69533
SNP Source:               Applera
Population(Allele,Count): african american(C,26|G,2)   caucasian(C,36)   total(C,62|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:28923):
GGGCGGGCACACTCAGGCGGAGGCCTTGCCTGCCACAGTGACCAAGGCTGGGTGGGGGTGTATCCCTAGAAACGAAGGATCTGGTTAGAAGTGCAGTGCC
R
TGGTGGGGCTTGTGTGCTGGGATGGCCACAGTCCCGGGCTTGGTTAGAAGCACAGTGCCATGGGGGAGCTCGTGTGCTGGGATGGCCACAGTCCTCTTCA
Celera SNP ID:            hCV12062271
SNP Position Genomic:     31804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28924):
GATCTGCTGCTGTCTGAATCCATGGCCAACGCTTCAGTTCTGTGTCCCTAGGAGGATGGGCTGTCCTGAGCCCGGGTTCCTCCGGAGATGCTGGCGTCGC
R
GTGGTCCACGTGGGCATCTCTGTTGGTCAGCGTTTCCATGCCTTGGTAGCAGGCTCCAAGCCCTTCCCTGCCCTGTGTGTTTGGCATCTTGGGTTGGCCG
Celera SNP ID:            hCV25937733
SNP Position Genomic:     55625
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:28925):
GCCTTCTCCTGGGAGGGCCGCTTCCCCTTTCCCTCAGTGAGCTATGTATGGATGCCTTTTTATCAGCGTGGACTCAGGATTTTTATTTCATCCAACAGGG
Y
TGTAATCCCTGGCTCTTATTATCATTATTGCCACTTGGCCTGGGAGAAAAAAGTGGCTGTGTGCCAGGGAGGAGAAGGGATTTGAAGGCCCAGGTGTGTG
Celera SNP ID:            hCV12062276
SNP Position Genomic:     30548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28926):
TTTGGGAGGGTCCCCCATTGTAAGCTGAGCATACAAATCTCTGTAAGTAATAACTGGTTTGCGGGAGACTCTTGGAGACATGCAGATGTCTTGGTCTCCA
R
CAGGCAGACACGCACTTGTCTCAGCATCCACAGTTAGCTGTCTGGTGGGGACGATGCTGATTTTCTAACTTCTCCCGTCCTTCCACCTCCTTCCACATTT
Celera SNP ID:            hCV12062277
SNP Position Genomic:     30339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28927):
TGTGAACTGGAAGGAGCTCTCTCCAGCTCCCTGTCCTCCAACCTGGCTCCCATCCCAGCCTGGGGACTGCACAGTGACCACGGGGACCTGGAGACCATCT
Y
AGCACACGCTCAGGGCAGAGGCATTGTTAGTGCCTGCAGGAGCTGCACGGGGCCTGGGCTCATGTGGCTTTTTCCTGCCCAGGTTCCCATTGCTCTGAGG
Celera SNP ID:            hCV29132980
SNP Position Genomic:     59727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28928):
TTCAGTGTAAATGACCATGTATAAACTGTAAAGTGCAATAGAAAACTGTGTGTGTGAGGAAAGTAAGGCCTAGAGGGGGTGATGTGTGGCACATGACAGG
W
GAGATCCCACAGCTGCAGCACGGGGACAGGCCGCTTCCCCACATCCGCTCATGCCACTGTAAGCAGCCCTAGCTCTTGGGTCCAGGACCTCACCAGGTCC
Celera SNP ID:            hCV15793865
SNP Position Genomic:     72247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:28929):
GGATGATGGCTTATCTGTGGGAGTGGGATTGGTGGGAAATGTGAACTGGAAGGAGCTCTCTCCAGCTCCCTGTCCTCCAACCTGGCTCCCATCCCAGCCT
S
GGGACTGCACAGTGACCACGGGGACCTGGAGACCATCTCAGCACACGCTCAGGGCAGAGGCATTGTTAGTGCCTGCAGGAGCTGCACGGGGCCTGGGCTC
Celera SNP ID:            hCV29132981
SNP Position Genomic:     59688
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28930):
TCAGTGTAAATGACCATGTATAAACTGTAAAGTGCAATAGAAAACTGTGTGTGTGAGGAAAGTAAGGCCTAGAGGGGGTGATGTGTGGCACATGACAGGG
D
AGATCCCACAGCTGCAGCACGGGGACAGGCCGCTTCCCCACATCCGCTCATGCCACTGTAAGCAGCCCTAGCTCTTGGGTCCAGGACCTCACCAGGTCCT
Celera SNP ID:            hCV15793866
SNP Position Genomic:     72248
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:28931):
CCCCTGGGATGATGGCTTATCTGTGGGAGTGGGATTGGTGGGAAATGTGAACTGGAAGGAGCTCTCTCCAGCTCCCTGTCCTCCAACCTGGCTCCCATCC
Y
AGCCTGGGGACTGCACAGTGACCACGGGGACCTGGAGACCATCTCAGCACACGCTCAGGGCAGAGGCATTGTTAGTGCCTGCAGGAGCTGCACGGGGCCT
Celera SNP ID:            hCV29132982
SNP Position Genomic:     59682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28932):
TTTGAGAACCAGTGACCAACTGTGTGCCAGCCCTGGGCTTGGGCTGGGAGGTGAACCACACCTGTCCAGCCATGCAGACAGACGATAAACCAACAACGTC
R
TTACACAGTGCCAAGTCTACCTCCCCTTCCAGAGCAGCCCACAGGCATGACTGACGGACGTGTGGACACAAACCTCCTGCGTGCCCTCGTGGGAACAACT
Celera SNP ID:            hCV29132983
SNP Position Genomic:     58872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28933):
GGCAGAGTGATGGGCATGGTTGGCATTTACTGGGTGACACTGTTCTCCTTCCTTCTAGCTGCCCCGCCCCTACGGCCGCCCGAGAAGCTGGCTTCAGGTA
R
AGCTGCCTGGTGGGAGGCGTGTTTGCAGTGGTGTTTGTGGGGGTCGGGAGGCTGCTTTGTGTGCTGTGCGCTGCTGTGTGCTCTGTCCCCTACTCCCCAG
Celera SNP ID:            hCV29132984
SNP Position Genomic:     57876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:28934):
GCCAGCCATAGCCTCCGCCAGCCTCCGCCTGATGCCAGTTTATGTGCAAACAAACAGAGGCCCAGAAAGTTGAGGAGCTGCTCTGGCTTACTCAGCCAAG
R
TAGGATTTGGTTTTGCAAATCCGCACCCCTCAGCTGGGCGCAGTGGCTCACGCCTGTAATCCCGGCACTTTGGGAGGCCAAGGCTGGCAGGTCACCTGAG
Celera SNP ID:            hCV1259070
SNP Position Genomic:     56355
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28935):
TCAGCCAAGGTAGGATTTGGTTTTGCAAATCCGCACCCCTCAGCTGGGCGCAGTGGCTCACGCCTGTAATCCCGGCACTTTGGGAGGCCAAGGCTGGCAG
R
TCACCTGAGATCAGAAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCTCGTCTCTACTAAAAAATACAAAAATTAGCTGGGCATGGTGGCCGGCACCT
Celera SNP ID:            hCV1259071
SNP Position Genomic:     56446
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28936):
TTTCCCTGGGAGGGTAGCAGGGCACTTGGGGTGGCTCCACCCTGGTGTGAGTTTTGGGGTGGGCTATGGGGGGTGGTGGGTGCTCCTAGGGACCCAGTGC
Y
GGGCACATGGCAGGTCTTCAGTGAGTCCTTGTGAATCTGGAGTTTCTGAAGACGTGGAGCTCCTGGAGTCGCCTTGGCGAGCCCCAACCCTGGCCTTCGG
Celera SNP ID:            hCV1259072
SNP Position Genomic:     57603
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,8)   caucasian(C,21|T,13)   total(C,35|T,21)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28937):
TAACCAAGGGAGGGCTTCAGCAGGTAGTGAGGGTACCATCTTTGGAGATAATCAAGAGATGGCTGGGTGACTATGTTTGGGAATCTTGAAGAAAGAGTTC
R
CAGCCTTGAATGAGATGCTGTCCTAAGCCTCATGGACTCTGGCTCGTGAGATTCTGTGATTCTGGCATTTAAATCTTGTCAGGGAAATCAAGTTGTACAG
Celera SNP ID:            hCV29132986
SNP Position Genomic:     54241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28938):
CACTGCTAGGGGAAGCCTAGGGTCCTTCTCCCATTGAGGGCCACACCCCCAGGCCATCCCTGGTGGCCTGGGGTAACCAAGTCCCTGGCCAGCAGGACAA
Y
GAGCTCCTGGTCTGTTAGTCCTATTTTGGGTCACCCAGTGATGTCACGGTGCCAAGAGCCATGCAGGAAGCACCGGGTTTTCCAAGCCTTGCCCAAGGTG
Celera SNP ID:            hCV11296920
SNP Position Genomic:     33159
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28939):
TGGGTATGATCCTTTATCTGGGAGGGGACTTACACATGGCTCCTCCCAGATGGCAGCTTGTTGTCCAACTCTGCTCACCTAGCCACTCTCTGGCAGCGTT
Y
GTAATCCTCATATAGTCGGGTTTCACGGTCGTTCCCTTCATGGTTTGTTCTTTTTGTTCCTTGATTAAGAAATCCTTTTCTACCTGAAAGCTCAAGTTTT
Celera SNP ID:            hCV2984586
SNP Position Genomic:     37989
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28940):
GGCAAGTTCAGGAGTCTGTTTCCCCACTGTGTAGAGGAGGGGGCTCCCCGGACCCCGACCCTGGGGTGGGCTGTGCCCTGGCTGTGTTTGTGAGAGCTCC
R
TTTGAGCCTGCAGCATCTTGGAAGCTGAAGGAATTGCTCCAGGGCAGGCTGGCGAGGCCACCCCCACACCCCCCACCTTTCTACAGGTCCTGAAGGTCCT
Celera SNP ID:            hCV29132988
SNP Position Genomic:     49612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28941):
GGCCCAGCTGACCCCAGGCCTCTCCTCCCTTCTATCCGGCACTGCTAGGGGAAGCCTAGGGTCCTTCTCCCATTGAGGGCCACACCCCCAGGCCATCCCT
R
GTGGCCTGGGGTAACCAAGTCCCTGGCCAGCAGGACAATGAGCTCCTGGTCTGTTAGTCCTATTTTGGGTCACCCAGTGATGTCACGGTGCCAAGAGCCA
Celera SNP ID:            hCV11296921
SNP Position Genomic:     33120
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28942):
TTCACATAGAACTCTCTGACCTTCCTGGAACTGTTTTCTGTATATGGTGTGAGGCTGAGATAGAGTTTTACTGTTTTCTGGGTGGACAGCTTGTTGCTAC
Y
GCAGCCCCGTTCATGAAGCGCTCTGTTCTTTCCCCGCCGGCACCGTGGCCACACACCAGGTGTGTGGGTCTTTTCTGGGCTCCACCTTGCCTCTCCACGT
Celera SNP ID:            hCV2984588
SNP Position Genomic:     39315
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28943):
CATATGCTGTGGGCACACATAGCTTGTGAGAAGTTCCTGGGTGATCAGGCGAAGTGGACTGGAAGGATCCCAGATGCTGACTTGGCAAGTTCAGGAGTCT
R
TTTCCCCACTGTGTAGAGGAGGGGGCTCCCCGGACCCCGACCCTGGGGTGGGCTGTGCCCTGGCTGTGTTTGTGAGAGCTCCATTTGAGCCTGCAGCATC
Celera SNP ID:            hCV29132989
SNP Position Genomic:     49529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28944):
TGGCTGAGATGTCCCACCCCTCCCACGCCTCCCCACTGTTCTTACTAACTCTGCAGGAAAGCAGGCTCCGGGGCAGAGCTGTGGGGGCAGGGCATCATCC
Y
GGCCCCCCAGCTCTTCCCACAGAGCCTGGCACTCGATAGAGATTTGGTTGACATCTAGTGATGAAAGCAGCCCCCACACACTTTCTCCTGAAACCAGCAA
Celera SNP ID:            hCV2984589
SNP Position Genomic:     39854
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,1)      total(C,1|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28945):
AGGCCCAGCTGACCCCAGGCCTCTCCTCCCTTCTATCCGGCACTGCTAGGGGAAGCCTAGGGTCCTTCTCCCATTGAGGGCCACACCCCCAGGCCATCCC
Y
GGTGGCCTGGGGTAACCAAGTCCCTGGCCAGCAGGACAATGAGCTCCTGGTCTGTTAGTCCTATTTTGGGTCACCCAGTGATGTCACGGTGCCAAGAGCC
Celera SNP ID:            hCV11296923
SNP Position Genomic:     33119
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28946):
CGGTCAGTCACTGGTGCGAGGTCACACAGCTGTGATGTGAGACCAGTGTTTCTGTGATTACAGAGGCCCAGCTGACCCCAGGCCTCTCCTCCCTTCTATC
Y
GGCACTGCTAGGGGAAGCCTAGGGTCCTTCTCCCATTGAGGGCCACACCCCCAGGCCATCCCTGGTGGCCTGGGGTAACCAAGTCCCTGGCCAGCAGGAC
Celera SNP ID:            hCV11296924
SNP Position Genomic:     33056
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28947):
CCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCACCATTGCATTCCAGCCTGGGCAACAAAGCAAGACTCTGTCTCAAAAACAAACAAACAAAAAAAA
A
CCACACAGGGAATTAGTGGCCCCCGTGTGAGATTTGAACCCGGAGTTTGTGCTTGTGAAGACTTTTGAAGGGCCTGTGAGAAGATTGTGACATTCCTCTC
Celera SNP ID:            hCV11296925
SNP Position Genomic:     32731
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,9)   total(A,4|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28948):
TGCCTGAGCCTGGGAGTTCAGAGTTCAAGGTTTCAGGTGAGCCATGATCACACTGCTGCACTCCAGCCTGGGCAACAGTGAGATACTGTCGCAAAAAAAG
R
ACGAGAACTTTCATATAGCATAGTGACAAAAAATGATCAATATCAGAACATTTAACGTTGATACTATTAATACTTGTCCCAATATGATGCTCTAGAGCAA
Celera SNP ID:            hCV11296928
SNP Position Genomic:     29566
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28949):
CTACGGCCGCCCGAGAAGCTGGCTTCAGGTAGAGCTGCCTGGTGGGAGGCGTGTTTGCAGTGGTGTTTGTGGGGGTCGGGAGGCTGCTTTGTGTGCTGTG
M
GCTGCTGTGTGCTCTGTCCCCTACTCCCCAGCACCCTCCCGTTCTTTCCTGGGAGCACTTCCTTCCCAGGCTGCGCTGGCCCTGCCTTTAGAGTCTTCTT
Celera SNP ID:            hCV25939129
SNP Position Genomic:     57945
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,25)   caucasian(C,32)   total(A,3|C,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:28950):
TGCCCTGGGCATCCTGGCAGCTGAGCTGACTCCCAGCCTGGGGGGAGGCAGGACCAGGGGTATGGGATGGCTGGACGTGGGGGTGGGGATGGGATTTTTT
Y
GTGTTTTCCTGATGTGACTGGAAAGCAGGGTCAGTGTGGTGAGGGTGGGTGAATTTCACCCTGCACCAGTGGTCTGCATAGATAGGGCTCCCTTGGCCTG
Celera SNP ID:            hCV29132990
SNP Position Genomic:     49245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28951):
CCTCGGACAGAGGTTCTGAGAGAGGAAGGCCAAGGAGGAAGGAGGAGTTAGGAGGGGTCCGGGGACCTGGGGCCCCACCACTCCAGCCCTTTAGAAATGC
S
CATGAACCCATGAGACTATAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV12062289
SNP Position Genomic:     17744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28952):
TTCAGCCATCCAACAAATGTTTACAAAGCCCACGCTGGAGAGTGGATCGCTGACATTTGAGCTGGGGAGAGTGAAGATCGATTGATCCCGGCTCGGGGGA
Y
GGATAAGCGGTGTGGAGGGGAGGGTGGAGGGGTCCTCCGGGGCCGTGCCTTTGAGCAGCCCCTGCTGCCGTGAGGAGCCATGCCCAGGGCCCTTGTCCTC
Celera SNP ID:            hCV15793876
SNP Position Genomic:     63711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28953):
CCGGTGGGTGGACAGCTGTCAGGGTGGATGGGGTCTGGGCTGGCATCTGGGCCAGGTGATCTCTGCGAGAGATGTTAATAACCCATCCCTTACCAGGTGG
M
TTCGTGGCTCACAGGGGTACTTGGGACAGCCTTGCTTCCCCCTTGCCTCCTCCTTCCAAACCTGCTGTTGCTGGGTGGTCCCCCGGCCTGTGTTCTGGGT
Celera SNP ID:            hCV29132991
SNP Position Genomic:     48996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28954):
GGGAGAGACACTCTCTCCTCACTCGCTCTCACTGGCTCTTCTTCATTCATTCATTCATTCTGTTTATTCAGCCATCCAACAAATGTTTACAAAGCCCACG
Y
TGGAGAGTGGATCGCTGACATTTGAGCTGGGGAGAGTGAAGATCGATTGATCCCGGCTCGGGGGACGGATAAGCGGTGTGGAGGGGAGGGTGGAGGGGTC
Celera SNP ID:            hCV15793877
SNP Position Genomic:     63645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28955):
AGCGAAGGTGCTGAGGCTGACGGGGCAGCTGTGGACTTGGGTTCCAGCCCATCCCTCCTCCGATTGTGGGCTCATGGAGAGGGAAGTGCTGGGAGCTCCT
Y
GCTCACCCTGTGGGAACCAGCAGGGGGAGGCGGGTGGGCTGAAAGTGCACCCACCTCCTGAATGGTTCTGTGGCAGCGAAGGGCAGAGAACAAGTTAGTG
Celera SNP ID:            hCV29132992
SNP Position Genomic:     47463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28956):
GCGTGATGCTGGCGGTCTGGGGGCTGCTCTGAGAATAGAGAAGCAGTGCTGGGGCCGGGCCTGGCGCCTGGCATACAGGTGCCCTGGAGTCTCTGTGTGT
R
GTACTCATGGCTCTCCTGCCTCCCCTGAGGTTCCACTGATGGTGCTGTGAGCAGTCATCCCTCCCAGGGATCTCGTTGAGTGTGTGGTTTGTATCATTTT
Celera SNP ID:            hCV15841220
SNP Position Genomic:     25623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28957):
CTGTCTGCATCCCTTCTCCGGATGCCACCTGCCAGCCTGATCACTGTCTTTAACCCTTACTGGGAAGTGGGTGTGAAACCCCAGTTGTATCTGAGGGGGC
R
GACTGCTCAGACAGGAGAAGGGTCACCCAGCGAAGGTGCTGAGGCTGACGGGGCAGCTGTGGACTTGGGTTCCAGCCCATCCCTCCTCCGATTGTGGGCT
Celera SNP ID:            hCV29132993
SNP Position Genomic:     47334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28958):
ATTTGTACACGTGTGTGCATGCATGTGTGTGTGAGGGTGAGGTGTGCAGGAGGGATGGAGGAGGAGGTGGCTCCTTTGTGACCTTCTGTTTCCGTGAGAA
M
CCTTGGGACACACCTCTCACCCAGGTTGGGGGTTCCCTGTCCTGGATTAACTTTTGTTTCACCCAGAGGCCAGGCCAACCTAGGCAGGTTTCGGATATCG
Celera SNP ID:            hCV15841221
SNP Position Genomic:     23424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28959):
TGGGGCCGTGGGTGTGTGGCCACCTGTCTGTGCCTACAGGTGGCCCGATGTGGGGGATGGTAGCCTGTGGGTTCTGAGGTGAGGTGCTGGCTATGGGCAG
K
CAGGGCATTGCTGGCGACCTGTGGGATGGCCTGTCTGCATCCCTTCTCCGGATGCCACCTGCCAGCCTGATCACTGTCTTTAACCCTTACTGGGAAGTGG
Celera SNP ID:            hCV29132994
SNP Position Genomic:     47203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28960):
GGTCTGGCTCCTGGACACAAGAACGTTGTAGGGAGACACCCTCCTCCCCGGTTGGCAGCTGGATAGGGAATCCCCCAGAATTGGTCCGATGGCCCCCAGA
Y
GGGTTAGGGGAGCACCCCAGGGGACCCCTTGGCCAGGCCAGCCCAGGGTCACCTCCCTCATTTTGCCCTCAGGCAGCCAAGCTGGGAAATGATGTCCCCT
Celera SNP ID:            hCV29132995
SNP Position Genomic:     45433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28961):
GAGGGGGAATACCACCCAGCCCCTGCCTCACAGCTTCCCAGAAGGCCAGTGAGTCCTGGTCCCAGTGGCAGGACCCAGTGCAGGGTATCTGGGATGGAGC
Y
GGCACAGCGCCAATGGGGAGGGCTTGGCAGACCTGCAGGCTCTGTGACTCCCCCCACCATGCTGCACAGCTTTCCCCCACCCCCTCCTCATGGGAGCAAG
Celera SNP ID:            hCV29132996
SNP Position Genomic:     45198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28962):
CTTCTCTACCCCTCTACCTGGGTTTCCTGGGGTTGCCACCCACATAACCCACGTGAAGTTGATTCCTCCTCTCTCAGTCTGCACCCAACCTGAGATATAA
S
ATCATAGGGAGGCGTGTGTGAGACAGGAGCATCAGGCACCGCAGAGTCAGATGCAAGGAGCGTGTGCCCAGAGCCCAGGATGCTCTGCCCCCTGTAGCCT
Celera SNP ID:            hCV29132997
SNP Position Genomic:     44650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28963):
TTTGCAGGCTGTCCAGGAAGCATGGCAGCACCTGCTCAGCTTCTGGGGTGGCCTCAGGAAATGTACAATCATGGCGGAAGGCGAAGGGGAGGCGGGTGCG
W
CTTGCAGGCGGGAGCAGGAGAAAGAGGGGAGTAGAGTGCGGGGAGGAGCCACACACTTTAAACAACCAGATCACAGAGGAACTGTATCACAAGAACAGCA
Celera SNP ID:            hCV11296931
SNP Position Genomic:     27072
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|A,6)   total(A,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28964):
AACTGAGGCCCAGAAGATTCATGGGCTGTCCTAGGCTCTCCCGGCCCAGACCCTCCCACCTCCTGGCTGCCCCTTCACCCTACCCAGCCCTGGCTGCAGC
R
TTGGTGCCCGCAGGCATGAGGCAGGCATGAGGGCTGCGTGTGTGGGTGGGCAGACCCCCTTCCTTGCTAAGAGGGCAGCCTTTGGTGGAGGCCACTCTGG
Celera SNP ID:            hCV11296937
SNP Position Genomic:     25835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28965):
TGGCCTCATGGTCAGCGGTGCCCAGGACATTTCGGCGCTGCGTTACGACAGCTCATTGTGCCTCTGGGCTCGGGGCTGGAGCAGACGGGCGCAGCAGCCC
Y
GCGGCTGAAAGCCACCGTCCCCTGCATTGGTGGAGGCTGCTGGCATGCCCTCGTGTATCATCCTGCCTCTTCTCTGGGGTCTCCCCACCCTCCTCCCTGG
Celera SNP ID:            hCV28035368
SNP Position Genomic:     20161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28966):
GGCTGCAGGCTGCTTCTGAGATCCAGCCTGGGAACTGTCCAGGCTCCTCTGTCCTGCCTGGGATGGAGGGGCCACTCATCAAACCCTCTACTCCCCGGCT
R
CCACCCACACTGGACAGAGACCACCACTACCTGGGTCTTGACGCAGGTGGCACCACTTCTTGCCCAAATGCCGTGGCCTGGGCCCAGGCCCCCCAAGCAC
Celera SNP ID:            hCV25938988
SNP Position Genomic:     71247
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:28967):
ACAGCGATTACTCCACAGCCCGCCTTTATCACACTGTCAGCAATAAGCATTTTAGCTTCAGATCTTTGCCTTTTAAGAAATCAAGCTTGGCAGGTGGAGC
R
GAGGCACCCTGTGTGTCATCCTCCTCCCTCCCCGACTTTTCCCAGGGAGAGCTGAGGCCCAGAATCGGAGCTCAGCATTCTCGTGCAGTTTTTAAAAATT
Celera SNP ID:            hCV29133002
SNP Position Genomic:     37018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28968):
CAGAGACACTCCTGCCCAACACACTCAGCCAGCACAGACCTGCTGACTCTGTGCCCAGGCTCTCTCTGAAGCACTGTGGGGCTCAGGTTTGCGCCTCCCC
S
TCCCTGCAAGGGCCTGGTCCTGCCTTGCTGGGGTCAGTCTCATGAAGGCCCCCAGAGACCCTTGTGGAGGGCAGGTGTGTCAGCCTCCGCAGAATGCTTG
Celera SNP ID:            hCV29133003
SNP Position Genomic:     33705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28969):
GGCAAAGGCCCGGACAGGCCACAAATTACCCTGTGCATGTGATTCCATTTCCCAGCCACTTTTTTTCTCTAAGGAGTTGCTGGCATCGTAAATCTTACTG
M
AAACAGTGGGGAAGAAAAGAATCTGAGATTCTACAAAGCACATTTAACATCCATGACTGTGTTTGATCTTTCCAGTGGTGGAGGGGCCCGCCTGCTCCCC
Celera SNP ID:            hCV12062290
SNP Position Genomic:     14438
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28970):
CACTTTCTGCTTTGTGATCTTAGATGAGTCTCTTCATCTCTGCGAGCCTCAGTTTCCTCACTTTTCAATAGGAATAATTGCATTTTTCTCCGAAGGTTAC
Y
GTGAGGATCTGAGAAGGTAACAGAGGTAAAGTGCTCAGCATAACACCTCCCACGTGGTTCTATAAATGGAGTTGAAGATTTTTCTTTTCTTTTGAAATGA
Celera SNP ID:            hCV29133004
SNP Position Genomic:     28961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28971):
CGAGAACAGCCTGGGCTGTACCTGGTAGACGATCTCTGAGACCACGTGCCCTGGTGAATTAGAGCCTGGGCCTTGGGAAAGGGCTTTGGGCTCAAATCCC
R
ACTACAGCACTTTCTGCTTTGTGATCTTAGATGAGTCTCTTCATCTCTGCGAGCCTCAGTTTCCTCACTTTTCAATAGGAATAATTGCATTTTTCTCCGA
Celera SNP ID:            hCV29133005
SNP Position Genomic:     28853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28972):
CTGGCGCCGTTTAGAGCTGGGAGCCCGTGGACTCCCGGCCTGTTTCTACCTTCTATTCAACCACTCTGACGTGGGGAGACAAGAAGAAATAGAACTTTTT
K
ATAGTGTGGTAAAAACATTGATTTGAACTATTTTAGTAAAAGGAGTAACAAACAAGATTGTGATAGTGTCTACTTTGAGCTAGATAAATAAAGGCCTCTT
Celera SNP ID:            hCV26475779
SNP Position Genomic:     73949
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:28973):
CCAAGGGACCAGCATCCCTCAGATGCTGGCCTTGTTAACCCAGCTCTTGTCTCTTCCTCCAGCCGAGAACAGCCTGGGCTGTACCTGGTAGACGATCTCT
K
AGACCACGTGCCCTGGTGAATTAGAGCCTGGGCCTTGGGAAAGGGCTTTGGGCTCAAATCCCGACTACAGCACTTTCTGCTTTGTGATCTTAGATGAGTC
Celera SNP ID:            hCV29133006
SNP Position Genomic:     28790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28974):
GTGCCAGAAAGCAGGAAGAAAAGGGGCAGGTGGGATTTGTTGTTCTGATCAGCTCACTGGAGACAGGCTCTTGTCACAGGGGGCATTGAACTGGGCACCT
R
CCTGCCTGAAATATTTACATTGGCAAAGGCCCGGACAGGCCACAAATTACCCTGTGCATGTGATTCCATTTCCCAGCCACTTTTTTTCTCTAAGGAGTTG
Celera SNP ID:            hCV12062293
SNP Position Genomic:     14316
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28975):
CTGAGGCTTCAGGGCCTAGCTCAATGAGGCAGGAGGCTGGATAGGTGTGATGTCCCAGGCCACCCATGTGCCAAGAGGTGCCAGAAAGCAGGAAGAAAAG
S
GGCAGGTGGGATTTGTTGTTCTGATCAGCTCACTGGAGACAGGCTCTTGTCACAGGGGGCATTGAACTGGGCACCTACCTGCCTGAAATATTTACATTGG
Celera SNP ID:            hCV12062294
SNP Position Genomic:     14239
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,2)      total(G,2|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28976):
GCACAGTGCCTGGAGCTTGTGGGTTCTCCAGGCTGGGGCCCTGGGTGGCTGTGGTGTGCGCCTGGGCCCCTGGGGGCTGTTTCCTCATCTGCAGACTGAG
R
AATGGAGGGTCTGCCCGCTCGCAGCACAGAGCAGGTCCTGCAAGGTCTGAGCCAGGAGCCACTGCATGGCGCCCGCCCCTGGTGCCCAACAAAGGACAGT
Celera SNP ID:            hCV29133008
SNP Position Genomic:     24451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28977):
TAGCTGCTCACATCTGGGGCCATTTACAAAGGGTCGTCGGCCCCCATCCTGCTTCGTGGCCTTTCAAGGAAGGCCATGAGCAGCAGGTCCCACTGCCAGG
W
TGTTTCCCTGCGAGCCCATTGAGAAATCCCCCTGGAAATCCTCCTTTGGCCTGGCGCAGGCAGGCGAGAGAATTGCAGACAATGGGGAGCCGGGGAACAA
Celera SNP ID:            hCV15794103
SNP Position Genomic:     4405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:28978):
AGTGCAAGACCCTGGTGCTTCTTGGTTATCAGGACCAGAGAGCAGCAAGGACGCAGCAGTGGGTGCGAAGAGGTCTCCACCTCTCTGTCCCCTTCACTGC
R
CAGAACAAACAACAAAACAAGAAACTTCTGTGGAGAGACAGTGCTCTCTTCCATGGCTAATGGGAGTGAGGTCCAGCCTCTATGGAGCGTAATCTGGTCA
Celera SNP ID:            hCV29133009
SNP Position Genomic:     21898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28979):
CCAGCGGGCCCTGGGTTGCAGTGAGTCCACCTGTCTGAGGGTCTTCCTTGCCCAGCCTGTCTACTTCCTCCCGGGTGGCCCAGCCATGAGCTGCTTCCCT
Y
GTAGGGCATCCAGTGTCAGCAGGGTGAGATGACAACCTGCCCCTCAGTTTTTTCCACGCTTGTCCCCAGGGGCCCAGCGGCTCAGGGTCCTCAGCTTTGG
Celera SNP ID:            hCV25943307
SNP Position Genomic:     69615
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:28980):
TCTGTGGACGTGGACTGGCCCTGCTGGGGGTCCCCAGGGGGAGTTTCAGGCCCCAGACACGGGCAGGACCTCCAGCCCAGCCCCTGTCTTCTTCCTCTGT
R
GTGAACTGTACATAGGACGCTGCCCGCCCTGGCCCAGCTGCCATGGGTCCGATGCACTGGCCCAAGCCGCCATCTCCCGCCTCATACACCAGCAACCTGG
Celera SNP ID:            hCV25941706
SNP Position Genomic:     70961
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 UTR 5


Context             (SEQ ID NO:28981):
CCCCCCAAGGAAGCTGGGGAGGCGGGATATGCCCTGAGCTGCCTCGGACAGAGGTTCTGAGAGAGGAAGGCCAAGGAGGAAGGAGGAGTTAGGAGGGGTC
Y
GGGGACCTGGGGCCCCACCACTCCAGCCCTTTAGAAATGCCCATGAACCCATGAGACTATAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGTGA
Celera SNP ID:            hCV15794039
SNP Position Genomic:     17703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28982):
GCCCCCTTGGTGCCATTCCCTACTGAGTGGAGTTTCGTTTAATCTCACCAACGCCGTAGCGCAGGGGATTCTTTCACAGCTGGGTTCCAAAACCTAAGGC
S
GTCTCCCTGCTCCCACCTGGCATCCCTCCTCTGCCCCCTTCCCACATTTACCCAGCTTCATGTGTGCTGGGCACAGTGCCTGGAGCTTGTGGGTTCTCCA
Celera SNP ID:            hCV11296944
SNP Position Genomic:     24280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,4)      total(G,4|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28983):
CCTGGTTCAAACCCGAGCTCTGGCCCTATGTGGCTGTGGCCAACTGCCCTTCCTCAGAAGCTTGGTTTTTGTGCCTGTACAGTGAGGGTGGCCATGTCCA
Y
CTCATGCACCATGTGCCTGATGTCCAGCAGCGCGTTACTGTTCCTCAGTGATTGTGTGGCATTGCGCTGTGGCTCTGTGGCACTTGGTTAGGGCTTGTGG
Celera SNP ID:            hCV11296945
SNP Position Genomic:     23643
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:28984):
GGGAGCCACCCGAGGAAGACTGGGCAGGTGGGTGTTTCTGGGGAGCGGCAGTGGACCCCCCGCCTCCCCCTGTGGAAGGGCCAGCACCTTCCTTAGCTGG
R
GCTCTTCTCTGTGTGCAGAACAAGCCCAGCAGGTGATTTCAGCTCCTGCTTTCCCTCCTCGGGGAAATCCTAGGGAATCTCATTCTGCAAAGGCAGCGAC
Celera SNP ID:            hCV27991809
SNP Position Genomic:     61298
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28985):
CTGGGATTACAGGCATGAGCCCCTGTGTCCGGCCTCCTGCCCTATCTTAAGATTAGTTTTATCTGCCGCACCTTGGCTGTCCTGGCCCAGGGGTCCCTCC
Y
GCTGGTGAGAACACAGCCTTACCAAGCTCTTTAGGAAACTGCAGGTGCCCTGATGGGGTCTCGGCACCACCATGCCTCCCCTGGTTGTCACGCCCCCAAC
Celera SNP ID:            hCV11296948
SNP Position Genomic:     18620
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28986):
CCAGCCCCAGCCTGGGCCTCCCCTGCCCCTGCAGTTTGTTTGGGTAACTCAACAGCCTGCTGATTTATGGGACATTCCGCAGGGTTTTATCTGCCCAGCC
R
CTTTCTCTCAGTTCCTTTGAAGTAGAAAAGGGTGTTTCGGCCAGAAACACCCAAAACCCTTTAGTGATGCAGAAAGAAAAGAAAGGCCGGGCCTTCTGCT
Celera SNP ID:            hCV16074775
SNP Position Genomic:     62986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28987):
AGCCAGCAGCAGCGACGCCATGTACCTGAGTACAGGTGGCAGTTGCAGAGCCGTGGGCTGTAGAAGGTCAGATGGGGCTTCCCACAGGGGAAATCTGGGC
R
TGCTGTAGCTCAGGGTGACTCCCAGCTCCGTCACTAGCAGGGCGACCCCCTTCCTTCTGGAGCCTTAGCTCTGAAAGCCCCCAGTGGGGGTGCCCTTTCA
Celera SNP ID:            hCV26475780
SNP Position Genomic:     73276
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:28988):
CAGTGTAAATGACCATGTATAAACTGTAAAGTGCAATAGAAAACTGTGTGTGTGAGGAAAGTAAGGCCTAGAGGGGGTGATGTGTGGCACATGACAGGGG
W
GATCCCACAGCTGCAGCACGGGGACAGGCCGCTTCCCCACATCCGCTCATGCCACTGTAAGCAGCCCTAGCTCTTGGGTCCAGGACCTCACCAGGTCCTC
Celera SNP ID:            hCV26475781
SNP Position Genomic:     72249
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:28989):
GGCCTCTCCCAGGTTCCTGAGGGCCTTGGCACTCCCCTGGCGCAGTCACTAATGCACACTAAGCATCCTAATGCCCTGCGCTGGCTGAGGGCCAGGACGC
R
GCCTCACCCCACGAAGACTCCTGTGTACGGGAACTCAGGTGGAACAGGGCTGGATCCTGGGGGCAGGGCCAGCCAGCAGGAAGGAAGAGCACCCTGACCA
Celera SNP ID:            hCV2984532
SNP Position Genomic:     10896
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28990):
GAACTGTGCAGCCCCTCCCCCGCATCACCTAGTGGGGCCTGTGGACCCCACTGGACAGCTGCAAGGCTGAGCCACACCCCAGCAGTGACCTGCTCAGGCC
Y
GATAGTTAGCGCGGCATGCAAAGACCTGGTGTGGGTGTCTCTGGGCCTGCAGTGGCCTCCGTGTCCCTCCTGGCCCCATGGCTCTGAGGACGTGGGTGAT
Celera SNP ID:            hCV26475783
SNP Position Genomic:     70576
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28991):
CCTGGCCACCCATGGCTCAATCCCCTGCAGGGAGCACCTGGAGGTCCTGTTCGCTCTAGGCGGGAGGCTGAGTGACGCTGGACCGCTGAGCAGCAGGTCC
Y
GCGGGGACTCCGAGGCACCGGGGGAAATGAAGCGGTGCCCAGGCAGCTGCACGCCTGAGTCCCTGCCTGGTCTGAGCGCCCCGGAAACAGCTTAGGCTTC
Celera SNP ID:            hCV2984533
SNP Position Genomic:     12927
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28992):
GGAGGGTGCAAGGAGGAGAGTGCAAGACCCTGGTGCTTCTTGGTTATCAGGACCAGAGAGCAGCAAGGACGCAGCAGTGGGTGCGAAGAGGTCTCCACCT
S
TCTGTCCCCTTCACTGCACAGAACAAACAACAAAACAAGAAACTTCTGTGGAGAGACAGTGCTCTCTTCCATGGCTAATGGGAGTGAGGTCCAGCCTCTA
Celera SNP ID:            hCV29133010
SNP Position Genomic:     21880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28993):
GGAGAGCCCCGTGCCCGACCCAGCTGAGCACCATCGGCGGTCTCCTTGGGGGTGCTTGCAGGAGCCATCGGGGAAGGAGTTTCATAGGGTCTGAACCCAG
R
ACTTAAAGGGGGGGCGAGAGGCTCTGAACTGTGCAGCCCCTCCCCCGCATCACCTAGTGGGGCCTGTGGACCCCACTGGACAGCTGCAAGGCTGAGCCAC
Celera SNP ID:            hCV26475784
SNP Position Genomic:     70450
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28994):
GCAGGTCCCGCGGGGACTCCGAGGCACCGGGGGAAATGAAGCGGTGCCCAGGCAGCTGCACGCCTGAGTCCCTGCCTGGTCTGAGCGCCCCGGAAACAGC
Y
TAGGCTTCACTTGTCCCCTCTCATTTTTAGCACCAGGCTCTGTTCTCTGCCTTTATGTGTGGCGTCTCCTGCGGTCACCAGGGTGCCTTCTGCTCTGAGG
Celera SNP ID:            hCV2984534
SNP Position Genomic:     13019
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28995):
TTTCTCTGCACTTGTCCCCACGCCCTCCCCACCCGTGTCCAGTGTCCCTCTAAGCTGAACTCAGTCTGTCCAGAAGGCTCAGGTTGGCTGGGTTCCTAGC
Y
TTCTGTAAGGAAAATTTAATTTGGACGGTTGCCAAGGGGCCTTAAAAGGCTGGATGTTGTTCCTGCTGTTGTGAGATGGGCCTGGACGAACCAGCAGCCA
Celera SNP ID:            hCV29133011
SNP Position Genomic:     21291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28996):
AGGAGAGCCCCGTGCCCGACCCAGCTGAGCACCATCGGCGGTCTCCTTGGGGGTGCTTGCAGGAGCCATCGGGGAAGGAGTTTCATAGGGTCTGAACCCA
R
GACTTAAAGGGGGGGCGAGAGGCTCTGAACTGTGCAGCCCCTCCCCCGCATCACCTAGTGGGGCCTGTGGACCCCACTGGACAGCTGCAAGGCTGAGCCA
Celera SNP ID:            hCV26475785
SNP Position Genomic:     70449
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28997):
CAGGTCCCGCGGGGACTCCGAGGCACCGGGGGAAATGAAGCGGTGCCCAGGCAGCTGCACGCCTGAGTCCCTGCCTGGTCTGAGCGCCCCGGAAACAGCT
K
AGGCTTCACTTGTCCCCTCTCATTTTTAGCACCAGGCTCTGTTCTCTGCCTTTATGTGTGGCGTCTCCTGCGGTCACCAGGGTGCCTTCTGCTCTGAGGC
Celera SNP ID:            hCV2984535
SNP Position Genomic:     13020
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:28998):
CTGCCGCCACGCAGATCCCGCACCTTCTGGAGCTTCCATGGACGAGTGCACGTTCTCCAGTGAGTGTTTTCTCTGCACTTGTCCCCACGCCCTCCCCACC
Y
GTGTCCAGTGTCCCTCTAAGCTGAACTCAGTCTGTCCAGAAGGCTCAGGTTGGCTGGGTTCCTAGCCTTCTGTAAGGAAAATTTAATTTGGACGGTTGCC
Celera SNP ID:            hCV29133012
SNP Position Genomic:     21224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:28999):
ACCCTCCAGCCCACCAGGCTGGGGCTGCCCAGGAGAGCCCCGTGCCCGACCCAGCTGAGCACCATCGGCGGTCTCCTTGGGGGTGCTTGCAGGAGCCATC
R
GGGAAGGAGTTTCATAGGGTCTGAACCCAGGACTTAAAGGGGGGGCGAGAGGCTCTGAACTGTGCAGCCCCTCCCCCGCATCACCTAGTGGGGCCTGTGG
Celera SNP ID:            hCV26475786
SNP Position Genomic:     70419
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29000):
CTGAGTCCCTGCCTGGTCTGAGCGCCCCGGAAACAGCTTAGGCTTCACTTGTCCCCTCTCATTTTTAGCACCAGGCTCTGTTCTCTGCCTTTATGTGTGG
Y
GTCTCCTGCGGTCACCAGGGTGCCTTCTGCTCTGAGGCTGCTGCCATCCTATCTTGTAGGAGGCGAAGGCAGGGCTCAGAGCTAAGAGAAGGCGCTGCCT
Celera SNP ID:            hCV2984536
SNP Position Genomic:     13082
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29001):
TAGTTTCAGCAGCTCTTGGTGGAAAACCAGTTGGGGGACAGTGAGCTCACCGGCCCATGACTAAAAGCCAAGTGCAGCCGCCTGGCTGCATGATCAGAGG
Y
CGCGGGCTGCCGGGAGAGGGTCTGCGTCCCCTCTCCTTGGAAGGCGGTTGGTTGCCCCCTGTGGCAGCTGCCGCCACGCAGATCCCGCACCTTCTGGAGC
Celera SNP ID:            hCV29133013
SNP Position Genomic:     21056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29002):
CTGCCAGGCCCAGCCTCTGCAGGTGCAGACTGGTGAGTCCGATGGGCTCCGGTTCCTCCAGGCTGTGCACACCTGAGCACAGTCCCCACTCCCATGCCCC
Y
CTTCCTCCTACGTACGTGCCCCATGACATCCCACATGCATGCACGGCCACGCCTACTCACACCCCCTCCACGTGGCGAGTGCCCACTCATCTCCAGCGGG
Celera SNP ID:            hCV26475787
SNP Position Genomic:     69422
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29003):
GGAGGGCCACAGCCTGGCCATTCACTAACGCTGCTGGGGCCAGGGCCACTGAAGCCCACCCTGGAGGTCTTTCTAGGGACCACCACCCTGTGAATTTGAG
Y
CCTCAGGCTTGGGAGGGTATGTGGGGAATCTGGCCCTTGCCGCTGCCTTCCAGAGACTTGCGGGTGCTGGGTTAGGGTTGGGGGCTCTGGGGATCACGCT
Celera SNP ID:            hCV2984537
SNP Position Genomic:     13947
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29004):
TTTGGAAGATGGATAAACTGGCAAACAAATCCATGGATGGGACAGTTTCATATCCTGGTGAGTGCTAGGAAGAGCAGAAAACAGATGGTGGCAGGGGAGG
Y
CTCTTAAGGAGGGGCCAGGTCACCTGGGGCTTGGATGATAAGCAGCTGTCGTCCCTGGAAGGTTTCCAGCAAAGGACAGATGTCAGAGCTTTCCCGGAGC
Celera SNP ID:            hCV29133014
SNP Position Genomic:     13421
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29005):
GGGTGTTGTAGAGGAGCCTGAGAGGTGTGGGTGGGCCCTGGACTGCCCCTCTTGCCTCTGTGCTATCAGGGACCATTTCATCTGCAGAAGACCTGGTGGG
Y
GGGACTGGCCAGACTGGCTGTGGGCTCCTTGGGTCTCCATCCTCACACCTGCCTCCTCTGCCTCACCCCGGTCCCCTTTTCCTCCTGCCTGGGCCCTGGC
Celera SNP ID:            hCV26475788
SNP Position Genomic:     68725
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29006):
CATTCACTAACGCTGCTGGGGCCAGGGCCACTGAAGCCCACCCTGGAGGTCTTTCTAGGGACCACCACCCTGTGAATTTGAGCCCTCAGGCTTGGGAGGG
Y
ATGTGGGGAATCTGGCCCTTGCCGCTGCCTTCCAGAGACTTGCGGGTGCTGGGTTAGGGTTGGGGGCTCTGGGGATCACGCTCTGAGATGCCCCGTGGAA
Celera SNP ID:            hCV2984538
SNP Position Genomic:     13965
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29007):
TCCTTCCTTAGCCGTTTACTGAGCACCTGTTGCACACCAGGCCCCGTTTCCATGCTCCTGGGATACTTCCATGAAGCAAGACAGACAGAAGTCTCCTTTG
S
AAGATGGATAAACTGGCAAACAAATCCATGGATGGGACAGTTTCATATCCTGGTGAGTGCTAGGAAGAGCAGAAAACAGATGGTGGCAGGGGAGGCCTCT
Celera SNP ID:            hCV29133015
SNP Position Genomic:     13325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29008):
ACCTGCAAGGCCCTGGGAGCAGGTCCAGGCCAGGGCGGGCGGGGAGGGCACCAGGGGTTGGCTGCCAGGCCTGCAGGGGGTTCCAGGTCCTGAGGGTCGC
W
GAACCCAGCCCTGCAGTGTTAGGTGGCCCCATGATGCAGGCCTGGGTGGGTGGGATTCCAGCCCAGCTCCCTGAGCTTGCCAGGCCGTTGGGAGGCGTCA
Celera SNP ID:            hCV26475789
SNP Position Genomic:     67906
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,8)   total(A,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29009):
CTGGGGCCAGGGCCACTGAAGCCCACCCTGGAGGTCTTTCTAGGGACCACCACCCTGTGAATTTGAGCCCTCAGGCTTGGGAGGGTATGTGGGGAATCTG
R
CCCTTGCCGCTGCCTTCCAGAGACTTGCGGGTGCTGGGTTAGGGTTGGGGGCTCTGGGGATCACGCTCTGAGATGCCCCGTGGAAGGGTGCCTGCTGCAG
Celera SNP ID:            hCV2984539
SNP Position Genomic:     13980
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29010):
TGGGGGCCTGGGAGCAGCTTCTGAAACTGATGAGCACCTCGACCCATGCACCAGGCAGAGCCGGCTCCCTGAGGGTTCCTGCTAGAGTCCTGGCCACCCA
Y
GGCTCAATCCCCTGCAGGGAGCACCTGGAGGTCCTGTTCGCTCTAGGCGGGAGGCTGAGTGACGCTGGACCGCTGAGCAGCAGGTCCCGCGGGGACTCCG
Celera SNP ID:            hCV29133016
SNP Position Genomic:     12839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29011):
GGCGTTATTTAGAGCCAAGCTCTGCAGCTGCAGGCCCCTGCCCTGGAGGGAAGTGTTGGCATCTGGCTGCACCCTGTCCTTTGAGCCAGAACGTCCAGGC
Y
GGGTCTGCCTCACTGGTGACTGCCTGCCATCAGCAGGGCTCTGGATAGCCAGCACCTCCATGGGGAGACTGAGGCCCAGGGTGGGGGAGGAGCGCCGGAC
Celera SNP ID:            hCV29133017
SNP Position Genomic:     12511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29012):
ACAAGGAGAATTGCACCTAGGGAGGGTGTGGGAGGCCCCAGCGCATGCCCCTCACTTGCATAGAGGCCCTGGAGTGCTCGGCGGCCCAGAAGAGTGAGGC
Y
ATGGGCTCTAACCAGGCTTCTGCAGGGCAGGGGCAGAGGGATTGGGTGGGTTGTGAGGGGTGCATCTCCTGGAGGGCTGCCGTCCCACCCAAAGGCAGCA
Celera SNP ID:            hCV29133018
SNP Position Genomic:     12249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29013):
AATGCCAGTTCCAAATGGCAGCTCATGAACACGGCTGTCCCTGACCACCCTTCGCATCCCAGGATGAGACGAGTTGATGAGACAAGGAGAATTGCACCTA
S
GGAGGGTGTGGGAGGCCCCAGCGCATGCCCCTCACTTGCATAGAGGCCCTGGAGTGCTCGGCGGCCCAGAAGAGTGAGGCTATGGGCTCTAACCAGGCTT
Celera SNP ID:            hCV29133019
SNP Position Genomic:     12168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29014):
TGGAAGGTTATATCCCTGGCCCCACACCCTCCCATGACCCTCTCCTCCTGTCCCCCTCCCTGAAAAAGAAGCATCCGAGGCCCAGCCCCGAGCCCCTGCC
R
TCTGGGCTCTGCCTGGGCCCCTCTGGCCCCTGCCGTGACTCCTCATCCACAGAGTGGTGTCCGTTCATCTGTGTGGAAGGGTCAGGGTGTGGCAGGGGCC
Celera SNP ID:            hCV15794046
SNP Position Genomic:     15582
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29015):
AATGCATTTTATGTCTCCTGCCTGGCCTGGAAGGTTATATCCCTGGCCCCACACCCTCCCATGACCCTCTCCTCCTGTCCCCCTCCCTGAAAAAGAAGCA
Y
CCGAGGCCCAGCCCCGAGCCCCTGCCGTCTGGGCTCTGCCTGGGCCCCTCTGGCCCCTGCCGTGACTCCTCATCCACAGAGTGGTGTCCGTTCATCTGTG
Celera SNP ID:            hCV15794047
SNP Position Genomic:     15555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29016):
TGCCCCTCCTCCAAAGCTGCACGTGCCTGTGAGCTCCACACTTTCTGTTCTGCTCAGGGGCCGGGAAGGTGAATATCTAGATAAGGAGAATCTGGTGCCG
R
GAAGACCCCCTGGACTGTAGGATAGCTCTCTTGAGGTCCTGGAATGCATTTTATGTCTCCTGCCTGGCCTGGAAGGTTATATCCCTGGCCCCACACCCTC
Celera SNP ID:            hCV15794048
SNP Position Genomic:     15412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29017):
GGTGCCCAGGACATTTCGGCGCTGCGTTACGACAGCTCATTGTGCCTCTGGGCTCGGGGCTGGAGCAGACGGGCGCAGCAGCCCTGCGGCTGAAAGCCAC
Y
GTCCCCTGCATTGGTGGAGGCTGCTGGCATGCCCTCGTGTATCATCCTGCCTCTTCTCTGGGGTCTCCCCACCCTCCTCCCTGGCCTGGCCTTCTGGAAA
Celera SNP ID:            hCV27991810
SNP Position Genomic:     20177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29018):
GTGTGGGGGAACTCTGGAGCCATTTGCATCCTGCCTGCCCCTAGCATCCCTGTGTGGACTCCCTGGGCCTCACAGGTTCTCAGCTAAGCTGCTGGACCAG
M
GAGGCAGGTCCCACTGGTGTGGTTCATGAGAAGTGCGTGGACAGCACCATCCTGTGCTGGGAGGTGACAGACAGGTCAGGAGTCTCCAGGCAGAGCTGAG
Celera SNP ID:            hCV12062300
SNP Position Genomic:     9560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29019):
CGAGGCCCAGCCCCGAGCCCCTGCCGTCTGGGCTCTGCCTGGGCCCCTCTGGCCCCTGCCGTGACTCCTCATCCACAGAGTGGTGTCCGTTCATCTGTGT
R
GAAGGGTCAGGGTGTGGCAGGGGCCAGGCACGCAGGTGCTGCCAAGCTGTCTGAGGTCAGCACCTCCCCCACCATCCTGACCATTCTGAGCCTGGCAGGA
Celera SNP ID:            hCV11296953
SNP Position Genomic:     15657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29020):
GGCAGGTGTGGGGGAACTCTGGAGCCATTTGCATCCTGCCTGCCCCTAGCATCCCTGTGTGGACTCCCTGGGCCTCACAGGTTCTCAGCTAAGCTGCTGG
R
CCAGCGAGGCAGGTCCCACTGGTGTGGTTCATGAGAAGTGCGTGGACAGCACCATCCTGTGCTGGGAGGTGACAGACAGGTCAGGAGTCTCCAGGCAGAG
Celera SNP ID:            hCV12062304
SNP Position Genomic:     9555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29021):
ATTGAGTTTCCAGGAAAAATAGGCACTGATTTCTAGAAGGAAATTAACTCCTTACCGAAGCTATTTATTGAGCCAATATGGCTGGTTAACGTCCTCACTA
K
TATAAAGTAACCCAGTGCAGGACTCTCAGACATTAGCTGAACCAAGTGTACACAGTCAGACTGCAAGGGCACTGATGAGGCTACTCTGAAAGCTGGTTGT
Celera SNP ID:            hCV27920791
SNP Position Genomic:     75035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:29022):
CTGCTCAGCCCCACCTGAAGAGCCCAGAGAGGCTGTCTTCCTACCCAGCAGGTCTCATGCAGGCCCAGGGCTGGGGATGCAGGCAAGAGGAGGGAGATGG
Y
CGCCCTGTCCCTCTCCCTAGCTGGCGGCTCTATTCTGAGCAGTTCTTGCTGCCCGTTTGCTCTCAGGGGAAAGGCTCACGCCCCCCATCTTAGCCCCAGG
Celera SNP ID:            hCV27920792
SNP Position Genomic:     72476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:29023):
TGTAAGATCCCTTCTCCCTGGGTCCTGAGGGAGCCACCCGAGGAAGACTGGGCAGGTGGGTGTTTCTGGGGAGCGGCAGTGGACCCCCCGCCTCCCCCTG
W
GGAAGGGCCAGCACCTTCCTTAGCTGGAGCTCTTCTCTGTGTGCAGAACAAGCCCAGCAGGTGATTTCAGCTCCTGCTTTCCCTCCTCGGGGAAATCCTA
Celera SNP ID:            hCV27920793
SNP Position Genomic:     61270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29024):
TTGTGAGATGGGCCTGGACGAACCAGCAGCCAGTACTGTCTCAGCCTCCTGATTGCCCCAGCCAGATACTTCCTGCCACTGGGACTGCATGACAGGCCCT
S
GGGGATGCACACACCAGCCAGCTGGGGCCTGCCCCCCTGGGGGGCTCAGAGTCAGGTGGTAGAGACATTACAAGATGAGATAGAATAAAAAAGAACTAGA
Celera SNP ID:            hCV27920794
SNP Position Genomic:     21460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 118
Celera Gene:                 hCG2031283 - 209000073886476
Gene Symbol:                 CARK
Protein Name:                cardiac ankyrin repeat kinase
Celera Genomic Axis:         GA_x5YUV32W802(8623507..8944310)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12278):
TGTTCACGATAGCTAAGATTTGAAAGCAACCTAAGTGTCCATCAATAGATGAATGGATAAAGAAAATGTGGTACATAAATGCAATGGAGTACTACTCAGC
CATAAAAAAGAATGAGATACTGTAATTTGCAACAACATAGATGGTATTGGAAATCATTATGTGAAGTGAAATAAGCCACACACAGAAAGACAAATTTTGC
ATGTTCTCATTTATTTATGGGAGCTAAAAATAAAAGCAGTTGAACTCAAGGAGATAGAGAATACAAGAGTGGCTACCAGAAGCTGGGAAGGGTAGCAGGT
GGTGGGGTTGGGGATGGTTAAGGGGTACAAAAAATAGTTCAAAAGAACGAATAAGACCTAGTGTTTGTTAGCACAACAGGGTGACTACAGTCAAAAATAA
TTTAATTATACATTTGAAAATAACTAAAAGTTTCTAATTTGATTGTTTGCAACAAAACAGATAAATGCTTGATGGGATGGATACCCTATTTGCCCTGATG
TGCTTATTACGCACTGTATGTCTCTATCAATATATCTCATGTGGCCCTTAAATATATATATATCTGCTATATACCCACACAAATTAAAATTGAAAAATTA
AAAAAAAGAAAATAAAAATTGAGAAAAGAAAAAAAAACTCTCAAATAAGTAGAACTATTATTTTGTTTTCCCTCCCCCCAATTTTTTATGTTTGTTTATT
ATACGATTTAGAAACCTCTAATTAGAGAAACCTCTAATTTTTAAAACAAACAAACATAAAGTTGATTACATTAGATTCTAAATAACATTTTTAAAAATGT
TATTTGTCCAAAACAATAATTAGTTATTAATTGAACTATAATTATCACACAATATCATTTTTAAGCTGGTTAATTAACTCTTAGGATGGGTGAAGAAAGA
ATTAAGAAGGAACGGAAGTGGCCTGAGTCATGAAGTTTAGATTATTCTGATTATTTTAATTCCTCAAAGAAACTTTTTCTGATTGAAATTTAGCCTTTAA
TAGATGGACTTTCTCATGCCAATCATGTATATCTCATCATAGGACAAATACTGCATTGCGGTTACCTGTTTACTCATGCATCTCTGGCCCCATGAGCTCT
GTGGATTTCTTGGTACAATACGTATTTGTTGAATGGATAAATGGACTGATCAGTTCGTAAATTGAGCTAGACTGACAATTCAAAGAAGTCATATAAATTT
GGAAAAGAAATTTTAGCCAGTTACAGAAATGTGACTCTTACCTCTATTTAATCTAGATTATTTAATCAACTTTATTTCATGTTTACCCACCAACAAAGGA
AATCACAGGAAAAACTATGATCTTTGCATTTGCTGTTATACTTTATTGGACACAGAAATAGCAATATTGTTTATTCCTTTTTAAAATATACTCTGACAGT
TAAAGATACTGAGAACACATACTTAAATTACTGTGACATTATATTATCATATTATAAATATATATTCATTATAATGTATTCTCAAGTCTTACTCATTTTT
GAGGATTAATCTGAATATTACCTCAACATGTTCAGACTGATGATGGTGATTTATACATCATCCAACATACTAAAAACTTAGATATTCTAGTGAAAAAGAA
AGAAAATTGTTTGATAAATAAGACTCTTACAAATTATGCTTGTTTAAATGCAGAAACACATTATTTAAAAGAAAATTAATCAAATAATTGTGTGCACTTG
AATAGTTGTATGCATCTTAGGCAATGGTCAATTTATTTTTAAAATAATTTTATTTCAACACAAATTATTTAATCTTTATTAAAAATAAAGGAAAAAAACC
TAAATATAAACTAACTAGTAATTCCACCTTCTTATGTTTAAAGCAATGATTAATTTGTCAACCAGATGCAACGCATTGAAACTCTATGCTTCCCCAAAAC
ATGGAAATATATTAATAAGGACTAATATACAATGAAGAAATTATCAAAGTATAAATTAATTCAACTTCTAAATGTGATAATAATTGTTCCAAGTGCATTA
GTTTGATTTCATGGGATACATTTTCTTTTATCATTTCTCTGTTGGAACCATAAAGGTAGAAGTGTCAAGGTCAATTTTTACGTTTTTCATTTTGAAAGCA
TCCTTTTAAATCTTTATAAAGAAATCAGTATAAAATAAATATAAATAGCAGATGCGTAAGTGTAGAYTGGGATAAATAAATCGTATAAACCCCAAATAAA
ATAATGCAGAAAGAACATAAGTGGGTTTATTGAAGGAGTATTAGAATATAACTATTTGTATGCAGAAGTGGTCTGAGAAATCAGTTGAAAAGACAGAGGC
ATTAAAACTAGATTTAGGCAATTCAGTAGAATATCAAACTTAGTTGAAACAAAGTAGTTGAAGAAATAATATTTCATAAATGTGTTCTGACATTTTCTAA
TGAAGAAACGAGCAAGCATAAAAGAAAGAAACCTTACTATTAATCATGTATTTGAGTTGGCTTTTCTTTATAAATTATTAAATTTCCTTGAGTACTTCAA
ATGCTCTTTTTAAGGAATTATTATTTTTTGCATCATTTGTTTTATATTTTTCCATAATTTTTTAAATTAATATTTTGTTAGAATTGTTTTCAGTTTACAA
AAAACATGGATCAGAAAGTACAGAGTTACTATATACTCCCCCTACACACACACAATTTTTCTTATTAACATCTTATATAGTATATTTGTTAACATGAATG
AACCAATATTGATAAATGATTTTTAACTAAAGTCCATAGTTTACGTTAGTGTTGTGTAGTTCTATGATTTTTGCCAAATGGATAATGTCATGTATCCACC
ATTAGAGTATCATACAGAATATTTCTCTACTCTAAAGATTTCCTGTGCTTCACCTACTCATCTCTTCCTCTCCTCTACCCCTGTAACCACTGATCTTTTT
ATGGTTTGTATAGTTTTGCCTTTTCCAAAATGTCATATAGTTGAAATCACACAGGATGTAGCCTTATCAGACTGGCTTATTTCACTTAGTGATATACATT
TAAAGTTCTTCCATGAATTTTCATGGCTCCTTTCTTTTCATTGCTGAATAATCTTCCATATTCTGGATATACCACAGTTTGTCTCTCCATTCACTTATGA
AGGAATATCTTGGTTGGTTCAATTTTTGTGAATCACTTTTAAAATACGAGACTATACTTGCATAGCCAAATCATGTATTGCCCCAGGAATTACCACAGGA
TAGAACTCTTTGATAATCTGAAGTAATCTTTCTTTTGTTTTTATTCTACTTATCTCTTTTCTCTTGCATGAAATTCAAAGGTAAAAAAATTTCTGTTAAG
TAGCATCTCACTTTAAGCAACCTTAAAATAGTGCTTCTTAAATGATGCTCCAAGTAGCATCTACATTAGAATCATCAGAGTTGCTTGTTAAAGTTCAGAT
TCCTGGGCTCTACTCTTGATGTACTGAATCAGAATTTCTGGGGATGGAGCCCAGGTTTCTATTTTTTTAAACAAAGCTCCTCATGTTGCCTACCCTCACT
AAACTTTGAAAGCAGACTACTTTTGTAATCAAGTTGTGTTTTTGATAATGTATGATATAACATGCTTTCTCCACTTTTGGACGTCTCAGGACTGGGGAAA
GTAGGATTCAACTTAGAGTATGTGGCCAACTCTTTATTAGAAAGAAGTACTTTTTACAGAAATGTACTGAGTATTAGGGAAAATATTTTTTGATTCTATG
TTGTTTCTTTCCAACATTCTTTGGAAAAGGAATGCAAGGATATTATCCTGGACCATTTACATTTCCAGCATTTCTTCATCAGGCTGAAGGTACCCAGAAA
AAATTACTCTAGTACCTCAAACCATTACCTAGATCCACATTCTTAAGAAGGGCTTAGAGATAAATATTGTTTCTTTCAAACCAGGAAACTGTTATAGTTC
AATAGTGGTTAATATTTTGGGTAATATTTTGAGTAATTTTCTGCATTTCTTATATTGCTATCGTTTCATTTTATTTCCAGCAAAATGTATTGCATTAGAA
TGTGGGAGAATTCAACTGAGTTGCTGATTGGATTTTCAAACTCATCGCAGAAATCACACCTTTGAAAGCCAAAGCTTTCATTTGTAAAACCTAGGCTTTT
TAAGAGAATAAAAGTATTCTTGAAAATCAAAAGGAAAAATTCTAAAAAGCAGTACATCAGACTTGTGTCCCAAGCAGGAAATTAGAAACACAGTGGAAGA
TGATGTAAGAGCTAATTTTTCCTCCATATGTGGAAAACATACATGTACACACACACACACGGATGGAAGATCCGAGATATTAGAAATAAGAAAAGAGATC
AAGAAAAATATATTTAGTTGTCCTCTAGAAGGCTCCCATCTTTGTCCTTCTGGATTCAGAGTATAGAAACCATGATTATTTTAAGAAACTCTGAGAGGAG
AAAGAGCTGGTGCATTATTTCCTAAAGTGTAGCCCTGGGAGATTGCAAGTCTTTTAAAGAAAGCTATCCAGTATGGTCTTCAAGATAAGGAAGAAGAGAT
TAAGCAGGAAGGTCCCTGGACAAAACAAAGACTTTCCAAACTGAGAAAATGGGGGTCACAGAAGTGCTTAGAGAAAGCTGGTGGAACTGAAGATGTCTGG
TTTTCAAACAAGGAGAATGTAGAGTGTATGGACCAAGGTAACCAGATGCCACTGCAGTATAGCAAGTATCAACAGCTGTGGTAGGCATGTACTGATAAGA
AGGGAAAAGGAGAATATGTCCAGATGAGGACAAAAAGTGTCTATGAAGCCAGACACCTGATGCGCCAACTATATCTCATCAGTCTGGAAGCCTTACCTCT
GAAACTTCTATTACTTTTGCTGAGCAAAAATATATGGTGAATCCTAACTTTGTCTAATCATTTATTCAAAAAGAGAGTTGTTTGAACATTTAACTATAGA
AAATATGAAATCTGTATCTGTTAAGTTAAAGCTATATCCTCTGGATGTGAATCTGAAGATTAAAATTTATACTTTCTAGGTATAAGAAGATTATCTGAAA
TAAATATATAGTGAAAAATTTAATGTTTTCTTTCTGGGTTTCCCATTTATTCTCCATCATAGACTGGGTTCTTTATATCAGTAGAAATAGGCATACAATA
TGCATACAAAGAGAAATGTCCTAATAAAGTAAATGGAAGGTGCATGAAAGAGAAATTCTGGAAGACAAATCAATAATATCTAGCTTGGATATTAGAGTCA
CATGGTCAGAACTGATTCCAGACTTCCAACTTACTAGTAACTTTGTGTTTTCTCATCCATAATTTGTGAATAATATCTACCTAGCAGCACTGTATGTATG
AGATTAAATAATGAGATATATGTAAAGCATGTAAACTAGGGTCTGACACATAGCAAATGCTCAATTTTCTTATTCTTAATCTTACTGTTCTTGTCATTTA
TTATTTTACGAATTGCTATTTGTAGAACTTAATGTTTTACATTCTGATCTATGATTCTTATGGTCGGAATAATCCACAATAGTATAAATCTTGGTCTATG
TTGAGAATTTCTTCATACAAACATAATTATGTAGCTCTTATACAGGCCAAACCTGCATTCATTTCTATTAGTTATATGCTAGAGGTAATGAATTTTTATT
ATTTATTTATGTATGTAGACACATTCTATTACCACTCTTTACCAACTGCCATTATTTTGGCTTAGGAGAAAATGATCTTGAAAACAGGTCTATGTAGTTT
TAACAGCTCTTTTGTGAACTTCGGATGTAACTGAATCATTTTCTAGATTTATCTGTTAAATAAATGGTCCATGAAAGTATGTATGGGTAGATAATTGATG
GAAGCAAATAATCCTATTGAAACATTTGCTATTTATTTTTGATACAGTTCTTTTAAACAGACTGATTAGTTCCCTTTATGATTTCACCCTCGAAAGCACA
CACGATTTTGTTCTTTATCATTGTTGCATGACATTCCATTTGGCAGTTGGGCKTATTTTTAGCCAGACTATCAAAGTATTTTTCAACTGGACTGTCACTG
CACTTGAACTTGGAATCTTATAACTTGAAGAACTGYCCTGGAGAAAGGAAGAAACTTATAATAAATGGGAAATTATAAATCTAGACCAACCCAAACTTGT
ACTGGTAATTATTCTAATTATTCTTATTTCCTTAAGTGTAATATGGTTCAATTATAGTTACTGATAACTAACAACTCATTGGAATATGTGTTAATTTGTA
TACGGAAGATAAGGCAGCATGTTWTGTGAAAGTCTTTGAAAAACTATCTGAACTCAAATTATTTTTTTCTGAAGATCTTTATAGGAAACAAGAAATTTCT
TACAAAAATATTATTTTAGTTCCTTGGTATAATGTTACAGAAAAAAATTTGGAATATTGCTGAATGTAGGGATTTTAGAATTATATCTTAAGTATCTAGT
ATTTAAAAACTAAAAACCGTCTTGCAACTAGAGATTGCTATAATTAAAATGCAATAAAATCAAATGAAATAAGTCAAATATATTTTTCTATGTAAATATA
TTATCCAATATCGAATGGGTTCTTCATTACTACAATTCAATATGATTGCATTTTAAATATAAACATCTGCATTTTAAACWCACAATCAGTAATTTAAATT
AAGTATTGTAGAATCTAGAATAAAAAACAGTTTTGATTACTTGTATGTTATGATCTGTGTCTACATTTTGYAAAACACAACTATGAATCAATCTCATTTG
TTCTTCTTTACTAGATGAATGGAAGAAAAAAGTCAGTGAATCATATGTTATCACAATAGAAAGATTAGAAGATGACCTGCAGATCAAGGAAAAAGAACTG
ACAGAACTAAGGAATATATTTGGGTAAAGTTGTAAGAGTCATTATTTCTTTGTATAAGTGTCTTCAGTATTCACCTTAWTTTTTAAAGTATCTGTATATT
TTTTAAACCCGTAGAACCTCAGACATAAGCAGTCATGTTCTAAGCCTTAGGATGTCAGATTATCTCTCTTTGACCACTCATATAGCTCTCAAAATGCAAA
CATAACATCTCACCTCCTTAAAATATAAATTGTAATCTGCCATCATTAAAGTTTAAAAATAAAAACCTAAAGGCTAGCCTTTGAATGCAAGCTATTGTTG
ATCTCAGTAATCTTCTCAGGAATTAGATCATTCTTGTAAACCATGCCGGCAATGAAAAGCAAGATTTTTCTTCCCACATAGTGGTCGCATATTGGCCACA
TTGTTCTCTTTGAACTATGACGGTAAGTCCAATTTTAACAAACCCTCTGGTCTCTTGACATTGAAAGGCTGTCCCTTAATGGAACTGAGTATCATTCTGC
CCCTGAACAATCATATAACAACATATAATATTGCCTTCAGGATTTCAGTAGATTTTGTTCCATGATAACAAGAGAAAAATAATCTAAGTGTCACAACCTT
GGAAGACACAAAATGTTCAGAAAAGAGGAGCAAGACCCTTATATACACAAAAAGCCTTCTGGTTAAATTGAATCTGACATTGAGAAACTAGATGCCCATT
AGAGGGTCAAGAAAGTTACCTGCCTGACTAAGGAAAAGTTCCATATAGGCCAATTAGCCATGTTCATTTATAGCTGTGTTATGTAATGCACTCATGGCAA
AGAACTCCCTCTATTTTACTTAGAAAACAAGTGTAAAGCAATGACCAAATGACACATCTTTAAAAYAAAATTTTAGATATAGTAAACATATAAATATCAC
ATAATTGGCAAATRAAATCACCCATGTATAATATAGTTTATATGAAATTCGTCAATGGATGTAACAAGGCTTTCACAAGTGTTCAACTTATGGTTCAAAA
AGTAGTTGGTTCTCTTTATAGTTTGGCCCAGGATGATGAACTCAACACTGACACTTGTGATGAGATACCACTGATCTGACTTTTGCAAGTAGTATCACAT
GTTGAGATATGGAACTACATTTGAAATTCCTGTAGAAATATGACTGGCATGTTAGTACAGTAGAATTATAAATATGTATTTGTTTTGTTGGAAAAGTATG
AATATAGAAATTAATCATAAACATCTAGCTCTTATTGACTTAAATAAATATGCTAAATGAAATATGATTACATTGAAGAGATTTTCCTCAACTTTTAAAG
GTCAAAGCCTCAGTTATTTAGTATTATTTTTTAATTTAGAAAGTATTGAGCACATAGGTGAAGGCTAGCTTAAACTAGATGTATCCAAACCTGAATATTA
GGATTAACAATGGATTTAAAATGTAGGTTCTTTCTGATACCACATCGACAACTACAAGCTGTTTTGACAACTGCTATAATGGACTTTTCCTGTGTTTCTA
CTAAATGCAACAAATGTGACCTTCTTTTTTCTGATTAGCATTGGGGGTGAGATGCAGGAATCTGTGTCAGGGAGCTTACAGTCCAGAATTTGTTGAGTGC
CAGCTCGTATTCAAGTGTTGTTCTGGATACATCAAATACAAGACATTATTTAATCTATAGTCATATGTAGATTGTTGTCATTTCATGTGTGCCGAATAAT
ATTAACTCCGGTGGATGATAAACTAAGGATTAGAGACAAGGCAGTGGGAGTTGTCAAGTCACATGGTCAGTAAATTCTGGAATGTGATTTGTGTCAAGGT
CTGCCTGACTCCATAGATAGCGCTCTTCCTACCATACCCTGCTTACAAAAACAAGATTTAGGTCCTGATTTATTCATTGATTTTTGSAATCATTGTAGAT
AAAAAGCATAGTTAAGTAAAGGTGTGTAGGCAAGAATGAATGAGTACCATAGAAAGTTTAGGAAAAGTGAGAAAAAATAATGTCTTCACCATATTATCTG
ACTTGAGTAAGAAAGCTATGTGAATCAATGTAAGAATTTTGGAGTCATACAAACATGGTTTTAAATACAGCTTCTTCTATTTATAAGCTGTATATCCATG
GATATGTTTTTTAATCTCCTTAATCCTCATTTTCATCTATAAAATGAGGTGAATAATAATCACCTCACAGGATATTTTCAAAATGAGGTAAATTAAATAC
TAAGTACAGGGCCCAACCCATAGTAAGCATTGAGTAGTTGGAAATTTCTATTATCATGATTGATTGGATAAATAAGGACAGTTTGAAGGATAGAAGACTT
ATCATAAAGTGAGAGTAACAAATAGCTTATTAAAAGTTAGAAAGAGTGAAAGTTTTTATGAAGAGGATGATTTCAAAATTAAAAATGTAAAGTATTAGCA
CAATTTAGGAAGATGCCGAAATCTGAAATATAGCTTTTAATGATTTTGATTGAAAGGGATTTGAAGAATTTTGAGACTAGAGTATTAGAAGGCTAATCAA
AATGGCTATCAAATTTACTGAGGATAATGGTGAGACATTTTTGGAGAGAAAGACCAATAGCCTGATGCTGATGACATTAAAGAAGCTACAGAATGTGATG
ATAAGGAAGCTGAGGAGAGGATTATCCAGTCYAGAATGATGTTTCTGCAAGAACTAGGGGCCTCTTATGTTAATGGAGATGGAGACTGTAGTACTTGCTA
AAATTTTCGATTCCATGACTCCACCCTTTATCATGTGAATCAGAATCTCTGGAGATGTCTTCCAATAACCTGAATGTTTAACAAGCTCCCCAGATAAAAC
TATGCATAATAAAAATGATACTTCTAAAGTTTGAAAACTATACTTCTAGAAAGATATCCAAATTGCACTGAGAACTCTTTGCCTGAGGTGATATTAGTGA
AGGGATGAGGAATATGGGAACAGAAAGTAAGCAACTGGTGTGGTCTAAAGAGAGTCAAGAGAATCAAAAACAAGCAAGCAAAAACAGAATAATCTGCTTT
TGTCTGATTTCGTCAAGGTAGAGAGCATAATCTGGGAGAAAAAAGTGAATTGCTTCCAGGGCAGAGTTCTAAGGATTTTCTTTTCTTTGGAATAAAATGA
TGGATGAAAGAAAGAAAAGAATAGTGTGCTGAGAATGTAAATTGTCTTACTCACTCATTCACAAAATTTTAAAGGTAGTTGGGAAGATCAAACCTAACAC
TGTATGAAATGACATTTAAATGAGTATCTAGAGCATTATAGGTGCTAAATAAATGTTAGAATCTCATTACTCACCCTTATTCATTTGTCTTATAAAGAGC
ATTCCTGTGATAAACAATTATGTTATGTTGCCTGACATCAGCCTTTCTCTAAACATTTAGATAGCAAGGAGACTGTATACAATGCCCAAAAAGGAACATT
TAAACTAGCATGAAACGTAAAGGATCACTGATGTAAACAGTTTTTCATTTGCTAACCAATTTCTTTATGGCATTCCCGGTAGATGCTAATTTCATTCATT
ATAAGAGATTTTTCACCACATAATACACCATTGCTCTATCAGCTCGAATACACAATCTTCCTGGCATAGCTTTTACCCACAACATAATAAACAGCAATAT
AGTGCTAAATGTAAGACAGAAAGAGCTAAATAGTTATCCTGCTTATGCCAATTTATAGCAGCTTTGGAATGGGAGCTTGATGTGGGAGAGAGGGGAAATG
GAAATGGAATGTTCTTTCATCTTCTGCTATAAAGTTGCATTCACTCATAACTTTGGACATTTGTTTAGGTAATGGATTGGTGACAGGAAGAAATGAAGAA
AAAGAGAAGGCAGGAGGAGAAAGAAAGACAGAAAGGGCACCTTAGAGTACCATTGTCTGATTATATCCTCCTCTGTGCTGCCTCTAATCTTTATCAACAT
AACAGCACTTACTACATGGTGTTGTTTTTATCCATTTATAGGTCTATCTCCCCACTAGTATATGTGTTCATTAAAGGCAGCTTTTTTTCTTATTTAGCCT
TATTTATATTTGTACTTATTTGTAAAACAAACTAATAACTTAGGGCTTACCATATGCCAGAAATGCTTCTACGTATCTTTTTGTGCATCAGCTTATATAA
TCCTAATGGTGTATATGTAAAGTGCTTTAGCACAGTGTCTGGCACATGGCAAACCCTCAAAAATGTTAGTTAACACTTAATCATTATTGTTTATGTTAAC
AACCCTCTGAAGTAAGTGTTGCAATTGCCATGTTATACCTGGAGAAAATGAGGCTAATCAAATTAAACTGGCTTGAACTAGATTAAACAATTTGTATGAT
TTACCTAGGATTGCATCCATCTTTATTTGATTTCAAAATGTATCATATTCATAATCTTGGTTATGAATATTATACAACCTTTTTGAAAAAACTATGGAAG
TGATGGCTCTCCACATGTGACTTCAAATGTTTTCAATTAAATTATTTTGTTTCAATAGTTTTTATCATAATAAATTTTAAGACTATGTTTTGCTAATTTC
ATTGTCAAGCCAAATTTGTATCTGCTTAATCTATAATATGAAATTTAAAACCATGAGAATACTCCAGAAAAGTTATAATTTTTCTTTTTCTTTTTCTTTT
TTTTTTTATTATACTTTAAGTTTTAGGGTACATGTGCACAACATGCAGGTTAGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACT
CGTCATTTAACATTAGGTATATCTCCTAATGCTATCCCTCCCCCTCCCCACACCCCACAACAGGCCCCCGTGTGTGATGTTCCCCTTCCTGTGTCCATGT
ACTCAATTCCCACCTGTGAGTGAGGACATGCGGTGTTTGGTTTTTTGTCCTTGCAATAGTTTGCTGAGAATGATGGTTTCCAGCTTCAACCATGTCCCTA
CAAAGGACATGAAGTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGG
TTGGTGCTTAGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAATAAACATACATGTGCATGTGACTTTATAGCAGCATGTTTTATAATCCTTTGGGTA
TATACCCAGTAATGGGATGGCTGAGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCATCACACTGACTTCCACAATGGTTGAACTAGTTTACAG
TCCCACCAATGGTGTAAAAGTGTTCCTATTTCTTCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGACTGCCATTCTAACTGGTGTGAGAT
GGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAA
GTATCTGTTCATATCCTTTGCCCACTTGTTGATGGGGTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTAGATATTAGCCCTTTGTCAG
ATGAGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTGTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATC
CCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTTCTTTTCCTTTTTTTTTTTTTTTCAGACGGAGTCTCGCTCTGTC
GCCCAGGCTGGAGTGCAGTGGYGCGATCTAGGCTCACTGCAAGCTCCGCCTCCTGGATTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACT
ACAGGCACCCACCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGA
TCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCGCGCCTGACCCAGAAAAGTTGTAATTTTTAAACACTATGACATCAACATA
ATCCAAAACAACTTTTTTGGCATTGAGTAGATACATCTTGGTCAGTAATTACAGTGCCTCACTTTAAAATTGACTAGGTTTAATTATGTACAAAAAAGTG
GTCAAAAGAATGCTCTGTTCCATTAAATAGTCACAATGTATAGAGGAAATAAAAAAATGTTTTCTGAGATACACCTTTTTGTACCTTTTCTCTCTGAAAA
GTTCATCTGAGGCCTGTTGCATTCCACTATACTCATCCTTAAAACAAAATATCTTCTAAAATTATTGCACTATAGCCAACTATGAAATTTGGCTATTATA
AGATGAATAGCACTGGAAACTTTTCAAGCTGATCTTATTTAAGAGGAGTAGACCCTTTCTGTCAAACTACTAAGTAGGATATTGAAGGGGAAATGTCATC
TTATAATTAACATAGAATGAAAATATTATTTGGCATGTTTGGTAGTGTGTTTTGCCAATTAGCCACAAAACAAAAAATAAGAATCGTCAACAACAAAAAA
AACCCTCAAATCCAAAAGGAAACAAAGAATTCATAATGCCCTAAGTCAGTCTATTTCTCTAATTCTTTTCTTGTTTGTCCAGGTAAAACTAGTTAAGAAC
CATAATTTTACAGGAATATCTTGTGAAATCATTGAGAAGCAACTTGACCTCAATCTCTCTCTGCCTCTCTCTCTCTATCTCTCCCTATTGTTCTCCCTCT
CCTTCTCCATCTGTAGCTCGCTATCTTTCTATCATTTTCTCTCCCCCTTACCCTTCATCTCTTCTTCTTTTCCATCCTGTACCTCCATGATTCCTTCTTT
CCTATCCCTGTTTTGAAGAGCAAAACAATACAAAAACAGTAAAAATAATATCAATGCCTTAATAGAAATAACTATTATAGCAGCTAATATTTATAAAAGC
TTTACAAGCTCTAACTTATTTACACTTCACAACAATCTTATAAGATAACAATAATTATGCCAATTTTATCATATCTGTCACTCTAACTATAATTGTTTAT
TGTATGAATGGCTGAATAAATGAATATACTTCACAGTATTAGTTTGCAGATTTTATTTGCAAGATATCAAACAAATATATTTCTGGATATTTCTTGGAGA
TATATATTAGAAACAGATCTTATTGATATAGTCTGCTTCTATTGTTTGGAGGGCATGGGGCAGGGAAGAATCTGCAATGAATAGGCAAGAAGTTGCAACT
AGCCATTTGAAACTTAAATGATCAATTTGGGAAACTAGACAACCCATAAAAAATCCTTACCTTCTTTCTACATTCTTGGCTTTTCCCTAAGTTTTAACCA
ATGAATTAGCTTTAAAATATATCTACCTGTCTGAATACCTTGGAGAGCAGTGTGTTACTTTTTGGCCAACTGTTCAAATGTTACATTTTAATAAGTTCCC
ACTTGTGGTCATGTTAGATATCTTCTTGAAAGGATGAGGTCATGAAAAAGAAGTTTAATTGGATCACAAAACTGCACACTTTTCTAGGTMAAAGGTAAAG
GCTAGGAAAAGAATTCATTATGCTACAAGAAAGAAAGTAACCTTTGGGTACAGAACTATCATTTTTAATGATTAAGAACAGCATTTACTATTAGAAATAT
ATTCATAATAGTGGCTTTATTTTAATTAGGAACTTCATTCATGCCCCAGCATGCACTATGAACTCTTTAGGATATGTTAAGTTACAGTGTGGCATGGCAG
GTGATGAAAAATGTAARGGGAAATTAAAAAATAAATTGAGCTTAGGGTATTAGAATACATAAGTGRTGCTCAATTGGCAGTGAATTTGACATACACAGTT
ACTTTAGAAGAGGCAAAAGAAGAGAAAATGGAATTTCTSTCCTAGGAATGATTGCTTAAATATCTTGAATATTTTAATTACATGTTTCAAAACAGAAACG
TTTGACTAGAAGTTAATGGGAAGTGAGAATTAGGATTCAAATATAGCCCCCAAAGTAACTCTCATTTTAAAAATGTACATTCCAGTTATTAAAGTTGAGC
TAAAAATTGTACTATTAAAAATCACACTTGACTGCCAAATATTATAGGAGTCTATTCTCTGTTGATTCATTTTGTTGACATTAAGAGAAGCTGCATGAGT
TCAAGGAGGATATAATTCAAGAGGAGAACAAAAGCAACAAGCAGCGGCTCAGTTTAAAGCAAGGAACTCTTTAGGACTCTATACTGAGTCACTTATAGAT
GGTAAAGTCTAGTTCAAGATTCAGTTAGCTGAGGAACAATTGTTGAATAAAGAGTCATTAATTTTGCTTTCAATTTTATTTATGTAAATGATAAACATTC
ATCTAGTGCCTTTCTTTTTTAAAAATAAAGCAATGGACCCTGGCATCTTGTATTTTCTGTTTATTCCATGTTCATTTGTTTTGCAAAGCTGATCAGAGTA
TTAGATATCAGGACGAACACAGCAGTCAATTTCAGGATTTTATCTAGTATGTGTATTTCCAGGACTGATGCATTCAAAGGATCCGGGATTTAGTGAGTAG
TTTATATCAAGGAGACTCTTGAAAACAACCTGAAGTGAGCCTTAAGAGCAGAAGTGAGGCGTATAGTAGGTGTTTAGYAGGTGTTGTGCCAGACTTATTG
AATGGATCATCAAATTTAGATCACAGAATAAGAAAGCAATTGAGTTTACCCTCTCAAATAAAGTGATTTTCATCTCAACTTTAACTTTTTACCCTCCTTT
GCATTTTTCATTCTTTGAGTCTCTCCACTGTTGAAAATGTAGTAATATTAAAAGTTYGAGAGATCAAGTTTAAATAAGAGAATCTCATGTGCAGTTCTGT
GTTCTATGTATAATTTAAACTTTTCAGAGCACCATGATGAATAAAAATTATGTATACATAGAAAACAGACATCTGAAAGTAAACTCATTTCACTCACACA
CAAAATCTCACATAATATCTACGGAGAAATTCAGGAAAATCCTTCCAAAAAGAAAGGTGGGGGGAAGTAGCATCTGATAAGATATTGGAAAAAAGAATAT
AATCCCAATGTATTACAACTTCTGCCTGAAGCAAAGTTCTCTTGTACTCTGACTGGGTCAGATTTCACAGATAAAGGTCTAAACTCTGGTAGGGTACTCT
GATATAGTCCCTGGTGAGAAGTGGAGTGATTCTATTAATGAAATCCTTGTCTTTGTCTGAACAAAGACCATTGCCCCAGGAGGGCCCTTGAGAGCCACAG
GTAGCCTTTCAAAAGGAATGTAAAGCTAAAATTCTCGACCTCTTGAGGTCCACGGTGCTCCCAGGACATTTTTCAGTAGAAATGAGATCATATCCTTGGC
TTCACAGGTCAATTTCAAGCTGCCTCCTGCCTATTTAAATCTCTAGCAGCTTTAGAGAGATAGCATAGTATTTGGTGAGTGAGCCAAAGTTTCATATCAC
TTGTAAAGTACTTACACTTGAAAGGTACTATAAATTCAGAACATTATCATCAAGGCATCCAGTTAAGAACATCAAAAGCTATTGGAATTTTAAAATAGAA
AAAGAAAAAGTGCTATTCTCCAGGGTACTGCTAAAAAGAGAAAGGCTCTAAATCCAGGGTCATTGAAGAACCTCAGTGAAATGCTTTAATTAGAAATGGC
AAGCCTTGTGGTTTATTTTCACAGCCATGGGAATGCAGTATTCCCAAACTTTTTTTACCCTCCTACCCTTCTTGCTTTCTGTGTTCCCCTGCAGCAAAAC
ACATAGACATGCTTACTAATACTGGGAAACACACCTCAACTTGCTTTGGAAAGCCTTTTGTGGAAGTACAATAAACTCCAGTGTTTATAAATGTTAATAA
TATAAGAAGGGGGTTCAGAATTTCATGAAGATAGTTAAGAATTTAACTCACTTCTATCAGCAATTTCCCTCAGCTCAAAAAATACTGCAATCAAAATCAT
TTCTGATGAAAATGCCACTGTTTTAAATGTCTACTTATAATAAAATGAGCCTACTTATAAATGATAGAGCTATTTATGGTATGGCAGTAACTTCACAAAA
TAACATGATTCTTAGAAATGTGTGGTCTTTGGCCCAGCCTGGCTTTTAAACCCTCAAAGCCAAATATATTATGGATGTCTTGGAAGAAAGTAAACTAGGT
ACTTGGAACACACTTGGAAATGCAATCACAGGTCACAGAGGTCTTCTTTGTGGTTATGACTTCAAATAGTAGAGGTATTCAGCGGAGCTGAACTCTGCCT
TTCAAGCTAGGTAGATTGGATTTTTCTCTTAAAGTTTGTAGGGAATCAGTGTCCATAAATAAAAAGGGAATGAAAACTGTGACTGGAAACTGAGAATGTT
GATGGACARTGATTCAGCTCTGAGCTGCTTCGGCTTTTCTTCCCTGGTCTTTCTATTGTCCAGCAAATGAAACACACTATAAAACCACAAGAAAAAAAAA
CAAAGTATTGGACTGGGGGAGGAGAGAGAGGCCTTGTGATCCTAAGAAAAACTATGTAACCAGCAGCCTAAGCAAAACAGGGAAGGATGCACATTCTTCT
GAGCTAATCATAATGAACTTAATGGCAAATACTGAAAGAAGAAAAAGCTTTGGAGCTCTTCTGTAGCAATAAACACCTGAGAAAATGCAGTTTTTCAATA
TGTATGTCCAATATTGTATAGCAATACCTGTTATGTTTTGCTGTTTTCAAAGTGGAAAAAATCATTTCATCAGTGTGGTAATCCTTGAAAGCCTCATTCT
TATAGTTATACCAGGATTCAAATCCTATCATGACTCTGCCTTTTAAGTAGTTTGTTCTTTTTTTCCAACTTGGGCAAGTTATTTAACCTATTTAAGCTTC
AATTTCTTCAATTATAAAATGAGTAAAATAATATATGTGACAATATGCATGACTTTGTCCTGTTGTGTCCGGAATTGGTGGGTTCTTGGTCTCACTGACT
TCAAGAATGAAGCCGCGGACCCTCGCAGTGAGTGTTCAGTTCTTAAAGATGGTGTGTCCGGGGTTTGTTCCTTCTGATGTTTGGACGTGTTCCGAGTTTC
TTCCTTCTGGTGGGTTTGTGGTCTGCTGGCTTCAGGAGTGAAGCCGCCGACCTTCGCAGTGAGTGTTACAGCTCTTACCRCGGCGCATCTGGAGTTGTTT
GTTCCTCCCGTCCGGAGTTGTTCATTCCTCCCAGTGGGTTTGTGATCTTGCTGGCTTCAGGAGTGAAGCTGCAGGCCTTCATGGTGAGTGTTACAGCTYA
TAAAGGCMGTGCGGACCCAAAGAGTGAGAAGCAGCAAGATTTATTGCAAAAAGCGAAAGAACAAAGCTCCCACGGTATGAAAGGGGACACAAGCAAGTTG
CCGATGGTGGCTGGGGCAGCCTGCTTTTATTCCCTTATTTGGCCCCACCCACATCCTGCTGATTGGTCCGTTTTACAGAGAGCTGATTGGTCCGTTTTGA
CAGGGTACTGATTGGTGCATTTACAATCCCTGAGCTAGACACAGAGTGCTGATTGGTGCATTTACAATCCTCTAGCTAGACATAAAAGTTCTCCAAGTCC
CCACCAGATTAGCTAGATACAGAGTGCTGATTGGTGCATCCACAAACCCCAAGACAGACACAGAGTGCTGATTGGTGCATTTACAATCCTCCAGCTAGAC
ATAAAAGTTCTCCAAGTCCCCACCCAACTCAGGAGCCCAGCTGACTTTGCCTAGTAGATCCCACGCAGGGGCCGCAGGTGGAGCCGCCTGCCAGTCCCAC
GCTGCGTGCCTGCACTCCTCAGCCCTTGGGTGGTGGATGGGACTGGGCACCGTGGAGCAGGGGGTGGTGCCCGTCGGGGTGGCTCAGGTTGCCTGGGAGC
CCACGGGGGTAGGGGGGTGGAGGGGCCTTGGGCATGGCGGGCTGCAGGTCCTGAGCCCTGCCCCATGGGGAGGCAGCTGAGGCCTGGCAAGAATTCAAGT
GCAGCGCAGGTGGGCTGGCAGTGCTGGGGGACCCGGTGCACCCTCTGCAGCTTCTGGCCCAGGTGCTAAGCCTCTCACTGCCCAGGGCYGGTGGCACCAG
CCTGCGGCGCAGAGTGTAGGACCCACTAAGCCCACGCCCACCCAGAACTCACGCTGGCCTGCGAGCACTGTGCACAGCCCCAGTTCCTGCCCACTCCACT
CCCTCCACACCTCCCCACAAGCAGAGGGAGCCGGCTCTGGCCTCGGCCAGTCCAGAGAGGGGCTCCCACAGTGCAGTGTCAGGCTGAAGGGCTCCTCAAG
TGCAGCCAGAGTTGGCACCGTGGCCTGAGGAGGTGCCGAGAGCGAGCGAGGGCTGCTAGCACGTTGTCACCTCTCACTGTGGTGAGGAATAAGTAAGATT
AAGCGCTTACTACAGTATCTGGCATGTGATATGCAATCAAAAAATGATTATTGCACTGTTGTTACCATTGCCAACTTCACTGTGAATATACAACTTTCTT
TTTGAAGTATAACTCTTGGGATAATTTTAGCATCATTTTTGTTGAGGCTTAGAAAATTACACCTCAAAATGAAGGCCTTACAAGCAGCCTTAGAAGCCAA
ACTTTCTCTCTGACCTTCTCCTGTCCTCTTGTCTCTGGCCCCTCATTTTCCCCAGAGGGTAGCCATAGAGACTAGAATCCCTCTCCCCTCAAGGCAGGTC
ATAGAAACTAGAACTTACAGAGTTATTCCTGTATCTTTGAGTCTTCATTCTGAAGGCTCTTATGTCTTGTATCTCTTGTGCCTTTTAAAACTATGATCAA
ATATATTTTATGCCTTTTCTTCTATTAATGTCCCTTTTGTCAGTTGATTTCAGCAAACCTTCAGAGAGGCAAAGGGGAAGGTCTTTCTTGGCCCCTATAA
TTTCATGCCATATTTGACTTTTCTTGGCCTTTTATATTTGACAACAATTTTCTGATTTCTGATTTCCTGATTTACATAATAATCAATTTTATATATGTAT
TATGTAAGTATTCCCTACTAACAGTGACTCTCAGGTTCCTAGATGATGTCTGACCTTGGTTTTACTTGTCTTTAAAAAGTGCCACTAAATTCGCTATTGT
GACATCTAGTAGCTGTCAGTGATTCTGGAGCAACTATTGGAATCATAGTGTTATTTCTGGTGACATCATTACAATGTAAAACTACAGAATTTCCTCTCAA
TTTTAATTCTTCATATAGAGGGTTCAAGATTCTTTCTGTAAGTGCAAAATAATCTTAGAAAAAATACATTTCTGAATTGATAGTAACAGGATTTGCATTT
ATAATTTTCAAATGAAAGACAATATGCTAAAAGATGAATTTTGTGATCATCTGTAACATGTTTTTTTCAGCTCTGATGAAGCCTTCAGTAAAGTCAATTT
AAATTACCGCACTGAAAATGGGCTGTCTCTACTTCATTTATGTTGCATTTGTGGAGGTGAGTACTTGAAACTTAGTACTTCTTAAACTGGTTATATGTGT
ATATCGTCAGTGACTTGAGCTGCTTAATAGTCTGCAAAAGAATTCTATTCATACTCAATTTTCCCTTYTGCTTTGCCTTTTCCAACCTTGATAATCTCAG
TTTAGGCAGTAACTATCAGGCAGAATATTCCAATTGATTTAGCTTTAAATATAAGCTTCATTGTGTTGCTACCGGAAACCAAGTCCCTCAGTTTGCTTGG
AAATCAAAAAGCACTTTTCAATATTGGGCATGCCAGTCAGGGATTAACTTAAATTCAGAAGCACTTAAAGATTCCCCAAAATATCATCAAGCAGTTGCTT
CACAGTATTCAACAAGAGTATGTGGAAAAGTGATAAATGCCAAAGATAAGATCTAAAAGTGAAGATTGATCGAAGTGAAGATTAAGAGTTTAATTTGGCC
TACACTTTAGTTTGTTTTGTTTATCAATGTATCTCAAGTAATTTGAATGGTGCCTGGCCTGTAATAGCCACTCAGTAAAGTTATTGAATTAATGAATGAA
CCATTAATATTTATTTTGTTAATCCAAACTAAATTCATTGAGCTTAACTTCTTAAAATGGAACAGAAATGTGTAAGTGTCAACTCTAACCATATTCCTTA
ACCATTTCTCCCAAACAAACCAAACAGACTCTGCTTAACAGATTGTTCTCTCAACTTCAAACGTGCCTTCCCAACCTTGGTTATATCCTTCATATTTCTT
TGATCTAAATAAGCTCTACTGTTAATAATGTTCAGATAAATCCTCTACAATTAGATTTTTTAATTTAAGCTTTTTCACTAATAGTTTATTATGGTGAATT
CTCTTATGTGTTTATGTTTCAAAACCATCTGATGATGAGGGTACTAAATAAAAAATCTAAGACAGAGTCAAAATACACAGCATTTGAATAAAGTTTTATA
AATGGAAAAGAAATATCCCCTAGTAAGTAAGGTTGTCAATTAATAGAAAACTTTACAAATGGCCTGCAGAACGCAGCTTGACATTTTTATACAGCTGTAT
GGCATTTATCATTAGGTCAAAAAGAGTCTCAAACTCAMCCCATCCCCACAATGATTTAGCCTTTTTTCATTTTTCTCTTTAAGGCAAGAAATCACATATT
CGAACTCTTATGTTGAAAGGGCTCCGCCCATCTCGACTGACAAGAAATGGATTTACAGCCTTGCATTTAGCAGTTTACAAGGTAGGACACTTTAATTCCC
ATAAACACTGCATTGGAACTAAGGATAGTGTGTATCTTTAGGCTTTTTTTYTTTTTTTTTCAAATTAGTAATCATGGAAAATTTTCAGTGACCAGAGGCG
TTACATTACTAAAGGACTTCTTTCTCTTTATTGAGCAGATACCTGCTGCATACTAGACACATACTCTTTTTAATGCTTTCTGTATTTAACTCATTTAATT
CTCACAAGAACCCCATGAGTGAATATGATTATTATCCCCAAGGTTACATGGTTAGCCAGGGGTTAGCCAGGATTTAAGACAAGGCAGTCTAGTTCTGTTG
CCAAAGCTCCTCATCAGAACACCATGATGCCTCTGTGCAGAGAGAGATGAGGTTGTATTTAAAGACAAAAGAAGCACACTGAAGCTGTATTTCTTTACTG
CAAATTTTTCTTAAAAAACCTTTTTGCTTTAGCTGTTTATTTTCTTATATTAGCCCCTGGCTCCAACCTAATCTCAGCACCTGATAGAATAATAAATATA
ATAGTGGATTGGACAAACTGGGATACTTAGTGTTGGAATTGAACCTTGAGATTTTCATAAATATAAATTTATAAAACATACAAATTATATTATGCATTGA
TCATTTTATAATTATAATAMTTTCTACTTTGTATTTATTATGAGCTAAATATCATACTAAGTTTAATGTATTTTAGTCATTAAAATAACTGCATATTAGG
ATTTACTTTACAGAAAATGCAATTAAAGACTAAAGTAGATACCTGGACAATATTAGAATAGTGATTAAAGTCAAGTACAGTTGGCTCATTACTCCCAGAA
TCTTATTTGTATATTGCGTATTTTGTTCTTTCTCATTTTCAAGCGAGTCTGTGACAGAATTTTATTTCAGTTTTGTGTGTGCACGTGTGGGAGGAGGGAC
AACTTTTTGCTTGTATTAGGAACCCCCTGCACTATCTCCCTCCCCCAACTGCTAGAGAGTTTGTCATTGGGAGGGAAGAGGACCTTATTTTCCCATGATC
TAGCATCACAAATTCCTGTAATTCATAGCGCAAATACTCTAAAGTTTCATCTCTTTTCATGCCCAGTCAATGCCTAGTCAATTCTTCTAATTCCTTCTGG
GAGAAAGCCTCAGTTAAGTGCTAAATTGTCTTTAGTACCTGTTAATTATCCTGCTAAACTATGAAACATTCTGAGTTTCCAGTGTAGAAAACAGCATCTG
ATGTTGACTTTTCTTCTGAAAGGCAGGAGGTGAAAGTAGAAGAGCTCCAAGGAACAGGAAGGTAGTGAATGATAGTCATGGCACTGTATGAAACCATGAA
TTCTGAACCTCACYGTCTGGGAGATTTTTTCTGTATTAGTTCATYTTGCAAAGATTTAGCATGACATTGGCACACAAATGGGTTCTGAATCATTTAGTCC
TACAATATTTAGAGAATATATTTCTTCAACCTCTGTTTATAATAATTAAATTTCCACTTTTAGAGTTTTCTTTGCTCTATTTTTATGTTTTTTTCTATTT
TAGAGAAGGGTGCATAAACTATAACTTTTTCATAGCAAGTTTAAATGAAAATTTAGATTCTTGGGAAACAAAGCAGGCAAAAATATTAAAAGGCCATAAG
AAAATGCATAGTTATTTTGCAAATTTCTTAACAAAAGTGAAAAACAAATTAAAGTTACTATTTCATTTTAAACACAAAAATAATATAAAGTAGTTGTGTG
TCCAGAATTGGTGGATTCTTGGTCTCACTCACTTCAAGAATGAAGCCAGGGACCCTCGCGGTGAGTATTACAGTTCTTAAAGGCGGCATGTCCAGAGTTT
GTTCCTTCTGATGTTTGGATGTGTTTGGAGTTTCTTCTTTCTGGTGGGTTCGTGGTCTCGCTGGCTATGGAGTGAAGCTGCAGACCCTCGCAGTGAGTGT
TACAGCTCTTAAGGCGGCACGTCTGGAGTTGTTCATTCCTCCCCGTGGGTTCGTGGTCTCGCTGGCTTCAGGAGTGAAGCTGCAGACCTTCGCGGTGAGT
GTTACAGCTCATAAAGGCAGTGTGGACCCAAAGAGTGAGCAGTAGCAAGATTTATTGCAAAGAGCTGAACAACAAAGCTTCCAAAGTGTGGAGGGGCACC
CGARTGGGTTGCCACTGCTTGTTCAGGCAGCCTGCTTTTATTCTCTTATCTGGCCCCCACCCACATCCTGCTGACTGGTCCATTTTACAGAGAGCTGATT
GGTCCGTTTTACAGAGAGCTGATTGGTCCATTTTGACARGGTGCTGATTGGTGCATTTACAATCCCTGAGCTAGACACAAAAGTTCTCCACATCCCCACT
AGATTAGCTAGATACAGAGTGCCAATTGGTGCATCCACAAACCCTGAGCTAGACACAGGGTGCTGATGGTGTGTTTACAAACGTTGAGCTAGATACAGAG
TGCTGATTGGCATATTTACAATCCCTCAGCTAGACACAAAGTTTCTCCAAGTCCCCACTAGACTCAGGAGCCCAGCTGGCTTCACCCAGTGGATCCTGCA
CAGGGGCCGCAGGTGGAGCTGCCTGCCAGTCCCACGCCATGTGCCTGCACTCCTCAGCCCTTGGGCAGTCAATGGGATGGGGCACTGTGGAGCAGGGGGC
AGCACGCTTTGGGTAAGCTCGGCCATGCAAGAGCCCATGGCAGGGGGTCGGGGGGAAGCTCAGGCATGGMGGGCTGCAGGTCCTGAGCCCTGCCGCACGG
GGAGGCAGCTATGGCCTGCTGAGAAATGGAGCACAGCGCCAGTGGGCCGGCACTGCTGGGGGACCCGGAGCACCCTCCGCAGCTGCTGGCCCGGGTGCTA
ATCCCCTCACTGCCCRGAGCCGGCAGGACTGGCCGGCCGCTCGGAGTGCGGGCCCGCCAAGCCCACGCCCACGCCCACCCAGAACTCTAGCTGGGCCGCA
AGCCCCGCCGTGCGGCCCCAGTTCCTGCCCGTGCCTCTCCCTCCACACCTCCCCGCAGGCCGAGGGAGCCAGCTCCAGCCTCGGCCATCCCAGGAAGGGG
CTCCCACAGTGCAGCAGCGGGCTGAAGGGCTCCTCAAGTGCGGCCAGAGTGGGCGCCAAGGCCGAGAAGGCACCAAGAGCGAGCGAGGGCTGCAAGAGCT
GCCAGCACGCTGTCACCTCTTAGTTGTTCACACTACCAGGCATTAAACCTAGTAACCATTAAATGCATTAAACCTACTTCTAATTATCCCTTGACAGAAC
TACTCCAGTAAGTATATAATTCATTTTGGGCTCCAGTTCCCTTCCCCCATATAGTATTAATAACTGTTTAATTTTAATATTATTTCAAACTTACAAAGAC
AATTGCAAGAATAGTACAAGAAACTGCTTATCCAGGTTCATTAACTGTTTGCATTTTGTCCCATTTCCATTATTTTTTTTWAGAACCATTTGACAGTAAA
TTGTATAAAACATGCCCTGTTGCCACTTCAGTCTTCATTTCCTAAGAACAAGAAAATTCACTTACATAACTCCAATGCAATTATAAAATTAAAAAGAACA
TTGAGATGATATTAACATTGATAAGATATGATAATCTATAGTTCAAATTCAAGTTTTATCAATTGTCCCAATTGTGTCATTTATAGATTATATTTTCTTG
TCCAGGATAGGATTCAATCCACAATCATGCATTTTCAGTTTTCTTATTTCTGTAATCTCCCTTACTCTGAAAGAATTTCTCACCCGATCCTTGTATTTTT
TTATCTTAATATTTTTCATGCATACCAGTTATTTATACATATTTCTTTGAATTTTTTTGGTATTGCAATCGAATTTTATTTTGTTCATAACACTCACAAA
ATGAATAATGTAACTCTCCCATCCTTTTGTTCACTACATCAAATAGCTCTTTCAATTATACACCCTGGCATGCTGGGCCTGACTCATTGTTAGAGGAAAG
GGGTCCCGATCCAGGCCTCARGAGAGGGTTCTTGGATCTCGCGCAAGAAAGAATTCAGGGCGAGTCCACAGTGCAAAGTAAAAGCAAGTTTATTATGAAA
GTAAAGTGGTGAAAGGACAGCTACTCCATAGACAGGGTAGGATGTTCCTGAAAGTAAGAGGAGGAGCACATCCACCCTAGGTACAATGCTCATATACATG
GGGAGATGTGTTCTGCTGCAAGGGTTTGTGATAACATATTAATTTTCTTAATTGCTATATTTTGCAAGAATCGATATTATTATCTTTAAAGCAAAATTAG
GAATGCCTTTGTTCTACAGATATCAGGATATCTGGACACTCCCAAGTCTGGGTCTGTTCAGTAAACATTATGAACTTGTTCTTTAACTGTAAACATCTAG
AGGTTAAAAATGCCTAACTTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCTAAAATGGTGAAACCCCGTCTCTACT
AAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCGGGAGAATGGCGTGAACCCGGGAGGCGGAGC
TTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAATGCCTAACTTTCTGAGA
ATGTAACCCCGTAAGTCTCAGCCTCATTTTCCTATTTTCCTAGCCCTCACTCAAAATGGAGTTGTTCACTCTGGTTCGAACGCCTCTGACATCATGACTG
TATATTTTCTAATCAATAGAGTAATCTCTGCTTTCATTAATAAAAGTGAAGCAGATATTTAGCTATTTAATACCACATGAATGATTAATCCTCATACATC
TTTTTGTTTTAGTTTGTTGAGTTTTTCACAGTGTTTAGTTTTATTGAGGTTTAATATATACCAAATACAATTATCAATTTTAAGTCTACAATTGTTAGCT
TTTGAAAATGTATGTAATCATGTAACCATCATCACAGTCATGTTATAGGACATTTCTACTATACCAAAAAGTTCCCTCATGCCATTTTGCAGTCAGTCTC
CTTCTCACCTGGTCTCTGGAAACAAGTGTTTTCTGTCACTATAGTTTTCTCTTTTCTAGAATTTTAAATAAATTTATTACATCCAGTATGTTTTCTTTTC
TATATGGTTTCTTGCACTTATCATAAGGCTATTGGGATTCACCCATGTTGTATATTCTGTAATTAATGCTTTTCTTGTAGAATTGTATTCCCTTATATGG
ATATACCACAATTTACCATTTACCTGCTGATGGACATTTTCCCAGATTTTGACCATTATAAACAAAGCTGTTCTGAACACTCACATACAGGTATTTGTTT
GAACATATGTTTTTATTTCTCCTGGGAAATACCTAAAAGTGGAATTGCTGAGTCACATAATAAGTATATGCTTAATTTTATGAGAAACTAACAAACTTTT
TAACAAACTAGCAATTCCTTCCTACATTCCCATCAGCAAGGTATGAGAGCTGTAGTTTTTTCACATCCTTTCCGGCACTTGGTGTGGTCAGTCTTTTTTT
TTTTTTTTTTTTGGCTATTCTATTGGATGAATTTTAGTATTTCATTATAATTTTAATTTGCATTTCCCTGAAGACTAAAGAGGTTGAATAGGTTTTTATG
TGCTTATTAGGCATCCTTTATTTTTTAATGTAGTGTCTGTTAAATCTTTTTGCCATTTGTAATTTTGTTTATTATTTTCTTGAATTGTGAGGGAACTTTA
TCTATTCTAATACAATTCTTTTCTTGAATATACTTTTGCAAAAATTTCTCTCAGTGTCTGACTTGCCTTTTCATTTTCATAACAGTGTCATTTGAAGAGT
AAAAGGTTTTTGCATTATTTTTAAACTTATGACTGTAGTGATTACCATACAGTTATAGATTCTCAACATTTCATAGTCCACTCCCTGCAAATGTTGATCT
ACTTCACTTAAAATATAAGAACCTTCCAGTAGTATAGTTTCATTTTATCTTCATTCTTTGTGCCATTGTTGCCATATACATTGCATCTATACATGATAAG
AACCTAAATATATTATTAGAATTTTTGTGTTAAACATTTATATCTTTTAAAGAAATTAATAAGAGAGAAAATATGCTTTTYGGAAGTTTGATTATAATAA
TCCTACATATGGTTTTCTGTATTTAAAACTCTTTGAGATTCACTGAGTTTTTATATCTGTAAATTTATGGTTTCATCAAATTCAGAAATTTTGACCATTA
GTTTTTCAAATACATATGTTAGATTGTTTGATAATTTTCCACATATCACTGAGTCTGCTTTTTTTCTTCCTTCTTCTTTCTTTCTGTTCTCCAAATTAGA
TTATTTCTACTTATTTGAATTCAAGTTCACAAACCACTTCTCTGCCATCTCCCATCTGATAACAATCCACCAGTGAATTATTCATTTTGGTTGTTTACTT
TTCCGTTCTAGGATTTTTATTTATTAAGATTAATTAAGATATAATTTCAATTTCTCTGCTATGATGACACATCTGTTATTTCATTTTTCCATATTTTCCT
TCAAGGTTTTGAACCTATTATTTGTGACTACTTTAAATGTCCAATCTGCTGTTTTCAACATCTAGATTAGCTCAGTATTTGTTTCTATTTCATGTTGACT
ACAGRGCACATTTTTCTGTTTCTTCATATATCAATTAATTTTTTATTGAAAGCTAGAAATTATGTATTATGTGTTATAGGAAATCTTTATCATGTCATCT
TCCTTTAAAGAATGTTGAGTTTTTTTTATGTTTGTTTTTCTTTCATTTTTGGCGGGTAGTTACACTTCTGGTGGATACATTTCAATCAAATCAGTCTTGA
TTTGATTTTTTGTTAGGCTGAAGGTATTTCAGTTTGAACTTAGCCTCTTGGCTTACCTCTTTTTTTTTTTTTTTTTTTTTTTTGAGGCGGAGTCTCGCTC
TGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAAGCTCCGCCTCCCGGTTCAAGCCATTCTTCTGCCTCAGCCTCCGGAGTAGCTGGG
GCTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTTG
TGATCCGCCCACCTCGTCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCGCCTCTCGGCATACCTCTTATTCCTAGCATGTGGCTC
TCACACCTGAACATGGTGCTTACTCCTAAAGTATGATTTTTTGGCATGTCACCTGAATTCCCAAGTCTCTCAGTAAAGTCTCTTCATACCAGCTGACAGG
AGTTCCAAAATCCCCCCGTACTACATGACCTCCAGTATCACCACCATTCACCTTTTAGCAATAAATCAGGTGATCTTTTCTAGATCTTCCAGAATCTTTC
TCTGTGCTTGTGCAGCCCAGCTCAACAATACATAATGGATCTCCATGCAGATTTCTGCAGTGCCCTCTCTGTGCAGCTTCTTCTTCTCGGTTACCCTGCT
CCACAAATACAGCCCCTTCATAATATCAGAACTMTCATTTACACTCTTAACTCAGTGAGACTTCCTATTATGCTTTGTGGCAGAAAAGTATTTCAGGCAG
AAAACCATGGCAATCATGGGATATTGTGTGACTTGCTTTATATCTTTCTCTTAAAGGACACAGCTGTTTGCTCATGCTCTTCAGTGCTTGAGAACAGTTA
TGTCATATATTTTGTTCCATTTTGTAGATTTTATTTGCCAGTAGAGAAAGTCTATATAAGTTGTTCTGTCATGCCCATATCTACTTTTGCATTGCTTCCA
AAATGATCWGAATGAAACAAAAATCTATGATATCATTGCTCACTTTAACACTTACTATTGTCATCCATTGCCTATATAATGACATTCAAACTCCTAAATA
TGAGACTCAAGATCCCTTAATTTATAACTTTTCTGGAATCACTTTCCATACTCTTTTCCTGTAGTCTCTGCCTGTTCAACCCTAATGGTTTTCAATGTAA
TGTGCATGAGGATCATATAGTAACATACGTTTAAAATGAATATTTCCCTTTCTACTTTACTCTCATTTAAATTGGTACATCTAGGGTATTCTAGGAATCT
AAATTTTTAACAAACAACCTAGGAATTTTGATGTAAACAATCTAGGTCTACATATTGTGGATTACTGTTCAAGCGTGGCAACTCAAATTATGGTCACATG
ATCAGTAGCATCCACCCCAACTAAAAGATTTCAGAAATGCTGCTCTCATTTCCTTTCCAGCCCTATTCAACCAGTACTATTCAGGCGTTTCTAGAGAAAT
TTAACCAATAGGATTAATGGATCTATCTATCTATCTATCTATCTAATCTAGAGACATATTTATTATAGGAACTGGCTCACACTATTATGGAGCCCAAAAG
TCCCACGATCTTCCGTCTATAAGCTGGAGAATCAGGAAAGCTGATAGTATGATTTGGTCCATGTCCAAAGACTTGAGAACCAGGGGAGCCTATGGTGTAA
ATCCTATTCTGAGTCTAAAGGCCCAAGAACGAGGATCAGTGATGTCTGAGGGCAGAATATGGATGTCTCAGCTGAAATAAAAACAAATTCACCTTCCCTC
TACCTTTTAGTTCTATTCAGGCCTTCCAAAGATTAGATGATGCCCACCCATATTGGTGAGGGTGATCTTCTTTTTCAGTCTACTAATGAAAATGCTGGCA
GGGCATAGTGGCTCATGCCTGTAATCCCATCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGCTCCGGAGTTTGAAACTAACAGGGTGAAACCTTGT
CTCTACTAAAAATACAAAAATTAGCCATATGTGGTGGTGTGCGCCTATAGTCCCAGCTACTTGGGAGGCTAAGGTGGGAGAATCACTTGAAGTCAGGAGG
TGGAGATTGCATTGAGCTAAGATTGTGCCACTGTACTCCAGCTGGGCAATAGAGCAAGACCCTGTCTCAAAAACAAACAAACAAACAAACAAAAAACTAA
TGCCTTCTGGAAATACCCTCACAGACACCCAGAAATAATGTTTTACTAGCTAACTAGGCATCCCTTAACCCAGTCAAGTTGGCACCTAAAATTAAGCATC
ACAACCAGAATGTACATTTTTAAAAAAATCTCAGCTGATGTATTTGTAGATTAAAGTTTGAAGATTGCCATTTTAGATAACTCCATTTTTTAGGCCAAAC
AGTTCCACATGTCTTTATTTTTGTTTTTATAATTTCTTCTGCTTAAATATTTTTTAATTTCTTTTCCTGATGCAAAATTATTACTTATTTAAAACCAAGA
TAAACTGAGTTTTATTGAACTCGCAGACAGAAATTATTGCACTCTCTTTTGGGTTTCAGTTATTAAGTTTACATTATCTTTTATTGTAGCACTTATAATT
ATTTATTTATTTGCATATTTCAAATGTTGGTCTGTGAACTTTGGACACTGGGACTAAGTCTTTTTCTTTGATTCCTCAGTATATGTGACCTGTAAAGGAT
CCTTGAGAAATACTTGTTTGGAAATTAGTGAGTGTCCAAACATTAGAACAATACTTGACATTTGTTGATATTATGTAGCTTAAGAAAGACTGTCAGCTTA
GAAGCTAGAATACTTCTGTTCATATCTCAGTTATGAGACTTGCTAATTATGCATATTTAGGCAAATTGAGTTTTCCTTATGCTCCTCAATTTTCTAACCT
CTAAAATGAAGCAGATAGAATTATCTATTTTATTGTGTAGTTTAGAGTTTTAAGGAAACAAATCATATGCAGTACTTAGCAAAATACCTAGCATATAGTT
AATACTTAATAAAAATTAACCATTATTGTTGTTGAACTCTAACTTTGACAAACATTTATTGGAAACTAACATGTTTTTCATTTTGCATAGAAAAATTAAA
AGAAATGGATTGGATTTTCTGGATTATTACATTCTAAAGAGATGAGAAAAGGTAATCCTAACAATATAAAAGAAATGGCATCTATACTTAGATCAATGGA
CTACAAACATCTTTTATCACGTCCTCTATAAAATTAGCACTCCCAAACACATATATGTGTTCATAAATTATATACATTAACAAAAAAACCCATCAGTTAA
TAGCTTAAGACAAAATCTACTCTTTGGAAAACAACCAGTGTTAAAGTTTGTAGCTATACATTTATATTTCAAATAGCCTTTTTGATAATATAAAATATTT
TGACAAGTTTATTACAAATATGATTAGATTAGGAAATTGATTTATATGAAGCTCAGATTGGTAGAAAAAAGTACCAGCTTTTTCTTTGCTGCTTCTTACC
TTAGTAATATATATGTTGTGTATTTTCTTCACAGGACTCTTTTAAAGATACCTGCCAATTTCGTCTATTCAGTTGAAGTGTCTATTCAGTTAAAATTTGA
TATTAAAATTTATAAWCCCACTTACTTTGGCTCACATAAGCTACAGCACATCCCCAATAACTAAAAGCTAAGAAAAAAAAAAGAGTGAGAGGCAGCTCTC
AGTCCTTTCCCATGTAGAATTTTAAGTATATATTATACTTTGGGTACTATATGTGACATATGACTAGCTGATATATGAACTGAAGCCGCCAGTGTAAATT
TACATGTTAAACATGAATGAAACTTCATTTATCTTTATATATAAATGTATATAAGCAGATTTTCTAATTCTTTTTGTACCCTAATGAATTTTATTACAAG
ATTCCTGTCACATTTATATCCCTCTATAGGGCAYACTTCTTTAGGTGGTATCTAAATTGTATTCCTAAAATGAAACACAAGACTTTGGGGAAAAAATTGA
GACCTCTGATATAGTTTAGAAGATCTTAATTGAGAAAGCTAATGAACAAAATCCTATTAGACCATCTAATTTAGCCTTACATGTAACTCTCATTCAATAC
ACAGACAAGCCACTTAGTGAAATTTCTTTAGTGAGAAAGAAGTAGCATTTTGATTCATTAACTTATTTTTRACATTTCGTATGATAAAAGCAGATATTGA
ATGGTAATGGTCATTTATCCCATCCTATATATTTCTTGCAAGATTTAATTCCTATCATTCAGAAACAACTCATTTTATATATGTATTACAAAAGGGAAGG
ACATGAATGGGGGAAAAATCGAATTAAACCTATGTTGCCTGGCTTACCAGACCTAGGTATTTTTTGCTACGTAACTGTGCCCATCAGAAAACTCTGACTT
TTCTATCAGTGGCGATTCGTAGCCTGAATCATTGTATTAATATCTTTTATCCTGACTTTTTTTTTCCTCCTTAGCACATATATTTGATTGCAAAGTTGAA
ATTTTCAACTATCCTGAAACTAAAGACCCAAAGTAAGTGTTTCATAGTTTCTAACTGCTGTCGATTTAGACCAAGGTTCAACAGCCTTGGCACTACTGAC
AATTTGGATTGGATAATTCTTTGCTGTGGGAGGCTGTCCTTTGTGTTATAAAAATGTTTAGCAGCATCCCTGTCCTCTGTTCTCTAGATGAGAGCAGCCA
CTTCCCTCATGCCCAGTTGTGAGTACCAATAATATCTCCAGATATCACCCCTGAGAGGCAAAAATCACTCCCAGTTGAGAACAACTGATTTAGAGGACAG
ATTTCAATATTCATTAACTTAAATGGATTTTTTAAATCTTAATTACCTTTATATTTGAACAAATAAAGTTTCCTGATTAAAGACTGCATTTTCCCTAAAT
GGGAATTTGACAAGATAGTAATAAGAAATAATTTGAAGAAAAAAAAAACTCAAAAAAAAAAGAATCCCACTTTTTGCATATTTAACTAAATTCTCCAGTT
AGTGATGACTTTTAAACACTTTAATAGTAGATTTTCACTTAAGAAACTAGAGAAAATTTTTACTCATAAATTACAGCAATCATTAAGATAGCTTGTTTAT
ATGCAGATTTCCCTTTAGTAATGAAATATTTCATAATCTCTTTCTAAATGAACACATTCTCAATAAAAAGTTAATAGGATCCKAGCTGAAGATGGTAATT
TGCAATTTATGCTTCAATTCTTACACCAGACAGTAGTATTTCCTGGAAAACCTTCCCTGATCCCTCCCAAGTTTGGGTTAGGTATTGCTTCATTGTACTC
TCTTAGCTCCTAGTACTTACTATGCTGTGTATGCTACTGTATATTATTACTTAGTTAAATCTTTMTATCTTCCTCTATATTAGCGGTCACAATCTCACAT
ATTTTAAGGATGACATAAATAAATGAAAGACAGACAATGATAAATGGGAAGTAAAACTCAAGACTGAATATTTTTGAGATATGAGAGAGTGGCAAAGACT
GTGGTAACTTAGAAAACATATGCCCCATGTAAAGGGAATGGTCACTCTTCAGCTTCAGCTAATCATTGTCATGTAAAAATGTAGACCCATTATTTCCCAA
AATTTCAGAGAATCATAAATTATGTGAAGTTTCCTAATATTTAAATGCTGGCCATTAATGCAGATTTTTAGTCATAAATACTCAACAGGCTAAGCCATAT
ATATTTCCATTCCTCTTGTAGCCTGTTTGTAATCTCTGATAGTAATTATGAGCATCATCAAGGCAGAGACCAGATCCAAGTTGCTTATCATCTTATTCTG
AGTGCTTAGAACAACGCTTGATATATATACTTAATAAATTGATGTTTTATAAGTGAAGAATGAAGTTATAGTTCTCTGGTAACTGGGGGGAAGAAAAGTG
TTTCAAAGGAGGTAGGATGAGGTTGACAGTGGGCAAAATGGTCCTATTTGGGCCATTAGAATAGGAAATTAGGAAATTGTCAGATACCTCTTTAAGGGAT
ATTTTAGTAAATTTTGGGGAGAAGAGGATATAAAAATGGGTTGAAAATAAATACAGTTAGGGAAATGGAGGCAATAAACATTAATTTCTCTTCCAAAAAG
TATAAGATTGGGCAATATTTGAGGAATGGCCAGATCAGGAAGGTTTCTGAAACAGCATTGTCCTATCTTTTTAAACTCTTGCTCCTTAAATAAACATAAA
AGTTCAGAGTTTATTTAAATGTTATTTTTAAACTTTAAAATAGATATTATGTTATAGCTAAAAACAAATTTAAAAAATTAGAATATTCATTATGCCTTTT
CAAGTAGCATGTATTTACTTCCCCCGCCCCACTGCAATAGGTAGAGATTCTTATTATCCTCTTCCTGTTAAATCATCTCTATATTATTAAATGAGAGATG
ATTTAAGGATGTTCAAAGGCCAATTGGAGGCAGCCTGCAGGAATAAATACATTATGGAAAATGAGAAAATAGAAGAAGGAGGGATGGCAGAGGTGAGGGG
AAAAAATAGGTCCAAAGCAAGGGTACAGATAATCTAAGAGTATGTTACTTCTCTTTTTTTCTTTTTTTTTTTCCAAAATTTCAAGCAAAGTCAAGTATTT
CCACCACACTGAAACTCTTAAAAACTGATATCTTTTGTGAAAATAAATCCAGAATTGTTTCAACAGGAGACATATAGGTATGAACCTTTGTGAGTTGAGC
AGTTATTTTCATACTGATTAATGGATACTTTCACTGGGGATGTCTATGATGCACGAGGCAGCTCTAGTCCATTAAATTTTAATGCCTAGAACTAAGTRCA
TTTCATAYTGAAGCCCTGAATAGTTCCTTGTCCTAAAGGAAAACTTAATAATATTCTTCAAAGCCTCCAAAATTACTTTTCTAAAAAAACCTTTTTCTTT
ATAAAAACAAATAAACTTTAACAATTGCTATGCTGGTGAAGAAAAAATATACTTAGAGAAACATTTTAAAAACTTTTATTTATATGTCCCTATTTTATAT
CCAGAAACTTAGTTTTCTTTCCAATCAAAGTTCAGCTCCTTCTTGGAGTTTGGTATGACACTTCAGGGAATATTAGAGGTGAATAAGGTATTACAGAAAA
AAATTTAGCCCAACTCTGTAACCCTGCAGATAAAGAAATGGAAGTATTTTATGACTAAACATCTCTTGGGACAGAGTGGACTAAATCATAAGGTGAATAT
TCTCATAGAAGTAGGCCAATCTTGGGGGTGATACATTTAATATGAATATAAGCTTACACCTGTAAGTATCTTGAGTTTATAAGCATTTGCACATACATTA
TTTCATTTGATCTTTATTACAATCTTGTAAGGTAAGTAAGGTAGGTATTATATTTCTTTTTATAAAAATGAGGAATATAAGGTCAGGGCTGATACATGAA
AGACAAATTATTAGCAGCTGAAGGGTAATTGGTGGGGAGGGAGAAATAACATGATGTATTAAGAAAAGCATAATATTAAAAATCAGAAGACCTGATTTCA
AATCCCAGTTCAGCCTCAGTTTAAAGTTACATTAAAGAAACACATTTTATGCTATGGAATGCCAATTGGGTTCTCTAAAAAGCRTTCTCTGAAAAGAATG
TAGGAGTACAAGAGGTTTATTTAAAGGTGACACCTGTGAAAGGAAAAGGAATGAAACAGAATTGGTTATGAGGTGCCATCAGATCCCAATACAGAGCTGC
TAAAATCTCCGCCAGCCCATTGAGGAGCTCCAGAGGAAAAATTGCCTATGRAAGGAGTGCCACACGGGCTAGAAATGTCGAGGCCCTTCTTTTACCACCA
CCTTACTCAGTCATTGACTGGGAGTAAGGTCCACCCTGAGAAGAGACTGAACACAGCTCTAATGCTGCAGTGGGTCCTGAAATAACTGAGAAAGCTGCCA
GTGAACTACCATCCTGCCACACTCTTCATAAAGGGAGGTCTCAGTGGCATATCTATTTCTGCCACACATGAGGAAATGCTCATGATTCTATAATATATGA
AAAAAGGAAATTACCTATATGTAGAATTAGATCAATAGTGTACATAATAACAATTATTATGTGTCAAGCATTGTACTAAATGAATTACAGCATTATCTGA
TGTAATCCTCACAACAATGCTATGAGAATGATACAATTGTATCTTCATTTTACAGACAAAAACTGGACAGCTCAAAAGGTTAAGAAACATGTCGCAAATG
TAGGAAGTGCCCATCAATATTGAAACACGAGTTTGCTTTGCTGGGATAGCTTGTGCTCCATCTGGTTGCACAAACATATGTACATAGGACAAAGAATGGA
AGGGAAAAATACACACATAAATAATAGTGATTATATGGTAGTACTATGGGTTATTGAATTATTTATTCATTTTCTTTGTTTTTTACATTTTCTTCTCTGA
GGTATTCTGGTTGTCTGTTGAGGCATAACAAACTATCCCAAACTTGGTCYTCTAATGCAACTATTTTATTATTCTCATGGATTCTTAGTTCAAAAATTCA
GACAGGATGCCGTGTGGATGGCTTGATTCTGTCCCACAATATTTAGAGCCTCAGCTGAGAAAATGTGAATGAATGGGTTTATTCATCAGCTGGTAGCTTG
GAATTCTCTGGAGGCTTAACACACTGACTGGAATAAGTGTAAGGCTGGACTTAGCTAGAACAGTTGATTGGAGAGCCTTCATGTGCGATGTACCTTCTCC
ATGTGGCCTGCATTTTCTTATACCATGGCTGACACAGGTTAGTCAGATTTGTTACGTTATAGATCAGGGCTCCCAGAGTGTGTTTTTCAGCAAACAGAAA
GGAAGCTGTGTGGTCTTCTATGTCCTAGCCTTAGAAAAGAAACACTCTGCTCCACGCTATTGATCACAATCCACCCAGGTTCAAGGGGAAGGGRCATAGA
TAGCAAATATCTGTGGGTTGAGTATAGATGAATGCTCACCATGTTTTAAAACCACCAGAAGGTATATTTTGTCCATAATCAGAAGAAAGTACATTTTTAT
ACATCAGTTTCTTTTCTATACTGAAATAGAGTTGAAATTTTTTTGTTTAATAAATAAATTTTAAAAATGGATGTAATATGGTAGTAGAGGATTTGAGCTC
TGTGATATAGTGGTTGCTTATCTTGGCTTTATCCATAGCAATAATCACAGAGCTAACAATAAGGCAGGATATTAAGTAAGCATTGTTTTAGAGTTTTATG
GCTAGTACAGAGTTGCAGTTACTACCATTACAAAATATTTTTATCCATTTACATACATTTTGGGAGATCTATTCTACCTCAAATTCTATTTCTCAAGGAT
ATAGCTGGAGYGCTTTTTTGTCTAAGCCTCATTCTTCCACACATGGATTTTCTTCTGCTTAAAAATAATAAATATGACACACACAAATACATTACAAAGA
GCTTATTTATCTCACACTTATAGGGTGCCTCTGTGTGTCACATTGAATAATAATGCTTTAAATTTGGCTAGAGAGTGCATAAAGGAAACTTGTCAGTTTC
CACAAGACTCTTTTCTAAACAAGTCTTAAGAGACTTTCTTTTAAAAACATTGCCATTAGACATTTCTTATATATGGTAAACTGCAAGCAATAAATGAGAT
CAAACTTAGAGTATTCAAAATTTGCCTAATATTTGCATTTTACAGGAAAATTTTTTCCAGGAGGTGTGTACCATATTGCTGACTCTTAAAATTATTCCAT
TAGGACAAAATATTCCAGTAGAGTAAGAGGCTTATCAGTTAAATACAGCAAAAGTATGTCCTCTCAAGTTTTTCCTTGAGACTCGATCAGGAAAACCACT
ATGGAAAGTCAGAAGTGAAGTACAGACGTTGGAGTCCAACAGACCTGGGTTTGCATCTACCTTCAACACTTACAAAGTAAGGTTCAGTTAGCACTTTAAA
TTCTTTGAGCCTGAGTGACATCGGCTATAAAATAGGGTTAATAATTATTTTCTCTCATAGGTAAATTGTGAAGCTTAAATGAGAGGATATAGATAGAACA
TTTTTCATGGAAGTTGGCTCATAGTAAGCAATTTATATGCAGCAATTACTGCTTTATGTTTATTATCTTTAGCATAGCTGCATAAGATAAAAGTTTTATT
TTGGCAGTATTCAGTTAAAAAGTATTTAGATCAATTAGAGGTCAATCTTGAGAAATCCAACCAARGTATGAAAGGATAAATTATTACTCTTAACTTTTGA
CCTTACCATTTGCCCATTCTGAAGGAATCCTAATATACTTTAAAAAAATTCCACAAATATTGACTGAATAAGGAGAAAAAACAAAGATACTTGAAGAAAG
GATAAATGTGTGTTTACTAAAACTGCCTAATAGATAAATGTTTCACATGCTCTGTGATTTACATAAAATTTATTTTAATTTAGCCTAGTACAGTGCTTGT
CATAAAATAGACATTCATTAATAAATATTTGTTGAATAAAAGAGTATCCATCTTTCTACTGATTTATACAAGTTATTTATGTATTAAATATGTAAACAAT
TTGTCAGTTTTATATGTTGTGAATATTTCTCCAACTCGTCACTTGCCTTATTGTGTTTTTAACACTTTAATTTGCTCAAATCTATCATATTTTCTATTTT
AAAATATAACTTTATGCTTAAAAAGACCTTCCCTACTACTCTGCATTGAAATTTCTGACCATCTGCAGGGAAAATGTTTTAAGGCGATGTTTTTCCTATT
TATCTCAAGACTAATCATGCCTTTAGCCCTCACCAAGATTATTGGTAAAGTGAGAGTTAACTCCTGTGAACTGTTTTCTCTGGAGGAGGAATTCTCAGTT
TCTGGCAGCCTATCCATGGCTAAACTAGTAGACGTTTTCTCGCTTCCAGTACTGGTACAGCCTTTTTCCATGTTTTATTCCTTTGTTTGTTGCAGTGCCT
AACTCGTGAAGCAGAGGGAGTGGAGTTAGGAGGAAGAGGTAAAGGGAAAGGAGAAAGAGAAGCTAAGTGATTAAATCAAATCAATATTTATTTGGAAGGT
ACTATAGGTATTATCAGAACAATTTTAAGGTGGTTACAATTACTCTTTTTTTATATAATCAAGGAAATTAGCAAAAAGGAGTGWCAGAACTGCTCCAGTG
CACATAGTCATTGTGAGAGCTGAAATTCTAATTAGGGAGGCTAATTCTATGACCTGCATCTTAACCCTGCCTTATATGCAGCTCAAATTTAACATGTGAA
AACGAAACATTTTACTTCTGCCTCAAAATCTGCTTCTTCCTGGTTCTTCCCTATCTCTCTATCATTAATTTCCCTACTACTTATTGCACTTGGAAAAAAA
TCCAAATACCCCATACCATGGCCTAGAAGGCCCTGCAAGATTATACATCTTTGACCTCATCTTGAAAATTTCTTTTCCTTTGTTTAATCATTTACTCAAC
ATTGGCCTTATTGCTGGTCTTCAAACACAACAAGCTTATATCTGTCTTTCGACTTTTGCACTAGCTATGTTTCATATTTTAATACTTATCCTTGAAATTG
TGACTTTTTGCCATCTACCATTTATCTCAARDTCACCTCTGCAGTGAAGCTTTCCCTGATTAACCAGTTTAAAATAGCCATCTAATCATTTGTCTATTTT
TATCTCATATCAGTTGGTACTTTAAGCTACTGTATAGCAATTTCTTATTTGTTTACTTTTTGTCTCTCCATTCACGTAAACATAGTAAAATATAAGCTCT
GTGAGAGCAGCGATTTCACTATCTTTACTCACTGCAGTGTCACCACTGCTCAGAAAAGAGTTTGAAACACCAGATATGCTCAATCAATATTTGTTTAGCA
TATAAAGGGTATATTGAAAAGAGAAATGCATAATCAAAACTGGGTGTAGGAAAATGTATCTAATTGTATGCAGGATGGACTGCAATGGGAAAAAGTATTA
GTYGAGGAGACTAGTTAGGAAGCTGCGTAATACAGAGGATGATGCTAGAAATAAGAAGAAATGTGAGAAGTATAAGTCAGTTAAAACCAGTAGAATTCTG
AAACTGAGCTGAAGGGACTCTAGGTCCCTTGGAATAAAAAAGTGCCATTCATATAAATAAGGAATGTTAGATGACAAGTCAGCCTGGGAAAATTATAAAC
GATAATTATAAGAACAATTTCAAATTTTGCATTTGAGATGCCATTGATAGGCAAAATAYATGGGACTCAGACTTAGCAGAGAAGTCAGGACCAAAGATGC
ATTTATCAGATTGTATARTAATTACCAAAGTGGCATTTAGGAATGGGAAAGCAGCTTAGGGCTACATTTCCAAATCATACACTTTTAGAAGACAGTCAGA
AACAAAGAATAGGCAACAAAAAGGAATCAAGGAATGTATAGTTTTAGGAAAGCAAAGGAGATAAGAATTTTGAGAAGAAAGAGATGATCTAATCATAGAG
AGAATGACTACAAGGACACTGGATTTGATAGTTTACCTTTAGAAATTGAAGAAGTGATTTCGGGAGACTGGTGAGGTCCTTAATGCCTCAGGTGGAAGAA
ACAGTCATGGTGACTTCACCTGGTAATACGATGAAAAGAGATGTGGGAAATAAATCTGCCTTAGTGAGGAGTAGTGTGAGAAAAGCAAAATTCAATGTAG
AATAAGTATGGTGAACTCATTTGAGATTTATGTGGAACTTGGGTATACCTACCTAAAGATTGCTAAAGAAATGAGACTGCAACTGTCAACAGATTCAATA
TCTTTTTTCAGAAGGCTGGAAAATGAAGGGAATAATAGAGATAAAATCAGCTTAGCTTCAGTGGGAAAAAAAAAACAAAACTTTTTTTTTAAAACGGAGA
AAACATAAGTTTATAGTTCAAGCATATAGAGCCAATGAAAGAAGAAAGGTTGAAGAYKCAATATTTATTTCACTTTCTTGGGAGAGCAGGTAGAAAAACG
GGAAGATTTGGAGACTATAACATTAATTTTACTATTTGTAGCTCTTTACCAAAGTTTTTTCATTTTTTAGAATTTCTTGTAGGCCTTTATGCAGGTGTGA
CAGCATTAAGAAATCAAACTTTGCCTTTTAATGGTAAAATTTTCTTAACAAACAGTATTTGATRTTATATGTATGTAAGTCATAAATGCACTGGCCTATC
TTATGACTTGACTTTATTGCTACTTGGTGTGTTGATAGACCAAATATTATAGAAGTTGTGGTTTAAATTCCTACTTTGAGGCTTAAACATGGAAATCTTT
GTATAACAAAGATTAAATACAAAACAAAATTACATATTGAATTTCAAAATAAAAATTCAATGACTGTTAATTGCTATTAATATTATAAATATTATTTCAT
GTATCTCCAAAGGCAGAAATACAATACAAATAATATTATAAAAAAGTAAGAATTACTTTAATTGTTGCACAAATTTTTCAAATTTGGAGGCTCAAATAAT
YGTTCTAACATATTCACTGGTAAAACGAGTCAAGTTAAGAAAGATATTATGAATTAATTGTGCCTAGATTTAATGATATTATTTATTAGGTAAGAAGAAA
TTACTGAACTATCATGAAACAGCCTACTGGGCTGCATGTACTTTGTTCAGTACTTGGTTCATACTCTCTTCTTAAATGGCATATTTCATCCTCATCTCTA
AAAGAAAAAAAATAAACCTTTAAACTGTTACTGTAAATTCCTGACCTCACTGGGAGTTAATTCTAGTTGCTGGAAAAGCATATTCATTGGAGTAACCTAC
CTGTAAAACTGAGTTTGTGGTTGCAAGAGTCTCACCATAGGTAATGTCCTTTCTGTCTTTCTTGTTCAAGCGGTAGAGGATTGATTAGAACTGARCACCT
CTGTCATTTGGTCCTACTTTCCACCATCTGAGAACTATTCTCTGGTATCTAATGTGCTCTTATGCTAGAAATCACACTTAAGTTTCCTTTGAGCACCTGA
ACTGGCTGATAGGCAGAAAATCAATACATCCTGTTGCACAGCTTTTGAACCTGTTATTAGCAGAAAAGTAACACTAAAGATATGTTTCCTTACAGGATAA
TGCAGAATTGATCACTTCTCTGCTTCACAGTGGAGCTGATATACAGCAGGTTGGATACGGTGGCCTCACTGCCCTCCATATTGCTACAATAGCTGGCCAC
CTAGAGGTAAGTCATGCCTTTGGCACCTGTGAAAACAAAGGTTATTTACCTTTTCGGTTGTTGTTCTTAACTGTTTTGAAATACTGTCTTTGAGACTTTA
CAAGTTGGTTTATTTTTTAGCTACTGAACACATTGGGGTAAAATTTAGCTGTATAAATGAGCTTTGGATAGTCAATTCAGTCAATTTTCTAACAGTGTAT
TTAATCATCARTTAACATAAAGGTAGCTAGATATACAGAGGCTTTATAGCAGCTCAGTTTCCACAACTTGCTATTTTAACCTTGGGGAAGTTACTGAATC
TCATGACCTCCCTCTTTTCTTCACTTATAAAATAGGAATATTAGTAAGCCTATTATAATGATTAAGTTAGATAATTTATATAAATCACTTTGTAGTTTGC
TTAATGCAGAGTAAGGACAAAATGAAAAATCATTCACTCATTCATCTACTTATGTATTACTTGAATGAATATTTATTCATCACCTATTATGCACCGGATA
CTGTTTTAGATGCTGGGATGACAGTAGCAAGAAAGTCAGGCAAAATTTTCATTTTATAGAGTTTAGCTGTAAAGAATAAAATAGACAATAAAGACAAGAA
AATATTACATAATTTTAATTAGTAGTGAGTACCATAAAAATAATAAAGTGAGGTAAAATGAAAACAACGAGAGAGAAGGGGGCACTATTTAAAATAAGCT
GTACAGTAAATATCTCTGAAAGGAGGTCATATAGGAAAAGAGATTTAAATATATTGAGAATGTCAGCCATGTAAAAGGAGAGAAAAGAATTTCAAGCTTA
AGGAATGGCACTTGCAAGGACCCTGAGGCCTAAAAAGGCTGGGTGTGTTTGAGGGACATGATTGAGCCAGAGTTGTTAGAGTGGAGTGAGCGGAGGAAGA
ATGATGAAGACAAGGTCTGGTGATGAATGGTTCCAAGCCAAATCACACAGTGTTTTAAAGGTCATAGGAAGGACTCTGGATCTTGTCTTAAATTTAAAGT
ATTAATTTTATATATCCTATTATGGGAAGGACTTCCATTTGCATGATTTGGCTAACTTCACAAATCCTCATCGAATAGTTTTTATTGCCGCTGCCATTTG
ATAGATATAAAACTAAGGCTCTTATATAGTAATTGCCTTGACAAATTACAAAGCTATTGAGGAAAAGAGCCATGTTTGGAATCCTGATCATTTTACTCAA
AATCCCATGATTGTCACACTCTATCAATTGTGGAAACACCAATAGCTCAACAATGTAAAAGATGAGAAGTCTGACATCCTTATTATTAAATAGTTATGTT
TCCCCCTTTTAGTCATGTTGCAATTCAATTATACCTTCTTCACTAATACACACACATATACGCACACAAACTGTGAACAAATAGAGCTGCATATAAAATT
ATACTTGAAGCCTGTAAAACAGAGGTGATCCATCTCYCTTAACAGTGTCACTTCAAAGGGCTCTTACATTCAATACAAATTAAAATATCTCGTTGAGAGC
AAAATAGTTTCCTTCATGTTGACATTTCCACTCCTTTCCATATCACCTTATTTCCTGGAAAATAAATCCTTTTAGTGAGATTCATTGTAAATATAGGTGA
GTTTGTGTTACTTATGAGGAAAGGGGAAATTCCATTAGATTCACCTAAATATAAATGTTTTCCAAAAAAGAAAGAAAGAAACTGAGGCCAGTGATAAAGT
AAATGAGTGGTAAACATTAAGGGATCTGGGTGAAATAATTTATGAGTTAGACACTAACTTCTAGTAAAACATGATCAACCTCTTAATGCCAGGAAAATTA
CAGACTATGTCTTCAAAACAAAATCCTTTTTTTCCTAATGTTGTTTTGATGATAGCATTACAATGGCTTCTAAAGCAAAGTGGTTAAGAGCTTAGTTTCT
TCATCTCCTATTCAAATAGCTCTGTTTTCTTTCTTTCTAAATCATAATATGGAAGAAGGTATTATATTGATTTTACCAGACTTAGGGCAAACTTCACCAA
AGTATTCCAAATAGATCTCTACTCTTGCCTTGCAATTCTTCATGGGTTTTCTAATTTTCCTCATTAGCTGATATTTGATGACTTTTATAGTCAATAGCTA
ACACTGCAAAAAGCAAGTATAGATACATTAGCCTTTATTCTCTTCTTATATGGGGGACTAATTAAATTATTGATCAAATAATAAAGAAAAGGGTATCCAA
AACTATCTAAAATAATTATATTCAAAATKAATRTTTTTGTTGGAGTATTTCTTTGAAAACTATTACCATTGACTTTTGACCAATGTGGGAGTTAGGAGCA
CTGATCCCCTGTACAGTTGAAAATCTATATATACATTTTGACTACCCTAAAACTTAATTATTTATAGCCTACTGCTGATTGGAAGCCTTATTGATAATAT
AAACAGTCCATTATCATGTATTTTTAATGTTACATGTATTATATACTATATTCTTAAAGTAAGCTAGTGAAAAGAAAATGTTATAAAGAAAATCATAAGG
ATTAGAAAATATATTTACTATTTATTAAGTGGAAGTGGATAATCATAAAGGTCTTCATCASCATTGCCTTCACATTGAATAGGCAAAGGAGGAGGAGGAA
GAGGAGGGGTAGGTTTTGCTGTCTCAGGGGAGGCAGAGATGAAAGAAAATCCATGTATATGTGAACTTACATAGTTCAAACCTGTGTTGTTCAAGGGTCA
ACTATAATTGTAGTAAATAGTCACTGTCAATATATCTTTACCCATACGTGTGAATTCATTTAACATTTTTTCAGCCCCTACTTTGTCTATAAATGGTTAG
AATATAGAAATATAGGAATGATACAACAAAATAAGACATAGATTTTTCCCCTAAATATTCTGTAATGCAACTGGGCACACAAAATAAATATGCAGAAAAA
ATATATAAGCAATTCAAATGTAAAACAGCAATATAGTTATAAGTAAGGAGTAGGATGGATGAGAGTAGGTTTGATAATTGGGAATACAGGTGTTCCTCAA
CTTATGATGGGGTTATATCTGAGTAAATCTATCATGAGTGGCAAATATCATAATGGAAAGTGCATTTAACACACCTAGCCTACTGAACATCATAGCTTAG
CCTAGCTGACATTAAATGTGCTCAGAACTCTTACACTATTCTACAGCTGGGCAAAATCATCTAACAGAATACCTCTTTTGTAAGAAAATGCTGAATATCT
TATGTAATTTATTGAATACTGTACTAAAAATGAAAAAGCAGAATGGTCGTATGGGTACTCAAAGTATAGTTTCCACTCATATGTATCACTTTCACACCAT
TGTAAAGTCAAAAAATTGTAAGCTGAACCATCGTAAGTTAGGGATTATCTATTATTAGAAACATAATAATGTAGAGAAAATGTCAGAGAACACAAAATRG
AAGAGTTAAGAGTTCAGTGAGGATAGAGATTGTATTAGTCCATTTTCACACTGCTTATAAAGACATACCCGAGACTGGGCAATTTACAAAAGAACGAGAT
TTAACTGGACTTACAGTTCCACATGGCTGGAGAAGGCTCACAGTCATGGCAGAAGGCAAGGAGAAGCAAGTCACGTCTTACATGGATGGCAGCAGGCAAA
GAAAGAATAAATGAGACGAAAAAGCAGAAACCCCTGATCAAACCACCAGATTTCCTGAGACTTATTCACTGCCACGAGAACAGTATGGGGGAAACCACCC
CTATGATTCAATTATCTCCCACTTTGTCCCTCCCACAACACATGGGGATTATGGGAGTACAATTCAAGATGATATTTGGGTGGGAACACAGAGCCAAAGC
ATATCAGAGATTAATGTGGACTCAAAGAGTTAGGGAAGGAGTTATGAGAGGGGATTTAAAATTGAACTAGTCTAAAGAATGATGAGAACTAGACAGCAAA
AATAAGAGGGATCTGGCCCAAAAATAGGAAGGAAAGAATGAGATAAGCACAGTAAGGGACAGTGAGTAAAATGATAACATGAAACAAATTGTGAAGAGTC
CCTCTAGGTAAAATTAGGTGTTAAGAATAGACGAGACTAAAGAAACTTGGAGAGTAGAAGTCTAAGGCGTTTAATTTAATGCAAGAAGCAATTACTGTGG
TTTACAATGTATAACACAATTTCTGTGGTTTACAATATATAACACACAAGAGTAGATGGCATGGCAGATTAAGAGATTAGTAGAACACAGAATTTCTCAC
TCTTTAAAGAAAATTAGAAGAACCAATGTGATTTTTCCCCCATAGGAAACAGGGACTAATTGAGAAAATATTTCAGCAAGAGAATAATTGGAGATTTGAT
AAGTAACATGTTTAAAAGGATTACTTTACTTTGACTGCATGATTTAGCATGAATTCTAGTGCGATTACATGATGATTAAACAAAGAAAGATAAAAGCTTG
GGTAAAGGATTCAATTTGGAGGAAAAATCAATTAGCTCCACACATGTTGATTTTCTGATGACATCCAAATTTTCAAGTGGAAATGTTCATTAATCATTTA
GAAACATACAAACGGCATTTAATGGACACATTTGGGTTTAACGTAAATTTTTAGAAATTATATATAGAGAGGTAATATTTAAAACCATAATAACAGCTTA
AAGTTGTATATTGGGCATAATGGATGGTCATAGGACCGAGCCTAAGAGAATCTCCCCGGAGACTTAAGGAATTATTAAATAAGGAATTATTGAAGGAAAC
AAAGAATTGCTCAGTGATATGGAAAGGACTAAGATTATTTTAATATTGCAATTAGGAGAGTTTCAAGAGTTAAAGGATCCCAGGTATCAAAAAAGTTAGT
GCAGAAAAGTAGAGCACATTGGGATAAAACACACATCGAGTATTTCCTTACTATGCTAAAAATTTAGGTGCTTATTCCACTCCTATTTTTTATTATCATG
GTTAGCAGAAATAGCAACGGATCAGTGGGTGTTCTGTTTCATTACTAGTCACTATCTTTTATTGCCCACCTTTCTCTGTGAAACAATAGCTGATGCTAAG
TCTGACAGGACTCTTTGTCTCCACATATCAAATTCAGACCTTCCATTAGTGTCTCAAGTGTGTTTGTCCTCCCATAATTGTGAATTCTATTAAACAATCT
TACAATAAAATTTACATTGACTAGGCAGCTGTCTTCTTCAATAATAGAAGAGAACATGTGCTGCAGATTCCTAGACATGCTGACTACAATTTGGGACTCA
GATTTAAATTTACTGTGCTTTGAAGAGTAGGCAAATATTAGTTGTCCCAGGTCTCAATACTTCTCTTTGACTGATACATCCATCTATCAATACATTTGCA
TATGCTTCTTTGTACAAGGCCTAAGATCCTGTCAGCAATCAATAAACATGCATTAAATCCTCTTTTTCCCTTTAGGTTTGGGGAATGTGAGTCATACGCT
TTCCCAGGCATGGAAAAGGAAAAATATTAGCTAACATTTGGTGGTACTTTATCATTCACATACATTTGTCATTTGGTTGTTTTGTGAGATAACTACTGTC
AGACTCAGTTTATTAGTGAGGAAACTGAGGACTGGAGAAGCTGAATGACATCTACATGGGCATTCAGATGATAAATAAATAAGCTGGATGGGACTCCAAC
CTGGGGATCTACCTTCACATCTGTAGTCTTATACATAAAAGAGCGATTRCTCCCCAGAGACTCTTCTGTTTATTGCTATAACACAGCTTATACCCACAAG
ACACAAAAAAAGTATTTGGAAAGTGAAAAAAGAAACGGAATATGTTACTATATAAAGCCCAAGCATTACTACATATACGATTAAAGCAACATTAAATGAC
TCAAAACTAATTTCATAATGCATTCACTATATGGGCATAACCTATGGAAGTATAATGTAGGTATATGAGCACACAACACACACACACCTCAAGTGTAAAA
CACTTTATACTTAAATAACTCCTTAAAAAGTTGTTACTCTGGTGTTACGTGCTGTAGTTTCTGCAGTTGCCATAAGTCAAATCAGTTTTCTGCAGCCGTT
GACAACTGTTTGAGCAGTGAACAGAAAGGCATGCAGCAAACATGTAAACCAATGTGTAATGTATAGAGGTTGTGGAGTGGTTTTCTTATTACAGAAAAGT
GTACTTTCATATACACCTTGTGAAGGTGAGCGTATTATTCATAGTTGAAGTTATTCTATCCTACCATATCCCATTTTCAAATTGTAAACACTTATTCAAT
CACTGCTTCAGAAATGCTTCCCAGTTATTTTGGAACTTATTTCTGATTTCAAGGTAATGCACTCAGTATTGTTTCAGTTCATTCTTTACTAAATCATCCA
AATGTTTCAGTAGAGAATTTTGTTTACCAAGAAGCCTCRGACCCTGTGTAAGTTATTTTTTAATAATCGCTTTAGTTTCCTCTCCAAAGGCACAAATGAC
AGAATGCTTAGAATTATAAAATATGGTTTCTCTCTCTCTTTCTCTTATTTTTAATTTTTTAGAGAGAGGGTAGTCATGAGTTTTTTACCTAAACAGTAGC
AAGTCTGCCCCAATCTTGTGAATAGGCAATAGTCCCTTGTGAACTCCATTTGGAATCAGAACAAATAATGAAACAAAATAATAGTTAATGCTTTGAATAG
ATAACTTTGTACTGAACATATTAATTGACTTGATCCTCAGTTGAGAGCTCTCTCACTCACTGTGCTGTACTGCTTCTCTCCTGATCCAAACAGTAACCTC
TCAGCTCACCTGACCAGAATTTAAGCTTTGGACATGATACACAGAAGCTTAGAATATGTCAGGAAAACATGCCATATCTGCAGATCTGAACCCCCTCAAA
GACTTAGCACATTAAGATATTCTGGTGCCTTTTTGTATGGTCCCCATTCTTTTGGGCTGTATAATTTTTCTCTAAAATTTCTGCATTACATTTTAATAGC
TTTGTTGAGATAAAATTCATATACCATATAATTCATCCATTTAAAATGTACACTTCAATGGTTTTTAGTATAGTTGCAGAGTTGTGTAATCATCACCAAA
ATCTAATTTTAGAATATTTTTGTCACCCAAAAAGGAAACTTAATACCCATTAAGTAGTCAGTCCCACCCAGCCCTCACTGCCAAGACAACCATGAATCTA
CTTTCCATCCCTACAGATTGGCTATTCSAGACATTTTATATAATTGGAATTATGTAATGTGGTCTTTTTGTGACTGGCTTCTTTTATTTTGTGTAAAGTT
TTCAAGGTTCATTCATTTTCAGTAAGGTTGATTTCTATCAAAATTATGTTATAATTACATATGACTTTATTTAGCAAAACAGAAAAAGATACAGATTCAA
CTGATAGTGTAAATGCAATTTCTTTCTACTACCTGTCTATTTTCATTATAAATCAATGCTGGAAGGAAATCTTCAACTAAAACTTCAAGTCCCCAAACTA
CACTTCTAGTCACAAAAATGTGCCTAAATTATCAGACTAGGAACACCCCCATGAGAGAAAGTGGCTAAATGGGGTATCTTCCTGAATGGGCAGGCCACCT
CTTACCTGGGTATTGGACAAGGCCCCTACTCCAGACGATTAATCCTCCTTCCCACCACAGGCTCACTCTTTGCATTCTTARGCAGTTATGACTCTGTAAA
AATGCARAAGTTTCTAATGCTTCAGTTGCGGTTAGCTTTTTGTAGTTAAAATTTTAGTAATCAGTTCATAGGCTAAAGCTTTGCTAATCAAAGTCTGATT
TATTGATTAGCAATATAGTATAACCAGTGAACTTCTTTGAAAATAGAATCTCAAGACTACCTCAGACCTGCCTATAATTAGCATTTTAAGATTTCCAGAT
GATTCATATGCATATTCAAATTTAAGAACCCTCCCCTAAAGAGTATTAGAAGAAATTAGATTTAAAAGAGATATCTGAGGAAGATAAATAGAAACAATGA
ATGAATGAATGAATGAATAGAAAGATGTAGCTTTCATTTGTTTTGCTTTACAATTTGCTTTTGGTTGGTACTGATTTAAGTGCTTTAGTAACTATTAAAG
TGGCATTCAGGGCTCATTCTAGAGCCCAGGATCATAATCACTCATTGTGCACAATATATGCCTAGTACTTCACACATTGTGGGTGCTCTAAATGTATGTT
ATCTCTCTTTTCCTTTCTAAGATATAAAATTTCATAGTAGTAGTATTAAAATAAGAAGAAAGTTATAATGCAATGGAACTACAACACAATAATTATAACG
TAATAAATAACCCAATTGAAAAATGGGCTGAGAAAGAGGCAGAGCAAAATAGCTGAAATGAACTCCCCAGCAATCGTCCCCTTAACGCCCCACAGGATAA
CCGAGTTGAACAACTGCCCAGGCAAGAAAGCACCTTCATAATAACCAAAAATCAGGTGAATGATCACAGTGCCTGGTTTTAACATCAAGAAAAGAGGCAC
TGAAGGCTGGGTGCGGTGGCTCACGCCTGTAATCCCACCACTTTGGGAGGCCGAGATGGGCTGTTCACGAGGTCAGGAGATCAAGACCATCCTGGCTAAC
AYGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATG
GTGCGAACCTGGGAGGCGGAGCTTGCAGTGAGCAGAGATCGTGCCACTGCACTCCAGTCTAGGTGACAGAGCGAAACTCCATCTCAAAAAAAAAATAAAA
TAAAATAAAAAAGGAAAGAAGCACTGAAGAGGGTGGGAAAGACAGTCCTGCATTACCTAAACTCTTCCCCACCTCCCCACTAGTGGCACAGCATGGCACA
GAGAGAGAATCCATGTGTCTGGGAGAGAGAGAGAGCAAAGTGATTGTCAGACTTTGCATTGGAACTCAATGATGGCCTATCATAGTGAAAAACAATACAG
GGCAGAATTCTGCCAGCCCCCATGGAGGGAGCATTTAGACCAGCCTCAGCCAGAAGGTAACCCTCCACTGCAGCAGTAGGAACCTGACTTCCAGCTAGCT
CTACCATTGGTTGACTACAGTGCTGGGGTCCTGAAAAAATTTGAAAGACAGGCCTCAGGGACTACAGTACTTGGGCAAGTACTGATGCTCTTCTGGGCTT
GCAACCAGTGGACTTGGGGTGCACGTGACCCAGTGAGACACCAGCGGTGGTGACCAAGGGAGTACTTGCATCACCCATCTCCCAACTCTGTGCAGTGCAA
CTTGGGGAGAGACTTCTTTTGCTTGGGAACGGGAGAAGGAAGAGTATAGAGGACTTTGTCTTGCAACTTGGGTAACCAGCTCAGCTACAGTAAACTAAAG
CAACTAGCAGACTCCGGAAGCCCTCTCCTGATTCCAGGCCCTGGCTACTGAACAGCATTTCTAGACCCACCCTGGGACAGAAGGGAACCCAGTGCGCTGA
AGGGAAGGACCCAGGCCTGGAAGGATTCACCACTTGCTGATTAAAGAGCCCTCAGGCCTTGAATAAACATGAGTGGTAGCCAAGAAATAGTCACCACAGG
CTTTGGGCAAGACCCAGTACTATGCTGACTTCAGGTGTGACCCAGCGCAGTCTCAGCTATAGGAAAGTAATTTATCCTCCCTTGGCCTCAATTTTCTAGT
TTTAGAAAGTGGATTATACTATCACCCACAATAATAGATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAATGTCAATATATGTCAAATGCTTAGA
CACTACCTAGCACATAAACTTTAGGAAAGTTAGCTCTCATTTTTATTTGTTCTGTTTTGTTTCTGATTTTACTGTTATATAGTTGTAAAGAAAAAATGTG
GTATCCTAGGTAGGGTAAAACATTAATGTACAATTTAACTTAGGGAAATTTAATGTCCCCATTATATTGAGTCTTCTGTTTCAGAGCAAATTCTTTCCAT
TTATTCAAGTTTCTTTTTCGATCTTTCAGCAGAATATTCTTCTCATAAATTTGTTAAAATTTATTCCCAGGTATTTTATCTTTTCATTGCAATGTGAATG
ACATTTTCTAGTTTGTTATAGTGTGTGTATCCTATAAACACACTATATAAAACATATTAAAAATCAAGAAACATTGGTTCTTGATATTTAAGTTTAAATC
ATTAAACTTACTGATTTGTTTTATCATCATATGGTTTAGATGAGTCTTTTGGAACTTCCTGGTTTACAATTAAATTCCAATATATGGTGATAATTTTGCT
TCCCTTCTGATAATTAAACATCTTGTTTCTCTTTTTCCTAATTGCAGTGGTTGATATTTTCAGAACAATTATCATTTTTCAATTGAATTATCATTGTACT
CCTGGAATGAAACACAATTGGTCATGGTACATTATTCCCTTAGCTTGCTGCTAAACTTGTTTTGCTAATATTCATAAGTGAGGTTGGCCTATGGTTTTCT
TTTTTGTATTATGGCATTAGTTTCCAAGGCTGCCAATAACAAATATCACAGACTGAGTGAAATGTATCTCACTGTACATTACAGTAGAGTTAGATTAGAA
CACAGAGACCAAGATGCCAGACATGTGCACACACAGAGATATGACCATGTCATATCTGCTACTGCTACCATGGCCCATCTGCTACTTATCACTTGTTCAT
GTACAACTATACATTTCTGTACAACAGAAATATATTTTCTCACAGTTCAGGGCAATAGAAGTTCATTATCAAGGTGTTGGCGAATTTGATTTCCTCTGAG
GCCTCTCTCCTTGGTTTGCAGWTGCATTCGCTGTATGTTAACATGCTCATATCTCTGTGTGTGCACATGCCTGGCAGCTTGGTCTCTGTGTTCTAATCTA
CTCTTTTTATGAGGTCACTTGTCATATTAATTAATGCCTACCCTAATGACCTTATTTTAACTTAATTACTTCTTCAAAGGCTCTATTTGTAAATAGTCAC
ATCCTGAGGTATTATGGGGTTAGGGCTTCAACACGTGAATTTCAGGGGACACAATTCCCCATAGCAATTATCCTTGTCAGATTTTGAAATAAATGTCATG
TTGAATCTGTAAAAATAATTTGGAAGCTTTTCTCTGTCTCTTTCTGTCTCTCTCTTTCTCTGAATCTGTTATGTAGCCTGATGTTGTTTTTATTTCACAC
AATGCATCAATATTACCTTGTCTCTGATAAGTCTCCCAAAATTTCACAGGCAGAGAAACAAGTCCTGTTTCTGTAGGAGACCACCAATATGCACATCTCA
GACTACCATAATTTGGATATGGAAAACATCGCAAGGGCCAAATATGCCAGCCGATGCACATCATTATAAATTATTGTTTCAATATCAATCTAGGGAATGT
CACTAATGATTGATAGGTATTATAATCACCATTCATTGTCATTAACTTTATAGGTTTCCATACTTGGTTTTTGTAGTCATGTGCAGTTCCACAATGCCAA
AACTTGATATACCTTCATTTTAAACAGTTAAGTTTCTAAAAGTAAACCTTTCTTTTACWCATAGTCTTAAATATCTAAGACTCAATTTAAGAACACTGCA
TATTCTGTGGCATTYGAAAATGGTTTCCTCGGGAGTTGAAACCATAAACTCTATACCCCATTACTGAGTGTGCCCTATGTTACAGAATACTCYTTATTAA
AGGTGAAAAAGCAATCTACTACTCTGCAGGCTTTTGGTCTGGAGATAAACACAAGATCATAGATCATGTATTATTATCAGTTATTTTAAGGTCTCAGAGC
AATTCTTTAAACATGTATCAATTGTAAGGAGTAATATAAAAGGACGCTAGCTTGTCAATTTCTTTTTGTCACTCAGGTCTTTGGCATAGACTCTGTTAGC
TTTATTAAACATTAAGTATTGCTTTCAGGKTGAGGTAGAAGAGCATAAGCAAGAAAAGCTTTATAGGCTAATAAAAATGTAAATGAGATGTTCATCAGCT
TGCTGCCCTGGAAAATGATGGAAGAAACATTACCTGAAAAATTAGATTCAACRATTATTGCTAACCAAATCAACCTGATATGAGAAATCCCTTTGTAACC
ATTTGTGTTAATTTGCATCCTTATGTCAATCTTTCTATGCACTGAATTTGCTTCCAACATCCTAGGTCCTCTRTACATATATATGTAGATAATGTATATA
CACATTTTTATATATACATAGAAATATATACACATATTTGTATAATTCATGTTATTAATTAACATGTATTAGCTAAACAGAAATATTTCTGTTACATATT
TGCAGCAGTTGGTAAGAAACGCCTATATATTTTAATTCGTCTGCACTTAGCCTTCTTTTTGCACACCATACTCCTTACAAGGAATTTGAAGACTGAGTTG
TAAATCAGAATTTCTATAGCTTGTTAAAGTCACATCCTCAGAGTTTGGAAACCTCTGAGCTCACTATGTCTCAGGAAGAYGGGAAATTCTTCTTCTWCTT
CTTCTTCCCCTTAATTAGGAATACATTGTAATAATAATATTTTCTATGTGACCTTTGAATACAGTAGTAAAATAACAAGTGGGGGCTACTTACTTTTCTC
AGGGATGATTCATCCTGGGATGGTGTTTAGACAGTGGCCTTTGAGTATTGGATATTCTATAAACATCGTGTGAGTTGTTCTTCTTGATGACTCCCTTTAG
TGGATCTCCGAAGACCCTTTAGAAGCTTGCTGAGGGTGGGATGGAGGAAGAGGCTAAAGCCCCCATAACTGACTCTCAGCAACTGTCCTCTCTCACAGAA
TCTCTCTTTTGCGGTGACCCTTAAAGGCACTTGGCCCATCTGCTACTTATCACTTGTTCATGTACAACTATACATTAGGCCAATATATTAGGTTGGTACA
AAAATAAATGTGGTTTTTGCCATTATTTTTAATCTAAAAAACCTGCAATTACTTTTGCACAAACCTAATAGTTATTGTAAAGGATGGAACTTTTAAGCAA
GGCACACAAAACCTTCTAAAGTCACTCTGAGAAGCAATTCAGAGTAGCCCCTTGCTGCATCTTTCATTTWGCAGCCATTTTACTCTTTTCTCTGCCCTAA
AGCAGATCTCAGGTTACTAACTAACCCATTTATGCCAGAGGTTGCACATTTTTTTGTGTGAAAAATCAGACCTTGGCGATGACCTTGAGMAGTAGGATAT
AAATAACTCCCACAAGCTTAGCGTTCCAATAATGGAACACTAGGCATAAATGGGCTAACTCCTTCAGCTCTGGGCTGAGTTTCTCACAATTACTGCAGAT
CTCCACATCTGGGCAGGTCCTGACAATAGTTAAAGATTTTTTTTCTCATAATTTGTCCTGAAAGGACATATATTGAGCTATTCAGGAGACTTGAGAAAAG
TTCCAAGTTAAATAGGATAAAGGGCAATGGATACACATTTTTTGTTCAGAAATATAAAGATTATTCTTAGTTAGAGGTGAATATGTTCCTTCACTGTTCT
CTGAATTCATTCTGTCATTCTGCTCCTGGACTTCCTACAATAGTACCTTGACTTATAAGGCCCGTGTCCAGATCTTTTACAGTCCACTTCATTCAAAATG
CTCCTGAAAAATTCAAGGGACTCACTAACACATGGCTTTGGTAAAGGCATTCTCCTGAACAAAAACCTTTCTGACCTCAAAATACACCTAGCAAGGGATT
TAGTGGTGATAATCTAGCTCTCCTACCTTTTCAGCCCTGGATCTTTATGCTCTTTATCTTGCAAAACATGCTCTAAATTAAATTAACTGCTACCCATTTG
TATGCCCCGTGTTTCTACAACACTATAGTCTCTTTATGGTTCACCTTTTCTACCCATCCCCAAAGCCCAGATGAAATGCCACTTTCATGAAACTGTTGGA
TCCATCTATCCTGAAGTTTTTCTATGCTCTGAACAACCACAATGTTTTTTTTGTACCTTTCTAATAACATGTAACACCACCTGTTTCATGAGCATAGTTT
TATTYGATTATTTTATTATACTCTTTTTTGAGCACAGGAACTGCACACTAGAAATCATCATATTTCTCACAGGTTCCAATATTGTGATTTTTGCATACAG
TAGATTTTTAATAAGTTTCTGTCAAATGACTAAACTAATAATTATTCAAGTGTTTTAGGAATTAWACAGAATGAGGAAAATTATTTCTACTCTCCATAAA
AGCAGAAGAGATTATAATGATACGTTTCATGAAGAAAGTAGCTTACAAAATTACAAGCAATTTTCATGAATAACTTCAAACAAATTAGTCTTAATACCTA
TAAAAAGTATCACAGCCTTAAAAAAATGATGACAATTAAGTGATGTCAGCAGTATGGCAGAATAGGTGTTTCCATTGCTTGTCATCTCACAGAAATATCA
ACTTGAAGAACTATCCACACATAAAAATACCTTCACAAGAGCTAAGAAATTCAGATGAGAGATTATGGCATCTGAATGGAGCAGAGAAATCAGCAAAGAC
ACATTGAAGAGGACAAGAATAGTTTTACATTATGCATGTCACCCTTTCCTAAAGCCTAYGCAGTTCAGTACAAATAGAGATAGCCTCCATGTAAAGGAAA
AGAATAAAGTGAGTCCCTAACTTCATTGCAGGCCCCAGCACCATGCCTACCCCAGTGGATTCCAGAACCAGGCCAGTCCTCATGTCCCCAGACCTCTCTC
TGGCCCCCATGGACCCAGCATCCAGGCCCATGTCRCTGCCAAACTAGCCCCTGTAGCCTGTGGCCTCAGGCYTCAGGCTCATTCTAATATCAGACCAGCC
CTCACAGCTCCAGGCCTGCTCTGGGCCACCCCAGTGCCAGGAAGGCCCCCATAAGTCAGGCTGCAGGCCAGCCCTAGTAGTCCCAGGCTACTAGGGACTA
GAGTTCATGTAAGCCCTCCTACATGAACTCAGGTACGAGGCTCATTCATATGGACCCAATGTCCAGGCCCTCCCCAGTAGACCCAGGCTCCAGGCTYGCC
CCTACAAAAAAAGACATCAGATTGACCCCTGTGGACTTAGGCACTAGGCCCATGAACCCACTGACYTAGGCAGCAGGCCAGCCTGCYTGAGGACTCCCGT
GGCAAGCCCACTGCAAACCCCAATGGATAACCTGGTCAGAATCTCTGGACAAGCTGTCTGGTGAAGGGCTTTCCTTGCCAGTCTGTAAAGACTGGAAGAA
GTGTCTACTTCAAATGCACAGATACCAATACAAGGCCACAAGGATCACAAATAATTAGGGAAACATGATGCTACCCAGGAAACAAAGCACCAGGAACTGA
CCCTAAGGAAATGAAGATTTCTGAACTGCCTGGCAAATAATTAAAAATAATCACCTTAAAGAGGCTCAATGTGCTCCAAGAGAACACAGATATCAGAAGT
TCAACAAAGAGGTAGAAACCATAAAAAGAAATCAATCAGAAACTCAGAAGCTAAAGAGCACAATGATTGAACTAAAAAATTTCACAGAGAACTTCAACAC
AAACTTGATCAAGCAGAAGAGAGAATCAGCAAGAAAAAAAAGAAACTAAGGAAAAAAACAGGTCATTTGAAATTACTCAGATAAACAAAAAGGAGAAAAA
GAATGACAAACGTGGAAAAGCCTACAGCACTTTTGGTACATCAACAAGTAAACCAGTGTATGCATTATTGAGGTCCAAGAAGAAACAGAGAAAGAGAAAG
GGGAAGAAAGCTTATTGAAAGATATCATGACAGAAAACTTTTCAAGTTTGGAAAGGGAAATGAATATCCTTATCCATGAAGCCCAAAGAACCCCAAAGAT
ACAGAGATATTCACTGAGACACATCATAATTAAATTCTCAGAAATCAAAGACAGAGAAAGAATTTTGAAAGCACCATGAGAAAAGTGACTCATCACATAT
ATAAGGGTATAAGAATATTTATTCAACAAAGGTGGCAGGAACACACAATAGGAACAGGACATTCTCTTCAATAAATGATACTGAGACAAATCAACTCAAA
ATTGACTAAAGACTTAAATGTTAAGGGCTGAAACTTTAAAACTACTAGAAGAAAACATAGAGAAAAGCCTTTTTGAAATTGGTTTGGGCAATGATTTCTT
GGCTATGACCTCAAAAACACAAGAAACAAAGCAAAAAGAGATTAAYAGGATTGCATCAAACTAAAAAGCATTGGCATAGCAAAAGAAACAATCAACAGAA
TAAAGAGACAACTTATGAAATGGGAGGAAATATTTGCAAACCATACATCTGATAAGGGGTTAATACTCGAAATATATAAGGAATTCAACTCAGCAACTCA
GTAAAAGGACAACAAATATTCCAATCTAAAAATGTGCAAAAAACCTGAAAAGACATTTCTCAAAAATAGGAAATACAAATCGCCAAGAAGTATATGAAAA
AAATGCTTAATATCGTTAATTATCAGGGAAATGCAAATTAAAACTACAATGAGATATTACCCCATACCATTATAAAATGGCTACTATCAAAAAGGCAAAA
AATAGCAAGTATTGACAAGAATATGCAGAAAAGTGAAACGGTACAGCAGTTATGGAAAAGAGTATAAAGATTCCTCAAAAAATTCAAAATATGACTACCA
TGTGATCCAACAACCTCATTTCTGGGTATATATTCAAAAGAATTAAAATCAGCATRTTGAAGATATATCTGCATTCCCATTTTTTAAAAATGGTGTCTCA
TTCTATTGCTCTCTCATTCGTATTGCAACATTATTCACAATAGCCAAGATGTGAAATCAACCAATCAACCTAAGTGTCCATCTATTTATGAATGGATAAA
GAAAATGTGGGTATAGAATASTATACATATCATATATGTGAATATTATTTATCTTAAAATGAAGAAAATTCTCTCATTTGCAGCAACATGAATGAACYGG
GAGGACATTATGCCAAGTGAAATAAGCTAGGCACAGAAAGACAAATGCTTCATGATCTCACTTACATGTAAAATCTTAAAGCCTTAAAATTACAGAAGCA
GAGAGTAGAATGGTGGTTGCCGGGGGCTGGATGTGAAGAAACAGGGATGCGTTGGTCAAAGGATACGAAGTTTTAGTTATGAAGAATGAATAAATTCTGG
AGATCTAATGTACAATGTAGTGTTTATAATTATTAATATTATGTTGTATACTTTAAATTTGCTAAGAGAGTAAATCTTAAATGTTCTTACCACAAAAATT
TAACTATGTGAGGTGATGGATATGATCATTAGGTTGGTTGTGGTAATCACTTCACAATGTATATATAAATCAGTCAAAGCATCATGTTGCACAAAATAAA
TACATACTTTTTATTTGTCAGTTATACCTCAATAAAGGTGGAAAAATAAATTTTTAAACACTGAATATAGGTAAAGCTAAAAGTTATATGTGGGGATATG
GGGAAAGAGTGTATGTTGTGGCTTGGAGCAACAAGTAAAAGGATTACATCTTCATCTTCCACATAGTGTGGTTAAACAGAAAAAAATAAATATTAAAAAA
ATCAATTATTTTTACATTGTGTATRTAAATATCCAAAGAAGCAGCTAAATTAGTCAAAGTGCTTATCTTTGGGAAATAATAATGGAAGGAGAAGTAAACC
AGAGAACTTTGTTTTTCAAAGTTGACCTTGTAGAACCATTTTTGACTTAAAAAATGGATATATGCTGTTTTGATTTTTAAAAATTAATTAAAAAATGATG
ATCACATTTTGTCTTTAAAAATTTTTGTTTAAAACGTATCCATTTCTTCTCCCCATTTAATATATCTTTTGACCATTTAAAGTATAAAAAAAGAATTTGG
ACTTAATCTAATGAAGAAGTTTGACCCTAACAAAAGAGAGTAATGGGGTTTAAATTTATGCCACTCTACAAAAAAGAAGTCGAACTCACCCATAGGTAGT
GAATTACAGTCCTGTGCTATATCACACAGCCTTGCCATTGATAGCATGGAAATACTTCGAAATACTGCTGTCAAAATTTGCAAACTGTCAAGATAAATAA
GTTCATTCAGATTATTTATATCTGCTGTTTCTCCCCCTAACCTCATACTTAGAAAATTATATRTGTCTAGTCCTTCTCCAACTTGATTTTATGTCTTTTA
GCCTAATACATTGGCAAACCAAATGCATGACTCTGACACCGATAATACTAAGAAGGGCTGAAATGAATTGTTAGAATGAGAGACAGTCACTTTGTTTAGA
AGGGAGTGCTCCATGAGCAGTGTGATAACATAGCTCCTTGAAAATCTAGTCAATCACCATTTTATAGTAAAAGCCTATGAATTTTTGTAGCTTGGTGTCT
TATTGTCTCTATTCAYTAGTTGCTTCTAACTTTTCTGGGCATCCCCAGAAAAGTGGAAACCTCCTGTGAATGAGGCAAATTTAGTAACCTCCAATTAATC
AAGCACACTAAGCACATACCACATCTGCAGGAATAAACTAGGTATGGGATTAAAGAGATGTATAGAATTAATTCTTTGCTTAATGTATTTTGCCATTCTA
TATTTCTTTTTTTTTTTCAAGAGAGCAAGTCTAAGTCCTCCCTGGAGAATTGTTGAAATAATGCCTAATTTAGGTAACTAAGCATTTTAAGCCTTTCTAC
ACTTTTATAATATTTGTAATTGAAAAAAACCCAGCACCAATATATAAATAATTAATTTACYTTYGAAATACTGCTGTCAGAATTATGATGCAAACTCTGC
ATCACATTTTTGCATACCTTTTAACCCAGGAAATTCACTTCTAGAAATTTATTTTACGAAAATAATAAGAGATTGAATTGCATGGGTGTTCATGCAAAAT
AAAAAAGTAAAATGCTCTAAATGCCCAGCATTAAATATTGATTAAATCAAAACAGTGCATGGATATGGTGGGACACTATGCTATCATTAAACATGACATT
GTACAAGATTATACATTGACATGAAAAGACACATATAAAGACTTTGTGAAACATGTATAATGTTATTTAAGCTTTGTTGTGACACTCAAGTTTTTTCTTT
CTTTTTAGTTGTTCTTATTACTAGAATGAATGCATTTTCTTAAATATTCACCTTTACAGAAGTGACTACACAATTAATGGCTACACACCTCTCCCCACTT
ATTTCTGCCCAAAGACAACTACTGTTGACATTTTGGTGGATATTCTCCTAGGTTGTTTCATGTATGTCTTTTTCAAATGTAGGATCACACTAAATGCTTC
TGAAGCATACTTTTCTTATTTAAAAAATACAGCAGACAGCTTCTAAGTGTGCACCATGTTCTTTTGTAAACATATGTATTTTAAATATATGCACACACAT
AAAGAGAGAGAAAGAGGCTGTTTAAGGAGTAATTGTTAAGTGGATATGCATGCAACGACCACCAGTTTAAGAAGTAATTTCTAGTTCCCCGGAGAATCTT
CATGAGAACTTCTGATTTCATATCTGTCTCCTTCTTCTAGAGTAATCCCTCTCTCTCTATGGTAACTATTCCTTTGCTTTCCTAGATATTAAGTATATGT
AAATGTATGTGTAACTCTGTGAATATGTATCTCTGTATAAAATCATTAATTAWATATTTTTAATTTTTTCTGTTCTTGAACTTTATGTAAATGAAATCAA
AGGCATATTTTTGTGACTTTATTATTTATTGTGACTTCTTTGTGAGTGATCACTTATGACATTTTAACAATTTTTTTATGCATGTGGCTGTTACATAGCC
ACATAATATATGTTTACATAGGTCTTATGTACAAGGGAAGGTTCTAAGCACATTATACAGATTATCTTGTTTTATGTCGGGAATAGGTATCATTATTCGT
TTCATTTTACAGATTGGGAAACTGAGTTCCAGAAAGGTTAAATAACTTAATGTAGGTCACACAGCTAGTAAGTGGTGTAGRTTATATTCTATCCTAAGTT
GACTGACTTCATAGTCTGTGATCTTAACCATAGTTCCAACCTGCTTTCTGTTACAGATGAGTATGCTACAGATGCCTTCTGCTTATTTAGGGTTAATGCT
TTCATATATTAAGAATCCCCCAAGACTCAATTTCATAAAGATATTTTAAATTATTATCTTAARGTTTGATGGTTTGCCTTCAGTATTTAAGTGCTTTACC
TACCTAATATTGATTCCAGTCTATGGTACAAAGCATGGGTTTAACTTAATTTTTTGACATGTTCAATTGTCTCAACACCTTTTATTAAAAAGCTTATATT
TTCCTTATTAATAATATACAATACTAATTCTGTCATATATCAAGTGTCCATTTAATTGCAAATCTGTTTCTAGATCTCTGTTCTGTTCATTTATCTAYTT
ATCTAGTCATGCAACATCCTATATAAAGTTGTTCAGAATAGTCTCTTAATAATTTTAATTTTCTACCAATAGTGGCATATTCTTTTTTATTCCTGATACT
GATTATTTTGGTCTCTCTTTTTGTCGGTCTTATCAGAAATCAGAAGTTTAGCAATTTTGTGTCTTTGCAAAGAACCAACTTCTGGCTTTGTTGAATTTCT
CTAGTATTATATGTTTGTCTTTTTTTTAATCAATTTCTGCTTTTATCTTTCTTAACTTCATATAATTTCACTACTGTTTTTCTAATTTCTTAAGATGGAT
GCATAGCTTAGCTTATTAATAYTTAGCCTTTTTTTTCTAACAGCATTTTAGGCTACACATTTGTAAGTTCTGTTTTTGGCACATTTAAGTTGTAATATAT
TTTGTTACTGTTCAGTTTAAAACATTTTTMCTTCTACTAGAAATTCTTTTTGGACCCATAAATTATTTAGAAGTAGGTTTCCAACTTTACAAACTTAGTG
TTTTTAAATTACCTTGATATTGATTTTTAAGTTAGTTGTACTGTAAGCAAAGAACTTYGTCATTAGTTTTCCAGTATTTGAAATGCATTGAGTGCTGCTG
TAAGGGCCAATATTTAGTCAATTTTGTGAATGTTCCCTTTATTCTTGAAGTGAATATGCATTCTGCAGTTGTTTGCTACACAGCTTATAGGTACAAATTT
GATCAAGGTCTTAATTGTGTCCTTCATGTCTTTCATATCTTTATTGTTTCTTGTTGGCTTTATCAATTTTGTGTTAAAAATTTTTCACCATGATTGTAGA
TCTTGCTGTTTATTGTTGTAGTTCTATAAGGTTTTGCCTAATATATTTTGATGYTATGTGTTATTGATATAAAATTTAACATGGTTTATAGTTTCCCAGG
GTGAATTAATGAATACATTACAATAGATTGAACTTCTCTATCTCTAGCAATGGTTTACTTTACCCATGAAGTCCAATTTTTCCCTTATCAATTTAATAAT
ATGTGACTTTATTGCTTAGAATTTATTGGACATATCTTTTTCTATACTGTTATTTTAAGACTTCATAACTGTTTTACTTTAAAGGCATTTTGTAAATGGC
ATATAATTGAATTTTATTCTACCCTAGACAGATATTCTTTTGCCTGAAAGATTAATTCACTTTTATTAGATATTATTACTTACATATTTGGAGTTGAATC
TACCAACGTATTTTGTATTTCCATTTGCTCCATCTTGTCTTACGTCAAATATTAAGTGCCTGTATATGTGATGATCTGTTTCTAGACTCTATATTAACCT
ACTGTTCTATTTGTTTGTTGTATGTGAGTACCACTGTGTTTTCCTTGCTGAAGCTTTACAATGAGTTTTGACATCCAAGCATATGAATGTAATAATCTTC
TTCTTTAAGATTTTCTTTGTTACTTTTTCGCTTTTTACATTTTATTATATATTAAAATCAGATTGGTAATTCTGTGATTTTTGATAGAACTATTTTTTAA
ATTTAAATTAAAATTTTCATTTGTTTCTTGTTGCTAATGAATAAAAATATAATTTTTGTACACTGGCCTTGTTTCTAGTGATTTTGTTTAATTCACATTT
TAATGATTTATATTTACCATGGGAATGATTCGATTGCAAATAGATTCTTCTGTCCTTAGTTTTCTATTTCTTTTTCTTTCCTTATTTCATTGGCACTCTA
GAACAATGTCAAACAGAAATGGTGACAAAGAATAGACCTGTTTTATTCCTGATTTTAGGGATAAAATTATATTTCAGCATTAGCTATAGAGTTTCTATAA
TTTTGTGATTATTTTCTAAGTATGTATAGACATTTTTATCACATTAAGAATTTTTTCCTTCTATTGTTTGCTAAGAATTTAGTCCACAATTACTATTAAC
ATTAAAWTKTTATCAAATATTTTCTCATCTATTGAGATCATTATGTAATTTTCTTCTATTATTTCATTAATATGCTAATTTACATTGGTTTTGAATGCCA
AATTAATTTTGGATTCCTAACATAAGTTGCACTTTTTCTGACATGTCATTTTTATACTCGTTGAATTCAGATTGTTGATGTTTTTATTTTTTAATTTACA
AATAAAAATTATATATATTTATGGTGTACAACATGATGTTTTGATAGATTCTTGATATTTTCTTTAGAATTTTTGCAACTGTATTTGAAAGACATTGTCC
TATAATTTATTTTCTCATAATGTTAGAAAACCCTGGCCTCATAGAACAAATTAGAAAGTTCTATTCTTTGGAAAAGTTTGTGAAGATTTATGTTATTTCC
TCCATAAATATTTAATAACATTATCTAGTAAATTTATCTAGGATATGKGTTTTCTTTCTGGAAATGTGTTCAAATTATGAATTTGATATTTTCAGAAGAT
ATGGATAGTGGTTTGTGGGAATCTGTTGATACTGACACTGGCTCAGGGTGCATTTTGCACACCTCTTTCTAACTCTCTCCTCAGTGATGTCATGCAAGTA
GCTTAAAATTAGCCATTGTGGAAATATTTACAACACAAAAATCAAAAAAAGTGTGGCTTATTTTTTGAGAGCTGAAGGAAAACTTAAATGTTTTCACTTC
TTCCTATGTTCATTTTTTAAAGTTGTGATTTCCAAGGCATTTGATTATTTCACCCAAATCTCCAAATTTATTGGCATAAATTTGATCATAAGTGCTTCAT
TATATTTAATGATCTGCAATAATGATCTTTTTCATTACTAATATTATGTATTTGTTCCTTCTCAATATTTTTCCTCAGGTATCTGGTCAGAAATTTTTCA
ATTTGTAATTATTGTTTGTTTGAAAACCTTTTGTGCTTTTGTTATCTTCTCTATTTTTTTTACTCAATTTCATTGTTTTCTTCTTTTTAACTGTTTCTTT
TAGTTTTCTGGGGAAAATATAACTTGGAATTTTTTCTAACTTCTTAAGATGAATTATTAGATTATTTATTTTCATCCTTTTTTTATTGTTTAATATTTAC
ATTTAAGACTATAGTTTTTCATTTAAATACAGGGTTAGTGGTATACCTGAATTTTTATATATTTACACACTCATTCACTTCAAATATTTTCAGATTTCCA
TTATTATTTGTCTCATGGGTCATTTATTTTTTCATTGCTAAATTTTCAAACATTTTGACAGTTACTAATTTTTTTTTACTTTGATTTGCAGTATAATTGC
ATTATGCTCAGAAATTATAGTTTGTATTATTGCAATGTTTCAAAATTTGGTGAGGCTTGCTTTATGACCAAGCATATGGTGGATTTTGGCAAATGTTCTC
TGCATACATGAAAAATATGTCCATTCTTCAGTTCCTGCTTTAGTTCCCACTTAGGTAATTTTTGTCAATCACATTTTAAAAATTGTCTGTATACTTACTG
TTTTACGCATTTGTTCTATCAGTTAATAAAAGAGTTGCTTTAAACTCTCCCACTATAATCATGGATATCTATTTTTTACTTCTATTTCTCAATATTCAAA
TTATATATTTTAAGCCTATAGTAATAAAATGCCTGTTGATTTAGAATTGCTATATTTTCTTGATTAAATGGCTCCTTTTAAATTATAAAATGTCCCTTTT
CATCTTTAGTAATTCTCTTCACCTGAATTTCTACTTTATCTTTTAGCAATATCACTATGCCAGCTTTCTTTTGAATAGTGTTTGCATGACATTTTTCTTT
TGATCCTTTTATGTTCAAACTTTTTGCATCTTTATATTTAATTGTGTCTCTTGTAAGAAATATTCGTATTTTAAAATTTGAGACTAATAATATTCCRTCT
GTTTATTTAATATTTAATTTATTGGATATATTTGAATTCAAGTATATTGTTTTATTACTTGATTTTGTTGCTCCACCTATTGTTTTTGTTCATTTTCTGT
CTTCTTTTAAGTTAAGTATTTTTACTGGTCTCTGAGTGGTCACCTTAGAGATTATACTGTGCATTCTTTACTCATTATAAATTTGGGCCGGGCGCCATGG
CTCATTCCTGTAATCCCAGCAGTTTGGGAGTCCAAGGCGGGCGGATCACAAGGTCAGAAGATCGAGACCATCCTGGCTAACACGTTGAAACCCCGGCACT
ACTAAAAATACAAAAAATTAGCCGGGCGAGGYGGCGGGCGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGTGG
AGCTTGCAGTGAGCGGAGATCGCGCCACTGTGCTCCAGCCTGGGTGACAGAGCAAGACTCCGTCAAAAAAAAAAAAAAAATCTGATATAACATTGTTCAT
TAAAGTATAATTAAATTTGCTACTTCCCAAACAGTGAAAGAGCTTTAGGATACTTTAAAGTATACCTCTCACTTTCTTTTATTCTATTTTTGTCATATAT
TACCTTTTTGTGTATTTATTTAAAATGCTATGTCATAATTATTATTTTTAATATAGACTATTTATTTAGCTTTAAACATATATTTACCCTTTCCATAGCT
ATTTATTCCATTCTGTGTGTCTGTTATTCTCTCTGGAGTCATGTTGTTCCTGCTTGAAGAATTTCCTTTAACATGTTCTTGAATATTTCCTTTAATGCAC
ATATACTGGGGGTGTATTTTCTGGTTTTGCTTGTTAGAAAAAAAAATGACTTATTCACTATCAATTTTGAAGGATATTTTTAGTGGTTACTGAATTCCGG
TTGGACAGGAGTTTGGTCTTGCTTGGTTTTGTTTTCATACTTTAAAGACACAATTCCATTATTTGTGTCAAGCAACCAATCATCAATTTTACTGTTGCTT
ATTTGATAGTATTGTGTCTTTTAAAAAATCTTGCTATTTTAAATTTTTTTCCGTTGGTGTTATCAGTTTTACCATGATATTCCCAGTGATGATTTTCTTT
TTATTTGGAATCCTTCAGATTTGTAGTATTAATTGAATATGTGGCTTCATGTATTTCTTCATTTGAGAAAATCCCTCAGGCATTTCTTCATTTCTTCATT
TGAGAAAATATCTCAGGCATTATCTCTTAAAATATTGCTTTATGTGCCATTCTCTCTTTCCTTTCCTCTTGGGACTTGATTTTTTTTTAATTTTAGAAAT
TTTTTACACTAATATAATACCTTCCCTGTGTTTTCTTTTTCTCTTTGTCTCTGTACTTCAACATAGATCAACACCATACAGTAGAAGTTTCTGTGATGGT
GGAAATTCTGCGCTGCTCATTTGGTTACTGTAGTCACATGTTGAATACTTCAAATGTAGCTAGTGTGTTATGGGCTGAACACTGGTATTCCCCCTGATAT
TCGTATGTTGAAACACGAATCCCCCTTGGGATCATATTTGGTGGTGGGACTTTTGGGAGACCGTAAGATCATAGTAGTGGAGCCCTCATGATGGAATTAA
GAAGAGGTAAGAGAGAGCTTGCTTCTTCTCTCTCTTGGCCATGTGAGGAAACCAGGATGAGGGCTCTCACCAGAACCTATCCATGCTTGGCATCTTGTCC
AGTGTGTGTGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGKATAAATATAATATTTTCTTTATCCATTCACCTGTCAATGGACATTTCAGTTGTTT
CCATATCTTGACTACTGTGAATAATGTGCAATGAGCATGGGGGATACAGATATCTCTTCAAATACTGATTTCATTTATTTTCATTTGGGTTTTCTCATAG
CATGTCAGGGTAGTCGTATTTCTTATAAGGTGCCTCTGGTCTATAATTTTTTGTATTTCAACAAATAAATAAAAGCTACATGGCCTTTTATGACCTAGCC
TTGAAAGTCACATAGCATCACTTTTATTGTACTCTATGGTTAAAACAATCATAAACCCATCCAGTTTCAGAGGGAGGAGAAACTGACTCAACTTCTCAAT
TGGAGAGTTTCAAAGAAGTTGTCACTATTTTTTTTAGCCTCCAAAGTCTGTTATTTGACTATAATTTATTTACTTTAATCCCATATGCAAAATACATTCT
CCTCTTCAGTTTCCCTCCCAAAATCTCATTCCATTACCACACTATGCTCAGATTTCAGGATCTCATCAAATAAGTCAGGTCTAAGTGTGAATGAGGATCC
ACAGTTTACTTCCTCCACTATGGTTGATCTCATTCTGAATACTAACTAAAGATATCATTTATTTGCCTCTCATATACTCAGCATACAATAGTAGAGTAGG
CATAGATATACTTATTCAAAAAGTAAAAATTAGAGGCACACAACATGTAACCTGATACTGAGTTTGAGTATCTTCTTCTCAAAGACTCAAACACTGCAAC
ATAGTCAGGTAGTGTAAATAGTAATGAATGATTGCAGTAAAGTTGTAAGAGCTCTTGGTTACTTATATGAATATATAGGTAAGCATTTTAAAATAAAGAA
TTGTCATTTGTGTATGTCCGATTTAAGTATAAATGTTTGCACAACTGCAAATTGATAATTGAAATTTTTATCATGATATAAAAATTACACTGATCTTTTG
GTCACTCAAATTTGAGAGTTAAATCATCCAAATTTTGAGCTATCATAAATCTGCAATAGACTTTGTCCCAGGTATCTGGTTAAATCATCTTCTGCTGTAG
GTTTTTCTCCTTTTCAATCCTCAAATCATAATAACTTTATACTTAATAAGTTTGGACGATGAAAACTGAGGCCTCTTTCACACATACTATATATAATATA
CTTCCCTGCCTTATGCGGGAGTTGCATCACGGAATAATATTGTGAGGATAAGAGACATGTAGACATCTCATGGCTAATAAATTTTCAACAAATATTTTAG
TTGTTTTAATTTTAATTCTGAAGGAATCAGAAAGTGTCCATTTTGGTTTATAAAAAAGCATCAATGTATCTTCTAAAAGTGCCATAAATAAGATACCAGT
TGGCAGATTTATTGTTGATCTATGTTTAATTTAAACTTGTTTTTGGAATATAGGAAACACGGTGAAAGGAAACTGACAGCTTTGAAAAGATATATCATCT
GAAACTCTATACTACATCACTCATTTTAAATTAAGACTTGATATTCTTCCTGAATTATATTAGAGGTGGAAAGAGACAGAGTGAGGTTTTGTTCTTCAGA
GTGGGAAAAACAGAAATTAAAAACCTCCTGAATCATTGATTTCATGAAATATGTCAAATTATTTGCCACTGTAAATGTAGCAGCCTCTACCCTGAAGCGT
GCTGATTGGTGACAAATATATGTGTTTAACTGCTTATGGTTACTGGCTTTTGCATCTTTGTGACAGAACATTGAAGTTTATTTTTTGTTTAGAGAATTTA
CCAGTATACATGAGTGTAATCCTGTTTATCTTGCTATTTTAAATACGTTGTTAGTGTAAGCGTAACATTTTGCAAACATATATCAAATAAGTAGATTAGA
ATCTTGAAAGACTTTTTTTGATACAGTAAATTTCCATGCCAACAGTATATCATTGGCTGAACTATTGTGAAATAAATGTAGCACAGATGAAGCCACCTAT
CTTTGAAAACAACCTGTATTGAGCGTTTTCAGTATGCCAGGTATTTTCTAAGCACTTTACATTGATTATCTCTTTATATTATCATAACTGCAAAGATAGG
TGGTATTATTATCTTCATTATAAACATGAGGAAACTAAGTCACCCTATTGAATGTGAGAATATTCAAGGTGAAGGAAACAGCATAAATAAATTCACAGAG
GCAAGAAGCATCATGGTRTATGTAGAAAAATACTAGCAGTTTTATGTGGCTGGACCTTGAAGTTTAACATAACAGGGTTTGGAGAGGATGCTGAAGAGAC
AGGCAGTGGCTCTTTTATGAAGATATTTGTATGTTATCTTCTAGAGCAATAAGCCAATATTTGCTACATTGTATTAGCTAAATTATTAGTTTATATTTAC
ATATCAACAAATACATACTGTTAAAGATGTACTAAATGGCATATTCATTAAAATTTCATTCATTTTTGTTCATATTCAAGAAGTTTTCAAAACTTTCTAG
CTAATTTTATAACTTAGAATCCTATATATTTGCGTCTACCTTGAATTCACTCTTTTGGCTTTAGAATTATCTTCTTTCTTTATCACTTTTGTGGCAGGAT
TAAATGGCATTTGTCATAATTTTCAAGAAGCAGAAATCTAAGCAACACACTGGACATTTAGGGACATAGTAAGAATGAGAAAATACTTCTGAAAAGACTT
TTACTTGGCCAGAGATGCATTAGATCAAGTTTATGGACCACACGATTTGTTTTTCTGTGAGAAAAAATGACTTTAAACAGACACCTACATATGTGCTCAC
ATAGTCATATATTTTACAGTCTATTTAAGTCATTGTATCAGAATCTCGCTTTCTAAGGGTTTTCTTTCAACATAAACATAATTTTTAGGGTTTTATTTAA
ATATAACTAAGATATATGTTATTRCTGACACTGATGGGAAACTCCCTGAATGGAATTACAGAATTATCATTTTGATGTTAGAAGATCGAAGCAAATAAAT
GATTTACTAGAGGACAAAGTGAAAGGCAGAAGAGAGCCTAGAGAGCAATATAAAATGCAAAGATCTTAAGCCTAAAGCTTTGGAGCTCAGAGTTTAGTAA
AGACCATTCTCCCACTAAAATGTTGAAATAGGATTGAGCAGAATTATTCACAATTCCTGTCCCAGTTTGTAGCTTGTACATCTATTTCATTGTATTTCGT
GCATAGACACCAGTTATGAGGCAGTACACTGACTGGTTAAAAGTGTAGGTATGCTCTGGAGGCAAACAAATTTAAATTTAAATGCCAGTTTTGTTGTTTG
CTATCTGGCTAGCCTTGGGTGGGGATGAGGTGCTTACTTTATCAAACTCTACATTTCTTTCTCTCTAACRTAATCATAATAACAGGATTGACTTGTTATG
TTGTTTTGGGGGAAATGTAACTAAAGAGCCTAGAACCATGACTGATACTGATCTACGAGGTTCTATCTCCTTAATTAAGCATAAATATGTCAATAAAGTG
TGAATGTGCATTTCTATGGAGAGATATGCAAGATTTATCTTAAGGATATGACTATGTATAAAATACATACACATATTTCTCTCTTATATGTGTTAGTTAA
AAAGGGTAAGGCTGGGTGTGGTGGTTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGACGGCGGGATCACCTGAGGTCAGGAGTTTGAGATCATCCT
GGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAACTTAGCCAGGCGTGGTGGTGCACGCCAATAGTCCCAGCTACTAGGGAGGCTGAGGCAGG
AGAATTGCTGGAACCCAGGAGGCAGAGGTTGCAGTGAGCYGAGATCGAGCCACTGCACCCTAGCCTAGGCAACAGAGCAAGACTCCATCTCAAAAAAAAT
GATGGGGAGGGGGTTGATATAGGAAATTAAGAATGACCCAGACAATCCTAGAAAAGGTAAAAACAGAAAAAAGATCAATAGCTATCACATCAAATAGTTA
CATGGAGAGTAGGAATAACTGAAGAATTTCAACTTTATAGATTAGTCACAAGTCCCCTAAAAAAGACTTGATTGCAGAGAATTGATCCATTGTGTCCTGG
GAGATATGGCTTCTCAGTGACCCTAATGTAACAGAGCAGCTAACCAAAATCTATGTTCTTTTCTTCCTCCTGGACATTCAGGAAGACTGAATTTTCCTGT
CCCACTCACAGTTTGAGGTGGCCTTGCAACTGAATACTCAATGAAGGAGGGGTGCACTATTTCCAGGTGTGGCCTTCAATAACCATACTTGCTTTTCCAT
GCTATTTCTCCTGTGGTTGACTAGAATAAAACTATCTGTCAGAGGAACCTTGGAAACATTTTAGTAAAGACAGCAGTGACTTCTAARTGACTATGTGGAG
GAGAGCCAACATGCCAACCTATTTACCAAGTGCCTATTGGTAAATGTGCAAGAAATGAACTTCCATAGCATACCTTGTTTCACTGCACTTTGCTGTATTG
TGCTTTACAGATGTTGCATTTTTATAAATTGAAGGTTAGTGGCAGCTCTGCATCAGTCCAGTCTGTCGGCATCATATTTCTAAAAGCCTGTACTCATTTC
ATGTCCCTGTGTCACATTTTGATAATTCCCACAATATTTCAAACTTTGTCARTATTATATCTGTGATGGTGATGTGTTGCAATTGTTTTGGGGAGCCATA
AACAGTGCCCAGACAAAACGGTGAACTTAATACAAATTTTATGTATTCAGACTAATCCACTGACAGGCCATTTTCCCATCTCTCTTTCTCTCCTTGGGCC
TACCTATTCCCTGAGACACAATAATATTGMAATCATGTTAATTAATAACTCTACAATGGCTTCTAAGTGTTCAAGTGAAAGGAAAAATCACATGTCTCTC
ACTTTAAATCAAAAGCTAGAATAATTAAGGTCAGTGAGAAAGATATGTCAAAAGCTGAGATAGGCCAAAAGGTAGGCCTCTTATGCCAAACAGCCAAGTT
GTGAATGCAAAGGAAAAATTCTTGAGGAAAATTGAAAGTGTTATTCCAGTGCACATATGAATGATAAGAAAGCCAAACAGCCTTATTGCTGATACGGAGG
AAGTTTTAGCAATATGGATAGAAAGTCGAACTAGTCACAACATTACTTTAAGCCAAAGTTTAATACACAGCAAGGCCCTAACTCTTTTCAATTCTATGAA
GGATGAGAGAGATGAGGAAATGCATAAGAAAAGTTTGAAGTTAGCTGAGGTTGGTTCATGAAATTTAAGGAAAGAAGCTATTTCCATAACAAAAGTGCAA
GGTGAAGCAACAAGTGCTGATGTAAACACTGAAGCAAATTATATTGAAGACCTGGTTAAGATAAGTGATGAAGGTGGCTACACTAAAAACAATTTTTAAT
GTAGATGAAACAGTCTTATATTGGAATAAGATGCCATCCAGGACTTTCAGGCTAGAAAGGAGCAGTCAATGCCTGGATTCAAAGCTTCAGAGGACAGGCT
GATTCTCTTGTCAGCAACTAATGCAGCAGGTGACTTTACCTAGAAGTGAATGCTCATTTACTATTCTGAAAATCTTAAGTCACTTAAGAASTGTGCTAAA
TCCACTTTGCCCATGCTCTATGAATGGAACAACAATGCCTGGATGACAGCCCATCTGTTTACAGCATGGTATACTGAATTATTATTATTATTATTWTTAT
TTTGATATGGAGTTTCACTCTTCTGCCCAAGCTGGAGTGAAGTGGCATGATCTTGGCTCACTGCAACCTCCACCCCCAGGTTCAAGTGATTCTCCTGCCA
CCTGCCACCATGCCCAGATATTTTTTTTCTATTTTTAGTAGAGACAGGGTTTCGCTATGTTGGCCAGGCTGGTCTCTAACTCCTGACCTCATGTGATCTG
CCCGCCTTGGTCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCTCAGCCGGTATACTGAATATTTTAAGCCCACTGTTGAGACCCACTACTCA
GGGAAAAAAAATTCAATTCAAAATATTACTGCTCATTGGCAACATATCTGGTCACCTAAGAGCTCTGATGGAGATGTACAAGAAGGAGATGAATGTTGCT
TTCCTGCCTGCAAAAACAATATCCATTCTGTAGCCCATGGACCAAGGAATAATTTCAACTTTCAAGTTTCATTATTTAAGAAATACATTTTGTAAGATTA
TAGCTGCCATAGATAGTGATTCCTCTGATGGATCTGGGCCAAGGAAATTGAAAATCTTCTGGAATGGGTTCACCATTCTAGATGCCAGTAAGATCATTTG
CCATTCATGGGAGGAGGTCAAAATACCTACAGTAACAGGAGTTTGGCAGAAGTTGATTCCAGCCCTCAAGGATGACTTTGAGGGATTTAAGACTTCAGTG
GARGAAGTAACTACAGATGCAGTGGAAAGAGAAAAACTAAAATTACAAATGAAGCCTGAAGRTATGATTGAATTGCCAGACTCTCATGACAAAACTTGAT
TGGATGAGGAATTCTTCTTATGGATGAACAAAGAAAGTGGTTTCCTAAGATAAAATCTACTCCTGGTGAAGATACTGTGAACAATGCTGAATTGACAAGA
GATTCAAAACATTTCTTCAACTTAGTTGATAAAATAGTGGAAGTGCTTGAGAGAATTGACCCAAATTTTGAAAGAAGTTCTACTGTGAGTAAAATGCTAT
TGAACATCGTTTGCTACAGAGAAATCTTTCATGAAAGAAAGAGTCAATCAATGTGGCAAACCTTAACATTGTCTTATTTTAAGAAGTTTCCAAAGCCATT
CCAATCTTCAGCAACACCCACATCAGCAGCCATCAACATCAAGGCAGGATCTTATAGGCAAAATGACTACAACTCACTGAATACTAGGATGATGGTTAGC
ATTTTTAAATTTTTTAGCAATAAAGTGATGATGATTATTATTACTATCTTTAGACACAGGGTCTTGCACTGTCACCCAGGCTGGAGTGCAGTGGCACAAT
CATGGCTCACCGTAATCTTGAACTACCAGGCTCACATGAACCTCCTCACTCAGCTTCCAGAGTAGCTAGGACTATGGGTTTGTGCCACCATGCCTGTCTA
ATTTTTAWTTTTTTTTTATAGAAATGGGGTCTCACTATGTTKCCCGGGCTTGTCTCAAACTTCCTGCCTTAACTGATCCTCCTGCTCCAATCTCCCAAAA
TGCTGGGATCACATGCATGAGCCACTGAACCCAGCTGACAATAAAATATTTTAAATCAAGGTATTACATTGTGTTTTGAGAAATAATACTGTTCATACTT
AATRTAATACAGAATAATGTAAGCATAACTATTTTGTGCACTGGGAAACTAAAAAATGTGTGTGACTTATTTTATTGCAAAATTAATTTTATTGCTGTGT
TCTGGAACCAAGCCTGAAATATCTTTTAGGTATGCCTACGCTGGATTTGAGACATGTATTTGTGAGTTCATTAGTTACAGTAGCTAGTATTACCCTATTT
TAGTTATTAATTATAATAATATGGTAATGAGATATAATGGAATTTAAAATAAGCTAAAGTAGGATATCAGATATCTATTCTTGTTGGACTTTGAGTAAGA
AAAAGAGGCATAGGGAGAGGAGTTACAAGTAGGAAAGGGATGTAGAGAAGGTGGGGACCATATTCATGTATTGTGTTTTGGTCAAWTTGACAATTTTGAT
GTTGATTATCAGGCAGGCTGCAAGTAGTGAGGGGTTCTCTAAGAGCCAGGTTGAAGTGACCGCACTGTAGAAGCCTACTTCAGGACTCATTTGAAGCTGA
CTCACACAGACATTAGGATCAGGAGGTTTTTGGAACATGCTTTCAGGATCAATACCCATGAAGAAAAATAAGGAACCAGTACTGAGCTGGGAAGAATTTG
GGTTGTGATGCAGCCTCAATGAAAGCCCAGTCAATCCCATGAAGAGCTCAGAAACTAGAAAACCCTTGAAGCTTTTCCAAGCTGTAAGGAGGGAGCTGTG
CTCTTATACTTGCAAAGCAACTAGTCGTTGGTCTCTTTCTGCCMAGTGGAAGGGGCACATGACTTTGAGCAAGGCAGCCGTCTTCAGCCAAGGCAAATCC
CCAGAGTGAGGCTGACAGCTAAGGGCTGTGCTGTCTGCTCTTGGCCCAACAGTATTCCCAGAAGCTTGGGGAATACCTTCTTCAGCTATTACAAAGCCAT
CTCAGTTGATCAAGACCTAGATTCAGTTGGTTAATTTTTAAAATTTGCAAAAGAAAGAACTCATTAAAAATACATATTATAGTTCAATATTTTGTTTTAA
TTTAATATATAAAATACACATTTATTGTCATACTTTTAATATGGAACCAAAGCTTATTCTTTCTTCTTACTATTTTTAAAATTTTAGTTTCAGGGGGCAC
ATGTGCAGGTTACATGAATATATTGCATAATGCTTGGGTTTGGGCTACTGAATCCATCACCCAAAAAGTGAACGTAGGTAGTTGTTCAGCCATTGTTCAC
CTCCCTTATTCCTCACTTTTGGAAACCTCAGTGTCTATTTCCATCTTTATATCTGTGTGTCAATTGTTTAGATCCCTCTTATAAGTGAGTACATGGAGTA
TTTGATTTTTTGTTTCTGAGTTAATTCTAAGTGTTAATTCACTTAACACTTAATTCACTTAAGATATGGCCTCCAGCTCCATCCATGTTGCTGCAGAGGA
CATAATCTAAACTGGCCATGTAATATTCCATGGTACATATGTACCACATTTTCTTTATCCAATCCATCATTGATAGGCACCTAGATTGATTCCATGACTT
TGCTATTGTGAATTGTGCTATGATAAACATATGAGTGCAGGTGTCTCTTTTGTTAGAACAATTTATTTTCTTTTGAGTAGATACCCAGTAATGGGATTGC
TGGATCAAATGGTAGTTCTATTTTCAATTTTTGCAAAATCTCCAAACTGCTTTCCACAGGGGCTGAACTAATTTACATTCCCACCAACAGTCTATAAGTG
TTTCCTTTTCTCTGCGTCCATGCCAACATGTGTTAGTTTTTGACTTTTTAATAATAGCCATTCTGACTGGTGTCAGATGGCATCTCATGGTGGCTTTAAT
TTGCATTTCTCTGATGATTAGTAATGTTAGGCATTTTTTYATGTTTCTTGGCCACTTGTATGTCTTCTTTTAAGAAGTGTCTCTTCATGTGCTTTGCCTA
CTTTTTAATGGGGTTATTTTCTTGTTGGTGGTGATTTAAGTTAAGATATTAATCTTTTGTTGGATGCATAATTTTTTAACATTTTTCCACATTCTGTAGG
TTGTCTGTTTACTCTGTTGATAGTTTCTTTTGCTGTGTAGAAGCTCTTTAGTTTGATTAAGTCCCACTTGTTAATTTTTGTTTTTGTTCCATTTGCCTTT
GAGGTCTTAATCATAAATTATTTGCCTAGGTCAATTCCMGAAGAGTTTTTAACCAGGTCTTCTCRTAGGGCTTTTATAGTTTAAGGTCTTACACTTGTCT
TTAACCCATCTTGAATTAAGTTTTGTATGCAGTGAGAGGTAAACGTCCAGTTTTATTCTTCTGAATATGGCTAGCCAGTTTTTCCAGCACCATTTATTGA
TTAGGATGTCCTTTCTCCATTGTTTATTTTTGGAAATGAAAACACAATACTTGCTACCACAAAAGCACATGTAAGTACAAAGCCCACAAACCCTATAAAG
CAACTATACAATTGAGACTGTAGAGCAACTAGCTGCAACACTATGACAGGAACAAAGTCTTACATATCAATATTAACTTTGAACATAAAGGCCTAATTGC
TTCTCTYAAAAGACATAGAGTTGCAAATTGGATAAAAATCGAGACCCAACTTTATGCTATATTCAAGAGACCCATCTTGCATGTGATGGGTTTACTTTGA
CCCCTTAGGCTCAAAGTAACAGGATGGAGAAAGATCTGTCAAGCAAATGAAAAATGAAAAAAGAGCAAGGGTTGCTATTCTTGTATCATATAAAACAAAT
TTTAAACCAACAACAGTAATAAGGGACAAATAAGGGCATTATATAATGATGAAGGGTTCAAATCAACAATAAGTTTTAACCATCCTAAATATATATTCAC
CTAACATTGGAGGGAGCATGCTTATTTGTAAAACAATTACTACTAGACCTAAGAAAAGAGATAGACAACCATTCAGTAACAGTGGAGGACGGCCAGGCGT
GGTGGCTTAAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTCAGGAGATCAAGACCATCCTGGCCAACATGGTGAAACCCAGTCTCTACTAAAAATTC
AAAAATTAGCTGGCCTTGGTAGCRCATGCCTGTAATCCCAGCTACTCGGAAGGTTGAGGCCGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGA
GCCGAGATTGTGCCACTGCACTCCAGCCTGAGGACAGAGCAAGACTCCATGTAAAAATATATATATAATAGTAATAATAGTGGAGGACTTCAACATCCAG
CCTGGAGACAGAGCAAGACTCCATCTAAAAATATATATATATAATAGTAATAATAGTGGAGGACTTCAACATCCCAGTAATTGCATTAGACAGCTCATCA
AGGCAGAAAACCAACAAAGAAATTCTGGACTTCAGTAGCACACTTTACCAAATGAACCTAATAGACATCTACAGAATAAGCCGCCTATCAACCGCAGAAT
ATACATTCTCCTCTGCACAGGGAACATCCTCTAAGATTGACCATAGGCTTAGTCATAAAGCAAGTCTTAATAAATTTCAAAAAACTGAAACTATACCAAG
CATCTTCTCAGACCACAGAGGAACAAAATTAGAAATCAATACCAAGGAAAACTCTKAAAACTACACAAATACATGAAAACTAAAAAACTTACTCCTGAAT
GACTTTTGAATAAATAATGAATTAAGGCAGAAATCAAAAAATTATTTGAAACAATGAAAAGACTCACACCATATCAAAACCTCTGGGCTTCAGTAAAAGC
ACTGTTATGAGGAAACTTTATACTGGTAAATGCCTACATCAAGAAGATAGAAGGATCTCAAATTAACAGCTTAATRTCACAACTGGAGGAGCTAGAAAAA
CAAGAACTTAACCTAAAGATAGAAGAAGAAAAGAAACAACTAAAATCAGAGCAGAACTAAATTATATTGAGACCAAAACAATATACAAATAATCAATGAA
ATGAAAAATTGGCTTTTGAAAGGATAAACAAGATTGATAGGCCACTAGCCAGATTAACAAAGAAAAAAAGAGAGAAGRCTCAAATAAGTGAAATCAGAAG
TGACAAAAATAACAACAACTGATTCCACAGAAATACAAAAGATTCTAAGGGACCACTATAAATATCTCTGTGTACACAAACTAGAAAACCTTGAGGAAAT
GGATAAATTCTCAGAAACACACCACCTCCTAAGACTGAACCAGGAAGAAATTGAAACCTCAAACCAAACAATAAAAAATTATGAAACTGAATCAGTGATA
GAAAAACTACCAACCATAAAAAGCACTGGACCAGACAGATTCACAGCTGAATTCTTCCAGGTGTAAAAAGAAGAGATAGGCCGGGCGCGGTGGCTCACGC
CTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAA
ATACAAAAAATTAGCCGGGCGAGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCCAGGGGGCGGAGCCTG
CAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAGAAGAGATAATATCAATCTTACTGAAA
CTATTCCAAAAAAATCAAGGAGGAGTAATTCCTCCCTAACTCATTTTAGAAAACTAGTATCACCTTGGATACCAAAATCTGGCAAGTACACAACAAAAAA
GTAAAACCACAGGCAAATATTCCTAATTAACATATATATAAAAGTCTTCAACAATATACTAGAAAACTGGATCCAGCAGCACATCAAAAGGATAAATCAC
CACAACAAAATGGACTTTATTCCTGGGATGCAAGGATGGTTCAACATATGGAAACCAATAAATATGATCCACCACCTAAACAGAATTGACAACCAAGAAC
AAATTATCATCTCAATAGACACAGAAAAGGCACTTGATAAAATCAAACATCCCTTCATGATAAAAATCCTCAACAAATGAGGCATTGAAGAAACTTACTT
CAAAATAGTAAGAGCCATCTATGACAAACTATTACCCAACATCATACTGAAAGGGCAAAAGTTGGAAACATTTTCCCCAAGAACTAGTACAAAACAAGAA
TGTCTATTCTCACCACTCCTATTCAACATAATACTGGAAGTTGTAGACAGAGCARTTAGGCAAGAGAAAGAAATAAAAGGCATCTAAATGGGAAAAGAGG
AAGTCAAATTATCTCTGTTCACTGACCATATGATTTCATATCTAGAAAACCCTAAAGATTCCTCCAAAAGACTCCTAGACCTGATAAATGGCTTCAGTAA
AGTTTCAGGATACAAAACTAACATACAAAAATCAGTAGCACTTCTTAATACTAATAATGTTYGAGCTGAGAATCAAATCAAGAATGCAATCCCACTTACA
AGAGCCACACACAAAATAAATACATAAATAAAACACCTAGGAGTACATCTAACCAAGAAGGTGAAAGATATCTACAAGGAKAACTACAAAACACTGATGA
AATAAGTTATAGATGACACAAACAAATGGAAAAATATTCCATGCTCATGGATTGGAGAAATCAATTACTAACATGTCCATACTGCTCCAAGCAATCTGCA
GATTCAGTGCAATTCCTTTCAAATTACCAATGTCATTTTTCACAGAAGTAGAAAAAAATTCTAAAACTCACATGGAACCAAAAAATACCCTGAATAGCCA
GAGAAGCCTAAGCAAAAAAGAACAAAGCCAGAGGCATCACATGACCCAACTCCAAACTATACTACAAGCCTACAGTAACTAAAATAGTTTGGTACTGGTA
CAAAGATAGGCATATAGATKAACAGAACACAATAGAAAACCTAGAAATAAAGAATAAAACCATACACTTACAATTAAGCTTTTTTCTTTAAATGCAAGTT
GTCAGGTGGGTATTCCTCTTTGTTGATTAAACAACACTTGTAATGGATTATTGTTTTAATGTTTTTTAATGAACTAAGAACTTAAAGATACATGCAAAGG
TATCTGAATTTAGAATCTTGGTAAATTTTTTTATAACTATGTCTTCTATCTTTTAGATACTTCTTGTTCACTTAACTTCAGTGAAAGACCACCTCGTTCT
ATACAGAGGATGGCCAAGTGCTATAACCTCTACTACCTCACTGTACTTTCCTCTCAGTACTTACAGACAAAACAGAGCTAACCTTAAGAAAGCCCTAAGT
CAGTTGGTCCCCAGTTAAACATTATTTCTCTTAAAGATATATGTTTCAAATTGTAAATCAGCTTGTTGTTGAATAGATTCATTTTTTGTTTTTATTGTTT
TTGCAGTTAACCTCCGGCTGCAAGGATCATTACTTTTGAACTATGTATTGAACTATGTATGGTACATGGCAAATTTGGAGATATTTGATATTTGAAAACA
TAACTTTTAATCATTATTCTTCTTTCAGAAATGTGAGCAATTAGGAGTTAGAGTGAGTTATACTAATACGTTTTCAGTTGTCATAATCATATAAATTAAT
TCAGAACTTGTAGGCTTCTAGCTGTCAAGAAAAAAAATCTGTCATATACAGTGAAGATTTTTAAAAATTATTATCTCTAATTAGTTCCCTCCTTATTGAA
AAAAGTCATTATTCCAATTATAAGTCCCCTTGGTTCTAATGAACTAGGGCTAGGATTCCATATGTAACATCTTGTATTTTTCTATGAAAATAGCTTAAAA
TATATTAACACAGAAGAATATGAAACATGAAATATGACAAAAATAGATTCAAGCCTTTCTTCTCAGGATACATTCCCAGGGCACATTTCATGAAGGTATC
AAGAACAGTAAATTGTTTTTAGTGTGCTTAGGAAATGTCTGTTATCTGGTCCGAATCTGAAGTCTCTTTGTTCTTGGTGACATTTTATCATGTAAATGGG
AGTGAGTCTTGCCACAGGTCTGCAAATGAAATTTTAGCCTGTTTGAGTCTCTCCTCTGAATACTGAAATTTTGTGCAGAAAAATCCTTTGCTTTTTATAT
AAAGGTATTTGATAAAAGATTATTATAATGTATATTTTTGTTGGTGTGTATTGTGAAATAATTTACAAACTTTATAACATTCTGGCCTAATCATTAGTAC
TTTAAATATTAACTATGAATATTTGTATTATGCCTCATTAACATTATAAAGTTAACAGCCTTTAAGTTTGATAACCTGTGTGATTTCCATTTCATGTAAG
TTGTATTTAGATTCTATGAGTTCTCTGCTCCCTTGCTCTTTTAGAAGATGAACAGCTTTTCTGGGAATGTTGGTTACTATACTTCTTGGGTTGAAAATCA
CTTATGTTTATTCATTCATTTTTTAAAAAATTATAAAGCATATGGACATGGAAAGAAAGTCGGGGGGAGATACAAATACAGAGAAATTGTGGAACCTCTT
TTCTGGAGATTATTAAAAGTAGGATAAATCACTATCAGTCTCATTTGTTAAAAGCAGTCACCTGCCAAAGAGGGCAGTGCCTGGAGGTCCTCCTAGCTTC
TTGGTAATCCTCTACTCTGATACATGTTCAACAGTCTTTGACATTGGCTGGTTTGGGTCCAGGGCAATGCTTTTGTTCAGGATACAGGGTTTATCACAGA
ATATGTTTATGAAATTGCAGCAGAGCTGAGTGTTAAGGGCAAACAAAACATAAGAAAAAGATAAACAGGGTATCTTCTACTGAGATTATTTATGACTGAT
CTTGCCTTTGCAGGCTGACTGGAAGATGACAATGAGATCTTGTATATTTTTAATCAAAATAAACACAARGCCGAGAGGAATTTAAATTATTTAATGAGGA
GAGATTAAAACAGGAGGCTGACTTCTGATTATTCTGGACTATTTTCTAATTGGCAAAACTGTCCAAGTTAAGCCTTATCAATGATCCTTTTGGCCACCTC
TGTCTTGATCATCACCTTGCTGGGATGGTTAGGAAAAGAAGAAATCCTGACATCTCTTCTTTTCACTAGCTACCAATTAAAAATTCCGCATAGGAGAAAG
GGGAAATCTTAAAACGGGAGTTGAGGGTTGCTGTTTATTTCCTACAATACTGCTACTGTCTCTTCTATTATTGCCCCTGTTATCTTTGCCCCAATTTTTA
AATCTTTGCCTTCCTTGTTTCATCAATGCGGCCACCTGAGCTCCCAYGGAAAGGCTCAGTTCTGTTTTAGAACCAATCTGTACCTAGGCAGACAGTATTC
AAACAGCCTCAGTCACTTTTTAATCCAGTCTTTTTCAATGAAATTGAGAATGGCTCACTGTCTTGGATCCTAGAGCCTGGGATTCTTCTGGTTTATATCT
TTGGAACTTCCTTTACCTCTTTCCTGGATAGCTCCTACATGTTCTCCTAAGATGCAAAATTCAATACAGGCATTATCTCTTTGGGGGACTCACTTCCCAT
CCCCTCATCCAGTCCCTCCTCTTTGCTCCATAACATGCGATTTATCTCTACCGTTCTTCTCTCACCACGTTGACATCACATATTTTATTTATCCACTCTA
TACAGTAAACCTAAATCCGGGACCAGGCCTGTCTATCTCCTGTGCTTGGCACAGAGCAGGCATTCATTAGACACTTGGAAGATAATTACAGGTTGACACA
GTCTGAAGCCACCCTAGACTCATAATTTTCTGACACCAATTCCCAGGTCTGGCTTTCTGTTTAGGCTCCTCTTTTCCTGTCTTCATTTGGTCAGGCATTT
TCCTAAACCTGGAGTCTTGGCTTTTAGAGCCTCACTAAGGTTTAGCAGATTGTCCAGAGGACAATCATCTGCCTGCTGGACTATAGTAGTACTCTTGGGA
CTCCCAACTACTGCATTCCCTCCATAGATCTAGCACTCAGAGTTGCCCTACAGAGCTAGACTTGCCTTGCTTTCAGACATAGTGCTGAGCATGATTTGGA
TCCTCTGCTGTCTCAGGGCCTGCCTGGTGAAAAGCTATTCTCTGTACTCTGTGTTGATGCTTTAATCTTAGAGCTGAGGAGTGAATATTTATGAAGAATT
TACTTTAGGTAGGGCTTTTGCTTACTTTATTATTATATCATCAAATTTAATCCTCACTTAATGTTATTGATGAGAAAAACAGAGATTAGGTAAATTGTAC
CAAATCATACAGCTRTTGTTTCAGAGTCTAAATTTTAACCTCTGATAAGACTGAAGTCTTAACCGATATTCTGTAGAGCCCAAGAGAGGGAACCTTTAAG
AATATTACCTCAGGGAAGCTGACAGGAGAAAGTTCATTRTTTATATATATATATATATATATATGTATATATATGGATTTCAAGTTCTAAAGTTGGCCAT
TTAAAAGACTTATTCACAGTATTCCCCATATATATATAAATATATATATATTTAACTTTTATTTTAAGTTCAGGGCCTGCTATATTTTTTCATCCATCTT
TGGTGATCATTTAGAATATTGCTAAGGGTATATTTCAGAAGAACTAGAAAAGAAAATAGCTGTTTTTCAAAACTTTCAAGGTGTTTTCTTGGTTGATTCT
GATTAGCACTGAAATTTTTTTAACTCAAATTTTCTTTAACAAAGAACATTTTGTCAAAATATTTACAACAAATAAAGTCGCTTTCTTTGTTTGTATCTAT
CTCATTTGCATATTATTGATCTGCTTAAAAATTTGACTAATTTACTTCTCTGAACAGGCTACATAATTTTCAGATCTCAATGAAAAAAATGAAAGTAGAG
TCTCTTGTTTAAAAATGGGGGTGTGGACAATTTCAAGACAGCAACAGCAGAACATTAAGTCATGCAGGAAGTCACCCTAAGTACAGCATCCTTTGCAACT
GCTTGGGTTGCACAACTTGATGTCMTAAACACATTTATAAATATTCCTGAAAATGTTCTTAATAGAGAAGTGATYAAARTCATAATAAAATGAAATGCTG
ATAGTGAAAAAATATATATGTAATTGTCTTTGTTTCCTCTAATTTGATTACAATTTGGGTAGAAACATGTTTGTAGTTAGATAATAGTGAAGAGACACCA
CAGGCTCTTAAACTATAGTTTACATTTTGCTAGAGCTTAGGAAAATGATTTGAGTCATTTATATCTTATACTTAGGAAATAGGTCAAAGGAAGAAAAGCA
ATTTGAAACTTTTGTTTCTACCTCACTCCCTGCCTATTTTRTTATGAAAAAAATCATGAAATGCCTCTACGAAGCCTCTGTTAATTGTGACCAAAATTCA
AGCATATGAAGAACATTACYGGAAAGAAAATACAACCCATTATAACCTCTTTGTTACGTGAATGCTGCATATACTCTGTGATTTGCATACAAGTTATTCA
TGGACAGAAATTAGGTTTTATTTTGATTTAGTAATGTGAATTTGTCACATAATGAAAGAGAGCTTATACCAGCAATTTTACAAGTAAAAGTGTCTTTAGA
AGAGAAAAAGTGACCAGAAACAGTGAAGAWTCCATTATTAGTCTAGTTTAAATACTATTTCCAAGACTGATATTTAAACACATTATGTATTTTCAGCCCA
GTGAAGAACCATTAGAGGATGAATAATATATTTATTGTGTATTTAAAATGTATCACGTATCTCCAAGCAGTAAAATGTATTATTATTGTGTATTTCAGTC
AACCAATTAATGCCTACATTTGTATATTACAATGTCAGAGAATTAGTAAGCTGGATGGAKACTTGGTTTGGTAAATGCTGTAGGTTTGGTTCTCTTGGTG
TGATTTTGACAAATAAAACCAAGTTTTTGGTTTTTTTTTTTAACTGGATTTGTAGGAAAACAAGATAGCTTGCTCCATTATTATTGCTTTCCTAGAGGCA
ATTTTGCAGCTATGATTATAAATAAACTTCTATTATCAAGTCTTATTTCCCAAAAGACAGGGGGAAAAAATCTATCATCGATTCTCCTTTGTGTTAGTTT
CATAGTTTCTGGCAATATGTAAACCTTAAGAGTTCATGCTATCTGTTTAGACTTTTTAAAGCTTATCTTGACTTTCTAGAAGATTTCTTTTGTGTTCTAC
ATATTTTTCTTCAAGGAAATTTATACTGTAGGAGATATAAAAATAGACTAGGGAAACAGCAAATCAAGTTAATCAACACTTATTGACCACTATGCACAAG
GATATAGGATAATTGTAGAAATTGAAAGAAGTATAAAATATAGCTTTATGCCATCTAGGAATTTACAATCTGCTAAAGAAATCAAAATTTGAAATATAAT
TATATACATTCACTGATTCTTTTACACAATTATTAAACAAATATTTACCAAGCAACTAATAGGTTCCAAGATCTGTGTTCAATGTTGGTAATTTAATGGT
GAATAAAATYGCATATAATTCCTAGCCTCACCAAGCTTATGGTCTAGTGAAAAAGACTGGCAATCAAATAATCAACAAGAAACATAAAACTGCCACTAGG
ATAAAAGCTGTGAGAAAGATCACCATGATGCTATGCCTAAAAGAGGGTAACTTGATCTCCTTTCCTCTGCCTTTTCTCCATTACCCTGTTTTGACATAGT
AGCCAGAATGAGATTTTTAAAGTCTATGAGATATGCCACTCTGCTGTTCCAAAGACTTCCCATATTATTCAGAACAAAAGAACTCATTTCCTTTCTAACC
TTCATCTCCACTCTTTTTATATTCATTCCTCTTCAACCTTAAGTTTCGTAAGCATGCCAGGCATGCTCCTGCCTTGGGACCTTTGACCTGCTTTTCTCTA
CCCGGACTTTTCTTCTTTCTCAGTTACTGAATGTCTTACTCCCTTACCTTCATACAGTTCTGGTTCAARTGTAGTTTTCTCAGGGAGGCCCTTCCAGACC
ATCCTAGCTCTGATACTGTCTAATTGCTTCCCTCTTTTATTATTTTTTTTTTAATTTTTATTTATTTATTTWTTTATTTTTGAGACGGAGTCTCTCTCTG
TCGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAGCTCCACCTCCTGGGTTCCCGCCATTCTCCTGCCTCAGCCTTCTGAGTAGCTGGGA
CTACAGGCGCCTGCCACCACGCCCAGCTAATTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCAYCATGATAGCCGGAATTGTCTCGATCTCCT
GACCTCGTGATCTGCCCACCTCGGACTCCCAAACTGCTGGGATTACAGGCGTAAACCACTGTGCCCAGCCTCCTTCTTTTATTTTTCTCCAGCACTGATC
ATTATATAACACAGTCTATCTTTTATTTCCTTTTCTTTACTGCCTGTCTTCTGGCTAAGATATAAGCTCAACAAASACACATAACTTTGTTTTTGTTTTT
CGTTTCATTATTCTCAGTTCCTAACACAGCATCTGCCTGCCACATAGGCAACACAATATTTGCTGAAAGTATATATCCATGGTCATGGAGGTTGGAAGAG
AATCACTGAGGAATTGATCACTTGGCTTACAACCTGAGAATCTGAGTAGGTGTTAGTCAAGTAAAGAGAGGAAGAAATAATAATTATAGTATTAGCTGTA
GTAGTAACAATTACATATAATGCTTACTATGGATTAAGTGGCTTACAAATATTAACTCTCAATCTTTATAACTGCCCTGCAAGGTAGGTAAAATTATTAT
TTCCACTTTAGAAATAAGAAGCTGGGGTACAGAGGGAGATTTCTGGGGAGAGGAAATCTAGGTGTAAGGAAATAGCAGGTATAAGAGCTTTCTGGCTGGA
GGAAATGCAGTGAGGACACATGAAAAGAGGGTATGTCAGGAACTGAGTTAGGGAATATGGTGGAATGGAAGCCTAGAGAAAATGGCCAGGGACCAGGTGA
CTAGGAGACTTATTTGTAGAGTGACCACATATTCCTGATTCTTCAGGACACTCCTGCTTTATGTCTGTTTTTCTGGAGTAATTAAGTCAACCCTCTTTTA
TTCTCAAAGGAGGTTTTCCAGTCTGGGTAGTGGGAATAGAGTCTATCCCTGGACCTGTGTCAGCCCTGGGCACTGTTGCCACTAATTGTCTCTGTTGGTC
CATTTCCCAATCAGTAGTAGTTTCTTCAGATGGACCCGCTGATCAATGCGCTGCTGAGTCATCCAGGGGAACCCCCTGCATATCTCTGCTGTTCTTTCTT
TGCACAGTTTTCTTGTCTTTGCTAATCTATTTTATGAACTATAGCCACCTCGCTTTCTCCAGACTCTCAACTATGTCTTCTCAAGAAAGGTAGTTTGCCT
AGGTCTGTCTGAATTTCCCCTTTTATATCATGGCCTGGAAACTCTCTAAAGATAATAAACTGGGGCAATTGTAGGGCTCATCGAATTTGTTCTCATCGCC
TAGGAACTATTGTCCTTCATTGCCTGATGTCCAATTTCATTTGTTGAAAATTAATGCTTCATACATTTAACCCATTTTGAGATTGTCTCAGGTAAGAGTA
ATCCAGTCCCTGTTACTCCATATTGGATGCATGAAGAAATCCCTAAGGAGCTATTTTAAAATGTAGATTTGTGGTATYGAGAGATTCTGATTCAGTAATT
CTGGAGGGGATATCTGTAATAAATTCTTTTTAAAAGCCTCAGTGTGACTCTTAGGTTACCAGGATATTTAATCACTTGTCTAGATAATTAATTCAATAAA
GTTCAAGGTCTAAGAAGGCTTTATGAAGAGAGTACACTTCGAATTAGATTTTAAGAATGGATTGAATTTGGCGGGCACATGCTCTGTGCCAGGTGCCAGT
GGATGAGCAAATGTTTGAGGAATGGATAAATTGTTTGATCCTCCCCTGTTTGCTTAGAAAACTTCTATTTCACGTTTTAGGTTTATACCTCTCTATAGCT
TTCTCTTTCTTCCCCAGACAGAATGTAAAATGTACAGCTTTTTGCCTTTGTTGTGATAGTTCACACATTGTCATCATCAAATTTACATGTACCTTATATC
ATAGTTATTTTGTTTCTTCCACTAACCTGTATGTTGCTTTGGAGTAATTAATTTATTTTTGACCCCCAGTGCCTAGCACAGTGGTTAGAATAGCTAGGTA
CTCAAAAATATTTATTGATCTGAGCTGTTGCTCCTCTTTTAATATTTACAAGTAAGTCGTAAGTAACTATTCCAATGTAAAAGTCATTTCCAACCTGGGT
GTTTTAAATAGTGAATTGAGAGGCACAATAGTATATTAAACTATTTATTGTTATATAAAACATCACCCCAAAACTTTGTGGCTTAGCAAAACAAACATTT
ATTATACTGCAGTTTCTATAGGTCAAGAATCTTGGAATGGCTTAGCTGGATCCCCTGGCTTAGGGAGTATCTCTCAGAAGACTGCAGTAAAAGTGTCGGG
TGAGGCTGTAGCCATGTCAGTGAGTGTTTGGAAGATAATCCACTTCCATGCTTCTTCACATGGACTTTGGCAGGCTTTAAGTGCATACTTGCTGCTATCC
AGAGGCATCAAAGTTACCATGTGTTTCTATCCATAGGGCAGTTCACAACAAGGCACCTGAGGGAGAGGTCAAGAGAGTATAAGACAAAATCATAATCTTG
TTGTAACCTATTCTTGGAAGTGACATTTTATAACTTTTGTATATTTTAGTTGTTAGAAATAAGTCATTAATTATGTCAACCCCAAACTCAAGGGAACTAC
TTAGCCTCATGTAGAAGCAATACCACTTATATTTTATCCAAGACAATATCAAATATATAGAGAGATGGATTCATAGAGAGATGGATTCATAGAGAGATTA
CTTGTTATGTCTCGAAGATATGGACTCCATTACCCCAGGAAACTTAGCATGATGCTATACTCATGTTTTGGCCTCATCTTCATCTAGGAGCAAACATGGC
CTGGCAAGTAGATATGGTAGCAATGCTATTCTCCAAAAAGTAACAACTCTTTTCTGTGGAACAATGATTTTCAATATGTATTCTCTGATGTCTAAGGTTC
CAGTGGTACCTTGGAAGTCATGCAGGGAACAAGAAACGGGTGCTGGGTTATGCCCCCTACTATTAGGTGCCACCTAGCTCTACTCTGTCATAGTACTCAG
GTTGAGTTCTGAGTTCATTGAATAAAAGTGTGAAAATATTTGAAACTTTTGSAAAACTTGGCTCCAAGAGCAATGGTTTTTGACCATAGCATAGCATAGC
AGTTTAGTCATATGAGCTCTGGAGCAAGCCTGCATAGTGTGTTTGTATACAGGTTCTGCCATTTCCTAGCCATGTGTTGGGTTATAGAAGTCTGGGTTTG
AGTCCCATCTGCAATTATATCTTGTTCATTTCTGTTTCTGAAGCCAAAACTACTTGGGCGCRTGTGATATTGTGCTTCTTTTTATTTTTATTGTAGGCTT
CTATTATTTAGCCACCCTGTATTTACCTTAACATGGTTTAATATAACCAACGGAATGGTTGATACATTTACCACCATTATGCTTACTATTTTCCTTCCCA
ATAATAGGTTTCTGACTAGATGATGTGTGTTCTTCATTTTGATAAACTCTTCCTCAGAAAGAAAATTATCCATAATCCATTTCTGTATCTGTCAAAGCAT
AGTGTTTCATAACCAGTTAAACATTTTTACAACTGTGGAAGCACCAATTTCATGGAATCACTTATTCTAAAATTTTTGCAGACCAACATTTTCAATTTTA
TTGTTAAATAGTCTGTAAGGTACAACTGATTACACACATCTGCTGTCCTAAAATAAATTAAGAAAGTATCTTGCAATATATTAAATAGTCAGTTTTCTGG
TTTTATTAATGAAGGAGTTCCAAAAAAGGCACACACTTCATATTCTACACATGTACTTGCAACAAGATTAACCCTTGAGCCCAAGATTTAATTGTTAATG
TTGTCTTTTTTGTTTTATATTCCAGCTGCTTGATACTCATTAACCAATGACATAACGTTTAGAATTTTTATTACTTAGTCTGTGTAAGACGCAAAATCTT
TGTGTCCCTTCTTATGTCTTATTAGATGACTCCAACTCACCTTTTGAGTGTAATTTAGAAGTTGATTTTTCAAGTAGAGGCAAATCACTTTGGTTTTCAA
AATACTTTTGGCAGAAGATATTTTTTCTGAAAAAAGAGAGGAACAGGTGAGTTGAGTAGGGGGGAGGAAAGTCATGAAAAAAACTGTTGTCAGATGCTAC
TTTCATTCCTCTGTAATGTGAGGTTGAAGATAGGTGCAATGTGAGGAGGAATRTGAGAAGGAGGGAGTTTAACTTGTACTCCAGTTTCCAAGTTTGAGCA
GTTGCAATGTAGTGAAAACTGTGGGGCCTGTGGCAATTTATATAAATAAATCCCTAAAACAGAATTTTGGCTTTTAAAATGCATAGAACATGATGTGGTC
ATAGCATCATGAACATTGAAAGCCTGTTTTCTCAGCCAGGGACTTTAAAATAAGAGCTCCACATAAGAGAATGATGGGGGAAAAATGTATACATCTAATG
AAGCAAATAGCRCAGCAAGATGATGGTTAACTGAACAACACAGAAAATCTGCCTTTCTTTTCTTACAAATATCTCTTTGGTGGGCTCCCTTGACAGGCAT
TCTTTTGTTCTCTGCTTCTTAGATGAGTCTTTTCTTTCGCTTTCTGGCTCCCTTCCTCCCCAGTTTTAAACCATAAATATCCTACAAATATCTCCTCTTA
CTTTAGTGAAAGGATGTTACTTGCTAGTTTCAATTATTACCTCTATAAAATGATATCACTTGTATCTTCAGCCTTGCCCTCATCTCACTTCTCCTCCCTC
TCTCTATCCATCAGCTTTTCTGCTTGTATTCTCATCACTTCCTGAGAAGTGATGCTAAATTTATATAACTGATGAAATTATTTTATATACATAAGTTAGT
GTGTGTCTCTAAGTTTTATTTCCATGACTTTTTAGAGCTTCCTTTTAATTTMTTTTATGATATTATCTTGTGGAATCATCTTCTGTGTAATTTTAAGATC
CAATTTAATTTTAACCTGTGATAATAAGAGAAAGATCACATAAAAAGACCTCATTTCTGTGACAGCCTGAAGAAACTATTTTCCAATAGATTTTTGTACT
CAAATACTTAATTAGAGATATGTCAAGAAAATAATAGTCATTACAAAAATATTCAACCAATGTTATAACTGAAAAACTCTGTAATCACATGACATAGAGA
AATCTCAGCTAACGTTTGTAATGGTTGTCAAGGARTGGAGATTATATAAATATATAAATTAAAAATAGAAAAGCCTATAGAAATTAGAGCATAGAGTCAA
AAAAGGGCGTGGTAACTCTAAAGCAAATGTTACCATCTAAAATGCTTTCTAAGCAATATAAGCCTTCAATACAAATGGGTAAACAATTCCTGGTAATTTT
AATTGACATAGCTTTCAGTTCATTTGTTTGAAACCTTGAGAATTATGTTCAAATCTTGATTGAGAGATTGACCCCAATGGAAACAGTTTGTGGTGTTGAA
TAAGAGCACAGTTCTGCCAAGGGTAACCAAAATAAACTAGCTATTACAAGTAATTAAGAGACAAAAATTCAAGGTGATTTTCCTACTTTGTAAGTTCATG
AAGTAAACAAAGTTTTATCTTCATGTTCATCTCCCCTTGTAGGCATCCTCTTTTATAGTCATTTGTTGACCATTTCTTCTCATCTTTACTTATCACCAGC
CTCCCATATGTTRTCATTCTGACTAATTCTACCTTTTTTTTTTTTTTTTTGTCATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACCATCT
CGGCTCACGGCAACCTCCACCTCCCAGGTTCAAGCAATTCTTCTGCTTCAACCTCCTGAGTATCTGGGAGTACAGGTGCACATCGCCACGCCCAGCTAAT
TTTTTGTATTTTAGTAGAGATGGGGTTTCACCATGTTGTCCAGGCTGGTCTAAAACTCCTCAGCTCAGGCAGTCTGCCCACCTCGGCCTCCCAAAGTGCT
AGGATCACAGGCACTTTGCTGGGCGATTCTACCATCTTAATATATCTGAAATCCATTCTCCATCTCCAGGCCAACACTACTACCTCAGCTCATTTTATTC
TTATCTCTTAAAAACAAAACAAAACAAAACTTACTGCAGGATGTTACTCACTGATTACCTGTTTCCAGTCTTGTTCTTTCTTCAATCCATTCAATCCATA
CAGTTTTCCTAGAAAGATCCTTCTAAGATGCAAATTAAACATGTTTTACTCTTTCTTAAAGTCTCTTGGTGCATCTCTATATGGAAAAATTGCTAAAATT
CTCATTTTAATATATAAGACTCTGCAAGACCCTTAACATATGACTTAGAATATGTTTAACTTTTTTTTTCAGTCAAGTGCAAACAATTATATAATCATGG
TCCTTTTTACAAATATGCTGGTAATATGACTATCACTGAACAACCTTTGAAAAGCTGTCTCCACAATAGAACTTTCTGCAATGGGAAGGAATTACTAGCT
GGCCCCAAATAATGCCACATAAGACAAAAAGCAGCATGGGTGCCTTTTGGTGCCTTTGTGCTCTCATAAACCTGAGTTTAAACTTAAGTGTTTTTCCTTA
CAAGCTGTAAACCTCTGAGCTTCACTGTCCTTATCTTTAAAATGCGGCTATTAATAACAATTCAGTATGATTGTTGTGAACATTAAATGAAATAGATATT
CTTGGCCCACTAGCACACATTTTTTTTTTTGCCTTCTAATGCTTCATTCAAAATAACAAGAATCAAAAGGCAAGTGGTAAAGATTTGATCAATGCAAAGA
CAATATCAGCCGAGGGCAAAGGTGGCTGGGAAATAGGGAAAAGATACAAAACAGGACTATCAGTTGCCAAAGAAGGTAGATCCAGTATTGGAGGAAGTCT
AAGAAAAACACGTGTGTGTGTGTGTTTGTGTGTGTGTGTTTCTAGTAGCAGGAGTAGAAGTAGTAGTCTTAGATGAAATCAATCAAGGATATGTAGAGCA
AAATATCTATAGCTATCACTTCTGGAATATTTATTCTTATATACTAAGCATTGTGCTAAGTGCTTTACATGTATTAATTAATACAAAAGAATTACAGGAA
ACAAAGGAGAACAAAAGGAAACACAAATGTCAGTGAGGAAAAGCAACACTTAAGAGATGAACCGAAAAAGCCATTTCTATGGAGGAATAATAATAAGTAG
GCAGAGAGGTAGAAAGAAAACTCGAAAATTGTGGTGTCAAGCAATCTAAGGGAGAATAAAATCTTAAGGAAGAAGTAGACAATAGTAACAAATGCTGGAT
AAACAGTCAAATAAGGAAAAGGTCATAATTTGGTCTTGAGGTCTCCCTCACAAGAGGACTATAAATATTAGTCCTGCCCTGACAGGGCTTCAAGATAAAG
CTACTTCTTTATCTTGGCAGATAGCCAAATACCTAAGTGTCCAATTTGTGACCAGTTGCTTCTCTCACAGGAAACTTGTTGATATTTACAGACCTCCTTG
TGGCTCTTATCTGACCTGTGTCCAGTATTTTCCTACAAGGAGGGTCACTCTTTAGGAGAGCCCTGACTTAGAAAACAGGCTCAATATGTCAGTCAGGTGA
GATACAGAGGAGGCAACTCAACAAAGCACATGAAATAACAGAAGCTGTCAACTGCAAACAGTAACATAGTCATGATCCTTTTTACAAATATGCTGCCAAT
ATGATGATCACTGAAATACCTTTGAAAAGCTATCTGCTCAATAGGACTTTCTGCGGCGGGAAGGAATTACTAGCTGGTCCCAAATAAAACCACATAAGAC
AAAAAGAAGCATGTGTGCTTTTTGGTGCCTTTGTGCTCCCATAAACCTGAGTTTATAAGATAAACTTACAGATCTCAGAAAGAAGAGGGCAGCACACCTT
ACAGGGCCAGTGGGAAGTGGGGCCAGGGACAGTTCAGGACACATACACTCAACCAGCACGTGGGGAGCAAGAGAGAGAAAGAGAGACCATTATGCTAAAG
CTTTTATTGGGTTCCAATAAGGATCCAACAGTTACACAAGTGGGTTTCCTGAGGGAAGTTCTAATTAATGGCTTTAGAGTAAGCAGGCACTAGCTCTGTG
GGGCCTTGCTGTGATTGAGAGGGATCACTGCTGCTTATCTGCTGCTCAGTTGTGCTAGGTGTGAGCATCAGAGGAGCAAGCCAAGTAGATTATTGTAGGA
GATCGATCAGAGTGGTGGGAGAAACTATAGGGAAAGGAGCAGACCTTCTGAAAGGTCAGAAGGCTCTGCATACCTTCGGGGAAGAATAAGCTGAAGTCAG
CTGTTCTCTGACACTGAGGCAGAGGGCAAGGAGTAGGTACAAGTAAGTGTGGGGGAATTAATCTTAAACAGGCTTGTTTATTTATGTTGACCAGGAACTG
ACCTTTGATCATCCGCATGCATGAGTTTCTGTGAAAGGGGAACAATAAATGTTACTTACCCACAGACTGTGTTTGCTCCAGGCTTTTGGAGTTATGTCTA
CACTGAATAAAAGCAAGCAGCTTGCACTTTGGCCACTAGAGCCCTGCAGACCCCTAGCTGCTCTTACACTGCATACCTGTGTCTGAGTACTCCCCTTTCA
TCCATCGCTCAGCCAGGTCTGTGGGACGGACCTGGTGATTATGTCTAGCTGTCCCATAGGGAGAGGGTCACCAGGAGATTGTCATACATGGCAGGTATCT
GGATCAACTACATTGAGGAACTGGGAAGAGGCAGAGAATTAGAAACTGTGTCCCTGGTGACTAAGTCCTGCTTGTGGTATAAGAAAACTTATATTCAAAA
TGAATCCTGAGAAAACGTAAAATTATAAGAATCCACTACAGGCTAAAAAGCATCCATGAGAATGGGCAATTAGGGGGCCTTTGATGTCATTTTCCAGAGA
AATATCCCTGGAGTGGTGAGKTCTAAAGACAGATTGTAGTGGGCTGAGGAGTGAATAGGAGGTGAGGAAAGGTAGAGGAAAGTTGGAGATGACTCTTTAA
AAAATTGTCTACGAAGTTTAGGAGGAAGGACAATAGTTGGAGGGGACCATAATTGAGAACTGGTTATTGAATGTCAGAACTGAAAATAACTGGAAAAAAT
ATCAATCCTAAATCAACTTTCATGCTAATGTCTTTAGGATCATTTTGAATTGATAAGTCATCACTTTGGAAAAACAATTTTTCCTCTAAAGCTTTACTAA
TGCAGATTTTTCCACTAAATGGAAATGGGTGTCATCCCAATACAGCTTCATTGTTCTTCTCTCTATAAATCTCAATAATAAAGGTGAGACACAGGCATAG
AGAAGAGAAAATTGTAGCTTTAAGCAAACTGTAAATCTTAAGGAAAACATTGGTATAAGCATGAATTTGAAGAAGATCCAAAGAAATAATAGAAAATAAA
ATACCACTTAAAGCAAAGAAAAATTTAATTTCCAAGTGTAGATATTTATTGAAAGTCTGCTAGGTATGAGACACTGTATTTGGTTTGGCAATTTCAACTG
AGATTGATTGCCATTTTATTTCATCTAGAATTTACCCTATTCTATTTTCTCTTCCATGGGACATTTGGTTCCTCTTTATACGGTCATTCTTTTTTCTCCT
TTAACCCTGCCCAATGACTTCCTTAAAATAAAAGAGAGGGAGCTAAATGGAACCAAGTCAAATAAGTTAAAGTTATACTGTAGCAAAAACATTTAACAAG
AAATAACAGTGAGGCCCTTTGTTATTATAGGCATTACTTTTGGAATTTCTGAGATTTTAAATAAGGTCTGGCTATTTTAGTTATAAGGATTAAATTTCAG
GGCCTCAGGTGAAAAATCCTTTTACCTGGAGTCAAAACTTCTTACACTTTATAGAGACAACTTTGGAACATAAGTTTAAAATTTTATGAAAGAGTGATTT
ACCCACAGTGTTAATTACCAGAAAGATTACATTGTGTCACTAAGTTTTATAGGCATTCAGAAAATAAGTGATTAATACAATGACCTATTTTCAAAAGCTT
TTCATGGAGAACATGAGAACTGAGCTTGGTCATGAGACTGGGTGTGTGGCAAACAGAGAAAGAGAAGGGAAGACATTCTAAAAAGAAAAAGCAGGCTCAT
GCCTGTAATCCCAGTACTTTGGGAGGCCAAGGTGGGCGGATCATGAAATCTAGACCATCCTTGCCAACATAGTGAAAACCTGTCTCTACTAAAAATACAA
AAATTAGCTGGGCGTGGTGGTGCACAACTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTAAACCTGGGAGGTGGAGGTTGCAGTGAGC
CGAGATTGCGCCACTGCACTTCAGCCTGGAGACAGAGCAAGACTCCGTGTCAAAAAAAAAAAAAAAAGGAAAAAGAAAAAGCAGAATGTGCAAATCGTGT
TTAAATTACAAGCTAGAAACTGGAGGAACTTCACTTGGATGTTTTTTGAGAGTCAACTGGTAAATAAAAATATTGTAAAGGGTAATTCATACAGTAATTG
TTATACTATCAAAATAAAGAGCTCTGACTTATTTTCTGTGCTCATAAAACAACCACTTAATGGGAGACAATTTATAGTCCTTATCCTTCCATCAGTGAAA
AGTACCAAGTTACCAGCCCATATTTAAATCTTAGTTCTTTGATAATAATACTACTGATATATATATTTAATAATATTTATATAGATATATTTTATAATAC
TGAGATATAAAATACTGCTACTGAGATATATATATATCTCAGTATTATTCTTATATATGTATTTCAGTAGTAGCATTTAATATATATATCTCARTATTTT
ATATATTGAGTATATATAATATATATCTCAGTAGTAGTTTTTTAATATATATATATCAGTGGTATTATTATATATTACTATTATATTAATAGTATTATTA
TATGTCARATATGTCTTTTTATATATCAGTACTATTATWAAATATAATCATATATTTATATAAATATATATTCTATACATTTAATAATATTAAACACATA
TTTAATAATAATATTAAGATGTATATTTATGTCAGTTATATAAATCTAAGTATGATACAATTTATATCCTTAAAGTGTTTAAAGATTTATATCCTTAAAG
TATATTAAGATAGCTGTCATAAAATCTGTTTCTAGTTTAAAATTTTACTAGTTATTTTTTTCTGAGAAAAAAAATCATGACCATATAGTCTCACAAAAAA
ATTCAAAATAACAGAATATATACCATGCAAAAATGTTAATAATATATTTAAAACTCCAATAACAGGTCTTGGAATATAGCAAACACTTGAGATTTGCTGA
AGGTTAATTTGAAATCAATTATCAATAAATGTTTGATGAATTGAATTATTTAAAAATTCTATCATATAATTAAGTCCTAATTATTAATGTTTATATTRCC
TTATGCCTGGTGGCATATATACCTTCCAAATTTGTACTTTAACTGTACTGGAAATACATCCARTTTAACAATTATTGGATGCCTATTACCTACCTACCAT
AGTAGGGAACAAAATAGATTCAGTCTGTGACTTCACAAGAGTTTCATGTAGTGGAAAGAGTGTGAAGTTGATTTACCAACTTTTTCAGGTTCTGAAGCAG
ATGAATCATGAGTAAAATAACTTGATAGGTATATATTGAAGCCTAAATGTTKGTATGAGTGTACTTGTCTTAGTMCACGTGACGGACAATATACCATATT
CCCGTTAGAATGCTGGGAGATACTCTCCCCATCATTACTCCAAAGGTCATACAAATTAGTACATGAATTCTACTCATTAGCTAAAATCAGATAATTCTAA
AATGCATTGCTCTCAATGGTTAAATATTTTYTTGAATTTTAAAACAAACTAAGTAAAGCCTACAATTCAAAAATGACTCTGTATGGTTTCATTAAAACTT
ACATTTTGACACTTTCTCAGAAAACCAACACTTCATAATTAATGAATGTTCAGCCAAATGTTGACCTTCTGAATAACTGGAGAAGTGCAAACTTAGGAGG
AAAAAAAATGGCTTTAAACTGTTTATTAAAGCCTAAGAACTCTTATCTTTTAGAATGAAAGTTGTGGAAGCATGCCTAAGAAATTGGCTCTATAGGTTAA
CATTTGAAAGTCCGTTTTGCATAAAAATTCATGCTGTCTACTTTATGCTATATTTAAAATAAGAGGAATTGTAAAAAGCTTAATCTACCTTGATTGCTAG
GGGCCTCCTTCAAAGGTTCCTGAGATTCCCAGGCATGTGAAGCCTAAAGATACCAAGCTCTTGTTATAAATGGCTTCAGCATTCATTTTCAGTCTAAATC
TATGGAGCCTCTACTGACAGATGGCTTCTTCCTATCTGGGATTGAATTAGTTACTTTATTTACTTAAAGGTTAGTGTTAATAAAATCAAGGTCAGAGGAG
TGGACTGGTAAAAACAAGATTTGATGTCAAACAGACCTGGTTTTGAATTTCACTTCTGCTCCCCAGAGGTTCAGTTTCTTCATCTTTAAAATGGAGAGGA
GCACCTCTTTCTGTGTTTTGGCATGAAACAGAGTAGACTTTGATTACCACTGATACACTTGTTTCTGGGCCTGATACATAATAGTCCCTCAATAAAAGCT
CATTGTGGTTTTAATTTTTGTATTATAAAAACAGCTCACTGTACACAATGTGTATTCTCCTGATCATTAGTCAGCAATATTCAAGTATTAACAAAGAAAA
TTGTTGTGAGAATGTATAGAAGCCTATGTACCTGCTTATATTTGGACCCATCAGAAATTTCGGATTTTTCAATAAAAATTCGTGATTTTATATGACAACT
ATTAGCATCTCCAATGCTATCCCCGAGTGAATAAATTATGAGGTAAGCATGTAAAATAATAGTTTTGGCTCATATTTGCTCAATAAATTGTGTTTAATGG
ATGAATAGGTGATTAAAAATTAACTATTTCAAACTATGAAGCACTCAGAAACAAAGCTTGAGGCAAGAGACTAAAGATTTAGTTTCCTATTGACACTGAC
TTGCTCTATGACCTGGAAAAATTTCTTAATTCCTGGTTCTCCATTTTTTTATCTTTAAAATGTAAGGGTTTGATATGTAATGTCCACAGTCCCTCCCTAG
TTCTGTAGGTCTATGATTCACACAATTGACAAAACATGACTTAAGCGGCAATTTGTTCATATAAACAGAAGAGGTGATAGGACATAAGTCCCTTGAGCTC
TTAAATTCCATCTTTCTGTTTTCTCTTCTAATAGACTTTTGAAAAAATTTCAAAATGTGTAATATTTGACCAACTGAAGAATAGACAGTACATTAGCAAA
GTCCACAATGAAAATGAACACATTTGAAGGAAATTATTTCAATGTGTTGAACAGAAAAGAGAGACTCGAAGACAGGTATTTAGGAGAAGAAATTGGAAAT
ATTAACAAGTTTGTTGTGAAAGGTAGCAAAATATGCTTCCCCAAAATAGGCTACTTTGGCGTATTGATTATTTTGAGCTACAGAAAATTGAAAAGAAACA
GATATAGGAACTCTTTGCTCTCCCTCTATTTGCCTAAAAGAGGGACATAAATTTATGAAGGATTCCTTTCTGTCTTCTCTACCAGAAAGGATAGAAGTTA
ATCACAAGAGATAACTCTAGACACTTATCAGCCCAGAGAAGTCACCAGAGGAATCTATATAAGAAACTTTGCTAAAACTAACTTTTATTTTCCATTAGTT
TCCTCCATATATTTACCTTCCCCCAATTTGTTGCCAGTAGAAGTTCAAAGTTATTTTTCTTTGTCTTATTACTGCTCTACAAAGTTATTGTAAATTTTTG
TTAAGATTATAGATGAGACCAAGTTCTAACTACTACTTGGAGTTACTCATCACTGAGTAGTCCCATTTATGTGCAATACACATGTTAATAAACTCCTGAT
TGTTTTTCTCTTATTTATCTGCCTTTTTGTCAGTCTAATTTATATGGCCTCAGCCAATAAACCTAAAATGGATAGAAAAAATATTTTTTTTCTCCCCTAC
AAATACCAATCTATGGCTTTCCATGATGACAATTGGCCAACAGTTCCTGGTAGGGTTTTTCATTTGTTCATTCATTTCTTCAACAAATATTTATTGTATG
ATTGTTATTTGCATGATCACATGCTAGAGTAAGAGTATAAAGATGAATCTGACATACACTTTGTCCTTAAAGAAATTTCTCTTTAGTAAGGATGGTAAGG
TATGTATATAAATAGAAAAATGTTCTAAATTATATGAGTGAAAGTTATATGAGATTTATGAGAAGGTAACATTTAATTTCAGCCAGGCAGATGGCAATGA
AGGGAGGGAAATTGAGGAAATCTGGGAGGAGATGGCATTTTAGCTGGAGATAAAGCATGAATATATGAGGCAGAAGGACATTTCTGGCTGAAGAAATAAT
GTGAACAAAGCCTCAAAGGAGCAGGAAGCTGGATGCAGTTTGACTCTRCAATTGGGTTTAGGAAAGAGACTAATGAGAAATACATTTAAAACAAACACTG
TCAGATTGAAGGGACCTTGAATGTCATACTAAGGAAATTTAGTCTTTATCTTTCATAAAAAAACAGGACACTGGAGGTCTTGGATAAGGTGGATGGAAGA
AAGTTGTGTTTTAGGGTGGCAACTCCTGATGAAGATTTGTGCATGGTGGTTGTAAACTGAATCTTAATAGGCAGATAACTCAACTGAAGTTCTTAACCAT
AATCATTTTCTTGTCCAGGCTGCTGATGTGCTGTTGCAACATGGAGCTAATGTCAATATTCAAGATGCAGTTTTTTTCACTCCATTGCATATTGCAGCGT
ACTATGGACATGAACAGGTAAGTCTGACAGTAGGATTTCCAAAGGTTAGGTGTTGCTTAAGTGTAGGCTTTTGTTGAATTGTCCTAGCTTCAAAGAGTTT
ATATTTAAAATATATTTGAATTATTTTTGCCATATTCTCATCAACCCATCCTTGAGGAGCTTGTAGATCCATATAAGCATTACGGTTGTCATGTTACTCA
TTTTTGCTGATGATCTTATTACACAAAGAGGCAGAAAAGTACATTGGTAAGTGTGTGGCCTCAGGAATCAGTCAGCCTAAATTTGAAAAATTCCTAGTGT
TTTGACCAGGTGTAGGTTATGTAATCCCTCTGATCTTCATTTATTCACCTATAAAATGGGGAAAGATATTAATTATAACCTCATAGGGTTGCTGTTAGGA
TGCAATATAAATTGTTTGGAAAATGCTCAGTAAATATAGCTGTGATGATGCTAATGGCAATAACAATAAAACAACTCATAAAGGCTCTATAAAAACAATT
ACTAATGTGCTTTATAATTTACTTTAAATATGTGATTCTATAACAGGTCCATATTTATAAAATTTTATTTTCTGTAATAATATATATAGAAACTTTAAAG
TTTTTAACATACTTTTGTTCAATACATGATTTTTATTTAACCTTCACAACTTTATGAAATTAATGAATTGCCACATGACTGAGCTTATACTATGGGATAG
GCACTATGATAGAACCTTTATCTTTTTTTCTAATTTTTCCACAACCCTGAAATTGGCTATTTGCCCTTTTTTTTTTTTCTTTTTTGTGAGACGGAGTATT
GCTCTGTCGCCCAGGCTGGAGTGCAGTGGCTCGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAG
CTGAGACTACAGGCACCTGCCACCACGCCTGACTAATTTTTTGTATATTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGA
CCTCGTGATCCTCCTGCCTCGGMCTCCTGAAGTCCTGGGATTACAGGTGTGAGCCACCATGCCCAGCCTATTTGCCCATTCTTATCAATGGTATACATGA
AGCTCAGTCAGGTGAGGTAGCATGCCAGAGTCATGCGCTATTAATAATAAATAGAAGAGCTGGAATATGTACTCAGTTCTGTCTGATCCCAAAGCCTATA
TTGTTTTGCTGTACCAAAGTACCTCTTCTTATTCTTCTTCAACCAGTGAGACAAATTATCAAGTCCAAACAATTTTCCTAAATGGAGAAGCCAGAATTCA
AGGCAACATTTTCTAACTCTAAAGTCTGCTGATTTTCAACCTTAACATATCAAAAGACAAAATTTCTATGTTTCTTTAAAACACTGCCCTTTGACAGTGA
GAATACTCAAGGAACTGAAAATAACAAAAAAAAAAAAAAAAAAAAAGAGAGAGACAGAGAGAAATACAAATGTAACTGGATAACCGAATATAACTGTTCA
TTGAATACTCCATTTTCACTCTTCCTCACTTTGTCTTTCTAGACTCATTCAATTGTAGGTTAGAATTATACCTTTTTACCTTCCTGGAGGTCATGCCACA
GCACCACCTGAGGGTTCCAAGTTGAAGATCAAACTTACTTGTGTCCCTGTGCTCAATAGTCATTGTGCCTTTATTCCTCTGCTAGCTGGCATATGCCTGG
ACACTCTAAGACCTGTGAAGCGTGACCTATAGGTAGGAAGATTGCTTATTTCATTGATGTGCTGCTCAGAGTGCACTGGAGTGCAATGAAGAGCTGGGCA
CTGAAAATACTTTTAGAAGTACAGGCCCARAAGCACAAGTAATGGAAAAATCCCATCATTTCCTAACCTCAGGCACAGACAGGATATATACAATGCATAT
TATTTGTAGAGTCATCCTCTTTGACGATTAACCTCATCACCCAGCAGAAACATAAAGAGCCTGTATGCATGTTGGGTGGAGAACTAAATTTGTTTACTTT
CCCTGAAAATATAGTCACAGTCTTATAAAATTATGCTAAAATGTGGATGGCCYTTTTATGATAAGGGACTCACTTTCTGTGTGTGAAGGCAGCACATAAG
TAATTTATGGAGGCTATTGTCATTTGCTAAAATATGCTGACAAGGAGAATGGTACATTCAATATATAAATGTACCTAATGTGCCATGTTCCTTGTCATTT
GTTTATTTACTTATTTTTAAGTGGAAGAGTAGATGTTTTGCACCAAGAGCAATATTTCCTAGGTATGTAATAATAGTCCTTAATAGACAATCGATTTCAG
AGATAGTTTAAATCAGTCTATTATAAAGTCACATAATCAGAATATATGGAGTCTGTGTAAGTGGAAATATCTGCTTAGGCATGCAAGGTTCTTGAAACTA
AACTTCTGCTGTTCTGATTTCACCTGAATTAAGTCTTGATCTGCCCATTAGCCAACAAAGAGATAAAATGCACATGCTCCAAGTTGGGGCTACCACTTTT
ACTAACAGTTATTGAATGCCAGGCACTTTTCTGAGTGCTTTTCATGCGATGACTTATTTAATCCTCACAACAACTCCAAGAGGTAGAAATATTATTATTC
CAACTTTAGCAATGAAGAAGCTGAAGTATCAAAACTATAAACAATTTKTTCAAAGCAATATAGCTGATAAGTAGAAGACTGATTTCCAAACCCTTGCTCT
TGTCTATTGTACTCAATAGGAACTCAGTTCCCCACATCACACCCAGCTAATATTTTCTCTAGAATTTCTCTCAAATGTCTACCACATTCTTGAGAGATTT
ATACTCAAGACATGGTTATTTGCTGACTCATGGGAAGTAAAAATAGTTTTAGAGCTTGAATTCACTTTTGTGCTGACACTTCAGTGGTCAAGACAATTGA
GAGGGGTCAATTGCTATTTGAACCCTAACTGCTATTTTAAGGATTCAGAGGCATCCTAACTTAACCTTAGTATCACTGAGGTGACTTTTGAAATTCTCAG
GAGAGCCAATATCAAGTTTACAGAAGTTATTTGGAAAGTTCTTAAGTATATATATAAGTGACTCAAAGGAATTCCTAAATTACCTGAAACAATCGCAGGA
AGACTCCCACATGCTTCATTACTTTATCCCTCTCTGACCCTATGGATGTAGAGTCTCAGTTAAATGGAGAAGATGCCAGGGCTACTGTTTCTATCTCCAG
TTCACTCACATATCCAGAAAAAGACCCATATGACTGAAGCTGCCATGAAAATCAAGAATCAAGTCAACTACCACTGGCTCTGGCCAGAAGGAGACTTTGG
AAGAGATCATTCAGAGAAGATTCTGCATGACTCTAGAGAGGATTATTTATGTAAAGTGAAGACCTACATTATGAAATTGACAAGAGAGTTGATACTAAAG
AGAGCAAATGACAAAAGTAGGTTTTCAAGGTCAAAAAATGTGGAGATGATTTTTAAAAAACGTTTTCAAAGCTCCCTAGCATCTCATCTAGCCCCACATT
AACTCTGAAACAGAAATGGTAAACAACATTGTCTCAGTTCACCAACAAAAATAAAAAATAACATTTACAGAACAAATACTGTATGTCAGTCATTGTGCTA
TGCACTTTAAACAAATTCCTAATCTAATCCTCATGACAACCCATGAGTTAAGTCTTAATATTATTCCCATTGCACATATGAAAAAACTTGGGTATAGATA
AATTAGCTAATTTTTCTCAAGAACACAGAGYTGATATAAATCAGATTCTAGATTCGAATCTAGGACTATCTTAAACTGCACCTTAACTCTTAATCAGTAT
ATGATATTACCCCTCACGTTAACAACATAAGGTCAGTAGCAGGCACTATTGTTTGCTTAGGCAAAGCTATCATTTCAACTATTACCACTTTGGGCCATAT
ATTTTTTTTCTTCCTTGCTGACTCCTTATTTTATTTCACTGTTCAACCTCTCTCCTAGAGGTTGTGCTTAGAGATGCTCCTATCCCCAGCYACTGTGTGT
TAGATCTTAATTAGCTGAAGCCACTCACAGTAAATCTTTCCCCTTGCCCAGGGATTGGTTTAGAAAGTTGCAAATGACCTAGTCCAGACTGAAGAGATAT
GGGAAGATGGTTTCTGGAGAGTTTTTAAGAAGGAATTTCTATATTTAAAAAATGGTCGCTTGTTCCAAAAGGTAGAGGTCATCTCCTGCTCTACCCTGTG
AACTTCAGTTTGTAATGGCTGGAGATGCTGCAGCTCTCTTACTACCATGAGTTGATCTATCCTACTTGCTGAGCATGGCAGAACAGAATGACAGAAAGAA
CTTGAGTTATTAAGCTGTTGTATTAATCAACCCTAGAATTGTTCCAGTTTTGGACTTCTTGCTAGGTGATATAACAATAAATTTTTGTGGTTTAAGCCAG
TTGTGTTCTTGTATACTGCCAAAAGTTTTGCATTATTGTTTGAATTTTTATACTGATTTCAAATGAATAAATCCTTTAGGTAACTCGCCTTCTTTTGAAA
TTTGGTGCTGATGTAAATGTAAGTGGTGAAGTTGGAGATAGACCCCTCCACCTAGCATCTGCAAAAGGATTCTTGAATATTGCAAAACTCTTGATGGAAG
AAGGCAGCAAAGCAGATGGTAAGATTATATATTTAAAAGACCTTTGCTRTCATTTGCTTTATGTATACCTTTTACTTGTACTTCTCTTACTAGAGAATAA
TCTTGAAGTTGACTAATCCTGTAGTCATGTACTTATTTGCTCCACAAGKCATAATTCATCTTTAATATATTTATCAGGCCTACATGCGAATCCTTCTTAA
CATGTTTTAGCTCAATTCTTTTTTATTTTTAATTATACTTTAAGTTTTAGGGTACATGTGCACAACATGCAGGTTAGTTACATATGTATACATGTGCCAT
GCTGGTGCGCTGCACCCACTAACTCGTCATCTAGCATTAAGTATATCTCCCGATGCTATCCCTCCCCCCTCCCCCCATGCCACAACAGTCCCCAGAGTGT
GATATTCCCCTTCCTGTGTCCATGTGATCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGTGGTGTTTGGTTTTTTGTTCTTGCGATAGTTTACTG
AGAATGATGATTTCCATTTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTT
TCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAATGCCGCAATAAACATATGTGTGCATGTGTCTTTATA
GCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGATGGCTGGGTCAAGTGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACT
TCCACAATGGTTGAACTAGTCTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTGTAAT
GATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTTTTTTG
GCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCACCCACTTTGTGATGGGGTTGTTTATTTTTTTCTTGTAAATTTGTTTGAGTTCAT
TGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGC
TGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCT
ATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTATTAGGAGCTCCAGTGAAAGTAAAGAGTTCTCTTAGATGAATTAGATGTCTT
CACTGTTGTTCACTAATCTTTTATAAATTGAGACATTATTTACTTCTAGCAAATTCTGAAATCTTAAATATATAACCTGATGAATATTTATGTATGTATA
CATCCATTGAAAACCACCCAGATCAAGATTTAGAATATTTAATTACTCTGAAATTTTCCCTTATCTTATCTTTCCCTTCCCTTACCTCATCTCAGGTAAA
TAGACTTTACCACCAAAGGTAATTAATATTCTGGCTTTTATTGCTATATATAGTTTTGTCTGTTCTTGAAGTTTGTATAATTTTGTGACTGGCTTCTTTT
GCTCAACAAGATGATTTGGACATATATCCATGTTGTTGTATGGATCGTAGTTTGTTCTTTTATATTGTTTATGATTGCATGAATATACCATAATTGGCAT
ATCCATTCTTCTCCTAGTAGACATTTTAATATTTCTAGTGTTTTTCTATTATGAATACAATTGCCAGTAACATTCTTATTCACGTCTTTTTGTGGACATA
TATGTTCATCTCTCTTGAATATATATATAAACACACATATATATATGAGAGAATTGATAAATCGAAAGGTAATAATGCATATGTTTAATGTTTTAGGAAA
TTTCTAGACAGTTTTCCAAAATGTTTGTACTATTTTAAAATCTTTCAACAATATATGAGAATTTCAGTTGCTTCCCACAGCATCCCCAATATTTGATATT
ATATTACTATACTTTTTAATAGAGTTTGAGTGTGATCCATTTGGGAAAAARAAAGCTTTAGAATACATAGAAGGACTTCAGAATCAGTTGATAGAATAGA
ATTTCCTTTCATTTTTATTTTCTTAATTATAAAATAAATTTTGGAAAGTTTACTATAGGTATTGAAAAATTTCTTTTTTTCGCTTTTCCTCACAAACTTT
ATTTTTTGACAAAAATTCACTCAGAGTTGCGTCTTGCCATTAAATTCTCTCAGGCATATCCAACATTCTTCCATCGACCCCCAAGAGACCTAATTAAAAG
CCCAGCTGTAAGAACTGCTGGCCTTTGCAGCGGGAACAATACACATTTCCAAAAGGACATGGTTGTCAAATCTCTGGAACTGCCAGTTCCTTGGTTCAAA
ATTCAGATTGATATTTAGTTAATAAAGCTAATCAATGTTTTTTATCTACCCATAAGGAATAYACAAAGTATCCTAGAGACAACCGTGGCAAGAGACTAAG
GTAATTTCCAGTTTCCAAGTTGTAAACAAGGGCCACTTTATTTCGTAAAATGTAAGAAACATAGCTTGCATTGTTTTCTATACGCCAGTATGCAGTAACT
CAGGCAGCTACTTTAGAGCATTATTATAAACAACCTATGTTGTCAGGATGTAAGGAATGCTGTTCCTTGGACCTTGTTTAAGCAGTCTGTTTCATTTTGT
TAGTCTAGAATAGGCACAGGTACACCTGTGTGAACGACTAAACACATAATCGTGTTTTTGAAACTGCCTCACTCTTCCAAGGGGTCAGGAACTACATCAC
TTTTTCCTTTCATTATTGATGCCAACCTTAGCTTTTTATTCCTCTGCACAACTCCAGAGCTCAGTAGTGTCAAAATGAATGTCATTTATGATCAGCATGT
CTCTTTCAGTGCAAAAGRCATTGAAATGTGTAATACTACAACCATATTCCSCTTACATACCAGCATCATATGATACAATTTTTAACATTTTCTTTTTGTT
GCACGCAAGTATTACATGCCTCTTATTCAATTATTTTATAAAGTCAAGAGACGGCGTGACTCACATTTTTAAGTATTTTTATTTCTTTCTAGTACACGCT
TGATATTTAAGTCCCATTTGTACTTCAACCAATTGCAAAAAATAAACCAGAAGATCTGCTATGCCAATGGACACTGTGCAGGACTTATTATTAGTTAGTT
CACTTATTCTAAAATGTAGCTAAGCCTCCAAATGATTAATTTTAGATCTGGACCCTGCTTGTGGTAAATGGACATAGGAGAAAGATTAAATAAATGACCC
CAAAGAGAGTACAATTTGAAATCCAGTATTTACAGTATGTTTCCATGGTAACAGAATGTCACAAATGAAAATAAATTCAGGTTGCAAAATTACCCAAAAT
GTAATTCTGAAAGCAGCCTCTTTGGTTCAGCATGTTTGAGAGGCTGACCTATTCAGTTAGGTATGTTTTAAGTCTCTGTTTTGCTTCTTTGTATCTCTTA
GGGTAATGAAAAAGGAGAAATATAATGCCCCCTAAATGAGATTGAAAAGGTTAAAATATTGATGGACTGAATAAGAAAAAAAAATGGTGATACAGCCTTC
AAAATATGCCATTTTGATAATGTTAAAAATTGAAAAAATTAAATTTAGAATTAATAATTTCTGTCATCTTAATCATAAATGCTATATTTCTTTAAAATAA
CACAATCCTTGCAACTGGACAGAGCTGGATATTACAGAAAGCCACAAAAAATTCCTAGAACATGTCCAGCCATAGGAAGTGTTTTATTTTTTGAAATATA
GCTTGTTGGATGTATTACACAGATCTGTTACTGAAAGCTTATTAAAGACAGACCTGGGAGTAATTTTAAAGATCTTATAGGACCTGCTGACATTGCTTGG
TCAATCTGGAAAATTTTATTTTATTTTTAGGGTCAATAAGCGGAAATAAAGAAGAAACAGCACCCATTCACCCAATATTCAATATTTCTTTCAAAAGACA
TCACTATCTACCTACTCTCTTCAAAACAGAGCACCAGGAACTAGATATTTTCCTAATAATGATTTACATGTATTTTTTGTTTTAAATTCTCCTTTATATG
TTTCTCAATAAGATGCTAAGTTAGAGCAAATAGAATGTTATTCATGCATTCAATTTTTCTAAGATATAATAATATATTTTCTTTTTTGTCTTTGCAAATT
GGTCGAAGACAAAACTAAATACATCACAATGACTGAGGCAAAAACAGACRTGTATACGCATAAATTCTATGTCTGATTCCATATTTGTCCTGGCTTGTTC
CTTCAGTTGGTATTTACATCTTCTTTGATGGGAATAATGTTTCAGCCACTGTGGATAATTCACCAAGTAAATAACCTAATTTGAAGTTTACTAATTCAAT
TGGCGAGGGATACTGGGTGGGGCCAAGGATGGCCAAAGGCAAATTATAAATTAATAGAAGATTGCACTGCATTCTGCTTTGCATTTTTCCTTCTGAACCT
TAAGAATTCTTATGTCACGCTCCAGATGCCCTGGACYCCTAACTGTTCTCAAGCATTGACTTGTGGCATTGACTATCCCTGGCTTAGAACAGCATGTGAA
CAAAGGAAAAGCTTTTTTAAAAGGGAGATAATCAGAAGAACCAACATTCTTCTGAATGAAAGGCGTCTTTTTGAGCTGCTCATTAATAAAAAAAGATTCA
AAGGTTTGTTTGTAATAACAGCCTTGGGAGGAGAAACTCAGTGACTTTGTTAAAGATTTCCCTTTGGCTTAAAATCTTGCAGAACAATAAAATGAGGATG
ATTGTTTACAAATATAGCAGCTACAAGGCCTAATTAAGACCCTGTCTAGATTGACAAAGTAATCAAACAATAAAACAAATGGCTTTAGAGCAGTTGATTC
CATTATTTTAGTTTTAAAAATTATTAAAGCCAGATTAGGAATTGAGCAGTTTGATGTTCAGTTGTTWTTACTTCAGGACTGTAATTATTGACTGTTTAAC
TAGACTGTAGGTTATTTGAGAGTATAGACTCTGCATTTATCTGTTATTAGCTTTGGACACAGCAAATTTCTAAGATGGACATTAGTAAAAAGGTTAAGTA
ATWTTTATTAAATGTCTAGTATGGGACAAGCATCATGCTAGATAGACGCTTTCCAATCATGATCCTCTTTATTCTTTTCAGCATCCCTGGAACAATGATC
TTATTATATCCATTGTTACTGATAAGACATCCATACCTCCAACAGTAGCTTAATGGCTAATACATAGTGATCACTTGATTCTTGTTGAGGAAAGAGAGTG
TATCTGTCAAGTTTTTTTGTTTTTGTTTCTGTTTTTTTTTTTTTTTACTTTCAAGTATTAGAAACTAACTCTTGCTAATTTAGGCATAAAAGGAGTAGAT
TAAAGGATATTATGTAGCACACAGAATCTTCTTCCTCAGAACAGAGTAGAAAGCCATGTTTGAAATTCTCACAGTGAGGAACAACATCCAGAATCATGCC
CAAATGTGGTCCTGTGAAGATGCACTGCCACCCTTGCTAGGCACACATAAACTGTTGTGCTTCTGATGCCAACAATGCAGGGCATTGAATCTGTGGCTGG
AATTGCTACCATGGGAAATTGGATGGAGCTACTGCCACCACTGCCACATTGCCAAGATAGATTAGGCCCTGCATTTTACGTCATCAGCTCTGAAGTCAGA
GTCTCATATGATGTGTTGATTGGAGGAGTCTACAGATAGGTATCCAGACCAGGGAACTGTTGAGAGTAAAAGTGTCATTATTAAGAATTATTCCAGGATA
ACAAGCCTAAACCAGGACATATGGTCACCCTCTGCTATTTCTGTTCCCTAGCTGCAAACAGATCTTGGAAAGCACATTTTCTGCTTCTGTGATAGAATGT
GGTCTTGGCTTCTCATTAATACTTGCAGTATACGGAATTACCCAGACGTGAGAAGAGGTTATAAGGCTGGGTGTTTCAACGAGAAGGACACATGTCTACT
ACTGAATGAAGAATTGAATTTTAAATAACCTGTCTAAAGTAAAAGAATTAATGAGGTCTGCCTAAGTCTAAATTGCTTTTCCCTTCATGATACCATGCTT
TGCATACTGTAGTATGGCAATTTTCAGCTAAGGATATACATCAGAGCTGTTTACAACAGTGTTGTAAACATACAGATTGTGGGGCCCCACTCTAACCTAC
TGAACCCAAATCTCTGGGAATGGTGCTGTGGCCAGGATCTGTAATTCTTAACATCATTCAGATAGAAAAACAATCAATTTGAAATGTGATCCTTGTAGAA
ATAAGGCCACGTGTACCTTTTGGATGCTATTAGTTTCCCGAACTGTTCCACTGTGTAAGATAGATTTGATTTGATGTGTTCCATAGAATTTATGGAAGCT
AGAAGGAAACCTGTTTAATGTGGTAGTAGGCAATAGAATAACATTAAAATTTTAAAAATTGGTCGCCCTTAATTTCCTTTATGATTATCATTAACTGGCA
ATTTCCAGGAATCACTCAGGCACTTAGAAATGTCCATGATACTATACATATGAAGGTTGAGAAACAAACAATTCTAGATAACATATCTTTTTCTTTCTTG
CTGATAACAGTGAATGCTCAAGATAATGAAGACCATGTCCCACTCCATTTCTGTTCTCGATTTGGACACCATGATATAGTTAAGTATCTGCTGCAAAGTG
ATTTGGAAGTTCAACCTCATGTTGTTAATATCTATGGAGATACCCCCTTACACCTGTGAGTATTATGTAGCATTCCATAGGTTCTCCAGGTATACTGCRT
GTACTTGCTTACAATATTAACAAGMTATTTTCTTCAAATCTAGGGCATGCTACAATGGCAAATTTGAAGTTGCCAAGGAAATCATCCAAATATCAGGAAC
AGAAAGTCTGACTAAGGAAAACATCTTCAGTGAAACAGCTTTTCATAGGTAAAAGAATATTTAAGTGCAATAGCCACTAAACTTAGCTGACACTCTAAAG
CACCTGAAGTTGTGGGTATAAAGCAAGAACAAATAGTGGCAGATGTTGCAATCAGAGAGCAATAGCAGAGGTAGGGCAGAGGACAAAGAGCCAGAGCTAG
ATGCATGGAAGAAAAGGTGGAGGCAGATGCTGCAGTCAGTACAACAGATGGGGCCGGAGCCAGATGCTGTGTTCCTGGCAGCAGCCACAAAGACAGGGAC
TGATGTTGCCAAGGCAACAGGCATATCAACATCTGTAAGCATATTGCTTCTATTCCTCTTCACTCCATGGAAAGCTGCCAAAAAGGGATGTGCCCATAAT
CCTCCTCCAACAAGAATCTCATTACCAGAATTCATCAGCATTAAATGTGACACTTGTTTCCTTTCCACTTAAACCTTATGTGAAAATGTGTCTACCTATC
TAAAACATCCATCTGTCAGCCTGTAAAAGCCTAGTCAGGGTGGCCACTCAGATACCTAAGAAAGCATCAGCTCTTCTCTAGGAATTCGTGAGAGCCCTTT
ACGGTGTGCTCTAGAAAAGCACACTGAAGGAACAGCTGGGATTAGAAAAGTTGCAACCAAAATAAAAAGAGAGAAAAAGAAAAGAAAGAAAAGGTTGCTA
ATAAGTCAGAGCTATAGTTCCCTAAAATGCCCAAAAGGAAGGTGGATGTTTTATAAAATCTAAGGCTTTCATTTTTAATGAGTAACTATTTTGCTAAAAC
AGTAAAAGCATAGTAATTTATATTTAGTAGATCTTGAAAATTAGTCCATTTGCCTACACATTACATATGTTTCCATTAGTTTGTAACCTCTAAAATTGTA
TTTGAGGCTAATTTGTTGTTCACATAATGTTTTTGTATTGCATTGATGAATAATAAAAATGAGGAGATTCTCTTTATTTCTTACCAAACTAAAATTAAGC
TTGTGCTTCTGCATCAGGCATCAACCTGTCAAATTTCACATACATTTCCAGATTTTTCTTGTCAACCAAAGACTCAGTCAAACAAGGGTGAAGTAAAACC
ACCATTTATGGAATAGTGACCATATGCCAGATGATTCGCATCCATTATCTCATGTAATCCTTACAACATTTTATGAAGTTGGATTTATTATCTCTCTTTT
ACAGAAGAGAAAACTGAGGCTCAGAAAAGCTAAGTAACTTGCCAAAGTTTCTTATGGATAGAAAATAATGTTGCAAATGGCTACCTAATTCTAAATCCTG
TGCTTTTTACATTTCTTCATGTTCTAGTACCAAAATATTTTGTCTGTTTTCTACACACTCAGTAACAGAACAGATGCAAGAACTCCTTAGATCATACCTT
CAGTCAAATGGATCAGTGGAATCTGTCCCTGCAGGGGACAGTTGGCAGAACTGATATGTACTGGTTGCTGGTATTCTCTTTCCGTTTAGGTCATGCCTGT
TACAGCTGACACCTCAGGCTAGTTTTCAAATCATTTTGCTACTTCATGCACTAAAATTAAAACCAACTGTAATCAGAGGGTGACTGTCACCTCCAAAAGA
TTGTTTATATGAGAAGATTTGTAAAGTGAGTTGAAAGTATATACCCAATTGTTTTATTTCGTGTAAGCCTGTGGCTACTCAGAGTAACAGATTAATGTTT
TTGTTATATTCATTTTAAGCAAATATTTATAAAAGAAACTCCTTTTACGTGAGGAATTCACTCTGAATATGAATTTTTTATGTACATAGTATTTTGCACA
GAGTAAGCACTCAGTACATTTCTGTTGTGGTTTTCATATGTATACACACACATATACAAATATATATGTATATATATGTACACGCATACACGTGTGTGCA
TGTATATATGTGCATGTATGTATGCATGTATATATGTGTGTACACATGCACATATATACACATATATGTGCATATATTCAGAACTCATTATCTGTAAGTA
GTTTCTTTGAAAAAGAGCAATGAATCAATATTAAATGTGTACTGTTATGGATCGTATTTATAATGCAAATAGTTAATGATGATATGATATATTGCACTGA
GATGGTAGTTTTTTTATTCACTCAATAATTCAAGAAAAAGTCATTAAAGACCTACCTTGTATTGGTGCTACTGGGGACATTAAGATGACAGGATTCTTTC
AGTCCTTAAAGGAGCCCTATTGTAAGGTATCAAAGTAAACAGAGGTGTATCCAATACCATATTACAGTGTGATAAGCAGTGTAAGATTGAAATTACAAAG
AAGCAGAGGGGTCAGCAATGAATTCTGCCTTTGGTTCATTAGAATACTTCATATTCAGTTTAATTGGATAAAGAATGAATGATATTTCATGAAAGAAAAA
TGACTTAGGCAAGCTTAGGCAAGGCCATCCCAGGAAGAGGAAATGCTAAGACCCAGTGAACTCCCTCTTTTTTTCTAGAACCAAGTCCCTATGCCCTTCC
TTTAGCCATTATTTAGTTGGGGCTTTGCCCAGTGCTAGTTCTTTCCAGTCAGTTATTACATACCTCATATCTCTTCATGACTTGAATGTAGAGTATTGTT
AGTTAACAAGTGATAGCAAAAGCAGAGGTATGAGGGAAACTACAGGAAAAGAACATTTATGAGAATTACTAATCAAAAAGTTAAATCCAGTAGTCATTAC
TAGGCATGCTAATTTCATACAAAATCTTTTTCTCAATGCATCTTAGCTTTCCCAGTAACCAGTAGAAATCAGAATTTCAGATAAGTATTTCAACAAATCT
GTGTGCAAAATTTGTCTATAAAAATCTTATTTCCTTGCATCTTGAAATTTATTAATTTTTCCACAAATACTTTCTCACACCTGGAAAGAACTGATAATGA
AAGGTCCTCTACAATTTGTAATGTGATTCTATAAGCATTAATTCACTTGAAATTTCAGCAACAATTTGGCACATTGATAGGGTATTGTCTATTATAGTTT
TATAGATGGTAAAACTAAAACTCACAGAGGTCAAAGAACTTGTCCAAGATCCTCTGGTTTGTGTGTGGCAGAATTCTGGATTTTGAGTCCACAGCTAATT
CTCCTTCAGTAAAATGAAAGCTTTGAGATCTTATCCTCTGGTCAAGAAGTGTTTGGAGAGACAGTAGATGGTTTTACCAGGAATCATTTCAGACTGTGAC
CTGGATTTGACTAAAACTCTCAGAACCCTCCTGAATTTCTAATTTGATTGTCCTGCAGAATATTTCCGAGGTCCTGCAGCTAAAAATGCAGGGAACTCTT
ATATCTTATCTCCTTTTATGAAAAATGACTAATATCCCTGAAAGCAGTTGATAAAAAACACTGGAAATTTTATACAGCTCTTTTCTTAAAGTTCCAGATG
TGAGAATCTTTAGGATTTTCTCACCATATATCCACATTTTAATTTAGCCTTTGTAGATGGTGCTTGTTTATTTTTCATCACCTCCTCCCTTCTCTGTTTC
TTTGGCTCTCTTATATACATGTGTGCATCTAGAATGCCTGGCATAATCAGGGCTGCATTTGTTTGTTAGGACTGTCATAAAGAAATACCACAGACTGGGT
GGCTTAAGCAACAGAAATTTATCATCTCACAATTCTGGAGGCTAGAAGTCCAAGATCAAGGTGTCAACAGGTTTGGCTTCTCCTGCAGCCTCTTCCCTTG
GCTTGCAGATGGCTGCCTTCTTGCTGTGTCTTCACATGGCTGCCTCTCTGTCAATGTCACCTGTGTCTTAATACCAGATTCTTCTTATAAGGATGTCAGT
CATATTGAATTGGGGCCCACCCTAATGACCCCATTTTAAATTAAATACCTATTTATTTATTTATTAATTATTATTATTATTTTTCTACTTTAAGTTTTAG
GGTACATGTGCACAACGGGCAGGTTTGTTACATATGTATACATGTGCCATGTTGCTGAGCTGCACCCATTAACTCCTCATTTATCATTACGTATATCTCC
TAATGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGTCTCCGGTGTGTGATGCTCCCCTTCGTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTA
TGAGTGAGAACATGCAGTGTTTGGTTTTTTGTCCTTGTGATACTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTC
ATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACGTTTTCTTAATCTAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTT
GCTATTGTGAATAGTGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAAYCCTCTGGGTATATACCCAGTAATGGGATGGCTG
GGTCAAATGGTATTGCTAATTCTAGATCCCTGAGGAATTACCACGCCGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGT
TCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACATTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATT
TGCATCTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCACCC
ACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTGTATGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCAAAAATTTTC
TCCCATTCTATAGGTTGCCTGTTCACTCTGATGGTGGTTTCTTTTGCTGTGCAGAAGTTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTG
TTGTCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGRTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGG
TCTAACATGTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCACCTTTCYACATGTGGCTAACCAGTTTTCC
CAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATAGTTGTAGATAAGCAGCATTATTTCTGAGG
GCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTAGCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCAT
GATGCCTCCAACTTTGTTCTTTTTGCTTAGGATTGACTTGGCAATGCGGGCTCTTTCTTGGTTCCATAAGAACTTTAAAGTAGTTTTTTCCAATTCTGTG
AAGAAAGTCATTGGTAGCTTGATGGAGATACTATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCAYGACATTGATTCTTCCTACCCATGAGC
ATGGAATATTCTTCCATTTCTTTGTATCCTCTTTTATTTTAYTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGAT
TCCTAGGTATTTTATTCTCTGAAGCATTTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGTATAAGAATGCTTGTGATTT
TTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACTATGGCGTTTTCTAGATATACAATCATG
TCRTCTGCAAACAGGGACCATTTGACTTCCTCTTTTCCTAATTGAATGCCCTTTATTTCCTTCTCCTGCCTGATTGCCCTGGCCAGAACTTCCAACGCTA
TGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCTGGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGG
TTTGTCATGCATAGCTCTTATTATTTTGAGATACATCCCATCAATACCTAATTTATTGAAAGTTTTTAGCATGAAAGCTAAAAACTTTTCTGCATCTATT
GAGATAATCATGTGTTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACATTTATTGATTTTCATGGGTTGCATCCCAGGGATGAAGCCCACTTGATCA
TGGTGGATAAGCTTTTTAATGTGTTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGATATTCGTCTAAAATTCT
CTTTTTTTGTTGTGTCTCTGCCAGCCTTTGGTATCAGGATGATGCCGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAG
TTTCAGAAGGAATGGTACCAGCTCCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTTTTTTTGGTTGGTAAGCTATTGATT
ATTGCCTCAATTTCAGAGCCTGTTATTTGTCTATTCAGGGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGAGTGTATGTGTCGAGGAATTTATCCATTT
CTTCTAGATTTTCTAGTTTATTTGCATAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGATATCCCCTGTGTCATT
TTTTATTGCGTCTATTTGATTCTTCCCTCTTTCCTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCTTTTCAAAAAACCAGCTCCTGGAT
TCATTGATTTTTTGAAGGGTTTTTTGTGTCTCCATTTCCTGCAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCT
CTTGCTTCTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTAGATCTTTCCTGCTTTCTCTTGTGGGCATTCGGTGCTATAAATTTCCCTCTACA
CACTGCTTTGAATGTGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCGTTGGTTTCAAAGAACATCTTTATGTCTGCCTTCATTTCGTTATTTACC
CAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGAGCAGTTTTGTGTGAGTTACTTAATCCTGAGTTCTAGTTTGCACTGTGGTCTGAAAG
TCAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGACTGCTTTACTTCCAACTATGTGGTTGATTTTAGAATAGGTGTGGTGTGGTGCTGAAAAG
AATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCCACTTGGTGCAGAGCTGAGTTCAATTCCTGGATATCCTTGTTAACTT
TCTGTCTCGTTGATCTGTCTAATGTTGAGTGGGGTGTTAAAGTCTCCCATTATTATTGTATGGGAGTCTAAGTCTCTTTGTAGGTCACTAAGGACTTGCT
TTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGTTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTT
GTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCCAAGAGTAGGATTGCAACCCCTGCCTTTTTTTGTTTTTCATTTGCTTGGTAGATCTTCCTC
CATCCCTTTATTTTGAGCCTATGTGTGTCTCTGCACGTGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCATTTTGCCAGTC
TGTGCCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAGGTTAGTATTGTTATGTGTGAACTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGC
TCCTTAGTTGATGCAGTTTCTTCCTAGCCTTGATGGTCTTTACAATTTGGCATGTTTTTGCAGTGGCTGGTACCAGTTGTTCCTTTCCATGTTTAGTGCT
TCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGTATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCTTA
GTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTAGAGTTTCTGCCGAGAG
ATCTGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTTATTTCAACTTTGGTGAATCTG
ACAATTATGTGTCTTGGAGTTGCTCTTCTCGGGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAATTTGAATGTTGRCCTGCCTTGCTAGATTGGGGA
AGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCTGTCACTTTCAGGTACACCAATGAGACGTAGATTTGGTCTTTTCAC
ATAGTCCCATATTTCTTGGAGGCTTTGTTCATTTCTTTTTATTCTGTTTTCTCTAAACTTCTCTTCACACTTCATTTCATTGATTTTGTCTTCCATCACT
GATACCCTTTCTTCCAGTTGATCGCATCGGTTACTGAGGCTTGTGCATTCGTCACGTAGTTTTCGTGCCATGGTTTTCAGCTCCATCAGGTCCTTTAAGG
ACTTCTCTGCATTGATTATTCTAGTTATCCATTTGTCTAATTTTTTTTTCAAAGTTTTTAACTTCTTTGTCATTGGTTTGAACTTCCTCCTTTAGCTGGG
AGTAGTTTGATCTTCTGAAGCCTTCCCCTCTCAACTTGTCAAAGTCATTTTCCGTCCAGCTTTGTTCCATTGCTGGTGAGGAGCTGTGTTCCTTTGGAGG
AGGAGAGGTGCTCTGCTTTTTAGAGTTTCTGGTTGTTCTGCTCTGCTTTTTCCCCATCTTTGTGGTTTTATCTACCTTTGGTCTTTGATGATGGTGATGT
ACAGATGGGTTTCTGGTGTGGATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGTCAGGACCCTCAGCTGCAGGTCTGTTGGAGTTTACTGGAGGTCC
ACTCCAGACCCTGTTTGCCTGGGTATCAGCAGTGGTGGCTGCAGAACAGTGGATATTGGTGAACCGCAAATGCTGCTGCCTGATCGTTCCTCTGGAAGTT
TTGTCTCAGAGGAGTACCCAGCCGTGTGAGGTGTCAGTCTGCCCCTACTGGGGGATGCCTCCCAGTTAGGCTACTCGGGGGTCAGGGACCCACTTGAGGA
GGCAGTCTGCCCATTCTCAGATCTCAAGCTGCATGCTGGGAGAACCACTACTCTCTTCAAAGCTGTCAGACAGGGACATTTAAGTCTACAGAGGTTATTG
CTGTCTTTTGTTTGTCTGTGCCGTGCCCCCAGAGGTGGAGCCTACAGAGGCAGGCAGGCCTCCTTGAGCTGTGGTCGGCTCCACCCAGTTCGAGCTTCCC
AGAAGCTTTGTTTACCTACTCAAGCCTGGGCAATGGCAGGCGTCCCTCCCCCAGCCTCGCTGCCACCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAA
TGAGCGAGGCTCCGTGGGCATAGGACCCTCCAAGCCAGGTGCGGGATGTAATCTCCTGGTGTGCCGTTTGTTAAGCCTGTTGGAAAAGCGCAGTATTAGG
GTGGGAGTGACCCAATTTTCCAGGTGCTGTCTGTCACCCCTTTCTTTGACTAGGAAAGGGAATTCCCTGACCCTTTGCGCTTCCCAGGTGAGGCAATGCC
TCGCCCTACTTCGGCTCAGGCATGGTGCGCTTCACCCACTGTCCCGCACTCCCCAGTGAGATGAACCCAGTACCTCAGTTGGAAATGCAGAAATCACCCA
TCTTCTGCATTGCTCATGCTGGGAGCTGTAGACTGGAGCTGTTCCTATTCGGCCATCTTGGCTCCACCCCTCTTAAGTACCTCTTTAAAGATACAATCCC
TAAATACAGTCTCATTGTCAGGTTATGGGGGTTATAACTTCAGCATATGATTTTTCGAGGTGTAGGGGAGAGGGCACAATTTAGTTCATAACAAGGACCT
TCTATCTTTCTTGTTTTATGGTTTTTTTTTTCAGTGCTTGTACCTATGGCAAGAGCATTGACCTAGTCAAATTTCTTCTTGATCAGAATGTCATAAACAT
CAACCACCAAGGAAGGGATGGGCACACTGGTAAGACTGTGGTGAAAACACCACTAGTTCTAKATGCTTATCAATGATTAAGAATAATGGTATGCAAAGGG
ATGTGGGGGCATTGGGAGTGCTCAACTCCAGTGGGAAAGGGTATTTTATCAACTGCCAGCATTTAGAATTGATAATGACTGATAATAATAAAAAGCAGAC
TGACTTTTTGGTCAATTTTATTATTGTGTTAAATTATTTGCAGTCAGTGCATCCTCTTATGGCCAGCACTAGGGACAGACTGACCACACTGCTCTGCCCT
TGATTTGGTGATCAAAAAAAAAAAAAAAAACCTGTGATGGGTCTTTGTTCCTTTATTTGTGTAAAGATGCTAACATTTGTTCTTGGTAATTACAGTGGAT
GTAGAAATACTATAATTGTACTGAGGAAAAGACAGTCTCTGTAGAAGGTTGAGTACAATATAATACCCGTTTTGCTTAAAGTGATGTCTCGTTTGGTCAA
TAATAAAATTAGTTCTTTATCAAAGAAATCAATCCTTACTTCATACCTTTGGAAATAATGCTATTATGTGGTGATGACTGTCTTTTGAAAATTGGGGAGC
AGTTTTTCTTTTTTCTCCTTTTGTTCTTTCAATTCTTTTCTATTACAGGATTACACTCTGCTTGCTACCACGGTCACATTCGCCTGGTTCAGTTCTTACT
GGATAATGGAGCTGATATGAATCTAGTGGCTTGTGATCCCAGCAGGTCTAGTGGTGAAAAAGATGAGCAGACATGTTTGATGTGGGCTTATGAAAAAGGT
ATATTTTTAATCATCGTGTCTCTATAGTGATACATTGAACTGTGTGCATAGATTATGTCAGTGCATCAATAATTACTTTGCTTGCATGACTTGAACACTC
TCATTTCTTCTGTAGATTTTACTTGAGTTTCTGGGGCCTTGGATCAAAGAGTCCAATACACTGTAATCAGAGAAGGCAACTCCTAGGCTGCAGATGAACC
AAAGGCATTCTCAGTATTGGCACTTTGAAAAGGGAATTGTCACATTTCTAAGTACCAGAGAAACAAAATTGTGATAGATAATGATAGTAGAGTGGGCTCA
GAGCTAGTCTTTATCTCTTATATGGGGGAATTTTCATGTGGTTTCAAATTTATAAGAAAGAAGTACAAGGGGGGGGGAAAGAAATATTTGTCAGATCTAA
CCCTGCTGACAATGCTTGTGCTAGAAAATGTGAGGGACCCAAGTGTAAACTTATTTGAATATAAACTTATTTGCTTAAGTATAAAATTATCTGAGCTCAA
AGTGGTGAAAGCTTGAGATCTGGTATGAAAACAACTGGGTTTAAATCAAGCCATATTATTTGATCTTGTGCAAATTATTTAATATTTCTGAACTCCATTT
TCTTCATCTGAAAAATAAGGATTATAAATTCTACTTTATAAGATTGTAAAGATTAAATGAGATAATATACGCAAATTGCTTAGAACAGTGGCTGACACAA
AATAAATGCTAAGTAATTGCTATTTTAGTGTGATAACAGTGGGACTACTAGTAGCTCAGAAATAAAGATGATTGATAACAAATTCATCATTTCAAGGGAG
AAGTAACTGAAGACATTCAGATGGTGAAAAGCATCTTTGTAATTGTTATTGAGATATATTTGCCTCATAAGCAAGCTCTCCATATACACATACACTCCTA
AGGAGTTTAGATTTTTAGGTGATATGAAAGAATATATATTGTCTTTGAAATTATAGGTTATAATTGAATACTATAAAAAAATGCCAGATTTTAAAGTCAC
ATTTTAATTGTTATTTTAACTTTTGATGACTGCATTGTCTTTTTACRATATTAAAAATGTGTAAAGAAACATAGTTATCTTTTTAAATACTCAAATCCTA
AAAGATTGTACTGAAAATAACAATTATTAAGCTATAAGATTTCCTAGCCTACCAAGTTGATTCGAAAGGTTTTCTGACTAAAGTGGGATATGGGCCAGGC
GCGGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCATGGTGGGCAGATCACAAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCC
TGTCTCTACTAAAAATACAAAAAGTAGCTGGGTGTGGTGGCAGATGCCTGTAATCTCAGCTACTCGGGAGGCTGAGGCAGGAGAATCATTTGAACCCGGG
AGGCAGAGGTTGTGGTGAGCTGAGATCATGCCATTGCACTCCAGCCTGGCAACAGGGCGATACTCCGTCTCAAAAATAAATAAATAAATAAATAAATAAA
TGAATAAATAAATAAAGTGGGATATGAAAGTCCATCAATGAAAGGAGAAATGTAGTCTGATGGATGAAAATGTAGAGCTGTTGTAAGCATGCAGTAAGCG
TATAGACAAGGAGAAGGAAAAATGTACAGGTCTGAAGACTGCTAGTAGAAAAATGATGTGGGAGTTACTTTAATAAAGACAAGTGAACAGACATAGAATA
TTAAGTAATAAGTTAGATATAGGCTTGCTGTATTTTGGTGGGCTTATTTTGCTTTTTATTTGAATATTGTATAAATACAAACATATATATACCTTTGCAC
ATATTATAACCATATAGGTCAATGAATTTCACAGATTGAACTCACCCAGCACCCAAATGAAGAAACTGAACATAACAAGTCCCCTAAAAGCCCCATTGAC
ATTCTCTTCCAATCACTCCCCTAAAGAGGTTACCACTGCCTTCTTGTGGCATAGTCGTTTTGCCACTTTCTGCACTTTATATAAATGAAATGCTATGCTA
TGTACTTCTTTGTGTCTGGCTTTTTTCAGCCAACAATATGTGAGATTCATTCACATTGTTGCAGGCAGTTGTAGATTGTTCATTCTTATCATTGTATAGT
ATAATGTTTTGTGACTATATCACAATTTTTTAATTCATTCTACTGTTCACGAGCATTTGGATAATTTTCAATTTGGGGCTATTAAGAGTACTGTGTTATG
AACATTCATATATGTAGATATATGTCTTTCGTTGAATATATGGTTGCATTTCTATTAGATATAAAGGTGTTCTACTTTGTATTAAAAAATCTAGGTAGCT
CTATATCTTAATATCAATTGGAAAATCTTAAATTTTCTGAAATCTCAGGAGGCCTTACTAAATTCTACCTCCTCAACACATTGCATTTATTCAAGTGATT
CTCAGACAGTGACTCTCAAGAAATGTTAGCTTCAGTGTAAGACTGTTTACAAAGCATTAGTCTTCCGGAAGGCAGCTCAGAAATTGCTGCTGCAGCTATC
TCTTCACAGAGGTTGGCTTTGTTTGTTTTTAGCTGATTGAGAGTGATAGTTGAAAACTGGCTTTACTTTTATTTTTCATGGAATTCCACACTTCTATGAA
ACAGTGAATCATTGTGTAAGCTTCTAAGATTTCCTATGAAATGTCAACAAAGATCCTTTAACTTAGAGGACTTGCCCACTGGCCTCTTCAACATATGCTG
TATTTGTCACTGTATTTGTTCAAACTAATGTGCCAGGCATCAGTGTTGCATTCCATTATTACTATGAATTTTAACAAATTGAATGTTGTTGCTCAGAAGA
CAGATGGATGTTTTGCAAATGTTCTAGGGCAAAGCAAGTCAAATGACAAATGGAATTGTTGCTATTTTTCTCTTCCTAAAAAAATGTTGCATTGTTTTCA
TGTGTTCAGGGAGAACTGAAGTGGCCTTGTTAATATTGTCAGCAGTGCACCTGTCCCCGTATCCTTTGAAACAAGAAGTGCTTCCCTGCCTCCTTGGAGA
GGGAATCACTATATTAATTGATATAGCATACTAAGGAGTTCCCTGAGCAATTTGGAGGTAAAGCTGAGGAAGGACTAAAACTCTACTTGATGTAAGAATG
GCCCCATCATGGTTTACCATGYACCCTATCCTATCCCGGGAGAGATAAACAAGAAGGGAGCTTCACAATCAAGGGTGTCTATTTGAATAGGTCTACTTTT
GGATACGCCCAATTTAAATAGTTCATCCTAGTCTAATCTCTTAACAGAAAACCATGCAGTCTTTCTCAGCAGCACCCGTCTCTATCTGAATGGCTCTAAG
CCAAATTTTTCACCTGACCCAAGCTAAATTTTAGCTGACCTTCTTTCTACTATTCTGATATGGCACATTGAAGTGTGATTTGGAGTTCTGGAAGAGTTAT
ATATTCTCTTTTGGAATGCTTTCAGAAAAGGGTTTACTCACTATGGTTCCCTGTGGAATCAGATATAAAGAATGCTTTCTATTTGCATAGCCCTTCTAAC
CTAAATATATCAAAATCAATCTTGAAAATAATTTTCCTGGTGACYGTCATCCTACACAGAAGCCACTGTTTAAGTTTCAATATTTATCTGCCAGAGTGCT
TAGAGCTCCAATTTTACAATATTTAGAGTGTCTCCCCTCCCCATCTCTCCCCTTCTTCGTTTCTACTATTCCAATCTGAAAGTGTAGCGATCGCTGTCTC
ACTCACTTGGATTTGTTCTGCCCTTTTCCTGTRGTACAAAGGACCWGCATGAATCAATTTAAATTGGTCAGAAGAAATAGCCAGCAGCCTGCTTATGTTC
AAATCCTCTGCCCTAATCACCAGTATGGAAAACCCATTGAAAAGACCTACACATAATCTTACATCCATTGCATTAAAGATGAAACTGCCGAATTGAAAAG
ATCTCAGCCAATTAGAATTGAACACATAGCTCAATAGTGTGTCTGGCAGTTAGATTTGAAAAGGCTGCCTTTGACAAAGAAAAGCACTCCTATATGTCAG
GCTGTTTAGGGTCAGAAAATAACCTAAACTAGAAACAGAACTAAAAACTTCTTATTCGTTTCAGTACTGACACCAGTTAAAGTAATATACAGAGGCTCCT
ATCACAATATCAAATTACCCAGAATACAATATTTGTATACAGCAAAGGCGCCTAATTCACAGTGACAGGAAGCTGGAGGTGGAGAATTAGTGAATAAGGG
AGCAAAAACAATAAAAATCAAGGCTCCTGTACCATGATATATACTTTGTTCATTCCTTTTGACAAGTGTAGTATTGTGTGAATTATTTGTAGTAAATGTA
CTATAGTGTATTCTCTGAAAGTAATGAAATCTTACAGTCATGAGTTTCTACAGTTTTTAGACAGTAAAAAAATAACTGAGAAATGAGGGTGGGAGAGGAG
TACAAGTAAGAAGAGATAGATTCATTAAATTATTTGATAAATTTTCACCAATAGATTATGAACTCTCAGGCTTTTTCTATATTGAATTCCTATCTATTTC
AAGTTTAGTTACTTAGTTTAGTGATACTGGTTTAGTGTGCAAGAGTGGATTGGGGTAAGGAATCCATGTGTGAATTTTTGTTTTCGTATACTGGTTATCT
TCTTACATGTTTAGCTGCTCTCTTTTAAAAAAAATAAGTAAGTAAAATAATCTCAACTGTCATTAGAATGGAAAAACCTTCATCATTGCAGGGAGATAAC
TCACAAAAATGTTTTTGAAATATAATAACGTAAGAATTCACATACTTAAAATGGATAGTAAAAGAGAACTTACATTCATTGAGTATCTTTTACAGATGCA
TATATATGTATATATAATTTAATCAAAATAACCCTTTAAATTTTTATTATCTTTGTTTTATAGATAAAGAGATTAAGACTTAGGGCTGCTAAGTCACACT
TGCCCAATCCATGCAGTTGTTGAGTAGAGAGGCAGTACCAAATAGGAGGTCTGTCTTGTTGTAGAATTCAAGCTCTTACCAACACACTGTAAAATTAGAT
CTAAGCCAAAACTCCATCCTTATTATTTAATGACCTTGTGCAAGGCCTTTAACCTCTTTCAGCATTTACCCTCAAATTCAAAATGAGGATATTAATAACC
ACTTTACAGAATTCTGACGAGGTTTAAGGATAAGATTTAAGTGCTTGGCACRTAACAGAGTCTCAATAAGAATGGCGGCAGCTCTTATTGGTAAGTGCAG
AGCAGAGATTCAATCGAATCCRCATAACTCCCAAATTTCATGGTCTTTCCTAATTTATAACATGTACAGTTAGAAATTTTAATATATTAGGATAATAGGA
ATCCGCTATAAACCCTCTGATGAAGGGCTTATATTCCTGCCAAACGCCTCTGGACAATCCCTGCATATATAAAAGTGTGTGTTGTTTTGTTATATTGGTA
TTTCTTATTTATGGCTCAAGTTATACCATTAATTTTAAGCCTCAGAACTGAAGCAAAATAAAGGAGATTTTGAAAATAACTAATCAAAATATTATGAAAG
TAATCCAAAGACATTATTCTAATGTGCGTAGTTGCATGCAAATACATAAAACAATATTTTAAAACTATAGCACAAATTTGCAAGCCTCTTTCCTACAGCA
GGGTTTTTCTCCACAGTCAAGGAGGAATGTCAAAGAATTTGTGATCATATTTTCAAACCACCATACCAACTGACTGCTTGATTTCTTTGCTTGGATATCT
GAGGACCCTGCAAAACTCAACAAGTCCAAAATTGAACTTAACATTTTTTTTTGTCCTCATGATTCTCTTTCTTGTACTATGTATCCTTTATTCAATCAGC
CATTTAATGGTATTACCATCCACTTTGTCACTTAGGTCAGAAATCTTGAATGATGCTTGATTACTTTTTCCTCCTCAACTTCTCCTCCCACCACACATCC
TATCGATTCAATCAAAAAGTCTTCTTTATTTTGCTTAATAAGTACATTTTTAATCCATCCTTTTTTCTTTTTTTTTACTATCACTATTTTAATTCAGATC
CTCATAATACTTCTTCTAATCCATTTTAATAACCTCATAACTGCCCTTTTTTGTCCTCAGCATTTTGAAATTTTCCAACTGTAGACTGAGAGATATATTC
AAGGTGCAAATAAGGCCGTATTATTCCCCAGTCTAAAACCTTTCTCTGATATACTGTCACCCATAAGAAAAAGTCTCAGCTTGATATCATAACACACAGA
GACTTTATTGTCTTGTGTACTTCTTGCCTCTTGAACCTCATATCCTCTTACTCCTGTTACATGGGCAACCCCACATGCCACAACCATCATCATATTCGCT
AGATCACCAACATTCACTCAGTGTTCACTCTTTGCCATGCTTGTTCTAAATACTTCACATATATTAACTCATCAAATCCACATAATAACCCTGTGAGGCC
GTGTCACTTCACATAATAGGGATAGTATAAAACTGCTCATTCATCCTTACATATGTCATGTTATTTCATGTTTCCAAGACTTTTACATGGCAGTCCAATC
TGCCTTTATGTCCTCTCTGTCCTCTCCATGTCACCCCATTCTTTAAATTTCTGATTGCCACTTGGTCTTCAAGACTTAGTTTATGGAAGTCTCCTAGTCT
TATTGAATATTTCTAGAAAGTCTTCCCTGACATTCCAGCCTAGCACATACATCCTTTCTTTATATTTTATTTTGTTATGTGCACATCTCTTTCTCTGTGT
TTACCACTTTATACTGAAACACTCTCTTCTCTTACSAAATTGTAAACTTCTTGAGAGCAAGCATTTGGGCCTTTAATTCATTGTCTTCCAAAAATTTGAA
TTCAGTGGATGACTCCTAATAGATATTCATGCTTGTTGAAATCAGTAAGAGAGACAGGAAGAAAATATTTTAGACAACATTCTTTTCCATGTTCTGCTAC
ATGGCATCTGGTGAGTTGATATTCTAAGAAATACTAACTGTCACTTTTCTGTTGTCTCTGTAACTATTTCTGTAAATATCATAGGTTCCTTATTAACTGC
ACAGTCCTAATATTCAAATAAACAGGCAAAATATTTTAAAATATGTTCTAAAGCTCCTCTTTCCATGCATTGGAACTGCAAAAATTTTCTTCTGGTTGGA
ATGCTTTTCTCCTACCTTTTTGCTTAATGAGTTTGTCCTCATCTTTCAAGTTGAGCTTAAAAGACAGTCTCAACTATCCTGACTCTTCCAGACTGTTGTA
AGATTCACCATTATACACATTCACATCATGTACCTTTTCTTCCTAGAGCTTGGCTAAATAAAATTTGAGTGAAATTATATTTATRTAATTTTTTCCACTA
GATAGCATTGAATATAAAAGTAAATAATATTTCTTTTTCAACCCTCTCACTCATACCTAGTATCATTCATTCGTTCAACAAAAATGTATTGCCAACCTAA
TGTGTGACAGACACTGTGCTAGGAACAGTAAAACAGATAATACCTCCCTGATCTTAGGGAGTTTGCATTTTTAACTTGAAGACACAGGCTGCAAGCAAGA
AAGCAAATAGAAAATATGGGTTAACAATAAGTACTATGAATAAAATAAGAAGGAAATGCAATGGTGAACACAAAATTCAAGGATACTATCTAAAATTGAG
TAATCATGGAAGGGGAAGGTCTCTCTGGGAAGGTGTTATTGGAGCTGGCCCCTCATAGGTGCACAATGAATATTTGAGGAAGAAAAGGAAAGAGAAAGGA
AAGCAGAATGAGAAAAAGAGAAAAAGGAAGGATAGCTAAATAATTTAGTTTGGATATAAAAATATCTTGGCAAAAGCATTCATGCCTGTGGATTCTTCTC
TTAAGGTAAAGGACCAGTGACATCCTTACTGGGGCCTGCTGATTAAGGAACAAGAATAATGGGTCAAAGGGGATGTGAGTTCCCTCTCTGTGATATAAAA
TTAGGACATCTTTCATATTTAAGTGATGAGAAGATGTAGCAAGCCAGAAATTTTTGTCGCCTCTGATCTAATAATGAACAGTGTATGGGACCAGGGTGGT
CAGGAGGAAGGTGAGCCATTGAAGGGCAATTGTCCAAAGCCACCCTCTGATTCCACTTTTCAATGCTTCTGGAAAGTGAGTTTTTAACATAATGGGAAGG
GGATATATTAAAATATTGAACAAAGCCTAATATTTATCATTACTGTGAAAGTTTSATTATTTGGGCCAGGTATAAAGTAAGGCCTAGTCTGTTCCTTTGA
TGACCTGAGCATGTGAGACATGAGGTCAATGAGAATTCCTTCTGTAACTGAGACTAAATCTCCATGTTCTCTATACAGCCGTGAACCCAAAGGGTCTCTG
AGTCACCAAATCATGGAGATCTTAGTACTGGTGTCATTTACCACTAATCTCCAGATCTAGTTCTTAAAATATTCTCAGAGCAAGAGATTAGAATCAGCTT
TCATTGTTTTTAAGTTAAAATTGTGGGGGACAGAGAGACAACCTTATAGGGAGATAAATTGTACTTCCCTTCTTGAATAATTATAAAGCATCTATTGTAT
ATATGACTATGATGTAGATATTAAACTGTCTTTGTAACAGTCTCTTGGATTGACTTGTCATCTTAAACAAAACCTAGGTTTTAAAATAACTATTAAGAAA
GTTGAAAGCAAAGAGGATTTAACAGGGGGAGAAATCACACCAAATATAAGAAGTAAAGGAACACAAATAGACAAATTAAAGGGAAAGCACTGAATTTGGA
GAATACACACAGGACTGAAAGAGTGAGGAGCAGGAAATGAAAGAGATTTCAAGCTGGGAGAAGAATCACATTTGCCAAAACCCTCAGGTGCTCCAGTGAA
TAATACTCTAAAAGTGCAGATCATCATTAGAGTTGCATTAGGCTAATAACATAGCGACCTTCTATTTTGGTAAAATGCTTGGGTGTAGATAGTAAATTCT
TAAATATAGGAAAACATTTTATTTAATTAGTGGAAGTTTGATTATCTCTGGAGGTATTCCATTAGTGTGCCTTGGTTATCTGGGTGTATCCATTATCAGG
AGTTTGGCTTAACAMGTCCATTTAGTGAGCTCCATTAAGGTTTATTTTTCTGCCTAACTCCTTGTGGCCAAGTGTCCAGGAGCTGGGCTTTAGTGGGTTT
CGGGTTTCTTTCCATGTACTTTAGTGGCTTGTCAGAGCAGTTGTAGTCATGGAAAATTTCCCATACGTGGGTGCCTTAGCCCACAGTTAGCATGAGGGGG
GAAATCAGGCAGAGATGCCTTCCAGAGCTGAGGGGGCCTCTTGGCATTTTCCTGGCAGCCTCATGCTTATCATCAGCCAGAACCCAGGCACTCATTAGGC
TCTTGATGAAAAGCATCCCAAAGAAAATGCCAGCAAATTGTGCCACTGTGCTGGCAGGAAATGAAAACTGCTCAGAGCAAGTGGAGCCAAGAGAGCTGTT
GAAATGAAAGGTAACATCAAGGGTGTGATCACTAACTCACACAGGCGCTCAGGATTCAGGATGCAACTTTCTGCTTCAYTGGGGAAAGCATGAGGCCCTC
TCATCTGTCAGCCGATGTCAATTCTATATAGGGGCTGAKATAGACTGGAAGGTGGGCTCTGTGAATTAAGCTTTGTTGTGCTTGGGTAAATGTAGGGGTT
TGGGTTGTTTTTATTCCCCCAAGAAGTGTCTCCTAGGAAAAACAGAAATAAGAAAAAGTTTTTGTTTTTGTGTTTTTCCTGGGCCCAAACACTTGAAGAC
CAAATTAAGTAAAAGGAAGATTCCAAAAGCACTATAGGTCCTATTAATGTGGGATTAGACAGTGTGAAGGGAGGAAAAAATAAATAAAAAATAAAAAAAA
ACCTTAGAATCTGTGACTCTAGCAAGGAACAGATGAGGGGTATTATTATTATTATTATTATTATTATTATTATTATTATTTTAGAGACAGGGTCTCACCC
AGGTCTAGCCCAGGCTGGAGTGCAATGGTGTGATTGTAGCTCACTACAATCTTAAACTCCTGGGTTCAAGTGATTCTCCCACCTCAGGCTACCCAGTAGC
TGGGACTACAGGCAGATGCTACCATGCCCCACTAATTTAAAAAAAAATTTTTTTTAGAAATAGGGGTCATGCTATGTTGCCCAGCCTGGTCTTCAACTCC
TGGCCTCAAACAATCCCTCCACCTCAGCCCCACAAAACACTGGGGTATGAGTCAAGACACTCAGCCAAATTTTAATTCCAAAGGAATTTTTGGTCTTTAG
TACTACTTTTATCCTGAGGTTAAAATGGCCACCAAAGCTAGAAAAGAAAATGCTCAACAGCAGGCAGCACCAACACACAAGCAAGGCACAAGCACACTGA
AATATTCATGAAACTGGATGTGGTAGGTAGAGTAATGCCCCCTCAAAGATGTTCAGTTCCTGTTCACTGGAACTGTAAGCAGGCTGCCTTACATGGGGAA
GAATCAAGGAGGTAGAGTAATGCCCCCCGCCACCCCCAAAGATGTTCAGGTCCTGTTTGTTGGAACTGTAAGTAGGCTGCCTTACATGGGGAAGAATCAA
GGTTGTTATTTAGCTGACTTTAAGAGATAGATTATCCTGGATTATCCCAGTGGGCTCATTGTAATATGGAAAAGGGGGGCAGAAGCAGAGGTCAGAGCAA
TATGATATGAGGACTAAGCCAACCATTGCTGGCTTTGAAGCAATAGGAAGGGGGCTACAAGCCAAGGAATGTGGGTGGCCTATAAAACTTGGAAAAGTCA
AGGAAACCAATTATCTCCTAAGGCCTCTAGAAAGAAATGCAGTCCTGCTGACACCTTGATTTCAGCTCAGAGAAAACCATGTTGAACTTTTGACCTCCAG
AATTATAAGATAATAAATTTGTATTGCTCAAGTCACTATGTTTGTCATAACTAGCAATAGCAGCAATAGAAAATGAATACACTGGTATTTAGAAGATTCG
TCTGAAATTCCAAAAAGGAGTTTCCAAGTTCACCTACAATTCTTGGGGCAAAAAGTAAAGTGTAAAAGCAGTGACAAGACCCAAAATGCACACTGATGTG
TTAGAACTGTAAGGCATATTACATACATCATCTTAGTTAATCTTTACAACAATCTTACAAGGGTGGATTATCGTTTCTAACCTGTAGATGACGATCTTTT
TAAAAAGTAAAACAGATCATATCCTTTAACTAATTAAAATGCTTCAGGGGCTCCCCATCTCGCCTACCCTACACGAAWATCTCATCTCCTTATCCTCACC
TGTAAAGCTCTACATCAGTCGCAGTCAAAGTGCAGATTGCTGATGAGCATCACCTGGGACCTTGTTAGAAACACAACACTCAGCCCCTACTACAGACTTT
TTCAATTGTGATCTATTGGGACAGGGCTTGGGAATCTGTTTGAACTTGCACTTCAAGTGATTCTTATACATAGTAAAAAAATTTGAGAAGCACTACTCCA
CATGAAGTACACTTGCCTACCTCTCCAACCAAATCTGATACCACTCTCATCCTTGCTTGTGTAGCCACACTGGCCTTTTTTCATTCTCTAAACATGTTAT
GTTTGCTCCCATCTTGGGACTACTACATTATCTATTCTCTCTGCCTATTAGGTGCTTCCCCTAGAAATTAGTTTGTTGGCTAATGTCCTTAAATTAGTCT
TAAGGTTTCCCTGATCGTGAGCTCRCTGCAGTCCAAAGAAAGAATGCCAATGGGACTGCCCCCCACGTTATTTCATTATAACTTATTCCTATGATTTGAG
AAAATTAGAGATCCACCAGTCATGAATAGAAAGCTGGAGATGATAAGAAAATAGACACTAGTTTTTAACTATGTAGATTTAAGTTTTGCTACCAGTTTTA
GCAATTGTAATCACAATGCTTTTTTTTTTTTTCCTCGAAGAATCTTAGCCTTGTTACCTTTGGAAAAGCTTTTCGTGTTTGTAAATACCATGATTTTTCC
ACCTCATGATCTTGAATGCACTGTTCATTTAAAGTTTTTGCGGAAGGGAAGATTTGAAAGGCAAGCAAATCTCAGCATATACTCTCTACATAAGCTAGAT
GTATGCTYAACCCATGTTAACTACAGATCCTTTGTGATGGATAAGTATTTATGCTTTTTCAATTCCTTAAATTTACCAGTTTTACAATAAGCTCTGTTGT
ATTTCACAAATCCTATGGCAACATCTTTAAGGTTGGCTGTTTTTCTCTTTTGTAAATTAGCTTCATAGATTATTTTTATAGTGAAYGCATTAAAATAGTA
TTGAAGTTTAATTTTAYTGAAAAACATTGCATTACTCAGAGGATCATTTGGCATTTTTTATCCTTCACAATCATAAGCCCCTAGTGTAACTAGTAAACAC
TAGATTGTTGGTGGTGTTATAATAGAAAAGTATTTCTCATATAGCACTTCAGGGTGGGCATTTCTGGTCAGTGGATGGCTTTCTTCCAACCCTCAGAGCT
TCAGAGCCTTCTGCATCTAGCCAGCAAATGGGAAGAGTAGAGAAGGCTCACCTGTTTCTTAAGGCACAGACCTGGAAGTTACTTCACTTTTGCTCATATT
CCCTTCATGAAAATATGTCGCAAGGCCACAGTTGGATGCAAGGTACATAGGAAAATGTCACTGGGTGGGCAGCCATTCCCAGTGACAAAATCACCCTGTG
AAAGAGGAGTACAAATATTGGCAGGCAGCCAGCTGTCTCTAAAAACCTATGTAAATTATCTTAGTGCTGCATAATACTACAATACTGAATCAAATGTACG
CTCAATCACAGCAAATACATCTCTCTTTCCTGATTACTGTATGTACTTTTTGCCCTTTTAATAGTGCCCTTATTATATATTCCCATAGTACTTAGTATTG
CCTTATTTAGAAATCCTCATCATTTTTCTGATTATTTGTTCAACTACATTGTAAGCTTCTTAAGGGTAAGACCATAGTCACTTTGTTCACTGCATCACCA
GTACCCATTCCCAGTAGAGTGCCTGACATAGTGCTTCGCATRTGGTAGTCTTAAGAAATCATTTTGAACCAAAGAATGAATGAACTAAATTTCTATTGCA
ATACATTACCTCTTATGATTTGTCCTATGTTGTAAGCTACTTCCAATAATTTTTGGATTTGAGAGTAGACTGAATAACTTAAACAAAATTTAGGACTCTT
TGTTCTTTGTATCTTTTCATAAAGGGCATGATGCCATTGTCACACTCCTGAAGCATTATAAGAGACCACAAGATGAATTGCCCTGTAATGAATATTCTCA
GCCTGGAGGAGGTACCCCTTTTCTTATTCAGTTTTCATTATTGTATAATATATTGTGCCTAAAGGTAAACCTGTGTTTCTGTTACTATCATTCTTTCAGG
GGTTAGGGAGGAGGGCATAGCCTATGTCAGATTAGATTTATTTTAAGTAACCTTATGTCTGGGAGAGGCTGAACATAAAGAAGCCTCCATTTCAGCTATT
TTCTAACTCACCAATCTGCAGCTCCTCCAAGTTTAACATTTCCCAGACTGGATGTTTATGAGGCTTGTGCATGACTAGGAAGGCCTGGATAAGCTGAGAG
CAGTCATTTTCCATTTCAGTAATCTATTACTGAATACTCATATCCAGAGACAAATTAAATCTGCTAGAGTCTGCTACAACTTGGATTTTCTAAAAAATCT
TTTTATGCACTTTCTAAATAAACACTTGCAGTACAATTTCAGTATCCAGAGAAAGATTTGGGCCTGAAGCGATAGTTTTACTTCGTTTCGTCACCTGCTT
ATTTTTATAATGTTGAACTTTTATGTAGAAAAAAATGATCGCTACTTTCAACTCTATTATATAATTTAATTTCTAGATGGCTCCTATGTGTCTGTTCCAT
CACCCTTGGGGAAGATTAAAAGCATGACAAAAGGTACCTATAATCTGGGACAATTGTTATATTTAATTACTAAGGATAACTATTGCTTCAAATGTAATTT
TCAATTTTGTTTTACATATTACAAATGATGACTATTTTACAAGCACAACAAATATTATTGACAGACCGTTCTTTTCATAATTAACCTTACCCTTTATCTC
CTTTCAGTGCATAAAGATATAATAACAGTGAAAATTTCACATAACTATTAAAGAAAAATCAAATTCTCACTGGACTGTTTAGATGTTTCTGTTTTTTATA
AAAATGAATTATAAATATTAATATTTCTTTAAGGAGAATTGGGACTAGAAAACATATGTGAAAAAATATATATTATTTTTCAAAATATCCCCAATAAGTA
ATACTTTGGGACCATTTTTGAATGTATGCTTCACACAGAAATGAATAACATTGGACCAGGAAAGTAAAAACTTTGATTCAAATGTAAATATATATTTAAC
TATTTGGAATTTAAATTCCAAATAGTTTCCTTAGAATGTAGAATGAGTGTTTCCTTAGAATGATTCATACGCTTATTTCCTGTCATTTAATTGGCATCCC
TTTGAGGTTAGTTTATGGATATTTGGCTAAGCCTATTGGAATAGACTGAAGAGAGTTACCAGATCAGAACCTTTATCATAATGTGATACGGACTGGACTC
CAGGGTTGCCATGTCATGCAGGAATAGATCAGGAATAGACCTTCAGCCCTGCTAACAAGGAGTGAGTAGATCAGGAATAGACCCTTAGCGCTGGTAACCA
GATCAGGAATAGACCCTTAGCCCTGGTAACCAGATCAGGAATAGACCCTTAGCCCTGGTAACAAGGAGTGAGTAATCAAGACATAGAACTAACATGATTT
TAATGCAGGGGGGTAGGGATCATTTGGGTTAAGGTTTTAGCATCTTTAAGTAGTCAATTACAGTTGGAAAATTAAAAATTAAATGTTATTAGGAAATTAT
GTTTTTAGTTAAATATRTATATGCACATGTATACACATCCATGTGTGTGGTTTTTACCTTAAAAAATAAAATGACAATTTCTCTTTGCAGAGAAGGCAGA
TATTCTCCTCCTAAGAGCTGGATTGCCTTCACATTTCCATCTTCAGCTCTCAGAAATTGAGTTCCATGAGATTATTGGCTCAGGTAACCTAAAATAAATA
AATAAATAAAGGTCCGGTTTAGTTGAATGAGCTTAAGTTAATATGTGTTTATTTATTTATTTTAAACAATTGTAGGTTCTTTTGGGAAAGTATATAAAGG
ACGATGCAGAAATAAAATAGTGGCTATAAAACGGTAAGCAAGCAAATGAAAAAATTTAACATCCAGGTGGAATTGTGACCTTTGAGAAGCATGTGCATGG
CMAGCCCCTTGTTTGGATCCATCTGTTTACTGAAGATTTTCTGTTGCTGCCATTTCCAGTTATCGAGCCAATACCTACTGCTCCAAGTCAGATGTGGATA
TGTTTTGCCGAGAGGTGTCCATTCTCTGCCAGCTCAATCATCCCTGCGTAATTCAGTTTGTGGGTGCTTGCTTGAATGATCCCAGCCAGTTTGCCATTGT
CACTCAATACATATCAGGGGGTTCTCTGTTCTCCCTCCTTCATGAGCAGAAGAGGTATGGGTCTTTTGTTCTGATTTATCCTTGGACATTCCGTAGAAAC
TACTCTTGCAATACTTCAGAGGGTTTCCCATTGGATGAGCCTTCACCTTTTGAAATCTGAGTGCTGCTAGCAAGTGTGTCATTTTTAATATCGCTAATAA
TTTATGCCTAATAACTGTGTTTCAATGAATAGAAATACTTTATGCTTTCTTAGCAGAAATTCAGTTGAAGATAACAAATTTAAGGAATTTAAATTGGAAA
CTGGAGCTTAAAATAATTAGGCTAAATTTGAAATACTGATAAAGAAGATATATGTAAGCTCAGAATAAAATAAACTTTTAAAAAAGTGATCTTGAACAAA
TCCAATGTGAATTCACTTTCTGAGTTTATGCATATAGTAATTAGAATGTAGTTTCATACAGTGATTAAAATAGATTTCATTTTACAATATTACAAAGAAA
TTAAGTATAGTATTATAAATAAATTATAAAACCAAGTATAATATCTTAAACAAGAGATGCTGTATATCTTAAYTGATTCATAATTAAGCATTTTCTGATG
TAGGAAAGCTATTCAGATTTGTTGAATTTCTAGCTTAACCTTCAAGAAACAAAAAATGGTTAAGATGATATAAAATAACAACTCTTACACATCATTTGCT
TTTTTGATATTCGTTTTGACCATTTCATCTCTGTTAAATCTATTTTTAAATTCTAGGATTCTTGATTTGCAGTCTAAATTAATTATTGCAGTAGATGTTG
CCAAAGGCATGGAGTACCTTCACAACCTGACACAGCCAATTATACATCGTGACTTGAACAGGTATTTTTTTCCTAAATAATGAACTCAGAAGGGTATGAC
TAACTGGGAGTTTAAGACAGATTTCAGTGAAGATACATTTTAGACTTATTGCAGATCAGGGTACTCTGTGGTTAAGAGGACAGGCTACCATAAGCTTAGG
CGATAGAAAGTTWTGTCATTGTCTTTTAAGGAGTAGAAAGCTGTATAACTGCTTCTCAGGGATCTTTTAAATCTATGAAGAATATTCACAAATATAGTAA
TATCTGTAAGATGCACCAGCTAACTAGTTCCCAGGTCAGTAAGGTCACATCAAGCAGTGAGCTAAATGGCTATTAAAAAAATGATATGTCTCCTATAAAG
TGAAGTGTTGGAGTAGCTCCTGATATAAAATTATCTGAAACGTACTTTGTGCTACCGTAAATTCAGCTTAACCACAACAGCTTATTTACCTAGTTATCAG
GTAAAGAGGATTTCATGTGAAACAAATATAAAATCAGAGTGTTCCAGTGGTGGAACCCCAAGTGACCTCAAAACTTTTCCTAAATAGTGAAAACTTTCTC
TGAGTAAAGTCTTATAGGAAAGGCCAATATACAAAATGGAGCAGTGTTGGGTGAAGGTAAAGTGGGGAGGAGAAAACTCTATTTACTTCCCATTTCCCAC
TGCTAAGGAGAGAGATTCCTGCACCACCTCTGTGGAAGCCCAAAGGTGCTGTAGAGAATAGTTGGACAAACACTGATTTAGTTTATGAAGCAAGTCAGAT
TATTCCACATCAATCACTTTCATTTTATGATAGTCAATAAGATTCAAATAGATTGTGTATATAGTCCTTTATAGAAGCTTTACAGTTCTGAAGCTAGTAA
RTATTGATTACTCTAGTCAGTCATTTGGTCAACAACTATGTTTGAACATATATGTTTAAAGWCTATTTTCAGCACAGTAGAGCTTACAAAGTGGGACGTT
CATAGACTACATTCAGGGAGTTTTCACACTCTATGTAGAGGAGAAAAATATTTACCTAAATGTATTTGAGGTATAAAATAATAAGTTATATACAAGATTT
AGTACAAAAATTTCAGGAACAAGAATATTAATTGCTTCTGAGGATTCTAACAACAACTCTATGGAAGGGATGACATATGAGCTTGGTCCTGAAAGATGGG
TAGAGTTTGGAAGAGCATCCTATAGGCTTAGGGAAGACATAATAAAATGCATAGAGATTAGAAAGTTAAAGGTATATATAGGAACTRTAGTTTCATTTTA
GTATACAAAGTGTATAAATGTATGTAATGTGTATAATGTAAGAAGTGGACAACTGGAAAAAGGTATAGAAAAATAGAAAAAGAGCACAGACACCAGTGAA
TGCTATTACTAAGGTATTTCAGATTTTTTTTCCTGTAAGGAGACCATAAAGAGGTTTGAGCTGAAAATCACAAATTTGGAGCTATATTATTGAAAGATGA
ATCCAGCATCTGGTAAAATATCAACTTGAAGGGAAAGTCAAGAAACTAGTGAGGGAGTTGTTGCAGTAATCTAGATAAGAAGTAACGAAAAGCAGAATTT
CACCGGTGGCAGTGGATATGAAAGGAAGAGACATGTCAACTTTAAATAACAAAATACAGAGTTTATTCAAGCTCAAAGCTTGAGGATCATTACCCATGAG
CATGGACTCAAGTTGTCCTGAATACATACTCCAATTAGCAGTGGTTACAAGATAGTTTTTAAGAAAAAAAAAAAAAAGCAGTTTTTAAGTTGTTTACAAA
GAATTTACATAAATAATATAAACTATTGATTGGTTGTACCTTGTTCTTTAATCAAAAATTATAGGAACATAAAGATAATGGGTAACACAGCTAGTCAGGA
ACAAAATACCTTTACACTATTGCCCCAGGGAAATGGAGATTGGAGAGATGACTAAAGTCCCATGCTCATGTCTCTCTGGGCCTGATAAATTTTGTGTTGC
TCATACAGCTCAGACTGCCCTCAGCTATTTTTCTCTTCTCAGATAGATATGAAAGATAGGAGAGATAAATCAGATACGTGAGTGGTAGAATCTTAAATAT
TGAAAGTAAATGTAAATAAGTCTCAATCTATTTATAATTATTTACTAGTTTTCACATAAAAGTCATTTCTTAATTTTTAGCTATTAGTTCTTTACCTTTC
TTAATTTCAAACCAAACATTTACGTTAACAAACATTTAACTATTTCAGACACAGATTTAGATGATAAATTAGCATAATATAAACCGATGATTTTGAGTTT
TAAGAGTATTATCTTTCCATCCCAAACATTTTTGCACATGGTATTAAAACAAATGAGTAATCATTGCAATAAGTAATCATTGCAAGTTTTCTCTAGCTGT
AACTCTTCATTTGTGGGGCCATTATATATTCTGTTGCCCTGAGTTATGTGCAAGTTGTTACCACCAGTTGTCAGGCAGGACCAAAAATATAAATGTTGAT
TAAAATAAAAACAGAACATTTACTATATAGCTGATATAAGTTTATATCTACAATTTTTGCTGCCTCTAATCTAACCTAAATGCTTAATTGCATCAAAAAG
TTTTTAAATCTTATGAAACACCATTTTGTAGGTGCCTTCATTATGACAGAGTCCCAAACTATTGTATCAATTATTTGTAGACTATTTTCTATCAATCTTT
AATCTGGTAGCAACAGCAAAACATTGTTTTTCAGATGCATGCATATGTAGCATTCTACATGGCTCAAAAGAGCCTGGGTCCTTTCCCTCAGAGAGCTTAC
TGCACTACTTGGCAAATAAGACATATGCCCAGAAAGCAACTAGAGTTCCACTTTATATAGAAAATAATTAAGGGTCAAAATGATGAAAGAGCAACTTTCA
GAGGATTTCAAGTAAGTCAAAGATGAAAGTTGAGTAGAATGCTTCTTAGCCTATGTGGAGCTAAACGTAGAGTTTGAAGAACAGGCATTAATCTTTTCTC
AGGCTTTTCACAGCATACTAACCTCTGCTTTAGCATGGTACCTAGAAAGTCTCACTCAAAGAAGTAGAGAGAAAGATGCACATCAGAGACTGGGAAACTC
ATACACTTATTTGCATTTGTATTGACATGGTGTGTTTATATTTTTATATTCCCCATTAGCCTGGGCAAGTCAGGGTTTCAGGGGCAGAGACTGCTCTCTT
CATCTCACATTTTCTGAACTAAGCATTGTGTCTTACACAGAGAAGATGTCTAATTAATATTTTTTAACTGAACCAAATTATTGTGGATTTCTATGAGTGT
CATTTCACGAAGCAATGACCTAATTGGTATAAGTATGACTACTTGTGTATAGCATCCAACTTGCCCAATAACTTTTATAATTTTAAAGGGAAAAGGATGT
TTGAGCCCACGGGATGGGGCACTTTTATATTTGAGTTTGTGGTTGTTGCAATTGTTTGAGTGAAAAAAAAGAACTCTACTTTTCCCATGGCAAGCAAAGC
CAGCTGAGGGTTTGTACCATCCAGTTCTGAAAGTTAATTTTGATCTTCAGTAAATGTCCCTTGGCATCTGCAGGGGATTGGTTCCAGGACCTCTCATGGA
TACCAAAGTCTGAGAATGCTCAAGTCCCTGGTATTAATTGCTGTAGCATTTGCATATTTCCTATGCACATCCTCTCCTGTACTTTAAATCATTGAAAGAG
TACCTATAATATCTAGTACAATGTAAATGCTCTGTAAATAGTTTTTGCACTATATTGTCTAGGGAATAATGACAAAGGAAAAAGAGTCTATACATCTTCA
GTACAGACACAATCTTTAAAAAAATTTTTTGATCCATGGTTAGTTGAATCCACAGAAGTGAAACCTATGGATTTAGAGGGCCAACTATATATACTAAGGA
AAAGTTCAAGGAAGGAGTAAGAAAGTAGTTATTTTCAATGTAAATGATGATAATGATAATACCTACCATTTATTTATCACCATATGAAAGGAGCTTTGCT
AAGTTTTTCATGCTTTCATTTAACCACGCAACTCTATGGGATAGTTGTTATTATTTCCATTTTACAGATAAGGAAACTGACTAAAGAGACTAAGTCTGTA
GTATTCTGTATCTTCTACTGTAACAACAACAACAGCAAAACCATGTGAGAAGAGAGAGATAGAAGGAGCGTACTGATGATATTGAATGGGCATCAGCAAT
ATTTATCAGCCTTACTCTCTGTACTTTAATCTTTTAAAAAGTCAATTCCTGTGACCCAAACAATTTCTCATATCATCTTATGCTTCTGTGTTCCTGCTTT
ATTTCTTCTTTCACACTCCATGTTCTGCTGGTGTGGAACAGATGTTGCATAGAAAGCATGCAGATAGGTTTTGTTTGGCCCATAGTGTTTAAATATTTTG
AAAATGTTCATAATTCAAGCAGGAATGTACCTCTCTAATTTGCTGTAGACCTCACCACCTACCAACTTATATTTGGTCTAATTTATACATTCATTTTGTG
GCATTGGAGTTTGCTAGTCATTATTTATAGCTTAAAGGATTTAAACTTTTTACTTAATACTAGAAGCTGTGTGTTTTTCTTGGAAAAGTATATTTTTCAA
ATTGTTTGACACTGAAGCAGAAACATCACTGCAAACATACATGGATCAAATACATGATATTCTCCTTCTATAAAGATATAGTATTATATGTTATATTAAC
ACTGTAAGGAATTAAATAGTGATAACCTCCATCACAAAGTGCACATGGCATTCACATGAAATATGTATATGAAATCATTTTATAAACTGTGAAGCACCAT
ACAAAATGCATTTTTTATTACTCTTAATTCCTCATTTGTTCCCTTTAATATTGGGGATGGAAAAACACTCCACAATTAAAACCACCTTTGCAAAAACTAC
AACTGAGAAAATTATGACTGAAAGATCTGACTTGACTCCACTTTGCTTCTAACCTGCAAGCTGTTCTTGTTCATTCATGGACATAGGCCAAAATAACTTT
GGGAGGAACTTGAAACTAAGACAATAATAGCCCTTTCACAAAACAAACCTCTTTCCTGCCTGGGGACTACACTACCTTCATAGGACTAACAAATTAGCCA
CAAGATTAGAAATAATGGTTTAGGAATCACATAGCTGGAGACTGAAAGATTMGAAACCTCCCCAGATTSCTTCTGGGGATAAATCACTATTGCAAAACCT
AAGATCAGTGCTTGAGATATTTTGCAGATGCTGTACAGGATGGCTCAGCTGCTACCACCCAGACTGATAAACTGGGTCATCTGGTCTCCTGGCCCCAGGA
GACTGACTCAGCATCAAGAGGACAACTTTGACACCCTATGATATCATCTCCAACCCAACCAATCAGCAGTCCCCACTTTCAGACCCCTACCCACCAAGTT
TTCCTTAAAACCCCCATCCTCAAGTTTTTGAGAAGACTGATTTGAGTAATAATAACACTCTTCTCTCCTGTACAGCTGGCTGTGCGTGAATTAAACTTTT
CTCTATTGCAATTCCCGTCTTGATAAATCAAATCTATCTAGGCACCGGGCAAGGAGAACCCACTGAAGGGTCACAACGATATTCTCATACATACAGAGGT
TTTTTTTATATGATATAACTAATTAGTTTGGGGTCTAGATCTGAGAAGGACTCACCGTTTTTGACTGTCAGCTTATTCTAGTGGGTATAAAGGAAAATAA
TGAGTGATAATTTTAAAATAGCCAACTTTCCAATGACAAATGACAGGTAATTTAAAAAGACAGAGCTGTTATGAGCTAAAAAAATCTTAATTTTGAAGAT
GACATTTAACTCAAATAGTGAAGATTTTAGGAACTGCCAAAGAAAAATATTATTGATAGAAAATTATAATAGTTGCTTTTAATTTGATATATGCATTTGC
CTCTCAGTTGAATGCAAAATATAAAATTCCTGCATGTAAAAAAAACACAACAATTAAGTAAAATAAACAAATTGTTAATTTTCTAATTTGTGTTCCTCAA
ATTCCATGTATTATAGAGTCCCTCTCCCAGCTATTTCTTTAACTTGTGACTTTTCTAATAAGTGCTTAAACAGAAAGAATTCTGCATCCATTGGCAAATA
TCATCTTCAGGAGACTTCTGAAGACCTATATGCAGACCAATTAACTGATTATATTACCATACTTATAAAAGTCCTGCAAGAGAACCCATTAAAACTCTTA
TGAAATCCTTGACAACCCTGTATCTGTGATTCTCTAGTATAAAACCAGTCATCACAAGTAGCATTTTAAATTTTATCAATTATTTTTACTCATTTGCACT
TGAAAAATGTCAATTAATTAAATAATATCAAATACTTATTGAATACATGATATGATCTAGGGTCTATGCTATSCCGTAGGGGTACAGGTGAGAAGGACAG
ATCATAACACTTTTTCCAGCAGAGCATAGAGCCTAAGGAAGCATTTACAAACTTTCCTGAAGAATCATTTGGGGGCCTTCATTAAAAAAAAAAATAAAAG
ATTCAAAGACACTGAAGGGACTGACTGATTCAGCATGTCTTACGTTGGGCCTGAGAATCTACACTTTTAAACAAGACTACCAATTAATTCTTATGACCTA
GGAGAGGAAACATTGTTCTAGTGCAGTGGTTCTCAGTTTGGCTGCACAGTATCTAAGAGAACTTTAAGAAAATCCTGATGCTGATTACATCAGAATCTCC
AGTCTTGGGGCCTACGTATCATATTTGGAGAGAGAGCACTTCAAGTTATTCCAATATCTAGGCAAAGTTGAGAATCACATTTTAGTCTGATGTCAATTAT
TCCTCTTGATCATTTGCCGTATAACTTCATTCTTCTCTGCTGCCAGAGTAAAGTGGGAATATTAGGGAATCAAGTCACAACGTAACTCCAAATGTTTTCA
AAGTAATCACCCTAAAGTCAGTCTAATTATTCATTCATTCGTACATTTGTGTATCGACTTACTCAGTAATGAATGTCAAAGACAGAGATCCACACACCCA
TGGTACCTATGGCACAGAATAGGTCCCAAGATTTGGCAGTTTCCATGGGAGTTGTACCATACAAGGCTCCTCCAGAGAAAATAACTTCTAATTTATGAAT
GACACTAGAAAATTCCCTAGAGTGTAGAATCTTCACAAGTAGCCAAAACAGATACAAAAGTTTCAATACCAGACAATTATATTGCACATGGTTTATGTAA
GTACTATATATCCATATAATACAGAATTATATGTAATAAATAGATACACATATAAAGAGAAGGATTCATATATATGTGTACATATTCTATATTAGTCTAG
GGTTTATAGCCTTGAATACCCACATGAACTGCAGTGTGCACTGCAGTTGTCTGATATTAAAACTTTTATTTCTGTTTCGGCTATCTGTGTAGATTCTACA
CTCCTGGGAACTTTCTGATATCACCCACGAATTCTAAGTAATTTGCTCCCAAGGAGCCTAGCACAGATAACACAACTCCCATGGAAACTGCTAGATCTTT
GGACCTATTCTGTGCCATGGGTACCATGGGTTTGTGGATCTCTGTCTTTTTAATTCACTAYTATATCAATGCACATATAAGTATACATATTTATATATAA
ATGCCCATATAAACAGACACATTTCCATATGTTTTCGTAATGCTTCCAGCCTTTTAAAACTAGAAGAAAGAAGTCAGCTCTACAGAGGGTGAGTTCAGGG
ATGATTTTCAAATCTCCTCAGCATGAGAAATAATCACTATCATTTGGAGTACATAGAAGAAAAGTTAATTCATAATATACAATGGATGCCTTAGGGATTA
GGGCTACCTGTAGTTCTGAAATGTTTATGTCCAAAATTGTAATCTGATTTCAGATTTTCAAGTTAAAATTTTTCTTAAAAAAGCAATCAACTGCAATCAG
ATTCAATTTTATTACTGCTTTGAGTAATGAAAAAACTAAGCTATATAATTTATTAATATTTACAATATGAAATTCAGATTAGTTAGGGTAGTTTATCTGC
TGTAACGATAGAGTCCATAACGTATAATGGTTCCAATACAATTGAAATTTGCATCTTGATTGTGTGGATGAACAAGTTGTTGAGGCGGTCCCTATCCATG
ATGTTACTCAGGACCCATCTTCAACGTGTGACTTCTAGGGGGTCAACCAAATTCAAGTGAGCACTAATGAGGCAAGAATATATAAGATGTACATGACATG
TTGTATGGGCCAGGCATTAGCATGGCACACATTTTGTTGTTGTTGTCAGTTTAATTTTATATATATATATATATATATATATATATATATATATATATAT
ATATTTCATTTCATCACCTCAGSTAATCCCCAAGGGCATTTACACAATTCATAATGACCAATGTGACTTGACAGTGACGCTGAGGGCTTGGCATTGGGTG
ATACAGTCAGCTCTGTCTTGGTGGCACCATATGAGGTCCTGGGAAATGTAGTCTAGCTGTGTGCCTAGAAGAAGAGGAAATGAGTTTTAGTGGTCAGCCA
GAAGTCTGTGCTACATTGACCCTATGTATACTGGTGATAACAGGTAATAGGTGTCTGAGTAATGGTTATAATTAAGAAGGCTGATCTGGATTTGCATGAA
TCAGTTATACAAATATAATGTTAGTTGCATACTAAATATTTTTAGTTTATTAATGTATTTTCACAATTTATGAACTAATAGCAGTAATTGGGAAATGAAT
GAAAACTACTTAATAAAGCATGCTATATATGAATTAATTTTGAAATAACTCTTCTCATTCACTTTTGTTAATTTAAAAGCATGAGAATAGCTTTGGGAGT
GTGGCAACATATGTCTATGAATCAAAATGTGGTCCAAGAAGAAAAACCTCATTATGACTATGTCCCTGAATTGAAATATGGCTCAAGAGGAAAAACATAT
AACTATATAAATATAATAGTATGAAATAGGCTATATACATTTTAAAACATTGTCATAATCTCATGCACTATATGTCAGTAAACACACATACACGCGCGCA
CACACACACACACACACTTTTTTTTCTTCAGGAGTAAACATTAAAATAAAAAGACTATGGCCACTGTATTTAGAGAACCTTGTACCACACCCAACAGAAG
GGGCTCCTTAACCACTTAGTTCTACAAATTACTCTAATCCTATTTATGAGCTGCACTCAGTTGTTGGTGTCCAGTCATAATTTCTATCCCCATTTCTGAC
ATGCTCAGTTTCCATATTATGAAGTCAGTCTGTCTGTCTGTCCTCAGCAACCTGAACCTCCAGAAGAAACAGTGAGTTCTCTCTGACTCAAGTTTCTACC
CATTATTTCCACAGAGATTCACTATCCAACTCTTCCTGGTTTTTCTCTGAGGGTAGATTCATCCCTGCCTCCTCGACTAATGCTCATAGTTTCCAGAGGG
CCAACTGTGTCCCAAACATTCTCATGACATTTCACTTTGGTTAATATTCTCCCCCCTATACTTCACTACTAGAATGTCCTTTAGTCCTGAGTTGTCCTCT
TTTTGTCTCCCTACAGAAATAGCTAAAGTTTCCTCCCAGGGCCAGTTAAAATGTTGTTCTTCTCTCATCTGCCTTCATTAGGTCTCATTTAATTTTGGCT
GCATTCACCAATTCTAAAAATAGTGCTCTTACTTAACACCCCATTAAGTAAATTCCCTTAGACACACTCCCTTTAAATGAAAACAGGTATATTTAAGTCA
GAAAAAGTCATTCGTTTTCCCCACACTATCATATTGCTTGCATAAACCTGGACAAATTTACCATCTCTTACAGTAGCTCCCATCAGAATCTTTGCCTCAT
TCAGCCCAGACAGACAAATTCCCCAATCTCACATCTTCTGTATGCCATTTGAAATGCTACACAAGACGATGTGTGTGTGCAAATAAATGTATCTGTATAA
CAGCACAGAAAGGTACTAATTTGACCAAAACTAGAAATCCTGCGATACCAACATTTACTTTTTATTTGCTATAAAAATAGTGCTACTCCACACTGGAACC
TGGCAACAGGATTTCTTATTCCAGTGCGTTCTTGTGGTTGAAGTGGTTCACTCTGCAGCCTCTTTCCTTAATACAACACTCACACGGTGCGAATGCTCAA
AGCTAGCGTGGTAACTGTACCTTCCCTGTAACAATGTCACCTTCCCGCACCCACAGACTGAGCGTGGAAGGGAGAAGCGACGCCCCTCCTGATCCTCTAA
AACCTTTCAAATGCTTTCCTGTAACTGGTGGTGAACTCACTGGCCTGCAATTTTCTGGTGTTACTGGTTTCTTACATTGCCATTTTCTATTCTTTGGGGA
TATGGCCTGAATAAAGTTGGCTTTTGAAAATGTCAACAAAAGCTTTTCTCTGTTTGGCTTCGTTTCTTCTCTGCTCTCATTTCTTGGGAGGCACTGTGAA
TGCCCTCTTGGCACCTTGTCGATTTCCTAAGCAGCTAACCTTTCAATAATGATATTAATGCTGCCGTGTGGTAATCTGTGCATTTCTCACTTGATCGTTT
TCAACCCTTGCTTGCTGAGATTGATTTGTGTTGTTGTGTTCTTAAGATTCTGGAGTTTAATTGAGTGCAAACTGACTAGGGACCCAGAAACAAAATTTCT
AGCTAATAAATGAGAAACAATCTTAATAAGTGGAAATTTGTTTCTAATTGAATTTCCAAGAGCTAGCTATACTTTGAATTTGGCCTTGAAAAAGAGATAC
AGATAATTATAAACCTTTTTAAAGTCTCATTTAATATTTTCTATTTCAAAATCCTCCCTATTTGGAAGAAAGTTTCTAAATAATGTTAATCTTCTCTGGC
TGGGACTACAGCATGGATGCCTCTGGGGATATGTGTTGATGTGGGCTATCACCCTATTGGAAGACCACAGGAGAACTAATTGACGGCATGGGCTCTGAAG
CCAGACTAAGCATGTTCACATCCCAGCTCTGCCACATTTTACCTGTGTCCTTGGTCAATTTATTTAACATATCAGTTTTCTAATTTCCAAGACGGTTATA
TTTAAATGCCTACCTTATTGGATTTAAATGAGAAAATACATTASCATTATTAGCATTATTTTTCTTCTTTATTCTTTCGAAAGAATCTTTTCACTATTAA
ATTTTCTTGCATGCCCTAGTTGCCCTCCTGAATTAAATGTTTCTAATGATCTAGCTCTCCTTTTTTATTGTATTACACAAACTTTGCTTATAATATCTCA
GATGGATAATTTCTTCTTGCCCTAAAGATCTGGGAAATAATTGGATTGTTTTACTGTAGATCTCTTTCTATAGAGAAGGTCAAGGGGATTCAAATAACAG
ATTACTGCCTTCATTAAGACCTCTCACTCCTTCTTGGTTCGAACTTGAATCAGGGATTCAGTCTGATACTCCCATTAGACAGAAGCAGATCTGGAATAGA
ATTTGATTAAAAATGTAGCTGAGGGTTAGCAAGGTTATTTGATTATCCAAGATCCTTCTCAGTGATTCTTCTTCCTAGGGCTCCTTCACAAAACTTAAAG
GTGCAATTTAAACACCATCCACTTAGACATTCAACCATTATTTATTTGGAAACATAATGGCAGAGAAGGGGAAGTATCATCAGAGGCACATTCCAGAGAC
TAAAAAATCCAAGTAAGAGAGGCTCTATTTTTGCAGAGGATGTGTATAGCACCTATGTGGTTAGGCACCTTTTCTTCTCCATACTCAAGTAGCACTCAGC
GACTCAACTCAGCAGTTGTCCTTCCGACCATAAACAACCAGGGAGGATGTTTTCAAAATTAGCATTGAGAAAGTTGTCCCTTATCCTTCCTTCAGTAGTG
AAAGAAAAGGAAGAATTCATCCTATCACACCTTTTTGATTCCCAAGAGACAATTCTCAATCGTTTTTGTCATTTCTATTCATGTTCTTACTGTGTTGCTG
TTATGTCACTTGACGTTTTTCTGCTTCAGATTTCTGATTTACAAAATGGAAATAATGATGTCCATGTCTACCTTTTCACAGAAATACCCTTGTGATTAAT
AAGGGTACCAGGACAACAGTCAATGGAGGATTTTAGAGAAAGATTCTGCAAGAGATATTTGTATACAATGTATATTAATTACATAAAGCAGGGTTACCAG
AAAGTCTTGGACTAAGATTCATTTTGTATCCAGCTGCTGCATCAGTACTATTTGCAGAATAGTCTAGATTATCTTTCTCTAACTGAAGGTGAAAGGTTTT
GTTGTTACTAAATGATGTGGGAAACAGCATAGTCCCTTTCTGAAAGATGCAGTGTTTCTTTGGCCAGCATGGAGGAAAGAGCATGCAAGCTTCACAGAAT
GATTAGAACTCTTTAATCCTGGATGGATGGTCTTTGTATCAATTATGTTTCAACCCTTGTATGTGAAGAACTGTATTCTCAGTCACTAAACCCTCATTTA
ATGGTTTTAGCAACCTACAGAAAGTTAGTGAAAAGCATGCCTGGTGCCATAGATGAAATAGTGTTAGAGCGTTGATGATGTCTGCCTTCTTTTCTTTTGG
GAGGGAAATCCCCCTTCTAAATTCTTAAAATAGAGTTGGCTTTCATTAAATCTATTCAGAGTTAAGGGTCTGGGGATCTTGAGTGACCTCTTTCTTTGGG
AATGGAGCACATTTTAATAAGCTTTTTCCTGTCCATGGTCTCTGAAAGACAGCCTCTGGCAGACCTCCTGAATTGCTGGGTTTTTTAAAGGAAAGGATTG
ATTACAGGCTTCGAATTCTTTCTCTTTCTTTAATTTCTTTTTTTTTTTCTTTTCATACAAAGAATGTGAAAGACATTCTGAGTCTTCTTCTGTTGAGATA
TGGGTGGCCTTGCAGGCAGACATTTAGCATTGAACTTTTATTAATTTTCTGTGGGTTTGACAAAGTTTCTTCTTTTTTGCTTCCTAAATATGAGTGAGGC
TAAAGAGCTGTTACTTGCCCAGCTTGTTCTTCAGCACTGTAAGTGCTAGAGAGGAAAAAAAATAGTTTTTTTGTTCTTATTTTGTTTTCTGGCTTTCTTG
GTGGAACTGCCTCTATAGCCTTCATCTGAAAAGCTTCATTTATTATAGCTCTTAATACATGCTATTCCCTCAGACACAAACATTCGCCCCTGCCTTACCT
CTCTCTTCTCTGTGCCCCTCCTCACACTTTCTCCATAAAACTTTCCTTCTAACTCCTGTCTATCCCAAATGCTTCTTGCAGGAAGCCCTCCTACACGTTC
CCACAGCACATCAGACTCTTGCTTATTTCAGGAGAGCTCTTCTCATGCTATTAAAATTGCTCATGAACTTGAGAGTGTTCCCACTACACACTAAGCTTAA
TTGGTACAGGAGCTGTGGATTTTTCACCATTTTATTCTCAGTGCTTTGTACAATGACTGGGGCCTAATAAAAATTCAATTAATATTTGTCAGATGAATGA
ATTAATAATAATCAAGRAACATAAGGATAACATATATTAATGTTCTTTATGCCAGGTATTGAACTCAATGCTTTACAGAGATCATCTAATTAAATCTTCG
TAGCTCTATATGATGACAGTTTTGAATACATAATGACAGAAAAAGGCTAAAAAGAGACTTAGCAAATCATCAAGGTGATAAAGCTGGTAAGTGACAGACT
AAGGTTATTACACACACTAGATAGTTAGGTAATCCAAAATATAGGAATGTATAGTCATTTAGCCCCACAAAACAGGARCAGTAGTCAGATAATCCAAAAT
ATAGGGATGTATAGTCATTTGGCCCCACAAAACAGGAGCAGCACTGACTGAATAGCAATGCAATGTATTTTTCAGATCACCTTACCATAGGAGCTGTACT
TTCTAGAATTCATAGCTGAAATGAGAAGGTAGTTCTCACTTAATATTGAACAATTCTGTGGCATTTAAGAGTGTGAAAGTCATTCTTTTGCTCAATTAAC
ACGCTATTCCACAAGTCACTTCTCTGGCTATTTTGTGCTGTAGATAATTATTTGCATGCTAGTCACTAAAGCCTGCCTATAAAAAACAATGAGAAAGGGA
AAGACAATCAGTTGTTTGACTGATCTGATTTTCTGTTTTACTTAGGTGAAAAGTTAGTCAAACAAACTCGTTTTGCAATGTAGCTATAGCTCAAGACTAT
CTGATGCTTTTGAAGAAAAATACAACCTCCTGAAATTTTAGTGATTTCCAGCCACTACTGACCATGTAAATTTGAACCAATACTTGCTTTTTCTAAATCA
ATTGATTTTCCTTCTCACAGGCAACATTTTATTTTCTAACCTGCAGCATTTCTATGCCTGACTGGAATATTTTTGCATTTGATTAGTGTTTTCATTTGAC
TTTCAATGAGGTCTCAAAACAGTTTGGCTTGTCACAGTCAAATTATTTAAATATTCCTCTGAAAAGAGTATGTGGGAACTAAAATCAGATTCATGTGAAC
CTGAAAAAAACAGTGGCAACGTTTCCTGAACTTGTTAAATTTTTATGTCTAAATTAATCATTTCACAATTTTCTTTCATGTTGATGTTCAGCTTCTTAAA
TATAGTGATTATTGGTTGCCTTAATGGAAAACTTTTAATTTTTAGCTGACCCAGAAGTTGGTCTCTGATAAGGATTTTTGTTATTTTTAAATATTCCTTA
TGGTTTCAACAGCACCGATATATTGTGCCTTCTACTCATATTAGTAAAACTTATTTTAATTTATCTAACCCATCCTTTTCACTTCTCAGCTACTCCTCAC
TCCTCCTAATTGATCAGAATTATCTCAATTATGGGTTCAAATATGGTCAACATTCTCTGCCTACATTCCACTTATGCCCTGTGAAAGAAAGCACACGTAA
AATAGTACATACCATATTATCCCACTTGTATATAATTTTAGAAAATGCAAACTAATCAATAGAGTTGAAAAGATTAGTGTTTTCCTAGGGCTGAGGTATA
AGAAAGGAATTGATTGCAAGAGGGACCATGAATCTTTTTGGGGTGACAGAAATATTTTTTGTATTGATTGAGATGGTGGTTTCACAGGAGTATATAACTG
TTAAAACTCATCAAATTGTAGTCTTTAAGTAGATGTAGTTCTTCCTTCTCATGTGGATACAAGTAAACTGCCTAACATGGGTGGTAAATACAAAAATGTG
AAAATCTTAGAAAGAGGTATGTAAAGTAATGTGAATTGGCACCTTTCCAATCATGAACAAAGGTATTTGTCCTTTTCAAAACCTTAAAAGGGAGAAATAA
TCATCTGCCAAATAATTTCATCAAGGATATCAAAAACAATTCCAGCTAAAGGAGAAAAATCAACATAACTGAAATGGAAGAAAAAAAGGTTTACTAAGAT
GGCATTGATGAATACAAACCTGTATCACACTGAGGTCAACATAGCTGTCTGCAAAGGTTAAGAGTTCAGTCCAAGCACCATAAACACTGACAGGAATGAA
GATGAGAGAGTGCCTTTGAGACTGTGCACTTACTTTCTATTCTTGTAGGTTCTGGTCTGATGCAAAAGATATTCAATGACAGAAACTACTCCTTAGCCAA
ATATGAAAGTGCATAAATTGGATGGCAAAGGAAAGGCCTAGAGTATTTATATATCATCTGATATGGCTTGGTTGTGTTCCCACTCAAATCTCATCTTGAA
TTATAGCTCCCATAATCCCCATGTGTCGTGGGAGGGACCCAGTGGGAGGTAATTGAATGATGGGGATTAGTCTTTCCCATGCTGTTCGCATGATAGTGAA
TAAGTTTCATAAGATCTGATGGCTTTACAAAAGGGAGTTCCACTGTACACATTCTCTTGCCTGCCACCATATAAGATGTGACTTTGCTCCTCATTTGCCT
TCCACCATGATTGTGAGGCCTCCAGCCATGTGGAACCGTGAGTCAATTAAACCTCTTTCCTTTATAAATTACCCAGTATTGTGTACGTCTTTATTAGCAG
TGTGAGAACAAACTAATACATCATCAAACAACTGGTAGATTGAAGACTTCAGACCTATTCAGTATTGAAAACTGGCAGATATAACATCTGAAAAGAAAAA
AAAAAATACCCTAAAATCATTCCATTTATTCAGAGTAATGTGTTACTAGATATGCAACACTGAAATGTGGAGCATGGGAGTGCAGCTAGAATAAGTTTTT
CCTTTTATAAAATATCATTTATGAGAAAATGCATCTATGGGATCTAATGAAATTTGATACAGTAACTCAGAAAAAATACAATAAATTAATTAATTTACAA
TCAAGTTCAAGAAAGGAAGCCATATAAATAATATAATTCATGTGTAATAAATATAAAATCAGACTTCTTCAAAATTAGAATTGTGGGGCACTTTTACATA
GTCTCAACAAGTGAAAATTATATATCAAATAACTGGTCTGTGAAAAATATTTTCTTTTGTACTCTGATCCAAGGTCAGCTTAGCCCAAATTCAGACAATT
GGGTTGGACAATTTAAAATTAGTTGACAGAAAGAAATTGGTAGTGTGAAAGTTAAAACTTCAAAATAAACATGATGAAGGTATTTGTGATAAATTAAATC
ATCCCTTGATGACTATAAATGACTCACARAAATATAGTTTACATTGATCTCATTTGGACAGTAGTTTACTTACTTTGCTAACCTTAACTGTATATTAAGG
ATATGTACTCATTGTCAAGACAAGGGAGATTTGGGAATTTCAGAGAGCCATTTGTTTACTTGTAAATGTTAAAATTTCTATAGACAGGCTACACAGTATA
TATTATCTATATTCATTCTTATTATTTGGCAAATACATTTAACAGATAGTTTTTGCTGAAAGAAAGCTGTAATTGTATAATTTCCTATGCTTACCTTTGT
TCAAATGTCTCAACAATTGAACAATACAAACAATTTATGATACWTGTTTTCTATTGTGCTTCACATTCTTTAGAATATGTTAAGGAAAAGTGTGATCTTC
TGGTATGTAAAACCTACCATGGTGAGAACAAAGAATATACTCTGGGTCAAAGAAACCAAAAAAAGCAATTAAAAAAGAAACAAGCGAATACATTTAAAAA
TTCATATTTTCAGCATTTGATTAGTGAAGTGCCATGAAAATCGTATTTTGGTCAAATGTTTGTATAATCAGCAAGAATACACAACTTTATACACAAGAAA
TTCCTGCTTTGAAGATTAAGCTTCATAGCTAGGATTTGTTTCAAAAAGAGAACCATAGGGACTTCCCAAATTGAAGCCCATGTCTCAAAAGCTGGGCTTG
GCTTGCCCAAAAAAGCTTTCGGTATCATTTCTTATAAAGGAATTTACCATGAGCTTTGGTCAACAATACAGAGATTAGGAATCAAGATGGCAGTTTTAAC
AGTAGTGGAAAAATAAAAGAGAACCTGTAACCAAAATATAGCAGAAAGACTGTGCACTTTGAAGTCGGCGGTATCGAGGCGTAATCCCAGCTCTGCCACT
TCAAAACACTGCAATGATTAACAAGTTATTTCTAAACATCAATTTTTTCATTATAAAATAGGGACAATATCTACCTCATAGTGTTTTAAAATAGCTAGCA
GTGTCTGGCACATAGTAGATATTCAATAAATGTTAGTTCTTGGTCCCTTTATCTTAAATGGTTCTAGAAATAACTTGTTTGAATGTGTGTTTATTAAGGT
ATCAACTCTCATATCTTTGTTACAAGTAAGTTTCAAATAATACCTTTAAAGAACACTTAAGGCCGGGCATGGCAGCTCACGCCTATAATCCCAGCACTTT
GGGAAGCTGAGGTGGATAGATCACATGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGCGAAACCCCATCTCTACTAGAAACACAAAGAGTAGCCAGG
TGTGGTGGCGCGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATGGCTTGAACCTGGGTGGCAGAGGTTGCAGTGAGCCAAGATTGCACC
ACTGCACTCCAGCCTGGGTGGCAGAGCAAGATTCCGTCACAAAAAAAAWAATAATAATTTTTTTCTGTCTTCCCACTCTCCTACCCAACAAATATTCTTC
CTCTTGATGGCCACAATATGCTTTGTTTACATTAATCATCTCGAGAAATAGCAAGAAACAGTGGAAAAGGAGGAGGAGGAAAATGCAGATGCAGTGACAA
TTCAAAGAAAGTAATAGTCCAAGGTCAATATTAAAAATATACCTTTTAACAGTCAAACCACAACTAATCAGTCTCCCTCTCCTCATCTCATCCACAACAT
CGGACTTCGTCTTTTCTCAGCCACCTGAGATCTGATTAGGTAGGAAGGAAACATTAGGTCACCAGAAATAATTTGTGGGTTGAAAATTGAGAATTGACAT
GATCCTACTTTTAACTTTATATTTATTTATCTTTCTGACTTATCTGAAAAATATAACAAGGAAAACGGTTCTCATATTTGAATATTTTCCTGGTATTTTA
TATTTATTTTTATTTTTTGATGCTTGAAAAATATACCATCAAACTACAGGTACAGAATCTCATACTAACCTTCCATACTGCCAGAGTAACATCTCTCAGG
AATGTCTCCCCACCTCCAGGTTTCAAATTAGGCAATAAGTAGCTGGGAAGTCCAGCACAGTACAGGAACTTCTTGCTAGGAATTCTTGTGCACCATCTGT
GACATTCATGTGCTGCCTGCAACAGGCAGCTAACACAAATATGTAACCATCCTCAAAGCACTCATGCAACTGAGAGTACTTTGTTGGATGAAGAGACCAT
GCCCCGACCTCAGTATCAGCTAACTGCAAGGGAACRGACCACAGATACAAGACTCTCTGGCAGTGTTATGGAGAGTGGCTTAGTACAGGAGCATTTGCCA
TAGGTCAGGAGGAAATTAAAATAGCACAAGCTGGAAGTAATGAGTGTTGGATCTGAGACGGAAGCCATGGGAAAGCAAAGGAATCTAAAGATTACAGATT
TATGGTAGAGGTGAAATTGACTGGATCTGGTAACTGATCCCAAGTAAGGGTGAGAAGAAGAAAAAATGGAAAGATGTCAATCAGCCTTGTTGTCAGGGTA
GATAATGATGCACACAATAAGATGCACATAAAGATGTTGAAACTGATTTCAACCATTTTGTTTGAAATGCCAGCTAAATAATCGTCTTTATAGGAAACTG
TGAAGAATATGGTAGAGGGCATTTGGAAATTTCATGAACCTTAGTATCTTTTAGAAGCTTTGTTTGATACACCTCTCCTCTTAGACCAGGTTAGGTACTG
CCTTTCTGTGTTCCTATCACACTTGTTTTCTTCCTTATCTTAACACTTATTTCCTTTTATTGGAACTTTTTAAATTCTGCCACCTCACTTAGAATGTAGG
CTGGGCAAGATAAAGGACCAGGACCATTTTGCTAACCTTAGTACCATTACACCAAGCATAGAGCCTAATAAATAGAAAGTGTTGAAAAACTGTTGAATGA
TTAACCATTCATTTAGACCCTTTAGAAGTTGGAAAGGGCTAGATGTAAATTTCAGGAAAACAAAAGGTTATAGCTGTGGGATTAAATGACTGCTTCATGT
AGAGAGTTCAATTAGAAATAGCAGTGGGGGTAAAACATTAATACAGGATTAGGAGCCATTAGGAAAAGGAGAGAGGGGTAATCATGGAGATAAGAGAAAA
GGGACAATTTTAGATAGTACAAGATGTCAAAAGTATCAGTTACCTTAAAAAATCTAGGACACTGGGAGAAGATAATGATATTAGAGGCATTTGAAAGGTG
GTGGGCAATGAATAGCACTGGCAGAGCAAAAATAAAAGGTCTCATTATTAGTCCAAAACTGGGAAGAATGAGTTTGAGAAAAATGTAGAGAGCATCTTCA
TAGCTCCTATAATCACTGGATTCTTTAATTCAGTGTTTTCCTAAAGGAAAACTCTGGAATTCTGGTCAAGTGAGATATGCCATGGAAAAAGACTCTCTGA
TGAAAGAAGTCTGGGTAAGATTGAGTATTATCTCTCACTTTTAGGGATCCTGAAAATTAATTAGACTTACCCATTAACATACAGAGAAAATCATATTTCC
TGGACTTTATTTTGAGGTACTCTGCTTTGATTGTGTAACAGCAAATTGGCTTATATTCTCTAATTATAAAAGGTACAGGAGTGAATATTGTCAGTATTTA
ACTCTGAAATGTTTCTGGTTCAGATGACTCTTTGGAAGTGATATATTCATTGAGGTCATCACAGTGCTTTGAGCAGTAGTGATAATACTGTATTTTAACG
TTTCTTTTTTATTTTACCAAGATTTATTGTGCACCTACTATCTACCAGGCACTGTGCTCAGTACTGAGGTTATAGGATTAAGTAAGATGGCAAAGGTCTC
TGCTTTCATGAAGCATACAGATTACAAGTGGGTAGGAGRGGTAGGGCAGGAGGAGMCAGATAATAATATAAATAAGCAAGGATATTTTAGATATGGTAAG
TGCTGTAAAATGTATAGATGTGAGAGTAAGTTATTAGGAATAGAGAGACTAATTTTGATTGTTGGTTATGAAAGCCTTCTCTGAGAGGGTGACATCTGAG
CTGAGATCTGAATAATCCAAAGCAGCTCCATCCTGGTAAAGATATGGGTGGGAGGTTATCCCAGAGAAATAATGAGTCAGCAAGTGAAAAATCTCTAGGT
AGGAATGAAAAAAATATATTTTTTTCCGAAAAAAAAAAAAAAAACTGTGTGACTGAAACACACTGGATAATGAAAGTGATAGAAAATAAAATAAAATAAA
ACTTTAGCAAAAGCCACAACATGTATGTCCTGTGGGCCATTTTTGAGCTGAAATCTTACTTTGAATATGATAATACACCATTGAGATGTTTAAGCAAGAG
AGAAACATGGTCTGCTTTATTTATTTGTTCATTCGACAAATATTTGGACACTAGAGATACTGCAGTTGCCAAAACAGATCCTGCCTTTATGGAGGTTATA
TTTTATTAGATTAATACTAGAATATTCTGAATGTATTAGGGAGAAAAGGGCAAAAATGAAAGCTGAGAGAGCAGTTGGGAATCTATGGTGACATTCCAAG
TGGCAGATGAAAATAGATTGGAATAGAATGGTGACAGTGGACATGGAGAGAAAGCAATGGATTTGGTGGGTTTTGTTTGTTTGTTCGTTTAGGTAGAGTG
TACTAGATACATATAGGAGATGAGGGGAAGAGAAGAAATAGGCAGACACAGGTGAGATTTTTGAGACGTTAGTTGGGAAGTAGCTTTTGGGAAATAAAAA
CCAAGAGGTCTTTTGTGGCCATTTTAAATTTGAGGTGCCTGTTAGACATTTAAGAAGAGACCTTCAGAAAGCAGTTGGAAATGCAAATCTAAGCTCAGAA
AGAGACAAATACTTAAATTATACATTTGAGAGTTTCAGCAAATGGATGTCTTTTAAAGCTATGGAGTAGATGAGATCATTTATGGAGAAAGAAAAGAGAA
GAGAAGAGGACCTAAGACAGAGGAGTGGGTGCTCTCAGAGAAGACTGAGAAGGCCTGAGAAAGGGAAAAAGGAAAGCCAGCAGCAAATGGTGCTATGGGA
GCTGAGAGGGGAGCATTTTTCAATTAGTCAGAAGTTATCACTATGCTGAATGTACATGATAATTTAAATAAGATGAGCAAAACATTCAGATGGTCCTTGA
TTTAGGATGGTACAGCTTATTATTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCAGGATCTTG
GCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTTGACTTCACAATAAGTTTATCAAGATATTAAATGCACTGTC
CACTTAGGATATTTTCCACTTATAATAAGTCTGTCRTAAGTGGTAACTGGATTGTAACTGGAGAGGGCTGTGGGTCAGGGAGGGATTTGAAGGATGGGAG
CTACTAGAGCCGGTGTCCATGATAAGGGAATAATCTGGTACAGAGGAAAAGTAGATGTTGCAAAATAGAAGGATCTAATTGTGTGAACAAAGTCCTAGCA
CTTGGCTTAGGGCCTGGCAGAGGTAGGAGCTCAGTATGAGCCTGCTGAATTACAATAAATTACTTAAACTCAGCAGGTAACAGAACTGGGATTTAACTCC
TCGTCTCTGACTCCTAGTTTAGTTCTCAAGTCACTAGACCGTGCTGTCCATAGCCCTTAGTCCAGTCTACTTCTCATCTATAAAGTCATTTCTCCCAGGT
TCCATCAGTARCCCTACTGCTTTAGATGCAGAAACCCCTGATTCAATTTCTTGCTGGAATGGATTTCTCACAAATAAGGATAATCCTCCATTTCATGTTT
ACTCACTTGGTTGACTTCCTGTTTTCCACACTCTTCCCACAACAGGCTTTGCAGTTTTTATTTTCTGAGACATTCCAATAAATGAGAGTTGGTATTGTGA
CCGAGTACCTCCCGAAATGCATAATTTTTCCCCTTTATCATTTTTGAAACGAATGAATGAATTGCAAAGGAGCTACATTAATGAGATGTTTAATTTGAGG
TTTTAATTTTGCAAATGTTGGGAAGCATAATTAAGGTTCAGGCAGTATCATAAGTGTCTTCAGGAATACAAAATAACTGTTTTTGCATCTAGAGTTTCTG
GGAACATTTTCTGCCTAAACACAAGCCACTTATAGCTGTTTTCCTGTGTTCTAAAAGCACCCCAGGCACTGTGAAGACACAGAACATGTGGTACTCATAG
AGGTRGCAAATAATCAGCATGGCTGTCATTGTGACGATTAGCAGAAAGCAGTGTGCTGAGAGGAGTGAAGGTATAGGTGAAAGGCAGCRGGCACTGGCTT
ATATTTATTTTATTCTCATAATTGCAGGGCAGTTTTCTTCAATTTTATTCTATATGCTATCTCAGATMATTAAAGCAGTGGAGAAGGACAGGAATATTGA
GTTAGTTAGGGATATAGATAGGATGGAAAAGCATTCTGGACAAAAAAAAATGAGCATAGAAAGGATTTGAAAACTTAAGAAACAAATTATTCTCAAGCAT
TTTCTTTGTATCAGCATACCATATAATTTAAAAAAAAGGAGAAAGAAAAATTTATATGGGCCTGGAACATCTATCAAAAGAACGTGAGCTTACTTTATGG
GGTGGAGAAAGGGCTACTTGTGTTCAAGCACCTGAAATCACTGTTTCTTTAACAGACCACAAAAGGACTAGAAATAGAAATTAATTTTCCAGGCAATTTC
TATCTCTTGTGCTATGTCTAAACACACAAGCCAGTTTGAACAAAAAATAAGGTGGATCAAGTAACAAATATTTACAAAATTGCTATTTTGACTTTTTTTG
GAATAGTATTATACAGCAGCAGTACCCAAACTTTTTGGCACCAGGGAGCAGTTTTGTGGAAGACAATTTTTCCACAGAAGGTGGGGAAGTGGGGGATGGG
GGCCCTGAGGGGAGGCAAGGCCAGGAGGGGAATAGTTTCAGGATGAAACTATTTCACCTCAGATCATTGATCATTAGAGATTTGCTCATAAGGATCACAC
AACCTAGATCCCTTGCATGCATAGTTCACAATAGGGTTTGTGCTCCTATGAGAATCTAATGACCCTGCTGATCTGACAGGAGGCGGAGCTCAGGTGGTAA
TACTGACCTGCTTGCCACTCATCTCCTGCTGTGCAGCCCAGTTTCTAACAGGCCACAGGTTGGGACCCCTGTCATACAGCCATGGGATAAAAATAGTGAA
ACTCTATTGATTTATTGGACTTGTATTAGGGTAAACCGTATGAAACTGCCTTTGGTCAAATATTGATCAAAATGGTTGCAAATCAACAATATTATCTGGT
TCAAGGTAATGCTATCTTTAAGCTAATGGGAAAACCTCCTCTTATGATCAAAATCAATTAATATGCATTTATTCCATATTCAGGACTGCACCAGATGTTT
CAAATCAGTGGTTAGAAAGCTTTTAGGTGTTGCAATCTCTTTTAGTATTAAAAATTAGGAAGACCTCAAGGAATGCTGTTGAATTTTTAGAGTCTGTCTC
TTTTAGAGCGTGCTTAACCATGCTTCCCTAAAGTGAATAACTCTTATAAATAATTTTTATATTTTATTTACTATATGAAGGAAATAATGTATACAGTGGT
CCATTTCCAAGACAAAGTGCCTTGAATAGGCTTAAGTCAGCAAACTACAGAAGAAACAGGATATACTAGGCCCCTGCTGGATAGCTGATGCCTGCTTGTC
ARCAACCCCCTTTCCCCCATTAGCTGCCCTCACCCAAACCAAAGAAGTTTAGTCTAAGATGAAAGTTTACTAGCCTGCAAAATAGCTCACTTTTGTCTGT
TCTATTCAGCCTGCCCAGCTATTTAGGTCGTAAGTCAAATACTTGAAAAGCCTCTGAGCTAAATAGGATTGCAATGTATTGTGGGCTGCAACAAAATGCA
GCAGGACAACCCTAAAGAAAACACTTAGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCATGAGGTCAGG
AGATCCAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAACAATTAGCCAGGCATGGTGGCGGGCACCTGTAGTCCCAGCTACT
CGGGAGGCTGAGGCAGGAGAATAGCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGAC
TCCATCTCAAAAAAAAAAAAAAGAGAAAACACTTAAAGCCCCTACACAACAACTGATAGGTGACATCCGGGAAGACTGTGACCCCCATAGTACCCAGCCT
ATGAGGAACCAGGGACTACTACAAGCAATTTAGGGGATAAATTGCTTGTTGTAACCATGCTGGGGGTGCCTGAGCATCAGACACCTGATCTTGCAAGACC
ATCATTAAAAGTCTCACTTTCAGTGTTCTCAAGGTCTCTGAGTCCCTTCTTTGGGTTTGGACAGGTGAGTTTATTTCTCAGGACCTGGTGGCCTATATGG
GGAACTCTGTGCCTGCATGGAGTGGGACTCCAGCCGAGAGGGGAGATGCATCCCACCTGATTTAGGTGGCCTGCTCTGCCCAAGTGTCTTGTCTCCCTGC
AGAACCCATAGACAAACCTGAGACTGTTATTCAGGAGATGATGAAAGTGACACAGGGAGAAAAGCTGGCACCCCAGCAACTGGGCAACCTCGTGTTTGAG
CCAAGGTAGGAAAACTGGACTATGTGTACTGCCTTGGTGGTTCAGCATTTTCAGAGGTTGAGTGTGTGTGACTGAGATGTATCTAAGATACGAAGCGAGT
GCAGAGTCCCAATCCGTGGTTATGTCCTCCCACAAGGGAAACAGCTGGAGACAGATGAAGTGATTCTCAGGGCATGCAGGAAACCTCCAGTGCGGGGGCT
GAGTACACAGGGAAAAGCTCAGACACAGAGACTAACTGAAAATGTGAAATAAGAATTCTAGGCCTAGGGAACAGAGGAAAGAGGGAACTGAAGAGACTCC
CTCTGAAATTCCCCCAGAGGGAAAAGCAGAAGATGATAAAATATTGCTGTTTTATCTGGCCCAAAGAGCCCATTCATCAGCCTTTGGGCTCTTGGCCTAA
GTTTGGCTCAGATGAGGATTGAGTGTGCCAAGCTTTAATTCTTTATGTGAATAATAAAACCCCATCCTCACAAGAGGAGATGGGTTATGCTCTTTGTTGG
ATTAGTGAATTAACCCTCATGCTCCCCCTTAAAGAGGAAGAAAAAGAGCGTAATAAATAGCCTTCTCTCAATGAAAAGCTCTGGGATCCCCTAACATGCT
TGCCCCATCTCAAACATCTCACAAAGTAGAGGACAGGGAGATCAGAGGGCAGCAGGAAGGCCAGAGTAAGAGTAATCTGGGGGTCATGAAGGAGCTAAAC
CCAATGCTCCTTTAAACCCTTATCCAAACTTGAGGAAAGAATTAGAAAAATGTAAGAGAGACATTGAGAATTTCCCCGTTCCTTCTAAACAGCAGATGTC
TAACAGGTACCCTCTTAGAGAAGTCCCTGTGGGACAGGGAGAAGTTGGATTTGTGAGTGCACTTCTAAAAAGTACTGAGGTTAGGAATTTTAAAAAGAGA
ATGAGGCCACTCTTGGAAGATCACCTCGGTTTATCAGAGCAGCTAGATTAATTGTTAGGACCCAATTTTTATACTTGGGCTGAGATAATGTCAATCATGA
ATATTCTGTTTACTGGGGAAGAGGGGAATGATTAGAAGGACAGCCATGACCATTTGGGAGAGACAGCATCCGCCCGGGCAAGGAGTCCTGCCAGCTGAGC
AGAAATTCCCAAATGCACATCCCGGATGGGATAATAATGACCCCAGGAAATGGGTTCAAATACAAGTCCTTAGGGAGCTAATAATTAGAGGGATTAGAGT
CCACTCCTAGGGCACAGAATGTCCCAAAAGCATTTGAGAACCAACAAGAAAAAGAGGAGATTCCTCCTGCTTCTGCAGAGGCTCAGGGATCAAATGAGAA
AATATTCAGGATTAGATCCAGAGGACCCAGTAGGGCAAGGCCTCTTAGAGGTTAATTTTGTGACTAAAAGCTAGCCTGATATTACTAAGAAGCTGCAAAA
GACTGATGGATGGAATGAGAAAACGATTGAGGAATTACTGAGGGAAGCTCAGAAGGTTTTTGTAAGGAGAGAAAGTGTTAAGCTGCTGACCCTGAAGGCA
GGGGAAAGCCAGCCATGCAGCTGTGTGTGGGAGCTGACTGCTGAAAGTTGTTGATGAAAGCTGCTGCTGAAATGACACGGGGGAGCCAGGGCACACCACA
GCTCGGCTCAGGCACAGAGAGAGAAAGAGGAAGAAACCGAGTATGAGGGAGAAAGGAAACATGATGACAGAGAGAGAGACAGAAGAAGAAAATGAGTGAG
AGAAAGACTGAAAAAGACAGAAATTAAAGAGATACACAGAAGGTGAGACTGGAGAGAGAGAGATAATGTAAAAGGAAGAGTACAAGAGGAAGAAAGAGAA
AGAGAGAGAATGGCAATAAATGACAGGAGGCAAAGAGACAAAAGTACAAGTAAGCAGTAGCTGCCACGGCCCTGCTCGTAGAGGAGAGTAGAAAGCTGAC
CTTCATCAGGGCCCTGGTAGTGAGCACCCTACGTTAGGTCAGGAATATATTAAATCAAAGAGCTGGAAGATGCTTGACTGGTTCCCAAATTTTAAAATAT
GAAGCCATATTATTATAAAAAGATAATTTGTCTTAACAATAGATACTTGCTTGAATTCAGCCAGTTTCTTATGAAAAGGAGAGGAAAATGAGGAGGCATC
AAACCATAACTGTTTAGATATCAGAGTGTCAAACTCACCTTAGAGCAAACCTTAAAGAAACTCCACTACATGATGGGATGAGTCTGTTTGTGGATGGGTC
ATCCCAAGTGATATGCAGCATATCATATGTTATGATAGCATAACACAATGGCTATGCTGTCATTGATGGAAACAAACAATCTTTATGTGAAAAAGGTAGA
TTACCCAATAACTAGTCAGACCAAACCTCTGAATTATRTAGGCCCTAAAGCTCCTAGAAGGCCAAGAAGGCGCTATATATAGTGATTCCAAATATTCCCT
ATGGAGTGCTACACACCTTTGGAAAGATCTGGACAGAGCAGGGCCTAATAAATAGCAGGGGGAAAAAATTAATACATGGAGAACTGGTTAAAAACGTTTT
AGAAAGCCTCCTGCTTCCAGCAGAGGTAACCACAGTTCATRTAAATGGCCATCAGAAAGGAAACACTATAGATGCTGTAGGAAACAGGTGTGGGGATAAA
GCTGCTAAGCAAGCCTCCCTGGAGGAAGAAGTTAAACTGTTTAGCCTAATCCCAGATATTCCTAGGATGGTATTCAGACCCTAATTTTCTAAAAAGGAGG
AAGAGCTGAGCAAGATACAGGCCACCCAAACTGAGGATGGGAGGTGGATGCTCCTTGATGGAAGAGAAGTAAGCAAACCCATAATGAGAGAACTGATGTC
CAAACTGCATAGGAGAAGTTATTGGGGTCCCCAGGCCACGTGTGATGCAATACCAAGAATTATGTGTGTATAGGGATTTATACCCTTGCTAAATAAGTGT
GTGGGGGTTGTGCGACCTGCCAGACGATAAACAAAAAGGTAGTTAGAAAACAGACTACCAGAGGGAGACCTCTTGGGTTAAGGCCATTTCAAAGCATTCA
AGTAGATTTTACAGAAATGCCCAAAATAGGGAGACTAAAGTATCTACTGGTAATGGTAGACCACCTCTCAGGCTGGGTGGAGGCCTTCCCCCTCCCAACT
GCCACTGCCGGGAATGTGGTCAAAATAATTTTAGAACAAATTATACCCAGATTTGGCCTGATAGAAAATATTGATTCAGACGATGGGAGCCACTTTATCT
TGAGGGTGCTAAGAGGAATTATGGAAGGTATACATATTAGATGGGATTACCACACCCCTTGTTATCTCCCCTCTTCTGGAAAGGTCAAGAAAATGAATCA
AACTCTCAAAAAGCATACTACTAAACTAATCTTAGAAACTAAAGGCTGAGTATGGTGGCTCACCCCTGTAATCCCAGCACTTTAGGAGGCCAAGGCGGGT
GGATCAAACTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTTGAAACCCCATCTCTACTGAAAATACAAAAATTAGCCAGGCATGGTGGCGGGCGCCTG
TAATCCCAGCTACTCAGGAGTCTTAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGACGTTGCAGTGAGCCGCCCAGATCATGCCATTGCACTCGAGCCT
GGGCAACAAGAGCAAAACCCATTAAAAAAAAAAAAAAAAAAAAAAACACCCAAAAGCAAAACTAAAATGCCTTGGACCAAATGTCTCCCAATAGCACTCC
TTAGGATTAGGACAACCCCAAGGAAAGACTTGGAATTTTCCCCTTACAAGTTATTATGTGAACTCCCGTATTTAGGTAGGACTACTGACCTTCCTAGTGT
GGAAACCAAAGACCAATTTTTAAGAAATTATATACTGGACCTATCCTCCACACTGTCATTCCTTAGGTTGAAAGGACTTCTGACTCAAACCCCACCTCTT
GAGTTCATGGTTCACCACTTTCAGCCTGGTGACTCAGTGTTAATTAAGACTCAAAAAGAAGACAAGCTCCACCCATGCTGGGAAGGTCCCTTTCAAGTGC
TCCTGATCACTGAGACAGCCTTATGAACAGCTGGGTGGGGCCGGGGGGCGGGCGGTGGACACATTACACTCGAGTCAAGAKACTGGTAAAAGAATCCCCA
GATGGAAGGGAAAAGGATGAATGGGAAGTGTATAGATCACCTAAGGAACCCTTAAAGCTAACCCTAAGGAAAACCCAGAAGGAAGCTATGGGCAGGCTCT
GTTATTGGGGGTGGATGTGGTTAGGATTAATTCTACTACCAAGAGTGAGAGGGTTCACAATTATTGGATGGAGCACAATAGAAAAAGAATATCCAATCAA
ACTAATAGTCAACATAACTAGAACCTTCACCCCTCAGACCATAAAATTTGATGTCTACCAAGTCTTACATTGTGGGAATTTAGGGAACCAAAGGCAGATG
TCACAAGCAAACAAATATCTATGTCCTGAAACAGGTCGCTATTGGGGAAAGCCCTGTGCTGGCTGGAATGAGGTCTAGTGGACCACCCAGTTTTGAGGCT
GGGTGAGCCATTCTTCCAAAAACAAACCCTTAAAGAATAAAATACATTTGTATAAGGGCCCTATGCCACCTAACTGTAGAAATTTATAATGCAATCCTAT
ATTAATTACCATAAACAATCCAGCTACTCTAGACCAGGAACCTTGGAGGTATGGATTAGGAATAGACATCTGAGGAAGGGATCCCATGGGATGGTTAGCT
TTTAGGCTAGTCACCAACTCCACCCAAACCCACCTAGGATTACTATAACTACCGATCCCACTACTTCCTTTAATCCACCATACAATGACCCTAAGAGAGT
AGAAATAATTAAGGTAACTGACTTGAGGCTGACTTTACAAATTTAGACTGGATATGGGGATGTAAATACCTAGGTTGAATGGTCCAAATTTTCGGTACTA
GCTCTTAATGAGAGCAACTGTTATGCATGATCTCCTGGGCGGCCTGAGGCACAGGTGGTTCCATTTCYCCTAGGATAGTATATCAATCGCAACCAAATGC
ACTGCATGTTGGCTCTATACTAGGACAGGGATGCATGGGGAAATGAGACTTGCAAAAGTCTATCATTGCTCTTTCCCACCTTGCAGAAATCAGACCCTAC
AGCAATTCCCTCCTTCTCCATAGGAAATATGAACCACTCCTCTTGCTTCTCTAGGGAGGGGGCAGAGTTCAATAAGCTCATGAGAGAACTCTCAACTTAT
ACCCACATCCTAAACATTACTGGTGAGTCAAACAAAGGCAACTACTTGACTCTTCATGTACCCCAGGCTGATGTCTGGTGGTATTGTGGAAAGAGGAACC
TCCATGAGCTACTACCATTCAATTGGACTGGGATTTGTGCCTTAGTTCAATTGGCCATTCCATTCACCCTGGCATTCCATAAGATTCCTGAGAATCCACA
TGGCCACCAAATAATTTTAAGTCTAAGAGAAAGTTGACCTTGGTAGTACTTGGAAAAGGGATGTCAAGAATATTGGAAAGTTTTAAAGTCTTTAATTCAA
TATTCACTTTCTTACTTTTCAAAGTTGACAATGAGCCTAATACTAAAGGCAATTTTTAGGTAGTTGTTCTGTACTGGCAAAGGCATTAAGTAAGTGAGGG
TAGCCTCTATACCTATAGAAAAGCTTTCGTAGAAACATAGATATCTTCCTATAAATCATTCAAGCCCATATGTGTGCATGCATATGACACATCAAATGCC
ATATATGGTTGATTTTCTAGGTCATGCAATTCTGGTACTTTGTACAGTTCTTTGCAATGTTCTAAAGCTTTTTTTAATGCATTCACAGTGGGAAGAAAAA
TGTTTTTCAAACTTTTTATTTATTGGTTTCAATACTTTACTGTATAATTCAGACCATTGTTATTTACAAGTGGTATTGAATCTTTAATAACACTATCAGT
GAGAAGGCATGTACCTGTCTGCATTTTGTAACAAAAAAGAAAATATATAAATAGCTTGCCATTGTTTGGTAAATTCTACTGTTCAGTTATTGGGAAGCTA
AATAATCCATACTCCATTTGAACAAGTTAGAAAAGAATATTTAATGAGCTACAGAGGGAAGTACTTTTAGAGTACTAAACATTTTCACAAATGTTGCTGG
AGAGGCAATTGCTCAAATATAATTCTCCCATTAGGAGGTTAAGAGAGATAATAACAGCTTAACACAGAGAAAATAACAGAAGAAATAAGATGTCAAATAT
GATCAGATTCGTCTTTGCCATGTAAATTCAAACCATAAAATTGCTATGTAATTAATTCAAATCTCTTCTTATTTTATGTTTCAATATTTAATTCTTCAAG
CAAAGGTCTGCCATTACCTCTAGGATCTGGATCACCCATAGTATTTGCATCTGGAGGGGAGCTCATTACTTTAACAGGGAAGAATGCAATTTCAGGTGTA
TGCTTACTTCTGCCATCCTAAAAGGTATTGATGGAAATGATACAAAGTTAAATTTTATATATATATATTTTGAATATTGAATAATAAACTTAAGTTGGAA
TAATCTGGTTCTCATCCTTTAGAGTTTTTTAGTTTATTTCTTCATTTTATAATAGCTAAATTTTGTTCCACCATAAAGAATTATCCAAGTGTAGACAGAC
AAAAACACAACGGGGTCAAGTGATCTGACTTCTTGAATCAACTCTTGCAGTAATTATGTGACTTTTGAAAAGGATGGAATGGGGCGGTAGTAAGAAGTTA
TTTCAGTAGACAACCCAGGAAGCCTAATGCCTGCTTTCATGGTGATTATACTGCTCTTCTTTTACAAGTTCCTCAGGAATAGTTATGTAGAGAGAACTAT
GACAAAGCAAGGAATAGTAAGATATTATTAGCTGTGGATCTACCTCCAAAACCCACTGAAAAAAATGTGTTTCTGGTTTGGACCATTTGGAGAAAACTCA
TTTTTCTCCTATTCTGGAATTACACGGAAGTCTTGAACCATGGCAAGTTGAATCAAAACTCGAATGTGTAATTATTACCCCTTCCCCAATACTGATATGT
GATTCCATGGATTAGACTTGCCTATTTTTAACTCTATATATGTAGATTCATAGACAATTTTCATATCTGGTTTATTTTGTTAAACTTTTTTGGTAGAGTC
TTCAATTTTAACATTTTAACCCACTTCTGAACTATTCAGGTTGCTGGCAGAAACAGTTCTTGTGGTTGTAGGACTGAAGTCCCTGTTTCCCTTCTGGCTA
TCAGCTGGAGGCTTCCCTTATCTTCTAGAGTAAGCTTGTCCACCCCACAGCCCACAGGCTACATGTGGCCCAGGACAGCTTTGCTTTGAATGTGGCCTAA
CACAAATGTGTAAACTTTCTTAAAACATTATGAGTTTTTATTTTTTTTTAGCTCATCAGCTATCATTAGTGTTAGTGTATTTTATGTGTGGCCCAAGACA
ATTCTTCTTCCAATGGAATTTTAACAACTCTGTAGTATTCCACTCATATTCATAATATGAAATTCCATCATTATTTTTTCATTCTAATGATGATAGATAT
TTAAACTATTTCTGTAATAAGAATATGCTACTCTCAGCATTTTTTACATGTCTCTTGGTGTGTTCTATCTATGTGCTTCTGGGTATTTTATTTAGGAATG
CAATAGGAAGATTTCCAAAGAGAAAAAGTGACCCATAATTCTGGAGTCACATCTCCTGGTTTCATTCTCATTCTGGATCATAGCCCCTTAATTCTTCACT
GTATTTAGCTGTTTTYGAACCTTCAAAAAATATTTTATACAGTTCCTCTCAGAAGTAGTTTTCATCTGTTATTATCAATAGTAAAAATCTCACGGTACAT
CCTCTTTAAGTGATTTTAACTTATAAACATCAAGCTTGAGGTTCATAAAATAGAGTTATATTTTGTTCCAAATTTTCTAGTTCTGAAGTAACATTTGTTC
TCTCCCGTGTTACTGCCAAACTTTCAGTATGTCAATACTAATTAAATTAGACATCRTTGAACATAAAGTGGGGTTCAATAGACATTTGATTTATTATTAT
TGTCTACTATTAACATTAGATTCAAACCCATAACAAGTWATCAGAGGGGCAAAAACAATACTATACTGGCTGTAGCTACCAAAATATATACATGAAAAAT
GAAAATGAACCAGTGGCTTTGTTTACATAAGCTAAATATTTGTATTTGGGGACACACCTAGATAATTGACTGAAGTTTCATTCTTATATGAATCTTTGGC
ATCATGTATGCAAACTCATGGAACTTCTGCTCCTTGTTAAGAATTCTTGTACATAGTTAATGAGAAACATAGTTGAAAGACTTGGCTGAAGTCCATGCTA
ATCACATTACCATGGATAATGAAGAGAGAGCTGAGTATTTGTTTTTAAATTTTACTTCTTATGCTTCATTTTGCCTGCATCCTGTTCTTATTACCACCAT
TWGAGTAAATAATTGAAATTTCTTCGGTCCTTTTTATGTGTTGTCTATTTAGTAATGTGTGTTAGTTAAGAACCTGGACCCCACTGCCCACCCCAATGTC
CTTTAATTTGAGCTGGATTGACTACTTCATACATAAAAAGTCAGGAGATTTGGATATAGATTGTAAGAAGAAAATGCCTCTCACCTAAGAACAAGAGGTA
ATGTGTATCTGAGTCACCTAGAAAGCTTTCATTAAATATGAATTATTACATCCATCCTTTTCATCACCACCAAGGGTAAATCAGAATTTATATCTTCCCC
ATCCCCAAACCTATCAAGACCCACAACCTTAGGAAATATTGGCTCAATATTGCTGTATGAGTTGTTTTTTGTTTCTCTATCTATTGCTCTATCCCTTCTA
TCTCTTCTTGCCCGTTTAATTTCATCAGGTTTGACAGCTTAACTTTTCATACCCAGTTTCTCTTAACTTGTCTCCTTCCTCCCAAGAACTTGATATCTTA
AATATTTGACTGTGCTTGCTAAAATCTAAGTCACCCGTCTAATTCTCTTGGCCTATGACAGTAGTTCTCACACTTCAGCATACATCAGAATCATCTGGAC
AGATTGTTAAAGCACTGATTTCTGGACTTCACTCCTGAGTTTCTGATTCAGTACGTATTAGTTGGGGCCAAAATAYTGTATTGCTAACAAGTTCCCAGGT
GAGACTAATGCTGCTGATTTGGGAACCACACTTTGAGAACCTCTGGCCTATGCTGATCTCCCAGACTATGGACTCATTTTACCTAATTTCACTTCTCTAT
GCTTCATCCTCTTTATGAATCTCCTATAATTGTGGCTCTGATTCTTATTTATGTTTATAGACCACTATAATCCTGCTAAGTAAACTCCTGGTTATGATTC
CGCTTCTCCTAGCCCTAAGGGGCAACCAGAGCTCTGTTAACTGATTTGATGATTGGTTGCTTCATTTATTCATATTAATTTCATCATTCAACACATATTA
CTTAATGCCTAGTATGTGGCAGTCGTTGACTATATAAGATTTAAAAATATTATTTTTAAGAAGTTTACAGTTTAAAAAAAGAAAGACCATTGAGTGAACT
GACAATGTCAACAAAATCAGTGTTTTATGACAGTGTTAAGCATTGGCATCTACAGAAACACAGAGATGAGAGCTCTAACCCTGCCTGGAAGATAGTACTG
AAGGCTTCTAGAAAGAGATGGTGGCTAAGTTTAGCTCTTAGGTGCCAGTTGGATTATTCAGGTGATGAGTAAAGACAAGGCATTAGAGACGGGGGAGCAT
ATACAAAAAGTTGTGGAGAGCTTAGGTATCTCAGTGTGATTGATCAAAGAATATAGATATGAGTCTAAAAAAACCATGAGGCTGAAGTATGTGCCAAAAT
ACGCAGGGTGGTTTAAACYAAGCAAATGAGTTTTGGAACTATGAGGAGTCATTAATTTTAAGCAGGTAAATAATATGACCCTCTTTACATTTTTAGAATT
GAAAAGTGGTAAATAAACTAGTCTTAGGTGATAAGCAATGATCTAAGTGAATGATAATGAGAATAAACCAAAGTAGTGAAAACTGATATGCGGAGAACTA
GAGAGGTTTTTAAAACTGTTTACAAAATAGCACTTAAAAGACTTCATGACACAGAGAAAAGCACCAAGGATTATCTCACTGTCTTTATGACAGAACCAAC
TGGCACATCAGGAGGAAAGATTAAAGAGGCTAGTTAGATGGGGGAAAAAATGAGGATTAGAGAAAATGTTCTAGAAATAGAAAGAAATAAACATGATTTC
CTATGATCAACTACTGGGCTCCCTGTAAACAGCTTTTAGTGATGTTAGAATAAGCCAACTGAGGTGTTATTATTCTCTTGTGATTTTCAAAAAGTCGGTT
GAATACTAATCTGAAACTTTTACATGTGAACATTGGACTTTTGCTTACTATAAGCATGTTCACATTTAGTTATATTCACGTATTAGGTTTTCCTTGCTGG
TATAACAAATAACCACAAATTTAGTGCATTAAAGCAACATACATTTATCATCTCACAGCTCTATAGGTTAAAAAGCCTGGGCTAATTTATTTGCTCTGGG
TTTTACAAGGCCAAAATTGAGAGATGGGTCAGTTGATCTCCTATTGGGAGGCTCTTGCTGGAAAGAACCCACTTCTGAACTATTCAGGTTGTTGGCAGAA
ACAGTTCTTGTGGTTGTAGGACTGAAGTCCCTGTTTCCTTTCTGGCTATCAGCTGAAGGCTTTCCTTATCCTCTAGAGTAAGCTTGTCCACCCCACAGCC
CACAGGCTGTGTGTGGCTCAGAATGGCTTTGAATGTGGCCCAACAAAAATGTGTAAACTTTCTTAAAACATTACGAGTTTTTTGTTATTTTTTGTTGTTG
TTAGCTCATCAGCTATCATTAGTGTTAGTGTATTTTATATGTGGCCCAAGACAATTCTTCTTCCAGTGTGGCCCAGGGAAGCCAAAAAATTGGGCACCCC
TGCTCTAGAGGTTGCAATCCTTGCATGTGGGCCCCTGCATTTTACAGTCAACAAGACATTTTGAATCTGTCTCACACTTTAAATCTCCCTAACATACTTT
ACTGTGTCTCTTCTGCCTTCAGCTCCAGAAAGTTCTATGTTTTTAAGGCCTCTGGTGATTAGATTGGGACTACCATGATATTTCACAATAATCTCCTTAT
TTTAAGGCCTGTAACCTGAGTTACCTATGCAAAGTTATTTTTGCCATGTACAGTTTAACACATTTATAGGTTCTAGGGATTACAGTGTACACATCTTTGA
GTGGCCATCCTGCCTACCACAGTTCCTATTAAGGCTTTACATCTACTAAGAAAACAGAAACCACAGTCAAGTGTGAATGGCCTATGCCATTTACTATTAT
CACTGCAGAATGTCTCCGCTGCTGTTCCAAAATGACATAAAGAACCTCCAGAAATGTCCTACATCAAGCAAATGATTTAAAGATGTGCTCTTTGCCTCGT
TTCTTCCTTATCCTCTTCTGGCACTCCATTTGTCAAAGTTAGTGTCTTTGGTATCAGTGAAAATGCATTCCCATCCAAGCCTTCCAACAATAAATCTGTT
GTCAATTTGAGCTATTTTTAAGCTAATGAATACACAGGATTAACATGTATATTTGAAGGCATGATGTTCAACAAAGCCAAAGTTAATAGTACAATCAGTG
AAGATTATTCTGCTAAAATTTTTGCTATCTCCTCTGCACTTAAAATAAATGAAAAAATATTCAGCTAATGATAGTGTGGTTAATATATACTAGGAAGTCT
ACCAGGGGCTTCTAAGATTGAGAAATAATGCTATTAACTCAGAACTCCTCGGAAGATATAATTGTATAAAATCTTTTATCTTGGTTGTTTTGCTACTCTG
CCATGCAGCAGGGATTTCTGCCATATCAGATACAAGGAAATGTGATTCTGATGCCTAAGTGTAAAGGAAATAGTATAGAAGTTATCAATAGAAAATTAAA
TTAGCATTAAATTATACAAACRTTTTTTTATTCAGGAAATAATTTTTAAGGTCCTATGATTAAAGATTTGCATTTGGCACAGTCATAGATTTTGTTGTAT
TGTTTTTCTGAAAATACATATTTGAGTGGAATTTGGTCTGACTCTTTCTGTCATCTTCAGATTTACACTTCTTCTCCATTTTGAAGTACTTATATATTTC
CTTCATTTTGAAGTGAAGATAATGCCTGACAGCTGCTGATCTTATACTTGACTTTAAGTGAAGAGGAGATACCTGGTCTCTAAACTACATCAACTTTCTG
TGCTATTTGTACAGAATGGTACAATTTAGAACCTTTTTCTAGGTCCCAGCCAAAGAAGATGGTCTAGATCTTCTACAAAGTGATGTAAGGGGATACCACT
TATGATGCCTAGATAATAATATAAAACTTTAGCATTATGAAAATCACCTGCTCCTTTTGCAGACCCTACAGGTATATGCCCATGGTTATCACCAATTTTT
CCTTTCAAAGTTCCATAATGTCACTCGTCCTCATAGATCACACTCATGAATTTGACCTACTATTGTGGTCACTGCTTATAACACCACTACCACTCCCATA
CAGTAACAATCTTTCCCTAAGAAATCTCAAGACTCCTGGAGAACCCTTCTCAAACACTTCAAGTTGCTTTTCTCTAAATATCACCACATACTTAATAGCT
AGATGTGAGCACCCTTATGTCACATAAAACAATCTACCTTGTTTCCACGACAAAATACAGTGCATGGGTAGGACATTGAATGCCAARCCGATGACAATTT
TCAAGTAGGGATAGGCTTCCTTATGAAGTGCTGGCTTTCAAAAAGACCTTAGTGATCACTGAAACTCATTTACATATACCACCTGTTAGCCCATGGACTA
AATCAGCTCATTCCCTTTTGTGCACTCTTGCTTTCTTCTATAAAAACTGAAGTTAATATTGCTGGCTTCATAGCATTCCAGTGAATAATAAATGAAGATT
TATCTCCAAAATAACTTCCACATTGCCCAATGTATAACAGATAGCTAAACAATGTGGTTCCTGCACTCAGTTCTCTCTTTCTTGTTTTTGTCAGGCTTGT
GTTCTGATTTCCCCAGTTATTCATTCTTTCCAAGAAATCTAAGTCTGTGTGATACATTTCATCTGCCCACAAATCAAGTTCAGAAAAGATAGACATTCTA
ATTCTGGGTTCCCTGTTGATCATCAGTTACTCAAGTTAGTCACAAGTCATAGGCCTAGAAAGTTAAATCCTTCTTTATTTAGTGTACCTGGATTTTTAAA
AAGCAAAAGTCCCYGCTTCAAATCCAAATGCAACATGGTAATGTATTGTCAGARTCCTTCAGACTAAGATTATAGTTTAACATTTAAGTAGATAATTTCA
TAACGTAGGTCTGTATAAGACATTTTGTTGTACTATTTTGTAGAAAACCTATTTAAACTCATCACACATATGCCTTAATTAGAAAAAGCTTTGTCTTCAT
TATGTATAAATGTAGAAGACTTCAAGAAAGATGACACTCATCTAATGCCTCCATATAACAAAAAAAAAAAAAATAGAGTCTTCTTAAAGGTACCAGAATT
AACTATTCTATCAAATAAAATTACATTGTCATGGCACTTTGCAATTTATAAATACTTTTCTATTCATTATTTATTTGATCTTCTCAACATCCCTATAAGA
TAGAAAAGACATTTATCACTGATTTGCACTTGAGGACACTGAGGTTAAGAGAAGTTATATTAATTGCCCAAGGTCATGTAACTAGGAAGTCCAGAACCCA
GTATTCAAACCTAAGTCTGACTAAATAAAGACAGAGCCCAAACTCCCCGCTGTTATGACAAAGAGCCATCCAAATCTCCTTACTCAATAAGCAGTGCTCT
TTTATCTAATCTGTGTTACTACCTTGCTACCTTTTTTTGAGGTTATGTTTAAATATAAAGAAGCGTTCTTTATTGCTTTGATTTGCTTAAGATTCCATGC
ATAATACTTTGAACTGTGTATTCTACAATATGTAAACTATTTTATTTTCTATTTGTTTCTTTTTTTTTTTTTTTTTTTGAGATGGGGTCTCACTCTGTCA
CCCAGGCTGGAGTGCAGTGGCACCATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAACCTCCCGAGTAGCTAGGATTA
CAGGTGTCTGCGACACACCTGGCTAATTTTTTGTATTTTTAGTGGAGATGAGTTTTCACCTTGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGA
TCCACCCACCTTGGCCACCCAAAGTGCAGGGATTACAGGCGTGAGCCACCACGCCCACCTTTTCTTTTATATTTATTATTACATTTGTGCACATCTCAAA
TTGTGGGGTGTAGGGATTTTATATTTTTTATTATTATTCTTTTATTGACAATTGGATAAGTTAGTGACTTTACTATGAAAGTCAATGAGTGAGGTTGCAC
CAAGATTCCAACTGATTCAGTGATTACTCTTAGAATCTGTAAGAAACATGGGACTTAAGGAAATAGTTTAACCCCTGATCTCTGCCAAATATGCTAAAAC
AAAAAGATAGTTAAGCTGCAAGAATTTAAAGCATACATGTAAGAACAATTTTGTTTTAAAATAATTATTGAGTGATGAATATAATACTGGAATTCTATAT
GACAAATTAATTCTGATAAAATATACAAGAGGACCCAGGCTGTTAACCACATCAATAAAGGAAGTTTCTATTTTTTAATTATATGTTGCCATTTATAGAA
TCCCATTTTAAATTTTAAAATTAAAGTATTATTAATCCCTAATTTCTTGTTTTAAAACTGGAACTTTAGCTGTCCCAAAGAGCTTATATTAATTTTCCAA
AATCAYGCAACTAGTTAATGGCAAACTGAGATTAGAACTAACATTTTCTAACTCTGATTCTTAATCCAGTGCACTTTCCACTACTCCAGGCTCCCTCAAT
ATATGAATCTCCAAATTTTCATAACACAAATGTGTGTCTCTTGAGAAATAAGAAGATATTAATTTCTAAAAGGATAAAATAATCTAGTTTTATTTGTGTT
TCACTGCTTACCTCAAGTTACACTACAATTCTTTCATTAACCTGGTTTCAGACCTTGTCTAATATTTCTCGAAGAGCTCATCAGCTGCAAAACTAAACCA
TGAAAGACTAGATAGAAACTTGGCATCTAAGAAGAGAATTTTTTTAAAGCCTGGTATTCCTTCTAAGATACACTAATGTAATAGCCAAGATGATGAGATA
ACTGTGAAAAGCCAGTAGGGRTCTTGAATTGAGATGTATTCTTTGAAAGCCTAACTATGCTCTTATGGTGCTCTCAAAATCAGTGGTGCCTTATGAGGAA
TCACAGCCTGAGACTGGCTTTGAATGATCTCACCAAGAGTTTCAAACAGACTGATTTCTTTCAGTGTTCACTTGTGTCCTGTGGTGATTAAGAGATTGTT
GAAAAGCAAAGGTTTTTCTCTTTAACAAAGGGTGGATTATTGTGGAAATAATTTTTTTTGTCTTTGTGTAGTCATACCTTAAAGCATACATTGCATGCTA
AGTTTCAGGGCTCAAAAAGTTCTAATGATCTTCCACATTTCAATTTTATACCATAAAATTGAAGTTGCTGGCAAAATGCACAGCATCACTGGTTTTATCA
GCTCCCAGGCTTTTATGATGTCTATATACTGTAGATTTTTATATTTGAAGATTTCTCAATAAAAGATAATAGTGTGACAATTTCATTAAATAATAAGCAT
GGCTGTAAGGCCCCTGAACAGGTAAGGCTCTATTTAACTGCTAATTATCATCATTATAAACCATTTGGGATGCAGCTAAGTGCGGATACACTGAGATACA
ACCTTTTTATCTAAAAGAGAGGATAATAACCATGGGTAAAACTTGTTGGTTCTTGTAAGTATCAACCTGAGATAACCCTCAATTAGAAATTTTTATATAC
AAATGCAGCCAAAAGGGGTCTAACACATAGGTCAAATAGGTAACAAACTATTTGGTGTACATTGAAGAAGGACCCCCTCCCCCACCCTGACACACAGGTC
TTGTCCAGAAATAATGGCCTTAAAGACCCCTGACTGCTGCCTGAAATTCTGCTAATGCATTTATTCACTCACATTTTTTGATTGCCTACTATGTGTCTTA
CACTGAGGGGATAGAAAAATGAATAAGAAACAATTGCTGCTTTCTAAAAGATAGTAAGATAGATAAAGAATGGAAACAAATAATAATTCACAACAAAGAA
AATAACACGGGATATAGATAAGGTAAGGAGATATTAACATTTAAATGTTGGAGGAGTGAGCATTGAGGAGGAAGAAGAAATAGAGACAGTGAATTTGAAT
CTTCTCTTGAAGGCTGGACAGAATTTAGACACATAGCTATGTAGACATGGGAGAAGGGGCATTCCAGGCTGAGAGAATTGGGTAAATTAGAGTTGTTTGT
TATTAAGAAATATAAAATAAAATAGTTTACATATTGTTCAATACATAGTTCAAAGTATTATCCATGGAATGTTAAGCAAATCAAAGCAATAAAGAATCCT
TCTTTATATTTAAACATAGCTACAAAAAAGGTAGGAAGGTAGCAACACAGWTTAGATAAAAGAGCCCTGCTTATTGAGTAAGGAGATTTGGATGGCTCTT
TGTCATAACAGTGGGGAGCTGGGCTCTGATTTGTCTTCCTCACATCTAATTAAATCTCTGATTTGCATCCAGAGTAACTTTTCCAGACTATGTAATTAAT
TCCATTATTCTTTGGTAGATTGTTATATTAATCCCCTCCCCCACTCCAAGGAATCRTGCCTCCTGGTTATCACACACTTTTGTAGTCTGTTCCTACCCTG
ACTGAGGACTTAGACAAGTGACTTAATTTAGGCAAAGAAACACCAGCAAACACGACACAAGCAGAGGCTTGATATATACTCATTCATAGGAATTTGCCCT
CTGGAATRCTGCTATTACCATGTGAGAAGCCCAAGCTGGGAGTAAGGAGGAGGACGTGGCTGCAGCCAGAGTAGGAGGTTGCTAAAGATTTGGGAGTTTT
AAGATACCTATTAAATATTGTCTCACGTTGACTCARTGACATCAGGCCACATAATTTTGTACTGTTTTTTCATCACATTCAATCCTTGTTTTTCTTTTTG
AGATGGAGTCTCACTCTGTCTCCCAGGCTGGAGTGTAGTGGCGTGATCTCRGTTCACTGGAACCTCCCCCTCCAGGGTTCCAGCAATTCTCGTCCCTCAG
CCTCCTGAGTAGCTGGATTTACAGGCATATGCCACCATGCCTGGCTAATTCTYGTATTTTTATTAGAGATGGGTTTCACCATGCTAGCCAGGCTGGCGTC
GAACTCCTGACCTCAAGTGACCTGTTTGCCTCGGCCTCCCAAAGTGCTGAAATTGCAGGCATGAGCCACCATGCCCAGCCCATCACATTCAATCTTAATC
CCCTCTTCTCTAAATGTACACCATAAGTTCTCTCTTGTTCAGGTAAGAAAATATAGGTAACTCAGTGAAAGATAGTCATTGTGGGTAGAAAAGAATACAA
AACAGGTGTTATTAGTGATGTCAGGTTAACAATGCCACSTTCATGAATTGATTATTGGTAATTAATTCAGTCATCTATGTGTTTATTCTTTCATTCACAG
AGTAGTCATTTATTTAAACATTTATGAAAAGTTTCCCATGTGCTGGACACTGTAGGAACAGAGAAAGGAATAAGACAGGCTCTTCTAAAAAGCATAGAAA
TAAAAGTCGATACACTCAGGCTTGTCTGAAACAAATGAGAAATTCCTGGATATTAGTATAGAACAACATTAAATATAATTTATTCATTTTAATTTTCTAG
CATCTTCTCAATACAGTCACACAATACATTGCACTTTACAAAGAACATTTCACACCTCTTCTTAATCCCAAGCTATATTAAGAAAGCTATTGTTTCTGAA
ATAGTGGTAATCAATTACAAAGGTGTTGTTACGGTAGAGCCACATATTGTTCCTAAATTTTAAGAATATTGTACAGTCTGATATGTTAATGTTTAAGAAA
TTAACTGATATCTTCTGATAAAATGTATTTAATCCACAGTATCTGTGCCATTACCTTTAATAAAACTAAAATGTAGCAACTTCCATAGAAGTTGATTGGA
GGCACTTTAATTCTGTATAAAGAACGTTGCATACTTTGAATACAAGCGCCGAAAATTTACGATTATAGTAGTATTCTACATTAGACTTGGTGTTTTAGTG
TGCATCCAAATTATTGTGTTATTTCATGTTATTTCTTAATAATGTTCCAAGTGTCTTTCAGAGAGAATAGAAAACAATGTGCCAAGTTAGAACAATACAT
AGATTTCAGTAAAATCAGTTGCAATCAGTTCTTTTAAYGGTGTGATTGCAGATGATTTAACGTTGATATATTTATCATTGCATTTAGAATGCTTTAAGAT
ACATATCATGCATTGGATTTCACAACGAGTACATCATTTTCCATGGCTATTTGCTGTATGATAGCAGAATAGGAGCACTCTACAAGTTTTCACCTCATTA
AAACCTACTGAAAAAAATGAATGGATCATCAAATACATACAGAGTGACAATTTTATAACGGAGCTATTGTGTTTATTAGTGTTGCATTTGTGGCATCTGA
ATTAATCACGGATTTAAAATCCTATGAAATTTTTACTTGAAAATATTCTGTCCATRTATAACAATCTATGCTGGTTAGTTTACAATTTTGATTAATAACA
AATCATTCTGCATTTTCTCTAAAATTTATACCTTGACATTGTGATGTAAGAGTCTAATAGTGTTTCATTTTAAAGAATAAAATATGCATGGAGTTTCATA
TGAAGAAATTATAACAATAAAATAAACATAGGACCATTTATCTGGCATACTAATTTTAACCTTTATTACATCCAGTTATACTTGGGATTGTGATTCTGCT
CATGAACTGGTGTCAAGCAACGGATGGAAAATTTTTGAGTAGTGTTGATGCCTTTTAMATTGTTGTGCTTCTCTTGCTATTCAGCAATGCCCATTTTGAT
GTACCTGTATATTAGCATATATAAATTGAACTTAGTYTAAAAATATTAATTGCTTGTTTTAGGGCAAATGCTATGTTGGTACAAAGGATCTACGTTGAAA
AATATATCTGTTCTGTCATCATTGAACTTGAAAGCTTATAAGAAAGATAAGCAAATCAATAGGTACCAAAGACATCTAACCATTCAGGAAATTCTGTCAA
CTCTCTTGAATGTATGTGCAGAATTAGACTGTTTCTCACTATCGGCATCACTGCCATCTTGATCCAAATCACTCTTAATCACTCACCTGGACTATCATAG
TAAATTCCTGATTCATCTCTCTGTTTCTATTCTGGCTCCTCCCAACCCTTTGTCCTAACCTCAAAAAAGTAACAAAAGTCATTAAAAAAATAAAAGTCAG
ATTATGTTACTCCTACACTCAAAACCTTCTAATGGCTTCCTAAATCATTTGCAATGTAAGTCAAAATACAATTGTCTAGAAGGCCCTATGTCATCTGGTC
CCTGTGAAAACTCTGACAAATTCTTTCTTTCTGGTTTACTCTATCCCAGCCACGACGGGGCCTCTATTTTGTTCCTGAACACTCTAAGCATGCCCAATTT
TAGGCCTTTGCACTTGCCGCTCCCTCAGGTTGAAACAGTTTTCCCCCAGCCCATATGGCTGTCCTTCTCATTTCCTTCCACACTCAAATATTATCCTATT
AGTGAGTCCTTCCCTGACCATTATAGGTCAAATAGCCACCCCCACCCTTGCAGCTTTTCCTGTTTTTCTTCTACTGTGTTGTATTTTTCTACACATAGCT
TACATCTCTCTGACCCATCATTCATTTATTTGTTAAAAGTTCATTGTCTTCTCATACTATATGTAAATACTGTGAGTATAGAGATTTATGTATTTTGTTC
ACTGCTACAGCTATGGCTTGAAAAGCTGTCTATTTTTCTAACATTTATTATTCCTGCTTTCATTGTTTTCACCTGTTATGTTTATTTGGTAAATCTTTCT
TACTTTTTGAAAAATCTTTCTGTAAAAATCTTTGTCTTTTAATATTTGTCTCTAATAGAATCACATTTGTTATTATAACTTATTAAATGTTACTAATTTC
TGATTTTTATACTTTCTACTTTATTGACCTTTATGCTTTATATATTTATACTTTTTTGATATTTTCTTTTTTATATCTTTCCTATATAGACTAAATTTTC
TTTGTTTTTTTTTTCCCCAGTGATTTGAACAATATATATCCCGTTCTTGGTTTTAGATTATGGTCATCTTTATATTTTTATAAATTATTGTTAAATCTAC
TTTCTCTACATAATATGAGTGAGATGAGAGTCCTAGCTTTTTGCCAAGCTACAGCTACTACTGGTATGCAGACATTCTGGTTTGCCTTCCAGAAAGGAAT
ATGCTTTAGATAATTGTCATGAGGAGTTTTGTGGACACAAAGAACAGAAAGAATCATCAGTGTGGGAAGGGGAAGTCTTCTAGGATGACCCAGTCTGAGA
CTGATCCCAGGCTCCACCTCAAAATTTCAGTTCTGAGATCTTTGGAGGAAGGTGCTGTACGTGGGAGTCACATTTACCCTTTTCACCAGAGTATCTCTGG
TTCTCAAGCGTCCAAATATAGCACATGACTGGGGAAACCTCTTCTTGCTTTGGCATGAAGCATAGCATAGCACCAAAATTCAAAGACGTGAGGAGTTTAA
AAAGCAGAGTCAAATTTTCAAGTGAAGGATTCATAGCAAAGTCGGGTGATAATAAACTTGTATGTCATTGTAGGCACTACCAAAAAGGGACCTTAGTGAC
GGGCTACACTAATGATGGAGAGTAACGAGCAGAGCTGAAGAAGGAGCTGTGGAACTAGCACAGAGCAACTGAAAAGAAGTCTTTGTTAGCATGCGTGACA
TAGTTTGGGGTGCCTAGAAGTTATTGGAGTAGATTCTCCCAAAAGGTAGAGGCTTTACACTAGTAGGTGTGACAGTGGGAAGGTGGCTTACATAGTCAAA
TCCAAGAACCAAATTATAACTTTGCATTCCCCTGATAAAAAGCAACAAAATTAATATGCTTCTGTTTCCCCTTCCTCTTCTATTCATTATTTTCCAGTGT
AATTGAAATTAGATACATGAATTTTAATTGATTTTTTTTCTTATTCTTACATTAAATATCTTSTTTTTCAAGAATAATTTTTGCCCGTACGATTTAATTT
TGTCATATTTACCACAATCTTTTAGAAAAATGTTTGACTGGTAGTAATGTTATCTGGAATTCTTTTATACTATGTTTTCTTCATTTCTGTCTTTCTATTT
TCTACTTATTTCTTCCAAAATATATCTTTGTGGAAGACTCCATGGTGTGTGTATATTTTTAGCCTTTGAATATCTGATTATTTCCTCCCATTGTTTTTAG
ATAGACAAAAGACTTGACTAGGGTGTCTCCAGCTTTTACTCTCACCTGAACTCCAGAATCCTATGGCTATCTATGGTCATCTCCACTGAATGTTTAAAAG
ATATCTCTGTTAATATGTTATATAAGGTAATTGTGTAACATATTAACAGAGATATCTTTTAAAAATTGAAATTTCAGAGAAAAGATGAAAGAGAGAGAAA
TGCRTAATAATGGCATTTTGATTATTCAGGGAAATATACTTGTTCTTAGGATATATGTGATGAAGTATTAGGTGTTGTAGCAACTATGAAAATGTACTGC
TCAGATCTCCTGTAGACAGGAGCAGAATTGACTGCCGTGTTGGCTATATTTCATGTACTTCCCTGTTCAAGCCAAGGTACCCTTCATGCTGCTTCCCGTC
AGTGGCTGTGCACAGTAGGTGTACTAATGCAGGCCCATGTCCTCARGAAGTGGGACCCCATTAACAGATGACTTTGGCTCAAGACTTCCCATTGGCCTGG
CCAAAACTTACTTAGAAATGTGCTGCGTTCTGAAATTTTTCTCCCTAATCTCTTCTTCTCTCTGTTCTTCATAGGAGTCTCAAGTATCTCTCAGCCTTCT
TCTGCTGCCCCAACCATTTGTTTCTCACAGCTCACACAATATATCTCTTGTAAGCCCAACTTATACTGGCATCTAATTCACAGAGGGTCTGAACTAACAG
GGTTACATGCTATGATGTCCAAGTAGTTAAGGAGAAAAGTGTACGTGTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCAGAGAGA
GAGAGAGAGAGATGAGAGAGAGAAAAGAATAAAAGGAAGGAAGTAAATATCTCAAAATATTAATAATTGATACATTTAGGAGAATACTATGTGTACTCAT
TGCATTATTCTGTTTTAGATTTGAAAGTTTTTAAGTAAAATGTGGCTGCTAAAAAATAAAAATCTAAAAATTACAAAAAAAGATACATGAAGCTCAACAT
GTGTATTGATGAGACATCTATTTCCAATTTCAATGTCTATTCTCCTCAGCAACAAATCCCTGATTTTATTTGGGGCACATTGCATCCAGCCTAGAATTTT
ATTTCAATTAAAACATCATCTGACTCTTACATTCAAGCAATGGAAATACAAGTAAACATGTTATATGGGACTGTGGGAAGTCTTCCTAAAAGGTAGGAGG
TCTTTCCTTTTCACCCTCTCCTATAGGGCTTCCTGAACTATGTATGTGATTGCTAGAGCTCAAGCAGCCATCTTTGAACATGAGGCAGTGCATCAGAAAG
AGCAGAGCAGCAAGAAAGAAGGCATCTCAGTTCCTAACGAATGAAGTCACCACATCAGCCATAGAAGCCTGCCTCTAGGACTCTGAAATAAAAAAGAGAA
ATAAACTCTTAGTTTAAGAAGTTGTTATTTGGTGTCTTCAATTTATTTAGACAGCTCATTCTAATGCTTTTTTTTCTTTTGTGATAATTTATTTTAGAGT
TCTCAGTAGTAATTTTAATCTTCAAAAACTTATTTGAGGTGATACTGGATTTCAAAAGCATTGTCAAAAGAATTTTATTATAGTCCAATGTGAATTGTCT
ATCTTTATTTGAATATTAAATATTATAAAGTAGTCAATTTTACATAGCAAAGAGCGTTTCTAATTGGGTAAAAATTTACGGAAAATGGTTGGCATTTACA
GCTCAACCTAATCTTACACTGATATTCTGTCCAAACTAACGACTCAATTTCCATCTTAACCTCCAAAACAAAATTCTCCCTAACCCATTCTTCTAGATGT
TCAAGAAAAAAAAAACACATAAAAATCATCATAAACTCCCTTTTATTTAAGTCAGTTTCTTTCTTAGATGTTTATAGGATACCTTCGGTCATTGCAATGT
TTTATAATTCACTATGATATGCTTAGTTGTGGCTGATTGCTCCTACTTAGCAGGTGGGTAGTAATCACAAAGAGGCATTTAGATGCTTTCTCATAGTTCC
TTCTTGTTTCTGCTGTTGCTGTTTTAAAGTTCTGGGTTTAAATTAACAAAGAATTATTTTTTAACCAGTCCATCTATATTAGTTTCCTGTGGCTTYCGTA
ACAAATTATCAAAAGTTGGTGGCTTAAAACAACAGGAAGTTATTCTTTCACTGTCCTGGAGGGCAGATTCAAAGTTAAGGTGTCAGGAGGGTGGTTCTCT
GTCTAGAGGCTCTAGGGAAAATTCTGTTCCTTTCCTCTTGTTTCTGGTGGTTCTTGGTCATATCACTCCAATGTCTGCCTCCTTCTTTGCATCACCTTCT
CCTCTGTGTGTCTGTGTCTTCTTCTTTTCAATCTCTTATAAGAACACTTGTCATTGGATTTAGGACCCATCCAGATAATCCAAGATGATCTCATCTCAAA
AAACTTAATTACTTAATTACTATAAAAACCTTTTATCCAAATAAGATAATATTCACAAAGTCTGGGAATTAGGAGGTGGTCTTATCTTTTGAGGCCACCA
TTCAACTTACTACACTATCCATGCTACAATTAGGGGTGTTTTCTTTGAAAGATCAGCCAATCACCGATTTGTGCTATTGTGTATTGAGTGCCTATCATAG
TGCTACTGTGAATTTGTGTGTATGTGTGTTTGTGATGTGTGTACATTGTGTAAGTGTTTTGTTTTTCTTTGGTGCTTCAAAAGGAAGTTTGAGGGTACCC
AAAAGCCTGTGTCTACAAACTAGATATTCAGCATATATATGAAATTATATAATCCATTCTTTTTCAGGCAAAAGTTTCCATCTAGTTCTCTGCTCTCAGG
CAGAAAATTTGGATAACCTACACAGGATATTATCAAAGTAGCATAACAAATGAAAATTGCTGACAAAAGCTAAATATGCTTTCATTTATGCATTAAACAC
ACATCTCTGGGATGACTATGATGTTCCAGGAATCATGTTAAGTATAGAAATGATTAAGATACATAWATATTGTATTCACAGATTTCATAATGTATTAAGA
GGGTGTGATACAACATAAATGGCTATACATCAAAGAAGAAAATAATAAGGATCTGAGGAGAGAATACATTCAAATGGCATGGGTGTTAGGAAGAGCGATA
AGAGAAAAGACAAAATAATTTAGGGGAGRCATGCACTTTGATTCCTTAGTATATAGATATGAAATGAATGAGTAAATAGATTTGGATGCATTTTTTATGC
ATTTGCAACTACAAGAGAGGTAGAAATCTGCGTAGTAAAAGCCAAAAATTAACTAGAAGAAGTTCTCCTATATTTGGAGGAGTAAAACTGCAAATAAATC
ATTTGCTATGTTTAAATTAATATATTTTAAAACTGCTGTTTGAAATTTAACATTTTAGAATTCACATAATTCATTCTATGCACCTATTTGTTCAAAGAAA
AGGAAGAAAAGAACAATGTAGGACTCTAGAAAGACTGCCAGAGGAAGGTACTGGGATTTGCTCCCATGCAGTGTCTTCCTTGAATTTCACTTTGCCTTTG
AGGATGAGAACAGGGCTTGAGAAATACTTCAAAGTGCTTCTCTGGCCAGCTATGTTTTGCCAAGCTCTCACAGCTTTCTCAAAGCTTTCAAAATTATTAA
ATACCAACATACATCTCCTACACTTTTACTTTATCAGGAGAGAACACTGCAAGCAGCATCACAGCCTTCAGAATTCTTTATCATGTCATTAAGCAGCTGC
ATTCAAACTGCAATGCTTCCACTCAAGCCATAACAAGGCAACGTTGACATTAAGATGCAATGTTCCGCAGATGCCAGTTTTAGCAATAGCTATAATAAGT
GTCAGAGAACATTATCACATGGTAACTCTTTAAAGTTGGGAATGTGACTTTTATCAATCTTTGAAACTAACTGATTTCAAATTTACATGCCACCTTAGAT
AGAAAAGAATGGCTGCTTCTTATCTATATTGTCAGGAATTTTAATTAGTTTTGTTCTTTTTCTTATCTTAACCCATTTATGCTAGAGGTTGCAATTTTTT
GAATTTTTGCATGAGTGAAAAATCAGACCTTGGCGATGAACTTCAGCAGCATGATATAAATAACTCCCACATGCTTAGCRTTCCAATAATGGAACACTAG
GAATAAGTGGGTTTAAAAATATCTTTTCTCTATCCATAGTCAGCATCAGTTACTTATCTGCTTTTAGGTGGAAGAGCAATTACTGGAATTGTCTTGAGTC
TCTATGAAGTTTAAAGGCTCTTCCTGATATTTGACAAGCCCCAGAACACTGCCAGCATGAATAACGTTTACTGAATGTCCAGTGTGTAAAAATCAAAATC
AAAACCTTACTGACTTCTAATTGCGAAGATTTAAAGAACTGAAAGGATGATTCATGTTTTAAAGGTGTTTACAGCCAAGTGGGCGTTCAGAAGTACACAT
AAGTGATGAATGATTACATTTGTATAGTGCTTTGCAAATTACTAAAAGGTCTTACAGACTTATTCCTTAATCTTTACAATAATCTGGCAAGGTAGCTCTT
AGAGATAAGAGAAATTGAGGTAACATATTTAGATATAAGCAATTTGAGGTAATTTTTTAAAAAAGAAAAGCTATTTATTGGTAGAGCTGTGGTAAAGTCT
AAATCTTTTTTCTCTAAATTCACTGTTCTTTCTACACTATAATATGAATTAAATGCTGTAAGAACTTAAACCAGAAAGAAAAATGATTGCAAAATGAGAA
AATGGTAGATACTTCACAAGGATGAGTGGCTTAGCTTGATTGCTAAGGATAAGAGGACTGACATCACCCGAATATCTGGCAGGGGTAAAGACATAAGCCA
TTCTGTGTCATTGAGGAAGGGGATGTGCTGGGCCTTCTCAGGCCCACTGTGTAGCATACCACCCTCAGCACTCTTAACATGGAATGGCCTCCTGGTCACC
AAACTCCCAGGTTTTCAACTTTCTGAATGCATTTTTCCAAGTTGGTTAAAATTTGAAAAACCAAGAGTCACATGCAACTTAGGGAGGAAAGAAGAGCCCT
GGATTGCTTTTATTATTATTATTATTATTATTATTATTATTATTATTTTWGATTTTTTCAGCACAATTACTTCTTTTTAGAAACCTACTCCTCATAATAA
AGGGCATTTTAAATTGAGGAGATAAATATATACTCACTCACAGCCTTTAGAGCCATAATGTGCTAATACCTTCTACAAGAGTTAATGTCTTCAGGAGATT
TCTACCTAAGGTTATGTATTCTTGTTCTCACTATTTAAGAGTGTTCACACATCCCCTTTACCGGAAATAAAGTGAAGGTATATGTGTATTTTTTATCACT
CTGTGAGGAATATCTCATTTGATTTTTTTATTTATATCCTATTAGAAAGCAACCAATTAATTCTCCAATGCAGGTATTTCATTTCCATTATTTATTTCTT
TACTGAAAAAACACTATATGTCAGGTTTATGCTAGAGGATTTTTTCCACAAGTATTATTTAATTTCATCTTTATTAAAAATCTCACATTGCTAAAGAAGA
GAAATGTGAAGCTCAGTCAATTAATTTCTTCCCCCAGATCACTCAGTGAACTAAATGGCAGAGCTGATATTTGAACCCAAGTCTCCACTTCACAGTCCCT
TACTCATTCCACATTCCACAAGAGCTCTCTAACCAAACTTCAAGTGCCTGAGTTTAGGGCCACTTCAACTCATCATCTGCTGGAGACCAGCCACTGAAAT
TAATGTTTGCATTTGTTTTCTTGACTATACAGGGTATGTGGGTAATCTTTATAAGATTCTTGTTTCCATTACCATGGAGTTAAATAGAACAGCTATACAT
AAATCAAGACAAAAAAAAACCCACTAAATTCTTTAGGAACAAAATGTTCTTCAGCAGGGATAAAGCACAGAATACAAAGTATCCACAATGTGCTGGATAG
CTCGTAGACATCTTTAGAATACTAATCATGTGTCACTTCCATGATGCATACAAAGTCTCAGCAGCTATTGGTAAACTTGGATAAAATCACTGGGTAACTT
TCGGCTTTGTCTCAGTTGGTGGATTCATGAGTAACCTGATCACATAAAGACATCATCATGAAATATGCATAGGGTTGAACTGTTTAGTCACACATCACAT
TTTCTATTAACACATTCTCATTAGATTTTCTAAACACTCTCAGGGTAATTCATCCTTTCACGCTTCAGCTTATCTCCTCCTTCAGATGCCAAAGGTCGCT
TCCACCACCACTTCCCCTCCCAGCCCTCCCACAGGTACACACCTCACCTCTCCCCTTCATGTGGCCCTCTTTCTTTTGTCTCTCCATGTTCCAGACTTTT
CCTTAATCATCATTTTTTTGTGCCCTTTGTTGCACATACTTTCTGTAGCTTATAGACTGCGCTCTTCTAACACTCATTCTCCTTACTTCCACTAAAAACA
ATATTCAAAGCAGATGTTCCCAAATTAATTCAACAAATTAGAAATCTAGGCCATACTTTCTAATTTAACTTGATTTAAATCATTCTGTATGACCCTGTCA
AAGCATATGTGGAGGAAAGTAAATGAATTTAGAAACCAGAACAATGTGGATTCTAATCATAATTCTGACACTTTATCAAATGTGTGACCTTATACCTCAG
TTGTAAAGATGAAGTATTAATATTACCATATAAGGTTACTGTGGAGACTAAATGAGATGAGGCATTCAAAATATCTCGCTGTGTTACCATACCGCAGTTG
CTTAACCTTTCTTTGATTACATTTCTTCATATGGTTTAACTGTTTAGTCACACATCAYATATTCTCCTTACACATTCTCATAAGATTTTCTAAGCACTAT
CAGAGTTATTCATCCTTTCATGCTTCAGCTTATCTCCTCCTTCTTCATATGTAAAATTGCATAATAATTATATATCTCATTGGGTTGTGTGAATATTAAA
CTGGTTAACATATGTTGCTTACAACTATGCCCCGCACAGAGTAATACTTATCATTATAATTACTTAATACCTAACATCATGTCTACCATTGAAAGGAGAG
CTCCTGTAGTTCTACAAATGAGATATTAGAAAACAAAGTCTTAGATTATTGATTTGTCAAGTGGAGATAAGTGCACACTATCGAATTGAGTAATACCTAA
AAAGCATAATGGACACATTAGAATAGATAAGAAAATAGAATTGTTAGGACATGGTGACATTTTATGAAGGAGCTGAGAAAGAGGGAGGAATCAAGAACAG
CCCCCAGTTTTTATCTGGGTAACTAAATTCATGGTGATGTCCTTCACTAAGAGAAAAGAAACAAGCTTTGGTTGAAAAGAAGGAGGGCTCAAAGGCATTA
TGTGGTATGATATAAAGCCTAAAAGATTCCAYTGGATTTAACCACACAATAGTTTACGTTGAAAAGGTTTATTGGAGTAGTAAAGACAAAATGAGACTGT
AGTGGATTGAAGAGGGGATGGTCAGTGAAGATGTAGAAGCAGAAAACCCTTTAAGAATATTGATTATAAAGAAGAGAGAAATAGAGGCTGGACACAGAGG
CTTGCACCTGTTATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGACCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAGCATGATGAAACCCCATCT
CTAATAAAAATATAAAAATTAACCAGGCATGGTGGCAGGCACCTGAAATTCCCACTTCTTGAGAGGCTGAGGCAAGAGAATCCCTTGAACCCAGGAGGCG
GAGGCTGCAATGAGTTGAGAGATCTTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGTCCATCTCAAAAAAAAAAAAAAAAAGAGAGAGACATAGTAT
GTTTCTCAGAAGGTTGCTTTGAAGAGTCAAGATGTAATATCAGTAACTATATTGATTATTCACAACCATAATGTTTCTTGAGCTGCTATAATTTGCTCAG
ATTGTAGGGGACAAATGATACAAAGTGGCTTAAGAATAGTTTTAATCCACCTGGAGAAATATGAGATCTGTGCAAAGAGAAAAAAAGTAGTAAGAAGAGA
GAACATATACTAAGTACCAAATGTATGGAACTGAAAATAGTTATAACCATTTAGTCTCAATTGGTGCAGGCTAGAATATTTGGGTAAAGATTCAAACAGC
AGGCAAGACAAGCTTGTTTTAAAATAAGGACGAGGAAMATGTTGGTCAGGAAGGGCATAAGGCAGAAGTCATTGGTGTGAGTAGAGCTTCAGGCAGAAGG
GCCTGGCTTAGGCATGGCAGTCAATGATTAGAGGGATAAAGTGAAGAGTGTTTATTCAGCTCATTTCCTCATCTTTACTGGAAAGGTGAGTTTATTGGAA
AGCTGTGTCCTGCACAATATCCAGCAATGTAGTAAAAGCCAAATAAATATTTCATAAATATTTATTGAGTAAATGTTGAATATATAGAAAACCTGTAGAT
AAGAATTTTCCTGGAGTAACACTAAAAGGGAAAAATTAAGGTTTTAAGTCTCAGCAAGTTTATTTTGAGTCACAAATTGGATATTTATACAAAATATGAA
ATAACAATTTGGTCTGATAACTAACGAATTCAATTCTAGGGAAAGTTACTGCTAAATATAACCACCACATAAAATTCTCCCATTCTTCTCATTCTTTCTT
GCCCTTTACTCCTCCAGTGTCAGGAATACATTTTAATTCAGTATGAGTTTGTTGGTTACCAATAACTCCCCTGGCATGGTTCTTGCTTCGGTGGAGCTTC
TAACCTTACTGGAAACAAATACTATGAAAGCCGGGATGAGAAGAAATAATCGAGCAGCGTCCTGAAATATGGGGATATTTATTTAGAGAAAAAGTTGTAA
GTAAATTCAAACTTGGAGGAGACACCATGAACAAAGGGAGGGAGAGAAGCAAGAAGGAGCTAGAGGGTATTCTGGGGACAGTCACACAGCATTGACGAAG
GGTTAGAGCTAAAATAGCCCTAAACCATCGTGGTTGATAACTTCCATTCCTGTGACTAATACTTCTAGCTCACAGGGATAGACTGTCTGGTGTCTTGAAA
AAAATAAACAGCTTCTCAGCAACTGAAGAGACGCTGAAAGGTTCAGTGAATTTAAAAAAAATAGTTATGTTCATTTCTTGTGAATTTTCAAAGTGTCCTT
GATGGAAGGCATATGGGACTAAGTACATTTTTAACCTGCCCTTTTGCAGAGACATGGGCATTTAGTTTCCCTGTGTTCGCTAAGGGGAGATGGAGATACC
ATAGTAAAAGCTATAGTTTCAGATTAGTCCAGTAGGTAAAAGCAGTTTCCTTTCCTGAGTTACCAACAAATCCCCACTTTGCAAGGAGCTGCAAACAAAT
TCCCCTGAAGTCATACTTTTAAAAACACTCATTTGTGGCTCCTTCTGAGAGGTTAAAAGAAAACACTCCTTAGAGGTCAAGCTCTGCAGGAGCAAAGCCT
CTGCTCGTCAGAGATAGAGCTGCTTTGCCTGCTCTGTTGGGGTTGCCCAAGTCTGAGGCTTCTCTTCTTAATACAGAAAACCTTGTTCGTTGATAAAGCC
CAGCTCTCCTCACAGCTGTTATTTTTAAGCTCAGCCCTCGTCTGCTTGACACATGTACACCTACGCCAGGGTCTTCTAACAGGAAACTTGGCACACAAAA
TGTCAATGGCATCTCTTTTTTTCTATCTTACTCGTCTTTCGTATAGTTCTTCCTTTATTCTCTCCTCTCCCTGGCCTTGTTTTGTTTCCCTCACCTCCCC
ATTAGTGTCTAGGATTTAATTTTAACATGCAGAGATGGACAGTATTAACAGACCTTTTATGTCTGGATGTTGAATAGGTGCTCAGAAGGTCCCTGGCACA
TTGCCAGAKAGTTATTCTTGGATCTGGTTTCTTAAATGTAAGTGAGAAGAATCCGGTGACACTTCTGTGCAAATAGATGCCCTGTAGTTAGTGCCTTTAG
CATCTGTATCTCCACATTTCACATAGGCTGTAGACATGCTTAGATCCTCAGTTCAGGGAAAAAAGRGTAAGTAATATAGGAAAAAGAATAGTTGTTAGTC
AAATGATTCATTAGGTGGCCTTGGGAGGAAAAACAGCTCTTCCTTTATAGAATAAGGGATCATTTAATGATCTTTTCCTTTCAATTCTAAAATATTGCTT
GCTATATCTCCTTTTTTCTGTCTGCTACATTTCTGCTATGTAGATTTTCATATTGTTTTCCTGCCTGTCCTTTGTTCTGGAAGACTTGTGTTTGCTCATC
ACATGTAAATGTCCAGTGCATTTCAGGGCTTTATGTACAGAGTAGGGATTGCATAGAGACTTTATAATTTTTAGTATATTCAAAACTGAATATTCAGAAA
GGTGGCTAGGAAGCAGTATTTATGTAATAGTTAAAGAGCAAAAGTTGGAAACTTTTTTTTTTTTTTGGCTTGATGACTTTATTTTAGTAATCAGACTAGC
TAATTATTACCTTTTCATACTTAAATGTAACATATCTTTTGCCATCTTCTTTATTCTCTAAGGTTTTGACTATATGCTTTATGGGAAAAAAATCTCCCAC
ATTGTTCACCTGTGACCACCAAATCCAAGTTTCACAACCAATTGTTGGAAGTCAAAAACCTCTGTTCATCCACGGTACCAATGCACTAGAGAAATGTTAG
TCCTTATGAAGAAAAATTGCCAATTTTGTTCCAATATCCTTCCTCCCTTTCTCAATTTTAAATTTAAAAAAACAAATTATATATAATGAATACATAGCTG
TCATCTCCTGTGTTGTTACCTTGATCGTCACTTCAGCATTCAAAAATGTTACATTTTGCAGTTTGCATACCTAAGATTCTTCATAAGATTATACCATGTT
AAGATGAATAAGAAATGACTGTAACCATACATAGAAATGAAAATTATACTTGCTTGTTCATTCTAGAGCACTTGCTCATAGAAACCTCAGAATCAATAGC
ATGCATGTATGTGGTTAGATTTATTTAGTCATTATCACTCTTCCACTTGCTTTTTATGGTGCTGAGCAAATAGTAAGTGAAGAGTATGAGGTTTTTTTTT
TTTCACGTTACCCTCAATAAATGGGTTTAACCACAATACAAATCTTATAATCCACCTCTTCAATCCCACTGGCAGTGGGACAAATCCACTAGCTTTAGAG
GTAAGCCTTCAAATATACTTCTACTGACAGGTTGAAGTTTGTTTTAGGAAAAATCAARGTTCTACAATCCTTTGCATTTATTGGAGTTTTCAGTTTCCAT
GGTTTCCAAGAGTTCACTGAAATTAGGCTTTCCATGTTTAGAAGTCATGATAGGGGCTTTGGTAAATTCCTTTTCTCTAACCTAGATTATGTTTAAGATC
TGTGTATTGCTATTCCTGGATGAGTATTGGGAGCTATTGAATGGTCAACACAGCTCTTCACCTGCATACCTCCTCTACAGAACCAAGGGTATATACGAGG
AATTTCAAGGCAATCTATATGAAGTCAAACTAGGGTTGTTTTCTGGGATCATAAAATAATAACATYACAATTTGTATTTGTAGTGAAGARCTGCCTTCAA
AGGGATTAATGGGGAAGTCTACATTTGAGGTTCTCTGGCCTTTGGTAAGGAGGGGAGTGCCCTGATAAAATAACGTCTAAAAAACAGACTTCCATAGGCT
TCATTTATCTTGAAGAAAATTCTTCTGGACATGGTAGGAGTCTGAAGTAGTTTATGTTAGGCCCCAAGGTACACGGAGGTGTCAAGAATGTAGGATGAAG
TGGCCTGAAGCAGGGGCTCATGCCTGTAATCCCAGTGCTCTGAGAGGCCAAGGAGAGAGGATTGCATGAGGGCAGGAGTTCAAGACCAGCCTGGGTAACG
TATTGAGATCTCATTTCTGCAAAATGTTCAAAAATTAGCCAAACATGGTGGTGTGTGCCTGTAGTCCTTGCTACTCAGGAGGCTGAGGTGGGAGGATTGC
TTGAGCCCAGGAGTTCGAGGTTACAGTGAGCTATGATCACACCACTGCACTCCAGCACTCCAGCCTGGGCAACAGAGTGAGACCCTGTCTCTGTAAAAAC
AGAATGTCGGGTGAGGCTTTATTTGGCCATGAACTTAAAGTATGCGATATCTCATGTTACTGTACAATTGTTATTATGTTTCTATCTGCAGCCCAAATTG
TGAAACAGCCTCAGGTAGTTCCTGACAGTCCAGTTACCACATAATATACATGAATAAGGAGCTAATCTCCCTGAGCCCAAACGTACTGTCTCTGTTATCC
TGGGGCTCAAAACCAGGACCTCCAGCAGTTATCCTCAAGAAGATAATGACTTTATGATCAACAATTGTTACCTAGCTATGTAAGAAGCAGAGATTAGATA
AGTAGGTAGGTAGATAGATAGAATCAAATAAGAAAAAGACCAAAATAGGAAGCATATGAGACTATATTTGCAACTACAAGGAACTGATCTAGATGACTTG
GAAGAGTTTTTTAGGAAAGGGTACAAAGATCCAAAGTAAGTGGATGTGAATTGCACCTCAAGGGTCTAATCAGCTCCTTGAAACAAATTGGAATCAGTTC
AGTGTATGGGAGTCTTATGTTCAGGTATCCCATTGAGTTTGGCAGTGGCAGCTGCCAAAAGTTCATGAGGGGTTTTCAAGGAAGACTCAAGAGAAGAGAA
AAATGTAGTTGCCTATGCTGAAGGTCACCAAGGTAAGACTCCCCAGAAAGGTCTGTGGCAGGAAGAGAGTTCTGAGCCATCACATAGCTCTAAGGGCAAA
ATATGGCAGCCAGCAGATCGGAAGACCAGGACTCCTTAGCATCAGGTTTGAATGATTGCCTGTCAGGCAGATGTGTTTGTAAACTAATGACTTTCACAGT
GTGATGAGATTGAAAATGAAGCCTAATTGCTTCCACTGATTTAACCCTTGGAATGCTTCCAGGCATGCTCACAGCCATGTGWCTTTAATCATGTGAGTTA
ATCACCTTCAGGGATACATCAGAAAACAGTGGCTTATAGGAAGCCTGGGAAGCATTGCAGTTGTGTTATTAAGCCTGCACTTCTGGGGGCTGTCATCTCT
TCAAATAAGGACRCTGAGAGGTTGGCCGTGGTGCCCTTACACTAGTTTTTGTTAGTAACAACTGACATAGGCAATTACAGAAAAAATGAATTAATATTTA
TGAATTTTTAAGTGACTTTAAAGAACTCCTAATGGTAGTGGAGTGAAAGTAGCAAGTCACCTTGATCCTTCTAAGGCCACCATGAACTTCAGTCCAGCTC
TGGAAGAAAATCAGAATTGGAAAGTGGTCTAATAATCAGGCCAGTCTGATTAATAGTGACAATTAGTATTGGACTACAGTGCATAAMCAACTGATTATGA
ATCATTCGAGCACTTTAGGTAAATTTTCAATACAGGCAATTAAAATGAAAAGACTCATGATCCTTACATAATGACTTCATTAAATTAATTCAATTCTGAG
GTTGGGGAAAATTTTCTTTTGTAGAAAGGAACCAGCAGAATTTAACTTCCATTCACTTTTGGTTAAAAGAAATCTGGAGAAAACATAAGATTTAAACACA
ACACACACACATATGCACACACCACTTTGCAAACAGCTTATTCATGTCTGAATGTGAACCGTGTTACTGAGGAAGAAAGAACTGAAGGTCAGAGCATGGA
TTCTATTCACATCGCTTATTCAGATGAAGTAAATCTTGCCCGCAGTTATATTTTGTATTCCACTAAGTGCATGCATTGTTAAGGTTAAAAGAACATTATT
GTGGAGTAATCTGTGAAAGACAGACACTTCAAAGAGATAAATACTCACTTCTGTTACATAAACAATTAACTCAAGTCATTTGCTTCATGGTAAAAGACAA
AGCTAGAGCCAAATCCAAATACTGTGGTATCAGTGCAGTCAGGGGAACAAAGATTCCTTTAAGTGAAACACCGTCATTCAATCAAAGCAGAAATAGTTTT
GGAGAAATAGACAATAAGAGTGGAAGGAGAAGAGACTCTCTAGGACTAAGAGTGACTTGAAATATTCCACAGTAAAGTCTGTCTCTATTGTGAGTTTTGA
GTCARAAAGTCACTTTGCTTCCAAGATTCATTACTTAATACCTAATGTATACAGCTTTATTGTTTACAAAAGTGCATTTGCACTTAAGTTGTACAGACAT
GCTGTAAGCTAGGTATTATGTGTATTAATAATAGCTAATACTTATTTAGCAGTTCAGAATTTGCCAAATTCCATCTATCTYTTTTTCATTTTCTTCATTC
CTCTTACAATTTTTGAAGATGAGAAAAAGAGTCTCAAAAAGTTAAAGTATTATAATTTGGCCAAAATCACAGGACTAGTAACAGCAAAAACTAGGTATTA
AGCAGTCTTCTGACTATAGGTCCTCTTTCTATGTAGTACCTCCTGTTCCTCATATTTCTTAAGACTATTTTTTTCTACTTGGTTAATGATCTTTTTTATA
ATAAATTCTTACATTCACTATATTATTTTCTAGGTATCTCAGAATGAAAACCACTTTAAATTTTAGATTATGTACCTTGATCTTTCTTTCAGTTTGCATT
TCATTCCCAATCAGACCACACTGTCTTTCTGAAGGCATACACTGCAATTTCTAGCACAGAACTTAGCCTTCGCAGCAGAGATAGTAAACTAAGTCAGTAA
TTGGTTGAGCTAGAACCTCAGCCCAAGTCCTAACATCTGGGGCAAGGAGCTGAGGAGACTAAGGAGCAAGAGATGAAAAGAGATACATTACAGTAAAATG
TAGAGATTTGTTCAGATCTCCAGATTAGTAAATGCGCTTCTAGCATATCATATCTCCTATAAAGCAGCGTGATCAAAAGGAGCAATAAAGCCTTCTGAGC
TGCTGACACTGCAAGGTTGGCTGGGCACGCTCTTGAACTAAGTAACTTGCTTCTGAACTTAAGCCTCACTTGACGCAACAAAATTGCAAGTTAGCAAACA
GCATGGAGTATAGAAATCACACTTATTTAGATGAAATCAAAATGTTAAATGCAGAAATGCTAAAAATTACTCTAAGCATAAAGGACTAGTTGACTTTTAT
CTACTTAAATTCCTTTAATGGTCTTTACCAAACTTGCTGTTATCTAAAAAGCATTCCTCAGTGACTCTTCACCCTTGAAGATGCTTCTGGAGAGTTTAAG
ATGCAAGTCTGTGTATGTGTGTGTGTGTGTGTGCACACATGCATATGCACAGCTTATGTGTACATGTTTGTATATTATAGTATAAGTATAGTATAAGTTA
ACCATTTTCCTTGACCTCAAAGGTAAGGGCTAAGGCGCTAGCTCAACTGCAGGTTTGCTTATCTGTCAAATCAAATCAAATTTTGCTGATTTGCCAGATT
CAAATCAGAAGGATCTGACTCATGGGGCTGTTTCCACGAATGTTACAATGCTCATGAATATGCTCTGCAATATCATATATAACAGAAGACTGCCTTTCTC
TCAAGATTTTATAGAAGAGCAAATGGATGTAAATAAACCTCTTGGGTGGTCTTTTGAAGGAAAAGAAGTCTGAGAATTCCCRTCACCCTTCTATTTCTCT
CTTCTGATCCTGATGATTGTCTCCCTGGTGTTGACACTCTTCATGTGCCTGGCTTACTTCCCAGGTCAAATTGCACTTTCCTTGTTTGCAGTGATTATGC
TTCCTTAACCTACATTTCTTTAAAGAGCCTATGACATAGCATCCAATCTCTTGAAGGGAGGAAAGTTAGWCTTTGCCTGCTTTACCTTGGTGGAACAGAG
GTATATTGGGTTTATTTCTAATTAGCTTATTGATTTCAGTCTCATTACCTTACAGTAACATATTGAAAACAGGTATTTTGGGCACTAGCTGGTAGGCCTG
ACTTCACCTAAACAAGATTTCTGGAATTTCTTTCCAGACATCTAATTATAGCAGTCCTGCATCGTCCTTTGGGTATGGTTGGTGTGAGAGTCAGCTTCTC
CTAAAACAGGAAAGTTTTGGAGACTGAATCCTGGCTCTACCTCTTCCCAGCTATGATACAGGACACTGATTTCACCTCTTTAGCCTCAATTATCCATCTG
TAAAATAGGTATGCTAATACCATCTCCATAGTGGCTCCATGAGGAATGGAAAAATGTTGAAAACACCAGTGCCTGCTCACAGGAGACCCTCACTCAATTT
TACTCCCTTCTCTCTGCACTGCCACCATCTCTGTCACTGCTCCCACATTCCCACAATCTTTACACTGCTCCTCACTTGTAGTTCACGACATCTCTCAGTA
ATAAACTCTTGAACTCACCTTTAATAATAATTGTACCACTTCTGTTGTCCTAGCTAGCTTCAGCTCCAAGCTCTTCTCCTTCCCTGGTATCCTCAAACCT
GACATTGCTGACCCTTCACACAACCTCCCTGATTTTAAAGGCTTTGACTCTGGGTGTGATGCCCACTGAAGCTGTCACTGTGACTGATTAGCACAGGTTC
TGCCAGCTTCAACCCTGCCTGCCCCYCTTCATGAACTTCACTCCATATAGGAAGCACGGCTTACTTCAAAATGGAAAAAATGTGTGAAAGAATCTTAGAG
ATGGTATTACAATTTAGTTTTCATTATTACTGAGTGGTTAGAGAAGGAGTGGACAAATCCAAGACTATCTTGAAGTGAATAGAAACTTTCACTTTATTCT
AGCACTTGCTAAGTTGCTCTCAKTCTGCAAAGTCACTTTCACAGCATCCTTTTGACATTTAGACCCATTATTGCTATGAACTCTCATTGTCCTGTGTTCC
TAAACTGTCACTGCATCCTTTGTTTTGTTTGACTTGTTACTGTTTTTTATAAGAGTTCATTTTGAATGTGACCTCAATGTGATAAATGTTATAGTTGTTT
ATCAGGTGGGTCTAATCTTGCCAAGCATAACTCTGACTCAAGTTCCACAGACTCCCAACTAAGCCACTAGTTTATTCACAAAAGTTGCCAGGTTTTCTGG
TTATATGGCTCTTTCTCACTGTGTATATTATTGCTCTKTAGTTAGAAGACAAAGCTAGAGTTTTGGAGGTTATCTTTGTTTTTGTTGTTGTTGTTGTCTT
TTAGTCTCTAATATTTAAACTGCTCCCAGATAGGCTCCCAGATATAAACTGCTCTCAGATATTTTGATGGATCCACTCTACTGCTTTCTTTTTTCTACTC
TACCTTCGCACTTTAGTCATTTGGTAATTGCATTCTAAAATTATTTGRAAATAACCAGTCTGTGATTTCAGAGCATTAAAATATATGCATAAAAACCTGT
ACTAGTGCCTTCTACATCCTGCATCAAGTCCAGAATTGTTCTCTAATTTCAAATTCCCTAGCAATTCAACACCACTTTCACCCAAATATTCCCTCATTAT
TTTTTAGCATGCACTCTCTGATTTAGTAAGTACATTTTTAGTATAATTCCTATTGCATACTACACACACTCCCAACTCTTGCCCTTTGCCAAGATCTTTC
CCCAATCTAGAATTCATTTCCCCTTTGTCTCTTCCAGCCTCATCTCCTTTACACTACCGTATAAATTCAGTCTTTGCCTGTCTTGTTCACCACTATATCC
CAGTATAAAGAAATTTTCCTGGTACATGATAAAGTCTCAGCACATATTTATACACTTACTAACTGACTGTTCTTCAAAGCCCACTTCAAAGCTAATCCCT
TTCTTAACCCACTCTATCTAGTAGTACAGCGTGTAGATGCAATTTTCTTATTGCATTTGAACTTCCAGAGAGCTCCTGGTGCTGTARAGTTCTCTGACAG
GACAGTCTGATTCTCATCATGTGTATTAATTAGTAATTTGTGGTTAAAGACATCATCTTGGAGGTCCCTGTTTTGTTTGACATCCTGGAATACTTCTACA
CTGCGCTACTGCAAGAAAAATGATTTTAACATATTTTAGATTTTCTGTAATTTAAAAGAAGATTATTTATACTCCAAAGATAAAATCAGTAGCAATTACA
AGAGAAGTTCAAAAGTAACTTTTTTATAAATGTCAAGTCAAGGCGGGAAAGCAATTATATAAAGTGATTCAATATCATATTGGACTCACTCAAGATTAAG
AAATAGTGGCATTTTTCTTGTTTTGACCATGAAGCAAAATAGTTAAGGGTAAAGGAACATTATGTAATTTATTATAAAATAAATATAATATAGCCCATAT
GCACTAAAAAAATCCAGTGGCAATCTCCTAATACTGAAATGACTCATTTACAAGCCAAATGTAAAATGGGCATCAAAGACATATGGTAAGAAGCATTCAA
AGACAATCTTGGACTATCATATGCATGTCTGTAAAATAGTCCACAATTAAATTTACTAATTMTGGGGAAGAGTAAGCTCTCTTTGGACTATCTCAGCTTT
GATTTACTTCTTAAAAAGGACACTCTTTTTTCTGCCCTTATTGAGGTATAATTAACAAATAAAAGTTATACGTATGAGGCACAAGGTGATGTGACATATG
TATACATTGTGAAATGATTACCATAATCAGGCTAATTAACATATCTATCCACCTCATATGRCTACCTTTTTGTGTGTGTTGTGAGAACATTTAAGATCTA
CTCTGACACTCTTCTTAATCTAACTTGAATTCTTGGTTGAAGGGGGACTTTGGTGACCTTTATGCTATTCTCCTCAAAACCTTAAAAAGTGGTTTAGTTG
GCATCATTTCACAGATCTCAAAACACTCCTTTGTGCTGAGATTGTATCTAGAATGTATTGATCATGGCATTTTCCATAGAGAATCCTTTTGCTACATTCA
TTTCAGGCCTTTTCTTGAACTGTCCTTGTGCCTAGGGTTCCAGCAAGCTGGTTCTCTTGCTCTGACTCTAATACGCCCATGATGCTTTTCACTCTTTCCT
TGTARCCACAATTGTGTTAGCAAATGAGCCTCAAGGAGCTGAAAAACTGATCTTCAGCTGATGGGTCTTTTTGACAAGTTTAGAGGGTTTGTCTAAAGTA
GGAATTCTTTATACATTCAACATTAGATAAAGTATAAACATGATYACATTTTATAAATAGCTGTTTTGAATCAGCAAAACTAAAAAATTTTGATTTAGCC
CTTTGGGGCCCATTTATTCTCTAGGGCAAACAAATGATGTCTATGGTCCTCTTCTTTGAGGGGCCAATTAGATTAGGACATAGCAAAGCTTACTCAATGT
CTACTTTTTTTTTTTTTTTTTTTACAGTCACAATATTCTTCTCTATGAGGATGGGCATGCTGTGGTGGCAGATTTTGGAGGTGAGATACCCCMAAATGGC
ATCCTTTTTTTCTTTGTTCCTAGCTGGTACAATATGGTGCCTGATATTGTACCATGAAACTGAACACTGAACACTGACAGCTATACTACACTGAACACTG
ACAGCTATCCTACCATAAATCATTCAAATTTCAATGACCCTACATTTTGAAACTCTGTCATTTATTTCTAGTTTTTCTTCTTTCTTATCTCCAGCCAAGA
GAAGGGAAGTGAGAATTTGAATAAGACAGAAGTCTCTTGAGGTTTCAAAATTTTAACTGTGATCTTTTACCTTGGTTTTAAGATATTTCMTTTGACGTGA
TTTATTTTCTCTTTCCCTCAGAATCAAGATTTCTACAGTCTCTGGATGAAGACAACATGACAAAACAACCTGGGGTTTGCTGCTGCTTGTGTTTCCTATA
ATTATAARCCAATTAAAATATGTAAACTCAGCATGAGAGGAYGTAAGATGARAGCAGTTTTAATTGGAAGAAATGTCATTGTCTCAGTGTTGGGATAATG
GCTTATGTCTTTATTTTTAGTAAGCTGTCAAAATAACTATCTCAAGGCTCTACTAGAGAAATAGATAAKATATATATTTGGAAAACAGTATGGATAAAAT
AATACAGAATATGTTTCAAATATAACTGAAAAGAACGTTGTGGRCATGGATCTTTTCATATTTAGATCACCTAACTACTTATAGTAAAGTAAACATTTAA
TAGGGAACTCACAATAAAATTAGTAGTTCATCAGCATCTATTAACTATTCATCRTTCTCCACTTTAACATTGTAATGTAATAAGTGGTATATCCAAGTAT
TAATGTTTAAGTAAAATATAAATTATAATAACTGAAGCAAGGATAATTGTACTCAAAATGTCTGCAATTAAATTCATTACCTGCCCTCTCCTTCACTCTC
CCCAATCCCTCCCCCTGAAAAAAAGTAGACTTCTCTTTCTGGACTACTTGTGATAACTAATTACCTAAGGCTGGAGTAATTTTTCATTCTTTCCCTTTCC
TGCTTCTACTTACACTCAGTCACCTTTTCTGGATGTCTCTTTCTTTTCTTTAAGTTCATCTTAACCTCTTAAACCTCTCACTTCCTGCTGCTTCAGTTCA
GATTCTCGTCACTTCTTTTCTGGACTAGTGTCATAATAGGCTTCTAACTCCAGTCCTCTCTTCTTGTTCATTTTTTGCATCATCAACTAAGTTCTCATTC
CTATGGAGCTAATATTCTACTGGAAGGGGATAAATACTGGACAAATTAACAAAATATATCTCAGGCAGTGATGAGTGTTATGAAGAAAAATAAAAGCAGA
GTAAATGAATGGAGAGTGATGAGGTTGACATTTAGATAGGATGAAGGAAAACGTTAACATTTAATAAGAGGCCTGACATGGGAGTAATCTACATGGGGGG
AGAGCTATGCAGGTGGGGGCAATAGTARGTGCAGAGGTCCTGGGGCAGGAGAGTTCTTGGTGTGTTCAAACTAACATGGCTGGAGTGAGGTGAGCAAGGA
GGAAAGTGGCAGTTTATGAGGTAAGGGAGGTGGGAACAATAAGTGATCTTTTGGCAGGACACAAAGCTCATCCCAGACATGGGACATAGAGGCAACTAAA
TTAGTGGTCCTCAAGCCTAGCTGCACATTAAAATAAGTTTAGAAACTTTTTTTAAGCATAGTGCCCGAATCTGATCCCCAGAAATTATGATTTTATTGGC
CTAAGACTGATCTTGAGTTCCTGCATCTTTTAAAAATTCCCCCACATAATTCTAAAAAGCARTTAGTTGAGACTCTCCAACTAAATAAGCTTTTGTTGAA
TGTAATTAAATTGAATTTAACCAACAGCAAATAATATTAACTCTCTTATTCTAGCCGCATAGTCTTTAAGCACAGCACTAATAAATAAATAAATTAGTGC
TAATAAATAAATTAGTGCTGTGCTTAAAGACTATGCTGCTAGAATAAGAGAGTTAATTTGAAATTTATTTTGAAAGCTGTTTTGTTTCTCATTAGTTATG
TGGCTTTATGTATGTTATCTAATCAGTCTATGACCCCTCTGTGCAAAAACGGGCATACTGTGTACCTGCTCCCACATATACAATGTTGTGACACAATGCA
TAATCTGCTATAAAAATGTAGACTCTTTGGAATGTGGAAGCTCATGCAGAAGAATTGCATATGAGCACCATAATAAGAATAAAGATATTATTGRAAAGCT
GTAACTATGCATGGTTTCAAAATAAGGTGGACATTTCAAAAGAATTAGCAACCAACACTACACACAAGATTTTGGTAAGAGTGATAAAAGAATAATGGTT
TCCTTCAATGGACATTTAAAAGTGTGTAGCAAAGTTTATTAATAAAATAAAGTGCAATGAGGATTTAGAACTGGGAGGGTGTGGCTCCTCTGTTTTGTCC
TTGAGGAATCTGAGGTCCAGGAAACATGACATACTGAACAGCTACCCAGAGCTGTTCAGTAAGTGGTAGAGCCAGAACTAGAATTTTCATCTCCTAACTC
TAAATCCAGTGTTCTGCGCCCTAAACTAGAAATCAACCAAATTTATGCATTTGCATCCCAGAATGGAAACTAATTTTTTTAACTGAAAAATGTGAAATTA
CAAATGAAAAGAATGTAAATAATGTCATCGAAACAGAGGCTAGAACTTTGTAYGGAGGGACTTGTAATATTTTATGGGCTTCCTTTCTGGAATATTGCAC
AAACAGCATTCATAAATAGCACATCTGGGCAGAGAAAGTAAGACAGACCTGATCCAGCCAGTGATAAATCTACTTCATAGGAATATTCTAGGAACTCCTC
GGGAGCCATTTCTCTCCTCAGCCATGAGCACACTATTTATGGGCCTAATTTAGTAACTTCCTAAATTACAACCTGAAGACTTGAAGGAGGTGCCTCCCAC
AGTGTGTGATTCACTCCCAGGGAGACATAGGGTCCCTGGATGAATCCATGGTTGGCTATTCTGAACCTTGTAAGGCTTCTAAGGGAGGAAGATGTTTATA
GATTTAAAAAAATAATGCTGCTTCTCATTGTATAAGAGGCAGACTTACTTGATGATTAATTACTTGTGTGATGTTTTAGGAAGAATTATGAACTTTATGA
TCTTCCAATGATTAAAAAATGCCCTTTGAGGAACTGAACAGCCACAGTAAACACACYGTGTATGTATAAACATGTTTATTGCACACACTGAGGGCAATAT
GTATGGATGTTAATTTATATTTATGCCTTTTGAGAGCATCGGGAGAACACAGTAAATTCTCACTARGAAGAATGCTACTCTGCAGTGGAAGAACCAAACA
CTTGGTAAATGGCTTGTGGATGTTTCTTGATGTGCAGAACCTCCGTTGGATGGCTCCTGAGGTGTTCAYGCAGTGCACTCGGTACACCATCAAAGCAGAT
GTCTTCAGCTATGCTCTGTGTCTGTGGGAAATTCTCACTGGCGAAATTCCATTCGCTCATCTCAAGCCAGGTAAGACACACTGCAATTGAAGTTTTCCTG
TTTTACAGRGTTCACTGGATTTTTATAACTTCAAGAAAATTTTTTTTCACAAAATGATTAGTCTCAGTGAGATGGCAAAAGAGGAGGTAAGCAAACAATC
TTAAATTGTTTTAAGGTGTGTGCCCAACCCAGAAAATTTAATGACTTACCTGTGATTTCAGACCGAGACACACAGAAATGCAGGTATATTTTATTAAAGT
TTGGGACTTGATTTATTGATTGTTAATAAAACAAGCAAATAACTATGATCATGTGGCATGTGAGAGCAAATAAGGTGGACAATGTGATATTTATTTTTTG
AGGTGAGATTTTAGAATTGCCCTTTTAACATGTATATAGGGATAAGAAAGTAGTAACACAGAAATAACCTGTTAAGGCTGCTCTCTGCTTATCTCACATC
ATAAAAAAGAAGATGGGTTTTCCTAACGTTTTTGTATTATATGCATATATATATATATGGATACATTCTAAAAATGGGGCATGCAGTGAGTCTGGCTTTC
ATTGATGATACACATTATGCTTTGCTCATGTGTAGAAAGTGAAGGTGAGGAATCTAATCACAGGTAAAATATACACATATTTTAGGTTTAAAGTAAACTT
CATTTGCATCTATCTCTCAATTGCATTTGGATTGCTTTCATATCTTGTCACACTAGACAAATCTCCTTAAGGACTTTGCATCCCTAAAACTTAGCACACT
TGTAAAGTAGTTGTCAAATGTAATCATAAGTAATTTTAAATAATTATATTGTAATCTCCTAATGGCCACCCTACAACAATATATAAGAAGGATAAAGTCA
AAAGAGATGTTACTTAAACATCCCTTTTAACAAGTTAAAAGTCTTGACCAAGATCAAAATATTTATGAGTACTCATGTACAGAGAGGTAGCCACATCTCA
TCTCATACTCTATTTTGGAGTTTTTTTTCCCCAACCTACCATATGGTCTTTTAATTACACCCTGCATAGCAGAGTGCTTTTCACAGGTTATGTGCTCTGT
GCATAGTTTGTTAAGCGTAATGATGATGTAATTGTCCTAATTTTTCTCTACATATTTTCTATAGTTTTAAATTAGACTTAGCCCTTATTATAGTGTGGAT
GTGTGGACTCTATTTTGAGCTGTACCAACATTGCCATTTGTAAGGTCTTGTTCTGATCTCTTTCCTTCTCTCCACTTCTTAGAGTGTGCATCCTGATAAG
ATTGATGGATATACAGAAAATTGATTATAATTTTAGATGTACTATGGTGTTTTTTCGTAAGAAAGAAATACAACTCCTTTTGCTTCATCCCCTGTGTCAA
TCCATTAACCTGGCCCTGTTTATTTTACCTTCTAATACATGGGTTTCTCTACCACTTACCATCATCCACCACCATCGTAGCCCAAGCCATCTTTCCTTTA
AACCACTGCAATAGTCTTTTTAAAAATAGGGTTTATTTAGGCATAATATACCTGCAGTAAAATTTACCTTTCTAGGTTAACACTTCAATGAGTTTTAATA
AATATATACAGCTGTATAACCACAATGGCAATCAAGATGTATAACATTTCCATCACTCCAAAAAGTTCCCAGTGCCTGTCTGGGATCAATCCACTTCTCA
CACCTCCAGCCCTTGGCAACCAATGACCTCATTTCTGTCCGGATAAGCTTACTTATATACCAATGYCATATAAATGGAATCATGTTGCTTCATTTATCAG
TAATTTATTCTTTTTCACTACTTTGTAATATTTCATATTATAGATGTGCCATGATTTATTTATGCATACAGAAGTTCATGACCATTTGAGTTCTTCTCAT
TTTAGGGCTATTAAGAATAAATCTGCTCAAATAATTGAGGCTTTTGTGTGGTTGTTTTTGTTTCCATTGAATAAATGAGTAACAGATGGATTGCTACATG
TTATAATAAGAGTTTTTCCAAGGTGTCTGTACCATTATGAATTTCCAACAGTAGTCGGTGAGAATTTCAGTTGTTTCACRTCCTTGCCAGCACTTTGAGT
TGTTTATTTTTAAATATATATGTATATATTAGGCATTTGAGTGGGGGTACATGGAACATCATTGTGATATTTACATTTCACTGATGACTAGAAATATTGA
CACTTTATGTGCTTGTTTGATATCCATATTTCTTCTGTGAAATGTTTGTTTAAATAGTCTCATCATTTAGTTGTAAGAGTTCTTAGATTATAGGGATTAT
AGGGAGAAGTACTTTATCTGCTACATGTTTTGCAAGGATTTTCCTGTAATCTGTGGCTTGCCTTTTTGTATTCTCAGCAATGTCTTTCAAAGAGCAGATG
TTTTTAATGTCAATGAAATCCATCTTATGAAAATTTTAAATCAATTTGTATCCTATCTAAAAATATTTTTGCCTTACTCAAAGCCATAAAAACTTCCCCC
TATTTTTTTTATAGAAGTCTTACAGGTTTAGGTTTTATATTTATAAGATCTATTTTGAGTTCTTATTTTTTTAAAGTACCCAGTTTGGGTTGAATTTGGT
ATTCTTTGGTTTATTCCTTTGTTTTTTTTAATACAGATGTCCAATTCTTTTCTCATAATTTTTCAAAACTACTATCCTTTCTTATTAAATTATTTTGGTA
CATTTTTCAAAAATCAGTTGACCATATATGTATGCACTTATTTCCAACTCTATTCTGTTTCACTGATCATGTGTCTACCCTTAAATCAATACCACACTAT
CTTACTATATTATAGTGAGTCGTGAAATTAAGTAATGTGAATCCTCCAACTTTGTTCTTCTTTGTTAAAAAGGCTCTGGCCATCTAGATTTTTTTTGCTT
TTCCATATAAATTTTAGAATCAGCTTGTCTATATTCCTATAAAAAGCTTGTTGGAATTTGATTCGATTGTATTGAATTATTAGATCAATTTGGGAAGAAT
GAACATCTTAACCGTGTTAGTCTTCTGCTCAATAAACATGGTTTATCTCTATCTTCACTTAGGTCTTCTTAAATTTCATACATTACATAATTTGTTATAT
ATTTTAGCATACAAACCTTGCATATTTTTATTATACTTATCTCTATCTATTTTGTGTCTCTTGATATATTGTAAATGTTACTCTTAAAAATATCAATGTC
CTAATTGGAAGTAAAACACTCCTAAGCCAATGCAAAACAACTGAAATCATAACAAACAGTCTCTATGGCCACGGCACAATCAAATTAGAATTTAAGATTA
AGAAACTCATTAAAAATCACACGACTACATGAAAATTCAAAACCTGCTTCTGAATGAATCCTGAGTAAAAAAATGAAATTAAGGCAGAGATCAAGAAGTT
ATTTGAAACCAGTGAGAACAAAGAGACAACATACCAGAATCTCTGAGATGCAGCTAAAGCAGCGTTGAGATAAATTTATAGCACTAAATGCCCACCTCAA
AAAGCTAGAAAGATCTCAAATTGACATCCTAACAATTACAACAAAAACAACTGGAGAACCAAGAGAAAACAACCACCAAAGCTAGCAGAAGAAAAGAAAT
AACCTACATCAGAGTGAACTGAAGGATATAGAGACACAAAAAACCTTTCAGAAAATCAATGAATCCAGGAGGTGGTTTTTTGAAAAAATTAATAAAATAG
ATACACCGCTAGCTAGACCAATAAAGAAGAAAAGAGAATAATCAAATAGGCATAATAAAAAATGATAAAGAGGATATAATTGTGACTCCACAGAAATACA
AACAACCACCAGAGAATACTATAAACACCTCTATGCAAATAAACTAGACAATCTAGAAGAAATGGATAAATACCTGGATATGTACACCCCCGCAAGACTG
AACCAGGAAGAAGTTGCTTGCATGAATAGACCAATAATAAGTTCTGAAATTGAGGCAATAATAAATAGCCTATCAACAAAAAAAAGCCCAGGACCAGACG
GATTTACAACTGAATTCTACCTGAGGTACAAAGAGGAGCTGGTACCATTTTTTCTGAAACTATTCCAAACAATTGAAAAGGAAGGACTCCTCCCTAACTC
ATATTATGAGACCAGCATCATCCTGACACCAAAACCTGGCAGAGATACAACAAAAAAAGAAAACTTCAGACCAATATCCCTCATGAATATTGATGCAAAA
ATTCTCAATAAAATACTGGCAAACCAAATCCAGCGGCACATCAAAAAGCTTAGCTACCACAATCAAGTGGGCTTCATCCCCACGATGTAAGGCTGGTTCA
GCATATGCAAATCAATAAACGTAATTCATCACATAAACAGAACTAAAGACAGAAACCTCATGATTATCTCAATAGATTCAGAAAAGGTCTTTGATACAAT
TCAACATCCCTTCATGTTAAAAACTCTCAATAAACTAGGTATTGATGGAACATAGATCAAAATAATAAGAGCCATTTATGACATACCCACAGCGAATATC
ATACTGAATGGGCAAAAGCTGGAAGCATTCCCCTTGAAAACTGGCACAAGACAAGGATGCCTTCTCTCATTACTCCATTCAACATCGTGTTGGAAGTTCT
GGCCAGAACAATCAGGACAAGTGAAAGAAGCTAAGCATATTCAAATAGGAAGAGAGAAAGTCACACTGTCTCTGTTTGCAGATGACATGATTCTATGTCA
AGAAGACCACATTGTCTCAGTCCAAAAACCTATTGTCTCAGTCCTTAAAAACCTATTAAGCTTTAAGCAATGTCAGTAAAGTCTCAGGATACAAATCAAT
GTGCAAAAATCACAAGCATTCCTATACACCAACAATAGACAAGAAGAGAGGCAAATTGTGAATGAACCTCTCACTCACAATTGCTACAAAGAGAAAAAAA
AACCTAGGAATACAACTAACAAGAAAAGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAAGAAATAAGAGAGGACACAAACAAATGGAAAA
ACATTCCATACTCATGGAGAGAAAGAATCAACATCATGAAAATGGCCAGACTGCCCAAAGTAATTTATAGATCCAATGCTATTACCATTAAGTAACTATT
GACGTTCTTCACAGAATTAGAAAAAAAATTTAAATTCATATGGAACCAAAAAAGAGCCCATATAGCCAAGACAATCCTAAGCAAAAAAAATAAAGCTGGA
GGCATCATGGTACCCAACTTCAAACTGCACTACAAGACTACATAACCAAAACATCATGGTAYTGGGAAAAAAAAAAAAGACACATAGACCAATGGAAGAG
AACAAAGAACTCAGAAATAAGACCACACATTTACACATCTATAACCATCTGATCTTTGACAAACCTAACAAAAACAAGCAATGGGGAACCCTATTTAATA
AATTGTGCTGGGAGAACTGGCTAGCCATATGCAGAAAACTGAAGCTGGACCCCTTCCTTATATCTTATACAAAAATTAACTCCAGATGGATTAAAGACTT
AAATGTAAAACCCAAAACCATAAAAACCCTAGAAGAAAATCTAGGCAAGACCATTCAGGACATAGGCATGGACAAAGATTTTATGACAAAAATGTCAGAA
GCAATGTGGCAAAAGCAAAAATTGACAAACGTGATCTAAACTAAAGAACTTCTTTTTTTTTTTTCTTTCTTTTTTTTTTTATTATACTTTAAGTTTTAGG
GTACATGTGCACATTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGCGCTGCACCCACTAACTCGTCATCTAGCATTAGGTATATCTCCC
RATGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATATTCCCCTTCCTGTGTCCATGTGATCTCATTGTTCAATTCCCACCTAT
GAGTGAGAATATGCGGTGTTTGGTTTTTTGTTCTTGCGATAGTTTACTGAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACGTGAACTCA
TCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTTCCACATTTTCTTTTTTTTCTTTTTTTYTTTTTTTTGAGAYGGAGTCTCGCTCTGTCGCC
CAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGTTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACA
GGCGCCCGCCACTACGCCTGGCTAACTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATTTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCC
GCCCACCTTGGCCTCCCAAAGTGCTGGGACTACAGGCGTGAGCCACCGTGCCCGGCCGTTCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTG
GGTTGGTTCCAAGTCTTTGCTAGTGTGAATAATGCCACAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCATTTGGGTATATAC
CCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTTAACTAGTTTACAGTCCCA
CCAACAGTGTAAAAGTGTTCCTGTTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTGTAATGATTGCCATTCTAACTGGTGTGAGATGGTAT
CTCATAGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTC
TGTTCATGTCCTTCGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAATTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGA
TGAGTAGGTTGCGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTATTTTAATTAGATCC
CATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTGGTNNNNNNNNNNNNNNNNNNNNCTTGAATTGATTTTTGTATAAGGTGTAAGGAAGGGATCCAGT
TTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGATTTGTCAAAGATCA
GATAGTTGTAGGTATGCGGCGTTAATTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGT
AGCCTTGTAGTATAGTTTGAAGTCAGGTAATGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCGATGCGGGCTCTTTTTTGGTTCCAT
ATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGAATGGCATTGAATCTGTAAATTACTTTGGGCAGTATGGCCA
TTTTCACGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCTTTGAGCAGTGGTTTGTAGTTCTCCTT
GAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTT
TGTCTGTTGTTGGTGTATAAGAATGCTTGTGATTTTTCCAGAATCTACAATGAACTCAAACAAATTTACAAGGAAAAAAACAAACAACCCCATCAAAAAG
TGGGCGAAGGACATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAAACACATGAAGAAATGCTCATCATCACTGGCCATCAGAGAAATGC
AAATCAAAACCACTATGAGATATCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGMGGAGAAATAGG
AACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGAC
CCAGCCATCCCATTACTGGGTATATACCCAAATGAGTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAATAG
CAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGA
TGAGTTCATATCCTTTGTAGGGACATGGATGAAATTGGAAACCATCATTCTCAGTAAACTATCGCAAGAACAAAAAACCAAACACCGCATATTCTCACTC
ATAGGTGGGAATTGAACAATGAGATCACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTGGTGGGGTCGGGGGAGGGGGGAGGGATAGCATT
GGGAGATATACCTAATGCTAGATGACACATTACTGGGTGCAGCGCACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCACATGTAC
CCTAAAACTTATAGTATAATAAAAAAAAAAAAAAAAAAAAAAAGAATGCTTGTGATTTTTGAACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCT
TATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAATCATGTCGTCTGCAAACAGGGACAATTGACTTCCTCTTTTCCTAATT
GAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCC
GGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATCATTTTGAAATACGTCCCATCA
ATACCTAATTTATTGAGAGTTTTTAGCATGAAGSGTTGTTGAATTTTGTCAAAGGCTTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGG
CTCTGTTTATATGCTGGATTACATTTATTGATTTGCGTATATTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTT
GATGTGCTGCTGGATTTGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGWTATTGGTCTAAAATTCTCTTTTTTGGTTGTGTCT
CTGCCCGGCTTTGGTATCAGAATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTA
CCAGTTCCTCCTTGTACCTCTGGTAGAATTTGGCTGTGAATCCATCTGGTCCTGGACTCTTTTTGGTTGGTAAACTATTGATTATTGCCACAATTTCAGC
TCCTGTTATTGGTCTATTCAGAGATGCAACTTCTTCCTGGTTTAGTCTTYGGAGAGTGTATGTGTAGAGGAATTTATCCATTTCTTCTAGATTTTCCAGT
TTATTTGCGTAGAGGTGTTTGTAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGATATCCCCTTTATCATTTTTTATTGTGTCTATTT
GATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTGATTTTTTGAAT
GGTTTTTTGTGTCTCTGTTTCCTTCAGAAAAGAGTCAAGACCCATCAGTGTGCTGTATTCAGGAAACCCATCTCACGTGCAGAGACACACATAGGCTCAA
AATAAAAGGATGGAGGAAGATCTACCAAGCAAATGGAAAACAAAAAAAGGCAGGGGTTGCAATCCTAGTCTTCGATAAAACAGACTTTAAACCAACAAAG
ATCAAAAGAGACAAAGAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAACTATCCTAAATATATATGCACCCAATACAGGAGCAC
CCAAATTCATAAAGCAAGTCCTGAGTGACCTACAAAGAGACTTAGACTCCCACACATTAATAATGGGAGATTTTAACACCCCACTGTCAACATTAGATAG
ATCAACGAGACAGAAAGTCAACAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAAGCGGACCTAATAGACATCTACAGAACTCTCCACSCCAAATCA
ACAGAATATACATTTTTTTCAGCACSACACCACACCTATTCCAAAATTGACCACATAGTTGGAAGTAAAGCTCTCCTCAGCAAATGTAAAAGAACAGAAA
TTATAACAAACTATCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAATCTCACTCAAAGCCGCTCAACTACATGGAAACTGAACAACCT
GCTCCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAACAAGAACAAAGACACGACATACCAGAATCTCTGG
GACRCATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCCAAAATTGACACCCTAACATCACAATGAA
AAGAACTAGAAAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAACTAAAATCAGAGCAGAACTAAACTAAAGAACTTCTGCACAGCA
AAAGAAGCTATCGTCAGAGTGAGCAGACAATCTACCAAATAGAAAATGTTTATTATCTATCTATCTGAAAAAGGTCTAATACCCACAATCTACAATGGAC
TTAAACAAATTTACATGAAAAAAAACCCATTAAAAAGTGGGCAAAGGACATGAACAGACATGTCTCAAAAGAAGACATTTGTGCGGCCAACAAACATACA
AAAAAACGCCCAACATCACTGATCATTAGAGAAACGCARATCAAAACCACAATGAGACACCATTTCATGCCAGTCAGAATGGCGATTATTAATAAGTCAA
CAAACAACAGATACTGGCAAGGCTGTGGAGAAATAGGAATGCTTTTACACTGATGGTGGGTATGTAAATTGGTTCAACCATCATGGAAGACAATGTGGTG
ATTCCTCAAAGGCCTAGAACCAGACATATCATCTGACCCAGTAATCGCATTACTGGGTATATACCCAAAGGAATATAAATCATTCTATTATAAAGATACA
GGCATGCTTGTGTTCAGTGTGCAGCACTATTCACAATAGCAAAGAGATGGAATCAACCCAAATGCCCATCAATTATAGATTGGATAAGGAAAATGTGGTA
CATATACACCATGGAATATTATGCTGCCATAAAAAGGAATGAGATCATGTCCTTTGCAGGGACATGGATGCTGGAAGCCATTATCCTCAGAAAACTAACA
CAGGAACAGAAAACCAAACACCACATGTTCTCACTTATAAGCGGGARCTAAACAATGAGAACACATGGACACAGGGAGGGGAACAATGCATACTGGGGCC
TGTTGGGGAAGGCAGGGGGAGGGAGAGCACCAGGAAAAATAGCTAATGCATACTGTGCTTAATACCTAGGTGACAGGTTGATAGGTGCAGCAAACCATCA
TGGTACATGTTTACTTATGTAACAAACCTGCACATCCTGCACATGTTTCCCGAGAACTTAATAAAATAAAATGAATCAATGTCCAATTTTTTGCTACTAT
TAATATATAGAAATATAATAAATTTTATTGCAATCTAGTACCCCACAAACTTACTAAATTTACTTCTCCATCCTAGTTCCCTTTTTTATACCTTCTTTGG
GATTTCTACATAAATAATTATGTCATCTGTTAATAAAGAATTTTCTTCCTTCCTTCCTTTCTTTTCTTTCTTTCCTTCCTTCCTTCCTTTTCTTTTTCTT
TCTTTCTTTCCTTTCTTTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTT
CTTTCTTTCTTTTCTTTTCTTTTCTTTTCTTCTTTTCTTTGCCTTTTTGAACAGTCAGGGACCTCCAGTACAATGTTGAATTGAAGTGGTAAGATATATA
CCTCAGATTTGTCTATTTCTCAAAATGTTTCATCTGCCATCACCCTAGTGCAAACTGCCAGCTTTATCATTTGAACTTCTGAAATTGTTTTTGACTGTTC
TTTCTTGGTTTATTTTTGTTTTCTTTTCCTCTCCAATCTCTAAACATCCACTGAAATAATATTTTAAAAACATAAACCTGATATATTACCATTGCTTAAA
ATTATTGTATGGCTTCCCATATTCTTAGCATTAAATCTCAAAATTCTTATGTCCTGTAAAACTCTCCCTGATTCTGTACCTCTCACATTACTAACATCAG
TTCACTTTCTGCACTCTCAGTATGTTGCATTTCATCTGACCTCTAGGCATTTTCACAAGTTCTGTTTCCTCAGTAAATGCAATTAATGATGACTACCACA
AAAAATTACTGTGAGCATTCAATGAGATTATGTTTGTGACCACACTTTATAAATTGCAAACTCTCTGTAACTGTAAGGTGCAAGATTAGGAAAAAGTGTA
ATACRAGGTCAAGGCTCCTTTTGATTCTGTACTTCAGTGGCACTCTCGTTCTCTAGGTGGCCCATGTAGAAACTTCAAAGTCATCCTTGACTCCTCTTTA
GTCTCGTTTTATTTATTTCTCTCTTTCTTTCTTTTTAAAATTATTTTCCTATTTTCAGTTCTACAGTTTATCTCTGAAATCCATCCAGTTATCTCCATCT
CCACTGCTACTTCCTTATTTCACATGTCAAATACAGCACATTATCTTAAATAGTATCCTGCCTTCAGCTTTGCTTATCATCTTTTTTCCACCAATCACTA
GATTTAGCTTTCTAAAAATGCAAATTTGAACATAGCACTTCTTTGACTTAAAATTCCCAGTGTTTTTCTTTTGCTCTTAAGATAAAAACAAAACATCTTA
AAACAATCTTCAAAGCCCCTTATGATTATGTCCCTGCCTGCCTCCCCGGCCTCCATCTCACCACATGCAGCCYGTCATCCAGAGTCATCCCAACCACAGG
AAACTTTCATATCCCCAGCATGTGTCCTCTCACCTCCATGCCTTTGTGCACATTAGTCTCTTTGTCAGAGACACTCTTCTCCACTTTTCATTACAGCAAC
TCCAATTTATTTTTAGGTCTTAGTCTAAATATAATTTCTTTCCAAAAATCTTTCTTAATTCTCCAMTATCAAGTGCAATTTCCTCCTTATCCCAAGTTAC
CATTTATCATTGCATTTATCACATTTTACTCACAGTTTTGTAATTTTCTCTACTTCATTAGACTTTGCTAATTATAAACTAAATACTTAAAAAAGGTAAA
AATGTCCCTGAGATTTTAGTTCATGGACCCCAGAAATAGTTACCCACTTTAGAGGGAGAATATTATTTAATAAAAAGTTGAAAGTCTTGCCTAAGAGTAT
CTTTGTTCCAATATCCCAGATATTAAAATGTATAGTACTTTATTGGAAAGAGATTTTGTTTATGATAGATGCTGAATTTTTCAAAGTTGGACAGTTACCA
TGAATCAAGAAACAAGATGTCTAATATCATTTCAGTGGTTAGGCCATCTAGCATATGTTCAGCAATAAATTATGTGAAGCATCAGATTCAATATAAGCTA
CATATTAGCCATTTACAACGAGGAACGAATCCATGACTGCAAAGTGAGACAGCATTATCAATTATGGTAGTAGCAGCATTATACAGGACTCATCCTTCTG
GATTTAACAGCATACTACTTCCTGGGAAAAATATAAACAAAGAACACCAATATTAGCATTGACTCCTACACAAGTGATAGGGATACATTCAGAAAAGCTT
GAAGTTAGGGTCTCTTTTGCATCTCACATGTTCAAATTAACCTGTAATCTCAGGTTTAGGAAAACTGAAAAACCATCACATCCACCACCTTAAAGGTCAA
ATCAAAAAGATCAAATGCCCACAGGACCATGCAGATGCTCAAGGCAGAACAGTGTGATGAATAAGAAATCACGTGCTCTGACTCACGCTCCAGCCAAACA
GCGCTGAGCAGGAACGTAGGTATACCCACGCTGACCATATCAACTAATTWCTTTCTGCTCATTAATTAAGAAATCTATACATTTTTTAATGTTGGCAATT
AATTCAGCATTTTAAAGAAAATATGTTTCAGGCTAACACCGTAGGGGCTAAAGAGAATTGGCATGTGTCTTGCGACCTTGTGCAATTTATTTAACCTATC
TATACCTTAGTTTATTATTTTTATTCTTAATTCTTTCTTTTATGTTATTATGGATACATAATAATTGTACATATTTATGGGGTACATGTGATGTTTTGAT
TCAGGCATAAAATGTGTAATGATCAAACCAGAATAATAGGGATATCTGACTTAAGCATTTATCATTTCTTTGGATTAGGGACATTCTAATTCTGTTCTTT
AGTTGTTTTAAAACATACAATAAATTATTGTTAACTATAGTCACTCCATTATGCTACTGAATACTAGATCTTATTCATTTTATCTAACTGTACTTTTGTA
TCTATTAACCATTTCCACTTTATCTCATCTTCCCCACTACCCTTCCCAGCCTCTGGTAACTATCATTCTACTTTCTATCTCCATGAGTTCATTTTTATTT
AAGCTCCCACATATGAGCGAGAACATGTGATATTTGTTTTTCTGTGCCTGGCTTATTTCACTTCATATAATGGCTTCCAGTTCCATCCATGTTGTTGCAA
ATGATAGGATTTCATTCTTTTTATGTCTGAATAATATTCCTTGTGAATATGTACCACATTTTCTTTATCCATTTATCTACTGATGTACATTTAGGCTGGT
TCAAAATCTTTACTATTGTTAATTRTGCTGCAGTAAACATGGGAGTGCAGCTATCTCTTAGATATACTGATTTCTTTTCTTTTGGATATATACCTGGCAG
TGGGATTGCTGGATAATATGGTAGTACAATTGTTAGTTTTTTGAGAAACCTCCATGCTGTTCTCCATCTCAGTGACTGTACAAATTAACATTCCCACCAA
CAGTGTATGAGAGTTCCCCTTTCTTTGCATCCTCACAAGCATTCATTTATTTTTTAAATGGACATAATAATAAGACCTACTTCAAAAGGTTAGAGCAGTG
GTTGATAATAATAAGCACTCAGTAAATGTTAGGTATTATTATTATTATTATCTTTAGGCCACCACTGAGTTCTTTCTTTCTGGGCCAGGAACTGTGCCAT
AGTAAGCAGAAAATAAAGAGGAATAGGTCGCTGACCAGGCCATCAAACTACTCATAGTATAGAGAATGAGTGACAGAAGCAAAATCAGCAGAGTAAGTCT
CAACTAGAGAGAAGCACAGAGGACTAAGGATGCTCCCTGGAAGGGCCTTTTACCCAAACTGGAGGAAGTAAAAGGATATCAGGGAAGGATTCTTAGAACA
GATGATACCTGAATGCACTTTTAAAAGATGACTACTAGTTAAATAGGTAAACTATGAAGAAGTGAGGAAGATGATCCAGCAGAAAGCTGTATCAGCAAGG
TCCAGAGGCCTGAGAAATCCACATATAGTTCAGTAGGGATGAATCAGGGAATACAAGGACATCAGTCAAACAACACAGACTATAAATGTAAAACTGGAAC
CAGATGTTGAAAGTCCTTGTACAAGTCAGGGTTCTCTAGAGAAGCAGAACAAGTGGAATATATCTATTTATATGTGTAAGAGGTGATTTATTGTGGTAAT
TGACTCATATGATTATGAAGACCAAGAAATCCCACAATATGCTCTCCACTAACCAGAGAACCCAGAAAGTCAGTGATGTAATTCAGTGTGAGTTCAAAGT
CCTGAGAATCAGGAGGGTCACCACTGTAAGTTCCAGACTCTGAAGGCCCAAGGATCTGAAGTGCTGATATCTGAGGTCAGGAGAAGGTGCATGTCACAGC
CCCAGAAAAGAGAGCTAATTCACCCTTCCTCTGCCTCCTCATTCTGTTGGGGCCCTCAAGGCATTGGATGATGCCTGCCCACATTGGTGAGGGTGGATCT
TTTACACTCAGTCTATGACTCAAATGCTAATCTCTTCAAGAAGCACCCTCACAGACACACTAGAAATAACAGTTTACCAGCTATCTGGGTATCCCTTAGC
CCAGTCAAGTTGACACATTTAATGAACTATCACAGGCCTTGTGTGTGTCATCAATGGAGGTCACTGCAAAGTTTTAAAAAGGAATATAGAACAACTCTTA
TTATTATTTTAGAATGCTTCTCTTGTAACAAAGCAAAGGCTGGACTGGAGAAATTCAAAACTGGAAGCAGGGAAATCAGTTCATCTAGAAGAAATATCTA
TTACGTTAACTGAAGCAGTAGCTTTGAAAGAGAAAGGAGATATTGGTTTAGGGAGATTTTAATAGGACTTCTGAATGGATTGAGGTGGGAGCACAAGGGA
AATGAGGAGGTCAAGAAAGACTTCCAGGCTTCTGGCTTAACCATCATGATAATGATGGATACAAGAAAAGGAGCAGATTTATGAGGGAAATTATCAGATT
AGGAGGAGAAGGAGCCAAGGTGTGAAGCCAAACAGATAGAGAAGAACCAGGCAAGATGAAAAATAAGCAGGCACAACCTGGCAAATAAGAGCTGTCCTCA
ATACATTTTAGAGAAAGAAATCAACACCTGCTTCCCAGATTTCATTTCTCTCCTGGGCTTGTCTCCTCTGATACATCATGATCAACTAAAGAAGAAAGCT
GAGATGAATTAATCCATCAATATGTATTGTATCCATTCCCATTTCCTTATAACCAGGTACCCAGATTTGTGGATCACTTTCAAATTATAGTCTGRGCCCA
AAGAAGAGAGTCTCTTGTTTTCTTTTTGTTTTCCTGTGTGACGCCAGCTGGTTCACAAAGAGATTTAACTCTGTGTCCTSGGATTCCTTAATGCCAGGCT
CTTAGTAGTCTAGGATATAGCAGTAATTTAAGAACATCTGCCAATTTTTTCTAGGCAGGTTTTGGTGAGACTTCATATTGAGACTTTAACTCAGAGTTGC
AAACTGGAAGTCCAGGAACCAAATATGGCTTGCAGACTTTTTTATGTCACATATGGTATTTAAAAATATGAATTAAAGTACATTTAAAGACACAGATATT
CAATAGGTCTCATATTGGTAGCCATTTGAGTTTACTACCCCTCCTTAAATATTAGATGATTATGTCCTTTTCCACATATTATTTGGACCCTAAAGCATTC
TGGATATAATAACTTCATAGGATACAAACACACTGATGATGTGGACTGTTCTTTGACAAGCGGCAGGAAAATAGGAGTGAGCTAAATTTCTGAAATCTTA
TGTTTATTGTGCTAATCCTTATCAGTTTATCACTAAAAGGAGTAGAGCCAACCAATCACCACGCAGATCACTGGAAAGATTAAATCAGTCCAATAGATGG
AGATATTTCTATGAATATAGCTGATATTAACATTCCAATATTTCATTACACTGACAAAGATTGCAATGAGAACAGACAATGGAACAAATTAATCTATTCT
TCTGACAGTATGTAATGAGAATGGGATGTGGTTTAAAAAATTAAGCCATTCTTAGTGCAATCTCAAGATTGCAATCTCATGGTCTCTCTCAGATGCTATA
CACTCTGGTGATACGTCATTGAAAAGTGTCAGTTTAACAAAGAATGTGTCTTAGCTCTTGCTGGGATTGTAGAACACATTTGCTTTGTCTCACCGCAGCC
CTGCCCATTAAAAACAATGAAGTAGAATCAATTATACTTTTCAGAACACACATAAACACAATCAAAGTTGAAAAATTAAGATACTTCTGGCAATTTTATA
TTGGTCAAAACTTACTAACAAAATATTGTAGCGTATTGCTCTCTTTTTAATCTTTTTAATGTGAGTTTCTAAATTTAATTTTATAAAACAGAAGACAGTG
AAAGGTTACTTTAGGGATTGAGAATCTAATACTAACTTATCCGTAAGTGGGGTATAGATAATTAAGGCTGTCATGGAGAGCTGCACAGTCATTCTCTCTG
CATAGTCATATTGCATTATGAGCTGAGCCTTATGACCAGTGAGATAGGTTGTAGCCTTAAAATTTGCAGTAACTCAATGTAATATTTTACTTGGTATTCA
TACCCAAAGAGAACCTAAAAAGGACCTAAGTTGACTGGTGTTCTAAACAAAACAGAAAACATACAATTATGTTTTTTATATCTAGCTCTCTAGGTTCAAA
CCAAAAAGAATTGGTAAGACTTTTAGATGTGCAGATGATGATAATAGCAACAACAACGCAGCTACACTTGTTGAGAGCCAACAATGTGCCTGGAGCTCCA
TGTATACTATCTCAGTTAGTCCTACTAACCTGTGGGTTAAGTTCTTTTAGGATAAGACATTTGCTCAATGTCACATGCTAGTAAGAGGGCAGTCAAGACT
TAAATACTCAGGTTCTCTGTCTTCAAAGCCCATGTTTGCCACGATTATACTCTGTCTTCCCTGCTTCATCTTACATTTAGCAAAATTAATGCTCATGAGG
CAAATTGGTTTAATTAGTATCTCCCAGAGAGTTTACAGCAAAGCCAGACTGAAAATTAGACCTCCAGATTTCCTTGGTAAAGGTACTTCTTATTATGTCA
CTCTGCTTTAATTTATTGAAGCACCTCCTCCCATATTTTTGAATGAAAGATATTATATTGATTAAATTTGCCACTAGATTTCAGTAATTTACCTGCTCAT
GTTGTCATCTAGAATTAAACTAAACATTATATTCACTCTACAGTGTTTCTTGATGGCTAGGCATTGTGCCCTATTCTCTAAACATAATAATGAATAAGAT
ATTTATTGCTGTTAAGCTATCATCTTCATTCATTTATTCAATAAATGTTACTGAGTCCTATATACCAGAATTTATATGAGTTCCAGTTAAATAACACTTT
TAGTGCCTATGTTTTTTAATTGTTTACTGTTATTCAACTTCTATTTTAGATTCAGGGGGTACATGTGCAGGTTCATTGGTATATTGTGATGCTCAGGTTT
GGGTTATAGATCTCATCACCAGGCAGTGAGCATAGTACCCAATAGGTAGTTTTTCAACTTGCCCCTCTCTCTCCCTTCCTCCTCTAGTAGTCTGCAGTGT
CTATTGTTCTCATCTTTATGTCCATGTGTACCCAAAGTTTAGTTCCCACTTATAGGTGAGAACATGTGTTATTTGGTTTTCTGGTCCTGCATTAATTCCC
CTTGGATAATGACCTCTACTGTCCACAATAGCAAAGACATGGAATCAACTTAGGTGCACATCAACAGAGGATTGGATAAAGAAAATGTGGTACATACACA
CCATAGAATACTATATGGCCATAAAAAGAACAAAATAATGTCCATTGCAGCAACATGGATGTAGCTGGAGGCCATTATCCTAAGGGAAATAATGCATACC
TTTTGAATACCTATTAATAGCCAAGTACTGTGCTAGGCACAGAAGATACAATGGTGAAAAGACACAGTCCCTGACCTCAAGGCATTTATGATCTATATGC
ACAGGCAGACAAATAAAGAGGCAATTAAGTATAATACATGTTATGATAGTACAGGTTGTTATGGAAGTACATAGGAAGGGTACCCAGGAAAAGTCAATCA
AAGATAAGAGCTAAATGACAGTAGATGTTACGAAGGAAAAAGAGGTAGGGGAGAACATTCCAGGCAAAAGGAATCGCATTTTAGAATTAACAACTGAACC
ATAAAATGCAGTGAAAAAAACTAGGCATTCACATATTTCTTATTTATTCATTTACCAATTTTCATTGAAAAAAATAACACCAGATTATTTTTGGTTTATT
ATCACTTACATAAAATAGTCAGTACATTTTGACAAATGAATACATGAATGAGGTTATCACATGTTGTGCTGAATGCCTGTTCTGTAGCTTTTCACTGGTC
TATCACTTTTGAGAAACAACATACACAATCTCCATTCATGTCTTTTCTTTTCTTGATAAAGTATCGACAAACAAGGGAGAAGTTGAATCCACAAATTGAC
ACCATGGTTATATAGACTCTGCAGCTGACTCACAATACTGGGTTTAACTCTTGTTTTTCAGGATAATGAGAGTGCAAGCTATGCTCTAGAATTATGTTGT
TTAATATGAAAGCCACTTACCATGACTATTTAAATTTATATTAAATAAAATTAAACAAATTAAAAACTCAATTTATCAGTCACACTAGCCACATTTTAAG
TGCTCTGTAACTTTATGCTATCATATTTAACAACATATAACTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCAC
GATCTCGACTCACTGCAACCTCTGCCTCCCAGGTTGAAGTGATTTTCCTGCCTCGAGTAGCTGGGACTACAGGCGCCAGCCACCACGTCCAGCTAATTTT
TTGTGTTTTTAGTAGAGATGCGGTTTCACCCTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCTGCCGCCTCGGCCTCCCAAAGTGCTGGGAT
TACAAGAACATTTTTATCAGTGTAAAAAGTTCTATTGGATACTCCTACTCTAGATCTAGGTTATTATTTCTACTAAACTATTGATAAATATTTCAGGAGA
CTGTTGAGAAATAATAGTTGCTCAATAAATAGTTATTAATATTTTTAAATTTAGCTTTATTCTCCTTTAATGGCAAAGTCTCATTCTTTAAAGTAGAAAC
CAACATTTACATAAATCCTCTAACATATTTTTTGTAGCAATMAAGGTAAAAATTTGATTAATGGGCTGACAATCTCCTTCCTGAATCTGTAATACCAGAA
AATTTCCCAGATGTTAGTGTAGCATGGCTGCTTAGGCAAGACTGACAAAACAATCTCAAGGTGACAAATTTCAATTTCATGACCCCCTCATGTTACATTG
CCCACTTTCTGGTGGAGGCACTAATGAGTAGCATCACTGCCAAGAGTGCTTAAAGCAAAGGGGAGGAGATGCCAAGACTTTGCAGAATCTACTTTGAATA
ATGAAGAATTAAATATCATTCATCTTAAACTGATTTTCCAGACACACTGCCAAGAAGCAAACAAGTAACTCTATATTTTTGATACCAGAATCTAAAAGAA
TTTCAAAGGGGGATGGTTGGCACCTGCATCAGAGTTTAACTCATTTTATGACTAGTCCCTCCCCACCCATTAGACTATGCACAACTATTTTAAATGTGCT
CACCATACTGGCTTATGTACTTACAGCTACACCAGCTCAACAATATCCAAATGATCATAAGGTAACAAAGTRGAGTTAGAAGATCAGTGATTGCTGAGCA
CCAGTTTGTTTGCTTATTGATTTACCTCATCCCAGAAATAATTTAAAAATAGTCAAGAGTGGCCCAGCATGGTGCCTCACGCCTGTAATCCCAGCACTTT
GGGAGGCCAAGGCAGGAGGATCACGAGGTCAGGAGATCGAGACCATCCTGCTAACACAGTGAAATCCCATCTCTACTAAAAATACAAAAAAATTAGCTGG
GGGTGGTGGCATGTGCCTGTAGTCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGCTGCAGTGAGCCCAGATCATGC
CACTGCACTCCAGCCTGGGTGACACAGTGAGACTCTGTCTCGAGAAAAAAAAAAAAAAAAAGAGTAACCAGTGAAAGTACTCCAAAATGCCTAATTTTTT
GTGACACAGAAGACACATTTAATAAGTAGTGACATATTTGATAAGAACACAATCTAAACAACAAAAAAAATGAGTGGCTATATTTACCTCTGAAATTAGT
AACATGTTTTATAAAATGAGAAAACCTAATTCTGGTGCAGATGTATTGATAACCCTCACACACATGCTGTTGAGAGTATAAATTTAGTACAACTGTTAGA
ATAATTGTTGTACCGAAGTCTTTAAAGTAGTTATGCCTTTGGCACATCATCTTCTCTCCTCAAAATATCATAAATGAATAATCTATGAAATCTGGCAACT
CATGTTGAAAAGATATTCTTTGAAGTGTTTACACCCAAATTTGGAAAAACCTAAAATTCGGAAATGATTAAAAACTAAATGCAGAGTCATTAAAATATGT
TAACATAAAGTGTTAATAACATGAGAAAATGCTTCATTGCTTAGATTAATGCTTTAATATTTAGAAAAAACAATTACATAATTGTATATTGACATAAGGT
CAATGATGTAAAGTATAAGAAATATGTGAAATATTTTAACAATGGTTTCTTCTAAATGATAACATTTATTCCTTCTAATTCTCTTAATTTTTTAAACTTC
TACAAGGAAGAAGTATTAATTTACAATTGGCAAAATTAGGTAATCATTCAGAATAATCCATAAAGTGTTGATCAAATCACATTGCATATAATTTCACTAG
GCCTACTGAAAGTGTATGGATAAACAGAATTTGATGGGAGTAAATTTTGGTAGAGTAGAGGTAGTAGTTGTGGCTTATATCTCAAAAGTCATTAAGATAT
AGACAGATGCTTACAATACCACAATCTAAAAGACAGGCAGCAGCAATGTCCTGGAACTTTATCCTCTCACTGATGCAGAGCAGTTTTTGTGAGGAATAGA
CAGGGCATCATGTGTTGATTACAGAGTATATTTATTATAATGTGTGCTAAAGAGAGCATGGATTTTGAAACAAAAGACTGCACCAAACATTAGTTATATG
TAAAATGTTTATAAATTAAAAACTAGCTCCACACATAACAACAACAACAMCACCTACTTTGCATGGTGGTTAGGAGGATTAAAGGAGTTTATGTAGTTAT
CTACCATGATGCCTGATACAAAATGCATTCAGTAAAAGTAGCTACAAGCTTGGTTTCTAAGGGAGTATAGAAATCATTAGTTGCAGAACAGGAAATATTT
AGCAATCAGGAATCTACAGTGAAGTTCTAAGAATCACAAAACAGTGATGCAGACTTTGAGATGAGCGATATTCAGAAATCCATGCAGGCAGGCAACACGA
CAGACTTCAATCAATGAGTATTGTTAGCTAAAATAAAGATGTGAAGTGTCCAACAGAGTTTTAAAAATAATAACTACTTTATAAATATTAAAAATTAAAA
TCCCAACAACTTTGTAACCAGTAATAGGATTTAAGCTTTAAAAAAATCTACTTTGCTCAAGTGATACAGGTGCTATGAGAAGTGCAAATTTCAGTGGTAT
TCCATGTTTACTACATACAATATAAGCTCTTTAGCCTGGGATTTATGGCATTATACAGTCTTGTTTAATCTGCCTTTCAATCTTTACTTCTTATAATATC
ATGTACATACCCTATACTTCAGACAAACAAAACTACTTGCTCCTTGCATATTCCTTCACTCCTTATAAATGCCCTGTACTATTTATTGAGTCTGAAACCA
AATGAATAAAGATAAGTTTGTAGTATCAAATTATCCATCACTTTCTTTAGACCATTGGGGGAAAAAAGCCTAGAGGTCTCTTTGAATGTCTGCTGATGTT
GCTCAGATTGATTTTTAATGCCTTTKTGTGTGTGTGTGTCTTCATTTGTTGCYTGAAATAAACATGTGAATTTCAAAACTGACATGACCATTTGGTTTGC
AGCGGCTGCGGCAGCAGACATGGCTTACCACCACATCAGACCTCCCAYTGGCTATTCCATTCCCAAGCCCATATCATCTCTGCTGATACGAGGGTGGAAC
GCATGTCCTGAAGTGAGTAATTTTTATTTCCTCTTAGAAAATGTGTTATGGTCAAAATCTGTCACAAATAGTATAACTCCAAAGTCTRCTTTCAGTGTGT
ATTTTAAGACTGTCAAGGCGGGAAGACTGATTTGCCTTCTGCTCTTTAGTCTCTAATTGCCTCAAGAAGTCTGAGTATCTCATATTTCTTAGCTGCTGCT
TTCTGATTTTGAAACGTTTCTCACAACTGATTAGTAAAAGAGAGACCAGGGTATGACAGATGACTCACAGTCTCATCTCAGCTGCAATTTTTATTAACTA
CGCGTGAGCCACACTTAGTCATTTTCTGAAGCAAGAAATTTGGCACAAGATGGATTTGTGTTGGCTTTTAAACATGAGGCAGGCCTCAGAATAGGTGGTC
TTCAGTAGCACTGGCTCACGTAGGAGGCAGAAGACCTGGGTCCTAATCCCTCTCTAACTTTCTGAGTTGACAGTATTATGATGTGGTTAACAGCATAGAC
TTCGAATTCAAATGGAGTGATCAATGTTATGGAAGGGATATTTAAACAGTAAAATAAATTTTTAAATACGGTCATAGGTCTAAAAGAATAGAGAGGGAAT
AGTCATATTATCACAGAATGAAATTCCAAACAATCCGCCTGCAAGAAGGGATTCTTAAGTGTGCAGACGGGTTATGTCTGCTTTGTTCTCAGAGTGTCAC
CGAGGAGATTGCACAACTTCTTTCCTAGTAACACAGTTCAGTCCAGTGTCTAGTAATCCTTCTGCCAGTATATTTTGTTGTCTATTAAAATCCTTGTGTT
TTGATATCAATCGATTCCATTGCTCAGAGTGGAGAGTATTAGTTTGCATTCTTCACAATGGAGGACCTCATATGTAAAGACCTAATGGTTCTTATTTTTC
CATCCTAAACCATCCTAGTTATTGTCCTCTTAAATTATAACTTTGTTTCTGATCCTTCCTAGGCACTTTATAGCTCTTCAACAAGAGAATAAAGTGAGGC
TATTATTTCAGGAAATATCTCACTCAGGAGAAATAAAATAGGCCCCAGTCCAGATGTTTGAAAAGAGAATGCAAATTTTCCATTCTTTTCCTAAAGGCAA
AATCCAGACCAAGTCATTACCCAGTCTCATCTGTGTACACAGAAACTCTTAAGAAGAAAAATGAAGATCGTTTTGGGATGTGGATTGAGTATCTCAGAAG
ATAACCTCTTATCCTGGCCATTCAACCTGATGTGTTACATGTTTATTTGTTTAGAATCTTCCATCACTACCAAAATGTTAGCTCCATGAAAGCGGTCCTT
TTTGTTTATTTTGTTCACTGCTATAACACTAACATCTAAAGCTGGATGCTTAAGAATGTTTGTTGAGTAAATGAATGAATACCAGTATTGCCTATCAGTG
CCTTCAATCTCTGCATCTGAATTTTGATGTCCAGAAAATTTCATCTTGAAAATTACATCACATAAAATAGTTTAGGAAAACATTTTCTTGTATTTCAGTG
TGAACCTCAGAAAAAGTATGTCAAGCACCTATTCTAGAATTTCCTTCTCTCTGTGGGATGTGAGCTATTGAGAGATGACAACGTGCTAGCAGCCCTCACT
CACTCTCGGGGCCTCCTTGGCCTCGTAGTCCACTCTGGCCACACATGAGGAACTCTTCAGCCCCCAGCTGCACCGTGGGAACCCCTCTCTGGGCTGGCCG
AGGCCGGAGCCCACTCCCTCAGCTTGCGGGGAGGTGTGGAGGGAGAGGCGCAGGAGGTAACCAGCTGGCGCTCGGGTGCCAGCATGAGTTCCCAGTGGGT
GCAGGCCCCATACTTGGAGTGGCCGGTGGGCGCCACTCCAGGCACTGAGGGGCTTAGCACCTGAGCCAGCAGCTGCAGAGGGTGGGCCAGGTCCCGCAAC
ACTGCTGGCCCGCCCGCACCGTGCTCAAATTCTCACCAGGCCTCAGCTGCCTCCCCACACGGCAGGGCTTGGGACTTGCAGCCCTCCATGCCCGAGTCCC
CCCCCAACCGTGGGCTCCTGCGTGGCCCGAGCCTCTCCTATGGGCACTGCCCCCTGCTTCACGGCACCGGGTCCCACCGACCGCCCAAAGGCTGAGGAGT
GCAGGCGCRTGATGCAGGACTGGTGGGCAGCTCTGCCCACGGCCCTGGCCAGGTATCCACTAGGCAAAGCCAGCTGGGCTCCTGTGTGGGGTGGGGTCTT
GGAGAACTTTTATGTCTATCTAGAGGGTTGTAAATGCACCAATCAGCACTCTGTGTCTAGCTCAGGGACCGTAAACACACCAATCAGCACCCTGTCAAAA
CGGACCAATCAGCTCTCTGTAAAATGGACCAATCAGCAGGATGTGGGTGGGGCCAGATAAGGGAATAAAAGCAGGGTGCCCAAGCCAGCAGCAGCAGTAA
GCCACTCTGGTCATCTTCTGTATTGTGGAAGCTATGATTTTTGCTCTTAGCGATAAGTCTTGCTGATGTTCACTCTTTGGTCCACGCTGTGTTTATGAGC
TGTAACACTGACCCCGAAGGTCTGCAGCTTCACTCCTGAAGTCAGCAAGACCACGAACCCACCAGAAGGAAGAAACTCCGGACATATCTGAACATCTGAA
GGAACAAACTCCGGACACGCCATCTTTAAGAAGTGTAACACTCACTGCGTGGGTGTGCGGCTTCATTCTTGAAGTCAGCGAGACCAAGAACCCACCAATT
CTGGACACACTATGACAAAGTTTACCATCAAATAACAATCAAGGGAATCCCTTTTTCTTTGATGAAGTGTCTCTTCATAATTATAGATAACAGGCATGTG
GAATTTCTAATATCAATGTAAAGATAGGTCATTGGCAGGTTCTAAAAGCATTTTTTGGGTAGGATGGATGTCTCAAGCAAAGAGTTGGGAAATGACAAAC
AGAAATTGGAATATGGCCAAAGGATACTGTTAAAAAAAAGAAAGGATAAAAATCGATTGCTTAGCAGAAAAGTTGTACTGTTAAGAAGTGAAGTTTGTCA
GCACGGAGTCTTTGTTCTGCTGATGAGATGAAGAGGGGAAGATGAAGAAAAAGCATATTAGGAAAGCAAAGTCTTCAGCTGGCTTGAGATATGTGGGTCT
GCCAGTCAGTTGAGCCTGACTTGGCTCTGGTAACCACCTCAGGATAATGAAGTTGAGCTGCTTCTGTATGTGACTCACTTGAGTCTTTCTTAATTGTCCA
GTAAGGTCTTCATCATGTTAGCAAGCTGAGTGGCAAAGAAAAGGGAACAGTGGGCTGTTTTTCATTCTTTCCTTCAACAATTATTTGTTGAGTTCCTACT
GTATACCTCCTAGGATAGGGGAAAGGGATTCAATAGAGATGTAAACTCTTAAATGGAGTTTAAGACCTGCTAGTTATATGGAGATTGATTGAATAAACAT
TTTAATGATTCTATAGTTAACTGCCAAGGTTAAGAAAGACAAAACTCTGTGAGACTATATACTAAAACAATACTACTCGCAAGTTGGGGGACAAAGACAG
AATGCAGGTTAGTGAAGGCTTCCCAAAAAGAGTAACACTTGAGCTGAGGCCATAAACAGTAGTTTTCTGAAAGAAGGCGGCTTGGTGAGAAAGAAAAACA
GTCTAAGCAACCAGAACATAYGAAAATTCATTAGGAGAACAGATACAAGGGAAAGACTAGTAGCAGTTGCAACATTGTAGCCATGGAGAGGTTAAATCTC
TGTATCAGGCATTATTTGAAACAAGTTCATCTTTAGATGGAGGACACTAACATCATGCTATTCTGGTCATTACTTTCTAGGTTATSAACTGTGCTTCTCA
TTTTTTCTTGCATATCTGTCTTTACTTCATTCCTTGAATTTGAAGCACAGTATTTTCTCCAGGATGTCTTCTTAGTCAAAACTCATAAACTAGAACATTG
AGGAGAGTAAGAAGAATAGTCTATTGAAGATGGGAGAAGGTTGGAAAACAGTAAGAGGTAGAAAAAAGCCTGATACTAGATAGTGACAGATTTTGGAAAC
TGGAACAGGAAATTTGGACGTGAAATTATGGCAATTATATTTTTTTCTCTAAAGGAGTGAAAAGATAAAAGTAATTTTTTAGGAAGTTCATCTGAGTTTG
ATACAAAGGATTTATTTACTTAAAAAAATTGTAGTTCCTACAGTAAGGCAAACACTGAATTATCTTGTAATGCTCATTGGAATAGCTAAGCATTGATTCT
TAATATGTGGGCTGCAAACTATGTATTCCAGATTACCCTGGAAAGTTTGTTGAAATGAAGATTCTGGGGCCCTAATCTAAGTTTACTGAATTAAAATCTC
TCAGATGGAGCCTGAAACTCCACAATTTAACAAGCGCCCCAGGTGATTTGTGCCCAACAAAGATAAAAAATGAATGGGTTGAAACTCAAGCAAAAGACAA
TGAAGTTGGAGCAGCCAGCTGGACTGCTGTTTGAGTAATCCAGTTGATTACAACACACAGACTACARTGGTTACCATGGAGATTCAAGGGCAAGGGTAAA
CCTGAGAACTATTTCAAAGGAAACATCATAAAGAGGTAAAAGACTGGATTTCAGAAATGGAAGAGAGAAAAGAGACCAGGAGAACTAGGATTGCTGCCTC
CTGAGAGTCAGTTAGTGACCAAGAGTACTCATTAGGCCTCTAGATATCAGGGATATTCTTGGCAGTGAGAGCAGAGAGAACAAAGCTAAAGGTGCTGAAG
TAAGGTGACAGCGCTTTAAAGAAGAAGAAAAAAAAAAAGGAAAAAGAAAGATAGCTACCAAGAAAAAAAGTGACCTGGTCTACAAAGATGAAGAAACTGT
CGATTAGGGTGGAATAAACTTATCATGCAAGAAGTTGGCATAGATACTCGTCTCACCTTAAAGGTGCTTTAAAAATAAAGTGGGGTCAGGCAAGGCAGAT
AGGTGGCATAGCAGTTAAGCTCAAGCAGAGATAATGAACAGAAATACCAGAGGAATTAGGATTAAAAGCAATAAAGTCTTGAATATTGGCGAGAAAAGAT
GAAGAAGAGAGGTAAGAAGTTTAGGAATTTTCAAAATAAGAAACTTAAGTTATTTCCTAGCAAYTCTGAATAGGAAGGGAAACAAAAGAGGCGGGGTATG
TAGGCAATATTTATGTTGTTCTAATCTTATAAGGTTTATAAAGCTTATTTATTATTATTATTCTACCAAATGCAGATATAAAGATGTATAGACCTAGACA
GGTGTAGAGATAGGAGAAGAGGAAGTTTGTTTCCCTTTTAACATTTTTGTTCCCCTACTAAAAAATGTAAAATATTATAATATTCTAAATTGTGAAGGTA
TGCTTCAAATATTTTTTACAGTGGTCTCAATAATTAAATTATTTGAATATATCTATATTTTTCAAATAAGYATGGCTTTGAATGAGACATGTTTGTTCTG
TTACTGTTTTTAAATTTAATATTTATATTCACATTTAATTCCAGTGTATAAGGAGGAGTTCTCACTCCAAACAACAGTGGCATGCGAAACCCAAGAGATC
AGACCTTGAAAGCTATGCACTAATAGGTTATTTAGTTTTCAAAATCTTAAATTAATAACAATTGGCAATAAAGCTCATTAAAATTCCTTTTGTTCAGGAT
CCATTGTGTCGATCTTCAAGCCCTGTTCTTCTAAAATGATTGAAGCTGAGATCTCCACCTAGTGGATATATAGGATTTTGCAGATCTTTATGGGAACAGC
CAACTATCCCTGGAAATCCTTAATTTTTTTCTCTTAGAGAAATAACAAGTTTTAAAGACTTCTACTTAAATCTRGGATGATTGTCAACAGGACAATTGCA
AATGTATGAAACATACCAATATGCATATCAGTTACACTACAGTTAACAAAGCTGAATTTTTATTTTCATACTATAATTAGGAAAACAGATCAAACACAAA
TATGAATATATAATTATCCATGTAGAAAGCAATATTGTAATACCACTAATTGAGATATGTATAATAATTTACATGAAATAAACATCAAATGTAAATCTGC
TCAAATACTCTTCTTATGTAGTTTTTCATTTGTTTAAGGCTTTTTTTTTTCAATGTTTGCTTGCTTTTGCAAGACTTGGCAAAACTTTTCTTACTTGTTT
TTTCATTCCTTAGAGAAGCATACTCAGTTAATTGTGTCAGACGTATCCTATGACTCCATCTTTGATTTTTGTCATATATTCAACTCTGGTTTTATTTTAT
TGATAACAAAGAGTTACTGAGGACGTTGTTGTCCTCCAAAATGATCCACTTCTAATGCATGCAAAGGCTAGTGGGTGTTTGTCCTCTTGAAGAAAGCTAA
AGTAGAAAAGGATTATTATTTGAGTTATTTTGTTCACTTTATTCTGTTTCTAAAGGTGATGTAGTAGCATATTCAGCAGATGGTGGATACAGTACAGGTT
TTGGAGCAGAGTTTTCAGCTTCATTTATTCTGCTAGGAACTAAAAACACCTCATTTTCTGCCTCAAAACTGTCTTTTAACCCTGGTAAGAAGGAAAGCGC
TTCATGTGTCTCCACTGTCATTGCGCCTTCTTTATGTGCACTATCTTTATCTGGTTGAATATTTTGAACTTCTCTAAAATTATGTACATTACTGTTAACT
TCAGGATCTACTTCACTGCAAAGTATTCTATTTTGGGTTTCATGGGAACTTGTGATACTTAAATCTTTAGCTGTAATGGTCTCCTCGGCAGAGCTTGCAT
CATGTAATATATATTTTTCACTTGTTCCATTTTCCCAAGTTTGCTGCCTTTCTTTTGTGATGCCTTTTAAGGTCATTTGTGAGATCTGAGTTAACATACT
AGAATCTGTCTTGCTTTCATCAAGCATATTTTTCTCTTCTTTCCCTACTATTTTTATCTCTAGTGCTTCAGTGCCGTCATTTCTGGGCAATGCATTTGTG
CTGTCAATTCCTTTTTCGCTACTATTGGTTAGGTGCCAAACGGCTTGACTACTAACAGGAGAAGTACTGATATCCTTGGGAAGTTCTATTCTATTTTGGT
ATGGAATTGAATTTGTCTTCATAAATGATAGGTTGTTCTTGGATTGTGTTTGGGGAATGAGAGAGGAATCATAAGTTTCTGTTTTTGAAAGTTTTTTTTC
TACATCATTTTCTTCCTTATCCATAATACAATTTTCCACAATTTGATGTGRTATTTGGGGTTTTGTCATTAATGTTTTTTCTTTATTTTCAAGCTGTGCA
TGACTTGAATTTTGCTCTCTGTGTTGTAAGSCTTCATTTTGGTCTAAAGTGTATTCCTTGTTGTAGCTGTCAGTCTTGTGAGCATCTAAAAGTTGTGTTT
GATTCCTCGGGGACAAAGAAAACTGATTTAACTCACTGGTCTTTGATACATTCTGTCCCATGTGCTCAGTGGACTCCGTTGTCCCTTGGTCAGTAGCCCT
CCTGGAATGTTGGAATGGTAAAACATCACTTCCTGTATTTTCCCAAGTAGTTGCTAAATAACTAAGCACTTTTGATTCAAGCTGAGTTGCATCTTCCATT
TGCTCAGTTGAGAATTGAGAATGTGAGTGCCTGTGCTCAGCATCAGTGGGTGTAGGTTGGGGCAATTTTGATGTGTTTCCATCAGGAATGTGGCCAGCTG
AGTAACAGCTGCTTTCTATAGAGCTCTGGTTGACTACACGCAAGTTGTTAGCACTGAGCAGGGGGGCACGTTTAGTGTTTCGTTGATAATATGGGGTCTG
CTTTGAGTCATGTTTCAGAGGCAGCCTCTTTGAAGTGAGTCTAACATAGTTGCTACTCTCYGACTGTTGAAGAAAATCTGCAGAACACACAGTATTTATT
TTGGCTTCTGTCTCAGAAGTTTTGGATAATTTCTTAGGAGGCAACAATACCTGCTTGCRTTGCTTTGGGAGACTTGACAAGGATTTTTCTGGATGGACTC
TGACTTTTCTAAAAGGATGTAAATTTAATTTTAAGTTTTGTCCTTTAATTTTCCCTTTGAGGTCAGACTGAGGGGTTCTCTTCCTTTTCAGAACCCATGA
ATTAGTAAACCATTTTTCTCCTTTGTTTCTCTCCCCAGTGTTGCTAAATTTTTTAACATCCAACTTAGTCAGTTGGTTACTTTGATTTTTCTGTCGTTTC
CAAGGGGTTGATATTTTGGGTGACATCATCGACCTATTTATTTCTACTAAATCAGGATCATGGAAGATAACCCTCTTTGGGGAATATGCTTTCTTGGTTT
TTGTTGATAATCCTGATAAATCTATGTTGTCCTCACTCATAAGAAATTTTTCTATTGCACTGTTAATTTGGATTTGCTCTTTCYCAGGCTTTGAGTGTTG
TCTACGATTTGGCTTCTTTTCTTTCATGTAATCTTCAAATTGCTCACAGGGCACATATTTACAGATAAGAGAATTGTTTGGCTGAAAATACCTAGGTTTG
CTSTGTTTTAACAGTCCACAAGGATCATCATATTTTGATCTATTTTTTTGTACGATATTTTGTACATAGTGTTCCTCAGGCTCACAAGGCTTGGATGATG
AGCTTGTAATAAAATGTCTTTGCCTRTGAGGGTGTAAGCCRTTGTCTTCTTTTTCTAYTGGAGGCTGCCATGATTCATTTGTTAAACGCTTCTCAAGACT
TTCTYCTGCCAAGGCTGAAGCGGKTGTTGCATATCTTCTTCTAAATATGTCACTGCTGATATCTGTGGAACAATAAATGCAAGAATTTAGCACTTAGCAG
AGTTTTATTACCCCAACCAAACAGATGCGTAGAAACCTTATGAAAAGTATAAAACTGACTCCTCTGATAATTGCAGTTCTTCACTATTTCCTAATTTGTA
ACCAAACCTACAAAGGACATTTGTCAGTCCCATATGTTTTGCAATGACACTCTTTATGGTCACACTGCAGTCAGTTGCGATGCTGACTTAAAAGTTGTGG
AGTTAGAAATATAAATGTTATTTATAGTCATATATCTTTAGTTGTTGGTTAGGTTAGCTTTAAATATGAATAGTATGTAAATCCTTTGTAAATGGCTATA
GTAATTTTTTCCTGAATTCATTTCCCATTTGCAACTTAAATATTGGGCAGAACATGGGTGCAATATTGAGTAATGTTCAGGTTTCAGATAATCAATAATA
AGATAATAATTTGACAATGAAAGGGAAATACTTGCAATACTATTGACTCAATGAAAGCAGAGACCATATCTGTTTTATTTCCCATAACTTAATAAAATGT
TCATTAAATATTTGTTAAATAAATAGGTATTTTGAAATATAGCCAGGTTTGTGTGGCAGCAGTCTTTACCTGGGACTTTTAAAATGGTACAGATTAATAT
AATATTTAATCTTATTAATCTTATAACTTCTTCTGCTAGCTTCTTTTAAATGTCTGCCTGCAAATTCCTCTTCATGTTACAATCTTTCATTTACTAAAGG
AAAATAGTACATGATGAACCATTCAGAAAGGAAGCTTCCTTTGACTGTTTGGGGACAGACCATATCTACAGCCCTATAGGCACATGTGGAAGAAGGAAAC
TTGTACTGGCTTCTTCTTAATGTCTGCCTCTAATCTCCTTTTACACATTAAATAATATTAATGACAAAAATAATAGTAATACCATTAATTGAGCACATGC
TAAGAGCTAGGCATTGTGCTCATAATGTACGTTCATCATCTCTTTTAATATTCACAAGAGACRTGATCCATTGGACAGATCCTACTGTCTTATAACTTTT
ACAGATGAAGGAATGAGCTTTAAAGAAGTTGAATGCTTTCCCGTAGTCACACATCAGCTAAGTGTTGAAACCAAGAATTGAACCCAAGTCTATCTGACAT
TAAACGACCCTATTGTCTTAACCACAATGCATCTAAAATTTAAAATTATTTATTAGTATACTTTCTATTGTTTCATGAAATTTTTTCATCCAGAGGAAGA
AGTTTTTTATTCCATGAGAAAAAAGGAAATCTTAACTGCAAAACATCTTAACCGCAAAAAATCCTAACAGCACTATTGCTATTTAAAAGGCTATTTTTTT
TTTTCATTTTTAACATTGTTAGGTGTTAGGCCTCAAAATTAACTTTTAGTAGACAGGAGATGTACTCTCAGCTCCTAAGGGTGGGGATACTCCATCTCCA
ATTTTCCCCAAGAGGTAAACTAAGTTCCAGACTAGCATCTAATTCCAATCTAAGATCTGCCGTCAACATTCTGGGTGACCTTGGAGAAGCTGCTTGTTCG
CTGTGTATTGGAAGGTTGGACTAGATGGGAGCTTTATGTAAGTAAACAAATTATGTTGGGGAAAGAATCTGTAGCCTTTGTCAGAGTCTCAGAGAGTTCT
GTGACTCAAAGATAAACATTAAGRACTATTAGTCTAGATCTAAAGTMCTCTCTACACTGGAAAGTCTATAATTCTTTTTCCAAGTCAGAAGGCATAATCA
GAGTGGCAATTTTTCTTTACCGATTTCTGTTCTGGAGCAGATGTGACCTTGGCTGTTTTCTCCTCAAATACCTGCCCTCTCTAGTTCTGGTACAATGCCT
GGCATAGAGCAGAATTTCTGGTATTTCTTAAAAGTATTCATGTTAATCTGACAAACCAGTGTTCTCAGTGTGAAAACAACAGACTGGGTTTTAAATGGTT
AAAAGAGCACATCCCCTTCAGTTATAGGAGTTTCCCACAGAGAAGTTCAGGCATTGGACAAAGTTAAAAGATGAAATGAAAGATCTGCCTAAGGTATGAT
TCTAATGAAAGGGTAAGTGCTTATTTCTTTATAAAATAAAGCCAGTCTGACCTGGTTTCTATGGCATATGTTTCTTTCCTCAGCCATCCCTCTGTTGTGT
GAAATCATCAACCCCCAGACACTGGTAAGAACTGGAGTGTGGGAATGCAATGGAATAAACTCACATCCTACCTTATAACATACGTGAAATAACATATGGT
TTTATTCTTATCCAGTCGCCCCAAAATGCATCCTTAGGGCCAGACCCCTGTGGTAAGAATTTCTTGATACAGCACCTCTGTCATTCATACTCTTAGAGAA
AGCTCTGCTTGTTGTGAACCAATTCAAATAAATGACAGGAACCTCTTTACAGAGCAGCTGTCAACATTTTCACTGCTGAGCCTGAATGCGTAGCCTTACT
ATTCAGGAAGAAAAAGGAAGACGTTTAATTCATTGCCTTCACCTAAATATTGACATCGCCCATGTACAGTGGGTAGATGTCACGGCCAGATTCACTTGGC
TCCCAGTGTGGGACAATGAATTAAGTCCTGACTTTCCCTGGACTGGGAAGTTATCATCCCTGACAGCTCAGCAAGCAAAGTACGTTTCTTGACATCATTC
CTGAAATGAATCACTAGCATTAGAGGGCCCATTCTTCTAACATGTCATGCTCTGGGAAGGTTGCTTACTGCAGAATTGGCATTAGAGCTCGAAGGATGTT
GGAATAAAAGCTGATACTAGCTATCCCATAGATCTTAACAGCACTATTGCTATTTAAAAGGCTACTTTTTTCTTTTTTTAACATTGTTAGGTGTTGGGCC
TCAAAATTTACTTTTAGCAGTCAGGAGATGCACTGTCAGCTCCTAAAAGTAAGAACACTTCATCTCCACCTCAGCCCACACACACACACACACACACACA
CACACACACACACACACAGTATTTTTAGAAAAGGAATAGACTAGTGCTATAGTGATTTTTATAGTATTTCCTGTTGAGGAAATTAAAGGAGGGAGGCTCC
CTCCTTCAAAAAGAATTAAACGGAGTGGGATYTTCTAAAACAAGACAAACTCACCTTCTGTTCTTATTATATGGTGTTGCAGAGTTTGAGGCTGGACTTC
TCCAGGCTCAAGATTCCATAGCTTTTGAACTTTCCTTGGATTATATGTTGTAAGTAAGCCTGCTTCATTAAAAGCTSTCATATTTCCAGGAGGCTCTGAA
CATTCCGAATGCAGCAATCTACCATCCTGGCAAAATAAAGTGCTGCCTACCCCACGGTCTTTCTTTTTCAGGTTTMTAAATGATCYGTCAAGGGTTGCAG
ACTCAGAGGCCGATGTTRCTTGATGGCTATTTTCCTGTAAAAGTGGCATTTCTTTTCTGGACCCCACARTGGACATGACCTTTATCTCGTTTTCCTGAGT
TAAGTGGCAGTTGCAGTATCCCTTAGTGTGGTAATTTCTTGCCTCATGAGCACACAGGGGTTCATCGAAGGTTCTGCAACAAAGGTTTTCTGATGTGTGT
TCATTTGCTTTGCCTTGGTGGAGTTTCCAGTTAAATACAACTAAACCTAGGCAAGTGAGACCAACAGCTCCTATGACAAATAGAGAGACCATTAAAAGAT
AACATCTTGGGAAGAAACACATAAATCATCAAATGTAAAAACCACAAATATAAAGGTTAATGGCTTGAAAGATATCAGAATGGGTAGGAAGTCCTTCACC
ATTTGGAAAAATATCAGTCCAGACAGAGGCTACCATTGACATTGTTCTGCTTTCCAATTTGGATCTTTATACCTATTAAAAATTATAAGAAACAACACCA
TCTGGAATCTCTTTGGTAGAAAAAAAGGCTGTTTCATGAACTGAAACTCATTTAAGATAAAACAGTTCCTGCAGTAACATTATTTTTTCGGTCTACGTCA
CCTCCTTTTATGAACTCTCATAATAGAGTGAATGACTTCTAATCTCAGACTGCCTGGTACTGTCATTTCATGTTCTATGTAGTTTGTCCTCTGAATAAAA
TTGCAAGATCCAGTGTTTCTCAAACCCATGTGCCGACTCTAACCTGTTTCTATTTCACTTTTTCCTGTCTTGACAAATGGCATCCTCAACCACCTAAATG
TTCAAACCAATGTCCCTGAGTCATATCCTCATTATCTGTCTATCACAATGATTTCCCTTGTTTTTTCACCCTTATGAGGTGTATTATTCTGTTTATTCAT
TCATATGCTTGTTCGCAGACTGTCCTCCTCTGCTACAACTGAGCACTGTGAGGCAACACATCCTTTTAKTCCTGTTCAACATTCTATCCCCAGTGTCCAC
AACTCTGAGACAAAGGAGGCAGAAATATTTATTAAATATTCTTAAATCAACAGAAGGGATTCTGTTTATGAATTCTGATAATGAAATCATTGGTGATCTA
ATCTTATAAATTCTCAAGATGTGATTAGGAAGATATGGTGTCAGTACAGATTGAATAAAGAGATCTGTGCCCTAAACCCACATCTGCCTGAGGACAGTGC
CCTTTTCTGGAAATAAAGACAGCATTCCAGATTCTTTGACTGGCTACACCATGTCTAGTTTTATCCACTGGAGACAATATTAATGAAAACATATTTTTAA
AACTTAAATGAAAAGGGAGGGTATCAGGTCATRATTGTTTCTTTTTTTTCTGTTAAAGATGAAGAGCAAACATGGAGAATAGCAGTTTCTGGTAAAATCC
TCATACCATTGTATAGTTTACCATATCTTGAACTCTTAAATCTATTTKAATTCATTTGCCAACAATACACTCTTGGAAAGTGCTATAACATATTGAAGCA
ATCTCTATTAAAGGCACATTTTTAAAGTTGTAGCAAAATTATGTAAATAATAATCCTTTTATTGACAGATAGATTCTAGAGTTTGAATTATCCCAAACAA
GGATTTTGGTTTTAAAATGTTAAAGAATATATTAAAAAATTAAAAATTAGAACCACTCTTTAACTCATATGGGTAAGAAAACTCAAGATTCAAAGCTATA
TTCTGACACTTTTCTTGGGTATTTTCTAATTCCTCTAACACTTATTTTTTTTCTCCTTTCACAAATGAGGATAACTAATACTACCCAGGGATTAAATAAT
ATATGTGACATGTTTAATACAGTGCTTTGATTCAGTGAATGTTCATTGTGATTTGTGATTATTATTACTGAGCTACCATTGTTTAGGTTTTGCATTGCTC
TATTGGTTCCTGGAAGACTCACCTGTCAGGAACAAAAAAATCCAAAAAATAAATCATTATGATGATATTTTAAATGACTAGTGCAGTTAGTAGACCAAAT
AATGAAGGAACAAAAGGGCTAAGTTTTCTTTAAGACAAGAATCAGCCACTGAAATGAGAGTAAACATAATTTGATTATAGGATACAGTTTCTCCTCTAAT
TGTGTCTGAATGGCAGGGACCCACTCACTCCCCTGCTCTTGATACTAGGTATATATCTGTATCCCATTACCAGTCAGGTATGGTCACTTTCCATTAGTGC
AGAAAGCAAAAGCAGCAAATGAAGCTTGTAGGCAGGCGGARTGTGCTATTAAGAAGACGTTTGAATTTTCTTTGCCATGGGCATTGTTTCTATTTTTAAA
AAGTGTTCTAACAATCTAYCTGTGTTGGCAAGAGAAAAAGGGAAAATTAATGATAAGTTCTTATTGAAACATTAGAAACACATTACAGCTTCATAAAAAC
TTTTTRTCTACCAGTTCATAGTGTAAGTGTCAAGATATTAGTGTTTGATGCCAAATAACCATTTATTAGTTTTAAATTTACAAATATAGCTATTTATGTT
CTTTGGAATTTTTATGACTTAGATATAGCTGAAGAAGAAAATGGTCTCATAGGCAAAATTATAGTTCTAAGTGTTTTTCCCACAATCTAGAAGTATAGAT
AACTCACCACACGTGTGCTTCAGAAAGAGTGGAATCTTAATGGAGCAAATTAACATCAAAAATCAGAGTCTTTTTAAAGAAGAATCTCTTCTCAAAGCAC
TACAATTTAACAATTATTTGATGAAAGATATATTAGTATGATAATTCACACCAAAACTTAACATATATGTAATCATATTTATAATTTATCAGAATTTATT
CATGTATATTAAGCTCCCAGTCATTTTGACAAAACTTTTGGAATCTTCTAGAATTTGTATTCATCTCAATACTAATAAAGAACTGTTAATGTAGCTAAAT
ATATTTCTGAATACATATTTCTGAAAACAGATGTAAAAGTAACTAAAAGATACTAAAAATTGCTCTATTATAATATTTCCAAAACGATGTCCTCTAGAAC
ACAAATTCAATGAAATCCTCTATGAAAAAAAGGGATCATGGCCAAATAAGTTCAAGAAATGCTCCATATCACACCTTCTTCTTAGAAATTTATAGTGCTT
ATTAGAAAATGAAAGGTTACGAGAAGTGCTGCAGTGAGTATACCTGTTTCACTTTGCTTAACTTAGTACCTTCTAAACCTATGTGAACCCCACCATCTAT
TGCCTATGCGTGCATCTGTGTGTTTTTATTGGGATATCTATTAATTATCCACCAGTGCTAGTATTCTAAGAAGCACATTTAAGGGAAACCTCTCTGCTGC
CCTATCACTTATGTCTTTTATGGTAAATTATTTCTTAGCACATACAATTACTGACATAGTTACATGGTTTTTAAAAGAATTTATTTTCCTAACATTTGAA
TTTCCTTCCAAGTGAGTTGGATTACTGCTGATGGTAGTTCCATTGTCTATACCTGATGCTGGTCTCCATCTATTCTGATTAAAAGTGTAATTGTCAGGAA
GTAAAAATACAATCAATTAATTCACTAGATAACTGTTACAGAATAATGATTTATAGCACATATTTAAAATACGTCAGTCTTGGATGCCATTTGTTGGTCT
CTGGTCTCTCTCTCTTTCTCTCCCCACCCCCTCATCACCATGGTTACCCACAGGTGCAGAGGATTTCACCATGCACTGAGAGCATAGAGGAAAACACACA
CATCGAGCTAGATAACTTAAGAAATCTCATGCATCTTTGGTCTTCAACTAATGACACTAAGTGTCATTTTATATTATTCATCCAGTGAGATGTAATGATA
GCTGATGCATAGTTTCATAAATTTTAAATTACAAAAAATATATAAAGAATTGCATATTATCCTCCCCTTAGTTGGTCTGGGGAAGTATGGGCCAAGTTTA
CATAGAGTTGGACAAACAGAAATCTTAGAAGAATTCAAAACCACCCAACAGGAGGAAAACCAAGGCACAGAGAAGTTAGATAATGCATCCAAAGTCACAC
AGCTAATAGCAGAGCCAGGATTCAAACCTAGGTAATCCAACTACAGAGCTCATTTATTTAACTACTATGCCATACAAACACTGCAGACTAAGATATATGA
GATTGCCATAATAGCATCTCTTCGTCCATCTGTGAAAGCCCTCTGACTCTTACTATACACCATGGAGAAGCAYACAAATGTAAGTGCCTTGAGGAAAGAG
TCTATGTCCCATCAGTTTTTAAATATCTATCTCCTAGTGTCATAACAAATGCACTAGTACTCTTTGGTGAAAGGATGATTGATGAAATATAGATATTATT
CCTGTRTTATACACAAGGAAACTAAAGTCTAAATAGCAGGTTAACCTGTTCAAGGTCACCAATGCTATTTATACCAGGGCTGGAGCCCTTGAATTCTGGT
CCAGGGCCCTTTCCTCTATGTTAGACAGCTTCCCTGAAACAGGAAATTCTTGCAACCTGTGCCAAATCAGCTAATATCCTCCCACATCTACTGGCAACCT
CTCCTTTCCATAGCCCTGGCAACCAAGTGTCTGAGATAAGCATCACTTAGCATGCTGCAAAAATATGGACAAGAGAAGAGAAAAGAGGAGGGCACACTTC
TCCCCGGCATACCTGCGAAGCCAAGGACAGTCAGCAGGGCCACATCTGGTCCTGGGAGGAGGGGACTTCTGTCCTTTAGAACCAGAGTGAAGTTGGGAGC
TTTGGAATCACAGTTGGTCTCAGACAGCCTCAGCACACTCTGTGCAGCTGCCACAGCTGCGGTAGATGGCTGGCAATTTAGGTCCTTGGCATTCCTGAGC
GTGTGAGCAGAAGACTTAATGTAGTTTCTTAAAAACCGAGCAAGGGGATGGAGATCACAAGTGCAGCTCCACTGGTTCTTATCTAARCTCAGAAGGATTA
ACTGCTTCAGTGGAGTAAACACATCCGGCATGTGGGCTAACCTATTTCRGGAAAGGTCCACTTCCTGTAGTTGAGGCAGGGGCCGGAAGGCATCTTTCCC
AATGTAGGAAATAAAATTGTTGGATAAATCCAGATACCTGAGACTGTGGAGATTCSTGCCTCCGAAAGAACTGTCTGTGAGATTAGTAATCTGATTCCCA
TCCAGCTGGAGCCGGGTCAGGCCGCTTGTGTTTCGGAACCAAGACCCTYGTAGGGTGCGGAGAGCATTATTGCTCAGCACCAGTACCTGCAGGCTGTGAA
GCTTGCTGAAGGTGTGATCAGTGAGCGAAGAGCTGGATATTTGGTTGTGCTCCAGCAACAAGGTCCGCAACATCGTAAGSCCATGCAGGGCATCTTCCTG
AACATCCTCGATACCATTTCTGCTTAGGGAGAGCAGGGCAAGATTAAACAAGAGAGACAGGTTTGTGCTCTCAATAGAGGAGAGATATCCATCGGTGATG
ATTAAAACCCTCGTGGTCATAGGGGCTGCTGTGGGGAAAAAAGCACAGACTAGATGCAGGGTACACATGAGTGGGAGGGAGGGGGTATGGTGGAGAGCAG
AGAATCAATATCCTCTGAGCAATCTTATCACCTGGGTAAAAACAATAAACAATACAAAAAATGAAAATGATTTTCTGATTTCCAAATTTGAGGGGAAGCT
GGCTATATATCAAAATGATGGATTTTTATATTCTTTGCTGCTGTGACATGTTTGTTTGAGAAACATAAACCCATCTGTTACTTTAGATGTCAAAGTTAAT
TCATTGTTTCGGATTATCTTCATCGATGTTATTTTGAAGGTGTCTTTTCAGGCCCTCCCTCCGAGGCTATGTACTGACCTGATCTAGCCCTGCAGATCCA
GGACAGAATCAACTAAGAGCTGAGCCTGTGTCTGACCCCCATAGTCAGTGTTCCATAGCAATGTGTATTTATGCTGTGAAGTCAATCATCTTTTCTCCCA
AAAGTAAAGGTGCGAGTTGGGATGGGGAGAGTGAGAAGGAGCATTGATTTCTGCTTTCTAGCCCCAGGCTAAAAGTTGGCAACTTGGTAAGGATATATAT
TCAATCCAGACAACCCAAGTACCTGTCAGTGGGGTTCTCATTATAGTCTGGGCCATCTTGGCCTCCTGTCTAATATCTGTTCCCTCCAATGAAGTCCATC
ATGTGATGACAGGTGGTACTCAGGGCTTCCAACTGTTAAATCCCTTCACCATAATCACCTCAGAGCTATCACTGCTCTGTCATTASAAATCAAAGCATTT
TAACTCAATAAAGAAGTATTATAATCAGGAGTCATTGTAACACATCTTTATCATGCTAACATTGTTTTGACTGCAAATGACAGTGTCATAAGGATAGAGG
AGTCCATTGTCACTGGGAGGTCTATAGGTGATATTAGAATAGTCAACCCCAGGGAAGCAAATCACAAATCCCTTAGGAAATTCAGACTGCATCGCGGAAA
CAAAGAGATTAAAAAATACGTAAAAGACAAAAGATTCTCAGAGTGCCTTCTTTTGGAAGAACTGTTCTCATCCCTGCAGCACAAGCAAGCTTAAATCCTG
GTGATTTTTTCAGCATTTATGATTGATTATTTGGATTCTATTAATTCTGGCCAGTTCGGCATTTTGTTTCTCTCATCATTGTTTTAGATATGGGATGAAG
GAGGTTTGTTTTCATGGGTCCCCAGTCCTTTAGGGATTTACTGACTCTGAATGAGCAGGCTATTATTTCTGTCAATTACTTCTTGTCTAGGTCTAGACAG
AAACCCCACTCACAATTCATCCATTTTATTCTCTGTATTTATGAAATCTAACTTCACAAATATGGTGTTCTGTAAATGAGAAGGGGGATATAGAGATGCA
ACAATGTAGATGAGAAATATTTGTTTCTTACAGACATCAACTGTCTCTGATCAGGAAAAATAAATGTAGTGAAGTCAAGAAATCCATTTTAGATGGTGAG
AGTTTAGTGTTAAAGCATTTTCAATACTGATTAGAAACGATATACACATCAACTATCCATGAAAACCTCTCTGTCCTGTCAAGGATGGTGACAACATCTA
CCTCCTAATTATCAGAGTCGTGGGATATTAGAAATGGAAGAAATTATCCTCTTCCACTCTGTCGTAACTCAAGCTTGTTTATGGAAATTTTCCATTGGCA
GAGCTTATAGCTTGTTTATCTCTTCTTGGATATCAGGATGTAAATCACATTCTCCTCAAATTTGTTAATAAGGTGTCTTATTAAATTGTTGACTTAAGCA
AGCAATATGTAATGAATACAGGCAGTGTATCTTGTTAGCATTTCTACAGCTCATTTACCACCAATAAAAAAAGACCAGACTTTCAAAATGAGACGCACTT
TGATAATAATCTGTTTCACTGGTACATCACTTAATCTTACTAATGCTGAACAATTGCAGTTCAGGTTTCTGATTCATTGATATTTCTTCCAGCTGGTGGT
AGRGTTCAAATCTGCACAAAGTATGTACAAAGATATTAAAGTGATATATTTGTTAAGTGTGTAGCTGGATAAAATGGTGATATTCTTTTGCAATAGCAAA
ATAACTCAGTTACCTYTGAAGGTCTTTAARTAGTTTTGATTGAGACCATCAGGAACAGGAAAATAAAATATTGCCAGTCTCTTTAGTCATTGTATGAAGT
GTACTCATTAAAGGGTTACCTCTTAAGCTGAGCCCAGAGAACAGTCAGTACAATGAAAGGTATGGCAACCAATTTTCCAGGTACACTGAGCACTGCTTTT
TAGAGTTATTAGTTTTATTACCTACTATATAGGTTAGCTGGTGACAGAGGGTTACATCTTTGGTGCACACCACACATGACTCAGGGCAAGCTGCCACCAA
CCGCAACATGATGGCAAAGAGTACCAGCCATCCACCTGAAAGGAAAGTAGAGGGCAATGTATATCATAATGTTGGCATTCACTGTCCATTATTTCTGTAC
ATACAGGTCATGAGGCATTTTGGTAATTTCTACTGTTCAATGAGCATCTTGGTGTTCTCTTAAGATGCCAGGTAAATAACTACATTCCTTAATTTGCATA
GAATTTAAACTGAAATGTTAAAGCATTTGACTATAAATTCAGAGAGCTCACATCCAGGGCATATTTATTAGTATTTTGAAAAAATTAAGTTACTTTGCAA
AACAATGTATAGTTTGTAGTGCTTTCACCAAACATTATCTTACTTAGTTCTTTTAATTCTGCAACCCAATTGGAGACTAAAGAAACAGCTCAGGATGGTT
AGCAAACCATCCTAAATCACATAGCGGGTAGGTATTTAACCAAGTCTTTTAACTTTCAATCCAGTGTTTCTTCTAGTATGCAAAGCTAATCTCAGACACT
GAGTCTTACATGATTACAACTAAATTCTTACTCCTTATAGATTTAAATGCCACACCTAGGGAGTGAGTATGATGTCAAGATTAAGCTCACAAGCTCTACT
TAGCTTTGAATTCAGCTCTGTTTTTACTGACTATATTATCTTAGAAAAAAATATTTCTTTTTATTTTTTGCTTTTTCATGTGTAAAATAGAAATAATAAA
TGTCTACAGTACAGAGTATTATAAGAGTTAAATGGGTACTCTAAGTGTTTAGTAAATGTTAAACTTTACCTTTATTTTAAAGCTTTCTCAACCCCCCAGT
GAAATATTTAACATCATTTGAATTTTATGTTCAAAAAAGACAATTCATTTATAATATCTTCCCTGGTTGATTAAAAAAAAAAAAACAAGGAGCAAATTAT
AATAAAACCCTCTACCTATATAATAAGATAGTTTGAGAACAAAATAAAATGTAGAAAAAACATAAAATGATTAATTCTATCATTTGTTCAACAAGCATTT
GTAGATCACCTTCTGCATGCTAGGCACTGCTCACAGTACTGGGCATAGAGCAGGGGCTGACAAGCACCTGCCCTTGTGAAGTGTACTTTCTATAAAAGGA
TATAAACAATAAACAAATAATATAAAATATGTATTAAGTCATATGGTGATAAATGCTCTAGAATAAATAAAACAAGAAAAGGAGAAGATCGCATTGACTC
GAGGGCTCTAAATATGGCAAACAAGGAAAATCTCTCTGATAAAACAACATTTGAACAATAAGCTGGAGAAGGTGAAGGCATTAGTGTGTCATGGTGGAGA
GGATCCAATGCAAAGTTCTCAAGGGCATGAGGAGGTTGGTGTGATGACCAGAGTGGAGTGTGTAAGAGGAAGAGTAGGGCACAGAATCATAGGAGCAGGT
TGTTGTATACCTTAGAGATGAATGCAAAGACATAGCGTTTTAACCCAAATAACATGGGAAGTAATTGGAGGCTATAGTGAGTGGCATTACTTGGTCTGAT
GTCTATTTTTAAAGATCATTTTAACTACTGAGTTGGGAACTACTTTTAGATAAGCAAAGAACATAAGTAGCAAAAATAGGAGGCAATTGTAGTAATACAA
GGAAGGGATGATGTGGTGTAGAGAAGGATGAGAGGTAAGCATATTCCAGATGATTTTTTATCATAATGATGCAATTTAATTTAACAAATTTGAGCTCATT
TAACCTGTCTGATGGAATGTGCTAGGTGTCTAAGAGTAAATAAACCATTGTATCAAAGAACTTTCTAGCTAGTGATAGACATGTAAATACCTATCTATAA
CACAAGGAGAAACGAAGTAAATCTAAATGCAAGTGAATAATTACTTTGTGGAATAACTTGGATGCTTTAAGAAGGATGTAGCTCTTGAGTTGGGCCTTGC
AGAGTACAGTGAATTTCCATGGGCAGAGAATAAGCATTAGGTAATTCCAGTCTGAGAAAACAGTAAGAACAATGCCCTGCATGGGGCAGCAGATCTAATC
TCAGTTCATTTATTTTAGTCCTACCTGGCCGGTTAGTCGGCCTCATGGATGTGTGGTTCAGGGGCAAACCAGAGATTGAGGTAGAATTTACACACAGACT
CCAGGGCTTTTTCCAGGATCTCCTCTCATTCTCTACTGCGTATTTGTGATAAGCAGGATTCTAACATGACCTGCAAGATTCCTGTCCCCTGGTGTACATG
CCATGTAGAATACCCTGTCCTTCAGTGTGGGCAGAACCTGTGAATATGATGAGATATTACTCCCATGATTATGTTTCATCATATGACTAAAGGAAGATTA
TCCCAAGTGGGTCTGACCTAACTGGGTGAGCCCTTCAAAAGCAGAATAAGTTTTACAGCTGGTCACAGAGTGGAAGTCAGGCATGTGCCCTTGCCGGTTA
GGAAAAAAGCAAATAGCCATGTTGTGAACTGCCTATTTGGCAAGCAGCTGTAGGCATCCTCTAGAATTTGAGAGTCATTTCTGGGCAACAGATGGCAAGA
AAACAGACATGTGTCATACAACCACAAAGAAATCAGTACTGCCAACAACCAATGCGCTTAAAAGAGGCCTTGAGCCTCAGATGAGAATCACAGTGCCTGC
TGACTCCTTGATTTCAGCCTAGTGAAACTCTGAGCAAAGGACCCGGCTAATCTATACTGGACTCCTGACCAGTGGAAACTGAGATAAAAAATGAACATTG
TTTTAAATCACTAGGTTTATGGTAATTTGTTATAAAACAATAACTAATACACTCCAGTTGCCCTGAATTCTGTCCTCTGTTCCTTCAAACAAGCAAACCA
TCAGAATTTTAATTGTTTCCTAAAATGCAGAAGTGGTCTACCCTCAGGCTAAATGCTATAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGA
GAGAGAGAGGTGGGAAATATACTAGTTCCTTTCTTCTAAGTGACTCACTCCCCTCCAGGATCTACTTGCTTTTATTAACTTTCCAGTGCCTTCAGGTAGC
TGTCATTTACATTTTGTCCAGAGTTTCTCGTTGTTTTCTGTAGGAGGGTTGATCTAATATAAGCTACTTGATCATTCAGATACTGAATGGTAGTATCAAT
ATAATTTGCTGGTATATAAGAGTAAAGTATGATAGAGTAGTCAAACATCATCACTTTTTTTGTGTGTGTTTTTTGTTTTTTGCTTTTTTTTTTTTTGCCT
CTGCAAGCAGAAGGATGGAGTTTCCATTTACTGAAATGGGAAAGGCTATAAATATAATTAATTGCATGTATGAGTTTAGAGTTCAGGAGAAAGTACTGGG
CTAGAGATAATAATCTGGAAGTTGTTTTTTAAAGACATAAGACTGAATTAACTCCTCAACAAATTAATTTTAAAGGGTAAAGAGACTCAAAGACTGAGTC
TTGGGGCAATAAAAAGCTTAAAGATAAGGAGGAGAGATGAAACCAAAAGAGGAGACTAAGAAGAAGCCAATGAGCGCAGAAAAAAATAAAATAAGAAAAT
GGTGTCCTCAAAGCCAATTGAAAAACATGTTTCAGGGACAAAGGAATTGTTGCTTATATTTAATGCTATGCCAAGTGAAATGACCACTGAGATGTAACCA
TTGAATTTAGCAATGAGATCTTTGTAACCTTGACAAGGGCAGTTTCAGCAGTGTTGTAGGAGAAAGCTTGATTAGGATGGATTGCAAATGGGAGAAGGGG
AATTAGAGACCGCAAATTTGGATAACTCTAGAACAATTTTGCTGTAAAGTAAACAGCAATGGAACAGTAGCTTGAAGGAGGACGTTAAGGGTTTTATTTT
GCTGTTTGTTTTTAAGATAGGAGAATGTATAGTATGTCTGTATGCTGGTGGAGATTAAACAATACAGAAGGAACATGAACGATGCAAAAAAAAATGGATG
AGAGAATTATTGCTGGAGCACACAAGTGAAGGAGTTGGCCTGAGAATCAGGCAAATTTCATCCACAGAAACAAAAGTGAGGGCAAATTATGTAGGTCATA
GGTGAGTAGGTCAATGTAGTAGTGGGAGCTAGAGGTTTAGGAGAGAGGAAAAGGTACAAAATAGCCATCCGAAGTGTGAGAGAGTGAATGGACTAGAAAT
ATGTAATAGGCTCTCTGAATAGTACTGACGGTCCATGGGAGATTAGAGGGTCAAGATTTTGAAGTGAGACCAGGCAGAATGGATTCAATAAAGTTTAGGA
TTCTTTCAGTACTGTACCAAATGCAAGATGAAGCAAGGGAGTTGAGGATGTGTGGAAGGGAGTGATAGTTGGAAGTGAATCTAATGATAAATGTAAATGA
AATATAAGGTAAAGGGAAAGTGAGTGACAGCGAAAAGATGATGAAGTGAGCAAAAAAACAAGTAGGGAAAAAGATAGGCAGATGGGTAGGTAGGTAGAAA
GAAGAGCATCTACTTTAGGACATATTTGGAACTGCTCGTAATAAAAAGCTCTTGTTTTATTTTGTTTTGTTTTAAGTGGTAAAATGGCTTCCAAGTACCA
GTGTGATCAAAGCTTGTTGGAGTCAGGTTTCTAGAGGAAGTGAGGTAGAGAGAAAGGGACAGCTCAGAGAGTTGTCTGATAAAGATTGAGAGGTTAAAGA
GCATGGAGGGGTGGAGGCATTGGTCATGACAGGGTCTAGGGTATAACTAAGGGGCTGAGTGACTAAAGGAGTTTGGAGGACAAGCTCATTGGAGAAGAGT
AGGCAAAGGAACCCAGAGGTCAGGCTATTTTAATGATCATTTGCATGGATAATAAAAGTACAAAGAGTAGTGTTAGAGAGTATGAAGTAAGCCAGTTTTT
AAAATCCCCAAAGAATGAGGGGGTGTGGCTAGACTCTGGTGGTATAGCCTGACAAGCTGGTGGTGTTTAGAGGAGAAACCATTTGGAAGTAGCAGTGACA
GCAAGGAAGACACAGGGTTTTGCTCACTCCACTGCTCCCACTGCTCCCACTGCCCCCACCAACCTAGAGATACAAGGAGTATGTGAGAGGAAACAGCTTA
TAAGGGAAGCAGTGTTCTCAGGGGTGGGCTAGATAGTAAGGGAGAAATTGTTCTACTAAGAATCTAAATTATTTGGTTACTGAACCTGAATGTTAAATTG
GGCTCTCCACCTCCTGGCAGTGAAAGTTTCAAAAAAGGAGAAATGATAGGGTGTATAGTTTTAGGATCTGACAAAAGAAGACAATTTTCTCAGAAGAGGC
CAACATTTTCTAAAATTCCAAGAATTTTTCCAATAATCATTTTTATATCCCTTGCAACTGGAACAAAGCTTGAAATATATTTGGAATAAACTTTTTTTTA
ACCAAACTCGTCTGACACAGAGGTTCATAATGGGCAATATTTTTAATGGCACTGTCTGAAGGTAAAAAGCTTACCTTAAACCCTAAAGTAAGGCATAGTC
CTGAGGTTTCTATCATCATCTTAGTTTTGAATCTGAGATGATCTTTTCAAAAGTGAAGTTCATTATAAATCTAGCCTTAGCAGTTCTTTTTATACACAGT
GTGCAGTGTATTACAAGGCACTGAGATAGTTAATAGTTTTTAGTATTCACTATTATTCTTTCATTTTGAAGAGGAAACCTGCCATTTAAAAACATGCAAA
GCTAATTAAAGCTTTTCCACTATTTCATTATCTGAATGTAGTTGCAAATTCTGACTTAAAACTCTTATCAGAGGGAGACTCAACATCTCTCCATGAACAG
CAAATGAACATTCAATTAACACTTCAATAAAAGTGTATTTTAAATAAAAATATACTTTATTGTTAATCTCATTCTTTACAAATGCTAATACCCAATTTTA
ACATCCAAAGAGAGTCTCCTTCCTTTTATTCTTAAGGGAAAAAAGTTCTTTTTTCTATTTACAGGGAAGACCCGAATTTTCTGAAGTTGTCATGAAGTTA
GAAGAGTGTCTCTGCAACATTGAGGTAAAAGCTTTAGCTTCTGAAATATGTCCATAAAAAAGCCCTGCATATCCAAGGCTGTCAGGGAATGTAGATGAGC
TGGTGCTTATGAAAAGTTACTGTGAGGACCCATAACTCCATCCATATTTGCCCTATTCATKAAATTCCTATGGTGGAGCAGAATTAGCTGTATCTACAGG
GACAAAGGCAAAGTCAGAGTGAATTCGAGACCTTCCAACAAATAATAGGGCAGGCAAATGGACACAGTCATGCTCAGCTTAAAAATTGATAAGTAAAAAT
TGGAAAGTATAACAAATACATTAGAAGGTAATTATTTAATCAATTTTTATGCAAAAATTCTTCATACAGAGATTTGTAAGCCATTGTTCATTTACATTCA
ATGCGAAAAGAAAAATTATCAATAAAATATGTTCATAAATTAGTTGGAATGCATTGCTTTCACACCACATATATGTTGCTTAATGTGATATATGTTGGTA
ATCAGGCTAATGGAATTTTCTTGCCTTATTAAAGCTGTTTGCTTTAAGTTTYTYTACAATTGCCTTAATTTTYTACACACCTGGTCAAGAGATAGCATTT
CAAAATAATCGAGGGAGCTAAAACATGCMCACTACTTGAAAAATAATATATTYTCAAATGGAAATAAGTGTTACTGGTGGAGGAAGACATACATCACACA
TAGAGGATCATATATGCATTTGCATATGCAGGGAAGGGGCAACAATAGAGAGAAATAGCATCAACCTGAGATTGCMCCACTAAGTCTCAAAGTGGAACCA
TCAAGAAAAGCAGGATTTTTTTTCTAAAAAAAAAAAAAAAAAAAAAAAAAACTCAMCTAAGAGTCATTGGACCTAGTCTATTGGAAAAGGATTTGCAGTT
ACAGCCTGCAGTGAGKGGCTCTGTCTCATGACTCTTTGCTGGAATTTCTAAAGAAAACTTTTGTGTAAAAAGAAGCTTCAGTGTTTAGACCTAAGATCCT
CTTTCCCTTCTCTTATTCAGTACTGGGACTTACAGAAAGTGGGGAGAAGTAGTCATATATTTGGTGGGGCTTCAGCAGCCCCTGTGGACAAAAGCATCTG
CCAGAAGCCTTGGGTATTAAGAGACACCTTCAAGACTTGAATTTAAAATATCCTCTCATTTTGAAACTTAGGGTTTGAGTGAGTTTGCTTCGAGCCTAAT
GGGATAGATATATCTGGAGGTGGATTCCAGAAAAAAGGAATCCACCATGATAGGATCTACAAACATGATAGGATCTACTAAACTAGCTTGTCTTATTGTA
ATATATTGATCAAGCCTCTTATTTATACTCTCTCCCCAAGGGAGAAGATGAATGGGCTATATGCTGACAGAGTTTGCTGGACTGAGTTGCACTAATTAAC
AGATGAGAGTCAGCCTAAAGAGGCTTGACTTGCGCAGTTTCATAAGACCTTATCCTCTCTATTCTTCAACTTTTCAGTCAACGGTTTAGATCAAGGCCAA
GAGGGAGCTACTCATCCCATGTGCAGATATAAWCAAGTTAAGAGGGACAGAAAGTATTTGAAAGCAGGACCCTAGATCTTGGAGGATGAAGTAACAGGAC
ATGTCTAACAAGAATAATTTTAACAGGAATACATATAAATATAATGTCCTGCAGCAGAGCCAAAGAAAAAATAATAAAAGTATCAAATGGTGGAGACCTG
GCTTAGGAGCATCATGAATGCTAGTGGATAATAAGCTCATTGGGAGTTAAAATATAAAGTGACTGTCTTGCTGCAAAATAAAAGATATGATTAGTCTTGT
TCTGAAATGGCAAAGTGGTRTCCAGTTGTGTCTGTGAGCCTTTTAAAGGAATAATTAAAACTGGGATACACATTTTAGAAGAGAGAGATTTGAGTGGTGA
ATAAGCTGAAAATCACGTAACATGAAAACCGGTTGAAGGAGCTAATGATGCTTATCACAGAAAAGAGATAATTAGGGTGAGTCCAACAGGTTTTTGTTTG
TTTGTTTGTTTTTGAGAGAGAGTCTCGCTCTGTCTCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGAT
TCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGTGCGTGCCACCACTCCCAGCTAATTTTTGTATTTTTATTAGAGACGGGGTTTCACCATGTTG
ACCAGATGGTGTCGATCTGTTGACCAGGATGGTGTCGATCTCTTGACCTCATGATCCGCTCACCTCAGGCTCCCAAAGTGCTGGGATTACAGGYGTGAGC
CACCACACCCAGCCAAGTCCAACAGGTGTTTTAAACATCTGAAAAACTATCACATGGTAAAGGGAGTGGCCTGTTCAATATGGGAAAAGACTTGCCACAC
ATTAAAGCATTTTTCRTCTTATAAAATTGATGTATTCTTGGAAAAGTGTGTAAATTCATTTTACATGAAGGGAATAATTTCATGTAAAGGGAATAATTTT
AGCTATGATTTAAAGGAACTCTGCCATAAATCTTATTGCCATAGTGAAGAATGTGAAGAATCTTTTGATCATTGAATAATAACCTTCTAAATATATTTTA
TGAATCTGAGTTGGGCCTACTGTGTTTTTAGAAAGATGAGCATAAATTTAACAGGCCAGCTCTCAGCACAGAACTGGGTCAAAAAAGTAAATTAAGCTAG
GCAGATGTTGCCACTAGACTTTTTCCTGAAAGGAAAAGCCAGGAGCAAGCTGAGTGAATAGAAATTAAAATATGGGAAACCTTGGARTAGAAAGTTAAAT
CCATATTTTATGTTATGTCTTCACACCTGTTGGAAGTATTAAACAATTGAAATTGCCCCTCCTCCACTCAGCTGATGTCTCCTGCATCAAGTAACAGCAG
TGGGTCTCTCTCACCTTCTTCTTCTTCTGATTGCCTGGTGAACCGGGGAGGACCTGGCCGGAGTCATGTGGCAGCATTAAGAAGTCGTTTCGAATTGGAA
TATGCTCTAAATGCAAGGTCCTATGCTGCTTTGTCCCAAAGGTGAGTGGTAATATAAGCAAATCTCACAGTAAAGTCTTATTTCAGAATCTTATCAAGAC
AGTCAACTGATTTGATTACTATTAACAGGGTTTGATTACCCCCTGAAAAACTTTGAAAGAGGAGTTTTCAGCCCATTTTTCTTAYGTTATGACTAAAAAT
TAGAAATTTTATTATCTGTTAGCCTAGGTCCTCTAGTTGCAAGTAACAGGCATTAACCTAGCTTAAGTAAGACACGTCTATTTCAGAGCAACAAAAGGGA
TTTATTAAAAGTATTCTGAAGCTATTTTATGGCATCCAAGCAAGAATTCCTGTGTGGAAACCAGGAAACAGCTTTGAGGATCTGAGCAACAGAAGTTCAG
CGTTCTAAGAATTACCATATGACCCAGAAATTCCATTCCTAGGAATATACCCTAAAATTGGAAATAGGTACTTAAACAAATACTTGTATTCAAATGTTTA
TAGAGCAATATTTATAATAACCAAAAGGTGGAAACAACCCAAAAGTCCATCAACCAATGAACAGATTGATAAAACAGGTTGTCACAACAAAATACCATAT
ACTGGGTACATAAAACAGCAGAAATGTATTTCCGCAGTCTGAAAGCTGGAAGTCCAAGATCAGGTTCAGCATGGTTGAGGTTCTGGTGCGGGTTCTCTTC
CTGTTTTCTAGAAATCCACCTTTTTTTCTCTGTCCTTATAAGGCAGGGAGAGCTCTAGTGTCCCTTTATCTTCTTATAAGGGCACCAACTCTACTGGATC
AGGGCTTTACATTTATGACTTCATTTAACCTTAATTATCTCCTTAAAGGCCTTCTCTCCAATTTAGTCACRTGGGAGGCTAGGGTTTCAACATATGAATT
TGAGGAGGGTCACACTCCAGTCCATAGCAATAGGTAAATCTATAAAAACAAAAAGCAAATGGGTGCTTCTAGGGGATAGGGAGGAGGGAGAAATTGGGAG
TAAATGCTTAATTGTCTCCCAGTTTTATTTGGGGCTGATGAAAAGATTTTGGAATTAAAATGGTGGTTGTAAAACTGTGAATGTACTAAATACCACTGAG
TTGCTAGTTTTAAAATGGTTATTTCTATGCTATGTGAACTTTACCTCGATGAAAACAGAAGCAAAAACAAAAAGATTAAGCAAAAAGGTAAGTCAGAAAA
AAGAGAAAAAGAAATCAACATTCTTTCATAGCTAGCTCTGCCATTCACATGCCCCAGTTCCCAATAGATAGTCTCTTTGTCTCTCAGCTTAAATGTTAAG
TTTCAAAGAGAAATATATCTGTCATATAATGCTATAATAATTCCGTATAATAACCCATCCCAGAATTCAGGGATATACAATCATAATCATTTATTTCTTG
CTCACTTGTTTGTGGGCTCATTTTGGATGAGCTTGACTCTGAACTACAGATTGCGTTCAGGTCTATTCCTTGGGTCTATCAACCTCCTTGGACACCCACA
TAGAAAAATGTACTACCTGGGGTATATTCTTCTCACAGACAAAGGCTAGTAACTCAAGAGGACAAGCCCAAATTTACATGCACATTTAAAGCCTTTGCTC
AAGTTGTATCCTCTGACAACATTCCATTGGCAAGTTTCACAGCTGACTTCAACATCAATAGGAAGAAAAAATATACTTGATTTTTAGTGGGAAGAATTGC
AAAGCCATATGGCAAAAGGCATGGGTAACTGGAGTGGGAATGGGGTCATAGTTCATTAATATAAATACGGTTGTCAGGGGCCCCTGTTCTAGATGGGGAG
CAAAGAAGGCAGTCACTGTGAGCTTCATAGATACCCTGAAGAGTGCATACTTTCCAACCCATGGAAGACCAGAAAAGACTAGTTTAAAATCTTTCTCCGT
CCACGTGAGCACCAAAGCATTTGCACACGGCCCAGTTACACATGCACACTCACACCCACACCTGCATATACATACACACTCATACACTCCATTATCAGAG
TAAAGGTTCTTAAGTGGGAAAAGATTATCTGGAGTTAGCAAGGGTTTCTATACAATCTACAAATTGCAATTGTTGCTTTTTTAGCTGTAGTTATTATATT
CCTGATCTGATAAAGGAGTTGCAGCTGCAGCTATGAAGAGATGGGACTCTGATTCGTGAAGTCTTTAATCTATAAAATGTCATGAAATTAAGTATTAGTA
GGTTTGATTGATAACCACACAAACTGGACACCATTTTTTATTGGATTTTAGTCTCTTGTATAATTTCAAAAGGACCCATAGGCCAAGACTACATTAGATT
TGGTCACATCATCATCTTCCAGTTCTATCTTCTGTTCTTATTCTCTACTTGTGTCTTTTAAAGCTATTTCTCTGAACAGCCAGATTTTGATATTTCTAAA
GCACAGTCACCTGAGGTTTGTCCACTTGAGACAGAGGTTAAGAGGATGAGCTGTGGAATCAGACAGATGTGAAGTTAAATCTTGGCTTTGCCATGTACTA
GCTCAATGACCTTGTCAAGTTATTTAAATCTCACATGTAAAATACTGATAATAATACCAGATCTTAGAGTTGTTTTAAGGAGAGGTACTATTGTCATAGC
AGTGACAGTACTTGATTGAAAGATGCCAGCAGAACCAAGCAAAGAATATAGGTCCAAAAATGTAGGCAAGTCACAGAATTTACAATACACGGAGAGCTAC
ACAGAATAGGAGGCACAGCAGCAGTCCCAGTTAGGCAAATGAAGGGTGGAGGGGACAGAGCTTCTCTAGCCTTCAAGAATCTAGAGATGTATACCACTAC
TAATTTTTCAAAAAACCTACATGCTGGGTGAAAAAACCCATCAGCTTTTTTGAGATGCTCCTTTTGATATTCTCATAAAGTGTTTTATAGCCTTCTGGCC
CTTCCTGACTGTTATGGAACTCTGATAAGGGTGTATCTGTCTGCTAGGTGCAAGTTTCTCTTAACAGCATGGCATTTCCCTGAGGATTTGCTGTGAGCGT
GCATTCAAGGTCAGTTTGTTAGTACCATTCCTCCGAGTAAGCTCAATCCTTGCACTACTTAAAATCAACTCTAGGAATCGGTAAAGCGTTTAGCTAAGTT
TTAAAATGTGTCAAAATAGAAATTATGTATGTTCTATTCATTACTGKATCCTTAGTATCTATCTAGCAGTATGATTGGCATAAAGTCAGTAAGAAATATT
TGTTGGGCAGATAAAGAATAAAAAATTGGATAAATTGGCTCAATAAACAGGAATTATTTTTCACTTGGTGTGTAATCAGTGAATGAGCCTTAACTATTTT
CTCTTTTCTTTCCATTTAAATACCTGTCACTATTGAACATCCTGGGCACTATTTTAAACACTTTAAATAGTCATCTAATTCAGCCTTAGGAAGTAGGTAT
TCCAATTTTTATAGATGAGGAAACTGAGGCTCATAGAAAAGGTAAGCAACTTTCCCAAGTTAATGGAGAGTAAGTAAGCAAAGCTGGAATTCTCACTCAG
GACTCTCCTGTGCTTTCTGAGTTTCTCTGGCATAGGAGATGCATGTTCCAGAAGCTTGAAATATTTTGCCAATACTTGTATTTGCTGGACTTCCAGTTTC
TCCTGGAAGTCAATCTGTGAATAACTTCGRCTATTTCTCCCAAGCCTGCCTTTTCAGCTTGTGTATATGAAGGCAGAGGAAGTGAGAACAGCGATCAATA
GGTGTTTAAAGTCAGAGAGCCCAAGGATATAAAAATTGATGGACTAAGTACAGGAGGGCCATGAGTTTAACAGCTTGTGAGACAGTGGTTCTCAACTTTG
GCTGCACATTAGAATCATCTGGGAAGCTTTTACAAGTACCAGTGCCCAGGACCAATTAAACCAAAACCCATGGGGTTGGCACCCAGGCATCAGAATGCTT
TAAAGTTYCCCAGGTGATTCCAATATACATCCAAGTATAAGAAACATGCTGAAAGAGAATGATACGATGCTAACCTGCCAGTCATTCTGTAAGAAGGGGA
TGCAGCTAATGAGAGAGGAAAGAGAAAGCCAAGGTGAAATACCATCTGTGACCAAAGGGGACCATTTTGATGACTTATTACGTGCATCATCCCTGCCAAA
ATTCCTTACAATGTACCACTAACTTCTGATCTTTGGATTTCCTAATTAATTCAAGTTACAGAGTTAAAATGTAATTTTTTAGTATAGCATTATGATTTTG
AAAAATCAGTACAAGGTTTTTCCTATAGTCCCTACTAATGTATGGATGTGGGGACACCTCAACACTGTCTTGAGAAATGATGCATTTACTTTTCAATTTT
TGGTCATGAAGTTCACAGATGATAGGTTTGAGTTTTGTAATGCTTGATTTTATGGRGTTTTTGGTTGTTTGTATATTTGTTTCTAATTATTATTATTCTT
TATAAATAAATTTAGAGGTGCAAAATTGTGTCAGAGATTTTCTCCACAGATAATAGGAATTCCCTAATTCCTATCAAAACCATAACTTGATAAAATCTGA
GATTGAGAAAGGCACTCTTGAAGTTCTGCCTCTTTTAAAATATTTTGTGCCTCTAGATATATTTGGAAAACTAAGCATGTGGCAGTTGCTCCTCCCACAG
GGTATGAAATCCCATCTTGTACATGGATTACATCATGTAAATTTAGAAATGACAAACTGATACACAACCTTTCAGATGTGAAAACCAATTAGTGTTTATG
TGGGGCTGGGCTCTAAGAATAGAATGATTTGACCTAGTTAGCTGTCCAGAAGAAGAAAACCAGGGATCCAGAGTTTGGAACTGTAAAACAGATACATTTG
GGATTAATTTTTCACACTACAAAAGGGTCCATCAAAGGTTTCTTTAAATAGCTTGCCTAGTGCACTTAGAATGGAATGCAGTTTATAAAAGTTGAATATA
ACTTATAAAATTTTAATTTACTCAAAGTTTTTCTGGGTTACAACAATTGTGTAAGATGATAGCACCATGACACTGATGTTCCTAKGAAGAATGAAGAAGG
GAGAGCAGCAAGGGGACCGTGTCCATTTGCTTCAGTATAGCAGATGTTTACCAGATAACAGTGGCCATGTCTCCTCCTCATCACCCCAGGTCAAATACTC
CCCTCTTTCATCTACCACCTCTCTTGCACTCTTTTTTGTACTAAAATTTTCAAATATTCCCTTTTCTTCCAATCTTTCTATCCTCTCTCCATCCCTAACT
TCTTGTCAACTCACCACAATCAGCAATTTCAGCACCTTGCTCATGACCACTGTAAATGTTCTCAAACATTGCTTCCTCTTTCCATGGGTCTTCTTGTTGT
TTCTACAATCCCATGGCTTCAACTCACACCACATACATGCACACACACACACACACATACACATGCACACACACACATCTACACACACATACATTCCTCC
ACACACACAATTGAACCCCAGATCATTTATTCAGCCTTGACCTCTCTGCTTCCTAGCGTTTGCAACATCTTTAACTTCTCTCCTGTTCCAGCTTCCTCAT
GCTCTAACCCACCTACTACCATCATAATTTTTATTATGTAGAACTCCAATTCTAATTATATTATTTGCATTAAAACCTTCAATAATTCTCCATTGCTTCT
AAAATTAAGTGAATTCCGGAGTCCAATTGATTCAGGAGTCCGAAATCCTCAGTGATACACGTTTTCATCATACGTTCCAGTGGTTCTAAACAGAGAGTGA
TACTGTCGCTCTCTCTCTTCTCAGATGCATCCTAGGCTTTTTGAACTGTGGGAGGCTTTTTTGTTTGTTTGTTTGTTTGTTTTTGTATTCCCAAGGACTA
AAGAGATGCTATTACCATTTAGTGAGCTGGGACCAGAATGTTGAGGTTTCTCCAATGTTTTGGGCAATCTCAAAAAACAAAAAATTATCTTACACAAAAT
GACAATAGCATTCTTGGAGAGGAAAACTACAGACAAACTAGAAGTTCCACTAGTTCCCATAAACACCCCATGTTTATCCTACCATCAACCTATCACTGTA
TCTTAACAGTTTTTTTAACCTTGACATCCCCCTTATCTTGTCAAAATATTAACCAGCCTTCAGTAATTATCTCAATCAGCGTAATCACTATGTCATGAAG
AAGTATTTTCTGGGGGCTACCCCATCTCGATTCATGCCTCACTAAAGACCACAGCACTCTGTGCCACGTTATAATTCATGTTATTTTTTCTTATGTGTCT
TATTCCCTATTAGATCATAAATATGTTAAAAACAGAAATTCTCTTCTTTTTTGTTTTGTTCAGGTGCCTACAATATCTCATTTATTATTTAATTGCATGT
GGTGAATATTAAATATTTTTATTTATAATAAACTAGGAAAATTATTAGTTAGGCTGTAAATACCAGGCTTTGTATTTCTGCAATTTAAGTGAGTAAAACT
CTGGCATTCAGATTTTTTTGACTCCTACATTCCTGTCAAGTTCAAATATATTCTCATCCAAAAATAATGAACTACTAGATATTCCACTACTTTTCCAGTC
TTCCCCCCGACTATTAGCACACTAAATGTCAATATATTTCTTTTTTAATTACTAAAAGGATAGAATATAGGTGACTAAGATGTGTGAGGAGAAAAGTGAC
TACCACATTCATTCCCTGTGTGTTTTTTAAAAAAAATTTTAATATTTAAAACTTCTATAACAAAAGGTAATGTTCCTTCAAAGGTAGATTTCATGTGCAG
AGCATTAATATGACGCTTATTTTAGCATGAAATAAAAGCAAAACATAATATTCTGATAAATACACCAATTATTGACTCATTCATTTTATATTCTATTAAT
GTGAATCTTCATTAGAGAAATGAATAAATAAACAAGCAAACCAACAGAACAATGGACAGAAACATCCCAGGAATGCAGGTGCGTGCACACTGGGTTACAA
GGGACAACCAGCATGCATTTCCCTTGAACTCAGGGTCTTTACTTTTCCTGCAAATGGGACCATGTCTGATTATTTATTATGRATGAACACTTTACCTAGA
ATTTTTCCTTGGCTCAAGCAATCCTCCTGCCTGAGCCTCCTGAGTAGCTGGGACTACAGGCATGCGCCACCATGCCCAGTTAATTTTTAATTTTTATTTT
TGTAGAAACAGAGTTTTACTATGTTGCCCAGGCTGGTCTCCTAAGGTTAAATGATTCAGCTTCCTAAAGTGCTGAGATTATAAATATGAGCCACTGCACC
AGGCCCCACAATAACTTTTATTAAAGTATGTTGTTGTAATTGTTCTATTTTATTATTAATTATTGTCAATCTCTCATTGTGCCTAATTTATAAGTTAAAT
TTTATCATAGGAATATAGGTATAAGAAAATATTATAYTGTATATTGGATTCAGTAATATCTCCAGTTTCAGGCATCCACTGGGGGTCTTGGAATATATCC
CTGGTAGATAAGAGGGGAGGGGGCTACTACAATTTTTATACTCAGCTTGTATTTCCCACCAAAAAAATGAGATTTTGATTATAGATATTTAAGCCTATAG
GTCAATATGAAAAGATCTGACATCTTTATAATATTGAGTTCCCCTTACCATGAATGTAGTACATTTTTGCATTTATTTAGATGTTCTTTAATATCTTTTA
GTAAGAGTTTACAATTTTCTTTATGGGGTTCTTATATACCTTTTGTGTGATAAATAGTTACATCCATTGTGACTGCTGAAATCGTTTGGACTAATTGCAA
ACATATTATTTTATTCTGTCTAGTATTTTTTCTCACCCTATCTTTCTATCTTTTTTCCTTTCCTTTGATTATTTGAATATGAGCTATATTTCTATTCTTT
GGTGAGTACCCCAGAAGCTTTAATATATTATTTAAAATAACTAATTATATTTTTAATATGTTTGTCTTATTCTTAAATGAAAGATCTTAGACCATTTTAA
TTAAAATCATTCTCTCCTGACCTCTATAATACCTCTTTATTTTAATTTCCAGTATTTTATCTTCATCAAGATTTTATAAATTCCATAATGATTTCATTGT
TTTATACAACTATGTTTTATTTAGGCTTACCTCATGTTTAATGTTTCATTGTTTGTTATGGTTACATTTCAAATCTTTCTTCTAGTATCATTTTTCTTTT
CCATAAATGCACCTTTAAAAATTATTTAAGCCTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCTAAAAAACGGTGAA
ACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAA
CCCGGGAGGCGGAGCTTGCAGTAAGCTGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTATTTAAGCCTCACTCTGTTGGAAGTAAACAAATGAAAAACACTTATCTTCCCTCTTTTTTAAGA
TATTTAGTAGATAGAGGATTTTAATTGTTCAGTTACTTTTTTCCCTGCACCTTCAGGGGGAAAATGCTATTCCATGTTTTACTTTCTTTGTTGCTGTTAA
AATTTCATCTATGAATCTAATTGTTATTTCTTTTGTTTTTAATCTGCCTTTTAAAACTGCTTTTARAAGTCTTCTTTATCTTTGGTATCCTACAGTTTAA
TTATGTTGTGTATAGATATAAATTTATGTTTATTTATTTTACTTGTGATATATTATGTTTCCAGAATTTGAAAATTGACATCTTTCATAAACTCTGGATA
ATCCTCAGCTGTTGTCTCTTCTAACATTTCTTTATTACTTCTTCTTTAGTATCTCTTTCTGGAATTCTAGTTGGATATTTTTTAAAGTTTCTCACTCTAT
TTTCCACATTTCTCAATCTCTTTTTAAAAAATATTTCCCACCCTTTACTTTCTCTATCCTGCTTTCTGGGTAATTTTTTCAGATCTGTCTTCCAATTCAC
TTATTCTCTCAGAAGCTGGATTTAATGTGTTGTTTACTTTGTTCATTGCATTTCTAATTCAATTTATTTCTAATTTATATTCCAGTTCTAGAAGTTGCAT
GTCATTTACAATTTTACAGGAGAGTTTAAAAAAAGCTGTAGACCTGCTCCATACTTTTCTTCTTTTATTTCTTCAAACGAATTTTATCTGGAGACATTAA
TACCTCAAGACCAACCAAAACTTCAACTTGGAGGGTTTTTTTTGTTTTGTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTTTGAGACTGGCTCTGTC
ACCCAGGCTAGAGTGCAGTGGCACAATCTCAGTTCTCTGCAACCTCTGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATT
ACAGGCACGCACTACCACGCCCGGGTAATTTTTGTACTTTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTTGTGTATTCCTGACCTTGTG
ATCTGTCCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCGCATCCGGCCAACTTGGAGTTTTTCATAGAACACGTGTAGTAATAATTC
TGCTTTAAACTAGCTTGTATGTGGGCTGGCAGATGAGACTTCTGAGGGTTATATATATATATATACATTTTCTTTTTCTCACTTTACCTGGAGCCAGGAA
TAATGTAAGATATTTATCCTCTGCATATCTTTATGTAGAGTGAATTTTATTTTTTCTGATTTACCTAATCTGGATGTTGCCCTTTGAAGATTTTGGCTTT
ATACAGGTGTTTCTTATCTGACCCTCCACCTTGCTTGGACCCATGATGTATCTCTACCATATAATCTATTAAAATTCATGCTATAGGTCAACAAGAGTCA
GTATGAGAACTTCATAGCACTTATATTTACTTGGAGTGATAATCTTAGAAAATCGTTTTCTTTTATATTCATACCCATAGTAGATTGTAAACATCATGCA
GGCATAAAATGTCTCTCCTTTTGCTGCTGTTTCTCCAGTACTTAGAACAGTGCCCGGTACATGGTAGGTGCCAAACACCTATTTGTGATGTACATGAACA
TAATGACTTCCCACAAACATGATGCCATTGAATTCAACAATCTTGTGAAGTATGCCTCATGGTTTCTATTTTTTAGATAAAACAGAAACTCAAATAATGT
AAGCAATGCATATAACTATTTAGTAGAAAAAATGGTAGTTCATAATTTAATTTGGGCCTGTCCGGTAGTGTTTTCATTACATCATGCTATCTCTGGAGAC
TTAACTTTGCCAACATGTTTGCCAACACCAGAACGTTATGTCAAGTTTGGGCTTTGAAGAGAATCAGCAGGGAGCTATCCAGAGTACTGAACTACCTCGC
ACTTAAACTGCCAGATCTAGTGGAACATACTTCCCTCTGTCTATGGCCAATAGCCTTTGATTGGAGGGAAATTTCCCTTCTCACTCTAACTCTGATAGTA
GCCACTTTGCCTCAGCTTATGCCTCCTGAAGAAACACTATAAATCACCTGCCTGTGCTGATACAGACCCAAACTGAACACAACTCCACAGCTGCTGCCTC
GTTCACAGGCGTGCCGTGGACTCCCTCTGTATCTTCTTCAAAACAGCCTCTCCCAAACAGCCTCACTCTCTGACCACATTTGTAAAAGTAGCGACAACCA
ATCAGAGCACATAAAAGGATGAACTTCTTCCTTCTAGGAACTTAACTGAAGTGACACTTGTGGACTAGCTTTGAGGATAGCTCTACTTCAGCATGATTTC
TTTATGGAACTGAGTACACTGTAAAATTAGGCTCTTCTTTTCACTTCCTCATTAAACGTACTCTCCACTGTGGTAGCCAAATGCAGTCAATGAATGAAAA
AAACAACAACAATCTTTTAGCTGACATTTGTGGGCAACAATTGACTTTCTGGTGATGAAAGTCCAAGAGTTTTTCAGGGCCAGAAATGAAGAAAAAGACC
ACTCTTTCTCATGCATAAATACAATAGGGAATCAGCATCTTTTAGCTAATTCTACTTAGAAATAATTTTAATATTTATAAATTTAATAAAACCAAAAAGG
GTCTTTGGCTTTCTAACTTATATTTTACTTATTCAAAGAATGCTGATTTGAAATATGATATCTATAGAATTTACAAAAGACTGTAGTGCTTATTGGAACA
TTATATTAGTATCTAACCCTCACTTCAGCAGTGTCTTCTGAGCTTGTAGGAAGAGTTGTCTTTCTTACTCAGTGACACTGTTGACTTAAGTTCTATGGAT
CTTGTATGTATAATGAGGAGAACAAGATGTTGCTTGCCTAAATCTAGGGACAAGACCATTTTTTTTTAGGATAGCTATCATCTCTGAGACGTAAAATTTT
TATGACATGCACTTCCTGAACGTCAGTTATCAAGCTCATTAAGGGCCTGCAGTGGCAAAATATAAAAGGCAAAGGAGAGAAGCTAGAATCTAAGCAAGTG
CCACGATGCCTATCAGTTGCCTTTTATCTCTTTCTTTTTAAGCTCATAACTTCTTGAAATGCCCATAGGTTTTACTAATTAACAAAATCAGAAAATCTCC
TAATGTTGTGGTGGTATGGGGCTGAAAAGGGAAATATATAACTATGCATGTTGATGTGACAGTGTGAAAGTGTTTGGTATACCTCATTATGTTCCTGAAT
GCCATCTTATATAGATGGGAAAATTAAAGAAAGTGGGGAGTGGTCTTTCACAAAGTTAAAACTATCTCCATGAAGATCCAAACAATAAACACAGCCATTT
ACTATATTTACATAACACCTCTTCACCGCATCCCTAGGTGCATACCCAGACAGCACTATAGTGAAATATACAAGCAATTCCCTTATGCACACATATACAC
GAAAAGTGAAAGGAGGGCTATAAATTGATTGCTAGTGCCCTCTGCATTGCATGCTTCTGGTATCTTACAAATCACCAGAATTGGACATAGTCTGTGATGA
AAGGTGATAGGGCTCTATGTTAAGAACTCCTTTTCGGCTGATGTGGACTAAAGTAACCATGTTAGCTGCTTGTTTTTAGCTGCCTTGCTCTCTAACGCCA
TCTAGCAGTCAGTTGCCAAACCACGAGTGAGGCCTCCTCCAGCCCTCCTGAATGCTGTACTAAGGATAGAGGCTTGGAGACTTCACGCCGAACAAAGGTG
TGCAGCCTCAAAGTTGAGGAGCATGTGAAAAATGTCAATCTTTTCCTTCACTTTTAAAACCACCCTTAGTTTGAAACAGCCTTTCGCCATGAAAAATGTA
AAAGAAAGAACATCAAACAAAATATTCTGTTCAAAAGAGGAGGTGATGAAAATGGAAAATTAATAAAAGTCAAGATATGAGAAGAGCCCTACGTGTGTAA
AATTGRCACCTTTAAAAAAAATTTAAGTACCTGGATTTATTGTCACACATAAAAGATTTGCATGAAAAGAGTGAGCGAGTGACATATTTAGGTTACAACA
TATCCACCTGAGAGAGAGAATGAGATGCAGCTCTCACCGTGGCTATTCTGATGCTGTAATTTCGTGTTCTTTTCTATCCGTCAGCAGTGCTTGTTAGCGA
CCTAAAATGCACTCCCTCCTAACCCAAAGGGCGAGCCAGAGTGCATTTCCCTCTTCAAGCGTTTTGTAATACTAATTAACTAATTCCCAGCCACATGAAG
AGAACCTGCGAAGATTCGCCGGAGGCAAACTGCTAAATAAATGGTGACAGATTTCTCAGTTTTCAATTAGATGAAATGACATATTGGGACAACGAATGGC
CTGACTTTCTAGTGATGAGAGTTCTATGAGGTTTTCATTCCTGAAAATGAAGAGAAACCCTCTCCATTCATACASAAAGGAGGGCCCGGGCCCACTCTTA
AGCACATCAAAGCACACAGATCCCGCCTTTGGCAGTTGCGTGTGTGTACAACTGAAAGTAAGACTTGGCCCAAAAATGCTGCTTTTGAGACTGCTTCTGC
TGTCCTGAAATATCTGACAGGACAAGCACAGGGACCAAAGAGAACAACCGGCCTAATTAAATCTATACAGGCAGCACTGTGTTCTGTTCATCCTCCCTGA
CTCCAGCTCTGGCCTCGCCCTGCTCCCTCCTGACTCCAGTATTTGTGTTGCGAAGCTGAATCTCTTGCTAGCATGGCAACTGTTGCTATGTTCGCAGCAA
TAAGAAGTGGGTGATGCTGGTGTCTCTGTAATGATTCAGATACAAGAGCAATGATTTCTAAATAGATTTCTGAAGCAGCTCTTACAATGGCTCTGAACAG
TTTAACAGGTTTAATTCCTCATGGATTGTTTTTTCTTTTTTTCACCTTTAACATCTTCCATGTGGACTATATCTAAACCTCATATAATGCAAAAATGGCA
TCGTTCTTCCTTTTGCTTACTCGTATTTGAAGCAGGAATTTTCTTGTAAAAAAACACATTAAACCAGTTGTCATTTCTCATTATCTCCTTGGAACCTATG
AGATGGAGTTTTTCTTGATATTTAGTTAATGGCAACTAACGAAATCTGAAAAAATACTGGACCCAGGAAGAAAATAACTCCTGAATTAACCAAAGTGGAA
TGAAAATCTTCACCATTAATATTTGTGATATTAGCTGAACATTTTTTATTAATGTGCAGATGTTTTAAAGGCCTCATCTGCAAACGAGTACAAAAAATTT
ACTAGTGGATATATGTTTGCCACCCTGACTTCTCTTTCAAAGAGAAAGTAAAAAAATGAAATCACTTTTTGTTTTTTTGGCCTTCATCAGTCTCTTATTT
GCCAGCCCAGCCAGTGTTAACTATGCCACTAAGTGTCACCAGATGCTAACACAGCCCGGGTCCTAGGGGGATATGATGTAGATAATATTGCCATGTGCAC
TGATGGCAATACAGACCTGGCCAAAGGATAAAAAGAGAAGACACGTTACATGTTTTGATCTGTGACATAGAACAGAAATGTGTATTCAAACATAGACACT
TAGTATGTTCTAGACGCTATTGTGCATTTTTTGTATGCCTGTCGTAGCACAGACTTATTACAACTCTTCTACAGCTAAGAGTTATTTATCAGTATTCTAC
AAATGAGAAACTGAAGCACAGAAAGTATAAATGGCCTGCCCAAGGCTTTGTAACTAGTAAACAGCAGGGCCAAGATTTGAGCCGAGATCAGCCTGATTCC
AAAGCCCATGATTTTTTTACTACTTGCTGAGCTGCTATAGTGTGAGAYAAGAGAGCTGCTCTCATACTAATCAGTTGTGTGACATGAGCAAATCCCTTTC
TGCCCTGGGTTTTAGGATTATCATCTATAATGAGGCATTTGAATTGGATGCTTGCTATTCAAGCTGTGACTCACAGACCAGCAGCTCTGGCATCACCTAG
GAGCTTGTTAGAAATGTACAATCTCAGGCCCCACACCGGACCTGCCGAATCTGCATTTTAACAAGATTTTAACAGGCGACTTGCAAATATACAGTAACCA
ATCTCTGGGGACCTTTTAGTTTTAGTGTACTGTATTTAGAATGTCACCTTGCTCTTATCTCTTTCTAGATTTTTTTCCTTCTCCAAGGTTGTTTTACTGC
TCCCTATGAGCATTCCTAATCTCATTCTTACACTTGATGGAAAGATTCACTGTCTTCTCGGAAAAGATTTATCTATCTTAATTCATTTACCACTTTCTAC
TTGGTATCATGTCTCTGTTGAATAAGTTTCTTGAGGGGGAGAGCCATTCATATTAAATAATTTCATATCTGTAATACCAATTGACAAGGTTCATTAAACT
AAAGAAAATATATTGAAAGGAATGTTGAACAAATTATTATCTTAATTTAGTTACAAATATTACATAGTGTGCTGATCGCAAGATCCCTGTATTATTCATT
ACAAATATTTCAAGGCAAGCACAATCCAAGTTCTTTAAATATAGGTCCAGGAAAATTTGCAAATATCACACATGATGAGCAGTTTTTAAATTTCTTCACC
CCCCCCCCATCTTTTTAACACAAAAATACATAAAGGATTCAATTAAGACCAAGTTCAATCCCAATGTCTCCTCCTGTAGGAAGTTGTCCTAAATACCCTC
AACTAGTTACCCATCATGTTTGCTGTTACTATATTCTGTACAGATCCCATCAGAGAATAGAAACATTATTGTAATTATTGATGTCTTTGTATGTCAATTG
CCATACACACACACATGCGCACGCACTTACACACAGAGTAAGCTTCTTGAAGCCAGGAACTGTGTCTTTCATTTTTGCATTGTTCATATTTATCACAATG
CTTGGCATATAGTGTGATGGATATATGTGTATTGAATGAATGAATGAATGACTCAATCAATACAAATCTTTCTGGCCCCAAAGTCTCTTTTTTGCTTTAA
TGTACTTCTTGTTCTCCTTCACATTAGGATGGTTCACTGACACCAACAACATGGAGATGCACAGTTCTATGGTGAGAATTTCAAAGAACTTGTTTTAGCC
ATGTTGGTATTCCCTACTAATATGGTACTTTAGTGTACTATGGCATGAGCTACCGTCATCCAGGAACATGGGCTCTGAGACTTAGGAACTTAAGTACCTT
TGAAATTACAAAGGCTGAAAATTGAAGCAGCGTTTGTATTTTTTCCTCTCTGGTTAGTCAGGTGTTCATTCAACAAACATTTGCAGAGTCCCTATATTGT
GCTGGGAGTTTGCCAGGAACCAAAGATGCTGAAAAGCAAACATAGTATAATATTTCTACCTTTAAGTAGTTTGTATGGAAAATAGACCCCAAATGTATTA
TAATGCAATGTGATTGTATACAATGACGGGCACACGACTCTAGTGTATTCTAACACAGACGGAGGCATTACTAAGAAAAAGGAGAGGCAGGCATGTGGAT
AGCTTCTTGCAAAAGGTGGCCTTGCCAAAGAGATGCAGAAATACCTAATGTAAATGATGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACAT
ATGTAACAAACCTGCACCTTGTGCACATGTACCCTAGAACTTAAAGTATAATAAAAATAGTAATAATAATAGCCATCATAAGTGTAACCATACTGAGTTC
TTATTTTGTACCAGATAACAGGCTATGGTACTTTAAATGTGTTATCTCATTTAATCTTCATAAAAATAAAGAAGGTATTATGATTTTTTCAATTTCACAG
ATGAGAAAAAATAAAGTCCCCAAAATACAAGTGGCAAATGCCTGATGTAGGACTTAAACCTGGCCAGAGTAGTTCTAGAACTGGTGAATCTGGACACCAA
ACTCCACAAAAGACAGAGAGAAAAGGGTTAAAAAATAGCCCACAGGCCAGGAGGCAGACTGCATTCAGAGGATAAGTAGCGAATCAGTCTGCCAGAGCGG
TAGCATGGGAGACTGCACACAAACTGAGAAAACCAACAGCAAGCTATAGGTCAGAGCCCAACCCGGGGCATATGTCTGGTAGAAGGGAGGCTCAGGAGGA
AGGGTGCTTTGCTGATAACATAAGTGGGAGTTAGTGTGCTATACTGGGAAAGAGCTTGCATCTTGAAGCCAGAGGTATGTGTTCTAATCCCACCTCTGCC
TTTAAGAACAGTGTAAACTTGGGCCTCAGTAACTAAAATAGGGACCATAATATTACCTTGTCTGGTTTTTACAGGGTCTGCAGAAAATTCATATAAAACA
CTTAATATCATCCCTGAGAAACTTATGTTGTTTTGTTTTAAACTAAAGATAAATGTCCCTATTTCACAGTTCTACCCACGGATGGATAAACCCCTTTCTG
AGGGTGAGAAATGAAAGCCTGTGTCTATCTGAAATTCGGGATCCTTATTCAGACACTTTCTTCTTCTTTTTATCACTTATTCTCTTTGAGATAGTAGAGC
ACTCCTTTTTCCTCATTAAATAGCAGCTTTACCCATAAATTTCTCACAGCTTTTCCTTACTTATTTACACTACTTGATTGTCAAATTTGACAGTGTTGAC
CATTCCTCAGTCAAGTTGCCATTTGGAATAACTTAAAGGTTTCTGGATGTTTTCTACCCAGCAGCTATTTATGACAATGACAGAAATCAGGAAAATGACA
TTTGAGGGTTTCAATTTTTCTCTATAATCCCTGAAAATAAAGCGATAGTCAATTGTGAATGTGGCTGCTGAATGCTAGAGTACTACATAACAATAGAAAA
GATTTAAGATGCTTGAGAACTAACAAATCTAAATTTATTGGTTTTACACAAATGAATGATTTTCATTTTATTTTAAAAATTGTCCTTTATTGTTTAGGGC
AAGATAAATCGTATACTCTTTTCTTCAATAATATTTTATCAGATTAACATAGAGGACAATGAATTATGAAATTATGAAATAAATAAAATTGAGGACAAAG
CACCAATATTAAAATGTTGATTGTTGTTTTTGTCATGTCATATATGTTAAGGAATAGAGTGTTGTGTTTGATTTTGAAAGGTACCTATGAACTGCTTTCT
GGTTTTGAGTGATCTGAATTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTTTGTTACCCAGTACAGTTGTGCGATTATGGCTC
ACTGCAGCCTCAACTTCCCCAGGCTCAGGTGATTTTCCCTCCTCAGCTCCCCAAGTAGCTGGAACTACAGGCATACGCCACTGCACTTGGCTAATTTTTG
TATTTTTTGTAGAGACAGGGTTTCACCAAGTCACCCAGGCTGGTCTTGAATTCCTGAATTCAAGCGATCTGCTTGCTTTCCAAGGTGTGAGCCTATGCGC
CCAGCTTGAATTTCAATGTCACAGATTTTCTATTGCTTGTGTATTCTTTGGGTATTTTATTTCTTTTGTAAAAGGTAGACAGTTCTGAGTTTAAACATGA
CTTAGAGATGTTTAACTACATTTCTTACCCCCTGATTTTTACTTCCTGAGATCAGTAGTAGAGAGGGCAATCAGTTCTCACCTTTTAAAAAGATCTGAGG
CCAGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTCGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTG
AAGCCCCRTCTCTACTAAAAATACAAAAAATATTAGCCGGGCATGGTGCCTGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCTT
GAACCCGGGAGGTGGAGCTTGCAGAGAGCCGACATCGCGCCACTGCACTCTAGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAGAATAAAATGAGA
AAAAAATTATTGAGAGATTGTCAAATCTCTTGAATTTTTAAAAAATTATTGCTCATTAAATTAAACAGCACCTTGTCTATAATTTGTTCAAAACTACCAA
CTACCAGATCTATGTGTTATACTTTGTTAAATAAACTTCCGTTTCTCTTTGGGAAAGACATATATAGGATCTTGAACAGTATATAAAGTTTAATTAAATA
TGGCTAGCATTGAAAAGTTCATGGAATTAATCAACTAGCTCACAAATGTGTGTTGATTTCCCTCTAGGTACACAGCACTGTGTCTGCCCCTACCCAGAGA
GGCCCAGTATTTTGATAGCTAGTCTTGTATTCTTGTATAAAGAGTTTTAGCAAACTGAATATGCTTTTTTTCTTTTTTGAGACGAAGTCTCACTCTTGTC
CCCCAGGCTGGAGTACAATGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAATT
ACAGGCGTCTGCCACCATGCCCAGCTAATGTTTGTATCTTTAGTAGAAACAGAGTTTCACCATGTTGGCCAGGCTGGTCTGGAACTCCTGGTGATCACCT
CAGGTGATCCATCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTACCGTGCCCGGCCTATTTTTTTTTTTTTCCGAGATGGAATTTCGCT
CTTATTGCCCAGGCTGGAGTGCAATGGTGCGATCTCGGCTCACCACAACCTCTGCCTCCCGGGTTCAAGCAATTCTCGTGCCTCAGGCTCCCGAGTAGCT
GGGACTACAGGCACACGTCACTACACCCTGCTAATTTTTGTATTTTTAGTAGAGATAGGGTTTTGCCATGTTGGCCTCGAACTCCTGGTCTCGAACTCCT
GACCTCAAGTAATTCACTCTTATTTTCTTTATTTAAAGAATTAACAATATATTACTTACAGGTGGAAAACACAAATGTATGTGTCATTTTCCCTATTACG
CTAGCCTCTTCACTGATCTAATTCCATTGGATATGCATTTATCTATCATTTATTAAGCAGCTCTTATRTATTGAATCATGTAGTAAATATTGGACACCCA
ATGATGGATTAGAGATCTCTTCAGTCCTGGGGGAATTCACAGTTTAAGGGAGGAGGTCAGAGAAACACACAGGAAGATAAGTACTGAGCCATGTGTAGGA
AGCCCTGTGAGCCTGRGAAGAGTCAAGGTAGGCTTCCCAAAAGCCATCCCGTTTCACTTGAGTTTGGCAGAGTTAACCAAGCAGAGAAAGGAAGAAAGAG
TGTACTAGGAAAGGGAAGCAACAGGGACAAAGGCAGGAAAGTGGGAACCTGCACAGTACATTTGGGAACAGCAAAGGGTTGAGTGTGGGTAGAGCAGAAG
CTATAGATGAGGATCTAAAGTCAATAGAAGTAGAAATAAAAGAACATGGAGTCAAGTAAGTTCAGTACCCAAGGAAAATCGGAAGGAAGAGGGCARCTTT
CCTTCATGCAGCTTCCCTTCCAGTCACTGAGACCTCAGACTCTTCTCTTCATTCAGGCAGTGAGCATGAAAAGATCTGGATGGGACTGGATATAGCAGCC
ACCAGTCTTTATTGAAATAGCCCTGGGGCAYGACTCGAACCTGTGAGGGACCATAAAGGGSCATGATTTCTGCAGCTGTGTTTACTGTCAGTGATTGTAC
AGACTCAAACATGGAGCTAGGGATAATATGGTAATCTAGATGAGACATGAGTGACATAGACACAGTAGAGCTCCACCTTGAACCCAAGATTGGCCCCTAG
AACTGTGCAAAACAGGCAACACTGCAGGGTGGCTCATGGCACTCAACTATTCCTGCACTGATGACATTCCTGTRCTGATGACATCACCCACATGATCATC
TGTTTATAAGTCTGTCTCTTTAAATGGTGAGGAAAGAGAAATAAAGGTGTAAAAATCCAGCCATCATAACAAAAACACCAAAAGAAAGAAATTAACTTAC
CCAAAGGTCTCACAGCTTGTAGTTTGTGAATCTCTACATTAAAAGGTGGATGATGAATCTGAGACCTACTGAGTTAACTGTCCAGCATCTCAGCCATATG
CCTTATTCCTCTTTATATGCATCTCCACTCCCACACCACCCCCTCCTGGCTTCATCCTTTAGTGCCTGGAATAACGCCTGGCACATGGTAGTTACTCATC
AGAAGTCCACTGAGTGAAAGAACAAACACCTACCACTGACGGGTTGCTATTTATACCATTCTGTCTTCACTGTTGGGAGCTTCATACTGTATTCTTCAAA
ATGGGCACCCCCTGCAGCATGCCTCACTCTACAAGGAAAACTTCTCTGTTAACAAGCCTTATGATGGGGTCACTATGTGATCACCTAAAGCTGGCCTTTT
CTGTCCCTCATCCGGGTAAATGGCTCACCGTGGAAAACTATAGACGACTTTTGCCCTTTCACTAACATTCCTCTTGATAAGACACTTAAAGAGGAAAATA
GTCTTGACTCTTTAAAGTTGATGCCAGTTTGGGGCTGTTAACAAAGTCAAGGGATTCTGTTGTTAGAATCAACCTAGCACACAGCTTGCTCAGTCGATAC
TGTTTCACTGGCCTGAGATTACAGCAGAGGTAGGTGCCTAAGATGAGGAAATGGTTGTGGAGAAAGAGTCCGAATGACCCAGAGGTCCACGTGTGCTTTC
CTAGTTCGTTTATTCAGCTGATATTTATTGAGAAATTATACCGGGATGTGGAAATTTACTGAGTCCCTGTCCTTTCATTATTTTAATCCAGTGCACTAGG
TGTTCTTATCAGAGTGAGTCCATGAAATGTTGGGGATGCAGGGGCACTGGTAGTAGGAGTTGAGAACCTGATGATGACTGTCTTTGCAATGTTCCCTCAG
AAGAAAAGGTTTGTGCAGAAGGCACATCCCACTTCAGACTCCTGCACATCTGCAGAGAACTTTGCATTCTCACTGCAAGAGGAGTTCCTCTTCCTTTCAT
TTTTCTTCTCTTTGTCTTCCTTTTTTTCTCTATGCCAAACCTAAGCAAATCTGCTTCATCCAGAGGCAGCTGGCGCTACTATGTGGGAGTGTTAAATGTT
TAACATCTTGTCACTTGCGTAACTGATGGAGTCATCCTTTTTGTTTCAGAGTTTCATGTTTAGGGGTTGAAAAGCTAGATTGATGAGCATTACCAGAGAG
AAATATTTTTTGGAAAGTAAGTGAAGCTGATGACACATTACTTTACAGTTTAGTGAAWTTCAGCAAATCTAATTCTATTATCCTGTCAAAGTTTCACAAA
AAGGAGACCTGAAAGCATATTTTAGATGAATCTTTAAAGATTTCAAGAAGCCACAACCGCATCTGCAAAGCTCAGATGCATCTGGTGCTGACAGACCTTT
GTTTTTCTATAGACTAAGGGGAGTAAATAATCTTCCAAAAACTAATTAAGTAAAGTTATCTTTGGTTGTACAGTGCCTGCCTCTCTCTCCCTTGAAAAGG
TTGTCAGCCAGTAAACGATAACTGCGTTTTTCAATTCAAAGGCTATTCGAAGTTTGCATAGCCAAATTTACCCAGGCACACCAAAATAGAAGCTTCCTTT
ATGAATCATAGAGTCTTGTAATGCAGATTTTATAGAGCATTTAAAGCCAGATCATTTATGTCCTTGTTTATTTTCACAATCAAGTATAAGATACGGTCTA
ATAAATACATTCTGACCAAAATGCTAGGAGCAATTGTTTTAAAGCGTTTTCACACAATTCTATGTATTTGTCAGAGGCTTACAAGCTGACAAGCTGAAAG
CGCTTTGTGATGCTTTTGGCAATTTGTGTGATTGTGTATACACTTGCACAGAAGTTCCTTATCGAGAGGAAGCATTTAAGTAAAAAGGGGAGCATTAATG
AAAAGGTCCATTTTAATAGAAATTGCTGTTGTTCTCTACTATCTAACAATTATTCACTTAAGAAGAAAAGTCTTGATAGAATTTATTGAGAACCTACTAT
GTACTAGTACACATATTATTAATATAATATCCCCAATTATTTGCTAGGTAGATATTATCTCCATTTTGAAGATGGGAAAACTGGTCAAAACAGGAAACAT
CTTCTGAGATAGTAAGGGGGGAAGCTGGGATTGACTCCAGTCTATCTAATCCCAAAGCCATGTGTGCTCTTTTTAGGACACCATAAGAAATTCTGTTTGG
AACTCATGATAAAAAACAAGATCAAGACTGTGGTAAAAATGTGAAGGGGTATTGTGGGTTGAATTGTATCCCCCAAAAAGATATGTTGAAGTCTCAGACC
CTGGTACCTCAAAATGTGACCCTATTTGGAAACAGGGTTGTTGCAGATGTGAGAAGTTCATAGGAGTTTATACTGGAGTAGGGTGGGCCCTTAATTCAAG
ATGACTTGTGTCTTTATAAGAAGAGCACAAAGACACGCAGAAGAATGGCATGTGAAGATGATGGAGGCAGGGACTGAAGTGCTCTACCTAGAAGCCAAGG
AATATAAGGATCGTAGCCCTCACCAGAAACTAGGACATGGGCACAGAATTTTCCTCAGAATATTCCTTCAGAAAGAACCAACCTTGCCAACACCTTGACT
CTGGACTTTTAACCTGCATAACAGTGAAAGAATACATTTCTGTTGTTTGAAGCCTTCAGGTGTTTGGAACTTTCTTATGGCAGCCCTAGGAAATGAATAC
AGAGGATGACATAACTTCATAGAGCTTAGGAAGAAAACAAACTCCAGACTGAATGTTAGGTCAGTGCCCTTCCTGAGGGTCATAGTCATGTTATTTTTCC
TTCATCATTTGGGACTATGCGGAAAACCCACACCTAACCCAGTATGAGACTTGAAAGACATTTTTTGGTGCTTTGTCAGAAAATAAATATATGGTTAACC
AAAGTTAAGGTGAAATTCTAACGTTTTATCATGCCAATACATATAGAAATGATACTAGGAAAGGGTGTGCTATTTGACTGAAGTTTCTCTGATGGTTGCT
GTTGGCAACCAGTTTTACAAGAGGCACAAGTCTAATTAGGGCAGAAGTCAGGAAGAGATTGCAAGTAATTGAGGTCAGACATAACTCAGGGTGGGCAGGT
GGCTGACATCCGATGTAGTCAAACTAAGGGGATCATGGTTTGAGGTGGGCAGACACAACAGGTGAGGGATGGAGACTGAACACTGATGGAAATAACTAAA
AGCTGAATCTGGCAATGACATTCAAGTAGGTCAAAAAATAAGTATGATAAAAGCTAAGGGAAATCTGAGGTTTTTCTCTTCAGAAGCCTAGTCTTCCTAA
ATTGGCTATTTCTTTAGACTGGAGATCATTAGTTATTWAAAGGACTATACTTACACCTRCCAACCTAATGCCCCATAGTGCCAGTTTACCTCCTGGCTGC
CTTCAAGGTTCTGATRTCTGACTCAGTTGAGAAGAAGGGACTTGCCTTTGCAGAAAATGTAAATGGAGAGAGTAGTACTGATGTCTTTAGGAGCCTCACT
AGAGGGGAAGGAAAGGACAATCAACTTACTGGTGAAGCCATCTTCTGTGGATCTTTGAGTTGGAACTAGGCTGAGAATGTAGGTCTGAAGTGCAAATCAT
CCCTGTTCTTATTGATAATAACTCTGGTATTTCAAAATTTTTAAAAATATGGTCATTTATTTCTGTTCTGAAATTTCCCATTAGCCAGGAAAAAAAATTT
TGACTAATGTTGAAGACTACTCAATGAATGTTGCTATCCATTTGTTTGTTCACTCATCTGCTCAATCACTATTTACTTGGATGGGGAAGGGATTCATAAT
TTCTAGATATGTTGCTAAATGATGAAAATAAAGGAAAAATAAGACATGGTTTCTGACTTAAGATGAGAATAGTTGAGTCAGGAAGGCAATATCAAATCCG
TACAATACAAGGCATGAGGTGTCACAGTAAAGAGATGAAGTCCTTTTACTGTGGGGCTTAGTATGTGAGAAAAACTGTGAGAAAGAAGTTCATTGTGTGT
AGAGCCTGCCTATATGAGGCAGGGAGCAATAGAGGATGAGGCTGGAGAAATAGACCCAGGCCTGCTGCTTGAGACCTGGACCGTGGGACCTTGCTACTAT
GGGCCATGGGACCTCAACAGTAAGTGGCATGGTCAGCCACGTTTAAAAAGAAGGACATTTCCACAGCTTGGTTGAGGATGGCTTGTATATTCCCCATCAC
TAATTCCAGCATTATTTCTCCAGTAGTAATAATGAATGTGCCCTCATATAGCCACATTTCCCCAACCCTTATTATAACAAGTTAAGGCAGCTTACTTCTG
GGATTTTTCAGTGTTGGAATATTCTACATAGATGAAATGCCCTTATTGCCAGTTCACAAAAATGATATCAACAATTGTTAACTACATGATAGACAGTATT
TTCTCCAGCAACCTCTCTACAGAAGTCTAAAAGAAATATTTACAGTCATGCTCCCATGAGCATCATTATGAGAAAACACTGATAGCAATTCAAAAAAATA
AAAACAGAAACATTCTTGTCCCCAGCTCTGTTGATGGGGATTATTTAATTCAGCTTTTCCCCCACCCCTATTTTGGTAGATGCTGTTCATTATTATGTAT
TACACAAATCATTCTCAACACCTGTGGGCACTTTCTATATGCAACATATCTTGTAGGGGTAACTCTTTAAAAAAAAAGGTTAATAACATTAATCCAATTT
TACAGATGGGGACAAAAGACAACTGGTTTATTATATTCTGTCAGGTCAGATAGTAAATCAATGCCTCATTAACGTTCATTAGAATTTTCACTCCATCCAA
TTTCAAACTAAGCTTCTTCTTCCCTAAGGAACTTAATTAGTATCAAAAATTTTCTGGCATTAGCTCCTCACTGATTCATATGTCAAACCTTCAAACACTT
ACTTGAGCAAGGTACTGTGCTGGTGGTACCAGGCTGGACAGGAAATGGTAAATGGGTCAACTGAGCCAGCATGTAGAAAGCATTTAGAATCAGAGCAGGA
GTAGCCTTTAATAATAATTGTTAGTAATAATGGTATTTATGGAGAACTCCACATGTGGGGGCTGTGTGCTAAGCATTATGTATAATCTGCTATGTCCAAC
TCACAGTGGCAACCTCAATTAGGTTCTATTTCATTGATGAGGAAGCTGAGGCTTAGAAAGTGTCTTGTGTAAAGAGTACGACTGGTAAACCGAAAAAGGA
TTTGAAACTAAGACATCTTAGTTCATCGTCTCAATCACAAAGCCAGTGGCTCTCAAAATTGAAAATGCACCAGAATCACCTGGAAGATTTTTTAAGGCAA
AAACTGCTGGGCCCACTACCAGAGTTTCTGATTCAGCAGGTSTGATGTAGAGTGAAACATTTGAATTTCTAACCAGTTCCCAGGGGAGGCTGATGTCCCA
GGCATCACACTTTGAGAACCACTGCTCTAGCTAGTACTTAAAGTAACAATCTTTGACTGTGGTCAGCATACGGTGGGAAGTCATTCAAAGTTTTTGAGCA
AGCGATGACCTCGCCAGAATAGCACTTTTAGGAGATTAATAGGGCAGCCGTGTGCAGGTTACTAGAGGACAGATGGTGGACCAGGAGGTTCCCAGGTAAG
TCAAGAAGAAGCAAAGAAATGATAAYAGATGTTGAGAAATATTGGCCCAGTGGAGTAGATGGAGAGGGTTTGCTGATCAATGGAGGAAAAAAGAGTTGTC
AGATGTGACAGTCTGCTTTTCAGTCTGGATGGCTAGAAGAATCATTAGGTCATTAACAGAAATTGAAAGGAGTTCTTCTTTTATATTTATTTTCATCTCC
TATTTCCACATAGCCTCTTACTGTTCACTCCTTTCATTGTTTTTATTTATGAGATTTCCACAGCATTTTCGTTCTTCTTCTTTACCTAAAGGGACCAATG
TATCTAAAGGGCAGTTATAGACTCTTGGTTGCTTCTGAGATGCTTTTCTTACCTCAAGGATCTCTGATTCTCCCACCTCAATATGCCTTCTTTTTAGGGT
GGCTCTATGGTTCCCACTGCTTACAGATCTCAGTGGATTCTACTAATCGTGACGAAGCTTATGGTTCCCGTGTTTCACCTGATGCCTGCCTGGGGAGCAC
ACTGTCAGTGCAGAGGCTTCATAATGCATCGCTAATAGTGTTTTCAAAACAATATCTGTTTTTTAAGCTCAAAATTATTATATTAGTGTTTTGAACACAT
ATTTTGCTTTTATATAATTTATTTCCATAAGTAAAGGGTGTGTTTTTAAAACAACATTTACAAATATGGATTATTTAAGGAGTATTTAGTCTTCAATTTA
AAACAAATTACCTTACTTTATTTTTTATTTTATTTTATTTTTTTTCCCTTTTTTTTTTTTTTTTTTTTATTATACTCTAAGTTTTAGGGTACATGTGCAC
ATTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGCGCTGCACCCACTAATGTGTCATCTAGCATTAGGTATATCTCCCAATGCTATCCCT
TCCCCCTCCCCCGACCCCACCACAGTCCCCAGAGTGTGATATTCCCCTTCCTGTGTCCATGTGATCTCATTGTTCAATTCCCACCTATGAGTGAGAATAT
GCGGTGTTTGGTTTTTTGTTCTTGTGATAGTTTACTGAGAATGATGGTTTCCAATTTCATCCATGTCCCTACAAAGGATATGAACTCATCATATTTTATG
GCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCTAAGTCTTTGCTATTGTGAATA
GTGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATACTCATTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTAT
TTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCG
CATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCTTACTTTAAAAGTGTAATTTTTGAATTGATTTTTAAACTAAAATCATAAGAAAGC
CAGAATAGAGATAAAAACTTCTAAGAATCTTTTTTATAAAGTAAATAGTCTTACAAAATAACCCCACAGAATATATCTTTAAAAGAAAATTACATTTTAT
ACATGAAATTTTTCTAATGTGAGGACAAGTACCTATAATGAAGATATGTTATAGTCAAGCCAAAGCTTTAAGTTTATAATGTGTGTCATTCAGAGGTGAA
GGGAAGATTGAATAGTCCACAGGGTCCCTGTGGCAGTGTGGGTGTCCTATCTGTGGGAGCACAGATCCACCTTCTCTGCTCTGGATGCCCTGACTGGACA
GCATGTTCTTACAGCTATTTCTCCTTTGGATACTGCCATTTTCTCTGTGGGATCTTGCCCAAGCTCATTTATGTATTTAATTTTTTATTTCCATAAGTTT
TTGGGGAACAGGTGGTATTTGGTTGCATGAGTAAGTTCTTTAATGGTGATTTGTGAGATTTTGGAGCACCCATCACCTGAGCAGTATATGCTGAACCCAA
TTTGTAGTCTTTTATCCCATACCCCCTTTCCACCCTTTCCCCCTGATTCCACAAAGTCCATAGTGTCATTCTTATGCATGTGCATCCTCATATACCTTGA
TTATAAATGATAATTCAGTTTTTCAAAAAATTGACTCAACTGGAATCTTGAGTGTGAAATTTTAAGATATGGCATTTAAATACACGTACAGAATTGAAGT
GACCTCGCTTCCGACTTTTCTGAAGAATTTGAGACTACTTCGCGTGAGTTCCACCACCTTTCTTCCTCAGCCCCTCCAGTCTCTCTGTGACTCCATGGAT
TCTCCTCTCTTCTCCTTGGATGGAGAAATCGACCTTCTCATTTCTGAGGCCCATCCATCCATCTGTTTCCCTGTTACCTCTTCTGCCTCTGGCTCTTTTT
CCCTCAGTCCTTGCTTGTCTCTTTTGACCTTTTCCTTCCTCCCTTTCCAAAATTTTTGGCAAAACACCAAAATTTTTGTCTCACAACTTCAAAAAAAAAA
TGGGAAAAATCAATCCTTCTTTAAATATTAACTGTATGGTCTGCTTCCATTTTTAAGACACTGAGAACAAAAGAGAAGGAAGGGAGGCCTGGGGCATACT
ATGTGGTATTTGGGACTTGGTCTATGTGGCGGTGATAAAGAAAACAGTCCCCTTTGAGTTGCAACATGTGGGTTGCAGCTGGGGTGGGTGTAACAGGGCT
AAGAAGCCCCTTATGAAATTTAGATCTGGAAGGTACATATGGAGCTGGCTCATCTTGGGGAGGATTGCTTGGAGCTTTAATTTGCACAGTTGTGAATAGT
GGTGACATGGGAGCAGAGGTGAAGGGAAGATTGAATAGTCCACAGGGTCCCTGTGGCAGTGTAGGGGTCCTATCTGTGGGAGCACAGATCCACCTTCTCT
GCTCTGGTTGCCCTGACTGGACAGAGTGTTCTTACAGCTATTTCTCCTTTGGGCAACAGCTTCAACTTCAGAATATTTTTAGATAATGTCCTCTCTCCAT
CACCACAGAAGTTTGTAGAGCTGAAATTAGGATATATTTGGAGGTTGTGTATTGTAGTTATAAGGAGCATGTGCTCCCAGTAGGACTGGCTGGGTTCACA
TTGTGGCACTGCCATTTTCTCTGTGCGATCTTGCCCAAGCTCATTAACTTCTTTCTAGTTGCTCTTTGCTTCCTAATCTATAAAACAGGCATAATAATGA
TACTTACTTCATGGTTATTATGAGGATTAAATGAAACAAACTATGTAAGTCACTTAAAACAATACCTGGCACATAGTTACTGTTCAATAAATGTTAACTA
TTTTATGAAATATGTATTCTAATGCAATAAATCCTTACCTTATCTCTCTCACACACACACACATGTAAACGCATTATGTATGTGTGTATGTGTATATATA
TATATACACCTATATATACATATATGCAGTCAAAATTAAATGCTACTATTTCCATAAAGCCTTTTTCTGCGTTCCTTTATTTAGCAAATGATTGGTAAAG
ACGCACTATATTCCTAGCATGGAGGTCACAGTGATCAGCAAGACAGCCCTAGTCGCTATTCTCGCAGAGTTGGTGAACAAGCCATTTCAGCAAAGCGTGA
TAAATTTATGATAAGAAGGGCACAGGGTCTCATAAATGAATACATGAATGAATAAATGGGTGAGTGAATGTTTCTTGCTATTTCTACTGAAATGTTAAGT
GTTTTGATCCCTGAGAATAAGTCAGAATTTCTTTAAAGCCTGTGCTGGTCTATTCATAATGCCATTTCTGCTATGAATCATAACTACTCAAAAGCCCAGA
GTGATTCTGGGGCTGCATCCAACTGTTGTTAATCTTCTAAACAGGTAACTGAGATCCAGGTAGAGTAAAAAAAATTCAGATGAGGGAGATATATCAACAT
CCCTTCCAGTGATAGATGACAGACAGTAATTACTATCTGCCTTATCACTTTTCCAATTCTCTCATGCTGATTCGCTGGCCAGGGATTGTTCTTTTTAAAA
AAAATCTGGTTCAGGCACTATTGGAAACTTAATATAGCAGGTGAAGCATTCAGACCCTTGATGAATCAGGGCCAGACACAAATACAAGGTTATAGACTCA
GGGGCTTCAAAGAGAGACATTTAGGACAGATCTGCTCTTGGAGCTGCTGCTTGTACTTGCTAAGAGCCAGAATCCAAAGGATGCAGCTGCCGCAAATGTG
CATAAATAAAGGCAGTGAGTTCCTAGCATTCCTATGGGAACCTGCAGCAGCTCAGATTACCCGTTCCCTAGACAGGATTTCCTTTCAGCTTGGTGTCTCA
TATTAAAAGGTAGACCAAGGAGTACACTTCCAGAATGGTGCTTGGGGAATACTTGTAGTACGAGTTGCATGACTAATTCTCCCCACGCAGTATAGAAGAC
CTACTCCTGAGGGTATTATACATTTAAAAAGTAGCATGAAAAAGAGAGAATCTGTCTTTTTCCTGCATATTCCCAAAATGTAAGTAGCTGTTTTTCTGGT
CCCTAAGGTGTATGTGTGTGTGTGTGTGTGAGAGAGAGAGAGAAAGAGAAAGAGAGAAATGCCCCAGGAAGCAATCCCAGAATAACATGATTCATTTTCT
GATTGGAATATTGATCATTTGATTCAAATCTGGATTAAAACTGGTGTATTTCTTAGGTTGAAAATCTGTAGTCTTTTTACCTTAGCCCCTGGCTTTATGG
AAACTTTACCTGTAGAAGGAATTCAAGATTAAACTGTGAACACATAAAATCCAGCACTGCGTGATCCAAAGCTTCAGTAGGTTCATGATCAGAAGCCTAC
ACTTCTAACTCCAAGCCCAACTGCCCACTGGAAATTGAAGAATCCAAAYTACTAATGAGAGGGGAAACCCCATGCATTCACTACAGCAGATCACAAGGTT
TCTGTAATACAGCCATGTTGTGGAGCAGAAAAGCAGTGAGCTTCAGTATAGGTTCTGTCTGATTCCTCTCTTCCCTCTTACAGGCCAGGTGACCTGAGGC
AAGTTGCCTGACCAATTTGCCCTCAGTTTCTTCAAGAAAACAATATATATAATAATACCGATACCACACAGTTGCTGGGAAGATTAAATAAGGAATTGTA
TGTGAAATAAATTTTCTAACACCTATGATTTCAAAAAACACATCTATAGACATTATCTCACTTGATACCTCATAGTGGATTTCTAAAGACATGTATCATC
AAATTTTGAGCATGATATTTGTGTTTTTCTATACACATATCTAAGAGAACAAGCAATTTTTTTTCCTTTATTGTGTTTGTGTATTCAAACATACTTGGCT
GATGTATAAGATTTTTCTTTTTTTTAATTTTCTTTTGAAATGCCCAAAAGCAACAACAAGAAAGAGAGAAAGAGAAAGAGACTCACTTAAAAAAAAGGCC
TCAAAGTTATAGGCTATGCCTGGCCATTAGCTGCTTATAGTAATTTCGGTGAATATTTAGACTTCAGCTCTGCCCTCTTCATGAGTCTAGCTTTGCAGAG
GTTGAGCTCCTACTGTATGCCAGGCCCTGAGAGTTGGCAGTGTCTGGTCTGGTATGCAGTAGGTGATCAATACCTATTTGTTGGTAATTGCTAATACAAC
TTTGAGGTTTTCTTTGGTCTTGGGGAAACAGTGCCCTGTGGCATGTGGTTTTCTTTTTTTAAAATTATACTTAAGTTCTGGGATACATGTGCAGAACGTG
CAGGTTTGTTACATAGGTATACATGTGCCATGGTGGTTTGCTGCACCCATTAATCTGTCATCTACATTAAACATTTCTCCTAATGCTATCCCTCCCCTTT
CCCCCCACCCCCGACAGGCCCCAGTGTGTGATATTCCACTCCCTGTGCCCATATGGAGAACAAGGCAATTCCATCAAGCCACAATTCCAAAGGCATGACT
GAATGTGGAGTTGTTGCTTTCACCAAAAATTGTTTTTGCAAAGCATTGACATTTGTCAAGAGCCTAACTGTGGCCAGCCACAAACACAGTCCAGTAGTAT
TTGTGGCAGTGCCCACAAAGGCTCCAGTGAATTCTTCTTTGTGAAAAGTCTTTAAAACACAGAGTAACCATGTAGCAATTACCATCAGAAGTATTTAGAG
GCATTCTGAAGAGTCTGTTGGGAATTTTAACAGCCTGATCTCTGCCCCATTCAGATGGTTATGGTAACATGCAAAGTGAATAGCTCTGTGGGCCTGCCAG
AAACAGAGGGGGCTTGGCCCATTAGATAGCAAAGTGCAAGTCTTCTGCACCTGACACTGTGCGGACTCCAGGGCTGCTGTGGAGTTTCACTGGCTGTGGC
CACAGCTAGAGTATGTAGGGCCAACTGGTGACTAACTGTGGAATCTCCACACAACTTCTCCCTATTAAAAAATTGCACAGGAAAATGCATTAGGAAAAAG
TCACATAAATCTCTTCTGGAATGATGCTCATAAAAGATTTGTCATTTTTCTTGGTTCTAAGAGCAATGGGCATACTTTAATCTAATGTATTCATTCACTT
AGCAAATACCCAAAGCTTTTACTTTTAGGTTCTGGAGATACAGCAGCAAATAGCAAATAAAACACAGAAAATAATCTCTTCCCTCGTGGAGGTTTTATTC
TAATGTGAGAAGAGTGACAGGCAACTTTTTAAAAAAGTAAAAAAAAAAAAAGAAAAAGAAAGGAAGTAAAGGGGCTGCCTCATGAAGGGGGACAGGCCAC
TGGTAGGACTTGGAGATTTACTATGATTGAGATGCATGCCACTGCAGGGGTTTGGGCAGAGAGGTAACATCATTAGGATTGTTTCTAAAAGGATTGCTCT
GGCTGAGGTACTTTGGGGCTGGAAAGAGAGGTAGCCAATTAATTTGCTTTTTTATACCTACTTTCTATGCATTCAATTATATAGTAAGTATTTTACTTAG
CATGGGCTATGAGCTGGACACTGGGGAAAGAGACAAAGAATGAAAGATGAGATTCTTCAGTGTGATAAAAAACATACTAAAGAGGGCACTTAACCAAGTA
TTGGGGAGAGAGAAGCTGAGGCCTGAAAGATAAGTAGCATTATTCAGTGGAAGAGGGGAAGGAAAGAATGCAGCAGGCATAAATGAGAATAAGAATAATA
ACAATAATAAGGTAGCTAATACTGAGCACCTCCTGTGTGTTAGGGATTCTTCTAAGCGCTTTGCGTGTATACCATCTCATATAATTCTCACAAATACCTA
CATGTGTGATAAGTATTGTTATTGTCCTCATGGTACAAAAAAGGAATGTGAGGCACAGGAAGGTAAAAAATTTTGCTTAAGGACAGCAGCTAGGAAGTAG
AGGTGCCCAGACTGAAAACTAGCTCAGTCTGATTCACACCCTGAGTCCCTGACCACTTGGCCAACTGCATAGAACATTGAATCTGAGAGATGAGGCTGAA
GAAATGACCAGGAGCTCAGTTCAACCAAATTTATTTTTAAAATAAGTGTTGCAAGTAAACTCTGTGCCCAAATGCCAAGGCTACAGAGATAAGTAACAAA
GCATGGCTCCTAGTCTGAAGGAGTGTGCTTCTGGTGTGCCACATATCAAAGCTTAATAAATAACCAATATAAATATGACCATGGAGGCCTGGATGTGCAS
AAGGCCACAGAGAACTTCTTACAGCATCCACAGTCATGGTCTTGTCAATACAGAAGCCGGGAGCAGCAGTTGGCCCAGCAGGAAATGTCAAAACCTGGGT
TGCCCCAGGATTCAAAGAGGCATCACAGCACATCACACCAGAGTGGGGTAAGAACCCCCACATTACTGGCAAGAGAAGAGGTTTTCAATGAGARCAAGGC
ACCCCAGCTACATAATATCATTTTGTTATTCAGGGTCTGACRGCAAAGAATACACAGAGGAGGAGAGGAAAGCTTTGGTGTTGTGTGATGAGGCAAAGGG
TCCCAGAGGTTTGGTATACATTCGCTTAAAACAAAACAAAAAAAACAGTGCTTGTAATTTTGTAACCTCCTTAGGGTATTTCAAATGGTTTGTGAAGATC
AATGTTCTGCATGTTCAAAGAGTTTAGGGAGTTTTAAAACCTTCCCATGCAGACTGGCTTGTCATAAAGAACAAAGGAACATGGAATTTCTTGCAGGGAT
GTGAATTCACACAAAGGAGCCCAGAGATCTAAAATCAACAAAGATGGCCTTTGAACTTTCCTCAATCCAAAAGGGGAAAAGAATATGTATTGCTCTGTGG
GCTCCAATCTAGTTGCTGCTTTTATCTTCCATCAATAAAATTGGTTTTGTGATTTTTATTTATGTAACTACCCAGTGGCCATTGAGTATAAAGTAGTGAT
TAAAAGCTTGGGCTCAGATGGACCTGAGTTCAAATTCAAGTTCTACGGTTCTTATAACCTGTGACTTTGGCCAAGTTAGTTGAGCTCTCCAAGTCTCAAA
TTTCTCAGCTATAGGATGAAAATAAGAATATCATCTTCTTCATTAGGTTGCAATGAAGGTGACGTGAGAATGCAAYTTCTACATGTCTAATATGTGGTAA
ACACTAAATAAATATAAATTGGATATTTTTTTCTGTTTTCCATTAGCTCATGCATTTTAGTCTTTAACATTCCTCTCCTAGGAGAAGCTATGAAAATCTA
AGATGAATGGAGATCCTACATTCACTGAGATATCATTGTTTGGCCCAAAGGGAGAAGGCAGCTTAGGAGAGCAACACGTATAGGACTTATCTGACACTCT
AAAGAAGAGATTGGTAAACTACAGCTCATGGGTAAATCCAACTSCCTGCTTGTTTCTGTAAAGTTTTATTGGAATACAGCCACACTCATTTGTTTACATA
TTATCTATGTCTGTGTTTGCACTGAAACAGCAGAGTTGAGTAGTTGCAAGAGACCATATGGTCCACAAAGCCTAAAATATTTACTGTCTGGTCCTTTACA
GGAAAAGTTTGCTGATCCCTGCCTGCTCTAAAAGCATAAAAATCTATATTTGTTCAAGTCACGTAGCCCCAAAACTGTATACATTGGAAATCCATCTCCT
AGTGGAAAAATATGAAGGCTACCTTCAGGTCACTGTAAACAGTTTTACTAGCCCGTGCCAGGTGCTGTGTGAAGTGCCAGGCACACGGAGACTCATAAGG
CTCATCCTTGAGCAGTGGCTAAAGAAATGAAAGGAGGTTCACCAATGACCACAAACTTTGTTAAAAAGAATCAGAGTAAACAGACAAAGATAAACATGAA
TAAAATTGCAGAGGAGGAAACATCATTCATTCATTCAATCAATCATTTCTTTAATCCATAYTTACTGAGAAACAAGGCATAGTAGAAAATAGGAAACACA
AGATTAGATGGAGTGGTAAATGACAAAAACAAGTCTGCCGTAAGGAGACTCTGAGAAATGCATTCAGCAGAGCTAAAAAGCAGATGTGGGATTTATAAGG
CATGAGCAAAAAAGGAGAACCAGAAAGCCACTATGGTGGATAGGGAGGGGAGACAGGGCAGACAGGGACAAGATGAAGTTCCAGAAGGAGGTAGAGGCCA
GGTCATGAGGGCTTTRTCAGCCAGGACAGGGTGTTAGGGTGTTGATCTACATGTGTTGGGCAGCCACTGAGGGATTGGAATCAGGGAGGTGACATAATCT
GATTAGCATTTTAAAAATTTCACCATTGTTACTGTTTTATCTCTTCCCTTCCCTTCATGAATGATTTAGTCCAAAACCATTGGACAGGGCTGAGTAAGGT
GGACTTCCCCAATGGATATGGAGCAGAATGTCAGAGTCCAAGTAAGGTGTGGAGAATGTCTATGTGGTGGATGGGAGTGGTGGGTGGCACTGCCTGGCAG
AGGGTGTCAGAACAAAAGTGGGAGAAGGAAAGGGTTTCCACAGGAGGTTGGGGCTGCCCGGCCAAGGTGGTAGTGCTTAAGTATGGTAAATAAGGTAGTC
ACGTGGGAGAGTACCCTGRCAGAGGAGATCAGAATCGAAGCCCAGGAAGAACGTTATGTATGAGAAGGGTGGAGAGAATAGTGGCTCAAGTAAGGCCAGA
GCCCAAGAATGGTAAGCAGGACATCCTACAGAGTAGTGCCACTGTGGTTCCATGCAGGCTAAGAAGGACATGGGCACAGGAAAGTGCCTGGTGGAAGGAA
GTTGGAGCATAAGGGTGGTGAAGAAGGTGTACGTGTGGGCAGGCAGCCCAGTGCAAGGGGCTGGAGCCTGAGCAGGGTGAGGAGGGCATGGCATAGGGAC
ATAGTACAGTGCTGAGTGCTGGATCCCCAGGTAAGTGAGGAGCGGACCCACTTGGGGCAGGCAGGTGGGGAATAGGCGGGTAGGTGTCAGAACACATGAG
AGTGAGGAAGCCTTCTGCATGGGTGTGGGATATTGGAGCCCCCGTGGGTAAAGGAGGATATTTGTGTGTGTGTTGGAGTGGGGAAAGGGTACAACAGCAA
TGGGAGATTTGTACATTCAGGGACAATGATCAAATAAGTAAATATATTTAGGATAATGGGAGCTAGGTTTCTCACTGTCAGAGAATGGTGTGAATATGGA
GAGAATGAAAACTAGAGTCAACTCTGTTGGTTGGTTTGGAACTGGAGATGTTGCTGGAAACTTATGCTTTGACAGAGCAAAGTCTTAATGTGTTTACACA
CCTATGTATGCTCATGCATATGCTCTAGCTGTTTCTGCTAAATGAAAGCACCTGGGAGGAGCGGCACTTCAACTGCAGGAACACACCTGGCACCTTGATC
CTCATTTCCAAATACTATTATTTACCAAAAGGAAACAAGGCACTTGAAGAAATGACAGACTTTAAGGCTGACACAAGGAAGGTACAAAACAAGAAAATAA
GCCTGAAACATCTTGCACCAGAAAGGAGARAGATACAAAGAAAGATGGTGACATAACAAAGGAATACATTGAAGGCACCCCAGGTGGTCAACTATGAGTT
AATTTGAGTATAAAATAAATGATGACAGTGACATCAATAAWATTGTAACTATAAGTTCATATAGATATAAATAAATGATAGAAGTAAATAAAATTTGGCT
GAGATGCAGAATATTTATATAGTCTCAAAATACCTCCTCACAAAATACTTATTAATTACAAAGAGAAAAAGAGTAATTTTATAGTGTRGAAGCCTATCAG
ACATCACTCAATCAAGTAATCAAAATTAACAACACAATAATGGGACAAATCAAAATGTGATGGGACACAATGAAAGAAACAACATCCCTTCTGTGATACT
GCCCTCCAAAGATGCATAATTTGAATCTAATCATTAGGAAACCTCTGATAAAACCAAATTGAAGGACATTTTGCAAAATTACTGGCTTGTCATCCTCAAA
AATGTCAYGGTTAGGAAATTCAAGTAGAGATGGAGAGACCATTTCAGACAGAAAGAAAATAAAGAAACATGACAATTCAGTGCTGCATGTGATTCTGAAT
TAGATTCTTTTGCTATAAAAAGYGTTATTGAGATAATTGGCAAAACTTGAATGGCGTCTGAGAGTAGATGGAAGAATCAAATGATTGTATTGTGGTTATG
TAGGAGGATGTCTTTATTTTGGAAATACACTAAAGTATTTGGGAGATGATGGGCATTAGATTGTCAACTTATCTCAAATGCTTCAGAAGAATAAACACTG
TATAATTGTGGCAACTTTTCTTTATGTTTAAGATAGTTTTTAAATGARAAGTTTTTTTAAGAAAGTTCATATATTCACTTCAGCCATTTGATTCCAAAGT
CTTTGCACATGCCCCTGCTTTGCTCTCTCCCTGGATGACCCCACCCCTTGTGAACCAGGGCTTGTTCTTCATTTTCTCTGCTTAGGGAGAGTGTCCTTAG
AGCATGTCCTTTCTCCTGTGTTGAAGTTTACCTGTACATGCCTATGGGTTTTTTTCCTTGTTTTGAGGCAGGGTCTTAATCTGTCACCCAGSCTGGAGAA
CAGTGGTAGGATCACAGCTCACTGCAACCTCTACCTCCTGGCCTCAAGAGATCCTACTGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCAC
TGTGCCAGCCGTTAGGTGTCTACGTTTCTATTTACCCCAGAGGGTAGGGTCTATATCCATCACACTCATGTCTGTATTCCTAATATATAGCACAGCTCCT
GGCATTGTGCTTGATAAAAAGCCATGGAAAAAGGAAGAGAGATAGGGATATAGCCATAACTTTGAGAATCACTTCTAGAGCCAACAGGTTTAAGTTGAGA
AAGACTTAATAACTGCCTGGCTTAGGTTTGAATTACAACTGGGTTATCTTGGGTAAGACATAGTCTCTCTGAGCCTTGGTTTCCTCATATATAAAATGRG
TTGTTAGGTGGGGCAAATTTTGTAAGTTTTGTAAAGTATCGAGTAGAGTCCCTGGCGCTTAGCAGGTATGAAACAATTTTGTTTTCCCACTGTCCTTAAA
AATAAAAATAAAAATCATCAAATAGAACTAGAAGATCAGAATTCTAGGTTATAGTCTTGATTTCACTACAACCTTGCTATATGAACTGGGATAGGTTATT
TCAATTCTCAAGGCCTCAGTTTCCTTCTTGGTAAGATGGTAGGTGGGAAAATGAGGAAGTGAGGAGTGGGCCTTATCACTGTCATGCTACCAAGAACTCA
AAAAGTTTTTTTTTTTTTTTCCTGGATGATAGTATAGAAGGTGAGGGATATGAAAGATTTTGCTATAGAGTATGTTCCTCAGTTTTAGCAGTCAAGGCAT
GCAAAGTCTGCCTCTTAATGGTTTGCTCAGCTGACTCATTTATACCTGCTTAAATTAGTAGGTAAATTGAGAGGTGGTAGTGTTGTTAGGTTACTGTTGA
GCCTATTAATAATTTATGAGCCATCAAGGAATTAATACACACTTTAAGTTCTCACTGCATTTTTCCTTATTCATAATTCTTTGCCTAATTGCTTTTTCCT
TTAAAAATGGGGGAAGCTGAGACCTTGGATATTTGCCTAATGGCTCAAGCAGAACCATGACCTGGTTGCCAAGTCTTTCAGTTCTTTTATAGCCTGGGGA
CATTTGCCATTGAAAGAAAACTGATGGGTTTGATATTCCTGAAAGAGATATTTTGCACTAACCTCTGGCCCCATTAAATGCTTTGGCACTTGCCCATTCT
CTGTAATGGGAGCAATAAATTTGTTTCAATTTAGGACATTGTCAAGTAGGAAATATTGACAAAAACAAAATAATGCTTTGAAAACAGCCAGGATGAAACC
ATGAATAAATAAACATATTGAACTTAACTGATAAATTAGCAAATGGCCATTCATAAGAGTCTGACTGGACCATTTCAAAGTTAGGCCAAGTAAATTCCTG
TCTCTAATAGAAATATCATCTTACTCTTTAGGCCAGAGGAAAGGTGGGCTAAGAGGAAAGGTGGGCTGCATGGGAAGACACTGCAAAGCATAGAAAGGCA
TTTACCCCGTCTGACAGATCTGTTTTAAATAGATCTGTTTTCAGCTAAATGCCAAAAGGATGAGCCAGATGACTCTAGTAGCCTTTTCTATGGCAAGAGA
TTTATTATCCTAGTGTAAACACCTTTATTAGGCATTTCAGCAAGCTGTTTCTCCACCTTTTCTTTGTATTAGTTCCTTAGATTGGGGCAAATAACTGAAA
TTCTGTTTAAGTATTATTGTATGTGTTTCCTTTTGAGTATAAGAGATAACTTCTAAGTTAGAGATATTCCTCTTGAAGAAGGGGATAAGTGTGCATATGG
CATTGATCCTTGTGCTAATATTATCACATAGGTAACATTGTTATGACAGACGGCAATAAACCACAAAACATGTTTGCAAACTTGTGAGGCCTTAAATGGT
GTTGCCTTATTAAAAATCCAAATGGCTAAATCATCCAGAGTACAGGTAGCCTGAGGGCATTGTTAGCTGCATAAAAACTAATTGGACCAATTTGAATGGA
AGAAAATGTTGCCTGAAGTCTTTAATCACACTGATAACCTAATGGTTTTCTGCTCAACATAGCCCAGGCTGTGTTTAGGAAGATGAATCCATGCATGCAG
CTTAAAAAATTTTACACAAGATCAGAGGGTTGAGAGGAATAATAAATTTCTCATTTAGAAAGTTTAGTGCRTGTGTATCTCATGTTTTAGCATCATAGCA
AGGTAACAGCAAGCAATTGTTGGATAAAGGAAAGTATCATTTTTTTAAAGATGAAGCAAACATGAGAAAGCTGATTCTGATTTTGCTCTGATTATAAGGG
ATGTTTCTCTAAGAAGAATTTAGCGTTCATCTTTATGTGCAAATAATCCAAAACCCTTTAACTTATTATCAGCTCTGTAATTCAATGAGCTCCTGAAATG
GTAACTGAACAATAGTTTGACACGTGCTATTATTATTTTTTTCTTTTTTTCTTTTTATTTTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACA
ATGTGCAGGTTAGTTACATATGCATACATGTGCCATGCTGGTGTGCTGCACCCAATAACTCGTCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTC
CCCCCTCGCCCCACCCCACAGCAGTCCCCAGAGTGTGATGTTCCCCTCCCTGTGTCCATGTGTCCAAAACAGCATGGTACTGGTACCAAAACAGAGATAT
AGATCAATGGAACAGAACAGAGCCCTCAGAAATAATGCTGCATATCTACAACTATCTGATCTTTGACAAACCTGAGAAAAACAAGCAATGGGGAAAAGAT
TCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTCACACCTGATACAAAAATTAATTCAAGAT
GGATTAAAGACTTAAACGCTAGACCTAAAACCATAAAAGCCCTAGAATAAAACYTAGGCATTACCATTCAGGACATAGGCATGGGCAAGGACTTCATGTC
CAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAAGTACCGTCAGAGTG
AACAGGCAACCTACAAAATGGGAGAAAATTTTCGCAACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAATTTACAAGAAAAA
AACAAACATCCCCATCAAAAAGTGGGCAAAGGACATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAAACACATGAAAAAATGCTCACCA
TCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGACATACCATCTCACACCAGTTAGAATGGCGATCATTAAAATGTCAGGAAACATCAGGTGCT
GGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTAAACCATTGTGGAAGTCAGTGTGGTGATTCCTCAGGGATCT
AGAACTAGAAATACCATTTGACCCAGCCATCCTATTACTGGGTATATACCCAAAGGACTATAAATCATGCTGCTATAAAGACACATGCACACATATGTTT
ATTGTGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAMGAAAATGTGGCACATATACACCATGGAAT
ACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATTCTCAGTAAACTATCACAAGGACAAAAAAC
CAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAAGACATGTGCTATTATTAAATGGAGTGTGTTTTAGTAGAAAGAGTATGGAATGA
AAGTCTGAAAAACTTTTGTTCAAGTTCAGTTTCTGCCTCTGGCTAGCTCTGTGAGTTTCTGCAAGTCATTCGAACTTTCTGAGCCTGACTTTGCATCCCC
AAAACGCCRGTGAAATTAATTCCTTCCCAGACACCCCACAGGGGTTTTATAAAAATGTTACAAGCTAATCGATAGAAAAGTATATGAAAGCTATAAAGCC
TTCTGCAAGTATAAGCAATTATTATTATTATATCATAGTAGAACGTAATGTTCTGGGTCTCTTTATTTAAAACAATTCTCTGTAATTGTTTTAATTTCAC
TCAACTTTCAAGCCATGTAAAATAGTATACGTCTGTTATAATTCACCAAATCAAAGTTCCCAAGTTTGCAAAAGCCACGCTCAGAAGAATGTGATTTTAA
AAAAWTGATTCCTTTTGGACTGCATACCCATCTGAAGTCTTCTTTGGAATGCAATTCAGTCAGAAGCAATTGTGGCACTAGCAAATATTCTGAGAATTCA
TGAAATCCCAAAGCCAAAACCATGATTCATTGCTCCAATACCAAAAACATTTGGCAGGCTGTAGTTTGGAAGCCACAACACTGTCTGTTTTTAAGGCTCT
AAATGGGGCCATTTGGATTCATTATGACACTGCCTGGTCCCACCACACTAGAGAGATGGCACCAGAATCTCCCAGTCTCTTCAGACATTATTTTTCGTAT
TTCTTCTTGGGACTTGCTTAACAATATATCTCTTTGGATTAAATTACATAGAGTTTTAGGAGTATCTCCTCTATCTTGTAAGCATTGCAACATGAATATT
CTACARATTTCTTTTATATAAGAATTCTTGTTTAGCAGTTCTGGATTTCCTAGTGCCAGCCTTATACAACCTGTCATTCAAATCCTTAACGATGGGTTTA
TGTGAAAGTGGTTTCTCTACAGTTTCCTCTGCTTCATCTTAAATGGAAATGTAGTTCCTCCTTTGAAATGGAGCACTAAATGCAATGGTTCCTTCAGGCA
TATAGCACGTTTCAGTTACCATTTCAAATGAAATGTATTTAGACAAAAGCTACTAACAGCACACTGAGTAGCAGTGGTAACGTATAGCCAGATATGCTGT
GGCATGTATGTAAAAATCASGCATTCAGCCCTGGCCAAATGTTGGACACGTCAGATAAGGAAGCTAAAAATCTCCTGCCTAAATGAGGACTGTGTAATTT
CACTCTGCCTTTCCAACATGCCAAAGCTAGCTTCTCAAAGTCTGCATGATTCATGAATGCCTTATAAAGAATCATAGAATTCTGTGGCTCACACCTGTAA
TCCAAGCACTTTGGGAGGTCGAGGTGGGTGGATCAACAGGAGTTCGACACCAGCCTGACCAACATGATGAAGCCCCATCTCTACTAAAAATACAAAAAAT
TAGCCAGGCATGGTGGCACATGCCTGTAATCCCAGCTACTCTTATGCTGACACACAAGAATTGTTTGAGTGTGGGAGGTGAAGATTGCAGTGAGCCGAGA
TTGCACCACTGCAATCCAGCCTGGGTGACTGAGAGGGACCGTGTCTCAAATCAAACAAACAAAAAAAGAATCACAGAATGTAAGAAATGGAGGAATCTGG
GACGTCACTTGTCACATCTTGTGACCTCCAGGTAGGTTCCTGGATCCCTCTACAGCACCTGGAGCCAAGAGGTGCTTCAGTCCTTAGCTTACAGACTTCC
AGGGATGGAACAGTATCCCCTACTAGAACAATTCAATCTATTTTTGGACAGTTCTAATCTTAGGAAATGCAGCATTTTGTTTTAATTATTGTTGATGTCT
AAGGTTCAACTTAACTCTGTGGGAATGTCATCTATATGAAATACCTTCACCATTTGAAGACTGTGTCWGTTGTYGATATTCAGTCAGTCACAATTGAATC
TAACCACTCGTCATCTGGAACAGATCTCCCCTTCTTACTTACAAAGCAGTCAGGAGTAATTCTGTCCAACACTCTGCTAGAATCCAGCTGTATGTTCTAG
CCTATTGATTTCCCCTTATTATTTATCTTCATCAAAAAAATAATAAAGTAAATCTAGAATGATTTTCTTTTCTTAAKGTATCCATGGTAGCTCCTAGTAA
TCAGTGTTTTTCTAAGAGTGCAGAAAACTTCTGTTTAAATCATTCCTTTCTGAAGCTTTGCCTATAATGTACATTAACTCACTAGCCTAGTTTGTAGGCT
GTCTTACTCCTGCTTTGGGGAGTTGAGTCTATATTTGCATATATTATCTTCTAGCACTTTTCCCATTCTTCTTAGCTCTTCTGTCATTAGTTTTAAATGC
CCTGGTTCATGTCTTTACCTAGGGTGCATTAATTCATTCACAGACAATGTGACCATTTGCAAACAGGCTAGTTTGTTCTGACAAGCCATGGCCTAAATGG
CATGCACACTCCAAAATACAGTTTACATATTGTGGATTTGAGTGTGAACTGGTCTAATTGGCAGATGTTCACTAGGACATCTATACCCCTAAAGCATGAA
TTAATTAGTAAAAATATTTTTTAAAAATTTGTTTCTGTTCTTAATTTTAATAAATTATTCATATCCTAATGCACCTTTATAAAAACGGTGACTGATGATC
ATTTTTATATTTATGTATACATCATGGAGCTAATTTGAATTAGCACTAAAATAATATATACTAATATAACATGGTAGTATGCAAAAACTAACCTAAAGAC
TATGTTATTCTCTTTTCATAAAATAAAATTTCATTTTACATCCACAAAATTACCCATATAGGAACTAATAATTCATATATATGGCTATCTATGATATATA
TCATCATCTTTTTAGCATAAAGAAGACTACCTAGTTGACCAGCAATGTTGAAATACTTGCAAAATTGAGTGCTTTCCTTACCTGTCATTAGCTTGCATTT
ACTTTTGTTGAATTCCTGAGGCAGCTGCATCACTGTATTTTCACTGACCACAATTTCAGCAAATAGAGGTCCTGATGAATCTTCTAAATCCGGGCATCTG
TGAAATGCTTGCTGAAGTCTGGATGCACATGGGTGGAAACAGCTAGTTCCATTGATCAGGKTCTGGTTTCTTCTGTTTTGTTTGACCTGGCATGGGTAGC
TTCCATCTGTCTGTCATCCTAGAACAGCATCTGGAGCCAGCCTATGTGGTATCTCTTGGGCAAAAAGGTTAAGTCGTTTGACATGGATTGCATTTAGCAA
CTGAACAAACAGAGCAGCTTGGATATGAGCTTTTATTCAGAAGAAACCAGATAGCCATTTTGGTGATAAAATATTTATTTCCTATTATCTTGTGTTGCCA
AGACTACTTTGTATAGTACATTTCTTAAAAGGAGATAGAGTTCTAAAGAAGTTAGGTATATTAATAAGGGAAATTGTATTTTGAAAAATGTCTTGAGTGA
TATTCTATTGCCATATTTATTGTTGATTGAGAAMACATTATGTCCCATTTAAGCCAATACTTTGTCTTCTTCTTAAGTATTGCTTTCTTCTAAAAAACAA
CATCTCTACTCTATAGCTTAAGGAAGTGAGGCCAAAGATGCAGTCATTTTTAAGGCAGGTAGAAAGAATTAATCAGTGTGAACTGATGTTAGCTTTCAGG
AAAAWCTGATGTCTCCAAATGAACATTTTGTAATAATTTAATTTTATTTAATTTAACATACATACTTTTATTTTAAGTATTTGCAGAGTACTGGCTAACC
CCTGTGGGGAATCTAAAGATGTCAGACATAATCTCTGACCTCCAGGAGCTATCTGTGTAATGAGGTTCACTAGCATACAAATACAGATAATTCTACCCTA
AGGCAGATTCTGATGGGTACTGTGATAGAATTATCACGTTCTAGAGGGGTATGGAAGAGGAAGAGGTTAGTGCTGACTGGGAGTTTTCAAGAGGGCTTCA
AGGAAGATGCCAACTTTGAGTTGGACCTTTATTGAGTGCTTACTAAATTTCAGCAATGTTCAAAGTGCTTTAAATTTATTAACTCTTTTAATTCTCATGA
TTAACTTTATAAGCTAAGTCTTGTTATAATTCCCATTTTATAGTTGTATCACTGAGGTATGGAATAGTTAAATAACTTGCCAAGATAGTAAGTGATGGTG
TCAGGATTCAAATTCAAGGAGTCTGGCACTAAAATGCTCATTCTTAACCGTAGCACTATACTGCTTCCTGCCAGGGATAAATAGGCATATTCAAGCAGTT
GAGAGTGCTCAGCCATAGTCATAGAGAAAAGAAAATTGAGGAATGTTTGCAAAATTCAGTTTTTTAGTCTGGCTTGAACTTGGGTAAAAAAATAGTTGAG
GAATTGTAGAATACAAGACACAGAGACCCAAGTAGGGCTATAGAGGACTTGGTATATCGGCTTGGGGAATTGCAGGGGAATGCTGTGGTAAGGCTTTTAT
TATAATAAGACCCTTTGGGGGGAGTATTGAATGACTGGGGGRTAGAATGTCATTTAAGGATCTATTAATTCTATTAAATGCTCCAAAAACTCTTTTTTAA
GCTTCTCTTATGTACCAGGCACTGTTCTGAGTGTTGAAGATATAGCAGGGAACAAGAGAAACAATTCCCCACCCTCATTGTGTGGAAAGAATATGGAGGG
TGTATAAGTAAACAGATAAATAAACAAGATAATTTTCTATAGTTCTGAAAGAAGGAAATAAGGCGATGTGATGTGATAGAGAGTGGCCATGGGCAGAGGA
ATAGTCACTCAGAATGGTGGTCAGGATCTATTCTTGGCTCCTCTGCCATTCAGGCCTGAACTGAGGCCTAAATTGCAGAGGAGGCAGTCATAGATGAAGG
CAGGGCAAGTGTTCAGCAAAAGGGGATTTGCGTTTATTAAGAAGAGCATTGCAAGCAGCGTTAACAAATGCAGAAGCTCTGAATTGGGAAAGAGCTTGGA
GGGTTCAAGAGACAGAAAGAATGCCAAAAAGAAGAAGCATTTAGCAAAAGATGTGGAGAAGGGTATGGGTTGAAGTTTGAGAAGTAGGAAGGACCAGAAC
CTTAYAGGTAGAGCATTTGTATTTTATTCCAAATGAACTGGGAAGCAATTGAAAAGTTTTAAGTAGGTGAATGATGTAATCTGTTTATATTTTGAAAAGA
TCACCCTAGATAATATACAAAGAATGGACTATATAGAGACAGAAGTGAAAGCAGGAAGATCAATTAGATGGCAAACTGCAAAAGCCCAAAGAGGAAAAGA
TTCGTCTAGGCCTTGAGGCTGGAGAGAGATGGATAGTTTAGGATTATATTTTGGAGGCAGAGCTAAAAKGACTTGAATTGAGTGAGAAATGTGAGGGAAA
GAAGCTATTACCAAGGAGGACTCCAATAATTTTGGCYCAAGGTAACTGAACGATGTAATACTGGTAACTGAAATGGAAAGAACTGGCTTGGGTGCTGGGA
GAATTAAGAGTTCTTCTACAGTCATGGTGAAGTTCTGGGGGGAACTAGGGTAGTTGCTTTRAGAATGACAAATGATGAATGGATGCTAGAGAGATTATAG
ATATACAATTAACTGACTGATGTAGTTAGATGCTAGGATGAAGATTTTGATAAATTCAGGTTTTGAGTCAGATGAACTGGGAAGGAAGTGACCCCATTTA
CCAAATCGGCAAAAGAGAAGGAGGAGTTTGARAAAGGAGAAGGATCAATACAGAGTAGGAATCATTAGGAAATTCATATTTGATAGTAGATAAACACATC
AGCTTTGGAATCTAAAAGATGAGGATTTGAATCCTGGATGAGCTGTTAGCAAACCTGCATGACAAGTTACTTAATTGTTCCAGTGTCAGTTTTGTTATCT
ATAAAATAAGGAAATGATATTATATTATATGTAAAGCGATATATATAAAAACAGAAAAGAATCATGCAATGAATATTATCACTATATCTTATTATCATAA
AAATAATATAATAATAATACTTCTTGGGATGTGTTTTATTTATATTATTACTAAGATAATAATGTTCTTGTTTTAGTTCTTTTTAGTAAGGATTACAAGC
ACAAACTGGAAATTATTTATGTTCTTTTCCTATTTTNCAGGTAAATAAACTGAGGCTCAGAAAGGATGGCATACCCAAGGTTATACCGCTAGAAATTGTA
ACCTATGCTTAAGAGCCAGGACTCACACTTGGATATGACTTAAACCAAATAATTCTGAACTCTTCCCCARCTAGTTACTGTTAAGATAAAAGCTGCTTTG
TATCACTTTGCCATTTCTCTGGGATCTATGTTGAGTGGAAAAATTCTGTGTTTATAAAAATGTTATTATCAGATCACCATACTGTGAAACTGTGTTTTAT
TAATTTTCCAGTGCTGGACAATATTCCTCTCAAGGTCTGTCTTTGGAGGAGATGAAAAGAAGTCTTCAATACACACCCATTGACAAATATGGTAAGTAGG
CAGATTCTTTAGGTTTGTTARGAAAACTACCCCTAGGAAGGTGATGTCTATTTGACAAAAAGGGAGAAARCATTGCATATTGTAATATCCAAAATGACAG
ATGCTTTAAAAATATAAAAGTATAAAATTTGATTTTATATGTCTTTTATAACTCATTTACCTTTAAGGTTAATAATGTCTGTGTGAGCATGTGTGAGTGT
GCATGAGTGTGTAAGTATATGTGTGATTATGTGTGAGTGCCTGTATGTGTTTGTGTACATAGAAAAAAGTACAACTCTTTTTTTWAAAAAAAAAAAAACT
CCTTCCTCTCATGATATTCCRAATACTTTGTCAACATTTTATTAAGTCCGTTGCTTCTAAGCCCCACATTAAGTGTGTGTGGGTAGGGAGAGGAAAAACA
AGAGATGAATTTTCACAATTACCTAATATGTTGGGAGAGCTGTTCCCCTTTAGCCAAGCACTCAAGGGTAAAATGCAAATCCAGCCATTCCTTCAAACAG
CTGGAGAGGCAGTGAGGGGACAGTTTGATGGGAACCATTTTACACAGGACTTCTTCAGAAAGAATTAATAAAGCTCTTTGAAATAATTAACAAAGTTTTT
TTCAGGCCTCTGGAAGCCAGAGGATGGACAATTGCCTTTATCATCAGCTGCGATATCAATGTGTTAGGGCTGGGATGTCCTTTTACCAACCTTTAAGCCT
GAGAGGCACTAYGTTTAATTGGAATTTTAGCACAATGGGCCCATTTATCCATTGCAACTTCCTTTGACTATTTGAAGGACTGAAAAAGTATCTGTCAGTT
AAAGAGATCAGATTTATTATAAGAGCTGGGTTTGGGAAAGAATAAATTAGATGAAGTGAGCCTGGGTAGGGGGCAATAGACCTGGGAGACCCTCGGCTTT
GGGATCCTCACCAATTCACCTCATCTGCAGAGACTCATTACCTAAGGCATTAGAAACCTTTTAAGAAACAAAGAAAAATGTATGTTCTGAATAGATGCAN
ACAAACTATTTGGGCACATTTAAAAAAGGGAAATTTTGTGCTTCTGACTCCCAATACATNTCTAGAATGCAGATGAGTGCTTTTTATCATCAGTTTTACA
ACATAATTGGCCAGTCCAGTAACAGATCCTTTTGAGGGGGAAAAYGCACTCCAAGTGTCACATCCTCACATTTTTTTAATAGACATAATATCTTTTCTTC
AAACCTTTACAGATGTAWCTTCATAAACACAAAACATAGGGCATCCTTTGAAACATTTGCTTTGACCAGAAGTCTTCCCTTTTGTGGTAAGGTTTCAAGA
TGAAGCATTTCTTTAACTTAATTTGTTTCTTAAAGAAGAATTCCCCCAAGATGGAGAAGTAAGAGAAATGTGATGTAATAATGCAAAATTTGGGTTTTCC
TATGCATACCTGTCTCAGGGATGAAAGAAAACATGRAGGGTGTTTGGATGGAGTGAGAGTACCTATAAACAAAGAAGATACATTCGATATCTCCCATTAG
GAGCATCACATCATACAAGAAAGAACGCTTTAATTGCCCTTTATTCTATTTCATAAACTGATCGCAATATAACAACAATTTTATGAGCTTCTTCTCCCCC
TGCTTTGCCGCCAAAGAGCAGAGCTCGAAAATGGAGATAAAATGAAACACATAGCTGTTTTCTCTGTACTTGAGACCTTTTACCTTAAAGTAACAAAACA
TTCAGACTTGGTTCAGTCTTTTCCTAAAACCTATGGTCAAATTTCAGTTGAGTTCTTCTTAAACTGAGTGGGTCCACAATCTGACACATCTGTTCTTACC
TTCTGGCAATAATGACATCAATAATAAATGCTAGCCTCAATGCCTTACTGATTTTGCTGATCATTCCTGAGGGTAGAGCCCACCCACCCTTTGGGGACAT
ATGTCCACAATCAAATTTCCATTGGAGTCCTGTGGGGCAAGAGGCACTGGAACATCACAGGCCAGTAAAATTGCATGTGGTATGTTAGAAAGCTGATTAY
GGTCATAAAAGTATTACAAGCTTATGGAAGCATCTACCTATGCCTGAAATGAAGTCTCATTTTTAGCCTGGATACAGTAAATATTTTGCTGTAGAAGGTA
GATTTTGTTTTAGTCTACACAGAATTTAGATCTGCTGATATGTATCCTACTGCCCCTCATCTCATCCTCCCCCATCATAACCTTCCTCACATCTGACCAG
AGCCAGTCCCAAAAGAGGTGAGTGAGAGAGACCAGTTGACAGGAGTATCACTATCAGTGGCATTTTCTCTTAAGAGAGTTTATGTGCTACCTAAGATATT
TTGACAAGAGACCTTTCTTATGAAAATAAATATTTCGATCCAACTGCATACTGCTAGATGTCTTAATGAAAATGTAGATGACTGGGTTGGTTATGAAAAC
TCRGCTATCAAAGGGGAGCAAAAGCAGCAATAGCTATTGACAAATGTGCTCACTTTCATGAAGCAATGAATGGCTTTCTTGCTTCAGAGTGAAAAGAAAA
CTGCTTCCCTGTACATAGCTCTGTGGTTCTCTTGGACAGTGGCCTGATCCTGAGCCACTAGTTTAATTCTCTGGACACATCCAAGGCTATTGCTTCAAAG
GGCATCAAATGCCACTGGTATTTAGACCTAAGAATTTTATGTACCTTTAAAATTTGGGCTACCAGGGAGAAGAAACAAACAAAGCCATCTGGTTTGAGAA
AGAAAGGCTCTTTCCTTTTCCTTTTCTTTTTCTTTTTCCCTTTTTTTTTTTTTTTTTTTTTYTTTTTTTGAGATGGAGTCTTGCTCTGTTGCTAGGCTGG
AGTGCGGTGGTGCGATCTCGGCTCACTGCAACCTCTGCTTCTCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGACTACAGGCACATG
CCACCACACCCGGCTATTTTTTGTATTTTAGTAGAGATGGGGTTTCACCATATTGACCAGGATGGTCTCGATCTCCCGACCTCATGATTCGCTCTCTGGG
CCATCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCTGGACTCTTTCCTTTTTCTTTACCTTCCTTTTTATAGCCATCTTTTGTTTAGCATTCA
CTGGTATCAGACAGTGCTAATTGTCTTAGGTGCATTGCCAACCTTATGAATAAGTGCTATTGTTTCTCCCATTTACAGATGAACACACCGAGGCATAGAA
AGGTTAAGTTGACAAAAGTCACAGAGTCAGCAAGTAGTGGAATCCGTGCTTAAACCCAGATTTGCCTGACGTGAAAGCCTGTGCTTTTAGCCACCCTGAC
ATGCCATCTGCCTGAGCTGTACCCCTCTTTACTCCAAACCCAAAATGCCACCTGGCCAGCTTGGGTCCAAATTAGACATTAGTCATTCATATTTGCCTGG
TCTCAGCTCTCTGTTTTCATTRTAAATGTTGCTTGTGCTTTGCAACTACTCACCAGCAACCGTTGTCCAGATTGTCTGTTCACATGATCTGGAAGACCTG
CCTGGTTCAGGCTGGTTATAAAAAATTGGGGGATGTACTGAAAGACTAGTAAGTAACAACTGAACTTCTTTTCTGATGCAGGCTATGTATCCGATCCCAT
GAGCTCAATGCATTTTCATTCTTGCCGAAATAGTAGCAGCTTTGAGGACAGCAGCTGACAGCATTCGGCGTATACCTAAGGAGAGTTTTYYCCCCGAACT
GACAGCAACGATTCCAACCACGGCAAGCTGGCTTCCAACTATAACATTTTACTCTCAAAGGTCTCCTTAAATTGGGCTTGTTTTTACTTGTCCTATTTAA
TTCCCCACTATTAGCAGGCTTTGGATTTGTGCCTAAGGAATAATATGCAAAAGAACCAAGACAGAATGTATATGAAGAATTGTTTTTAATTTTGTAAATT
AAAAAAAAATTTAGATCGTTACTTGGAAATGGAGCCTAAGTCTGTGGTGGACAGATAATAATTATGTTTTCCTGGGCTGAATTATGTAGACTTGTGTTTG
ACAGCTATGGGTTTATTTCTTAGAACATTGTTCATTTTCTTTTCTCATTATGTTACTTCTAGTGTTCACCTCTGTGATTAAAGATTCTTTGGTGAAATAG
AAAATTGATTTATGAGTGTATTTTATTTCAACAAGACTTCCACTAAGTATATTTTTTTTCCAGCCATATTGGTAAAAACAGTAGCAACTTTTAGGTCAAG
AAGCTTGCAAAAATATAGCACTAATTTAGTCCCCTTTCCATGTCATGCCAAGTGCTCCATGATCTACTTAGGTAACCTGTTGCTCTCAGAACAAGAGGTC
GTAGATGTATCGGGTCAGTTGTGAAACCAGCCTATGCATGCAAACCTGCCATTTTTTTATACTAGAGTTTTGCACAATGTGGTGGGAGAATACCTAAGGT
GCCTACTGCCTTCGAGAAATGAGAAATCTGCCCTCCATACTGGTTCCTAGTTGGAAGACAGGAATGGTTCTATGAGACAAAATAGTTTTTCCATTGAAAG
ACAGATGGGAAAAAACAGGGAGGAAACGATAAAAATTGAAGGATAATTGTGTGTTTTGATTTTGGCAAGATAAATAAGGTTAGCAAAGGAATCTTGGATA
TCCTCTAAATCAAGGTTCCTCAACCTTGGCACTGTTGACATTTGTTGAGAGGGTGGGGGGCTGTCCTATGCATTGTAGGATGTTTAGCAGCTTTGTGGTC
TCTACCCGCCAGATGCCAGTAACATCCCCTATGATAGTTAATTTTATGTGTCAACTTGACTGGACCATGGGATGCCCAGATATGTGGTTAAACATTCTTT
CTGGGTGTGTCTGGGTGTTTTCTTAAGAGATTACCATTTGAACCAGTAGACTGAGAAAGGCAGATAGCCCTTCCCAGTGTGAGTAGCATCATCTTATCTA
TTGAAGGCCTGAATAGAGCAAAAAGGTGCAGGAAGGGAGGATTTGCTCTCTGCCTGACTGCTTGAGCTGGAGCATCCATCTTCTCCTTTCCTTGGTGCTC
CTGGTTCTCAGGATTTCAGACTCAGGTTGGAATGTATACTATTGGTTCTCTAGCTCTCAGGCGTTTGAACTCTACCACTGGCTATGCTGGATCTCCCGTT
TGTAGAGAGCCGATCATGGGACTTCCCAGCCTCCGTAATTTCATATATCTATATCTATATCTGATTGGTTCTCTTCCTAACAGAGAACCCTAATGCACAC
ACTCCCAAGTTATGACAATCAAAAGTGTCTTCAGACATTTCTACATATGCCATGGGGGACAAAATTGCCCCAAGTTGAGACCCACTTCTCTAAATTCAAA
GAGGATAACCACAGGCCTAAAGAGCAAACAAGGAATTTAGAGCCTGACTCTGGCTGGCTGCATTTAGGCATACGTGCTTTCTCCTCCTCCTGAAGTAATG
TGGATTCATATATAAATGGAATTGGATAATTGGATAGTAGAAGTGCTGATTGCTCCCTTAGATATCTGTGGCAAGCTCCTCTCTCCTCCACTTCCCCCTT
GCCAGTTAGAAATTATGTTTCTAGAGGGCAATTTCTATCAGAACAGGAACACCACCTTTAAAATCCCTTTGAGCCTCTTTTTATGACTTATGGTTGCAAA
GTCACAAATCCTAGCATGCTCTGATTAGCTTGTGGATAGCCCAGTGTAGGTTCAGAGACAGAAATTAAAAGCAACTTGGTACTTCCAACTAGATTTATCC
TCTTTTAGCCTCCAGCTTTTTCCATTTCCCTACCCAATTATTCTGGAGTCGCAGGTACTCTATCCCACCAATCAGATTCCCAAAGGACTTTATAATAAGC
AGGACCGAAGAACCTGAAGTGACTGCTCAGGCATAAACCCTTCTGGCAAAGACAGAGAAGGAGAAAAAGAAGCTGATTAAAGAACACCTGTCTCCATAGC
TTTCCCCCTATTCCTTTGCTCTAGCTACTCTAGGAAATGAACCAGCACTTAGCCTGGGATACTTTGGGGCTTAATCCTTTCATGAGTTGAGTTGAAAGAA
ATACCTTAGAGAGTTTTTTTCAAAAGATAGTTTTAACCAAAAGAATCACAGTATACATAATGCCAAATGTGTGTATAGTCAGGGCTGTGGACAGTGCTGG
GGTAACTCTGGCTGGCTGCATTGAGGCATACCTGCTTAGGTAACCCCAGCCAGGTGCTCTCCCAGGTCATATCCAGAGGGAGGATTGTTTGCTTCTGAAA
TGCCCCTCTTTTAGAAAGAGATTTTCTAGAACAGATTCGTCAAGATCTCTTTCTTTGCTTCCTCTAATTAGCCACCTCTTCTCTTCACACTGCATTTCCT
GATGTTGCTGCTTCCCTCTGGCTCTTGTCTTGTCAAATATCTGCAAATAATGAGACTAATGTGTCTTGATTCCTGAGAAGGAGAACCTTTTCGCAGATTA
CAACCTGTAGCTCACAAACCCTTTTCATTACTGCACCCTTAATGGGGCCCAGGGATCATCTCAGAGCTTGTATCAAGACCATGGGTTTTATGAGGTTTTT
TTCTTCCTTGCTGAAAAATGTCGCACTAATTGCTTTCTTTTTCTTTCAGAAAAAATGAACTTCTAAGATTATGTTTTTGCATGCTTAGCACATTAAATTT
CTTTCTACGTGCATGCAGCACTGAGCTCRCTCCGAAGATGTTCAATTAACTGTAATTGTAAGCCAAATTATAGCAGCACCAGGAAAGAGTTATTCCAACA
GAGTGATTATTTGGGTTAAATTATTTCCAAAGCTGACATTTCCCTAGGAAAGAGAAAAAATGGGTGCTTGTGGTGGGAGAAATGGCTAATGCTAGACAGT
CCATCTAAAATGAAGTGTCTGATTTCTCTCTCTGTTTCTTTCTCTGTCTCTCTCTCTTTTTTTATTTTTCCTTTCCCTTTCCTCCCTCCTTCCCTATTTT
ATTTATTTGTTCTCCCTTTCTTTAACAATAAGCAGTGGCTTTGGAGTCACTCAGACCTGTCATAGTAGTTGTGTGACCTTGGGCAAGTCACTCAACCACT
CTGAGCTCCAGTTTATTATCTGTAAGGTGATTGTAATAAAATGTATCTTTTTGGCCCGGTGTGGTGGCAATCTCAGTACTTTAGGAGGCCGAGGCAGGCA
GATTACTTGAGCCCAAGAGTTTGAGACCAGCCAGAGCAACATGGTAAAACCCTGTATCTACTAAAATTACATTAAAAAAAATTAGCTGGATGTGGTCGTG
CACACCTGTGGTACCAGCTACTCAGGAAGCTGAGGTAGGAGAATCACCTGAGCCTGGGAGGTCAAGGCTGTGATTGTATGACTGCTCTCCAACCTAGATG
ACAGAGTGAGACCCTGTCTCAAAAACAAACAAACAAACAAACAAACAAAAATTTATCTTGTAGATTTGCTGTAAGGGTTTCAAATGATGTAAAGTATGTA
CTATGGTTCCCAAAACGCCATAGCAATTTTCTTTCTTTTTTTTTTGAGTTGGAGTCTCGCTCTGTCACCTGGGCTGGAGTGTAGTGGCGCAATCTCAGCT
CACTGCAACCTCCACCTCCCGGACTCAATCAATCCTCCAGCCTCAGCCTCCCTAGTAGCTGGGACTACAGGCATGCACCACCACACCCAGCTAATTTTTG
TATTTTTTGTAGAGACAGGATTTTGCCATGTTGCCCAGGCCGGTCTTGAATTCCTGGGCTCAAGAGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGAC
TACAGGCCCAAGCCACCAGACCTGACCAGCATATGTTGTTGTTTGTGTTATTGTTATATGACCATGCATCCAAAGAACTATATTATAAAAGGAGAGCATG
AAAATAGTGAAGATTTTTTTCTCCATTGTAAAAATAACTATCAATGTCCCTAAAAACCTCATCTTTGCAAACAGCAAGTTGGAGAGCCTACACCTCTGAG
GCAGTTTGAGCCAAGATCCAGCAGACCTTAGACAGCAATGCCTTGTTTATCCTAAAATTAAATTAGAAGACAAATCAAATCCTTTCAGCCAAATACAAGA
ACCAGAAAGGATTCCCCAAGCAAGGGGGATGCTAAGTGAAAATAGAAAGAGTATACACTTGTTGAGCACTATTATGTGGCAAAAATGGTTTAAAATTACT
TAAAATATAGTATTTGGCCTAATTTTCTGCATAGCCCTGGGAAGAGGGGATTATTATTATTATTATTATTATTCAAGTGGGGAATCAGAGAAGGAAAGTA
ATGAATCCAATCTCGCATAGAGTAGAGGCAGGTTTCAAACAACTTTTTTCTTGCACTCATGTCCATGATTTGTTCATTACACAATACAGCCTCCACTGTG
AGGGAGGAAAAGATAGAAAAATAGCACATACTCACAATCCAGAATTGCGATAAAAATGAACAACTCTGCAGTTCTACAGTCCTGAGGAAAATTTGGAAAC
TATCACAGGAGAAGTTTCAGGAGCCAGAAAAACCTTTTCCTGATTGCTACAGCTTATTATTGCAAAGTAAAACCAAAAAAATAATAATCATTATTTTCCC
TGTTGTAATTATGGAAGAGAAGGGGCTGGAATAATCTTAAGGCTCAAAAAAAAATGCATTGTTATTTTCTAGGCAGAAAGAACCAAAAATGATTGACAGA
AACAAGACTCTCACCATGATAAGCAAGAACAAAAAAGTTATAAGGGCAAAGCACAGCAATTAGGGAAGCCAAGGAGTTTCACATTTTCCTTTCCTCATTA
GCACACTGGGTAGGGAAATTGAGGAGAGAGGGTGTAGCCATTACCAGTAGGATTTGAATACCTTATTTTTTCCTAGTTTTGTTTTGCTTGCAGTTACTCA
AGCATGCAGACTGAAGAGCTCCCCCTGATCAATTTGCTTCCATATTTCAAGAGCCACAGGGGCAAAGATGAGCCATTTGACATGTGCAATCCCTTCACTG
GGTATCAGCTCAAGACTCAGCTGCAGCAATAACAGACTGTGGTCCAAGACTGTCAGCTCAATTAGCACCATATGCAAAACATGATGGAGAAGCAAAGTTC
CTCTCTCTCCTTGGACATCCTACTTTTGTGAGGCTAACTAGAAATAAAAAGAGCAGGGGTTGCACATTTCTCCTCAGGCCAGAGATCCAAGGCGGCACAG
CAGCTGACCCAGTGCCAGGGTGCTAATTAAATTAGGCTTCTTGAATTAAAACACTGCCACGGGGGCCAGGCCCTGCTGATGAGGACATGTCTCCAAAGCA
CTCCCAGCCTAGCTTTATGTTTAATTAGTGAGATAAAAAGAATATTATCTCAAGTATCTGTCTTTTAACCAATGGGCTCATACGCAGAAAAAAGTTATCT
TTACCATCTTTAAAGAAGGTTTTTAAGCGCACTAATTTCACTGACCTCCATCTCTTCTTTTATCTCAACTAATCAGGGAAGGGTAAGATTGAAGCAGGAC
CATGATATGCAATAAAAATAATTTGAATGTAGGTTTGCCCTTCAGTTTTTTACTTATAATAATCCATGGTCTGCTTAACACCACTTCAAAAATTAGTCCA
CAGTGAAGAATATCAGGCTTGTCTTTAAGACTATTTTTTTTCCTTTCCTGAAACTCAAAATCATCTGAGGAATAAGAATTAATGTTAATATTGAGGGTAC
CTTGAGGTGATCAGAATAAAAGTGAATGAACGCCAGATGACACATGTTTGCCCTATACAGTTATGGAACTATAAAAGGTGGAATAGCATAGAGCAGTTCT
TAAAATTTAGCCTGCAGCAGGATTTGTAGAGGGCTCATTAAAACACAGGTTGCTGGGCCCACCGCCAGCATTGTGGAATCAGAAGCTCTGGACTGGGGCC
CAAGAAATTGTATTTCTAACAAGTTCCCAAAAGATGCTGATGCTGCTTGTCCTGGAACCATACTTGCAAAGCATGTGCATAGTTGTCAAGGGCATGAGCT
TTACAGTTGGGCTTGAGTGAATGTCTGGCTCCCCCCATCACTGTGTGACCTGTGCAAACATGGGCAAGTTACTTCATTTCTCTCACCTCAGATTCCTCAT
CTGTAAAATGGAGAGAATCATTCTTACCTCAGAGAGAGGATTAAGTGAAATAATGCATGAAAATCACTTATCACAGGGTCAGGCACATGATAAATGTTCC
ATA


SNP Information

Context             (SEQ ID NO:29025):
GAGATTCGTGCCTCCGAAAGAACTGTCTGTGAGATTAGTAATCTGATTCCCATCCAGCTGGAGCCGGGTCAGGCCGCTTGTGTTTCGGAACCAAGACCCT
Y
GTAGGGTGCGGAGAGCATTATTGCTCAGCACCAGTACCTGCAGGCTGTGAAGCTTGCTGAAGGTGTGATCAGTGAGCGAAGAGCTGGATATTTGGTTGTG
Celera SNP ID:            hCV25760722
SNP Position Genomic:     251049
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,3)   caucasian(C,27|T,1)   total(C,48|T,4)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:29026):
AATAAAGTGATTTTCATCTCAACTTTAACTTTTTACCCTCCTTTGCATTTTTCATTCTTTGAGTCTCTCCACTGTTGAAAATGTAGTAATATTAAAAGTT
Y
GAGAGATCAAGTTTAAATAAGAGAATCTCATGTGCAGTTCTGTGTTCTATGTATAATTTAAACTTTTCAGAGCACCATGATGAATAAAAATTATGTATAC
Celera SNP ID:            hCV1301150
SNP Position Genomic:     15557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;(C,-|T,-)   no_pop(C,-|T,-)   JBIC-allele(T,488|C,973)   total(C,973|T,488)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29027):
AATGGATCTCCATGCAGATTTCTGCAGTGCCCTCTCTGTGCAGCTTCTTCTTCTCGGTTACCCTGCTCCACAAATACAGCCCCTTCATAATATCAGAACT
M
TCATTTACACTCTTAACTCAGTGAGACTTCCTATTATGCTTTGTGGCAGAAAAGTATTTCAGGCAGAAAACCATGGCAATCATGGGATATTGTGTGACTT
Celera SNP ID:            hCV1301152
SNP Position Genomic:     28934
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29028):
ATGGATCTCCATGCAGATTTCTGCAGTGCCCTCTCTGTGCAGCTTCTTCTTCTCGGTTACCCTGCTCCACAAATACAGCCCCTTCATAATATCAGAACTC
T
CATTTACACTCTTAACTCAGTGAGACTTCCTATTATGCTTTGTGGCAGAAAAGTATTTCAGGCAGAAAACCATGGCAATCATGGGATATTGTGTGACTTG
Celera SNP ID:            hCV1301153
SNP Position Genomic:     28935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29029):
TTAGCCTTACATGTAACTCTCATTCAATACACAGACAAGCCACTTAGTGAAATTTCTTTAGTGAGAAAGAAGTAGCATTTTGATTCATTAACTTATTTTT
R
ACATTTCGTATGATAAAAGCAGATATTGAATGGTAATGGTCATTTATCCCATCCTATATATTTCTTGCAAGATTTAATTCCTATCATTCAGAAACAACTC
Celera SNP ID:            hCV1301154
SNP Position Genomic:     32371
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29030):
CATCTACATGGGCATTCAGATGATAAATAAATAAGCTGGATGGGACTCCAACCTGGGGATCTACCTTCACATCTGTAGTCTTATACATAAAAGAGCGATT
R
CTCCCCAGAGACTCTTCTGTTTATTGCTATAACACAGCTTATACCCACAAGACACAAAAAAAGTATTTGGAAAGTGAAAAAAGAAACGGAATATGTTACT
Celera SNP ID:            hCV1301156
SNP Position Genomic:     47949
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29031):
TCATTTTAAACAGTTAAGTTTCTAAAAGTAAACCTTTCTTTTACACATAGTCTTAAATATCTAAGACTCAATTTAAGAACACTGCATATTCTGTGGCATT
Y
GAAAATGGTTTCCTCGGGAGTTGAAACCATAAACTCTATACCCCATTACTGAGTGTGCCCTATGTTACAGAATACTCTTTATTAAAGGTGAAAAAGCAAT
Celera SNP ID:            hCV1301157
SNP Position Genomic:     53815
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29032):
TCTCCAAGCAGTAAAATGTATTATTATTGTGTATTTCAGTCAACCAATTAATGCCTACATTTGTATATTACAATGTCAGAGAATTAGTAAGCTGGATGGA
K
ACTTGGTTTGGTAAATGCTGTAGGTTTGGTTCTCTTGGTGTGATTTTGACAAATAAAACCAAGTTTTTGGTTTTTTTTTTTAACTGGATTTGTAGGAAAA
Celera SNP ID:            hCV1301158
SNP Position Genomic:     85960
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29033):
CATATAATTAAGTCCTAATTATTAATGTTTATATTACCTTATGCCTGGTGGCATATATACCTTCCAAATTTGTACTTTAACTGTACTGGAAATACATCCA
R
TTTAACAATTATTGGATGCCTATTACCTACCTACCATAGTAGGGAACAAAATAGATTCAGTCTGTGACTTCACAAGAGTTTCATGTAGTGGAAAGAGTGT
Celera SNP ID:            hCV1301159
SNP Position Genomic:     98663
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29034):
CCAGCACCATGCCTACCCCAGTGGATTCCAGAACCAGGCCAGTCCTCATGTCCCCAGACCTCTCTCTGGCCCCCATGGACCCAGCATCCAGGCCCATGTC
R
CTGCCAAACTAGCCCCTGTAGCCTGTGGCCTCAGGCCTCAGGCTCATTCTAATATCAGACCAGCCCTCACAGCTCCAGGCCTGCTCTGGGCCACCCCAGT
Celera SNP ID:            hCV16127730
SNP Position Genomic:     56935
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29035):
ACTAGAGTTCATGTAAGCCCTCCTACATGAACTCAGGTACGAGGCTCATTCATATGGACCCAATGTCCAGGCCCTCCCCAGTAGACCCAGGCTCCAGGCT
Y
GCCCCTACAAAAAAAGACATCAGATTGACCCCTGTGGACTTAGGCACTAGGCCCATGAACCCACTGACCTAGGCAGCAGGCCAGCCTGCCTGAGGACTCC
Celera SNP ID:            hCV16127731
SNP Position Genomic:     57197
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29036):
GGTTCCCTGTGGAATCAGATATAAAGAATGCTTTCTATTTGCATAGCCCTTCTAACCTAAATATATCAAAATCAATCTTGAAAATAATTTTCCTGGTGAC
Y
GTCATCCTACACAGAAGCCACTGTTTAAGTTTCAATATTTATCTGCCAGAGTGCTTAGAGCTCCAATTTTACAATATTTAGAGTGTCTCCCCTCCCCATC
Celera SNP ID:            hCV11286916
SNP Position Genomic:     128145
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;JBIC-allele(T,147|C,1346)   total(C,1346|T,147)
SNP Type:                 INTRON


Context             (SEQ ID NO:29037):
TCCCCTCCCCATCTCTCCCCTTCTTCGTTTCTACTATTCCAATCTGAAAGTGTAGCGATCGCTGTCTCACTCACTTGGATTTGTTCTGCCCTTTTCCTGT
R
GTACAAAGGACCTGCATGAATCAATTTAAATTGGTCAGAAGAAATAGCCAGCAGCCTGCTTATGTTCAAATCCTCTGCCCTAATCACCAGTATGGAAAAC
Celera SNP ID:            hCV11286917
SNP Position Genomic:     128333
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29038):
ATCATTACTCCAAAGGTCATACAAATTAGTACATGAATTCTACTCATTAGCTAAAATCAGATAATTCTAAAATGCATTGCTCTCAATGGTTAAATATTTT
Y
TTGAATTTTAAAACAAACTAAGTAAAGCCTACAATTCAAAAATGACTCTGTATGGTTTCATTAAAACTTACATTTTGACACTTTCTCAGAAAACCAACAC
Celera SNP ID:            hCV16127738
SNP Position Genomic:     99031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29039):
GGCAACATCTTTAAGGTTGGCTGTTTTTCTCTTTTGTAAATTAGCTTCATAGATTATTTTTATAGTGAACGCATTAAAATAGTATTGAAGTTTAATTTTA
Y
TGAAAAACATTGCATTACTCAGAGGATCATTTGGCATTTTTTATCCTTCACAATCATAAGCCCCTAGTGTAACTAGTAAACACTAGATTGTTGGTGGTGT
Celera SNP ID:            hCV11286919
SNP Position Genomic:     136817
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29040):
ATAAATTACCTTGGGCAGTATGGCCATTTTCACGACATTGATTCTTCCTACCCATGAGCATGGAATATTCTTCCATTTCTTTGTATCCTCTTTTATTTTA
Y
TGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTGAAGCATTTGTGAATGGGAGTT
Celera SNP ID:            hCV27875570
SNP Position Genomic:     119142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29041):
ATCATTTGCTTTATGTATACCTTTTACTTGTACTTCTCTTACTAGAGAATAATCTTGAAGTTGACTAATCCTGTAGTCATGTACTTATTTGCTCCACAAG
K
CATAATTCATCTTTAATATATTTATCAGGCCTACATGCGAATCCTTCTTAACATGTTTTAGCTCAATTCTTTTTTATTTTTAATTATACTTTAAGTTTTA
Celera SNP ID:            hCV22274025
SNP Position Genomic:     106749
SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,19)   caucasian(G,1|T,35)   total(G,6|T,54)
SNP Type:                 INTRON


Context             (SEQ ID NO:29042):
CACCTAGCATCTGCAAAAGGATTCTTGAATATTGCAAAACTCTTGATGGAAGAAGGCAGCAAAGCAGATGGTAAGATTATATATTTAAAAGACCTTTGCT
R
TCATTTGCTTTATGTATACCTTTTACTTGTACTTCTCTTACTAGAGAATAATCTTGAAGTTGACTAATCCTGTAGTCATGTACTTATTTGCTCCACAAGT
Celera SNP ID:            hCV22274026
SNP Position Genomic:     106649
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,7)   caucasian(A,39|G,1)   total(A,68|G,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:29043):
GATGACTTATTTAATCCTCACAACAACTCCAAGAGGTAGAAATATTATTATTCCAACTTTAGCAATGAAGAAGCTGAAGTATCAAAACTATAAACAATTT
K
TTCAAAGCAATATAGCTGATAAGTAGAAGACTGATTTCCAAACCCTTGCTCTTGTCTATTGTACTCAATAGGAACTCAGTTCCCCACATCACACCCAGCT
Celera SNP ID:            hCV1301160
SNP Position Genomic:     104648
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29044):
TCAATTTTTCTAAGATATAATAATATATTTTCTTTTTTGTCTTTGCAAATTGGTCGAAGACAAAACTAAATACATCACAATGACTGAGGCAAAAACAGAC
R
TGTATACGCATAAATTCTATGTCTGATTCCATATTTGTCCTGGCTTGTTCCTTCAGTTGGTATTTACATCTTCTTTGATGGGAATAATGTTTCAGCCACT
Celera SNP ID:            hCV1301161
SNP Position Genomic:     110950
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29045):
GCTCAGTACTGAGGTTATAGGATTAAGTAAGATGGCAAAGGTCTCTGCTTTCATGAAGCATACAGATTACAAGTGGGTAGGAGGGGTAGGGCAGGAGGAG
M
CAGATAATAATATAAATAAGCAAGGATATTTTAGATATGGTAAGTGCTGTAAAATGTATAGATGTGAGAGTAAGTTATTAGGAATAGAGAGACTAATTTT
Celera SNP ID:            hCV200371
SNP Position Genomic:     161156
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29046):
GAATAGGTATCATTATTCGTTTCATTTTACAGATTGGGAAACTGAGTTCCAGAAAGGTTAAATAACTTAATGTAGGTCACACAGCTAGTAAGTGGTGTAG
R
TTATATTCTATCCTAAGTTGACTGACTTCATAGTCTGTGATCTTAACCATAGTTCCAACCTGCTTTCTGTTACAGATGAGTATGCTACAGATGCCTTCTG
Celera SNP ID:            hCV608100
SNP Position Genomic:     62081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29047):
ATGCTACAGATGCCTTCTGCTTATTTAGGGTTAATGCTTTCATATATTAAGAATCCCCCAAGACTCAATTTCATAAAGATATTTTAAATTATTATCTTAA
R
GTTTGATGGTTTGCCTTCAGTATTTAAGTGCTTTACCTACCTAATATTGATTCCAGTCTATGGTACAAAGCATGGGTTTAACTTAATTTTTTGACATGTT
Celera SNP ID:            hCV608101
SNP Position Genomic:     62263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29048):
ATTTTCCTTATTAATAATATACAATACTAATTCTGTCATATATCAAGTGTCCATTTAATTGCAAATCTGTTTCTAGATCTCTGTTCTGTTCATTTATCTA
Y
TTATCTAGTCATGCAACATCCTATATAAAGTTGTTCAGAATAGTCTCTTAATAATTTTAATTTTCTACCAATAGTGGCATATTCTTTTTTATTCCTGATA
Celera SNP ID:            hCV608102
SNP Position Genomic:     62498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29049):
TTTTTTTCTAACAGCATTTTAGGCTACACATTTGTAAGTTCTGTTTTTGGCACATTTAAGTTGTAATATATTTTGTTACTGTTCAGTTTAAAACATTTTT
M
CTTCTACTAGAAATTCTTTTTGGACCCATAAATTATTTAGAAGTAGGTTTCCAACTTTACAAACTTAGTGTTTTTAAATTACCTTGATATTGATTTTTAA
Celera SNP ID:            hCV608103
SNP Position Genomic:     62930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29050):
ATAAATTATTTAGAAGTAGGTTTCCAACTTTACAAACTTAGTGTTTTTAAATTACCTTGATATTGATTTTTAAGTTAGTTGTACTGTAAGCAAAGAACTT
Y
GTCATTAGTTTTCCAGTATTTGAAATGCATTGAGTGCTGCTGTAAGGGCCAATATTTAGTCAATTTTGTGAATGTTCCCTTTATTCTTGAAGTGAATATG
Celera SNP ID:            hCV608104
SNP Position Genomic:     63058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29051):
TTGGCTTTATCAATTTTGTGTTAAAAATTTTTCACCATGATTGTAGATCTTGCTGTTTATTGTTGTAGTTCTATAAGGTTTTGCCTAATATATTTTGATG
Y
TATGTGTTATTGATATAAAATTTAACATGGTTTATAGTTTCCCAGGGTGAATTAATGAATACATTACAATAGATTGAACTTCTCTATCTCTAGCAATGGT
Celera SNP ID:            hCV608105
SNP Position Genomic:     63354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29052):
GATTATTTTCTAAGTATGTATAGACATTTTTATCACATTAAGAATTTTTTCCTTCTATTGTTTGCTAAGAATTTAGTCCACAATTACTATTAACATTAAA
W
TGTTATCAAATATTTTCTCATCTATTGAGATCATTATGTAATTTTCTTCTATTATTTCATTAATATGCTAATTTACATTGGTTTTGAATGCCAAATTAAT
Celera SNP ID:            hCV608106
SNP Position Genomic:     64407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29053):
TTATTTTCTAAGTATGTATAGACATTTTTATCACATTAAGAATTTTTTCCTTCTATTGTTTGCTAAGAATTTAGTCCACAATTACTATTAACATTAAAAT
K
TTATCAAATATTTTCTCATCTATTGAGATCATTATGTAATTTTCTTCTATTATTTCATTAATATGCTAATTTACATTGGTTTTGAATGCCAAATTAATTT
Celera SNP ID:            hCV608107
SNP Position Genomic:     64409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29054):
CTTTTGATCCTTTTATGTTCAAACTTTTTGCATCTTTATATTTAATTGTGTCTCTTGTAAGAAATATTCGTATTTTAAAATTTGAGACTAATAATATTCC
R
TCTGTTTATTTAATATTTAATTTATTGGATATATTTGAATTCAAGTATATTGTTTTATTACTTGATTTTGTTGCTCCACCTATTGTTTTTGTTCATTTTC
Celera SNP ID:            hCV608108
SNP Position Genomic:     66297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29055):
TCCTGAAAGATGGGTAGAGTTTGGAAGAGCATCCTATAGGCTTAGGGAAGACATAATAAAATGCATAGAGATTAGAAAGTTAAAGGTATATATAGGAACT
R
TAGTTTCATTTTAGTATACAAAGTGTATAAATGTATGTAATGTGTATAATGTAAGAAGTGGACAACTGGAAAAAGGTATAGAAAAATAGAAAAAGAGCAC
Celera SNP ID:            hCV11286921
SNP Position Genomic:     142087
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29056):
TTATAAACATGAGGAAACTAAGTCACCCTATTGAATGTGAGAATATTCAAGGTGAAGGAAACAGCATAAATAAATTCACAGAGGCAAGAAGCATCATGGT
R
TATGTAGAAAAATACTAGCAGTTTTATGTGGCTGGACCTTGAAGTTTAACATAACAGGGTTTGGAGAGGATGCTGAAGAGACAGGCAGTGGCTCTTTTAT
Celera SNP ID:            hCV608110
SNP Position Genomic:     70218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29057):
TTTAAGTCATTGTATCAGAATCTCGCTTTCTAAGGGTTTTCTTTCAACATAAACATAATTTTTAGGGTTTTATTTAAATATAACTAAGATATATGTTATT
R
CTGACACTGATGGGAAACTCCCTGAATGGAATTACAGAATTATCATTTTGATGTTAGAAGATCGAAGCAAATAAATGATTTACTAGAGGACAAAGTGAAA
Celera SNP ID:            hCV608111
SNP Position Genomic:     70924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29058):
ATTTAAATTTAAATGCCAGTTTTGTTGTTTGCTATCTGGCTAGCCTTGGGTGGGGATGAGGTGCTTACTTTATCAAACTCTACATTTCTTTCTCTCTAAC
R
TAATCATAATAACAGGATTGACTTGTTATGTTGTTTTGGGGGAAATGTAACTAAAGAGCCTAGAACCATGACTGATACTGATCTACGAGGTTCTATCTCC
Celera SNP ID:            hCV608112
SNP Position Genomic:     71370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29059):
ACTTGCTTTTCCATGCTATTTCTCCTGTGGTTGACTAGAATAAAACTATCTGTCAGAGGAACCTTGGAAACATTTTAGTAAAGACAGCAGTGACTTCTAA
R
TGACTATGTGGAGGAGAGCCAACATGCCAACCTATTTACCAAGTGCCTATTGGTAAATGTGCAAGAAATGAACTTCCATAGCATACCTTGTTTCACTGCA
Celera SNP ID:            hCV608113
SNP Position Genomic:     72387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29060):
ATCAGTCCAGTCTGTCGGCATCATATTTCTAAAAGCCTGTACTCATTTCATGTCCCTGTGTCACATTTTGATAATTCCCACAATATTTCAAACTTTGTCA
R
TATTATATCTGTGATGGTGATGTGTTGCAATTGTTTTGGGGAGCCATAAACAGTGCCCAGACAAAACGGTGAACTTAATACAAATTTTATGTATTCAGAC
Celera SNP ID:            hCV608114
SNP Position Genomic:     72652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29061):
TGGGATCACATGCATGAGCCACTGAACCCAGCTGACAATAAAATATTTTAAATCAAGGTATTACATTGTGTTTTGAGAAATAATACTGTTCATACTTAAT
R
TAATACAGAATAATGTAAGCATAACTATTTTGTGCACTGGGAAACTAAAAAATGTGTGTGACTTATTTTATTGCAAAATTAATTTTATTGCTGTGTTCTG
Celera SNP ID:            hCV608115
SNP Position Genomic:     75304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29062):
GGACTTTGAGTAAGAAAAAGAGGCATAGGGAGAGGAGTTACAAGTAGGAAAGGGATGTAGAGAAGGTGGGGACCATATTCATGTATTGTGTTTTGGTCAA
W
TTGACAATTTTGATGTTGATTATCAGGCAGGCTGCAAGTAGTGAGGGGTTCTCTAAGAGCCAGGTTGAAGTGACCGCACTGTAGAAGCCTACTTCAGGAC
Celera SNP ID:            hCV608116
SNP Position Genomic:     75686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29063):
GAGCTCAGAAACTAGAAAACCCTTGAAGCTTTTCCAAGCTGTAAGGAGGGAGCTGTGCTCTTATACTTGCAAAGCAACTAGTCGTTGGTCTCTTTCTGCC
M
AGTGGAAGGGGCACATGACTTTGAGCAAGGCAGCCGTCTTCAGCCAAGGCAAATCCCCAGAGTGAGGCTGACAGCTAAGGGCTGTGCTGTCTGCTCTTGG
Celera SNP ID:            hCV608117
SNP Position Genomic:     76044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29064):
TTATTTCCTTAAGTGTAATATGGTTCAATTATAGTTACTGATAACTAACAACTCATTGGAATATGTGTTAATTTGTATACGGAAGATAAGGCAGCATGTT
W
TGTGAAAGTCTTTGAAAAACTATCTGAACTCAAATTATTTTTTTCTGAAGATCTTTATAGGAAACAAGAAATTTCTTACAAAAATATTATTTTAGTTCCT
Celera SNP ID:            hCV608045
SNP Position Genomic:     6224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29065):
ATATTTTTCTATGTAAATATATTATCCAATATCGAATGGGTTCTTCATTACTACAATTCAATATGATTGCATTTTAAATATAAACATCTGCATTTTAAAC
W
CACAATCAGTAATTTAAATTAAGTATTGTAGAATCTAGAATAAAAAACAGTTTTGATTACTTGTATGTTATGATCTGTGTCTACATTTTGCAAAACACAA
Celera SNP ID:            hCV608046
SNP Position Genomic:     6580
SNP Source:               Applera
Population(Allele,Count): african american(A,27|T,11)   caucasian(A,24|T,16)   total(A,51|T,27)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   JBIC-allele(A,460|T,965)   total(A,460|T,965)   no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29066):
TACAATTGAGACTGTAGAGCAACTAGCTGCAACACTATGACAGGAACAAAGTCTTACATATCAATATTAACTTTGAACATAAAGGCCTAATTGCTTCTCT
Y
AAAAGACATAGAGTTGCAAATTGGATAAAAATCGAGACCCAACTTTATGCTATATTCAAGAGACCCATCTTGCATGTGATGGGTTTACTTTGACCCCTTA
Celera SNP ID:            hCV608119
SNP Position Genomic:     77807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29067):
GCAGATCAAGGAAAAAGAACTGACAGAACTAAGGAATATATTTGGGTAAAGTTGTAAGAGTCATTATTTCTTTGTATAAGTGTCTTCAGTATTCACCTTA
W
TTTTTAAAGTATCTGTATATTTTTTAAACCCGTAGAACCTCAGACATAAGCAGTCATGTTCTAAGCCTTAGGATGTCAGATTATCTCTCTTTGACCACTC
Celera SNP ID:            hCV608047
SNP Position Genomic:     6879
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,32)   caucasian(A,11|T,29)   total(A,17|T,61)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   JBIC-allele(T,497|A,1002)   total(A,1002|T,497)   no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29068):
ATTTATAGCTGTGTTATGTAATGCACTCATGGCAAAGAACTCCCTCTATTTTACTTAGAAAACAAGTGTAAAGCAATGACCAAATGACACATCTTTAAAA
Y
AAAATTTTAGATATAGTAAACATATAAATATCACATAATTGGCAAATGAAATCACCCATGTATAATATAGTTTATATGAAATTCGTCAATGGATGTAACA
Celera SNP ID:            hCV608048
SNP Position Genomic:     7666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29069):
GAGACATTTTTGGAGAGAAAGACCAATAGCCTGATGCTGATGACATTAAAGAAGCTACAGAATGTGATGATAAGGAAGCTGAGGAGAGGATTATCCAGTC
Y
AGAATGATGTTTCTGCAAGAACTAGGGGCCTCTTATGTTAATGGAGATGGAGACTGTAGTACTTGCTAAAATTTTCGATTCCATGACTCCACCCTTTATC
Celera SNP ID:            hCV608049
SNP Position Genomic:     9432
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29070):
CAAAGTATTATCCATGGAATGTTAAGCAAATCAAAGCAATAAAGAATCCTTCTTTATATTTAAACATAGCTACAAAAAAGGTAGGAAGGTAGCAACACAG
W
TTAGATAAAAGAGCCCTGCTTATTGAGTAAGGAGATTTGGATGGCTCTTTGTCATAACAGTGGGGAGCTGGGCTCTGATTTGTCTTCCTCACATCTAATT
Celera SNP ID:            hCV11286934
SNP Position Genomic:     182551
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29071):
GGGCCTAATAAATAGCAGGGGGAAAAAATTAATACATGGAGAACTGGTTAAAAACGTTTTAGAAAGCCTCCTGCTTCCAGCAGAGGTAACCACAGTTCAT
R
TAAATGGCCATCAGAAAGGAAACACTATAGATGCTGTAGGAAACAGGTGTGGGGATAAAGCTGCTAAGCAAGCCTCCCTGGAGGAAGAAGTTAAACTGTT
Celera SNP ID:            hCV2168262
SNP Position Genomic:     168541
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29072):
GGATCATTTGGGTTAAGGTTTTAGCATCTTTAAGTAGTCAATTACAGTTGGAAAATTAAAAATTAAATGTTATTAGGAAATTATGTTTTTAGTTAAATAT
R
TATATGCACATGTATACACATCCATGTGTGTGGTTTTTACCTTAAAAAATAAAATGACAATTTCTCTTTGCAGAGAAGGCAGATATTCTCCTCCTAAGAG
Celera SNP ID:            hCV25601018
SNP Position Genomic:     139417
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,40)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:29073):
ACTTAGACAAGTGACTTAATTTAGGCAAAGAAACACCAGCAAACACGACACAAGCAGAGGCTTGATATATACTCATTCATAGGAATTTGCCCTCTGGAAT
R
CTGCTATTACCATGTGAGAAGCCCAAGCTGGGAGTAAGGAGGAGGACGTGGCTGCAGCCAGAGTAGGAGGTTGCTAAAGATTTGGGAGTTTTAAGATACC
Celera SNP ID:            hCV2168263
SNP Position Genomic:     182908
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29074):
ATAATTTTGTACTGTTTTTTCATCACATTCAATCCTTGTTTTTCTTTTTGAGATGGAGTCTCACTCTGTCTCCCAGGCTGGAGTGTAGTGGCGTGATCTC
R
GTTCACTGGAACCTCCCCCTCCAGGGTTCCAGCAATTCTCGTCCCTCAGCCTCCTGAGTAGCTGGATTTACAGGCATATGCCACCATGCCTGGCTAATTC
Celera SNP ID:            hCV2168264
SNP Position Genomic:     183151
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29075):
AAGGTCAATTTTTACGTTTTTCATTTTGAAAGCATCCTTTTAAATCTTTATAAAGAAATCAGTATAAAATAAATATAAATAGCAGATGCGTAAGTGTAGA
Y
TGGGATAAATAAATCGTATAAACCCCAAATAAAATAATGCAGAAAGAACATAAGTGGGTTTATTGAAGGAGTATTAGAATATAACTATTTGTATGCAGAA
Celera SNP ID:            hCV27840639
SNP Position Genomic:     2167
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,38)   total(C,1|T,69)
SNP Type:                 hmCS


Context             (SEQ ID NO:29076):
TTCACTGGAACCTCCCCCTCCAGGGTTCCAGCAATTCTCGTCCCTCAGCCTCCTGAGTAGCTGGATTTACAGGCATATGCCACCATGCCTGGCTAATTCT
Y
GTATTTTTATTAGAGATGGGTTTCACCATGCTAGCCAGGCTGGCGTCGAACTCCTGACCTCAAGTGACCTGTTTGCCTCGGCCTCCCAAAGTGCTGAAAT
Celera SNP ID:            hCV2168265
SNP Position Genomic:     183253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29077):
TCAGGTAAGAAAATATAGGTAACTCAGTGAAAGATAGTCATTGTGGGTAGAAAAGAATACAAAACAGGTGTTATTAGTGATGTCAGGTTAACAATGCCAC
S
TTCATGAATTGATTATTGGTAATTAATTCAGTCATCTATGTGTTTATTCTTTCATTCACAGAGTAGTCATTTATTTAAACATTTATGAAAAGTTTCCCAT
Celera SNP ID:            hCV2168266
SNP Position Genomic:     183539
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29078):
AATAATGTTCCAAGTGTCTTTCAGAGAGAATAGAAAACAATGTGCCAAGTTAGAACAATACATAGATTTCAGTAAAATCAGTTGCAATCAGTTCTTTTAA
Y
GGTGTGATTGCAGATGATTTAACGTTGATATATTTATCATTGCATTTAGAATGCTTTAAGATACATATCATGCATTGGATTTCACAACGAGTACATCATT
Celera SNP ID:            hCV2168267
SNP Position Genomic:     184338
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29079):
TAACGGAGCTATTGTGTTTATTAGTGTTGCATTTGTGGCATCTGAATTAATCACGGATTTAAAATCCTATGAAATTTTTACTTGAAAATATTCTGTCCAT
R
TATAACAATCTATGCTGGTTAGTTTACAATTTTGATTAATAACAAATCATTCTGCATTTTCTCTAAAATTTATACCTTGACATTGTGATGTAAGAGTCTA
Celera SNP ID:            hCV2168268
SNP Position Genomic:     184656
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29080):
AACCTTTATTACATCCAGTTATACTTGGGATTGTGATTCTGCTCATGAACTGGTGTCAAGCAACGGATGGAAAATTTTTGAGTAGTGTTGATGCCTTTTA
M
ATTGTTGTGCTTCTCTTGCTATTCAGCAATGCCCATTTTGATGTACCTGTATATTAGCATATATAAATTGAACTTAGTTTAAAAATATTAATTGCTTGTT
Celera SNP ID:            hCV2168269
SNP Position Genomic:     184958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29081):
CATATCAAAAGACAAAATTTCTATGTTTCTTTAAAACACTGCCCTTTGACAGTGAGAATACTCAAGGAACTGAAAATAACAAAAAAAAAAAAAAAAAAAA
A
GAGAGAGACAGAGAGAAATACAAATGTAACTGGATAACCGAATATAACTGTTCATTGAATACTCCATTTTCACTCTTCCTCACTTTGTCTTTCTAGACTC
Celera SNP ID:            hCV26786412
SNP Position Genomic:     103446
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29082):
CCACGCCTGACTAATTTTTTGTATATTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCTCCTGCCTCGG
M
CTCCTGAAGTCCTGGGATTACAGGTGTGAGCCACCATGCCCAGCCTATTTGCCCATTCTTATCAATGGTATACATGAAGCTCAGTCAGGTGAGGTAGCAT
Celera SNP ID:            hCV26786413
SNP Position Genomic:     103023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29083):
ATATTGAGTATATATAATATATATCTCAGTAGTAGTTTTTTAATATATATATATCAGTGGTATTATTATATATTACTATTATATTAATAGTATTATTATA
T
GTCAAATATGTCTTTTTATATATCAGTACTATTATTAAATATAATCATATATTTATATAAATATATATTCTATACATTTAATAATATTAAACACATATTT
Celera SNP ID:            hCV26786414
SNP Position Genomic:     98103
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29084):
GAACAAAGCCAGAGGCATCACATGACCCAACTCCAAACTATACTACAAGCCTACAGTAACTAAAATAGTTTGGTACTGGTACAAAGATAGGCATATAGAT
K
AACAGAACACAATAGAAAACCTAGAAATAAAGAATAAAACCATACACTTACAATTAAGCTTTTTTCTTTAAATGCAAGTTGTCAGGTGGGTATTCCTCTT
Celera SNP ID:            hCV608121
SNP Position Genomic:     81120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29085):
TATATTGAGTATATATAATATATATCTCAGTAGTAGTTTTTTAATATATATATATCAGTGGTATTATTATATATTACTATTATATTAATAGTATTATTAT
A
TGTCAAATATGTCTTTTTATATATCAGTACTATTATTAAATATAATCATATATTTATATAAATATATATTCTATACATTTAATAATATTAAACACATATT
Celera SNP ID:            hCV26786415
SNP Position Genomic:     98102
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29086):
GGTATCTTCTACTGAGATTATTTATGACTGATCTTGCCTTTGCAGGCTGACTGGAAGATGACAATGAGATCTTGTATATTTTTAATCAAAATAAACACAA
R
GCCGAGAGGAATTTAAATTATTTAATGAGGAGAGATTAAAACAGGAGGCTGACTTCTGATTATTCTGGACTATTTTCTAATTGGCAAAACTGTCCAAGTT
Celera SNP ID:            hCV608122
SNP Position Genomic:     83069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29087):
AAGAATTCAAGTGCAGCGCAGGTGGGCTGGCAGTGCTGGGGGACCCGGTGCACCCTCTGCAGCTTCTGGCCCAGGTGCTAAGCCTCTCACTGCCCAGGGC
Y
GGTGGCACCAGCCTGCGGCGCAGAGTGTAGGACCCACTAAGCCCACGCCCACCCAGAACTCACGCTGGCCTGCGAGCACTGTGCACAGCCCCAGTTCCTG
Celera SNP ID:            hCV608050
SNP Position Genomic:     18789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29088):
TTATATATTGAGTATATATAATATATATCTCAGTAGTAGTTTTTTAATATATATATATCAGTGGTATTATTATATATTACTATTATATTAATAGTATTAT
T
ATATGTCAAATATGTCTTTTTATATATCAGTACTATTATTAAATATAATCATATATTTATATAAATATATATTCTATACATTTAATAATATTAAACACAT
Celera SNP ID:            hCV26786416
SNP Position Genomic:     98099
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29089):
ATGAAGCTTGTAGGCAGGCGGAATGTGCTATTAAGAAGACGTTTGAATTTTCTTTGCCATGGGCATTGTTTCTATTTTTAAAAAGTGTTCTAACAATCTA
Y
CTGTGTTGGCAAGAGAAAAAGGGAAAATTAATGATAAGTTCTTATTGAAACATTAGAAACACATTACAGCTTCATAAAAACTTTTTATCTACCAGTTCAT
Celera SNP ID:            hCV27471356
SNP Position Genomic:     248219
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,52|C,1421)   total(C,1421|T,52) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29090):
TTCTGAAAGGCAGGAGGTGAAAGTAGAAGAGCTCCAAGGAACAGGAAGGTAGTGAATGATAGTCATGGCACTGTATGAAACCATGAATTCTGAACCTCAC
Y
GTCTGGGAGATTTTTTCTGTATTAGTTCATTTTGCAAAGATTTAGCATGACATTGGCACACAAATGGGTTCTGAATCATTTAGTCCTACAATATTTAGAG
Celera SNP ID:            hCV608051
SNP Position Genomic:     22714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29091):
GTACATGTGCACATTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGCGCTGCACCCACTAACTCGTCATCTAGCATTAGGTATATCTCCC
R
ATGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATATTCCCCTTCCTGTGTCCATGTGATCTCATTGTTCAATTCCCACCTATG
Celera SNP ID:            hCV26786417
SNP Position Genomic:     215801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29092):
TTCTAACAATCTACCTGTGTTGGCAAGAGAAAAAGGGAAAATTAATGATAAGTTCTTATTGAAACATTAGAAACACATTACAGCTTCATAAAAACTTTTT
R
TCTACCAGTTCATAGTGTAAGTGTCAAGATATTAGTGTTTGATGCCAAATAACCATTTATTAGTTTTAAATTTACAAATATAGCTATTTATGTTCTTTGG
Celera SNP ID:            hCV27471357
SNP Position Genomic:     248306
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,30|A,1467)   total(G,30|A,1467) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29093):
CAATGGGATGGGGCACTGTGGAGCAGGGGGCAGCACGCTTTGGGTAAGCTCGGCCATGCAAGAGCCCATGGCAGGGGGTCGGGGGGAAGCTCAGGCATGG
M
GGGCTGCAGGTCCTGAGCCCTGCCGCACGGGGAGGCAGCTATGGCCTGCTGAGAAATGGAGCACAGCGCCAGTGGGCCGGCACTGCTGGGGGACCCGGAG
Celera SNP ID:            hCV608052
SNP Position Genomic:     24070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29094):
AACATTGAAAGCCTGTTTTCTCAGCCAGGGACTTTAAAATAAGAGCTCCACATAAGAGAATGATGGGGGAAAAATGTATACATCTAATGAAGCAAATAGC
R
CAGCAAGATGATGGTTAACTGAACAACACAGAAAATCTGCCTTTCTTTTCTTACAAATATCTCTTTGGTGGGCTCCCTTGACAGGCATTCTTTTGTTCTC
Celera SNP ID:            hCV26786418
SNP Position Genomic:     91712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29095):
GGACAATTTCAAGACAGCAACAGCAGAACATTAAGTCATGCAGGAAGTCACCCTAAGTACAGCATCCTTTGCAACTGCTTGGGTTGCACAACTTGATGTC
M
TAAACACATTTATAAATATTCCTGAAAATGTTCTTAATAGAGAAGTGATCAAAATCATAATAAAATGAAATGCTGATAGTGAAAAAATATATATGTAATT
Celera SNP ID:            hCV608125
SNP Position Genomic:     85125
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29096):
CTCCTGCCTCAGCCTTCTGAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCAGCTAATTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCA
Y
CATGATAGCCGGAATTGTCTCGATCTCCTGACCTCGTGATCTGCCCACCTCGGACTCCCAAACTGCTGGGATTACAGGCGTAAACCACTGTGCCCAGCCT
Celera SNP ID:            hCV26786419
SNP Position Genomic:     87371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29097):
CCCTAAGTACAGCATCCTTTGCAACTGCTTGGGTTGCACAACTTGATGTCATAAACACATTTATAAATATTCCTGAAAATGTTCTTAATAGAGAAGTGAT
Y
AAAATCATAATAAAATGAAATGCTGATAGTGAAAAAATATATATGTAATTGTCTTTGTTTCCTCTAATTTGATTACAATTTGGGTAGAAACATGTTTGTA
Celera SNP ID:            hCV608126
SNP Position Genomic:     85175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29098):
AAGTACAGCATCCTTTGCAACTGCTTGGGTTGCACAACTTGATGTCATAAACACATTTATAAATATTCCTGAAAATGTTCTTAATAGAGAAGTGATCAAA
R
TCATAATAAAATGAAATGCTGATAGTGAAAAAATATATATGTAATTGTCTTTGTTTCCTCTAATTTGATTACAATTTGGGTAGAAACATGTTTGTAGTTA
Celera SNP ID:            hCV608127
SNP Position Genomic:     85179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29099):
AGTAACAGATCCTTTTGAGGGGGAAAATGCACTCCAAGTGTCACATCCTCACATTTTTTTAATAGACATAATATCTTTTCTTCAAACCTTTACAGATGTA
W
CTTCATAAACACAAAACATAGGGCATCCTTTGAAACATTTGCTTTGACCAGAAGTCTTCCCTTTTGTGGTAAGGTTTCAAGATGAAGCATTTCTTTAACT
Celera SNP ID:            hCV8909321
SNP Position Genomic:     311918
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29100):
AGTAATGTGAATTTGTCACATAATGAAAGAGAGCTTATACCAGCAATTTTACAAGTAAAAGTGTCTTTAGAAGAGAAAAAGTGACCAGAAACAGTGAAGA
W
TCCATTATTAGTCTAGTTTAAATACTATTTCCAAGACTGATATTTAAACACATTATGTATTTTCAGCCCAGTGAAGAACCATTAGAGGATGAATAATATA
Celera SNP ID:            hCV608128
SNP Position Genomic:     85730
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29101):
TTTAAGAAACAAAGAAAAATGTATGTTCTGAATAGATGCAAACAAACTATTTGGGCACATTTAAAAAAGGGAAATTTTGTGCTTCTGACTCCCAATACAT
N
TCTAGAATGCAGATGAGTGCTTTTTATCATCAGTTTTACAACATAATTGGCCAGTCCAGTAACAGATCCTTTTGAGGGGGAAAATGCACTCCAAGTGTCA
Celera SNP ID:            hCV8909322
SNP Position Genomic:     311760
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(C,-|T,-)   no_pop(A,-|C,-|G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29102):
TCACTGATTCTTTTACACAATTATTAAACAAATATTTACCAAGCAACTAATAGGTTCCAAGATCTGTGTTCAATGTTGGTAATTTAATGGTGAATAAAAT
Y
GCATATAATTCCTAGCCTCACCAAGCTTATGGTCTAGTGAAAAAGACTGGCAATCAAATAATCAACAAGAAACATAAAACTGCCACTAGGATAAAAGCTG
Celera SNP ID:            hCV608129
SNP Position Genomic:     86610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29103):
GGTTTTGAACCTATTATTTGTGACTACTTTAAATGTCCAATCTGCTGTTTTCAACATCTAGATTAGCTCAGTATTTGTTTCTATTTCATGTTGACTACAG
R
GCACATTTTTCTGTTTCTTCATATATCAATTAATTTTTTATTGAAAGCTAGAAATTATGTATTATGTGTTATAGGAAATCTTTATCATGTCATCTTCCTT
Celera SNP ID:            hCV608057
SNP Position Genomic:     28005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29104):
ATTTTGTTCCATTTTGTAGATTTTATTTGCCAGTAGAGAAAGTCTATATAAGTTGTTCTGTCATGCCCATATCTACTTTTGCATTGCTTCCAAAATGATC
W
GAATGAAACAAAAATCTATGATATCATTGCTCACTTTAACACTTACTATTGTCATCCATTGCCTATATAATGACATTCAAACTCCTAAATATGAGACTCA
Celera SNP ID:            hCV608058
SNP Position Genomic:     29209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29105):
TTGTGTATTTTCTTCACAGGACTCTTTTAAAGATACCTGCCAATTTCGTCTATTCAGTTGAAGTGTCTATTCAGTTAAAATTTGATATTAAAATTTATAA
W
CCCACTTACTTTGGCTCACATAAGCTACAGCACATCCCCAATAACTAAAAGCTAAGAAAAAAAAAAGAGTGAGAGGCAGCTCTCAGTCCTTTCCCATGTA
Celera SNP ID:            hCV608059
SNP Position Genomic:     31816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29106):
GTGTGATTATGTGTGAGTGCCTGTATGTGTTTGTGTACATAGAAAAAAGTACAACTCTTTTTTTAAAAAAAAAAAAAACTCCTTCCTCTCATGATATTCC
R
AATACTTTGTCAACATTTTATTAAGTCCGTTGCTTCTAAGCCCCACATTAAGTGTGTGTGGGTAGGGAGAGGAAAAACAAGAGATGAATTTTCACAATTA
Celera SNP ID:            hCV8909327
SNP Position Genomic:     311021
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29107):
GAGTAGTGTTGATGCCTTTTACATTGTTGTGCTTCTCTTGCTATTCAGCAATGCCCATTTTGATGTACCTGTATATTAGCATATATAAATTGAACTTAGT
Y
TAAAAATATTAATTGCTTGTTTTAGGGCAAATGCTATGTTGGTACAAAGGATCTACGTTGAAAAATATATCTGTTCTGTCATCATTGAACTTGAAAGCTT
Celera SNP ID:            hCV2168270
SNP Position Genomic:     185037
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29108):
TACACACCCATTGACAAATATGGTAAGTAGGCAGATTCTTTAGGTTTGTTAAGAAAACTACCCCTAGGAAGGTGATGTCTATTTGACAAAAAGGGAGAAA
R
CATTGCATATTGTAATATCCAAAATGACAGATGCTTTAAAAATATAAAAGTATAAAATTTGATTTTATATGTCTTTTATAACTCATTTACCTTTAAGGTT
Celera SNP ID:            hCV8909328
SNP Position Genomic:     310770
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,37|G,1)   total(A,71|G,5)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29109):
TATTTATATTATTACTAAGATAATAATGTTCTTGTTTTAGTTCTTTTTAGTAAGGATTACAAGCACAAACTGGAAATTATTTATGTTCTTTTCCTATTTT
N
CAGGTAAATAAACTGAGGCTCAGAAAGGATGGCATACCCAAGGTTATACCGCTAGAAATTGTAACCTATGCTTAAGAGCCAGGACTCACACTTGGATATG
Celera SNP ID:            hCV8909329
SNP Position Genomic:     310337
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|C,-|G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29110):
CGATGCAGAAATAAAATAGTGGCTATAAAACGGTAAGCAAGCAAATGAAAAAATTTAACATCCAGGTGGAATTGTGACCTTTGAGAAGCATGTGCATGGC
M
AGCCCCTTGTTTGGATCCATCTGTTTACTGAAGATTTTCTGTTGCTGCCATTTCCAGTTATCGAGCCAATACCTACTGCTCCAAGTCAGATGTGGATATG
Celera SNP ID:            hCV25601028
SNP Position Genomic:     139802
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,38)   total(A,75|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:29111):
TCCAGCCAAGAGAAGGGAAGTGAGAATTTGAATAAGACAGAAGTCTCTTGAGGTTTCAAAATTTTAACTGTGATCTTTTACCTTGGTTTTAAGATATTTC
M
TTTGACGTGATTTATTTTCTCTTTCCCTCAGAATCAAGATTTCTACAGTCTCTGGATGAAGACAACATGACAAAACAACCTGGGGTTTGCTGCTGCTTGT
Celera SNP ID:            hCV25601029
SNP Position Genomic:     206890
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,40)   total(A,1|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:29112):
TGCCCGAATCTGATCCCCAGAAATTATGATTTTATTGGCCTAAGACTGATCTTGAGTTCCTGCATCTTTTAAAAATTCCCCCACATAATTCTAAAAAGCA
R
TTAGTTGAGACTCTCCAACTAAATAAGCTTTTGTTGAATGTAATTAAATTGAATTTAACCAACAGCAAATAATATTAACTCTCTTATTCTAGCCGCATAG
Celera SNP ID:            hCV2168274
SNP Position Genomic:     208362
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29113):
TAACAGATGGATTGCTACATGTTATAATAAGAGTTTTTCCAAGGTGTCTGTACCATTATGAATTTCCAACAGTAGTCGGTGAGAATTTCAGTTGTTTCAC
R
TCCTTGCCAGCACTTTGAGTTGTTTATTTTTAAATATATATGTATATATTAGGCATTTGAGTGGGGGTACATGGAACATCATTGTGATATTTACATTTCA
Celera SNP ID:            hCV8363357
SNP Position Genomic:     212080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29114):
CAATGCATAATCTGCTATAAAAATGTAGACTCTTTGGAATGTGGAAGCTCATGCAGAAGAATTGCATATGAGCACCATAATAAGAATAAAGATATTATTG
R
AAAGCTGTAACTATGCATGGTTTCAAAATAAGGTGGACATTTCAAAAGAATTAGCAACCAACACTACACACAAGATTTTGGTAAGAGTGATAAAAGAATA
Celera SNP ID:            hCV8363358
SNP Position Genomic:     208794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29115):
AACTGATCTTCAGCTGATGGGTCTTTTTGACAAGTTTAGAGGGTTTGTCTAAAGTAGGAATTCTTTATACATTCAACATTAGATAAAGTATAAACATGAT
Y
ACATTTTATAAATAGCTGTTTTGAATCAGCAAAACTAAAAAATTTTGATTTAGCCCTTTGGGGCCCATTTATTCTCTAGGGCAAACAAATGATGTCTATG
Celera SNP ID:            hCV8363359
SNP Position Genomic:     206345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29116):
TTGCATCTATACATGATAAGAACCTAAATATATTATTAGAATTTTTGTGTTAAACATTTATATCTTTTAAAGAAATTAATAAGAGAGAAAATATGCTTTT
Y
GGAAGTTTGATTATAATAATCCTACATATGGTTTTCTGTATTTAAAACTCTTTGAGATTCACTGAGTTTTTATATCTGTAAATTTATGGTTTCATCAAAT
Celera SNP ID:            hCV16212568
SNP Position Genomic:     27481
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29117):
ATACTGCTACTGTCTCTTCTATTATTGCCCCTGTTATCTTTGCCCCAATTTTTAAATCTTTGCCTTCCTTGTTTCATCAATGCGGCCACCTGAGCTCCCA
Y
GGAAAGGCTCAGTTCTGTTTTAGAACCAATCTGTACCTAGGCAGACAGTATTCAAACAGCCTCAGTCACTTTTTAATCCAGTCTTTTTCAATGAAATTGA
Celera SNP ID:            hCV27511776
SNP Position Genomic:     83447
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,18|T,727)   total(C,18|T,727) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29118):
TAGTTTTCTCAGGGAGGCCCTTCCAGACCATCCTAGCTCTGATACTGTCTAATTGCTTCCCTCTTTTATTATTTTTTTTTTAATTTTTATTTATTTATTT
W
TTTATTTTTGAGACGGAGTCTCTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAGCTCCACCTCCTGGGTTCCCGCCATTCT
Celera SNP ID:            hCV26786420
SNP Position Genomic:     87172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29119):
CCGATATTCTGTAGAGCCCAAGAGAGGGAACCTTTAAGAATATTACCTCAGGGAAGCTGACAGGAGAAAGTTCATTGTTTATATATATATATATATATAT
A
TGTATATATATGGATTTCAAGTTCTAAAGTTGGCCATTTAAAAGACTTATTCACAGTATTCCCCATATATATATAAATATATATATATTTAACTTTTATT
Celera SNP ID:            hCV26786421
SNP Position Genomic:     84563
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29120):
ACCGATATTCTGTAGAGCCCAAGAGAGGGAACCTTTAAGAATATTACCTCAGGGAAGCTGACAGGAGAAAGTTCATTGTTTATATATATATATATATATA
T
ATGTATATATATGGATTTCAAGTTCTAAAGTTGGCCATTTAAAAGACTTATTCACAGTATTCCCCATATATATATAAATATATATATATTTAACTTTTAT
Celera SNP ID:            hCV26786422
SNP Position Genomic:     84562
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29121):
CTGCCTTGGGACCTTTGACCTGCTTTTCTCTACCCGGACTTTTCTTCTTTCTCAGTTACTGAATGTCTTACTCCCTTACCTTCATACAGTTCTGGTTCAA
R
TGTAGTTTTCTCAGGGAGGCCCTTCCAGACCATCCTAGCTCTGATACTGTCTAATTGCTTCCCTCTTTTATTATTTTTTTTTTAATTTTTATTTATTTAT
Celera SNP ID:            hCV608130
SNP Position Genomic:     87069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29122):
CCTCTGATAAGACTGAAGTCTTAACCGATATTCTGTAGAGCCCAAGAGAGGGAACCTTTAAGAATATTACCTCAGGGAAGCTGACAGGAGAAAGTTCATT
R
TTTATATATATATATATATATATATGTATATATATGGATTTCAAGTTCTAAAGTTGGCCATTTAAAAGACTTATTCACAGTATTCCCCATATATATATAA
Celera SNP ID:            hCV26786423
SNP Position Genomic:     84539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29123):
GCACTTTGGGAGGCCGAGGTCAGGAGATCAAGACCATCCTGGCCAACATGGTGAAACCCAGTCTCTACTAAAAATTCAAAAATTAGCTGGCCTTGGTAGC
R
CATGCCTGTAATCCCAGCTACTCGGAAGGTTGAGGCCGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCC
Celera SNP ID:            hCV26786424
SNP Position Genomic:     78324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29124):
CTTTTATTTTTCTCCAGCACTGATCATTATATAACACAGTCTATCTTTTATTTCCTTTTCTTTACTGCCTGTCTTCTGGCTAAGATATAAGCTCAACAAA
S
ACACATAACTTTGTTTTTGTTTTTCGTTTCATTATTCTCAGTTCCTAACACAGCATCTGCCTGCCACATAGGCAACACAATATTTGCTGAAAGTATATAT
Celera SNP ID:            hCV608132
SNP Position Genomic:     87576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29125):
CACTTGTTAATTTTTGTTTTTGTTCCATTTGCCTTTGAGGTCTTAATCATAAATTATTTGCCTAGGTCAATTCCAGAAGAGTTTTTAACCAGGTCTTCTC
R
TAGGGCTTTTATAGTTTAAGGTCTTACACTTGTCTTTAACCCATCTTGAATTAAGTTTTGTATGCAGTGAGAGGTAAACGTCCAGTTTTATTCTTCTGAA
Celera SNP ID:            hCV26786425
SNP Position Genomic:     77465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29126):
TTTATATATAAATGTATATAAGCAGATTTTCTAATTCTTTTTGTACCCTAATGAATTTTATTACAAGATTCCTGTCACATTTATATCCCTCTATAGGGCA
Y
ACTTCTTTAGGTGGTATCTAAATTGTATTCCTAAAATGAAACACAAGACTTTGGGGAAAAAATTGAGACCTCTGATATAGTTTAGAAGATCTTAATTGAG
Celera SNP ID:            hCV608060
SNP Position Genomic:     32134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29127):
TGAGATTGTCTCAGGTAAGAGTAATCCAGTCCCTGTTACTCCATATTGGATGCATGAAGAAATCCCTAAGGAGCTATTTTAAAATGTAGATTTGTGGTAT
Y
GAGAGATTCTGATTCAGTAATTCTGGAGGGGATATCTGTAATAAATTCTTTTTAAAAGCCTCAGTGTGACTCTTAGGTTACCAGGATATTTAATCACTTG
Celera SNP ID:            hCV608133
SNP Position Genomic:     88778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29128):
AGAAGCTCTTTAGTTTGATTAAGTCCCACTTGTTAATTTTTGTTTTTGTTCCATTTGCCTTTGAGGTCTTAATCATAAATTATTTGCCTAGGTCAATTCC
M
GAAGAGTTTTTAACCAGGTCTTCTCGTAGGGCTTTTATAGTTTAAGGTCTTACACTTGTCTTTAACCCATCTTGAATTAAGTTTTGTATGCAGTGAGAGG
Celera SNP ID:            hCV26786426
SNP Position Genomic:     77439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29129):
TCCCAAGTTTGGGTTAGGTATTGCTTCATTGTACTCTCTTAGCTCCTAGTACTTACTATGCTGTGTATGCTACTGTATATTATTACTTAGTTAAATCTTT
M
TATCTTCCTCTATATTAGCGGTCACAATCTCACATATTTTAAGGATGACATAAATAAATGAAAGACAGACAATGATAAATGGGAAGTAAAACTCAAGACT
Celera SNP ID:            hCV608061
SNP Position Genomic:     33565
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29130):
GCCCCCTACTATTAGGTGCCACCTAGCTCTACTCTGTCATAGTACTCAGGTTGAGTTCTGAGTTCATTGAATAAAAGTGTGAAAATATTTGAAACTTTTG
S
AAAACTTGGCTCCAAGAGCAATGGTTTTTGACCATAGCATAGCATAGCAGTTTAGTCATATGAGCTCTGGAGCAAGCCTGCATAGTGTGTTTGTATACAG
Celera SNP ID:            hCV608134
SNP Position Genomic:     90352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29131):
TTGACTTTTTAATAATAGCCATTCTGACTGGTGTCAGATGGCATCTCATGGTGGCTTTAATTTGCATTTCTCTGATGATTAGTAATGTTAGGCATTTTTT
Y
ATGTTTCTTGGCCACTTGTATGTCTTCTTTTAAGAAGTGTCTCTTCATGTGCTTTGCCTACTTTTTAATGGGGTTATTTTCTTGTTGGTGGTGATTTAAG
Celera SNP ID:            hCV26786427
SNP Position Genomic:     77140
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29132):
AGCAGTTATTTTCATACTGATTAATGGATACTTTCACTGGGGATGTCTATGATGCACGAGGCAGCTCTAGTCCATTAAATTTTAATGCCTAGAACTAAGT
R
CATTTCATACTGAAGCCCTGAATAGTTCCTTGTCCTAAAGGAAAACTTAATAATATTCTTCAAAGCCTCCAAAATTACTTTTCTAAAAAAACCTTTTTCT
Celera SNP ID:            hCV608062
SNP Position Genomic:     34998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29133):
TTTCCTAGCCATGTGTTGGGTTATAGAAGTCTGGGTTTGAGTCCCATCTGCAATTATATCTTGTTCATTTCTGTTTCTGAAGCCAAAACTACTTGGGCGC
R
TGTGATATTGTGCTTCTTTTTATTTTTATTGTAGGCTTCTATTATTTAGCCACCCTGTATTTACCTTAACATGGTTTAATATAACCAACGGAATGGTTGA
Celera SNP ID:            hCV608135
SNP Position Genomic:     90562
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29134):
AGAATGACCCAGACAATCCTAGAAAAGGTAAAAACAGAAAAAAGATCAATAGCTATCACATCAAATAGTTACATGGAGAGTAGGAATAACTGAAGAATTT
C
AACTTTATAGATTAGTCACAAGTCCCCTAAAAAAGACTTGATTGCAGAGAATTGATCCATTGTGTCCTGGGAGATATGGCTTCTCAGTGACCCTAATGTA
Celera SNP ID:            hCV26786428
SNP Position Genomic:     72030
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29135):
TTCATACTGATTAATGGATACTTTCACTGGGGATGTCTATGATGCACGAGGCAGCTCTAGTCCATTAAATTTTAATGCCTAGAACTAAGTACATTTCATA
Y
TGAAGCCCTGAATAGTTCCTTGTCCTAAAGGAAAACTTAATAATATTCTTCAAAGCCTCCAAAATTACTTTTCTAAAAAAACCTTTTTCTTTATAAAAAC
Celera SNP ID:            hCV608063
SNP Position Genomic:     35008
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29136):
ATGCTAAATTTATATAACTGATGAAATTATTTTATATACATAAGTTAGTGTGTGTCTCTAAGTTTTATTTCCATGACTTTTTAGAGCTTCCTTTTAATTT
M
TTTTATGATATTATCTTGTGGAATCATCTTCTGTGTAATTTTAAGATCCAATTTAATTTTAACCTGTGATAATAAGAGAAAGATCACATAAAAAGACCTC
Celera SNP ID:            hCV608136
SNP Position Genomic:     92152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   JBIC-allele(A,156|C,1344)   total(A,156|C,1344)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29137):
GAGGAAACCAGGATGAGGGCTCTCACCAGAACCTATCCATGCTTGGCATCTTGTCCAGTGTGTGTGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
K
ATAAATATAATATTTTCTTTATCCATTCACCTGTCAATGGACATTTCAGTTGTTTCCATATCTTGACTACTGTGAATAATGTGCAATGAGCATGGGGGAT
Celera SNP ID:            hCV26786429
SNP Position Genomic:     68045
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,3|T,3)   total(G,3|T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29138):
CAGAAGACCTGATTTCAAATCCCAGTTCAGCCTCAGTTTAAAGTTACATTAAAGAAACACATTTTATGCTATGGAATGCCAATTGGGTTCTCTAAAAAGC
R
TTCTCTGAAAAGAATGTAGGAGTACAAGAGGTTTATTTAAAGGTGACACCTGTGAAAGGAAAAGGAATGAAACAGAATTGGTTATGAGGTGCCATCAGAT
Celera SNP ID:            hCV608064
SNP Position Genomic:     35784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29139):
TAGTCATTACAAAAATATTCAACCAATGTTATAACTGAAAAACTCTGTAATCACATGACATAGAGAAATCTCAGCTAACGTTTGTAATGGTTGTCAAGGA
R
TGGAGATTATATAAATATATAAATTAAAAATAGAAAAGCCTATAGAAATTAGAGCATAGAGTCAAAAAAGGGCGTGGTAACTCTAAAGCAAATGTTACCA
Celera SNP ID:            hCV608137
SNP Position Genomic:     92435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29140):
ATGAAACAGAATTGGTTATGAGGTGCCATCAGATCCCAATACAGAGCTGCTAAAATCTCCGCCAGCCCATTGAGGAGCTCCAGAGGAAAAATTGCCTATG
R
AAGGAGTGCCACACGGGCTAGAAATGTCGAGGCCCTTCTTTTACCACCACCTTACTCAGTCATTGACTGGGAGTAAGGTCCACCCTGAGAAGAGACTGAA
Celera SNP ID:            hCV608065
SNP Position Genomic:     35951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29141):
AATTATAAGAATCCACTACAGGCTAAAAAGCATCCATGAGAATGGGCAATTAGGGGGCCTTTGATGTCATTTTCCAGAGAAATATCCCTGGAGTGGTGAG
K
TCTAAAGACAGATTGTAGTGGGCTGAGGAGTGAATAGGAGGTGAGGAAAGGTAGAGGAAAGTTGGAGATGACTCTTTAAAAAATTGTCTACGAAGTTTAG
Celera SNP ID:            hCV608138
SNP Position Genomic:     96121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29142):
CTGGATGAAGACAACATGACAAAACAACCTGGGGTTTGCTGCTGCTTGTGTTTCCTATAATTATAAACCAATTAAAATATGTAAACTCAGCATGAGAGGA
Y
GTAAGATGAGAGCAGTTTTAATTGGAAGAAATGTCATTGTCTCAGTGTTGGGATAATGGCTTATGTCTTTATTTTTAGTAAGCTGTCAAAATAACTATCT
Celera SNP ID:            hCV25601030
SNP Position Genomic:     207042
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,38)   total(C,73|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:29143):
GTTATTGAATTATTTATTCATTTTCTTTGTTTTTTACATTTTCTTCTCTGAGGTATTCTGGTTGTCTGTTGAGGCATAACAAACTATCCCAAACTTGGTC
Y
TCTAATGCAACTATTTTATTATTCTCATGGATTCTTAGTTCAAAAATTCAGACAGGATGCCGTGTGGATGGCTTGATTCTGTCCCACAATATTTAGAGCC
Celera SNP ID:            hCV608066
SNP Position Genomic:     36650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29144):
GAGTATATATAATATATATCTCAGTAGTAGTTTTTTAATATATATATATCAGTGGTATTATTATATATTACTATTATATTAATAGTATTATTATATGTCA
R
ATATGTCTTTTTATATATCAGTACTATTATTAAATATAATCATATATTTATATAAATATATATTCTATACATTTAATAATATTAAACACATATTTAATAA
Celera SNP ID:            hCV608139
SNP Position Genomic:     98108
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29145):
ACAACATGACAAAACAACCTGGGGTTTGCTGCTGCTTGTGTTTCCTATAATTATAAACCAATTAAAATATGTAAACTCAGCATGAGAGGACGTAAGATGA
R
AGCAGTTTTAATTGGAAGAAATGTCATTGTCTCAGTGTTGGGATAATGGCTTATGTCTTTATTTTTAGTAAGCTGTCAAAATAACTATCTCAAGGCTCTA
Celera SNP ID:            hCV25601031
SNP Position Genomic:     207052
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,2|G,32)   total(A,2|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:29146):
ACAGAAAGGAAGCTGTGTGGTCTTCTATGTCCTAGCCTTAGAAAAGAAACACTCTGCTCCACGCTATTGATCACAATCCACCCAGGTTCAAGGGGAAGGG
R
CATAGATAGCAAATATCTGTGGGTTGAGTATAGATGAATGCTCACCATGTTTTAAAACCACCAGAAGGTATATTTTGTCCATAATCAGAAGAAAGTACAT
Celera SNP ID:            hCV608067
SNP Position Genomic:     37094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29147):
AGTTGCAGTTACTACCATTACAAAATATTTTTATCCATTTACATACATTTTGGGAGATCTATTCTACCTCAAATTCTATTTCTCAAGGATATAGCTGGAG
Y
GCTTTTTTGTCTAAGCCTCATTCTTCCACACATGGATTTTCTTCTGCTTAAAAATAATAAATATGACACACACAAATACATTACAAAGAGCTTATTTATC
Celera SNP ID:            hCV608068
SNP Position Genomic:     37511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29148):
GATAGAGTTCTAAAGAAGTTAGGTATATTAATAAGGGAAATTGTATTTTGAAAAATGTCTTGAGTGATATTCTATTGCCATATTTATTGTTGATTGAGAA
M
ACATTATGTCCCATTTAAGCCAATACTTTGTCTTCTTCTTAAGTATTGCTTTCTTCTAAAAAACAACATCTCTACTCTATAGCTTAAGGAAGTGAGGCCA
Celera SNP ID:            hCV8909335
SNP Position Genomic:     307734
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29149):
AAATAGAGGTCCTGATGAATCTTCTAAATCCGGGCATCTGTGAAATGCTTGCTGAAGTCTGGATGCACATGGGTGGAAACAGCTAGTTCCATTGATCAGG
K
TCTGGTTTCTTCTGTTTTGTTTGACCTGGCATGGGTAGCTTCCATCTGTCTGTCATCCTAGAACAGCATCTGGAGCCAGCCTATGTGGTATCTCTTGGGC
Celera SNP ID:            hCV8909336
SNP Position Genomic:     307361
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|G,10)      total(G,10|T,6) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29150):
AGAAAACAAAGTCTTAGATTATTGATTTGTCAAGTGGAGATAAGTGCACACTATCGAATTGAGTAATACCTAAAAAGCATAATGGACACATTAGAATAGA
T
AAGAAAATAGAATTGTTAGGACATGGTGACATTTTATGAAGGAGCTGAGAAAGAGGGAGGAATCAAGAACAGCCCCCAGTTTTTATCTGGGTAACTAAAT
Celera SNP ID:            hCV11286958
SNP Position Genomic:     194528
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29151):
AAAAGTTATACGTATGAGGCACAAGGTGATGTGACATATGTATACATTGTGAAATGATTACCATAATCAGGCTAATTAACATATCTATCCACCTCATATG
R
CTACCTTTTTGTGTGTGTTGTGAGAACATTTAAGATCTACTCTGACACTCTTCTTAATCTAACTTGAATTCTTGGTTGAAGGGGGACTTTGGTGACCTTT
Celera SNP ID:            hCV8363363
SNP Position Genomic:     205861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29152):
TCAAGTTCCACAGACTCCCAACTAAGCCACTAGTTTATTCACAAAAGTTGCCAGGTTTTCTGGTTATATGGCTCTTTCTCACTGTGTATATTATTGCTCT
K
TAGTTAGAAGACAAAGCTAGAGTTTTGGAGGTTATCTTTGTTTTTGTTGTTGTTGTTGTCTTTTAGTCTCTAATATTTAAACTGCTCCCAGATAGGCTCC
Celera SNP ID:            hCV8363364
SNP Position Genomic:     204338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29153):
CATACTTGGTTTTTGTAGTCATGTGCAGTTCCACAATGCCAAAACTTGATATACCTTCATTTTAAACAGTTAAGTTTCTAAAAGTAAACCTTTCTTTTAC
W
CATAGTCTTAAATATCTAAGACTCAATTTAAGAACACTGCATATTCTGTGGCATTCGAAAATGGTTTCCTCGGGAGTTGAAACCATAAACTCTATACCCC
Celera SNP ID:            hCV16212575
SNP Position Genomic:     53759
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,10)      total(A,10|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29154):
TTTTTAATATATATATATCAGTGGTATTATTATATATTACTATTATATTAATAGTATTATTATATGTCAAATATGTCTTTTTATATATCAGTACTATTAT
W
AAATATAATCATATATTTATATAAATATATATTCTATACATTTAATAATATTAAACACATATTTAATAATAATATTAAGATGTATATTTATGTCAGTTAT
Celera SNP ID:            hCV16213378
SNP Position Genomic:     98139
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,7)   total(A,3|-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29155):
CAAAGAGAAAAAGTGACCCATAATTCTGGAGTCACATCTCCTGGTTTCATTCTCATTCTGGATCATAGCCCCTTAATTCTTCACTGTATTTAGCTGTTTT
Y
GAACCTTCAAAAAATATTTTATACAGTTCCTCTCAGAAGTAGTTTTCATCTGTTATTATCAATAGTAAAAATCTCACGGTACATCCTCTTTAAGTGATTT
Celera SNP ID:            hCV1079100
SNP Position Genomic:     173716
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29156):
AGCTTAGGTATCTCAGTGTGATTGATCAAAGAATATAGATATGAGTCTAAAAAAACCATGAGGCTGAAGTATGTGCCAAAATACGCAGGGTGGTTTAAAC
Y
AAGCAAATGAGTTTTGGAACTATGAGGAGTCATTAATTTTAAGCAGGTAAATAATATGACCCTCTTTACATTTTTAGAATTGAAAAGTGGTAAATAAACT
Celera SNP ID:            hCV1079101
SNP Position Genomic:     175819
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,14)      total(C,14|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29157):
TGAGGCATTCAAAATATCTCGCTGTGTTACCATACCGCAGTTGCTTAACCTTTCTTTGATTACATTTCTTCATATGGTTTAACTGTTTAGTCACACATCA
Y
ATATTCTCCTTACACATTCTCATAAGATTTTCTAAGCACTATCAGAGTTATTCATCCTTTCATGCTTCAGCTTATCTCCTCCTTCTTCATATGTAAAATT
Celera SNP ID:            hCV1079102
SNP Position Genomic:     194158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29158):
TGTGCAAATAGATGCCCTGTAGTTAGTGCCTTTAGCATCTGTATCTCCACATTTCACATAGGCTGTAGACATGCTTAGATCCTCAGTTCAGGGAAAAAAG
R
GTAAGTAATATAGGAAAAAGAATAGTTGTTAGTCAAATGATTCATTAGGTGGCCTTGGGAGGAAAAACAGCTCTTCCTTTATAGAATAAGGGATCATTTA
Celera SNP ID:            hCV1079103
SNP Position Genomic:     197366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29159):
CTTCAATCCCACTGGCAGTGGGACAAATCCACTAGCTTTAGAGGTAAGCCTTCAAATATACTTCTACTGACAGGTTGAAGTTTGTTTTAGGAAAAATCAA
R
GTTCTACAATCCTTTGCATTTATTGGAGTTTTCAGTTTCCATGGTTTCCAAGAGTTCACTGAAATTAGGCTTTCCATGTTTAGAAGTCATGATAGGGGCT
Celera SNP ID:            hCV1079104
SNP Position Genomic:     198558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29160):
AACTAATGACTTTCACAGTGTGATGAGATTGAAAATGAAGCCTAATTGCTTCCACTGATTTAACCCTTGGAATGCTTCCAGGCATGCTCACAGCCATGTG
W
CTTTAATCATGTGAGTTAATCACCTTCAGGGATACATCAGAAAACAGTGGCTTATAGGAAGCCTGGGAAGCATTGCAGTTGTGTTATTAAGCCTGCACTT
Celera SNP ID:            hCV1079105
SNP Position Genomic:     200282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29161):
GATACATCAGAAAACAGTGGCTTATAGGAAGCCTGGGAAGCATTGCAGTTGTGTTATTAAGCCTGCACTTCTGGGGGCTGTCATCTCTTCAAATAAGGAC
R
CTGAGAGGTTGGCCGTGGTGCCCTTACACTAGTTTTTGTTAGTAACAACTGACATAGGCAATTACAGAAAAAATGAATTAATATTTATGAATTTTTAAGT
Celera SNP ID:            hCV1079106
SNP Position Genomic:     200413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29162):
TCCCTGATTTTAAAGGCTTTGACTCTGGGTGTGATGCCCACTGAAGCTGTCACTGTGACTGATTAGCACAGGTTCTGCCAGCTTCAACCCTGCCTGCCCC
Y
CTTCATGAACTTCACTCCATATAGGAAGCACGGCTTACTTCAAAATGGAAAAAATGTGTGAAAGAATCTTAGAGATGGTATTACAATTTAGTTTTCATTA
Celera SNP ID:            hCV1079107
SNP Position Genomic:     203826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29163):
CCAAGGCGGGCGGATCACAAGGTCAGAAGATCGAGACCATCCTGGCTAACACGTTGAAACCCCGGCACTACTAAAAATACAAAAAATTAGCCGGGCGAGG
Y
GGCGGGCGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCGGAGATCGCGCCACTGTG
Celera SNP ID:            hCV26786430
SNP Position Genomic:     66632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29164):
ATTATTACTGAGTGGTTAGAGAAGGAGTGGACAAATCCAAGACTATCTTGAAGTGAATAGAAACTTTCACTTTATTCTAGCACTTGCTAAGTTGCTCTCA
K
TCTGCAAAGTCACTTTCACAGCATCCTTTTGACATTTAGACCCATTATTGCTATGAACTCTCATTGTCCTGTGTTCCTAAACTGTCACTGCATCCTTTGT
Celera SNP ID:            hCV1079108
SNP Position Genomic:     204023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29165):
AAAGAAAATGTGGGTATAGAATACTATACATATCATATATGTGAATATTATTTATCTTAAAATGAAGAAAATTCTCTCATTTGCAGCAACATGAATGAAC
Y
GGGAGGACATTATGCCAAGTGAAATAAGCTAGGCACAGAAAGACAAATGCTTCATGATCTCACTTACATGTAAAATCTTAAAGCCTTAAAATTACAGAAG
Celera SNP ID:            hCV26786431
SNP Position Genomic:     59098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29166):
CATTGTTAAGGTTAAAAGAACATTATTGTGGAGTAATCTGTGAAAGACAGACACTTCAAAGAGATAAATACTCACTTCTGTTACATAAACAATTAACTCA
A
GTCATTTGCTTCATGGTAAAAGACAAAGCTAGAGCCAAATCCAAATACTGTGGTATCAGTGCAGTCAGGGGAACAAAGATTCCTTTAAGTGAAACACCGT
Celera SNP ID:            hCV26786432
SNP Position Genomic:     201174
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29167):
GCATTGTTAAGGTTAAAAGAACATTATTGTGGAGTAATCTGTGAAAGACAGACACTTCAAAGAGATAAATACTCACTTCTGTTACATAAACAATTAACTC
A
AGTCATTTGCTTCATGGTAAAAGACAAAGCTAGAGCCAAATCCAAATACTGTGGTATCAGTGCAGTCAGGGGAACAAAGATTCCTTTAAGTGAAACACCG
Celera SNP ID:            hCV26786433
SNP Position Genomic:     201173
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29168):
TGGAAAGAGTGTGAAGTTGATTTACCAACTTTTTCAGGTTCTGAAGCAGATGAATCATGAGTAAAATAACTTGATAGGTATATATTGAAGCCTAAATGTT
K
GTATGAGTGTACTTGTCTTAGTCCACGTGACGGACAATATACCATATTCCCGTTAGAATGCTGGGAGATACTCTCCCCATCATTACTCCAAAGGTCATAC
Celera SNP ID:            hCV608140
SNP Position Genomic:     98852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29169):
ATGCATTGTTAAGGTTAAAAGAACATTATTGTGGAGTAATCTGTGAAAGACAGACACTTCAAAGAGATAAATACTCACTTCTGTTACATAAACAATTAAC
T
CAAGTCATTTGCTTCATGGTAAAAGACAAAGCTAGAGCCAAATCCAAATACTGTGGTATCAGTGCAGTCAGGGGAACAAAGATTCCTTTAAGTGAAACAC
Celera SNP ID:            hCV26786434
SNP Position Genomic:     201171
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29170):
TAGAAGAAAACATAGAGAAAAGCCTTTTTGAAATTGGTTTGGGCAATGATTTCTTGGCTATGACCTCAAAAACACAAGAAACAAAGCAAAAAGAGATTAA
Y
AGGATTGCATCAAACTAAAAAGCATTGGCATAGCAAAAGAAACAATCAACAGAATAAAGAGACAACTTATGAAATGGGAGGAAATATTTGCAAACCATAC
Celera SNP ID:            hCV26786435
SNP Position Genomic:     58346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29171):
TAGGTAGGAAGATTGCTTATTTCATTGATGTGCTGCTCAGAGTGCACTGGAGTGCAATGAAGAGCTGGGCACTGAAAATACTTTTAGAAGTACAGGCCCA
R
AAGCACAAGTAATGGAAAAATCCCATCATTTCCTAACCTCAGGCACAGACAGGATATATACAATGCATATTATTTGTAGAGTCATCCTCTTTGACGATTA
Celera SNP ID:            hCV608142
SNP Position Genomic:     103830
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29172):
CATGCATTGTTAAGGTTAAAAGAACATTATTGTGGAGTAATCTGTGAAAGACAGACACTTCAAAGAGATAAATACTCACTTCTGTTACATAAACAATTAA
C
TCAAGTCATTTGCTTCATGGTAAAAGACAAAGCTAGAGCCAAATCCAAATACTGTGGTATCAGTGCAGTCAGGGGAACAAAGATTCCTTTAAGTGAAACA
Celera SNP ID:            hCV26786436
SNP Position Genomic:     201170
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29173):
TAAAGAGCCTGTATGCATGTTGGGTGGAGAACTAAATTTGTTTACTTTCCCTGAAAATATAGTCACAGTCTTATAAAATTATGCTAAAATGTGGATGGCC
Y
TTTTATGATAAGGGACTCACTTTCTGTGTGTGAAGGCAGCACATAAGTAATTTATGGAGGCTATTGTCATTTGCTAAAATATGCTGACAAGGAGAATGGT
Celera SNP ID:            hCV608143
SNP Position Genomic:     104053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29174):
TAAAGGGTATATTGAAAAGAGAAATGCATAATCAAAACTGGGTGTAGGAAAATGTATCTAATTGTATGCAGGATGGACTGCAATGGGAAAAAGTATTAGT
Y
GAGGAGACTAGTTAGGAAGCTGCGTAATACAGAGGATGATGCTAGAAATAAGAAGAAATGTGAGAAGTATAAGTCAGTTAAAACCAGTAGAATTCTGAAA
Celera SNP ID:            hCV608070
SNP Position Genomic:     40103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29175):
GCTCCAGGCTTGCCCCTACAAAAAAAGACATCAGATTGACCCCTGTGGACTTAGGCACTAGGCCCATGAACCCACTGACCTAGGCAGCAGGCCAGCCTGC
Y
TGAGGACTCCCGTGGCAAGCCCACTGCAAACCCCAATGGATAACCTGGTCAGAATCTCTGGACAAGCTGTCTGGTGAAGGGCTTTCCTTGCCAGTCTGTA
Celera SNP ID:            hCV26786437
SNP Position Genomic:     57287
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29176):
AAGGAATGTTAGATGACAAGTCAGCCTGGGAAAATTATAAACGATAATTATAAGAACAATTTCAAATTTTGCATTTGAGATGCCATTGATAGGCAAAATA
Y
ATGGGACTCAGACTTAGCAGAGAAGTCAGGACCAAAGATGCATTTATCAGATTGTATAATAATTACCAAAGTGGCATTTAGGAATGGGAAAGCAGCTTAG
Celera SNP ID:            hCV608071
SNP Position Genomic:     40359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29177):
GGCCCTCCCCAGTAGACCCAGGCTCCAGGCTTGCCCCTACAAAAAAAGACATCAGATTGACCCCTGTGGACTTAGGCACTAGGCCCATGAACCCACTGAC
Y
TAGGCAGCAGGCCAGCCTGCCTGAGGACTCCCGTGGCAAGCCCACTGCAAACCCCAATGGATAACCTGGTCAGAATCTCTGGACAAGCTGTCTGGTGAAG
Celera SNP ID:            hCV26786438
SNP Position Genomic:     57266
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29178):
TTTCAAATTTTGCATTTGAGATGCCATTGATAGGCAAAATATATGGGACTCAGACTTAGCAGAGAAGTCAGGACCAAAGATGCATTTATCAGATTGTATA
R
TAATTACCAAAGTGGCATTTAGGAATGGGAAAGCAGCTTAGGGCTACATTTCCAAATCATACACTTTTAGAAGACAGTCAGAAACAAAGAATAGGCAACA
Celera SNP ID:            hCV608072
SNP Position Genomic:     40418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29179):
CTCTGCCCTAAAGCAGATCTCAGGTTACTAACTAACCCATTTATGCCAGAGGTTGCACATTTTTTTGTGTGAAAAATCAGACCTTGGCGATGACCTTGAG
M
AGTAGGATATAAATAACTCCCACAAGCTTAGCGTTCCAATAATGGAACACTAGGCATAAATGGGCTAACTCCTTCAGCTCTGGGCTGAGTTTCTCACAAT
Celera SNP ID:            hCV26786439
SNP Position Genomic:     55390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29180):
TTCAGTGGGAAAAAAAAAACAAAACTTTTTTTTTAAAACGGAGAAAACATAAGTTTATAGTTCAAGCATATAGAGCCAATGAAAGAAGAAAGGTTGAAGA
Y
GCAATATTTATTTCACTTTCTTGGGAGAGCAGGTAGAAAAACGGGAAGATTTGGAGACTATAACATTAATTTTACTATTTGTAGCTCTTTACCAAAGTTT
Celera SNP ID:            hCV608073
SNP Position Genomic:     41057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29181):
TTTTTAGAATTTCTTGTAGGCCTTTATGCAGGTGTGACAGCATTAAGAAATCAAACTTTGCCTTTTAATGGTAAAATTTTCTTAACAAACAGTATTTGAT
R
TTATATGTATGTAAGTCATAAATGCACTGGCCTATCTTATGACTTGACTTTATTGCTACTTGGTGTGTTGATAGACCAAATATTATAGAAGTTGTGGTTT
Celera SNP ID:            hCV608074
SNP Position Genomic:     41264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29182):
GTATCTCCAAAGGCAGAAATACAATACAAATAATATTATAAAAAAGTAAGAATTACTTTAATTGTTGCACAAATTTTTCAAATTTGGAGGCTCAAATAAT
Y
GTTCTAACATATTCACTGGTAAAACGAGTCAAGTTAAGAAAGATATTATGAATTAATTGTGCCTAGATTTAATGATATTATTTATTAGGTAAGAAGAAAT
Celera SNP ID:            hCV608075
SNP Position Genomic:     41601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29183):
GTCTGAATAATATTCCTTGTGAATATGTACCACATTTTCTTTATCCATTTATCTACTGATGTACATTTAGGCTGGTTCAAAATCTTTACTATTGTTAATT
R
TGCTGCAGTAAACATGGGAGTGCAGCTATCTCTTAGATATACTGATTTCTTTTCTTTTGGATATATACCTGGCAGTGGGATTGCTGGATAATATGGTAGT
Celera SNP ID:            hCV8909414
SNP Position Genomic:     225025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29184):
ACCTACCTGTAAAACTGAGTTTGTGGTTGCAAGAGTCTCACCATAGGTAATGTCCTTTCTGTCTTTCTTGTTCAAGCGGTAGAGGATTGATTAGAACTGA
R
CACCTCTGTCATTTGGTCCTACTTTCCACCATCTGAGAACTATTCTCTGGTATCTAATGTGCTCTTATGCTAGAAATCACACTTAAGTTTCCTTTGAGCA
Celera SNP ID:            hCV608076
SNP Position Genomic:     41995
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,96|A,633)   total(G,96|A,633)   no_pop(A,-|G,-)   TSC_42_A(G,12|A,71)   TSC_42_C(G,16|A,67)   TSC_42_AA(G,29|A,54)   total(G,57|A,192)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29185):
TCTTCACTAATACACACACATATACGCACACAAACTGTGAACAAATAGAGCTGCATATAAAATTATACTTGAAGCCTGTAAAACAGAGGTGATCCATCTC
Y
CTTAACAGTGTCACTTCAAAGGGCTCTTACATTCAATACAAATTAAAATATCTCGTTGAGAGCAAAATAGTTTCCTTCATGTTGACATTTCCACTCCTTT
Celera SNP ID:            hCV608077
SNP Position Genomic:     43737
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   (C,-|T,-)   Caucasian(C,84)   African-American(C,84)   Asians(C,84)   total(C,252)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29186):
CCTGGGTTGCCCCAGGATTCAAAGAGGCATCACAGCACATCACACCAGAGTGGGGTAAGAACCCCCACATTACTGGCAAGAGAAGAGGTTTTCAATGAGA
R
CAAGGCACCCCAGCTACATAATATCATTTTGTTATTCAGGGTCTGACAGCAAAGAATACACAGAGGAGGAGAGGAAAGCTTTGGTGTTGTGTGATGAGGC
Celera SNP ID:            hCV8909343
SNP Position Genomic:     296294
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29187):
AGAAATGTCATTGTCTCAGTGTTGGGATAATGGCTTATGTCTTTATTTTTAGTAAGCTGTCAAAATAACTATCTCAAGGCTCTACTAGAGAAATAGATAA
K
ATATATATTTGGAAAACAGTATGGATAAAATAATACAGAATATGTTTCAAATATAACTGAAAAGAACGTTGTGGGCATGGATCTTTTCATATTTAGATCA
Celera SNP ID:            hCV25601041
SNP Position Genomic:     207169
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,40)   total(G,76|T,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29188):
CCATTTGGCAGTTGGGCTTATTTTTAGCCAGACTATCAAAGTATTTTTCAACTGGACTGTCACTGCACTTGAACTTGGAATCTTATAACTTGAAGAACTG
Y
CCTGGAGAAAGGAAGAAACTTATAATAAATGGGAAATTATAAATCTAGACCAACCCAAACTTGTACTGGTAATTATTCTAATTATTCTTATTTCCTTAAG
Celera SNP ID:            hCV25601042
SNP Position Genomic:     6036
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:29189):
CTTTATTCTCTTCTTATATGGGGGACTAATTAAATTATTGATCAAATAATAAAGAAAAGGGTATCCAAAACTATCTAAAATAATTATATTCAAAATGAAT
R
TTTTTGTTGGAGTATTTCTTTGAAAACTATTACCATTGACTTTTGACCAATGTGGGAGTTAGGAGCACTGATCCCCTGTACAGTTGAAAATCTATATATA
Celera SNP ID:            hCV608078
SNP Position Genomic:     44533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29190):
GCCAGTGGCTCTCAAAATTGAAAATGCACCAGAATCACCTGGAAGATTTTTTAAGGCAAAAACTGCTGGGCCCACTACCAGAGTTTCTGATTCAGCAGGT
S
TGATGTAGAGTGAAACATTTGAATTTCTAACCAGTTCCCAGGGGAGGCTGATGTCCCAGGCATCACACTTTGAGAACCACTGCTCTAGCTAGTACTTAAA
Celera SNP ID:            hCV8909344
SNP Position Genomic:     288242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29191):
TTAAACAGACTGATTAGTTCCCTTTATGATTTCACCCTCGAAAGCACACACGATTTTGTTCTTTATCATTGTTGCATGACATTCCATTTGGCAGTTGGGC
K
TATTTTTAGCCAGACTATCAAAGTATTTTTCAACTGGACTGTCACTGCACTTGAACTTGGAATCTTATAACTTGAAGAACTGCCCTGGAGAAAGGAAGAA
Celera SNP ID:            hCV25601043
SNP Position Genomic:     5953
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,35)   caucasian(T,40)   total(G,1|T,75)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:29192):
TATATACGAGGAATTTCAAGGCAATCTATATGAAGTCAAACTAGGGTTGTTTTCTGGGATCATAAAATAATAACATTACAATTTGTATTTGTAGTGAAGA
R
CTGCCTTCAAAGGGATTAATGGGGAAGTCTACATTTGAGGTTCTCTGGCCTTTGGTAAGGAGGGGAGTGCCCTGATAAAATAACGTCTAAAAAACAGACT
Celera SNP ID:            hCV8363371
SNP Position Genomic:     198890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29193):
TTTTCCTGCCTGTCCTTTGTTCTGGAAGACTTGTGTTTGCTCATCACATGTAAATGTCCAGTGCATTTCAGGGCTTTATGTACAGAGTAGGGATTGCATA
G
AGACTTTATAATTTTTAGTATATTCAAAACTGAATATTCAGAAAGGTGGCTAGGAAGCAGTATTTATGTAATAGTTAAAGAGCAAAAGTTGGAAACTTTT
Celera SNP ID:            hCV11286967
SNP Position Genomic:     197656
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,6)   total(G,6|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29194):
ATACCTCCTCTACAGAACCAAGGGTATATACGAGGAATTTCAAGGCAATCTATATGAAGTCAAACTAGGGTTGTTTTCTGGGATCATAAAATAATAACAT
Y
ACAATTTGTATTTGTAGTGAAGAACTGCCTTCAAAGGGATTAATGGGGAAGTCTACATTTGAGGTTCTCTGGCCTTTGGTAAGGAGGGGAGTGCCCTGAT
Celera SNP ID:            hCV11286969
SNP Position Genomic:     198866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29195):
CTAGGATTTAATTTTAACATGCAGAGATGGACAGTATTAACAGACCTTTTATGTCTGGATGTTGAATAGGTGCTCAGAAGGTCCCTGGCACATTGCCAGA
K
AGTTATTCTTGGATCTGGTTTCTTAAATGTAAGTGAGAAGAATCCGGTGACACTTCTGTGCAAATAGATGCCCTGTAGTTAGTGCCTTTAGCATCTGTAT
Celera SNP ID:            hCV8363376
SNP Position Genomic:     197209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29196):
CTGGGAGTAAGGAGGAGGACGTGGCTGCAGCCAGAGTAGGAGGTTGCTAAAGATTTGGGAGTTTTAAGATACCTATTAAATATTGTCTCACGTTGACTCA
R
TGACATCAGGCCACATAATTTTGTACTGTTTTTTCATCACATTCAATCCTTGTTTTTCTTTTTGAGATGGAGTCTCACTCTGTCTCCCAGGCTGGAGTGT
Celera SNP ID:            hCV8363377
SNP Position Genomic:     183036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29197):
GCTCTTAAGATAAAAACAAAACATCTTAAAACAATCTTCAAAGCCCCTTATGATTATGTCCCTGCCTGCCTCCCCGGCCTCCATCTCACCACATGCAGCC
Y
GTCATCCAGAGTCATCCCAACCACAGGAAACTTTCATATCCCCAGCATGTGTCCTCTCACCTCCATGCCTTTGTGCACATTAGTCTCTTTGTCAGAGACA
Celera SNP ID:            hCV1079114
SNP Position Genomic:     223173
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29198):
CAGAGACACTCTTCTCCACTTTTCATTACAGCAACTCCAATTTATTTTTAGGTCTTAGTCTAAATATAATTTCTTTCCAAAAATCTTTCTTAATTCTCCA
M
TATCAAGTGCAATTTCCTCCTTATCCCAAGTTACCATTTATCATTGCATTTATCACATTTTACTCACAGTTTTGTAATTTTCTCTACTTCATTAGACTTT
Celera SNP ID:            hCV1079115
SNP Position Genomic:     223366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29199):
CAGTGTGATGAATAAGAAATCACGTGCTCTGACTCACGCTCCAGCCAAACAGCGCTGAGCAGGAACGTAGGTATACCCACGCTGACCATATCAACTAATT
W
CTTTCTGCTCATTAATTAAGAAATCTATACATTTTTTAATGTTGGCAATTAATTCAGCATTTTAAAGAAAATATGTTTCAGGCTAACACCGTAGGGGCTA
Celera SNP ID:            hCV1079116
SNP Position Genomic:     224250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29200):
GAAGGCTGGGTGCGGTGGCTCACGCCTGTAATCCCACCACTTTGGGAGGCCGAGATGGGCTGTTCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACA
Y
GGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGT
Celera SNP ID:            hCV26786440
SNP Position Genomic:     50802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29201):
AAAGCTGAGATGAATTAATCCATCAATATGTATTGTATCCATTCCCATTTCCTTATAACCAGGTACCCAGATTTGTGGATCACTTTCAAATTATAGTCTG
R
GCCCAAAGAAGAGAGTCTCTTGTTTTCTTTTTGTTTTCCTGTGTGACGCCAGCTGGTTCACAAAGAGATTTAACTCTGTGTCCTGGGATTCCTTAATGCC
Celera SNP ID:            hCV1079118
SNP Position Genomic:     226995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29202):
AAGCTAGTGAAAAGAAAATGTTATAAAGAAAATCATAAGGATTAGAAAATATATTTACTATTTATTAAGTGGAAGTGGATAATCATAAAGGTCTTCATCA
S
CATTGCCTTCACATTGAATAGGCAAAGGAGGAGGAGGAAGAGGAGGGGTAGGTTTTGCTGTCTCAGGGGAGGCAGAGATGAAAGAAAATCCATGTATATG
Celera SNP ID:            hCV26786441
SNP Position Genomic:     44861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29203):
AATAAGCTCTGTTGTATTTCACAAATCCTATGGCAACATCTTTAAGGTTGGCTGTTTTTCTCTTTTGTAAATTAGCTTCATAGATTATTTTTATAGTGAA
Y
GCATTAAAATAGTATTGAAGTTTAATTTTATTGAAAAACATTGCATTACTCAGAGGATCATTTGGCATTTTTTATCCTTCACAATCATAAGCCCCTAGTG
Celera SNP ID:            hCV228372
SNP Position Genomic:     136786
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29204):
TTTTTAAATTTAGCTTTATTCTCCTTTAATGGCAAAGTCTCATTCTTTAAAGTAGAAACCAACATTTACATAAATCCTCTAACATATTTTTTGTAGCAAT
M
AAGGTAAAAATTTGATTAATGGGCTGACAATCTCCTTCCTGAATCTGTAATACCAGAAAATTTCCCAGATGTTAGTGTAGCATGGCTGCTTAGGCAAGAC
Celera SNP ID:            hCV1079119
SNP Position Genomic:     230942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29205):
AAGCTTATATCTGTCTTTCGACTTTTGCACTAGCTATGTTTCATATTTTAATACTTATCCTTGAAATTGTGACTTTTTGCCATCTACCATTTATCTCAAA
D
TCACCTCTGCAGTGAAGCTTTCCCTGATTAACCAGTTTAAAATAGCCATCTAATCATTTGTCTATTTTTATCTCATATCAGTTGGTACTTTAAGCTACTG
Celera SNP ID:            hCV26786442
SNP Position Genomic:     39732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29206):
CAAGCTTATATCTGTCTTTCGACTTTTGCACTAGCTATGTTTCATATTTTAATACTTATCCTTGAAATTGTGACTTTTTGCCATCTACCATTTATCTCAA
R
GTCACCTCTGCAGTGAAGCTTTCCCTGATTAACCAGTTTAAAATAGCCATCTAATCATTTGTCTATTTTTATCTCATATCAGTTGGTACTTTAAGCTACT
Celera SNP ID:            hCV26786443
SNP Position Genomic:     39731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29207):
ATAGCCAAGACAATCCTAAGCAAAAAAAATAAAGCTGGAGGCATCATGGTACCCAACTTCAAACTGCACTACAAGACTACATAACCAAAACATCATGGTA
Y
TGGGAAAAAAAAAAAAGACACATAGACCAATGGAAGAGAACAAAGAACTCAGAAATAAGACCACACATTTACACATCTATAACCATCTGATCTTTGACAA
Celera SNP ID:            hCV26786444
SNP Position Genomic:     215262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29208):
ATCCTTTTGTTCACTACATCAAATAGCTCTTTCAATTATACACCCTGGCATGCTGGGCCTGACTCATTGTTAGAGGAAAGGGGTCCCGATCCAGGCCTCA
R
GAGAGGGTTCTTGGATCTCGCGCAAGAAAGAATTCAGGGCGAGTCCACAGTGCAAAGTAAAAGCAAGTTTATTATGAAAGTAAAGTGGTGAAAGGACAGC
Celera SNP ID:            hCV26786445
SNP Position Genomic:     25321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29209):
ATTTCTGATTTCAAGGTAATGCACTCAGTATTGTTTCAGTTCATTCTTTACTAAATCATCCAAATGTTTCAGTAGAGAATTTTGTTTACCAAGAAGCCTC
R
GACCCTGTGTAAGTTATTTTTTAATAATCGCTTTAGTTTCCTCTCCAAAGGCACAAATGACAGAATGCTTAGAATTATAAAATATGGTTTCTCTCTCTCT
Celera SNP ID:            hCV608080
SNP Position Genomic:     48639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29210):
TATTTCAAACTTACAAAGACAATTGCAAGAATAGTACAAGAAACTGCTTATCCAGGTTCATTAACTGTTTGCATTTTGTCCCATTTCCATTATTTTTTTT
W
AGAACCATTTGACAGTAAATTGTATAAAACATGCCCTGTTGCCACTTCAGTCTTCATTTCCTAAGAACAAGAAAATTCACTTACATAACTCCAATGCAAT
Celera SNP ID:            hCV26786446
SNP Position Genomic:     24781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29211):
CTCTGATTTGCATCCAGAGTAACTTTTCCAGACTATGTAATTAATTCCATTATTCTTTGGTAGATTGTTATATTAATCCCCTCCCCCACTCCAAGGAATC
R
TGCCTCCTGGTTATCACACACTTTTGTAGTCTGTTCCTACCCTGACTGAGGACTTAGACAAGTGACTTAATTTAGGCAAAGAAACACCAGCAAACACGAC
Celera SNP ID:            hCV26786519
SNP Position Genomic:     182756
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29212):
AATTTTTAGTATATTCAAAACTGAATATTCAGAAAGGTGGCTAGGAAGCAGTATTTATGTAATAGTTAAAGAGCAAAAGTTGGAAACTTTTTTTTTTTTT
T
GGCTTGATGACTTTATTTTAGTAATCAGACTAGCTAATTATTACCTTTTCATACTTAAATGTAACATATCTTTTGCCATCTTCTTTATTCTCTAAGGTTT
Celera SNP ID:            hCV26786447
SNP Position Genomic:     197766
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29213):
CCTGAATGGGCAGGCCACCTCTTACCTGGGTATTGGACAAGGCCCCTACTCCAGACGATTAATCCTCCTTCCCACCACAGGCTCACTCTTTGCATTCTTA
R
GCAGTTATGACTCTGTAAAAATGCAAAAGTTTCTAATGCTTCAGTTGCGGTTAGCTTTTTGTAGTTAAAATTTTAGTAATCAGTTCATAGGCTAAAGCTT
Celera SNP ID:            hCV608082
SNP Position Genomic:     49881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29214):
CTGCTGAGAAATGGAGCACAGCGCCAGTGGGCCGGCACTGCTGGGGGACCCGGAGCACCCTCCGCAGCTGCTGGCCCGGGTGCTAATCCCCTCACTGCCC
R
GAGCCGGCAGGACTGGCCGGCCGCTCGGAGTGCGGGCCCGCCAAGCCCACGCCCACGCCCACCCAGAACTCTAGCTGGGCCGCAAGCCCCGCCGTGCGGC
Celera SNP ID:            hCV26786448
SNP Position Genomic:     24216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29215):
ATTACTGTGAGCATTCAATGAGATTATGTTTGTGACCACACTTTATAAATTGCAAACTCTCTGTAACTGTAAGGTGCAAGATTAGGAAAAAGTGTAATAC
R
AGGTCAAGGCTCCTTTTGATTCTGTACTTCAGTGGCACTCTCGTTCTCTAGGTGGCCCATGTAGAAACTTCAAAGTCATCCTTGACTCCTCTTTAGTCTC
Celera SNP ID:            hCV8909421
SNP Position Genomic:     222705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29216):
TATTCTCTTATCTGGCCCCCACCCACATCCTGCTGACTGGTCCATTTTACAGAGAGCTGATTGGTCCGTTTTACAGAGAGCTGATTGGTCCATTTTGACA
R
GGTGCTGATTGGTGCATTTACAATCCCTGAGCTAGACACAAAAGTTCTCCACATCCCCACTAGATTAGCTAGATACAGAGTGCCAATTGGTGCATCCACA
Celera SNP ID:            hCV26786449
SNP Position Genomic:     23639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29217):
CAACAGAAATATATTTTCTCACAGTTCAGGGCAATAGAAGTTCATTATCAAGGTGTTGGCGAATTTGATTTCCTCTGAGGCCTCTCTCCTTGGTTTGCAG
W
TGCATTCGCTGTATGTTAACATGCTCATATCTCTGTGTGTGCACATGCCTGGCAGCTTGGTCTCTGTGTTCTAATCTACTCTTTTTATGAGGTCACTTGT
Celera SNP ID:            hCV608084
SNP Position Genomic:     53022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29218):
ACACTGCATATTCTGTGGCATTCGAAAATGGTTTCCTCGGGAGTTGAAACCATAAACTCTATACCCCATTACTGAGTGTGCCCTATGTTACAGAATACTC
Y
TTATTAAAGGTGAAAAAGCAATCTACTACTCTGCAGGCTTTTGGTCTGGAGATAAACACAAGATCATAGATCATGTATTATTATCAGTTATTTTAAGGTC
Celera SNP ID:            hCV608085
SNP Position Genomic:     53893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29219):
AGTAATATAAAAGGACGCTAGCTTGTCAATTTCTTTTTGTCACTCAGGTCTTTGGCATAGACTCTGTTAGCTTTATTAAACATTAAGTATTGCTTTCAGG
K
TGAGGTAGAAGAGCATAAGCAAGAAAAGCTTTATAGGCTAATAAAAATGTAAATGAGATGTTCATCAGCTTGCTGCCCTGGAAAATGATGGAAGAAACAT
Celera SNP ID:            hCV608086
SNP Position Genomic:     54130
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,3)      total(G,3|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29220):
ACCTGATATGAGAAATCCCTTTGTAACCATTTGTGTTAATTTGCATCCTTATGTCAATCTTTCTATGCACTGAATTTGCTTCCAACATCCTAGGTCCTCT
R
TACATATATATGTAGATAATGTATATACACATTTTTATATATACATAGAAATATATACACATATTTGTATAATTCATGTTATTAATTAACATGTATTAGC
Celera SNP ID:            hCV608087
SNP Position Genomic:     54373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29221):
AGACTGGAGATCATTAGTTATTAAAAGGACTATACTTACACCTGCCAACCTAATGCCCCATAGTGCCAGTTTACCTCCTGGCTGCCTTCAAGGTTCTGAT
R
TCTGACTCAGTTGAGAAGAAGGGACTTGCCTTTGCAGAAAATGTAAATGGAGAGAGTAGTACTGATGTCTTTAGGAGCCTCACTAGAGGGGAAGGAAAGG
Celera SNP ID:            hCV8909353
SNP Position Genomic:     286316
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29222):
TAATTACTTGTGTGATGTTTTAGGAAGAATTATGAACTTTATGATCTTCCAATGATTAAAAAATGCCCTTTGAGGAACTGAACAGCCACAGTAAACACAC
Y
GTGTATGTATAAACATGTTTATTGCACACACTGAGGGCAATATGTATGGATGTTAATTTATATTTATGCCTTTTGAGAGCATCGGGAGAACACAGTAAAT
Celera SNP ID:            hCV25601051
SNP Position Genomic:     209757
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,34)   total(C,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:29223):
AGGAATTTGAAGACTGAGTTGTAAATCAGAATTTCTATAGCTTGTTAAAGTCACATCCTCAGAGTTTGGAAACCTCTGAGCTCACTATGTCTCAGGAAGA
Y
GGGAAATTCTTCTTCTACTTCTTCTTCCCCTTAATTAGGAATACATTGTAATAATAATATTTTCTATGTGACCTTTGAATACAGTAGTAAAATAACAAGT
Celera SNP ID:            hCV608088
SNP Position Genomic:     54680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29224):
GGAAATCTGAGGTTTTTCTCTTCAGAAGCCTAGTCTTCCTAAATTGGCTATTTCTTTAGACTGGAGATCATTAGTTATTAAAAGGACTATACTTACACCT
R
CCAACCTAATGCCCCATAGTGCCAGTTTACCTCCTGGCTGCCTTCAAGGTTCTGATGTCTGACTCAGTTGAGAAGAAGGGACTTGCCTTTGCAGAAAATG
Celera SNP ID:            hCV8909354
SNP Position Genomic:     286259
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29225):
ATAAACATGTTTATTGCACACACTGAGGGCAATATGTATGGATGTTAATTTATATTTATGCCTTTTGAGAGCATCGGGAGAACACAGTAAATTCTCACTA
R
GAAGAATGCTACTCTGCAGTGGAAGAACCAAACACTTGGTAAATGGCTTGTGGATGTTTCTTGATGTGCAGAACCTCCGTTGGATGGCTCCTGAGGTGTT
Celera SNP ID:            hCV25601052
SNP Position Genomic:     209866
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:29226):
ATAAGTATGATAAAAGCTAAGGGAAATCTGAGGTTTTTCTCTTCAGAAGCCTAGTCTTCCTAAATTGGCTATTTCTTTAGACTGGAGATCATTAGTTATT
W
AAAGGACTATACTTACACCTGCCAACCTAATGCCCCATAGTGCCAGTTTACCTCCTGGCTGCCTTCAAGGTTCTGATGTCTGACTCAGTTGAGAAGAAGG
Celera SNP ID:            hCV8909355
SNP Position Genomic:     286238
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,7)      total(A,7|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29227):
CTATGCTCTGTGTCTGTGGGAAATTCTCACTGGCGAAATTCCATTCGCTCATCTCAAGCCAGGTAAGACACACTGCAATTGAAGTTTTCCTGTTTTACAG
R
GTTCACTGGATTTTTATAACTTCAAGAAAATTTTTTTTCACAAAATGATTAGTCTCAGTGAGATGGCAAAAGAGGAGGTAAGCAAACAATCTTAAATTGT
Celera SNP ID:            hCV25601053
SNP Position Genomic:     210109
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:29228):
AGTTATTGTAAAGGATGGAACTTTTAAGCAAGGCACACAAAACCTTCTAAAGTCACTCTGAGAAGCAATTCAGAGTAGCCCCTTGCTGCATCTTTCATTT
W
GCAGCCATTTTACTCTTTTCTCTGCCCTAAAGCAGATCTCAGGTTACTAACTAACCCATTTATGCCAGAGGTTGCACATTTTTTTGTGTGAAAAATCAGA
Celera SNP ID:            hCV608089
SNP Position Genomic:     55270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29229):
CTTCAGTCCAGCTCTGGAAGAAAATCAGAATTGGAAAGTGGTCTAATAATCAGGCCAGTCTGATTAATAGTGACAATTAGTATTGGACTACAGTGCATAA
M
CAACTGATTATGAATCATTCGAGCACTTTAGGTAAATTTTCAATACAGGCAATTAAAATGAAAAGACTCATGATCCTTACATAATGACTTCATTAAATTA
Celera SNP ID:            hCV11286975
SNP Position Genomic:     200687
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,6)      total(A,6|C,5) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29230):
TGGCATCTAAGAAGAGAATTTTTTTAAAGCCTGGTATTCCTTCTAAGATACACTAATGTAATAGCCAAGATGATGAGATAACTGTGAAAAGCCAGTAGGG
R
TCTTGAATTGAGATGTATTCTTTGAAAGCCTAACTATGCTCTTATGGTGCTCTCAAAATCAGTGGTGCCTTATGAGGAATCACAGCCTGAGACTGGCTTT
Celera SNP ID:            hCV8363381
SNP Position Genomic:     181221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29231):
TGCATTGTTAAGGTTAAAAGAACATTATTGTGGAGTAATCTGTGAAAGACAGACACTTCAAAGAGATAAATACTCACTTCTGTTACATAAACAATTAACT
C
AAGTCATTTGCTTCATGGTAAAAGACAAAGCTAGAGCCAAATCCAAATACTGTGGTATCAGTGCAGTCAGGGGAACAAAGATTCCTTTAAGTGAAACACC
Celera SNP ID:            hCV11286978
SNP Position Genomic:     201172
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29232):
CCTAGAAAGTTAAATCCTTCTTTATTTAGTGTACCTGGATTTTTAAAAAGCAAAAGTCCCCGCTTCAAATCCAAATGCAACATGGTAATGTATTGTCAGA
R
TCCTTCAGACTAAGATTATAGTTTAACATTTAAGTAGATAATTTCATAACGTAGGTCTGTATAAGACATTTTGTTGTACTATTTTGTAGAAAACCTATTT
Celera SNP ID:            hCV8363382
SNP Position Genomic:     179254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29233):
TGTTGATCATCAGTTACTCAAGTTAGTCACAAGTCATAGGCCTAGAAAGTTAAATCCTTCTTTATTTAGTGTACCTGGATTTTTAAAAAGCAAAAGTCCC
Y
GCTTCAAATCCAAATGCAACATGGTAATGTATTGTCAGAGTCCTTCAGACTAAGATTATAGTTTAACATTTAAGTAGATAATTTCATAACGTAGGTCTGT
Celera SNP ID:            hCV8363383
SNP Position Genomic:     179214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29234):
CATATCAGATACAAGGAAATGTGATTCTGATGCCTAAGTGTAAAGGAAATAGTATAGAAGTTATCAATAGAAAATTAAATTAGCATTAAATTATACAAAC
R
TTTTTTTATTCAGGAAATAATTTTTAAGGTCCTATGATTAAAGATTTGCATTTGGCACAGTCATAGATTTTGTTGTATTGTTTTTCTGAAAATACATATT
Celera SNP ID:            hCV8363387
SNP Position Genomic:     177922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29235):
AGACTATGCACAACTATTTTAAATGTGCTCACCATACTGGCTTATGTACTTACAGCTACACCAGCTCAACAATATCCAAATGATCATAAGGTAACAAAGT
R
GAGTTAGAAGATCAGTGATTGCTGAGCACCAGTTTGTTTGCTTATTGATTTACCTCATCCCAGAAATAATTTAAAAATAGTCAAGAGTGGCCCAGCATGG
Celera SNP ID:            hCV1079120
SNP Position Genomic:     231472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29236):
CAGCATACATCAGAATCATCTGGACAGATTGTTAAAGCACTGATTTCTGGACTTCACTCCTGAGTTTCTGATTCAGTACGTATTAGTTGGGGCCAAAATA
Y
TGTATTGCTAACAAGTTCCCAGGTGAGACTAATGCTGCTGATTTGGGAACCACACTTTGAGAACCTCTGGCCTATGCTGATCTCCCAGACTATGGACTCA
Celera SNP ID:            hCV8363388
SNP Position Genomic:     175076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29237):
CGTGGGCTCCTGCGTGGCCCGAGCCTCTCCTATGGGCACTGCCCCCTGCTTCACGGCACCGGGTCCCACCGACCGCCCAAAGGCTGAGGAGTGCAGGCGC
R
TGATGCAGGACTGGTGGGCAGCTCTGCCCACGGCCCTGGCCAGGTATCCACTAGGCAAAGCCAGCTGGGCTCCTGTGTGGGGTGGGGTCTTGGAGAACTT
Celera SNP ID:            hCV1079121
SNP Position Genomic:     236009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29238):
TCCCAAAAAGAGTAACACTTGAGCTGAGGCCATAAACAGTAGTTTTCTGAAAGAAGGCGGCTTGGTGAGAAAGAAAAACAGTCTAAGCAACCAGAACATA
Y
GAAAATTCATTAGGAGAACAGATACAAGGGAAAGACTAGTAGCAGTTGCAACATTGTAGCCATGGAGAGGTTAAATCTCTGTATCAGGCATTATTTGAAA
Celera SNP ID:            hCV1079122
SNP Position Genomic:     237521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29239):
GAGAGGTTAAATCTCTGTATCAGGCATTATTTGAAACAAGTTCATCTTTAGATGGAGGACACTAACATCATGCTATTCTGGTCATTACTTTCTAGGTTAT
S
AACTGTGCTTCTCATTTTTTCTTGCATATCTGTCTTTACTTCATTCCTTGAATTTGAAGCACAGTATTTTCTCCAGGATGTCTTCTTAGTCAAAACTCAT
Celera SNP ID:            hCV1079123
SNP Position Genomic:     237686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29240):
AATATTATAATATTCTAAATTGTGAAGGTATGCTTCAAATATTTTTTACAGTGGTCTCAATAATTAAATTATTTGAATATATCTATATTTTTCAAATAAG
Y
ATGGCTTTGAATGAGACATGTTTGTTCTGTTACTGTTTTTAAATTTAATATTTATATTCACATTTAATTCCAGTGTATAAGGAGGAGTTCTCACTCCAAA
Celera SNP ID:            hCV1079124
SNP Position Genomic:     239271
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   no_pop(C,-|T,-)   JBIC-allele(C,319|T,594)   total(C,319|T,594)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29241):
TGGGGAATGAGAGAGGAATCATAAGTTTCTGTTTTTGAAAGTTTTTTTTCTACATCATTTTCTTCCTTATCCATAATACAATTTTCCACAATTTGATGTG
R
TATTTGGGGTTTTGTCATTAATGTTTTTTCTTTATTTTCAAGCTGTGCATGACTTGAATTTTGCTCTCTGTGTTGTAAGCCTTCATTTTGGTCTAAAGTG
Celera SNP ID:            hCV1079125
SNP Position Genomic:     241051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29242):
ATTTTCCACAATTTGATGTGATATTTGGGGTTTTGTCATTAATGTTTTTTCTTTATTTTCAAGCTGTGCATGACTTGAATTTTGCTCTCTGTGTTGTAAG
S
CTTCATTTTGGTCTAAAGTGTATTCCTTGTTGTAGCTGTCAGTCTTGTGAGCATCTAAAAGTTGTGTTTGATTCCTCGGGGACAAAGAAAACTGATTTAA
Celera SNP ID:            hCV1079126
SNP Position Genomic:     241131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29243):
GATGGGAGCTTTATGTAAGTAAACAAATTATGTTGGGGAAAGAATCTGTAGCCTTTGTCAGAGTCTCAGAGAGTTCTGTGACTCAAAGATAAACATTAAG
R
ACTATTAGTCTAGATCTAAAGTACTCTCTACACTGGAAAGTCTATAATTCTTTTTCCAAGTCAGAAGGCATAATCAGAGTGGCAATTTTTCTTTACCGAT
Celera SNP ID:            hCV1079127
SNP Position Genomic:     244224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29244):
CAAATTATGTTGGGGAAAGAATCTGTAGCCTTTGTCAGAGTCTCAGAGAGTTCTGTGACTCAAAGATAAACATTAAGAACTATTAGTCTAGATCTAAAGT
M
CTCTCTACACTGGAAAGTCTATAATTCTTTTTCCAAGTCAGAAGGCATAATCAGAGTGGCAATTTTTCTTTACCGATTTCTGTTCTGGAGCAGATGTGAC
Celera SNP ID:            hCV1079128
SNP Position Genomic:     244247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29245):
ACAGCTCATAAAGGCAGTGTGGACCCAAAGAGTGAGCAGTAGCAAGATTTATTGCAAAGAGCTGAACAACAAAGCTTCCAAAGTGTGGAGGGGCACCCGA
R
TGGGTTGCCACTGCTTGTTCAGGCAGCCTGCTTTTATTCTCTTATCTGGCCCCCACCCACATCCTGCTGACTGGTCCATTTTACAGAGAGCTGATTGGTC
Celera SNP ID:            hCV26786450
SNP Position Genomic:     23504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29246):
TCTTTGACTGGCTACACCATGTCTAGTTTTATCCACTGGAGACAATATTAATGAAAACATATTTTTAAAACTTAAATGAAAAGGGAGGGTATCAGGTCAT
R
ATTGTTTCTTTTTTTTCTGTTAAAGATGAAGAGCAAACATGGAGAATAGCAGTTTCTGGTAAAATCCTCATACCATTGTATAGTTTACCATATCTTGAAC
Celera SNP ID:            hCV1079129
SNP Position Genomic:     247233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29247):
GGGATACTTAGTGTTGGAATTGAACCTTGAGATTTTCATAAATATAAATTTATAAAACATACAAATTATATTATGCATTGATCATTTTATAATTATAATA
M
TTTCTACTTTGTATTTATTATGAGCTAAATATCATACTAAGTTTAATGTATTTTAGTCATTAAAATAACTGCATATTAGGATTTACTTTACAGAAAATGC
Celera SNP ID:            hCV26786451
SNP Position Genomic:     22020
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|-,4)   total(A,1|C,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29248):
CCGTCCGGAGTTGTTCATTCCTCCCAGTGGGTTTGTGATCTTGCTGGCTTCAGGAGTGAAGCTGCAGGCCTTCATGGTGAGTGTTACAGCTCATAAAGGC
M
GTGCGGACCCAAAGAGTGAGAAGCAGCAAGATTTATTGCAAAAAGCGAAAGAACAAAGCTCCCACGGTATGAAAGGGGACACAAGCAAGTTGCCGATGGT
Celera SNP ID:            hCV26786452
SNP Position Genomic:     18008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,3)      total(A,3|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29249):
TTGTTCCTCCCGTCCGGAGTTGTTCATTCCTCCCAGTGGGTTTGTGATCTTGCTGGCTTCAGGAGTGAAGCTGCAGGCCTTCATGGTGAGTGTTACAGCT
Y
ATAAAGGCAGTGCGGACCCAAAGAGTGAGAAGCAGCAAGATTTATTGCAAAAAGCGAAAGAACAAAGCTCCCACGGTATGAAAGGGGACACAAGCAAGTT
Celera SNP ID:            hCV26786453
SNP Position Genomic:     17999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29250):
TTTGGACGTGTTCCGAGTTTCTTCCTTCTGGTGGGTTTGTGGTCTGCTGGCTTCAGGAGTGAAGCCGCCGACCTTCGCAGTGAGTGTTACAGCTCTTACC
R
CGGCGCATCTGGAGTTGTTTGTTCCTCCCGTCCGGAGTTGTTCATTCCTCCCAGTGGGTTTGTGATCTTGCTGGCTTCAGGAGTGAAGCTGCAGGCCTTC
Celera SNP ID:            hCV26786454
SNP Position Genomic:     17880
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29251):
TTTTAAATTTTAAAATTAAAGTATTATTAATCCCTAATTTCTTGTTTTAAAACTGGAACTTTAGCTGTCCCAAAGAGCTTATATTAATTTTCCAAAATCA
Y
GCAACTAGTTAATGGCAAACTGAGATTAGAACTAACATTTTCTAACTCTGATTCTTAATCCAGTGCACTTTCCACTACTCCAGGCTCCCTCAATATATGA
Celera SNP ID:            hCV26786527
SNP Position Genomic:     180806
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29252):
TGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTTCTTTTCCTTTTTTTTTTTTTTTCAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGG
Y
GCGATCTAGGCTCACTGCAAGCTCCGCCTCCTGGATTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACCCACCACCACACCT
Celera SNP ID:            hCV26786455
SNP Position Genomic:     12522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29253):
ACTTCTAGCTCACAGGGATAGACTGTCTGGTGTCTTGAAAAAAATAAACAGCTTCTCAGCAACTGAAGAGACGCTGAAAGGTTCAGTGAATTTAAAAAAA
A
TAGTTATGTTCATTTCTTGTGAATTTTCAAAGTGTCCTTGATGGAAGGCATATGGGACTAAGTACATTTTTAACCTGCCCTTTTGCAGAGACATGGGCAT
Celera SNP ID:            hCV26786456
SNP Position Genomic:     196461
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,10)   total(A,3|-,10) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29254):
TCTATCCTGAAGTTTTTCTATGCTCTGAACAACCACAATGTTTTTTTTGTACCTTTCTAATAACATGTAACACCACCTGTTTCATGAGCATAGTTTTATT
Y
GATTATTTTATTATACTCTTTTTTGAGCACAGGAACTGCACACTAGAAATCATCATATTTCTCACAGGTTCCAATATTGTGATTTTTGCATACAGTAGAT
Celera SNP ID:            hCV608091
SNP Position Genomic:     56205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29255):
TCTCACAGGTTCCAATATTGTGATTTTTGCATACAGTAGATTTTTAATAAGTTTCTGTCAAATGACTAAACTAATAATTATTCAAGTGTTTTAGGAATTA
W
ACAGAATGAGGAAAATTATTTCTACTCTCCATAAAAGCAGAAGAGATTATAATGATACGTTTCATGAAGAAAGTAGCTTACAAAATTACAAGCAATTTTC
Celera SNP ID:            hCV608092
SNP Position Genomic:     56365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29256):
GAGATTATGGCATCTGAATGGAGCAGAGAAATCAGCAAAGACACATTGAAGAGGACAAGAATAGTTTTACATTATGCATGTCACCCTTTCCTAAAGCCTA
Y
GCAGTTCAGTACAAATAGAGATAGCCTCCATGTAAAGGAAAAGAATAAAGTGAGTCCCTAACTTCATTGCAGGCCCCAGCACCATGCCTACCCCAGTGGA
Celera SNP ID:            hCV608093
SNP Position Genomic:     56759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29257):
TATTGCAACATTATTCACAATAGCCAAGATGTGAAATCAACCAATCAACCTAAGTGTCCATCTATTTATGAATGGATAAAGAAAATGTGGGTATAGAATA
S
TATACATATCATATATGTGAATATTATTTATCTTAAAATGAAGAAAATTCTCTCATTTGCAGCAACATGAATGAACCGGGAGGACATTATGCCAAGTGAA
Celera SNP ID:            hCV608095
SNP Position Genomic:     59021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29258):
CATTGGGGGAAAAAAGCCTAGAGGTCTCTTTGAATGTCTGCTGATGTTGCTCAGATTGATTTTTAATGCCTTTTTGTGTGTGTGTGTCTTCATTTGTTGC
Y
TGAAATAAACATGTGAATTTCAAAACTGACATGACCATTTGGTTTGCAGCGGCTGCGGCAGCAGACATGGCTTACCACCACATCAGACCTCCCATTGGCT
Celera SNP ID:            hCV25601060
SNP Position Genomic:     233753
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,1|T,39)   total(C,4|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:29259):
AGAATCTTATCAAGACAGTCAACTGATTTGATTACTATTAACAGGGTTTGATTACCCCCTGAAAAACTTTGAAAGAGGAGTTTTCAGCCCATTTTTCTTA
Y
GTTATGACTAAAAATTAGAAATTTTATTATCTGTTAGCCTAGGTCCTCTAGTTGCAAGTAACAGGCATTAACCTAGCTTAAGTAAGACACGTCTATTTCA
Celera SNP ID:            hCV22275030
SNP Position Genomic:     262785
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,38)   total(C,71|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:29260):
ACGAGGGTGGAACGCATGTCCTGAAGTGAGTAATTTTTATTTCCTCTTAGAAAATGTGTTATGGTCAAAATCTGTCACAAATAGTATAACTCCAAAGTCT
R
CTTTCAGTGTGTATTTTAAGACTGTCAAGGCGGGAAGACTGATTTGCCTTCTGCTCTTTAGTCTCTAATTGCCTCAAGAAGTCTGAGTATCTCATATTTC
Celera SNP ID:            hCV25601061
SNP Position Genomic:     233988
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,40)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:29261):
TACTGCTGTCAAAATTTGCAAACTGTCAAGATAAATAAGTTCATTCAGATTATTTATATCTGCTGTTTCTCCCCCTAACCTCATACTTAGAAAATTATAT
R
TGTCTAGTCCTTCTCCAACTTGATTTTATGTCTTTTAGCCTAATACATTGGCAAACCAAATGCATGACTCTGACACCGATAATACTAAGAAGGGCTGAAA
Celera SNP ID:            hCV608097
SNP Position Genomic:     60263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29262):
GTTTAGGGGTTGAAAAGCTAGATTGATGAGCATTACCAGAGAGAAATATTTTTTGGAAAGTAAGTGAAGCTGATGACACATTACTTTACAGTTTAGTGAA
W
TTCAGCAAATCTAATTCTATTATCCTGTCAAAGTTTCACAAAAAGGAGACCTGAAAGCATATTTTAGATGAATCTTTAAAGATTTCAAGAAGCCACAACC
Celera SNP ID:            hCV8909364
SNP Position Genomic:     284158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29263):
TCCGATCCCATGAGCTCAATGCATTTTCATTCTTGCCGAAATAGTAGCAGCTTTGAGGACAGCAGCTGACAGCATTCGGCGTATACCTAAGGAGAGTTTT
Y
TCCCCGAACTGACAGCAACGATTCCAACCACGGCAAGCTGGCTTCCAACTATAACATTTTACTCTCAAAGGTCTCCTTAAATTGGGCTTGTTTTTACTTG
Celera SNP ID:            hCV25601062
SNP Position Genomic:     314390
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,38)   total(C,1|T,69)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:29264):
AGAAGCTATAGATGAGGATCTAAAGTCAATAGAAGTAGAAATAAAAGAACATGGAGTCAAGTAAGTTCAGTACCCAAGGAAAATCGGAAGGAAGAGGGCA
R
CTTTCCTTCATGCAGCTTCCCTTCCAGTCACTGAGACCTCAGACTCTTCTCTTCATTCAGGCAGTGAGCATGAAAAGATCTGGATGGGACTGGATATAGC
Celera SNP ID:            hCV8909365
SNP Position Genomic:     282396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,17)      total(G,17|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29265):
AGCAGTGTGATAACATAGCTCCTTGAAAATCTAGTCAATCACCATTTTATAGTAAAAGCCTATGAATTTTTGTAGCTTGGTGTCTTATTGTCTCTATTCA
Y
TAGTTGCTTCTAACTTTTCTGGGCATCCCCAGAAAAGTGGAAACCTCCTGTGAATGAGGCAAATTTAGTAACCTCCAATTAATCAAGCACACTAAGCACA
Celera SNP ID:            hCV608098
SNP Position Genomic:     60516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29266):
TCTCTTCAGTCCTGGGGGAATTCACAGTTTAAGGGAGGAGGTCAGAGAAACACACAGGAAGATAAGTACTGAGCCATGTGTAGGAAGCCCTGTGAGCCTG
R
GAAGAGTCAAGGTAGGCTTCCCAAAAGCCATCCCGTTTCACTTGAGTTTGGCAGAGTTAACCAAGCAGAGAAAGGAAGAAAGAGTGTACTAGGAAAGGGA
Celera SNP ID:            hCV8909366
SNP Position Genomic:     282116
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,7)      total(G,7|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29267):
CTCTCTATGGTAACTATTCCTTTGCTTTCCTAGATATTAAGTATATGTAAATGTATGTGTAACTCTGTGAATATGTATCTCTGTATAAAATCATTAATTA
W
ATATTTTTAATTTTTTCTGTTCTTGAACTTTATGTAAATGAAATCAAAGGCATATTTTTGTGACTTTATTATTTATTGTGACTTCTTTGTGAGTGATCAC
Celera SNP ID:            hCV608099
SNP Position Genomic:     61753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29268):
TTAAGATAGCTTGTTTATATGCAGATTTCCCTTTAGTAATGAAATATTTCATAATCTCTTTCTAAATGAACACATTCTCAATAAAAAGTTAATAGGATCC
K
AGCTGAAGATGGTAATTTGCAATTTATGCTTCAATTCTTACACCAGACAGTAGTATTTCCTGGAAAACCTTCCCTGATCCCTCCCAAGTTTGGGTTAGGT
Celera SNP ID:            hCV15839626
SNP Position Genomic:     33383
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29269):
CCGATCCCATGAGCTCAATGCATTTTCATTCTTGCCGAAATAGTAGCAGCTTTGAGGACAGCAGCTGACAGCATTCGGCGTATACCTAAGGAGAGTTTTT
Y
CCCCGAACTGACAGCAACGATTCCAACCACGGCAAGCTGGCTTCCAACTATAACATTTTACTCTCAAAGGTCTCCTTAAATTGGGCTTGTTTTTACTTGT
Celera SNP ID:            hCV25601066
SNP Position Genomic:     314391
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,30)   caucasian(T,38)   total(C,8|T,68)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:29270):
CCCCTCTTTACTCCAAACCCAAAATGCCACCTGGCCAGCTTGGGTCCAAATTAGACATTAGTCATTCATATTTGCCTGGTCTCAGCTCTCTGTTTTCATT
R
TAAATGTTGCTTGTGCTTTGCAACTACTCACCAGCAACCGTTGTCCAGATTGTCTGTTCACATGATCTGGAAGACCTGCCTGGTTCAGGCTGGTTATAAA
Celera SNP ID:            hCV25601067
SNP Position Genomic:     314122
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:29271):
GGGCAAAGGACATGAACAGACATGTCTCAAAAGAAGACATTTGTGCGGCCAACAAACATACAAAAAAACGCCCAACATCACTGATCATTAGAGAAACGCA
R
ATCAAAACCACAATGAGACACCATTTCATGCCAGTCAGAATGGCGATTATTAATAAGTCAACAAACAACAGATACTGGCAAGGCTGTGGAGAAATAGGAA
Celera SNP ID:            hCV11286987
SNP Position Genomic:     221039
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29272):
ATTTTAAACACACAATCAGTAATTTAAATTAAGTATTGTAGAATCTAGAATAAAAAACAGTTTTGATTACTTGTATGTTATGATCTGTGTCTACATTTTG
Y
AAAACACAACTATGAATCAATCTCATTTGTTCTTCTTTACTAGATGAATGGAAGAAAAAAGTCAGTGAATCATATGTTATCACAATAGAAAGATTAGAAG
Celera SNP ID:            hCV25601068
SNP Position Genomic:     6671
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29273):
TCACATTACCATGGATAATGAAGAGAGAGCTGAGTATTTGTTTTTAAATTTTACTTCTTATGCTTCATTTTGCCTGCATCCTGTTCTTATTACCACCATT
W
GAGTAAATAATTGAAATTTCTTCGGTCCTTTTTATGTGTTGTCTATTTAGTAATGTGTGTTAGTTAAGAACCTGGACCCCACTGCCCACCCCAATGTCCT
Celera SNP ID:            hCV8363395
SNP Position Genomic:     174402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29274):
TAATTAAATTAGACATCGTTGAACATAAAGTGGGGTTCAATAGACATTTGATTTATTATTATTGTCTACTATTAACATTAGATTCAAACCCATAACAAGT
W
ATCAGAGGGGCAAAAACAATACTATACTGGCTGTAGCTACCAAAATATATACATGAAAAATGAAAATGAACCAGTGGCTTTGTTTACATAAGCTAAATAT
Celera SNP ID:            hCV8363396
SNP Position Genomic:     174039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29275):
TTATATTTTGTTCCAAATTTTCTAGTTCTGAAGTAACATTTGTTCTCTCCCGTGTTACTGCCAAACTTTCAGTATGTCAATACTAATTAAATTAGACATC
R
TTGAACATAAAGTGGGGTTCAATAGACATTTGATTTATTATTATTGTCTACTATTAACATTAGATTCAAACCCATAACAAGTTATCAGAGGGGCAAAAAC
Celera SNP ID:            hCV8363397
SNP Position Genomic:     173956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29276):
TTCTGTTAAAGATGAAGAGCAAACATGGAGAATAGCAGTTTCTGGTAAAATCCTCATACCATTGTATAGTTTACCATATCTTGAACTCTTAAATCTATTT
K
AATTCATTTGCCAACAATACACTCTTGGAAAGTGCTATAACATATTGAAGCAATCTCTATTAAAGGCACATTTTTAAAGTTGTAGCAAAATTATGTAAAT
Celera SNP ID:            hCV1079130
SNP Position Genomic:     247348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29277):
GTCCCATCAGTTTTTAAATATCTATCTCCTAGTGTCATAACAAATGCACTAGTACTCTTTGGTGAAAGGATGATTGATGAAATATAGATATTATTCCTGT
R
TTATACACAAGGAAACTAAAGTCTAAATAGCAGGTTAACCTGTTCAAGGTCACCAATGCTATTTATACCAGGGCTGGAGCCCTTGAATTCTGGTCCAGGG
Celera SNP ID:            hCV1079131
SNP Position Genomic:     250206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29278):
TAGCATCAACCTGAGATTGCACCACTAAGTCTCAAAGTGGAACCATCAAGAAAAGCAGGATTTTTTTTCTAAAAAAAAAAAAAAAAAAAAAAAAAACTCA
M
CTAAGAGTCATTGGACCTAGTCTATTGGAAAAGGATTTGCAGTTACAGCCTGCAGTGAGTGGCTCTGTCTCATGACTCTTTGCTGGAATTTCTAAAGAAA
Celera SNP ID:            hCV1079133
SNP Position Genomic:     260456
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29279):
TTTTTTTTCTAAAAAAAAAAAAAAAAAAAAAAAAAACTCAACTAAGAGTCATTGGACCTAGTCTATTGGAAAAGGATTTGCAGTTACAGCCTGCAGTGAG
K
GGCTCTGTCTCATGACTCTTTGCTGGAATTTCTAAAGAAAACTTTTGTGTAAAAAGAAGCTTCAGTGTTTAGACCTAAGATCCTCTTTCCCTTCTCTTAT
Celera SNP ID:            hCV1079134
SNP Position Genomic:     260516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29280):
CGCAGTTTCATAAGACCTTATCCTCTCTATTCTTCAACTTTTCAGTCAACGGTTTAGATCAAGGCCAAGAGGGAGCTACTCATCCCATGTGCAGATATAA
W
CAAGTTAAGAGGGACAGAAAGTATTTGAAAGCAGGACCCTAGATCTTGGAGGATGAAGTAACAGGACATGTCTAACAAGAATAATTTTAACAGGAATACA
Celera SNP ID:            hCV1079135
SNP Position Genomic:     261133
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   TSC_42_AA(A,4|T,79)   total(A,4|T,79)   no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29281):
AGTCCAACAGGTGTTTTAAACATCTGAAAAACTATCACATGGTAAAGGGAGTGGCCTGTTCAATATGGGAAAAGACTTGCCACACATTAAAGCATTTTTC
R
TCTTATAAAATTGATGTATTCTTGGAAAAGTGTGTAAATTCATTTTACATGAAGGGAATAATTTCATGTAAAGGGAATAATTTTAGCTATGATTTAAAGG
Celera SNP ID:            hCV1079136
SNP Position Genomic:     262016
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   TSC_42_A(G,16|A,67)   TSC_42_C(G,29|A,54)   TSC_42_AA(A,29|G,54)   total(G,99|A,150)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29282):
ATAAAAGTTGAATATAACTTATAAAATTTTAATTTACTCAAAGTTTTTCTGGGTTACAACAATTGTGTAAGATGATAGCACCATGACACTGATGTTCCTA
K
GAAGAATGAAGAAGGGAGAGCAGCAAGGGGACCGTGTCCATTTGCTTCAGTATAGCAGATGTTTACCAGATAACAGTGGCCATGTCTCCTCCTCATCACC
Celera SNP ID:            hCV1079137
SNP Position Genomic:     267585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29283):
CGTGCACACTGGGTTACAAGGGACAACCAGCATGCATTTCCCTTGAACTCAGGGTCTTTACTTTTCCTGCAAATGGGACCATGTCTGATTATTTATTATG
R
ATGAACACTTTACCTAGAATTTTTCCTTGGCTCAAGCAATCCTCCTGCCTGAGCCTCCTGAGTAGCTGGGACTACAGGCATGCGCCACCATGCCCAGTTA
Celera SNP ID:            hCV1079138
SNP Position Genomic:     269582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29284):
GCTATTCCATGTTTTACTTTCTTTGTTGCTGTTAAAATTTCATCTATGAATCTAATTGTTATTTCTTTTGTTTTTAATCTGCCTTTTAAAACTGCTTTTA
R
AAGTCTTCTTTATCTTTGGTATCCTACAGTTTAATTATGTTGTGTATAGATATAAATTTATGTTTATTTATTTTACTTGTGATATATTATGTTTCCAGAA
Celera SNP ID:            hCV1079139
SNP Position Genomic:     271266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29285):
GAAAACAAAGTCTTAGATTATTGATTTGTCAAGTGGAGATAAGTGCACACTATCGAATTGAGTAATACCTAAAAAGCATAATGGACACATTAGAATAGAT
A
AGAAAATAGAATTGTTAGGACATGGTGACATTTTATGAAGGAGCTGAGAAAGAGGGAGGAATCAAGAACAGCCCCCAGTTTTTATCTGGGTAACTAAATT
Celera SNP ID:            hCV26786462
SNP Position Genomic:     194529
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29286):
TAGAAAACAAAGTCTTAGATTATTGATTTGTCAAGTGGAGATAAGTGCACACTATCGAATTGAGTAATACCTAAAAAGCATAATGGACACATTAGAATAG
A
TAAGAAAATAGAATTGTTAGGACATGGTGACATTTTATGAAGGAGCTGAGAAAGAGGGAGGAATCAAGAACAGCCCCCAGTTTTTATCTGGGTAACTAAA
Celera SNP ID:            hCV26786463
SNP Position Genomic:     194527
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29287):
TTAGAAAACAAAGTCTTAGATTATTGATTTGTCAAGTGGAGATAAGTGCACACTATCGAATTGAGTAATACCTAAAAAGCATAATGGACACATTAGAATA
G
ATAAGAAAATAGAATTGTTAGGACATGGTGACATTTTATGAAGGAGCTGAGAAAGAGGGAGGAATCAAGAACAGCCCCCAGTTTTTATCTGGGTAACTAA
Celera SNP ID:            hCV26786464
SNP Position Genomic:     194526
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29288):
TATTAGAAAACAAAGTCTTAGATTATTGATTTGTCAAGTGGAGATAAGTGCACACTATCGAATTGAGTAATACCTAAAAAGCATAATGGACACATTAGAA
T
AGATAAGAAAATAGAATTGTTAGGACATGGTGACATTTTATGAAGGAGCTGAGAAAGAGGGAGGAATCAAGAACAGCCCCCAGTTTTTATCTGGGTAACT
Celera SNP ID:            hCV26786465
SNP Position Genomic:     194524
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29289):
ACCTCACTCCCTGCCTATTTTATTATGAAAAAAATCATGAAATGCCTCTACGAAGCCTCTGTTAATTGTGACCAAAATTCAAGCATATGAAGAACATTAC
Y
GGAAAGAAAATACAACCCATTATAACCTCTTTGTTACGTGAATGCTGCATATACTCTGTGATTTGCATACAAGTTATTCATGGACAGAAATTAGGTTTTA
Celera SNP ID:            hCV8373302
SNP Position Genomic:     85520
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(C,207|T,1276)   total(C,207|T,1276)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29290):
GAAAATGATTTGAGTCATTTATATCTTATACTTAGGAAATAGGTCAAAGGAAGAAAAGCAATTTGAAACTTTTGTTTCTACCTCACTCCCTGCCTATTTT
R
TTATGAAAAAAATCATGAAATGCCTCTACGAAGCCTCTGTTAATTGTGACCAAAATTCAAGCATATGAAGAACATTACTGGAAAGAAAATACAACCCATT
Celera SNP ID:            hCV8373303
SNP Position Genomic:     85441
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29291):
TTGTAACTAGTAAACAGCAGGGCCAAGATTTGAGCCGAGATCAGCCTGATTCCAAAGCCCATGATTTTTTTACTACTTGCTGAGCTGCTATAGTGTGAGA
Y
AAGAGAGCTGCTCTCATACTAATCAGTTGTGTGACATGAGCAAATCCCTTTCTGCCCTGGGTTTTAGGATTATCATCTATAATGAGGCATTTGAATTGGA
Celera SNP ID:            hCV8909372
SNP Position Genomic:     276848
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29292):
AAACTTAGTACTTCTTAAACTGGTTATATGTGTATATCGTCAGTGACTTGAGCTGCTTAATAGTCTGCAAAAGAATTCTATTCATACTCAATTTTCCCTT
Y
TGCTTTGCCTTTTCCAACCTTGATAATCTCAGTTTAGGCAGTAACTATCAGGCAGAATATTCCAATTGATTTAGCTTTAAATATAAGCTTCATTGTGTTG
Celera SNP ID:            hCV25601076
SNP Position Genomic:     20268
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:29293):
AATTAATAGAAAACTTTACAAATGGCCTGCAGAACGCAGCTTGACATTTTTATACAGCTGTATGGCATTTATCATTAGGTCAAAAAGAGTCTCAAACTCA
M
CCCATCCCCACAATGATTTAGCCTTTTTTCATTTTTCTCTTTAAGGCAAGAAATCACATATTCGAACTCTTATGTTGAAAGGGCTCCGCCCATCTCGACT
Celera SNP ID:            hCV25601077
SNP Position Genomic:     21238
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,25)   caucasian(C,34)   total(A,5|C,59)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29294):
TTAATATCTATGGAGATACCCCCTTACACCTGTGAGTATTATGTAGCATTCCATAGGTTCTCCAGGTATACTGCATGTACTTGCTTACAATATTAACAAG
M
TATTTTCTTCAAATCTAGGGCATGCTACAATGGCAAATTTGAAGTTGCCAAGGAAATCATCCAAATATCAGGAACAGAAAGTCTGACTAAGGAAAACATC
Celera SNP ID:            hCV25601078
SNP Position Genomic:     113525
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,40)   total(A,75|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:29295):
AATGACATATTGGGACAACGAATGGCCTGACTTTCTAGTGATGAGAGTTCTATGAGGTTTTCATTCCTGAAAATGAAGAGAAACCCTCTCCATTCATACA
S
AAAGGAGGGCCCGGGCCCACTCTTAAGCACATCAAAGCACACAGATCCCGCCTTTGGCAGTTGCGTGTGTGTACAACTGAAAGTAAGACTTGGCCCAAAA
Celera SNP ID:            hCV1079140
SNP Position Genomic:     275475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29296):
GGAGCAACAAGTAAAAGGATTACATCTTCATCTTCCACATAGTGTGGTTAAACAGAAAAAAATAAATATTAAAAAAATCAATTATTTTTACATTGTGTAT
R
TAAATATCCAAAGAAGCAGCTAAATTAGTCAAAGTGCTTATCTTTGGGAAATAATAATGGAAGGAGAAGTAAACCAGAGAACTTTGTTTTTCAAAGTTGA
Celera SNP ID:            hCV843102
SNP Position Genomic:     59725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29297):
AATTTGAAAAACCAAGAGTCACATGCAACTTAGGGAGGAAAGAAGAGCCCTGGATTGCTTTTATTATTATTATTATTATTATTATTATTATTATTATTTT
W
GATTTTTTCAGCACAATTACTTCTTTTTAGAAACCTACTCCTCATAATAAAGGGCATTTTAAATTGAGGAGATAAATATATACTCACTCACAGCCTTTAG
Celera SNP ID:            hCV26786476
SNP Position Genomic:     192450
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,6)   total(A,2|-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29298):
AAATTTGAAAAACCAAGAGTCACATGCAACTTAGGGAGGAAAGAAGAGCCCTGGATTGCTTTTATTATTATTATTATTATTATTATTATTATTATTATTT
T
AGATTTTTTCAGCACAATTACTTCTTTTTAGAAACCTACTCCTCATAATAAAGGGCATTTTAAATTGAGGAGATAAATATATACTCACTCACAGCCTTTA
Celera SNP ID:            hCV26786477
SNP Position Genomic:     192449
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29299):
GGTTAAAATTTGAAAAACCAAGAGTCACATGCAACTTAGGGAGGAAAGAAGAGCCCTGGATTGCTTTTATTATTATTATTATTATTATTATTATTATTAT
T
ATTTTAGATTTTTTCAGCACAATTACTTCTTTTTAGAAACCTACTCCTCATAATAAAGGGCATTTTAAATTGAGGAGATAAATATATACTCACTCACAGC
Celera SNP ID:            hCV26786478
SNP Position Genomic:     192444
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29300):
AGGCAAATTATAAATTAATAGAAGATTGCACTGCATTCTGCTTTGCATTTTTCCTTCTGAACCTTAAGAATTCTTATGTCACGCTCCAGATGCCCTGGAC
Y
CCTAACTGTTCTCAAGCATTGACTTGTGGCATTGACTATCCCTGGCTTAGAACAGCATGTGAACAAAGGAAAAGCTTTTTTAAAAGGGAGATAATCAGAA
Celera SNP ID:            hCV8373242
SNP Position Genomic:     111237
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29301):
TTGGTTAAAATTTGAAAAACCAAGAGTCACATGCAACTTAGGGAGGAAAGAAGAGCCCTGGATTGCTTTTATTATTATTATTATTATTATTATTATTATT
A
TTATTTTAGATTTTTTCAGCACAATTACTTCTTTTTAGAAACCTACTCCTCATAATAAAGGGCATTTTAAATTGAGGAGATAAATATATACTCACTCACA
Celera SNP ID:            hCV26786479
SNP Position Genomic:     192442
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29302):
TGGGCCATATATTTTTTTTCTTCCTTGCTGACTCCTTATTTTATTTCACTGTTCAACCTCTCTCCTAGAGGTTGTGCTTAGAGATGCTCCTATCCCCAGC
Y
ACTGTGTGTTAGATCTTAATTAGCTGAAGCCACTCACAGTAAATCTTTCCCCTTGCCCAGGGATTGGTTTAGAAAGTTGCAAATGACCTAGTCCAGACTG
Celera SNP ID:            hCV8373243
SNP Position Genomic:     105991
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29303):
TCATGACAACCCATGAGTTAAGTCTTAATATTATTCCCATTGCACATATGAAAAAACTTGGGTATAGATAAATTAGCTAATTTTTCTCAAGAACACAGAG
Y
TGATATAAATCAGATTCTAGATTCGAATCTAGGACTATCTTAAACTGCACCTTAACTCTTAATCAGTATATGATATTACCCCTCACGTTAACAACATAAG
Celera SNP ID:            hCV8373244
SNP Position Genomic:     105731
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29304):
AATAAGTTCCCACTTGTGGTCATGTTAGATATCTTCTTGAAAGGATGAGGTCATGAAAAAGAAGTTTAATTGGATCACAAAACTGCACACTTTTCTAGGT
M
AAAGGTAAAGGCTAGGAAAAGAATTCATTATGCTACAAGAAAGAAAGTAACCTTTGGGTACAGAACTATCATTTTTAATGATTAAGAACAGCATTTACTA
Celera SNP ID:            hCV27478249
SNP Position Genomic:     14290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29305):
TGGCACACATTTTGTTGTTGTTGTCAGTTTAATTTTATATATATATATATATATATATATATATATATATATATATATATATTTCATTTCATCACCTCAG
S
TAATCCCCAAGGGCATTTACACAATTCATAATGACCAATGTGACTTGACAGTGACGCTGAGGGCTTGGCATTGGGTGATACAGTCAGCTCTGTCTTGGTG
Celera SNP ID:            hCV26786623
SNP Position Genomic:     149123
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,8)   total(G,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29306):
AGATGTACATGACATGTTGTATGGGCCAGGCATTAGCATGGCACACATTTTGTTGTTGTTGTCAGTTTAATTTTATATATATATATATATATATATATAT
A
TATATATATATATATATATTTCATTTCATCACCTCAGGTAATCCCCAAGGGCATTTACACAATTCATAATGACCAATGTGACTTGACAGTGACGCTGAGG
Celera SNP ID:            hCV26786624
SNP Position Genomic:     149085
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,13)   total(A,13|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29307):
ACCTAGGTTGAATGGTCCAAATTTTCGGTACTAGCTCTTAATGAGAGCAACTGTTATGCATGATCTCCTGGGCGGCCTGAGGCACAGGTGGTTCCATTTC
Y
CCTAGGATAGTATATCAATCGCAACCAAATGCACTGCATGTTGGCTCTATACTAGGACAGGGATGCATGGGGAAATGAGACTTGCAAAAGTCTATCATTG
Celera SNP ID:            hCV26786552
SNP Position Genomic:     170968
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29308):
TAAGATGTACATGACATGTTGTATGGGCCAGGCATTAGCATGGCACACATTTTGTTGTTGTTGTCAGTTTAATTTTATATATATATATATATATATATAT
A
TATATATATATATATATATATTTCATTTCATCACCTCAGGTAATCCCCAAGGGCATTTACACAATTCATAATGACCAATGTGACTTGACAGTGACGCTGA
Celera SNP ID:            hCV26786625
SNP Position Genomic:     149083
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,13)   total(A,13|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29309):
GGAAGGTCCCTTTCAAGTGCTCCTGATCACTGAGACAGCCTTATGAACAGCTGGGTGGGGCCGGGGGGCGGGCGGTGGACACATTACACTCGAGTCAAGA
K
ACTGGTAAAAGAATCCCCAGATGGAAGGGAAAAGGATGAATGGGAAGTGTATAGATCACCTAAGGAACCCTTAAAGCTAACCCTAAGGAAAACCCAGAAG
Celera SNP ID:            hCV26786556
SNP Position Genomic:     170081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29310):
CTTTTGCTTACTTTATTATTATATCATCAAATTTAATCCTCACTTAATGTTATTGATGAGAAAAACAGAGATTAGGTAAATTGTACCAAATCATACAGCT
R
TTGTTTCAGAGTCTAAATTTTAACCTCTGATAAGACTGAAGTCTTAACCGATATTCTGTAGAGCCCAAGAGAGGGAACCTTTAAGAATATTACCTCAGGG
Celera SNP ID:            hCV8373322
SNP Position Genomic:     84415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29311):
TCTCTTTCCCTCAGAATCAAGATTTCTACAGTCTCTGGATGAAGACAACATGACAAAACAACCTGGGGTTTGCTGCTGCTTGTGTTTCCTATAATTATAA
R
CCAATTAAAATATGTAAACTCAGCATGAGAGGACGTAAGATGAGAGCAGTTTTAATTGGAAGAAATGTCATTGTCTCAGTGTTGGGATAATGGCTTATGT
Celera SNP ID:            hCV22275203
SNP Position Genomic:     207008
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,9)   caucasian(A,39|G,1)   total(A,68|G,10)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29312):
CTCAATGTCTACTTTTTTTTTTTTTTTTTTTACAGTCACAATATTCTTCTCTATGAGGATGGGCATGCTGTGGTGGCAGATTTTGGAGGTGAGATACCCC
M
AAATGGCATCCTTTTTTTCTTTGTTCCTAGCTGGTACAATATGGTGCCTGATATTGTACCATGAAACTGAACACTGAACACTGACAGCTATACTACACTG
Celera SNP ID:            hCV22275205
SNP Position Genomic:     206593
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,7)   caucasian(A,37|C,1)   total(A,66|C,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:29313):
TAAGACAGATTTCAGTGAAGATACATTTTAGACTTATTGCAGATCAGGGTACTCTGTGGTTAAGAGGACAGGCTACCATAAGCTTAGGCGATAGAAAGTT
W
TGTCATTGTCTTTTAAGGAGTAGAAAGCTGTATAACTGCTTCTCAGGGATCTTTTAAATCTATGAAGAATATTCACAAATATAGTAATATCTGTAAGATG
Celera SNP ID:            hCV27478250
SNP Position Genomic:     141013
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,141|T,1302)   total(A,141|T,1302) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29314):
CCCTTATGAGGTGTATTATTCTGTTTATTCATTCATATGCTTGTTCGCAGACTGTCCTCCTCTGCTACAACTGAGCACTGTGAGGCAACACATCCTTTTA
K
TCCTGTTCAACATTCTATCCCCAGTGTCCACAACTCTGAGACAAAGGAGGCAGAAATATTTATTAAATATTCTTAAATCAACAGAAGGGATTCTGTTTAT
Celera SNP ID:            hCV8909393
SNP Position Genomic:     246869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29315):
AAGATATTAAAGTGATATATTTGTTAAGTGTGTAGCTGGATAAAATGGTGATATTCTTTTGCAATAGCAAAATAACTCAGTTACCTTTGAAGGTCTTTAA
R
TAGTTTTGATTGAGACCATCAGGAACAGGAAAATAAAATATTGCCAGTCTCTTTAGTCATTGTATGAAGTGTACTCATTAAAGGGTTACCTCTTAAGCTG
Celera SNP ID:            hCV27478251
SNP Position Genomic:     253430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29316):
AAGAATTCCCCCAAGATGGAGAAGTAAGAGAAATGTGATGTAATAATGCAAAATTTGGGTTTTCCTATGCATACCTGTCTCAGGGATGAAAGAAAACATG
R
AGGGTGTTTGGATGGAGTGAGAGTACCTATAAACAAAGAAGATACATTCGATATCTCCCATTAGGAGCATCACATCATACAAGAAAGAACGCTTTAATTG
Celera SNP ID:            hCV27478252
SNP Position Genomic:     312136
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,272|A,1001)   total(G,272|A,1001) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29317):
AACACAAATGTATGTGTCATTTTCCCTATTACGCTAGCCTCTTCACTGATCTAATTCCATTGGATATGCATTTATCTATCATTTATTAAGCAGCTCTTAT
R
TATTGAATCATGTAGTAAATATTGGACACCCAATGATGGATTAGAGATCTCTTCAGTCCTGGGGGAATTCACAGTTTAAGGGAGGAGGTCAGAGAAACAC
Celera SNP ID:            hCV2730302
SNP Position Genomic:     281968
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29318):
GACCTCAGACTCTTCTCTTCATTCAGGCAGTGAGCATGAAAAGATCTGGATGGGACTGGATATAGCAGCCACCAGTCTTTATTGAAATAGCCCTGGGGCA
Y
GACTCGAACCTGTGAGGGACCATAAAGGGGCATGATTTCTGCAGCTGTGTTTACTGTCAGTGATTGTACAGACTCAAACATGGAGCTAGGGATAATATGG
Celera SNP ID:            hCV2730303
SNP Position Genomic:     282531
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,10)   total(C,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29319):
TGAGCATGAAAAGATCTGGATGGGACTGGATATAGCAGCCACCAGTCTTTATTGAAATAGCCCTGGGGCATGACTCGAACCTGTGAGGGACCATAAAGGG
S
CATGATTTCTGCAGCTGTGTTTACTGTCAGTGATTGTACAGACTCAAACATGGAGCTAGGGATAATATGGTAATCTAGATGAGACATGAGTGACATAGAC
Celera SNP ID:            hCV2730304
SNP Position Genomic:     282561
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;(C,-|G,-)   Caucasian(G,25|C,59)   African-American(G,84)   Asians(G,84)   total(G,193|C,59)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29320):
TTTTAGGAGATTAATAGGGCAGCCGTGTGCAGGTTACTAGAGGACAGATGGTGGACCAGGAGGTTCCCAGGTAAGTCAAGAAGAAGCAAAGAAATGATAA
Y
AGATGTTGAGAAATATTGGCCCAGTGGAGTAGATGGAGAGGGTTTGCTGATCAATGGAGGAAAAAAGAGTTGTCAGATGTGACAGTCTGCTTTTCAGTCT
Celera SNP ID:            hCV2730305
SNP Position Genomic:     288526
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29321):
TCTCATATTTCCAGGAGGCTCTGAACATTCCGAATGCAGCAATCTACCATCCTGGCAAAATAAAGTGCTGCCTACCCCACGGTCTTTCTTTTTCAGGTTT
M
TAAATGATCTGTCAAGGGTTGCAGACTCAGAGGCCGATGTTGCTTGATGGCTATTTTCCTGTAAAAGTGGCATTTCTTTTCTGGACCCCACAATGGACAT
Celera SNP ID:            hCV8909398
SNP Position Genomic:     245876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:29322):
ATCCAGCACTGCGTGATCCAAAGCTTCAGTAGGTTCATGATCAGAAGCCTACACTTCTAACTCCAAGCCCAACTGCCCACTGGAAATTGAAGAATCCAAA
Y
TACTAATGAGAGGGGAAACCCCATGCATTCACTACAGCAGATCACAAGGTTTCTGTAATACAGCCATGTTGTGGAGCAGAAAAGCAGTGAGCTTCAGTAT
Celera SNP ID:            hCV2730307
SNP Position Genomic:     293349
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29323):
AGCATGGCTCCTAGTCTGAAGGAGTGTGCTTCTGGTGTGCCACATATCAAAGCTTAATAAATAACCAATATAAATATGACCATGGAGGCCTGGATGTGCA
S
AAGGCCACAGAGAACTTCTTACAGCATCCACAGTCATGGTCTTGTCAATACAGAAGCCGGGAGCAGCAGTTGGCCCAGCAGGAAATGTCAAAACCTGGGT
Celera SNP ID:            hCV2730308
SNP Position Genomic:     296100
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29324):
AGTGGGGTAAGAACCCCCACATTACTGGCAAGAGAAGAGGTTTTCAATGAGAGCAAGGCACCCCAGCTACATAATATCATTTTGTTATTCAGGGTCTGAC
R
GCAAAGAATACACAGAGGAGGAGAGGAAAGCTTTGGTGTTGTGTGATGAGGCAAAGGGTCCCAGAGGTTTGGTATACATTCGCTTAAAACAAAACAAAAA
Celera SNP ID:            hCV2730309
SNP Position Genomic:     296342
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29325):
GTTTAGCTGCTCTCTTTTAAAAAAAATAAGTAAGTAAAATAATCTCAACTGTCATTAGAATGGAAAAACCTTCATCATTGCAGGGAGATAACTCACAAAA
A
TGTTTTTGAAATATAATAACGTAAGAATTCACATACTTAAAATGGATAGTAAAAGAGAACTTACATTCATTGAGTATCTTTTACAGATGCATATATATGT
Celera SNP ID:            hCV26786703
SNP Position Genomic:     129309
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29326):
GCATAACACAATGGCTATGCTGTCATTGATGGAAACAAACAATCTTTATGTGAAAAAGGTAGATTACCCAATAACTAGTCAGACCAAACCTCTGAATTAT
R
TAGGCCCTAAAGCTCCTAGAAGGCCAAGAAGGCGCTATATATAGTGATTCCAAATATTCCCTATGGAGTGCTACACACCTTTGGAAAGATCTGGACAGAG
Celera SNP ID:            hCV26786565
SNP Position Genomic:     168338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29327):
ACACTACCTTCATAGGACTAACAAATTAGCCACAAGATTAGAAATAATGGTTTAGGAATCACATAGCTGGAGACTGAAAGATTCGAAACCTCCCCAGATT
S
CTTCTGGGGATAAATCACTATTGCAAAACCTAAGATCAGTGCTTGAGATATTTTGCAGATGCTGTACAGGATGGCTCAGCTGCTACCACCCAGACTGATA
Celera SNP ID:            hCV26786638
SNP Position Genomic:     145969
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29328):
TGTTTCCCCTTCCTCTTCTATTCATTATTTTCCAGTGTAATTGAAATTAGATACATGAATTTTAATTGATTTTTTTTCTTATTCTTACATTAAATATCTT
S
TTTTTCAAGAATAATTTTTGCCCGTACGATTTAATTTTGTCATATTTACCACAATCTTTTAGAAAAATGTTTGACTGGTAGTAATGTTATCTGGAATTCT
Celera SNP ID:            hCV26786496
SNP Position Genomic:     187163
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29329):
ATAATACTGAGATATAAAATACTGCTACTGAGATATATATATATCTCAGTATTATTCTTATATATGTATTTCAGTAGTAGCATTTAATATATATATCTCA
R
TATTTTATATATTGAGTATATATAATATATATCTCAGTAGTAGTTTTTTAATATATATATATCAGTGGTATTATTATATATTACTATTATATTAATAGTA
Celera SNP ID:            hCV8373261
SNP Position Genomic:     97994
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29330):
AAAACTTTTGTTCAAGTTCAGTTTCTGCCTCTGGCTAGCTCTGTGAGTTTCTGCAAGTCATTCGAACTTTCTGAGCCTGACTTTGCATCCCCAAAACGCC
R
GTGAAATTAATTCCTTCCCAGACACCCCACAGGGGTTTTATAAAAATGTTACAAGCTAATCGATAGAAAAGTATATGAAAGCTATAAAGCCTTCTGCAAG
Celera SNP ID:            hCV11287028
SNP Position Genomic:     304409
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29331):
AGAATGCAATCCCACTTACAAGAGCCACACACAAAATAAATACATAAATAAAACACCTAGGAGTACATCTAACCAAGAAGGTGAAAGATATCTACAAGGA
K
AACTACAAAACACTGATGAAATAAGTTATAGATGACACAAACAAATGGAAAAATATTCCATGCTCATGGATTGGAGAAATCAATTACTAACATGTCCATA
Celera SNP ID:            hCV8373337
SNP Position Genomic:     80781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29332):
CTCCAAAAGACTCCTAGACCTGATAAATGGCTTCAGTAAAGTTTCAGGATACAAAACTAACATACAAAAATCAGTAGCACTTCTTAATACTAATAATGTT
Y
GAGCTGAGAATCAAATCAAGAATGCAATCCCACTTACAAGAGCCACACACAAAATAAATACATAAATAAAACACCTAGGAGTACATCTAACCAAGAAGGT
Celera SNP ID:            hCV8373338
SNP Position Genomic:     80662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29333):
CCCAAAGGGAGAAGGCAGCTTAGGAGAGCAACACGTATAGGACTTATCTGACACTCTAAAGAAGAGATTGGTAAACTACAGCTCATGGGTAAATCCAACT
S
CCTGCTTGTTTCTGTAAAGTTTTATTGGAATACAGCCACACTCATTTGTTTACATATTATCTATGTCTGTGTTTGCACTGAAACAGCAGAGTTGAGTAGT
Celera SNP ID:            hCV2730310
SNP Position Genomic:     297244
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29334):
TTAAAAAGAATCAGAGTAAACAGACAAAGATAAACATGAATAAAATTGCAGAGGAGGAAACATCATTCATTCATTCAATCAATCATTTCTTTAATCCATA
Y
TTACTGAGAAACAAGGCATAGTAGAAAATAGGAAACACAAGATTAGATGGAGTGGTAAATGACAAAAACAAGTCTGCCGTAAGGAGACTCTGAGAAATGC
Celera SNP ID:            hCV2730311
SNP Position Genomic:     297761
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29335):
TTTTATCTTCATGTTCATCTCCCCTTGTAGGCATCCTCTTTTATAGTCATTTGTTGACCATTTCTTCTCATCTTTACTTATCACCAGCCTCCCATATGTT
R
TCATTCTGACTAATTCTACCTTTTTTTTTTTTTTTTTGTCATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACCATCTCGGCTCACGGCAA
Celera SNP ID:            hCV8373269
SNP Position Genomic:     92913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29336):
AGAACCAGAAAGCCACTATGGTGGATAGGGAGGGGAGACAGGGCAGACAGGGACAAGATGAAGTTCCAGAAGGAGGTAGAGGCCAGGTCATGAGGGCTTT
R
TCAGCCAGGACAGGGTGTTAGGGTGTTGATCTACATGTGTTGGGCAGCCACTGAGGGATTGGAATCAGGGAGGTGACATAATCTGATTAGCATTTTAAAA
Celera SNP ID:            hCV2730312
SNP Position Genomic:     298016
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29337):
TGGGAGAAGGAAAGGGTTTCCACAGGAGGTTGGGGCTGCCCGGCCAAGGTGGTAGTGCTTAAGTATGGTAAATAAGGTAGTCACGTGGGAGAGTACCCTG
R
CAGAGGAGATCAGAATCGAAGCCCAGGAAGAACGTTATGTATGAGAAGGGTGGAGAGAATAGTGGCTCAAGTAAGGCCAGAGCCCAAGAATGGTAAGCAG
Celera SNP ID:            hCV2730313
SNP Position Genomic:     298419
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29338):
AAAGATGCATAATTTGAATCTAATCATTAGGAAACCTCTGATAAAACCAAATTGAAGGACATTTTGCAAAATTACTGGCTTGTCATCCTCAAAAATGTCA
Y
GGTTAGGAAATTCAAGTAGAGATGGAGAGACCATTTCAGACAGAAAGAAAATAAAGAAACATGACAATTCAGTGCTGCATGTGATTCTGAATTAGATTCT
Celera SNP ID:            hCV2730314
SNP Position Genomic:     299808
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29339):
AGTAGAGATGGAGAGACCATTTCAGACAGAAAGAAAATAAAGAAACATGACAATTCAGTGCTGCATGTGATTCTGAATTAGATTCTTTTGCTATAAAAAG
Y
GTTATTGAGATAATTGGCAAAACTTGAATGGCGTCTGAGAGTAGATGGAAGAATCAAATGATTGTATTGTGGTTATGTAGGAGGATGTCTTTATTTTGGA
Celera SNP ID:            hCV2730315
SNP Position Genomic:     299923
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29340):
AGAATGCTACTCTGCAGTGGAAGAACCAAACACTTGGTAAATGGCTTGTGGATGTTTCTTGATGTGCAGAACCTCCGTTGGATGGCTCCTGAGGTGTTCA
Y
GCAGTGCACTCGGTACACCATCAAAGCAGATGTCTTCAGCTATGCTCTGTGTCTGTGGGAAATTCTCACTGGCGAAATTCCATTCGCTCATCTCAAGCCA
Celera SNP ID:            hCV16181264
SNP Position Genomic:     209969
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,88|C,1397)   total(C,1397|T,88) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:29341):
AAAATGAATGGGTTGAAACTCAAGCAAAAGACAATGAAGTTGGAGCAGCCAGCTGGACTGCTGTTTGAGTAATCCAGTTGATTACAACACACAGACTACA
R
TGGTTACCATGGAGATTCAAGGGCAAGGGTAAACCTGAGAACTATTTCAAAGGAAACATCATAAAGAGGTAAAAGACTGGATTTCAGAAATGGAAGAGAG
Celera SNP ID:            hCV15752861
SNP Position Genomic:     238367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29342):
TTGCAGAGTTTGAGGCTGGACTTCTCCAGGCTCAAGATTCCATAGCTTTTGAACTTTCCTTGGATTATATGTTGTAAGTAAGCCTGCTTCATTAAAAGCT
S
TCATATTTCCAGGAGGCTCTGAACATTCCGAATGCAGCAATCTACCATCCTGGCAAAATAAAGTGCTGCCTACCCCACGGTCTTTCTTTTTCAGGTTTCT
Celera SNP ID:            hCV25757116
SNP Position Genomic:     245777
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,3)   caucasian(C,34)   total(C,61|G,3)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:29343):
CATTTCCAAGACAAAGTGCCTTGAATAGGCTTAAGTCAGCAAACTACAGAAGAAACAGGATATACTAGGCCCCTGCTGGATAGCTGATGCCTGCTTGTCA
R
CAACCCCCTTTCCCCCATTAGCTGCCCTCACCCAAACCAAAGAAGTTTAGTCTAAGATGAAAGTTTACTAGCCTGCAAAATAGCTCACTTTTGTCTGTTC
Celera SNP ID:            hCV26786574
SNP Position Genomic:     165002
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29344):
GCAAAAGTTGGAAACATTTTCCCCAAGAACTAGTACAAAACAAGAATGTCTATTCTCACCACTCCTATTCAACATAATACTGGAAGTTGTAGACAGAGCA
R
TTAGGCAAGAGAAAGAAATAAAAGGCATCTAAATGGGAAAAGAGGAAGTCAAATTATCTCTGTTCACTGACCATATGATTTCATATCTAGAAAACCCTAA
Celera SNP ID:            hCV8373345
SNP Position Genomic:     80455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29345):
ACAATATACAAATAATCAATGAAATGAAAAATTGGCTTTTGAAAGGATAAACAAGATTGATAGGCCACTAGCCAGATTAACAAAGAAAAAAAGAGAGAAG
R
CTCAAATAAGTGAAATCAGAAGTGACAAAAATAACAACAACTGATTCCACAGAAATACAAAAGATTCTAAGGGACCACTATAAATATCTCTGTGTACACA
Celera SNP ID:            hCV8373346
SNP Position Genomic:     79278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29346):
AAAACCTCTGGGCTTCAGTAAAAGCACTGTTATGAGGAAACTTTATACTGGTAAATGCCTACATCAAGAAGATAGAAGGATCTCAAATTAACAGCTTAAT
R
TCACAACTGGAGGAGCTAGAAAAACAAGAACTTAACCTAAAGATAGAAGAAGAAAAGAAACAACTAAAATCAGAGCAGAACTAAATTATATTGAGACCAA
Celera SNP ID:            hCV8373347
SNP Position Genomic:     79076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29347):
CTTTCAAGCCATGTAAAATAGTATACGTCTGTTATAATTCACCAAATCAAAGTTCCCAAGTTTGCAAAAGCCACGCTCAGAAGAATGTGATTTTAAAAAA
W
TGATTCCTTTTGGACTGCATACCCATCTGAAGTCTTCTTTGGAATGCAATTCAGTCAGAAGCAATTGTGGCACTAGCAAATATTCTGAGAATTCATGAAA
Celera SNP ID:            hCV2730320
SNP Position Genomic:     304705
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4)   total(A,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29348):
CATTTCAAATGAAATGTATTTAGACAAAAGCTACTAACAGCACACTGAGTAGCAGTGGTAACGTATAGCCAGATATGCTGTGGCATGTATGTAAAAATCA
S
GCATTCAGCCCTGGCCAAATGTTGGACACGTCAGATAAGGAAGCTAAAAATCTCCTGCCTAAATGAGGACTGTGTAATTTCACTCTGCCTTTCCAACATG
Celera SNP ID:            hCV2730321
SNP Position Genomic:     305420
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,10)      total(G,10|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29349):
TGCAGCATTTTGTTTTAATTATTGTTGATGTCTAAGGTTCAACTTAACTCTGTGGGAATGTCATCTATATGAAATACCTTCACCATTTGAAGACTGTGTC
W
GTTGTCGATATTCAGTCAGTCACAATTGAATCTAACCACTCGTCATCTGGAACAGATCTCCCCTTCTTACTTACAAAGCAGTCAGGAGTAATTCTGTCCA
Celera SNP ID:            hCV2730322
SNP Position Genomic:     306168
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,9)   total(A,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29350):
ATTTTGTTTTAATTATTGTTGATGTCTAAGGTTCAACTTAACTCTGTGGGAATGTCATCTATATGAAATACCTTCACCATTTGAAGACTGTGTCAGTTGT
Y
GATATTCAGTCAGTCACAATTGAATCTAACCACTCGTCATCTGGAACAGATCTCCCCTTCTTACTTACAAAGCAGTCAGGAGTAATTCTGTCCAACACTC
Celera SNP ID:            hCV2730323
SNP Position Genomic:     306174
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29351):
CTAGAATCCAGCTGTATGTTCTAGCCTATTGATTTCCCCTTATTATTTATCTTCATCAAAAAAATAATAAAGTAAATCTAGAATGATTTTCTTTTCTTAA
K
GTATCCATGGTAGCTCCTAGTAATCAGTGTTTTTCTAAGAGTGCAGAAAACTTCTGTTTAAATCATTCCTTTCTGAAGCTTTGCCTATAATGTACATTAA
Celera SNP ID:            hCV2730324
SNP Position Genomic:     306377
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29352):
CCAGGAGGCTCTGAACATTCCGAATGCAGCAATCTACCATCCTGGCAAAATAAAGTGCTGCCTACCCCACGGTCTTTCTTTTTCAGGTTTCTAAATGATC
Y
GTCAAGGGTTGCAGACTCAGAGGCCGATGTTGCTTGATGGCTATTTTCCTGTAAAAGTGGCATTTCTTTTCTGGACCCCACAATGGACATGACCTTTATC
Celera SNP ID:            hCV2332906
SNP Position Genomic:     245886
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,19)   caucasian(C,15|T,19)   total(C,26|T,38)
SNP Type:                 NONSENSE MUTATION;INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:29353):
AGAGGACTTGGTATATCGGCTTGGGGAATTGCAGGGGAATGCTGTGGTAAGGCTTTTATTATAATAAGACCCTTTGGGGGGAGTATTGAATGACTGGGGG
R
TAGAATGTCATTTAAGGATCTATTAATTCTATTAAATGCTCCAAAAACTCTTTTTTAAGCTTCTCTTATGTACCAGGCACTGTTCTGAGTGTTGAAGATA
Celera SNP ID:            hCV2730325
SNP Position Genomic:     308742
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29354):
CAGGTTTCTAAATGATCTGTCAAGGGTTGCAGACTCAGAGGCCGATGTTGCTTGATGGCTATTTTCCTGTAAAAGTGGCATTTCTTTTCTGGACCCCACA
R
TGGACATGACCTTTATCTCGTTTTCCTGAGTTAAGTGGCAGTTGCAGTATCCCTTAGTGTGGTAATTTCTTGCCTCATGAGCACACAGGGGTTCATCGAA
Celera SNP ID:            hCV2332907
SNP Position Genomic:     245969
SNP Source:               Applera
Population(Allele,Count): african american(A,20)   caucasian(A,7|G,1)   total(A,27|G,1)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,1)   caucasian(A,14|G,8)   total(A,39|G,9)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:29355):
TCAAGAGACAGAAAGAATGCCAAAAAGAAGAAGCATTTAGCAAAAGATGTGGAGAAGGGTATGGGTTGAAGTTTGAGAAGTAGGAAGGACCAGAACCTTA
Y
AGGTAGAGCATTTGTATTTTATTCCAAATGAACTGGGAAGCAATTGAAAAGTTTTAAGTAGGTGAATGATGTAATCTGTTTATATTTTGAAAAGATCACC
Celera SNP ID:            hCV2730326
SNP Position Genomic:     309305
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29356):
TGGCAAACTGCAAAAGCCCAAAGAGGAAAAGATTCGTCTAGGCCTTGAGGCTGGAGAGAGATGGATAGTTTAGGATTATATTTTGGAGGCAGAGCTAAAA
K
GACTTGAATTGAGTGAGAAATGTGAGGGAAAGAAGCTATTACCAAGGAGGACTCCAATAATTTTGGCTCAAGGTAACTGAACGATGTAATACTGGTAACT
Celera SNP ID:            hCV2730327
SNP Position Genomic:     309569
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,7)   total(G,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29357):
TTTAGGATTATATTTTGGAGGCAGAGCTAAAAGGACTTGAATTGAGTGAGAAATGTGAGGGAAAGAAGCTATTACCAAGGAGGACTCCAATAATTTTGGC
Y
CAAGGTAACTGAACGATGTAATACTGGTAACTGAAATGGAAAGAACTGGCTTGGGTGCTGGGAGAATTAAGAGTTCTTCTACAGTCATGGTGAAGTTCTG
Celera SNP ID:            hCV2730328
SNP Position Genomic:     309637
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29358):
CTGGTAACTGAAATGGAAAGAACTGGCTTGGGTGCTGGGAGAATTAAGAGTTCTTCTACAGTCATGGTGAAGTTCTGGGGGGAACTAGGGTAGTTGCTTT
R
AGAATGACAAATGATGAATGGATGCTAGAGAGATTATAGATATACAATTAACTGACTGATGTAGTTAGATGCTAGGATGAAGATTTTGATAAATTCAGGT
Celera SNP ID:            hCV2730329
SNP Position Genomic:     309761
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29359):
CCTAGTCAAATTTCTTCTTGATCAGAATGTCATAAACATCAACCACCAAGGAAGGGATGGGCACACTGGTAAGACTGTGGTGAAAACACCACTAGTTCTA
K
ATGCTTATCAATGATTAAGAATAATGGTATGCAAAGGGATGTGGGGGCATTGGGAGTGCTCAACTCCAGTGGGAAAGGGTATTTTATCAACTGCCAGCAT
Celera SNP ID:            hCV26786727
SNP Position Genomic:     123862
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29360):
TATGTCCACAATCAAATTTCCATTGGAGTCCTGTGGGGCAAGAGGCACTGGAACATCACAGGCCAGTAAAATTGCATGTGGTATGTTAGAAAGCTGATTA
Y
GGTCATAAAAGTATTACAAGCTTATGGAAGCATCTACCTATGCCTGAAATGAAGTCTCATTTTTAGCCTGGATACAGTAAATATTTTGCTGTAGAAGGTA
Celera SNP ID:            hCV29321444
SNP Position Genomic:     312700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29361):
TCTACTCTATAGCTTAAGGAAGTGAGGCCAAAGATGCAGTCATTTTTAAGGCAGGTAGAAAGAATTAATCAGTGTGAACTGATGTTAGCTTTCAGGAAAA
W
CTGATGTCTCCAAATGAACATTTTGTAATAATTTAATTTTATTTAATTTAACATACATACTTTTATTTTAAGTATTTGCAGAGTACTGGCTAACCCCTGT
Celera SNP ID:            hCV29321445
SNP Position Genomic:     307905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29362):
GTGTTTAGGAAGATGAATCCATGCATGCAGCTTAAAAAATTTTACACAAGATCAGAGGGTTGAGAGGAATAATAAATTTCTCATTTAGAAAGTTTAGTGC
R
TGTGTATCTCATGTTTTAGCATCATAGCAAGGTAACAGCAAGCAATTGTTGGATAAAGGAAAGTATCATTTTTTTAAAGATGAAGCAAACATGAGAAAGC
Celera SNP ID:            hCV29321447
SNP Position Genomic:     302571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29363):
TTAGTTGAGCTCTCCAAGTCTCAAATTTCTCAGCTATAGGATGAAAATAAGAATATCATCTTCTTCATTAGGTTGCAATGAAGGTGACGTGAGAATGCAA
Y
TTCTACATGTCTAATATGTGGTAAACACTAAATAAATATAAATTGGATATTTTTTTCTGTTTTCCATTAGCTCATGCATTTTAGTCTTTAACATTCCTCT
Celera SNP ID:            hCV29321448
SNP Position Genomic:     296976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29364):
TAAAGCAAGTCTTAATAAATTTCAAAAAACTGAAACTATACCAAGCATCTTCTCAGACCACAGAGGAACAAAATTAGAAATCAATACCAAGGAAAACTCT
K
AAAACTACACAAATACATGAAAACTAAAAAACTTACTCCTGAATGACTTTTGAATAAATAATGAATTAAGGCAGAAATCAAAAAATTATTTGAAACAATG
Celera SNP ID:            hCV8373354
SNP Position Genomic:     78856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29365):
GAGCATGTGTGAGTGTGCATGAGTGTGTAAGTATATGTGTGATTATGTGTGAGTGCCTGTATGTGTTTGTGTACATAGAAAAAAGTACAACTCTTTTTTT
W
AAAAAAAAAAAAACTCCTTCCTCTCATGATATTCCAAATACTTTGTCAACATTTTATTAAGTCCGTTGCTTCTAAGCCCCACATTAAGTGTGTGTGGGTA
Celera SNP ID:            hCV15773132
SNP Position Genomic:     310985
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29366):
CATTGCTTTCACACCACATATATGTTGCTTAATGTGATATATGTTGGTAATCAGGCTAATGGAATTTTCTTGCCTTATTAAAGCTGTTTGCTTTAAGTTT
Y
TCTACAATTGCCTTAATTTTCTACACACCTGGTCAAGAGATAGCATTTCAAAATAATCGAGGGAGCTAAAACATGCACACTACTTGAAAAATAATATATT
Celera SNP ID:            hCV2332911
SNP Position Genomic:     260152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29367):
GCTAGGATGAAGATTTTGATAAATTCAGGTTTTGAGTCAGATGAACTGGGAAGGAAGTGACCCCATTTACCAAATCGGCAAAAGAGAAGGAGGAGTTTGA
R
AAAGGAGAAGGATCAATACAGAGTAGGAATCATTAGGAAATTCATATTTGATAGTAGATAAACACATCAGCTTTGGAATCTAAAAGATGAGGATTTGAAT
Celera SNP ID:            hCV2730330
SNP Position Genomic:     309932
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29368):
TTGCTTTCACACCACATATATGTTGCTTAATGTGATATATGTTGGTAATCAGGCTAATGGAATTTTCTTGCCTTATTAAAGCTGTTTGCTTTAAGTTTCT
Y
TACAATTGCCTTAATTTTCTACACACCTGGTCAAGAGATAGCATTTCAAAATAATCGAGGGAGCTAAAACATGCACACTACTTGAAAAATAATATATTCT
Celera SNP ID:            hCV2332912
SNP Position Genomic:     260154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29369):
CATACCCAAGGTTATACCGCTAGAAATTGTAACCTATGCTTAAGAGCCAGGACTCACACTTGGATATGACTTAAACCAAATAATTCTGAACTCTTCCCCA
R
CTAGTTACTGTTAAGATAAAAGCTGCTTTGTATCACTTTGCCATTTCTCTGGGATCTATGTTGAGTGGAAAAATTCTGTGTTTATAAAAATGTTATTATC
Celera SNP ID:            hCV2730331
SNP Position Genomic:     310470
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29370):
ATATTCCTCTCAAGGTCTGTCTTTGGAGGAGATGAAAAGAAGTCTTCAATACACACCCATTGACAAATATGGTAAGTAGGCAGATTCTTTAGGTTTGTTA
R
GAAAACTACCCCTAGGAAGGTGATGTCTATTTGACAAAAAGGGAGAAAACATTGCATATTGTAATATCCAAAATGACAGATGCTTTAAAAATATAAAAGT
Celera SNP ID:            hCV2730332
SNP Position Genomic:     310721
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,17|G,23)   total(A,48|G,30)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,12)      total(G,4|A,12) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29371):
TTAAAGCTGTTTGCTTTAAGTTTCTCTACAATTGCCTTAATTTTCTACACACCTGGTCAAGAGATAGCATTTCAAAATAATCGAGGGAGCTAAAACATGC
M
CACTACTTGAAAAATAATATATTCTCAAATGGAAATAAGTGTTACTGGTGGAGGAAGACATACATCACACATAGAGGATCATATATGCATTTGCATATGC
Celera SNP ID:            hCV2332914
SNP Position Genomic:     260229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29372):
GGAAGCCAGAGGATGGACAATTGCCTTTATCATCAGCTGCGATATCAATGTGTTAGGGCTGGGATGTCCTTTTACCAACCTTTAAGCCTGAGAGGCACTA
Y
GTTTAATTGGAATTTTAGCACAATGGGCCCATTTATCCATTGCAACTTCCTTTGACTATTTGAAGGACTGAAAAAGTATCTGTCAGTTAAAGAGATCAGA
Celera SNP ID:            hCV2730333
SNP Position Genomic:     311412
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29373):
TGGGATCCTCACCAATTCACCTCATCTGCAGAGACTCATTACCTAAGGCATTAGAAACCTTTTAAGAAACAAAGAAAAATGTATGTTCTGAATAGATGCA
N
ACAAACTATTTGGGCACATTTAAAAAAGGGAAATTTTGTGCTTCTGACTCCCAATACATGTCTAGAATGCAGATGAGTGCTTTTTATCATCAGTTTTACA
Celera SNP ID:            hCV2730334
SNP Position Genomic:     311700
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|C,-|G,-|T,-)   JBIC-allele(A,320|G,1155)   total(G,1155|A,320) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29374):
GGTGGAGGAAGACATACATCACACATAGAGGATCATATATGCATTTGCATATGCAGGGAAGGGGCAACAATAGAGAGAAATAGCATCAACCTGAGATTGC
M
CCACTAAGTCTCAAAGTGGAACCATCAAGAAAAGCAGGATTTTTTTTCTAAAAAAAAAAAAAAAAAAAAAAAAAACTCAACTAAGAGTCATTGGACCTAG
Celera SNP ID:            hCV2332916
SNP Position Genomic:     260376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29375):
TGACTCCCAATACATGTCTAGAATGCAGATGAGTGCTTTTTATCATCAGTTTTACAACATAATTGGCCAGTCCAGTAACAGATCCTTTTGAGGGGGAAAA
Y
GCACTCCAAGTGTCACATCCTCACATTTTTTTAATAGACATAATATCTTTTCTTCAAACCTTTACAGATGTATCTTCATAAACACAAAACATAGGGCATC
Celera SNP ID:            hCV2730335
SNP Position Genomic:     311845
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29376):
GACAAGAGACCTTTCTTATGAAAATAAATATTTCGATCCAACTGCATACTGCTAGATGTCTTAATGAAAATGTAGATGACTGGGTTGGTTATGAAAACTC
R
GCTATCAAAGGGGAGCAAAAGCAGCAATAGCTATTGACAAATGTGCTCACTTTCATGAAGCAATGAATGGCTTTCTTGCTTCAGAGTGAAAAGAAAACTG
Celera SNP ID:            hCV2730336
SNP Position Genomic:     313103
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,6)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29377):
ATTGCTTTCTTTTTCTTTCAGAAAAAATGAACTTCTAAGATTATGTTTTTGCATGCTTAGCACATTAAATTTCTTTCTACGTGCATGCAGCACTGAGCTC
R
CTCCGAAGATGTTCAATTAACTGTAATTGTAAGCCAAATTATAGCAGCACCAGGAAAGAGTTATTCCAACAGAGTGATTATTTGGGTTAAATTATTTCCA
Celera SNP ID:            hCV2730339
SNP Position Genomic:     317329
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 hmCS


Context             (SEQ ID NO:29378):
ATTAGATAGATCAACGAGACAGAAAGTCAACAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAAGCGGACCTAATAGACATCTACAGAACTCTCCAC
S
CCAAATCAACAGAATATACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATAGTTGGAAGTAAAGCTCTCCTCAGCAAATGTAAAAG
Celera SNP ID:            hCV29321450
SNP Position Genomic:     220292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29379):
ATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTTGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGG
W
TATTGGTCTAAAATTCTCTTTTTTGGTTGTGTCTCTGCCCGGCTTTGGTATCAGAATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTT
Celera SNP ID:            hCV29321451
SNP Position Genomic:     219266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29380):
GAAAGAAATTGGTAGTGTGAAAGTTAAAACTTCAAAATAAACATGATGAAGGTATTTGTGATAAATTAAATCATCCCTTGATGACTATAAATGACTCACA
R
AAATATAGTTTACATTGATCTCATTTGGACAGTAGTTTACTTACTTTGCTAACCTTAACTGTATATTAAGGATATGTACTCATTGTCAAGACAAGGGAGA
Celera SNP ID:            hCV9512932
SNP Position Genomic:     157329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29381):
ATAAAGCTGGTAAGTGACAGACTAAGGTTATTACACACACTAGATAGTTAGGTAATCCAAAATATAGGAATGTATAGTCATTTAGCCCCACAAAACAGGA
R
CAGTAGTCAGATAATCCAAAATATAGGGATGTATAGTCATTTGGCCCCACAAAACAGGAGCAGCACTGACTGAATAGCAATGCAATGTATTTTTCAGATC
Celera SNP ID:            hCV9512933
SNP Position Genomic:     154478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29382):
AAAAGAGTATAAAGATTCCTCAAAAAATTCAAAATATGACTACCATGTGATCCAACAACCTCATTTCTGGGTATATATTCAAAAGAATTAAAATCAGCAT
R
TTGAAGATATATCTGCATTCCCATTTTTTAAAAATGGTGTCTCATTCTATTGCTCTCTCATTCGTATTGCAACATTATTCACAATAGCCAAGATGTGAAA
Celera SNP ID:            hCV8373435
SNP Position Genomic:     58856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29383):
CTCCTCACTCAGCTTCCAGAGTAGCTAGGACTATGGGTTTGTGCCACCATGCCTGTCTAATTTTTAATTTTTTTTTATAGAAATGGGGTCTCACTATGTT
K
CCCGGGCTTGTCTCAAACTTCCTGCCTTAACTGATCCTCCTGCTCCAATCTCCCAAAATGCTGGGATCACATGCATGAGCCACTGAACCCAGCTGACAAT
Celera SNP ID:            hCV8373363
SNP Position Genomic:     75142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29384):
GTTGCTTGAAATAAACATGTGAATTTCAAAACTGACATGACCATTTGGTTTGCAGCGGCTGCGGCAGCAGACATGGCTTACCACCACATCAGACCTCCCA
Y
TGGCTATTCCATTCCCAAGCCCATATCATCTCTGCTGATACGAGGGTGGAACGCATGTCCTGAAGTGAGTAATTTTTATTTCCTCTTAGAAAATGTGTTA
Celera SNP ID:            hCV27474081
SNP Position Genomic:     233848
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,45|T,1238)   total(C,45|T,1238) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:29385):
AGGTAGATTGGATTTTTCTCTTAAAGTTTGTAGGGAATCAGTGTCCATAAATAAAAAGGGAATGAAAACTGTGACTGGAAACTGAGAATGTTGATGGACA
R
TGATTCAGCTCTGAGCTGCTTCGGCTTTTCTTCCCTGGTCTTTCTATTGTCCAGCAAATGAAACACACTATAAAACCACAAGAAAAAAAAACAAAGTATT
Celera SNP ID:            hCV11730720
SNP Position Genomic:     17109
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,167|G,1308)   total(G,1308|A,167)   (A,-|G,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29386):
ATCTTTAGCATAGCTGCATAAGATAAAAGTTTTATTTTGGCAGTATTCAGTTAAAAAGTATTTAGATCAATTAGAGGTCAATCTTGAGAAATCCAACCAA
R
GTATGAAAGGATAAATTATTACTCTTAACTTTTGACCTTACCATTTGCCCATTCTGAAGGAATCCTAATATACTTTAAAAAAATTCCACAAATATTGACT
Celera SNP ID:            hCV11730723
SNP Position Genomic:     38365
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29387):
ATATTTATTTGGAAGGTACTATAGGTATTATCAGAACAATTTTAAGGTGGTTACAATTACTCTTTTTTTATATAATCAAGGAAATTAGCAAAAAGGAGTG
W
CAGAACTGCTCCAGTGCACATAGTCATTGTGAGAGCTGAAATTCTAATTAGGGAGGCTAATTCTATGACCTGCATCTTAACCCTGCCTTATATGCAGCTC
Celera SNP ID:            hCV11730724
SNP Position Genomic:     39284
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,9)      total(A,9|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29388):
TCAGTGGGAAAAAAAAAACAAAACTTTTTTTTTAAAACGGAGAAAACATAAGTTTATAGTTCAAGCATATAGAGCCAATGAAAGAAGAAAGGTTGAAGAC
K
CAATATTTATTTCACTTTCTTGGGAGAGCAGGTAGAAAAACGGGAAGATTTGGAGACTATAACATTAATTTTACTATTTGTAGCTCTTTACCAAAGTTTT
Celera SNP ID:            hCV11730726
SNP Position Genomic:     41058
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,8)      total(G,8|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29389):
TATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCGGGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAATTTGAATGTTG
R
CCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCTGTCACTTTCAGGTACACCAATGAG
Celera SNP ID:            hCV26786747
SNP Position Genomic:     121979
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29390):
CACCGTAATCTTGAACTACCAGGCTCACATGAACCTCCTCACTCAGCTTCCAGAGTAGCTAGGACTATGGGTTTGTGCCACCATGCCTGTCTAATTTTTA
W
TTTTTTTTTATAGAAATGGGGTCTCACTATGTTGCCCGGGCTTGTCTCAAACTTCCTGCCTTAACTGATCCTCCTGCTCCAATCTCCCAAAATGCTGGGA
Celera SNP ID:            hCV8373370
SNP Position Genomic:     75108
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29391):
GCCCTCAAGGATGACTTTGAGGGATTTAAGACTTCAGTGGAAGAAGTAACTACAGATGCAGTGGAAAGAGAAAAACTAAAATTACAAATGAAGCCTGAAG
R
TATGATTGAATTGCCAGACTCTCATGACAAAACTTGATTGGATGAGGAATTCTTCTTATGGATGAACAAAGAAAGTGGTTTCCTAAGATAAAATCTACTC
Celera SNP ID:            hCV8373371
SNP Position Genomic:     74462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29392):
GTTGTAAATCAGAATTTCTATAGCTTGTTAAAGTCACATCCTCAGAGTTTGGAAACCTCTGAGCTCACTATGTCTCAGGAAGATGGGAAATTCTTCTTCT
W
CTTCTTCTTCCCCTTAATTAGGAATACATTGTAATAATAATATTTTCTATGTGACCTTTGAATACAGTAGTAAAATAACAAGTGGGGGCTACTTACTTTT
Celera SNP ID:            hCV8373444
SNP Position Genomic:     54697
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,361|A,1130)   total(A,1130|T,361)no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29393):
ATTCATGGGAGGAGGTCAAAATACCTACAGTAACAGGAGTTTGGCAGAAGTTGATTCCAGCCCTCAAGGATGACTTTGAGGGATTTAAGACTTCAGTGGA
R
GAAGTAACTACAGATGCAGTGGAAAGAGAAAAACTAAAATTACAAATGAAGCCTGAAGATATGATTGAATTGCCAGACTCTCATGACAAAACTTGATTGG
Celera SNP ID:            hCV8373372
SNP Position Genomic:     74403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29394):
GAAAAGCTTTATAGGCTAATAAAAATGTAAATGAGATGTTCATCAGCTTGCTGCCCTGGAAAATGATGGAAGAAACATTACCTGAAAAATTAGATTCAAC
R
ATTATTGCTAACCAAATCAACCTGATATGAGAAATCCCTTTGTAACCATTTGTGTTAATTTGCATCCTTATGTCAATCTTTCTATGCACTGAATTTGCTT
Celera SNP ID:            hCV8373448
SNP Position Genomic:     54253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29395):
AGATAAAGCATGAATATATGAGGCAGAAGGACATTTCTGGCTGAAGAAATAATGTGAACAAAGCCTCAAAGGAGCAGGAAGCTGGATGCAGTTTGACTCT
R
CAATTGGGTTTAGGAAAGAGACTAATGAGAAATACATTTAAAACAAACACTGTCAGATTGAAGGGACCTTGAATGTCATACTAAGGAAATTTAGTCTTTA
Celera SNP ID:            hCV27493824
SNP Position Genomic:     101648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29396):
CTAAATCCACTTTGCCCATGCTCTATGAATGGAACAACAATGCCTGGATGACAGCCCATCTGTTTACAGCATGGTATACTGAATTATTATTATTATTATT
W
TTATTTTGATATGGAGTTTCACTCTTCTGCCCAAGCTGGAGTGAAGTGGCATGATCTTGGCTCACTGCAACCTCCACCCCCAGGTTCAAGTGATTCTCCT
Celera SNP ID:            hCV8373379
SNP Position Genomic:     73696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29397):
GAAATTATAGGTTATAATTGAATACTATAAAAAAATGCCAGATTTTAAAGTCACATTTTAATTGTTATTTTAACTTTTGATGACTGCATTGTCTTTTTAC
R
ATATTAAAAATGTGTAAAGAAACATAGTTATCTTTTTAAATACTCAAATCCTAAAAGATTGTACTGAAAATAACAATTATTAAGCTATAAGATTTCCTAG
Celera SNP ID:            hCV16122143
SNP Position Genomic:     125647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29398):
GAAAGACTTAATAACTGCCTGGCTTAGGTTTGAATTACAACTGGGTTATCTTGGGTAAGACATAGTCTCTCTGAGCCTTGGTTTCCTCATATATAAAATG
R
GTTGTTAGGTGGGGCAAATTTTGTAAGTTTTGTAAAGTATCGAGTAGAGTCCCTGGCGCTTAGCAGGTATGAAACAATTTTGTTTTCCCACTGTCCTTAA
Celera SNP ID:            hCV15773156
SNP Position Genomic:     300799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29399):
GCTAGTGGATAATAAGCTCATTGGGAGTTAAAATATAAAGTGACTGTCTTGCTGCAAAATAAAAGATATGATTAGTCTTGTTCTGAAATGGCAAAGTGGT
R
TCCAGTTGTGTCTGTGAGCCTTTTAAAGGAATAATTAAAACTGGGATACACATTTTAGAAGAGAGAGATTTGAGTGGTGAATAAGCTGAAAATCACGTAA
Celera SNP ID:            hCV11730804
SNP Position Genomic:     261420
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29400):
CATGTTGACCAGATGGTGTCGATCTGTTGACCAGGATGGTGTCGATCTCTTGACCTCATGATCCGCTCACCTCAGGCTCCCAAAGTGCTGGGATTACAGG
Y
GTGAGCCACCACACCCAGCCAAGTCCAACAGGTGTTTTAAACATCTGAAAAACTATCACATGGTAAAGGGAGTGGCCTGTTCAATATGGGAAAAGACTTG
Celera SNP ID:            hCV11730805
SNP Position Genomic:     261894
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29401):
GCCAGTCCTCATGTCCCCAGACCTCTCTCTGGCCCCCATGGACCCAGCATCCAGGCCCATGTCGCTGCCAAACTAGCCCCTGTAGCCTGTGGCCTCAGGC
Y
TCAGGCTCATTCTAATATCAGACCAGCCCTCACAGCTCCAGGCCTGCTCTGGGCCACCCCAGTGCCAGGAAGGCCCCCATAAGTCAGGCTGCAGGCCAGC
Celera SNP ID:            hCV11730733
SNP Position Genomic:     56972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29402):
ATGCCTAATTTAGGTAACTAAGCATTTTAAGCCTTTCTACACTTTTATAATATTTGTAATTGAAAAAAACCCAGCACCAATATATAAATAATTAATTTAC
Y
TTCGAAATACTGCTGTCAGAATTATGATGCAAACTCTGCATCACATTTTTGCATACCTTTTAACCCAGGAAATTCACTTCTAGAAATTTATTTTACGAAA
Celera SNP ID:            hCV11730734
SNP Position Genomic:     60861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29403):
CTACAAAGGACGTGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTTCCACATTTTCTTTTTTTTCTTTTTTTTTTTTTTTTGAGA
Y
GGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGTTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTC
Celera SNP ID:            hCV26786754
SNP Position Genomic:     216081
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29404):
CCTAATTTAGGTAACTAAGCATTTTAAGCCTTTCTACACTTTTATAATATTTGTAATTGAAAAAAACCCAGCACCAATATATAAATAATTAATTTACTTT
Y
GAAATACTGCTGTCAGAATTATGATGCAAACTCTGCATCACATTTTTGCATACCTTTTAACCCAGGAAATTCACTTCTAGAAATTTATTTTACGAAAATA
Celera SNP ID:            hCV11730736
SNP Position Genomic:     60864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29405):
TTTTTTAATCAATTTCTGCTTTTATCTTTCTTAACTTCATATAATTTCACTACTGTTTTTCTAATTTCTTAAGATGGATGCATAGCTTAGCTTATTAATA
Y
TTAGCCTTTTTTTTCTAACAGCATTTTAGGCTACACATTTGTAAGTTCTGTTTTTGGCACATTTAAGTTGTAATATATTTTGTTACTGTTCAGTTTAAAA
Celera SNP ID:            hCV11730737
SNP Position Genomic:     62822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29406):
TTCATCCATGTCCCTACAAAGGACGTGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTTCCACATTTTCTTTTTTTTCTTTTTTT
Y
TTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGTTCCGCCTCCCGGGTTCATGCCATTCTC
Celera SNP ID:            hCV26786759
SNP Position Genomic:     216068
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29407):
AGGACAGGCTGATTCTCTTGTCAGCAACTAATGCAGCAGGTGACTTTACCTAGAAGTGAATGCTCATTTACTATTCTGAAAATCTTAAGTCACTTAAGAA
S
TGTGCTAAATCCACTTTGCCCATGCTCTATGAATGGAACAACAATGCCTGGATGACAGCCCATCTGTTTACAGCATGGTATACTGAATTATTATTATTAT
Celera SNP ID:            hCV8373380
SNP Position Genomic:     73591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29408):
ATACAAATTTTATGTATTCAGACTAATCCACTGACAGGCCATTTTCCCATCTCTCTTTCTCTCCTTGGGCCTACCTATTCCCTGAGACACAATAATATTG
M
AATCATGTTAATTAATAACTCTACAATGGCTTCTAAGTGTTCAAGTGAAAGGAAAAATCACATGTCTCTCACTTTAAATCAAAAGCTAGAATAATTAAGG
Celera SNP ID:            hCV8373381
SNP Position Genomic:     72830
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29409):
GGGAGAAGAAACAAACAAAGCCATCTGGTTTGAGAAAGAAAGGCTCTTTCCTTTTCCTTTTCTTTTTCTTTTTCCCTTTTTTTTTTTTTTTTTTTTTTTT
T
TTTTGAGATGGAGTCTTGCTCTGTTGCTAGGCTGGAGTGCGGTGGTGCGATCTCGGCTCACTGCAACCTCTGCTTCTCGGGTTCAAGTGATTCTCCTGCC
Celera SNP ID:            hCV27032909
SNP Position Genomic:     313465
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29410):
CTCCAAGGAACAGGAAGGTAGTGAATGATAGTCATGGCACTGTATGAAACCATGAATTCTGAACCTCACCGTCTGGGAGATTTTTTCTGTATTAGTTCAT
Y
TTGCAAAGATTTAGCATGACATTGGCACACAAATGGGTTCTGAATCATTTAGTCCTACAATATTTAGAGAATATATTTCTTCAACCTCTGTTTATAATAA
Celera SNP ID:            hCV27480732
SNP Position Genomic:     22745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29411):
GATGCCAACCTTAGCTTTTTATTCCTCTGCACAACTCCAGAGCTCAGTAGTGTCAAAATGAATGTCATTTATGATCAGCATGTCTCTTTCAGTGCAAAAG
R
CATTGAAATGTGTAATACTACAACCATATTCCCCTTACATACCAGCATCATATGATACAATTTTTAACATTTTCTTTTTGTTGCACGCAAGTATTACATG
Celera SNP ID:            hCV27480733
SNP Position Genomic:     109618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29412):
ACTCCAGAGCTCAGTAGTGTCAAAATGAATGTCATTTATGATCAGCATGTCTCTTTCAGTGCAAAAGGCATTGAAATGTGTAATACTACAACCATATTCC
S
CTTACATACCAGCATCATATGATACAATTTTTAACATTTTCTTTTTGTTGCACGCAAGTATTACATGCCTCTTATTCAATTATTTTATAAAGTCAAGAGA
Celera SNP ID:            hCV27480734
SNP Position Genomic:     109651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29413):
AAGGCTCTACTAGAGAAATAGATAAGATATATATTTGGAAAACAGTATGGATAAAATAATACAGAATATGTTTCAAATATAACTGAAAAGAACGTTGTGG
R
CATGGATCTTTTCATATTTAGATCACCTAACTACTTATAGTAAAGTAAACATTTAATAGGGAACTCACAATAAAATTAGTAGTTCATCAGCATCTATTAA
Celera SNP ID:            hCV27480735
SNP Position Genomic:     207244
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,161|G,1328)   total(G,1328|A,161) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29414):
CTTGGGACTTGCTTAACAATATATCTCTTTGGATTAAATTACATAGAGTTTTAGGAGTATCTCCTCTATCTTGTAAGCATTGCAACATGAATATTCTACA
R
ATTTCTTTTATATAAGAATTCTTGTTTAGCAGTTCTGGATTTCCTAGTGCCAGCCTTATACAACCTGTCATTCAAATCCTTAACGATGGGTTTATGTGAA
Celera SNP ID:            hCV11730814
SNP Position Genomic:     305106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29415):
CATCATATTTTGATCTATTTTTTTGTACGATATTTTGTACATAGTGTTCCTCAGGCTCACAAGGCTTGGATGATGAGCTTGTAATAAAATGTCTTTGCCT
R
TGAGGGTGTAAGCCATTGTCTTCTTTTTCTATTGGAGGCTGCCATGATTCATTTGTTAAACGCTTCTCAAGACTTTCTCCTGCCAAGGCTGAAGCGGGTG
Celera SNP ID:            hCV2730299
SNP Position Genomic:     242426
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,23)   caucasian(A,16|G,22)   total(A,31|G,45)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;JBIC-allele(A,481|G,1012)   total(G,1012|A,481)
SNP Type:                 INTRON


Context             (SEQ ID NO:29416):
AACTTAGCCAGGCGTGGTGGTGCACGCCAATAGTCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATTGCTGGAACCCAGGAGGCAGAGGTTGCAGTGAGC
Y
GAGATCGAGCCACTGCACCCTAGCCTAGGCAACAGAGCAAGACTCCATCTCAAAAAAAATGATGGGGAGGGGGTTGATATAGGAAATTAAGAATGACCCA
Celera SNP ID:            hCV11730743
SNP Position Genomic:     71840
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29417):
GCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACTATGGCGTTTTCTAGATATACAATCATGTC
R
TCTGCAAACAGGGACCATTTGACTTCCTCTTTTCCTAATTGAATGCCCTTTATTTCCTTCTCCTGCCTGATTGCCCTGGCCAGAACTTCCAACGCTATGT
Celera SNP ID:            hCV26786763
SNP Position Genomic:     119403
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29418):
TCTAGGGTTTTTATGGTTTTAGGTCTAACATGTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCACCTTTC
Y
ACATGTGGCTAACCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATAGTTGTAG
Celera SNP ID:            hCV26786766
SNP Position Genomic:     118678
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29419):
CTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGTCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATG
R
TATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATGTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGG
Celera SNP ID:            hCV26786767
SNP Position Genomic:     118560
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29420):
CATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAA
Y
CCTCTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTGCTAATTCTAGATCCCTGAGGAATTACCACGCCGACTTCCACAATGGTTGAAC
Celera SNP ID:            hCV26786768
SNP Position Genomic:     117967
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29421):
TAGCCTTTATTCTCTTCTTATATGGGGGACTAATTAAATTATTGATCAAATAATAAAGAAAAGGGTATCCAAAACTATCTAAAATAATTATATTCAAAAT
K
AATGTTTTTGTTGGAGTATTTCTTTGAAAACTATTACCATTGACTTTTGACCAATGTGGGAGTTAGGAGCACTGATCCCCTGTACAGTTGAAAATCTATA
Celera SNP ID:            hCV8373461
SNP Position Genomic:     44529
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29422):
TATAGCATACTAAGGAGTTCCCTGAGCAATTTGGAGGTAAAGCTGAGGAAGGACTAAAACTCTACTTGATGTAAGAATGGCCCCATCATGGTTTACCATG
Y
ACCCTATCCTATCCCGGGAGAGATAAACAAGAAGGGAGCTTCACAATCAAGGGTGTCTATTTGAATAGGTCTACTTTTGGATACGCCCAATTTAAATAGT
Celera SNP ID:            hCV9512961
SNP Position Genomic:     127722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(C,200|T,1297)   total(C,200|T,1297) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29423):
TATTTTTTAGCTACTGAACACATTGGGGTAAAATTTAGCTGTATAAATGAGCTTTGGATAGTCAATTCAGTCAATTTTCTAACAGTGTATTTAATCATCA
R
TTAACATAAAGGTAGCTAGATATACAGAGGCTTTATAGCAGCTCAGTTTCCACAACTTGCTATTTTAACCTTGGGGAAGTTACTGAATCTCATGACCTCC
Celera SNP ID:            hCV8373462
SNP Position Genomic:     42511
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29424):
CCAGGGAGAAGAAACAAACAAAGCCATCTGGTTTGAGAAAGAAAGGCTCTTTCCTTTTCCTTTTCTTTTTCTTTTTCCCTTTTTTTTTTTTTTTTTTTTT
Y
TTTTTTTGAGATGGAGTCTTGCTCTGTTGCTAGGCTGGAGTGCGGTGGTGCGATCTCGGCTCACTGCAACCTCTGCTTCTCGGGTTCAAGTGATTCTCCT
Celera SNP ID:            hCV27032910
SNP Position Genomic:     313462
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29425):
TGCTTAACAATATATCTCTTTGGATTAAATTACATAGAGTTTTAGGAGTATCTCCTCTATCTTGTAAGCATTGCAACATGAATATTCTACAAATTTCTTT
T
ATATAAGAATTCTTGTTTAGCAGTTCTGGATTTCCTAGTGCCAGCCTTATACAACCTGTCATTCAAATCCTTAACGATGGGTTTATGTGAAAGTGGTTTC
Celera SNP ID:            hCV27032916
SNP Position Genomic:     305115
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29426):
TGCTATAAAGACACATGCACACATATGTTTATTGTGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTA
M
GAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATT
Celera SNP ID:            hCV27032917
SNP Position Genomic:     304071
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29427):
GAAACTGGATCCCTTCCTCACACCTGATACAAAAATTAATTCAAGATGGATTAAAGACTTAAACGCTAGACCTAAAACCATAAAAGCCCTAGAATAAAAC
Y
TAGGCATTACCATTCAGGACATAGGCATGGGCAAGGACTTCATGTCCAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATGGGATCTAAT
Celera SNP ID:            hCV27032918
SNP Position Genomic:     303354
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29428):
TTTCCTTCTTGGTAAGATGGTAGGTGGGAAAATGAGGAAGTGAGGAGTGGGCCTTATCACTGTCATGCTACCAAGAACTCAAAAAGTTTTTTTTTTTTTT
T
CCTGGATGATAGTATAGAAGGTGAGGGATATGAAAGATTTTGCTATAGAGTATGTTCCTCAGTTTTAGCAGTCAAGGCATGCAAAGTCTGCCTCTTAATG
Celera SNP ID:            hCV27032919
SNP Position Genomic:     301120
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,6)   total(-,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29429):
TAGTCCTTTATAGAAGCTTTACAGTTCTGAAGCTAGTAAGTATTGATTACTCTAGTCAGTCATTTGGTCAACAACTATGTTTGAACATATATGTTTAAAG
W
CTATTTTCAGCACAGTAGAGCTTACAAAGTGGGACGTTCATAGACTACATTCAGGGAGTTTTCACACTCTATGTAGAGGAGAAAAATATTTACCTAAATG
Celera SNP ID:            hCV288002
SNP Position Genomic:     141762
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|T,7)      total(A,4|T,7) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29430):
TATTCCACATCAATCACTTTCATTTTATGATAGTCAATAAGATTCAAATAGATTGTGTATATAGTCCTTTATAGAAGCTTTACAGTTCTGAAGCTAGTAA
R
TATTGATTACTCTAGTCAGTCATTTGGTCAACAACTATGTTTGAACATATATGTTTAAAGTCTATTTTCAGCACAGTAGAGCTTACAAAGTGGGACGTTC
Celera SNP ID:            hCV288003
SNP Position Genomic:     141701
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29431):
ATATATGAGAATTTCAGTTGCTTCCCACAGCATCCCCAATATTTGATATTATATTACTATACTTTTTAATAGAGTTTGAGTGTGATCCATTTGGGAAAAA
R
AAAGCTTTAGAATACATAGAAGGACTTCAGAATCAGTTGATAGAATAGAATTTCCTTTCATTTTTATTTTCTTAATTATAAAATAAATTTTGGAAAGTTT
Celera SNP ID:            hCV11730756
SNP Position Genomic:     108751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29432):
GTTGTCAAATCTCTGGAACTGCCAGTTCCTTGGTTCAAAATTCAGATTGATATTTAGTTAATAAAGCTAATCAATGTTTTTTATCTACCCATAAGGAATA
Y
ACAAAGTATCCTAGAGACAACCGTGGCAAGAGACTAAGGTAATTTCCAGTTTCCAAGTTGTAAACAAGGGCCACTTTATTTCGTAAAATGTAAGAAACAT
Celera SNP ID:            hCV11730757
SNP Position Genomic:     109162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29433):
ACCTCTTTCAGCATTTACCCTCAAATTCAAAATGAGGATATTAATAACCACTTTACAGAATTCTGACGAGGTTTAAGGATAAGATTTAAGTGCTTGGCAC
R
TAACAGAGTCTCAATAAGAATGGCGGCAGCTCTTATTGGTAAGTGCAGAGCAGAGATTCAATCGAATCCACATAACTCCCAAATTTCATGGTCTTTCCTA
Celera SNP ID:            hCV11730758
SNP Position Genomic:     129752
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29434):
GTTTAAGGATAAGATTTAAGTGCTTGGCACATAACAGAGTCTCAATAAGAATGGCGGCAGCTCTTATTGGTAAGTGCAGAGCAGAGATTCAATCGAATCC
R
CATAACTCCCAAATTTCATGGTCTTTCCTAATTTATAACATGTACAGTTAGAAATTTTAATATATTAGGATAATAGGAATCCGCTATAAACCCTCTGATG
Celera SNP ID:            hCV11730759
SNP Position Genomic:     129822
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29435):
TGTCCTTAGAGCATGTCCTTTCTCCTGTGTTGAAGTTTACCTGTACATGCCTATGGGTTTTTTTCCTTGTTTTGAGGCAGGGTCTTAATCTGTCACCCAG
S
CTGGAGAACAGTGGTAGGATCACAGCTCACTGCAACCTCTACCTCCTGGCCTCAAGAGATCCTACTGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGCA
Celera SNP ID:            hCV27032920
SNP Position Genomic:     300392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29436):
GATGGGCATTAGATTGTCAACTTATCTCAAATGCTTCAGAAGAATAAACACTGTATAATTGTGGCAACTTTTCTTTATGTTTAAGATAGTTTTTAAATGA
R
AAGTTTTTTTAAGAAAGTTCATATATTCACTTCAGCCATTTGATTCCAAAGTCTTTGCACATGCCCCTGCTTTGCTCTCTCCCTGGATGACCCCACCCCT
Celera SNP ID:            hCV27032921
SNP Position Genomic:     300148
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29437):
ATAAAATTTGGCTGAGATGCAGAATATTTATATAGTCTCAAAATACCTCCTCACAAAATACTTATTAATTACAAAGAGAAAAAGAGTAATTTTATAGTGT
R
GAAGCCTATCAGACATCACTCAATCAAGTAATCAAAATTAACAACACAATAATGGGACAAATCAAAATGTGATGGGACACAATGAAAGAAACAACATCCC
Celera SNP ID:            hCV27032922
SNP Position Genomic:     299588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29438):
AAAGATGGTGACATAACAAAGGAATACATTGAAGGCACCCCAGGTGGTCAACTATGAGTTAATTTGAGTATAAAATAAATGATGACAGTGACATCAATAA
W
ATTGTAACTATAAGTTCATATAGATATAAATAAATGATAGAAGTAAATAAAATTTGGCTGAGATGCAGAATATTTATATAGTCTCAAAATACCTCCTCAC
Celera SNP ID:            hCV27032923
SNP Position Genomic:     299441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29439):
AGGAAACAAGGCACTTGAAGAAATGACAGACTTTAAGGCTGACACAAGGAAGGTACAAAACAAGAAAATAAGCCTGAAACATCTTGCACCAGAAAGGAGA
R
AGATACAAAGAAAGATGGTGACATAACAAAGGAATACATTGAAGGCACCCCAGGTGGTCAACTATGAGTTAATTTGAGTATAAAATAAATGATGACAGTG
Celera SNP ID:            hCV27032924
SNP Position Genomic:     299330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29440):
ACCTGGCACATAGTTACTGTTCAATAAATGTTAACTATTTTATGAAATATGTATTCTAATGCAATAAATCCTTACCTTATCTCTCTCACACACACACACA
T
GTAAACGCATTATGTATGTGTGTATGTGTATATATATATATACACCTATATATACATATATGCAGTCAAAATTAAATGCTACTATTTCCATAAAGCCTTT
Celera SNP ID:            hCV27032925
SNP Position Genomic:     291864
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29441):
TACCTGGCACATAGTTACTGTTCAATAAATGTTAACTATTTTATGAAATATGTATTCTAATGCAATAAATCCTTACCTTATCTCTCTCACACACACACAC
A
TGTAAACGCATTATGTATGTGTGTATGTGTATATATATATATACACCTATATATACATATATGCAGTCAAAATTAAATGCTACTATTTCCATAAAGCCTT
Celera SNP ID:            hCV27032926
SNP Position Genomic:     291863
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29442):
CAGTGGCTCACGCCTGTAATCCCAGCACTTTCGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAGCCCC
R
TCTCTACTAAAAATACAAAAAATATTAGCCGGGCATGGTGCCTGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCTTGAACCCGG
Celera SNP ID:            hCV27032927
SNP Position Genomic:     280708
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29443):
TTTCAAGGCAAGCACAATCCAAGTTCTTTAAATATAGGTCCAGGAAAATTTGCAAATATCACACATGATGAGCAGTTTTTAAATTTCTTCACCCCCCCCC
C
ATCTTTTTAACACAAAAATACATAAAGGATTCAATTAAGACCAAGTTCAATCCCAATGTCTCCTCCTGTAGGAAGTTGTCCTAAATACCCTCAACTAGTT
Celera SNP ID:            hCV27032928
SNP Position Genomic:     277608
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,3)   total(C,1|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29444):
CTTCCAGACTGTTGTAAGATTCACCATTATACACATTCACATCATGTACCTTTTCTTCCTAGAGCTTGGCTAAATAAAATTTGAGTGAAATTATATTTAT
R
TAATTTTTTCCACTAGATAGCATTGAATATAAAAGTAAATAATATTTCTTTTTCAACCCTCTCACTCATACCTAGTATCATTCATTCGTTCAACAAAAAT
Celera SNP ID:            hCV11730760
SNP Position Genomic:     131885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29445):
ACTTTTCAATGCTTCTGGAAAGTGAGTTTTTAACATAATGGGAAGGGGATATATTAAAATATTGAACAAAGCCTAATATTTATCATTACTGTGAAAGTTT
S
ATTATTTGGGCCAGGTATAAAGTAAGGCCTAGTCTGTTCCTTTGATGACCTGAGCATGTGAGACATGAGGTCAATGAGAATTCCTTCTGTAACTGAGACT
Celera SNP ID:            hCV11730761
SNP Position Genomic:     132755
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29446):
CATTTTATTTAATTAGTGGAAGTTTGATTATCTCTGGAGGTATTCCATTAGTGTGCCTTGGTTATCTGGGTGTATCCATTATCAGGAGTTTGGCTTAACA
M
GTCCATTTAGTGAGCTCCATTAAGGTTTATTTTTCTGCCTAACTCCTTGTGGCCAAGTGTCCAGGAGCTGGGCTTTAGTGGGTTTCGGGTTTCTTTCCAT
Celera SNP ID:            hCV11730762
SNP Position Genomic:     133615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29447):
AAGTGGAGCCAAGAGAGCTGTTGAAATGAAAGGTAACATCAAGGGTGTGATCACTAACTCACACAGGCGCTCAGGATTCAGGATGCAACTTTCTGCTTCA
Y
TGGGGAAAGCATGAGGCCCTCTCATCTGTCAGCCGATGTCAATTCTATATAGGGGCTGAGATAGACTGGAAGGTGGGCTCTGTGAATTAAGCTTTGTTGT
Celera SNP ID:            hCV11730763
SNP Position Genomic:     134079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29448):
ACACAGGCGCTCAGGATTCAGGATGCAACTTTCTGCTTCACTGGGGAAAGCATGAGGCCCTCTCATCTGTCAGCCGATGTCAATTCTATATAGGGGCTGA
K
ATAGACTGGAAGGTGGGCTCTGTGAATTAAGCTTTGTTGTGCTTGGGTAAATGTAGGGGTTTGGGTTGTTTTTATTCCCCCAAGAAGTGTCTCCTAGGAA
Celera SNP ID:            hCV11730764
SNP Position Genomic:     134139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29449):
TAACCTGTAGATGACGATCTTTTTAAAAAGTAAAACAGATCATATCCTTTAACTAATTAAAATGCTTCAGGGGCTCCCCATCTCGCCTACCCTACACGAA
W
ATCTCATCTCCTTATCCTCACCTGTAAAGCTCTACATCAGTCGCAGTCAAAGTGCAGATTGCTGATGAGCATCACCTGGGACCTTGTTAGAAACACAACA
Celera SNP ID:            hCV11730765
SNP Position Genomic:     135778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29450):
ACATTATCTATTCTCTCTGCCTATTAGGTGCTTCCCCTAGAAATTAGTTTGTTGGCTAATGTCCTTAAATTAGTCTTAAGGTTTCCCTGATCGTGAGCTC
R
CTGCAGTCCAAAGAAAGAATGCCAATGGGACTGCCCCCCACGTTATTTCATTATAACTTATTCCTATGATTTGAGAAAATTAGAGATCCACCAGTCATGA
Celera SNP ID:            hCV11730766
SNP Position Genomic:     136225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29451):
TGTGTCCTTGGTCAATTTATTTAACATATCAGTTTTCTAATTTCCAAGACGGTTATATTTAAATGCCTACCTTATTGGATTTAAATGAGAAAATACATTA
S
CATTATTAGCATTATTTTTCTTCTTTATTCTTTCGAAAGAATCTTTTCACTATTAAATTTTCTTGCATGCCCTAGTTGCCCTCCTGAATTAAATGTTTCT
Celera SNP ID:            hCV11730767
SNP Position Genomic:     151844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29452):
GGATTTTTCACCATTTTATTCTCAGTGCTTTGTACAATGACTGGGGCCTAATAAAAATTCAATTAATATTTGTCAGATGAATGAATTAATAATAATCAAG
R
AACATAAGGATAACATATATTAATGTTCTTTATGCCAGGTATTGAACTCAATGCTTTACAGAGATCATCTAATTAAATCTTCGTAGCTCTATATGATGAC
Celera SNP ID:            hCV11730768
SNP Position Genomic:     154217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29453):
AGATAGTTTTTGCTGAAAGAAAGCTGTAATTGTATAATTTCCTATGCTTACCTTTGTTCAAATGTCTCAACAATTGAACAATACAAACAATTTATGATAC
W
TGTTTTCTATTGTGCTTCACATTCTTTAGAATATGTTAAGGAAAAGTGTGATCTTCTGGTATGTAAAACCTACCATGGTGAGAACAAAGAATATACTCTG
Celera SNP ID:            hCV11730769
SNP Position Genomic:     157644
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,9)      total(A,9|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29454):
TGGTACTCATAGAGGTGGCAAATAATCAGCATGGCTGTCATTGTGACGATTAGCAGAAAGCAGTGTGCTGAGAGGAGTGAAGGTATAGGTGAAAGGCAGC
R
GGCACTGGCTTATATTTATTTTATTCTCATAATTGCAGGGCAGTTTTCTTCAATTTTATTCTATATGCTATCTCAGATAATTAAAGCAGTGGAGAAGGAC
Celera SNP ID:            hCV224577
SNP Position Genomic:     163589
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29455):
TCTACAATTGCCTTAATTTTCTACACACCTGGTCAAGAGATAGCATTTCAAAATAATCGAGGGAGCTAAAACATGCACACTACTTGAAAAATAATATATT
Y
TCAAATGGAAATAAGTGTTACTGGTGGAGGAAGACATACATCACACATAGAGGATCATATATGCATTTGCATATGCAGGGAAGGGGCAACAATAGAGAGA
Celera SNP ID:            hCV27032931
SNP Position Genomic:     260253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29456):
ATGTTGCTTAATGTGATATATGTTGGTAATCAGGCTAATGGAATTTTCTTGCCTTATTAAAGCTGTTTGCTTTAAGTTTCTCTACAATTGCCTTAATTTT
Y
TACACACCTGGTCAAGAGATAGCATTTCAAAATAATCGAGGGAGCTAAAACATGCACACTACTTGAAAAATAATATATTCTCAAATGGAAATAAGTGTTA
Celera SNP ID:            hCV27032932
SNP Position Genomic:     260173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29457):
TACAAACACTGCAGACTAAGATATATGAGATTGCCATAATAGCATCTCTTCGTCCATCTGTGAAAGCCCTCTGACTCTTACTATACACCATGGAGAAGCA
Y
ACAAATGTAAGTGCCTTGAGGAAAGAGTCTATGTCCCATCAGTTTTTAAATATCTATCTCCTAGTGTCATAACAAATGCACTAGTACTCTTTGGTGAAAG
Celera SNP ID:            hCV27032933
SNP Position Genomic:     250073
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29458):
GATCTTGAATGCACTGTTCATTTAAAGTTTTTGCGGAAGGGAAGATTTGAAAGGCAAGCAAATCTCAGCATATACTCTCTACATAAGCTAGATGTATGCT
Y
AACCCATGTTAACTACAGATCCTTTGTGATGGATAAGTATTTATGCTTTTTCAATTCCTTAAATTTACCAGTTTTACAATAAGCTCTGTTGTATTTCACA
Celera SNP ID:            hCV8361328
SNP Position Genomic:     136608
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29459):
TTGAGATATGTATAATAATTTACATGAAATAAACATCAAATGTAAATCTGCTCAAATACTCTTCTTATGTAGTTTTTCATTTGTTTAAGGCTTTTTTTTT
T
CAATGTTTGCTTGCTTTTGCAAGACTTGGCAAAACTTTTCTTACTTGTTTTTTCATTCCTTAGAGAAGCATACTCAGTTAATTGTGTCAGACGTATCCTA
Celera SNP ID:            hCV27032935
SNP Position Genomic:     239950
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29460):
TCAAATTATCCATCACTTTCTTTAGACCATTGGGGGAAAAAAGCCTAGAGGTCTCTTTGAATGTCTGCTGATGTTGCTCAGATTGATTTTTAATGCCTTT
K
TGTGTGTGTGTGTCTTCATTTGTTGCTTGAAATAAACATGTGAATTTCAAAACTGACATGACCATTTGGTTTGCAGCGGCTGCGGCAGCAGACATGGCTT
Celera SNP ID:            hCV27032936
SNP Position Genomic:     233726
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29461):
CCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAACAAGAACAAAGACACGACATACCAGAATCTCTGGGAC
R
CATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCCAAAATTGACACCCTAACATCACAATGAAAAGA
Celera SNP ID:            hCV27032937
SNP Position Genomic:     220604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29462):
GATACCCAGGAATTGAACTCAGCTCTGCACCAAGCGGACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTTTTTTCAGCAC
S
ACACCACACCTATTCCAAAATTGACCACATAGTTGGAAGTAAAGCTCTCCTCAGCAAATGTAAAAGAACAGAAATTATAACAAACTATCTCTCAGACCAC
Celera SNP ID:            hCV27032938
SNP Position Genomic:     220326
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29463):
TCCTGGACTCTTTTTGGTTGGTAAACTATTGATTATTGCCACAATTTCAGCTCCTGTTATTGGTCTATTCAGAGATGCAACTTCTTCCTGGTTTAGTCTT
Y
GGAGAGTGTATGTGTAGAGGAATTTATCCATTTCTTCTAGATTTTCCAGTTTATTTGCGTAGAGGTGTTTGTAGTATTCTCTGATGGTAGTTTGTATTTC
Celera SNP ID:            hCV27032939
SNP Position Genomic:     219550
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29464):
CAAATATGTAACCATCCTCAAAGCACTCATGCAACTGAGAGTACTTTGTTGGATGAAGAGACCATGCCCCGACCTCAGTATCAGCTAACTGCAAGGGAAC
R
GACCACAGATACAAGACTCTCTGGCAGTGTTATGGAGAGTGGCTTAGTACAGGAGCATTTGCCATAGGTCAGGAGGAAATTAAAATAGCACAAGCTGGAA
Celera SNP ID:            hCV11730770
SNP Position Genomic:     159536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29465):
CATTTTCTGCCTAAACACAAGCCACTTATAGCTGTTTTCCTGTGTTCTAAAAGCACCCCAGGCACTGTGAAGACACAGAACATGTGGTACTCATAGAGGT
R
GCAAATAATCAGCATGGCTGTCATTGTGACGATTAGCAGAAAGCAGTGTGCTGAGAGGAGTGAAGGTATAGGTGAAAGGCAGCGGGCACTGGCTTATATT
Celera SNP ID:            hCV11730773
SNP Position Genomic:     163505
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,14)      total(G,14|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29466):
AAGGTATAGGTGAAAGGCAGCGGGCACTGGCTTATATTTATTTTATTCTCATAATTGCAGGGCAGTTTTCTTCAATTTTATTCTATATGCTATCTCAGAT
M
ATTAAAGCAGTGGAGAAGGACAGGAATATTGAGTTAGTTAGGGATATAGATAGGATGGAAAAGCATTCTGGACAAAAAAAAATGAGCATAGAAAGGATTT
Celera SNP ID:            hCV11730774
SNP Position Genomic:     163668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29467):
CATACTTAATAGCTAGATGTGAGCACCCTTATGTCACATAAAACAATCTACCTTGTTTCCACGACAAAATACAGTGCATGGGTAGGACATTGAATGCCAA
R
CCGATGACAATTTTCAAGTAGGGATAGGCTTCCTTATGAAGTGCTGGCTTTCAAAAAGACCTTAGTGATCACTGAAACTCATTTACATATACCACCTGTT
Celera SNP ID:            hCV11730777
SNP Position Genomic:     178687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29468):
ATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATCATTTTGAAATACGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAG
S
GTTGTTGAATTTTGTCAAAGGCTTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGCTCTGTTTATATGCTGGATTACATTTATTGATTT
Celera SNP ID:            hCV27032940
SNP Position Genomic:     219034
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,1)      total(G,1|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29469):
TCAGAGAAATGCAAATCAAAACCACTATGAGATATCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATG
M
GGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAA
Celera SNP ID:            hCV27032941
SNP Position Genomic:     217989
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29470):
TGCTAGAGGTTGCAATTTTTTGAATTTTTGCATGAGTGAAAAATCAGACCTTGGCGATGAACTTCAGCAGCATGATATAAATAACTCCCACATGCTTAGC
R
TTCCAATAATGGAACACTAGGAATAAGTGGGTTTAAAAATATCTTTTCTCTATCCATAGTCAGCATCAGTTACTTATCTGCTTTTAGGTGGAAGAGCAAT
Celera SNP ID:            hCV11730781
SNP Position Genomic:     191480
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29471):
AGGCCTTTTCTTGAACTGTCCTTGTGCCTAGGGTTCCAGCAAGCTGGTTCTCTTGCTCTGACTCTAATACGCCCATGATGCTTTTCACTCTTTCCTTGTA
R
CCACAATTGTGTTAGCAAATGAGCCTCAAGGAGCTGAAAAACTGATCTTCAGCTGATGGGTCTTTTTGACAAGTTTAGAGGGTTTGTCTAAAGTAGGAAT
Celera SNP ID:            hCV11730784
SNP Position Genomic:     206205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29472):
GACTGTAGGTTATTTGAGAGTATAGACTCTGCATTTATCTGTTATTAGCTTTGGACACAGCAAATTTCTAAGATGGACATTAGTAAAAAGGTTAAGTAAT
W
TTTATTAAATGTCTAGTATGGGACAAGCATCATGCTAGATAGACGCTTTCCAATCATGATCCTCTTTATTCTTTTCAGCATCCCTGGAACAATGATCTTA
Celera SNP ID:            hCV29234339
SNP Position Genomic:     111803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29473):
AGCCCTGCATATCCAAGGCTGTCAGGGAATGTAGATGAGCTGGTGCTTATGAAAAGTTACTGTGAGGACCCATAACTCCATCCATATTTGCCCTATTCAT
K
AAATTCCTATGGTGGAGCAGAATTAGCTGTATCTACAGGGACAAAGGCAAAGTCAGAGTGAATTCGAGACCTTCCAACAAATAATAGGGCAGGCAAATGG
Celera SNP ID:            hCV22275537
SNP Position Genomic:     259761
SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,29)   caucasian(T,40)   total(G,9|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:29474):
AACTACATTGTAAGCTTCTTAAGGGTAAGACCATAGTCACTTTGTTCACTGCATCACCAGTACCCATTCCCAGTAGAGTGCCTGACATAGTGCTTCGCAT
R
TGGTAGTCTTAAGAAATCATTTTGAACCAAAGAATGAATGAACTAAATTTCTATTGCAATACATTACCTCTTATGATTTGTCCTATGTTGTAAGCTACTT
Celera SNP ID:            hCV16081214
SNP Position Genomic:     137542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29475):
TTTCCTGCCTGGGGACTACACTACCTTCATAGGACTAACAAATTAGCCACAAGATTAGAAATAATGGTTTAGGAATCACATAGCTGGAGACTGAAAGATT
M
GAAACCTCCCCAGATTGCTTCTGGGGATAAATCACTATTGCAAAACCTAAGATCAGTGCTTGAGATATTTTGCAGATGCTGTACAGGATGGCTCAGCTGC
Celera SNP ID:            hCV16081215
SNP Position Genomic:     145952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29476):
ACAATAAAACAAATGGCTTTAGAGCAGTTGATTCCATTATTTTAGTTTTAAAAATTATTAAAGCCAGATTAGGAATTGAGCAGTTTGATGTTCAGTTGTT
W
TTACTTCAGGACTGTAATTATTGACTGTTTAACTAGACTGTAGGTTATTTGAGAGTATAGACTCTGCATTTATCTGTTATTAGCTTTGGACACAGCAAAT
Celera SNP ID:            hCV29234340
SNP Position Genomic:     111667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29477):
ACCAACTTTTTCAGGTTCTGAAGCAGATGAATCATGAGTAAAATAACTTGATAGGTATATATTGAAGCCTAAATGTTTGTATGAGTGTACTTGTCTTAGT
M
CACGTGACGGACAATATACCATATTCCCGTTAGAATGCTGGGAGATACTCTCCCCATCATTACTCCAAAGGTCATACAAATTAGTACATGAATTCTACTC
Celera SNP ID:            hCV29234341
SNP Position Genomic:     98875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29478):
TGAAGGTTAATTTGAAATCAATTATCAATAAATGTTTGATGAATTGAATTATTTAAAAATTCTATCATATAATTAAGTCCTAATTATTAATGTTTATATT
R
CCTTATGCCTGGTGGCATATATACCTTCCAAATTTGTACTTTAACTGTACTGGAAATACATCCAGTTTAACAATTATTGGATGCCTATTACCTACCTACC
Celera SNP ID:            hCV29234342
SNP Position Genomic:     98598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29479):
TGGGTATTGGACAAGGCCCCTACTCCAGACGATTAATCCTCCTTCCCACCACAGGCTCACTCTTTGCATTCTTAGGCAGTTATGACTCTGTAAAAATGCA
R
AAGTTTCTAATGCTTCAGTTGCGGTTAGCTTTTTGTAGTTAAAATTTTAGTAATCAGTTCATAGGCTAAAGCTTTGCTAATCAAAGTCTGATTTATTGAT
Celera SNP ID:            hCV29234343
SNP Position Genomic:     49907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29480):
CAAAAAGGAAACTTAATACCCATTAAGTAGTCAGTCCCACCCAGCCCTCACTGCCAAGACAACCATGAATCTACTTTCCATCCCTACAGATTGGCTATTC
S
AGACATTTTATATAATTGGAATTATGTAATGTGGTCTTTTTGTGACTGGCTTCTTTTATTTTGTGTAAAGTTTTCAAGGTTCATTCATTTTCAGTAAGGT
Celera SNP ID:            hCV29234344
SNP Position Genomic:     49428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29481):
ATTGTAAAGTCAAAAAATTGTAAGCTGAACCATCGTAAGTTAGGGATTATCTATTATTAGAAACATAATAATGTAGAGAAAATGTCAGAGAACACAAAAT
R
GAAGAGTTAAGAGTTCAGTGAGGATAGAGATTGTATTAGTCCATTTTCACACTGCTTATAAAGACATACCCGAGACTGGGCAATTTACAAAAGAACGAGA
Celera SNP ID:            hCV29234345
SNP Position Genomic:     45699
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29482):
GTAAATTAAGCTAGGCAGATGTTGCCACTAGACTTTTTCCTGAAAGGAAAAGCCAGGAGCAAGCTGAGTGAATAGAAATTAAAATATGGGAAACCTTGGA
R
TAGAAAGTTAAATCCATATTTTATGTTATGTCTTCACACCTGTTGGAAGTATTAAACAATTGAAATTGCCCCTCCTCCACTCAGCTGATGTCTCCTGCAT
Celera SNP ID:            hCV22275543
SNP Position Genomic:     262387
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,11)   caucasian(A,40)   total(A,67|G,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29483):
ATTTACAGCCTTGCATTTAGCAGTTTACAAGGTAGGACACTTTAATTCCCATAAACACTGCATTGGAACTAAGGATAGTGTGTATCTTTAGGCTTTTTTT
Y
TTTTTTTTTCAAATTAGTAATCATGGAAAATTTTCAGTGACCAGAGGCGTTACATTACTAAAGGACTTCTTTCTCTTTATTGAGCAGATACCTGCTGCAT
Celera SNP ID:            hCV22275545
SNP Position Genomic:     21451
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,28)   caucasian(C,1|T,33)   total(C,3|T,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:29484):
TTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGAGATACTATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCA
Y
GACATTGATTCTTCCTACCCATGAGCATGGAATATTCTTCCATTTCTTTGTATCCTCTTTTATTTTATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGG
Celera SNP ID:            hCV27933484
SNP Position Genomic:     119074
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29485):
TCTGACTGTTGAAGAAAATCTGCAGAACACACAGTATTTATTTTGGCTTCTGTCTCAGAAGTTTTGGATAATTTCTTAGGAGGCAACAATACCTGCTTGC
R
TTGCTTTGGGAGACTTGACAAGGATTTTTCTGGATGGACTCTGACTTTTCTAAAAGGATGTAAATTTAATTTTAAGTTTTGTCCTTTAATTTTCCCTTTG
Celera SNP ID:            hCV25642230
SNP Position Genomic:     241759
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,39|G,1)   total(A,74|G,4)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,237|A,1250)   total(G,237|A,1250) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29486):
GGGGGGCACGTTTAGTGTTTCGTTGATAATATGGGGTCTGCTTTGAGTCATGTTTCAGAGGCAGCCTCTTTGAAGTGAGTCTAACATAGTTGCTACTCTC
Y
GACTGTTGAAGAAAATCTGCAGAACACACAGTATTTATTTTGGCTTCTGTCTCAGAAGTTTTGGATAATTTCTTAGGAGGCAACAATACCTGCTTGCATT
Celera SNP ID:            hCV25642231
SNP Position Genomic:     241661
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:29487):
ATATGCTTTCTTGGTTTTTGTTGATAATCCTGATAAATCTATGTTGTCCTCACTCATAAGAAATTTTTCTATTGCACTGTTAATTTGGATTTGCTCTTTC
Y
CAGGCTTTGAGTGTTGTCTACGATTTGGCTTCTTTTCTTTCATGTAATCTTCAAATTGCTCACAGGGCACATATTTACAGATAAGAGAATTGTTTGGCTG
Celera SNP ID:            hCV25642232
SNP Position Genomic:     242184
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(C,1|T,21)   total(C,2|T,52)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29488):
TACGATTTGGCTTCTTTTCTTTCATGTAATCTTCAAATTGCTCACAGGGCACATATTTACAGATAAGAGAATTGTTTGGCTGAAAATACCTAGGTTTGCT
S
TGTTTTAACAGTCCACAAGGATCATCATATTTTGATCTATTTTTTTGTACGATATTTTGTACATAGTGTTCCTCAGGCTCACAAGGCTTGGATGATGAGC
Celera SNP ID:            hCV25642233
SNP Position Genomic:     242303
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,4)   caucasian(C,40)   total(C,74|G,4)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,28|G,2)   caucasian(C,38)   total(C,66|G,2)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29489):
TCTCTGTTAATATGTTATATAAGGTAATTGTGTAACATATTAACAGAGATATCTTTTAAAAATTGAAATTTCAGAGAAAAGATGAAAGAGAGAGAAATGC
R
TAATAATGGCATTTTGATTATTCAGGGAAATATACTTGTTCTTAGGATATATGTGATGAAGTATTAGGTGTTGTAGCAACTATGAAAATGTACTGCTCAG
Celera SNP ID:            hCV3260516
SNP Position Genomic:     187604
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29490):
ATATTTCATGTACTTCCCTGTTCAAGCCAAGGTACCCTTCATGCTGCTTCCCGTCAGTGGCTGTGCACAGTAGGTGTACTAATGCAGGCCCATGTCCTCA
R
GAAGTGGGACCCCATTAACAGATGACTTTGGCTCAAGACTTCCCATTGGCCTGGCCAAAACTTACTTAGAAATGTGCTGCGTTCTGAAATTTTTCTCCCT
Celera SNP ID:            hCV3260517
SNP Position Genomic:     187846
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29491):
AAGAATGGCTTGAACCTGGGTGGCAGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGTGGCAGAGCAAGATTCCGTCACAAAAAAAA
W
AATAATAATTTTTTTCTGTCTTCCCACTCTCCTACCCAACAAATATTCTTCCTCTTGATGGCCACAATATGCTTTGTTTACATTAATCATCTCGAGAAAT
Celera SNP ID:            hCV29234366
SNP Position Genomic:     158749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29492):
GTTCCTTCTTGTTTCTGCTGTTGCTGTTTTAAAGTTCTGGGTTTAAATTAACAAAGAATTATTTTTTAACCAGTCCATCTATATTAGTTTCCTGTGGCTT
Y
CGTAACAAATTATCAAAAGTTGGTGGCTTAAAACAACAGGAAGTTATTCTTTCACTGTCCTGGAGGGCAGATTCAAAGTTAAGGTGTCAGGAGGGTGGTT
Celera SNP ID:            hCV3260518
SNP Position Genomic:     189496
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29493):
AAAGCTAAATATGCTTTCATTTATGCATTAAACACACATCTCTGGGATGACTATGATGTTCCAGGAATCATGTTAAGTATAGAAATGATTAAGATACATA
W
ATATTGTATTCACAGATTTCATAATGTATTAAGAGGGTGTGATACAACATAAATGGCTATACATCAAAGAAGAAAATAATAAGGATCTGAGGAGAGAATA
Celera SNP ID:            hCV3260519
SNP Position Genomic:     190366
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,8)      total(A,1|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29494):
GCACAGATAACACAACTCCCATGGAAACTGCTAGATCTTTGGACCTATTCTGTGCCATGGGTACCATGGGTTTGTGGATCTCTGTCTTTTTAATTCACTA
Y
TATATCAATGCACATATAAGTATACATATTTATATATAAATGCCCATATAAACAGACACATTTCCATATGTTTTCGTAATGCTTCCAGCCTTTTAAAACT
Celera SNP ID:            hCV274175
SNP Position Genomic:     148361
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29495):
TATTTTTTTGTACGATATTTTGTACATAGTGTTCCTCAGGCTCACAAGGCTTGGATGATGAGCTTGTAATAAAATGTCTTTGCCTGTGAGGGTGTAAGCC
R
TTGTCTTCTTTTTCTATTGGAGGCTGCCATGATTCATTTGTTAAACGCTTCTCAAGACTTTCTCCTGCCAAGGCTGAAGCGGGTGTTGCATATCTTCTTC
Celera SNP ID:            hCV25642243
SNP Position Genomic:     242441
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,40)   total(A,74|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:29496):
TTTTGTACATAGTGTTCCTCAGGCTCACAAGGCTTGGATGATGAGCTTGTAATAAAATGTCTTTGCCTGTGAGGGTGTAAGCCATTGTCTTCTTTTTCTA
Y
TGGAGGCTGCCATGATTCATTTGTTAAACGCTTCTCAAGACTTTCTCCTGCCAAGGCTGAAGCGGGTGTTGCATATCTTCTTCTAAATATGTCACTGCTG
Celera SNP ID:            hCV25642244
SNP Position Genomic:     242458
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29497):
TGTAATAAAATGTCTTTGCCTGTGAGGGTGTAAGCCATTGTCTTCTTTTTCTATTGGAGGCTGCCATGATTCATTTGTTAAACGCTTCTCAAGACTTTCT
Y
CTGCCAAGGCTGAAGCGGGTGTTGCATATCTTCTTCTAAATATGTCACTGCTGATATCTGTGGAACAATAAATGCAAGAATTTAGCACTTAGCAGAGTTT
Celera SNP ID:            hCV25642245
SNP Position Genomic:     242505
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,35|T,1)   total(C,70|T,4)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,234|C,1266)   total(C,1266|T,234) 
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:29498):
AGGAATAGACTAGTGCTATAGTGATTTTTATAGTATTTCCTGTTGAGGAAATTAAAGGAGGGAGGCTCCCTCCTTCAAAAAGAATTAAACGGAGTGGGAT
Y
TTCTAAAACAAGACAAACTCACCTTCTGTTCTTATTATATGGTGTTGCAGAGTTTGAGGCTGGACTTCTCCAGGCTCAAGATTCCATAGCTTTTGAACTT
Celera SNP ID:            hCV25756807
SNP Position Genomic:     245632
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,27)   caucasian(T,28)   total(C,1|T,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:29499):
ATCAAAGAAGAAAATAATAAGGATCTGAGGAGAGAATACATTCAAATGGCATGGGTGTTAGGAAGAGCGATAAGAGAAAAGACAAAATAATTTAGGGGAG
R
CATGCACTTTGATTCCTTAGTATATAGATATGAAATGAATGAGTAAATAGATTTGGATGCATTTTTTATGCATTTGCAACTACAAGAGAGGTAGAAATCT
Celera SNP ID:            hCV3260520
SNP Position Genomic:     190529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29500):
TGGTGATGTCCTTCACTAAGAGAAAAGAAACAAGCTTTGGTTGAAAAGAAGGAGGGCTCAAAGGCATTATGTGGTATGATATAAAGCCTAAAAGATTCCA
Y
TGGATTTAACCACACAATAGTTTACGTTGAAAAGGTTTATTGGAGTAGTAAAGACAAAATGAGACTGTAGTGGATTGAAGAGGGGATGGTCAGTGAAGAT
Celera SNP ID:            hCV3260523
SNP Position Genomic:     194732
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29501):
TAGTTATAACCATTTAGTCTCAATTGGTGCAGGCTAGAATATTTGGGTAAAGATTCAAACAGCAGGCAAGACAAGCTTGTTTTAAAATAAGGACGAGGAA
M
ATGTTGGTCAGGAAGGGCATAAGGCAGAAGTCATTGGTGTGAGTAGAGCTTCAGGCAGAAGGGCCTGGCTTAGGCATGGCAGTCAATGATTAGAGGGATA
Celera SNP ID:            hCV3260525
SNP Position Genomic:     195538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29502):
TTATCAATTATTTTTACTCATTTGCACTTGAAAAATGTCAATTAATTAAATAATATCAAATACTTATTGAATACATGATATGATCTAGGGTCTATGCTAT
S
CCGTAGGGGTACAGGTGAGAAGGACAGATCATAACACTTTTTCCAGCAGAGCATAGAGCCTAAGGAAGCATTTACAAACTTTCCTGAAGAATCATTTGGG
Celera SNP ID:            hCV29234377
SNP Position Genomic:     147173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29503):
TTATTTTAATTAGGAACTTCATTCATGCCCCAGCATGCACTATGAACTCTTTAGGATATGTTAAGTTACAGTGTGGCATGGCAGGTGATGAAAAATGTAA
R
GGGAAATTAAAAAATAAATTGAGCTTAGGGTATTAGAATACATAAGTGATGCTCAATTGGCAGTGAATTTGACATACACAGTTACTTTAGAAGAGGCAAA
Celera SNP ID:            hCV27498148
SNP Position Genomic:     14517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29504):
TTTAGGATATGTTAAGTTACAGTGTGGCATGGCAGGTGATGAAAAATGTAAGGGGAAATTAAAAAATAAATTGAGCTTAGGGTATTAGAATACATAAGTG
R
TGCTCAATTGGCAGTGAATTTGACATACACAGTTACTTTAGAAGAGGCAAAAGAAGAGAAAATGGAATTTCTCTCCTAGGAATGATTGCTTAAATATCTT
Celera SNP ID:            hCV27498149
SNP Position Genomic:     14566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29505):
CTGTGAGGGTGTAAGCCATTGTCTTCTTTTTCTATTGGAGGCTGCCATGATTCATTTGTTAAACGCTTCTCAAGACTTTCTCCTGCCAAGGCTGAAGCGG
K
TGTTGCATATCTTCTTCTAAATATGTCACTGCTGATATCTGTGGAACAATAAATGCAAGAATTTAGCACTTAGCAGAGTTTTATTACCCCAACCAAACAG
Celera SNP ID:            hCV25642256
SNP Position Genomic:     242524
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,39|T,1)   total(G,77|T,1)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:29506):
TCTACCATCCTGGCAAAATAAAGTGCTGCCTACCCCACGGTCTTTCTTTTTCAGGTTTCTAAATGATCTGTCAAGGGTTGCAGACTCAGAGGCCGATGTT
R
CTTGATGGCTATTTTCCTGTAAAAGTGGCATTTCTTTTCTGGACCCCACAATGGACATGACCTTTATCTCGTTTTCCTGAGTTAAGTGGCAGTTGCAGTA
Celera SNP ID:            hCV25642257
SNP Position Genomic:     245918
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,38)   total(A,1|G,67)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:29507):
TGGCATTCCTGAGCGTGTGAGCAGAAGACTTAATGTAGTTTCTTAAAAACCGAGCAAGGGGATGGAGATCACAAGTGCAGCTCCACTGGTTCTTATCTAA
R
CTCAGAAGGATTAACTGCTTCAGTGGAGTAAACACATCCGGCATGTGGGCTAACCTATTTCGGGAAAGGTCCACTTCCTGTAGTTGAGGCAGGGGCCGGA
Celera SNP ID:            hCV25642258
SNP Position Genomic:     250787
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:29508):
CAGCCTAGCACATACATCCTTTCTTTATATTTTATTTTGTTATGTGCACATCTCTTTCTCTGTGTTTACCACTTTATACTGAAACACTCTCTTCTCTTAC
S
AAATTGTAAACTTCTTGAGAGCAAGCATTTGGGCCTTTAATTCATTGTCTTCCAAAAATTTGAATTCAGTGGATGACTCCTAATAGATATTCATGCTTGT
Celera SNP ID:            hCV1777906
SNP Position Genomic:     131336
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29509):
CACTTAAGTTGTACAGACATGCTGTAAGCTAGGTATTATGTGTATTAATAATAGCTAATACTTATTTAGCAGTTCAGAATTTGCCAAATTCCATCTATCT
Y
TTTTTCATTTTCTTCATTCCTCTTACAATTTTTGAAGATGAGAAAAAGAGTCTCAAAAAGTTAAAGTATTATAATTTGGCCAAAATCACAGGACTAGTAA
Celera SNP ID:            hCV3260532
SNP Position Genomic:     201581
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29510):
TGAGTAGGGGGGAGGAAAGTCATGAAAAAAACTGTTGTCAGATGCTACTTTCATTCCTCTGTAATGTGAGGTTGAAGATAGGTGCAATGTGAGGAGGAAT
R
TGAGAAGGAGGGAGTTTAACTTGTACTCCAGTTTCCAAGTTTGAGCAGTTGCAATGTAGTGAAAACTGTGGGGCCTGTGGCAATTTATATAAATAAATCC
Celera SNP ID:            hCV27498150
SNP Position Genomic:     91453
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,63|G,1437)   total(G,1437|A,63) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29511):
ACAGAAGACTGCCTTTCTCTCAAGATTTTATAGAAGAGCAAATGGATGTAAATAAACCTCTTGGGTGGTCTTTTGAAGGAAAAGAAGTCTGAGAATTCCC
R
TCACCCTTCTATTTCTCTCTTCTGATCCTGATGATTGTCTCCCTGGTGTTGACACTCTTCATGTGCCTGGCTTACTTCCCAGGTCAAATTGCACTTTCCT
Celera SNP ID:            hCV3260533
SNP Position Genomic:     202882
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29512):
TTTCATATTTAGATCACCTAACTACTTATAGTAAAGTAAACATTTAATAGGGAACTCACAATAAAATTAGTAGTTCATCAGCATCTATTAACTATTCATC
R
TTCTCCACTTTAACATTGTAATGTAATAAGTGGTATATCCAAGTATTAATGTTTAAGTAAAATATAAATTATAATAACTGAAGCAAGGATAATTGTACTC
Celera SNP ID:            hCV27498151
SNP Position Genomic:     207354
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,342|A,1145)   total(G,342|A,1145) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29513):
ATTGCACTTTCCTTGTTTGCAGTGATTATGCTTCCTTAACCTACATTTCTTTAAAGAGCCTATGACATAGCATCCAATCTCTTGAAGGGAGGAAAGTTAG
W
CTTTGCCTGCTTTACCTTGGTGGAACAGAGGTATATTGGGTTTATTTCTAATTAGCTTATTGATTTCAGTCTCATTACCTTACAGTAACATATTGAAAAC
Celera SNP ID:            hCV3260534
SNP Position Genomic:     203070
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29514):
ACTGCTCTCAGATATTTTGATGGATCCACTCTACTGCTTTCTTTTTTCTACTCTACCTTCGCACTTTAGTCATTTGGTAATTGCATTCTAAAATTATTTG
R
AAATAACCAGTCTGTGATTTCAGAGCATTAAAATATATGCATAAAAACCTGTACTAGTGCCTTCTACATCCTGCATCAAGTCCAGAATTGTTCTCTAATT
Celera SNP ID:            hCV3260535
SNP Position Genomic:     204548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,9)      total(G,9|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29515):
TAAAATGGGCATCAAAGACATATGGTAAGAAGCATTCAAAGACAATCTTGGACTATCATATGCATGTCTGTAAAATAGTCCACAATTAAATTTACTAATT
M
TGGGGAAGAGTAAGCTCTCTTTGGACTATCTCAGCTTTGATTTACTTCTTAAAAAGGACACTCTTTTTTCTGCCCTTATTGAGGTATAATTAACAAATAA
Celera SNP ID:            hCV3260536
SNP Position Genomic:     205662
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29516):
ACATTTAGATAGGATGAAGGAAAACGTTAACATTTAATAAGAGGCCTGACATGGGAGTAATCTACATGGGGGGAGAGCTATGCAGGTGGGGGCAATAGTA
R
GTGCAGAGGTCCTGGGGCAGGAGAGTTCTTGGTGTGTTCAAACTAACATGGCTGGAGTGAGGTGAGCAAGGAGGAAAGTGGCAGTTTATGAGGTAAGGGA
Celera SNP ID:            hCV3260537
SNP Position Genomic:     208028
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29517):
GCATCCCAGAATGGAAACTAATTTTTTTAACTGAAAAATGTGAAATTACAAATGAAAAGAATGTAAATAATGTCATCGAAACAGAGGCTAGAACTTTGTA
Y
GGAGGGACTTGTAATATTTTATGGGCTTCCTTTCTGGAATATTGCACAAACAGCATTCATAAATAGCACATCTGGGCAGAGAAAGTAAGACAGACCTGAT
Celera SNP ID:            hCV3260538
SNP Position Genomic:     209253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29518):
TCTCCCCTTCTTCGTTTCTACTATTCCAATCTGAAAGTGTAGCGATCGCTGTCTCACTCACTTGGATTTGTTCTGCCCTTTTCCTGTGGTACAAAGGACC
W
GCATGAATCAATTTAAATTGGTCAGAAGAAATAGCCAGCAGCCTGCTTATGTTCAAATCCTCTGCCCTAATCACCAGTATGGAAAACCCATTGAAAAGAC
Celera SNP ID:            hCV29234387
SNP Position Genomic:     128346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29519):
TTCCCAGTGCCTGTCTGGGATCAATCCACTTCTCACACCTCCAGCCCTTGGCAACCAATGACCTCATTTCTGTCCGGATAAGCTTACTTATATACCAATG
Y
CATATAAATGGAATCATGTTGCTTCATTTATCAGTAATTTATTCTTTTTCACTACTTTGTAATATTTCATATTATAGATGTGCCATGATTTATTTATGCA
Celera SNP ID:            hCV3260539
SNP Position Genomic:     211766
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29520):
TGGAGATCACAAGTGCAGCTCCACTGGTTCTTATCTAAGCTCAGAAGGATTAACTGCTTCAGTGGAGTAAACACATCCGGCATGTGGGCTAACCTATTTC
R
GGAAAGGTCCACTTCCTGTAGTTGAGGCAGGGGCCGGAAGGCATCTTTCCCAATGTAGGAAATAAAATTGTTGGATAAATCCAGATACCTGAGACTGTGG
Celera SNP ID:            hCV25642269
SNP Position Genomic:     250849
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 NONSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:29521):
ATGTCCTTTGCAGGGACATGGATGCTGGAAGCCATTATCCTCAGAAAACTAACACAGGAACAGAAAACCAAACACCACATGTTCTCACTTATAAGCGGGA
R
CTAAACAATGAGAACACATGGACACAGGGAGGGGAACAATGCATACTGGGGCCTGTTGGGGAAGGCAGGGGGAGGGAGAGCACCAGGAAAAATAGCTAAT
Celera SNP ID:            hCV3260540
SNP Position Genomic:     221547
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29522):
TCAAATTATAGTCTGGGCCCAAAGAAGAGAGTCTCTTGTTTTCTTTTTGTTTTCCTGTGTGACGCCAGCTGGTTCACAAAGAGATTTAACTCTGTGTCCT
S
GGATTCCTTAATGCCAGGCTCTTAGTAGTCTAGGATATAGCAGTAATTTAAGAACATCTGCCAATTTTTTCTAGGCAGGTTTTGGTGAGACTTCATATTG
Celera SNP ID:            hCV3260541
SNP Position Genomic:     227080
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,6)   total(G,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29523):
AAGAGAGCATGGATTTTGAAACAAAAGACTGCACCAAACATTAGTTATATGTAAAATGTTTATAAATTAAAAACTAGCTCCACACATAACAACAACAACA
M
CACCTACTTTGCATGGTGGTTAGGAGGATTAAAGGAGTTTATGTAGTTATCTACCATGATGCCTGATACAAAATGCATTCAGTAAAAGTAGCTACAAGCT
Celera SNP ID:            hCV3260542
SNP Position Genomic:     232950
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,3)      total(A,3|C,2) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29524):
AAAAGCAATAAAGTCTTGAATATTGGCGAGAAAAGATGAAGAAGAGAGGTAAGAAGTTTAGGAATTTTCAAAATAAGAAACTTAAGTTATTTCCTAGCAA
Y
TCTGAATAGGAAGGGAAACAAAAGAGGCGGGGTATGTAGGCAATATTTATGTTGTTCTAATCTTATAAGGTTTATAAAGCTTATTTATTATTATTATTCT
Celera SNP ID:            hCV3260544
SNP Position Genomic:     238964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29525):
GATTTTGCAGATCTTTATGGGAACAGCCAACTATCCCTGGAAATCCTTAATTTTTTTCTCTTAGAGAAATAACAAGTTTTAAAGACTTCTACTTAAATCT
R
GGATGATTGTCAACAGGACAATTGCAAATGTATGAAACATACCAATATGCATATCAGTTACACTACAGTTAACAAAGCTGAATTTTTATTTTCATACTAT
Celera SNP ID:            hCV3260545
SNP Position Genomic:     239674
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29526):
GATTTCATTTTACAATATTACAAAGAAATTAAGTATAGTATTATAAATAAATTATAAAACCAAGTATAATATCTTAAACAAGAGATGCTGTATATCTTAA
Y
TGATTCATAATTAAGCATTTTCTGATGTAGGAAAGCTATTCAGATTTGTTGAATTTCTAGCTTAACCTTCAAGAAACAAAAAATGGTTAAGATGATATAA
Celera SNP ID:            hCV1482869
SNP Position Genomic:     140573
SNP Source:               Applera
Population(Allele,Count): african american(T,16)   caucasian(C,16|T,2)   total(C,16|T,18)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29527):
GACAAAAATAATAGTAATACCATTAATTGAGCACATGCTAAGAGCTAGGCATTGTGCTCATAATGTACGTTCATCATCTCTTTTAATATTCACAAGAGAC
R
TGATCCATTGGACAGATCCTACTGTCTTATAACTTTTACAGATGAAGGAATGAGCTTTAAAGAAGTTGAATGCTTTCCCGTAGTCACACATCAGCTAAGT
Celera SNP ID:            hCV3260547
SNP Position Genomic:     243563
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29528):
GATACTAGGTATATATCTGTATCCCATTACCAGTCAGGTATGGTCACTTTCCATTAGTGCAGAAAGCAAAAGCAGCAAATGAAGCTTGTAGGCAGGCGGA
R
TGTGCTATTAAGAAGACGTTTGAATTTTCTTTGCCATGGGCATTGTTTCTATTTTTAAAAAGTGTTCTAACAATCTACCTGTGTTGGCAAGAGAAAAAGG
Celera SNP ID:            hCV3260548
SNP Position Genomic:     248141
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)   JBIC-allele(T,508|C,969)   total(C,969|T,508)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29529):
CCAATGAAGTCCATCATGTGATGACAGGTGGTACTCAGGGCTTCCAACTGTTAAATCCCTTCACCATAATCACCTCAGAGCTATCACTGCTCTGTCATTA
S
AAATCAAAGCATTTTAACTCAATAAAGAAGTATTATAATCAGGAGTCATTGTAACACATCTTTATCATGCTAACATTGTTTTGACTGCAAATGACAGTGT
Celera SNP ID:            hCV3260549
SNP Position Genomic:     252086
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;no_pop(C,-|G,-)   JBIC-allele(G,505|C,990)   total(G,505|C,990)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29530):
CCAGTACCTGCAGGCTGTGAAGCTTGCTGAAGGTGTGATCAGTGAGCGAAGAGCTGGATATTTGGTTGTGCTCCAGCAACAAGGTCCGCAACATCGTAAG
S
CCATGCAGGGCATCTTCCTGAACATCCTCGATACCATTTCTGCTTAGGGAGAGCAGGGCAAGATTAAACAAGAGAGACAGGTTTGTGCTCTCAATAGAGG
Celera SNP ID:            hCV25642270
SNP Position Genomic:     251180
SNP Source:               Applera
Population(Allele,Count): african american(C,28|G,2)   caucasian(C,40)   total(C,68|G,2)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:29531):
GTCCACTTCCTGTAGTTGAGGCAGGGGCCGGAAGGCATCTTTCCCAATGTAGGAAATAAAATTGTTGGATAAATCCAGATACCTGAGACTGTGGAGATTC
S
TGCCTCCGAAAGAACTGTCTGTGAGATTAGTAATCTGATTCCCATCCAGCTGGAGCCGGGTCAGGCCGCTTGTGTTTCGGAACCAAGACCCTCGTAGGGT
Celera SNP ID:            hCV25642271
SNP Position Genomic:     250956
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,20)   caucasian(C,1|G,35)   total(C,5|G,55)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:29532):
AAATAGACAATAAGAGTGGAAGGAGAAGAGACTCTCTAGGACTAAGAGTGACTTGAAATATTCCACAGTAAAGTCTGTCTCTATTGTGAGTTTTGAGTCA
R
AAAGTCACTTTGCTTCCAAGATTCATTACTTAATACCTAATGTATACAGCTTTATTGTTTACAAAAGTGCATTTGCACTTAAGTTGTACAGACATGCTGT
Celera SNP ID:            hCV28020094
SNP Position Genomic:     201405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29533):
CTCCTAGTTTAGTTCTCAAGTCACTAGACCGTGCTGTCCATAGCCCTTAGTCCAGTCTACTTCTCATCTATAAAGTCATTTCTCCCAGGTTCCATCAGTA
R
CCCTACTGCTTTAGATGCAGAAACCCCTGATTCAATTTCTTGCTGGAATGGATTTCTCACAAATAAGGATAATCCTCCATTTCATGTTTACTCACTTGGT
Celera SNP ID:            hCV1482870
SNP Position Genomic:     163011
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29534):
TTCTCCTGCCTCAGCCTCCCAAGTTGACTTCACAATAAGTTTATCAAGATATTAAATGCACTGTCCACTTAGGATATTTTCCACTTATAATAAGTCTGTC
R
TAAGTGGTAACTGGATTGTAACTGGAGAGGGCTGTGGGTCAGGGAGGGATTTGAAGGATGGGAGCTACTAGAGCCGGTGTCCATGATAAGGGAATAATCT
Celera SNP ID:            hCV1482871
SNP Position Genomic:     162636
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29535):
TATCTACCAGGCACTGTGCTCAGTACTGAGGTTATAGGATTAAGTAAGATGGCAAAGGTCTCTGCTTTCATGAAGCATACAGATTACAAGTGGGTAGGAG
R
GGTAGGGCAGGAGGAGACAGATAATAATATAAATAAGCAAGGATATTTTAGATATGGTAAGTGCTGTAAAATGTATAGATGTGAGAGTAAGTTATTAGGA
Celera SNP ID:            hCV1482872
SNP Position Genomic:     161139
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29536):
ATAATAATCTGTTTCACTGGTACATCACTTAATCTTACTAATGCTGAACAATTGCAGTTCAGGTTTCTGATTCATTGATATTTCTTCCAGCTGGTGGTAG
R
GTTCAAATCTGCACAAAGTATGTACAAAGATATTAAAGTGATATATTTGTTAAGTGTGTAGCTGGATAAAATGGTGATATTCTTTTGCAATAGCAAAATA
Celera SNP ID:            hCV3260550
SNP Position Genomic:     253303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29537):
ACAAAGTATGTACAAAGATATTAAAGTGATATATTTGTTAAGTGTGTAGCTGGATAAAATGGTGATATTCTTTTGCAATAGCAAAATAACTCAGTTACCT
Y
TGAAGGTCTTTAAATAGTTTTGATTGAGACCATCAGGAACAGGAAAATAAAATATTGCCAGTCTCTTTAGTCATTGTATGAAGTGTACTCATTAAAGGGT
Celera SNP ID:            hCV3260551
SNP Position Genomic:     253416
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;(G,-|A,-)   Gaucasian(G,34|A,50)   African-American(A,29|G,55)   Asians(G,21|A,63)   total(G,110|A,142)   (A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29538):
TTCTTATAAGGGCACCAACTCTACTGGATCAGGGCTTTACATTTATGACTTCATTTAACCTTAATTATCTCCTTAAAGGCCTTCTCTCCAATTTAGTCAC
R
TGGGAGGCTAGGGTTTCAACATATGAATTTGAGGAGGGTCACACTCCAGTCCATAGCAATAGGTAAATCTATAAAAACAAAAAGCAAATGGGTGCTTCTA
Celera SNP ID:            hCV3260552
SNP Position Genomic:     263471
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29539):
TCCTTGCACTACTTAAAATCAACTCTAGGAATCGGTAAAGCGTTTAGCTAAGTTTTAAAATGTGTCAAAATAGAAATTATGTATGTTCTATTCATTACTG
K
ATCCTTAGTATCTATCTAGCAGTATGATTGGCATAAAGTCAGTAAGAAATATTTGTTGGGCAGATAAAGAATAAAAAATTGGATAAATTGGCTCAATAAA
Celera SNP ID:            hCV3260553
SNP Position Genomic:     265747
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29540):
AAATTAGAAAGTTCTATTCTTTGGAAAAGTTTGTGAAGATTTATGTTATTTCCTCCATAAATATTTAATAACATTATCTAGTAAATTTATCTAGGATATG
K
GTTTTCTTTCTGGAAATGTGTTCAAATTATGAATTTGATATTTTCAGAAGATATGGATAGTGGTTTGTGGGAATCTGTTGATACTGACACTGGCTCAGGG
Celera SNP ID:            hCV16119623
SNP Position Genomic:     64848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29541):
GCATAGGAGATGCATGTTCCAGAAGCTTGAAATATTTTGCCAATACTTGTATTTGCTGGACTTCCAGTTTCTCCTGGAAGTCAATCTGTGAATAACTTCG
R
CTATTTCTCCCAAGCCTGCCTTTTCAGCTTGTGTATATGAAGGCAGAGGAAGTGAGAACAGCGATCAATAGGTGTTTAAAGTCAGAGAGCCCAAGGATAT
Celera SNP ID:            hCV3260554
SNP Position Genomic:     266230
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29542):
ATTAGAATCATCTGGGAAGCTTTTACAAGTACCAGTGCCCAGGACCAATTAAACCAAAACCCATGGGGTTGGCACCCAGGCATCAGAATGCTTTAAAGTT
Y
CCCAGGTGATTCCAATATACATCCAAGTATAAGAAACATGCTGAAAGAGAATGATACGATGCTAACCTGCCAGTCATTCTGTAAGAAGGGGATGCAGCTA
Celera SNP ID:            hCV3260555
SNP Position Genomic:     266508
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29543):
ACCTCAACACTGTCTTGAGAAATGATGCATTTACTTTTCAATTTTTGGTCATGAAGTTCACAGATGATAGGTTTGAGTTTTGTAATGCTTGATTTTATGG
R
GTTTTTGGTTGTTTGTATATTTGTTTCTAATTATTATTATTCTTTATAAATAAATTTAGAGGTGCAAAATTGTGTCAGAGATTTTCTCCACAGATAATAG
Celera SNP ID:            hCV3260556
SNP Position Genomic:     266956
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29544):
TAATTGTTCTATTTTATTATTAATTATTGTCAATCTCTCATTGTGCCTAATTTATAAGTTAAATTTTATCATAGGAATATAGGTATAAGAAAATATTATA
Y
TGTATATTGGATTCAGTAATATCTCCAGTTTCAGGCATCCACTGGGGGTCTTGGAATATATCCCTGGTAGATAAGAGGGGAGGGGGCTACTACAATTTTT
Celera SNP ID:            hCV3260557
SNP Position Genomic:     269937
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29545):
CAAAGCTAATCCCTTTCTTAACCCACTCTATCTAGTAGTACAGCGTGTAGATGCAATTTTCTTATTGCATTTGAACTTCCAGAGAGCTCCTGGTGCTGTA
R
AGTTCTCTGACAGGACAGTCTGATTCTCATCATGTGTATTAATTAGTAATTTGTGGTTAAAGACATCATCTTGGAGGTCCCTGTTTTGTTTGACATCCTG
Celera SNP ID:            hCV16143755
SNP Position Genomic:     205087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29546):
CACCTTGAACCCAAGATTGGCCCCTAGAACTGTGCAAAACAGGCAACACTGCAGGGTGGCTCATGGCACTCAACTATTCCTGCACTGATGACATTCCTGT
R
CTGATGACATCACCCACATGATCATCTGTTTATAAGTCTGTCTCTTTAAATGGTGAGGAAAGAGAAATAAAGGTGTAAAAATCCAGCCATCATAACAAAA
Celera SNP ID:            hCV16143756
SNP Position Genomic:     282774
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29547):
AAGAACATCAAACAAAATATTCTGTTCAAAAGAGGAGGTGATGAAAATGGAAAATTAATAAAAGTCAAGATATGAGAAGAGCCCTACGTGTGTAAAATTG
R
CACCTTTAAAAAAAATTTAAGTACCTGGATTTATTGTCACACATAAAAGATTTGCATGAAAAGAGTGAGCGAGTGACATATTTAGGTTACAACATATCCA
Celera SNP ID:            hCV3260559
SNP Position Genomic:     275006
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29548):
TGATTTGGAAGTTCAACCTCATGTTGTTAATATCTATGGAGATACCCCCTTACACCTGTGAGTATTATGTAGCATTCCATAGGTTCTCCAGGTATACTGC
R
TGTACTTGCTTACAATATTAACAAGATATTTTCTTCAAATCTAGGGCATGCTACAATGGCAAATTTGAAGTTGCCAAGGAAATCATCCAAATATCAGGAA
Celera SNP ID:            hCV27875557
SNP Position Genomic:     113499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29549):
TTTTACTTAGAAAACAAGTGTAAAGCAATGACCAAATGACACATCTTTAAAACAAAATTTTAGATATAGTAAACATATAAATATCACATAATTGGCAAAT
R
AAATCACCCATGTATAATATAGTTTATATGAAATTCGTCAATGGATGTAACAAGGCTTTCACAAGTGTTCAACTTATGGTTCAAAAAGTAGTTGGTTCTC
Celera SNP ID:            hCV1301144
SNP Position Genomic:     7714
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;(A,-|G,-)   JBIC-allele(G,477|A,994)   total(G,477|A,994)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29550):
ATTTGTGTCAAGGTCTGCCTGACTCCATAGATAGCGCTCTTCCTACCATACCCTGCTTACAAAAACAAGATTTAGGTCCTGATTTATTCATTGATTTTTG
S
AATCATTGTAGATAAAAAGCATAGTTAAGTAAAGGTGTGTAGGCAAGAATGAATGAGTACCATAGAAAGTTTAGGAAAAGTGAGAAAAAATAATGTCTTC
Celera SNP ID:            hCV1301145
SNP Position Genomic:     8687
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29551):
AGCTTAGGGTATTAGAATACATAAGTGATGCTCAATTGGCAGTGAATTTGACATACACAGTTACTTTAGAAGAGGCAAAAGAAGAGAAAATGGAATTTCT
S
TCCTAGGAATGATTGCTTAAATATCTTGAATATTTTAATTACATGTTTCAAAACAGAAACGTTTGACTAGAAGTTAATGGGAAGTGAGAATTAGGATTCA
Celera SNP ID:            hCV1301148
SNP Position Genomic:     14639
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,5)      total(G,4|C,5) ;JBIC-allele(G,123|C,1362)   total(G,123|C,1362)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29552):
AGGATCCGGGATTTAGTGAGTAGTTTATATCAAGGAGACTCTTGAAAACAACCTGAAGTGAGCCTTAAGAGCAGAAGTGAGGCGTATAGTAGGTGTTTAG
Y
AGGTGTTGTGCCAGACTTATTGAATGGATCATCAAATTTAGATCACAGAATAAGAAAGCAATTGAGTTTACCCTCTCAAATAAAGTGATTTTCATCTCAA
Celera SNP ID:            hCV1301149
SNP Position Genomic:     15378
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;(C,-|T,-)   no_pop(C,-|T,-)   JBIC-allele(T,501|C,986)   total(C,986|T,501)    
SNP Type:                 INTRON


Gene Number:                 119
Celera Gene:                 hCG2031550 - 146000220801639
Gene Symbol:                 ELAVL4
Protein Name:                ELAV (embryonic lethal, abnormal vision, Drosophila)-like 4 (Hu antigen D);HUD;PNEM
Celera Genomic Axis:         GA_x5YUV32W802(32924591..33091281)
Chromosome:                  Chr1
OMIM number:                 168360
OMIM Information:            EMBRYONIC LETHAL, ABNORMAL VISION, DROSOPHILA, HOMOLOG-LIKE 4;ELAVL4


Genomic Sequence (SEQ ID NO:12279):
ATGTGGAAAAAAAAAAATCAATAAGCCAAGTCTAAAAATCACTCCGAAAGAAGGAATTGTGTCCTGAAGGGCAATAGATGGCTTTGGTATTTGAAATGTG
CTAGCTACTTACTGCTGAGCACCAGTTTTATGCCAGGCACTTTAGACTCATTATGGTATCTTCAGTTGTGTTGGTTAGGATATTGGTTAGGTTGCTGTGA
AAGGAAGGTCCAAAATAACCATGACCAAAGTAAGATAGAAGCTTATTCCTCTGTCATGTAAAAGTCTGGGTATGTGGTCCATGGCTGCTATGACAACACA
TAATCATCAAGGTTTCAGAGGCTTTCTGTTTTGTTGTCCTGCCAATTTCTATCTCAGCTCCCACCATTACAGCTCCATGACATCTGCATTCCTGATAGTT
GGAAAGGGCAGTAGATAGCATGGCCCAGAATCACTAAGAGTGACCAACATTCAAAGGTAGGAGGATTAGATTCCCCTCCTGGTAAGGGAGTGACAAGGTC
ACAATGCTGAAGAGCAGGTGGGTAGGAATATACATTAACCAGCTAATAAAGCAAGTTCTCTGTGAATGCCATTTTTTCATCTACCAGTATCCACAGAACA
AATACTTTTTAAAAGTACGTATTTCCTTCTCCATTCTAAAAGGATTTAAGGGATACGTGTTAGAGTAGAAATGCCAGTAAAATGAAATAGTACTCAGAGA
TTTTGGTTGTCAGCATGTTGGAAATGCCCAGTGAACGGTAGCCATAGCCAACTGGGTTCTATTTGTGGATCTGCTTCTCACAAGCTGTGTGAATTTGAGC
AGATCACTGAGCTTCTTTAGACCTGACTTTCCTCACCAGTAAAATGAGAAGGATAATATCAATAATTTCTAAGGTCCTTTCCAGCACTAAAACCTACATG
AAGACTGAGTACTCTTTCTCTTATTTCCTGCTATCATGATTGGCCGAGTTATTGTCAACTACTAAGCAATTAATCGTCTAGTCTATTAAGTGCAAACGAC
AACTGTTAAGGAGCAACTAAGAATAGTTAAAACTGTGAGAGCAAAGGCTCTAATCAAATGTTTCTGAACATATGCTCATGGGCTTACTTGAGAATAGCAC
TTATTCATTGTTTGCATTAAAATCTCATGTGATGAAATATTAGAGATTGCACAAATTTTGTTGTATCCATAATAGTCAATAAAAGTATTATACAATGTAG
CTTTACTATGAAAGTAGAATACATTTATTTCACAGCTATGTAAAGTAGATATTTTTAAAAAGTACCTCATCAAGCTTTGATGTTCAGCTTTTCTAACTCC
TGCTTCCTTAAAATTCAATACTGGAATCGTTTTGGTTCCCACCCCACCCCTGACCCGCTCAGAACTATCCCAGTAACCACCCTCCACCCACCCCCACATA
TACACATACACACAGCCAAGCTGCTTTGGATGCTCCTGCTCTGCACTCTAGAAGTCCCTCTTGCTTCTTTCTGTGTTGGTACTTGTTACACTGTATTGTC
ATTGTCTGTCATTTCCTCACCTACAGTCTCCTCAAGCTGTGATCATCTCGAGAACAGAAGACAACTCTACCACCAGGGGTTAGAGTGAAGCGTGGACATA
CTAGGTGCTCAATGAATTCTTGATAAATGACTACGGTTCCTTTGTTCCCCTTAGGAGATGTTGAAATGAATACAAGCCATGTTCTATCTTATGTCAAGTT
CCCAAATTCTTCAAATATCCATAATTTCACATAAGCCAATTCTTATGTTGGTGTGCATAGTTGGAGTTTGTTTTGAATGTGCCCAATGCAGAGGTGAAAG
CGGAAAGAGAAGCAACTAGTATTAAGCAGCCACTTTACATATTTTTTCCAATAACTTTAAAAATCATCATCTTCATAGCAACCTATAAGGTAAGTACTAT
TATTTCTATTAAATACAAACTGAGGCTCAGAGAGAAAAAGGAACTTGCCAGGGATCATGCAGCTCCTGAATAACAGAGGTGGAATTCATCTGACTCTAAT
ACTACACAGCACTCCACAGGGAGGAGCTGGGCTAGGGGTGTGGGTGGAGACTCACTCTCATGCTCTGAAACCTCTGTTTTAAAATTGACCTATCCCCTAC
ATTTATGCTTACTAACCCTGAATTTTAGCTCTTTACATGTAGGTTCAGCAACAAGTGCTCCCCACCATAACTAATACCTCTATTCTTCACCATTCATTAT
TTGAGCCATGGAGTTTACATGGATGCTATTGTTAAGTTGTTCTCATTAAGAGAGAAACAGGGCGGGACAGGGGAGGAGTGTGGCAAATCAAATCCTCAGG
TCAGATCAACAAGATGAACAAAGAAACACAGGTGCCCTTATAACTGAGGTGCACAATGAGCTTGTAATGCCTTTGTGTGAAGATTTGGGACTTTTAAAGA
AAAATAACATTGTCCTTAATACAGGAATTGCCTTTCCAAGGAAGAAAGTAAGTTTCCATGCTCTTACTGATTGCTTTGTTACATGAAGTTGACTATTCTA
GAGCCACAATATGACTAGTAATTGTAAAATTGTAGATTTTACACGTTTACAAATTTGGGCAAAATGATCACAGATACTATTTATGGTTTGTATTGGGAAG
GAATATAAATTAATAATTTGCTTTGGAGATTTTTAACATAATTCCCAAACACTTACTTTAAAATAGTTAATACTATCCTGATAATATTTTAACTATGTAC
ATATATGTATACAGTCATATAAATACATGAGTAAGCCTAAAAAATTTTTCAACTGATGAGAAACTTTTTTTTCCTATTACATGGTTCTTAATTCTATGAT
GAGGTACTATTTTGATAAAATTTTTCATGTAAGTGGTATTACCTTAATATATTTGATTCCTAGACCTTTCTTAGATTACTTCTGAAATATCAATAAGATA
AACAGAAATTATAAAATTGGAGTTTTATTTTTAAAGTCTCTCTGTGGAGTTTTTCAATTGTTTTTGAAAGAGCTAATAAATCCAGAGAATAGATTAAATC
ATTAAATATAATAAATAAAATGTACAATACAGTCCTATGTATGCCAGATTTTTTATTTTGAAGAATTCATAGCTGAGCTGACTTTGGAAAAGTTAAAACT
GAAAGAATTAATAATCTTTGTATGTCTTGTGTCTGGATTTAACTTCTGTTTTAGTAATATGAGCATATGTAAATGCTACATGGGTTTCTTTTAAATAGGG
ACAGCTTTCCACTATGAATTGTGACAGGTCACACATTTACACAACCTTTTAGTGTTAAATAACAATATGTTTATATATCAATATAAGGAACACGTACTAA
AATCTTTATATTAGAGTGTGACAAAGAACTTAAAATTTTTTTAATTTGTAATCATTTTTACCAGGGACTGTTCTTAATGCTTTCTGTATATTAACTTCTT
TAATCCTCAGAACAAACCCCATGAAGACAGTTCTAATATTATGCCTATCTTACAGATGAGAAAACTGAGGCACAAAGAGATTAAGTACGTTACCCAGCAT
CACAGAGTTACTAAGTGGTAGAGTTGTGAATCAAACCAAGACAGGCTTTTACCCACCACACTAAACAGCCAAATTAGATTCCCTGGAGAGGTGATTTCAG
TAATAAGATGGTTATAAAGAGCAAAACTTGCTACAGGGTTCTGTCTAAATCATTAAAAACAATAATGTGCATCAAGTTTTTGTACATATGCCTACCAGTG
TTAGGCTACGTGCTTTAAATGATCCCTTGCACTTAATCCTCACAACCACACTATGATATGTTTATCTAGCTGTGTAAATTTGGGCAACTTATTTAACTTC
CCTATTTAAGCCTCAGTTTCCTCATCAGCTGACGTGGGGAGGATATTCTAGAGTGATTAGCACAGTGTCTAGTACAAAGTAAAGTCTTAAAAAATGTCAG
CTATTAATATCATTACTGTTTTTAGGCTTTAGAAGGATCAAGCAACTTGTTCAAGATGACATATCTTGAAGAGGAAAGAGCTAAGATTTGAACTTAGGTT
TCATCAATACCCTAACTACAGTGGTTAAGACTATATTCTTTACTATGCTAAACTGCACTGAATTTTTGCCTGCTGGCCTTTGCCACAATGCTTTGCTCAT
TGTAGTTATTTTGATAATAATTAGAGATAGTGATACACTAAAACTAATGTTTTATTTTAATTCTAAAATAATAAACATTTACTACTGATTTTTAAAAAAA
ACACAGGCAAAAGGGAAATATGAATCATGCATCATCCCACCTTCCAAAATAACCAGTTACCCTTTCAAAAAACAGGATCATTCTGAAGATACAATTTTAT
GAACTGCTTTTCTCACTTTGAAATATATTGTGAACAACTTTTCATGTTGATATTCATCAACTGTATCATTCCTAATGTCTCCAGAATATTCCATTGTATG
ATCAGTCTTCTTTATTGACTGATCTGAAAAATCAGTCAACAAAGATGTTCACAATATCAAGTTGACTGATAGAAAAGTTATAAATAATATTGATAATTTT
TCCATATTTCAAAGAATGCCCCAGCAAAAATCATAGACCCAAATCTTTGAACATGTTAATGATTATTTACTTAAAATAAATTTATAAAAGTGGAACTACT
GGATCAATGGATTTGAATTAGCAGAATTTTGAGTTGGTATATCCCCAACTGCTCAGCAGCAAAATTCCTTTGTATTATATAACCAAAGAAGATTGTAGGA
AAAAAGCTTTTATAGCCATCAGTGATTGTTCAATTTTAAGGCTGCACTAAGAAACTTGAATTGCATGAGATGGTCCATGGAAAGTACATAGCGCTTGGCA
TAGTGTCAATAACATAGCTATTATTATAATGAAACCATCATCAAATTTGTTCCATTTGTCATCCCAAATCTTTTTACTACCTAGGATTCCTCTTTAGTTT
ATTTGGGCCTATTTGAAGTTCTGAATCTTGCCCAAGTCTTAAAAACAGGGAAAACTTGAGAATGCTGACAATTGTGAGGTAAAGCAATAGGCTAGGGGTC
GGGAGAACTTTTATAATTTTTCCTCCTGATTCTTTTGTAATCTGGGGCAGGTCTTCCCTGGACCTCAGAGCCTTCACCTATAAAGAGACACTGGATAAGA
TGACCTCTTTAATATTTCCATTCTAACTCTTGATACTAAGCTTACCTTAGCCCAATAATTTTTACTGATACCTGTATTTCCTGTATTTTGAATCAAGGTA
GATTTTCTTTAGGCAATAGTGGCCATTCTCAACAATTCAACTGTTAGTTTCTGAGCCCTAGGAGTAGAATTTTATGAAGGTCAAGGAGGGCCAAACAAGC
CACTTTCCCATTTTTAATGATCATCCCATTACCTACCACTGAACTAATGTTGTGTTATTCAAACATCTAGCGTGGTTTAAAAGGCCACAGAGTAATGGAA
GGGCCAGTAACTATTTTTACGTGAAATCATAGCTCACAAAGGACTTCGGCATTTTGTTTGGGTCAATTGTTTCCATTTCTCACTTTACTTTGGACATATC
TTAGACACCAAACAGCCAAACATGACTTGAAGGATCTACTTAAGGTGTCTACATTCCCTGCCAAAGACAAGCCACCTTCTCCATGCTCCTCTCCCCAAAG
GGTAAGATTTATTCTAAGGGTTCTGAATTCGTCACATTTATAAACCCCGTGGGTCCGGCACAGCAATTAACATTGGTCCAAACGGTGTCAGTGAACTTTA
GCTGCAAAGAAACTACCTCATTTAAAATTTAAGCAGACCACAGGGAGTAGCATTGGAGGAAAGAGAGGAGATTTTCTCCTTCAACATTTTGAGCATACTG
GAATGCCAACCCCCTAGGTAGGTGCCAGGGCCACCACAGGAACCTGACTCGCAGGAGTCGTCCTCCGTCTCTACGCGAAGCGCCCCCTCGAGGTGGGCAG
GGGGTGGCGGCGGCGACGGTGGCGGAGCCGCAGAGCGAGCTAGAGAGCGAGAGCGGTGAGACTCTGCGGACGTCTTCCCGCCCGCCGCGCTCCGCCCCAC
CCAGCCTCCGCAGCCTCGGGCCGGATCGCCCGGCGGGGAAGATGCGCCTCAAGAACCAGGTAGAAGCGCCTCGGCGCAGGCCCCGCACCCCCGACTCTGC
CCGCCCTCTGTTACGGACACCCGCTGGGCCACGTGGTCGCGACTGGCTTCTCCCAGCGGCCAGCCTGGCCACCCCGACTCCCAGGGAGGGGGAGAGGGCC
CTTGCAAGAGGATCCTGCCCCCGCGCTGCCCAGACCTGAGGGCTCCTGGCGACCCCACCCGCAGCCCATCTGGCGGCTCTGGCCCCGCAGGTCAGGGTCA
CACCCCTGCCGGCCTCCTGAGACTTCCCGGCCCCAGGGGAGAGAGCTGAAACTTGGGTTGACGCGCGCCCCCTCCCCAGCGACAGGCGACCCCGCAGCAG
CCCCGCGCCACTCCTCTCTGCGCCTTTCCGTAGTTGTCCTCGAGGTGGCTTTGTTGAACGTCCTGGTGGCGCCAAAAAGTCCAGGCAGCTTCGGGCGATC
AGGGTCCCGAGGCGCTGGGCGCGCGGACTTGGATCCTCAGGGGGCCCCTCTGTGTGACTTTCGCTAATTGTCTCACRGGGAGGGCAGCACCCTYCCCTAT
CTTTCCTCTATTACACCCCGCTGTGGACCTGGGACTTGGGTATTTCTAGACGAGATTGGGAAGGCGCGTGTGTTACACTAAGCAGTGCTCATGTTTAGCT
GAGGAAGAAGGAGCCTCAAGTGTTCGTAGGGTGTACCTGTGTATGTTGTAATTGTTGYCTCTCTTTGGGCTGGGGGCTGTTATACATGTAGGATTTAGTA
AACACAGGTCTTGAAGTCTTGAACCTGCAGGAGACTCATTTGTTTCTACAAGGAGAGAACCTCCCCTCCCCCAACATATGTTAAGGGACTTGAGGAGACC
ACAGGGAAACCGAAGGGAGGGACTTCTAGAAAACAATTCCAGGTTTGGGGGAAAATGAGTCATATTGATTCCCAAGCTGTTAGCCAATACCACTCAAGGG
TAATAATTTTCATAAAATCTTCCCACTGGGGACTTAAATACAGGGCTCCACAACACAGTTTGTTGAGAGCTCTCTGGTGCCTTTAAGCCTATCCATGCCC
CTTACCTAAATGCTTTAATTTAGTAGAGCTCCTTGAGAAGCTGCCTCACATTATCCTCCTGCATTTGTGCGCCTAGCTTTTAATATTTTATAATACTTGC
AAATTGACACTGAACAAGCTTTAACCTCCATCATTTCAGAATAAGTTTGATGTTTTAAGTGAGATGTGAATGGAACTCCATTCATGAGGGAAGTAGTCTG
TGTGAAGTGTTTTGTAAATGTGAGTGGGTTGAGTTTAAAACACTGAATAAAATTAACGTAACAAGGAATCAAAAGGTTCAATCCAGATGTTTGCCTCCTT
GCTTCTTCAATAAAGTGACAGTACAATGCTGCATGACACCACTTGCTTCCTTAATAAAGTGACARTACAATGCTGCGCGGCACCTCTCCTTTCAGTTTTT
AGGTAGGGTAGACTGTGGCACTGTGGCTTATGGGGTCAACCATGAGCAAGTGGATGGCTGGATTCCTTCCATTCATTTTTTAAAGCACTAACAAAATCCT
TGGGGCCGATGGGGTTGTGACCCACCCACCTATACAGAGGATTTTCCTCCTCTACTAACTACTCTAGAAATACATGAGGGATTTACATGCAGGTTTTTAG
TTGAAGAACTAAAGTAATCCTCTTTAGTTATCATTAGTATTAGCCTCTGAAACCTTTACTTGCTTGCTAAGATAAGGTACTTGGGTGTGGGTTGTAATAG
AGGTGGAGTTGTGAGTTAGAGCTGGTGGCCTTACTAATTCCTCTACTTACTGTGTGCTTTGGGTTGACAGAAAACTCCTTAGCATTTGTGTAAGTGCAAT
ATAGTTTAGCATGAGAGATTTTAAATTAGATRTTCTTGGTTCCGGTCTGACCTCACCACTCAGTAGTTATGTGACTTGCATAATTAATTTTTTGGTCCTT
CCTGCCACTTTTTTCGCCATAGATACATGGGGTTAATACCAACCTCGTAAAGTTGACATGAGAATTAATATTATATATGTACAGTGCCTGCCATATGGGC
ATTCAGTAAATACTGCTATTATCAACCAAACATAAACAGTAGCTATTACCACCATTGCTACTACATCTGCTTAAAAATGGCTCCTTGTAGTTGGGGAGGG
AGATTTGGCTACAAAGGGACAGGAGGGAGCTCACTGGGGTGACTGAAATATGCTTTATCTTGATTGGGGTGTTGGTTACAAAGGTATATCCATTTGTCAA
AACTCATCAGAGTGAACCTTTATGATCTGTGCATTTGATTTTATGTGCATTATATATCAATAAAGTTCATGCTTAAAATTAACATCCAGATGTGTTAAGT
ACATGCCTTTGGGAGGCCTAATTCTGCATAATAGCATACCTTCTTCGTAAGTTTATCCTGAGCCACAGGAAAGTTAGAGAAGGTGCTTTAATTTTTCAGG
TTGATGTCAGGAGTGATGGTCCATGGAAAAAAGTGATTGTCTTGTGCCAAGATTATATTTAATTTGGTACTAGTTTTCATTAGTAGCTTAAAAAAAATTG
AAATGTTTTATTTGAGCAGTACTGCTCATTTGCATAATATGATAATGGATATTATAATATCCATCCATTATTCACAGTTGCTGAAAAATCATAGTGATTT
TGCATCCCTTTTCCTGCTTTCAATAAATTCTATGCATTGTTTTAGCTAAGTGAAATATGTAAAGTGTGTTTAGCACAGTACCAGGCACATGGTAAATACT
GATACATGCTAGCTGTTAGTTTTTAAGTTGATATATTCAAATTCATCTTTTTTATAGGGCAGAATCAACACTATATAGATTATAATATCAATCTATCGTA
AATATGCTGTTAAAAGTTTTTGAGGTAGAAACAAGCCAAAAATTATTAATAAAATGTTGTAAAACTGAAATCTCACTTATCTAAACTTAGTAGTCATGAA
CTTTTTACAACATTATGTCTTGGGAATATAGGCAAATCTGTGAGGGAAGCAAAAACTTTTCTCAAAAGCAAACATATATCCACAAAGAGTATGCTAACTC
ATTTACTTAGAGGCAAGCTCCTCTCATATTCCCTCAAGCCTTTTTATTTTTACTTCAGACATAGTTCTAACATGTTTAGTTCCTTAGTTTCTCAGCCTAT
AGTAGTTTAGAAGCCTTGCTAGATACAAGTTTCAAGAAATATTAGCTGAATGTAAGGGGCGAATGAATTATAAAGATAAGACATGAGAAATCAGTCTTAT
TCTTGGGCCAAAGTAAAACTTGAATTAGAGTACTGAATAGTATTGCTGATTTATTGGACATTTTAATTTTTATTCTTTAAAAAAGTTAAATTGTATATTC
TCTCTAAAAAGTGGGGCAGTATATAATGATGTATTTTAGAAACATTTCCATCTGATAGGATTAGATTACAAACTTAGGCTTGTTAAGGGCAAGCTTCAGT
TATCTGGATATCTTACTTAATGTGGAATGACTTATTCACTCATGGTACTGCATAAATGAGGCATCTATCAACTTGTGATTTTTTTATTGGGAACTGGATT
TTTAAAATCTATTTCATCTTTTGATAGAACAATATGATGAGATGAATCATACATAGAGTATTAGTTTGCTAGGGCTGCCATGACAAATATCACAGACTGG
GAGGCTTAAACAACAAAAATTTATTTTCTCACAGTTCTGGAGGCTAGAAGTTCAAGATGAAGGTGTTAGCAAGGTTGTTATTCTGAGATCTGTCTCCTTG
GCTTGTAAAATGGCTGTCTTGTCTATCTCTTCATATGTTCTTTGCTCTGTTTACGGCCTAATCTCTTCTTTAAGAATACCAGTCCTGTTGGATTAGGGCC
CACTCACATGACCTCCTTTTACCTTAATTACTTTTTTAAAGGCCCTATATGAAAATACAGTCACATCCTGAGATACTGGGGGTTAGCACTTCAACATATG
AATTTGAAGGGACTTAATTTAGCCAGTAACACATGGTTTTAGTAAAAAGCTGTATTGATTCTTTCAAAATAATTCAGCATGCAGAATATGAAACAGGTGA
GATTTTAATTCTTGTTTTAGAACAGTTCAATTTGGATTTACATGTGAGAAACCCCAAAATACTCATCATGTACCAACACACACACATACAGATACACCTA
CACATACACACCCCACACTTTTTGTGTGTAAAGCTGATTATAACTGAAGCTGAGTTAGGGTCATTGTCCAAGCTGAGTTTAATCTGTGATAAGGTCCACT
AGCAATGTCTTTCATTGATCAAAAAAGACAGCTGTGCAGTAGCTTCCTAATCTTTCTAGTTTTATAGTATCTTAGGTGATGGAAGCAGAAGGTTTGACTT
TCTCAGAAGAAACCATTTACCACTTTGATACTTTCATACCCCCTTGTCATTTGAGCTCTTTGACCCTCTGGTATCTCTGAAACAAAATAATTATACTAAT
CCCTTGATGCATCTTTTCCACATATTCAAACCATGAATTTATGGACCAAAATTTGCCACACAAGCACCTTTGTTCACTCAAATCAGAGTCTGGCAATAGT
TTACTCAGAGGAACCTAAACTGCCTACTACACAGTTTATTCTCCTCACTAGTTTGAAGTTCATCTCTGTTCCACATGTTCATGCATCAGAGTATGATATT
TTATCCAAAGAAAAGAAAAAACTGCTAAACTTATGTTGTGCAAAAATGACTCCCAAAAACCCTATGTGTGTTACTGTTACTACCAGTTTGTGCTAATTTG
CACAGCCTCTGAACAACTGGCAAAGTGGCTAGTGTTGACATTGCAACTGCTACGGAGTTCCCAGTTGCTGTAGGAATTTTTAAATTTTATTAGTATAATA
ACAGAGTTTACAGTTATTCACAGTATGTTAATTGCAAACGCTTATTATCTATAGTACCAGCTTGATACTTGATCTTATGTTTCTTTTAATAGAAATACTG
CAGCTTTTACTTTTCATTGTAATGAAGGTTAATCATCACTATGAATTTTCACCTATGAGCAACAATTTTGCAACAAGTTATAGTTGGGGTGAGTCTATTA
TATTTAAAATATAACACCAAAATAGCTTCTTTTTGTACTTTTAATACTTCCATTGACAAACAATTGCTCATGTCTCTGAGCCTCCTACAACCATTTCAGA
TGACTGATGGATGATTGGTTTTTGTTTTTTATGTTTTGTGTTTTTGAGACGGTCTTGCTCTGTCACCCAAACTGGAGTGTAGTGGCATGGTCACAGTTCA
CTGTAGCCTTGACCTTCTGGGCTCAAGCAATCCTTCAACCTCAGCCTCCTGAGTAGCTGGAACTACAGGTTCACGCCACCAAGCCTAGCTAATTTTTGCA
TTTTTTTGTAGAGACAGGGTCTCTCTATGTTGCCCAGGCTATTCTCAAACTCCTGGCCTCAAGTGATCCTCCCACCTCAGCCTCTCAAAGTGCTGGGATT
ATAGGCAAGATTGATTGATAGATTCAGTGAATGTTTATTGAGTGTCTGGTATGGACCTGGCCCAGTTGTAGCTGTTTAGGATGTATCAGTGAACAAAACT
CAGCTATCCCTGTCAGCAAAGGAACAAGAGAAAGTAGACATTAAAAATAACCATAATCAAGAAGTGCGTCATAGAGCACGTTAGACAGTTATAAATGCTA
TGTGGGAAAAAAAATAGAGTAAGATAAAGAGGGATAAGGATTCCAGTGGAGGATTGCAGTCTTGAATACAGTAGGCCTCACTGGTAAGTGATATTTGAAC
AAAACTTGATGAAGATGAAGAAGTTTTAGTTGTGTGGCTATCTGGGGGTTATAAGCAGAGGGAACAGCCAGGGCAAAGGCCATATGGCAGGAGTATACCT
AGAGGGGTTCAAGTTACAGCAAGGAGGTCAGTGTGGCTTGAGAGGAGTGAGCAAGGAGGAAAACTATTGTAAATTGAGTTATAAGTTTTATATACTGAGT
AAATGTTGACGTAAATATTGTCTACCAGTAAGTAGATGCTTAGCATAGTGATTCTCTCCAAATGCTTGTTGAATGTTTCTTTGGCAAATGAATTTGTGCT
TATAAGAACTGGTTCTGAAGTGCAATAGAAAATGGACTTCTGCTAATTCTGCTGCTGGCAGAAGTTAGATTAGGATCTGGAAAAGGGAGGAAGGCAGGAA
AACAACCTGGTAGATGCTGATGTGTAGGTGTCTGAGTCCTGCCCAACYATTGTCACTCCCATCTTGCCAGGGGAATTAATTTTTCACTTATTTAATACTG
AAAATTCCCTTTTCTGTTTGATTTTTGTCCTCATGATTGGAACTTTTAACCAGAAAGAATAAATTCCAGTGTAAAGAATATACTAGATTTAAAAGTGTGA
GATCTGTCAACCTTAGAAGACTCATACCATAGATTGGTATTATTCTTTTTTGTTTATTTCTTATAGGATAGACCTTATAATTATTATATTTGTGTATTTT
GTTTACAGTTTACAAAGTATTTTTACATATATTAATATTATTAATTTGATCCTCACAGCAAATCTATGTGAGAGGTGGACAGCCATTATTAAGTTTTGGG
CTGAGTATCTTTCATTTGCCCTTGAGATGTTACTCTCTACCCTTTTCCCAATCCTTTCTGTGGCCTTAGGGCTGACCTTCATAGCTTCATCAACAAGCTC
CCTTGCACTCTTGCTTCTGGAAGGATTCAGCCAATACGGAGCACTTACAGGATATCTCAGACAGAAGAAAAGTGAGTTTGGAATATTTACTTCTCCAGCT
CCCTCCCTTCCAGGTTACTGGCTAGCAGTGGCTAGCAGTGGCTGCGTGGAGGCCACATCACCTATCCAATCTACAGCTACAGCTTTCTCTCTCTCTATGG
GTTCTCTCAAGATCTAGGGCTGGGTCTCCACTGTTTCTATCTTCAATGACTTATCTTCATTAAATCCTGCGCAATTTCCCTTTTTGAATATGCCTTCTGT
TTCCTGTTGAGACCCTGACCAAGACACCACTTTAAAAACGACAGTCTTGGAGAAGTTGGATGACTTGCCCAATAATAGATATCCAGTAAATGACAAGAAT
AGGGACTTAAATCCTGGTTTTGTGACTTCAAAGCATGATCAATTTGTTTTGTTTTTTTTTTGTTTTGTTTTTGTTTTTGTTTTTGTTTTTGTTTGAGACA
GAGTCTCGCTCTTTCTCCCAGGCTGGAGTGCAGTGCCGCGATCTTGGCTCACTGCGAGCTCCGCCTCCTGGGCTTACACCATGCTCCTTCCTCAGCCTCC
CGAGTAGCTGGGACTACAGGCGCCCGCCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGAT
CTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCAACAGCTGCCCAACATGAAAATGCTTNNNNNNNNNNNNN
NNNNNNNACAGGCGTGAGCCACCATGCCTAACAATCAATTTTAAATATACCACAAAGGAACTTATCCCAACTGGTGGATAGTGTTGAAAAAATCTTTCTA
CTTTGACCTTCAAAATTCTATATAGGCCAGGCACGGTGCCTCACGCCTGTAATCCCAGCACTTTGGGACGATCAACAAGTTATTTATTGAGCAAATGACT
TAGTATGAGGCTCCTTCAACGAAAACCTTTACAGGAAAAGTTTTGAAGTTGTGCTGACTTGAGTTAAAATTTCAGAGAGGTAGGGTGGAGATGGGAGTAA
GGAGAAAATAAAAAGCAAAAGTTCTGAGTAGTCATCAACTGCAGACTGCCTAAATAGGAAGTCTACRCCAGGAAGTCATGTTTTTGCTGCTGGAGGTTTG
AGTAGGACTCTGTATAACTTTGCTCTCTTATGCAACTTGTGATTGATCTGGGTTAGTTGGCTCTGCTGCTATTATAAAAGGGATTTCCTTTTCTTTCCCT
GGAGATTGGGTGCCCATCTTTTTCCCTACATTTCTGATAGTAAAGGTCTTTTTATTCTCACAGCATGAGTTTCTGGACAAAGGGTCATCTGGGAAGCAAA
AGTTGAGGATCTTACTCAGGTCACTGGAACTAGTGTTCTAGAAGTGCCTGGTGCATGATGGTAATAATATAAGTCACACCCCAAGTTTGTATTACTAATA
AGAGTTTTGTACTACAAACTTTCCCTGTCTGTTCTTGTTGAGGGGGAAATGGCACTGAGTGTAATACTGTATGGTCATGCACCACATAAGTACGTTTAGG
TCAACAACGAAGTTCATTTATGATGGAGGTCCCCTAAGATTATAATGGAGCTGAAAAACTCCCATTGCTTAGTGACATCATAGCCATTGTAACATCGTAG
CATAATACATTACTCATATGTTTGTGGTAATAGTGGTGTAAACAAATCTACTGTGCTGCCAATCATATAAAAGTATAGCACATACAATTATGTACAGTAT
ATAACACTTGATAATGTTAATACATTACTAGGTAACTGGTTTATGCATTTACTATACTATATTTTTATCATTATTTAAGAATGTACACCGGCCGGGTGAG
GTGGCTCACGCCTGTAATCCCAGCACATTGGGAGGCCAAGTCAGGCGGATCACGAGGTCAGATCGAGACCATCCTGGCTAACACGGTGAAACTCCATCTC
TACTAAATATACAAAAATTAGCTGGACATGGTGGCGGGCGCCTCTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAG
AGCTTGCAGTAAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTGTATCAAAAAAAAAAAAAAAGCACACCTACTTATTTTAAAA
AATAGTTTATTGTAAAACAGCCTCAGGCAGGTCCTTCAGGAGTTATTTCAAAATAAGGCATTGTTATCACGGGAGGTGACAGGTCCATGTTTGTTATTGC
CCTTGAAGACCTTCTAGTGGAACAAGATGTGGAGGTGCAAGACAGTGATATTGGTGATTCTGACCCTGTATGGGCCTAGGCTACTGTGTGCATTCTTATC
TTCATTTTTAACTGCAAAGGTTTTAAAAGTAAAAAAAAAAATAATAGAAAAAAGCTTATAGAAAAGGATATAAAGAAAGAAAATATTTGTGTACAGCTGT
ACATGTGTTTGTGTTTTCAGCTAAGTGTTATTATAAGAGTCTAAAAGTTTAAAAATTTATAAAGTAAAAAAGTTACAGAAGCTAAAGTTAATTTATTATT
AAAAGAAAAAACATTTTTATAAATTCAGTGTAGCCTAATTGTACAATGCTTATAAAGTCTACAGTAGTGTACAGTAATGTCCTAGGCCTTCGTATTCACT
CAGCACTCATTCATTGACTCACTCAGAGTAATTTCCAGCCCTGCAAGCTCCATTTATGGCAACTGCCTATAAACATGTACTGTTTTTAATCTTTTATTCT
CTATTTTACTGTACTTTTTCTATGTTTAGATACACAAATACAAGCATTGTGTTACAGAGGCCTACAGTATTAACTAGTCACATGCTGTCCAAGTTTGTAG
CGTGTGAACAGTAGGCTATCCCATATAACCTAGGTGTGCGGTAGTCTATACCACCTAGGCTTTGTGTAAGTGCATTCTGTGATGTTTGCATGATGACAAA
ATTGCCTGACGTATTTCTCAGAACGTATCCCCATTGTTAAGCAACACGTGACTGTACTATAATATGATGTCAAGTTACCATGTTGTTTGGGACATATGAC
AAGAACAGAGCTCAAGAAACTTTTGTATACATGGGACAATCTTGTGAGTTGAAATAATATTTCTCTCACCTTCAAGGGTGTGATTTATTCTTTTTGGGTA
TAAATTATGCAAGCAAAGCTAGAGTATTCTTACAATAAAATAATTTTAAAAGACAGCACCGAAACATTTTTCCAAATTAAAGGAAGCTTGAGTTATTTTT
TTCTGATTTTTGAAATGGAAGAACCAGTCCACGGGGGGAAGTGATCAGAGTAAACTAAAATTTAGTGCTATGTCCCTCTAATCACAAAGTGGTGTCATAT
AGGGGTCACAGTGGACCATGATCTGCTTTTATAGATAAATGATGTTCTGTGGGAGACGTTCTCCAATTCATAAGCTAGAGAACAGATTTAAATTTACAAA
ACCAAATTGGGATAACCAGTACTGTAAACACTGTCATTATAACCATGGAGCACTAGATTGATGTGAGATGGATTGACATTCAGCAGGGGTAAGGACAGGA
TAGGATATATAGGAGGAAACCAAACCACAAAAAAATTAAATGGGAAATTTTGAAAGGGGCAGCATTCTTACCTTATGTTTCTATAGCACCCTTTCACTTT
TCTTTTACACTTATCCACATGGAAAGGTTGTTATAAAGGGAGCATGAAAATTGAAGATTAAAAAGTAAAAATGACTTCACTTGACTAGCCTAAAGAAAAA
AAAAAAGTAAAAATGGACCTCCGCATTAATGGTAAGAATTCTAAGATAATTCCTTTTTTTTTTTTCCTGACAGTGTCTTACTCTGTCACCCAGGCTAGAG
TACAGTGGCACGATCAGGACTTACTGCAGCCTCCACCCCCCAGGCTCAGGTAATCCTTCCACCTCAGCCTCCTTAGTAGCTAGGACTATAGGCATGCACC
ACCATGCTTGTATTTTTTTTTAGAGATGAGGTTTCCCCATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCATCCCCCTGAGCTTCCCAA
AGTGCTGGGATTACAGGCATGAGTTACCGCACCTGGCCCAGGATAATTCTTTTATTATAAGTGTTCTTGTTCCTTTATTCACTATTCTGGTTAATGGCAC
CACCATTTACCCAGTGGCCCTAGGCAGAAAAATATTGAATCTAGAAATTATCCTAGATTCATTTTTCTTCCTTACTGCCTGCATTAAATTTTTCAGTCTC
TGGGTCCAGGTGGTCAAACTGATACCTTTAATTAGCCAACATTTATTGAGTGCCTAGTAGAGTGGTATAAATAAAAATTGCCACCCTTGTAGAGCTTGCA
TTTTCTTAAATATCAATCATATTTCTCTGATTCTAAGATAAGATTTCTGAGATGGAATGCATTTTACAATAAAGTTTAAAAAATACTACACTAAAACTTA
GCAAGTTGTGATGCAGTTGTCATTGCCTATACATGCACGGACTTAGTGGAGCTCACAGAAAGTACCTGTTAAACTGTCACTTCAGTTCATTTATTTGCAT
TTGGAAGCCTCATATAAAATGAAATTTTAACTGAAATTTGGATCCCTGATTGTTATTTAAAATGTTAAGAAATAGCCAGCAAACACATAAAAAGATGTTC
AGCGTCATTAAAACCATAATGAGATACCACTTTACACCTACTAGCATGGCTATGATTTAAAAAAAAAGTATTGGTGAGGAGGTTTTTTAAAAAAAAAAAC
CGTTGGAGAAAATGGAACCCTCCTGTTTTGCTTTCAGTCCTTGGCATATATACCCAAAGGAATAGAAAACAAGTATTCAAGTACAAGTACACACATGTTC
ATAGAGGCATTATTCATAAATGGCCAAAAGGTAGAAACAGCCCAGATGTCCATGAATGGATGAATGCATAAACAAATTGTTTTATATAATGCAGTGGAAT
ATTATTCAGCCATGAAAAGAAATGAATTCTGATATATGCTACAACATGGATGAACCTCCAAAACATAAGTGAAAGAAGCCAGACACAAAAGGTCACATAT
TATATTATTTCATTTATGAGATATCCAGAATAGATAAATCTATAGTGTCAAGGCAAATTGGTGGTTGCCAGGGGTTAGGGAGCAGGGGTGAATGGGGAAA
AACTGCTTAATGAATAAGGGGGAATAATGGAAGTGTTTTGGAACTTGATAGAGGTCATGATTGCACAAAAATGTGAACCTACTAAATGCCACTGATTGTT
CACTTTAAAATGGTTAGTTTTGTTTTATAAATTTTATCTCAATAAAGTATTTTTCAAATATTCCACTGTGCTACAGAATTGAAATGAAGTTATTGTATGC
CCTAAAGTTTACCTGTCATATACTGTTCATTACAAGTAAAAACAGAATAGTCAAATCTCTTTATACAAAACCTAGAATTTCAGAGTTCAGAGAGATTGTT
ATGACCTTTTCAAGTGTCATCAAGGAATGTCATTTAGGCACCTGCCGTCTGTTTATCAAAAGCTCGACTTCCAACAGAAGCTGTATGACTTTTCATGATA
CATAATTGGGTATAACAGGAGTGTCCACATTCCTTTTCCCCTCAGCAGCTCAAACTACATCAATATGCCACAATCAGGAATCATAAGTGATGTCATGCTT
TGCAGCTAAGTCATAGAGAACTGGTGGCAGAGTCACAACTTGGCTCAGGATCAAGATCCAGAGCAGTGACTAAGGACTTCATGAAGCAGAATCTCCTGCT
CTTACTATGGAGGAGGGCCTGGGTCGGCCTCTAGCTGAGAAGGTGCTACACTGGGTCCTCTGTTCTAACTACTGCACTGCCACCAGTATGATCCTACTTG
TAGGAATACTTTCCCACTGTCACCTGCCAAGTCTCAAACAAGTCTCAGAACTCAGTGAGACTCATAGGCACAGTGAGCCTATGTCTCCACACTTTACAGG
CCCAGAACCTGATTTCCCCACACCACTCCATCTCTTCTTTGTCCATTGTGGCTGGACAAAGTTGTCTGCCTACTTCCTCTGGCCAGGTACCCTGAGTGCC
TTGTAGCACTCAAGCATGATTTACATCCCTCATTCAAGATAATTTTTCTTCTATTTCCCTTGTTGGAGAGGAAAAAGAAATAGACATGTGTTTAATATCC
AGCACAGAGTATCTCTATACATTTAAAAAATCAAAGCTTTGAATAACCAAATGCAGAACAAACCTCAATATTCCGTGATAMCTCTTGAGATTGTAATATC
AATCCTAAAGTATCAAAGAGGTCAAGTTCACCAGCATGGATTTTGAAAAGTAAGGTCCTTATGATGCTCTGCGCTTAACTGTCAGTGAACAAAAGTGATG
GAGAAGATATTTACATAATAGCTTTGGTTTGTTCATAAAATTATATGCCAATTTAGTTTTCAAGGTTTGACTCTTTGCTGGGCTTGAATAGTGGCTATTT
TCTTTGGTATTGTTTTTAACCTGAATCCCTTAAGGCAAGGCATGTACTCTCCAGTTAGGCTATAGAGACCATGGGCCTCCTTTCCTCTTTTTTAGGTCCA
TTTACACATTTATGTTTCCTACCTATCCCCTGTAGTCATTTGAGTTTATAATTACTAACATAGACTCAAGTTTTAAAATTACATGTAGTTGTATAGATAA
CTCACAGTAAGACCAAATCCTTAAATAATGCATACTAAATTCTGGGCACTGTTTAACATGTTTAATCCATAGTAACTAATGGAAACCTCACAACCCCATC
ARGTAGTGTGGCCCTCATGGAGGTGCACCATTCAGATCTGCCTTTAAGAGGAAGCTTATGTTTGTTTGCAAGGAGTGCAGTTAGATGACAGTCTCCAGTT
GCAGTGCCTGTAGGCCATGCTTTTGCTGGGCGGTCCTAGCCAATGACTGAACACTCTGGGAGTACTAAGGCCTGGCCATTTCTGCCCAGTGTGGGAACTC
CCCTAATGGGTAATCTTTATTTCAGAGCTCTCCATTAGGTTGGCAGGCCTTTGTCTGATTTGCCTCATAGTCTGAGRCTCTGTCTCCAATTCTACTTTCT
TCACCCTCCTCGCCCCAAAATTTTCACAGCAAACTAATAAATCTCTTGCACTTCTGTCTGTCTCATTGTCTGTTTCTGGGTAGACCCAACTAATACGGAT
AAGTATTATTATTATCCTCCTGTCACAGATGAAGAAACTGAGGCACAGAGAAATGGCTCAAGGTGTCACAGCCAAGTGAGTTTCAGTGTTCTTCATCATG
TTTTTAACCATTATGGTATGTTGCCTTCCCTTTCTGAAGTTCATGTTCATCCAGTTAAGTATCCTTTGTATCCCAGAAACTTGGCTGGATGCTAGAAGTA
TATAGATGAATAACATAGCCTTTGATCTCAAGGAGTCCACAATCTTGTGGAGAAAACAAGGAGAATAAGCAGATAGCATCGGTCTTTGCTCTAAATGCAA
TGATGAGATATGTGCAGGGTGCCCTGAGAGCCCAGAGGAGGGACCTAATTTGTGTCATTTCTCACTTCTTCTACCTCTGAATGGACTACTCTTCCTCCTC
TTGTTCCTGTAGCCATGCCATCATATTTATCTGGGATGCCTGTTATGTCTTTGGACCACCCCAAATTGAGTTGGGCATGACTATTCTGTATTCTTACAGG
AACCCTCTGCACTTACCATACCACACCCACCTTAATTGATATTTCCCAGCCTGTGTCCTGCTTGTCTGTGTGCTCAGTGCTACTTCATGCCTGCCTTGGG
CCCTGGCCCCTTGAGGAGCTTAGGAAGTGTTTGTTGAATCAATGAATGAGGAGAATCATTTGTTTGCTTGGCCTGTAAGATGTGAATAGAAAAGAGATTT
GAAATAGAATACACAGGAGGGAAAAGGTGGGGGCAGATGAATTCTACCATTCTCTTGAGAGTATCTCACCTTATTTCTCACTGTCATCAGCAGGTGTGGA
TTTGGGATGTTTCCATTCCCCTTTAAATTTTTGGTTCAAACATGGACACATGCTTTCTATCTTGCTTCCCGATGATACAAATATGTTAAGCTGAGTTTTT
ATCCATTAATCCATCCATCCATTCACCCATCCATACTTGTTTGTTAAGTCTACYAACCCATATTTATCTAGTACTCTCATGTGTCAGGCCCAGTGCCAGG
TTCTGTTCACACAGTGGTGAACAAAAAGCACAGTCTCTGTCCTCAAGAAGGTTTCATTCTGGTAGGATAATTGGATTCTAAACAAATGTAACCTGAATGT
CCTCTAGACCCCTCCAGTTGGATCCTAGGAGAGGTCACTTTAAATATTTCCAGTGGATATATAGTCTTCCACCTACAAAATGGCACACTGTCAGCCTTGC
TCCTTTCTTGTATCTCTCTGGACATCCTCGAGGCCATTTTTTCCATATGAAATAATGCATATTATTAATAGATTCTTGGTAATTGAGTAAACGCTTCATA
CATGGTGAATATTATTTTTATTATTAATGATATTTATATAATGTGTTCTGCTACTTACAGTTTTGCCTTTCTTTTCTTCCGATGACTCTTCTCACCATAT
TTCCTGGTCATTGTCTACTGTTGTTTTGTTTGTTGCTTTAAAGCTGCCTGTACCTTTCTCCTATGCTACTGCCACTGTAGGAAACACGTACATGTTATAT
TACCTGATGGTTTTTTAGCTTCCTCTATGGCCACTGTCTCCAGATCTCTGTTCCTATATCAGCATTTGCACTCATCTATTTTGATAAGCTTATCTCTCTG
GCTAACCACCCTCTTTCTGTAAGACCTCTTCGAGCGTTTCCACCATCACTTGGGGACTTTTGCCATTTTTCCTGCTTCCAGATCTCAGGTGCTCCTCTCT
TCCCAGTTCTTGGTGAAGCATTTTCTTCTTGTCTGGACTGCCTTCATGGTAGTCCCATAGCATTGTGACATGCGACCCTAGTAACAGAATTATTTCATTC
TTTATCACACTGCCTTCCTTTTCTCAGACTGTTAAATGTGGCTTTCAGTTAGAACCTCTTACTGGACCTGGAACCACCAATCTCATCTAGCTTCAGGCCC
ACTGTATCAGCCTCTTTCCTCATGTATGGTCTTTTCCCACCCAGGGATTCCTGTTTTCCCTATTTTCAACTGGAAGTGACATTTAAACTAAGGAATAAAG
GAAAATTAGGAATTATCTAGGGGAAGAGGGAAGGCAGGATTGAGTATGGTACATAGAACAAATGAGGAATCCCAGAGAAGGAAAAGCTTGTGCCAAGTCC
CAGAGGCCAGGAGCAGCATGGGTGTGTAATAGAGAAAGGTGTGCTGAGAAACTGCAGTCATTACAATGTGTCTGGTGTGTCATAGAGTGCAAGGGCATAG
GTGGCAAGRGGTACCCCTGGGAAGTTAGGTTGTGTTAGATCAAGGTGGGTCTTTCCTGGGTATTGAGAACAGAAAGAAAATAATCTGGAAGTGAAACTGG
TTGAATTTTCTCAAGTGCAGGTGTTTTATTCTTACCGATTTTTTCCCTGGCCCCTAAGGGCTAGAACACCACCTGCTGACATTCTGTATGTATGATGCAT
GGCTTGCATTGCTTCTTGGCCCTTTTCTCTATCTTTTTTTCTACTCCCTGGACTAGACTAATCTTACTATTCATTTTCTAGATCTATTGATTGGCATGAC
GTGGTAGTTGTTTCAAGTTTCCAGGATCCAGCTATCAGTCCTGCCAACTTCTGGATATGTTGGAACTCTCAGATGAATCTTTTTTGTCTACATACTAGGA
ATTGGCCTTGTCCAAAGTCACCAGATTTAAATAGTCACCACATGAATATCTTGAAGATACAGTCACCATGACAACCCAAAACAAGAATCATACACCTATG
GCAGTGACAGGCTGTGTTCCCACAGAGAATTTCCCATCCTATTATCCCTCCCATGTGAAGGCTTGCTGGATAGATCTAACATACTTTTCTCTCACTCCAC
TTTGAACTCTGGAATCTGACTGTTTATTCCATTCATTTGACAATTAGTAATACCCTCTTACTTTTCRTCTCTTACTGTTCCTTTAGCCTTTTGTATATTT
CTGTCTTGCATCCCCAAGTGGTGTTGAGTTCCATGAGGGCAGGGAATATGGGTTTAACTGCTTTGAAGCCTCCTCAAGGGCCAGTCTTGTGCCTAGAGAC
ATAGGGGATATTTGGTATATGTTCAGTAAGTGGAACTGTCGGCTGGCAATTAAGCCTTAAGGAAGGCATGGAGAACCTGGAGACCATTCAGAAGAGTGGC
CAGGCAACATGGGTGTTGGCTGTGGAGTTACTAGACTTGGAGTTACAGCCCAACCAGTCTGCTCACCCCCCACCTTTTCCTCTCACCTCTATAAAACAAA
GGTGATGGTGGAAACTTAATGCTTATTGTAAGGATCAAATGAAATAACATATCAACAAATGAAGTCAGTTTTTGCTGTTATTTATAGAAATGGCCTTTTG
AGTTAGAACAATCAGAAGTGAAGGAAAAGGTTAGAACAGATTATACCGGAGAAGACTGGGAAAAGTTCCTATTTGTTGGATTAAGGAAAAGATGCTCTTT
CTTAGATTAAGTGCTGCTCTGAGGTTGGACTGCCAGATTTGAATTTCGGTCCCATTGTTTGCTAGCTGTGCAACACTGGAGCAAGTTAACTTAACCAATG
TGCACCTTGATTTTATTATAATCTATAAAATGGGAATAATAATATTTACTGCATAAATTTATTGTGAGAAACAAATGAAATAATCAAATAATCCCTGCAA
AGTGCTCATTAGCAGAATGCCAGACACATAGTATGTCTCGGGGTGGACTGGTTTATTTATTGTTACTTGTATCAGTTACCTATTGCTGTATAATTAACCA
CCTCACATGCAATGGTTTGAAACAGTGAATGTTTATTATTGCTCATGAGTCTACAAGTCAGTTCTTTTTATCTCAGTTGGTCTTATTCTTATGTTTTAGT
CAGCTCTTGGGCAAGAAGGTAGCTCTGCTGATCATGACCAGGTTCTTTCACATGTGTCGGGGTTGAGGGCTATAGGCTATCTAAGGATGGCCTTGGCTGG
GCTCACTGGACTATCTTCCATGTGATCTCTTTTCCTCTAGAAGGAGAACCAGGGCTTGTTCATATGACAGCTGGGCAGGGTACCAAGAGAGAGCGAAAGT
AAGGAAGAAGTGACACGGTGGAATTTCTACTGCATCCTATTGGCCAAAGCAGATGACAAGACCAGCCCAGATACAGGAGTGGGGAAAGAGATTACATCTC
TTTTAGGAAGATCTGCAAAGTCACATTGCAAAGGGCATAGTTATAGGTAAAGATTGTGCTAGTTTTGCAGTTGATCTACCCTACCACCCTTACATTCCTT
CTAGAAATAAGAGAAACAAATCGTTGTATCATGTTTTACAGATTACAAAGACCTTTTGCCTGTAACCACTGAGTCTTGCAATGAGACTGTGAGTTAAGGA
TGTTTTAGCCTTCATAACATGCTAGATACTATCTTAGGCACATACTTCTTTTGAAACCTTTTTCTTGTCCTTCCAGCACACATTGATCGCTAACATTTGA
ATAGTAAGTTTTCCTACTAATCCTACTGCTTTCCTGATTCTTCAAGGCTTATGTTATTTTCTTTCATCATTTCATGTTCTACCCATATGCAGAGAAATTG
ATACTCCAGCCTAAATCCCCCAGAGCTTTGTTTTTCCATGTCTAACTGCTGTTGGCCAACTCTTCATACTTGTCACATGGCTGCCTCAAACTCAGCACGT
CCAGATGCATAACCAGACATCTTATTATTTTAAAATATAATTAGACTCATAATTTGCAGAGTAAAAAATACTATGAAGATAAAAAATACATGTAGTAATT
GTTTGACTCTTTAAGTCCTGTCTGTATGATTTTTCACCCTCTAAAGTTTTGGATACACTGAAAATGGCTTTCTATAATTAATATTCTTAGGAAAATACTC
TCTACACAAAAGCATTTTTTACTCAGCCTTAATCTTAGGTCAGTAGGTAGGGTCCTGAATGCAGATGCCAAAGAGCTTAGGAAATTTTCAGAGTTTTTAT
TTAGGGTTTCAGTGGTGCTTCTAAATRTAGCATGTCCCATTTTTCCTTTTCCCTCAAACTGTCTCATTGATGTAACATGAAACCAAATAGAACAGTGCCG
AACAGCTTGAAAGAGTGAATATCATGTGTTGAAAAGGAATATCACAGTATCACCTGGTAAAAATAGCTTGTACCCACAGCAAGCAGAGATTGGTGCACTC
TGGGAGAGTGCATGTTTTTTAAAGGTTTTATTCACTTTCCCCTCCCCAAGAAATTGACAGGTGTTTGCAAAAGCCCTATCAAGTAAGAGGTTGATGGATT
GTAGGAGGTGGGAGGAAAGAACCTTTAAGCTTAGTGGCCAAGTAATTCTTAAAAGGAAGCAACAGAAATGTGGTTAAAATGGTCCTTTACTTTTCCTTGT
CACCAATCAAATATGTTCGTATTCTTGAGGAYTGAGGTAGTGATTTGACAAAGTTAAGATTAAGAAGCCTGCAGAGGAACAAGTAGGGAACCATATCATG
TATTTATTCCATTTAACAGGCATTAACCAGGAAACACTCTACCTCAAGTGTCCAGAAGATACAAAGGTGAAATAGACATGGATCCTCAAGGAGTTTCCAG
CCATGTAGGGAAGATATATGTATGTATATAAATATGCATATAAATACTACCAAGTTGAAAGGGACAGATGTAGTCAGAAAGATATAGGTAAACCGATACA
GGGTTTGTATGTTCTGTCATTTATTTATTCTGACAAAAATTGATTGAGTACCTATTGTATCCAGGCACTGTGATAGGTGCTGGGGACAAAGTTTACATTC
TAGCAGTGCATGTAAATAACAAGCTTATTGTATTAGTCCATTCTCATGCTGCCATAAAGGAGTGCCTGAGACTGGGTAATTTATAAAGAAAGAGGTTTAA
TTGACTCACAGTTCCACATGGCTGTGGAAGCCTCAGGAAACTTACATTCGTGTCAGAAGGYGAAGCACACATGTCCTTCTTCACATGATGGCAGGAAGAA
GTGCCAAGCAAAAGGTGGAAAAGCCCCTTATAAAACCATCAAATCTCCTGAGAACTCACTCGCTATCACAAGAACAGCAGCATGGAGGTAACTGCCGCCA
TGATTCAGTTACCTCCCACCGGGTCTCTCCCACAACACGTGGGGATTATGGGAACTATAATTCAAGATGAGATTTTGGTGGGGACATAGCCAAACCAGCC
AAACCATATCACTTATAAACCACTAAACAGACAAAATAATGCAGTTTCAGATCATCATTAAGTGCTGTAAGGAAAATAAAGCAGGTTAAGGGGGATAGGT
TAGGGGAACTTGTTTTTCAGTAGGTGGTCAGGGATATGTAGAGATAGGGGTGGCAAATTGAAGATCTTCCTGAAATCTAAGACCATGCATAACTAGACAT
GGGAGAATAAGGATGTCTTCATGCAAGAGCAGTCCACTTTGGTATGGCGGTGGGTGAGAGGGGGTAACAAAGCTCAGAAATGTAGTGAATCTCCATATTC
TAGTATTTTGAAGGATTTTCAAGAGGTAGAAGACAGGACCAAGCTGGGACCAATGGCTGGAGGTTTCAAAAGTGAAAATCTATGCTGTCTAGTAGTAGAG
TGTAGAAGGGCTTCTGGCACACTGTTGTTAAAGCCTGGTCAACTGCTTATGAACTCCACAGGGGCACAGGAGTGGTGCCTTTGTCATTGTCAAATCCTTG
TCATCTGCCTCAGTGTCTGGCATGTAGTAGATGATCAAGGGTTGATTTTTGAACTGCATTTCTGACCGTCACATGTCTGGTTGTGTGAAATCTGTGGATA
TTCTAGGATATAGTAGGTGATTAAGAACTGATTTTTGAATTGCATTTCTGAACATCATGACTGGTTGAGTGAAATATACGGATAAGTTAAGATGGCTATG
GATTTAAATGGAAGTCTGCAGATAACATTTTCCAAAAAGAATGATCTATTCTGGTTTCAGCATCCCTGGATGAAATGAATTAATAACARCGCTTTACTTA
ATAGACAGTTTCTCTTTCTAGGATCACAGAGTGGTTTTATTGACCATAGAGCTGTACCTGATTTAAACAGGGTATGGTAACTGAATTTCATTTATTCCAC
TTATTCACAAAACATTTATTTATTTTAGAGAGAATAAGTATTTTACCCAGGATTTCACAGGTAGTAATCACTGAGGCCTTGTGGCTCTAAGTCCATGCTC
TTTCTACTACATCCTGCTGTCTTACATGAAACAGATTTTATTTCATTTTATGCATTTCTGTTTATGTATCTCTATGTCATATTTTAATTTCTGTAACAGC
AGCATCATTTACCAGCTAAGAGGACTGCCTGCTTTGGATGGAGACCTAGCCACTGTGGTGACAAGGACACCTCATTCTCTGTGAGGTCTTCTGCTTAATG
AAGCCCTTCTGGACCTCTCTGGCCTCTATTATTGTCTCCTGTCTCTGATTACCTATAGCATTTGTATACTGCTCCACACCTCACACTTAGCTTATTTTCT
TGTTAATTCTGGTTGAGTCTTGTCTCCCTAGATGTAGAAAATCCAAAGGCTGTTTTTTAAACCAGAAGCTCCATTGTCCAACACTAGACATGGGTGCCTG
TGATCTATTTGTTTGATTTAGAATCATTCATGGCTGAAAGGAAAGTTGAACTCTGGCCCAGAGAAGTTGTTCAATAAATATTTTTTGGATGCATAGTCTT
GGTTCCCCTACAACCTTGCAATTTATTCTTGGCATCATTGTTTTCCGGTGTTCCTCTTAGTGATGTTGTTAACCTCACCATCCTTGAATCAACGTCTGGG
GTTTATCTCTGTAATAATAATAGCAGCTTATTTTTTAGCATTATTACTGCATATAAAGCATCATACTAAGTACTTTATACAAATTCTCTTATTAAGCCCT
TATCATCACTCTCTGAACCTAGACAGCCTGACCCCAGAACCCACACTCCTCACCTGGGTACTATATTTCCTTTGTAGACCCTTCTTGTGCTTACCAACTC
ACAAGGGTTCAGCCCTTATGAATTTCTGGTGAAGGTGTGTTGAAGATATTACCTAAGTATTGTAAACATTTCTAAGTCCTTTCTATTTTAGTGTCAAGGC
TGTTTTTAATATCTTCTATAAAATTCTGTGGTTTCTTTTTCCTCTTAGGTAGATTTGCTAAGTATAGAAGTGTGCAGGGAATAGCTAGACTAGCATAGAA
TTGATATATTTGCCACTCCTGGATTTGCCAGGCAACAGGATTCCTTGTTTTCCTGAGCTTTCTTGACACTGTTAATGGTGTTGGACATAGAAGGATAATG
TGGGATGTAAATAATGAACACTGGAATGAAGTGGATAGCAGTTCTTGGGACAGTGTTTCTAGTTTTTAGGAAATAGAATAAAACTTCAAAGGCCAGAGAG
GGCTGAAGACTGCATTTATTTTCCTGAATCCTTATTTGGATTCCCACTCATTTATTACTATTTGACAGTGACTTATTGGGGATAGGGAGAATGGGGTCCT
CTATGGGACTCCCTGCCTCATCATTTTCATTTTCCTTTTAACTACCCTGTGCTTTCATTTGATAGCAAGACTAAAGAACATGAAAATGCCACCGTGGCTG
GGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCATGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAA
CACCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGACAGGCACCTGTAATCCCACCTACTTAAAGGGTGAGCCAGGAGAATCGCTTGAACCC
AGGAGGCGGAGGTTGCAGTGAGCAGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAGCCACT
ACTAAACGGTGACGTTTCAGAAGGGCAGATAAAGTTACATAATATTTTTAGGCTTCAACTTTTTGCTTTGGAAATACCACATACTCCATAGGACTGTTGG
TGGAATAAATAAGATCCAAATTCCTAACTGTGGCTTGCAACATCCAGTATTATCTGATCTCAACCTGCCTCTCAGACACTCAGATCTTGTTGACGCTTGC
TCACCCCACTTCAGTCTCACTGGCCCTCTTGCTCTTGTTCCAGGATGTCCAACTGGCTCCTTAGCGCCATCCTGCTATACCTGCACCTCCAGACCCTCAC
ACGGCTTCCTCCTTCACTTGGCTCAGGCTTCTGCTCTCAAGGACCCCCCCTCAGAACAGTCCTTCTCTCATCTGCAGTCCAGAAGAGCTCTCCCTCCCTC
CATCATTCTGCCTATCCACCTTATCCTGCCTTGTTTTCCTTATACTACTTATTGCTATCTAAAACTATTTTAATTTTTTATTACTTGTTTGTGCTACCTT
CATTTGAATGTAAACTCTATGAGGGCAAGGATTTTGTCTATCTAGTTTCCTTGTCTCCTCATTACGCCATGGACATAAATGTGCCTGGCACTATTCATTC
CACAAGGAATGTTTAGACTTCCTAATTTCAGCTTTGTAACAACTTTTTTTCTTGAGTCGTGCATCTTTTATTTTTGCAAATGTAGCCAATAAAACTTAAT
TTGACAATTTGACTAGCCTCAGAGTCAAATTGAAGTTCATCGTGAATGCAGCTTCCTACTGGACCACATAGCCACATACACAAAAGATGCCTTTTGTGTA
GGAAACATTAGGGGCAGGCCTATCACTAGCAGGTGATTTTGAGAGAAGCAGCTAAGGTAAGATGGAAAGAATTGAATWTGAGTAAATCAAGAGAACACCA
AGAGCTGTATCTGAACATGACGGAAACTGTAACCAAACTGGATGGGCAAGGGGTACCAGAAGCCCTATACTTATAGGGTGACTTTGATCAAGTCCTTTTA
CCTCCTCTGCATTTCAGTTTCCTTGGGTGTAAAATGAGGCCCATAGGTGGAGAAATGGGAGGAGGAGAGGCTSCCTACCACATAAGGGTGTTGAAAAACT
GTTGAGAGAACATACGTGATAGCAGTCTATATTGAGTAGCACTCACATAAATTGACATAAATGCATATAAAGTGCTTGGCATCCAGTAAGTAGTCAACAA
ATAGTACCTATTACTATTAATATTAACATTATTAAATCACTTGGAAATGATTTGAAGCACTTGTAAAGATTTGGATCTCTTACTAGTGTTAATGATTATT
TTCTTTGAATTTAAGCAAAATTTCGAATTGTCTTCTGTTCCTGTTTGCATTTATAAGCATGGGAGGGCCCATGAGTGCAGTGAGTAAGAATCTAGACTCT
AGAGTCAAGACAGAAATGGGTTCAAGTCCTGAAGTAAATGAATAAATAAATAAGCAAATTGACTAAAGTTCAAACCTAATCTTACCCCAAGCAAGCTTTT
ATTTTCTTTCTCTATCAAATTCCTGTCCATCTTGTGAAGGAGACACTGTGGCCAAAAACTAGGAGCAAGAGAAACTGTAGGCTGGGTAATTCATGGATGC
CTTTTGTACCTCTCTATGAACGTGAACCCCCTGTATTCCTTCYCCAGCAGAGACATGAGCATGCTTTGTCCACACAGCCCCGCTGGGCCTTCTCACTGTT
TTATGAGACAGATACCAAGACACATCAGAGTGGCAGCCCCTCACTGCCATCATCACTGATGAATGACAAAAGTTTGGAAAAGAAAGAGCTATGGACAAAT
AACTCTCTCCCTCAAGCTCATCAAGTGGGGACACACATCCTCCTTGTCTCAGTGGTTTCCTGATGTACCTTGAAGGTCCTTCACATCTGTGGTCCTTGCA
ACTGCTGGGAATGACATAAATCATAATCCTGATATAAAGATTGATTGAATTCTTGCCAAATGCCAGACATTGTGCTTAATCCTTTATCTGAATCCTTCTA
CAGCACTAGGAGTTGTAGGTACTATTATTGTCCTCATTTTTACAGATGAGGAAACTGAAGTTTCAAGAGATGAAATAACTTTCCCAAGGTACCCCAGTTA
AAAAGTAGAAGAGTTAGGCTGTCAATCAAAGTCATCTAACACCAGAGCTTGTCTGTTTTCTGCCAGACTGTAAACTCTTTGGGAGGAGAGACAACCCTCT
CATTCACCTTTAGTCCCCATCTATACCCAGTTTCACCTCAGTTAGTAGTTATTAAGATGAAATTTTAAAATCTTTTCATGTGGATGATGCCCTAATGTAC
CATGAGTGTATCTTGAGTTGCAAGGTAGAAGCTGTCTTCACCTGTGCATTCTACTCAGCCTTTGCACAGACACACAGTCTCCCTCTAGCCTCATGGTACC
AGGGAGTGGAGGGTACATCTCTACAGAGGAAGAAACATTCTGCCAGTCCTTCATAGTAAGTGGTGGAGTTAGGATATAAGCTGAGGGCCCTCAACTTCAT
ATTTGGCCATTTTCCCTCTTCTGTATCTTTAAACTTTAAAGAAATGTGGAGATTTTGTGGATGGGGACAATGATATTTGACAAATTCTTTTTTATTATTT
TAAAAAATCCTAATTGTGAGGCAAAAGTTATTTTAATCTCTAATACAGGCAAAAATGCTTCATTGATTTTTTTTTTAAAGCAAAGTAATAAAAACCCATG
TCCTTTTTTTTGGAATAAATATTATCACTAGGTGTTGAGGTCTGCAAGATGCTAAATAAGGATTCGAGTAAAATGCTTTGCAAAACCATTTCAATGCAAA
ATCAATAATATGCATTAAAATTTATGAAAAATGAATTAAGAAAAAACAACCCCTTACCTTTTAGTGGATACACACACACATGCACAAACACACACGTACA
CACACATACACACGAAACATTAACATGAAATGTTAACTTTTGGTCGTCCACTGGAGTTTGAGGAATAATGGCTTCGTAAATGAGAAAAACACCAAGAGCT
TTGTATGAATATAATGATTGCCATAACTAACTAGATACGCAAACTAAATGCACAAAGACTCTAAGTGCATAAGAAAGTAGAAGTCTAACACAGGATCCTA
KAAATCCCAGAAACTCTAGACTTTCAGATAAGAATCCTATACCTTTAGTTGCCTTCTGGACATCTTCATTGGATCTTGTGAATGAGACTGTGAACTGGTA
TTTAGCTAAGCATGGCTGCAAAGCATGCTGAGTCATCAGCATGGTAGGTAAGGAGAGGTGAGTGGTGGCCAGCAGTCCAGAAAACATTATTTTGAAAGGT
TTTACTGGTAAAGCTTCAAGATCAAGGGTCCTGGGGCCATAGATGTGCTGGCCTGGCTGGCTGGCTGGGCTGTGCTTCTCTAGTTTATGGCTAAAGCCCA
GCCAAATTCCCTTAGAGTAACTTAAGATTTGTTTTATAGTTACTTATATTTTTTGTCTTATCTCTCTGTGAGTTCCTTGAGGAGCCAGTCTCTGACCGGT
TCATTATTTTAACTGTTCTTGCTGTATTTACTTCAGAGTAGGCACTCTAGAAATCTCTCTTGAGTGAATTAAAGGATGATTTAAAGAGCATTCACAGGAA
GATCGGGTACAAAAATGGTACTACAATAATAATGACAATAATTGCTACCATTTACTGAGCACCTTCTATATGCCAGGTGCATTGTTCGCATTTCTGATTC
CTGTCTTTCAGGTCAGCAACCTTTTGTCAAATATTCACTGAGGCTGATTATATGTCCGGTTTTGTATTGGCTCCGGAGTTTTCAGGGAAGAAAGGGACCC
AGTCTGTTGCCTTGAGGAATTCACAGAAAAGATAAAGTGCAATTACTATATGGTGAGCTCAGTGCTTCAACAGCTGTGGGAGTTTATGCACAGTGACCTA
ATAACCTTGGGAAAAGAGGGGTCATGGTGGAGCTAAATCTTAAAGATGAAATAGGAATTTGCCAGATGAAGACACTAGAGGAAGGCAGGGGACAGTGGAT
CAGTCTGGGTAGACAGAACAGTAAAGGCAGAGGTAGGAAGATGCTCAGCTATGTGATGGGTTTATGGAACATTAATTAAGAAAATATATAGAACACTGGC
TGTGTGCTAGGCACTGGGGATGTAATTATGAGCAAATCCTCATAGAGCTTATAATCTAGTATTTATGTTATCTAGGGGATAGCATAAATAATAGTAAAAA
GACAAACATTTATCTACAAATTATAGTAAGTTCTATGAAGGAAATGAATTAGATTCTAAGAGAATAGAACATAATTTGGATTTGGTCTTTGTGAGAAAGG
TACATTTAAGCAGAGACATAATGGAATAACAAGGAAGTGAGTAGGATGAAGTGTGTGTCAGATGGGGAATTCCATGTGAGTGTAAAGGCCCTAGGGCAGC
CATGTTTAAGACGATGTAAGGCCACCAGGGAGACAGCTAGAAAGAGATCACATCAATTCCTTTAGGAGACATTTTAGGGAATTTGCATTTTATCCGAGGT
GCAAGGAAAAGGTATTGAAAGGTTTTAAGCAGGGGAGCAGCATGAGTTTTTTCCTTCATTTTTAAATGAAAATTTTGAAGCATACATCAAAGTTAAAGGA
ATTTTAAAGTGAGCTCCTGTATACCCATCACATAATACCATTTTCATTTTATTGGATACAAAGATGTGATGTATTTTTAAATGCTCTGTCCTCTTTGTAG
AAGAGTACTGAAGAGGAAGGAGAAGGGGAAGTGGGAGCTCTAGCCCTAGTCTCATCATTTACTGTCATCGCAGGTAAAGAAGAGCTCCAGCATGGAGGCC
TGGAAGGCTGCTCTGCACAGTGTGTGGCAGAGGCCAGACCACAGTGGGTTTTTTGTATCATGCCAGAGTACAGGTGGTCCTATACTTACAATGGTTCAAC
TTACTATTTTTTGACTTTACGATGGTGTGAAAGCAATACACATTCAGGAGCCCCTCGACTTAACAGTGGGGCAACATCTTGATGAACCCGTCATAAGTTG
AAAATACATATTGTCAGCTGAAATTGCTTTTTGACTTATGATATAGATATAGATAGAGAGAGAGAGACAGAGAGACAGAGAGAGAGAGAGTCTCACTCTG
TCACCCAGGCTGGAGTGAAGTGGCATGATCTCGGCTCGCTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGA
TTACAGSCATGCACCACCACACCCAGCTATTTTTTTTGCATTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGCCTCAAACTCCTGGCCTCAA
GCGATTGTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCAGGCCAACTTATGGTATTTTCAATTGAGATGTACCCCGATC
ATAAATCAAGGAGCAGCTGTATATGTAGGCCATGGGGAGATTGTAGAGGATTTCAGTTGAGAGTAAGGTAACCTCTTATCAGTGGTTTTACTTTCCACAG
TTTCAGTGACCCTTGGTACTTGACCTTGATCCCAACCTTCGTCAAAAATGCTACATACAGTAAGATATTTTGAGAGAGAGAAAGAGATCACGCTTACATA
ACTTTTATTACAATATACTGTTATAGTTGTTCTATTTTATTATTAGTTATTATTGTTGATCTCTTACTGTGCTTACTTCATAAATTAAATGTTATCATAG
GTATGTATGTATGTATGTATACAAAAACACCATAGTATATATTGTGTTAGGTACTATCTCAGTTTCAGGCATCCACTGAAGGTGTTGGAACATATACCCA
GTGGAGAAGAGGGAACTACTGTAGTGTGAGCAGGCTTGCATATTCCAAGGGTCCTGGAGGCAAAAATGTGTAAGGAAATGTCTGACATGAGATAGACCTG
GGCCTGGGAAGTGAGTCTGGAGCCTTTAGTCCTATGCAAGAAAGAGGATAAGCTGTGTTSTGTAAGGCCAGGGAGAATGGGAAGAAAGAGAGAGGGGGAG
GGGAAATATTTGACGATTATTTAGGGGTATAATGCCTGAACCATAATAGTTGCTTGATAAGCATTTATTGAGTGAATTAAAGTACAATCAGCAGGACTTA
GAAAGTCCTGGTGATGAAAGACAAGGAGATGAGTTGTAACCTGTGCAAGTCACTCAACTTCTCTAAGCCTCAGCTCTTCATCTGTGAGAGGGGAAAGCTA
AGGGTACTTCCTATTATATTTGTCAAAAATCTCCAGAGAAACAAAGTAAATGGGATGTTTCTCTCTCTCTCTCTCTCTCTCTCATACATATATGTTAGAT
ACATGACCCTATACTGCACAGCTTATCCTCTTTCCTAAAGAAGACTAAAGCCTCCAGATTCACCTCCCAGACCCAGTTCTATCCCATGTTAGATACATGT
ATATAAGTAGATACATGTGTATATGTATTAGGTGTAGGGGAGACATATAGGGAATTGGCTCACATGATTGCAGAGGGTCACAAATSCCAAAATCTGTAGT
CAGCAAGATGGAGACCCAAGACAATTGATGGTATAGTTTTAGTACAGATGCTGGCAGGCTTAAGCCTGGAAAGAGCCAATGTTTCAGTCTGTGTTCAATA
GCAGGAAAGAATTGAAGTCTCACCTTAAGACAGTCAGGCAGGAGGAGTTCCCTCTTACTTGAGGGAGGGTTGGCCATTTTGTTCTATTCAGGCCTTCAAC
TGATTGGATGAGGCCCACCCAAATTAGGGAGGGCAAATGACTTTTTTCCGTCTAGGGAGGGCAAATGACTTTATTCAGTCTACTGAGCCAAATGTTAATC
TCATTTAAAACACCTCACAGACATATCTAAATAATATTTGACCAAATATCTGGTCACCCTGTGACCCAGTCAAGTTGATACATAAATTAACTATCATACT
TACCCTGCTTGCTGTGAAATGCTGTTAAGTTTTAAAATACTGTACACATGAAAGGAAGTATCACTATTGATTCAAAGAGAAAAGGTTACTTTAATGATAA
TAGCTTAATTTTATCCAGTGCTTCCCATATCCCAATTATTATTTGGTCTTACTAGCATTATCTCATTTAATTCTCTCAATAACTTTATCCCTCTGTTTAC
CCGTTAGAGAGTCCATGTCTACAATTGTTGCTGCACACAGATTCCCTGCATTAAGACATGGTGAAGAGGAGCACAGTCTCTGGAGCCAGACTTCCATGGT
TTCAATCCCAGCTCTGTCACTAGCCTACATGACCTTGGGAGCAAGTTACTAACTTCTCTGTCCCTGTTTCCTCTTCTCTGAAATGGGATAATTGCAAAGT
GCTTAGGACAGAGCCTGGCATTTAGTATACAAATATATACCTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATATAGTATTTGTGTGTTTAT
ATATCTATGTGAATATATTGCAGTAGTAGTGGTGGTGATGACGACAGTGATTACACAGAGAGCAAACTCTCATGCCTTCAGGCACCAGTCAGGTAATATC
AGTGTGTGAAGCGATAAATAATAGGTCAATATGGAGTGGGGGAAGTGAGTGGAGAACTAGGGAGTGTCCTCTTAACTTGAAGGCATTAAAATCCAGGAAT
TTCCAAAACACTACTTGGGCCACCTAAAACTCATTTTTTTTTTACCCTCAGGTTGCCGTCTGCCAAACTGTAATGAGTGTTTCACAAGTACTTCCCTTAA
CAATTGTGCTAGCAGAGTGGCCCATTTTACAGATGTCAAATTCGAAGCTCACTTACAAGGTAGTCAGTACCAGGGGAAACTGGGACTGAACAAAGGGAAC
AGAGGTCTGACTCCAAAGCCAGTAGGGCTATTTGGATGGTCTCAAGGTTCCTAGGTGAGTGGAACTGGAACATTCAGTTCGTCCTACTGTCTGTCATCTC
TAACCCCTTTGAGGATACGATCTCTCACTGATCTGTGGCAGAGGTAGAGCAAGTGAAAGAGGAAAGGTGCCTGTGGTGCTTGCAGTCTCCCTGGAATGTC
TTCTGTGCTCTCCCTGTGCAAATCCCACATCCTGCTGACACCACCCTCTCTTCTCCATTCCCGTGCCTATCACATGTGCGTCTGTTGGTGGCCATGCAGG
TTATGGCTGTTTATGTTTGTGATGCTCCTTCCATTGTGAGCTCAGAAGGGTTAGACCCATATTCATTTTTCCATCTCCTACCTGTTTGAGTTTCCATTGA
GTACCATCCATTAAATACCATCTGCTGGATCTGAGTTCTAGTTATTATCCATCTCTCATCAAGTGATGAAGTCTGGGTGATTCATTTGCCATCTAAGATG
TTCAGTTTCTGCRACTTTTAATTTGTAATTATTTATTATTATTTTTTAGATGGGGTCTTGCTTTGTTGCCCAGACTGGTCTCGAACTCCTGGGCCCAAGA
GATCCTCCTGCCTCAGCCTCCCAAGTAGCCAGAGCTACAGGTGTGTGCCACTACACCTAGCTCTCCATCTTTAAAACTGGGATAATAACTGTCACAAGTT
GTATTCCCCAGGAAGTAGATTCTGATGTAGACTAGCATGTAGGAGATTTATTAGGGAGCGTTCTTGGGATCATCACAGGGGAAGAGAAGGGAAGGAAGCA
GGATCAGGCAAAGGGAGAAGAGAGGTTACAGTACATTTTTAATGAAGGCCTCAGCCCCTTCCATGAGAAGCTCTGAAGCTAAGATAGCCTTTCAAAATAG
TCCTGAGTCAGGGTGAGGGTGTCAGGTCTTTATACCCTATGTTGRTCACTCACTGGATGTGGACACCTCAAGAAGGGGGCATGACCTTGGGAAAGACAAT
TCTCTCAGTCAAGGCAGTTTCAAAGAGAGTTGACAGTTGAGGGTTGTCTAAACTAAAGTTATTCTGTTTCAGAGGAGGACTTGGAAGGCATCACAGCCTC
CCAGTAACCCAAGAAACCAAGTTGGTTAACCCAGTTACTCAAGTAACAACTTCACAGGAAGGTTGATACATGTAAAAGCATACTGTAAGGTGTTAAACTT
AAGGTTTTAGTTGTTGTTAATGTTAAAAGTAATATTACTGGGGCTGGGTAAATACTTCTTCAACTGAGTTGATTCTGTGTTTTTAGAGCAGCTTCTCAAT
AAAACTCATGCAGTTAGTATACACCCTTGTTTTATTCTTCTCACTTCCCAAAGACACCCTTCTCCCTCTCTCTTTTGTTATTAAGCTCATCTTAAACGTG
CGTATGCCATCCTATTTTAAAACCTCTAGGGTTGGTTTGATTTGATTTCCTTTCCACTGAAATGACTGTTCTGAACTCTGACCTTAATCTGGGATGGTTA
GAACAGCTGGAAGCACTTTCTTGACTGTCTATCTATCTTCAGACTTTATATTCCATACAGTCTCAGAGAAAGTTTAAGTGCGGTCTTTAAACATTGCTAA
CATTAACAATTCCCATCAATGAAGTTAACTAAATGTAAATCAGTACTGGCACTAGCATTCCCAACTTTGTACTGATCCTGGATAGGCTTGTAAGGCTCAG
ACGTCAGAATATCTTAGCAGAAGCTGACAACAGGAAAAATGAATGTTCTAAAGATCAAGAATATTGAGCAACTATGAGTCAATTCCAGGGACTAGCTGCT
TATAGAAAAGAACTGTGTATGGGAGTTCAAAGGTGTAATATGTTGTTGATTTCACACACACACACACACACACACTCACACACATACTGATGTGGTCAGG
CAATCATTCTCTGAATTCCATCATCATTTGATTTCTCTCAAATATATATGTGTATATATTTCTAACTCACAAATCTCATTGTGTCATTTCCCTGATGAAA
TATCTTCTGTAGCTCCCTGACATCTCCATCAGAAAATCTAAAGTCTTAGCAAAGCTCTTATGTTCCCTAAATATGCCAGAATTTTTATGCTGCTGTGTCT
TTGGGCATGTCGTTTCCTTTCTGCAGAAAGCTTTCTCATTGCTTATGCATCCTTCAGGTCTCAGTTCAGATGTTACCTCCACTGGACAGCCTTCCCTGGC
TTCCCCACAATGACACTTGCTGTTCTGTGCTGCCTTTCCTCCAAGACAGTGAGCTGCAGGATGGAAGGAAATAAATTCGTGGACTAGTTGGAGGGGTGAG
AAGATCAGGGTAGAGAGAGAATGGGAGAAGTTATATGCAAAGCCTTTGTACTTAAAACTTTCATCTTGCAGAGTCGATACTCGGTTATATGTATCTCTAA
AAGTGTGACTTAATATATCTGATATTTCATTTTGTTCTTGGCTTTAAGAAGAACCAGAATCTTTTGATTCAAGGATTAGAAGAGCTTCTAAAGGTAGGCT
TTCTGACAAAAGGAAAACTTTCCCCTGACTGCCCTCTTGTGGAGGTGCCAAAATAGCCCAAAGATGGCAAGTCYATAAAATCATCATAAACCTTAATTGA
GAGAGCAGTTTTCTGTACTGTCTGTTGTACTGGTTAGTCAAGCTGCCATATGCATATAATTACATATTTTTAAAATTTGAATGTGGCAAGGCATGCCCCA
AACTGAATTCAGTTTGTCTCTGGTAAATCAGATGGTTCTTCAAGAATACAGAATACCCAGAGTGAAGGTTATGAACAGCACATGGAGACAGGCCACATGT
GATTAAGAGCGGTCTCTGGTGGATGAAGTGCTAGATGCACACTAGCTTTCACTAGCACTTTAAGTTCCATTTCCCCTAGGCTCATGCCATGCCTAAGAAT
CATCTGCTGACCTATGTTAAAATGCTGATTTCTGAGCCATTCATCCAGATTCTGATTCAGTGTGTCTGGGCTAGAGCCCAGGAATCTGCCTTTAATAAGC
ACACCAGGGTGATGCTAATGGATGTAGCCCTTTTGAATCTTGCAGTGGGGATGGGTTTTATAGAGTCATTTACATGCTTTTCTACAACTGGGGCAACTTT
CTTATTTTATTTTGAAAATTTTTTATTGTTATACTTTAAGTTCTGGGATACATGTGCAGAATGTGCAGGTTTGTTACATAGGTATACACGTGCTATGGTG
GTTTGCTGCACCCATCAACCCGTCATCTACATTAGGTATTTCTCCTAAAGCTACCCCTCCCCTAGTACCCCCACCCCCTGACAGGCCCTGGTGTGTGATG
TTCCCCTCCCTGTGTCCATGTGTTCTCATTGTTCAACTCCCATTTATGAGTGAGAACATGCAGTGTTTGGTTTTCTGTTCCTGTGTTAGTTTGCTGAGAC
TGATGGCTTCCAGCTTCATTCATGTCCCTGCAAAGGACATGAACTCGTCCATTTTTATGACTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTT
TATCCAGTCTATCATTGATGGGCATTTGGGTTGGTTCCAAGTCTTTACTATTGTGAACAGTGCCACAATAAACATACATGTGCATGTGTCTTTATAGTGG
AATGATTTATAATCCTTTGGATATAAACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGGTTCCAGATCCTTGAGGAATTGCCACACTGTCTTCC
ACAGTGGTTGAACTAATTTACACTCCTACCATCAGTGTAAAAGCATTCCTATTTCTCCACATCCTCTCCAGCATCTGTTATTTCCTGACTTTTTAAAGAT
CGCCATTCTAACTGGCATGAGATGGTATTTCATTGTGGTTTTGATTTGTATTTCTCTAATGACCAGTGATGCCTTTTTTCATATGTTTGTTGGCCACATA
AATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCACTTTTTAATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGATT
CTGGGTATTAGCCCTTTGTCAGATGGATAGATTGCAAAAATTTTCTCCTATTCTGTAAGTTGGACTAGGACAACTTTTTATAGAAGTCATGATTTTACCT
ATTCTCATCTATTGTCTCCATTAGAGCACTCTTTTTAGAACTTATGCCTTGATTTTTGGCTTGAAAGACATGGTCTTCATTTCCATACATGAGATTGCTA
GTAAGAATTAGGCATTTGATCTATAACTATGGAACAGACTTTCTTTCCTGTCTCCTTTCCTCCTTCCCTCCTTTTCTCTGTAGCTACCTACCTGTCTGCC
TAACTATGTACCTATGTACCTACCCACCTGTATTTACAAACCAACCTTCATTGTGCCTTGTACCCAGTGAACCAATGTGAACTTCAGAAAAGCCAGCCTT
TCAGAATGGGGATTACCCTGGGATTTTGACCTTTTTGATAGGGAAAGATGAAAAAGCATTGGCCAGGAAGTTTAGCTCTCCTAGAGAATAATACCAACAG
CCATTTTTTTAAGATATGGAGTCTCACTCTCACTCAGGCTGGAGTGCATTGGCATGATCATAATGCCCTGTAGCCTCAAACTCCTGGGCTCAAGTGATCT
TCCCACGTAATCCTCCTGAGTAGCTGGGAATACAAGCACACAACACTTTACCTGACTAATATTTTTTATTTTTTTTATTTTTTGAGACACTGGGTATTGG
TTTGTTGTCCTGGCTTGTCTCAAACCCCCAATGTCAAGTGATCCTCCCAACTCAGCCTCCCCCAACTGCCATTTCTTGAACACCTGCCAGATACCAGGCA
TTCTATAAGACTTTTTAGGTACATTATTACTAATTCATCAAAGTAGTTCACAGGTGAGGAAATTGGAAGCTTAAAGAGGTTATGTACTATGTAAGTCATC
TAGAGTCTTTAAGGTTGAACTATAACTTGAATCAGGTATGTCTGACTTCAAAGCTCCTTCCTCTCTCACTGGATGAGCATGTATCTAACTACCTGCAGGT
GGATACCAATGGTCATCAGCCTTCTCTGGGTCTACTAGTTAGTTTTGTTGTCATTAAACATAAAATTTGGGGAGAAAACTCCATATTCAAAAAAGTAAGT
TAGCAAATCAAGCATTTCTCCAGGGCACAGCTGCTATTTTCCCACTTTCTGAGAAATCTGAAAATCAGTATTGAAATAGAAAGGAAAAGAATGCTTACTG
TGAATTTTTAGAAGTTTCTGAAGATTGTTTTAGGACCACACTGGGCAGCCACGTATCTTAATTTTGCATTTTGTAAAGAACCTGTGGCATTGTTGACACT
CCTGAAAGGTCAATAACTACTTGTTTGGTATTTCAAGTTAATTGTGAGTTTCTGCATTTTGCATAGCTGAGTCTTTATTGTTAAAAGGTCCCTCATAAAT
GTTGCATTCCCCTCATTGTTGAGAGCTGCCTTGAATGCCTAGTAGGCCAATGGAAATACATTTGTTGCAGTGGAAAGGCATTTGACTTAACACAGCGTAA
TTAATTTTTCTTTAGCCATCAGGACATTTTTAAAAATCAAGTTTGTGTTTTTCTGATTATGAAAGAAGCACATGTTCAGTGTTAACAATTAGGAACATAT
AAAACAGTATAAAGATGATAAATCATCCATGATCTTCTTACCCAAGAGTAATTATAGTAGTAATTTTTTTAAAGTTCTTTAAATAAGGCATGTTTACCAT
GTGTCAACTCTGTTGTAGGGTAGGTGACATAATTCTAATTTTATAGATTTGGTAACTAAGCTTAGAAAGGTTAAATAATTGTCCTGCTTAGTTTACAACA
TTCTGTTTTCCCCTAGTTCCAAAGCCTATACTGTCCCACATAACCACTGTTAACATTCTAGATTGTTTCCTCCAAGTCTTTTTTTATGCATATTTTTTCA
TGGCTGAGATCATACTGTGAACACAGTTTTGACCCTCCCATTTACCCTTCACATAATGGTATAAGCATTTTCCTTATATAATATGGCTCTGCCTCCCTCC
CTGCCTTCATCTCATACCTGCCCCCTTCTGTCTTGTATGCCACACTCCAGTCACATTGGCCTTTTTTCTGTTCGTGGAACAAGTCAAGAATGTTCTTGCC
TTGGGACCTTTGCACTGGCCATTTCCTCTGCCTCAAACACTCTTGTCTTAGATCTTAATGGCTCATTGGTTAGTTTTTTCTCATCCTTTAGGTAGGTGTC
AGCTTCAATATATAGGTTTTCCCTGAAAGTCTTATCTCACATAGGTCCTGTTTTCTTTCTTAGCACTTGGTGGATTTCCTTCATAGCACTTCTTATAACT
TACCATTAGTTCATTTTATTTGCCTTTTTATTGTGTTATTGTATCACCTTCACCTTTATAGGTCTGGGCCTAACATGGGCTTATACATGATGCTGCATTG
AACATTTTTCTATATAAAACACTTTCTCTATCATTATGATAGTTTCATAGAAGTTCAAACTAGATCAAAGTGTAGGAACATTTTGAGGGCTCTTGCTTCA
CATTACTGCAAAAATTTCATCCCAGCATCCCAAAGTGTATACAACTRTAAGCACTGTGTGGGGGTGCCAGTTTCACTGCATCCTTGCCAGCATCATCAGT
TTTTAAAGTCTTAGCTATTTTGATAGGTGACTTAAACCATGCCTGCACACTGTAGGTGCTCAGTAAATTTCATTTGCTAAAGAGATGATATATAAAGTTG
ACATTTGGCCAGAGTTCCAAGAACACACACATCCTTTCCTGGACTCCTTTTCCTTTGAGGTCACACAGAGAATGTAATACAGAGAACAGCAGTAGCCAGT
GCCATGGCGTACACCTATAATCACAGCACTTTGGGAGGCCAAGGTAGGAGGATGGCTTGTGGCCAAGGGTTCTAGAGAAGAGCGGCAAGTAGAGGTGCCC
AGATTGGCTCTATTTTCAGCCTTCATAATCTGGGCAGGATCTTCTGAAAACTTTATTTTGCTAGGCCTAGAGGTAGCCATTGTCTAAAAAWACAGTTGCC
CCTTGCTCCTTTTCCTCTAAATCTATATCCAAATAGTAAGGAAGGACCTATTCAGAGCAAAGAAAGCATATTTGCGTTGTCATTGCTGGCATAGACCTGT
CCAAATGCCATTTCAATATTATCTCCTTGACAGATGAGGTACCATTTTTATTCAGATATCTAATTAGCAATCGCTTTAAAAATTCATCATATTTAATGCA
TGGCATAGTAAATACTTTATCCTCTGAGACTTTAACCCAATATAAAGCTCTTGAACCTGACTGTATTTACAGCTGCAAGCCTCCTTCTTAGGGAGGCAGC
GAAGGGGGAGATAGATGCAGAGATATCCCCTTAGCATTATTTTCATGTATGAGTTTTAAAACTAGTTGTGAGGGTAGATGTTTTCCCACATGTTTGTTCA
CCAGTTGTAAGTCCTATTTGGGGTAACTGTTCATGTGTTTTGTCTGAGTCTGTATTGTGTTTTGTAATACATTTATGTGAGTGCTTTAAGTAGTAAAAGC
AGTGATCTTTTTTTTTGTATCTTTGGTAAATATTTTTCCAGCTTGTCTTCCCTGAAACTTTTTCTGTTTTAGACTTCCTGAAGTTTTAAATGTACATGTA
GGCCATTCCGTCAATATTTTTCCTTGTTAATTGCTTTTAAGCTTATAAGAGTCCAAGATTGGCTAATGGGTTACTTTTTTTTCCTAGTTATTTTATGGTT
TGATAAGCATGTCTTGCTTAGAAGGTCCTTTCTACTTGTATAAAGGAACGTTGAAATTGTATGAAATGTAAATACCTGGTTCCACAGCATTTTCCTTGAA
ATTGGGAAATTTTTCTAGTTTGGCTTTGAAAAAAATAGATTTCAAAATAAGGTATAACTAGATAAGATTTAAAGGTATTTCTTTGTTTAGTTCCTTGGAA
CCATTCAGCTTTTATATATATATATATATATATATACTCTCTCTGCTCTGCCTCCTGGAATAGTATGCGGAGGAACCCTTTAGCATACTAATATAATAAG
GATGCTTTTTATGGCTTAAGAGATCTTGGGAATCCTTGGGAAATTGTTCAGTGACTCTCTGCAATGGAATTAATGTTTTAAACCCAGAAGCATGCATTCT
ATATAAGAGATATATTTTCAGAGCTCTTCTTGCTATGAGCTTTCCAACCCTTGCCTCCTACCACCCTGGGAGTGGTGCACCCTCCACACCCCGCACCCTC
CACCCCCAGATAATTGGATTGGAGCTAGTGTTCTTTGTTGTTTGCTTTTCAGAGAGGGGTGGTTGTGTATTATATTCTGGAAGGAATAGGTACTGCTGTA
GTGTGAGTGCATTCTCTCGGGGACTCTGCAGATCCAAGGCCAGTTCTTCATTCTGAGCCCCTCAAGTCACTCCTTGGCCTCTGCTGTTCTTTAGCTAAAG
GAAGAGATTCCCATTGTTCCCATCTATTTTTCCAAAGGGAGAATGCCAGTACTGAGGAAGAGGGTGGGCTTAGAGAGTCAATCAATTATCTTTTGGGCTT
AAAACTAAAGAAAATGAACCCATGGTTCAAGGATATCTACTTCATCATTTATTATTTTCCATGTGAAAACCCCCTTGGAGCAGGATAATCTTTTTCTAAT
CACTGTACTGAATGGATCCCCAAAACAGCCAACCAGAAATGGAATTTTAAAACATGGCTTATTTTAAATTAATTTATTTTCTTTTTTAAACCAATATAAT
GAGGAAGCAGAGAGGTACAGAAAGGGCTAGGGACTTAGCCAAGGTGACAGAGCTAATTAGTGACAGAGCAAAGATGCTTGCTGTTCATGTCTTCCACTCT
AGTACTTTCTACTGTCTCTTTTCTCACAATCTTCAGAGGTGTATAGTTTACAACTGTGGCTATGTACAACAGACTATGTCTTCTAGATTGTAATTTTTTA
AACTTAGCTAAAATAACCTATTGAAGATAAATATATTTTAATTTTTATAAATTTCACCTTAGCGATGTGACCTAAAATGTAACCACCTCAAGTAGACACT
GAATTTTCTACAYGAAATTTGCTGTGGACTAAATTGTGTCTTCAAAATTTGCATATTGAAGCTCTAGCTCTTGATGTGACTGTATTTGGACATAAGGCTT
CTAGGGGGTAATTAAGGTTAAATGAGGTTATAAGGGTAGGGTCCTAGTCTGATAGGATTGTTGGCCTTATAAGAAGAGGAAGAGAGAGATCTTTCTCTCC
ACCATGCAAGGACACAGTGAGAAGGCAGTCACCTGCAAACTAGGAGGAGAGTCCCCTCTAGAACCCAACCATGCTGGCACCCTTATCTCAGACTTCCAGC
CTCCACAACTACAAGAAAATACATTTCTTTTGTTTAAACCACCCAGTCTATGGCATTTTGCTATGGCAGCCCAAGTTGACTAATATAAAAGCTTTATTGC
CTCACTAAATTCTGGTTTCTAGACCCAGTAGACATACAAATTACAAGATCATTGAGGCTGATCTGTGTTTTAGAAAAATCATTCTGATAGTTCCTTTGAG
GCTCTGTGTGCCTTTTGTGTGATTGAGTTGTGAGTGCTTCAGAGCACTTGCTTTAATTGTAAGGAATAGCTTATTGTTGACTGGAAACATCCTGGCTCAC
AAATGAAATTGATGAAAGCTGGCCTGTCCTTCACTGAACCAGGAGTGAAGGATATATTAGCATTGTGATGTCACTGTGGCCAGAGGCCTTTGCTGGACTG
GGAACTCACTTCTGAGTTCCTGAAATCACTTAATTATAGGCGAATACACATAATACCTGAACAGCATCACTGCACTATTTTTGTCTTCCCTTCCATGCTG
ACTTATTCATTAACATTTGTGTAAACCATCTGAACCATAGAATCCTTTTGGGAGGTCCTCCAGCTCATCTCTTCTATCTGTAGACCAACTTTTCCTCGAG
CATCTCTAACAAAACTCAGAGGCTCTCATCTTCCCCACTGAAGAGTTGGTGCCCTTGAACTGATGGATTCAGCTGATGTCAAAATTGGAAACAAATATTA
ACGAATATTTAATTCAATCTCGGACAAAGTAAGAGATCTAAAAATGTGTGGTCCCAAGCCTCTTAAACTTCTTGAAATCAAAGAAAGCCAACTGCTGGCC
TGAAGGTCTTGGCAGAATGGTAATGCTACTTCTATARCATTAACCACCAAAAGCCCTTCATCTCCAAGGATAGACAGGCTCCTTCAATCACTCGGTGCAC
TAGAAGCCAGGAAACAAGAAAGGGCACCCACCCACACAGCCAGTCAGCACCTCTCATATCCTCCCACAGACCCTGTTCTCCAAATACTAGACAGCAGAAT
AATCAGTTAAGCCTTAGTGACTGCCAGGGTGTTTCAGATCCATTCAAATGACTGTGTTGGTTTTACTCAGGCTTGGCAATTGTTCTTTGCAGAAGGCTGA
GTCTAGCAATAGCCCCATTTCACAGCTGATGGTGCTAACCCATGGCAAGGCTTGAAGTCTCCACAGCAAAGGAATTGAGCAGCTCTGACTACAAGCCACC
TGAAAGTGAATGAGCTCCTCAAATATTATCCGCCATTCTGCCACACTGCCAGTCACTAGGATAAAGAGAACCAGAAATGGTCGCTGGCTTTGTAGAATTC
TCAATGTAGCAGAAAAGAAAGACTCATAAGAACTTATCATTACAGTGTGAAAAGGGCTGTAATGTTGGAAAGGAAGCAAGGAGGCTACAGGAGCAGAGAG
GAGGGTAACCTAATGCAGATTCTTAAAAACTGGCTAAATTAAATTAAAGATGTAAGGCATTGTTAACTTTAAAGGTTTTCCTTTTTAGATTCCAGGATGA
TCTCTGTACCTTCTAATATAGTTTTTTTGAAAAAACAAACTTGATTTTTAAAAACTTTGGTTTAATTTCAACATTCTCTCATGTTGGCTTTTTAAAAACC
TCTTTCTGGCTAGGTGTGGTGACTCATTCTTGTAATCCCAGCATTTTGGGAGGCCAAGGTGGGCAGATCAATTGAGCTCAGGAGTTTGAGACCAGCCTAG
GCAACATGGCAAAACACCATCTCTACAAAAAAGTTTTAAAAATTAGCCAGGCATGGTGGCATGTGTCTGTGGTCCTGGCTACTCAGGAGGCTGAGGTGGG
AGGATCACCTGAGTCCAGGAGGTTGAGGCTGCAGTGAGCCATGATTGCACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTTTATCTCTAAAACAAA
CAAACAAAAAACAAAAAACCATCTTTCTAACCCTTTCTGTTTTTAGCGTGGGCTTGGGGAATGAGGTGTATTTTCTCAGTGATACCATCAGGGGTGGGAA
GGATAAGGCCAAGTACAGTGGGAATACAGACGGTTCCTAGGGTCACCTGCAGAAGAATAGCCAGATGGGGAAACTCAACGCCTAAGAGATTCAGATGTTT
AAGAGTCATGTAAAAGCCTCAAAAGCWTTTGAGGTCCCAACATGTAAAGTATAGGAATTCTCAGGTTGGTATTTGGGCATCAGAGAGTTGGGTGGAGGTT
GTAAAAAGGTCTGCCACAGAGGACAGTTGGAAGGTTCTGGTGCTGAAATCAGTGGGGAATGACAGAGGCTAAACAGGCTCAGGCAGAGGTTATGTATGAC
AACTGAGTCTCTTTTTTCCTCCTGTTAAAAAGTTAGTGATTTTATCTATCTCAAGTTTGTTGTAAGCTATAAATGAAACTCTCACATATAAAAAGACTAG
TCCTTGAAAAAATCCCCACCTCTCCTTTCTCCTACCCCCTTCCTCTGCATTCTCACACTACTCTTTTTCACTTTTCAGAAGCCAGTAGTGTAGAGAAAGA
GCTATTCTAAAATATTCTATACAATGTGTGCCACTAGGCTTCTAAGGGAGATGGTGATGTAGTAACTTTCAAGACACTTAGTCTAGTATTGCAATTGAAA
AAAAAAATTGAACAGTATATATTAGTCAGAATAGGCCAATTACTGTAACAAACAACCCTGAAATCTCAATGGTTTGACACAGTCAGGGTTAGCTCTTGCT
CATTTCACAGTTCAGCATGGGTCCATAGGATGCTATACTCCACTCAGTCATTCAGGGACCCAGGTGCCTCTCATCTAGTGGCTCTGTTCTCCTTTAGGGC
CTCAGAGTTCTCCTTTGTACCCTTTGCATCTACTTGGTAGGCAAAGGAAGAGAGAGAGTGAAGATGGCACATCATAGAGAAATTGTTAGAGACTAGTCTT
AAAAGTGATGTGCATCACTTCCACCCACATTCCAATGGCCGGAGCTCAATCACTCAGCCCCACTGTATTCTAGCTGTATGGCTAGGCAGAAAAGGAAATA
GGACTGGGTGGACACTTGGCAGTCCCTGCACCGCAGTCAGAGGTAGCCCAAAATGAGGCAAATTATTGGAAAAGTAGTGAATGAGCTCCCTTTCACTGAA
GGTATGTAAGCAGAGTCCAGTGACCCCTTATTTTCCAAGTCCTACTGGAGTAAGGTGGGGGAAATTTAAGCTAGAAGAATGCAGAGGACCTTTCTATCTT
TGAGGTTCTCTGATTCAGTAAAGCAGAAGGGAATTGGAGCTGAATTACCCATCTGAATTTCCGGTGACTTAAACTGAGTTCTTGGAGTAGAAATAGAATG
TTGAATTTCATTTCATGAATTGTTCTTCCAGCTTGACGTATTGGAGATTTTTAGCACGCACGCTCACACCTGGCTGCTCGCCACCTTCTGCCATTGCAGA
TACGCTTACAGGAAACCGTAAGTGGATCTGCTTTTGATGCTGGCAGCGTCTTACTAAAATGCTTTTGCTGGCATCATGGAACAGGAGCAGAATTCAGCTG
GGACCAATAATGAGGCTATTTAGAAAGTTCTCTCCTCCACCCCCTGACAAGGCAGATGTGGTAGGGATTTTTCCACTCCCATTCTGTCGATGGTGGCCAA
AATTAGTTCAAGGCCATCAGAAGTGTTTAGACCTCAAGAGTTGAAACCCCAGACCCATAAAGAGGACAAATCCTCTTCCTCACGTCTAGCAAGAGAAGAA
GAAACTCACCCCCAAAGACTCCCAACACAGAAATTTGTCACCTATTGTTCCGTAACAGACTTTAAAAAGGCACAGCCATGTGTCAGTTTGGAAGGAAAAG
AAGCACTGACCTCCATTAAAAATATCTCCAAGTAAGTTAAAGTTGCTAATGCTTTCCTTTTCCTGAAACCATGTTGTATTGAAACAACATTTTCTTCTAA
GCACTTTCACTTCTATCATCTCATGTTAAAATCCCCAGCCATTGTAGTGTGAGGTAGGGATGTCATGTTTTATCCCCATTTAATAGATGAGACTTCTTGA
GGTGCAGAGAGATTAAGTGGCTCGCTTAAGGTCTGTGAGACATGTATGCAAGATGAGTACCCAAATCTCTATACTTCCAAACTCTTTCGCCTAGACCACA
CAAGATTGTATCAGCTGATGGGTTTTTTGGCCATTCTAGTTCACTGTAACTGACTCTGTCCATCTGTTGATCCATTAATCCATCTGTCCATCCACAAACT
GTACCAGGCATTGTGCTTCAGATACAGAGATAAATAAGGGTCTTTGCCTTCACAGCTTAGTAGGAAAGATGGAAATAGAGATAAATAAATGATGGATACA
AGTACATATATAGACAAGTTATGATGGGTATRTGTGTGGGGAAGGGCCAGGATTGGAAACACAAAAAGAGCATGGTAAGTTCTTCCTTAGAAGGTCAGGG
ATGATGTCACAAAGGTGACATTTGAGCTGAATCTTATAGGTGTATGACCATCAGACACACAAGGGGTCGGGGGCATCCCAGGCGAGACACCAACTTGTGC
AAAGGCATAAAATGTGGCCTATGCAGGGATGTTCTGGCATGTTTCGGGATGGTTTTAGAGAGTAATGAACCCAACGGGGGCACCCTGGCAGCATTGCTGA
GCTAAAAGTAAAAGAAGATATTCTGTAATACTTGTGTGCACCCTTGTTCCTGGACTCATGCGACATCTCAATTCTCTGACTTTAGGCAGTGGTTTGGGTC
TGACCCACACAATTTAGTCTTTGATTATGTACTCTTGCCTTATTCTGCCCATGTTTTCATCATTAGGCGTGGGCTCCCTAGTCTGACTGTAAACACTAAT
AACAGTACATTGTGAGTGCCAAGGGACTGCTTGGTGATTTTTAAATATTCAGAAATCAAGCAGTGAGCCCAAGAGAATATGAGCAGGATGTAGCACCATG
AGAGGAAAAATATATGGACTTTAGTTCAGTTAGGTAAACCAGCACCATGCCAGGCATGGAGGGCACAGAAGTTGTTGACGTCAAAGAGCTTACAGTCTTG
AGTGGAAGGTAGACAGGGAAGCTAGTAATCACAATTCAATAAGGACAAGAGTAACCTGTGGAACAAGTTCTGTGAGAGCTCAAATAGGGAACCATTAATT
CTGCCTATTCTCACTCCAATATAAATTCCCAGGGCAGGGGATTTTGTGTGCCTTGTTTACTGTTGAATCCCCAATGTCTGGCACATAGTAGGTGTTCAAT
AAATATTTGCTGAATGAATTTATTGAAATTAATTCTTGAACTTGATTTATGATCATCAAGGATAAGTGGGGACAAGTGTTCCAGACAGAGAGAGAATAGC
TTGGGCAAAGAAACATACATAGGTGCAAGTTTTAATTTGCCCAAATGTTGTTTCCCTAAATGTACTGCCAGAGAGTGTTCTTATAAAGTTTGGATATCAT
TGAGATTTCTGGATGGTGGCCTTTCTTTCTTTTCTTTTATTATTGTTTGTTTGTTTTTAAACTTTTGATTGAATTCTCCCCACACATTACTGTGCTCAGT
GTCTTGAGAAGATTGACCATACTGGCACATTTTAACCAGGGCTTCTGTCAACTGATGTCCTTTTGAACCACCTGCATTAGGGTGCACATTGTTGCATCCT
CTACCCTCATCCCTCTGTTGGAAACCRTAGTGGCTATCAGGTAAAATTGGTCATAGGTAATGTGACCATGTGACCTGGTTTGCCATTACTGGTTTATGCC
TGTTGTCTTGTTGTAATTATTAATAGAGACTCCTTGCACTCTCAAAAATATCTGGGTTTGCCCGAGAGAAGCATCAGTCAAGAAAAGTGGTTGATGTAGA
AAGCCCCATTACCAGACATTGGGAGCACTAATTCAACACTTACTTAGCAGATATTTATTGAATGTGATTCTATTCTGGACACTTCAGGGACCCGTAAGTA
TGAACAAAACGTGGTCTCTCCTTTGCCCTTAATTCAAAGTGATGATTGTACATATCCTAGCTTTCTCGTGGTTATAAGAATAACACAGTAAATACTCTGT
GAATATTTGTTGAATGATTATAATGAGTAAATGATRTATGTTATTTAACCTCTTTCTTAGTTTTCCTTATATGTCAATGCAGAGATAATAATAACAGTAC
CTACCTTATAGGATTGTTGTGAAACTAAGTGAGTAAATACATATAAAGAGCTAAGAGTAGTATCTGACACAGTAAATGCTCAATAGATAGCAGTATTGTC
TGAAAGCACTTTGCAAACACAACAGAGCTACCTATAGCTTTCTGCAGCTTAAAAATGAGAAAAGCAGCGATTTGGAAGCTTTGTYTAGGAAAGGTTGCAT
TTGTTAATTTATTTAACTATCATTTATTATGAATCAGATATAAGCCCCATCCTCAAGGAGCTCAAGTGGGACAGACATGCAAAAGAAGACTATGAATCTA
CATACATTTATGTCATAAAACCATGTCCTATAAATTTGTGGGTTTTGTTAGAGGTCTGCTGGGTACCACTTTATAGACCATTCATTGACAGTTTCAGCAG
AAGGGGTGGATGTTGATTGCTATTAATCAAGGAAGCAATGTGGTTAGATTGGAATTTAAGAAAGGTTACTGTGGCTGGTAGATGGTATTCATTTAAAACT
GAAGGTAAAGATACGTTGATGGTAATAATTCAAGACAGGATCAAGATACCAGCTTTATTTTCCCAGCCCTCTCTCAGTATTTGTGAAACCTGTGTTGTCA
AACTTGAGTGTTTCCATTGTTAATTGTTGTACTTCATGTTTCTATAAGTAAAGAATAATTAGCTGGGTGTGATGGCTCATGCCTGTAATCCCAGCACTTT
GGGAGTCCAAAGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCCGGCCAACTTGGTGAAACCCTGTCTCTACAATAAATAAATAAATAAATAA
ATAAATAAATAAATAAATAAAWTAGCTGGGCTTGATGGCAGGTGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGTGAGATAATCTCCTGAACCCGGGAG
GCAGAGGTTGCAGTGAGCCTAGATTGCACCATTGCACTCTATCCTGGGCGACGGAGTGAGACTCCATCTCAAAAATAAAAAAATAATAATAAAAAAAATT
ATTCGGAGGAAGATTAATTGTGAAGCATTCAGGTAGGTGAAAAGTGTGAGAGGAGTAAGCACTGTTATCCTGTATGCTTGGGAGGCCTCAGCAATGGAGA
CATTCCATTTGGGATTTCAGATAGCAATGACTGAATGCTTCAAAATGAAAATAACAGACAAGGAGGCTTGAGTTCAGTGGAAGTGCTCAGGGACTTGCCT
AAGGTCACATAGCTAGTTTACGGCAGCATTGGTGCTCAAACCCGTCTTTTGACTCCCAGTTCACTTTTCTTTCATTATAGTATTATTTATACTAGACTAG
ATAAGTCCCTTTACTGATTGCTGAGTTCCTTAGGAACTGCGTGGGTGTGGGGTAGGCATTAATGAGGCCCACCCTTCCCCCAACTAGGAGAACAGCACTG
TTCTATTTGTTTATATATTGAGGGTTTTCATAATATTTTGCTTAGAAAAAAGCACTTGCTATAAAAAAGAAAAAAAAGGTTGAAAATAAATCATCTGAAG
CTACAAATTAGCTAAATAGCCTGATACTCCTGTAGTGTAAAACTATATAGTCTCCTTTTAAACTAATTTTATATTTATATAATATATAATTTTTACACAC
ACACACACATACAGCCACACATATTAACTAATGTCACTGCCTATATAGATACTCTGTTAAGTACTTGCACTTCCTAGGGTTTTCCCAGAGACCTGGTTGT
ATAGATCTGAGAATATGGGCTACAATATCAGCAGTGCCTTCCTCTTTTCCATAGCTTTCACACCATCCAGACCTATTGGAGTTCTCTGTGACTAAGACTT
TCCAGCTATGGAAGCACAAATTCAGGGGGCAAACCGTCACATTATTCACCAAATAAGGTTGTAGCCAGAGCATCCCCATCTCTATCAATAAAACAGTGCC
TGTGTTGAAAGCTCATAGCATGAGCTCAATGGATTTGTTGAGTTTGAAGAGCAACTTCCACTTTCGAGTTTCTGATTTTAGTCACTTGAACATTTCTAAG
AGGAATAATACCTTCCGTTGGTAGAGCTTTCTCACAACAGAAAAAAATGATTTTGTGGAAAGGTGGATTCCAAAAGTTTTTGAGTCATCCTTGGGATTCA
TCTACTCTTCATGTATTTCTAAGAGAGGCCATATCTCAGCCTGCCATATGAATATATTTATTTTACTTTAGCAAATATTTATTGAGCACCAACTATGACA
GCCACTGTGCTCAGCTGGAGGGAAACAAAGACAAATAAGAACAGTCTTTGCTYTTGAGTACCTTGAAAACAGGTGGGAGAGACAGACCCGTAAACAACTG
TGGTAATGCTCTGACATGAGTTCTGTGGAGTCAGAAAGAACAAGCTAGTATGAAAGCTCAGATAACAAAGAAGATCATTTTGCTTAGTGAGGCTGAGGCC
TTGAAGGATGAATATGATTTTCCATACAGAGAAGGCATTCTAGATGGAAGAAATTACAGGCATAAAGACAAGTGTTGTGAGAGAATAGATGGTCATATCT
AGAGCTGTGTATAGGGAAAGGAATGTCTTGGAGGTATCAGGAAACTTAAATAAAGACAAAATTTTAAAGAGCCTTGAATGCCGTACTGAATAATTGGCCT
TGAAAAAAGCAATAAGGATCTTAGAAAGATTTTTAGGCAGGGGAGTAACAGAACATAGGGCAAACCATAAGAAATTGACCACGTTTGACTGCTTTTAACC
TAAAAAACAATTTCATGTTTCAACCTAATAAAAAATAGTGAACATTTTTGAGTAAGTAGCAGCATGTTACACCCCACAATACATGCCTTACATGGATTAT
CTCATCTAATCCTCACAAGTTTAGGCATTATTGTTGTCCCCAGTTTAAATATGACACAAAATTCAGAGAGTATCTTTGGACTTAATCAAGGTCCTGGTCC
CTGACTTTTAAAAGCCCATGGTTTTAATGATTTTAACCAACCATCTCCAGTTCTGCATTTTATTAAAATAGCTTGGTTAGGCACAGTGGTGCATGCCTGT
AATCCCAGCACTTTGAGAGGCCAAGGCAGGAGGATCGCTTGAGCCCAGGAGTTTGAGACCAACCTGGGCAACATAGTGAGATCTTGTCTCTACTAAAAAT
AAAAATAAAAATTAGCTGGGTGTTGGGGAAAAGGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATGACTTAARCCTGAGAGGTCCAGGCTG
CAGTGAGCCATGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCTTCTCTCAAAAAGAAAGAAAAAACAAAACCTCTCGTGACCAGACTGG
GCATTAGAGGAACATGCTACTACCCCGGCTCTTTCTTTGAGGCAGATTTAAAAATCTTCTTCAAAAGCTTAATTTCCCTTTAGCCAGCATTATTACAGTG
TAAAGTCAGTTGAAAATCTGAGTAAACCCTACTGAAAATGTTGTTTGCTAATTAAAAACTACTTATTTATAAACTCTGACATATTAGAACTGGCAGAGAC
TTCAGGAATCATCTAGTTTCATTTCTTATTTACTCAAGAAGGTTCTGGTCCAGAGAGGAGAAGTGGTTTGCCTGAGGTCATAGAATTACTAGTAGCAGAG
ATGAAACTGGCCTTGATGTCTCCTGGCTCTTCCTTTATGTTCCCTAGTGAATTAAAATGGATCTTACTTTCACAAACATGCACTAAGCACCTACTGTGTA
TAAGGCCCATTGTTCTAGGTATGTTCTTCTGTTCTCTTACACATGCAAATGTGTACAAATTCATGTTAGGTAGATGGTTCAGTTTGGCTAACTACTGACA
CTACGTCAAAGATATAGGGGGAATCTGTCTTTTAGCTATCCATATCATGGAATTGGCAAACATACATTGATAATAAATTTTTAATAGTGAAGATATCCAT
TAAGATTACTGTTCTAAGTCCTTGTGTGTTTTGTTTCCTTTTGCCCCAAGGTACCCATGTGCTAACAAATAATAAAGAAAAAATTTCAAGCAGGAGTTTT
TACATTASTTGAGTTGTGAAACCTTGAAGATGATGTAAGCATTTCAAAATCCTTGAACAAGATGTAAGTTTTAATGGTATGCATAACATATATGACACAC
ATTTACATTCATAGGATTTTTGAAGGCTAGCAAAATTTTTTGCAAGCATTCTTATTTCACTGACAATGGAAAAATCATCAATGTGATGATTATTTGATTA
TCCCACTGTCCATTTTATGGATAATGAAGTGGGCAAAGTAGGTATCAAATAATAAAATTAGTAAATACTCTTTATTCACTCTTCTCAGTAAGGGAGGAAT
AGCAAGTGGTTAGACTGAATAGTGAGTTCAATATCAATAACCCTTTTAAAATAACTTAAGTGTAATTTCTATAATGACCTAGGATTAATGATAACTTGGT
TAAAAAAATGAAAAGTTATGTTTGTGAGTAATTTTAGGGAAGGACCAGGGCTTTTCTAGACACTCAAATTTTGTAGAAGCCTAGCATCATTGTGGTTACC
TCATAATATCATAAAGGAAGGTTAACATGAAATAAGCACTTGTAGCAAATAAGGCTTTGGGTGTTGTAATGTTAAAACTTCTGTTCAAAAACCTTACATT
AAAAAAGTACTCATCTTCATTAAAGATGTGATCCTTTTCACAGAGGTATTTTGAACTTCAAGCTGCTGTTGCTAAGGGGTTGCTACGGGAAATGAGCTAC
TCAGCATTAATGTGTAACTTTACTCTTCTGCTTAAAAGTAGTTAAATCATTTCCCCAGCTTTAGAGTCAGAGAGGGGAAGAACTRAAAAGGGTCAAGTGG
AGAGTTGCCTCTTTCTGACAGTTATATAGCATGCCTCTCTTGTTTTTCACATTTTTTTATTTGCCTCTCATAGAGAAAGGAAGCATCCTTTCTGGGCATA
AGAGGGTTGAAAACTAGACTACCAAGTAGGGCAGGGCTTATAATAAATGTAGAATGTCCCTGGCTAAGGCAGAAGGGAAGTGCCTGACCACTGAAAGAAA
AGCAGCCGTGGGCTGTTGATCTAAGGCTTCTGCTGGTGACCAACCTCAGGAAAGGGCTTTTTATAATAAGTCAGCATTGAGGATGACTTGATAAAGAAAG
TTATGTATTAGTGAATAGAGCATTGACCACCAAATAATTATATCCTAAGCAGTTGGTTCAAAAGTTTTTCTGAATTATTTGAAATCAATAATTTATATCT
TTTCTTGAGTGCCCACCATATTCCAGGTACTGTTATTCCATGTGCTGGGGTTATAAGGCAAATAACGTACAATTTCTGCCATGCAAGCTCACAGTACAGT
GTGAAAGTAACAATGAACTGGCTGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCGGGAGTTCA
AGACCAGCCTGACCAACATGGAGAAATCCTGTCTCTATTAAAAATACAAAATTAGCCGGGCATGGTGGCGCATGCCTGTAATCTCAGCTACTTGGGAGGC
TGAGGCAAGAGAATTGCTTGAACCAGGAAGGCAGAGGTTGCAGTGAGCCAAGATCACACCACTGCACTTCCAGCCTGGGTGACAGAGCGAAACTCCGCCT
CAAAAAAAAAAAAAAAAAAAAGAAAGAAAAAGAAAGAAAGTACCAATGAACTATAATCCATTGAATGCAATCTGTAATTGAATTGTTTGAAAATTACTGA
AGTCTGGAATTATGTTCTCAGTGGATTTTTAATAAATAAAATTTGGAAATATTTGTAAAGATTAATGCTTTGGGACTTTAGCAGACAATTTCATCTGAAG
ATCAGTCACTCTCTACACCACTTCCAAGCCTGGAGAATGGAATAGCACATGCACGAAATAATGTAGACAAAATGTTTCCCTTGTAATCCTCATAGGACCA
AGGTTCTGTTATCACCTGGTGGCAGAATACAGAATTTACAGGCATAGATTATTTTGATTGTTACTGTTTTAAATGTCAATAGAAGTCAAAGACATTATTT
TGAATGTTAGTTTTTGAGTATAGAGTAACACAGAAAATAAGACTTAAATATCTTTAGATTCACACTTTTCTGTGTAAGTTGGTATGTTATAGAGAAAAGA
CTGTGGACTGAGGTTGGGCATACGTAAGCATGAAACTTAAATTGGCCTCTTACTAGTTACATGATCTTGAGAAAATCAGTTAAATTATGTAATCTCTAGT
TTTCTTATTGGAAATCTCAGAGTTGTGAGATTAAATGAGATTTATAGGCACAGCACCTACCATAATGTTCAACACACAGTGAATGTTCCGTCAATATTAA
TTCTGGTTCCTTTTATAAAGAACGTACTGAATAAGAGGTCTGCCCGCCCACAGTCGTCATATCATAACATCCCTCTGTTTATAGCTTTTAAAAATGGAGG
AGGTTGGAATAGATTCAGAGGAGCCTTCATAGGGGTTCTGGCTAGGATGCGATGGCTGTCAGTATTTCTTTCCTTTCCCCCTACCCCACCTCTATTCTTA
TATGAAAAATATTCTGCATTTTCCTAGCCAATTCTTATCATTCTTTGGATCTCGCCTCAGTTCAGGCTTCTCCCACGAAGCCTTCCCCATCACTCCAGAT
CTCATCCTCATTATCAACTATCTCTAACACTTAAYTTTGGTATTCTTTTTACATCCTTCCTTAGGCTATTAGGATTCATGCATAAAAAGGAAAGCTCCTT
CCCAATCAGATTTTAAGCTCCTTGAAGGTGGGGACTATGACTTCTATTTCTTTTTATTGTTCACACCAATAATTTAGCACTGAACTTTGCTCACAAGATT
AAGTAAATGTTGATTTGCAGCAGGCACTTTTTTATTAGAACTGGAACAGACCATTCAGCCTTTGTTAGTTATGATTTTCTTGTTATTCTCTAGTTGTTTT
GAGAGTCTTTATATCATATCTTCCTCAACAAGACTGAATTATCCTGAAACTAATACAAATTTATGCATTTCCTCCCCATTCTACATATTAGTAATAATTG
CTGCCATTTAGAGTGATGCCTCCACCAAGTTTTTTTTTTTTTCTGGCAACAAACTATAAGTGAAGTATTATTGTGCCCATTTTACAGATGAGGAAATTGA
GGCTTATGGAGCCTAACATATCATTTTTCCCTAAGGAGATGTTCAGCCACCCCTAGTTGAATCAAACAAAATGGGCCTTGGGATAGTACTTGAAGTGTTA
ATGAGTGGGACTATTGATCTTCGTTCATTCCCCATAACTCAGCACTACTTGGAAATAAGGACATATAACTTAATTCAACTACTGCTTGTTGAGCAACTAC
TGTATGTAAGGGGTTTTTTCAGGTTTAAAAGAGGAAAAACGGGTAGGGTTGGGGACCCAATCAGGTACTCATCCTGCTTTCTAAAATGCTTTGCTTTCCA
GCTTTAATCTTTTGTATTTCTCCTATTCCAAATTTACAGCCTGATTATAATAATAGATTAAATGAGATATCTTGAGGACATACCTAGCTAAAAGCATGTC
ACAAAGAAATCTTTTTAAGAAAATTTTTTTAAAGAATATTTTTTAAATTTTTTAATCTTGCTATTTTTTAGTTGAGAAAAAATTGAGCATGACTTTCACC
TTCCCTTTCCTTTCTCTTCTAGTCTGTGCCCATCTTTCTCACTGATTCAACAAATATTTACTAAGGCTGGGCACAGAGGCTTATACCTATAATATTAGCA
CTTTGAGAGGCTGAGGCAGGAGGATCTCTTGAGGCCAGGAGTTCAAGACAAGGCTGGGCAAAATACTGAGACCCCTATCTCTACCAAAAAAGAAAAATTC
TTAATTAATAAACACAAATATTTACTAAGCATATTCTTCTGTGACATAAAGGAAGAGATATCTTACTTTTAGATAAGGAAAACACATTTCTAGAAGTATG
CTTAGATACTATAATTGTCACTACTGACAATTTACTGGGTTGAGTAAAATTGTGTATGTCAAGTGCCTAATACAGTGTTTGGTATACAGTAGACTCCCGG
TAAAATATAGCGTTTTCATTTGTGCTTTAGAATTCCTGTTAATTTCATCCAGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTGGGGAGGCCGTGGCG
GGCAGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCTGCCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCGGGC
ACCAGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCTGAACCTGGGAGGCGGAGCTTGCGGTGAGCCGAGATGGCGCCACTGCACTCCAGCC
TGGGCGTCAAAGCGAGACTCCATCTCAAAAATAAAATAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAAACTCTG
CCCTAACTGGCAAGTCAAAGAATTCCTGTTAATTTCGTTATTTCTTCTTCTCCTCCCTTTCTCCCCTCCCCTCCTCTCCCTTTGACCTTTTCTTCCTTCT
TTCTCCTCCTCCTCCCTTCTTTTTCCATGGATGTACCTTCTTTGCCTTTTACATCTATTCCTTTATTATTAGTTACAGAATTATAAATGAGTCCAGAATT
TTTTTAAATTCCATATCAAGTCATTTTCAAAAATTTATTAAACTGACCAAACACTATATCCTTTAATGGTATGAATAGCTACTCCATACTTTACCTGCTC
GTGCACTTAGATTTATAAAAATTTATACATATACCAGGGTTGTTTGTTTGTTTCTTTGTTTTGGTTTTTTATTTTTAGTAAAGCTCATCTGAACTGATAT
GAAGAGGCCCCAAATCCCTTAATGCAGGGATCTTCAGAAATCTCTGTGTGTTTTCACATTGACCCTGCTGAGTTTTTTGGGGGTTATGATGAAGAATATA
TCAGGGAAAAGTCCAGACAGCCATTCCACCTAAATCAGATGCTTGGATAAATGTGTATTTACCTTTTTTTTTCAGAATTTTGTAAGTAAGATAGTTTTCC
TGTACTTCAAATTTTCTTTCCCAGAAAGACATCCTAGTGCTTTAAGAGTATGGTCAAAGGCACATTTGAAAAAGTAAGCATACACTGACTCTGGAAAGGA
AACTTTTACTTTCAGCTACTGTTCTTGCATAAGGCTTAGGAATATGAAGAGAAAGCAGGAAGATGAAGTATGAATCTACTCTTAGGTCCATTTACCTGCA
CAGGTGAACTCTTGGCGATTTAGACAGGTTAGACATCCATTTGTCACATTTCCCCCCACAGTAGCATTCTTCTAGCTTTCCCACAATCTGTAGTAGACAA
AACTACTTAGGAAGGAGAAAGGCATTATTGACTATCAGGTCATATATCTCACAGAGAACATTCGACAGTGAATTTCTGATAGACTCCTTCACATCAGTCT
GGTGCATCTTTCTTGCCTCTGTAGTATGTTTGCATTTTCCTATAAAAATTGATTTAATGTTTCTACATGATAAAGAAAAAAAAAAGACAGAAACCAACAC
CACAATTCAACAAAGGAAAATTAAGCTTTAAATTTTCTCAAAAGCTTTTACATATAGTATACCATTTTCTGGGCAGACTGATTGTATTTTTCCTAAAGAA
GGAAATGCCAGCAGTCTAGGTTTATTTTTCAAGGGAAGAGGTAAAGGATGAAAATAAATTGAACCACAGGAAAATGTCAGGTCATAGTCACTGATGACGC
TATTTAAATGGTGTGCTATAATCATATTAGGGCAGAGCACATGGAATTCCTGATTTCTGCATGACAGTGAAGAAGGGCCAGCAATTATCTATATGTGTGT
GTGTGGATATGTGAGTGTCTGTTCACTCTACCTTCCCACCCCATTTTGCTAATTCAATTGAGGGGCAAGAAGAGGTAATCCAGACAGCCGGAACAGGAGG
AAAAGGTCTGCAGCTGTGTTCGGAGGGACTGGTGTGAAGAGAGAGGCTCAGTCTGACTTGGAGTTTTGTGCTGTTGCACGTGAATGCTCTGGAACTGCCC
TAATCGACTGAAAATGAGCCGGCTACAGTCATATGGAACAGGTCTGTTTAGCCACATCACTGGATAGCCTGGCAGATGGTAGACCGTCAATGGGTGGTAT
TGAYTGGCTGGATTTGCCTTAGGGTAACAAGACTATGGGTCCTTAAAAACCCGCTTCATCTTATTTTCCTTTGTGCAGCTTCATACAGTAGTGGTTTTCT
CTTCTCTCTCCCCCCAGTCCCCAGTATCCCCTTTTACCCTTTTCAAATTAAAAGTCTTCCTTGGTAATCAAAATAGAGAGGTTACCTTGAGATAAACACT
CTTTAAATTAGCACCAAGGCAAGAAAACTTGAGAATATTTTATTTACTAGGCTGATTACATTTTAATGTTTGAAGAAAGTGACATTTTTTAATTAGTGTT
TAAGACATATGGTGAGTGTACAAATTAGCTTATTTCATACAACCAGAATTTGATGAGAGCAACTCCTCCTTCTCACTCCCCAGTTAAAAATTGTCACTTG
AAACTTAATATATGCAAGGAGGTTAAATGGTATTAAGTGATGCCGTCTTGACTTAAAGATGAAGGACATAGTCACTATTGTGTATGGCTAAATACGGCCT
GGATGGGCTGGGAAAATATTACTGTCAACACCTGTGTTTGCAAGAAAATGTGGAGGTTCCAGACCTTTAATTTTGTCCAGCCAAGAAAAGAAAATCCCAG
GTATCTGTGTGTGTTGGTTTCTGTTTTAGACACATGTGGAACATAGAATGGTGTTGCATGCTTTATAAGTAATAAGATCCTCCTTAAAATCAGGCCATAT
AACAATATAAGTGATGTAATTTATTTTTGTTCAGGTGGTTCTATATCCTTTTAACATACCCCCAATCACTTGGAGCTTTCAACTTGGGACATTCTGTTTA
TTCTTGGCAGAGGAGCAGATTAATTGGAATAGAGTGATACAAAGGAGATGCCAAGTTAGCTATACATCCAAAATAGTATACGACAGAAATGTTCCACTTC
GAGGCAGATCTTCGGGAAAAAGAACAGCAATGGGTAGAGACATGTGATTGGCTTGCTCTTGTGGTTGTTTATCACTATTCATATAATTGTATTTTTAAAA
GAGAGGCTTAATATTTTGTATTTTTTTTCGGTGTCTTTACTTTTAAGCTTTCAGTTATTTCTTATCAGGAAAGACCCACATTAAATAAACCTAATTTCTA
CCCAGAAGAAAAGTTGCACCCTTAAACTCTTGCCTCCATCTTGTATGTGCTTCATCCACATGCACACTTTTGAGTTTTCATCACTGTGTGTGAATATTTT
TCTGTTTTTGCTAAAGAGAAATATTTTCATGAGGTTTTTGGCCTTCCCCATTGCTCTGTGTTGATTGTATTTTCCTTGTTCATCCTTTGCTGAATGAAAC
AAAGCTTGTTTGTGTTTCATTCTTCGCAGTTCTTATTAGAATTTGTGGCAGTGTTTTGTTTTGTTTTGTTTCATTTCCTTGCTTTAAGTCAAGAGAAGGA
ATTTTATTTATTTATTTTGACAAGATATAGTGAGAGACAATCTTGCCTGTTAAGATGCTAGTGTTTCTCATGTCACATTTTACACCCAAAAGCTATTCCA
AGGGGAAAAAAAAAAGAAATCTTTTAAGATGGTTCATTTGAATCTGTGCACTCTACCCACCTGGTGGTTATATAGTGAACTGTTACTTTAAAGAGTAGTT
TAAACACCAGCCATGTTTGGGGCAGGCTGCTCTTGCAAAGAGAGCAGTACATATAACAGGAGTCTACTGTGTGTGAGATAAGGGGAAAATTCAGCTCACT
GACTAGAGGTTTTAATGTACGAACTCTAGGGAAATAATATATTGACTGTTCCGTGGTGCGCAAGAAAATTGAAGAACCCTTTGCAGACGGAGTGCTTTGC
AAAGGATTCTATCTGTTTCTCTTAAAACAAAATCTGTGGCAAGATGTTTGAAATCAGCAGGACGCTTAATGCTGCTTTGTTAAATAATGAGGTAATATTT
TGTCACTTTTTTCTGGGCAGCATCTGTTTTTCCCCCCTCTTCTTTTTTTTCCCTATATTTATGAAGGATTCCTTTTTTTCCGCCTCATGGAAGTCAAGGA
AATACAATTCACGCTTCCATTTCTGTTCCTTCCTTTTGGTGCTTTTGGAGAATTTGGTTGTCTTTTTTTATTTGCAGTTTCAGCCGGCTGCTGTTTCCTA
GCCCATTGTGCCACGTAAGGCTTCTCCACTGCGCGGAGTAGGTAGTTATTAACGCTGAATTGGCTTCTGGTACAGTCCATCTGGACTCTGTGTGGGAAAG
CTGGCTGCCGGCGACTGATGCTGAGATATCTGCAACCTTTGGGATGTGTGCATGGTGGCAAGGGGCTGACTGATATGAGATTACTTCTTTTAAGGGAAAT
TGTCATTAATGAGTCAAGAAACTGCTCATTTATGGTAAGAGGAATACAGCGGCGCTGGCAGCCCCACAGTGCTGGGATATCATTTTTAGGTTGCCTTAGC
TGCTTGAGTGAGACAAGTTTCTTTCTGTGGTGGTGGATTGTGGCAGAAAAAAAAAATCATGCATGACTGGGAGACTCGCCTGCCTGATTCTTGAGATAAT
ATATTGAGAATCTGTTGCTTTACAAATGTCACATCACTGATGTAGCGGTCAGCCCCTCACTCTGAAAGATGAATTGTACTATTGGAAATGCGATAATAAG
GTTGACTTTTCCCAACAATAGGATTCTGCCTTTGTCTTTAGAGAAAAGGCCTCTGAGGACATTTGTGCATTTGTTTGAGGATTCTGTTGAAAGACTTTAA
AGTGGAGGTTTGTGGAAAAGTGATCAATATACAAAATGCATGAATTTTTAGCCTAGCAAAACCAGCTAGTTATTTATACTGTATATACAGCTACTATTTT
GGAAAAGTGGCCAGAATACCTTTTAATATACCTAATGTTAATTTATGGTTCAATAAGTGTACTGAGGTTAGTATGGATGGGAGAAAAGGGTTTTTAAAAT
TTTTATCTTTTATAACCTCCAGAGAAATCTAAGTAAATATTTTGTTCCAAGTGAGCTGTTTTTATTTGTGTTTGTCAGCATTGTCTTAATGTTTACTTTT
CACAATATTTTAATATTGGTGAAATTGCACTCAGAGTTTATGTTGTTGATTTGGGGCACACATACCTACTCTGTGTATATATGCTGAACCATTTAGAACA
CTTTAACCTGTGAATTCACCCTCAGTACACAGTTCAACAGATACTGTAGTACTATTGTGACTCACAGGACATTTTATACATTTGCTAAAGAAATTACTTT
AAAAGTTTACTTAACTGAGTATTGTTCCACCTTAAGGAATTATAGTTTTAACATTTGTACTTTTCTATTTCATGTATTTTCATTTCTAATAGCTGAACGT
ATTCATACTCAAGTCTAATGGATTATGCAGTGTACCCAACACATATTGTTTTATGATGTATCTGTATTTTCTGAAGTGTGAATATATATGTATGTTTATA
TGTGTGTGTTCATGAAACAGCATCTTGGACAGAATAGTTTTAATCTTGAAAAATGTAAGGTTATTTTCTTTCCTAATAATTTTTCACAAACCCATTTATT
CTTGGACTTTGAAACCCAGAAATATAGCWTATTTTTTGGTCTGTATGTCTACTCTGCCTAGTTCTGTCTCACTGTCAACTCTAGTCAAAGATTAAAGATT
ACATTGAATTTTGTATTTGGTAATATGTGTTACCACTGTGTATTTATTGAAGAACAAATTGATTAAATTATGAGTTAAATAAATAGTGACACATTAGTCT
TTTGCATAGGTGTGAAGCATGAACTTCTCAGGTAAGCCACTTAAAAAACCCAAACCAGAACAAAAAATACACTACTGAAGGCTTGGTAGTGTAGAGGTTG
TTAAATGTGTAAATAGGCAGACAAACTGTATACCTCACCATACACTTGCTAAATGTCTCTTTGCAAATCTCTTAAGAGGCCAAAGAAAAAAAGACATCCC
TTTGAAGGAGAGAAGCAAAATCACTTATTTAGTTAAGCAAAATGAACACTCTGCACAGGTTTTGAAATGAGGCTGTTGTCAAAAGCATGTTTTACCTTTC
TCTAAAGGGGTAGGAGAATGTGTTTTAGTGGATTTTTAAAAATTCAGATCATGTTCCTATCCAACTTGAAAAATAAATTCATTTAAGTAAATCATTCATC
ATCCTCAGTTTTGAAAAGCTCAGACAGAAGGCAGAAAGGTAGAGGCTGACAGCTGCCCCTCCCTTACCCCCACCATTTTTTTTCTTTTTGTTTATTAGGA
AATAGTTTTCTGAGACAAACTTGTATGAACCTAGTTCACGGAGCAAGCTTAATCCCCAACTTGCTTGCTTTTGAAATGTTGGCCATGTTAGCTGGAGAAG
GAGCATTACTTACTAAAAATCAGCAATATCTGGAAATAATAAAGTTAAATTGTAGATGAATTAGCACATTAAAGTGCTTTTGTTGTACCTTTAAGCCTAC
AGGCAGATCATTAAATATGCATTTCGCTAGAAAGCAACTGTCTAGAAAGATAAGGTGGTTGAAAATATTCTACGGTGGAAAAGCCCTCCATCAGAGAGGT
GGCACGGTTCGGCCCTCAGGATGGGAAAAGAAGGACCCTCCCACTGTTAGTTTAGGTTTGCAAGCCTCCAGTGACCTGCAGTTGTTACAGTACTTTTGAG
CTGGGAGGAGGGAAAAGGTAAAAATACAAGTATGGCTGTTGTTGCTTCAGCCGGGCCTTAATTACCAGACACAAGAAGCAGTTCAGAAATCTGGTCTCTG
TTGTTGTAGAGGTCACCAAATCATTAACATCGTCAATCTGGCAGTAGCTAATTTAAATAGCACCTGATGTTGCAACGCCTCCCTTCGTTTCCCCAGCCAA
TCAGATCCAGGCTTCGGCTGACAGATGGTCCCATAAATGGATGTAAAAAGGGGAAGCTTCGAGCCAATTTCAGCAAGGCTCTGTTCAGTTGTTCTTATCT
ACATCCTAGAATCGGGGGTTTCAGCTCACTGCTCCTTTTCTTTTTTTTCTTTCTCTCCCCCGCCCACCCCCCCAAAAATAATTGATTTGCTTTACAATCA
TCCACACTGTGTTTTGTGGATCTTTAATTATATATAACAATAGTAGTCATTTTAAATATATATTCTGAAATCTTTGCAAATTTTAACAGAAGAGTCGAAG
CTCTGCGAGACCCAATATTTGCCAATAAGAATGGTTATGGTAGGTATGACTAGATTTATAATCTGTTGTTTGTGTTGCTGGAGGGAAGAAAAGCATCTAC
ACCTTGACCAGTCTTATGCTTGCACAAGAGTTTAGTTCTGTGCTGCTGTTTGGTTCCTACATTTACTATCTCTTTTGTGTAGAGAGTGCGGGTAGGTCCT
TTTATTGAAAAGCAATGGGGATATAAGATTGTCATTTTTAGCAAGTCGTTGTCAGTTTTCCCTTCAACATAAAGGCAAGGGGTGGAGGGGGAGGGCTGAA
ATAATTGCTGGTTTATTGAAAGAGGTTATATTACTTGAGACATAATGGCAAAAGAAGGGTTTTCTTTTTTGTAAGGGAGAGGGGGTTTGTCTACGTGCCT
GGGTTTTGTGGGGCTGGGGGTGGATGCAGCGGGGTTAGGAATCTCTCAATTTCCGTGCTGGAAATTTAAACCTCGAGAGGCAGCTCCTGGATACTGAACA
CTGAGATGGGCAGTTGTGTTTCGGGGGACTGCGCAGTCAAAACGGCAAAGAGAGTGATTTATTTGGGCTTCAGTAAATGCTGCATCTTGTATTTCAAAGA
GTTTCCTGTCATGACCTCATAAAAAAGAGGAGGCGGCTTGTATGTGTAGCAGTGCCTGGCGTGTTGAGTTGTTGCTTCCTTCTCTGGGCAGCAGCTCTGT
AAGAAGGAATGTCAGCTTTTACATAACGTTCCTTTCCGCTTTTGACACACTGTGTGAGGGTCCATCTTCTTCTGATCACAGATGGAGTGGAATGGCTTGA
AGATGGTAAGTGAAAAGAGGAAGGCAGCCTGGAGGTCCCAGCCCTGTGTGTGTGTGTGTGTGTGTGTGCTTGTATGTGTGTATGTGTAAGGATGCTGGAC
TGTGCATCGTAAATCACTGTGCTGATCGTTTGTGTGTGTATGTATGTGTGTGTTTATTAGTATTTCTCTTTTCTGAAAACCAGAATCCATCTCCAAGTGT
AATGGCACTGCATGCACACAAGGCACACACACTGCCTCTTCCAGCAAACACACATTTTAGCCAAGGAAGGTTGGTGTCTTTTTTGACAATCAATGTCACC
GTCACTGTTGGCTGGCGTGTCCACCGCCTCTGTGAGCCTTCAACGGAATTACACGACTGCTAAAGTTAAAGGCACATTTCTTTTTCAGTCTCATGCTAGG
AGTGATGGGGAAGGATGGGAATGAGGGGTGGAGGAGGTGAGATTCAGTACCAGCCGATGCAATTGTGAAACAGGACTTTCGGATGTGGAAGGGGAAGTGG
AAAACCTTTCTGCCGAAGTAGTAAATCTATTTTTAGCATCATCTTTTTCTGAAAAAAGAAGCAGGGAAACTCCTTGAGTGCCGCTTCTGTCGCCTGATGT
TGACCCTGAAGATATGGCACAAAATGGCATGATTAGATGCCACGAGTGCCCACTTTGACTTTGAATTTTCACCAGCAATAGGTTTCACAAGGTTTCAGAG
CTGGGTATGGGGGCAGGCTGTAAATTCATAACCATCTTACTTATTTTTCCCTAGAAAAGCCTGGGGAGGACTTTTTGCTCTGCATAGATGTTATAACAAA
GCTGTGGTCTTTTTCCCATTCTTAGAGGATTGCCTTTGTCTGGCTGCTTGTTTTGATGGGTGTAAAACAAATAAGATTAGACCGAGCAGCCCAACTGAAA
GCGATAGCTGGGAGGAAAACCCAATGAAAGGTTGCCGGGGAAACGAACAGAGGAGAAGCCGAGTAGGGAGCAGGTGGCTATCATGAGAACACACTGCAAA
CAGTGTAAAAAAAAAGGGGAGGGGGACAGGACCTCGATTATCTTTGCTGTTCTTTGTGGCCAGCCCAACTTTAATTATWCGTTATTAATAGGTGTTAATT
ACATTTCTAACTCTGGTTTACAGTGATTTTTAGAAATCTATTTTTAAGCATCTGTTCTGTCTCCCCTGTTTTTGTGTGTGTGTGCGTGTGTGTGTGCGCG
TGTGGTTTTTGTTGTTGTTGTTGTTGTTTAAAAAACCCAGAGAGGAGGTGAGGGGGAAGGGAGGGTAGGGAATCTTGCTTTTTTTTTTTTCCTTTTTCCC
CCTTTTCCCTGGTGTGAAATTGTACATGCGAAAAATCGCAAGGAATCCTGTGAGACCATTTGAAAAAATGTAAATTATATTGAATGAAGTTGACGGAAGC
ATAATAGTGAACTCCCACAGCTGATAGGTTCTGCAAATGATTTCTTAGAAATTTCCAGCAAATATTCATAGGAAAAATATAGGTAGAATAGATCTACCCT
AAGCAATGATTTGGGGTTAGGTGATTTTGGTATTTTTACTAAATCGGATGTTGATACTATAGTTTCAGGGGAATTCATTGTACCTCTCATTTTTTTCCTC
AGTAGAAATTACTTTACAAAATAATAAATGAAGAGCTTTTTGCTTTCCTTCTTTCCCCATGCCCACAGTCACAGGATCCATCAGGCTTGCACTCTCATAA
CCACTGCCTTCCATTTGGCATTTGGTCCTGATTCTGGTCTTGGCACAAACTGAGTGAAAAGCTGATTTTTATATTAGTGTCTTTGGACGTCTGGGACCCA
TGTGTGCACTGGGTGACAAGCATCTCTCTTTTTTCTCTAAATGTGCTTTACTAATAGTCTCTTTTTCTCATGATGGTGGGTACCATAAGGATTGAAAGGT
GTAGTATTTGGGTGAACAGGAGATAGCGTAAAAACAATTGAAATGGTGATCTGTTAGGGTTTTTTACTAAAGGACAAAATAGATGCATGATCAGGGAGCT
AATTGTAAGCCCAAAAATGAGAKATTTAAAAATGCTGAAATACACTAAAAGATTAGGAAATATAATTGGCTTTATTGAAAGTACACTTAATTTTTGCTCT
CTTCATTGCAAATCCCCCCAATTCTTTTTTCCTTGCAGATGCGTCTTTTTGTTTTCTCTTCTTATTAGGGGATTTAAAAATTTTATTTTCACTCTTGAGG
TAAAAATAAATAAACTTGTATTTTTTGTCATACACTTGAAACTTGCGGCCATATGTTGAGTGCATAAGCCTGTGTCACCTTTAAAAAAATAGAATTTTTT
TAAGTCTCCAATATAGTTTCTTTTTTTATTTTCTGAGAATTTTCTGGCAATTTTTAGTTAGGGGAAAATAATTTCTGTAAGAAGTGTCATCTTGGCTTGG
GTTGTAAAAAAGACACGTGGTTCTGATGCTGACCTTTCTCGATCCTTTGTCTTAAAAATATTAATGCCTACTACCTTCATGTGGAGTTGTGCTCTTATGG
AAGCACAAGGCTGAATGTGCATTTATTAAGAAGTGAAAATCCAATTGGAAATATTTCTGCAAAAAACATCTGACTAAGTAGCAGTTTTAATGATCAGAAT
GTCCATATATCTCATAGTAACATAACAGCTAAATCATTTAATATTTAAATTTTTGAAAGGGTAAAATTAACATAGATGAGGAAGTAGCTGAAAAATTACT
TTGAGAATTGTTGATTTACAAGACAATTTAATATCTCATTTTTTAAAAAGCTAACAAACAACTTAACCATTCATTTGTGATCTCAGTCCCATTCATTTTT
ACCTGCCATTCATTCAAGTCATTCTCCTGGCCAGATGTAGATGGCCTTGCTTCTGTTTGATGGTTTGCACAAAACCTTAAAACTTTTTCTCTCCCAATAC
TCCTTCCTTGGTCCTTTGAAAATTAGGGTGTTGTTATGAGAGGAAGGCCAGATTGTTGTGAGATAATAACAATAGAATATTTAGAAAGAGAGAGAGAGAA
AGAAAATGAACTGCGCATTTGCCTTTTAGTTCTAAACTTAGTCTTGAAATTGGATTTGGGACACTTTGGACTTCAGATATTTTAAACTTAGGATTTCTAT
TAGGTATAAGCTATTTGAAATTTCACATCTAGAAATTATTGTTTGAATGGTGCTTTGTATGTGTGTGTTCAATATCTCTAAAAGGACTTGTGGATGAATT
GAGATGTTTTTCTCAAGTTAGAGTTACTGTGAACAACAATGGGATTTCCTCAGAGTAAGTCTTTTTTTTTTTGGTTTGATTTCTTCCCTTTACACTTATT
TCCTTATTATAGGTGGGTTCTTTTCCTATATGTAGGCCAAATACTATTTCTTCCATGAGGAGATATGCTGCTTCATTTAGCCCTGAGCATCTTAACACCT
TATTTTAATTTTTTTAAAAAAAGAAACAAATTGTCTGTATGTACCTCAAGTAAGAAATGGTTGTCTTCATAGAGGTCATCATACATAGACGAAAGTACTT
TGGCCTTGACAAATTTCTTCATTAGCTCCAATGATCTGTGGCCACCAGGCAGTTAATTTATATGCCTAGACATTTAATATGTACATTTGTTGGTGAGCTG
GCCAGMGGATGCTAAACACACGAGTATGCGCTGGCAAATGCTGCAATGCAGTATTTTTTTCCCAATGTCATTGGGAATTTTGGGGCTAGGAAGGGACATG
AACATTTTCAAGCTTTTATCTTACTATTGTCCAGTCGATGGGCCATGTTGTACAGATTTGGTCAATTCTCCTTTTGAAAGTAAAGTCAACCTTTTATTTA
CCACTATCCATTCCCCCATCCATGTAATGTATATGTGGAAAGTGTGTGTGTGCGAGAAAGAGAAGCAGAGAGACTCTGTGTGTATCAGTATAAGTGTGTT
GCAGATTCCTGCACCTGTCTTAGGCTTTCCTTATTTGGTATTACTAAACATGTATACACACTTACTTGCAAGTATATGTGCATCTATAAATGGAGAGAAA
ACCAAACTGGGCTGCTTCCCATAAGAACTGGTTTCTCTTCATGACTCCAAGAGTTCTCATATTAGAAAAATATGAAATTTCAAATATTCATTAAAAAATA
TATATTCAGACCCTGCAGTCTGTTAGTAACCAAACACCTTTCTTTAGCTGCCACTTAAGAAATTATAAGTGTGCAAATGCATAACAATGTTTGTGAGCTA
AAAGCCATCCCTTCAATCAAGGGCCTGGGTATGAATTAAAATGTGTGTATGTGAGTGTATATGGATATGTGTATATGTATGGGGGGCGGTGGGCAGGATG
TTTTTCTTTGAGGGCATTTGAACCTAGTCTTTACCATTGGTAAAAATAAGGAGGCGGTAAGATGGAAGTGTTAACATCTGTGCTTTGCTTTGTAAGTTGG
TGTGCAAGTGTGTGTGTATTAGGAACATCCTTATRTTTGTGAAATCTCCACGTATTTTAGGGGTAAAGGGCTTTTATAGGTCACTGGCTTTCTAAGGGTA
AAAAAAAAAGAAAAGGTGATCTGTGGGTGGGTGGGAGTCACAAGCAGTAATTGTCTTAAATTAGCTATTTAGCAGTGAAAAGGAAAAAAAGGCTGGAAGA
CAAGAGTGTAGAAGAGTACCAACATGTGGGTCTGCATCTTTCCGGTATAGGAGATAATGAGTGATAAATTTGAACTGGTGCAGTGCAAGATGCCCGATAA
TTTCTCTGAACCTTGACTTTGCAGGTCCATTACTTCCTTGCTTGCTTGTTCACACCTTTAATTATATCCAGTTTGGGATGCTAGCTGGGGGCACCACAGA
TAAGCCATTTTGTTTGTTGTTTACTTCATTAAGTATTCAGGCAGTGTATTCACAGTAGCTTTGGAGCATCAGTGTTAGGAATTGAGCAGTTTGGAAATGG
AATTGTTAAAAAAGAACAAAAAAATAAGACAGCAATCAGCCAGCTAGCTTGCTTTGGATGTTCACATCCACTCTGCTTAATGGTAATATTTATGCTTTCC
CTTGCACATTAATTAAGAAATAACTTACGCAGTGTCAGGGCTCTTAATAGGCTGGTGACTTTCTCTCTCTTTCTCTGTCTCTGTCTCCGTCTCTCTGTCT
CTCTCTCTCTCTCTGTCTCTCACTCTAGCTCCAGCTGTCTCTTTCTCTCCACCCCACCCTTGAGACTGTCTTTGCTCAGAACATTTTAAGAYCAACCAAT
TTTGCTTTAGGGGAGCTCATATTCAGATCCTTGTTGTATCTAATACCAAAGGTATTTCTCCCCTCAATAAAGATCCCCCTCTACAAGGATCAAGAAATGC
TGAGAGCCCTAAAGGAATCCTTAAATAAATTTTGGTTGAGAAAGCAGTAGAAGTGTTGAGGAAATAAGGTCAGTGTAATTTTTGTGCTTGCGTTTTTGTT
TTTTGTTGTTTTTGGAAAGTCTTATTTTTAACCCCAAAAGTAAAATRCAAAACTAGCATATGGGATTTTTTTAATGAAAAAAATATATATGTCTTAGGTC
TCTCCTGAAAATAACCTCCCTTGGACTCTTCATTTGAAAAATAACATGTAAACTTTAGCTTAATTTTTGAATTACTCATTTTAAACTATAAAATATAGTT
CATAAATATTTTTTCCATAGGAAGTTTAGTTCTTTTTTCAGGCTATGGGGAAGCAGAGAAATGACCCAGCGAAGATGGTGAATTCTGAAAAAAACACAGC
ATGGAGGTTTCCTCTGTTTGCACTTCGTAGCATTGAATCTTCTCCTGCTTCTATGAGTTATCCTTTAGCCCTTAAAGTTGTTTTGCCAACAGTGTTCATA
ATAGAGACTGACTGTCATTCCTTGTTGKGTGAAGATGTATTTGTTGAGGACTTACTATGTGCATTTCTTTGGAACGTGGAATCCAAGGTCACCATTTCTT
TTTCTTTTGACAATGATCAGAAGACATAATTAATTAGAGGATAAGTCCCTGTGATTGGAGATGAAGTTAGGGTGAGGGATTTTTAAGGTGGCACATTGCA
CAATGAGGTTTGTGTCAAATAGTAAGAAAAGGTCTGCTGGAACATTCAAGTACATAAATGTCTTTCCTTCTGTATTTATAAGCATCTAGGTGTGACTCCA
AAAGATAGAAATAAGAGATCTTTTGGACATTTTAGTCTATAAGGTTTCATGTGTCCACATCTTCAGCCTCAGGAAGAAATATAGAAGTTTGGACTGTTGA
AAGGAACTTGTCTTTCAGTCAGCAGCCCATGAAGCTTGGCTGAAACTGGTTAATTTTACAGAAACACGAATGTCTTGCCTCCTTGCTTCTGATGTAAGTG
GCTTTTTGAATTCCTTTTCCTCTGTTACCTCCCAGGAGCATCTGAACAGATAGTGACCGTTTTGGCATGCCAAATTGGAAGTTTGCTAGTGGAGCAGAAA
TCATAGTTACTTTGTCATATACATCTAAATACTGTGGTGTGTGTGTGTGTGTSTGYGTGTGTGTGTGTGTGTGTGTGTCATGTGTTGTAGACAGCTGGGA
GCCCCGGTGTGCCGTGGGATGTGCCAATAATGGCTTCTMAAGTACTCTGTGTTTTCCTAAGCTGCCAGTCTAAACCCTTTAAAGGTTTGCTTTCTAATTT
GTACATGAAAAATAACAGGCTGAGTTGAACTTTTTTTTTCAAGTGCCCCCTTTGAAGATGCAGCAGTAGTAAATACTGCTCTAATGATAAACTTTAGTTC
TAAGTGCTACTTAAAAGTCTGTAGTAGAAAGGCTGAGAACTTGCCATCTTTACTAATGAAGCTTTCCTTAGGAAAATGCTCACTTAAAAGGGAGTAAATG
ACCAAGTCCCTGAAATTTGTGATTTTTACCAGATTTGACTTATCTTTTCTTATTTTACTTTTTGTAATGCAGCCAACCACACATCCAAAATTCTTGGTAT
TATACATGTCTTCAACATTAATTATCTCTGTTGATGCACTGGGTACAGATAGTACAGTTCCCACAAGTCCAGATTCTTACTGTAACACCAAAACAAAAGT
GATATTTATGAATAATATTGGGAAAGTTGTCCTCATAGTAACCATTCCCCAAAGGAAGCTTTACATAAATGTGCACTTATTATTCAGGATATTAAAAGGG
AATCGTTAGCTTTTACTTTTTAATTTGGGCTAAAATATGTAAATTGGTTTTATTTTGGAGTTTCTCTGTTTTAGGTGACTTTGGGGGAGGATAACTTTCT
AGCTTGATTATATTTTAATCACCTCTCTAGTGGAAAAGTTAATCTTAAAAGCAACCTGCTTATTGTGATTAGGACCCAGAGGGCCTGTGTTCAGATGGGG
CTAAAAACATATTATATTGACCTGTACACACGTAGAAAAATTAGATTTATTTCTACTAGATACCGCTATTACCATGCCTTTGTTGGCAAGGCTATCTCAG
AGACCAGAGAACCGTGAGTCTGCCTCTGGCCTCCGAGGAACATCACGGTGTGCCTGTACAGGCAAGCCTCTAAAAAGATTGTTCTTTGTCTTAAGAAACT
GGCAAGTGCAAAGGACTTCAGAGTCAGTTGAACTTAAGTTGGAATCCTAGCTCTTCCAGTTACTAACTGGGCAATCACAGATGAGTTACTTCAACATGAG
CCACAATTCCTCATCTTTAAATGGTGATGACAATATCTAACTCACAGGGTTTCTGCAAGAATCAGATGAGAAACAGTATTTGAAGGCACCAGTCATACAT
AGGACTTGAAAATTGAAGGTGCTTTGAGGGTGTTAAGTCTCTTTCAGTCTGTCAGTCTTTCTGTCCCTTGGCAAAAGCCCTTCCCCAGAAAGAGGCCCAT
CTGCCCATGCCAGATGTCCTGGGCAGTGACATTGTATGCTACCCTCACTGTCTCCATACTGTCCCCAGCATGCAAGAAGGGTGGCACACAGTGTTGTTGT
TTTTTTCTATATAGACAAGCCCTCAGTTCTTCCTCGGAATTGTATGGCTTTATTAAGTTTTCTGCATCCTCCTAGGATTTCACAAGCTGTATCCATGATC
TCCTTTGGAATTAGAATTCACTTGGGATTTAGTTGTCAAAAGAGAAAAACGATGAAGATAAAATTAATTTTAACCAGTGCTGTTTTTTTAATTTCATGAA
AGAGCCTGTTAGGAAAGTTAAAAGTCAGCCAGAAAGAAAATAAAAATAGGCTGAGCTTAATTGATATGGTCCCATCTTTGCTGTCTGTATATTGTAACTT
GCAAATTATTTGACTTTTTCCCAGAAACCAACTTACTTCAGATCTATTTTTTTTCCTTTTCACTGTATCAGCTGTTTTCCTCCTTTCCCCTTGTTTTCCC
AATAGGCTGAACTTTGAAGTTCTGTTTCTCACGGAATGGTGAAGAGGTTGAGGCAAAAAGTGGCTTAATGAGATTTTTGTAACTTGCCATCAGTTTTCCT
TCTGCTTGGCAAGGCAGCATGATGGATGGCTTTGGCAGTGTGAACACCTCTAGAAGTGATCAGATTGACTGAAGAGATGTGCAGGATGTCAGCAGAATGC
TGACCCTCAATTCATTACCCTCCCATTTGAAGGAAAAAAAAAAGAGAGAGAGAAAAGAGGAAAACAACCACAAAAGCCTTGGCGTAGTTGTTGATTACAC
ACACTTGGGAAGGGGTAATGGGTCGCGTCAGGACTGGTGTTAGGTTAAACCTAATTTTGTACCTTTTCCCCAAGGGTCTGAAGGGGGAAATAAATAAATA
GGCACCATAAATTAATTCACAAATTGTTCTAAATGGGGACCTGTTGCTGTGACCTGTTGCCGTTATGAAGAAATAATACAAATTGTCCTGAAGGGATTCA
AGATTCAAATTGAAAACACAATCTTGAAACACCGATTTTGAATTCTACTTCATATGCTTACAGGAAGGATATAAAGGGAAGTCGATTTTTTTCTTCAATG
TAATCCTTAAAGTAGGGGAAGGGGTTATTAGTTGATCTGATATCCCAAATGCCATTTTGCAGGTCCTATGCTAAAAAAAGAAAGAGAGAGAGAGAGAGAG
AGGGAGGGAGGGAGGGAGGGAGAGAGAGAGAGAGACAGAGAGAAAGAAAGAAAAGAAAGGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAA
AGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAAGAAAAAGATCCTTTGCTATGGAACAGGCAGACAATAAAACTTTTCTCTTTCCATATGAATCTATT
TTAAGTCTTCACCAAGAATCTTTGGAGGATTTTGCAGGTGTGTGTCTATACATATTGTATGTGATGTGCAAGCTCTCTGGAAGAATTTGGTTGGTTTTTA
GACTGTGTTTGTATGGGCAGAAATATATCTGTAAAAAGCGGGAGGGACTTGATTTTGGAGAAGGGATGGTATAGAAGATGTTTGTCCATATTTTAGCCTT
GGAAAATCTCATGCCTATTAATGAAGGACAAAAAAGAAATGATTTACTGATTTGAGCAGGCAAATGAGAAGGTTGGATATTCTTAGGACCTTCTTGCTAG
GTAGGTGTTTGTTTATTTAAAAGTTAAAAATTCATCCATATTTAGGTCAATACTTGAATCTCAGTTCCTTCTTTTTTTTAGATTTCTGGCTGAAGTTTTT
CATGAGAAGAAAAAAGACTTGGAGCTTAGAACTGCTTTAGTAAGAACTATTAAACAGGTCTCCAGTCATTGAATTTTGGAGGCATGGGCTTGCAGTTGGT
ATAATCTTAACAGTATTCTTCCTGAACTATCCCATGTCCATTTCCCAAGAACAGAAGAACAAGTTCGCATTCTAGAACTTCAGCTGTTCTCAGCATAGTT
CTGCTTGTAACAGATCTGTGACCATAGAGATCATCTTTCATGTTCACTCAGCCTTGTATAATTTTTGCCCTATGGTGTCAGTTTGATCTCTTTAATGTAA
TTAGGGCAGGTACTGTTAACTCTTTTTTATAGAAAATAAAGCTTAGCCACTTGACTAAGCTTGCACGTTTAGTAATATCAGAAGTCTTCGCTCCAGAGTG
TTTGGGAATATGTCCAGCTCAGCCAAAGTTTACTTTTCTTGGGGGAAAAATAAGGTAATTTCTCTTCTATATCAAATTTTTCGTTGGAGAATCAACAAAT
ATATATATATATATATATAGCATGTCTGTTGCATATAAACCATATTCTAGATGCATCCTGGAGCATCATAGTATTTAAAATATATTATAGTAAGCAAGGA
CAATGGCAAGCAGAATGATGTGGACAGTGTCTCAGCAGAGGAGGTACAATGTACAAAAGAGGGAGACATTAGTTCTTGTTGGGGGAAGGAGACAAGCTTC
ATGGAGGAAATGCCATTTGAGTAGAGCCAGGGAAACTGGATAGATGGAAAAATTAGAAGAAAGGGGAATTCCACATGGAGAGAATCATATGAATAAAGGC
ATAGAGATGGGAACTTACAAGGCCTACTTAAGAAACTGTAAGTAATCTGGTGTGAATGCAGCATATGTTGTGTAAAGATAAAGCTAGAAAGAGATAGGTA
AAAGCTATGATTTAGGAAGGTTCAGTTGTTTTGACTTGGTTTTGACTTTGAATTGGTAGCTATGGAATGTCTTAGGTCAGAGGACTGTCCTTTCTTAATT
CTTTTTCAGGGTCAAGACCTGTCTTTATTAAGCCATTATTTCTCAGAAGTTGAAGTCACCCTAAAGATACTTCTAAATTAGACATTGGTTAGGGGAATCA
GCATTAGAGCACTCTTCTGGTCATAATGTGATGTTATGATGATGATGCTCATTGGTGAAGTCACATTAAGGACTGCTTTTAGGGTTATAGTGGCAGAAAG
CAGTAGGAGGAAAAATATCGACTTTACTTCAGATTGTAAAGAAGTGTGCTATTAGAGGAGTACACTGCATTCTCTCACCAACAGGTCTCCAGTGCTCATT
TTGTGGGATAATGTGTGGCCAGAGAGAAGATGGTGGTGAGTGGGGAATATGCTTATTTTCTCCAGTATAAAAATGTACCCACTTCAAACTTGCAAGTACA
CGTACCAAAGCATGCTTGTCTTGACTGGTCATCTGTTAGCCCTGGAGGGCATAGATCATGTCAAATCCTCTCTTACTTCAATGTCTAATACATAGTAAGT
ACTCAAAAAAAATGTTTATTGAATTAGGTTGTCATAATATGGCTTTTGTTGGGGGTTTTGTTTTTATCTCTGATTTTTAAAGAGACTGAACTACAGAGTT
AGACTTGTGGATCTTGGATCTGTCATCAACTTCTAGGAGCCTATTTAGCCCAACTAACATAACCTTTCTGACCTTCAGTCTCTTAATATGTAAAACAGAA
TGAATACAACTTCATGGCTTAATGGGAGGATCCATTGAATTGTATCCTTGATACACTCTATTGGACAGGATAATAATATTAGTAAGTTACTAGATTCTAG
TTTTACCTATGGATAGTTTATTGGGTCTCGACCGGCATTAAAAATTAAAACAATGGAATGATAGAATTGAATGAAATAGAAAAGAAAGTATCATTGGGTG
GTACTTATTAAGGGTTAGTATTATTTCATGAATCTTTGCTTCAGTTACCTATGTTATGAGTTGTGATATGAAGCTGTGGTGTTCCATATGGTGTTCAATA
TGTTCCTTACTTTTTTATTTTACTTTGTTGGGTCATGGTCAGAAAAGTTTGAGAAATACTGKTCTAGATAATAGTGAGCTCTGTATTATACAAAGGAAAA
ATAACAGTCAGCTTTTTTAGAACTATGCAATGCAAGATCTCTAGTATCTTCTGAGTTATTAAAGAAAGGATGACTTCTAGTTGTTTTAGATTTAATATGA
AGCATCATATCCTACATCTTTGATAACTACTGATGTCTGCATGATATATGTTGGGGCTCTTTATTAACCAAAGTATTTATTAACTAGGAAACYTTATGCC
TTGGTTGTGCTACATAGCAAAACCTGGAATGTAATAATAAAAGTGACAATAATCAGTAGTGAATGTGACCTAGAGGTGGGACTAGAAATAATAAGATTAG
TTTTCATTTCTTGAGCTCTTGATATGAGTCAGACACTGTGCCTTACAAACACCATCCCTTTTAATCCTTAGAACAAACTTAAAAGGTAAATGTTAATTTC
TCTATTTTATGGACAAGCTAACTGAGGTTTTGGTGGGTAAATTACAGCCAGTAATTGGTTGGGCCAGGATTTGATTTGAACCCAGATTTGTCTGACTCCA
GAATAAAATTTCAAAAATTTATTCAGTTCCATGAAAATGTATTAAAGTGCCTACTATGTGTTAGCTCTGTACTCCTCTACAAAGATAAGTCAGTCTCTGT
CCTTGAGGCTTTACTAGCTGCCCTTTGTATTTTACTATGTAAGAAGATGAATAAGGATTTATTTTATCACAGCAGGAGATAGGACAGGCACATAGAGTAC
TGTATATTTTACTTCAGAAGTGTTAAGAAAAGTGCCTGACACACAGTAGGCATTCACTAARGATTTATTACATTGAATTGAAGTTGGATTAATTCTCCTC
TAGGGATTAGGGAACCTTTGTACTAAAGAAACACTGTACATTTTTATATGTTTAGCTGTATATGCCTAGTGGCATGGGTATTCTTACCTGCAATGTGGGC
AGATCCATCTGTCCCAAATCCATTCAGTGCCTTTTGGAGCTCCTAAAACTGGCAGCACAGAAAAGCCAACAAGAGCTCAAGAACTCAAATTGTAAACTTC
AAGTTTCATTCAGCCAGAGAGAACATTTTCCATCTTAGTGTGAAAAGCAAATCCCATGGCAGAGACATTTGGAGAATGATAAATGGAAGGTGGGCTTCCT
TAGAATGGAAAATTGTTATTATCATTGTTAATGTTATTTTTACAATGCCATTTACTAGCTTTATAAATTCAAGCAAGTTATATTACCTCTCTAAGCCTCA
GTTTCCACATTTTTAAAAGGATTAATACCACTCAGGATTGTTAGGATTAAATAGACCCATTTGATAAAAACTTACTGAGACTTACTATTTGGTAGTCTGT
AAATATGTAGTAGTAAAGGAGACATGGCCCCCYGTCCTCAAAGAGCTGAATATCTGGTGAATGTGCTGTGAGAAGTGGGATTCAGACTCCCACCACCTGC
ACAGGTCACTATTGATAGGATGCAGCACTCTACAGTCCTCCTTGGGGTATGTATATATTGTCATATACATGTCTCAATTGCATCATCAGAATTTCAAGTT
TATTGAGGGTKAGTGAGCTCAAATATTCATCTGTTTATCTCCACCTACCCCTAAGTTTCATCCTTGCCTGTTGACACAATGTTACCTTATACAGTAGTTG
CTAGATGAATCCAGCCCAATTCAGCAAATATTTACCAAGTGGCTCAGGGTACAGTGCTGGGAAAGGGAGGGTAACATTTGCTGAACAGAGTTGAATTTAA
AACAACTTTAGAGCATAAAAGGGGAACAGTGTCATGAAGTGGTGATATACTACACTAGTGCTAAAAATACCTGTGATCTACTCAGGAAGAAATTAGGGCT
CTAAAGAAAATTCGGCAGTAAGCCTAAAAATAATGTATTTTTTCACTCTCCCAGTGCTGTTTTGTTTGTGTTTCATGGAGAAACAGTGTATTTGCTATAA
GCACACAATTAAGATGAGATTTCAGAGATGGCTACTTAATTCATCTGTGGCTCAGGACCAAGTCTAGGTAGCTTCACAAAACCCAGGAGCCCCTCTGTGG
CCAGACTCCTCTCCTTTCCAGCCTCCCATCTTGGGTCTCTTTGCCTTCTGTTCATGCTCCACTGTAGAACTGCACCACGGTGTTCCCTACTGTTGCTCAC
ACAGATCCCTCGGTCTCCAACATCTTTCTGCTTTCTTCACCTGGCTTCATGAGACAAATAGGAGGCCTGTGTCACCCAGAAAGGCTTGCCTTAACTCACT
GTGGGTTGTAGCCATCTCTGTTAACACTGCCAGCATCATTCCATCATTGGTCTTCCACACTCCATAATCAAATGTTTATTTTTCTAGGTTTCACCACTGC
CTCAACAATCAGCACTGAGTTTATCTTTATGCTTGGCACCAAGTAGGTGCTCAGTAATTGATTGTTAACTGATGTAGTCAGATATTAATTAGGTGTTTCA
TAATGTGTTSCCATCAGGTGCCCCCTAGCTTATGAGTGGGATATTGGACCCAAATCCCCCTTGTTGTGAAGACTGGTTTTGACACAGCTATTGCTCACCA
ACCCCAGTTCTGTAACTTTGAGCTGAAGATCTTGAGTATATCTATTTACATTAAACTTTTTCCCTGATCACCATGACTCACCTGTAATTCCTCAGTAATT
CTTCTTTCCTCTAGACTCCTTTATGTCACTTGCTGTCTGTACCACGCAGTTAACAATGACACATCACAATAATAGTGACCCTTTATGTAATGTGTGTGTC
AGACTTTGCAGAAAGAACTTTACTTAGGTTATCTCATTAAATCTCACAACGATTCTAAGAAACAGATATTTTTATTCCCATTTTGAAGAAAGAGGACAAC
GTAGTTTAAGTAACTTGTACAAGGTTACATGGCTAGGAAAATATCAGACTGGGAATTTAAAACCTAGTTTGTTTCATTCCAAAGCCCATGTTCTGTCTCC
TATTTTATCTTACTCATCCCTTAAAAGGTAGGAATTAATGAGAAACATTTAGCCTAGTGGTTATTAATAGGGATATTTTTGAGATAGGGTCTCACTCTGT
CACCCAGACTGCAGTGCAGTGGTGCAATCACAGCTCACTGCAGCTTCAACTTCCCAAGGAAATAGAGACTTTTGATCAAGACTACCTGGATTCAAATCCT
GGCTTTATCAGTTGTGACCTAGGGGAAATCATTTCCACTCCCTATGCCTCAACATTTTCATCTGTAAACTAGGGTTGTTGTGAGGATGTGATGGACCAAT
GAATATTAAGGATTTAAAACAGTTACTTGGCATATAAAGTGATAATGATCATCATCATTATTGTTATCATACAATATTAATTTGTGTCCCATTCTTCAAA
TTTTTGTTGAGTGCCTGCCAGACACTGTTCTAGGTAATGGTGATAGCAGTGACTAAGACAAGTCCTTGCCTTTATGGAGCTTTCATTTTAGAGGAAGAAG
ACAGAGAATAGAGTAAGTAAGTAGTAAGTAGAACATGGCATAGTAGTGTGTGCCTGTAGTCCTAGCTACCCAGGAGGCTGAGGTAGGAGGATCACTTGAG
CCCGGGAGTTTGAGGCTGCAGTAAGCTGTGATCACACCACTGCACTCCAGCTTAGGTGGCAGAGACTCTGTATCTTTATTTAAAAAAAAAAAATAAAAGT
AGATATTATATATTATGTCGTGTTTTATAATTTCACATAGTGAAATGATGTTTAAAAAATAAAAGATGCTAGATTAGAGAGTTACACTAACGAGTCCTTG
TTTGTGGCACACAGTGAGGCCACAATAGTTCAGCCAGTGCCTTGCTTCTGCTTGATGAGCTGGAACCGTCAATGCCCTACTCTGAAAGGCTGAGCTTCAT
ATGTCCAACTACTAACTCTTGGAGACAGGCTTGCCTGACCTGCATGTGGTGTAAGGTGGTCATCTGTGGAATGATTGGACAATTGGACTGAGGTGTCTGA
GCCTCAGGAAAACTTAAGATAGAGAACTCATAAAGAGGCCAGGGGTCCCAGCCTTTGAAGAGAGGTCCTATTCTGTGAAATGGGACAAATGTTCCAGGAG
GGTCAGGAGGAGGATTTGGCCAATCATTCAACTAAGAACAGGGTCAGCCAGAATGTCTTCTCAATTAAGGCTKTTAAGATCTCCTGATGGCTCCTTGCAG
GAGCCTGAACCTAGAAGGTGAGTTAGCCTTGGCATTATCATAGGATTCTACCTTTCCATGAGTGTTCTGCTGGTTAAGGGCATCTTAGGAGTCTGCAAAA
TGGGGTGTTTTTTTCCTTCACTTACTTGTAGTRGGGTCTTGGTAAAGTCATTAGCCTGTCTGAGCCTCAGTTTCCTTATCTGTAAAATTGGGCTAATAAT
ACCTTCCTCCAAAGCTTGTTTAGAAGATGAACTAATTAACATGTGTAAAGAACCTGAATCGGGGCCCGGCACSTAGTAGGCATCTAATAAAGGAAGATTT
TTAAAATAAGYTCAGTCCCCCTAGGGTGTGCATTTTAGGTATTGGTAATTTATTTTGGGGCTCACAGGGAGAGAAGAGAAAAATGAGAGCTACTTCCCAT
TCTATAACTTTCAAAAAARTGAGCAGATAATCTCAAAACCAAAGATATGTCATCTCAGAAAGGACTGTGAAGAAAATAAAATTAGATTTGCTGTAAATCA
GTATGATTGAGACTGGTCTCTGTCAAAGACTGTGTTGGCCCCATCCTCTTGGTGTCACAGGCTTTTAGAGGCCTGGGGCTCTGTGAAGAAAAGCACTTGG
TTAAAATGGCTCTGGAGTCTTAAATCCTGAGTCCAATTCTTTCTAGTAATAAGTTAGARTATTTACTTTTTAGTGGGGGATGAAGGGGATGGATGATTTG
GTTATTTTCATATGTCAAAAATTTCAAGGAAGGACTCCTGTGCTAACTGGAATTATACATAAACCTAATTGATGCTCTGGTGAGAGCAACTGGAAAGCAC
TAGTTTTAGAATGTAGACATAAACCTTTATGTATTGTATCTCCTGTCTCCATTGTGTATACTGTTACATAAAATTAAAGATTAAAATTAAACTTTTAAAT
TTCACTGATTAAAATCAATTTACCTGATTAAAATTAAGATTGAAGAGAAAGAGAGAAAAAAGCACAGTTTATTCTCATCCCAAACCTCCTTTGTTTTCAT
TAGCAATGTGTAGACYTGAAATTACCTTAAAAACAAAACAAAACTCCCCCATGAAACACATTTAAGAATAAAAGAATGATTTTCCAAATATTTGTCAATG
CACTTTTTGTACAGGGCACTGAATGAAACTTTAAATATTTTTTTCCTCTTATGGTTAGTGACATGTTASTATTGTGATTCACTCAGAATTTATTTGACCC
CCTTGATCACTAGTTCACATTTGTTTTAATCTTGATGGCTACACTCATCTAAAATAAACAGAGCAGGAAGAGTAAGAGAACGCTTAAAAAAAAAGCATTT
TAAAATAAAGAGTCACCCATTCCTCTTACGATTATCTCAGCATGCTGAGAAAGAAGCCTGATGGGTTGGAGATAAGGATGTCTCCTCCTATGTCCCCGTG
TGCTCTGCCTCTAAACTCTCCTAGCACCCTGCACCTGCCTCTGATAGCTGATCCATTCAGTGGGCATTGGTTGAATTCCCCATGTACTGCCTGCTGGGAG
TAAGAAGTCAACCAAAATTCAGGCCTTATTTTCAAGGCATTCCCTGTCAGTGGGGAGACAGGCAGGTAAAAAGCGACTCAATATAGGGTGGTAAGTACCA
GGACAGAGGAGAGAGAGGAGTTGTCTGAAGCTATGTAGGTCAGGGAGGTGGACTCCAGGGAGTCTTGCAAAATGGCAGGGTAATTTAGATGGTGATGGCR
AAAGCATTTCAGTGGACATATATGCAAAGACATGGAAGGGACATACTGCCAAAGGCATTCAGATTATGGTACTTGGCTCACTGCATCTGGAACTTTGTTT
TCAAATGTCTACTAACCTTCCAAGACTAAATTCCTAGAGGGCAGTGATCAAGTGCCATGGAACTCAGTTATCCAACAGTAATAGATTTAATCTTTGCCAC
ATTCCTGTGAACCACATTTCTGTGAAGCCTATAACATTATCCTATTGATATGCCCCAAGTTACATTTGGAAAACCGAGACACAGAATGGTTAAGTGACTT
GTCCAAGGTCACACAGCTAAACAGGAATTTAAACCTGGGCAGTCAAGCTCTAGTGACTGTTTTCTTAACTATTATGCTATGCAATTAGTATTTAATAAAT
GTTTGAATTGATGTTAATTGAATGGATGTAGAAGTGATTATGTGATAATTTATTTATTCACTTATTTAAAAGAAATAACATGCCAGGCGTGCCCAGATCT
AATAGTTGTTGCAGGAAAATGTCAAGAGCCCCCATTGGCTTTGGCTTTGGCTTTGGCTTTGTGACTTACAGAAACTCTTAAAGGTAGAAATGTTCTGCAG
GGCTGTGAACCTCAAGATGGTACTTCAGATTTCAGCCAAATTCAGACTCAACGTGGAAATAAAATATGAGTTTAGGCCTGAAACAGAGGAGATCTAATTT
CCTATGTGGAGATGAAGAAACAAAGGCTGTAAACATGGCCTTACTTGGAAAATGGAAGGCCCTAGGTTTTGAAAACAGCCTCTTGGGATAGTTTGAAGGA
AGTTGAGTGAGACAACAATGATGAGGGCAATATAGCTTTAAAAGAATGAATTCACTCTTACTTTTGCATTGATTCTGAAGAGGAGAGATAAGCGAGGTTT
ATGGTGAGAGCAAAGTGGTGATGAACAGGCAAGGGAAGCAGATTTGGCTATAGAAAGCAGGTGAGGACCTAGAGAGTCATCCATTTATTCATTTATTCTA
CCAGCAAAATCATGAGCTCTGCGCTGTTCCCTGGGATTACAAATGAATCAAACACAGTCGCAGTCCTCAAGGAGCTCACAGTCCAGTGATAGAGAAAGAT
AGGAGGCTGGAGAGTTTCAATGCTATGTGGCACATGTCCGTAATGGAAATGTGTGTGAGAGACAAAGGTAAGAGCCATGATGGGGGATTGGAGAAGGGGC
ATGCTAGGTCTGATGGCAGAGAGAGGAGGGCTTTCCAGGCCAAGGGAGTGCTTATGTGCAGAGTGTGGCACAGGAGAGAACACAGTGTGTTCTGGTTTGT
CATTGCTGGCTGCAGAAGCCTACAGAAGGCTGTGGCCTGGAATGTGCATTCCAGGGCTTATGGAACTTGTAGTGGGTAAAGAAGGAAGATGGGAGTCAGT
GACCAGAAGATGTCAGTTCAGATCCAGGCTCTGCACCATGTGAATATTGGCTAGTTAGCTTTACCTTTCATTTGCTCCTTAACCCTTAGTTTGCTCACCT
GTAAACTGCAAGTGATGGCAAGGGAAGACACCACCTATCTCTCAGGATCTTCAGGAAAATTAAGTGGGGTGGTGAGTGTGAACGTACTTACAAAATCCTC
TGAGTCCAGCATGTAATTTAATTATTATAAATTATTATAAAAAATTATTTTATTATTTTGTAAGTGAGGGTTTTGTAAGGGCTTTGTAAGAGTCTCATTT
CTTCAGGGGGAATGACACTTGCTCTGTTATCTCTACACTTCCCACCACACCTTTCTGACTGTGCCCTGGAAAAATCCTCTGGAAGTGCATTCTGTCAGTT
TAGCTGCTTATTGRGGTATACAGTAAGAAAGGAGCAGTCCAAGTGGAGGATGGACCAAGAACAACCCTGCTCTTCCACCCTGAGTTTCCTTGTGGGGAGC
CGGAAAAGCCCTCTGCTGTCAGTATGCAGAGTGCACTGTGGCAGTGATCTGAAATTTCCCAGGAAAACATGATGGTTTTCCTTGTAGGAAAGCAGAAACC
CTAATGACTCTTATTAACATTTGAAGTACCTCACTTGGGCCATTCACAGTGGATGGCTTTTTGAAAGGGCAAAAGATACCAGAAATTGTGTTTGTAAGTG
TCAAACATGCTACTTTCATTATTTCTTTTTTTAGAAWCCACATAGCCCCTCCCCCTTTGCTATGTGTTTACTGGTTTGGCATTATTGTGAGAGCTTATTA
GTGGATGTTTGTGGAGCATTGTGAAGATGAATAGCTATTGGCATAGGTGATGAGTAGTAATGTTTTTAAGTATACTTTTCTATTTCAGAAATTAAATTCC
AAGGATAAATCTTACCAGCTCTTAGATTAGTCAACTTTGCCACCTGCAGCACATTTTAATGGGCACATATTTCAGAATGTTACCTTTTGGACAAGGAAAA
TGAACATGTACTGAGTGCTTACTGTGTACTGAGCTCTGAACCAGGTGCCTTCAGATTTGTTGTTTTTCTCACAGCAACCCTGCAAGACAGATAGAATTGT
TCACATTTTTCAAATGAGTAAACTTAAATTGCACTGCAGAGAGTCTGAACTGGCTAAACCAAGGTCAAGGCTGGTGGTGGATTTCCAACCCAAGTCGGAT
CACCTCCAAATCTCATGCTTTTTCCATTATACCATGTAGAATTTTGAATTTTGAATTATGGTCTTTCCTGTAACACCCATTTATTGGGCAGTATTTACTG
ACTAATAAACAGCAGATACACAGGCTAGTTGATTTTAATAGGGTTAGATAATTTACATTCTCTAAGATTACTAGGTTGCATTTCATAGTGATAGGAAAAG
TCCTCAGACTTAGAGATTGAAGAAAGGGCACAAATTTGGTTTCAGCCTTGRGTTCAAGTTACARTCCTAGTTAAGTGACAGTGGACTCTGCCTGAAGACT
CATTACTCCATCATGTGTAGAGTGACAGCACTTCTACATCTGTAAATGAGAGGAATGACAATACCCACTTCTCAAAGTTGTGTGAGAATTAAGTGAAGTG
ATGTATGTAAAGACACCTCTCACCATTTCTTATTAGTACCATTGGAAGGACTTAATGATAATTACTTGCCTAAATATTTTCCTGTGTAACTCAAAGCACT
TTTTAATCAGCATTATAACAGGATTTCCCTTTACTGAGTGTTTGTCATATTCCAGGCACTTTGTATGTACTTTTTCCATTACTACACTTATGACATTAGA
CAGTAATTTCTTATTTACTTATTTATTTACTTCCTTGCAGGCAGGAACTCTTTCTCTCTCCTTCATATCTCTGGCATTCAACATAATGGTTTCTGGCCCA
TCGAAGGAACTCATTAATGTTAGGRAACTTAGCTTGGCTTTTGTTCCTTCTTTTGAGAGCTAACTTCAGTTTGGGGGAGGGGCTGCTCCAATGAAGTACT
AAATTAACATCATTAAATTGTGTCTCATAACTTGCCCTCAAATATATACCTGTAACTAAAGAAATTTTAGATTGCTCTAATTGACAATGGATGATTCTGA
ATATGTGTTAACATTTTACTTTTTAAAAAAGGTAAATTTCTGGGATAAAAAGAAYATATTAAGAGTTGCAAGAGTTTACCAAACAAATTTTCTTTGTATC
TGTGATTCAAAGGACAAGCTTACCCTACTCAGAAAAGTAATGTTTTAGTTTCAAAATACATGTATTATATCCATTTGATAAATATACATGATAATATACA
TGTATCATATAMTAAATATTCTTAGGGACATAGTAAATTAATTCTAAAAGGGTCTTATCTGAGAATTGTAGATTATGCAGCTTGAATTATAATACAAATG
TAATTTTTGAAATTTTATCATGTCTTTTTTATAATTTAAAAGTTTTATTTTTGATTTTTAAAAATGCCAACTTGACTTTTGCCCAATTAGTGAGTGTGAC
CTTTCAAAAGCATATTTTGAAAAGGCAAAAGATTGTGAAGACAGAAATACTAACTTATTTATTCTCTTATAATCTAAAATTCTATTTTTATGTGGCAAAT
CATAAAAATACATACAGTAGGAGTTTTTTTAAAAAAATAGAACAATGGGCCGAGTGCGGTGACTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGA
GGGCTGATCACAAGGTCAAGACATTGAGACCATCCTAGCCAACATGGTGAAAACCTGTCTCTACTAAAAATACAAAAAAATTAGCTGGGCTTGGTGGCGC
ATGCCTGTAGTCCCAGTTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTAGGAGGCGGAGGTTTCAGTGAGCAGAGATCACAGCACTGCACTCCA
GCCTGGGGACAGAGCAAGACTCTGTCTCAAAACAAACAAACAAACAAATAGAACAATGAAGAAAGTGAAATTAAGGGAAACTAAGAGGATTTTAAAAAGA
TAAATTCAGAAGTAAAATTTATGTTTAAAAAAAAAAAAAAAACCAGAAGTTTGCAGTGAGGTCCCATGCTCTTTACACACAGAAAACTATAGATTTGGCA
CCCATTTTCCTAATATTGAAAACAAAAGCAAACCCATCATGCAGAGGACAGAGAATATTAGTGGTTTAATGTCATAAAAAGTGCTTGCCTCAGAGCAGAC
GTAAGTATTCCGATACTTGTGATTTCTGGATTTTGTTTGTTTTTTTCCATTTCTACTTTGCTTGCTTCTTGTTCATGATATTTTTAATCGATACGTATTA
GAAGGATGTTCAAATGCAAGAAAGAGAGAGAGAAGCTTAAAAAGCGTGGTATGGAATGCCACTTGACAGTGTCATACATTCACAAGATGTCCTTGAAGAT
GGAGCACAGAACAGAGATCAGGGAAATTTTGTCAGCTGCAGTTGGGAAAATAAATGGCTGTTGTGTGATTGGGCAGATCCTGAAAGCAGACTCCTGCTCA
AACCATGTAATTAACAAAAGTGGGAGCTTTTGTCCAAGTGCAAAATGTTCATAATATCAGAGTTTGTCAGCAGGAGCTTTTAGAACGGATCAGTACTTTT
CACTCCCTGATCCAGGGAATGGTTTTCTTATAAATCATCTTCTCTCCTTGCTGTCCTCATGAAGGTTGCTGCCGGGCGATAGGCAGACTTAAGATTGTAA
CCTTGCTAATTCACAGTGATTTAGGTGAAGGGGAGACTGAACCAGAGACTGTTTCTAGAAATGTGATTTTTATTCATTTGGGCTCCCATGAGTACTCTAA
TGTAGGAACAAACAGAGTGTGTCCAAGGAGAGATCYTACAGGATAGCTCTGGGGAGGAGACAGAATCATTTTTAATACTGTGACTCCAAACTGGTTTGAA
GGACTTGACATTTTCTTTCTTTTTTAAAAAACAACTTCCTTTCAGATTATAAAACTGCTGTATTCTCACTGTAAAAACAAAACAGAGTTGACAAATAAAG
ATGGAGAAAAGTGTAACAATCACCTGTAATTCTGCCATTTATTCTAGTGTTTTTTATTTTTCCCTCCTACTCTGTACTTGTTTATATAATTGAGATAATC
AATCTTTTATTTCACTTCTTTTTCTACATTGATCATATACATTTTCTCACATTATAAAAACCCATTATAAACATAACTTTAGCAATTGCAGAATACTGTA
TCAAAAAACTGCACAATGAGTTATTTAGCCATCCCCCTTGTTAGACTCCTGGGCTGTTTCCGTTTTTCTCACTCCTCTTAATATAACTCATTGTATGTAC
TTCTGGTCTGCAGAATTTTGGATTCTTTTCTGAGTTTCAGAATGGACCAGTGGGTCCAAGAATATGAACATAAGAAGAGATGTGCCAATTTATCCTTATA
CCCATAATTATGAGAAAGACTATTTCACTGCATCTTAGAACTTGACAGTTGCAAACCTTAAATTTCTAGTTTCCATGTAAACATGTTGCCCACAAATAAT
TCAAAGGCACACTTCTCCTCACCCAGGCCTGAATTCTCACCAACATTGATTTGGTGGAGTCCAGTTTTACTCCTGCCTCCACTACCTTCCCAGGGAATGT
TTAGGGGCAATGGTATCCAACTGGCCCTCAGAGGAAGTTTGAGGGATAAAGTTCTCCTATCAAGTCAAAATGTTCTTTTTTTCTAACATTTATCTCTTAT
AAAAAGAAAGAAAGAGAGAGAGAAAGAAAGAAAGAAAGAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGR
GAAAGAAAGAAAGAAAGAAAGAAGCAGTGAAGGGAGAAATTAACAATAAACTTTCAAGTGTGATAAAGTAATTTTCAGATTTAAAACTACTCTATCAGAA
TAACATTCAGGATCTTTTCATGAATGAACATGTAGCTATATGAGGCTATATGAATTGTCCATGAGTATAATTTATCACGGCCAGTTATATATGCATTGAG
GTGCTAAGAACCATTTTATTTCACTTATTATCTTCACCTTCAGAATGACTTAATTTTTTGAATTGCACAATTAGAAGAGCCATTGACCTTACACAATTTC
TCTTAAAAAGAACAAGACTTCTACACAGATTTTTCTAGACACAAACTCCCTCTACTCCCTTTTACTCCTCCCCTCTTCCTCACCCTGGTTATGTTAAGAA
AACAAGTGTTAATTTTCAAAATAAAATATATTTCTATGTAGATTTCTGAAGAATTTAATCTGAGTGTGCATAAAACTTAATTTCAGAGATGTGACCTAAT
GCTTTAGATCATGATACATATGTGGAATAGCACATTGCTGTTTACAAGTAAACCTCAAGAGTTTGCTGCGACTGAGCCACTAGCCAGGCATTTTATAAAT
ATACAATACTAATGTTTACATGAATTGTGCCATTGGCTATTGTTTATGCATTTAATTGGAAAGATAAGTCTGGCTTAATCAGTTTGTGGGCAGTTTTTCA
AATGATTCATTAATTATGAGAAAGACTGTTCTTTGTATGGAAGATGAAGATAATGTATTTCCCATCACAACTGGTTCCCATCCCAACAAGTATCCAGAGA
TTATTATTAGGCATTTTAGTTATTTTATCCACATTAAACCTTCAGAGTTCAGAGGGTCTTAGGGAGCAGAATGGGAAGAAATTGTTTTCCAATCGATTTT
CTTTTTATTAGAGCTGATACTTTTGCAGGAAAGCTGAGCTTGCCCACAAAATTGTATTTTTATTAAAATGCAAACATTTGTCTTTTTCAAATCTGACTTA
AACAAAGAAAGCTTATTGAAAGTACGGTACTGTATTTATTTACTGGCCATTTTGGAAAGGAGAACCGAATTGTGGGGGATGAAGGAAACGTTCCCTCATC
TTTATAATGTGCTGAATGATCAAGCTGTCCCTCAGCTATGGAGAGTTTGTTGTAAAAGTCAGTTAAAACCAAATACCCAGGGGTCTTACCAGAACTGCAT
CAGGATGGACACACCAGGAAATCATCTTAGGCCCAAAATGAAGCTCTAAAGAAACACTGTAAAATGTAAAGGAGGCCAGTATTTATTTAGGAGGGGAAAT
GGGTGTGATGTGTCTGGGGAAGAAGATTAAAACTTGGATTTCCGTGAATTTGAGAATGATGCCTATGAGAAATTAAATTTTGATTATGCTTTTCATATCC
GTGCTGGCCCTGCTATTTTAAGTATTAATGCCTCTTGTTCTCTCCAGTGGCTGCTGATTTTTTAAAAGCCCTGACTACCACCACTGAGAATACTTTTGGC
ATGCCTGGTGTTCATCTCCAGAGCAGAAGTTGCTGTTTGAAAGAAGGGATGCCTCACGCTTACCTCATTGTTACAAATATAAGTTCCTTTTAGATTATAA
AGCGCTATATTCTCATTGTAGAAACAAAACAAAGAGTTGACAAATAAWCAAGTCATTTGTTTAGGATGTAGGCATTTATACCAGGAAAAGGACAGTCAGT
TCAGTATCAAAACAGGTAGGATTAGTCTGAGTGTATACGATTTATATGCTTTTGCTGAGGAGGGGGTGTCATTTGAGAAACTCTGAAGGAGACTGCTTAA
AACAAAGGGATATACAATTGATTTTAATGAATTATTTGTTTGCCTGCCCTCCTCTGCCATCCTCCCAGCTTCAACCCTCTACAGGGAGGGACCAGATTAT
TTTTGTTTTCCCACCTTCTAGAAGAATGCCTTGGCTTATAATTGCATTCAATAAACTTGTGTTGAATTGAATACACTTGTTTTAAGGATATGCTGAGAAT
TTATTACCACATAACTTCCCAGAGTAAATAGGTCTTTCAGGTTATTTGTGCCTCTGCCCAAAGGTATTATTAAGCTGTCAGCATGTGTTTCTTGGATGGA
ATTAAATATTTTTTTCTAGAGTTTTCTAGTTACCTTCTGGCAGAAGCTACAGAAACATGGTATGAATGGTTTTGGGAAACATGAGTGCAGTCTTTAGCCA
CAGTCCCCTAGTCCAGTGGTCTTTGTGAGTCATCACCTGTAATTTGGTTGGAAGGGTGGTATTTCCAAGTTCCCTTTTCCTAGAGTTATCAGATCATCAG
TCTCAGCTCCTCCCCTTGGGTCCCATTAATAACATATGTCTCCTTCACAGTTGAATCATAACCAGGAAAGTGTTGCATTTCAAAAAAAAATATTAACCTG
AAGGGACTTGAGCGAATTAAAGCCTCTTGAAAAGAAGGACGGGAGAGAATAGATTTTATGAGCTGATCTAAGACACTTTAAAGAAATATGAAATTGGGGA
ATTGTAACGACATTTTTAGTATCTTTTAAGGAGCAAGAAGAGAAGTGAGGAATTTTACAAAAAAAAATAATGTCTGTCTTCAGGAACACAGAGCCTGCTG
TGTAATTTTCTAACTTTGGGAATTTGTTTTTCAGGCTTGGAAAGGTGGGTGAGATGCAGTAGTCTGGGCTATTGCATCCACCAGAGTCTAACATACTACA
TGTCAGAATTTTACAAGGGTTAAGTGGGAAATTCCTACAAAGAGAATTAGGACTTTTATTTTTGTTCTCATTAATAATTTAAATCTATTTCTTTAATGGT
TCAATTCAGTGACTGCCCTTGGTAAACATTATTCTTCATGCACCTGAGAGAGCTTGTTCTATTACATAAGGGTTAGCTTTATACATATATTTTCAAAAAT
CCTTCCAACATGGTAAAAGAAAACACCTTTACATACTCATTAAAATATTTAATAAAATACATGCATGAGTCTCAGGTGTACACACCTGAGACATGTTTGC
AATCAGTACATTCCTTTAACATCTTTCTCGTTTCTGGGAATACTGACTTTTAAAGGTAGCTGAAAGTAGAGGATAAGGGTATTTGTAAAAGAAACATCAT
GTTCTGTGACCTTCTTTGGTTCTTTCCTCTTGATCCTTTCGCATGAATTGTGCAGTGAGGCTATATCTCCRCCAGAAAACCAGGAGTTAAGGACTGCCAA
AAGTATGGTGACAGGTGTACAAGAACCCTGCACTGGGCTCTTAGATGATGAATGTCAGTACTGAGTTCTGTATCAGGTCAGATTCCTGTAATGTAAAGTT
GTAACCTTTGATTTGCCTCATGAAGTAAATCCTGAAAGTAGGTGTAGGTTAACTAGATTAAAATATCTAAATGCAAAACAATAACGTGGGGTCGTATGTA
GGTAAAGTGGAGGGGATAGGGTAAGACAGGGTTCTAAACCTTGCTATTAAGAAGTAAAAGAGTGTTAGTCTACACTGAAGTATTCCAAAAATGTCACAGG
CTTGAATGGGAAGGAACAGTTTGTGGACTTTCCATCTTTATTTTTATACTACCATTTTTAGGGAAAATATTAGGACAAGGACACAATATGGTGTGGTTGG
CAGGATGGTAAGAAGACTATGGTAGCAACAATGATTCTCCTCCACTGTGAGGAGGGGGATCAATCCTGTAACTCTAGCCTGATTGCCCCAAACTTGAGAA
AATTAAAGCTTTGTGAAGAGTGGAGGATGGAAGGAGGTGTAAGAAAGTCATGAGCTAATGGAATAAATATTAACTACTCAGGAGGTTGAGGTGGGAGGAT
CACTTGAGCCCAGGAGTTCAAGTCCAGCTGGGGCAACATAGAGAGACCCAGTCAAAAAAAAGGGAAGGAAGGAAGGAAGGAAGGCAGGAAGGAAGGAAAA
AAAGTTTTAAGGGAGCTTTAAATACATTTTTAGTACATCCGTACACTTTTAGATTTTAGAATAGTCTTGCTTAATATACTTCAAAGATTTTCCTAGTCAC
AAGACATGCTGCTGTCTCTTCTCTGACATGTGGACCCTTCATCAATAAATATTTATTTGATTAGTAAATTAATGAATTCTGAGAGCAAGAAATCATATGA
AAAGAGTGGTTTGGGAAGGAAGGAAAGGTTTTACTTTTGATTATATTGCTAATCAGCTTTTCTTGTCTAACTCTTAACCTAGTTTCTTAGGTATTGGTTT
TTATCTTTCTCCTTGTTCTCTTCTAATAATATTAGCATCAGTCACCACTAGCATCTGTGGAGGGATTACCATGCCAGGAATAGTGCTGAGTGCTCCATGT
ACATTATCTCACTGAGTCCTTTTTATACCAGTAAGAGCAAAGGCTGCCCTGAACCACCAGGTTCTATTCTTTTCCTTTTGACTCATTAAATAGGGCTGAG
ATAAAAGTGTGGAGGGGCCGAGTGAAGATGATTGACACTATATGCTGCCAACATGCTTAATTAACAGTTCTCAGCCACCTTGGTGTGAGGTAGGTAGAGG
GCAGAGGGTAGGTCAGTGGAAGGGCTGGGGTAAGGCCGTATTCTAAACTTTCCTATCAAGAAGTGAAAGAGTGCTAGTCTACACAGAGGTGCTCCAAAAA
TGCTGCAGGTTCGAATGGGAAGGAACAATTTGGGAACTTTCAATCTGGAGATAATAGATTGGCTTTAGTGAACATAAAATGCTGTTTGAGTGTACATTTT
TCTGAGGATATAGGGCCAAGGCATTCAATAGGTTTTCTGAGGATATAGGGCCAAAGCATTCAATAGTAGACTCATGCCAGCCAAAGCTTTAACCCTCCTG
CTTGAATGAGTGCTTTTTTTTTTTTGAGGTGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCACCGCCTTCC
AGGTTCAAGTGATTCTCCTGCCTTAGCCTCCCAAGTTGCTGGGATTACAGGCACAGGCACCCGCCATCATGCCTGGCAAATTTTTGTATTTTTAGTAGAG
GTGGGGTTTCTCCATGTTGGCCAGGTTGGTCTCAAACTCCTGATCTCAGGTGATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCC
ACCACACCTGGCTAATGAGTGCTTCTTAAAATCTGCATTTGACATAGAGATGGAAAGTAGAATGGTAGTTGCCAGGAGCTGGGGAAAGTAGGGGAATGAG
GAGGTATTGTTTAATGGGTATAGAGTTTCAGACTTACAAGATGACAAGAATTCTGCTGGTGGCTGCAAAGCAATATGAAGGTACTTAATGCCACTGAACT
GTATACTTTAAAACTATTTAGTTGGCAAATTTTGCTATGTGTATTTTACCACAATTTTAAAAATTGAAAAAAAATCTGCATTTGAAAGAATATTTAAGTG
TATGCCTGGCATATAATAGGTGCTCAGTAGGTGACTGGTTGCTTACCTGTCCTGTTCTTTTGTTATCTGTAAAATGGGGATGATATTAGTACTTTATTGG
CTTGTACTTCACAGGGTTGTTTGAGAGATCCAGTAAGCTAATGGACATGTAAGGACTTTCATTCATTCTACAGTCCTTTATCTGGGACCTACCGATTGTT
AGGCTTTATTCTACATTCAGGAGATGCTGTAATAAACAAAACAGATGTGATCTCTGTGCTGTGGACCTCACAGTTCAGGTCATGAATTTTAATGAACTGT
AAAGTGCTATACTCAGAAAAGTATGGAGGTAGACATGTCTCCACAAGTCTGTTGAAGTACATTCTGGTCCTCCACTTTAAAATTACAGGGTTGGGCTTCA
TGGACCCTAATGTTCTCTGGTATCTGTTGAATTCAAGAAGGGTCTGCTCTTTGTCTTTGTTATCTCTGTATCCCCAGAGTTCAGCACAGATCTCGGCTCC
ATCTCTGTTTATCTAACATACCCAGATCTAGCCATAGTGGAAGTAAACCCTTTTTAAATGTGCGTATGACCTGACATATCCAGGAACTAGTGTTACAGGT
AACTTGGGTAGANAAAAGGAGCCTGGATTGTGTTGAGAGAGGTGCCAGAAGGGAACAGAGGGGTGGCTTTTTAGTTTCCAAGAGCAGGAGGCTGGCTGAG
CCTCTGCTCCTTACCTCCCCTCTGCAGATATAAACGACCCTGGTGATGATCCGGCAGCTGCACGTCTGAAGCCTTCCCTCTTGCTTTTGTTGTATATTTT
GCAGAAAAGAGTGGTGGGAGGGGTGAGGTTAATGCATTGAGTGTGAGTAATTAGTCATTCAAACCATCGACATTTACGATGACAGGATTTGAGTGCCTAC
GTTATTGTGCACCGCTCTAATAGTTTATCCCTGAAATTTTCTGCCTGTATAATGTTTCTTAAAATATATCMCAGAAACATAAAAGATTTAATGTAGTGCT
TTGTACATCCATTAGAGTTCGAAGTCAACTGAACCTCCTCAATGATCTATCCTGGATGCTGACTGTAATTCTGTTCTTAATTGCTATTCAAATGAGGAAA
GGAGGGCAAGTCAGGGGCTTGGAACCTGGTCAGCTGCAAAGTTGGCTGTGAGACCCACACAGAATGTTTCATTAAAGTACATATGCACACTTGAGTAACT
GATATATTTATTTGCAATGAAAATTGTGCTGTTAGAATATCAAAGGCGTTAGCCTGAGGAAGCAAGTGTTCTGATTTTGCCCAGCCAGCCTCTGTACTTA
CTGGAGGATGTGCTTTCTACCAACACACATCTTTTCTACTCCTGTTCTGTCCCTCTGTTTCCCAAGCAGAGAGAACAGGTGTCCTGTCTTTGAGGTCTAT
CATGTAACCTTAAAATGCTGTAGTTTCATATTCGTGCATTTAATATCTTTACATCTTGGCAACTTCTCTTATTTTCCAGGTAATGTTTTAAAATCCTCTT
GTTTCATTCACATGTCAGATTTGATTCTGATGTTTTACATTTCTGATTTTTTTTTTCAGCCTGTGTTGCATCCTAAGATGCATCATTAAGACCTGTGAGG
GGTCTTATTATAGGATGTATATTAACACATTTGCAAATGTTTCTCAGCTTTCAGACAGCACACTTTTATTGAGAAAACTCTCTTTGTATGTGTCCATTTG
TGTGTTTTCATCAGTTCCTTCTGGATACACAAAAGAATAACTGTGTAGTGTAGATGCAGAGCAAAGAGAGCTCCATCTACATTGGATGAGAATGACTTGA
CCTAATTTATAGATGTGGTCAGCTAAAGTAGCTCAGTAGTGAGCATTGTATCTCATGGCTCCTTTTAGAAGCTAGTTGGGACCAGTTGGGCTGTCTAATC
TACAGACAGGACTCACCTCCTGGAGTCAACATAGATTAGGAAATCCACATAGAATGCAAGGAAGGCCACAAAGCTGATGCGGGGACTGAAATTACTTTGC
TGCAGCCTTGTTACTTCACAGGCCTTCCTGGAGGAGGTGGACCTGTGAGATGTTCACATGGACAAGTGCTGGCTTTCACCACGTGTCTGAAAACGAAAGA
TGAACCTGACTATCAGGTGACCTTTATGAGTTTTGGTCCCACAGAATCTCARCATGAAATTCTTCCACATACTCCATCACTAGCACCAAATAAGCTGCCT
TGGTGTGGGATATTTTCTAGGTGTTTGTTGGGGAGCTGAAAGAAGGGTAACCTGAAAAAGGTAGAAAACAGAGAAGAGTTTCTAAAGATTGTGGGCCTGG
GGGGTTTTTGCCATTAAATCGAATGTAGTAGTCCGGCCTCCTGAATGGATAAATTCTGATTTTCATGTTCATTATCGAGTTGGCAGTGCTTCTTATGTTT
GTTGCCTGGACACCTGACTCAGTGAAGCAGTGAGACAACACAGCAAATGGAGGCACTGCAAAGACCCAGAAGGCCCCACAGCTTGGCAGAGCTGAAACCT
GCCTCCTAGCCAGGAGTTGTGCTGATGCTCTGTAATGCCATCCCTTTAGCATGCCTCCTTCCCTGGGGACCATCTCCCTGATTCTTTTCCTGGACCCTTG
CCTCGAAGGCAAAGTGGCTGAATAGGCTTTGCTGGGTACAACTTCTATCAGTCCTGAGGGGAGCTTGATTTAAGATTCTTCTCAGAAGCTTTTTGCTTTC
TCCTTGCTGTCTGGACCAGCCTTCTAGAATCCTAAAGTTGACCTGAAGCCAAGAAGAAAATTCTGGTGATGGGAGAAGTGGAGCCACTTAAATTACTTAC
ATGATGGTAAAGAATCTTAGATGCTCCCCATCTTTCTTAGTCTGCTTTATTTCCTTGGCTCCTCTTGAGCCATGTTTTCCTTTTTGTTTCATTTATCATT
TGTGACCATCAGAAGATGAAAGAATTAGAATAACACTCACCTACGTGGGGCATGATGAGGAATAATAGTTATGATGCCTCTGGGCCCTTTGTATTTTAGA
CATTTAATGTACATTATCTCTCATCCTGAAGATAACCCTGCGTGGCAAGCTTTTTATTCCAGTTTTGCTGAAGAGGAAGCTGAGGCTCAGAGTATTGAAG
TAACCTGCCTCAGATCACACAGCTAATAAGTGGTAAAACTAAGTTTTTTGTTTTTTTGTTTTTTGAGACGGAGTTTCACTCCTGTTGCCCAGGCTAGAGT
GCAGTGGTGCAATCTTGGCTCACTGTACCCTCTACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTGCACCA
CCACACACACACAGCTAATTTTGTATTTTCAATAGAGACTGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCACC
TCGGCCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCACCGCACCTGGCCTAGAACTCAGATTTTAAATCACCTGTTGTCTTGACTCAAACACTCATTCC
ATTTTTACTATACCACTCTGCTTCAGATGAGAAAATAAACAAAAACAAAAACAAAAAATAGTCTCTGAACATTGATGAGGATGTGGAGCAACTGGAACTT
TCATACTCTGCTGGTGGGAATATAAATGGATACAGCCACTTTGAAATACTGTTGGCAGTATCTACTGAAGCTAAATATACATACACCCTATGATCCCAAA
AACAGAATCCTAGGACTATCCCCAATAGAAATATGTACATTTTTGTACCAAAATGTTGTACATAACGCTCATAGCAGCATTATCTATAGTAGTTCAAAAT
TAGAAACAATCCAAATGTTCATCAACAGATAAATAAAATGTAATATTTCCACACAATGGAAATTGCTATAGCAGTGGGAAGAACAATGCATTGTTACATG
TAACAGAGCAGATGACACTCCATACATGTGTGAAAAGGCACAAAAGAGTATGTGTTGTATGAGTCCATGTATATAAAGGTAAAAAAATAGGTAAAACAAA
TCTGTGGACTAGAATTCAGAATAGTGGTTACCTTTGAGGGGTGAGGTAAATGACAGGGATGGAGAACCTGAGAAAGGCATTTGGGGTGCCAGTCATGTTC
TGTATTGTGATCTGAAAGGTAATTACCCAGTTGTGAATTGTGTTCACTTTGTAAACATTCTTTGTGTTGTACCCTTAAGATTTATACACTTTATTACATG
TATGTTATAGTAAATGAAAATGCTTCCCCCCTAAATCCTCTGAGCAGGCAAATGGTAATAATAATGGAAGCTACTAGTTATCAGATGTCTGCTATGCCTT
GGTTTCCTCATCTATAAGACATAGAGAATATTAGAATATGCTTCATTGCCTTCTTGTGAGGAGACAGTGAGAGAAGTCACATTGGATGATTGGCAGAGTA
ACTAATAAACATCAGTGATTGTGGTTATGTGCCCACCACTGTTCTGGTGCTTTACATAAGTCATATCACTGGATCGGTTCTTACCGCTTTGCCATACGGT
GGCATTGTTCCCATTTTTCAAATGAGGAAAATGAAGACTSTTAGGATTTAAGTCCCTTGCCAAGGTCACACAGCTAGTAAGTGGCAGAGTATGATTTCAT
TTCCAAGGAGTTGATGATCAGTTTCTGAGGAGATGGAAGCCATTTTATGATGGACAAATAGAGGACGGTGTAAGACAAAATGGAAAGTTGCGAATTATGG
GCTGCGTTTGGGGCCAGGAAATCCGGKTGCAGGCCTGGACTTTGCCCCCATTTTTCTATGATAACAGAGAAGTAACTGGACATCTCTGGGCTTCATCTCG
AATGTGAGTGTTGAGCTAGATTTTGTTCCCTTATGTGCCTTCTGGCTCTGCAATTTTGCAATTCTCCATGTTTGTCATTCCATACAGGGCATCTTCATGA
CCTGACTTCATGAGCTTAAACTCATTTTTCATATAAAACCCTATTCCAGCATTTTCTCAGAACTGTCCCTAAATCTCCCTATCCTATAAGCAGAAGTAAT
TGCTTCTGTATTGCATGATCACTGCCCTATACCAGCTGTTTACCTGTCTGTGTCCTCTATAGACTATAAGCTCCCTGAGGATAGGGATTCATTCATTTCT
TTATTCTCATACGTGCTACCTGGAACATTCACACCAGCCAGAAATCTTTGTTTAATTAAATATTTTAATCAAGAGAAAGTCCTTTTTGAGTAATATGTGA
GTGGACAGCCTCAGGCGGTGCTGGACCTAACGTGGAGACCTAGAGAAAAGTTTGCCTCCATGTTTTTTGTTTTATTAGAGGTCTGGGAGAAACAATAACA
GAATGGCTAGATTAAAAAAAAAAAGACATTAGATGACTTTGCAGCTCCCTAGAATGTACCTGTAAAATCTAAAATTTGATCAGTGATTAAGCATCAGTGA
AAATTTAAACCCTTCCCATATTGAACAACCCCACTTAATTTAATGTCATTTTATTTTATGAGATAGTTAATAAACAGGTACTGTATTTGATCTTGTGAGT
GTAGTCCTCTATATTTAGCTTTTTCAGCTTTAATGGAACTATAATTTTAATCATGATTATTACTTTACATTTTAATTATAATTTGGTGTGGCTTAAGTAT
ACATTTCTGAGAGTGATTGTGTAATGAAAACAGGAATTAGCTTTTCATTAACAAAATAATGGGAGAGTTCCTACTGCATTCTAGTCTGTGTTCAAAATCT
ATGGGCTGGCCTAAAAATAGAAAGAGGAGTTTAACATTTTGGTTAAAAACATGCTTCTAAATTGGCTGTGTTCACAACCCAGTCTCTTGCTCCATCTTGC
TTTATCTTCTTCTCTTTCTTTTCAAAAAAATTAATAAACTTTTAAAAGAGACTTTGTGTCTGAGATTTCAAAAGGCTTTTTCAATTGTTTTTATTTTTAT
TTAGATAATTAGCACCATGGAGCCTCAGGTGTCAAATGGTCCGACATCCAATACAAGCAATGGACCCTCCAGCAACAACAGAAACTGTCCTTCTCCCATG
CAAACAGGGGCAACCACAGATGACAGCAAAACCAACCTCATCGTCAACTATTTACCCCAGAATATGACCCAAGAAGAATTCAGGAGTCTCTTCGGGAGCA
TTGGTGAAATAGAATCCTGCAAACTTGTGAGAGACAAAATTACAGGTATGCACAGGATTTGAAGCTATGTTGTTCCATTAGATGTGCAGATCTTAGCAGA
AATGCACATGTGTGATGGTGCACCTGAATGTCTATATCATGTACCCTGCATGCAAGATGGCATGGATACACAGTCATAAACTCACACTACATACACCACA
TAAGACCTTATTGTAGATTGGTACTGCTGGGGAGCAGATGAAGATTTTGGTACATCTTCATCTTCATGTAAAATGATCCTTTGATTTTGTCTCCTTTTAT
TCTTAATCAGCCATTCCTTCCCTTTGTTCTATAGTTTCCAGTCCCACAACTCTGCCCTCCCTATACTATACACTAGTTTTTGCTCATGTATTCTCCTCCT
CTCAATATTTGCTTCATGTGTGCCCAGTGTTCTTCCATGTGCCTGAAACAAGTGTTTTAAAGGGGGCCACTGTGGATGTGTGGACAGTTGACACAACTGC
CCTTGTCCCTGGGGAGAAACAGGCCCTAAGGATAGCAGATTATTCTGGAATACAACTACTCTGCAGTAGGAGGGAAATGCTTAATGAAGATCTGCATTTG
AGGTATTTTGTTTTATTTTATCTGTCTGTTCGTTTTGAAGATACTCTTTGAGATGTGAGGGCATTTTTACTTGAAAGTGAATCAACACCCTATACAACTT
CAATACATGAGATTTTTAGGTTCTGATTTTCTCCTAATTGACAACTGTTCATTGAGAACCAAATGTTTGCCAGACACTGACACTATAATTCTTTGGGGGA
AAGTTTCCCTATAATCTTATTGGCAGTGAGAATATTTTCTTGGAATATATTAGGCTACATAATGATGGCAGTGAAGCTGCTACTCTCTGATACTCCACTC
CTGAAATCATTCATATCCAACTTTGAATACTTGTCAGTTTTGAGTATTGACTTTTGTTTCCCTTTCCCTAGACAGTTTAATTAATCAGCAACTGTCCTAG
AGTTTTTTTTTTTTTAAAAAGGAAGCTGCATCATTAAAATAGGGATATACATCATCTTTATTTTAAATCAGAGAATACATTCTATATGTGTGTGTGTAGA
TATATACATTCTTCTGTTCTCATAATTCACATGTAAATCTGTTCCCCTTATAAATTAAGTAGTTTGCAAAATCATAAAACTTAAATACCACTGCTACTTT
CCAAAATACAAGTCACCTAACACTCCAGACATAATTTTCTTATTTGAAAAACTGGAAGATAATGCTTGTCTCAAAGGGCTTATTGTGAGGATTAAATGAG
AGACTAGATATATTGCATCTAGCACAATGTCTACTGCACAGTGGTCCCTCAGTAAATAAATCTATTATTGTAAGTACAGCTAGTATGCTTCAAGGAAAGT
GGCCAGAACAGAAAAAAAAGTATCTRTCAAATTCTCCAAATAGGGCCAGGCTTTGATTATCTTGTACCAGAGCACTGGAACATCTATCCTTAAACAGAAT
TTCCCATACGTTCAGAAAGCCAATATTTAGATTCCTGAATAATCTTTATATAATAGGATGATAATTCAAACCAAATTAAAACCAGTTAACCATATGATTC
TTCCTCCTACTCCTATATAGAAAATGTATTTTTAGTATAGCCTTACCTTCAAAATACAGACTCTGCCAGCTATATTAGTGAATATTATTAATCACCTTTT
CAGAATTCCTTCAGAACTGTAGCGAGATTTTTGAGAAGTACTGATTCATGGTGTTGTTCCTTGTTTTCTAAAGACACATGTTTAAACAAGCAGATTCCTT
TACTGAAAGAATGCTAATTTGGTAGTTCACCGAGTGGATTTGAATAGGAGTGACAGCTTCGAAGACAGCCTTTAATTTGGTATACAAAACCAAAATTGTC
AACTTTGGTTTGTTTAGCACCCTCTCCAGCACAAGCAGAGACATACAGTAGCATCTGAGCTTAAAGAAGAAGCTTATGGGGTTGAAAGCAGAAATACAAT
TCAGGCATAAATTTATAATTATGCATTCTTCTTAAATTCAGGCCCAAAAAATTTTTATTTGTAGAGAGCTTATGGGAATGAGGCAGGGAAATATAGAGAG
AGACCAGAGATATTTGCCCTCATTTGACAGCAGTGTTTAATAGAAGTAAAACTTGTGGTTGTAAAGAGTGCTTATTAAATTCTTCATTTACACTACCTAA
TTAATTCTAGCATTTTAAATTAACAGTGAAACTAGTCCCTGCTGTACCATTCCATAGATGCAGCATATTTCCTCCATCCACCCGTTGTTCAGGTTTAATT
GGCTATGCTAAAAGTCAGAGAAGGAGGGAGAGATAGGGCTGTGGGGAAATGGGGAAGGAGTGGGAATTGCTCTAGCGGAGGACCTCCCCGAGGCCAACAT
TTGGGGTTAGGTCACAATGCAGGCTGGAAGAGGTGAGGTATATCACACCAGGCAAGTGGAGAGGCTGCAGCTGGTGGTTCAGAAGTCAGGGTAAATGACA
TCATGGGTATTTTTGTTGCCCTGATTTTTAACATCCTAGTCCCCCTTTTTCCTCCAACACCTCCTACAGATCTCAATGCATCTCGATCCTGTGAAGTTTA
CAAGGAGTTCTAAATATCCAGTGGGAGGATTGGGGGGTGGGAGGTGGCAAAGAGATAAGAATTCAAGATTAAGATTTTCCAGCCCCAACCACTCCCTAAG
AGAATGTAATGGATTCCCTTAGAAGGTTCTGGCTTCTGCAATGTTAAAATCTCTTTACAGAGAGAGGAAGTGACTCTGTTGATAGCCTTACCAGCAGGCT
AGATTCATCCCTGGCTGTGAATTGTCAATGAATTCTCCGTTTGAGAACAGAKAGAAGAAATTTGGTCATGGAGTTAAGTGTTATGTGCTGGGGACATAAA
CATCACCATTTATCAAGCACTTCATCTGTGCTGGATACTTGCTAAGCRCTGGACATACCCTATTTCATTTAACACGGAGCCTCCATTTTCTTAGATGAGG
AAACTGAAGCTTGGTGATTTCCCCAGGCAGCATAGTTATTAGCAGGTGGTGGAGCTGGGAGTCACCCCTACTTTCCAAAAGCATGATTTTATTTGGAGGC
ATGTACAGGGTAAAGACCCTGCCTAACCTGCACTTCATAACCCAATGCAACATTGTGTTCTGCTGAGCAGAGGTTGCTGGGCACCCTCTGGAGAGTCTAT
CTAATGTACCATGGCTTTAAACAAGACTCATGTGTATAAAGGGAGCAAAGATAACAATATTTATCATCCTCTGGGGATATAACTCAGCCTTTGTCTTCCT
TCAGAGTAGAACCAAATTTACTGAAAATGCCAGTTTTAAGATACCTTGCTTTTGGACATCTCTGTTACTTATCTTCTCAGAGACATTACATTTTTCTTTT
TCCAATTGGGAAAGGACACTCACCAGAATAATCCAGGTACCAGGGAGAAGAAAGGCATATCCTGAGTTGCTTTTGTGTACAGCCGTGACACATCATGGCA
TTGGAAGCTAAGTCTTTAGCTTTTCTTCTTCATCTACCTGCAGCCTCTGCTGCTGGGGAAAACAAAGGAAGTGTCATGTGACCCACAGAGTTCATGCAAC
CTAGAAACTCAGGCAAAGAACACCAAATACCTGGTAGAAATTATATTATTCCCATGGACTCCAAGGAGTTGATTTAGTTTCTTATTTTTTTGTTTTGTTA
CCATTTTGGTTTTGGTTTTGTTTTGTAAACATTGAGATTGCCTTACTGAATCCAAGTTCCTATGTGATCAGTATTTTAGGGGAGAAAACATGTGGCTTGA
CCAGGGCAAGGTTAGGTGGCTCAGGGTATGTCTTGAAACCAGCAGAGCTGAATTATTATTATTATTTCTTTGCCTTTTTTGCATTTTTATAAGTGTTTAT
CTTGTTACCGCCCCAAAACAAATAAGGAAAGAAAAAAAAAGAAAAATCTCTAGAAAGAAATTAGGCCAGGCGCAGTGACTCACGCTTGGAATCCCAGCAC
TTTGGGTGGCCAAGGCAGATGGGTCACCTGAGGTCAGGAGTTTAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAG
CTAGGCGTGGTGGTGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAATCTGGGAGGCGGAGGTTGCATTGAGCTGAGATT
GCGCTCCAGCCTGGGTAACAAGTACGAAACTCTGTCTCAAAAAAAAAAGAAAAAGAAAAAAGAAATCAGTGTAAGACAACAAACAGTTTTGACCTGCCTA
TTTACATTGTGTGATTATTTGCATCACAGTGATAAAAAAAAGAATTGTATTTTTACTTCATGTCACTCTCTGTGTACCCATGCATTGTCCTTTTTTTTTT
TTTTTTTTTGAGATGAAGTCTCACTCTGTTGCCCAGACTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCT
CCTGCCTCAGCCTCCCGAGTAACTGGGACTACAGGCACCCGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTGGCC
AGGCTGGTCTCAAACTCCTGACCTTGTGATCTGCCTGCCTCGGCCTCCCAACGTGCTGGGATTACAGGCATGAGCCACTGTGCCTAGCCACAGTGTACTT
TGTTTTTGAGGACAGGACAGACCAAACTGAACATTATCAATAACAAAACTGAATCTATTAAGAGACAAGTATATGGAACATGCTATTAATACGTAAGTGC
TATAGGTGGTTGGAAGAGGTGAGGTTGGTGTTAGCTGGAGCTGTTGGGGAAAGTTTAAAAGATAGGGTAAGGATTTAGGTAGAGGAAAGAAAAGCAAAGG
AATAGAGCTAAAATTTTAGTCAAAGAACAAAAGCATTTTTTATTCCTCTGTGCTTTGGACAAAAGAAGTAGCGCTGGAACATGTCTCTTTGGAAGCAGTG
GTCTAATATGAAGCAGCATGGTCAAATGAAGTTAAGCATACCAAAAAATTCAGTCAGTTAGAGTTGTACCCCAATGGACAAAGACAACATTTCCTAAACA
CCACTTCTAATCCGTGTCTTCATTTCTTCCTTTATAATACGTCTCTTTGGTTTAATTAATATCATTTAGTGGAAAAAGAATAAGGCCAAATAAATGACCT
TCACTACTGTGGGCAAGAGGGTGGATATTTTGCTGCTGCCTTTGTATCTGAATTTACAACTCTAATTAAAGGAACCAACTCAGTTTTGATGCAGTAACAC
TGGGTAACTTGTGTTCTTTCTTGAATTTCTGAAAGTGCTAACAATCCTGAGCGTGTCTCTCTCAGTAGGTGAGATGTGGGAAATGGACCACAGCGGTGGC
CACAGTATCTATTAGAGCATCTAGGCTTTGAGTCATGACAGAGTACAGTCTATTGGGTTGAAGAGGAGAGGGGAGTGAGGGTTCTGGATTGTTTTAATGT
ACCTTATATACTTTCATGTACTGGACTTATAGGAACACTATGGGAATTTGGTTGAATTTTACTTCTGAGATAACTATATAAACAATAAAAGGCTCTGAAA
AATCCTAAGATATAAAAATTCCTTGAACTCACTCCCAAAATGTGAATTCAGCCCCAAGGTGAGTTTATTGGCATAATTTCTTACAACACCCAGCAGACAT
ATAAGAATAACTGCAACAGCTTTTATTTTTTGTGTGTGCCTTAATATGTTTACTGGGCACTATAATAATGCTTTAAATATAGTAGCTTATTTAAATAATA
AATCAAGCTATCTTGGAGAATCATAATGGCCAATGCTTTTGAGTACTTACTGTGTGCCAAGCATTGTGCTGAGATCAGTAGACGGAGTCTCACATAATCC
TCATGATGGCCATTTTACAGATGCAGAAACTTGAAATCAGGAGCAGTTGAATTACTGGCCAACGTGACTTAGCTTCCAAGTTAAGGGAGGTGGTACTTGA
ACCCAGCACTGACTAATTGTGAATTGTCAAATTTATACTTTATTTCTGGCAGTTTGCCCCAAAATACTAAACTGACTCCTCCCCTTTACAAACTAACTCA
GCTTGTATACCTAGGGAATGAAATTTTTGAATACCGGGAAAACATAATTAGAGCTCAGAATCTTTTGTTTTGGAAAATAGCACACAGTGCATTAAAAAGA
TAAATTTTTGGTATTAAACAGGTCACTGCTTAGCTAAACAAAGAAGACTAGACTTGGAGTGGTTTTTTCACTTCTGATATTCTCTTTTCGTGAAATACTC
TTCAGTATGTTCACCTTTTCTTTATTGTGCAGGCACTGTATTGAAATGGATGCTGCCTACAATTTAAGCATAATAAAAACCCAGCCTCATTTAGGCATAT
CCAAGAAAATCCCAAGATATTGATTAGCTAAATGAACTTTTCTACATGCACATAAGACGGAAAGTSATTAGTGATGGGAAGAGTACAGCAAATGGTAGCA
TTTATCAGCATATTTTGCTGCTGATTTGGAAAATGTGCTTAGTACAATGTGATGTATCTCCTGATTTCAGAGGAAAATCAGGCAGATTCGCATCTGTCAT
TTTATTTACCACCTCCCTGCAGTCATACATATTCTACAAAGAAGAATAAAAGAGTTTTGATTTGTTGACTCGGGAAGAGGGGGTTGGCTATTGTTGGAGG
TGAGTGGAAAATTTTTAGGTATGGAGAAGATTTGGCAGCCTAATGGGGTTGCAAAACAGGAGAATTGGAGTCTGCCTTATTAAGGGGAACTTGAAGAACG
TCAGAACGTGTAGTGCAAACAGTAAACCATGTAATCATTGTGCTTCTTACACACTCATCAGGGGGAATCAGAGACTTTCCATCCTTTCTAATTAGGGCAG
GTTGGCAGTTGAGTGGAGCTGTGAGGTTTAGGGTTTGTGCAGGTACATTATGCATCTTCTGACACAATTTTTTCCCAGGATGTCTGTAGTCAGGATTACA
GACCAGGTATGGTTTCCTTTTGCCTCCTGGCTGTGTTCCCCTTCATCTTACCTTCCAAATCAGACAGTTCTGCCCTGCTTCCGAACTCAGATAACCGTAG
GAAAGTATTCTCACATCCCAGAAGAGATGTCTCAAAGGATTTTTACCTAGGATGTGAATCAGGCTGGGTATTTTAAGAATTTTCTATTTCTGTACTTTAG
CTGACTGTTTGGTTCGTAAGACCAATTCCCTGTTCACGCAGCCTTCTCTTCTTCCCCCAACACACACACACACACACACCCACACATTCACTCACTCACT
CCTCCCTTCTCTGTAGAATGCCCTGGTTGATTGAGACTAGGAACTAAGGAGGAAGGTAATGTCAAACTGAAATTTCCACACATTATCTAAAAATGTAATT
CATCAGCTTCAGGGTAGGAGGAAAGTGCTTTCTGAAATGTGTTAATGGGAAATTCATTTTCTTCTTGTCTTCTGTGAGGTGTAGTAGTGGTGATTTCTTT
TTCCAATCTGCCCCCTCGCCCCCATTCCACATCTCCCTGACTGCTCTTAACTGATAAACTCTGTATCTGTGTTTATTCCTCGTAAGAACTAAAGATCATT
AAGTTGCTTTTTCGTTTTTTCTACAGTCCCAAAATTGAGCTTTGATAGGAGAAGATATTTCTAGTTTGGAGAGAAGATAAAATTCAGATAGAGATCATAT
ATTTGTATAAGGTTTTTATATTTGTAAAACATTTTCAATCAACCAACAGTATTTATTTAGTGTCTACTCTCTCAGACCAAATAGATATTATTCCCTTTCC
TTCCCTTCTCTGAAATTCTGTATCACAGTCTGTGAGGAGGTCAAAATGGATAAGTCATAGTTTGTGCCCATGTGTTGCTGCAGGACCAACGAGCCAGGGA
AACCAGAACAAATGACAGCCCTTCATGAAAGTCTGGAAGTGACRGGGAGCTGGCTGCTTATTATGCATATTAACTACACATCTACCTTGCTGTTTTGTGG
GCGGGGGCAAGAGGGAAGTGGAGGTTGTTTTGTTTTGTTCTTCACCAAGGCCCAATCTTACTTTTCCTTGGTCCTGGCTATTAATGTCATTGGAAGGATG
GTGAAAAAGGATTCATAATGATACAATGAAGTTGGAGGTTTGATGGAATGCCTACTGCGTGTCAGCTACAGTGCTAGGCATATTATAGATGTTATCTCAT
TGAAGCTTTATATCAGTGTTGCCTGATCAGTGATTTTATTCCCATTTTGCAGATGCAGAACCCAAGACCTAGAATTAGTCAGCTGGTGAGTGGGGTTAGG
GCATCTGACTGCAAAGTCTATGGTCTTTCTGTTACCATACCACTCTGTCTGTGCTGAATGAAGACAACATCAGTTATGGGTGTTCAAAGGAGAAAAAGAT
GACAATAGACTGAGATTCTCAAAGCAAGTGTCAAAGAAAAGCGAGCCTTCAACTTGGCCCTGAATTTGGTAGAGATTAGATTGTAGGAGACCAGTCCATG
CAGAGGAGGCAGCTGAGCGAAGCTYCAGAGACATTGTTATGGAATGAATGTTTATGTCCCCGCAAAATTCTTATGTTGAAGTTCTAACCCCCAATGTAAT
AGTTTTTGGAGATAGGGCCTCTGCAGAAGTAATTAAGGTTAAATGAGGCCATAATGGTAGATCCCTGATCTGATAAGATTAGTGATCTTATAAGAAGAGG
AAGAGAGACTGGAATTTTCTCCATACATATGCAACAAGCAAGAAGGCAGCTATCTGCAAGCCAGARAAAGAGCCTTCACTAGAACCCAACCATGCTAGCA
CCCTGATCTTGGATTTCCAGACTCCAGAACTGTGAGAAAATAAATTTCTGTTGTTTAAGCCACCCAGTCTGTGGTATCTTCTTATAGTAGCCCAAGCTGC
CTAATACAGACATCTTCAAGAGATAATGAATAGAACAGGCAGGACTACTCTGTCGGGTAAATGGGGATACCACCTTTGTGTCAGTGAAATATCTGAAGCT
CAGAGATGTTAAATAATTTATCCAGGGTCACAGTTAATAAGCGGTGGAGCTGATATTTGAACCCAAGTCTGATTCTGAGGTCTGCGTTCCTTCTACTTTG
CTAGTAACTAACTCTACCTAACACAGAAGGAAGTTGACAGCTTTCAGACTTCCCATGGCGTCTGTGATCTGAGAACCATTATTTATCTCTCTAAGGTGAT
GTACCCATTTGCTCAGTGACTTGCTTTCCACCTACTTAGTTCTTGCGGATTTCTAAGTTGAGTTTTCTGCATGTCCCTTATTTTGTAGTTGAATGTCTGG
TGAGATACAAGGCCTCATAAACACAAAGTGGATACAGCTAGCTAGGGTAATAACTCTAATTCCTATGGCCGCTAATGGAATTTCTCATCACAAACTTCTG
GAATCAGATTAAATAATTTTATTGGTGATATAAGCATAAAATATACACTTAGCAATCCCTGATATTTGCCCTTAGTGTTTGTTTTCAGAGGCTTTTATAC
TCAGTACTTCCTTTGACGAGTCAAGAGCACTTGGCTGCTTATTTTTCTTGCTCTTTCTTCCTCTCTTTTCTTTGCCTGGTTTGTTGTTGTTGTTATATTT
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGTCCTGCTTCCTCTTTCTGCCTTCTTGTTTTTTGACATGTCACTTTGATCCAAAAAGGATTTTCA
TTGGCTTATTAGATAGTATGGAAAAAACTAAAATTGAAATAGCCATCAATTTTTTWAAAAAACAGAATAGAAGGAAATGGATATAGAATGGTAAAAGGAG
ACCAGAGGAAATTTAGTAAATTAATTGTGGTTAAATGACTCAAACGGACCACCTAGTTTGAGTTTTCTTTTTTTTTAATTATTATTATACTTTAAGTTTT
AGGGTACATGTGCACAATATGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGTTATATCT
CCTAATGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGTCCCCAGAGTATGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCATC
TAGGAGTTTTCTTTACATCAATGAAAATGAATGGTGACAACTTTGGTTCCTTTCTCAAGTAGTTACCAGAATCCCCACACCCTCTCCCACCACTGGCCCT
GTAGCCCTTTCTCTGGAGACAGGCCTCTGATTGTAGAGACACTTGCCCACTGTAATGCAGGATTGGATAGAAAGCCTGAAATCATATACATGGAATTTTC
CTCATCTTTCTTGCCTGGGTCCATTTTGGATTGATTGACTTGCTTTTTATGGCTAGGGCAGGCAGTAACACAGAGAAGCTGCCTGAGTGGAGTTCTTGTT
TTTATTAATATAAGGTATAAACAATGTGCCCTATGGAGGAGGTGTTCTGAAGCAGGCCTTCCTTGCCTGCTGCCCTGAACTGAGGTATTACTGAAGTATT
ACTGCTTTCTGAGTCACTTCAGTCTTTCCTCTCCCTTCAGACCCCAAGGCTGGACATGCAGGAACTTCAGTTTTCAGCTTCCGTCTTTCTCGTGAGGGTT
TCTGCAGTGAGTTCTGTCTGGTTTCTCATTACCCAGAGCCCTGAGCTGGACAACAAACAGGAAACTCAAATGTCACTCTCATATCCTGGTCCTAACTGTG
GAAACTGGAACTAGTCCTCAACCACCTTTGCTCTTCCCAGTGCCCCTCACCAGTCAATGGACACAGATCACCCTCTAAGTACGAGAGAGAGACAGCACTA
CCCAAGAGCTCCGCACACCCCAGCACACACACACATCCCCCAAACACTTTTCTGGCATGCATGTGCGTGCACAGGCACRCACACACACACACACACACAT
CCCCCAAACACTTTTCTGGCAGGCATGTGCGCACGCAGGCACACACACAAACACATCCCCCAAACACTTTCTGGTCAGAAATACCAAACCCAGTGCATCA
GACTAACCAGAATTGAGACAGACTTCACTGAAAGTCCTGCCTTGCCTTCCCCACCCCATACTTGATAGATGTATTTGAAACCTTATGTAAGTCATGTTAT
CCCTTTGGATCTCCATTTCCTCAATACACAGTAGAGAAGATAAATCTTAACCCTACCTTCTTTGGATGGTACTTGTGAATTCAAACCAGGTGATACATGC
GAAGGCACTTTGTAAATGAAAGCAGTCTATAAATGGGTTGCTCCTATCTCGTAACTCCTAACCACTTCTCATCAAGGGTGTTAGCCCTGGGCCAACAGAT
GGATAAAGGGGGAGGAGAGGGAAGGTGGATGTCTGTTCCTGGTTCAATCCTAGGTTATGTAATTCCAAGTAGGAAGTAGGAGATGGCATCTGAGAAGGCA
GGAGAATAGAATGGAAACTTACGTTTACTAAGCACCTGCTAGATGCCAGATGTTAGATGCCGCCTTATATTTATCTCATTTAATCCTGACCACATCTACA
GTAGGTACACATTAGTGACCCCCTTATTTAGACAAGGAAACCAAGGTTCCTGGAGTTTAATGTGACTAGCCTAAGGTCACACAGCAAGCAAGTGGCCAAG
CCGGCTGCATACCCATGTCTGTCTGCCAGCTGGGACGAGAGACCTTCACAAGAGAGGGTTTCCCACATTCTTGCTGTTTCATCCTGAGTCATGAATGTGG
CTGTACATTGTATTCCAGTAAACCTCAGGAATAGCTGCAGAAATAATGAACACCAATTTCAGTGGTTCTGGAAGATTGTAAATGAAAGCCTTTAGTTCAA
TAAGATGCTCCTCCATTTACAGTGGGATTATATCCTGATACACCGTCATAAATTGAAAATATCATAAGTTGAAAATGCATTTAATACTCTGATAAACCCA
TTGTAAAGTCAAGAAGTCATCATAAATCCAACCATTGTAAGTCGGGGACGGTCTGTAGTTGAATATGTCAGGATAATTTCTGAGATTTTTTTTAAAATTA
GGCCACTTCTATAAGTGGTAACATGATAAAGTGGAAGGATCCACTAAGTTCTTGTTCTCGGGCTAGCTATGGGACTTTTGGTGGATCAAGCCATTCTGTG
CCTCAGGTTGTTGTGCATAAAATGGAGATAATACTGACTTTTCGCACCTTTCTGTGTGTTGTGAGATCAGATGATTTGCTAATGTGCTGGTAAATTCAGG
ATATTACTGTGGTCACCTATAAGATAGGACATTGTAAGCAGGGGATTTATGAGGGTAAAACAAACCCTTAAACCCCCTGTGATAAGCTATCTTTCCTTCC
TAGTCTGCCTTCCAGAAGTTTTGCTCAGTTATCTGCGTACATCTCAACAAAAGCTGATTAACTCTCTCAGACATCAGTGTCTAACTGTTATTAATGCTCA
AGCTGATCAAATTACAATGCCACAGATCCTACTTGTGCTGTTAATATTAGATTTTGGATTCCGGTCTATAATGAATGATTTTTCCTCCATGCATTGGGAA
AATTGGTTAGCAGAGTTCATAAGAAAGTTTAATTAGCAGGCTGTTTGTGAAAATAGCGGCTGTGAGTCATCATTCAGAATGAACTAACATTTCTCAGGCT
TGAATTTGTTCTTTTGTTCCTTGAGCAGCCACATAGGATCCTTGTGTTTGGGAAGCTGGTGTCCACATGTTGCCCATTTGAATGGCACCATGTAATAAAC
TAATAACCAAAACATCAGATTTAAAAAACCAGAGAGGAAGAGGAGGTATAGGGTGTTTGTATATATAGATATGTGTATCTGTGTCTGCTAAGGGAATATT
TTAGGCCTAAGCTAATCCAGCACGGTGCTAGACAGGATAGTCTAGTGATTAAGAGCTAGACTACCTATATCTACGTCTCTGCCTTATCATTTACTAGCTG
TGTAACAGGCAAATTYTTAACTTCTCTGGGCCTCAGGTTTATCATTTATAAAATAGTGATACTGATAGGATTATTGTGAACATTAATTTATGTAAACTAC
CCAGAACAACACCTGGCATATAGTAATATAATTCTTACAGGAGTTCTGTGAGATGTAGGTATTATTAGCTCCATTTTATAGATGAGGAAACAGCTGTGTG
ATCTTGGATAAGAAAGTAACTTATCTAAGATCACACAGCTTCTAAGTGGCAAAGTCGAACCAATGTTTATTTGACTCCAAAGCCTCTGTTTGTATTTACT
ATACTGTACTAGCTTCCAGGGTCGTATGCCTAGTTCATTAAGTGTAGATACTCTGTTTGTGTGTGTGTGTGTCTGCATGTGTGTATGTGTGTACCTATGA
GAGTTTGCTCCTGCTTGACTATCCATACAGCCACACACAATTGTTTTGCATTTTTTTCCTTGGGTCTTTGGTTCTCCTAGTGAAACTTCAGGAGCTCACT
GCTGACTACTCACACAGTGAGCTAGAACCAGACTTGTACAACTTGTACCAACATGAAAATGTGTCTTCAGATGTCTGACTCCCCTCCCCACTATGCAATT
CTGTCCTGTGTCTAGATTATCCCAGAAGCAAGACTCTGTGATGTCATCTGAGAAGCCAAATCATAGACTGTCACAGTGAAAAGAGACCTTAAAAGTACTC
CATGGCAGCCAGGCCTGGTGGCTCACCCCTGTAATCCCAGCACTTTGGGAGTCCAAGGCGGGTGGATCACGAGGTCAGGAGTTTAAGACCAGCCTGGCCA
AAATGGTGAAACTCCATCTCTACTAAAAATACAAAACAAGCTGTGCATGGTGGCAGGCGCCTGTAATCCCAGCTATTCGGGAGGCTGAGGCAGAGAATTG
CTTGAACCCAGGAGGCAGAGGTTGCAGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGACGACAGAGCAAGACTCCTTCTCAAAAAAAAAAAAA
AAAAAGAAAGAAATACTCTGTGGCTTGGTCTTATTTTCAACTGGCAGGATTGTTATTTCAGGAACTATAGTTCAGGTTTGGGGACCAGATCCCCCACCTT
AAGTAAAAATCTTGAGACAGTATTCAGTCCTGTTTCAAAGGGTAATATTCATTTGAGAATTCCATCTAAAAATCTTTTCCAAAGGCGCTTAATTGATAAT
GTTTTTTAAAAGGGGTTCTGTGACCAAATGAGTTTGAAAAACTGAAGTGAACCAAGTTTAAAAGTGATTTATTGGTGGGGCATGGTGCCTCATGCCTATA
ATCCTGGCACTGTGGGAGRCCGAGGCAGGCGGATCACTTGAGGTCAAGAGTTCGAGGCCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATA
CAAAAAATTAGCTGGGCTTTGTGGTGGGTGCCTGTAATACCAGCTACTTGGGGGACTGAGGCACGAGAATCACTTGAACCTGAGAGGCGGAGGTTGCAGT
GAGCTGAGATCACACCACTGCACTCCAGCCTGGGTGATGGAGCGAGATTCCATCTCAAAATAAAAAAAAAAAATGGGGGGCTCTTTTTATCAGTACTTCT
CTGAACCTGTGCTAACACGACGTGAAAAGGAATGGYATAATATGGAGCATTACCCAAGGAACCCTTTTCCCTCCAGCATTTTGTATACTCTCCTTTCTAA
GCCAGTAGAGAAGAATGGAGTCCTTGGAGGATAAATTTGAGGGTGGGAGACAAGGAGGCAGTTTGCAACAGTTCCTACATGAAGACCTCATTTATTTCAT
TAAGAAAGAGGGGAGATCTTCTGCTGCCCCGGGGTGGGCAAGTAAAAGCGTTGGTGTCCTGGGAAAGTCTCACCTACTCCCAGGAGGAACAGAAAATGAT
GCCATATGGATCCAAACTCTAGCATCAGCACAGTCCCATCTCACACTAGGCATTTTTTTGAAAATTATTGAGTACTGAGCACGTTCTGGGTATGATTCAA
ACCGTGGGTTCATTTGGTGTCCTGACTGTCAGGGTGACATTCCATTTTCCATTGCCTGGAAGAGCTGAGCCATTAGAAGGTCTTCGTATTTTGCAATCTC
ACTCGTATTCCTGGGCACTCCTTCATTTTCACATCTGCCACGTACTTGACTCCATGTAATGAAGCTGGTCATTCTTGCTTTGTGTAGCCATTCCCCAAGA
ATCCCGAGCTTTTTAGAAAATCAAAGAAGATGACGTTCCCCCGCAATTTCTACCYTAAAGACCTATTTCTGCATGAGTTGTTCTTGGGTTTTTATGTCTT
TATTTTGCCTTATTTCCTACCTGCAAGTTAAATAGCAATGAAAAGGGAAAACATACTTTTGTTTCTTGTTTTTTTTCTTCTTCATGGATCTGGGAATTTC
TTTCTTTTTAAACATTTGTTGAAATCAAACTAAGATGTTAGAACATGGTGGTGAGCTTCATGCCTGGCACTTTACTATCAGCGAACTCCTCGATGATAAG
GACAGAGGTGTCCATTTCTGCATTTCACACAGATATTAGTGGTAGATCCAAGGCCAGAGAGCACCTTAGTGTTATTTCAGAAAGGACACGCTGACAGAGG
TTTTCAAAGTCCTTCAGCTAACATTTGGCATCCTGACTTATCTCTGTATGGACAAGTTATTTATCTCATCTCCTTGAGTGAGAGCCATAAATGTCTTTCA
CTTTGAATAAGGCAGTTTTAATGGATTTATATTCTGTTAATGTTTATGAAGTATTACTCTGTGCCAAGCCCTCTCACATAACTTATCCCTTTTGATCTAA
ATCCCAACATGATATCAGGAGCTTCTACATGCGCTTTGTAAGAATGGTGTCTGGTGGGAGTTTTAGAAGCCATTGTCTTAGTGTTAAATATAGCAGTTCC
TTTCATGCACAGACATTTCACCCACAGAAAGTCTCATTTTGCCCAAAGGCTAATTACAGTGTATGTAATTAGTATTAACCTGATAATTTTTTCTATCTCT
TCCTCTTTTGTTGCTAAACCCTCGTGGTTAACATCAGCTGCATTGCTGGAATCACCTGTTGGTTTGCATCCACTCTGGGTGGAATGTCTTGTCTATCTGA
CACCCAGACCTTTGTTTCATGTGAGAGTAAGCCAACCAAGAATTAGGAATTCTGGTTCATTTTTCTGGCTAGCTGGGAGTTTGCCAAAATCATCCTCTTT
TTTTTTCAACCCTTGTTAAAAACATTTTTAAACGTGTGACTATTCTTTCCTGTCTTGTAAGAATATTCTGAACATAATTTAATTTAATGTTGCTTCGATT
AAGAATCTTTCATTGCCCCAGGGTCATCAGTCTGAATACTCCTTCTTTTTGTATGATAAATGCTGAAGGTGAGATAGTTGTCACTGAGGCTTCTATTGTC
CTAGTGCACTACTTAGAATATCTTTTCCTTTTCAGTTTTTTTTTAACTAAGTACTTGATACCAGCTTTTATCTTACAAATTTCCTTTCTTTTCTGAACAA
ACAGAAGAAAAATCAAGTTCAGATTAGTTCAGTTTTTCGTTTATTGAGGTGTATTTTTGAAATGTGTATTTAAAGATCTGTCATTTGGAGCAATTTATTT
TATATAACAAACCAAAAGGGTGGGGGAGTGGAAGACAAGAAAATACCTCCTTTGAGAAATAGTTGGTTGGCCTTTCTTTTGTTTGTTTTTTGAGACAGGG
TCTCCCTCTGCCATGCAGCCTGGAGTGCAAGGGCAGGATCGTGGCTCCCTGCACCTCCTCCTCCCAGGCCCAAGCAGTCCTCCTGCCTCAGCCTCCCAAA
GTGCTGGGATTATACATGTGAGCCACTGCACGCAGCAGTTGGCCTTTCTTAATGAATAGTGTAGCTTTGTAATTGGTCTTTCTGCTTTTGGGACTGCTAG
AAATGAATGTATATAGTCTGTGCATTTTCATGTTCAGAGACATCATTTTACATCTGTGTGAACAATTTGGCTATCTTCTCTGAAATCAGAAACTCTATTA
AAGGCCTGTATGGGCTTTGGAGCTGGATGGATGTTCAGATCTTGGAATCTGAGGCCTCCTTGATTATAAATTGCAATGATAATGCTTACCTTGTTGGATT
GCTTTAGACAATAGATGAAATGATAGAAATAAAATGTTTAGTATACTGACTGGCACTCACAAAATGATAACTGTTTTTGTTACTATTCATTCACTTATTG
AATTCATTCATTCATCCATCCATTCAACATAGATTTCTTGAAAATCTACTATGTACCAGACATTGGTCATAACAAGATCCATGTGGGTCATAATAAGACT
CACGCGCCCGCCCTTAAGGAACTTAGGGTCTATTGAGAAATACATTCAGTTCAACAAGCTTATATTAAATACCTACTGTAGGCCAGGCACTTTGCTTGTT
GCCATCTTTATGCCACATGATGAGTACAAACATCTACTTAGGAAGCCAGAATATACCCTCTGGAAATAACCAAGGACTGGCCCAAGGTAATTTTAAATAC
TTTGGGAATTCGGGTCCTGGGTTTGTTGTTGTTGCGTTGATGTTATTTTGAGAGAGAGTCTTGCTGTGATGCCCAGGCTGGAGTGCAGTGGTGTGATCTC
GGCTCACTGCAACCTCTGCCTCTTGGGTTCAAGTGAATCTCCTGCCTCAGCCACCCAAGTAGCTGGGACCACAGGCACATGCCACCACACCCAGCTAATT
TTTGTACTTTTTGTAGAGACAGGGTTTTGCTATGTTGGTCAGGCTGGTCTCAAACCCTTGACCTCAAGTGATCCACCTGCCTTGGCCTCCCAAAGTGCCA
GGATTACTGGCGTGAGCCACTGCACCCAGCCAGTCCTGTTTTTTTAAACAATATTGTTGGCAGAGAGCAGACACACTCAAAATTACAGATGCTTAAATGC
TTCCTGAATCTCTGCCAGAGATATAAGGAGATCTCATATACACATCTGAGAATGGATTCAACTTAGAAATGGTATTGACAGTACAGGTTGACATCAACAA
CAAGTGGAAGTGATGACTATAAATTTCGTGACAGTTCTTTCTTCTCGAGGAATGGGTGCTYATTGTGTCCTCTCCTTCTGGAATGCTCTACTATACCTGT
TGCCCTTGACTGCCTATTGCCTGGCTGTCTCCTGTCAATTTTTTCAAATTAGTCTCAATTCAGATATCACATCCTCCAGAAAGCCCTCTCTCATCTCACT
ATTGTAACACTTAACTATACTCTACTATCACTGATAATTCATGAGTCTGACTTTTCTACTAGATCATGAGCTCCTTGCTTCTTTCTTTGTCCTCAGTTTC
CACATCTGTAGAAGGGATTTGAAGATGGCTGATACTAAAGTCTTTTCCAAGATTGTCATTCTATGATGTACCAGATCCAGTTTGAAAGGCACAGCCAAGT
TGGGAGATGGGAATGGGATACTTTGGGATATATATTGGAATTAAATGGGAGAACAAAGACTTGGAGTTGGTACTAGAAAACCCATGCTCTCTCGCCGGGT
GCAGTGGCTCACGCCTGTAATACCAGCACTTTGGGAGGTCGAGGCGGCAGATCACTTGAGGCCAGAAGTTCGAGACCAGCCTGGCCAACATTGCAAAATC
TCGTCTCTACTAAAAATACAAAAATTAGGCGGGAGTGGTGGTTCATGCCTGTAACCCCAGCTACTCGGGAGGCTAAGGCATGAGAATTGCTTGAATACAG
GAAGCAGAGGTTGCAGTGAGCCCATATCATGCCACTGCTCCCCAGCCTAGGTGACAGAGTGAGATTCAGTCTCAAAAGAAACAACCCAAACAAACAACCG
CATGCTCTCTCAAAGTCTCAGGCATACTATGCTAATGTCAGGTATTTAGCATACAAATGAGCACATATTCAAGAAACCAGGGCACAGCAGAAAGTACACT
GGCTCTAGAGTCAGATGGGCCTAGCCACTATTTTCTAGACAAGAAAGCTACTTCTCCCTCTGGGCCGTAATGGGCCTTAATTTCCCCTTTAGTAAAACAG
ATATCAAAATACCTGCTTCAGAGGGTTGTAAAGATTATGTAAGTAATGATATAAGTGAAGTGCTTGGCCCATAATGCGTGCTCAAAAAATATTTGCTATT
ATTTTTATTTTCTCAGTTAGAAATAAGTATAAACTGAAACCCACTATGAGCATTGAGTCTAAAATAAATATAATTTAGAACCTTTAAAGGGATCTTATGG
GTCAGTCTTACCTACTGCTCTAGCATCCTCAGACAAATAGTAGGTCTGGCTTCTGTTTGCACATGTCTAGGCATGGGGCTCTCGCTACCTCACAAGGCAG
CCCACCCCTTAAAAAAGCATTATTAGAAAGTTATCCTTTTATAAAGGCAAAAATCTGTTCCCTAATTTTCTTCCACTGCCTGACTCTCATTCTCTCCTTC
AGGGCCCCACATAGCAAGTCTACCCTTATTTTCCCATCATGACCTTTGAAAATATTAGAAGGGACTTTGAGGTCAGGCACAGTGGCACATGCCAGTGCTT
TGGGAAGCCTAGGTGGAAGGATTGCTTGAGGCCAGGAGTTCAAGACCAGTCTGGGCAACACAGCAATACAATATAAAAAATAAAAGAAAGGGCTTTGGAT
ACCTCTAGAGTCTTCTCTCCTTCAAACTAAATGCCCACAGGTCTTTCACATGTGTCTTATGGGATCGGGTTCCGCTTACCAACTTCCTATGGACATGGGT
AAGGCTCTGGTAAAAAAAAGATTTTGCTGCTTTTCCCGGTCCTTTTATGTTTGGTATTTGGGAGACTGAAGGTAGTTAAGAGAATGTAAATATCCATGTG
AATAGATAATATTCATTAGTTTACCCAACAAACATTTACTGGATATCCAATAATGTCATGGGCCCTTTGTTAGTTCCTGGGGAAAGAGAAATGAATAAAG
CAGCATCTTGTTCCCATGTTGCTCCCAGTCTAGCGGGGAACAGAGACACATTACCAGACAGTTTTCAAAGGATGTGTCAGTGAGAATGTTCGCCTGATCT
GCAAGACTGAGGGGAGGGGGCCACTGTAGTTTTTTCATACATGTCTTATTCAGCAGCATGGTAATTCAGATTGAAGAAACTAAGGGTGCCCCTTTCCTCT
TTTCAGTCATTTGACAAGCGTGATGATGGATTGCCCTCACATTCACTTGTGCCACTGCTCCAACATGCCAAGCACGTTCCTGCTTCAGGGCCTTTGCACA
TGAGATTCCTTCTCCCTGGAATGCCCTTTTCTCTAACAGAAGTGACTGGCTACCACCCTTCAATCACCCCAGCCCTTTCCCTCAGATCTCTGCTCTAACA
TCATGTTAGCAGTGAGGCCTTACCTGACCATCTGTATTAGTGAGGGTTCTCTAGAAGGACAAGAACTAACAGGAGATATATATATATATAGATATAGATA
TAGATACACACACACACACACTCACATATATATGTGTGTGTATACATGTATATACTATGCATATATACGTATATACATATACCTATATGTATATATAGTA
TATATGCATATACACACATACACGTATATATGTATACATATATACGTGTATGTATACGTATACATATATATGCATAAATATATGTATATAGGTATATATA
TGTGTGTATATATGTATATGTGTGCATATACATATATACACACATATACATATATACTTATATATGTATATACATGTATATGTGTGTATATATACATATA
TGTGTATATGTGTGTATATGTGTGTATATATGTGTATATATATGTGTATATGTGTGTGTGTATATATATATGTGTGTGTGTATATATATATAAAGGGGAG
TTTATTAAGTATTAACATACACAATCACAAGGTCCCGCAATCGGTTGTCTGCAAGCTGAGGAGCAAGGAGAGCCAGTTCGAGTTCCCAAACAGAAGAACT
TGGAGTCCGATGTTCAAGGGCAGGAAGCATCCAGCACAGGAGAAAGATGTAGGCTGGGAGGCTAGGCCAGTCTCTCCTTTTCACGTTTTTCTGCCTGCTT
TATATTCTAAGGCAGCTGATTAGATCGTGCCCACTAGATTAAGGGTGGATCTGCCTTTGTTAATCTCTTTTGGCAACACCCTCACAGACACGCCCAGGAT
CAATACTTTGTAGCCTTCAATCCAATCAAGTTGACACTCAGTATTAACCATCACAGGTCCACCCCTTGTCAGCTTGAACCCATACACATCTCTTGAGGTT
ATAAATAATCTTCAAATAAAGGTAGTAATAAGCTCATGATTACACCTAACATAATACAACTATCCTTCAAACAACCAGAAACGCACCCATCCCCAACCCA
AATACCATTATACTGAGTTAACAATACTTAAATGCTGATATGAAGTCAATAAATCTTATGTCACATGATAAAGGAAAAGGAAATAAAATAAAGACATTTT
CTTAGTACAAGTGTATACATGCACAAACATGTCTTTAGCAAAAGAAGGAGGAAATACCCATGACAATTACAGTCCCTGTTTCTGTACCCATTTGTATTCC
CTTTGCCTTCAGCAAGCACCTCAGCAGGTCATGGTTTTTTTCCTGGTGGAATGACCCAAACCTTCATTCCTGAGGTGTCTGGGCCATTTGCAGTCCTGCC
TGGATTGGACTGTTGTAGCTTCCCATTGACCTTAATCACAGGGCGTGGTAATACTAAGAGACACCCTAATGAATCTCCTGTATTCCATGTATATTCTTCC
TTACCTCCATTGTGGAGTAGTAGACTAATTTCATCTTGATAGTCTGGGTCAATCACCCCAGCCAACACTGCAACTCCCTTCTTAGCCTGTTGACTTAAAG
GTAGGAGGAGCCCAAAGTGTCCAGGCAGCAATCTTAACTTCTAGTTTAATGGAATTGTTATTGTGTCTCCTGTTGGCAGCGTTCCTCCCTCTGGAACTAA
GACCTCTAGGCCAGCAGAACGTGGTGTTGCAGGAACAGGAACAAAAATTTTGCTAGTGGATCACTAGAGGTGATGGTGAGTGGTGCCACTTCCACTTCCA
CCCCTTGATTCCTGGACCCATGAATCCTGGCTATGGGAGAAACAGTACCATATATTGGACACTGATTCAGAGCATACACAGCCTTCTGGAGAACTTTGCC
CCAGCCCTGCAAAATATTGTCACCTAGTTGGTTTTGTAATTGTGACTTCAAAGGCCATTCCATCATTCTATCAATCCAGCTGCTTCAGGATGATGGGGAA
CATGGTAATATCAGTGGAATTCCATGAGCAAGAGCCCACTGCTGCACTTCTTTAGCAATAAAATGAGTGCTTTGGTCAGAGGCAATGTTGTGTGGAATAC
CATGATGGTGGATAAGGCATTCCGTGAATCCATGGATGGTAGTCTCGGCAGAAKCATTGTGTGCAGGATAGGCAAACCCATTTCTGGAGTAAGTGTCTAT
TCCAGTGAGGACAAACCTCTGCCCTTTCCGTGATGGAAGAGGTCTAATATAATCAACCTGCCACCAGGTAGCCGGCTAATCACCCCGAGGAATGGTGTCA
TATCAAGGGCTCGATAGTGGTCTCTGCTGCTGGCCAATTAGGCACTCAGCAGTGGCTGTAGCCAGGTCACCCTTGGTGAGTGGAAGTCCATGTTGCTGAG
CCTATGCATAACCTCCATCCCTGCCACCGTGGCCACTTTGTTCATGACAGGKGTGGCTGGGGAAAGAGGCTGAGTGGTGTCCACATAATGGGCCATTCTA
TCCACTTAATTATTAAAATCCTCCTCTGCTGAAGTTACCCATTGGTGAGCACTCACATGGGATACAAGTATCTTCACAGTTTTTGACCACTCAGAGAGGT
CCATCCACATACCTCTCCCCAAATTTCTTTGTCACCAATTTTGCAATCATGCTTCTTCCAAGTCCCTGACCATCCAGCCAAACCATTGGCTACAGCCCAT
GAATCACTATATAATTGAACATGTGGCCATTTCTCCTTCTATGCAAAGTGCACACCCAGGTGCACTGCTCAAAGTTCTGCCTACTGGGAAGATTACCCTT
CACCGCTGTCCTTCAGGGATGTCCTAGAAAGGGGCTGTAGTGCAACAGCTCTCCACTTTCGGGTGGTGCCTGCATAGTGTGCAGAACCATCTTTAAACCA
GGCCCTAGTTTTCTCTTCCTCTGTCAACTGATCATAGGGAACTCCCCATGAGGCCATTGGCGCAAACTGGGGAAGAGAAGGCAGGGTGGCAGGAGTGTCC
CCAGCTTCATCAGGGTGGCAGGAGTGTCCCCAGCTTCATTAGGATCCTCCCACACATCCCCATTCCAAGTTTCAGGGTCCCATTTTTTCCAATCAATGCC
CTCACTTTAACAGTAGACACCTGGCGAGGCTGTGCATGCATCTTTAGTTGCGGGTCAGCCACTCACATGATAAGAGCTCATGTCTGTTTTTCCGTAATTT
CAGCTCTTTCTCTACAAGAGATAAGACTCTCACTCAAGGCAATCTCAGTAGATTTGAAGCTCAGTATCTGCTTCTGAAGCTGGGAGACAGAATCCCTGAG
TTCATCATTTTCTTTCATCACTTTGTCCACTGAACTTAGGAGCAACCAACCAGCTTCATTATGTTCCTTGGTTCTCCACATACAGTCAAAGGTATCATGT
ATAGAGTCACTAAACTCCTTGCCACTCACGAGCGGTGAATCAGGAGTATCAAATTCATTTATTTTGCATAACGCTCTAAACAGGTCATGCCAAAGACTGT
CAATGTTCTCTGTGCTATTAGAAGTAGAGTTCTTAGCATTTTGGGGTCTAATCATATTAAGCAGCCAACTCCAAAAATCCCAAAACTAATTAAAGAACTC
CATCCTTAATATTCTGTTCCTCTAGAACCACTCCTGGTACCAAAATCTGTATTAGTCAGGGTTCTTTAGAGGGATAGAACTGATAGGAGATATGTATATA
TATATATATATWCACACACACATATATATATGTATATATATATATATAAAGAGGAGTTTATTAAGTGTTAACTTACATGATCACAGGGTCCCACAACAGG
TTGTCTGAAAGCTGAGGAGCAAGGAGAGCCAGTCTGAGTCAAAGAACTGAAGAACTTGGAGTCCGATGTTCAAGGGCAGGAAGCATCCAGCATGGGAAAA
AGATGCTGGATCTCTGGGAGGCTAGGCCTGTCTTTCCTTTTCACATTTTTCTGCCTGCTTTATATTCACTGGCAGCTGTTTAGATGGTGCCCACCAGATT
AAGGGTGGATCTGCCTTCCCCAGCCCACTGACTCAAATGTTAATCTCTTTTGGCAGCACCTTCCCAGACACACCCAGGAGCAATACTTTGTATCCTTCAG
TCTAATCAAGTTGACGCTCAGTATTAACTATCATACCTATTTAAAAACCATCATACCTTTTAAAAATCGCAACTCCACCCCCTACACTGCCTTTCCTTCT
TCTCTGCTTTATTTTCTCCCTACAACTCACTATCATCTGAAAAACGTTATATTTTATTTATGTATTTCTTGTCCATTTCCCTCAACCCCAATCAGAATGT
AAATTCAGTGATGGCAGAAAACAAGTAGGTTTTGTTCTCTTTTATATTCCTAGTGAATGGAATATGCCTGGTACATAACACATGCTCACTAAATATCTGT
GGGATAAATGTAGTACTTAGATTCAGCCCTCAAGTTCGAATGTCATCATTGTGATAGGGAAACTCTATCAAAACTCTGCTTTATCTTCAAAGCCCAGCTC
AAATGTCTCCACCTCCATGAAGCCTTCCCTACTCTACTCAGTCAGAATCAATTTCAACTTCCTCTCTGTTCTTATATATAGCTTTAAAAGAAAAATACCT
GTTATATGTATTATTTTTGCTGGGCTATATGTATTATTTTTTCTGGGCTATAATTAGTTTTTATACCTGTGTTTTCCTTCTACATTATAAGCTCCCTGAA
TGCGGGGACAATTTTTTGGTCATTTTGGGGTCTACCCATAGTGTCTAGCATGTGGTAGGTGCTAGTTATATGTGGGATTTGTGTGCATGTTAAATATTAT
ATGCTCCAATGTAAAAGAAAGGCATCAGAAGCAGCCTCTACCTTCAAGAAGGTTGCGGTTTCATTGAGGAATAACATTCACATAGACCACAGTGTCAGAC
AGTATCTTGTGGGGCATGAGAGAAGAAGGAAAAGGAACCAACATCTATTGAGCATCTGTTTTATGGCAGCGACTTTACATGCATTATCACTTTTAATCCT
CCTATTAACCCCTTGAAAAAAGTAATATTAGCCCCATCTTATAAATGAGTTTATTGGAGCAGAAAGACGCAAAGTAAGAATGTAAATTCTGGGGACAAAA
AGAAATAGCATATACCAAGAAATTCTGAGAGCTTTCCCATCAGAGCTTCCCTTCTCTGTTACCATGAGTTGGGTGTGTAGTATCCCCAGAAACCAAGGCA
CAGGGAGGTTAATTTAACTTAGCCAGAGTCACACAGCAGTAAATTGAAGAACTGGGATTCAGACACACGTCTGACCAACTCCAATTCCCTTTCTTTCCAG
TGTTTCTCATCATACTTTAAACCAATGCTTCTTAATCCTTCATGTGCATTTGACTTACCTGAGGATTTTGTGGAAGTACAGATTTTGATTCAGTAGGTCT
GGGATGGGACCTGAAGATCTGCATTTCTCACAAGTCCCTGGGTGATGCCAGTGATGCTGATACAGGAACCACACCTTGAGTAGCAAGGTTTTAAACCATT
CTTAAGCTGGGCATGGTGGCCTGTAATCCCAACACTTTGAGAGGCCAAGGCAGGAGGAATGCTTGAGCCCAAAAGTTGGAGACCARGCTGAGCAACAAAA
CAAGACCTGATTTCTTAATAAACAAATAAATTTAGCCAGGTGTGGTGGCATGCACCTGTAATCTCAGCTACCCTGGTTGCTGAGGTGGGAGGATCGCTTG
AGCCCAGGAGTTTGAGGCTGCAGCAAGCTGTGATCATGCCACCATACTCCAGCTTGCGCAAAAGAATGAGACAAAACAAGCAAACAAACAAAAAAACCCC
ACATACTTAGTTTGAGGAAATTGTGTGAATGACCAAAAGAAAATAAATCCTCTGACTAGTTGGCTGTAGTAACACTGGGCTTGCAGGAAATAAGCCAAGA
CTCATTGTAAGCCTCTCAGAGGTGGGATGGGAGGGAACAATCATAGGTGCTCCAGAACCCCAAGGGATCCCCAGTCAGTGTGTTAAGAAGGAGAAGAGAC
CCCCAGTGCAAGTGAATGTATCCCCTTGAGTAACTGCCTGATGCCAGACACTCTGCTGGACACTTAAACTTGGGCCAGTCCCTGTAGAGAGAAAGTGTGA
ACTGAGATATCCAACAGACTGGAGTTCATTCAAATCCTAGCCTCAGAGCCTACTTGCTGGTTGACTTCAGACAGATTATTTAACATTTCTCAAGCCTCAC
TTTCCTTATCTGCACAGTAGGCCTGATGATACCCATTTCACACAGAATTAAATGAGGTAACATTAATAAGCCACTTAGCRCAGTGCCTGGCACAAAGTAG
GCACTGAATAAATTGTAGCTGCTATTAGTCCCCATGTTAATATAATCTTCACAGTGATACTTTGATTGTGAGAATTAAGGGATTATCTCTGTTTTTTCCA
GATAAGAGAGCATACTGATAAAGCTTAAATGACTTAACCAAGGTTATACAGCAAGTAGTTTTGAACCACACACACATTGATACATGCAGTAACAACCATT
CATCTGACCCTTTCTTGGGTGTGTTTGGGTAGATTTAAGCCTGCTGAAAGCAAGAAAGACCTCTCAGAATGGGCAGTGAAGGAGTCCCAGGATATGGAGT
TGGCTGCAATTAACCTAGTATGTGGATTAYTGCCATGCAGGTAATTTTGAGGTGACTGGGGATTTTATCATGCACTTTCAGAACAGGATTTCAGCCTGAA
CTAGGGGTTCTAACTTCCATAAAAATTCCTTACTCAACTCAGAAGTTTTCAACAGCAGCTACCCATCTGGCTGCCTCCTCAGGGGCTTTGTAGATGAGGG
GAGTAACTGTTCGGTTTCTGGAGAATGATGGTTTTTAAAAAGCGAAAGAGCAAGGTGTGCAGATTGGCAGTGCAGAAATGCTGAGGTTCTTTCTGGCCAG
CTTCTCTACTGCAGCCATCAACCATAAGGATGTCAGGATCAGAATAATCTCCAGGATCCTAAAGGCAAGGAAAAGCTACGTCTATCCAGAATGGCTGGGA
AAATAAGGGGTTATAACCAGCTATGCTCTCAACACTTTCTAGAGATTAAATATAACAAAAATGCTTAACACAAACTACTGGAGATAATTTACTCTTTYAC
AGCAGATTCMAAAAGCCTCTGATACATTTCAGGGTCTCAGAATCATTGTTATTATAATAACATTTTAGTTCAAATGGAGTAACTAGTTGTGGCAGAGAGT
ACAGGATTTGAAGTCAAATGATCTAGATCGGAAGATAACAATCTACAGCTCATGGGCCAAATTGGGCCACTACTGCCTGTTTTTCTAGAAAAAGTTCTAT
TGGAACACAGCTACACTCATTTGTTTACATACTGTCTATGGCTGCTACACAATGGCAGAGTTGTCAGGGACCCTAAGACCTACCAAGCCTAAACTACTTA
CTGTCTTGCCCTATACATAAAAAAGTTTTCTAACCCCTGATCCAGACTATGATCTAGCTCTGTGATCTTAGGCAAATCACCATTTTCTCTGAACTTCAAT
ATCCACATCTATAAAATGATAATTATCTCTCAAACAGGGTTGTTGAGAGAATCAAATGCATAGAAGGATGGGAAAGCATTTTGTAAACTCAGAATCTCTG
TGGAAAGGTGGATAAGGGTGATTTTTGTTGTTCATCTGATCTGTGCCAGAGGAGAACCTACCCAGGACATTTCTTGTTTGTGTTTTGTTTTCCAGCCCCC
GGAGTCAGTTTATTGTTGTGTCCTCTCTTTCTCACAAATGCAAAATTAATTCCCTGGGTACCCCCTCTTTTCCCCCTCTTCCCCCAAACTTACCAAACAT
TCTGGTTATATGCTTTCAGTAATGGAGGACTGGTACAAATGCATACATCCATTCTTTCATTTATCAAGCATTTGTTGATGACTTACTATGTGCAAGGATA
GAAACTTTTATGAGCTAGTTATTATGGGAAGATGTGTTTTGTTTCTAAGGGGAAAAGTTGGATATACAAATTATTATAACAGAATAAAGATGTTGCCATG
TCATAGTAGGAGGAGACATTGTGTATTTGTGTGTGTGCCTATGTGCCTATGCTTTATAAAAACAGAAATATTGAAGTTCAGATTTAAGAGCAGCTTGTTA
AAAACAAAAACCTGTTTAATTCAAAATACTCTGAAGTGCTTTAAAGTGTAGCCATTATGTATAGCAGTTTTCTCTTGGAAAGTACATTCTGAATTATAAG
TTTCCATCTCAAACTGCCAAGAATGCATTTCCTGCCCATGCATGATAACTGGTGACCATTCACACATGCCTGCTGGACAGGATTATTAGGGACTGGTCAC
AGTAAGGGTTGTAGGTCACCTGGGCACCAAGGGGCCAAATGCTCACTATAGTTTCTAAATTTTGGAGGCAGTCTTAATTTCATATCTCATTTTTTAATAA
AGAGGATTCAATAAAYGTAACTTTGATGATTTCCTTTTTATTTGTTCAACTTCCCATCAAAATAGACTCATAAATTGGGAACAAAAATACAGCTTGTTTT
AATTTTCTGTTCTGAAAATACTGTTGCCATCCCTATGTTCTCAAATCTTGCTACTGCTGATAAAGGGAGAAGATGTAGCCATTTGGAAAAAAAAAGAAAG
AGTAATAAAAAGATATTATTTCTGGAATACAGATACAGATACACTAGCTCTGGGCTCCAGACTGGATCCCTCAGGCCCTCCCAGCATAGCATTTCTCTTG
GTCCCCATAGAAAAAGTGTTGCTATTTTTTGTGAATGCGTTTCATCTATTTTTTTCTAGGTACACTTAGCATACAGAACTGCAAATATAAAACCCATCAC
CAATATATGGCCACCAAAATTAAAACATAAAATTTTTCCTCATTTTACTCTCCCTTACTACTGAAATAGTTTCTAAAAGAAGTAAAGCTTGGGTTTTTTT
ATTTTCTACATAGAGATTTAATCCTCTACAGGACATGTTAAAAGAGAATGCTTAGATCCATAGAGTGCTTTTTATTAGACTTAGCTGAACTCCTATGATG
GTGAGAAGCATGTTAAGAAAACCTGTTCATGAACTAGGCTAACCACAGGTAGTTTCATTGTGGTACCAGACTATCTCATATCTTTCAATTCACAGGCAAG
TTTTTCTGCCTCTGTCCTCCTCTTGTTCTATGCAATGTTCTGTTTTAGAGCTTGAAGTTCATTATTTCATATCAAGGAGAATCATCATCATTTTTCCTCT
TCCTTTCTGAAATGATGTTCATCTGTTTTTTGTTTGTTTTTTTTTTTTTCATTTTCCCAAAAGCACCCTCATTCTTGATGTTAAATGCAGTCTCTCTCTA
AAGTTAGAGCAGGTGATAACACAGTTGTGCTAATTGCAGTCAGGAACTAAGGTGATGGTGGATTTGGGACTGATAGAAGCAGGTGGCTTGACATGATACA
TCTTGCTGGGCAGGGCTCCTTTCCCTCATTTGACCTTCAGAATCTTCCTAGGACTTGAATGTATTTTCCTTCCTCCAGAAGCAAAGGTCTAAAACAAAAA
TAAAATATAGAATGTGAAAATTATGCCCATTATATTTATTTTAGATTTTCATCAATATATGAGTAATTTTAGAAAGATGGATAGTGTGTCAGGAGCATGT
ACCACTCGTAAGCATGATTCCTCCACATATATTCCATCAGTATAAATAAATCAAGTACTACTCCAATGTGAGTTAGGTCTAATTTTTGCTGTTAAGTGGT
GTTTTGTTTATATTTTTCATAATTTATTTTAATTTTAYGCAAATTAAATTGGGCTGGATAGATTGACCATCTGACCAGTTTCCTAGAACTTATGCATAAG
GTTTATCATTGAGATAATTGTTTTAAAAATATCCTTTAAAAGCAGCTCAACTTGGTGAATGTTTTTAAAAAGTGATTATAAGAATACTTTTGTACAGCAA
TTTTTAAAGCTTCTCATATATGCAAGGTAAATATGACTGAGAAATTTGCATGATGAAAATGTATTTAATTAGGTGAATTATTTAGCTAGGTTTGATGAGG
TGACACCAAATTTCGGATAAATGATATTTTTAAACCAATGAAATTGGTCTCTGTATTTTTGTATTTGCAAAATGAAATTTCTGGGAACATATGGCAGGGT
CTTGTAATTCACCTCCCCCTGCCCCCACCACACGTACACACACACACACACACACACACACACACACAMGCCACTCACACACCATACTTACACAGTGAGA
TGGAAAGAGAAGGGTCCCAGCAGCTGGAGTGCACCCAGCATTCTCTCCTTCCTCTTCAGTTACTAATCCTGGCTGGTGAAGGGCATGTCTGGTAAAGTTT
GCCCCTGTCTTTCTTCTTCTCACCCTGTTCTTCCAAAACAAAGGAATATCCTAATGGAAGTGTCATTTTGGGTTTTCCATTTGGGGTCAAATGCCATTGA
GCTTTCTTGTGATTCTCTTTGCTCCATCCTATAACAAAGTCACCCATTTTCTCATCCAGAACCCAACTTGTTTTCCCAGGTTTCCTCCTACAACCAACAC
AAACACAGACATTTACCAGCAAAACAGAAGCTGTTGGAAAGATTTTTTGGCCGCTGAAATGGGCTCCTGTCACCAGGACATGGCAGGCTTTTTGCTGTAT
TATCTCCCAGCCCTGGCCCCCGTACTCCAAAGAGAGCTTTATGTAATCAGTCTTTGCTGACATGTGACGTCCTGTCATTTTCCTCCCCTTCGGCTCTGCT
GCCGCCCACAAATCAATAACATTGCTTGGGAAGTTCAGGCTGGTTTTGCAGCCACCCCAAGCTCTGTGTTTCTTAAAGGGTATGTCAGAAAATGTAAAGT
TTCCTAATGATATTTCTGGCTGATGACACATGGCAGAGCTGATGGACTATTTATAATCAGTGGCACGATTGCAAGCACATTATTTTTATTTCACTTGGGG
GGAGCCCTGTCACTTGCTACCTCTCTTTGCAGACAAGTTGATGCCATCTCCACCTAAAGTAGCTAAATCCTCTTTTCAGAGTTTATTTGCACTCTTAGCT
TTGTGTTAGGAGCTCCCYAGCTCTTTCCAGTAGAAACCCCCTCTCCTTTTTCTTTATTGTTCTTTGGCTCAGGGAATGATGAGGGTAAAGAATGATTTGT
AGCAACTGCTTTGAATTCTAGCCATGCCTGCATCCTTAACTATACACATCTCCAGTCTTTGCTACTCAAGTCTTGCTACATCCCTCTGAATGTGGGTGTG
GCTGGCATGACCGAGGCAATAGACACTGCTACTGTGTCCAGCACTTGCCTCAATTTTACAGGCCTGAGCAGAGCATAGCTGTCTTTTGTTGAGCACCTAC
TCCAATCTAGACAATGTACTTGGTAGGCATTTTATACACAATCTCTCACTCTCTCAAACCTACCTGAGGTAAGTGCTGTTATCTCCAGAACAGAGATTGG
AGGTGGGAGGGGGAGAGAGATTAAATTACTTCCTTACAAAGTCGCACAGCTGATAGGGAAAGCTCTAGGACTCCAGTTTAAGTCTCTTCTGACAAACCAC
ACCTGTTCTCTTTCCGCTACCATGTCCTGCCTCTTCCTGATTATGTGGACACTTGTGTATCTCTTGTGTGGCTGTGCAGGGGCACTTACCCAGTTTTAGC
TTGCACAGCTCCTAAAGTTTAATAGCCAATGAGAGTGAGAGTTGGAGGAATTGGAAACCTCTCAATCTGGGGGTAAACCCTGGTGTAAGAGGAACTGTAT
ACCAAAGGAGAGTTTTGACTCACTGCAGTGGGAAGTGTTGCCTCTATAAAGATACTGAGCATGCTCTCTCTCTCTCTCTTTCTCTCTGTCTGTCTCTCTC
TCCCTTTCTCTCTCTCTTTTTAATATTTCCACAGGACAGAGTTTAGGGTATGGATTTGTTAACTATATTGATCCAAAGGATGCAGAGAAAGCCATCAACA
CTTTAAATGGACTCAGACTCCAGACCAAAACCATAAAGGTAAGAGGTGATGTGCTGGCTCCTGATTCAGGAGGCTCTGGTTAAATTTCATTCTGTTGATC
TGGTAAATCCAGGCTATGTGGGGGCTGGAAGCAGTGTTCTTGATTTATTCAAAGAACATTTACCATCCACTATACTAAATGGGAGACACAGAGTGTTACA
GAAGAGTGAGGTGAGGGTTGAGTAGAGGGAAGGGACCACAAGCTGTGAGACCTCCAATTAAGAGGGCAGATGGGATATTTGGGATTCAAGACCCCACAAA
GAGGGCCTGTGAGCCTGAGTCTGCAAAGATGGCCAGAGCTGAGCCAAGGGAAAAGGCTGAGGCCAGGAAGCTGTTCCAGGCAGAGGAAACAGCACATGCA
AAGCTGTGAAAATGTAAGACGTTGTGAGCAGGGACAGCATATAAATAGTGTGGCCTAAGTTTGGATGGGAAGGTGAAAAGATGAGGATGGGAGGTGGCAG
GGCCAAATCAGGAGGCTTTGTGTGCCAGGCTGCAGCTTGGCTTTACCTAAGGGTGGTTAGGACCCTCCTAATCGAGACTCGAAAAGGGAGCATCAGTTAT
AAATAAACGCACCAGTGTAATAGGGATGGGTACTATAATAAAATTGATGAGAACATAGTATGGGAATGACAGAAAAAGTAACATTTCAGCAATCTGAAAA
TAATTAGGTGGGTAGATAATATCTCAGGAAGGGTTGTTTTAAGTCAAAAAAGAAAAACAGTAACCCAGAGCCTGCTCCTCTAGAAGGAGGTTTAAGTTTC
TGTCACTGGATAGTCATACTCTGGGTCCAGACTTCACCTRTGGGATCCTTCAGGAGGTAGTGCTGTTTGCCTTGGGGGATTCCCTTGGGCAGCCGGTGGT
GGTCTAGTGGATGGAGCCTGCCTCCTCCTCGGCCTTCCTTCCCTTTCTTCCCCTACCTCCAGGCAGCGTCCTGCTTAGGGGCAGCTGCCAGCCAATTAAT
GAGTCCCCATCTTTCATAGCCTATTAAACTGCAGGGAAGTGTCTCCTGGGCGCTCTTATCCTCACGACAGCAGGTCTGACGCAAAGTAGGACAAAAGAGA
AACCTCTCCCAGAATGGAAATCTATAGATGGCACCAGCTCTCAGCATCTGAAAACACAAAACCAGAACTTTTTAGTCCAACAAAGCTACTTTTCCAACAT
CCAGCCTGATAGAGGAGACTACTGGTATAAGATAATCTTAGCTGGAAGGTAATCAAAACAAAAACAAAGCAAAACCTTTCTCTTTTTAGAATATGTGATT
ATCTTTCTTTCTTTTTTAAGCAGCTTTACTTTTGCAATTGAGTTTAGCTTATTTCTAAAGATGATTGCTTTCCCTGATCTCATACAGCCTGATACACAAA
GATCCCAAAATGGACCTGATTCAGGCTCCTCAGTCTAGGCTTAGAATCATTTCCTATGAGTTCTCTAATGAGGAAATAATCAAGAGTTGTTTAATTATGG
GGTAGTCCTCTGAGAGGCAGGAGGATTAATTTCTTTCAAAGTAAAAACATACCTATTTTCATGCTTTAAGTAAAGACGGATGCTCATGTCACCTGACTCT
TTGATGAGGCCACACTAGACTGAGAGCTGTATTTGTAGGTTTGATTGATTTTCTGTGCTATCCAGTTCAGCATTAGAATGTCAGATGTCTACTCTTCCCT
TGACAGACACCCTGACCTTGAACTGAAAAAGGTACTTTTCTTTACAGTTTTCTTGAAACCCCAACTCTTCTCCAGGGGCTTAGGATCAAATAATCAACTT
TCCATTTTGCTTTTTTTTTTTTAAGTATTCCATAAGGCCACTGTGGTTCCCCAAAGACTGAGTAGACCTGGCTTTTCTGGTCTCAGATGTACCCCCTAGC
CCATCATGCCATCAGATGCTTTATCTAAGTGGATCTTAGAGACAAGGATCATTGATTATTTTCTTTCTGTAAAGAGTCAGTCTGCCTCCTTCCGTTATCT
ATATTCCTTTCCCCACCCCCTCACCCACCCTGTATCAAAACGCTGCCAACACATTTGCACCCAGCGGTAATGTGGGCTTCTGAGACACTGTAGGATTCAA
AATGCACGATGCCATGGCTGAATCAATAATTTCCATTCTCCTCTACAAATGAAAATTTAATGTGCAAACCTGGGGACTTCAGCCCTTTCATTAAAGCAGT
TTATTTGCTGTACTAAAAATTAAGTTTGAGTGATAGGTTCCTTTATTAACTTTTCTTCCCTTTTCTAAAGGGACACAATGTTTAAGGTAAAAATCATATT
AAAGGAAAGAAAAAAGCAAACCCCTTTTGTATGCTGTTTAATAGTCTCATCWTTTATTAATTTTTTTAAATTGCTTTTTTGTCTTTCAGGCCACTGTTTA
CCTCTGCTTCAGTTTGCTTTGATAAGTGACATGAGATCTATCTCTTTGCTCTGACTCCCATGAAGGAATAGTTAACTTGCCTATCTGGAAAAAAACCAAG
TATCTTCTTTGGAAGCGTACATTACAGAGGTCTCAGGACCATCTAGTACATGTTTGTGAACTTTGGTCAAATTTCCCCCTCCTTTTCAAATTTCTGGAGT
GCAAAACACTCTACTTTAAATGTTATGCACAAAGTAGGTTCAGGCAAATCAATAGTTAATTCCAAAGCTGTGAAGGTTAATGATTAACAGCTGGATTCAG
GGAAGGTTCTGGAAAGCTCTAAGGCATCGGTGGAGACTGTAGTGAGCTGTAAAGAAGACAGCTATTCTGCTGCTGCTGCTAACTGTTTAAACCCAGATTG
TTGCCAGATCTACCAGTTGTCCAATACACATGAAAATCTAGATTTTTTTCCTGCCAATCTCCCAATTTTTAAAAGCTAGAAAATAACTCAAAGAATTTTA
AGAATTATGTAGGTGGGCCAAACAGAACTTAATAGTTGACCTTTTGACAGGCAGTTTGCAAACCACCCCCCAACCCACCCCCACCAAAAAAAAAATGAAC
TCAAATTTAAATATGAAAACATCGTTTTGCCAATTGGTAGTGAATGGCTCATTACAGGTCCACTACAGGCTGAGCATCCCAAATTGGAAAATCTGAAACC
CAAAATGCTCCAAAATTTGAAACTTTTTGAGCACCTACATGACACTCAAAGGAAATGCTCATTGGTGCATTTTAGATTTCAAGTTTTTGGATTAAGGATG
TTGAATCAGTATAATGCAAATATTCCAAAATCTAAAATTTGTGGTCCCATTTCTGATAAGGGATACTCAACCTGTACTAGGAGGTACCCACAAATGATGG
TTCCCAGTCAACAAATATCCATTTCCCTTTTATTAGGGGCAGTGTTACATGACTCTGTGTGAATACTGACAGCATTCAGAGAGCAATCTGACCTCTGTTC
TCCAGAAGCATGCAATCTAGGCATCGGCACAGCACCAAAGCAGAGAAAGAGCATGATGTGTAATTAAGCTTCCAATGCATAGTGTGGATGGTGACTCCAG
GGGAATTGTTCTTTGGGTTATAACTTCTTTAGTGGGAGAAAGTTCCCACCACACATCTTGGAGATCAGGCTCAGAGACACTAAGTGACTTGTCCAAAGCC
ATACAACAGGCCAGCAGTGGAGCTCAAGTTAGCTTCAAAAGGGCCTCTGAAGGATTCTGCCAGAAGAGGAGCTGCTTAATATGTTAGCATGAGCTTGAAA
TAATAATAATAAAGATTAATAGTAATGCTAATTTATAGTGAGTATTCACTCTGTATCCAATACTATTATAACCCTTTTACATGCTTRATATCATTTCATC
TTTGAAATATCCCTGGAGCTAGGTGCTTTACACACATCAACTCTAATTCTTAAAATAGCCCTGTCAGGAGGTACTATTACCTCCTTTATACAGGTGAGGA
AACTGAGGCCCAAGGAGGCTTAGAGACACACCCAGGATGACACAATTGATAAGCAAGACTTGGAGTAAGAAAAAATGTTCTAAAAATAACTCTCTGGCAG
TAGGTCGTAAGTGTTGGAATGTCACACTGCCTGCTTGCTCAGCAACACGTGCATTCTGTGAGGGTGTGTGGGTGTGTATTTGGCTCTGTGCACACATGGG
TTATACTCTCTGGCATGGGAAGGAGAATAAAAAGCAAACAAATGAATTGTGTGTCTCCTCCAGGTTCTTTAGTAAACAGACATGGCTCAGGGCTTCTGCY
ATCAACCTAGGGACAGACCTGACTTCATTTCTTCTTGGGTCCCTGCTTTCCAGGCTCTGTGCTAGGTCCTCGGATTTAGGTGAATCAGAAATGACAGTGC
CCTAGAGATTCTTCCATCCATGTGAGTCAGAGAGCTATGGAGTATGGACCATGGGCTTACATTCACTAGCCTGCCAGAGCAGCCTGGAACCCCACTTAGG
AAACTGGGTCATTGTTCAGTGTTTCAGCCCTGAGCCCAGCCCAGTGGAGATGACTTGCCTCATGTAGGAGTTTGGGATGCTATTTGTTTAGCTTTGTTTT
TGGTTTGTGTGTATGTGTGTGTTTGTTTTGTTTTGTTTTGTTTTGTTTTTTTAGACAGAGTTTCACTCTTGTTGCCCAGGCTGGAACGCAATGGTGCGAT
CTGGGCTCACAGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCTGGGGTAGCTGGGATTACAGGCATGCACTACCACGCCCGGCTA
ATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCGTGTTGGTCAGTCTGGTTGCGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGC
TGGGATTACAGGCGTGAGCCACCGCGCCCGGCTAGCTTTGTTTTTAAAAGTCGTCTCCAATAGGGATCATTTTAGACTCTGCAAATGGCTGTGGATTCTG
AAAAATTATTCCTGGTACTCCTTGACCCCACACCTGATGCCTGTCCCAGGCCTGACCTTCTGTTGGGCTCCAAAAGAACAGCTTCTGAATTTACATTGTA
ATTTTATCCTTTTACTAAGAACTGCTTCAGTGAAGTTGCATTTGGTCCAGCTCTGTCACATTAATCAGGAACAAAGAAAATTAGTACCTTCAAAAGAGAA
ATACGTTTACCAAAGTTTTGGATTGATGTTCAAATTACATTGAGAACCTTCAGTAAAAAGTGATCCAAAATGGAATGTGAGGGTTTGGTATCACACCCAC
TAAACCTTTCRGAGTGTTGGGACACCTGTTTGCGTTTTGACCTAAATGTCAGGAGTAGGATTAAACAAGCGTTCACTGCTGGCTCTGCCTCCAGAAGCTC
CTGTCTCATGGGGGACACAGACATGCAAAGGACCAACTCTAAAGCAGTGGGACAGGGCAGTCATGGGGCTGCAGAGGTTTCTGTTTGATATTGGGGTTGG
GGAGATAGGGAGCTGTGCAAGGTTTGAGTGAGCAAAAGATCTGATCAAAGTAAAGTTCCAAGAAAGTTCATCTGTCAACGACGTGCCACATAGAATGTTT
GACAGATGAAACCAGAGCTTGCAGGCTGCTGTGGTAGGTTTTTGTCAGCCTTAGACATTGGTTTTCATCAGCTCTATTAGGAGCCTTATCCACTCATTTT
TAAAGCAAAACATGCTTCTTTGTAAATAATTTGGTATGTACAGAATCATATCRTGAAGGCAATATCAGCCATTCCTAAGCCAACAGTGTTAACATTTTTA
TATATTTATATATTTCCATCCTTTTTTTTTTTTAAATTAAGACAGGGTCTCGCTTGGGAGTGCAGTGGTGCAATTCCAGCTCACCATAACCTCCACCTCC
CGGGATCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCTGCCACCACGCCCGGCTGATTTTTGTATTTTTAGTAGAGACAGG
GTTTCATCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACGGGTGTGAGCCACTGC
GCCCGGCCGATTTCCATCCTTTTTTTATTGTATTATATGTGCACAAATGACTTAGTGACTTACCTTTTTCTAATAATTATATTAAGCTATTACCCAAAGG
ATTAAAATATGATTTTAAATGAAATATTTCCAGAGGACAGGTATTGTGAGTGATTGCAGCACTGGATCTGGGATGAAGGGGTAAAAGAGCTGCTCCTGCC
ACTCTGAGCAAATCTATGAGAGTTAGCACTCAGGCAGGCAGCCGGTGAGAGAATAAGAAAGACACTTAGCCATGAGGCAGTGGCCCAATTCTGGAGGGAG
CAGGAGTAGAGAAGGGGAAGGTGTGTGAGGGAAGGCTTTTCAGAAGGAAACACCTTCCTTCTCTGGGAAGGAGAGTGAGCTCCTTCATTTCCACCTCTTC
CTGTTGTGATGCTGCTTAACCACTTCTCCATTTTCGCTTTATTCTTCTAATACCACTAACAGTGCCTCCGGGGGTCTTTCCACACTTGAGCTTTGCAGGT
TCCAGTTTGCCCCTCCCACTTCTTTCTCTTGCCAGGGGTCGTCAGGGAGCTGCGCCTCCCCCTCTCCTCCCTGCATCCACCTGCCTTGCTAAGGGCCTCC
ATTCCGCTGAGGCATCTTTTCTTTGCATTCGGCATAAGCAATTATTTCTCCTATCACTGCTCTTAATGCTTCCTGGAGAGTTAGCAGATCATTTTTTGCT
GATGGATATCACCCCACACAGAAATGATGGACTGCCTCCCTCAGTCTTGTTAATAGTAAAAAGGCATTTTCTCTCCTCCTCCATTACCGCTAGTCACAAC
CTGGGCGAGAATGCTTCTCTGCCAAGGTCAGCAGGGGCGGCTGGATCACTGAATCCCCAGGGAGCCAAGAGAGAGCAYGTGGCAATGCCAGCAGAAACCA
GAGACACGTTTACCCCAGTTGTGCTAGCAGCCCTCTCTTGTGGGAGATTTTATTTGGCTGCTCTGCTTCCCAGTGCCCTGTTCACTTCCTTTGAGTGAAT
AATTTCAAATACAAGGATAGGAGTTGGAGAAATGGAAATACAATTCCCCTCTTCTCTCTGCTCAGTGAAGGTGATACGTTCCCAGTATCTTGAAGTTCAT
TCATAGTGTCCTGTGTCCACATCTAAAAAGGAAATTAGACCGGTATGGGTTGGGAAGGCACAGGTTTTCAGAAGTACATGGAATGGGGTCTGGGGGCTTT
AGCTGTCTTCAAGTGTAAAAGAAGCCAACAATGTGATGTGAGCTGCTTCAAAAAAAAAAAAAAAAATCAGCACAACTTTAGTTGTGTTGGGAGAATTATG
GACTCCATATCACAGAAAATAGTGGTCCTTTCTTGTCCACTCTGGTCAGCCCATCCTAGTGTCTTATGTCCCATTCTCRGCTTCATATTTTAAAAGATTG
TCTAAAGGTGAATGACAAAGATGGGAAAGAAGTCTCTGCACCCACCCACAGATTCACCTCACAATGGTTGCTTTTCTATTCTCTAGGAAAGAAAATTCTG
CAGTGACCCTGAGGCATTAGTTTGATCCTATATTTCAAGAATCTGGGAAGAGAACCTGTGTAGCTATCAGAGTAGAATGTTTGCCTTGGGTGGTAATGAG
GCTCCGATCATCGGAAGCATTCAGATGAACTCATAAGGGATGATGTAGACAGGATTTCAGTCCCACAGTGGAGTCTGACTAAATGATCCTAAAGGTCCCT
TCTAGCTCTAAGATGCTATAATTTTGTGTTATTTCTGATTGTAGAGCTGCTCTGTCCAGCATAGTAGCCACTAGCAATATATGGCTATTTATATTTGAAT
TTAAATTAATTAAAATTTAATAAAATTCAAAGTTCAGTTTCTTAGTCACACTAGGCATGTTTGAAGTGCTCAGTAGCCACTTGTAGCTAATGGCTACCTA
TATTAGACAGCACAGATAGAGAACATTTTCCTGATCCCAGAAAATTCTGTGGGACAGTGCTGGCCTAAAACATCAGTGGCCCTGCGGATTAAAGACTCAT
TTCTCCATGGTGCTCCTGCAGCCTCTGGGCAGGATGGCTGGTCTGTCAGTGATCATAGAGCACCACACTCCTCTTCCTTCTCCCCTTTTGTCCATTCAAA
AGAGCTCTGAGTTCAGATGGAAAGTCAAGTTCCAGCTCTGTCAAAAACTGCTAAGGATGACCTTGGGCAACTTACTTTACTTCTTTGGACTGGTTTCCTC
ATCTGCAAAATGATTTTTTCCAGTTCCAACAGTATAACTAACAAATTATAGTGTGATCTTTCTGGCTTGGTAACCTTTCAGGGAAAGTAACAGTTTGTGC
CAAGCACACGGCTTTTATTTCACTGTCTGGATTAGTGTGCCATAGTGGAAACATCCCAGAACATGGAATTATATCCCAGTTTGTCTCTTAGTTCAGCTGT
GTGACCTTGGATAAGTACTTGATCTCACTGAGCCAGAGTTTGTCATCTGGAAAATGGAACTAATGATATCTTACTTGTAGGGAATCGTAGCTTACAGTGG
ATGCTCAAGAAATGCTCCCCAGGATGAAGATGATGGTGAATGGTGCTATCCCTAAAGTGAACATTACATGAGGAGAGGGGGGGACTTTTTTCCATCTACA
TGTTTCAGTGATGAGTAAGGGAGTAAAGAATGAGTCTGAATTTTACTAAGATTCGGGCAACATATATAAAAAGCTTTGTATAGGGGAAAGTATTATGAAG
CTTCCAGCTGGCCACAGTAATCGTATCAGTCTTTTATAAAGCAGGAGCCAGGAGTTGCAGTCTAGTGAAGAGACTGAATCTGGGGCCCTGAGCCCAAGAC
CAGATATTCCACTAACCAGGCCATGAGACCTTTACACAGCTCTCCCTTCTGAAGGCCACTAGATAGACAGAGAGAACTTAGTACGTACTAAGTATGCCTC
TTTGATAATTTGATAGATATTTTAAAAGAAGTTGCAAGACACATGAATCTATCGTCACATCTTTTCTATTCTTTAAAAGAAATACTTGTCTGGCCTACTA
GGTGCCAGACACCCTTATGATATTCGTAGATACCCTTTAACTGCATGATTCTTTCTGGCTTCTTCATCACATCAGAGTCAGCTCTTAGAAAAGAAGCTAA
AATCCGCGGCATAAAGTATATGATACATTTCATTTCACTTGAGAGAGCATTTTTTTTTGAGCTCTTGCCCTGATAAAGCTTTGAGACTAGGTGCCACAGG
GGTCTATGGAGATCACCAGAATGCTCAGACTCATAGGGCAGGTAAGGTGTTATCACACTTGTAGTGCCTGGGATCTGGGATCAGGATGCCTGTAGTGGGA
GGTAGGGTAAGTGTAACTATTGCCACTGAAATATACTGCTGTGTATCTTCTGTGGAGTCAAAGGAGAGGAGAGTCATTTGTGCCTGGGACTCGTGGAGGA
GGTGGCATTCAGTATGGGCTTAGAAAGATGGGCAGGAGTTTATTCTGCCATGATGGTGAACAAACAGCAAAACAAAGACATAGAAATAGAAATTTTCKGG
ACATATTCAGAAAACTGTGACATGTTTTTGTCTGAACTGGAGCATAGGGTGCATGAAGGGGTTGGCAGGAGATGAGAGGTTGGGCCAGATTCCAGAGGGC
TTTGAATGCCCAGGTAAGGGGTTTAGACTCCCATCACAAAATGGCACAATCGGAACTCATTAGAACCATTTCCATGAAGTTTCACCTCTGATAAAAGAAT
AGCACGTATCAGGTGGCAGGTAGGGGAAGTGTAAAGAGTGGTGCTACATAAGCAGATGCCTGTCCTGCCTGTGAACAGGCCTACAGCCACAGGCACAGAG
GTAAACTGATCCTCACAATCAAAGCTGCGGTTTCCAGGAACCAGTTGGCTTCTTTCTTCTGTCCCTGCTCCTAGAGGTGGGATTGTAGGTCCTTGAGAGG
ATTTGTTCCTAGAAGGCCCTGGCAGCATCAGAATCTGTTCCCTGATTCCATTCTCCTCATCTCCCCAGGGACTTGTCTGCTCTGGGGAGTTTGTATGCAC
TCAGAGAAAAGGGTGTTACAACAGATTGGGGAAAATCTGCAGCCTGATCTTCTGAAATGATTGGTTTGTGTGTGTGTGTCTCCTCTGCTAGACTAATAGT
CCTACATGTCAGGGACTGTTGTATTCATCTCTACACCCTTGGTGTCTAGCATAAGGCCTGATTATACAGCAAGTGTATCAAAGCCATTGTTTATTGAGCA
TTTACTGTGTGCCAGGCATTGTGCCTAGAAGTCTTAAATGCATTTTCTTGTTTAACCCTCAAACAGCTCTGTAACAGAGCTTCTAAACTATGTATTCAAG
TGATGCAGCTCAGAAAGGTTAAGTGACTCACCCCATAGTCACACAGCTAATAACGGTCAGGTTTCAAGTCCACATCTCTCCAACCCCAAAGCACTTGCTC
TTAATTGCTGCCTCCTTTTCATTCTAGAGCAGGTGCTCACTTTCAGTTAAAGTAACATAAACAAGAACTTCTTTGGAGTGATTTGTCTCAAAATATAGTT
ACCCAATACTCTAACTAGCACCTATCAATGAGACCCATAGGATAAGGGGTGGTAAGGACAGAAAAGATGGCCCTGGGGTGTGAAGCTAGAATAATAATAG
AAGAATGGAAGCTACAGGGGAGACAGATGTGAACTCAGTAGAAGGAAAAACTTTTCAACAATTAATGAGGCTGGGCATGGTGGCTCTCATCTGTAATCCC
AGCACTTTGAGAGGCTGAGACGAGCAGATCATCTGAGGTCAGGAGTTCGAGACCAACCTGGCCAACATAGTGAAATCCCTTCTCTACTAAAAATATAAAA
TTAGCTGGGCATGGTGGCGCATGCCTGTAATCACAGCTACTTGGGAGGCTGAGGCAAGAGAATTGCTTGAACTCAGGAGGCAGAGGTTGCAGTGAGCCAA
GATGGTGCCACTGCACTCCAGCCTGGGCAACAGAGTAAGACTTGGTCTCAAAAAAAAAAATTAATCATGGCCAGCAATAGTGTAGGATGCCTCATGAGGT
GGTGAGCTTCCTGTCCTTGGAAATGTATACATTGAATGGTCGGCTGTCTTGGATCATGCCATGAACTTTTGGGGCCACTTCCAGCACCAAATTTCTGTGA
AGCAGATTTCAGGAATATAACTTTCTGCTGAGTTCCCCATTGCCACTGTATGTCACCTTTATGTGACACTTACTATGTCTCCACTTACTATGAACCACAG
TTATAGAAATTTGCAGTTTTGTGAACAGAATGCCTGGCTCATGAAAAAAATCCAGTCAATGATAGAGGCCACGTCATTACTCTAATCCACAGGGGCCCAA
CAAATGGCGTTGCTGTTTTCCACATCCAAGTTCTAAACCAATTGAGAAGTAAGACAAAAGAGAAAAGTGTATGGAATCCTAAGGTCATCTTTATTGCCAA
TTAAGGCCTGGATGGGTTGCATGGACACAGTGGGCTCCATAACACTGAACTTTACACTTTGACAGACTGACACACCCTGTCACAAGTGCTCTAGACCCCA
CAGGCCGAGAGCAGAGCCTGCCCCCATAAGACTGAGAGCCTGGAACAGAATGTGTGCTTCCAGCTGGCGTCTGGCTCCCAGAAGGGAAGAAGCAGGCAGC
ATTTGAGCCTCACATGCCCATTTCTTTTATTGAAGCCTCCATTCAGAGGAGTCACTTCTTTTCCCTGGGGAAGAGTGGATGAAGGGATAGCAATAGGCCT
GGTCTGTTGCTGCAGGGGGTTCTCTCCACATGGAAGGAAACACTGGGAGTGGGAAATGAGTATCTCCCTGTTGGAAGCAGCCCTCTGTATTGCATGCTTC
ATTTGTTTACTTTCCTTTCCAGACTGGGATTCGTGAAGCAGAGACATTCCCAACACCCATCCCAGGGCCTGGCACATAGTAGATGTTTAGGAAGGGGAGG
AATGAATGAACTCCCATCTTCTAATGCCAGTGTTTTTCTAAAGGAGCAATTTTCTGGGGCTAAAAAGGATGCCTTTTCCCTCTCATTTTATCCTCCTCAT
TGCACCCAACATGCCTTTATCGTGTTTTCCATGTCCTCTCCCTTTTCTGTATTATGGAGGACAGACAAGGAGTGAGGTATTGCTGGATGATTCAGGGAAC
ATTCTTCCTCAGGTCATGCTGTTCTTCCCACCCTGCCCAGGCCAAGCCCTGTGTATGAACAGGTAAAGGGAGTTGTGGGTGCTRCATGGGAAGAGGCAGC
CCTCAGCCCTCGTCCTGATGCCCCATCTGTGATGAATGACAACGCCTGCTTTACCCACCTTGGTGAGACTTGCTGAGAGCAGAATTGGGAAGTCACTTTG
GAAAGTGGAAAGTACTTTGTCGGCATAAAGCAGTGGGATCTGTGGAAATGTGTTAGAGGACATTCATGTCAGTAAAGTGGTAAAAGATGGTCCAGACCCC
ACCAGGGTGGCAGAGGAGGGCAGTGCCTCTACAGGCATTCCCTGGTAGTGTTCCACATGTTTTTTTTGTTTGTTTTTTGGGGGTTTTTTTCCGGTGAAAT
TGGAGGGTATGTCCCAATGGGAGCTAGATTCCCAGGCTGGCCCACAAAAGCCTGTATGACTCATCACATAATAATATGTGTAAGTATCTACTAAGTTCTA
GGTATGTGCTAGACAAATATATCAACTCAGTTCTTACAATAACCCATCAAAGGATAATTGACCCCCTTTTTACGAGCAAAGATGTTGAGACTTATCAAGA
TCAAATTACTTGCCTAAGGTCATGCAGCTAGTGAGTACTGGAGCTGACCCACAGTCAGGGATCATAAGCATGATGCTATAGCATCCTTCTGGTGGAGGAT
GGGAAGACTGTGAGCACCAGGGATGGGGAGAGCTGAGGAGCTTGGAGGGACTTCAGATCTTCCATAGAGATCATCTGTAAAGTCAGCTGCTTACAGTCAC
CTGGCTTTGAGCCACCCCTACCCAGAGAGAGGAGTGGCTTCTTCACTCCCAGCCCTTTCTGAGTTCCAGAAGGAGGTCAGTGCTGGCCTAGAGATGCCAG
TCTTGTCTTCAGAGATTCTGGATGAATGAAGCAAACAGGATCCTGACTGAGGCAAGGGGGGTTCTCCAGGGCGCTGGCTCCAGTGTTGGAAGCCCTGTGA
CTCCAGGCCACTGGCCCAGSGGCATTAATATGCCATCAATGCTGACCCTGAAAATTGGCAATTTTTTGGAAATCTTTCAGCCTAACCAAGGGCCTGACCA
CTGTAGTCATTCAGTTAGAATTTAATACATGTATATGGAAAGTTGAAAATTTTAGRTACTAGGATGAACATTTGGATATTCAATGCAGGAAGATCTTTTT
TCTGTCATTTTTGTTTATCCATACGCCACAGGTTTCATGGACAGGAAACTGAGAGAACAATAGACTTAAGGTTCCATATAGGTGAGAAATACTAAACAGG
AATTAGACTTGGTAGAGAATGATTGATGTGCTGTTCACCTTTGGGATTTGTTGCTGCCTTTGGGGATTTAGGGTCTGTCTCTGGAGATGTGTTGCAGTAA
TTCTCCCTAGCTGAGATTCTACCTATGTTGGAATCAACTTTTGGGGAAATGRTTTTTGTTGTGTCACCAACTTTCAAGTGCCAGCTCCTCTTCCCTGGCA
GGGTTCACCCTGTTCCCTCTGTACCCTAGCTCTGGCTGTGCRGAACTAATGGGAGTTAAGGTCATGACTATCCATTATGCATTTATTGGGTGCCAGGTAC
TGTGCTAAGCCCTTGATCTTCATCACCTCATTTGTCCTCGTGACAGAGGAAGGCTATTATCAGGCCACCATTACCWGACTCCACCACCACCTTTCTCACC
ACCAGTCTCAGCTCAGCTGTGTCTCCTTCCCGGCCCTTTTAACCTTTGATTAATCTCTCCCTCCTCTGTGTTTTAGTCACACTCATATGTATCCCTGGCA
TAACACACACATCTTGWGGCACTGTGATAATTGGTCTGTATGTTTACTCATCCATTCTTTTGTTCAACACATTTTATTGAGTGCCTCTTATGTGTTGTCT
GTTGCCCTCTTTGGACTTGGAGTTCCTTTACAGCAAGAGACTATGCCTTGTTCTTGCTGTGTTGCCAACACATACCACTGTACCTGGCTCATAGTAGATC
CTCAGGAAATATTTGCTAAGAGAAGGCCTCTATGTGAGGTCTAGTCCTAGAACAATCTTCTTTCAGTCCTTCCAGCCCCAGGCATTGGAAAATGGGAAAT
ATGTCCCTTAGCTCTTAGCTTGGTGGAGAAACACAGCTGGGATTCTGGGTGCCTGACTCTCAGTGGTCCACCTTACTGGAGTTACAGTTAACTCCAAAGA
GCCAATAATATCAACATCATTTCTCATGAGCTGTGGGTGTTTATTCATTTTTTCAGTAGGTGTTGAACACTTTATAGGTATCAGGCTATGTGCTGGGAGC
TAGAGTCACAGAGTTGAATAGGACACACACACACACAAGACCTACAACCTAAAGAGATCATCAGCCTAGATGGAGAGGTGGTCAGTTAAGGTTGAAACGG
GTTAAGTACCATGGTTCATTGAGAACACTGCTGGGGAGATTTTTAGGAGAAGGTGAGATTAGAGAAAGCTGCCTAGAGAAGATGTCATTTGATCTGAGCC
CTGAAGARGAGTAGGATTTGGACTTGAGGAAGTAGGTATAAAAAAAATGTCTGTATGAGCAAAGGTATAAAGGTGGTAGGTTGTGTTTTGAGGGAGCACA
AATGTCATTCGGATAATTAATTTGTCAGTAATTGGCAAGGTGAAACAAGGGTGACCCTCATTGCCATGGGCATATCACTATGATGTTTTTATTTCCTTCT
TCCACTTCTTCCTCTTACTCAAAAAATAGTTCTGCTATTGACACACTTTGTCCCTTAAAGAACAGGGGTGGGAGAACCTTCTGTGGAGTGAAGCCCTGTC
CAGACAGTCACATGGGGTTCTTAGTCCTTCAGCCCACACTGCAAATGCACACACTGGGACCCCCTATATAAAGGCCCCTCTACATCTCAGCCATGTGCTG
AGAAGGAGCCCACAGAGGCCTCCCAGCCCACCYGTGAGTTTCTAGAAGATGGAGATACTGAAGGCAGCTGCCTCACTCCATCAGCAGGAGGAGGCCAGGG
AGGCAGATTAGTCACTCACATCATTTTATCTGTTGAGTCAACATCTATTTTTAGGCATGGAACCCATAAAGGGACCTGGCATGTCTGTCATGGAAAGGGG
GAGAGTGCCATGGATGAGGGTTCTGCTCATCCTTCATCTTCTTTGCTAGACCYATTCTCTCCCCTGAAGGTCACAGAAGCAGGGTCCACATTACTGCTGG
AGGTTTAGGTCTTAATGTCAAAGGTCTGGTTTAATGTGTTCAATTCCTTTTGCACACATGCTTTTGTGTGCACGCACACACACACACACACACACACACA
CACACACACACACACACACACACTCTCACCCCTACAGTCTTAATAGGTCTTATGAATCAGTTGTATGGATTAAATAGAACTTCCAACTGAAAAACGCTAA
GGCATATAGGTCTCTTCCTGTCCAACGTTGTCAGATGTGCTCTGAAATGACTGTTTTCATCATCTATTCTGAGCCATAACCACCCCAGAAATAGCTTTAG
CAGGAAAGTGCTTTTGTTAGACTAGCTGTAAATTATATTTCAAATGTCTGATGTTGTTTTCTTAAAAAATAAATAAATAAGTAAATGAAAGTCTAAAATT
AATGACTGCTGGGGTTTGCTTTGCTTATGTGTACTGCTACAGATTTGGCTTCTTGCAGATGGAATTTCAGATCTGTTTACACTTCTGTGTTAGCTTTTGG
GGGGAAGAAAAGCAGTTGAGAGATCTGGGAGGACAAATTTACAAAGTCGAACTTATTATAACCATTGGTGAGGCTCTCTTCTCTCTCTCTACTGCCCTTT
CCCTCCCTCCTTTCCATCTTGCCCCCATTTTATTTGTTGTGGTTTTTATCTGCCCTGCTTCAAAGTTAGAGGCGACTGGTCCTTGCAGATGTGACGACAA
GGTCACATATCCAGTTTCGCAAGCAGATGTTCATTCAGCCCTATTTCACCAGCACTTTGTCATTTGGTGAGAGCAGACCTCATGGGAACAGACTGGAGCA
ACACAAAGGATGGAACATAAAAAAATCTTGCAGAGAACCTGATTGCTTTTATGTATTCAGGAAGAAGGGGATGGGGGTAGGGAGGGTGGCAAGGARAGAA
ATGTGCAGAGCAGAATTTCATGAGGTTTTTTTTTTTTTTTCTGGTTTATTCAAAGATTATTATGTGYTGGATACAGTAAATCATCTATACACCCACTTCC
AGGAGGTAAATCTTCAGAACTCCATGTGTGGGTAGCTCTGCATTTAACAGCTGCCATACAGTAGCTATTTTGTTCTGCACTTAGAGACCCTTATCTGTGC
ATTTGTTTTAAGTTATTGTCAACTCTCCTGTTGTTCCTCTATTGTTGTTCTCCTGGTTCTCATTACTATTACAAGGGTAGCTAAAAATCTGAACTACTGA
GTGATTTAAACTGACACCATGAGTTGTAACGGTAGATGAGGGGCTGTCATCTTGGTTGTGGACTCAGCATCTACTCTGAGGGTGATTGCCTATAATGGAA
TTAGCTCCTCTTGCCTTTTCCTAGGTCTCATATGCCCGTCCGAGCTCTGCCTCAATCAGGGATGCTAACCTCTATGTTAGCGGCCTTCCCAAAACCATGA
CCCAGAAGGAACTGGAGCAACTTTTCTCGCAATACGGCCGTATCATCACCTCACGAATCCTGGTTGATCAAGTCACAGGTTAAGTGTTTCTTTGTAATTT
CTTTCCTTGTATATCARTGTCATCAGCCCTGTTACTCATAAGAGCAGAAGGCTGATGGCTGCTTAAAGCAGATGATATGGATCATGAATAGACAGATTTT
TGACTTGGAARAAAGACTTCTTATCGGTCAACTGCCCAAATTTAAAATGGGCCATCTTGGGAGGTAGGAGTTCTCCATCATGGGACTTGTTTTAGCAGCA
GCTAAACTACTTGCCAGGGTTGTAAAAAGGATTCAGGCATCAGGCTGAGAGTGGAACTGTATGACCTTCAAAGTCTGATTCAGCCCTCAACCAAATAACA
TTACTTTTGTATGTGAAAAGAACCTGTATGCATAGCTGTAACTCCAATTCATAGCATTATAGAGTTAGAAGGAATTGTCCCATTTCACACTTGAGGAAAC
AGGTTGAAAGTGGGGGATCTGACTCCCCAAAGCTAGTTAGTAGCAGTACAAGGATCTGAACCGAGGATCTGGTACTGGTGTTCTTTGTCCATAATAAAGA
AAGGCAGCCACCACCTCTCAGTAAGAAATGTCAGGTACTCTGGGTTGCACTTTTAATGACAAGGTGTTTTCGCCTACCTCCAATTTGATTCCAATTTAGA
ACTCACCCCCTGAGAATAGTTTAGCACGTTTATCATGTGATTCATGAGACAAACCTTCACAGAAGTCTGCTCTGCCCTAGACATTGTGCAGAGGGACCCT
GGAGACCAAGAAAGAAGCAGGCACTGCCCCACCCTTACAGGACTCCAGTGTGGAGTCCAAATACTTGCTAGAAGCTGTCAAGTGCCCCTGAGAGCTCAGG
AGAAGGTGTGCCATGCCTGGTGGGAATTGCTAGGAGGGCCCCATTGAGGAGGCAATGTTTGAATAGGAGTTTGGAGGATGTTTCAGAGGTATCCAGCAAA
AAGGAGGGACAGAGCAGTGTAAGTGGAGAGGAGAGCATATCCCAAGGCATGGAATCGAGGAAGAACAGTCTATTCGAGGAGGATCAGGCAGTTCAGGGTG
GCTGGTGTGAGCCTCAATAGGGAATTTGGGGCCAGATTGCCAGAGGCATTGAATGCTGTGCCAAGAAGTCTGGACTTTATCTGGGTGCAGAATGGAGCCA
TGGAAGGGTATTTTGTAGGTTTTGTTTGTTTWTCATTTTAGAATGGGAGTCAGTGAAGAATAGGTACTATGCACAAGGTACAAAATTCAAAAAGTACAAA
AGAGATACAGAAGATGTTTTTAAAGCATATCATGTGGTCAGAGTTCACTTTTCAAATAGATTGCACACTAGCTACATGTGGAGGACACATGAGAAGACTA
GAAACTGGACAGTGAGTGATCAGTTATAGTAACTTTTGGGAGGTGATGATGGGGCAGAGCAGTGRTAGAGGACTAGAGGGGCCAGATGCAAGAGAGCCCT
GTGTTCTSTGGCTGGGAGGCATCAGTCCAGAGCCATGATAGCAGGAATGCAGGTAAACGTGTTTTGATTGGTGAGAGAGATCAGGGAGCTGGGCTCAGCC
CTGGCACCACAGGTGGGCTTAYTCCTCACACAATATCCACAGGACCCATCTCTTCCCAAAGATGTTTACCAGTTTGGTGTGTTCACTCTTTACAAAGGCT
CTTTCTCTTTCCCCAGGAGTGTCCAGAGGGGTGGGATTCATCCGCTTTGATAAGAGGATTGAGGCAGAAGAAGCCATCAAAGGGCTGAATGGCCAGAAGC
CCAGCGGTGCTACGGAACCGATTACTGTGAAGTTTGCCAACAACCCCAGCCAGAAGTCCAGCCAGGCCCTGCTCTCCCAGCTCTACCAGTCCCCYAACCG
GCGCTACCCAGGTCCACTTCACCACCAGGCTCAGAGGTTCAGGTAGGCATGCCCAAAGAGGAAGAAGCCCTGCTACAGGGGTTCATAGCTGGGCAAGAGC
CAGGGAAGCCCATGGTCCTGACAAATGGGGCAAGGGTAAAAGCTTCCACCCCCAGGAATCACTGTGCAAAACTCCCCCCGAGCCTCAGTTTCCATTCCTG
TAAAATGAGACAGTTGGAGCAGATGCCCTTCTAAGCCCTCTTCCAATTTACTACTGTGACTGTATAAACTTYAGATTCTTTGGTAGAAACAAAATGTCTG
TATTTAACCAAACATGAAGGTTCAGTTTCAACAAGAGTTAATCACAGATCAGTGACCACATTCAGCAGATTAGACTTAAGGCTGGACAGTGGCTTTTAAT
AAATTCAAAAAATAGACCATAAGGCAGATCCTTGCCAGAAGGAGTTGTTTTTCCTATCTTCTTTTCCCTCGGCAGGTAACTCTGTTGAGTTCAGGGGAGG
GGGAAGTGCCTTTGGTGTTAACCTTATTATGTTAAGTCAGTAGATTCTGGGAAGATAGGGAGGAAGATCCTGTCCAAGCCTGATTAGTGTTTCCTTCAAG
TACCCAACCCCCAGGAAGCTCCTGGGGCAGGGGGGCATTGCCCTTCTCCTGGGACTTTTCTAAAAGACAGGTTTCTCTCCATGAAGGCAGTATGACCTTG
ACTGGTCTCTATTATACAAGAGATAAAAATATGTTTGACTTACCCATGATAAATTCTAAACAATTACTTTATTCCACACCACAGCCCAGCTTCCCTTTGA
TGAAAATGTTTTTCTCTTTGAGAAACTTCACATGGGAAATAGTAGGTCCTTCTATCTAGGATAGTATGCTCCATCTGGCTACATGAGGAGAAAAATCATC
CTCTTTCGTGTCCTCCTATGCCCTGTGAATTTGAAATGGTTAATGATTTCATGAAGAGTCCAAGTCATCTAATTTTTATTTTGCTTGAGAGCACATGCAG
TATTTATGTAAAAAGCCTCTCCAGCAGACTTCTAATGGTGGAAACTATCGTTACTACTGCCCTATGGTGTGAATAGCTTGTCCCCAAGTAAGGTAGTGAA
TGTGAGGAAGATTATAGCGTAATGGCAGTTTGCTGGGAGGTGCTATCAGGCAGTAAACAGTAAGCCACTTTTTAAAAATCTTAACCTGCAAACTCCCCCT
GCCTCCCAAAAATGTGTGTAGTAAGATGATTYAGTTAATGTAGCAAGGCTAACAGAAAAGATCTGTTCTGATACATATTGTGTGCCTGTGTATTGTTAAT
CTGGAACAGAGACCTTTATTTACAAGTTTAATTATAGTAAAAAGGTGAACAATTTAAGAAGCCCCCGCTTTGAACAATTTCACTACAATATAAAACAAAA
TCCACACAAATGTTCTGAGAGGTGGGGGGAATGGTATTAATTCAGACCTTGAAAGAAAGGGAGACTCATTAGACACTTGCTTTAAACTCTAGCAATGACC
TGAACATGAATTACTTGCAGTTAGAGACAGAAAAGGGGGAAACTACCGGTGGATAGACTCCTAAGCAGTGGGGAAAGTTGTTGAGCTTTTCTTCTTTGAA
AATGGAGCATTCTTATTAATAGTTCCATTGAGCGATCTTGCCATCTGTGAGGCATTAACCCAGAGACCCTCCTTCTCTTTGCAGGCTGGACAATTTGCTT
AATATGGCCTATGGCGTAAAGAGGTAATTAAAACTCCACAGATTGCCAGATGTCCATGTTGGCACAGACTGGGGCTAGAATTTTTTTTTTTTAATTCACT
AACTTTACTTTAAAAGAAAAAAATTCTTCCTTTTTCTTCCACCAGCATGTCAAATTCTTAATTTTAATTTCGGACCTCAGTTGATTTTGTTTCTTTTAGG
GCACACAAAATGTATTTGTGTGTTTCACTTTTTCTTTTATTTGCAGGTGGGCTTCTCCTATGGTTCAGGTGCCACAGCTACCAAGCCCTTAATAATCTGG
TCCTTTGAATGGCTCCCCTAAGGGGAAAGGCTCCGACTCTTTGCTGGCTGGTTTTGCAAACTTGCAGAGCAAACTGTTTTGCATTAGCAATGCCAAGATT
CAGTTAAGAGGGCAGATTCCAGCAAATCAGAATTAGAACATTTTGCTAATTGTGGTTGACAATCTTATGATTTTTCAGTAGAAAAATTAGATTTTGGACT
ACCAGCTCTGGCCAAAGGATAAACAAACACGTGGATGACTTTCTAACTCCTGCCCCCACTTCAGTGTGCATTTCAGAGCACATCCTGAGAATGAAGTGTA
TCTGTGTGCACCTCAACCAGGGGTTTCTTTTGTTACAGGTTTTAACAGTTCTTATAAATCCTCCCTTGGTTATATGTTATGTGTGTTTTAAACTTGCTGT
TCCTGTCACTGAAAGGCTTTTTGTGGGGTTGGGGGCCCAGAGTCAAGGCTTTTGGGGCTCTCTGAATGCAGATTCAAAGTTTTCCAGACCCAGTATGAAA
TCTGAATCTTGGAAAGTTGGGTGTGTGATGTCACTGTGTCCATGAGATTCCCATATGTGCTTCTGATAAGCTCCACTGCACTGCTAGGGACATAGTGTCT
TCATCATCTTGCTCAGTAGAGCTGCACACTTTAATTCCCCTTCCTACAGTCAAGGGAAAGAGATGTAGTCTTTAATAGTCCACATCACACYCCCAGTTCT
TTCACTGGCCATCCATGGTAAGTACCCTGACTCTGGGAACTGGTGCATGGTAGAGGAAGTAACCTGACTGCAGACTTCACTATCAGAGGACCGGCCTTTC
AAATCTCAATCCCAGCATCAATGAGGATAACTATGAATTATCTCCACATTTCCAGCACACTGTTTGCCTGTTCCCAGGGATTTTACATCTTTCCTAGCTC
TATCTCATTCCTTTGCTCCTCTCTGATGTTAGTGAGGTAGTGCTAAATGTTGTGAAAAGAGAAATGCTTATAAATAGATAAGATAGGGGAAGACACAGCT
GTAGTAGGCCTGCCACCACCTCCTCCACTGCCCCACCCAGAGTAAACATCACTAGCTGATAATAGCATTCTCTTTTCCTATTGAACCCAGATTTGGATTT
AGAACGCTTCCTACCAAAATGCTGCAATTAACTGTCACCAACTAGGATAGAGGCTGTACTTGCAATCTCTTTGCTGGCCCTGACCTTTGACTTAYAATAA
ATACTTAGCTGTTTTCTACCTATAAACAGAAAGAGGTCAGTTCACCAGGGTCAACTCACTTGGTTGGAGGATAGAATATTAAAAAGACAATCTTCAGAAA
TGATACAAGTTACAAATAGACATGGATTTGCACGTCTAAGGATCTACACCATGATATTTTTTGGCTTTTTCTTGTTAATTGTTTTTAAACAAGAGGGAAG
ATTGACTTAGTGAATAATAGCAAAAATATTGTCTATTGAGTTGTTATATTTAGCATATATTCAGTAGCCATTTGATTATCCAAATTCTAGTTAGATACAG
AACTATTCTTTAATAGGACTTTCAAATCTCCAAGAATATTTGCTTATTTTTAAAAACAGTTGTAGCTCACACTTTACACCATGCTCTTCCCTAGTTTTTG
CTTTCTCTCCTTTTCCTATCTCCCCCAGTAAAACCCTGGCCAAATGAAAAGCAAGAAACTATTCAGTGTATAGCATCAAAAATCCGTATATAAGCTCATG
CCTGTAATCCCACCATTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGAAGTTCAAGACCAGCCTGGCCAACATGGCAAAACCCCGTCTCTACTA
AAAATACAAAAAAATTAGTCAGGCATGGTGGTGCGTGCCTGTAGTCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGG
TTACAATGAGCCAAGATAACGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAGAAAGAAAGAAAGAAAGAAAAAAAAAG
AAAAAAGTCCCTATGTAAGTTTGATATGAAACAAAACATTAACAAATATTGTTCTGCTATAGGCACTGGTAACCTAATTGTTTCATCTGGTACATCCCTC
ACAAATTACACAAGGATTTATTTCATCAGACAGTGAATAGAATTTAAAGGGTCATTTTTTCTTTTCAGGATTGCACAAAAACTGAGAAGATTTCTAAACC
TAATACAAAAGCAGTTGTAATAGGGCAAATAACAATTCTATGCTTTTCTAATGTATAGCGATTCAAGATATATAAATGCACAAACCACTTGCAGTCTTGC
TTCAGTGATACTTAGGAATAAATTCCAGATAACATAGCATAAAGGAGTAATACATCTTTATTATTATTGCTTGAGTTTGTGGGGGAAACCCTTTTGAATA
AATGCTAAATGAAACATGAACCACCCATCTGTTTAATAGCAAGAAAGGCCTGTTCATTGTCACGTATCTCCATCCTCACCAAGAAACATTTGACAACCGT
AGGTCAAGGGAGTGCAAAAATGGTAGACTTAAGCACTTTAGGGCCATCTCCTAATCTGCCTTTAAAAAAAAAAACAATGAAATTTCCCAAGCACTGGCCA
AAGTGAGTCACTTATTCAACCAATAAATATTTATTGAGCATTTTCTATGTGTCACTATATCTGTGAGATTCCCATATGTGCTCCACTGAATAAACAAATA
GAGCCACAGAATGAATGAAATAGACCCTTTCCTCCAAGAGCACATTGTCTATTGTTGGGGTGGGGTGGAGTCGGGGTGGGGTGGAGTCAGGTTGGGGTGC
GCTATGAGCATATACTGTGATAGAACTGTTACAGAGCCTTGCTCTGGGAGCCCTGGGAGTCCCTTATGGTTTTTAGAAATTGACCTAGGTCTTTCTCTCA
GCATGAACATGCCCTAGCCAGTCAAGCCATTCCCATCAGAGGAAATGACATAGACATTAGTTTTTACATTTTGGTTTTTGAACCCTGAAGACTCTCCTGT
AAACACTCACTCAGCCCTCTGCCCCATGTCTGTGTCTGTGCATCTGTGTGTTATCCTTGGTCAGACTGATGTCTGGACCAGTCCCCCCTTCTGCTTGTYC
CCCCAGGTTCTCCCCAATTACCATTGATGGAATGACAAGCCTTGTGGGAATGAACATCCCTGGTCACACAGGAACTGGGTGGTGCATCTTTGTCTACAAC
CTGTCCCCCGATTCCGATGAGAGTGTCCTCTGGCAGCTCTTTGGCCCCTTTGGAGCAGTGAACAACGTAAAGGTGATTCGTGACTTCAACACCAACAAGT
GCAAGGGATTCGGCTTTGTCACCATGACCAACTATGATGAGGCGGCCATGGCCATCGCCAGCCTCAACGGGTACCGCCTGGGAGACAGAGTGTTGCAAGT
TTCCTTTAAAACCAACAAAGCCCACAAGTCCTGAATTTCCCATTCTTACTTACTAAAATATATATAGAAATATATACGAACAAAACACACGCGCGCACAC
ACACACATACACGAAAGAGAGAGAAACAAACTTTTCAAGGCTTATATTCAACCATGGACTTTATAAGCCAGTGTTGCCTAAGTATTAAAACATTGGATTA
TCCTGAGGTGTACCAGGAAAGGATTTTATAATGCTTAGAAAAAAARAAAAAAAAAAAACAAAAAATACCTTTGATGCATTGAATGTTCTTTCATAGCTGT
CGTTGTTGAATATAATATACATAGATAGCGATGTGCAGGGATTTTTACCCAGCCAGCTAACTTTACTACCTTCCTTGAAGGTGGATCTTTTTAAGATGAC
CATTCGCTCATTTGAAGAAGAAAAACAAAAAACAAAAAAAATAATAAAAATAAAACAATTTTTACAAAGTAATGGGATTCAAAGAAAGGAAAAAAAGATT
TTTCTTTTTTGTCAAAATATCGATCCAATCAGATTGGTAAAAACCCCCACACAAATTAAAGAGGAATAATAAAAATTGCAAAAATAAAAAAAAACTTTTG
CAAATTTTTTTATTTTTCCTTCTTTCTTTTATATCATGTGAACTAAAACAGTCTTCTGTTAGGGGATGGGGGCAAGGGGGATACCTGATGACATTAACAA
TTTAATAACATTAACATTGTTGCCAAAGAGGTGGTCTCTTTGCTGAAAATGGGTTTCAAGAAAAATCTATTTTTATAAAATATAAAGAATTTTTACAAGA
GAATCTGGATTTGAGAAAAAAATATTTTGACTGGCTAATTTAGGGGAAATTGACAACTTTGTCGCGTTCATACTGCACTGGTAACTTTTTAGAGATCAAG
ATGTGTGTTTTAAACTGGATTCGTAGACTGTTTTTTGAAGGATGGGCTATAAACAGATGATCTTCATATCTTTTCATAGCATGTAATAATAATTAAAAAA
CAATTATTAATTACTAGGGGAAAGGAGTGTTCGTTCTACCCAGGGTACCACAGTTCCCCACAGTCAAAACCCAAAAGCAAGGAGATGAGTTGAAAGACAG
TTTTTCTTTAAGTCATCAGTATGGGATGTCAGCAGAACAAAAATTAAAAAGATTAATTTTCCTTTTGATCTAAAACTTCCTTAGTTTGAGCAGTAGGTGC
TACAAAATTATTTACATATCTTAGTATCATAGTTAAATGTAATGTGTTTAGGAGAGGAAAACAAAAGATACATTTGCTTTAAATTCATTAAGAAATTTTC
AAATTCACTTTGTAGCCCATGCTGATAGAATTGGGCTGTGTTGGTACATTTGAAACACTGTTTATGTTGCTTGAAACACTTATTTATTTAATCGCCGATG
TGATGATGCCTATGGCCGAGATCAAATATAGCTAGATTGGCTAGACTACTTATTTGTTTACTTAAACTATGGGAAGAAGCATATTATTGTGTCATTCTGT
TGTGTGTGTATGTGTATATACAATATAAATATATATATATAAAGTTATTTTTTCTTTGGGTTAATTTATTATAAGTTGTAACACTTGGCTAGTTTTGTTT
GTATATGTCTTAAAATGTTTTCTTATGATATTTAAGTGACAGTTAAAGAGGTATCAAGGTAACTTGTGTAGAACTATTCTTTGATATATTGTCATGTTTG
TTGTGAATATTTTTTCTTACTGCACAGTAGAAAAATAAAAACAACTGAGTCTTTATTTTAATGTAACTCAGATTGGGGAAAACAAAACAGAGCTAAGGGA
ACAAAATGACTGAGGGAGCACTCTCCCACGTCCAGTGCACTGATCATTTTAGTATGTTTGTGCTTTGTACGGTTATATATTTAAAACGAAAACAAAACAA
AAAAATACAAGGGTTCATGCTCTTCCCTGGGTAATAGAAACAGTTACTCGCTATGCATAATCTAGTTGATAGTTAAATTTGCTATTGCTTTTCTTGTCTT
GTTATATAAAATCTTTTCAATACAAGTTTAGTCTTAATGGTAATAAAACGTTATGGTTATTTATAACTTGTGCTTATTTTGTGCATTTTTTCCCATGCTG
AACCCACTAAGTGCATGTAGACAGGACTGTTGTTTTCACACTGAAAAGGCAAACTTTGTAGTAGTCGTTGTAGTGGTAGACAGATAACGAATACCAAGGC
TGCATCATAGACTCCTCCTTTAAATTTTTTTTCTGTTTTTTTTTCCTCTTTTCGGTTTTGGATATAACACCAGATTTCAGTTCAGAGAACACTCGTTCAA
CATTCAGGGAAAGCTTTTTACGTCACCTGCTATGAATGAACGTAGTTTGCTGGCAAAGTTTTGATGCATTTGCTAAGCATTAGTGGGAAAGGCATGCCAA
AATCTTCTCTATAATGTGTTCAATCTTGGGGGAAAAAAAAAGGAAAAAAAATCTTAGGACCAGGCAGTTGTATACTTTAGTTATTAATGAATGACTTCAT
GTTAATCTTGCTAGTTTAGATGATTTCCAAGGGAAAGTATTGTAAATGTTTTTTTTTCATAATCTTGTTGTGTTTGAATTATTTGTACTTTATCTGTCCA
GACAATAAATGAAAGTGTGTAGAATGGATTTGACTTCCCAAATTTTTAAATGTGTTTATTTAAACTTTTTTTCTGTACCATCTTCAGATTTCCCCAATAT
TTTTATCATTAAACCAGGGAAAAGAAAAGGCAGAGTAAAATTTTATTTTACAGCTTAGCCCAGTCTCTTAAAGTCAGCTCGATATTCAGAAGTCACTGTT
CTGGTTCCATGCTATTAAAAGTGTGGTGGTCCCCAACCAGCAGTATCAGCATCATCTGGGAGCTTGTTAGAAATGTAGAATCTGCATTTAACCAGATCCC
CAGGTGAATGAATCACTGGTACTTTCAAGTTTAAGGAGCACTGCCCTGGTTCATAAGCCAGAACACTTGGCCTTACCTTTGGTGTTATGATACATTAGCA
CCTGTTATTCATTTATAAGAAGGCTTGTGACTTGTTCAGAGGACAGGGAGCCACCATTTGCAGAGCACCTATTATGTAACGGGCAGGCTGTATGGTATCC
TCTATATTCTCTCACTTTATCCTCAGCAACCCGAGGAGTGTAGACAACCTTATCCTCATTTCACAGATGACAAGACTGAGACTCAATAAGAATAGTAACT
TGACACCATAAGCAAATTTCCAGCTGGGATTTGAATCCAAGTCTGATTCCACTGCACAGCACCTCAGCATTAAGGTTGCAGAACTTGAGCATTAAGAAAT
ATTAAGAAAGCAGACCATTTGTATTGAAAGTGACAGCTAAGCAAGAAAGGTCATCTTTTTATTTTAGCACTCATTTCTGTTTAAAAGTAGGAAATATTTG
GCTTTCTTACCTTTGAATAGAAACTCAAAACAAGGAATTACTCATAATGTGTCTAAAGAACATGATTTAAGCTCAACCTAGGGAGAAAAATACTGCCTAC
ATTATCATGAAGTCACATTAAAATATGCCCTGAACTTTACAGATTAGCTTTTTAGTGATTTCCTGATACAATCACTCACTGATTATCTACTGTCTTTCAT
TTTCATTTCCTCACTAACTGAAAATTTATACTCTATAAAACATTGCCATCCATAAACTGACACTTCATGAAATGCCCCCACTGAGCCAGATGAACAAATA
GTCAGATTCTCTTCTATTTCTAATTAACCTCTTTTTTATTATTATATTAAGTTACCACATTAGTTGGAATAATTAAATTCAGGGCAAAGAATGAGATTTA
ATTAACCAAGCTAAATATTAAACTTCTAAGTCAGGCTAAACCTCATATAGTTGAACTTAAAGGTTCTTATTATAGTTTTATCTTAAAGACAAGTCCCTAC
GTTTCTTTTCTGGAGAAAAAAAAAATGGACATTCAAAAGAACAGTTTCCTACAGGGATAACACAGCTTTACAACCGTGTTTGTAGGTCTAAAAATGTTGC
TGCCAAACCTATGATAGTTGCCAGTCATCACCACCCCTGCTCCTTAAAGGTGCCATTTTAGTGTACTTTAAATGGACGGCTGCATTATTTTGGAATATCC
AAAGTTAGTAGAATCTTCCCAGTTCATAAAGTTCATTCACTAGCCTCCTCCTACAGATCTATGCAGAAAGTTTTACAAATAGATGTAGGTATTTAAATAG
GTCTTGACAATGTCCATAGAAGACATTCTGCATATACTCTCTCAGAAACACTTTCTAGCATCAGCACAATGTGTCTGCCTAACATCTAATAAAAAATTCA
TCTTGTTGCGAATATAAGCCTGTTACCTTAAATCTCCAGGCAAACATATATAGTTTCTGTAGGTGTTTGTGGAAAACGTCTAACAAATCACAAGAATACT
GAGATTATTACATTTCTTTGAGGTCCTAGGTACATTGTATTTTGCTTGGTTGAAAAATTGCATGTCATAGAAAGCTGACGGCATTTACTTAGTGTTATTT
TTGTCAACGTGATAGGAGGAGTGAAAAAAATGTGTTTGTGTCTAAAACCACCCCACATCATCACCATCAACATCAAAACTTTACTTACTTCTATTACCGA
AGATCAAACACTGACCAAATGATGGTTACTGCCAGAAATTTTGATCACCTGGGGTCCTGTTTATCAAGATCAATCAACCTTTGTTCATTTGTAAATAAAA
CATTTTAACCCCCAAAGAATAACATTTAAATGTACGTTTGAAACTCACAAGGTCTTGTGGCGCCCATACTCTCCTTGAGTCACTATTTGGGTGTAGATAC
TTTTAACCTTGTCAAAATGCAGCACACAATTTCCTTTGCCATAGGTAATTCCGGAAACTCCCAGTCCTTGAAATTATTTTGCCCTTACTTCCTGTAGGCA
CTATGCATTTGTTCCTTAACAGACACACACAGGCAAACATACAAGGCAAGTATTTGTATAATTATGAATTTTTTAACTTTCATCTGTGAATTCAAAAATG
ATACCTGATAAGATAGCGTTAACAGCAAGAGTGTGTTTTCTAAACCAAAGAGTCATTAAAATCTTAATTTGAGGCCATCCTGCCTGGATCCTTCCACAGC
CTTCATGAAAGCTCACAGAACACAGCTTCTAATATCCTTGCACCCTTGACTGCCTTTGTTCTACCTGAAGAAGAGAATAATAAAAGGAAATTACATTTTA
TTTCCATGAGCTGAAATCAAGTTTTAATATTGTCCAGAAATGACTCGTACCATTCCCTTATCTTATTAGCTTTTTGGCGTATTAGGTAATAAGATAATTT
CTCATGGTACAGTATTTATGTAAGAATCATATTTCTCTCTGTGCAGATCACTTACAGAAGTGTCTGTTAACAGGAGAGAATGATACATAATCAGCACTTA
AGATTAAAATAGACCTGAGAACATAAAAGTGTTCCTTCAATTAAAGGAATAGCGTTTTTCCCGTCTCATCCTTTTTGTTTCTGCAACAGAATGAAAACTG
GTTTAAAATCACCCAACCCCAGGTTAATTCCCAGAAGGCTTTTCTATGCGAGTTCAGCTTAATCTACTAGTGGTTCAAATGCAAAGTGGACTCACATGAC
ATTCCAGTATGCCATGTAATTATTTCAAACAATTTTCGGCAAGGTCCCTAAGGTTTAAGAAATTGTTTCTAGAAAGACCACTGGCATTTATTAAGTTTTT
CCTATGGCAGGCACTCTATATGTATATAGCGTTAGTGAGGGGTATCATCCCCCTTTTACATTGAACAGAAAGAAACTCAGAGAGATTAGGTATTTTGTGA
AGGTGTGTAAGTACCAGGTCTGTCTGATCCCCAAGATCCCCAGTTACACACCGTGGCTCCAAGTCCATTATGCTAGAATTAGAGCCAAAATAATTACCAC
ATGGTCCACACTTCAACTAAAGGTGAGATGAGTCCTATTATGTAGGAAATAAAGGAAATTACATTCATGTACTGTGCCTGAGTCTAACCCTCTCCCCAAA
TCTTTAATGGAAAAACAGACCAAATATCAATGGTTTACAAGCAAATTAACAAAGAATAACTAAAAGTGATAGTTTTTAAGCACTGTTGCTCTGCAGTATT
TAAAAATGAAATTAGTTTGTTAATAGGTCTATTTTAACCACCACAAATCATTGAGGTAGAAAGGAGTTGAGGATAGGACAGACAGGTAAGAATGTTAACA
AGCCAACTTAAGGACCATCAGAGCTGGCCCCATGGGTCTCCCCAAGTGATAGCTCCCACTATGACACACAGATGGGTCCATTGTGTGGACCAATAGCACC
ATAGTGGCCACTCCTTTCACTATCTGTATTGCCTCTGAATCCTCAGAACAATCCTGGGAAGCATATAAAGTAATCCTCATTTTACATCTAACAAAAACAG
AGAAGTTAAATACCTTGCCTAAGGTTACACAGCATGTTGCAGAGTGGGAATTTGCACAAAAGTCATCCGGTTCCAATACAATGTCTTTCTGCTAAACCAT
ATTGCTGGCTTTCAATGTGACACCATTTGTTGATCATCTGCCTAGGTGTGAGGTATGGCAGGGTGGGGGWTGAGGGGAATCAGTCTAAGCCTTGTCTACA
CTAGAATCCTTACTCTGAACCCCTGCCATATGCCAGATACTGAGCTAGGGGCACGGCAACAAATAAACATGTCTAGCTTCTTTTTTTTTTTTTTTTTTGG
TATACCTGTTTTGTGCATGAAATTGTGCAGTGGGTTATGACAGAAAACCAAAAAAGCAGGAAAGGAAATTTAGAGTTCTATTACGAAGACAAGACCTGTG
GAGCAATGATCTGGCCACAGAGATGTAGCACAGGTAACTTTTGTGTTGGAGGGAGAATTTCAGATTGTGAAAATCTGTGGGGAATGCAAGGAGTATTCTG
GGATCCAGGAAGGAAGGAGAGTTTGCCCTGATGGAAAGAGGACTAGCTTTAGTGAAAAAGTTCTGGGTTTGGGTCCCTGGGACAAAAATTTAATGTCTCT
GAAATTCCTGATCAGAGAAGGGAGGATTAGAAGTAAAATATGCCAAGTTCCTGGCACTGACTGAAGAGTAGCAGGAATTAAACAATAGCCAGAAAGAGTT
CCCAGAAGAAGAAAACTTTGGCCAGGCCCTTTGGCAGGGAGAGGTGGGTTTAGTGGATGCCCCTGAATGTAAAGAACCAAGAAATCCTGTTTGGTCACTT
CAAGTGAGGGAGGGAAGAAATAGTAGGAATACACGTGGGAATAAGTTGCTGGGAATCTCACTTGGCCTCATGGAACTTAAGCTGCTTTTGAAATACAGTA
AGTCCAGCCACTTGGCAGCAAAAGCTCTGATTGCCCTCAGCAACCAGAGGCCCTATTGGTCCCTCCTCTGGTGTCTGGCCATTACAGTGACTCAGCCACT
CCATCTCATTCACCCCTGAGAATTAGACCGCTGGGAGCATCATGGAAGAGTCACAGAGACTTCCCCTCAGGGTAAAGGAGTGGAGGCCACACTAAGGAGC
TTAGGTGGGCAGCAGTGGAAAGGGAGAGCACAGGAATAAGAGGAAAAGGGTTGGTCATGCAGGCTGAGGCAGGAAACATCTTTAGGTAAG


SNP Information

Context             (SEQ ID NO:29553):
TAAGTCAAAAAAGAAAAACAGTAACCCAGAGCCTGCTCCTCTAGAAGGAGGTTTAAGTTTCTGTCACTGGATAGTCATACTCTGGGTCCAGACTTCACCT
R
TGGGATCCTTCAGGAGGTAGTGCTGTTTGCCTTGGGGGATTCCCTTGGGCAGCCGGTGGTGGTCTAGTGGATGGAGCCTGCCTCCTCCTCGGCCTTCCTT
Celera SNP ID:            hCV15976354
SNP Position Genomic:     135940
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29554):
GTTATACTCTCTGGCATGGGAAGGAGAATAAAAAGCAAACAAATGAATTGTGTGTCTCCTCCAGGTTCTTTAGTAAACAGACATGGCTCAGGGCTTCTGC
Y
ATCAACCTAGGGACAGACCTGACTTCATTTCTTCTTGGGTCCCTGCTTTCCAGGCTCTGTGCTAGGTCCTCGGATTTAGGTGAATCAGAAATGACAGTGC
Celera SNP ID:            hCV15976355
SNP Position Genomic:     139300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29555):
ACTTAGAAATGGTATTGACAGTACAGGTTGACATCAACAACAAGTGGAAGTGATGACTATAAATTTCGTGACAGTTCTTTCTTCTCGAGGAATGGGTGCT
Y
ATTGTGTCCTCTCCTTCTGGAATGCTCTACTATACCTGTTGCCCTTGACTGCCTATTGCCTGGCTGTCTCCTGTCAATTTTTTCAAATTAGTCTCAATTC
Celera SNP ID:            hCV15751585
SNP Position Genomic:     121061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29556):
CTGTGTCTCCTTCCCGGCCCTTTTAACCTTTGATTAATCTCTCCCTCCTCTGTGTTTTAGTCACACTCATATGTATCCCTGGCATAACACACACATCTTG
W
GGCACTGTGATAATTGGTCTGTATGTTTACTCATCCATTCTTTTGTTCAACACATTTTATTGAGTGCCTCTTATGTGTTGTCTGTTGCCCTCTTTGGACT
Celera SNP ID:            hCV29130196
SNP Position Genomic:     149017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29557):
GAGCAACACAAAGGATGGAACATAAAAAAATCTTGCAGAGAACCTGATTGCTTTTATGTATTCAGGAAGAAGGGGATGGGGGTAGGGAGGGTGGCAAGGA
R
AGAAATGTGCAGAGCAGAATTTCATGAGGTTTTTTTTTTTTTTTCTGGTTTATTCAAAGATTATTATGTGTTGGATACAGTAAATCATCTATACACCCAC
Celera SNP ID:            hCV8847026
SNP Position Genomic:     151296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29558):
TGTAATGAAGCTGGTCATTCTTGCTTTGTGTAGCCATTCCCCAAGAATCCCGAGCTTTTTAGAAAATCAAAGAAGATGACGTTCCCCCGCAATTTCTACC
Y
TAAAGACCTATTTCTGCATGAGTTGTTCTTGGGTTTTTATGTCTTTATTTTGCCTTATTTCCTACCTGCAAGTTAAATAGCAATGAAAAGGGAAAACATA
Celera SNP ID:            hCV29130197
SNP Position Genomic:     118255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29559):
CAGTATAAATAAATCAAGTACTACTCCAATGTGAGTTAGGTCTAATTTTTGCTGTTAAGTGGTGTTTTGTTTATATTTTTCATAATTTATTTTAATTTTA
Y
GCAAATTAAATTGGGCTGGATAGATTGACCATCTGACCAGTTTCCTAGAACTTATGCATAAGGTTTATCATTGAGATAATTGTTTTAAAAATATCCTTTA
Celera SNP ID:            hCV11850767
SNP Position Genomic:     132938
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29560):
GGATAAGGGTATTTGTAAAAGAAACATCATGTTCTGTGACCTTCTTTGGTTCTTTCCTCTTGATCCTTTCGCATGAATTGTGCAGTGAGGCTATATCTCC
R
CCAGAAAACCAGGAGTTAAGGACTGCCAAAAGTATGGTGACAGGTGTACAAGAACCCTGCACTGGGCTCTTAGATGATGAATGTCAGTACTGAGTTCTGT
Celera SNP ID:            hCV29130198
SNP Position Genomic:     94771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29561):
CCAGATTGCCAGAGGCATTGAATGCTGTGCCAAGAAGTCTGGACTTTATCTGGGTGCAGAATGGAGCCATGGAAGGGTATTTTGTAGGTTTTGTTTGTTT
W
TCATTTTAGAATGGGAGTCAGTGAAGAATAGGTACTATGCACAAGGTACAAAATTCAAAAAGTACAAAAGAGATACAGAAGATGTTTTTAAAGCATATCA
Celera SNP ID:            hCV26468146
SNP Position Genomic:     153032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29562):
CATTATCATAGGATTCTACCTTTCCATGAGTGTTCTGCTGGTTAAGGGCATCTTAGGAGTCTGCAAAATGGGGTGTTTTTTTCCTTCACTTACTTGTAGT
R
GGGTCTTGGTAAAGTCATTAGCCTGTCTGAGCCTCAGTTTCCTTATCTGTAAAATTGGGCTAATAATACCTTCCTCCAAAGCTTGTTTAGAAGATGAACT
Celera SNP ID:            hCV29130199
SNP Position Genomic:     83833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29563):
TCTTTACAGAGAGAGGAAGTGACTCTGTTGATAGCCTTACCAGCAGGCTAGATTCATCCCTGGCTGTGAATTGTCAATGAATTCTCCGTTTGAGAACAGA
K
AGAAGAAATTTGGTCATGGAGTTAAGTGTTATGTGCTGGGGACATAAACATCACCATTTATCAAGCACTTCATCTGTGCTGGATACTTGCTAAGCGCTGG
Celera SNP ID:            hCV432130
SNP Position Genomic:     105952
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,8)      total(G,4|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29564):
TGATTGCTTTTATGTATTCAGGAAGAAGGGGATGGGGGTAGGGAGGGTGGCAAGGAGAGAAATGTGCAGAGCAGAATTTCATGAGGTTTTTTTTTTTTTT
T
CTGGTTTATTCAAAGATTATTATGTGTTGGATACAGTAAATCATCTATACACCCACTTCCAGGAGGTAAATCTTCAGAACTCCATGTGTGGGTAGCTCTG
Celera SNP ID:            hCV26468147
SNP Position Genomic:     151340
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29565):
AATGTCTACTGCACAGTGGTCCCTCAGTAAATAAATCTATTATTGTAAGTACAGCTAGTATGCTTCAAGGAAAGTGGCCAGAACAGAAAAAAAAGTATCT
R
TCAAATTCTCCAAATAGGGCCAGGCTTTGATTATCTTGTACCAGAGCACTGGAACATCTATCCTTAAACAGAATTTCCCATACGTTCAGAAAGCCAATAT
Celera SNP ID:            hCV432131
SNP Position Genomic:     104526
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29566):
TTTCAGAAGTACATGGAATGGGGTCTGGGGGCTTTAGCTGTCTTCAAGTGTAAAAGAAGCCAACAATGTGATGTGAGCTGCTTCAAAAAAAAAAAAAAAA
A
TCAGCACAACTTTAGTTGTGTTGGGAGAATTATGGACTCCATATCACAGAAAATAGTGGTCCTTTCTTGTCCACTCTGGTCAGCCCATCCTAGTGTCTTA
Celera SNP ID:            hCV26468148
SNP Position Genomic:     142366
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29567):
AAAATGAAATTTCTGGGAACATATGGCAGGGTCTTGTAATTCACCTCCCCCTGCCCCCACCACACGTACACACACACACACACACACACACACACACACA
M
GCCACTCACACACCATACTTACACAGTGAGATGGAAAGAGAAGGGTCCCAGCAGCTGGAGTGCACCCAGCATTCTCTCCTTCCTCTTCAGTTACTAATCC
Celera SNP ID:            hCV26468149
SNP Position Genomic:     133369
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|-,3)   total(A,2|C,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29568):
CATAGTGTCTTCATCATCTTGCTCAGTAGAGCTGCACACTTTAATTCCCCTTCCTACAGTCAAGGGAAAGAGATGTAGTCTTTAATAGTCCACATCACAC
Y
CCCAGTTCTTTCACTGGCCATCCATGGTAAGTACCCTGACTCTGGGAACTGGTGCATGGTAGAGGAAGTAACCTGACTGCAGACTTCACTATCAGAGGAC
Celera SNP ID:            hCV15756022
SNP Position Genomic:     156391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29569):
CAGACGGTTCCTAGGGTCACCTGCAGAAGAATAGCCAGATGGGGAAACTCAACGCCTAAGAGATTCAGATGTTTAAGAGTCATGTAAAAGCCTCAAAAGC
W
TTTGAGGTCCCAACATGTAAAGTATAGGAATTCTCAGGTTGGTATTTGGGCATCAGAGAGTTGGGTGGAGGTTGTAAAAAGGTCTGCCACAGAGGACAGT
Celera SNP ID:            hCV109654
SNP Position Genomic:     47927
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,6)   total(A,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29570):
TGTGACCAAATGAGTTTGAAAAACTGAAGTGAACCAAGTTTAAAAGTGATTTATTGGTGGGGCATGGTGCCTCATGCCTATAATCCTGGCACTGTGGGAG
R
CCGAGGCAGGCGGATCACTTGAGGTCAAGAGTTCGAGGCCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCTT
Celera SNP ID:            hCV70017
SNP Position Genomic:     117319
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29571):
AGATAGCAGTATTGTCTGAAAGCACTTTGCAAACACAACAGAGCTACCTATAGCTTTCTGCAGCTTAAAAATGAGAAAAGCAGCGATTTGGAAGCTTTGT
Y
TAGGAAAGGTTGCATTTGTTAATTTATTTAACTATCATTTATTATGAATCAGATATAAGCCCCATCCTCAAGGAGCTCAAGTGGGACAGACATGCAAAAG
Celera SNP ID:            hCV435984
SNP Position Genomic:     52085
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29572):
AAAGTGATGATTGTACATATCCTAGCTTTCTCGTGGTTATAAGAATAACACAGTAAATACTCTGTGAATATTTGTTGAATGATTATAATGAGTAAATGAT
R
TATGTTATTTAACCTCTTTCTTAGTTTTCCTTATATGTCAATGCAGAGATAATAATAACAGTACCTACCTTATAGGATTGTTGTGAAACTAAGTGAGTAA
Celera SNP ID:            hCV435985
SNP Position Genomic:     51836
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29573):
CAAAGTTTTGGATTGATGTTCAAATTACATTGAGAACCTTCAGTAAAAAGTGATCCAAAATGGAATGTGAGGGTTTGGTATCACACCCACTAAACCTTTC
R
GAGTGTTGGGACACCTGTTTGCGTTTTGACCTAAATGTCAGGAGTAGGATTAAACAAGCGTTCACTGCTGGCTCTGCCTCCAGAAGCTCCTGTCTCATGG
Celera SNP ID:            hCV15976365
SNP Position Genomic:     140311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29574):
AGACATTGGTTTTCATCAGCTCTATTAGGAGCCTTATCCACTCATTTTTAAAGCAAAACATGCTTCTTTGTAAATAATTTGGTATGTACAGAATCATATC
R
TGAAGGCAATATCAGCCATTCCTAAGCCAACAGTGTTAACATTTTTATATATTTATATATTTCCATCCTTTTTTTTTTTTAAATTAAGACAGGGTCTCGC
Celera SNP ID:            hCV15976366
SNP Position Genomic:     140753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29575):
CAAAATGAAATTTCTGGGAACATATGGCAGGGTCTTGTAATTCACCTCCCCCTGCCCCCACCACACGTACACACACACACACACACACACACACACACAC
A
CGCCACTCACACACCATACTTACACAGTGAGATGGAAAGAGAAGGGTCCCAGCAGCTGGAGTGCACCCAGCATTCTCTCCTTCCTCTTCAGTTACTAATC
Celera SNP ID:            hCV26468150
SNP Position Genomic:     133368
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29576):
AGCTTGAAGTTCATTATTTCATATCAAGGAGAATCATCATCATTTTTCCTCTTCCTTTCTGAAATGATGTTCATCTGTTTTTTGTTTGTTTTTTTTTTTT
T
CATTTTCCCAAAAGCACCCTCATTCTTGATGTTAAATGCAGTCTCTCTCTAAAGTTAGAGCAGGTGATAACACAGTTGTGCTAATTGCAGTCAGGAACTA
Celera SNP ID:            hCV26468151
SNP Position Genomic:     132449
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29577):
GGAAAATAAGGGGTTATAACCAGCTATGCTCTCAACACTTTCTAGAGATTAAATATAACAAAAATGCTTAACACAAACTACTGGAGATAATTTACTCTTT
Y
ACAGCAGATTCAAAAAGCCTCTGATACATTTCAGGGTCTCAGAATCATTGTTATTATAATAACATTTTAGTTCAAATGGAGTAACTAGTTGTGGCAGAGA
Celera SNP ID:            hCV26468152
SNP Position Genomic:     130298
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29578):
TTCTGTTCCTCTAGAACCACTCCTGGTACCAAAATCTGTATTAGTCAGGGTTCTTTAGAGGGATAGAACTGATAGGAGATATGTATATATATATATATAT
W
CACACACACATATATATATGTATATATATATATATAAAGAGGAGTTTATTAAGTGTTAACTTACATGATCACAGGGTCCCACAACAGGTTGTCTGAAAGC
Celera SNP ID:            hCV26468153
SNP Position Genomic:     126912
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3|T,3)   total(A,3|T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29579):
GTGGCTGTAGCCAGGTCACCCTTGGTGAGTGGAAGTCCATGTTGCTGAGCCTATGCATAACCTCCATCCCTGCCACCGTGGCCACTTTGTTCATGACAGG
K
GTGGCTGGGGAAAGAGGCTGAGTGGTGTCCACATAATGGGCCATTCTATCCACTTAATTATTAAAATCCTCCTCTGCTGAAGTTACCCATTGGTGAGCAC
Celera SNP ID:            hCV26468154
SNP Position Genomic:     125652
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29580):
TACTAATTCCTCTACTTACTGTGTGCTTTGGGTTGACAGAAAACTCCTTAGCATTTGTGTAAGTGCAATATAGTTTAGCATGAGAGATTTTAAATTAGAT
R
TTCTTGGTTCCGGTCTGACCTCACCACTCAGTAGTTATGTGACTTGCATAATTAATTTTTTGGTCCTTCCTGCCACTTTTTTCGCCATAGATACATGGGG
Celera SNP ID:            hCV27321639
SNP Position Genomic:     7932
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29581):
TTTGTTTGTTTTTTGAGACAGGGTCTCCCTCTGCCATGCAGCCTGGAGTGCAAGGGCAGGATCGTGGCTCCCTGCACCTCCTCCTCCCAGGCCCAAGCAG
T
CCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTATACATGTGAGCCACTGCACGCAGCAGTTGGCCTTTCTTAATGAATAGTGTAGCTTTGTAATTGGTC
Celera SNP ID:            hCV26468155
SNP Position Genomic:     119778
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,13)   total(-,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29582):
CCCTAGGGTGTGCATTTTAGGTATTGGTAATTTATTTTGGGGCTCACAGGGAGAGAAGAGAAAAATGAGAGCTACTTCCCATTCTATAACTTTCAAAAAA
R
TGAGCAGATAATCTCAAAACCAAAGATATGTCATCTCAGAAAGGACTGTGAAGAAAATAAAATTAGATTTGCTGTAAATCAGTATGATTGAGACTGGTCT
Celera SNP ID:            hCV11864532
SNP Position Genomic:     84119
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,10)      total(G,10|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29583):
GTACGAGAGAGAGACAGCACTACCCAAGAGCTCCGCACACCCCAGCACACACACACATCCCCCAAACACTTTTCTGGCATGCATGTGCGTGCACAGGCAC
R
CACACACACACACACACACATCCCCCAAACACTTTTCTGGCAGGCATGTGCGCACGCAGGCACACACACAAACACATCCCCCAAACACTTTCTGGTCAGA
Celera SNP ID:            hCV26468156
SNP Position Genomic:     113979
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29584):
TCTGCTGCTGGCAGAAGTTAGATTAGGATCTGGAAAAGGGAGGAAGGCAGGAAAACAACCTGGTAGATGCTGATGTGTAGGTGTCTGAGTCCTGCCCAAC
Y
ATTGTCACTCCCATCTTGCCAGGGGAATTAATTTTTCACTTATTTAATACTGAAAATTCCCTTTTCTGTTTGATTTTTGTCCTCATGATTGGAACTTTTA
Celera SNP ID:            hCV430253
SNP Position Genomic:     12248
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,7)   total(C,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29585):
CTTCTTGTTTTTTGACATGTCACTTTGATCCAAAAAGGATTTTCATTGGCTTATTAGATAGTATGGAAAAAACTAAAATTGAAATAGCCATCAATTTTTT
W
AAAAAACAGAATAGAAGGAAATGGATATAGAATGGTAAAAGGAGACCAGAGGAAATTTAGTAAATTAATTGTGGTTAAATGACTCAAACGGACCACCTAG
Celera SNP ID:            hCV26468157
SNP Position Genomic:     112856
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29586):
GGCTGCTTATTTTTCTTGCTCTTTCTTCCTCTCTTTTCTTTGCCTGGTTTGTTGTTGTTGTTATATTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
TTGTCCTGCTTCCTCTTTCTGCCTTCTTGTTTTTTGACATGTCACTTTGATCCAAAAAGGATTTTCATTGGCTTATTAGATAGTATGGAAAAAACTAAAA
Celera SNP ID:            hCV26468158
SNP Position Genomic:     112733
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29587):
TGGCTGCTTATTTTTCTTGCTCTTTCTTCCTCTCTTTTCTTTGCCTGGTTTGTTGTTGTTGTTATATTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TTTGTCCTGCTTCCTCTTTCTGCCTTCTTGTTTTTTGACATGTCACTTTGATCCAAAAAGGATTTTCATTGGCTTATTAGATAGTATGGAAAAAACTAAA
Celera SNP ID:            hCV26468159
SNP Position Genomic:     112732
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29588):
ACTGTTCTAAGTCCTTGTGTGTTTTGTTTCCTTTTGCCCCAAGGTACCCATGTGCTAACAAATAATAAAGAAAAAATTTCAAGCAGGAGTTTTTACATTA
S
TTGAGTTGTGAAACCTTGAAGATGATGTAAGCATTTCAAAATCCTTGAACAAGATGTAAGTTTTAATGGTATGCATAACATATATGACACACATTTACAT
Celera SNP ID:            hCV150199
SNP Position Genomic:     55908
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29589):
TAGCATTGAATCTTCTCCTGCTTCTATGAGTTATCCTTTAGCCCTTAAAGTTGTTTTGCCAACAGTGTTCATAATAGAGACTGACTGTCATTCCTTGTTG
K
GTGAAGATGTATTTGTTGAGGACTTACTATGTGCATTTCTTTGGAACGTGGAATCCAAGGTCACCATTTCTTTTTCTTTTGACAATGATCAGAAGACATA
Celera SNP ID:            hCV29130200
SNP Position Genomic:     73728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29590):
AGCAATAAAATGAGTGCTTTGGTCAGAGGCAATGTTGTGTGGAATACCATGATGGTGGATAAGGCATTCCGTGAATCCATGGATGGTAGTCTCGGCAGAA
K
CATTGTGTGCAGGATAGGCAAACCCATTTCTGGAGTAAGTGTCTATTCCAGTGAGGACAAACCTCTGCCCTTTCCGTGATGGAAGAGGTCTAATATAATC
Celera SNP ID:            hCV11862578
SNP Position Genomic:     125354
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29591):
TCTAAAAATGTGTGGTCCCAAGCCTCTTAAACTTCTTGAAATCAAAGAAAGCCAACTGCTGGCCTGAAGGTCTTGGCAGAATGGTAATGCTACTTCTATA
R
CATTAACCACCAAAAGCCCTTCATCTCCAAGGATAGACAGGCTCCTTCAATCACTCGGTGCACTAGAAGCCAGGAAACAAGAAAGGGCACCCACCCACAC
Celera SNP ID:            hCV29130201
SNP Position Genomic:     46637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29592):
ACACAAAAGATGCCTTTTGTGTAGGAAACATTAGGGGCAGGCCTATCACTAGCAGGTGATTTTGAGAGAAGCAGCTAAGGTAAGATGGAAAGAATTGAAT
W
TGAGTAAATCAAGAGAACACCAAGAGCTGTATCTGAACATGACGGAAACTGTAACCAAACTGGATGGGCAAGGGGTACCAGAAGCCCTATACTTATAGGG
Celera SNP ID:            hCV29130202
SNP Position Genomic:     29578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29593):
AGTGCCTGAGACTGGGTAATTTATAAAGAAAGAGGTTTAATTGACTCACAGTTCCACATGGCTGTGGAAGCCTCAGGAAACTTACATTCGTGTCAGAAGG
Y
GAAGCACACATGTCCTTCTTCACATGATGGCAGGAAGAAGTGCCAAGCAAAAGGTGGAAAAGCCCCTTATAAAACCATCAAATCTCCTGAGAACTCACTC
Celera SNP ID:            hCV29130203
SNP Position Genomic:     25761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29594):
GGATGAATGAAGCAAACAGGATCCTGACTGAGGCAAGGGGGGTTCTCCAGGGCGCTGGCTCCAGTGTTGGAAGCCCTGTGACTCCAGGCCACTGGCCCAG
S
GGCATTAATATGCCATCAATGCTGACCCTGAAAATTGGCAATTTTTTGGAAATCTTTCAGCCTAACCAAGGGCCTGACCACTGTAGTCATTCAGTTAGAA
Celera SNP ID:            hCV27996057
SNP Position Genomic:     148220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29595):
CAGATAGAAGAAATTTGGTCATGGAGTTAAGTGTTATGTGCTGGGGACATAAACATCACCATTTATCAAGCACTTCATCTGTGCTGGATACTTGCTAAGC
R
CTGGACATACCCTATTTCATTTAACACGGAGCCTCCATTTTCTTAGATGAGGAAACTGAAGCTTGGTGATTTCCCCAGGCAGCATAGTTATTAGCAGGTG
Celera SNP ID:            hCV27996058
SNP Position Genomic:     106048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29596):
ACACTGTGGCCAAAAACTAGGAGCAAGAGAAACTGTAGGCTGGGTAATTCATGGATGCCTTTTGTACCTCTCTATGAACGTGAACCCCCTGTATTCCTTC
Y
CCAGCAGAGACATGAGCATGCTTTGTCCACACAGCCCCGCTGGGCCTTCTCACTGTTTTATGAGACAGATACCAAGACACATCAGAGTGGCAGCCCCTCA
Celera SNP ID:            hCV27996059
SNP Position Genomic:     30343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29597):
TCACCTGGGCACCAAGGGGCCAAATGCTCACTATAGTTTCTAAATTTTGGAGGCAGTCTTAATTTCATATCTCATTTTTTAATAAAGAGGATTCAATAAA
Y
GTAACTTTGATGATTTCCTTTTTATTTGTTCAACTTCCCATCAAAATAGACTCATAAATTGGGAACAAAAATACAGCTTGTTTTAATTTTCTGTTCTGAA
Celera SNP ID:            hCV27462084
SNP Position Genomic:     131616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29598):
ACACTAGCTACATGTGGAGGACACATGAGAAGACTAGAAACTGGACAGTGAGTGATCAGTTATAGTAACTTTTGGGAGGTGATGATGGGGCAGAGCAGTG
R
TAGAGGACTAGAGGGGCCAGATGCAAGAGAGCCCTGTGTTCTGTGGCTGGGAGGCATCAGTCCAGAGCCATGATAGCAGGAATGCAGGTAAACGTGTTTT
Celera SNP ID:            hCV15976377
SNP Position Genomic:     153265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29599):
GAGGAGATGGAAGCCATTTTATGATGGACAAATAGAGGACGGTGTAAGACAAAATGGAAAGTTGCGAATTATGGGCTGCGTTTGGGGCCAGGAAATCCGG
K
TGCAGGCCTGGACTTTGCCCCCATTTTTCTATGATAACAGAGAAGTAACTGGACATCTCTGGGCTTCATCTCGAATGTGAGTGTTGAGCTAGATTTTGTT
Celera SNP ID:            hCV26468160
SNP Position Genomic:     101727
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29600):
TAAAAAGAAAGAAAGAGAGAGAGAAAGAAAGAAAGAAAGAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAG
R
GAAAGAAAGAAAGAAAGAAAGAAGCAGTGAAGGGAGAAATTAACAATAAACTTTCAAGTGTGATAAAGTAATTTTCAGATTTAAAACTACTCTATCAGAA
Celera SNP ID:            hCV26468161
SNP Position Genomic:     91600
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2|-,4)   total(G,2|A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29601):
TTAACATTTCTCAAGCCTCACTTTCCTTATCTGCACAGTAGGCCTGATGATACCCATTTCACACAGAATTAAATGAGGTAACATTAATAAGCCACTTAGC
R
CAGTGCCTGGCACAAAGTAGGCACTGAATAAATTGTAGCTGCTATTAGTCCCCATGTTAATATAATCTTCACAGTGATACTTTGATTGTGAGAATTAAGG
Celera SNP ID:            hCV8846895
SNP Position Genomic:     129480
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29602):
ACTGAACCAGAGACTGTTTCTAGAAATGTGATTTTTATTCATTTGGGCTCCCATGAGTACTCTAATGTAGGAACAAACAGAGTGTGTCCAAGGAGAGATC
Y
TACAGGATAGCTCTGGGGAGGAGACAGAATCATTTTTAATACTGTGACTCCAAACTGGTTTGAAGGACTTGACATTTTCTTTCTTTTTTAAAAAACAACT
Celera SNP ID:            hCV26468162
SNP Position Genomic:     90636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29603):
TCCTTATCTGTAAAATTGGGCTAATAATACCTTCCTCCAAAGCTTGTTTAGAAGATGAACTAATTAACATGTGTAAAGAACCTGAATCGGGGCCCGGCAC
S
TAGTAGGCATCTAATAAAGGAAGATTTTTAAAATAAGCTCAGTCCCCCTAGGGTGTGCATTTTAGGTATTGGTAATTTATTTTGGGGCTCACAGGGAGAG
Celera SNP ID:            hCV26468163
SNP Position Genomic:     83973
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,9)      total(G,2|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29604):
GTTATAACCAGCTATGCTCTCAACACTTTCTAGAGATTAAATATAACAAAAATGCTTAACACAAACTACTGGAGATAATTTACTCTTTCACAGCAGATTC
M
AAAAGCCTCTGATACATTTCAGGGTCTCAGAATCATTGTTATTATAATAACATTTTAGTTCAAATGGAGTAACTAGTTGTGGCAGAGAGTACAGGATTTG
Celera SNP ID:            hCV8846896
SNP Position Genomic:     130310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29605):
GATGCCTCACGCTTACCTCATTGTTACAAATATAAGTTCCTTTTAGATTATAAAGCGCTATATTCTCATTGTAGAAACAAAACAAAGAGTTGACAAATAA
W
CAAGTCATTTGTTTAGGATGTAGGCATTTATACCAGGAAAAGGACAGTCAGTTCAGTATCAAAACAGGTAGGATTAGTCTGAGTGTATACGATTTATATG
Celera SNP ID:            hCV27868432
SNP Position Genomic:     93248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29606):
TGACTTGCCCAATAATAGATATCCAGTAAATGACAAGAATAGGGACTTAAATCCTGGTTTTGTGACTTCAAAGCATGATCAATTTGTTTTGTTTTTTTTT
T
GTTTTGTTTTTGTTTTTGTTTTTGTTTTTGTTTGAGACAGAGTCTCGCTCTTTCTCCCAGGCTGGAGTGCAGTGCCGCGATCTTGGCTCACTGCGAGCTC
Celera SNP ID:            hCV27321575
SNP Position Genomic:     13161
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29607):
TCAGCCAAAGTTTACTTTTCTTGGGGGAAAAATAAGGTAATTTCTCTTCTATATCAAATTTTTCGTTGGAGAATCAACAAATATATATATATATATATAT
A
GCATGTCTGTTGCATATAAACCATATTCTAGATGCATCCTGGAGCATCATAGTATTTAAAATATATTATAGTAAGCAAGGACAATGGCAAGCAGAATGAT
Celera SNP ID:            hCV26468164
SNP Position Genomic:     78019
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29608):
ATAACCTATTGAAGATAAATATATTTTAATTTTTATAAATTTCACCTTAGCGATGTGACCTAAAATGTAACCACCTCAAGTAGACACTGAATTTTCTACA
Y
GAAATTTGCTGTGGACTAAATTGTGTCTTCAAAATTTGCATATTGAAGCTCTAGCTCTTGATGTGACTGTATTTGGACATAAGGCTTCTAGGGGGTAATT
Celera SNP ID:            hCV27868433
SNP Position Genomic:     45513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29609):
CTCAGCCAAAGTTTACTTTTCTTGGGGGAAAAATAAGGTAATTTCTCTTCTATATCAAATTTTTCGTTGGAGAATCAACAAATATATATATATATATATA
T
AGCATGTCTGTTGCATATAAACCATATTCTAGATGCATCCTGGAGCATCATAGTATTTAAAATATATTATAGTAAGCAAGGACAATGGCAAGCAGAATGA
Celera SNP ID:            hCV26468165
SNP Position Genomic:     78018
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29610):
GCAAAAATGTGTAAGGAAATGTCTGACATGAGATAGACCTGGGCCTGGGAAGTGAGTCTGGAGCCTTTAGTCCTATGCAAGAAAGAGGATAAGCTGTGTT
S
TGTAAGGCCAGGGAGAATGGGAAGAAAGAGAGAGGGGGAGGGGAAATATTTGACGATTATTTAGGGGTATAATGCCTGAACCATAATAGTTGCTTGATAA
Celera SNP ID:            hCV27868434
SNP Position Genomic:     34660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29611):
GTGACCGTTTTGGCATGCCAAATTGGAAGTTTGCTAGTGGAGCAGAAATCATAGTTACTTTGTCATATACATCTAAATACTGTGGTGTGTGTGTGTGTGT
S
TGCGTGTGTGTGTGTGTGTGTGTGTCATGTGTTGTAGACAGCTGGGAGCCCCGGTGTGCCGTGGGATGTGCCAATAATGGCTTCTCAAGTACTCTGTGTT
Celera SNP ID:            hCV26468166
SNP Position Genomic:     74353
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1|-,5)   total(G,1|C,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29612):
CATTTCTGCCCAGTGTGGGAACTCCCCTAATGGGTAATCTTTATTTCAGAGCTCTCCATTAGGTTGGCAGGCCTTTGTCTGATTTGCCTCATAGTCTGAG
R
CTCTGTCTCCAATTCTACTTTCTTCACCCTCCTCGCCCCAAAATTTTCACAGCAAACTAATAAATCTCTTGCACTTCTGTCTGTCTCATTGTCTGTTTCT
Celera SNP ID:            hCV27868435
SNP Position Genomic:     19777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29613):
AGGCTGGAGTGAAGTGGCATGATCTCGGCTCGCTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGATTACAG
S
CATGCACCACCACACCCAGCTATTTTTTTTGCATTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGCCTCAAACTCCTGGCCTCAAGCGATTG
Celera SNP ID:            hCV226151
SNP Position Genomic:     33907
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,8)   total(G,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29614):
TCTCTGTCTCTCTCTCTCTCTCTGTCTCTCACTCTAGCTCCAGCTGTCTCTTTCTCTCCACCCCACCCTTGAGACTGTCTTTGCTCAGAACATTTTAAGA
Y
CAACCAATTTTGCTTTAGGGGAGCTCATATTCAGATCCTTGTTGTATCTAATACCAAAGGTATTTCTCCCCTCAATAAAGATCCCCCTCTACAAGGATCA
Celera SNP ID:            hCV26468167
SNP Position Genomic:     73092
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29615):
ATGTTAGATACATGTATATAAGTAGATACATGTGTATATGTATTAGGTGTAGGGGAGACATATAGGGAATTGGCTCACATGATTGCAGAGGGTCACAAAT
S
CCAAAATCTGTAGTCAGCAAGATGGAGACCCAAGACAATTGATGGTATAGTTTTAGTACAGATGCTGGCAGGCTTAAGCCTGGAAAGAGCCAATGTTTCA
Celera SNP ID:            hCV226152
SNP Position Genomic:     35186
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29616):
CATTGGTAAAAATAAGGAGGCGGTAAGATGGAAGTGTTAACATCTGTGCTTTGCTTTGTAAGTTGGTGTGCAAGTGTGTGTGTATTAGGAACATCCTTAT
R
TTTGTGAAATCTCCACGTATTTTAGGGGTAAAGGGCTTTTATAGGTCACTGGCTTTCTAAGGGTAAAAAAAAAAGAAAAGGTGATCTGTGGGTGGGTGGG
Celera SNP ID:            hCV26468168
SNP Position Genomic:     72335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29617):
TCCAGCACGGTGCTAGACAGGATAGTCTAGTGATTAAGAGCTAGACTACCTATATCTACGTCTCTGCCTTATCATTTACTAGCTGTGTAACAGGCAAATT
Y
TTAACTTCTCTGGGCCTCAGGTTTATCATTTATAAAATAGTGATACTGATAGGATTATTGTGAACATTAATTTATGTAAACTACCCAGAACAACACCTGG
Celera SNP ID:            hCV11864543
SNP Position Genomic:     116016
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29618):
ACAGAATAGTTTTAATCTTGAAAAATGTAAGGTTATTTTCTTTCCTAATAATTTTTCACAAACCCATTTATTCTTGGACTTTGAAACCCAGAAATATAGC
W
TATTTTTTGGTCTGTATGTCTACTCTGCCTAGTTCTGTCTCACTGTCAACTCTAGTCAAAGATTAAAGATTACATTGAATTTTGTATTTGGTAATATGTG
Celera SNP ID:            hCV26468169
SNP Position Genomic:     65529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,4)      total(A,1|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29619):
GTAGAAGTGTTGAGGAAATAAGGTCAGTGTAATTTTTGTGCTTGCGTTTTTGTTTTTTGTTGTTTTTGGAAAGTCTTATTTTTAACCCCAAAAGTAAAAT
R
CAAAACTAGCATATGGGATTTTTTTAATGAAAAAAATATATATGTCTTAGGTCTCTCCTGAAAATAACCTCCCTTGGACTCTTCATTTGAAAAATAACAT
Celera SNP ID:            hCV8847551
SNP Position Genomic:     73347
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29620):
TTTCTTCCCTTTTCTAAAGGGACACAATGTTTAAGGTAAAAATCATATTAAAGGAAAGAAAAAAGCAAACCCCTTTTGTATGCTGTTTAATAGTCTCATC
W
TTTATTAATTTTTTTAAATTGCTTTTTTGTCTTTCAGGCCACTGTTTACCTCTGCTTCAGTTTGCTTTGATAAGTGACATGAGATCTATCTCTTTGCTCT
Celera SNP ID:            hCV16288949
SNP Position Genomic:     137452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29621):
CTGTGAAATGGGACAAATGTTCCAGGAGGGTCAGGAGGAGGATTTGGCCAATCATTCAACTAAGAACAGGGTCAGCCAGAATGTCTTCTCAATTAAGGCT
K
TTAAGATCTCCTGATGGCTCCTTGCAGGAGCCTGAACCTAGAAGGTGAGTTAGCCTTGGCATTATCATAGGATTCTACCTTTCCATGAGTGTTCTGCTGG
Celera SNP ID:            hCV92603
SNP Position Genomic:     83673
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29622):
AAAGCTTGTTTAGAAGATGAACTAATTAACATGTGTAAAGAACCTGAATCGGGGCCCGGCACCTAGTAGGCATCTAATAAAGGAAGATTTTTAAAATAAG
Y
TCAGTCCCCCTAGGGTGTGCATTTTAGGTATTGGTAATTTATTTTGGGGCTCACAGGGAGAGAAGAGAAAAATGAGAGCTACTTCCCATTCTATAACTTT
Celera SNP ID:            hCV92604
SNP Position Genomic:     84011
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29623):
AGGCTTTTAGAGGCCTGGGGCTCTGTGAAGAAAAGCACTTGGTTAAAATGGCTCTGGAGTCTTAAATCCTGAGTCCAATTCTTTCTAGTAATAAGTTAGA
R
TATTTACTTTTTAGTGGGGGATGAAGGGGATGGATGATTTGGTTATTTTCATATGTCAAAAATTTCAAGGAAGGACTCCTGTGCTAACTGGAATTATACA
Celera SNP ID:            hCV92605
SNP Position Genomic:     84359
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29624):
AGGACAGAGGAGAGAGAGGAGTTGTCTGAAGCTATGTAGGTCAGGGAGGTGGACTCCAGGGAGTCTTGCAAAATGGCAGGGTAATTTAGATGGTGATGGC
R
AAAGCATTTCAGTGGACATATATGCAAAGACATGGAAGGGACATACTGCCAAAGGCATTCAGATTATGGTACTTGGCTCACTGCATCTGGAACTTTGTTT
Celera SNP ID:            hCV92606
SNP Position Genomic:     85400
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29625):
GACACTTGCTCTGTTATCTCTACACTTCCCACCACACCTTTCTGACTGTGCCCTGGAAAAATCCTCTGGAAGTGCATTCTGTCAGTTTAGCTGCTTATTG
R
GGTATACAGTAAGAAAGGAGCAGTCCAAGTGGAGGATGGACCAAGAACAACCCTGCTCTTCCACCCTGAGTTTCCTTGTGGGGAGCCGGAAAAGCCCTCT
Celera SNP ID:            hCV92607
SNP Position Genomic:     87214
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29626):
GGGCCATTCACAGTGGATGGCTTTTTGAAAGGGCAAAAGATACCAGAAATTGTGTTTGTAAGTGTCAAACATGCTACTTTCATTATTTCTTTTTTTAGAA
W
CCACATAGCCCCTCCCCCTTTGCTATGTGTTTACTGGTTTGGCATTATTGTGAGAGCTTATTAGTGGATGTTTGTGGAGCATTGTGAAGATGAATAGCTA
Celera SNP ID:            hCV92608
SNP Position Genomic:     87537
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29627):
ATTTACATTCTCTAAGATTACTAGGTTGCATTTCATAGTGATAGGAAAAGTCCTCAGACTTAGAGATTGAAGAAAGGGCACAAATTTGGTTTCAGCCTTG
R
GTTCAAGTTACAGTCCTAGTTAAGTGACAGTGGACTCTGCCTGAAGACTCATTACTCCATCATGTGTAGAGTGACAGCACTTCTACATCTGTAAATGAGA
Celera SNP ID:            hCV92609
SNP Position Genomic:     88251
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29628):
GGAGGTGGCATTCAGTATGGGCTTAGAAAGATGGGCAGGAGTTTATTCTGCCATGATGGTGAACAAACAGCAAAACAAAGACATAGAAATAGAAATTTTC
K
GGACATATTCAGAAAACTGTGACATGTTTTTGTCTGAACTGGAGCATAGGGTGCATGAAGGGGTTGGCAGGAGATGAGAGGTTGGGCCAGATTCCAGAGG
Celera SNP ID:            hCV15886648
SNP Position Genomic:     144598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29629):
GTAAACACTCACTCAGCCCTCTGCCCCATGTCTGTGTCTGTGCATCTGTGTGTTATCCTTGGTCAGACTGATGTCTGGACCAGTCCCCCCTTCTGCTTGT
Y
CCCCCAGGTTCTCCCCAATTACCATTGATGGAATGACAAGCCTTGTGGGAATGAACATCCCTGGTCACACAGGAACTGGGTGGTGCATCTTTGTCTACAA
Celera SNP ID:            hCV15886649
SNP Position Genomic:     158799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:29630):
ACCATGGTTCATTGAGAACACTGCTGGGGAGATTTTTAGGAGAAGGTGAGATTAGAGAAAGCTGCCTAGAGAAGATGTCATTTGATCTGAGCCCTGAAGA
R
GAGTAGGATTTGGACTTGAGGAAGTAGGTATAAAAAAAATGTCTGTATGAGCAAAGGTATAAAGGTGGTAGGTTGTGTTTTGAGGGAGCACAAATGTCAT
Celera SNP ID:            hCV15817584
SNP Position Genomic:     149708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29631):
TGGGGAAATGGTTTTTGTTGTGTCACCAACTTTCAAGTGCCAGCTCCTCTTCCCTGGCAGGGTTCACCCTGTTCCCTCTGTACCCTAGCTCTGGCTGTGC
R
GAACTAATGGGAGTTAAGGTCATGACTATCCATTATGCATTTATTGGGTGCCAGGTACTGTGCTAAGCCCTTGATCTTCATCACCTCATTTGTCCTCGTG
Celera SNP ID:            hCV381614
SNP Position Genomic:     148742
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29632):
CCCACACTGCAAATGCACACACTGGGACCCCCTATATAAAGGCCCCTCTACATCTCAGCCATGTGCTGAGAAGGAGCCCACAGAGGCCTCCCAGCCCACC
Y
GTGAGTTTCTAGAAGATGGAGATACTGAAGGCAGCTGCCTCACTCCATCAGCAGGAGGAGGCCAGGGAGGCAGATTAGTCACTCACATCATTTTATCTGT
Celera SNP ID:            hCV15817585
SNP Position Genomic:     150133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29633):
TCGACTGAAAATGAGCCGGCTACAGTCATATGGAACAGGTCTGTTTAGCCACATCACTGGATAGCCTGGCAGATGGTAGACCGTCAATGGGTGGTATTGA
Y
TGGCTGGATTTGCCTTAGGGTAACAAGACTATGGGTCCTTAAAAACCCGCTTCATCTTATTTTCCTTTGTGCAGCTTCATACAGTAGTGGTTTTCTCTTC
Celera SNP ID:            hCV26468170
SNP Position Genomic:     62004
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29634):
ACGGGAAATGAGCTACTCAGCATTAATGTGTAACTTTACTCTTCTGCTTAAAAGTAGTTAAATCATTTCCCCAGCTTTAGAGTCAGAGAGGGGAAGAACT
R
AAAAGGGTCAAGTGGAGAGTTGCCTCTTTCTGACAGTTATATAGCATGCCTCTCTTGTTTTTCACATTTTTTTATTTGCCTCTCATAGAGAAAGGAAGCA
Celera SNP ID:            hCV26468171
SNP Position Genomic:     56685
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29635):
CTCCCCCCGAGCCTCAGTTTCCATTCCTGTAAAATGAGACAGTTGGAGCAGATGCCCTTCTAAGCCCTCTTCCAATTTACTACTGTGACTGTATAAACTT
Y
AGATTCTTTGGTAGAAACAAAATGTCTGTATTTAACCAAACATGAAGGTTCAGTTTCAACAAGAGTTAATCACAGATCAGTGACCACATTCAGCAGATTA
Celera SNP ID:            hCV16246348
SNP Position Genomic:     153972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29636):
AAATAAGGGTCTTTGCCTTCACAGCTTAGTAGGAAAGATGGAAATAGAGATAAATAAATGATGGATACAAGTACATATATAGACAAGTTATGATGGGTAT
R
TGTGTGGGGAAGGGCCAGGATTGGAAACACAAAAAGAGCATGGTAAGTTCTTCCTTAGAAGGTCAGGGATGATGTCACAAAGGTGACATTTGAGCTGAAT
Celera SNP ID:            hCV26468172
SNP Position Genomic:     50132
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29637):
GCTGGGAGGTGCTATCAGGCAGTAAACAGTAAGCCACTTTTTAAAAATCTTAACCTGCAAACTCCCCCTGCCTCCCAAAAATGTGTGTAGTAAGATGATT
Y
AGTTAATGTAGCAAGGCTAACAGAAAAGATCTGTTCTGATACATATTGTGTGCCTGTGTATTGTTAATCTGGAACAGAGACCTTTATTTACAAGTTTAAT
Celera SNP ID:            hCV16246349
SNP Position Genomic:     154932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29638):
GGACTCTGCAGATCCAAGGCCAGTTCTTCATTCTGAGCCCCTCAAGTCACTCCTTGGCCTCTGCTGTTCTTTAGCTAAAGGAAGAGATTCCCATTGTTCC
C
ATCTATTTTTCCAAAGGGAGAATGCCAGTACTGAGGAAGAGGGTGGGCTTAGAGAGTCAATCAATTATCTTTTGGGCTTAAAACTAAAGAAAATGAACCC
Celera SNP ID:            hCV26468173
SNP Position Genomic:     44921
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,12)   total(C,1|-,12) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29639):
AGAGGTGCCCAGATTGGCTCTATTTTCAGCCTTCATAATCTGGGCAGGATCTTCTGAAAACTTTATTTTGCTAGGCCTAGAGGTAGCCATTGTCTAAAAA
W
ACAGTTGCCCCTTGCTCCTTTTCCTCTAAATCTATATCCAAATAGTAAGGAAGGACCTATTCAGAGCAAAGAAAGCATATTTGCGTTGTCATTGCTGGCA
Celera SNP ID:            hCV26468174
SNP Position Genomic:     43491
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29640):
ATAGAAGTTCAAACTAGATCAAAGTGTAGGAACATTTTGAGGGCTCTTGCTTCACATTACTGCAAAAATTTCATCCCAGCATCCCAAAGTGTATACAACT
R
TAAGCACTGTGTGGGGGTGCCAGTTTCACTGCATCCTTGCCAGCATCATCAGTTTTTAAAGTCTTAGCTATTTTGATAGGTGACTTAAACCATGCCTGCA
Celera SNP ID:            hCV26468175
SNP Position Genomic:     43047
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29641):
AAGGCCTCAGCCCCTTCCATGAGAAGCTCTGAAGCTAAGATAGCCTTTCAAAATAGTCCTGAGTCAGGGTGAGGGTGTCAGGTCTTTATACCCTATGTTG
R
TCACTCACTGGATGTGGACACCTCAAGAAGGGGGCATGACCTTGGGAAAGACAATTCTCTCAGTCAAGGCAGTTTCAAAGAGAGTTGACAGTTGAGGGTT
Celera SNP ID:            hCV26468176
SNP Position Genomic:     37445
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29642):
AAATACCATCTGCTGGATCTGAGTTCTAGTTATTATCCATCTCTCATCAAGTGATGAAGTCTGGGTGATTCATTTGCCATCTAAGATGTTCAGTTTCTGC
R
ACTTTTAATTTGTAATTATTTATTATTATTTTTTAGATGGGGTCTTGCTTTGTTGCCCAGACTGGTCTCGAACTCCTGGGCCCAAGAGATCCTCCTGCCT
Celera SNP ID:            hCV26468177
SNP Position Genomic:     37013
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29643):
ATTCAACCATGGACTTTATAAGCCAGTGTTGCCTAAGTATTAAAACATTGGATTATCCTGAGGTGTACCAGGAAAGGATTTTATAATGCTTAGAAAAAAA
R
AAAAAAAAAAAACAAAAAATACCTTTGATGCATTGAATGTTCTTTCATAGCTGTCGTTGTTGAATATAATATACATAGATAGCGATGTGCAGGGATTTTT
Celera SNP ID:            hCV16006913
SNP Position Genomic:     159346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:29644):
CTTAAAGATGAAATAGGAATTTGCCAGATGAAGACACTAGAGGAAGGCAGGGGACAGTGGATCAGTCTGGGTAGACAGAACAGTAAAGGCAGAGGTAGGA
A
GATGCTCAGCTATGTGATGGGTTTATGGAACATTAATTAAGAAAATATATAGAACACTGGCTGTGTGCTAGGCACTGGGGATGTAATTATGAGCAAATCC
Celera SNP ID:            hCV26468178
SNP Position Genomic:     32739
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,14)   total(A,1|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29645):
TTGTATGAATATAATGATTGCCATAACTAACTAGATACGCAAACTAAATGCACAAAGACTCTAAGTGCATAAGAAAGTAGAAGTCTAACACAGGATCCTA
K
AAATCCCAGAAACTCTAGACTTTCAGATAAGAATCCTATACCTTTAGTTGCCTTCTGGACATCTTCATTGGATCTTGTGAATGAGACTGTGAACTGGTAT
Celera SNP ID:            hCV26468179
SNP Position Genomic:     31801
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29646):
TGGATGATTCAGGGAACATTCTTCCTCAGGTCATGCTGTTCTTCCCACCCTGCCCAGGCCAAGCCCTGTGTATGAACAGGTAAAGGGAGTTGTGGGTGCT
R
CATGGGAAGAGGCAGCCCTCAGCCCTCGTCCTGATGCCCCATCTGTGATGAATGACAACGCCTGCTTTACCCACCTTGGTGAGACTTGCTGAGAGCAGAA
Celera SNP ID:            hCV16288950
SNP Position Genomic:     147284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29647):
TACCTCTCTTTGCAGACAAGTTGATGCCATCTCCACCTAAAGTAGCTAAATCCTCTTTTCAGAGTTTATTTGCACTCTTAGCTTTGTGTTAGGAGCTCCC
Y
AGCTCTTTCCAGTAGAAACCCCCTCTCCTTTTTCTTTATTGTTCTTTGGCTCAGGGAATGATGAGGGTAAAGAATGATTTGTAGCAACTGCTTTGAATTC
Celera SNP ID:            hCV244309
SNP Position Genomic:     134218
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29648):
TGGCAATTTTTTGGAAATCTTTCAGCCTAACCAAGGGCCTGACCACTGTAGTCATTCAGTTAGAATTTAATACATGTATATGGAAAGTTGAAAATTTTAG
R
TACTAGGATGAACATTTGGATATTCAATGCAGGAAGATCTTTTTTCTGTCATTTTTGTTTATCCATACGCCACAGGTTTCATGGACAGGAAACTGAGAGA
Celera SNP ID:            hCV15751548
SNP Position Genomic:     148356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29649):
CAAGTGTCAAAGAAAAGCGAGCCTTCAACTTGGCCCTGAATTTGGTAGAGATTAGATTGTAGGAGACCAGTCCATGCAGAGGAGGCAGCTGAGCGAAGCT
Y
CAGAGACATTGTTATGGAATGAATGTTTATGTCCCCGCAAAATTCTTATGTTGAAGTTCTAACCCCCAATGTAATAGTTTTTGGAGATAGGGCCTCTGCA
Celera SNP ID:            hCV204964
SNP Position Genomic:     111625
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29650):
AAGATTACTAGGTTGCATTTCATAGTGATAGGAAAAGTCCTCAGACTTAGAGATTGAAGAAAGGGCACAAATTTGGTTTCAGCCTTGGGTTCAAGTTACA
R
TCCTAGTTAAGTGACAGTGGACTCTGCCTGAAGACTCATTACTCCATCATGTGTAGAGTGACAGCACTTCTACATCTGTAAATGAGAGGAATGACAATAC
Celera SNP ID:            hCV92610
SNP Position Genomic:     88264
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29651):
ATTGATAGGATGCAGCACTCTACAGTCCTCCTTGGGGTATGTATATATTGTCATATACATGTCTCAATTGCATCATCAGAATTTCAAGTTTATTGAGGGT
K
AGTGAGCTCAAATATTCATCTGTTTATCTCCACCTACCCCTAAGTTTCATCCTTGCCTGTTGACACAATGTTACCTTATACAGTAGTTGCTAGATGAATC
Celera SNP ID:            hCV8217217
SNP Position Genomic:     81111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,8)      total(G,8|T,4) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29652):
AAATGGATAAGTCATAGTTTGTGCCCATGTGTTGCTGCAGGACCAACGAGCCAGGGAAACCAGAACAAATGACAGCCCTTCATGAAAGTCTGGAAGTGAC
R
GGGAGCTGGCTGCTTATTATGCATATTAACTACACATCTACCTTGCTGTTTTGTGGGCGGGGGCAAGAGGGAAGTGGAGGTTGTTTTGTTTTGTTCTTCA
Celera SNP ID:            hCV204965
SNP Position Genomic:     111044
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29653):
ATTTACTTCCTTGCAGGCAGGAACTCTTTCTCTCTCCTTCATATCTCTGGCATTCAACATAATGGTTTCTGGCCCATCGAAGGAACTCATTAATGTTAGG
R
AACTTAGCTTGGCTTTTGTTCCTTCTTTTGAGAGCTAACTTCAGTTTGGGGGAGGGGCTGCTCCAATGAAGTACTAAATTAACATCATTAAATTGTGTCT
Celera SNP ID:            hCV92611
SNP Position Genomic:     88725
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29654):
ACTAAAGAAATTTTAGATTGCTCTAATTGACAATGGATGATTCTGAATATGTGTTAACATTTTACTTTTTAAAAAAGGTAAATTTCTGGGATAAAAAGAA
Y
ATATTAAGAGTTGCAAGAGTTTACCAAACAAATTTTCTTTGTATCTGTGATTCAAAGGACAAGCTTACCCTACTCAGAAAAGTAATGTTTTAGTTTCAAA
Celera SNP ID:            hCV92612
SNP Position Genomic:     88955
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29655):
GGACAAGCTTACCCTACTCAGAAAAGTAATGTTTTAGTTTCAAAATACATGTATTATATCCATTTGATAAATATACATGATAATATACATGTATCATATA
M
TAAATATTCTTAGGGACATAGTAAATTAATTCTAAAAGGGTCTTATCTGAGAATTGTAGATTATGCAGCTTGAATTATAATACAAATGTAATTTTTGAAA
Celera SNP ID:            hCV92613
SNP Position Genomic:     89112
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,7)   total(A,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29656):
TTGACAAATTTCTTCATTAGCTCCAATGATCTGTGGCCACCAGGCAGTTAATTTATATGCCTAGACATTTAATATGTACATTTGTTGGTGAGCTGGCCAG
M
GGATGCTAAACACACGAGTATGCGCTGGCAAATGCTGCAATGCAGTATTTTTTTCCCAATGTCATTGGGAATTTTGGGGCTAGGAAGGGACATGAACATT
Celera SNP ID:            hCV211178
SNP Position Genomic:     71506
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29657):
ATAGCGTAAAAACAATTGAAATGGTGATCTGTTAGGGTTTTTTACTAAAGGACAAAATAGATGCATGATCAGGGAGCTAATTGTAAGCCCAAAAATGAGA
K
ATTTAAAAATGCTGAAATACACTAAAAGATTAGGAAATATAATTGGCTTTATTGAAAGTACACTTAATTTTTGCTCTCTTCATTGCAAATCCCCCCAATT
Celera SNP ID:            hCV211179
SNP Position Genomic:     69923
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29658):
GATTAGAAGAGCTTCTAAAGGTAGGCTTTCTGACAAAAGGAAAACTTTCCCCTGACTGCCCTCTTGTGGAGGTGCCAAAATAGCCCAAAGATGGCAAGTC
Y
ATAAAATCATCATAAACCTTAATTGAGAGAGCAGTTTTCTGTACTGTCTGTTGTACTGGTTAGTCAAGCTGCCATATGCATATAATTACATATTTTTAAA
Celera SNP ID:            hCV27952737
SNP Position Genomic:     39074
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29659):
TGGATAGATCTAACATACTTTTCTCTCACTCCACTTTGAACTCTGGAATCTGACTGTTTATTCCATTCATTTGACAATTAGTAATACCCTCTTACTTTTC
R
TCTCTTACTGTTCCTTTAGCCTTTTGTATATTTCTGTCTTGCATCCCCAAGTGGTGTTGAGTTCCATGAGGGCAGGGAATATGGGTTTAACTGCTTTGAA
Celera SNP ID:            hCV27952738
SNP Position Genomic:     22767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29660):
ATTTTATCACAGCAGGAGATAGGACAGGCACATAGAGTACTGTATATTTTACTTCAGAAGTGTTAAGAAAAGTGCCTGACACACAGTAGGCATTCACTAA
R
GATTTATTACATTGAATTGAAGTTGGATTAATTCTCCTCTAGGGATTAGGGAACCTTTGTACTAAAGAAACACTGTACATTTTTATATGTTTAGCTGTAT
Celera SNP ID:            hCV15886654
SNP Position Genomic:     80361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29661):
GGATTTAGAACGCTTCCTACCAAAATGCTGCAATTAACTGTCACCAACTAGGATAGAGGCTGTACTTGCAATCTCTTTGCTGGCCCTGACCTTTGACTTA
Y
AATAAATACTTAGCTGTTTTCTACCTATAAACAGAAAGAGGTCAGTTCACCAGGGTCAACTCACTTGGTTGGAGGATAGAATATTAAAAAGACAATCTTC
Celera SNP ID:            hCV16246350
SNP Position Genomic:     156895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29662):
AGAAGCCCAGCGGTGCTACGGAACCGATTACTGTGAAGTTTGCCAACAACCCCAGCCAGAAGTCCAGCCAGGCCCTGCTCTCCCAGCTCTACCAGTCCCC
Y
AACCGGCGCTACCCAGGTCCACTTCACCACCAGGCTCAGAGGTTCAGGTAGGCATGCCCAAAGAGGAAGAAGCCCTGCTACAGGGGTTCATAGCTGGGCA
Celera SNP ID:            hCV25473559
SNP Position Genomic:     153695
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,17)   caucasian(C,1|T,25)   total(C,12|T,42)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:29663):
GTTCACATGGACAAGTGCTGGCTTTCACCACGTGTCTGAAAACGAAAGATGAACCTGACTATCAGGTGACCTTTATGAGTTTTGGTCCCACAGAATCTCA
R
CATGAAATTCTTCCACATACTCCATCACTAGCACCAAATAAGCTGCCTTGGTGTGGGATATTTTCTAGGTGTTTGTTGGGGAGCTGAAAGAAGGGTAACC
Celera SNP ID:            hCV8218167
SNP Position Genomic:     99152
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29664):
GAACTAAAGTAATCCTCTTTAGTTATCATTAGTATTAGCCTCTGAAACCTTTACTTGCTTGCTAAGATAAGGTACTTGGGTGTGGGTTGTAATAGAGGTG
G
AGTTGTGAGTTAGAGCTGGTGGCCTTACTAATTCCTCTACTTACTGTGTGCTTTGGGTTGACAGAAAACTCCTTAGCATTTGTGTAAGTGCAATATAGTT
Celera SNP ID:            hCV80028
SNP Position Genomic:     7806
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,9)   total(G,1|-,9) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29665):
GGGAAGGCGCGTGTGTTACACTAAGCAGTGCTCATGTTTAGCTGAGGAAGAAGGAGCCTCAAGTGTTCGTAGGGTGTACCTGTGTATGTTGTAATTGTTG
Y
CTCTCTTTGGGCTGGGGGCTGTTATACATGTAGGATTTAGTAAACACAGGTCTTGAAGTCTTGAACCTGCAGGAGACTCATTTGTTTCTACAAGGAGAGA
Celera SNP ID:            hCV80029
SNP Position Genomic:     6758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29666):
TGATCTGATAAGATTAGTGATCTTATAAGAAGAGGAAGAGAGACTGGAATTTTCTCCATACATATGCAACAAGCAAGAAGGCAGCTATCTGCAAGCCAGA
R
AAAGAGCCTTCACTAGAACCCAACCATGCTAGCACCCTGATCTTGGATTTCCAGACTCCAGAACTGTGAGAAAATAAATTTCTGTTGTTTAAGCCACCCA
Celera SNP ID:            hCV16246354
SNP Position Genomic:     111866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29667):
GATGGAGCGAGATTCCATCTCAAAATAAAAAAAAAAAATGGGGGGCTCTTTTTATCAGTACTTCTCTGAACCTGTGCTAACACGACGTGAAAAGGAATGG
Y
ATAATATGGAGCATTACCCAAGGAACCCTTTTCCCTCCAGCATTTTGTATACTCTCCTTTCTAAGCCAGTAGAGAAGAATGGAGTCCTTGGAGGATAAAT
Celera SNP ID:            hCV16246355
SNP Position Genomic:     117636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29668):
ATAGGGTGACTTTGATCAAGTCCTTTTACCTCCTCTGCATTTCAGTTTCCTTGGGTGTAAAATGAGGCCCATAGGTGGAGAAATGGGAGGAGGAGAGGCT
S
CCTACCACATAAGGGTGTTGAAAAACTGTTGAGAGAACATACGTGATAGCAGTCTATATTGAGTAGCACTCACATAAATTGACATAAATGCATATAAAGT
Celera SNP ID:            hCV26468180
SNP Position Genomic:     29773
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29669):
TGAACCCAGGAGGCGGAGGTTGCAGTGAGCAGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAA
A
GCCACTACTAAACGGTGACGTTTCAGAAGGGCAGATAAAGTTACATAATATTTTTAGGCTTCAACTTTTTGCTTTGGAAATACCACATACTCCATAGGAC
Celera SNP ID:            hCV26468181
SNP Position Genomic:     28694
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29670):
AAGATGGCTATGGATTTAAATGGAAGTCTGCAGATAACATTTTCCAAAAAGAATGATCTATTCTGGTTTCAGCATCCCTGGATGAAATGAATTAATAACA
R
CGCTTTACTTAATAGACAGTTTCTCTTTCTAGGATCACAGAGTGGTTTTATTGACCATAGAGCTGTACCTGATTTAAACAGGGTATGGTAACTGAATTTC
Celera SNP ID:            hCV26468182
SNP Position Genomic:     26789
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29671):
TAGTGGCCAAGTAATTCTTAAAAGGAAGCAACAGAAATGTGGTTAAAATGGTCCTTTACTTTTCCTTGTCACCAATCAAATATGTTCGTATTCTTGAGGA
Y
TGAGGTAGTGATTTGACAAAGTTAAGATTAAGAAGCCTGCAGAGGAACAAGTAGGGAACCATATCATGTATTTATTCCATTTAACAGGCATTAACCAGGA
Celera SNP ID:            hCV26468183
SNP Position Genomic:     25232
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,12)      total(C,1|T,12) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29672):
AGGAGCAGCATGGGTGTGTAATAGAGAAAGGTGTGCTGAGAAACTGCAGTCATTACAATGTGTCTGGTGTGTCATAGAGTGCAAGGGCATAGGTGGCAAG
R
GGTACCCCTGGGAAGTTAGGTTGTGTTAGATCAAGGTGGGTCTTTCCTGGGTATTGAGAACAGAAAGAAAATAATCTGGAAGTGAAACTGGTTGAATTTT
Celera SNP ID:            hCV26468184
SNP Position Genomic:     22109
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29673):
TTTCTATCTTGCTTCCCGATGATACAAATATGTTAAGCTGAGTTTTTATCCATTAATCCATCCATCCATTCACCCATCCATACTTGTTTGTTAAGTCTAC
Y
AACCCATATTTATCTAGTACTCTCATGTGTCAGGCCCAGTGCCAGGTTCTGTTCACACAGTGGTGAACAAAAAGCACAGTCTCTGTCCTCAAGAAGGTTT
Celera SNP ID:            hCV26468185
SNP Position Genomic:     20854
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29674):
TCACAGTAAGACCAAATCCTTAAATAATGCATACTAAATTCTGGGCACTGTTTAACATGTTTAATCCATAGTAACTAATGGAAACCTCACAACCCCATCA
R
GTAGTGTGGCCCTCATGGAGGTGCACCATTCAGATCTGCCTTTAAGAGGAAGCTTATGTTTGTTTGCAAGGAGTGCAGTTAGATGACAGTCTCCAGTTGC
Celera SNP ID:            hCV26468186
SNP Position Genomic:     19502
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29675):
TAGACATGTGTTTAATATCCAGCACAGAGTATCTCTATACATTTAAAAAATCAAAGCTTTGAATAACCAAATGCAGAACAAACCTCAATATTCCGTGATA
M
CTCTTGAGATTGTAATATCAATCCTAAAGTATCAAAGAGGTCAAGTTCACCAGCATGGATTTTGAAAAGTAAGGTCCTTATGATGCTCTGCGCTTAACTG
Celera SNP ID:            hCV26468187
SNP Position Genomic:     18981
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,13)   total(A,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29676):
GACAGTGAGTGATCAGTTATAGTAACTTTTGGGAGGTGATGATGGGGCAGAGCAGTGGTAGAGGACTAGAGGGGCCAGATGCAAGAGAGCCCTGTGTTCT
S
TGGCTGGGAGGCATCAGTCCAGAGCCATGATAGCAGGAATGCAGGTAAACGTGTTTTGATTGGTGAGAGAGATCAGGGAGCTGGGCTCAGCCCTGGCACC
Celera SNP ID:            hCV25623387
SNP Position Genomic:     153308
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,29)   caucasian(C,1|G,29)   total(C,2|G,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:29677):
TCAGTCCAGAGCCATGATAGCAGGAATGCAGGTAAACGTGTTTTGATTGGTGAGAGAGATCAGGGAGCTGGGCTCAGCCCTGGCACCACAGGTGGGCTTA
Y
TCCTCACACAATATCCACAGGACCCATCTCTTCCCAAAGATGTTTACCAGTTTGGTGTGTTCACTCTTTACAAAGGCTCTTTCTCTTTCCCCAGGAGTGT
Celera SNP ID:            hCV25623388
SNP Position Genomic:     153422
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,30|T,2)   total(C,64|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:29678):
GCAACTTTTCTCGCAATACGGCCGTATCATCACCTCACGAATCCTGGTTGATCAAGTCACAGGTTAAGTGTTTCTTTGTAATTTCTTTCCTTGTATATCA
R
TGTCATCAGCCCTGTTACTCATAAGAGCAGAAGGCTGATGGCTGCTTAAAGCAGATGATATGGATCATGAATAGACAGATTTTTGACTTGGAAGAAAGAC
Celera SNP ID:            hCV25623389
SNP Position Genomic:     151917
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:29679):
CATTTACGATGACAGGATTTGAGTGCCTACGTTATTGTGCACCGCTCTAATAGTTTATCCCTGAAATTTTCTGCCTGTATAATGTTTCTTAAAATATATC
M
CAGAAACATAAAAGATTTAATGTAGTGCTTTGTACATCCATTAGAGTTCGAAGTCAACTGAACCTCCTCAATGATCTATCCTGGATGCTGACTGTAATTC
Celera SNP ID:            hCV1406359
SNP Position Genomic:     97971
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,12)   total(A,12|C,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29680):
TATCATGAGAACACACTGCAAACAGTGTAAAAAAAAAGGGGAGGGGGACAGGACCTCGATTATCTTTGCTGTTCTTTGTGGCCAGCCCAACTTTAATTAT
W
CGTTATTAATAGGTGTTAATTACATTTCTAACTCTGGTTTACAGTGATTTTTAGAAATCTATTTTTAAGCATCTGTTCTGTCTCCCCTGTTTTTGTGTGT
Celera SNP ID:            hCV211180
SNP Position Genomic:     68979
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29681):
CCTTAATCTTAGGTCAGTAGGTAGGGTCCTGAATGCAGATGCCAAAGAGCTTAGGAAATTTTCAGAGTTTTTATTTAGGGTTTCAGTGGTGCTTCTAAAT
R
TAGCATGTCCCATTTTTCCTTTTCCCTCAAACTGTCTCATTGATGTAACATGAAACCAAATAGAACAGTGCCGAACAGCTTGAAAGAGTGAATATCATGT
Celera SNP ID:            hCV79927
SNP Position Genomic:     24827
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29682):
AAGTCCAGGCAGCTTCGGGCGATCAGGGTCCCGAGGCGCTGGGCGCGCGGACTTGGATCCTCAGGGGGCCCCTCTGTGTGACTTTCGCTAATTGTCTCAC
R
GGGAGGGCAGCACCCTCCCCTATCTTTCCTCTATTACACCCCGCTGTGGACCTGGGACTTGGGTATTTCTAGACGAGATTGGGAAGGCGCGTGTGTTACA
Celera SNP ID:            hCV80030
SNP Position Genomic:     6577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29683):
CAATTTACCTGATTAAAATTAAGATTGAAGAGAAAGAGAGAAAAAAGCACAGTTTATTCTCATCCCAAACCTCCTTTGTTTTCATTAGCAATGTGTAGAC
Y
TGAAATTACCTTAAAAACAAAACAAAACTCCCCCATGAAACACATTTAAGAATAAAAGAATGATTTTCCAAATATTTGTCAATGCACTTTTTGTACAGGG
Celera SNP ID:            hCV15886663
SNP Position Genomic:     84716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29684):
CAGCACTGAGTTTATCTTTATGCTTGGCACCAAGTAGGTGCTCAGTAATTGATTGTTAACTGATGTAGTCAGATATTAATTAGGTGTTTCATAATGTGTT
S
CCATCAGGTGCCCCCTAGCTTATGAGTGGGATATTGGACCCAAATCCCCCTTGTTGTGAAGACTGGTTTTGACACAGCTATTGCTCACCAACCCCAGTTC
Celera SNP ID:            hCV16246362
SNP Position Genomic:     82010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29685):
TAAAAGAATGATTTTCCAAATATTTGTCAATGCACTTTTTGTACAGGGCACTGAATGAAACTTTAAATATTTTTTTCCTCTTATGGTTAGTGACATGTTA
S
TATTGTGATTCACTCAGAATTTATTTGACCCCCTTGATCACTAGTTCACATTTGTTTTAATCTTGATGGCTACACTCATCTAAAATAAACAGAGCAGGAA
Celera SNP ID:            hCV15886667
SNP Position Genomic:     84869
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29686):
TGTCATGAAGTGGTGATATACTACACTAGTGCTAAAAATACCTGTGATCTACTCAGGAAGAAATTAGGGCTCTAAAGAAAATTCGGCAGTAAGCCTAAAA
A
TAATGTATTTTTTCACTCTCCCAGTGCTGTTTTGTTTGTGTTTCATGGAGAAACAGTGTATTTGCTATAAGCACACAATTAAGATGAGATTTCAGAGATG
Celera SNP ID:            hCV265804
SNP Position Genomic:     81430
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,12)   total(A,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29687):
CAGGATTGTTAGGATTAAATAGACCCATTTGATAAAAACTTACTGAGACTTACTATTTGGTAGTCTGTAAATATGTAGTAGTAAAGGAGACATGGCCCCC
Y
GTCCTCAAAGAGCTGAATATCTGGTGAATGTGCTGTGAGAAGTGGGATTCAGACTCCCACCACCTGCACAGGTCACTATTGATAGGATGCAGCACTCTAC
Celera SNP ID:            hCV265805
SNP Position Genomic:     80933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29688):
TAATATGAAGCATCATATCCTACATCTTTGATAACTACTGATGTCTGCATGATATATGTTGGGGCTCTTTATTAACCAAAGTATTTATTAACTAGGAAAC
Y
TTATGCCTTGGTTGTGCTACATAGCAAAACCTGGAATGTAATAATAAAAGTGACAATAATCAGTAGTGAATGTGACCTAGAGGTGGGACTAGAAATAATA
Celera SNP ID:            hCV265806
SNP Position Genomic:     79793
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29689):
TGTGATATGAAGCTGTGGTGTTCCATATGGTGTTCAATATGTTCCTTACTTTTTTATTTTACTTTGTTGGGTCATGGTCAGAAAAGTTTGAGAAATACTG
K
TCTAGATAATAGTGAGCTCTGTATTATACAAAGGAAAAATAACAGTCAGCTTTTTTAGAACTATGCAATGCAAGATCTCTAGTATCTTCTGAGTTATTAA
Celera SNP ID:            hCV265807
SNP Position Genomic:     79562
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,4)      total(G,4|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29690):
CTAACATACCCAGATCTAGCCATAGTGGAAGTAAACCCTTTTTAAATGTGCGTATGACCTGACATATCCAGGAACTAGTGTTACAGGTAACTTGGGTAGA
N
AAAAGGAGCCTGGATTGTGTTGAGAGAGGTGCCAGAAGGGAACAGAGGGGTGGCTTTTTAGTTTCCAAGAGCAGGAGGCTGGCTGAGCCTCTGCTCCTTA
Celera SNP ID:            hCV1406360
SNP Position Genomic:     97613
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   no_pop(A,-|C,-|G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29691):
GGCGATCAGGGTCCCGAGGCGCTGGGCGCGCGGACTTGGATCCTCAGGGGGCCCCTCTGTGTGACTTTCGCTAATTGTCTCACAGGGAGGGCAGCACCCT
Y
CCCTATCTTTCCTCTATTACACCCCGCTGTGGACCTGGGACTTGGGTATTTCTAGACGAGATTGGGAAGGCGCGTGTGTTACACTAAGCAGTGCTCATGT
Celera SNP ID:            hCV27321678
SNP Position Genomic:     6594
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29692):
ATATCAATGTCATCAGCCCTGTTACTCATAAGAGCAGAAGGCTGATGGCTGCTTAAAGCAGATGATATGGATCATGAATAGACAGATTTTTGACTTGGAA
R
AAAGACTTCTTATCGGTCAACTGCCCAAATTTAAAATGGGCCATCTTGGGAGGTAGGAGTTCTCCATCATGGGACTTGTTTTAGCAGCAGCTAAACTACT
Celera SNP ID:            hCV25623393
SNP Position Genomic:     152011
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:29693):
GTTCCAATACAATGTCTTTCTGCTAAACCATATTGCTGGCTTTCAATGTGACACCATTTGTTGATCATCTGCCTAGGTGTGAGGTATGGCAGGGTGGGGG
W
TGAGGGGAATCAGTCTAAGCCTTGTCTACACTAGAATCCTTACTCTGAACCCCTGCCATATGCCAGATACTGAGCTAGGGGCACGGCAACAAATAAACAT
Celera SNP ID:            hCV1406365
SNP Position Genomic:     165670
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 TFBS


Context             (SEQ ID NO:29694):
AAGCATAATAAAAACCCAGCCTCATTTAGGCATATCCAAGAAAATCCCAAGATATTGATTAGCTAAATGAACTTTTCTACATGCACATAAGACGGAAAGT
S
ATTAGTGATGGGAAGAGTACAGCAAATGGTAGCATTTATCAGCATATTTTGCTGCTGATTTGGAAAATGTGCTTAGTACAATGTGATGTATCTCCTGATT
Celera SNP ID:            hCV1406368
SNP Position Genomic:     109566
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29695):
TGCTGCCTTTGGGGATTTAGGGTCTGTCTCTGGAGATGTGTTGCAGTAATTCTCCCTAGCTGAGATTCTACCTATGTTGGAATCAACTTTTGGGGAAATG
R
TTTTTGTTGTGTCACCAACTTTCAAGTGCCAGCTCCTCTTCCCTGGCAGGGTTCACCCTGTTCCCTCTGTACCCTAGCTCTGGCTGTGCAGAACTAATGG
Celera SNP ID:            hCV27505581
SNP Position Genomic:     148652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29696):
TATGCATTTATTGGGTGCCAGGTACTGTGCTAAGCCCTTGATCTTCATCACCTCATTTGTCCTCGTGACAGAGGAAGGCTATTATCAGGCCACCATTACC
W
GACTCCACCACCACCTTTCTCACCACCAGTCTCAGCTCAGCTGTGTCTCCTTCCCGGCCCTTTTAACCTTTGATTAATCTCTCCCTCCTCTGTGTTTTAG
Celera SNP ID:            hCV27505582
SNP Position Genomic:     148876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29697):
ACCGTTTTGGCATGCCAAATTGGAAGTTTGCTAGTGGAGCAGAAATCATAGTTACTTTGTCATATACATCTAAATACTGTGGTGTGTGTGTGTGTGTGTG
Y
GTGTGTGTGTGTGTGTGTGTGTCATGTGTTGTAGACAGCTGGGAGCCCCGGTGTGCCGTGGGATGTGCCAATAATGGCTTCTCAAGTACTCTGTGTTTTC
Celera SNP ID:            hCV11862543
SNP Position Genomic:     74356
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;(C,-|T,-)   Caucasian(C,8|T,76)   Asians(C,17|T,67)   total(C,25|T,143)
SNP Type:                 INTRON


Context             (SEQ ID NO:29698):
AGGTTTTAAACCATTCTTAAGCTGGGCATGGTGGCCTGTAATCCCAACACTTTGAGAGGCCAAGGCAGGAGGAATGCTTGAGCCCAAAAGTTGGAGACCA
R
GCTGAGCAACAAAACAAGACCTGATTTCTTAATAAACAAATAAATTTAGCCAGGTGTGGTGGCATGCACCTGTAATCTCAGCTACCCTGGTTGCTGAGGT
Celera SNP ID:            hCV1406370
SNP Position Genomic:     128786
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29699):
TAGATTTAAGCCTGCTGAAAGCAAGAAAGACCTCTCAGAATGGGCAGTGAAGGAGTCCCAGGATATGGAGTTGGCTGCAATTAACCTAGTATGTGGATTA
Y
TGCCATGCAGGTAATTTTGAGGTGACTGGGGATTTTATCATGCACTTTCAGAACAGGATTTCAGCCTGAACTAGGGGTTCTAACTTCCATAAAAATTCCT
Celera SNP ID:            hCV1406371
SNP Position Genomic:     129830
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29700):
TAGGGGTTCTAACTTCCATAAAAATTCCTTACTCAACTCAGAAGTTTTCAACAGCAGCTACCCATCTGGCTGCCTCCTCAGGGGCTTTGTAGATGAGGGG
A
GTAACTGTTCGGTTTCTGGAGAATGATGGTTTTTAAAAAGCGAAAGAGCAAGGTGTGCAGATTGGCAGTGCAGAAATGCTGAGGTTCTTTCTGGCCAGCT
Celera SNP ID:            hCV1406372
SNP Position Genomic:     130002
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29701):
CCTCCATTACCGCTAGTCACAACCTGGGCGAGAATGCTTCTCTGCCAAGGTCAGCAGGGGCGGCTGGATCACTGAATCCCCAGGGAGCCAAGAGAGAGCA
Y
GTGGCAATGCCAGCAGAAACCAGAGACACGTTTACCCCAGTTGTGCTAGCAGCCCTCTCTTGTGGGAGATTTTATTTGGCTGCTCTGCTTCCCAGTGCCC
Celera SNP ID:            hCV1406373
SNP Position Genomic:     141978
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29702):
TCTTGTCTCTACTAAAAATAAAAATAAAAATTAGCTGGGTGTTGGGGAAAAGGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATGACTTAA
R
CCTGAGAGGTCCAGGCTGCAGTGAGCCATGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCTTCTCTCAAAAAGAAAGAAAAAACAAAAC
Celera SNP ID:            hCV8220755
SNP Position Genomic:     55082
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29703):
TAGTTGTGTTGGGAGAATTATGGACTCCATATCACAGAAAATAGTGGTCCTTTCTTGTCCACTCTGGTCAGCCCATCCTAGTGTCTTATGTCCCATTCTC
R
GCTTCATATTTTAAAAGATTGTCTAAAGGTGAATGACAAAGATGGGAAAGAAGTCTCTGCACCCACCCACAGATTCACCTCACAATGGTTGCTTTTCTAT
Celera SNP ID:            hCV1406374
SNP Position Genomic:     142479
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29704):
TGTTCTGGTGCTTTACATAAGTCATATCACTGGATCGGTTCTTACCGCTTTGCCATACGGTGGCATTGTTCCCATTTTTCAAATGAGGAAAATGAAGACT
S
TTAGGATTTAAGTCCCTTGCCAAGGTCACACAGCTAGTAAGTGGCAGAGTATGATTTCATTTCCAAGGAGTTGATGATCAGTTTCTGAGGAGATGGAAGC
Celera SNP ID:            hCV1406375
SNP Position Genomic:     101540
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29705):
GGGGATGGGGGTAGGGAGGGTGGCAAGGAGAGAAATGTGCAGAGCAGAATTTCATGAGGTTTTTTTTTTTTTTTCTGGTTTATTCAAAGATTATTATGTG
Y
TGGATACAGTAAATCATCTATACACCCACTTCCAGGAGGTAAATCTTCAGAACTCCATGTGTGGGTAGCTCTGCATTTAACAGCTGCCATACAGTAGCTA
Celera SNP ID:            hCV1406376
SNP Position Genomic:     151367
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29706):
GTGTGTGTGTGTGTGTGCGTGTGTGTGTGTGTGTGTGTGTCATGTGTTGTAGACAGCTGGGAGCCCCGGTGTGCCGTGGGATGTGCCAATAATGGCTTCT
M
AAGTACTCTGTGTTTTCCTAAGCTGCCAGTCTAAACCCTTTAAAGGTTTGCTTTCTAATTTGTACATGAAAAATAACAGGCTGAGTTGAACTTTTTTTTT
Celera SNP ID:            hCV1406377
SNP Position Genomic:     74439
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,7)      total(A,5|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29707):
GCATGAGCTTGAAATAATAATAATAAAGATTAATAGTAATGCTAATTTATAGTGAGTATTCACTCTGTATCCAATACTATTATAACCCTTTTACATGCTT
R
ATATCATTTCATCTTTGAAATATCCCTGGAGCTAGGTGCTTTACACACATCAACTCTAATTCTTAAAATAGCCCTGTCAGGAGGTACTATTACCTCCTTT
Celera SNP ID:            hCV27459841
SNP Position Genomic:     138887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29708):
TTATCATTCTTTGGATCTCGCCTCAGTTCAGGCTTCTCCCACGAAGCCTTCCCCATCACTCCAGATCTCATCCTCATTATCAACTATCTCTAACACTTAA
Y
TTTGGTATTCTTTTTACATCCTTCCTTAGGCTATTAGGATTCATGCATAAAAAGGAAAGCTCCTTCCCAATCAGATTTTAAGCTCCTTGAAGGTGGGGAC
Celera SNP ID:            hCV11862550
SNP Position Genomic:     58535
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29709):
AGGCATGGAACCCATAAAGGGACCTGGCATGTCTGTCATGGAAAGGGGGAGAGTGCCATGGATGAGGGTTCTGCTCATCCTTCATCTTCTTTGCTAGACC
Y
ATTCTCTCCCCTGAAGGTCACAGAAGCAGGGTCCACATTACTGCTGGAGGTTTAGGTCTTAATGTCAAAGGTCTGGTTTAATGTGTTCAATTCCTTTTGC
Celera SNP ID:            hCV8847016
SNP Position Genomic:     150353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29710):
CACCTGAGGTCAGGAGTTCGAGACCAGCCCGGCCAACTTGGTGAAACCCTGTCTCTACAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAA
W
TAGCTGGGCTTGATGGCAGGTGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGTGAGATAATCTCCTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCTAG
Celera SNP ID:            hCV11862554
SNP Position Genomic:     52722
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,4)   total(A,2|-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29711):
TATATTTATTTTACTTTAGCAAATATTTATTGAGCACCAACTATGACAGCCACTGTGCTCAGCTGGAGGGAAACAAAGACAAATAAGAACAGTCTTTGCT
Y
TTGAGTACCTTGAAAACAGGTGGGAGAGACAGACCCGTAAACAACTGTGGTAATGCTCTGACATGAGTTCTGTGGAGTCAGAAAGAACAAGCTAGTATGA
Celera SNP ID:            hCV503139
SNP Position Genomic:     54153
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,7)   total(C,6|T,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29712):
ACATTTTAACCAGGGCTTCTGTCAACTGATGTCCTTTTGAACCACCTGCATTAGGGTGCACATTGTTGCATCCTCTACCCTCATCCCTCTGTTGGAAACC
R
TAGTGGCTATCAGGTAAAATTGGTCATAGGTAATGTGACCATGTGACCTGGTTTGCCATTACTGGTTTATGCCTGTTGTCTTGTTGTAATTATTAATAGA
Celera SNP ID:            hCV11862559
SNP Position Genomic:     51427
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29713):
ATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTAAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTGTATCAAAAAAAAAAAAAA
A
GCACACCTACTTATTTTAAAAAATAGTTTATTGTAAAACAGCCTCAGGCAGGTCCTTCAGGAGTTATTTCAAAATAAGGCATTGTTATCACGGGAGGTGA
Celera SNP ID:            hCV11863573
SNP Position Genomic:     14879
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,10)   total(A,5|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29714):
AAATTTCAGAGAGGTAGGGTGGAGATGGGAGTAAGGAGAAAATAAAAAGCAAAAGTTCTGAGTAGTCATCAACTGCAGACTGCCTAAATAGGAAGTCTAC
R
CCAGGAAGTCATGTTTTTGCTGCTGGAGGTTTGAGTAGGACTCTGTATAACTTTGCTCTCTTATGCAACTTGTGATTGATCTGGGTTAGTTGGCTCTGCT
Celera SNP ID:            hCV11863574
SNP Position Genomic:     13867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29715):
GGAATCAAAAGGTTCAATCCAGATGTTTGCCTCCTTGCTTCTTCAATAAAGTGACAGTACAATGCTGCATGACACCACTTGCTTCCTTAATAAAGTGACA
R
TACAATGCTGCGCGGCACCTCTCCTTTCAGTTTTTAGGTAGGGTAGACTGTGGCACTGTGGCTTATGGGGTCAACCATGAGCAAGTGGATGGCTGGATTC
Celera SNP ID:            hCV11863577
SNP Position Genomic:     7465
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Gene Number:                 120
Celera Gene:                 hCG2031650 - 84000314999353
Gene Symbol:                 FAAH
Protein Name:                fatty acid amide hydrolase
Celera Genomic Axis:         GA_x5YUV32W802(36712054..36797722)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12280):
GGGAAGCTTGTTTGAGCCCAGTAGGTTGAGACTGCAGTGAATTGGGATTGCACCACTGCACTCTAGCCTGGGTGGCAGAGTGAGACCCTGACTCAAAAAA
AAATTGCTGTTTAACACCACCGGCTCACCCTTAAATTCTTTCCTGGGCAAAGCCAAGATCCTTCCCAGACTAAGCCCCAGTTTTGGGGCTCGCCTGCCTG
TCTGCATCTAAACCACAGCCCTGCACAAAAACCATCACAACCTTACACAAAATACTACTGTGAAAACATCTGCCCAGTAACTGCCTGTCCAACCTTGGAC
TGATGCTTGTTATTGACTAACCCTTGTTACTAATTCTTGTAGCAAGGGATAATTGTTCCAAAACAACTTACTATGTGTAACGATTCTCACTTTTCCTTTA
ACCCCCGCCCCCCCTGCTTTTTTTTTCAGGTCAGGCATAGTGGTTCATGCCTGTAATCCCAACTCTTTGAGTGGCCAAGGCAGGCGGTCCCTTGAGCCCA
GGAGTTTGAGACCAGCCTGGGTAAAATGGTGAAACCTCATCTCTACAAAAAATATGAAAATTAGCCAGGTGTGGTGGCTTGTGCCAGTAGTAGTCCCAGC
TACTTGGGAGGCTGAGGCAGGAGGATTGATTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCCATGACTGTGCAACTGCGCTCCAGCCTGGGCAACACAATG
AGACCCTGTCTCAAAAAAAATTAAAAAACAAAAAACAACTCTTGTTTTCCTTTACCTCCTCATATGCCCGTAGGTTAATATGGTACCATATTCCACATTG
CAATGCTTACTCCTGAATTAATTGATTATATTTGGATAATCTCTTTTATTTAGTTTGACAACAGAACTAAGGTAGAAAGAAATCAACTATAAATATAAGA
GTGGAAATCAATTACATATAAAAGAAACGGAGGAAAACAACAAAACCGAAAGCTAGTCCTTTGAAAAGTTCAATAAAATATATAAACATCTCATTAGCCT
GATAAGGTACAAAAGAGGGAAGACACAAATTGCCAATATCAGTAATAGGGGACATCACTAAGGATCCTATAAACCAAAGGTCAGCAAGCTTTTTCTGTAA
AGATTCAGGGAGCATGTTTGGCTTTGTGGGCCACACATGATCTGTGGAGCAACTACTTAACTCTATTGCAGTGGTAAAGGAGCCATAAAAATTATGTATT
TATATTTCAAAAACAGGCTGCAGGATGAATTTGGCTTGTGGCTGTAGTTTGCCGCCCCATACTATAGACATTAAAAGGATAATAATGGAATATTCTGAAA
CACTTTATATGAAGACAATCAATACCTTAGATGAAATGGACACATTCTTTAAAAGACTAAAATTGTTGGGGCTGGGCTTGGTGGCTCATGCCTGTAATTC
CAGCACTTTGGGAGGCTGAGGCAGGGGGATCACCTGAGGTTGAAAGTTAGAGACCAGCCTGGGCAATATGGTGAAACCCCGTCTCTACTAAAAATACAAA
AATTAGCCGGGTATGGTGGTGCGTACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCACAAGAATCTCGAACCTGGGAGGTGTAGGTTGCAGTGAGCTGA
GATTGCACCACTGCACTCCAGCCTGGGTGACAGAGTAAGACTCTGTCTCAAAAAAAGAAAAAAAAAAGATTCAAATTGTCAAAACCAATGCAAGAAGAAT
TAGAAAGTTCAAATAGCTCTATATTAGGGTTTCTCAACCTCAGCACTGTTGATATTTAGGTTGGATAATTGTTGTGGGGAAGGGCTGTCCTGTGTATTGC
AGGGTACTGAGCAGTATCCCTGGCCTCTACTGACTAGATGCCAGAATGACCACCCAGTTGTAACAACCCCAAATGTCTCCAGATGTTACCACATGTCCCC
CAAGGGAGGGATAAAATCACCACTGCCCTATATCATTAAAGCAATTGAGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGGGGC
AGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAATATGGAGAAAACCTCGTCTCTACTCAAAATACAAAATTAGCCGGATGTGGTGGCAC
ATGCCCGTAATCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGTGATGAGCCAAGATGTGCCATTGCACTCCAG
CCTGGGCAACAAGAAGGAAACTCCGTCACAAAAAAAAAAAAAAAAAAAGGCCAGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
CAGGCGGATCACCTGAGGTCAGGAGATCAACACCATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAAATATAAAAAATTAGCCAGGCGTGGTGG
TGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCAGGAGGTGGAGCTTGCAGCGAGCCGAGATGGCACCACTGCACT
CCAGCCTGGGCGACAGAGCGAGACTCCTCAAAAAAAGAAAAAAAAAAAAGAAATTGAGAAGTTGGTTAATAGGTACAAAAATATGGTTAGAGAGAAGGAA
TAAATTCTAGTATTTGATAGTAAAGTAGGGAAATTATAATTATAAATAATTTAGTGTATATTTTAAAATATCTAGAAGAATTATAATGATCCCAACACAA
AGATAAATGTTTGTGTTTGAGGTGATGGATATCCCAATCCCTTCATAATTGATCATTATACATCATATACATGTATCAAAATATCACATGTACTCCCAAA
ATATGTACAATTATTATATATCAATAAAAATCACCAGCCTGACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTA
ACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGAGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAA
TGGCGTGAACCCCCGGGGGCGGAGCCTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGCGAGACTCCGTCTCAAAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAATCACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAGAAAAAAAAATTAGCCAGGTGCGGTGGCGGG
TGCCTGTAATCCTAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAG
CCTGGGCAACAAGAAGGAAACTCCAACTCAAAAAAAGAAAAAATTAAAAAAAAAAAAGAAAATAGAAGTGAAGGGACATTTCCTAAATTCATTTTATGAG
GCCAGCATTACCCTGATATCAGAATCAAACAAAGACTTTATAAGAAGAAAAAACTGCAGGCAAATACGACTCATTAACTCAGACCCAAGAATCCCAACAA
TCTGGGAGGCCGGAGCGGGCGGATCACGAGGTCAGGAGATCGAGACAATCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGC
CGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCAGAAATAG
CGCCACTGCACTCCGGCCTGGGTGAAAGAGCAAGGCTCCGTCTCAAAAAAAAAAAAAAACACACACACACACACAAAAAAGAATCCCAACAATATTTAAA
AAGAATACTGTATCATCGGCTGGGCGCAGTGGCTCGTACCTGTAATCGCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAG
ACCAGATTGGCCAACATGGCAAAACCCTGACTCTACTAAAAATATAAAAATTAGCTGGGCGTGGTGGCCTGCACCTGTAGTCTCAGCTACTCAGGAGGCT
GAGGCAGAAGAATCGCTTGAACCTGGGAGGCGTGGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTGCAGCCTGGGTGACAGAGCAAGACTCTGTCTAA
AAGAAAAAAAATACTGTATTTGTATCATGAATTGATGTGTTTTTTACAAGAATGCAAAGTTGGTTCATATTGAAAAGTCAGTCAACATGATGCATCATAG
TAATGGAATAAAGAAGTAAAACTGGCTGGGCGCAGGGGCTCACACCTAATCACAGCACTTTGGGAGGTGGGCGGATCACCTGAGATCAGGAGTTCGAGAC
CAGCCTGGCCAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGTGCATGCCTGTGATAACAGCTACTCAGGAGGCTGA
GGCAGAATAATTGCTTGAACCTAGGAGGCGGAGGTTGCAGTGAGCCGAGATGGCACCACTGCACTCCAGCCTGGTGACAGAGCGAAACTCCGTCAAAAAG
AAAAAAAAAAAAAAGGAGTAAAACTGTATGATCATCTTAACAGAAAAAAAAAAAAAACTTAAGGAAAATCAACAACTATCATGATTTTTTAAAATCTCAG
CAAACTAGGAACAGAAGGGAACTTTCTAAACCTAAGAAAGGACATCTATACACATGCAGGTACACGCACACACAAAACTACAGCTAACATCATATATAAT
GGTGAAGTACTAAATGCTTTCTTCTTAAGAATGGGAACAAGGCAAGGATGCCTACCATCACCACTTACATTCAACTGTGTACTGGAAGTCCTAGCCAGTG
GAATAAAGCAAAGAAAAAAAAAAGGGATATAGATAGAAAAGAAAGAAGTTAAAGTGTCTTTATTTACAAAAGACATGACCATATGCATAGAAAACCTGAA
CAGATTTCCAAAAAGTTACCAAAAGTAATAATTGAGTTTAGGAAGGTCTCAGGATACAAGGTCAACAGAAAAAATCAATTATATTTTAATATACTAGAAT
TTTTCTTTTGAGACAGAGTCTCACTCTGTTGCCCAGCCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCTGGTTTCAAGTTATTCT
CCTGCCTCGGCCTCCCAAGTAGCTGGGATTACAGGCATGAGCCACCATGCCCAACTAATTTTTGTATTTTTAGTAGAGACTGGGTTTCACCACGTTGGCC
TGGCTGGTCTCCAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAGTGCTAGGATTACAGGAATGAGCCACAGTGCCGGCCAGCCTTTTTCT
TGAAAAATGAACAAAGTGAGCCTGTCACTTCAAGGAAAATAACTGACAGTATTTGTTGCCAATAAGAAAATTCCAAAATTCCACATTCAAATGCCAAATA
AGAAAAAGCTTTCGGCTGGGGGCAGCGTGAGCCACCGCGCCCGGCCAAGTTTTGTATTATTTTTCTTAACTATGTCTTCTCAAATTGCGGAAGCGTTAGG
CCCCACAACATTTGACATCACCAGTAGGGATCCAGTGGAGAGGAGGGACATGATCAGAAACTGTGTTTTTAAATGATCATTCAACAGCCAATTATCAGGG
TGGGTAGGAGTGAGGCAGGGAGATCAAAAGGCAGGGAGATTGGCTGGGATTACAGGCATTGTTACCAGAAAGGGGTCCCGATCCGGACCCCAAGAGAGGT
TCATGGATCTCGCACAAGAAAGAATTCAGGGCGAGTCCGCAATGCAAAGTGAGAGCAAGTTTATTAAAGTACAAGAATAAAAGAATGGATAGTCCATAGA
TAGAGCAGCTCCAAGGGCTGCTTGCCCATTTTTATGGTTATTTCTTGATGGTACGCTAAACAAGGGGTGGGTTATTCACGCCTCCACTTTTTTTTTTTTT
TTTTTTTTTTTTGAGACGGAGTCTCGCTTTGTCGCCCAGGCTGGAGTGCAGTGGCMCGATCTGGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCAT
CCCTCAGCTTCCCGAGTAGCTGGGACTGCAGGCGCCAGCAACCTCGCCCGGCTAATTTTTTGTATTTTTGGTAGAGACGGGGTTTCACCGTGTTAGCCAG
GAGGGTCTCGATCTCCTGACCTCGTGATCTGCTCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCAGGTCCCGAAACT
TAAGCTTCATTTGTTTCACTGCAAATCTGCTTCTGCCTACAAGCCTRGTCTCATTTTCCTCTACCTAAGGATCTTCCTCCATGCAATTTCGGCCTAGGAG
GCCCTTCCCGCCCCTTTTCGCCTAGCTAACTCTTTCGGTACTCAACCACCAACTCCTAATCCTCCCTGGTCCCCCAAGTGGGCTAGGGGCTTCTTKGGAG
TCCCTCGCACTGCTCTAAGCATCCAGGCAGAGTCATTATTCCGGGTGCCAGGTTGCTCTTTTTCCAGCAGCCTTCAGGGGACTCCTGGCTGGGCGGAGTC
TGTAGAGGCGCGCGGAGTCCTGGGAGAGCGTCAGATGTATTTCCTTTCCCTTTTTTCGCTCGTGTCCCGCCGGGTGGCGCTCACCACCTCCCCGGAACAC
GCGAGTCTCCTGTCGCGGTTCCGGTCGGAATTACCCCGTGGAGCACGCCGATATGGCTGCGCTGACACTGAGGGGTGTCCGGGAGCTGCTGAAGCGTGTG
GACCTCGCGACGGTCCCGCGGAGACATCGATATAAGAAGAAATGGGTAAGGTCCGGCTGGGGGCGCAGGAGGGAAAAGTGAGGGTGGAAACTTCTCCAGT
CTTTCCGTTTCCCGGCCCTCTAGAACGCCTAGCGTCTTTCCCAAGCACTCCACGGAACGTCCTTAGGCACCTCCCTCTCTCGTCTTTTCCGTCACCGCCT
CTGTCCGCACTCTATGTCCCGAGCGTTAGTGTCTTCCACTTGTTACGTCTGCAGTCTCCTGACTCCGCCCAAGTTGCGTCATCACCTTCGCCTTCATTCT
TTTAGTGATGTCACTGTCTCTTGTTCCCCAGCTGTGTCCACCTACCTTTCTGTCCCCCACTCCCCCTTTTACTTCCCTCCCTCCCCTCCCCCTTTCCCTT
GCCCATTCTTCCYCCACATGACTTCTCCTTTCCTCATTGATTTTCCAGCCCGGTCGCCCTCACCCCTCGGAAAATACCATAGCGACCTTGCCTGCACTCC
TGGGTCTCCGCCGCCTTGCAGGAAAGGATTCAGCCCCTTCCTCAACCTCGAGCTGCCTCTGGCGACCGGGCAAGGTTACAGCGACCACCCTGTCCATACT
GCCGGCCCAAACCCTGGCAAAAGGTGCAACGAATCCTCTCATCCTCTGGACTCTCCTTGCTTCTCCAGAGACCCTTTTTCTTGCCTCACTGGAAGCCCTG
GAATTTCTTCTATGACCGGCACGCCCCCCTGCCCACCCCAGCCGATTCCCTCGCCACCTCCACCATCTCTTCCACCCCCACAACCTTCCTCGCACTCAGG
GAGATGGTCTTTTGAGTCCTCTTCCCCACTCCTGGAAAGGACCTACTGCCGCTAGCCCTGCCACTCGGGTTCCCCACTCTCCAGCCCTTATTTTGAGCAG
TTCAGCATTCCGGGGTCACCCCCTCTCTGTCAGCGGACACCTTATTGCAGCTGGATGAGTCCCTCCAGAATGCGGCGTCCCTGTCTTCAAGGCACGTACT
GTGACCAGCACACTAATCTCTGTTACTCTAGCGGATGGCCTTCAGCTTTTRGAACCAGCCCGGCAACCTCCTTTCCCCTTGCTCATCAGTCCCCGGGAAC
GAGCCCAGTGACCTCCCCTCAGCTCACTCATGTACCCTTGGAAACTGGACCCATGATTTCGCCTCCTCCTACACATAGGACCCCGGGAACTTGCCTCACG
ATTTCACCTCCTCTTGCTCGCCGGCCGGTGGAAACTAGTCCTATGGCCTCCCCAACCCTTTCTCACAGAGTTTTGGAAACTGGGCTGATGATCTCTCTGC
CCTCTCACTGGTTCTCAGGGAGAAGTTATAATGACCCCCTTCTCTCCCCAGCATCTTCCCCACCTACTGGCAGCTTTTACCATGGCAGCCTTAAGCCTCT
AGACTCTTGTGAACCCAAACCACAGCTTGACCTGCCCCTTGAGAAAAATTGTTGTGGCTTCCCACTCTCTTCTCAGGCAGGCATGCCTGGCTCTCYCAGC
TCACCTCAGGAGGGCTCTTATCATTACTCCCATCTTTCCTCAGAGGCCTACATACCTACCCCTGGGAGTCCTTGCTATGCCATCTGCCTGTGCCCCGGGA
GTACTGATTCTCCTTGCTCACCCCAGTCCCAGGCTCCCAGGAAGGCTTGCATTGAGTCCCTTCTCTCCTGGGAGGCAACTGGGAACTCTTACCTCATCCT
AACCCCGGACACCACAACTTCTGGTCCCCCCTGTTCCCAGGAACCATCTCGTCCCCATGGTCCTCATTCTGTCCTTTCCTTCCCTTCACCCCTGGGCAAC
CAGTTTATATCTCCACCCCAGTCACTTCCCCGCAGAAGCTATAATGAACCCCCTCTTCCCACTCCAGTTTCCCCCCAACCGAAGTCCCCTAAGTCCCCAG
AGTTAAGACAGTCACATACTCCCCACAAATGTCTCTCCCTAGTCAACACTCCCCAGCACACCCCTTCTGGCCAGCCCAAGCCCGCTAAGGCCCACACCTG
TCCCCCACCTCCCTCCTGCCTCTCTGGTCCTTCTTGTATGCAGCCATACATCACAACTCCTTCAAATTCCAGCCCCAAAGAACTTCCCCCAGGGACTACC
TTACTGACTGTGGTCCCTAGAGCTCTCAAAAGTGTTATCCCCACTTCTTTTCCCCTCTGCCTTCCTTGTGATCCTGTCTCGGCCAATAGTTATGCTCAGA
GCAGCCGCCATGGACCCTCCATAGGGCCCCCCTGCAATACCCATATATGCTCTGTGGTTCCCTCCACCCCCCATCCCTGCCCACTGTCTGGCTCCCTCAA
TCATTCGACAGGCCCCCCTCCCATTGTGCCCCTGTGTGACACCTATAGCACTCCCAGGGGCCCACCCCAACCTCGTTGTCAGCCTGTGATGCCTCCTTGT
TCTACCCACATCTATTCTTTTATCCCTTTGAGAACACCCTTTGATCCTCAAAGTTTACCCATTGTCCCCYGAGTCCGGGCCTACCCTGATACTGTCCCCT
GTGGCCTCCATATCTACCCTGTGGCCTCTCAAGGCCCTTGCAAAGAGCCTCTGCAGATCCCCTACAGCTGCCCTTTGCCTTCATCCAAGGATTCCAGCTG
TAGCACCAATCCCAGCTGTAGTTCGACTATTATTAGCAAATGCCAGAGTAGTGACAGCGAGAGCAGGAGTTCCCACCAAAGCCAAAGCCGGAGCCAAAGC
AAGAGTCCCCATGATGGCAGAAGTCAGAGCTGGAGCAAGAGGCATCATCTGAGCAGAAGTCCAAGTCAGAAAAGCAGTCCCTATCCTAGCAGAAGCTGGG
GCCGGAGCAGTAATCCTCAACAAAACACAAGTCAGGGCCAGAGTGAGAGTCCCCAACTTAGCATAAATGAGCACCAGGGTGAGAGTCCCCAAATTAGCAG
AGGTCAGGGCAAGAGCAAGAGTCTATGATGGCAAAAGTCGGAACCGGAGCAAGAGTCCCCAACATGGCAAAGGTCAAGGCCAGAGCAAGAGTCCCCAACA
TAGCAGGAGCCAGAGCAAGAGTCCCAGCGAGGCAAAAGTCACAGAGCAAGAGTCCTCACCATAACAAGAAATGAGGGCCAGAGCAAAAGTTCTGACCAGA
CCAAAAATCTAGGCCAGAGCAAGGCATAGATAGTAACAAGATTGCCAGCTATAGCAAGCATCCCAGCTGCAGCAACCAGGACCGACTTGTGCACTCCTCA
TCTGAAGTCTTCATTTCTCTTTTACTCTGCCTCCTTGTTCTTGTCCTCTTGTCCCCTGCTACCCCCATAGCAGTCATCCTAGAAGTCCCTGTTTTGGTTC
ACACCTCAAGATTCTGTGGGCCCTCCTTATCCAACCTTTCTGGGGTCTGGGAACTCTCCCAGCATGACCCTCAAMCCTCTGATTCTAAGCATGGTGGTGC
TAGTCACTGTGTGACGCTAGGTAAGTTACCCAYATCTCTTCATCAAATTGAAATGTTGTTAATTTTTTTTTGTATCTTACTGAGCTATCAGTTGTAGTGC
TCACATAAGCTAGTAGACATGAAAGTGCTTTGAAAATAGAACTGTTCAGAAGAAAAGGGCCTTTTGCTTTTAAGTTCAAAGCTTCCCAGAGCCTCCATAG
TTTCTCCTAATCTTCTGCAGGCTCTCCTCAAGAGTCCTCTCCTGAGCTCCCATATTCCTAAGTTCCTCTTTCTCCAAGGTCCCCCTTCTTGATGACCCCC
GCACAGTACCGTGAGAGTTACATCTTTATCTGACAACCCTGGGATGGGAAGGCCCACTCTCCACTACTTTTCCCTCTCACACTTCTCTGGCAGGCAGGCA
GGATGCAAAAGCAGGAGTGGGCACTAGCTGGATCCAAGTTTGCCCCTAGGCTCYGAGGTGGGGGTCAGGTAGTAGGGGGTAGAGTCAAGACTGGGAAAAC
CAATAAGCCTGTCCTCTCTCTTTTAGGCTGCCACAGAGCCCAAATTCCCTGCTGTTCGACTGGCTTTGCAGAATTTTGACATGRCTTACAGTGTGCAGTT
TGGAGATCTTTGGCCATCAATCCGTGTCAGTCTCCTCTCAGAGCAGAAGTATGGTGCACTGGTCAATAACTTTGCTGCCTGGGATCATGTAAGTGCTAAG
CTGGAGCAGCTGAGTGCCAAGGAYTTTGTGAATGAAGCCATCTCCCACTGGGAACTGCAGTCTGAGGGTGGCCAATCTGCAGCCCCATCCCCTGCCTCCT
GGGCCTGCAGTCCGAAMCTTCGATGCTTCACTTTTGACAGAGGGGATATCAGTCGCTTCCCTCCTGCCAGGTAGGATCTGGAGCCATGACTGGAGYGGTC
CTGAGTGTCTGCTGGAAGTAGACATGTTGAGACCCAGCTTCTACCCTCTGTAATAAGGACCATAATATTGCTAATATTTATGGCATGTTTATACARACTA
GGCATTTTTTTGAGGTGCTGTACATATGTTATCTCTTTTTGTTCTGTCAGCAGCCTTATGAAGTAGGTAATATTATTGCTSTTTTACATTTGGAGAAACT
GAGGTACAGAGAAGTTAAGATTCTTACTTGCTTTAGGTCCCTCAGATGGTAAGTGGTGTGACTAATATTTAGACCCAGAACCTGCACTTTGAACCCACTC
TGCTCTGTGCCTCTGGTAGAAAACAGCCACCTTTTACATGAGCACTCACTGGGCCCTCTCAAGTTGAAATGTGTTATTCACAGCAGTCTTCTCATTTTGC
CCTCACAGCCACCCATCAAAGTGAATAGGAAAAGTAACTTCATGGTAGCAAAGAGGTAGTGGGACTTTCCTAGGAAATAGGGCTGGTCTAGGGGCACAAA
CTTGGTATTAGACTGGGAAAAAGAAAGGAGAAGTTCAGTTTCTTGATTCAATCCTCATGTATATGAAGTTGAATGAGAAAAGACTGCAGAATCAAATGCT
GAATTATGCTTTAACAATTAAGGAGAGCTCAATGTTAGTTGTAGGGTATGGGAATTGATTTTTGAAAGACTGATTTATTTATTAAAAAATATTGGCCGGG
TGTGGTGGCTCACGCCTTTAATCCTAGCACTTTGTGAGGCTGAGGCGGGCGGATTGCCTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAACATGATGAAA
CCCTGTCTCTACTAAAATACAAAAAAATTAGCTGGGTGTGGTGGCGTGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACC
CAGGAGGTGGAGGTTGCAGTGAGCTGAGATCGTGCCACCGTACTCCAGTCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAATTAT
CTACCAAATGCTAGGCATTTAAGTGCCTTGATGAACAAGCCCTCATAGAGCTTCCAGTTTAGTGAGGAAGACAGCTATTTAAAAACAATAATTGGCCAGG
CACAGTGGTTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCATCTGAGGTTAGGAGTTCAAGACCAGCCTGGCCAAAATGGTGAAA
CCCCATCTCTACTAAAAAATACAAAAAATTAGCTGGGCATGGTGGCACAAGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAAT
CTGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCGCCACCGCACTCCAGCCTGGGCAACAGAGCGAGACTGTGTCTCAAAAAAAAAAAAAAAAAAAAAAA
TTAGCCAGGCATGGTGGCGGGCACCTGTAATCCCAGATATTCAGGAGGCTGAGACGGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGCGAGACGA
GATCGTGCCACTGCGCTTCAGCCTGGGTAACAAAAGTGAAACTCCGTCAGTCAATCAATCAGTAAATAAATAATCATTCTGGCTCCCGTATAGATGAATG
AATAAGTGAATAAGTAAGTGTGGGTCTGAAAAATGAGTTTTTGGTGATTGGAGCTCAAGCCCCAGAGGGCATAGACTTGGTGGCCTAGACTCCCAGTGGG
TGTCCTGACCTGGAATTTAACAATAAAGTGGTCTCCTCTTTTCCAGACCTGGCAGCCTGGGTGTCATGGAGTACTACCTGATGGATGCTGCCTCCTTGCT
GCCTGTTCTGGCCCTCGGCCTGCAGCCTGGGGACATCGTGCTTGACCTATGTGCAGCTCCTGGGGGAAAGACACTAGCGTTGCTTCAGACTGGCTGTTGC
CGTAAGTCAGGGTGCTGGTGTGTTGGGCAGAGAGAGCTCCCCACCTCACCTAGTCCCAGGTACATTTAATATGGTAGGTTCGGCCAGGCGCAGTGGCTCC
CGCCTRTAATCCCAGCACTTTGGGAAGCCGAGGGAGGCGGAYCACCTGATGTCAGGAGTTCCAGACCAGCCTGGTCAACATGGTGAAACACCATCTCTAC
TAAAAATACATAAATTAGCTGGGTGTGGTGGTGCACTCCTGTAATACCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAAGTGGAGG
TTACAATGAGCTGAGATCCTGCCACTGCACTCCAGCCTTGGCGACAGAGTGAAACCCTGTCTCACACACACACAAAAAAAGAATATGGTAGGTTCTCTAG
TCCCAAAGTCAGAGTGGAGGGTAGTACTTACTTTCTAAGCTTGTGTATTTTTTCATTAGTTCCTCTCTTTCTCTGTCAATTGGTCAAGAAAGATTGCTGA
GCAAGTTCTCTGAAGTCAGAYTGAAGTAGGGCTCTGATCAGTTGATCACATGATACACACTCCTCTTCATCTGTTTACTTTTCCTCTAAGATTAAGCCCA
TTTCTTTAGCCTACCAACTAAAATGATAAGATCTGCCTGCAGCCACCATTTATATGCTTTATATGTCACTCTTCTAGGCTTTATGTGCTTTAACCTTACT
CTGCTACTCTCTGTTGCCTTTGCTCTTGTTAAATTTTCTCCCTGGAATTCCCTCACCCTTGGCTGTCCAAATCCTTTTGACTTTCTTTTTTTTTTTCTTT
CTTTTTTTTTCTCTTTTTTTCGAGATGGAGTCTCACTCTGTCACCCAGGTTGGAGTGCAGTGGCACGACCTCGGCTCACTGCAAGCTCCGCCTCCTGGGT
TCACGCCATTCTCCTGCCTCAGCCTCCCTACTAGCTAGGACTACAGGCGCCCACCACCACGCCCAGCTAATTTGTTTTTGTACTTTTAGTAGAGACAGGG
TTTCACCCTGTTAGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCTGCCCGCCTAGGCCTCCCAAATTGCTGGGATTACAGGCATGAGCCACCGCGCC
CGGCCCCTTGTGTCAAGTACTCACTTCAGCCATCCACTGGCTGATATCCTGCCTGCCCAGTCATCCTTTTGACTTTCAAGCCTCAGCTCAAGTGTGCCAC
CTCCTGGACGTCTGTCCTTACGACCTCTGCTGGCCGGTTCAGAAATGATGCCTGTCTCCTACGCTCCCACAGCATGGGTATCGCCCTTGCAACATTAGCC
TTGCCTTAGGGCTTTACTAGTTATATATCTTCTCCCTCTTAAAGATGATGGATTCTGGCCGGGCACGGTGGCTCACGCCTATAATTCCAGCACTTTGGAA
GGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACAAGCCTGGCTAACATGGTAAAACCCCGTTTCTATTAAAAATACAAAAAATTAGCCGGGC
CTGGTGGTGGGCTAATCCCAACTACTTGGGAGGCTGAGGCAGGAAAATCGCTTGAACCTGGGAGATGGAGGTTGCAGTGAGCTGAGATCACGCCATTGCA
CTTCCGCTTGGGCAACAAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGTGGATTCCTTGGGGATAGGCCCACATCTTATTTGTCT
CAGTAAAGTAGCCCAGCGAAGGCCTTGTGCACTGTTTTTTTTTTTTTTTTTTTTTTTGAGAAGAAGTTTCGCTTTTCTACCCAAGCTGGAGTGCAGTGGC
ACGATCTTAGCTCAATACAACCTTCGCCTTCTGGTTCCAAGCAATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCACCACCACACCC
GGATAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAATTCCTGACCTCGCAATCCACCCACCTCGGCCTCCCAAA
GTGCTGAGATTACAGGTGTGAACCACCGCGCCCAGTCTTGTGCACTGTTTTTTTTGGTTTGTTTTTTTGTTTTTTTTTTTTTGAGACGGAGTCTTGTTCT
GTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAACTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAGATAGCTGGG
ACCACGGGCACCCGCCACCATGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGATAGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTC
GTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCGCCTTGTGCACTGTTAAGTACTCACTTCAGCCATCCA
CTGGCCGATATCCTGCCTTAAAATAGATAGTTTTTTTCCTTTGGCCCCTGACAAAGGGCCGTAATTTACACACCTAACCTGGAGCTCAGCCAGGCTTCTC
TTGCCGTGTGCCCAAGCCCTTCTGTTGGACCTAGACCCTTCTTTTCCAGGTCTTGTCAGCCAGCTTGCACAGTTTGAGTCAGCATCCAGCCTTATGATAG
GCATTGGTTGATTCAGAGAGATATCACATTCGGTCATAGCCTTCTGGAAGTCCAGAGGGAGAGAAGAAAAGGTGGGGTCATGGGCTTAATGAATCCAATG
CAAGAGAGCCCAGCCTGTGTGCTGGACMATTCTTATCTGACTGAATGCTGTGGGAATCCATTAGAAGGGAGATGAGTAAGGGTAGGGTTACTTGGAGGAG
GAGGAACTTGAACTAGGAGGAGGAAGAAGGGCAAAGAAGAAGTAATTGAGAGTTGTTCTTCTAAGGCATGCTTAACTATCAGCACCTCACCTTCATCCCA
GCTCCTCATCAAGCGACAACTCTTGATCCGAGGAAAACGGGATCACAGAATTTGTATAAGAAGGGAAATTAGTGTTTACTTAGTCTAGCCCTCATATTTT
AYGGAGGGAGAAATTGAGTTCTGTGGAGATTAAATAAATAATACAAGAATKGGAGGTAGAGCCAGAACTGGAACCCATCTTTCTTTTTYTCAGTTCATAT
CCTTCTGCAAATTCCTCTAGAGCAGAGAATACMATTTTTACTTCTTTGAGYGCCCTCAAAAATGGAGACATTGGCCGGGGGGYGGTGACTCACGCCTGTA
ATCCCAGCACAAGCTAGGAGGCYGAGGCAGGTGGAATACTTGAGTCCAGGAGTTCGAGACTAGCCTGGGCAACATAGACCTCATCTTCATTAAAATAAAA
AAAAAGGAGACATTTATTTATGGGATTACTAAGCTGGTTCATAGTAGTGACCACTATTAGATAAGGTGGACACTTGCATCTCGCATTCTTTACCATTCCC
ACCCTACCTTGTTGTTCTTTGACTCAGAGGCCAGGTATCAAGTGTCATTTATCATCAAGCTTGCAATATTTTTCTCATAGTAGCACTAAGAGCAAAGTGA
GATATTTCTTGAACTCATGTCTACCAATAAAGAGAAAATGAAAGGTAGATGGTAAATCAGAATTAGGTTTGGTTGCATTTGATAGAAAACCTRACTAATT
GGCTTAAAGAGGAAACATTAATTTATCTCTTACATAAGAGAAGCTGAGATATAGGCACTCCAGGTATGGAGGCTCCACAATYATCAGGGACTTAAGCTCC
CTTTTTCCTTTTGCAACRTATTTTGTTGCTAGTGTCAGCCTTAGCCTCCCTCCCTTTAAGAGGGAGAAGATATGTAACTAGTAAAGCTCTAAGGCAAGGC
CTCATGGTCCAGAATGACTGCTGGAAGTCCAGCCATCACATCCATATTTGAGTCAAGAGGAAAGGATTGGGCAAAAGAGACTCATTTCATCTCCCAATTA
TGTCAGCCTTTTAAAAATATCTTCCCAGAATTCCTATCCAATACTTATGCCTACAACTATGACCAAAAGTTAGTCATATAGTCATACTTAGTTGTAAAAG
AAAGGCTTAGCCGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGASGCAGGCAGATCACCTGAGGTCGGGAGTTCAAGACCAGCCTG
ACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTTGCCGGCGTGGTGGCGCATGCCTGTAATCCCAGCTACTYGGGAGGCTGAGGCAGGAGA
ATCGCTTGAACCCGGGAGGCGGAGGTTATGGTAAGCCGAGATCGCGCCATTGCACTCTAGCCTGGGCAACAAGAGCGAAACTAAAGAAAGGTTGAGAAAT
GTAGTCTTTTGGGGCAATTTTCCCCTTCCAAAAAATTGGGGTTCTATTAATAAGGAGGAAGAGGAGAATGATTTTGGSTAAATAAACTGTAGTATCTACC
AAAGATGAAGAGAGCCATAGGTTTCCAGAATAGTGGGAGAGCATATTTTTTTAGAAATAAATATTCTTGGCTGGGCATGGTGGCCCACACCCATCATCCC
AGCACTTTGGGAGGCTGAGGTGGGAGAATTGCTTGAGGCCAGGAATTCAAGACCTACCTGGGCAACATAGTGAGACCCAGTCTCTTTTTTTTTTTTTTTT
TTTTTTTGAGATGGAGCCTTGCTCTGTCGCCCAGGCTGGAATGCAGTGGCGCCATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCTTTCCCC
TGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTACCCACCCCCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCA
GGATGGTCTCGATCTCCTGACCTTGTGATCCGCCTGCCTTGTCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCTTCCAGTCTCTT
TTTAAAAAATTATTTAAATATATTTTTATTTTTGTAGAAATGAGGTATCGCTATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTGAAGCAATCCACCTA
CTTTGGCGTCCTCCCAAAGTGCTGGGATGAGAGGCGTGAGCCACTATGCCCAGACTCAGAGACCCTGTCTTTAAAAAAAAAAAAAAAGAATGTGGCTGGG
TGCAGTGGCTCACACCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGCGGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAA
ATGCTGTCTCTACTAAAAATGCAAAAATTAGCCGGGTATAGTGGTGCACACCCATAGTCCCAGCTACTCAGGAGGCTAAGGCATGATAATCACTTGAACC
CAGGAGGTGGAGGTTGCAGTGAGCTGAGAGTGTGCCACTGAACTCCAGCCTGGGCGACAGAATGAGACTCTGTCTTAAAAAAAAAACAAAAGGAAAGAGA
GGGAGAGAAAGAAAAGGAGAGAAAGGAAAGGGAGGAAAGGGGAGAGGGAAAGGAGAGAAGAAAGGCRAAAGTAATGGGGAAAGGAAAAGGGGAAAGGGGA
AAGAAAGGGGAGAAAGGGGAGAGAGGACAGGAAAGGAGAAAGGAAAGGAGTCTTACTTGGTCTGCTTTATTCATTGACTTAAATAACTTTGATACTTTCT
GGCCCATTTAGGTGTTTGCCATTGTACCCCCACTCAGAATGACTGATGCTGTGCCATGCACATAATAAATGTTCCTGATGCTGGGGTTTGCATTGGCTGG
GACTRCCTGAGAATTGGTCTGACTCCATCAGYGCCATTGCTGGTGGAATGTTTCRTTGGGYCATGGCCTCTGAAGTATCTTTATTTCCATAGGCAATCTT
GCTGCCAATGATCTCTCCCCGTCCCGAATAGCCAGACTACAGAAGATCCTTCACAGCTATGTGCCTGAAGAGATCAGGGATGGAAATCAAGTTCGAGTTA
CCTCATGGGATGGCAGGAAATGGGGAGAACTGGAGGGGGACACCTATGACCGGGTGAGTGATTCTTGATTTARGACAYGCATCCAGCTTAATGCGGCCTC
CCCATCCTGGTTCTAGGGCCTGAGGGGTTAGGATCCAGCCCCTATGTTTGAGCATGTAGAGCTGTTTCTGGACTGGCCAGTTCTACATTGGTGATTTGAC
CAAAAGAAAAATCAGCTTAGATGACTGGTTATTATCTCTATTAAAGATAGTTGGCAGCAAAAAAGAATTTGAAACTATTTGAGTAGGGGAAAAATTTACT
AGGCTTACTTTATTTCTCAAGTCACTTGGTTGCTCAGAAAGCCTCATGAAGGTAAGTAAGAATAAGCTCATTTATTTATTTTTGAATGTTAGTACAGCAC
ATGGTACAAAATTCAGAAGGCACAAAAGAGTATCCAATGAAAAGTGAGTTTTTCTCATCTGGCCTGTAGCCCCCTACTTCCCCACCCTATAGATAACGAT
TGTTTCTTTTTTTTTTTTGAGACGGAGTTTCGCTTTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCTGCTCACTGCAGCCTCCGCCTCCTGGGTTC
AAGCAATTCTCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAAGCGCCCACCACCACGCCCGGCTAATTTTTGTATTTTTTTTAGTAGAGACGGGGCTTC
ACCATCTTGGCCAGGCTGGTCTTGACCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACTGCGCCCAGC
CGGTAGTATATTATATTATACTCACTATTCTGAACTTTGTATTTTTTTATTTAATAATGTGTCCTGGGGTTAAATCCTTTTTTAATTTTGTTGACATTGT
GGAAGTATAGTTGTTGAATAACAGTTTACATCCATTTAAGATTTTGATAGCGATTGCTAAATTTCTCTGTGGAGGTTAAACCAGTTTCACTCCTACTGGT
AATGAATGAGTACTGATTTCCCACATGCTGCCAATATTGGTGCTATCAAACTTAATTTTTTTGCCAAATGGATAGTATCTAATTTACAATCTCTTATTAA
TCATGTTGAAAATCTCCATATTAATTTTTTTAAAGTTTTTTTTTTTTGAGTGGCAGGTTTTCACTTTGTCACCCAGGCTGGAGTACAGTGGTGTGAACAC
GGCTCACTGCAGCCTCAACCTCCTGGGCTCAAGGGGTCCTCCTGCCTCAGTTTCCCGAGTAGCTGGGACTAGAGTGTGCCACCATGCCCAGCAAATGATT
TTTTGTAGAGACGGGGTCTCACTATGTTGCCCAGGCTGGCCTCGAACTCCTGGGCTTGAGCAGTCCTCCCACCTTGTCCTCCCAAAGTGCTGGGATTATA
GGTGTGAGCCACTGTGCTGGGCCAGTCTCTTCATGTTTTTAAGTTATTTATTTTATTTTAAATGGCATACTCTAAAAATATTTGTTTAGAACACATATTT
CTAAAAATATATAAAATATATAGCTGTTGTCTCTGTGTTGTCACCTGATTTACCTAATCTGTCTAGTTCTCACCATTCTGCCTCAACCACTCTAAGAAAC
TGAAAGAAAGACCAAGGCTTATGGAATCTTAGATAGGCTTGAGACTTGCTTTCTGCCTGTGTAGGAATCCCCTACTCATTTTTTTCTTTTTTTTTTTTGA
GACAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAGCCTCCGCCTCCTGGGTTCAAGCCTGGGTTCAAAGTTCGAT
TCTCTTGCCTCAGCCTCCCAGGCAGCTGGGATTACAGGTGTGTGCCACCACGCCTGACTAATTTTGTATTTTTTTAGTAGAGACGGGGTTTCACCATGTT
GGTCAGACTGGTCTCGAACACCTGACCTCAAGTGATCCATTAGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCGCCCGGCCTATTC
ATTTTTCTTGATATGAGAGCAGTGGAACATGATGGAGAGAGCATGACCTCTCCTGTCAGCCTAACCAGTTTCTACATTACAGGGGTGCTACTTACTAACC
TTAGGCAAACTGTTGATCTTGCTGAACTTCAACCTCTTCGTTTGTGAAACAGGGTAATCCTACCACTTAGGATTATTGTGAGGATTCAGTGAGAGTATCC
AGGGAAAGCACTTAGTATAGTACCTGGCGGTGAAGATTAGGCAAGCAGGACCCATTATCATTATTCAGCCTATGCTTAAACACATCCGTTGATGGGTGCA
CACTGAGATTCTGTTGTTGAACACTTACAATGTTAGGAAGTTCTGCCTCTTACTGCAATCTGTAGATAGCATGGTATATGGGTTAGGGCAAGGATTCTGG
AGTCAGACTGCTTGGATTAGTCCTGGTTCCATTACTTATCAGCCAGAGAAGTTTCGGTGAGTTACTTAACTTTCAGTTAAGCTTCAGCTTCTTCATCTGT
AAAATGAGGATAATAGTATAGTGCCTATCCCGTAGGTGAAAATTAAATAAGAATGCATTTGGCACAATGTCTGGAATATAGAAAACATTCAGTAGTAGTA
TAATCATCACAATCCTTACCATTATTATTATTATTTCCATTCATTGATCCTAGCTACTTATTTTAGAACAATATAGAATGAGTGACCTGCTATTTCACTT
GACAGCTTTAATGTTTGAAGATGTCTTTGTTAACTTGTTTGTTGAAAAACTAGTTGTGGCCGGGCACGGTGGCTAACGACTGTAATCCCAGCACTTTGGG
AGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACGTGGTGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGGTG
TGGTGGCAGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCGCCAT
TGCATTCCAGCCTGGGGAACAAGAGTGAGACTTTGTCTCAAAAAAAAAAAAAAACTAGTTGTGTACAATATACTCTGTGGTAGGCAAGTGTTAAGCACTT
TTATTTATTTATTTGAGACAAGGTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCGCAATCATGGCTCACTGCAGTCTTGACTTTCTGGGCTTAAGTG
ATCCTCCTACCTCAGCCTCCCAAGTAGTTGAGACTACAGGCATGTGCACCATGCCTGGCTAATTTTTTAACTTTTTGTAGAGATGAGGTCTCACTATGTT
GTCCAAGCTGGTCTCGAATTCCTGAGCTCAAGTGATCCTCCTGCCTCAGCCCCCCAAAGCATTAGGATTACAGGTGTGAGCCACCGTGCCCAGCCGTGTT
AAGCACTTTAGATGCAAAGAAGAATGCTACTTCAAGGCTGGGCGCGGTGGCTCACGCCTGTATTCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACG
AGGTCAGGAGATGGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGAGATGGCGGGCGCCTGGAATCC
CAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTAAACCCTGTGGGGCAGAGCCTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGAGACA
GCGAGATTCCGTCTCAAAAAAAAAAAAGAAGAAGAAGAAGAAGAATACTACTTCAGGGCTCTACATACTCTTGGTAACTCCATCCTTCTCCCGCTCCACT
TGTCCATCAGCTGGAGAAGGGACAGGACCTCAGAGCTCTGCATGTTCATGGAAGACACTAACCCCCCCATGTCACAACTTTCTTTTTTATGTGAGCTCAA
GTTTATTTCAAATAATACAATGTTTATTTGAACATGTTTCTATCTTCCCTTATAATACAATATTATACAAATTGATATTAATACAAATAATATTTGTTAG
ACACTTGCCCAGGGCTGAGATTCAGTGGGAGCACTATCCTGGCACGACTGGTTATTTATGACTGACATCCATGCCAGTGCCTGATGTGAAGATGCATGTG
CCATATCTGATGTTGAGTGGTTTGACTACCCTCCCTAAATGTTTCCTAAGTGTAGTGCAACAGTACAACTTCCTTTTCTTTCTTCTGTGACTGAGTGAGA
TCAACATATTTTTTTATTTTTGAGACAGGGTTTCACTCCCATCGCCCAGGCTGGAGTGCAATGGCACAATCTCGGCTCACTGCAACCTCTGCTTCCTGGG
CTCAAGCAATTCTCCCGCCTCATCCTCCCAAGTAGCTGGGAGTACAGGCAYGTGCCAGCATGTCCAGCTAATTTTTTTGGTATTTTTTGTGGAGACGGGG
TTTTGTCATATTGCCCAGGCTGGTCTCGAAATCCTGGGCTAAAGCCATCCGCCCGCCTTGGCCTCTCAACATGAACATTTTCCACAGTTAACACTACTGA
AACAATATTAGAAATATATTAGAACCAAGATATTCAGATATATTGCCATCGATTTATAGTCCCCTTGAAATTACATAGCTCTGCTGTTTCTCTGCATTAG
GGGCTCAGGAGTCCAGCGGTCCTAAGTATACCTTGCAGCCATCTTCCTAAAAGTTCTGACCATGACTGAGGACACTGAGAAGGAGTAAGGAAAGAGTCTG
TAGACATTTCCTCCTTTTTGGGTTGGGGAAACTCCTACAGCTTTTTTTTTTAAAGGATTGCAGTTATACCTTTGCTCATCCCTTTATATTTAGGTCATTT
CCTTTTAGGTGTATCTCTTATATGCTGCATAGACAGGTTTTGCTTTGTGAGCCAATCTATAAATTTTATTCTTTTCATTGCTGACTTAAGCAATTGATGC
CATTGATGATTTTGGTCTCAGCTCTGTCAAATTATTATCATTTTATTTATTTATTTTTTGAGACAGTCTCGCTCTGTTGTCCAAGTTGGAGTACAGTGGT
GCCATCTTGGCTCACTGCAACCTCCACCTTCCGGGTTCAAGCAATTCTTGTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGCGCCCGCCACCATGCCT
GGCTAATTTTTGTATTTATTTATTTATTTATTTWTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGTTCACTGCA
ACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCACCACTGTGCCCGGCTAATTTTTGTATTTTT
AGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTTACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGC
ATGAGCTACTGCTCCTGGCCTAATTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCAGGCTGGAGTGCAGTGGTACGATCTCGGCTC
ACTGCAACCTGTGCCTCCTGGATTTAAGCGATTCTYCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCGTGCCACCACACCCAGCTAATTTTTGT
CTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTTGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGAATTAC
AGGTATGAGCCRCTGTGCCTGACACCTGTCAAATTATTTTACTGTGTTTATTTACCATGTTTCTTTCACTGTGGGGTCTCTGTCCTTGCTGTTTTGTTTT
TCTTTTAACTTCTTTTGTTATTTAGGAAGGTTTATATTAATATTTTAATTCTACATTGGATAATTCCTATATCAAAACTATTGTTGACAATCAGTTACAG
ATGGAACTTCGTCTACTCTTTCTCCCCTTCTCACTCCTGCTCTTTCTCCCTTTCTCACTCCAGCAGTTGACTAGTCTCATTGAAAAAACAAATTGGGGCC
GGCCAGGCATGATGGCTCATGCCTGTAATCCCAGCACTTTAGGAGGCTGAGGCGGGTAAATCACCTGAGGTCAAGATTTCGAGACCAACCTGGCCAATAT
GGCAAAACCCCGTCTGTACTAAAAAAATACAAAAATTAGCTGAGCGTGGTATTGTGCGCCTGTAGTCCCAGCTACTTAGGAGGCTGAGGTGGGAGAATCG
CTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGTGCCATTGTGCTCCAGCCTGGGTGACAGAGCCAGACTCCATCCCAAAAACAAACAAACAA
ATAAACTGGGAATTTAGTTTTACTGGTTGCTGTTTCTGCTGACTTGCTCAAGGAGTCGTGTTTCCTTTTAAGTTTTGTGGTTATTTTTGTGTCCTGTAGT
AAGCTTTTTTTTTTCTTTTTCGAGGCGAAGTCTCACTTTGTTGCCAAAGGCTGGAGTGCAGTGGCGCGGTCTTGGCTTACTGCTACCTCCGCCTCCCAGG
TTCAAGCAATTCTCCCACCTCAGCCTCCTGAGTAGTAGCTGGGACTACAAGAGCGCTGCCACCACGCCCGGCTAAATTTTTTTTTTTTTTTTTGAGATGG
CGTCTTGCTCTGGCGCCCAGGCTGGAGTGCAATGGCGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAAGTTCAAGCGATTCTCCTGCCTTAGCCTCCC
GAGTAGCTGGGATTACAGGTGTGTGCCACCATGCCTGGCTAGTTTTTAAATTTTTTGTAGCTGGGACTACAGGTGCATGCCACCACGCCCGGCTAATTAA
AAAATTTTTTTTGTGCAGGTGGGGTCTCACTATGTTTTCCAGACTGTAATAACTTTCCTATTGGAGTATAATACAGAAGTGACCAAATCATAAGTGTACT
GTTTAAAGAATTATCTTATAGTTAGTCTGGGCAACATAGCAAAATGCTGTCCCTACAAAAATACAAAAATTAGGCCGGGCATGGTGGCTCATGCCTGTAA
TCCTAGCATTTCAGGAGGCCAAGGCGGGCAGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAGCAYGGTGAAACCCCGGCTCTACTAAAAATACAA
AAAATTAGCCGGGCATGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTAAACCCGGGAGGCGGAGCTTGCAGTGAG
CCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAWATATATATATATATATATAT
ATGTAAATTAGTCTGGAGTGGTGGTTTGCATCTATGGCCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATTGCTTGATCCCAGGGAGTTTGAGGCTGCAA
TGACCTATGATCACATCACTGTACTCCAGTCTGGGCAACAGAGCAAGATTTGTCTCTAAAAATTAAAAAAAAAAAAAATTATAGTTACTTGTGTGTTAGT
TTTGGGTTTTTGACCAGCCATGAATATTCCCAAATATACTATTTTCCACTCATTATTTCACAATTGTCTACCAAGTTAAAATGAAGAACTTTGTCAGGTA
CTCTGCAAAGGAGGGATGGGCAGAGGGAATATTTCACAAACTTAGGCCAGGGGCCTAAAACATCTCTGGCCTAAGGAAGAGAAGCCTATAAGGATCTTTA
ATACTTTACCCTTTAACACTCTGGGTAGGTGCTGGTGGATGTGCCCTGTACCACAGACCGCCACTCCCTTCATGAGGAGGAGAACAACATCTTTAAGCGG
TCAAGGAAGAAGGAGCGACAGATATTGCCTGTGCTGCAAGTGCAGCTTCTTGCGTGAGTGACAGATTTTTAAACTCAGGACTTTGTGCCAGAGTGCTCTG
GGAGACTGGGGGACTGGAAGCTCTTACCAAGACCATAACMCACACAAGAATCTTATGGCTGGAGATCTGCCTAGAGGAGACAGAAATGGGATCATCTCTG
GAACATAAAAACCCTATTTGAATTAGCTGGGTGTGGAGATGCACACCTGTAGTCCCAGCTACTCAGGGGGCTGAGGGAGGAGAATCACTTGAACCTAGGA
GGTGGAGGCTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGTAACAGAGCAAGACTCTGTCTCAAAAAACAAAAACAAAAACAAAAAAGCAA
CCCTATCTAGTAGGATATATATACTAGAGTGGGCTGCACAGATTGACTCATGCTATTTCATCCTCAGTACCAGTGAGTAGCACATGTTTGAAAAATAGCT
GCTAGAGTAAGGACTCATTCTATAGCCAGCATAGCAATTTGGTCCATAAACAAGAGCTCAGGGGGTCATTGTAAGGAGACTTCCTAGTGAAGAGCTCATG
GAGTAAGGTTGGGTTGCTATCTGCCTTGAGAGTGACTTTTCAGACAGTGTCATTGTGGAAGGGACTTGAGAGGCAGTCTAACCAGCTACCCWTCCTGTAG
TAGCCTTCCCTTATCCATGTTTCCAGCTCCTTATGTTGCTCTTCTACTGCTGGGAAGCTCACTAGTMACTGCTTCTGTCTCTTTCTGGTTTCAGGGCTGG
ACTCCTTGCCACCAAACCAGGAGGCCATGTTGTCTATTCTACCTGCTCACTCTCACACTTACAGAACGAGTATGTGGTGCAAGGTGCCATTGAGCTCCTG
GCCAATCAATACAGCATCCAGGTACAGGTGGAAGATCTGACTCACTTCCGAAGGGTTTTCATGGACACATTTTGTTTCTTCTCATCCTGTCAGGTTGGGG
AGCTGGTARTACCAAACCTCATGGCCAATTTTGGCCCYATGTACTTCTGCAAAATGCGTAGGCTGACATAGTATCACCCAATCCCTGAAGCAAGAATACA
AAGGGTATACTCTGTTGGATGCACCAGAAACTGGAAACTGGGACCAGTGGCAGAGATGCACTCTCGGTCCTGTCTCCATCCTGTTCGTGTCTTTCTGCAG
TTTTCGGCAATAAGAAGTAGAAGATTTGCTGTCCTGCTGTCCAATTGTGGAGCATCAGCAGGTTTCCAACTCACTCATTAMCCCCTACCCCATCTCCAGG
CCTGTACTAAAGTTTGCTGCCYGCTTAGGGGCTTAGAAGGAGAAGCCAGTGAGCAGGCTCACACTAAGTTGTAAACATAGGAGAAGCATTTGGCCAATAA
AGTTGTTGAAACTCTATAGACCTRGGGCTGCAGTTGGGGACTTCATGTCAGTGCAAATGCCATTAGTTCCATTTGTACCAGCCAGTTACTGAGCCCCTGT
CACCCTTGAAGTGAGTTCCACCTGACCAGTCTTGAGCAGCCAACAGGCTCAATTAAGCCCGCCTGGTTTTTCCATATGGCTCATGATCTAATTTAAGGAA
CAAGTAACTAAAAATGTTAAGCCAGTGCAAAATAATCTGCTTACCTACTCACATTGGAAAAACCCTCTGAGCTGAATAATTCTGGCCATTCCTGCTGTCA
ACAATACTGCTGCCCAAATGTGGCTTAGGAGGCTGCTTCTGCCACAAAACCGTCATACTCTTGTGCGTGCCTTGTTCTTTGTTCATTCATCTAGCAGGTA
TTCCCAGACCTCGTGTATGACAGGTAGCTAGGGAGCTCTTGGAGATGTAGCAGTTGGGATTGTGGGAGATTACTGGGCTTCCTCATCCTTTAGAATGGTA
ACTCTCCTTTTGCTTTCTGAACACCTAGGAATTTCCTGATGTTTTGTTTTGTTGGATTCCAGACTTTTTGTTGTTTCTAGTCTGCAGCTGAGCTCTGGTG
CCTGTTCTTTGGCCCACCCCCTAATCCCTAACTCTTCCCTCAGCATCACAGGGCTTCACTGCACACACTGTGTTCAGGGCAAGATTTCATCATTTACTGA
CTGCATACTCGATATGTTGTTTTTGTAACTTTAGCCAAAAGAAAGTAACCTTTAGTGGCAGGGATATAAAAAATTGCTCAGGGTCACTTGCAGATATTTT
ATTTTTAAACTTTTTTTTTTTTTCCTGGAAAACATCCTGTGCAGAAAAGGGTATATAATTTTAGAATACCTGAAGGCTTCTTGGCTTTTCCACTTTCCTT
ATTCCTCCTCTTCCTGCCACTCTTTTTGTCCCTTCTGTCTTTCCTGCTCATCCTTATTTGGGTATTAGAGGTGTCAGTTGAGGAGGGACTTTAGCTGAGG
TTAAGCCTTCTTTTGGGATTTGCATTGTAATTGAGGGCCCTGGAAGATCTCTGAGACTCAAAATCAGGTGAAGCTAGGAAGATGGAGCTTTAAGGAGCAT
GGCTAGTGCTCTGAGTAGGACCGTAACCGCCTCCGTGCGTGGCATATGGTCCCTGCATGCTGTTCACTCTGTATAGTACTTAGTATTCGCTGAGGCTAAG
AGGCCTCAGGTGCCTGGGCTTCTGCCCTTGGACTCCTGGATATCCAGCCTAGTGCTAATTGAATGCTAAGCAGTGGTAATTCAAAATGAGAGGGTCCCCT
GCCTCTAGAGTCATCATCTAATTGGGGACAGGCAGACCTAGATAAGAAAAGCAGAGAACTACTTTGGAAAACAGTTTATCTGCTGTAATTGAACATTCAG
CTACCCTATAACCCAGTTAATCCAATACTGGGGATAAATCCTAGAGAAACTCATACATGTACACCAGGAGATGTGTACAAGAATATTCATAGCAACCCTA
TTCACAAAAGCAAAAGCCTAGAAATAACCCAGATGCCCATGAGCAAGAGAGTGGACAAGTAAACTGGAATATTCACATAATAGAACATTATACAATTGTC
AAATGAACTATAATGATACCTAACCATATGGATGAATCTGAGCAATAAAATAATTAAGTGAAAAAAGTTTAATCCCAGAAGAGTAAATGTAGCATGATGC
CCTTTCTAAATGAAAGGTTTTTTCTTTTCTATGGAGTTATTCTTTACATACAATATAGTTCATAAATTTTAAATATATTGTTTAATAAATTTTGATAATT
GTATATAATAGTATAGTCACCATCAAGATGTAGAAAATAGAAAATAGGCTAGGCACAGTGGCTCACGCCTGTAATCTCAACACTTTGGGAGGCCAAGGTG
GGAAGATCACTTGATCCCAGGAATTCTAGATCAGCTTGGACAATGTAGTGAGACCTGGTCTTTACCAAAAAAAAAAAAAAAAAAATTAGCTGGGTGCGCT
GGCATGTGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGGATCACTTGAGCACAGGAGTTTGAGGCTGCAGTGAGCAGCCTGGGCAAGAGAGTG
AGACTCCGTTTTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGGCATTGGGATTTATAATGTGC
TGTTTAAAGTCTGAAGCTCGGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAAAACTTTGGAAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGGAGT
TCAAGACCAGCCTGGCCAACGTGGTGAAACCCCATCTCTATAAAAGTACAAAAGGGCATGATGGCAGGTGCCTGTAATCTCAGCTACTCAGTAGGCTGGA
GCGGGAGAACTGCTTGAACCTGGGAGGTGGAGGTTTCAGTGAGCCAAGATAGCGCCATTGCACTCCAGCGTGGGCGACAGCAAGAGACTTCATTTCGATA
AATAAGTAAATAAATAAATAAAGTCTGAAGCTCCACTGGTCACTCCTTTTATTGATTATTTGCAGCTGGTCTAACCAGTTACRTATGTCTGGCTTGATTM
CATGGCCAGAGCAACATAAAAGCCCTGCTGGGAACTTCTGATTTGAGCTCTTCCAAAACCAGGATGGATGCCTCACATAGATCATGATGATTCAATCCAA
AGGCACTTTGCAGTGCAGTCCACATGTGCATAAGGACCATGGGGAGCTTGTATTTGGGAATTCTGAGATTCCTGATGTTTACCTACCTAGTCTTTCTCTT
GCTGCCCTGTATCCTTTGCCTTTAAATAAAAATCTTAAGTGATTATGCTCTGTGAAGCCTGGATAATCCTTTCAAATATTTGGTCTTGGAAAATTTTTGC
ATATATACATGGAATCATACAATATGTAGTCTTTGGTGTTTGACTTCTTTGACTTAGTGTAATGTTTTTGAGATTCAGTTTGTTGTGAGTATTAATGTTT
TGTTCCTTTTTATTGCTGAATTGTATTCCATGGTGCAGACATACCACCATGTTGTTTATCTGTTCACCAGTTGATGGACATTTGAGTTGCTTCCAGTTTG
GGGCTATTATTAGTAATGCTGCCAATACCTTTTGGGCATATAATTTTGTGAGTACGTGTTTTCTTTTCTTTTTTTATTTTTTGAGATGGAGTCTCACTCT
TTTGCCCAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTGCAACCCCCGCCTCCCAGGTTCAAGCGATTCTTCTGCTGCAGCTTCCTGAGTAGCTGGG
ATTACAGGCACCCACCACCATGCCTGGTTAATTTCTTTGTATTTTTAGTAGAAACGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTC
AGATGATCCACCTACCTCGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAACCACTGTGCCCAGCCCATGTTTTCTTCTGAGTAAATACTTAGGGGTAGA
ATTGCTAGGTCATATGGTAAATGTATGTTTAACTTTATAAGGTACCACCATACTGTTTTCCAAAGTGGATCTACCATTTTGCACGGCCATCAGCAATGTA
TGAGAGGTCCATTTGCTCCACATCTTAGTACTAACACTTAGGATTATCAACGTTAAACTTTATTGTAGTGGGCCGGGCAGTGTGGCTTATGTCTGTAATC
CCAGTACTTTGGGAGGCCGAGGCGGGCGGATCACTTAAGGTCAGGAGTTCAAGACCAGCCTGGCTAACATGGGAAAACCCCGTCTGTACTAAAAATGCAA
AAATTAGCCGGGTGTGGTGGCACATACCTGTGATTCCAGCTACTTGGGAGACTAAGGCATGAGAATCACTTGCACCCAGGAGGTAGAGGTTGCAGTGAGC
TGGGATTGCACCACTGTACTCCAGCCTGGGCAACAGAGGGAGACTCTGTCTCAAAAATAAATAATAAATAAAAACTTCATTCTAGTGGATGTATCTTGAT
ACCTCGTTGTGGTCCTAATTTGCATTTCTCTAATGAGTAGTGATGCTATAAAATTAAATACAATTAAGAATTTAAAAACATGTAAAAAGAACATGTATGC
AGTAAAACCATGTAAGAAGGAAAGAATGGTTCTCACTATGGAATTCAGTATAATGGTTCTTAGAGGTAGGGGGATAGGATGGGGCTGGAGGGAACATAAA
GTTAGATTATTGTTAAGGCTCTAGCTTTTATGTTTGGTGCTTATTGAATTATTAAAAGCAGCTAAGTTAATAAAAAGTTATACATAAAAATTTGTTATTC
ATGACAAAAGTGATAAAAGTATGTTATAAACAAAGATTATGATTAATTCAATTTTGTACATCTGAGGTCTCCCTAAAAAAAGAGAAGGGGGTTGGCTGGG
CATGGTGGCATGGTGGCTCATGCCTGTAATCCCAGTACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGGCTGGCCAACA
TGGTGAAACCCCATCTCTACTAAAAATMCAAAAAAAAAAAAAAAAAAAAAAAAAGTGGGTAGAGAACCAAGCCCACAGAGAATAATAATGCAAAATATGG
CTTAATGTAGGAGGGATCATATTGAGAGACCTGGAAGCTTAGCAGTATTGCCTCAGTCTTGTTCATGAGCTCCTCTTTCCTTGTGATTTGCAACAGTTGA
ACCACAGCAGAGGGTCAGGTATTGGGGCAGTTATGGGTCAATATACATTGATAGCTTGGATCTATGGTTTTCACCTTTTAGGAGTCACAAATCTGTTTGA
GAGACTGGTAAAAGCTTTGGCCGTTCTCAGAAAAATAAAGACAAAAAACACCATAGCATTTTACATATAATTTCAGGGGCTTTGGTACTTCCTAAGGCCT
ATCTCCCCCAAGTTAAGAACCTTTGGATTAGAAGATCTCAGATTTGAGGGTCTTTAGTGGAAGGCAAGGGGGTCAAGCAGAGACCCCAGTAACAACTCAA
ATCACCACTCTCACCCCTGCCAATCTGCCCTTCTTCCCATCTGCATTCTTCATCTCCAAACTTAACACCACCCTTTACCCTGCTGCCCATGCCAGAAACT
GCAGCTATCCTTGATGCAGTGACAGTAATCACTACTGTATATCGAACGTACCTGAGCCAGGCCCATGTGAAAAAAGCATTGTTTTACTTACATCATTGTT
TCTTACTTTCACAGAAACCCTGGGATATGCTCTTTTTTGTTGTTGCCTATTTATTATAAAACTTTGAAAGAGTTATTCGTTAATTTGAACATTTTCATCC
ATTTTGTGGCTTTTCTTTGCACTATTTTTATGGTGTGTTTTTATTGCAGGGCAGGCAAGCCTCAAAACTGGGGCTTAGCCTGGGAGAAAGCCAGGAAAGA
ATTCAAGGGCAAGCTAGTGGTGTTAGACAGCAATCTTTTATTGAACAGTACTGCTCCTTGCAGAGTAAGGCTAACTCATAGGCAGCAAATCCAGAGTCAG
CTGATATACTCTTTTTAGTCCCATTTTATAGAGAAGGAAACAAGCTTAGATTGCTTAAGTAACTCAAAAAGTTACAATCTGAAATTTCTTTTTTTTTTTT
TTTTTTTTTTAAGACAGGGTCTGGCTCTCACCAGGGTGGAGTGCCGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGCTCAAGTGATCCTCC
TGCCTCAGCCTACTGAGTAGCTGGGACTACAGGCACATGCCACCGCGCCTGGCTAATTTCTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGCCCAG
GCTGGTCTTGAACTCTTGAGCTCAAGTGATCAGCCTGCCTTGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACTGCGCCCAGCCACAATCTGAAA
TTCCTTTCTTGAAATGTCGCTTATATTTCTCTCCTTCCTAGCATTCCTACCTTAGGTAGGGCCTTATCATTTCTCACTGATCAAAGGCAGTAGCCTCAAA
ACTCATTTCTATTACTCCAATCAGCCCTAAATTCTTCCATTCTCCCCCATCCTCTCATGCCACCCCTTATCTGTTGTGTGATCGCCGATCACAATAATTC
CTCCCATCCTGTCCCAGTACAATGTGACTTTGCTGCTTCTGTCATTAAGAGATGGAGTCTGTTTCCCCACCTCTTGAATCTGGGCTGATCTTATGATTTG
TTTTGACCAGTAAAGTCTGGTGGAAGGGATGCTGYGCAACTTCTGCATGTAGGCCTCAAGAAGCCTCGCAACTTCCACGCTCATTTTGGAGCTCTTCTGC
GGCTCTGTGAAGAAGCCTGGACCAAYCTGCTGGAGACATGTGCTGGAAGCTGTCTTAGACCTCCTAAGCTCAGTTAAACGGTTAGGTGACCCAAACAGCA
TGAGTGACCCCAGCCAAGACCAACCTAAATCGCTGACCTCCAGAATCATGAACAAATAAAGTAGTGGTTGTTTTAAGCCAGTAAGTTTTGGAAATGGTTA
AGTAAATTTAAATAAAATTTTAACATATGTCATTTGTGTTAGTAAGTAACACAAATCTGAGTGTCATTCATCTGCTTATAATTCTTTGTTCTTTAGGCTG
GGCATGGTGGTTCATGCCTGTAATCCCGGCACTTTTGGAGGCCAAGGCAGGAGGGTCGCTTGAAGCCAGAAGTTTGAGACCAGCCTGAGCAACATAGGGA
GAACCCATTTTTACAGAAAGATCCTTTGTTCTCTCTCCATTGCCAGCAGGATCAAGTCCAGACTTTTGCCCTGATCCCTGGTTGTTGATGCTGTTTTATC
TGTGTCTGTCATGCCTTGCTGCTCCCCTTTTGCACAAATTCTTTGTCTATCCATGCATAGCATACCCCAATGCTTCTGGGTCAGGACAAATTGTCTCCTC
TGTCTAAATGCCTTTTCCCTTGTGCTTTCTTGCTAGCTCAAATGTCCACCCCTCTGGAAGCTTTCTCTAATCCTTCTAAAGCTGGGTTGATCCTCTTCTG
TGCTCCCCAACCTTCTCTATAATACAATGAATATAGCACTTTCCATGGCCACTTTTTCTTCTTTACCCATCTCCAAACTAGGAATTGTTAGGGACAGTAA
GCTGGTATTTATTTTTGCATCCCTAACCCCCAAGTACCAACATGCTTAGTACCTATTTGGTAGTTAGTATATATTTGAGTACCTCCTATGTGCTAGGCTT
AACTGTAGACGCTAGAGTGGTGAACAGAGCAGAAAAAAGTCCTTGTTCTCATGGGATGTACAATCTAGTGGGCAAGATAGACAAGTAATTACAAGTAAAT
TACAAGCAATTACAATTAGTTATAAGTAAATTATGAGTGAGCCAAGTACTGAGAGAAATGTAAAGTGCATATACCTGAGGGACCTAACCTCGCCTGGAGG
AAGAGATGTTTAAACAGAGCTGAAGATAAAGAGGAGTTAAATTAGTGAGGCAGAGGAGGATGTTGGGAGTGCCCTAGCAGAGGGAACAGTTCGTGTGAAT
GTGAAGTCAGGAAAGAGGACATTCTAGATTCTGAAAGAGGTCCAGTATCCTGCAGTGTAAGGAGAAAGGAATGGTTGTGAAACACAAGGCTGGAGAAGCA
GGCAGAAGCCAACCTACAACAGGGCTTTCTGGGCCACTTGAAGGAATAGGTATTCCATCCTGAGTAACTGGAAGCCATTGTCGGAGTTTTAAGGTGGAAA
ATGATCTGATCAGATTTCATGGGCCCCCCAGTGGGAATATGATTATCAGAATTTACTGAATGAGGAAGTTAAATAACTGGCTCTACAGAAATTGCTTCTG
AAAGTCAGTCCTGTCCTTAAGTTTACTCAGCCTTATCTCTCTGAGTAAATGGGAACTTTTGAGCTCCAAGCTGTTCAGACCATATTTTGAGGTGACACTT
TAGGAGGTGTACTGGCTGAAGAGGGTGACTGGGATGGAGAGGAAACTGAAAGTCTCATTCTGGGGAGAACTGGGGGAATTGGGAGTATTTCGCCAGGAGA
AAGACAGACTTAGGGAAGAGAGATGTTGTCTCCAACTAGGACTGTTCTGAGGCAGGGGAAGCAGATGTGTTTTGAGTATCCCCAGGGGCAGAGCTGGGAC
CAGTAGAAGGAAGTTGTAGTGAGCCAGACTGTAGGTTAGCATACGAAACCTTTCAATGAGTGTTTTCTGAATTATCGCTCACAACCATGAATCATTAGTG
GTCATGAAGTCAATTTGTGGGTATGATAAGCCTTAGGACTTCTCACAAAGGAGTACTTAGTTACTCCTTCTCTTGGACATGTAGTAGGCTTGCCTTCCCC
ACTCCCTCTGCAGGTAGGCATAGCCACGTGACTTGCTTTAGCCAATGAAATGTGCACAGAGGTGCTGTCTTTTTTTTTTTTTTTTTTTCCAGATTCATTT
CACTTTTGTTATGAACAAACACAATCTCAGATCAGTATAACTAACTTCAGAGTTGATATTAATAGAAATTATTCCAAAATTATTCTTAGGTCACAAATTA
CTAGTATGCCACATAAAAAGGGAAAAATCCCACCTCATCAAAGAAAAGGTGTCCTGTGTATGTTTCCATGGGAATGAGTTTAAGCATTCTCAAATTTTCT
CCGGCTAGTTATCCACCACTTCTCCAATGGATTCATTCAGTCTCTTAGAGAACCATATAGACTAATGATAGCTTCCGGGACACACAGACAGATCAAGTTC
ATGGTGGACATTGTTATTATAAAAAATACTCAGGTCTTGAGAATTCCTTTGCTGAAGGATCCCAAAATGCTTTATAAAAAGCATTAGTCATGCCTCAAAA
CTGCCCTTTGAGGTAGCTCAGTATTATTATCCCCATTTTAACAGAAGAAAACTGAGGCATATTAGAGTTAAGTGACTTGCCCAGGGTCACATAGCAAGTC
AGTGGCACTGTGGTAGGAGAGGCTCTGTCCTTAACCACCAGCATAACATTGCCACCTTGATTTTTTTTTTTTTTTTTTTGAGACAGRGTCTTGCTTTGTT
GCCCAGGCTGGAGTGCAGTGGTCTGATCGTGGCTCACTGACTCCCAGGTTCAAGCAATTATCCTGCCTCAGCCTTTCGAGTAGCTGGGATTACAGGTGCC
TGTCACCACGCCTGGCTAATTTTTCTTTTTTACTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCRCCCAAGCTGGAGTGCAGTGGTGCGATCTTA
GCTCACTGCAAGCTCCACCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCCTCCACGCCTGGCTAATTT
TTTTGTATTTTTAGTAGAGACGGGGTTTTACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTTCTGT
GATTATGGGCGTGAGCCACCGTGCTCAGCCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTTGTCTCAAACTCCTGACTTC
GTGATCCCCCCGCCTCGGCCTCCCAACAATCTGGGATTACAGGTGTGAGCCACCGCGCCTGACCAGGGAGCTTTCAATCATGATGAAGGTGAAGGGGGAA
CAGGCTTGTCACATGGCAAAAGCAGGAGCAAGCAAGTGGGGGTGGAGGTGGGCGGGGGGTGCCACACACTTTGAAATGACCAGATCTCATGTGAACTCAG
AGAGCAAGGGTATGCTTATCATTGAGGAGATGGCCCAAACCATTCATGAGGGATCCGCCCCTATGATTCAAACACCTCCCACCAGGTCCCACCTCCAGTA
GCGGGGTTTACATCTCAACATGAGATTTGGGTGGGGACAAATATCCAAACTCTATCAGAGTCCTTCTTTCCTTGTCTTGATAATCCCTTCTCTCTGTACT
ARTCTCTTTAGCAAACTGGTTGCTGGGCCATACCCTTGGTTTCCTCTCCCAAACATGCCTTTTTACTGTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTC
TGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGTAAGTTCCGCCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTTGCTGG
GACTACAGGTGCCCACCACCRCGCCCGGCTGGTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCATTGTGTTAGCCAGGATGGTCTCGCTCTCCTGAC
CTCGTGATCCACACGTCTTGGCCTCCCAAAATGCTGGGGTTACAGGCGTGAGCCACTGCACCTGGCCGCCTTTTTACTATTTACATGGCCAGGCTGAGTC
TTCCAAATCTTTCCACTTTACTTCCCTTTTGATTATAAATTCCATCTTTAAGTCATTTTCCCCTTCTCACAACTTAATATAGGTAGTTAAAAGTAGTCAT
GCAGCAACCTGAATGCTTTGCTGCTTAGATATTCCTAATTTCTCCCACCAGATGGCCTAACTCACTGCTCTTCAATTCTGCATTCCATAGAGCCCTGAGG
CATGGACACAATCTATCAAGTTCTTTGACAGTTTTTTGTTTTGTTTTGTTTTGTTGTTGTTGTTTTGAGACAGAATCTCAATCTGTTGCCAGGCTGGAGT
GCAATGACATGATCTCAGTTCARTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCCACCTCAGCCTCCGAAGTAGCTGGGACTTCAGGCACGTGCCA
CCACGCCCAGTTAATTTTTGTATTTTTAGTAGAGACGGTTTCGCCATGTTGGCCAGGTTGGTCTCGAACTCCTGACCTCAAGTGATCCGCCTGCCTCGGC
CTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCATTCAGCCTCTTTGCCCATTTCTAACAAGGATGGCCTTTAGCTTCCATTACCTTGTTCTTCAG
GTCCATCTGAGACCTCATTAGAATGGCCTTTACTGTCCATATTTCTATCAGCATTCTGGTCACAACCACTTAAATAATCTCTGAGAAATTCCAGACTTTC
CCTAATCTTTTTGTCTTCTGATCCTTCACCAGCACTGCCCTTAATGCTCCAGTCATGTCAATACAGACCATGCTCCTAGCCAACCTGCTCCTCCAAATTC
TTCCAGCCTCTGCCCATTATCCAGTTTCAAAGCTGCTTCCGCATTTTCAGGTGTTCATTTTTAGCAACAACCCCACTCCTCAACACCAATCTTGTGTCTT
AGTCTGTTTTCTGTTGCTATGAGTGACTACCTGAAGCTGGTTAATTTATAAGGAAAAGAAATTTATTTCTTTCAGTTCTGGTGGCTGGGAAGTCCAAGGT
TAAGGGGTCCCACCTAGTGAGGGCCTTCTTGCTGGTGGGGATTGTCTGCAGAGTCCCAAGGTGGTACAGGACATCAAATGGCAAGGGGGCTAGAGCATGA
GCCAATCTGGCTTTTATAACACCCACTCTTGTGATAACTTGATAAAAGCTGGAGGCTGCCCTCAGATCAGGCCCAGGAGGCCATCACCAATAATCCATTA
CCATGATAACCCATGAATCCATTAACCAATTAATCCATGAATGAATTAATCCACTCACGAAGGCAGACTCCTTATGACCTAATCTCCTCTTCAAGGCCCC
ACCCCTTAATACTGTTACATTGGGGATAAAGTTTCAACATGAGTTTCAGAGGGAACAAACACACAGGACACAGCAAAGAGGAATCTGAAAAAGTGGAAGT
GGAAGTAGAGAATAGAATGGTGGTTACCAGAGGTGTGGGGTAAGGCGTTGGGGGATGGGGATGGATGGGGGTGGGGAGATGTTGGTCAAAGGATACAAAA
TTACCGTTAGAAATAATTTTAAGAGATCTAGCCGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGAAGGCCGAGGCGGGTGGATTACCTGAGGT
CAGGAGTTTGAGATCAGCTTGCGCAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAATAGCTGGGCGTGGTGACACATGCCTGTAATCCCAGCTA
CTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGATGTGGTGAGCCGAGATCGCRCCATTGCACTCCAACCTGGGCAACAAGAGTAA
ATCTCTGTCTCACCAAAAAAAAAAAAAAAAAAAAAAAATAGAGATCTRTTGTGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGTCT
GAGGCAGGCAGGTCATGAGGTCAGGAGTTCGAGATCAGCCTGGCCAACATGATGAAACCCCATCTCTACCAAAAACATAAAAAATTAGCTGGGCATGGTG
GTGAGCTCCTGTAATCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAGGCAGAGGTTGTAGTGAGCTGAGAGGGCRCCACTGCAC
TCCAGCCTGGACAACAGAGGGAGACTCTGTCTCAAAAAAAATTAAAAATAATAAAATAAAATAAAAGGGGATCTATTGTATAACATGGTGACTAGTTAAT
GACAATATTGTATTCTTGAAAATTACTAACAGAATAGATTTTAAGAGCCGATGGGCTTGGGGCACTTAGTCCCAGCTACTTGGGAGGATGAGGTGGAAGG
ATTGCTTGAGCCCAGGAGTATATGAGTATATGAGTATAAGCTATAGTGAGTATATGAGTATATGATCATGCCACTATACTCCAGCCTGGGTGACAGCATG
AGACCCCGTCTCTGGAAAAAAAAAAAAGAATAGATTTGAAGTGTTCCCACCATACACAAAAAATAAGTATATGAGTAATGCATATGTTATTACCTCAATT
TATTCGTATTTCAAAACAATATTTGCACACCATAAAGATATACAATTTTTATTTGTCAGTTAAAAATTAAATTTTTAAAAAGGGTAATAATAGTTTATTT
GAACAATCAACATAATTGATAAACCCCTGACTAAACTGACCAAGAAAAGAGAAAACAAATTACCAATATCAAGAATGGGGCCAGGCGTGGTGGCTCATGC
CCGTAATCCCAACACTTTGGGTAGCAGAGGTGGGTGGATCACCTGAGGTTGGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACTCATTCTCTACTAA
AAATACAAAACTAGCCAGGCATGGTGGTGCATGCTTGTAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATTGCTTGAACTCAGGAGGCGGAGGTTGC
AATGAACCAAGATCACGCCATTGCACTCCAGCCTGGGCAATAAGAGCAAAACTCGTTCTCAAAAAAAAAAAAAAAGGGCCGAGTGCAATGGCTCACGTCT
GTAATCCCAGCATTTGGGGAGGTGGAGGCGAGAGTCTTTTTTGAGCCTAGGAGTTCAAGACCAGCCTGGGCAACATAGTGAGTCCTTGTCTTTACAAAAA
ATAAAAACAAAATTAGCCAGGCGTGATGGTATGCACCTGTAGTCCCAGCTACTCTGAAGGCTGAGGTGGGAGGATGGCTTGAGCTCRGCAGGCAGAGGTT
CTAGTGAGCTGAAATCATGCCACTGCACTCCAGCTTGGGCAACAGAATGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGGAAGAATGATATTCACA
ATAGGTCTGATTTATATTAAAAGAATAGTAGTAAATAGGCCAGTGCGTGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCCAAAG
CGGGTGGATCACCTGAGGTCGGGAGTTCAAGACCAACCTAACGAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCGGGGGTGGTGGCAC
ATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCC
TGGGCAACAAGAGCGAAACTAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGGCCAGGTGCGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCGAG
GTGGGTGGACCACCTGAGGTCAGGAGTTTGAGATCAGCCTGGTGAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAAAAATAGACGGGTGTAGTGG
TGGGGCACCTGTAATTCCAGCTACTCGGGAGGCTGAGGCAGGGGAATTGCTTGAACCTGGGAGTTGGAGGTTGCATAAGACAAGATCACACCACTGCACT
CTAGTCTGGGTGACAGAGAAGGACCCTGCATAAAAAAAAAAAAAGCATAGTAGTAAAGATGTATTATGAATAAGTTTTTGCCAGTGAATTTATAATTTAG
ATGAAATGGACAAATTACTTGAAAATTTTCACTGACTCAAGATGTAAGATAAAATTTAATAGCACATCCTTAGATAATAGATTAGTCTGTCTCTCTAAAA
AAAAATTAAAGGAACCACAACAAGCAAGTTAATAAATTAGATGGCCACCTTTAAATGAAAGGATAGAATAGAAAACACGTGCATCACACATAGTAAAGGT
AAGTATTATATTATGAAGCATTTGCTTTAGAGAGCATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATAGAAACACACTTACTAGGTTTTTTTTTTG
AGATGGAGTCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTTGCTGCAACCTCCACCTCACAGATTCCAGCAATTCTTCTGCCTCAG
CCTCCCGAGTAGCTGGGATTACAGGTGCACACCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGAAGGGGTTTCACCATGTTGGCTATACTGATCT
CAAACTCCTGATCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGTTCGGGTTACAGGTGCGAGCCACTGCACCGGCCTTTTTTTTTTCAAGACAAAG
TTTTGCTCTGTTGCCCAGGCTGGAGTGTAGTGGYGTGATCTCAGCTCACTGCAACTTCTGCCTCCCAGGTTCAAGCAATTCTCATGCCTCAGCCTCCAGA
GTAGCTGGGATTACAGGTGTGTGCCACCACACCCGAGTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCC
TGACTTTAAGTGATCCACCCGCCTTGGCCTCCTGAAGTGTTGAGATTACAGGCGTGAGCCACCATGCCCAACCAGAGTTCTTTAAATAATAATAGACTTA
CCTTAGGATTTGATTTGCCTACAACCTACCAAGAATATATTCTCTGTGAAATATGACATAAATGTGGGATAATGACCCAAGAGTGCTTCTCAAGACGAGA
GACGTGCTTTTCTGCATGTCTGATTTTCAAAAACTGGTTTGCCACCCAGGAGATGTTTTCTCCCACAYCAACTTGGATAGAAGAGCTTATGGCAGACAAG
CTGACTCAACACTCAGACTGATGTCACCAGATCAAAGTGAAAAATATGTAGCTCTCATGATCCAAATAAAAATGTTTTCGTAATAAAATTGCCATTGCTG
TGGATCAGTTTTAGTCACACTTTTATTTTATCTAATGATATAGTCCTTGCTATATGTCAGGCACTGTTCTAAGCATTTCCCGAACATTAAGTCATTTAAT
TCCCACGGCAACCAATGGGGTAGTACAACATCCCCATTTTATAGATGAGGAAATTCAGGTACCGAGTAAAGAAACTAACCCCATAGTTTCAAACAAATTA
TAGGTGGGAGACAGCATGTATTTCATGTGTATCCAAAGAAGGCATGGGTGAAAACAGGTTGAGGAAAACAGATTTAAGGTGAGGTATGGCTGATGGGTTT
CCAAGTTAATGATTGGGAACCTTTAATAACAATTCTACAGTCTAGTTGTAGGTGTCCATGTTACAGAGGTAGCAGGGCTTTTTAAAAATTTTTATTTTTT
TAAATAGAGACAGGGTCTCCCTATGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGTAGATCCTCGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAG
CTACCATGCCTGGCCATAGCAGAGATTTTTTTTTTTTTTTTGAGATGGAGTTTCTCTCTGTTCAGGCTGGAGTTCAGTGGTGCAATCTTGGCTCACCACA
ACCTCTGCCTCCCTGGTTCAAGGGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTGTGTCACCACACCCCTTAATTTTTGCATTTTTA
GTAGAGACGAGGTTTCATCATGCTGAACAGGCTGGTCTTGAACTCCAGACCTCAAGTGATCCTCCCGCCTTGGCCTCCCAAAATGTTGGGATTACAGGCA
TGAGCCACTGTGCCTGGCCAAGGGATTTTGAGTCTTGAAGATCCAGGTGTGATTCACAGTTGGGCCCTCCACTGACTGTGTAGCACTGAGCAAGTGACTG
GTTGTCTGTAAGGCCTCGGTTACTTATCTGGGCAATGAAGATCAGGAGATGTATCAGTTAGCTATTGCTTTGTAATGAACCAACCTTCAAAGTGGTGGTT
TAAACAACCATTTATTATTGTCTGAGTCTATGGTTTGGTGGGTGGTTCCGCTGACCTTAGTTGGCTTGGCAAGACTCACTCATGTATCTGCAGTCAGGTG
GCTCTGCTCATCTTGGCTGTCTCGCCTGTGTAAGGGCCTGACCAAGGGCAAATGGGCTGAGCAGGCTTTTCTCCACATGGCTTCTAGTCCTCCAGCAGGC
TAGCTTGGGCTTTTTCTTATGGCAGTGGCAGGGTTCCAGGAGAGAGAGACAAAACAGTTCTCTTACAGCCTGGGCTAAGAAGTAGCACAAAATTCCTTCC
ACTACTTTCCATTGGTTAAAGCAAGTCACAAAGATTTACATGGGTAGGGAAATAGACTCTTCTCCTGGGGAGAGGAGTTGCAAAATCACTTTGCAGAGAG
CACAGATACAAGGGGTCCTGGATTATTGGGGTCATTTATGTAATCAACTTAGCAGAGGAGACAAACTCTCCCCAAACTCAGAGGAGGGTGTAGAGGTTGG
TAGGGGGCCCAGATATCTGCATTCAAAGTCCTGACAGTGCTTTGTAAATTGTCAGCACCCTAGGCAGTGCTTCTGAGTGTGGAATCCTCCCTCCTATGTG
GGGCTGTGAGTTCCTGTCTTAGTCCAGTCATGCAGCTATACCAAAATACTTGAGAAGGGCCAGGTGGGGCGGCTCACACCTGTAATCCCAGCACTTTTGG
AGGCAGAGGTGGGCAGATCACAAGGTCAAGAGATCTAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATATGAAAATTAGCTGGGCGT
GGTGGTGCGTGCCCATAGTCCCAGCTACTTGGGTGGCTGAGACAGGAGAATCGCTTGAACTTGGGAGGCAGAAGTTGCAGTGAGCTGAGATCGCACCACT
GCACTCCAGCCTGGGCAACCAAGTGAGACTCTGTCTCAAAACCAACCAACCAACCAACCAAACAACAAACAAAAACAACTTGAGAATGGGTAATTTATAA
AAGAGTGGAACATTTATTTCTTACAGTTCTAGAGGCTGGGAGGTCTAAGGTCAAGGCACTGGCAGATTTGGTGTCTGGGGAAGGCTTGCTCATTGCTTTA
TAGATGGTGTCTTATGGCTGAGTCCTCCCACAGCAGAAGAACAGAAGGGAAAAGGGGCTGTGAACAGCTACCCCATACCTCTTTTATAAGGTCTTTAATC
CTATTTATGAGGCCAGGGACCTTTTGACTTAATCACCTCCCCCAAAAGCTCCACCTTCTAATACCATTACCTTGGTGATCAGGTTTCAGCATGAATTTTG
AGGGACACATACACTCAAATCATAGCAGTTCCTTAGAGCTGGACTGCATCCTCCCCTTTAGTAGGCCCCTGGGAAAGGCTCACAGAAGAGAAAGGAAATG
AAGAAGCAGAGCATTTACTGCTCCCATCCCTGGAACAAAGACAGACTTCACACCCTCTGGAATCTGAGAAGCTCCCTTCCCTTCTTCTCTCCCTTGGACA
GCCCTGCCCCCACCTCAGAGGGTGCCAGGGAAGGTATTACCTGTCTTCCCACTCAACAGCTGAAGACACATAAGAATAACTTACCATCACCAGCTGACTG
CGGATGCTGACAGGGAAACTTACCAGGGTCTGCTAGAGGGGCTGTGGGCAGGAGTAACTCTTGCATGAATGACCTGACAGCAGATTATGGCTCACAGAAT
GGTGTGGTGTTACCTTCTGGATAACACAGGTGGAGCCCTGGAAACCCACCCCCATTGGATCTTTGCATCCACCTGCTCTTCTAGTCCATGACCTTAGCTT
CCAGCTTGCCTCTCCCAACCCTCCTCCATACTGCCTTCTCAAAATACTGGTTGGATTGCATACATCTCTGCTTAAAATAAAGTGAGCTAATATTTATTGA
ACACTTACAGTGGATGAGGTGCTGTTCCAAGCTCTTTGCTTGGATTAACTTGCTTAATGTTCACATCAATTGTGTGAGATAGTCACCAGTGTTATCCCCA
TTTTACAGATAAGGAAACTGAGGCACAAGAGGTTAAAGAGGCTTACTCCAGGTTACACAGTAAGTGGCAGAGTTAGGATTTGAACTCAGGCAGTCTGGTT
CCTGAGCTTGGGATTCTCAGCCCATAAAACCCCTCTCTGTGGGCCTCTATTTTTCTAATAATAAGTAATAACAACAGCAATAATAATAATGATTAACATG
CATGGATTTTTTACTATACATATGCTAGGCCCTGTTCTGGTTGTGTTACATGCATTAACTCATTTGATTCATATAATAGTACCAGAGTATTTGCTGTGGG
GGGATACTATTATTACCATTATTTGACAGGTAAGGAAATGGGGACACAGAGAGTCACACAACAAGGATGGGTTACTAGCTAGTTCTACTCTACAGCCAAG
CTCTAAAACACTTGCTCTGAATCATGTGCCATCTTGCTTCCCCCAAAGACTCTCCCCAACACAGTCCAAGGGCCCAGAATCCAAGGCCCTCTGGGTTATG
CAGCACGATCTCTGCATTTCCACCAAAGCCTGTCTTGGTCTATGCAATCTTTTTTCTTCCCATTCAGGCCAGATTTTTGGTCTACTATTCGTTTAAGTTT
CCCTAGAGCACAGCATATAGTAGCAGGTGTCAGTGGATGTCTGTTGAATTGAATCACTGGATGTCAGAAGGGTTTCTGGATCCTCTCTCACAGGAACAAA
GTGGCCACTCACTGTGACTTGAACATTAGAGTCAGTCCAGGACTTGCTGCACTGGCCTCCAAACCCACTCCTAACCCCTAGACCCTTTTTGTAAATTAAG
TTATATTTAATATGCGCCCAGGGAGCTTTCTGTTTAGAGAAGCCATCATTTCAGCAAACACAAGTGAATGCTTTGCAACTGGAGTCCCTAAAGTAGCAAA
TCTTGGCCCTACTCACAACAGGTTACAAACTTGGTGATTAAGCCTCAGGAATGACCAGTGTTTCCCTAGGACTATATATTATTTTCCCTTTGAGAAGGAG
AGAGGGTCTGGAAAAATGCTTCTCATTTTGCAAAAGGAAGAATTGAGTTACCCAAGGTCATCCAACAAATGAATGGTGAGTTGAGGGCTAGAATCCTATT
CTTTTACTCAGGAAATGGGGTGAGGTGACCTCATAAGAATCACTTCAGATTGCTGTTTCTGTCATCAGCACCTGTCAGCTCCCTTTTTCTAGGGAAACTG
AGGTCTAGGACTTGAAACTTGTAAAGGGTTATCAGTGCTGAGTAGGAACAGAGGCACTCAATCCTCACTGAAGACAGAAACGCGAGGATTTGGGACCTTG
CTTAACATACTCAAGAGCCTGACTCAAGGCCCTCAGGCTGGGATTCTTCCATTACCAACCAAGTCTTTCCATAGGTGGGCCTTTCACTCCATTCATAATC
ATTTATGGAGGGCCTACTAAGTGCCAGGCAGTGTTGCTAACCATCTTGCAAAGTAGGCATCATAACCAGCCCCCTTAGAAAAGTAAAGGCACAGATTCAG
AGACGTAAAAACAACCAGGATCCGGGACTGCACCTCCACCCGGGAGCCCCTCCCCATGTTTCAGGAGACAGTGTTTCCCCGCACAAAGCACTTACCTGTG
CCCCATCATACTTTAAGTAAAAAAGTCGTTGGGACAAATAGGGCCACTATGCAATGAAAAAAGCTACACGTCAACCCAAAGATACACACATTCTAAACTT
TTACGACCCATTCCCAGGGGCAGTAATGGTGGTGCTGACGGATAGGGAAGAGCTCTGGCTTCCGGCTTCCCAGTGGAATCCCCATCCACTCAGCCACCTG
TGTGACCCACAAAAGTTACTTTTATTTTTTAAATACTTAATTTATAAACATCAGTTCTATGGGACACAAGTTATTTAATGCCATTTGTCTTCAGTTACTT
CATCAGTAATATGAGCATAAAAATGCTTCTTTTTTTTTTTTTTTGAGACAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCAC
TGCAACCTCCACCTCCCAGGTTTAAGTGATTCTCCTGCCTTAGCCTCCCAAGTAGCTGGGATTACAGGCACAAGCCAAAAYGCCCAGCTAATTTTTGCAT
TTTTTGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTAACCTCAGGTGATCCACCTACCTCGGCCTCCAAAAGTAATGGAATTAC
AGGTGTGAGCCACTGCACTGGGCCAAAAATGCTTTTCTCATAAAGTTGTTGGGAGAACAACTGAGATAAAGCACGTAAAGTTCTGTGAGAGAGGCCAGGA
CAGCAGTAGGGAACCTGTGTGTGTGTGTCTGTATCCGTGTAATTCATCCCCCTCTGAAGCGGACCAGGTCCCCAGACTCCCCCTGGTCTGGCATTCCTTC
TGCTTCTTGGATGTAAAATCCAGAAGTACCCAGGACTGGGACAGGGTGACCCTGGGGAGGCCAGTCTGCAGGAAGTGGCTGAGCCAAAGGACAAATAATG
GGTGGATTGGGCCATGAAGAAGAGCCCAGGGTGAGAGACCCGGTGTCCCGGGTTTGGGAAAGAGGAGGGGCAGGGGGTGGACGCCCCAGAGACTCTTCCA
GTGTTTGTCCTGGGCTGGCGCACCGGAAGCCCCATGCTGGGGAGAGGTGGGCACCCTGTGGTGCATGACCAGCCTCCTGGTTCTCCAGGAAAGATACTGC
TACAGGGTTTGTGGAGGTTAAAGAGGTCTGTGAACCCAATCTGTCACTGCTCCTGATCTTGTTGGCTGGTGTTTTTTTTTTTTTTTTTTTTTTTCCGAGA
TGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCT
CCCGAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGGCGGGGTTTCACTGTGTTAGCCAGGATGGTCTCG
ATCTCCTGACCTCATGATCCGCCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCAGGCTGGTGTTATAAATAAAGTT
TTGGTGCCACAAAAGAAATAGCACTCAAATATAAAATTTTCTTTTTTTTTCTTCTCAGCAAGGCAATTTACCTCTATAGAAGGGTGTGCCCTCACAGATG
GAGCAATGGTGAGTGCACGGCTGGACAAGGGAGGGGAAGGGGTTCTTATTCCTGATGCATGTGGCCTCTGCTGCTGTGTCGTTCACCTATTGGCTAGGGT
TAGACTGCACAGGCTAAACTAATTCCGATTGGCTAATTTAACGAGAGTGATGGGGTGAGTGGTTTGGCGGGAAAAATGGTTATGGCAGAGCAGGAGATCG
GAATGGGTCAGGGTGGAGAATGAGTCAGGGCAGAGCAGGTAATTGGAATGAGTCAGGGTGGAGTAGGTAATCAAAAAAGGTTGCTTTACAAGGAAGTTAA
GTTTAAAAGTAGAAGGCAAAGAATTGAACATACTGACATAGTGATTCTTTGAAGAGAAATTTAGAACTCACATCTAGTAATCCCTCCTCTTGAATTTCCT
TGCAGCTCTTTCTCTTCAAACTTCTTTAACATGTCTTGGCTTAGTTGTTCTGCTTGATTTTCCAAAAGAAGAAGCTTCTCTGGATAAGGTGGAGGATAGT
TAAGGGAGGTTTTAGTAAGTGCTGTTTTTATGAGCCTCTGCACCAACCCATGGATGGATGTATGACACAGCACCTGATAAGAATAAGTACACCCATTACG
GCTGTGAGGGAAGTTAGAATTGAGGCTATTATTCCTTTCCATTTACCAAACCACTTTTTAGCCATGCTGTAAAGGGATCATTTACCCCTGAGTTGTTGGC
TAACTATTGGACAGAGCAGTCAGACCTTGCAATGTCTTTGTTACAGATAGACAGACTAAACTTTTCTTAGCTTTAATTTGGTAGGGCTTGATCCAGGAAC
AATGGCCCATGATTCTGATGATAATGGCACTTGCTTGACTCAGGTGTGATGTGTCCATCCCTTTCCGCTGTATCAAAAGCAGTCTTGGTGGTTAGCAGCA
CAAAGTAGAGTCCTTCCCAGGCTGGCTTGAGTTTCCCTTCTTTCCACCCTTTGACGAGAACATGATCCCCAGGCTGATGCTGATGTCCTGGCAACTCCAA
AGGTGGCCCCTGTGCTAAAAGACCTCTTGTTTTAAGGGAAGAGAAGGTGGAGGATAAACCAAGTGTATAATTCCTAAGAAATTGATCTTTTGGTTAAAAT
GTGGGGACATCAGCAGTGGACTTCATAGTCCTTGGTGCCTTCTTGCTGAGAAATTTTCTTTAGCACCTATTTTTATTAGTTTTTAGACCAAAGAAAGCCA
AATACCATTTTATATTTAACAATGCTTCCTGTATCATTTTTATACCAGATAAACTAAATTTCACCTTTATATTAGTGTGTTATTAATGTTAAATTGAATT
TTAATAAAATCTTGTAGACATATTTATCTAATTTTAATGTCTGACCATAAGGTAAGATTTTTATAGATTGTTTTCAATCTTTTATAATTTTTGTTAAAGA
GCAGGTTAGTGCTTTAAGAAAAACCTGTTGTGTTTTATTTCAATGTCAAGTTCACAGAAAAACTGGATGATACCCATTTAACTTTAGCCAATGTTTACAC
ACAGAATTTCCTTTATAATTGTTTTCAAAACTTGCTTAAACCTTTAAAACAATTTTTTAACCTTTTAATGTAGATAAAAATCCACATTCTTATGCTTCCT
TATAACCTTTTACCAAGGTATAATTTACTTTCCTTACACACCTTGCACATAAACTGTTTCTTCAATAGTTTTACATTCAGGAGGCCTCATTACTTTTAAA
TTATACAACATTTCTTGCATAAATTCCCTTTTATAACTTTTTTTCCATGACTTTTACAGACAATTCTTCGACATGCCTCAACTTTCTGACTTGTTGCAAA
CATCCCTTTATTTAAACAGCCAGTTAATTTATTTTAGGACATGAATTTACCATATAACATTCTTTTTACATAAATTCTACCCGCCCCCCCCACATTTTTT
TTTTCAGTTGCAAGATTTAATAGAGTGAAAACAGAGCTCCCATACAAAGGGAGGGGACCCAAAGAGGGTAGACATTGCTGACTCGAATGCCTGGGTTTAT
ATCCCAATCATTGTCCCTCCCGCGTGCTCTCAGGCGATAGATTTTTTGCTATTTCTTTACCTCCTGTTTTTGCCTAATTAGCATTTTAGTGAGCTCTCTT
TACTACCTGATTGGTCGGGTGTGAGCTAAGTTGCAAACCCCGTGTTTAAAAGTGGATGTGATCACCTTCCCAGCTAGGCTTAGGGATTCTTAGTTGGCCT
AGGAAATCCAGCTAGTTCTGTCTCTCAGTAACCCCCTCAACAGGAAAACCCAAGTGCTGTTGGGGAGGTTGGCCGACGACTGCTCTAACTGCTTCCTGCT
GAATTGGGGTGAGTAGGGGTCGTGCAGATGAGATTTACTTGGGAGGGSTGCCTTTGATGTCATCAACATTGGAGCGTGGGCTAGCAGGCTGGTCCAGGGG
TCCACAGTAGATCTTAGTCATGGGCTGCATCTGGGGCTCCATTTGAAGAACAATTTGTAGTTTTACAGCTTTGATTCTGGAAGAGACAAACTTAACGAGG
AGGTTAAAGATRCRGGGATTGAAATATATGGCCTGCAGTATAGGGGATTATTTCTTTGGCACACTTTACAGGCCCTGAATATCTGCTTGATAGTTTTAAA
AAGGCCTGGTCCAGTAAATAATAATTTGGCCACCTGATGGGTGCTATCAATGCCTAAGTGAAAGGTTTGGCGAAGGGTTTTAAGTAGTTTTCATTGGTTA
GCTGCAGGCAAAAGTATTTTTCCTTTGTTGGCTAGCCATCCTGAGGGGGGGAAACTATGTCCTTGTAAGGTTCCCTATTCTATTTCTCCTGTTGAGTACT
GGGGCTTGGTTTCCCAGAGGGGATTACCCCATACTAGGGGTCCTTCTATAAGCATTTTTAATGGAGGGTCCTGCCTTGTGGCTCTTTTGGCTTCAATATT
CGCTTGGCGGTTCCCTTCTATTTCCCTTTCCTTTCCTTTCTGATGACCCCAGCAGTGTAAGACTGCCACCTCTTTAGGTTTCTGTACAGCCGATAATAAT
CTCCTGATGGCTTCCTGATGTTTGATAGATGTTCCCTCAGAAGTTAGGTATTCCCTTTCTCTCCATATTGCTGCATGGGCATGGAGGACTAGGTAAGCAT
ACTTAGAGTCTGTATATATGTTTACCCTTTTTTCTTTTTCTAATTTTAGTGCCCRAGTAAGGGCTATTAGTTTTGCCAGCTGAGCGCTAGTTCCTGGAGT
GAGGGGATTATTTTCAAGTATTCCATTATCACTGACCACTGCATACCCTGCTTTTCGAAGTCTTTTTTCTACAAAGGAACTTCCATCAATATACAAGTTG
AGGTCAGGATCAGTCAAAGGAACCTCTAGAAGGTTTCCTCGAGCGGCATAGGTTTGAGCAATCACCTGTTGACAGTTACGTTCTATCTTTTTTTCAATGT
CTGGAAGAAATGTGGCTGGGTTAAGAGTTGCCCAAGTGCACAGTTGCAGCACTGGCCCTTCAAGTAATAGACCCTGGTATTTAAGTAAATGGCTGTCTGA
CAGCCACAGGTCTCCTTTAGCAGTGAGTATGCTGTTCACATCATGAGATGTCCACACAGTAAGATCTCTTTCCTGTATTATTTTAACTGCTTCAGATACT
AAGATTGCTACTGCCACCATTACCCATAAACAATGAGGCCAACCCTTTGCCACTACATCAATTTCCTTACTCAGGTCTGCCACGGGTTGCAAGCTCGTTC
CTTGGACCTGTGTAAGGACTCCTAGAGTTATTCCTGTTTTTTTCTGTGACATATAAAGAAAAGTCTTGCCCCGTTGGCAAGCTTAATACTGGGGCTTGGG
TTAGGGCCTTCGTTAGGGCCTGGAAAGCCACTTCTGCTTTAGGTGTCCATCTTACTAAATGGGTATTGGCTTTCTGAGTTTCCTTAATTAGCGTATATAA
TGGCCTGGCTATTTCGCCATACCTGGGAATCCATATTTGGCAGAAGCCTGTTATGCCAAGGAACCCTCTTAGTTGCTTTAGGGTTTTGGGATGAGGATAA
GCCAGTATGGGCTGGATACATTCCTTACTGAGGGCCCTGGTGCCTTTGGATAATTTTAGCCCTAAGCATTTAACCTGTTGTGAGCAGAGCTGAGCCTTTT
GTTTGGAAACCTTGTAGCCACAGGTGGCGAGGAAATTCAAGAGCGCTTGGGTAGCTTGATGGCACAAGGTTTCTGAATGGGTGGCTAAAAGCAAATCATM
CACATACTGAAGGACAAGAGTGTCAAGGTATGAGAACTGGCTCAAGTCTTGGGTTAACGCCTGGCCAAATAGATGGGAGCTATCCCGGAACCCTTGGGGT
AAAACAGTCCAGGTGAGTTGAGACGTTGGGTTCGAAGGATCTTCAAAGGCAAACAAGAATTGAGAGTTAGGTTGTACAGAGATGCAGAAAAAGGCATCCT
TAAGGTCCAGGACTGTAAACCACTCTGCTTCCTCTGGTATTTGGGAAAGCAGAGTATAAGGGTTAGGTACAGCTGAGTATAGAGGGACAATACCTCATTT
ATAATCCTGAGATCTTGCACTAGCCTCCACTGCCCGTTGGGTTTCTGTACTCCTAAAATTGGAGTACTACAGGGGCTATTGCATGGTTTTACTAGGCCTT
GGGCTTTTAGGTCCTTAACAATCTTTTGGAGTCCTTGTTGGGCCTCAGGTCTAAGGGGATACTGCCTTTGGTAGGGAAAGGAGGCGGAATCCTTTAATTT
AACTTGAATGGGACGGGCATTCTTCGCTCATCCATATCGTCCTTCTGTTGCCCAGACTTCAGGATTAATTTCTTCCTTAAGCAGGGGACAACAAACGGGT
GTTCCTTTTCCTATGTTCAGGTGTATAATGGCCCCTGCTTTTGCTAGAATATCTCTTCCTAACAAGGATATGGGGCTTTCAGGCATAATTAGAAAAGCAT
GTGAAAAGAGTAAAGTTCCCCAGTCACAACTTAGTGGCTGGGAGAAGTATCTAGTGACTGGCTGTCCTAGGACCCCTTGGATAGTGATAGATCTGGAGGA
YAGTTGTCCGGGACAGGAGAGTAAGACTGAGAAGGCCACGCCAGTGTCCAGGAGACAGTTAACCTCCTGGCCCTTAATGGTCAAGCATACCTGGGGCTCT
GTGAGGGTGATGGCATGGGTTGGTACTTGCCCYGGGCACCCTCAGTCCTGCTGCTGGATCATCTGGTTAGTGGCTTCTGACTCAGAGGGCCTTCGTCCCC
TGGGGCAGTGGGCCTTCCAGTGATTCCCTTGACATAAGGGGCATGGACGAAGGGGTGGCTTATTTCTACTTGGACAATCTTTTTTTTTTTTTTTTTTGAG
ATGGAGTCTTGCTCTGTCGCCCAGGCTGGATGGAGTGCAGTGGCACAATCTCAGCTCACTGCAAGCCCTGCCTCCCAGGTTCACGCCATTCTCCTGCCTC
AGCCTCCCAAGTAGCTGGGACTACAGGTGCCTGCCACCATGCCCRGCTAATTTTTATATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCTAGGATGGT
CTCGATCTCCTGACCTTGTGATCCATCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCTCACCCGGCCTACTTTGACAATCTTTTTA
AAAGTGTCCTTGTAGACTGCACTGGAAGCAAGCCCTATTAGGCATTCGATTTGCCCAGTTTTTCCCTTTTCCAGAGCCTCCAAAGTCCACTTGCCTGAGG
GCCATGACTAAAGTGGTGGCCTCTTTTTTATCCTGTTTGTCCCATTCCACCTGCTCCTCCTGATCTTTATTATAAAAAACCAAGGTTTCCAAGTTCAATA
GGGTTTCTAAGTTTTGCTCCAGGCCTAAGGCGGACTTTTGAAGTTTTTTTCTAATGTCTGCAGCTGACTGAGTGATAAACTTATTCTTCAAGATTAGTTG
GCCTTCAATAGAGTTAGGTGACAGAGAGGTATGCTTTCTCAATGCCTCCCTTAGTCTCTCCAGAAAGGCAGTAGGATTTTCTTCCTTTCCCTGTATTATA
GTGGACATCATTGAATAATTCATAGGTTTCTTCCTAGTTTTCCTTAGTCCTTCTAGCACGCAAGTTAGCAAATGTCTGCTGCACCAATCTCCATGTTCTG
ATTCTGTGTCCCAGTGAGGGTCTACACTGGGAACTGCCTGCTGGCCTGTGGGGAATCGTTCTTTCCTCTGTTGTCATCTTGTCATTGACCTGACTGAGAT
ACCAGAGATCACCAAACTCTCGGGCTGCAGTTATGGCAGCACTTCTCTCATTTGGGTTTAGTGTCTGATTTAGCAATAACATTATATCTTTCCATGTCAG
ATCAAAGGATTGTCCTAACCCTTGGAAAACATCAATATAGCCATCAGGGTTATCTGAGAATTTACCTAGGCCTATTTTAATTTGCTTTAAGTCTGAGAGA
GAAAAAGGTACATGCACTCTGGCTGGGCCGAATTCTCCTCCTCCCATTGCTTGGAGAGGGGCATAATTGGGGAATATTAGCACTCTTTGGTTCATTGTTT
ACCCCTTTGTCTATCTCCTTTTGGACGTTTGGGTTGAAGGGGGGTCCTCATTAGTTGGGGAAGGAGTCGGGGGGACACCAGGGTAGGGAGGTAGACTCTA
GGGCTTCCTGTAGGACATAAATCACACTTTTTACATAATTGCGAGTTGTCTCTTAATGAAAAGAAAGTTTGTACATATGGCACTTCATTCCATTTGCCTT
CTTCTCTACAAAAGAGGTCTCACTGTAAGATGGTGTTATAATTTATATTTCCCTCAGGAGGCCAGGTTTCTCCCCCTTGAAGAGGATATCATGGCCAGGT
GGTACTGCAGAARAATATAAGTCATTTCTTTCTTAGCGTCTGAGGGTCAAATTGGTCCCAAATCTCCAGAATACATCTTAGGGGCGTTTTTGCCTTGTGG
GGAACRTTTCCCATTGCTTTGGAGGTCCCTTCGTGGTCGCCAAATGTTACTGGGGGGTCCTTGCTCCCAGAGCTCCCAAGATGGTGGCGGGCCGCTTCCA
AGATGGTGGCAAGCCTGGTGTTCTCTGACCTGGGGTTCTTGGCCTCACGAATTCCAAGGAATGGAATCTTGGGCCATGCGGTGAGTTTTATAGCTCTATT
AGAAGCCGTGGGTCATGGAAGAGAACTGTGGAACCCAGTGACTAGTGTTCAGCTTGATTAGGATGAACCTGGGCACTTAGCCGTGCAGGAACAATGGCAA
ACCTTTAGCCTGATTGGGAGCGGCAATGGGCGCCTCGCTGGATCAGGAGCACAGTAGACACCCTGCCGGATCCAGAGGGATGGAAGTCGGCGGCGGGTCT
GCGATGGCAGCAAACAGCAGTGGATGTCGAGCGAAAGCTCAGCTCCAGCCATAGCAAACACGGACCAGAAGAGAGTGCAGTTGCAAGATTTAATAGAGTG
AAAACAGAGCTCCCATACAAAGGGAGGGGACCCAAAGAGGGTAGCCATTTTTTCACTTTTTTTTTTTAACTTTTGTTGAAAACATTTTAAGTTTGGAATT
TCAACTATTCTTTGCTATTAATAAGACCTCATTCAGTCCATATTAACTTAGAATTGGTATAGATGGGTCCTTCCTGATTCTGTAAGTGCTTTAAGGCTTG
GCTGAGTGCAAACAGCTCTCACATTTGAACAGGCCAATTATTAGGCAATTTTCCTAACTCTGCTTCTACAAGAGTTTCCTTATCACTTACTGAATACCCA
TTGTGTCTTTTTCCCTCAATTACCCAGGAGGAACCATCTATCATCCTGTCCTGAAGGGAGTTCTTCCTAGGTCTGGTCGGACCTTTGTATGGTAATTAAT
TAAGATTTAGATCCCATGTTAGGAAACCTGCTGGGTTAAGGGAATTTTCAGTGGTTAATATTAAATCATTTTTTTCTAACAGAACAGCCTCATACTTTAA
GGTTCTTGAGTCAGTAAGCTACCTTTTTTTTTTTTTGACTTAGGATAGTTCTGACCTGATGAGGTGTGCTCACAATGAGGTTTCCTCTAAAAGTTGTTTT
TCTACTTTCTTCTGTTAGCAAAGCAGTTGCTGCTACAGATTGAATGCATTTGGGCCATCTGCCGGTTACTGGGTTAAGGAGTTTTGATTAGGGAGGTTAC
GGGTTGTCAGTGGCCTCAGTGCTTTTGGGCTACATCCTTGTTTACACTGACAACAAGGTGGTATTGGAGTGTTATAGGGTCATGGAGAAGACCTTCAATT
ATCAATTACAGGTTTTGAATTTTATCCTGGCTTTTAAAGGAATAGGGTACACTGTTTTCTCTTTACTACTTCTATCTCTCTTTCTCTCTCTCTCTCTTTG
ACTCTCTCTCTCTTTCCCTGTCTCTGACTCCCTCTCTCTCTCTCTTTTTCTTTTGAGACAGAGTCTAGCTCTATCACCCAGGCTGGAGTGCAGTGGCGCG
ATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGC
TAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACGGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCRCCGGCCTTGGCCTCCCAAAG
TGCTGGGATTACAGGCATGAGCCACCACGCCTGGCTTCTGTCTTTCTGTCTCTTTCTCTCTCTGCCTCTCTTTCTCTCTCTTTGCCTCTCTCTTTCTCTC
CAACTTCCTCTCCCAGTTTCTCTTTCCTCTCTGCTGGTCTTTCCCTGCCTCTGCCAGCTGCTTATGCTGCTGTTCTCCCCTCTCCTTCCCCTTCCCCTAG
GGAAGGGACCGTCAGGAGTGCAGCTACTTTTTCTTCCCCGAGAAGAAAGGAAAGGGGAATTCTGAATATTTTTCTTACTACCGGAGGTTTGTGTGAGGTT
TTTGATCCCCTGAAATTTGTGGAAGGCTCAACACCTCAAACCAGGGGGTATCTTGCCTTGCCTGACCTGGAAGGCTCAACCCCTCAAACCAGGGGGTGTT
TTGCCTTGCTGCCCTGGAAGGCTCAAYCCCTCAAACTAGGAGGTGTCTTGCCTTGCTKCCCTGGAAGGTTGACCTGTTTCCTCCCTTTCCCCCTCTGAAG
GTCCTTTGCACACTTCCCACTCGTGTTGTCCTCTCTGGCTGCTCCCCCAAGGGAGAATTAGGCCCCCCTCAGCATTGGCATTCCRGTAGAAATCCCACYG
CAGGATCCTCCCTAAGCCATATGAGGTAGCTACGGAAACGTGGAGAGGACCCACTCACTCCGTCCAGCAGTAGGACTTGTCATCATCCACACGAACAACA
CCACAGGTAGGGTTGTTTGTGATCATTCACGCACACACACATTTAGCCCTCCAGAATTTGACCACCAAGGAAGTACCTTACCGGCTCCCTCGGCTTCTTC
CTTTGTCTGTGCACAGAGTTGTCTCTGCAGTGTGTGAGGATGCTTTACCCTAGGTTGCCTGCTGGTTTCTTTTCACATTGCTGAGAGCTCAGGTTATTTC
TTGCACTGGGTGAGTCCTGATTTCTCACCCCTGAGGCCATCACAAGAGGGTGGGGCATACCTCCTCAGGAGAGAGAACCAGAGACTGCCCCTGAAGGGGA
ATGTAATCACGAGCAAGCCCCCAAATTGTTATAAATAAAGTTTCCCCCCAGTGCCGCAAAAGAAATAGCACTCGAATATAAAATTTTCTTTTTTTTCTTC
TCAGCAAGGCAATTTACTTCTATAGAAGGGTGCGCCCTCACAGACGGAGCAAAGGTGAGCGCACACCTGGACAAGGGAGGGGAAGGTGGTTCTTATGCCT
GACCCACGTGATTCCTGATGCTGTGTCCTTCCCCTGTTGGCTAGGGTTAGACCTATAGGCTAAACTAATTCCGATTGGCTAATTTAAAGACAGTGAGGGG
GTGAGTGGTTTGGCGGGAAAAATGGTTACCGCAGAGCAGGAAATCGGAATGAACCACGGTGAAGAATGAGTGAGGGAGGAGCAGGTAATCGAAAAATGTT
GCTTTATGAGGAAGTTAAGTTTAAAAGTAGAAGGCAAAGAATTGAAGATACTGACATATTGATTCTTTTAAGATAAATTTAGAACTCATATCTAACAGCT
GGCATGTCTGGCATGGGGCTCCGGCTGGGGCGCAGTCTTCAGCATTTGGGGCTCTGGGGTGCAGGGGGCAGAGGACGGCCGGGGCTGTGGTGCCCAACCR
GTGCTAAACTCAAGCTTGGGAGGTCGCCCACGAGAAACAGTCGCCCTTCCCCACCCGCCTGCTCGGCTTGGCGGGGAGCGGGATGTCGCTGGGGGCGATG
CCAGGCGGGCCGCCTCTGATAGCCTCTAGGCTCTGGCGCGCTTCCCCGCCCCTCCCGCGCAGGCGGGCGTGGGATCCCGGCTGATCCAGTCCGGGTTTTG
CGGCGGAGCGGGCGGGCTGCGCGTGCGGCGGCTTCAACTGTCGCGGTAGGCAGCAGCAGGCTGAAGGGATCATGGTGCAGTACGAGCTGTGGGCCGCGCT
GCCTGGCGCCTCCGGGGTCGCCCTGGCCTGCTGCTTCGTGGCGGCGGCCGTGGCCCTGCGCTGGTCCGGGCGCCGGACGGCGCGGGGCGCGGTGGTCCGG
GCGCGACAGAGGCAGCGAGCGGGCCTGGAGAACATGGACAGGGCGGCGCAGCGCTTCCGGCTCCAGGTGACTGCCGGAGCGTAGTGGGATGGGCGCGGCC
TGAGGGTACTCGCAGCGGCACTTTCAGCCGCCGGACCCGCCGAGGGACAGGGGATGGGGCGGGCAGAGCAGATGTGTAACTCTCCAGAATCTCTCCTTGC
CCTAAGATATTCCGCACTTTCTGAGCCAGGTAGAGCACGGGGGAAGAAAGGAAACGGTAGTGTCAAGGCAGGTGGTGGAAGGCCTTTCCCTCACTGGGTC
AAAGAGGAGTTTTGCTTTGTGCCAAAGAATCTCACGATTGCTGCCTATTGGAATGCGAAAACGCAAGCGTGACAACCAGTGGGATGCCAGGGGTTGAGGA
CTTTGGAATCGCAGAGTGTAATGGCCAAGGGGATCTGGAGAGCTTAGAGTTTTGTTTTTTGTTTTTTTTTGTTTTGTTTTGAGACGGAGTCTCGCTCTGA
CTCCCAGGCAAGAGTGCAGTGGTGCGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTGCAAGCGATTCTTGCTGCCTCAGCATCCCCAGTAGCTGGGA
TTACAGGGGCCCGCCACTACGCCTGGCTAATTTTTGCATTTTTAGTAGAGACTGGGTTTCACCATGTTGGCCAGGCTGATCTCAAACGCCTGACCTCAGT
TGATACACCTGCCTCGGCCTCCCAAAGTGCTGGGCGTGAGCCACCGCGCCTGGCTGAGTTCAAGCTTCTTGATTTGTGCATTTGGATCCTAAGAGGGAGC
CAGAAAGAAACCTGCCAAGTGCACAGGGAGATCTTGGCAAAGCCAGGCTAGAAGGGAAGTCTCTCTGGCTCCTGCTGTGGTGTCCAACCCCTGGCAAGCC
CTTTCCATGAGCAGGTTTAGTTCCAGCCCTCCGTGGGTGGTCTGTCAACAAGCTTTTCTCCCTGCGCTGCCTTTGGATCACCTCAGTATGTGGGTTTGGA
GGCGTGGAAGGGCCTGGCTGAGGGTTTGGAAGATGTGGCTTGAAGAGGGGCTTTTCCTCTGGGTGTGTGAAACACTGACCCCAGTTAAAGCCTTCTTATG
TGCTGAGAGAGGGAGGGCTTGCTGTATCTGTGGGACCTGACAGGTGGGAAGGCTTTACAGGTTGGGAACCGCAGGACTCAGGAGGGTGTGCCTGGGTGGG
AGACAGAAAGAGTCACAGAAAATTGTGTTCAGCAGATGTTCCGCAAGTGATTTTTGAGTTGGGGCAGAGCTGGAACTAGAACCTAGGTGCCCGCTGCACT
CTGCAGCCACACTTTCGTGGAGAGGAACAGGAGAGAGATATGAGGAAGGCACCTTGCATGCCAGCCCAGGGTGTAGCCCTGCATGTTGAAGGGGGCCAGC
CCCTCCACACCTGTGGGTATTTCTCCTCAGGTGGGACAAGAGACTGAGAAAAGAAATAAGACACAGAGACAAAGTATAGAGAAAGAACAGTGGGCCCAGG
GGACCACCGCTCAGTATAGGGAGGACCCGCGCCAGCACTGGTCTCTGAGTTCCGTCAGTATTTATTGATCACTATCTCTACCATCTCGGTGAGGGGGATG
TGGCAGGACTATAGGGTAATGGTGGGGAAAGGGTCAACAGGAAAACATGTGAGCAAAGGACTCTGTGTCATAAGTTTAAGGAAAGGTGCTGTGCCTTGAT
GTGTATGTAGGCCAGATTTATGTTTGACTTTATACAAGCATCTCAGTGCAGTAAACARCAGTATTGTCACCAGCATGTCTCACCTCCAGCCATAAGGTGG
TTTTCTCCTATCTCAGTAAATAGAACGTAGGATCGGGTTTTACACTGACACATTCCATTCCCAGGGACGAGCAGGAGATAGATGCCTTCCTCTTATCTCA
ACTGCAAAGAGGCCTTCCTCTTTCACTGATCCTCCTCAGCACAGACCCTTTACGGGTATCGGGCTGAGGTATGGTCAGGTCTTTCCCTTCCCACAAGGCC
GTATCTCAGGCTGTCTCAGTGGGGAGAAACCTTGGAGAATACCCAGGCTTTCTTGGGCAGAGGTGCCTGCAGCCTTCCGCAGTGCATTGTGCCCCTGGGT
ACTCAAGACGGGAGAATGGCGATGACTTTTTGCCAAGCATACTGCCTGCAAACACATTTTTAACAAAGCACATCCTGCACAGCCCTAATTAAACCTTGAG
TCAACACAGCACATGTTTCTGCGAGCATAGGGTTGGGGCTAGGTTTACAGATTACCAGCATCTCAAGGCAGAAGAATTTCTCTTAGTACAGAACAAAATG
GAATTTCTTATGTCTACTTCTTTTTACATAGACACAGTAACAGTCTGATCTCTCTTTTCCCCACACATGTGTTGCGGTTTTGGCTGGCTGTAATGTATGA
ATTTACTCCAAACCATCCCTGGGGCCAAGATATCTCATATTTATTTAGTAAGATAAAAAATATATCTGGTTCCAGCCTCCACTCACCAAGCTGGCTGAAA
AGTCCACCATCAGTCAGTTTTTAGGGTTTCTTCCTTCCAGAGTGAGAGGGCCCTGGTGGTCAACCCAAATTGGCCATCTCCCCTACACAAGCACAGGTTC
TTCACTGTCTAGTTGCCCTCTCTGGCTGGGCGCTGGAGGTCCTCCTTAGAGATCCTCCTGTTTATCCCTGGCTCTGTGCAGCCAGCTGAGTTCTGCCAGC
TCCAAGAGCAGCGTGGGCAGCACTAGCAGGGATCTGCTCACAGCTCTTGCCTGCAGAACTCCCCTCCTGGTTGCAAGGAATCCACCTGGCTGGCAGGGGT
GTGGGATGGTAGCAGGATGGGTCTTCCTGCACTTCGGCTCCAAACAGCAGCATCTATATGGTTTTCCTCTGGAGCAACTGCTCTTCATTATTTTTACGAA
CAGATTATTCCAGGACAGAAGTTTTGGCTCTGAAAGCTTGGCTCTTTCAGGAGGAGAAGCGGGAAATTACCTTTCAGGTTTCCAGTGATTGTGGTTTTGA
GTAATCAGCAAAGGGGTGGGGTCCTGATTGACAATAGCTTTGTAGGCTTTGSGGGGGAGTAGGATTTTTTTTTGGTTTTTGTTATTTTTGTTTTTTGTTT
TTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAATGGTGCGATCTCGGCTTACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCT
CAGCCTCCCGAGTAGCTGGGATTACAGGCGCCTGCCACCATGCCTGGCTAATTTTTGCATTTTTAGTAGAGACGGGGCTTCACCATGTTGGCCATGGCTG
GCCTCGACCTCCCGACCTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGCGCCTGGCCAATGCCTGGCTAATT
TCTGTAGTTTTAGTATAAACGGTTTCGTCATGTTGGCCAGGCTAGTCTTGAACTCTTTTTTTTTTTTTTTTTTTGAGATGAAGTCTCACTTTGTTGCCCC
AGCTGGAGTGCACTGGTGCAATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGGTTACAGG
TGCCTGCCACCATGCCCGGCTAATTTTTGTATTTTTTAGTAGAGATGGGATTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCC
CCCTGCCTTGGCTTCCCAAAGTGTTGGGATAACAGGTGTGAGCCACCTCACCCGGCCAGGACGTGGGAGTTTTAGCTGAACCCAGCCCAGGCTTGGGAAC
AGCTCTTTCCCCCGCCTCTCCTCCCTTCTGCCTACAACTCCTAAGGCACCCTTCTGTTTGGCTCTGGAGTCCTTGAATGATGGGCAGGTAGGATCTGTGA
CTGTCTGGGCAACCTTTCTTCTGGGGCTCTTAGCCCAGCCCTGAATCACAAGGGGGCACCTGAGATAAGCAGGGCTCCAGCAGGCCCTGGGAGAACACAG
CGATTTGTAGTAAAGCTCCTGTCTGATAGATTCTGGACAAAGCGATTTGGCAACCAAGATTCTTTTTTTTTTTTGAGTCAGAGTCTTGCTCTGTTGCCCA
GGCTGGAGTGTAGTGGCTCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGGAGTAGCTAGGACTACAG
GTGCCTGCCACCACATCCAGCTAATTTTTGCATTTTTGGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCC
GCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACTCCCGGATTCTTRGCTGTGTCCAAGGAGGACACAGCTGGATGAAGGGGTAC
CTAAACACCTTCTGAATTTTCACAAAATAGTTCACCTCTCTCTAAACTCTTGAGCAAATCTAGAGAAAAATGTGTTTCTGGTAATTCTGTTGACGCTTCA
CCCATTTTTTCCCACCCTGCCCCCTGAATAAGTTTTGATATCTTTTCTAGACCGAAGAGAAGGACCACCATCAATAGAATAGTATAGCTGGGAGAGACAT
CACAGAACACCTATTTATGCCCTTATGCCTTTGTACATGCAGTTTTGTTTTACCCTGAATGGTTTTTCCTACATCTCTTACAACCCGCTTATCAATCCCA
CTGGCATTGTGGTTCAGAAGGAGAAAACAAAACAGATGGAGGAGGGGCAATGCCTCCTAAGTGATTGGTAGAGTATCCCTCTCTTGAAAAATTGTGCATG
CAGGTGGCCACAGGTTTAGATGTTACCTGTATACTATACTTCCCTGCATTCTCCGCAAAATCAGGTTTCCGCATGTTCACTGATTGGTCTYCTGGAGGTG
CAGACTTACTTTGGTGTCTAGGAGAAAATGTCTCAGCTGCCTGACACTAGTTGAAGATTTAAAAATAGCTGTTAGCAGCTGTGTCATTAACTGTCAACAG
GCAAGAACATAGGAAAGAATGAAAATGTGTGCTGAGCGTGGAGGGGAGCACATTGCTAGCTGCTAGCTGCCGTGCACAGGCACTCTGTGGGCGCCTTGTA
GCGAGGTCGGGGGAGTTGGTGACCGGACTGTCAGGTGGCAGTTATTCCAGGGTGGTGAATGCTCTGCTGATTTCGATGTCCTTCTCCATACTCTTAGGCA
TTTTTTAAAATACAATGAACCTGTATTTATATAATGARAACAAAAATAAAGCAAAATTTGATTTTCATTGTGAGATGGGAAAGGCAAGATGCAGTACTGT
GTGTATAGTATGATTCCTTTGTGCAAAAAAGAATATATATAGACAACTGTTGACATGGTGGGTTTTTCATAAATATTTTCTTTTCCTGTAAGAGTACACC
AGAAACTGTTAATTATAGTTTTCCTTTATAGAGGAGGGACTGTGCAAGGAGAACCAGGGGTGGAGGGAATGCTCACTTTTCATTTTGTATACCTTTAAAG
AATATATCAAGAGGATTATCTRGTGTGTTTGGGGAGAAGTCTTGAACCCATTTTTTCTTCTTTGTAGCTCCTTGTGTTAGAAAAAAAATCCAAAGTAAGT
ACTCTATCAGTTCAATGAATTCAGGGAAGTGCTCCTGACACTGAGGACATCAGGGGGCAGAGGCTGTGGCATGTGCTCGGAGAGGGCAGGCGCCAGGCTC
TGGGGTGTGGGGGGTGGGAGGGGGCAGTGGTGCCTGGGTGGGGAGAGGTGCACATGAGTCTGAGAGGACCACAGCTTGGAAGCACCTCCTGGAATATGCT
CTGGAGCCTGTGGTGTGATGAGATGGGGATTTTAAGGGGAGAGGCAAGGCCAGGTTGGGTTTTGCACTGTCTGGCCCTAGTGGAAAGTGTGGGTTGGAGG
TGCAGGACCTGGGCAGGGCAGCAGTTGGGTGGCCGCGTGTGACCTAGGAGACAAGGATGAGTCTGAGGCCCGGTGAGGGCCTTGGTAGAGGGGATGGAGA
GGTGACCATTTTTCAGAGCTACTTAGCTTGGTGACTGGATGCAGGTGGTGGTGGGAAGGAGGAGCCAGAAAGACACCTGTTTCATTTCCTGAACACCTGG
ATGGATGGCGGGGCCTCCCCTGAGTACAGGGTACAGGATACATAAGGAGGAGCTGGTCAAAAGTCGGGCAGGTGATGAGCTTAGAGGAAGGACAGGGAAG
GTGGACAGGTGACAGGAATAGCCCAGTGAGCTGGTTTGGGCTCCATTGCCTCGGGCTGGGTAGGGGATCTGGGGGATGTGGGATGAGTGGAGAGCCTGGA
GTCAGAGGTGCTTAGGGGAGGAGTGGAAGCCAGGGTAGGGGAGGAGGGTAAGAGGGGAGGGGAGGAGGGGAAGGGTAGAGGGGAGAAGGGGAAGCAAGGG
GAGGTGAGGAAGGGAAGGGGAGAAGGGRAAGGAAGGGGAGGGGAGGAAGGGAAGGGAAGGGTAGAGGGGGAGGAGGGGAAGCAAGGGGAGGGGAGGAAGG
GAAGGGTAGAGGGGGAGGAGGGGAAGCCAGGGGAGGGGAGGAGGGAAAGGGTAGAGGGGAGGAGGGAAACCAGGGGAGGGGAGGAGGGGAAATTGGGGAG
GGAAGAGGGGGAAGTGGGGAGGGGAGGAGGGGGAAGCAGGCCAGGGGAGGAGGGGGAGTAGGGGGAGGGGAGTAGGGGGATTAGGGGGAGGGGAGGAGTA
GAAGCAGGGTTGGAGGGGTGGGAGGAATGGAAGCAGGAGGAGGGGAAGCCTTCTCCCAGAATCAGAGAGGGAAGAGAAGGTACCCAGAGCTCTGTCTCTC
CCCACATCTGGCATCTTCTTATCCTTCAAATCACAGCTGAAATGTGGTTTCTTCAGATAGGCAGCCTTTAAGAACTGGAACACTCACTGTGAGGGTCTGC
GGCTTCATTCTTGAAGTCAGTGAGACCAAGAACCCACCAATTCCGGACACAGAATGAATGTGTAAACCCTTCCTTTTGGGTGTGGCCTTCAGTCACAGAC
CCAGCCTCCCAAGATGGGGTCTTCTTGTTTTTGCCCTTCCCTGCTAGAGGTTGGCAACCCCCTGAGTAGTGTTCAGAGCTGCTCTGTGGGTGTGGGGATG
GCATGGGGTCAGGTGCAGGCAGATGGCTGGTGGGCAAGAAGGCACCTCTCTCTCAGCCTCAGTTTATCTGTGCAATGGGAATGGCAGTAAGACTTAATCA
AAACATGGATGACATCAGCGTGGTGTTGGCACACAGAAGGCAGCCACTGCTGGTGTATATTTGTAGTGGTTTAATCATCAGTCTGGAGCTAGGCACAGTA
GCATGTGCCTGTAGTTCCAGCTACTCGGGAGGCTGAAGTGGGAGGATCACTTGAGCCCAGGAGTTCAAGTCTAGCCTGGGCAACACGGCCAGACACTGTC
TCTAAGGAAAAAAAAAACCTACTTGGGCAGGTCGGCTCGCTGGGCACCCCTTCAACAAGCTTCTGGAGGAGACAGAGCTGCATTCTCTAGGGATGGCAAG
GGCCTGCCCAGGCTGGGCCATGTCAGAGCTGCTGGGGCATGGGCCACTGGTGTCTGCTGCAGGCCCATGAGACTTCGGCGAGTAGGGGACTGATCCGAGT
TTGTTCCCCACAGAACCCAGACCTGGACTCAGAGGCGCTGCTAGCCCTGCCCCTGCCTCAGCTGGTGCAGAAGTTACACAGTAGAGAGCTGGCCCCTGAG
GCCGTGCTCTTCACCTATGTGGGAAAGGTAAGGCCAGCCAAGGCCAGCCCCTCCCTGGGAAAGGTAAGGCCAGCCAAGGCCAGCCCCTCCCTTTCCCCTC
CCTCTGTCCGCACAGGCTGTGGGGAAAACCTGGCCTGGAGTTAGTCCTGCTGGGGGCCATGGTGGGACCTACAGTGCCAGGGACTGCCAGGGAGGGAAGG
AGCCAGAGCGTGTGCGTGTGTGTATGTATGTGTGTATGAGACACTGAGCATGCTGTCTTAGCTAGTAACCTGGCTTTTAGCCCAGACTTCCCTCTCCCTC
CTGCCTCCACCCCATTGGGCAACAAGTCTGGTCTGTTCCCTTCTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGTTCAGGCTGGAGTGCAATGGCACAA
TCTTGGCGCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACTACACCCGGCT
AATGAAAAGAAAAAAAATTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAATGCAGTGGCATGATCTTGGCTCACTGCAGCCTC
CACCTCCTGGGTTCAAGTGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGAGTACAGGCACCTGCTAACACACCCAGCTAATTTTTGTATTTTTAGTAG
AGATGGGATTTTACCATGTTGGTCAGGCTGGTCTGGAACTCCTGACCTCAAGTGATCCACCCGCCTCGGTCTCCCAAAGTGCTGGGGTTACAGCTGTGAG
CCACTGCAGCTGGCCCCCAACTAATTTTTTGTATTTAGTAGAGACGGGGTTTCACCATGTTGATCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCA
CCCGCCTCGGCCTTCCAAAGTGCTAGGATTACAGGCGTGAGCCACCATGCCCGACCCCGTCTTTTTTTTTGAGATGGGAGTCTTGCTCTGTCGCCCAGGC
TGGAGTGCAGTGGCATGATCTTGGCTCACTACAACCTCCACCTCCCGGGTTCAAGTGATTCTCATACCTCAGCCTCCCGAGTAGCTGGGATTATAGACAT
GCACCCCCATGCTTGGCTAATTTTTGTATTTTTATTTGGCCGGGCTGGTCTGGAACTCCCAACCTCAGGTGATCCTCTGAAAGTGCTGGGATTACAGGCG
TGAGCCACCGCGCCTGGCCTGTTCTCTTCTTTTACCCAGCCCTCTCCTGTCTCCATCCCCTTTGGCCACCCTGGCCCGCCACCACCATCTCCCGCCATGC
CCAAGCACCAGCCTCCTGGTCAGGTGCCCTCTTGTGTCCCCAGCTCTTCAGGCCATCTCTTGTACTCCTCCTCTGTGTGTGGCATCACCTCTGGCCAAGG
CCTTCTGGAGCTTGGGTGTCAGCAGCTCTGCACTGGCTTGGGTGGGGCTCCTTTACCTGGAAGGCTGTTTCCCTCTTCTTTGCCCCTGTCCGTGCCACGG
GCTCCCCTGGCTGAGCCTTCGGGGCTCAGAGCAGGAGGCACCGTCTTCCATTCGCCACCTGAGGTAGGGTTTCCTCTTCCAGGCCTACTCTCATTCTAAT
AGCACATTTCTCATCACAGTGTCAGGCTTGTCTTCTCTATCTCTTTCCCATGGGGGGTCTTTGTGGACAGAGCTTGTCTCATTTGTCTTTGAACCTTAGT
GCTCAACATGTTGCATTTCACGTAATAAATGCTCAAGAAATATGTTTGAAAAGAAAGGGAGGGAGGGAGGAAAGAAGGAGACAAATTGTGCTTTGAGTGT
GGCCTGCATGATTTCTTGAAAGGGTGTGGGACAGTGAGTGTGACCCCTAGGCAGGTGAACTTGTCTGGGTGCAGTGTATGTGACAATGCTGTGGGGGCTG
CAGCTGAGGAAGCGAGCGCATGCTGGGCTGGTGTCACTGAGAGGGGGCACGTACATAGTCTCAGCAGATGGTCTTGCTTCTTCCCTGTCAATGTCCCTGA
AAGGCTCCTGCCCTTCCTAGTTAATCTAGTCTATCTGGTTAGATTAGCCTTCTCTGTTCCTGCCTCGGGTACCCCGGGGACAGATTTTGCACATGCCTGA
ATATGGCAACACAGCCCACCCTGTTTCCCCCAGATACTCCCCAGGAGCAGGAATATTTACTGAAAGCTGCATCTCACTCTGCCSTCACCTTTCCTTCTGT
AGGACCCTGTGTGGTGAGGTTTGAGCATTCTAGGCAGATTTCCACTATTAGCATGTTCTTCCCTTTTGTCAAGCTCCTACTCCACATGGCTTGATTATCA
AATTCAAGATTTCCTGGGTAAGGGGAGGCTTGACTGGGCTACATGTGGGGAAGGCGTGGGGTTGAGGAGAGACTGCTGGGCTCCGGGAGGCAGGAGTCTG
GTCTAGTCCTGCTCTGTGGTTGCCCTTCAGTGTGACCAGTGATGGGGCGCTGCCCCTGTCTGGTTTCTGTCTGCCTCACTGGCAGAGATGTGGCTTGGGG
GAGGTGAGGGAGTGGCCAGTGGTCATCTTCCTCCCAGCTCACCCCCTACCTGGGGGGCACCTGAGGCCAGTATCTTGCTCCCTTGAGTGTCCCGGTTGTG
CCCTGGTCCTGGTTGAAGGCCAGAGACAGCCAGGATGAGGCCTGGGCCAAATGTCCCTAGTGAGGCAGATGCTGAGCCCTAGGTCATCCTCTGTGCCCCA
GGCTCTGGGCCATGTTGCTGGTTACCCCTCTCCCTGGGTATACTTTAAAAGGCCAGTTCTACATGATGTATATTTCACCACAATTTCTTAAAAAGGCCAG
CCTCCTTTTATCTTATGTCTACTTCCCCTTCCTCAGGCCTGGGAAGTGAACAAAGGGACCAACTGTGTGACCTCCTATCTGGCTGACTGTGAGACTCAGC
TGTCTCAGGCCMCAAGGCAGGGCCTGCTCTATGGCGTCCCTGTGAGCCTCAAGGAGTGCTTCACCTACAAGGTATGCTCTGCCTCAGCGCCAGGCCTCCA
TCGTCCCCTCCATCCCTGCCAGCCTGCTCTGCATCTTGGGTCATTTTGGGCCCTTAGAGGAGGTATCAGGTCCAGAGGCCTTCCGAGGGGACACTGGTAT
ACCTGTTTTGGCCTGTGTGACAGTTGTTGGAGTGGACCCTTGGCTGCCCACGGGCCCTGACTCACTCCCTTCTGGTGCCCATCCCTCCTCCCAGGGCCAG
GACTCCACGCTGGGCTTGAGCCTGAATGAAGGGGTGCCGGCGGAGTGCGACAGCGTAGTGGTGCATGTGCTGAAGCTGCAGGGTGCCGTGCCCTTCGTGC
ACACCAATGTTCCACAGTCCATGTTCAGGTTGGGTCTTGGGGTGGGGCGGGGCGGGGCAGGGGCACCGGTCCCAGCATGGCACGGGCTGACCCATTCTTG
GCTCCTCCAGCTATGACTGCAGTAACCCCCTCTTTGGCCAGACCGTGAACCCATGRAAGTCCTCCAAAAGCCCAGGGGGCTCCTCAGGGGGTGAAGGGGC
CCTCATCGGGTCTGGAGGCTCCCCCCTGGGCTTAGGCACTGATATCGGAGGCAGCATCCGCTTCCCCTCCTCCTTCTGCGGCATCTGCGGCCTCAAGCCC
ACAGGGAACCGCCTCAGGTAAGGTGGGTGGAGGGCGCTTCTGGGCCCCTCGCTGTGTGACCTTGGCCTAGCTTCCAACCTCTCTGGGCTCCAGGCGGGGA
TTCGGTCTCCGGGGTTTTGCTGGGAGGAAGCATTACAGTACCACTGGCCGGGCGTGGGTCCTAGTTTCCAAAGCGGTGAGTGTTCAGAGCTGCTCTGTGG
GTGTGGGGATGGCGGCGGGTGGCCATTTCCTGTTTCCAGCATCTTATGTTTCTTATCCAGCAAGAGTGGCCTGAAGGGCTGTGTCTATGGACAGGAGGCA
GGTGAGGTCCGTGGTGCTCTCAGTGCCCCGAGGAGGGTGGGGGTCGGCCTGACCCGCTTCCGCCCGTGCTTCTCAGGTGGCAGGGCAGTGTCTGGCCCCC
AGGCTGCTCTAGGTCTGGGTTCCTCRCTCCTTGTCTGCTTACCTCCCTCACCTCTCTGCCCCACAGTGCGTCTCTCCGTGGGCCCCATGGCCCGGGACGT
GGAGAGCCTGGCACTGTGCCTGCGAGCCCTGCTGTGYGAGGACATGTTCCGCTTGGACCCCACTGTGCCTCCCTTGCCCTTCAGAGAAGAGGTGAGCAGG
GCTGGGTGGGCATGAATGTGGACCGCTGAACCCAGACAGCCACCCCAGGCCTTGTGGGCAGGCCTTGGAGCCCCTGTCTCCTGAGAACCGTCCCCCAGGC
CTCTGAGGCCAGGGCGGGTTGCTCCTCCACAGACGGCCACCAGATGGAGCCCTTGCCTGCATTTGGAAATCCTCAGGCTTTTTTTTTTTTTCCTTTTCTT
TCTTTCTTTTTTTTTTTTTTTTTGAGACTGAGTATCGCTCTGTCCCTCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGG
GTTCACGCCATTCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCYGAGTAGCTGGGACTACAGGCGCCCGGCACCACGCCCGGCTAATTTTTTTTG
TATTTTTAGTAGTAGAGACGGGGTTTCACCGTGTTATCCAGGATGGTCTGGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGA
TTACAGGCTTGAGTTACCGCGCCGGCCGGAAATCCACAGGCTTTCAAAGGTGCCCAGCCTCAGCTGCTGGCACCAGGGATGCAGGAATCATTTCCCAGCC
TGCTGACCTTCAGCAAACAGCAGCCTTTCTAACAGTATTCCTGTCCACRTTTTGGGAGCAGCACGCCACGCTGCCTGCAGACCCCAGCTCATGTAGCCTG
TTCCTGCCAGACTTGCTGCTACGTGAGCCAGGGTCTGCAAGCAGCGTGGTGTGCTGCTCCCCAAAATACCACCACAGCAGCCTGTTGCTGAGACAGGCTG
GGCTTGTTGCTTTCTGTGGCGAGGCAGCACTGTCTTGCAAAGCCTTAGGATCATCTCAGAGGGCAGGAAGGGTGGGGAGATCTGCTGAGATTTTGAAGTC
TGGTTTAAGGTGGATCTTTCAACATGGGGGTTGGTTAAGATTGGTTTAAGTTGGTTAAGATTGGTTAAGATCCTTAATCCCCATGTTAAGGATTGGTGGG
CACAGCAGGGTGTGGATTTTGAGGCGAGAGGTGTCAACCGATGCTTCCTGTTGAAGAGTTGGAATGAATCGGAAGGTTATTTGTGTTATGTGTGTTATTT
GGAGGAGGTGGGGGAGTGGCCAGTGGTCATCTTCCTCCCAGCTCATCCCCTACTGCGGGGCATCTGAGACCAGTATTTTGCTCTCTTGAGTGTTCTGGTT
GTGCTCTGGTCCTGGTACTCTCTCTCTCTCTSTCTCTGTGTGCGTTGGGGTTGAAGGCCAGAAACAGCCAGGTTGAGGCTGGGGCCAGATGTCCCCAGTG
AGGCAGGTGCTGGGCCCTAGGTCATCCTCTGTGCCCACTCCAACAGAGTGCAGGAGCTGTAAAGTTAGATTGGTGCAGACAGAGGAAGAGTGAAGTCACG
TTAATGTAGACAGTAAGCTGTGTGACGTAAGCCCCGTTTCTCAGCAGTCCAGCGATTGTCTATCTTGTACAGACCTCTTGCCCTCGCCCCAGCCAAGGTT
GCCTTGGAAAGGCTGAGGGTTTGTGGACGGGAAGGAGAGTGGGCCTTGGTGTTTCTTGGGAGTGGGGCAGCAGGGCAGATCTGGGCTGGGTAGGGTGAAC
TCCCCCTCCCCAGGCAGAGGGAGATATTCTAACCGAACCCACGGGGATAGGCAGCCGTGAAGTCCTTCCTCGGAGGAGAGGAGGAGATGAGGTCCCTGTC
TGGAAGTCTGGAACAGTTTATCATGAGAGCCAGGACAGGTGGTGGAGAGCCTCAGCTCAGAAGACAGGATGCCTGCATTCCAGACCTGTCTTGTCACTCT
GCATTGGGTAGCTTTGGGCAAGTCCCAGTCCCACCTAATCTCCCTATTGAGACYTCAAGCCTCAGTTTCCTCATATGACCAGTAGGAATCCTTATCCTTG
CTCTGCCCACCTGAGTCACTGTGAAGGTGTTTTATGAAAGGGTCAGATGCAGAAGGGGCTGGCCTCGCTGACTGCAGCCTCGCAGCTGTGTCTGGGGCTG
AGTAGTTTCTCTGATCTCTAGGGGTCCTGCCTAGKGTTGTCTTCTCCTGACCTGCCCCTGTCCCCTGTGTTTTCCCTCCAGGTCTACACCAGCTCTCAGC
CCCTGCGTGTGGGGTACTATGAGACTGACAACTATACCATGCCCTCCCCGGCCATGAGGCGGGCCGTGCTGGAGACCAAACAGAGCCTTGAGGCTGCGGG
GCACACGGTATGACTGCAGGGTCCTGGAARTACTGGCATCTCCTCCCCTCACGGGAAGCCTTCCTGGTACCCATGGCTACTCCATCCCTGGCATCCTGGC
ACTCTGACGATGTTGTCGTCGGGGTGAACTGTGRCCCTGTGGGACAAGTATATAGAGGGCTGATCAAGAGTATTGGAGTGAGTGATTGATGGAGAACTTT
AGCCCTGTGCTGTGTGATGTGTGAGCACTGCATGTGGGGAGGCTCTTCAGCTCTAAACAGTGGTGCACAGCTGTCCAGAGGCTCCCAGGGCCAGTGGGTT
TTGGTCTGGTCATTACACAACTTTATGTGTGGCTCCAGACTTCTCTCATGCTGTGCATTCCACAGTGAGTTTTCATGGGTCAGTAAGGCTGCCTTTGTAG
CTCTAGTGAGAGCTATCTTGTGGGCAGGGTTGGTCCAATCCATCCTCAGGGCCGCCCAGACAGCATGGGGATCATGAAGCCAGTTGTTAGGTCAGGAGGC
CTTACACCCCTCAATCCCTGCAGCTGGTTCCCTTCTTGCCAAGCAACATACCCCATGCTCTGGAGACCCTGTCAACAGGTGGGCTCTTCAGTGATGGTGG
CCACACCTTCCTACAGAACTTGTGAGTGATAGTGGGCTTTGGGGTCTTGGTGGGATCAGACAAGTAGGCAGACCTGGGGGAGCAGCAGGGTGTGGTGATG
CCTGGATGGGCCTTAGCTGAATCCAACAAAGGCCTGAGCACTCTGGGCAGGGACCTCGCTGTCCCTCCAGCTGGGCACATTGAGCCTGGAGATCCCTTGC
CAGGGTGCCAGCCCGAGKGGAGGCTGGGTTGAGTATCTGTGGCCTACCCCTGATCTGAGCTTGTTGTGAGGTAGGAGGTGGGCAGGAGGTTGCCTCTCTG
TTTGGGAAGGATTTGGGCCAAGGGCAGGATCCAGGCAGGAGGGTGGGGGTTTGGACTTGATGCTGTGACTCCAGGCTCTGTCTGACTTGAGCCAAGTCTT
CTTTTTGAGCAGGACCTCAGCTTTCTCTCCTGTAAAGTGGGTGGGTTGGACCAGACTCCCTTTAAGGGACTTTGCAGAGCTCATTTTTAGAGAAGTTCGT
TCCTCTGGGATGCTTCTAGTCATTAAAGGTGTCAGGGGCAGAGAACAGGCCTGCAAAGGTGCCTCCTGGTGACATACCTCTGCTGGATGGACTGGAACCC
TTCAGAACACAGTCCCCCTTCCTCCACTTCACTGATGGAGAACTTGGCCCTGCAGCCTGGAGCTTGGCCCTGCAGCTTCACTCAGTCAAGGGCCCAGCCT
GTCATGTTCCTTTCCTTCCCCTAGCAGCCAAGTGTGGTCCAGGCTTCAGTGGAAGGGGTCACTCCTCACTCTGGCCCTGGGAATGAGTCCCCAGGATCAG
CTGCCTGAGACCTTTCCCTGAGATCTTGAGCCAGAGATAGCCTCAGAGCCCTGCTTCATGGGCAGCCCACCCTCGATTTCCCCACCTGTGCCTCCAGGCT
GTACCTCCCTAAGGGGAGGTACCCTCAGGGAGGCCTCATCAGGGAGATGTTGCCCTCAGTTCTTAGAGCTCTGAGCTGGGTTTGCTGGAGAGGGATACCC
TGAGTCCTGCCTTGGGGAGCTCCCGTGGATGTGGGTTGCAGCCCAGGCATCCCAAAGGATCAGCAGAAACAAACGGCATGTTTGGAAGGAGGGAGCTGAG
TCTGGTGAGGAGGAGGTGGACAGGATCCCTGCATAGAGAATGGGATTGCTGTGGGCCGGGCGAGCAAGCTGGGAAGGATGTGGGGATGGGAGTGCCTGGA
CCGAGCATTTTGYTTCCCAGCAAAGGTGATTTCGTGGACCCCTGCCTGGGGGACCTGGTCTCAATTCTGAAGCTTCCCCAATGGCTTAAAGGACTGCTGG
CCTTCCTGGTGAAGCCTCTGGTGAGGGCACAAGGAGTGGAGGGGCTAGGATGGCTGGGGGGGAACCTAGGGCCTCCTATCGCATGATCCCCCATGGCCTC
CCTCAGCCTCTCTTGGTTTGGGCAGGCATGGCCTCCTCTTCTCTCCAGTCCCCACCCAGACTGCTCTCCTCCTCTGTCCCCTGCGATCTTCAGCCAACCC
GCATGCTGAAAGGGGTGCCGACCTGGGCCCTGGGGGGAGGCATGGAGGGAGGGGTCCCCAGTGGCTTGGCCTGAAGAAGGTTGACGTCTGCCGTGGCCCA
GAGCTGAGTCACCGACCCTGCGTCTGTCCTGTGCAGCTGCCAAGGCTGTCAGCTTTCCTCAGCAACATGAAGTCTCGGTAAGGGTTCTTCTGTGTCTAGC
TGCCGGCCCCTGCCTGTCCTGATCCGAGTCTGGGTCTGGGTAGTTTCTGACAGGAAAGGACTTGAGGGAAGTAGCCTCTGAGGCTGGAAGTGGCCCAGGC
AGGGGGGCAACCTTTGTGGCCTTCAGATGGGACTTTGAAGTTGTCTTGGCAAGGTCCAGTTCTGGCTGGAGAGCAAAGGCCTGAGGGGGACAAGAGGATG
GGGGAGTTGGAGGGGAGGAGGTTGACCTGGCTGGGGCATGAGTGGAAAGGACCAGGAAGTGGGGGTTGGCCTGGGCCAAGGGTGGGGCACCCGGGAGAGA
TGCCACTGTTAGAGATCTGAGCTGACCTGAGCTGCGCCAGGCCCTACTTGCCCCTTAGTGGCTGGGGCTGGAAAAGCAGGGCGTAAACCTCCCTGTTTCA
TGCCCTGACGTCCCATGGACTCACTCCTTCCCTTACCACCAGGCTTCAGGACTGGCAGCAGCTATGGCCTCTCCCGTGTCCTGAGGGTAGCGAGGAATCG
GGCCTGGGCTAGTCCTGGCTCTGCTGTGGAGTCACCAAGTGCCAGCCTGTGCCCCTCTGGGGCCTGATTTTCTCATCCAGACAGTAGGGGTTTGAACTTC
CCTCTCAGAGCTCCCATGGGGTTGTGAAGGRTCCACGGARGGGTGAGATCTAGAGGGTTGGCAGTAGGGGTCTGATGTTGCTGATCTCCGTGGCTGTGAC
CATCATGGCTGGTGACCACACTCCTTCTGCCCAGTTCGGCTGGAAAACTCTGGGAACTGCAGCACGAGATCGAGGTGAGGCCAGAGCCTCTGGATTGGAG
CAGGGTGGTGGGGGGAGGGTGGAGTTGGACAGGGTACCCGCTAGCAGTGTCTCGTGGCCACTGCCCCCATGGGGCTCCTAGACTGGCCTGTCATCCCCCT
TCCACTCCCTGGACCACCACTTGGGCCCAGCTCTCTGACCCTTACTTGCCTAGATGCCCATCCTTTGAGGCTGGGTCAGCCCCAGGCTCCTGTCCTGGCC
GCCTTTTTGCCCCTCTGGAGCTGCCTTTGTGTGGCTCCGCCTCAGCGGGAAGAGGTGTATCCACAATTCATTCTGGAGGCAGAACGACTGATGCCCTCTG
AGAGGCAGCACTGCCTGCCCGGAGGACCTGTGTCCCACTGTGGCTCTGTTCAGATCCAGGGGCAGGTGMTGGGGCCAGAGCCACCCCAGCCACAGTCCCT
GAGTTAAAGAGCCTGGGGTGGGCTAGGTCTGAGTGCTTTCACCTGGTGTGTTGTGTCCTCYGCAGGTGTACCGCAAAACCGTGATTGCCCAGTGGAGGGC
GCTGGACCTGGATGTGGTGCTGACCCCCATGCTGGCCCCTGCTCTGGACTTGAATGCCCCAGGCAGGGCCACAGGTGAGGCCCGACACCCTGCCTGTCCC
TTCTGTGAATCTGGCCATGTGCCCTGCAGGGCTGCGAGGAAATGGAAGAAGAGCCCTCTGGGAGGACCCTGCCCTCTCGGGGCCCACAGTCTGGCTGACT
GGAGACATGGCAGTCATGTGGGTTGCCCTGGCAGGGATTGATTTTCCTGTCATCAGCACTATTCAAGTTGGGGATCTTGAGTTACAGAATCTAGTTTGGG
GAGGTGATGGTTTGAAGTCCAGGTGGGATTTAGATAAATCAAGAAAATAGGGGCCAGGGCGGTGGCTCACACCTATAATCCGAGCACTTTGGGAGGCTGA
GGCTGGAGGATCACTTGAGCCCAGGAGCTCAAGAGCAGTCCAGGCAACATAGTGAGGCTCCTGTTGCTACAAAAAATAGAAAAATTAGCTGGGTGTGGTT
GCATGTTCCTGTAGTCCTGGCTACTCGGGGGGCTGAGGCAGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGTTATGATCACACCACTGCAC
TCCAGCCTGGGTGACAGAGTGAGACTGTCTCAAAAAAAGGAAAAGGAAAAGAAAACAGGAACAGCATTCCCAGTGGAGAAAGTACATGGGCAAAGGCATG
GGGCAAACATCAGTGGGTTGTCCAGCCCGGCCCTGAAATCTGAATTCCTGGGCTTTGTCACTCAGACCTCAGTCCTGGGAGAGAGCCTTTCTCTGGCTGT
AGACACAGGGTGCCATTTCATATGAGGTTTGACTCAGGCCCGGAGTTGGCACTGAAGATTCTCAGGGCCTGCTGCAGCTGCCTGTAATGTGTTCCAGGGG
CCGTCAGCTACACTATGCTGTACAACTGCCTGGACTTCCCTGCAGGGGTGGTGCCTGTCACCACGGTGACTGCTGAGGACGAGGCCCAGATGGAACATTA
CAGGGGCTACTTTGGGGATATCTGGGACAAGATGCTGCAGAAGGTGAGGACTGACCTGCCCCTCAACTGGACTCACTCCCCACCCTGACTCTGGCCGCTG
TGGAGGAAACAGTACCAGCACTGCGGGTTTGCCAGCCTTTCTTAAGCAAGACCTGAAGGACTATGGCCTGGCCCTACRTTGTGGCCTCTCTCTAGCTGGG
TGCTTCCTGGGCCTGGGGGTGGGGAGTCCTGCCTTGCTAACCCTATCCTGATGCCTGTATCCCCTATAGGGCATGAAGAAGAGTGTGGGGCTGCCGGTGG
CCGTGCAGTGTGTGGCTCTGCCCTGGCAAGAAGAGTTGTGTCTGCGGTTCATGCGGGAGGTGGAGCGACTGATGACCCCTGAAAAGCAGTCATCCTGATG
GCTCTGGCTCCAGAGGACCTGAGACTCACACTCTCTGCAGCCCAGCCTAGTCAGGGCACAGCTGCCCTGCTGCCACAGCAAGGAAATGTCCTGCATGGGG
CAGAGGCTTCCGTGTCCTCTCCCCCAACCCCCTGCAAGAAGCGCCGACTCCCTGAGTCTGGACCTCCATCCCTGCTCTGGTCCCCTCTCTTCGTCCTGAT
CCCTCCACCCCCATGTGGCAGCCCATGGGTATGACATAGGCCAAGGCCCAACTAACAGTCAAGAAACAGCTCCTCGTCTGTGTGGTTTCTGGGCGTCATC
GTGAGGGTGGGGTTTGGAGCCTGTTGAGAGCAGGGCTGGCTTGACTGTGCATACCCAGGCTCCAGCCATGCCAGTCTCCTGCTCCACAACCTCCCCTGGT
GCCCATCACCCACAGGAGGGGTGCAGGCTTGTATCCCCCAGCACTTCGGCCGTGCCCCTCCTCTCTCACCTACACTAAGCCCTGCTCTGCTGGACACTGC
CCTTGGTCTCCTTCCTTCTTCTGCTTCTTTCCCTGCCTAGAAAGCTCTTTCTGTTCCTCTGCTTTCTATCCTTTGAGACCTGACTCAGATCCTTCTCTCT
CCAGGACACCTTTCCTCCTCCCTCTGGGCCCTGGAGTATATGGGCTATTTCTTCCCAGTCTGCCCTGTGTGGTGGGCATTGGTGGGTGTGTCTGCCTGCC
TTAGCACACTGGCTTTCCTTGACGGCAGGGAACCCATTGCCACATCTCTGTCTTCTGTGGCCAGCACGGCAGCAGGGGAAGCACTGAGTTGGGTTGCAGA
GAGTCCGAAGTGCTGGCCCTGAGCTGCTGCTGTTTGGGAGAGGAGCCCATGGGCCTGGGGAGGCCGGCATGAGACAAGGTGACCTGGTAGAGTGTGCTCT
CAGGGCTGGCCAAGGCCTGGATTGCCCTGGGAAGGTTTCCTGAAGGAGGTGGACGTGTGTTGAGTCTAGAAGTTTTCCAGAGACTGAGCTAGGGGTTGAG
GACATCTCAGAGAGAAGGGACAGTATGCCCAAAGATCAGGGTGGGTTTGCTAAATGGCAGGCATGTTGAATGGGCACAGGGGAAGCAGAGATATAGGTGA
GGACAGATCAAGGTGGACTTGGGCAGCCAGGTCAGGAACTTGAGTTCTGTCTCAAGGACAGTGGGACTCTGGAAAGATCATAGCTCGGCCTGAGGACTAG
ACTCGTGGGGCAAAACCTGTAGAAGGGTAAAGAAGCTGCTCCATGATCCCTAATTTGGGGAGAGGGGCCTAAAGCCTGAACCTTGGCCCAGGGGTAAAGA
GGGGCCCTTTGGGAATTGACAGGATGGAGGTGAGCTGTCTCAGCTCGTCTGCTATCCACCTCTTACTGGACTATGTCACCTGGCTGGTAGAAAGGTGGCA
TCTGTAGCCGACCCTAGGAGTTTCCTTCTTTTTTTTTTTTTTTTTAGCAGAGTTTCGCTCTTGTTGCTCAGGCTGGTGTGCAATGGTGTGATCTCGGCTC
ACTGCAACTCCGCCTCCTGGGTTCAAGCAATTTTCCACCTCTTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGCAGCTGGGATTACAGGCATGCG
CCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGACTGGTCTTGAACTCCCGACCTCAGGTGATCCGCCCACCT
CGGCCTCCCAAAGTGCTGGGATTACAGGTGAAAGCCACCATGCCCGGCTGACCCTAGGAGTTTCTTAACCCCATTAGCCCAGTTGCTTTGCTCTTCCCTG
GCCCCAGCCCTAATTCTCCTGCTGGCTGGAGATGTTTCAGAGCCTGAGCCCTCTAGGTAGGGCAGGTCCACGGCTCCTACCTGTCTGTCTCAGATTCTTT
CTAGAAGAGTTGCCTTCCCAAGACTTCCTTCTCCACCCTGGTTTTCATACTCCTCCAGAAGTGCTTTGCCCTCCAGGTTGCCACACCCATTGGCGCCTGC
ACCATCTCCCAGTGCCATCCCTGCCTCTGTGGGGCCATTTTCAGGGCAGAGGTGAGGTCCCAACCTACATGGGGACACCCAGATTGGGACATCTAGGTAG
ATGCYGCACTTTGCCCTGATTTCTTGTAACCACTGCTGTAATTTTGCCTTTTTCATAAAACCACTACCATCTGCCCCAGCTTCCTCCTCCTGCCCCATTT
CTCTCTTTCAGTTACCGATATCTTTGTGCCTTCAGACACGAGGCTGCAGAGTGGAGGTGCCTTCACTCGTTCATTGATTCAGCCCTTGGAGCCTCAGCAT
GGCCATGTCCAGACCTCAGCTGACCTGAGTCAAGCCTGGGCTTCTGGGGACGTGGACATTGACACAAACACATCTGTTCCTCCTGTGATTAGGGCTGGGG
GACAGGATAGACAAGGGGTCAAATGCTGCCAAGGGGAGGGGGAAGTGGTCACTGAGGCTAGTACATGGCCACTGTGTTTCATCTCCACCACCATGCTCTA
GTCCAAGCCACCTCCCTCATCTGGACGCTGCAGTGACTTCCCTTCTGGGCTCCCTGCTTTCAACCCTGGCTGCCCTCTAATCCATTCTCCACACAGAGCT
GGAATGATCTTTTAAAAGTATAAATCAGGCTAGGCGCAGTGGCTCATGCCTGTAATCCTCGCACTTTGGGAGGCTGAGGCGGGTGGATCACCGAGGTCAG
GAGCTCCAGACTAGCCTGGCCAACATGGCGAAACCCTGTCTCTACTAAAAGTACAAAAAGTCTTGACAGGCATGGTGGCGTGCATCTGTAGTCCCAGCTA
CTGAGGAGGCTTGGAACGTGGCTCCAATGTCACCTTCCCTGCTCACCCATTTATAAAACGGCCTCCTTTATTTCTTTTTCTTTTTTTGAGACGGAGTCTA
GTTCTGTTGCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCTTGCCTCAGCCTCCTGAATAGC
TGGGATTATAGGCAAGCGACACCACGCCCAGGTAGTTTTTTTTTTTTTTTTGAGATAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATC
TTGGCTCGCTGCAACCTCCCTCTGCCTCCCGGGTTCAAGCGATTCTATTGCCTCAGCCTCCTGAGTAGATTGAATTACAGGCACGCGCCACCATGCCCAA
GCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTCAACCAGGATGGTCTTGATCTCCTTACCTCGTGATCTGCCCGCCTCGGCCTCTCAAAG
TGCTGGGATTACAGGTATGAGCCACCACGCCCGGCCTTGGTTTCTTGATTATCTCAAGCTGGGCCCTGCTTCAGAGCTTTCATGTTAGCTCTTCTCTCTG
CTTGGAACACGCAGCTCCAATGTCACCTTCCCTGCTCACCCATTTATAAAATGGCCTCCCTTGTTACTCTCTTTTCTTTTTTCTTTTTTTCTTTTTTTCT
GAGACGGAGTCTTGCTCTGTTACCCAGGCTGGAGTGCAGTGGCATGATTTTGGCTTACTGCAACCTCTGCCTCCCGGATTCAACCAATTCTCCTGCCCCA
GCCTCCCAAGTAGCTGGGATTACAGGTGTCTGCCACCATACTCAGCGAATTTTTGTATTTTTAGTTGGGACGGGGTTTCAACATGTTGGTCTGGCTGGTC
TTGAGCTTGTGATCTGCCTGCCTGGGCCTCCCAAAGTGCTGGGATTACAGGGGTAAGCCACTGCACCCGAGCCCTTGTTTCTTTCTTTCTTTTTTTTTTT
TTTGTTTTTTTTGACAGAGTCTCACTCTGTCGCCCASGCTGGAGTGCAGTGGCACAATTTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGGTTC
TCCTGCCTCAGCCTCCTGAGTAGCTGGTATTACAGGCGTGCGCCACCACGCCCAGCTAATTTTTGTATTTTAGTAGAGATGGGGTTTCACCATGTTGGTC
AGGCTGGCCTCGAACTCCTGACCTCATGATCTGCCTGCCTGGGCCTTACAGGCATGAGCCACCACGCCCTGCCCCTTGTTACTTTCTAATAGGTTACCCT
TTGTTCTTTTTTTTTTTTTTTTTTTATTAAGACGGAGTTTTGCTCTTGTTGCCCAGGTTGGAGTGTAATGGCAGGATCTTGGCTCACTGCAAACTCTGCC
TCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCATGCCCAGCTAATTTTGTATTTTTAGTAGAGACG
GGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCCACCCTCCTGGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACC
TCGCCTGGCCACCCTTTGTTCTTTGTAGCATTATCACTCTCTGAGCTCTTTGATGTTTTTTTGTCTCCTCCACTAAACCATAAGCTTCCTGAGAGCTGTG
CTTTGTCTTGTTCATCACTTGTTCTTGGCTTAGAGGATGGTGCTCCACAAATTCTGGGATGATAAAGTGTGGCTGTGTGAGGGGCCAAGGCACTGTGCTG
GGTGCTGGCAGTGACAAATGAGGCAGCCCTGGCCCCTGTCCTCGTGGAGCTCACATTCTGGAGGGATTTGTTGAATGAACAGAAGGGGGACAGAGAGTTG
TGCTAATGAAGACCTCTAAATATTTAATGTCTGGAGTGATAACATGACTTTTGATCCGGAAAAAAGGGGAAAGGGAATTCTAGACCACATTTACTGAGTA
CCTACTATGAGCCATCTACTTTCTGGGCACTTCACAGTCATGCCATTTAATCCTCTGTGAACCCTATGATGGGCATTTTTGCCCCCCTTTTACAGAAAGT
TTACGTATCTTGCCCAGGGTCCCACAGCTAGAAGTTGGGGGCTTGGAACCGAAAGCTAGGCCAGTCTGTCAGCAACTGCATGAGGTCTTTCTGTTGATGC
CAAGCCCCAGTGAGTACGATGGCCAGAAGAGTGAGAGCACAAATCAGCCTCCTCCTCATACCTCTCTGACCACCAGTGTGCTGGTGGCTACTGCCTGTTT
TCATGGCCTTTCCCCTTCTCACCGGGTCCACTGCCACAGCTTCTTTTTTTTTTTCGAGACGGAGTTTCGCTCTTGTTGTGCAGGCTGGAGTGCAATGGCG
AGATCTCAGCTCACTGCAACCTCTGCCTACCGGATTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTATCTGGGATTACAGGCGTGTGCCACCATGCCCA
GCTAATTTTGTATTTTTAGTAGAGATGGGATTTCTCCATGTTAGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCTGCCTTGGCCTCCCAAA
GTGCTGGGATTACAGGCGTGAGCCACTGTGCCCGGCCTGCCACAGCTTTTTGCCTCGCTTCCCTGGGCTCCAGACTGGACATCTCCAACAATCTTTCACA
TGGCAGTTAGGCAATCTCATGCTTAAAATCTTTGGACTCACTTGTGCCAAGTCCAGAAGCCTTGTTATGACCTGCAAGGCCATGATTAACCTGACCCTGC
AGCTGGCCCCTGCGGCCTCATCTCCTGCCCTTCCTCAGTGCTCACAGCCCGGCCACGTGGCCTGCAGGTAATGTTCAGAACACCGAGTGATCTCCCGCCT
CCACGCCCTTTGCTCTTGGTGCTTGCTGTGCCTGGAGTGTTGTTCCTGGGGTCTCCACCTAAAGACCACCTACTCGTCCAAGGTGAGGGCAATTGCTCTT
CCAACTCTGTCAGGCTGTGTTGAAAGAGCTTCTTTGTGCTTCTGCACGTGGTCGAAAGCAAGGTCTGTGTATTAATAGAACCCAACATCTGTTAGGCTGT
GGAGTTGAATACCCATTATCTCATTTGGAAAGTGGGCATTACTATTTCCATTTAAAAAATTTATTTATTTATTTATTTTTTGAGACAGAGTCTCTCTCTG
TCGCCCAGGCTGGAGTTCAATGGCACGATCTTGGCTCACTGCAACCTCTGTCTCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAT
TACAGGCGCCTGCCACTGTGCCCGGCTATGTTTTGTATTTGTAGTAGAGATGGGGTTTCACCACGTTGGCCAGGCTGGTTTCGAACTCCCGACCTCAGGT
GGTCCACCTGCCTTGGCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCCTTTTTTCTTT


SNP Information

Context             (SEQ ID NO:29716):
AGAGACTTCATTTCGATAAATAAGTAAATAAATAAATAAAGTCTGAAGCTCCACTGGTCACTCCTTTTATTGATTATTTGCAGCTGGTCTAACCAGTTAC
R
TATGTCTGGCTTGATTACATGGCCAGAGCAACATAAAAGCCCTGCTGGGAACTTCTGATTTGAGCTCTTCCAAAACCAGGATGGATGCCTCACATAGATC
Celera SNP ID:            hCV7567589
SNP Position Genomic:     30583
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:29717):
GTCAGGGTGCTGGTGTGTTGGGCAGAGAGAGCTCCCCACCTCACCTAGTCCCAGGTACATTTAATATGGTAGGTTCGGCCAGGCGCAGTGGCTCCCGCCT
R
TAATCCCAGCACTTTGGGAAGCCGAGGGAGGCGGACCACCTGATGTCAGGAGTTCCAGACCAGCCTGGTCAACATGGTGAAACACCATCTCTACTAAAAA
Celera SNP ID:            hCV25962914
SNP Position Genomic:     13006
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,10|G,30)   total(A,14|G,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:29718):
GGTGCCCAGCCTCAGCTGCTGGCACCAGGGATGCAGGAATCATTTCCCAGCCTGCTGACCTTCAGCAAACAGCAGCCTTTCTAACAGTATTCCTGTCCAC
R
TTTTGGGAGCAGCACGCCACGCTGCCTGCAGACCCCAGCTCATGTAGCCTGTTCCTGCCAGACTTGCTGCTACGTGAGCCAGGGTCTGCAAGCAGCGTGG
Celera SNP ID:            hCV927990
SNP Position Genomic:     72849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29719):
CCCCACCCTGACTCTGGCCGCTGTGGAGGAAACAGTACCAGCACTGCGGGTTTGCCAGCCTTTCTTAAGCAAGACCTGAAGGACTATGGCCTGGCCCTAC
R
TTGTGGCCTCTCTCTAGCTGGGTGCTTCCTGGGCCTGGGGGTGGGGAGTCCTGCCTTGCTAACCCTATCCTGATGCCTGTATCCCCTATAGGGCATGAAG
Celera SNP ID:            hCV25996130
SNP Position Genomic:     79178
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,6|G,32)   total(A,7|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:29720):
GTGTCAGTCTCCTCTCAGAGCAGAAGTATGGTGCACTGGTCAATAACTTTGCTGCCTGGGATCATGTAAGTGCTAAGCTGGAGCAGCTGAGTGCCAAGGA
Y
TTTGTGAATGAAGCCATCTCCCACTGGGAACTGCAGTCTGAGGGTGGCCAATCTGCAGCCCCATCCCCTGCCTCCTGGGCCTGCAGTCCGAACCTTCGAT
Celera SNP ID:            hCV25971959
SNP Position Genomic:     10824
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(C,10|T,30)   total(C,15|T,63)
SNP Type:                 UTR 5;SILENT MUTATION;hmCS


Context             (SEQ ID NO:29721):
TTCCTCCCAGCTCATCCCCTACTGCGGGGCATCTGAGACCAGTATTTTGCTCTCTTGAGTGTTCTGGTTGTGCTCTGGTCCTGGTACTCTCTCTCTCTCT
S
TCTCTGTGTGCGTTGGGGTTGAAGGCCAGAAACAGCCAGGTTGAGGCTGGGGCCAGATGTCCCCAGTGAGGCAGGTGCTGGGCCCTAGGTCATCCTCTGT
Celera SNP ID:            hCV26787542
SNP Position Genomic:     73432
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,10)   total(G,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29722):
GCGCCCGCCACCACGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACGGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCC
R
CCGGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCTGGCTTCTGTCTTTCTGTCTCTTTCTCTCTCTGCCTCTCTTTCTCTCTC
Celera SNP ID:            hCV26787544
SNP Position Genomic:     58280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29723):
AGAGGTCTCACTGTAAGATGGTGTTATAATTTATATTTCCCTCAGGAGGCCAGGTTTCTCCCCCTTGAAGAGGATATCATGGCCAGGTGGTACTGCAGAA
R
AATATAAGTCATTTCTTTCTTAGCGTCTGAGGGTCAAATTGGTCCCAAATCTCCAGAATACATCTTAGGGGCGTTTTTGCCTTGTGGGGAACGTTTCCCA
Celera SNP ID:            hCV26787545
SNP Position Genomic:     56513
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29724):
ACAATCTCAGCTCACTGCAAGCCCTGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCTGCCACCATGCCC
R
GCTAATTTTTATATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCTAGGATGGTCTCGATCTCCTGACCTTGTGATCCATCTGCCTTGGCCTCCCAAAG
Celera SNP ID:            hCV26787546
SNP Position Genomic:     55145
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29725):
AGGCCACGCCAGTGTCCAGGAGACAGTTAACCTCCTGGCCCTTAATGGTCAAGCATACCTGGGGCTCTGTGAGGGTGATGGCATGGGTTGGTACTTGCCC
Y
GGGCACCCTCAGTCCTGCTGCTGGATCATCTGGTTAGTGGCTTCTGACTCAGAGGGCCTTCGTCCCCTGGGGCAGTGGGCCTTCCAGTGATTCCCTTGAC
Celera SNP ID:            hCV26787547
SNP Position Genomic:     54833
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29726):
AAATAAGTAAATAAATAAATAAAGTCTGAAGCTCCACTGGTCACTCCTTTTATTGATTATTTGCAGCTGGTCTAACCAGTTACGTATGTCTGGCTTGATT
M
CATGGCCAGAGCAACATAAAAGCCCTGCTGGGAACTTCTGATTTGAGCTCTTCCAAAACCAGGATGGATGCCTCACATAGATCATGATGATTCAATCCAA
Celera SNP ID:            hCV7567590
SNP Position Genomic:     30600
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:29727):
TGTTTGGAAACCTTGTAGCCACAGGTGGCGAGGAAATTCAAGAGCGCTTGGGTAGCTTGATGGCACAAGGTTTCTGAATGGGTGGCTAAAAGCAAATCAT
M
CACATACTGAAGGACAAGAGTGTCAAGGTATGAGAACTGGCTCAAGTCTTGGGTTAACGCCTGGCCAAATAGATGGGAGCTATCCCGGAACCCTTGGGGT
Celera SNP ID:            hCV26787549
SNP Position Genomic:     53900
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29728):
GTGAAAAGAGTAAAGTTCCCCAGTCACAACTTAGTGGCTGGGAGAAGTATCTAGTGACTGGCTGTCCTAGGACCCCTTGGATAGTGATAGATCTGGAGGA
Y
AGTTGTCCGGGACAGGAGAGTAAGACTGAGAAGGCCACGCCAGTGTCCAGGAGACAGTTAACCTCCTGGCCCTTAATGGTCAAGCATACCTGGGGCTCTG
Celera SNP ID:            hCV11284802
SNP Position Genomic:     54701
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29729):
ATCCCTTCTCTCTGTACTAGTCTCTTTAGCAAACTGGTTGCTGGGCCATACCCTTGGTTTCCTCTCCCAAACATGCCTTTTTACTGTTTTTTTTTTTTTT
T
GAGATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGTAAGTTCCGCCTCCCAGGTTCATGCCATTCTCCTGCCTCA
Celera SNP ID:            hCV11284807
SNP Position Genomic:     37983
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29730):
GCCCAGGGTCACATAGCAAGTCAGTGGCACTGTGGTAGGAGAGGCTCTGTCCTTAACCACCAGCATAACATTGCCACCTTGATTTTTTTTTTTTTTTTTT
T
GAGACAGAGTCTTGCTTTGTTGCCCAGGCTGGAGTGCAGTGGTCTGATCGTGGCTCACTGACTCCCAGGTTCAAGCAATTATCCTGCCTCAGCCTTTCGA
Celera SNP ID:            hCV11284808
SNP Position Genomic:     36979
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,15)   total(T,15|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29731):
CATTTAGGTGTTTGCCATTGTACCCCCACTCAGAATGACTGATGCTGTGCCATGCACATAATAAATGTTCCTGATGCTGGGGTTTGCATTGGCTGGGACT
R
CCTGAGAATTGGTCTGACTCCATCAGCGCCATTGCTGGTGGAATGTTTCATTGGGTCATGGCCTCTGAAGTATCTTTATTTCCATAGGCAATCTTGCTGC
Celera SNP ID:            hCV25967219
SNP Position Genomic:     18605
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,5)   caucasian(A,22|G,6)   total(A,51|G,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:29732):
GAGGTGGACAGGATCCCTGCATAGAGAATGGGATTGCTGTGGGCCGGGCGAGCAAGCTGGGAAGGATGTGGGGATGGGAGTGCCTGGACCGAGCATTTTG
Y
TTCCCAGCAAAGGTGATTTCGTGGACCCCTGCCTGGGGGACCTGGTCTCAATTCTGAAGCTTCCCCAATGGCTTAAAGGACTGCTGGCCTTCCTGGTGAA
Celera SNP ID:            hCV25997953
SNP Position Genomic:     76213
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,30)   total(C,1|T,61)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29733):
GAGCTCATGGAGTAAGGTTGGGTTGCTATCTGCCTTGAGAGTGACTTTTCAGACAGTGTCATTGTGGAAGGGACTTGAGAGGCAGTCTAACCAGCTACCC
W
TCCTGTAGTAGCCTTCCCTTATCCATGTTTCCAGCTCCTTATGTTGCTCTTCTACTGCTGGGAAGCTCACTAGTCACTGCTTCTGTCTCTTTCTGGTTTC
Celera SNP ID:            hCV25957813
SNP Position Genomic:     27292
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,33|T,1)   total(A,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:29734):
GGGCGTGGTGACACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGATGTGGTGAGCCGAGATCGC
R
CCATTGCACTCCAACCTGGGCAACAAGAGTAAATCTCTGTCTCACCAAAAAAAAAAAAAAAAAAAAAAAATAGAGATCTGTTGTGGCCAGGCACGGTGGC
Celera SNP ID:            hCV26787550
SNP Position Genomic:     40068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29735):
CTTTGACAGTTTTTTGTTTTGTTTTGTTTTGTTGTTGTTGTTTTGAGACAGAATCTCAATCTGTTGCCAGGCTGGAGTGCAATGACATGATCTCAGTTCA
R
TGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCCACCTCAGCCTCCGAAGTAGCTGGGACTTCAGGCACGTGCCACCACGCCCAGTTAATTTTTGTAT
Celera SNP ID:            hCV26787551
SNP Position Genomic:     38623
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,9)   total(G,5|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29736):
AGCCTTTCGAGTAGCTGGGATTACAGGTGCCTGTCACCACGCCTGGCTAATTTTTCTTTTTTACTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTC
R
CCCAAGCTGGAGTGCAGTGGTGCGATCTTAGCTCACTGCAAGCTCCACCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTA
Celera SNP ID:            hCV26787552
SNP Position Genomic:     37170
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29737):
TCACATAGCAAGTCAGTGGCACTGTGGTAGGAGAGGCTCTGTCCTTAACCACCAGCATAACATTGCCACCTTGATTTTTTTTTTTTTTTTTTTGAGACAG
R
GTCTTGCTTTGTTGCCCAGGCTGGAGTGCAGTGGTCTGATCGTGGCTCACTGACTCCCAGGTTCAAGCAATTATCCTGCCTCAGCCTTTCGAGTAGCTGG
Celera SNP ID:            hCV26787553
SNP Position Genomic:     36987
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29738):
AATCCCAGTACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGGCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAAT
M
CAAAAAAAAAAAAAAAAAAAAAAAAAGTGGGTAGAGAACCAAGCCCACAGAGAATAATAATGCAAAATATGGCTTAATGTAGGAGGGATCATATTGAGAG
Celera SNP ID:            hCV26787554
SNP Position Genomic:     32528
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29739):
CTTTCTCTCCATATTGCTGCATGGGCATGGAGGACTAGGTAAGCATACTTAGAGTCTGTATATATGTTTACCCTTTTTTCTTTTTCTAATTTTAGTGCCC
R
AGTAAGGGCTATTAGTTTTGCCAGCTGAGCGCTAGTTCCTGGAGTGAGGGGATTATTTTCAAGTATTCCATTATCACTGACCACTGCATACCCTGCTTTT
Celera SNP ID:            hCV7951836
SNP Position Genomic:     52855
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29740):
GTGCAGCTTCTTGCGTGAGTGACAGATTTTTAAACTCAGGACTTTGTGCCAGAGTGCTCTGGGAGACTGGGGGACTGGAAGCTCTTACCAAGACCATAAC
M
CACACAAGAATCTTATGGCTGGAGATCTGCCTAGAGGAGACAGAAATGGGATCATCTCTGGAACATAAAAACCCTATTTGAATTAGCTGGGTGTGGAGAT
Celera SNP ID:            hCV25964969
SNP Position Genomic:     26740
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,33)   caucasian(A,8|C,28)   total(A,13|C,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:29741):
GGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAA
W
ATATATATATATATATATATATGTAAATTAGTCTGGAGTGGTGGTTTGCATCTATGGCCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATTGCTTGATCC
Celera SNP ID:            hCV26787556
SNP Position Genomic:     26080
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29742):
TTAGGCCGGGCATGGTGGCTCATGCCTGTAATCCTAGCATTTCAGGAGGCCAAGGCGGGCAGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAGCA
Y
GGTGAAACCCCGGCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGC
Celera SNP ID:            hCV26787557
SNP Position Genomic:     25870
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29743):
TCCTTACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCTACTGCTCCTGGCCTAATTTTTTTTTTTTTTTTTTTTT
T
GAGATGGAGTCTCACTCTGTTGCCAGGCTGGAGTGCAGTGGTACGATCTCGGCTCACTGCAACCTGTGCCTCCTGGATTTAAGCGATTCTTCTGCCTCAG
Celera SNP ID:            hCV26787558
SNP Position Genomic:     24245
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29744):
CTCCTTACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCTACTGCTCCTGGCCTAATTTTTTTTTTTTTTTTTTTT
T
TGAGATGGAGTCTCACTCTGTTGCCAGGCTGGAGTGCAGTGGTACGATCTCGGCTCACTGCAACCTGTGCCTCCTGGATTTAAGCGATTCTTCTGCCTCA
Celera SNP ID:            hCV26787559
SNP Position Genomic:     24244
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29745):
TCTTTTTAGTCCCATTTTATAGAGAAGGAAACAAGCTTAGATTGCTTAAGTAACTCAAAAAGTTACAATCTGAAATTTCTTTTTTTTTTTTTTTTTTTTT
T
AAGACAGGGTCTGGCTCTCACCAGGGTGGAGTGCCGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGCTCAAGTGATCCTCCTGCCTCAGCC
Celera SNP ID:            hCV11284810
SNP Position Genomic:     33610
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29746):
TGAGCAGCCTGGGCAAGAGAGTGAGACTCCGTTTTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAA
A
GGCATTGGGATTTATAATGTGCTGTTTAAAGTCTGAAGCTCGGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAAAACTTTGGAAGGCTGAGGCAGGTGG
Celera SNP ID:            hCV11284815
SNP Position Genomic:     30178
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29747):
TGCTGGGATTACAGGGGTAAGCCACTGCACCCGAGCCCTTGTTTCTTTCTTTCTTTTTTTTTTTTTTGTTTTTTTTGACAGAGTCTCACTCTGTCGCCCA
S
GCTGGAGTGCAGTGGCACAATTTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGTATTACAGGC
Celera SNP ID:            hCV3111324
SNP Position Genomic:     83237
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 TFBS


Context             (SEQ ID NO:29748):
GTGGGTGATGGGCACCAGGGGAGGTTGTGGAGCAGGAGACTGGCATGGCTGGAGCCTGGGTATGCACAGTCAAGCCAGCCCTGCTCTCAACAGGCTCCAA
M
CCCCACCCTCACGATGACGCCCAGAAACCACACAGACGAGGAGCTGTTTCTTGACTGTTAGTTGGGCCTTGGCCTATGTCATACCCATGGGCTGCCACAT
Celera SNP ID:            hCV1897271
SNP Position Genomic:     5956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(A,-|C,-)   JBIC-allele(C,614|A,661)   total(A,661|C,614) 
SNP Type:                 TFBS


Context             (SEQ ID NO:29749):
CAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCAGGTCCCGAAACTTAAGCTTCATTTGTTTCACTGCAAATCTGCTTCTGCCTACAAGCCT
R
GTCTCATTTTCCTCTACCTAAGGATCTTCCTCCATGCAATTTCGGCCTAGGAGGCCCTTCCCGCCCCTTTTCGCCTAGCTAACTCTTTCGGTACTCAACC
Celera SNP ID:            hCV27846507
SNP Position Genomic:     6247
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(G,38)   total(A,2|G,58)
SNP Type:                 UTR 5


Context             (SEQ ID NO:29750):
TTGGGAGGCCAAGGTGGGAAGATCACTTGATCCCAGGAATTCTAGATCAGCTTGGACAATGTAGTGAGACCTGGTCTTTACCAAAAAAAAAAAAAAAAAA
A
TTAGCTGGGTGCGCTGGCATGTGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGGATCACTTGAGCACAGGAGTTTGAGGCTGCAGTGAGCAGC
Celera SNP ID:            hCV11284816
SNP Position Genomic:     29985
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29751):
TGAATCCAACAAAGGCCTGAGCACTCTGGGCAGGGACCTCGCTGTCCCTCCAGCTGGGCACATTGAGCCTGGAGATCCCTTGCCAGGGTGCCAGCCCGAG
K
GGAGGCTGGGTTGAGTATCTGTGGCCTACCCCTGATCTGAGCTTGTTGTGAGGTAGGAGGTGGGCAGGAGGTTGCCTCTCTGTTTGGGAAGGATTTGGGC
Celera SNP ID:            hCV1897274
SNP Position Genomic:     75218
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,14)   total(G,14|T,5) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:29752):
TGGCATCTCCTCCCCTCACGGGAAGCCTTCCTGGTACCCATGGCTACTCCATCCCTGGCATCCTGGCACTCTGACGATGTTGTCGTCGGGGTGAACTGTG
R
CCCTGTGGGACAAGTATATAGAGGGCTGATCAAGAGTATTGGAGTGAGTGATTGATGGAGAACTTTAGCCCTGTGCTGTGTGATGTGTGAGCACTGCATG
Celera SNP ID:            hCV1897275
SNP Position Genomic:     74534
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29753):
CTGGATGAGTCCCTCCAGAATGCGGCGTCCCTGTCTTCAAGGCACGTACTGTGACCAGCACACTAATCTCTGTTACTCTAGCGGATGGCCTTCAGCTTTT
R
GAACCAGCCCGGCAACCTCCTTTCCCCTTGCTCATCAGTCCCCGGGAACGAGCCCAGTGACCTCCCCTCAGCTCACTCATGTACCCTTGGAAACTGGACC
Celera SNP ID:            hCV1897278
SNP Position Genomic:     7751
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29754):
CCTCTAGACTCTTGTGAACCCAAACCACAGCTTGACCTGCCCCTTGAGAAAAATTGTTGTGGCTTCCCACTCTCTTCTCAGGCAGGCATGCCTGGCTCTC
Y
CAGCTCACCTCAGGAGGGCTCTTATCATTACTCCCATCTTTCCTCAGAGGCCTACATACCTACCCCTGGGAGTCCTTGCTATGCCATCTGCCTGTGCCCC
Celera SNP ID:            hCV1897279
SNP Position Genomic:     8196
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29755):
CCCCGAGGAGGGTGGGGGTCGGCCTGACCCGCTTCCGCCCGTGCTTCTCAGGTGGCAGGGCAGTGTCTGGCCCCCAGGCTGCTCTAGGTCTGGGTTCCTC
R
CTCCTTGTCTGCTTACCTCCCTCACCTCTCTGCCCCACAGTGCGTCTCTCCGTGGGCCCCATGGCCCGGGACGTGGAGAGCCTGGCACTGTGCCTGCGAG
Celera SNP ID:            hCV25997026
SNP Position Genomic:     72026
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,22)   caucasian(A,3|G,17)   total(A,7|G,39)
SNP Type:                 INTRON


Context             (SEQ ID NO:29756):
GTCAAGACTGGGAAAACCAATAAGCCTGTCCTCTCTCTTTTAGGCTGCCACAGAGCCCAAATTCCCTGCTGTTCGACTGGCTTTGCAGAATTTTGACATG
R
CTTACAGTGTGCAGTTTGGAGATCTTTGGCCATCAATCCGTGTCAGTCTCCTCTCAGAGCAGAAGTATGGTGCACTGGTCAATAACTTTGCTGCCTGGGA
Celera SNP ID:            hCV7567535
SNP Position Genomic:     10684
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,22|G,16)   total(A,53|G,23)
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:29757):
TGGCATGTCTGGCATGGGGCTCCGGCTGGGGCGCAGTCTTCAGCATTTGGGGCTCTGGGGTGCAGGGGGCAGAGGACGGCCGGGGCTGTGGTGCCCAACC
R
GTGCTAAACTCAAGCTTGGGAGGTCGCCCACGAGAAACAGTCGCCCTTCCCCACCCGCCTGCTCGGCTTGGCGGGGAGCGGGATGTCGCTGGGGGCGATG
Celera SNP ID:            hCV7567608
SNP Position Genomic:     59900
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29758):
GATAATGACCCAAGAGTGCTTCTCAAGACGAGAGACGTGCTTTTCTGCATGTCTGATTTTCAAAAACTGGTTTGCCACCCAGGAGATGTTTTCTCCCACA
Y
CAACTTGGATAGAAGAGCTTATGGCAGACAAGCTGACTCAACACTCAGACTGATGTCACCAGATCAAAGTGAAAAATATGTAGCTCTCATGATCCAAATA
Celera SNP ID:            hCV27515890
SNP Position Genomic:     43368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29759):
GGTTCAAGCAATTCTTGTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGCGCCCGCCACCATGCCTGGCTAATTTTTGTATTTATTTATTTATTTATTT
W
TTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGTTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGC
Celera SNP ID:            hCV26787560
SNP Position Genomic:     23934
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,4)   total(A,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29760):
ATGACCAAAAGTTAGTCATATAGTCATACTTAGTTGTAAAAGAAAGGCTTAGCCGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGA
S
GCAGGCAGATCACCTGAGGTCGGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTTGCCGGCGTGGTGGCGC
Celera SNP ID:            hCV26787562
SNP Position Genomic:     16959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29761):
CAGAGAATACAATTTTTACTTCTTTGAGTGCCCTCAAAAATGGAGACATTGGCCGGGGGGCGGTGACTCACGCCTGTAATCCCAGCACAAGCTAGGAGGC
Y
GAGGCAGGTGGAATACTTGAGTCCAGGAGTTCGAGACTAGCCTGGGCAACATAGACCTCATCTTCATTAAAATAAAAAAAAAGGAGACATTTATTTATGG
Celera SNP ID:            hCV26787563
SNP Position Genomic:     16123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29762):
CACCTCACCTAGTCCCAGGTACATTTAATATGGTAGGTTCGGCCAGGCGCAGTGGCTCCCGCCTGTAATCCCAGCACTTTGGGAAGCCGAGGGAGGCGGA
Y
CACCTGATGTCAGGAGTTCCAGACCAGCCTGGTCAACATGGTGAAACACCATCTCTACTAAAAATACATAAATTAGCTGGGTGTGGTGGTGCACTCCTGT
Celera SNP ID:            hCV25962363
SNP Position Genomic:     13042
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,30|T,10)   total(C,63|T,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:29763):
CTTTTTCTCAGTTCATATCCTTCTGCAAATTCCTCTAGAGCAGAGAATACAATTTTTACTTCTTTGAGTGCCCTCAAAAATGGAGACATTGGCCGGGGGG
Y
GGTGACTCACGCCTGTAATCCCAGCACAAGCTAGGAGGCTGAGGCAGGTGGAATACTTGAGTCCAGGAGTTCGAGACTAGCCTGGGCAACATAGACCTCA
Celera SNP ID:            hCV26787564
SNP Position Genomic:     16083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29764):
AAATTGAGTTCTGTGGAGATTAAATAAATAATACAAGAATTGGAGGTAGAGCCAGAACTGGAACCCATCTTTCTTTTTCTCAGTTCATATCCTTCTGCAA
A
TTCCTCTAGAGCAGAGAATACAATTTTTACTTCTTTGAGTGCCCTCAAAAATGGAGACATTGGCCGGGGGGCGGTGACTCACGCCTGTAATCCCAGCACA
Celera SNP ID:            hCV26787565
SNP Position Genomic:     16011
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29765):
TTACTCTGCTACTCTCTGTTGCCTTTGCTCTTGTTAAATTTTCTCCCTGGAATTCCCTCACCCTTGGCTGTCCAAATCCTTTTGACTTTCTTTTTTTTTT
T
CTTTCTTTTTTTTTCTCTTTTTTTCGAGATGGAGTCTCACTCTGTCACCCAGGTTGGAGTGCAGTGGCACGACCTCGGCTCACTGCAAGCTCCGCCTCCT
Celera SNP ID:            hCV26787566
SNP Position Genomic:     13696
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29766):
ACTGTCTCTTGTTCCCCAGCTGTGTCCACCTACCTTTCTGTCCCCCACTCCCCCTTTTACTTCCCTCCCTCCCCTCCCCCTTTCCCTTGCCCATTCTTCC
Y
CCACATGACTTCTCCTTTCCTCATTGATTTTCCAGCCCGGTCGCCCTCACCCCTCGGAAAATACCATAGCGACCTTGCCTGCACTCCTGGGTCTCCGCCG
Celera SNP ID:            hCV26787567
SNP Position Genomic:     7113
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29767):
GTTCAAGCCTGGGTTCAAAGTTCGATTCTCTTGCCTCAGCCTCCCAGGCAGCTGGGATTACAGGTGTGTGCCACCACGCCTGACTAATTTTGTATTTTTT
T
AGTAGAGACGGGGTTTCACCATGTTGGTCAGACTGGTCTCGAACACCTGACCTCAAGTGATCCATTAGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGC
Celera SNP ID:            hCV11284822
SNP Position Genomic:     20675
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29768):
ATCAGGGATGGAAATCAAGTTCGAGTTACCTCATGGGATGGCAGGAAATGGGGAGAACTGGAGGGGGACACCTATGACCGGGTGAGTGATTCTTGATTTA
R
GACATGCATCCAGCTTAATGCGGCCTCCCCATCCTGGTTCTAGGGCCTGAGGGGTTAGGATCCAGCCCCTATGTTTGAGCATGTAGAGCTGTTTCTGGAC
Celera SNP ID:            hCV11284823
SNP Position Genomic:     18873
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29769):
CCACTCTCCACTACTTTTCCCTCTCACACTTCTCTGGCAGGCAGGCAGGATGCAAAAGCAGGAGTGGGCACTAGCTGGATCCAAGTTTGCCCCTAGGCTC
Y
GAGGTGGGGGTCAGGTAGTAGGGGGTAGAGTCAAGACTGGGAAAACCAATAAGCCTGTCCTCTCTCTTTTAGGCTGCCACAGAGCCCAAATTCCCTGCTG
Celera SNP ID:            hCV25973292
SNP Position Genomic:     10554
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,21)   caucasian(T,24)   total(C,1|T,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:29770):
ACCTCGTTGTCAGCCTGTGATGCCTCCTTGTTCTACCCACATCTATTCTTTTATCCCTTTGAGAACACCCTTTGATCCTCAAAGTTTACCCATTGTCCCC
Y
GAGTCCGGGCCTACCCTGATACTGTCCCCTGTGGCCTCCATATCTACCCTGTGGCCTCTCAAGGCCCTTGCAAAGAGCCTCTGCAGATCCCCTACAGCTG
Celera SNP ID:            hCV1897280
SNP Position Genomic:     9170
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29771):
CGGTCCTGAGTGTCTGCTGGAAGTAGACATGTTGAGACCCAGCTTCTACCCTCTGTAATAAGGACCATAATATTGCTAATATTTATGGCATGTTTATACA
R
ACTAGGCATTTTTTTGAGGTGCTGTACATATGTTATCTCTTTTTGTTCTGTCAGCAGCCTTATGAAGTAGGTAATATTATTGCTGTTTTACATTTGGAGA
Celera SNP ID:            hCV1897281
SNP Position Genomic:     11096
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29772):
GAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATCGTGCCACCGTACTCCAGTCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAA
A
TTATCTACCAAATGCTAGGCATTTAAGTGCCTTGATGAACAAGCCCTCATAGAGCTTCCAGTTTAGTGAGGAAGACAGCTATTTAAAAACAATAATTGGC
Celera SNP ID:            hCV11284826
SNP Position Genomic:     11996
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,7)   total(A,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29773):
ACTCAGAATGACTGATGCTGTGCCATGCACATAATAAATGTTCCTGATGCTGGGGTTTGCATTGGCTGGGACTACCTGAGAATTGGTCTGACTCCATCAG
Y
GCCATTGCTGGTGGAATGTTTCATTGGGTCATGGCCTCTGAAGTATCTTTATTTCCATAGGCAATCTTGCTGCCAATGATCTCTCCCCGTCCCGAATAGC
Celera SNP ID:            hCV25967164
SNP Position Genomic:     18632
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,27|T,9)   total(C,56|T,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:29774):
TTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCAGGCTGGAGTGCAGTGGTACGATCTCGGCTCACTGCAACCTGTGCCTCCTGGATTTAAGCGATTCT
Y
CTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCGTGCCACCACACCCAGCTAATTTTTGTCTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCA
Celera SNP ID:            hCV1897285
SNP Position Genomic:     24336
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29775):
AGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTTGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGAATTACAGGTATGAGCC
R
CTGTGCCTGACACCTGTCAAATTATTTTACTGTGTTTATTTACCATGTTTCTTTCACTGTGGGGTCTCTGTCCTTGCTGTTTTGTTTTTCTTTTAACTTC
Celera SNP ID:            hCV1897286
SNP Position Genomic:     24512
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29776):
ATTTTGCACATGCCTGAATATGGCAACACAGCCCACCCTGTTTCCCCCAGATACTCCCCAGGAGCAGGAATATTTACTGAAAGCTGCATCTCACTCTGCC
S
TCACCTTTCCTTCTGTAGGACCCTGTGTGGTGAGGTTTGAGCATTCTAGGCAGATTTCCACTATTAGCATGTTCTTCCCTTTTGTCAAGCTCCTACTCCA
Celera SNP ID:            hCV11729272
SNP Position Genomic:     70184
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,12)      total(G,1|C,12) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29777):
AACTATACCATGCCCTCCCCGGCCATGAGGCGGGCCGTGCTGGAGACCAAACAGAGCCTTGAGGCTGCGGGGCACACGGTATGACTGCAGGGTCCTGGAA
R
TACTGGCATCTCCTCCCCTCACGGGAAGCCTTCCTGGTACCCATGGCTACTCCATCCCTGGCATCCTGGCACTCTGACGATGTTGTCGTCGGGGTGAACT
Celera SNP ID:            hCV25993902
SNP Position Genomic:     74430
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:29778):
CCCTCATATTTTATGGAGGGAGAAATTGAGTTCTGTGGAGATTAAATAAATAATACAAGAATTGGAGGTAGAGCCAGAACTGGAACCCATCTTTCTTTTT
Y
TCAGTTCATATCCTTCTGCAAATTCCTCTAGAGCAGAGAATACAATTTTTACTTCTTTGAGTGCCCTCAAAAATGGAGACATTGGCCGGGGGGCGGTGAC
Celera SNP ID:            hCV7567542
SNP Position Genomic:     15989
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29779):
AATAAATAATACAAGAATTGGAGGTAGAGCCAGAACTGGAACCCATCTTTCTTTTTCTCAGTTCATATCCTTCTGCAAATTCCTCTAGAGCAGAGAATAC
M
ATTTTTACTTCTTTGAGTGCCCTCAAAAATGGAGACATTGGCCGGGGGGCGGTGACTCACGCCTGTAATCCCAGCACAAGCTAGGAGGCTGAGGCAGGTG
Celera SNP ID:            hCV7567543
SNP Position Genomic:     16033
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29780):
AGCCAGGGTAGGGGAGGAGGGTAAGAGGGGAGGGGAGGAGGGGAAGGGTAGAGGGGAGAAGGGGAAGCAAGGGGAGGTGAGGAAGGGAAGGGGAGAAGGG
R
AAGGAAGGGGAGGGGAGGAAGGGAAGGGAAGGGTAGAGGGGGAGGAGGGGAAGCAAGGGGAGGGGAGGAAGGGAAGGGTAGAGGGGGAGGAGGGGAAGCC
Celera SNP ID:            hCV7567617
SNP Position Genomic:     66728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29781):
TGGAGGTAGAGCCAGAACTGGAACCCATCTTTCTTTTTCTCAGTTCATATCCTTCTGCAAATTCCTCTAGAGCAGAGAATACAATTTTTACTTCTTTGAG
Y
GCCCTCAAAAATGGAGACATTGGCCGGGGGGCGGTGACTCACGCCTGTAATCCCAGCACAAGCTAGGAGGCTGAGGCAGGTGGAATACTTGAGTCCAGGA
Celera SNP ID:            hCV7567544
SNP Position Genomic:     16051
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29782):
CTCCTGGGCCTGCAGTCCGAACCTTCGATGCTTCACTTTTGACAGAGGGGATATCAGTCGCTTCCCTCCTGCCAGGTAGGATCTGGAGCCATGACTGGAG
Y
GGTCCTGAGTGTCTGCTGGAAGTAGACATGTTGAGACCCAGCTTCTACCCTCTGTAATAAGGACCATAATATTGCTAATATTTATGGCATGTTTATACAG
Celera SNP ID:            hCV25969278
SNP Position Genomic:     10996
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,29|T,7)   total(C,61|T,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:29783):
ACCCAAGTGCTGTTGGGGAGGTTGGCCGACGACTGCTCTAACTGCTTCCTGCTGAATTGGGGTGAGTAGGGGTCGTGCAGATGAGATTTACTTGGGAGGG
S
TGCCTTTGATGTCATCAACATTGGAGCGTGGGCTAGCAGGCTGGTCCAGGGGTCCACAGTAGATCTTAGTCATGGGCTGCATCTGGGGCTCCATTTGAAG
Celera SNP ID:            hCV29234440
SNP Position Genomic:     52048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29784):
CTTAGGGGCTTAGAAGGAGAAGCCAGTGAGCAGGCTCACACTAAGTTGTAAACATAGGAGAAGCATTTGGCCAATAAAGTTGTTGAAACTCTATAGACCT
R
GGGCTGCAGTTGGGGACTTCATGTCAGTGCAAATGCCATTAGTTCCATTTGTACCAGCCAGTTACTGAGCCCCTGTCACCCTTGAAGTGAGTTCCACCTG
Celera SNP ID:            hCV29234441
SNP Position Genomic:     28024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:29785):
GGATGGAAATCAAGTTCGAGTTACCTCATGGGATGGCAGGAAATGGGGAGAACTGGAGGGGGACACCTATGACCGGGTGAGTGATTCTTGATTTAGGACA
Y
GCATCCAGCTTAATGCGGCCTCCCCATCCTGGTTCTAGGGCCTGAGGGGTTAGGATCCAGCCCCTATGTTTGAGCATGTAGAGCTGTTTCTGGACTGGCC
Celera SNP ID:            hCV29234442
SNP Position Genomic:     18878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29786):
CTCCTCATCAAGCGACAACTCTTGATCCGAGGAAAACGGGATCACAGAATTTGTATAAGAAGGGAAATTAGTGTTTACTTAGTCTAGCCCTCATATTTTA
Y
GGAGGGAGAAATTGAGTTCTGTGGAGATTAAATAAATAATACAAGAATTGGAGGTAGAGCCAGAACTGGAACCCATCTTTCTTTTTCTCAGTTCATATCC
Celera SNP ID:            hCV29234443
SNP Position Genomic:     15902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29787):
GTAGTACTTACTTTCTAAGCTTGTGTATTTTTTCATTAGTTCCTCTCTTTCTCTGTCAATTGGTCAAGAAAGATTGCTGAGCAAGTTCTCTGAAGTCAGA
Y
TGAAGTAGGGCTCTGATCAGTTGATCACATGATACACACTCCTCTTCATCTGTTTACTTTTCCTCTAAGATTAAGCCCATTTCTTTAGCCTACCAACTAA
Celera SNP ID:            hCV29234444
SNP Position Genomic:     13421
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29788):
TGAAAGGGTCAGATGCAGAAGGGGCTGGCCTCGCTGACTGCAGCCTCGCAGCTGTGTCTGGGGCTGAGTAGTTTCTCTGATCTCTAGGGGTCCTGCCTAG
K
GTTGTCTTCTCCTGACCTGCCCCTGTCCCCTGTGTTTTCCCTCCAGGTCTACACCAGCTCTCAGCCCCTGCGTGTGGGGTACTATGAGACTGACAACTAT
Celera SNP ID:            hCV25995946
SNP Position Genomic:     74235
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:29789):
TGGCATGTTTATACAGACTAGGCATTTTTTTGAGGTGCTGTACATATGTTATCTCTTTTTGTTCTGTCAGCAGCCTTATGAAGTAGGTAATATTATTGCT
S
TTTTACATTTGGAGAAACTGAGGTACAGAGAAGTTAAGATTCTTACTTGCTTTAGGTCCCTCAGATGGTAAGTGGTGTGACTAATATTTAGACCCAGAAC
Celera SNP ID:            hCV29234445
SNP Position Genomic:     11181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29790):
GGCAGGGGCACCGGTCCCAGCATGGCACGGGCTGACCCATTCTTGGCTCCTCCAGCTATGACTGCAGTAACCCCCTCTTTGGCCAGACCGTGAACCCATG
R
AAGTCCTCCAAAAGCCCAGGGGGCTCCTCAGGGGGTGAAGGGGCCCTCATCGGGTCTGGAGGCTCCCCCCTGGGCTTAGGCACTGATATCGGAGGCAGCA
Celera SNP ID:            hCV25994208
SNP Position Genomic:     71456
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,33)   total(A,1|G,69)
SNP Type:                 UTR 5;NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:29791):
GCTTCTGTCATTAAGAGATGGAGTCTGTTTCCCCACCTCTTGAATCTGGGCTGATCTTATGATTTGTTTTGACCAGTAAAGTCTGGTGGAAGGGATGCTG
Y
GCAACTTCTGCATGTAGGCCTCAAGAAGCCTCGCAACTTCCACGCTCATTTTGGAGCTCTTCTGCGGCTCTGTGAAGAAGCCTGGACCAACCTGCTGGAG
Celera SNP ID:            hCV1897290
SNP Position Genomic:     34235
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29792):
CGGGGTTTACATCTCAACATGAGATTTGGGTGGGGACAAATATCCAAACTCTATCAGAGTCCTTCTTTCCTTGTCTTGATAATCCCTTCTCTCTGTACTA
R
TCTCTTTAGCAAACTGGTTGCTGGGCCATACCCTTGGTTTCCTCTCCCAAACATGCCTTTTTACTGTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTG
Celera SNP ID:            hCV1897292
SNP Position Genomic:     37902
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29793):
AGTGGCGCGATCTCGGCTCACTGTAAGTTCCGCCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTTGCTGGGACTACAGGTGCCCACCACC
R
CGCCCGGCTGGTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCATTGTGTTAGCCAGGATGGTCTCGCTCTCCTGACCTCGTGATCCACACGTCTTGG
Celera SNP ID:            hCV1897293
SNP Position Genomic:     38121
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29794):
ATGTGGTGAGCCGAGATCGCGCCATTGCACTCCAACCTGGGCAACAAGAGTAAATCTCTGTCTCACCAAAAAAAAAAAAAAAAAAAAAAAATAGAGATCT
R
TTGTGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGTCTGAGGCAGGCAGGTCATGAGGTCAGGAGTTCGAGATCAGCCTGGCCAAC
Celera SNP ID:            hCV1897295
SNP Position Genomic:     40148
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29795):
GGGCATGGTGGTGAGCTCCTGTAATCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAGGCAGAGGTTGTAGTGAGCTGAGAGGGC
R
CCACTGCACTCCAGCCTGGACAACAGAGGGAGACTCTGTCTCAAAAAAAATTAAAAATAATAAAATAAAATAAAAGGGGATCTATTGTATAACATGGTGA
Celera SNP ID:            hCV1897296
SNP Position Genomic:     40391
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29796):
AGCCTCCCAAAGTGTTCGGGTTACAGGTGCGAGCCACTGCACCGGCCTTTTTTTTTTCAAGACAAAGTTTTGCTCTGTTGCCCAGGCTGGAGTGTAGTGG
Y
GTGATCTCAGCTCACTGCAACTTCTGCCTCCCAGGTTCAAGCAATTCTCATGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGTGTGTGCCACCACACCC
Celera SNP ID:            hCV1897297
SNP Position Genomic:     42934
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29797):
GTGGCATGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTTAAGTGATTCTCCTGCCTTAGCCTCCCAAGTAGCTGGGATTACAGGCACAAGCCAAAA
Y
GCCCAGCTAATTTTTGCATTTTTTGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTAACCTCAGGTGATCCACCTACCTCGGCCT
Celera SNP ID:            hCV1897298
SNP Position Genomic:     48581
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29798):
TCTTAGTCATGGGCTGCATCTGGGGCTCCATTTGAAGAACAATTTGTAGTTTTACAGCTTTGATTCTGGAAGAGACAAACTTAACGAGGAGGTTAAAGAT
R
CGGGGATTGAAATATATGGCCTGCAGTATAGGGGATTATTTCTTTGGCACACTTTACAGGCCCTGAATATCTGCTTGATAGTTTTAAAAAGGCCTGGTCC
Celera SNP ID:            hCV1897299
SNP Position Genomic:     52212
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29799):
AGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCC
Y
GAGTAGCTGGGACTACAGGCGCCCGGCACCACGCCCGGCTAATTTTTTTTGTATTTTTAGTAGTAGAGACGGGGTTTCACCGTGTTATCCAGGATGGTCT
Celera SNP ID:            hCV7567624
SNP Position Genomic:     72549
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29800):
CAAAGTGAGATATTTCTTGAACTCATGTCTACCAATAAAGAGAAAATGAAAGGTAGATGGTAAATCAGAATTAGGTTTGGTTGCATTTGATAGAAAACCT
R
ACTAATTGGCTTAAAGAGGAAACATTAATTTATCTCTTACATAAGAGAAGCTGAGATATAGGCACTCCAGGTATGGAGGCTCCACAATTATCAGGGACTT
Celera SNP ID:            hCV7567551
SNP Position Genomic:     16493
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29801):
ATAGAAAACCTAACTAATTGGCTTAAAGAGGAAACATTAATTTATCTCTTACATAAGAGAAGCTGAGATATAGGCACTCCAGGTATGGAGGCTCCACAAT
Y
ATCAGGGACTTAAGCTCCCTTTTTCCTTTTGCAACGTATTTTGTTGCTAGTGTCAGCCTTAGCCTCCCTCCCTTTAAGAGGGAGAAGATATGTAACTAGT
Celera SNP ID:            hCV7567552
SNP Position Genomic:     16582
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29802):
TTAATTTATCTCTTACATAAGAGAAGCTGAGATATAGGCACTCCAGGTATGGAGGCTCCACAATTATCAGGGACTTAAGCTCCCTTTTTCCTTTTGCAAC
R
TATTTTGTTGCTAGTGTCAGCCTTAGCCTCCCTCCCTTTAAGAGGGAGAAGATATGTAACTAGTAAAGCTCTAAGGCAAGGCCTCATGGTCCAGAATGAC
Celera SNP ID:            hCV7567553
SNP Position Genomic:     16618
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29803):
AGCTCAGAAGACAGGATGCCTGCATTCCAGACCTGTCTTGTCACTCTGCATTGGGTAGCTTTGGGCAAGTCCCAGTCCCACCTAATCTCCCTATTGAGAC
Y
TCAAGCCTCAGTTTCCTCATATGACCAGTAGGAATCCTTATCCTTGCTCTGCCCACCTGAGTCACTGTGAAGGTGTTTTATGAAAGGGTCAGATGCAGAA
Celera SNP ID:            hCV7567627
SNP Position Genomic:     74054
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29804):
AGGAGGCCCTTCCCGCCCCTTTTCGCCTAGCTAACTCTTTCGGTACTCAACCACCAACTCCTAATCCTCCCTGGTCCCCCAAGTGGGCTAGGGGCTTCTT
K
GGAGTCCCTCGCACTGCTCTAAGCATCCAGGCAGAGTCATTATTCCGGGTGCCAGGTTGCTCTTTTTCCAGCAGCCTTCAGGGGACTCCTGGCTGGGCGG
Celera SNP ID:            hCV27854401
SNP Position Genomic:     6396
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(G,24|T,4)   total(G,50|T,4)
SNP Type:                 UTR 5


Context             (SEQ ID NO:29805):
TCTCCCAGTGCCATCCCTGCCTCTGTGGGGCCATTTTCAGGGCAGAGGTGAGGTCCCAACCTACATGGGGACACCCAGATTGGGACATCTAGGTAGATGC
Y
GCACTTTGCCCTGATTTCTTGTAACCACTGCTGTAATTTTGCCTTTTTCATAAAACCACTACCATCTGCCCCAGCTTCCTCCTCCTGCCCCATTTCTCTC
Celera SNP ID:            hCV927969
SNP Position Genomic:     81505
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:29806):
GTCACCAAGTGCCAGCCTGTGCCCCTCTGGGGCCTGATTTTCTCATCCAGACAGTAGGGGTTTGAACTTCCCTCTCAGAGCTCCCATGGGGTTGTGAAGG
R
TCCACGGAGGGGTGAGATCTAGAGGGTTGGCAGTAGGGGTCTGATGTTGCTGATCTCCGTGGCTGTGACCATCATGGCTGGTGACCACACTCCTTCTGCC
Celera SNP ID:            hCV25999667
SNP Position Genomic:     77331
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,10|G,28)   total(A,15|G,61)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29807):
AAACTAAAGAAAGGTTGAGAAATGTAGTCTTTTGGGGCAATTTTCCCCTTCCAAAAAATTGGGGTTCTATTAATAAGGAGGAAGAGGAGAATGATTTTGG
S
TAAATAAACTGTAGTATCTACCAAAGATGAAGAGAGCCATAGGTTTCCAGAATAGTGGGAGAGCATATTTTTTTAGAAATAAATATTCTTGGCTGGGCAT
Celera SNP ID:            hCV7567560
SNP Position Genomic:     17278
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29808):
GGCAGGTGCTGGGGCCAGAGCCACCCCAGCCACAGTCCCTGAGTTAAAGAGCCTGGGGTGGGCTAGGTCTGAGTGCTTTCACCTGGTGTGTTGTGTCCTC
Y
GCAGGTGTACCGCAAAACCGTGATTGCCCAGTGGAGGGCGCTGGACCTGGATGTGGTGCTGACCCCCATGCTGGCCCCTGCTCTGGACTTGAATGCCCCA
Celera SNP ID:            hCV25994725
SNP Position Genomic:     77961
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,15|T,1)   total(C,45|T,3)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:29809):
TTAGTCATGGGCTGCATCTGGGGCTCCATTTGAAGAACAATTTGTAGTTTTACAGCTTTGATTCTGGAAGAGACAAACTTAACGAGGAGGTTAAAGATAC
R
GGGATTGAAATATATGGCCTGCAGTATAGGGGATTATTTCTTTGGCACACTTTACAGGCCCTGAATATCTGCTTGATAGTTTTAAAAAGGCCTGGTCCAG
Celera SNP ID:            hCV1897300
SNP Position Genomic:     52214
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29810):
AGGTCCTTTGCACACTTCCCACTCGTGTTGTCCTCTCTGGCTGCTCCCCCAAGGGAGAATTAGGCCCCCCTCAGCATTGGCATTCCAGTAGAAATCCCAC
Y
GCAGGATCCTCCCTAAGCCATATGAGGTAGCTACGGAAACGTGGAGAGGACCCACTCACTCCGTCCAGCAGTAGGACTTGTCATCATCCACACGAACAAC
Celera SNP ID:            hCV1897301
SNP Position Genomic:     58899
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29811):
ATACAGCATCCAGGTACAGGTGGAAGATCTGACTCACTTCCGAAGGGTTTTCATGGACACATTTTGTTTCTTCTCATCCTGTCAGGTTGGGGAGCTGGTA
R
TACCAAACCTCATGGCCAATTTTGGCCCCATGTACTTCTGCAAAATGCGTAGGCTGACATAGTATCACCCAATCCCTGAAGCAAGAATACAAAGGGTATA
Celera SNP ID:            hCV7567568
SNP Position Genomic:     27609
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:29812):
ATTGTGCATGCAGGTGGCCACAGGTTTAGATGTTACCTGTATACTATACTTCCCTGCATTCTCCGCAAAATCAGGTTTCCGCATGTTCACTGATTGGTCT
Y
CTGGAGGTGCAGACTTACTTTGGTGTCTAGGAGAAAATGTCTCAGCTGCCTGACACTAGTTGAAGATTTAAAAATAGCTGTTAGCAGCTGTGTCATTAAC
Celera SNP ID:            hCV1897304
SNP Position Genomic:     65191
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29813):
TGACTCACTTCCGAAGGGTTTTCATGGACACATTTTGTTTCTTCTCATCCTGTCAGGTTGGGGAGCTGGTAATACCAAACCTCATGGCCAATTTTGGCCC
Y
ATGTACTTCTGCAAAATGCGTAGGCTGACATAGTATCACCCAATCCCTGAAGCAAGAATACAAAGGGTATACTCTGTTGGATGCACCAGAAACTGGAAAC
Celera SNP ID:            hCV7567569
SNP Position Genomic:     27638
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,30|T,10)   total(C,63|T,15)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:29814):
TCCTTTATAGAGGAGGGACTGTGCAAGGAGAACCAGGGGTGGAGGGAATGCTCACTTTTCATTTTGTATACCTTTAAAGAATATATCAAGAGGATTATCT
R
GTGTGTTTGGGGAGAAGTCTTGAACCCATTTTTTCTTCTTTGTAGCTCCTTGTGTTAGAAAAAAAATCCAAAGTAAGTACTCTATCAGTTCAATGAATTC
Celera SNP ID:            hCV1897305
SNP Position Genomic:     65822
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;(G,-|A,-)   JBIC-allele(G,699|A,768)   total(G,699|A,768)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29815):
CTTATGTCTACTTCCCCTTCCTCAGGCCTGGGAAGTGAACAAAGGGACCAACTGTGTGACCTCCTATCTGGCTGACTGTGAGACTCAGCTGTCTCAGGCC
M
CAAGGCAGGGCCTGCTCTATGGCGTCCCTGTGAGCCTCAAGGAGTGCTTCACCTACAAGGTATGCTCTGCCTCAGCGCCAGGCCTCCATCGTCCCCTCCA
Celera SNP ID:            hCV1897306
SNP Position Genomic:     70912
SNP Source:               Applera
Population(Allele,Count): african american(A,14|C,24)   caucasian(A,6|C,32)   total(A,20|C,56)   
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,23)   caucasian(A,7|C,33)   total(A,20|C,56)
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:29816):
CATAATAAATGTTCCTGATGCTGGGGTTTGCATTGGCTGGGACTACCTGAGAATTGGTCTGACTCCATCAGCGCCATTGCTGGTGGAATGTTTCATTGGG
Y
CATGGCCTCTGAAGTATCTTTATTTCCATAGGCAATCTTGCTGCCAATGATCTCTCCCCGTCCCGAATAGCCAGACTACAGAAGATCCTTCACAGCTATG
Celera SNP ID:            hCV25967116
SNP Position Genomic:     18661
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(C,9|T,29)   total(C,14|T,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:29817):
CATCCTAGAAGTCCCTGTTTTGGTTCACACCTCAAGATTCTGTGGGCCCTCCTTATCCAACCTTTCTGGGGTCTGGGAACTCTCCCAGCATGACCCTCAA
M
CCTCTGATTCTAAGCATGGTGGTGCTAGTCACTGTGTGACGCTAGGTAAGTTACCCACATCTCTTCATCAAATTGAAATGTTGTTAATTTTTTTTTGTAT
Celera SNP ID:            hCV927970
SNP Position Genomic:     10075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29818):
AACCTTTCTGGGGTCTGGGAACTCTCCCAGCATGACCCTCAACCCTCTGATTCTAAGCATGGTGGTGCTAGTCACTGTGTGACGCTAGGTAAGTTACCCA
Y
ATCTCTTCATCAAATTGAAATGTTGTTAATTTTTTTTTGTATCTTACTGAGCTATCAGTTGTAGTGCTCACATAAGCTAGTAGACATGAAAGTGCTTTGA
Celera SNP ID:            hCV927971
SNP Position Genomic:     10133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29819):
TTTGTATAAGAAGGGAAATTAGTGTTTACTTAGTCTAGCCCTCATATTTTATGGAGGGAGAAATTGAGTTCTGTGGAGATTAAATAAATAATACAAGAAT
K
GGAGGTAGAGCCAGAACTGGAACCCATCTTTCTTTTTCTCAGTTCATATCCTTCTGCAAATTCCTCTAGAGCAGAGAATACAATTTTTACTTCTTTGAGT
Celera SNP ID:            hCV927972
SNP Position Genomic:     15951
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29820):
ACTCTGTCTTAAAAAAAAAACAAAAGGAAAGAGAGGGAGAGAAAGAAAAGGAGAGAAAGGAAAGGGAGGAAAGGGGAGAGGGAAAGGAGAGAAGAAAGGC
R
AAAGTAATGGGGAAAGGAAAAGGGGAAAGGGGAAAGAAAGGGGAGAAAGGGGAGAGAGGACAGGAAAGGAGAAAGGAAAGGAGTCTTACTTGGTCTGCTT
Celera SNP ID:            hCV927974
SNP Position Genomic:     18367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29821):
TGAGAGGCAGTCTAACCAGCTACCCATCCTGTAGTAGCCTTCCCTTATCCATGTTTCCAGCTCCTTATGTTGCTCTTCTACTGCTGGGAAGCTCACTAGT
M
ACTGCTTCTGTCTCTTTCTGGTTTCAGGGCTGGACTCCTTGCCACCAAACCAGGAGGCCATGTTGTCTATTCTACCTGCTCACTCTCACACTTACAGAAC
Celera SNP ID:            hCV927975
SNP Position Genomic:     27367
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29822):
GGGATGCTGTGCAACTTCTGCATGTAGGCCTCAAGAAGCCTCGCAACTTCCACGCTCATTTTGGAGCTCTTCTGCGGCTCTGTGAAGAAGCCTGGACCAA
Y
CTGCTGGAGACATGTGCTGGAAGCTGTCTTAGACCTCCTAAGCTCAGTTAAACGGTTAGGTGACCCAAACAGCATGAGTGACCCCAGCCAAGACCAACCT
Celera SNP ID:            hCV927979
SNP Position Genomic:     34326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29823):
CATTCTGGAGGCAGAACGACTGATGCCCTCTGAGAGGCAGCACTGCCTGCCCGGAGGACCTGTGTCCCACTGTGGCTCTGTTCAGATCCAGGGGCAGGTG
M
TGGGGCCAGAGCCACCCCAGCCACAGTCCCTGAGTTAAAGAGCCTGGGGTGGGCTAGGTCTGAGTGCTTTCACCTGGTGTGTTGTGTCCTCCGCAGGTGT
Celera SNP ID:            hCV11284786
SNP Position Genomic:     77869
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,13)   total(A,1|C,13) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29824):
TTGCTGTGGGCCGGGCGAGCAAGCTGGGAAGGATGTGGGGATGGGAGTGCCTGGACCGAGCATTTTGTTTCCCAGCAAAGGTGATTTCGTGGACCCCTGC
C
TGGGGGACCTGGTCTCAATTCTGAAGCTTCCCCAATGGCTTAAAGGACTGCTGGCCTTCCTGGTGAAGCCTCTGGTGAGGGCACAAGGAGTGGAGGGGCT
Celera SNP ID:            hCV11284787
SNP Position Genomic:     76246
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:29825):
TGCCAGCCTGTGCCCCTCTGGGGCCTGATTTTCTCATCCAGACAGTAGGGGTTTGAACTTCCCTCTCAGAGCTCCCATGGGGTTGTGAAGGGTCCACGGA
R
GGGTGAGATCTAGAGGGTTGGCAGTAGGGGTCTGATGTTGCTGATCTCCGTGGCTGTGACCATCATGGCTGGTGACCACACTCCTTCTGCCCAGTTCGGC
Celera SNP ID:            hCV25999679
SNP Position Genomic:     77340
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:29826):
CATGCACATAATAAATGTTCCTGATGCTGGGGTTTGCATTGGCTGGGACTACCTGAGAATTGGTCTGACTCCATCAGCGCCATTGCTGGTGGAATGTTTC
R
TTGGGTCATGGCCTCTGAAGTATCTTTATTTCCATAGGCAATCTTGCTGCCAATGATCTCTCCCCGTCCCGAATAGCCAGACTACAGAAGATCCTTCACA
Celera SNP ID:            hCV25967120
SNP Position Genomic:     18655
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,39|G,1)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:29827):
CTGTTCGTGTCTTTCTGCAGTTTTCGGCAATAAGAAGTAGAAGATTTGCTGTCCTGCTGTCCAATTGTGGAGCATCAGCAGGTTTCCAACTCACTCATTA
M
CCCCTACCCCATCTCCAGGCCTGTACTAAAGTTTGCTGCCCGCTTAGGGGCTTAGAAGGAGAAGCCAGTGAGCAGGCTCACACTAAGTTGTAAACATAGG
Celera SNP ID:            hCV7567578
SNP Position Genomic:     27881
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:29828):
AGATTTGCTGTCCTGCTGTCCAATTGTGGAGCATCAGCAGGTTTCCAACTCACTCATTAACCCCTACCCCATCTCCAGGCCTGTACTAAAGTTTGCTGCC
Y
GCTTAGGGGCTTAGAAGGAGAAGCCAGTGAGCAGGCTCACACTAAGTTGTAAACATAGGAGAAGCATTTGGCCAATAAAGTTGTTGAAACTCTATAGACC
Celera SNP ID:            hCV7567579
SNP Position Genomic:     27922
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:29829):
GGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTTGCCGGCGTGGTGGCGCATGCCTGTAATCCCAGCTACT
Y
GGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTATGGTAAGCCGAGATCGCGCCATTGCACTCTAGCCTGGGCAACAAGAGCGAAAC
Celera SNP ID:            hCV11729303
SNP Position Genomic:     17081
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29830):
TGCAGAAGAATATAAGTCATTTCTTTCTTAGCGTCTGAGGGTCAAATTGGTCCCAAATCTCCAGAATACATCTTAGGGGCGTTTTTGCCTTGTGGGGAAC
R
TTTCCCATTGCTTTGGAGGTCCCTTCGTGGTCGCCAAATGTTACTGGGGGGTCCTTGCTCCCAGAGCTCCCAAGATGGTGGCGGGCCGCTTCCAAGATGG
Celera SNP ID:            hCV927982
SNP Position Genomic:     56606
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29831):
CTGGAGTGCAATGGCACAATCTCGGCTCACTGCAACCTCTGCTTCCTGGGCTCAAGCAATTCTCCCGCCTCATCCTCCCAAGTAGCTGGGAGTACAGGCA
Y
GTGCCAGCATGTCCAGCTAATTTTTTTGGTATTTTTTGTGGAGACGGGGTTTTGTCATATTGCCCAGGCTGGTCTCGAAATCCTGGGCTAAAGCCATCCG
Celera SNP ID:            hCV16076017
SNP Position Genomic:     23151
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29832):
CTCAACACCTCAAACCAGGGGGTATCTTGCCTTGCCTGACCTGGAAGGCTCAACCCCTCAAACCAGGGGGTGTTTTGCCTTGCTGCCCTGGAAGGCTCAA
Y
CCCTCAAACTAGGAGGTGTCTTGCCTTGCTTCCCTGGAAGGTTGACCTGTTTCCTCCCTTTCCCCCTCTGAAGGTCCTTTGCACACTTCCCACTCGTGTT
Celera SNP ID:            hCV927984
SNP Position Genomic:     58727
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29833):
TTGCCTGACCTGGAAGGCTCAACCCCTCAAACCAGGGGGTGTTTTGCCTTGCTGCCCTGGAAGGCTCAATCCCTCAAACTAGGAGGTGTCTTGCCTTGCT
K
CCCTGGAAGGTTGACCTGTTTCCTCCCTTTCCCCCTCTGAAGGTCCTTTGCACACTTCCCACTCGTGTTGTCCTCTCTGGCTGCTCCCCCAAGGGAGAAT
Celera SNP ID:            hCV927985
SNP Position Genomic:     58758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,11)      total(G,1|T,11) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29834):
CTTTCCCCCTCTGAAGGTCCTTTGCACACTTCCCACTCGTGTTGTCCTCTCTGGCTGCTCCCCCAAGGGAGAATTAGGCCCCCCTCAGCATTGGCATTCC
R
GTAGAAATCCCACCGCAGGATCCTCCCTAAGCCATATGAGGTAGCTACGGAAACGTGGAGAGGACCCACTCACTCCGTCCAGCAGTAGGACTTGTCATCA
Celera SNP ID:            hCV927986
SNP Position Genomic:     58885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29835):
AGGAGAAGCGGGAAATTACCTTTCAGGTTTCCAGTGATTGTGGTTTTGAGTAATCAGCAAAGGGGTGGGGTCCTGATTGACAATAGCTTTGTAGGCTTTG
S
GGGGGAGTAGGATTTTTTTTTGGTTTTTGTTATTTTTGTTTTTTGTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAATGGTGCGATCT
Celera SNP ID:            hCV927987
SNP Position Genomic:     63352
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29836):
GGACCTCGCTGTCCCTCCAGCTGGGCACATTGAGCCTGGAGATCCCTTGCCAGGGTGCCAGCCCGAGGGGAGGCTGGGTTGAGTATCTGTGGCCTACCCC
T
GATCTGAGCTTGTTGTGAGGTAGGAGGTGGGCAGGAGGTTGCCTCTCTGTTTGGGAAGGATTTGGGCCAAGGGCAGGATCCAGGCAGGAGGGTGGGGGTT
Celera SNP ID:            hCV11284790
SNP Position Genomic:     75251
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,15)   total(T,15|-,2) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:29837):
GCAGTTATTCCAGGGTGGTGAATGCTCTGCTGATTTCGATGTCCTTCTCCATACTCTTAGGCATTTTTTAAAATACAATGAACCTGTATTTATATAATGA
R
AACAAAAATAAAGCAAAATTTGATTTTCATTGTGAGATGGGAAAGGCAAGATGCAGTACTGTGTGTATAGTATGATTCCTTTGTGCAAAAAAGAATATAT
Celera SNP ID:            hCV927988
SNP Position Genomic:     65538
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29838):
GCTTACCTCCCTCACCTCTCTGCCCCACAGTGCGTCTCTCCGTGGGCCCCATGGCCCGGGACGTGGAGAGCCTGGCACTGTGCCTGCGAGCCCTGCTGTG
Y
GAGGACATGTTCCGCTTGGACCCCACTGTGCCTCCCTTGCCCTTCAGAGAAGAGGTGAGCAGGGCTGGGTGGGCATGAATGTGGACCGCTGAACCCAGAC
Celera SNP ID:            hCV927989
SNP Position Genomic:     72137
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,4)   caucasian(C,21|T,3)   total(C,49|T,7)
SNP Type:                 INTRON;NONSENSE MUTATION;UTR 3;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;NONSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:29839):
TCCTCCACAGACGGCCACCAGATGGAGCCCTTGCCTGCATTTGGAAATCCTCAGGCTTTTTTTTTTTTTCCTTTTCTTTCTTTCTTTTTTTTTTTTTTTT
T
GAGACTGAGTATCGCTCTGTCCCTCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGGGTTC
Celera SNP ID:            hCV11284792
SNP Position Genomic:     72423
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29840):
ATTCGGTCATAGCCTTCTGGAAGTCCAGAGGGAGAGAAGAAAAGGTGGGGTCATGGGCTTAATGAATCCAATGCAAGAGAGCCCAGCCTGTGTGCTGGAC
M
ATTCTTATCTGACTGAATGCTGTGGGAATCCATTAGAAGGGAGATGAGTAAGGGTAGGGTTACTTGGAGGAGGAGGAACTTGAACTAGGAGGAGGAAGAA
Celera SNP ID:            hCV16136750
SNP Position Genomic:     15628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29841):
AAAATAGTTCACCTCTCTCTAAACTCTTGAGCAAATCTAGAGAAAAATGTGTTTCTGGTAATTCTGTTGACGCTTCACCCATTTTTTCCCACCCTGCCCC
C
TGAATAAGTTTTGATATCTTTTCTAGACCGAAGAGAAGGACCACCATCAATAGAATAGTATAGCTGGGAGAGACATCACAGAACACCTATTTATGCCCTT
Celera SNP ID:            hCV11284796
SNP Position Genomic:     64824
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,9)   total(C,9|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29842):
TGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACTCCCGGATTCTT
R
GCTGTGTCCAAGGAGGACACAGCTGGATGAAGGGGTACCTAAACACCTTCTGAATTTTCACAAAATAGTTCACCTCTCTCTAAACTCTTGAGCAAATCTA
Celera SNP ID:            hCV11284797
SNP Position Genomic:     64662
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29843):
GGACTCTGTGTCATAAGTTTAAGGAAAGGTGCTGTGCCTTGATGTGTATGTAGGCCAGATTTATGTTTGACTTTATACAAGCATCTCAGTGCAGTAAACA
R
CAGTATTGTCACCAGCATGTCTCACCTCCAGCCATAAGGTGGTTTTCTCCTATCTCAGTAAATAGAACGTAGGATCGGGTTTTACACTGACACATTCCAT
Celera SNP ID:            hCV11284798
SNP Position Genomic:     62058
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29844):
CCAAGGATTTTGTGAATGAAGCCATCTCCCACTGGGAACTGCAGTCTGAGGGTGGCCAATCTGCAGCCCCATCCCCTGCCTCCTGGGCCTGCAGTCCGAA
M
CTTCGATGCTTCACTTTTGACAGAGGGGATATCAGTCGCTTCCCTCCTGCCAGGTAGGATCTGGAGCCATGACTGGAGCGGTCCTGAGTGTCTGCTGGAA
Celera SNP ID:            hCV25971371
SNP Position Genomic:     10917
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,38)   total(A,2|C,74)
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:29845):
TGTCTTTACAAAAAATAAAAACAAAATTAGCCAGGCGTGATGGTATGCACCTGTAGTCCCAGCTACTCTGAAGGCTGAGGTGGGAGGATGGCTTGAGCTC
R
GCAGGCAGAGGTTCTAGTGAGCTGAAATCATGCCACTGCACTCCAGCTTGGGCAACAGAATGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGGAAG
Celera SNP ID:            hCV16228676
SNP Position Genomic:     41487
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Gene Number:                 121
Celera Gene:                 hCG2031699 - 30000061189980
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(39007157..39019702)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12281):
ACTTAGACATCATCTGCAAATATTTACAGCGTCTGCCCTGAGTGGGAACTGCCTGGGCAGGTCTGAGATCAAGCACTGGAGGAGAGATGGGGAAAAGGCA
GATGTGAAAAAAACACTTCTTAAAAAAAGGGATGGGGGTTGTCTGGAAGTCAGGGGCAGTTTCCTTAATGACTGACTTGCATGAAGGGTAAGAAAGAGAT
TGGTGGTAGAAGGTCTTAAAATAGGATAGAAGCCAAGAACCATATTTTTAAAAGCTGTCAGTAGTCCAGGCGCAGCGGCTCACAACTAGGTAATCCCAGC
ACTTTGGGAGGCCGAGGCAGGTGGATTGCTTGAGCTCAGAAATTTCAAAAAGAAAAACAAAATCAGCTAGGTGTGGTGGCGTGTGCCTGTAGTCCCAGCT
ACTTGGGAGGCTGAGGCAGGAGAATCACTTGAGTCCAGGAGCCAGAGGTTGCAGTAAGCTGAGATTGTGCCATTGCACTCCAGCCTGTGCTGACAGAGTG
AGACTCTGTCTCAAGACAACAGCAACAAAAAAGTCCATTACTGTAGCAATAGAAGAGGGAGCTCTTGAGTTGAGAAACGAATAAAGCTATCCTATCATCT
CCTATTCACTCTTCAATTGGGATGGTCCAGAAAAGAACAATCCATTCAAATATGACAACCAAAAGAGAAGTTTAAAATACAATATCCATACAAGATAATA
AACCACCAAGACAGAAATTGAAGATTGCAATTAAAAAAAAAAGTCACCCGAAAATTGTTGCTACAAATCAAGGGAAAACGTAACAACAATCAAACACAAG
AAAGAAAAGATAAGAAAAGAAAGAAAAGAGAAGAAAGAAAGAAGAGAAGAAAGAAAGAAAAGAGAAGAAAGAAAAGAGAAGAAAGAAAGAAAAGAGAAGA
AAGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAATGAAAGAAAGAAAGAAAGAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAGAAAGAAAGGGAAAG
ATCCACCGAGGCGGGTGGATCACTTGAGGTCAGGAGTTCAAGGAAGGAAGGAAGGAAGGAGGGAAGGAGGGAGGGAGGGAAGGAAGGAAGGAAGTAAAAA
CTTGAAGCAATTACAAATTTTGCAGCAGTTATAGGAACATCACAGGTCAGAAATAGGGAAATTCAAAAAAGTTACATCCAGACAACAGGATGGGGTTATA
TTAGAGAGTAGGGAATGGGGAAAGATAAGAAAGGGACACTGGACGGGCTTCTATTTCTTGACCTGAGTGACAGTTTCACAGGTTTTACTTTGTAACAAAC
AGTTCATTACTTTGTAGAAGCTGTACTTACATTCACTTTTCTGTTTGAATGTCATTTTTAGCAATATGGTTTAAAATAAGTTAGTATTGCTAGGCACAGT
GGCTCATGCCTATGATCCTAGCTCTTTGGGAGGCCCAGGTGGAAGGATCTCTTGAGTCCAGGAGTTCAAGACCAGCCTGAGCAACATAGGGAATCCTCAT
CTCTACAAAGAATTAAAAAAAAAAAAAAAAAACAAGCCAGGCATGGTAGCATGCGCCTGTGGTCCCAGCCACTCAGGAGGCTGAAGTGGAAAGGATCACT
TGAGCCTGGGAAGTCGAAGCTGCAGCGAGCTGTGATCGCATCACTGCTGTCCAGCCTGGGTGACAGAGTGAGACCCCATCTCAAAATAAATAATAATAAT
GCTAAATTTAAATAGGAAATATTCTATACTAATTCACAAGGTAAAAAATATATATATTTTTTCTAGCTCTGTCCAGTAAAATAGCCTATCGAAGCATTTG
TGACTCTAATAACAACGTGTGCCTCTAGAGCCTAGACTTGTCTCTAATTCTATTCCTTGCTAAAAGTTAGACCAAGAATTTCCTGACTCCAAGACTGGGA
AAAGGAAGGTTTAAGGGAGACTGGTACATTTCGTGCCAGAAAATAAGGGAGCTTTCAAAGATTAGGACTGGGTCAAAAGGAGACAGGAAGTGACATCAAG
GAAGATAGCAGGGTAGGAAGCACCAGGAACCTGTATCCTCAGCAAGGTAACTATCACACTGGCAGCATTTGTCTGTTATAAGTTTTTTGGAACAATGAAG
GGTATTAAAGGCTTGTAACTTCCAAAGGAAGGCTTTGAAAGTAAATTGCAGTTAATTTTGGTCAACCTAAATTCTTAGGTAGGTAGTAGCTACCGATACA
CACCCCATGTTCCTGGAGCAACTTGCATGCAGCTTGCAGGAGCCAGAGTGGGCAATAAAAACCTTGTCCTTGGCCGGGTGCGGTGGCTCACGCCTGTTAT
CCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCGCAAGGTCAGAAGATCGAGACCATCCCAGCTAACATGGTGAGACCCATGTCTCCACTAAAAATACAA
AAAAATTAGCCAGGTGTGCTGGTGGATGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCAGAGCTTGCAGTGA
GCCAAGATCATGCCACTGCACTCCAGCCTGGGTGACACAGCAAGACTCTGTCTCAAAAAAACAAAACAAAACAAAACAAAACAAAAAAAACCTTGTCCTC
CAACTATTAGGGAATCTATATCCTGATTGTTATTTGCTGTTTCTGATTATGAGGTGCAGACAGAGGTTGGCAGCCATTATGGCAACTCAACCCCCAATGT
TACAACCCCCTCCCCTTCCCACTGAAGAGACTTCCAGATATGAATACAAATATCCAAGAAGCTCAACAAAATTCAAGTAGGATAAACTCACAGACCTATA
CCAAGAAACATTATAATAAAACAGTTGAGGCCAGGTGCGGTGGCTCATGCCTGTAATTCCAACACTTTGGGAGGCTGAAGCAGGTGGATCTCTTGAGGTC
AGAAGTTCAAGGCCAGCCTGGCCAACATAGTGAAACCCCGTCTCAACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCGGGCACCTGTAATCCCAGCTA
CTCAGGAGGCTGAGGCACGAGAATTGCTTGAATCCAGGAGACAGAGTTTGCAGTGAGCCAAGATCGCACTATTGCATTCCAGAGAGTGAGACCCCGTCTC
AAAAATAAAAAATAAAACTGTCGAAAGCCCAAGACAAAGAGAGAATCTTGAAAATAGCAAGAGAAGTGACTCATCACTTATAGGGGATCCCACAAATTAC
CAGTAGCTCTTTCATCAAAAACCTTGGACACTAAAAGACCATGGGTTGATATATTCAAAGTACTAAAGGAAAAATAACTATTAACCATCCTATATACGGC
AAAACTGTCTTTGCAAAATGAGGAAGAAATTAGACATTCCCAGGTAGACAAAAGCTGAGAGATCATTACCACTAGACATGTCCTGCAAGAAATGCTAATG
GCAGTCCTTAAGGTTGAAATGAAATGACACTAGATAGTAGCTTGAAGCCATGTGAAGAAATCTGTCATAAGAAAAATTTCTGATAAGGGTAAATATATGG
ACAATTGTAAAAGTGAGTATTATTTTAACTTTGATATATAACTCCACTTTTTGTTTTCTACATGATTTAAAAGAATGCATAAAATTTATACTTTTATTTT
TTGACATACGATGCATAAAAATGTAATTTAGTGAGATCAGTAACTGAAAAGAGGTGGGAATGGAGCTATACAGAAGCAGTTTTTATGTGCTATTGAAGTT
AATCTGGTATAAATTCAAATTAGAATGTTATAAACTAGGATGTCAAATGTAATCCCCATGGCAACCACAAAGGACATAGCTAGAGAATACATACAAAAGG
GGCCAGGCACAGCAGCTCACACCTGTAATCCCAGCACTTTGGGAGACCGAGGTGGGTGGATCACTTGAGGTCAGGAGTTCGAGACAAGCCTGGCCAACAT
GGTAAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCGAGGTGGCGGGCGCCTGTAGTCCCACCTACTCGGGAGGCTGAGGCAGGAGAATGGC
GTGAACCCCGGGGGCGGAGCCTGCAGTGAGCCGAGATCGTGCCACTGCACTACAGCCTGGGCGACAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAA
TTAGCCAAGTGTGGTGGCACGTGCCTGTAGTCCTAGCTACTCAGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTAGAGGTTGCAGTCAGCTGAG
ATCCAGCCACTGCACTCCAGCCTGGGCAACACAGCGAGACTCTGTCTCAAAAAAAAAAAAAGAATATATACAAAAGGAAATTGTGTTTTAAGGAAATGTA
TTTTCACTACAAAAAAAAAATCAAACAAAAAGACAATGCTGGAAATGAGGAAAAGAATGGCAGAATTAAATCATTCCTTGAAAGTAAAATACTTTGGAAA
GTAAATGGATAATACTTTCCAAAAGACAATTTGGCAGAATGGATTAAAAACATGATCCAAATATATGCTGTATATATATTTAGATCCAAACACCACAATA
AACCAAGTAGATCTAACAGACATACACAGAACACTCCACTCAACAATAGAATATCCATTCTTCGAAAGTGTTCATGGGACATTCTTCAGAAGACCATATA
GTAGATCACAAATTAAGTCTCAATAGATTTCAAAATAAACTTTTCTCTTGCCGCTTTTAGAAAAAAATAAAAAAAAAAAGGTATCATACAAAGTATCTTC
TCTGACCCACAACCAGATAAACTAGAAAATTTACAAATCTGTGTGGAAATTAAATAGCACTCTCTGAAACAATCAATGGGTCAAATAAAAAAATCACAAT
GAAAATTAGAAAATACTTAGAGACCAATAAAAATGAAAACATAACTATCAAAACTAATGGGATAGATACAGCAAAAGCAGTCATAAGGGGAAAACCTACT
GGTTTAAATGCTTTCAGTAAAAAAGATCTCAAACCAACAACCTAACTTTATACCTTAAGGAACTAGAAAAATACACTAAACCCCAAACCAGCAGAAGAAA
GGAATGAAAAAAATCAATGAAACTAAAAGTTCTTAGGAAAGATTAACAACATTGCCAAACACTTAGCTAGATCAACTAAGGAAAAAGAAAAGACTCAAAT
GATTGAACATGAGAAATGAAATCGGGGACATTATTACCAATTTTACAGAAGTAAAAAGGATTATAATACAATATTATGAAAAATTGCACACCAACAAATT
GGACAACCTGGATAAAATGGACAAATTCCTAGAAACACAAAACCTATCAAGACTGTTACAGGCTGAGCATTTTGAGACTACGAAGCAGGTGGATCGCTTG
AGGCCAGGAGTTCGAGACCAGCCAGGGCAACATGGTGAGACCCCCCATTTCTACAAAAAAACCCTAAAAATTGCCAGGTATAGTGGCAAGTGTCTGTAGT
CCCAGCTACTCCAGAGGCTGAGATGTGAATGGTGCGATCAATCATGGTTCATTTTGGGCTGGAATACAGTGGTATGATCATGGCTCACTGCAGCCTCACG
TGACAAAAGCTCAGCTCTTATCCTAACTTTGAAGATTGCTAATAGAAGTGAATAAATTAAGCATTTATTCTGCCTCTAAAAGAAAAAAAAATTCAAAATT
ACCAAATAATTGCAGTTAAATATTACTTCCTACTTTACAGAAGAATACAAACTAATAAATGTAGAATGAATGGTGGAATTAGAAAATTTATTTTGCTGCC
AGGTGCAGTGGCTCATGCCTGTAATTCTAGTACTTTGGGAGGCCAAGGGGGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCA
AAACCCTGTCTCTACTAAAAATACAAAAAAGTAGCCGGGCGTGGTGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCATGAGAATCGCTTGA
ATTTGGGAGGCAGAAGTTGCAGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGGGAGAGAGTGAGACTCTATCTCAAAAAAAAAACCAAAAAC
GGCCATTCATACTGCAGTCGGTCAGTATTCGGTTGTTGGATTCAGTGTGCTATCGGACCCAAAGGGTGATGGCACCGCTAGGATGAAGCTCGTGAGATTT
TTGATGAAATTGAGTCATGAAACTGTAACCATTGCATTGAAGAACAGAACACAGGTCCATGGAACAGTCACAGGTGTGGATGTCAGCATGAATACACATC
TTAAAGCTGTGAAAATGACCCCGAAGAACAGAGAACCTGTACAGCTGGAAACGCTGAGTATTCGAGGAAATAACATTCGGTATTTTATTCTACTAGACAG
TTTACCTCTGGATACACTACTTGTGGATGTTGAACCTAAGGTGAAATCTAAGAAAAGGGAAGCTGTTGCAGRAAGAGGCAGAGGCAGAGGAAGAGGAAGA
GGACGTGGCCGTGGCAGAGGAAGAGGGGGTCCTAGGCGATAATGTCTCTCAGGATTACTGTTTCAAAGTCATACGGGATTTGGGATATTTTTTGTACAGG
TTGTGTTTATGTCAGTTTTTAATAAACATAAAAGTGGGACAAAAAAATGAAAAAAGGAAAAGACATAAAGGAAAAGGAAATTTATTTTGCCATCCCTAAG
GAAATTTAATTGAGGAAAAATTTAAATTTGGTGTTAAAACCAGTAGGTGAATGGCTGGTAGGGAACTGGACACTGGATACACAAAAGGCAGAATCACACA
GATTACTTTCTGACCACAAGGTAAATTTCTACAGAGAGATCAATGAGGCTTTTCGCTACCTTAATACAAGTATCACCAAATGGTAGCCAGATGTGTCTCC
TGATGTAATGCAAGATGAAACCTACCATACACATGAGGCATTCTTGCCAAAAATCTTGAATCCAGTTAAGCTGTAAGATCTAATCATAACTTAAAGGTAA
TACAAGTGATAGAAGATAAAGCTAAATGTTATCATGAGGAAGCAATCTGATATATCGGAAAGGAACATTCTATAAGACAAAAGTTAGCATCATGAAAAAC
TGAATCCCAATCATGAAAAAATAAAACTATTCTAATTTCAGAGACTCAAGGGACATAATCACCAGATACAGTGTATGGTCTTAAATTCTGGTTTGGACGT
ACCAGCTACGAAGTACATTTTAGGAATAGCTAGGAGCATTTGAATAAGGCTTGCATCTAAGATAATTTAAAGGAATTATCGGCTGGGCGTGGCGGCTCAT
GCCTGTAATCCCACCTCTTTGGGAGGCTGAGGCGGGTAGATCATTTGAGGGCAGAAGATTGAGACCAGCCTGACAAACATAGCAAAATCCCGCTACTAAA
ATTACAAAAAATTAGCTGGGTGGAGTGGCACACGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCACGAGAATTGCTTGAACCTGGGAAGCGGAGGTTT
CAGTGAGCTGAGATGGTGCCACTGCACCCCAGCCTGGACAACAGCACCAAGACCCTGTCTCAAAAGAAAGTGTATATATATATACAATTTTGATACGTTT
GATTATGTGGTTTTGGCTATAGAGAAAAATGTTCATTTTTTAAAAAAAACTCTAGAAGAGTTGGGAAGATCTTGTTTTATTTTTTATTTAATTAATTTTA
GAGACAGGATCTCACTATGTTGCCCAGGCTGAAGTGCAGTGGCTATGCCCAGGTGTGATCGTTGTGGACCACAGCCTAAAACTCCTGAGCTCAAACGAGC
CTTCTGCTTCAGCCTCCTGGGCTGCTGGGACTACAGGTGTGAGCCACCATGCCCAGCCTTATCTGTTTTATTTACCACTATATGCTCAGCAACTAGCATA
AGACAGACATATAATAGGAACTAGGTAAATGACTATTGGGTGGGCACCTCTGGGGTGCTCAGCCTCTCCTCCCTAACTCTCAGCAATGGCCCTCTTGTTT
TCCCAGTCCTTCATGGCAAATTAAGTTGTCTAAACATGCCTTCACCACTACTTTGCCTTATGAGTCTCCCAAATTTGCTCTGGCCTCTATCTCTCCACAG
AACCAGCTTTCATAAAGGTCACCACTGATGACTTCCATCCCACTATGACCAAGCAGCACTTTCCAGACTCCTCGCTTGAACTCTCAGGAGCTTATACGAC
CACTGGCCACACCCTTCTTAGAATGCTTGGCCTCTCTAACACGCATGGCCACACTTTCCAAGTTTTTCTCCTTCCCTTCTCTCAGACCCCCTCCTTCACA
GTTTCTTTTGCAGATTTCCCTTTCCCTGCTCTCTCTGGGCAAGCTTCCCCATGCCAGTGGTTTTGTTTCTGTTTACAGTCCAACTATTCCTAAATCTGGA
ATCTTCGCTCTGGCGAAGATGGCTCCTGAATTTTCCAGCTACCTATTGTTTGAGTCCTTTCGGATGGCCCACATGCTCTTCTAATGGACTATGGCCAAAA
TTCACTAGCATCTTTGCCCACCTCCCTCAAACAACAAATTAATCTTGTCCTTCTCATCCTTCACTCTCTCTCAGAAAATGTCACTATTGTCACCCAATTG
TGCAAGCAAGAAATCTGTTACTCTAGATGTCTCCCTCACCACCCGGGGACCAATGATTGTGGTCTCTGCCTCCAAAACATCTCCACAATCTATGATATAT
TTAGCTTCTCCATCTCCACTCTCACTTCTGCAGGTAGGCCGCCATTTGAATTCTCACCTGGATTATCACAAAAGCTTTCTAACTGTTGCCTTGAATCCAG
CCCACATCCACCAGGGCACTCCTTTGAAAATGCAAATCTAATTGAGACAGATTATGTTTAAACTCATCAATGGCTTCCCACTGTTCTTGGAATAAACAAG
CCCTGAATGATCTCAATGGTGTCCCTGGGGCCACCCTTCCATCACTGTCTAGGCCCTGGTCTTTCAGTTCCTCCTAAGAGGAAGCATGCAGCCTGTGGTC
TCAGACCTGGGAACCTTTCACCTGACGGGTTCTTTAGTCCCAGAACAGAGTCTCAGCTGTCTCCTAAGCCTCCCAAATCGGGTCAAACACCTCTGGTATC
TGCTCCCACGCGCCCCTGACTTCTTCTTCATGTAACGCTGTACAATTCCAATCATTCAGTTAACGATTTATTCATACAATTTTATATATATCTGTTTCAT
GGTAAATTCATCATTGTATTTCCAGGGTCTGGGAAAAGCCTACCACTTAGTAGGGCTCCAATTAACATTTTTGGGGTTTTTTTTTTTTTTCCTGTTGTTT
CCTGCTCACTTCCTAACTTGGTCTTTGCTGTCCTGCCTACTCAAGTCCCTCACCAGAAAGTTGCCTAGAACCCTCTTACCCGCCACGCGGCCAACACAAG
CTCTACTGCTGGGCGAACATTGTTGGAATAAACGACGTATGATTTACACCCTCAATCTCACAACCCTCCCTTTCCAATCCCTCCCCAGTCTCCCATCCCT
CCCTTTGCAACCCCTCCCCAATCTCCCATCCCTCCCTTTGCAACCCCTCCCCAATCTCCCATTCCTTCCTTTGCCACCCCTCCCCTCGGATTTCTACCCC
TCGGGTTTCTGCTTCCCTCCGCCTCACCTCTCCTCCAAGGCCTCCCCTCCCCGCCGCCCCCTAGCCTGGGCCCGCCCGGCCTGCCAGGGGCTGGCACCTG
ACTCACCTGGGCAGCCTGGTGCGCCGCCTGCCACCGGCTCAGCTCCCCAGCCTCCTGTTCCATCTCAGCCTGCGGTCGGCCGTACATGAAGACTGGGTGG
GGTCTAGACTCTCTACTGAAGAGACAGGGAACCAGCCACCACGGCGTCGCAGGCGGGTATCGGTACATCGCCACGCCACAATCACCTTCTATTTACCTAT
TTACAGCTGCGCCAAGGGGCGGGGTCAGGCCCCACCCGTCCCGCCCTGCGCCGCCCTCGCAGCCCTGCCCCAGGCTGCCACCCACCCTCACCATGCCCCA
ACCAAGGCAGCCTCACGGACAGCCAGCCACTTCAGGCCTTGAACGCTTCTTAAAGGAATTTGGTCCGCCCACCCAACCGACCCATTCCACCCCTCAGTCT
GAGCAACTGTTTCACCCAAGTGGGGACTGAGGACACCCAGGTCTCCAACTCCAGCCAGGAGGAGGCTGGAGAGAGAGGCGAGGCTGGAGAGAGAGGCAAG
GTTGGGTGTAGGGCCTCTACCGATAGGAGAGCCTCCACCAGCACTCTCTCAGGTCGGGATCTTGCCATAAGCTTTGGAAGGGCTGGAGCTTTTCTGCTAC
AGTCTGTGCACCTCTGTCCCTTGTCTGTACGAACTGAAGACTGGGAGCTTCATGGCACAACCTGTTTATTCCGCAGTGTTTACTGAGTGCCCCGTGTGTG
TTGGGCACTGATCTCTGAACTAGGGGTAAAATAGTAAACAGGACAGAACAAAGTCCTTGCTGTCAATTTCCATCTTATACGGGAAGACAAGAAATGAGTA
ATAAAGTTGTTAACTATTATAATTTTAGGTGGTGGTGAGTGCTATGGAAAACCAAAACAGAAATGTGAGCTGAAAATGAAATGCCTGAAAGGAGCCAGCC
ATAGGAAGATTGAAGGGCTCTAAGGCAAAAAAGAGCCCAACGGTGCTAGAAGGAAATTGAAGGCAAGGTGACCACGGTGATACCACATGGACAGTGACAC
GAGGACAGAGGGATAGGGCCTTGAAGACCATAGAAAGGAATTTGGATTTTATTCTAAGTGTGGCGGGAAGCCACTGATGCTTTTAAACAGGAATTTGATG
TGATCTGATATATGTTTTTAAAATAAACCATTTGGCTCCTTATGGATTATAAAGGGCCAGAGGGGTGCAGAGACACCAGTTAGAAATCTAAAGGAGATGA
GGCTGGGCGCAGTGGTTCACGCCTGCAACGCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACAT
GGTGAAACCCCGTCTCTACTAAAAATAAAAAATTAGCCAGGCGTGGTGGCGCGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTT
GAATCCGGGTGGTGGAGGTTCCAGTGTGTCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAATTCCGTCTCAAAAAATAAAATAAAATA
AAATATAAAATAAAATAAAATAAAATAAATAAAATAAAATAAAATAAAATAAATAAAAAAGGAGCTGTCCAAGAAAGAGATGTCAGTGTTTGGTCATGGA
GGTGGTGCCCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCGGGAGACCACTTGAGCCCAGGAGGTCTGGGCTGCAGTGTGCTGTGCTGATTGGGTGT
CCACACTAAGTTCAGCATCAGTATGGTGAGCTCCCAGGAGTGGGGCACCACCAGGTTGCCTAAGGAGGGATGAACTGGCCCAGGTCAGAAATAGAGTAGG
TCAAAACTCCTATGCTGATTGGTAATGGGATTACTACACCTGTGAATGGCCAGTGCACTCCAACCTTGGCAACATAGTGAGATCCCATCTCTAAAAAAAA
AGAATGAAAAACAGAATTTGTAATGGATCAGAAGGGGGTAGGGAGGGAGGGAAAGAGGAATCAAAAAGGCTCCTAGATTATTGGCTTGAGCAACTGCATG
ATGATCGTGCCACTTGGTATATGGAAAGATAGGAAGAGGAGCAGATTTGGAGGCAACTGAAACAAGAATTCCATTTTAGACACTGATTTTGAGATGTCTA
TTAATTATGCTCAGAGAAGGTCAGGGCTGTAAATGTAAACTTGGGTGTTGTCAGCATAGAGATGGTAGTTAGAAGGCCATTAGAGTGGATGCTATCAACA
CTGGAGATAGTTTGACAACAGGACAGAGGACAGAGCCTGGGGACTCCTACATTTAAGGCCCAGCAGAACAGCAAAGTCATCCAAAGAACCTGAGAGGTTG
AAATAAACAGGTAAGTGACTACTGGATTTGGCAAGACGGAGGTCACTGGTGACTCTGACAAAACCAAGTGCAGTAGGAAGGAAGCCTGATTGGACTGGGC
TGCCAAGGGAAGAGGAGTTGATGGAGTGGGACATTATCTCTAAACTCTAAACAAGAAGTTTTGCTACGAATGAGAGCAGAAAAATGAGGTGGCAGTTAAG
GGAGGGCATGTTATAGGCTGATGGGGATGCACCAAAGGAGAAACTGATATAGAAACAGAGGGCTCTATTATAAGAGCAAAGTCATGGATGAATCAAGAAA
GGACAGGATCTGGAGTACCAATAGACAAGTGGGCCTTTAGTGAGAGCAGGGACATTTGCTCTATCATAACAAGTGGGGTAAGAAGGCTCTTATGTATCTT
AGGGTCCCCAACTACTAGTATGGAGTGGGGCTGAGAGCAGGCCCTTGAGAAATGGTGGCTATGATTCTATGGCTAACAATGGCTCAGCTCTCAACTCCAG
GATCACCTCCTCCTGGGGCCATCTCTGACTCCCATTTGATGCCTCTTTCAGTTCCCACATACCTAGTGTTTCTCCCAACATGGCATTTAGGAAATATTTG
TAGAATGGATCATGTTTGACACACAGAGCAGATCATTTTTATACC


SNP Information

Context             (SEQ ID NO:29846):
AACATTCGGTATTTTATTCTACTAGACAGTTTACCTCTGGATACACTACTTGTGGATGTTGAACCTAAGGTGAAATCTAAGAAAAGGGAAGCTGTTGCAG
R
AAGAGGCAGAGGCAGAGGAAGAGGAAGAGGACGTGGCCGTGGCAGAGGAAGAGGGGGTCCTAGGCGATAATGTCTCTCAGGATTACTGTTTCAAAGTCAT
Celera SNP ID:            hCV1254065
SNP Position Genomic:     6372
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;INTRON


Gene Number:                 122
Celera Gene:                 hCG2031743 - 79000076181111
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(42113984..42126820)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12282):
TTTGGCCTCCTCCTGGCCTCTGTGGGGCGGCTCTCACATTACCTCCAGAAAGGCTGCAGGCTCTCACCCAGGTAGGCGCACTCTTTGCTTCAGTAATCCA
TTAGTCTTCTCTAGTCCTTTAGGTGGTCGCTGATTCATTACAGCAACACGTCACAGTCAGTCATAAGAAAAAAAAGCCACAGGCGCCTGGGGTGAAAGTT
TCCTCTCCTTTCCCGGAGCTTTCTCACGGTGTTTCCCTGGCATATTGGCCAGGTCCCCCTTTCTGCAGCATCTGAGCTCTGGTGGTGCTGACCAGATCAC
ACTTGGCGTAGGACCCTCTGGTCCATGTTAAGGGGAACTAGTTTTTCCTGGGAAGTAAGCCACAATGGGTAGGTTTATGTCCCATTGCCACCTTTATCCA
GAACCAGTACTCAGAGTTGGTGGTAGGGTGTGTGACTGAAGTATAAATGGAATGTATATCTTTTGTAGCTAGAAGAAGGAAATCTTTCTGCAGTTTCATG
TTAAATATATTATGTAGCAAACAGTCTTTGTGATTCCTGCCATGTGCAGGCAAGTGTCCCTGTAGGAACCGTGGTTACAAAAACAGGGACGTAAAGTGAG
TTTTTGGTGGGAGATGATGCGTAAACCATCTGAATTCTACAGGGACACCTATAGTGACAGGAGTGGAAGCAGCTCCCCTGACTCTGAAATCACCGAACTG
AAGTTTCCATCAATAAATCATGACTGATCTTGTAGCGTAAGTGGTACTTTAAAGTTTTAGTTTTTAAAAACATGGTGATAACACACTGCGATTGCAAGAA
TATCATGGAAGTTTAGGGCTGAAAATTTTTATCTGCCAGGAATGAAAGTGGTGAGGTCTTGAATATAATCCAGAGGTTGAGAGAGAAAAGAAAGTAGTGA
GGTCATTGTGGGTATCAAATGGGCAGCCCTTCCTCCAAGTTGCAGTGCACCTCCCAGTCCTGCCCTGGGGATGACAGCTTGGGGAGCATGGTCACTGGGC
AGTTGTCTCAATACTGATTACTACATTCTGGTGCCAGTCTGACCAGTTCTGGGGCGGGGAAGGGGAGGGTCTGAATTCTTAGACCCTATTGTTTGATGTA
GCTGTAAATTTTGGAGATCTTGAAGGAAGGGACAGATACAACAATGTGGCACTTGTCATTTCTGCAGAGCCTCAGGTTTTCATCAGGAAGTACTTTAAAA
CTGACACTGCTTAGAGAACTTTTTTTTGTTGATTGCTGCTTATTCTGGAATTCCTTCAAAGTTGGAACAATTGCCAAATAGACGTCGAATGTTTGTCTAT
TAAGTGACAGGGTTTGTAGGTTCATAAAGTGCAATAACTGTGGGCACTGCCACGAAATGTAAATGTCCTTTGAGATAACTGTGTGGACTGTGTTGGCAGA
AGTACGCATTCTGCTGGTGAGGTATCAAATGAGGGAGTGTCAGTCATCTGGGGTCTGGAATAAGAACCAGGGGTATGGGTGTGTGGTTCCACCGCTCCTG
CCCTAAGGCCTGGGCAGGGGGACCTCCCTGAATCCTGCACACCGTGTGTTCATCACCAGTGGGCCTCTGGTGCTGGGTCAGTGCCGGTCTGACCTGCTGA
TCCCAGCTGTTTCCCCTCCTGCCTTGGTTGGTTGACCCCCTGTCCTGGCATAGCCTAAGTAGGTGGTGGGTAGGCATGAGAAGTTAGTATCAGGAGGAGG
GCCTGTGTGCTAGGTAAGCGTTTAACACGGATGGACTCATTAATCCCCTGACCAGGGAGTTTGCTATAGGCTGTTTCACAGTCTTAAGGAGCTGATACAA
CAAGAACTGTTACCAGTGAAGGAGGTAGATATTTGGTCAGTTACATGGAATTTCTGACTGCCTCGCAAGTGGAGAATTGCCCGTTAGTGACACTGTTACG
AGGTGCTGTGGAGAAAGAATGCTTGCATTGGGTGGTTGTAGAAGTCGATGTGTGAGGTCTTGAAAAGGTCTGATTCTGTAGGAATTATAAATTTAGCGTC
TAATTATTCCCAGTAGGCTCCTTCTACTGCTCTGCCATGAAAAACAGGCTTAGTTTCCCATGGCAGCTGACTAGAAATTCTAACTTTTCTACTTTAATGT
ACATCATATAATTCCCACTTTTTTTTTTCTTTTAAACAGGGATGATTCTTCAAGAGACCCTTCAAACTTGGGTAGAGTTTACAGCTCTGACTTTACACTC
GGCTTTGGAGACTTTCTTTAAATTATGTTTTTATTAAGATTATTTTATTATGCGGAAAGGTATTTGGGAAACTTGTCACTTGCATGTCCCATCACGTGTA
CTGGCTCCTCTGTGGTGTCTGCCTGTTGCGTGACACTCTCCTTGCAGTTCTTGAGTTGCGGCAGAACATCGCGATGGGAACCGATGGTGGGTGGGGCTGC
AGAGTGCCCCATCGGTCACCTTGTTTCTCAACTACCTCGCATCATTGCAGATGCTAGCGCGTTGCCTGTCGCTTTCCCTTGGATACCTAGACCGTTATAA
AGTGTGCCACATGGACTTACCGAGCATGGAGAGAGGATTTTAGCTAGGATTTGAACACTTGGTGCTGGGAACCTCAGGGTATTGCTTGCCACTAAGCCAT
GAAACCAGAGACAAAATCTCTATACTGCCCTGAGTTGGGGGGAATTCTCAGTGCCAACTGTGGCTGGTCCTCATTCAAAGGGACGGTCAGTTTGGTGTCA
ACATGAAACACCAAGATGTCTGTCTCTGAAGCGTGATTTTAAAATCCCCATGCCTGTGGCTGCGCTTCCTATTTCTAGGGCTGGGAAACACTCCTTGCAT
CAAGGGGTCACTTACAGAACAAAGAATCTTTTGGGGGAAACTTCCTCTAAAACCCTCTCATATATAGACAGCTTTGACTGGAGGGTCCATTTTTCTTCCA
GGATGGTGTTACTGCAGTTGAAAGGGCAATATGAAGTTACTTTCTTAATGTGACCTAGCAATAGGCATAGCTACGTGGCACTATATTCTGGCCAGACTCG
ATGTGTACTCTAACTTAAGAAATAAATCAGTAAGGCAGAACAAGAGACATGCTTTGCTTCTCATTCTCTTTATGTCATTGGCCAGATGGGAAGCGTCTGA
GCACGTTGCTGGCTTGCTTGTGTGCAGTCAGCTGAATTGTCAGTGCCGGGTGCTCCTGCAGGTGAGCAGCCTTGACTCAGCAGACAACCTGAGAGTTTGT
TTAAAAACTAAGAAATGAGGCTTTCTTTTTAATAGGAACCAGAATTTTTCATAAAGCTTCAAATACAGGTTCTCAGCATGTAGAGCGAGATGAAAAGGTG
CATGGGTGCTATTATGGTGCTATTTATGACTGAGAAAGGGGAGGGATAAGCATGATTTAGGAAGGTGGTCCTTTCCTCTGCCAGGCACTGGACGTGGGTA
CCCCATATACACAGCCAGTGAGCAGTGGGCCAGACTGTCTTCACCAGCAGAACTGCTTGTTATGGTACTTTGAACGTGGCTGATTGAGCATAATTCTAAC
CTCTTCTCCCACCTGGTGGTACCAGGAGATTGTCTTCATTTTAAATTTTATTTATTTATTTATTTATTTTTTTGAGTCAGGGTCTCACTCTGTTGCCCAG
GCTGGAGTGCAGTGGCACAAGCACGGCTTGCTGCAGACCTCCTGGGCTCATAAGATCCTCCCACCTCAGCCTTCCAAGTAGCTGGGACTACAGGTTCACA
TCACCACGCCCAGCTAATTAAATTTTTTTTTTTTTTAATAGACAGGGTCTCGCTGTGTTGGCCAGGCTGGTCTTGAACGCCTGGCCTCAGGCGATCCTCC
CATAGTGCAGGGATTATAGGCATGAGCCATTGCACCTGGTCAATAGTCTTTTTTTTGAGATGGAGTCTCACACTGTTGCCTGGGCTGGAGTACAGTGGCG
TGATCTTGGCTCACTGCCACCTCCACCTCGCAGGTTCAAGTGATTCTGTTTGCCTCACCTTCCCAAGTAGCTGGGATTACAGGTGCCTGCCACCACGCCC
ATCTAATTGTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCTAGGCTGGCCGTGATCTGCTCATCTCAGCGTCCCAAAGTGCTGGGATTACA
GGCGTGAGCCACCACGTCTGGCCCGTTTTTTTTCAAACATTCCCCAAACTGAGGGTCTGACACGCCCGTTGTTGACATCATGGTCCCCCACAATGGCTGG
GTGTGTGGGTGGTGTGAAAAAGCCTCCCAGTAATTAAGTTCCTGCCCCTATGTTTAAGATCACTTTGGCTGATCACTTGTCAAGTGCTGGCCACATAATG
TAAGGTTTCTGAAAAAAGAGATCCCAGATGGCTCTCCAGAGCTTGCAAAGCTCGAGCAGCCCCGCCACGCTGGCTGTGGCAGACAGGATAGGGCTGAAGC
TGGATTTACAGGAGGGCAACCTGTGCCCAGTGTTTACTGACCCGTCCCCGGAGGCTTCTCCCTCATGGGGAGGAAAGCTGGTCACATTCCTCGTTCCTTT
CTTAATGTGACCTAACAATAGGCACAGCTATGTGTAACTTCCCTTCAGTAACTTCCTTCAGTCCAGGGAACTTCCCTTCAGTCCAGGGGATCTGGGCAGT
TCTTAGCAGTCTGGAGCAGCTGGGCTGAAGCCTGACTTCACCCTTCCTTTGTAGAAATCTGCTCTTTTCCCCCGAAAAACATTTCCGAGGATTGTGGTGC
CTGGACTAGCATTTAGCATGGTACCTGGACCGTGGAAGGTGCTCAGAAATGCCACTCCTCCTTCTTGAGTAACACATTTGTGTAGTTTTCAAACAGTCTT
GGTGACCTTGGGGCAGCTCGGGGGGTGAGCAGCAGGAGTTTGGTAACCTGCCACCATATAGGTGTCTGTGATCACATTGGTCCCTAACCAGCATGAATGG
CAGCCGAGGCAGGGGTTGTGTGCTCTTTGCTAAGTGGGAAAACCAGGTCTCAGAGCAGTTGTGATCACCCAGAAAATGTCACCTGGCTGGTGAGTGGAGG
GGCTGGGGGTTCCAAAGTTCTCATCTGTGTCTGCTGTGGATGTGGCCAGGGTCTTCAAGTTTTAGGGGATCAACTGAAGTGTGTTCTGTGGAACACTAGT
CCTGTGAAATGCCCTGTTCAACAAGGTTTGGTGATTTTCTGGTGGCTCAGACCCCAAATTTAGGAGTATCCTTAATTGTCTCACCAGCAGGTATTTATTG
GGTGTCTACCATATGCCAGCCATACCCAAACCCCTGTCCCCCAGAGCAGTTATTCAGTGGGGGAAGCACCAAATATAAGCTACAGAGTGTGGTAGTTCAT
AGATGGAGACCAAGGGTGGAAGTGAGCAGGGGAGTGGCAGTGCTGGGAGGTGGTGTCTTTAAAATAGGGTGGGTGGGAAATTAAGCATGGACTTGAAGGT
GAAGAGGAAAGGAAATAGGCCGCTATGTAGCGCAGAGGCCCCGAGGCAGGAGTGCAAATGAAACAAGTTGGTGGGCGTGGCTGAAGTGGCTTACATAAGG
GGCGGAAGACATTGAGGTTGGGTGGGCTAGGTGGTGGAGAACCATGTAGGCCATCAAGTTTGGGCTTTGCTCTTGAAGAATTTGGAGGGCTATGGGTGCA
GGTGCGGCATGAGTGTGATCAGACTCTGGCTTTGCAGCCTCTGGCTCAGCTGGTGGAGACAGCAGGAGAAACGGCCAGAGGCAGGAAGCAGCTGGAGGAG
TCTGGTTTTTTTTGTTTGTTTTAAGCTAACGGTCTTACTGGACCAGAGGGGTCTTGGAAAGGAACTGAGACCCTTAGTGTGAGGTGCTGCTCTGTGCCAC
AGCTGGCGTAGACACAGGGCACTGGCCCGATGGTGACAAAATGCCCCTGGCCATTGTCACTGTCTTATAGATGAAGAAACTGAAGCACAGAGGCATAGCA
CTTTGCCCCACGGTCCCTGGTCTTTAAGACAGAGCTGGACTGGAGTCTGAGGGGCTGGGCTCCCTGCCCTTGCAGGTCTGTCCTCTGCCTCCTGGACAGA
GGTGGGCTGGGCCTGGGACTCATGACCCTGCAGCATCTGACCGGCTGACCCAGTGTCCTAGAAAGAACCATTCTTGTCCCAGGTGCATGTAATTTATTAA
TGGAGCTTTGACAGTCACAAGTTCCAGCAAGTCAGGGGTGGGGGCTGCAGGGTGGCCTCTTGCCCTGTAACCACAGTCATCAAATATGCCTCGCCATCTT
TGAGGGGCTTTCCTGAGATGACAGATTCCTTTCTGGCACTGTGTAGCCAACTGGAGTCACAGACCTCAGCCTGGGCCAAATGAGCATTTTAGGGAGAAGG
ACAATCCCTTATAGCTTAGCCCTAGGGGAGCTCTGGGCAGGGTTTTACACATTSTTTCTGAAAGTAAGGTCATTTGGGGACAGGGCTGAGAGCAGTTTCT
TGGCTACACAGATGGGTCTGTCAGGGTTGAAGCCACATGGGTGCCTGCTCATGTGCCATGTTGAAGGAGTCCCTGTCCGCCTCTCAGCAGCCCGCATGGG
CTTTACTGGTTGGCCTTACACTCAAACAGGAAATCCCTGGGTCTCAGGTGGAGAGTGCCGTGCCGTCCTGCCTGCTCCCCAGGGCCCTCACAGGACACAG
CAGGTGCAGGACACAGGCCCGTGCTGCTGCAGCTGCTGCTGGAGCTGCTCCTTCTCCATCATCAGCGCCTTCATCTTCTCTTCCAGCTTGCCCAGCTCCA
CCAGCCACCTCTGAGGGGACATGGGAAAAGCATGTGGCCAAGCCCGCCTGGTCTCGGGCCTGTCCGTCCTCCACCTGGGGCCAAACTGAGGGAGGAAGGC
AAAGCCCAGGAGCCTGAGAGCTTTCTCAGCTAGGGGAAAAGTCAGGCCCCTCGGCCTGCTGCCACCTTCAACCGTGTCAGCCTGAGGGAAGCTGCCGGCT
GCCAGCCATGGAAGGGAGCCTCCTCCGTGCTGGGCAGGCCATGTGCCTCCTCACTGTTGGTCCCTTGTCCTCCATTCTCTGTTTCCCTCTTGAAAAAGCT
CTTCCTTGGGACTGTGTCTTGCCCCCTCTGCCGCTTTAGGGCCTCCCCTAAAATGCAGTGTATAGTCTTTGGGGTTTTCTGGTGACATCTCAACATTCCA
GTCTCTCTGCTCCCTCACTCAAGATCGAGTGTGTTAACTGCCCAAGTAGAGGGTGAGGGGTTTCAGGCACCCCTGAAGGGAGGATACTGCATAGGATTTT
TTTTTTTTTGAGATGGAGTCTCGGTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCGCTTCCCAGATTCGATCGATTCT
CCTGCCTCACCCTCTCGAGTATTTGGAACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGAGGGTTCACCATGTTGGCC
AGGCTGGTCTCGAACTCCTGACCTTGTGATCTGTTCGCCTCATCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCCACTGCATAGAT
TTTTAAAAGGAGAGAGCTTGGGCCTCTTCCTTCCCACCAGCCACCTACCCGCGGAGTATGGGATGTGGTGTGATTGTATTCCAACCCCTTGGGTTCAACG
GGGTGATGCAGGACCCAGGGAACCATGGTGGCTTGCCCTGGGCTGCTCAGTGGGTGGCTGAAGGGGTCTGGGGTCAGCTCCGCTCCACCCCACCCACTGG
CCTCAGCTTCCGTACCTGCCTGCACCACTCCTGGATGGCGCTGGCAGACAGCGGGCCCTGGATGCTCCCGTCGCGCCGCAGAAACACCTCCCCCTGGTCT
GTCTGGTAGAGTTGCGGCTGGCTCTGGGCCTTGGGGGTGTGCACGGTCAGGCGGATCACCTTGGTAGGGGCAACAGCAGCTCTGGAGGCGCCGCCCCTCA
CGGTCGGCAGCCCCCATCCTGCCAGGCTGCTCAGCATTGCTCACTGATTCCTTAGGGCAGGCCAGCAGGGCTGGCACAGGGGCCATCCCCAGCCTCTTCT
CCTGTGGCCCCCAGTCCCGTCCCTGCCCCAGCACTGCCTGGCAGGAGTGCAGGCCATCGTCTTACTGAGTGATGACAGATGACAGGCCCAGAGGCCCTCC
TGTCCTGCAGGCTCACCTTGAGGGGGACGCTGGTCTCCGAGGTACTGATCACAGGGATGAAGGTGAGAGTGTAGGCATCGGGAAAGATCTGAGGCTTGAA
GCCCTGCAGGATGGAGTCCACCAGCAGGCGTGCGCGGTCCTCGTCACGGTGGCTGCAGCGGATGCCCTGCACCAGGCCGCTGTCCTCTACTCCCACGAGC
AGGCTGCCGCCCTCGCTGTTGAGGAAGGCGCACACGTAGCGCCGCACGTGGTGCTTGAAGGCCAGGCTGAGGTACTCGCCGCTACCCCGCTTGAACTCCA
TATTGCGGGTCTCGCTGCCCAGGAAGGCACCCTGGAAGAGCTGGTCCTTGCCCACGATCTGCTGGTGCACAATGGCACTGTCGGAGCACACGCCGCTGGG
CCGGCCCTGGCAGCTCTGCAGCTGCTGGGCCTGGGGCCTATCAGGCAGCGTGTGTGTAGGCCAGGTGGGCAGCGGGACACCAGAGCCTGGACTGGGGCCA
GGGCTCAGGCCACTGTCCTCCTCCTCCTCCTCCTTCTCCTAGGGTGGTAGTCAAGAATGAATGTATGGGTCCAGCCAGGAAATGGGAGCCCTGACCCTGA
GAAGGACTGCAAGAACCCCCAGTCAGGCCCCTGCTGCAGCCTGACTCTTACGGACATCCTGATGCCCCTCACCAGGCCGAGGGGCCCAGTTCTGCCCACC
CTCCTGCAGCCGAGGCAGGAAACCCTGCTGGATCGAGGGTTCCAGTCAGCGCTCCTTTCCCTGCCAAGCTGGGCCCTTCCCAGGTGAGCTGTGGGATGCC
TGGTGGGGAAGAAGAGATTTCTGCTTCTCAGGGCTGGGTGCTGGGACATGTGTGGGCCCATTTTTTCTTACTTGGGTTGCAGACAGGCCCCTGAGGCCCA
GAACCAGATCATTCCAGCAGGTATCTCAGCACCCTGTGACAGAGCTGCAGTACCCTGAATGGAGAGGGACTCCCAGGTACCCCACCCACTTCCTGATTTC
AAACCTTTGCCCACTACTTGCTGGGCTATTGACAAGTCCGCCCTAATCCCCACTTTCTTCTGCGCCTCCTGAATCTCCTTTCATGGTTTGGGCTCTGCTC
GAGGGCTTGGTGTGAGCCTCCTCGGGGCCACTTCCTAGTCTGGGCCTCCCCAGCGAGCCCCTCCCTGACCTCCCTGCTTCCAGGCTCACCCTTTCATGTC
AACCCTCCTGTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCCCTGTCACCCAGGCTGGATGGAGTGCAGTGGCGTGATCTCGGCTCACTGC
AAGCTCCGCCTTCCGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGGGCCCGCCACCACGCCCGGCTAATTTTTTTGTATT
TTTAGTAGAGACGGGGTTTCACCATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCG
CGCCCAGCCAACCCTCCTTAGTGACGCTAACTTCAAGGCAGATTGTTACTCCTCACAATTCTTTCATGAGCGTGGGTTGGGGTGAGGAGACTGAGGCACC
TCCCTACCAGCCCTGCAGCTCCCCAGAGAAGATGAATTTATCAGTCTTAGAAACAGGATAAACTTCATACAAATGTGAAATTGAGTTGAAATGTAAGCCA
CAGAGCCTTTTAGTTCTGCAACAGTTTAAACACCATCATTTTCACACCAAAAGAAACCAAAATCACCTGTCTCATGGAGTGACCTATCCTAACGTCCCAT
GTCCCACCCAATAAAGCCAGCAGTTCAGCCTTGCCTTGGATGATAGCCTTGGTGACCTGGCCCCTACCCTACCTTCTGGCCCAACTTCCTTCCTTAGCAC
CCCCTGCAGCCTTTAGTGGGAGCTCCAGGGACACCAAATGGTTTGCCCTTCTGCAGACATGACACTCCCTCTAAGCCCCCAGGTTCCTCTGCATATTCTG
TGTCCCTTGCCTGGAATGTCCTCCCTTGCAAGTGCCTGTCCAACTCCCTAAGTCCCGGCCTGGATTTCACTTCCCCTGTTAATCTGTCCCCAGAGAGCAG
GGCAAACCTTCCTGTCTTCTCTCACAGCTCTGAGCGCAGCCACCTTGCAGCTCGGTGGGTGGCTGTCCAGCTCTGGCCACAGATGCAGGGCTTCCTGGGG
GCCTGGCTGGGCCTCTCATCCCTGCCTTACTCTTGGCACAGAGGGGGTGTTCATGTTTGTCAATTGAACAAATGAGTTGGGCCAAGGAGAAAATCGGGGC
CCCTGTGTCTTCTAGGGTCTCCCAGGCCCAGAGGCTGGAATGTAAAAGGACCTAAGGAGAGGAGGTCCCCTCGTGGCCTTTCTTCACACAAACGTCGGGC
TTGAGCTTGAGGCAAACTGTTTTTCCCAGAGAAAGCTGGCAGTACCAGCCGCAAGCCATGGTCATTTGAGTGGCAGCCCCCAAGTTTGCAGATTTGTCCC
TGCTTCCCCAGAGACACCCCTCCATCCCCACTCTGCAGGCCACTCCCACTCAGAGGCTCTCCCTTGGGGTGAGGCTTTGGAGCTTGCTTGGGAAAAGTCC
CACTTACCTCTCTGTGGCTGAAGGGCCCTTGGGCCTCACTCAATAGCAGGTCCTTCCCACGGGCTGCCAGCTCCTTGAGGATTAGGTGCTCCTCCAGGGC
CGTCTGCAGGCGCCAGGGGAGGGAGGCCAGGGTGTCCCTGTGGACAGTCACCTGCACCAGTGCATAGGCCTTCCGCGGCCGCCTCACCACTTCAATGTGC
TCCCGCGCCACCGGCATCTCCAGCCGCTCCAGGGTGTCTCGCAGCAGGCAGGCAAGCACCGGCACTGAGAACTGGGGGTTCAGATGGCCCACATAGAGAG
TGTGCGCCGAGGGAGCCTCCTCGAGGTCAGAGTACTCCGTCAGGGACTGCTCTGCGGGTAGCTCCGGCAGGGACTCCTCACCCCAGGACTCCATGAAGGG
CTCTGACACCTGTGTTTGCACTGATCTCTTCATGGGGGTCATGGGAAGGCTCTCCCTGGGAAGGGGTTCCAGGATTCCTCACTGCTGGCTGCTTCTCCCA
GGGTCTGTGTTCTCAGTGTGGCTTAAGGGCTCCCAGAGGACTCAGGGAGTGTCCCGGCTCCTGGGAGGTACACAGATTGGCAGAGACTGGGCAGGGCCAG
AGAGAGGGAGGGCAGAGGGCAAGCAGGAAAGGGCCTGCCACCCACCTGAGGCCTAGGATGAGAAAGCAGAGTCACGTGGACTGAGCAAGACACAGGGCCT
GTGGGAAGACGGGATCTGCCCAAAAAGTGGCAGAAGGGACCAGAACTCAGGTCTCTGAGAGCTCCACCATTTCAGTGGCCCCAGGGGTCCTGTCTTCCCT
CCCCAACCCACAGGCTAGGGGCCTCCTAGGTACCCTCAGGGTTTCCTGCCTACCAGTTCACTCCTGCCTCCAGGCAACAGAGAAAACCTTTACACAGGGC
CTCCTGGAGAGGAGGCCTTAACCCAGGACTCTGAGGACTGGCTGGTGGCCCCATTGCAGCTTCTCTGCCTGCTCTAAAACCCCATGTGAGGCCATCGGGG
GCTCTGAAACTAGGCAGCGCTGGGGCAGAGGCTTTTAGAGCAGAGGATCTCACGCTTTTTGGCACACTGATGAAAGCTATGGCCTCTCAGAAAAATGGCC
TTTGCATATAAACATAACTTAAGGTGGCTCCTAGACCCTAAGAACTAGTCTAGACTGAGTCCTCCATTTTTGGTCCAGAGAGCAGAGGTCAACAGGGCAG
AACGAGGGTTAGAGTTGGGGCCCTAGTGCCCCCGCCCCAAGTCCAGGGAGCCTCTGTCCTGAGCTGTGCACATATGTGCACACACCAGCCCCTCTACTGC
TCCCCACACACCCAGCCTGCATCTTCTCAAATGGAATCCTTGAGGCAGTTGGCCTGGGGGCATTCAGGTCAAACAGGAAGAGGAGGAGAGGAGAGGCCTA
TGACCTTCATGTCCTGGTGGCTCCCGCGGGAGCATGGGAGGTGCCTGCCCTGAGCTCCCATAGCCTCCCGACCCCTGGCCGGTAGCTCTCAGGGAACTTG
GAGGCTTGGCACAGGGACGGCCAGAACCAGGGTTATAGGAAGTGGGCGGGGCCTGCACAGCTACCTCTGTGATCTCATGAGGTTCAACAATGCCTTCTTG
GCCAGCCACAGGCAGGCTGGGTGCGGGAAATCAAACAGGAAAACTCAGCTCCCTGTGGGTCCCACCACACACTGGAAGCAGACCCAGCGGCCCACCCACC
ATGCAGCTTGGCTGTGGGACACACTTCCCCACTTAGTGATGTCTCTTCAGGCCCCAGTTCCCATGCAGGTCACCTCTTGCCACCTCTTTCAGCGCTGCTG
CCTAAAGCCTCCACCTCCCTCTTTAGTCAGTCACCAATCCCAGGCTCTACTGAGTACTGACAGGGCCCAGCTGCTCCCAAGATGGAGCAGGAGGCACATG
GTAGGCTCCAGGGCTCCCCCTGACGCCAGGCCCTTCTCTGTGCTGGAGACAGAGGCTGCTGTCCAGAAGAGCCCTGAAAAATAGGTCAGGCGTAGCTATC
TATCTCTTTGGGAAGATGAGGTTGTTACCTGCTGTTGGAGAAACCAAGACGTGGGTGACACACAGTCTTTATCAGCACAGGACTGACCAGTGCTCATCAT
TCTGCAGAAGGCTGGCAGCGCTTGCCCACACTGCTT


SNP Information

Context             (SEQ ID NO:29847):
GAGTCACAGACCTCAGCCTGGGCCAAATGAGCATTTTAGGGAGAAGGACAATCCCTTATAGCTTAGCCCTAGGGGAGCTCTGGGCAGGGTTTTACACATT
S
TTTCTGAAAGTAAGGTCATTTGGGGACAGGGCTGAGAGCAGTTTCTTGGCTACACAGATGGGTCTGTCAGGGTTGAAGCCACATGGGTGCCTGCTCATGT
Celera SNP ID:            hCV8361260
SNP Position Genomic:     6354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Gene Number:                 123
Celera Gene:                 hCG2031744 - 79000076181116
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(42112174..42124750)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12283):
CTAGAAATTCTAACTTTTCTACTTTAATGTACATCATATAATTCCCACTTTTTTTTTTCTTTTAAACAGGGATGATTCTTCAAGAGACCCTTCAAACTTG
GGTAGAGTTTACAGCTCTGACTTTACACTCGGCTTTGGAGACTTTCTTTAAATTATGTTTTTATTAAGATTATTTTATTATGCGGAAAGGTATTTGGGAA
ACTTGTCACTTGCATGTCCCATCACGTGTACTGGCTCCTCTGTGGTGTCTGCCTGTTGCGTGACACTCTCCTTGCAGTTCTTGAGTTGCGGCAGAACATC
GCGATGGGAACCGATGGTGGGTGGGGCTGCAGAGTGCCCCATCGGTCACCTTGTTTCTCAACTACCTCGCATCATTGCAGATGCTAGCGCGTTGCCTGTC
GCTTTCCCTTGGATACCTAGACCGTTATAAAGTGTGCCACATGGACTTACCGAGCATGGAGAGAGGATTTTAGCTAGGATTTGAACACTTGGTGCTGGGA
ACCTCAGGGTATTGCTTGCCACTAAGCCATGAAACCAGAGACAAAATCTCTATACTGCCCTGAGTTGGGGGGAATTCTCAGTGCCAACTGTGGCTGGTCC
TCATTCAAAGGGACGGTCAGTTTGGTGTCAACATGAAACACCAAGATGTCTGTCTCTGAAGCGTGATTTTAAAATCCCCATGCCTGTGGCTGCGCTTCCT
ATTTCTAGGGCTGGGAAACACTCCTTGCATCAAGGGGTCACTTACAGAACAAAGAATCTTTTGGGGGAAACTTCCTCTAAAACCCTCTCATATATAGACA
GCTTTGACTGGAGGGTCCATTTTTCTTCCAGGATGGTGTTACTGCAGTTGAAAGGGCAATATGAAGTTACTTTCTTAATGTGACCTAGCAATAGGCATAG
CTACGTGGCACTATATTCTGGCCAGACTCGATGTGTACTCTAACTTAAGAAATAAATCAGTAAGGCAGAACAAGAGACATGCTTTGCTTCTCATTCTCTT
TATGTCATTGGCCAGATGGGAAGCGTCTGAGCACGTTGCTGGCTTGCTTGTGTGCAGTCAGCTGAATTGTCAGTGCCGGGTGCTCCTGCAGGTGAGCAGC
CTTGACTCAGCAGACAACCTGAGAGTTTGTTTAAAAACTAAGAAATGAGGCTTTCTTTTTAATAGGAACCAGAATTTTTCATAAAGCTTCAAATACAGGT
TCTCAGCATGTAGAGCGAGATGAAAAGGTGCATGGGTGCTATTATGGTGCTATTTATGACTGAGAAAGGGGAGGGATAAGCATGATTTAGGAAGGTGGTC
CTTTCCTCTGCCAGGCACTGGACGTGGGTACCCCATATACACAGCCAGTGAGCAGTGGGCCAGACTGTCTTCACCAGCAGAACTGCTTGTTATGGTACTT
TGAACGTGGCTGATTGAGCATAATTCTAACCTCTTCTCCCACCTGGTGGTACCAGGAGATTGTCTTCATTTTAAATTTTATTTATTTATTTATTTATTTT
TTTGAGTCAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAAGCACGGCTTGCTGCAGACCTCCTGGGCTCATAAGATCCTCCCACCTCAGC
CTTCCAAGTAGCTGGGACTACAGGTTCACATCACCACGCCCAGCTAATTAAATTTTTTTTTTTTTTAATAGACAGGGTCTCGCTGTGTTGGCCAGGCTGG
TCTTGAACGCCTGGCCTCAGGCGATCCTCCCATAGTGCAGGGATTATAGGCATGAGCCATTGCACCTGGTCAATAGTCTTTTTTTTGAGATGGAGTCTCA
CACTGTTGCCTGGGCTGGAGTACAGTGGCGTGATCTTGGCTCACTGCCACCTCCACCTCGCAGGTTCAAGTGATTCTGTTTGCCTCACCTTCCCAAGTAG
CTGGGATTACAGGTGCCTGCCACCACGCCCATCTAATTGTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCTAGGCTGGCCGTGATCTGCTC
ATCTCAGCGTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGTCTGGCCCGTTTTTTTTCAAACATTCCCCAAACTGAGGGTCTGACACGCCCGTT
GTTGACATCATGGTCCCCCACAATGGCTGGGTGTGTGGGTGGTGTGAAAAAGCCTCCCAGTAATTAAGTTCCTGCCCCTATGTTTAAGATCACTTTGGCT
GATCACTTGTCAAGTGCTGGCCACATAATGTAAGGTTTCTGAAAAAAGAGATCCCAGATGGCTCTCCAGAGCTTGCAAAGCTCGAGCAGCCCCGCCACGC
TGGCTGTGGCAGACAGGATAGGGCTGAAGCTGGATTTACAGGAGGGCAACCTGTGCCCAGTGTTTACTGACCCGTCCCCGGAGGCTTCTCCCTCATGGGG
AGGAAAGCTGGTCACATTCCTCGTTCCTTTCTTAATGTGACCTAACAATAGGCACAGCTATGTGTAACTTCCCTTCAGTAACTTCCTTCAGTCCAGGGAA
CTTCCCTTCAGTCCAGGGGATCTGGGCAGTTCTTAGCAGTCTGGAGCAGCTGGGCTGAAGCCTGACTTCACCCTTCCTTTGTAGAAATCTGCTCTTTTCC
CCCGAAAAACATTTCCGAGGATTGTGGTGCCTGGACTAGCATTTAGCATGGTACCTGGACCGTGGAAGGTGCTCAGAAATGCCACTCCTCCTTCTTGAGT
AACACATTTGTGTAGTTTTCAAACAGTCTTGGTGACCTTGGGGCAGCTCGGGGGGTGAGCAGCAGGAGTTTGGTAACCTGCCACCATATAGGTGTCTGTG
ATCACATTGGTCCCTAACCAGCATGAATGGCAGCCGAGGCAGGGGTTGTGTGCTCTTTGCTAAGTGGGAAAACCAGGTCTCAGAGCAGTTGTGATCACCC
AGAAAATGTCACCTGGCTGGTGAGTGGAGGGGCTGGGGGTTCCAAAGTTCTCATCTGTGTCTGCTGTGGATGTGGCCAGGGTCTTCAAGTTTTAGGGGAT
CAACTGAAGTGTGTTCTGTGGAACACTAGTCCTGTGAAATGCCCTGTTCAACAAGGTTTGGTGATTTTCTGGTGGCTCAGACCCCAAATTTAGGAGTATC
CTTAATTGTCTCACCAGCAGGTATTTATTGGGTGTCTACCATATGCCAGCCATACCCAAACCCCTGTCCCCCAGAGCAGTTATTCAGTGGGGGAAGCACC
AAATATAAGCTACAGAGTGTGGTAGTTCATAGATGGAGACCAAGGGTGGAAGTGAGCAGGGGAGTGGCAGTGCTGGGAGGTGGTGTCTTTAAAATAGGGT
GGGTGGGAAATTAAGCATGGACTTGAAGGTGAAGAGGAAAGGAAATAGGCCGCTATGTAGCGCAGAGGCCCCGAGGCAGGAGTGCAAATGAAACAAGTTG
GTGGGCGTGGCTGAAGTGGCTTACATAAGGGGCGGAAGACATTGAGGTTGGGTGGGCTAGGTGGTGGAGAACCATGTAGGCCATCAAGTTTGGGCTTTGC
TCTTGAAGAATTTGGAGGGCTATGGGTGCAGGTGCGGCATGAGTGTGATCAGACTCTGGCTTTGCAGCCTCTGGCTCAGCTGGTGGAGACAGCAGGAGAA
ACGGCCAGAGGCAGGAAGCAGCTGGAGGAGTCTGGTTTTTTTTGTTTGTTTTAAGCTAACGGTCTTACTGGACCAGAGGGGTCTTGGAAAGGAACTGAGA
CCCTTAGTGTGAGGTGCTGCTCTGTGCCACAGCTGGCGTAGACACAGGGCACTGGCCCGATGGTGACAAAATGCCCCTGGCCATTGTCACTGTCTTATAG
ATGAAGAAACTGAAGCACAGAGGCATAGCACTTTGCCCCACGGTCCCTGGTCTTTAAGACAGAGCTGGACTGGAGTCTGAGGGGCTGGGCTCCCTGCCCT
TGCAGGTCTGTCCTCTGCCTCCTGGACAGAGGTGGGCTGGGCCTGGGACTCATGACCCTGCAGCATCTGACCGGCTGACCCAGTGTCCTAGAAAGAACCA
TTCTTGTCCCAGGTGCATGTAATTTATTAATGGAGCTTTGACAGTCACAAGTTCCAGCAAGTCAGGGGTGGGGGCTGCAGGGTGGCCTCTTGCCCTGTAA
CCACAGTCATCAAATATGCCTCGCCATCTTTGAGGGGCTTTCCTGAGATGACAGATTCCTTTCTGGCACTGTGTAGCCAACTGGAGTCACAGACCTCAGC
CTGGGCCAAATGAGCATTTTAGGGAGAAGGACAATCCCTTATAGCTTAGCCCTAGGGGAGCTCTGGGCAGGGTTTTACACATTCTTTCTGAAAGTAAGGT
CATTTGGGGACAGGGCTGAGAGCAGTTTCTTGGCTACACAGATGGGTCTGTCAGGGTTGAAGCCACATGGGTGCCTGCTCATGTGCCATGTTGAAGGAGT
CCCTGTCCGCCTCTCAGCAGCCCGCATGGGCTTTACTGGTTGGCCTTACACTCAAACAGGAAATCCCTGGGTCTCAGGTGGAGAGTGCCGTGCCGTCCTG
CCTGCTCCCCAGGGCCCTCACAGGACACAGCAGGTGCAGGACACAGGCCCGTGCTGCTGCAGCTGCTGCTGGAGCTGCTCCTTCTCCATCATCAGCGCCT
TCATCTTCTCTTCCAGCTTGCCCAGCTCCACCAGCCACCTCTGAGGGGACATGGGAAAAGCATGTGGCCAAGCCCGCCTGGTCTCGGGCCTGTCCGTCCT
CCACCTGGGGCCAAACTGAGGGAGGAAGGCAAAGCCCAGGAGCCTGAGAGCTTTCTCAGCTAGGGGAAAAGTCAGGCCCCTCGGCCTGCTGCCACCTTCA
ACCGTGTCAGCCTGAGGGAAGCTGCCGGCTGCCAGCCATGGAAGGGAGCCTCCTCCGTGCTGGGCAGGCCATGTGCCTCCTCACTGTTGGTCCCTTGTCC
TCCATTCTCTGTTTCCCTCTTGAAAAAGCTCTTCCTTGGGACTGTGTCTTGCCCCCTCTGCCGCTTTAGGGCCTCCCCTAAAATGCAGTGTATAGTCTTT
GGGGTTTTCTGGTGACATCTCAACATTCCAGTCTCTCTGCTCCCTCACTCAAGATCGAGTGTGTTAACTGCCCAAGTAGAGGGTGAGGGGTTTCAGGCAC
CCCTGAAGGGAGGATACTGCATAGGATTTTTTTTTTTTTGAGATGGAGTCTCGGTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGC
AACCTCCGCTTCCCAGATTCGATCGATTCTCCTGCCTCACCCTCTCGAGTATTTGGAACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTGTATTTT
TAGTAGAGACGAGGGTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCTGTTCGCCTCATCCTCCCAAAGTGCTGGGATTACAGGCG
TGAGCCACTGCGCCTGGCCACTGCATAGATTTTTAAAAGGAGAGAGCTTGGGCCTCTTCCTTCCCACCAGCCACCTACCCGCGGAGTATGGGATGTGGTG
TGATTGTATTCCAACCCCTTGGGTTCAACGGGGTGATGCAGGACCCAGGGAACCATGGTGGCTTGCCCTGGGCTGCTCAGTGGGTGGCTGAAGGGGTCTG
GGGTCAGCTCCGCTCCACCCCACCCACTGGCCTCAGCTTCCGTACCTGCCTGCACCACTCCTGGATGGCGCTGGCAGACAGCGGGCCCTGGATGCTCCCG
TCGCGCCGCAGAAACACCTCCCCCTGGTCTGTCTGGTAGAGTTGCGGCTGGCTCTGGGCCTTGGGGGTGTGCACGGTCAGGCGGATCACCTTGGTAGGGG
CAACAGCAGCTCTGGAGGCGCCGCCCCTCACGGTCGGCAGCCCCCATCCTGCCAGGCTGCTCAGCATTGCTCACTGATTCCTTAGGGCAGGCCAGCAGGG
CTGGCACAGGGGCCATCCCCAGCCTCTTCTCCTGTGGCCCCCAGTCCCGTCCCTGCCCCAGCACTGCCTGGCAGGAGTGCAGGCCATCGTCTTACTGAGT
GATGACAGATGACAGGCCCAGAGGCCCTCCTGTCCTGCAGGCTCACCTTGAGGGGGACGCTGGTCTCCGAGGTACTGATCACAGGGATGAAGGTGAGAGT
GTAGGCATCGGGAAAGATCTGAGGCTTGAAGCCCTGCAGGATGGAGTCCACCAGCAGGCGTGCGCGGTCCTCGTCACGGTGGCTGCAGCGGATGCCCTGC
ACCAGGCCGCTGTCCTCTACTCCCACGAGCAGGCTGCCGCCCTCGCTGTTGAGGAAGGCGCACACGTAGCGCCGCACGTGGTGCTTGAAGGCCAGGCTGA
GGTACTCGCCGCTACCCCGCTTGAACTCCATATTGCGGGTCTCGCTGCCCAGGAAGGCACCCTGGAAGAGCTGGTCCTTGCCCACGATCTGCTGGTGCAC
AATGGCACTGTCGGAGCACACGCCGCTGGGCCGGCCCTGGCAGCTCTGCAGCTGCTGGGCCTGGGGCCTATCAGGCAGCGTGTGTGTAGGCCAGGTGGGC
AGCGGGACACCAGAGCCTGKACTGGGGCCAGGGCTCAGGCCACTGTCCTCCTCCTCCTCCTCCTTCTCCTAGGGTGGTAGTCAAGAATGAATGTATGGGT
CCAGCCAGGAAATGGGAGCCCTGACCCTGAGAAGGACTGCAAGAACCCCCAGTCAGGCCCCTGCTGCAGCCTGACTCTTACGGACATCCTGATGCCCCTC
ACCAGGCCGAGGGGCCCAGTTCTGCCCACCCTCCTGCAGCCGAGGCAGGAAACCCTGCTGGATCGAGGGTTCCAGTCAGCGCTCCTTTCCCTGCCAAGCT
GGGCCCTTCCCAGGTGAGCTGTGGGATGCCTGGTGGGGAAGAAGAGATTTCTGCTTCTCAGGGCTGGGTGCTGGGACATGTGTGGGCCCATTTTTTCTTA
CTTGGGTTGCAGACAGGCCCCTGAGGCCCAGAACCAGATCATTCCAGCAGGTATCTCAGCACCCTGTGACAGAGCTGCAGTACCCTGAATGGAGAGGGAC
TCCCAGGTACCCCACCCACTTCCTGATTTCAAACCTTTGCCCACTACTTGCTGGGCTATTGACAAGTCCGCCCTAATCCCCACTTTCTTCTGCGCCTCCT
GAATCTCCTTTCATGGTTTGGGCTCTGCTCGAGGGCTTGGTGTGAGCCTCCTCGGGGCCACTTCCTAGTCTGGGCCTCCCCAGCGAGCCCCTCCCTGACC
TCCCTGCTTCCAGGCTCACCCTTTCATGTCAACCCTCCTGTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCCCTGTCACCCAGGCTGGATG
GAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCCGCCTTCCGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGGGCCC
GCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCAGCCTCCCA
AAGTGCTGGGATTACAAGCGTGAGCCACCGCGCCCAGCCAACCCTCCTTAGTGACGCTAACTTCAAGGCAGATTGTTACTCCTCACAATTCTTTCATGAG
CGTGGGTTGGGGTGAGGAGACTGAGGCACCTCCCTACCAGCCCTGCAGCTCCCCAGAGAAGATGAATTTATCAGTCTTAGAAACAGGATAAACTTCATAC
AAATGTGAAATTGAGTTGAAATGTAAGCCACAGAGCCTTTTAGTTCTGCAACAGTTTAAACACCATCATTTTCACACCAAAAGAAACCAAAATCACCTGT
CTCATGGAGTGACCTATCCTAACGTCCCATGTCCCACCCAATAAAGCCAGCAGTTCAGCCTTGCCTTGGATGATAGCCTTGGTGACCTGGCCCCTACCCT
ACCTTCTGGCCCAACTTCCTTCCTTAGCACCCCCTGCAGCCTTTAGTGGGAGCTCCAGGGACACCAAATGGTTTGCCCTTCTGCAGACATGACACTCCCT
CTAAGCCCCCAGGTTCCTCTGCATATTCTGTGTCCCTTGCCTGGAATGTCCTCCCTTGCAAGTGCCTGTCCAACTCCCTAAGTCCCGGCCTGGATTTCAC
TTCCCCTGTTAATCTGTCCCCAGAGAGCAGGGCAAACCTTCCTGTCTTCTCTCACAGCTCTGAGCGCAGCCACCTTGCAGCTCGGTGGGTGGCTGTCCAG
CTCTGGCCACAGATGCAGGGCTTCCTGGGGGCCTGGCTGGGCCTCTCATCCCTGCCTTACTCTTGGCACAGAGGGGGTGTTCATGTTTGTCAATTGAACA
AATGAGTTGGGCCAAGGAGAAAATCGGGGCCCCTGTGTCTTCTAGGGTCTCCCAGGCCCAGAGGCTGGAATGTAAAAGGACCTAAGGAGAGGAGGTCCCC
TCGTGGCCTTTCTTCACACAAACGTCGGGCTTGAGCTTGAGGCAAACTGTTTTTCCCAGAGAAAGCTGGCAGTACCAGCCGCAAGCCATGGTCATTTGAG
TGGCAGCCCCCAAGTTTGCAGATTTGTCCCTGCTTCCCCAGAGACACCCCTCCATCCCCACTCTGCAGGCCACTCCCACTCAGAGGCTCTCCCTTGGGGT
GAGGCTTTGGAGCTTGCTTGGGAAAAGTCCCACTTACCTCTCTGTGGCTGAAGGGCCCTTGGGCCTCACTCAATAGCAGGTCCTTCCCACGGGCTGCCAG
CTCCTTGAGGATTAGGTGCTCCTCCAGGGCCGTCTGCAGGCGCCAGGGGAGGGAGGCCAGGGTGTCCCTGTGGACAGTCACCTGCACCAGTGCATAGGCC
TTCCGCGGCCGCCTCACCACTTCAATGTGCTCCCGCGCCACCGGCATCTCCAGCCGCTCCAGGGTGTCTCGCAGCAGGCAGGCAAGCACCGGCACTGAGA
ACTGGGGGTTCAGATGGCCCACATAGAGAGTGTGCGCCGAGGGAGCCTCCTCGAGGTCAGAGTACTCCGTCAGGGACTGCTCTGCGGGTAGCTCCGGCAG
GGACTCCTCACCCCAGGACTCCATGAAGGGCTCTGACACCTGTGTTTGCACTGATCTCTTCATGGGGGTCATGGGAAGGCTCTCCCTGGGAAGGGGTTCC
AGGATTCCTCACTGCTGGCTGCTTCTCCCAGGGTCTGTGTTCTCAGTGTGGCTTAAGGGCTCCCAGAGGACTCAGGGAGTGTCCCGGCTCCTGGGAGGTA
CACAGATTGGCAGAGACTGGGCAGGGCCAGAGAGAGGGAGGGCAGAGGGCAAGCAGGAAAGGGCCTGCCACCCACCTGAGGCCTAGGATGAGAAAGCAGA
GTCACGTGGACTGAGCAAGACACAGGGCCTGTGGGAAGACGGGATCTGCCCAAAAAGTGGCAGAAGGGACCAGAACTCAGGTCTCTGAGAGCTCCACCAT
TTCAGTGGCCCCAGGGGTCCTGTCTTCCCTCCCCAACCCACAGGCTAGGGGCCTCCTAGGTACCCTCAGGGTTTCCTGCCTACCAGTTCACTCCTGCCTC
CAGGCAACAGAGAAAACCTTTACACAGGGCCTCCTGGAGAGGAGGCCTTAACCCAGGACTCTGAGGACTGGCTGGTGGCCCCATTGCAGCTTCTCTGCCT
GCTCTAAAACCCCATGTGAGGCCATCGGGGGCTCTGAAACTAGGCAGCGCTGGGGCAGAGGCTTTTAGAGCAGAGGATCTCACGCTTTTTGGCACACTGA
TGAAAGCTATGGCCTCTCAGAAAAATGGCCTTTGCATATAAACATAACTTAAGGTGGCTCCTAGACCCTAAGAACTAGTCTAGACTGAGTCCTCCATTTT
TGGTCCAGAGAGCAGAGGTCAACAGGGCAGAACGAGGGTTAGAGTTGGGGCCCTAGTGCCCCCGCCCCAAGTCCAGGGAGCCTCTGTCCTGAGCTGTGCA
CATATGTGCACACACCAGCCCCTCTACTGCTCCCCACACACCCAGCCTGCATCTTCTCAAATGGAATCCTTGAGGCAGTTGGCCTGGGGGCATTCAGGTC
AAACAGGAAGAGGAGGAGAGGAGAGGCCTATGACCTTCATGTCCTGGTGGCTCCCGCGGGAGCATGGGAGGTGCCTGCCCTGAGCTCCCATAGCCTCCCG
ACCCCTGGCCGGTAGCTCTCAGGGAACTTGGAGGCTTGGCACAGGGACGGCCAGAACCAGGGTTATAGGAAGTGGGCGGGGCCTGCACAGCTACCTCTGT
GATCTCATGAGGTTCAACAATGCCTTCTTGGCCAGCCACAGGCAGGCTGGGTGCGGGAAATCAAACAGGAAAACTCAGCTCCCTGTGGGTCCCACCACAC
ACTGGAAGCAGACCCAGCGGCCCACCCACCATGCAGCTTGGCTGTGGGACACACTTCCCCACTTAGTGATGTCTCTTCAGGCCCCAGTTCCCATGCAGGT
CACCTCTTGCCACCTCTTTCAGCGCTGCTGCCTAAAGCCTCCACCTCCCTCTTTAGTCAGTCACCAATCCCAGGCTCTACTGAGTACTGACAGGGCCCAG
CTGCTCCCAAGATGGAGCAGGAGGCACATGGTAGGCTCCAGGGCTCCCCCTGACGCCAGGCCCTTCTCTGTGCTGGAGACAGAGGCTGCTGTCCAGAAGA
GCCCTGAAAAATAGGTCAGGCGTAGCTATCTATCTCTTTGGGAAGATGAGGTTGTTACCTGCTGTTGGAGAAACCAAGACGTGGGTGACACACAGTCTTT
ATCAGCACAGGACTGACCAGTGCTCATCATTCTGCAGAAGGCTGGCAGCGCTTGCCCACACTGCTTCTGGAAGCCCCAATTGGGGGCAGTAAGGATGGTG
CCACAGTTAGATGCTTCAACTAAGAAAGCTGTTTGACAGCGTAGAGAAGCTGCCTTCCTTGAAAGCAGCCTTTCTGAAGATGTTACCAAATGTTTGTTTC
CTAGGGGGTGAGGCAGTAGTTTGGGTAGAGCACTCAAGAAAAGAGGCTATGGTGTGCGGGGAAGAGAGGGGCGCAGGCCTCAACTGGTGGCAGTGCGAGG
CTCTGGGGAGAGTGCATTCGGTGCCCTCTCCTTGCCCGCCCGGGCAGCAGCCAGGTTGGGCTCGGCTTTGTGTCCACAGCTCTTAGGGTTAGAGAATGAC
GGCTCCAAGCTCCCCCTGCCTCACCCCCTCTCCCTCAAGCCTTTCTTGCCTCTGTCATCCATGAGGTGCCCTCACAGCAACTGAGGCTATAGCTGTTTTG
AGATGGCCAACTCAAGTCGTGTTGAACTGTGCAGAAATAGCTGTCCGGGAGAAGCACCTTGACAGACGAAACACCTGAACATGACCAGAGGCGTTCTCCC
TACTTACCTAGAGGCCTTGCTATTGGGTGGCTGTTCTGCATGAAATTTCCCAAATTGACTTGAGTGCAGCAACTTTCCCCACTCTTCCTGGCAGTCTCTT
TAAGCCACTGCATCACATATTTCTCTGGCGCCTTTAACAGCCTTCTGTGAGCTGAATCAGTTCTACTTCTTTTTGGAGATGGGGGTAAAAATTGTCTTTC
ATGGTAAGCACTAAACACATTTATGAACCATCTTTTAAATACATAAATATAAGATAACAAGGTTATTTACGGTGTCTCTGGCTCTCTAGTATTAGGTAAT
AGTATTAGAAAGTATAGGTGCTCTGCAGGCAGCTTGGAGTGGTGGGTTCCCAGTGGGGGGATAAGCAGCCCCGTTAACCCTCTTGCTGGATGTCTGTGAC
CTCACTGACAAACCTCATCTTGAACTGAAGGAAAAAACCCTAGAATTTAAGCCTCTTTATGAATGTGAGGTGGGGCCCAAAGATGAGGGGCAGAGAGCTG
AGCCGCTGTGGATGGCCTCTTTTCATGTTATCTGGACAGTGTCCACTGGGTGGCCCACATGGCCACAATCCCTGAACCCACAGCAGGCATGCCATCCCCT
CTTCCCCACAGCTCCCACTTCACAATCTGCTGTTTGCCCAGGAAGGCCAGTCAAGGGGCAGAGGGATAGGGAAGAGGAATGAGCCCAGCCAGGTGCAGGA
GAGAACAAGGATGATCAAGAAGAGCGAACTCTGGGGAGCAGAGTTACAAACATAGCTTTCCAGGTCCTGGGACCCACATCACTCCAGCCTCCCTTGGTCT
CAAGCCCTCCCCTAGCGTGCTGCCTCCAGCCTGTAGATCCCCACCTGGCTCTGACAGGGCCCAGCCCCAGTTACTGCAGAGTATCTCTGACTTGAGTGGC
TCCAGCCTAGTGTCTGTGCCCTGGGTACTGTGGGCTGCCAGCCTCTGTGAGCACCTGCAGTGGCTTTGGCACTGTAGGCACAGAGCCGCAGTTCTGATGC
TTGGCTGTGACTGCCTCTGGGCTGAAGGCTGGAAGCTGTGGCTCTGCCCTGACGGAATGTGGTGGCAAGACCATGTCCAGTGACTCAGGGTACTTAGGTA
AAGAGGCTGCAAAAAGCTGAGGGCTGCTGAGGGGAGAAGTGTTGGGACCCTCTTCTCAAGGTTTCCCACACTTTTTGTTTTGGTGGTAAAGAAGGAGGGA
TGATTCACCTTCAGGCTCTTGCCAACGAGGGAGTGTGGCACCAGTGTGAGGGCCGGAACAGTGTCCATTTGGCCCA


SNP Information

Context             (SEQ ID NO:29848):
ACGCCGCTGGGCCGGCCCTGGCAGCTCTGCAGCTGCTGGGCCTGGGGCCTATCAGGCAGCGTGTGTGTAGGCCAGGTGGGCAGCGGGACACCAGAGCCTG
K
ACTGGGGCCAGGGCTCAGGCCACTGTCCTCCTCCTCCTCCTCCTTCTCCTAGGGTGGTAGTCAAGAATGAATGTATGGGTCCAGCCAGGAAATGGGAGCC
Celera SNP ID:            hCV25968842
SNP Position Genomic:     6520
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 MISSENSE MUTATION


Gene Number:                 124
Celera Gene:                 hCG2031767 - 84000315002346
Gene Symbol:                 FLJ33655
Protein Name:                hypothetical protein FLJ33655
Celera Genomic Axis:         GA_x5YUV32W802(45370354..45394920)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12284):
ATTATATCAACCAATACAATCTCATTTTTGTTTAAGCCAGTTTTATTTGGTTTCCTGTTAAACACGACTGAAAAATCTTAACTGCCAATGTGGAGATATC
CCCCTTCATGATGTTGTAATAATGGCTGCAGCAGCTCCAGGTGTCAAATGCAGACATGACATCCAGAGAAGAAGTGGAATGCTGCCTGTCATCCATCTCT
GTTTATTAGGAGTGAAAATCTTTTCTATAATTTCTAATTCAGAAGGCCAGGGTTGTAATCACACACTACATGGAATGGGATGGGAATGATTACCAAACAG
CAATCTTTACTTATCCCTGAACTTGGGGAGAGGATCATCTTTCACTAGCAAACAACTACAGTAGAAGAACATCCAAATAAAACTGGGACTCTGCCAGCAA
TATAAAATATGAAAGGGGAAAGCTATTGGGTAAATAATCAACAGTGTTTATGACACTAATAGATGTATTAATTTTCTGTAAAGTTGTGTGTGTGGGTAGA
AAATATCAGGAATTGTACATATCAATCTTTAGCAGAATTTAAATTTGGGAGGGGGACTATCTGGAGTGGAAAGGATGGATATTTTTACTTATACAATTTT
CATTAGTTTATATTACTTTGGTGATTTAAATTTAAAAGAACTTCAATCTAAAAATGGGCTGCTCAGAAGTAGAGCTAGAACAAAAATATAGAGTCAGAAG
GCTGGATATGGTGGTCCACACCTGTAATCCCAATGCTTTGGGAGGTCGAGGCAGGAGGATCACTTTAGGCCAGACTTTGAGACCAGCCTGGGGAACATAG
TGATACCCTGTCTCTACAAAAGAAAAAATAAAAAGAATTATGAGCATGGTGGTGTGTGCCTGTAGTCCTAGCTACCCAGGAGGTTGGAGGATTGCTTGAA
CCCAGGAGGTTGAGGCTGCAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGTGCTTGTCTCTAATACATACATAAATATATGTATGT
GTGTATATATATATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTGTGTATGTATATATGTATTAGGGAGAGAGAGAGAGAGAGAGAGAGA
GAGTCAGAGAAGCACATATTTGTATATTCCATCCCAGTCCTGGCCCCTACACAGTTACTCAGGTGCCAGTAGCAGGTTTATTCCTTCTGGGGATTTGGAG
GCACAAAGCTATCCGAGCCTGATGCCATCAAATATTTAAACCATTCACCTCCCTCCCGTCCCACTCTCAAAGCTGTCTTCACATCATAAATTGGCTTCCT
GTGCATATTTTCCTACGGGGAAAGAATGTGCTGGACATGGCATTGTGAGCATTCTGGTCCCCTTGGCAGTTCTATTTCTCATCATAAATTAATACATTGC
TTCTCTGGCTCAGATAGCAGGATAGGAGCTGGGTTAGTAGGATCTACTTTCCATTCCCCAATAGATAGGTTCTCTCTTAATGCTGTTAAAGTCAAGTTCA
TAAGCCTGGACCATGATGAATTTACCAAGGTAAAAGTCACCTCTGATGCCACYTGTCAGCTGGCCAGCCAGCCTGCCCTGATGACACTCCTGTCTCTTCA
AGCACATTTCTTTCAGACTCCTGTGCTTCCTAGCCACATTCATCTCAATCAGCTGTCTCTTTCTTTATCCCTCATTCTGTCTTTTCCTCTATGACTCTCT
CTCTCTAATTATATATATCTTTCTCTCTTCCTACTTCACCACTTAATCTTCCTTTATCTTTTTTTTTTTATTTGACGGAATTTCTCTCTTTTTTGCTCTG
GCTGGAGTGCAATGGCATAATCTCGGCTCACTGCAACCTCTGCCTCCCGAGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGT
GCACACCACTATGTCCAGCTATTTTGTACTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGACTGGTCTCGAACTCCTGACCTCAGGTAATCCATTC
GCCTCAGCCTCCCAAAGTGCTGTGGTTACAGGTGTAAGCCACCGTGCCCAGACTTCTTTTCCTTTTTTCTTCTGTTTTTTGTTTGTTTGTTTGTTGTTGT
TGTTGTTTACCTTAATTAACCATGGAGTTGAAAAATAATATATACCAGAGCTATGTGCCAAGCACAGAGCTGGGTCACATGTAAAAATTATATTCTGACC
TCACAATAACTCTGAAAACTGTTTTTGTTCCTATTTTACAAAGAAAGAAGTGGAGGCTCATAAAGGGTAAGTGGTTGTGTTTCATAATCTTAAAGGTTTT
CTCTGSTGAATTTTCAAAATTAGTAAATTAAATGCTTTGTGCTTCCTTTATCTAAGAAAATACAGTTTAGGCCAGGCATGGTGGCTCATGCCTATAATCC
CAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCGACTAAAAATACAAA
ATTAGCCAGCTGTGGTGGTGTGCACTTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAAGCAGAGGTTGCAGTGGACTG
AAATCAGGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACACTGTCTCAAAAAAAAAAAAAAGATGACCCTTTGAACAATAAAGCTCTCACTGCTCTT
TGCCTCTCCCCATCCTTCTTCCTGAGAGTGGGACTTGACCCTGATTCCTCTGACACAAACTTAAACTTCTTTATGGAGGAGATAACCTTCTCTGTCCAGT
CAGGCTCAACATACTTTCTGTATCTGTGCAAAAGGAAGAGGTCAAATCTTCAGCACCTAGATTTGTAACTTTCAGTAACTTGGAGATGGAGGTTGTGGTA
ACATTAAATCTGCTCCCTGGAAGGTCACTTTTTATTATTTTGGGTGTTTAATTAAGTTGCTCGGCCTCATCAAGTGTCCTCCCCATGATCCTAGAAGATA
GTGAGGTAGAAGTAGAGAGGAGTATCCCTTCCAGCCTGCTTCAGTAGAGTTCTGAGAGGAGCAAAAGAGAAAACAAGATGTTTCTGGGTGGGTTCCAGGC
CCCTCCACCCTTCTGCAAGGGAGTGAAGGGTGCTTATCTCCTGAAGACATGAATTGATGGATTTTGGTTATAGGCCGGAGGAGCAGATGCAACCACTGTA
TTTTCTTAGGTAAAGGAAATATAAAGCATTTAATTTACTAATTTTGAAAATTAAGCAGAGAAAATCTTTAAGATTATGAAGCAAAACTACTTACTCTTTA
TGATCCTGCCAAGGATCAGAACATGGCAGCAGAGAAGTCCSAGGTCTAACTGAATGTCCAGACTCTGTTGGATTCAGCACCATAGACAGAAAGCAGCCCA
AAGCTGCTGAGGGCTGAGGGTTGAATGCCATAGACAGATACCCCTTCTCTGTCCCCACCCCCAATTTCACTAGTCCCCATTGCTATTCCTGGGAGGAACC
TAACCCCTTCCATTAGTTAACTGGCCCCCAGCACTTAAAGGTCGAGATAAACAATGGGTTGGTTTCCTTCTAAGGCCCTCCGGAATTTCTTTACTGAGCT
TTCAGTTCTGCGGCTTCCTGGTAGAGTGGGGTCCGCCTTAGAGCAACTCTTATTAACATCCAGCTGATTTGCATATATCTGCATTCACTGGGGCTTCTCC
ATTCTGGTTTTATTGTAAATGAATTGCTCAGAGGAAGAAAGGGAWGGATTATTTCACTCCTTTTTTTTCCTCTTCTTTCCCCCTATTCCTAGGGTCTCTG
TCTGGAAATTTCCCCCAGATGCSTGAAGGTGTGTGTGGTGGAAGAGGGTAGAAACCAGACTCCAACAGTCAGGTATTTGCCAGAGCATCCTATGTAGATT
TCCCCAGATAATTTCCCCCATCTGTTTGGTTTCTGAAAGATCCTTGTCAGGTTCAGAGGAAGTCTGTATTTTGTTTTAGCACCGAGGGTCAGAACCTCTG
GGCTGAAGTCCCTGGAGCYTCAGTAAGAAGCCATGATTGGTGCCTTAGAGCCTGCTAAGGGGATGGAACCCGGTTTTAAAGAGGAGTGAGGGGTGGTGGA
GTGAGGACTCATTTTGAAATGAAAGGAGTCCTGGGTCTCTAAGCAGCTTCTAAAAATACCATCTCCCAGAGGTGGAGGCAGGGGGAGGGGAGAAATCGAG
CGTGAGGAGAATGAAGATGGAAAGGAGGTGGCAGTGTGAGAACCCTTCCTCRGGTAGGTCTGGTTTTAGAAGTCCCGCCTGCATCCAAGGACTGGAGGGA
TGCCACACCTCCTTCTGCTTCCTCAGGGGGCTTGTCTCCTGTGGTGTCCAAGCCACAGCCTCTCCTGATGACCTTTCTTTCTGCAGGTAAAGAAGACCAA
TTCCTCCCACCTACTCCTCCTATTGCTACTGTCCAGCAAGTATGTCTGAGTGGGCAMGTGTGCATTTACTCGCACATATACACAAGCACACACGCAGAAA
TGGCACATGAAAGCGGGTTGTAAATGGCCAGTGATCTACGATGCCAKGAATCCTCCTTACACTCGGCGTTCAAAGAGGTATGGACTCTGGCAGAGACAGC
GTGGTTCACCAGGGCATCCGCAGCACAGAGCATGGCGCCCAGTGAGGGCTGGGTAGAGGGGTGAGGGATACATATATGCAAAAGCACAGACACTCAGACC
GCAGGGGCCAAGTAGTCACAGGACTCACACTCACTCTCGAGGTTTCTCAGGCTATATTCGCTTCCAAATAGAGAGGGGGTGGGTCCCCCAAGAAAAGAGC
TCGGAAAAGCCACGAGGTGGGTGGAGCTTTCTCCCCTCAAGTTCAGCCCAGATGGTGGCGCTCAGTAGCCGCCTCCCTCGTCCTGGAGGGCCCCAACCCT
TCCCACCACCAAAGTGTTAAACCCTCAGCTTGCACATAAATGACCTTCACTAGACAGAGGTCTTGTTCCACGTTTTCTTGCGGCTTCTTCAGCGCCGGCT
GAACTCTGCCAGGATTGCTCCGCCTCTCTCGCAGATGTCTCCGATTCCTGGCCTCTGTGCTGTTCACCAGTCCCCTGGGGTGGGCGGAGTGGGGTGATCA
AAGAGGGGAACCCCCGACTCTGAGCAGACTGAGGGCATGGGTGGTTGTGAGGTGTGCTGCTTGTATCTTGACAGCAGGAGCAAGAACCTGAGGAACCGAT
CGTTCATGCAAAACCGCCACCGCCCCCATCCCAGCGTCCACATGGTTTCCCAGCCTCGGAAGCGCGTTGGTAGGGCAGGACCCCGTCCCTCACTTTGCTC
TCCTTTCCCGAGCAGCTCCCGGGATCGTTCGGCCCCTCCTTCCTGCCGCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATGAG
GGCGGGAAGAGAAAGGGGGGGATGAGCTAGGAGACACCGGGAGCCTCAGACACAGGAACAGACCTAGGGCAGGGAGACAGGAGAGCTCCCCAGAGCTTGG
GGTCAGGACATAAAGCTTCAAAACCCCGCAAGTCCTGGGAACAAGGGAGCTTTCAGACTAGCTCAGAGGCTGCAAGTGTTGCTGCCTCCCCGAGGGTCGC
CCCTCCTTAAGCCAAGCCCACCTTGCCTGCCTACTTCTCAGGAATGAGGAGCTAAGGTTTAGCGCTCTRGGCCACCGATGCCAGCTCATTCCCCTCTCGC
AGAAGCCCTGCCAGCTCCCACAGCTGCCCCACCCCCCACGGTTTGGAGATCTGCRGGACCCCTTCCTTTCCCCACCAGTTGGGTGTTCCGCCCCTGGCCT
ATGAAACTCCACCTTCCCACCCTCTGCTGGCGGGGATTGGTTGGCATCCCGCGGCGGTGCCTASTGATTGGTTCCCATGGATGATGGTGAGCGGTGAGAC
TCCGCCCCCCGCTGGCTCTGGGGTCTGGGGGCATTGCTCAGCGGTGCTAGGCTGGCGCGGCTTGAGCCGCCGCCGGACTKACAGCTCGGTCTGCGGACCA
TGGAGACCTGCGCCGGTCCACACCCGCTGCGCCTCTTCCTCTGCCGGATGCAGCTCTGTCTCGCGCTGCTTTTGGGACCCTGGCGGCCTGGGACCGCCGA
GGAAGGTGAGAAGACTGGTGAGCTCTGCTCGGAGCGTGGCATACCAAAAGATAGGGGGCTGGCGATGGGGGTTCTGGGGGAAGGAGTCATTGSAGAGACT
AGAGTCTGTATTGGGGCTTGAAGCAAGCMGGCAGCAAAGAACTGGAGAGACAGAGAAAAATGTGATCAAGCAGTAGCGAAGAGAGGGGCGCTGAGGAGCT
TGGGGGCTGGAGACCCGGGAGGTTGGGAAAGAAAGAGGCCAGGAACCGCGGGAGCCAGAGGCGGCGGTCCAGCGGCCGGTGAGACGGACAAGCTGAGTGA
TTGGAGGTGGGAGGTGCGGGGGCGGGGAGATGAAGAGTGGAGACAGGGAGATGCGGAGGTGAGCTCGGAATATGGGGAGACGGGATGGAGCCCGGACTAC
AGGGGCTAGGAGACCACAGTGTGGCCAACAGAAGGTGGAATGCTGGTCGAGGGGGCTGGATCCGGGCGCTGCCCGACGTGCTGATCATGGAACTGTCCGC
AGTGCTGAATTCTGAGCGTAGTCTGCCGGGCGCGCTCCGCGTTGCCGGGTTTGAGGCTGTCGGCGATACTGGAGCCCGCGTCTTGCCTCTGATTGTGCAT
TTAGGGGAGCTATACGCTCAGTTGAATCCAGAGGCGTCATATCTAGGTGCAGAATCCGGAGGAGCTGGAATCTGAGGCGTTGACCGCGGGGTTGGTCTGG
GCCCTGGATGGCTGATGCCTTCCAGTTCGCGATTCCGATGTGCTGTCAGTTGCGCGGATCTCGGAAAGCCGTCGGCGGTCCTGCCCACAGTCGCTGACGC
CTCTGGAGAGGCCCTCACCTTGGTGGCCCACCCCCTGGTTTAAGCTCCAGAGGGTAATCTCCCAAGACTCCGGGGTGTCCTGACCTCCTGTCTCTGGTCT
GCGGACTCTGCTGTCCAAACCATTTTCTGTGATCCATGCTGAGAGGTTGCAGGCTGCTGATCCGATGCCTCCTGGGGGAATAAAGGGACTTCAAGCTTCT
CTGGTAGGAAGGGTCATAGATGTATACATAAAAGAACCCCAGACATTCTTTCAAAAGCAGTGGAAGTGACAGCCCCTGGGAAAAGGGCTGGCTGAGGAGA
AGAGAGATTTTATTTCTCCAGTTGTTAGCAGTATCTCTCCACATTGTTTTCTCAGAGGCCCGGGAGTCAGTCTAAAAATGTTCAAGTCTTCATGCCTGGG
GACCACCGACCTCAGAAAAGCCCCTGAGTAGGAGTGGATTGGGGGGTATATACAGGAATCCCCTGATACATTCACTACTCACTTTCTCTCTCTCTCTCTC
TAATTGACTCTTAGCTATAATTTTGGGAACCTAAGAAGGCTGGGGAGAGTCACTGACTCCCACCCCCAATCTGAGAGCCAACCTTAGAGTATTTGCCATG
GACCCTGTAGAAGGCTGAATGATGACCCCCACCCCCAATATGTCAATGTCCTAATCCCTAGAACCGTGAATGTTAGCTTAATTGACAAAAAGGACTTTGC
ATATGTGATTAGTGATCTTTTGAGATGGAGAGRTTGTTTTAGATTATCTGGATGGGCCCAATAATCACAATGGTCCTTGTRTGAGGGGTGCAGGAGGAGC
CAGAGTCAGAGGAGGAGGCAGTGTGATGACTGAGGCAGAGATTAAAGTGATGTGATTTGAAGATGGAGGAGGGGACCACAAGCTAGGGACTACAGGCGGC
CACCAGACGCTGAAGATGGTAAGGACATGAGTTCTCCCCTCAGAGCCTCCAAAAGAAAACAGTCCTGCTGACACCTTGACTCTAGACCAGTGAAAGTGGC
TTTGGGCTTCTGACCTCCAGAACTGTAACAGAAAAATAWTGTGTTGTTTTAAGCCACTAAATTTGTGGTAATATGTTACAGCAGCCCCAGGAACTGAATA
CAAGCTCCTTCCCTACTGACTGTGGCTACCTCTCTCTGGATTTGAGCTATTCACACCCCTCCTGGGGATGTATGGAGTGGGAAAAACTTGCCCATATCAT
TTGTCACATATTGCATTCTCTCAGCAAATTTACAGGGACTTCACCAAAGGATTCCACTCTCTTGCTAAACTGACCTTCTCGATTTCTGATATTTCTGTCT
TCCCCTCTCCTTAGTTATCCTCCTGGATTCCAAAGCCTCCCAGGCCGAGCTGGGCTGGACTGCACTGCCAAGTAATGGGGTAAGTGCACAAGTGTCCCTC
CCTGTCCCAGGGATCCTCTGGTGGTCCAGGACACAGTCTCCTCAGCTCCTCATGTTTACATCAGACAAAAGTGCTCCTCAGAGTGTGTGGTCTCCAGCAG
CCCTGGCTTCAAGCCAGAGTGGCCTGTTAGAAAACATTGAGTCTTCAGCCAGTTAGACAGTCAAAAAAAAAAAAAAAAAGTGAATAAGTGAGGAGAGAAC
TGGCTGTCTAGGAACAGAAAYGTGGCATCTGGATGGAGCTAATACAGGACAGTGGCTTGCACATAGTAGTAGATCCTCCAAGCAATGTTGTTGATTGATT
GACACAGCAAGCAAGACTGGGAGTCCTAAAAGAGGCTTGGAGACTTGGGGTAGGGGAGGATGATGTGGGCTGTAACAGCAGCTTGGTGGAGTGCAAAGGG
CACTGGTCAGAGAGTCAGGARACTACAGGCACCATTCCTAGCTCCACCACTAACTTGATGTGCATACCTGGTCAGATCGCTCTCCCTCTGGAGCCTCAGT
TTCCCCATCTATAAAAATAAGGATTGGGATCATTTGTTTCCAAAGTTTCTCCCAGCGCTGCATCTTACAATTTCCGGGGTGTGCATGGTGCATGAGAGAG
AAAGCAGGAGTCACTGCTAGCGCTCCACCTCCTGGAAGCACTTTGGCTCTGGGCTGCCCACCCCTTTACTCTTGTCCCCAGTGGGAGGAGATCAGCGGCG
TGGATGAACACGACCGTCCCATCCGCACGTACCAAGTGTGCAATGTGCTGGAGCCCAACCAGGACAACTGGCTGCAGACTGGCTGGATAAGCCGTGGCCG
CGGGCAGCGCATCTTCGTGGAACTGCAGTTCACACTCCGTGACTGCAGCAGCATCCCTGGCGCCGCGGGTACCTGCAAGGAGACCTTCAACGTCTACTAC
CTGGAAACTGAGGCCGACCTGGGCCGTGGGCGTCCCCGCCTAGGCGGCAGCCGGCCCCGCAAAATCGACACGATCGCGGCGGACGAGAGCTTCACGCAGG
GCGACMTSGGTGAGCGCAAGATGAAGCTGAACACAGAGGTGCGCGAGATCGGACCGCTCAGCCGGCGGGGTTTCCACCTGGCCTTTCAGGACGTGGGCGC
ATGCGTGGCGCTTGTCTCGGTGCGCGTCTACTACAAGCAGTGCCGCGCCACCGTGCGGGGCCTGGCCAMGTTCCCAGCCACCGCAGCCGAGRGCGCCTTC
TCCACACTGGTGGAAGTGGCCGGAACGTGCGTGGCGCACTCGGAAGGGGAGCCTGGCAGCCCCCCACGCATGCACTGCGGCGCCGACGGCGAGTGGCTGG
TGCCTGTGGGCCGCTGCAGCTGCAGCGCGGGATTCCAGGAGCGTGGTGACWTCTGCGAAGGTATCCAGTTGGCTGGGGGCCGTGGGGTGGGAGTGTAGAG
CGTAGGTGGCAATTGAGAGAGAGTGTGCCCTAGAGGAAAGAGGCGGGTGTGGGGTCGGGGGGCGGTGGAGAAGCCTTGGACTCTGGAGCCCAAGGAGAGC
CCTGAAGTCTTGTGGAGTTTCCAGTGAGTCCAGTCAGGGCCAATGAGTGAAYTTACTAGATGAAATTGACTGGCTAAGGAGGCATTAGGGATCTATATCT
TAGGCACCTTGCACAGGCCTTCTCGTTTATTTATTTTCATGGCAATAAAGGAAGTCATTGTTTTTTTTTTTTTTTAAATAAGGAGTCTCTCTTGCTCTGT
TGCCCAGGCTGGAGTGCACTGGCTTGATCTTGGCTAACTGCAACTTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGAT
TATAGGCGTGCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGAYGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGT
GATCCACCTACCTAGGCCTTCCAGAGTGCTGGGATTATAGGCGTGAGCCACCGTGCCTGGCCTAAAGGAAGTCATTCTTATCTCTATTTCACAGATGAAG
AAACAGAGCCTCAGAGAGATTAGTACCTCACTTGCAAAGTTAGGAAATGGGGAGCTAGGATTTGAATTCAGGCTTGCCCAACTCACATTCTATGACATCA
TGAGGTCTCCTCAGTGCATAAGGAAGAACTCTACAGCAGCCCAATCTTCAGGCTAGTGGGATTGGTTGCATTACAGAGAGGAATCTCCCAGTCACGGACC
AAATACTTGCAAGTTAGAGGCTGGCAGGGGGGATTTTTATGCTGGAGAGAGGGATTGGGAAGTTGCACTAGATGATTACGAAGATCACATCCCACTCTCT
GAACTACAATCACTGTGCTCCCTGGGGGAGATCCTTCATGTTGAGGGTTTTGCTGGSTTCTCAGGCTAGTGGGGGCATTAGGAACAGACCTCTCATTCTC
TCTCTTGCCTGTGGCTTTGGATACAGAGGGTGATGATGGGGTTATTAATGTGTGTACTTAATATAGAAAGATCAAGGTATGCTTTTTCTAAACCATGTCC
TTTTCTGGGTGCCAGGGCAACAGAAATGAGTCAGACATAGTCCTAGCTCTCAAGAAGCTCACAGTCTAGATGGAGAGATGCAAAAATTTAAAAATCACAA
GAGGGTAATATATGCTATAACAGRGGGATACACAGAGTGGTGGGAGGACAGGGGAGGAAGTGACTAAATTTGCTCTCATTCCTTTGTTCAATCATCCATC
CAATATGAATTGAGGATGTGCCAGCTGCATTTATTGAGGGCTTATTATATGTATATAGATGAATGCCACCATCTCCTCCCTGCGGAAATTGTAATTTAGA
GAAAGACTGGGAGGCATGAACCTTCCTGAGCTCTCCAGATATAGTTAGGATCCACCTCGGTGCTCTCCAGCATTCATTGAAACCTATTTCTGTACTTACC
CCATGGTATGCACTGATCTACTTATGTGTGTTTTCACCACTAGATTAAGAACTTCTTTTTTTTTTTTTAGAAATGGGGGTTTGTCTATGTTGCCTGGGCT
TGCGTGTAGCAGCTATTCATAGGTATGATCATAGTGCATTACAGCCTGGAGTTCTTGGTTTCAAGCATTCCTTCTGCCTCAGCCTCCTGAGTAGGTGGGA
CTATAGGGACCACACCCTAGATTAGGAACTTCTTGAGCTCAGGCACTGGGTGTTACTAGTGTCAGCAGCCCCAGCATTCATAACAGGATAAGGCATACGG
TAGGTGTTCAGTGAAAATGCATTGGGTGAAAAAGTGGTTACTATAGGGTGTGAAACATAAACAGAGAGCTAAGGAAGCATGGAAGGGAGAACCTAATTCT
AAGCATGGAGAAGGCTTCCCAGAGAAGGTGAGAAGGTTTTTTTTYCCCAGGCAGCTTAGAGCATTCTAAGCTTAGGAATTGCATGCAGAAGGATGGAGGC
AGAAGGAACATAGCATGGCTGGGCCTATGTAACTAAATGTGGTTGGAGCAGAGGGCATGTGGGGGTGTGGGAGTGAAGTGATGGGGTTGGAGAGGAGCAG
GTGGAAATCATGAAAGGCCTTGAATGTTGGGATAAAGAGCTTAGACTTTATGCTTTAGGCCAATGGGGAGGATCTGAAGCAGGGATCTGACATGCTCAGA
TTTGTATTTTCAAAATATCACTCAAGCTGCAATTGCAAAGAAAGGATTGAAGAGGGAAGGATTAGGAGCCAGAAGATGAAGAAGGAAGATGGTGCAATAG
TGCAGGAGAAAGAGCACAAGGGCTGAACTAAGGTAGTGGCAGAGATCATTGAGAGATGAGGATAGATGGGATCATGAGTTAGCATCCACAGCACTTAGTG
MCCATGTGATACAGGAGGAGAAAGGAGTCCCCTTTGACTTACATGCTACTGGGGATTGAATGGACAGAGGGATCATTCACTAGGGTACAGAACACAGGAC
CTGGATAGACACATATTTATGATGTCCACGGTGCATTCCAGTGGAGGTAGCTAGAAAGTGGGTCTGGAGCTCTGAAAGACAGAGACAGTACTTGAACCTG
TGGGTGTGGTTGGGACAGACCAGGAGAACGTGTGGGGTAAGAAGCCAAGAGGGCCAACAATGAAGACTCATAGAATAGCAATACTTAAGGACAAGTAGAA
AATACAGAGCCCATTAAAAAGGCTGAGAGGGAGTGATCAGAGTATGGAGGAGAACTAGGAGAGTGTGATATTATGACAGCCAAGAGAGATTGAAGGTGTC
CAGGAAGGAATGCCCTACAGAGTTGGGAAGCAGTCAGGTAAGTCAAGGGTTAGAAAGTGCCCAGTTGGTGGCCTTGGTGAGAGCAATTGCAGCTGAGTGA
TGGACACAGAGAACAGGTTGCAGTAGATTGAGGGATAAAGGAAGTTGAAGAGCTTGAGTCAGGGAATCTAGAAGCCTGGATTTGAATTAGAAGAGGAGGT
ATCTCGAGGAGGACATTGGATTGAGAGAGGATTTTTATTATAGATGGGAGAGACTTGTTTGTATGCGGAAGGACAAAGAGCCACTGGGATACCAAGTGTG
TATATGGGGGGGATCCCCATCCCGGTCCCAGGAGGCAGGAGTATTTTATTACTGATGTGGGCTAGAATTGCTGATGCATTTTGCTAATAAAAAAGCAGGC
CAGATTTTAGTCAGTTTTATTATTGTTTTTACATACTCTATAGTTTGTGCCCTTATTGCCTGCACCCAAAATGGGCCACTTTTTACTGCTTCACTACCAA
GAAGGGAGATGACTGATGGAATGTAGTATTTGATGAGGTTAAAGGGAGAGATCCAGGGTGGAGACAGAGGGGCTGGCCTTCAACAGGAGGTGGCTCATTC
CCTCCTCTAGGACTGGAAGGGAGGAGGAGAGGGGAGATGGTTGTGGATGGGGGCATTTGTGTATTCTGATGGGCAGATGTTGAGGGAATTATCAACTGAT
GGCTTCCCTTCTCCCTATAAGGTGGGAGGGAGGGCATCTGTACAAATGGACAGTAAGGTCCTTGTCTGTTTTATTCATTGTTGTGTATCTATAGAGCCTA
CCTAGTAGATGCCAAAAAATATTTGCTGAATGAATGGATCAGGAGTGAGAGGAGGAGGTTTCTCTGGGAAATGWGGGAGAAAGAGAGAGAGAGAGAAAGA
GACTCAGGAACCCAAACCATGTCTGATGAGAACAGAAAAAGGCCAYTTGTAATGGCCTCAGCTCTGCCTTGGGGAGTGGGGAGCTGGGGACAATGCCAAG
GAAAGCTTCACAAGGGAGATGTTATTTGAACTGGGGTTTGGAGAAGTATAGAAGTTTGCCAGGAGAAAAAGGATATAAGGAATTACAGAACAAGACCCAG
AGGTGTGAAAGGATGAGCTCAGTGTACCATGGMTAGAGTGGRTGGCAGTGGGGAGCTGTTGGAGGACATTAGGAAGGGAAGGGAAATGATTGGATTTGCA
TTTAGAAAGTTAAGGCCTTCCAAGTGCCTTCTGCAGCTAACACAAGCTTCCCTCTAAAAGTAGATGGATAAGTGGGGGAATAGAACGAATATGTTCTTTT
CCCCTTTTTGTTTCTCTTTAGTGACCTTGACTTTTGTTCTCCCTCGGTTAGCCACTAGAGAAATTAGTAAAAGAGCTGGGGTTTCCTTTGGGGGAAAAAA
TCAGGGCATATAACAAGTAGCTTTAATTCTMTGCTAGGGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCAATTTGGGAGGCTAAGGCAGGAGGATTG
CTTGAGCCAGGAGTTCAAGATCAGCCTGGGCAACACAGGGAGATCCCATCTCTCCACACACAAAAAATTAGCCAGGCATGGTTGCACAGCATGCCTGTGG
TTCCAGCTACTTGGGAGGGCTGAGGTGGGAGGATTGCTTGGCCCCAGGAGGCAGGGGCTGTAGTGAGCTATGATTGTGCCACTGCACTCCAGCCTGGGCA
ACAGAGCAAGACCCTGTCACAAAGAAACAAACAAACAAAACAACTYAGTGGGATTGCCTTGGAGCCAAGGGACCCAAGCAGATATGTTCTCTGAGGCTCC
ATAGGGCACAATGAGCCCCTGTGATGGGGTGGCACAAGGGGCATTACAGACAGCGAAGCTAATGGGGGCTCATCCTAAGAAGCACTTTCTGCCAGCATTG
TTCAACAAAGGCAGCCTCAGAAGCGGGTGAATGCCTCATGATAAAGTATGTGACAAAGACTGTGGCTACTGCTGGGGAAGCTGCCGGAGGACCAGGCCAG
TGGGAGCTGAGCTAGATTATCTCTGAAGGTCTGACCTTGAAGRGAGGGAGGGGCTGGCAGTCAGGAATCCCTGAATCTGCTCTTCAGCACAAACTCCTTC
TAAGCAGAGCCTCTYACAGCAGAGATACCACTGTGGTCGCTGATGGGCCCACCCACCTCTAGGACAGCAGCCACCCTCATACACTTGTGGGGAGGGAGCC
TCCAGCATTCTTCCCCTATTTTTGTGAAACCCTGCGAACAGATCATTTATCTGGGCTCTCACTTGCTCTCCTATTTCACAACAGTGGTGGGCAGGGCATG
GTTGTTATTCCTATTTGACCAATGCTTTTTTTGAGGCCAGAGAGGCACAAGGAGTGGCCCAGCCAACACTAGAACCCAAGCTTTCCAAGTCCCAGCCTGG
GTCTCTGCTGCCCACCAGACCACGGGGATAGTTGGCCCATGCTCTGTTCTGCAGGCAGAGGAGACTTCTGAAGGCTCCTGGGCTGCCGAGCCCCTCCCCA
GAGTTGTGCTGCCCAGAACTCTGGGCAAGATGGACCCTCTCAAACCTATGCCTTCCRGACAGTGGAAATCCTAGTCCCCTCCCCTCTTCTGCCACACAGG
CTGAAAGTTCCTCCTGAGGGCTAGTCTGCACCCTTTCTGTTGTACTGCGTCTTCTTGGAGCTGGAGAGCAGCCAGCTAAACTAGAGGAGAGGGCCAGGGA
ACAAGGTGAGGACCACCCAAGTTCTGAGAGGTAGGGCCAGGAACCAMCTGGCCCAGCTGGTGAGAAATTTTTTTAAAGTGGGTGTTTAGCARTTACCACT
TAAGGCCTGTGGGGGAGGAACAGTAATTACTATCATTATTGTGAAAATGTGGTTGGTACTGGGCTAGGTGGTTTACATGTTTTATCTCAATCCTCCAACA
ACCTTTTTGAGGTAGGTATTCAACACAAGGCTCAGAGGGGTCAACTGATGTGCTCAAGGCCACACAGCAAATAAGTGGGGTGACTCAGCTACAAACCCAG
GTTGTTCAGATAGAAACACTTGTGATCTTAACAACCTGTGTTCTGAGAAGTGAGAGAAGCAAACTGAGTAGGTGTCAAGACTGGAACCAGGTCTGACTCA
TGGTCCAGGGAACTTTTACTGGCCCTTYTCTCTCCACCCACCCCCCTCCACCTGGCTGGCTTTACTTCCAGTTGGGAATTTATGACACACTCACTCACAT
GAKGGTGGTGGGAGGGTGTGTGTGTGTGTGTGCATGTATGCTTGTGTGTCTGTCCCTGCRTAACTGTGGAACAGCTCTTGGGGCACCTCTCCTCCCCTCT
CTTTCTCACACCAGCACTGCAGAGTTTGACTTATTTTCTTCCAGTGGTCCTGAGGGTGGTGTGATGTGGGCTTGGGTTGGGATCCCACAGGCTGCGGGAG
AGTAGCTGTAGGCAACTTCACCTCTCCTAGCCTTAGCTCCCTCATTTTAAAGAGGATAAAGGGTCGGGCACAGTGGCTCACGCCTGCAATTTTGGCACTT
TGGGAGACCAAGCTGGGCAGATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGGTCAGCATGGTGAAACTCCATCTCTACTAAAAATACAAAAAAAGTAA
CTGGGCATGGTGGTGCACACTTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTAAACCTGGGAGGTGGGGGTTGCAGTGAGTGGAGATC
CCGCCACTGCACTCCAGCCTGGGTGATAGAAGGAGACTCGAAAAGAAAAAAGAAAAAATAAATAAAATAAAAAGAGGATAAAGTATATAACCTCACAGGT
GGTTGTGAGGATTCAATGAATTAATAGACGTAATTTAAAAAATAATAAATAGAGACGGGGTTTGGCCATGTTGTCCAGGCTGGTCTCCAACTCCTGGGCT
CAAGTGATCCTCCAGCTTTGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCTGAAAGTAAAATGTTTCAAAGTTTTCCGAACACA
CAGCGTTTTCTAAGGGTAGGTAATGGGTTGTTCAGGAGTCACTCCACGGGGCAGTGCTGACTGGAGTGGCTGAGTCCCCTGACTGTTTTTCTATCGCAAT
TGGAGGAGATAAACGCTGCCCTAAMCAGGCCAGTCAGGAAAGCGGGGAGAAACTGGAGGAGCCCCCTCTTCTCACCAGYCATGCCCTGCAGCCTGTCCCC
CAGGGTTTTACAAGGTGTCCCCGCGGCGGCCCCTCTGCTCACCGTGCCCAGAGCACAGCCGGGCCCTGGAAAACGCCTCCACCTTCTGCGTGTGCCAGGA
CAGCTATGCGCGCTCACCCACCGACCCGCCCTCGGCTTCCTGCACCCGTGAGTCCCCCCTCCAGGCTGCACTGCGGAGGGTGGGGGGTGGGAGTGGCCAA
GAAGGAAGGCCTGATCCAGGTGGTGGTGAGGGCAGGGTCTCCGCACTGGGGCGCACGKGGGCGGATATGGGGRCCAGCGCCCCGGAAGGCGGCGTACGGG
GGAGCGGAGCCTGGACGCGCCCTGGGGGCCGGGGCCTTTGATGAGAAGAACCAGGACAACTGCGAGAGTCCAGACGGAGGATGGGGTTAGGATGCCTGGC
AGATCACTGAGGAGAGCGCCCCTCCGCTGCCCTCTCCTCACCCTGCCTACCCTCCAGCCGAAAGGGGGGCTCCCGACCTTCGCACCATCGGTTCGGTCCC
CATGCTSCCATCCTCGGTTCCTCACTAACCTCCTCCCAAATCCTCACCAACTGCCCCGCCACTCTCACATTCCGACCTCCCAAGGGCCCCCACGCCCCCG
TCTCTGACCCTTCCCGGGGCAAGCCCCTCCTCCCGCTCGCCCCTGCTCCCACTCACCCCTGCTCCCGCTCGCCCCTGCTCCCGCTTGCCCCGGGCTCATC
CGCCCTCGACCCCTCACTGACTGACCATCTCTGTACCAATCTCCCTGACTGAACCCCACGCCCCCATTCCTCCCACCCCAGACCCCTCACACCTTCCTAT
CCCCCATGCCCACTGGCTCCCACGGCCCATTCCCGCTCATCCATCCCTGTTCCTTCACCGGTCGTCCCTTCTACCTTCCTCCCTGACTGACCCCATGCCA
CTGTCTCTCCTGTCCCCCGTCCCCCCTCATCCACCAAGTCCCTTGATGAACGCCCTGGTTCCCTCCTCCCCGACTGACCCTCGCGCCCCTGCTTCTCCTG
CCTCACTGGGGGTGGACAAGACCCCGCCCCCCCCTCGTGCATCCCGCCCCTCTCACGGGCACCCACGCCCCGCCCTGACCGCCCCGCCCCTGTGCCGCCT
CAGGGCCGCCGTCGGCGCCGCGGGACCTGCAGTACAGCCTGAGCCGCTCGCCGCTGGTGCTGCGACTGCGCTGGCTGCCGCCGGCCGACTCGGGAGGCCG
CTCGGACGTCACCTACTCGCTGCTGTGCCTGCGCTGCGGCCGCGAGGGCCCGGCGGGCGCCTGCGAGCCGTGCGGGCCGCGCGTGGCCTTCCTACCGCGC
CAGGCAGGGCTGCGGGAGCGAGCCGCCACGCTGCTGCACCTGCGGCCCGGCGCGCGCTACACCGTGCGCGTGGCCGCGCTCAACGGCGTCTCGGGCCCGG
CGGCCGCCGCGGGAACCACCTACGCGCAGGTCACCGTCTCCACCGGGCCCGGGGGTAAGGCCGTCCGCGCCCCCCACCCCGAGGCCACCGCGCCTGCCGC
CCCTGCGCCCTCTTGGGGCCGCCCCGTCGGTCCTGCGGGAGCCCCACCCACCCACCCCAGAGAAGCCATCCTCTGTACACGCACCCCGCCCCTCTCCGGG
ACACAAAGTCACCCCCCCGGACGCCCCAGCGTCAGTCGCCCTCCCGAGTGTGCGAGAGGGACTGAGGATGCAGGCGTCCCCTTACTACTGGGCCAGAGGG
GAGGCGCGCGGTTCTGTTGCGTCTGCGGGAAGCACCTGTGTGCTCGCYTTTCTCCTGGACTCCTTGCACAAAGCCTCTGTCCCGCTCACGGCTCTGCAGT
TGGCCTCGCCGCTGATTTCTCAGGGAAAAAGAGGTGGAAAGTCCCTTAATCTCTTMCCTTCCCTTTAAAAAAATGTCAGTAGGAATCCGAATTTACTTCC
TTCCCTCTGTCTCGGGAAGCCGGATCCGGCCCTGTGTCCCTTACCTCCAACCCTCGGCCTCTGCATGGTTTTGCTGCATCTGGCCACCTCCTTTCCTGGT
CCCGGGAAAGGGCAAGGAAGCTTGTAGAGTTAGGCTGTAGGGGCGATGGAACACACCAGCCAATACATCTCTGAGTCTGGACATGAGGTGAATAAGTGAA
GACCTACAACCTTTTCACACCACACCTTCATTCCTGAGAGTTTCTTTTGATTCGCTTCTCAGCTGGGGTGGACCTTCAAGTAATGCTTGTATTCTTTGCA
AGAAAGATAAGCGAGTGGTATGGTTTCTGACTCCCTTCCTAATCGAGCCTATAGGGTCGGCCTGTCACCCTGCATCCCTGCTTTCTGTGATCCCGCTTCT
GTCTTTGGCAGTGGTGTTGCCAAGAAGTCTGAGGCTAGGGTTATTTTCATTCTTTTCTACTTAACTTGGACATATGACATGTACACGTATGCACACGGAT
GTTAGAATAATTCTTTAACCTGCTTAACCTACTGTTGATAATAATTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCAGGCTGGAGTGCAGTGGC
GCGATCTTGATTCACTGCAACCTCTGCCTCCCGAGTTCAAGTGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACTACAGGTGCATGCCACCACGCCC
AGCTAATTTTTGTATTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCCAACTCTCAACCTCATGATCTGCTGGCCTCAGGCTTCCAA
AGTGCTGGGATTACAGACGTGAGCCACTGCGCGCCTAGCCAGACTTTCTTTTTTTTTTTTTGAAATGGAGTTTTGCTCGTCACCCAGGCTGGAGTGTGGT
GGTGTGATCACAGTTCATGGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCGCACCACCACA
CCCAGCTAAGTTTTGTATTTTTAGTAGAGATGGGGTCGCACCATATTGGCCAGGCTGGTGTCAAACTCCTGACCTCAAGTCATCTACCCGCCTTGGCCTC
CCAAAGTGCTGGGATTACAGGCATGAGCCACCTCATGCCAGGCTGAAAATAATCATTTAACCAATATGGATTTCTTTTTTTTTTTTCTTTTTCTTTTTCT
TTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGAGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGATCTTGGCTCACTACAAGCTCCGCGTC
TGGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAACTGGGACTACAGGGGCATGCAGCCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACA
GGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGAGCTCGTGATCTGTCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGC
GCCCGGCTACCAATATGGATTTCTTTTGATTGAGTAAACCTTTTGATTTGCACAACTTTTTTTTTTCCCGGGAAAAGTTTTCTTCAGGCCGGGAACAGTG
GCTCATGCCCTTAGTCTGAGCACTTTGGGAGCCTGAGGCCAGGAGCAATATAGTGAGACCCTGTCTCTACAAAAAATTTTAAAAATTAGCCAGGCATGGT
GATGTGTGCCTGTAGTACCAGGTGCTCAGGAGGGTGAAGGAGGAGGATCAGTTGAGCCCAGGAGTTTGAGGCTGCAGCGAGTGATAATTGTGCCACTGCA
CTCCAGCCTGGGTGACAGAGCCAGACTATGTCTCTTAAAAAAAAAAAAAAAGTTTTATTCAGCCACTGCTTTGACTAGAACTTCTGATAGCTCAAATATA
TCTCTTAAAAATATCTCTAAGCCTTAGGTTTTACATTCATTTTCTGATTCTCAAATCTTGTCACTTCACTTCCCTTATCCTTTTGAGCTCTTAATCCATT
TCCACTGCCTTTTGGAGATTTTCCAGCTTGTCTGGGTTTCTGGAACAGTACTGTTTTTTATTGTCTCTATTGTGATTTAACATTTGCTATTGCATTTACA
TCTTTAAAAATTCTTTTTTTCCATCTTTCTTTCATGTCAGATGGGTATTTTGCCAACGTGAAAAGGTTCGGGGGTGACACATCTCACATACGAGTGTGAA
TCCCCAATCATCACACTTGCAAACTACAAAAGGATCACATTTTTAAAAATTCAGTATAGAAGAAGAAAAAACCCATAATCTTATTACATAGATAAAAACA
ACTATTAATATCTTAGAGTATATACGTCCAGAAAATTTTTCCTGTCTATCTTGATCTCTGTATTCATATTTGTAACTATCTACCTATAAAATCCCTTTTG
TTTTAATACAGTCATGCACCATATAAAGACATTTTGGTCAACAATGGATGGCATATATGATGGTGATCCTGTAAGATTATAACGGAGCTGAAAGACTCCT
GTCACTTAGTACTTTCTGTTACAGTTGCCTGTAGTATTCAGTACAGTCACATGCTGTCACCCAGGCTGTACAGGTTGTAGCCTAGGCGTGTCATAGGCTA
TGCTGTCTAGGTTTGTGTAAGTACACTCTGATGTTTGTATAACAATGAAATCACCTAACAACGCATTTCTGAGAACATCTTCCCATCATTTAGCAATGCA
TGATGGTATATGTAATACTAACTTTTATCTGGCATTTTACATTAACAATCTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTATCACCCAGGCTGGAATG
CAATGGCTCAGTCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTGAAGCGACTCTCCTGCCTCAGCCTCCTGAGTAGCTGGTATTACAGGCACACACCAC
CACAACCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCTTGACGTCAGGTGATCCACCCGCCTCAG
CCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCACGGCCTTATGTTAACAATCTTAACTGTTTTGACACAGATAGATTTAGAAGCCATGTTAA
GGAAATACTCTTCTATTTCCATTTTCTCAGTAAAAATACTAAGCTTCCACTGATCTAGTGCTGCTGTATTTGGCACTGTGCAATATGATTTTCTACATTA
ATTCATTGAAATGGGGCTGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCGTTTGAGGTCAGGAGTTTGAGCCA
GCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATAAAAAAAATTAGCCAGGCGTGGTGGTGCACACCTGTAATCCTAGCTACTGGGGAGGCTGAG
GCAGGAGAATCTCTTGAACCCTGGAGGTGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCACCTCAAAA
AAAAAAAAAAAAAAAAAAGATGAAAAGAAAGGAAACTCATCTTAGATTGGTTTTGGAACCCAGGTCTGTCTGACCTCAAAGCCCTGTGCCTTTAATCCCT
AGGCCATATAATGCTTCATTGAACTTTTTCTAAAAATCAGAAATGGATGTTAATTTTATAAAATGCTTATTAAGCATTTTCAATATGACCAAATTTTTTC
CTTTTTGACCTGTCGGTATGATGAATTCTATTAATGGATATTTCAGTGTGAACTCTCTGCACTCCTGGATTATACCCTACTAGATATATTATTCTTTGGA
TGTTTTGCTGAGTTCATTTGCTTATATTTTAAGATTTTTCCCATCTACATTTCTAAGAGAGATTAGTGTTTTGTAATGTGTTCTTTGTCAAGTTTTGGCA
CTATGGGGATGCTGGCTTTGGTAAAGGTATCTGGAAAAATTTCTTCTTTTTCTCTGCTCTGGGACAGTTTTAACAACACATTTACATATTCTTTGAAGGC
ATAAAAAACTGCCTGGGAAACTTTCTGGGTTCTATGCCATTTTTGGAGAGAAAGTTTTATTTATTTGTTTATTTATTTATTTGAGATGGAGTCTCTGTCG
CCCAGGCTGGAATGCAATGGCACCATCTCAGCTCACTGCAACCTCTACCTCCCAGGTTCCAGTGATTCTGCTGCCTCAGCCTCCCAAGTAACTGGGATTA
TAGGCAACCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAAACATGGGATTTCACCACGTTGATCAGGCTGGTCTTGAACTCCTGACCTCAGATGA
TCTGCCTGCCTTGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGGCACTGCACCTGGTGGTTTGATATTTTTAATCTTTACTGTAACGTCTTGATCAGT
TTTATAAATTTGTGCTTTCCTAGAAAATATTTTGGTGTTCTTTTTCTAATTTATTATTAGAAATGTATATACATTTCCTCAGTACCTGGAGTTAACTTCA
CTTTCTCTTTCTTCCTGTTGTATGCTTGTGATTTCTGTCTTTTTTCTTAATTATCCTTGCCAGAAGTTAATTTTACTGGTTATGACACAGAATCAGCTCT
TGAACCTATCAATTCCATTGTTCTTTACTTTCGTCACTTATTTTATGATTTATTATTATTATTATTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTG
GAGTGCAGTGGCACCATCTCAGCTCATTGCAACCTCTGGCTCCCAGGTTCCAGTGATTCTGCTGCCTCAGCCTCCCAAGTAGCTGTGATTACAGGTGCAC
GTCAGCATGCCCGGCTATATTTTATGATTTTATCTTTATTAATACCACTCTCCTGCTTTCCTGAAGTTTTTTTTTTTTTTTTTTGAGACAGTTTCACTCT
GCCTGTCACACATGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCTGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGC
TGAGATTACAGGTGCACACCACTACGCCTGGCTAATGTTGTGTTTTTTGTAGAGATGGGGGTCTCACTATGTTGCCCAAACTTGTCTTGAACTCCTGGAC
TCAAGCAATCTACCTGCCTTGGCCTCCCAAAGTTTTGGGATTACAGGTGTGAGCCACCCCACCCAACCTCTGAAGTCTTTTTCTAGGCAAGTTCAGTGCT
TAGTTATTTTTTGTTTAAATTTTTTAAAGCTATGAGTTTTCCTCTGAATATAGCTTTGTCACTTCCAATACATTTGATACATGATATTATCACATTGTTA
GTATTATAAGGTTTTTTTAGGTATAATTCATGTAACATAAAATTCACCCTTTTGAAGTATACGGTTCAGTGATTTTTCATATATCCGCATAGTTGTGCAA
CAAGTGCTATCTAATTCTAAAACATTTCATCACCCTGAAAGGAAACCCATTAGTCACTCACCATTCCATCCACCTCCTCTAGCTCTTGGTAACAACTAGG
TCTTTCTGTTTCTATGGATTTGCCTCTTCTTGGCATCTCAATACATGGAATTATACAATATGTGAACTTGCATGTCTGGCTTCTCTCACTTAGCATAATG
GCTTCAAGTTTCATCCATATTGTAGCACGTATCAGTACTTCATTCCTTTTTATGGCTGAATGACATTCCATTGCATGGATAGACCACAATTTTGCTTATC
CATTCATCAGTTGATAGACATTGGGCTGTTTCCACATTTTGGCTATTATGAATAATACTATTATGAATATTAATGTATTCATAATACATTAATGAATATA
TGTTTTTGCATAAACATATATTTTCAGTTTTCATGGCTATATACCTAGGAGTAGAATTGCTAAGTCATATGGTTATGGACTGAATTATGTTACCTCCAGA
TTCATGTGTTAAAACCCTAAACCCCAATGTGACTATATTTGGAGAGAGTCTCTTTAAGGAGGTAAT


SNP Information

Context             (SEQ ID NO:29849):
AGAGGAGACTTCTGAAGGCTCCTGGGCTGCCGAGCCCCTCCCCAGAGTTGTGCTGCCCAGAACTCTGGGCAAGATGGACCCTCTCAAACCTATGCCTTCC
R
GACAGTGGAAATCCTAGTCCCCTCCCCTCTTCTGCCACACAGGCTGAAAGTTCCTCCTGAGGGCTAGTCTGCACCCTTTCTGTTGTACTGCGTCTTCTTG
Celera SNP ID:            hCV937754
SNP Position Genomic:     15057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29850):
AGCCACTGCTTTGACTAGAACTTCTGATAGCTCAAATATATCTCTTAAAAATATCTCTAAGCCTTAGGTTTTACATTCATTTTCTGATTCTCAAATCTTG
T
CACTTCACTTCCCTTATCCTTTTGAGCTCTTAATCCATTTCCACTGCCTTTTGGAGATTTTCCAGCTTGTCTGGGTTTCTGGAACAGTACTGTTTTTTAT
Celera SNP ID:            hCV27034992
SNP Position Genomic:     20561
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:29851):
AGGAGGCAGGGGCTGTAGTGAGCTATGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACCCTGTCACAAAGAAACAAACAAACAAAACAACT
Y
AGTGGGATTGCCTTGGAGCCAAGGGACCCAAGCAGATATGTTCTCTGAGGCTCCATAGGGCACAATGAGCCCCTGTGATGGGGTGGCACAAGGGGCATTA
Celera SNP ID:            hCV937755
SNP Position Genomic:     14246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29852):
GCCACTGCTTTGACTAGAACTTCTGATAGCTCAAATATATCTCTTAAAAATATCTCTAAGCCTTAGGTTTTACATTCATTTTCTGATTCTCAAATCTTGT
C
ACTTCACTTCCCTTATCCTTTTGAGCTCTTAATCCATTTCCACTGCCTTTTGGAGATTTTCCAGCTTGTCTGGGTTTCTGGAACAGTACTGTTTTTTATT
Celera SNP ID:            hCV27034993
SNP Position Genomic:     20562
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,7)   total(C,7|-,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:29853):
CCACTGCTTTGACTAGAACTTCTGATAGCTCAAATATATCTCTTAAAAATATCTCTAAGCCTTAGGTTTTACATTCATTTTCTGATTCTCAAATCTTGTC
A
CTTCACTTCCCTTATCCTTTTGAGCTCTTAATCCATTTCCACTGCCTTTTGGAGATTTTCCAGCTTGTCTGGGTTTCTGGAACAGTACTGTTTTTTATTG
Celera SNP ID:            hCV27034994
SNP Position Genomic:     20563
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:29854):
CTTTTGTTCTCCCTCGGTTAGCCACTAGAGAAATTAGTAAAAGAGCTGGGGTTTCCTTTGGGGGAAAAAATCAGGGCATATAACAAGTAGCTTTAATTCT
M
TGCTAGGGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCAATTTGGGAGGCTAAGGCAGGAGGATTGCTTGAGCCAGGAGTTCAAGATCAGCCTGGGC
Celera SNP ID:            hCV937757
SNP Position Genomic:     13931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29855):
TCGGAGCGTGGCATACCAAAAGATAGGGGGCTGGCGATGGGGGTTCTGGGGGAAGGAGTCATTGGAGAGACTAGAGTCTGTATTGGGGCTTGAAGCAAGC
M
GGCAGCAAAGAACTGGAGAGACAGAGAAAAATGTGATCAAGCAGTAGCGAAGAGAGGGGCGCTGAGGAGCTTGGGGGCTGGAGACCCGGGAGGTTGGGAA
Celera SNP ID:            hCV25966601
SNP Position Genomic:     6229
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,38)   total(A,75|C,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29856):
AGAAGTATAGAAGTTTGCCAGGAGAAAAAGGATATAAGGAATTACAGAACAAGACCCAGAGGTGTGAAAGGATGAGCTCAGTGTACCATGGTTAGAGTGG
R
TGGCAGTGGGGAGCTGTTGGAGGACATTAGGAAGGGAAGGGAAATGATTGGATTTGCATTTAGAAAGTTAAGGCCTTCCAAGTGCCTTCTGCAGCTAACA
Celera SNP ID:            hCV937758
SNP Position Genomic:     13642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29857):
GGGGTTTGGAGAAGTATAGAAGTTTGCCAGGAGAAAAAGGATATAAGGAATTACAGAACAAGACCCAGAGGTGTGAAAGGATGAGCTCAGTGTACCATGG
M
TAGAGTGGCTGGCAGTGGGGAGCTGTTGGAGGACATTAGGAAGGGAAGGGAAATGATTGGATTTGCATTTAGAAAGTTAAGGCCTTCCAAGTGCCTTCTG
Celera SNP ID:            hCV937759
SNP Position Genomic:     13633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29858):
ATTCCCCAATAGATAGGTTCTCTCTTAATGCTGTTAAAGTCAAGTTCATAAGCCTGGACCATGATGAATTTACCAAGGTAAAAGTCACCTCTGATGCCAC
Y
TGTCAGCTGGCCAGCCAGCCTGCCCTGATGACACTCCTGTCTCTTCAAGCACATTTCTTTCAGACTCCTGTGCTTCCTAGCCACATTCATCTCAATCAGC
Celera SNP ID:            hCV27842890
SNP Position Genomic:     1553
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,28)   caucasian(T,40)   total(C,8|T,68)
SNP Type:                 hmCS


Context             (SEQ ID NO:29859):
AACTCTTATTAACATCCAGCTGATTTGCATATATCTGCATTCACTGGGGCTTCTCCATTCTGGTTTTATTGTAAATGAATTGCTCAGAGGAAGAAAGGGA
W
GGATTATTTCACTCCTTTTTTTTCCTCTTCTTTCCCCCTATTCCTAGGGTCTCTGTCTGGAAATTTCCCCCAGATGCGTGAAGGTGTGTGTGGTGGAAGA
Celera SNP ID:            hCV27829383
SNP Position Genomic:     3745
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,3)   caucasian(A,40)   total(A,73|T,3)
SNP Type:                 hmCS


Context             (SEQ ID NO:29860):
AACTGAGGCCGACCTGGGCCGTGGGCGTCCCCGCCTAGGCGGCAGCCGGCCCCGCAAAATCGACACGATCGCGGCGGACGAGAGCTTCACGCAGGGCGAC
M
TGGGTGAGCGCAAGATGAAGCTGAACACAGAGGTGCGCGAGATCGGACCGCTCAGCCGGCGGGGTTTCCACCTGGCCTTTCAGGACGTGGGCGCATGCGT
Celera SNP ID:            hCV25990847
SNP Position Genomic:     9306
SNP Source:               Applera
Population(Allele,Count): african american(C,20)   caucasian(A,1|C,23)   total(A,1|C,43)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:29861):
AAAGTATGTGACAAAGACTGTGGCTACTGCTGGGGAAGCTGCCGGAGGACCAGGCCAGTGGGAGCTGAGCTAGATTATCTCTGAAGGTCTGACCTTGAAG
R
GAGGGAGGGGCTGGCAGTCAGGAATCCCTGAATCTGCTCTTCAGCACAAACTCCTTCTAAGCAGAGCCTCTTACAGCAGAGATACCACTGTGGTCGCTGA
Celera SNP ID:            hCV3122380
SNP Position Genomic:     14543
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29862):
ATTTTGAAAATTAAGCAGAGAAAATCTTTAAGATTATGAAGCAAAACTACTTACTCTTTATGATCCTGCCAAGGATCAGAACATGGCAGCAGAGAAGTCC
S
AGGTCTAACTGAATGTCCAGACTCTGTTGGATTCAGCACCATAGACAGAAAGCAGCCCAAAGCTGCTGAGGGCTGAGGGTTGAATGCCATAGACAGATAC
Celera SNP ID:            hCV3122382
SNP Position Genomic:     3341
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|C,8)      total(G,7|C,8) ;(G,-|C,-)   (G,-|C,-)   Caucasian(G,29|C,49)   total(G,29|C,49)   no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:29863):
GCTGCAAGTGTTGCTGCCTCCCCGAGGGTCGCCCCTCCTTAAGCCAAGCCCACCTTGCCTGCCTACTTCTCAGGAATGAGGAGCTAAGGTTTAGCGCTCT
R
GGCCACCGATGCCAGCTCATTCCCCTCTCGCAGAAGCCCTGCCAGCTCCCACAGCTGCCCCACCCCCCACGGTTTGGAGATCTGCGGGACCCCTTCCTTT
Celera SNP ID:            hCV3122383
SNP Position Genomic:     5669
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:29864):
AGGTTTAGCGCTCTGGGCCACCGATGCCAGCTCATTCCCCTCTCGCAGAAGCCCTGCCAGCTCCCACAGCTGCCCCACCCCCCACGGTTTGGAGATCTGC
R
GGACCCCTTCCTTTCCCCACCAGTTGGGTGTTCCGCCCCTGGCCTATGAAACTCCACCTTCCCACCCTCTGCTGGCGGGGATTGGTTGGCATCCCGCGGC
Celera SNP ID:            hCV3122384
SNP Position Genomic:     5755
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,7)      total(G,7|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:29865):
CTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCGTGCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGA
Y
GGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCTACCTAGGCCTTCCAGAGTGCTGGGATTATAGGCGTGAGCCAC
Celera SNP ID:            hCV1918024
SNP Position Genomic:     10151
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,11)   total(C,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29866):
GATGATGGTGAGCGGTGAGACTCCGCCCCCCGCTGGCTCTGGGGTCTGGGGGCATTGCTCAGCGGTGCTAGGCTGGCGCGGCTTGAGCCGCCGCCGGACT
K
ACAGCTCGGTCTGCGGACCATGGAGACCTGCGCCGGTCCACACCCGCTGCGCCTCTTCCTCTGCCGGATGCAGCTCTGTCTCGCGCTGCTTTTGGGACCC
Celera SNP ID:            hCV3122385
SNP Position Genomic:     5980
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,40)   total(G,75|T,3)
SNP Type:                 TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,11)   total(G,11|T,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:29867):
ATTGACAAAAAGGACTTTGCATATGTGATTAGTGATCTTTTGAGATGGAGAGATTGTTTTAGATTATCTGGATGGGCCCAATAATCACAATGGTCCTTGT
R
TGAGGGGTGCAGGAGGAGCCAGAGTCAGAGGAGGAGGCAGTGTGATGACTGAGGCAGAGATTAAAGTGATGTGATTTGAAGATGGAGGAGGGGACCACAA
Celera SNP ID:            hCV3122386
SNP Position Genomic:     7681
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29868):
CTCAGAGCCTCCAAAAGAAAACAGTCCTGCTGACACCTTGACTCTAGACCAGTGAAAGTGGCTTTGGGCTTCTGACCTCCAGAACTGTAACAGAAAAATA
W
TGTGTTGTTTTAAGCCACTAAATTTGTGGTAATATGTTACAGCAGCCCCAGGAACTGAATACAAGCTCCTTCCCTACTGACTGTGGCTACCTCTCTCTGG
Celera SNP ID:            hCV3122387
SNP Position Genomic:     7939
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|A,8)      total(A,8|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29869):
GGCCTGTTAGAAAACATTGAGTCTTCAGCCAGTTAGACAGTCAAAAAAAAAAAAAAAAAGTGAATAAGTGAGGAGAGAACTGGCTGTCTAGGAACAGAAA
Y
GTGGCATCTGGATGGAGCTAATACAGGACAGTGGCTTGCACATAGTAGTAGATCCTCCAAGCAATGTTGTTGATTGATTGACACAGCAAGCAAGACTGGG
Celera SNP ID:            hCV3122388
SNP Position Genomic:     8521
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(T,-|C,-)   SC_12_C(T,1|C,20)   SC_12_TT(T,5|C,16)   SC_95_C(T,21|C,142)   total(C,178|T,27) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29870):
AGGGTGTGAAACATAAACAGAGAGCTAAGGAAGCATGGAAGGGAGAACCTAATTCTAAGCATGGAGAAGGCTTCCCAGAGAAGGTGAGAAGGTTTTTTTT
Y
CCCAGGCAGCTTAGAGCATTCTAAGCTTAGGAATTGCATGCAGAAGGATGGAGGCAGAAGGAACATAGCATGGCTGGGCCTATGTAACTAAATGTGGTTG
Celera SNP ID:            hCV3122389
SNP Position Genomic:     11645
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29871):
TGAGAGGAGGAGGTTTCTCTGGGAAATGTGGGAGAAAGAGAGAGAGAGAGAAAGAGACTCAGGAACCCAAACCATGTCTGATGAGAACAGAAAAAGGCCA
Y
TTGTAATGGCCTCAGCTCTGCCTTGGGGAGTGGGGAGCTGGGGACAATGCCAAGGAAAGCTTCACAAGGGAGATGTTATTTGAACTGGGGTTTGGAGAAG
Celera SNP ID:            hCV937761
SNP Position Genomic:     13446
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29872):
TTCATTGTTGTGTATCTATAGAGCCTACCTAGTAGATGCCAAAAAATATTTGCTGAATGAATGGATCAGGAGTGAGAGGAGGAGGTTTCTCTGGGAAATG
W
GGGAGAAAGAGAGAGAGAGAGAAAGAGACTCAGGAACCCAAACCATGTCTGATGAGAACAGAAAAAGGCCATTTGTAATGGCCTCAGCTCTGCCTTGGGG
Celera SNP ID:            hCV937762
SNP Position Genomic:     13374
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(T,7|A,16)   SC_12_C(T,9|A,15)   SC_12_AA(T,5|A,18)   SC_95_C(T,49|A,126)   total(A,175|T,70) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29873):
AGCCTCTCCTGATGACCTTTCTTTCTGCAGGTAAAGAAGACCAATTCCTCCCACCTACTCCTCCTATTGCTACTGTCCAGCAAGTATGTCTGAGTGGGCA
M
GTGTGCATTTACTCGCACATATACACAAGCACACACGCAGAAATGGCACATGAAAGCGGGTTGTAAATGGCCAGTGATCTACGATGCCAGGAATCCTCCT
Celera SNP ID:            hCV8858988
SNP Position Genomic:     4457
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,3|C,37)   total(A,3|C,75)
SNP Type:                 TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,11)      total(A,1|C,11) ;no_pop(C,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:29874):
TGGACTCCTTGCACAAAGCCTCTGTCCCGCTCACGGCTCTGCAGTTGGCCTCGCCGCTGATTTCTCAGGGAAAAAGAGGTGGAAAGTCCCTTAATCTCTT
M
CCTTCCCTTTAAAAAAATGTCAGTAGGAATCCGAATTTACTTCCTTCCCTCTGTCTCGGGAAGCCGGATCCGGCCCTGTGTCCCTTACCTCCAACCCTCG
Celera SNP ID:            hCV937749
SNP Position Genomic:     18556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:29875):
ATAACTCTGAAAACTGTTTTTGTTCCTATTTTACAAAGAAAGAAGTGGAGGCTCATAAAGGGTAAGTGGTTGTGTTTCATAATCTTAAAGGTTTTCTCTG
S
TGAATTTTCAAAATTAGTAAATTAAATGCTTTGTGCTTCCTTTATCTAAGAAAATACAGTTTAGGCCAGGCATGGTGGCTCATGCCTATAATCCCAGCAC
Celera SNP ID:            hCV937766
SNP Position Genomic:     2306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:29876):
GGGTCGGGGGGCGGTGGAGAAGCCTTGGACTCTGGAGCCCAAGGAGAGCCCTGAAGTCTTGTGGAGTTTCCAGTGAGTCCAGTCAGGGCCAATGAGTGAA
Y
TTACTAGATGAAATTGACTGGCTAAGGAGGCATTAGGGATCTATATCTTAGGCACCTTGCACAGGCCTTCTCGTTTATTTATTTTCATGGCAATAAAGGA
Celera SNP ID:            hCV27034988
SNP Position Genomic:     9852
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29877):
GGTTTCCACCTGGCCTTTCAGGACGTGGGCGCATGCGTGGCGCTTGTCTCGGTGCGCGTCTACTACAAGCAGTGCCGCGCCACCGTGCGGGGCCTGGCCA
M
GTTCCCAGCCACCGCAGCCGAGAGCGCCTTCTCCACACTGGTGGAAGTGGCCGGAACGTGCGTGGCGCACTCGGAAGGGGAGCCTGGCAGCCCCCCACGC
Celera SNP ID:            hCV25961695
SNP Position Genomic:     9469
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,35)   caucasian(C,40)   total(A,3|C,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:29878):
CCCCAATATGTCAATGTCCTAATCCCTAGAACCGTGAATGTTAGCTTAATTGACAAAAAGGACTTTGCATATGTGATTAGTGATCTTTTGAGATGGAGAG
R
TTGTTTTAGATTATCTGGATGGGCCCAATAATCACAATGGTCCTTGTGTGAGGGGTGCAGGAGGAGCCAGAGTCAGAGGAGGAGGCAGTGTGATGACTGA
Celera SNP ID:            hCV937767
SNP Position Genomic:     7633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29879):
GTCCAGGGAACTTTTACTGGCCCTTCTCTCTCCACCCACCCCCCTCCACCTGGCTGGCTTTACTTCCAGTTGGGAATTTATGACACACTCACTCACATGA
K
GGTGGTGGGAGGGTGTGTGTGTGTGTGTGCATGTATGCTTGTGTGTCTGTCCCTGCGTAACTGTGGAACAGCTCTTGGGGCACCTCTCCTCCCCTCTCTT
Celera SNP ID:            hCV27034989
SNP Position Genomic:     15703
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2|-,8)   total(G,2|-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29880):
GAGTCCTAAAAGAGGCTTGGAGACTTGGGGTAGGGGAGGATGATGTGGGCTGTAACAGCAGCTTGGTGGAGTGCAAAGGGCACTGGTCAGAGAGTCAGGA
R
ACTACAGGCACCATTCCTAGCTCCACCACTAACTTGATGTGCATACCTGGTCAGATCGCTCTCCCTCTGGAGCCTCAGTTTCCCCATCTATAAAAATAAG
Celera SNP ID:            hCV937768
SNP Position Genomic:     8721
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29881):
TGCAGGAGAAAGAGCACAAGGGCTGAACTAAGGTAGTGGCAGAGATCATTGAGAGATGAGGATAGATGGGATCATGAGTTAGCATCCACAGCACTTAGTG
M
CCATGTGATACAGGAGGAGAAAGGAGTCCCCTTTGACTTACATGCTACTGGGGATTGAATGGACAGAGGGATCATTCACTAGGGTACAGAACACAGGACC
Celera SNP ID:            hCV937769
SNP Position Genomic:     12101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29882):
CTGAGGAGAGCGCCCCTCCGCTGCCCTCTCCTCACCCTGCCTACCCTCCAGCCGAAAGGGGGGCTCCCGACCTTCGCACCATCGGTTCGGTCCCCATGCT
S
CCATCCTCGGTTCCTCACTAACCTCCTCCCAAATCCTCACCAACTGCCCCGCCACTCTCACATTCCGACCTCCCAAGGGCCCCCACGCCCCCGTCTCTGA
Celera SNP ID:            hCV9644261
SNP Position Genomic:     17207
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,5)   total(G,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29883):
TCCTTTCCCCACCAGTTGGGTGTTCCGCCCCTGGCCTATGAAACTCCACCTTCCCACCCTCTGCTGGCGGGGATTGGTTGGCATCCCGCGGCGGTGCCTA
S
TGATTGGTTCCCATGGATGATGGTGAGCGGTGAGACTCCGCCCCCCGCTGGCTCTGGGGTCTGGGGGCATTGCTCAGCGGTGCTAGGCTGGCGCGGCTTG
Celera SNP ID:            hCV25968502
SNP Position Genomic:     5864
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:29884):
ATTGCTCAGAGGAAGAAAGGGAAGGATTATTTCACTCCTTTTTTTTCCTCTTCTTTCCCCCTATTCCTAGGGTCTCTGTCTGGAAATTTCCCCCAGATGC
S
TGAAGGTGTGTGTGGTGGAAGAGGGTAGAAACCAGACTCCAACAGTCAGGTATTTGCCAGAGCATCCTATGTAGATTTCCCCAGATAATTTCCCCCATCT
Celera SNP ID:            hCV27837198
SNP Position Genomic:     3823
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,27)   caucasian(G,40)   total(C,9|G,67)
SNP Type:                 TFBS


Context             (SEQ ID NO:29885):
CTGAGGCCGACCTGGGCCGTGGGCGTCCCCGCCTAGGCGGCAGCCGGCCCCGCAAAATCGACACGATCGCGGCGGACGAGAGCTTCACGCAGGGCGACCT
S
GGTGAGCGCAAGATGAAGCTGAACACAGAGGTGCGCGAGATCGGACCGCTCAGCCGGCGGGGTTTCCACCTGGCCTTTCAGGACGTGGGCGCATGCGTGG
Celera SNP ID:            hCV25962981
SNP Position Genomic:     9308
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,36)   caucasian(G,38)   total(C,2|G,74)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:29886):
GCCTGGCAGCCCCCCACGCATGCACTGCGGCGCCGACGGCGAGTGGCTGGTGCCTGTGGGCCGCTGCAGCTGCAGCGCGGGATTCCAGGAGCGTGGTGAC
W
TCTGCGAAGGTATCCAGTTGGCTGGGGGCCGTGGGGTGGGAGTGTAGAGCGTAGGTGGCAATTGAGAGAGAGTGTGCCCTAGAGGAAAGAGGCGGGTGTG
Celera SNP ID:            hCV25969074
SNP Position Genomic:     9651
SNP Source:               Applera
Population(Allele,Count): african american(A,14|T,24)   caucasian(A,11|T,29)   total(A,25|T,53)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:29887):
ACCGCCGAGGAAGGTGAGAAGACTGGTGAGCTCTGCTCGGAGCGTGGCATACCAAAAGATAGGGGGCTGGCGATGGGGGTTCTGGGGGAAGGAGTCATTG
S
AGAGACTAGAGTCTGTATTGGGGCTTGAAGCAAGCAGGCAGCAAAGAACTGGAGAGACAGAGAAAAATGTGATCAAGCAGTAGCGAAGAGAGGGGCGCTG
Celera SNP ID:            hCV25966654
SNP Position Genomic:     6193
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,31)   caucasian(G,36)   total(C,3|G,67)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29888):
CATCTGTTTGGTTTCTGAAAGATCCTTGTCAGGTTCAGAGGAAGTCTGTATTTTGTTTTAGCACCGAGGGTCAGAACCTCTGGGCTGAAGTCCCTGGAGC
Y
TCAGTAAGAAGCCATGATTGGTGCCTTAGAGCCTGCTAAGGGGATGGAACCCGGTTTTAAAGAGGAGTGAGGGGTGGTGGAGTGAGGACTCATTTTGAAA
Celera SNP ID:            hCV27844884
SNP Position Genomic:     4019
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,1|T,39)   total(C,2|T,76)
SNP Type:                 hmCS


Context             (SEQ ID NO:29889):
TGAGTGGGCACGTGTGCATTTACTCGCACATATACACAAGCACACACGCAGAAATGGCACATGAAAGCGGGTTGTAAATGGCCAGTGATCTACGATGCCA
K
GAATCCTCCTTACACTCGGCGTTCAAAGAGGTATGGACTCTGGCAGAGACAGCGTGGTTCACCAGGGCATCCGCAGCACAGAGCATGGCGCCCAGTGAGG
Celera SNP ID:            hCV27844885
SNP Position Genomic:     4547
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,39|T,1)   total(G,77|T,1)   
SNP Type:                 hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,39|T,1)   total(G,77|T,1)
SNP Type:                 hmCS


Context             (SEQ ID NO:29890):
AAAAATACCATCTCCCAGAGGTGGAGGCAGGGGGAGGGGAGAAATCGAGCGTGAGGAGAATGAAGATGGAAAGGAGGTGGCAGTGTGAGAACCCTTCCTC
R
GGTAGGTCTGGTTTTAGAAGTCCCGCCTGCATCCAAGGACTGGAGGGATGCCACACCTCCTTCTGCTTCCTCAGGGGGCTTGTCTCCTGTGGTGTCCAAG
Celera SNP ID:            hCV27854775
SNP Position Genomic:     4252
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,1)   caucasian(A,30)   total(A,49|G,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:29891):
GCGGAGGGTGGGGGGTGGGAGTGGCCAAGAAGGAAGGCCTGATCCAGGTGGTGGTGAGGGCAGGGTCTCCGCACTGGGGCGCACGTGGGCGGATATGGGG
R
CCAGCGCCCCGGAAGGCGGCGTACGGGGGAGCGGAGCCTGGACGCGCCCTGGGGGCCGGGGCCTTTGATGAGAAGAACCAGGACAACTGCGAGAGTCCAG
Celera SNP ID:            hCV3122373
SNP Position Genomic:     16973
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,14)   caucasian(A,23|G,11)   total(A,39|G,25)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29892):
CTGACTGTTTTTCTATCGCAATTGGAGGAGATAAACGCTGCCCTAACCAGGCCAGTCAGGAAAGCGGGGAGAAACTGGAGGAGCCCCCTCTTCTCACCAG
Y
CATGCCCTGCAGCCTGTCCCCCAGGGTTTTACAAGGTGTCCCCGCGGCGGCCCCTCTGCTCACCGTGCCCAGAGCACAGCCGGGCCCTGGAAAACGCCTC
Celera SNP ID:            hCV3122374
SNP Position Genomic:     16679
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,1)   total(C,73|T,1)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29893):
GGGTTGTTCAGGAGTCACTCCACGGGGCAGTGCTGACTGGAGTGGCTGAGTCCCCTGACTGTTTTTCTATCGCAATTGGAGGAGATAAACGCTGCCCTAA
M
CAGGCCAGTCAGGAAAGCGGGGAGAAACTGGAGGAGCCCCCTCTTCTCACCAGCCATGCCCTGCAGCCTGTCCCCCAGGGTTTTACAAGGTGTCCCCGCG
Celera SNP ID:            hCV3122375
SNP Position Genomic:     16625
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,32)   caucasian(A,4|C,22)   total(A,6|C,54)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29894):
CCTCCAGGCTGCACTGCGGAGGGTGGGGGGTGGGAGTGGCCAAGAAGGAAGGCCTGATCCAGGTGGTGGTGAGGGCAGGGTCTCCGCACTGGGGCGCACG
K
GGGCGGATATGGGGACCAGCGCCCCGGAAGGCGGCGTACGGGGGAGCGGAGCCTGGACGCGCCCTGGGGGCCGGGGCCTTTGATGAGAAGAACCAGGACA
Celera SNP ID:            hCV25965117
SNP Position Genomic:     16958
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(G,4|T,32)   total(G,4|T,64)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29895):
CTTTACTTCCAGTTGGGAATTTATGACACACTCACTCACATGATGGTGGTGGGAGGGTGTGTGTGTGTGTGTGCATGTATGCTTGTGTGTCTGTCCCTGC
R
TAACTGTGGAACAGCTCTTGGGGCACCTCTCCTCCCCTCTCTTTCTCACACCAGCACTGCAGAGTTTGACTTATTTTCTTCCAGTGGTCCTGAGGGTGGT
Celera SNP ID:            hCV3122377
SNP Position Genomic:     15760
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29896):
CGTGGGCGCATGCGTGGCGCTTGTCTCGGTGCGCGTCTACTACAAGCAGTGCCGCGCCACCGTGCGGGGCCTGGCCACGTTCCCAGCCACCGCAGCCGAG
R
GCGCCTTCTCCACACTGGTGGAAGTGGCCGGAACGTGCGTGGCGCACTCGGAAGGGGAGCCTGGCAGCCCCCCACGCATGCACTGCGGCGCCGACGGCGA
Celera SNP ID:            hCV25961644
SNP Position Genomic:     9492
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:29897):
GATTATCTCTGAAGGTCTGACCTTGAAGAGAGGGAGGGGCTGGCAGTCAGGAATCCCTGAATCTGCTCTTCAGCACAAACTCCTTCTAAGCAGAGCCTCT
Y
ACAGCAGAGATACCACTGTGGTCGCTGATGGGCCCACCCACCTCTAGGACAGCAGCCACCCTCATACACTTGTGGGGAGGGAGCCTCCAGCATTCTTCCC
Celera SNP ID:            hCV3122379
SNP Position Genomic:     14615
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29898):
GTGTGCGAGAGGGACTGAGGATGCAGGCGTCCCCTTACTACTGGGCCAGAGGGGAGGCGCGCGGTTCTGTTGCGTCTGCGGGAAGCACCTGTGTGCTCGC
Y
TTTCTCCTGGACTCCTTGCACAAAGCCTCTGTCCCGCTCACGGCTCTGCAGTTGGCCTCGCCGCTGATTTCTCAGGGAAAAAGAGGTGGAAAGTCCCTTA
Celera SNP ID:            hCV937750
SNP Position Genomic:     18448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   SC_12_T(C,7|T,14)   SC_12_C(C,9|T,15)   SC_12_TT(C,3|T,18)   SC_95_C(C,52|T,129)   total(C,71|T,176)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:29899):
TTAACAACCTGTGTTCTGAGAAGTGAGAGAAGCAAACTGAGTAGGTGTCAAGACTGGAACCAGGTCTGACTCATGGTCCAGGGAACTTTTACTGGCCCTT
Y
TCTCTCCACCCACCCCCCTCCACCTGGCTGGCTTTACTTCCAGTTGGGAATTTATGACACACTCACTCACATGATGGTGGTGGGAGGGTGTGTGTGTGTG
Celera SNP ID:            hCV937751
SNP Position Genomic:     15628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29900):
GGGAAGTTGCACTAGATGATTACGAAGATCACATCCCACTCTCTGAACTACAATCACTGTGCTCCCTGGGGGAGATCCTTCATGTTGAGGGTTTTGCTGG
S
TTCTCAGGCTAGTGGGGGCATTAGGAACAGACCTCTCATTCTCTCTCTTGCCTGTGGCTTTGGATACAGAGGGTGATGATGGGGTTATTAATGTGTGTAC
Celera SNP ID:            hCV8858990
SNP Position Genomic:     10657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,15)      total(G,15|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29901):
GGCCAGGGAACAAGGTGAGGACCACCCAAGTTCTGAGAGGTAGGGCCAGGAACCAACTGGCCCAGCTGGTGAGAAATTTTTTTAAAGTGGGTGTTTAGCA
R
TTACCACTTAAGGCCTGTGGGGGAGGAACAGTAATTACTATCATTATTGTGAAAATGTGGTTGGTACTGGGCTAGGTGGTTTACATGTTTTATCTCAATC
Celera SNP ID:            hCV937752
SNP Position Genomic:     15292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29902):
AAATGAGTCAGACATAGTCCTAGCTCTCAAGAAGCTCACAGTCTAGATGGAGAGATGCAAAAATTTAAAAATCACAAGAGGGTAATATATGCTATAACAG
R
GGGATACACAGAGTGGTGGGAGGACAGGGGAGGAAGTGACTAAATTTGCTCTCATTCCTTTGTTCAATCATCCATCCAATATGAATTGAGGATGTGCCAG
Celera SNP ID:            hCV8858991
SNP Position Genomic:     10924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29903):
GGATTCAATGAATTAATAGACGTAATTTAAAAAATAATAAATAGAGACGGGGTTTGGCCATGTTGTCCAGGCTGGTCTCCAACTCCTGGGCTCAAGTGAT
C
CTCCAGCTTTGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCTGAAAGTAAAATGTTTCAAAGTTTTCCGAACACACAGCGTTTT
Celera SNP ID:            hCV27034990
SNP Position Genomic:     16409
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,6)   total(C,6|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29904):
GCGTCTTCTTGGAGCTGGAGAGCAGCCAGCTAAACTAGAGGAGAGGGCCAGGGAACAAGGTGAGGACCACCCAAGTTCTGAGAGGTAGGGCCAGGAACCA
M
CTGGCCCAGCTGGTGAGAAATTTTTTTAAAGTGGGTGTTTAGCAGTTACCACTTAAGGCCTGTGGGGGAGGAACAGTAATTACTATCATTATTGTGAAAA
Celera SNP ID:            hCV937753
SNP Position Genomic:     15247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Gene Number:                 125
Celera Gene:                 hCG2031782 - 104000117834672
Gene Symbol:                 EBNA1BP2
Protein Name:                EBNA1 binding protein 2;EBP2;NOBP;P40
Celera Genomic Axis:         GA_x5YUV32W802(39869234..39978972)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12285):
TTCCTTTACCCCTTCCCTTAGGGGTTTGAAGGGAAATTTTTGGATGGGAGAAACAACACCTAAAAGCTTCGTTGGTTTAAACATTGATTGGGCAAGTCTC
TATTCTAGTTCTGGGTCTTATCAAGTAACTTGGAGTCAAGTGGAAAGGCAGGCTCTTCACAGGGCTGTTGAACTCTGTCCCCAAAGCAGAGGTTGTTGGG
GTAATTCAGATTGGTGACGGTGAAGGTCAGGAGGAGGAGGTGGCCGTGGGCACAAAGCGGAAGGTGCGGACGAACCACCCGCAGATCCACAAGAAGGTGG
TGAATGGGAGTACTGTGGGGAGAACACAGAGGCTGTGGGGCTGTCTCCCAGCTTCTGCCATGTTCCCACCACAGGCTGTTCTCAACCCAGTGGCCCGAGT
GATTCAGTTAGGAGGTGCAGAGTCCCTCCAGCAGCCCGCCTTCCTCAGAGGAACAGAGTCCTCCCACCGCCATAAGGCCCTCTCTGGCTTCATTCCTATT
GCCTCAGAGCCTCTGCACCAGCAGCTCCATCTGCCTGGAATGCTTCTGACCCACATGGCTCCCTCCCTCCCTCCCTCCTTCAGGAATGTTCTCAAATGGC
ATCTTCTCAGGGAGACTTGTTGGCCACCTCATCTCAAATTGCAACCTCCCAGTACTTCCTATCCCCTGCCCTTGTGTTTTATTTCCTTATGTTTCTCCTC
AGCACTATCACTCTGACATGCTATATATCTGTCTTATCAATCTGAAATGTTGTCTCCTAGATTGTAAGCTTTATGAAGGAAAGATTTGTGTGTGTTTACT
GTCCTATCCCTACCTCCTGGAATAGGACTGGCATAGAGTAGGTGCTCAATAAATGTTTGTTGAATGAATAAATGGTGGAAAGAACACTGGATTTGGAGCT
AGATTGATCTTGAAGGTTCAAGCCCCAGCTCTAGCTGTGTAACCGGAGAAAAATTGCTTAACCTCCTTGTGTCTCAGTCTCTTTCATTTGTAAGATGGGG
ATGACAGAACTTAGTTTATATAGTTGTAAGGGGATTAAATAATATAATTAGGCCGGGCACGGTGGCTCACAGCTATAATCCCAGCACTTTGGGAGGCTGA
GGTGGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCCGGACAACATGGTGAAACCTCATCTCTAATAAAAATATAAAAAATTTGCCAGGTGTGGTG
GCACATGCCTGTAATCCCAGCTACTCAGGCGGTTGAGACGGGATAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTAAGCTGAGATCGAGCCACTGCAC
TCCAGCCTGGGCAACAGAGCAAGACTACGTCTTAAAAAAAAAAAAAAAAAAAAAAGAATGAATCCATTCAGCATCCACTGATCGTATCCCTCCTGTGGAC
CAGGTGTTGTGGGGGTGCTGGAGATATAGTGTTAAGTGGAGAGGCACTGTTCTTTCCGTCCTGAGGACAGTCTCAGGGAACAATGGGCATAAGGCATAGC
ACCTACAGGCTTCCAATGCCTCCAGGCACCCACTCCCTTCTCAGTGAGTGACAGTTCCCTGAGATAGACATCTTTTGGAGTATTGGTCCCATTCACCATG
ACCATCCTCACTGCAAGGAAGAATCCCAACGACCAGATTATGTTTTCTGACCCACCACTGCAGCTATAGTTGATTAGACAGAGCCTCCGACTCAAGCTAG
GCACCTAGATAGGTGAGTGTCCTTTGTGGGTCCAGACAGCAGGATCTGCTCCTCTCAATCTGGGAAATTTTTAAAGGAATTTCCATTTGTAGACGGAACA
AGCCCAACTGACCGAGAGGGAAGCACCATGACTGTTTCAGGATGGACACTCTTGGGGACTTGTTTGTACTTGTGTGTTATGTCCCGGCAAGTGAGCGTCT
TTTTTGGGTAGCAGATGGCGGGGTCAGCTCCTCTCAATTTGGGAAATTCCTTAAGGAATTCCCATTTGCTGGTTGATCAAGCCCAAACACAGAAGAGAGA
GGAAGCACCCTGACTTTTCAGTTTGGACACTAAGGGCTTGTCTGTTGCTGCAGTAGTTGGATAGTGTTCTGGTGATTGTGTGTATTTGATATAGGCATGA
GGAATTAGAATTTAATTTGGTAATCTTTTGCAATACTCTTTGGCCCCAAAATTGTTTGGAATCTGGAGTTTGCTGTTGAATGGGAACGTGGGATGGAGTT
GCATGTATCCAGGCTTTTGTTCTGCTGTTTTAAGCAGAGTCGGGCCTAGTTAATATGTAATGTTTTCCTTTGGTGCTGTTTAGCCCCAGTGTTCTTTGGA
GTCTGGGGAGGTTTGGCCCTTAAAAATCAAACTGCCATGAAAACTGCTTTACCCAAAATTTTGGCTCATAGCCTTTGTTGGATTACCTATCAGGGCAAAC
AAAGTGTAACCATGTAAAGCCGGTGAGTTTGTATTGCTATGGCATGGGTAAAGTTCCAAGGTATAAGCTATTGAATTTTCGCTTGTGTATGTGTCTACAT
ACCTAGATGTGTTTATTTGTATGTACACTTACTGTTATATGTTGTGTTGGCTTATAAGAGCACTCATAAATTAAGCAAATAAGTCTAAGCAATTTTCAAG
TTCACATGACTTAAGTAAATCTTTACTAAACACACTGGTTTTAAAATTATTGGTAAAATGAAAATATAAATGTCTTCAGAATTGTCAGCATACATTTCTG
TCTGGATTTTATATTTGTCTCTGTTACATAGTTTGAGGCATCAGAGTTTGGCATAGAAGGTTATAAAACTATAAACCCAGCCCAAACCAAATGATCTTTG
TGCAAATTTTTTGATAAGTAAGACTAATGAATGTGGTTGGTTTAATGAAAACAGCTGAATTTCTGAGTTATTAGTTAAAATACCTATGTTTTCAACTTGG
AGGCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGG
TTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATCACAGGCGCCCACCACCACACTCGGCTAATTTTTTGTATTTTTAGTAGAGATGGAGTT
TCACTGTGTTATCCAGGATGGTCTCGATTTCCTGATCTCGTGATCCACCCGCCTTGGACTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCG
GCCCTTAACTTGGAGGCTCTTAAGTGAGCACCTGAAGTTCACTGGCTATGAAAAAACTGGTTAGGCTGGGTGTGGTGGCTCATGCCTGTAATCCCAGCAC
TTTGGGAGGCTGAAGCAGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAATGTGGTGAAATCCCATCTCTATTAAAAATACAAATTAGCT
GGGTGCGCTGGTGCATGTCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGTTGAGACTGC
ACCACTGCACTCCAGCCTGGGTGACAGGGTGAGACTCCATCTCAAACAAACAAAAAAAAAAAAAAAAAAAAAAGGAAGAAAAAGAAAAAAGAAAAAAACT
GGTTAACAAGGAAATAACCAACTTTAAATGATGGTGTTTAATAACTGTTTTCAGAAGTAATCTAGATAAACTGTTAAAAATGAAAGAATTGAATACATGT
AAATGGGATAAATGTTTTAGGTAAACTTTTTGTGTAATTTTAAATCTTAAAATTATTTTTGATGCTCATTGACATCTGGGTCATTTTCAGTTAAGAAAGG
GTTATGATATGGGGAAATATGTTTCTAGAAATTGTGGAATGGTTCTCAGCTATAAAATGCTCATATCTGATAGTTCAGGATTTATTGCTTCTTAGGGTTT
CACTAAAATTTAAGGTTACCAAGGATAAGAATTATAGTTAATATATAATTATGTCTATAAAATGTGCCACAAATGTGCTATTTAGTGAGAAAAAGAATAA
TTATGTCTAATTCAGAAGTTATCTAAAAGTAAAGTTAATTCAAATTATGGACTTGAAAATGATTATTTATGAAACAAAGTAGTAAGGAACCAGTAAGTAA
GGGAGAGAGGTGTGAATAAAGTCATGGATATGAAGATGTATTTTTGGCAAAGAAGATTGTAAAGAAAAGATAATAATTTTGTATGAGAAAGGATCTTGTG
TGGTGAATTTTTTGTGTTGGAGTAAAATGACTGGTTATTTAAAGTAAAAACAAGAAGAAAAAAATCTGGGACTGGATGGAAAGCCCAGGCATGTAGTGCA
TAGTCTGTGTAAGTTGTATGTAGTTTTTCTTGTTTCTCTGCACATGCAGAGAAAAATAGAAAGTTGAAAAAGTTTTGGCTGGGTGCAGTGGCTCATGCCT
CTAATCCCAGCTCTTTGGGAGGCTGACATGGGTGGATCACCTGAGGTTAGGAGTTTGAGACCAGCCTGGCCAGCATGGTGAAACCCTGTCTCTACTAAAA
ATACAAAAATTAGCCAGGCGTGGTGGTGAGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCA
GCGAGCTGAGATTGCACCATTGCACTCCAGCCTGGGTGACAAGAGCGAGACTCTCTCTCTCAAAAAAAAAAAATAATAATAAAAATAAGTTGAAGAAATT
TAGATAATAAAATGTTCTTTAAAACCTGGTAGAGAATTGGAGAAATTTGGATACTTAACATTTTCATAGTACTTAACATTTTCATAGTTAAAGCTCTTCA
TCTTGATGAAGGTAAAATAATAAATATTGCACAGAAATACATTAGCAGTTTGGCAATTCTTTTTTAATACAGTTAAGTATGAAGCCAGATTTAGTGTTGC
ACCAAATCTCACATACCTGCCTGCATTGCTTCACACTAGGTTTGCTGTTTTGCATGAATAGTGCTGGTGCTAGAGTACTTACTGGTCATGTGCCTAGAGT
GAATTTCTTGATTTCACAGGATGTATGGTGATATTGGTGGACTTAAGGATACTGAATTGTGTATGAGGAATAAAATATTCATCACGTGTTTTTTTTTTTG
GGCTCTGGATAGCATGGTAGCCTCCAGGGTAGACTAAGTTGAGGAAAGGTTGGGGTTGGTTTCCTGTTTGTTTTTGCTTCTAATTTTCATTTGTTTGCTG
TTTGTTCTGCTTTGCGTTTTGCTTGTGTATGTATATATATATAAAACAATGTATGGTTTTTAGTTTCTAGTGGAAGGCTTTTACTTTGTTCTGTGAATAG
TTATTTTGTTTTCTGTGCATTTCTAGGAAGTCATCATTTGTTCTGTTTATCTGGAATTCCTAGGCTACCTTTGTTGGGCCTGCAGGAATTGATGGAGCAC
ACCAGCCATTTGGAATTTGGTTGGTTTTGCTTGCCTCTGATGATCTAGAGCTAAAAAACAAAAGACTTATTTTTTTAAGTTCTGAACAGAAATAGTACAT
TATATATTTTGTTGTTTGGAGAGGTGGATAAGAGTGGAACTGTTTGCATGGTGTTTGTTTCCAGGGTGAGTCAACTGAATCAATAGTTTGGGTTGATTTC
AGATCATTTCCTTTAATGAAGAAAAACTGTGATATGGATACAAAGTTTTAATGTTCAGGAAAGATTGGCCTTGTCCTTAAGAAAATTATATTGATTAGAA
TTTCTCTCAAATGAATTTAAAGTGACATTCACTTGGATTAAGTAGTAATAAAAAAAAGGTGATATTTTCTAGTGATTTTGTTTTTATCTCAAGTAGTTTA
TCACTGATTGACCTTCATGTGTGTAACTTGAAAACAAAATATGTGCAAGTGTTGCACTGGTTTGAAGATTTTGGCAGTAAAAGTTACCTAATCAGTTGTC
AGTACTGTGTCTGGAAACCAGTCTTGGAAGTGTGATGATGTGCTTTTAAAATAGCTGAAAAGAAATTGTTTTGTACTTGTTCTTACTTTGTCCTTGTTTT
GTTGTATAGTATTGTGTCCAGAATTGGTTCCTTCCGGTGGGTTCTTGGTCTCACTGACTTCAAGAATGAAGCCACGGACCCTTGCGGTGAGTGTTACAGT
TCTGTTTTTTTTTTTGTTTTTTTTGTTTTTGATGGAATCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTACAAGCTCTGCCT
CCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGCAGCTGGGACCACAGGCACCCACCACCACGCCTGGCTAATTTCTTGTATTTTTAGTAGAGAT
GGAGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCATGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGTATTACAGGCATGAGCCACCA
CACCTGGCCTACAGCTCTTAAAGATGGTGTGTCTGGAGTTTGTTCCTTCCAATATTCAGATGTGTCCAGAGTTTCTTTCTTCTGGTGGGTTCGTGTTCTC
GCTTGACTTCAGGAGTGAAGCTGCAGACCTTCGCAGTGAGCATTACACCTCTTAAAGGTGGCATGTCCAGAGTTGTTTCTTCCTTCTGGTGGGTTTGTCG
TCTTGCTGACTTCAGAAGTGAAGCCGCAGACCTTTGCAGTGAGTGTTACAGCTCTTAAAGGTGGTGCGTCTAGAGTTGTTTGTTCCTCCCAGTGGGTTCG
TGATCTCCCTGACTTCAGGAGTGAAGCTGCAGACCTTTGCAGTGAGTGTTACAGCGCTTAAAGGTAGTGCGGACCCAAAGAGTGAGCAGCAGAAATTTAT
TGTGAAGAGTGAAAGAACATAGTTTCCACAGTGCACAACGGGACCCAAGCGGGTTGCCACTGCTGGCTCGGGTGGCCAGCATTTATTCTCTTATTTGGCC
CCACCCACATCCTACTGATCGGTCCATTTTACAGAGCACTGATTGGTCCATTTTTACAGAGTGCTGATTGGTGCATTTACAAACCTTTAGCTAGACACAA
ACACTGATTGGTGTGTTTTGACAGAGTGCTGATTGGTACATTTTTACAGAGTGCTGATGGGTGCATTTACAAACCTTTAGCTAGACATAGAGCGCTGATT
GGTGTGTTTACAATCCTCTAGCTAGACAGAAAAGTTCTCCAAGTCCCCACCCGACCCAGAAGCCCAGCCAGCTTCACCTCTCAGTATTTAAGTGAAAGGA
GATTATTTCTCATATTGAATTTCCAAAACTGATATTTGCATTTACCATATTTCAATGATAGAGGAAAAAGTTGTCTTAGTTTGATAAGTTTGGCATAGGG
CTTATCACATTTTTGATACTTTGGGTCACAGTTCTGTCACTAGAATACTAGCAATTAGACATATGCAATGAGTAACCTAACTACTTTAATACCCTGGTTT
GAAATACTGCAGGCAGTTATTCCTAAACACCAAATCACAGTGTTTTAATTTGTAACATGTTAGAGAAAACGACAGGACTTTCTGTAGTATAAATATCCTA
TTAATTAATGTTTGTGCTGTTAAGTTACAGGGCTTTGACTCTTGAGCCTCAAGAAGGCACCAACCCAATAAATTTTCAGCATTGATTCCAGTCAAATCCT
CAGGACAGTGATGCAAGGCCAGCGTCTGGGCCCATGTTTTGGAATGACAGGGTTGTCTTGGAGTATTGATCTGCTCTTTAATAGAAAATTGGGACCAGGC
ATGGGGGCTCATGCCTGTAATCTCAGCACTTTGGGAGACTGAAGTAGTGGATCACTTGAGGCCAGGAGTTCAAGACCACACTGGCCAACATGGCGAAACC
CTGTCTCTACTAAAAATACAAAAATTAGGTGGGTGTGGTGTTGTATGCCTCCCAGCTACTTGGGAGGCTGAGACACGAGAATCTCTTGAACCCAGGAGGT
GGAGGTTGCAGTGAGCCAAGATGGTGCCACACTGCACTCTTGAAAGCAGGTTTCTGATAACTTTGGAGATTGTGCCATTGGATTAGAGAGAAAACTTTCA
GGGCCCTTATTGAAAGGCTAATGTGTTCATATCCCAATATGAGGCAGAGCAGGAGTTGATTGCATGGACTGAACTAATAAGGGACTGAAATAATTTTTTA
ATGGCTTTTGTTGTTTGAAATATTGCCGATTCCTTTTGTTTTTCAGAGTCTGGAGAATTTTTTTCTTTTGAGTTATTTATATCCTTGAAATATACTTTAA
GTGTATTGAGTATACTTTTGTAAGCAGAATTTGAAACATGTTTCTCTCGCTGCCTAATTTCTCCAGAATATGGAAACTATTTGTGAATATTCTTTTTTTT
TTTTTGTCCTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTCACAACATT
CTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGGGCCCACTACCATGCCCGGCTGATTTTTTTTTTAAATTTTTAGTAGAGATGGGGTTTCACCAT
GTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCTGCCTCTGCCTCCCAAAGTGCTGGGACTACAGGCATGAGCCACCGTGCTCGGCTTTCT
TTGTACTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGACTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCTGCC
TCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCCACCACACCCAGCTGATTTTTTTGTATTTTTAGTAGAG
ACGGGGTTTCACCATGTTAGCCAGAATGGTCTCGATCTCCTGACCTCGTCATCTGCCTGCCTTGGCCTCCCAAAGTGCCAGGATTACAGGCATGAGCCAC
CGTGCCCAGCCGAATATTCTTAATTCATGGCAATGTGTTTCTTTTCATACATTTAATAAGAACCTGTTTTCTTTTGTAATGGGACACACTTGGAGGAACT
GGTTATTTTCCCAGTGCTTTGACTGAAATGGCCTTATGATAGGTTCCAGCAAAGCCAATTTTGGAGAGCTTATGTTGGCAATGATTCTTGCTGCACTTTG
TGTAGATAATCAGGTCAAGCATACGGGACCGAAGCCTATCTTGCAGGTAGATTGGTCCTGCTGTGATTYGTCTTTGGTGGAAGTGGCAGACTGGAGACAG
AAAGATTGTGTTTCAGAAGAAAACTCTATATTAGCTTAATCTTTGATTCCTCAGTGGCCACATGGTCACTCATGGTATGGAGCTGCCTATGACACCCCTC
CTCAGCATGAAGCAGCCAGGAAGATCGACAGCCAGATTCCTCATGATTGAGCAATTGACAAATAGAAAGTGAGCACGGAAACTGGCCCAAGACTCCCACA
GACTGTTCTTTTGGAGGAACATAGAAATTGATCCTTCTGCTGTTAAAGCTTGAAACTTGTATTAGTTTTATCTGAGYTCCTTCCTCAGGAAAGGACCTTT
AAAAAAAGTATCAGAGAACTGAAACTCACCAGATCACTGCACCAGATGCCTCCTTGCCCCTCTGTAGTCCTTGTTTTCTTACACATTGTTACATTTCTTC
CCTGGTAACATAMACCCCTAGTTTTAGTCAGGGAGATAGATTTGAGGCTGAGCTCTCATCTCCTTGGCTGCAGCACCTGATTAAAGCCTTCTTCCTTGGC
AATACTTGTCTTCTCAGTGATTGGCTTTCCGTGTGGTGAGCAGCAGGACCTGGACCAAACCTCGGGTGTTTCCCTAACATTCTCATAGTTCCACTTATAA
TACACTTAATATATTAATACATGCATTAGGTGGCTAGCACTAATTCCTATTTGTAGCCCCTGCCAAATCCCACCATGTGACACATAGCAGACGAGCAACA
TATACAAATTCTTGTATTCTACTGGTCATCGTAGGTGATTAGTCATGCTAGTCCCTCCTGCTTCCAGGTGCACAGGGCAGGCTTATTTTCTTGGAAATCT
GCTCCCCAGCCTACCTCAGCTCAGGGCAGTCTGGGCACATCTTAGACATGCTTGAAGCCTAAGTAGGCCCTTGAACCCCAGTGGTCTAGGAGAGCTCACC
CCATGGGAGTTCAGAAAGAGTGAAMCCCCGTTCCTGGCCCTAAGATGTCTTCCCTTTCACTTCTCACTCCGAATGCAGAGGAATGATTATAAGGGGGTCC
TGCCTGGGCACACAGATGTTCCCAGGCCCTCAGGTACCTCCTGGGACCAGCAATGGCTGGCCATATTTTGTATAAGAAGCAGGACAGTGATGCTAGAACC
TTCTGTAGGGCAGGCTTTTCAGTGTTGAGATAGCAGGACACCAGGGGAGCCTCAGCTAGGTAGCCCACACTGCTTGGCCACAGCTGATGCCAAAACTCTA
GAAGGTGAGAGGGCCCAGTGAGGAATTCTGGAGGCTATTATACCAAAGAGGCACAGCACTCCCCAAAGGCACCAGTCATCACACCAGAATTGAATGAGTA
CCTAGAGCTCAATGATGGACTGCAACCGGGAGAGCAAGAGTGGAGTCTGTGTGCCAATGCCTAGTCACTTGAGTGACCAGCAGGGGCCCTAAGGCTGCTT
ACAGGAGGAGGTGACTGCTAGGCCCACTCCAGCACTGTCGGGGCTGAAGCAGTAAASTGGATGAAGAGACTCGTGAAGGAAAAGGGGGCACCAATGGGGT
GAATGCCTTCAGTTTCCCCACGGAGTCTGGATAGACAAAAGTAGAGGGAGGTCTCAGATGCTAGAGAACCAATGCCTCCCGATGGGTGGATTAGGAGCAA
GCACTGAAGACAGAACATGGAGACATAAGCAAGATTGAACCTCTGGCCCTACATTTACTAACAAGAAGCTGTGTGCACCCCTGTGCAGCCAAGAAAAGAC
CTTGTTGACCTGCTGGCCAAGGTGCCAGGTTCTGCTAGGGTGGGGCCCTCCCTTGGCCCATACTTCCTCCTCACCAGCTGGACAGCATCCAGGTTTAGGT
TAGGCTTAGGTTAGCTTAGCCTGGGAGTTTCCACTCCTTTAACTTCTGATTTAGACTCTCAGGGTTTCAAGTTCCTATAACCTTCACTTGGCCTACAGTG
TTTTGTTTGGGCATCTCTCCAGTGCAGTGCGTAAGAGCAGCACCTTTGGAGTCACTGGGCCGACTGGCCTGCAGCCCCACCCCTGCCTGTGTGACTACGT
GCCAGTCACTTTACTCCTCTTTGGTTTGGATTTCCTTGTCTGAGAACCAAGGTCCATCTTGTACGTGGAATGTGACATCTCGATTCTAAGTCATTTTGCA
GTTAAAAAATCTATCACTTGAATATTGATATGTCCTAGCCATTAAGAATTTCCTTCTGGTCTTCAGGAAAGCTCCAGTCTCTAGTGCATTTTTCTTCTTC
CCAGGCCCCTGCTCCATGCACCTTGGTTTGGCTAACCCTCACCAGTCCTTAAGTCCGAAGAGTTCACGTGTCTTCCTCCCCACTGCCATCATCCTGGTCC
AAGCCACTGTCCTGTTTCACCTGGGCAACCACAACATCCCTTGTGTCCACTACTGCATCCCTTACCCTGTAGAACTCTCCTAGCAGGACAGACAAATATT
AAGCAACTAGACAGACATGTTACCGTGATGATTAAGAAGAAAAACGATGTGGTGGGTGCAGTTTAGATAGGAGGGAGTCAAGGACTGCCTTTCTGAAGAA
GTGCCCTTTAAGGTGAGATCTAAAGGATAAATAGAAGTTCACAAAGTGAGGTGTGGGGGCAAGAGCAGAGGGGGCAGAGGAAACTGTATGTGGAAAGAGA
TGAAGGCAGGAAAGACCTCGGCCTCTTGTACGAACTGAAAGGACGCCAATGTGGCAAGAGCTTGGTGAGCAGTGGCGGTGACTCCCAGCGGCTTAGCATT
GGCCTCTGGGTGGCCCACAGCTTCTGTGTGCCTTCACGGTCCTGCACAATCTGCCCCTGCTGGCCCCTCATCCCCAGTCTCATTTCAAGTCCGTTTCTTC
TTCAAAGGTGAAGCCAGCATGCTAGTTTGGAGTGGAGGAATCTGGGTCCTGGAAGATCCCACCTACCCATCATAATAATGTAATGGGCTGTCATCTTTGC
AGCTGAACCTCTCTGGGGGTGCCTGGATCCTTCCCTGCTCTCTGGATCTGGCTTCCCAGTGGGGCRAGTACATGTGAAGAACATGCCAGCAGGGGGGAAG
GGGCTGGCTGCTGTGACAGGGTGCAGGCTGGGTCGGGGTTGTTGCTCAGCAGACAGAGTCTCCTGCAGACCCTGTGGAACCCTTTGCTCCAAGGCCTTTG
CCTGCATGCTCCTTCTGCTACACCAGCCTTTGGGAGACCTTGCCAAATGTGACTGCCAAGCCTCAGCTCTCTGTGAAAGTCAACCCATGAGCAGTGCCCA
GACTTTCAGTAAAGTGATTAGGGAAAGATGGGACAATGCCAGGTTTAAGACAGCCATAGGTGACCAGCAGGGACSAGCAGGGACTGTGGGCTTAAATATT
TCTTATTTGGGTATTAGAGGGGCATCTGGCTTCTGCAKGTGGGAGAAGAGAGGGACATTGGATTATATTCTTTTGCTCTTTAATGCATAAAGAACTATCT
CTCCYGGTACCTGTGTGTGGCTGGGTCTCCCAGGATGGCGCCTGAGAGGAATAACCAGAGGGAGAAGTGCATCCTCTCTCACTCCAGAAATGGAGGAGCA
GAGCAGGACCCTGCAGAACAAAGATGACAAGTCTAGAATGACAYGGAGGCAAGGGAAATGAGGGCAGGGCTCTACTTACAGTTCCAAGAACAGGGTCAGC
AGATAATGTAAGACTTTGGGGAATTTTTCCAACACTTCCCATGTCTGTTATTTTACTGTCATCTTTTCCTTCTTCTTTACACAGATTAAAAAAAAAAAAA
ACCCTCAGAGGCTGGGCATGGTGGCTCACGCCTGTAATGCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACTTGAAGTCAGGAGTTCGAGACTAACCT
AGCCAACATGGTGAAACCCCGTCTCCACTAAAAATACAAAAATTAGCTGAGTGTGGCTGGGTGCGGTGGCTCACACCTGTAATCCCAGCGGATCACGAGG
TCAGGAGATGGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCCACTAAAAATACAAAAAATTAGCTGAGTGTGGTGGTGGGCGCCTGTAGTCACAG
CTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCGAGATTGCGCTATTGCACTCCAGCCTGGGCGACAGAGT
GAGACTCGTCTCAAAAAAAAAAAAAAAAAAAGTCCTTAGAAAGCCTCGCTGCATTTCCTGAAGGAGATAGGAATGAACAGGCTTTGGTCCTGCCTGAGCT
GGCAGAGGAGAGAGCCCAAGTCCAGTGTGATCTCTCAGTGCCAGGCAGTCCTGTGCCCAGAAAGGGACAAGCAGAGGTGGCTTCAGATGAGCTGGAGCCC
CCAGTCCTCAGCCTCCTCTCTTTCCCTCTTCTGGCCTTGGCCCCCCAGCTAAGCAGAAGTTAGACAAGGTGTGGGCAAACACCTTTATTCTGTGTCCCAA
ATTCCCCAGGGCAAGAGAAAGAGGTTGCTGGGGTCAGTGCTGCAGGGACCATACAGACTCCAACCGCAAGTCTGGCTTGGGGACAGACATGCTGTGTTTC
TTCTGGCTGTGGCTGGAGATGGCTCACCAGAGGGGGTCAGTTGGTCTTCACCTCTAAGTCTACCTCGGAGTTGGAGAGGGAAGGAAGCCGAACTCCAGCG
AGGGTGTGGAACCCTGTGACCTGCTCTTGCTCTTGGATCTGGTCTCTGAGGCGCTGGATTTCTAGGCGCTGCATTTCAATGATCCTCCCAGTTTCTTCTT
GCTCATTCAACCTTGCGGTGGGAGCTGTGCTGAGCATGTCCCTGCTGGGTTCTGTAAGAGACAACAGGACTCATGTGGGCCTGTCCATTGCACTGCTGCA
GAGCCGATCCTCCCCTCCTCCCTCCCTGCTTCCTCAAACATTTATTGGGCACCTACTGTGGAGCACTCAATCCCAGATGCTGGAGGTACAGTGATAAGCC
ATTTTGCTGTCTCGCAGAGAGATGGAGAAGTGAAGCAGCATACTTCAGAGTGATGAGGTGAATACTGAGAACCACCCCAGCCCAGCCCCTCTCCTGAGCC
CCCAGATCCGCCTGCACAGAGGCCCCCAMCCATGGAGGCTGCCCCTTCTCCCATTCTCCACATCCTAGCAGGATGGCACTCTTCTCCTGACCTATGTTGG
CTTCTGAACTGCCAGTCTTTCTCCTTGTGCAAAACCCCTGCTCCTGGAGACAGACCCCTTCGTGCCTCTCCAGGTGTGTCCACTCATACCTTGTTCCTTG
AGAACTTTCTCCCCTGAGTCATCCTCCCTGTCTCAGGTGCTGGCATCATCCTGGGCAATGGCAGTGTCCACCAGGGTCCACGGCTCACCCCTGCCCCGCA
AGGCTGAACTTGCAGCATTAGTGACCTTGGCCTCCACGCCATGCCAGCACCCACTCCTGTGGCTTCCCCTGATGCCATGCTTTAGGTCTTTCACTCTAGC
ACTGTTCTCTGACCACAACTGCTGTAACTGCTCTGTGCATGACACACATGATCTTGGACTGAACTGAGAACCCTCTCTTCCTGGACAACTCAATTTCTTG
CCTACCAAATTGGCTCCTTTTAGATTTACTCCCTTTTCTGGCCAGCTAGACCCCAGTGAGTTTCTTCCTCCATCTTCCCAACAGCACCCTCAGTGTTCTA
GTTGCCCTGTCCTCCTGTCCCATGCGCCCTGCTTGGGATCCACTGGGCTTCCTGGATTTGATGATTGGCATCTTTCATCAATTCTGGAAAAACTCTTGGC
TGTACCTTATTGTAATGTTGCCTCTCCTCATTCTTTCTTTCTCAAACTTCAATTAGACATACATTGCATTATCCCACTCCCTCCTCTTTGTCTTTTACTA
TATCTTTATCTCTCTGGGCTGCAATCTGGGCAATTTATTCTTTTAGCTCACAAATTCCCCCTTCAGATGTGTCTAATCTACTGTTCAATCTGTCCATTGA
GCTTCTAATTATAATAGTTTTCATTTCTAGAAGTATTATTTGGTTCCTTTTCAAATCTGCCTATGCAATTTTGGAAGACTTTTGCTTTTTTGTCTTATTT
TCAAATTCCTTTTTTATTTTTTCAGACATGAAATTTTCTTATTTTAATAATCATACTAGCTATGAGTCTTTGTTGGTTTTATTCTGTAGTTTGATTTTTT
TGTTGTTGTTGRTTTTCACTTCTGGTGGTTTATTTTTTCAAGTATTTAATGACTTTTGATTGTGAGCTCATGTTCCTCAGAACACTATTTATGGGAATTC
TTTGAAGCCTATATTTAAAAGGTACTCCTCCAGAGAAAATTTGCATTTGCTTCTGCTTGGGGCCTAGGGACACTACTACTGTGGGGTCCTTTTAAGGTAA
ATTTTCAGCCAAGATCGCCTYAAGCCACAAATTGAATGCAAATTCTAGACTAAAACTTGTCTGAGTAGGGACTTTTGGTTAGAAATTGTCATGCAGAGAC
CTTGTCTGAAGTTTTTTCTTTCCTTCATCCAGAGCCAAGATTGACACAAACAGTTTCTCACCCATCTTCTTATGCAAGATAAGTTTTCTCCTCTAGTCAA
CCTTTAGTTTCTTAATTCGTTCTATTTTGCTTTGACTCTTTCTTTTCTTTTCTTTGTTTTTAAAACAGATATCCTTGTCAGTTTTCCCATATGCATAAGG
GGAGAAAAATAAAAATGTGCCTGCAATAGTAAACTGGAAGGAAAGCAAAGTTTTCCTAATATTTTATTAATTTATTTATGAAAATTATATATGCTCATAG
TCAAATAACTCTATAAGGCTTATTACAAAGAACAGTATCTCTTATTCTACATTCCATTCAATTTCTCAATCCTCAGAGGCAACAATTTCAATTAGTTTAG
CTAATTCCTTTATATCTACTTCCATACTCTGCTTTGATTAATGTACTTACGTTGCCTCTTTGACTTATCATTTTTAGGCATTCTCTATTGACTTCTCTCT
ATGAAAGACGAGGATTTAGCTTTCCTTCAGCACCTTCCCCTGCCCCTGCAAATTCCCGTCCTTTCATCCTCCTAATTTTGAGTAGATCAATAGTCAGAAT
TTAATTATGATTTATATAATTGCTGGTCACAGTTGAGCCATGTAGTATACAATGATTCATTTCTCTTTTCCATACAATAATTTGTGTTTCCTAAAGTTAA
TAATTGCTTTGTTTTTTCATTTGTGAAATTTTATATGTCCATATTGCTAATGAAACTGTCTCAATAGTTCCATAGACAGTTGTTTTTGAATAAACATAGA
AATTTACCCTTCTTCTCTTAAAGCCTGAAACCTGTATTTGTTTTATCTGAGTTCGTTCTTCAGGAAAGGACCTTCAGGCTCCTTAAAAAGGAAATGTCAA
AGAACTGAAACTCACCAGATCACTGCACCGGGTGGCCCTTGGCCCCTCCCTAGTTCTTGTTTTCTTACCCATGTAATATTTCTTCCCTGGTATATAAACC
CTCCCCGTTTTAGTCAGTCAGAGATATGGATTTGAGACTGAGCTCCCATCTCCTTGGCTGCAGCACCTGATTAAAGCCTTCTTCCTTGGTAATACTTGTC
CTCCCAGTGATTGGCTTTCTATGCTGCAAGCACCAGGACCTTGACCAAACTCCTGGTGTTTCAGCAATATATTTTGTTTCCTTGACCGGGAATGTCTTGC
TCATGGCAGCTCGGTTGCTGTGGKCTGGGAGTCTCAGAAGCCCTCCTAAGCAGCTGCCCACCTAATTTTGGCTGGAGGTGAATTTCCGTCTCTCTCTGGC
CCTGCCACAGCCAGCCCCAACTTTGTTCCTGATTGCCTTGGAAGAACTGCCTTTGAAATTTGACATCTGTACACAGATAGGTGAGCAGCATCTGCTCCTC
TCAATTTGGGAAAATTTTAAAGGAATTTCCATTTGTAGGTGGAACAAGACCAACTGACTGAGAGGGAAGCACCCTGACTGTTTCAGTATGGACACTCTTG
AGGACTTGTTTGTAATTGTGTGTTGTGTCCCGGCAAGTGAGTGTCTCTTTTGGGTACCAGACAGTGGGATCAGCTCCTCTCAATTTGGGAAATTCTTTAT
GGAATTTCCATTTGCAGGTCGATCAAGCCCAACCAGTAGAGAAAGGGTGCACTCTGGCTGTTTCAGTTTGGACACTAGGGGCTTGTTTGTTGCTGCAGCA
GTTGGATAGTGTTTTGGTGATTGTGTGTGTTTGATATAGTCATGGGAAATCAGAATTTAGCCAACTTGATATTCTTTTGCAATACTATTTGGCCCCAATC
TTGTTTGGAATCTGGACTTTGCTGCTGAATGGAAAAGTGGGATGGAGTTGCATGGATCCAGGCTTTTGTGCTGCTGTTCTAAGCAGAGTTGGGCCTGGTT
AATATGTGATGTTTTCCTTCGGTGCTGTTTAGCCCCAGTGTTCTTTGGAGTCCGGGGAAGTTTGGCCTTTAAAAATCAAACTGCCATGGACACTGCTTTA
CCCAAAATTTTGGTTCACATTCTTCACTGGATTAACTATTGGGGCAAACAACGTATAACCATGTAAAACCAGTACGCTTGTATTGGCATTTCATGGCTAG
AGTTCTAAGGTAAAATTATTGGATTTTCGTTTGTGTGTGTGTCTACTTGTATGTGTCTATTTGTATGTACACTTATTGTTACATGTTGTGTCTACCAAAC
TGGCTTATAAGTAAAAGAGCACTCATACGTTAGGTGAAAAAGTCCAAGCAATTTTCAAGTTCACGTGACTTATGTAAATCTTTACTAAACAAACCGGCTT
TAAAATTATTGGTAGAATGAAATTGTCAGCATACATTTTTGTTTGGGTTTTATATATGTCTCTGCTAGATATTTTGAGGTTTCAGTGTTTGGCATAGAAG
GTTATAAAGCTGTTAATCTAGCCAAAACAAAATGATTTTGGTATGCCTTCTTTGACAGATGAGACTAATTTAATGTTGTTAGGTGAATCTTCTGAGTTAT
TGGCAAAAATATCTATGTATTTAACTTTGAGCCTCTTATTTAGGTGAGCACCTGATGTTCACTGGCTATTAAGAAAATGGTTGGGCCAGGCGCAGTGGCT
CACACCTGTAATCCCCACACTTTGGGAGGCCGAGGTGGGCGGATTGGCTGAGCTCAGGAGTTCGAGACCAGTCTGGGCAAACACGGTGAAAYCCCATTTC
TACTAAAAAAAAAAAAAAAAAAAAAAAAAGTTAGCTGGGTGTGGTGGCGTGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGA
ACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGACACAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAA
AAAAAGAAATGGTTAAGAAGGAAATAACTAACTTTGTATAATTGTGTCTAATATCTCAGTTTTCAGAAGTAATCTAGATAAACTGTTAAAAATGAAGAAA
CCAAATACATGTCAATGGGATAAATGTTTTAGGTAAACTTTTTGTGTAACTTAAAATCTTAAAATTATTTTTGATGCTCATTGGCTATGTGGGTATCTGG
GTCATTTCCAATTAAGAAAGGGTTATGGGCTGGACACGGCAGCTCACGCCTATAATCCCAGCACTTTGGGAGGCTGAGGCCGAGGTGGGTGGATCACAAG
GTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCTCGTCTCTACTAAAAATACAAAAAAAAAAAAAAAAAAATTAGCTGGGAGTGGTGGTGGGT
GCCTGTAGTCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCACTGAGCCGAGATCACGCCACTGCACTCCAGC
CTGGGTGACAGAGTGAGACTCCATCTCAAAAAATAAAATTAAAAAAAAGGTTATGATATGGAGAAATATGTTTCTAAAAGTTGTGGAATTGTTCTCATGT
ATAAAATGCTCATATCTGATAGTTCAGGATTTCTTGCTTTTTAGGGTTTCACTAAAATTTAAGGTTATTAAGGATAATAATTATAGTTAATATATAATTC
TGTATATGAAATGGGCCAAAAGATGTTATTAGTGAGAAAAAAATAATTTTGTCTAATTTAGAAGTTATTAAAAGTTAATTCAAATTATGGACATGAAAAT
TTTTTTATGGCCGGGTACTGTGGCTCATGTCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATTACGAAGTCAGGAGATCAAGACCATCCTGGA
TAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAAATTAGCCAGGTCTGGTGGCACGTGCCTGTAGTCCCAGCTACGAGGGAGGCTGAGGCAG
GAGAATGGTGTCAACCCGGGAGGCAGGGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAA
AAAAAAAAGAAAATTTTTTTATGAAACAATGTAGGGGAGAGAGATGTGAAGAAAGTTATGGATATGAAGATATATTTTTTGGTAAGGAAGGTTATAAAGA
GAAGATAGTAAGTTTGTATGAGAAAGAATTTTGTATGATGAATTTTTGTCCTGGAGCAAAATAACTGTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCT
TGCTCTGTCACCCAGGCTGGAGTGCAGCAGTGCAATCTTGGCTCACTGCAAGCTCTGCCTCCTGGGTTCACGCCATTCTCCTGCTTCAGTAGCTGAGTGG
CTACCTCCCGAGTAGCTGGGACTACAGGTGCCTGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATG
GTCTCGATCTCCTGACCTCGTGATCCACCCACGTTGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCGCACCTGGCCAAATGACTGGTTCTTTA
AAGAAAAATGAAGAAGAATAAAATCTGGGACTGGATGGAAAGCTTAAGCATGTCACGCATGGTCTGTGTAAGTCATATGTAGTTTTCGTTTGTTTGTTTC
TTTGCACATACAGAGAAATTAGAAAGTTTAGATAATAAAATATTCTTTAAAACCTTATAAAGAATTGGAGAAATTTGGRTAATTAACACTTTCATAGTTA
AAATTCTTAGTCTTGATGAAGGCAAAATAAGAAATATTTTAAACAAATGCATTGGCGGTTTGGCAGTTCTTTTTTAATACAGTTAAGCATGAAGCCAGAT
TTAGTGTGAAGCCAAATCTCACATACATGCCTGTATTGCTTCACACTATGTTTGCTGTTTTGCATCAATAGTGCTGGCACTGGAGTACTTACTAATAGGT
CATGTACCTAGGGTGAATTTCTTGATTGCACAGGATGTATGGTGATATTGGTGGACTTAAGGATATTGAATTGTGTATGAAGAATAAAATATTCATCATG
TGGTTTTTTGGGCTCTGGGTAACATGGTAGTCTCCAGGGTAGACTGAGTGGGGAAATGTTGGGGTTGGTTTCCTGTTTGTTTTGCTTCTAATTTTTATTT
GTTTGCTGTTTGTTCTCTTTTGTGTTTTGCTTGTGTATGCATATGTATAAAATCATCCATGTTCTTTAGTTTCTAGTGGAAGGCTTTTATAAGTTCTGAA
CAGAAATAGTACATTATATATTGTTGTTTGGAGAGGTGGATGRAAGTGGAACTGTTTGAGTGGTGTTTGTTTCTAGTGTGAGTCACTTGAATCAATAGTT
TGTGTTGGTTTTAGATCTTTTCCTTTAATGAAGAAGAACTGTGATATGGGTACAAAGTTTTAATGTTCAGGAAACATTGGCCTTGTCCTTAAGGAAATTA
TATTGATTAGAATTTCTCTCAAACTAATTTAAAGTGACATTCACTTGGATTAAGTAGTAATAAAAAAGGTGAGACTTTCTAGTAATTTTTAATCTCAAGC
TGTTTATCACTGATGGGCCGTCATGTATGTACTCGAAAACAAAATATGTTCAGGTTTTTAATACAATTAAGCATGATGCCAGATTTAGTATGGAGCCAAA
TCTCACATACATGCCTGCATTGCTTACATTGCTGCAAATCTCACAAACAACTTATCTATTTTTTATTTCGTTGCCTGTGCTTTTTGTGTCATTCGCCAAA
TAAATAATTGCCAAATCCAATGTTATGAAGCTTTTCCTCTATGCTTTCTTCTAAGAGTTTTATAGTTTTAGCTCTTCTGTTTAGATCTTTGATTCATTTT
GAGTTAATTGTTGTATATGGTGTAAGGTAAGTGTCTACCTTAATTCTTTTGTATGTGTATATCCAGTTTTCCCAACACTACTTGTTGAGAAGACTGTCCT
TTCCCTACTAAATGATCTTGGTACCCTTGTTGACAATCACTTGACCATTTATTTGAGGGTTTATATCTGGCCTCTATATTCTATTTCATTGGTCTGTATG
TCTGTTTTTACGCCAGTATCACACTGTTTTGATTGCTATAGCTTTGTTGCAGGTTGTGAAATCAGAAAGTATGAGACCTCCAACCTTGTTCTTCTTTTTC
AAGATTGTTTTGGCTATTCAGGGTACCTTGATATTCCATATGAATTTTGGAATGGATTTTTCTGTTTCTGCAAAAATGTCATTGAGGTTTTTATAGGGAT
TGCAGTGAATCTGCAGATCACTTTGGGTAGTACTGACATCTTAACGACAAGTCTTCCAATCCACCACTTACTGGTATTTAATTTCTTTCAGCAATGTTTT
GTAGTGTTCAGTCTTTTGCTTCTTCAGTTAAATTTATTCCCAAGTATTTTATTCTTTTTGATGCAATTGTAAATGCAATTGTTTTCTTAATTTCCGTTTT
GGATAGTACATTGTTAGTATATAAAAATTGCAACATTTTTGTGTGCATTGATTTTGTATCCTGTAATTGTGATTTTTGATCCTTTGTATAAAAATTTTCC
TTAACTCCTTTGGAAGTCTGGAGGAGTTCTTTCCTCATACTCTGGTGTTCTGAAATTTCAAGATGATGGACTTGATGTGGGTCTGTTTTTAGCCACTGTG
TTGGATAGTAGGTGGATCTAACAGCTTCTTAAACAGATTTTTTTCTGTTTTCAGCCCTACCTTCACTTCCACCTCCAGAGATATCTGCTTCTGATCATTC
CTGAGCCTTTTGAGGGTTTTGTGGCATACATTGGATTTCTTCTAGGTTCACCACTCTGGCTTCTGGGTCGGGGTGGGGGTATGTTGATGAATCACAAGTG
ACAGGAGTTGATATTTGTTGGAAGTAGGGGACTGGGGTCCCAGGAATTGATTAGACTTCTCTCTCAATTTTTGTATATGTCTGGAAATCTCCAAGATAGT
AATATGAAGACCCTGGCTATATCACATGGCATCCTGAGGAGGTCTCAAATGAATATTTGTTAGGATACTTGGATATATTTAAAACTTTTTTTTTTTTTTT
TGAGACAGGGTCTTGCTCTGTCACCTAGACTGGAGTGTAGTGGCGTGATCATGGCTCACAGCAGCCTTGAACCTCTGAGGTTCAGGTGATCAATTTTACT
CTAAAATCCTCACACCTCAACCTCCCGAATAGCTGGGACTACAGGCATATGCCATCATGCCCGGCTGATTTTTGTATTTTTTGTAGAGATGTGGTTTCGC
CATGTTGCCCAGGCTAGTCTTGAACCCTGGGCACAAGCGTTCCGCTCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACGGCGCCTGGCC
TGAAACATTTTTTAAGAGAAGTTTTGCAATTGTTCACATCTGTGCTTTATTTTCAAGAGAAGATGGTTTCACCTCTGAGAAGTCAAGCATGTCAGGTTTT
TTTGTTTTTTTGTTTTTTGTTTTTTGAGATGGAGTCTCACTCTGTTGTCCAGGCTGGAGTGYGGTAGTGCAATCTGAGCTCACTGCAACCTCTGCCTCCC
AGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCCCGCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGG
TTTCACAGTGTTGGCCAGGATGGTCTCGATCTCTTGACCTTGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCGCACC
TGGCCCCAAGTATCTCAGTCTTTATGACACACGCTATGCTCTCACATCAACCCTGTAGGCCTGGTATTGCCACTTCAGGTACTACTCAGGGTTTACTCTT
GTTTCAACTTCAACCCTAGCCAAAAGTGCACAAGACAACAAAATTATATACATATACATAAAATCTTATATATGTATTTAATTTTGTAATTAAATGTATA
TAGTTATATAGTTGAAGACTAACAATAAGTTGCAAAAATAGTACAAGGTTCCTGTGTACCTTTCAGCCACTTTTCCCCATCATAAGCTTATGTGACCATG
GGACAAGAGACAACTGACACTTCAGAGACCCMATCCATAGCTATGGGATGTTTCAGTTCAAGCCTCTAATCTTTATTCCTTAATGTAAACCACCAGAAAA
CAAAAACTTGAACCATGTTGGCTTAATTTGCCATAGAGATGCCTTAATCTCTTGGTTTTTATCGATTGTCCAGATAAGGAGTGGATACTTGAAAAATGCT
TCTTTGGGGCCTGAAAGCGGCATATGTAATTAAAGGCTGTTCATTGTTACTCCACATTCCTTTTGTAAGGATCCATGTGGTAAGTTTCTCAGAGAATTTA
TTGCCAGGGAAACGTTTGTTTCTCCAGAAAAAAAGCTCCCTTTTGCCATACAATGAGCATGATATAAACGATCATATTTCTTTGTTTCTCTTTTTGCCTT
GGCCGTCAGAAATTCAGAGGAACTTTAGGATATAATTGCAGTAACTGACTCATTTAATATTTATGTAATTATTTCCCCTCTTCCTTTAAATAGCTCCTCA
TCTTGCTTTTTGTCTTCATTTTAATTGTACAGGTTCACAATCCCTTATTCACTATTCTAAAATGCAAGAAGATCTAAAAACAGAGTGCTTTTTTAAATTC
AGGAAGCTTAGTGTGAATATTCATATGTCACTACAGAAATACTAAAGTGTTTGATTTTAGGGCACTGCCCCAGACCCCTCTGGGAATGTTATATAAAGTA
TTCGCTTTCTAAAATCTAAAAGAGTCTGCATTCTGAACGGTAGCTAACCTCAAGGATGTCAGCCAGGGGACTGTGGACCTGTGTGTGTCGGAGTGTGGGA
AGGCCCTCATGGATTCCTCAAAGAGCAGGTGTGTGCCCCGGACAGGATCCCAGAAGGCCATGTGTAGATGGGACCTGATACAGAAGGAAGCCAAAGGGAG
ACCTGCCTGCAGCTGCCATCAATCCCTTCGTCCCAGTGCCCATCTCCCCTGGCCACTGGTGATATTACCTGTCTCTGAAACTTCTTGTGGTCGGACTTTC
TTGGTCAGTTTCAGAGCTGCTTCAAGGTCATAGACTTGGGACCGAGTGAACTTCAGCTCCCTGCGGAGCTCATTAATTTCCTTGATCAGAGAGACATTTT
CCTGCAGAAAAGGGGGAAGAGAGAGGGAGGGTGGATGGATGAGTGGTCAGTGGGCACAAGGCATACCCTCCTGGGCTGAGTGTATGGGGAATGGGCAGGG
TTAGGTCTGGATCCAGAACTCTGGATCCTCTATTGGGGCCTGAGCCTTTATTCCAGCCTATTGCTCAGCCTCTTAAGGAACCAGCTAACTTACTTTCGGG
TAGACTCAGCACCATTCACATCCACCCATGCTTGTTGCAAYGTCAACAGCAACAACAATGCTTTTCCATGCACTTTTTATATGAGTTTAAATGCATCATA
ATAACCCTATGGCTATTATTATATCAMAATTATTGGCTATTATATGGCTATTATATTATATATATATAATTATATGGCTATTATAATCACAAAAACAATT
ATAAATTGTTATTATAATCACAATTTTACAGAAGAGAAAAGTGAGGCACAGAGAGGTATATGACTTGCTCAGTTACACAGCTAGCAAGTGGTAGAGTCAG
GATTCCAACCCCAACAGTCTGGCTCCAGAGTTCGTAAGCACTGTGCTATACTTCATTCATTTTTCATTCATTTGCTGAACCCACATTTATAGGCTATCTG
GTAAGTCCATAAAGTGCAAACAGAAATAGGATATGGTCTGCCCTTAGCAGCATGCTATTTAGTGAGTAAAACAGAAAAGTAAATGGATAATTAACATCTG
CTGCATCCATTGGAAGCTCACTTCTCTTATTTGTGTTTGACAAATATCCATCCATCCATCCATCCATCCATCCAACCAACCATTCATCTAATAAATGTTT
ATTGAGTACCTATAATGTAGTCATCCAATATTATGGAGATACTATGTTAATCCTAGAGTATAGAGAGTGTAAATCTTAGCTTCTGCTCTTGAGGAGTTTA
CAGTTTAGTGCGGGGTGTGGGTACAGTTTAACATGGTGGCCACCTTGCTGTGATGGAGGAGTGGGCCTAGAGGAAAGATGCTTCCTTCTGCCTGAATGAC
TAGGGTGGATTCCTAGGAATTGACCCCTGGGCTGAGGCTTGAAGGAGTCACCAAGGAGAGGGTAAAGGGTGTCCCAGACAACTAGAACAGCAGAAGCAAA
GGCACAGAATGTGACACAGCTGATGGGGGTGGGGGAGACCTGCAACAGTCCTGCATCACTGGAATGCAGAGTGAAAGGAGGGGAGTCGACAGGAGTGAGG
ACGAAGCTTGCTGGGGGCCAGGTGGTGCAGGCTCTGCACCCTGGGACCAAACAGTCTCTTTCCTCTTTTCCCACACCTCAAATCTCTGCCTTCCATTTCA
CACCCAGCACAAGTACCCCAAGGAGGAGCCCCATCCCCAAGGKCCCAAAGAGACTGGCCACTTTGCTCTTAGAGCCCACAGCCACAGTAGTCAGCTTGTC
TACAGCAGTTCCTCGTGTATGACCATACAAATACATCACCTGACCACCTTGTTAGATGCCCCTCTGACTCATAGGTCTGGAATGGGCCCTGAAATCCTGC
ACTGGGCTTCCAAGAGATGCTGCTGCTGGTCTGCAGGCCAGACCACACTTTCAGTTGCAAAGCACCTGAGGGTCTGTATACCAGAAAAGGCAGTTGCAGG
CCAAATCTACATAAAATGGACCTGTGCCAGGAACAAACTGTGCTTCTACTTGGGACATTATCTCACGAGTGGTGGCTAYGGAGTCAGAGCCCAGAGAACA
GGATGGTCTTAAGCACTGTTCTCCCTGAGCTGTGACAAACGGTCCTCTGCTGTGGGGAGGTACCTGTGGARCCCAGAAGGGAGCAGGGGTYGGGCTAGAG
ACACCGCAATGATTCTTTTCCTCCAGAAATGCTTCATCTAAAGCACAGATCTACACCTTTAGACTTCCAGTATATTACTTAATTTCAGTATTCCTTACAA
TATAGTTTGGATGTTTGTCTCCTCGAAATCTCCTGTTGAAAACTGATCCCCAGTGTTGGAGGTGGGGCCTAGAGGGAGGTATTTGGGTCATGGGAGCAGA
TTCCTCATGAAGGGCTTGGTGCCATCCTCGCAGTAATGAGTGCTTGTTCTATTCGTTCCTGCAAGAACTAGTTGTTTTAAAAGAACCTGGCCTCGGCTGG
GCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCATGAGGTCAGGAGATCAAGACCATCCTGGCTAACATGGTGAAAC
CCCGTCTACGCTAAAAATACAAACAGTTAGCCGGGCRTGGTGGCGGGTGCCTGTACTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCC
AGGAGGCGGAGCTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACCGGCCCCTTCTCCTCTCCTACTCTCTCTTTCGC
CATGTGACACGCCTGCTCCTCTTTTGCCTTCCATCATGAGTGAAAGCTTCCTGAGGTCTTGACCAGAAGCAATGCTGGTGCCATGCTTCCTGTACAGCCC
TCAGAACTGTGAGCCAAATAAACCTCTCTTCTTTATAAATTACCCAGCCTCAGGTATTCCTTTATAGTAATGAAATCTCTCTGTCTCGGATGAAATGCCC
AGTCCTCATTGTCAACCCCTCATTCTTCATGCTAGGATTTGTACTTGTGTTTCTGAATCAGATGTTTTCTCCATCGAATGCTTTACCCTTTGAACCAACC
CAGGCCTTGCTGATTGTAGTGTGATGGGTCCCCCACCAGGTTACTTAAGGGTGTATGTTCACTGTCTGAACCCTCAAGGCCAGGCAGTTAGTCAAGGCCA
TGGTGCCCAGCTGTGGAGCAGGTGTCCCTGAGAATCCAARCATCCTAGAAGATATCTGAAAACCTACTAAGGAAAACAGTCCCATGGCACATACACAGTA
GGTGAAGAGCCAGAAAATTAGCTTAAAAGCAGCTTAGCGATGTGAGGCAAAGCAGGTCTCTAGAGCTGTCCTGCTGCTGCCCAGGAGTGCCCCACATGGA
AGACCTAAATAAACTCATCTACTCACCAAGCTGGACTTGTCATTCTTCGGTCTCCCCAGTTTGGGAGGGAGGGTGGGGAACATTACAGTTCCAAATTGTC
TCATAACAGTGATAGGTTTCCCGCATTTCCTTTCCAGATGCTGCCTGGTAAAACTCTGCTAGATCCTCCCATGGACCTTCTCCTTGCAGACTTTATATCA
TGACATGATCAATTCAATACATATTTATTGGGTTATGGACCTTGGACCCTGCCTTGCATGTTAGAGGTGCTCATTAAATATTTGTGAAATGGATGAGAAA
ATGTATAACTAATGCAGTGGATACCAAACCGAATAAGATGAGATTCTTACTAATAAGGAAGTTACAGACCAAGGGATAAGGGACAGGTGAAAGAGACCAG
AACAGAAGGGAAGGTCTTAGAGCCACAGGGGGAAGCTTGCTTGCTTGAGGTCTCTCTCCATTTCTCCCTTCAGTAGGCCTCGCTAAGCTTCACTTCTCCT
GATCCTCATTAAATAACTCAATAACAATCATCAGAATAAGCACTAGAAACTGAAAGCACAATTCGAGTTCTCTCACAGTTTGCATCTTTAGCTGCTTCCT
CTTTTTGGTCATCTCCATCCATTCTGTCACTGAGTCCTATTGATTTTGTGTCTGAGTTGATTCTGATGTTCATCCTTCCTGCTGGTTTGTCACCAGCTCT
CAGTGTTCTCCCTTGTTCTGCTGTAAAGGCCCCCCGGCAAGTGGAGCCCTGCCCTGGCTTCTCCCCACCCCCTCCACCCTCTACAGCCCTGTCACTGTGA
TTGGGATTTCTGGCTCCTGGTACCTGTTGGTGTGAATGCCTGTTCCTGACCCCCCTGCCAACCTCTGACATCTTCATGATGCTCCCTTACCTAAATGGGT
CTCCAGGGCTTGATCCTTTTTGGAGTATGATTGAGGCCCACCACTCAGTGCAGCCTGACTCTCTTGTTCTGTTCATTCATTCATTCATTCATTCACGTAT
TCATGTAAGAAAAGTAATCTAAGAACCAGTTCCTGAAAGCTTATACTGGTCACTGTGCCAGGCATGGGAGGTCCCGCTTGGCTCCACTGCAGAGCTGCCA
TGAGAGGCTGAAGCATGGTTGGGCCCCTGCCCAACCCAGTGTGACAGTGTGCAACCCCAGGGGAGACAGAGGAGAAGAGTGTTCCAGGCCCAGAGCCAGG
AGGCGGCAAGCAGAACCTAAGGCAGGAAGAGCTTGATGATAAYGATAATAAGAGTAACCACAATTGCAAGGGTTGATTGGATCACTGCAAATGTATCAAA
CAGCATGCATACAGTCCCTCAGTTCATCCTTACACCAACCTTGTGAGGAAACTGAGGCCGTATCTCAGTGGTAGAGCTGGTGTCTGAACCCTGTCGTGCC
TCCATCCAGAGAGCCCTGCTCCTCCGTGACTACTGCTTTCCAGGCTCTGCTGTCCCCCCTCACATTTATGTCACCTCCATTCCAATATCTCACATAGTAT
GATGGCCAAGGACACTCCCAATAAGTATAAGTTGGGCTACCTGCAAAATGTTTTCTGGGGTGGCCTGTGTTCCGAGGGGTCCCGAGGTCACATTGAGGTC
GACCGTTTTTGCTTTGGATGGCTTTGTGGATTAAAAATGTGAATGCAATGGGTTTGCCGAGCCTTCTCTTCCTGATCTCTCCCTTGTCAGTTTGACTTCC
AAAATCCCCTCCAATCCTCCAGACCCCCACCCAGGTCTACACAGCTGCAGAGGAAATCTGACCTGGGGTCCACCAACGTGCCAAGTCTTGGGGGATGTGA
AACTGTTTATGTAAAAAGCTTTCTAAGCAAAGGGGCTCTGCCAAGCTGTCCAGGACTGCCTTTGGCCTTTGGAACTGACTGATGACCCTGGCAGGTCTTT
CCGACCTCCGTATTGAGCAGAGAAGAGAAGGGAATGCCTACAGCACCCCCTAATGGCATGGCCTGAGTCGATGCCTTTAGAATATGGCAGTACCTCACAG
CCTGGAAAAAGCAGGCAACAGATTTATTCCATGGACTTGGAATCCTTGCATCAGTGACATCTTTCTGGAACCCACAGTCAGTGGGCTCACCATCTGCCTA
ACTGCACAAATGAGCCATCCTGGAATCCTTCTCCGTTCTTTCAACCTTCCTCCCATGTCTAACCTGACATTTCTATTTGTCATTTCTACTCTGAAATGCC
TTTTGACACCACAACTTTCCCCTTTCCAAGTACTTCTCATCTACCCTTAACATGACAGTCATTTCCTAATGGGTTTTTCTGCCACCTGCCTCTTTCCCCA
CCAGTCTTCCCACCTTGCCAATGGAGTGTTTTGTCTTTTCAAAACAAAGACACCCCTACTTAAGAAACCTTGGGTGGAGCCTGTTTACAGGACAAACTGT
ACTTTTTGGCATGGCATGGACGCCCTTTCCAACATGACCCTCAGCCACCAACCATTTCAGTGGGTTCTTCTCCACTTGGACTCTCTTCTCGTGGACTCTT
GGGTCTCCAAGCACCTCACAGGCCTCACTCTTCTCTGCTTTTTCTCAGGTTGTTCCCACAGCCTGGAAGTCTCTTCCCTGACTTGTTCCACGATCAACCT
CTACTCACCCTTCAAGGCTCAGCTCAAATGCCCCTTGCCCCAGAAACCTTCCACAAGTCCTGAAGGCATCACTGAACCCCATTTCCAGGATGAGCCCACA
GCACTGCATACAATGAGTTGAGCAGTAATTATTTGTATCTGGTCCAGGTTCCCAATGATTAACTCCTTGAGAGTAGGAACACTATCACGTTCATCTTGGA
ATCCTCAGTGACTGACACAGAGCTTGCTGTACAAGAAGCCCTCAAAAAATGTGTACTGAATGAATAAAATGCATGTCCTAGATGTTTGTATCTCATAGCA
ACTCTTATTTTCATATCTGCCAGTGTGCTGAGGAATGGAGTGGGGAGGCTGAGCTCCTGTCTGAATAAACAAATGAGACAGTGACCTCATTTTCTGTTAT
TTTCTAATGAGTTACTCTTAGATGCCATGTTTGCTGTGGCCTTCCTCAGCCTTTTTGGATTGAAGTGCCAGGGCCATGGCAACTGAAGATGAGGTCCAGC
TGGCTCCTGACCAGCACACACCAAGGTCACCAACTGAGGGTCTGGAATCAGTTGTGCCATCCACCCTCCACCCTCCACCCCTGCCACCTGCAGTCCACAG
GCACCCGTGGCCCATCCTGTGATGGGCTTCTAGGCTTTCCCACTGGATTTCTACCTTGGTTCTTGGATAGGTCCTTTGCTTGGATGAAGAGGATGGAAAT
TGCCTTTTTTTTTTKGGGGGGGGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCCCGATCTTGGCTCACTGCAAGCTCTGCCTCCCACGTT
CATGCCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGTGCCCACCACACGCCCGGCTAATTTTTTTGTATTTTTAGTAGATATGGGGTTTC
ACCGTGTTAGCCAGGATGATCTCGATCTCCTGACCTCAYGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTSAGCCACTGCGCCCGGC
TGGAAATTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTAGCACTTATTCTGTACCAGGCCAGTGCCTAGTGCCTTATGTGGTTGTCCCATTCAATCTTGC
AGGAACCCCCCACTCTCAGGTTGGTGTTTTCTTCCCTGTTTTACATATAGGCAAGGTGGCTCCTTGAGTTAAGGAATTTACCCAAGGTCTCCTGGCAGAG
GAGTGGTGGAGCAGGGTAAACCAGGGTCGGCACAGTGGTTTTGAAAACTTTTCTTTTTTTTAAATCTTCCAGACTTTTTTCCAACAAAAAGAGCTCCACT
GTTAGCAGCAAGCAGTCTCTTTCTGGTTGAAGGGGTAGGGACCCGGAGACCCGCACCCCCTGCCACACACCCCCCACCCTGGGCCCCTTCTTACTCCCTG
CAGTTGCTGGAGTTACTTATTTGGATCCACAGGACTCCCTAGCACATAGGTTACAATGCTGCTGGAGAAAATGTTCTTCCCGGGACTTCATTTGTTGATG
GCTCCCTCTGCCAGCCATYAGGGAGTGGCAGGGCTGGGCAGGAGGCCCGCTTGGGTCTCCTCTGCTTTCTACCCCACCCTGGCCCAGCACCCTCCGGGGC
ATAGGGAAGCAGAAGAGGACAGGATGCCCGCCCCAGCAGCCTCATGCTGACGCTCACACCCTCTGGCTAGCCTGTGATCTTCCTCCTCCTACATCGATGT
TTGCTTTGGCTGCTTGGCATGGAGAGAGGGACCCAGTTCCTCAGGCCTGTACTCTGGTGACAGGGCACAGAGGGTGCTAGGTGATGTCAGCAGCTGACAA
CTGCTCCTGCTGTCATCCTGGTTTCCCTTCCCTGCTCACTGCACTCCAGAGCCCCAGGGGGCTCTCCATGCTCTAGGTACTCCAGGCCCTAAGCAGTGGC
TCMGTGTGCGGCTGCTGGTGTCTCAGGGCTCCACCAGCTGGAGGCACTTCTATCTCTGGGCCTCCGATGGCTTTCATGGCCAAGGAGTAGGGCAAAGGGT
AGATGGACTGGGCTGCTTTTCAGCAGGGACTGGTCGTAAGATGACATGAGACCAGCCCTGCCTGGGTCTGGCCTGAATCACAGTGCGCTCTGCCCAGCTS
TGTATGAACTGGCCAAGCTGGGAACTGGTTTGTTTCAATCTAACTGCAACCTGTTCCCATTCCAGTATTTTAATTATGGCAATAAAGAAATGTGAACATA
AAAAGGTACGTGCTTTATAAATGTGATTCTGATGTTCCCTTTTGATACTAATTCACATTAATTGCCTCAGATGATACTGATACCCAAACAGAAATCTGGC
AGAAGAATCCCGACTGGCAGTCCTGATAACGTGCCTGTGTGGAGGCGGCAGTAATGGGGTCAGGCTCTCTGAACAGCCTATGAAGGATCCAGGGAGGTGG
GTGTGAGGCGCTTATTAAACCAGAGTGAGGCCAGCTCTGGGACGTTGTGGCTAACTTGGGACACAAGAGATAAGGGTAGGGACCTGAGGCACCAGAAAAA
TCAGATGAGGCGTGGCCACGAGATATGGGTAGCAGAATACAAAGGAGCAAAACAAAGTCAGGTGAAATGAGAGTTGGGAATGGAAGAGAGAAGGGAAAGT
GGCTCAGGAGAGGTAAGATGATGTGGATGAAGGTCTAGAGGGCCAAGGGGCTGATGAGAGGAGTGAGGCAGGGGACACAGGTGTGCTCTGGATAAAGATG
GTGTAGAAAAGAGGAATCGGGTATGTGGAGAAGGGAGGTGGGCATTGGGTGGGGTGGAGGCCAGGGTGCAGCATGGAAGTGCCTAGAAAACCTCCTAGGT
GAGCTCTCAGCCACAGTCASAGCCAAGACGAGCTCARAGGAGAGGAGCCAAAATAAGACTTTAGGGGGAGCTACTGGGCCCCCAGACACCTGGGGAGCCC
TGAAGACAGGTGGTCTCAGAGGGACCCTTGATGGGATCTCTCATCTTGGATGGCTTGGCCTCCACAGGGGCTGAGGGGAGCATGCAGGTACCTGCATGAT
GCGGACGTAGTCTGTGCGGTGCAGCTCGCCCTCCTTGACCACCTTCTTCTTGAGAGTGGCCAGGTTCCTCTCCAGGTGCTCCCGCTGCCGGGTGTACTCC
TGCTGCAGGTCTGTGTTCAGCCCTGCGATCTCCACCTGACGGGGCCCAGGAGATTCTCAGYGAGGGAGAGGAGACCCCGGAGGTCAGTGCATGGCAGGAG
GGGAGGCTGAGCTTACCATGTCTGCTCGCTGCACGTACTTCTCAAAGAGACCTCGAACCTTCTCCTTCAGCAGCCGCGGTTCCTGAATATAGGCTACGCA
GTTGTGGAGGTCTGTTTTAAACCTTTTGACYAGCGCTTCCAAGTCTCGCTCCTGCAATCAGAGACRTTTCCTTCTGGTGCTGTAGGGTGCTCTCRGTGGA
GGGGCGGGGGCTGCAGGCAGAGGTTAATGGCACAGAAAGGGAAAAGAGATGCCTCATCTGGGACTTACAGCTGACTGCCAGGGGCCAYACTGGGCATAGA
AACTTAGACGGGCACACAGCCAACAGGTGGAGGCACGAAAAGTCTTGTGCACCTGCCCTCGGCTGGACACCCAGCCTGAACAGCCTACATGGGGCTTCAT
CCTTAAGAGGCCACACAGATGGGCTCCTTTATTGACTCTGATTCCCTTTCAGGACCACAGGCCTTAAAAGATAAAAGGAAGCTCATGTGGTCACCCATAT
CCCTTTAGAGCCAAGACAGATGGCATCATTTCTCTCTTGCAGATTCCTGGCCAGGGCTTCCACGTCCCCCGTGTTAGCTCATCCAGTGCTTACCCTTCCC
GATAGTCAGGAGCGCTGCTGTGAGTGGGCAGGTTGGTTCATCTACACAGTTGGGCTAGTGTCCCCTCTTCATCATGCTTTTACCTGTCTTCCCCAACCCT
GACCTRGAGAAAGTCATTTCTCCTTGCTCCCATGGCCCTTTCTACATGTTCCATCGTYTTCTACCTCTCAATATAACTATTATGCACATGCCACAAATCA
CCAGTCATCCTCTTCAGCATGGAAATGGCAGGATCTGTATCAGTTCTCGTTTATAGCTCTGCAGCTGCTGGTGTTACCTAGTGCAGAGTTAGTTAATGCT
TACTGCAGAAGATGGAAATTTCCAATCTTTTTTTTTTTTTTTAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCGGTGTTGCAATCTTGGCTCACG
GCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGTCTCCCAGTTAGCTAGGACTACAGGCGTGTGCCGCCATGCCTGGCTAATTTTTGTATT
TTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGG
CATGAGCCACTGTGCCTGGACGGAAAGTTCCAATCTTATTCAACAAATGTTAAGGAGTGGCCTGTGCTAGGCAGGAGGGCACAACTGTGTCCTGGCCCAC
ATCCAGAAAACCTAGATTCCATTATTAGCYCTGTGTGTACTACCTAGCTGTGGGTGCTGGGTGAAGTTTCTTAACCTCCCAATTTTTGGGGCCTAATTTT
TCTTATTTATAACATGGAGAAATGGGAATCAATGACCTTTGAGGTTCCCCTGGCCTTGGCAATTTTTCGGTCATCAAAGCCTTAAACCAGCGGCGACAAA
TTGCCTCTCTGAGCACGTACTTTCCTCCTCCAAAGAAGCCAAATGCTACAAATATTCCTGCCATGCTGGCTTCCCACCTCCTTGATCACTTACCCAAAGT
CATTTTATAGTCTCAGATGAGTTCAGTGATGTAAATCTACATGGGCCTGAAATCAGGCAGGGCTGGGAGCAAGTAAAGAATGTGAGTTAAAATGGGAAAC
ATATCCTCGCAGTGGGCTGGCTCTGCCTCTTGGAAGCCAGCTGCCCATTGCAGATAGGTGCCAGATCCCGAATCCAAGAACTGCCAGACTCTGAAACCCT
CACACCTTCTGTCTCTCTCTGCGCATCTCCTGATCGGTGGCTCTCAGTTTCTGCCACAATTCTGTGATGTTCAGCTCCAGTTGAGTGTTCTGCTTATGGA
AATTCTCCAGTTCAGCTTCCATCTGTAGACAACAAGGGAAAAGAGTCAAGAAGAAGAAAGTTAGATAATGAAAACTGTATTTGAGAACTGTAGTCTTTCA
GWGGGGATGCCACCCCTGACACCCGGGCATTTCTTTTCTCATCCCCTTCTGTGTCCTCTGGATCAAAACCTTTCTTCTACTTGCTTTCCTAACAGCTCCC
CACCCCTAGACTGATATGCTAAACCAGCATCAYGTGTTTCCACGGCCAGGCTGGGAAGTTTTCCCTCTGAGTCACTTTCCCTTTCCTTCAACCATGCTGA
TTATTTTATTTTCTTGAATTCCTTATAAATTGGTGACACCCAAGCACTAGAACCTCAACTCTCACCTGAGGCAGGGTTCCCCAGAGAAGCACCTTCCTCA
CCTGCTTTCTGAAGTTGTATAAGTGAATCTCGACCCTCTGGGGCCACTTTAGAATGGGGTCATTCTAAAGCAGAAAGTTTGGAGGGACCAACATGTGGGC
ACCACCCATCTAAGGCATAAAACAGGAAAGGGGAAGCTGAGAAGGGGCCTCAGCCTCATCATTCTGTTGAAAGGTCTTAAAAAGTACAACTGAGAAGTGT
CCTGTCTTCACAAGAAAAATAAGAAACCACCAGTGAGCTTCTGAAATACATTTTTTTTAGATGGAGTCTTGCTCTGTTGCCGAGGCTGGAGTGCAGTGGT
GCGATCTCTATCTTGGCTCACTGCAACCTCCGCCTCCGGGTTTAAGCAATTTTCTAGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCAATTGCCACCA
TGCCCAACTAATTTTTTTTTTTTTTTTTTTGTATTTTTAGGAGAGACAGGGTTTCACCATGTTGTCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATC
TGCCCACCTCGCCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCGGGCTGAAAGATTTTTTAAAAATTCATTTTTGCATTTATATTAACC
AAAGTCATGGGAATGACAACTGGAGTGTCCAATTAGGATGAGACTAGCTGTGCATGAGCTTTCATTGACCTAACTCCTAATGACTTATGGACTATATCTG
GTGGACACTAGTATTTCTGATAAGAGGGAGGTTTGCTGACTGTTTTGGGAGAATGGGATCATTCACTGGATTTTTTCACGGCTAGGTAGAGTAGACCCTC
CCCCTCTAGTCTATCCCAGGCCCTTTGGTCAAATTTCAAGGCTCTTGGTAACCTTCTGGGGGGTGCCAGGAGGCCCTAATGAACACATCCATGTTCTAGA
CACAAAAGGGCAGCTTTTAGAAGGTTTTCCTCATTACTGGAAGCATTTTGTATAGACAGAATAGCCCTCTGACCCAAAGCCTGGCATAAAGGTGGCACTC
AAATATTTSATGAATGAACGAATAATGGCAAGTGTGGTGGACAAAGGAGAGCAATAGTGAGGGACACGAAAAGAGCCTGAAACACCCTGCTTCTGGAAGA
GGAATGACAAGATAAGAAGGCAGTGTTGGCAGAGTTATATAGAACCACCTTGTAGGGGATACACATTGAGTGTGGGTATTTGCACAGCTAAAGAATGTGC
CCATTAGAAAGGGCCGCCCAGCTTGTTGTAGACTTAGAGATCTAAGGCTGATTAAGAAGTAGTTTCTGCCTTCAAGAGGCCTCAGGTCTGCAAGGATAAG
AAAGAAGTAAATCAGAAATTCAGGTGGAGTAGGATAAACACTGCAGTTAAGGCAGAAAGCACTGTGTGTACACAGAGGAGGTGAGCAGGCAGCACCCAAA
AAGATGGGATGCGTCCACTGGATTTGGGAGGAAGAATAAGTATTAGAGGACAAAAGGGGAAAGAATTCCAGGCAGACAGAACAGCCTGCACACAGAGAGG
ACCAGAGGCATGGGCAGCCTGGCGCATCTCTGCAGGCTGCAAGTGGCTTAGGGTGGCTGCAGGAGCAGGGATTTGAAGAGGKGGGAGAGGGGAGGGAGAA
GAGGCTGGCTGAGCTAGGTCATGCAGGATCCAAGGGCAGAGGCTCAAATGGTGAGAAGTTTGCCTTTATCCTGAAAGCTCAGAGAGCCACTGAAGGCTTA
GACCAGGAGTGGAATGATGTMATTTGCATCTTAGAGGGCCTGATGCAGAGGTTCTGCTGAAAAGAGCAAGACGGGGGCCAGGCAGACCAGTCAGGAGGCT
GCCAGTTTGGCTGAGGAGGCAGATGATAGCGTCCTAGGCCAAGGCAATGGCAGCTGGAAGAGAGAAAGGGGGCTTCTGTTTGYGGGGCTCCCGAAGATCA
TGTCTGAGTGCCTCATTCTCTAAATCTCAGGCCAGCAGTGACAGATGAGGTTAGCAGAGAGGGCATACAGGAGTATATTGTTTACTTCTGTTCATTTTTT
CCCCCAGGCAAAGACTCATACTACTCTGAGAATAAAAATAATCTGTTTATAGAAAAATTGGGAAATAGGTCAAATTTGAGTAGCTGGCTGGAYAGCCAGA
AGCCTAGCCCCTTATGTGGAAACAAGCATCTTTTCCCAGTGTGGAAARTCCATCTACTTTTCCATGTGTTTTTCATCACACTCAGAGATTCTCMATGGGG
CTCAGGCAGGAGGGTAGAAAGCATTTTGCACCCCCCAGGGGACCTCTGGCAAGGTCTGAAGGCATTTTTTAGTTTTAACATCCTGGATAGGGGGTGTTTT
TGGGATCTAGCAGGTAGGGACCAGGGACGCTGCTAAACATCCTACAATATACAGGACAGACCCTCCATGACAGAGAATTACCTACCTCAAAATAGTAGTA
GTGCTGAGCTTGAGAAACCCTGCCCTAGTAAATGAGTGTAAACTAAAACGACAAGCCTCGGGAAACCTCTCCCCTAGGCAGGGCAAAGGGACCCTTGGAT
CATCAGAGCCAAGTTGGAAAAAGAGTATGTGAGGGCGGGTACCTGAATCAGGAAGTGTTATTAGAAGTTGCAGCTCTACAAATGAGCCAAGGGCTTGAGG
CTTCCTTCCTGGGAGAAAAAGACCTTTACAGGAGATCCACAGTGCATGAACCAAAGGTGTCTATGACCCCCAGAGGGAAGCCCCAAGGTCAGAGGCTCCC
AGAAGCACCCAGGCCCAGGTATCAGTCCTGACAGCAACTGGCACCAGCGAAAGGAGGTAGGAGGGATCCTGCTGGAATCACTCCCAAGGTGCAAGTGTAT
TCCCTGCTGAGCATCAAGGCCACGGTTGGCCCCTGTTACTGCCAGAGAAGRTGAATGGTCCCCCCAGGTGTGCTGGTGGGGAAAGTAAGCTGACCATTAG
CAAACAACGGACCCGACCTGAAATGCAGCTGACAAATGTGTCAAATGAGGAAGGAGAAAGGGGGCAGTGATTTCCAGGGGCCTGTGGTGTGCTGGCCCTC
CAGGTGGGTGGGGCCTCTGCTCTTCCTCTCATCTTCTCAGGCTGCTATGGTCTGATGAACGTTGGTGCCCTCCACCCCAAATTCCAATGGTGAAACCTAA
CCCCCAAAGTGATGGGATTAGGAGGTCAGGTCTTTGGGAGGTGATCAGGTCACGAGGGCAGAGCCCTCACAAATGGGATTTGTGCCCTTGTACGAGAGGC
TGGAGGGAGCTTGTTTGCCCCCTTTTGCCCTCCCATCACATGAGGACACATAGCAGGTGCCATCTATGAGGAACAGGCCTGGACACCAAATCTGCTGGAG
CCTTGGTCTTAGACTTTCCAGCTTCCAGTACTTTCAGCAATACATTTCTGTTGGCCATAAATTATCCCTTCTAAAGTATTTTGTTATAGCACCCCGAAAG
GACGACAGCTGCCATTTTGGGGCCCTGAAAGCACTCAAGAATGGTAGGAGGCCCAGCGGAGGCAGGTCTGTGGTCAGCTGGGGGCATCCTTTCTCATCCC
AGAAGCCAGGGAAAAAGTCATTGTCACAAGGACATACCCTCTCTGGGCCCCCTGGCCCTGGACTGATCTCCACCTGGCTCTTTACTGGGCTTACCAGAGT
ACAGGCGTCACCGGGCAGACTGGCACCCCCATGGCTCTGGCACTTCTAGTTGGGTCATCAGTGCTGTCTGACACCCTTGTATCTGTTATCCCGGCTCAGC
ACAAACAATTAGAGAAGATGGAGGAGGGAGCAGAAGCCTATTTTGTCTAGGGCGGTCAGGGAAGGCATATAGGCTGAGACCTGAAAGATGCAAAGAAGCC
AGCCATGTGGCGATCTGGGGGAAGAGCCTTCCAGGCAGAGGCAGCAGCACTGCAGAGGTCCTGAGATGGAAAAGCGTGACTTACAGGAACTGTCAGAAAG
TCAGTGGGCTGGAGCAGGGAGGGGGAGCTGTGAGAGGAGGCTGGAGAGGCAGGGAGAGGCTGGATCACGCAGGACCTTGTGGGCCTGACTGGGACTTTGG
ATTTTACTGTAGGTGGGATGGGACCCCACTGGGGAGTTCACTCAGGCCTCTATGTGGAGACCAGACTGGAGGCTGGAGTCCAGTCCAGATAAGAGATGGT
GGCTGCTTGTACCAGGGTGATAGCAGCAGCGGGAAAGGAGGGTTTGATGTGAGATATGTTTTGGAAATTGATCAGAYAGATGTTGGTGATGATTTGGATA
AGGAGTTAAGAGAAGTGAAGAATCAAGAAAGACTTCTGCATTTCTGCATTAAGTAACTGGGTGGATCAYAGACCACTAACTGAGAGAGGGAAAACTGGAG
GAAGGGGGAGAGAAAAATCAAGAATTCGGTTTTAGATCAACATGGACGCCACTGTCAGCCCAGCAGGGGAGGCTGATGGGGCAACACACGTTGCAGGGAA
AGGTGGCGTGTGGTSGGGGGCATGGGGGACCTCACAGGATTCTCAGAAACCCTTGTCCAGTTGATCCTGCTTCTAATCTCGCCTCTCTACCTTCATCCTG
TTTGCTTCCCAGAACATATTCTTAATTATGCCACTCTTCTGCTCAAGAGCCTCTGATGACTTCTCATTCCTTATCAGATGAAGTCCAAACACCATGGCCT
CACCTGGGGTCTCAACCAACATTTCCAGTTTGAGAAAAAAATGCTGAACTAGAAGGATAGCCTGTTGGCTGAGTACACACTGCCCTCTGGTGGCCAAATG
CCCAATAGCTGCATCTCCCTTAGGAGGGCACAGTACACCGCACACTGAGGCACGGGTAGGGCCAAAGCCCATCTCCAGGTCCCGTGGCAAGTTAACTCCC
AAGCGATTTGCTTTCGGWCAGCTGAGCCTGCAGCGGGGCCACGGCCTTCCCTGTTGCACCCCTGTGGACTGGAGGCTGCACACACCTTGGGAGCAGAGAG
GACTGTGAGAAGAGCTTCTCCTCAGTCCCTGAGGCCAGCTAGCCAATTGTGGAAGAAGAGACAGAGGGTCTGAGAGGCCAGAGTGTTGCAAATGGCTTCT
TACCTCCTGAATCTGTTCCTTCATCACCCTGATCTCATTCTCTCGAGGTTCTATTTGCTTCTTCAGCTCCTTTATTTTGTAGTCAAGCACAAACTTGAAT
TTCCCTAGTTCTTGATTTTTCTTTTTCAGATCATAAATTCGCTTCTCCTGGGGGTGAGATGAGAGAGAAGTGAGAGATATTGTAAGGCCCTGGTATACTG
CAGCCCTTTAGGGCAAAAGAGCACGAAGCCTGTGACTCTCCTGGTTGAAGAGGTCAACCAGGAGACTCCTCTCCTCCCTTCGTCAGTACAGAGGCTGGCA
CTCCCCCCATGGGGCTACAGCACAGACCCCTCAGCCTCTGTAYAAGGACTCTCATGCATTCACTCACTCATTCATATTAGGTTGTGAACAGCGGTATTTT
CCAACGATGGCCCCCACAGCATCTCCCGCCCCACACTCCAGCTGTTCTACAGCGTGACCTTGCTGCTTCTCCATCAGGAGGTGGAAGCGAATCCCCTTCC
CTTGCATTTGCCTTGACTTGTGACTTGTTCGTAACCCAAATAATGCAGCAGAAGGGAGACTGTGTGGCTTCCAAGGCTAGGCCAAAAAAGGCCAAGCAGC
TTTTATCTGGCTCTCTTGGGACACCTGCATTGGGGGAGGGCATCTGCTATGTAAGAAGTCCAACTACACTGAGACATCCAGGCTGGTGGGCACATTAGGG
GCTCTGATCAAAAGACCCAGCTGAGCCTAGCCTCCCAGACACCCCTGCCAAGGTGCCAGACATGTGACTGAAGAAGCCACATTGGATGTTGATCTTCCAG
CCTCCAGCTGTTTTGAGTCACCCCCAGTATTCCCAGCTGAGGCCCCAGACATCGGGGACAGAGATAAGCCATCCTTTTGTACCCTGTCCAGATTCCAGAT
CTGTAGCACCTGTAAGCAGAATAAAATAGTTGCTTTCAATCACTTAGTTTTTCTTTTTGAGATGGGTCTCACTTTGTCACCCAGGCTAGAGCGCAGTGGC
ACGATCTTGGCTCACTGCAACCTCTGCTTCTCAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCAGAGTAGCTTGGATTACAGGCATGTGCCACCACTCCT
GGCTAATTTTTATATTTTTGGTAGAGATGGGGTTTCACCATRTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTCTGCCTCCCA
AAGTGCTGGGATTACAGGCGTGAGCCACCACACCTGGCCTCAATCAGTAAGTTTTAAGGTTAATTTGTTGCACGGTGATAGTAATCAGAACATAAGTATA
TCCATCCATCAAACATTTACTGAATGAAGATCTTTTGTCAAGTATTGGGTTTCCAAATATAAATACAACACAGTCCCTTGCCCTTAAAAGAAAACACTAG
TTGGGAAAGAAGACACAGAAGCAAATCTAAGCCTAAAATGTGATAAATGTTGTAAAGCACAGAAGGCAAAGTATATATTGAGGGTGCTGAGAATGACTGG
CTTGAGAGCCAAGCGGTGGTTCATGGGGGAAGTGAGAGGTGAGGCTGGGGAAATAGAGGAGGGAGGTGAGGGTCTTCATGTTGGGGGAAAGAGTTCAGAA
TTTATCTCCTAGGCCAGGGGTTGGCAAACTCCAGCCTGTGGGCCACATTGGGCCTGCTGTCTATTTCTGTAAAACTTTATTGGAACACAGCCAAGTTAAT
TGACTAATGTTTTGTTTATGGGTGGTTTCACACTACAGCAGCGGTGTTGATTCRTTGAGACAGACCACATGGCCTCCAAAGCCAAAAATATTTACTACCT
AGGTCTTTACAGAAAGAGCGTGCTGACCCCTGCTGTAGCAATGGGGAGCTGTGAGGGCTTTGAGCAGGAGAGTGGCAGCATTGCACCTGTACCCTGCCAG
TCCATGGTGGTGGGAGATGGGAAGTGAGGCCATTAGACTGCTTAGGAGGCTGTTGCCACTTTCTAGGTGAGGAGGCCTTTGTCTCTTTCTTGTCAAAGCC
CCCTTTGAGAATCTGAACAGAGCTTTGGATCTTCCCTAAAAACAAACAAACAAACAAACAAACAAAACCCTGGATATGTACACCGACACTCACATGCAGA
AATGACATCCAGGCATGATCCCATGATCCTATGTGATCCTTACAAGACCCCTTGAGGTGGTTATCATCCCCATTTTATAGGTGAGAAAATGAAGGCTTAG
AGAAGTTGCTCGAGGTGCAATGGTCAATAAATGGAACCTGTGCCAGACCTAGTTCCCTAACACTGAAGCCCACGTCCTTGGCCCTTGGAGAATTCCACCT
GCCTTGGGCCGTAGTGGCAGGGGAGATGGAGAGGAGGGCACGGAATCTGKATGTGCTCAGGAGGATGATACTACATACTGGGTATTGAGGTATCTGCCCC
ACAGAATGTGATGTCTCTGACGTCTGAGTGTTTTGTAAGAAAGGCATCCCAAAAGTGGAGGCAGCCTCCTGGACAGGGTCAATCCCAGGAGAGTCCCTCT
GCGACAGGGGGACCATGTGGTCAGTGCGGCAAGTGAGCTGTCCCCAGCCCATGGGGAAGCRCCTCCAAGGATGCCTGGAGCAGTGGAGTCAGCTGACTCG
GTTCTTATTGCAGCCTGTCACCTATTGAAGTGTGTGACCCTGGGCAAGATACCCAGCCTCTTGGAGTTCAGCTTCCCGAACCATAACACTGGGTTCTCAG
GCCCCCTGGGTTGTTGGCAGAGCTGAAAGTGATGTGTTGACAGCGATTAGCCCAGTGCCAAGCACACAACAGGCACTTCACTGACGGCTGGTTCCCCCAT
CAAGTTAAAGAAATGCGTCCTGAGAAGCTAGGGACCCTCTCTCCCCTGAGCTTTGCCTTCCTCGCCTTGGCCCATCTGGCCGTAGCTGAGGGAGGACAGA
AGGAGAGCTGCACCTTGTCTTGAATAGTCTCGTCTCTTTCCTGGATCTCTCGCTTGAGGCCTTGGATGTCCTTCTCCAGAGACTTAATGACTCCTTGCAG
CTTCATCTGCTCTCCTTTTAGGGTCTCGATGTCATTGGTTCGTTCTTCAATCTCCTTCTGTAGGCTGCTGAACTAGAAAAGCGAACAGCAACAACAAAGA
CCACTAAAGTCAGAACTCATCTCCATCCCTCCCACTGTCTCAGTGTAAGGGGCTCCCCACCACTGGCCACCTTCTGTGGACTGAAAACACTTAGCATTCA
ACATTTCTGGGATTTTAGGAGTGAATATCTGGAGCATTTGGGACGGTTCAGGAATTTCCCAGGCCAAATGGATGATGTAGTATTCTGTCCCATAACATCC
AGGCCCATTCTCCATATGAGAGGACTGACTGTCTTCACAAGAGGTTCCAGAGACCGGTACACCAAGTGGACCAGAGACTTCTATGACCACACTGATCTTG
AAAAGCTGGGATCCACACTGCATCAAGGTCACAGAAAGTGGGCCCTAACTGATGAGCCATCTTAGCCATGACCAAGAAGGGAAGACTGATTGTTCCCTGG
ATTTACTAGTGTGCTTTCTAATAGGAAGAAACTTCAGCTTGCTTTGAACTTAGCTTTTCCAGGGCTAAATGTTTTGGGGAAACTGAGTTGAATCCTCCCT
CACCCCTGATGGTGAGTGAACTAAAAACATCTTCCCCACTTTGTAAACTAAGCATCCTACACCCCCATTCCCTCTCCCACCTGTGGTGCTGAACAGGAGC
CGCCCATGACTCCCTGGACCAAGAGCCCGAGGATGCCTCCCGGCCAAGACTTCATCTATCTCATCCCCAGAAGACCTTATTTCCATTTCCATTTCCATCG
GAGGGTTATCTCAGAAAACATTAACTGAATCCTACTTGCCAGTAAGTGAAAACTAGAAAGMCTCTGTCTGCACACAGGGAACCCCAATATCCTGTGAAAA
GGAGAGCAGGGAAGCCCGTGCAGCTGCCTTTCCAAGGAYGAGGTGGGGAGGGTCCATCTGCGTGAGGGTGCACTGGCTGGTGCTCTTCTCCCAGCCTGCT
CGCTGAAGATGGGGACAGGCAGGACCCTGGCCAGCACCCCCAGGCCGGTCAGTCCACCCACCCCAGCTTTCTCTGCAACACCCTCGCCCACCCTAGGTCT
CTTGGAGAACAGCCTGCTACCTTCTTCCTCATGATGCCTGTTTCTCCCTTGAGCCGCAGGTTTGATTCCTTTTCATCCCGAAGCTTTTTCTCATACTTGG
TTTTGATATCTTGGATTTCTCGGTCTTCATCTTCCTCAATCTGCTTCTTGGTCTCTTCAAACTCCCGCAGCTGCTGCCTGACGTCTTCCTGTGCCTGGCT
CAGAGAGAGTGGGCGTGTGGTCAGGGGAGAAGGGACTCACACATCTTTGTGCCAACAGGGCTTGAGGTGAGATGAGCATGGGGACCTGTCCCAGGGAGTC
AAAGGCGAGTGTCATTCCAGAAACGGAGACCATGGCCACAGGGCCCTTGACCTGTCCACCTTCTTCCCRTCTGTCCTGTCTTCCTGCCTCCCCTCTTTTC
CTACCAAATCAGGCCTCATGCTCCACCACTTCAACCCCAATCTTACCAACACCCCATCCCTGTTCTCCTTTGGTCTTGTTCACTGGACACCCAGCCTTCC
TATATTTTTCTCTCACAGAACTTGTGACAGTCATAATGTTATATTTATTTGCGATGTTATTTGGCTGTCTCTCCCATTTGATATAAGTTCCTTGGGGGTA
GAAACCATGTCTGACCCAGTGTATAACACATCCTGGCATACAGTGGCTATGCCATGGAGATCTGAGTGAATGGGTGGCTTTTCTCTGTGAAAGGGAGGCA
CAGCATGGCTTCCTGTGAGTACCTCTTCCAGAAGGGTGGTTTTCTCCTGCAGTTTTGCCTCGTAAAACTCAGTCAGCTCCTCCAGGGCCTGGCTCTTGGT
CTCATCGTTATCCCGGAGCTGTTTTTCATACTCTTCCTGCATCCTCTGGGACTTGAGCTGCAGCTCCTGGTACTTCTCATATTCTAGAAGCAACTTTTGG
TTGTTGCAACATTCTGGAGAGAAGCAAGGATGGTATTTAAGGTGGGAGAGCAGCACTTGCTTCAGGGACACCCAGGAGCCTTGGGCGCTCTCCCATCCCT
TCCAGCACCAGCTGGAGCAGCTGCCTCCAGAGCCAAGATTCAAATGCCTGCCTAGCTTCCTTGCTGCCAACCCCTCATCCCATCATCTCATCAGGTAGCC
AAACTCCCTGCCTGCCTGCTCTGGGAAGAAAAGTTTCCAGGAAAGCACAGAGTGGTATTTGGGGACTCAGGGCCAAGAAGAATATCCTGAGTGTGAAAAA
TAAGTATTAGGACTCCTGCTTTATRGCAAAGTGAGGCTCGGTAAGGTTAGGTGACTCCCCAGAGCACCTGGCAAGTACGTGGTGAGCCTGGGACCCAAGG
CAAGACTATCAGGTTCCAAACTTGACCTTTTCCGTGCCTCCTACTTTCATGCAATAGGTGTTTAATGTGCTTAGTGAATGAGTAAAAACACAGAAGTGAA
AACCACAGTGAGTTCCAGGGGATACATGTAGCCTGTTTTTAGACAGAGCCATATTCCCTGAGACTTCTACTGTGTCTGGGGGACTCTTGAGTGTTTCCCC
ATAACCTAGCTCTTCCAAYCCTAACCAACGAGGCCTCTACTTGTGGGCTCACCCATGTCCTGCAGTTCCCGGCTTTGCTTGTCTAGGAGGTCTYCTATGT
GCTCATGGTGATAAACATCCTGCTTCTCTTTTTCTGTTCTTAAGACCTAAAACAGAGTCACATTTCCTCATTTACACACATCTGCTGAAAGCACTACTAG
GGCAAGAACTGATTTTACAAGTAACACCCTCCTTCACTCACAAACATTTCTCAAGCCCTCATTTTGCACCAAGCACTGTTCTATGAAGCAGCAACCACAT
TGTCACTTTTCATTTATGTTATATTCTGCTCTAAAAGCTCTATACTGTTCCTATTTCTATTCTTGCTACTAAATGGGTTTGTCAATGATGAGTTCAGTTT
TGGACACGTGTCAAAAGGACTTCTGGGTGAAAAAGTAGGGATTCATTTGAATCCTCTGTTGCCAGCACATTGCTGTCAACAAAATCCTTGGCTGTGCTCA
TGGGTAAGCTTCTGAGGAAGTGTTTTCTTTAACTGAGCAGGAAAGCTTTCAGGCTTGGGGGGCGAGTTGGAGGTGGTGTGCCATCTTCAGGACCTAACTT
TGCGCCTGGCTTATATAGAGCACCAAATAAATGTTTGTTGGCTAAATGAATAAAATTATAAAGTGAATTAATTAATACAATTAATAGCCAAGGTTTTTCT
TTCTTTTTTTTTTTAGCCGAACTTTATGACCCATAGACATTAAAGAAACAAATATCCCTCAAGGACATAATTGGGGATTTCTTTAGGGGGTGAGGGACAG
GGCCTCGCTCTGTCATCCAAGCTGGAGTGCAGTGCAGAGATCATGACTCACTACAGTCCCCACCTCCCAGGCTCGAGCAGTCCTCCCATCCCAGCCTCCC
AAGTAGCTAGAACTACAGGCAGATGCCACCATGGCAGACTCATTTTTTATTTTACATAGAGACAGGGTCTCACTATGTTGCCCATGCTGGTCTCAAGCTC
TCGGATACAAGCGATCCTCCTGCCTAGGCCTTCCAAAGTGTTAGGATTATAGGGGTGAGCCACCTTGCCCAGTGGGGATTTTAGATAGGAGTCCAGATTT
GTGTAGAACAAAGAAAAGAATCTGGGAGAGTCCCAGACCAAATCTAACTATGTAAAGGCCATGTAGACTAATTTTATTTAACTTCCTGACAATCCAGGAA
TCAGTATTCTGCTAGTTATTCTCCATCTATGCTTTGATTTTCTTATCTTTTTGCTTTTTCTTATCKTTTCATTTTGTTTTAAAATAAGTTTCTCCTAATC
ATAATTCTCATTGTAGAGAATTTGGAAATTACAAAAAGTATGTAAAACAAAATTTAAATTATCTGTAATCTCAACTTCCAGAGATAATTATACTGTTATC
TATTTTCTATATGTATTTTACTACTATAGATCAGATTAATTAATCTGTTAATACCACTAATACCGATTAATACCATTCACCATAAAGTGGTTTATATTCT
GCTTTTTTTCACTTAGCAATTGATTGTAAGCATTTATTTTTATTTATTTATTTATTTATTTTTAGACAGAGTCTATGTTGCCCAGGTTGGAGTGCTGTGG
AGCGATCTCAGCTCACTACAACCTCCACTTCCCAGGTTCAGATGATTCTCATGCCTCAACCTCCCGAGTAGCTGGGACTATGGGCACGTGCCACCATGCC
TGGCTAGAGATGGGATTTCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGGTCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAG
GCATGAGCCACTGTGCCTGGCCAGTTGTAAGCATTTCTGATATCAACGACTATGCTTTAAAATTGGACATTTTCACATATCTTACTGTTTGAGCATAGCT
TGGGCAGTATATGCCAGTCCTGTCTTGAAAGTGGAAATTTCTTGTTATTTGTGCTTGTTGGTCAGTCTCTTAAACAGACCTGGTTTTTTGTTTTCAAGGA
CTCCATTTCCTGGATGAACTTGTCTGTTAGCTCCTTAATCTTCTCAGAATAGTTCATGTCCTTTAGTCGGAGTTGATACTCATTCTCCATTTTTAATTCC
TCCACACGAGTCTTTAGCTCCAACATAACCTGAGCCTTTGGGAGAAGGACAGAAGGATCAAGAACACTGACAGTAAGGGTGACTCAGAATATTTAAACCT
GCGGCCTTGACCTGAGACCTGCAGCTCTGCCTAGCTTCAAACTCAATGTGTCTCAACTAGAACTTGTCATCTTTTCCCCAGAAGGCACATCAGCTAAAAA
TGAGGAGACATATGAGCTTCCTCCTCTATCCTCAAAAAATCTTTACTACATTGTGCTAGTCATGCGCTCATCTCATTCAAGTCRGCTTAAGCATCTCCTG
CTTGACGAGGCTGACTTGCACCACACTGTTTAATTCTGCAACCCCTTCCCATTCCCAGGACCCATCACCTCTCTTACTCTGCTCTACTTCTTATTTCCTT
AGATCTTGCACTTTCTACAATTTACTTATTATTTTGTTTATTGTTTTTATTCTTCTTTCCCCATCAGAACTTAAGCTCCACATAGACCAGAATCTTTGTA
GGGTTTGTTTGCTGATATATCCCAAGTACGGGAACAATGTCTAACACAGAGTAAGATCTCAGAAGATATTTATTGAAGCATGATGGCTGTCCCCATGTAA
CTTAGAGTCTACTGAGGCAGCCAGACAAACACATTATTACAAATTGTGGTAAGTGCCCAAAGCTGGGTGGTTCTCAGTACTGCCAATCTGTCCCTCTTGA
TGTCTTCTTAGGCTCACTTTTARTACTTTAATATAGGTCCTAACTCTTCTGTCTTGCTGGTTTTTATGCCTAGTATCTTCTTATTCTTCCTTTTTTTCTC
TTTTTTTTTTGAGACATGGTTTCACTCTGTCACCCAGGCTGGAGTGCGGTGGTGTGATCATGGCTCACTGTAGCCTTGACCTCCTGGGCTCAAGTGATCC
TCCCACCTCAGCCTGCCAAGTAGCTGGGACTACAGGCATGCCCCACCACACCTGGCTAATTTTTATATTTTAYATTTTTTGTAGAGATGGGGATCTCACT
ATGTTGCCCAGGCTGGTCTCGAACTCTTGGGCTCAAGCAGTCCTCCTGCCTCAGCCTCCCAAAGTACTGGGATTACAGACTGAGCCACCGCACCCGGCCT
AGTGTCTTCTCCCATCGTACTCAATGATGCCAAAGTTTTCTAAAAATACTATAATACACACACCCTTCATTTCCTTAAAAAGTTAATGTTGATGACAGAG
TGGGTCAGAATGCAGTGTTTTCTTCTTGCTTACCTATGGGGACACCCCGTGCATCCCTATCTCATCATTTCTGGTCTGTCTCCTCTACCACCTGTGAACG
ACTTGACATCAAGGAATGGATTACGCACATTTCTGCATTCCTGGCCAGCAGACTAGYGAGGATCTGGTGCACAGGAAGTACTGAGAAGAAGGATAAGCAC
AAATTGCACGTGCAAAGTCAGAGAGGATGGAGCAGGAATGCCTGGCCAGGGCACTCACTGCATGTGATATGGCACAGGTTGGATGTATAGGAAGGGGCAG
CCAAGACTGCGTCAGACCATCAGGGGCCCGGTAGACCATGCTAGGAAGTTTGGATTTTATCTTAGAGGGCTTCCAAAGGTCCTCATCGAACCCGATCAGG
CTGACTTTGGTGTTATAAAGATCTCTCCAATGGCGGTACGCAGCACGGACTAGATTAAGGAAGGACCAAAGGCAGGATGATGAGTTGCTGGGGTGGGTGG
GCGGCAACTGCATAGACCAGGCRAGAGACAGACAGGGTTTGGACTGAGGTAGGGAAGGGGACCAGAGAGGAATGGAGAGGTTGGAGAGAGTGAGTTTAGA
GAGGATAGTGCCTGACTGGGTGTGGGGTGGAGAGGTAAGGATCATGGATGAAGGCTGTCTCCTAGGTAGAAGGACCGGTACCTGAGGGTGGGGCTTGGCC
TGTCTTGCTTCTCTGCTTTATCCCCAGAACCTAGCATAAAACTAGCAGCATGGTCAGCACTGAATGAATACTTATCAATGATCCCAGGGGTCTGCCCTGG
CTAGTGGGATATATTTATCCATGGGAATGACCCGGCCTTTGACATGCTGTGTTTGAGGTCCTTGTTCAGTGTCCTTCCTCCATCTATTCTTCACATTGCT
GCAGATTAWTCTCTCCGAGATGCGAATCATGTTAAGTCATTCCCCAGCTTAAATTTATGAATGGTCCTTATGAACAATGTCCAGCCTAATGCAGGGTGTA
AAAGGCCCCCCTGACCTGTTTCTCTCCAGCTTCATCTTCAGCCCTTCTCTCTGGCACAACCTAACTAGGAGCAGCTTTGCAGACCACCACTCCCTCATCC
CTCTGCACACACTCACTGCTCATTGCTCACTGGCCCTTGTCCATTTGTCCTGGAAGGATCTGAGCAAGGCTCATGTCCTCTGGCACCACCTGGCCTGAGC
CAAGTTCCTTCCCCTGTGCTCCCACAGCATCGTTCTTTCATGACACTTCATTCCACTGCACGTTTAATTCCCTTCTTTGTGATACTCTGCCCTCTTCCCA
GGCTATCAGCTAAAGGATGCTTTATGTCTTTTATCTCTGTAATCCCAGACCTTAGTATAGTGTCAGGTACACAGCAGACCCCTCTGTAAATCCTAGGCAG
AGAAGGTAAATCATGGCCTGAGAGTTAYTTAGACTATAATGGAATATAAAGAGAGTTGGGAATTCTGGGAACATGCTTTTTAAGGGACAGGMGGAGGAAG
AGMCAGGACAGAAGCGGGGAGGAGGAGTCAGAAAGGTTTWCAGGGAACAGAGTGTGGTCACAAGGATGGTAAGACAGAAGGGAGTTTCAAGAAGGAGCGG
TATATGCACAAGTCATTTCCAGCCTGGCAGCGGTACTGTCAGGCCCATCTGGGGGCTGTGGTCAGAAGCCAGCTTGGGCACCTTCAGGCCTTTGGTTCAG
CCTGCTGTCTCCTATTTGGCCTCTTCCCCTACCCTCTGGGAAGAACAGAAAAGATAACAGAGAAAAGGAAATGTCCCTTCTGCAGCAGGTCAGGCCCCCA
CTCTCACGGGCCCCTCCCTCATCCTCTTCTCCCTCTTTGCTTTTCCTGCAGAAAATTCTAGGGAGCTCTGGRAGGGATCTCCAGCGAATGCCAGGGGCTT
GTCACCGTGCTTTGTGGCAGTGTTGTATTGCTGCTCTGATGGCTTTACTTGTTTCTATCCCTCACTTGACTGTAAGCTTCCTGGTCATGTCACAGGGCCC
ACAACTGTCTTTTCACRTGTGCATCCCCAGTGCCTAGCAAATGGTAGGTGTTCAATAAACACACTTAAGATTCTGGACAAACRGCAATGACTGTGTAGCT
TTGCGATCCTCCATGAGCCTTGTGTGTTTATCATCCATTCAGCTTCTCCCTTAGGAAGCGTAACACAGAGCTATGCACTCATATCTCTGCAAAACACACC
TTTATGGAATGTTTACTGCATCAACAGGAAGGAAGGGATGTCCCTTTGGTATAGTGATTAAGGGAGGGGGCTCTGGATTAAATCTGGATTAGAACTCTAG
TCCTATTAATTATTAGCACACTGACTTTGAACACATCCCTCAAGCTCTCCTAACTTGTTTTTTGAAACATGGGGAGAATGACAGTATCTTCTTCATAGAG
ATGTTGTGAGATTTAAATGAGAACATACTTTACTTTTGTAAATATTTATTGATTGTCTTCCATGTGCCCAGCATGTGCTAGGAACTGTTGGTCATAAGAG
AACTGTATGTTTCATTATTCTTGGTTTCAAAGAGTAGGAAGAGAAAACCAGATCACAGAATAAAAGCAAAGCACAGTGTAAGTCAAGATGATCACATGGC
AGAAAGACAGGCAGAGTCGGGTGGACAGTGGCAATGAGGAGGAGAGCTTGGTTGTGGGGACAGCAGATGTGCAGGGAGCCGTGGGGGTCTGCACTGGGCA
TAGGRTGTAGCCAGGCTGTAGAGGGCCCCAGTGCTGGACCTGCATCTGAATGCAGTCTGGTAAGTAATTCCATATCCCTCTTCATTAGATCCAGTTCTTA
CCTTTTCTTCCATGTYTGTTTTAGTCACAAGCACCTCTTCGGCAAAGCCCACCTCCCTCTCTCGCTTGATTCCCCGGCCATCCTTATCAAAGACCTTCCA
GGTGAACAGGCAGCCATCCTCAGCAGCAGTCAGCAGGAACTGATCATCAAAGGTAAGCAACATCTGAAGAGAAAAAGGGTCATGGCCAGGAAGCTTTCAA
GGCCACAGATGACCAGGGCTGAGCCAGCTGTTGYGCAAGGCTTCCCCCCATGCAATCCTGGGCACAGCCTCACAGGGAGGTAAACTTGATCCCAGGTAAG
AATGAGAGAGGAGCCCTCACAGGCATCTGTTAATGAATAGAAGAAGTAAGGTTACGTCTACATTCTCTGTGGATTTGGAATCTGAAGAGTCAGCTATTAT
CTAGAACGWACAAGAAACTCTCAAAACTCAACAGTAAAAAAGCCAAACAATCCAATCAGAAAGTAGACAAAAGATAAGGAGACATTTCACCAGGGAAAAT
ACACAGATGGCAAGTAAGCACATGAAGAGATACTCCGCATTATTAGCCATTTAGGAAAATGCAAAATTAGGACCATGATGAGATATCACTACACACCCAT
TAGAACAGCTAAAATAAAAAACAGTGACAACACCAAGTGCTGGCAATGATGCAGAGAAACTGGGTCTCATACATTCTTGGTAAGAATGTAAAATGGTACA
GCCACTCTGGAAAATAGCTTGGCAGTTTAAAAAAAAACAAACCTGAATATACACTTACCATATGATTCAGCAATTATACTCCTGGGCATTTATCCCAGAG
AAATGAAAACTTATTTCCACACAAAAGCCTGTATATGATTGGTCACAGCAGCTTTATTTATAATAGCTGAAAACTGGAAAAAATTAAAAATATCCTACAA
TAGGTGAATGGCTATACAAACTGTGATTTGTTTTTCATGGAATACTACTCAGAAATAAAAGGGAATAAACTATGATTGATACACAACACAACTTGGATGG
ATTTGAAGATTTAGCTGAGTGGAAAAAGCCACAATCAGGACATTAAGCTAAAAAGCTTCTGCACAGCAAAGGAAACAATCAACAGACTGAAGAGACGACC
TGTCGAATGGGAGAAAATATTTGCAAACTATTGCTCTGACAAAAGACCAATATCCAGAATACCAAAGAACTCAAACAATTCAACATTAAACAAACAAAAA
AATCTAAAAATCTCATTAAAAAGTGGGCTAAGGGGCGGGCGTGGTGGCTTACACCTGTAATCCCAGCACATTGGGAGGCTGAGGAGGGTGGATCACCTGA
GGTCAGGAGTTTGAGACCGGCCTGGACAACATGGTGAAACCTCATCCGTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCAGGCACGGTAATCCCAG
CTACTCGGGAGGCTGAGGCAGGAGAATCTCTTGAACCCAGGAGGGGGAGGTTGCAGTGAGCCGAGATTGAACCATTGCACTCCATCCTGGGTGACAAGAG
CAAAACTCTATCTCAAAAAAAAAAAAAAAGTGGGCTAAGGACATGAATAGACATTTCTCAAAAGAAGACATACAAATGGCCAACAGGTATATGAAAAAAT
GCTCAACATCACTAATCATCAGGGAAATGCAAATCAAAACCACCATGAGATACCATCTTACCCCAATTAGAGTAGGTATTATCAAAAAGACAACAAATAA
CAGATTCTGGCAAGAATGTGGAGAAGAGAGAACTCTTATACACTGTTGGTGGGAAGGTAAATTAGTACAACCACTATGGAAAACAGTATGTAGACTTCTM
AAAAAAACTAAAAAYAGAACTACCATACAATCCTGCAATCTCATTACTGGATACTTTTCTAAAGGAAAGGAAATCAGCAGATTGAAAGGATACCTGCGCT
CCACCSCACCCCCCCATATTTATTGTACCACCAATAGTAAAGATATGGAATCAACCTAAGTGTCCATCAGTGGATGAATGAATAAAGAAAATGTGGTATA
TATACCCACTGGAATACTATTTGGCCGTAAAAAATGAATGAAATCATGTTTTTGCAGCAACATGGATGGAACTGGAGGTCGTGAAGTTAAGTGAAATATG
TCAGGTACAGAAAAACAAATATTGTGTGTTCTCATTCATATGTGAGAGCTAAAAAATGTTGACCCTAGTCGGGCATGATGGCATGTGCCTGTAATCCCAG
CTACTTGGGAGGCTGAGGTGGAAGAATCGCTTGAACCCAGGAGGCGGTGGTTGCAGTGAGCGGAGATCATGCCATTGCACTCAAGCCTGGGCGACAGAGT
GACACTCTATCTCAAAAAAAAGAAAAAAAAGTTGACCTCATGGAAGTAGAGAGTGGCATGATAGATACTAGGGAAGAGTGTATGGGTTGGTGGGGTGCTA
AAGAGAGATTGGYTAACAGATACAAACATTAGATAGAAGAAATCAGTTTTCTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTGAGATAGAGTCTGCTAT
GTTGCCCAGGCTAAGAGTGCAGTGGCACGATCTCCCAGCTCACTGAAATCTCTGCTTCTCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCTCGAGTAGCT
GGGATTACAGGCGTGCACCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGGTTTCATCATGTTGGCCAGGCTGGTCTCAAACTCCTGACC
TCAAGTGATCTGGCTGCCTCAGCCTCCCAAAGTGTTGGGATCACAGGCATGACCCACGTGCCAGGTCAAAGAAGAAATAAGTTCTAATGTTTGATAGCAG
AGTAAGGTGACTATAGTTAACAACAATATATTGTATATTTTTAAATTGCTAGAAGACAGGACTTGAAATGCTCCCAACACACAGAAATCATAAATACGCG
AGATGGATGGAAACCCTAAATATCCTGACCTGATCATTACATGCTCTATGACTGTAACAAAAYATCACAGGTACTTCATAATATGTACAAATACTACGTA
TCAATAAAAAAGCCATTTTCAGAAGGCCACATACAGTATAATTCCATATACAGTTCTCAAAATGACAAAAGTTATGGAAATAAGAACAAATTAGTGGTAG
GCAGGGATTCGGGATGATAGTCGGGAGGAGTGGTAGGACTCTGAAGGGCAGATGGAGATCTTTGTGGGGATGGAACGGTTCTATAGTGTGATTGTAGTGG
TGGTTACACAGACTGTACATGTGAGAAATAATTCAGAACTACATACACTGTGGACCATGTCAATTTTCTGGTTTGATATTTTGCTACAGTTCTAGAAGAT
GTAATTACTGGGGGAAACTGATTGAGGGATACACGGGAACTCTGTGCCATCTTTAAAATTTCCTCTAAACCTATAAGTATTTCAAGATAAAAAGTTAAAA
CAAAAGGATTAACTGTGAAAAATGTCTTCTCACAATCAGCAGTATGTGTCAAGAATCTTGAGAATAGCAATACTCTTGAATTCAGGAATTCTCTCTCTAG
GAATTTAGTCTTAGGAGAGAATCAGAGATGCACATATAAATTTGTAAACTGGGCTGTTCACTATAGATCATAAGATAATTTAAATGCCTAATTGCAAGAG
AATAGTAAGTTACAGTCCATCATAGGATAGGATATTTGTGTAGCTACTAAAATCATGCTTCTGAGGAATATTTAATTGTATGGACAAACGCTTACAGTAG
TGTGAAGTTAAAAACTAGCAGGCCACGAGACTGGCCTCACAGTATGATCTTAATTTTATTTAAAACACACACACATGGAAATGTAGAAGGAAATGCATCA
AAGAAATGATGATACCATTATGAGGATTTTTTTTTTTTTTTTTGGAGACAGAATCTYGCTCTGTTGCCCAGGCTGGAGTGTAGTGGTGCGATCTCGGCTC
ACTGAAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGTCTCCCGAGTAGCTGGGACTACAGGTACGTGCCACCACGCCCGGCTAATTTTTTG
TATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCTATCTCCTGACCTCATGATCTGCCCGCCTTGGGCTTCCAAAGTGCTAGGATTA
CAGGCGTGAGCCACTGCGCCTGGCAAGGATTTTTATTTTTAAAATAAATATGCATTGCTTCTATAATCAGAAAAATAAATATGTTATCCACAAAACTTAG
CAGATCTGAAGGGAAGAGGTGGAATATGTTGTAGTAATTTACTTTGGACCCAAGGCCCAGGCTTGGTACAGAAATGTTCTGTTTTATAATGAGAAACCTT
TTCTTAATACAGCTAGTGTTGCAGGTAAGCCACTAAGGAGTTTGGGATATAACTCAAAACCTCAGGTGCTGTGTCATTCAATCTGCAGAAAGAGAGAGTA
AGGAAGAAGAGACACATACCTTCCCAGTGCCTGTTTTTTGGGGGGTCCAGTGTAGGTATAGACATTACTTTTTTTTTTTTTTGCACTATGAATAACTTTT
AATTTACTATTGGCTATGATTTCTTGGCAACCATTTCGCGTGCAAGATAATTCTTTTTTATTTCATTTTTAAAATTGTCGTAAAATACATATTCTGTAAA
ATTTGCTATCTTAACCATTTTCAAGTGTACAGTTCATGTTATTAAATACATTTGTAATGTTGTGCAGCCATTGCCACCAACTACCCCCATAATCCTTTTG
TCTTGTAAAACCAAAACTCTATACCTATGAAACAATCATTCCTCATTCCCCCTTCCTGCAGCCCCTGCCAACCACCACTCTGTCTTTGTGATTCTGACTG
CTCTAAGTATCTCCTAAAAGTGGAATCACACTGTACTTATCTTTTTGTGGTTGGCCTTATTTAATTTAGCATAACATCCTCAAGGTTCATCCATGTGGTA
GCACATTGCAGAATTCCCTTCCTTTTTAGGCAGGGTATTGTTCCATTGTATAGATATACCATCTTTTGCTTATGCATTCGTCTGTCGATGGATGCTTGGT
TGCTTCCACATTTTGACTGTTGAACATAGATACTACTTTATGAGAAGGRTGAATGGAAGGACAATTTACAAATGTGTACTCATGGTATTGCCCCTGGGGT
GGCCTTTTGTACCCTCAGGGAGAGGTAGGGGCCAATCTTCAGGGCTATGGCTCCTTTCAGTCTGGGGCATTCTCTGGAGGAGGAGGCAGCTGTGGTCAAG
TGCAGCCCACACTCACGGCAGCTACGGCATCCACCAAACGGCCCCTTATTATGCATAATATTATGGTGAAAACGTTGTACATACATTTTTAGGTGTATCT
CTGATGATTTCCTAGGCTAAATTCCTGGAAGTAGTTTAAACAAAGAGTATATTCATAGTCAATAGATGGTGATTCAATGAATGATGGATGAATAAATAAG
AGAGAAGAAGGAGAGAGAAAAGACATTGGGAGGTTGAAGGGATGAACAAGGCACGTAGCAGGCAGGTGTGGGACTGGGTTCCTGGGGAGAGGGCCCTGCT
CACCTTGGTGATAGGACCGGCATGGGCCTGGTACTCATTGAATTCCTTCTGCAGAGGCAGAGGGTACTTCATGGCACGAATGGTTCCCACCGAGGTGCCC
ACAAACATCATGCGTCCAGAATGYGAGATGACAATGGCGGTGTAGGTGACATCAAACGCCGATATCTCTCGAAGGATCTGAGACACAGGCAGCTCTGCTC
AGTGTGAGGGGTCGAGCTGTGGCCCCCACGTCCCAGTGCCATACTCTCTCGCCCTCTGCTCTAACAGATCCCTAGGGGCTTGTCTTTAAAAAATGCTTTT
TCTATCCCCTTTTGGCATCCGGTATAGTGCCTAGCACAAAAAAAGGCGCAAACTAGATATTCCTTGTTGTGTTGCTGGTAAATAACCAGGTTCATGAGTT
AGGAATAATACTAATAGAGAGAGATATTCATATAGCACTTACTATGTGCCAAGCACTGTTCTGTGCCTTCTCCATGTTGCAACTCATTCAATCCTCACGA
AACCCTCTGAGGCAGTTACTGTTATCCCTAGTCTATGGATGACGGACCATCTGTGTGAAAGGCATTTGCTTCATCTCATGTACCTGGGTGGGCTCCAGTC
TCTGCTTTGACTGCTAYGCATGGGTGCATTTCAAAATGAGAATGGGCTATTGCTCATAAATGCATTCAGCAAGCATTTATTAATGCTCATTACATAAGCA
AAACCATACATTAGTCTCCCCTTATCCTTGAGGGATATGTTCCAAGATCCCCAGTGGTGCCTGAAACCACAGATAGTACTGAACCCTATATATACTATGG
TTTTCTCCTATACGTACATAACTATGATATGGTTTAATTTATAAATTAGGTCCAGTAAGAGATAAATAATACCTAATAATAAAATAGAACGGTTATAAGA
ATACTGTATAAAAGCTGTGTGAATGTGATTTCTCTCTCTCAAAATATCTTACTCACAGTATGGTACTCACCTGTTTTTGGACCTTGGTTGACCACAGGTA
ACTGAAACTGTGGGTAAGGTGGGACTACTGTACTATCAGAGCGCCCCTTCATTCCCTCACTCATTCATGCACTCATTCACCCACCCACCTACACACATAT
TTTTTTTTCTTTTATTATTATTATTATACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTG
CTGCACCCATTAACTCGTCATTTACATTAGATATATCTCCTAATGCTATCCCTCCCTGTTCCCCCCATCCCACGACAGGCCCCGTTGTGTGGTGTTCCCC
ACCCTGTGTCCAAGTGCTCTCATTGTTCAATGCCCACCTATGAGTGAGAATATGCGGTGTTTCGTTTTCTGTCCTTGCGATAGTTTGCTGAGAATGATGG
TTTCCAGCTTCATCCACGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGCGCCACATTTTCTTAATCCA
GTCTATCATTGATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCACAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATAATTTATAA
TCCTTTGGGTATATACTCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCACCACACTGTCTTCCACAATGGTTGAA
CTAGTTTACAGTCCCACCAACAGTGTAAAATTATTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAAC
TGGTGTGAGATGGTACCTCACTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGCCTACACACACATTTATTGAATGC
TGTGCACCACACAATGTGCCAGCTAGTAGGGCTGCCAAGAGRAGCAAAAGATGGCCCTGCCCTAAAGGGGCTTTATTCTGGCACAGCACTGATAGCTGCC
ATTGAATTAGGACCAGGCTACTCGGGGGTACACAGGAGAGTCACCATACTGTCAGCTGTGTTCCAGCCACGGGAGATCTGCCTTGGGCTAGCTTGCTGCC
GTGGTATCTACGCACTTTCCCAGGCACCAGTCACAGGAAAAGTGGGAGGAACCAGCTGGAGGAGCGCACAGCCCATGTTTGTATGATGCATCCTTGCTGA
GCTCCTCTCTTTTCCCTTCACTATTTGGAGCCCAATGTAACTGTACGGTTTCAGAGTTTGGGGATTTCAAAAGAATACAGTGGCAAGCCTAGGTGAGAGC
AGCTCACTGCACAGTCATGCATCGCTTGATATGGGATACATGGTTAGGCTATTTTGTCACGCAAACATCAYGGAGTGTATTTACACAAACCTAGCTGCGA
CAGCCTACTATACACCTAGGCTATGTGGTAGAGCCTACTGSTCCGAGGCTACAAACCTGAACAGCATGTGACTATGCTGAATACTGTAGGCAACTGTGAC
GCAATGGAAAATATCTGTGTATCTAAACAGAAAAGGTACAGTGAACATTTGGCATTATAATCTTATGGCATTACAATCTTACAGTCCATGTGGTCCATCA
TTGGTGTTACTCAGTGCATACCGTAGTTAGGTTTTTACCCCAGGAATGTAAGTGCAGACCAAGGGTAAGAGTACAGTTTAGAGATGACATGACCTCCATG
CCTGGAAGGTGGGAGAGAAGTTACAGACAGCAAGTAAAAGGGAAATGAAAAAGAGCCCCGCAATTTACAATTTCACCCAGTCAGGAAGGAAACTAGGCAG
GAAATTCAGGAAGTGACGATAACTGAGCTAATCTAAAAGGAATGAGGAGCCTGATGTTATCTTGGGAAGAAGGGGCCCTGTATGCAGAGGCCCTCATTCC
GTGCATACTTTGTGCTGTAAGCACGGGAAGCTGTCCCTGCAGATCCGTGCCCCAGCCCAGAGGCGGGGCAGGGGCAGACTCACCAAGGAATCTGCAATCT
CCTTGAGGGTGTGGTCTGATCCAACAGCAAAGATAATTTTGGCATCGGGGGAGACAGTAACACAGTTGTAGCTGCAAGACTTGAGCACGCATTCTGTCTC
TCTCTTTCCTGTGGACAGATTCCATTCATACACAGCACCATCTGTGCCACCAGAAATCAGTTTGCTATCATCTGCATTCCACACAATTGAGCGAATCTGC
AGGAGAGGAAGACATATCCAGTGAAGAGTGTACACACACTTACACCCTAACACAGAAAAGGGTGCAAACTCCTTAGGTGCTCCACTAGACTGAGCAGAAC
GTCCTTTCCTGCTGTAGGCCCTTCTGTTAGCACAAAACATAGCTTCTTGTGAACGTTCACATTCTGTTTTCTATGACGCTTGCAAATTACTGAAGATGAA
ACACTCTCATTTCTTTTTCACTTTATGAACGTAAAGACTGAATCCTACAGGTTTCTTAAGGCTAGAACCAACCAATTATTGCTGTTTTTTCAAAACATTT
TTGAAATAATTATGTATTCACAGAAACTTGCAAAAATAGCACAGAGAGAGTGGACTTCTGGAATGGCACGGTAAGRACCTCAACTTGACCTTCTCTCTGA
CAATGTAGGTTAACTGGTAAATATGATAAAAAATAATCATTTAAAGTCTTTAGAAGGCTGGGTGCAGTGGATCACATCTGTAGTCCCAACACTTTGGGAG
GCTGAGGTGGAAGGATCACTTGAGCCCAGCAGTTTGAGAATAGCCTGGGTAACATAGTGAAACCCTGTCTTTATAAAAATAAAAATAATAAGCTGGGCAT
GGTGGCATGTGCCTGAGGCAGGAAGATGGTTTGAACTGGGGAGGCTGAGGCTGCAGTGAGCTATGAGTGTACCTCTGCCCTCTGGCCTCAGTGACAGAGT
GAGACCCTGTCTAAAATAAAATAAATAAAATGTCTCTGGAAATTGTCCTCAGGGAATACAGCAAATGGAAAAACATTTATTCAAGAAAATCTACTCAATC
CCAGTAAGAACAGAGTCTGCTGCATTTAAGCCATGACTCGCTCTGTTACGGCCTCAGCTCCAGAAACTTCACTGCTGTGCACTCTGGGCAGRTGTGGCCA
AGATAAGCGACTCCCTCTCCCCATAGCTCCTGATCTTGGGCTATGGTTTCGGTCTGGAAAGGGAAACTGCTGGGATTTCTTATTCTTACCCCAGCCCCAT
GTTGCAGAAGCTCTATTCCAAGCAGGTGTGGCCAAGAGGGCTCAGACTCTCTTCCCCTCGGCCCATTGTCACTTGTTGGAAGAAACTCCACTCTAAGCTC
AGCATACTGAGAATAACTGTGCCCTAATGATTCCTGACCCAGTTTGCTTATAGAGTGAAAGTTCCAAGCCATGAAGGGCAAGCCAAAAAGACCAGGGGCT
TACAYACGTGCACACACACATACACACGCATGTGCACACACAYGCACACACCTCAAGTGTCACTCACAGAAGTGAGGATGTTACTCCTGGAAAAGCAGGT
CCCCGCCCCAGCTCTGGTGCAGTGGAGCAAAGGTTCTGTCTGTGGGAAAGTCAGGTGCTAAGACAGGGAGCTCTACAGCTCTGCTTGAGGGGGCTGACTT
TATTTGGAATAGAACATGGAAAAGTCCATGCCTATGGGCATTGTCTAAAACAGTGGAGATCTTGGTGGAAAGTGATTAAGAGGAGGCTGATAACTCCAGG
ATGTAAGCAAAATGATATAGAGGAGTGGAATTTTGATAGAACAAGGGAAAGGGACAGAGAAGAAGAGTCCTTCAGGGATAACAGACAACTCTAGAGGCTG
GAAGGTCTTGTGTATGTGTTAGACTGTACTGATTCAGGTGCAGTCAGAGTGGGATATGAGGAAAACTTGAAAGCATCTCCTAAGCTACACAAAGACCCGT
TAACATAGGGCAGAGTCTCACTGGCACAACGGGCCTACCAAACACAACAGTCTACCAAATGCKGAACATTAAGCTCTCCCGACCCAGGGGCATCTCCTAG
GAAGCCAGGCTTAAAAATGAAATCATATTCATCCCTCGCAGCCTGGAAGACTCTGTGCATGCCCAAGGCTGTACCCTCTTATGAACAATCAGAAAGGGGY
CATCCAAACTACCAGTCTCTGGCTGAACATGATGCAAAAGCCATCACTCTCTGAACTGTGATAGCATTTTCCAAGCCACACATAAATCTGGTAGTAAAAG
GTAAAAACCTAATTGTCTAAGGGGGTTTATGCACCATCTGTAACTAATAAGCAGCTTAGGCAACTCATGGGCAACCCTAGGTAGCCAGGCTAAAAGAAAA
GATGAAAAATAGATCTGAGTAGTGATATGAGACACTGCWCACTACAGGGGAAACAGACTTTACAGAATTAGCTCAGCCAAGTCACGAAACAGATAATCAG
CCAACCAACCAACAACAATGCCCTGGGGGGACACATATTCAGAACTGCTACAATATATTGTCTAAAATATTCAGCCAACAAAAAATTGAAACATAAACAA
ACAAACAAACAAACAAAAAGAGTGTAACCAATAAGAAAAAGAAAGAAAGAAAGCATTCAGGCAATAGAAATTGCCTTTGAAGGGGCCCAGATGGTAGATT
TTGCGGACAAAGACTTCAAAGTAGCTAATACAAATAAGTTCAATTAACTAAAGGAAACTACGCTTAAATAATTAAAGGAAGGTAGGATGACAAGCCTCAT
CAAATAAAGAATATAATAAGAAAACAGAAATTAGTTYAAAAATCAAATGGAAATTCTGGAGTTGAAAAGTACAATAACCAAAACGAAAAATTCACTGGAA
GGCTCAACAGTAGATTTGMGCTGGCAAACTTGAAATAGCTCAATAGAGATTGTGCAATTGGAAGAACAGAGAGAAACACTAATCAAGAAAAATTAACATT
AACAGAGTTTCAGAGAAATGTGGGCATCCATTAAATGCACCCACRTATGGTACTGTAATGAGAGCACTAGGAGAAGAGAGAAAAACAACAAATATTCAAA
TAAATAATGCTGAAAAATCTCAAATTTGTTGAAAAACATTAACCTACACATCCAAGAAGTACAATAAACTCCAAGTAGGATAAATGCAAAGAAATCTAGA
TCCAGACACATCAAAAACAAAATGTTGAAAGCCAAAGATAAGAAAATCTTGAAAGCTGGCCGGCCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGG
AGGCYRAGGCAGGTGGATCATGAGGTGAAGAGATCGAGACCATMCTGGCCAAAATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCAT
GGTGGCGCACACCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGTTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATGGTGCCACT
GCACTCCAGCCTGGTGACACAGCAAGACTCCGTCTAAAATATATATATAAATATATATTTCTATCTGTGCTCATGAAAAAGACTAGCTTATTTTTTTTTC
TTGTGGTGTCTTTGACAGATTTTGGTATCACRATTATTTTGGCCTCATAGAACATAACTGGAAAGTATTCCTTCTTTTTCCAATTCTCTAGAAGAGTTTT
TTTCAAGATTAGTGATAGTGTTATTTTTTTTTCCTTAAATGTTGATAAAATTCCCCAGTGATAAGATCTGGGCCTAGAGTTTTCTTTGTAGAAAGGTTTT
AAGTTACAGATTCTTCTTGTTTTGTTTTGTTTTGTTTTGTTTTGAGGCAGAGTCTCACTCTGCTGCCCAGGCTAGACTGCACTGGCATGATCTCGGCTCA
CTGCAACCTCCATCCCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCACCACCATGCTCGGCTAATATTTTGT
ATTTTTAGTAGAGACGGAGTTTCACCGTGTTATCCAGGATGATCTCCATCTCCTGACCTCGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTAC
AGGTGTGAGCCACTGCGCCCGGCCTACAGATTCAATTTTTATAGGAATTTGTCAGTTTCATCTATATATTAAAATTTATTTGCATAAAGTTCATAATATC
CTTTCAATTTTTTTTTCATTTTGTTTTTTTTTTGAGGTAGGGTCTCACTCTGTTACCCAAGGTAGAGTGCAGTGGCATAATCTCGGCTCACTGCAACCTC
CGCCTCCGAGGTTCAAGCGATCCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGTGCCACCACACCCGGCTGATTTTTGTAGTTTTAGTAG
AGATGAAGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCCGATCTCAAGGGATCCGCCTGCCTCAGCCTCCCGAAGTACTGAGATTACAGGMGTGAG
TGACTGCGCCCGGACCCCTTTCAGATCTTTTTAATGTCTATAGGACCTTTAGTGATATCCCCTTTTTAATCCTCATATTGGTTGTTGGTATCTCCACACT
CTTAATTTTTTCTTCATCAGTCATGCCAAGGGTTTGTCTATTTCGTGTTTTCAAAGAATCAAATTTTGGCTTTGATGATCTTTTGTCTGTTTTCTATTTT
ATTAACTTCTGCTCTTATCTTTATTTCCTGCCTTTTATTTGAATTTAATTTGCTGTTCTTTTTCTAACTTCTTGAGATGGATGCTTATGTATCTTTTTTC
ATTTCTAACACAGTATATGTATTTAAGGTTATACATTTCCCTGTATGCATAGCTTTAGCTGCATCCTGTATCTGTATTTGTAAAAAATGTTACACATGTC
ATTCTAACATATATCCCTAATTAGAGACCAGTGTTTTAAGTACTTGTAAAGTGATGAAACAAATGGCTGTTTTCCTGGACTGGTGAGCTTGGGCATCAGA
ATCACTTTCTGTACTTTCATCCGCATCTCCACAGTCACTTGAAGACTAATTATATTGCTGAAGCTGAGGAGRCTCAGCAGCTCTCATTAATAATGTCCGT
GGGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAGGACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGTAGTTCAAGACCAGCCTGACCAACA
TGGAGAAACCCCGTCTCTATTAAAAATACAAAATTACCCGGGTGTGGTGGTACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCT
TGAACCTGGGAGGCGGAGGTTGCGGTGAGCTGAGATTGTGCCATTGCACTCCAGCCTGGGCAACGAAAGCGAAACTCTGTCTCAAAAAAAGAGTTTGTGT
TACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACTCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCACGCCTCTGCACTCCAGCCTGGGTGACAGAGTG
AGACTCCGTCTCAAAAACAAACAAAAATGCTTGTGTTTACATAGCACTTTCACTTTCCACACATTTTTACTTTTCCTTCCAATGATCTGTTATTTGCTAA
AGTCAACGGTCAGTTTTGGACTTTACATGACCTCCCTCTGACATCTAGTACCACTGACCACTTCAACCTTTCAGAAATTGTTTAGTTCCTTGGCTTCTTT
GAGATAATTATCTGATTCCAAGTTCTCTTTGTATCTTTATTTTCAGTCTTTCATCGGCTCCTCTTCTTTCACCAGTCTCTTAWATGTTGGTCTTCCCTCT
GCTGTCCAATATTCTTCTCAGATTCTACATAGGCYCTTGGTGATCTAATCTATGCCTCTGACTTCCTCTACTTTCTAATTCCCCGAATCTTCATACTCAG
CCCTGACTTCTCTCCTGACCTCCACACACATACATCACACTTCTGGGCACGTCAAATATCACATGGCCAAAATGGAACTTCATCTCTTTCTTCTCTCTGC
CTCCGCTACTAAAGTCATGGTTTAGTTCCTAACCCAGCTTTCACCTTCACATCCTAACTGCTCTCCATCACTCCAATTTCCTTCCACTCTAATCCTTCCT
CAATACTGTTCAGAGAGTTACCTTTCTGATCCCATTACTTTCTTGCTTAAATCCTTTCCGTTGTTTCTCGTCACCTAGAGACTAAAGTCCAATTCCTTGG
CATGGCATACACTACCTTCTGCGATGCAGCCARCCTTTCCTACTCCCTCTATCATTGCTCAAATGTGTCCAGTGTTCCAGCCATATGAACCAATGAGCAC
TGTCCTATTTCATACCTCCATTTCATCATCTCCAACAAGTCCTTCTGCCTAGAATGCCTCTCTTTTCCAATGGCCTCTTATCTCCAAATTCATCTGCTGA
CTTCTTACCCTTTCTATGCCTCTCCCTCTTAATCATGCCTCACATCTAATCTACTACTCTAGGACCTAGTGATTTTACTTTCTTTTTTTCTTTTGCTTTT
CTTTCTTTCTTTCTTTCTTTTTTTTTTTCAGACAGGGTCTTACTCTTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCATGGCTTATTGCAGCCTTGACC
TCCTGGGCCCAAGTGATCCTCCCACCGCAGCMTCCCAAGTAACTGGGACCACAGGTGTGTGCCACMACACCTGGCTAATATTTTTTACTTTTTGTAGAAA
CAGGGTCTCCTTATGTTGCCCAGGCTAGTCTCGAACTCCTGAGTGCAAGCGATCCTCCTACATCAGCTTCCCAAAGTGCTTAGATTATAGGCATAAGCCA
CCACGACTTTACTTTCTAAAATCATTTGAATCCATCCACTTCTCCCTAACTGTATCACCACCACTATTATCTATGGTGTAGATATCCACAATAGCCTCCT
CACCATTTCTACCCTCGCCCCCTTCAATAGTCTTCACTCTGCTGCCAAAGTAATCCTTCAAAATGCAAATCCGGTCATATTCTCTGCCCTGAAAGTCTTC
CATGATTTCAAGAAATAAGAAGGATAAATCCTTACAAGGCCTACAAGTTTCCATGCATTTGGGCCCTTGTGACCTCTCCAATCTCAGCCCATCTTTACCC
CACGGTTTATCCTGGCACCACATTCCAGGCCCACAGACTTTCACGTTCTCTGACACCCTATGAGTCTCCCATCTCTGGCCTTTGGATCCCTATCTGCAGT
GATTATCCCCACCAGTTGTGTCTGATTAACTCCTACTCACTCTTATAGGACCAAGCCTTTGCAAATACAGCCACCTAAATTATGCCGCCCCCTTCATTAT
TTCTCTCACAACAACACCATGTTTTTCTTTCAGTGGAACTGCAATTAGTAACTACATTTGTCTGTGCATTTGTTTTATTGTCTCTTTCCCCAAGTAGACA
GTGAACCCATGAGGAAAGGAACCATCTCTCTTTTGTTCACCTGTATCCCACTGGCTGGCGGCATACTTGGCTCCGTGCCCCTTGTTTCCCCAGAGACTGT
TCACTCACTTACCTTCCCTGTGTGTCCTTTCAGGCTTGAGATGTTCTCTAGGCTCGTGGTGGTGTAAACGTGAATCACATTTCCATTGACTGCAGCAAAC
AGGTGACCTCCATTGCTAAAGGAACACTATAGGGAAAGACAGCAAGAGAGCAAGCAAGCAGGAAGTGAGCAGTCTAATTAGAGGTTACAGTCAAGAGGTG
CTTTTCCCAACGAGTTCAGACTGAAACTACGTGTGAGGGTGGGAGTGGGGGGAAGGTGCAAATGAGACTGAGGAGTGGCTGACATTTTCAGACACTTTCA
TTATTCCTGTAACTCATAGTGGCCAGATGCTGACACTGTCAGGCCCACAAATCATTAAGCCGTTGGGACCACAAGCAATCATTTTGCCTGTAGAAGCATG
TTTCAGAGCCGGGGAAGTAATTCCTGAAATCATTGCCTTGTTTCTGCAAGACACCTCAGGGAAAGCTGATGCGCTCTTTATTACCTCTCACCATTGATGC
TTATTTTTCCCTGGCTCCTCCGTCTCCAACCTCACCTTCTTAGCTGTGACTCTGATTCTGAGATTACTTTTCTTTTAAAATATTTGTTAATATTCCACAA
TTACAGACAGGACTTATCATAGCGGGGATCTCACAAGGTTTTAGGTTCAATGAAATAGTCKGGTGGACATAAGAATATGGGGATGGAACCATATACTCAA
TAAGGTTGCTGGGAAAATAACTGGATTTCCTCCTTCCCCCTTTTTTTAAGCCACTGTAGTTCTCCAAGACAGATTTTGGTCCCACCTCCCCAGATCATGT
TAGTTCCTGATATTTCAGCCGTGGCTTTCTAAGAAACTGGACTTTTGTCTTCAGCAGTTTTTTTTTTACCTCTCCGCATCCTCTAACAGAGTATTCTTTG
AAAGAACGTATATCATCAATGAGTAGATTCATGAGGCGTAGTTTGTCAGCAAACCCTACTACAATGAARTGTCCAGATGGATGAAGGCTGATGGAATATG
CCTCTTCTTGGTATTCCTTAAATAGTTCCAGGGTGCTGTGAAAAAGATCAATTACTGAATTGTAAGCYTAGCTCACTAAATCCTTCCAGTCATCTACTGT
ATCTGATATATATTGTTATCATCGTATTTGAGACACACTACTGTTTGCAATTGTTGGTTCCTCTCTTTTCTAGATCTTGGTTATTAGGGGATAATGTCCA
GCGTGGAGCATGGTAGATAGGGAGACTGGTCAAGGTGTGGTCTAGCGATGCTGAAGACATAGCTCTGTTTATATTCCAAAATTCATGAGTATTGTCCAAG
TATTTTTTCCCCAGAAGCCCCAGAAGTTGTACATAAGAACAAAGAAAACAGTAGGGGGTGGGGGTCCACCTAGGGTTGGAGCTTCCCAGGGAAGCTGTGC
TGGAAGGTAAAGTCAGGAGGGAGTTGGGGGTGGTTGAGATAGTGATGTCCTGGGAGAAAGATGAGGAAGAAAGGGTCTGGAGAGCTCCCTGAAGCAAAGA
GCAGTTCCTGTGGGAAACAAGGGGATARGAGAGCTGGAGGGACCCAGGAGTTTATGTAAGAAGGTGAGAGACTGAGGTGTTGTCTTCATCTCTTCATGTC
CCCAGTGTCTAGCATGTGGTAAGCATTAAATAAACCACAAAGTAGTTTTCTAGCCCACGCAAGAGTGAGAAACAGGTAGGTTGACTGACTTGATTTTTTA
AAAATCTTTTCCAACTGAAAGCTTCTAAATAATTAAAGTTTGGAACACTGTAATTAAAATAATTCACATAAATTCACAACTGGGGTCTTGCATAATAAAG
TAGGCAAGCCYTTCATTCCTTACTTTGTTTCATAATTCCAAAGGCGGATGGATCGATCCAGAGAACAGGTGGCTATAAGGGGTTTGCGGATGCAGGTAGC
TAGACCGGTGATGGGTGCTGAGTGCAATGGATACATCAAATACTCAAAGTGAGCAGGCTCCCCCTAGAGAAATCACACAGAACAAGATCCCGCAGAGTAA
GCAAAAGGCTGGCTGTACATGTCAGCTCTAATTAGTTCCCATGAACATTAATTAGCCTGGGTGCACAGAAATCAGGCTGTGGCTAAACTGTTTGAATATT
ATGCATATTTTCCTGAGCCAATATTATTATTATTTTTTATTTTATTTTATTTTATGTTTGAGATGGAGTCTCGCTCTGTCCCCCAGGCTGGAGTGCAGTG
GCGCAATCTCATCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTGCAGGCGCCTGCCACCATGC
CCGGCTAATTTTTTTTTGTATTTTTAGTAGAGACGCGGTTTCACTATGTTAGCCCAGGATGGTCTCGATCTCCTGACCTTATGATCCGCCCACCTTGGCC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCTTGGCTGAGCCAATATTATTTTTAAACATTATTTTAATGGCAATAAAATATTTTCTTCAATG
GATATCTTAGAATTTAATTTAACCCTTCCTCTGCTGTAGGAACATTTAAGTGGCTTCCAATTTTTGTTATTTATTATAGGAATAACACTAGACTAAATAT
CCTTGCACAAGTCTTTGTATCTCTCTGATTATTTCCTTAGTATACAGTTCTAGAAGTGGAATACTGGGAAAAATTGTATGAATGATTTTTAAGGATCTGG
ATAAATAATGCCAAGTTTCTCTCTGGAGAGACTGCACTAATTATCACCAGTAGCAAATGAGAGTTGGATGGATGATTTTAAATTGAAATGCATCCTACTG
CACTGGTTATGTAGGTTACAGATGTCTGTCATCAGAGGCATTGTTTCTGGAACACCTGAATGAGGAGTGATCGTTGGGAAATTTAATGAGATGTACATAT
TTAGGTCTGTTCGCAAGCCAAGACAAAGGCTGAAATGGATTTTTTTTTTCAAATTCTGCCCCTCTGCCACTTATAAATTTATCTGCATCCACTCTATCCT
ACGCTAGTATCTCCCATCCAAGTATTAACCAGGCCTGACCCTGCTTAGCTTCTGAGATCAGACAAGATCAGGTGCATTCACGGTGTTATGGCTGTAGACC
CTACTATCTCAGAGAAAGAGATGCTATGCTGGGTAGGCAGGCACAGGTTATTGTTATTCTTCTCCATCTGTTACGCTTTCTTTCTCCAATATCTTCAACC
TGCCTGTCTCTATGAGCACATTCCTATTAGCTTTTACACACTCAAATCTCTCTTGTCTWAAAAACAAAAGCAATGCTCTCTCTTCCCCCTCTGCCTGAGG
AGTCATGCAATGATGGGGAATCACACAAGTGGGCTTACCGGTTTCACTGCAAATGCATGACCACAAACCTCCAGTGGGCATTTAACCCTGTCTGGTAACT
CTACCATATTTTTTCAATAAATTCACATTCTAAATATCCAAGATAAGTATTTCATACTGTTTATTCTCCTTTTCAAACATTCCAACCTTTTTCTTCCAAT
TCTAAATCTCATCTGATGACATTATCTCATATTTCCTTGCTTTCTGTGTCTTTGTTTTCATTTTGTATCTCAGAAGCAGACTTGCAGAGATTCATCATAA
ATTCATATAAGACAAATTTTATTTTATTTCGCTCCTTTCTTTCTCAATTTTTACTTCTGTTCCTCCCTATGATAAGTAGGCACCAACAAAAGGATTTCAT
GTATGTCACTGACTAYATACATATGTGTTTTATATTTCTATAAATGATATTGTGCTTCARATCTCTTTCTGTACTTTTACTTTTTTCTCAACACGAAATT
TTTAAGGAATCATCTATGTTGCAGTATGTATAATTTGCTTCTAACTGATGTTTGATATTCTACAGTGTGCATCTAGCTACTTTACTTCTTCATTACCACT
AGGAATGAACATGTGGATTGTCTTCAACCGTCCATTGCTACAAACACTATGGTGAATATCTTTGTCCATGTTTTTTTTTTTTTCTTTTTTTCTTTTGAGA
TGGAGTCTCGCTCTGATGCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAACCTCC
CTAGTAGCTGGGACTGCAGGCACATGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATC
TCTTGACCTTGTGATCCACCCGCCTCAGCTTCCCAAAGTGCTGGGATTATAGGTGTGAGCCATCACACCTGGCCTGTCCATGTTCTTTAATGGCTCTGTG
GGGTCAAATTCCTGGTGTGTATCCAGTGCAGACTACTGGATAACAAGGTACATGCACTCTCTATTTGACCAAGAATTATCGGATTCCTTGCTAGAATGGC
TGTATCAGTTTACACTCCCATCATCACCATATTAGGGTTATCATTTTCCCCTGTCCTCAGAAATCTCTGGTAATAAGTGGATTTTTAATTTTTGACAATA
TAGTAATGAAACTTCTTATAAAGAAGCATCTCAGAGTTGTATTAATTTGCATTTTTCTGTTCACAGGCAACAAAATTCCCTACGGCAGCACCCAAAGGCT
TGAAATTAGCCATTCCAAGTGTGTCCAAAAAACTAAAGGAAACCATGATTAAACAAGTAAAGGTAGAAATGATATGCATCAAATAGAGAAGAATAAAAGG
ATCCCATCAATATAGGGATAGAACTGTAAGAAAATAGAAATTCTAGAGTTAAAAACTACAATAACTGAAATGAAAAATCCACTAGAGGTGCTCAAGAATA
GATCTGAACTGGCAGAAGAATTAGTGAWCTTTATAGATCAAAAAAGATTAGCAATTTGAAGAACAGAGAGGAAAAAGAATTAGAAATTTACAGAGCCTCA
GAAAAATGTGGGACACCATTAAGCACACCAACTAATGCATAAGGTGAATGCTAGAAGGAGAGGAGAAAGAGAAAGGAACAGAAAAAACATTTTCATAAAT
AATTGCTGAAAATATTATAAATTTATTGGGAAACACCAGTGTACACATATAGGAAGCTCAATGAACTCCAAGTAGGAAAAACACAAAGAGTTCCACAAAC
AGACACATTTTGGCAAAAATAATGAAAGCTAAAGATGAGAAGAAAATTTTGAAAGCATCAATAGAAAAATGACTGATCACTTACAAAAGAGTCCCAATAA
GATTAATAGCAGATATCTCAGCAACAACAACGGAAGCCAGAAGAGAATGGGATAACATGTTCAAAGTGCTTAAAGAAAAAGCTGTCAAACAAAAATCCTG
CAAAGCTATCTTTTAGAACTAAAGGTGAAAAAAAATTACCAAAAAAACTGAAAAAATATGTTGCTAGCAGATATGACTTACAGAAAATACTAAAGGAAAT
CCTTTAGGTTGAAAGCAAGTTACTCCAGATAGTAATTCAAATCCACACAAAACAAAGAGCACTGGTAAAGGTAATTATAAAAGACAATATAAATATATAT
TTCATCATCTTTTAGCTGATTTAAAAAGCAATTGTAGGAAACAATATGCATATAATATACTGTTGTTGCTATAACATATAGAAATGTAATATATTTCCCA
GTAATAGCACACAAATGGTGGGTGGGAACAAATGTGTACCRGATTAAAGAAATGACTTCAGTGGTAACTCAAACTCAAGAAACAAATGAAAAGAACCAGA
AATGATAGTAAAGGTTAACATAAAAAGACTATAAATATATAATTGCTCCCCATTYTAACCTCAGCTTCTTTAAAATATATAAAATTATATAAGGTAATAA
TTATAAGAATATGTYATTGGGGTTTGTAACACTCATARATGTAATATATATAACAATATTACCATTAAAAAGGGGAAAGGGAAGGTAGCTATGTGGCAAT
AACATTTCTATATGTTACTAGCATTAAGTTAGTATGAAATTGAATCAAACTGAATCTGATTATAATGAGTTAAAGTGTGTATGGTAAGCCCTAAGAAATA
ATTAAAAGTATATAGGGAAAAATAATTAAAGATATTAAAACACTACCTTAAAATTTTACTTAATGTGAAAGAAGGCATAGAGAGGAACAGAAGAACAAAA
ACCCCATGATACACACACACAAAAATGGTAGACATAAATTCAACTATACCAGTAATAACATTAAATGTGAACTGATTAAACAATCCAATCAAAAGAGATT
GTCAGACTGGATAAAAAAAGATTAAATTATATGATGTGTATAAGAGACACAGTTTGGAATCAAAGATACAAATATATTGAGAGTAAAAGGATGAAAAAAG
ATATACCATACAAACAGCAACAACAAAAATGCTGGTGTGGTTACAGTAAGATCAGGCAAAATAGGCTTCAAAATAGAAAATGTTACTAGAAATAGAGACA
TATTTTATAATGCAAAATGGTCAACCCATCAGGAAAATATATTAATTGTAAAGATATGTGCACCTAAAAATAGAGCACCCAAATGTATAAAGTAAAAATT
GTCAAGAATGAAGGGGAAAATAGACAGCTCAACAATAGGAGTTGAAGATTGCAATATACCACTTTCTTTCTTTTTATTTTTTTTTTTGAGATGGAGTTTT
CACTCTTGTTGCCCAGGCTGGAGTACAATGGCATGATCTCGGCTCACCGCAACCTCCACCTCCCGGGTTCTAGCAATTCTCCTGCCTCAGCCTCCTGAGT
AGCTGGGATTACAGGCATGTGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAATAGAGACTGGGTTTCGCCATGTTGGTCAGGCTGGTCTCGACCTCT
CGACCTTAGATGATCCACCCACCTCGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCACTCCCGGCTTTTTTATTGATTTATTTTTGAGATGGA
GTTTCACTCTTATTGCCCAGGCTGGAGTGCAATGGCACAATCTTGGCTCACCACAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCT
GAGTAGCTGGGATTATAGGCATGCGCCACCACGCCTGGCTAATTTTGTATTTTTTTAGTAGACACGGGGTTTCTCCATGTTGATCAGGCTGGTCATGAAC
TCCTGACCTCAGGTGATCTGCCCACCTTGGCCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCACCACACCAGGCCATGCAATACACCACTTTCAAAAAC
AATCAAGACAAGTAGGCAGAAGATGACAAGAAACAGAAGATCTGAACAACACTAAAAACCAACCAGACCTAACAGACGTATATAGAACACCCAACTCAAT
AATAACAGAATATACATTCTTCTCAAGTGCATATAGAGCAGTCTCCAGAATAGATTATATGCCAGGCCAAAAACAAACCTTAATAAATTTAAAAGAATAG
AAATAATACAAAATATATTCTCTAAGCACAGTGTAATTAAATTAATAATTAATAACAAACAGAAAGAAACTGGAAAACTCACAAATAAGCAGAAATTTAA
CAACACACTCCTAAAACCAATGGGTCAAAAAGAAATCAAAAGAGAAATTCCAAAATATTTGAGATTAATGAAAATAAAGACATAACATAGCAAAATTTAT
GGTAAGCAATATTAAGAGGAGTTTTTTTCTGGCTGCAAATACCTACATTTTCAAAAAAGAAAGATCTTAAATAAATAACCTAATCTTCTACCTTAAGACA
CTGGAAAAAAAAAAAAGAGCAACCTAAACCTAAAGCAAGCCAAAGGAAGGAAACAGTAAAGATTAGAGTGAACATTAATGAAATAGAGAATAGCAAAGCA
ATAGAGAAAAATCAATGAAACCGAAAGCTGATTCTTTAAAGAGATAAAAAAAAATGGGGGGAGGAGGAAAATCATATTAATACAATCAGAAATGAAGGAG
GGAATATTACTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTTTGTCACCCATGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAGCCCTGC
TTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACCACAGGCGCCCACCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAG
ACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGAGCTCGTGACCTGCCTGGCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCGTGAGCCAC
CACGCCCGGCCAAAAGAGGGAATATTACCATTAAGCTTACAGAAATAAAAAGGATCATAAAGGAATACTATGAACAATTGCATGCCACTATATTAGACAA
ATAGACAAATTCCTAGAATGACACAAAAACTGAAACTGGCTCAAGAAGAAATAGACAATCTAAATAGATGAAAATAGGTAAAGAGATTAATTAGAAAAAG
AAACTTTCCACAAAGAAAAGCCCAGGCCCAGATGACTTCACTGGTGAATTCTACCAAACACTTAAAGAAGAATTAATACCAATTCTTCACAAACCTTCAA
AAAATTAGAAGAGGCTGGAACACTTCCCAACTCATTCTATGAGGCCCTGATGCAAAAGCAGTCAAAGACATCACAAGAAAACTACAGATCACTATTTCTT
ATAAATATGGATACAAAAATCCTCAACAAAATACTAGTAAATTGAATATACTAATATGAAAATGATTATATACTATGGCCAAGTGGATTTTATCCCAAGA
ATGCAAGGRTGGTTTAACATCTGAAAATCACTTAGTATAATATACTATATTAATAAAGTAAAAAACGAAAACTCACACAATAATTTCAATAGACACAGGA
AAAAAAAAATGTGACAAAATCCAACAGCCGTTCATGATAAAAACATTCAACAAACTAGGAATAGAAGGGAACTTTTTCAGCCTGATAAACAGTATCTTCA
AAAAAACCTACAGACAGCATCAAACTTAATCGTTAAAGACTGGATGCAGCCGGGCACGGTGACTCACGCCTGTAATCCCAGCACTTTAGGAGGCCGAGGC
AGGCGGATCACAAGATCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTAYTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGG
CGCCTGTAGCTCCAGCTACTCGGGAGTCTGAGGCAGGAGAATGGCATGAACCCGGTAGGCGGAGCTTGCAGTGAGCCAAGATTGCGCCAYTGCCCTCCAG
CCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGAGACTRGATGCTTTCTCCCTAAGATTAGGAACAAGACAAGGATCTGCWC
TCATCACTGATATTTGACATGATACTAGAGGTTCTAGCCATGGCAACTAGGCAAGGAAAATAAGTAACAGGCATTCACAGATTGGAAAGGAAGACTAAAA
CTACCTCTATTGCAGATGTCATGATCTTATATATAGAAAATCCTAAGGAATTCACTAAAAACGCTGATAAAATTTGGATATTTGTCTCCTCCAAATCTCA
TGTTGAAATGTAACCCCAGTGTTGAAGGTGGGACCTGGTGGGAGGTGCTTGGATCATTGGGGGCATATCCCTCATGAATGGTTTATGAATGGTTTAGTGA
CATCCCCTTGGTGATGAGTGAGTTCATGAGAGATCTGGTTGTTTAACAGTGTGTGGCATCTCTCACCTCCCTCTCTTGCTCCTGCTCTCACCATGTGATG
TGCATACTACCCCTTCATCTTCCACTATGATTGTAAGCTTCCTGAACCCTTACCAGAAGCAGATGCCAGCACCATGCTTCCTGTACACCCTGCAGAACCA
TGAGCCAATTAAACTTCCTTTCTTTATAAATTACTCAGTCTCAGGTACTCGTTTATAGCAATGCCAGAATAACCTAACACAAAAACTACTGGAACTAATA
AATGAGTTTGGCAAGGTTGCAGGAGACAAGATCAGTATGCAAAAATTAATTGTATTTCTATACACTTAGAATGAACAATCCAAAAATGAAATTAGGAAAA
TAATTCAATTTACAATAGCATCATGAAGAAAATTTTTCAGAATATATTTAACAAAAGAAGTGCAAAAGTTATACTCTGAAAATTACAAAATGTTCTTGAA
ACAAATTAAAGACAATCTAAATAAATGGAAAATATCTCATGCTCAAGAATTGGAAGGCTTAGTATTGTTAAGATGGCAACACTCCCCACATTGATCTATA
AATTCAATGCAATCCCGGTGAGGATCCCAGATGGCTTCTTGTAGAAATTGAAAAGCTGACTGTAAAATCCATATGGAATTGCAAGGGACACAGACTACCC
AAAACAATCTTGATAAAGTAGACTACATTTGCAAGATTCACAATTCCCAATTTTAAAGTTTGCTACAAAGCAGCAGTAATCAAGACAGTGTGGTACTGGC
ATAAAGATAGACAGATCAATGGAACAGAATTGGAAGTCCTGAAACAAACCCATGTGTCAACTGATTTCCAACAAGATGCCAAGACTACTCAATGGAGAAA
GACTAGCCTTTTCAACAAATGATGCTGTGACGACTGGATATCTACATGCCAAAGAATGAAGTTGGACCCCTATACCATCCCATATACTCAAATGAATTCA
AAACGGATTAAAGACCTAGATGTAAGAGCTAGCACTATGAAACTCTTAGAAGAAATACAGAGGTAAATCTTCATGGCCTCAGGCATTGGCTTCTTAAATA
TAACAYGGAAAGCACAACCAACAAAAGAAAAATAGATAAATTCAATYTCATCAAAATTGAAAACTTCATCAAAAGACAACATCAAAAAAGTGAAAAGACA
ACCCACAGAATGGGACATAGTATTTGCAAATCACATATCTGATAAAGGACTTATATCTAGAATTATAAATAACTGTTACAACTCAATAATAAAAAGACAT
ATGACTCAATTTTTTAAATGRGCAAAAAATCTGAATAGAYATTTCTTCAAAGAAGAATTAGAAATTCTTGAAAAGACGTTCATCATTAATCACCAGGTAA
ATGCAAATCAAAACCACAATGAGATACCACTTCTTACCCACTAAGATGGCTATAATAAAAAAGATAATAACAAGTTTTGGCAAGAATATAGAGAAATCAG
AATGCTCATATACTGCTTATGGGAATATAAAAYGGTCCAGCAACTTTGGAAAACAGTATGGCAGTTCCTCAAATAATTGAACATGAAGTTACCATATGAC
TCAGCAATTCCACTTCTAGGAAGAGAAATGAAAACCCATCCACATAAAAACTAGTTGCATTATTCATAAAAGCCAAAAGGTAGAAAAAACCCAAATATAC
AAATTTGATGAATAAAATATAGTATATCCATATAATTAAATATTATTTGGCCATAAAAAAGGAATGAAGTACTGATACCTGCTACAACATGGATGAACAT
TGAAAACATGCTGGCCAGGTGTGGCGGCTCACACTTGTAATCCCAACACTTTGGGAGGATGAGGCGGGTGGACTGCTTGAGCTCAGGAACTCAAGACCAG
CCTGGGAAACATGGCAAAACCCTGTCTCTACTAAAAATACAAAAGCTAGCTGGGTGTGGTGGCGTGCACCTGTAGTCCTAACTACTTGGGAAGCTGAGGT
GGGAAGATTGCTGGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCATGATCACACCACTGCACTCCCACCTGGGTGACAGAGCAAGACCCTGTCTCAAAACA
ACAACAAAACCCATTATGCTAAGTCAAAGAAGCCAGTCATAAAAGTCCACACGTTTTATGATTCCATTTGAATGAAATGTCCAGAATAGGCAAATCTATA
TATAGAGACATGAAGTAGGTAAGTAGTGGCCTAGGGCTGGGGTGGGGAGGGGTGATAATTGGGAGGATGGAGGAATAATAATAGCTAAAGGGTATGCGCT
TTTTTTTTTTTTGAGGTGATAAAAATGTCCTAAGGCTGTCTATGATAAATGGTTGCAYAACTTTTTGAATATACTAAAGACCACTGAATTGTATACTTTG
AATAGGCAATTTGTATGTGAATCATAACTCAATTAAGTTGTTATTAAAAAAAGGACCATTACTGAGAAAGATATGTTAAATCTTCTACTATGATTGTAGA
TGGTCTATTTTCCTTGTTCTGCCCAGATTTGCTTTATATATTTTGAATCTATGGTATTAGGTACATGCAAACTTAAAATTGTAATATCTTATTGGTACTG
AGCCATTTTAAGTACAATATGATCTCTATCTTTAATAGTGCTTTTTTGTTGTAATGTCTGCAGTGTATTTATACTAGCTTTCTTTGTTATTCCAAAACAG
TAAAAAGGAAAAAGAAACATTTTTATATATACATATTTGTGTACATGAGCAAATATAGCAATAGATTAAATGCCTTAAAATGCAATTTCTGGGTAAAAGG
ATATGTGAGATTTAAATTTGATGGACAATGCCAATACGTCTGTCCTCCAAAGTTACTGTAGCAATCACAGCCCCACTGAGTCTATCAGCATGCTTCTATG
TGAATATCTTAAAATTAGAATTTTGTTTTGCTCTGTATTAAGGGGATGCATGAGTTTATGCTAACTTATTTGGATTAAAATTTGCCCACATGGTGACTAG
TCCCCCAGCAGGCAGATAGGTCCTGGTCTGGAAGGACCATTGCTGGAAAGACTCACCTTGCTGATCTCTGTCAGGGACATGGTGATGCTGTAGAGTTGGT
TCTTACTGGTGCTGGCAACCAGAGTTTCCTCTGAGGGGCTGAAGSACAGGCAGAGAACGTCCTGTTTGTCAGACTGACTTGGATCATTGCTCTGCGGGTC
CACAGGAATCTGCCCAAGATGCAAAACAGCTATCAGTAATGTCCCCACGTTGTCATTGTGGCCTTAGGCTTTCAGAGTTTTCTTTTTTTTTTTTTTTTTT
TTTTGAGACGGAGTCTCGCTCTTTTGCCCAGGCCAGAGTGCAGTGGCACTATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGC
CTCAGCCTCCCGAGTAGCTGGGACAACAGCCGCCCACCACCGCGCTTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGCGTTAGCCAGGA
TGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCAACTGCGCCCGGCCTAGGCTTTCAGAGTT
TTCTTGGATAACTTTAGCTTACAGACTCCCAGACCAGGCTGCTTCCTGGGATCCTCCTATTCTTTGTTTTTTTGAGAGAGGGTCTGGCTCTGTCACCCAG
ACTGGAATACAGTGGCATGATCTTGGCTCAATGCAACTTCCACCTGCCAGGCTCAAGCCATCCTCTCACCTCAGCCTCTCAAGTAACTGGGACTACAGGT
GCACACCACCACATCTGGCTAATTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTTTCTACAAC
CTCTGCTGCCCGGGTTCAAGCAATTCTAGCTGGGATTACAGACACGTGCCACCATACCTGGCTACTTTTTGTATTTTGTATTTTTTTTTCTTTTTTTGAG
ACAGAGTCTCAATCTGTCGACCAGGCTGGAGTGCAGTGGAGCGATCTTGGCTCACTGCAACCTCTGCTTCCTGGGTTCAAGCTATTCTCCTGCCTCAGCC
TCTCAAGTAGCTGGGACTACAGGCACACACTGCCACGCTTGGCTAATTTTTGTATTTTTAGTACAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCA
AACTCCTGACCTCATAATTTTTTTTTTTTTTTTTTTGTAGAGATGGGGTTTCACCATGTTGCCCAGGCTGGTCTAGAACTCCTGAGTTCAAGAGACCCAC
CCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCAATATGCTGGTCGATTTTCCTATTTTTAAACTCTAATTCTGTTCACCTCATCCTAAAA
TCTCTCTCAGGACAGACATCTCGAGTCACCATTTCACCATTTCTGCTCAGCAATCCTGCCCTATCCCTCCCCATCAGATGCCTTCTCAGAGAACTGCTGC
TGGGGAACAAATGCCAATAGGACCCCCATTTTACTTCTTTTTTTTCTTCCCGCCTTACCCTGATTTCTCTGCTCTCACGGTAAAAATCCTTTTCTTCCAT
CTTCTCAAACAGCAGAACTCTCCCTGGCCCAGCAGAACAGGCAAATCCCTTTGAATAGGCTGCAATGGCAAACACCTGGGGCATGGACATCTGGCTATGG
CTACTGGCCGCCACCATCTGTTCATAGGAAGGGAGTGGAGAACTGACTGGTGGAAATTCAATCAGGCTGGAAACAAAAAAACAGCATACATAATTTATAG
AGACAATCTTGAGGAGATGAATTCTGCTGGGGAGGAGAAAGAAGRCTGTCACTGGGTGTGACAGAAACCACCCAATGATCCCCTTTTCCACAGTCAAATA
CTACCCTTTGGCTTGGGAACCGTACACAAACTGCACATGGCCAAGCCTAGAAGCAAGAGAGTGCTTGGGGCGTGTGGAGTAGACAGAGGCGAGAGTTGTA
GAGGAAAACAGTCGCAGGTATGCTTGGGCCAAACCAAGAAGTCTGGGCTTTGTTCTGGGAGGCCTGGACCCCAGAGCTGAAGGACTGTGAACACAGCTCC
TGGAGAAGGTTATAGAGACTTTTCAGGAAGCTCCTACATACTCACAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGATATGCCATTGGCAYGGGGGGATG
GTAGTGAAAATGGGTGGATTGAAGGTTACTGAGGAAGAAGAATCTACAGGATGTCATTGGGGTTGAGGGCCCAGGCTCTGGCATCAGAGAGATCTGGGTT
TGAATCCTGAGCCTGCCACTTATCAGCGGAATGATCTTGGGTAGTTCACTTACCTCTTTGATCCTCAGTTTCCTTGTCTACAAAATGGGCACGATAATAG
TATGAACTATACAGGGTAAGAATCAAATTGGGAATATTTATAAAATGTTTAAAGCAGTGTCTGGTGCATGTAACGGTACATTCCAATACACAGGAGATAT
GATTTTTACTGGTTGTCATAGAGATAACGTGGCATCTCTATTATAATGGTCAATAACCACTCCTTCCTGAGATTGCACTTTACCCCTATCCTCTGTCAGA
TTTACCTAAAACATTTCCTTGCACTTGTTGGTCTGTCGCCTCCTGCTGAATTATAAGTTCCTTGAGGACTTGTGTCCCCAGCATCTAGCAAGAGATGCCT
TTTGCATACTACAAGGGCTTGGTGGACATGAATCAATTCATTAAATTAGCCACTGGAAAATATATTTTCTAAAAACTATAGTTTTGAAGACCAGTAATAC
TATAATGTTTATAAAATGAGGTTAGGTATAAAAAATAAAAAGAATTGTATTTAGTCTATGGTTATAACTGTTAAATCTGTGCTTAAATATAGACGAAAAC
TAGAGAGGAAGAGGGAAAATGGGCATAGTTGACTTTTAYGGTAGAGGGGTTATGAGTGGTTTCTAAAGAGTGCTGTCTTCTGCATAATGCTGTCAGTACA
ATGAATGTGGGAGCACCAGCCCAGGAAGCACCATTACCTCTCTGATTCCTGAATGACATCCAGGCTCTTTGAGCCATYGGTAGGTTCCTTGACCATTATG
CTGGTCTCCCAACGCTGATCTCCAGATTCAAAGAGGAAGAGTTTGCCTGTGTCAGTGCCAACGACAATCTTGTCATCAGCCACCCAGGTGTGRGCTAGAT
AGTTTTGGGGTTCTCCCCTCTGAAAGCTGGTTTGCTTCAGGGTTCCCTCAGMAAAACGGAGAAGCTTAAACATCCCATTTCCAGTGACACACACCTGAGT
GTTATCCTGTGGACTGAAGCTCACCTGTAAAATGTGAGAGAATTGAAGAAAAAAATTTATGAAACTATTCTTGATGGAATTATTTCCCATTTTACAAATT
AATATTTATTTCAGGCTGCTCAGAATATCTCCAAAACATCACAAAATCATGTAACTTTATGCTGCATTTGATAAGGGCACACATCTATAATCCATTATAT
TTATAGGGATATGAGTCCAACTAGGAGTCAAACTAGGAAATCTACAAAGGCCAAAGAGCAGAATGAACAGCTTTTGACAAGAGCCACACCCAGTGCCAAC
AAAATGGAATAAAGCTCAGCTGGAAACACAGAAAAAGAGGGTCTGATAGGTTTACATAGCCCTGTCCAAGAGGAAAGAAACCACATGTCAGGGGATGCTA
TGTGGTCTCCTACCAACTGAACATCCTTYAATCACAGCTCTTATCCCAATGTACACCTGCTCCTCTACTTACAATGGGATCATGTCCTGATAAACCCATC
ATAAGKTGAAAACACCATAAGTTGAAAATGGGCAAAGCCATGTGGCCACACAGCACCACACTGTAGAGTATCTTGGTTGTTACCCTAGTGATTGAGCGGC
TGACCGGGGGCTGTGGCTGCAGCTGCTGCCCTGCATCATGAAAGCGTATTACTTGGTCTCTTTCTCCTGAGTGCATATCACTCTTGTACCATTGTAAAGA
CGAATATTTTAAGTTGAACCATAGTAAGTTGGGGACTACCTGTACAGTAATAGGCAGTCAACCTGCTGTCCTGACTATATAGTGAGCAACTTGAGGGGCT
GTGACTTTTTCATCTGTTTTCCCAGTGCTGGATTCATCATGGGCATCCAATAAATGGTTGCTGAATCTACTAGTCAGAGCAGGAGGTSCTTCATCAGGCC
TCACTGTGGCCTGGTTGAAATACCCTTCTGGTTCTACCTGCCTTTGGTCTGATTCTGGAATAATCACCCAGCAGCCTTCTGATTACTATTATAATTTCAC
CTCTCAACTTCTCTATTACTAGGAAGGGAATACACTGGATAAATGATGTGAGCATTCTGGTTGTGATATGCTGGTTTACACATCAGTATCTTGTGAGTTG
AATAATTGAGTCTATGCCAGAGACACTGATTAGCTAGAATCTCTGAACATGAACACAACTGAGTCGTTGAACTTGTGGAATTGAGTGCTAGATCCTAGAC
TAGGGTGAGTGAACCAAGATCAAACCTCCTTGGGACCCCCTGCCTAAGCCATCAATCAGGTTCCTGAGGGGTCTTCTTCCTTTTGCCCTCGAGACACAAT
AGAAGGTTCTGTTCCTTACATAACTGCAACTTCAGCAACAGCTTCCTAAAGACCTACCATGTTACATCACATTTCGGAAATCTTCCTACTGCCCGGCAAT
GCTGCTGGAAAAAGAGGCTAGGACCAGGGAGAGAAAGCAAGTTTTATTAATCCACTTCTGGGCCAAACCTGTGACCAGAAAGCAGTTCTGGGCCAGAGTA
GAGAAGACAGGAGCTGGAGTTGGGGAACTCCTAGCTCTGCTATTCACTACCTCTGTGATCTTGAGTGAGTTACTTAACCTCTTGGATCCTCAGTTCTCTC
ATCTGTAAAATGGGGATAATGATTGTGCATACCTTATACGGTTGTTGTAAGAATAAATTTTAAAATGCATGGAGGAAATTAGAACTGTGGTACACAGAAA
ACATTCAATAAAAAGTAGTTCTATTTTTTATAATTTTCACGATACTTGTCACACTACTAGGTACCTGGTAGACAGGGTTGTTCTGAGTGTCGATTCTAAC
AATGGCCATTACTTTCTGTTTTTCCCACAGCCAGTAGACAAGATTTGACTCTGGAGGTGACGTCTGAGCCAATAGGTATTTGGAGTCTGGAGAAAAAGCC
ATGCTAATAAATTTCTGAACTTGGAAGTCAAAATTATTAAGAACTTTGCGCTTCCGGCAAGGGATGGATGACAATTCATAAATGGTGATGGCAGGTTTTT
CTTGCACAGTCTCAGAGATAGCGAGGTACCGCCGATTGGGACTGATGGACAAGGCCAACATGCCCTGACTCTTCTCTGAGCCTGCAAACAGAGGAAAAAG
GAAATAATCAGGGTAGATCACACTTTCACCAGGGTTCAACAGGAACCAGGCACTGTGGTGGGCACTGGAGTGGACAGTGGTGGACACAAAGAAGAAAGGC
GGCCTTGGCATAGCTGTGTTTGGGTATTATGAAAATGACTAGGGGCCAGGTGTGGTGGCTCACGCCTGTAATCCCGGCACTTCAGGGGGCCGAGGTGGGC
AGATGACTTGAAATGGGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATAAAAAAATTAGCCGGGTGTGGTGGCAGGCAC
CTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGATTGCAGTGAGCTGAGATCATGCCACTGTACTCCAGCCC
GGGAGACAGAGCGAGACTGTCCCCAAAAGAAAATGACTAGGGCAGGCACCTTGGAGGATGAGGTGGGAGGAGAAGTCAGGGAAACCTTCCTGAAGGAGGG
CAGGGGGTGAGGTGAGATGGGGRCTGGGTGGTAGATAGCAGGAAGAGCTTGAGCCACGGGGTGGATGTGACAAAGGGTACAGCATAGTGCGGGAACTGCA
AGCAGTGGGTGTTGCTGGAGCATTGCATGTGAGATGGGGTGACCAAAGATGGGCCTAAAGGGGTGGAATAGGGTCAGACCATAGAGGTCTTTATTCCCTG
AGTGGCTAGCTCATCACTCCTCCTCTACTCCAGAGGTTGGGATGCCAACTACTGGATTCCTCAGCCTCCCTTGCACTCACCCTTCCTAAAATTTTTCAGC
AGCCTCCCAGGTGAAGTCCAAACTTTTGTGCAAGGCTCTCAGTGACCTAGAACCTGGGATCTTCTCTGAGCCACAGCTACTCTCTGCATCCCTTCCAGAG
AATTCCCATGGGCTGGGCATGCACGCCTGCTGAGCAACTTGCTGCATCTCTCCTTGGCGTGTTGTGAAGCAGCAGCATGAGGGCCCAACACATGGGGACC
CRTCACATCACTCTCTAGCTCATCCTCCCTTGCCTCACTCACGCTCCCTGCCCTGGGCCTGTATCCACCATCCACTTATCCACTAGACACAGTGCCCAGG
ACCCACAATACTTTTGAGGACCTAGGAAAATGTTTTAGTATTTATTTGAAAATCAGAAAAAACATGAATATATAATGGTGAATCCAGCCTAGATTATATT
CCTCTTTATACCAATACAGTCATAAAGTATATTACTGCATATATTTTTAAATAATATATGTGTGTATATATATTTTATATATATATATATAAAATATATA
TATTTTTTGAGATAGAGTTTCACTCTTGTCGCCCAGGCTGGAGTGCAATGGCTCAATCTCGGCTCACCACAACCACCACCTCCCAGGTTCAGGTGATTCT
CCTGCCTCAGCCTCCCGAGTAGCAGGGATTACAGKCATGTGCCACCATGCCTGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCA
GGCTGGTCTCGAACTCCCAACTTCAGGTGATCCGCCCACCTCGGCCTCCCAGAGTGTTGGGATTACAGGCATGAGCCACCACGCCTGGCCTATAAATATA
TTTTTAAACATTTTTTAATGAAGGAGGGGGCCATGAAATCAAAAGTACCTAGAGCCCTCGAAAACAATAATGTGACCCTGATTGCATTTCCCAAAGAGAG
GGAGAAGAAAGGAAAAGATAAACTCAATCTCAGATATATTGTGTGTGAGGTACACTCTGTGGAACAGTTGGGTAYGGAGGTCCAGCAGGTGGACATGGTT
CTAAAGCTGGCGGGAGGGGTTGAGGCTGAAAATACAGATTTGAGGTAAAAAGCATAAGGGAAAGTTAAAACTAGGAGTATGTAATAGCCTAGATGAGGCA
AAGGAACACTGCTCACTCCCTCCTATTGTGCTTTTGTGCCAGGTTCCTACCTGGTATAGCATCTGTCCAGCTCATTTGCACAGTCCTACTCATTTGAATT
ACACAACCTGCCTCCACTACAATACTGAGAGCTCCTGGAGGGCAGAGGCCATTCTTGCTCATTCATTCATTCATTCAATCACCAGTGTCTGGAACTTAGT
ATGTTCTTGATATATGTTGACTGGTTTTAGAGTTTGTAAAATGCTTTTGCATTGTTTCGACCCAGCTGATGCCTYRCCTCTCCTCCTTAAAACATTTTCG
CCTCTCACATAGATATCCTTTTATTATTATTATTATACTTTAAGTTCTAGGGTACATGTGCACAATGTACAGGTTTGTTACATATGTATACATGTGCCAT
GTTGGTGTGCTGCACCCATTAACTAGTCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCCCTCCCYGCACCCCACAACAGGCCCYGGTGTGTGA
TGTTCCCTTTCCTGTGTCCAAGTGTTCTCATTGTTCAATTCTCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGCGAYAGTTTGCTCAG
AATGATGGTTTCCAGCTTCATCTGTATCCCTATAAAGGGCATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTC
TTAATCCAGTCTATCGTTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAACAGTGCCACAATAAACATACGTGTGCATGTGTCTTTATAGC
AGCATGATTTATAATCCTTTGGGTATATACCATGTAATGGCATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCACCACACTGTCTT
CCACAATGCTTGAACTAGTTTACAGTCCCACCAACAATGTAAAAGTGTTCTTATTTCTCTACATTCTCTCCAGTACCTGTTGTTTCCTGACTTTTTAATG
ATCGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTAATGATGAGCATTTTTTCATGTGTCGGTTGG
CTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAG
ATTCTGGATATTAGCCCTTTGTCAGATGAGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTAATGGTAGTTTCTTTTGCTGTGC
AGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTCGCCATTGCTTTTGGTGTTTCAGACATGAAGTCCTTGCCCATGCCTATATC
CTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTCAGGTCTAACACTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTA
AGGAAGGGATCCGGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTCACCTCTCACATAGATATCCTGT
GATCTTTTTGGCCACTCCTCCAAAGCCTCTTTTGCTGATTCTTCCCCATTTCCCCAGCACTAAATGCAGGAGTGCTCAGAGCTCACTCTTTCAGCTGCTT
CTCTTTTGTAAATATATTCATGCCCTAGGGCAGGGGTCCCCAACCCACGGTGCTGGGCTACACAGCAGGAGGTGAGCAAGCATTACCGCCTGAGCTCAGA
TCAGTGGCGGCATTAGATTCTCATAGCAGCACAAACCCTGTTGTGAACTGTGCATGCGAGGGATCTAGATTGTGTGCTCTCTGTGAGAATCTTAACTAAT
GCCTGATGATCTGGGGCAGAACAGTTTCATCCTGAAACCATCCCCCATACCCTCTCCATCCTGTCCATGGAAAAACTGTTTTTCATGAAACCTACCCCGA
TGCCAGAAAGGTTGGGGACCACTGCCCTAGGGAAGTCTCATCTACTCTAAGGGCTTTACATTTCACCTCTAGGCTGATGACCCTCAAATTCCTTTCCTAG
CCTGGACTTCCCTCCCTTAAATCCAGACCTGAAATCAACCTGCTTACTGAGCATCTCCATGAAAATATCTAGCAGGCACATCAATCTTAACAGGTCCAAA
ACCAACCTGCTCCTTCTTTAGCCCTTTCTATCACAATCAACAGCAACTCCATGCTTTCCATGCTCAGGCCCAAAACCTTGCTTCTTCCTGCTTCCACCCC
ACATGGTGTCTATGAAGAAATCTGTCAAAGCATATCCATTATTGATCTCTTCACACCACCCTGTCGCCTGCCTCTACCTGCTCCAAGTGCCATTATCTCT
CACCTGAATTACAGCAATCATCCCTCAGCTGTTCTCCCTGCTTCCTTTCTTTCTCCTCCTTAAATCTGTCCTCTGTACAGCAGCCAGAATGAACCTGAGG
AAACACAGATCATGTTGCCACTCAGAACGCACCCCTTTATGGCTTCTCATTTGACTCTGAGTAAGAGCTCATGAACTGCAAGCCCCTCTGTGGTGTTGCT
CCCCATTCTTTCTTTGCCTCCCCTCTTGCTCCTCACCCCCCGGTTCTTACCACTCCAGCCACACTGGCCTCCCAGCTATTCCTCCAACACAATAAGCACC
CTCCTAACTCTGAGCCTTTGCTAGTCTCTCGGCTACTCCCCCTGCCCTCCCACATCAGCACAGCCAGCTCCTTCCTTTCCTTCAGTCTTCACTCAAAAAT
CACTGCTCAGTGAGCCCTCCCCAGCCTCCCTATCTACAACTTCTTACTCCCCCAACGGCTTCACTTTCCATRCTTYGTTTGTTCTTATTAGCATCTATCA
CTATCTAGCATGTAGACTGTACTTCTTTTTATTTTGTTTGTCACTCTSCCCTCTTAGAATGGAAGCACTGTGAGGACAGCATTTTATGTGCATATGTGCR
TGTCTATTTTGTGCCTGGAACACAGGGGGTACTTAATACATTTTTGTTGAGTGAACAAATGAATATGTTGAGCCTCATCATGACTCTGAGCTGAACAAGC
TGAGCATCATCTGCATCTTACAGATGAGGAGACTGAGGCTCTGTGAGCCTATAAAATGGGGAGCCAGATCAAAGCCAGGTCTCCCAATGTCATGACCTTT
ATATTTTTCCCTTCACCGGTAATACCCTTAGACTTGGTCAGTGGAGATCCTCCCTTGGGCCTCAAATTTTAGAGCATCCCGGAGTCTTTCTCTGGCTGTA
CCCCTTACCATTAAGTGGGATACAGTGGCTGCCTGGAGTTTGTCCTGCCTCTTCTAGATCACGTTGCAGGTACKCAGGACTCTGGAGTTCCCTGCTCAGA
TAGTCTTGAGCCTGCTGACAAGACCAACATTGGGGGTTTCTTCCCAGGCTGTCTCTACTCAACCTGGGCCTGAAGGATGGGCACAGGGTGGTTGCTTATA
GAATATATGGGTAGAATTTGAACATATGGGCTGCAAGGATCCACCCACATGTGTACAAGGCCCCTGGTGATATAAGATGGAGTTAGGAGCAGAAGAGAAG
TGATACAGTAAGAAGTGTAAGAATATGAGCACAATAACTGAAAGTAAAATCTCAATGGATACATTAAACATTAAGTTAGATGCAGCAGAAAAGAGAAGCA
ATGAACTACGAGATACATCTAAAGTAATTATCTAGAATGCAACACAGAGAGAGTAAGGTATAAAAAATCCAAATAAGAGTTCAAAAAAAAAAAAACCCAA
AAACATGAACGTCAGGTGTGGTGGCTTGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATGAGTTGAGTTCAGGAGTTCAAGACCAGCCT
CAGCAACATAGCCAGACCCCATCTCCATAAAAACAATTAGCTGGTCAAGGTGGTGCATGCCTGTATTCCCAGCTATTCAGGAGGTTAAGGTGGGGAGGAT
GGCTTGAGCCCAGGAGTTTGAGACTGCTGTGAGCTATGATTGTGCCAGTGCACTCCAGCCTGGGCAACAGAGTGAGACCTGGTTTCTTAAAAAATAAATA
AATAAAATAAAATAAAATAAAAAACTGGAAGGATGGAGTTGAGATGGTTTGGAGTTCCAGAAGGAGATAACAGAACAAAAAAGATACCTGTCCTTAGATC
CAGGAATCTCAAATAATCCCTAGGAGGATAAAAAATGAAAATAAAAACTATACTGATGTGTGTGTCTGTATCTATATGTATGTATATATACTATGTATAT
ATACATGTACATATAGTATATGGTGTGTGTATATATGGTGTGTATTTTATACGTATATATGTATATGGTGTATGTGTATAGATACATACACACACACACC
ATAGACAGAGAAGATATTAAACATCCAGAAAAAAAGATCATCTACAGAAAGACGATGCTGATAGCTAATTTCTTAACCACAGCAACAAAAGAGAAGCCAA
AAAAACACAATGGAATATGATCTATAATATGCTGATAAAAATTTCACACCTGTTGAAACTATCTTTCAGAAATGAGGATAAAATAAAGTCATTTTCAGAC
AAAAACTGGGAGAATTTATTAATACATTATCAGTAAATRCAGAAGGAAAATGATCCCAGCTGGAATATCTGATTTGTAAAGAGTAATGGTGGGAAAAAGT
TTGGTAAGTATGAGAGCAAATATAAATTAATGTTGTCTGTAGAAAACCATAATTTAATTTATATTGGAAAGTCATATGATCTTTTTTATTTTTGTTTTTG
AGACAGGGTCTTGCTTGGTTTCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACCACAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCTTCAG
CCTCCCGAGTAGCTGGGACTACAGGCACGTGCCACCACGCCCAGCTGATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCGAGGATGGTCT
TGATCTCTTGACCTCGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGAATTACAGGCATGAGCCACCACACCTGGCCAGATGTCCATTTTTATTGCCC
CTAATCAACACTGTCTGGAGGTGCTTACCAGCACAGGTAACACAAGAAAAAGGAAGAAAGTCATCGTTATTTGTAGATAACATGATAGTCTATGTAGAAG
TCTCTGCATAATCTATAGACAAATCATTAGAATTAATAATAATTTAGCAAATATGCTGGAAATAAACATCAATAAATTAAAGTCAACTGTATTTAATACA
GCTTATTCCAACAGAATATTATGTGGTTGATAAATTTGACTTTATTAAAACTAATAATTTTTGTCCATCAAAAGATACTTGTAAGATGGGAGAAAAATGC
CCCAAACTGAAAGAAATTATTTGCAAGACATATATATATATCTGACAAATTATTGATATACAGAATATATAAATTGTGCATGTAAATCAATAAAATTGCC
CAAAAATATCCTGCACAACAAACTGTAAAAAACAAGTAAAAGACTTGAACAAGGCATTTAACATACGACTAAATAGGAATAGCCCATAAACAGATACTCA
TCATCATTAATGATAGCAAAATGCAAACGAAAACCACAATTCCTTTTCTCAACCATTGGGTTAGCAAAAAATTACGAAGTTGGACAATACCAAGGGTTGG
CAGGGTTGCTGAGGAATAAGAACTCTTATGCACTTCTAGTGGGAGTGTAAATTGGTACTATCATATTGCTCAGTAATTTTAGTCCTGGCTGTGTGCCCTA
GAGAATCTGCACAAATAGATGAATGTATATGCATGCAAGAATGTTTATAGTAGTATAGTTTGTAATAGCAAATGATTGTTATTTCCCAAATGTCCCTCAA
TATTAGAGTGAATACATATATTTGAGACATTATATTCATATGATGGAACACTACATAGCAATAAAATGAACTTGGCTATATGTATCGAGATGTGTGAATC
TCAAAAGCATGACATTGAACTGATGCAGCAAGACACAGAATACAGGGAGAAGCACTAGAACTGGTAATATTCTGYTTCCTATGCTGGGTGGCTGGGTTCA
CAGATCTACATTCTATTGTAATTCTTTAAATATGACATATATGTAGGGTACATTCTTTTGTATGTATATGTCACAATAAAAGGTGTCAATGCAACAAAGA
ATGGGAAAATGGATTCGGTTGTTGAAATAATGAATATCATTAACAGGACCACTGTGAACAAAAATAAGGGCTGTAATGCTATACAAATGGTTATTTGCGA
CTTGGGATAAAGTTTACAGTGTCTTCATCAYACTTGGATTCAAACGGTGATATAATGAAGGTGGTGTGCTCAGGAAAACTGTTAGACAACTCAAAAAGTG
GCTCTGGTGATRACAAAGGCAGTGATATTGAAGACACCAAAAGAGGGGTTCTTAACATATTTTCATGAAATTACAGTGAAAMAAGTACTTTTAAATTAAC
ATTTTATATGTGATTTTAACTACATATGCGTGACTGATTAATCTAGTTTCATAATACAAGTCGCCATTTATTTCCTCTACATTTATAATACTGCATATAT
ATTCAAATTGGCCAAAATCTTTCTTTCCAATCATCATGCTGGGATTATGGGGTTATATGTGGCACATACCATTCCTGTATATGTCAGGATGGAAAAAGTT
TTACCTGGAATGAATTTTTGCCATTTCTGATCCACATTGTACTTCACACAGTGATTTCCTGAAGGAAATATAATGATCTGTTCATCGAAGTAGAAGATAT
TGTTGGCCACGTGGGATCGAAGACCAAAWACATGCAGCGTCTGAGCTACMACGGCTGACATGATCTCCCGCCAAASAGTTCTGCTGAAGACCAAGGCAGC
GCTTCAGAGTGGAGAGCACCGCCCCGCTCCGACCCCGCCCCCGGCCCGGACWCGCCCTCCCCGCCCTTTGCTCCTCCCCTTGTCTCTCCCCTTKCYCCTC
CCCTTGTCYCTCCCCTTKCCCCTCCCCTTGYCCCTCCCCYCCCCTTCCCCTCCCCCGGGGTCCTCCTCCGCGCCACCCCACCCCCGCGGCTCCTTTTTCT
GCCTYTTCCTTTGTACCCTCACTGCTACCAGCTCCTTCTGGCGACCCCCAGGTACCCCCTCCCACCTTTCGTTTCTCTCTGGGTCAGCAGACCACGCATG
TATCCAGAGGCGCTACCTGTAGGGATCCTAAGCAACCCGGACACTTTCAAACGCCGTAGCGGTTCCTATAGCAACGACAAACCGGAAGTATGGTTTGCCG
CCGGAAGCGGAAGTCCCAATCAAAAGTTGAGCAGTAGCTGTGAGTTGCTGGCGCTGGRGCGATTCGGTGGCACGTGGAGCCACGGCGTGGGAGTAGGGGG
CTGAAGGCAGGCAGCAGCGGCCAGGGCCGCCCYCTGCTAGCCGCTTGGGTCTCGGGATACCCCGTTTCTTCCTGTAGGTGTGGGACGTGCGTGCGGCGAG
ATGGACACTCCCCCGCTCTCGGATTCGGAGTCGGAATCCGATGAATCCCTTGTCACAGACAGAGAGGTAGGTGTCAGCCGAGCTCGTGGGGCTGGGCGTG
GGAGAGGGGGCCTTACACCCCTGGGAGTGACCGTGATTGTGTCCTGCAGTTGCAGGATGCGTTTTCCCGAGGGCTTCTGAAGCCAGGCCTCAATGTCGTG
CTAGAGGGGCCGAAGAAGGCCGTGAACGACGTGGTGAGCGYGGGCACAGGGTCGGGGGTACTCGGACATGGGATGCGCTTCAGGCGCTGTTGGGCTTGGG
AGACCGATTCTTGTCCCAGGAAAGATGCACCCTGCGCCTCGCCAAGAGGGTCAATTACCTGTCTGGGTATTGGGGATTAGCACTTTGTCCCTTCGCCTAA
CAGCCTGTGCTTGGGAAAGACAAACTCAGAGTTCCCTTCTTGTGAGCTCAGTGTCTGGATTTCCTAGAATGGCCTGAAGCAATGTTTGGCAGAATTCAAG
CGGGATCTGGAATGGGTTGAAAGGCTCGATGTGACACTGGGTCCGGTACCGGAGATCGGTGGATCTGAGGCGCCAGCACCTCAGAACAAGGACCAGAAAG
CTGTTGATCCAGAAGACGACTTCCAGCGAGAGATGAGTTTGTATGTTTGTTTTCAAATGTTGGAGAAGTTGAGGATCCTTGTGCAGGAGAGTGGGAAAGA
GGGGAAATTAGTAAGTCTGCACTCAGAATAAGCCTAGGAGTAGAGAGAGCGGCTTCTTTTGACTAAGAATAGCTAGGAGATTCTTCCTGTTTGAGAGAAG
AGCTCTTTGGTCCACRGTCACGATCCAAAATCCACTTTATGGGCTAATTTGAAATATTCATGTTAAAACTTTTTGTGCATGCTTCAGTTATTAGGAAAAC
AAACAAACAAACATTGCTTATGGGATGTTCTTGTGTGGAATTGCTTTAGTAATTACATAAGAATCCATAATCGACATTCGTTTGTGTTAATGGGTACCTT
TAGAGTAGTCATTCTCTTAAACTATTTTTAGCAACACCCCTCCCCTTTTTAAAAACTAGTATACGGCTACATTTCTTTTAGATACTAAATCAGTGAGRCA
GTTTTTGTTTGTTTGTTCTTGCTAATGGAGGTCAGATTTTGAGAGTCCTTCTGAGCTTGGATAACTCATGATTGGCGGTGAAAAGGAACGTAAGGCCTCC
TCCTTCACCTCATTACACATTTTGTCCTACGATTCTCAGCTATCGCCAAGCCCAGGCCGCAGTGCTTGCAGTCTTACCCCGCCTCCATCAGCTCAAAGTC
CCTACSAAGCGACCCACTGATTATTTTGCGGAAATGGCCAAATCTGATCTGCAGATGCAGAAGGTAAGAAATAGAAGTTTTCCTYTGGAAAGTCAAAACT
TTGTACTTAAGCATATTCAGCTGGCTTAGAAAGATAGCTATGAGCCCAATAACGGGGAGCCAGTTGTCAGAGGACAATTATTACCTCTTCCATAGATTGG
CTACTTCAGAGTCATGCCAGTTACCACCAATTAGATGCATATAAAAATGACATTTTTTCTAAAATCAGCAATTAAGGAGAGGAACAGTGCTGTGTGAAGT
GTGGTCCCCRAGGTGAAGATGGCCCAGTGCATTTCCTAGCTGGCATGGTCATGACATGGTGTGCAGAGAGGACAGCATTCTTGTGCCCTTGCCACTGTCA
GTGCTAGAACTTGTAGACAATTACTTTTCTCTGGGCCTCAGTTTTCTCYTCTGTAAAATGAGGGATTCTTAGATGGTTCAGATATAGTACAATTTAGAGT
TGGGTAGAACTTGGACCTCATTTAACTTTGGAAGAAGGGATTGCCAGCATGTAATCCAACATACATTCAGCCCTCCATAGCCATGGGTTCAGCATCTGTG
GATTCAACCAACCTYGGATCAAAAATATTGGGGAAAAAAATTTGAAAATATYGCAAAAGGAAAACTGAATTTTCCGTGTGCCGAGAACTACATTGAATCC
ATGAGAATGAGGTGATGCATAGCATTGTATTYGGTATTATAAGTAATCTAGAGACTATTTAAAGAAGCGGTCTGGCACTAGAGACTAGTTTCGTGGATGA
CAATTTTTTCATGAACTTGGGGAGGGGATAGTTTTGGGATGAAACCGTTCCATCTCAGATCATCAGGCATTAGATTCTCATAAGGAGCAGGCAACCTAGA
TCCTTTGCATGCATAGTTCCATGCATAGTTCACAGTAGAGTTCGCACTCCTATGAGAATTTAACGCCACCACCAATCTGACAGGAGGTGGAGCTCAGGTG
GTAATGCTTGCTTGCCTGTCACTCACTTTCTGCTGTGCGGCCTGGTTCCTAACAGGCCACAGATTCATAGTGGGTTCGTAGCGGTCTGTGGCCTGGGAGT
TGAGGTCCYCTGACTTTAAAGGATACTGGAGGCGAGTGTAGGTTATATGCAAATGCTGCACCATTTTTATATAAAGGACTTGAGCATCTGTGGATTTTGA
TATCTGTAGTGGGTCCTAGAACTAATCCTCTATGGATACTGAGGGATAAGTATATTTAAATAGTACCCTGGGGTCTCAAGCTGGATTTTAGGGAGCTTTT
GTCRTGGTAGTAGTTCACCTTCTTACTGTGAACTCTGTACAAATTCTCACTGACAACTTCTCATCCTTTAACTAAAATGTGTATGTTTGACTGAAAAGGC
TAGGCACCTGGTATCTGCCTGGGTTTTTATTRTGTATGTGGTATACTAGAAAAGGACACTGAGGCCGCATACTGGTTTCCAGCCTCAGTCTACTGACAGT
AGAAATGGGGAGAAGTTTGTCTTCTTTCCTGGGCTACAAATAGGCAGTTTGTATAATGAAACAGACAGCACACTGGGAGCGGGAAGGTGACTTTCAATCT
CTGGCTTCACTCTGGCACTTTTRGTAAAGTGCTCAGCCTGTGGGCCCCATTGTCCTCAGGGGTTGGAACTGATGATTTATAAGTTCCGCAGTTTAAAGAA
CAGGGAATATCTGTTCCCTGCTCYAGCGAATCCTAAGTAGTGGTCATTCCAGATTCAAATGACATGAACTGACAGCATTTTGTGTTGTAGATTCGACAGA
AGCTGCAGACTAAACAGGCTGCCATGGAGAGGTCTGAAAAAGCTAAGCAACTGCGAGCACTTAGGAAATACGGGAAGAAGGTGAGAAGAAAAGTGTGCAG
GGAACAGGAAGAGGCGGAGTGTGTGTTAGATGAGATTGCCGTGGTCTGACTTGGTCCCCTGAACTGAACGGAACTGTGTGTTGATCATGTATTTACCGTC
TCTCAGTGTATGTGCTGGTATTCATGAGCACAATCTTGCCTGGACATGAGTGGTTCCCCAGGAGTAGTATGGTGACTGCAGGTGAGCCAATCACCTCTCT
GGGCGTTAGTTTTCACATCTGTACACTGGGTCCAGATGAGTGGTTTCCAAACCTGACCTTATAGCAAAATCACCAGGGGAAATTTTTCAAAACAGAATTC
TAGACTTCAGAATCCCCAGGAATCTGTGCCTGTTTTCCCCTCTTCCCCAAAAGCTTTCCAGGTGATTCTGAAATGCATCCTGRTTTGGGATTCACTGATC
TATGTGATAATCACGTACCTGAAGAAATTATCATAATGATTGTCATCCAATCTGAAAGATTGCCTGCGTGTTTGAACTATGAATGTCTGAGTTCTAATGT
AACACCAGATCAGGCATACCCTAAAACTTTTCTTGGTTTTCCTTTTTTATTTCATGGTCATCTAAGAAAGAAGATGACAGATTTTAAAGTTAGGATTGTG
GGAAGAAATGAATGTGAGGAAGATTGGYGTGGGTGTTAAGACTTCGTCAACATTTGGACATAAGCACTTGKGATCTGGGCTGCAGAACTCTTGTCCACGT
TTGGAGTCATTTCACTGATACATTCTCAGCAAAGTAGGAATAGGCTGGGATCCTGTCCTCTACAAAAGGCCTGCTGCGGATTTATTATTTCTTTGATCTG
GAGGTGGATGGCTGAGATTCTCTCAAAGACACCAGTAATTAATTTAACATAGCCAAAGTTACCAAAAGCAAAGACAAACTCACTTGGGCCTATTAGTTCA
CTGTTCCTAATTTAAGGAAACACTGGGGAAGAGTTTGTTAACTGGGGGTGAATTTGCTCCCCAAGAGTTTTCTGTGACTGCCTGGAGATATTTTTAGTTG
TCAAATTTGGGAGGGAGGGTACTACTGGCATCTAGTAGGTAGAGGGCAGGGGTGCCGCTAAATATCCTACAGTGTAGGACAGGCCCCTACCCCCCAGCAA
AGAATTATTCTCTCCACACTGTAGCAGTATCAAGATTGAGAAACCCTCTGTTAGAGTATTATAAAGTGTCTCCTTTTATCCTTCAAACTTTTTTCTTTTC
TTTACCTGGGGACATTGTTTTTTTCTCTTCCTTTTGGTACTTTCATGCCTAGTAACAGTGAGTTAGATAATTAATCTGTCCAAATGTGATGCGAAAAATC
GATGTAGTCTTAAACATGATTTACTTCAGTTTTGTAGGCAGGATTGTATAATAGGGTGAGTGCTGGCTTTGGAGTCAAACAGCCTGGGTCATCTTGGCTG
TGCATTTTTTCACTGTGCGACTTGGGCAAGTTAACTYCCCTGTGCTTCAGTTTAGGGGATAACACAAATTTCAACTTCACTGGATTGTTATGAGACAGAT
ATATCTTCATCTATGAAGAATATACCTAGATCTGAGAATATACTTAGAGTCCCTAACACAGTTTTTGGCACGTAGTAAATGTCAGAGGGTAGYGGTATTA
ATCATGGTGTTGCTATTAAGACAATGTAGACACTGGAGTAATGGTATGGAATGGCTGTAACGGTCCTTGTGTTCATATCACAGGTGCAAACGGAGGTTCT
TCAGAAGAGGCAGCAGGAGAAAGCCCATATGATGAATGCTATTAAGAAATATCAGAAAGGTTGGTACATCTCTRMTAGGGGAACGAGGGTAGCAGGTACT
TTAGAGTTGATTTGAAYACTTAGTGCTTTGGAGCCTTCTTGGTTGATGTGGACCTGTCGGATCAAAGTTTTGGGAATGGTGTTGGAGAGCAGGATGTGAC
YCTTAAAATCAGTGTAGCAAATAACAGCCTCATATGGTGGTTTAAACTTTTATTCTTAAAATACRATGGTGCTGATCAAAACTACTTCTTCACTTACAGG
CTTCTCTGATAAACTGGATTTCCTTGAGGGAGATCAGAAACCTCTGGCACAGCRCAAGAAGGCAGGAGCCAAAGGCCAGCAGATGAGGAAGGGGTGAGAA
GGGTTTTGGCATGGTTTCTTTGGTTCTGTGAGGTGCGATGGGGCCACAGGTCACGAGTATGGCAGACATAGCACCTCCACCGGCGCAGCCATAGAGTCCA
GAGAGTGCAGCTGCTGCCTGGGGCCAGGACCCCTAKSACTGTGTGATGGGCCCTTTTAGCCATGTCAGTCTTTGAAGAGTAAAAGAAGGCACTTTTTAAA
CTTCTTTTTTTTTTGGACAGTCTCATTCTRTCACTCAGGCTACAGTGCACTGGTACAGTCTTGGCTCACTGCAACCTCTGCCACCTGGGCTCAAGTAATT
CTGTGCCTCAGCCTCCTGAGTAGCTGGAACTACAGGTGCCTGCCATCACACCCAGCTAATTTTTGTATTTGTAGTAGAGACAGGGTTTCACCATGTTGGC
CAGGCTGGTTGTGAACTCCTGGCCTCAAGTGATTCACTCACCTCAGCCTCCCAAAGTGCTGGGATTATAGGTGTGAACCACTGCACCCATCCTAAGAAGG
TACTTTTAAGTATGTGGCACCCTTTAAGTGAATGCTGAGTAAAGTTGATTYCCCATCACACAGTGCGATGGTTGAGAGTTCAGACCTAGGGTTCAGATCC
CGACTCTACCACTCAGTAGGAGGGCAGTTTTGAACGAGTTACCATGCCTTTCTAAATGCTAATTGCCTCATCTGCTAAGTTGAGGAAATAGTGTCTGCCT
CATAGTATGAAGACTGAAAGAGAGAATGTGGGCTCTCATTGTTTTTTCTAGTCTGCTTTTTTGCATACCTGGATACCAGGCCTAGGGGAAATGATAATTT
CCATGTAAGATAGTAAGTGCTATGATAGAGGCATTTGGGGATTAGTACTGAGTCAGCTTTTATAAATACCTGACAGGGTCTGGGGTGGATTTCTGGAGGA
GCGTTCGACTTGAGCATTGCTTGAAGCATGAGTAGGAATTAACCACGAGAATAGAAGAGAAGCTGGGTTTGGGAAGAAGTAAGAGCTTGAACGAGCAAAG
CCATCGAGATGTGAAACCTCAGGGTTTTGTGAGGAACAGTAAGCCCTTGGTGTCACTGGGAATACAGTGCAAAGCAAGGAGGGGTGCRATGTGTTTGGGG
GGACCTGGGCTGTGGGTTTGCCTTGTTGAGGAGCTTGGGCTTTGTCAGAAGGCAGTGGAGAGACTAGGTTGTAGGTTGTACTAACAGTAATGAGCAGGTT
ATATTCATGTTTTTAAAAAGATCACAGTGGATTTTGTATAAGTGACAGACTTGAGGGAAGCTGGGAAATTGACAAGGGTACTATTGCAAAAGTCGAGATA
AGGATTGAAGAAACATTTAAGAGGTGAAATGAGCAGGACTCAGTAATTGAATTGGGTATAAAGAGTGAGAGAAGAACCAAGGCTGACTCCCACATGTTTA
GCCTGTGTGTCTGGGTTGGTGGGAGCAGCGCCAGCCTCAAGTGAGGGCATATGTACAGGAAGCAGAGCCAGTCCAGGAGATGATGTGAATTTGGAGATGC
TGAATTCAAGATTCCTATTGGATGACCAGTTTTACATTTGAATGTTATTCCATTTGAATGTTATTTGAATGCCTATAATTACATTTGAATGTTTACATTT
GAACGTATTCATTACATTACATTTGAATGTTACAAATGTAACATATTACATTTGGATGTTAACTGCATGTATTTACCCTTGAGAGGAATAGACACAACTG
AGGGTGATTTAATAAGATTTGGTTAAAATAGAAAGCTTTCTAAAGACAGCAGGAAGCCATGTAATATATGTAGAGCCTTCCCTGCTTCTTGCTTTATTTT
CCTGCCCTGGTGGTCAAAACTGTAAATAGGTGAGCTAGATGAGTTTGTCTAGAGAGGCTGTAGCATAGGATTGTGGGGCCAAGGATGAGATTCTGGGTTA
CAGACGTGCCTAAGGGGCTTTGCTTATAGAAAGGAAACTGAGAGCATTGCTGGGCCATCAGGTTCATCAGGCTTTACAGTGCTGTAGTGATGTCTAGGAC
CATTCTTTTCCAGGCCCAGTGCTAAACGACGGTATAAAAACCAGAAGTTTGGTTTTGGTGGAAAGAAGAAAGGCTCAAAGTGGAACACTCGGGAGAGCTA
TGATGATGTATCTAGCTTCCGGGCCAAGACAGCTCATGGCAGAGGCCTCAAGAGGCCTGGCAAGAAAGGGTCAAATGTAAGTGAGCCCAGGTGCCCGGGT
GAGGAGCAGGCTCAGCCTCCCCTCCCACTCCCAACCCTGCCCTCTCCCTTCAGTTCTGTTCGTCCTCACCCTGGGGCAGAAGGCAAGCTGCTATGTGACC
AGATGTGGTATGTCTTTTTCTGTAGAAGAGACCKGGAAAACGAACAAGAGAGAAGATGAAGAACAGAACMCMCTAAATAGCATCTTTGAATACAAAGAAC
CAAGAAAAAGGAATGAAGACTCGCAATTTCACGACACACTTTGATCCCTTCTGTTGGTGTCATGTTGTAAACATTTCTTTCAATAAACTAAAGAAAAATT
ATTAAAGGAACAMATACCTTTGGTTAAATAGTYTAGACTAAAAGATTGAGAAGTTACTTTCCATTGCTATCTATTGATAATTTAGACATTGAGTTCAAAT
TGCCTTCATTTTATGATAAATAATGATTTAACTGACACCTTCTCATTTCCTTTGTCTCATCCTTCTAAATAGTTATATTACGATCAATCCCTGTAAAGCT
CAATGCCCATATTTTACAGGTGTGAGCCACCGTGATTTTCTTTGTGGTACAGCTTTTGGTTTTTCCTCCAGTTAACCTTCACCTTACATTCTTCTGCTTG
CCTAATTTTCCTTCTATATTCTTAGTTCTTTCCAGATGCTTTGTCATTTTACCCACTTTATAATTTTTCTCCTACAACCTAGTTATGCCACACAACTGTC
ACCTTTTTTCTAGACCGTTTAAGTTGGCACCATTATTTCCAGAATCCCATGTTTTCCCATCTTAGCATATGCCTTCTTTTGCTGTGTACCATTTTTTGGT
ATCTTACTAAGAAAGGGAAGATGAGAGGTAAACTTTTTATCTCCTTGCATTTCTGAAATTGCCTTTAATTTGGGCTGATAGGAATTTCCTCCTTAGAATT
TTAGAATTTCGCAGGCACTGTTTTTAAGTTTTATTTCAGTTCTACTTTTGGGGGGAGATATATCTTTGTTTTTTAAAATCTTTTTTTTTTTTTTTTTTTT
TTTTTGAGACACAGTCTCACTCCATCGCCCAGGCTGGAGTGCAGTGATACAATCTTGGCTCACTGCAACCTCCACTTCCCAGGTTCAAGTGATTCTGCCT
AAGCCTCCTGAGTAGCTGGGATTACAGGCGTGCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCACGTTGGCCAGGCTGG
TCTCAAACTCCTGACATCAAGTGATCCACCTGCCTCTTCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCGGCCTAAAATCATTTTATTG
AATATGAAGTTTAGCTTTCATTTCATTTATCCCCCAAGAGTTTCTTATTCTCTATTTGGTCATTTTTCATATCATTTTACTCTTATCCTCTAGATGCAGT
ATCTTATATCTCTCAGAATATGATTATAGTTTTAATTTTTTTGATAAAGTTTCCCTCTGTTCCCTTCATTCTGTTTCTGCAGCCCATGCATTTTGATCTC
CTCTTTCCCGTGTTTGAGCAGTAGAGTATTGTAGAAGCTAAGAAGCGTGGATTCTGGGGCCTGGCTGTGTTGCTTACTTGCTGTTTGACCGTAGGGAATT
TAATTTTTATTTGCCTTGTCATCTCTAGCATAATGTAGATGTATCTACCTCATTGGGTTCCTGTCAGTATTCGGTTAATCAATGTAAAACACTTAGAACA
TTATCCTAATATAATCCGATAATCTGATAATCCTCTCATATTCCTTTGATTAGGATTGTTTTGCTGGGGTTTCTTTCCTTAATATCTGGCAAGCCTTGGT
TGTTCATACATAAGCGGAAGCTCTGCGTAGGTGGTACATTGAGTAGGCAGGCCACATTAATTGTTGGGCTTTACTCTGTGTTGATAGGGTGGTAAACCAT
TTTACCTGCCCCTTCTCTCTCCATTCCAGTTTAGAAATCATACTTTATTTTTAAAGAAGTTAGAAATGCCTGAGAGCTATATAGTATCTTTAGCAGAAAG
AATAATTTATTTTCACATTTTCTTGTAGCATTATTGGCACATGAAAAGGATATTTCTGGATTCATATAATACTAAGATTGTAATGTAGAACAAAGAGAAT
TTAGTTTTTGTAAACTAATTTCAACTAACAAAACTGGTCACACAGGTCATATCAAGAAGACAAAAATATTTACTCTGTCCTCTTTCATAATTCATGCCAT
ATTATTGAATGGGGATAATGTGTAACAGGCTCAGAAGCAGTTTGAGACTTTGAATTATGCAAGTAAATATTGAGAGTTTCACAAAAGAAAGCACAGGTTA
ACAACATTTCACATTGATAAAGCCAAAAGTAAGTTTTTAATAACAACATACCTCTAAAGGCTTTCTTGAAAACTATGTCCCCCCTCTTTTACTTCTTGTT
TTTTTCTCTTTTTTATTACAGAGCAAAGATTTACATATGGACTCACTTTCCTTAGTTTTAGAAATATCCTCTGTAGAACTCATTTACATCACTTCTATCA
TTCCAACCCTCAAAATAAAGGGTGATCAAGGTGCAGGTAGCATTATGCCTTCTTTTTCTTTTTGTATAGACAGGGTCTCACTCTATTGCCCATGCTGGAT
TACAGTGATGTGATCATAGCTCACTGTATCCTCAAACTCCTTGGCTCAAGCAATCCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAAGTGCATGCC
ACTATGCCTGGCTAGGTGTTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTGTAGGGACAGGGTCTTGCTCTATTGCCTAGGCTGGTCT
CAAACTTCTGGGCTTAAGCAATCCTGCCTTGGCCTCACAAAGTGCTGGGACTACAGGTATGAGCCACTGCACTCAGCCTCCTTCATATTGCTTTAAAATA
AATACAATCCCATCAATTGAAAAATAAGTAGGAACCTAGGAGTCCCCAATACAGATTCTAATATGCATGAATTCAGTTATCATGATGTAATTAAATAAGT
TTCTCAACAATGTTCACATTTCAGTTACCAAAGTAATAACTGAGTAGATGCGTAAAGTAGAAACAGTCGCTGCTAGCTCTTTAGTCCACAAATCACTTCA
TAAATGACAGATGCACGAAGACTAGTGACCATCACTTCTTTCAAAGTCTGTCCCAAGATCAGTCACTGCATCAGTTATTCATTTCACACACACACACAGC
AAAGTGTGTAGTTGTGTTGCCTCTTTGTCTTTAGCAATAAACTCCTCATGCATTTTATAGAAGTAGATACCTGAGAGGGAATTGACCACCAAGGATTAAT
GTACACCAAAGAAACAAAAAGTGATAGGGCACGGTGACTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATC
GAGACCATCCCGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGA
GGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCAT
CTCAAAAAAAAATAGAGTAAAATTTTTTTTAGATTGGCCAGGTATTGGTGGTATGCACTTGTCCCAGCTACTGAGGAGGCTGAGGTGGGAGAATCTCTTG
AGCCTGGGAGTTTGAGGCTGCAGTGAGCTATGTTTGTGCCACTGTACACCAGCCTGGGTGATAGAGTGAGAACCTGTCTCAAAAGAAAAAAAAAATATTT
TTTAAATGGTGAGGCTGGAAGTAAAATTTGAGTGCAATGCAAATGGAATTGTAGATGAAATAGCTGATATTGGACTGTGAATGCTGTTGCCCTTCTAGAG
ACTAGATATACAGCCAGAGAAACCTTGTGAAGGCAAACTTACAAATGAGGAAAGAGATGGAAAGGATGAAGATGTCTCCAGAGAGTGACACTAGTAAAAA
ACTGTACATTAAAGGGACTCTTGGAGCTATCTAATGACATTGGAAGATCAAGTGATAAAATGTTGAAACTAAATCCAAACTTAGAAAGGAGTAAAGACAA
TTTGCCAAGGCACGGAAAAAATGCTTGTTCTTCATCGTAAGTTATAGAAGGGAAAAAAGAAGACAAGCATGGTTTTTCATACAGAAATAAAACACTTGAT
TCTCAATATTTCTACTGTTTTAAAGTGAGTCTACTAAATTTTAGTATTTTAATTTTGTTACGCATTGAACAGAGTTTTTAATACTTTCACACAAATTTTT
TTTTCATTGTTTAGTTTTGTTTCGAAGACTTAAAGATTCATACTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCCGTTGCCCAGACTG
GAGTGCAGTGGTGCCATCTTGGTTCACTGCAAGCCCCGCCTCCTGGGTTTTCACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCC
GCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGTGACGGGGTTTCACCATGTTAGCCAGGATGGTTTCGATCTCCCTACCTTGTGATCCGCCCGCC
TTGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCAGATTGGTACTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGGCGGAGTCTC
GCTCTGCCGCCCAGGCTGGAGTGCAATGAGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCGTGCTGTTCTCCTGCCTCAGCCTCCCGAGTAGC
TGGGACCACAGGTGCCCGCCACTGCCCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCATGAC
CTCGTGATCTGCCCACCTCAAGGACTTTTGGACAATTTTTTTTAAAGGTCACAGAACAATTGTAATTTTCCCCCAATGATGATTAAGATCACTTTGCATA
GTTTCAGCAAGCAGGACATCTTTGTAGTCCTGCACTATTGTGCAAAGTGAAGACTGACTTTATATGCTTTTTTAGATGAGTATACAAAGTAAGAGCTTTC
TGTTTTTCGGGCAGAGTTGGGAAGGAGATGAAAGCAGAAAATGTGGTTGCTCTCTTTGCAGGAGCAGAGCTGCAGAAGCACACTGATTGCTTTCAGAGCA
CAACCTTGTGATGAAAACATTCAGGCATTTAATCTATTTTATAATTTACACTAGATTATAAAACTAGATTCACCTTTCTGCATATCAACAAATCCACTTT
TTATGCTGTCCTGAAAATTCAAATATTCATGATGATGAATTCAAGTGTAATTATAATAGGTACCTTTCTCACATTGAAGACAAGATGTCCAATAATGTTG
CAGAATCTTTTGGTATAAGATTTTTTTGTTGTTGTTTGTTTTTTATTTTTTGAGATGGAGTTTCGCTTTGTCACCCAGGCTGGAGTGCAATGGCGTGATC
TTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCACGACCAAGCCTGGCTAA
TTTTTGTAGTGTGGAGATGGGGGTTTCACCATGTGGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCGCCTTGGCCACCCAAAGTGCTGG
GATTACAGGTGTGAGCCACCACGCCAGGCCTAAGATCTTTAATTGGAAGTCATTGGACCTCAACTGCATGCATGTAAACTCACTCTTCTGGCCAATCAGA
AATGATATCTGATCATTATCCTGTATATTACCTACTACATTGCTGGTTGAATTACTTCCAGTACTAGATATGCAGTTTCGCTGTAGATGATGGTAGCTAT
GATGATACCAAAGAAAAGGCTCTTTTTAGCCCAACAAAAATTTTAAAAGAACATTGAAAACAAGCAGAGTGGATACATAAGAAATATGCAAACAGATATG
TAGAGGAAAATTAACCTGTTCTATTCTGATATAAAAACGATGCATAGTATTTCATTTGTATTTTACAAAAGAGAACCGAGATTATATGCAGCATTTACAA
GTATCTTACCTTGTACCACAATGCAGGATTCCACTGCTCCTCATCAATGTACTCTGAATTTCTGTATATGAGCTTCTGTGACATAAAATGGGGCGAATCT
GCTGAGACTTGCCCTCAGGGTTTCCATCCTTAACCAAACCCTACTATATATTGGAGGGTCCATGGCCTTCTTCTCAAAACAAATAATTAAAATAAAAATC
AAGATCCTAAGACAAAATATACCTAGCTCTTTTTAAATAATGAGCAATGATTTCTTGTCATTAGATGCATTCCCCCTCACTCAGGAATAAGAGATCTTTA
ACAGTTTCTTCTTTATCCGCTTAGGCCAAAGGAAAAGC


SNP Information

Context             (SEQ ID NO:29905):
TGCTTGCCTGTCACTCACTTTCTGCTGTGCGGCCTGGTTCCTAACAGGCCACAGATTCATAGTGGGTTCGTAGCGGTCTGTGGCCTGGGAGTTGAGGTCC
Y
CTGACTTTAAAGGATACTGGAGGCGAGTGTAGGTTATATGCAAATGCTGCACCATTTTTATATAAAGGACTTGAGCATCTGTGGATTTTGATATCTGTAG
Celera SNP ID:            hCV8375251
SNP Position Genomic:     98209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29906):
GAGATGAGCATGGGGACCTGTCCCAGGGAGTCAAAGGCGAGTGTCATTCCAGAAACGGAGACCATGGCCACAGGGCCCTTGACCTGTCCACCTTCTTCCC
R
TCTGTCCTGTCTTCCTGCCTCCCCTCTTTTCCTACCAAATCAGGCCTCATGCTCCACCACTTCAACCCCAATCTTACCAACACCCCATCCCTGTTCTCCT
Celera SNP ID:            hCV27941484
SNP Position Genomic:     45269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29907):
AGTTCAATTAACTAAAGGAAACTACGCTTAAATAATTAAAGGAAGGTAGGATGACAAGCCTCATCAAATAAAGAATATAATAAGAAAACAGAAATTAGTT
Y
AAAAATCAAATGGAAATTCTGGAGTTGAAAAGTACAATAACCAAAACGAAAAATTCACTGGAAGGCTCAACAGTAGATTTGCGCTGGCAAACTTGAAATA
Celera SNP ID:            hCV27941485
SNP Position Genomic:     63737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29908):
ACACATCAAAAACAAAATGTTGAAAGCCAAAGATAAGAAAATCTTGAAAGCTGGCCGGCCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCC
R
AGGCAGGTGGATCATGAGGTGAAGAGATCGAGACCATACTGGCCAAAATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGC
Celera SNP ID:            hCV27941486
SNP Position Genomic:     64206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29909):
TTCCTCCCTATGATAAGTAGGCACCAACAAAAGGATTTCATGTATGTCACTGACTATATACATATGTGTTTTATATTTCTATAAATGATATTGTGCTTCA
R
ATCTCTTTCTGTACTTTTACTTTTTTCTCAACACGAAATTTTTAAGGAATCATCTATGTTGCAGTATGTATAATTTGCTTCTAACTGATGTTTGATATTC
Celera SNP ID:            hCV27941487
SNP Position Genomic:     72160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29910):
TCACGCCTGTAATCCCAGCACTTTAGGAGGCCGAGGCAGGCGGATCACAAGATCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTA
Y
TAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAGCTCCAGCTACTCGGGAGTCTGAGGCAGGAGAATGGCATGAACCCGGTAGGCGGAG
Celera SNP ID:            hCV8375329
SNP Position Genomic:     77464
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29911):
ACTCTGTACAAATTCTCACTGACAACTTCTCATCCTTTAACTAAAATGTGTATGTTTGACTGAAAAGGCTAGGCACCTGGTATCTGCCTGGGTTTTTATT
R
TGTATGTGGTATACTAGAAAAGGACACTGAGGCCGCATACTGGTTTCCAGCCTCAGTCTACTGACAGTAGAAATGGGGAGAAGTTTGTCTTCTTTCCTGG
Celera SNP ID:            hCV3138240
SNP Position Genomic:     98532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29912):
TAATCCAACATACATTCAGCCCTCCATAGCCATGGGTTCAGCATCTGTGGATTCAACCAACCTTGGATCAAAAATATTGGGGAAAAAAATTTGAAAATAT
Y
GCAAAAGGAAAACTGAATTTTCCGTGTGCCGAGAACTACATTGAATCCATGAGAATGAGGTGATGCATAGCATTGTATTCGGTATTATAAGTAATCTAGA
Celera SNP ID:            hCV8375259
SNP Position Genomic:     97752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29913):
GTCCTGCAGTTGCAGGATGCGTTTTCCCGAGGGCTTCTGAAGCCAGGCCTCAATGTCGTGCTAGAGGGGCCGAAGAAGGCCGTGAACGACGTGGTGAGCG
Y
GGGCACAGGGTCGGGGGTACTCGGACATGGGATGCGCTTCAGGCGCTGTTGGGCTTGGGAGACCGATTCTTGTCCCAGGAAAGATGCACCCTGCGCCTCG
Celera SNP ID:            hCV3138242
SNP Position Genomic:     96041
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(C,10|T,24)   total(C,14|T,56)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29914):
AAATTTCACACCTGTTGAAACTATCTTTCAGAAATGAGGATAAAATAAAGTCATTTTCAGACAAAAACTGGGAGAATTTATTAATACATTATCAGTAAAT
R
CAGAAGGAAAATGATCCCAGCTGGAATATCTGATTTGTAAAGAGTAATGGTGGGAAAAAGTTTGGTAAGTATGAGAGCAAATATAAATTAATGTTGTCTG
Celera SNP ID:            hCV3138243
SNP Position Genomic:     92939
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,1)      total(G,1|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29915):
GAGAAAGCCCATATGATGAATGCTATTAAGAAATATCAGAAAGGTTGGTACATCTCTAATAGGGGAACGAGGGTAGCAGGTACTTTAGAGTTGATTTGAA
Y
ACTTAGTGCTTTGGAGCCTTCTTGGTTGATGTGGACCTGTCGGATCAAAGTTTTGGGAATGGTGTTGGAGAGCAGGATGTGACTCTTAAAATCAGTGTAG
Celera SNP ID:            hCV25958532
SNP Position Genomic:     100817
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,16)   total(C,49|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:29916):
ACTATCTAGCATGTAGACTGTACTTCTTTTTATTTTGTTTGTCACTCTCCCCTCTTAGAATGGAAGCACTGTGAGGACAGCATTTTATGTGCATATGTGC
R
TGTCTATTTTGTGCCTGGAACACAGGGGGTACTTAATACATTTTTGTTGAGTGAACAAATGAATATGTTGAGCCTCATCATGACTCTGAGCTGAACAAGC
Celera SNP ID:            hCV3138244
SNP Position Genomic:     91300
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29917):
TCCCCCAACGGCTTCACTTTCCATGCTTTGTTTGTTCTTATTAGCATCTATCACTATCTAGCATGTAGACTGTACTTCTTTTTATTTTGTTTGTCACTCT
S
CCCTCTTAGAATGGAAGCACTGTGAGGACAGCATTTTATGTGCATATGTGCGTGTCTATTTTGTGCCTGGAACACAGGGGGTACTTAATACATTTTTGTT
Celera SNP ID:            hCV3138245
SNP Position Genomic:     91248
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29918):
TTTCCTTCAGTCTTCACTCAAAAATCACTGCTCAGTGAGCCCTCCCCAGCCTCCCTATCTACAACTTCTTACTCCCCCAACGGCTTCACTTTCCATGCTT
Y
GTTTGTTCTTATTAGCATCTATCACTATCTAGCATGTAGACTGTACTTCTTTTTATTTTGTTTGTCACTCTCCCCTCTTAGAATGGAAGCACTGTGAGGA
Celera SNP ID:            hCV3138246
SNP Position Genomic:     91176
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29919):
TGGAATATAAAGAGAGTTGGGAATTCTGGGAACATGCTTTTTAAGGGACAGGCGGAGGAAGAGCCAGGACAGAAGCGGGGAGGAGGAGTCAGAAAGGTTT
W
CAGGGAACAGAGTGTGGTCACAAGGATGGTAAGACAGAAGGGAGTTTCAAGAAGGAGCGGTATATGCACAAGTCATTTCCAGCCTGGCAGCGGTACTGTC
Celera SNP ID:            hCV952560
SNP Position Genomic:     51240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29920):
TTCCTTTCCTTCAGTCTTCACTCAAAAATCACTGCTCAGTGAGCCCTCCCCAGCCTCCCTATCTACAACTTCTTACTCCCCCAACGGCTTCACTTTCCAT
R
CTTTGTTTGTTCTTATTAGCATCTATCACTATCTAGCATGTAGACTGTACTTCTTTTTATTTTGTTTGTCACTCTCCCCTCTTAGAATGGAAGCACTGTG
Celera SNP ID:            hCV3138247
SNP Position Genomic:     91172
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29921):
AAGGTAAATCATGGCCTGAGAGTTACTTAGACTATAATGGAATATAAAGAGAGTTGGGAATTCTGGGAACATGCTTTTTAAGGGACAGGCGGAGGAAGAG
M
CAGGACAGAAGCGGGGAGGAGGAGTCAGAAAGGTTTACAGGGAACAGAGTGTGGTCACAAGGATGGTAAGACAGAAGGGAGTTTCAAGAAGGAGCGGTAT
Celera SNP ID:            hCV952561
SNP Position Genomic:     51203
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29922):
CAATCACCAGTGTCTGGAACTTAGTATGTTCTTGATATATGTTGACTGGTTTTAGAGTTTGTAAAATGCTTTTGCATTGTTTCGACCCAGCTGATGCCTC
R
CCTCTCCTCCTTAAAACATTTTCGCCTCTCACATAGATATCCTTTTATTATTATTATTATACTTTAAGTTCTAGGGTACATGTGCACAATGTACAGGTTT
Celera SNP ID:            hCV3138248
SNP Position Genomic:     88576
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29923):
CCTAGGCAGAGAAGGTAAATCATGGCCTGAGAGTTACTTAGACTATAATGGAATATAAAGAGAGTTGGGAATTCTGGGAACATGCTTTTTAAGGGACAGG
M
GGAGGAAGAGCCAGGACAGAAGCGGGGAGGAGGAGTCAGAAAGGTTTACAGGGAACAGAGTGTGGTCACAAGGATGGTAAGACAGAAGGGAGTTTCAAGA
Celera SNP ID:            hCV952562
SNP Position Genomic:     51192
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29924):
CTTACCCACTAAGATGGCTATAATAAAAAAGATAATAACAAGTTTTGGCAAGAATATAGAGAAATCAGAATGCTCATATACTGCTTATGGGAATATAAAA
Y
GGTCCAGCAACTTTGGAAAACAGTATGGCAGTTCCTCAAATAATTGAACATGAAGTTACCATATGACTCAGCAATTCCACTTCTAGGAAGAGAAATGAAA
Celera SNP ID:            hCV3138249
SNP Position Genomic:     79533
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29925):
CTTTTATCTCTGTAATCCCAGACCTTAGTATAGTGTCAGGTACACAGCAGACCCCTCTGTAAATCCTAGGCAGAGAAGGTAAATCATGGCCTGAGAGTTA
Y
TTAGACTATAATGGAATATAAAGAGAGTTGGGAATTCTGGGAACATGCTTTTTAAGGGACAGGCGGAGGAAGAGCCAGGACAGAAGCGGGGAGGAGGAGT
Celera SNP ID:            hCV952563
SNP Position Genomic:     51128
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29926):
ATATATTTATCCATGGGAATGACCCGGCCTTTGACATGCTGTGTTTGAGGTCCTTGTTCAGTGTCCTTCCTCCATCTATTCTTCACATTGCTGCAGATTA
W
TCTCTCCGAGATGCGAATCATGTTAAGTCATTCCCCAGCTTAAATTTATGAATGGTCCTTATGAACAATGTCCAGCCTAATGCAGGGTGTAAAAGGCCCC
Celera SNP ID:            hCV952564
SNP Position Genomic:     50609
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29927):
CTCTCCAATGGCGGTACGCAGCACGGACTAGATTAAGGAAGGACCAAAGGCAGGATGATGAGTTGCTGGGGTGGGTGGGCGGCAACTGCATAGACCAGGC
R
AGAGACAGACAGGGTTTGGACTGAGGTAGGGAAGGGGACCAGAGAGGAATGGAGAGGTTGGAGAGAGTGAGTTTAGAGAGGATAGTGCCTGACTGGGTGT
Celera SNP ID:            hCV952565
SNP Position Genomic:     50223
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29928):
AGACAAACACATTATTACAAATTGTGGTAAGTGCCCAAAGCTGGGTGGTTCTCAGTACTGCCAATCTGTCCCTCTTGATGTCTTCTTAGGCTCACTTTTA
R
TACTTTAATATAGGTCCTAACTCTTCTGTCTTGCTGGTTTTTATGCCTAGTATCTTCTTATTCTTCCTTTTTTTCTCTTTTTTTTTTGAGACATGGTTTC
Celera SNP ID:            hCV952566
SNP Position Genomic:     49223
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29929):
GACTAATTTTATTTAACTTCCTGACAATCCAGGAATCAGTATTCTGCTAGTTATTCTCCATCTATGCTTTGATTTTCTTATCTTTTTGCTTTTTCTTATC
K
TTTCATTTTGTTTTAAAATAAGTTTCTCCTAATCATAATTCTCATTGTAGAGAATTTGGAAATTACAAAAAGTATGTAAAACAAAATTTAAATTATCTGT
Celera SNP ID:            hCV952567
SNP Position Genomic:     47666
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29930):
TCATCCCCAGAAGACCTTATTTCCATTTCCATTTCCATCGGAGGGTTATCTCAGAAAACATTAACTGAATCCTACTTGCCAGTAAGTGAAAACTAGAAAG
M
CTCTGTCTGCACACAGGGAACCCCAATATCCTGTGAAAAGGAGAGCAGGGAAGCCCGTGCAGCTGCCTTTCCAAGGACGAGGTGGGGAGGGTCCATCTGC
Celera SNP ID:            hCV952568
SNP Position Genomic:     44661
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29931):
TCCTGTGATGGGCTTCTAGGCTTTCCCACTGGATTTCTACCTTGGTTCTTGGATAGGTCCTTTGCTTGGATGAAGAGGATGGAAATTGCCTTTTTTTTTT
K
GGGGGGGGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCCCGATCTTGGCTCACTGCAAGCTCTGCCTCCCACGTTCATGCCATTCTCCTG
Celera SNP ID:            hCV11871670
SNP Position Genomic:     31015
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,10)      total(G,4|T,10) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29932):
GCTCCTGCTGTCATCCTGGTTTCCCTTCCCTGCTCACTGCACTCCAGAGCCCCAGGGGGCTCTCCATGCTCTAGGTACTCCAGGCCCTAAGCAGTGGCTC
M
GTGTGCGGCTGCTGGTGTCTCAGGGCTCCACCAGCTGGAGGCACTTCTATCTCTGGGCCTCCGATGGCTTTCATGGCCAAGGAGTAGGGCAAAGGGTAGA
Celera SNP ID:            hCV11871671
SNP Position Genomic:     32203
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|G,8)      total(T,6|G,8) ;no_pop(G,-|T,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29933):
GGCACATCAGCTAAAAATGAGGAGACATATGAGCTTCCTCCTCTATCCTCAAAAAATCTTTACTACATTGTGCTAGTCATGCGCTCATCTCATTCAAGTC
R
GCTTAAGCATCTCCTGCTTGACGAGGCTGACTTGCACCACACTGTTTAATTCTGCAACCCCTTCCCATTCCCAGGACCCATCACCTCTCTTACTCTGCTC
Celera SNP ID:            hCV8375404
SNP Position Genomic:     48784
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29934):
TCATCAAAGGTAAGCAACATCTGAAGAGAAAAAGGGTCATGGCCAGGAAGCTTTCAAGGCCACAGATGACCAGGGCTGAGCCAGCTGTTGTGCAAGGCTT
C
CCCCCATGCAATCCTGGGCACAGCCTCACAGGGAGGTAAACTTGATCCCAGGTAAGAATGAGAGAGGAGCCCTCACAGGCATCTGTTAATGAATAGAAGA
Celera SNP ID:            hCV11871678
SNP Position Genomic:     52744
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,4)   total(C,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29935):
CCATCAGCTCAAAGTCCCTACGAAGCGACCCACTGATTATTTTGCGGAAATGGCCAAATCTGATCTGCAGATGCAGAAGGTAAGAAATAGAAGTTTTCCT
Y
TGGAAAGTCAAAACTTTGTACTTAAGCATATTCAGCTGGCTTAGAAAGATAGCTATGAGCCCAATAACGGGGAGCCAGTTGTCAGAGGACAATTATTACC
Celera SNP ID:            hCV25967142
SNP Position Genomic:     97185
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,40)   total(C,73|T,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29936):
ACCTCATTTAACTTTGGAAGAAGGGATTGCCAGCATGTAATCCAACATACATTCAGCCCTCCATAGCCATGGGTTCAGCATCTGTGGATTCAACCAACCT
Y
GGATCAAAAATATTGGGGAAAAAAATTTGAAAATATTGCAAAAGGAAAACTGAATTTTCCGTGTGCCGAGAACTACATTGAATCCATGAGAATGAGGTGA
Celera SNP ID:            hCV8375260
SNP Position Genomic:     97715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29937):
CTTATGTTGGCAATGATTCTTGCTGCACTTTGTGTAGATAATCAGGTCAAGCATACGGGACCGAAGCCTATCTTGCAGGTAGATTGGTCCTGCTGTGATT
Y
GTCTTTGGTGGAAGTGGCAGACTGGAGACAGAAAGATTGTGTTTCAGAAGAAAACTCTATATTAGCTTAATCTTTGATTCCTCAGTGGCCACATGGTCAC
Celera SNP ID:            hCV16033495
SNP Position Genomic:     9169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29938):
CAGGTTCCTCTCCAGGTGCTCCCGCTGCCGGGTGTACTCCTGCTGCAGGTCTGTGTTCAGCCCTGCGATCTCCACCTGACGGGGCCCAGGAGATTCTCAG
Y
GAGGGAGAGGAGACCCCGGAGGTCAGTGCATGGCAGGAGGGGAGGCTGAGCTTACCATGTCTGCTCGCTGCACGTACTTCTCAAAGAGACCTCGAACCTT
Celera SNP ID:            hCV1770469
SNP Position Genomic:     33461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29939):
TCATGACATGGTGTGCAGAGAGGACAGCATTCTTGTGCCCTTGCCACTGTCAGTGCTAGAACTTGTAGACAATTACTTTTCTCTGGGCCTCAGTTTTCTC
Y
TCTGTAAAATGAGGGATTCTTAGATGGTTCAGATATAGTACAATTTAGAGTTGGGTAGAACTTGGACCTCATTTAACTTTGGAAGAAGGGATTGCCAGCA
Celera SNP ID:            hCV8375267
SNP Position Genomic:     97549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29940):
TATTTGCAAATCACATATCTGATAAAGGACTTATATCTAGAATTATAAATAACTGTTACAACTCAATAATAAAAAGACATATGACTCAATTTTTTAAATG
R
GCAAAAAATCTGAATAGACATTTCTTCAAAGAAGAATTAGAAATTCTTGAAAAGACGTTCATCATTAATCACCAGGTAAATGCAAATCAAAACCACAATG
Celera SNP ID:            hCV3138250
SNP Position Genomic:     79321
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29941):
CACCTCATTACACATTTTGTCCTACGATTCTCAGCTATCGCCAAGCCCAGGCCGCAGTGCTTGCAGTCTTACCCCGCCTCCATCAGCTCAAAGTCCCTAC
S
AAGCGACCCACTGATTATTTTGCGGAAATGGCCAAATCTGATCTGCAGATGCAGAAGGTAAGAAATAGAAGTTTTCCTCTGGAAAGTCAAAACTTTGTAC
Celera SNP ID:            hCV8375268
SNP Position Genomic:     97106
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,32)   caucasian(C,12|G,28)   total(C,16|G,60)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;SC_12_C(G,7|C,8)   total(G,7|C,8)   
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:29942):
CTTTAGAGTAGTCATTCTCTTAAACTATTTTTAGCAACACCCCTCCCCTTTTTAAAAACTAGTATACGGCTACATTTCTTTTAGATACTAAATCAGTGAG
R
CAGTTTTTGTTTGTTTGTTCTTGCTAATGGAGGTCAGATTTTGAGAGTCCTTCTGAGCTTGGATAACTCATGATTGGCGGTGAAAAGGAACGTAAGGCCT
Celera SNP ID:            hCV8375269
SNP Position Genomic:     96898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29943):
GATTAAAGACCTAGATGTAAGAGCTAGCACTATGAAACTCTTAGAAGAAATACAGAGGTAAATCTTCATGGCCTCAGGCATTGGCTTCTTAAATATAACA
Y
GGAAAGCACAACCAACAAAAGAAAAATAGATAAATTCAATTTCATCAAAATTGAAAACTTCATCAAAAGACAACATCAAAAAAGTGAAAAGACAACCCAC
Celera SNP ID:            hCV3138252
SNP Position Genomic:     79106
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29944):
TGCTCTCGGTGGAGGGGCGGGGGCTGCAGGCAGAGGTTAATGGCACAGAAAGGGAAAAGAGATGCCTCATCTGGGACTTACAGCTGACTGCCAGGGGCCA
Y
ACTGGGCATAGAAACTTAGACGGGCACACAGCCAACAGGTGGAGGCACGAAAAGTCTTGTGCACCTGCCCTCGGCTGGACACCCAGCCTGAACAGCCTAC
Celera SNP ID:            hCV27494773
SNP Position Genomic:     33788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29945):
ACACAGCTCCTGGAGAAGGTTATAGAGACTTTTCAGGAAGCTCCTACATACTCACAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGATATGCCATTGGCA
Y
GGGGGGATGGTAGTGAAAATGGGTGGATTGAAGGTTACTGAGGAAGAAGAATCTACAGGATGTCATTGGGGTTGAGGGCCCAGGCTCTGGCATCAGAGAG
Celera SNP ID:            hCV3138255
SNP Position Genomic:     83191
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29946):
AAATCTTGAAAGCTGGCCGGCCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCATGAGGTGAAGAGATCGAGACCAT
M
CTGGCCAAAATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGCACACCTGTAATCTCAGCTACTCAGGAGGCTGAGGCA
Celera SNP ID:            hCV28006903
SNP Position Genomic:     64244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29947):
TTAACATAAAAAGACTATAAATATATAATTGCTCCCCATTCTAACCTCAGCTTCTTTAAAATATATAAAATTATATAAGGTAATAATTATAAGAATATGT
Y
ATTGGGGTTTGTAACACTCATAGATGTAATATATATAACAATATTACCATTAAAAAGGGGAAAGGGAAGGTAGCTATGTGGCAATAACATTTCTATATGT
Celera SNP ID:            hCV3138256
SNP Position Genomic:     74215
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,14)      total(C,14|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29948):
ACAGGGTCTTACTCTTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCATGGCTTATTGCAGCCTTGACCTCCTGGGCCCAAGTGATCCTCCCACCGCAGC
M
TCCCAAGTAACTGGGACCACAGGTGTGTGCCACCACACCTGGCTAATATTTTTTACTTTTTGTAGAAACAGGGTCTCCTTATGTTGCCCAGGCTAGTCTC
Celera SNP ID:            hCV3138257
SNP Position Genomic:     67532
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,3)      total(A,3|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29949):
CTGCTGTCTATTTCTGTAAAACTTTATTGGAACACAGCCAAGTTAATTGACTAATGTTTTGTTTATGGGTGGTTTCACACTACAGCAGCGGTGTTGATTC
R
TTGAGACAGACCACATGGCCTCCAAAGCCAAAAATATTTACTACCTAGGTCTTTACAGAAAGAGCGTGCTGACCCCTGCTGTAGCAATGGGGAGCTGTGA
Celera SNP ID:            hCV952570
SNP Position Genomic:     42554
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29950):
TAGTTCCTTGGCTTCTTTGAGATAATTATCTGATTCCAAGTTCTCTTTGTATCTTTATTTTCAGTCTTTCATCGGCTCCTCTTCTTTCACCAGTCTCTTA
W
ATGTTGGTCTTCCCTCTGCTGTCCAATATTCTTCTCAGATTCTACATAGGCCCTTGGTGATCTAATCTATGCCTCTGACTTCCTCTACTTTCTAATTCCC
Celera SNP ID:            hCV3138258
SNP Position Genomic:     66683
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29951):
TGATCAGATAGATGTTGGTGATGATTTGGATAAGGAGTTAAGAGAAGTGAAGAATCAAGAAAGACTTCTGCATTTCTGCATTAAGTAACTGGGTGGATCA
Y
AGACCACTAACTGAGAGAGGGAAAACTGGAGGAAGGGGGAGAGAAAAATCAAGAATTCGGTTTTAGATCAACATGGACGCCACTGTCAGCCCAGCAGGGG
Celera SNP ID:            hCV952572
SNP Position Genomic:     40069
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29952):
AAGTTTTGGGAATGGTGTTGGAGAGCAGGATGTGACTCTTAAAATCAGTGTAGCAAATAACAGCCTCATATGGTGGTTTAAACTTTTATTCTTAAAATAC
R
ATGGTGCTGATCAAAACTACTTCTTCACTTACAGGCTTCTCTGATAAACTGGATTTCCTTGAGGGAGATCAGAAACCTCTGGCACAGCGCAAGAAGGCAG
Celera SNP ID:            hCV25959276
SNP Position Genomic:     100965
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,5)   caucasian(A,36)   total(A,63|G,5)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,3)   caucasian(A,26)   total(A,53|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:29953):
GTAGTTTTCGTTTGTTTGTTTCTTTGCACATACAGAGAAATTAGAAAGTTTAGATAATAAAATATTCTTTAAAACCTTATAAAGAATTGGAGAAATTTGG
R
TAATTAACACTTTCATAGTTAAAATTCTTAGTCTTGATGAAGGCAAAATAAGAAATATTTTAAACAAATGCATTGGCGGTTTGGCAGTTCTTTTTTAATA
Celera SNP ID:            hCV15928280
SNP Position Genomic:     20279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29954):
CATGCTTGTTGCAACGTCAACAGCAACAACAATGCTTTTCCATGCACTTTTTATATGAGTTTAAATGCATCATAATAACCCTATGGCTATTATTATATCA
M
AATTATTGGCTATTATATGGCTATTATATTATATATATATAATTATATGGCTATTATAATCACAAAAACAATTATAAATTGTTATTATAATCACAATTTT
Celera SNP ID:            hCV15928281
SNP Position Genomic:     25027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29955):
AGTCCAGTCCAGATAAGAGATGGTGGCTGCTTGTACCAGGGTGATAGCAGCAGCGGGAAAGGAGGGTTTGATGTGAGATATGTTTTGGAAATTGATCAGA
Y
AGATGTTGGTGATGATTTGGATAAGGAGTTAAGAGAAGTGAAGAATCAAGAAAGACTTCTGCATTTCTGCATTAAGTAACTGGGTGGATCACAGACCACT
Celera SNP ID:            hCV952573
SNP Position Genomic:     39977
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29956):
CATTTTTTCCCCCAGGCAAAGACTCATACTACTCTGAGAATAAAAATAATCTGTTTATAGAAAAATTGGGAAATAGGTCAAATTTGAGTAGCTGGCTGGA
Y
AGCCAGAAGCCTAGCCCCTTATGTGGAAACAAGCATCTTTTCCCAGTGTGGAAAATCCATCTACTTTTCCATGTGTTTTTCATCACACTCAGAGATTCTC
Celera SNP ID:            hCV952575
SNP Position Genomic:     37893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,13)      total(C,5|T,13) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29957):
CAGACCAGTCAGGAGGCTGCCAGTTTGGCTGAGGAGGCAGATGATAGCGTCCTAGGCCAAGGCAATGGCAGCTGGAAGAGAGAAAGGGGGCTTCTGTTTG
Y
GGGGCTCCCGAAGATCATGTCTGAGTGCCTCATTCTCTAAATCTCAGGCCAGCAGTGACAGATGAGGTTAGCAGAGAGGGCATACAGGAGTATATTGTTT
Celera SNP ID:            hCV952576
SNP Position Genomic:     37683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29958):
ATGCAGGATCCAAGGGCAGAGGCTCAAATGGTGAGAAGTTTGCCTTTATCCTGAAAGCTCAGAGAGCCACTGAAGGCTTAGACCAGGAGTGGAATGATGT
M
ATTTGCATCTTAGAGGGCCTGATGCAGAGGTTCTGCTGAAAAGAGCAAGACGGGGGCCAGGCAGACCAGTCAGGAGGCTGCCAGTTTGGCTGAGGAGGCA
Celera SNP ID:            hCV952577
SNP Position Genomic:     37521
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,13)      total(A,13|C,1) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29959):
CCAATCTTATTCAACAAATGTTAAGGAGTGGCCTGTGCTAGGCAGGAGGGCACAACTGTGTCCTGGCCCACATCCAGAAAACCTAGATTCCATTATTAGC
Y
CTGTGTGTACTACCTAGCTGTGGGTGCTGGGTGAAGTTTCTTAACCTCCCAATTTTTGGGGCCTAATTTTTCTTATTTATAACATGGAGAAATGGGAATC
Celera SNP ID:            hCV952578
SNP Position Genomic:     34830
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29960):
GGTGGCTATGGAGTCAGAGCCCAGAGAACAGGATGGTCTTAAGCACTGTTCTCCCTGAGCTGTGACAAACGGTCCTCTGCTGTGGGGAGGTACCTGTGGA
R
CCCAGAAGGGAGCAGGGGTCGGGCTAGAGACACCGCAATGATTCTTTTCCTCCAGAAATGCTTCATCTAAAGCACAGATCTACACCTTTAGACTTCCAGT
Celera SNP ID:            hCV952579
SNP Position Genomic:     26471
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29961):
AACTAAAAACAGAACTACCATACAATCCTGCAATCTCATTACTGGATACTTTTCTAAAGGAAAGGAAATCAGCAGATTGAAAGGATACCTGCGCTCCACC
S
CACCCCCCCATATTTATTGTACCACCAATAGTAAAGATATGGAATCAACCTAAGTGTCCATCAGTGGATGAATGAATAAAGAAAATGTGGTATATATACC
Celera SNP ID:            hCV11871681
SNP Position Genomic:     54406
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29962):
CTAAAAACAGAACTACCATACAATCCTGCAATCTCATTACTGGATACTTTTCTAAAGGAAAGGAAATCAGCAGATTGAAAGGATACCTGCGCTCCACCCC
A
CCCCCCCATATTTATTGTACCACCAATAGTAAAGATATGGAATCAACCTAAGTGTCCATCAGTGGATGAATGAATAAAGAAAATGTGGTATATATACCCA
Celera SNP ID:            hCV11871682
SNP Position Genomic:     54408
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29963):
GACAGTGTGCAACCCCAGGGGAGACAGAGGAGAAGAGTGTTCCAGGCCCAGAGCCAGGAGGCGGCAAGCAGAACCTAAGGCAGGAAGAGCTTGATGATAA
Y
GATAATAAGAGTAACCACAATTGCAAGGGTTGATTGGATCACTGCAAATGTATCAAACAGCATGCATACAGTCCCTCAGTTCATCCTTACACCAACCTTG
Celera SNP ID:            hCV12109062
SNP Position Genomic:     28943
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29964):
AGGAGCCCTCACAGGCATCTGTTAATGAATAGAAGAAGTAAGGTTACGTCTACATTCTCTGTGGATTTGGAATCTGAAGAGTCAGCTATTATCTAGAACG
W
ACAAGAAACTCTCAAAACTCAACAGTAAAAAAGCCAAACAATCCAATCAGAAAGTAGACAAAAGATAAGGAGACATTTCACCAGGGAAAATACACAGATG
Celera SNP ID:            hCV586121
SNP Position Genomic:     52909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29965):
AACTGAAACTGTGGGTAAGGTGGGACTACTGTACTATCAGAGCGCCCCTTCATTCCCTCACTCATTCATGCACTCATTCACCCACCCACCTACACACATA
T
TTTTTTTTCTTTTATTATTATTATTATACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTG
Celera SNP ID:            hCV11871689
SNP Position Genomic:     59100
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29966):
CCTTAGGAGGGCACAGTACACCGCACACTGAGGCACGGGTAGGGCCAAAGCCCATCTCCAGGTCCCGTGGCAAGTTAACTCCCAAGCGATTTGCTTTCGG
W
CAGCTGAGCCTGCAGCGGGGCCACGGCCTTCCCTGTTGCACCCCTGTGGACTGGAGGCTGCACACACCTTGGGAGCAGAGAGGACTGTGAGAAGAGCTTC
Celera SNP ID:            hCV8375417
SNP Position Genomic:     40618
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29967):
TTAGAGTTGATTTGAACACTTAGTGCTTTGGAGCCTTCTTGGTTGATGTGGACCTGTCGGATCAAAGTTTTGGGAATGGTGTTGGAGAGCAGGATGTGAC
Y
CTTAAAATCAGTGTAGCAAATAACAGCCTCATATGGTGGTTTAAACTTTTATTCTTAAAATACAATGGTGCTGATCAAAACTACTTCTTCACTTACAGGC
Celera SNP ID:            hCV25959135
SNP Position Genomic:     100901
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(T,40)   total(C,2|T,72)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,36)   total(C,3|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:29968):
CAGCCTGCACACAGAGAGGACCAGAGGCATGGGCAGCCTGGCGCATCTCTGCAGGCTGCAAGTGGCTTAGGGTGGCTGCAGGAGCAGGGATTTGAAGAGG
K
GGGAGAGGGGAGGGAGAAGAGGCTGGCTGAGCTAGGTCATGCAGGATCCAAGGGCAGAGGCTCAAATGGTGAGAAGTTTGCCTTTATCCTGAAAGCTCAG
Celera SNP ID:            hCV12109069
SNP Position Genomic:     37382
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29969):
ATGCCTAGTCACTTGAGTGACCAGCAGGGGCCCTAAGGCTGCTTACAGGAGGAGGTGACTGCTAGGCCCACTCCAGCACTGTCGGGGCTGAAGCAGTAAA
S
TGGATGAAGAGACTCGTGAAGGAAAAGGGGGCACCAATGGGGTGAATGCCTTCAGTTTCCCCACGGAGTCTGGATAGACAAAAGTAGAGGGAGGTCTCAG
Celera SNP ID:            hCV27963424
SNP Position Genomic:     10657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29970):
AGAAAACAGAAATTAGTTTAAAAATCAAATGGAAATTCTGGAGTTGAAAAGTACAATAACCAAAACGAAAAATTCACTGGAAGGCTCAACAGTAGATTTG
M
GCTGGCAAACTTGAAATAGCTCAATAGAGATTGTGCAATTGGAAGAACAGAGAGAAACACTAATCAAGAAAAATTAACATTAACAGAGTTTCAGAGAAAT
Celera SNP ID:            hCV27963425
SNP Position Genomic:     63819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29971):
ACAATATGCATATAATATACTGTTGTTGCTATAACATATAGAAATGTAATATATTTCCCAGTAATAGCACACAAATGGTGGGTGGGAACAAATGTGTACC
R
GATTAAAGAAATGACTTCAGTGGTAACTCAAACTCAAGAAACAAATGAAAAGAACCAGAAATGATAGTAAAGGTTAACATAAAAAGACTATAAATATATA
Celera SNP ID:            hCV27963426
SNP Position Genomic:     74041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29972):
TAGTAGAGATGAAGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCCGATCTCAAGGGATCCGCCTGCCTCAGCCTCCCGAAGTACTGAGATTACAGG
M
GTGAGTGACTGCGCCCGGACCCCTTTCAGATCTTTTTAATGTCTATAGGACCTTTAGTGATATCCCCTTTTTAATCCTCATATTGGTTGTTGGTATCTCC
Celera SNP ID:            hCV3138260
SNP Position Genomic:     65395
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29973):
AGTAGCTGTGAGTTGCTGGCGCTGGAGCGATTCGGTGGCACGTGGAGCCACGGCGTGGGAGTAGGGGGCTGAAGGCAGGCAGCAGCGGCCAGGGCCGCCC
Y
CTGCTAGCCGCTTGGGTCTCGGGATACCCCGTTTCTTCCTGTAGGTGTGGGACGTGCGTGCGGCGAGATGGACACTCCCCCGCTCTCGGATTCGGAGTCG
Celera SNP ID:            hCV8375277
SNP Position Genomic:     95733
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(T,32)   total(C,2|T,64)
SNP Type:                 UTR 5;INTRON;UTR 3

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5;INTRON;UTR 3


Context             (SEQ ID NO:29974):
GGAAGCCAGGCTTAAAAATGAAATCATATTCATCCCTCGCAGCCTGGAAGACTCTGTGCATGCCCAAGGCTGTACCCTCTTATGAACAATCAGAAAGGGG
Y
CATCCAAACTACCAGTCTCTGGCTGAACATGATGCAAAAGCCATCACTCTCTGAACTGTGATAGCATTTTCCAAGCCACACATAAATCTGGTAGTAAAAG
Celera SNP ID:            hCV3138261
SNP Position Genomic:     63100
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29975):
AGCGGTTCCTATAGCAACGACAAACCGGAAGTATGGTTTGCCGCCGGAAGCGGAAGTCCCAATCAAAAGTTGAGCAGTAGCTGTGAGTTGCTGGCGCTGG
R
GCGATTCGGTGGCACGTGGAGCCACGGCGTGGGAGTAGGGGGCTGAAGGCAGGCAGCAGCGGCCAGGGCCGCCCTCTGCTAGCCGCTTGGGTCTCGGGAT
Celera SNP ID:            hCV8375278
SNP Position Genomic:     95658
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,26|G,12)   total(A,58|G,16)
SNP Type:                 UTR 5;INTRON;UTR 3;MISSENSE MUTATION;TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON;UTR 3;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:29976):
AAACTTGAAAGCATCTCCTAAGCTACACAAAGACCCGTTAACATAGGGCAGAGTCTCACTGGCACAACGGGCCTACCAAACACAACAGTCTACCAAATGC
K
GAACATTAAGCTCTCCCGACCCAGGGGCATCTCCTAGGAAGCCAGGCTTAAAAATGAAATCATATTCATCCCTCGCAGCCTGGAAGACTCTGTGCATGCC
Celera SNP ID:            hCV3138262
SNP Position Genomic:     62963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,7)      total(G,7|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29977):
TTATTGCTGTTTTTTCAAAACATTTTTGAAATAATTATGTATTCACAGAAACTTGCAAAAATAGCACAGAGAGAGTGGACTTCTGGAATGGCACGGTAAG
R
ACCTCAACTTGACCTTCTCTCTGACAATGTAGGTTAACTGGTAAATATGATAAAAAATAATCATTTAAAGTCTTTAGAAGGCTGGGTGCAGTGGATCACA
Celera SNP ID:            hCV3138263
SNP Position Genomic:     61576
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29978):
TGGTTAGGCTATTTTGTCACGCAAACATCACGGAGTGTATTTACACAAACCTAGCTGCGACAGCCTACTATACACCTAGGCTATGTGGTAGAGCCTACTG
S
TCCGAGGCTACAAACCTGAACAGCATGTGACTATGCTGAATACTGTAGGCAACTGTGACGCAATGGAAAATATCTGTGTATCTAAACAGAAAAGGTACAG
Celera SNP ID:            hCV3138264
SNP Position Genomic:     60441
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,8)      total(G,5|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29979):
GACCCCGCCCCCGGCCCGGACTCGCCCTCCCCGCCCTTTGCTCCTCCCCTTGTCTCTCCCCTTTCTCCTCCCCTTGTCCCTCCCCTTTCCCCTCCCCTTG
Y
CCCTCCCCTCCCCTTCCCCTCCCCCGGGGTCCTCCTCCGCGCCACCCCACCCCCGCGGCTCCTTTTTCTGCCTTTTCCTTTGTACCCTCACTGCTACCAG
Celera SNP ID:            hCV16185881
SNP Position Genomic:     95331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:29980):
ACCCTGCCCTCTCCCTTCAGTTCTGTTCGTCCTCACCCTGGGGCAGAAGGCAAGCTGCTATGTGACCAGATGTGGTATGTCTTTTTCTGTAGAAGAGACC
K
GGAAAACGAACAAGAGAGAAGATGAAGAACAGAACACACTAAATAGCATCTTTGAATACAAAGAACCAAGAAAAAGGAATGAAGACTCGCAATTTCACGA
Celera SNP ID:            hCV25967803
SNP Position Genomic:     103434
SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,27)   caucasian(G,1|T,35)   total(G,10|T,62)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,23)   caucasian(T,28)   total(G,7|T,51)   
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:29981):
TATTTAAAACACACACACATGGAAATGTAGAAGGAAATGCATCAAAGAAATGATGATACCATTATGAGGATTTTTTTTTTTTTTTTTGGAGACAGAATCT
Y
GCTCTGTTGCCCAGGCTGGAGTGTAGTGGTGCGATCTCGGCTCACTGAAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGTCTCCCGAGTAG
Celera SNP ID:            hCV3138265
SNP Position Genomic:     56357
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29982):
CTATCTCATCATTTCTGGTCTGTCTCCTCTACCACCTGTGAACGACTTGACATCAAGGAATGGATTACGCACATTTCTGCATTCCTGGCCAGCAGACTAG
Y
GAGGATCTGGTGCACAGGAAGTACTGAGAAGAAGGATAAGCACAAATTGCACGTGCAAAGTCAGAGAGGATGGAGCAGGAATGCCTGGCCAGGGCACTCA
Celera SNP ID:            hCV3138266
SNP Position Genomic:     49857
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29983):
GCACGTACTTCTCAAAGAGACCTCGAACCTTCTCCTTCAGCAGCCGCGGTTCCTGAATATAGGCTACGCAGTTGTGGAGGTCTGTTTTAAACCTTTTGAC
Y
AGCGCTTCCAAGTCTCGCTCCTGCAATCAGAGACATTTCCTTCTGGTGCTGTAGGGTGCTCTCGGTGGAGGGGCGGGGGCTGCAGGCAGAGGTTAATGGC
Celera SNP ID:            hCV16033505
SNP Position Genomic:     33631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:29984):
AGTGAAGCAGCATACTTCAGAGTGATGAGGTGAATACTGAGAACCACCCCAGCCCAGCCCCTCTCCTGAGCCCCCAGATCCGCCTGCACAGAGGCCCCCA
M
CCATGGAGGCTGCCCCTTCTCCCATTCTCCACATCCTAGCAGGATGGCACTCTTCTCCTGACCTATGTTGGCTTCTGAACTGCCAGTCTTTCTCCTTGTG
Celera SNP ID:            hCV952580
SNP Position Genomic:     14229
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29985):
GCCTTGACCTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTGCCAAGTAGCTGGGACTACAGGCATGCCCCACCACACCTGGCTAATTTTTATATTTTA
Y
ATTTTTTGTAGAGATGGGGATCTCACTATGTTGCCCAGGCTGGTCTCGAACTCTTGGGCTCAAGCAGTCCTCCTGCCTCAGCCTCCCAAAGTACTGGGAT
Celera SNP ID:            hCV3138267
SNP Position Genomic:     49473
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:29986):
GGTTGAAGAGGTCAACCAGGAGACTCCTCTCCTCCCTTCGTCAGTACAGAGGCTGGCACTCCCCCCATGGGGCTACAGCACAGACCCCTCAGCCTCTGTA
Y
AAGGACTCTCATGCATTCACTCACTCATTCATATTAGGTTGTGAACAGCGGTATTTTCCAACGATGGCCCCCACAGCATCTCCCGCCCCACACTCCAGCT
Celera SNP ID:            hCV3138268
SNP Position Genomic:     41143
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29987):
GAGAGGAATAACCAGAGGGAGAAGTGCATCCTCTCTCACTCCAGAAATGGAGGAGCAGAGCAGGACCCTGCAGAACAAAGATGACAAGTCTAGAATGACA
Y
GGAGGCAAGGGAAATGAGGGCAGGGCTCTACTTACAGTTCCAAGAACAGGGTCAGCAGATAATGTAAGACTTTGGGGAATTTTTCCAACACTTCCCATGT
Celera SNP ID:            hCV952581
SNP Position Genomic:     12744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29988):
ATTCTCCAGTTCAGCTTCCATCTGTAGACAACAAGGGAAAAGAGTCAAGAAGAAGAAAGTTAGATAATGAAAACTGTATTTGAGAACTGTAGTCTTTCAG
W
GGGGATGCCACCCCTGACACCCGGGCATTTCTTTTCTCATCCCCTTCTGTGTCCTCTGGATCAAAACCTTTCTTCTACTTGCTTTCCTAACAGCTCCCCA
Celera SNP ID:            hCV27851988
SNP Position Genomic:     35502
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,27)   caucasian(T,40)   total(A,3|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:29989):
AAATCAAGAATTCGGTTTTAGATCAACATGGACGCCACTGTCAGCCCAGCAGGGGAGGCTGATGGGGCAACACACGTTGCAGGGAAAGGTGGCGTGTGGT
S
GGGGGCATGGGGGACCTCACAGGATTCTCAGAAACCCTTGTCCAGTTGATCCTGCTTCTAATCTCGCCTCTCTACCTTCATCCTGTTTGCTTCCCAGAAC
Celera SNP ID:            hCV3138269
SNP Position Genomic:     40215
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,13)   total(G,13|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29990):
CCCATCATAATAATGTAATGGGCTGTCATCTTTGCAGCTGAACCTCTCTGGGGGTGCCTGGATCCTTCCCTGCTCTCTGGATCTGGCTTCCCAGTGGGGC
R
AGTACATGTGAAGAACATGCCAGCAGGGGGGAAGGGGCTGGCTGCTGTGACAGGGTGCAGGCTGGGTCGGGGTTGTTGCTCAGCAGACAGAGTCTCCTGC
Celera SNP ID:            hCV27462665
SNP Position Genomic:     12166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29991):
TTAGACAACTCAAAAAGTGGCTCTGGTGATGACAAAGGCAGTGATATTGAAGACACCAAAAGAGGGGTTCTTAACATATTTTCATGAAATTACAGTGAAA
M
AAGTACTTTTAAATTAACATTTTATATGTGATTTTAACTACATATGCGTGACTGATTAATCTAGTTTCATAATACAAGTCGCCATTTATTTCCTCTACAT
Celera SNP ID:            hCV27851989
SNP Position Genomic:     94782
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,39|C,1)   total(A,75|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:29992):
GCCAGGTTTAAGACAGCCATAGGTGACCAGCAGGGACCAGCAGGGACTGTGGGCTTAAATATTTCTTATTTGGGTATTAGAGGGGCATCTGGCTTCTGCA
K
GTGGGAGAAGAGAGGGACATTGGATTATATTCTTTTGCTCTTTAATGCATAAAGAACTATCTCTCCCGGTACCTGTGTGTGGCTGGGTCTCCCAGGATGG
Celera SNP ID:            hCV952582
SNP Position Genomic:     12538
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|G,13)      total(G,13|T,2) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29993):
GAAAGTCAACCCATGAGCAGTGCCCAGACTTTCAGTAAAGTGATTAGGGAAAGATGGGACAATGCCAGGTTTAAGACAGCCATAGGTGACCAGCAGGGAC
S
AGCAGGGACTGTGGGCTTAAATATTTCTTATTTGGGTATTAGAGGGGCATCTGGCTTCTGCAGGTGGGAGAAGAGAGGGACATTGGATTATATTCTTTTG
Celera SNP ID:            hCV952583
SNP Position Genomic:     12475
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|C,11)      total(G,2|C,11) ;no_pop(G,-|C,-)   ;(G,-|C,-)   TSC_42_A(G,0|C,84)   TSC_42_C(G,0|C,84)   TSC_42_AA(G,0|C,84)   total(C,252)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29994):
GGCAGTCTGGGCACATCTTAGACATGCTTGAAGCCTAAGTAGGCCCTTGAACCCCAGTGGTCTAGGAGAGCTCACCCCATGGGAGTTCAGAAAGAGTGAA
M
CCCCGTTCCTGGCCCTAAGATGTCTTCCCTTTCACTTCTCACTCCGAATGCAGAGGAATGATTATAAGGGGGTCCTGCCTGGGCACACAGATGTTCCCAG
Celera SNP ID:            hCV952584
SNP Position Genomic:     10125
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29995):
AGTCATGCCAGTTACCACCAATTAGATGCATATAAAAATGACATTTTTTCTAAAATCAGCAATTAAGGAGAGGAACAGTGCTGTGTGAAGTGTGGTCCCC
R
AGGTGAAGATGGCCCAGTGCATTTCCTAGCTGGCATGGTCATGACATGGTGTGCAGAGAGGACAGCATTCTTGTGCCCTTGCCACTGTCAGTGCTAGAAC
Celera SNP ID:            hCV25968395
SNP Position Genomic:     97410
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,38)   total(A,1|G,67)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:29996):
CTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTACATTAGATATATC
T
CCTAATGCTATCCCTCCCTGTTCCCCCCATCCCACGACAGGCCCCGTTGTGTGGTGTTCCCCACCCTGTGTCCAAGTGCTCTCATTGTTCAATGCCCACC
Celera SNP ID:            hCV11871690
SNP Position Genomic:     59238
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:29997):
GGTGGGCATTGGGTGGGGTGGAGGCCAGGGTGCAGCATGGAAGTGCCTAGAAAACCTCCTAGGTGAGCTCTCAGCCACAGTCACAGCCAAGACGAGCTCA
R
AGGAGAGGAGCCAAAATAAGACTTTAGGGGGAGCTACTGGGCCCCCAGACACCTGGGGAGCCCTGAAGACAGGTGGTCTCAGAGGGACCCTTGATGGGAT
Celera SNP ID:            hCV25968754
SNP Position Genomic:     33137
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,27)   caucasian(G,40)   total(A,11|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:29998):
CCAGTAAGTGAAAACTAGAAAGCCTCTGTCTGCACACAGGGAACCCCAATATCCTGTGAAAAGGAGAGCAGGGAAGCCCGTGCAGCTGCCTTTCCAAGGA
Y
GAGGTGGGGAGGGTCCATCTGCGTGAGGGTGCACTGGCTGGTGCTCTTCTCCCAGCCTGCTCGCTGAAGATGGGGACAGGCAGGACCCTGGCCAGCACCC
Celera SNP ID:            hCV29130210
SNP Position Genomic:     44739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:29999):
TATAATTGCTCCCCATTCTAACCTCAGCTTCTTTAAAATATATAAAATTATATAAGGTAATAATTATAAGAATATGTCATTGGGGTTTGTAACACTCATA
R
ATGTAATATATATAACAATATTACCATTAAAAAGGGGAAAGGGAAGGTAGCTATGTGGCAATAACATTTCTATATGTTACTAGCATTAAGTTAGTATGAA
Celera SNP ID:            hCV29130211
SNP Position Genomic:     74238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30000):
TCAGTGCCAACGACAATCTTGTCATCAGCCACCCAGGTGTGAGCTAGATAGTTTTGGGGTTCTCCCCTCTGAAAGCTGGTTTGCTTCAGGGTTCCCTCAG
M
AAAACGGAGAAGCTTAAACATCCCATTTCCAGTGACACACACCTGAGTGTTATCCTGTGGACTGAAGCTCACCTGTAAAATGTGAGAGAATTGAAGAAAA
Celera SNP ID:            hCV29130212
SNP Position Genomic:     84252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:30001):
TTTAATGTCTATAGGACCTTTAGTGATATCCCCTTTTTAATCCTCATATTGGTTGTTGGTATCTCCACACTCTTAATTTTTTCTTCATCAGTCATGCCAA
G
GGTTTGTCTATTTCGTGTTTTCAAAGAATCAAATTTTGGCTTTGATGATCTTTTGTCTGTTTTCTATTTTATTAACTTCTGCTCTTATCTTTATTTCCTG
Celera SNP ID:            hCV11871694
SNP Position Genomic:     65530
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,4)   total(G,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30002):
AGCCAGAAGCCTAGCCCCTTATGTGGAAACAAGCATCTTTTCCCAGTGTGGAAAATCCATCTACTTTTCCATGTGTTTTTCATCACACTCAGAGATTCTC
M
ATGGGGCTCAGGCAGGAGGGTAGAAAGCATTTTGCACCCCCCAGGGGACCTCTGGCAAGGTCTGAAGGCATTTTTTAGTTTTAACATCCTGGATAGGGGG
Celera SNP ID:            hCV27984912
SNP Position Genomic:     37994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30003):
TCAATCACCAGTGTCTGGAACTTAGTATGTTCTTGATATATGTTGACTGGTTTTAGAGTTTGTAAAATGCTTTTGCATTGTTTCGACCCAGCTGATGCCT
Y
GCCTCTCCTCCTTAAAACATTTTCGCCTCTCACATAGATATCCTTTTATTATTATTATTATACTTTAAGTTCTAGGGTACATGTGCACAATGTACAGGTT
Celera SNP ID:            hCV29130213
SNP Position Genomic:     88575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30004):
CAGGAACTGATCATCAAAGGTAAGCAACATCTGAAGAGAAAAAGGGTCATGGCCAGGAAGCTTTCAAGGCCACAGATGACCAGGGCTGAGCCAGCTGTTG
Y
GCAAGGCTTCCCCCCATGCAATCCTGGGCACAGCCTCACAGGGAGGTAAACTTGATCCCAGGTAAGAATGAGAGAGGAGCCCTCACAGGCATCTGTTAAT
Celera SNP ID:            hCV27984913
SNP Position Genomic:     52734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30005):
GACACATCAAAAACAAAATGTTGAAAGCCAAAGATAAGAAAATCTTGAAAGCTGGCCGGCCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGC
Y
GAGGCAGGTGGATCATGAGGTGAAGAGATCGAGACCATACTGGCCAAAATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGG
Celera SNP ID:            hCV27984914
SNP Position Genomic:     64205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30006):
TTCCTGGACTGGTGAGCTTGGGCATCAGAATCACTTTCTGTACTTTCATCCGCATCTCCACAGTCACTTGAAGACTAATTATATTGCTGAAGCTGAGGAG
R
CTCAGCAGCTCTCATTAATAATGTCCGTGGGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAGGACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGT
Celera SNP ID:            hCV27984915
SNP Position Genomic:     65972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30007):
GTGTCCCCTCTTCATCATGCTTTTACCTGTCTTCCCCAACCCTGACCTAGAGAAAGTCATTTCTCCTTGCTCCCATGGCCCTTTCTACATGTTCCATCGT
Y
TTCTACCTCTCAATATAACTATTATGCACATGCCACAAATCACCAGTCATCCTCTTCAGCATGGAAATGGCAGGATCTGTATCAGTTCTCGTTTATAGCT
Celera SNP ID:            hCV8375424
SNP Position Genomic:     34258
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30008):
CTGTAGTGGGTCCTAGAACTAATCCTCTATGGATACTGAGGGATAAGTATATTTAAATAGTACCCTGGGGTCTCAAGCTGGATTTTAGGGAGCTTTTGTC
R
TGGTAGTAGTTCACCTTCTTACTGTGAACTCTGTACAAATTCTCACTGACAACTTCTCATCCTTTAACTAAAATGTGTATGTTTGACTGAAAAGGCTAGG
Celera SNP ID:            hCV27984916
SNP Position Genomic:     98404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30009):
TCAGGAGCGCTGCTGTGAGTGGGCAGGTTGGTTCATCTACACAGTTGGGCTAGTGTCCCCTCTTCATCATGCTTTTACCTGTCTTCCCCAACCCTGACCT
R
GAGAAAGTCATTTCTCCTTGCTCCCATGGCCCTTTCTACATGTTCCATCGTTTTCTACCTCTCAATATAACTATTATGCACATGCCACAAATCACCAGTC
Celera SNP ID:            hCV8375425
SNP Position Genomic:     34206
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30010):
TGTCCCTCCCCTTTCCCCTCCCCTTGTCCCTCCCCTCCCCTTCCCCTCCCCCGGGGTCCTCCTCCGCGCCACCCCACCCCCGCGGCTCCTTTTTCTGCCT
Y
TTCCTTTGTACCCTCACTGCTACCAGCTCCTTCTGGCGACCCCCAGGTACCCCCTCCCACCTTTCGTTTCTCTCTGGGTCAGCAGACCACGCATGTATCC
Celera SNP ID:            hCV8375285
SNP Position Genomic:     95405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON;SILENT MUTATION;MISSENSE MUTATION


Context             (SEQ ID NO:30011):
CCCGGCCCGGACTCGCCCTCCCCGCCCTTTGCTCCTCCCCTTGTCTCTCCCCTTTCTCCTCCCCTTGTCCCTCCCCTTTCCCCTCCCCTTGTCCCTCCCC
Y
CCCCTTCCCCTCCCCCGGGGTCCTCCTCCGCGCCACCCCACCCCCGCGGCTCCTTTTTCTGCCTTTTCCTTTGTACCCTCACTGCTACCAGCTCCTTCTG
Celera SNP ID:            hCV8375286
SNP Position Genomic:     95340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:30012):
GGCAGCTTTTAGAAGGTTTTCCTCATTACTGGAAGCATTTTGTATAGACAGAATAGCCCTCTGACCCAAAGCCTGGCATAAAGGTGGCACTCAAATATTT
S
ATGAATGAACGAATAATGGCAAGTGTGGTGGACAAAGGAGAGCAATAGTGAGGGACACGAAAAGAGCCTGAAACACCCTGCTTCTGGAAGAGGAATGACA
Celera SNP ID:            hCV3138270
SNP Position Genomic:     36809
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,12)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30013):
AGTGATTTCCTGAAGGAAATATAATGATCTGTTCATCGAAGTAGAAGATATTGTTGGCCACGTGGGATCGAAGACCAAAAACATGCAGCGTCTGAGCTAC
M
ACGGCTGACATGATCTCCCGCCAAACAGTTCTGCTGAAGACCAAGGCAGCGCTTCAGAGTGGAGAGCACCGCCCCGCTCCGACCCCGCCCCCGGCCCGGA
Celera SNP ID:            hCV27851990
SNP Position Genomic:     95150
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,31)   caucasian(A,1|C,39)   total(A,6|C,70)
SNP Type:                 UTR 5;INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:30014):
ACCGCCCCGCTCCGACCCCGCCCCCGGCCCGGACTCGCCCTCCCCGCCCTTTGCTCCTCCCCTTGTCTCTCCCCTTTCTCCTCCCCTTGTCCCTCCCCTT
K
CCCCTCCCCTTGTCCCTCCCCTCCCCTTCCCCTCCCCCGGGGTCCTCCTCCGCGCCACCCCACCCCCGCGGCTCCTTTTTCTGCCTTTTCCTTTGTACCC
Celera SNP ID:            hCV8375287
SNP Position Genomic:     95318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 5;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:30015):
CTTTTCTCATCCCCTTCTGTGTCCTCTGGATCAAAACCTTTCTTCTACTTGCTTTCCTAACAGCTCCCCACCCCTAGACTGATATGCTAAACCAGCATCA
Y
GTGTTTCCACGGCCAGGCTGGGAAGTTTTCCCTCTGAGTCACTTTCCCTTTCCTTCAACCATGCTGATTATTTTATTTTCTTGAATTCCTTATAAATTGG
Celera SNP ID:            hCV3138272
SNP Position Genomic:     35633
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30016):
GAGGCCGAGGCAGGTGGATCATGAGGTCAGGAGATCAAGACCATCCTGGCTAACATGGTGAAACCCCGTCTACGCTAAAAATACAAACAGTTAGCCGGGC
R
TGGTGGCGGGTGCCTGTACTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCGTGCCAC
Celera SNP ID:            hCV3138275
SNP Position Genomic:     26937
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30017):
AGAGAACTGAAACTCACCAGATCACTGCACCAGATGCCTCCTTGCCCCTCTGTAGTCCTTGTTTTCTTACACATTGTTACATTTCTTCCCTGGTAACATA
M
ACCCCTAGTTTTAGTCAGGGAGATAGATTTGAGGCTGAGCTCTCATCTCCTTGGCTGCAGCACCTGATTAAAGCCTTCTTCCTTGGCAATACTTGTCTTC
Celera SNP ID:            hCV26468315
SNP Position Genomic:     9613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30018):
GCAGTGGCTCACACCTGTAATCCCCACACTTTGGGAGGCCGAGGTGGGCGGATTGGCTGAGCTCAGGAGTTCGAGACCAGTCTGGGCAAACACGGTGAAA
Y
CCCATTTCTACTAAAAAAAAAAAAAAAAAAAAAAAAAGTTAGCTGGGTGTGGTGGCGTGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAA
Celera SNP ID:            hCV26468316
SNP Position Genomic:     18292
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30019):
GGGACCAAACAGTCTCTTTCCTCTTTTCCCACACCTCAAATCTCTGCCTTCCATTTCACACCCAGCACAAGTACCCCAAGGAGGAGCCCCATCCCCAAGG
K
CCCAAAGAGACTGGCCACTTTGCTCTTAGAGCCCACAGCCACAGTAGTCAGCTTGTCTACAGCAGTTCCTCGTGTATGACCATACAAATACATCACCTGA
Celera SNP ID:            hCV3138276
SNP Position Genomic:     26043
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,7|T,8)      total(G,7|T,8) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30020):
GGTACTCCTCCAGAGAAAATTTGCATTTGCTTCTGCTTGGGGCCTAGGGACACTACTACTGTGGGGTCCTTTTAAGGTAAATTTTCAGCCAAGATCGCCT
Y
AAGCCACAAATTGAATGCAAATTCTAGACTAAAACTTGTCTGAGTAGGGACTTTTGGTTAGAAATTGTCATGCAGAGACCTTGTCTGAAGTTTTTTCTTT
Celera SNP ID:            hCV3138277
SNP Position Genomic:     15521
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30021):
GATGGTTTCACCTCTGAGAAGTCAAGCATGTCAGGTTTTTTTGTTTTTTTGTTTTTTGTTTTTTGAGATGGAGTCTCACTCTGTTGTCCAGGCTGGAGTG
Y
GGTAGTGCAATCTGAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCCCGCGCCACC
Celera SNP ID:            hCV26468317
SNP Position Genomic:     23062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30022):
ACTACAGGTGCCCACCACACGCCCGGCTAATTTTTTTGTATTTTTAGTAGATATGGGGTTTCACCGTGTTAGCCAGGATGATCTCGATCTCCTGACCTCA
Y
GATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCTGGAAATTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTA
Celera SNP ID:            hCV26468318
SNP Position Genomic:     31239
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30023):
TTTTATTTTTTCAGACATGAAATTTTCTTATTTTAATAATCATACTAGCTATGAGTCTTTGTTGGTTTTATTCTGTAGTTTGATTTTTTTGTTGTTGTTG
R
TTTTCACTTCTGGTGGTTTATTTTTTCAAGTATTTAATGACTTTTGATTGTGAGCTCATGTTCCTCAGAACACTATTTATGGGAATTCTTTGAAGCCTAT
Celera SNP ID:            hCV3138278
SNP Position Genomic:     15312
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30024):
AGTAGATATGGGGTTTCACCGTGTTAGCCAGGATGATCTCGATCTCCTGACCTCACGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGT
S
AGCCACTGCGCCCGGCTGGAAATTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTAGCACTTATTCTGTACCAGGCCAGTGCCTAGTGCCTTATGTGGTTG
Celera SNP ID:            hCV26468319
SNP Position Genomic:     31284
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,7)   total(G,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30025):
ATTTGGGTATTAGAGGGGCATCTGGCTTCTGCAGGTGGGAGAAGAGAGGGACATTGGATTATATTCTTTTGCTCTTTAATGCATAAAGAACTATCTCTCC
Y
GGTACCTGTGTGTGGCTGGGTCTCCCAGGATGGCGCCTGAGAGGAATAACCAGAGGGAGAAGTGCATCCTCTCTCACTCCAGAAATGGAGGAGCAGAGCA
Celera SNP ID:            hCV3138279
SNP Position Genomic:     12605
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|C,8)      total(C,8|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30026):
TAGTTCCCTAACACTGAAGCCCACGTCCTTGGCCCTTGGAGAATTCCACCTGCCTTGGGCCGTAGTGGCAGGGGAGATGGAGAGGAGGGCACGGAATCTG
K
ATGTGCTCAGGAGGATGATACTACATACTGGGTATTGAGGTATCTGCCCCACAGAATGTGATGTCTCTGACGTCTGAGTGTTTTGTAAGAAAGGCATCCC
Celera SNP ID:            hCV12109082
SNP Position Genomic:     43150
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30027):
TAGATGGACTGGGCTGCTTTTCAGCAGGGACTGGTCGTAAGATGACATGAGACCAGCCCTGCCTGGGTCTGGCCTGAATCACAGTGCGCTCTGCCCAGCT
S
TGTATGAACTGGCCAAGCTGGGAACTGGTTTGTTTCAATCTAACTGCAACCTGTTCCCATTCCAGTATTTTAATTATGGCAATAAAGAAATGTGAACATA
Celera SNP ID:            hCV8375432
SNP Position Genomic:     32400
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|C,10)      total(G,5|C,10) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30028):
ATTTGGATCCACAGGACTCCCTAGCACATAGGTTACAATGCTGCTGGAGAAAATGTTCTTCCCGGGACTTCATTTGTTGATGGCTCCCTCTGCCAGCCAT
Y
AGGGAGTGGCAGGGCTGGGCAGGAGGCCCGCTTGGGTCTCCTCTGCTTTCTACCCCACCCTGGCCCAGCACCCTCCGGGGCATAGGGAAGCAGAAGAGGA
Celera SNP ID:            hCV8375433
SNP Position Genomic:     31819
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30029):
GGCAGGATTGTATAATAGGGTGAGTGCTGGCTTTGGAGTCAAACAGCCTGGGTCATCTTGGCTGTGCATTTTTTCACTGTGCGACTTGGGCAAGTTAACT
Y
CCCTGTGCTTCAGTTTAGGGGATAACACAAATTTCAACTTCACTGGATTGTTATGAGACAGATATATCTTCATCTATGAAGAATATACCTAGATCTGAGA
Celera SNP ID:            hCV952521
SNP Position Genomic:     100437
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30030):
GGAAAAAAATTTGAAAATATTGCAAAAGGAAAACTGAATTTTCCGTGTGCCGAGAACTACATTGAATCCATGAGAATGAGGTGATGCATAGCATTGTATT
Y
GGTATTATAAGTAATCTAGAGACTATTTAAAGAAGCGGTCTGGCACTAGAGACTAGTTTCGTGGATGACAATTTTTTCATGAACTTGGGGAGGGGATAGT
Celera SNP ID:            hCV952522
SNP Position Genomic:     97832
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30031):
GCATCCCGGAGTCTTTCTCTGGCTGTACCCCTTACCATTAAGTGGGATACAGTGGCTGCCTGGAGTTTGTCCTGCCTCTTCTAGATCACGTTGCAGGTAC
K
CAGGACTCTGGAGTTCCCTGCTCAGATAGTCTTGAGCCTGCTGACAAGACCAACATTGGGGGTTTCTTCCCAGGCTGTCTCTACTCAACCTGGGCCTGAA
Celera SNP ID:            hCV952525
SNP Position Genomic:     91674
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(T,5|G,18)   SC_12_C(T,10|G,13)   SC_12_AA(G,5|T,12)   SC_95_C(T,89|G,100)   total(G,136|T,116) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30032):
GCAGCGCTTCAGAGTGGAGAGCACCGCCCCGCTCCGACCCCGCCCCCGGCCCGGACTCGCCCTCCCCGCCCTTTGCTCCTCCCCTTGTCTCTCCCCTTTC
Y
CCTCCCCTTGTCCCTCCCCTTTCCCCTCCCCTTGTCCCTCCCCTCCCCTTCCCCTCCCCCGGGGTCCTCCTCCGCGCCACCCCACCCCCGCGGCTCCTTT
Celera SNP ID:            hCV8375294
SNP Position Genomic:     95296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON;MISSENSE MUTATION;SILENT MUTATION


Context             (SEQ ID NO:30033):
ACCCTGATTGCATTTCCCAAAGAGAGGGAGAAGAAAGGAAAAGATAAACTCAATCTCAGATATATTGTGTGTGAGGTACACTCTGTGGAACAGTTGGGTA
Y
GGAGGTCCAGCAGGTGGACATGGTTCTAAAGCTGGCGGGAGGGGTTGAGGCTGAAAATACAGATTTGAGGTAAAAAGCATAAGGGAAAGTTAAAACTAGG
Celera SNP ID:            hCV952526
SNP Position Genomic:     88175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30034):
GCTACAAAGCAGCAGTAATCAAGACAGTGTGGTACTGGCATAAAGATAGACAGATCAATGGAACAGAATTGGAAGTCCTGAAACAAACCCATGTGTCAAC
T
GATTTCCAACAAGATGCCAAGACTACTCAATGGAGAAAGACTAGCCTTTTCAACAAATGATGCTGTGACGACTGGATATCTACATGCCAAAGAATGAAGT
Celera SNP ID:            hCV11871701
SNP Position Genomic:     78862
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,14)   total(-,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30035):
ATCTGTTCATCGAAGTAGAAGATATTGTTGGCCACGTGGGATCGAAGACCAAAAACATGCAGCGTCTGAGCTACCACGGCTGACATGATCTCCCGCCAAA
S
AGTTCTGCTGAAGACCAAGGCAGCGCTTCAGAGTGGAGAGCACCGCCCCGCTCCGACCCCGCCCCCGGCCCGGACTCGCCCTCCCCGCCCTTTGCTCCTC
Celera SNP ID:            hCV8375295
SNP Position Genomic:     95176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:30036):
GATCCACATTGTACTTCACACAGTGATTTCCTGAAGGAAATATAATGATCTGTTCATCGAAGTAGAAGATATTGTTGGCCACGTGGGATCGAAGACCAAA
W
ACATGCAGCGTCTGAGCTACCACGGCTGACATGATCTCCCGCCAAACAGTTCTGCTGAAGACCAAGGCAGCGCTTCAGAGTGGAGAGCACCGCCCCGCTC
Celera SNP ID:            hCV8375296
SNP Position Genomic:     95129
SNP Source:               Applera
Population(Allele,Count): african american(A,34|T,4)   caucasian(A,28|T,12)   total(A,62|T,16)
SNP Type:                 UTR 5;INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 5;INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30037):
GGAAACTGGCCCAAGACTCCCACAGACTGTTCTTTTGGAGGAACATAGAAATTGATCCTTCTGCTGTTAAAGCTTGAAACTTGTATTAGTTTTATCTGAG
Y
TCCTTCCTCAGGAAAGGACCTTTAAAAAAAGTATCAGAGAACTGAAACTCACCAGATCACTGCACCAGATGCCTCCTTGCCCCTCTGTAGTCCTTGTTTT
Celera SNP ID:            hCV3138280
SNP Position Genomic:     9477
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30038):
CTTGGCTCACTGCAACCTCCGCCTCCGGGTTTAAGCAATTTTCTAGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCAATTGCCACCATGCCCAACTAA
T
TTTTTTTTTTTTTTTTTTGTATTTTTAGGAGAGACAGGGTTTCACCATGTTGTCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCTGCCCACCTCGC
Celera SNP ID:            hCV26468320
SNP Position Genomic:     36212
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30039):
ATTGGGAGGATGGAGGAATAATAATAGCTAAAGGGTATGCGCTTTTTTTTTTTTTGAGGTGATAAAAATGTCCTAAGGCTGTCTATGATAAATGGTTGCA
Y
AACTTTTTGAATATACTAAAGACCACTGAATTGTATACTTTGAATAGGCAATTTGTATGTGAATCATAACTCAATTAAGTTGTTATTAAAAAAAGGACCA
Celera SNP ID:            hCV11871704
SNP Position Genomic:     80358
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30040):
TGATAAAGGACTTATATCTAGAATTATAAATAACTGTTACAACTCAATAATAAAAAGACATATGACTCAATTTTTTAAATGGGCAAAAAATCTGAATAGA
Y
ATTTCTTCAAAGAAGAATTAGAAATTCTTGAAAAGACGTTCATCATTAATCACCAGGTAAATGCAAATCAAAACCACAATGAGATACCACTTCTTACCCA
Celera SNP ID:            hCV952529
SNP Position Genomic:     79340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30041):
CGATTCTCCTGCCTCAGCCTCCAGAGTAGCTTGGATTACAGGCATGTGCCACCACTCCTGGCTAATTTTTATATTTTTGGTAGAGATGGGGTTTCACCAT
R
TTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCTGGCCTCA
Celera SNP ID:            hCV26468321
SNP Position Genomic:     41942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30042):
GAGGCAGGAGAATCTCTTGAACCCAGGAGGGGGAGGTTGCAGTGAGCCGAGATTGAACCATTGCACTCCATCCTGGGTGACAAGAGCAAAACTCTATCTC
A
AAAAAAAAAAAAAAGTGGGCTAAGGACATGAATAGACATTTCTCAAAAGAAGACATACAAATGGCCAACAGGTATATGAAAAAATGCTCAACATCACTAA
Celera SNP ID:            hCV26468322
SNP Position Genomic:     54015
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30043):
AATGTGGAGAAGAGAGAACTCTTATACACTGTTGGTGGGAAGGTAAATTAGTACAACCACTATGGAAAACAGTATGTAGACTTCTAAAAAAAACTAAAAA
Y
AGAACTACCATACAATCCTGCAATCTCATTACTGGATACTTTTCTAAAGGAAAGGAAATCAGCAGATTGAAAGGATACCTGCGCTCCACCCCACCCCCCC
Celera SNP ID:            hCV26468323
SNP Position Genomic:     54315
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30044):
GAGACTGGCCTCACAGTATGATCTTAATTTTATTTAAAACACACACACATGGAAATGTAGAAGGAAATGCATCAAAGAAATGATGATACCATTATGAGGA
T
TTTTTTTTTTTTTTTTGGAGACAGAATCTTGCTCTGTTGCCCAGGCTGGAGTGTAGTGGTGCGATCTCGGCTCACTGAAACCTCCGCCTCCCAGGTTCAA
Celera SNP ID:            hCV26468324
SNP Position Genomic:     56327
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30045):
TACTGTTATCCCTAGTCTATGGATGACGGACCATCTGTGTGAAAGGCATTTGCTTCATCTCATGTACCTGGGTGGGCTCCAGTCTCTGCTTTGACTGCTA
Y
GCATGGGTGCATTTCAAAATGAGAATGGGCTATTGCTCATAAATGCATTCAGCAAGCATTTATTAATGCTCATTACATAAGCAAAACCATACATTAGTCT
Celera SNP ID:            hCV26468325
SNP Position Genomic:     58617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30046):
CTCTGATGGCCAGTGATGATGAGCATTTTTTCATGCCTACACACACATTTATTGAATGCTGTGCACCACACAATGTGCCAGCTAGTAGGGCTGCCAAGAG
R
AGCAAAAGATGGCCCTGCCCTAAAGGGGCTTTATTCTGGCACAGCACTGATAGCTGCCATTGAATTAGGACCAGGCTACTCGGGGGTACACAGGAGAGTC
Celera SNP ID:            hCV26468326
SNP Position Genomic:     59942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30047):
AAGAATACAGTGGCAAGCCTAGGTGAGAGCAGCTCACTGCACAGTCATGCATCGCTTGATATGGGATACATGGTTAGGCTATTTTGTCACGCAAACATCA
Y
GGAGTGTATTTACACAAACCTAGCTGCGACAGCCTACTATACACCTAGGCTATGTGGTAGAGCCTACTGCTCCGAGGCTACAAACCTGAACAGCATGTGA
Celera SNP ID:            hCV26468327
SNP Position Genomic:     60371
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30048):
CTTTATTTTCAGTCTTTCATCGGCTCCTCTTCTTTCACCAGTCTCTTAAATGTTGGTCTTCCCTCTGCTGTCCAATATTCTTCTCAGATTCTACATAGGC
Y
CTTGGTGATCTAATCTATGCCTCTGACTTCCTCTACTTTCTAATTCCCCGAATCTTCATACTCAGCCCTGACTTCTCTCCTGACCTCCACACACATACAT
Celera SNP ID:            hCV26468328
SNP Position Genomic:     66735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30049):
CAAAGCAATAGAGAAAAATCAATGAAACCGAAAGCTGATTCTTTAAAGAGATAAAAAAAAATGGGGGGAGGAGGAAAATCATATTAATACAATCAGAAAT
G
AAGGAGGGAATATTACTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTTTGTCACCCATGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAG
Celera SNP ID:            hCV26468329
SNP Position Genomic:     76294
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30050):
ATGTATAAAATCATCCATGTTCTTTAGTTTCTAGTGGAAGGCTTTTATAAGTTCTGAACAGAAATAGTACATTATATATTGTTGTTTGGAGAGGTGGATG
R
AAGTGGAACTGTTTGAGTGGTGTTTGTTTCTAGTGTGAGTCACTTGAATCAATAGTTTGTGTTGGTTTTAGATCTTTTCCTTTAATGAAGAAGAACTGTG
Celera SNP ID:            hCV15970874
SNP Position Genomic:     20843
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30051):
TATAGAAAAATTGGGAAATAGGTCAAATTTGAGTAGCTGGCTGGATAGCCAGAAGCCTAGCCCCTTATGTGGAAACAAGCATCTTTTCCCAGTGTGGAAA
R
TCCATCTACTTTTCCATGTGTTTTTCATCACACTCAGAGATTCTCAATGGGGCTCAGGCAGGAGGGTAGAAAGCATTTTGCACCCCCCAGGGGACCTCTG
Celera SNP ID:            hCV8364519
SNP Position Genomic:     37948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30052):
GTTACTTAAGGGTGTATGTTCACTGTCTGAACCCTCAAGGCCAGGCAGTTAGTCAAGGCCATGGTGCCCAGCTGTGGAGCAGGTGTCCCTGAGAATCCAA
R
CATCCTAGAAGATATCTGAAAACCTACTAAGGAAAACAGTCCCATGGCACATACACAGTAGGTGAAGAGCCAGAAAATTAGCTTAAAAGCAGCTTAGCGA
Celera SNP ID:            hCV8375441
SNP Position Genomic:     27540
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30053):
CTGTAGAGGGCCCCAGTGCTGGACCTGCATCTGAATGCAGTCTGGTAAGTAATTCCATATCCCTCTTCATTAGATCCAGTTCTTACCTTTTCTTCCATGT
Y
TGTTTTAGTCACAAGCACCTCTTCGGCAAAGCCCACCTCCCTCTCTCGCTTGATTCCCCGGCCATCCTTATCAAAGACCTTCCAGGTGAACAGGCAGCCA
Celera SNP ID:            hCV25930625
SNP Position Genomic:     52516
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,37|T,1)   total(C,71|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:30054):
TACCAGAAAAGGCAGTTGCAGGCCAAATCTACATAAAATGGACCTGTGCCAGGAACAAACTGTGCTTCTACTTGGGACATTATCTCACGAGTGGTGGCTA
Y
GGAGTCAGAGCCCAGAGAACAGGATGGTCTTAAGCACTGTTCTCCCTGAGCTGTGACAAACGGTCCTCTGCTGTGGGGAGGTACCTGTGGAGCCCAGAAG
Celera SNP ID:            hCV8375442
SNP Position Genomic:     26379
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30055):
GGATACAAAAATCCTCAACAAAATACTAGTAAATTGAATATACTAATATGAAAATGATTATATACTATGGCCAAGTGGATTTTATCCCAAGAATGCAAGG
R
TGGTTTAACATCTGAAAATCACTTAGTATAATATACTATATTAATAAAGTAAAAAACGAAAACTCACACAATAATTTCAATAGACACAGGAAAAAAAAAA
Celera SNP ID:            hCV952530
SNP Position Genomic:     77109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30056):
CAGAAAAAGAGGGTCTGATAGGTTTACATAGCCCTGTCCAAGAGGAAAGAAACCACATGTCAGGGGATGCTATGTGGTCTCCTACCAACTGAACATCCTT
Y
AATCACAGCTCTTATCCCAATGTACACCTGCTCCTCTACTTACAATGGGATCATGTCCTGATAAACCCATCATAAGGTGAAAACACCATAAGTTGAAAAT
Celera SNP ID:            hCV952531
SNP Position Genomic:     84729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30057):
CCATTATGCTGGTCTCCCAACGCTGATCTCCAGATTCAAAGAGGAAGAGTTTGCCTGTGTCAGTGCCAACGACAATCTTGTCATCAGCCACCCAGGTGTG
R
GCTAGATAGTTTTGGGGTTCTCCCCTCTGAAAGCTGGTTTGCTTCAGGGTTCCCTCAGCAAAACGGAGAAGCTTAAACATCCCATTTCCAGTGACACACA
Celera SNP ID:            hCV952532
SNP Position Genomic:     84193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:30058):
CCAGAGAACAGGATGGTCTTAAGCACTGTTCTCCCTGAGCTGTGACAAACGGTCCTCTGCTGTGGGGAGGTACCTGTGGAGCCCAGAAGGGAGCAGGGGT
Y
GGGCTAGAGACACCGCAATGATTCTTTTCCTCCAGAAATGCTTCATCTAAAGCACAGATCTACACCTTTAGACTTCCAGTATATTACTTAATTTCAGTAT
Celera SNP ID:            hCV15969183
SNP Position Genomic:     26491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30059):
TTCTGCATAATGCTGTCAGTACAATGAATGTGGGAGCACCAGCCCAGGAAGCACCATTACCTCTCTGATTCCTGAATGACATCCAGGCTCTTTGAGCCAT
Y
GGTAGGTTCCTTGACCATTATGCTGGTCTCCCAACGCTGATCTCCAGATTCAAAGAGGAAGAGTTTGCCTGTGTCAGTGCCAACGACAATCTTGTCATCA
Celera SNP ID:            hCV952533
SNP Position Genomic:     84078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:30060):
AAAGAATTGTATTTAGTCTATGGTTATAACTGTTAAATCTGTGCTTAAATATAGACGAAAACTAGAGAGGAAGAGGGAAAATGGGCATAGTTGACTTTTA
Y
GGTAGAGGGGTTATGAGTGGTTTCTAAAGAGTGCTGTCTTCTGCATAATGCTGTCAGTACAATGAATGTGGGAGCACCAGCCCAGGAAGCACCATTACCT
Celera SNP ID:            hCV952534
SNP Position Genomic:     83939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30061):
GACTGGTGGAAATTCAATCAGGCTGGAAACAAAAAAACAGCATACATAATTTATAGAGACAATCTTGAGGAGATGAATTCTGCTGGGGAGGAGAAAGAAG
R
CTGTCACTGGGTGTGACAGAAACCACCCAATGATCCCCTTTTCCACAGTCAAATACTACCCTTTGGCTTGGGAACCGTACACAAACTGCACATGGCCAAG
Celera SNP ID:            hCV952535
SNP Position Genomic:     82845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30062):
AAGAAAATAGAAATTCTAGAGTTAAAAACTACAATAACTGAAATGAAAAATCCACTAGAGGTGCTCAAGAATAGATCTGAACTGGCAGAAGAATTAGTGA
W
CTTTATAGATCAAAAAAGATTAGCAATTTGAAGAACAGAGAGGAAAAAGAATTAGAAATTTACAGAGCCTCAGAAAAATGTGGGACACCATTAAGCACAC
Celera SNP ID:            hCV952536
SNP Position Genomic:     73228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30063):
ACAGATTCTGGCAAGAATGTGGAGAAGAGAGAACTCTTATACACTGTTGGTGGGAAGGTAAATTAGTACAACCACTATGGAAAACAGTATGTAGACTTCT
M
AAAAAAACTAAAAACAGAACTACCATACAATCCTGCAATCTCATTACTGGATACTTTTCTAAAGGAAAGGAAATCAGCAGATTGAAAGGATACCTGCGCT
Celera SNP ID:            hCV1948209
SNP Position Genomic:     54300
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30064):
CTTCTCCATCTGTTACGCTTTCTTTCTCCAATATCTTCAACCTGCCTGTCTCTATGAGCACATTCCTATTAGCTTTTACACACTCAAATCTCTCTTGTCT
W
AAAAACAAAAGCAATGCTCTCTCTTCCCCCTCTGCCTGAGGAGTCATGCAATGATGGGGAATCACACAAGTGGGCTTACCGGTTTCACTGCAAATGCATG
Celera SNP ID:            hCV952537
SNP Position Genomic:     71659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30065):
CAAAAAAAAGAAAAAAAAGTTGACCTCATGGAAGTAGAGAGTGGCATGATAGATACTAGGGAAGAGTGTATGGGTTGGTGGGGTGCTAAAGAGAGATTGG
Y
TAACAGATACAAACATTAGATAGAAGAAATCAGTTTTCTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTGAGATAGAGTCTGCTATGTTGCCCAGGCTA
Celera SNP ID:            hCV8375379
SNP Position Genomic:     54913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30066):
CTGCAAGCACCAGGACCTTGACCAAACTCCTGGTGTTTCAGCAATATATTTTGTTTCCTTGACCGGGAATGTCTTGCTCATGGCAGCTCGGTTGCTGTGG
K
CTGGGAGTCTCAGAAGCCCTCCTAAGCAGCTGCCCACCTAATTTTGGCTGGAGGTGAATTTCCGTCTCTCTCTGGCCCTGCCACAGCCAGCCCCAACTTT
Celera SNP ID:            hCV27900596
SNP Position Genomic:     16824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30067):
AAAGCAATAGAGAAAAATCAATGAAACCGAAAGCTGATTCTTTAAAGAGATAAAAAAAAATGGGGGGAGGAGGAAAATCATATTAATACAATCAGAAATG
A
AGGAGGGAATATTACTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTTTGTCACCCATGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAGC
Celera SNP ID:            hCV26468330
SNP Position Genomic:     76295
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30068):
CCAACTGAAAGCTTCTAAATAATTAAAGTTTGGAACACTGTAATTAAAATAATTCACATAAATTCACAACTGGGGTCTTGCATAATAAAGTAGGCAAGCC
Y
TTCATTCCTTACTTTGTTTCATAATTCCAAAGGCGGATGGATCGATCCAGAGAACAGGTGGCTATAAGGGGTTTGCGGATGCAGGTAGCTAGACCGGTGA
Celera SNP ID:            hCV952538
SNP Position Genomic:     70211
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30069):
GCAGCCTCCTGGACAGGGTCAATCCCAGGAGAGTCCCTCTGCGACAGGGGGACCATGTGGTCAGTGCGGCAAGTGAGCTGTCCCCAGCCCATGGGGAAGC
R
CCTCCAAGGATGCCTGGAGCAGTGGAGTCAGCTGACTCGGTTCTTATTGCAGCCTGTCACCTATTGAAGTGTGTGACCCTGGGCAAGATACCCAGCCTCT
Celera SNP ID:            hCV27900597
SNP Position Genomic:     43361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30070):
AAGCAATAGAGAAAAATCAATGAAACCGAAAGCTGATTCTTTAAAGAGATAAAAAAAAATGGGGGGAGGAGGAAAATCATATTAATACAATCAGAAATGA
A
GGAGGGAATATTACTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTTTGTCACCCATGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAGCC
Celera SNP ID:            hCV26468331
SNP Position Genomic:     76296
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30071):
GGGTGGTTGAGATAGTGATGTCCTGGGAGAAAGATGAGGAAGAAAGGGTCTGGAGAGCTCCCTGAAGCAAAGAGCAGTTCCTGTGGGAAACAAGGGGATA
R
GAGAGCTGGAGGGACCCAGGAGTTTATGTAAGAAGGTGAGAGACTGAGGTGTTGTCTTCATCTCTTCATGTCCCCAGTGTCTAGCATGTGGTAAGCATTA
Celera SNP ID:            hCV952539
SNP Position Genomic:     69928
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30072):
CAGCTATTCAGGAGGTTAAGGTGGGGAGGATGGCTTGAGCCCAGGAGTTTGAGACTGCTGTGAGCTATGATTGTGCCAGTGCACTCCAGCCTGGGCAACA
G
AGTGAGACCTGGTTTCTTAAAAAATAAATAAATAAAATAAAATAAAATAAAAAACTGGAAGGATGGAGTTGAGATGGTTTGGAGTTCCAGAAGGAGATAA
Celera SNP ID:            hCV11871714
SNP Position Genomic:     92370
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,6)   total(G,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30073):
ATTTTATTTTATTTCGCTCCTTTCTTTCTCAATTTTTACTTCTGTTCCTCCCTATGATAAGTAGGCACCAACAAAAGGATTTCATGTATGTCACTGACTA
Y
ATACATATGTGTTTTATATTTCTATAAATGATATTGTGCTTCAGATCTCTTTCTGTACTTTTACTTTTTTCTCAACACGAAATTTTTAAGGAATCATCTA
Celera SNP ID:            hCV27900598
SNP Position Genomic:     72116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30074):
ATGGTGGCGGGCGCCTGTAGCTCCAGCTACTCGGGAGTCTGAGGCAGGAGAATGGCATGAACCCGGTAGGCGGAGCTTGCAGTGAGCCAAGATTGCGCCA
Y
TGCCCTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGAGACTGGATGCTTTCTCCCTAAGATTAGGAACAAGACAA
Celera SNP ID:            hCV26468332
SNP Position Genomic:     77590
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30075):
ACTTCAGTGGTAACTCAAACTCAAGAAACAAATGAAAAGAACCAGAAATGATAGTAAAGGTTAACATAAAAAGACTATAAATATATAATTGCTCCCCATT
Y
TAACCTCAGCTTCTTTAAAATATATAAAATTATATAAGGTAATAATTATAAGAATATGTCATTGGGGTTTGTAACACTCATAGATGTAATATATATAACA
Celera SNP ID:            hCV27900599
SNP Position Genomic:     74155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30076):
TGAGGCAGGAGAATGGCATGAACCCGGTAGGCGGAGCTTGCAGTGAGCCAAGATTGCGCCACTGCCCTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTC
A
AAAAAAAAAAAAAAAAAAAAAGAGACTGGATGCTTTCTCCCTAAGATTAGGAACAAGACAAGGATCTGCACTCATCACTGATATTTGACATGATACTAGA
Celera SNP ID:            hCV26468333
SNP Position Genomic:     77629
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,9)   total(A,3|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30077):
CCAAAAGAAAATGACTAGGGCAGGCACCTTGGAGGATGAGGTGGGAGGAGAAGTCAGGGAAACCTTCCTGAAGGAGGGCAGGGGGTGAGGTGAGATGGGG
R
CTGGGTGGTAGATAGCAGGAAGAGCTTGAGCCACGGGGTGGATGTGACAAAGGGTACAGCATAGTGCGGGAACTGCAAGCAGTGGGTGTTGCTGGAGCAT
Celera SNP ID:            hCV15909376
SNP Position Genomic:     86923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30078):
TTTCCCCATAACCTAGCTCTTCCAACCCTAACCAACGAGGCCTCTACTTGTGGGCTCACCCATGTCCTGCAGTTCCCGGCTTTGCTTGTCTAGGAGGTCT
Y
CTATGTGCTCATGGTGATAAACATCCTGCTTCTCTTTTTCTGTTCTTAAGACCTAAAACAGAGTCACATTTCCTCATTTACACACATCTGCTGAAAGCAC
Celera SNP ID:            hCV25923770
SNP Position Genomic:     46494
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:30079):
GTCTAAAATATATATATAAATATATATTTCTATCTGTGCTCATGAAAAAGACTAGCTTATTTTTTTTTCTTGTGGTGTCTTTGACAGATTTTGGTATCAC
R
ATTATTTTGGCCTCATAGAACATAACTGGAAAGTATTCCTTCTTTTTCCAATTCTCTAGAAGAGTTTTTTTCAAGATTAGTGATAGTGTTATTTTTTTTT
Celera SNP ID:            hCV16215401
SNP Position Genomic:     64532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30080):
AGGCGGAGCTTGCAGTGAGCCAAGATTGCGCCACTGCCCTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGAGACT
R
GATGCTTTCTCCCTAAGATTAGGAACAAGACAAGGATCTGCACTCATCACTGATATTTGACATGATACTAGAGGTTCTAGCCATGGCAACTAGGCAAGGA
Celera SNP ID:            hCV26468334
SNP Position Genomic:     77657
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30081):
AGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGAGACTGGATGCTTTCTCCCTAAGATTAGGAACAAGACAAGGATCTGC
W
CTCATCACTGATATTTGACATGATACTAGAGGTTCTAGCCATGGCAACTAGGCAAGGAAAATAAGTAACAGGCATTCACAGATTGGAAAGGAAGACTAAA
Celera SNP ID:            hCV26468335
SNP Position Genomic:     77699
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,13)   total(A,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30082):
TAGAAGAAATACAGAGGTAAATCTTCATGGCCTCAGGCATTGGCTTCTTAAATATAACATGGAAAGCACAACCAACAAAAGAAAAATAGATAAATTCAAT
Y
TCATCAAAATTGAAAACTTCATCAAAAGACAACATCAAAAAAGTGAAAAGACAACCCACAGAATGGGACATAGTATTTGCAAATCACATATCTGATAAAG
Celera SNP ID:            hCV26468336
SNP Position Genomic:     79147
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30083):
TCTCCTACCAACTGAACATCCTTCAATCACAGCTCTTATCCCAATGTACACCTGCTCCTCTACTTACAATGGGATCATGTCCTGATAAACCCATCATAAG
K
TGAAAACACCATAAGTTGAAAATGGGCAAAGCCATGTGGCCACACAGCACCACACTGTAGAGTATCTTGGTTGTTACCCTAGTGATTGAGCGGCTGACCG
Celera SNP ID:            hCV26468337
SNP Position Genomic:     84806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30084):
AACTTGAGGGGCTGTGACTTTTTCATCTGTTTTCCCAGTGCTGGATTCATCATGGGCATCCAATAAATGGTTGCTGAATCTACTAGTCAGAGCAGGAGGT
S
CTTCATCAGGCCTCACTGTGGCCTGGTTGAAATACCCTTCTGGTTCTACCTGCCTTTGGTCTGATTCTGGAATAATCACCCAGCAGCCTTCTGATTACTA
Celera SNP ID:            hCV26468338
SNP Position Genomic:     85188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30085):
TCTGCACTCAGAATAAGCCTAGGAGTAGAGAGAGCGGCTTCTTTTGACTAAGAATAGCTAGGAGATTCTTCCTGTTTGAGAGAAGAGCTCTTTGGTCCAC
R
GTCACGATCCAAAATCCACTTTATGGGCTAATTTGAAATATTCATGTTAAAACTTTTTGTGCATGCTTCAGTTATTAGGAAAACAAACAAACAAACATTG
Celera SNP ID:            hCV26468339
SNP Position Genomic:     96616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:30086):
GTTTACAGTGTCTTCATCATACTTGGATTCAAACGGTGATATAATGAAGGTGGTGTGCTCAGGAAAACTGTTAGACAACTCAAAAAGTGGCTCTGGTGAT
R
ACAAAGGCAGTGATATTGAAGACACCAAAAGAGGGGTTCTTAACATATTTTCATGAAATTACAGTGAAAAAAGTACTTTTAAATTAACATTTTATATGTG
Celera SNP ID:            hCV8375303
SNP Position Genomic:     94712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30087):
TGAATATCATTAACAGGACCACTGTGAACAAAAATAAGGGCTGTAATGCTATACAAATGGTTATTTGCGACTTGGGATAAAGTTTACAGTGTCTTCATCA
Y
ACTTGGATTCAAACGGTGATATAATGAAGGTGGTGTGCTCAGGAAAACTGTTAGACAACTCAAAAAGTGGCTCTGGTGATGACAAAGGCAGTGATATTGA
Celera SNP ID:            hCV8375304
SNP Position Genomic:     94631
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30088):
AAGGAGGTAGGAGGGATCCTGCTGGAATCACTCCCAAGGTGCAAGTGTATTCCCTGCTGAGCATCAAGGCCACGGTTGGCCCCTGTTACTGCCAGAGAAG
R
TGAATGGTCCCCCCAGGTGTGCTGGTGGGGAAAGTAAGCTGACCATTAGCAAACAACGGACCCGACCTGAAATGCAGCTGACAAATGTGTCAAATGAGGA
Celera SNP ID:            hCV8364527
SNP Position Genomic:     38651
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,12)      total(G,2|A,12) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30089):
GCTATATGTATCGAGATGTGTGAATCTCAAAAGCATGACATTGAACTGATGCAGCAAGACACAGAATACAGGGAGAAGCACTAGAACTGGTAATATTCTG
Y
TTCCTATGCTGGGTGGCTGGGTTCACAGATCTACATTCTATTGTAATTCTTTAAATATGACATATATGTAGGGTACATTCTTTTGTATGTATATGTCACA
Celera SNP ID:            hCV1239056
SNP Position Genomic:     94375
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30090):
TGAGCCTTTATTCCAGCCTATTGCTCAGCCTCTTAAGGAACCAGCTAACTTACTTTCGGGTAGACTCAGCACCATTCACATCCACCCATGCTTGTTGCAA
Y
GTCAACAGCAACAACAATGCTTTTCCATGCACTTTTTATATGAGTTTAAATGCATCATAATAACCCTATGGCTATTATTATATCACAATTATTGGCTATT
Celera SNP ID:            hCV8375450
SNP Position Genomic:     24941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30091):
GCAAAAATAGTACAAGGTTCCTGTGTACCTTTCAGCCACTTTTCCCCATCATAAGCTTATGTGACCATGGGACAAGAGACAACTGACACTTCAGAGACCC
M
ATCCATAGCTATGGGATGTTTCAGTTCAAGCCTCTAATCTTTATTCCTTAATGTAAACCACCAGAAAACAAAAACTTGAACCATGTTGGCTTAATTTGCC
Celera SNP ID:            hCV8375451
SNP Position Genomic:     23632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30092):
GGAAAGACTCACCTTGCTGATCTCTGTCAGGGACATGGTGATGCTGTAGAGTTGGTTCTTACTGGTGCTGGCAACCAGAGTTTCCTCTGAGGGGCTGAAG
S
ACAGGCAGAGAACGTCCTGTTTGTCAGACTGACTTGGATCATTGCTCTGCGGGTCCACAGGAATCTGCCCAAGATGCAAAACAGCTATCAGTAATGTCCC
Celera SNP ID:            hCV1239058
SNP Position Genomic:     81145
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30093):
GGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTAGTCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCCCTCCC
Y
GCACCCCACAACAGGCCCCGGTGTGTGATGTTCCCTTTCCTGTGTCCAAGTGTTCTCATTGTTCAATTCTCACCTATGAGTGAGAACATGCGGTGTTTGG
Celera SNP ID:            hCV16107020
SNP Position Genomic:     88772
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30094):
AGTGTCCAGATGGATGAAGGCTGATGGAATATGCCTCTTCTTGGTATTCCTTAAATAGTTCCAGGGTGCTGTGAAAAAGATCAATTACTGAATTGTAAGC
Y
TAGCTCACTAAATCCTTCCAGTCATCTACTGTATCTGATATATATTGTTATCATCGTATTTGAGACACACTACTGTTTGCAATTGTTGGTTCCTCTCTTT
Celera SNP ID:            hCV952540
SNP Position Genomic:     69468
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30095):
CCCGGTGTGTGATGTTCCCTTTCCTGTGTCCAAGTGTTCTCATTGTTCAATTCTCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGCGA
Y
AGTTTGCTCAGAATGATGGTTTCCAGCTTCATCTGTATCCCTATAAAGGGCATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGT
Celera SNP ID:            hCV16107021
SNP Position Genomic:     88889
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30096):
CCTCTCCGCATCCTCTAACAGAGTATTCTTTGAAAGAACGTATATCATCAATGAGTAGATTCATGAGGCGTAGTTTGTCAGCAAACCCTACTACAATGAA
R
TGTCCAGATGGATGAAGGCTGATGGAATATGCCTCTTCTTGGTATTCCTTAAATAGTTCCAGGGTGCTGTGAAAAAGATCAATTACTGAATTGTAAGCTT
Celera SNP ID:            hCV952541
SNP Position Genomic:     69369
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30097):
AGGCAGCGCTTCAGAGTGGAGAGCACCGCCCCGCTCCGACCCCGCCCCCGGCCCGGACTCGCCCTCCCCGCCCTTTGCTCCTCCCCTTGTCTCTCCCCTT
K
CTCCTCCCCTTGTCCCTCCCCTTTCCCCTCCCCTTGTCCCTCCCCTCCCCTTCCCCTCCCCCGGGGTCCTCCTCCGCGCCACCCCACCCCCGCGGCTCCT
Celera SNP ID:            hCV16168932
SNP Position Genomic:     95294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 5;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:30098):
AGATTACTTTTCTTTTAAAATATTTGTTAATATTCCACAATTACAGACAGGACTTATCATAGCGGGGATCTCACAAGGTTTTAGGTTCAATGAAATAGTC
K
GGTGGACATAAGAATATGGGGATGGAACCATATACTCAATAAGGTTGCTGGGAAAATAACTGGATTTCCTCCTTCCCCCTTTTTTTAAGCCACTGTAGTT
Celera SNP ID:            hCV952542
SNP Position Genomic:     69061
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30099):
GTGGAGAGCACCGCCCCGCTCCGACCCCGCCCCCGGCCCGGACTCGCCCTCCCCGCCCTTTGCTCCTCCCCTTGTCTCTCCCCTTTCTCCTCCCCTTGTC
Y
CTCCCCTTTCCCCTCCCCTTGTCCCTCCCCTCCCCTTCCCCTCCCCCGGGGTCCTCCTCCGCGCCACCCCACCCCCGCGGCTCCTTTTTCTGCCTTTTCC
Celera SNP ID:            hCV16168933
SNP Position Genomic:     95309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON;SILENT MUTATION;MISSENSE MUTATION


Context             (SEQ ID NO:30100):
CATTACTTTCTTGCTTAAATCCTTTCCGTTGTTTCTCGTCACCTAGAGACTAAAGTCCAATTCCTTGGCATGGCATACACTACCTTCTGCGATGCAGCCA
R
CCTTTCCTACTCCCTCTATCATTGCTCAAATGTGTCCAGTGTTCCAGCCATATGAACCAATGAGCACTGTCCTATTTCATACCTCCATTTCATCATCTCC
Celera SNP ID:            hCV952544
SNP Position Genomic:     67133
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;SC_12_A(G,3|A,21)   SC_12_AA(G,0|A,23)   total(G,3|A,44)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30101):
CGGCTGACATGATCTCCCGCCAAACAGTTCTGCTGAAGACCAAGGCAGCGCTTCAGAGTGGAGAGCACCGCCCCGCTCCGACCCCGCCCCCGGCCCGGAC
W
CGCCCTCCCCGCCCTTTGCTCCTCCCCTTGTCTCTCCCCTTTCTCCTCCCCTTGTCCCTCCCCTTTCCCCTCCCCTTGTCCCTCCCCTCCCCTTCCCCTC
Celera SNP ID:            hCV16168935
SNP Position Genomic:     95252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 5;INTRON;SILENT MUTATION;MISSENSE MUTATION


Context             (SEQ ID NO:30102):
AGAGATTGTGCAATTGGAAGAACAGAGAGAAACACTAATCAAGAAAAATTAACATTAACAGAGTTTCAGAGAAATGTGGGCATCCATTAAATGCACCCAC
R
TATGGTACTGTAATGAGAGCACTAGGAGAAGAGAGAAAAACAACAAATATTCAAATAAATAATGCTGAAAAATCTCAAATTTGTTGAAAAACATTAACCT
Celera SNP ID:            hCV952545
SNP Position Genomic:     63945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30103):
TGTAACTAATAAGCAGCTTAGGCAACTCATGGGCAACCCTAGGTAGCCAGGCTAAAAGAAAAGATGAAAAATAGATCTGAGTAGTGATATGAGACACTGC
W
CACTACAGGGGAAACAGACTTTACAGAATTAGCTCAGCCAAGTCACGAAACAGATAATCAGCCAACCAACCAACAACAATGCCCTGGGGGGACACATATT
Celera SNP ID:            hCV952546
SNP Position Genomic:     63339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30104):
GGTATGTGGAGAAGGGAGGTGGGCATTGGGTGGGGTGGAGGCCAGGGTGCAGCATGGAAGTGCCTAGAAAACCTCCTAGGTGAGCTCTCAGCCACAGTCA
S
AGCCAAGACGAGCTCAGAGGAGAGGAGCCAAAATAAGACTTTAGGGGGAGCTACTGGGCCCCCAGACACCTGGGGAGCCCTGAAGACAGGTGGTCTCAGA
Celera SNP ID:            hCV25968711
SNP Position Genomic:     33120
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|G,1)   total(C,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:30105):
TTTGCTTATAGAGTGAAAGTTCCAAGCCATGAAGGGCAAGCCAAAAAGACCAGGGGCTTACATACGTGCACACACACATACACACGCATGTGCACACACA
Y
GCACACACCTCAAGTGTCACTCACAGAAGTGAGGATGTTACTCCTGGAAAAGCAGGTCCCCGCCCCAGCTCTGGTGCAGTGGAGCAAAGGTTCTGTCTGT
Celera SNP ID:            hCV952547
SNP Position Genomic:     62443
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30106):
TACTGAGAATAACTGTGCCCTAATGATTCCTGACCCAGTTTGCTTATAGAGTGAAAGTTCCAAGCCATGAAGGGCAAGCCAAAAAGACCAGGGGCTTACA
Y
ACGTGCACACACACATACACACGCATGTGCACACACACGCACACACCTCAAGTGTCACTCACAGAAGTGAGGATGTTACTCCTGGAAAAGCAGGTCCCCG
Celera SNP ID:            hCV952548
SNP Position Genomic:     62405
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30107):
CGATGGGGCCACAGGTCACGAGTATGGCAGACATAGCACCTCCACCGGCGCAGCCATAGAGTCCAGAGAGTGCAGCTGCTGCCTGGGGCCAGGACCCCTA
K
GACTGTGTGATGGGCCCTTTTAGCCATGTCAGTCTTTGAAGAGTAAAAGAAGGCACTTTTTAAACTTCTTTTTTTTTTGGACAGTCTCATTCTGTCACTC
Celera SNP ID:            hCV11871723
SNP Position Genomic:     101236
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30108):
CCCCTATGACTGTGTGATGGGCCCTTTTAGCCATGTCAGTCTTTGAAGAGTAAAAGAAGGCACTTTTTAAACTTCTTTTTTTTTTGGACAGTCTCATTCT
R
TCACTCAGGCTACAGTGCACTGGTACAGTCTTGGCTCACTGCAACCTCTGCCACCTGGGCTCAAGTAATTCTGTGCCTCAGCCTCCTGAGTAGCTGGAAC
Celera SNP ID:            hCV26468340
SNP Position Genomic:     101330
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30109):
TACTCAATCCCAGTAAGAACAGAGTCTGCTGCATTTAAGCCATGACTCGCTCTGTTACGGCCTCAGCTCCAGAAACTTCACTGCTGTGCACTCTGGGCAG
R
TGTGGCCAAGATAAGCGACTCCCTCTCCCCATAGCTCCTGATCTTGGGCTATGGTTTCGGTCTGGAAAGGGAAACTGCTGGGATTTCTTATTCTTACCCC
Celera SNP ID:            hCV952549
SNP Position Genomic:     62092
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30110):
GATGGGGCCACAGGTCACGAGTATGGCAGACATAGCACCTCCACCGGCGCAGCCATAGAGTCCAGAGAGTGCAGCTGCTGCCTGGGGCCAGGACCCCTAT
S
ACTGTGTGATGGGCCCTTTTAGCCATGTCAGTCTTTGAAGAGTAAAAGAAGGCACTTTTTAAACTTCTTTTTTTTTTGGACAGTCTCATTCTGTCACTCA
Celera SNP ID:            hCV11871724
SNP Position Genomic:     101237
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30111):
GGGCCTGGTACTCATTGAATTCCTTCTGCAGAGGCAGAGGGTACTTCATGGCACGAATGGTTCCCACCGAGGTGCCCACAAACATCATGCGTCCAGAATG
Y
GAGATGACAATGGCGGTGTAGGTGACATCAAACGCCGATATCTCTCGAAGGATCTGAGACACAGGCAGCTCTGCTCAGTGTGAGGGGTCGAGCTGTGGCC
Celera SNP ID:            hCV16015900
SNP Position Genomic:     58124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:30112):
TACGCAGTTGTGGAGGTCTGTTTTAAACCTTTTGACCAGCGCTTCCAAGTCTCGCTCCTGCAATCAGAGACATTTCCTTCTGGTGCTGTAGGGTGCTCTC
R
GTGGAGGGGCGGGGGCTGCAGGCAGAGGTTAATGGCACAGAAAGGGAAAAGAGATGCCTCATCTGGGACTTACAGCTGACTGCCAGGGGCCACACTGGGC
Celera SNP ID:            hCV27517675
SNP Position Genomic:     33695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30113):
ATTCCCATGGGCTGGGCATGCACGCCTGCTGAGCAACTTGCTGCATCTCTCCTTGGCGTGTTGTGAAGCAGCAGCATGAGGGCCCAACACATGGGGACCC
R
TCACATCACTCTCTAGCTCATCCTCCCTTGCCTCACTCACGCTCCCTGCCCTGGGCCTGTATCCACCATCCACTTATCCACTAGACACAGTGCCCAGGAC
Celera SNP ID:            hCV12109107
SNP Position Genomic:     87402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30114):
AGGCTGGAGTGCAATGGCTCAATCTCGGCTCACCACAACCACCACCTCCCAGGTTCAGGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCAGGGATTACAG
K
CATGTGCCACCATGCCTGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCAACTTCAGGTGATCCGC
Celera SNP ID:            hCV12109108
SNP Position Genomic:     87835
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30115):
CATGTGCCATGTTGGTGTGCTGCACCCATTAACTAGTCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCCCTCCCCGCACCCCACAACAGGCCC
Y
GGTGTGTGATGTTCCCTTTCCTGTGTCCAAGTGTTCTCATTGTTCAATTCTCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGCGACAG
Celera SNP ID:            hCV12109109
SNP Position Genomic:     88791
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30116):
TCTTAAAATACAATGGTGCTGATCAAAACTACTTCTTCACTTACAGGCTTCTCTGATAAACTGGATTTCCTTGAGGGAGATCAGAAACCTCTGGCACAGC
R
CAAGAAGGCAGGAGCCAAAGGCCAGCAGATGAGGAAGGGGTGAGAAGGGTTTTGGCATGGTTTCTTTGGTTCTGTGAGGTGCGATGGGGCCACAGGTCAC
Celera SNP ID:            hCV8375240
SNP Position Genomic:     101054
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:30117):
ATATCACAGGTGCAAACGGAGGTTCTTCAGAAGAGGCAGCAGGAGAAAGCCCATATGATGAATGCTATTAAGAAATATCAGAAAGGTTGGTACATCTCTA
M
TAGGGGAACGAGGGTAGCAGGTACTTTAGAGTTGATTTGAACACTTAGTGCTTTGGAGCCTTCTTGGTTGATGTGGACCTGTCGGATCAAAGTTTTGGGA
Celera SNP ID:            hCV8375241
SNP Position Genomic:     100775
SNP Source:               Applera
Population(Allele,Count): african american(A,34|C,2)   caucasian(A,19|C,9)   total(A,53|C,11)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,30)   caucasian(A,20|C,4)   total(A,50|C,4)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30118):
CATATCACAGGTGCAAACGGAGGTTCTTCAGAAGAGGCAGCAGGAGAAAGCCCATATGATGAATGCTATTAAGAAATATCAGAAAGGTTGGTACATCTCT
R
ATAGGGGAACGAGGGTAGCAGGTACTTTAGAGTTGATTTGAACACTTAGTGCTTTGGAGCCTTCTTGGTTGATGTGGACCTGTCGGATCAAAGTTTTGGG
Celera SNP ID:            hCV8375242
SNP Position Genomic:     100774
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,5)   caucasian(A,16|G,8)   total(A,49|G,13)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,19|G,3)   total(A,51|G,5)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30119):
GAAGAAAAGTTTCCAGGAAAGCACAGAGTGGTATTTGGGGACTCAGGGCCAAGAAGAATATCCTGAGTGTGAAAAATAAGTATTAGGACTCCTGCTTTAT
R
GCAAAGTGAGGCTCGGTAAGGTTAGGTGACTCCCCAGAGCACCTGGCAAGTACGTGGTGAGCCTGGGACCCAAGGCAAGACTATCAGGTTCCAAACTTGA
Celera SNP ID:            hCV15933083
SNP Position Genomic:     46125
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30120):
CAGTGGTGTGATCATGGCTTATTGCAGCCTTGACCTCCTGGGCCCAAGTGATCCTCCCACCGCAGCCTCCCAAGTAACTGGGACCACAGGTGTGTGCCAC
M
ACACCTGGCTAATATTTTTTACTTTTTGTAGAAACAGGGTCTCCTTATGTTGCCCAGGCTAGTCTCGAACTCCTGAGTGCAAGCGATCCTCCTACATCAG
Celera SNP ID:            hCV1239062
SNP Position Genomic:     67566
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30121):
TGAACGAGCAAAGCCATCGAGATGTGAAACCTCAGGGTTTTGTGAGGAACAGTAAGCCCTTGGTGTCACTGGGAATACAGTGCAAAGCAAGGAGGGGTGC
R
ATGTGTTTGGGGGGACCTGGGCTGTGGGTTTGCCTTGTTGAGGAGCTTGGGCTTTGTCAGAAGGCAGTGGAGAGACTAGGTTGTAGGTTGTACTAACAGT
Celera SNP ID:            hCV3138231
SNP Position Genomic:     102188
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   SG_12_A(G,5|A,18)   SG_12_G(G,10|A,13)   SG_12_AA(A,5|G,18)   SG_95_G(G,87|A,102)   total(G,120|A,138) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30122):
CCAAAGTGCTGGGATTATAGGTGTGAACCACTGCACCCATCCTAAGAAGGTACTTTTAAGTATGTGGCACCCTTTAAGTGAATGCTGAGTAAAGTTGATT
Y
CCCATCACACAGTGCGATGGTTGAGAGTTCAGACCTAGGGTTCAGATCCCGACTCTACCACTCAGTAGGAGGGCAGTTTTGAACGAGTTACCATGCCTTT
Celera SNP ID:            hCV3138232
SNP Position Genomic:     101651
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30123):
TTCAGCAGCCGCGGTTCCTGAATATAGGCTACGCAGTTGTGGAGGTCTGTTTTAAACCTTTTGACCAGCGCTTCCAAGTCTCGCTCCTGCAATCAGAGAC
R
TTTCCTTCTGGTGCTGTAGGGTGCTCTCGGTGGAGGGGCGGGGGCTGCAGGCAGAGGTTAATGGCACAGAAAGGGAAAAGAGATGCCTCATCTGGGACTT
Celera SNP ID:            hCV16027921
SNP Position Genomic:     33666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30124):
AAGATGACAGATTTTAAAGTTAGGATTGTGGGAAGAAATGAATGTGAGGAAGATTGGCGTGGGTGTTAAGACTTCGTCAACATTTGGACATAAGCACTTG
K
GATCTGGGCTGCAGAACTCTTGTCCACGTTTGGAGTCATTTCACTGATACATTCTCAGCAAAGTAGGAATAGGCTGGGATCCTGTCCTCTACAAAAGGCC
Celera SNP ID:            hCV3138236
SNP Position Genomic:     99671
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,7|G,8)      total(G,8|T,7) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30125):
TTTTCTTGGTTTTCCTTTTTTATTTCATGGTCATCTAAGAAAGAAGATGACAGATTTTAAAGTTAGGATTGTGGGAAGAAATGAATGTGAGGAAGATTGG
Y
GTGGGTGTTAAGACTTCGTCAACATTTGGACATAAGCACTTGGGATCTGGGCTGCAGAACTCTTGTCCACGTTTGGAGTCATTTCACTGATACATTCTCA
Celera SNP ID:            hCV3138237
SNP Position Genomic:     99628
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,7|C,8)      total(C,8|T,7) ;no_pop(T,-|C,-)   ;(T,-|C,-)   Caucasian(C,25|T,57)   African-American(C,7|T,77)   Asians(T,82)   total(C,32|T,216)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30126):
TTTTTCAAAACAGAATTCTAGACTTCAGAATCCCCAGGAATCTGTGCCTGTTTTCCCCTCTTCCCCAAAAGCTTTCCAGGTGATTCTGAAATGCATCCTG
R
TTTGGGATTCACTGATCTATGTGATAATCACGTACCTGAAGAAATTATCATAATGATTGTCATCCAATCTGAAAGATTGCCTGCGTGTTTGAACTATGAA
Celera SNP ID:            hCV3138238
SNP Position Genomic:     99383
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30127):
TCTTTCCTGGGCTACAAATAGGCAGTTTGTATAATGAAACAGACAGCACACTGGGAGCGGGAAGGTGACTTTCAATCTCTGGCTTCACTCTGGCACTTTT
R
GTAAAGTGCTCAGCCTGTGGGCCCCATTGTCCTCAGGGGTTGGAACTGATGATTTATAAGTTCCGCAGTTTAAAGAACAGGGAATATCTGTTCCCTGCTC
Celera SNP ID:            hCV3138239
SNP Position Genomic:     98723
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(A,11|G,25)   total(A,15|G,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:30128):
TATAGATATACCATCTTTTGCTTATGCATTCGTCTGTCGATGGATGCTTGGTTGCTTCCACATTTTGACTGTTGAACATAGATACTACTTTATGAGAAGG
R
TGAATGGAAGGACAATTTACAAATGTGTACTCATGGTATTGCCCCTGGGGTGGCCTTTTGTACCCTCAGGGAGAGGTAGGGGCCAATCTTCAGGGCTATG
Celera SNP ID:            hCV952553
SNP Position Genomic:     57549
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30129):
TTGAAATGCTCCCAACACACAGAAATCATAAATACGCGAGATGGATGGAAACCCTAAATATCCTGACCTGATCATTACATGCTCTATGACTGTAACAAAA
Y
ATCACAGGTACTTCATAATATGTACAAATACTACGTATCAATAAAAAAGCCATTTTCAGAAGGCCACATACAGTATAATTCCATATACAGTTCTCAAAAT
Celera SNP ID:            hCV952555
SNP Position Genomic:     55463
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30130):
AGACAGGCAGAGTCGGGTGGACAGTGGCAATGAGGAGGAGAGCTTGGTTGTGGGGACAGCAGATGTGCAGGGAGCCGTGGGGGTCTGCACTGGGCATAGG
R
TGTAGCCAGGCTGTAGAGGGCCCCAGTGCTGGACCTGCATCTGAATGCAGTCTGGTAAGTAATTCCATATCCCTCTTCATTAGATCCAGTTCTTACCTTT
Celera SNP ID:            hCV952556
SNP Position Genomic:     52405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30131):
GGTCATGTCACAGGGCCCACAACTGTCTTTTCACGTGTGCATCCCCAGTGCCTAGCAAATGGTAGGTGTTCAATAAACACACTTAAGATTCTGGACAAAC
R
GCAATGACTGTGTAGCTTTGCGATCCTCCATGAGCCTTGTGTGTTTATCATCCATTCAGCTTCTCCCTTAGGAAGCGTAACACAGAGCTATGCACTCATA
Celera SNP ID:            hCV952557
SNP Position Genomic:     51783
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30132):
GGGATACATGTAGCCTGTTTTTAGACAGAGCCATATTCCCTGAGACTTCTACTGTGTCTGGGGGACTCTTGAGTGTTTCCCCATAACCTAGCTCTTCCAA
Y
CCTAACCAACGAGGCCTCTACTTGTGGGCTCACCCATGTCCTGCAGTTCCCGGCTTTGCTTGTCTAGGAGGTCTTCTATGTGCTCATGGTGATAAACATC
Celera SNP ID:            hCV25931668
SNP Position Genomic:     46419
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:30133):
GCAGTGTTGTATTGCTGCTCTGATGGCTTTACTTGTTTCTATCCCTCACTTGACTGTAAGCTTCCTGGTCATGTCACAGGGCCCACAACTGTCTTTTCAC
R
TGTGCATCCCCAGTGCCTAGCAAATGGTAGGTGTTCAATAAACACACTTAAGATTCTGGACAAACAGCAATGACTGTGTAGCTTTGCGATCCTCCATGAG
Celera SNP ID:            hCV952558
SNP Position Genomic:     51717
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30134):
GTAAAGTGCTCAGCCTGTGGGCCCCATTGTCCTCAGGGGTTGGAACTGATGATTTATAAGTTCCGCAGTTTAAAGAACAGGGAATATCTGTTCCCTGCTC
Y
AGCGAATCCTAAGTAGTGGTCATTCCAGATTCAAATGACATGAACTGACAGCATTTTGTGTTGTAGATTCGACAGAAGCTGCAGACTAAACAGGCTGCCA
Celera SNP ID:            hCV25962335
SNP Position Genomic:     98824
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,37)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:30135):
TGTCCCTTCTGCAGCAGGTCAGGCCCCCACTCTCACGGGCCCCTCCCTCATCCTCTTCTCCCTCTTTGCTTTTCCTGCAGAAAATTCTAGGGAGCTCTGG
R
AGGGATCTCCAGCGAATGCCAGGGGCTTGTCACCGTGCTTTGTGGCAGTGTTGTATTGCTGCTCTGATGGCTTTACTTGTTTCTATCCCTCACTTGACTG
Celera SNP ID:            hCV952559
SNP Position Genomic:     51572
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30136):
CCTGGGGCAGAAGGCAAGCTGCTATGTGACCAGATGTGGTATGTCTTTTTCTGTAGAAGAGACCTGGAAAACGAACAAGAGAGAAGATGAAGAACAGAAC
M
CACTAAATAGCATCTTTGAATACAAAGAACCAAGAAAAAGGAATGAAGACTCGCAATTTCACGACACACTTTGATCCCTTCTGTTGGTGTCATGTTGTAA
Celera SNP ID:            hCV12109110
SNP Position Genomic:     103470
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;(C,-|A,-)   TSC_42_A(C,0|A,84)   TSC_42_C(C,0|A,84)   TSC_42_AA(C,0|A,84)   total(A,252)    
SNP Type:                 SILENT MUTATION;UTR 3


Context             (SEQ ID NO:30137):
TGGGGCAGAAGGCAAGCTGCTATGTGACCAGATGTGGTATGTCTTTTTCTGTAGAAGAGACCTGGAAAACGAACAAGAGAGAAGATGAAGAACAGAACAC
M
CTAAATAGCATCTTTGAATACAAAGAACCAAGAAAAAGGAATGAAGACTCGCAATTTCACGACACACTTTGATCCCTTCTGTTGGTGTCATGTTGTAAAC
Celera SNP ID:            hCV12109111
SNP Position Genomic:     103472
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION;UTR 3


Context             (SEQ ID NO:30138):
ATGAAGACTCGCAATTTCACGACACACTTTGATCCCTTCTGTTGGTGTCATGTTGTAAACATTTCTTTCAATAAACTAAAGAAAAATTATTAAAGGAACA
M
ATACCTTTGGTTAAATAGTCTAGACTAAAAGATTGAGAAGTTACTTTCCATTGCTATCTATTGATAATTTAGACATTGAGTTCAAATTGCCTTCATTTTA
Celera SNP ID:            hCV12109112
SNP Position Genomic:     103613
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:30139):
GACACACTTTGATCCCTTCTGTTGGTGTCATGTTGTAAACATTTCTTTCAATAAACTAAAGAAAAATTATTAAAGGAACACATACCTTTGGTTAAATAGT
Y
TAGACTAAAAGATTGAGAAGTTACTTTCCATTGCTATCTATTGATAATTTAGACATTGAGTTCAAATTGCCTTCATTTTATGATAAATAATGATTTAACT
Celera SNP ID:            hCV12109113
SNP Position Genomic:     103633
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,33|T,1)   total(C,63|T,5)
SNP Type:                 UTR 3

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:30140):
AATCTCCAAGATAGTAATATGAAGACCCTGGCTATATCACATGGCATCCTGAGGAGGTCTCAAATGAATATTTGTTAGGATACTTGGATATATTTAAAAC
T
TTTTTTTTTTTTTTTGAGACAGGGTCTTGCTCTGTCACCTAGACTGGAGTGTAGTGGCGTGATCATGGCTCACAGCAGCCTTGAACCTCTGAGGTTCAGG
Celera SNP ID:            hCV11871668
SNP Position Genomic:     22586
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,12)   total(T,12|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30141):
AGACAGATATATCTTCATCTATGAAGAATATACCTAGATCTGAGAATATACTTAGAGTCCCTAACACAGTTTTTGGCACGTAGTAAATGTCAGAGGGTAG
Y
GGTATTAATCATGGTGTTGCTATTAAGACAATGTAGACACTGGAGTAATGGTATGGAATGGCTGTAACGGTCCTTGTGTTCATATCACAGGTGCAAACGG
Celera SNP ID:            hCV8375250
SNP Position Genomic:     100593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 126
Celera Gene:                 hCG2031865 - 30000023461306
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(38994651..39022903)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12286):
TCATGTCTATCTACCTCTTCATTTGACAAAGGGTTCCTAATTATCTCCCATGTGGCAGACACAGTGCTAGGTACCCAGAGGTTTGTCCTTAGATGCTCCC
CTTTTCATTCCACATCTCAGGGGCTCTTGTTCATTCTGATGGCTTCAATTCTGAAATCCATAACTCCAGCCCAGACTTTGTTTCCTGAGCTTCTAGCTCA
TATATGTAACTGCTTCCTGGACATTCCCATTTCTCATAGGTAACCTCAAAGTTGATTTGTTCAAAAATTACTTCATGGCTGGGTGCTGTGGCTTATGCCT
GTAATCCCAGCATTTTGGGAGGCTGAAGTGGGAGGATTTCTTGAGCCCAAGAGTTCAAGAAATTTCAAGACAGCTTCTTTCAATTTCTGTAGCTATCCAG
TTGCAGACTGGTGAAATTTGCAAACCATTGTTAACCACAGACCACACTTTGAGTAGCACCAAAGAGAGGCAACAGAACAGAATGTACATATGTGGTCCTT
AGAGCAGGACAGCAGAAGGCAGAAAAAGAAGATTCTTTTAAGCAAACAGGTAATAATGACATCATCAGTAACTACAGTTACTGATGTAGTTCTCTACTAA
GTTCTCTGTACTCAATCAGTTCTCTGTACTAAGATATGGGTAACCCGGGGCAGTGCAAGTGCAGAGGAGGCACCTAGGCCAGCCTGGGTATCAGGGAAGG
CATAAGACAGGTAGGAGTTGGGTGGGGGAAGCATTAGTGACGAGTGGGAAGGACACTCCAGGCAGAGAAACAAGTTCTGGAGTCATTCTGCAGCATATGG
GTTAGAAGATGACCTTTCCTGTGATTTGATGGCTACTTGTCTCTGCGCATCAGCATTAGTTTCCATGTGTATAAAATGGATATGATAATCCTTTCTTTGA
ATCACAAAAAGATAAAGCATGAGATGTACCTGTTATAATGCCTGGTGCTTGCTAATATTGCTGTTCTGTGTGTAAAAGATACAGGAGTCAGAGCTGCCAC
AGACAGCGAGTTACAGCACTTTGCAGGGGACAGCTCATGGACCCAGGACTGGAGCCCAGAATGACAAGGGTTCTGGAAGGTAACAGGGAAAATGGCAGTG
GGGTGGGCAGCATGCCTGCCCCTGAGTCATTCCCAGGCCTAGGTGTGTGTCTACAGGATGGACTGTCAGGGGAGGATAGGGTGCATTGTAAGGTTGGGGG
AGGAGGCAGGACCTCAGGGCAAACTCCTCTGACCTACAAGGCCCAGGCATTCCAGATGTCCACGCAAAAATTGGCTCCAAATTAAAAGGCTGAAAGGTGG
GGCTGGCTCTGTCCTATTTTGATATGCTTTGAGGCATTCGATAAAGATGTTAATGGGATCATTCATAAATCAGGAAACTAATCCTCTGAGGTGCTGGTTG
CTAATGAAGCGAGAATCAGGAAGATTAAATCACAGATTTCAAAATCTCAGGCTGGAATTTAATCCCAGACCTTGAGTCCAGACTTCATCTCAAACAGATG
GCATGGTTCGAAACATATCCCGACTGCAGTAGTCACTTGGAAATGAGTTCCCAGTAGTCCTTGCAGTTCAACCAAATACTACTTCTGGGAATGGGGCATG
GAAATGGGACGTCGGGGTGCAGCAAAGGCTTCCTGGAGGTGACCCCAAGGGAGAGTGGCCTATAGTAGACACTCATTAAATATTGGTAAAACAAATGGAG
TTAGTAGATGAAGAAAAGGGGGAAGAGCATTCCAGGCAGAGATAATACAGGGCCACCTGGCAGGGTCAAGAAGACTTGGGGCCCCTTGGCATATTAAAGT
GGGCGGTGGTAGCAGTCTGTCCACATGCAGGCTAGAAGGGGTGCATATCTATAAAGAGCTTAACAATAATAGATCCAACTAAAAGTTGGTCTGCCTTTTA
TTATTGCTGTGTGCCAGTGATTTTTAAATACTGTTGAAATACTCCTCTCCTAAAAAATCTTTTGTTGGTTTAAGTTCTAAATAATTGCTGTAGATACTGA
ATTTTATTTGTACATGTAAACTTCACACTAACACATTTTTATTAGCGATCCTTTAATAAATATTGCATTCTATGTGGAAGTTCATTTGGAGAATGCTTGG
TTATATAGTCACACCAATACCCATCTTTGGAGCTCACTTTAGGCAAGGGTCACATCTCCTACCCCTGTGGTATTAGACACATCCAAGTTTACACTGTAGA
TTCAGAATAAACAATCATGAGTTACTGTCAGTGATGACAAAGACAAACAGGGCTTGACTTTTTTCAATTCTGTCATTCTATGTAACCAGTTGGACTTTTG
TGTTAAAACAGTGGGACAGGCCAGGCGCGGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGCGGATCATGAGGTCAGGAGATCGAGA
CCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTACAAATACACACACAAAAAAAAATTAGCCAAGAGTGGTGGCAGGCGCCTGTAGTCACAGCTACT
TGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCTAGCCTGGGCAATGGAGCGAGAC
TCTGTGTCAAAAAAAAAAAAAAAAAAAAACCAAAACAAAAAAAAAACAAAAACCAGTGGGACAGAGTGCAAACTGAGAGGCAAAACATTTTTGTTTGTTA
AGTGCAAATTTTTAATTTGTACATGAAATATGTTACTGAATTTGAATAAAAATTTACCTTTGAAATGAAAACCTATTCCTTTATACTTGTTAATGGTTTT
AAAATGAAAGATGAATAAAGGAAATAAATGTTATAGCCTAAGTATTATTGCCTAAATTGTATCTTATTTAGATGCTTTGGTTTTATTAAAATTTGCTTGT
TGGTTGCTGGATGACCATTTACATAAGGGAGTATATCAGATTGTAAAGAAAGGATCAAAATTTAAACAGGTAGATGTGAAAATGATTGAAATAAATAGTT
GTGCCTTTTTCATTTTTTGGAGCCATAATATTAATTTTATGTATTTATTTTATGATGTGAGTATGCATACAAATTTTGGCAAATAAATTTTTCACTTTTG
CCTTTCCTTTTTCTGGCCATTATTATGATTTGTTTCATTTTATGATGATTTGAAAATATGAAATTTGAATTATGGAAATAATTTTATTTTTAGAGGAGGG
GGGTATAAAAATGATCTGCTCTGTGTGTCAAACATGATCCATTCTACAAATATTTCCTAAATGCCATGTTGGGAGAAACACTAGGTATGTGGGAACTGAA
AGAGGCATCAAATGGGAGTCAGAGATGGCCCCAGGAGGAGGTGATCCTGGAGTTGAGAGCTGAGCCATTGTTAGCCATAGAATCATAGCCACCATTTCTC
AAGGGCCTGCTCTCAGCCCCACTCCATACTAGTAGTTGGGGACCCTAAGATACATAAGAGCCTTCTTACCCCACTTGTTATGATAGAGCAAATGTCCCTG
CTCTCACTAAAGGCCCACTTGTCTATTGGTACTCCAGATCCTGTCCTTTCTTGATTCATCCATGACTTTGCTCTTATAATAGAGCCCTCTGTTTCTATAT
CAGTTTCTCCTTTGGTGCATCCCCATCAGCCTATAACATGCCCTCCCTTAACTGCCACCTCATTTTTCTGCTCTCATTCGTAGCAAAACTTCTTGTTTAG
AGTTTAGAGATAATGTCCCACTCCATCAACTCCTCTTCCCTTGGCAGCCCAGTCCAATCAGGCTTCCTTCCTACTGCACTTGGTTTTGTCAGAGTCACCA
GTGACCTCCGTCTTGCCAAATCCAGTAGTCACTTACCTGTTTATTTCAACCTCTCAGGTTCTTTGGATGACTTTGCTGTTCTGCTGGGCCTTAAATGTAG
GAGTCCCCAGGCTCTGTCCTCTGTCCTGTTGTCAAACTATCTCCAGTGTTGATAGCATCCACTCTAATGGCCTTCTAACTACCATCTCTATGCTGACAAC
ACCCAAGTTTACATTTACAGCCCTGACCTTCTCTGAGCATAATTAATAGACATCTCAAAATCAGTGTCTAAAATGGAATTCTTGTTTCAGTTGCCTCCAA
ATCTGCTCCTCTTCCTATCTTTCCATATACCAAGTGGCACGATCATCATGCAGTTGCTCAAGCCAATAATCTAGGAGCCTTTTTGATTCCTCTTTCCCTC
CCTCCCTACCCCCTTCTGATCCATTACAAATTCTGTTTTTCATTCTTTTTTTTTAGAGATGGGATCTCACTATGTTGCCAAGGTTGGAGTGCACTGGCCA
TTCACAGGTGTAGTAATCCCATTACCAATCAGCATAGGAGTTTTGACCTACTCTATTTCTGACCTGGGCCAGTTCATCCCTCCTTAGGCAACCTGGTGGT
GCCCCACTCCTGGGAGCTCACCATACTGATGCTGAACTTAGTGTGGACACCCAATCAGCACAGCACACTGCAGCCCAGACCTCCTGGGCTCAAGTGGTCT
CCCGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGGGCACCACCTCCATGACCAAACACTGACATCTCTTTCTTGGACAGCTCCTTTTTTATTTATTT
TATTTTATTTTATTTTATTTATTTTATTTTATTTTATTTTATATTTTATTTTATTTTATTTTTTGAGACGGAATTTTGCTCTTGTTGCCCAGGCTGGAGT
GCAATGGCGCGATCTCGACACACTGGAACCTCCACCACCCGGATTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACGCGCCA
CCACGCCTGGCTAATTTTTTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCGCCTCAG
CCTCCCAAAGTGCTGGCGTTGCAGGCGTGAACCACTGCGCCCAGCCTCATCTCCTTTAGATTTCTAACTGGTGTCTCTGCACCCCTCTGGCCCTTTATAA
TCCATAAGGAGCCAAATGGTTTATTTTAAAAACATATATCAGATCACATCAAATTCCTGTTTAAAAGCATCAGTGGCTTCCCGCCACACTTAGAATAAAA
TCCAAATTCCTTTCTATGGTCTTCAAGGCCCTATCCCTCTGTCCTCGTGTCACTGTCCATGTGGTATCACCGTGGTCACCTTGCCTTCAATTTCCTTCTA
GCACCGTTGGGCTCTTTTTTGCCTTAGAGCCCTTCAATCTTCCTATGGCTGGCTCCTTTCAGGCATTTCATTTTCAGCTCACATTTCTGTTTTGGTTTTC
CATAGCACTCACCACCACCTAAAATTATAATAGTTAACAACTTTATTACTCATTTCTTGTCTTCCCGTATAAGATGGAAATTGACAGCAAGGACTTTGTT
CTGTCCTGTTTACTATTTTACCCCTAGTTCAGAGATCAGTGCCCAACACACACGGGGCACTCAGTAAACACTGCGGAATAAACAGGTTGTGCCATGAAGC
TCCCAGTCTTCAGTTCGTACAGACAAGGGACAGAGGTGCACAGACTGTAGCAGAAAAGCTCCAGCCCTTCCAAAGCTTATGGCAAGATCCCGACCTGAGA
GAGTGCTGGTGGAGGCTCTCCTATCGGTAGAGGCCCTACACCCAACCTTGCCTCTCTCTCCAGCCTCGCCTCTCTCTCCAGCCTCCTCCTGGCTGGAGTT
GGAGACCTGGGTGTCCTCAGTCCCCACTTGGGTGAAACAGTTGCTCAGACTGAGGGGTGGAATGGGTCGGTTGGGTGGGCGGACCAAATTCCTTTAAGAA
GCGTTCAAGGCCTGAAGTGGCTGGCTGTCCGTGAGGCTGCCTTGGTTGGGGCATGGTGAGGGTGGGTGGCAGCCTGGGGCAGGGCTGCGAGGGCGGCGCA
GGGCGGGACGGGTGGGGCCTGACCCCGCCCCTTGGCGCAGCTGTAAATAGGTAAATAGAAGGTGATTGTGGCGTGGCGATGTACCGATACCCGCCTGCGA
CGCCGTGGTGGCTGGTTCCCTGTCTCTTCAGTAGAGAGTCTAGACCCCACCCAGTCTTCATGTACGGCCGACCGCAGGCTGAGATGGAACAGGAGGCTGG
GGAGCTGAGCCGGTGGCAGGCGGCGCACCAGGCTGCCCAGGTGAGTCAGGTGCCAGCCCCTGGCAGGCCGGGCGGGCCCAGGCTAGGGGGCGGCGGGGAG
GGGAGGCCTTGGAGGAGAGGTGAGGCGGAGGGAAGCAGAAACCCGAGGGGTAGAAATCCGAGGGGAGGGGTGGCAAAGGAAGGAATGGGAGATTGGGGAG
GGGTTGCAAAGGGAGGGATGGGAGATTGGGGAGGGGTTGCAAAGGGAGGGATGGGAGACTGGGGAGGGATTGGAAAGGGAGGGTTGTGAGATTGAGGGTG
TAAATCATACGTCGTTTATTCCAACAATGTTCGCCCAGCAGTAGAGCTTGTGTTGGCCGCGTGGCGGGTAAGAGGGTTCTAGGCAACTTTCTGGTGAGGG
ACTTGAGTAGGCAGGACAGCAAAGACCAAGTTAGGAAGTGAGCAGGAAACAACAGGAAAAAAAAAAAAAACCCCAAAAATGTTAATTGGAGCCCTACTAA
GTGGTAGGCTTTTCCCAGACCCTGGAAATACAATGATGAATTTACCATGAAACAGATATATATAAAATTGTATGAATAAATCGTTAACTGAATGATTGGA
ATTGTACAGCGTTACATGAAGAAGAAGTCAGGGGCGCGTGGGAGCAGATACCAGAGGTGTTTGACCCGATTTGGGAGGCTTAGGAGACAGCTGAGACTCT
GTTCTGGGACTAAAGAACCCGTCAGGTGAAAGGTTCCCAGGTCTGAGACCACAGGCTGCATGCTTCCTCTTAGGAGGAACTGAAAGACCAGGGCCTAGAC
AGTGATGGAAGGGTGGCCCCAGGGACACCATTGAGATCATTCAGGGCTTGTTTATTCCAAGAACAGTGGGAAGCCATTGATGAGTTTAAACATAATCTGT
CTCAATTAGATTTGCATTTTCAAAGGAGTGCCCTGGTGGATGTGGGCTGGATTCAAGGCAACAGTTAGAAAGCTTTTGTGATAATCCAGGTGAGARTTCA
AATGGCGGCCTACCTGCAGAAGTGAGAGTGGAGATGGAGAAGCTAAATATATCATAGATTGTGGAGATGTTTTGGAGGCAGAGACCACAATCATTGGTCC
CCGGGTGGTGAGGGAGACATCTAGAGTAACAGATTTCTTGCTTGCACAATTGGGTGACAATAGTGACATTTTCTGAGAGAGAGTGAAGGATGAGAWGGAC
AAGATTAATTTGTTGTTTGAGGGAGGTGGGCAAAGATGCTAGTGAATTTTGGCCATAGTCCATTAGAAGAGCATGTGGGCCATCCGAAAGGACTCAAACA
ATAGGTAGCTGGAAAATTCAGGAGCCATCTTCGCCAGAGCGAAGATTCCAGATTTAGGAATAGTTGGACTGTAAACAGAAACAAAACCACTGGCATGGGG
AAGCTTGCCCAGAGAGAGCAGGGAAAGGGAAATCTGCAAAAGAAACTGTGAAGGAGGGGGTCTGAGAGAAGGGAAGGAGAAAAACTTGGAAAGTGTGGCC
ATGCGTGTTAGAGAGGCCAAGCATTCTAAGAAGGGTGTGGCCAGTGGTCGTATAAGCTCCTGAGAGTTCAAGCGAGGAGTCTGGAAAGTGCTGCTTGGTC
ATAGTGGGATGGAAGTCATCAGTGGTGACCTTTATGAAAGCTGGTTCTGTGGAGAGATAGAGGCCAGAGCAAATTTGGGAGACTCATAAGGCAAAGTAGT
GGTGAAGGCATGTTTAGACAACTTAATTTGCCATGAAGGACTGGGAAAACAAGAGGGCCATTGCTGAGAGTTAGGGAGGAGAGGCTGAGCACCCCAGAGG
TGCCCACCCAATAGTCATTTACCTAGTTCCTATTATATGTCTGTCTTATGCTAGTTGCTGAGCATATAGTGGTAAATAAAACAGATAAGGCTGGGCATGG
TGGCTCACACCTGTAGTCCCAGCAGCCCAGGAGGCTGAAGCAGAAGGCTCGTTTGAGCTCAGGAGTTTTAGGCTGTGGTCCACAACGATCACACCTGGGC
ATAGCCACTGCACTTCAGCCTGGGCAACATRGTGAGATCCTGTCTCTAAAATTAATTAAATAAAAAATAAAACAAGATCTTCCCAACTCTTCTAGAGTTT
TTTTTAAAAAATGAACATTTTTCTCTATAGCCAAAACCACATAATCAAACGTATCAAAATTGTATATATATATACACTTTCTTTTGAGACAGGSTCTTGG
TGCTGTTGTCCAGGCTGGGGTGCAGTGGCACCATCTCAGCTCACTGAAACCTCCGCTTCCCAGGTTCAAGCAATTCTCGTGCCTCAGCCTCCCAAGTAGC
TGGGATTACAGGCGTGTGCCACTCCACCCAGCTAATTTTTTGTAATTTTAGTAGCGGGATTTTGCTATGTTTGTCAGGCTGGTCTCAATCTTCTGCCCTC
AAATGATCTACCCGCCTCAGCCTCCCAAAGAGGTGGGATTACAGGCATGAGCCGCCACGCCCAGCCGATAATTCCTTTAAATTATCTTAGATGCAAGCCT
TATTCAAATGCYCCTAGCTATTCCTAAAATGTACTTCGTAGCTGGTACGTCCAAACCAGAATTTAAGACCATACACTGTATCTGGTGATTATGTCCCTTG
AGTCTCTGAAATTAGAATAGTTTTATTTTTTCATGATTGGGATTCAGTTTTTCATGATGCTAACTTTTGTCTTATAGAATGTTCCTTTCCGATATATCAG
ATTGCTTCCTCATGATAACATTTAGCTTTATCTTCTATCACTTGTATTACCTTTAAGTTATGATTAGATCTTACAGCTTAACTGGATTCAAGATTTTTGG
CAAGAATGCCTCATGTGTATGGTAGGTTTCATCTTGCATTACATCAGGAGACACATCTGGCTACCATTTGGTGATACTTGTATTAAGGTAGYGAAAAGCC
TCATTGATCTCTCTGTAGAAATTTACCTTGTGGTCAGAAAGTAATCTGTGTGATTCTGCCTTTTGTGTATCCAGTGTCCAGTTCCCTACCAGCCATTCAC
CTACTGGTTTTAACACCAAATTTAAATTTTTCCTCAATTAAATTTCCTTAGGGATGGCAAAATAAATTTCCTTTTCCTTTATGTCTTTTCCTTTTTTCAT
TTTTTTGTCCCACTTTTATGTTTATTAAAAACTGACATAAACACAACCTGTACAAAAAATATCCCAAATCCCGTATGACTTTGAAACAGTAATCCTGAGA
GACATTATCGCCTAGGACCCCCTCTTCCTCTGCCACGGCCACGTCCTCTTCCTCTTCCTCTGCCTCTGCCTCTTYCTGCAACAGCTTCCCTTTTCTTAGA
TTTCACCTTAGGTTCAACATCCACAAGTAGTGTATCCAGAGGTAAACTGTCTAGTAGAATAAAATACCGAATGTTATTTCCTCGAATACTCAGCGTTTCC
AGCTGTACAGGTTCTCTGTTCTTCGGGGTCATTTTCACAGCTTTAAGATGTGTATTCATGCTGACATCCACACCTGTGACTGTTCCATGGACCTGTGTTC
TGTTCTTCAATGCAATGGTTACAGTTTCATGACTCAATTTCATCAAAAATCTCACGAGCTTCATCCTAGCGGTGCCATCACCCTTTGGGTCCGATAGCAC
ACTGAATCCAACAACCGAATACTGACCGACTGCAGTATGAATGGCCGTTTTTGGTTTTTTTTTTGAGATAGAGTCTCACTCTCTCCCCCAGGCTGGAGTG
CAGTGGCACGATCTTGGCTCACTGCTGCAACTTCTGCCTCCCAAATTCAAGCGATTCTCATGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCAC
CACCACGCCCGGCTACTTTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCCCC
TTGGCCTCCCAAAGTACTAGAATTACAGGCATGAGCCACTGCACCTGGCAGCAAAATAAATTTTCTAATTCCACCATTCATTCTACATTTATTAGTTTGT
ATTCTTCTGTAAAGTAGGAAGTAATATTTAACTGCAATTATTTGGTAATTTTGAATTTTTTTTTCTTTTAGAGGCAGAATAAATGCTTAATTTATTCACT
TCTATTAGCAATCTTCAAAGTTAGGATAAGAGCTGAGCTTTTGTCACGTGAGGCTGCAGTGAGCCATGATCATACCACTGTATTCCAGCCCAAAATGAAC
CATGATTGATCGCACCATTCACATCTCAGCCTCTGGAGTAGCTGGGACTACAGACACTTGCCACTATACCTGGCAATTTTTAGGGTTTTTTTGTAGAAAT
GGGGGGTCTCACCATGTTGCCCTGGCTGGTCTCGAACTCCTGGCCTCAAGCGATCCACCTGCTTCGTAGTCTCAAAATGCTCAGCCTGTAACAGTCTTGA
TAGGTTTTGTGTTTCTAGGAATTTGTCCATTTTATCCMGGTTGTCCAATTTGTTGGTGTGCAATTTTTCATAATATTGTATTATAATCCTTTTTACTTCT
GTAAAATTGGTAATAATGTCCCCGATTTCATTTCTCATGTTCAATCATTTGAGTCTTTTCTTTTTCCTTAGTTGATCTAGCTAAGTGTTTGGCAATGTTG
TTAATCTTTCCTAAGAACTTTTAGTTTCATTGATTTTTTTCATTCCTTTCTTCTGCTGGTTTGGGGTTTAGTGTATTTTTCTAGTTCCTTAAGGTATAAA
GTTAGGTTGTTGGTTTGAGATCTTTTTTACTGAAAGCATTTAAACCAGTAGGTTTTCCCCTTATGACTGCTTTTGCTGTATCTATCCCATTAGTTTTGAT
AGTTATGTTTTCATTTTTATTGGTCTCTAAGTATTTTCTAATTTTCATTGTGATTTTTTTATTTGACCCATTGATTGTTTCAGAGAGTGCTATTTAATTT
CCACACAGATTTGTAAATTTTCTAGTTTATCTGGTTGTGGGTCAGAGAAGATACTTTGTATGATACCTTTTTTTTTTTATTTTTTTCTAAAAGCRGCAAG
AGAAAAGTTTATTTTGAAATCTATTGAGACTTAATTTGTGATCTACTATATGGTCTTCTGAAGAATGTCCCATGAACACTTTCGAAGAATGGATATTCTA
TTGTTGAGTGGAGTGTTCTGTGTATGTCTGTTAGATCTACTTGGTTTATTGTGGTGTTTGGATCTAAATATATATACAGCATATATTTGGATCATGTTTT
TAATCCATTCTGCCAAATTGTCTTTTGGAAAGTATTATCCATTTACTTTCCAAAGTATTTTACTTTCAAGGAATGATTTAATTCTGCCATTCTTTTCCTC
ATTTCCAGCATTGTCTTTTTGTTTGATTTTTTTTTTGTAGTGAAAATACATTTCCTTAAAACACAATTTCCTTTTGTATATATTCTTTTTTTTTTTTTGA
GACAGAGTCTCGCTGTGTTGCCCAGGCTGGAGTGCAGTGGCTGGATCTCAGCTGACTGCAACCTCTACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGC
CTCTGAGTAGCTAGGACTACAGGCACGTGCCACCACACTTGGCTAATTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTGTCGCCCAGGCTGTAGTGC
AGTGGCACGATCTCGGCTCACTGCAGGCTCCGCCCCCGGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGGTGGGACTACAGGCGCCCGCCACC
TYGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGGCTTGTCTCGAAYTCCTGACCTCAAGTGATCCACCCACCTCGG
TCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTGCTGTGCCTGGCCCCTTTTGTATGTATTCTCTAGCTATGTCCTTTGTGGTTGCCATGGGGATTACAT
TTGACATCCTAGTTTATAACATTCTAATTTGAATTTATACCAGATTAACTTCAATAGCACATAAAAACTGCTTCTGTATAGCTCCATTCCCACCTCTTTT
CAGTTACTGATCTCACTAAATTACATTTTTATGCATCGTATGTCAAAAAATAAAAGTATAAATTTTATGCATTCTTTTAAATCATGTAGAAAACAAAAAG
TGGAGTTATATATCAAAGTTAAAATAATACTCACTTTTACAATTGTCCATATATTTACCCTTATCAGAAATTTTTCTTATGACAGATTTCTTCACATGGC
TTCAAGCTACTATCTAGTGTCATTTCATTTCAACCTTAAGGACTGCCATTAGCATTTCTTGCAGGACATGTCTAGTGGTAATGATCTCTCAGCTTTTGTC
TACCTGGGAATGTCTAATTTCTTCCTCATTTTGCAAAGACAGTTTTGCCGTATATAGGATGGTTAATAGTTATTTTTCCTTTAGTACTTTGAATATATCA
ACCCATGGTCTTTTAGTGTCCAAGGTTTTTGATGAAAGAGCTACTGGTAATTTGTGGGATCCCCTATAAGYGATGAGTCACTTCTCTTGCTATTTTCAAG
ATTCTCTCTTTGTCYTGGGCTTTCGACAGTTTTATTTTTTATTTTTGAGACGGGGTCTCACTCTCTGGAATGCAATAGTGCGATCTTGGCTCACTGCAAM
CTCTGTCTCCTGGATTCAAGCAATTCTCGTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGCCACCACACCTGGCTAATTTTTGTATTTTTAG
TTGAGACGGGGTTTCACTATGTTGGCCAGGCTGGCCTTGAACTTCTGACCTCAAGAGATCCACCTGCTTCAGCCTCCCAAAGTGTTGGAATTACAGGCAT
GAGCCACCGCACCTGGCCTCAACTGTTTTATTATAATGTTTCTTGGTATAGGTCTGTGAGTTTATCCTACTTGAATTTTGTTGAGCTTCTTGGATATTTG
TATTCATATCTGGAAGTCTCTTCAGTGGGAAGGGGAGGGGGTTGTAACATTGGGGGTTGAGTTGCCATAATGGCTGCCAACCTCTGTCTGCACCTCATAA
TCAGAAACAGCAAATAACAATCAGGATATAGATTCCCTAATAGTTGGAGGACAAGGTTTTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTTTGAGACAGA
GTCTTGCTGTGTCRCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCTG
AGTAGCTGGGACCACAGGCATCCACCAGCACACCYGGCTAATTTTTTTGTATTTTTAGTGGAGACATGGGTCTCACCATGTTAGCTGGGATGGTCTCGAT
CTTCTGACCTTGCGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATAACAGGCGTGAGCCACCGCACCCGGCCAAGGACAAGGTTTTTATTGCCCACT
CTGGCTCCTGCAAGCTGCATGCAAGTTGCTCCAGGAACATGGGGTGTGTATCGGTAGCTACTACCTACCTAAGAATTTAGGTTGACCAAAATTAACTGCA
ATTTACTTTCAAAGCCTTCCTTTGGAAGTTACAAGCCTTTAATACCCTTCATTGTTCCAAAAAACTTATAACAGACAAATGCTGCCAGTGTGATAGTTAC
CTTGCTGAGGATACAGGTTCCTGGTGCTTCCTACCCTGCTATCTTCCTTGATGTCACTTCCTGTCTCCTTTTGACCCAGTCCTAATCTTTGAAAGCTCCC
TTATTTTCTGGCACGAAATGTACCAGTCTCCCTTAAACCTTCCTTTTCCCAGTCTTGGAGTCAGGAAATTCTTGGTCTAACTTTTAGCAAGGAATAGAAT
TAGAGACAAGTCTAGGCTCTAGAGGCACACGTTGTTATTASAGTCACAAATGCTTCGATAGGCTATTTTACTGGACAGAGCTAGAAAAAAWATATATATT
TTTTACCTTGTGAATTAGTATAGAATATTTCCTATTTAAATTTAGCATTATTATTATTTATTTTGAGATGGGGTCTCACTCTGTCACCCAGGCTGGACAG
CAGTGATGCGATCACAGCTCGCTGCAGCTTCGACTTCCCAGGCTCAAGTGATCCTTTCCACTTCAGCCTCCTGAGTGGCTGGGACCACAGGCGCATGCTA
CCATGCCTGGCTTGTTTTTTTTTTTTTTTTTTAATTCTTTGTAGAGATGAGGATTCCCTATGTTGCTCAGGCTGGTCTTGAACTCCTGGACTCAAGAGAT
CCTTCCACCTGGGCCTCCCAAAGAGCTAGGATCATAGGCATGAGCCACTGTGCCTAGCAATACTAACTTATTTTAAACCATATTGCTAAAAATGACATTC
AAACAGAAAAGTGAATGTAAGTACAGCTTCTACAAAGTAATGAACTGTTTGTTACAAAGTAAAACCTGTGAAACTGTCACTCAGGTCAAGAAATAGAAGC
CCGTCCAGTGTCCCTTTCTTATCTTTCCCCATTCCCTACTCTCTAATATAACCCCATCCTGTTGTCTGGATGTAACTTTTTTGAATTTCCCTATTTCTGA
CCTGTGATGTTCCTATAACTGCTGCAAAATTTGTAATTGCTTCAAGTTTTTACTTCCTTCCTTCCTTCCCTCCCTCCCTCCTTCCCTCCTTCCTTCCTTC
CTTCCTTGAACTCCTGACCTCAAGTGATCCACCCGCCTCGGTGGATCTTTCCCTTTCTTTCTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTCTTTCTT
TCTTTCTTTCATTCTTTCTTTCTTTCTTTCTTTTTCTTTCTTTCTTTCTTCTCTTTTCTTTCTTTCTTCTCTTTTCTTTCTTCTCTTTTCTTTCTTTCTT
CTCTTCTTTCTTTCTTCTCTTTTCTTTCTTTTCTTATCTTTTCTTTCTTGTGTTTGATTGTTGTTACGTTTTCCCTTGATTTGTAGCAACAATTTTCGGG
TGACTTTTTTTTTTAATTGCAATCTTCAATTTCTGTCTTGGTGGTTTATTATCTTGTATGGATATTGTATTTTAAACTTCTCTTTTGGTTGTCATATTTG
AATGGATTGTTCTTTTCTGGACCATCCCAATTGAAGAGTGAATAGGAGATGATAGGATAGCTTTATTCGTTTCTCAACTCAAGAGCTCCCTCTTCTATTG
CTACAGTAATGGACTTTTTTGTTGCTGTTGTCTTGAGACAGAGTCTCACTCTGTCAGCACAGGCTGGAGTGCAATGGCACAATCTCAGCTTACTGCAACC
TCTGGCTCCTGGACTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACACGCCACCACACCTAGCTGATTTTGTTTTTCTTTTT
GAAATTTCTGAGCTCAAGCAATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACCTAGTTGTGAGCCGCTGCGCCTGGACTACTGACAGCTTTTAAA
AATATGGTTCTTGGCTTCTATCCTATTTTAAGACCTTCTACCACCAATCTCTTTCTTACCCTTCATGCAAGTCAGTCATTAAGGAAACTGCCCCTGACTT
CCAGACAACCCCCATCCCTTTTTTTAAGAAGTGTTTTTTTCACATCTGCCTTTTCCCCATCTCTCCTCCAGTGCTTGATCTCAGACCTGCCCAGGCAGTT
CCCACTCAGGGCAGACGCTGTAAATATTTGCAGATGATGTCTAAGTTTTGCCAAAGCCGAGACCCATCTGCAGCCTCAATTCCTTTCATCTCTGTGGCTT
TCTGCACCCGTTCTGCTGGTTTGGGATGTTCTTTCACTTTCACACTTATGTATAATTTGGAGTTTGGGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAG
CACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGCTCAAGACCAGCTTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATT
AGCTGGGCATGGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGACAGAGGTCGTGGTGAGCCAAGA
TCACGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAATAAAAAGAAAAAAAAAAACTGGAGTTTGAACATTTTCTCAGTTTTGCTGA
AGGTGTAGGTTATGGACTGTTTTATTTGCTCTCTTTGTTGCTTTGTGTGAAATAAAAACCAAAAACATGTCCAAGGGAAGGTGGCATGAGTTACATTTAG
GCTTCCGTGGGGCTTGTATCAGCCAGACCGCATGTTAGAAAGCCCAAGCTGGGAAATGGTCTGGAGGCAGGATAATTCAAGCAAGAGATGGAAATAGAGG
GCTGGATTAGGATGGGGTCTGGGGATGAARAGGAGGAACATGTGGAACTGGAATTTGAGCAAAAATCACCTGACTCTTTTTCCCCAAGGATAACGAGAAC
TCAGCGCCCAWCTTGAACATGTCTTCATCTTCTGGAAGCTCTGGAGTGCACACCTCTTGGAACCAAGGCCTACCAASCATTCAGCACTTTCCTCACAGCG
CAGAGATGCTGGGGTCCCCTTTGGTGTCTGTTGAGGCGCCGGGGCAKAATGTGAATGAAGGGGGGCCACAGTTCAGTATGCCACTGCCTGAGCGTGGTAT
GAGCTACTGCCCCCAAGCGACTCTCACTCCTTCCCGGATGATTTACTGTCAGAGAATGTCTCCCCCTCAGCAAGAGATGACGATTTTCAGTGGGCCCCAA
CTAATGCCCGTAGGAGAGCCCAATATTCCAAGGGTAGCCAGGCCCTTCGGTGGGAATCTAAGGATGCCCCCCARTGGGCTGCCAGTCTCRGCTTCCACTG
GAATCCCAATAATGTCCCACACTGGGAACCCTCCAGTGCCTTACCCTGGCCTCTCGACAGTACCTTCTGACGAAACATTGTTGGGCCCGACTGTGCCTTC
CACTGAGGCCCAGGCAGTGCTCCCCTCCATGGCTCAGATGTTGCCCCCGCAAGATGCCCATGACCTTGGGATGCCCCCAGCTGAGTCCCAGTCATTGCTG
GTTTTAGGATCTCAGGACTCTCTTGTCAGTCAGCCAGACTCTCAAGAAGGCCCATTTCTACCAGAGCAGCCCGGACCTGCTCCACAGACAGTAGAGAAGA
ACTCCAGGCCTCAGGAAGGGACTGGTAGAAGGGGCTCCTCAGAGGCAAGGCCTTACTGCTGCAACTACGAGAACTGCGGAAAAGCTTATACCAAACGCTC
CCACCTCGTGAGCCACCAGCGCAAGCACACAGGTGAAGGAGGTGTCAGGTGGGGTGGGGATGGAGGAGTCTCTGGGCTTTAGATTTGTCCTGGGCCACTG
GTGGGTAATTGTTTGGGATGAGCCTTTCATCTTCCAAGCTTGGAACTAAGCTAGACTGGCCCCCCGACTTGCCATACAGGAGGACTGTGCCAAGATGACT
GGGGCGGGCACTCCTGATTGTGTTGCCCCTCCCTGGTTCCCTGGACCTTCCCTTTTGAATCCTCAACCTGGACTGCTCTGCCTCACAGAGTTAGACCCCT
TCCTTCCTACTGTATTCTAAATTCCATCTCTCCCTTGTCATTCCCAGGTGAGAGGCCATATTCTTGCAACTGGGAAAGTTGTTCATGGTCTTTCTTCCGT
TCTGATGAGCTTAGACGACATATGCGGGTACACACCAGATATCGACCATATAAATGTGATCAGTGCAGCCGGGAGTTCATGAGGTCTGACCATCTCAAGC
AACACCAGAAGACTCATCGGCCGGGACCCTCAGACCCACAGGCCAACAACAACAATGGAGAGCAGGACAGTCCTCCTGCTGCTGGTCCTTAGGTCAGTCT
CCTCTCCTCATTCTGGGTTTTCTTTTTCCTTTTTTCCTTTTTATTTTTTTGAGACGGAGTCTCACTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCAATTC
GGTTCACTGCACCTTCCACCTCCCAGGTTCAAGTGATTTTCCTGCCTCAGCCTCCCGAGTAGCTAGGACTACAGGCACGTGCCACCAGGCCCGGGTAATT
TTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCACGCTGGCCTCCCAAAGTGCTGG
GATTACAGGCGTGAGCCACCGCAGCCGGCCTCATTCTGGCTTTTCTACACAGATCCTACCTGCCTCTGACCAGTTCTTCTCTTTGGTGGGTGTAGGATTA
GATGAAGACAGGAAGATTATGGATCAGTGTTGAAGCCTACACGGAGCTCTGGAGCCAGAGACTCCTCAAACCCTGTCTCGGATGCCCTTAACCTCTCTGG
GGCCACCTGCTTCTGCTGGAGTTTAGTCAGATGCGAATGTGGAGCACAGTAGAGACTGGGAGCTTCATTAAAATGCTCTTTATTTCTTGTCGCTCCCCAG
CTTAAAACCCTTTAGTGACTCCTTTGCTTGCTACATAAAATCCAGTTTCCAGAGCCAGACTATTTTCAAATCCTGAATTTGCCACTTAATATCCATGTGA
CCTTGAGAAAGTTCTTGGATCACTATGCTTTGTTTCTTCCAGAAAATGAAAAAACTAGTTTTGGACTGTATTAGACGTGGCACATATACTGCATCATTCT
CCCTGGCACTCACTGGCCATGTACCCAGAGTTTCTGTTTCTTCCCACCACTTTACAGACTTGGATGGAATGCCCTGGCATAGGGCATGGGATCTGGCATC
CCAAGTTGCTGCTAGCAAACTTAGAAGTGTGGGGAAATTTATTTATTTGAGACAGAGTCTTGCTCTGCCACCATGGCTGGAGTACAGTGGTGTGATCTCA
GCTCACTGCAACCTCTGCCTCCCGGGTTCAAACGATTCTCCTGCTTCAGCCTCCTGAATAGCTGGGATTACAGGCACGCACCACCACACCCAGCTAATTT
TTGTATTTTTTGTAGAGACGGGGTTTCACCATGTTGGCCAGACTAATCTCAAACTCCTGGCTTCAAGTAGTCTGCCCACCTCAGCTTCCCAAAATGCTGG
GATTACAAGCATAAGCCATGGTGTCTGGCTGGGAGTTAATATTTATGGGATAAAATTTGAGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAATACTTT
GGGAGGCTGAGGCGGGTGGATCACAAGGTCAGGAGTCTTGAGACTAGCCTGGCTAATATGGTGAAACCCTGTCTCTACAAAAAATACAAAAATTAGCTAG
GCATGGTGGCGTGCGCCTGTAGTCCCAGTTATTCGAGAGGCTGAGGCAGGAGAATGGCTTGAACCCGGGAGGTGGAGGTTGCGGTGAGCCAAGATTGTGC
CATTGCACTCCAGCCTGGGTGACAGCAAGACTCCATCTCAAAAAAAAAATTTTTTTTTTGACTAGTGGAAAATGGGAGATAGGTGAGACTCAGGCAAATC
AATTCCCCCTTTTCCCCTGCCTTTCATAAATTGCTGCATGGCACCAACTCTCCAAAACAGTACCATCAATGGGGAGGCCTCCCAAGTAGCCGGTGGACAG
AACTACTGTGACCTCTGCAAGGCTTGTCATGAAGCAGTGCCCACCCCAGCCTATTAAATACATCACCTTACGTTACTTCCCATTCTTTCCCGCCTTTCTT
CCATTTTCTCACTTCCAATGCCTTGGGTTTGCACCTCTCCAAATAAAACACCAGTACTTAGTTCTTGTTTTCAGGCTCTGTATTCTAGGTGACTGAGGAC
TAGGAGGGAGAGGAGGACCTAAGCCTGGGGCAGATAAAGATGAATCTCACTGTAACTTCTTCTCCTCCCACCTTCCTTAGGTCCCTGGACTACAAAGCAC
CAGATATTAAGTGGCCTATCTTTCCTTGCTCTCCCTTGGGGTTAAGGGGATAATGACTATCTTGGCAAACCAGCCAGGTAGTTTAGAACCTCATATTTAG
ACTCGGCAGGCTGTTTTACTCCAGGAAATTGATAGAGAGAAAGGAACTTGGCCAAGCTATCAAGTGCAGATCTAGAATCCCAACCAGGATCTGTCTGCCC
CAGAGGTGGTCTCTTCCGTAAGAAGATGGTGCCTTCTATGGGTGTTTCCTGAACGAGGCTGGTGCCAAGCACAGAGAGATGAATCAGAGCTGGTTTCTGT
GCTCAAGGGACCGTCTTGATCTGGGGGCTCAGAGGTCCACCTCGGTACAGTAGCCATGGGGAAGAGGAGCCCCTAATGGAAGGGTCAGAAAGGCTCTCTG
GAGGAGGTAATCCCTGGGCCCAGTAAGAGTGTAACACCTAGTAATCCCTCAAATTTTGAAATAAACTGAACAGGTGAATGAAGAAGGAAGAGGATTCCAG
GCTGAGAGCACTGGACGTGGCAACTGTTCAGAGGAGAGGCAGTCTTCAAGTTCTACATTCATTCAGAAAAATGTTTTTTGAGCCTACAATACTGAGCGCA
ACAAGGCTGTGGAGACCCATGGTGAGGAGCATGGAGTTAACTAAAGGATGTGTCAGGGAAGAAAGACTTCTCAAGGAGGTGCCTCCATCAGACCCAAAGG
ACTCATGGGGGCTAGCTGCACCTCACATTTCTTGGACATATACCGTTGGACATGTCTATCTTCTGGAAACTATGGCATGGACAGTAAGGATTCAGAAGTG
CATGAAGGCACCCTGCCTCTGCAGAGCAGAAAGATCATAGACAACATTTATGAATGTGCCCAGTGCTGCCAAGAAGAGAAGCCGGTCCTCTGCAGGCTCA
AGCCTATCTGGGCCTCTGGGGAAGCCCCACAGCCTTGGCTGTGCCTGCCCCTGCCCTCTCACCCCTACCCTGACCTTGTCCTACTTCACTGCCTTTGTCT
GTGTTACTAGTGGCCCCAGTATACCTGGGATGGACATCCAGGTGCCCTTCATCCAAGCTCCTATGTGAGGGGAATGGACATTATTAAAAGAACAGGGGCA
GAAGTGGCTCATTTATGACCCATTCACTAGCCCCAGGGATTGAAGTCTTGGGTACTCAAAGTGTCTTTCTACCAGGGCACCAGATCCCTTCCATGGAGCA
GGTCATCTCGGGTTCACTGGGCCAGGGATGGTCTCTGTTCCCCAGCCCACCTGGCTCACACACAGCCTCATGGGTAGGGTCAGCAAACCAGATGGCTTGT
TGTTGGAATGTAGGATGAGAGGCCTGCTTGGTGACCTAGCATTTTCACCAAGAAGTGGACGTGGAGAGGACCAGAGTGATCAAGGGTGTATGATGTGCAC
TACAATGGTGGGCAAAACAGGCTCCTGCTCTTGTGGAGGTCACAATCTAGCGGAGAAAGGATGTTACTAGAAGTACACAAATTGGGCCCGGCGCGATGGC
TCACGCCTGTAATCCCAGCACTTTTGGAGGCCGAGGCAGGCGGATCATTTGAGGTTAGAGATTCGAGACCAGCCGGGCCAACATGGTGAAACCCCATCTC
TACAAAAAATACAAAAATTAGCCTGGCATATGGCGGGTACCGTAATCCTAGCTACTCGGGAGACTGACGGGAGAATCGCTTGAACCCAGGAGGCGGAGGT
TGCAGTGAGCTCAGATCTCACCATTGCACTCCAGCCTGGGCGACTGAGCGAGACTCTATCTCAAAACAATCAAAACAAAAAAGACCTGTGGACTCTAGTA
GATTTTGAATCCTGCCTCTGCCATTTCCTGGCTATGAGGTGTCTTGAGAAATTTACTTGTCACTCTTGCTTCTGATAGTAAAGGGGATGGTGCGATAGAT
TCAAGATGGAGAGATAAGGTTAAGTGTTTTCTTTGGCTGCAACATGGAGATTAGATTAGAGCAAGGATGTAAGGGAGAGGAAGGGACATAGCAGTATTTC
AGGTGAGAGTCAAGGTGGCTTTGGCTAGGGTGTGAGAGTGGAGGTAGGGAGAAGTAGGAAAGTGATAGTTAACTGGATTTGTTAGGTGAGGGTGAGGCCA
AGGGTGACTTCCAGGTTCCTGACTTGTGTTATAAGTAACACAGAAGAAGAATGGATGAACTTGATTCGTTTTCCATTGATTGTGATATCTATCATACCTG
CAAAAAATATTTTGTATATATCCAATTTAATAATAAATGCACTCATGTTAGGAAGGTCAAAAAAAAGGAAAAAAGAAAAATAATAAAAAATAATAAAAAT
CCTTAGGATAACTTGAGGCCAGGAGTTTGAGACCAGTGTGACCTTGTCTCTGTAAAAAATAAAATTAAAAGAAAAAGAAGGGAAAGTGATCTACTAGTAC
ATTTAAAGCTTTGAATTCCCCATCCTTCTTTGCAGAGGTAACCACTATACTGAATTTTGATTAATCTTGCCTTAGCTATTTATTGTTTTTACCACATAAT
GTATCTGTTCTTAAATATAGTGATTGATTTTGTATGGTTTTGAACTTACCTTTATTCTGTTTAGGATTCATCAAACTTTTTCAATCTAAATGTTTAGTGG
TCTTAATAAAATTTGGAAAAATTTTGGGCATTGTTTTGTCAAATTTTGGGGTTCTCCTCCACCTTCTATTTCTGACACAGTCTGCCTATATGATGGAGCA
CTTGATATTGTCCCTCAGGTTACTGACACCCTGTTCATTTTTTTCGGTTCTTTTTTTTCTTTTTTTTTTTTTTTTTTTGAGACTGAGTCTTGCTCTGTCG
CCCAGGCTGGAGTGCAATGGCACAGTCTCGGCTCACCACATCCTCCGTCTCCTGGGTTCAAGTGATTCTCGTGCCTCAGCCTCCCGAGTAGCTGGGATTA
CAGCTGTGTGCCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGACTGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCCAACCTCAGGTGATCT
GCCTGCCTTGGCCTCCCAAAGTGCTGGGACTATAGGTGTGAGCCACCACACCTGGGGGTTTTATATAATGTGAAATCCTTGGTGGATTGTTAGAATATAT
AAGGGTTGTAGTGAAATCTGAAGAAATGTTTGGGGTTTTTGGATGGGTTGGGAATATGTTACTATTTTTCATATTTAGGTTAATGAAATAAAAACTTTAG
TCTAAAAATTTATGATCTAGCAGATTAGATCTGGATAATGAACAGCTGTATGATCTTTTCTTTTTATAGTTGTTGTACTTCACGTAAGACTCTAGCGCAC
TCTCAGATTTCTTTGGTCTCTCACTCCCCCACGCCCACCCTGCTGTGTTGACAATGTAGAGAAGTTTTGTTTGGGGTTGTTATGGATTCTTTTTATTGGC
CTTAGTAATAACATGGATGAAATCTTAGAGATAATGTGTTGAAAACAAGGGAGTTTCAGAAGAAACTTAGTATAAGTTATATAGCTTAGTATAATATTTA
TGAAGCTCAAAACAAAAAAACCCTGCAAATTATCTTTGAATACATGCATTTTTGATAAATGTATCAAGGGATTTATATATACAAAATGCAGGGTAGTCAT
CAATTCTAGAAGATAGACAGAAGGATGGGTAGGGGAGCTCACCAGACTTGGCACATAGCCGGGGCATTGCAGTTTTCTGAAAGGAGCTATAGTCAAGGAC
TTGGCATCCCCACTGTAAAGCAGGTTCACTGTGCACTGGTTATCAGCTTGTCTGAGTCCAGTGAGATCCAATGACACCCATACACACAACAAGTTAAATA
AAATAGGTTTATTACAGGCAGCAAGGGACAACAATCTAGGATTCACTGGGAGTGAGTCCCCCAAGGCTCAGGAAAGCTGCCCAGCGGGGATGGAGTCTTA
ACTGCATGTATCCCACTTGTACCACAGCTGAAGGACCCCAGAAAGCAGCCAGTGCACAGTTTTATACCCTGGGTTTATGTGGATGGTTGAAGGACGATGG
TGCTTCCATGCAGAGGCCTCCTTATTTGGGGTCTTGGCTAAGGCTATCTCCCCCATCTGCTCTGCAGCAGTCAGTAAATAAGGCTTGATCATTCCTTTCC
ATCTGGCTCATTGTTCCGATTGGCCATATCAACCCCTGATTGCATGACACTGGGTGATGAGCTCTTACAGGTGCTCATTTTTTCTACTTATAACTTAAAT
ATCTTATTCAATATATTTCATATATAATATTACACAATATCTTTTTTTTTTTTTTGAGACAGGATCTCGCTATGTCGCCCAGACTGGAGTGAAGTGGTGT
GAATATAGCTCACTGCAACTCCAACTACTGAGCTCAAGTGATCCTCCCAGCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGCACCACCACACCCGGC
TAATTTTTGTATTTTTTTTTTGTAGAGACAGAGTTTCGCCACGTTGCCCAGGCTAGTCTAGAACTCCCAGGCTCAAGCAATCTGCCCACCTTGGCCTCCC
AAAGTGCTAGGATTACAGGCGTGAGCCACCACACCTGCCTGAGGTTGAACCTTTGAATAGGCTAAGTACTCTTCTAAGCAAAGTCCATTTAACCTGAGAC
CACTTTACACTGGACGTGACTGAGCGTCCCCTCCTTTTCACCTCATAGGAATGAAGCTCCAAAGAAACATGGACTCAGCTACAGACAAAAAATGTTTCAT
TCTTTACCCTCTGAGCTATACACATATCAATCTCAATCACCTACATAGATACGTTTTAAAAGTACACATACAGGTAAATACAGAGTAAGATCTAGAAGGA
TTCACAGCATGCTGATAAAAGCCGTTACCCTGAGAGAGGGGAATGAATGAAGAGGGCTTCTGGTTTCAAGTTGAAAGTCATCCAGTTTTTACATGAAAAT
GCATACCTACTTTTTTTGTATATTTTAGAAAACTTATGAATAATATTAAGCACCTACTAGCTACTGGCATAGGGAAATAGGGGAGCTTGTTCAAGGGAAA
CAACCTCAATAGGGAGAATCTTTTAGCTGTACACATTTCCACATGGGCTGAAGGGTTCATAATCCTGGGCGAATGTTGTGGACCTTTGCATGCTGCTTTA
GGTGATCAGATCTTGCAAAATTCTTGCTGCATATTGAACACAGGTAGGGCCTTTCCCCAGTGTGCCTTTTCTTGTGTCTGTTGAGCTCATCTGAGCGGGC
AAATTTCCACGTACATCCCTCTACATCGCATACATAGGGCTTCTCCCCTGGACCAGACAGAGAGAGAGAGACCTGTCATACATCAGGGTGAGGTAGGGCA
GGGACATTTAAAGTGAACAAGAAAACGTTTTTGAACAAGTTGGAGTGGGAGAGGGAGAGCCAGAAGAGACGGGAGTGGTGGAGGTGAGTGAAGGAGGAGG
GGAATGAGGGCCGCAAAAGCTGGAGAGACAAGAGGAAAACTGTGAAGAAGGGAAGAAGAGGAAAGGAAGAAGAAAAAAAACAAACAGGAGGAGAGACAGT
TATTGGCAGGCAAGTTAGTGGGGGGAATAAGGAGGATGAGGGAAGTGGGGCCTGGGGGCCCTGTCACTACGAAGTGACGGTCCCAGTAGAAATAGCATCA
AGAACATCTACCTGCAAGAGGCCAAAGAAATCCCTCCACTTATTCCCATCAAACCAGCAGTCAACACCACTAAAGGCTATAGCCAGCCTGGCTCTGGTCC
AGGACTAGAGCCTGTCCCTGGTCCAGGACTAGAGCCTGTCCCTAGGACTGCTTTATCTACCCTTCTGAAGGTGCCAACCTTTTCTATTATAGAATTTTTT
GAATCCCTGGCTTAAAGGAAGTGGCAGCAATCTCAAATGCTTCCGGGCACAAATCTGTAGCCACTTGCCCCTCACCCCTGTTTCTGGGCCCTCACTCACC
GGTGTGCTTGCGCATGTGGGTTCGGAGGTGGCAAGCCTTTGAATAAGACATCTTGCAGTCCTCGTAAGTGCAGACATAGGGCCTTGAAACCTCAGGATTC
TTCCAGAACTGGCAGCTCTGTGTCTTCTGTTTTGGGAGTTGTCCTTGAATCAAATGGGAACTTGAAAAGCATAGGAATCCTGGGTATGGCAATGATGAGA
ACTGATGGGACATCATATATCCCCCATAAAGGCTGTGGTCATCAGTGAGCGTTGTCATATTGCCCACCTGAAGAGTCAGCATCTGGTCCCCATAGAGGGT
CTGGTTGCCACTATATGTTGCCATCTGGCCTCCATAGAGGGCCTGGTTATCAGTGGAGGTCATATTCTGCCCCCCGTAGAGGTTCTGGTTACCAGTGGAG
GTCATCATCTGCCCCCCATAGAGGGCCTGGTTACCAGTGGAGGTCGTCACCTGCTCCCCACAGAGGGTCTGGTTACTAGTGGAGGTCGTCATCTGCTCTC
CACAGAGGGTCTGGTTACTAGTGGAGGTCGTGATCTGCCCCCTGTAGAGGGCCTGGTTACCAGTGGAGGTCGTCACCTGCTCCCCACAGAGGGTCTGGTT
ACTAGTGGGGGTCGTCATCTGCTCTCCACAGAGGGTCTGGTTACTAGTAGAGGTCGTCATCTGCCCCCCGTAGAGGGCCTGGTTACCAGTGGAGGTTGTC
ATCTGCTCTCCACAGAGGTTCTGGTTACCAGTGGAGGTCATCATCTGCCCCCAGTAGAGGGTCTGGTTACCAGTGGAGGTCATCATCTGCCCCCCATAGA
GGGCCTGGTTACCAGTGGAGGTCGTCACCTGCTCCCCACAGAGGGTCTGGTTACTAGTGGAGGTCGTCGTCTGCTCTCCACAGAGGGTCTGGTTACTAGT
GGAGGTCGTCATCTGCCCCCCGTAGAGGGCCTGGTTACCAGTGGAGGTTGTCATCTGCTCTCCACAGAGGGCCTGGTTACCAGTGGAGGTCATCACCTGC
TCCTCACAGAGGGTCTGGTTACTAGTGGAGGTTGTCATCTGCTCTCCACAGAGGGTCTGGTTACTAGCAGAGGTTGTCATCTGCCCCCCGTAGAGGGCCT
GGTTACCAGTGGAGGTCATCATCTGCCCCCCATAGAGGGCCTGGTTACCAGTGGAGGTCGTCACCTGCTCCCCACAAAGGGTCTGGTTACTAGTGGAGGT
CGTCATCTGCTCTCCACAGAGGGTCTGGTTACTAGTGGAGGTCGTGATCTGCCCCCCGTAGAGGGCCTGGTTACCAGTGGAGGTCGTCACCTGCTCCCCA
CAGAGGGTCTGGTTACTAGTGGGGGTCGTCATCTGCTCTCCACAGAGGGTCTGGTTACTAGTAGAGGTTGTCATCTGCCCCCCGTAGAGGGCCTGGTTAC
CAGTGGAGGTTGTCATCTGCTCTCCACAGAGGTTCTGGTTACCAGTGGAGGTCATCATCTGCCCCCAGTAGAGGGTCTGGTTACCAGTGGAGGTCATCAT
CTGCCCCCCGTAGAGGGCCTGGTTACCAGTGGAGGTCGTCACCTGCTCCCCACAGAGGGTCTGGTTACTAGTGGAGGTCGTCGTCTGCCCCCAGTAGAGG
GTCTGGTTACCAGTGGAGGTCATCATCTGCCCCCCATAGAGGTTCTGGTTACCAGTGGAGGTCGTCATCTGCCCTCCACAGAGGGCTTGGTTACCAGTGG
AGGTCATCACTTGCTCTCCACAGAGGTTCTGGTTACCAGTGGAGGTCATCATCTGCCCCCAGTAGAGGGTCTGGTTACCAGTGGAGGTCATCATCTGCCC
CCCATAGAGGTTCTGGTTACCAGTGGAGGTCGTCATCTGCCCTCCACAGAGGGCTTGGTTACCAGTGGAGGTCATCACTTGCTCCCCACAGAGGGTCTGG
TTACTAGTGGAGGTTGTCATCTGCTCTCCACAGAGGGTCTGGTTACTAGCGGAGGTCGTCATCTGCCCCCCATAGAGGGCCTGGTTACCAGTGGAGGTTG
TCATCTGCTCTCCACAGAGGGTCTGGTTACCAGTGGAGGTCGTCATCTGTCTCCCGTAGAAGGCCTGGTTACCACTGGAGGTCGTCATCTGCTCCCCACA
GAGGGTCTGGTTATCAATGGAAGTCATCATTTGCCCTCCATAGAGGTCTAGACTGGTTGTCATTTGGCCCCCAGAGAGGGTCTCATCGCTACCGGAAGTC
ACTGTATGACCATCAGTGAGGGTCTGGTCACTACTGAAGGTCACCTGGTCCCCACAGAGAGTCTGGTTATCACTGAGGGTCTTCATCTGATCTCCAAGCA
GGGCTGGTATCTGACTCTCATTGAGGGTCTGGTCACTGCTTGGGGTGTTCAGCTGGCTACTTTCATTGGAGATTGTCATGTTGCTTGCAGTGATGGTTGT
CTTCTGGCAATCAGTGGGTGATGACTTTGGGGTGACAGTAACATCTGTCATC


SNP Information

Context             (SEQ ID NO:30142):
CTCAGCTGACTGCAACCTCTACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCTGAGTAGCTAGGACTACAGGCACGTGCCACCACACTTGGCTAA
T
TTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTGTCGCCCAGGCTGTAGTGCAGTGGCACGATCTCGGCTCACTGCAGGCTCCGCCCCCGGGGTTCACG
Celera SNP ID:            hCV26174367
SNP Position Genomic:     11647
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30143):
ATAACAATCAGGATATAGATTCCCTAATAGTTGGAGGACAAGGTTTTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTTTGAGACAGAGTCTTGCTGTGTC
R
CCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACCA
Celera SNP ID:            hCV26174368
SNP Position Genomic:     13214
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30144):
CAGCTCGCTGCAGCTTCGACTTCCCAGGCTCAAGTGATCCTTTCCACTTCAGCCTCCTGAGTGGCTGGGACCACAGGCGCATGCTACCATGCCTGGCTTG
T
TTTTTTTTTTTTTTTTTAATTCTTTGTAGAGATGAGGATTCCCTATGTTGCTCAGGCTGGTCTTGAACTCCTGGACTCAAGAGATCCTTCCACCTGGGCC
Celera SNP ID:            hCV26174369
SNP Position Genomic:     14215
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30145):
GGAATAGAATTAGAGACAAGTCTAGGCTCTAGAGGCACACGTTGTTATTAGAGTCACAAATGCTTCGATAGGCTATTTTACTGGACAGAGCTAGAAAAAA
W
ATATATATTTTTTACCTTGTGAATTAGTATAGAATATTTCCTATTTAAATTTAGCATTATTATTATTTATTTTGAGATGGGGTCTCACTCTGTCACCCAG
Celera SNP ID:            hCV15796267
SNP Position Genomic:     13991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30146):
AGTGTCCAAGGTTTTTGATGAAAGAGCTACTGGTAATTTGTGGGATCCCCTATAAGTGATGAGTCACTTCTCTTGCTATTTTCAAGATTCTCTCTTTGTC
Y
TGGGCTTTCGACAGTTTTATTTTTTATTTTTGAGACGGGGTCTCACTCTCTGGAATGCAATAGTGCGATCTTGGCTCACTGCAAACTCTGTCTCCTGGAT
Celera SNP ID:            hCV15796276
SNP Position Genomic:     12615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30147):
TGCACACCTCTTGGAACCAAGGCCTACCAACCATTCAGCACTTTCCTCACAGCGCAGAGATGCTGGGGTCCCCTTTGGTGTCTGTTGAGGCGCCGGGGCA
K
AATGTGAATGAAGGGGGGCCACAGTTCAGTATGCCACTGCCTGAGCGTGGTATGAGCTACTGCCCCCAAGCGACTCTCACTCCTTCCCGGATGATTTACT
Celera SNP ID:            hCV29018817
SNP Position Genomic:     16647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:30148):
CGAGTAGGTGGGACTACAGGCGCCCGCCACCTCGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGGCTTGTCTCGAA
Y
TCCTGACCTCAAGTGATCCACCCACCTCGGTCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTGCTGTGCCTGGCCCCTTTTGTATGTATTCTCTAGCTA
Celera SNP ID:            hCV1254060
SNP Position Genomic:     11870
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30149):
GAGATGACGATTTTCAGTGGGCCCCAACTAATGCCCGTAGGAGAGCCCAATATTCCAAGGGTAGCCAGGCCCTTCGGTGGGAATCTAAGGATGCCCCCCA
R
TGGGCTGCCAGTCTCGGCTTCCACTGGAATCCCAATAATGTCCCACACTGGGAACCCTCCAGTGCCTTACCCTGGCCTCTCGACAGTACCTTCTGACGAA
Celera SNP ID:            hCV1254052
SNP Position Genomic:     16874
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:30150):
TCCTTTTCCCAGTCTTGGAGTCAGGAAATTCTTGGTCTAACTTTTAGCAAGGAATAGAATTAGAGACAAGTCTAGGCTCTAGAGGCACACGTTGTTATTA
S
AGTCACAAATGCTTCGATAGGCTATTTTACTGGACAGAGCTAGAAAAAATATATATATTTTTTACCTTGTGAATTAGTATAGAATATTTCCTATTTAAAT
Celera SNP ID:            hCV16035082
SNP Position Genomic:     13941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30151):
GTGGCACGATCTCGGCTCACTGCAGGCTCCGCCCCCGGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGGTGGGACTACAGGCGCCCGCCACCT
Y
GCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGGCTTGTCTCGAACTCCTGACCTCAAGTGATCCACCCACCTCGGTC
Celera SNP ID:            hCV1254061
SNP Position Genomic:     11802
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30152):
GATGGGGTCTGGGGATGAAAAGGAGGAACATGTGGAACTGGAATTTGAGCAAAAATCACCTGACTCTTTTTCCCCAAGGATAACGAGAACTCAGCGCCCA
W
CTTGAACATGTCTTCATCTTCTGGAAGCTCTGGAGTGCACACCTCTTGGAACCAAGGCCTACCAACCATTCAGCACTTTCCTCACAGCGCAGAGATGCTG
Celera SNP ID:            hCV1254053
SNP Position Genomic:     16511
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,7)   total(A,2|T,7) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:30153):
GCATGTTAGAAAGCCCAAGCTGGGAAATGGTCTGGAGGCAGGATAATTCAAGCAAGAGATGGAAATAGAGGGCTGGATTAGGATGGGGTCTGGGGATGAA
R
AGGAGGAACATGTGGAACTGGAATTTGAGCAAAAATCACCTGACTCTTTTTCCCCAAGGATAACGAGAACTCAGCGCCCATCTTGAACATGTCTTCATCT
Celera SNP ID:            hCV1254054
SNP Position Genomic:     16430
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30154):
GGTCCCCGGGTGGTGAGGGAGACATCTAGAGTAACAGATTTCTTGCTTGCACAATTGGGTGACAATAGTGACATTTTCTGAGAGAGAGTGAAGGATGAGA
W
GGACAAGATTAATTTGTTGTTTGAGGGAGGTGGGCAAAGATGCTAGTGAATTTTGGCCATAGTCCATTAGAAGAGCATGTGGGCCATCCGAAAGGACTCA
Celera SNP ID:            hCV1254070
SNP Position Genomic:     7296
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,5)   total(A,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30155):
TCTGTCTCAATTAGATTTGCATTTTCAAAGGAGTGCCCTGGTGGATGTGGGCTGGATTCAAGGCAACAGTTAGAAAGCTTTTGTGATAATCCAGGTGAGA
R
TTCAAATGGCGGCCTACCTGCAGAAGTGAGAGTGGAGATGGAGAAGCTAAATATATCATAGATTGTGGAGATGTTTTGGAGGCAGAGACCACAATCATTG
Celera SNP ID:            hCV1254071
SNP Position Genomic:     7096
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30156):
TAATTTCCACACAGATTTGTAAATTTTCTAGTTTATCTGGTTGTGGGTCAGAGAAGATACTTTGTATGATACCTTTTTTTTTTTATTTTTTTCTAAAAGC
R
GCAAGAGAAAAGTTTATTTTGAAATCTATTGAGACTTAATTTGTGATCTACTATATGGTCTTCTGAAGAATGTCCCATGAACACTTTCGAAGAATGGATA
Celera SNP ID:            hCV1254063
SNP Position Genomic:     11095
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30157):
TCCTGGCCTCAAGCGATCCACCTGCTTCGTAGTCTCAAAATGCTCAGCCTGTAACAGTCTTGATAGGTTTTGTGTTTCTAGGAATTTGTCCATTTTATCC
M
GGTTGTCCAATTTGTTGGTGTGCAATTTTTCATAATATTGTATTATAATCCTTTTTACTTCTGTAAAATTGGTAATAATGTCCCCGATTTCATTTCTCAT
Celera SNP ID:            hCV1254064
SNP Position Genomic:     10538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,7)      total(A,7|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30158):
TTTTTCCCCAAGGATAACGAGAACTCAGCGCCCATCTTGAACATGTCTTCATCTTCTGGAAGCTCTGGAGTGCACACCTCTTGGAACCAAGGCCTACCAA
S
CATTCAGCACTTTCCTCACAGCGCAGAGATGCTGGGGTCCCCTTTGGTGTCTGTTGAGGCGCCGGGGCAGAATGTGAATGAAGGGGGGCCACAGTTCAGT
Celera SNP ID:            hCV26174370
SNP Position Genomic:     16577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:30159):
ATGACTTTGAAACAGTAATCCTGAGAGACATTATCGCCTAGGACCCCCTCTTCCTCTGCCACGGCCACGTCCTCTTCCTCTTCCTCTGCCTCTGCCTCTT
Y
CTGCAACAGCTTCCCTTTTCTTAGATTTCACCTTAGGTTCAACATCCACAAGTAGTGTATCCAGAGGTAAACTGTCTAGTAGAATAAAATACCGAATGTT
Celera SNP ID:            hCV1254065
SNP Position Genomic:     9375
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:30160):
CATGATCTTGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACCACAGGCATCCACCAGCACACC
Y
GGCTAATTTTTTTGTATTTTTAGTGGAGACATGGGTCTCACCATGTTAGCTGGGATGGTCTCGATCTTCTGACCTTGCGATCCACCCGCCTCGGCCTCCC
Celera SNP ID:            hCV1254057
SNP Position Genomic:     13335
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30161):
GATTTTTGGCAAGAATGCCTCATGTGTATGGTAGGTTTCATCTTGCATTACATCAGGAGACACATCTGGCTACCATTTGGTGATACTTGTATTAAGGTAG
Y
GAAAAGCCTCATTGATCTCTCTGTAGAAATTTACCTTGTGGTCAGAAAGTAATCTGTGTGATTCTGCCTTTTGTGTATCCAGTGTCCAGTTCCCTACCAG
Celera SNP ID:            hCV1254066
SNP Position Genomic:     8992
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,7)   total(C,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30162):
GTGGGCCCCAACTAATGCCCGTAGGAGAGCCCAATATTCCAAGGGTAGCCAGGCCCTTCGGTGGGAATCTAAGGATGCCCCCCAATGGGCTGCCAGTCTC
R
GCTTCCACTGGAATCCCAATAATGTCCCACACTGGGAACCCTCCAGTGCCTTACCCTGGCCTCTCGACAGTACCTTCTGACGAAACATTGTTGGGCCCGA
Celera SNP ID:            hCV26174371
SNP Position Genomic:     16890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:30163):
GATTCTCTCTTTGTCTTGGGCTTTCGACAGTTTTATTTTTTATTTTTGAGACGGGGTCTCACTCTCTGGAATGCAATAGTGCGATCTTGGCTCACTGCAA
M
CTCTGTCTCCTGGATTCAAGCAATTCTCGTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGCCACCACACCTGGCTAATTTTTGTATTTTTAG
Celera SNP ID:            hCV1254058
SNP Position Genomic:     12700
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,8)   total(A,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30164):
CCGCCTCAGCCTCCCAAAGAGGTGGGATTACAGGCATGAGCCGCCACGCCCAGCCGATAATTCCTTTAAATTATCTTAGATGCAAGCCTTATTCAAATGC
Y
CCTAGCTATTCCTAAAATGTACTTCGTAGCTGGTACGTCCAAACCAGAATTTAAGACCATACACTGTATCTGGTGATTATGTCCCTTGAGTCTCTGAAAT
Celera SNP ID:            hCV1254067
SNP Position Genomic:     8612
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30165):
TATTTTTCCTTTAGTACTTTGAATATATCAACCCATGGTCTTTTAGTGTCCAAGGTTTTTGATGAAAGAGCTACTGGTAATTTGTGGGATCCCCTATAAG
Y
GATGAGTCACTTCTCTTGCTATTTTCAAGATTCTCTCTTTGTCTTGGGCTTTCGACAGTTTTATTTTTTATTTTTGAGACGGGGTCTCACTCTCTGGAAT
Celera SNP ID:            hCV1254059
SNP Position Genomic:     12571
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30166):
ATGGAGGAGTCTCTGGGCTTTAGATTTGTCCTGGGCCACTGGTGGGTAATTGTTTGGGATGAGCCTTTCATCTTCCAAGCTTGGAACTAAGCTAGACTGG
C
CCCCCGACTTGCCATACAGGAGGACTGTGCCAAGATGACTGGGGCGGGCACTCCTGATTGTGTTGCCCCTCCCTGGTTCCCTGGACCTTCCCTTTTGAAT
Celera SNP ID:            hCV26174372
SNP Position Genomic:     17460
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,3)   total(C,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30167):
AGAGTTTTTTTTAAAAAATGAACATTTTTCTCTATAGCCAAAACCACATAATCAAACGTATCAAAATTGTATATATATATACACTTTCTTTTGAGACAGG
S
TCTTGGTGCTGTTGTCCAGGCTGGGGTGCAGTGGCACCATCTCAGCTCACTGAAACCTCCGCTTCCCAGGTTCAAGCAATTCTCGTGCCTCAGCCTCCCA
Celera SNP ID:            hCV1254068
SNP Position Genomic:     8294
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30168):
GGAAAGTATTATCCATTTACTTTCCAAAGTATTTTACTTTCAAGGAATGATTTAATTCTGCCATTCTTTTCCTCATTTCCAGCATTGTCTTTTTGTTTGA
T
TTTTTTTTTGTAGTGAAAATACATTTCCTTAAAACACAATTTCCTTTTGTATATATTCTTTTTTTTTTTTTGAGACAGAGTCTCGCTGTGTTGCCCAGGC
Celera SNP ID:            hCV26174366
SNP Position Genomic:     11427
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30169):
GAGGCTGAAGCAGAAGGCTCGTTTGAGCTCAGGAGTTTTAGGCTGTGGTCCACAACGATCACACCTGGGCATAGCCACTGCACTTCAGCCTGGGCAACAT
R
GTGAGATCCTGTCTCTAAAATTAATTAAATAAAAAATAAAACAAGATCTTCCCAACTCTTCTAGAGTTTTTTTTAAAAAATGAACATTTTTCTCTATAGC
Celera SNP ID:            hCV1254069
SNP Position Genomic:     8131
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Gene Number:                 127
Celera Gene:                 hCG2031930 - 30000023462312
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(39920276..39970801)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12287):
TAATCCCAGCACTTTGGGAGGCTGAGGTGAGTGAATCACTTGAGGCCAGGAGTTCACAACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTACAAA
TACAAAAATTAGCTGGGTGTGATGGCAGGCACCTGTAGTTCCAGCTACTCAGGAGGCTGAGGCACAGAATTACTTGAGCCCAGGTGGCAGAGGTTGCAGT
GAGCCAAGACTGTACCAGTGCACTGTAGCCTGAGTGACAGAATGAGACTGTCCAAAAAAAAAAGAAGTTTAAAAAGTGCCTTCTTTTACTCTTCAAAGAC
TGACATGGCTAAAAGGGCCCATCACACAGTCATAGGGGTCCTGGCCCCAGGCAGCAGCTGCACTCTCTGGACTCTATGGCTGCGCCGGTGGAGGTGCTAT
GTCTGCCATACTCGTGACCTGTGGCCCCATCGCACCTCACAGAACCAAAGAAACCATGCCAAAACCCTTCTCACCCCTTCCTCATCTGCTGGCCTTTGGC
TCCTGCCTTCTTGYGCTGTGCCAGAGGTTTCTGATCTCCCTCAAGGAAATCCAGTTTATCAGAGAAGCCTGTAAGTGAAGAAGTAGTTTTGATCAGCACC
ATTGTATTTTAAGAATAAAAGTTTAAACCACCATATGAGGCTGTTATTTGCTACACTGATTTTAAGAGTCACATCCTGCTCTCCAACACCATTCCCAAAA
CTTTGATCCGACAGGTCCACATCAACCAAGAAGGCTCCAAAGCACTAAGTGTTCAAATCAACTCTAAAGTACCTGCTACCCTCGTTCCCCTATTAGAGAT
GTACCAACCTTTCTGATATTTCTTAATAGCATTCATCATATGGGCTTTCTCCTGCTGCCTCTTCTGAAGAACCTCCGTTTGCACCTGTGATATGAACACA
AGGACCGTTACAGCCATTCCATACCATTACTCCAGTGTCTACATTGTCTTAATAGCAACACCATGATTAATACCACTACCCTCTGACATTTACTACGTGC
CAAAAACTGTGTTAGGGACTCTAAGTATATTCTCAGATCTAGGTATATTCTTCATAGATGAAGATATATCTGTCTCATAACAATCCAGTGAAGTTGAAAT
TTGTGTTATCCCCTAAACTGAAGCACAGGGAAGTTAACTTGCCCAAGTCGCACAGTGAAAAAATGCACAGCCAAGATGACCCAGGCTGTTTGACTCCAAA
GCCAGCACTCACCCTATTATACAATCCTGCCTACAAAACTGAAGTAAATCATGTTTAAGACTACATCGATTTTTCGCATCACATTTGGACAGATTAATTA
TCTAACTCACTGTTACTAGGCATGAAAGTACCAAAAGGAAGAGAAAAAAACAATGTCCCCAGGTAAAGAAAAGAAAAAAGTTTGAAGGATAAAAGGAGAC
ACTTTATAATACTCTAACAGAGGGTTTCTCAATCTTGATACTGCTACAGTGTGGAGAGAATAATTCTTTGCTGGGGGGTAGGGGCCTGTCCTACACTGTA
GGATATTTAGCGGCACCCCTGCCCTCTACCTACTAGATGCCAGTAGTACCCTCCCTCCCAAATTTGACAACTAAAAATATCTCCAGGCAGTCACAGAAAA
CTCTTGGGGAGCAAATTCACCCCCAGTTAACAAACTCTTCCCCAGTGTTTCCTTAAATTAGGAACAGTGAACTAATAGGCCCAAGTGAGTTTGTCTTTGC
TTTTGGTAACTTTGGCTATGTTAAATTAATTACTGGTGTCTTTGAGAGAATCTCAGCCATCCACCTCCAGATCAAAGAAATAATAAATCCGCAGCAGGCC
TTTTGTAGAGGACAGGATCCCAGCCTATTCCTACTTTGCTGAGAATGTATCAGTGAAATGACTCCAAACGTGGACAAGAGTTCTGCAGCCCAGATCCCAA
GTGCTTATGTCCAAATGTTGACGAAGTCTTAACACCCACRCCAATCTTCCTCACATTCATTTCTTCCCACAATCCTAACTTTAAAATCTGTCATCTTCTT
TCTTAGATGACCATGAAATAAAAAAGGAAAACCAAGAAAAGTTTTAGGGTATGCCTGATCTGGTGTTACATTAGAACTCAGACATTCATAGTTCAAACAC
GCAGGCAATCTTTCAGATTGGATGACAATCATTATGATAATTTCTTCAGGTACGTGATTATCACATAGATCAGTGAATCCCAAACCAGGATGCATTTCAG
AATCACCTGGAAAGCTTTTGGGGAAGAGGGGAAAACAGGCACAGATTCCTGGGGATTCTGAAGTCTAGAATTCTGTTTTGAAAAATTTCCCCTGGTGATT
TTGCTATAAGGTCAGGTTTGGAAACCACTCATCTGGACCCAGTGTACAGATGTGAAAACTAACGCCCAGAGAGGTGATTGGCTCACCTGCAGTCACCATA
CTACTCCTGGGGAACCACTCATGTCCAGGCAAGATTGTGCTCATGAATACCAGCACATACACTGAGAGACGGTAAATACATGATCAACACACAGTTCCGT
TCAGTTCAGGGGACCAAGTCAGACCACGGCAATCTCATCTAACACACACTCCGCCTCTTCCTGTTCCCTGCACACTTTTCTTCTCACCTTCTTCCCGTAT
TTCCTAAGTGCTCGCAGTTGCTTAGCTTTTTCAGACCTCTCCATGGCAGCCTGTTTAGTCTGCAGCTTCTGTCGAATCTACAACACAAAATGCTGTCAGT
TCATGTCATTTGAATCTGGAATGACCACTACTTAGGATTCGCTAGAGCAGGGAACAGATATTCCCTGTTCTTTAAACTGCGGAACTTATAAATCATCAGT
TCCAACCCCTGAGGACAATGGGGCCCACAGGCTGAGCACTTTACCAAAAGTGCCAGAGTGAAGCCAGAGATTGAAAGTCACCTTCCCGCTCCCAGTGTGC
TGTCTGTTTCATTATACAAACTGCCTATTTGTAGCCCAGGAAAGAAGACAAACTTCTCCCCATTTCTACTGTCAGTAGACTGAGGCTGGAAACCAGTATG
CGGCCTCAGTGTCCTTTTCTAGTATACCACATACACAATAAAAACCCAGGCAGATACCAGGTGCCTAGCCTTTTCAGTCAAACATACACATTTTAGTTAA
AGGATGAGAAGTTGTCAGTGAGAATTTGTACAGAGTTCACAGTAAGAAGGTGAACTACTACCACGACAAAAGCTCCCTAAAATCCAGCTTGAGACCCCAG
GGTACTATTTAAATATACTTATCCCTCAGTATCCATAGAGGATTAGTTCTAGGACCCACTACAGATATCAAAATCCACAGATGCTCAAGTCCTTTATATA
AAAATGGTGCAGCATTTGCATATAACCTACACTCGCCTCCAGTATCCTTTAAAGTCAGRGGACCTCAACTCCCAGGCCACAGACCGCTACGAACCCACTA
TGAATCTGTGGCCTGTTAGGAACCAGGCCGCACAGCAGAAAGTGAGTGACAGGCAAGCAAGCATTACCACCTGAGCTCCACCTCCTGTCAGATTGGTGGT
GGCGTTAAATTCTCATAGGAGTGCGAACTCTACTGTGAACTATGCATGGAACTATGCATGCAAAGGATCTAGGTTGCCTGCTCCTTATGAGAATCTAATG
CCTGATGATCTGAGATGGAACGGTTTCATCCCAAAACTATCCCCTCCCCAAGTTCATGAAAAAATTGTCATCCACGAAACTAGTCTCTAGTGCCAGACCG
CTTCTTTAAATAGTCTCTAGATTACTTATAATACCGAATACAATGCTATGCATCACCTCATTCTCATGGATTCAATGTAGTTCTCGGCACACGGAAAATT
CAGTTTTCCTTTTGCRATATTTTCAAATTTTTTTCCCCAATATTTTTGATCCAAGGTTGGTTGAATCCACAGATGCTGAACCCATGGCTATGGAGGGCTG
AATGTATGTTGGATTACATGCTGGCAATCCCTTCTTCCAAAGTTAAATGAGGTCCAAGTTCTACCCAACTCTAAATTGTACTATATCTGAACCATCTAAG
AATCCCTCATTTTACAGAGGAGAAAACTGAGGCCCAGAGAAAAGTAATTGTCTACAAGTTCTAGCACTGACAGTGGCAAGGGCACAAGAATGCTGTCCTC
TCTGCACACCATGTCATGACCATGCCAGCTAGGAAATGCACTGGGCCATCTTCACCTYGGGGACCACACTTCACACAGCACTGTTCCTCTCCTTAATTGC
TGATTTTAGAAAAAATGTCATTTTTATATGCATCTAATTGGTGGTAACTGGCATGACTCTGAAGTAGCCAATCTATGGAAGAGGTAATAATTGTCCTCTG
ACAACTGGCTCCCCGTTATTGGGCTCATAGCTATCTTTCTAAGCCAGCTGAATATGCTTAAGTACAAAGTTTTGACTTTCCARAGGAAAACTTCTATTTC
TTACCTTCTGCATCTGCAGATCAGATTTGGCCATTTCCGCAAAATAATCAGTGGGTCGCTTSGTAGGGACTTTGAGCTGATGGAGGCGGGGTAAGACTGC
AAGCACTGCGGCCTGGGCTTGGCGATAGCTGAGAATCGTAGGACAAAATGTGTAATGAGGTGAAGGAGGAGGCCTTACGTTCCTTTTCACCGCCAATCAT
GAGTTATCCAAGCTCAGAAGGACTCTCAAAATCTGACCTCCATTAGCAAGAACAAACAAACAAAAACTGTCTCACTGATTTAGTATCTAAAAGAAATGTA
GCCGTATACTAGTTTTTAAAAAGGGGAGGGGTGTTGCTAAAAATAGTTTAAGAGAATGACTACTCTAAAGGTACCCATTAACACAAACGAATGTCGATTA
TGGATTCTTATGTAATTACTAAAGCAATTCCACACAAGAACATCCCATAAGCAATGTTTGTTTGTTTGTTTTCCTAATAACTGAAGCATGCACAAAAAGT
TTTAACATGAATATTTCAAATTAGCCCATAAAGTGGATTTTGGATCGTGACYGTGGACCAAAGAGCTCTTCTCTCAAACAGGAAGAATCTCCTAGCTATT
CTTAGTCAAAAGAAGCCGCTCTCTCTACTCCTAGGCTTATTCTGAGTGCAGACTTACTAATTTCCCCTCTTTCCCACTCTCCTGCACAAGGATCCTCAAC
TTCTCCAACATTTGAAAACAAACATACAAACTCATCTCTCGCTGGAAGTCGTCTTCTGGATCAACAGCTTTCTGGTCCTTGTTCTGAGGTGCTGGCGCCT
CAGATCCACCGATCTCCGGTACCGGACCCAGTGTCACATCGAGCCTTTCAACCCATTCCAGATCCCGCTTGAATTCTGCCAAACATTGCTTCAGGCCATT
CTAGGAAATCCAGACACTGAGCTCACAAGAAGGGAACTCTGAGTTTGTCTTTCCCAAGCACAGGCTGTTAGGCGAAGGGACAAAGTGCTAATCCCCAATA
CCCAGACAGGTAATTGACCCTCTTGGCGAGGCGCAGGGTGCATCTTTCCTGGGACAAGAATCGGTCTCCCAAGCCCAACAGCGCCTGAAGCGCATCCCAT
GTCCGAGTACCCCCGACCCTGTGCCCRCGCTCACCACGTCGTTCACGGCCTTCTTCGGCCCCTCTAGCACGACATTGAGGCCTGGCTTCAGAAGCCCTCG
GGAAAACGCATCCTGCAACTGCAGGACACAATCACGGTCACTCCCAGGGGTGTAAGGCCCCCTCTCCCACGCCCAGCCCCACGAGCTCGGCTGACACCTA
CCTCTCTGTCTGTGACAAGGGATTCATCGGATTCCGACTCCGAATCCGAGAGCGGGGGAGTGTCCATCTCGCCGCACGCACGTCCCACACCTACAGGAAG
AAACGGGGTATCCCGAGACCCAAGCGGCTAGCAGAGGGCGGCCCTGGCCGCTGCTGCCTGCCTTCAGCCCCCTACTCCCACGCCGTGGCTCCACGTGCCA
CCGAATCGCYCCAGCGCCAGCAACTCACAGCTACTGCTCAACTTTTGATTGGGACTTCCGCTTCCGGCGGCAAACCATACTTCCGGTTTGTCGTTGCTAT
AGGAACCGCTACGGCGTTTGAAAGTGTCCGGGTTGCTTAGGATCCCTACAGGTAGCGCCTCTGGATACATGCGTGGTCTGCTGACCCAGAGAGAAACGAA
AGGTGGGAGGGGGTACCTGGGGGTCGCCAGAAGGAGCTGGTAGCAGTGAGGGTACAAAGGAAAAGGCAGAAAAAGGAGCCGCGGGGGTGGGGTGGCGCGG
AGGAGGACCCCGGGGGAGGGGAAGGGGAGGGGAGGGACAAGGGGAGGGGAAAGGGGAGGGACAAGGGGAGGAGAAAGGGGAGAGACAAGGGGAGGAGCAA
AGGGCGGGGAGGGCGAGTCCGGGCCGGGGGCGGGGTCGGAGCGGGGCGGTGCTCTCCACTCTGAAGCGCTGCCTTGGTCTTCAGCAGAACTGTTTGGCGG
GAGATCATGTCAGCCGTKGTAGCTCAGACGCTGCATGTWTTTGGTCTTCGATCCCACGTGGCCAACAATATCTTCTACTTCGATGAACAGATCATTATAT
TTCCTTCAGGAAATCACTGTGTGAAGTACAATGTGGATCAGAAATGGCAAAAATTCATTCCAGGTAAAACTTTTTCCATCCTGACATATACAGGAATGGT
ATGTGCCACATATAACCCCATAATCCCAGCATGATGATTGGAAAGAAAGATTTTGGCCAATTTGAATATATATGCAGTATTATAAATGTAGAGGAAATAA
ATGGCGACTTGTATTATGAAACTAGATTAATCAGTCACGCATATGTAGTTAAAATCACATATAAAATGTTAATTTAAAAGTACTTKTTTCACTGTAATTT
CATGAAAATATGTTAAGAACCCCTCTTTTGGTGTCTTCAATATCACTGCCTTTGTYATCACCAGAGCCACTTTTTGAGTTGTCTAACAGTTTTCCTGAGC
ACACCACCTTCATTATATCACCGTTTGAATCCAAGTRTGATGAAGACACTGTAAACTTTATCCCAAGTCGCAAATAACCATTTGTATAGCATTACAGCCC
TTATTTTTGTTCACAGTGGTCCTGTTAATGATATTCATTATTTCAACAACCGAATCCATTTTCCCATTCTTTGTTGCATTGACACCTTTTATTGTGACAT
ATACATACAAAAGAATGTACCCTACATATATGTCATATTTAAAGAATTACAATAGAATGTAGATCTGTGAACCCAGCCACCCAGCATAGGAARCAGAATA
TTACCAGTTCTAGTGCTTCTCCCTGTATTCTGTGTCTTGCTGCATCAGTTCAATGTCATGCTTTTGAGATTCACACATCTCGATACATATAGCCAAGTTC
ATTTTATTGCTATGTAGTGTTCCATCATATGAATATAATGTCTCAAATATATGTATTCACTCTAATATTGAGGGACATTTGGGAAATAACAATCATTTGC
TATTACAAACTATACTACTATAAACATTCTTGCATGCATATACATTCATCTATTTGTGCAGATTCTCTAGGGCACACAGCCAGGACTAAAATTACTGAGC
AATATGATAGTACCAATTTACACTCCCACTAGAAGTGCATAAGAGTTCTTATTCCTCAGCAACCCTGCCAACCCTTGGTATTGTCCAACTTCGTAATTTT
TTGCTAACCCAATGGTTGAGAAAAGGAATTGTGGTTTTCGTTTGCATTTTGCTATCATTAATGATGATGAGTATCTGTTTATGGGCTATTCCTATTTAGT
CGTATGTTAAATGCCTTGTTCAAGTCTTTTACTTGTTTTTTACAGTTTGTTGTGCAGGATATTTTTGGGCAATTTTATTGATTTACATGCACAATTTATA
TATTCTGTATATCAATAATTTGTCAGATATATATATATGTCTTGCAAATAATTTCTTTCAGTTTGGGGCATTTTTCTCCCATCTTACAAGTATCTTTTGA
TGGACAAAAATTATTAGTTTTAATAAAGTCAAATTTATCAACCACATAATATTCTGTTGGAATAAGCTGTATTAAATACAGTTGACTTTAATTTATTGAT
GTTTATTTCCAGCATATTTGCTAAATTATTATTAATTCTAATGATTTGTCTATAGATTATGCAGAGACTTCTACATAGACTATCATGTTATCTACAAATA
ACGATGACTTTCTTCCTTTTTCTTGTGTTACCTGTGCTGGTAAGCACCTCCAGACAGTGTTGATTAGGGGCAATAAAAATGGACATCTGGCCAGGTGTGG
TGGCTCATGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACGAGGTCAAGAGATCAAGACCATCCTCGCCAACATAGTGAAACCCCGTC
TCTACTAAAAATACAAAAATCAGCTGGGCGTGGTGGCACGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATTGCTTGAACCCGGGAGGC
AGAGGTTGTGGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGAAACCAAGCAAGACCCTGTCTCAAAAACAAAAATAAAAAAGATCATATGACTTT
CCAATATAAATTAAATTATGGTTTTCTACAGACAACATTAATTTATATTTGCTCTCATACTTACCAAACTTTTTCCCACCATTACTCTTTACAAATCAGA
TATTCCAGCTGGGATCATTTTCCTTCTGYATTTACTGATAATGTATTAATAAATTCTCCCAGTTTTTGTCTGAAAATGACTTTATTTTATCCTCATTTCT
GAAAGATAGTTTCAACAGGTGTGAAATTTTTATCAGCATATTATAGATCATATTCCATTGTGTTTTTTTGGCTTCTCTTTTGTTGCTGTGGTTAAGAAAT
TAGCTATCAGCATCGTCTTTCTGTAGATGATCTTTTTTTCTGGATGTTTAATATCTTCTCTGTCTATGGTGTGTGTGTGTATGTATCTATACACATACAC
CATATACATATATACGTATAAAATACACACCATATATACACACACCATATACTATATGTACATGTATATATACATAGTATATATACATACATATAGATAC
AGACACACACATCAGTATAGTTTTTATTTTCATTTTTTATCCTCCTAGGGATTATTTGAGATTCCTGGATCTAAGGACAGGTATCTTTTTTGTTCTGTTA
TCTCCTTCTGGAACTCCAAACCATCTCAACTCCATCCTTCCAGTTTTTTATTTTATTTTATTTTATTTATTTATTTTTTAAGAAACCAGGTCTCACTCTG
TTGCCCAGGCTGGAGTGCACTGGCACAATCATAGCTCACAGCAGTCTCAAACTCCTGGGCTCAAGCCATCCTCCCCACCTTAACCTCCTGAATAGCTGGG
AATACAGGCATGCACCACCTTGACCAGCTAATTGTTTTTATGGAGATGGGGTCTGGCTATGTTGCTGAGGCTGGTCTTGAACTCCTGAACTCAACTCATC
CTCCCACCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCAAGCCACCACACCTGACGTTCATGTTTTTGGGTTTTTTTTTTTTTGAACTCTTATTTGGA
TTTTTTATACCTTACTCTCTCTGTGTTGCATTCTAGATAATTACTTTAGATGTATCTCGTAGTTCATTGCTTCTCTTTTCTGCTGCATCTAACTTAATGT
TTAATGTATCCATTGAGATTTTACTTTCAGTTATTGTGCTCATATTCTTACACTTCTTACTGTATCACTTCTCTTCTGCTCCTAACTCCATCTTATATCA
CCAGGGGCCTTGTACACATGTGGGTGGATCCTTGCAGCCCATATGTTCAAATTCTACCCATATATTCTATAAGCAACCACCCTGTGCCCATCCTTCAGGC
CCAGGTTGAGTAGAGACAGCCTGGGAAGAAACCCCCAATGTTGGTCTTGTCAGCAGGCTCAAGACTATCTGAGCAGGGAACTCCAGAGTCCTGMGTACCT
GCAACGTGATCTAGAAGAGGCAGGACAAACTCCAGGCAGCCACTGTATCCCACTTAATGGTAAGGGGTACAGCCAGAGAAAGACTCCGGGATGCTCTAAA
ATTTGAGGCCCAAGGGAGGATCTCCACTGACCAAGTCTAAGGGTATTACCGGTGAAGGGAAAAATATAAAGGTCATGACATTGGGAGACCTGGCTTTGAT
CTGGCTCCCCATTTTATAGGCTCACAGAGCCTCAGTCTCCTCATCTGTAAGATGCAGATGATGCTCAGCTTGTTCAGCTCAGAGTCATGATGAGGCTCAA
CATATTCATTTGTTCACTCAACAAAAATGTATTAAGTACCCCCTGTGTTCCAGGCACAAAATAGACAYGCACATATGCACATAAAATGCTGTCCTCACAG
TGCTTCCATTCTAAGAGGGSAGAGTGACAAACAAAATAAAAAGAAGTACAGTCTACATGCTAGATAGTGATAGATGCTAATAAGAACAAACRAAGYATGG
AAAGTGAAGCCGTTGGGGGAGTAAGAAGTTGTAGATAGGGAGGCTGGGGAGGGCTCACTGAGCAGTGATTTTTGAGTGAAGACTGAAGGAAAGGAAGGAG
CTGGCTGTGCTGATGTGGGAGGGCAGGGGGAGTAGCCGAGAGACTAGCAAAGGCTCAGAGTTAGGAGGGTGCTTATTGTGTTGGAGGAATAGCTGGGAGG
CCAGTGTGGCTGGAGTGGTAAGAACCGGGGGGTGAGGAGCAAGAGGGGAGGCAAAGAAAGAATGGGGAGCAACACCACAGAGGGGCTTGCAGTTCATGAG
CTCTTACTCAGAGTCAAATGAGAAGCCATAAAGGGGTGCGTTCTGAGTGGCAACATGATCTGTGTTTCCTCAGGTTCATTCTGGCTGCTGTACAGAGGAC
AGATTTAAGGAGGAGAAAGAAAGGAAGCAGGGAGAACAGCTGAGGGATGATTGCTGTAATTCAGGTGAGAGATAATGGCACTTGGAGCAGGTAGAGGCAG
GCGACAGGGTGGTGTGAAGAGATCAATAATGGATATGCTTTGACAGATTTCTTCATAGACACCATGTGGGGTGGAAGCAGGAAGAAGCAAGGTTTTGGGC
CTGAGCATGGAAAGCATGGAGTTGCTGTTGATTGTGATAGAAAGGGCTAAAGAAGGAGCAGGTTGGTTTTGGACCTGTTAAGATTGATGTGCCTGCTAGA
TATTTTCATGGAGATGCTCAGTAAGCAGGTTGATTTCAGGTCTGGATTTAAGGGAGGGAAGTCCAGGCTAGGAAAGGAATTTGAGGGTCATCAGCCTAGA
GGTGAAATGTAAAGCCCTTAGAGTAGATGAGACTTCCCTAGGGCAGTGGTCCCCAACCTTTCTGGCATCGGGGTAGGTTTCATGAAAAACAGTTTTTCCA
TGGACAGGATGGAGAGGGTATGGGGGATGGTTTCAGGATGAAACTGTTCTGCCCCAGATCATCAGGCATTAGTTAAGATTCTCACAGAGAGCACACAATC
TAGATCCCTCGCATGCACAGTTCACAACAGGGTTTGTGCTGCTATGAGAATCTAATGCCGCCACTGATCTGAGCTCAGGCGGTAATGCTTGCTCACCTCC
TGCTGTGTAGCCCAGCACCGTGGGTTGGGGACCCCTGCCCTAGGGCATGAATATATTTACAAAAGAGAAGCAGCTGAAAGAGTGAGCTCTGAGCACTCCT
GCATTTAGTGCTGGGGAAATGGGGAAGAATCAGCAAAAGAGGCTTTGGAGGAGTGGCCAAAAAGATCACAGGATATCTATGTGAGAGGTGAAGGATTCCC
TATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACCGGATCCCTTCCTTACACCTTATACAAAAATTAATTCAAGATGGAT
TAAAGACTTAAGTGTTAGACCTGAAACCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGATATAGGCATGGGCAAGGACTTCATGTCTGAA
ACACCAAAAGCAATGGCGACAAAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATTAGAGTGAACA
GGCAACCTACAGAATGGGAGAAAATTTTTGCAATCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAAAGAACTTAAACAAATTTACAAGAAAAA
AACAACCCCATCAAAAAGTGGGCAAAGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAACCGACACATGAAAAAATGCTCATCATTAC
TGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCGATCATTAAAAAGTCAGGAAACAACAGGTACTGGAG
AGAATGTAGAGAAATAAGAACACTTTTACATTGTTGGTGGGACTGTAAACTAGTTCAAGCATTGTGGAAGACAGTGTGGTGATTCCTCAGGGATCTAGAA
CTAGAAATACCATTTGACCCAGCCATGCCATTACATGGTATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTG
TGGCACTGTTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCATCAACGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTA
TGCAGCCATAAAAAAGGATGAGTTCATGCCCTTTATAGGGATACAGATGAAGCTGGAAACCATCATTCTGAGCAAACTRTCGCAAGGACAAAAAACCAAA
CACCGCATGTTCTCACTCATAGGTGAGAATTGAACAATGAGAACACTTGGACACAGGAAAGGGAACATCACACACCRGGGCCTGTTGTGGGGTGCRGGGA
GGGGGAGGGATAGCATTAGGAGATATACCTAATGTAAATGACTAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGTA
CATTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAATAATAAAAGGATATCTATGTGAGAGGCGAAAATGTTTTAAGGAGGAGAGGYRAGGCATC
AGCTGGGTCGAAACAATGCAAAAGCATTTTACAAACTCTAAAACCAGTCAACATATATCAAGAACATACTAAGTTCCAGACACTGGTGATTGAATGAATG
AATGAATGAGCAAGAATGGCCTCTGCCCTCCAGGAGCTCTCAGTATTGTAGTGGAGGCAGGTTGTGTAATTCAAATGAGTAGGACTGTGCAAATGAGCTG
GACAGATGCTATACCAGGTAGGAACCTGGCACAAAAGCACAATAGGAGGGAGTGAGCAGTGTTCCTTTGCCTCATCTAGGCTATTACATACTCCTAGTTT
TAACTTTCCCTTATGCTTTTTACCTCAAATCTGTATTTTCAGCCTCAACCCCTCCCGCCAGCTTTAGAACCATGTCCACCTGCTGGACCTCCRTACCCAA
CTGTTCCACAGAGTGTACCTCACACACAATATATCTGAGATTGAGTTTATCTTTTCCTTTCTTCTCCCTCTCTTTGGGAAATGCAATCAGGGTCACATTA
TTGTTTTCGAGGGCTCTAGGTACTTTTGATTTCATGGCCCCCTCCTTCATTAAAAAATGTTTAAAAATATATTTATAGGCCAGGCGTGGTGGCTCATGCC
TGTAATCCCAACACTCTGGGAGGCCGAGGTGGGCGGATCACCTGAAGTTGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAA
AATACAAAATTAGCCAGGCATGGTGGCACATGMCTGTAATCCCTGCTACTCGGGAGGCTGAGGCAGGAGAATCACCTGAACCTGGGAGGTGGTGGTTGTG
GTGAGCCGAGATTGAGCCATTGCACTCCAGCCTGGGCGACAAGAGTGAAACTCTATCTCAAAAAATATATATATTTTATATATATATATATAAAATATAT
ATACACACATATATTATTTAAAAATATATGCAGTAATATACTTTATGACTGTATTGGTATAAAGAGGAATATAATCTAGGCTGGATTCACCATTATATAT
TCATGTTTTTTCTGATTTTCAAATAAATACTAAAACATTTTCCTAGGTCCTCAAAAGTATTGTGGGTCCTGGGCACTGTGTCTAGTGGATAAGTGGATGG
TGGATACAGGCCCAGGGCAGGGAGCGTGAGTGAGGCAAGGGAGGATGAGCTAGAGAGTGATGTGAYGGGTCCCCATGTGTTGGGCCCTCATGCTGCTGCT
TCACAACACGCCAAGGAGAGATGCAGCAAGTTGCTCAGCAGGCGTGCATGCCCAGCCCATGGGAATTCTCTGGAAGGGATGCAGAGAGTAGCTGTGGCTC
AGAGAAGATCCCAGGTTCTAGGTCACTGAGAGCCTTGCACAAAAGTTTGGACTTCACCTGGGAGGCTGCTGAAAAATTTTAGGAAGGGTGAGTGCAAGGG
AGGCTGAGGAATCCAGTAGTTGGCATCCCAACCTCTGGAGTAGAGGAGGAGTGATGAGCTAGCCACTCAGGGAATAAAGACCTCTATGGTCTGACCCTAT
TCCACCCCTTTAGGCCCATCTTTGGTCACCCCATCTCACATGCAATGCTCCAGCAACACCCACTGCTTGCAGTTCCCGCACTATGCTGTACCCTTTGTCA
CATCCACCCCGTGGCTCAAGCTCTTCCTGCTATCTACCACCCAGYCCCCATCTCACCTCACCCCCTGCCCTCCTTCAGGAAGGTTTCCCTGACTTCTCCT
CCCACCTCATCCTCCAAGGTGCCTGCCCTAGTCATTTTCTTTTGGGGACAGTCTCGCTCTGTCTCCCGGGCTGGAGTACAGTGGCATGATCTCAGCTCAC
TGCAATCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCACACCCGGCTAATTTTTTTAT
TTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCCCATTTCAAGTCATCTGCCCACCTCGGCCCCCTGAAGTGCCGGGATTAC
AGGCGTGAGCCACCACACCTGGCCCCTAGTCATTTTCATAATACCCAAACACAGCTATGCCAAGGCCGCCTTTCTTCTTTGTGTCCACCACTGTCCACTC
CAGTGCCCACCACAGTGCCTGGTTCCTGTTGAACCCTGGTGAAAGTGTGATCTACCCTGATTATTTCCTTTTTCCTCTGTTTGCAGGCTCAGAGAAGAGT
CAGGGCATGTTGGCCTTGTCCATCAGTCCCAATCGGCGGTACCTCGCTATCTCTGAGACTGTGCAAGAAAAACCTGCCATCACCATTTATGAATTGTCAT
CCATCCCTTGCCGGAAGCGCAAAGTTCTTAATAATTTTGACTTCCAAGTTCAGAAATTTATTAGCATGGCTTTTTCTCCAGACTCCAAATACCTATTGGC
TCAGACGTCACCTCCAGAGTCAAATCTTGTCTACTGGCTGTGGGAAAAACAGAAAGTAATGGCCATTGTTAGAATCGACACTCAGAACAACCCTGTCTAC
CAGGTACCTAGTAGTGTGACAAGTATCGTGAAAATTATAAAAAATAGAACTACTTTTTATTGAATGTTTTCTGTGTACCACAGTTCTAATTTCCTCCATG
CATTTTAAAATTTATTCTTACAACAACCGTATAAGGTATGCACAATCATTATCCCCATTTTACAGATGAGAGAACTGAGGATCCAAGAGGTTAAGTAACT
CACTCAAGATCACAGAGGTAGTGAATAGCAGAGCTAGGAGTTCCCCAACTCCAGCTCCTGTCTTCTCTACTCTGGCCCAGAACTGCTTTCTGGTCACAGG
TTTGGCCCAGAAGTGGATTAATAAAACTTGCTTTCTCTCCCTGGTCCTAGCCTCTTTTTCCAGCAGCATTGCCGGGCAGTAGGAAGATTTCCGAAATGTG
ATGTAACATGGTAGGTCTTTAGGAAGCTGTTGCTGAAGTTGCAGTTATGTAAGGAACAGAACCTTCTATTGTGTCTCGAGGGCAAAAGGAAGAAGACCCC
TCAGGAACCTGATTGATGGCTTAGGCAGGGGGTCCCAAGGAGGTTTGATCTTGGTTCACTCACCCTAGTCTAGGATCTAGCACTCAATTCCACAAGTTCA
ACGACTCAGTTGTGTTCATGTTCAGAGATTCTAGCTAATCAGTGTCTCTGGCATAGACTCAATTATTCAACTCACAAGATACTGATGTGTAAACCAGCAT
ATCACAACCAGAATGCTCACATCATTTATCCAGTGTATTCCCTTCCTAGTAATAGAGAAGTTGAGAGGTGAAATTATAATAGTAATCAGAAGGCTGCTGG
GTGATTATTCCAGAATCAGACCAAAGGCAGGTAGAACCAGAAGGGTATTTCAACCAGGCCACAGTGAGGCCTGATGAAGSACCTCCTGCTCTGACTAGTA
GATTCAGCAACCATTTATTGGATGCCCATGATGAATCCAGCACTGGGAAAACAGATGAAAAAGTCACAGCCCCTCAAGTTGCTCACTATATAGTCAGGAC
AGCAGGTTGACTGCCTATTACTGTACAGGTAGTCCCCAACTTACTATGGTTCAACTTAAAATATTCGTCTTTACAATGGTACAAGAGTGATATGCACTCA
GGAGAAAGAGACCAAGTAATACGCTTTCATGATGCAGGGCAGCAGCTGCAGCCACAGCCCCCGGTCAGCCGCTCAATCACTAGGGTAACAACCAAGATAC
TCTACAGTGTGGTGCTGTGTGGCCACATGGCTTTGCCCATTTTCAACTTATGGTGTTTTCAMCTTATGATGGGTTTATCAGGACATGATCCCATTGTAAG
TAGAGGAGCAGGTGTACATTGGGATAAGAGCTGTGATTRAAGGATGTTCAGTTGGTAGGAGACCACATAGCATCCCCTGACATGTGGTTTCTTTCCTCTT
GGACAGGGCTATGTAAACCTATCAGACCCTCTTTTTCTGTGTTTCCAGCTGAGCTTTATTCCATTTTGTTGGCACTGGGTGTGGCTCTTGTCAAAAGCTG
TTCATTCTGCTCTTTGGCCTTTGTAGATTTCCTAGTTTGACTCCTAGTTGGACTCATATCCCTATAAATATAATGGATTATAGATGTGTGCCCTTATCAA
ATGCAGCATAAAGTTACATGATTTTGTGATGTTTTGGAGATATTCTGAGCAGCCTGAAATAAATATTAATTTGTAAAATGGGAAATAATTCCATCAAGAA
TAGTTTCATAAATTTTTTTCTTCAATTCTCTCACATTTTACAGGTGAGCTTCAGTCCACAGGATAACACTCAGGTGTGTGTCACTGGAAATGGGATGTTT
AAGCTTCTCCGTTTTKCTGAGGGAACCCTGAAGCAAACCAGCTTTCAGAGGGGAGAACCCCAAAACTATCTAGCYCACACCTGGGTGGCTGATGACAAGA
TTGTCGTTGGCACTGACACAGGCAAACTCTTCCTCTTTGAATCTGGAGATCAGCGTTGGGAGACCAGCATAATGGTCAAGGAACCTACCRATGGCTCAAA
GAGCCTGGATGTCATTCAGGAATCAGAGAGGTAATGGTGCTTCCTGGGCTGGTGCTCCCACATTCATTGTACTGACAGCATTATGCAGAAGACAGCACTC
TTTAGAAACCACTCATAACCCCTCTACCRTAAAAGTCAACTATGCCCATTTTCCCTCTTCCTCTCTAGTTTTCGTCTATATTTAAGCACAGATTTAACAG
TTATAACCATAGACTAAATACAATTCTTTTTATTTTTTATACCTAACCTCATTTTATAAACATTATAGTATTACTGGTCTTCAAAACTATAGTTTTTAGA
AAATATATTTTCCAGTGGCTAATTTAATGAATTGATTCATGTCCACCAAGCCCTTGTAGTATGCAAAAGGCATCTCTTGCTAGATGCTGGGGACACAAGT
CCTCAAGGAACTTATAATTCAGCAGGAGGCGACAGACCAACAAGTGCAAGGAAATGTTTTAGGTAAATCTGACAGAGGATAGGGGTAAAGTGCAATCTCA
GGAAGGAGTGGTTATTGACCATTATAATAGAGATGCCACGTTATCTCTATGACAACCAGTAAAAATCATATCTCCTGTGTATTGGAATGTACCGTTACAT
GCACCAGACACTGCTTTAAACATTTTATAAATATTCCCAATTTGATTCTTACCCTGTATAGTTCATACTATTATCGTGCCCATTTTGTAGACAAGGAAAC
TGAGGATCAAAGAGGTAAGTGAACTACCCAAGATCATTCCGCTGATAAGTGGCAGGCTCAGGATTCAAACCCAGATCTCTCTGATGCCAGAGCCTGGGCC
CTCAACCCCAATGACATCCTGTAGATTCTTCTTCCTCAGTAACCTTCAATCCACCCATTTTCACTACCATCCCCCCRTGCCAATGGCATATCCTTTTTTT
TTTTTTTTTTTTTTTTTTTTTTGTGAGTATGTAGGAGCTTCCTGAAAAGTCTCTATAACCTTCTCCAGGAGCTGTGTTCACAGTCCTTCAGCTCTGGGGT
CCAGGCCTCCCAGAACAAAGCCCAGACTTCTTGGTTTGGCCCAAGCATACCTGCGACTGTTTTCCTCTACAACTCTCGCCTCTGTCTACTCCACACGCCC
CAAGCACTCTCTTGCTTCTAGGCTTGGCCATGTGCAGTTTGTGTACGGTTCCCAAGCCAAAGGGTAGTATTTGACTGTGGAAAAGGGGATCATTGGGTGG
TTTCTGTCACACCCAGTGACAGYCTTCTTTCTCCTCCCCAGCAGAATTCATCTCCTCAAGATTGTCTCTATAAATTATGTATGCTGTTTTTTTGTTTCCA
GCCTGATTGAATTTCCACCAGTCAGTTCTCCACTCCCTTCCTATGAACAGATGGTGGCGGCCAGTAGCCATAGCCAGATGTCCATGCCCCAGGTGTTTGC
CATTGCAGCCTATTCAAAGGGATTTGCCTGTTCTGCTGGGCCAGGGAGAGTTCTGCTGTTTGAGAAGATGGAAGAAAAGGATTTTTACCGTGAGAGCAGA
GAAATCAGGGTAAGGCGGGAAGAAAAAAAAGAAGTAAAATGGGGGTCCTATTGGCATTTGTTCCCCAGCAGCAGTTCTCTGAGAAGGCATCTGATGGGGA
GGGATAGGGCAGGATTGCTGAGCAGAAATGGTGAAATGGTGACTCGAGATGTCTGTCCTGAGAGAGATTTTAGGATGAGGTGAACAGAATTAGAGTTTAA
AAATAGGAAAATCGACCAGCATATTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGGTCTCTTGAACTCAGGAGTTCTAGACCAG
CCTGGGCAACATGGTGAAACCCCATCTCTACAAAAAAAAAAAAAAAAAAATTATGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCG
TCTGTACTAAAAATACAAAAATTAGCCAAGCGTGGCAGTGTGTGCCTGTAGTCCCAGCTACTTGAGAGGCTGAGGCAGGAGAATAGCTTGAACCCAGGAA
GCAGAGGTTGCAGTGAGCCAAGATCGCTCCACTGCACTCCAGCCTGGTCGACAGATTGAGACTCTGTCTCAAAAAAAGAAAAAAAAATACAAAATACAAA
AAGTAGCCAGGTATGGTGGCACGTGTCTGTAATCCCAGCTAGAATTGCTTGAACCCGGGCAGCAGAGGTTGTAGAAAGCCAAGATCACACCACTGCACTC
CAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAATTAGCCAGATGTGGTGGTGTGCACCTGTAGTCCCAGTTACTTGAGAGGCTGAGGT
GAGAGGATGGCTTGAGCCTGGCAGGTGGAAGTTGCATTGAGCCAAGATCATGCCACTGTATTCCAGTCTGGGTGACAGAGCCAGACCCTCTCTCAAAAAA
ACAAAGAATAGGAGGATCCCAGGAAGCAGCCTGGTCTGGGAGTCTGTAAGCTAAAGTTATCCAAGAAAACTCTGAAAGCCTAGGCCGGGCGCAGTTGCTC
ACGCCTGTAATCCCAGCACTTTGGAAGGCCGAGGCGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACGCGGTGAAACCCTGTCTCTACT
AAAAATACAAAAAATTAGCCAAGCGCGGTGGTGGGCGGCTGTTGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGC
TTGCAGTGAGCTGAGATAGTGCCACTGCACTCTGGCCTGGGCAAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAAACTCTGAAAGC
CTAAGGCCACAATGACAACGTGGGGACATTACTGATAGCTGTTTTGCATCTTGGGCAGATTCCTGTGGACCCGCAGAGCAATGATCCAAGTCAGTCTGAC
AAACAGGACGTTCTCTGCCTGTSCTTCAGCCCCTCAGAGGAAACTCTGGTTGCCAGCACCAGTAAGAACCAACTCTACAGCATCACCATGTCCCTGACAG
AGATCAGCAAGGTGAGTCTTTCCAGCAATGGTCCTTCCAGACCAGGACCTATCTGCCTGCTGGGGGACTAGTCACCATGTGGGCAAATTTTAATCCAAAT
AAGTTAGCATAAACTCATGCATCCCCTTAATACAGAGCAAAACAAAATTCTAATTTTAAGATATTCACATAGAAGCATGCTGATAGACTCAGTGGGGCTG
TGATTGCTACAGTAACTTTGGAGGACAGACGTATTGGCATTGTCCATCAAATTTAAATCTCACATATCCTTTTACCCAGAAATTGCATTTTAAGGCATTT
AATCTATTGCTATATTTGCTCATGTACACAAATATGTATATATAAAAATGTTTCTTTTTCCTTTTTACTGTTTTGGAATAACAAAGAAAGCTAGTATAAA
TACACTGCAGACATTACAACAAAAAAGCACTATTAAAGATAGAGATCATATTGTACTTAAAATGGCTCAGTACCAATAAGATATTACAATTTTAAGTTTG
CATGTACCTAATACCATAGATTCAAAATATATAAAGCAAATCTGGGCAGAACAAGGAAAATAGACCATCTACAATCATAGTAGAAGATTTAACATATCTT
TCTCAGTAATGGTCCTTTTTTTAATAACAACTTAATTGAGTTATGATTCACATACAAATTGCCTATTCAAAGTATACAATTCAGTGGTCTTTAGTATATT
CAAAAAGTTRTGCAACCATTTATCATAGACAGCCTTAGGACATTTTTATCACCTCAAAAAAAAAAAAAGCGCATACCCTTTAGCTATTATTATTCCTCCA
TCCTCCCAATTATCACCCCTCCCCACCCCAGCCCTAGGCCACTACTTACCTACTTCATGTCTCTATATATAGATTTGCCTATTCTGGACATTTCATTCAA
ATGGAATCATAAAACGTGTGGACTTTTATGACTGGCTTCTTTGACTTAGCATAATGGGTTTTGTTGTTGTTTTGAGACAGGGTCTTGCTCTGTCACCCAG
GTGGGAGTGCAGTGGTGTGATCATGGCTCACTGCAGCCTTGACCTCCTGGGCTCCAGCAATCTTCCCACCTCAGCTTCCCAAGTAGTTAGGACTACAGGT
GCACGCCACCACACCCAGCTAGCTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGTTTCCCAGGCTGGTCTTGAGTTCCTGAGCTCAAGCAGTCCAC
CCGCCTCATCCTCCCAAAGTGTTGGGATTACAAGTGTGAGCCGCCACACCTGGCCAGCATGTTTTCAATGTTCATCCATGTTGTAGCAGGTATCAGTACT
TCATTCCTTTTTTATGGCCAAATAATATTTAATTATATGGATATACTATATTTTATTCATCAAATTTGTATATTTGGGTTTTTTCTACCTTTTGGCTTTT
ATGAATAATGCAACTAGTTTTTATGTGGATGGGTTTTCATTTCTCTTCCTAGAAGTGGAATTGCTGAGTCATATGGTAACTTCATGTTCAATTATTTGAG
GAACTGCCATACTGTTTTCCAAAGTTGCTGGACCRTTTTATATTCCCATAAGCAGTATATGAGCATTCTGATTTCTCTATATTCTTGCCAAAACTTGTTA
TTATCTTTTTTATTATAGCCATCTTAGTGGGTAAGAAGTGGTATCTCATTGTGGTTTTGATTTGCATTTACCTGGTGATTAATGATGAACGTCTTTTCAA
GAATTTCTAATTCTTCTTTGAAGAAATRTCTATTCAGATTTTTTGCYCATTTAAAAAATTGAGTCATATGTCTTTTTATTATTGAGTTGTAACAGTTATT
TATAATTCTAGATATAAGTCCTTTATCAGATATGTGATTTGCAAATACTATGTCCCATTCTGTGGGTTGTCTTTTCACTTTTTTGATGTTGTCTTTTGAT
GAAGTTTTCAATTTTGATGARATTGAATTTATCTATTTTTCTTTTGTTGGTTGTGCTTTCCRTGTTATATTTAAGAAGCCAATGCCTGAGGCCATGAAGA
TTTACCTCTGTATTTCTTCTAAGAGTTTCATAGTGCTAGCTCTTACATCTAGGTCTTTAATCCGTTTTGAATTCATTTGAGTATATGGGATGGTATAGGG
GTCCAACTTCATTCTTTGGCATGTAGATATCCAGTCGTCACAGCATCATTTGTTGAAAAGGCTAGTCTTTCTCCATTGAGTAGTCTTGGCATCTTGTTGG
AAATCAGTTGACACATGGGTTTGTTTCAGGACTTCCAATTCTGTTCCATTGATCTGTCTATCTTTATGCCAGTACCACACTGTCTTGATTACTGCTGCTT
TGTAGCAAACTTTAAAATTGGGAATTGTGAATCTTGCAAATGTAGTCTACTTTATCAAGATTGTTTTGGGTAGTCTGTGTCCCTTGCAATTCCATATGGA
TTTTACAGTCAGCTTTTCAATTTCTACAAGAAGCCATCTGGGATCCTCACCGGGATTGCATTGAATTTATAGATCAATGTGGGGAGTGTTGCCATCTTAA
CAATACTAAGCCTTCCAATTCTTGAGCATGAGATATTTTCCATTTATTTAGATTGTCTTTAATTTGTTTCAAGAACATTTTGTAATTTTCAGAGTATAAC
TTTTGCACTTCTTTTGTTAAATATATTCTGAAAAATTTTCTTCATGATGCTATTGTAAATTGAATTATTTTCCTAATTTCATTTTTGGATTGTTCATTCT
AAGTGTATAGAAATACAATTAATTTTTGCATACTGATCTTGTCTCCTGCAACCTTGCCAAACTCATTTATTAGTTCCAGTAGTTTTTGTGTTAGGTTATT
CTGGCATTGCTATAAACGAGTACCTGAGACTGAGTAATTTATAAAGAAAGGAAGTTTAATTGGCTCATGGTTCTGCAGGGTGTACAGGAAGCATGGTGCT
GGCATCTGCTTCTGGTAAGGGTTCAGGAAGCTTACAATCATAGTGGAAGATGAAGGGGTAGTATGCACATCACATGGTGAGAGCAGGAGCAAGAGAGGGA
GGTGAGAGATGCCACACACTGTTAAACAACCAGATCTCTCATGAACTCACTCATCACCAAGGGGATGTCACTAAACCATTCATAAACCATTCATGAGGGA
TATGCCCCCAATGATCCAAGCACCTCCCACCAGGTCCCACCTTCAACACTGGGGTTACATTTCAACATGAGATTTGGAGGAGACAAATATCCAAATTTTA
TCAGCGTTTTTAGTGAATTCCTTAGGATTTTCTATATATAAGATCATGACATCTGCAATAGAGGTAGTTTTAGTCTTCCTTTCCAATCTGTGAATGCCTG
TTACTTATTTTCCTTGCCTAGTTGCCATGGCTAGAACCTCTAGTATCATGTCAAATATCAGTGATGAGWGCAGATCCTTGTCTTGTTCCTAATCTTAGGG
AGAAAGCATCYAGTCTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGGGCARTGGCGCAATCTTGGCTCACTGC
AAGCTCCGCCTACCGGGTTCATGCCATTCTCCTGCCTCAGACTCCCGAGTAGCTGGAGCTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTTGTATTT
TTARTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGATCTTGTGATCCGCCTGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGC
GTGAGTCACCGTGCCCGGCTGCATCCAGTCTTTAACGATTAAGTTTGATGCTGTCTGTAGGTTTTTTTGAAGATACTGTTTATCAGGCTGAAAAAGTTCC
CTTCTATTCCTAGTTTGTTGAATGTTTTTATCATGAACGGCTGTTGGATTTTGTCACATTTTTTTTTTCCTGTGTCTATTGAAATTATTGTGTGAGTTTT
CGTTTTTTACTTTATTAATATAGTATATTATACTAAGTGATTTTCAGATGTTAAACCAYCCTTGCATTCTTGGGATAAAATCCACTTGGCCATAGTATAT
AATCATTTTCATATTAGTATATTCAATTTACTAGTATTTTGTTGAGGATTTTTGTATCCATATTTATAAGAAATAGTGATCTGTAGTTTTCTTGTGATGT
CTTTGACTGCTTTTGCATCAGGGCCTCATAGAATGAGTTGGGAAGTGTTCCAGCCTCTTCTAATTTTTTGAAGGTTTGTGAAGAATTGGTATTAATTCTT
CTTTAAGTGTTTGGTAGAATTCACCAGTGAAGTCATCTGGGCCTGGGCTTTTCTTTGTGGAAAGTTTCTTTTTCTAATTAATCTCTTTACCTATTTTCAT
CTATTTAGATTGTCTATTTCTTCTTGAGCCAGTTTCAGTTTTTGTGTCATTCTAGGAATTTGTCTATTTGTCTAATATAGTGGCATGCAATTGTTCATAG
TATTCCTTTATGATCCTTTTTATTTCTGTAAGCTTAATGGTAATATTCCCTCTTTTGGCCGGGCGTGGTGGCTCACGCCTGCAATCCCAGCACTTTGGGA
GGCTGAGCCAGGCAGGTCACGAGCTCAGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCAT
GGTGGTGGGCGCCTGTGGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAAGCAGGGCTTGCAGTGAGCCAAGATCGTGCCACT
GCACTCCAGCATGGGTGACAAAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGTAATATTCCCTCCTTCATTTCTGATTGTATTAATATGATTTT
CCTCCTCCCCCCATTTTTTTTTATCTCTTTAAAGAATCAGCTTTCGGTTTCATTGATTTTTCTCTATTGCTTTGCTATTCTCTATTTCATTAATGTTCAC
TCTAATCTTTACTGTTTCCTTCCTTTGGCTTGCTTTAGGTTTAGGTTGCTCTTTTTTTTTTTTCCAGTGTCTTAAGGTAGAAGATTAGGTTATTTATTTA
AGATCTTTCTTTTTTGAAAATGTAGGTATTTGCAGCCAGAAAAAAACTCCTCTTAATATTGCTTACCATAAATTTTGCTATGTTATGTCTTTATTTTCAT
TAATCTCAAATATTTTGGAATTTCTCTTTTGATTTCTTTTTGACCCATTGGTTTTAGGAGTGTGTTGTTAAATTTCTGCTTATTTGTGAGTTTTCCAGTT
TCTTTCTGTTTGTTATTAATTATTAATTTAATTACACTGTGCTTAGAGAATATATTTTGTATTATTTCTATTCTTTTAAATTTATTAAGGTTTGTTTTTG
GCCTGGCATATAATCTATTCTGGAGACTGCTCTATATGCACTTGAGAAGAATGTATATTCTGTTATTATTGAGTTGGGTGTTCTATATACGTCTGTTAGG
TCTGGTTGGTTTTTAGTGTTGTTCAGATCTTCTGTTTCTTGTCATCTTCTGCCTACTTGTCTTGATTGTTTTTGAAAGTGGTGTATTGCATGGCCTGGTG
TGGTGGCTCACGCCTGTAATCCCAGCACTTCGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTCATGACCAGCCTGATCAACATGGAGAAACC
CCGTGTCTACTAAAAAAATACAAAATTAGCCAGGCGTGGTGGCGCATGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCA
GGAGGCAGAGGTTGTGGTGAGCCAAGATTGTGCCATTGCACTCCAGCCTGGGCAATAAGAGTGAAACTCCATCTCAAAAATAAATCAATAAAAAAGCCGG
GAGTGGTGGCTCACACCTGTAATCCTAGCACTTTGGGAGGCCGAGGTGGGTGGATCATCTAAGGTCGAGAGGTCGAGACCAGCCTGACCAACATGGCGAA
ACCCAGTCTCTATTAAAAATACAAAAAAATTAGCTGGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTAGAA
CCCGGGAGGTGGAGGTTGCGGTGAGCCGAGATCATGCCATTGTACTCCAGCCTGGGCAACAAGAGTGAAAACTCCATCTCAAAAAAAAAAATAAAAAGAA
AGAAAGTGGTATATTGCAATCTTCAACTCCTATTGTTGAGCTGTCTATTTTCCCCTTCATTCTTGACAATTTTTACTTTATACATTTGGGTGCTCTATTT
TTAGGTGCACATATCTTTACAATTAATATATTTTCCTGATGGGTTGACCATTTTGCATTATAAAATATGTCTCTATTTCTAGTAACATTTTCTATTTTGA
AGCCTATTTTGCCTGATCTTACTGTAACCACACCAGCATTTTTGTTGTTGCTGTTTGTATGGTATATCTTTTTTCATCCTTTTACTCTCAATATATTTGT
ATCTTTGATTCCAAACTGTGTCTCTTATACACATCATATAATTTAATCTTTTTTTATCCAGTCTGACAATCTCTTTTGATTGGATTGTTTAATCAGTTCA
CATTTAATGTTATTACTGGTATAGTTGAATTTATGTCTACCATTTTTGTGTGTGTGTATCATGGGGTTTTTGTTCTTCTGTTCCTCTCTATGCCTTCTTT
CACATTAAGTAAAATTTTAAGGTAGTGTTTTAATATCTTTAATTATTTTTCCCTATATACTTTTAATTATTTCTTAGGGCTTACCATACACACTTTAACT
CATTATAATCAGATTCAGTTTGATTCAATTTCATACTAACTTAATGCTAGTAACATATAGAAATGTTATTGCCACATAGCTACCTTCCCTTTCCCCTTTT
TAATGGTAATATTGTTATATATATTACATYTATGAGTGTTACAAACCCCAATRACATATTCTTATAATTATTACCTTATATAATTTTATATATTTTAAAG
AAGCTGAGGTTARAATGGGGAGCAATTATATATTTATAGTCTTTTTATGTTAACCTTTACTATCATTTCTGGTTCTTTTCATTTGTTTCTTGAGTTTGAG
TTACCACTGAAGTCATTTCTTTAATCYGGTACACATTTGTTCCCACCCACCATTTGTGTGCTATTACTGGGAAATATATTACATTTCTATATGTTATAGC
AACAACAGTATATTATATGCATATTGTTTCCTACAATTGCTTTTTAAATCAGCTAAAAGATGATGAAATATATATTTATATTGTCTTTTATAATTACCTT
TACCAGTGCTCTTTGTTTTGTGTGGATTTGAATTACTATCTGGAGTAACTTGCTTTCAACCTAAAGGATTTCCTTTAGTATTTTCTGTAAGTCATATCTG
CTAGCAACATATTTTTTCAGTTTTTTTGGTAATTTTTTTTCACCTTTAGTTCTAAAAGATAGCTTTGCAGGATTTTTGTTTGACAGCTTTTTCTTTAAGC
ACTTTGAACATGTTATCCCATTCTCTTCTGGCTTCCGTTGTTGTTGCTGAGATATCTGCTATTAATCTTATTGGGACTCTTTTGTAAGTGATCAGTCATT
TTTCTATTGATGCTTTCAAAATTTTCTTCTCATCTTTAGCTTTCATTATTTTTGCCAAAATGTGTCTGTTTGTGGAACTCTTTGTGTTTTTCCTACTTGG
AGTTCATTGAGCTTCCTATATGTGTACACTGGTGTTTCCCAATAAATTTATAATATTTTCAGCAATTATTTATGAAAATGTTTTTTCTGTTCCTTTCTCT
TTCTCCTCTCCTTCTAGCATTCACCTTATGCATTAGTTGGTGTGCTTAATGGTGTCCCACATTTTTCTGAGGCTCTGTAAATTTCTAATTCTTTTTCCTC
TCTGTTCTTCAAATTGCTAATCTTTTTTGATCTATAAAGWTCACTAATTCTTCTGCCAGTTCAGATCTATTCTTGAGCACCTCTAGTGGATTTTTCATTT
CAGTTATTGTAGTTTTTAACTCTAGAATTTCTATTTTCTTACAGTTCTATCCCTATATTGATGGGATCCTTTTATTCTTCTCTATTTGATGCATATCATT
TCTACCTTTACTTGTTTAATCATGGTTTCCTTTAGTTTTTTGGACACACTTGGAATGGCTAATTTCAAGCCTTTGGGTGCTGCCGTAGGGAATTTTGTTG
CCTGTGAACAGAAAAATGCAAATTAATACAACTCTGAGATGCTTCTTTATAAGAAGTTTCATTACTATATTGTCAAAAATTAAAAATCCACTTATTACCA
GAGATTTCTGAGGACAGGGGAAAATGATAACCCTAATATGGTGATGATGGGAGTGTAAACTGATACAGCCATTCTAGCAAGGAATCCGATAATTCTTGGT
CAAATAGAGAGTGCATGTACCTTGTTATCCAGTAGTCTGCACTGGATACACACCAGGAATTTGACCCCACAGAGCCATTAAAGAACATGGACAGGCCAGG
TGTGATGGCTCACACCTATAATCCCAGCACTTTGGGAAGCTGAGGCGGGTGGATCACAAGGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAACC
CCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCATGTGCCTGCAGTCCCAGCTACTAGGGAGGTTGAGGCAGGAGAATCGCTTGAACCTGG
GAGGCGGAGTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGCATCAGAGCGAGACTCCATCTCAAAAGAAAAAAAGAAAAAAAAAAAAACAT
GGACAAAGATATTCACCATAGTGTTTGTAGCAATGGACGGTTGAAGACAATCCACATGTTCATTCCTAGTGGTAATGAAGAAGTAAAGTAGCTAGATGCA
CACTGTAGAATATCAAACATCAGTTAGAAGCAAATTATACATACTGCAACATAGATGATTCCTTAAAAATTTCGTGTTGAGAAAAAAGTAAAAGTACAGA
AAGAGATYTGAAGCACAATATCATTTATAGAAATATAAAACACATATGTATRTAGTCAGTGACATACATGAAATCCTTTTGTTGGTGCCTACTTATCATA
GGGAGGAACAGAAGTAAAAATTGAGAAAGAAAGGAGCGAAATAAAATAAAATTTGTCTTATATGAATTTATGATGAATCTCTGCAAGTCTGCTTCTGAGA
TACAAAATGAAAACAAAGACACAGAAAGCAAGGAAATATGAGATAATGTCATCAGATGAGATTTAGAATTGGAAGAAAAAGGTTGGAATGTTTGAAAAGG
AGAATAAACAGTATGAAATACTTATCTTGGATATTTAGAATGTGAATTTATTGAAAAAATATGGTAGAGTTACCAGACAGGGTTAAATGCCCACTGGAGG
TTTGTGGTCATGCATTTGCAGTGAAACCGGTAAGCCCACTTGTGTGATTCCCCATCATTGCATGACTCCTCAGGCAGAGGGGGAAGAGAGAGCATTGCTT
TTGTTTTTWAGACAAGAGAGATTTGAGTGTGTAAAAGCTAATAGGAATGTGCTCATAGAGACAGGCAGGTTGAAGATATTGGAGAAAGAAAGCGTAACAG
ATGGAGAAGAATAACAATAACCTGTGCCTGCCTACCCAGCATAGCATCTCTTTCTCTGAGATAGTAGGGTCTACAGCCATAACACCGTGAATGCACCTGA
TCTTGTCTGATCTCAGAAGCTAAGCAGGGTCAGGCCTGGTTAATACTTGGATGGGAGATACTAGCGTAGGATAGAGTGGATGCAGATAAATTTATAAGTG
GCAGAGGGGCAGAATTTGAAAAAAAAAATCCATTTCAGCCTTTGTCTTGGCTTGCGAACAGACCTAAATATGTACATCTCATTAAATTTCCCAACGATCA
CTCCTCATTCAGGTGTTCCAGAAACAATGCCTCTGATGACAGACATCTGTAACCTACATAACCAGTGCAGTAGGATGCATTTCAATTTAAAATCATCCAT
CCAACTCTCATTTGCTACTGGTGATAATTAGTGCAGTCTCTCCAGAGAGAAACTTGGCATTATTTATCCAGATCCTTAAAAATCATTCATACAATTTTTC
CCAGTATTCCACTTCTAGAACTGTATACTAAGGAAATAATCAGAGAGATACAAAGACTTGTGCAAGGATATTTAGTCTAGTGTTATTCCTATAATAAATA
ACAAAAATTGGAAGCCACTTAAATGTTCCTACAGCAGAGGAAGGGTTAAATTAAATTCTAAGATATCCATTGAAGAAAATATTTTATTGCCATTAAAATA
ATGTTTAAAAATAATATTGGCTCAGCCAAGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCATAAGGTCAGGAGAT
CGAGACCATCCTGGGCTAACATAGTGAAACCGCGTCTCTACTAAAAATACAAAAAAAAATTAGCCGGGCATGGTGGCAGGCGCCTGCAGTCCCAGCTACT
CGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGCTTGCAGTGAGATGAGATTGCGCCACTGCACTCCAGCCTGGGGGACAGAGCGAGAC
TCCATCTCAAACATAAAATAAAATAAAATAAAAAATAATAATAATATTGGCTCAGGAAAATATGCATAATATTCAAACAGTTTAGCCACAGCCTGATTTC
TGTGCACCCAGGCTAATTAATGTTCATGGGAACTAATTAGAGCTGACATGTACAGCCAGCCTTTTGCTTACTCTGCGGGATCTTGTTCTGTGTGATTTCT
CTAGGGGGAGCCTGCTCACTTTGAGTATTTGATGTATCCATTGCACTCAGCACCCATCACCGGTCTAGCTACCTGCATCCGCAAACCCCTTATAGCCACC
TGTTCTCTGGATCGATCCATCCGCCTTTGGAATTATGAAACAAAGTAAGGAATGAARGGCTTGCCTACTTTATTATGCAAGACCCCAGTTGTGAATTTAT
GTGAATTATTTTAATTACAGTGTTCCAAACTTTAATTATTTAGAAGCTTTCAGTTGGAAAAGATTTTTAAAAAATCAAGTCAGTCAACCTACCTGTTTCT
CACTCTTGCGTGGGCTAGAAAACTACTTTGTGGTTTATTTAATGCTTACCACATGCTAGACACTGGGGACATGAAGAGATGAAGACAACACCTCAGTCTC
TCACCTTCTTACATAAACTCCTGGGTCCCTCCAGCTCTCYTATCCCCTTGTTTCCCACAGGAACTGCTCTTTGCTTCAGGGAGCTCTCCAGACCCTTTCT
TCCTCATCTTTCTCCCAGGACATCACTATCTCAACCACCCCCAACTCCCTCCTGACTTTACCTTCCAGCACAGCTTCCCTGGGAAGCTCCAACCCTAGGT
GGACCCCCACCCCCTACTGTTTTCTTTGTTCTTATGTACAACTTCTGGGGCTTCTGGGGAAAAAATACTTGGACAATACTCATGAATTTTGGAATATAAA
CAGAGCTATGTCTTCAGCATCGCTAGACCACACCTTGACCAGTCTCCCTATCTACCATGCTCCACGCTGGACATTATCCCCTAATAACCAAGATCTAGAA
AAGAGAGGAACCAACAATTGCAAACAGTAGTGTGTCTCAAATACGATGATAACAATATATATCAGATACAGTAGATGACTGGAAGGATTTAGTGAGCTAR
GCTTACAATTCAGTAATTGATCTTTTTCACAGCACCCTGGAACTATTTAAGGAATACCAAGAAGAGGCATATTCCATCAGCCTTCATCCATCTGGACAYT
TCATTGTAGTAGGGTTTGCTGACAAACTACGCCTCATGAATCTACTCATTGATGATATACGTTCTTTCAAAGAATACTCTGTTAGAGGATGCGGAGAGGT
AAAAAAAAAACTGCTGAAGACAAAAGTCCAGTTTCTTAGAAAGCCACGGCTGAAATATCAGGAACTAACATGATCTGGGGAGGTGGGACCAAAATCTGTC
TTGGAGAACTACAGTGGCTTAAAAAAAGGGGGAAGGAGGAAATCCAGTTATTTTCCCAGCAACCTTATTGAGTATATGGTTCCATCCCCATATTCTTATG
TCCACCMGACTATTTCATTGAACCTAAAACCTTGTGAGATCCCCGCTATGATAAGTCCTGTCTGTAATTGTGGAATATTAACAAATATTTTAAAAGAAAA
GTAATCTCAGAATCAGAGTCACAGCTAAGAAGGTGAGGTTGGAGACGGAGGAGCCAGGGAAAAATAAGCATCAATGGTGAGAGGTAATAAAGAGCGCATC
AGCTTTCCCTGAGGTGTCTTGCAGAAACAAGGCAATGATTTCAGGAATTACTTCCCCGGCTCTGAAACATGCTTCTACAGGCAAAATGATTGCTTGTGGT
CCCAACGGCTTAATGATTTGTGGGCCTGACAGTGTCAGCATCTGGCCACTATGAGTTACAGGAATAATGAAAGTGTCTGAAAATGTCAGCCACTCCTCAG
TCTCATTTGCACCTTCCCCCCACTCCCACCCTCACACGTAGTTTCAGTCTGAACTCGTTGGGAAAAGCACCTCTTGACTGTAACCTCTAATTAGACTGCT
CACTTCCTGCTTGCTTGCTCTCTTGCTGTCTTTCCCTATAGTGTTCCTTTAGCAATGGAGGTCACCTGTTTGCTGCAGTCAATGGAAATGTGATTCACGT
TTACACCACCACGAGCCTAGAGAACATCTCAAGCCTGAAAGGACACACAGGGAAGGTAAGTGAGTGAACAGTCTCTGGGGAAACAAGGGGCACGGAGCCA
AGTATGCCGCCAGCCAGTGGGATACAGGTGAACAAAAGAGAGATGGTTCCTTTCCTCATGGGTTCACTGTCTACTTGGGGAAAGAGACAATAAAACAAAT
GCACAGACAAATGTAGTTACTAATTGCAGTTCCACTGAAAGAAAAACATGGTGTTGTTGTGAGAGAAATAATGAAGGGGGCGGCATAATTTAGGTGGCTG
TATTTGCAAAGGCTTGGTCCTATAAGAGTGAGTAGGAGTTAATCAGACACAACTGGTGGGGATAATCACTGCAGATAGGGATCCAAAGGCCAGAGATGGG
AGACTCATAGGGTGTCAGAGAACGTGAAAGTCTGTGGGCCTGGAATGTGGTGCCAGGATAAACCGTGGGGTAAAGATGGGCTGAGATTGGAGAGGTCACA
AGGGCCCAAATGCATGGAAACTTGTAGGCCTTGTAAGGATTTATCCTTCTTATTTCTTGAAATCATGGAAGACTTTCAGGGCAGAGAATATGACCGGATT
TGCATTTTGAAGGATTACTTTGGCAGCAGAGTGAAGACTATTGAAGGGGGCGAGGGTAGAAATGGTGAGGAGGCTATTGTGGATATCTACACCATAGATA
ATAGTGGTGGTGATACAGTTAGGGAGAAGTGGATGGATTCAAATGATTTTAGAAAGTAAAGTCGTGGTGGCTTATGCCTATAATCTAAGCACTTTGGGAA
GCTGATGTAGGAGGATCGCTTGCACTCAGGAGTTCGAGACTAGCCTGGGCAACATAAGGAGACCCTGTTTCTACAAAAAGTAAAAAATATTAGCCAGGTG
TKGTGGCACACACCTGTGGTCCCAGTTACTTGGGAKGCTGCGGTGGGAGGATCACTTGGGCCCAGGAGGTCAAGGCTGCAATAAGCCATGATCACACCAC
TGCACTCCAGCCTGGGTGACAAGAGTAAGACCCTGTCTGAAAAAAAAAAAGAAAGAAAGAAAGAAAGAAAAGCAAAAGAAAAAAAGAAAGTAAAATCACT
AGGTCCTAGAGTAGTAGATTAGATGTGAGGCATGATTAAGAGGGAGAGGCATAGAAAGGGTAAGAAGTCAGCAGATGAATTTGGAGATAAGAGGCCATTG
GAAAAGAGAGGCATTCTAGGCAGAAGGACTTGTTGGAGATGATGAAATGGAGGTATGAAATAGGACAGTGCTCATTGGTTCATATGGCTGGAACACTGGA
CACATTTGAGCAATGATAGAGGGAGTAGGAAAGGYTGGCTGCATCGCAGAAGGTAGTGTATGCCATGCCAAGGAATTGGACTTTAGTCTCTAGGTGACGA
GAAACAACGGAAAGGATTTAAGCAAGAAAGTAATGGGATCAGAAAGGTAACTCTCTGAACAGTATTGAGGAAGGATTAGAGTGGAAGGAAATTGGAGTGA
TGGAGAGCAGTTAGGATGTGAAGGTGAAAGCTGGGTTAGGAACTAAACCATGACTTTAGTAGCGGAGGCAGAGAGAAGAAAGAGATGAAGTTCCATTTTG
GCCATGTGATATTTGACGTGCCCAGAAGTGTGATGTATGTGTGTGGAGGTCAGGAGAGAAGTCAGGGCTGAGTATGAAGATTCGGGGAATTAGAAAGTAG
AGGAAGTCAGAGGCATAGATTAGATCACCAAGRGCCTATGTAGAATCTGAGAAGAATATTGGACAGCAGAGGGAAGACCAACATWTAAGAGACTGGTGAA
AGAAGAGGAGCCGATGAAAGACTGAAAATAAAGATACAAAGAGAACTTGGAATCAGATAATTATCTCAAAGAAGCCAAGGAACTAAACAATTTCTGAAAG
GTTGAAGTGGTCAGTGGTACTAGATGTCAGAGGGAGGTCATGTAAAGTCCAAAACTGACCGTTGACTTTAGCAAATAACAGATCATTGGAAGGAAAAGTA
AAAATGTGTGGAAAGTGAAAGTGCTATGTAAACACAAGCATTTTTGTTTGTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGAGGCGT
GATCTCGGCTCACTGCAACCTCCACCTCCTGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAACACAAACTCTTTTTTTGAGACAGAGTTTCGCT
TTCGTTGCCCAGGCTGGAGTGCAATGGCACAATCTCAGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCT
GGGATTACAGGCATGTACCACCACACCCGGGTAATTTTGTATTTTTAATAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTACTGACCTC
AGGTGATCCACCCACCTCGGCCTCCCAAAGTCCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCCACGGACATTATTAATGAGAGCTGCTGAGYCTCC
TCAGCTTCAGCAATATAATTAGTCTTCAAGTGACTGTGGAGATGCGGATGAAAGTACAGAAAGTGATTCTGATGCCCAAGCTCACCAGTCCAGGAAAACA
GCCATTTGTTTCATCACTTTACAAGTACTTAAAACACTGGTCTCTAATTAGGGATATATGTTAGAATGACATGTGTAACATTTTTTACAAATACAGATAC
AGGATGCAGCTAAAGCTATGCATACAGGGAAATGTATAACCTTAAATACATATACTGTGTTAGAAATGAAAAAAGATACATAAGCATCCATCTCAAGAAG
TTAGAAAAAGAACAGCAAATTAAATTCAAATAAAAGGCAGGAAATAAAGATAAGAGCAGAAGTTAATAAAATAGAAAACAGACAAAAGATCATCAAAGCC
AAAATTTGATTCTTTGAAAACACGAAATAGACAAACCCTTGGCATGACTGATGAAGAAAAAATTAAGAGTGTGGAGATACCAACAACCAATATGAGGATT
AAAAAGGGGATATCACTAAAGGTCCTATAGACATTAAAAAGATCTGAAAGGGGTCCGGGCGCAGTCACTCACKCCTGTAATCTCAGTACTTCGGGAGGCT
GAGGCAGGCGGATCCCTTGAGATCGGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACTTCATCTCTACTAAAACTACAAAAATCAGCCGGGTGTGGT
GGCACACACCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGGATCGCTTGAACCTCGGAGGCGGAGGTTGCAGTGAGCCGAGATTATGCCACTGCA
CTCTACCTTGGGTAACAGAGTGAGACCCTACCTCAAAAAAAAAACAAAATGAAAAAAAAATTGAAAGGATATTATGAACTTTATGCAAATAAATTTTAAT
ATATAGATGAAACTGACAAATTCCTATAAAAATTGAATCTGTAGGCCGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGC
GGATCACGAGGTCAGGAGATGGAGATCATCCTGGATAACACGGTGAAACTCCGTCTCTACTAAAAATACAAAATATTAGCCGAGCATGGTGGTGGGCACC
TGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGGGATGGAGGTTGCAGTGAGCCGAGATCATGCCAGTGCAGTCTAGCCTG
GGCAGCAGAGTGAGACTCTGCCTCAAAACAAAACAAAACAAAACAAAACAAGAAGAATCTGTAACTTAAAACCTTTCTACAAAGAAAACTCTAGGCCCAG
ATCTTATCACTGGGGAATTTTATCAACATTTAAGGAAAAAAAAATAACACTATCACTAATCTTGAAAAAAACTCTTCTAGAGAATTGGAAAAAGAAGGAA
TACTTTCCAGTTATGTTCTATGAGGCCAAAATAATYGTGATACCAAAATCTGTCAAAGACACCACAAGAAAAAAAAATAAGCTAGTCTTTTTCATGAGCA
CAGATAGAAATATATATTTATATATATATTTTAGACGGAGTCTTGCTGTGTCACCAGGCTGGAGTGCAGTGGCACCATCTCGGCTCACTGCAACCTCTGC
CTCCTGGGTTCAAACGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGTGTGCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGA
CAGGGTTTCACCATTTTGGCCAGKATGGTCTCGATCTCTTCACCTCATGATCCACCTGCCTYRGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACC
GTGGCCGGCCAGCTTTCAAGATTTTCTTATCTTTGGCTTTCAACATTTTGTTTTTGATGTGTCTGGATCTAGATTTCTTTGCATTTATCCTACTTGGAGT
TTATTGTACTTCTTGGATGTGTAGGTTAATGTTTTTCAACAAATTTGAGATTTTTCAGCATTATTTATTTGAATATTTGTTGTTTTTCTCTCTTCTCCTA
GTGCTCTCATTACAGTACCATAYGTGGGTGCATTTAATGGATGCCCACATTTCTCTGAAACTCTGTTAATGTTAATTTTTCTTGATTAGTGTTTCTCTCT
GTTCTTCCAATTGCACAATCTCTATTGAGCTATTTCAAGTTTGCCAGCKCAAATCTACTGTTGAGCCTTCCAGTGAATTTTTCGTTTTGGTTATTGTACT
TTTCAACTCCAGAATTTCCATTTGATTTTTRAACTAATTTCTGTTTTCTTATTATATTCTTTATTTGATGAGGCTTGTCATCCTACCTTCCTTTAATTAT
TTAAGCGTAGTTTCCTTTAGTTAATTGAACTTATTTGTATTAGCTACTTTGAAGTCTTTGTCCGCAAAATCTACCATCTGGGCCCCTTCAAAGGCAATTT
CTATTGCCTGAATGCTTTCTTTCTTTCTTTTTCTTATTGGTTACACTCTTTTTGTTTGTTTGTTTGTTTGTTTATGTTTCAATTTTTTGTTGGCTGAATA
TTTTAGACAATATATTGTAGCAGTTCTGAATATGTGTCCCCCCAGGGCATTGTTGTTGGTTGGTTGGCTGATTATCTGTTTCGTGACTTGGCTGAGCTAA
TTCTGTAAAGTCTGTTTCCCCTGTAGTGWGCAGTGTCTCATATCACTACTCAGATCTATTTTTCATCTTTTCTTTTAGCCTGGCTACCTAGGGTTGCCCA
TGAGTTGCCTAAGCTGCTTATTAGTTACAGATGGTGCATAAACCCCCTTAGACAATTAGGTTTTTACCTTTTACTACCAGATTTATGTGTGGCTTGGAAA
ATGCTATCACAGTTCAGAGAGTGATGGCTTTTGCATCATGTTCAGCCAGAGACTGGTAGTTTGGATGRCCCCTTTCTGATTGTTCATAAGAGGGTACAGC
CTTGGGCATGCACAGAGTCTTCCAGGCTGCGAGGGATGAATATGATTTCATTTTTAAGCCTGGCTTCCTAGGAGATGCCCCTGGGTCGGGAGAGCTTAAT
GTTCMGCATTTGGTAGACTGTTGTGTTTGGTAGGCCCGTTGTGCCAGTGAGACTCTGCCCTATGTTAACGGGTCTTTGTGTAGCTTAGGAGATGCTTTCA
AGTTTTCCTCATATCCCACTCTGACTGCACCTGAATCAGTACAGTCTAACACATACACAAGACCTTCCAGCCTCTAGAGTTGTCTGTTATCCCTGAAGGA
CTCTTCTTCTCTGTCCCTTTCCCTTGTTCTATCAAAATTCCACTCCTCTATATCATTTTGCTTACATCCTGGAGTTATCAGCCTCCTCTTAATCACTTTC
CACCAAGATCTCCACTGTTTTAGACAATGCCCATAGGCATGGACTTTTCCATGTTCTATTCCAAATAAAGTCAGCCCCCTCAAGCAGAGCTGTAGAGCTC
CCTGTCTTAGCACCTGACTTTCCCACAGACAGAACCTTTGCTCCACTGCACCAGAGCTGGGGCGGGGACCTGCTTTTCCAGGAGTAACATCCTCACTTCT
GTGAGTGACACTTGAGGTGTGTGCRTGTGTGTGCACATGCGTGTGTATGTGTGTGTGCACGTRTGTAAGCCCCTGGTCTTTTTGGCTTGCCCTTCATGGC
TTGGAACTTTCACTCTATAAGCAAACTGGGTCAGGAATCATTAGGGCACAGTTATTCTCAGTATGCTGAGCTTAGAGTGGAGTTTCTTCCAACAAGTGAC
AATGGGCCGAGGGGAAGAGAGTCTGAGCCCTCTTGGCCACACCTGCTTGGAATAGAGCTTCTGCAACATGGGGCTGGGGTAAGAATAAGAAATCCCAGCA
GTTTCCCTTTCCAGACCGAAACCATAGCCCAAGATCAGGAGCTATGGGGAGAGGGAGTCGCTTATCTTGGCCACAYCTGCCCAGAGTGCACAGCAGTGAA
GTTTCTGGAGCTGAGGCCGTAACAGAGCGAGTCATGGCTTAAATGCAGCAGACTCTGTTCTTACTGGGATTGAGTAGATTTTCTTGAATAAATGTTTTTC
CATTTGCTGTATTCCCTGAGGACAATTTCCAGAGACATTTTATTTATTTTATTTTAGACAGGGTCTCACTCTGTCACTGAGGCCAGAGGGCAGAGGTACA
CTCATAGCTCACTGCAGCCTCAGCCTCCCCAGTTCAAACCATCTTCCTGCCTCAGGCACATGCCACCATGCCCAGCTTATTATTTTTATTTTTATAAAGA
CAGGGTTTCACTATGTTACCCAGGCTATTCTCAAACTGCTGGGCTCAAGTGATCCTTCCACCTCAGCCTCCCAAAGTGTTGGGACTACAGATGTGATCCA
CTGCACCCAGCCTTCTAAAGACTTTAAATGATTATTTTTTATCATATTTACCAGTTAACCTACATTGTCAGAGAGAAGGTCAAGTTGAGGTYCTTACCGT
GCCATTCCAGAAGTCCACTCTCTCTGTGCTATTTTTGCAAGTTTCTGTGAATACATAATTATTTCAAAAATGTTTTGAAAAAACAGCAATAATTGGTTGG
TTCTAGCCTTAAGAAACCTGTAGGATTCAGTCTTTACGTTCATAAAGTGAAAAAGAAATGAGAGTGTTTCATCTTCAGTAATTTGCAAGCGTCATAGAAA
ACAGAATGTGAACGTTCACAAGAAGCTATGTTTTGTGCTAACAGAAGGGCCTACAGCAGGAAAGGACGTTCTGCTCAGTCTAGTGGAGCACCTAAGGAGT
TTGCACCCTTTTCTGTGTTAGGGTGTAAGTGTGTGTACACTCTTCACTGGATATGTCTTCCTCTCCTGCAGATTCGCTCAATTGTGTGGAATGCAGATGA
TAGCAAACTGATTTCTGGTGGCACAGATGGTGCTGTGTATGAATGGAATCTGTCCACAGGAAAGAGAGAGACAGAATGCGTGCTCAAGTCTTGCAGCTAC
AACTGTGTTACTGTCTCCCCCGATGCCAAAATTATCTTTGCTGTTGGATCAGACCACACCCTCAAGGAGATTGCAGATTCCTTGGTGAGTCTGCCCCTGC
CCCGCCTCTGGGCTGGGGCACGGATCTGCAGGGACAGCTTCCCGTGCTTACAGCACAAAGTATGCACGGAATGAGGGCCTCTGCATACAGGGCCCCTTCT
TCCCAAGATAACATCAGGCTCCTCATTCCTTTTAGATTAGCTCAGTTATCGTCACTTCCTGAATTTCCTGCCTAGTTTCCTTCCTGACTGGGTGAAATTG
TAAATTGCGGGGCTCTTTTTCATTTCCCTTTTACTTGCTGTCTGTAACTTCTCTCCCACCTTCCAGGCATGGAGGTCATGTCATCTCTAAACTGTACTCT
TACCCTTGGTCTGCACTTACATTCCTGGGGTAAAAACCTAACTACGGTATGCACTGAGTAACACCAATGATGGACCACATGGACTGTAAGATTGTAATGC
CATAAGATTATAATGCCAAATGTTCACTGTACCTTTTCTGTTTAGATACACAGATATTTTCCATTGCGTCACAGTTGCCTACAGTATTCAGCATAGTCAC
ATGCTGTTCAGGTTTGTAGCCTCGGASCAGTAGGCTCTACCACATAGCCTAGGTGTATAGTAGGCTGTCGCAGCTAGGTTTGTGTAAATACACTCCRTGA
TGTTTGCGTGACAAAATAGCCTAACCATGTATCCCATATCAAGCGATGCATGACTGTGCAGTGAGCTGCTCTCACCTAGGCTTGCCACTGTATTCTTTTG
AAATCCCCAAACTCTGAAACCGTACAGTTACATTGGGCTCCAAATAGTGAAGGGAAAAGAGAGGAGCTCAGCAAGGATGCATCATACAAACATGGGCTGT
GCGCTCCTCCAGCTGGTTCCTCCCACTTTTCCTGTGACTGGTGCCTGGGAAAGTGCGTAGATACCACGGCAGCAAGCTAGCCCAAGGCAGATCTCCCGTG
GCTGGAACACAGCTGACAGTATGGTGACTCTCCTGTGTACCCCCGAGTAGCCTGGTCCTAATTCAATGGCAGCTATCAGTGCTGTGCCAGAATAAAGCCC
CTTTAGGGCAGGGCCATCTTTTGCTYCTCTTGGCAGCCCTACTAGCTGGCACATTGTGTGGTGCACAGCATTCAATAAATGTGTGTGTAGGCATGAAAAA
ATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAGTGAGGTACCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAAC
AACAGGTGCTGGAGAGGATGTGGAGAAATAGGAATAATTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGACAGTGTGGTGATTCC
TCAAGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGAGTATATACCCAAAGGATTATAAATTATGCTGCTATAAAGACACATGCAC
ACGTATGTTTATTGTGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATCAATGATAGACTGGATTAAGAAAATGTGGCGCATATACACCATG
GAATACTATGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGTAGGGACGTGGATGAAGCTGGAAACCATCATTCTCAGCAAACTATCGCAAGGACAGA
AAACGAAACACCGCATATTCTCACTCATAGGTGGGCATTGAACAATGAGAGCACTTGGACACAGGGTGGGGAACACCACACAACGGGGCCTGTCGTGGGA
TGGGGGGAACAGGGAGGGATAGCATTAGGAGATATATCTAATGTAAATGACGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAAC
AAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAATAATAAAAGAAAAAAAAATATGTGTGTAGGTGGGTGGGTGAATGAGTGCA
TGAATGAGTGAGGGAATGAAGGGGCGCTCTGATAGTACAGTAGTCCCACCTTACCCACAGTTTCAGTTACCTGTGGTCAACCAAGGTCCAAAAACAGGTG
AGTACCATACTGTGAGTAAGATATTTTGAGAGAGAGAAATCACATTCACACAGCTTTTATACAGTATTCTTATAACCGTTCTATTTTATTATTAGGTATT
ATTTATCTCTTACTGGACCTAATTTATAAATTAAACCATATCATAGTTATGTACGTATAGGAGAAAACCATAGTATATATAGGGTTCAGTACTATCTGTG
GTTTCAGGCACCACTGGGGATCTTGGAACATATCCCTCAAGGATAAGGGGAGACTAATGTATGGTTTTGCTTATGTAATGAGCATTAATAAATGCTTGCT
GAATGCATTTATGAGCAATAGCCCATTCTCATTTTGAAATGCACCCATGCRTAGCAGTCAAAGCAGAGACTGGAGCCCACCCAGGTACATGAGATGAAGC
AAATGCCTTTCACACAGATGGTCCGTCATCCATAGACTAGGGATAACAGTAACTGCCTCAGAGGGTTTCGTGAGGATTGAATGAGTTGCAACATGGAGAA
GGCACAGAACAGTGCTTGGCACATAGTAAGTGCTATATGAATATCTCTCTCTATTAGTATTATTCCTAACTCATGAACCTGGTTATTTACCAGCAACACA
ACAAGGAATATCTAGTTTGCGCCTTTTTTTGTGCTAGGCACTATACCGGATGCCAAAAGGGGATAGAAAAAGCATTTTTTAAAGACAAGCCCCTAGGGAT
CTGTTAGAGCAGAGGGCGAGAGAGTATGGCACTGGGACGTGGGGGCCACAGCTCGACCCCTCACACTGAGCAGAGCTGCCTGTGTCTCAGATCCTTCGAG
AGATATCGGCGTTTGATGTCACCTACACCGCCATTGTCATCTCRCATTCTGGACGCATGATGTTTGTGGGCACCTCGGTGGGAACCATTCGTGCCATGAA
GTACCCTCTGCCTCTGCAGAAGGAATTCAATGAGTACCAGGCCCATGCCGGTCCTATCACCAAGGTGAGCAGGGCCCTCTCCCCAGGAACCCAGTCCCAC
ACCTGCCTGCTACGTGCCTTGTTCATCCCTTCAACCTCCCAATGTCTTTTCTCTCTCCTTCTTCTCTCTTATTTATTCATCCATCATTCATTGAATCACC
ATCTATTGACTATGAATATACTCTTTGTTTAAACTACTTCCAGGAATTTAGCCTAGGAAATCATCAGAGATACACCTAAAAATGTATGTACAACGTTTTC
ACCATAATATTATGCATAATAAGGGGCCGTTTGGTGGATGCCGTAGCTGCCGTGAGTGTGGGCTGCACTTGACCACAGCTGCCTCCTCCTCCAGAGAATG
CCCCAGACTGAAAGGAGCCATAGCCCTGAAGATTGGCCCCTACCTCTCCCTGAGGGTACAAAAGGCCACCCCAGGGGCAATACCATGAGTACACATTTGT
AAATTGTCCTTCCATTCACCCTTCTCATAAAGTAGTATCTATGTTCAACAGTCAAAATGTGGAAGCAACCAAGCATCCATCGACAGACGAATGCATAAGC
AAAAGATGGTATATCTATACAATGGAACAATACCCTGCCTAAAAAGGAAGGGAATTCTGCAATGTGCTACCACATGGATGAACCTTGAGGATGTTATGCT
AAATTAAATAAGGCCAACCACAAAAAGATAAGTACAGTGTGATTCCACTTTTAGGAGATACTTAGAGCAGTCAGAATCACAAAGACAGAGTGGTGGTTGG
CAGGGGCTGCAGGAAGGGGGAATGAGGAATGATTGTTTCATAGGTATAGAGTTTTGGTTTTACAAGACAAAAGGATTATGGGGGTAGTTGGTGGCAATGG
CTGCACAACATTACAAATGTATTTAATAACATGAACTGTACACTTGAAAATGGTTAAGATAGCAAATTTTACAGAATATGTATTTTACGACAATTTTAAA
AATGAAATAAAAAAGAATTATCTTGCACGCGAAATGGTTGCCAAGAAATCATAGCCAATAGTAAATTAAAAGTTATTCATAGTGCAAAAAAAAAAAAAAG
TAATGTCTATACCTACACTGGACCCCCCAAAAAACAGGCACTGGGAAGGTATGTGTCTCTTCTTCCTTACTCTCTCTTTCTGCAGATTGAATGACACAGC
ACCTGAGGTTTTGAGTTATATCCCAAACTCCTTAGTGGCTTACCTGCAACACTAGCTGTATTAAGAAAAGGTTTCTCATTATAAAACAGAACATTTCTGT
ACCAAGCCTGGGCCTTGGGTCCAAAGTAAATTACTACAACATATTCCACCTCTTCCCTTCAGATCTGCTAAGTTTTGTGGATAACATATTTATTTTTCTG
ATTATAGAAGCAATGCATATTTATTTTAAAAATAAAAATCCTTGCCAGGCGCAGTGGCTCACGCCTGTAATCCTAGCACTTTGGAAGCCCAAGGCGGGCA
GATCATGAGGTCAGGAGATAGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCACGTACCT
GTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTTCAGTGAGCCGAGATCGCACCACTACACTCCAGCCTGG
GCAACAGAGCAAGATTCTGTCTCCAAAAAAAAAAAAAAAAATCCTCATAATGGTATCATCATTTCTTTGATGCATTTCCTTCTACATTTCCATGTGTGTG
TGTTTTAAATAAAATTAAGATCATACTGTGAGGCCAGTCTCGTGGCCTGCTAGTTTTTAACTTCACACTACTGTAAGCGTTTGTCCATACAATTAAATAT
TCCTCAGAAGCATGATTTTAGTAGCTACACAAATATCCTATCCTATGATGGACTGTAACTTACTATTCTCTTGCAATTAGGCATTTAAATTATCTTATGA
TCTATAGTGAACAGCCCAGTTTACAAATTTATATGTGCATCTCTGATTCTCTCCTAAGACTAAATTCCTAGAGAGAGAATTCCTGAATTCAAGAGTATTG
CTATTCTCAAGATTCTTGACACATACTGCTGATTGTGAGAAGACATTTTTCACAGTTAATCCTTTTGTTTTAACTTTTTATCTTGAAATACTTATAGGTT
TAGAGGAAATTTTAAAGATGGCACAGAGTTCCCGTGTATCCCTCAATCAGTTTCCCCCAGTAATTACATCTTCTAGAACTGTAGCAAAATATCAAACCAG
AAAATTGACATGGTCCACAGTGTATGTAGTTCTGAATTATTTCTCACATGTACAGTCTGTGTAACCACCACTACAATCACACTATAGAACCGTTCCATCC
CCACAAAGATCTCCATCTGCCCTTCAGAGTCCTACCACTCCTCCCGACTATCATCCCGAATCCCTGCCTACCACTAATTTGTTCTTATTTCCATAACTTT
TGTCATTTTGAGAACTGTATATGGAATTATACTGTATGTGGCCTTCTGAAAATGGCTTTTTTATTGATACGTAGTATTTGTACATATTATGAAGTACCTG
TGATATTTTGTTACAGTCATAGAGCATGTAATGATCAGGTCAGGATATTTAGGGTTTCCATCCATCTCGCGTATTTATGATTTCTGTGTGTTGGGAGCAT
TTCAAGTCCTGTCTTCTAGCAATTTAAAAATATACAATATATTGTTGTTAACTATAGTCACCTTACTCTGCTATCAAACATTAGAACTTATTTCTTCTTT
GACCTGGCACGTGGGTCATGCCTGTGATCCCAACACTTTGGGAGGCTGAGGCAGCCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATG
ATGAAACCCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGTGCACGCCTGTAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATTGCT
TGAACCTGAGAAGCAGAGATTTCAGTGAGCTGGGAGATCGTGCCACTGCACTCTTAGCCTGGGCAACATAGCAGACTCTATCTCAAAAAAAAAAAAAAAG
AAAGAAAGAAAGAAAAGAAAACTGATTTCTTCTATCTAATGTTTGTATCTGTTAGCCAATCTCTCTTTAGCACCCCACCAACCCATACACTCTTCCCTAG
TATCTATCATGCCACTCTCTACTTCCATGAGGTCAACTTTTTTTTCTTTTTTTTGAGATAGAGTGTCACTCTGTCGCCCAGGCTTGAGTGCAATGGCATG
ATCTCCGCTCACTGCAACCACCGCCTCCTGGGTTCAAGCGATTCTTCCACCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACATGCCATCATGCCCGAC
TAGGGTCAACATTTTTTAGCTCTCACATATGAATGAGAACACACAATATTTGTTTTTCTGTACCTGACATATTTCACTTAACTTCACGACCTCCAGTTCC
ATCCATGTTGCTGCAAAAACATGATTTCATTCATTTTTTACGGCCAAATAGTATTCCAGTGGGTATATATACCACATTTTCTTTATTCATTCATCCACTG
ATGGACACTTAGGTTGATTCCATATCTTTACTATTGGTGGTACAATAAATATGGGGGGGTGGGGTGGAGCGCAGGTATCCTTTCAATCTGCTGATTTCCT
TTCCTTTAGAAAAGTATCCAGTAATGAGATTGCAGGATTGTATGGTAGTTCTGTTTTTAGTTTTTTTTAGAAGTCTACATACTGTTTTCCATAGTGGTTG
TACTAATTTACCTTCCCACCAACAGTGTATAAGAGTTCTCTCTTCTCCACATTCTTGCCAGAATCTGTTATTTGTTGTCTTTTTGATAATACCTACTCTA
ATTGGGGTAAGATGGTATCTCATGGTGGTTTTGATTTGCATTTCCCTGATGATTAGTGATGTTGAGCATTTTTTCATATACCTGTTGGCCATTTGTATGT
CTTCTTTTGAGAAATGTCTATTCATGTCCTTAGCCCACTTTTTTTTTTTTTTTGAGATAGAGTTTTGCTCTTGTCACCCAGGATGGAGTGCAATGGTTCA
ATCTCGGCTCACTGCAACCTCCCCCTCCTGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACCGTGCCTGCCACCACGCCCAGCT
AATTTTTGTATTTTTAGTACGGATGAGGTTTCACCATGTTGTCCAGGCCGGTCTCAAACTCCTGACCTCAGGTGATCCACCCTCCTCAGCCTCCCAATGT
GCTGGGATTACAGGTGTAAGCCACCACGCCCGCCCCTTAGCCCACTTTTTAATGAGATTTTTAGATTTTTTTGTTTGTTTAATGTTGAATTGTTTGAGTT
CTTTGGTATTCTGGATATTGGTCTTTTGTCAGAGCAATAGTTTGCAAATATTTTCTCCCATTCGACAGGTCGTCTCTTCAGTCTGTTGATTGTTTCCTTT
GCTGTGCAGAAGCTTTTTAGCTTAATGTCCTGATTGTGGCTTTTTCCACTCAGCTAAATCTTCAAATCCATCCAAGTTGTGTTGTGTATCAATCATAGTT
TATTCCCTTTTATTTCTGAGTAGTATTCCATGAAAAACAAATCACAGTTTGTATAGCCATTCACCTATTGTAGGATATTTTTAATTTTTTCCAGTTTTCA
GCTATTATAAATAAAGCTGCTGTGACCAATCATATACAGGCTTTTGTGTGGAAATAAGTTTTCATTTCTCTGGGATAAATGCCCAGGAGTATAATTGCTG
AATCATATGGTAAGTGTATATTCAGGTTTGTTTTTTTTTAAACTGCCAAGCTATTTTCCAGAGTGGCTGTACCATTTTACATTCTTACCAAGAATGTATG
AGACCCAGTTTCTCTGCATCATTGCCAGCACTTGGTGTTGTCACTGTTTTTTATTTTAGCTGTTCTAATGGGTGTGTAGTGATATCTCATCATGGTCCTA
ATTTTGCATTTTCCTAAATGGCTAATAATGCGGAGTATCTCTTCATGTGCTTACTTGCCATCTGTGTATTTTCCCTGGTGAAATGTCTCCTTATCTTTTG
TCTACTTTCTGATTGGATTGTTTGGCTTTTTTACTGTTGAGTTTTGAGAGTTTCTTGTTCGTTCTAGATAATAGCTGACTCTTCAGATTCCAAATCCACA
GAGAATGTAGACGTAACCTTACTTCTTCTATTCATTAACAGATGCCTGTGAGGGCTCCTCTCTCATTCTTACCTGGGATCAAGTTTACCTCCCTGTGAGG
CTGTGCCCAGGATTGCATGGGGGGAAGCCTTGCACAACAGCTGGCTCAGCCCTGGTCATCTGTGGCCTTGAAAGCTTCCTGGCCATGACCCTTTTTCTCT
TCAGATGTTGCTTACCTTTGATGATCAGTTCCTGCTGACTGCTGCTGAGGATGGCTGCCTGTTCACCTGGAAGGTCTTTGATAAGGATGGCCGGGGAATC
AAGCGAGAGAGGGAGGTGGGCTTTGCCGAAGAGGTGCTTGTGACTAAAACARACATGGAAGAAAAGGTAAGAACTGGATCTAATGAAGAGGGATATGGAA
TTACTTACCAGACTGCATTCAGATGCAGGTCCAGCACTGGGGCCCTCTACAGCCTGGCTACACCCTATGCCCAGTGCAGACCCCCACGGCTCCCTGCACA
TCTGCTGTCCCCACAACCAAGCTCTCCTCCTCATTGCCACTGTCCACCCGACTCTGCCTGTCTTTCTGCCATGTGATCATCTTGACTTACACTGTGCTTT
GCTTTTATTCTGTGATCTGGTTTTCTCTTCCTACTCTTTGAAACCAAGAATAATGAAACATACAGTTCTCTTATGACCAACAGTTCCTAGCACATGCTGG
GCACATGGAAGACAATCAATAAATATTTACAAAAGTAAAGTATGTTCTCATTTAAATCTCACAACATCTCTATGAAGAAGATACTGTCATTCTCCCCATG
TTTCAAAAAACAAGTTAGGAGAGCTTGAGGGATGTGTTCAAAGTCAGTGTGCTAATAATTAATAGGACTAGAGTTCTAATCCAGATTTAATCCAGAGCCC
CCTCCCTTAATCACTATACCAAAGGGACATCCCTTCCTTCCTGTTGATGCAGTAAACATTCCATAAAGGTGTGTTTTGCAGAGATATGAGTGCATAGCTC
TGTGTTACGCTTCCTAAGGGAGAAGCTGAATGGATGATAAACACACAAGGCTCATGGAGGATCGCAAAGCTACACAGTCATTGCTGTTTGTCCAGAATCT
TAAGTGTGTTTATTGAACACCTACCATTTGCTAGGCACTGGGGATGCACACGTGAAAAGACAGTTGTGGGCCCTGTGACATGACCAGGAAGCTTACAGTC
AAGTGAGGGATAGAAACAAGTAAAGCCATCAGAGCAGCAATACAACACTGCCACAAAGCACGGTGACAAGCCCCTGGCATTCGCTGGAGATCCCTCCCAG
AGCTCCCTAGAATTTTCTGCAGGAAAAGCAAAGAGGGAGAAGAGGATGAGGGAGGGGCCCGTGAGAGTGGGGGCCTGACCTGCTGCAGAAGGGACATTTC
CTTTTCTCTGTTATCTTTTCTGTTCTTCCCAGAGGGTAGGGGAAGAGGCCAAATAGGAGACAGCAGGCTGAACCAAAGGCCTGAAGGTGCCCAAGCTGGC
TTCTGACCACAGCCCCCAGATGGGCCTGACAGTACCGCTGCCAGGCTGGAAATGACTTGTGCATATACCGCTCCTTCTTGAAACTCCCTTCTGTCTTACC
ATCCTTGTGACCACACTCTGTTCCCTGTAAACCTTTCTGACTCCTCCTCCCCGCTTCTGTCCTGGCTCTTCCTCCGCCTGTCCCTTAAAAAGCATGTTCC
CAGAATTCCCAACTCTCTTTATATTCCATTATAGTCTAAGTAACTCTCAGGCCATGATTTACCTTCTCTGCCTAGGATTTACAGAGGGGTCTGCTGTGTA
CCTGACACTATACTAAGGTCTGGGA


SNP Information

Context             (SEQ ID NO:30170):
CTACAGATATCAAAATCCACAGATGCTCAAGTCCTTTATATAAAAATGGTGCAGCATTTGCATATAACCTACACTCGCCTCCAGTATCCTTTAAAGTCAG
R
GGACCTCAACTCCCAGGCCACAGACCGCTACGAACCCACTATGAATCTGTGGCCTGTTAGGAACCAGGCCGCACAGCAGAAAGTGAGTGACAGGCAAGCA
Celera SNP ID:            hCV8375251
SNP Position Genomic:     3359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30171):
TATTTCAAGTTTGCCAGCGCAAATCTACTGTTGAGCCTTCCAGTGAATTTTTCGTTTTGGTTATTGTACTTTTCAACTCCAGAATTTCCATTTGATTTTT
R
AACTAATTTCTGTTTTCTTATTATATTCTTTATTTGATGAGGCTTGTCATCCTACCTTCCTTTAATTATTTAAGCGTAGTTTCCTTTAGTTAATTGAACT
Celera SNP ID:            hCV27941485
SNP Position Genomic:     37831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30172):
GCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATTTTGGCCAGTATGGTCTCGATCTCTTCACCTCATGATCCACCTGCCT
Y
GGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGGCCGGCCAGCTTTCAAGATTTTCTTATCTTTGGCTTTCAACATTTTGTTTTTGATGTGT
Celera SNP ID:            hCV27941486
SNP Position Genomic:     37362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30173):
GAATATCAAACATCAGTTAGAAGCAAATTATACATACTGCAACATAGATGATTCCTTAAAAATTTCGTGTTGAGAAAAAAGTAAAAGTACAGAAAGAGAT
Y
TGAAGCACAATATCATTTATAGAAATATAAAACACATATGTATATAGTCAGTGACATACATGAAATCCTTTTGTTGGTGCCTACTTATCATAGGGAGGAA
Celera SNP ID:            hCV27941487
SNP Position Genomic:     29408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30174):
CTCCGCCTACCGGGTTCATGCCATTCTCCTGCCTCAGACTCCCGAGTAGCTGGAGCTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTTGTATTTTTA
R
TAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGATCTTGTGATCCGCCTGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGCGTGA
Celera SNP ID:            hCV8375329
SNP Position Genomic:     24104
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30175):
CGAGGCGCAGGGTGCATCTTTCCTGGGACAAGAATCGGTCTCCCAAGCCCAACAGCGCCTGAAGCGCATCCCATGTCCGAGTACCCCCGACCCTGTGCCC
R
CGCTCACCACGTCGTTCACGGCCTTCTTCGGCCCCTCTAGCACGACATTGAGGCCTGGCTTCAGAAGCCCTCGGGAAAACGCATCCTGCAACTGCAGGAC
Celera SNP ID:            hCV3138242
SNP Position Genomic:     5527
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,24|G,10)   total(A,56|G,14)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30176):
TCTAGATTACTTATAATACCGAATACAATGCTATGCATCACCTCATTCTCATGGATTCAATGTAGTTCTCGGCACACGGAAAATTCAGTTTTCCTTTTGC
R
ATATTTTCAAATTTTTTTCCCCAATATTTTTGATCCAAGGTTGGTTGAATCCACAGATGCTGAACCCATGGCTATGGAGGGCTGAATGTATGTTGGATTA
Celera SNP ID:            hCV8375259
SNP Position Genomic:     3816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30177):
CAGACAACATTAATTTATATTTGCTCTCATACTTACCAAACTTTTTCCCACCATTACTCTTTACAAATCAGATATTCCAGCTGGGATCATTTTCCTTCTG
Y
ATTTACTGATAATGTATTAATAAATTCTCCCAGTTTTTGTCTGAAAATGACTTTATTTTATCCTCATTTCTGAAAGATAGTTTCAACAGGTGTGAAATTT
Celera SNP ID:            hCV3138243
SNP Position Genomic:     8629
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30178):
TTCAGGCCCAGGTTGAGTAGAGACAGCCTGGGAAGAAACCCCCAATGTTGGTCTTGTCAGCAGGCTCAAGACTATCTGAGCAGGGAACTCCAGAGTCCTG
M
GTACCTGCAACGTGATCTAGAAGAGGCAGGACAAACTCCAGGCAGCCACTGTATCCCACTTAATGGTAAGGGGTACAGCCAGAGAAAGACTCCGGGATGC
Celera SNP ID:            hCV952525
SNP Position Genomic:     9894
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(A,5|C,18)   SC_12_C(A,10|C,13)   SC_12_AA(C,5|A,12)   SC_95_C(A,89|C,100)   total(A,116|C,136) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30179):
GCTTGTTCAGCTCAGAGTCATGATGAGGCTCAACATATTCATTTGTTCACTCAACAAAAATGTATTAAGTACCCCCTGTGTTCCAGGCACAAAATAGACA
Y
GCACATATGCACATAAAATGCTGTCCTCACAGTGCTTCCATTCTAAGAGGGGAGAGTGACAAACAAAATAAAAAGAAGTACAGTCTACATGCTAGATAGT
Celera SNP ID:            hCV3138244
SNP Position Genomic:     10268
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30180):
AACAAAAATGTATTAAGTACCCCCTGTGTTCCAGGCACAAAATAGACACGCACATATGCACATAAAATGCTGTCCTCACAGTGCTTCCATTCTAAGAGGG
S
AGAGTGACAAACAAAATAAAAAGAAGTACAGTCTACATGCTAGATAGTGATAGATGCTAATAAGAACAAACAAAGCATGGAAAGTGAAGCCGTTGGGGGA
Celera SNP ID:            hCV3138245
SNP Position Genomic:     10320
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30181):
CCTAGTTTTAACTTTCCCTTATGCTTTTTACCTCAAATCTGTATTTTCAGCCTCAACCCCTCCCGCCAGCTTTAGAACCATGTCCACCTGCTGGACCTCC
R
TACCCAACTGTTCCACAGAGTGTACCTCACACACAATATATCTGAGATTGAGTTTATCTTTTCCTTTCTTCTCCCTCTCTTTGGGAAATGCAATCAGGGT
Celera SNP ID:            hCV952526
SNP Position Genomic:     13393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30182):
ACTTCATTCTTTGGCATGTAGATATCCAGTCGTCACAGCATCATTTGTTGAAAAGGCTAGTCTTTCTCCATTGAGTAGTCTTGGCATCTTGTTGGAAATC
A
GTTGACACATGGGTTTGTTTCAGGACTTCCAATTCTGTTCCATTGATCTGTCTATCTTTATGCCAGTACCACACTGTCTTGATTACTGCTGCTTTGTAGC
Celera SNP ID:            hCV11871701
SNP Position Genomic:     22706
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,14)   total(A,1|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30183):
TCCTCACAGTGCTTCCATTCTAAGAGGGGAGAGTGACAAACAAAATAAAAAGAAGTACAGTCTACATGCTAGATAGTGATAGATGCTAATAAGAACAAAC
R
AAGCATGGAAAGTGAAGCCGTTGGGGGAGTAAGAAGTTGTAGATAGGGAGGCTGGGGAGGGCTCACTGAGCAGTGATTTTTGAGTGAAGACTGAAGGAAA
Celera SNP ID:            hCV3138246
SNP Position Genomic:     10392
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30184):
GAGCGGGGCGGTGCTCTCCACTCTGAAGCGCTGCCTTGGTCTTCAGCAGAACTGTTTGGCGGGAGATCATGTCAGCCGTGGTAGCTCAGACGCTGCATGT
W
TTTGGTCTTCGATCCCACGTGGCCAACAATATCTTCTACTTCGATGAACAGATCATTATATTTCCTTCAGGAAATCACTGTGTGAAGTACAATGTGGATC
Celera SNP ID:            hCV8375296
SNP Position Genomic:     6439
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,34)   caucasian(A,12|T,28)   total(A,16|T,62)
SNP Type:                 UTR 5;INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 5;INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30185):
CACAGTGCTTCCATTCTAAGAGGGGAGAGTGACAAACAAAATAAAAAGAAGTACAGTCTACATGCTAGATAGTGATAGATGCTAATAAGAACAAACAAAG
Y
ATGGAAAGTGAAGCCGTTGGGGGAGTAAGAAGTTGTAGATAGGGAGGCTGGGGAGGGCTCACTGAGCAGTGATTTTTGAGTGAAGACTGAAGGAAAGGAA
Celera SNP ID:            hCV3138247
SNP Position Genomic:     10396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30186):
AAACCTGTACATTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAATAATAAAAGGATATCTATGTGAGAGGCGAAAATGTTTTAAGGAGGAGAGG
Y
GAGGCATCAGCTGGGTCGAAACAATGCAAAAGCATTTTACAAACTCTAAAACCAGTCAACATATATCAAGAACATACTAAGTTCCAGACACTGGTGATTG
Celera SNP ID:            hCV3138248
SNP Position Genomic:     12992
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30187):
TGGGTAAGAAGTGGTATCTCATTGTGGTTTTGATTTGCATTTACCTGGTGATTAATGATGAACGTCTTTTCAAGAATTTCTAATTCTTCTTTGAAGAAAT
R
TCTATTCAGATTTTTTGCCCATTTAAAAAATTGAGTCATATGTCTTTTTATTATTGAGTTGTAACAGTTATTTATAATTCTAGATATAAGTCCTTTATCA
Celera SNP ID:            hCV952529
SNP Position Genomic:     22228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30188):
TTTCATTTCTCTTCCTAGAAGTGGAATTGCTGAGTCATATGGTAACTTCATGTTCAATTATTTGAGGAACTGCCATACTGTTTTCCAAAGTTGCTGGACC
R
TTTTATATTCCCATAAGCAGTATATGAGCATTCTGATTTCTCTATATTCTTGCCAAAACTTGTTATTATCTTTTTTATTATAGCCATCTTAGTGGGTAAG
Celera SNP ID:            hCV3138249
SNP Position Genomic:     22035
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30189):
TGGTCCTTTTTTTAATAACAACTTAATTGAGTTATGATTCACATACAAATTGCCTATTCAAAGTATACAATTCAGTGGTCTTTAGTATATTCAAAAAGTT
R
TGCAACCATTTATCATAGACAGCCTTAGGACATTTTTATCACCTCAAAAAAAAAAAAAGCGCATACCCTTTAGCTATTATTATTCCTCCATCCTCCCAAT
Celera SNP ID:            hCV11871704
SNP Position Genomic:     21210
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30190):
AGACTAATGTATGGTTTTGCTTATGTAATGAGCATTAATAAATGCTTGCTGAATGCATTTATGAGCAATAGCCCATTCTCATTTTGAAATGCACCCATGC
R
TAGCAGTCAAAGCAGAGACTGGAGCCCACCCAGGTACATGAGATGAAGCAAATGCCTTTCACACAGATGGTCCGTCATCCATAGACTAGGGATAACAGTA
Celera SNP ID:            hCV26468325
SNP Position Genomic:     42951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30191):
GACTCTCCTGTGTACCCCCGAGTAGCCTGGTCCTAATTCAATGGCAGCTATCAGTGCTGTGCCAGAATAAAGCCCCTTTAGGGCAGGGCCATCTTTTGCT
Y
CTCTTGGCAGCCCTACTAGCTGGCACATTGTGTGGTGCACAGCATTCAATAAATGTGTGTGTAGGCATGAAAAAATGCTCATCATCACTGGCCATCAGAG
Celera SNP ID:            hCV26468326
SNP Position Genomic:     41626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30192):
TCACATGCTGTTCAGGTTTGTAGCCTCGGAGCAGTAGGCTCTACCACATAGCCTAGGTGTATAGTAGGCTGTCGCAGCTAGGTTTGTGTAAATACACTCC
R
TGATGTTTGCGTGACAAAATAGCCTAACCATGTATCCCATATCAAGCGATGCATGACTGTGCAGTGAGCTGCTCTCACCTAGGCTTGCCACTGTATTCTT
Celera SNP ID:            hCV26468327
SNP Position Genomic:     41197
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30193):
ATGTATGTGTGTGGAGGTCAGGAGAGAAGTCAGGGCTGAGTATGAAGATTCGGGGAATTAGAAAGTAGAGGAAGTCAGAGGCATAGATTAGATCACCAAG
R
GCCTATGTAGAATCTGAGAAGAATATTGGACAGCAGAGGGAAGACCAACATTTAAGAGACTGGTGAAAGAAGAGGAGCCGATGAAAGACTGAAAATAAAG
Celera SNP ID:            hCV26468328
SNP Position Genomic:     34833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30194):
CTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCATGGGTGACAAAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGTAATATTCCCTCCTT
C
ATTTCTGATTGTATTAATATGATTTTCCTCCTCCCCCCATTTTTTTTTATCTCTTTAAAGAATCAGCTTTCGGTTTCATTGATTTTTCTCTATTGCTTTG
Celera SNP ID:            hCV26468329
SNP Position Genomic:     25274
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30195):
GGTAATAATTGTCCTCTGACAACTGGCTCCCCGTTATTGGGCTCATAGCTATCTTTCTAAGCCAGCTGAATATGCTTAAGTACAAAGTTTTGACTTTCCA
R
AGGAAAACTTCTATTTCTTACCTTCTGCATCTGCAGATCAGATTTGGCCATTTCCGCAAAATAATCAGTGGGTCGCTTCGTAGGGACTTTGAGCTGATGG
Celera SNP ID:            hCV25967142
SNP Position Genomic:     4383
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,40)   total(A,3|G,73)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30196):
TGGCTGCCTGTTCACCTGGAAGGTCTTTGATAAGGATGGCCGGGGAATCAAGCGAGAGAGGGAGGTGGGCTTTGCCGAAGAGGTGCTTGTGACTAAAACA
R
ACATGGAAGAAAAGGTAAGAACTGGATCTAATGAAGAGGGATATGGAATTACTTACCAGACTGCATTCAGATGCAGGTCCAGCACTGGGGCCCTCTACAG
Celera SNP ID:            hCV25930625
SNP Position Genomic:     49052
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,37)   total(A,1|G,71)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:30197):
TTTTTTTTTTCCTGTGTCTATTGAAATTATTGTGTGAGTTTTCGTTTTTTACTTTATTAATATAGTATATTATACTAAGTGATTTTCAGATGTTAAACCA
Y
CCTTGCATTCTTGGGATAAAATCCACTTGGCCATAGTATATAATCATTTTCATATTAGTATATTCAATTTACTAGTATTTTGTTGAGGATTTTTGTATCC
Celera SNP ID:            hCV952530
SNP Position Genomic:     24459
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30198):
ATTTTCAACTTATGGTGTTTTCACCTTATGATGGGTTTATCAGGACATGATCCCATTGTAAGTAGAGGAGCAGGTGTACATTGGGATAAGAGCTGTGATT
R
AAGGATGTTCAGTTGGTAGGAGACCACATAGCATCCCCTGACATGTGGTTTCTTTCCTCTTGGACAGGGCTATGTAAACCTATCAGACCCTCTTTTTCTG
Celera SNP ID:            hCV952531
SNP Position Genomic:     16839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30199):
CATTGTGGTTTTGATTTGCATTTACCTGGTGATTAATGATGAACGTCTTTTCAAGAATTTCTAATTCTTCTTTGAAGAAATGTCTATTCAGATTTTTTGC
Y
CATTTAAAAAATTGAGTCATATGTCTTTTTATTATTGAGTTGTAACAGTTATTTATAATTCTAGATATAAGTCCTTTATCAGATATGTGATTTGCAAATA
Celera SNP ID:            hCV3138250
SNP Position Genomic:     22247
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30200):
GTACAAAGTTTTGACTTTCCAGAGGAAAACTTCTATTTCTTACCTTCTGCATCTGCAGATCAGATTTGGCCATTTCCGCAAAATAATCAGTGGGTCGCTT
S
GTAGGGACTTTGAGCTGATGGAGGCGGGGTAAGACTGCAAGCACTGCGGCCTGGGCTTGGCGATAGCTGAGAATCGTAGGACAAAATGTGTAATGAGGTG
Celera SNP ID:            hCV8375268
SNP Position Genomic:     4462
SNP Source:               Applera
Population(Allele,Count): african american(C,32|G,4)   caucasian(C,28|G,12)   total(C,60|G,16)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;SC_12_C(C,7|G,8)   total(G,8|C,7)   
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:30201):
TGTGTGTCACTGGAAATGGGATGTTTAAGCTTCTCCGTTTTGCTGAGGGAACCCTGAAGCAAACCAGCTTTCAGAGGGGAGAACCCCAAAACTATCTAGC
Y
CACACCTGGGTGGCTGATGACAAGATTGTCGTTGGCACTGACACAGGCAAACTCTTCCTCTTTGAATCTGGAGATCAGCGTTGGGAGACCAGCATAATGG
Celera SNP ID:            hCV952532
SNP Position Genomic:     17375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:30202):
GTGGGTTGTCTTTTCACTTTTTTGATGTTGTCTTTTGATGAAGTTTTCAATTTTGATGAAATTGAATTTATCTATTTTTCTTTTGTTGGTTGTGCTTTCC
R
TGTTATATTTAAGAAGCCAATGCCTGAGGCCATGAAGATTTACCTCTGTATTTCTTCTAAGAGTTTCATAGTGCTAGCTCTTACATCTAGGTCTTTAATC
Celera SNP ID:            hCV3138252
SNP Position Genomic:     22462
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30203):
TGATGACAAGATTGTCGTTGGCACTGACACAGGCAAACTCTTCCTCTTTGAATCTGGAGATCAGCGTTGGGAGACCAGCATAATGGTCAAGGAACCTACC
R
ATGGCTCAAAGAGCCTGGATGTCATTCAGGAATCAGAGAGGTAATGGTGCTTCCTGGGCTGGTGCTCCCACATTCATTGTACTGACAGCATTATGCAGAA
Celera SNP ID:            hCV952533
SNP Position Genomic:     17490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:30204):
AGGTAATGGTGCTTCCTGGGCTGGTGCTCCCACATTCATTGTACTGACAGCATTATGCAGAAGACAGCACTCTTTAGAAACCACTCATAACCCCTCTACC
R
TAAAAGTCAACTATGCCCATTTTCCCTCTTCCTCTCTAGTTTTCGTCTATATTTAAGCACAGATTTAACAGTTATAACCATAGACTAAATACAATTCTTT
Celera SNP ID:            hCV952534
SNP Position Genomic:     17629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30205):
CTTGGCCATGTGCAGTTTGTGTACGGTTCCCAAGCCAAAGGGTAGTATTTGACTGTGGAAAAGGGGATCATTGGGTGGTTTCTGTCACACCCAGTGACAG
Y
CTTCTTTCTCCTCCCCAGCAGAATTCATCTCCTCAAGATTGTCTCTATAAATTATGTATGCTGTTTTTTTGTTTCCAGCCTGATTGAATTTCCACCAGTC
Celera SNP ID:            hCV952535
SNP Position Genomic:     18723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30206):
CTCTCTGATGCCAGAGCCTGGGCCCTCAACCCCAATGACATCCTGTAGATTCTTCTTCCTCAGTAACCTTCAATCCACCCATTTTCACTACCATCCCCCC
R
TGCCAATGGCATATCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGTGAGTATGTAGGAGCTTCCTGAAAAGTCTCTATAACCTTCTCCAGGAGCTGTGT
Celera SNP ID:            hCV3138255
SNP Position Genomic:     18377
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30207):
GTGTGCTTAATGGTGTCCCACATTTTTCTGAGGCTCTGTAAATTTCTAATTCTTTTTCCTCTCTGTTCTTCAAATTGCTAATCTTTTTTGATCTATAAAG
W
TCACTAATTCTTCTGCCAGTTCAGATCTATTCTTGAGCACCTCTAGTGGATTTTTCATTTCAGTTATTGTAGTTTTTAACTCTAGAATTTCTATTTTCTT
Celera SNP ID:            hCV952536
SNP Position Genomic:     28340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30208):
TGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGTGTGCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATTTTGGCCAG
K
ATGGTCTCGATCTCTTCACCTCATGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGGCCGGCCAGCTTTCAAGATTT
Celera SNP ID:            hCV28006903
SNP Position Genomic:     37324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30209):
ACATATAGAAATGTTATTGCCACATAGCTACCTTCCCTTTCCCCTTTTTAATGGTAATATTGTTATATATATTACATCTATGAGTGTTACAAACCCCAAT
R
ACATATTCTTATAATTATTACCTTATATAATTTTATATATTTTAAAGAAGCTGAGGTTAGAATGGGGAGCAATTATATATTTATAGTCTTTTTATGTTAA
Celera SNP ID:            hCV3138256
SNP Position Genomic:     27353
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,14)      total(G,14|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30210):
GAGACTAGCCTGGGCAACATAAGGAGACCCTGTTTCTACAAAAAGTAAAAAATATTAGCCAGGTGTGGTGGCACACACCTGTGGTCCCAGTTACTTGGGA
K
GCTGCGGTGGGAGGATCACTTGGGCCCAGGAGGTCAAGGCTGCAATAAGCCATGATCACACCACTGCACTCCAGCCTGGGTGACAAGAGTAAGACCCTGT
Celera SNP ID:            hCV3138257
SNP Position Genomic:     34036
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30211):
CATGCATTTGCAGTGAAACCGGTAAGCCCACTTGTGTGATTCCCCATCATTGCATGACTCCTCAGGCAGAGGGGGAAGAGAGAGCATTGCTTTTGTTTTT
W
AGACAAGAGAGATTTGAGTGTGTAAAAGCTAATAGGAATGTGCTCATAGAGACAGGCAGGTTGAAGATATTGGAGAAAGAAAGCGTAACAGATGGAGAAG
Celera SNP ID:            hCV952537
SNP Position Genomic:     29909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30212):
TCACCGGTCTAGCTACCTGCATCCGCAAACCCCTTATAGCCACCTGTTCTCTGGATCGATCCATCCGCCTTTGGAATTATGAAACAAAGTAAGGAATGAA
R
GGCTTGCCTACTTTATTATGCAAGACCCCAGTTGTGAATTTATGTGAATTATTTTAATTACAGTGTTCCAAACTTTAATTATTTAGAAGCTTTCAGTTGG
Celera SNP ID:            hCV952538
SNP Position Genomic:     31357
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30213):
GGGAATTAGAAAGTAGAGGAAGTCAGAGGCATAGATTAGATCACCAAGGGCCTATGTAGAATCTGAGAAGAATATTGGACAGCAGAGGGAAGACCAACAT
W
TAAGAGACTGGTGAAAGAAGAGGAGCCGATGAAAGACTGAAAATAAAGATACAAAGAGAACTTGGAATCAGATAATTATCTCAAAGAAGCCAAGGAACTA
Celera SNP ID:            hCV3138258
SNP Position Genomic:     34885
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30214):
GCTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCATGGGTGACAAAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGTAATATTCCCTCCT
T
CATTTCTGATTGTATTAATATGATTTTCCTCCTCCCCCCATTTTTTTTTATCTCTTTAAAGAATCAGCTTTCGGTTTCATTGATTTTTCTCTATTGCTTT
Celera SNP ID:            hCV26468330
SNP Position Genomic:     25273
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30215):
TAATGCTTACCACATGCTAGACACTGGGGACATGAAGAGATGAAGACAACACCTCAGTCTCTCACCTTCTTACATAAACTCCTGGGTCCCTCCAGCTCTC
Y
TATCCCCTTGTTTCCCACAGGAACTGCTCTTTGCTTCAGGGAGCTCTCCAGACCCTTTCTTCCTCATCTTTCTCCCAGGACATCACTATCTCAACCACCC
Celera SNP ID:            hCV952539
SNP Position Genomic:     31640
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30216):
GGCTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCATGGGTGACAAAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGTAATATTCCCTCC
T
TCATTTCTGATTGTATTAATATGATTTTCCTCCTCCCCCCATTTTTTTTTATCTCTTTAAAGAATCAGCTTTCGGTTTCATTGATTTTTCTCTATTGCTT
Celera SNP ID:            hCV26468331
SNP Position Genomic:     25272
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30217):
TTATCTCCTTCTGGAACTCCAAACCATCTCAACTCCATCCTTCCAGTTTTTTATTTTATTTTATTTTATTTATTTATTTTTTAAGAAACCAGGTCTCACT
C
TGTTGCCCAGGCTGGAGTGCACTGGCACAATCATAGCTCACAGCAGTCTCAAACTCCTGGGCTCAAGCCATCCTCCCCACCTTAACCTCCTGAATAGCTG
Celera SNP ID:            hCV11871714
SNP Position Genomic:     9198
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,6)   total(C,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30218):
TAGATGATTCCTTAAAAATTTCGTGTTGAGAAAAAAGTAAAAGTACAGAAAGAGATCTGAAGCACAATATCATTTATAGAAATATAAAACACATATGTAT
R
TAGTCAGTGACATACATGAAATCCTTTTGTTGGTGCCTACTTATCATAGGGAGGAACAGAAGTAAAAATTGAGAAAGAAAGGAGCGAAATAAAATAAAAT
Celera SNP ID:            hCV27900598
SNP Position Genomic:     29452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30219):
TTGTCTTGTTCCTAATCTTAGGGAGAAAGCATCCAGTCTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGGGCA
R
TGGCGCAATCTTGGCTCACTGCAAGCTCCGCCTACCGGGTTCATGCCATTCTCCTGCCTCAGACTCCCGAGTAGCTGGAGCTACAGGCGCCCGCCACCAT
Celera SNP ID:            hCV26468332
SNP Position Genomic:     23978
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30220):
TGTTATATATATTACATCTATGAGTGTTACAAACCCCAATGACATATTCTTATAATTATTACCTTATATAATTTTATATATTTTAAAGAAGCTGAGGTTA
R
AATGGGGAGCAATTATATATTTATAGTCTTTTTATGTTAACCTTTACTATCATTTCTGGTTCTTTTCATTTGTTTCTTGAGTTTGAGTTACCACTGAAGT
Celera SNP ID:            hCV27900599
SNP Position Genomic:     27413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30221):
TCTAGTATCATGTCAAATATCAGTGATGAGTGCAGATCCTTGTCTTGTTCCTAATCTTAGGGAGAAAGCATCCAGTCTCTTTTTTTTTTTTTTTTTTTTT
T
GAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGGGCAGTGGCGCAATCTTGGCTCACTGCAAGCTCCGCCTACCGGGTTCATGCCATTCTCCTGCCTCA
Celera SNP ID:            hCV26468333
SNP Position Genomic:     23939
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30222):
ATGCTCCAGCAACACCCACTGCTTGCAGTTCCCGCACTATGCTGTACCCTTTGTCACATCCACCCCGTGGCTCAAGCTCTTCCTGCTATCTACCACCCAG
Y
CCCCATCTCACCTCACCCCCTGCCCTCCTTCAGGAAGGTTTCCCTGACTTCTCCTCCCACCTCATCCTCCAAGGTGCCTGCCCTAGTCATTTTCTTTTGG
Celera SNP ID:            hCV15909376
SNP Position Genomic:     14645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30223):
AAAAAAAAATAACACTATCACTAATCTTGAAAAAAACTCTTCTAGAGAATTGGAAAAAGAAGGAATACTTTCCAGTTATGTTCTATGAGGCCAAAATAAT
Y
GTGATACCAAAATCTGTCAAAGACACCACAAGAAAAAAAAATAAGCTAGTCTTTTTCATGAGCACAGATAGAAATATATATTTATATATATATTTTAGAC
Celera SNP ID:            hCV16215401
SNP Position Genomic:     37036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30224):
TCCTTGCCTAGTTGCCATGGCTAGAACCTCTAGTATCATGTCAAATATCAGTGATGAGTGCAGATCCTTGTCTTGTTCCTAATCTTAGGGAGAAAGCATC
Y
AGTCTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGGGCAGTGGCGCAATCTTGGCTCACTGCAAGCTCCGCCT
Celera SNP ID:            hCV26468334
SNP Position Genomic:     23911
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30225):
TTTAGTCTTCCTTTCCAATCTGTGAATGCCTGTTACTTATTTTCCTTGCCTAGTTGCCATGGCTAGAACCTCTAGTATCATGTCAAATATCAGTGATGAG
W
GCAGATCCTTGTCTTGTTCCTAATCTTAGGGAGAAAGCATCCAGTCTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCT
Celera SNP ID:            hCV26468335
SNP Position Genomic:     23869
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,13)   total(A,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30226):
CTTTATCAGATATGTGATTTGCAAATACTATGTCCCATTCTGTGGGTTGTCTTTTCACTTTTTTGATGTTGTCTTTTGATGAAGTTTTCAATTTTGATGA
R
ATTGAATTTATCTATTTTTCTTTTGTTGGTTGTGCTTTCCATGTTATATTTAAGAAGCCAATGCCTGAGGCCATGAAGATTTACCTCTGTATTTCTTCTA
Celera SNP ID:            hCV26468336
SNP Position Genomic:     22421
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30227):
CGGTCAGCCGCTCAATCACTAGGGTAACAACCAAGATACTCTACAGTGTGGTGCTGTGTGGCCACATGGCTTTGCCCATTTTCAACTTATGGTGTTTTCA
M
CTTATGATGGGTTTATCAGGACATGATCCCATTGTAAGTAGAGGAGCAGGTGTACATTGGGATAAGAGCTGTGATTGAAGGATGTTCAGTTGGTAGGAGA
Celera SNP ID:            hCV26468337
SNP Position Genomic:     16762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30228):
TAGTAATCAGAAGGCTGCTGGGTGATTATTCCAGAATCAGACCAAAGGCAGGTAGAACCAGAAGGGTATTTCAACCAGGCCACAGTGAGGCCTGATGAAG
S
ACCTCCTGCTCTGACTAGTAGATTCAGCAACCATTTATTGGATGCCCATGATGAATCCAGCACTGGGAAAACAGATGAAAAAGTCACAGCCCCTCAAGTT
Celera SNP ID:            hCV26468338
SNP Position Genomic:     16380
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30229):
CAATGTTTGTTTGTTTGTTTTCCTAATAACTGAAGCATGCACAAAAAGTTTTAACATGAATATTTCAAATTAGCCCATAAAGTGGATTTTGGATCGTGAC
Y
GTGGACCAAAGAGCTCTTCTCTCAAACAGGAAGAATCTCCTAGCTATTCTTAGTCAAAAGAAGCCGCTCTCTCTACTCCTAGGCTTATTCTGAGTGCAGA
Celera SNP ID:            hCV26468339
SNP Position Genomic:     4952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:30230):
CACATATAAAATGTTAATTTAAAAGTACTTTTTTCACTGTAATTTCATGAAAATATGTTAAGAACCCCTCTTTTGGTGTCTTCAATATCACTGCCTTTGT
Y
ATCACCAGAGCCACTTTTTGAGTTGTCTAACAGTTTTCCTGAGCACACCACCTTCATTATATCACCGTTTGAATCCAAGTATGATGAAGACACTGTAAAC
Celera SNP ID:            hCV8375303
SNP Position Genomic:     6856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30231):
TCAATATCACTGCCTTTGTCATCACCAGAGCCACTTTTTGAGTTGTCTAACAGTTTTCCTGAGCACACCACCTTCATTATATCACCGTTTGAATCCAAGT
R
TGATGAAGACACTGTAAACTTTATCCCAAGTCGCAAATAACCATTTGTATAGCATTACAGCCCTTATTTTTGTTCACAGTGGTCCTGTTAATGATATTCA
Celera SNP ID:            hCV8375304
SNP Position Genomic:     6937
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30232):
CACACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAATAATAAAAGAAAAAAAA
A
TATGTGTGTAGGTGGGTGGGTGAATGAGTGCATGAATGAGTGAGGGAATGAAGGGGCGCTCTGATAGTACAGTAGTCCCACCTTACCCACAGTTTCAGTT
Celera SNP ID:            hCV11871689
SNP Position Genomic:     42468
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30233):
TGTGACATATACATACAAAAGAATGTACCCTACATATATGTCATATTTAAAGAATTACAATAGAATGTAGATCTGTGAACCCAGCCACCCAGCATAGGAA
R
CAGAATATTACCAGTTCTAGTGCTTCTCCCTGTATTCTGTGTCTTGCTGCATCAGTTCAATGTCATGCTTTTGAGATTCACACATCTCGATACATATAGC
Celera SNP ID:            hCV1239056
SNP Position Genomic:     7193
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30234):
GGGACATTACTGATAGCTGTTTTGCATCTTGGGCAGATTCCTGTGGACCCGCAGAGCAATGATCCAAGTCAGTCTGACAAACAGGACGTTCTCTGCCTGT
S
CTTCAGCCCCTCAGAGGAAACTCTGGTTGCCAGCACCAGTAAGAACCAACTCTACAGCATCACCATGTCCCTGACAGAGATCAGCAAGGTGAGTCTTTCC
Celera SNP ID:            hCV1239058
SNP Position Genomic:     20423
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30235):
ATTTCTCTGAAACTCTGTTAATGTTAATTTTTCTTGATTAGTGTTTCTCTCTGTTCTTCCAATTGCACAATCTCTATTGAGCTATTTCAAGTTTGCCAGC
K
CAAATCTACTGTTGAGCCTTCCAGTGAATTTTTCGTTTTGGTTATTGTACTTTTCAACTCCAGAATTTCCATTTGATTTTTAAACTAATTTCTGTTTTCT
Celera SNP ID:            hCV27963425
SNP Position Genomic:     37749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30236):
CCAAACACCGCATGTTCTCACTCATAGGTGAGAATTGAACAATGAGAACACTTGGACACAGGAAAGGGAACATCACACACCGGGGCCTGTTGTGGGGTGC
R
GGGAGGGGGAGGGATAGCATTAGGAGATATACCTAATGTAAATGACTAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAAACC
Celera SNP ID:            hCV16107020
SNP Position Genomic:     12796
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30237):
TATATATTTATAGTCTTTTTATGTTAACCTTTACTATCATTTCTGGTTCTTTTCATTTGTTTCTTGAGTTTGAGTTACCACTGAAGTCATTTCTTTAATC
Y
GGTACACATTTGTTCCCACCCACCATTTGTGTGCTATTACTGGGAAATATATTACATTTCTATATGTTATAGCAACAACAGTATATTATATGCATATTGT
Celera SNP ID:            hCV27963426
SNP Position Genomic:     27527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30238):
AAAGAGAGGAACCAACAATTGCAAACAGTAGTGTGTCTCAAATACGATGATAACAATATATATCAGATACAGTAGATGACTGGAAGGATTTAGTGAGCTA
R
GCTTACAATTCAGTAATTGATCTTTTTCACAGCACCCTGGAACTATTTAAGGAATACCAAGAAGAGGCATATTCCATCAGCCTTCATCCATCTGGACACT
Celera SNP ID:            hCV952540
SNP Position Genomic:     32100
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30239):
ACATATACACCATGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATGCCCTTTATAGGGATACAGATGAAGCTGGAAACCATCATTCTGAGCAAACT
R
TCGCAAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGGTGAGAATTGAACAATGAGAACACTTGGACACAGGAAAGGGAACATCACACACCGGG
Celera SNP ID:            hCV16107021
SNP Position Genomic:     12679
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30240):
GGAGATACCAACAACCAATATGAGGATTAAAAAGGGGATATCACTAAAGGTCCTATAGACATTAAAAAGATCTGAAAGGGGTCCGGGCGCAGTCACTCAC
K
CCTGTAATCTCAGTACTTCGGGAGGCTGAGGCAGGCGGATCCCTTGAGATCGGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACTTCATCTCTACTA
Celera SNP ID:            hCV3138260
SNP Position Genomic:     36173
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30241):
AAGCTTACAATTCAGTAATTGATCTTTTTCACAGCACCCTGGAACTATTTAAGGAATACCAAGAAGAGGCATATTCCATCAGCCTTCATCCATCTGGACA
Y
TTCATTGTAGTAGGGTTTGCTGACAAACTACGCCTCATGAATCTACTCATTGATGATATACGTTCTTTCAAAGAATACTCTGTTAGAGGATGCGGAGAGG
Celera SNP ID:            hCV952541
SNP Position Genomic:     32199
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30242):
AACTACAGTGGCTTAAAAAAAGGGGGAAGGAGGAAATCCAGTTATTTTCCCAGCAACCTTATTGAGTATATGGTTCCATCCCCATATTCTTATGTCCACC
M
GACTATTTCATTGAACCTAAAACCTTGTGAGATCCCCGCTATGATAAGTCCTGTCTGTAATTGTGGAATATTAACAAATATTTTAAAAGAAAAGTAATCT
Celera SNP ID:            hCV952542
SNP Position Genomic:     32507
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30243):
CTTTTACTACCAGATTTATGTGTGGCTTGGAAAATGCTATCACAGTTCAGAGAGTGATGGCTTTTGCATCATGTTCAGCCAGAGACTGGTAGTTTGGATG
R
CCCCTTTCTGATTGTTCATAAGAGGGTACAGCCTTGGGCATGCACAGAGTCTTCCAGGCTGCGAGGGATGAATATGATTTCATTTTTAAGCCTGGCTTCC
Celera SNP ID:            hCV3138261
SNP Position Genomic:     38468
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30244):
ATCCCGAGACCCAAGCGGCTAGCAGAGGGCGGCCCTGGCCGCTGCTGCCTGCCTTCAGCCCCCTACTCCCACGCCGTGGCTCCACGTGCCACCGAATCGC
Y
CCAGCGCCAGCAACTCACAGCTACTGCTCAACTTTTGATTGGGACTTCCGCTTCCGGCGGCAAACCATACTTCCGGTTTGTCGTTGCTATAGGAACCGCT
Celera SNP ID:            hCV8375278
SNP Position Genomic:     5910
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(C,12|T,26)   total(C,16|T,58)
SNP Type:                 UTR 5;INTRON;UTR 3;MISSENSE MUTATION;TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON;UTR 3;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:30245):
GGCATGCACAGAGTCTTCCAGGCTGCGAGGGATGAATATGATTTCATTTTTAAGCCTGGCTTCCTAGGAGATGCCCCTGGGTCGGGAGAGCTTAATGTTC
M
GCATTTGGTAGACTGTTGTGTTTGGTAGGCCCGTTGTGCCAGTGAGACTCTGCCCTATGTTAACGGGTCTTTGTGTAGCTTAGGAGATGCTTTCAAGTTT
Celera SNP ID:            hCV3138262
SNP Position Genomic:     38605
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30246):
GGAGATGATGAAATGGAGGTATGAAATAGGACAGTGCTCATTGGTTCATATGGCTGGAACACTGGACACATTTGAGCAATGATAGAGGGAGTAGGAAAGG
Y
TGGCTGCATCGCAGAAGGTAGTGTATGCCATGCCAAGGAATTGGACTTTAGTCTCTAGGTGACGAGAAACAACGGAAAGGATTTAAGCAAGAAAGTAATG
Celera SNP ID:            hCV952544
SNP Position Genomic:     34435
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;SC_12_A(C,3|T,21)   SC_12_AA(C,0|T,23)   total(C,3|T,44)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30247):
TGTGATCCACTGCACCCAGCCTTCTAAAGACTTTAAATGATTATTTTTTATCATATTTACCAGTTAACCTACATTGTCAGAGAGAAGGTCAAGTTGAGGT
Y
CTTACCGTGCCATTCCAGAAGTCCACTCTCTCTGTGCTATTTTTGCAAGTTTCTGTGAATACATAATTATTTCAAAAATGTTTTGAAAAAACAGCAATAA
Celera SNP ID:            hCV3138263
SNP Position Genomic:     39992
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30248):
AGGTTAATGTTTTTCAACAAATTTGAGATTTTTCAGCATTATTTATTTGAATATTTGTTGTTTTTCTCTCTTCTCCTAGTGCTCTCATTACAGTACCATA
Y
GTGGGTGCATTTAATGGATGCCCACATTTCTCTGAAACTCTGTTAATGTTAATTTTTCTTGATTAGTGTTTCTCTCTGTTCTTCCAATTGCACAATCTCT
Celera SNP ID:            hCV952545
SNP Position Genomic:     37623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30249):
CTGTACCTTTTCTGTTTAGATACACAGATATTTTCCATTGCGTCACAGTTGCCTACAGTATTCAGCATAGTCACATGCTGTTCAGGTTTGTAGCCTCGGA
S
CAGTAGGCTCTACCACATAGCCTAGGTGTATAGTAGGCTGTCGCAGCTAGGTTTGTGTAAATACACTCCGTGATGTTTGCGTGACAAAATAGCCTAACCA
Celera SNP ID:            hCV3138264
SNP Position Genomic:     41127
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,8)      total(G,8|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30250):
AATATGTGTCCCCCCAGGGCATTGTTGTTGGTTGGTTGGCTGATTATCTGTTTCGTGACTTGGCTGAGCTAATTCTGTAAAGTCTGTTTCCCCTGTAGTG
W
GCAGTGTCTCATATCACTACTCAGATCTATTTTTCATCTTTTCTTTTAGCCTGGCTACCTAGGGTTGCCCATGAGTTGCCTAAGCTGCTTATTAGTTACA
Celera SNP ID:            hCV952546
SNP Position Genomic:     38229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30251):
ACAGACAGAACCTTTGCTCCACTGCACCAGAGCTGGGGCGGGGACCTGCTTTTCCAGGAGTAACATCCTCACTTCTGTGAGTGACACTTGAGGTGTGTGC
R
TGTGTGTGCACATGCGTGTGTATGTGTGTGTGCACGTATGTAAGCCCCTGGTCTTTTTGGCTTGCCCTTCATGGCTTGGAACTTTCACTCTATAAGCAAA
Celera SNP ID:            hCV952547
SNP Position Genomic:     39125
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30252):
CGGGGACCTGCTTTTCCAGGAGTAACATCCTCACTTCTGTGAGTGACACTTGAGGTGTGTGCGTGTGTGTGCACATGCGTGTGTATGTGTGTGTGCACGT
R
TGTAAGCCCCTGGTCTTTTTGGCTTGCCCTTCATGGCTTGGAACTTTCACTCTATAAGCAAACTGGGTCAGGAATCATTAGGGCACAGTTATTCTCAGTA
Celera SNP ID:            hCV952548
SNP Position Genomic:     39163
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30253):
GGGGTAAGAATAAGAAATCCCAGCAGTTTCCCTTTCCAGACCGAAACCATAGCCCAAGATCAGGAGCTATGGGGAGAGGGAGTCGCTTATCTTGGCCACA
Y
CTGCCCAGAGTGCACAGCAGTGAAGTTTCTGGAGCTGAGGCCGTAACAGAGCGAGTCATGGCTTAAATGCAGCAGACTCTGTTCTTACTGGGATTGAGTA
Celera SNP ID:            hCV952549
SNP Position Genomic:     39476
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30254):
ATGTAGAGGAAATAAATGGCGACTTGTATTATGAAACTAGATTAATCAGTCACGCATATGTAGTTAAAATCACATATAAAATGTTAATTTAAAAGTACTT
K
TTTCACTGTAATTTCATGAAAATATGTTAAGAACCCCTCTTTTGGTGTCTTCAATATCACTGCCTTTGTCATCACCAGAGCCACTTTTTGAGTTGTCTAA
Celera SNP ID:            hCV27851989
SNP Position Genomic:     6786
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(G,1|T,39)   total(G,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:30255):
GGCCACAGCTCGACCCCTCACACTGAGCAGAGCTGCCTGTGTCTCAGATCCTTCGAGAGATATCGGCGTTTGATGTCACCTACACCGCCATTGTCATCTC
R
CATTCTGGACGCATGATGTTTGTGGGCACCTCGGTGGGAACCATTCGTGCCATGAAGTACCCTCTGCCTCTGCAGAAGGAATTCAATGAGTACCAGGCCC
Celera SNP ID:            hCV16015900
SNP Position Genomic:     43444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:30256):
GTTCTAGCACTGACAGTGGCAAGGGCACAAGAATGCTGTCCTCTCTGCACACCATGTCATGACCATGCCAGCTAGGAAATGCACTGGGCCATCTTCACCT
Y
GGGGACCACACTTCACACAGCACTGTTCCTCTCCTTAATTGCTGATTTTAGAAAAAATGTCATTTTTATATGCATCTAATTGGTGGTAACTGGCATGACT
Celera SNP ID:            hCV25968395
SNP Position Genomic:     4158
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,38)   total(C,67|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30257):
GTCCTGGGCACTGTGTCTAGTGGATAAGTGGATGGTGGATACAGGCCCAGGGCAGGGAGCGTGAGTGAGGCAAGGGAGGATGAGCTAGAGAGTGATGTGA
Y
GGGTCCCCATGTGTTGGGCCCTCATGCTGCTGCTTCACAACACGCCAAGGAGAGATGCAGCAAGTTGCTCAGCAGGCGTGCATGCCCAGCCCATGGGAAT
Celera SNP ID:            hCV12109107
SNP Position Genomic:     14166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30258):
GCGGATCACCTGAAGTTGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCAGGCATGGTGGCACATG
M
CTGTAATCCCTGCTACTCGGGAGGCTGAGGCAGGAGAATCACCTGAACCTGGGAGGTGGTGGTTGTGGTGAGCCGAGATTGAGCCATTGCACTCCAGCCT
Celera SNP ID:            hCV12109108
SNP Position Genomic:     13733
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30259):
GGTGGGCATTGAACAATGAGAGCACTTGGACACAGGGTGGGGAACACCACACAACGGGGCCTGTCGTGGGATGGGGGGAACAGGGAGGGATAGCATTAGG
A
GATATATCTAATGTAAATGACGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAG
Celera SNP ID:            hCV11871690
SNP Position Genomic:     42330
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30260):
CTGTCGCAAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGGTGAGAATTGAACAATGAGAACACTTGGACACAGGAAAGGGAACATCACACACC
R
GGGCCTGTTGTGGGGTGCGGGGAGGGGGAGGGATAGCATTAGGAGATATACCTAATGTAAATGACTAGTTAATGGGTGCAGCACACCAACATGGCACATG
Celera SNP ID:            hCV12109109
SNP Position Genomic:     12777
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30261):
TTCATACTAACTTAATGCTAGTAACATATAGAAATGTTATTGCCACATAGCTACCTTCCCTTTCCCCTTTTTAATGGTAATATTGTTATATATATTACAT
Y
TATGAGTGTTACAAACCCCAATGACATATTCTTATAATTATTACCTTATATAATTTTATATATTTTAAAGAAGCTGAGGTTAGAATGGGGAGCAATTATA
Celera SNP ID:            hCV29130211
SNP Position Genomic:     27330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30262):
GTGACCTGTGGCCCCATCGCACCTCACAGAACCAAAGAAACCATGCCAAAACCCTTCTCACCCCTTCCTCATCTGCTGGCCTTTGGCTCCTGCCTTCTTG
Y
GCTGTGCCAGAGGTTTCTGATCTCCCTCAAGGAAATCCAGTTTATCAGAGAAGCCTGTAAGTGAAGAAGTAGTTTTGATCAGCACCATTGTATTTTAAGA
Celera SNP ID:            hCV8375240
SNP Position Genomic:     514
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:30263):
TTTTCTTCAATTCTCTCACATTTTACAGGTGAGCTTCAGTCCACAGGATAACACTCAGGTGTGTGTCACTGGAAATGGGATGTTTAAGCTTCTCCGTTTT
K
CTGAGGGAACCCTGAAGCAAACCAGCTTTCAGAGGGGAGAACCCCAAAACTATCTAGCTCACACCTGGGTGGCTGATGACAAGATTGTCGTTGGCACTGA
Celera SNP ID:            hCV29130212
SNP Position Genomic:     17316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:30264):
CAGGAAATAAAGATAAGAGCAGAAGTTAATAAAATAGAAAACAGACAAAAGATCATCAAAGCCAAAATTTGATTCTTTGAAAACACGAAATAGACAAACC
C
TTGGCATGACTGATGAAGAAAAAATTAAGAGTGTGGAGATACCAACAACCAATATGAGGATTAAAAAGGGGATATCACTAAAGGTCCTATAGACATTAAA
Celera SNP ID:            hCV11871694
SNP Position Genomic:     36038
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,4)   total(C,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30265):
AACCTGTACATTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAATAATAAAAGGATATCTATGTGAGAGGCGAAAATGTTTTAAGGAGGAGAGGC
R
AGGCATCAGCTGGGTCGAAACAATGCAAAAGCATTTTACAAACTCTAAAACCAGTCAACATATATCAAGAACATACTAAGTTCCAGACACTGGTGATTGA
Celera SNP ID:            hCV29130213
SNP Position Genomic:     12993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30266):
CCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATTTTGGCCAGTATGGTCTCGATCTCTTCACCTCATGATCCACCTGCCTC
R
GCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGGCCGGCCAGCTTTCAAGATTTTCTTATCTTTGGCTTTCAACATTTTGTTTTTGATGTGTC
Celera SNP ID:            hCV27984914
SNP Position Genomic:     37363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30267):
CTGATGTAGGAGGATCGCTTGCACTCAGGAGTTCGAGACTAGCCTGGGCAACATAAGGAGACCCTGTTTCTACAAAAAGTAAAAAATATTAGCCAGGTGT
K
GTGGCACACACCTGTGGTCCCAGTTACTTGGGAGGCTGCGGTGGGAGGATCACTTGGGCCCAGGAGGTCAAGGCTGCAATAAGCCATGATCACACCACTG
Celera SNP ID:            hCV1239062
SNP Position Genomic:     34002
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30268):
ACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTCCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCCACGGACATTATTAATGAGAGCTGCTGAG
Y
CTCCTCAGCTTCAGCAATATAATTAGTCTTCAAGTGACTGTGGAGATGCGGATGAAAGTACAGAAAGTGATTCTGATGCCCAAGCTCACCAGTCCAGGAA
Celera SNP ID:            hCV27984915
SNP Position Genomic:     35596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30269):
TGAGAATGTATCAGTGAAATGACTCCAAACGTGGACAAGAGTTCTGCAGCCCAGATCCCAAGTGCTTATGTCCAAATGTTGACGAAGTCTTAACACCCAC
R
CCAATCTTCCTCACATTCATTTCTTCCCACAATCCTAACTTTAAAATCTGTCATCTTCTTTCTTAGATGACCATGAAATAAAAAAGGAAAACCAAGAAAA
Celera SNP ID:            hCV3138237
SNP Position Genomic:     1940
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,7|G,8)      total(G,8|A,7) ;no_pop(A,-|G,-)   ;(A,-|G,-)   Caucasian(G,25|A,57)   African-American(G,7|A,77)   Asians(A,82)   total(G,32|A,216)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30270):
TCCGGGCCGGGGGCGGGGTCGGAGCGGGGCGGTGCTCTCCACTCTGAAGCGCTGCCTTGGTCTTCAGCAGAACTGTTTGGCGGGAGATCATGTCAGCCGT
K
GTAGCTCAGACGCTGCATGTTTTTGGTCTTCGATCCCACGTGGCCAACAATATCTTCTACTTCGATGAACAGATCATTATATTTCCTTCAGGAAATCACT
Celera SNP ID:            hCV27851990
SNP Position Genomic:     6418
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,5)   caucasian(G,39|T,1)   total(G,70|T,6)
SNP Type:                 UTR 5;INTRON;SILENT MUTATION;hmCS


Gene Number:                 128
Celera Gene:                 hCG2032281 - 83000099531071
Gene Symbol:                 MAST205
Protein Name:                microtubule associated testis specific serine/threonine protein kinase;KIAA0807;MTSSK
Celera Genomic Axis:         GA_x5YUV32W802(37089748..37334007)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12288):
ATTGAGTGTTTAACAGGAAGAGCAGAAAGTCCCTAGGAAGTGGACTTCTTGGGAGAATTTGTGCTGGGGCTGCTTGTTTCCCTGGGAGATGACTGTGCTT
TGCATGGGACATGAAAAAGTGAAGGACTAAGCTTCAATTATGGGAACTCTGGCCTGGGCATCCTTGACTGAGCTTAGTACTGAGGGAAATTGTCCTCCTT
CAAAAAAATCTCTGTTGAATCAGAAGGACCTTTCTTGAAAGTAATGTTATGTGGTTTGTGTTAGTCTGCTTGGGCTACCATAACAAAAGAACACAGATTA
GGTGGCTTAAACAACAGAAATTTATTTTTTTCACAGTTCTAGAGGCTGAACATCCAAAATCAAGGTTCTAGCCAATTTGGATTCTGGTGGGGGCACTCTT
CCTGGCCCATAGACAGCTGTCTTCTCACTATGTTCTCACATGGCCCTCCTCAGTACATGTGCCTCGAGAGAGGGTGAGTGCTCTGGTGTCTCCGCTTATA
AGGACATTAATCTCATAGGATTAGGGCCCTACCCTTAAAACCTCATTTAAGTTTAATTACTTCCTTAGAGGCCTCATCTCCAAATACAGCCACACTAGGT
GTTAGGACTTTGACGTACAAATCTGGGGGAGACACAAACATTCAGTCCATAATATGGTCCCAGGGAGCAAAGATGCCAATGGACTGATCTAATTATAGCT
GAATTTGGCTATGGAAGTTGGACTGATCTTCCTGAAGTAGATTTCAAAGACAGCCACAAGTTCTTCCCCTCCCTGAATCTATTCCCCCTTGCCATGTAAC
TTTAGTCCCTGGCCACACTGACTTGCTTTGGCAATGACACAGTTGCTAATGTGGCATCAACAGAGATTTGAAAAGTGCTTTCACATTGCGGCTCGCTGTC
TCTTCCTCCTCACAGGACCCCCTACCACTGCTGTCATGTGAAGAAGTCCAAGTAAGCCTGAAGGATGGTGAGAGCTATATGGGTTAGTCATTCCCACTGC
CATGGCCAATGGCCTGCCAATTGCCATATGTGTGACAGAAGCCATTTTAGATGACTTAGCCACCAGCCAGCCAGCCCTCAGCCGACTGCAGATGCATAAG
CAAGCCTAGCAGTGATTAGATAAACTGGACCAGACCATAAGAACTGCCCAGTTGGCTCACAAAAATGTCAGCTAAATAAATGGTTGTTGTTTTAAGCCAC
AAGTTTTGAGACAGTTTGTTATATGACAATAGATAACTGCTATACTTACCTTTTTTTTTTTGAGACAGGGTCGCATTCTGTCACCCAAGCTGGAGTGCAG
TTGTGTGATCTTGGCTGACTACAACCTCCATCTCCCACGCTCAAGTGATCCTCCCACTTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGTGCCACCAT
GCCCAGCTAGTTTTTGTATTTTTTGTAGAGATGGGGTTTTGCCATGTCACCTAGGCTGGTCTCAAAAATCTTGAGCTCAGGGGGGAGGGGGAAGGGATAG
CATTAGGAGATATACCTAATGCTAAATGACGAGTTAATGGGTGCAGCACACCAGCATGGCACATGTATACATATGTAACTAACCTGCACATTGTGCACAT
GTACCCTAAAACTTAAAGTATAATAATAATAATAATTTTAAAAAAAATCTTGGGCTCAAGTGATCATCCCACCTTGGCCTCCTAAAGTTCTGGATTACAG
GTGTGAGCCACGGTGCCCAGCCCATACTTAACTTTTAGAATATAAAACAATTTTGGAGTTCTTAGATAATTAAGGAGGAGATACTAGGCTTCCTAATAAT
ATGACATAAGGGGCCTAACTAGAATAAGGAAAAGTAATGTGATCACATTTATATTCTAAGAGTATGGTATTGTTCATATCGGTTAAACATCTAACTATGG
GTGGCCCTCAGTTCTGAGCTCTACACTGGTGTAACCAGTAGCTTACTAGACATCTTCACTTGGATATCTCACTGGCACTTCAGAGCAAACACATCTAAAA
TGGAATTGACCATAATCTGTTTCACACTTTTTTTCCCTCTTCTGTTCCCTACCTCAGTTGTCCAAGCCAGAAACTTGGAAATCATTCTTAGGGCTTTTTC
TTTCTCTCTGCACCTTTGATGCAGTTAACAGGTCCTGTGGTTTCTACTTTCTGGATCTCTCTAAAGTCCACCTGTGTTCGTCCGTCCCCGTTATCATTGT
CTCAGTACTAGTCACTAACACCTCTCCCTCAGCTAATTATAATATCCTACTAATTTGCACAGGATTTGCCAGTGGAGTGGATATGAAGTATGTGAGAAAG
AGAGAACTCAGGGATCACTCCGAGGTTTTGGCCTGAGCAACTGAAAAAAAAAATTGACTTGTCACTTATTGAGCTGGTGAAGACAAGTATAAAAGTGGAT
GTGGGGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACGTTAGGAGGCCGAGGTGGGCAGATCACCTGAAGTCAGGAGTTCAAGACCAGCCTGGCCA
ACATGGAGAAACCCGTCTCTACTAAAAATACAAAAATTAGGCGGGTGCAGTGGCATGCGCCAGTAATCTTAGCTACTTGGAGGCTGAAGCAGGAGAATCA
CTTGAACCTGGGAGGCGGAGGTTGTGGTAAGTGGAGATTGAGCCATTGCACTTCCAGCCTGGGTGACAGAGTAAGACTCCATCACAAAAAAAAAAAAAAG
AAAAAAAAAGTGGATGTGGGCCACATTGTGTCACATTGCCATTTCTGGCTGATGGGAGGCTGAGAAAGTATCTGGCTGTATTAGTTTTGTATTAACATGT
AATACAAATATATAATTACCACAAGCTTAGAAGCTTAACATAACATGCATTTATTATCTCACAGTTTCTGTCTAGATTTGTGTTAGCTCGGTTCTTTGCT
TCAGGGTCTCATCAGGCTTCCACCAAGTTGTGTGGGCTGTGTTCCCATCTGGGTGCTCAACTGGAGAAGGGCCTGTTTCCAAGCTCAGTCTCACTGTTAG
GAGAACTCATTTCCTCCTGCTTGTAGGATTGGACCTACAGAGTTTTTTGTTTTGTTTTGGTGCTGTTGGGCCGGAGGCTGTCCTAGAGGTTGCCTGGAGT
TTACTGCCACATGGACCTCTCCATAGGCAGTTCAGAGAATGACAGCTTGCTTTGTCAAGGCCATTAGGAGTGCAAGAGTGAGTCTTCTAGCAAGATAGAG
TCTTATATAATGTAACATAATCAAGGAAATGATATCCTGTTACTTTTTTTGTATTCTATTGGTTGGAAACAAGTCACAGTCCTCATCTCCATTCATGGGA
AGGGATTACATAAACGTGTAAAATACTGGGAAGCAGGTAGAGCAGGAGGACTAGCTTAGAGTCTATCTGCCCAATAACTCTCGCAGTACCAGTATGGAAG
GTGAGAAGGTAGAATGGGTTCTGGTCCTTAAGTTACCAAGGCTGAGTCAGTGGGTTCTCCTGCCAGAGACTGTTGATCTGTAATGATGATACAACTATGA
AGAGAGGGTTAGAATTACTTTGCAGGGGTGCACAGTAGCAGCGCAGCTCATTGCCTGGTGGTTGTGACAGCAGTGTCCTGAGATTGTCCCTAAGGTTCAG
TCTGTGGGGGCTCCTTGTTTCCTGCCAGCTACGTAAGCCTTTTTCTCCTATCTCTGTTCAGCTCTGTGATCCATTCTATGTAGCCTTCTAAGAAATTACC
CCTTAGGCTTAAGATAGTCAGAGTTGTTTGTTATTTGTAACTAAGGATGTGACAGACCCTGTACATGTAGCTGGAATAATTATAATTAGTTGTCACCACA
TGGATTAATGGGAGAAGGAGAGGGAGGTAGAGGCCAGATTTGGATGGCCTTGCCAGCCATAGTAAGTTTACACTTCATCTTGAGATTCATTTAATTGCTT
TTTTTTTTGAGATGGAATCTCGCTCTGTCGCCCAGGCTGGAGTTCAGTGGTGCGATCTTGGCTCACTGCCAGCTCCGCCTCCCGGGTTCACGCCATTCTC
CTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCATCACGCCCAGCTAATTTTTTGTATTTTTAGCAGAGACAGGGTTTCACCGTGTTGGCC
AGGATGGTCTTGATCTCCTGACCTCGTTATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACCGTGCCCGGCCTCATTTAACTG
TTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCGGTGGCACGATCTTGGCTCACTGCAAGCTCTGTCTCCCA
GGTTCATGCAGTTCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCCACCACCACGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCAC
TGTGTTAGCCAGGATGGTCTCGATCTCCTGAATTCATGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCACCCGGTCC
ATTTAATTGTTTTAAGCAAGCAAGTAACATATAGGAAGAGTCTTGTGAGGGCTTTTTGAAGGATGAGTTTAAAGACAATGAGACTGGCATAAGTGAACCC
GTTGAAGGCTTTCTCAGTCAAGTAGGTGAGGGAAGATGAGACTTGAGGTGGTGCCAATGGGACGGAAAGAGGAGGCAGATTGGAGAAATAGTGAGGTTAT
AGAGGCAATAAGACTTGTTCATTTATTGGATGTGAGGAAAGGACAAGGAAGGAGTCCAGGATGATTTCCAGGTTTCTGGTTGAGGCAACTGGATGGGTGG
TAAGGAACTGGGACAGGGAATAGAGGAGCAGGCTGGTGACAGGCCGTAGAGCACATTGGTTATGTGCATCCTCCCGGCCTCCCAGAAGGAATCCATCACT
TTTTCCACTTTTATAGGTGTTTCCGCACTGTCTTTCTGTCCGGATCTGGCAGACCTGGGTTTGAGTCCTGGCTCTGGACTTATAAGCTGTGTGATGTTGA
GCATATTATGTAATTTGAGCCTATTTCCTCAACTGTAAAATGGAAATACAACTTACTTCTTGTTTGTGTATGTCTGAATTGAATGCACAGTGTGTGGTAT
GCAGTGGGCACTCCATAGTGTTGGCTATTTTTATTACTCAGAAAGGGGTCAGGGAAGAGGCCCAGGACAAATGGGTGAAGGCTTTAAGCAAGGCTTCTAG
GTCAAAAGAGGAAAAACACAACATGTGGCAGACCAGCTGAAGCCAGAGGGAGGCCAGAGCTGAGCTACCACCACATGTTGCTGAGCAGATGAGTCACTGC
AGGCAGCAGGTCAGGCTACCCAGGCCACAGCAGACTGGGCTGGGCTCTACACGATGACTTCATTGTATGCCTTTTTTGTCCTCTCCTCCTCCCAGAAGGA
ATCCATCACTTTTTCCACTTTTATAGGCGTTTCCACACTGTCTTACTGTCCGGAAAGAGCAAACACGGTGGAAAGGGACAGAAGAGCCAGAATTCCGTCT
AGTTTGATCACTGATTTGCTGGGTGACCTGGTGCATTTCACTTCGCCTCAGTCTCTTTATCTGTAATATGAGAATGCGCAGATTTGCCTCCTAAGTGTGA
TGTGAGAATTAGGTGAGAGTTGGCAGGCACTAAATAAAAAAGCATGCATTAGCCTTCTATTCATTAGTTGTGTTATTCTGTCTCCTTCCTGCTCCCGGCC
CCTCTCTCCCTAGTTCTTTGAGGACACCGATCGACTCGAACTCATTTTTGGGTCCCCAGCACTGAGCTTGGCCCAGCAGTTTCATGAATGGATGAATGAA
AGATTCAATGGGAGTCCGCAGCCGCTGACGGCGCGCCGAGAGCCCCGCCCGCTTCTGGTCCTCCGACTGCGCGCCAGGGCCACGGGCGGGTCCTTTGCGA
CCGTTCGCTGGCGCGTGCGCGGGAGGCGGCGCGCGGCCGGAGGTGGCGGGCGGGCTCCCGGTGCGCGCGCGTGAGGGGCGGGGCCGGCCGAAGGCTGGCT
GTAGGCAGGCGGCTGAGCCGGCGGCGGGTGGCCTGCCCAACGTGTGCTGGGTGGGAGAAGGCGAGGCGGCAGCGATGCTGTCTCTTCCGTGAGGAGCGCA
GAGGAGGTCGCGGCGCCGGAGGCCCCAGAAGGCTCGAAGGCGCCGCGGGCTGGGGTCGGTGGCTTAGGGAGCCCGTCCGGCCATGGTGGCCGCGGGTGGT
GGTTGGCGCGGCTGCGCTGCGGCCCGGGGCAGTGCGGAGCCGGGACAGTCGCGGCGCTGACGCCCGCGGGCCCCAGCTGCAGATATGAAGCGGAGCCGCT
GCCGCGACCGACCGCAGCCGCCGCCGCCCGACCGCCGGGAGGATGGAGTTCAGCGGGCAGCGGAGCTGTCTCAGTCTTTGCCGCCGCGCCGGCGAGCGCC
GCCCGGGAGGCAGCGGCTGGAGGAGCGGACGGGCCCCGCGGGGCCCGAGGGCAAGGAGCAGGTAGGGCGGGTTGGGATCCGGGAGGGTGAACCTGAATGG
AAGCCGTGGGGGAGGGGATCTTCGGCGGGAGGACCCGGGCTGGAGCTTTGGAGGGGTGGGGTCTGAGTAGTTCGCGGGGAGGAGTGGGAGGTCTGGGGAG
GCCGAGAAATGGGGAGTGGAGAAATGGAAGTGGTGGCCTGGGGTTGTATTGGAAATGGGGGTGTAGAAGAATGAAAAATTGGTGCAAGAGATAGTCAGGG
GTTCTGGATGGGGCGAAAGGACGCTGGAATGTGGGCTGAGTGTGTGAGCTGCAACGAGTAGGCTTACTAAAGAGGCGTTGAGGAGTTATCCATAGGAGTA
AATAGAGTAAGATGTAAGTCAATTTGATGTAGTGTTATCCTGTTTYCTAGAGGTTGTCCTTAAAATTGTAAAAACGGATGACACTCCCAAGCATTCTCTG
ATTTGGCCATCATTATACTTTTGTACCAGTGTGTTCACAATCATTGTTAAGGCTCTCTTTACCAACCATCTATTTCACAAGAAAGCACTTGTGAAACACC
TGCATGTGAGCAGTGTTAAGCCCAATTTTGTGAACAGAATTCGTAGATATATGGTTTGCCTGCTAGTTTTCCACTGAAAACACATTACTGGGAAAACACA
GCAGCATACAAATATTCATGGAGTTTCTGAATGAACAGGATATGTTTATGTAATTTATTAGTCAAGAGTAGGTGTATTTATGAGTAGGGGATAAAGGTCA
GTTTTATCAGGCAGGAGAAGCTGCCACTAGTAGCGGTAATAAGTTTAGTGAAAGGAGAATAAGTAATCCTTGGTCTTGTTGGATTTACAGAAAAATGTTC
TGTAGTAATGAACTCTAGTGACAGCTTTCCTTTTGTTCAGCTCTATTCGGGATCCTACTGACTTCATCCATGAATGTTTTAAGACTTCTTATAGGTCTCT
TACCTCTTTTCTCTCAGATAAATTAGCATTTTCCTTAGACATTTTTTTTTTTTTTTTGAGACGAAGTCTCGCTCTGTCGCCCAGGGGAGAGTGCAGTGGC
ATTATTTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAGCGATTCTCCTGCCTCAGCCTCCCGGCTAGCTGGGATTACAGGTGCCTACCACCATGTCCA
GCTAATTTTTTTGTATTTTTAGCAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCTGACCTCAGGTAATCGGGATTACAGGCATGAGCC
AGTGTGCCCGGCCCTTTAGACAGTTTAAAAATTATATACCATGCTAGGTAGCCCTTGGACTTTTCCCCCCTTTTGTTCTTCCACCTCTTATTCCCCACTG
AGCCCTGAGGAGACTGCACCATTGACCATCTCTGCCCCTGCTTCTAGCTGCTGAGCATTGTCCTCTTGCTGCAATTTACTCCCCCATGTGCCTAATACTT
ATCTTTTACATTCTCTGCAGTATCATCTAGTCAAAACTTGTACAATGAACTTCAAGTCCAGGTCCTTTCCTGTCTCAGTTTACCTGTCCAGTTGACCTTA
CTGCGTATTTCATGGTAGAGTTCAAGATTACTTGATTTTTCCCTCCTCTTTATTTTATGATTTTTGTGTTTTCTCATCCTTAGCTTCAGTCTCAGAGAAA
AGTACTCATCCTCCTCTCCGAGGCTAATTTCTCTACTTATGTCCTTGATTTCATCCTCTTTTGTTTGCCTTAGACCCTTGTTACTCTCTTTGTTTTATAT
CACAAATAAAAACAAAACAACATAATTTCCCTGAATTGTGTAACCTACCCAAACTACTTTGTTATCTCTTCTTTGCTTCCCCAACAACCTTCTTGAAAAA
TGAGTTTGTATTCAGTGTCTTAGCTTCCTCACCTTGTATACATTTCTAATATGGTTTGGCTTCTTCACTTATGCTTTCCCAAAACTGATGTCTTTAAGGT
CACCGAAAGCTTTTTTTGTGTGGGATTACTTTTTTATTGAGGTTTGACAAATCAAAGGTTCATTCAGTCCATGAAATATTACAGAATGAGTACCTGTATG
ATCACAACTCACATCAGGATGGAGAACATTCCCAGTACCCTAGAATGCTCCCTGTGCTTTCTCCTAGCACTACTCTTTTACAGATGTAACCTCCCTCACC
ACCTCTGTCACTATAGATTTGTTTTGAACTAATACTTCATATAAATGGAATCATAGTGTGTACTGTTTTGTGACCAGATTCTTTCATTCGGATCATGTCT
TGAGACTCATCCATGTTGTTGCTTGTAGAAACAGTTCTTTTTCATTGCTGTGTAATTTTCCATTGTATGAATGTATTGTGATGGTTACTAAAACTTATTT
TTGTTTTTGAGACAGGATCTCACTCTGTCACCCACGCTGGAGTGTAGTGGTGCCGTCATAGCTCACGGCAGCCTTGAACTCCCAGGCTCAAGTGATCCTC
CTGCCTCAGCCTCCCAAGTAGCTGGGACCATAGGCACATACCACCATGCCCAGCTAATTTTTTAATTTCTTTTTCTTTTTCTTTTTGAGACAGAGTCTTG
CTCTCTCGCCCAGGCTGGAGTGCAGCGGCACATTCTCAGCTCACTGCAACCTCTGCCTCCCGGATTCAAGCGATTCTCTTGCCTCAGCCTCCCGAGTAGC
TGGGATTACAGGCATGCACCACCATGCCTGGCTAATTCTCTATTTTTAGTGGAGATGGGGTTTCACCATGTTGGCCAGGCTAGTCACGAGCTCCTAACCT
CAGATGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACTACCACGGCCTAATTTTTTATTTTTTGTAGAGGTGGTATCTTACCAT
GTTGCTCAGGCTAGCCTCGAACTCCTGGGCTCAAGTGATTCTCCCACCTTGACCTCCCAAAGTGCTGGGATTATGGGCATGAGTGCCCAGTTTGTTTTTC
AAATTGAAATATAATTCATGGCTACTTGTGAAAAGTTTTCATTGTGAAATAGTTACAGAGAGAAATATGTAAAAGTCCTGGGAACCTTTAAATTACTAAA
TCTGATAGTCTTTTCCTCATCTTGTCTGACCTCTGTGAACTATTTGTCACTGTTGACTGTGTGTTCCTTGTTGACATTTTTTTCTTTTTTAATATTACAA
TATCCATTCTGTTACTGCTTCTCTAACTGCTCTCTTGTGTGTCTTTGTCTTGTGTTTTCTCTTCCTGTTCCTGAAATGTTCCTTGAGGACATGTCCTCTG
TCCTTAGCTTGATCCTTTATTGTGCTCTATTTAGCAGGCTCATTCTGTTTGTAGATGTTGAGGATGTAGAACAAGGGTCTGCAGTCCTCTTTATTTATGG
CATTGTGTCACAGAACATCCTTGTAAAGTGAGCTGAGTCTCTTTAGGTGTGACCTCTTTCCTTAGCTCTACATTTCCATTTTTGTGCTTAACATTTCCAC
CGTAGACTCATCATTTGTGTTCTTAACATTTGTGATTTTTTTTTTTTTTTGAGACAGGGTCTCACTTTGTTGCCCAGGCTGGAGTGCAGTGGTGGGACCT
CAGCTCACTGCAACCTTCGCCTCCCAGGCTCAAGTGATTCTCCAGCTTCAGCCTCCCCAGTAGCTGGGATTGCAGGCGTCCGCCACCACGCCTGGCTAAT
TTTTGTATTTTTAGTAGAKACGGGGTTTCACCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCT
GGGATTACAGGTGTGAGCCACTGTGCCCGGCCTAACATTTGTGAGTTTTATAATTTGATAGTGACCTTGAAAGTTCATAATTTGTAATAATTTATGATTT
TAAAAAGGCCAAAATTTTCATTGTATGTGTCGAGACTGGTTGAATTCTATTTATTTGGGTAGTAAGAGCCCAGCTGATCAGCAARCATCTACATCTCACA
CGTAACTTTTTTTTCCCTTTCTCATGACATGGAACAGTGCTTGTTACAGTTTTTATTATACTAGTATTTAAGAATACGTTCTAATCAGGATGTAGGACTT
GGATCTCCAGAAGGTCAGTGGTTTACTGTATCATGAAAATAGAATAATTTCTGTGTTGAAATGTGCTTCTCTCTGTATCTTTCCTTTTTGTCATCCAACA
TGAAATTATATCCATGGCTTTTTTTGTTTGTTTTATTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTTATTGT
AACCTCTGCCTCCCAGGTTCAAGCGTTTCTCCTGTCTCAGCCTCCTGAGTAGCGCATGCCTGGCTAATTTTTTGTATTTAGTAGAGATGGGGTTTCACTG
TGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGCAATCCACCCGCCTTGGCCTCCCAAAGTATTAGGATTACAGGCGTGAGCCACCGTGCCTGGCCC
ACATCTGTAGTCTTTTACTTCTTCTCCTTTGACTCCCTTAGCCAGTCTGGCATTAGGTTCTCTCGATTCTGCCTTCATGAAATCTTTCAAACCATTATTC
CCATTGTCACTACCTTAATTTCATATTTATAAACTTTAGTCTTGGTTGTTGCAGTATCTTAACTGTATTTACTCAGTCTTCAGTCTCTTAACCTCTAATA
TATTTCACGTTCTATTAACAAAAGATTGGAACTCATTGCCTCCCTGGCTAATGGTAAGTGCTTTATAAATACTCGYTAAATNTTCATTTCATTTCTCCTT
ATTCATATACCTTCATTAGCTTCTTATTACCCATAGAATTAAGCCTGAAGACCTTGGCATTCAAGATCTACTTGATACTTAGCACTTTTTGTTAGAAGAG
TCAGTTAGTTGCCACTTCTCTTGGTTCCTTAGGACCGTCTGCTTTTCTCGATCATGGCATACAATATTAAAATTATCTTGTTTCTCTCATTAGTAAGTTC
TTTGAGAGTCAGACTGTTCCATTTACTTCTGTATACCTAGGGCTTAGTATAGTACTTGAAACATAGTTATTTGTGTATTTATTAGAAACATAGATATTTG
CTCAATGTCCTAATTGATTGTAAGTCAGTCAAATGAATTCCTCTGAGGCTGTCTTAATCATCATGGTATCTTCAGCCTCTAGTATTTTAACTGGTATGTA
ATAGACATTCAGTAAGTAATTGTTTATTGTTAGGCACTTTGATATACTTTAATTAGTCATCAGTTTGAGAAGCTCTTTATTCTCTGCTTCCGCATATTAA
AATTCTACTCAGTTTTCCAGGCCTAACTCAAATGCCACAGAAACTTCTGTGAGGCCAGGTGTGGTGGCTCATACTTGTAATCCCAGCACTTTGGGAGGTT
GAGCAGGCGGGTTGCTTGAGCTCAGGAGTTTGAGACCAGACTGAGCAACATGGTGAAACCCCATCTCTACAAAAAATACAAAAATTAGTCGGGGTTGGTG
GTGCGCGCCTGTGGGCCCAGCTACTTGGGAGGCTGAGGTGGGACCCCTGGAAGTTGAGGCTGCAGTGAGCCAAGGTTGTACCACTGCACTCCAGTCTGGG
TGACAGAATGAGACCGTGTCTCGTAAAGAAAGCAAAAAACAAACAAACAAAAAACAAAAACAAAACCACACACCCAAAAAGAAACTCTTCTGCAAAGTTG
TTTTTCCACATGGGATCCTTGGAGGATCCTTAATTGGGCTTCAGGAAATCTGTGAATGTCCTGAAATTCCAGTTCTCAAAATTCTGTGGTTTAAAAGTGA
AAGCTTAGGTTCCAAGAGATCAAATGCAAAAATGACTGGAAAGCACATAATAAGTAGGTGCTTAATAAGTAGTCTTATCTCATTTTGTTTCTGTAACATA
TTGTTTGATCCATTCCTGGTCATATAAAGTAGATGCTGAATAAATATTTGCTGAATGAAAGGATGARTCAGTGTTTTAGCACTTTCAACTTTCTGTGTTC
ATTTGTATTTCATTTTTGCTTTTAAGTTGCATGTTATTGAAGGTAAGAACTATGTCATCATTTTGTCTAACAATGCAGAGCTAAAGGCTTTGCTCACAAT
AGGTGCTCAGTCATTATTTATTGAATGAATGAATGGAGAATGATTCAAATATTTTGAATTTTGGTAATTTGAGTAATAATGGTTATATGATAGGAGTAGA
CAAAGGAAATAGAATATTTTTGAGGATGGCAGAAGATGAGTTCAACTTTAGTTCCTAAAATACCCTCAGTGTGACAGRAATTTTAAAAAATTATTTTAAT
GGAAATCAGAACCTCTTTCCTCTGCATTACAGGGTTAGTACATTGGGAAAAGCATAGGGCAGAAAGCACACAGAAGGGAAGCTGCGTAATATATATAGGG
AACTATAATCGGTTTGTTATTGCCAGACCCAGAGCTTTACGTTGAAGGTGTAAATGCTAGGTTAGAGATTAAAGAAGCCTTGATTGTTGAGGGTCTTTAG
TGTGATATAAAAGGATAATTGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGACCAAGGTGGGTGGATCACCTAAGGTTAGGAGTTT
GAGACCAGCCTGGCCAACATGATGAAACCCCATCTCTACTAAAAATACAAAAATAGCCAGGCGTCTTGGTGGGCGCCTGTAATCCCAGCTACTTGGGAGG
CTGAGGCAGGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCGGTGAGCCAAGATCGCGCCACGGTACTCCATCCTGGGCGACAGAGCGAGACTCCATCT
CAAAAAAAAAAAAAAAAAAAGGATAATAAGTAGGGGAGCAGTATATTCTTTTTTTTTTTTTTTGAGGCAGTCTTGCTCTGTGGCCCAGGCTGGAGTGCAG
TGGCACGATCTCAGCTCACCGCAACTTCCACCTCCCAGGTTCAAGCTATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATTGGCCACCAT
GCCTGGCTAATTTTGTATTTTAGTAGAGACGGAGTTTTTCCATGTTGGTCAGGCTGGTCTCAAACTCCCGACCTCAAGTGATCCACCTGGCTCGGCCTCT
CAAAGTGTTGGGATTACAGGCGTGGGCCACCGTGCCTAGCCGAGAGCAGTATATTTCTTTTTTTTTTTTTTTTTGAGACGAAGTCTCGCTCTTGTCTCCC
AGGCTGGAGTGCGATGGCACGATCTCGGCTCACTGCAGCCTCCCCCTGTGGGGTTCAAGCAATTCTCCTGCCTCAGCCTCTCGAGTACCTGGGATGCCAC
CACGCCCAGCTAATTTTTGTATTTTTGTATTTTTTTTTTTTTTTTTTGAGACGGAGTCACGCTCTGTCGCCCAGACTCGAGTGCAGTGGCGCGATCTCGG
CTCACTGCAAGCTCCGCCTCCCGGGTTCGCGCCATTCTCTTGCCTCAGCCTCTGGAGTAGCTGGGACTACAGGCGCCCACCACCACGCTCGGCTAATTTT
TTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTAGTCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCTCCTTGGCCTCCCAAAGTGCTGGG
ATTATAGGCGTGAGCCACCGCACCCGGCTTTTTTTTTTTTTTGACACAGAGTCTCACTTTGTCACCCAGGCTGGAGTGCAGTGGCCTGATCTTGGCTCAC
TGCAAGCTCTGCCTCCCGGGTTCCCGCCGTTCTCCTGCCTCAGCCTCCCGAATAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTTGT
ATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCTGTCTCGGCCTCCCAAAGTGCTAGGATTAC
AGGCGTGAGCCACTGCGCCTGGCCTAATTTTTGTATTTTTAGTAAAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTGGACCTCCTGACCTCAGGTGA
TCTGCCCGCCTCGGCCTCCCAAAATGCTGGAATTACAGGTGTGAGCCACCGCGCGCGGCACAGGAGCAGTATATTCTTATTTGTGTTTTAGTTGGATTAC
TCTGGCAACTGTGTGGAGGATAGGATGCAGGACATGCTGTTTGAGACATGAGCATTTGAGAAATCTTCCGAGTTTTCAGTGCAAAAGTTTATTTGACCTC
CTTTCCCTCTTATCCAGGGTATGGGTAAGGGCTAGCTCCTAAAAAGGTGTTAACTTTGAAATATTTAGTTTCATCAAAAGTACTGGGAGCAGAGAGTCTA
TGGTGGCTTGAAGCAGGTTGGCAAATGTTCCCTGATGAGGGTAGGACACATGTGATTACAGAGTTTTCCCATCATTGTTCTGGATGTCTCTTGGCCTAAA
GATCAATCTGTAAGCCTTTTTTTTTTTTTTTTTTTTTAGACGGAGTCTCGCACTGTTGCCCGGGCTGGAGTACAGTGGTACCATCTTGGCTCACTGCAAC
CTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAGTAGCTGGGATTACAGGCATGTGCCACCACGCCTGGGTAATTTTGTATTTTTAGTA
GAGACTAGGTTTCTCCATGTTGGTCAGGCTGTCTCAAACTCTCGACCTCAGGTGATCCGTCCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGCATCGG
CCACTGTGCCTGGCCCTACTCCTATTTTTAATAGTCCGTGTAACATTTTCATTTGGATAGCTCAGAGACCTCTCAAACTTAACATGTCCAAAAATGAAGT
CTTGATTTTCACTTTCTAGTCTGCTTCTTCCCCAGTCTGCCTCATGTCAATAGATGGCACTACTCATTTACCAGAACAAAACTGGAGGTTGTGTTTGATT
TTTTTCTTAACCTTACCTGTATTCCACATTCAGCCCCTCAGGTCTGTTTGCTGCTACAGTTGTCCCTCAATATCTCTCGGGGATTGAGTACATGACCCCC
TGCAGATACCAAACTCTGGTATGCTCAAGTTCTATCTATAAAATGGCATAGTATTTGCATGTAACCTATGTATATCCTCCCATGTACTTTAAATCATCTC
CAGATTATTTATAATATATAATACAATGTAAATGCTATGTAAATAACTGTTACACTCTATTACTTAGGGAATAGTGACAAGAAAAAAATATCTATACATG
TTCAGTATAGATGGAACTATTCATTTTCTTTTTCTCTGCATACAGTCATGTTCCGCATAATTATGTTTTAGTCAATGATGGATGACATACAAGATGGGGG
TCCCATAAGATTATTATTATTATTATCATTTTTTTTTTGAGACCGAGTCTTGCTCTGTTGCTCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGGA
ACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAACTAGGATTACAGGCAGCCGCCACCACGCCTGGCCAATTTTTTTTTTTTT
TTTTTTGAGACGAAGTTTTGCTCTTGTCCCCCAGTCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCTGCCTTCCGGATTCAAACAATTCTTC
TGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCTTCTGCCACCACACCTGGCTAATTTTTATATTTTTAGTAGAGACAGTGTTTCACCATGTTGGCCAG
GCTGGTCTCRAACTTCTGACGTCAGGTGAGCCGCCCACCTCGGCCTCCCAAAGTACTGGGATTATAGGCATGAACCACTGCGCCTGGCCAGATTATAATT
TTTTTATTAAAATTTTTTTTTAAATAGAGATGAAGTCTTGCTATGTTGCCCAGGCTGGTCTTGAGCTCTTGGCCTCAAGCAATCCTTCTGCCTTGGCCTT
CCAAAATGTTGGGATTATAAGCATGAACTATTATGCCTGGCTTCCCATAAGATTATAACAGAGTTGAAAAATTTCTATTGCCTAGTGACATCTAGCTATT
ACAACATTGTAGTGCAACACATTACATGTTCATGGTAATGCCTGTGTAAAACCTACTGCACTGCTGTGGTATAAAGGTACAGCACATAGAGTTAGTGCAT
GCACAGCACATAATACCTAATGATGATAATATACAACTATGTTACTTGCTTATGTATTTACCATACTATACTTTCTACTGTTATTTTAGAGTGTACCCCT
ACTTATTAAAAAAAAAAGTTAACTGTAAAACAGCCTCAGACAAGTCCTTCAGTGTAATTCCAGGGAAGGCATTGTTACCATAGGAGATGACAGCTCCATG
TCACCTCCATTATTGCTCCATTATTGCCCCTGAATACCTTCCCATGGAACAAGATGTGGAGGTGGAAGACAGTGATATTGATGATCTCGACCCTGTGTAG
GCCTAGGCTAGTGCGTATGTTTGTATCTTACTTTCTAACAAAACAGTTTAAAAAGTAAAAAAAGAAAATTTTTTTAATAGAAGAAAGCTTATATAATAAG
GATAATGAAAGAAAATATTTTGTATAATGTAAACACATACACCAAGGCGGGTGTATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCAAACATGGCAA
AACCCCGTCACTACTAAAAATACAAAAATTAGCCCAGCGTGGTGGCGCACGCCTATAGTTCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAAC
CCGGGAGTTGGAGGTTGCAGTGAGCCAAGATCACGCCATTGCACTCCAGCCTGGGCGACAAGAGCGAAACTCTATCTCAAAAATAAAAAGAAAAAGCTAT
CTTGACCTTTGATTTGTTGGTGTTATTAAACTGTTCTTTTATTTTATTCAGCTTGAAAGGAGACTTTAATTTGTGCATTTTCCCCTTCAGGGAAACTTTT
ATGGATTTTTTTATTAAGTAACTGGCTTAGAAGATAGAATAGTCTCCCTAGGTTTTAGAATGTAATTAAGAAAAATTCAGCCCAAGGGAACCATGTGTTA
AAATTAGGTGATACCATCTTAGTTGTACCAGCTTGAGTGTAGGTTCCTTAAGAGTGAACCTGAGTAGTAGATGCATATATCCTTTAACCATTAATTTGTT
GGAGATTAATAAGCTACATCGTTTCTTTGCCGTTATTTCAGCAAAGCAGAAGTAATATAGTTTTGTCAGATCTTCTTTTTTTTTTTTTTTGAAACTGTCT
CCCAGTCTGGAGTGCAATGGCGTGATCTCGGTTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGTCTCAGCCTCCTGAGTAGCTAGGACTA
CAGGCACATGCCATCACACCCAGCTAATTTTTATGTTTTTAGTAGAGATGGGGTTTCACCATGTTGGGCAGGCTAGTCTTGAACTCCTGACCTCAGGTGA
TCCACCCTCCTCAGCCTCCCTAAGTGCTGGGATTACAGGTGTGAGCCACCGTGACTGGTCAGACTTTCTATCTGTTAGGCTTTCAGGAATGTTTTGAAAA
GCAGAGGATTTAGAAATAGTTGTTAATAGTTTTTTTTTAAAGTCCTTAAGTTATTTCATAGGGGTGTTACCAAGGTGATTTTTGTTTAAATGACCCAGGA
ACATTTAAGTTCTACCTTTAACCAGTAAGAGAAAGTGATACTTTGTGACTAGCTCAGTCTTTGGTCTTTTATATTAAAGAACATTACTTGCTGTAACTGA
TTCACAAGGACCCCTTGATTGAGGTGCTTCCATTTTCTACACATGGCTTCCAAGTTCAGCTGAGGAAAGTGGAGGATGGGCCAATCCTAGAAATGGATTA
ATCACTTCCACTCATATTCCATTGCCAGAACTCAGTTTCAGGGCCATGCCTAACTACTGGAGGGCTGGGAAATGTCATGTGGCCTGTGCCTAGGAGGAAG
GTGAATCATGCTTGATCAACATCTAACTAGTCCCTGCCACAGGACTCAAACCCCAATGTAGTCCTTAGCTTAGAACCATACAGAAATCCATTTATTTTGG
TTATAGACAGCCTGGAACCATAGCCTCCTCTTTTTCCTTGTAGACACACAGAGTTTTGAGTTATAACAATTTTGAATGCAAGTAAAGGCCTTTTTCCCAA
GCACAGATAGGAGATCTGGAAAAGCTTTTCTGCAGCCTGTGGCAGAGGTAGTCTCTGGCAACCCCAAGAAAGGCAGCTTGGTATTGGGGGTGGGGGGGAG
AGAGAGAGAGAAAGAGAGAGAGAGAGAGAGAGAGACCCAAGTCCCTTCAAATACCTGGAAAGTCTTCCCAAGAATAACAGATGCAAACAAGCCCAGATCG
CAAAGGCTACAATGTATATTTAACTCTTCAATGCCCAGACACTGACAAATACCCACAAGCGTTAAGACCATTCAGGAAAACATGACATCACCAAACAAAC
TAYGTAAGGCACCAGGGACCAATCCTGGAGAGATAGAGATACATGACCTTTCAGACAGAGAATTCAAAATACCCATTTTGAGGAAATTCAGAGAAATACA
GGATAACACAGATAAGGAAATCAGAATCCCCTAAGGTAACTTCAGCAAAGAAATGGAAATAATTAAAAAGAACCAAGCTGAAATTTTGGAGTTGAAAAAT
GCAGTTGATATACTAAGGAATGCATCAGAGTCCTTTAATAGCAGAACTGATTAAGCAGAAGAAAGAATTTATTTATTTATTTATTTTTTGAGATGGAGTC
TCGCTCTGTTGCCCAGGCTGTAGTGCAGTGGCGTAATGGCTCCCTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGGCTYAGCCTCCCAAGTAGC
TGGGATTACAGGTGTGTGCCACCACACCTGGCTAATTTTTTTGTTTTTTAGTAGAGACGGGGTTTCACCGTGTCAACCAGGATGGTCTCGATCTCCTGAC
CTCGTGATCCACCTGCCTCGGCTTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACAGTGCCTGGCCCCAGAAGAAAGAATTAGTGAGCTCRAAGACAGG
CTATTTGAAAATACACAGCCAGAGGAGACAAAAGAAGAAAAAGATAAAAAGGAATAAAAAGCATGCCTACAAGATCTAGAAAATAGCCTCCAAAAGGCAA
ATCTAAGCGTTTTGGCCTTAAAGAGGAGGTAGAGAGATAGGGGTAGAAAGTTTATCGAAATGAATAACAACAGAGAACTTCCCAAACTTAGAGAAAGATT
TCTATATTCAAGTATAAGGTTCTAGAATGCCAAGCAGATTTAGCCCAAAGAAGACTATCTCAAGGCATTTAATAATCAAACTTCTAAAGGTAAAAGATGA
AGGATCCTAAAAGCAGTAAGAGAAAAAACACAAATAACATACAATGGAGCTTCAATATGTCTGGGACCAGACTTTTCAGTGGAAACCCCTTACAGGCCAA
GAGAGAGAGGCATGACATATTTAAAGTGCTGAAGGAAAAAACTTCTACCCTAGAATAGTATATCTGGTGAAAATATTCTTCAAACATGAAGGAGAAATAA
CGACTTCATAAGACAGAGAAGTCGAGTAATTTCATCAACACCAGACCTGTCCCACACAAATGCTAAAGGGAGTTCTTCAATCTGAAAGAAAAGGATGTTA
ATGAGCAATAAGAAATCATCTGAAGGTACAAAACTGACTGGTAATAGTAAGTACACAGAAAAACACAGAATACTATATTAATAACAATAATTATGGTGTA
TAAACGACTCATATCATGAAAAGATGAATTGATCAAGAATAATAACTACAACAACTTTTCCAGACATAGTATGGTATTAGGTTGTTGCAAAAGTAATTGT
GGTTTTGGACTGTGAATTTTAAATCATTATAACTAGGCTCAAACACATCTTTATTAATCAAAATAGGAACCATTACAATCAACACATTTTCGCCAATGAG
AAATGTTTGTTCTTGTTGTGTAAAAATCCATGCTTTGGGATTTGACRAACTCTTGGAAAGAATGTTCTGCATCCTGCTGGTCATGGAAATGTTTTCTCTG
CAAAACGTTGTCGAGATGCTTGAAGAAGTGGTAGTTGGTTGGTGAGAGGTTAGGTGAATATGGCGGGAGGGAAAACTTCATAGCCCAATTCGTTCACTTG
TTGAAGCTTGGTTGTGTGATGTGCAGTTGGGTGTTGTTGTGGAGAATTGGGTCCTTTTTGTTGACCAATGCTGGTGTCAGGCGTTGCAGTTTTTGGTGCA
TCTCATTAAGATTGCTGAGCATACTTCTCAGATGTTATGCTTTCACTGGGGTTCAGAAAGCTGTAGTGGATCAGACTGACAGCAGACCACCAAACAGTGA
CCGTGACCTTTATTTGATGCAAGTTTGGCTTTGGGAAGTGCTTTGGAGCTTCTTCTCAGTCCAGCCACTGAGCTGGTTGTCACAGGTTGTCATATAAAGT
CCACTTTTCCTTGCATGTCACAGTGTGATCGAGAAGTGGTTCATTGTTCTGTAGAATAAGAGAAGATGACACTTCAAAATGATGATTATTTGATTTTCAC
TCAGCTCATGAGGCACCCACTTAACGAGCTTTTTCACCTTTTCGATTTGCTTCAAATGCTGAATRACTGTAGGATGGTCGATGTTGAGTTCTTCGGCAAC
TTCTTGTGTAGTTCTAAGAGATGATTGCTCACAATTGGTCGTTGTGAACTTCCGATGGTCGGCCACTACACTCCTCACCTTCAAGGCTTGCCTCCTTTGC
AAAACTTTTTGAACCACCACTGCACTGTACAGTTGTTAGCAGTTCCTCTCCAAATGCATYGTTGATGTTGTGAGTTGTCTCCTTTGCTTTACGACCCATT
TTGAACTTATTCAAAAATTGCTCATATTTGCTTTTTATCTAACTTCATTCCCATAGTCTAAAACATAAACAGCAAGTAAATAAGTCTCTAGCCAAAAAAC
ATAAAAAATGAACATTAAAATGATGTATAATATAATGACATTTATTTAAGAATGTATTCCAAGACCGGGCATAGTGGCTCATGCCTGTAATCCCAGCACT
TTGGGAGGCTGAGGTGGGTGGATCACCAGAGTTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAACTTAGCC
AGGCATGGTGGCACACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCAT
GCCATTGCACTCCAGACTGGGCAACAAGAGCAAAGTCTGTCTCAAAAAAAAAAAAAAAAAGAATGTATTCCAATATCAGATGACAAATTCTAATCATGCA
AACCACCGCAATTACGTTTGTACCAACCTAGTAGTACTGGAAGTCTTAACTATGGTAATTAGACAAGAAAAAGAAATAAAGGGTATCCAAATTGGAAAAG
AAGTMAAATTATCCTTGTTTGCAGATGATTTGATCTTATATTTGGCAAAAGCTTAAAGACTTCACCAAAAAACTATTAGAACTGATAAATTTAGTAAAGT
TGCAGGATCCAAAGTCAACACACAGAGATCAGTAGTGTTTCTGTATGCCAACAGTGAACAATCTGAAAAAATCAAAAAAGTAACCCCATTTACAGTAGCT
GCAAATAAAATACCTAGGGATTAACCAAAGAGATGAAAGATCTCTCTAATGAAAACTATTAAACACTGATGCAAGAAATTGAAGAGGACATTAAAAAAAT
GAAAAGATATTTCATGTTCATGGATTGGAAAAATCACTATTAAAATGTCCATAGTACCCAAAGCAATCTACAGATTCAAYACAATCCATATTCAAAATAC
CAATGACATTCTCCACAAAAATAGAAAAAACAATTCTAAAATTTACGTGGAACCACAGAGGACTCAGAATAGCCAAAGCTATCTTCAACATAAAGAAGAA
AACTGGAGAAATGACATTACCTGACTTGMAATGATACTAGAAAGCTATGGTAACCAAAACAACATGGTACTGACATAAAAACAAACAGAGACCAATAGAA
CGGAATAGAGAACCCATTAATAAATCCATACATTTACAGTGAACTGGTTTTTGACAGAGGTGCCAAGAACATACTTTGGTAAAAGGACAGTCTGTACAAT
AAATGGTTCTCGGAAAACTGGAAATCTATATGCAGATATCTACATGCAGAAGAGTGAAACTAGATCCCTATCTCTTCCCATATACAAAAATCAAAAATGT
ATTAAAGATTTAAATCTTAAACTGCAAACTCTGAAACTACTAAAAGAAAACTTTGGGGAAACTTGCTAGGACATTGGTTTGGGCAAAAATTTCTTGAGCA
ATAAATACCCCACATGCAGAGGCAACCAAAGCAAAACTGGATCAAGGGGATCTTTTCTCACTTCCTTTTGTGTGTGTTTTTTAGAATTTTTTTTTGGTTG
CTATGGGGATTACATGTAACATACTAAATTTATAACAGTCTAGTTTGAAATGGTACCAGTTTAACTTCTGTAGTATACAAAAACTTTATTCCTGTATAGC
TCCATTTCCTTGATAAGTTGTTTTTGTGGCAGATTACATCTTTATTCATTGTGTGCTAAATATCATAGATTTATAATTTTTTAATGCTTTTGTCTTTTAA
GTCATATAGGGAAAAAAGGTGGAGCTGAAAAACAAAAATAGAATAATACTGGCTGTGATATTTGTCCATATGGTTACCTTTGCTGGGGATCTTTATTTTT
TATTTTTTGGATCTTCATTTTTTCAGATGGCCTTAAGTTTCTGTTTAGTGTCCTTTCATTTCAACTTGAAGATGCCTTTTAGGATTTGATGTAGAACATA
TGTAGTGGTGATGGACTCTGTCTGCTTTTTTTTTTTTTTTCTTAATCTGAAAATGCCTCGATTTCAATTTCTCTTTCTTTCTCTTTTTTTTTTTTTTTTT
TTTTTTTGAGTCAGAGTCTTGCTCTGTTTCCCGGGCTGGAGTGTAGTGGTGCAATCTTGGCTCACTGCAGTGTTGACCTCCTGGGCTCAAGCAATTTTCT
TGCCTCATCCTCCTGAGTAGCTGGGACCACAGGTACATGTCACCATGCCCAGCTAACTTTTATGTGTTTTGCAGAGACAGAGTTTCGCCATGTTGCCCAG
GCTGATCTCAAACTCCTGGGCTCAAGCAATCTCCCTACCTTGGCCTCCCAGAGTGTTGGGATTACAGGTGTGAGCCACTGCACCCAGCCTTTATTTTTTC
CTCATTTTTGAAGGACAGTTATGCTCAAGATAGAATTCCGTATGTCATCCTACTCACTTCTGGACTCCACAGTTCTGATGARATATGARCTGTTCGTCTG
ATTCAGGATCTCCTGTATTTGACAAGTTGCTTTTCTCTTGCTGCTTTGAATATTATTTCTTTGCCATTGGCTTTGACAGTTTGGTTATCATGTGTCTCCA
TATGAACCTTTTTGAATTTAACCTGCTTAGAAGTCACGGAGCTTCTTGGATGTGTAGATTTGTATCTGTCATCACATTTGGGAAGTTTTGGTATGTTATT
TCTTCTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGTTCTGTTACCCAGGCTGAAGTGCAGGGCAGGATCTTGGCTCGCTGCAACCTCTGCCTCTT
GGGTTCAAGTCATAACTGTGCCTCAGCCTCCCGAGTAGCTGGAACTACAGGCATGCACCACCACGCCAGCTGATTTTTGTATTTTTATTAGAGACGGGGT
TTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTAACCTCATGATCTGCCCGCCTTGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCATGGTGCCC
GGCCTCTTCACATGTTCTTACTGCCCCCTTCTCTTCTAGAATTCCCATATTCATATATTGTTTCACCTTCACCTTTTTTTTTTTTTTTTTTTTGGTGACA
GAGTGTTGCTCTGTCACCCAGCCTGGAGTGCAGTGGTGTGATTTCTGCTCACTGCAACCTCCACCTCCCAGGTTCACGCGATTCCTGTGCCTCAGCCTCC
CAAGTAGCTGGGATTACAGGCACGTGCCATCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAAC
TCCTGACCTCAAATGATCCACCCACCTCAGCCTCCCAAAGTTCTGGGATTACAGGCATGAGCCACCGTGCCTGGCTATTTTCAGYGTTTTAATCTTGATG
CTGCTTAGTGGGTCTGTTCAATTTGTGAAAATTCATTGAGTTCTATGCTTAGGTATGTGTACTTTTCTAAAATGAGTAATGTACTTCAGTAAAAGTTAAA
AATCCTAGCTTAAAAGTTCAAATTTCATATTTAATTTATATTTCCTTTCCTTTGCCAGGTTTTGACTCGAAGAGACTTGCAGTAAGAAGGGGTGTGATCC
TCTCTTTCTTTTCTCCTCTCCTCTGTTATCTGGTTTCTTTACTTTGGTGTCTTGTGGGAAGGAATAGGGAAATTGAAAAGTGTATGTGTTTCTCTTAATT
GGTACTGATCAAATTCTTTCTTGATTGTTCTTTCTCTGGCTAAGACGGATTATTCATCCATACAGTGTAGCAGGCATCCAAATGCTGGTTCTCCCATGCA
GCTGGTTGTAAGTTTTTTTGAGATAGGATCTTTCCCTCTCCACATTGTCTTCATAGAGGATATCCACYTTAGCTTGATGTCTTCCAAGGCCTCCTCAGTT
CTCTCTACCTAGAGCTTCTTGCTGTGCTTGTCACCTTTGTGAGTGGCCAACCCTCTTTAATGGATTACCAGCATTAGTCCAAAGTCTGCTTCCTTCCCTG
GTTTCTCCTTGATCCATAGGTACTGTTTCATCCTTGACATGCCAAATAGTGCAAATACAAGCTGTTCCCTTGCTACCTTCTGTTTTTGCATTAAGTTCTA
TTTCCTGTTCCCCGTCTCACTGCTCAGTCCTGCTACAGTTAGGTGCCTGGACACATCAATTGTTTGATTCAGTGCCACAATATCCTCCTTTATCCTTTTA
TTCACTTACCACCATGTTTTGAAATTGTCTTTTTCTTCTTTTCAGGTATTTTTCTTCACCAACTTCACTCTTCTTTTTATGTTTGGGCATTTGTAAATCA
TGTTTTGGATAGTCACCACCAACCAATATTAGTACTTACCCATTTTTTTGAACTCACTAATSACAATATATAACTGTATAGAATTTTTTTCTTTTTTTTT
TTTTTAATCTTAGAGAACTGGAAATTTCCTCCTTTTTTGCCCCTTGTGGCTTTTAGTATTGCTATGGTGCCAGTTACTTGAAGCTTGTTTTTCAAATGGC
AGGTGACATGGGGTCAGTTATTCTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCTCAGGCKGGAGTGCAGTGACATGATCTTGGATCACTGC
AACCTCTGCCTCCTGGGTTCAAGCAATTCTCTGTCTCAGCCTCCCGAGTAAGCCGGGGTTACAGGTGCCTGCCACCACGCCTGGCTAAYTTTTGTATTTT
TAGTAGAGACAGGGTTTCATCATCTTGACCAGGCTGGTCTTGAACTCCCGACCTCATGATCCACCTGCCTCAGACTCCTAAAGTGCTGGGATTACAGGTG
TGAGCTACTGTACCCGGCCCAGTTATTCTCTAATGGTTCTTGTCTCTGTACTGTCTAGATCAGTTTGATGTGTTACTTATCTGTATTTGTTACAGCTTCC
TTCATTGACATATAATAGATATACCTCATYGGGCTGATTTTTTTCGAAAGTTTCTTATTTATTATAATACTCCTGATTAGGTGGGTGTTGGCTTAAAAAT
GTCTACATGTTGATGATATTATTGGACACTGCTTACTGAATGAGGAGAAAGAGGTGTTGGAGTGGAATGGGAAGGTTCTGTCAATGTTTTGTATTGCCTG
TATTTTCTGATAGTACTTTTATACTTTGAAAACCTGTATTTAGCTCCTCTTATAGGCATATAAAGAAAGCTCTAATATTAATTTTAGCATTAATTGAATG
TTAGAGATATTTCTGACTTTATATGCCAGGTAAAGTCTACCATTTAATGATTTTTTTTAAACTAAAATATGCTTTTCTTTATTGGATATAGGAAGGGTAT
GAATAAAAGGATAAACATAAATAAACTTAACTAAGAAGTGTACTCATTATGAATACTATATCCTGTCAAAATGTCTGTCATCCCATGACCTTTCTCACCT
ATTTTTCCTTTGGCATTTTAATAATCAATATCCTGTGTCCTTTACAGCATACCTAGCTTTTACTAAGAAATATGTTTCTGGTTTTAGCTATGGAGGGGGA
AGTATAATATTTTGGCACTTTTAAATTGTAGTGAATGCTGTAGAGATGTTTAATATAAAGTTTTTATACTTCAGAGGAGATATTAAAGACTCATGTTTTA
CTCTTTTTCTCTTTGAAGGATGTAGTAACTGGAGTTAGTCCCCTGCTCTTCAGGAAACTCAGTAATCCTGACATATTTTCATCCACTGGAAAAGTTAAAC
TTCAGCGACAACTGAGTCAGGATGATTGTAAGTTATGGAGAGGAAACCTGGCCAGCTCTCTATCGGGTAAATATCTGATTTTGTTGTTTTAAGAAATGTG
GGACCATGTGGTCAATATTTAAGTGTATATTAATTGAATTGGCATCTTGACAGTTTCTTCTCTGGTAGTAGTCTTGTATAGAACATTTATGGTAAGGCTG
TCTTCCTCTCCTTACTTCTTCCTCATGGAATCTCTGATTGCTAACCTGTAGGACCTGATAGATATTTCTTGGTTGATCACCACTAGTGGTMACTCTCTCT
TACTCTGATTTTTGCTCTCTGCCTATTTCTGTAAACTTTATATTCTTTGCTTCTGTAGATTTTCTTTTTTCCTTCATTCTCAAAACCTAAAACTCATAGT
GRCCTCTACCGCCTTCAAAGAAAAGACTTAAAAAATTCAGGGGGAWAAAATTATACGAAGAAGTCACAGTACAAAAGGAAGCAATTACATTGTACATTGT
GGCATAATTCTTTTCTTTCCTTTTTTTTTGAGATGGAGTTTCGCTCCGTAGCCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAAGCTCCGCC
TCCCGGATTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATCCGCCACCATGCCTGTCTAATTTTTTGTATTTTTAGTAGAGA
CGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGAGCTTGTGATCCGCCTGCCTCAGCCTCCCATAGTGCTGGGATTACAGGCGTGAGCCACC
GCGCCCAGCCTCTTATATTTAAATTTTTATTTTTGCTGGTCATATATTTAGTTACATAGAGCCATTTCTTGTTTGKTTTTTCATAACATTCTCCTCTTTT
TTTAAAAGGATGCGATTATCTTCTCTTTTTTTTTTTGAGACAGAGTCTCACTTTACTGCCCAGGCTGGAGTTTAGTGGCATGATGTCTGCTCACTGCAAC
CTCTACCTCCCAGGTTCAAGTGATTCTCCTGCTTCAGCCTCCTGAGTAGCTGGGATCACAGGTGCGCACCACCATGCCTGGCTAATTTTTTTATTTTTGG
TAGAGACAGGGTTTCACCATGTTGGCCAGGCTGCTCTTGAACTCCTCACTTCAGGTGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACATATGG
GAGGTGAGCCACCACGCCTGCCTGGGATGTGATTATCTTCTGATTGTCATGAGTAAATTAGATTTTTTATTTAAAAATGTGGCTGGGTGTGGTGGCTCAC
GCCCGTAATCACAGCACTTTGGGAGACCAAGGCAGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCAAAACCCCGTCTCTACT
AAAAATACAAAGATTAGCCGGGCATGGTGATATGTGTCTGTGATCCCAGCCACTCCGGAGGCTGAGGCACAAGAATCGCTTGAACCTGGGAGGTGGAGGC
TGAGTGAGCATCATTACACTCCAGCTGGGGCGACAGAGCGAAACTCTGTCTCCAAAACAAAGCCAAACAAAAAAAAAGTAAAGTTTTCTTACCTGGATCA
GCTCTTTCTTTTGAGCATCTAACAACCAGAATATTCAGTGTTTTGTTCTAAAATGCTAAATCCCTTTTATCCTGTGAGGTAATTGCATGGCTGCCGGGTA
CATTGTTGAAATGTGGTTGTGTTTGACTGTTCTTTCTATGGAATTTTCCATTTATCTGATTGCAGCTCGTGTCTTACTTTATGACTTTTGGGGTGCTTTT
CATTTCTGAGTGCTTAGTCTAAGAGTTTGCAGGGCAGATGATACCTCACTTTTTTTTGAGACAGGGTCTCCTCTGTCGCCCAGGCTGGAGTGCAGTGGTG
TGATCTCAGCTCACTGCAACCTCTGCCTTCTGGGCTCAAGTGATCCTCCCACCTCAGTCTCTTAAGTAGGTAGGACTACAGGTGTGCACCACCACACCCA
GCTAATTTTTGTATTTTTAGTAGAGAGGGGGTTTCGCCATGTTGCCCAGGCTAGTCTTGAACTCCTGAGCTCAAGCAGTCCTTCCTTGGCCTCCCAAAGA
GCTGGGATTATAGACCTGAGCAACCAGGCCAGGCCAGATACTCCACTTAATTGCAATCCCCTCCATGYTTACTATAGCTTATACCTTTCTTTGCCYAGTT
GCATTGGTTACAGTCCATCTATCTGCTTTAGATTTCCCCACAGTTTTTTCACCCCCTCATTATCAGTGTCTGGCTGTTTCTGTCATTATGGCCTTTGTTT
GCTTACTTTTTATTTTTATTTATTTATTTATTTTTGACGGAGTCTTACTCTGTCACCAGGCTGGAATGCAGTGGCGCGATCTCGGCTCACTGAAACCTCC
GCCTTCCTGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCATGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAG
AGACGGGGTTTCACTATGTTGGCCAGAATGGTCTCAATCTCTTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGAATTACAGGCGGGAGCC
ACCACGCTCTGCCCAGGTTACTTCTTTTGTCTCATTTTTATGGTGTTTCCTGGAGGACAAAAGATAAAAGCATGTGCTTGGTCTGCCATCTTTAACTGAG
AATGTTTTATGCATTAGCCTCTTGAATTATTATAAGAATAGTAATTAGAATTTTTAAGAGGTTTTCTTTTTTTCTGTGTTATTTATTTACTAAAGAGCTG
CTTGTTATTCTGTTTGTTTATGTTGTTCCTTCCGTTTTATTTATTTTCCTCAAGTTCTTGGCAGTCTGCGGTATGCTTCAGTCTTTACTGGTGTACAGAG
TCAAATAGGTTTCTTCTACAGTGTGTAAGCCTCTTTCCCAACAGGCCTTTATTTTGAAGAGAGAGATGATAGTAATCTTTGTGTAAATAGGATAAGTTAA
GCTGACTTCCCTTTAGAATTAATAGGTGAGAAGTAGGCAGGTCATCTGGAGAAATGCACATTTGCAGAATGAAGGAAAGAAGGCAGGCAGGCTCTACTCT
GGGCTTATGGAAGTTTTGAGCAGAACACCATCATCATCATCATTATTTTTTTTTTATGGAGGGCTTTATGGAAAGACTTTCCAGTAAAAGGTACATTTGA
GACTTGAAAACTTAACTAGATTTTAAAAGTATATTGTAATTTTCTAGTAAAACATGCTAGTTATAAAAAATGTCACTACAAAAACATGCATTATGTCAAA
GTGAAGTCTTTCCTTTTTTTAAATTTTTTGAGACAGCTTCTCATTCTGTTTCCCAGGCTAAAGTGCAGTGACATGACCATGCCTCACTGAAGCCTTGACC
ACCTGAGCTCAGGTGATCCTCCCCGCTTCTCCTCAGCCTCCTGAGTAGCTGGGACCACAGGCACACACCACCATGCCTGGCTAATTTTTTTTTTTTCTTG
GAGATGAGGTCTTGCTATGTAGCGGAGGCTGGTCTTGAACTCCTGGGCTCAAGTGATCCTCCTGCTTCGGCCTCCCAAAATGCTGGGATTACATGTGTGA
GCCACAACACCTGTCCTGAAGTCTTTCTTAATTTTTACTTTCTTCTATGTCTTAATTTTCTTCTGTGGTTAGCTTTGCTAAATTGTTCTCCAAATGAATT
GTATCATATTTTGTTGGCAGCAAAAACAAAAATATCCCCCAAGCCCTTTCTTAACATCTTTACTACATTGGGTATTTTCATGACTAAGATTTTACCAGGC
ACAGAAAGGATTTTCAAGTGAGTTGAGTGATCATGATAAAGCCAGGGGAAAGTGCAGGGCATAATATTGAAGTTGAGTGAGTGAATAAGTGTGGAAAAGA
GTCGAAGGAGATGAGACCAGAAAGATAATCTGGATTTATGGAGGGTCTTTTTCATATGCCAAAATGTCTGGCATAATATCTTCAAATAGTAAGGAGCCAT
CAGAGGCTTTTAAGGAAGGAAATGACATGAACACATTTTTGTTGGTTAGATCACAAGCAAAAGTGTGAAGAATGGTGGGAAGAAGGGGAGAAATGAGACC
TTCACCTCATTTATAAAGTCATTGCAGGTCGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTATGGGAGGCCAAGGCGGGCACATCACCTGAGGTCAG
GAGTTGGAGACCCGCCTGGCTAACATGGCAAAACCCCATGTCTACTAAAAATACAAAACATGAGCCAGGTGTGGTGGCGCATGCCTGTAGTCCCAGCTAC
TCAGGAGGCTGAGGCAGGAGAATCGCTTGAGCCTGGGAGGCAGAGGTTGCAATGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGTGAGTGA
CACTCTGTCTCAAAAAAAAAAAAGCCAAAAAACAAAAATCATTGGAATTCCCTATACTTGGTCTTTATAAGTGACTCTCTTTCATTGAGATTAAGGCAGA
CAGTAAACCTGAACTGAGCACATGGAGTCTAGTGAGAGCAGAATAGGTTCATTGTTTGCCTGCTGGAAACTTGCATCTCTAATGTTACATTGAGGTGATG
AGAAACTATGTAGGCTAGAAGGGATTGGAAAACTCCTAGACTGCTAGTTTGGGTGTTAGAGTGGGAGGCTGGCATGTGGTGAATATTATAGAGAACATAA
AATAGTTAATCCATTTCAGTGTTCCACTTGCCATTATCATCACCACCAAGACAGTCACAATTTTTAATGGATAGTTGGAAATTTTAATAGATTCTAAAAT
GGATGTGAACAATTTTACTTTGTATCAGTATGGTTTTATCCACTTGATATCACTGTATTTGTATTTTTTCATTTGTTTATCAATAAATAATTACATGTAT
ATTTTCCAAACCTTGTATTTGAAGGTAAGCAGCTGCTCCCTTTGTCCAGCAGTGTACATAGCAGTGTGGGACAGGTGACTTGGCAGTCGTCAGGAGAAGC
ATCAAACCTGGTTCGAATGAGAAACCAGTCCCTTGGACAGTCTGCACCTTCTCTTACTGCTGGCCTGGTAAGTGTTCATAAAGGTGGCATTTTGCTCTAT
GAAAAATCCATAATTGTCATTTGTCATTGCAACATCTATTCTTTTTCCTTTTTAGGATTTGGAGAATTCAGTTTCCCAAAATGAAGTATGGAAGAGAATG
AATTTATTATTATTTTTTTTAGAGATAGGGTCTTGCTTTGTTGCCCAGGCTGACTTCGAACTCCTTGGCTGTAGTATTCCTATTGCCTCAACCTTCCAAG
TAGCAGGGACTACAGGTACATGTCATGGCATCAGGCTAAGAATGAAATTTTTTTTTTTCTTTTTTTTTTTGAGTTGGATTTTTGCTCTTGTCACCCAGGC
TGGAGTGCAATGATGTGATCTCACCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTTCTGAGTAGCTGGGATTACAGGTGTGCGCCACCACCCC
TGGCTAATTTTTTTGTATTACTAGTAGAGATGGGGTTTCACTGTGTTGGCTAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCTCCCTGCTCGGCCTC
CCAAAGTGCTGGGATTACAGGTGTGGGCCACCACTCCCGGCCTTAAGAATGAAATTTTAATTGAATCTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTC
ACTTTGTTGCCCAGGCTGTAGTGCAATCTCGGCTCACTGCAACCTCTGTCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATT
ACAGGCACTTGCCACCATACCCCGCTAGTTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCACGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCATGAT
CCACCCACCTCAGCCTCCCAAAGTGTTGGGATTACAGGCTTGAGCCACTGTGCCTGGCCCAATTAAGTCTATTTTGATTGCCCTCTCATGCTGTCAGTGT
CACTGGTACTAATTGTATAGTGAGGGTCAAGGAAAAGATTCTGTAAGGTTGTAACTTCAATGAGTAAATTTTCCTGGGAAAGAACATTCTTTTTATAGAA
ATGATTCTAAATCTGGTACAGTTGTGCTGCTTTGGTTTACAGCTCTGTGGTATACATATTTAGTACATGAGGACAGGGAACTTGTTTGGCACATCATGGG
TACTTAAAGTATATGTATAAGAATGAGGGCCGGGTGCAGTGGCTTACGTCTCTAATTCCTGCACTCTGAGAGTCTGAGGCAGGAGGATCGCTTGAGCCCA
GGAGTTCAAGACTAGCCTGGGCAACATAGTTGAGACCTTGTCTATACAAATAATAATAATCATAAAAAAAAAATTAGCCGAGGATGGTGGGGTGTGCCTG
TAGTCCCAGCTACTCAGAAGGCTGAGGTGGGATAATCGCTTGAGCCTGAGCAGTTGAAGCTGTAGTGAGTTGTGATTGTGCCACCACACTCTGGCGACAG
AGTGAGACCTTGTCTGGAAAAAAAAAAAAAAAAAAAGCCTTTTGTTTGTCTAGGCTTTGTGTGATAGGCAGGGCCTTACAAAATTAAAGCTGTGTAGCCT
GGGCAGGTTGCTTTGTTTCTGCCTGTTGTTACAAATTATACCCTTTTATCCTCAAACTTGCTTTTGTACCAAAGGCACCCACTGGCTTTCTGCTCATCTC
ACACTGTTCCCTCTATCCTTAGGTCTAGGCACCTACTAATTTGTAGGGTACAATAACAGAAACTTGTTACTATTAAAGTCTCATCTACACTTGAAGATAT
AAGCCTTTTGGGTCAACATATGTGGAGTAGAAAGTTTTGTCCATTTGTTCAATATGGGAAGTGGGAGTAGCGGGGAGGATGTCTTTGTGTAGCAGGTGGG
AGGCTAATTTTTGGATCAAAGGATATCCTGATAAYACCGAAGTTTGTGATTCTCAGGCCACAGAGAGAATCAGGATCATTTGTGAAAATTCCTACCTCCT
TAATTTTTTATTTTGAAATTTTGAAATCTGCAGAAAAATAGACAGAATGGTACAGTGAACACCCATGTAAGTTTTACCTAGACTGACTAATTTGTACATT
TTTTCCATATTTGTTTTTTCTGTGTGTATATATGTATTTTTTTCCTGAAGCATTTCAAAGCAAGTCACAGACTAATTACGATACCTCATCCTTAAGTATT
TCTCCTAAGGTGAAGGATACTCTCCTAAATAACTACAATATATGACCAGATCTAAGAAGTTTAATASTTTTTTTTTTTTTTTTGAGCCTGAGTCTCGCTC
TGTCACCCAGGCTGGAGTGTAGTGGTGTGATCTTGGCTCACTGCAACCTCTGTCTCCTGGGTTCAAATGATTCTCCTGTGTCAGCCTCCCAAGTAGCTGG
GATTACAGGTGCGTACCACTACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCA
AGTGATCCACCTGCCTCGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCCACATCATTTTAATAGTAACATCTAATAATGTGAAG
ACCATATTGAGATTTTCCTACTTGGTCCCAACATGTCTATTAAAGCCTCGCCTGCTTCCCTTTTAACCTCTGGAACCTAAAACAAACAAACAAACAAGCA
AAAATGGATGAGTGTACCCTCCTAGAGATTTTGATCCAGATGTCTGGGGTTAGTCACAAGCATCTGTGTTTTCTTTTCTTTTCTTTCTTTCTTTYTTTTT
TTTTGAGACAGGTTCTCCCTCTGTTGTCCAGTCTGGAGTGCAGTGTCATGATCTTAGCTCACTGCACCCTCTGCTTCCTGGGTTCAAGTAATTCTCATGC
CTCCCGAGTAGCTGGGATTACAGATGTGTGCCACCTCACCTGGCTATTTTTTGTCTTTTCAGTAGTGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTT
GAACTGCTGCCTCAAGTGATCCACCGGCCTTGGCCTCCCTAAGTGCTGGGGTTACAGGTGTGAGCCACTGTGCCTGGCCTGTATTTTCTTTAAAGTGTTA
CCCTGATTCTAACAACGTACTTCTTTGAGAACTACTGCCACCATGATACAGCTGAATATTCCACTTTAAGGTGGTATGTTGCAGAAGGGATTCCCGGACT
GAGGTTACTGGAACCTAGGCCAAGTGAGCTAGAATATTCCTGAATTAAGTTTTTTTTAAATTAACAGTTTATTGAGATATAATTCACATATGATATAATT
CACCCACTTAAAGTATACAGGTCAGTATTTTTTGGTGTATTTCACAGACATGTACAGCCATCACTGTAGTCAATTTAAGAATATTTTCTTTACTTTAGAA
ACTGTACTCTTCAGGTATCACCTCCTCATTGTTCCATCCCTAACCCCGCCCCCACACTAGGCAACCACTAATCTACTTTCCACCTCTATAGGTTTGCCTA
TTCTGTATTTTTCATATAAATCAAATCAAATATGTGGCCTTTTGAATGGCGGCTGCTTTCACTTAGTCTAATGTCTTCAAGATTCATCCATGTTGCAGCA
TGTGTTCCTTTTTGTTGCCGAATAGTATTTTGTTGTATGTATATATCATGTTTTGTTTAGCTGTTCATCAGTTGATTCATTTCCTTCATTCTTCACCTTC
ATTTTCTAATGTTTATTGAGAGGATTTATCTGAGGGCTTATTTTTCCCATATATGTAGAAATCATGATCCTAATTAGTGATTACCAGGGCATGTTCTAAA
AAGGATCATACAATCGTATCATTATATGTGCCTAGGGATGGAGGAGAACTTAGGTGGAATATTGTTCAAGATTAGTTCTTCTTCTTCTTCTTAAAAAAAA
ATTACATAGAGTGAAAATCTGTTGTTAAAAGTGGGTTGTTTCTGCCTTTTGGCTATTATAAGTAATATTGCTATGAACATTCATGTACAAATTTTAATGT
AGATATATGTTTTCATTCCTCGTGGATATATATCTAGGAGAGAAGTTGCTGAGTCATATGATAACTGTATTTAATCATTTGAAGAACTTTGATTTCTCTA
CATCCTTGCTATCCTGGTGGGTGGGAAGTGATATCTTGTGTCTTTGATATGCATTTCTCTAGTGACTCATGATGTTGAGCATCTTTCATGTGCTTACCGG
ACATTTGTTTGTCTTCTTTGAAGAAGTGTCTATTTGGATTATTGGCCATTTTTAAAATTGAATGTTTCTTTTATTGTAAGTTTGTAAAATAATTGTTTCT
TTAGACCTGAATCCAATTTCTTCTCTTTCCCAGGGAACTGCTTTTTGTTTTCTCTTGTGCTTTTTTTTTTTCCTGAGCTACTTATTTACCTACTGTAACT
TCAAGCTAGCTCTTCTCTTCCCATTCTCCCGCCTAAAGATTTTCAGTTGAATATTTTATGTTAGGTGGCACATTTGCTAGTTGGTATTAAATACCTATTT
CTGCTTTGACCACCCATACTGGAATAAACCTCAGTGTCTACCCTGCTTCTGGCTGTGACATTTCTGAAAAATCTTAACTAGAATGTATTCTCTTTGGAGT
AACGGCCGTCTATAGTACATGGACCCAGCCTCCAAAGAACTTTTGGGTTAGCAGAACAGGATTCACATATAATAGGACAACTATTTAAAAATAATAAAAC
ATCACATTTAAATAAATATTGTATTGATTTTTATTTAAATAGTAACAAAAGGGGGCAAGAATTATACTAGTTATAATTATTGGAATGATAACTGGTAGGA
GGTTAGACTTGACCAGAGTCTGGAGAATAGATAAGCAAAAGCCTTAAAGTTGCAAATATTTCCATTTTGAGGCCATCTAGATGATGTTTTTATGAAGAGA
TTTTTGGACTCTTCATTTTCTGATGTCTATTGAGAGGATTTCTCAGAGGACTTATTTTCCCCATATATGTAGGAACCATGATCCTAATTAGTGGTTCCCA
GGGCATGGTCTAAAACAGATCGTAGAATCATATTATTTATTATATGTTCTTAGGGATGGAGTAAAACTTAGATAGCGTCTTGTTCAAGATTAGTTATTAT
TTGTATTCTTAAAATATATATACAGTTAAAATCTGTTGTTAAAAGTGGCATAGGAGAAAGACCCCTGCATTAGAAATCAGAAGACCAAGCTCTGATGCTG
CTATGTGAATCTGAATAAACATACTGGAGCCTATGTTCTTCTCATCTGTAAAATGAGGTCAGTTCCTGCTTTGCTTTCTCCTGAGTATGTTAACTAGTAT
CTGCAGTTTTGATCTTTGCCTTCTGTATCTCTGATGTAAATCCACTTGGCTGTATCACCATTCTAAGACTCACCCTACCTGTCTACTGTCTTTCCATCCG
CCCAAGCCAGTTCTTCCTTGTTCATTCCCTGTCTTTTTTTTTTTCCATAATTGAAATTTTATTGGTAGTGTTGAGGATCAGTACACAGACATTTCCATTT
GTACACAGTTCTTAACATATCTACTGGAAATCTAAAAAGCCATGTATTGTATTTGTTTTTTAAACAGTTATTCCAGTGACTTTCCAGCTTAAAATTTGGA
GGCAAATTTTCCTTAGGAGGCCATCAAGTATCCTAAGGAAAATACCAGTATTGTCAAGTGTTACATACATCCTACCAATCTACCAGTTCACAAGTTAGTA
GTATATATACTACATACTCAAATTTTCAATCTTTCGCATCACATTAACAAAGTTATCAGGAAAGTAAGACTACTTTGACTACAGATGTTACAGAGTGCAC
ACAGTTCTGACAGGGAGAGCCATGATCAAGGAGTGATTTTCGTTAGAAAACAATTCTACTAAAAAACAGTGTGAGAATAGAAGTAATCTAAAATGTTCAA
GTCATGATTACCAATAACCATTCTAACATGATACTGTGATTATAGCAAACTGCTATAATCTTAAACTGAATTGGGAATATTTCTAACCAGAACAAAAGAT
RTGATATTCTGTTGAACATTTTATCATCAGTTCTCATGTTGAATATGATGTCATTTTGGGTGCCATATTATTATTGAATTTTGTTGAGATGAGATTTTCA
GATAACATAAAATTAACCATTTTAAAGTGTACATTTTAGTGGCATTTCATGCATTCACAATGTGTGCAGCCATCACCTTTATCAAGTTTTAAGACATKTT
CACCACCATCCCCTGCAAAAAAAATCCTCTACCCATTAAACAGTCATTATTCATTCCACCCTCATTCTAGCTAGGGCAACCACTAATCTGCTTTTTGTCT
CTGTGGATTTACCTATTCTAATATTTCATATAAATGGAATCATAAAATATGTGCCCTTTTGTGCCTGGCTTTTTTCACTTAGCCCAATGCTTTCAAGATT
TTTCTGCATTATAGCATGTATCAATACTTTATTCCTTTTTTATGGCTGAATAAGATTCTGTTGTATGGGTAAACCACACTTTTATCCGTTTGTCTGCTGA
TAGACATTTGAGTTGTTTCCACCTTTTAGCCATTGTGAATAGTACTGCTGTATTTGTGTACATGAATTTGTTTTGAATACTTGTTTTCTGTATTTTGGGT
ATGTACCTAAGAGTAGATTTGTTGGATGATACAGTAATTCTTTGTTTAACTTTTTGAAGAACTACCACACTTTTGGTTTGCTACACCATTTTATATTCTT
CCCAGAAATATATGAGGGTTCCAGTTTCACTGCATCCTTGCCAGTACTTTTCTGTGTTTTTGATTATAGCCATCATAGTGGGTGTCAAGTGGTGTCTTAT
TGTGGCTTTGATTAGTATTATATTTTAATAATATTTTAGAACTGTCTGTTGAGGTCACATGGAGTATGCTGTTAAAGGAAATAACAAAACTCCAAGACTT
TTCTTAGAACCTAGAACCTTTTCTCATCATTAAAAAGATTCTTATTTTAATTTATATTATTTTAGTTGAAAAGTAATCCCATCATTCTTAATTTATTTTT
CCTTAATTTTCACGAGTTCAAAGAGGAAAAACCCATAGACGTTTGTTTTACCTACTTCAGTATTATAAAGAGATTCCAAATTCAGCACTTCCCCTTTCAG
TATTACCTTTCTGCTGCTGTAGTTTTGCATTTTCTACTGTGAAAGGTGGAGATATCTATATCTATATGTCAGTTGGCTTTATTGAGGTATAATTTACATA
GAATAAAATTCACCCGTTTTAAGTGTTCAGTTTGATGACTTTTGGCAGATGTATACAGTTGTGTCACCACCACCACAATTATGATATAGTTATATAAGAA
TTATGGTATAGAACAGAACAGCATTCCCCAACCTTTTTGGCACCAGGGACGGGTTTCATGGAAGACAGTTTTTCCACAGATGGGTGGAGGGGGGATGGGA
GGTGGTTTCAGGATGAAACTGTTCCACCTCAGATCATCAGGCATTAGCTAGATTCTCATGAGGAGCGTGCAACCTAGATCCCTCGTATGCGCAGTTCACA
ATAGGGTTCATGCCCCTACGAGAATCTAATGCTGTGCTGCTGATCTGACAGGAGACGGAGTTCAGGCGGTAATGCTCACCCTCATACAGCTCATCTCCTG
CCATGTGGCCTGGTCCCTAACAGGCCATGGACCTGGTATAGAATATATAATGCTCACCCTCATACAGCTCATCTCCTGCCATGTGGCCTGGTCCCTAACA
GGCCATGGACCTGGTATAGAATATATCTGCCACCCCAAGTTCGCTTGTGTCCCTTTGCTGTCTGTTCTCTCTCCCCAGGCCCAGCCTTTGGCAACTACTG
ATGTGCTTTTTGTCACTGTGGTTTTGCCTTTTCCAGAATTTCATAGGAATGGAATCATACAGTATATAGTCTTTTGTGTCTTTTTTCACTTAGCATAATC
CTCCTGAGATTCATCCATGTTGTTTTGAGTATCAATAGTTTGTTCCTCTTTATTGCTGAAAAGTGTTCCATTGGCATGGGTATATAGACTTTTCCATTCC
CTAGTTAATGACCATATGGGTTGTTTCCAGTTTTTGCCTGTTAGAGAGAGAGCTGCTGTGAAAGTTCATATAAGTTTTTTTGTTTTTGTTTTGGTGTGGA
ATATGCTTTATTTCTCTCGGGTAAATACCTAGGAATGAAACTGGTGGAATGTATATTTACCAGTGTAAATTTATCTTTATAAGAAACTGCCAACCTGTTT
TCTAAAGTGGCTATACCATTTTTGCATTTCCACCAGCAGTTGCTCCACATCTTATCAGTACTAGGTATTATCATATATTTTTTTTTGAGATGGAGTTTCA
CTCTTGTTGCCCAGGCTAAAGTGCCGTGGCACAATCTCGGCTCATTGCAACTTCCACCTCCCGGGTTCAAGCCATTCTCCTCCCTCAGCCTCTCAAGTAG
CTGAAATTACAGGCGCACGCCACCACGCCCAGCTGATTTTCGTATTTTTAGTAGAGGTGGGGTTTCGCCGTGTTGGTCAAGCTTGTCTCGAACTCCTGAC
CTCAGGGGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCGGCTATCATTTTTTAAATTTTAGCCATACTAGTGG
ATGTGTGGGAGTTTCTCATTGTGGTTTTAATTTTAATTTGCATTTCTCTAATGACTAATGAGATTGAACATATTTTTATGTGCTTATTTGCCAATTATAT
ATATTCTTTTTTTTTTTTTTTTGAGATGGAGTCTCGGTCTGTTGCCCACGCTGGAGCGCAGTGGCATGATCTTGGCTCACTGCAACCTCCGCCTCCTGGG
TTCAAGCACTTCTTTTGCCTTACCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACCACGCCTGGCTAATTTTCTCTGTATTTTTAATAGAGACGGGG
TTTTGCCATGTTGGCCAGGCTCTTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTAGGCTTTCCAAAGTGCTGGGATTACAGGTGTSAGCCAATGCG
CCCAGTCAGCTATTTTTATATATATACATTCTATGATCAAATGTCTGTTCAAAACTTTTGTCTATTTAAAAAAAAATTTTTTTTGTCTTATTGAGTTTCA
GGAATCTTCGTATATTCTGAATACAAGTTATATATCAAATATATGCCTTCTAAACATATTCTCCCTGTCTGTGACTTACATTTTCATTTTCTTATCAGTT
TTACACAAATATTTATATACGAAAAATGTGGAAATCAGTTGTATCCCTCTATACTAACAATGAGTAATTAGAAATCAAAACTTAAAAATCAGGACTGTTT
GCAATAGTTTAAAATATGAACTACTTGAAGATAAATTCCAGAAACCATTTTGGAAGACCAGTACATTGAAAACTACAAAACATTACTGAGACAAATTAAA
GAAGACCTAAATGAATGGAGAGATACAACATTTTTGTGTATTGGAAGACTCATATCTTTTCTTTTTTTTTTCCTTTGAGACAGGGTCTCACTCTGTCATC
CAGGCTGGAGTATAGGGGTGTGATCTTGGCTCACTGCGACCTCCGCCTCCTGGGCTCCAGTGATCCTCCCATGTCAGCCTCCCAAGTGGCTGGGACTACA
GGCACCATCACAAATTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTTGCCAGGCTAGAGTGCAATGGCATGGTCTCAGCTCACTGCGACCTCCGCC
TCCCGGGTTCAAGTGATTCTGCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGGTGCCTGCCACCATGCCTGGCTAGTTTTTGGTATTTTTAGTAGGGA
TGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGAGATCACAGGCGTGAGCCACC
ACGCCCAGCAACATCTGGCTGATTTTTGTATTTTTTGTAGAGATGGGGTTTCGCCATGTTGCCCAGGCTGGTCTTGGACTCCTGTACTCAAGCAATCCTC
CTGCCCTGGCCTCCCGAAATGCTGGCTTACAGGCATGAACCACCTGGTGCCCAGTCTAGGAAGACTCATATCATGAAGATGTAAATTTTCTCCATTAAGC
TATAGATTTAATGCAGTCCCGATCAAAACCCAGGTAGTATTTTTCAGAAAATATCAARCTGATTTCAAATGTATATTGAAATGTAAAGGACCTAGAATAA
CCAAAACAATATTAAAAAGAAGACCAAAGTTAGAGGAATCAAACTTATTTTATGACTTTGTATAAAGGAACAGTAATCGGGTCAGTGTGATTATTGGTAT
AAGGATAGATATATAGATCACTGGAACCAAATAGACAAATTTGCCAAGGCAATTTAATGGGGGAAAAGGTAGTCTTCATAACAAATGGTGTTGAAACAAT
TCACACAAAAATATCAACCTCTATACTTACCTCATGCTGTACAAAAATTAACTTGAAGTGGGTAATTGAACAAATGTAAGAGCTTAAATCATAAAATGTG
TAGAGGAAAACGAGAAAATTTTTGTGATTTTAGGTGGGGCAAAGGTTTCTTGGAGTAAAAAAAGCTTAACCTATAAAAGGAAAAAAATTGGCTTTTATCA
GAAAGAAAAATTTTTGCTCTTCAGTATTTATTTTTAATGGAATGAAGACAAATTGAAGTGTATCTACAAGGGGGTGGAATGATGAGTAAAACTTGTGTTA
AAGAGTTATTAACAGATTTTGTTGTCTGTTTGGATTTTAATACATATCACTACCTTCTACCTTTGGAGGTAGAAATCTAGAAGTCATAATGAATGTTCTT
TGCATGCAACTCCTGTGGGTTTACCCGTTAATTTATACTTTTTTCATTTCTACTCAAGAAAATATATTTGAATGAAATCATTGTGAATGCCTTCTACTTT
ACAAAAGTAAATACAAACTCAGGCTGTACACCTGTGTTCCACATCCTACTCCTGCCACTTAGTAATCATATGACCCTCTACAAGTCACTGAACCTCTTTA
AGCCTCTGTTTTCTCATCTTTAAAATCAAAATAATATTAAGACTTCGCTCATGCAGTTTTTAGGATGAAATGAGACAATCCATTTAAAATAGCATAGTGC
CAGATTTATAGTTAAATTTAGAGGCAGCCAAAAGCTACCTCCCTACATAGTGAACTATAACCTAATTTAATATATAAACTACCTGCAACCTAACCTAAGA
GTATACTCTTGTAACAAGTAGCTGAGCCTCAGTCAAGCATAGCAGCCAAGTTTTCAGCCAGTCATATAGGCTGAATATTGCCAAAGCATGTTCAAATAAG
GCAAACACCTGAACTGCAGCCCATCAGGCTACTTCTGTATGTCATTTCTGTTTCTCTGGCTATAAATATAGCCTACATGCATTGGGGGATGGAGCATTCT
GAACTGCATTTGGTACTGGATGCTAACTGGTTCATTAATCTCTATTTTTTTGAGACAGGGACTTGCTTAGTCACCCAGGGTGGAGTGCAGTGACATGGCT
CACTGCAGTCTGGACCTCTTGGGCTTGAGTGATGCTTCTGCCTCAGGCTGCTCCCTTCCCCACCTTTCCCGGAAGCTGGGACCACAGTTTTCATTTCCTT
ATTATTTGTAATGGGGGTTGGGGGTGGGGGCTCCCTGTGCTGCCCAGGCTGGTCTCAAACTTCTGGGCTCAACCAATCCTCCAGTCTCCACCTCTGCCTC
CCAGAGTGCTGGAATTACAGGGGTGAGCCACCGCACCTGGCAAATCTGTTTTTTGTTCAATTAAGTCATTAAATTTAACTTGTCTCAGGTTTGTCATTTA
ACAATATGAACAAAATGTATATATTTTTTTCTTTTTATGCCTCGGTACTTCAAATAGTTATTAGTAGCTGTGATACAGTAAGAAATATTGTGTATATTTC
TTACCGTATAAAGAAATATATACATATATATATTTCTTCTGTATATATATATAATTACTGTGATACAGTAAGAAATACATGTATTCCTTATATATGTAGC
TGGGACCACAGGTGGATGCCACCATGCCTGGCTAATTTTTTGACTTTTTTGTAGAGACAGGATTTCGCCATGTTGTGCRGGCTAGTCTCTGCTGGGCAAG
GTGTCAGAACCCGGCAGTGGAGAGTGGTTGGCTCACTGGTGGTAAAAGAATTTACTGACAGCAGTATAGGTTTAGAAAGGAAAGTTTTATTAGATAGAAT
GCTGCAGCAGAGTGCAGTACAGTGCTTCATTCAGCAAAAAGGACTGAGTGTGTTGCGGTGGATTTTCCTTAGGGGTATTTATGGACTTTAAAGCAGGACC
TTAGGGTAATTTGGACCATATTAGTTATGTAGGTCATGGTAAATTATTACATTTGTAGACTTTGGGTGCCTTGATGTTAGCAAGGGTTGCAAAATAAGTT
TTGACATTCATGCATTCTGGAGATGTATAGAAATTCTAGTTACTTATAAATTTTTGGGAAAGAAGCCTGGTACCAGATGCTGGCTTTAGATAATAGAGAA
GTCTAATTACTTTTCAATTTTTCAGATAAGGAGTTTTGTCTTCGGATGGTCTGCTTGATTGCCACTAGGTGATCGTTGTATTCTTCTGTGTCGAACTCCC
AGGCTCAAGTGATCCACCCRCTTTGGCCTCCCTAAGTACTGGGATTATAGGAATGAGCCACTGTACCTGGCTGTTACTTTTATCTGAAATTGAGAATACA
GGAAAAGGAACAGGTTTGGGGGAGAAAATTAATGAGTTTGATTCTCAGATGATGACAGGTAATCTGGTGTACATATCCTTTTAAAAATATTGATATGAAA
TTTACATAACAAAATCAACCATTTTAAAGTGAACAATTCAGTGGCATTTAGTACTGGCAGATTTGTTTTTCACAATACAACTGCCACCTCTATCTAGCTG
CAAAACCTGCCTGTTACTTTAGATTTAAACCTCTTATCCATTAAGCCCTTTCTCCCCACTCCCCTTCCATGCAATCTGCATTTTGTCTCTATGGATTTCT
CTATTCTGGATATTTTATATAAATAATATTATACATATGTGACCTTCTGTATCTGGTTTATTTCATTTAGCATAATGTTTGGATGTTCATCCACATTCTA
GCATATATTGGTACTTTATTCCTTCTTTTGGTTGAATAATATCTCGTTGTATGTGTCCAACACAACTTTTTATCCATTGATGGACACTGGGCTGTTTCCA
CCTTTTGGATACTGTGAATAGTGCTGCTATGAACTATATGTATACATGTACTTGAGTACCTGTCTTCAGTTCTTTTGGGGATATACCTGGGGTGGAATCA
CAAAGAAATACGGTAATTCAACTTTTTGAGGAATAACCAAACTGTTTTCTGTAATAGCTTACCATTTTACAGTTCCACTAGCAATGTACTGAAGGTTTCA
GTTTCTCTATATCTTTGTCAACTTGTTATATTCCATTTAAAAAATTATTGTTTAGTTATACTATCCTGGTGAGTATGAAGTGGTACCTCATTGTGGTTTT
GATTTGTAGTTCTGTAATGACTAATGATGTTGAGCATCTTTTCATGTGTTTTTTGACCATTTATATATCTTCTTTGGAAAAATGTCTATACAAGTCCTTT
GCCCATTTTTTTTAATTGAATTTTTTTGTTGTTTTAAGTTTGTTATATATTCTGGGTATTAGACCCTTAGTTATATGATTTCCAAATTTTTTTCCTGTTC
TGTGTGTTGTCTTTTTAGTTTGTTGGTAATGTCCTTTGAAGTTTAAAAATGCCCTTGATGAAGTCTAACTTATCTGTGTTTTTCTGTTATTGCTTATGCT
TTTGGTTTCATATCTAAGAATCCATTGCCAGCTCCAAGGTCATGATTTACTTCTGTGTTTTCTTCTATGAATTTTATGGTTTTACTTCTTATATTTACTT
CATCGACCCATTTTGAGTCAGTTTTTATATTCAGTGTGAGGCAAGAGTTTATTTTTTTGCATGTGGATATCACTTTTTAGGTATCCTTTCAAGAGTTAGA
TGTCCAGAGTAAAGTACAGCAGTTTAGGGCTATAGATGTGGACTTGGAAGCTGTGGATTAAATCACCATGGGAGAGAGTAAAGAGAAATAAAAGGAATGT
AGGGGAACATGAAAAAATTACATGTGAAAGGATAGATAATGTTAGACAGTGAAGTATTCAACTTAGATAAGAACTGTAGGAGTTTAGATAAAGTGCATTC
ACTTGAGAATTGCTGTCCTTTTCACTCTTASTTTTTCTTTTTGTAAGAGGAACTTGTTTCTAATGCCATCTAGTGTCTTTTGAAGGGTATATGAGTAATG
TTAAGAGGTTTTAAAATAAAAGTTTTGAAATTTCATGAGACTTGAGCAGTATATTGGCAGTCTTAGCTTACTCTCAAGAGCATCCTTAAGAGAGAAGTAA
AAGAACACATTAAATACTTTGCCTGAACAAATTCGGAGCTGAATTTCATCTTGAATAGTTAAGCATTTTTATCATCTCTTTTGTGTTAATTTGTAAAGAA
TTTAAGATACCTTAAAAATAGTGACGTCAAATTTTTTTCTTATCTTGAATTTGTCTTACAAAAATTATAGACAGCCTTACTTTTTTTTGTTTTTGTTTTT
GAGACAGGATCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAACCTTGGCTCACCGCAGTGTCAACCTGCTAGGGTCAAGTGATTCTCCTGCCTCA
GCCTCCTGAGTAGTTGGGACTACAGGCATGGGCCACGATGCCTGGCTAATTTTTATTTTTATTTATTTTTAAACTTTTATTTATTTATTTTTTGAGACAG
AGTTTCACTCTTGCTSCCCAGGCTGGAGTGCAGTGACTCACTGCAACCTCCGACTCCCAGGTTCAAGTGATTCTCCTGCTTCAGTTTCCTGAGTAGCTGG
GATTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGTGTTTCACCATGTTGGCCAGGCTGGTCCCAAACTCCTGGCCTC
AAGTGATCCACCTGCCTCGGCTTCCCAAAGTRCTGAGATTATAGGTGTGAGCCACCGCGGCCAGCTTAATTTTTATTTTTAAACTTTTTGTAGAGGTGGG
ATTTTACAGTGTTTCCCAGTTTGGTCTCGAACCCCTGGGCTCAAGCAATCCTGCCTCAGACTTCAAACTATCGGGATTACAGTTGTGAGCCACTGCACCT
GCCAAGCATCTAAATTTTTAAAAGGCATTTAAAATAAAAAATTTTTTTAGATAAATTTGTTGGTTGATTGGTTTGTTCGTCCGTTTTGTGCTGCTATGAC
AGAATACTCGAAACTGGGTAATTTATAAGGAATCAAGGTTTATTTCTTAGAGTTCTTGGGGCTCAGAAGCCCAAGATCAAGGTACCAGCATCTGATGAGG
GCTTTCTTGGTGTTTCCTCACGTGGCAGAAGGTGGAAGGGCAATAGAGAAGAAATCCATTCCTGTAAGCCCTTTTTATAGTGACATTAATCCATTCATGA
GAACAGAGCTTTCATGACTTAAACACCTCTCAAAAGGCCAAATCTCCCACCACTGTTGCATTGGAAATTAAATTTCCAGCACATGGATTTTGGGGAACAC
ATTCATACCATAGCAGTTGAGGTTACAGAAAGAGATCTTACTGAATTTGTTGATGGTTAGAATACATGGGAGAACGTTTATGCAAGTTTTTGGTAAGGTG
TCATATATGTCAAGGAGAACGGCATTATTAAACCACTAGTAAAAAGTTATAAGAGCAGGTTTTGTTTTTACTCTTATACAAAAAATATCAGTGCTAGTCT
TTTTGTTTTTTTCCTTTTTCTTTTTTGAAATTGCAGAAATAAATTTTATTTTTAATTTTCAGAGGTTAAAAAAAGTTATGATACTTTAAACTGTTAACAA
GACTTAGTTGATATCCAGTTAACCTAATACAGCATTAATGTTTTTATTATTTTCTTGAAGAGACTCAAATACACCTGCATTGTGCTCTTTTAAAAACATA
TTAAGGATACTTGTATTTAACAAGTTTTTTAGGAAAAACATTGTACAACATTTATGTTTTTCATGATGCTGAAAATGCTGAATTAYATGTCAATTTAATT
TATCTCTTAGAAGAAAAAGTAACATAATTAAAATCACTGGGTCTCTAATCTTTAGTTCTCTCTCCACAAATAAAACCTGTCACTTTTCACAATAAAAAAG
CAAAAAATAATATACAATTAAAAGGAGCTAAACTGAAATTCTTTATCCTCTTTTTCCTTTTTTGAGACGGAGTGTCTCTGTCGCCCAGGCTGGAGTGCAG
CGGTGCGATCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTCACGCCATTTTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCACCACCAT
GCCCGGCTAGTTTTTTGCATTTTTAGTAGAGACRGGGTTTCACTGTGTTAGCCAGGGTGGTCTCGAACTCCTGACCTTGTGATCTGCCCGCCTCGGCCTC
CCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCTCTTTATCCCGTTTCAAAAGATAAATTAATTGTGGGAGATCAACATAACAATCATCAC
TGATTTTTTTTTAACCATTTAACTCTGGTTCAAAAGATAAATAATAATCTATAATCCACCAGTGTATACAAATTTTTTATCACATTTTCCCTTATGTTGT
AAAAAAAAAGAAAATAGGTTTAATGTTTAAAGAAGGATTAATTTGATATTATTACTGAAAGACAATTTTGCTGTTATCACAGCTCAAAAAGTAGTGACAG
GAATCTTTTAGGAAACAGGTTACTGTCCGTTTCACAAAATGTGAAATTAGATGATCATAAATATACAAGAAAATCAAAACATTTTCTGTCCTTAGTTATA
TTGCTCCCCCCGGCCTGAAATTTAGATGAAAAAGATTAAACAACTTTTGCAGATCACGTCTATCTATTTTAGCAACTTAATATAAATGAAAAGCAATCTT
CATTTTAAAATAAATATCATAGGCCAGGTGCGGTGGCTCATACCTGTAATCCCAGCACTTTGGGAGTCCGAGGCAGGTGAATCACGAGGTCAGAAGTTCA
AGACCAGCCTGGCCAACATGGTGAAACCCAGTCTCTACTAAAAAAACACAAAACAAATTAGCTGGGCGTGGTGGCGGGTACCTGTAATCCTAGCTACCTG
GGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATGATGCCACTGCACTCCAGCCCAGGTGACAGTGCAAGACTC
CGTCTTAAAAAAAAAAAAAAATTAATAACACCATTTTTGAAACTGCAAATGAAACTCTCATCATATAAGAGAATGTCAACATCAAATTCTTGTATCTTGA
TGATTATGTACCATAATCAATGAATATAATTTGAAGCTCTCAAATTATTTATTTTGAATTCAAGTGAAGATGATTAGGCTAATCCAGTCATTTCCTCTTC
TGAGTCATTTGATTCATCGTTTAGTTCCAATTCCACTAAATCTTGGTCTGTAGTTATAATAGTTTTCCTCTTGCACTTCTTGGGAATTGCATCATTAGCA
CAGATTTTTCTCATTTTAATATTTGGCAATTTCTTCAGATCAAAGTCCCATTCCCTAAATGTTTTCAGATTACTTGCATTTAGAATGTCTGGAATCTCAA
AGCCACATCCTTTATACTGCTGTCCCTCCCGCTCCATCGTCTGCTTGATGATGGTGTCCTGGGAACAGTGCTGCCTGTCCTGCTTGTCCCTGATACTGTT
ATGTAACTCAATCTGCTCCAACTCACTGCTAAATCAATTTAATTTAAGTACCTTTCAGTTAGTTCACAAGCATCTTTGTTTGAATATCTTTTTTTGGGGG
GGATCAAGATGATTTTGAAACCATTGCAGTTTTTCACCAATAAGATTGAAACACAAGGCCTTTTCATTCTTCAATTTTTCCTTTTTTTCTTATTTGTGGG
CCTCTCTCATAATTTGAGCTGCTTTTCTACTATATGGATGAATGACTTTTTTTCCCATCCTGCACTTTTTCCCTTTGGTGCTTTAGGTATAGTGACGTCC
TCGCGGCCACAGAGGAGCTCTGCACTCTAGACCCAGGCAGTCTCACCAACCACAAGAGCAGCAGCTCACAGGAGTACCCGTGCCAAATCCCCCTGGGGCC
TCCCTTTTTCTTTTTTTTTAAGATGAGATTTTGCCATATTGCCCAGTCTGGTCTCGAACTCCTGGGTTCAAGCCATCTCCCCGCCTCAGCTTCCCAAAGG
GTGTGAGCCACTATGCCCGGCCAGTACTAGTCTTTTAATTAGGCTGTTATTGTCATGTGTTGCTTCGCACTGGTATATTTACAGTGCTGAGCAAAGATTG
AAAAGCAGTGCTACTGGTGCATTCTATCATATAGACAATATAATTACTAGTGATAGTTTAGTTGCAATAGAGAACTAATATTTACTAGACCCTATTCCTA
GTTTAACGTATGTTCTCCTTTATTTTCTCCAGAACATTGAGTTGTCATTCTTCATTTTTGCAATATGTCTTATCTATAGAATGTATAGGGAACAAGGCTG
GTTTCAGCATGTGTAGACTGGTGGCCTTAAGAGATAGCAATGTTAAGAAATAGTAGTAGTGTACAATAAACCATTAATATAGCAGTCCTGAGACTACTAT
CCTTAGAAAGGCTTGTGCGGAAGGCCGACCCTTGGCTGGTATCTGGAAACTTGAATGGTAAACAGTTTCCTACACTGATAAAAATTTCCTTGAATGATAA
GAGTGACTTACTGTGCAAACAATGTGATTTATGCTGAACATTTACTTACCTTCTGGGAGTCTGAAATTTTGGTATGTAGTAGGCAAGAGGGTGCCTGTGT
GAGCAGCTCCATTAAAAACTTTGGACACTGAGTCTTTGGTGAGCTTTCCTGGTAGACAACATTTCATGGATATAGTTACYAGGTGTTGCTGGAAGAAATA
AGTGTGTCTTATGTGACTTCACTGGGAGCGAACTCTGGGAAGCTTGTGCTTGGTTTCCTCCAGACTTTGCCTCATGCACCTTTTCCATATGCTGATTATA
TGCAGGGTCCTGTGAGTACTCCTGGAGGATCATGGAACCTGGGGATGGTTTTGGTGACCCCTGACACAGGTAGTCTTTGAAGGATTTATGAAAATAGTTA
AGGGTATAGCCGGAGTAATCAGGCAAGAGAAAGAAATAAACGGCATTCAAGTAGGAAGAGAGAAGTCAGATTATCCCTGTTTGTAGATGACATGATTGTA
TGTGTAGAAAACCCCATCATCTTGGCCCAAAAGCTCCTTCAACTGATAAACAAATTCAGCAAAGTTTCAGGACACCAAATTAACATACAAAAAACCACTA
GCATTCCTATCCACCAACAACAGCCMAGCTGGGAGCCAAATCAGGAAGGCAATCCCATTCACAATTACCACAAAAAGAATACAATACCTAGGAATACTGC
TAACCAGGGAGGTGCAAGATTTCTACAATGAGAATTAGAAGACACTGCTCAAGGAAATCAGAGAAGACAAAAACAAATGAAAAAACACACCATGCTCATG
GATAGGAAGACTCAATATCATTAAAATGACCATACTGCCTAAAGCAGTTTACAGATTCAATGCTATTCCTATCAAACTACCAAGAACATTCTTCACAGAA
CTAGAAAAAACGATTTTAAAATTCGTATGGAACCAAAAAAGAGCTTGAATAGCCAAGGCAGTCCTAAGCAAAGAGAACAAAACTGGGGGCCTCACGTTAC
CCAACTTCAAACTGTASTATAGGGATACAGTAACCAAAACAGCATGTTACTGGTACAAAAGGCACATAGATCAATGGAACTTTATTTCCGGCAGAAATAA
AGCTGCACACCTATGACCATGTGATCTGTGACAAAACTGACAAAAACAAGTAATGATACTGGGATAACTGGCTAGCCATATGCAGAAGATTAAAGCTGGA
CCCCCTCTTTTCTTTTTTTTTTTTTGAGATGGAGTCTYTCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTAGGCTCACTGCAAGCTCCACCTCCC
AGGTTCACACCATTCTCCTGCCTCAGCCTCTGGAGTAGCTGGGACTACAGGCGCCCGCCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGG
GTTTCACCATATTAGCCAGGATGGTCTGGATCTCCTGACGTCGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGC
CCCGCCCATATTTTCTTTATCTAGTCCACTGTTGATGGGCACCTAGGTTGATCCCATGTCTTTACTATTGTGAATAGTGCTGTGATTAACATGTGAGTAC
RTGTGTCTTTTTGGTAGAATGATTTGTTTTCTTTTGTATATTTACCCAGTAATAGGATTGCTGGGTTGAATGGTAGTTCAGTTTTAGGCTCTTTGAGAAG
TCTCCCAACTACTTTCCAGAGTGCTAAACTAATTTACATTCCTACCAACAGTGTATACGTGTTCCCTTTTATCTGCAGTCTTGCCGGCATCTGTTGTTTT
TTTGCTTTTTGATAATAGCTATTCTGACTGGCATAAGATGGTATCTCATTGTGGTTTTGATGTGCATTTCTCAAATGGTTAGTATGTGGAGCATGTTTTC
ATGTTTGTTGGCTGCCTGTATATCTTCTTTTGAGAAGTGTCTGTTCATGTCTTTTGCCCATTTTGTGATGGGGTTGTTTTTTGCTTGTTTAATTGTTTAA
GTTCTTTATAGAGTCTAGATATTAGACCTTTGTCAGATGCATAGTTTGCAAATATTTTCTCCCATTCTGTAGGCTGTTAACTCTACTGATTGTTTCTTTT
GCTGTGCAGAAACTCTTTAGTCTAATTAGGTCCCACTTGACAATTTTTGTTTTTGTTGCAATTGCTTTTGAGGACTCAGTCATAAATTGTTTCCCAAGGT
CAGTGTCTGGAATGGTGTTTCCTAGTTTGTTTGTTTGTTTTTCCCTAGGATTCTTACAGTTTGAGGTCTTACATTTAAATCTTTAATCCATCTTGAGTTA
ATTTTTGTATGTGGTGAAAGGTAGGGTTCCAGTTTCATTCTTCTGCATGTGCCTAGCCAGCTATCCCAGCACTATTTATTGAATAGAGTCCTCTCCCCAT
TGCTTATTTTTGTTGACTTTGCTAAAGATCAGAAGATTGTAGGTGTGTGGCTTTATTTCTGGGTTCTCTATTCTGTTCTATAGGTCTATGTGTCTGCTTT
TGTACCAGTACTATGCTTTTTTTTTTTTTTTTTTTTAAACACTGTAGCCTTATAGTATAGTCTGAAGCTGGGTAATGTAATCCCTGCAGCTTTGTTCTTT
TTGCTTAGGATTGTTTTGGCTATTTGAGCTCTTTTTTGGTTTCATGTAAATTTTAGAATAGTTCTTTCTAGTTCTGTGAAAAATGACATTGGTAGTTTGA
TAAGAATTATGCTGAATCTGTAGATTGATTTGGACAGTATGGCTGTTTCAACAGTATTGATTCTTCTAATCCATGAGCATGAAATTTTTTTCCTTTTGTT
TGTGTCACCTGTGATTTCTTTTAGCAGTGTTTGTAGTTCTCCTTGTTGAGATCTTTTACCTCCTTGGTTAGATGTATTCTTAGGTACTTTTTCTTTTTCT
TTTTTTTGTAGCTATTGTAAATGGGACTGCATTCTTTACTTGGCTCTCAGCTTGAACGTTACTGGTATATAGAATTGCTACTGATTTTTGTACATTGCTT
TTGTATCTTAAAACTGGGAAGCCATTTATCAGTTCCAGGAGCCTTTGGCGGAGTCTTTAGGGTTTTCCAGGTATAAAATCATATTGTCTGCAAAGAAAGA
TAGCTGGACTTCTTTGCTGTTTGGATGCCTTTTCTTTCTTTCCTTTGTGTGATTGCTGTGGCTAGAACTTCCAGTGCTCTGTTGACCAGCAGTCAGGAGA
GTAGACATCCTTGTCTTGTTCCAGTTCTCAAGAGGAATGTTTCCAGTTTTTCTCATTCAGCATGATGTTGGCTGTGGATTTGTCATAGGTGGCTTTTATT
TATTTTGAGATATGTTCCTTGGATGCCTAGTTTGTTGAGGGTTTTTATCATGAAGRGATGGTGGATTTTATTGAAAGCTTTTTCTACATCTATTCATCTG
ACTTCCTTTTTTCTGCTTGACCTAATAGAAAAAATTTTCAGCCCTACTTGAAATGAATTACCTGAGCTGAGGGACTGAGATTGCTGCTGGCAAATAGAAT
TAATGGACTATTTTTTAAAGAGGGCAAAAAGCTCCAAACAGAAACGTTTCTGAGATGTGTTGGGGCATTTTGGGAATAAAGTAACATGCATTTATAGGGA
GATACTAAAATGAAAATATAGGAATTTCCTTTTTTTTCAGTTATTTAGCCTTTAAAAAAATACTTATGGTTGCATAGGAAGTTGCAAAAATAGTGCAGAG
TACTATGAACCCTTCACCCAGCTTTCACCAATAGTGTCATCTTATATAGCTATAATACAATATTAAAACCATGAAAATGACATTTGTACAATATCATTAA
CTAGATTATAGCCCTTATTTGGTCTTTATATACACTTGTATATGTTTGTGTGTGTATGTACAAGTCATGCARTCTCATCCCATGAATAGATTTGTGTAAT
GGCCACCACCACAATCAACATACAGAACCGTGCTGTCATTACAAAGGAATTCGCTTGGGCTGCCCTTTTATATTTGCACTCCCACCCCGTCTTTATCTTC
TTGCAACCACTAATGTGTTCTTCTCTATGTGAATTATATTTATATTTATATTTCCTTTTGAGACAGGGTCTCACTCTGTCCCCCAGGCTGGAGTGTGGTT
TTGCAGTCATGGCTCACTGCAGCCTCCATCTCCCAGTCTCAGGTGATCCTCCTGCCTCAGCCTTCCGAGTAGCTGGGATCACAGGCACAAGCYACCATGC
CTGGCTAATTTTTTTTTTTTTTTTTTAATTTGTAGAGATGGAGTCTTGCTATGTTGCCCAGACTGGTCTCGAACTCCTGGGCTCAAGTGAYCCTCCTCCC
TCAGCCTTCCAAAGTGTTGGAATTAAAAGGGTGAGCCACTATGCCTGGCCTTTATGTGAATATTATATAAATGGAACCATATAGTATATAACCTTTTGAG
ATTTTTTTCAGTAAGTATAATGTTTTTGAGATCCGTCTAAATTGTTGCATGTATCCACTCAGTTCTTTCCCTCTTTGTGTGTAGTATTCCATTGTATGGT
BACACATCACTTGGTTATTTACTCACATGTTGATAGATTTTATGTGTTTGTTTTTTGAATCTGCACCACTGGCAATGGATTTTTTTAAAGCTATTAACTT
TTTTTTTAAATTAAAAACAATTATTTTTTGTTGAGATGGTATCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTTGGGTCACTGCAACCTCTGTCT
CCCAGGTTAAAGTGATTCTCATACCTCATCCTCCCGAGTAGCTGGGATTACAGTCGCCTACCACCATGCTCACTAATTTTTGTATTTTTAGTAGAGACAG
GGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGAGCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGATATGAGCCCCAT
GCCCTAAAACTATAAACTTTTAAAAGTTTTGTATGTATTCTAAATATAAATTCCTTGTTGGATATGTGGTTTGCAAATAACTTTTTTATTCTTTTTAACA
GAGTGTTTTGCATAACACATTTATTAATTTTTWAAAAATTATTATTGTTTTTTTTTGAGTCAGAGTCTCTGTCACCTAGGCCATAGTGCAGTGGCTCGAT
CTCRGCTCACGGCAACCTCTACCTCCTGGGTTCAAGTGATTCTCCTGCCCAGCCTCCTGAGTAGTTGGGATTACAGGTGTGTACCATCACGCCTGTGTAA
TTTTTGTATTTTTAGTAGAGACAGGTTTTTACCATGTTGACCAGGCTGGTGTTGAACTCCTGACCTCAAGTGATCCACCCACCCCGGCCTCCCAAAGTGG
TGGGATTACAGGCGTGAGCCACTGTGCCCATCCTAAAATTGTTTTTCTGTTTCTTAAAAGAAAAATTTTTTATACTACCTTTATGTGTACAATCTCTTTT
TTTTTTCAATCAGCTTTCTTAGGTTGAAAAATGTCTTTAATTTTGATGAAGTTCTGATTGTGTTCTTGGTGTCATGTCTAAGAACTTTTCACCTATTCCT
AGGTTCTGAAGATTTTCTCCTCTGTGTTCTTTTAAAAATTTACAGTTTTATTTTTTACATTTAACTCATGATCAATTTTGAAGTAATTTTTGTGTATAGT
GTGAGTTGTAGGTTAAGCTTATTTTTTTATTCAGCTCATGGATGTCCAGTTGTTCTAGTATAAGTTATTGAAAAGTGTGTCCTTTCTGCATTGAATTGCT
TTTCCACTTTTGCCAAAAATCAGTTGGACATATTCAGGCCGGGCACAGTGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCTAAGGTGGGCAGATCAC
CTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCAAAACCCTATCTACTAAAAATATAACAATTAGCCAGGAGTGATGGTTCATGCCTGTAATCT
CATCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTACCACTGTACTGCAGCCTGGGTGACAG
AGTGACCCTCTGTCTCAAAAAAAAAAAAAAAAATTGGACATATTTGTGTGGTTTATTTCTGGGTTCTCTTTTCTGTTCAGTTCACTTATGGGACTCTCCT
TCTGCCATTACCACAATGTTTTGATTACTGCTGCTATATAGTAAGTCTTAACATTGGGTAGAGTGATTCCTTACACTTACTGTTCTATTTCAAAATGGTT
TTAGTGATTTTTTTTCTTTCTACATAAATTTTAGAATAAGCTTTTTTATATCTACAAAAAGTCTTGCTGGGATTTTGATAGGAATTACATTAAACCTATA
AAGAAATATGAGATAAAGGAAAAACTAAACTTTTACCTACTCTCAAACTCACCACAACACAGGACCCTTCTGACACCACATTTATGGGTTTTTTTTCCCT
GTACACCAAACAGCAGACAGAAGCTGGGTGCCTTATAATTTAACTCAACTCCTATACTGCATGCCTGGAATAAGCATCAGATCCCATAGGCTAAGGCCCT
GTCCCATAAGATTGCCCCTACTTTAGATCCAGTTTCAGTCCTAGCTGGTTTTACCTGTTCTTTTGACTGACCAGCTATAAATTGGATACAGATGAACCAC
CAGGTGGAGAAGCACATAGGATGAGGCAGGTGGGAAGGAGTGTGGAGCTTCACCCGCTCTGGGCTCACTATCCTCCAGGTACCTGCATGTGGTCAGGATC
CTGGAAGCTCTCTGAACCCTGTACTTCACTGATTTTCATGGCAGCTTTATCACATAGGCATGATCCCCTTCCCAGAGGATTGGAGGGTGAGGTGGAAAGT
TCCAATTTTCTAATCATGGCTTGGTCTTTCTGGTGCACAGCCTCCATACAGGAGCCCAGTTAACATTCCCTTTGTTAGAACAGAAGGCATGTCTATCACC
CAATAAATTCTAATGGATTGGGAGCTCTGTGTCAAGAACTAGGATGAAGACCAAAAAATATATATTTTTATTATAAATCACGATATCACAATAAGTTTTG
AGGAGAAATGGCTTTTTTTTTTCTATTTGATTCTTCTGACCCATGAAAATAGTGTGTCTCTGCATTTATGTAGATTTTTAATTCTTTTCATCAGCATGTT
GTAATTTTTAGCATACATATCTTGTATGTGTTTTGCTGCATTTCTGTCTCTAAGTATTTTATCTTTTTGTATTTTCATGCTGCTTGCCAGGAACAGTCTC
AGTCCCTCAGCGCTGGTAATTTATTTCAAGTGGGGTTGAAATTTAAGAGGTCAGATAGAAAAAAGAAATGAGATGAAACTTTTTTTTTTGCAACTTTAAA
TGATGTTGTATTTTAAATTTTAGTTTTTACATGTTTGTTGCTACTAGTATATAGAAATATGGTTGGTTTTCGTGTGCCGATCTTGTATCCGGTGAGTTTG
CTGAACTCATTTAGGAGTTTTTCTTGTAGATTGAGCATTTCTACATAGGCAATCATGTCATTTTCAAATAGGACAGTTTTATTTTTTCCAATCTATATAT
TCCTTTTCTATCATTTTCTTTCTTTATTGCTCTGGCTAGGATTTAATTAAACACTGAATTTTTATTCTGGTAGTGCTGACTTCAGGAGCCTAATTTGGGA
CTAGCAAATGCTAGTTTTACTCACCTTATCATTACAGTTTCAGATCTTCGGCTTCTCTTGGGCTTCAGAAGTTTAACTTGGATTGATCTTGAATATTGAT
CTTGAATATGCTGAAGGCAGGAAAAGCTCTGTCCTGAGTGTATACACAGTGCAATATAATTTTTATTTATTTGCCTCCCTTGAGTGTGAGCTTCTTGAAG
AAGACAGTTCTGAAGATACAGGGCTTGGTACACAGCAAACTTGTAATTAAYGTTTGAGGTCAGGCATGGGTGGCTCACATCYGTAATCCAATGCTTTGGG
AGGCTGAGGTGGGGGGATTGCTTGAGGCCAGGAGTTCAAGACCAGCCTGGGCAACCTAGCAATATCCCGTATCTAAAAATAATAACAGTTACAATTGTTT
GTTGAGCAAATATTTAAATGAATAAATGGAACTAATATGTGGCTTCTTCTCATATAAGAAGTCTAGGGAAAACCTTTTCAGACAAGGTATAGTGTAACTC
AGGTTGAAATGACAAATGTGAGACTATTTGCAGTCACACACGCAGTTGCACATGTGATTTTGACATCAAACATTTTTGTTTATTTTTGTTTACTTGCATG
CCTTGTAAGTTTCATGTTTTACTAACAAGACACTTTATTCTTTGAGTGTTACATGTCGTTTGGTTTGGCTTGCTTCTGTATGTTAAAAAAACGTTCTGTC
TTTTGAAAAGATACCATTATCTAATTGGTTTTAAGTTAGGAGAATTCTAAATTACAGGGCACAGTAAAATAAATGAGCAATTATACCGAGGAAGAGCAAA
ACAAACAAAAAAGAATCATGGAACCATGTTTTGTATATACGTGGGGAGAAGTTATCCTTTAGATCTGTTTTTTTTTTTTATGTGAGTATGCTTGAATGTA
TATGTCATGAGGGTAGTGGGCTGGGCTGAGCTGGGGAGGAGATGTGCATCATATGTAGGGAGTAGACTTAAGCTAGTTATTTTTAAATAATACTTTAGCA
AGGGAATTAGTACTTGTTTAAGTGTTCATATTGCCTTAATATTAGCATAGCTTTTTCATCAATATGTTCAGTATCTCAAACGTCAAATTTGCATGAAAAT
ATTCTCCCAAACCCCTAATCCTTCCCTGTTTTATTTTTCTTCATTGCATTTATTATCTTCTAACATACTGTATATTTTATGTATTCATTTTTTGTTTAAT
GCCTGTCTACATCCACTTGAATGTAAGCTTTAAGAGGTCAGGGATTTTTATCTATTTCTATTAACAGTTGTATAGCTAGGCCCATGATATCATCTGGTAC
ATAGAGAATACTTAATTTGTAAATCAATGAAAGGAAGACTACTTTGAAAAGAGTGATTTCTAGGATATTGGAATGAGGAATCTTAATCATAAGCCTATGT
AAATGATAAAATATTATCCCTATGGAATAGCAGGAAAGTCATTGTCCTTTTACCCTGAGGAGCATATTTGTCCTCTATAAAAAGGCCTTTCTATTTGGAA
GGAATTTTACTTGATTGATTGACTCTCTGTTTAAGCAACAAATGAAAAAGAATCCTTTGTTGAGAAGCTACCACAGACTGTAAAGTTTCCAGGTTCTGTG
CTTTGTGCTGGATGGGGCACCACTGTGATGGGCCTGATGAGTCTCTGAGACTGCTGCAGGACTTGGATTTTGTAACTAAAGTTAGTTCTTATTTTTATAC
TTTAAGTTYTAGGGTACATGTGCACAATGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTTGTCATTTACATTA
GGTATATCTCCTAATGCTATCCCTCTCCCCTCCCCCGACTCCATGACAGGCCCCAGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTGTTCA
TTTCCTACCTATGAGTGAGAACATGCGGTGTTTTTTTTTTTTTTTTTTTTTTTGTCCTTGCGATAGTTTGCTAAGGATGATGGTTTCCAGCTTCATCCAT
GTCCCTACAAAGGACATGAACATATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACGTTTTCTTAATTCAGTCTATCATTGATGGAC
ATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATACGTGTGTATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTA
TATACCCAGTAATGGGATTACTGGGTCAAATGGTATTTCTAGTTCTGCATCCTTGAGGAATTGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACAG
TCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCATATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGAAATGAGAT
GGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAA
GTGTCTGTTCATATCCTTTGCCCACTTTGTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCTTTGTAGATTCTGGATATTAGCCCTTTG
TCAGATGAGTAGATTGCAAAAATTTTCCCCCATTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTA
GATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTT
TTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGC
TTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGTTTTTGTCATGTTTGTCAAAGATCAGATGGTTGTA
GATGTGTGGTATTATTTATGAGGGCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAG
TATAGTTTGAAGTCAGGTAGCATAATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGTCTTGGCAATGCGGGCCCTTTTTTGGTTCCATATGAACTTTA
AGGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCAGCTGTCTCAGCCTGATG
AGTAGCTGGGACTACAGGCACAAAAAGTGCCATCACACCCAGCTAATTGTTGTATTTTTAATAGAGATGTGGTTTCACCATGTTGGCCAGGCTAGTCTCA
AACTCCTGGSCTCAAGTGATCCGCCAGCCTTTGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCTGGCCCTTGAGCTGGGTTTTGAAGAA
TGAATAGGAGTTTACTAGGTAAGAGCTGAAGTAGGGAACCTCTCCAGTAGGTGGGAACATGTGCCAAGGCATGAAGCAGTGAAACAAAGTGGTGCGTGCA
AGAGAAGTACTCATAATTTGTTGTGGCCAGACACAACATGAGAGGGAGAAAATCAAGATGAGCTGATCAGGGAGGCCTAAAGTTAATTTTTTCATTGTGC
TTATCTTGGCTTGCTTACCATGTAAAGAACCTTATAGCTTTCCACATGGGGTTAGTTATATTTTATTCACTTACTGATAAATAAAAGGATAATTTATGTT
GAGGAAATGTTTAGATGCAGCCTATTCTGAGAATTTATGTATTTACTTTTATTTCTGCAAGGTGTTTGACTTTTTATCTAGTCATTGGCTGATAGTCCTC
TCAATACTAATAACATAGTAGAGAAGATGATGAAAATGTTTTATTCATCTGTTCTTGGACAAGAAACCCTGCTCTTTCTGTTCTTTTTAGTTGAAGCTGA
ATAAAGCTGAATGTTCTAGTCGGAAGCATGGGTTCAAGTTTCTACTACACTGTTTCTGAGCAGGTTACGTCTCCTTCCTGGGTCTTAATTTCTCCAGTTG
TAAAATAGGGGATTTGAGGTAAATTAGCATATCCACTTTGATAAAAATTTATCTGGGCTGGGCGGGGTGGCTCATGCCTGCAATCCTGAGGTGGCGGGAT
GCTGAGATGGGCAGATTACTTGAGGCCAGGAGTTTGTGACAAGCGTGGCCAACATGGTAAACCCCTGTCTCTACTAAAAATACACACACACACACACACA
CACACACACACAAATTAGCCAGGAGTGGTGGCGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGACAGAGG
TTGGAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGAATCTGTCTCAAAAAAAAAAAAAAAATTTATGTGAAGCAAGAATCAA
TACATATATGACCCATTAGGGTAATTTTTCTTGGCAGTCCTTCCCTTCCTGGCTGCTGTTTACCAACTTAATTATTCTTCCTGTTTCATGTTAGATTCTA
TAATCCAGTATACATCTTACTACTCTTGGCCRGGCGCAGTGGCTGATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACCTGAGGTCA
GAAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAAGCGTAGTGGCGGGTGCCTGTAATCCCAGCTAC
TCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGTAGTGAGCCGAGATCATGCCATTGCACTGCAGCCTGGGCGACAAGAGCGAA
ACTCCGTCTCCAAAAAAAAAAATCTTACTACTCCTCTCAACTCCTGCTATTATCTTTGTTATTTTCAGCAACCATGTAGATKAATCCATCCAATAATATC
CTGGCATAGTTGTTGACCTCATTATCATTTCTAGTCCACTTAGCTCTCTGCCTTGTCATACCTCTGAAATGTTCCTTCACTAAAATCGTAACTCTAGGTA
ACCTCCTCACTACAACCTGATAATTTTTTTAGCTTCCCCATTTAATTATTCTTAAAGTATACCAGTTCTCAGACTTACCAGCACCTCTATTAAATCTTTT
CTTCCTGTCTTTTCGTCTTTACTTTCCTCCTCTTTTAGCTTAGATTCCATTGTTACTCTCTCTATTCCATGTCATAAATTGTTTGCCCCATTTTTGGTCA
ATTTATCTGGTAAAGCTGTTTAGTAAAACTTTGCCTTTGCATTACTGTAGTCTACTGAAGAAAGCCACACAACGGAGCAGATTGGTGGGACTGTAAAATG
ATGATGAATGATGTAGGTCAGTCCTTAACGCTGCTTACCAATTCTACTTTTTGTTCAGCGTATTTTCTTGTTCTCTGTATTATCTCTCAATTTTTTTTTT
TTTTTACTCATCTCAAATTTGGAATTTCCTTGCTCTGCTGATTTCCTTTTTATTTCATGGAGAAAATAGCTATAATGTGGAAGCTTCTTTAGCTTCTTTA
CCACTAAAGTTACAAATATTTTGTTACCTGTACCTGCTTTTTCCTTTTCATCTGTTGTGGTGGAAGAAATATTCCTTCTATCACTGTTTATGCTCTCAAT
CCCCTCCCTTCCTTTTCATCTTTTGTGGTGGAAGAAATATTCCTTCTATCACTGTTTATGCTCTCAATCCCCTCCCTTCCTTTTCAAGAATAACTTTTTT
TTTGAGAACTTTGGCTGCAGARTATGGAGAGTTAAATGCAAGCTGGAAGAGTTGTCTAGATTCACTGTCTTTATTTCCTCATCTCCTACCCACTGGAGTT
GGGCTTTTGCTCCTACCACTCCTCCACTCCTGAAACTGTTCCTACAAAGGGTACCAGTTGACTTCAAGTCAGTTAAATTGGATGACATTCTTTAATGATG
GGCCTCCAGGCAGCATTTGTTCAGCAGTCCCTGACTATCTTTTCTTGGCTTCTTTAATAGCATTTGCAGTCTTGATTTCCTTCCACCTCTCTGGTTACTC
TTCTTCTGTTTCCTACAGTTTAATCAGTTACTACAAATATTACTGTAACATAAACAAATAAAGGTTTATTATCTTACAGAGAAGAATGCAAAATTTGCAT
AAATTTTGAGAACCAAACAGGCTTTAAGGAAACCAGSTTGTGGCAGGAAATTTTGAGCAGGTTACACACTACTCTGTGAGAGATACTGAAAAAAGTTGTG
AATCATTCATACATGTTTCATAAATGATTCCTTTCAACAACCTTATAAGGTAGATGGTTGTATTCTTGTTTATCCACAAAGGATTTGAGGTGGGGAAAGA
TGGGGTATGTTCAGGAAACTGTGCCTTGTTCTTTCCAATTGGAAGGTTAAGTTACAATAAGGTACTACTGAAGATAAAATCTGTTGTTTCCATGATATGG
CGTGTCTTGAATGCCAAGGGGAGACGTTTTTTACTTAATTTTTTAGATAGTGAGGACTGAAGATTTTTTTTTTTTTTTTTTAACCTTGAGTGGCTGGAGT
GCAGTGGCACGATSTCAGCTCTGCAACCTCTGCCTCTTGGGTTTGAATGATTTTTCTGCCTCAGCCTCCCAAGTAGTTGGGATTACAGCTGCCTGCCATC
ATGCCTGGCTAATTTTTGTATTTTTAGTAGAAACACGGTTTTGCCTTGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGATGATCCACTTGCCTCGGC
CTCCCAAAGTGCTGGGTGAGCCACTGCACCTGGCCAGGTTGAAGATTTTTAAGCTGTGTACAACGTTTTGGGAAAGGAAACCTGTCTTGGTGAAAGGTTG
ATAATCCCATAACGTTAGTTTTAGTGACCAAATGGCACTTCCACTTGAAGCCTTTTTGTAGGCTTTCCACTATAATGAATTGAGCCTTCTTTGACACTCC
CATAGCACTTTGTCATACCTTTTAGCACACTTCTCATGTGTCATAATTACTTGTTTGTATTTGGCTTCCCCATTGGATTTTAGCTCTTCTAGAATAGGAT
TATTAGTTTATGGTTAATGTTGATTTTGGTAATCTTTCCTCATCCCTATCTCAGTGGTTGGCAAAATAAATGGTTCTTGAATTAGTAAATGAATAAAGAG
TTTGAATTTTGAATCTTTTGTCTGAATAGCTTCTCAGAATGCATCTTTTTTATATTTTTACTGATTACCGGGTTGAATAAATTAGAAGCCACTCCTACTT
CCTCTCTGCTGATACATATGTTTTAGCTAGTTAAACCTATTTTGATAGAGGAGTTCTATGACTTTAAAGGCCTATGACTTTGCAGACACTCATACAGTGT
ACAGCATACCCTATGCAAATCAGCTGTCTGTTCAGGTCTTGTGTTTGTTTTCCCCATAGACATAATCCAGCCGTTAGTTATTCAAAGCAGCAGATGGGAG
AAGGAATCCGTGGAAATGTGGATTTATTAGCTCTCACAATGAAAGACCACACTGGTTATGCTAAGGATTAGAAGATTTCTGCTGAATGAAAGGGACATGG
ATCCTGTTTTTTGTGCTATTTTCAGCAGTGTGGCAATTTCTTATGACTATAATCAGTTGTAAAAAGACCAGAAAATGATCTTGTAAATAGACTTTCCTTC
AAGCCCTAGACTGTTGGTTGCAGCTGTCATAATTATAGGAGGGACTGCTTTTCTTCCTTTTTGGGTGCAGACTGAATCTGGCCTTTAGCTATTGCTATAT
TTACACCTTAGGTAGTATAACTGGCTGATTGTGTGCTTTATACATACCTTTATCTGTCAAATTAGGGAATTTGGATTCRTGTCTCCTGAATTTTGTAGGA
GAGTAATTATTGTAGCATGTCTTATAGTTTGGAAAAAATGATTGAATTTAATGTGTTAAACTCACTTCCTAAAAATATAATGCTGCCTTCACTAACAATT
TTGTGTGTGTGACTTGTTAGAAAGATCAGCAACTTTCCTTTGTGTTTACTAAGATTCTGACAATTACCATAAAGTTGGAAAGTTTAAACGTTGCTTATGG
AGTGTGTAAGGAACAGAATCATATCATGAGAACAATCTTTCAYTCTTAAAATCTAAAAGATTATGTATTTTGAGCCATGAATTAAGAAACAGAAGCATCT
TTAAACTTGGCTGAAGTTCTACTTTAAAAATGGCAGCCAGTAACCAAAGAAACAATTCTTGAGATCATTAAAGCTTGGATAAAATGASACTTTTTCATGC
TGTGCCCTTTTAGAAGTCTGGGGGAATGGGGAGCGTTTCCTGTGACAGCACTGTAAGTGATAAACAGCTGAATGAATTTGTCCATGCTCAGAACTCACAA
CACGTGGACTAGCCCCCTCCTGCACATAAAAGAGCAGGGAAACCGACCTTAGCAATGATCTAGCTCCTGAAGAAAGAGGCTTTCGTTACTGTCCAAGAAG
TGAAGACCAGTGAGTCTAGCGATAAAGAAACAAAAGAGCCCCTGACAGTATCGAAAGAATCTGACATTTGCTTTGTCTGTACAAAGGATGAAAGGAATTT
TGCCGACTTAGTCAAAACAATAACTGGTTTTATATCATTTTGAGTCTAAAATACAGGCATCAGAATCGTATGTTTTTCTTTGTATTTCTGAAGAATTGTC
ATCTTTTTAAAAACGTATGTGGAGTGGTTTTGTTTCTGGAAAGGAAAACGTGACATGGATTTTATAAGCTTAGTAGCTGTAGGTGGAGACTCTTGTTTTG
TTTGCTAAACCTTTTTAATAAGCAGCRAAGTCAGGATATCAAAGATTGGAATTTTTCCCCCGGAACCTTTTGTTCTTTTCTTAGTACTTCAAATAATTTC
AACCAAAGGGGTATGCATGGAAAATGAAAACAAATATGAAGTCTTTCCGCTATTTGGCAGTGCTTCAGATGAGATGTATCTATACTTCTGTGAAGAAAGA
CGTGATTCTGATATGAGGCAGTGATTGTATACTTACGCTGGACAGAGGGATAACTGGTTTAGTGGAACAGTGGGTTAGTGGTGTGCTGAAAGGATTGTTT
GCCTCTTTATCCAGCAGTAAGTAGGCACTAGTAGTTGACTGTCTGGGGAGTGGCTTTTTTTTGTCTGATATCTATTATGGATGATTCCAGTATTCTGAGA
AGGAGAGGGTTACAGGTGAGTAAAAGAAAACCTTTTTCACTGATCTCCTTCCTTTTAATGTCTCTTGTAAATGTACTGAACAGATTGTTATAATGTATTT
AATTCATTTGAGGTAGGAGGCAGAGTGGAGTGCAGCTAAGTTCCTCTTTATTCTTTGATGTATAGTTATAATTAGAGAACTTATCTAAAATCTTGCTATT
TTGATAGAAAAATGCTGCTTGGGCTTATTTACACTGTATTTAGTGAGTAGAGCAACTAAATCAGACCTGTATGGGATACAAGCCTAATTTAGAACATTAG
ACATTACTGCTGACAGATTGTTTACGGTGAACATATTCTGTTCCTGACCACCATGCCTGATCTGCCCACCATTAAGTCACATGTATGGTAGTATATGCTT
GATTCTATGCATAGTTTTAAGAACTTTTCTAAATTATCACTTGGCATATACACATTCCATCCACTTATCTATTGTCTGTCTGTGTTGTCTGTCCATCCAT
CCGTCTGTCTGTCTACCTACCTACCTACCTACCATCTTTTCCTTCTTAAATCATAGGTAGTTTGTTAGATGAAGAGGTATGTAAGATATAACAGTGAATG
AAAATAGACTGATAGGCAACCTTCAACTGAGTTTTAATGAATATCCTTAGCACTAAAAGAATACATGCCAAATTTGATGATTATTTTTTTCATGCTTTGT
AGATTATCTCATCTTAGTCTTGTTAGCAAAGAGCAAGCCAGCTTCTAGTCTATCACTAAATGTTTTTGAGAATTGACATAATGAAGATTCTAGTGTAAAT
CACTGAGCTAATCAATCAACCTGTGATGGTTTAGTCATGAAATGTAGCTATTTCTGTTGTTTTCATTTTGTTTATTTGACATTATTTATAAAGCACTTTT
TTTGTACAAAATACCTAAGGATTTTAAAATTATCATGAATTAACATTATTTTAGTTTCTTTAAAGTTCTCAGGTAGAAAATGTATAGGATTAGTAAACTT
AAAATATAAATTTAAACAAATTGTATTGTTTCTAGTTATTATATGTACTTCTTATTGATGGTGCTGTAAACATTCAGAGCCCGTAGGGAGAACCCACTGA
ATCTTTAGCAGTTGACCAGTATGACCTGGGCTTTAAAAGTCAATAACATAAACTCCAGCGCCTTATACTAATTTCTCCTGTTAGCACAGTTGATTCGATG
AGATTTGTCCCTTGATTTCTTGGGGTTATTTTGAGTAGTATTTATTTAGTACTGTACTCAGATGACCTCTCATAAGTAGTGATGTATGTTCAAGCAGCTG
CTAATTAAAAATGGCTGGCTCTGTAAGCCCATTTAGTTGCACTGCTTATTTATATCTTTATTTCTCTTTAGTTGCTAGGATTCAGAAAGGGAATCCTATT
TGTTGAATGGGAAATATTTTCTGTTTTGTGTTAAATCATTCATTTTCTCCCTGATGCCTGAGTCAGTCTCTAGTATTTGCTACCTTGTTTACTGATGCCC
TTCCTCTCGAGTCTTTGTTTCTATCTAGCAGGAGTTCTAAACTGCCAGATTACATAGCACTGGAAGATCTTTTCCTACAGCCTTATACTTATAAAAAATT
TTTCCCCTATTTATTTTGTCTACTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGGTGCAGTGGCGTGATCTTGGCTCATTGCAACC
TCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCTGCCTCCGGAGTCGAGTAGCTGGGGCATTACAGGCATGTGCCACCACACCTGGCTAATTTTTTGTA
TTTTTAGTAGAGACGGTGTTTCACCATGTTGGCCAGCCGGGTCTCAAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAATTGCTGGGATTGC
AGATGTGAGCCACCGCACCCAGCCTATTTTGCCTATTTTTAAAAAATAAACTTTAAGGTTCATTCTCCAGAAGATTGCTTTGGAACATTCCAAAACAGAG
CTAACGCTTGAAAAGCAGCAGTTTAGATTATTTGTTTTAAATAGTTACATTATAATATAAAGATTTAAAGGTAAGTTTTATTAATAGATTTATATAAATA
AACACACAAAGGTAAAGTGTGCCTGGTGGTACAGGTAATCTACTGGGTAACCTCAGATTTGAAGGTGAAAATCCAAATAAATATTTGGCTTCGCTAATTG
CTTTCTGGTGAAATAGATTTCCTAAAACTTTTCCAGAAGATCAGCTAAGACACAGCCTACTTTGATACCTSCAGGTTTTTCCGCAGAGTTTCTTGGGGAG
GTAGCAGAATAGTAAATAGGGCATTTAGAAGTTCCGTGACAGCAAAGACCTTGTCTATTTTGTTCAAATTACAGTTCTGCCATGTTCTAGTCATATAACC
ACAGCCAAATTTCATTTCATTTCTGTACTCCACTGGTATATTGAGAGTAGACAGTGGAGGCAAGGGCTGCAGCAAAAAGACCAATTATGAGACTGTTGTG
GTCAAAAAAAGCAAGAAATAATAACAGATTGGAGGGGTGATAGCAGTGGACGATGTGGAGRACTTTCTTATTGGCCATTTTTACAGATACGTGAAGCTCA
GTAGCTTCCTCAAGGACAGACAAGTAGGTGTATGGCCAGGCTAGATGTATAGGTTAGGGTACTCTGAACTACAAGTAACAGAAATTTTGACTCTGAGTGG
TTTAAATGTTAGGTAAATGTATTGACTCACAACAATGAAGTCCAGAGGTTGGATGGGTTTCAGAGTTGGGTAGTCTGGTGTATTTGCTCAGCTTCATTGC
TCTTTTGCCTTCCTCTGTGTTTTGGCCTCATTCTCAAGCTTGCTTCCTATGTGTTAGAAAAAGAACTGTAGCAGTTTCAGTCTGCACAGTCACACACTAC
AACATCCCTACATCTTAATGGTAAAAGGACATCTGGGAGATTATGTGTGAGCATCTTTTCTTTACACTGGAGGAGCCTCTGTCGGTGTAGGAATTGACAC
TGTTTTGCTTGAAAAGCTGTTCAAGTTGGGTCTTTTTTGTGGTAAAAATTGGCTTTCATCTTACATCTACTTTTGAAGCATCTACACATGGAGAGACATT
TGAGATTGAAGTTCCTTGTGAATTGAAGGAGGTGCTTTTATACTTGCCCTGTTTCCCAATCAACTTTATGGGGGATGATTTTAACTTTGAAAGGTCAGGG
ACTAGCCACCATAAGCAAATTTTTGTTATCAACTCTCTTAGTGCCATAATTTCCACATTATTTGCCCATAAGGCACATATAGTAATCTGTCTTCATTGTA
TAGACAGTGCAATTTCCCAGGTTCTGAATTGAAAATATTTGTTGTGCTGATAAAATTATTGCCTTCAGGCAAAAACTAAATTGTATAGTATTTTTATGCA
CCCCCCCCAACCCCCTGCTTGCTTTTTGCCTTTGCTGTTCAAAAACGAGAGTACTTAGAGTGTCATTGTTTACGGGTACTTAATTATTTTGGAGGATATA
TGACAACATAATGCATACTGGGAAGCATTATTATTGAGAAAGCCTTGGGACTTTTTTTATTTTGCAAATTATGACTGTCATAAATTATGGTCATCTTACA
AAATGTGATTCAGCTAATTTTTAGTCTTTAAAAACAAAATCTTCAAGAACCAGGTAGATTTCAAACATTCAATTTCTTCTTGAAATTTCATTTTAAAAAG
GCTGATGACATGGATAAAAATGTAACCTAATTATTTGCTTCTGTTGTTCTACATTTCCTTGTTCTTTTCTGTGGGAAGCTTGATAAAAGAAACATTTCAG
TTTGTACTCTTCAGTTTTTAGTACCACTAAGATATTTTCATCAAGTCAGTAAATTAGATGGCTTTGAAGGTTAAGGAATTTATCTCACTCTTGTCCCTCT
TCTTTGCCCTGACTCATGTATTCCTATTCTATGTTGCAGCTACACCAGTCTTGTACCTTTGTTTGTTTTTTTCATAGTCATTTTTTTCTGACATTCCCCC
CATTCCTGAGTGGTTTTATCCTCCTTTTCTACCTATCAACCTTCTGATAATCCCCATGCAGTTAAAACCTGAGTACCTAATTTTCAAATATTATAGTCAT
TATGGGTAACTCCAGTATCTTTGTAGACAAGGATAATCAGTCCAGCCTCAGATCTTTAGAGTTCCTTGGCTATCTGGAGTCTGTGTTAACAATACATTCC
TGTAGATGCCATGTATTCTGTAGAGGGAACTGTTTGATTCAGAAATCTTACAGTGATTTACAGTTACATCCCTTGATCACCTCTGAATTAAATTCTGGTG
TTCTCTGTGTAAATCTAGATCACAAATTGGTGGTCTGGTGACTGTTTCCTGTAGATATATTTTATTTAGCCACCTTTGGAGATTTAAAGAAAAATCAACC
AACATAGTCTCTATCAGTCCCCTTTTGTTTTATCCTCTGCTGCTTTATGTATTTACTGAATTTCATCTATTCTAAGGCTCACATCTTTTTACTTTATAAC
AGCTTTGAAATAGCGGTGTTACTCTTGATGGTGTGTTATACGTTAATTGGCCAGGCTTATTTTTGTTTTGCATTTTAAAAAATGTTTCTTACTGTTACAA
AAAATAACAGTGTCTTTTGCAATTGATAGTTTTTCAGATTTGATAAAGTACAGTATATTACCTTACTGGCTTATTAAAGCATTTGAGTTTGCACCATTTG
TTTCTCAATGTAAAGACCTCCACCTTTTTTTAGCTCTCTCCCTTTCCTTTTTCTAAAGTCTTGAAGATCTCTGTTCCTGTGATTCTTTTGTTTGTTTGTT
TGTTTGTTTGTTTGTTTGTTTTTGAGACAGAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCARTGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCTG
GGTTCAAGCGATTCTCCAGCCTCAGCCTCCTGAGTAGTTGGGATCACAGGTTCCTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGCT
TTTGCCATGTTGGCCAGGCTAGTCTCGAATTCCTGACCTGAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTACTGCGC
CCAGCTTTTGATTCTTTGTATACCTGTTTGACATGCCTTTCTGTATCATCTGATATTGTTTTATTTTTTCTCAATTTATTTGAGGTATATAACATTTGTG
AATTTTTTATTGTATAACCACATTCACATTTTGTTGGTAAACCCAACTCAGGAATAATGTATGATTCAGTTTTTTAAAATGCTCATGTATATAATGTAAG
TTTCCTACTTTTCATCTTGAGGTAGTTTTGGTAAGGTATATGTTTTTAAGAGTTTGTCCATTTTGTTTATTTTGTTATTTATTGAGATCAATTTGTTTAT
ATATATATATATAWAAATTTTTGTTCTTTTAAACCTTTGCTGATTTGTTCTTCTGTTTCTCTTTGTATTTCTAATATTGGGTATTAAGACTCTTTTTTTT
CATTATCAAGTATCAGTGGAATGCCGAGTACAGTGGCTCATGCCTATAATCCCAGCACTTTGAGAGTGCCAGGTGGGTGAATCACTTGAGCCCAGGAGCT
GGAGACCAGCTTGGGCAACATGGTGAGATGTCTGTACAAATTAAAAAAAAAAAAAATTTAAGTAGCCAGGCGTGGCGGTGCACACCTGTAGTTCCAGCTA
TTTGGGAAGCTAAAGTGGGAGGATCGTTTGAGCCTAGGAGGTCGATGCTGCCGTGAGCCATGATTGTGCCCCTGTACTCCAGCCTGGGTGACAGCAAGAC
CGTGTCTCAAAAAAAATTAAAATAACAACAACAAAAATTCATGGAAGATTTTTTTTGTTGTTGTTAGTTTTTCCAGAAACCAACTATCCCTTTATTTCAG
CCTTTTCATATCAGTTTGCTTTTGGTATATCTCTTGCAAATGGCATACAGTAGGTTTTCTTTAAAAAAAAAAAAAAAAGTCCTGTTTGTAATGAAAAGTT
TGTCTGTGTACATTTATTATGATTAATGATATATTTGGACTTGTTTGTGCCATATTATTTTTTGTATTCCATATCCTACATCTCTATGCCTTACTGTCCC
CTTTTTTTTTTACCCTTTAAAAATATTGGTAGAGTTTTTTTTCTTATTTTCTTTTTCTATTTCTACTGGTGTGTTAGAACAAATTCAAACTTTAACCCCC
TCCTGAACACTACAAGCACTCCATGTCTCTTATTACCTCCCCCAAACTTATTTGGCCATGTAATCAAACTGAACTGAAACAGGCCAGTTTAAAAAACAAC
AACAAAACCATGAAATTCACTGTAACCAGAGGTGACCCAGTTTACCTGAGCTAGCATGATAAGAAAGTTCTGTTTTAACTCTATAAGGAGAGTCACTTTG
TAATGAATAATCTGCTTTTTGTTCCCTGTTTGTGCTTTCTTAACCCATTTTCTGCTTAGAAAGCCAGCCCCCTCTGCTTAGCTCAGCAGAACACGCATTC
TATTTTTAAGAATGAGATGTTACAGAATTGCAAACAAAAGTCAGTTTGATCTTTAAACTGAAAGTCAGTTTGATCTTTAAACTAAATCTGTTGTAATTTT
GTCCTTTGACAATGGTATTGTCATCAGCAGTGGATTCTGAGTAGGCCCTAGAATGTTCACCACTCCTACCCTAAGCCCAAGCAGTGTTATTTATGTTAGT
TACATTATGTGGGTTTAATTATGAGTTATATCAAGAGACATATAATATTTTAGTGGCAGAGAATACCTTTTTTTCATCATTGATTTGTTTGTTTTTCTTG
AGTTCTCACTATGTTACCTAGGCTGGTCTCAAACTCTGGGCTCAAGTGATCCTCCCACCGTGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACAG
CACCTTGCCTCGTTGATTTTAAATGTTAGTTGAAAAGTTATTGTCTCCAAAACCCAATTCTCTATCCACTTCCAATGGAGTGGATTATTGGGTTATGTTT
CTTAGAGTCTGTTAATTTCCTTCTCTGGAAAGAGTGCTGCTACTGCAGTAGGGATCAATATACGTATAGTGTGAGAATTCAATAGCAAATGAGCCAGGCT
GAGTCCCAGGGAGGGAGTTGCCTCAGGCATAGACAGCTTTGACCCATAGTCATCTCCACGCTGGTGACTGTTGACATAAAGGACAAGGACCAGCCTTGTG
ACTCCTGGCTTGCATATTTACTTGTGGGGGTAGCGGTTACTGCCTTTGGACACTTGGCCTTTGTCTTTTCTTTGGAAATATTTTATGGCTTTAGTCATTG
TGAATAATGAGTAGTGCATATAGGCAGTGAATCCTCATCTGTGGGAATAGCACCATTTCGTGGTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGCT
TCCCAGGCTGGAGTGCAATGGGGCATTCTCGGCTCACCGCAACCTCCACTTGCTGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGTGATT
ACAGGCATGCGCTACCACGCCCTGCTAATTTTCTTATTTTTAGAAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCCGACCTCAGGTG
GTCCACCAGCCTCGGCCTCCCAAAGTGCTTGGATTACAGGCGTGAGCCACCACGCCTGGCCATGAATAGCACCATTTCATGTTTTATTTAATACCTTTAG
AAGTTTGCTTTGTGGACAATGAAAGAGAGTGACTGGTTATTTCTCTAGGATTTAGTATGTATAACTTTCTTTGTAACTTCAGAATATAGTTTARTATCTT
TTATTTTGTTCAATATAGTCAAACATTACTTAAAGTTCTTTGGGAAATATCATCATTGGCAGAAAGTATCAAAGTGTATCAATTTGAGGGTCCAAATGGT
AATAAAATTTTGGAGACTGTTAAAACAATATACCTTGAATATTTGGGGTGGAGTGATAGGGATGGAGTATTGGGGGTGGGGTTAGTTTTTAGAGAATAGC
ATCTTATCACTTAGCTTTAGAGCTTCGCTACTGGTGGGTTAGATTAGAAAAATGCAGTTTCTTCTTCCTATTTTTTTTTTTTTCTCTTTTTTGAGACAGG
GTCTTGCTCTGTCACCCAGGCTGGAGTCCAGTAGCATGATCTTGGCTCACTGCAACCTTCACCTCTGGTCTCAAGCGATCCTCCCACCTCGGTCCCCTGA
ATAGTTGGGACTACAGGCGTGCACCACCACTCCTGGCTAATTTTTTTTGAGCTTTATTATTAGAGACGAGGTCTCACTGTGTTGCTCAGGCTGGTCTTGA
ACTCCTGAGCTCAAGGGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACACCTGGTCAATTTCTTATTATTAATCCAAA
GTGTCTTACTTTAAACTTTTAAGTTTATTTTAAAAATTCAAGCCTAGGAATAACTTTTGTGAGAAAGGCAGAGTAGGTATTTTTATCTCAGGTGAACAGG
TAAGAATAATGAGGTTTAGAAAGGTTTAATGACTGACCAAGATTTTATAAGGAAGTAAGTAGCAGAATTGCATTCACATATTTTTCTGAGTCCTAGTTTC
TTTATACCATGTAGAAATATCCTGTTAATATCATCAAGCTGTTCATCAAACTCAAATGAGAATAACACATTATTTATAGAATAAAGGTTTTTGTTTGTTT
GTTTTTGTTTTTTCTTCTTGAGACAGAATCTCTCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTTACTGCAGCCTCTGCCTCCCAAGCTC
AAGTGATCTTCCCACCTCAGCCCCCTGAGTAGCTGGGACTGCTGGCACATGCCAATATGCCCAGCTATTTTTTGTAGTTTTTGTAGAGATGGGGTTTCAC
CATGTTGCCCAGTCTGGTCTCGAACTCCTGAGCTCAAGCAATCCTCTCGCCTCGGCATCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGACTGGT
CTAAAGTATTTTCATGTACATTACTTTATTTGACTTTTACAACTGCTGTATCTAAGCCTTTGAGGTAGATGGAATCCCAGGTCACACAGTTACATGTTTT
TGAGCCACGACAGAAGCCTAGTTTTCCAAACTTTAAATTTTGTGTTCTTGACCAGGCATGGTGGCTCACGCCTATAATCCCAGCGCTTTGGGAGGCGGAG
GCAAGTGGATCACGAGGTCAGGAGATAATGTTCCTTTTAAGACTAGATAGTAAATGATATTAACATAGATTTTCTTCCTCGGTAATATTTTTCTCTTCTT
AAAGCATTCCGACTCTCCATGGAGTAACTACCAGCCAGGAGACTGTCAGTAAATAATATGTGATAATAGAGCATATTCTTCCCCTAGTAAAGCTTCTTGC
TGAAATTATTGCAATTGATAGTTTTCATCAATGCAACTCCAAACTGGTAGGCAGGACCCTATTGTCTTATAATTGCCTTATAATGATGATAACAATAATA
GTATGAACCATTTACTTACTTGATGGATTCATAGATTTATTCATCCAGTATTCATTTGTTGCCTACTAGGCTAGGTATTCTGCTGGGTGCCAGGAATGTC
CTTGAGAGCAAGACTAATTCCTACTCTCCTGGAGCTAACAGTCAAAGAAAACAGATAATTTAGCAAATAATTATAGTAACCAGTGAAGTAGGTATGATTG
AGGAATTAAAGGAATATTTGGATAATATATGGAAGGAGGCTGGGGAAACTGTAGAAAAACTTTCCAGAGGAAACGAAGTTTAAGCTGAAGTCCAGGAATG
TATAAAAAGAGATAAAGAAAAGTAATCCAGACCAGGAGAACAGTAAGTGTGAAGACCTGAAGGTGAAAGAAAGCATGGCAAGTCTGAGTCCAAAACTCCA
ATAAGACTGGAGAATTATGCAAATGATACTGAGGAGGGAGGCAGTCAGAGCCAAGTAGTGCCCTGTAGACTACAGAAAGGATTTTAGACTTTATCCATTG
CAGAATTATAAGAGAGAAAGGACACATTTAAAAAAGTTATTTTTGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGCGACCGAGGTAGG
TGGATCACCTGGGGTCAGGAGTTCGAGACCAGCCTTACCAACATGGGGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGACGTGGTGGCGCATG
CCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGACGGAGGTTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCC
TGGGTGACAGAACGAGACTTCATCTCAAAAAAATAAAAAGTTATTTTTGACTTCAGTATTTATTTCATTATACCCACAGTTATCACTCAGAAAACAGGTA
CTATATATGATATTTACATTGATATAACATTAATCAAGGGGGACAAAACTGAATGAAAGGGAGACCAATTAGGAGGATGTTATAGGATGATGGTGGCTTG
TGCCCGGGGAAGTAGAAGTGAATTGACAGATTAAAGATAGATATTTTGGAAGTAGAATTGGCCGAGCTTGATGAATAATGGATGTAGAGAGTGAGAGAAA
GTGAAAAATGAAGAATGACCCTGGGTTTGGTGGTACCATCATCAAAATAGAGAACAGAGAAGGAGCGAGACTGAGTAGAAAGATCAGCTGAGTTTTAGAC
ATATTAAGGACAAGGTAGTTGTATGTACAACTATAGAGGTCAGCAAAAAGATCTGGGATAGAGATACAAATTTGAGATTGTAAAATATATAGAGAAAGGA
GAGTGTACAAGCAGAACTAAAAGGACAGTCCYCATTTAAGGGTCTAAGGTGATGAAGGATGAGCCTGCAAAGATGTTTAAATGGTGTGTTTGCGGGGATA
AGAGGAAAAACAAGAGAATGTGGCTTCATGGCAAGAAAAGTCTTCCAGGACAGAAGAGTGAATGATACTATCAGGTGCTGTTGAGCAGTGGAGCCAAAAA
AGATAGGTGGACTAAAAATGCAGTGAAGCTTCATTACCCTGGCGTTATACATTACATTGGCAGTGTGCCAAGAATGGTTTAAATGGGCTGGTAAGGTCTA
GGGATATTTATAGAGTGTTGAAGAATGAGTAGGAAGTGAGAAATTAGAGACATTGGATGTAGATAACTCATTCAAGAAGTGTGGTTGTGAAGGGAAATAA
AATTGATAAGGCAGTATTTGAAGAGGGATGTGTAGTTATTAAGGGAATTTATTTCCTTATCTGAAGCTGGAATAGACTTGAATGTGTTCAGAATGCTAAT
CAGGAAGATCATTAAGAACATGAAGAGTCAAGAGATAATGAGTAGATCAGAGAAGGCTGAATGGAATGGGCTTCACCTGATATTGTAATGTATTACCAGG
TATTACCAGCCTAGTTGCTGGAAGGTTATGAGTAAAATAATTTATGGTTATCTGTCTAAATGGGAGTACTCTTGCCTCAGCCAAGTTTCCTGATTGTGTA
GCTTTTCTCCCCAACTTGCTGTGAATATTCCCTGGGAAAAGGAGGATTGAGAAATCATTGCTCCTTGGACTACCTTTATGTGGTTGGGCCCTTCTTGTTC
CACTGTGCCTTAGTTGTCACAGAATGTACTGATCTGGAGTCCTGGGCATCAAATGCAGGCTTTTGTATAGGTGTAAGGAAGTCGGAAGGGATGGATTTCC
ACGGATGCGCTTCCGTGCCTCTAAARGAATGCAGAGAGGGGCATATATGCATTTTAGGAAATTTTATTATTGTTAGCCAAAACTGTAGTCTACCATATTA
CCCATTTAAACTATTCAAGAAGTCAGAACTGTCATGTAGATTCAAAGAACAAATATTTCCAGTTTTATATAGATTGTTTCAGAAAGTAGAAAAAGAGGAT
ATATTACCTTAGCACATTTTATGAGTGTCTTCGTCTGTTCGTGCTGCTATAAAAAAATACCACAGATTGGATCATTTATAAAGAACAGACATTTATTTTC
TCACAGTCCTGGAGTCTGAGAAGTCCAAGATCAAGGTGTTGGCATTTGTGTGGTGAGTGCCTTCTTGCTGTTTCTTCACATGGTGGAGGATGGAAAGGCA
AAAAGGGCTGAAAGCTGTATGAAGCCTCTTTTTTTTCTTTTAATTTTGATTTTTTTGAGATGGGGTCTTGCTCTGTTGGCCAAGCTGACCTCAGACTCCT
GGGCTTAAGGGATTCTCCTGCCTCAATCTCCTGAGTAGCTGGGACTACAGGTGCACATCACCATGCCTGGCTTAAAGCCTTATGAAGGCCTTAATCCCGT
TTACAAGAGAGAAGGCCTCATGACCTAATCACCTCCTACAGGCCCCACCTCGTAATACTATCACATTGGATTTTAAAGTCCAATGTGAATTTTGGACGAG
ACACAAACATTGAAACCTTAGCAGTGAGGATAGTATAAGTATGATGTCAAAATTGGACAAGAACAATTTGAGACGAGAAAGTATATAGGCCAGTCTTACT
TATTAACATACAGGCAAATATCCTAAATAAAAGTTTCTAGGCCTAGATACTTTTATTAGTGAAAGCTGTTAATATTTAAGGAAGAAATAACACCAGTCTT
ACATAATTTCTTTCAGAAAATAGAGGAGTAAGGAACAGTTCCCAGTCAGTTTTAGGAGACCGGCATAATTGTGATATAAAAATCTGACAAAGAAATTATA
AGAAAATTAGAGATTATTATCCCTTATGAAAATAGGTGCAAAAATCATTAAAAAGATATTAGCTAATAGAATCTAGCAATGTATTTGATAAAATTGAAGT
TAGGTTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGACCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCTAAC
ATGGTGAAACCCCGTCGCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCACATGCTTGTAAACCCAGTTACTTGGGAGGCTGAGGCAGGAAAATCA
CTTGAACCTGGGAGGCAGAGGGTGCAGTGAGCAGAGATCACGCCACTGCATTCCAGTCTGGGTGATGGAGCAAGGCTCTATCTCAAAAAAAAAAAAAAAA
AAAAGTTGACTTTAACTCAGAAATGCAAAATTAGTTTAATCTTAGAAAATCAATCACTGTAATTTGCCACATTAACAGAAGAGAAAAACTATGTAAGCAT
TTCAGTAGATGCAGAGAAAGTATTTGACATAATCCATGCCCATTTGTGAGAAAGACTATGAACAAATTAGGAATAGAAGAGAACTTGATAAAAAGTTATC
CATGAAAAACCTATAACTAACATAATATTAAATATTCAAAATGTTAAATGCTTTTCTTGTAAGATCAGATGAGAAGCAAGACGAGGATGTCTACCACTTC
ATTTAACATCTTATAGAAAATTCTAGAAAATGGAAAGAAGTAAAGCTCCCTATTATAGAAGATATGATTGTTTATATAGAAAAAATCTAAGGAATGTACA
AAACATTTATGATTAATAATAATTTTACCAAAGTATAGGATACATGGTCAATATAAAAATTAATTGAATTTCTATAAACATGCAAGCAATTGGAAAATGA
AATAAAAGTTTTTATTTATAATAGCTTTAAAAAATCTACTTAGGGATGAGCTTAATAAAAGGAGTGCAAGGTGTTTTTGTTAAAAACGATAAAACATTGC
TTAGAGTAATTAAAGAACTCGGTAAATGGAGAAGTACTATGTTCATGTATTATAAGACTTGATATTTTGAGATATCACTTCTTTCCAAATTGATGTATAA
TCCCAGCAGGCTTTTTTTTTTTTGGTAAAAATTAATAATTGGATTCAAAAATTCAAATCGAAATGCAAGAATCTAGAATATCTAAAGCAATCTTGGAAAA
TAATAAAGTTAAAGGACTGTACAATCTGACTTTAGGACTAAATATAAAACCACAGAATCATGATAGTGTGGTGCTTGCATAGGGCAGAAAAATAGATCAG
TAGGATGCAATAGAGAGCCCAGAAAGGTTAAAAAAAAAATTGTTAGGGAAAGGACAGTGTTTTCAATAAATGGTATTGAAATAAGTGGATATCCATATGA
AAAAAAATGAACCTTAATTTCATCTCACATACTACCTCAAAATTAATTTTCACTCATCAAAAGGCTCTACTGGCCTGGCATGGTGGCTCACGCCTGTAAT
CCCAACACTTTGGGAGGTTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCTAGACCAACTTGACCAATATGGTGAAAACCCATCTCTACTAAGAATATA
AAAATTAGCTGGGCATGGTGATGGGTGCCTGTAATCCCAGCTACTCGAGAGGCTGGGGCAGGAAAATCACTTGAACCCAGGAGGTGGAGGTTGCCGCACG
CCGAGATTGCACCACTGCGCTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAGGCACCACCAATAACTTTAGTAGGCAAG
CCACAGATTAGAACATATTTATAAAACACATATGACAAAGGACTTGTATTTAGAAGATTATGAAGAGCTCTTATAATTCAATAGTAAAAAGATAACTCAA
TTTTTAAAAAGGTAAAAAAATTTTAAGATACTTCACAAAGGAATATATATTGATGGTTAATAAGCACATGAAAAGATACTCAACATCGTTAGTCATCAGG
AAAATGATTAAAGCCACAATGAGATACCCGTACACACCTAAATGGCTAAAATGTAAAATGACTAAAATATAAAAAGCTGATACCATGTATTGGCATGAAT
GTAGAGTAGTTCGAACTTTCTTATATTATTAATGTGAACATAACATGTATTAGCTAGGATGTGAAGCAGTTGAAACTCTCATACATTGTTAATGGGAATG
TAGCATGGTATAATCACTTTAGAAAAAGGTCTGGTAGCTTCTTATAAATCTAAATATATATCTACCCTTTAACTGAGTAATTCTACACTTTTAGGGATTT
ACCCAAGAGAAGTGAAATATAGCTTGTCAAAAAACATGTTATAGGAATGTTAATAGCTGAAAAATGGAATTGGAGAAACGATAAATTAACTGGGGTATAT
TATTCATATTGCCATTGTTACCTGCAACAACATGGATAAATCTCACAAATACTATGCTGAGTTGAAGAAGCCTATGTAAAAAGGTTTATATTTGTATGGT
TCCATTCATATGAAGTTTTGAGGAAGTAAAAGTAATCTGTGGTGACATAATGAGAATAATATTTGCTTGGGGTAGGAAGATAGTGGTTTGTTTGGGGATT
TACGAAGAAAGGACATGGTGGAACTTTCTGGATTGATGGACATGTTCTATATTTTGATAGAGATTTAGGTTATCTGAGTATATGTACTTAACAGACTTAT
CAATTGGCATACRTAAGATTAAGTAATTTAAGATTTGTACAGWTGAATGTTTGTAAATTTACCTAGAAAAACACACAAAAGAATTGCAATCAAATACTGA
ATTTTAGCAAAAATAATTTTATAAAATAAGCGAATTTTACAAAAATAAGGCATATTAAACTTATTGTGAAAAGTAAACCGGCTGGGCGTGATGGCTGACA
CCTGTAATCTCAGCACTGTGGGAGACCAAGGTGGGAGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAACCCCTGTCTCTACTA
AAAATACAAAAAAATTAGCTGGGCATGGTGGTGCATGCCTGTAATCCCAGCTGGAGGCTGAGGCAGTAGAATCGCTTGAACCCAGGAAGTGGAGGTTGCA
GTGAACCGAGATCGGCCAGCCTGGGTGACAGCGTGAGACTCCATCTCAAAAAAAAAAAAAAAAGAAAAGAAAAAAGCAAATCTATAAAATGTTTAGAAGA
AAATATAAGCACATATATTCATGACTGTGWATSAGGGATATATTTCTTACATGGACAGTTGTTTTGGAGAGCAATTTGGAATATCCAGTACTTTATGACT
CAGTAGTTCAACATCCAAGAAACTTTTTCTACATGCGCACTAGGAAACAACTACAAGAATGTTTACAAGAGTATTGTTTTAATGGAGAAGAAAAAGATGG
AAAGAAAATTAAATTTCCATTTACTAGAGAATAGATAAATAAATATTGGTATATTCATAGACTGGACCACTGTCTGAAGATCAGTGAACTAAAGTGAAAT
ATATCCACATGGGTGAATCTCCCAGTTTTCATAATGTTGGCTGATGTCAACAGAGGAATACATATAATATAATACCATGTATATATAATTTTAAAACATG
TAAAACAATACTACTAATTTTTTACAAATCCAAAAACACGTATTGAAAATATTTAAAAAATTAAGAATAGTTGTTAATTTAGGACTGGTGGGAGGTGGGA
CTTGATACACTTGGAAAGCAAGTCACAGGGGCCCCAGCTGTTATCGTAAAGGTTATTTCTTATGCCAGTGGTGTGTGAAGTCATCTCTTTGTTATATTAT
TAACTATACTACTTTATTTGTCTAAAATATTTTCTAATTATCACCCACTGCCCCTAATCCTATTTCATTCCTTCTGTATGCTTGCCACTAATGCCCTTTA
CAATTCAGCAGCAGTTAATGGCTGGCCTAGAGTGCCTGTAATCTACACTGGGGAGATGGTTCCATCTAGTGGGAAAAATGTTGCATGTATTCTATGAGAC
ATTCCTTTTAGGAAGGAAGGATAAAGAAGTAATAGTTTGCCTGAGTGCTTTTATTTCACAAAAATTTAAGAGACAGGCTGGGCATGGTGGCTCACACCTG
TAATCCCAGTACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAAAA
AAAAAAAAAAAAAAAAAAAAAAATTAGCCAGGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGACAGGAGAAAGGCGTGAACCTGGG
AGGTGGAGCTTGCAGTGAGCCRAGATTGCGCCACTGCACTCCAGCCTGGGAGACAAAATGAGACTCCGTCTCAAAAAAAAAAAWAAAAAATAAAATTTAA
GAGGCAAAGAAAAAGTTRTTATTTAGAAATATGTGGCCTTTTCCATTATTAAGATAATGCTGTGAATTTCCTAGGACATTTAGGTAGACCAACAGGACTC
AGATGGGTTCTTATTTCTAACTTGCATATGTTTTGTTTTTCAGAAGGAGTTGAGCCTTCCAAGAAGAGGCAGCTTGTAAGTAGATGATTATTACCATTAT
GATTATGATCTCCTACTTAGGAACCCCTCTTGGGAACATTTCCCACTATCATGTGGAGGAATCCCGCTCAGTACACAATTTCTTTCTGTGTACTCCTATC
TGAGCTAGGGAAGCCAGCAGGCCAACTGACTTCTCCSACTAGGTCAGATCTTCCCCTCCTCCCCATTCCTCCCGACCTCCAAACCTCTTCCCTCTCAGTT
TCTACATAGCATTCTGGGAAAGTTACAACTTAAATATTCATCACAGTCTTATACTTGTGCTTTGGGATTTACTGAGTTTTCGTAGACTCAAGCTAAGGAA
GTAGGAATATTAAAATGGAAACCCTTTGCATTTACATCTATCCGGTAACATGGTATGAGGAGAAGACCAACTTTTCTGATAAGTTGAGGCAAGGCCAGCT
AAGTTTGGAGACTATGTTGAATGGAATAGGTTCCCAACCTGTTTGGTTTTTTTCTGGCTTCAGGGTTAGGGGAGATTAATAAATAGTCTTTGCCCCTGGA
TTTTAATTTCTTAAATTCTCTTGGACTGCTTTTCCTCTAGGAATTCTGTTGGGGCAGTATTAGAAATTTGGCCAATCAGAATCTCCTGGAATGTTTGTTA
AAGTGCAGAGTGTGAACTTAATGCATTAAAATCTCTGTGTTGGGGCCCAAAAACCTGTACTGTATATACCTAAAACATACTCATATTTACCATGATTTAC
TAGTAAAGTCACATCTGGGGAACCCTAAGGAAATAGAGCTGTGATAAAACAATGGCTTTTAAACTTTTCCTTAACAAAAAAAGAGATGTAATTAAGGAGG
AGATCACAACAGCATTCATATTTATTAAGTATACTTTATATACACATCATATGCAATTTTTAAATGTTTAAATGAAACATGTAGTAATTCTTTCTGTTAC
TGTCCATTTTAGGATTTTGTTTTGTGAAAAATGCTCTAGTGATTAAATTTTCCTCTGAGGTTTTTGTGAAGCCTTTTGGGCTGTTTACGAAAACTTATTT
TGGTTTGATATGAAGAGGCTTGAGTCAGAAAACTCATAAGGTTCAGTCTTGACCATGCCATTTAACTAGCTTTGTAAACCTAGACAAATCACTTTATCTT
CTTAAACCTCAGTTGCCTTATCTATAAAATGAAGATAATGTTACCTGTGTTTTCTTCTTACTAAGCCTGTTAGAAGGATCACTTAATATATGTATAGTGC
TTTATTACTTATAGTTTAATTTTAATATATATTAGTTTTAGAATTCTTAATGGGTTAAATTTGGATGAATTCTATTATTTAAGAGGCACATTTTAAATTT
TAAATTCAGTTTCTAGCAGTGGATATTCAGTCTAGCTTCACAAGTGTCCTGAGTCTTCTGTAAATGGCAAGGGCTCTACCAGGACTCTTAGAGGAATGAG
ACACCAAATAGGTATGCATAACTGAAAAGGAGTAGCTTTTCAGCATCATAGTCAGGAAATATTTGTACTTGGTCATTTTTCTACTATTTCTGCCCCCCCC
GCTTTTTTTTGGTTGCTTCTATTTGAAAACTGCCTGAGATTTGCCTTTTCTTAGTATTAAGTGAAATAAATTAAGGCCTGAGACAGGTAGCTTCTTGCAG
AAATGTGTGTCCTCAATGAATGGAGTTGCTGGGAAGAAGGAGGAGTATTCTTATTTTTATTTTATACCAGAATAATTTTTTGGTCATTTTAGTGATATCT
AAAGTTAGGCCTACTCTAACTGCCTTAAAAACGTTTAATTAATAAGGATCAGAAATAGATTTTCCCTCCTCTTTTTTGATAAAGTAACTCACATTTAAAC
AATTGATCACTCAGTAAATACACAGTAATATCTACTCTGGGTCAGGTGCGGTGGCTCACACCTATAGTCCCAGCACTTTGGGAGGCTGAGGTAGGTGGAT
CACCTGAGGTCAGTAGTTCGAGACCAGCCTGACCAATATGGTAAAACCCTGTCTCTACTAAAAATAAAAATAAAAATTAGCCGGGCGTCATGGCGTGCGC
CTGTAGTCCCAGTTACTCAGGGGGCTGAGACAGGAGAATTGCTTGAATCCAGGAGACGGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCT
GGGCGACAGAGTGATGCGCCGTCAAAAAATAAATAAATAAATAAATAAAAAAGCCTACTCTGTGCTGGGTAGAGTGATCTAAGTTCTGAGGCTGTTAAGA
TTCAATTAGATAAATTCTTCTCTTTTGAAGAGCTTACACTTAAGTAAGCCAGAAGTTCTTCAGTTCTTTAATATAAACAATATCCTTTCTTATCTTTAAC
ATTAGAGGAGTCGAAAAAGTTTTGTTCTGGAAGGAAGCAAGGAAACATGGGTACTAATATAGGCTTTGCCACTAACAAATTATGTGTGGCTTTAAAACAG
GAGCTCCYACTTCTGGACCTGAATTGCCATACTTGTAAAATGAAGGGATTGGCTACCTGATCTCTATGCTTAGTCATCTCCCCAAACAGTTAAAGTTCCA
TGGTACCTCTTGTACACAGAGCTGGGCAAGTCTTTGTAGGGAGTGTGCAGTAGGAGGCAAAGTACTGCTTAGCATTTGTAGTAAAGAAAACAGGTAAGAA
CCACAAAACAAATATTTGAATAAGTTTAATTACTACAAAATTTGTTGTGTGGAAAAACTGATGTTAATAAAATGAGTGACTTACCATTTGCTCCACTGTT
TCTCGTCCTCATAGCCTGATCTGGAAAATTTTTAAAGTTTCTATAATTGTCATTTAAGTCTTGGTCAGAAGGAGGGGGCATCATATTTGTGTCCCTGTTT
GCCTTTCTTAGAATGGTTCTCCCAAGAGCGAATCCTATGGTGTGCTCATTCCAGGTTATAAAGGCCCGTTTCCTCTGATATATCCTTCATGGACATAGAG
AAATTTAGAATTTGCCTCTAGTTTGGTGTTCTTGTCCTTTGAGAGAGCGTTTTTGTTAATTAATTTTTGAGGCTTTCAATTGCTGTGCTTTTCACGTAAT
ATGTTAGTTGCATTAAAATGGACAGGAACTCAAATATGAGTTTCTAGACTTATGTGACAACTTGGCATTATACAAAATACACATTCTTCCACTCAACAAG
TAATTCCTCCAAAGTCTCCAAATTGGTAAGTGGAAGTATAGCATAAAAATTAACAGCTTGGGTTTGCAAGTCAGGCAGATGTGGGTTTCAGTCACGGCAC
TATTACTTACTAGATGTTTTTTGGTAAAATCAGTTACTATATTTTTGTCTTTTTGCCTCCATTCACTTTGTCATTTGCTCAAATCTTTCCATCCATGCAT
CCATCATACTATATTATTTTAGTTCCAGTTAGGTGTAGGCACTATTCTAGATACTGGAGATACAGTAGTGAATAAAGCAGACAAGGTCCCTGTGCTCATG
GAGTTTCCATTCTACTTAAGAGAGACAAAAACATGTATGATATGCCATATGGTACTTACTGCTATGAAGAAAAATAAAGCCAGATATCAGAGAGGAGGAT
GTGTGTTTCTGTGGGGGTGAGGGTTTAAATTTTAAATTTTAAATTGAATTGTCTAGGCTGGGTGTGGTGGTTCACACCTGTAATCCGAGCACTTTGAGAG
ACTAAGGCAGGAGGATCGCTWGAGTTCAGGAGTTTGAGAACAGCCTGGGCAACATAGTGAGACCCTGTCTCTACAGAAAAATTTTAAAAATCAAAAAATT
TTGTATTGTCCAGGAATTTTCTCATTAAGGCAACATTTGAGCAGAGAACAGGAGTCTGGAATGAGTGATACTGAGATAGAGATAGATCGATAAATATATA
TGTATATATTATATATATTTATATACTTATATAAGTATACATATATATTTATATATTGTATACATATTTATATATGTATCTATAAGTACACACACACACA
CACACACACACACACACACACATTTATAGTGACATTGGTCAGATTAGGGAAGAGAGCTGTTACATTCTAATACGCAAAATGCAAACATCATCTATGCCTG
CCACGATAAGGGCTTTATTGGGGCAAGGTGGTTATGAAAGTTCTTTTGGCCTGGCTCATACCATTTATTTTAGATGTAGCTTCCTGAAACTAAATCATTT
TCATTTTTAGAAAGCTATTTCATATTTAAACCCATCTGGGTATTTTTTTAATGCATTAAAAATGTAGTTTAGAATATCAGACCTAAGGGAGTTGATAACT
TTGTTCAAAGTACAATATCTGTGAAAAGAAGATTTTGAAGTTCTAAAGTTACTTGTATCTGTTTACCCAGGCTAGAAGGGTTTTATATTTTACTTTTTCA
TAATTGAAGCAGCTCTGAATGGCTTTTCTTGCCCAATGCTATAGTGGGGGCCTCTTTTTGATGATTCCTTTCAAATAGGATTGTTTCTTTTGCTGTTGTT
GYTATTTTGTTTGTTTTTGTGACAGGGTCTCATTCTTTAGCCTAGGCTGGAGTGCAGTGGCGCAGTCTCAGCTCACTGCAGCCTGGTCCTCCCTGGCCTC
AGGAGATCTTCCCATCACAGCCTCCYGAGTAGCTGGCACCACAGGCACCTGCCACCACATCTGGCTAATTTTTGTATTTTTTGTAGAGATGGGGTTTCAC
TATGTTACTCAGGCTGGTCTGGAACTCCTGAGCTCAAGCTATCTGCCTACCTTGGCTTCCCAAAGTGCTTAGATTACAGGCATGAACCACAATGCCTGGC
GACTGTTTATTTTGTTTGTGAATTTCAGCACCAGTACCTAGACCCTGCATTTGGGAGCTTAATGTAAATAATGCTTATGTCTCCAGTTACCCTGAAAGTA
AAGCTTTTCTAATACCCATTAGGCTTAAGATAATTTTCCTCATATTTCATGAAATGTCTTGCTTTATTTCTTAGAGGCTATGAGCAGTCAATTGAGATAA
CAGACTGTAGGAGTGGAGAGGTAGCTGTTGGTTGCATTCATCATGGGGTATGTGTATATGTGTGTGTTGATATTATTGGCATTGCTGGCTTGTAGTCTTT
AGAGCCCTTGGGGATAGTTAACCTTTTATTTTGTCAGCTTATTCATTTGGGCAGTGGACTTAGATACCAGATATTGGATGAAAGTTAATGTCTGGTGTCT
GCAGTGATAGGCACTGCATAGTGGGCAGGGAGGAGTTCCTGGGCCCCAGGGATGTGATGTGTCAAACTTTGTTCCTATGAAACTGACAGTGTCATGTACT
TTCCCATTCTGATGCAACTTGATGCCTGGATCARTGCTTCTGGAAAATGTGCTAAAAAGAGATACCACCTGCTGCATACACATAATAAACCCTTTGTTGA
GGTATCAGTGGCGTCTGATATAGGGCTTTAGGTTTTCTGTGGGGCTTTGAAAATCAGGAAATTTTGCAATCTTTCAAGACTCTAAAGCCCAGAGTGATAG
CTTTGTGTTACATTTAAGACCCTGTCTTTTAAAAGTTGGTGGGAAGTAATTTCATATAGATTCTCTAAGTGTCCAATGGGAAGGCAGGACRTAGCAGAGG
TTGGGAGGGAAGTAGCCATAGTCATCACTCATATCCCTACAGGGAACCAGTTTGTTGTTAAAAAATGGATGTAGTTGTTGGCGAGCTTTACCTGTGTAGG
TGGGATCTGAAAATCCTTGAGAACCTGTTTTTGTTACTGTATGTTGAGAATAGTTGTCATGCTCATTATCCCCACATTTATATCGCTAGATCTCATAACT
GTCCATTCACCATAATGTGACTGAATATTTCAGAGACATCTGAACTGCAGCATTTATGAATCTGAGTCATTGTCTTTCTCAAAAATCAGGTCCTCTCTTA
TACTCTAGCTTATTAAATGGTACTGCTTCCTCAAGATAGAAAATTTAGTTATTTTTGTTGCCATGCTCTTCCTTACACTCACAAGTCTTTTCTGTTATAC
CTCTCAAATATCTCTTGGTGTTCTGTCTTTATTTTTATTTTATTTTATTTTTTTGAGACTGAGTCTCGCTCTGTGGTCCAAGCTGGAGTACAGTGGCGCC
ATCTGGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCCCCCACCACCACGCCCGGC
TAATTTTTTGTGTTTTTAGTAGAGACCGGGTATCACTCTGTTAGCCAGTATGGTCTCGATCTGCTGAACTTGTGATCCACCCACCTCGGCCTCCCAAAGT
GCTGGGATTACAGGCGTGAGCCACCGCGCGCGGCCTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTCTCGCCCAG
GCTGGAGTGCAATGGCACAATCTCGCCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTTCCGCCTCAGCCTCCCCAGTAGCTGGTACTACAGAT
GTGTGCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCACGTTAGCCAGGATGGTCTCAATCTGACCTCATCATCCATCCGCC
TCGGCCTCCCAAGTGCTGGGATTACAGGCCTGAGCCACTGTGCCCGGCTGGTGTTCTCTCTTTCTTTATACTACCACTGGTTTGTCCAGATAGTCACAGC
CATTGTAATCTCTTGCCTCTGCTACTGCCATAACCTCCTAACTGGCCTTTCTTTATCTGGCATTGCTCACCCTCAGTCTACCTAACTATCATACAATAGC
CAGGAAAAGCTTTTTAAAATGCGGATTTCATTATTAGATATTAATTTAAACTTTTTTGGTGAAAWTTTTTTTTTTTTGAAACAGAATCTCACTTTGTCAC
CCAGGTTGGAGTACAGTGGTGCGATCACGGCTCAGTGCAGCCCCAGCCTTCCTGGGCTCAGGTGGTACTCGCACCTCAGTCTCCCAAGTAGCTGGGACCA
CAGGTGCACGCCGCCACACCCAGCTAATTTTTGTACTTCTTGTAGAGGTGGGGTTTTGCCATGTTGCCCTGGCTGGTCTCRAACTCCTGGGCTAAAACTA
CCTGCCTTCCTCGGCCTTCCGAGGTGCTGAGATTACAGGTGTGAGCCTCTGCACCTGGCCTTTGGTGAATTTTTTCTTACTCTTAGGATCACACCTGACT
ATCTATACAGTGTGGTTGCTATATTTTTCTCCATGTTTTACACAATGTGTTCTCTGTGCCTGGAATTTTTGTTTTGTTTCGTTTTGTTTTGTTTTTTTGA
GGCAGAATCTCACTCTGTTGCCAGGCTGGAGTACAGTGACGCAATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCTTGTCTCAGCC
TCCTGAGTAGCTGGGACTACAGGTGCACGCCATGACACCCAGCTAATTTTTTTTTTTTATTTTTAGTAGAGCCAGGGTTTCACCACATTGGTCAGGCTGG
TCTCGAACTCCCAACCTCAGGTGATTAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCGCTCCACCACGCTGAGCTAATTTTTA
TATTTTTAGGGTTTCACCATGTTGGCCATGATGGTCTCAATCTTTTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAAGTGCTGGGATTACAGGCATG
AGCCCCCGTGCCCAGCTGGAATGTTCTTTTTCCATCTATACCAATCTAGTTCCTACACACCTTTCAAGTCCCAGCTTACACCTCACTTCCTTATGAAAGG
CGTTCCTGACCTCACCCAAACCTTGCTGTCTGTAGACTAAGTTGGGTTTCCCAGAACATACTTTCAATAAAGCCTCTACTTTTTCTTCATAGCTCTTACA
TCAGTTGTAAATAAAGAACTATTTGTCTGCCTTTTCCCGTTGTGTAGTATGTAAGTATTAGCTCAGGCTGCTGTAACAAAATACCACATGCTTAAATAAC
AAAAATTTATTTTCTTACAGTTATGCAAACTAGTAGTCCAAGAAGGTGACAACATGCTAAGTTTCTGGTAAACCTCTCTTCCTGGCTTGCAGAGAGTGGC
CTTCTTGCTGTGTGCTCACATGGCCTTTATGTGGTACACCAGCCTGAGGRTAGGGGCATAGATCTGTCTCTTCTTCTTTTTCTTCTTCCTTCTCCCTCCT
TCCTTATTTTTTCCTTCATTTTCAAGCCCAACAGTCCTATAGGATTAGAGCCACCCCTATGACCTCATTTAACCTTAATTACTTCCTAAAGAACCTATAT
GGAAATATAGTCAGATTGGGGGTAAAAGCTTTAACATGAATTTTGGGGAGACACAGTTTAGTCCATAGCAGATGGTAAGCTCCGTGAGGTCAGGACCATG
TTGTGCGGTACAATATGCTGATCCCAGAGCCTACTATAGAGTTTAACACAAATTGGCAATCATTTGAACTTGTTCCAAACATTGGTATGGTCTGGCACAA
GAATACAAATAGAGGTATACACGTTTAATCATTTAAAATAGAGCTACCAAATTGTAAAATAAAATAAATGCTTTGTCCTCCTACCTCTAGAAATATAGTT
GCATAATAACAAATTTTGAAATATGTGTAAAGCTATTGATTTTTAAAAAATAAGCACATGTTAAATATTTAACTCATTGTTAGTAAGGAAATCTGGCMGA
TATATTAGCCAGTTCAAAGAAGTAAAAGAACCACAAAGTGATATGTGGTATGTGTATGTGTAGTGTTGAAATAAATGTATTATTTATTATAAAATTGAGT
TTTTCCATGGAGAGAAGGGAAGTCAGTTGCACCTTCACTGTACAGAATTGATCAGCATGTCTATAGACAAACATTATTTTGTGCACTGGATGTACTAGCT
CACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGAAGATCACTTGAGCCCAGGAGTTTGAGCCCAGCCTGGGCAATGTAGTGAGACCCTGTCTCT
GCAAAAGTTTTTTTAAAAAAATTAGCCAGGTGTGGTGGTGACTGCCTGTAGTCCTAGCTACTTAGGGGGCTGAAGTGGGAAGGTTGAGCCTGCAGTGAGC
CGTGATTGTGCCACTGTACTCCACCCTGGGTGACAGAGAGAGACCGTTTCAAAACAAAACAAAAAAAAGAAATTATTTCACATAACGTCAGTTACCTACC
TATAACTTACAGAGTTGTAAAGTAGCTCAAAGACAATAAAAGACAAACTAGAAGAGTATTCTCTAAACAATATGCATAGTTTTTTATTGGAAATATCTAG
TAACCTTTTTTTCTTTTTTAACTTTTTCCAATTTTTTTTTTTATAATCTCCTACCTTTTCATCTAAAATAATTTGAAACGTTTTTGTTCACAAAACAAGG
GTGGTCTCATTGGGTTTGGCCTGATTATTTGCATAGTGTGGCCAGAATATTAATTTATCATAAAGCCTTCTTAAATTTACTTTGCTGTAAATTTTTATAA
AGAATCTCAGATTGGACTTTTAAAGGCCTCTATTATTTGTATTTYGAGGCTAGGAAGGCAAGCCTAAGAAATACCACATTTCACTTGTAATAACTATAAA
TTTGGGTGAATTCCTAAGGGTCCTGGGCCTTCCAGGAAGTGGCCTTCCTTACCATCTGTAAGTCTGGACCCTGTAAAGCCAGATACCAGGCCAGTTTTCC
CAGGAAGGTTTTGTAAGTATTGGCTCCATAAAGTCAACCATAGTTCCTTAAAAGTGGTTTGTTATACCTGATCAAATAAGCATGATTCTCAAATGTGACC
TTTCAGGCAAGCTCTTTGTTGGACAACCATTTTTTACAATTATATTCTGGTCAAAAGGAGAACAGATTCTTGTTTAGCCCTATTCAAATAACCATATTGC
CTTGAACTGTAAGGAGACTCAGTAAGACGTTCTTAGTTCTGGGTTAGGGGAGGGTCAGTGAGAATCAGATGTGATTTAGGAATGTTTCATTTTACAAGAG
CAAAGTCTACTYAATTGTTAAGAGTTATAGATAGCCTAACAAGGAATACAACTGGCTCCCTTGCATATTAGAAAATGGACATTAAAATAATATTTCAAAC
AAATTACTATAATCATTTCTTATAGTTCATACCGTTCTGTGTACCTAATTCTCATTTCACTGGATCTTACGTTAGTAGTCGGCTTCTTAACTAAAAAAAG
TTCTGGAAATTCTGACTCATTCCACTGGAATGATCTGGAAGTTGTCCAGTTGTCCAAGCAATGCTATTGGAAGCCTGTCTATTCTTTGATGTGTCAGTAG
TTTTAAAATACCTGCCGCAGTCCTTTTCCGTGGAGCTCTGAGACAACCCTTCTTTGTTGAAGACACAGACTCTGGCTTCTAGCTGATTGTAGAGCCTTCA
GACAGGCCTCAGCACAAAACAGAATCTCTCTGCATGTGACAGAGTCTCATATCATAAGAATAATGCAACTAACAAGGAAATTAAGTTGTTTTTGTCACAT
GTAAAATGAGARTAATAAGGCCAGTCCAAAAACTTATAGCAAACTGTAAGAGATTATTGCAAATAAGACAGTGAAGGTTACATCTGATTTAGAAAACATA
GATAAACATAATTTTTAGAGAGGGAAAAATCTTTATGTATAACTTATAATATTCTTGTGGTATTATACAGACACCAAAAACATACCAAGAATATACTAAG
GACATCAAGTAAAGAGATTCAGTGGGTCTGGAATAAGTCCTATACATCTATATTTTTATAAAACTCCAGTCCTATACATCTATATTTTTATAAAACTCCA
CTGACCTAGAAGGTGCTGGATTGAAATGTTAARAGTAAGGTTGTTACCAAGTAAACATTTTCARTTTTTATTATTTATTTATTYATTYATTTTAGACAAG
GTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCTCTGTCATAGCTCACGGCAGCCTCAACCTCCTGGGCTCAAGCGATCCTCCTGTTTCAGCTTCTCA
GGTAGCTGGGACTGTAAGCATGCATCACCATGCCCAGCTTATTTATTTCATTTAATTTATTTTTTATTTTATTTTAATTTTTTGCAGGGGGCGGGGTAGA
GATAGGGTCTTGTAATGTTCCCTAGGCTGGTCTCTAACTCCTGGGCTCAAGTGATCCTTCTGCCTCAGCCTCCCAAAACGTTGGGATTGCAGATGTGAGC
CACCGCACCTGGCCAGTATTTTAGATAATAACTGAAATTAAGACTGAAAACACTTCTTCCTGTAGGATATTTTAAAAAAAAAAAAAAAGACTGAAAACAC
TAAACTTTTGTTTCCTAAAATCTGGCAGAGTTCTGTCAGGACTCAGAAACGTTATGGATAATGAGGACATTGACAAATCTCTAGGAGTTTTCTATTAATC
ATACAATAACTAGAATATTTATAGTAATAGCATTTTACCCATACAACTTTAACCTAGGGAACACTGAACATGTCTTCTGGTAGATAACTTTTCTCATGAA
ATTCATTAATAACAAAATATTAAACCTAATTATTTCTAACATTTCTCTAAAAAGGAGAAAACACGTCTTTGTGATTTTGCCAAGGATGTTTTGGGATATC
TCAGAGATAGTTTTTGGTATTAAAAATACACTGACCCCAGCACTTTGTGAGGCCAAGGTGGGAGGATTGCTTGAGCTCAGGAGTTTGAGACCAGCCTAGG
CAACATGTTGAAACCCTATTTCTACAAAAATATGTAAAAGTTAGCTGGACGTGGTAGCGCACACCTGTGGTCCCAGCTACTTGGGAGGCTGAGGTGGAAG
GATTGCTTGAGCCTGGGAGGTGGAGGTTGCAGTGAACTGAGATCATGCCACTGCACTCTAGCCTGGGTGACAGTGAGACCCTGTCTCAAATTAAAAAAAA
AAAAAAATTACACTGAAAGTTTTATTTTATTATTTTCTACACGTAGGATCTGATTTGGGAAAGACAAATCTTCAAATAATCGTTAGTGGAAACACTTAAG
ATAGGATTGTTGGTGCTTGAGAAATAATACCTGGTTACTTATTTAACCGAAGTGAYGGTAAAACATTTATAAACAAACATAGAAAGTAACACAATTTTAA
ATAACTGTAGTTTTTTTTATGAGGAGCCCTATGCTTGCTTGATTAAGGACCTGATAAGTCAGCATAAAGCACAGAAAATTTTTCTAGCAAGACACAAAAT
ATTTGCTAACTAGGCGTATTACATAGCAAAAGAATATACTTTAATATTGTAGGTAATGGATGGCAGTAAACAGTAAACCAAGGACATGGACTCACCAAAA
CTGAATAAATTATTTGCTAAAATTTTAACCAGTTTTAGCTTTTCAGACTCAGGTATTATAAACCATGACAGCCAAAATTCACATTCCGAGTTGTGCCCTT
CATTAGTCTTCATACTCTGGAACAGACTTATGCTTTACTTGAGTACAAGTTTTAGGGGTTCTCAAGGTCACAATTAATTTGATAATGAGTACTAAGATGT
TATTAAGATGCAGTGCATTTTTAGTGTTATCATCAAATGAATCAGTAAGTGTTTTTTAATGTCTCAGTTTCCATTTTCAATACTGTAATTATTGATGGTT
ATATCCCACAGAAACAATTTGGGGTCCTTCATTTTATGAATTTTGGCAAATATATATACCCATGTAACTACAACCACAATTAATAGATAGAACATTTTTC
TTACCCCCAAATATTCCTTCTGTAGTTTTGCAGTCAATCCCATCTTCCACATCTTGGCCTCAGGCAACCACTGATCTATTGTTTGGCACTACAGATTAGC
TTTGCCTGTGGTAGAATTTCATATAAATGAAAATGACAAATGACCTGCTTTTTTGTAATTGGCTTCCTTTATGTTTCAGTGTTTCCTTTTGTGACTATAC
CACTATTTGATGGATATTTGGGTTGTTTCTAGTTTTTGGATATTATGAATAAAGCTGCTATAATCATTCATGTATAAGTTTTTTTTTTATGGGCATATGT
TTTCATTTCTCTTGGGTACATACCCGRGATTGGTCAGCCCATAAAATCAGTGTCCCACTCTGCTGCCACAAATGGGAATAACTTAGCTATAAATAAATAC
AAAACAAAACCCAGTTATGTAAAGAAAAATTGAAATTAGAAATGTGGAGATTCCGTAAACTTCTTTGTTCATCTGGGARCCAACTTCAGATTACCACTTC
AGATTTACCTGTGGGAACCAAGCACTGATGTACATGGATGGTCCACGTGAGGTGTACTTCTCTGATGTGACTCACAGGTTAATTCTTTGGACATTTGGTG
GAAGACTTCCAAAACTGTTTAACAGACAGTTTTTTTAAAAAAAGTAAAAACAAAAAATCATGGCTTTCATCCAGATATAAAATGAAAACATTCAAAGATG
AAAGAAAAACAGCATATCATCAAAGAGAGAAACAGGCAAATATTACAACCAATTCCATTATCAATTTTTATACAATTGAAAATGGCAAAATGTCAAAAAT
GACAGTTGAATTAACACTGCACATGTCTATGTGTTCATCTATTTAAATGAGCAATAAAGTAAAGGCAAATTCATAAATTATTAAAATATTTACACTTTTC
TTTGGCTTTATTTTTACCAAAATTGTTATTTGTAATCAATAATTTCTTGTAAATTGTATTCTTTTAATAACAATGCCAAATGAAACAGACTTTCTTGAAT
GACTATATTTCTTAGATTTTTTTTTTTTTTTGAGACCGAGTCTTGCTCTGTTGCCCAGGTTGGAGTGCAGTGGCACTGCAACCTCTGCCTCCCTGGTTCA
AGGAATTCTCATGCCTCAGCCTCCCGAGTAGCTGGGACTACAGACATGGGTGCCACCACACCTGGCTAATTTTTGTGTTTTTAGTAGAGATGGGGGTTTC
ACCATATTGGCCAGGCTAGTCTCGAACTCCTGACCTCAAGTGATCCGCCCTCCTTGGTCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTACTTA
GCCTCTTAGATTTTTATTTTAATATTTACCGGTTTATAGGATATTGCAAAGGATAGAGATGAAGAGATTCATAGGGTGAGTTACTAGGGAAGGGGCAGGG
AGCTTCTGTGCCCTCCCCAGCCGTGTCACTTCAATAACTTCCATGTGTGCAGCCATCCTGAAGCTCACTGAACCCTGTCCTCTTGGGTTTTTATGGAAGC
TTCATGAAGTCAATATTTCTTGCCCCAGGTGTAGGGTGGAACTCTCTCATGGGAGAGCCTTAAGACCCACAGTCAGAAAGGTTGGGGAACATTAAAGTGA
AAGGAGAGCTGGAGAAGGTCAGAGGCCTGCCCCTGAGGCCTAACGCAGCCAACATTCTAACAAAAGACTGTAACTAGGGCTATGGGAGTTGTAAGCCAGA
AACCGTAGATTAAAACCAGTATGTATATCATAACACCACAGGTCACCCCCTAGTTTGTGACCACAGATCTTTTATATCAAACAATATTTGTATATGCAGT
CATTAATCATTAGTCCAGTACATCATATTGTATGAATGTCTCCCAGGATGAGGCCATTCCGGTTTGCAAGTTTCCTAAATCTTGTCAAGTTCCAAAAGCA
GGATTGGCCTTGGTAAACACACAGCTTCATACTTTCATGCATCTGGAATAATTGAGCTTGAGATAGTATCATCTTTTGTTCTTAGACTCTTTTGGGCTGT
TAACATAACATTGAATTTTCCTCAGTTAGTAACCCTAACTCATTTATTCACTTCTTTACTTTCAGCTATGGTTTCTCCTTCTTTCCGTTTATACCCAAAT
TTTTTCACCTCTGAAAGGGACATTAGAATCTTCTTGTGCTGTTCCAGATTGCAGGCAGCAATACAAGTCTAGGAGTAGGTCTTCCTCAGTCCACTCCCAT
TCAGATAGGGTAAAGTTATATAGGAGCAGAACTAGTGAGCTATTTTTACCATCAGGCAATATAGTTGCATTCACTGTTAGTCCCACTTTTGCTAAATGGG
GTGAAAGCACTACTCACCCCAGTAATGTTCTTAGGAATTTTGCCATTAGGTTTAAAAACATAGTTACAGTTTTTTCTTAGAAATCATCTCTGATGTTTCA
GCACTTGTAGTTGCAACCCTGGTCCTAGGACCACTGCATCAGGTAGGAGAGAAAAAATAAATTTTTTAAAGGTGATTTGGGGAGGAAAGAAAAAACTATA
GGCTAGGCGAAGTGGTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATTGCTTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAACATG
GCAAAACCTGTCTCTACCAAAAATACAAAAAATTAGCTGGGTGTGGTGGCACTTGCCTGTGGTCCCAGCTACTCGAGAGGCTGAGGTGGGAGGATCTCTT
GAGCCCTGGAAGCGGAGGTTGCGGTGAGCCATAATCACGCCGCTGCACTCCAGCCTGGGCAACAGAGCAAGACCCTGTCTTAAAAAAACAAATAGAGCCA
GGCACAGTGGCTCATACTTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATATAGT
GAAACTCCGTCTCTACTAAAAATACAGAAAAATTAGCTGGGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTTGGCAAGCTGAGGTGGGAGAATCGCTT
GAACCTGGGAGGTGGAGGTTGCAGGGAGCCGAGATGGCTCCGCTGTACTCCAGCCTGGGCGACAGAGTGAGACTCTGTCTCTCAAAAACAAACAAACGAA
ACCAAAAAAAGAAAAGAAAAAGAAAAAATTATAGTAGTTATACAAGTGCGCTCCTCCCCTGGTAAGAATTGTGTAGTCATRCTAGCATCCTCCCCATCCC
CTCTTCCTCAGATCAACCAGAAAAACAGAGAAAAAGTCCCACGTTAAGTATGAGCACATACGTCCTTATGATCGCCTGTAAGCCAGCCCTTCATGCTTTT
TATCTCCCCCTGTTTTAGACAACCAATGTTTCAATTGCCCATTCTACTTCTCTATCAAACTATTACTCTAAGGAGGATATCTCACTCTGTCCATTGTTGG
ACATTATGGGCTGTATAGTGTGTTCCTTGGTCTGAAGAATGATGGTGGGCCATCCAAATCCATGCAATATCTTCCGTTCTGTTTTTTTTGTTGTTGTTGT
TTTTGTTTTTACTCTGAGAATTTTTATCTTCCATGGGATAAGCAAAGCCCACTCCAGAGTCAGTGTCTATTCCTGTCAAGACCCCTTTGTAGCTCCCAGG
GCTACCGGCATCAGTCTCATTTGCCAGCCATGTTCAGGGCCTTCCTACCAGAGAATCTGCGCCATAGCCATCAGCAATCTCTGTCTCTGTTGCTGAGAAA
CAGAACAGTTCTTTCTGGCATTTTGTACCTGAAAGGGTGCAAAAGGATCATGTCTAGATTCAGCTCACCTCTGCACTGCTGCATTGCCCCCATACTCACT
TTTTTTCAGGGACTGAGTTGGCCACCTCAAGGGAGCACATGGGATGTCTACTTATCCATCCCTGTCACCTTAATGCATCCCTCAAATCTCCTTAGGGCCA
TGCTCCATATGGGCATTCTTTTAACAGGCCAGATTTCCATTGTCCTCTCACCTGAGTATATAGCCAAGCCATTGGTTACATTGCATGAGGTCAGTAAAGA
CTCAAACACAGGGGCTTCTACCATTGTTCAATTCTTCCATCAGTCACTGTTAGAAAAATATAATGCAATTCAGCCCACCAAGCAGATCTGTTTTTACCTT
CTTTGATCAGAGGAGTAGTCTTCCAAAGCAGGATGATGGTTTTCATTTACCTTGGAATTGCCATCCATGAACCAAACAGCTCTTGATCAATTTTTTTTAA
TTAAATTTTATTTGGAGGAGATTTGCTCTGCTGAAGCAATAGAAATTAGAATTGGCCAAAAATATTTTTCCTTTCTTTTCTTTTTTTTTTTTTTTTTTTT
TTTTAGATTCAGGGGTACATGTGCAGGATTGTTACATGGATATATTGTGTAATGCTGGGGTTTCGGCTTCTAGTGAACCCATCAGCCAAATAGTGAACAT
AATACTCAATAGGTAGTTTTTCTATGCTTGCCATACCTCCTCTCCCCTTTTGGAGTCCCCAGTGTCTATTGTTTCCATCTTTATGACCACACGTACCCAT
TGTTTAGCTCTCACTTATAAGTGAGTACACATGGTATTTGATTTTCTGTTTCTGAGTTATTTCATATAGAATAATGGCCTCCAGCTACATCCACATTGCT
GCAAAGGACAGGATTTCATTCTATTTATGGCTGCATAGTATTCCATGGTATATATGTACCACATTTTCTTTATCCAATCTACTGATGGTGGGCACCTAGG
TTGATTTCATGAATTTGTATTGTGAATAGTGCTGCGATAAATGTACCAGTGTAGGTGTCTTTTTGATAAAATAATTTTCTTATGCTATGTCATAAGGCCC
AAGGGAAAAAAAAGAGCTTTACAATTAAAAAAAAATWTTTTTTTTTAAGATTTCTTTTCCCGGCCCAGCGCGATGGCTTACACCTGTAATCCCAGCACTT
TACTTTGGGAGGCTGAGGCAAGTGGATCACAAGGTCAGGAGTTCAAGAACAGCCTGGCCAACATGGTAAAACCCTGTCTCTACTAAAAATAAAAAAATTA
GCCAGGCATGGTGGTGTGCACTTTTAGTCCCAGATGCTTGGGAGGCTGAGGCAGAAGAATTGCTTGTACCTGGGAGCCAGTGGTTGCAGTGAGCCGAGAT
GGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTCTCTCTCTCAAAAAAAAAAAAAAAAAAAAAAGATTTACCCTTGGGTAGATAGCCAGTAG
TGGGATTGCTAGATCAAATGGTAGTTCTATTTTTAGTTCTGTGGAAATCACTATACTATTTTCTGTAGGGGTTGAACTAATTTACATTCCCACCAACAGT
ATATAAGCATTCCCTTTTCTCTGCATCCTCACCAACATCTGTCATTTTCCATTCTGACTGGTATAAGATGGTATCTTATTGTGGTTTAATTTTCATTTCT
CTGATGATTAGTGATGTTGGATATTTTTTTCATGAGTTTGTTGGTCACTTGTCTTCTTTTGTGTCTGTTCGTTTCTATTGCCTACTTTTTAGCAGATTTA
TTTGTTTTTTTCTTACGATTTAAGTTCCTTATAGATTCTGGATATTAGTCCTTTGTTGGATGCGTAGTTGGCAGATATTTTCTCCCATTCTATGGGTTGT
CTTTTTATTCTGTTGATTGTTTCTTGTGCTGTACAGAAGCTCTTTAGTTTAATTAAGTCTCATTTGTCCATTTTCGTTTTGGTCATATTTGTTTTTGAGG
TCTTAGTCATAAATTATTTGCCTAGGCCAATGTCCRTAAGAGTTTTTCCTAGGTATTCTTTTAGGGTTTTTATAGTTTCAGGTCTTAAATTTAAATTTTT
AATCCATCATGTGTTAATTTTTATATATGGTGAGAGATAGGGGTCCAGTTTCATTCTTCTGCATATGGCTAGCCAATTTTCCCAGCACCATTCATTGAAT
GGAGTGTCCTTTCCCCATTGATTATTGTGGTCAACTTTGTTGAAGATCACTTTACTGTAGGTGTATGGATTGACTTCTGGGTTCTCTGTTTTATTTCATT
GAGCTGTGTGTCTGTTTTTGTACCAGTACCATGATGTTTTGGTGACTATAGCCTTGTAGTATAATTTGAAGTCGAGTAGTGTGATGCTTCCAGCTTTGTT
ATTTTTGCTTACGATTGCTTTTACTATGTGGGCTCTTCTTTGGTTCCATATGAATTTTGGAATGGTTTTTTCTGATTCTGTGAAAAACGACATTGGTAAT
TTGATTAAAATTGCTTTGGGCAGTGTAGTCATTTTCACGATATTGATTCTTCCTATCCATGATCATAGGATGTTTTTCCATTTGTTTGTGTTGTCTGTGA
TTTCTTTCATCAGTGTTCTTTAGCTCTCCTTGTAGAGGTCTTTCATCTTCTTGGTTAAATGTATTCCTARGTATTTTATTTTGGTTGTGGCAATTGTAAA
TGGGATTGAGTTCTTGATTTGATTCTGAGCTTGAATGTTGGTATATAGAAATGCAACTGATTTGTGCATTAATTTTATATCCTGAAACTTTACTAAAATT
GTTTATTGGGTCTAGGAATCATTTGGAGTAATGTTTAGGGTTTTCTAGGTATAGGATTATGTTGTTAGTGAACTGATATAATTTGACTAACTCTGTTCCT
ATTTGGATGCTTTTTATTTTTTTCTCTTGCCTAATTGCTCTGGCTACCACTTCCAGTACTATGTGGAATAGGAGTAGTGGGAGTGGACATCCTCGTGTTG
TTCCATTTCTTAGAGGGAATGTTTTCAGTTTTYGCCCATTCAGTATGAYGCTATTGGCTGTGAGTTTATCATATATGGTTGTTACTATTTTGAGGTGTCT
TCCTTCAATGCCTAATTCGTTGAAGGTTTTTAATCATGAAGTGATGTTGGATTTTATCAGATGCTTTTTCTGTGTCTGTTGACATGATCATATGGTTTTT
GTTTTTTATTCTGTTTATGTGGTGAATCACATTTATTGATTTGTGTACGCTGAACCATCCTTGTGTCCCAGGCATAAAACCATTTGATCATGATCCAGTT
ATCATCTTGATGTGCTGCTGGATTCAGTTTACTAGTATTTTGTTGAGGATTTTTACATTCATGTTCATCAGGGATATTGGCCTGTAGTTTTTTTGTTGTG
TCCTTCTCAGATTTTGGTATCAGGATGATACTGATTTAGTAGAACGAGCTAGGGAAGAATCCCTCATACTCAATTTTTTTTTTTAATAGTTTCAGTAAGA
GGTACAGTTCTTCTTTGTACATCTGGTAGAACTTGGCTGTGAATCCTTCTGGTCCTGGGCTTTTTTTTTTGGTTCGTAGATTTTTAAATTACTGATTCAG
TTTTATAGCTCATTATTGGTCTGTTCAGGATTTCCATTTCTTCCTGGTTCATTCTTAAGAGTTTGTGTGTTTTGAGGAATTTATTCATGTCTTCTAGGTT
TCTCTGGTTTATGCTCATAGAGATGTTATAGTAGTCTCTGAGGAGCTTTTGTGTTTCTGTGATATCAGTTGTAATGCCACTTTTGTCATTTCTGATTGTG
CTTATTTAAATCTTCTCTTTTCTTGGTTAATCTACCTAGCAGTTTAACAGTTTTGTTTATCCTTTGAAATAACCCACTTTTTGTTTTGTTGCTCCTTTAT
GTCATATTTTTGGTCTCAATATCATTTAGTTCTGCCCTGATCTTTATTTCTTTTCTTCAGCTAGATTTGGGTTTGGCTTGTTTTTGCTTTTCTAGTTTCT
TTAGCTATGATGTTAGGTTGTTAATTGAGATCTTTCTTTTTGATGTTRAGCATTTAGCACTATAAATTTTTGTCTTTTTTTTTTTTTTTTTTTTTTTTGG
AGACAGAGTCTCACTCTGTCGCCCAGGCTGGATGCAGTGGCGTGATCTCGGCTTACTGCAACCTCTGCCTCCCAGGCTCAAGCAATTCTTCTGCCTCAGC
CTCTTGAGTAGCTGGGATTACAGACACTTACCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGCCCAGGCTGGTCTC
AAACTCCTGAGCTCAGGCAATCCTCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCTAAACTTAACTTAGCAGTCT
AAACACTGCTTTTGTTGTATTCTAGAGGTTTTGGTATGTTGTGTCTCTATTTTCATTTATTTCAAAACATTTTTTGATTTCTGCCTTAATCTCATTGTTT
ACTGTAAAGTCATTCGGGAGCAAATTGTTTAGTTTCCATGTACTTGTGTGGTTTTGAGAGTTCCTCTTGATGTTGATTTCTAATTTTATTCCATGAGGTC
TGAGAAGATGGTTGATATGATTTTTATTTTTGAAAAATTTATTGAGACTAGCTTTATGACCGAACATGTGGTCAATTTTAGAGAATGTTCTGTGTGCACA
TGAGAATGAGTTTAGAAGTGGATTCTTCCTGAATCGGGTCTCCATATGAAAACATAGCCCAGGTGACACCTTGCTTGCAGCTTTAAGAGACCCTAAGCAA
GGACCCAGCTAAGCTGTGCTTGAATTCCTGAATCAGAAACTGTGAGATAGTAAATGTGTATTGTTTTAGGTGGCTAAGTTTTTGCTAATTTGTTATGCAA
TAGAAAACTAATACATCATGAAAGTCCACTTTTCCTATGTTCTTGCTTGCTTATTTGCTTATTTATTTGTTTAGACACAGGGTCTCAGTTGGCTAAGCTG
GAATGCAGTAGCAGTATCATAGCTCATTGCAATCTTAAACTCCTGGTCTCAAGTGATCCTCCCACCTCAGCCTCCCTAGTAGCTGGGACTATAGGTGTGT
GCCACTGCACCCAGCTAATTTTTAATTTTTTTTTTTTTTTGAGACGAAGGCTTACTCTTGTCCCCCAGGCTGGAGTGTGATGGCGTGATCTCAKCTCACT
GCCAACCTCTGCCTCCCAGATTCAAGCGATTCTCCTGCCTCAGCCCCCTGAGTAGCTGGGATTACAGGCGCCTGCCACCATGCCCGGTTAATTTTTATAT
TTTTAGTAGAGGTGTGGTTTTACCATGTTGGCCAGGCTGATCTAGAACTCCTGACTTCAGGCGATCCACCTGCCTTGGCCTCCCAATGTGCTGAGATTAC
AGGCATGAGCCACCGTGTCCGGCCTTAAATTTTTTTTAGGCAGGGTCTGGCTATGTTGCCTAGGCTGGGGTGCATTCGCGCAATCACAGCTCACTGCAGC
CTTGAACTGGGCTCAAGCAGTACTCCTACCTTAGCCCCCCCRAGTAGCTGGGACTATAGACACATGCCACCATACCCAGCTAATTTTTGTATTTTTTGTA
AAGATGGGATTTTGCCATATTGCCCAAGCTGGTCTCAAACTCCTGAGTTCAAGTGATCCACCCTGCTTGGCCTCCCAGAGTGCTAGGATTACAGGCACGA
GCCACCGCACCCAACCCAGACTGTCATTTTCTTGCTTTTAGTTTTTGTGTATTTTATTGCAATGCCACTTTTTTTGAGAGAGAGGCCTTGCTCTGTTGCC
CAGGCTGGAGTGTAGTGGTGTGATCATGGCTCACTGCAACCTCAGCCTCCCGGGTTCAAGTGAGTCCCCCACCTCAGACTCTCAAGTAGCTGGGACCACA
GGGACATGCCATCATGCCTGGCTAATTTTTTTTAACTTTATTATAAATAGGTGATCTCCCTATGTTGCTCATCTTGGTCTCATACTCCTGAGCTCAAGTG
ATCCTCCTGCCTTGGCCTCCCAAAGTTCTGGGATTGTAGGCATGAGCCAGCGCACCTGGTCACAAAGTTACTTTTGTTGTAGTATCTGGTACATGAAAAC
CCTTTTGACTAAAATATGTTTAATCTTTTTTTTTTTTTTTTTTTTGAGGCAGAGTCTTGCTGTGTCACTCAGGCTGGAATGCAGTGGCACCATCTCAGCT
CACTGCAACCTCCACCTCCCAGGTTCAAGTGTTCAAGTGATTCCTCTGCCTCAGTATCCCAAGTAGCTGGGAGTACAGGCATGCGCCACCGCATCTGGCT
AATTTTTTTGTATTTTTAGTAGAGACTGGATTTCACCATGTTTGTCAGGCTGGTCTCGAACTCCTGACTTCAAGTGATCTGCCYGTCTTGGCCTCCCAAA
GTGCTGGGATTATAGGCATGTTTAATCTTTTAAAAAATGAAAGAGCCGGCTGTGCGCGGTGGCTCACGCCTATAATCTCAGCACTTTTGGAGGCCAAGGC
GCGGATCACGAGCTCAGGAGTTTGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAACACAAAAAATTAGCTGGGCATGGTGGCGGGCA
CCTGCAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCTGAGATCGCGCCACTGCACTGCAGCC
TGGGAGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAATGCCAAACTTAGATTTAGGATACTAYCCCTAACCCCCATCAAATGGTAACTGGTAAGTGTA
TGTTTAAGTTTCTAAAAAATTGCCACATAATTTTCCAAAATGTTTATACTGTTGTACTTTCCTACTAGGGATGTCGAGGGTTCCAGTTGGCCCACGTCCA
CATCAAAACTTGTTATGATCAGATTTGAGCCATTTTATTGAGTGTATACTGGTATATCATTGTGGTTTTGACTTACATTTCCCAGATGAATAATGATGGT
GAATATGTTTTTCCTGTCCTTATTTGCCATTTGTGAATCTTTTGTGAAATGTGTTCAGATATTTTGCTTATTTTGAAAAAAAGAATAAAAAATTACTGAG
TTGTACAAGTTATTTATATATTTCAGATGCAGATATTTTGTCAGATATATATAGTCATGCAATACCATGCAATGTTTTGGTCAACAACAGACTGCATAGA
CACTGGTGATCCCATAAGATTATAAAGGAGCTGAAAGTGACATCTTGATGATCCTGACCCTGTGTACACTTAGGCTAAAGTGTATGTTTGTGTCTTCATT
TTTGGCAAAAACATTTAAAAAGAAATAATAAATTTAAAATTTAAAAATAAAAAACAGCCTATAGCCTGCAGATGTAGAGAACAAAAATATTTTTGTGGAG
CAGTACAATATGTGTTTTAAGGGTAAAGTTAAAACTTAAAGAATTTAAGGTGAAAATGTTACAGTAAGCTAAGATTAATTTATTGTTAAAAAAATAATGT
AGCCTAAGTGTACAATGTTTATATGTTATTATTATATAATGTTGTATATATTATTGTTATTATATAATTATATTATATGTTATTTTATATGATACAATTA
TATAATATATAATTATATAAGTTTGTAACATATAATAATTATATTATATGTTTATATAATGTTATTATGCAATATTAAATAGTGTAGCCCAAGCATACAA
TGTTTCTATAAAGTCTACAGTAGTAGACAGTAATGTGCTAGATCTTTACATTTACTCACCACTCACTCAGTCACCCAGAGCAAGTTCTAGTCATGCAAAC
CCCACTCATGGTAAGTGCCCTATACAAGTGTACCATTTCTATCTTTTACATGTATTTTTACTGTACCTTTTTTATGTTTAAATGCACAAATACTTACCAT
TGTGTTACAGTTGCTTACAGTATTCAATGCAGTAACATGCTATACAGGTTTGCGGCCTGGAAGCAGYCTATAGGCTATACAATACCATATAGCCTATGTG
TGTGGTAGGCTATACCATCTAGGTTTATGCAGGTATACTCCATGATGTTCACATAATGATGAAATCGCCTAACAATGCATTTCTCAGAAGGTATCTCTGT
TGTTAAGTGATGCATCACTATATATATTGTGACTTATTTTTCTCCAGCTTGTCTTTTCCTTTTTGGAAGGATGTCTTTCAGAGAGCAGAAGGTCTTAATT
TTGATGTTCTTTGTGAGTTTTTATAGTTAGTACTCACTCATTCTGTCCAAGAAATCTGTGCCCATCCCAAGATCATGAAGATTTTCTCCAATGTTTTCTT
CTAGAAGTTTGTAATTTTAGCTTTTATGTTTGAATCTTAACTCCTTTTGAATTAATTTCTTTAAAGTCTTAAAAATTATGGCAAGGTATATATAACAAAA
TTTGCCATTTTAACTTTTTTTTTTTTTTTTTTTGAGAGAGTCTCGCTCTTATCACCCAGGCTGTGCAGTGGCGTGATCTCAGCTCACTGCAGCCTCTGCC
TCCCAAATTCAAGCAATTCTTGTGCCTCAACTTCTGGCATTTTAACCATTTTTAAGTATACAATGTAATGACATTAACTATATTCACAATGTCATGCAAC
TGTTGTCACCATCTATTTCTAAAACTTTTCCATGGTCCCAGGTAGAAACTCTGTGCCCATTAAGCAGTAACACCCTTCTTCCCTTACCCCAGGCCTTGGC
AGTCTCTGTTCTACTTTCTTTTTCTATGCATTTGCCTCTTCTAAATACTTCATATCAGTGGAATCATATAGTATTGTTCATTTGTGTCTGGCTTATGTCA
CTTAGCATAATGCACATCTATATTAAAGTCAGTTTTGGTAAGTTATTTTTTGAACTTTTTGTCTATTTTAAATAAGTTATAGAATGTATTGGCATAAATT
GTTCCTGCTATTCTCTTATTATTCTTTTGCTGTCTTTAGATTTGTTGTGATAACTCATCTTTTATTTCTGATATTGATGATTTATGTTTTCTCTCCTTTT
CTTCTTGATGTCTATTACTGTGGTTTTATTAATTTTATTAATATTGTCAAAGAACCAATTTTTGGTTTTGTTAATTTTTTTATTTTCTGTTCCTAATTTC
TGCTTTCTTTTCTTTATTATATTTTGAATTTAATTTACTTTTAAGTTTTTTTAAATTGTTTTTTATTATACTTTAAGTTCTGGGATACATGTGCAGAACG
TACAGGTTTGTTACATAGGTATACACATGCCATGGTGGTTTGCTGCACCCATCAACCCATAATCTACATTAGGTATTTCTCCCAATGCTATCCCTCCCTG
GACTTTTTAAAGTTTTTAATGCAGAGGTATGGATTAGTGATTTCAGGTCTTCCTTTTTTGATATAAGCATTTAAAGCTATATATGTGCCTCTAAGCACTC
CTTTAACTGTATTCCATAATTTGGTGTGTGTGTCTTTATTRTAGTGTAATTCAAAATATTTTCTAATTTTCTTTGTCATTTCATCTTTGACCAATAGATT
ATTTAGAAATATGTGGTTTCGTTTCCAAATATTGGAAGATTTTATATTTTATTGTAGTTGATTTCTAATTTAATTCTGTTGTGGTTAGACAGCATAATTT
ATGGAATTTCAATATTTTGAAATTTCTTGAGACTTTTTTTATGGCCTAGCATGTGGTCTTTCTTGGTGAACATGCAATGTCTGCTTGATTAGCTTACCTG
AACTCTAGCCCATGCCTCCTCAGCTTAGTGGAACTACTGTGCTCTGCTTGAACTCTAGCTGTCTGCCCTTGTAAGAAAATTGCTCCCAGGCAGCTGAGGA
GGGAGCAGCCTGACTTTTGAGTTTCCCTTCTTTCTGGGTTTTCTTTCTTGCATTACATGTGTCCCAGTGCCTGAAAACTATTACATTGTATATTTTGTCT
ATTCTTATGGTAATTTGTAGTAGAATGGCTAGTTCTCTTTCGGTAATGTCATAGTTACAGGTGGAAGTTTGCCAATCTTTAGGTCCCTGCCTAAAATCGA
AACTTTTTTTCTTTAGTTCTCACTGAAGACAAAGCGTGTACTTTTTACATCAAATGTAAAGCTATAAAATTCTCATTTATTTCTACTTTCTTGTTTTCTT
CTTTAGGTAACTCGACAGTATGTAAAGTTTGTTGTTTAACATGACTTTTGTCCCTGTTATAATCTATAGAACTGAATAATATTTACTTAAAAAAGTTAGG
TATCTTTTTCTCACTTTATTATCAGTTAAATAAATAATTTCATTTAAGGCTTTATCATAGGCAGTGACTGTTTTATCATTTTAAAAATCATTCTTATATG
TGCAGCCATTTTAACGTTACTTTTCAATATCATTTACGTTAAACCTATAAATTTTCCATTGTTTTCTGTGACTATTTTTAAACCATCGGAGGAGAGGGGA
ATCTGGCTAAATATTGTATATATAATATTATGCTTTTAAGAACAATCACACCATCATTCTATATCGTCTTTTTTTTTTTTTCCTTCTTTTTGGAGACAGA
GTCTGGCTCTGTCGCCAGGCTGGAGTGCAGTGGTATGGTCAATTCACTGCAACCTCCCCCTCCTGGGTTCAAGTGATTCTTCTACCTCAGCCTGCCAAGT
GGCTAGGACTACAGGCATGCGCCCCCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGGTTCACCATGTTGACCAGGATGGTCTTGATCTCTTG
ACCTCGTGATCCACCCACTTTTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCCCACCTGGCCCTTTCTTTTCTTTTTTGAAGACAGTCTCGCT
CTGTCGACCAGGCTGGAGTGCAGTGGTGCCGTCTCGGCTCCCTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCAGGCTGGTCTCGA
GTTCCTGGGCTCAAGAGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCTACTTGTCTTTTTTGAATACTCT
GGTTTATTTTCTGTGTTTCCAATCTTCAGTGATAGTAATTGTGTAAGTACTTTTTGTGTGCAGTTGTTTTTTTTTTTTTTYCCCAAATTTAAGCAGACTA
GCTTATTTGTAGATTTTCTCTTTTTCCTCTTCTAAGCTCCACTGTCTTATTTTTCTGTCTATGTTGGGATCACAACGTACTCATTTTCAGTGATCTGTAG
GATTTAAAAATAAGACGTAGTTATATCCACAGAGTACAAAGTTTGAATATATTCTCATCAAAAATATAAAGCGTAAAAAATGGAAGTTTTTTATTCTTTT
AAAAGTTATTTTTCTTTTAAATATTCAAAATTAATTTAAATAAGCTGAATTAAAAATTTTTGTAAGTACATATTTTTATAAAAATAAATTGTAATTCTAG
CATTAACTGTTCAACCATTTATCAGTGTAATAAATTGGTTCCTTGCCTTACATGTGCCATTTCTAGACCTGCATATAAATACATTTACTAGTAATGTGAA
TTCCTTAATTCTGCAAAATGTTCCTCAATTGCTGTGTGCTACTGTTAGGAATAGTGAGCTAAATTATGAGTACCTTCAGAACTGTGAATTGGAACAGGAA
GAAATCAAATAAATGGATGTTTGACTCTGTTAGGAGACAATACTTTCTTAGGAAAGGTATCTATGATATTGATGTTATTTGACAGGAAGGATATAACAGT
TAATTTGTCTTGTCTTTTATTCTGACACCCTGTGCTCCTCAAATATTTCATAATCTCAGGCAGAGTTCTCTGAAGTTTGCAGTTTCACAGCCCATAAATG
GCGTTCTGATATAGTTGCCTCTCTTTTAAAGGACATGGGAAGAAATATGTGGACAAAGGTTTTCCTGTGGTCTGAACTGTACAATTTGCAAGAATGGATT
TTTAGGGTTCTGCTTTGCCAGTGCAGAATCTTGTGACAGAGGAAACCCCATTTCTTTAATTAATTTGTTTTTTGTGTGTGTGTTATTTTGCAGGATCTCT
AAAGTGAGAAGCCCATAGCAGAGGCCTTTCTTCTGGCTCTACAGTCAATAAATAAATGTGTGAATGAATAAGAGAAGGCAGGTGTTTCTTTCACCATACT
GCAAATTATTGAGCCCTGTCACCAGTCCCAGGGAAATGTTAGGCCTTCCTAGTCCTGGCAAAGTCACAGGAATATTGGCACAAATGGATTCTAATGCCAC
TAAAGAAAGTACTCTGTGTGGGGATGTGTTACCTGGAGGTAAAAGTAATATCTTCTTTGGTCAGATAAAGGATGTAAAATATGGCTTTCATTCTCTAAAA
ATCAAACAAATATTTTCTCACTTTGGCATTATTTAAGGAGCTCCGTGTTCTCTCTCCTCCACCCAAGGAGTACTGCTCTGCAATAGTACTGCTCTTCAAT
ATATGCAGAGCAGGCTAGAAAGAATCCATTTGCTGCTGTTGTCAGAAATTTCTACTGAAAGGTAAAGCGCAGTGATTTATAGCATTGGAAACTTGAGTTA
GACTGCTCCAGTTTACCAACTTGGCTGAAGACACTTCTGGCTAGTATAATTCATATATAGGTAACCAGGTGCCAACATATTGAGGAAATGCTACTTTTCT
ACTTACCATTGGCATGATCTTAACTTCTCTGTGTCTTTAAAAAATAATAATAATTTTAAAAATAATAATAATGGAATAATAGTACATATATCATATGGCT
ATGATGAGTACTACATGAATATTAATGTGTAAAATGCTTAGAATAGAACCTAATAGTTAAGCACTTAATAAATGTTGGTTGCTGTTATGTCATTATTATT
ATTGTTATATTATTATTATTATTATTATTATTATTATTATTATTATTATTATGTAGCCTGGTCTCGGGTATTAGAGAATTGGAGAATATTGAGTAGAAAC
TTAGGATTCAGCCATAACTGCAAGCCTTAGCTGGGGATGGGAGGATAGACCCAAGGTTGGGGCTTTTGGCAACTGACCCTGATATCATCACAAGGCTTTC
CAAAGTAGGAGCCAGTACTTGTTGAGAACTGTTAGATTTCTAAGGTGTTCTAGTTATCTTTAGGACCTGCTACTGAACTGGGGATTCTGAAAAAAAGAGG
GTGCTGAGAGGGCTGAATAATTGGACTAATACATGGAGAGGAAAAGTGAGGGCTTGTGGCTACTAGGTGGGTGAGTTTGCTTGGGTAATTAGAACAGTGG
CTTTCAAACTTTTTAGACTTTGACTTCAATAACAAATAAAGTTTACATTATGACCCATCACACACGTTCGCATTTGTATATTTGTATGTATTTCAGTAAT
GGATGTCATAAACACACATTTCACAAAACAGTGCTTACCCTTGCTGTGTGCGAAGGACTAATATTTTCTTTTCTATTCTATTTCATTTGTATATGTACTT
TTTGTGTGCAGGTAGTTTCCCTTTTTAGAAAATGTTGATCCTGACTTCCTAAATTGATATAATGTCTTACTAAAGAGGTGTGACCCACATTTGAAAAAGC
ACTGGTTTGCCTATGAGTTAGTCCTTTGAACATTACCCTAGAAAAARCAGTTTGATACGCTTTGTCATCTAGGTGAATGAGAGAAGCCCCTCAGAGTTGG
CAGAGCCGCTGAAGCAGGGGACAAGACTTGCTTCTCTTTGGCTCTCTTAGCTGCCAGGGTTTAGCTCCACAGTTTACTTGATCACTTGGTTTTCTTGAGT
CTAGGTTCTTTTTCTCAGATGTCTTCCTATTTGTTGGGACTAATCTCTTCCTTTAGACTGGGAGATTGCTCCAAGAGGGCAAGACTTACAGTAATAGCTA
ACACTTTTATAGTGCTTTCTCTGTGCTAGGCACTTTGCTGTTTACATGTATTAGTCCTCACCACAACCTATATATTAGGTACCTTAATGATCTTCATTTT
ACAGGTGGGGAAACCAAAGCATACAGAAGTATGCTTAGCTTACCCTTCAATAGAGGTCTTCTGCAACTTACCTTAAACATTAATGGATGAAATTAAGCTA
GTTTCTGGGCTTATTTTCTTAACTTTCCTTATGGCTTTTCTTACCACAAGAATGATTAGAGAGTAATAGAAATTGAACAAAAAATGGCACTGAACTTTGT
CTGAAGGAGTACAGTTTAGTTAAGTTGGTCAGATTCGGCATTTGAATAATGACTGTGCTTTGAGCCCTAACATTAAAGCCCTGTAGTCTTCCTTCAGGCT
TGGGTTTGAGAATGAATAATGCTGCAGAAACGCCCACATAGTCTTCGCTCATTATTTTACCAGTTTCTTCCAGTCCCTTGCCCACTGCAACAGCTGTTTA
GCCTGGCCCATGCCTTCTGGGTTAATAGTATTTCTGACACAGTGTGAGTTTTCAAGTTGCTATGTATAATTTCTGCCAGAGTTTTTACTGCCGCCAGGCC
TCAGGGTTGGAGGTTGCAACTGATTTGTGGGGGAGGGAGTTTGGTGCTTGTCACTGACGCAGGAACAAGGTGCTTTCTGTAGCTCTGATTTGTTGCTGGC
TGAGTGTGAATGATGTCAGGCAGATCAGAGGACAGCTGATTCATTTGGGATCTGGAACTTGTCACTGTCCCACTGCTGCCTCGTGGGCTCTTAGGTCTTT
TGTGGGGGGATGGGAGGGGTGTTCTGAAGATCATGTTTTTGAAGAAAAGTACTTTAATTTTTGCCGTAAGTTTGGGAAGCTTTTATAATTTCCTTTGGCT
GACAGAACTGCATACCCCTTGTGTGAGAGAACTTCCTACCAAGACTCCAGTGTGAGGGCAAAACTTGAGTAGCCAGGAGAATGATGAAACGGAGGCRAGA
GAGACTGGGAGCACCATGTCTGCGGATTCAGTAAGGAGGTTGGGGTCTCTATGGAAACTGGCAGATGTCAGGAAAAAAAACTAATGCCAACTAACACAGC
TTCGTTCATTTGGATGAAGACTGTTTTGGAGATGCCTGTCAGGAAGAGGGCTGAGCTGGCTTGATTAATTCAAGGTCAAAACAGTGGTCCTTGGCAGGGG
CATATGAGGTTTCCAATTCCAGAAACTGAATTAGATGTCATTTTAGGGGTTCCTGAATACTTGGAGAACTGGGTAAAAAAATGAAGACAATTATTTTCTT
CCCTTGAAAGCAAATGTTTATTTAAAGTTAGTGTCAAGGCTGCAAATACAAACCCCGTGAATGTGAGAAACCAATGGAAACAAAAAGTACCTCCTCCTTT
GACTAGAGAGGGTATTGTATTTCTGCCCATGGCCTGTCAGCTCAGGACCTCAGATCTGCCCTTGCAGATTCAAGCATGGGTCCTTTAGGGTGTGACCTCT
ATTTTATTTCTATATTGGCCAATATAGAAATAAACTTTATTAGGTGAGAATATCAAAGCTGGGAGTGGAAGAAGGCTTCCTCTTCAGGGTGACTTTTCCA
AGAGCAGCTCAGGCTTATTTAATGAAGAAGTGCCAAGTGAATTCATCAGTAAATTAGAGAACCAGTGAAAGAAGAGACCTAGAATTCATTTCACCTCAAT
TATCTGTCTTGAACTACCTTTGTTTAACCCACAGGGCTAAGGGAGTGTACTTCAGATTTTCTTCYTGAGTCAAACTGCTTGCCCTGAGACAGACAGGCTT
CTTCAGTGGGCTTCCTTTGTGATGTTGCCCTTCAGTGTCTGTGGATGCTTATTGATTGAATTAATGATTCTATTAGACCTTAAGAAACAGGATTTGTTTG
AAGTATATAGTTGTAGTATTGACACACTTTAAAAAAAACCTTTTATTACCATACTGACACAGAAGTAAAAGACCATTTAAAAACAGACTTCATCAACTAA
TGTGTTATTTAAAGTAAAGGTCACTTGTTAACAAAATTAAAAATTTTTAAATGGAGTTTGTAGCTTAAGAAAACTTAAATGGTYAAAAATCATGGTTCTG
TTTTTGTTTTTGAGAGTGTCTTACTTTATGGCCCAGGCGGGAGGGCAGTGGTGCTATCACAGCTCACTAAACCTTGACCTCCTGGGCCCAAGGGATCCTT
CCACCTCAGCAGCTGGGACCACAGGCATGCACCACCAAGCCTGGCTAATTTTTTAATTTTTTTGTAGAAATAAGGTCTCTCTATGTTGCTCAGGCTGGTC
TGGAACTCCTGAGCTCAAGTGATCCTCTWGCCTCAGCCTCTTAGAGTGCTGAGATTACCATACCTGGCAAATCATGCTCTTCAAATGTGGGTACACTGCT
GTTGGTAATCATTTTCTCTGTTTTACTGACTTTGAGTTAGAAAAATACCCCCTGAGGAGCTAATAAGTAGTTTGTATATCACCTTTTCCTGTTTCAAACA
ATCCTTTTTAGACTCTAGACCCATTGTATAACCAGTTTGCAGAGTAGTAATTAGGGGCAAAAAGAAAATGAAATTTGCCGGCCAGGCGCGGTGGCTTACG
CCAGTAATYCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACTCTGTCTCTACTGAA
AATACAAAAARTTAGCCGGACGTGGTGGCGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAACTTG
YAGTGAGCCGAGATGGCGCCACTGTACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAGGAAAGAAAATGAAGTTTGGCTTTC
ATAGATTTTTATAATTTCAATTATATATTGAACAAAATGTCTAAACCTCATTTTATGTGATAAGACTTAAGGCTTCAAAATTTTGTACAAGCATATTATT
CAGGTTAACAAGTAAGTGCTGTCTAATGTTCTAATTAGTTCTAACATATATATGAAGGAGCTTAACTTTGAAATAGTTCTTTGGAAGAGTGAAAATTCTT
TTTGAAAATGAGAAATTAACTTAAAATTAACATTTTTACTTCTTTTAACTTTAAAAAAATGTTGAGTTTGTGGAAATGTGGGCATAACTGTAATTTTAAA
TAGTTGTGTGCCCTCCTATTTTCTATCCTGTTACTACCCCATATTGTGTACCCACCTGAGAAGTAAACTGAAGACCACTAGAGTGATAATGACTAGGAAA
GTGAAGATTTCCTTTGAATATATGTAAGCAAGCACAAGTAGAATGTCACTGTATCCATATTATAAACAGTCAGAAATAACAATACGAGAAACTAACAATG
TTATCATTTTGAATTAGATCAGGTACTTATGTGATACTTAAGTAATTTTTTTACCTTGGAAATTAAATAATGGTGTGTGTATAGAAAGCCATGCCAATAA
GGTAGCAAATTAAATATTATGAATATTATTTTTATCATGTGTCGTTTCTACTAATGGTAGCAAATTAGAAATCTATTTATTACCTGTTTTCAATCTAATG
ATCTTATTTATTTAATAATCTTCGATAGGACTTAACATATCAAAATGGCTAGATTGTTTTTATGGGAAAAAATAACCTGGGAATCTAAAATTTAAGTAGA
AGCAAAATACATAGTTAACTGACATTATATGATACATTCATTAGAGAAATGTTAGCTAAACAAATTGGTATTATTGTTGATATAATCAATAATTTATAAA
CTATTCAGAATGTTTTACTCTTAGGGACATATACATTTCTTTAGGAAGTTTTAGTCATTGAATATTAAATATTAACTGTTGCCTGCTAATTGATGTAGTA
AATTTGCAGTGTTTGGTTTGCCCAGAAACCAATTCTAAATACTTCAGGCTGGGCACGGTGGCTTACATCTGTAATCCCAGCACTTTTAGGAGGCCGAGGC
GGGTGGATCACTCGAGGTCAGGAGTTCGAGACCAGACTGACCAACATGATGAAACCCTGTTTGTACTAAAAATACAAAATTAGCTGGGTGTGGTGGTGCA
TGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCTAG
CCTGGGCAACAAGAGCAAAACTCTGTCTCAAAAAATAAAAATAAAAATAAATAACAAATATGTTGAATAGCCAAATCTTAAATGTTGTATTTTAATTTTA
TGGATTAAGTTTTTGTCTCTGTTGTCATCCYGTACCAACATTGGTACTGAAGTATGATATTGGAGAATGATTTTTGACCACTTACTTTTCTTGAGCTTTT
TGCCTAAACCAAGCCACTTTGAATATGTTTCTTTTTGGTTGAAAAGTTATCACTGACCTTGTTTTTTTCCTATTGTGGTACCTTGTCAGAATCTCTACCC
TTTGCCGAGGAGCTGAAGTAAACCAGCACATGTTTTCACCCACATCTGCTCCAGCCCTCTTCCTCACTAAAGTCCCATTTAGTGCTGATTGTGCTTTGGC
TACTTCTCCTCTTGCCATTTTCCTGAACCCACGAGCCCACAGCAGTCCTGGCACTCCTTGTTCCAGCCGCCCACTGCCGTGGAGGTAAGGAAACTTGCTG
TGAATCTGGGCCTTGACAATTGCTTCTGGCCAAATGGTAAAACGCATACCTTACTCCTTAATAATGGGGAGAAATGGAGTAAGAGTCTTGGTTCTGTCAC
AGAGAAGAGTAAAATAAATATCACAGATTTCTGTTGTATTCAAAATGTCAGGAGAAAGGAGGGTAGGTTATCAGTACTTGGATTTTTGAGGCTATTATAA
GTTGTGTGCCCATCCTGACCATTGGACAGCCTTGTGAACTATGACCTGTGACCACCCCATAGCATGGCAGAGTGCTAGAACTCTTAGGAGGTAAAAAAGT
TCAAACCTCACATTTTACACGATGGGAAAATTTGAGTCCAAAACAAGTTAAATGGTTTGTTSAGGTTGAGGAAAATAGCCCTTCTCCCATTTCTTTCTGT
CTTCCTTTTCTTATATTCAACATTATTTGATTACGTACTATCTGCTAGGACACTGTTTTGGGCATGGGAAACAAAGCAGTGAACATAAAGCAATAAAATC
CCTGTCCTCAGGGAGCTTAGATTCTAGTGGAGAAAGAGAGACAAGTTAATGAGTAAATATGTAACATAACGGATAGACAGTGCTTCTGAGAAAAATAAAG
TAGGATAAGAGAATGTAGAGGCCAGGGCTTGACATTTTATATAAGGTGGTCAGGTAGGTCCTCAGTGGTAAGTTGACATAAAAGACCTGAAGGAAGTCAT
AGAGCCTGAATGGAGATATCTGGAAGAAGAGTGTTCCAGGTGGAGGCAACATGAAGTGCCAGGGGCCTGATCTAGGAGCTTGCTCCATGTATTCTTTGTG
CAACAGAGTCCAGTGATACTGGTACAGAATAAGTTAGGTGGTGAGTATTGGGAAATGAGGCCTGAAGTGTAGTGGGCAGCCAGATTAAACAATTTTGAGG
CTTTTTGAGATAGAGTTTCGCTCTTGTCACCCAGGCTGGAGTGCAATGGCACAATCTCTCCTCACTGCAACTCTGCCTCCCAGGTTTAAGTGATTCTTCT
GCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGGCTGCCCCCACACCCAGCTAATGTTTGTATTTTTGGTAGAGACAGGGTTTCACCATATTGACCAGG
CTGATCTCAGACTCCTGACCTCAGGTTATCCACCCGCCTCGGCCTCCCAAAGCACTGGGATTACAGRCATGAGCCACCACTACTGGCCAGGACTTTTGTT
TTTATGCTGGGTGAGATAAGTAGCCACTGGAAGGTTTAAATAAGAATGTCATGATCTGACGTAGATCAAAAGATCACGCTGGGCTGGGCGCAGTGGCTTA
CACCTGTAATCCCAGCAGTTTGGGAGGCCGAGGTGAGCGGATTGCTTGAGTTCAAGACCACTCACAAGTTCGAGACCAGCCTGGGCAACATGGTGAAACC
CCATCTCTACAAAAAATACAAAAATTAGCTGGGCATGGTGGCGCGTACCTGTAATCCCTGCTACTCTGGCGGCTGAGGTGGGAGGATGGCTTGAGCCTGG
GAGGTGGAGGTTGCAGTGAGCTGAGATCATACCACTGCACTCCAGCCTTGGAGCCAGACCTTGTCAAAAAAACAAAAACTAACAAAAAAACACACTCTGG
TTATAGTTAGAAGGCCACTAGGTAAGAGACAATGGTTATTTGAACCCATGATGATTCAGATAAGAAGTGGTCAGATTTGGGGATTATTTTAAAGGTAGAA
TTGATAGAGGAGGAAGAGATATCCAAGGATTGAGCTCTGGGGCAAGTTTTAGAGGTTGGGGCGATAGTGAGGAATTAGACTAAAATGAATTAGCTATTCA
TTCAGGAACAAGGACTAGGAGAAGTATCTTAGAAGCCAGTTGAAAAAAAAATGTTAAAAAAGGAAAGCGTGATTGATCAGTAGGTATTTGTTAAGCTTTT
TGTTAGAGAATAGTAACCTGAAAAACTAAAAGTTTAAGTGAAACACAATGTATCACACAGATTTAAGTGACATTATTTGATACAGGAGCTTAAATTCCAC
AGACAGTTTGGGACAGTGATAGACTGACATAGGACAATGTTAGAGGCTAACTTCTCTCTGAAGGCACCTCTTCTAGACGTACTAGCGCTTGGCGTATGAG
GCTGAGAAAGATTGTAAGTTGGGTAGCCCCCAAGATGTACCCAGTCCTGGCACATGGTTTTGAGTATCTCTTGATGACTATGGTCTCAGAACACACAACC
TGGAGCAACATCTTACAGCTTTGGAGCTTGTTAAATTTCATGKTTTKTTTTTTTTTTTTCATAGACTTACTAACATGTGTGGTCACTGTATTAGTGCTTC
ATTCCATTCTTCTTTTGTATCCATGCCATGCAAAGTGCCAGTTCATTGATATGACAAGATTATTTTAGCTTGTTGTTTGCTAGATATTTTTATATTCCTT
TAAACATTCTTGAGAATCTGGGATGCAGTTATTTAGAAATTGTTTGATCCTTTGAAGGAATACTTTCAGGCTTTGTTTGGTGAGACCAGGGCAGCACTTG
AGGCTAATTTTTTCTTACTACTGAGGCAATACTTTGAGTACTCTATTTGATGCCCATGTATTGTGAGTTTTTTCCACTCAGGCTGATGGGAGCATGAACG
ATTCTGGGTCCTTAGTGAGCCCTGAAGAGGGTACCTGCTCATGTTCTTGGATAGTTTCCTTATCCACATATGCTGATAGATATTCAGCTAAAAACTCAGA
GGAAGCCCCTGCAGATCTCCAGAGTTCCCCTCTGTATATCTGTCTTCTCTGGTACCCTGCTTTGAAAATTCTAGCCACCTTAGCCTCCCCAAGTTCTCAA
CTCTGTCTTCTCAACTCAGGGAGACTGCTGGACTCTGTTTGAGTACCCCCTTTTGCTGCTTCCTAGGCATGCAGTCTTAGGGCTTATTTTGCATGTTTCC
CATCGGTCCAGTGTCTGCAAACTATTGTTTCATATATTTCATCTAATTTTTTTGTTTTTAAGGTGCAAGGGTAAATCTGATCTCTGATTCCCCATAATGA
TGAGAAGCAGAAGTCTAGTCTTGCTAATATTTTGAGCTCATGCTTCTRTCATTAGTTGTTCTTATTGCTTTATGAGATTATTGGTTGACTGATTCACGTT
GCATAAGCCCAATAGAAGCAGATTATTTTAAAATTATTTTATCTTCCTTAGTCAAGAAAAGTTGGAAAATGTAATGTCAAAAGAATAAGAATAGGTAACA
TTTGCTGAGCATTTACTATGTCTTAACATTTTTAAAATGACTTACATTTGTTAAATTTAATTCTCAAAATACTCTGATGAGGTGGGTGACACATGTTCAT
TTTTTTTTCGATGAGGTGGATAATCTGAGTAAATCTGTTTTATAGATGAAGACACTGTAGTACAGAGAAGTTAAGGAAGTTATTAATAAGTAGTAGAAAC
TACCATTCAACCCCACAGTATCTTACTCCAATGTCTGTGGTGTTTTTTGTTTGTTTGTTTGTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTG
CAGTGGCGCAATCTCGGCTCACTGCAAGCTCCATCTCCCGGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGATTACAGGCGACCGCCAC
CACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCACRTTGGTCAGGCTGGTCTCAAACCCCTGACCTCGTGATTCACCCACCTCGGAC
TCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCCAGCCTATGTCTGTGGTCTTAACCCCTCAGCTGTTGTTACGGGATCCTGGGAGGTGTTGCT
TTTCTAGCTAGAAACCTCTGTGGCTGGTGACGCTTTTGCCTGAGCTTTGTTTGCTCAGGCCTGCTGGGCCCAGTTGGCCCAGCAGGCTGCACTTGCCTCA
AGCTACCAGCCTGGATCCCATGCCTCCAAAGAGACTGGAGCGGAATAGTGAAGGGTGTGTGGCAAGTGAGCATAGGGTCCGGCCACTGCACGCAGTCAGG
CATGCCAACTGCTGCAGCAGGGCAGCTAGCTCCAAGGGCTGGCATGGGTGCTAGCTCACTGTGAGGCTGCATCGGGACCAGGCGCCACGCAAGCAACTTC
CACAGCTGGCACAAGGGAACGCGGTGGTGCCCAGAAACTTGGAGACTTTAGGAGCCACCAGGCCCCAAAGCAGGAGTCACAGCTCAGGCTCGGGGAGCTC
TCAGGTCTGGTCTCTCCAAAGGGCTGCAGCTCTTCTCTCCTTCTCTCTTCTCTCCTTCTTGTCGCCCACAATGTGTTGAGCAAGGGGCATGTTTCAGCTC
TGTTTGTATTACAGCTCTTTTGGCCCTGCCATTCGGTGGGTCCCGAGTTCTTGTCCTGCATCCAAAAGGAATGAGGTACACAGACAAATATAGGGTGAGC
AAGACAAAGGGGAACTTTATTGAGTGATATAATAGCTTAGAGGGGACCCGCAGTGGGTAGCTCCTATCTGTAGGCAGGTCCTCCCGTTGAGTGTTCAGCT
CTCAGCAGAGAGGAGGTCCTGGAGTGGGTGGCTCCTTTCTGCAGGCAGGTGGTCCCATTATCTCCCTATGGTCCCTCCCTCCTCTCCCCAAGCCTGGCTG
AGTCCAGSGGCTTTTATGGGCCTCAGAGGGGAGGAAGTGCATGCTGGTTGGTCCATGGGCGGCCATGGGTGGGCCCAGGGAAAAGCACCACAAGTTGCCC
TTGCGGTTTCTGGGACTGGCGACCCATCCCCCAGGCTTCAGGCTTTCCCTGGCTTGGAGGTGGGTCTTCACTGTGGACCAGCTTCTYTCCACCCAGGAGC
CTGTCTGCCTCCTGCTGCTGTTCATGGTGACCAGGCTGTTCATGCTAAGGGGTGCCTGCAGGCCAGCACTGGGCTGTCCTCAGTGCACCCCTCAGCCTCC
TTCCCATGCTTGTCAGTGCCCAAAGCCTGGAGGGGGCCAAAGTGGCAAGGGGGTTGGCATGTCAGCACTACCCCGAGCATGTGCACACTCAGCTGGGCTG
TGACAGCTCCCGGGCTGGGTCCCAACTTTGCTCCGAGGTTGGAGTAGGCACTGACAGAGGGGAGAAGCCAGGTAGCGGGAGCGGACGATTCTGAGCCTGC
GAGGGGCAGGGGCCTTCCTAGGCCCGAGAGTTCAGAGATGCCTGGGTCTGAAGCTGCAGCAGGGCGGTGGTGGCTGCACCTGGGGGGCTCCCACCCCACC
AACTCGGAAGGGGTGGGGCTCCCACTTTTCCCTGGCTCCCACCGACTCTGTAGAGCATGCAGCCCCAGCTCCATCTCCTAGCAGTCTTGGGCAAGGGCTC
CAGGTCTGATGCATTGTCCTGGGCCAGGTGCTGGGCTGCTCCAACGCATCGAGTCTGGTGCTCCTGGTGGTGACCGTGCCAGTTGTTTACATGGTGATCT
GCTCCATGGGGCTGGTGAACAATGTGGGCATGCTGTACTTGCTGCTGTGGGGTGCCGCTTTCACTTCCTACCCTGGGCCCCTGAAGCATGGCCCCAGCTC
TGTGTCTCGGGCCAGACCTCTGTGCCCCATGTGCAAGCACGGGACCACCCTGGGCCCAGCTCTGCCCTAGTGCCCCTCTCTGCCTGTTCCTCTGTGCACT
TCTCTCCCACTGGCGGACGGCTCAGCTCAGCCTGGCCCAATTGTGGCAGTTCCCAGGGGTGGGTTCCCAGGGCAGTGGGCCTGTAGGGGGGCTTRCAAAG
GAGGGTTCCAGGGACTGTCCACCTTGGCGTCTGCACCGGAAGACCCGTGTCCTGCATCTGTACCCCACTGCAGCCGGCGTCATGGCAGTGACTGCTTCAT
GGCAGTGACGGGCTGCCACTGCCATCACTGTAATGTTTCTGATGAACCATATGCAATCGAGAATTTATTTAATAAATTTACAAACTCTGAGCACTTACTA
GCTCCCAGGCACTGTTCTTAGCACTTTAAAATGTAAAGGTCATTTGCTTCTCACACCAGTTCTGTGAGAGAGATTATCATTGTACTTATTTCACACAGGA
AGCGAGGGTGCAGAGAGATTAAATAAATTGCTCAGGATAACACAGCTGTATAAGTGGCAGAACTGGGATAGAAACCTGGGTAGTCTGGCTTCAGAGATCA
CATTCTTAACAACCACACTGTTCCATGTCTCCATCTGAGATATTTTCATTATGTAATATCATACGTTCTGAACCAAAGTAGTTTTTGCAGCCTTGGGTCT
TTTCCCAAGGTGATGTATTAATAACATTGTTTAATAAATCCTCCAATCCTGGGGGTGGGAATTGGTATTCCCACAGTCTGTTGTCACTTCTAGGTCATTA
CCTTTATTACCTTCTTGTAAAAACCTCTGTTCTTTTTTTTGAGACAAGTTCTCACTCTGTCACCTAGGCTGGAGTGCAGTAGCATGATCTCGGCTTACTG
CAACCTCTGCTTCCCAGTTTCAAGCAATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGACACCCGCCACCACACCTGGCTAATTTTTGTATTT
TTAGTAGAGACTGGGTTTCATCATGTTGGCAAGGCTGGTCTCAAACTCCTGACAAGTGACCTGCCCACTTCAGCCTCCCAAAGTGCTGGGATTACAGGCA
TGAGCCACCACACTCGGCAAAAAAATCCCTCTGTTTTTTTAGGCCTGTATCATTCCATTTTACCCCTGCTCATTACTGTCATCTATTAATTTAGTTTTGT
TCTCTGTACTCAAATTCACAGTCCAGAACAGAATCTGTGCTTAGTGAAAACGGTGATGAACCTCCATTCTGCAACATCTTTATGATGAACCTCTCTTACT
CAATTTATTAAGCAAATTAGCAAGTAAAGTAGAAAGATGAGAAAAATGGTTCCAGTAAACAATGTGCATAAGTGAAGAACTGAAAATTGAGTGCTACTGG
CAGTGAATTTGACTCTGAGTTCCAGAAGAGAGGGAACTAGGAGGGGGGACTTCCAGGGGCGGGTTCCAGGGACTGCCCACCTYGGCATCTGCACCTGAGG
ACCCGTAGCCTGCTCCTGTACCCCACTGCAGCCAGAGTCATGTCAGTGGCCATATTAGGATGTCTTTTTTATCTCTCTTTTTTTAATTTGATGAGTATAA
CTATTATAGGCTGAATTATGTTCTACTAAAATTTGTATAGGTTGAAGTCCTAACCCCTAGTAACTCAGAACGTCACTGTATTTGGAGACAGGATCTTTAA
AGGGGCAATTAAGGTTAAATGAAGTCTTTGAGATAGATCCTAATCCAGTATGACTTGTGTCCTTACGAGAAGAGGGGATTAGGACACAGACAAGCACAGA
GGGAAGGCCATGCAAAGACAAAGGGAGGTAGCCATTTASAATCCAAGGAATGAGGTCATAGAAGAAACCAACCCTGCTAATGCCCTTATCTTGGACTTCT
AGCCTGAACTATGAGGAAATAAATTTCTGTTGGTTAAGTCACCCAGTTTGTGATACTTGGTTATGTATGGCAACCCTAGTAAACCAACACAGCTATTGAG
GCATTTGGCTGCATTGCCCCAGAGTTGGAAAACAGTGTCCCCTTGCATCATAGTGTAGTGAGGACTAGCCCTGCTTAAGGTCTTAAGCCTCTTTATTGAC
TGTATCTTAGGGATGGTCTTAGGACCTTACAAATTGTTGCCCGTAATAATTTGAAGGACAATGAAGATACAGTCTKGAAATGATACCCACTCTAGCTCTG
TAATACATTGCGTTTTATGCCTTGATTGGAAGGAATGAGTCTGTTATAAACAAACGTTGATGCTAGCTCTTAAGTGTCTCAGATGGGTATGATGAACCKT
AAGAGGCATAATAAATTTCATTGTGATTTGGGTTAAATTAAATAACCACTAACCTTTACTCCATTTGCATGTCTTCTAAGAAAATGATTCCAGAGTATTG
ATTGGCACTCAGATGGGGGTGTTGCATTTTTAGAGTAAGAGTGCTAGATTGACTTTGTGTTGTAAGTGGTGTCCTTGAAGAGAGGAGGCAGTTGTGTCTC
TGGCTATTCACTGGCCCAGCTGTAGGCCTGCTGGAGAGAGAAGTTTGATGTTAACAGCTTAATGGAACACAGAATGACTTAGGTTTTGAATCAGTTTTGA
ATTGCCATAGACTTTGTCAGCCCTGAAGTAGGAGGGCTTGCAGCAGGAAATCCTTACTAGAGTGATTTTTATATTGGAAGCATTCTAGCTTTATCTTGCT
TCCTACTGCATAGGAATTTCTTCCATACAATGTCTAGCAAAAAGCTATTCAGCCTTTGCTTGAACATCTTCAGCAACAAGCAGTTCACTCTCAAAGCTTT
CATCCAGTGGTACCAATTTAGTTCTCTGGCACCTCCTATGTCACACGTATGAGAGACTTTTGGTAGACTTGCGTGGCAAATGGACAGGTGTTCCTTTGGG
CCTCCTCCAGAACTAGGCAACCTTTGAAACCCCTTTTTGGTAGTGTCAAAATTATTTCCTGCCAAAGAGAAAGCACTATTTTCATTTTACCAACACCTGC
TTTTCTTGTCTTGTCTTTTTTTAAACAACTGCTTTTCAGAGTAATTTCAAAAGAGGAACATCTCCCAGAACTTGTTCTTATCCTGGCCCTGCTGCATAGT
GGTGGTAGGCAGATTACTTCACTTCTTTCTACCTCAGTTCTCTTCATTATTAAAATGGGACTCACAATAGTATTTCAAGGATTATAGTAAGAATTAAGTG
AGTCAGTACATCTACAATTGTTTAGATATTACCTGGGCTGCTAGACTGGTTATTTTGCTGCTTCCATTGTTGGGAGACTCAGATGTTGCTAATTCTTAGC
ACTTCATTTTGCTTCCATTACTTTTTTCTTTGCTTCTATTACTTTTCTCATATTCTTATTTTCCCTTGGATATATTGCCTACCATATGTCCATACTGCAG
AAGCTCCATTACTGGCTTAGGTGAGGCAGTGGCAGCTGGGTGCCCTCCTGCCCTCTCATGCATTCTCACTAATTGTTTCTGCTGAAAACTGGCCTGTTGG
GGCTCAGCAGGACATGGACTGAAATGAAAAACACTTTGAATTACATTCTTTCTAAAAGACCATTTTTTGGCAATGAGGAAAGTCCATCAAAACGGTTTCA
AGGTATTTCATTTCTCCTCTTACAGCAGGGAAAGCGCATCTTSAGAGTATCTTCAGAAGAAGTGATTCTCTTGTTAGAGTAGGGAAGGTTTTTTGATTTT
TTTTTTTTGTTTTTTCATTGAAAAGGTAAAATAATGAAGACTAGTGCTGTGCTTTAACTTCAGGAACCCTTATATGCGACAGATAGTTTTTCATAGACCC
TGGCTCCAGGTGACCCTGAATGAAGATATAATCCTGTATGGCTAGATGCCAAATGGTTGCTCTTGCCTATCAGGGGACCTGTCCCGATAATCATGTAGGT
TCTTTTATATTTTTCCTAAGCGTCGGCTGGCTTGAGAAATAAAGGGACAGAGTACAAAAGAGAGAAATTTTAAAGCTGGGTGTCCGGGGGAGACATCACA
CGTTGGTAGGATCCGTGATGCCCCACAAGCCACAAAAACCAGCAAGTTTTTATTAGGGATTTTCAAAAGGGGAGGGAGTGTGCGAATAGGTGTGGGTGAC
AGACATCAAGTACTTAACAGGGTAATAGAATATCACAAGGCAAGTGGAGGCAGGGCGAGATCACAGGACCACAGGACCGAGGCGAAATTAAAATTGCTAA
TGAAATTTCGGGCACTATTGTCATTGATAACATCTTATCAGGAGATAGAGTTTTGAGATCAACCGGTCTGACCACAATTTATTAGGCGGGAATTTCCTCT
TCCTAATAAGCCTGRGAGCGCTATGGGAGACTGGGGTCTATTTCACCCCTGCAGCCTCAACCATAAGAGACAGGCCACGCCCAGGGGGGCTGTTTATAAG
CCAATACCTCCAGGCGCGTATTCTCTTTCTCAGGGACGTTCCATGCTGAGAATAAGAATTCAGCGATATTTCTCCCATTTGCTTTTGAAAGAAGASAAAT
ACGGCTCTGTTCTGCCTGRCTCACCGGCGGTCAGAGTTTAAGGTTCTCTCTCTTATTCCCTGAACAATTGCTGTTATCCTGTTCTTTTTTCAAGGTGCTC
AGATTTCATATTGCTCAAACACATGCTGTATAATTTGTGCAGTTAACACAGTTATCACATGGTCCTGAAGCGACATGCATCCTTTTCAGCTGACAGGATT
AAGAGATTAAAGTATAAAGACAGGCATAGGAAAGCACAGGGGTATTGATTGGGGAAGTGATAAGTGTCCATGAAATCTTTACAATTTATGTTTAGAGATT
GCAGTAAAGACAGGCATAAGAAATTACAAAAGTATTAATTTGGGGAACTAATAAATGTCCATAAAATCTTCACAATCCATGTTCTTCTGCCATGGCTTCA
GCCGGTCCCTCTGTTTGGGGTCCCTGACTTCCTGCAATACTTGCCTAAGAGCAGGAAGCTGAAGCTTTCTAGGATACTTCTGTTTCTAGAACTAGGAAAA
TTTTATTTACTAAATTTTACATTGTGTTATGGAMAAATCTCAAAAATGTTCAAAAGTAGAAAGACTCATACTACATCCCCAGTATCGTCTACATTGTCAG
CTCATGGTATACTATCTCATCTACATCCCCACCTATTTTCTTTCTCTGTCTCTCTTGCTTATTTTGAAGCAAATCTCAAATTTTATGTCATTTCATCTAT
ACATATTTGTATCTCTAAATGTAAGGACTCCTGAAAAATGTAATCACAGTATTATTACCACACCTAAAACAATAGTTTATCAATGTAATCAAATATCCAG
TTTATGTTCAAATTTTTTTTGCAGTTGGTTTTTTGGAATCAGTAGCCAAACTATGTCAGCACAGTGTATTTGGTTAATACATCTCTTAAGTAGGGTGGTG
ATACAATTTAGTGTCTAAACTAGGAAATTTTATATAATGAAAGAGGATTGTTAATATTACTGGGACAACAGACATAAACCTGTTAAATAAAATAATTGGG
ATGTCTGATCACTCTTTCTTTTTTTTTTTTTCTTTTCTTTTTTTCCTTTTGAGACAGAGTCTCTCTCTATTGCCCAGGCTGGAGTGCAGTGGCACAATCA
CAGCTCACTGCAACCTTGAACTCCAGGCTCAAACAATCCTCCAACCTCAGCCTCCCAAGTAGTTGGGACTACAGACATGCACCAGAAGCCTGGCTAATTT
TTTCTATTTTTTGTAGAGATAGGGTCTTGCCGTGTTGCCCAGGCTGTACTGCAAAGTTTATTTTAATCTAGGGTGTTCTCACCTTTTTTTTTTTCCTTGC
AATTTATTTGTTGCAGAAACCGAGTTGTTTGTTCTTGTAGACTTTCCCACATTCTGGATTTTGCTGATTGCATCCTTCAGAGGTTTTTTTCTGACATGTT
CTTATGAGCTCTGTATTTCCTATAAACTGGGGGCTTGACCTGATTGTGGTTTGGTTGGGTTGAGGGGGTGGGAAGAATACTTAACAGTTGGTTCAGTGTA
TATCTGTCAGGAGGCGGGTAATGTCAAGTCTCTCCCTTGTTTTGTTAGTAGTGGCCATTGATAATTATCACCTAGATTCATTATTTTCTTAGGAGTTTGC
AAAAGATGATTCTCCTTCCCTTTATTAACTACAGTACTTACACAAAAGAATTTTCTCCTCATTATCTGTTTTTTTTTACCCTGAAGTACAGATAATTACC
CTTATTCGCATTGACTCAGCTTAGACTCTTTCCTGAGTCTTCAGCCTAAAGCCTGAGTGTCCTCAGTTCCTTGGTCAGTGTTTCATACCTGCTTATTACT
GCTTCGTTGTGAAGATTGTTTGCCCAGAGCAGCAGGGGGGGAGTTGTTGGTGGTGAAGCCCCTTGGAGTTTGCCATTTACATAGCTAACTGATTGCTCAG
CTGAGGAAAACCTTGGCTTCCTCTTCTGGCCCACGTWGAAAGAGGAATTATCTGTAGTAGTCATGCTTGTTATGTAGACTCTGGGACTCTGAGAGGTGAG
AATGCATCTAGAAGGCAGCAGCTTTTCTTTCATGTCCCTAGATGCCACAAGAGGAGGAGCCATTGCTGATCCTGATGGCCTCATTTTGGTAGATAGGATG
GGCTTAGGGCTAGAGAGTCCTGCTGTTAAGAAACTAGCATACTGGAGTAGTCAGAGAAACGATTAATTTACAATAATAGATCCTTGACACAGAAGAATTA
ATTTTCATGGCTTTGTTTGTTAATATATACATATGTGTGTGTAAATAGATGGATTTTTTTTTTTGGAGGGCTATCTTCAGGATAAATTACTAGAACTGGG
ATAGCTGAGTCAAAAATTAAATGTATATGTAGTTTTATTAGATATTGTCCAGTTTCCCTTCACAGTCTATGGTTATACTATTTTACATTTCCATCAGCAG
TTTAAGATAATGTCTATTTGCACACAGCCTTGCCAACAATATGATTGTCAAGCTTTTGAATTTTTGCTAATCTGAGAGCTAAAAAATGGTATCTCAATGT
AGCCAAGTAAAAAGTCATATTAAAATATTCCTAAAGGATGAAGTTTGTTTTGAGGGGGGATGGAATTTCTCTGTCGCCCAGGCTGGAGTGCGCGATCTCA
GCTCACTGCATCCTCCGCCTCCAGGTTTAAGCAATTCTCTGCCTCAGTCTCCCCAGTAGCTGAGATTACAGGCACCCACCACCACGCCTGGCTAATTTTT
TTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTGGCCAGGCTGATCTTGAACTCCTGACCTCATGATCTACCCGCCTTGGCCTCCCAAAGTGCTGGG
ATTACAGATGTGAGCCACCGCGCCTGGCCTGTTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTKATCTTATGTGAAGGGAATC
AGTTTCCTGTCCTGGGAAATTGAGATAGATGCATTCATTCATTCATTCATTCATACATTCAACTGCATACTAGGCCCTCTGAGCAGGAGAAGATGCCCAC
ATAGGCAATAGAACACTTCGCAGCACGGGGTAGAGTAAAAGGGATGCTTTTTATTTCATAAGCTTTCAGCCTTATTCACCCCTATTCAGTCATTCCCAGA
ACTTTTCAAGTGATTTCTCTGGATGTTAGCAGAAATATTTTTTTAATGTCAAAATTCCAAGAATAGTTCAAAGAGCTTTTCACCCCCCAAACCAGGGGTC
AGCAAAATAAACCCCATGAACCAAATGTGACCTGTGGGCTGTGTTTATACAAGCCACAAGCTAATAATGAAGTTTACATTTTTTAAGGGATATTTACAAA
AAACAAGGAATATGTGACAGAGACCACATGTGACCTGCAAAGCCTAAAATACTTATTATCTGGCCTTTACAGAAAAAGTTTGACAGCCCTTGTCCTAACC
CATACTGAATTAGCTCCTGATATGTTATCTCATCAGCCCTGAACACTTTAGTGTATACTTCCTACAGAGACATTTTCATAACAATACAGCCATTAAAATC
AGAAAATTAACATTAATAAATATTACCATCTAATCTACAAGTTTAATTCATATTTYACCAAATGTCCCAGTAATATCCTTTGTAACAGAAGGCTCCGATC
CAGGATCATGTGTTAGAATTTTACTGTTATTCGTCTTCTATCTCCTTTAATCTGATGCAGTTTTGTAGTTATTTCCTCAACTTTTATAACCTCAATACTT
TTGAAGATTACAGACCAGTTTATTTGATAGGATGTCCTTTAATTTGAATTTGTCTGTTATTTCCTCAGGATTAGAATCAGGTTATGAACCTTTGGCAGAA
ATATCACAAAAAGGTGGTATTGTGTTCTGTTTTTTTTTTTTTTTTTTTTTTGAGATAGAGTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCACAGTC
ACTACCTCCTGGGCTCAAGTGATCTTCCCACCCCAGCCTCTTTTGTTGTTTTTGTTTTTTTGAGAGTGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTG
GCATGATCTGGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGTCTCAGCATCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACAC
CTGGCTAATTTTTGTGTTTTTTTTTAGTAGAGACAGGACTTCACCATATTGGTGAAACTAGTCTCGAACTCCTGACCTCAGGTGATCCGCCCACCTCAGC
CTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCAGTCCCACCCCAGCCTCTTGAGGAGAGTAGCTGGAAATACAGGCATACACTACCATGCC
TGGCTAAGTTTTAAAAAATTTTTTTAGAGACAGGGTCTTGCTGTGTTGCCTAGGCTGGTCTTGAACTCCTGGGTTCAGGTAATCCTCCTGCCTCGGCCTC
CCAAAGGGCTGGGATTACAGGCGTGAGCTACTGCACCCAGCAATGTTGTGTTCTTCTCATTGTGTCCTGTTAGGTGATACAGGCTTTCGTTTTGTCCCAT
TACTATGAAGTTAACCTTGATCACTTTATTAACGTGGTGTTTTGCTGCTGTAAAGTTTTGCTGCTGTGAAGTTACTCTTTTTTTCCCTTTGTAATTAATA
AGTATTTTATGGGAATGTTCTTAAAATTATGTAAGTACCCCATTCCTCATCAAATTTTAACCCTCTGTTTTTAGGATCCATTGATGTTCCTGGTTGCATT
ATTATACTATGCTGGTCACCGAATGGTATTTTTACAATTTCATAATTCTTTCTATACCCATCAGTTGGCATTTCACCATAGCAAAAGCTTTCACCTCTCC
CTATTCATTTTTCACTTACTTTATTATACTGTATAAATTCAGTGGACTTTTGACTGGGCGCTGTGGCTCACACCTGTAATCCCAGCACTTTGAGGTGGGT
GGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACGTGGTGAAACCCTGTCTGTACTAAAAATGCAAAACTAGCCAGGCGTGGTGGCTCACGCC
TGTAATCCCAGCTACATGGGAGGCTGAGGCACGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGTAGTGAGCCAAGATCGCACCACTGCACTCTGGCCTG
GGAGACAGAGTGAGACTCTGTCTTTCAACTGCCCCCTCCCCACTCCAAAAAAAATTTAGTGRATTTGTCTTATTTGATGGGTTATATAATCTGTTAATAC
CATTTTAGTTTTGATGCTCAAAATTGTATCATATCTGGTCAAGGGAAGTTTCTTCAGGCTGACTTTTGTGTCTTTTTGATGTCTCTGTCATTCTTTGAGA
ACTACGTAACTTTCTGCCCTGAGAAGATATTCCTGGCTGGCTTATTTTGTACCCTCACTAGCCCTTGAGCTTTTTCTCTAGGCAGCATAGTTCTTTTTAG
TGGAGAATGCTTTTTAAAAGCCAAAATATGAATCAGGCATGGTATAATCCCAGCACTTTAGGGGGCTGAGGAGTTCAAGACCAGCCTGAGCAACTTAGTG
AGACCCCATTTCTTTAAAAAAAAAAAAAAAAAAAAAAAAAGGCCAAGTGTGGTGGCACATGCCTGTAGTCCCAGCTACTCAGGAGGATCATTTAAGCCCA
GGAGTTCAAGGTTGCAGTGAGTTATGATCACATCACTGTACTCCAGCCTGGGCAACAGAGCAAGACCCTGTCTCTTTAAAAAAAAAAAGCGGGGGGGTTG
GGGGGGGCAAATGTTGATGGTAGACATGGTTGCCCATACTTAGGTTCACTGCTCCCGGGAAATGTATACATGTAACACACATGTATTTATTTCTTAATTT
CTGTTATTGAAAACTATAAGCTCACACTGATACCTCCACTTCTAATTCTAGTTTGGTTCTAGTTTTTGTTTTTATATTTGTAACTTCCTTCTTTGAAAGT
GAGAACTCTGGCCGGGCACGGTGGCTCACGCCTTTAATCCTAGCACTTTGGGAAGCCAAGGCAGGTAGGTCATCTGAGGTCAGGAGTTTGAGACCAGCCT
GGCTGACATGGTGAAAACCCGTCTCTACTAAAAATGCAAAAAAAAAAAAAAAAAAATTAGCTGGGCATGGTGGTGGGCACCTGTAATCCCAGCTACTCGG
GAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCTAGCCTGGGCAACAAGAGCAAAAACT
CAGTCTCAAAAAAAAAGAGAAAGTGAGAACTCTGACCCCCCATTACCCTTGATATATTTACTTATTTTTTTCTAGTCTCTAATTACTAGTTTATTTTCCT
CAATTTGTTTTAGTAAACAAAATATTGTATCCTTCTACTTTAATGAAAAATTTTAAGTTTTTTTTTTTTTCCCCAACTTYAGCTTTAGGGTCAGGGGGTA
TTGTGCAGATATGTTACATGGGTAAATTGTGTGTTGTGGGGATTTGGTGTACAGATTATTTTGTCACTCATGTAATGAACGTAGTGCCCAATAGGTAGTT
TTTCAGTTCTCTCCCTCCTCCCACCCTCCACCCTGATGTAGGCCTTGGTGTCTATTATTCCCTTCCTTGTGTCCATGTATATTCAGTGTTTAGCTCCCAC
TTATAGGTGAGAACATGGAGTAATTGGTTTTCTGTTCCTGCATTAATTCACTTAGGATGGTGGCCTCTAGCTGCATCCATGTTGCTGTAAAGAACATAAT
TTCCGGTGGGCGGATCATGAGGTCAGGAGATCGAGACCACCCTAGCTAACACGGTGAAACCCCGTCTCTACTAAAAATTACAAAAAAATTAGCCGGGCTT
GGTGGCAGGTGCCTGTATTTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCCTGAACCCAGGACGCAGAGCTTGCAGTGAGCTGAGATTGTGCCACT
GCACTCCAGCTCTGTTGCCTAGGCTTGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCCCTGCCTTCTGGGTTCAAGTGATTCTCATGCTTCAGCTTC
CCAAGTAGCTGGGATCACAGGTGTGTGCCACCACACCCGACTACTTTTTGTATTTTAGTAGAGAAGAGGTTTCACCATGTTGGCCAGGCTGGTCTCAAAC
TCTGCCTCAAGTGATCCACCTGTCTTGGCCTACCAAAGTGCTGGGATTACAGGAGTGAGCAACTGTGCCCGGCCAATTTCATTCTTTTTAATGGCTCTGT
AGTATTCTGTGGTATGTGTATATGTACCATATTTTCTTTATTCAGTCCTCTGTTGATGGGCACCTAATTTGATTCCGTGTCTTTGCTATAGTGAATMGTG
CTGTGATGAACATGTGAGTGCATATGTCTTTTTGATAGAACGACTTATTTTCCTTTGGGCATATTTCCARTGATGGGATTGCTGGGTTGAAAGGTAATTC
TACTTTTAGTTCTTTGAGAAATCTCCAAACTGCTTTCCACAGAGGCTGAACTAATTTACAATTCCACCAATAATGTACAAGAATTTCCTTTTGTCTGCAG
TCTCGCCAGCATCCATTATTTTTTGGCTTTTTATTAATAACCATTCTGGTTAGTGTAAAATGGTATCTCCTTGTGGTTTTGATTTGCATTTCTCAGATGA
TTAGCGATGTGGAGCATGTTGTCGTGTTTGTTGGCTGCTTGTGTGTCTTCTGAGGAGTGTCTGTTCATGTCTTTTGCCTATTTTTTAATGGGGTTATTTG
TTTTTTGCTTGTTCAGTTAAGGTTTTTTGTAGATTCTGGATATTAGACCTTTGTCAGRTGTATATTTTGCAAATATTTTCTCCCATTCTCTAGGTTGTCT
GTTTACTCTGTTGATAATTTATTTTGCTGTGCAGAAGCTCTTTAGTCTAATTAGGTCCCATTTGTCAATTTTTGTTTCTGTTGCAATTGCTTTTGGTGTC
TTCATCATGAAGTCTTCCAGGGCCTATGTCCAGAGTGGTATATTTTAGGGTTTCTACTAGGGTTGTTATAGTTTTAGGTTTTACCTGTAAGCCTTTGATC
ATCTTGAGTTGATTTTTGTATATGGTGAAAGGAAGGGGTCTAGTTTCAACATTCTGCATACGGCTAGCCAGTTATCCCAGCACCATTTATTGAATAGGGA
TTCCTTTTTGCATTGCTTTTGTCCACTTTGTCAAAGATCAGAAGGTTGTAGATGTGTGGCTTTGTTTCTGGATTCTCTAACCTTTTCTATTGGTCTGTTT
GTCTGGTTTTGTACCAGTACTATGCTGTTTTGGTTACTGTAGCCTTGTGGTATAGTTTGAAATTAGGTAGTATAATGCCTCTGGAATTGTTCTTTTTGCT
TCTGCTTCAGATTGCCTTGGCTATTTGGGCTCTTTTTTGGTCCCATATGATTTTTAGAATAGTTTTCTCTAACTCTGTGAAAAACGTCGTTGGTAGTTTG
AGAGGAATAACATTGAATCTGTAAATTGCTTTGGGCTGTATGGCCATTTTAACAATATTAATTCTTCCTATCTGTGAGCATGGCATAGTTTCCCATTTGT
TTGTGTCATTTCTGACTTCTTTCAGCAGTGTTTTTTAATTCTTGTTGTAGAGATCTTTCACCTCCCTCTTTAGCCATATTCTTAGGTATTTTATTCGTTA
TGTGGTTATTGTCATTGGGATTTCATTCTGGATTTGACCCTCAGCTTGGACGTCATTGGAGTGTAGAATCACTACTGATTTTTGTAYGTTGATTTTGTAT
CCTGAAACTTTGCTGAAGTTTATCAGATCTAGGAACCTTTGGGCAGAGGCTGTGGGGTTTTCTAGGTATATAGAATGGTAATTGTCTGTGAAGAGAGAGA
GTTTGCCTTTTGTTTCTTTCTCTTGCCTAATTGCTCTGGCTAGGACTTCCTATGTGGAATAGGAGTGGTGAGAGTGGGCATTCTTGTTTTGTTCCAGTTC
TCAAGGGGACCGTGTYTTTTGCCCAGCATGATGTTACCTGCAGGTTTGTCRTAGACGGCTCTTATTATTTTGAGGTATGTTCCTTTGATGCTTAGTTTGT
TGAGGTACTTGATTGTCTGATCATTTTTTCCTCTGTGTAACTAATCTCCTTTTGTAACCACCAGCCTTCTGTGTGTATGCCCTTCTCACTTCACTGGGTC
TCCAATACCCCATGAAAGACTGGCACCACTGTTCTCTTCAAGCAGACAACTTCCTTATCCCCATCAGTCTCTGACATCCCAGGCCAGGTACCTCAACCCC
AACCCAGCCACATGGCCACCATCATCATCATCATCTTGTGGCCTCTAGACTGAATTATTCAGGAAAGAAGGAGAGGAAGGAGGATTCTAAAGCCCCCTAA
GTACCTCAGATTCAGTCTCAGGGGCCTGCACATTTTGAAACATCTGACTTGAGTTTTTTTAAGTTTCTTTATTTTTTAGAGATGAGTCCTCTCTTTGTTG
TCCAGGCTGGCCTCAAACTCCTAGGCTCAAGCAGTCCTTCCACCTGGCCTCCTGAGTAGCTGGATCTAAAGGCATTATACCACCATGCCTGGGCTTTTTT
TTTTTTTCTCMAGTCACTTTTGTTTTTATTTATTCTAATATTATTTGTTTGTTTATTTATTTTCTTTCTAGAAATGAGATCTCACTACGTTGCCCAGGGT
GATCCTAAACCCCTGGGCTCAAGTGATCCTTCCACTTCAGCCTCCTGAGTAGCTGAGACTAAAGGCATGCACCACCATGGGCAGCTTTTTTTTTTAATTA
CAGTCACTTTTATTTTCATTTTAAAATTTTATTTATTTACTTGCTTGTTCATTACTTTTTTTTTCTAGAAATGGGATCTCTCTGTTGCTCAGGCTGATCT
CAAACTCCTGGGCCCAAGCGATCCTCCCACCTCAGCTTCCCAAGTAGCAAGGACTACAGGAGTGTGCCACCATGCCTGGCTGAGACAAAATTTACAAAGT
ATAAAATATGCCCATTGTGGTTGGGTACGGTGGCTTACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTCAGGTCAGGGGTTCGA
GACCAGCCTGGCCAACGTGGTGAAGCCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGTGTAGTGTCGCGTGCCTGTAATCCCAGCTACTTGGGAG
GCTGAGTCAGGAAAATCACTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCACACCACTGTACTCCAGCCTGGGAGACAGAGTGAAACTCCATC
TCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTACCCATTGTAAGCAATTCAACGTAAGCGATTCAATGGTTTTTTACTAAATTTAATTGCCTATTGT
AATCTCTTCAGTGTAAGGGATTCAATGGTTTTTACTAAATTTATATAATTATGTATTGTCACCATAATCCAAATTTAGAACACTTCTGTCACTCAGAAAG
TTTACTTGTACCCACCTGTAGTTAATCCTACTCTTCTAATTCCTAGCTCTAAGCAATAACTCATCTGCTTTTTGGTTCTGTATTATGTGCTGCTAAATGT
AGTTTTTTGTTTCTGGTTTCTTTCACTTAACATAATGTTTTTGAACTTTATACATGTAGCATATTCATTCCTTTCTATTGTTGAATAATGTTTTATTATT
GGATAGACCATATTTTGTTAGTCCATTCACCAGTTGATGGACATTTATATTGTTTGCAGTTTGGGAGTATCACATTAATGGTGCTGTGTACATTTCCATG
CATATCTTTGTGTGGACATATGTTTTTATTTCTTTTGGGAGTCAGAGAATTGTGTTGTATGGTAAGTTTATGTTTACTTTTCTTTTTTCTTGGAGATGGA
GTCTCACTCTGTCATCCAGGTTGGAGTGTGGTGGTGTGATCATGGCTCATTGCAGCCTCAATCTCCTGGGCTCAGGGAATCCTCCTGCCTCAGCCTCCCA
AGTGACTGGGACCACAGGTGCACACCACCATACCCAGCTAATTATTATTTTTTTATTTGTAGAGATGAGGTCTCACCATGTTGCCTACACTGGTCTTGAA
CTCCTGGGCTCAAGTGATTCTCCTGTCTTGGCCTCCCAAAGTGCCAAGATTACAGGTGTCAGCCACTGCGCCCAAACTATGTTTACCTTTTTAAAAAACA
CCAAACTGTTTTCTGCAGTGGACTGCATCATTTCACATTCACAGAGTTTATTTTTTAACATTCTCACCAGCACTAATTACTCTCTCTTCTTGATTTTAAC
CATTCTAGTGGTGTGTAGTATATCACTGTGGTTTTAATTTACATTTCCCTAATGGGTAATGATCTGAGCATCTTATCTCATTGTTAGCCATTTGTATATC
TTTTTTGGTGGAATGTCTGATCAAATATTTTTGTTCATTTAAAAAATCTGTTCGTTTTTTTTTTAAATATTGAGCCTTGAGTTCTTTGTATGTTCTAGAT
ACAAGCCCTTTATTAGCTATATGATTTGCAATTATTTTCTCCCTGTCTATGGTGGTTCTTTCCATGTATTTGGATGGTGTCGTTTGAAATGCAAAAATTG
ATAATTTTTTATTTTTTATTGATCATGCTTTTGGTATCTAAGAACTTACTTGCCTAACCCAAGCTGTTTTTTTTTTCCATTTTCTTCCAGAAGTTTTACA
TTTTCTACTCCTAAATTTAGGTTTATGATCCATTTGAGTTAATATTTATGTATGGTATGAGGTCAAATGTGTGTGTGTGACTGTCCAATTTTTCTAGCAG
AATTCGCTGGAAAGGGTATCCTTCTACTATTGAATCCTCTTGACACCTTTGTTGAAGTCAATTGACCACAAGTGTTAACAGTTTATTTCTGGACTCTCTC
TTGCCTTCCATTAATCTATATGCCTATCCTTGTGCTAATTCCACACTATCTTTGTTTAATGTGGCTTTATACTAAGTTTTGAAATCAGGTGGTATAATTC
CTCCAACTTTGTTCTTTTTCAAAATTATTTTATGTGTTTTGGGTGCTTTGTGTTGCTATATAAGTATGAGGATCAATTTTTCAATTTTTTTTKGGGGGGG
TGGGGTCGCAGGGGACAGTCTTGCTTGGTAGCCCAGGCTGGAGTGCAATAGCGCGATCTCAGCTCACTGTAACCTCTGCCTCCTGGATTCAAGTGATTCT
TGTGCCTCAGCCTCCCAAGCAGTGGGACTACAGGCATGCACCACCACACCTGGCTAATTTTTTTGTATTTTTCCTAGAAACGGAGTTTCACCATGTTGGC
CAGGCTGGTCTCAAACTCCTGACCTCGTGATCTGCCCACCTTGGYCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCCAATTTTTCA
ATTTCTACAAAAGACCTTGCTGGCATTTTGATAATGATTACTTTGAATTTATACATCAGTTTGAGGGAGAATTGCCATCTCAACAACACTGAGTTCTAAT
CCAAGAACGGAAGTTCTCTATTTATTTAGGGTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTTTGCCCAGGCTGGAGTGCTGTGGCACAAT
TTCGGCTCACTGCAGCGTCCACACCACCCCCACCCCGGGTTCAAGTGATTCTCCTGCCTGAGCCTCCCGAGTAGCTGGGATTATAGGTGCCCACTGCCAC
GCCTGGCTAATTTTTGTATTTTTAGTAGACATGGGGTTTTGCCGTGTTGGCCAGGCTGGTCTCGAACTCCTGACTTCAGGTGATCCACCCGCCTCGGCCT
CCCAAAGTGCTAGGATTAAAGGCATGAGTCACCATGCCCGGCCTATTTAGCTTTTTAAAATTTTCTTTTAGTGTTTCATAGTTTTCAGCATACAAGTCTC
ATACTTCTTTTGTTAAATTTATTTCTAAGTATTTTAATATTTCTAATGCTATTGTGAGTGGGGTTGCCTTCCTAATTTCATTTTTGGGTTGTTTGTTGCT
AGAATATAGAAATACATTGACTTTTGTCTATCTGTGTCAAAGTCAAATAAAAATATAGAGATAAATCTCTAAACAAAATGTTTTCTTTGGGAAAACAGAA
ATGTAATTTCGGGCATACAAACAGAGTAGAGTAGTCTTCAGTGTGTCTACAGAGCAAAGAGAAGGTTGAGGATTTTTTTTTTTTTTTTGAGACAGAGTCT
CGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAATCTCCGCCACCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTSAGTA
GCTGGGACTACAGGCACCTGTCACCACGCCCTGCTAATTTTTTTGTATTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGCCTCGATCTCCTG
ACCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCRYGCCTGGCCTACRAGGATTTTATTAGAAAGAGAATTGTTG
CATATTGTTTTGAAAGAAAAGTCATTGGTACTTGCAAAGTTTTTAGAAGCTGGCAAGCTCTGATTGGTGAATGACAGTGGTAGATAAAACTGGTCTTAAG
GTTTTAGCAGGTTATTTTGGCAGCTAGCTTGCAGTATAATTTCTGTGTTGGTGCTTTGTGCCCTGAGTGCTTTTCTTTTCCTCTTGTCTTGATTCTACTT
GGGTATGACAAGATAGCTCCAATTCATATAATCAGTTTTTCACACATGTATTTGGTGACATGACCAAACTTATTTATATAAGTTTTATTAGGTGTTTTTG
TTTTTTTATTTGTTTGTTTTTGTTTGTTTTGACAGAGTCTTGCTCTGTCACCCAGGSTAGAGTGCAGTGGCGGGATCTCGGCTCAMTGCAGCCTCCACCT
CCTGGATTCAGGTGATTCTCCTTCCTCAGCCTCCCGAGTAGCTGGGATTGCAGGCGCCTGCCACTGCGCCTAGCTAATTTTTCTATTTTTAGTAGAGACG
GGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTTCTGACCTTGTGATCCACTCACCTTGGCCTTCCAAAGTGCTGGAATTACAGGCRTGAGCTACCGT
GCCTGGCCGTTTTAATAGTTTTTTAAAAATYTCTTTGGGATTTTCTACATATAGGATTGTTTTGTGTGTGAATGATAACAGTTTTAYTTATCTTCCAATC
TTTTTTATTTGTTTATTCCTATTTGTTTTTTTATTTTTTTGTTTTTTTATTTGTTTATTCCTTATTGCACTGGCTAGAACCTCTAGTACAATGTTGAATA
GAAGTGGTAGAAGCCAACATACTTGCCTTGTTCCTCCTCTTAGGGAGAAAAGCATTCAGTCTTGTTGTCAAATATGTCTTCTGCATCTATTGAGATGGTT
GTGTAGTTTTTGTCCTTTATTCTTGTAATATATTGTAACACAATTATGAAGAAGTGTTTGGAGAGTAATACATTCGCTACTAGAACAGTTTAGGTTTGCT
TTTGTTAAGGTGCGAGAAGTTTTACCCACCATTGCTTTTATAACATCAGTGCAAATGCCAACCCAGTGAATAAGGTAAATGATGTCTCAATATTCCTGTG
AAAATAGTTTTGACTTTGCTGTCCTCCTGAAAGAGTCTCAGGGACCCCAAGAGGTTTGCCAACCATACTTTGAGAATCACTGTCCAGCTTGATTGTAGTG
GGTTTCTTTTTTTTTTTTTTTAACTGAACCAGCTCAAGTTTTACAGAATTAAAACATGTATGTTTATAAAGGATATGGAACTGTAATTTTCTTAGACTGT
TGCTATCTGGCTTTGAATCAAAATTACAGTAATGTTGTAAATTAACTTAAGCAGCTTTTTCTTTTATTCTATTTTCCAGCACTTTATAAGACAAAGACCA
CTTGTTTGAAAGTTTTTTAGTTTTCTTCAGTAAAGCTACCTGTGGTGATGAGGACATGGAGATGCATAATAGAGTTTTACACTTGGCAACATGTATTCAT
GTGGGAAAACTCAGTGATGAGTAACTCAAAGAGGTGCTGAGAATTCGGTGCTTGTACACCATTTCATTTATTTTTTATTTATTTTTTAACTTTTAGGTTT
GGGGTACATATGCAGGTTTGTTATATAGGTAAATTGCATGTTATGGGGGTATTATATACCATTTTAACAAAGGATGATTAATTGTGAAGTAACTAGACAA
AGGCTTGGGCTGCTAGGGGCAGTAAATTGTGTGAAGGTGACTAGGAAATGTTTGGTAAATAAGGGTTTAGTAACACTTGTCATGTAGATTCAAGTCACTG
CTGTCTCTAGTGATAAGAATGATCTCCAGTGATTAAGAATCTTCCTGGTACATGAGATAGAACACCTTTACAAATGCAAATTTATATTACTTTTACAAAA
GGGAAATTTATACCTTACTTTTAGGCAGAAAGGGGGAAGGCAGAGAGTTTGTTGCTTCTTAGTGTCTTTAGCCAAAGTGGCATACTTTAGGATAACATTT
CCTGGTCCCCTTTAGAAGAATAATACAAGATTCAGTGTCAGTGTATGGAAGCCARTCAATCCCCAATTCTGTCCTGGAGAACACAGGGAAGGCTTCAGAG
AGAAGGAAATTTGAGCTGAGAAGTGAAAAATTAACATGTATTAGGTATACATTTGGGATAAGGGTATTTAAGTTGAAACAGTAGCATATGCAAGAGAATA
GAGACATAATGGTATGGCCTTGTTTACTACTGGATGTAAAGTGTGTGCATGGTAGATTCTTGGAGGCATGATGATGGGTGGGACAAATTAGCAGGGGGCT
ATACCATGAAGAGTCTTGATTGTCATGCTCATCACTAATTTGGATATTTATTTATTTATTTGGCCATAGCAGTTGGAGGATTTTGAACAGGAGATTTATG
TGATCATCTGATAGTTTGGTCAGGGGCATCCAGACTAGAGTGACTCCATCTTGATTAAAGGCCAGATAAAGCCAAACCTCCTGGGTTACATTCCCAAGGG
GTTGGACACTGTTGGTCACAAGATGTTTAGGGTTGAGGGAACAAGTTAATGATGCTAACTAACKAAAAGATGCTTATGAAACTTATGAAATGTTTCAGTA
CTTGAAGATCAAAAAGCATTCTTAGTTTAAGAATAGGTTTTGCTTTCATACAAAATTAGCTGGGCGTGGTGACGCGTGCCTGTAATCCCGGCTACTCAGG
AAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCCGTGAGCCAAGATCATGCCGTTGCACTCCAGCCTGGGCAACAAGAGCAAAACTC
TGTCTCAAAAAATAAATAAATAAATAAATAAAAAATAGGTTTTGCTTTAAAGATAATAATGCACTCATGAATTTTTGCTAAAATCCGTAGTAACATAGGG
AAATAACACTACTGATAGCCTGTCACAGCTGATCACAAGCCTTTGTAATGAAGTACACTATCCTTAACAACCTATATAAGCAAGCAGTATGTTTAAGGTA
GGGGTGTTCCTCCTCTTGAATTCTGAGGATGTCCTGCTCTGTAATAGAGAAGTCTCTAATAAACTTCGCTATACTCTGTGACACCCTGAATTATTTCCTG
CATGAGATCCAAGAACCTGCTCTTGGGGTCTCAGACAAGACCTCTTTTCTAGCGACAGTCTTCTTTAAACATGCCACTATAGCTTGGATTTGAGCCATGA
TTGTACCAACTAAAATGCACAATAATTACTGCCATCATATTCTCCTACCTAGGTAATATCACTTCCTTTCTTGTACTCTTTACATACGTGTAAGCCACCC
ACATTTTAAATTTAATTTTTATTTTGTCAAAGAAATATGTGGACATAATTTCAAAAGTCTGTTAGTTCTTTAAAGCTAATAAAGGGATTTTGAAATTCCC
TTACCCCATTCCTACCATCCTTGATTTTTATTTATTGAAACCAACTACTTTAAATTTTTTTATCTATTTCAGTGTCAAATTAATACAACTTAATATTATT
TCTAATAAAGTCATTGTGCATTATGATTATGTCTGTTTTCTTTTGCAACTTTTTGTTTTCCTGAGGGTAATAATGGTCTCACTTTTGCATTGCTTTATAT
TCTATGTAGCAATCATTTATTCACCCCAAATTTTCTATCAGAGCTCCAAAATGTTTTTCAGTATATTACATTAGATGATTTAATCTCCTAATTTAATCTT
CTCCCCCACCATACTCCATCCTTCCAGAAACATTTCTTCTAGAGCCTTCTCGTCTTCTCCTCCAACTCAGAGTGATTATTTTCTAGTCCCCTTGCATATT
TATTTGCCATCATGGTATTTCCAGTATCTCTCTCTACTGTGGGTTCTGAATTCCTCAGATCTTCTGCCTTCCTCTTGGAAGCCTCCTGTCCTTCTGTGCC
ACGACTGCCTGTGCCAAAATATGTTGTGAGTTCTCTTCTTCACATATCTAAGTCTCTTCAGCTATGAGCCTCTGAAGGCCAAGGATTGAGTATACTTGCA
CCTTTTTGAGTATTTTAAGTGCCTGACATAGAACCTTGCAATTARCTGTCATTAAAAAATGACTGTGGACCAGGTGTGGTGGCTCCTGCCACAAGCCTTT
GTAATGCCCAGCATTTAGGGAGACTGAGGCAGGAGGGTCACTTGAGCCCAGCAGTTCATAACCAGCCTGGGCAACATAGTGAGATCTTGTCTCTATGAAA
TAATAAACAAAATTTAGCCAGGTGTGGTGGTGTGCACTTATTCCCAGCTGCTCAGGAGGCTGTGGTTGGAGGATCACTTAATCCTGGGAGGTCAAGTCTA
TAGTGGACTGAGATTGCACCACTGCAATCCAGCCTAGGTGACAGAGTGAAACCCTATCTCAAAAAGACTGTGTTTTCTGATCATGGCATGTGACAAATAA
TACAAATGAAATAAAAAATAAAAAATTGAGGGTAAAAGAAAAAACAGAATAATAAAAAGATAAAACAACAACCATAAAAATGACCATGATGATACTGGTC
TATTGAAAGTGGGGGGCCTGGTCCTTATGTAGCRTCTCTACCCATGGCTGCCTCGTAGAAACTAACTGTGTTCTAATCTTTTCTGCTATGGAAATTTGGG
CACAGGCCAGACAGCTGGGCAATTTATTGAGGAAGGAGGTAGAAAAGAAGGATTGTTACTAATACAGGATGGGTTTAATCTGTATTAGTAGCAGATTAAA
CTGTGTATTAAGTAACAGATTAAAGTATGTATTAGTAACACTTAAACTATGTATGTATTGGGCCAAAATACATAGTAATTACAGGACATTTTGCATTTCC
TGTCAACCACTAGCTCTCAAAGCTACTGGTCTAGAAATGTAACCTGTGAGTGGGCTTATAATTTGGAGCTTCCAGAGAAATCCAGAGGCCATGGGAACTA
GTAAAGACAAACCAAATATACCACAACTTCCCAGACACTATGTTATCAGGGCAGTCTATACTAGTTCCAAGGCCCATGTTTGTGGATGGCCTCAGTAGTG
GAAGTGTACTCCATTCAGAGAAAAAAATCTATAGTCTCACTGGCTGCTTTCCTTTGATTACCAAGAGATGTACTGCTTTAAGAATACATTACAAAACCAT
TATCTCCCTTTCCTTAATTCTCCAGTCTCTCCCATTCATTAATTCTCCAAATAATAAACATGTATCAGGCACTGTCCTGGACACTGGAAATATAGGCATG
CCTAGAATACCCAGAATCTGAGGCAGTGCCCAGTCTAGGGTTTTTAAATTTTTCTCCTATCTCTTTTACCAGGTTGATTCCATTAGAACTGTGTGAATGT
CAACTGCAAATAATCAAAGACAGAATTATCTTGTTTTCTTGGTGGTGGGGAGATTTACTAAGGTGTGGTGGAAAATCCTATCCTCATCTTGAGACTGGGG
ATGGAGACAAGTTGCCTGTCATGAAGGGAACTTGCTACTACGTCACATAAATTATTCCAGGGCAGAAGATTGTACTGGCTTATATTTGGCCAATTTCCTC
CCTCTCTTTATGTCTTTTCTTTAAAACCCTTGATTCCTTCCAAGTGTTCTTAGTCTATTAAATTCATGATATCTTGGGCTTGGCATTCCAGGTTTAGACC
TGTATTTGTTTCTTTTCCCTGTAAGTTGTAACTGTTGCAGGAACATGTAGCAGAGATGTTTAGATTTGGCTGGTATAATCTGCCTGGGACTGAATTATGC
TTCCTTTGCATTGCTGGTGGTCTTTTCTGCTATAAGATATAGTGAAAGGATTCAGGATTGTTCAGTGTAGAGATAATCTGTACCTCTTTATTTTTTGTCT
GGCTCAAGATAGCGCTCTCTTTATTGTGTCCTGATATAGGGTTGATAGTCACAATAGTAGTCAAGGTGGTCACGACTAAAGACTTTGGTGGGAGCATACT
GTTTCCTTAGTCTCTGTCATAGCAGACCTGCTCCCCAATATTTGTGCCTACGTCAGAGTTTTGCACCAGTCCCTAGGGTACTTATTGCTGTCCTCTCGTC
CATGAAGTTAGGCCACATAAAATGCCCTTGATTTTCTGGATACTTGACTTTTAGATCATTTGAGGATGAAGCACCACACTAAGAAAGTCCGAGGGCAAAG
AAAATTCAAGTTAGATTAGGCCTTCAAATAATGTTATTATTTTATCTTGACTTAGGGAAAGCTATGTAGCATTTCTTAGCCTTCAGTTCCTTGTCCAAAT
AAAGGGATAATAATAGTCGCTGCTTCATAGGGTGTGAGATACTACATGTAATGCTTTAAACCAGGGTTGTTAGTTTTACAAGCCAATCTTTTGGCTTCCC
TCTGCCACATAGGAAGAATTGTCTTGGGCCACACACAGAATACACTAATGATAGCTGATGAGCTTTAAAAAAAAAAAAAAAAAAAAAAAAACCCAAACAC
CTCATAATGTTTTAAGAAAATTTCCAAATTTGTATTGAGCCACATTCAAAGCTGTCCTGGACTGCATGTGGCCTGTGGGCTGCCAGTTGGACAAGTTAGC
TTTAAACCAAGCCCAGTGAGCTCTTAGTAATTGTTAGATATTATCATTGTTGTTTTAAATGCATAGCTGATTTCAGCAGAACATGAGGAAAACCCTGAGG
GACCCAAATCAGAGAGAGAAAACAACACCTAATCAATAAGAGTAGAAGTGCTAGCCAGAGCAGTAGGCAAGAGAAAGAAATAAAGGGTACCCAAATAGAA
AGAGAGGAAGTCAAACTACCCTTGTTTGCAGATGACATGATTCTATATGTAGAACACCTGATAGTCTCAGCCCAAAAGCTTCTTTTATTTTTTTGAGACG
GAGTCTCGCTCTGTCGCCCAAGCTGGAGTGTAGAGGGCCCATCTCGGCCCACTGCAAGCTCCACCTCCCAGGTTCATGCTATTCTTCTGCCTCAGCCTCC
CGAGTAGCTGGGACTACAGTTGCCCGCCACCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCATCATGTTAGCCAGGATGGTCTTGAT
TTGCTGACCTCGTGATCCACCTGCCCTGGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCCCCAAAAGCTTCTTAAGCTGATAAAC
AACTTCAGCAAAGTTTCAGGATACAAAATCAATCACTAGCAGAAAGCACTAGCATTCCTATCCGCCAACAGCAGCCAGGGAGAGAGCCAAATCAGGAAGG
CAGTCCCATTTACAATTGCCACAAAAAGAATAAAATACCTAGGAATACAGCTAACCAGAGACGTGAAAGATCTCTACAATGAGAATTGCAAAACACTGCT
CAAAGAAATCGGAGAGGACACAAACAAATGGAAAAACATACCATGCTCATGGATAGGAAGAATCAATATCATTAAAATGATCATATTGCCTGAAGCAATT
TATAGATTGAATGCTATTTCTATCAAACTACCAAGAGTATTCTTCACAGAACTAGAAAAATTATTTAAAAAATTATATGGAACCGGGCCGGGTGCGGTGG
CTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCATGAGGTCAGGAGTTCAAGACCAGCCTGGCTAATATGGTGAAACCCCATCTCT
AGTAAAAATACAAAAAATTAGCTGCATGTGGTGGTGTGTGTCTGTAGTCTCAGCTACCTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGA
AGATTGGAGTGGACTGAGATCATGCCACTCCATTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGTCATAT
GGAACAAGAAAAGAGCCCAAATCGCCAAGGCAATCCTAAGCAAAGAGAACAAAGCTGACTTCAAACTATACTACAGGGCTACAGTAATTAAAACAGCATG
GTGCTGGTACAAAAACAGGGACATAAACCAATAGAACAGAACAGAGAGCCTATTTTAAAAATCAGGGGTTTTAAAATCGTAGGCCACACACCTATGATAA
CCTGATCTTTGACAAAGCTGACAAAAACAAGCAATGGGGAAAAGACTCCCTATTCAGTAAGTGGTTCTGGGATAACTGGCTAGCCATAAGCAGAAGACTG
AAGCTACATAGTACCCCTCCTTTACATCATATACAAAAATCAACTCAAGATGCGTTAAAGACTTAAACGTAAAACTATGAAAACCCTGGAAGACAACCTA
AGCAGTACCATCCTGGACACAGGAATGGGCAGATTTCATGACAAAGACACCAAAAGCGATYGCAACAAAAGCAAAAATGGACAAGTTTAATTAAACTTAA
GAGGTTCTGCACAACAAAAGAAACTATCAACAGAGTAAACAGACAACCTACAGAATAGGAAAAAATATTTGCAATCTGCATCTGACAAAGGTCTAATATT
CAGCATCTATAAGGAACTTAAACAAATTTACAGGAGAAAAACAACCCCATTAAAAAGTGGGCAAAGGACGTGAACAGATACTTTTCAAAAGAAGGCATAC
ATGCGACCAACAAGCATAAGAAAAAAAGCTCAATATCACCGAGCATTAGAGAACTGCAAATCAAAACCACAATGAGATCTATCATTTCACACCAGTCAGA
ATGGCTGTTGTTAAAAGTAAAAAAATAACAGATGCTGGCAAGGTTGTGGAGGAAAGGGAACACTTACACACTGTTGGTGGGAGTGTAATTTAGTTCAACC
ATTGTGGAAAGCAGTATGGTGATTCCTCAAAGAGCTAAAAGCAGAAGTACCATTTGACCCAGCAATTTCATTACTAGGTATATACCCAGAGGAATATAAA
TCATTCTGCCATAAAGACACATGCACACGAATGTTCATTATAGCACTATTCACATTAGCAAAGACATGGAATCAACCTAAATGCCCATTAATGATAGATG
GGATAAAGAAAATGTGGTACATATATACCATGGAATGTTATGCAGCCATAAAGAACAAGATCATGTCTTTTGCGAGAACATGGATGGAGCTGGAGGCTAC
GATCCTAAGTAAACTAACCCAGGAACAGGAAACCAAATACCGCATGTTCTTACTTATAAGTGGGAGCTGAATGAAGATAACTCATGAACACAAAGAAGGG
AAAACAACAGACATTGAGGTCTACTTGGGGGTGGAGAGAGAGAGGAGGGAGAGGAGCAGGAAAAGTAACTATTGGGTGCTAGGCTTAATATCTGGGTGAT
GAAACAACCTATACAACAAACCCCTGTGTCAGGAGTTTACCTATGTACCTGAATATGTACCCCTGAACCTAAAAAATAATAATAATAACAGTGGGAGCCA
GCTTTGAAGCTTCCAAAAATGGGGTCAGGGAGGAGATGTGCTAGTCTCAATAACCTTGAGGGGAAAAAAGATGAGGTCTTGGCTTGTTTAGTGTAAGCAA
TTAGAATGGACACCCCCTACATACAATTAGGACCCTCAAAAGACTTCACCCTCAGTGCAGGAATGGACTAGGAAAACCACTGGCATGTACAGATAAAAAG
AACTTTCTTAATCTCATCTGGATTTTAAATAGGGCTTTTAATAAAGGAAAGACGTCTCCCTTGAAAATTTCTACCTGTAAGCCTTCACTTAACTGAAATT
GGGGGTTGGAGTTTATACTCTTTGTGTGGTCTAGAAGCTGGTTCTGGGCTGGTAATAACTCTGGCTCATCTGTCAGAAACAAACTTAACACTTCTATTAA
GTGACATACCCTCAAATCAGGTATCATAGGATTCTCATAAATGCAGCTTCACTGAAGGTAAGTTTGTAGTACAAAATTACAAACCAACCAACCAATCTCC
CCTAAGTGAAAATCAATAGATAAAAGAAACAGTTTGGAACTTCAGAAAGTAGCATTAGAGGGTGGGCACAGTGGCTCACAACTTTCATCTTAATACTTTG
GATGGCTGAGGCGAGTGGACTGCTTGAGCCCAGGAGTTCGAAACCAGCCTGGGCAACATGGTCAAACCCTGTCTCTACAAAAAAATACGAATGTTAGCTG
AGTGTGGTGGCTCATGCCTGTAATCCCAGCACTTTAGGAGGCTGAGGTGGGAGGATCGCTTGAGCCCGGGAGTTCAAGACCAGCCTGAACAACATAGTGA
AGTCTCATCTCTACTAAATTTTTTTTTTTTTAATTAGCTGGGCATGGTGGTGCATGCTTGTTTTCTCAGCTACTTGGGAGGCTGAGGTGAGGATTGCTTG
TGTCAGGGAGGTCAAGGCTGCAGTGAACTGTGATTGTGCCATTGCACCCTAGCCTGGATGACAGAGTGAGAACCTGTCTCAAAAAGAAAAACAAAGTAAC
ATTAGAGATTAAGACTGTAAGATTAGTATATTTAAAATTATTAAGAATATAAAAGAAGGAGGCTGGACATGATGGCTTATGCCTGTAATCCCAGCAGTTT
GGGAGGACAAGACGGGCGGATCACTTGAGCCCAGGAGTTCAAGACCATCCCAGACAATATGGTAAAACCCTGTCTCTACAAAAAATACAAAACTTAKTCA
GGCATGGTAGCATGGGCCTGTGGCCCCAGCTACCCTGGAGGCTGAGGTGGGAGGATCACCTGAGCCCAGGAAATAGAGGCAACAGTGAGTGGAGATTGAG
CCACTGCACTCCAACCTGGGTGACAGAGTGATCCCCTGTCTCAAAACAAACAAAAAAGAATATAAAAGAAGGAAACAGAAACAAGAGAAAAAAAGACCAA
ATATATTTGGACAAAAAGCTAATTAGAATTCGAGGAATAAAATATATGTATTGTGTTGTTGAAATTGAAAATGCAACAGTCGTGTTAAATAATAGAGCTG
TGGACAAAGTAAAATTTTTATCAAGAGTGCAAGACAGAAATGGGAAGATATAAACTATGAATGAAAGCTAAGAAATACAGAAGATATGATCAGATGGTCC
AACAGAATATGGAGAAATGGGAAGAGGCAGTATTCATAGAGATAATGACTGAGACCTTCCAGAACTGATTAGAAACAAACAAGGAACATCTTGAAGCATG
GTGAGTCCCCACTATAATAAATAAAAATAAATCCCCATCTAGMTACATTGCAGTACTGCAGAGCCATGAAAACAAAGAGAATATCTTAAAGAACCCTCAA
GAATTCACTAAAGTAAAAGAGCTCAGCAAGAAAGTTCACTCAAGAAAATTGAAAATATATGTTCATGCAAAAACTTGTAAACAAATGTTCACAGCAGCAG
CATCTATGATAACCAAAAAGTAGTAACAACCCAAATACCTTGTCATTTTATGAAAGGATTAACAATTGTGGCATGGAGAATTTATGCATGCCACAACATG
CATGAAAACATGCTGAGTAAAAGAAGCCAAAGACTACATAATGTATGATTCAGTTTCTGTGAAATGTCCAGAATACGTAGAGTCCACAGAGACAGTGAAT
CCATAGAGACAGTACGTTGGTGGTTGGTTGTGGGGAGAATGGGATGGAGAATGACTGCTAATGGGTACAAGGTTTCTTTTTGGCAATGAAAATATTCTGG
AATTAGATAGTGGCAGTGCTTGCACAGCCTTGTGAATATACTAAAAATGAATGAGTTGTACATTTTAAAAGGGTGAATTTTATATTGTTGGAAATATATC
TAAAAAAATAAGTTAATGGTTAAAATAAAGCAACCAGACAGAAAAAGAAAAATTAAGTACAAAGGAACAGCACTTATGCTAAGAGTAAGCTTTTCAACAG
CAATAACAGGAGCCATAAGACTACAGAATAATATTTTTAAAGTATTGAGAAAAAAGTTACTCTGAACAAGACACTAGAATTATCCATACTTGCTAAATTA
GCAGTGGAAGTGAGTGACCAAAAAAAGCCATTTTCAGACCATCAAAAACCAAGAGAACAAAATCTATAGAGAAGATTTATTACTATCAGATCCTCTCTGA
AATAATTACTACAGGATATATTTCAGAAACAAAGAAGAAATACATGAGATCCCAAGAGGGAATGTTAAGCAGTGAAATTAGAAAATACATGAGTAAATCT
AAGCAAGCAATTATTGTATAAAATAATAATTACTAATTTGGCAATGTAAAAGTAAGATAGACCTGAAATAATAGATTGTAATAATAGGTAAGTTGAAAGG
GAGTGGGAGGATTGGAGTTAAAAGCGATCTAGGATCTTTTAATTTTGTTCAGAAAGAGAGTTGAGGTGCTGGTTAACTTTAGACATTGTTGAGACAAGAA
CACCTATTAAACCTTGAATAATAACAACTACTTTAGGACAGAAAAAAACAAAACAATATGTAATTTCTAAACCAATAGAGCAGAGGTTAAAAAAAAAAAC
TTGATTAATTCAAGGAGAGTTGCCATCAGACTTGGAGGAAAACTTTACCTTAGAGCAAAGACTTTTCTCCTAGTTCCTCTGATGCCTGCTGCCCTTGCGG
GGAATTCTRACTACCTGCTTCTGTGGAAATACATTCATTTGTTCAATAAACACTTGTCGAAAACCTCCTATGCCCTGTGTACTATTTCTAGGTGATTGGG
ATACCTCTTAGAGCTCACTCTAGAAAAGAAGAAACAGACAGTAAACATAGTTTATGTAGTATGTTAGAAGATGACAAATGCTATTGGGAAAAAAGGTAGA
CCAAAGGGGATTCAGGAAAACAGAAAATTGGGAAGGTGACATTAGAATAAAGCCTTGAAGGAGTGAGGGATTTTGCCATTGTGTAGTTGAAGGAAGGACA
TTGCAAGTAAAGGGAACAGTTAACGCTGGTCCTAGTAGCTAGAAGTGCCTGTGCAAAATTAGCAGCCTGTGGAAGGTTTTGAGCAGAGGAATGAAATAAT
CAGATGTGTGCTTTAAAAGAATCACTGTGGCTTGCTCATATTAAGAACAGATTAGGGTAGAAGACAAGAGTAAACCAGAGAGACTAGTTAGGAGGGTATT
GAAATCCAGGTAAGCAATAAATAATATATCAATAATAATATAATGGATACGTAATAATATCTCCCTTTATTGGGGAGGGAATATGTATTTTTYTCCCACT
CTCACTTCCCCATCTTAACCAGGACATCTTGGTTGTTACTCTGAAATATTATAGCATCTGGAAGTGCTTGACTGTAACCAGCTCCACATTCTTCTTTATA
TTGTTTACACTTACTGAAACAGAAGTGATCTTTTCCTCATTCTAAATTCTAAAAGGTGCCTGCCAAGTACTATCCAGTCACGGAGTGCTCAAGTTCCTAG
GAGCAGCTAGACCTCTGAGATTTGGAGACTGGAGAGACCTAAGGGATCTGCAACCAGACATCTTATTCCATACCCTTTGTTGCTTCACAGTGGGAAGCAG
GCTTCCTAAGTAAATTTACAGCAGCTCTTGCAGGGGTCAGATTTTCCGAGTGCCTGCTAGTTGCTGGAGGGAGGGGTTTTTGAAGGCTAGAAACGATCTA
CTACTCTCCAAATGTGGTTACAATTCAACATTGTCACAGAGAATGCACGATATGCCTTAGCCCTTGTTCTTGCTGTTGACTGAGATGACCATGGCGAGGT
ATGTAAGAAATTGAAATGCCAAGTCTCACTCCAAGTAGCCAAGTGACTGGGATGATTTAACACCAGTCTTTGCATGAGGTAGCTCCGGGGGCTTCCAGGC
TACCACCCRTCCGCTGAGAGTTAGTGTACCCAACTCTGCAGATATCCAGTACTTCATCTTACTGGAATGAAAGAATTAAGACTTGCCCTTTATCTTCTTA
GGATCCTGGGGAAATGGCCAGAGCCTGTTGAAATGGAAAAATTAGCCAGTTCCTTGTTGTGGATCTCAGCTGAGTCATGGTATCTGTAGCAGAGTGTCTG
ACCTTTTTTTCCCCTGGCAGCTGTTAAAGATTTGCCAAGTGAGATTATGTGTACCTTTATAAAAAGGCATGTGGCCTGGAAATACGATCTTTAGTGTTTT
GGCTTTTATTTTAAATTTTAAATAAGGTTAAGGCAAATGAAGCTGGAATTAATTATCCGTCCCTGAAGTTTCAAGACATTTTCACTTTCAGACACAAGGA
TTTAGATATAACAGTTTGATTTACCTTTCATAGGCCAGGTATACATGTATCTTCTTTATTTTAATCCTTGTAACAAATCATACTCATCCATTCATTTAAC
AAATACTTATTGAGAGCCTACTGTGTGCCAGGCAGCGTTCTAGGTATTGAGGAGTGCAGCAGTACACAAAGCATACAAAAGCCCCTGCCCTCATACAGTT
TAATTTCTGATGAGAAGAGAGACAACAAAATGAATGTGCAAAATATATACCATCATATATATATTGGGGATTAGTTCCAGGACCCACACGGATACCAAAA
TCTGCAGATGCCCAAGTCTCTTATATAAAAGAGCATACATAATATTCGCATATAACCTATACACATCTTCCTGTATACTTTAAATCATCTCTAGATTATT
TATAATATCTAATACAAAGCAAATCCCTGCAAATAGCTGTTATACTATATTTTTAAAATTTATATTATTTTAAAAGTTTTAAAAAATATTTTCCACCCAT
AGTTGGTTGAATCCATGGATGTGGAACCCACATGCTGACTGTAGTGTGTTAGATGATGATAAGTGCTAGGAGAAAAATATATCAAGAAAGGGGGATAGAG
AGTTTGGGAGGGTTTGCAATTTTAAATAGAATGATCGGGGAAAATTCACCCAGAAGATTGTACTTGAGCAAAGACCTGAAGGAAGAGGGGAGCAAGCCTT
GAGGCAACCTGGGAGAAACATAGGCAAAGGAAATCCCAATTGTAAAGGCCCTGAGATGGGTGGCTCGCTTGGCATTTTCTAAGAAAGGCGAGGAGGCCGG
TGTGGCTGGAGAGTGAGCAGGAGGGAGAGAGGTCATGGAGAATCCAGACCATATAATGCCTTGTAGGCCATCATCAGAACTGGCTTTTTCTCTCAGTGAG
ACAAGGAGAATTTTAAATGGAAGAGGGACATGATGTTGCTTACATTTTAAAATTTTTGTATAGTTTTATTGAGGTATGATTGGAATATAATAGATTGTAT
GACTGTGATAATGAACATGAAGATAATGAACAGATCTATAACTCTCAGAAGTTTCCTCATGACTATCTATAATCCATTCCTTGCTTCTCATTGGGCAACT
ACTAATCTGCAGTCTGTCACTATAGATTAGTTAGCATTTTCTATAATTTTATATAAATGGAATTGGATCAACTAAACAATTTGTCCTTGTGAGTCCCACC
AGTGAAATTTCTTAATTGTGGTGGGTCAAATTCAAATTTTATTTTTTTAGTGGTTCTACTTTTGAGAAAATTTTTATTTCACCTCTCCCAATGGATAGAT
GTTTATTTCAAGATACATTGCAACCTATTGTCAACACTTCAAACCTGCCAATCATTGACTTCTTGAAGGAGTGTAATTTGTTATCTATGGCTCCTAAATG
TTCCTCATATCACCAACCCTTACTGTGGGTGGTACAATGCCAGTATAATAAAGACAGCTATTCATGGAAATTTGTTCACTGCAATTGCCAATCAGCATGA
GTCTGTCTTTGAAAGGATTATTTTTTCACAAAATCCAGCATTTCCCTGAATAAGTGGCTTCATCTTCCCTTGTTATGGTCTATGGAAGTCACAGAGAGAG
CAACTACTGCTGTTACTGGAATTTCAGTCCATACTATGGTCAGTGTCCACAATTTCTGTCACAAAGTATGCAAGCATTACTTTGAACTACATCCGATACA
GCTTAGTGGTTTAGGTCATTACTTGCAAATCAGTGAGTCCTGTTTTAGCCACGAAATCAAGTGTCACTATAGCCATGCTCTGGAGAGAGAAATAATGGGC
TTTTGGTATGGTGGATACACCCATCAGCCAGCTATTGGTTATTTGGAAATTTTTGGTGACTGTTCTGCCCAAACCTTGCCACCTATTTTGCAGTGCCTAG
TTGAGCACAGTTCATATCATCTCTTGGCATACATACCCAAAACATCTAGTGCTATTGAAATAAATGCAAAGCAAAGTGCAAGACCATGAGAGGAATTCGT
CACAATGTGTTGGACTCGTATTTGGTCGAATTTATGTGGGATGATTGACTTGGAAATAATGTTTTCAATTCCCTTTTAGCGCATGTGTCAGAACAGTCTC
CTGTTAAGTAACATTATGTTTGACTTTTGTTTTTAGTATATTTTAGTATAAATATCCAGGGACAAATTTTTTGATTGAATACACCTGAGAGGCAAATTGT
TCAACTCATCCATGAAAGCATACAACATACTCTTTTTTGTCTGGCATCTTGCTTTCAGCATAATTATTTGTGAGATTCATCCATTGTGTGAATCAATTAT
TCATTCCTTGTTATTGCTGAGTAGAATTCCATTATATGGATATACTGTGATTTGTTTGTCACTCATCTGTTGGTGCATATTTTAGGTGGTTTGTAGTTTC
GGGCTTTCACAAATAACAGCATATAAGTGGATCCTGCTATTTTATCCAGTCTGACAATCTCTGCCTTAACTGGCTGTGTACTTAGAACATTTATATTTAA
TATGATTATTGGTATGATTGGGTTTAAATATGTTATTTGTTTTCTAATTGGCCCAACTGTACGTGTTCTTCTTTTTCTGGCACAATCATTGGCTCACTGT
AGCCATGAACCCCTGGAGTCAAGCAGTCCTCCTGCCTCAGTCACCCAAGTAGCTAGGACTGTAGGCATGTGCCAACATGCCCAGCTAATTTTTTTTAATT
TTTATTTTCTGTACAGATTTGAGGAAGGAAAAGGGGTATTGGAGGTTTAAGGAGAAAATGTGAATTAGTTGTCTTGGAGAGTGAGCAAACACATTACTCT
GGTAAATGTGCTAAGATTGTCAGGCAGTAATGAGGCCCCACTTGATGTTTGTCACTGTGAATATAAAGACACATCAGCCAGCATGATTCTGGGTTTTTCT
TCAGTCACTCTAAGTTCCCAGGTGCAGTTGCAAAATAGATGGRAAGCTTGGTTGTAAAGGGTTGGGATTTCGCCAGGACTTTGGTGTCCTTGGGAGGTAG
CAACGTTTCATTTGGAGCTAGAATTTAAAGCAGACACTCAGAAGAGAAATTGGGGATATAGGCAGTTTGCTGATGACATACTGAGTTCAAGGAGGCAAAG
TATAAGCTTTTCTCAAAGGTTCAGAGTAGTGGGAGACTGTCAGGTTAGAGAGTGGAAGGCATTCCATGGTGACTGAGGTAGTTAGGGGTATGGGCATGAT
TGGATTCCTCCTGATGGTTTCTTAGGGGAAAATGGTTATCATTTCTAATGATAATCTCTTTCTTGAGATTGATCTCATTCCTTCCATCAGCCCTACAGAG
TCTGGCTGTGGCCTTCCCCATAGCTTCTATAACCTACTTCTTTTTCTGTCATTCTCCCCTCCTGTCATCCACTCTTGACTTCTTTGCTATTTCTTGAACA
TCCCAAATTTGTTCTTGTCTCAGTGCCTTTACCTTTACTTTTCTCTCTGCCTCTCAGCTCTACTTTTGTCTGAGTCCTTCATATCATTCAGCTCTCTCAT
CAGACTTCACTTCCCTAGTTAGCACTCCCACACCAGTCTCTTATTTCCTTTCTCCTTTTCTCCCTCTCCCTCCCTCCCTCTCTCTCTCTCTCCCTCTATC
CCCCTCTCCCCCTCTCCCTCTCTCTCCCTCTTTCTGTTCTTTCTTCCTCTTCCTTTTCCCACAGCACTGTTCACTCCAGTTATGAGGATAGAGACTGTTC
TTTTGTTCCCTACTGCTTCCCTCCTAAGACACTGCCTAGTGTGTAGTAGGTGTTCAATAAATATTTGGATGAATATAAATGGCAAACTTCCCTAATGCCT
TCAAAAGATAGACTGACTTTCAAATAAATTGATATAGACTTTTCAGTAATAGATGTTGCATGAAATGGCTTTTCATCACCATCTGGTTTTCTCCAACCAG
AAGAAAAAGCTTCAGACATTAACATGTAGTGGAAAGCCCGTTTATAGAAGAAACCCAGGGCTGTTCTGACATTTATTCTGAAATGAGAATATTACTTAAT
TCACGGACTAAACGTTCTAAAAATAATAATTTCATAGATTAATAGTTTTGGGGGGTTCTTAGAGAATATGAGAATATTTTGACTTGTGCTTTTTATTTTG
TAAATCAATTTGCAGTGGTCATTCTTCATTAGATACTGTTTAAAACATGGTTTTTGCCCGTAGGGAGCTCCTTGTGTTTGCTTGGGAAATAAAACTAAAC
ATTGGAAAAGCACAGTGGCAATACAAGATGAAAGTCAAGGCAGTGAAAAAAKTTATTCCAAGGAGGAACACAGTGCTTTATGGAATCTAACTGGTGCCGA
GTGTAATTGCTGACCCAGTTCAGTTTAAAGAAGTATACTGTGCGGCCCGTGRAATGGTGTCCCTCTTTAGTTCCTTAAAAACCACTCAAGGTCTCTGGGC
CCATGGTGTGGCCCTATTATAATTCATATTTTGTTTTCATTGCAGTTGTCGGACAAGTAACCGCAAGAGCTTGATTGTGACCTCTAGCACATCACCTACA
CTACCACGGCCACACTCACCACTCCATGGCCACACAGGTGAGTGCTTGAAGGTTAAGAAAGGTTGAATGAAAGAGTGGCCACAGATGCCCAATTTCTTTC
CTACTTCTCATGTTGTGCAGTTCCGTATATTACATTGTCACTTTACTTGGCTGACTGAAGCAGACAGAGCTCATGGGCTTGCTTTCTGTACGAGAATGAG
TTAGCCTGCTTTTGACTCTTAGTTGTTTCTTACCTTGTTCTCTCAACATTCCTTTTAGTCTTGTACATATCTTGGGGCCAGGTATGTGTCCTGGGTTTAT
GGCCTCTGTTCTAGTGTGTTCTAGTGTGTTACAGCTCCATTCGTCTTGGGTCATTTGATGAGGAGTCCACTAATATTTTGTACTACCRTGCCCAAGGATT
AGGGCTCACAGAGAGGGTTTTTCGTCTAATGGGACTCCTGTTAACCTTCCTGCTCTTAGATTAGGAGATAACAAAAGCAAGAGGAGTATGTGTTTGTTTG
TTTGTTTTTAAATAGAAACGAGGTCTCTCTATGTTGCCCAGGCTGGTCTTGAAATCCTAGGCTCGAGTGATCCTCCCACCTCATCCTCCAAAGTACTGGG
ATTATAGGTGTGAGCCACTGCACCCGGGTTGGAGTATTTGTTTCATAATGATACTGATATTACATACTGGAATTAAAGCAAATGACCTCATGGATTCAGG
CTGCTCTAGCCCTGGAATATGGGCTCTTCCCGACAGTATAAGGACTGATTTACATGGCTCTGAAGAATAGATAAAAATTATGAGGCAGCTGGGCACAGTG
GCTCCCGCCTGTAATCCCAGCACTTTGGGAAGCTGAGATGGGCCAATTGCTTGAGCTTAGGAGTTTGAGACCAGCCTGGGCAACATGGCAAAACCCCGTC
TCTACAAAAAATACACAACTTAGCTGGACATGGTGGTGTACACATGTAGTTCCAGCTACTTGGGAGGCTGAGGTGGGAGCATCGCCTGATCACCTGAGCC
CATGGAGGTTGAGATCATACCACTGCACTCCAGCCTGGGCAGCAACAGAATGAGACCCCATCTCAAAAAGAAAAAAAGAAAAGAAAAGAAATACGAGGCT
TCCATTGATTCTGGCACATTGTCCTTCCCAGAGAGGGGCAGAAGAAAGACCTCATCGGAGTCAGCCATGTGCTTCTGTGTAGAAGGTATATTCTTGTATC
CCAGGGGAACCAGGCCACGGGACTCAGCTTTGCTGAAAGGGCTGCAGCACTTCTGTGCAGTTCATTGCTACACTCTTTATAATGGAAGATCTAAACCTAC
AGTTAGTGGCAATTGACARACTTAGAACTGTTCAGAGCTTGCTGCCTGGGCATAGAAAGCCATGGTCACTGTTGTCCTAAGCCTGGACCTTGTCTGTCTT
TGGGCGTTAAAGCAGGATATCAAAGCAGTGAAATGGGTCAGCATCAAGCTGAGTAAGATGTGTATATTCTCCATGAATTTGTTTCCTTGCTCACAGTTTA
CTGTCTTTGGAGGGAGAAAGTGAGGGTACATGTGGAGTATTTGAGGGTCCTGAGAGTCTGGTGATTCTGAAACTGAACTTTGTCCTTGGGAGAAGGATCT
CACCTTCTTTGGCTCAGATTCTCTTAGCCTAGAAGCCAGCCTTTTAGTGTGATGATGGCCCCTTTCCAAGAATCAGTAAATCTCTCAATCACAAGCTGTC
ACTTTAGAAGATACCACCAAGAGAACAGGGATCCCAGGGAACTGGAGACATACTTGACCTTTAAAGCAAAGCTCTCATTGTGCTTAGGTGCTTTCCTCTA
AAAAAATTGACTGAAATTAGCTGGATTAGCTCAAACAGCACATCCTAGATTTTTAGAGAAACTCAGCATACATCTATCTGACCTGACCTTTTTATCATAT
AGGAATAAATTTAACATGTCTAGACCTTGTATATAGTTGCACAACTAATGTGAGTACTGAGCAGTAGTTACTACTGGCTGCTCTTCTCTAGATGATTATC
TCTCTATTTAGATTCTCCACAGTTAGCATTTAGAACTAAATCTTCCTACTCAAGTGGATTTGATTGAGAACACCACCTGGCCTTTTCAGCCTGCCTGGAT
CTGTAGACTCCAGCTTTGAGTTAATGTGTGTAACATGCTTAGTACTTTACAAATGTTAGCATCTGTATTATCTCTTAGCAAATCACTGCAGAAAATCTAG
GGGGCAAGAATGGACATAAAAGCCCAGTTTGTGACTGTAGACTATACTTATCCAGCTGTTGAGACAGGCAGCACTGATTGTTCCACGCAGATCCCACATG
GCATTAGATTATATCCTCAAATCTTTTTTTTTATAGATAATTTTATTATACTTTAAGTTCTAGGGTACATGTGCACAACTTACAGGTTTGTTACATATGT
ATAGATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCCCATCCCCCCACCCCACAACAG
GCCCCGGTGTGTGATGTTCCCCTTCCTGTGTCCAGTGTTCTCATTGTTCAGTTCCCACCTATGAGTGAGAACATTCGGTGTTTGGTTTTTTGTCCTTGCG
ATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATAT
GTGCCACATTTTCTTAATCCAGTCTRTCATTGTTGGACATTTGGGTTGGTTCCAAGCCTTTGCTATTGTGAGTCATGCCGCAATAAACATACAAGTACAT
GTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATC
GCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCC
TGACTTTTTAATGATCGCCATTCTAACTGGTGCAAGATGATATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTC
RTGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCGCCCACTTTGTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTT
GTTTGAGTTCTTTGTAGATTCTGGATATTAACCCTTTGTCAGATGAGTAGATTGCAAAAATTTTCTCCCATTCTATAGGTTGCCTGTTCACTCTGATGGT
GATTTCTTTTTCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTAGACATGAAGTCCTTGCTCAT
GCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTA
TACGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTGTTAAATAGGGAATCTTTTCCCCATTTCTTGT
TTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTATTATTTCTGAGGGCTCTGTTCTGTTCCATTGGTCGATATCTCTGTTTTGGTACCA
GTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGATAGCCTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGTCTTGGCA
ATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCCCTGGTAGCTTGATGGGGGTGGCATTGAATCTAT
AAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCTATCCATGAGCATGGAATGTTTTTCCATTTGTTTGTGTCCTCTTTTATTTCATTG
AGCAGTGGTTTATAGTTTTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTTGGTATTATATTCTCTTTGAAGCAATTGTGAATGGGAGTT
CACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGATGTATAAGAATGCTTGTGGTTTTTGCACATTGATTTTGTTTCCTGAGACTGCTGAAGTTGCCTA
TCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTG
AATATCCTTTATTTCTTTTTCCTGCCTGATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGTCA
GTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAAAACTGGCTGTGGGTTTGTCATAATTTATTGAGAGTTTTTAGCATGAAGTGCTGTTGAATTTT
GTCGAAGGCCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTACGTTTATTGATTTGCGTATGTTGAAC
CAGCCTTGCATCCCAGGGTTGAAGCCCACTTGATCATGGTGGATAAGCTGTTTGATGTGCTGCTGGATTCAGTTTGCCAGTATTTTATTGAGGATTTTTG
CATTGATGTTTATCAGGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTCTCTGCCAGTCTTTTGTATCAGGATGATGCCGGCCTCATAAAATGAGTT
AGGGAGGATTCCGTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATAGTACCAGCTCCTTCTTGTACCTCTGGTAGAATTCAGCTGTGGATCCATCT
GGTCCTGGACTTTTTTTGGTTGGTAAGCTATTAATTAGTGCCTCAATTTCAGAGCCTGTCATTGGTCTATTAAGAGATTCAACTTCCTCCTGGTTTAGTC
TTGGGAGGGGGTATGTGTCGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTCATTTGCATAGAGGTGTTTGTAGTATTCTCTGATGGTAGTTTGTAT
TTCTGTGGGATCGGTGGTGATAACCCCTTTATCATTTTTTATTGTGTCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCAGTCTATCA
ATTTTGTTGATCTTTTCAAAAAACCAGCTCCTGGATTCACTGATTTTTTTGAAGGGTTTTTTTGTGTCTCTATCTCCTTCAGTTCTGCTCTGATCTTAGT
TATTTCTTGCCTTTTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAACTTTAGATCTTTCCTGCTTT
CTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACGTACTGCTTTAAATATGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCGTTGGTTTCAA
AGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGGGCGATTTTGAGTGAGTTT
CTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTGTGAGAGACAGTTTGTTACAATTTCTGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACT
ATGTGGTCAATTTTGGAATAGGTGCGGTGTGGTGCTGGGAAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCCACTT
GGTGCAGAGCTGAATTCATTTCCTGGATATCCTTGTTAACTTTCTGTCTCGCTGATCTGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTAT
TGTGTGGGAGTCTAAGTCTCTTTGTAAGTCTCTAAGTTAAGGCCTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCACATATATTTAGGATAGTTA
GCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTCTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGAT
TGCAACCCCTGCCTTTCTTTGTTTTCCRTTTGCTTGGTAGATCTTCCTCCATCCCTTTATTTTGAGCCTATGTGTGTATTCAGTATTAAATATCTACTAC
ATAAGTAGGTTACAGTGTCAGTAATGTCAGTTCAGTAGGTACATACCCAGCCATTCGAGAAATGGAAACTCCCTACCTTATTTTTTTTTTAATTATTTCT
TAGAGTAGTTTTAGGTTCACAGCAAAATTGAGGAAGATACTGAGATAAACCATATACCCCCTGCCCTCACCTATATATAGGCTCCCCATTATCAGCTCCC
TACCAGAGTGCTACATTTGTTACAGTTGATGAGCCTACACTGACACATCACCCAGGCACTAGTTTACATTAAGATTCACTGTTAGTGGTATACATTTTGT
GTGTCTGGRCAACATTATCATTTACCATTATAGTATCATACAGTCTTTTCACTGTCCTAAAAATTATCTGTGCTCTGCCTATTTATTTCTTTCTCCCCTT
AACTCCTGGCATCCAGTAATCTTTTGACTGTCTCCACAGTTTTGCCTTTTCCAGAATGTCATATAGTTGGAATCATACAATAGCCTTTTCAGACTGGCTT
CTTTCACTTAGTAATACGTACTGAAGTTTCCTCCATGTCTTTCCATGGCTTGATAGCTCATTTCTTTCTGAATAATATCCTGTTGTCTGGTTATACCACG
GTTTATTTTTATCCACTCACCTACTGAAGGGCATCTTGGTTGCTTCTAAGTTTTGGCAATTGTGAAAAAGCCGCTATAAACATCTGTGTATAGGTTTTTG
GGTAGACGTTAATTTTTAACTTATTTGGGTAAATAAGGAGCACAATTGCTATATTGAATGGTAAGAGTGTATTTGATTTTGTAAAAAAMAAAMAAAAAAA
AACTCTTCAAGCTGGGCGTRGTGGCTCACGCCTGTAATCCCACACTTTGGGAGGCCAAGGTGGGCAGATCACTTAAAGTCAGGAGTTCAAGACAAGCCGG
GCCAACATGGTGAAATGTCGTCTCTACTAAAAATAGCCAGACATGGTGGTGTGCACCTGTAATCCCAGGTACTTGGGAGGCTGACGCAGGAGAATCGCTT
GAACCAGGGAGGTGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGCAAAAGAGTGAGACTCTGTCTCAGAAAAAGAAAAAGAAAAA
CTCCCAGGCCGCCTTCCAAAGGGGTGGTACCATTTTACATTCCCACCAGCAGTAAATGAATAGCTCCTGTTGCATCATATCCTTGCCAGCATTTGGTGGT
GTCAGTGTGTGGATCTGGGTCTTTTTTTTTTTTTTTTTTTTTTTAAGGCAGGGTCTCACGCCATCATTCAGGTTGGAGTATGGTGGCACAGTCACAGCTC
AATACAGCCTTGAGCTCTTAGGCTCCCAGATTTTGGCTATTCTAATCTATGCGTAGTTGTATCTCATTTAATTTTCAATTCCTGGCGGAGCACGATGGCT
CACACTTGTAATCCCAGCACTTTGGGGAGGCCCAGGCAGGCTTTTTTTTTTGAGAGAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGATGCGATC
TTGGGTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCATCCTCCCGAGTAGCTGGGACTACAGGTGTGTGCCACCACACCCAACTAA
TTCTGTATTTTTAGTAGAGATGACGTTTCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCACAAGTGATCTGCCTGGCTCAGCCTMCCAAAGTGCTAGG
ATTACAGGCGTGAGTCACTGCACCTGGCCTTGCATATAACTTTTGACTGCCCCGAAATTTAACTACTAATAGCCTGCTGTTGACCAGAAGCCTTACTGAT
AACATAGTTAATTAACACATAATTTGTATGTTTTATGTATTATATACGATACTCATAACAAAATAAGCTAGAGAAAAGAAAATTTGTTAAGAAAATCACT
GGAAGAGAAAATATACTTACTGTTCATTAATTGGAAGTGTATCATCATAAAGGTCTTCGCCTCATCATCTTCACATTGAGTAGGCTGAGGAAGATTAAGG
ATTAGTCTTGCTATGTCAGGAGTGGCAGAGGCAGAAGAGGTGGAGGAGGTGGAAAGGGATGCAGGAGTGGCAGGCATACAACTTTTACTGAAAAAATTTG
TGTATAAGTGAACCCGTACAGTTCAAACCTGTGTTGTTCAAAGGTCCACTGTAATCCAAATCAACCTTCAAATACCACTATACCACTTTGCCTTATGATG
GCAAAATACACCTAAATCCTCTCTTCAGTACCTTGTAATTTTGCTGTCATTCATTTCACTTATATATAAGCACATGTGTGTACGTGTGTGCATAATGTAT
GTAAAAGCATACCTAATCACATACATTGTTGCTGTTACAGATTAAGCACCCCCAGTCCAAAAATCTGAAATCCAAAATGCAAAACTTTTTAAGCACCAAC
ATGAACCTCACAGGAAATGCTTGTTGGAGCCTTTTAGATTTTGGGCTTTCAGATTTGGGATGTTCAGCTGGTTAGTATAATGCAAATATTTCAAAATCAG
AAAACAAATTTGAAATTTAAAACACTTCTGGTCTGATAAGGGATACTTATCCTATATTATGTTGAACAGACTTATCTATTAGACAAATTAAGAATAAGAA
AAACAAGTTTTTAGTTTACCTTCATCACTTCTCCAGTGTGCTTGCTTGTTTCATGTAGAGTTCACTTTCTCCCCTATRTAATTTTCTCTCTGAACAACTT
CTTTTAACATTTCTTGCAAGGCAGATCTACTGCTATAGAATCCCCCATTTTTTGTTAGGGAAAATCTTTATTTCTTCTTCACCTTTGAAGTATAATTTCA
CAGGGTACAGAATTTTAGGTTGCTTGCTTGGTTTTTTTGTTGTTTTTTTTTTTTGTCTCTCAACAGTTTTAATATTTCACTCCACTATCTTCTTGCTTGT
GCGGTTTGTGAGAAGTTGGATGTAATTCTTGTCTTCGCTCCTCTGAAGATAAGGTGTTTTTTCCCTCTGGCTTCTTTCAGATTTTTGTGTACCTTTGGTT
TTCTATAGTTTGAGTATGATATGTCTAAGTGCAGTTTTTTTCTGAATTTATCCTGCTTGGTATTTTCTGAGTTTCCTGAATTTATGGCTTTGTGTCTGAC
TTTAATTTGGGGAAAWTTTATGTCATTATTGCTTCAAATAATTCCCTTCCTTTCTCTCTTTTTCTTCTTGTATTACTGCTGCATACGTATCACACCTTTT
GTAATTGTCTCACAGTTCTCGGATGTTCTGGTGTTGGTTTTTTTTTTTTCGGTCCTTTTTTCTTTGCTTTTTAGTTTTGGAAGTTTCTGTTATCATATCC
TCAAGATCAAAGATTATTTCCCCAGCAGTGTTCAGTCTATTAATGAGCCCATCAAAGGCATTCTTCAGTTCTGTTACAGTGATCTTTAACATTTTCTTTT
GATTCTTCCTTAGAATTTCTATTTATATTATCCATCTGTTCTTGCGTGTTGTCTACTTTTCCCATTAAAGTGCTTAGCATAATTAATCATCGTTTTGAAA
AATTCCTAGTCTGATCATTGCAACATTCCTGTCATATCTGACTCTGGTTCTGATGCTTTTTCTGTCTCCTCAAACTATTTTTTGCTTTTTAGTGAGCTTT
GTAATTTTTTTGTTAAAAGGTGGACGAGATGAACTGAGTAAAAGTAGCTGTGATAAATAGGCCTTTAGTAATGTATTGGTAAGGTGTAGGGGAGGAGAAG
TGTTCCATAGCAGGGATCCGCAACCCCTGGGCCACGGACCGGTACTTCTCATGGCCTGTTAGAAACCAGGCCACACAGTAGGAGGTAAGCGTCAGACAAT
CAAGTGAAGCTACATTTGTATTTACAGCCGCTCCTTATCACTCACATTACCGCCTGAGCTCTGCCTCCTGTCAGATCAGCTGCAGCATTTAGATTCTCAT
AGGACCATGAACCCTGTTGTGAACTGTGCATACAAGGGATCTAGGTTGCACACTTCTTATTAGAATCTAATGCCTGATGATCTGTCACTGTCTCCCATGA
CCCCCAGATAGGACCATCTAGTTGCAGGAAAACAAGTTCAGGGCTCCCACTGATTCTATATTATGGTGAGCTGTATAATTATTTCATTATACATCACAGT
GTAATAATAATAGAAACAAAGTACACAATAAATGTAATGTGCTTGAATTATCCTGTAAACCCCTTGCCTCCCCACTTCCTGGTCCATGGAAAAATTATCT
GCCATGAAAACAGTCCCTGGTGCCAAAAAGGTTGGGGAATGCTGTTCTATAGTCTTGTGACTAGGTCTCAGTCTTTTGATGAGCCTTTGTCCCTGGACTG
TGAACTTCTCCAGTGCTTCTCAGTATTTCCCCCACACCATAGCTGGGACAGGATGGTTCTTGGCTGCTGGAATTGGGTATTTCTTCCCCCAAGTAGAGCT
GGCATTGATGAAATCCCAGCAAGTTAGATGCAAACAAAATAGTTTCTCCCAAGGACAGGCTTGTTAAGAACAGAATGCTCCGGCGCGTATCAAAACAGTT
CCTTTTCCCTCCTCCTGCTGGAATCATGAGATTTTCTTCAGTAATCACTGTGAGGATCCAGTAAGGCTCCTTTGGATAAAACTTACAAAAATTTGGGAGC
CCCCCCATGACTAGATCCCCCTGGAGTTTTTAACTCTCAGCATAATCCACACTGAGCTTCCAGCAATTCCTCAGTTACAGTTCAGGTCTTCCTGCCCTGG
CACTGGTTGCTATGGAGGTTTCTGCTTAAGAATTTCTGCTCCTGCCGGGCACGGTGGCTCACACTTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCG
GATCACGAGGTCAGGAGTTCGAGACCATCCTGGCTAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAAAAATTAGCTGGGTGTGGTGGCAGCT
GCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCGGGAGAACGGCTTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCCAGATCGCACCACTGCACTCCAGC
CTGGGCAACAGAGGAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGAATTTCTGCTCTGGTAAGTTGTACCTCACTGTGTCTGCTGTCTGTCTGTC
CAGTTTTGGGGGCAGTGGTTCATCCTGTGATGTCACTTCGCTGACAGACTAAGAAGTGTTTTTTTTTTTTTTTTTCTCCTCCAGTTTGTTCAGCTTTTTA
CTTGTTAAAACAGAGTGGCAACTCCTAAGCTCTTTACATGCCAGGCCAGAACTGGAAGTCAGTTTATTTATTTTTATAACTTGTAGAGTATTTCATTGTA
TAACTGTACCACAATGTATTCATTTTCTTATTGGTGAATATTGCATCAGTCTAGGCCCAATCAGGAGACAGATAACAGACAAGCGATTTTAAAAAGTTTT
AATAAAAGTAATACAAACTATGACAATAAGAGCCTAACTTCCATAGGCTACCATAGAGCTGAAGGAGAGTTCTCAAGGAAGAACTAACTTGGAAGGAGGA
TTCTCTAGGCTGGATTCAGGACTTGTTGTAGTTGCAGCCCACTGGATGTAGTTGCAGCCCACTGGATGGCAGAGATGTTTTCTGGTTTGCCCAGACCAAA
GCTGGTCCACAGTTACTCAGCAATCAGGGAATAGCCCTCTGGAGCACAGGTGAGTCTCAGCCAGTGGTCAGGCCTAGAGAGAGAAAGTAGAGGTGCTGCT
GTGAGCACTTTGTGTCCTCAGGAAGGACGTGAAAGACAAATCCTGGGGGTCGGGGTGTTGAGCAAGCAAACAGAGAGAGTCAGTGGGGACAGGCCTGGAG
CACACAGTATCTTTGTAGGTAAGGCTGTGGAAAGGTGTCTGTGTGATTGGGGCAGAGCAACCCACATATCCACGTTCCCACACCACTGACTGATAATGCA
GTTGCTAGAATTAGCACCAAGAGCCTGTTCTTTCTGCAGTGTGCCTCCAATACCCTCTACTGAGAAAGTTTAACATCATGCTCACTGTAGAGGATAGATG
ATGCTTAAAGGAATTCTCTTCTTTATCTCAGAGCAGGTATTGAAGGATTAATTTGAAGCTTAGTGGCATTAAATTGATAACCAGCATAGACATTTAGATT
GTTTATACTTTTCCACTATTATAGTCATCAATGCTACAGAAACATCCTTCTTCATATTCTTTTTGTATATATGTACACAGACTTTTTCTGGCATATATAT
GGAGGCATGGAATTGATAAGTCTTGGAATAAACTGTATAAATTTTTAGGAGTAGGATCAATAGGTCAGGAGGCATGCATATTTTAATGTTGTTTGTTACA
TATCATCTAATTGATTTTACATGAGTATTCTGGAACTAAGAGTGTGCCTTCCATAAAAGCATTCAGTCCCTATCATTCAAGGTCAAGCTCAAGCCCTAGT
GTCAAGCAGGAAGATCCAGCTGCCAATTCCAGGTGAGGACTCCTGCTGCATGGAAGATGACTAAGATCGTAATAATGCCAGCCGTCAGTAGGAGTCCACA
GACCTCGGCCCACTGCATCTTCTTTGGGTTTGAAGCTGTCAAGGAGGACTCAACATTCAGCACACTGGTTGGAACAGCATTTCACTCACAGAAAGGACAG
ATACAACAAGATCAGAGTCTGTGATGTGCACCAGTGGCAAAGATCCCATTCCATCCTGTGGTGGGCAGATACACTGGTGGGGCTGGCCGTGTGCCACATG
CCACACACACTTAAGCAATACAAAGAAGTTTACTCCATACCCAGAAGAGGGGAAAAGTTTCTGYTAATAAGGAAGAAGAATCTGTGGCCAAGTGACAGCT
TGCCACACAGCTTCCTTATGAGGGAAAGTTTTAGACCCAGGCCACTAATTGGGTAGTCTTGGAGAGGGGTGGCAGGTCATGTGACGGCTACATCCCTTAC
AGCCAGTAATCCATCCCTCTTTACTCCCTGACACGTATAGACTCCTCACCTCTATCTGCATTGAATCTATTTGGGCTAATTTCATTATCCCTTACTCCTG
TTTATGCCCATTGCCACAGGAACCCTCAGGTTACCCGCACCCCATCATCTACATGCTTAATTCATCTAAACCTCTGAACATTCCCTGCTCTGTCTTATCC
CTCCCTGACTCTGGAAACCCTTCCAGTGTACCTTTTGGAATTCCAGTTCTTTATCAGCAAGATCTGTCTCGTAATCTGTTCTCTAAACATTCTTTCTTCT
TCCTGTTCTAGTGGAATCATAGGGGAAGAGGGAGAGCTTAGAACACTGATTATCTGCAGACTACTCAAGTGTTAACCCTTTTCTCATAATCTCAAAGCAT
TGGGTCTAGTAGTAAGGGTAGATGTCCTCTGTTTTTTCATTATTTTCACTGTCTTCTCCCTAATCTCCCCAAACTTAGAATCTTAYATATCATTAATTTG
TATCATTTAGTACCTATCATTGCAGCTGTAAAACTCTTCATACATTGCAATTGTAAAAATTTTAGCTCTTGACTMCAATTACTCTCTTCAGTTCTACTCC
TGTATTATTCTTTTTTTCAGTCTGTTTGTGAGCTGTAATGTGTTATTCTTGGTGGTTTCGATACACCCGTAGTTGATAACTCCAGTTCTTAAGACTTTCT
GTTCTTTGAACTCCTGTCTTCCAGTGAACCTCTCCACTACCCTACCTCAATCACTTATGCCCTAGATCTGTACTTTAGACCTTGTCTCCATAATTTCAGT
TTCCTTCTTCCTGCTCTCTGAGCACCACCTCTAATCTTTCTATAGCTTGTGTCATCTAGAAACCCCACCTTTGAAAAACAGTCATTTGATCCTGGGACCT
TTAATCCTTGGGAACCTTCGATAACTATATTGAGATGTCTTCCAGACATCTGTGTGAATAATTCAGTATGTTTGTCTTGATTTCAAGGAAAAAATAGGGC
TAGAGATACAAATGTTGGACTTTCACCATATAAAAAGATCTTAAATCTGTGTGTCTAGATGTCATCACCTAGGGAGTGAACATAGACAGAAAGGACTAAA
GGTACAAGGACTGAACCCTGGGACATTCCAGTTTTCAGAGACCAAAAGAATGAGGAGAGACCCAAAAGGAAAGAGGAAAACTTAGAATATATAGTGTCCT
GGAAACCACATAAAAAGAGTATTTCAGAAATAGCATGTGATCACCTGAGCCAAATGATATAGACAGATCAAGTGACATGAAGTCTGAGTATTGCCAGTGG
GATGTAGCAATGTAATGTCAGTGTTGACATTGATTAGCTGTTTTGATGGAATGGTGGGGGCAAAACCTAATTGGTGAGTCAAGAAAGAAAGGGAAAAAGA
AAATGGAGATAATAACTAAATAATTTGTCAAGGAGTTTTGCTGTTAGAGCAGAAATGAAATGCAAAGATGGGTAGAGAGATCAAGAGAGTTTTCTTATTT
GAAAAAAGTAACAGTGTCTATGTACATACACTGATGGAAGTGATTCAACAGCAAGAGAAGATCTGATAATGCAAGAGAAAGGAGAATGGCTGGCACAGTG
TCCTTCTATAGTTGAGAGGGGATGGGATCTAGTAAATAAGCAGTAGGTTAGCCTAGCTAGGAGCACAAACAGTCCTTCTCTAGGAATAGGGGAGGATGTG
GGGAATACAGTGCAGATTATGGCTGGGTAGATGTGGTAAAGATAGCTTATTGAAGTTCTTCTCTGATTAGTTGAGGCCAGGTGCTGTGGCTCACGCCTGT
AATCCCCACACTTCAGGAGGCCAAGGCGGGAGATCATGTCAGCCCAGTAGTTTGAGACCAGCCTAGGCAACATGGTGAAACCCCATCTCTACAAATGATA
CAAAAATTAGCTGGGCATGGTGTTGCATACCTGTAGTTCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCATCTGAGTCTGAGGAGTTCGAGGCTGCAGT
GAGCTGTGATTGCACGGAACTGTGATTGTGATTTTGAGACAGAGCAAGACCCTGTCTCAAAAAAATATTTTTTTCTCACTAAAATGGAAAGTGAGGTGAT
TAGCTGAGCCTGAAGAGAGAGGATAAAGTATGATACAGTCTTTTAAAAGGATGGGAGAAAGARTACACTAAGAAGTATGGTCTGATTTCCAGTAGTATGA
AGAGCCAAAGTTAGTGATCATACACATAAAGTGAGACTAGTCAGCTTTTCTATATGACTTTCTGAAACTTCTCAGGCTAGGATTTTGGAAAGATTGTGTG
AAGATACTGAAATTACTCCTGACAGAAGGCATGATAAAAAGAATGTGAGTGATACAGGAATAAAATCCTTAAAGAGTGAAGGGGATTTCCCAAAGGTTTG
TATGTGACTTTTAGCAAGGAGGAGTAATGGTTGTTGTAGTCTGATGACATCATTTCAAACCTGGGTGTTTTTATGGAGAACAGAGGGAGAATGCCTGAAG
ATGAAATGAGCCAGCAGGATGTCTACCCCACCTCTAGGTCTAGTGGTACAAAGGGCATGTGAAATCCAACAGCCATCATTTGAGAGAGCTGCCAAGGAAG
CTGCATCCACAGGGGACAGTCAAGTTGCAACCTGTTCAGGGTATGTTAAGGGCTGTACTAAATGTGTGTCCAGGGTGCTTGGGAGTACAAAAGTAAAGAT
TTGTAACCCAAGCTAGTCATTAAGCAAGGTGTTCTTTTTGGAGGTAGCTCATTGAATGAGGTAGAAAGCTCATTCTAAGATCCGTATGAAATAGAATTAT
ATGATTAGGAAATTAACAGTCCACAGCATTATAGTTGCCTGGATACGATGGCTCACTCCTGTAATTCCAACACTTTGGGAGGCCAAGGTGGGAGGATCAC
TTGAGGTCAGGAGTTTGAGACTAGCCTAGGCAATATAGTGAGTCCCTGTCTCTACAAAAAAAAAAAAAAAAAAAAAAAAAAGCCAGGTGTGGTAATACAC
ACTTGTAGTCCCAGCTGCTCAGTAGGCTGAGGTGGGAGGGAGGATCGCTTGAGTACAGGAAGTCACGGCTGCAGTAAGCCGCGGTCACGCCACTGCACTG
CTCTCCAGCCTGTGAAACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAACACAGACCATAAAAAAGTACAGATCGTTTGTTACTAGATTATAAACTG
CTAATCAAATATGGATGGGTAGGCAGAAAGTCACGGAGGGCTATATGCAGTGCTAAAGGGATGAGGTATGAGGAGTCCATGGCATGGACTCTTTTTTACC
TAAGATCCATGGACCCTGAGTGGTTTTACAAGTGCCATAAATCCCCTAAAATTATATTCCCAATTTTGTATATATGTTCATTTTCTTGTGGAGGCAAGAT
TTGCCAAAGGTGGTTTTTTAATCTAAAAACTGAATACTTTTTTTTTTTTTTTGAAACAGAATCTCTCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAAT
TTCGGCTCACCGCAACCTCCACCTCCTGGGTTCAAGTGATTCTTGTGCCTTAGCCTCCCAAGTAGCTGGGACTGCAGGTGTGCACCACCACACCCAGCAA
ATTTTTTTTTATTTTTAGTAGAGACGGGGTATCACCATGTTGGCCAGGCTGCTTTTGAACTCCTGACCTCAGGTGATCCGCCCACCTCAGCCTCCCAAAT
TGCTGGGATTACAGGTGTGAGCCACCACACCCGGGGAAAACTAAATACTCTTTAAGGCTTGAAGAGGCAAAGTGGTCCGGGCACAGTGAGTCACACTTGT
AATCCCAACACTTTGGGAGGCTGAGGTGGGCAGATCACTTGAGGTTAGGAGGTGGAGACCAGCCTGGTCGACATGATAAAACCCCATCTCTATTAAAAAT
ACAAAAATTATCCAGGCATAGTGGCACATGCCTGTAATCCCAGCTACTCAGGGGCCACAACATGTGAGAAGAATGCAAGGAAAACTCTGGAAACATTAAA
ATCACATTGTTCTAGTGGTGATTACCTGTGGAAAAAAGTAAAAAAGCAGCTTTAACTTTTTATTCAATTTGCTACGGTTTTTGGCCATAAGAATTTGTGA
ATTGTACGATAAAAATGTTAAAATAAAAGTTATTAACAGAGGGCAGTGCTGGCAGTTGGAAGACCAGTTAAGAGGCCATTGCCATTATCAAGATGTTAGG
GGAATGTTTGAAATAAAGAAAATATATGACTATGAGAAAAATGTAAGAGATTAAATCAGTGGCATGTGGATTGATTGTCTTCAGATTCCCTGAGTGATTA
ATGCCATGTGTTGATACCCTTAACTTAGATAAGGAATACTAATAGGAAGAGAAGAGTTAGGGGGAGGAAGACGAACCCAGGATCAAATTTACACGTATTC
AGACACTTGATTTATGACAAAAGTGGCACTATAGAGCTGTAGGCAAAATCCATTGGATGTTTGTATAGAGAAATTGGAAAACGTGGCTCTTCACAAGAAA
ATCAATTCCAGGTGAATTATAATTTTAAATGTGAAAGGTAATACAGTAAAACTTTTAGAAGGTGTACAGAAGAAAATCTGCATGGCCTTAAAATAGGGAA
ATTTTTTAAAAACAGGATATAAAGGATAAGATTCCTAAATTTGACTACATTTAAAATGAAGAATTTCACCGGGCACGTGGCTCATGCCTGTATTCCCAGC
ACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCTGACATGGTGAAACCCGGTCTCTACTAAAAATACAAAAATT
AGCCAGGCGTGCTGGCGGGCGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGGTTGAACCCGGGAGGTGGAGGTTGCAATGAGCCGAGG
TGGCGCCATTGCATTCCAGCTTGGGCGACAAGAGGGAAACTCTATCTCAAACAAACAAACAAACAAACAAACAAAAAGGCCGGGTGCAGTGGCTCACGCC
TGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACAAGGTCAAGAGATCGAGACCATCCTGGCTAAGACGGTGAAACCCCGTCTCTACTAAAAG
TACAAAAAAATTAGCCAAGCATGGTGGCATGTGTCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGC
AGTGAGTCAAGATCGCGCCACTACACTCTAGCCTGAGTGACAGAGCAAGACTCTTGTCTCAAAAAAAAAAAAAAAAAGTTCTGGTTATCAAAAGATACTA
TGAAAAGAGTGAAACGAGAAGCCACAAGGTGCGAGAAGATAATGTGACACATAAAAGTAACAAAGGACTTGGGTTCAGAATATATAAAGAACTCCTGGGG
CCAGCACAGGTGGCTCCTATAATCCTAGCACTGCGGGAGCCTTAGGTGGGCGGATCACTTGAGCCGAGGAGTTCGAGACCAGCCTGGGCAACATAGTGAA
ACCCTATCTCTTATATTTAAAAAACAAAAACAAAAACCACACAAAAAAACCTGTAMATCAATAAAATAAAAAGATAGTATGATTGAAAAATGGCCAAGGG
ACTTGGACAGTTCACACAAAAGAGATCCAAGTGGTCAATAAATGCATGAAAAGATAATTTACTCTCATTAGTAATTATGAAAATGCAAAAGAAGCTGGGT
GCGGTGGCTCACGCCTGTAATGCCAACCTTTTGGGAGACCGAGGTGGGCAGATCACTTGAGGCCAGAAGTTCAAGACCAGCCTGGCCAACAGGGCAAAAC
CTTGTCCGTACTAAAAATACAAAAAAATTAGCTGGGCATGGTGGCGCACACCTGTAATCCCAGCTACTCAGGAGGCCGAGGCAAAAGAATTACTTCAACC
TGGGAGGCAGAGGTTGCAGTGAGCAAAGATCACGGCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAAAGAAAGAAAGAAAATGCAA
AATAAAATCACAAAAAGATATTATATGACCAATAATGGCTTAAAGAGTGACAAAACCAAGTATAGATGAGTATGTGAAACAGTAGGAATCCATAAGTGCT
GCTGGTGAGTGTATAAATTAATACAACTATTTTGCAAAACAGCTTGGTGTTTTCTTACGTAAAGTACAGAAACAAGCAAACTAGAACACAAACGGACACA
TATTATATAATCTCATTTCTATGAAATGTCCAGGATACACAATTTCATAGAGGCAGAAAGTAGATTAGTAGTAGCCAGGGGCTCGTGTAGATGGAAATGA
AGAGTGACTGCTAACACTCGAGTAGAGGGAAATGAAGAGTGACTGCTAACAGGTATAGATTCATTTTTGGGCGATAAAAATGTTCTGGAATTATATAATG
GTTATGATTGCATAGCTTTGTGAATATACTAAAAACCTCTAAACTGCACACTTAAGGGTAAATGTTACATGAAAGTTATATCTCACTTTTAAAATTGTAT
GAGAGAAAAACTAGAGTGTTTAGAGTTGCATATTTAGTTGGTAAAGCTATAAGGAAATGATTATCATAATATTGACTTTAGATGGGGTAAAGGGAGGGGT
TTTGATCAGGAGGGATTATKTGGAGGGATTTTGGAAGATGGCATTGTTAAACCTAGATGGTGTTTACACAGGTGCTTGCTATATAATTATATTCCTTTAT
AACTAGTTAAACTGTATAAATGAAGCAGCTGATTCAAGGTCAACTGACTGCTCCCAGTTTTGTTTATAACTTGTTTCTCTGGGATGAATCATCACTTACC
TTTGAACTGTCTCCTCCAGCTGCTAAAATCGATTCTTAAAGTGGAAAAAGCCTGCTTGCTAGGCTGCTAGATTTTCTGTCAGATTTTTTGTTTGTTTTTT
TTTTTTTGGTCCCATTGAGCCAGTTATTGCCATCCTTAAGGAAGGATTCTTCTCAATAATGTCATTTTTTCTGGAGCTAGAACCGTGAATGTAAGTCATT
AATAACAATCAGCTTAGCTGGGCACAGTGACTCACACCTGTAATRTCAACACCTGGGGAAGCCAAGGTAGGGGAATTGCTTGAGACCAGCCTGGACAACA
TAGTGAGACCCCCATCTCTTCCAAAAATTAAAAAATTATCTGGCTTTTCCACTTTATGATGGCTTACACCTGTAGCTCCTGCTCCTCAGGAGGCTGAGGT
GGGAGGATCATTTAAGCCCAGGAGTTTTGAGGCTGCAATGAGCTATGCCTGCACCACTGCACTCCTGGGTGACAGAATAAGACCCTACCTGAAACCAAAA
CAAACAAAAAAAAGTAGCTATAAAAAAGAATGAAATCACTGATGCAGCTGGAGGCTATTGTCCTAAGTTAATTAAGGCAGGAACAGAAAATAAAATACTG
CATGTTCTCCCTTATATGTGGGAGCTAAACAGCGGGTTACTCATGGCCATAAAGATGGCAACAGGCCAGGTGCAATGGCTCACGCCTGTAATCCAGCACT
TTGGGAGGCCGAGGCAGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTCGCCAACCTGGAGAAAACTCATCTCTACTAAAAATACAAAAATTAGC
CTGGTGTCATGGCACACGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAGTCGCTTGAACCCAGGAGATGGAGGTTGAAATCGCCCCACTGCA
CTCCAGCCTGGGCAACAGAGTGAGACTGTGTTTCCAAAAAAAAAAAAAAAAAAAAAAGGCAACAAAAGATTGGAGACTACTTAGAGGGGGCAAGAGTTGA
AAAAGTAGCTATTGCGTTCTGTGCTCACTACATGATTGATGAGATCAATCGTACCCCAAACCTCAGCATCACGCAATATACCCAGGTAATAAACCTGAAA
GTGTACCCGCTGAATCTAAAATAAAAGTTGAAATTATTTTTTATGTGAATTTTTAAAGAATCAGTTTAAATATTTTCTTCAGAATGTTTTGTTGTTTTTG
CTTTTGTCTTTGGAGACAAGGTCCTGCTTTGTCACATAGGCTGTAGTGTAGTGGCATGATCACGGCTCATTGCAGCCTCAACCTGCTGGGCTCAAACAGT
CCTCCCACCTCAGCCTCCCGATTATCTGTGACTACATGTGCGCACCACTATGCCCAACTAATTTTTTAATTTTTTTGTAGAGACAAAGTCTCACTGTGTT
CCCCAGGCTGGCCTCAAACTCCTGAGCTGAAGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCTAGAATTACAAGTGTGAGCTACCATGCTGGCCCAGAAT
GTTGTTATAACATCTTAATCTTCCTTCCCCCAAAATAAGACCAGTTCAAATTGTAACCATCCAATGGGTCCTCCTTGCCCACTGTCCAGATAGAGCCAAT
TTATCAAAACAGGGGAATTTCAATAGAGAAAGGGTTTAATATACGCAGAGCTGGCCAAACAGGAGACTGGAGTTTTATTACTGAAATCAGCCTCCCCCAC
ATTTCTGAGGCTATGGTTTTGTTTTGTTTTGTTTTGTTTTGAGATGGAGTCTCAAAAATTGCACTCCAGTGCCCAGGCTGGAGTGCARTGACGCGATCTC
GGCTCACTACAACCTCTGCCTCCCATGTTCAAATGATTCTCCCACCTCAGCCTCCTGAGTAGCTGGAATTACAGGTGTGCATCACCACACCTGGCTAATA
TTTGTAGTTTTAGTAGAGATGGGATTTCACCATGTTGGCCCGTCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCTCAAAGTGCTG
GGATTACAGGTGTGAGCCACTGTACCTGGCTGAGGCTAGGGTTTTTTAAGGATAGTTTGGTGGGCAGGGGGCTAGGGAATGGGGGAATGTTGAGTAGTTG
AGTCAGGGATGATGTTATCTATAGGAGAATCTGTGAGGTTAGGAATCTTGTGGCCTCTGGCTGAATAACTCCTGAGCCATAATTTTTAACCTTGTGGCCA
ATTTGTCAGTTTTACCGAAGTGGTCTGGTCCCCAATCCTTCAGAGGGTATTTTCCCAGCAGGAGCTGTTACCTTCTTTGTTTCAAAGTAAACTAAATTCC
TACCAAAGTTAGTTTTSGCCTAAGCTCAGAAATGTACAAGGGCAGCTTGGAGGTTAGAAGCAAGATGGAGTTGGTTAGGTCAGATTTCTTTCATTGTCAT
AATATTCCTAGTCAGATTTTTCTCACTGTCATAATTTTGGCAAAGGCAGTTTCAAAATTATTGATTTTATTCTGTCAACAAACTTTAAAATGGTGGTAAT
TTTGGCTTTTTTTTTTTTTTGAAAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTATGATCTCAGCTCACCGCAACCTCTACCTCCCTGGTTCA
AGCAATTCCCCTGCCTCAGCCTCAGCCTCCCGACTAGCTGGGATTACAGGTGCACACCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACGGA
GTTTCACCATGTTTGCCAGACTGGTCCCAAACTCCTGACCTCAGGCAATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTAGAGGCGTGAGCCACCGC
GCCCGGCTGTAATTTTGGCCTTTTAAGSTAAATGTATATTGGAGAAATAGAGAAAACCCAATAAAAGTAGCACACATTTTTAGGCCTTAGCATCTGTGGT
AGAATAAAGAATTTCTGTGATCTTTGGTCCAGATGTAGGCACAGAGCCTCTGAAAACCTTGGAATTTCCTGAAACATAGGATTGTCTTGTTATACCAGTG
AGGTGACTCGTAGTGGGCCCCTGGATAGTTTCAGGTTGGGGACTGATCACAAGAAAGACAAACCACATTATTAGAAGGTTGAGATAGAGGCCGGGAGATT
GAGTTCAGTCATTTAGCCAATCATTTAATCAATCATGACTATGTAATGAAAATTAAAACTCTGGACAACCTTAAGCTCAGTAGAGCTTCCTGGTTGGTGA
ACACAGGAGGGTGACACTCCCGGATTCCACAAGGAGAGGGCACAGGATCTCTACTTCCCCTCCCACACCTCACCCTGCCTTTGTGTATCCTTTATAATAA
AACTGTAATAATAAGTATAGTGCTTCTCTGAATTCTATTAGTTGTTCTAGTAAATTATTGAATGTGGGAGGGCTGTGAGTACTCCCTGAACTTGCAGCTA
GTCAGCCAGATATGCTGGTGGTCTTGGCCCCTCCCCCTGCCATCCCCACAAAGACTTATGACTGGTGTTGGAAGTGCGGCAGTCTTGTTGAGGACTTTGC
TCTTAAACTGTGGGGTCTATGCTAACTCTATATGGATGGCATCAGAGTTTAATTGCAGTATACCCAACTTGAGGTAGTGTCAGAATAGCATCTTCTGAAA
AGTCTGCAGAGCCTGGCCAGTTGGAAAGAATGCTTGTTTATTATATTGTTGCTTGCAGTTGGTGGGAATTCATCATTACTTCCCCTTGCATTACAGATGC
CTTTTGCCAAAGATTTCCATCACATATATAGTGGTCTGTTTTTTGCTATTACCCTGGCAACAACTCCATAACTTGGAAACCATTTCTTTTCTCCAACGTT
GGCCATATTTGGTAATGTAGAATGTTGAATTGTGAATCAGCTCTAAAAATCCTAATAAATAAATGAACCTTAAAAATTGATTACTTAATAAGTACAGTAT
TTACCTTATTTATATAAGAGCAAAGACTTATCATATGATGCCTTTCATTCTGGTAGGTGTCACCAAGAATTCAATATAAGACTCAGAAAAAGTCTTTGAC
TTAGAAGGTGTTGTAAACTAAGCACATTCTGATTTCATTATCATGGCCTTATGGAAGCCCTCATCACTTTTCATTTGGCTTATCGAAGATACCCCCTAAC
TCCTTTTCCCTCTCTATTCTGTCCATTCTAAATTTTAGAGTAAGACACTTTTTTTTTTTTTTTTGTCTGAGACAAGATCTTACTCTGTTACCCAGGCTGG
AGTGCAGTGACATGATCGCAGCTCACTGCAGCCTCTACCTTCCAGGGCTCAAGCAGTCCTCCCACCTCAGCCTCCCAAATAGCTGGGACTACAGGTGTGC
ACCACCACCCTCAGCTAATTTTTTTTAGTTTTTGTAGAGATGGAGTCTCACTATTTTGCTTAGGCTGGTCTTAAACTCCTGAACTCCAGAAGTCCTCCCA
CAGTGTTAGGATTACAGGCCCAATTTTCTTTTACAAAATATGTTCCAAATATGCCAACTTTTTCTGTGCTAACAAGTGATTTTTAGTAGTATACTCCCTA
GGAGATTTGGGATAAGGGGCACAAACACTCTTTTTAGGGCGAAGGTGATATTTTATCATTGAGTGCAAAGGTAGCTACACTTTAAAAGAAATTTGTGCCA
TGAAAAAAGCAATTTGAAGATGGACGTTTAGAAATGTTACCATCTATATGTGATTTTGGTTGAAAAATGTTATGCCTCCTCCAAAAGCTGGTAAGTCTAT
CATTTGAAAACATTGGAAATAGAATGTTTCTAATCTTCCAAAAGAAAGGTTCAATTTTTGATCTATTGTTTAAAAATATAAAACTATAATACCTCTTCAT
TAGGTTCCAAGAAAAATTGCTGACATTACAGAAGATAAAAATTTATCATCCCTTGGAGGGAATTGAAAAACAAGTATCATGATTTAATAAATACAGCCAA
CAATGSACTTCTTCCATTGGGAGCTACATGTCTTTGTGAGGTTTATTTTATTTTATTTAATTTTTAATTTTTTTTTTTTTTGAGACAGAGTCTCATTCTT
TCAACTAGGCTACAGTGCAGTGACACAATCGTGGCTCACTGCAGCGTTGACCTCCTGGGCTCAAGTGATCTTCCACCTCAGCCTCCCAACTAAGTACGAC
CACAGATGCACACCACCACACCCAGCTAATAATTTTTTAAATTTTTGTAGAGACAGAGTCCCACTGTGTTGTTGCCCAGGCTGGTCTTGAACTCTTGGCC
TCAAGTGATCCTCCTGCCTCATCCTCCCAAAGTACTGAGATTACAGGCAAGAACCACCACCCCTGGCCTATTTTTTATCTATAATAAAAGCAAGTCAAAA
TCTAAATTAAAAAACCAAACCACAGAAGGGTTTAGACCTAAGATTTTTAAAAATAAGAGCCATCTGATCAGGCACAGTGGCTCCCACCTATAATCCCAAC
ACTTTGGGAGGCCAACGCGGGAGGATTGCTTGAGCCCAGGAGTTCAAGACTGCAATGAGCTGTGATTGAGCCACTGTACTCCAGCCTGGGTGGCAGAGCA
AGACCCTGTCTCAGAAAAAAAATCCATAAAAATGAGTAAATGAGTACATAAATATGAGCTATCTTCAATCACATTGCATTCTAAATGAAAAGGTAAAAAA
TTTTGTACCATGAATATGTAAGGTATTTAATATATTTGTTTTACTTATTTATATTTATTTTTAAACAAATGTTACTGTGATAAAATTGATATACAGTATT
CAAAGTATAAAATTAGATAAATTTCTCTTTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGAAGTGCAGTGGCGTGATCTCAGCTCATTGCAACC
TCCACCTCCCGGGTTCAAATGATTTTCATTCATTTGAATGAAACCTCAACCTCAACCTCCTGAGAAGCTGGGATTACAGGCTCCTGCCACTACATCCTGC
TAATTTTTGTGTGTGTGTGTGTTTTTTTTTTTTAGTAGAGACCAGGTTTCACCATGTTGGGCAGGCTAGTCTTGAACTCCTGACCTCAGGTGATCCATCC
GCCTTGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCAGCTTTCGACCTATGTATACACATCTGTGCAGCCATCATCACGATCA
AAATTGTGAATACATCTGTCATCTCCTAAAGTTTCCCTAGGTCCTTTTGTAATTACTTGCAGGCAACCACTGATGTGCTTTTTGTCACTCRTAGATTACT
TTGGATTTTGTAGAATTTTATCTAAATGGAGTTATATAGTATGTACTGTGTTTTTTGTCTGGCGTCTTGTCCTTTGTATTTCCATATGAATTTAAAAATC
AGATTATCAGACAGGCAGCTGGTATTTTTATTGGGATTGTGCTGAATCTGTAGATCAGTTAGGAGTGAATTGACTTCTTAACAATATCAAATCTTTTAAC
CCATGAACATGCTTTGTTTCTCCACCTATTTAGATCATCTTTAATTTCTCTCAACATGTTTTCTGAAGTTCTTATGCCTCTTTTGTCAAATTTATCACTA
GGTGTTCCATATTTTTATGCAATTATAAGTGGTATTGTTATTTTTCATTTCTATTTACAGTATGTATAAATGTAGTTGATTTTGTATATTGATCTTTTAT
CCTGCAGCCTTGCTAACTCTCTTATTCCAGTAGCTTTATTGTAGATTCTGTTGTATTTTCTGGAGATACTCCTGTTGTCCATGAAGAAAGACAACTTGCC
TATTCCACTGGGCTGGAACTCCCAGTATAATTTTGAATAGAAATGGTAATCGTAGATATTCTTGCCTTGTTCCTGATCTTAGAGCATTTTGTCTTTACTA
TTAACTGTGGTGTTAGCTCTAAGTTTGTCATAGATACCCTTTATCAACTGAAGAATGTGTCCTATTCCTAGTTTGCTAAAAGTTTTTATCAAAAATTATT
ATTGAACTTTTGTCAAATGCATTTTCTATGTCTAATGAGATGATTATATGTTTTTTTCTTGATTAGCCTACTAATGTAGTGACTTATATTGATTGATTTT
CAGATTTTAAGCCAACTAGAATTCCTGAGATAAACGTTACTTGGTCATGATGTATTTGCTCCCACCTCCCATTATTTAGAGAATATTCGTTTATGCCGGG
CACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTTAGGAGCTGATCAAGACCATCCTAGCTAACACAGTGAA
ACCCCGTCTCTACTAAAAATACAAAAAATTATCCAGGTGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTCAGAGGCTGAGGCAGGAGAATGGTGTGAACC
TGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCATTGCACTCCAGCCTGGGCGACACAGAGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGAA
TATTCTTTTGTATTAGTCTTTTTATATGTTGTTGTATTTGATTTGCTGAAATTTTAATATGTATGCATCTATATTCATAAGGAATATTAGTCTGTAGTTA
TCTTATAATATCTTTGTCTGGTTTTGGTGTCAGGGTAATGCTGACCTCATAGTTATGAATTGGGAAGTATTCCCTCCTCTTCAATTTTCTGGAAGTGTGT
AGAATTGTTACTACTTCTGTCTTATATGTTTGGCAGAATTGTCCAGTGAAGCCTCTGAACCTAGAATTTGWGGGAAGGTTTTAAATTATAAACTTAATTT
TGTTAATAGATATAGGATTAGTTAGGTTATCTGTTACTGAGTGAGCTTTGGTAGTGTATATCTTTCAAAGAATTTTCAGTCTCCTCTAAGTTGTCAAATT
AATTAACATAAAGTTGTTTACAATAATTGACAAAGTTGTTCTGATAACTGTAGAATCCATAGAAATGTGACCTTTCTCATTCTTGATGTTGGTAATTTCT
ATTTTGTCTTTTTTTTTCCTGATTAGTCTATCATTTTAATTTTATTGATCTCAAAAACCTGTGTATGTTCTTTGTTGGGTTTTTTGGTTTGTTTTTTGAG
ACAGGGTCTGTCACCCAGGCTGGAGTAGGGTGGCACAAATATGACTCACTGAAGCTTCAACCTCCTGGGCTCAAGCAGTCTTCCCACTTCAGCCTCTCAA
GTAGCCAGGACCACAGGCACACCGCCATACCCAGCTAATTTTTAAATTCTTTGTAGAGATGGGGTCTCATCGTGTTGCCCAGGCTGGTCTTGAACCTCTG
GATTCGAGCAATCCTCTTGCCTTGGCTTCCCAAAGTGCTGGAATTACAAACGTTAGCCACTATGCCTGGCGTTGTGTATGGTTTTATACATTTTCTCTCT
TGTTTTCCAGTGGTTTTTTTATTAATTGATTTCTACTTTGGTCTTTATGATTACCTTTCTTCTGGGTTTCATTTGCTCCTCTTTTTTAAATTTCTTAAGG
TAGAAAGTGAGAGCATTTCTTGTTTTTTTTTTTTTGATTTTTTTTTTTTTTTTTTTTTTTTGGTTTGGTGTTTTTTGTTAGAGACCAAGTCTCACTATGT
TGCCCCAACTGATCTTGAACTTTTGGGTTCAGGTGGTCCTCCCACCTTGGTCTCTCAAAGTGCTGGGAGTTAGTCTTTCCTTTCTAATATAGTGTAGTGA
TATAATTTCCTTTCTAATATAATGTAGTGATATAATTTTCCCCCTAAGAACTGCTTTAGTGGTATGACATGTGTTTTCATTTTTATTAAAAAGACATAGT
CTTGCTCTGTTGCCCAGGCTGTAGTGCAGTAGCCTGATCATAGCTTACTGCAGCCTCGACTTCCTGGGCTTAAGCGATCCTCCTGCCTCATCCTCCTAAG
TAGCTGGGACCACAGTTGCCTGCCACCACACCCAGCTAATTTATTTTATTTTTTGTAGAGACGTGGTCTGGCTATGTTGCCCAGGATGGTCTTGAATTCC
TAGCCTCAAGGGATTCCCACACCTTGGCGTCCCAAAGTGCTAGGATTACAGGCATGAGCCAGCACACCCAGCCTCTAATTTCCCTTTTGATTTCTTCTTT
GACCCACAAATTATTCAGAAGTATATTGTTTAGTTTATGAATATTKGGGGATTTTCCAGAGATGTTTCTGTTACTGATTTCTAATTCTATTTCATTGTAG
TCAGAAAACATATTTTATATGACTTGAATCCTTTTAAAATTTATTGAGTTTTGTTTTATGACTCAGAGTGTGATCTTTCTTAGCAAATGTTCAGTGTTCA
CCTGAAAAGAATGTATATTAGTACTGTTTGGTAGTGGTCTGTAAGTGTCAATTATGTCAAGTTTGTTGGTAGTGTTGTTCAAGTGTTCTACATCCTCACT
GATCTTCCCATTTATTTATTCAATCATTTATATCAGTATGAACTAATAGGTATTTATTATCTAGATCAGACTGTAATCCATTAATACTTTAGTTTTTTTG
CTTAAGTTGTTCCGTTTTGGCCATCAAGGTCCTTTCAGTTGGCTCCTTTCCCCCCTTGACTTACATCAATTTGGTGGTTTTTGTTTGGTTGGTTTTGGTT
TTGGTTTGTTGTTGTTTTATCCCTTTCCTTACTATCTGCGATTATAAGATATTCCAGGCTCATGTTGTATATTTCTGACCCCAGTCCTAGAATCAGCCGT
TTCTCCAAGAGGTCTGGATTTTTAAATTGGAGAACAGTATTACAAATCAAGATCTGGGTTCTAGGAATGCTTGTTTCTACTGGGGTGTCCTTTTTCTAGT
CCCTCTTAGCTGATTGACCAAAGACATATAGTATTAGTATGTATACTAACCTGTGAATATACACATATCTATAAATATTTTATATGTAATTGTCTGTATT
TATATTAAACATGAATTCTTCTTGATGTCTCTGGCTCCAATTCAATATCACATGGATCATTCTAGCTTCTTCTTCCCTTTGCTGATCTGTAAATTTCCAC
TCCAACAATGAGAAACCTGGGTCCCATCATCCACCATCCATACACATAAACTACTCAGTTCCAGTGTACGTGTATAGCAGTATCAAAATTATTAACCCAT
ACTCCTTGAGAAACAACTTTATCAAGTTGAGTTCAGTACTTACCTGTAGTTCCTTTGATCTTTAGTCTAACTGATTTCATTCATTTCCAAAGTTTCTTAC
GTCAGCACTTTTCCCTTCACCCTCTTCAGTGATGTTGTTTCATACATTTGTAATACAGTTAGATTCTCTTGTCATAGTCTGCATTCTTCTCTGGGATCCT
CTGATCTCATAAGTTATTTTTTTTTAATTTGCCTTTAGAGGTGACAAACCAAGGCTTAAATTTTTTTTTCCCTTACATTACTCTCTAGGTTATAAAGTTC
TGTATGTTTTGACAAATGCGTAATGTCACGTATCTGCCACTACAGTATCATACAGAGTAGATTTATTTCCCTAAAATAGTGCACAGTACTTCACCTATTT
GTCCCTCATCATCTTCCCGCTGGCACCATTGATTGTTTTACTGTCTCCATAGTTATACCTACCTTTTCCAAAATGTCACAAGGTCAGAATCTTATGACAT
ATAGCCTTTCAAATTAGTTTCTTTCACTTAGCAATATGCCTTCAAGGTTCCTGTCTTTTCATAGGTGGATAGCTTGTTTATTTTTATCACTAAATAATAT
TCCATTGTATGGATGTGCCACAGTATGTTTATCCATCATCTATTGAAGGACATCTTGGTTGCTTCCAGTTTTGGGCGATCACGAATAAACTTGCTATACA
CATTCATGTTCAGGTTTTTGTGTAGACAAGTTTTCAACCCAAGTAAGTAATTATTTAGAGCAATTGCTGGATTGTGTGGGAAGACTGTGTTTAGCTTTTT
AGAAACTGCCAAACTGTCTTCCAAAGTGGCTGTACCATTTTGCATTCCTACTAACAATAACAAGAGTTCCTGTTGTTCCCCATCCTTTTTAGCCATTCTA
ATAGGTATGTATGAGTATCCAATTGTAGTTTTAATTTGCAATGTCCTATGCCAAATGATGTTGAGAATCTTTTTATATACTTGTTTGCTATCTGTATATC
TTTGGTGAGGTGGCTGTTCAGATCTTTTGCTCATTTTTAAAATTGGGTTGTTTGTTTTCTTGTTGAGATTTAAGAGTTCTTTACACATTTGTCTTTTATC
AAGTATGTGGGTTTTTGGTTTTGTTTTGTTTTGGGGGTTGGGGGTTGGGACTTGACTTTTCTTGTTTGTTTTTGAGACAAGGTCTTGCTCTGTCACCCAG
GCTGGAGTTCAGTGGTGCAGTCACAGCCCACTACAGCCCAAGCTCAAATGATCCTCCCACCTCAGCCTCCTAAGTAGCTGAGACCAGGTGCGTTAGGCTG
CCACACACAACTAATTTTTAAATTTTTTGTAGAGACAAGATCTCCCTGTATTGTCCAGACTGATCTTGAACTCCTGGGCTCAAGCAGTCCTCCATCTTCA
GCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGCCAAGTATGTGTTTTTTACAGATATTTCCTCCTAGTCTATGGTCTGTCTTTTTCA
TTCTCTTAACAGTATCTTTTGCAGAAGTTCTTAATTTTAATGCAGTCTAGCTTATTAATGTTTTTTTTCATGGTTTTGCTTTTGGTTTCATATCCTAAAA
ATTCATCGCCAAACCCAAGGTCACCTAGATTTTGTCCTATGTTATCATATACAAGTTTTATCRTTTTTTGTTTTTACATTTAGGTAAATCTTACATTCGG
ATCATTTTCATGACCCATTTTGAGTTAATTTTTGTAAAAGGTTGTATCTAGATTCATTTTTTTGCATATGAACATTCAGTTGTTCCAGCACCATTCGTCA
ATGAGAATATATATTTTCTTCATTGAATTGCCAGTGCTCCTTTGTCATATATCAGTTGACTATATTTGTATGGGTCTGTTTGTGGAGTCTCTGCTTTGTT
CTGCTGATTTATGTATCTGTTCTTCCACCATGTTGTCTTGATCACTATAGCTTTATAGTGAGTCTTGAGGTCAGGTAATATCAGTCCTCTAACCTTATTC
TTCTTCAGTATTGTATTGGTTGTTTAGGTTATTTTGCCTTTCCATGTAAACTTTAGAATCAATTTGTCAATATTCACAAACTAACTTGCTTGGATTTTGA
TTGGGATTGCATTTAATCCGTAGATCAAATTGCTTATAATTAACATTTTAGTCATATTGAGTCTTCCATTATGATCATGCAAGTCTCATTTATTTAGATC
TTTGATTTCTTTCATCAGAGTTTCGTAATTTACAGTGTATAGATTTTCAGTGTATTTGTTAAATTTATATGTAGGCATTTCAGTTTTTCTGTTAATGGTA
TTGTGTTTTTAATTTCAAATTCTGATTATTCATTTCTGGTATAAAGGGACACAATTGACTTTTTAATATTAGCATTGTATCCTGCAACCTTGTTGTAATT
GCTTATTAGTTACAGGATTGTTGTTTGTTGATTCTTTAGAATATTCTACATAGACAATCATGTCATCTCTAAACATAAACACCTTTATTTCCTCCTTCCC
AATGTATTTACCTTTTATTTCCTTTTCTTGCCTTTTTGGTTTTGTTTTGCTTTTTAATTTATGTATTTTTTTTAGAAATGGGGTCTCACTRTGTTGCCCA
GGCTGGTCTTGAACTCCTGGGCTCAAGTAATCCCCCCAACTCAGCCTCCGAAAGTGCCAGGATTACAAGTATGAGCCACTGCACCCAGTCGTCTTTTCTT
GCCTTATTGCACTGGCTAAGACTTCCAGTATGATACTGAATAGGAGTAGTGAGAGGCCATCCTTGCCTTGTTCCTGTTCTTGGAGAAAAAATACCCGGAT
TCTCCCCATGAAGTATTATGTTAACAACAAGTATGTCTTCTGTAGATGTTCTTGGTCAAGTGAGGAAGTTCTCCTGTATTCCTAGTTTGCTGAGTTTTTA
TCAAAAAAGTTTTAAATGGGTTTTAGATTTAGTCAAGTGCTTTTTCTGTATCAGTTGATGTGACCATATGATTTTTCTTCTTTAGTATGTTGATGTGGTA
GGTAATTGATTTTCAAATGTTGAGCCATCCTTGCATACTTGGAGTAAATTCTATTTGGTGATGGTATATAACTTTTTTATACATTGTTGGATTTGATATT
TCTAATATTGAGAATTTTTGCATCTGTTTTCATAAGAGGTATKGGTCTGTAGTGTTTTTTTCTTACAATATCTTTATTTGGTTTGGGTAATAGAGTAATA
CTGGCCCCATGGAATGAGTTAGGAATCATGTTACAATCATCTTTGCTTGGAAGAGATTGTAGAGAATTGGTATCATTTCTTCTATAARTGTTTGGTAGAA
TTAATCAGTGAAACATCTGAAACAGGTGCTTTTTTTGGAGATGATTAGCTATTGACTCAGTTTCTTTAATGGAGTCTTTCTTTTTTTAAAATTCAATCTA
ACAAGCTCTACCTTTTAATTGGGGCATTTAATGTGGTTGTTGATGTGGTTTGTTTATGTCTACCACCTCCCTATTTGTTTCCTAATTATTCCACCTGTTT
TTTTCTCCTTCCGTGATCTTTTGCTGCTTTATTTGGGGTTAAGTGTGTATTTTTATTCCATTTATGTCCTTTATTGGCTTATAGGCTATAACCCTTTATT
GTTTAGTGTTTGCCTTAGCATTTATAGTGTATATCTTTAACATATCCCTCATATCAATCTTCAAATAATATTATACCACTTCACATACAGGATAAGAATC
TTCCATTTCTCCCCTTCCAGCCTTTATATAGTTGTTTTCAAACTTTTGATCCTCATGTGTTGTAAATCCCACMCTATTATTTAATAGTAATAATATTATT
ATTAATTAAACATTTACTGCTTTTTAAAGAGATTTAAATAATAAGAAAATGTCATGCATCTTTTTCCATGTAGTTAAGTTTCCCATTGCTCTTCATTCTT
TTGTGCAGATCCATATTTCCACCTGGCATCCTTTGCTTCTGCCTAAAGGACATTTTTAAAACATTTTTTTGTAGTGTGGTTTGCTGTTGAGAATTTTATT
TAGTTTTTTTGTTTGAAAAAGTATTTATTTTTTACCTCTGTCTTTTAAAAATATTTTTGCTGAGGCCGGGAGCAGTGGCTTTTGCCTATAATCCCAGCAC
TTTGGGAGGCTGAGGCAGTAGGATTACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTAAAATACCGTCTCCATTAAAAATAGAAAAATTAG
CCAGGCATGGTGGCGCGTGCCTGTAATCCCAGTTACTTGGGAGGCTAAGGCAGGAGAATCTTTTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCAAGGTT
GCGCCATTGCACTCCTGCCTGAGCAACAAAATGAGACTCCATCTCAAAAAAAAATTTTTTTTTGCTGGTACAATGACTTCTGACACTAACTATCCCAAAT
TAGGCCAAACTTTACAAGGGCCCAGGCTGCTACAAAACTGCCCTCACTTTATACACCAAGCAGAAGTTTGGGGGTTCCCAGGTCACCCATACTTCTGACA
AAATGGATACAAATTTGAGGTTTCTTACTACCTCCTGAGTTCAGTAATTCACTAGAATGATTCACAGAGCTCAGAAAACCCCTATACTTAGGTTTACAAT
TTTATTGTGGCAAAAAACATAAAAATCAGGTCCGGCCAAAGAAAACATGTGTAGGACAAGGTCTGGGAGGGTCCCAACACAAAGCTTCCAGTGCCTTCTC
CCTGTGAAGTCAGGATGCATCACCCTCCTAGCACATGGATGTATAACAATACATACAAATTATTATTAAGCAGGGAAGCTCACAGGAGCTTTGTGTCCAG
AGTGAGGTTTTATTTTATAAGCATGATTGATTGACTCATTGGCCATATGACTGAACTTAATCTCTAGCCCCTCTCCATTTCTGGGAAGTCAGGTTTATGT
CAGACTGATAGCAAGTGGCTCAAAGCCCTAACCCTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGAAGGAGTTTCACTCTGCTGCCCAGCCAGGCTGGAGT
GCAGTGGCATGATCTCGGCTCACTGCAACCTCCGCCTCCTAGGTTCTAAGCAATTCTCCTGGCTCATCCTCCCAAGTAGCTGGGATTACAGGCATGTGCC
AGCACAGCCGGTTAATTTTTGTATTTTTAGTAGAGACGGGATTTTGCCACGTTGGCCAGGCTGGCCTTGAACCCCTAACCTCAGGCGATCTGCCTGCCTC
GGCCTCCCAAAGTGCTAGGTGAGTGCTAGCACTCCCTGGTGCTAGGTGAGCCTCAAAGCCCCAACCCTCCAATTACATGGTTGGTCTTTCAGGTGTGGCC
AGTCCCCATCCTGAGTTATATCATTAGCGTAAAGTATCAGGCCCTGTCATAAATAACAAAAGCACTCCTATCACTTGGGAAATTCCAAGGATTTACAGGC
TCCTTCCCAGGAACTGGGTACTAAGGCCAGTCAAATTCTTTACTACACAACAGCTGGGTCTAGAATTCTAGGTTGGCAGGAGAATAGCCATATCTTCCAT
AATTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTTTGTCACCCAGGCTGGAGTACAGTGGCACTGTCTCGGCTCACTGCAAGCTCCACCTCCTGGGTTCA
CGCCATTCTCCTGCCTCAGCCTTCCGAATATCTGGGACTACAGGCGCCCGCCACCAYGCCCGGCTAATTTTTTTGTATTTTTTAGTAGAGACAGGGTTTC
ATTGTGTTAACCAGGATGGTCTCGATCTCCTGGCCTCGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCTGGC
CCATATCTTCCATAATTTAAATATATTGCTCTGCTGTCTTCTTGCATTGTTTCCAACGAGAAATCTGCTATAATCCTTGTCTTTGTTCCTCTGTATAACA
TATCTTCTTCTCACTTTACTGAGCTCCACCAAGCTCTAGCCACTCTAAAGATTTTTCTCTGTATCTTGAGTTTTGAGCGATTTGACTGGGTATTCTTTGA
TGTACTTCTCTTCTTCTTTCTCATGTTTGGGATTCTTAGAGATTCTTAGATTTGTGATGTTACAAGAAAAACTTGGGACTGCAACGTCCCATCTAAACTG
GGAAGGAGCCATGAGACCAAAGAATGACTCAGACAAATTTAACTTGATGAGTAGACGAGTTTATTCAACTTACATACAAGGCACTCCTGGACGGCAGCAG
GACAGCTCTAGAGATCCACGCTGCCTCCTGTCTCTAAACCGCATTTTTTGTTTGTTTGTTTTTAGACATGGGGTGTTTTGCCATGTTGCTTAGGCTGGTC
TCAGACTCCTGGACTCAAGTGATCGCCCTCCTCAGCCTCCCAAACTGGCATGACAGGCRTGAGCCACTGTACCCGGCTCCCTCTAAACTGCTTTTAAGCT
AATTTTCWGGATCTTTGCCTACTGTGTTTGAACAATGATACTGTTTTTCTTGAGAGATTCTCAGATACTCTCTGGGATGTTTGGTTGGTTCTCAGGGATA
CCTGCTCCTCAGCTGGGTACCATTGCCATGGGCCTAGCCTTCAGGTTTCAGGCAGTGAACATATGTACCTTTAAGTRATCTGGTAAAGGACCCATCACAC
AACATGTGGGTATATGGTTTTTATCAAATTTGCAAAATGGTCCGCCATTATTTCTTCCTATCTTTTTTCTGTATCCCCTGCTCTCCCCTCCCCCTGCTTG
AAGTTGTCCTACAGCTCAGTGGTGCTGTTTATTTAGTTTTTTTGCTGCTTTTTTTTCCCCTCTCGGTGTTAGCTATTTCTGACATACGTGTGTGTTATGT
AACCCTAGCTGTACTATGCGCACCTGGAAGATTCTTTGTACCTCTGTAACCAGACCGATCCTTGGAAGGCTGGTCATTGTAGGATGCTCATGTCCAGGCA
TCTCCTTGAGGCTTTAGCTGGGTAGTTTTGGGAACCAACAAAGGGCATCTGACTTTGCATGTCAAGAATCAAACTGTGGGTATTTGTTAATCTTTGACAT
GAGATGACACTATCAAAAAAGAACAGAATTTTTTTTAAAAAAATAAGCYTTGATACTTCTGAGGAGGCCTGATCCTTATTAAGTCCTGGCTAAGGAAACA
GCTACTCAGGATCACKTCCCTTATATCCTGGTGCCCACTAGCCAGAAGATGGGGAGAGGTCATAACAGATATCCCTGACACAGAGCATGGAAAACCCAGA
GTTCATGCAATGTTGAGAGCAGATCCACTGGATGAAGTTGTATATTTTATGCACCTGGGGGTGAGAAGAACTGAAAATGCCTCTTATTATTTCAACCAAA
AACAATGCCATTATATAATTGATACAGAGGTGCTGCTGCATAGGGTAGTAGGAGCACTGATTGAGAGGCTGGTTTCTACTAGATCAGTATAAAAAGACGT
TAAGTGCTATATAAGCCCTATTGGATAGAGATAGTGGGAAACAAAGGGGTAGGTTTTTGGCAACTTGGAACATCCATACACTGTGCAGGAAACATACTAT
CCAAGAGAAAGCCAGCGCATGTTGAAGTACCAGGCCCCTGGGAGGTAAGCACAGAAGTGAGGAGGTGGACAGGGGTTAGAGGGGAGCCAGCACAGCATGG
AGTATGGTGCTTACTTCAACATGGCCTTTTGAGTAGAGTCATATTAACAACTGCCAACTAGGGGCTCCTACGTACCAGTCCCCAGCTGGAAGATAGCCCA
GAGAAGTATGGCAGGCTTAGGTTTAAGAACCATTGGGATTAATGCAAAGGTAAACTTACAGTTTTGTTCAAAGCTTCTGAGCTTTAAGTTAGCAAGTTAC
AGGGAACACGTGAATACTAATTAAGAAATGGCGGTATGCTTTGTAGACTTGGGGGCCTTGATTACGAACTRTCTTAAGGTTTACTACTATCCTGAGTCCC
TACCTGAGAACTTCTCTTTCCCCTTAAAACACACATGTTCCTGGTTTAGCCCTTGGATACAGTGCGCAGAGATATATATGCAAGAAACTTTTGGATTAGG
GKTCCTGTTGCCCTTTGAGAAAGTGTGAACATTTGGCTATACCCTCTGACTGAATGAGCTCTTTAAGCCTTCTGAATGTTGGTTCACTTGACAAAGACAG
ATTGAAGTCTCAGGTGTGTTCCTAGGAGGGCAGGAAATAGTCAAGTTGCTGCTAGATCTAGAATGGTTATCTGAGAGACATGGGTTGTTACAGCAAACTT
GGGAACAAGGGAGAAAACCTCTGGGCTATGAAACTTTTACAGAAAGAGACTCATTAAACTGATAGTGGCCCTGAGAAAATAACCATATAATTGCCAGTGC
TAGGGGAATATTTCTTGCCCGAAAGTCATGTCCACCCTCCTCACAAGCAAACCTCACAGAGTTTTGTTTCTTTTCCCATCCACAGGTAACAGTCCTTTGG
ACAGCCCCCGGAATTTCTCTCCAAATGCACCTGCTCACTTTTCTTTTGTTCCTGCCCGTAGGTAAGTTGATAGGAAACCTCCTCTGGGACCAGCACATGT
GGCACTTGCATGAGGGTTAATTGAATGTCAGATTCCTCCTTTAAGTGTCACTACTCTTTCAAGTGTATTACCTGAAGCTCCCATCCATCAAAACTCTGTC
TTTGCTTTCCTCTCCTAGGTTGTAATGATCGTGTTCTGGTTTTGCTTTATAGGTGCCCCATGTATTTGTGTTTGAATGTTTAAACAGGAGAGTAGATATT
AAGTAAAAGTAGATTTATTTGTATAATTCACTTTTTTTTTTAAGTCCCTGATGTCCTACGGGTATGTTCCAAAGCATTATACTCTCAATTTAGAACTGTC
CTACAGTGATGAATGAGAAAATAAGCTCTCCTCCAGGAGGACCCAAAGTTATACTCTTTGTCCTCTCTAACTCAGCTAGTTTAAAGCAGCTGAAAGGGCT
CTTTGTGCCTCTCTCCTTGACTTTGAGCTGGAGTTCGTTTGGGGGATAAAGASACTACAGGGACTTCACTTTTCCTTCTATGAATTTAGAAAGATTTGGT
GCATACAGAGCCATGCTTACAGTCCTCCTCCCATGTTTCTTCCCTCTTGAGAGTGATAACAAACCTGTCTCTGGCCCATGGCAGCAACGCTGACAGCTCT
GCCTGTGGCTGGAATATCATCAGGCCTTTAGAGAAAGCTGAATGAGATTAATCCATCCAAATCACATACCTAGGCTCTATACACACATGATTTCTTGTCA
GAACTTTTCTAAGATTCTTTGCCAGAGTTTATATTTATTTTATTTTATTTTTTAATTTTTAAAATTGTTCTTGGTTAGAGTTAGTCCCTGGTATAAGACC
TCCAGGAAAATTATGGTTCCAGATTTGTAACCTTTAATGGATGGAGAATGTAATATAGCTGGAGACCAGGACAGTTTTAATACTTAGACTACTTTTTTTT
TTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCTGTGGCATGATCTCGGCTCACTGCAAACTCCGCCTCCCGGGTTCACGCCATTCTCC
TGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCATCATTCCGAGCTAATTTCTTTTTTTGTATTTTTGATAGAGACGGGGTTCCACCGTGTT
AGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCTACTTAG
ACTACTTTTTAAAAAAAGACATATTAGGAAAAAGAGAGGCTCCTGGAAATGGTGTTAACTCACTATTCCAATGATAACCCAAAATAAATCCATCCTCTTT
CCAGGATTCTTTGCAGCTGAAAAGAACATGAACAGGTTGGGATAAGTTTGATAGCTGACGTGGGTTTCCTCCTTCAACCCACTTACCTTATTCAAAACAA
ATTTTATCCAGGTTTGTTCCACGGGCTCATCTCTCCTACCCTATGGAACTTCCAATTTGTTAAGCAAGGATCCAGATAAGATCACTTACAGTATAAGAAT
ATGCTGGTTTGATGCATTTGTTTGTCCAACCCAGCTGGAAAGACTTATCCCAGACTTCTTGCCTGGACTATATATAAACTGTACTCTCAGAGTAGGTACG
AGCTGGGACACCAAGACCTGTGGCTAGATCCCCATAGGTGGCATTGAGTTATTTCTCATTCATTTGATAAATATTTGCTGAGCACCACCAACTAGAGTCA
GGCGCACTCGGCTGGGTGCTTAGTTATGTAGTGGTAACAAAATAGACATAGTCCCTACTTCCCTGAAACTCAGGATGTAGGAGAGTCTGTGTACTGGTTG
TTTCCTCTGTAAGGAATGCTGTTCCCTCAGATCTTCATTTAGCTAACTCATTGTTATGATTCATATCTCATCTTAAATGTCACCTCCTCAGAGAGGCCTT
CCCTAAACATTCAATCTAAAGGGGCCTTCTTGTCTTTCTCCATCAAATCATCCAATTTTATTTTCAAACTAGTACTTTTCAATTCCTGATATTATCTTAT
TTGCATATTTTCTGTCTCAATTCAACCACAGTCAAGTCACCTTTAATAGAGATACCTTCATTTGTTGAAAGCTGTGTCCTGGCGGGAAGACAAATGAGTA
GTGGGAGAGAAAGACAAACAAATATATGTTTATAAATTATGACAAGCACCAYAGAGGGAAAGAGCATGATGCTGCATGAAAGAACAGGAAGAGGGCCGGG
CACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAAGCAGGCATATCACTTGAAGTCGGGAGATTGAGACCAGCCTGGCCAACATGGTGAAA
CACCATCTCTACTAAAAATACAAAAATTAGCCRGGCATGGTGGTGCAGGTCTGTAATCCTAGCTGCTCGGGAGGCTGAGGCAGGAGAATCACTTGAATCC
GGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTGAAACAAAACAAAACAAAAAAAGAAC
AGGAAGAGACTAAAGCCAGAGAACCTCCACTGGGTGGCTATGTAAAGCCTCTCTGAAGGATGAGAAGCAGCTGCCATGTTAGGTGCGAGGACCCAGGTGT
GTGTAGACCATTCCAGGCAGAGGGAACAGCCTGTTCCATTGATACCATGGGTCTGTTTCATTGCCTGGGTTTAGGAGTAGGACCAACTAGGAGGCTTCAG
GGCCTGGTTTTTTACCACTGAGACCCAAACAGGTCTATGCTAAGTGGCATGACATTTGAGTCATGTGCATGGAACATGGATCTCTGGGCTGTCCTCTTAT
ACAACATAGTAAGAAAAGCTGCTGGTTATTGGTGGGATGGGGAGAAGTGTTTCAACCCTGCCAAACAGAGTATCAGGAATYGTTTGTTTCTGTGTTACTG
GCTGGCGCTTTGGAGGATCACATTGGTTTGCAATGTCAAACAAAAGACAGATTGAATTGAACACTAAGGATAGACCCATTGGTCCTACAATTTCACTTCA
AACTATCACACATTCCTAAACAGAAGGAATGTGCCAAGCTAGACCAAATACCAAGATTCAAAAAGATCACTCTCTCTGGTTCCTTTGGTTCTCACTATAA
TGTGTATTTTTTTACTACAGCCATAGCCACAGAGCTGACAGGTAATAGCGGGTATAATGGGGAGAGGGGCTGGGAAACTGCTATGCATGGCCAGACAATA
TGGTTTGTGAYGTTGTGGTTGGTGAAAACTGGTTGTGATGATTCTTCTCTGACTGTGGGTATGAACATTGGGCCTTTCATGTCTTGCAAAGAGGCCCAAA
GGGATCTCCCTCTACCTGCTGGAACCAAGGCTCAGAGCTCATATGCTTGGAGGCAGGAATTGCTGAATAGTTCCAAACTTCTGAGCTTAGGGACAAGTCA
CCCTTATTCCCACAGCTTTGCACAGTCAGATGACTGCAGTGACCAGATAGAGGAAATAGAGGCATCATGTGGTGGCATTTCTTCCTGACTCTGGTGGCCC
CTGCTGTTCATTATACAGAGAAATTGCTGCCATGCAGCTAGTTTTCATTTCTATCTAAGGGGAGGAAAACTCACATGTACAAAAGTGTATTTGACAAGGG
TTTGGGAAATCCATCCCTGAGTTATACTTGTCTCATCTTTGCTGAGCTATTTCCTGGAACCGACTTGTTTTATTGTGTGGTGCTCCCAGGACCCAGCAAA
GAGGTCAAAGAGAACATCATGTCTGAGCACCTTCCTGGACATGTCTGAACCTCAGAGACTAGGTTCCAGCAGAGTTATAGCCTATATGTGCTGCTGCCAG
GGTGGCATGAAGTTTGAGTCATGTGCATGTGGCATGGAACCTGCGGCTCACCCCTTACAGAACAGAGTAGAAAAGCTGCTAGGTATTGGTGAGGGTGGGG
AGGAGTGCTTCGAAGGGAGAAGCCCCAGCAAGATTTATTCCTTTTTGCTTCTTCTTCTCCCTGTCCCTGCCATAACCATGAAGCCTTGAACAAACCACCC
AAATCTCAGGATCTTAGTGTTTTCTCTGTAAATTGTAATATGAACTTATAAAGATCCTCCATTGCTGATAGTCTCAGGTTCTGTGAGTAACAGCAAAAAA
ACTTTGTATCTAACTTCAACCAGAGCAGGCTGTACCCTTAAGCTCTACAAAAAAGAATACACCACATCCCACAGTCCAGGCAAAGAATCACACGTTCATA
TTATAAAAGTTTCAAACTAGATCCCTGCTTGATCTTTCCCCTCTACAGTAAAGCAAATAACTGTGGCGGGGTGGGGGGGCATGTTTTGTTTGTTTGTTTT
GATGAGAGCTGTGGGGAGCATCCTTTTGAGAGCAGCAGGAAGCCTCCCCCAAAGTCTCATATACAGCTAAGGGTATGTCACCTCCCTTCTCTTTCATAAA
GTTACTGTCACTCTTCGACAGACATTCCCAAATATTGGTTTTATGAGTCCTAACGGCTCCTAGGCAGCCTATAACTGTTTCCCATTGATTAGCTCAGTTC
AGACCCAGATGGTGGCCCACTTCTTCCTGTTGTCAGCCAGTGGCCTGGGGAAGACCAAAGAGCCCTTAACACGGAGCCTTCACAAATGGAAATAGCTGCA
TTTCAGTGGCAGTTCTATCTTGTAATGTTGCCTATAGCTGGAATCCTCTGTCATTGTTTCTATGAAAGTAAGTTGAGAGTATGAAAATATATATTCCAAA
ACCACAGTATTATATGACAGATGTTCTTCTGTTATACAAAGTTATGGACTATTTTATAGTCAGAGATGTCTGTCTTTGCAGGGAAAACAACAATAAGCCC
TCTGTAGGGGAGAGATATAAAAGCATGTACTGGACTGAGCAGTAATGTCTTAAGGAGGAGCCCTACAGTGAATCAACTGCCCCCAAAATGCTGATGAACA
GACAGGCAGGTTGTGGGTCAGGGTGTAGTCCTGCAGAAACTGCCTAATACTTTTTCTTGCATACAGGACTGATGGGCGGCGCTGGTCTTTGGCCTCTTTG
CCCTCTTCAGGATATGGAACTAACACTCCTAGCTCCACTGTCTCAGTAAGTAGCCAAATCTGTGGCCATACTTCCTTCACCCTAAGGAAGTACTTCCCTT
TGGGTTATCTAGTGTCACAAAATGGTTCTCAACTTTTTCTCCAAAGTCAAACTCAGAGAGGTTGCTGAGAGATGATGTTGGGTGCAACAGAGGGCTGGGG
TCCCTTCCCAACCATAGCCAGCTCCATAAGTGCCTTCGGAAAGGATGACCAGTGCCCTCTCTGGGAATCAGTTACTTCTAGTGGAGGCAGAGGAGAGCTT
GAGGATGAACTTTTGCTTTGACAGTGAGACCAGATATGGGGACTCCTAAGCACACTTCCCCTACTCCTCCATCCTTATTTCTAGAACTGGAACCAAGAGC
AGATCACCTTTCTCATATCTGAAGCACTTGGTAGACTCTCCCCTCTTTTTCACCTTTTTCTTTCAAAAAAGAAGGGAAGAGTGATTGTTATTTGATATCC
AAGTTTGATGCATATGAAGCAAAAAGCTGGACCTGTCTCTAAAACGTTTATTTCTTTTGGAGAATGTTTTAGCCTAAAACACAAGAGCTGTACTAATTGC
TGCTATGCACAATTGACCCTTAAGCCCTCATTGAGCAACTTTTTTTTTTTTGAAAGAGTGTCACTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCACGG
CTCGCTGCAGCTTCAACCTCCCCAGGCTCAGATGATCCTCCCACCTCATTCTCCTAAGTAGACTGGGACTGCAGGGGCATGCCACCACCCTGTAGCAGGC
TAATTTTTTGTAGAGAGGGGGTTTCATCATGTTTCCCAGGCTGGTCCCAAATTTCTGGGCTCAAGCGATCCATCTGCCTTGGCTTCCCAAAGTGCTAGGA
TTACAGGCGTGAACTGCCACACCCAGCCGAGCAACTTTTTATTAAAACCACAGTGACAAGGTTGGCCAACTTTTTCTGTAAAGAGCCCAACGTGGAGTAA
ATGTTTTAGTCTTTGAAGGCCATACAGAAGCAGGCCGTAGACCTGCTGACCCCATCCCCATTACTTGCAGCATTCTTCAGGTCTTCCCTGCTCAGTGTGC
CTTTATTCCTGAATCTCGAGCAGGGAAAAGGAGTACATTTCCTCTCCCAACCTAGATACTACTGTCACATTAATCCAAAGATGTCATTGGTCTTTGGCAA
CTGTTAAGTTTAAGATCTTTCTCTAATAAACATTCCCCTTCCCGGGCCAGGCRCAGTGGCTCACACCTGTAATCCTGGCACTTTGGGAGGCTGAGGCAGG
CTGATCGCAAGGTCAGGAGATCGAGACCATCGTGGCTAACATGGTGAAACCCCGTCTCCACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGTGGGCGC
CTGTAGTCCCAGCGTCTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGATTGCCATGAGCCGAGATCACACCACTGCACTCCAGCCT
GGGTGACAGAGCAAGACTATCTCAAAAAAAAAAAAAAAAAAATCCCCTTTCCCATAACTCTTCACTCAAACAAGTGATTTTTTTAGAACCAAGGTAAGTC
TCATCTGCAAATTTTAAGACTTAACTCATTGCTCCAGCTTATTAGGATTCTTTAAAATACCAGTTTTGCCCACTGTAGTTTACATTGCCTCACTAGTTTC
ATGTTAGCTATAGCTGGTAAGAATATTTTTTGCAACTTTGATCCAAATCATTTATTAAAATGGGGCCAAGAAATAACCCTGTGGAGACATCTCACTCGCT
GTTTATAACTTCATGTATTATAGCATTCTATGAGAGAAAATGTGCACTGTTAGCAAAAAAGAAATGCTGATTTCTCACTTGTTTATTGAGCCTGTGACAA
CAGAGTTATCTCAGTGTGGTGCTTTAGCTTTGATTCTTAAATGGATTTAGATATTTAAACCTTGGCTCTGGGAGCAGTAGCTCAGGCCTATAATCTCAGC
ACTTTGAGAGGTCAAAGCAGGAGTTCCAAAAGACCAGCCTGGACAACACAGCAAGACCCTGTCACTTAAAAAAAAAATAGCTGGACATGGTGGCATGCAC
CTGCAGTTTCAGCTGCTTGGGAGGCTGAGGCATGAGGATCACTTGAGCCCAGAAGTTTGAGGCAGCAGTGAGCTATGATAAYGCCACTGCACTCCAGCCA
GGACAACAGAACAGAATCCTGTCTCTAAAAAAACAAACAGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGAT
CACCTGAGGTCGGGAGTTCCAGACCAGCCTGACCAACGTGGAAAAAYCCCATCTTTATTAAAAAYACAAAATTACCCGGGCATGGTGGCACATGCCTGTA
ATCTCAACTACTCAGGAGGCTGAGGCAGGAGAGTCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGCA
ACAAGAGCGAAACTCTGTCTCAAAAAAAAAAAAAAAACCCCAGATCATTGATTAGTTTGGTAAATAGAACTTGGGCTGGCCCTGACTTGCCTGTTCTCTT
TGTCAGTCTTGTCAGGTAATGGAGGGGGGAGTTCCCTGATCCTGGGACTGAATGGGTGCTTCAGCATTAGCTGCGCCTGTAGAAGTCCTGTGATAGCCGA
GCACCCTCCCTCAGATGGCCTGTTGAGATTGGCAGTGCTGTTGTGAGGAATCCTCAGTCACTGAGCCATGTTTAGAATTCATGAGTGTTTTCAGGTCAAG
CCTAATCTTCAGGTCCAGATGTAAAAGTAATTTTCTTCCCTGCTGGATTTTCTTGCCTGCTGGACATCAGGCCATAGTTGGTCTGCAGGCTGTAGTTTGC
TAACCCCTGGCACAATACATTGGCCAGCTTGAGTGAGTCTGGGCACAGCYTTCACAGCCCCAGCAAAGGCACTTCTCCTCCAGATAGCAGCCAAAAGGAA
AYATTGCTGAGCTGCCCCCAGGGTGGCTCTCTCAAGATTGTGGAAGGGCGAACTTAAGAGGATGTTATTTGCAGCTGGGTACACCTAAAACATGTCCCAA
GTGAGGAAGCATGATTTATTAACTACTTTTGCAGCTCTAAAATTCCATGAAGGTCTGGGCCCAACTCCCTGCACAACCCTTGAAGGACTCCAGTATATTG
AATTCCTCAGGGCTGAGGGCTCTGAAGGGCTGGAGAAAAACAGGATCAAGCACAGGCAAGGCTAAGGGAGTAGGGGAAAGAAGACCTGCTTTGGGTTTAT
AGTGACTGGGAAGTTCCCTGACCATTTTCAGTCCTTCCCCATTCTTGGACTGCTCTGGGACATGTCTTTAATGCCACTTCTTAATGTTTTCCCCTCTAGT
CATCATGCTCCTCACAGGAAAAGCTGCATCAGTTGCCTTTCCAGCCTACAGCTGATGAGCTGCACTTTTTGACGAAGCATTTCAGCACAGAGAGCGTACC
AGATGAGGAAGGACGGCAGTCCCCAGCCATGCGGCCTCGCTCCCGGAGCCTCAGGTGAGGGTGCTCTCTGCCCACTGTTCCAGTGCATGTGGATTTCAGC
TTGTTTGCATAACACAGAGGTGGGCACACTRTGCTATAARGGGCCAAGATAGTAAATATTTTTAGGCTTTATAGGCCATATATCTCTGTCACATTCCTCA
ACTCTGCTGTTGTAGTATGAAAGTATCCACAAATAATATATAAACTTTATTTACAAAAGAAAAAAAAAAAGTAGCAGGCCATAGTTAGTCTGCAGGCTGT
AATTTGCTAACCCCTGGCATAATACATTGGCCAGCTTGAGTGAGTCAAGTTCAACAAAGCCCAAGCTATTTTTGGCTTCAGGTACAGCTCAACCCATCAC
CCCAGGAGATATTTAACAATACTGTCAAGTGGTCCCTCTCTTTTTCTGTTTAAAGGTAGTTAGCAGCAGAAATATACTTTAGATTACATCTGGTAAAAGG
AGAACAATGGTATCATCAATTCTGATGGTTATCTGGCTCCAGAACCCATTGGCCCTGGGTGTATGATCTAGGCCAGCTAAAAAAGTTGCTGCTGAAGACA
GGTTGCTGGCGTGGGGAAGAAGCCCATTTCAAAAGCAGAATTAAATGTCCATTTGAATATGTCTTTATTCTGTGAATCACCTGGGCACATCTTCATCAAA
CCAAACTAACCTTAACAGCTGCTGATTAATTTTCGATTCTCTTTGTCATTAGCTGGTAAATCAGTGCCAGAATTTTAGGTTAAGGAAGGTGATGGAGATT
AAAATGAACATGACTTTAATGACTGAGCTCAGTTTTGCAGGGTCCCTAAGAAGTAATTAATTGGCTAAGATGTGCAGGGTAGGATCCCAGAGGAGCAGCA
GTTCCTCCCAGAAAGAATCCCCTCAGGTAATGCTGGCACTGCACCAGGAGTGACAGGGAGTAAGCTGGGCCAGACCACAATGACTGGTTCAGGTGTAGAG
ATTGATGAAGATGGTATCTGAGGCTCCAGTGCCTTTCTCTGTGTCACAGAGGAACACCTGAGTCTTGGTGTTCTCAACAACCCATACACAGAGAAGGGTA
CCTTTTAGGCCAGTTGAGATTGAGAGGCCCACAGTGATGCTCAGAGAAATCCATGCTATATTACTCTTAAATCCTTGGTAATGTGCAGCAGTACAGCAGG
CAAAACATGGCACATTCCAGGGAAGAAAGACAGAGTGGGACAGTTGTGAACCTAGAACATCTGGGATCATGTGTCAGGGGCAGTAAACTGGGCAAGACCC
ACATACCCATTCAACTGTGTGGCTCCAACTTTGAAATTTTTTTAAGGAGATACAATGACACATGAGCCAGAGGGGGAGATTTAGGTTATCAGGGAAGACA
ATAAATTAAGGCAGAAAACATATCGGCTGCCTTCAGTAAATCACCCAGATGTATAACTCACAACAGTCTGGACTGGCCTCATTCATCCCCAAGTTAGGTC
CATGGCTGCAGCTAGTTTGGAAAAAAAATGTACGTGTGCACCGTCTTCCTTTGGTTGCTTTGGTAGTTTTTTTATTTGTTTTGTTCCCAAGAATATGCTG
GGGCACACCCAACCCTATTGACCAAAACTAAGAAGACACAGAGAATCCTACTCCAGGGGAGKTTATCCTGGGAAAGCCACCAGTGAGCTTAGGAGTAGGT
CCCTTTCTAGGTCTTTCTAGCCTAGAAGAGGTCTTTGTGAAAACCAAGCCTAGCTCCATATAGTACCATTTTGAACTGAACAAGGTACRCTGGAAACTCC
AGGAATAAGAAAGGCTCTAGAACTCAGTACCCGTTAAAGTGGGAGTATGTAGCTGCTGAAGATGGTGGGAGGGGCAGGGTCTCTGGGGWTGGCCATCTTT
CTTCTTGATAGTTCCATAGCACTAAAGTAACACAATCATTTCTTTCTTTTTTAGTCCCGGACGATCCCCAGTATCCTTTGACAGTGAAATAATAATGATG
AATCATGTTTACAAAGAAAGATTCCCAAAGGTAAGGATCCATTTAAAAGGAGAGTGGCAATACCCCTCCGGGTGGCTGCCTACAGCCAGCCCCAATGGGA
GACTCTGGAGTGAAGGAATGAAGTGCTACCTCCAGAGATAACCAAGAAGAAGAACAGAAAGTCAGCCAGGAGGCTGTGGACACAGCAACAAGGGCTTCCA
GACTGCTTGAGAAGGAGACAGCAGGAAGCTATGAGTTTGGGAACTGTATTTGCAGAGCCTTTGTTTCTTCACTACCCAGAAGTAGAGTTATCCAGAGGGG
AATGTCAGAAAGGTAGCCCACCATATATTAAAGAGGAAAGAAAGAACTGGAGGCTTTACTTCTCACTGTGCACATGAGGATCCATGAGTCAGGGTTCACT
CATTACAGGATTTGCCCTCTGGTGGCATATTCATTTGATAGAGATTTCTTAAGCAGCACCTCATTATCAGGTGTCAGAGAGTACACAGACAGAAGTAGGC
TGCACTGGCAAGAAGGCCAGAGAGAGCAGTAGGAGTGGGAGACAGATCTCAGAGTTGCTTGCTAACATCTGAATTTTCATTTTCAAGCAGGAAAATGCTG
AGGAAGGAAAGTAGGTTGTTATCCTGAGATAGCTGAGAAGTAGCATTCGTAACTCTGCTGCTTGGCTGTGAACCTCCTTGTATATGGAACTAGGATCTTG
TTTCYCATTTGCATGTCTCTTTTTTTGTTAAGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAATGGCACCATCTCGGCTCACTGCACCCTCTG
CCTCCGGGGTTCAGACAATTCTCCTGCCTCAGCCTCCCGAGATGCTGGGACTACAGGCATGCGCCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAG
ATGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAAATCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCA
GCCACTGTACCTGGCCCCATTTGCATGTCCTTTTCAACACCACATGCCTGTACGCTCTGACCTGGCCTCCTGAAGATAGGCCCTGTTCCTGACTGAGAGG
GGATACTGGACTGCAGAACCTGTGCCCTGTGGTCTGTGCTTTCCAGCTTTGGAGTGGGCACTAGACAATAAGCATGAAGAAGGAGGCAGAACAAACACCT
AGSAATTCATTTTGACGTATATGGTGTTTATGAAGTTTGCAAGTATATAATGTTGAGAAATGTATCTCATGCTTGTCCTCCTCCTCCTTGTATGTTAGGT
GTTTTTGTAGCATTGGATGTTTGTGTTTATAGGCATGTTTCCAGTTCCTTCCTATAGGATGAACTATTGTTGGAGAAAATGTGTTAAGATTCCTTCACTT
CCTTCTTTCTCCTCTACTCCCACTTTTTCACCCTCTTCCTCTTTCATTCTCCATGTAGACACACCACATATATATGTATGTAGGTATACATTTGCCTAAA
CACACACTGGAAATCAGAAATCACCACCTGGTAGCAAAAGAAATAAGGCAGAGTCTTAGATAGACAGCTTAGATAGGCAGCTAAGAACTCGTTCACAGAT
GTGTATCTGTCATTTTGACATGACTGTGTAGTTAGGTCCCTAAGAGGTTTGGAGCCAGACCTCCATTCTCCTCTGCTGGGGATCCAGGCCAGGCTCATGT
TCCTATCCACAGTCCCCCCATTCCAACTCACCATCTGTGACCAGACAGGTTCACTAAGCAGCTCTCCAAGCACCTGCCTAACTCCCTTGGGTCCTAAGGT
TAAGTAAGAGGATCCTGAGTTARATGAAACTCTCTCTCACTTAACAAACTTCCCGGTTTAGAAACCAGCAGTGCCCATACACTAAGTTTACACAGTTGGG
AGGTCCAGTGGAAGAACAGAGGAATGGAAACCCATTTGCCTGGGGAAATGAAAGACTTCCCAGAGGAGACACAATATTTGAACTGAGATTAGAAGGAGAA
TTAGGAGTTTGTCAGGCAGGCTTGGCAGGGTGAAAAAGCCACACACTGGGAAGAGCATAAACAGACAGGCATGAAACAGCATAGTAAAGGAGGAAGATAG
CAAACACCTGTGTGTCCGTACAGCAAAAGAGCTTGCCCTGGAGGGAGTTGGGGGAGATGGGCAAGACCAGGTGAAAGAGGGCCTTGAATATAAAGCTAAG
GCATCTTGAGTTGACTTTACTTGAAGGTGATCTATTAATGTCTTCAGTTATCAGGTTTCCCAAATGGCAGTTTAAGGAAACCAGGATCAGAGGGAGCCCA
TTATTTTGCTATTTCCAGGTCCTTCAGGCTTAGCTCCAACTGAGCTGGAACTAGAAGGGAAGTGTTTCTTTCTTGCTTTTCTTCCCAGGCCACCGCACAA
ATGGAAGAGCGACTAGCAGAGTTTATTTCCTCCAACACTCCAGACAGCGTGCTGCCCTTGGCAGATGGAGCCCTGAGCTTTATTCATCATCAGGTGATTG
AGATGGCCCGAGACTGCCTGGATAAATCTCGGAGTGGCCTCATTACATCACAATACTTCTACGAACTTCAAGAGAATTTGGAGAAACTTTTACAAGATGT
GAGTGTCCTTGTGCTGGGGTTCTGAAAAAACCTCCACCTGGTATTGGATTTGTAATCCCAAGCTAAGATTAGGGCATTAGTGGTATTCTCAGTCTTCACA
GACTGCTTGTTACCCACCCTCAAAGGTAGAGCTGAGGGACTTAGATTCCTCCTCAGTCCCCTGCAATACTGAGAGAAGCCTGCTTGGTATCAAAGGAAGT
CACTTCTGTTCCTTTTCTAAATCCAAAATTRTATTACTTTGTTGTATTACRCGAAGCTCCACCATGGGTAGTAGTCATAAGTATTTGACTAGGAGGTTTG
CTACCCAAAGCCAAAAAGTGGCTCCAGTGGCTGTGACGGGCTTTCTTCTACTGGAAATACTGGTTTAAGCAGAGCCTTCAGACTATTTATCCTCAGCCAA
GGGAAAACAGGTATGAGGCTTGCACAATGGGTTTAGCCATTTGCATGGTGAGAAGTTCTCTAGTTGGGACTTACATGTTTTGAGACCTGGTCCTCGCTGG
TGTGAAAAAATCTCTGGGAGGCTAAAGGTAAAGTAATCCAGAGATGGCCAAGACCAAAGCACATGAGAGTTCTTAAGCACTGCTTCCTGCACGAGTGCTT
CCTTTGCTATCAGCCTCTTGATTAAGGTGGCCAGATGCCATCTCACTCAGACCACAGCGGCTCCATGTTATCCATTAATACAGTTTGGGAGAGAGAGGAT
ATGCCTGTCCCCSCAGAGCTCATCACATCACTAGAGAATTTCCCAGTCCAGAACCCCTTATTACCTCCAGACCAAGACCTCTCTCTCTGGAGTAGTACCA
ACTGAGCTGAGGGCCCAGGGCTAATGATCAAAAGGACATCAGTGTGTTCGTCTAGAAATAAGAAGGAGCAGGGAGTTTAAACAAATTTTCAGAGAACAGT
TGAATCTAGAGAAAGGGTGACTAAAGATGATCATGATTATTGTTGTCAAGTAGTAGAAAGTTTCTCACATATAAAAGAGAGCAGATTGTTCTTAATACCC
CTGAAAGACATAATTAGTCCAGTGGGCAGAAGTTACAGTGAGAAAGGTTTTGATTTAATAGGTGAAAAAGTAGTTCCTTCTACAAAAATACCTTTTTGTG
ATTTCAAAAGAAATACTTAAAATAAAACATTGTAGAAGTATAACTTTAGAAAGCCAGAGTCCCATGAAAATCACTGGTAGCTGTTTGTTTCTGTTCAAGA
AAAGGTTTCTGACAGTTTTCCAGCAATGGAAAGGGGTACCCCAGAGACATATAGGAATCAGGGATTACTGCATCAGGTAAAGGATTAATGTAGAGTAACT
TCCAAGTTTCCTGGTATGTTTAAGATTTATCTTCTAAAATGCTAAAGTCAGAGCCTTGCCCAAAACCTTTAGGCATTTTCCCAGATTGACTGCTTGTGTG
GTTAGGTTGTTTGATACAATAGGAAGAGCACTGAATTTGGAGCCAGTTTGTTCATCTGTTCCCTAATTTGTGAAGCCCTTGGAATGCAGAAAAGAATTCA
GTGCAGGCTCTATCTTAGGGAATTTGCCATCAGTGAGGTTACAGACCCATCAACATGTACTTAATAAAAATAAGTTATTACTATACTGAATACTTTATAT
GAATTCTCTCACTTCCACTGACTGCAATACAATGTGATTGACGAGCACTAGAGATAAGTAGGTTCTGAGCACAGAGGAGGATATGCTGACTCTTTGTGGA
AAGTTCAGGGAAGGCTAGATCTTAACAGGTAGGAGTTCACTGAAGCTAGAAAACAGCATAAACAACCTTTTGCTTGGGCACAGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGCCAGGATGGAAGGATCACTTGAGCCCAGGAGCTTGAGACCAGCCTGAGCAACAAAGTGAGACCCCGTCTCTACACTAGCCAGG
CATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCGCCCTGCCTCGGCCTCTCAAAGTGCTGGGATTACAGGTGTGAGCTGCTA
CAAATGACCAGCTGGCAGATGAATTTGAAGAGTTGGACTGGGGGCCAGATGCTGAACGGCCTTGTGAGGAGCTTAGATTGTATCGTGAAGGCAGTGGGTA
TCATCCAATGTGACAAATTGAAAAATGACCTGATCAGATTTTAGAATAATAAAAGTCAGTAACATTTATGGAGCATTTARTACATGCTAGACACTGCATT
ACCTCATTTAATTTATCTGGTTAAATCTTCACAACCGTGTAAGAAAGGTACTTAATATTATTTCCTAAATTTACAGATAAGGAAACTAAGTTAGCTCAAG
ATAACTGATTTTTTTAAGTAGCAAAACCAGGACCCAACCCAGATTTGGCTTATTCCAGAGCCTAAGATCATACATTTTCAAACAGTCAACAAACATTGAC
TGACATCTGCTGTATAGGAGGCATTCTGCTAGGCTTAGCATTTGAGGAAAGAAACAGGGCCAGGTGCGGTGGCTCACTCCTGTAATCCCAGCACTTTGGG
AGGCTGAGGCAGGCAGATCACCTGAGGTCGGGAGTTCCAGACCAGCCTGATCAACATGGAGAAAACCCATCTCTACTAAAAATACAAAATTAGCTGAGCA
TGGTGACGCACGCCTGTAATCCCAGCCGCTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACTCAGTAGGTGGAGGTTGCGGTGAGCCAAGATCATGCCAT
TGTACTCCAGCCTGGGCAATAAAAGTGAAACTCTGTCTCAAAAAAAAAAAAAAGAAAAGAAAAAGACACAGAGCCTCTTTACTCACTAGGCCCAGCAGTG
TAGCTGTAGAGACAGACAGCTCATTATGAAACAGCATGACAGTACCATGTGGTATGCATGAACAGCCAAGAGAACATGTTAAAGACAGCAATTCTTTTTC
TTCTCGTGTGTGTGTATATGTGTGTTGGGAACAGGAGACAGGTTTTAAAAGAATAAATGGGATTTCACCAACTGCTCAACCTTTCTCTTCATTTCATAAC
CAATACTTTAAAAGAAGAAAAGTCCTCATTTACTGTGTTTTTTTTCCGAAGAAAAATAATTTTAAAATAATTTGTAAGCAAAAATAATCCTAATTAGGCA
TTCATGGGAAGATATTTAGGAAAATGTGGTACAATTTGAAAATAATAGCCATTAGAATCTAAGATATTATTGGTAATTATATCTTCGTTTTCATTGATTT
TTAATACTATTTAATTTGATTATGTATTTTTCTTTTTTTTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATAT
GTATACATGTGCCATGCTGGTGTGCTGCACCAATTAACTCATCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCCCCCTCCCCCCACCCCACAA
CAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTCCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCGGTGTTTGGTTTTTTGTTCT
TGCGATAGTTTACTGGGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTGTGGCTGCATAGTATTCCATGGTGT
ATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTAAGGGATCAATTCAACAAGAAGAGCTAACTATCCTAAATATATAT
GCACCCAATACAGGAGCACCCAGTTTCATAAAGCAAGTCCTGAGTGACCTACAAAGAGACTTAGACTCCCACACAATAATAATGGGAGACTTTAACACCC
CACTGTCAACATTAGACAGATCAGCGAGACAGAAAGTTAGCAAGGATACCCAGGAATTGAACTCAGCTCTCCACCAAGCGGACCTAATAGACATCTACAG
AACCCTCCACCCCAAATCAACAGAATATACATTTTTTTCAGCACCGCATCACACCTATTCCAAAATTGACCACATAGTTGGAAGTAAAGCTCTCCTCAGC
AAATGTAAAAGAACAGAAATTATAACAAACTGTCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAAACTCACTCAAAACCACTCAACTA
CATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAACGAGAACAAAGACAC
AACATACCAGAATCTCTGGGACGCATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCCAAAATTGAC
ACCCTAACATCACAATTAAAAGAACTAGAAAAGCAAGAGCAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAACTAAAATCAGAGCAGAACTGACGGA
AATAGAGACACAAAAAACCCTTCAAAAAATTAATGAATCCAGGAGCTGGTTTTTTGAAAGGATCAACAAAATTGATAGACCGCTACCAAGACTAATAAAG
AAGAAAAGAGAGAAGAATCAAATAGGCACAATAAAAAGTGATAAAGGGGATATCACCACCAATCCCACAGAAATACAAACTACCATCAGAGAATACTACA
AACATCTCTACGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTCGACACATACACCCTCCCAAGACTAAACCAGGAAGAAGTTGAATCTCT
GAATAGACCAATAACAGGCTCTGAAATTGTGGCAATAATCAATAGCTTACCAACCAAAAAGAGTCCAGGACCAGATGGATTCACAGCTGAATTCTACCAG
AGGTACAAGGAGGAATTGGTACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATGATGCCAGCATCATCC
TGATACCAAAGCCGGGCAGAGACACAACTAAAAAAGAGAATTTTAGACCAATATCCTTGATGAACATTGATGCAAAAATCCTCAATAAAATACTGGCAAA
CCGAATCCAGTAGTACATCAAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAATATACATAAATCAATAAACGTA
ATCCAGCATATAAACAGAACCAAAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAACGCTTCATGCTAAAAA
CTCTCAGTAAATTAGGTATTGATGGGATGTATCTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGA
AGCATTCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTGACCACTCCTATTCAACATAGTTTTGGAAGTTCTGGCCAGGGCAATGAGGCAGGAG
AAGGAAATAAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTCCAGATGACATGATTGTATATCTAGAAAACCCCATTGTCTCAGCCC
AAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAGCATTCTTATACACCAATAACAGACAAAC
AGCCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGACGTGAAGGACCTCTTCAAGGAGA
ACTACAAACCATAGGATACAAACAAATGGAAGAGCATTCCATGCTCATGGGTAGGAAGAATCAATATCGTGAAAATGGCCATACTGCCCAAGGTAATTTT
TATAGATTCAACACCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTAGAAAAAACTACTTTAAAGTTCATATGGAACCAAAAAAGAGCCCGCA
TCGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCATGCTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAACAGCATGGTA
CTGGTACCAAAACAGAGATATAGATCAATGGAACAGAACAGAGCCCTCAGAAATAACGCYGCATATCTACAACTATCTGATCTTTGACAAACCTGAGAAA
AATAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGAGAAAACTGGCTAGCCATATGTAGAAAGCTGAAATTGGATCCCTTCCGTACACCTT
ATAYAAAAATTAATTCAAGATGGATTAAAGACTTAAACGTTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCATTACCATTCAGGACATAGG
CTTGGGCAAGGACTTCATGTCTAAAGCACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATGGGATCTAATTAAACGAAAGAGCTGCTGCACAGCA
AAAGAAACTACCATCAGAGGGAACAGGCAACCTACAAAATGGGAGAAAATTTTCGCAACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATG
AACTCAAATTTACAAGAAAAAAACAACCCCATCAAAAAGTGGGCGAAGGACATGAGCAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAAACACA
TGAAAAAATGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTC
AGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTATACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGGGG
CGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGACTATAAATCATGCTGCTATAAAGACA
CATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCATTTACTGTTTTTCTTTCCTTGTATCCTATTTACTACTCAATCTTCTGCCTTCCAGTTTC
CCTTCCCACCAGTCTACCAAAACTGTTCAGGCAAAATTCACCAAGGAACTCACTGGCCAATTGCCAAATCCTGTGGCCACTTTCAGTTCCCATCTTCTGC
CACCTCTCGGTGGAGCACAGTGAATACTTCCTAAACTTCCTTCCCCAGTTGTCAATTCACTGTTCTCACCACTCTTGCTGCCTCTTCACAAGTTCCTTTG
CTGCCCACCTCTTCCTACTGGTGTGTCACAGGGCACCATYCGGCATGCCTGGTCTCCCCTTTCTCTTTCCTCCACTCTCTCTCTGATGTCTTGCCACCTG
CTCCCATGTCTTCAGTTGTCATCTCTACGCTGAGGACTCCCACATGTGGCTGCCACTCTTACTGTTCTCCTGAGCTTCAGATCAGTGCACCCAGCTGCCT
GCTGGACTCCTCCACTTTGACTTCCCTATATTGGTTCTTATTCTTTGGTTGCACGTAATAGAAACTGATTCAGAATAGTTTAAACAGTAAAGGGAAACAT
TATAAGAGTAAAAGGAGTAGGTCTTAGAGAATTGAAGCGAGGGATATAACCAGGCCTTAAGAAGGAACCAGAACTAGAAACCAGAAGCTCCAGGAAGCTC
AGGAAGTCTTCATTCTTCCTTTTTCTGTATGCATCTTTTCCTCTATTTCCATGGTAGGTATGCATCTCTTTTCACAGTTCTTAAACGGTTCTGCCACACT
GACGTTAACAGTTGTCTTTCTATCCTTTTTTAAATTCCTAGGAAAGTGATCCTCTCTGGTCAGCTATTAGAGGTGGGAGGGAAGGTACASACACACAGTA
CAAATGTGGCTCCTAGAAACCAGAGCAGTTCTCAGGAAAAAAGAGAAAGGCCCATCGGCCAAGCAGATACCCAAGAGACTCTCATATAGGTGCCTGAAAC
TGCACGCCCAGAACTGAGCTTATCTTTTCTGCCTAGCTGTTCTTTCTCTAAAACCAAATGCAGTACATTCTTTACCTATCACCTAAATGGCTTCTTATAG
TTACTATTTCACTTATTCATTGTAATTTTCCTAAAATTGAAGTTGTAGTTGCCTTCTGTCGTGCTTCTTTCACCCCTTATCTGCTTCTGTAGTAACCCAC
GTCTATCCCCTTGTCTGCATTCTTCTGCCTTGACCTATGCCTTTTTCATCTGAATTATTAGAGTTGCCTGCTAATGGGTTTTCCTGCATTTAGCCTTGCC
CTCTTTAGTGTACTCTCTACACTGCAGCCAGAGTGATCCTTCTGAAGTACTTTCTGGTCATATGACTCCTCAGCTTTGAGGTCTTTCTACTCCTTACAGT
CTAGGGTGGAAAGTGAACATCAGTGAAGGCACCATTGAGAGCTGCCCCTTGAGCTAGGGTCTGGAGGGTAAGTGAGGCTTGTTGGATGGAGGAGCAGGTA
CAGCTGTATGTCTGTGTGGCATTTCTTGGTGTCATGTAGTGTTGTAAAGCAGAAATGGTTCCCTATGAGCAACTCGCTCCCTCTCACAGCCAGCCAGCCT
TCTCTGAGTTCCTTGCTTTGCGGAGCTCTCTATGCTACCGAATTGTTTCTCCCTGGAGTCAGCTCTGCCCTGTCTGGTCCTGCTTAGCCCAGCCACACTG
GGCCAATAGATTAAGCAACGCTTCTTTTCTCTATAGGCTCATGAGCGCTCAGAGAGCTCAGAAGTGGCTTTTGTGATGCAGCTGGTGAAAAAGCTGATGA
TTATCATTGCCCGCCCAGCACGTCTCCTGGAATGCCTGGTGAGTGGACTCTAGGAAAGTCAGGTGRGCAGATTTAGAGGAGGACTATAGAGGAAGTATCC
TGATGACAGCAAAACTGTGGTGGTAACCACTGCCATTTCTGTTGCTTAGGTCCTTATTTAAATATGATTTGCCACCATTGSGGGACTAAACAGGTTTTTG
TGAGGACAAATGTATGKTCCTGAGGGGATGYGGCAGGGAGAATTATTAGTCTAGGCCACCCCCACATGAGCAGGGCTCACATCAGTGGGGGTCTTGGGGG
TGAGAAGCGTCAGGAGCATAGCCCAGTTTAGTTTGTACAAGTTGAGTCCTTCATTTTATCTTCAGCAATACTTGACTGAGTACCTACTTCCTGCTAGACA
CTGGAGATACAGACATGAATAAAGCACAGTCTCTGATCTTGGGATGTTTCCTCTACAGTGGAGTTGGGAAGCATGAGGCATGAGGACATGTAAATAGTAA
TTACAATACTGCAAGAAGTGTTGCAGTTGAGGTCAGTACACAGCGTAACGGGAACCTGGAAAAGGAAGTGCTTTAGTCTTCCCTGGAAGGAACATTCAGT
GAATGCTCCCTGGGGGACGTGAGGCTTATTCAGCAAACYGAAGGATGAGTCTAAGTTTCCCAGATCGGGAGCATGGGAAGGAGCATTCAGTGGGGCACAG
GGTGGGTTTGAAGAAGTGCTGAGGGGTAAGCCTGGAAGGTAGGCTGTGACAGGGTCATGGAGGGTGTCGGGTTCTCGGCTCTGGAGTTTTTCATTACCCT
TACGGCCACTTGGAGACACCAGAAAGTTTAGGTAAGAATGTGACATGGCCGCATTTACTTTTTTCTTAAAAAATATTATTAAGGTATAATTTTCATACAA
TAAAATATATCCCTTTGATGGTACAGTTCATTGAGATTTAACAAATACACACTTGTAGAATCGTGGCCACAGCTGACATAGAGAATATTTCTGTCATATA
AGTTCCCTTGTGCCCCTTTGAAGTCAGTCCTCTCTTCCTCCTGCTCCCAGACAATAACTTAACTGCTTTGTTTCACTAGGGATGGGTTTGCCTTTTGTAC
AGTTTCCTAGAAATGAAACCATGTTTCTGTGTGGTTTCTGTAGTATGTTCTGAATTCTTTCACTCAGCATGTTTGTAGAAATTCATACATGTTGTTGCAT
GTATCAGTAATTGGTTCCTATTTATTTCTGTGTAAATATTACATCAGATTTAGTCCTAAGAAAGATTACTTTGGCTGCAACATGGATAGTGAATTGGAAG
AGAGGGCAGGATGAGCCAGGGACATCAKGGGAGAGGTACTCAAAGCAAATTCATGTGAGATGGGGTGGCCAGAACTCAGACAGTGAATGGTAGGATAATA
GAGAGAAAGAGGTGGATTAGAGGGGTATTTATGAGAGAGACATTCTGACCAAATAGGAGCTAAGGAAGGATAAGAAGTTAAAAGGACTTCCAGGTCTGGC
GTAGGTTATATCCAGATAGGTACAGTTCTCCAAAACAGTGAGGCCACAGGGAATGAGAACAGAGTTCAGGGCAGAGGCTATGCTGTGATAGAGCAGAGAG
CCTCTCCCTCAGGAACATGAAGTCCTTGGCTAAGCAGGGGCTTGGAGTCAGACCTGGGCTGAATGCTGGTTTTCTGTTCCTTCCTACTACTGTGATTATG
GACAAATCAGTGCATCCCTGAAAGCCTTGATTTCCTCAGTGAGGTCAAAGAGTTGCTAGAGGGTTTAACCCAGTGTGTGGCACTTAGTAGGCACTCAGTT
ATTATGTGCAGACAAGGATTGTGCTTTTCAATGGATYTCCAGCCTCTAGCACATAGGAGGTGCCCAGTAAATATTTGAAGGTATACATGCACCAGTAGGG
CTTTGCCAAAGCTCTTGTGAGCCATAATTGAGTGTGTGCCAGGACWGCTGTGGACTGGGCATCTGAATACACCAGACAGTGCCACCTGGCTGATGGAAAG
CATGGGACCAGATCAATAGGCTGAGCTCTCTTTAGAGTAAAACCTCTAGTTCTTACTGCCAGGAAGACAGCATATGCTTAGCATGTCCAATCTGGAGGTG
ACCTGTAAGACATCTTTGTCCCCATTCCTGTGATCCCTGAATCATGTTGTTTCTGAATATTCAGGGGTGGGAGTGTCCTATCACAGAGAAAGTCTTGTTC
ATCTCAGTCTACTATATGCTRTAAAACCRAAGATGCCAGCAGCTTTCGCTTATATCTGTCACCACTGACTATCTCTCTCCCTTGGTACAGGAGTTTGACC
CTGAAGAGTTCTACCACCTTTTAGAAGCAGCTGAGGGCCACGCCAAAGAGGGACAAGGGATTAAATGTGACATTCCCCGCTACATCGTTAGCCAGCTGGG
CCTCACCCGGGATCCCCTAGAAGGTGAGCATGCTGCCTAGTGGCTGCAAAGAGGCCCCACTGCTGCTGGCAAGCTCTAACAGCAGGGAAGCTGCTTGGAA
AAGAGACTTAGCTTGGACATGGACACAACATGGCCCCRGGGGCCTCAGGATTTTAGGAGATACCCTGTGATCTCTGTGACAAAACAGTCTTTACTTTGGA
ACTGCTGTTCACATCTGCCTGATAGATCCCAACCTGGATTGCATYGGCCCGGCTGAGTTGCATTTAGAACCTCAGTTCCAAAGAGGTCAACAACAAAGGG
CCACAATCACATTTGCAAAAATGGTCACCTCCTCTGCAACTTGCCTCTACTCTTGGCCACCTTACAGGTCTTCCTGTGTCTTTGGGGTAGTCCAACACAG
GGCTTCAGAGGATACTGCCATTCTTCTGGGCTTCCTGCTGAACCCCTGCAGCAACCATGGGCTTCCAAGTCCCTGGTCTGTAGGTATCCTGCTCCTGCCT
TCTGTGCTTCCCAGCCCCATCCAGTGAAGCAGTCTTGGCCAGCAGGATGGGAACTAGTAACCCAGTTTCAGGCCCTGTTTTCCAGGAAATGTCCCCAGTT
TATAGAATTTGCCAGGCCCTGTGAATGGCAATGGACTTCTGGAAATGGGAGTAGCAGTAGGATTTGGCTTGTTTCCTGATCCAAAAGCTGGGACTACATT
GGGTATAGTGCCATGGGACTGAATTCACATCYTAGGCTGATGCAAAAAGCATTAATGACTACCCTACATGCACCTGTTGTGTGATCTGAGGATACTGCTG
AGATACCTGACATTGCCACGCACATTCTTCTCTTGTATCTTTGTTTCCAGAAATGGCCCAGTTGAGCAGCTGTGACAGTCCTGACACTCCAGAGACAGAT
GATTCTATTGAGGTAAAAACCCTGAGCTCCTACCCCATTCCTGGAGCCTGGGCCCTATGAAGCAAAGAGCTATGAATTCTCTTTAAGAGAATATCTGAGG
AAGGGATGGGGGAGTTGGTGACAGCAAACACTGAGAAGTCATTCTACTCCCAGAAGAATGAGCAGGAGACTGCACTAGAGCTGACAGCTGAGAAGATGCT
AGAGCCACAGCTTCTGCAAGGATATGGGCTCTGAGAAGCATGCCTGTCTCCTGCCTTTTCCCTTGTCTTCCAGGGCCATGGGGCATCTCTGCCATCTAAA
AAGACACCCTCTGAAGAGGACTTCGAGACCATTAAGCTCATCAGCAATGGCGCCTATGGGTAAAGGCAGGGGTCAGGGTGTGGCCAGGACTGAAGCCGGG
TCAGCCTTTGATCTCTTCCRTGTGAGAGTGTATGCTGCCCAGTCCTCTGGGCAGATGCCTCGGGGTGGACCTTCTCACTCCCAGAAGCCTCCTGGGTGGG
CAGGAGTTCAGATTCCTCTGACATCCGATCATTGTTCCTTTCCCAGACAAGATTCCCACGCCTCTTACTACCACGCATCCTCCATTCCCTGAGCTCTGGG
GAAGCATTGAGCCGTGTCATCAGGACATGGTCTATCAAGAAGTTTAAGAGTTCTATGGACCAGGGGGTCCCAGACCCTTCTCACTGATATGCATGCCCTT
GCCCCCTTGTTCTGTGCATTAATTAAGGTGTGAGAGAAGGCAGTTTGGGTGGCAGAGAGCACAGCTCAGGTGCTGAGGGTCCATGGGGGATGGGCCGGAC
TTTGTTTCCCAGGGCTGTATTTCTGGTGCGGCACAAGTCCACCCGGCAGCGCTTTGCCATGAAGAAGATCAACAAGCAGAACCTGATCCTACGGAACCAG
ATCCAGCAGGCCTTCGTGGAGCGTGACATACTGACTTTCGCTGAGAACCCCTTTGTGGTCAGCATGTTCTGCTCCTTTGATACCAAGCGCCACTTGTGCA
TGGTGATGGAGTACGTTGAAGGTACTGAGGCAAAGGTGGCCTGGCATGGAGGCCAAGGCACAGTCTGAGACTTAGCCTTAAACAGGGACCAGCAGCTTTG
TACAGAGGTGAAGTTTCAGGGCCCAGCTTTCCAGTCCACCTTTGGCATTGGTTTCTGCCTCAGGATCACAGAGACCATTTGGCCACAGTGGGCACAAAGC
TCCCTGCCTCTACCATGAGAGGCATTCTGGGATAGGATGTAGCAGGCCAGCAGCTATAGAATCTTGCACCCCAAAGCCTGCACGCTCTCTACTGCTGGTA
TCAGACAGCAACAGAGGAGGCAGCAGAGCTACAAAAGCCCAGGATTAGGTGCTAGGAGGTTTGCATCTGGACCCTCAGAAGAAAGGAAAGCCATTAATTA
CCCTGACTGGCTTGCAAAGGGGACACCCCTTAAAACCAAGCAAAATGCTCTGAGAATAGAACAGAAGAGCAACATGGGGCATAGTTCTGGAGGGAGGCAG
CAGCTTTGCCAGTTTCCCTTCCCTCTCACCTTCTCACTGTGTGTACAGCCTCCAAAGATACTGTGCCTAGTCTTGAAGCTGAAGCTGAACAAAACTGTCC
TTTAGTGTTTACTGGGTACATGCTGGGAGTTCATAGTGTTACTTTACTCAGAAACTAAAAGCCAGTAAGAAGGAAGTAACATGAACAGATGTTAACATCT
CAGCCAGATGTGTTTACAGTATGCAGTATTCCTGTCCTAAAAAACATTAGGCTGGTACAAAAGTAATTGCATGTTTGCCATTACTTTTAATAAAGGCCTG
GGTTCCTTCCCTCTCTGGCCTGAAAAATGTCCATGACAGCTATTAGCAGATTCACTTTACTTTCCACCCCCCTCCATACCCTGTGTATTTTCATGCTGCT
AATAAAGGCATACCAGAGACTGGGCAATTTACAAAAGAAAGAGGTTTAGTGGACTTACAGTTCCATGTGGCTGGGGAGGCCTCACAATCATGGCAGAAGG
TGAAAGGCATGTCTCACATGGCRGCAGACAAGAGAGAGCTTGTGCAGGGAAGCTCCCCTTTATAAAACCATCAGATGGGCCGGACGTGGTGGCTCATGCC
TGTAATCCCAGCACTTTGGGAGGCTGAGCCAGGTGGATCACCTGAGGTCAGGAATTTGAGACCAGCCTGACCAACATGGCGAAACCCCGTCTCTACAAAA
AATGCAAAAATTAGCTGGGTGTGGTGGTGCACGCCTGTGATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGC
GGTGAGCTGATATCACACCACTGCACTCTAGCCTGGGTGACAGAGCAAGACTTTGCCTCAAAAAAATAAATAAATAAAAATAACCATCAGATCTCATGAG
ACTTATTCACTATCACGAGAATAGCATGGGAAAGACCCACTTCCATGATTCAGTTATCTCCCTCCAGGTCCCTTCCCACAACACATGGGAATTATGGGAG
CTGCAATTCAAGATGAGCTATGGGTGGGGACACAGCCAAACCATATCACCCTGTCTCCCACCCATGCCAGCAGCAAAGGGGCTAGAATCAGAGTCTCCAG
CACCAGGATATTCCATGAAGCTGTCTCCTCTGGGACCTCAGAAACTGCCAGATGGGAGCTGGCTAGCTAGAGCAGGGAACTGAATCCTTTCCTCATGGTA
GCCTGGGCTTGTTGCAGGGGGAGACTGTGCCACTCTGCTGAAGAATATTGGGGCCCTGCCTGTGGACATGGTGCGTCTATACTTTGCGGAAACTGTGCTG
GCCCTGGAGTACTTACACAACTATGGCATCGTGCACCGTGACCTCAAGCCTGACAAGTATGTCCACAGTCTGTGTCCCTTGTCCAGGGTCTCCCTCTTGG
GTCTCCAGATAAAATGTTGGCAAGCACAGTAGCTCTAAATCTATCCAGATGGCTACCGGGAAAACATGCTCCTGTGTGTGTCCATCTGGGCCTAGTTCTC
TAGYYCCCCGACCACCCCAGATGCAGATCATTGCCTCAAGGTCTGGCTGGAACACTATAAGGCTTCGGTGACATGGAAGAGTCATTGAGGAGCCCCACTG
AAGAAACCAAGCAAGAACAAAAGAATAAGCACATCTAGTAGATGGCTAAACAAGTGTCCTGACGTTTACTGACATCTACTCTGTGCCAGCACTATATTGT
GGGTTTTTAAATGTAGTCCCTGGCATGTAGAACTTAAGTCTACAGTGGGAGACAGAAATATATGTATATAGGCTTCTTCTCAGAGGGTATTAGTCAAGTG
GAAAAAGGAAGACCTGCTTTCTAAAGCAGGAGAGCAGAATGTGCAGAGTCACACAGGTGCAAGAGAACAGCACTTGTTCAGGAACTACAAATAGTGCAAT
ATGGCGACAGCTTAGATGGTGAGAGAGTAGTAAGAGAAAAGGCTAGAGAGAGAGGCAGGAACTAGTTCATCAAGGGCCCTTTTGTTATATTTGGGTTTTA
TTCTAAAGGGGCYTAGAGAGTCTTGGAAGGGTSTGCTAACCAAAGATATGATAGAATGGCATGCCCAGATTATGGTTCAGGTTTAGAAAGCTCACTCTGC
CGGTGAAAAGAGACACTGAGACCACTGCCAAAGAGATACCGAGACCAGGGAAAGACAGCAATGCCTGCAGCAGAACAGGGAGTCAGGATAGAAAGAAGAG
GGGTAGTGTGGGGAAGTATAAAGGAAAGAGGATCAGGCTGGGGTGGGGGTAGGAAGGGAAGTGAGGGAACAGAAGAGGCTGGGATGTGTTCCAGATTTCC
AGCTTGGGACTGGTGCAGGGTGATAAGCCTCTGTGGAAGAAAGTGGCTTTGACATAAGACAGACCTGAATTCAAATGGCCACTCTTCTGCTTATTAAGTC
TGAGTTTGAGTCTACTAATTAAAGTTTCCCTGACCCTCACGTTCCTCCTTTCTAATATAGGGAATAATTACACCTACCTTTGATGTGTTACTCTAGAAAA
CATTTCAGGGGCCAGAATATTTTTAAAGCACTTAGCACAGAGCTCAACAGATAACCAAAATTATTGTTTTTCACTGAGGAGGGGAACCAGTTGGGAGGCA
TGACTTTGTTTTGGACAGGTTGAGTTTCTGGAGCCTGTAAGACACATGGGCAGTTGGGTAGGCCTGGAGCTCAAAAAGGAAGTCAGAGCCAGAGGTACTA
TTTGGGGAATCATTAGAATAAAAGGGTGGCAGGGTAAAGCCTTCAGCACAAAATGAGTGGCTCAGGCAGAGTATATAAAGGGATCTTAGTTCTAGTTTCT
CCCAACTAACCCTCCTCCCAAGACCAGCCATGGACATGGAACAAAATTATGTGTGCCCCCTGCCCCTCTCCCTGAAACAGGAGTATTATGGGCCACTCAG
ATTGGGAGAGGGGACTAGGAATGGCTCCAGCAGCTGCCTTAGGATGAGGCTGATCTCAGCTCTGTAGAAGAAACTCTGTTCCTCAACTGAATGACTCCTG
CCCCCAACATAGAATACAGTTAGGGCAATAAGCAGAAATGGAGTTGTGGGAATGGGCAAAAGGCAGGTTCGTTGCTTGTGCAGAATGCAGCACTCACACA
GCCAGAGCGATTTACGTGTCCACACCTGCCTGTCCCCCCAGCTGAAGCTACCCAGCTTGTGTCTCACAGTACCCCCATGGAAGCCTGAGTGGGGAAACTG
GGCATATACTAAAATCAGTACTCTCAGAAAACCAGGAATAACTTCTTAATTTTATTTCTTCGTTCTTCCAGCCTCCTAATTACATCCATGGGGCACATCA
AGCTCACGGACTTTGGACTGTCCAAAATKGGCCTCATGAGTCTGACAACGAACTTGTATGAGGGTCATATTGAAAAGGATGCCCGGGAATTCCTGGACAA
GCAGGTAAGGAAGGGTAGTTGATACACTGGGGGTTAAATTCTAGGCCCTTGTCCTGGCGCAGTGTCTTACGCCCGTAATCCCAACCCTTTGGGAGGCTGA
GGCAGGAGGATCGCTTGAGGCCAGCCTGGGCAACATAGTGAGACCCCATCTCTACATTTGTGTACACATACATAGATTCCAGGCCCTAGAATAAGGCCTT
GGGGCCATATGCCTACCTTGTAGCTAGATGTTAAGATTGGGAACCCCTATCTTTTCTACCTTTGGGTTCCAGAGAGGCACTGAGATAGGTAGCACATTTG
GAAAACAGGATGAGCCTTGAGAATCATATGGATATAAAATCCAAAGTCATCTTCCTCCTCAGGGTTTGGGGAAAATAGGTCATATAACTGTTAGCACAGA
GTTTCATATGAGATCAGTCCTGAATCTCCCAGCCTGAATCAAGGGCAAGGCTCTCCTGGAGCCTGAGGTTCTTGGAACACAGCTCTGAATTTCCATTGGG
CTGTGGCCCAGTGTCCTGAGAGGCAGCCTCTGGATGTTCCCTGGTTTGACATTTCAGGTTGTGACTGTTCACCGGTCCCTGTAGTTGTTACATGACTGAT
AGGGTCTGTTTTGTTAGAGGCTGGAGTGCAGAGGCCCATTGTGGGATCACATGCCAGAGGTGGGTGTTGAGGGCTTAAGGGATGGTAGTTCCGGGCTAGA
ATGAGACATTTTTGTTAATTAGGAAATACCTACTGACAGTTCCGACTCTTGTTCCCTGGGGCTTCTGTTGATCTTGTTCATTAACTAAGGTGGGCTGAGT
CTTCATTCAGAGATTCTTCTGCTCGAGATGGGAGCATCCCCCATCTCCGGCTGTCATGCCAGTCAGCAGCCTCAGGAGGCTGAGCCAGCCTGGCTTTTCT
GTGCCCAGGTATGCGGGACCCCAGAATACATTGCGCCTGAGGTGATCCTGCGCCAGGGCTATGGGAAGCCAGTGGACTGGTGGGCCATGGGCATTATCCT
GTATGAGTTCCTGGTGGGCTGCGTCCCTTTTTTTGGAGATACTCCGGAGGAGCTCTTTGGGCAGGTGATCAGTGGTAGGTACTATGCCCCTGGCCCAGTG
GGGAAACAGAGTCTGAATCCACAAATATGATGTATGCAGGCAGCTCGTGAGGCCTGTGAGCTCTTGTTCTGAACTCATCATGTGTGTTTGTGATGTCTGC
TGCTTTGGGGATGGGTGTCTCTGTGTTTCTGCATGTACATACATGTGCACACTGTGTCCCTTGGGGCTTCACATGTCTCTCATAGACACCTGGTCTCTCA
TATACACCTGGGTGTTCCTGTCTGTGTATGTGCACATCCCATAAGTGTGAGGGGTACGTCTGTGTATGTTTTGTGGAGTATAAAAGCAGGGTGAGCTAGA
GCTTTGCAGTGCCTGCTGTGGATCAAAGATCAAGCTATGGTCTAGGAACCTATAGAATTTAAGGACTGGGGTCCCAGGCAAGGCTTTCAGGGRCTCCAGG
CTGGGTCCTTTTTGCCTCCTTTCCTTTCACTGTTCTGGGACCCTCTTCTGCATCTCTCCACTCTACCCACAATTTCTCCTTTCCCTCTCACCCCTGATGA
CTTCAGATGAGATTGTGTGGCCTGAGGGTGATGAGGCACTGCCCCCAGACGCCCAGGACCTCACCTCCAAACTGCTCCACCAGAACCCTCTGGAGAGACT
TGGCACAGGTAGGGCAGGCCCTGCTAACTTTTCTCACTACTTGGAAAAGGGGTAAGGGAGGCTGAGTCATGTACCCTGGAGGTTCAGGCTTCGGTTACGG
GCAGCCCCTCTGGATCCTGAAACTCTGCCCTGCTCTGTAGGCAGAAAAGGGAAGATGCTTKAGCTGATCCCCTAGGTRTAGCTTCTGAAGGTCTGGCTTC
TTRCTAGATTTGCTGACCTAGACTCCATGCTGCTCATCCTACCCSCTTGCCCATGTCCTCCCTGTCCACAGGCAGTGCCTATGAGGTGAAGCAGCACCCA
TTCTTTACTGGTCTGGACTGGACAGGACTTCTCCGCCAGAAGGCTGAATTTATTCCTCAGTTGGAGTCAGAGGATGATACTAGCTATTTTGACAGTAAGG
CCACCGATGGGTGGGGTGGAGGATGGGTCCTACCTGTTTGCCTAGAAACACCTGTGCACACTGAAATTGCATTGGGAGCAACTTCTCAGGGCTCTGCTGA
AATCTAATGGGGTCACAAGGAGGCCACCAGCAGGGCTCTGAAGGAAAGTGTCCTTTATGTCTGGCCCAGCCCGCTCAGAGCGATACCACCACATGGACTC
GGAGGATGAGGAAGAAGTGAGTGAGGATGGCTGCCTTGAGATCCGCCAGTTCTCTTCCTGCTCTCCAAGGTTCAACAAGGTGTGACTGAGGAGGCCCAGA
ATGGGCAGAACAGGCTGGAGGATCAGAAGAAGAGGGCCTGTCAAAGGGCACACCTGGGGCAGGCTCAGGGAGTTGGGGTTGGGGCCACCTCTAGAAAAAG
AGGAGCTAAGGGTTGGGGCTACATATAGCTATATATAGGTGCTTCTAGAACCACTGCTGTCCCTGACATGAGATGCCAGGTCAGATCAGTGGAATAACTC
CTTCCCCAAATATTCAGCAGGGGTGTGTGAAGGAGGGATGGAACCGACTGGTTCAAATTCCTAGGTTTCCGATGCCAAGGATGCTTTATGCCACTTGGGA
GGTACGGCTGCCAGAGCCCATCCCCAGCGCATCCCCTGTGCCCACAGGTGTACAGCAGCATGGAGCGGCTCTCACTGCTCGAGGAGCGCCGGACACCACC
CCCGACCAAGCGCAGCCTGAGTGAGGAGAAGGAGGACCATTCAGATGGCCTGGCAGGGCTCAAAGGCCGAGACCGGAGCTGGGTGATTGGCTCCCCTGAG
ATGTGAGCACCCAGAGTTCACCCAGGGTGGGCGACACAGCTATCCCTGCATTGTCACAGATCATGGGAGAGATTCCGATGCCAGGGAGGAGTGCAGGTGG
CAGGGAGGGGGCATTCACAAGGGTGGCTCCTGGAGGAATGTCTGCGGAGGMAAGTTCTGTTACTATAACCCTTGTGTGCCCCTAAGGAGACCTGGCAGGA
GGAGGGGGACCACCTGGGTCACTCACCCCAGGCCTTGTGTCTCATAGATTACGGAAGCGGCTGTCGGTGTCTGAGTCATCCCACACAGAGAGTGACTCAA
GCCCTCCAATGACAGTGCGACGCCGCTGCTCAGGCCTCCTGGATGCGCCTCGGTTCCCGGAGGGCCCTGAGGAGGCCAGCAGCACCCTCAGGAGGCAACC
ACAGGAGGGTATATGGGTCCTGACACCCCCATCTGGAGAGGGGGTATCTGGGCCTGTCACTGAACACTCAGGGGAGCAGCGGCCAAAGCTGGATGAGGAA
GCTGTTGGCCGGAGCAGTGGTTCCAGTCCAGGTATGGCCCAGTGGGCGGCCAAACGACCTAAGCTGGAGGATACTGCAGGGCAGGGAGGCTCAGCGGCAT
CGCGGGTCTCACTGCTTACTTGGGCCTACAGCTATGGAGACCCGAGGCCGTGGGACCTCACAGCTGGCTGAGGGAGCCACAGCCAAGGCCATCAGTGACC
TGGCTGTGCGTAGGGCCCGCCACCGGCTGCTCTCTGGGGACTCAACAGAGAAGCGCACTGCTCGCCCTGTCAACAAAGTGATCAAGTCCGCCTCAGCCAC
AGCCCTCTCACTCCTCATTCCTTCGGGTGAGGCCCCTGGGGAGCTGGGATAAAACTCACAGGAAGGGCCTTGTAATCTCTAGGCCTTGGGAGGGTTCTGC
ACGTGGCAGGTGTGTGTGTGTGTGTTAAGCACAGATCTGACTGTGGTCTCTGAAGGTGTGTATTGGTGTCTGGGGTTGTGTATACATGTGCCAGAAAGCA
GGACAGCACCATGTCACAAGTGCAGGCTTTGGGGTAGAGAGCTCACACTCAAATCCTGGCTCCATCACTAACAGGCTCTTGACCTTGAGCAAGTTGCTTA
ACTTCTCTAAGCCTCAAGTTTCTTATCCAAAAATGTGGATATAATAGAGGCCAGCTGATAGGTTGTGACATTTAAATATATATGACAAGCTTATATAGTC
CCTGATACACACATAAATGCTAGCTGCCATTTCTCATCACCACCACCGTCTCTTGGGGTCTGGACACGGGAGAGGGCTTCACAGGTCAGGGGCTGTGGGG
AAAATGGACCTAGGCTCAGGCTCTGTCTGTGACTAGAGTTGTGCTGACATCAACAGACTGGACCAGGGGCCAGGCCAAAGCCCTCTGACCCACTAAGTCC
TGGCTTCTCCTTCTCCAGAACACCACACCTGCTCCCCGTTGGCCAGCCCCATGTCCCCACATTCTCAGTCGTCCAACCCATCATCCCGGGACTCTTCTCC
AAGCAGGGACTTCTTGCCAGCCCTTGGCAGCATGAGGCCTCCCATCATCATCCACCGAGCTGGCAAGAAGTATGGCTTCACCCTGCGGGCCATTCGCGTC
TACATGGGTGACTCCGATGTCTACACCGTGCACCATATGGTGTGGGTATGTCTGACCATCCAGACCTGCTGTCTCCCTGCTTCATCATCCTTCCAGCTTC
CCCTTTGTGGAGCCCATCTGTCCCTGCTCGGGGGTCAAAGGGTGGTGGTGAAGGGGCTCACAGCTTAATGTCCAGAACCAGGCCCCATACTTCGTGTTCA
GGCTCCAGTCTGAGTACTGTTCTCTTCCTGGCACAGCACGTGGAGGATGGAGGTCCGGCCAGTGAGGCAGGGCTTCGTCAAGGTGACCTCATCACCCATG
TCAATGGGGAACCTGTGCATGGCCTGGTGCACACGGAGGTGGTRGAGCTGATCCTGAAGGTTAGTGCTGGGCGTGCTGCCTGCATGGTCCCTGAATGACC
TCAGCCTGTGAGTCTGTGATGGCAGTTAGGGGAGTGGGTGAGTTGGGTGCACACACATCTACACCGAGTATGGATGTAGGTACACACAGGCCGGGCGCGG
TGGCTCATGCCTGTAAATCCCAACACTTTAGGAGGCTGAGGCAGGTGGATCACTTGAGACCAGAAGTTTGAGACCAGCCTAGCCAACATGGTGAAACCCT
GCCTCTACTAAAAATACAAAAAAAAAAAAAAATGCCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTG
TGGTCAGGAGTTTGAGACCAGCCTGCCCAGCATGGCAAAACTCTACTAAAAATAACAAAAATTAGCCAAGCGTGGTGGTAGGCACTTGTAATCCCAGCTA
CTCGGGAGGCTGAGGAAGGAGAATTGCTTGAACCTGGAAGGCAGTTTGCAGTGAGCTGAGGTCATACCACTGCACTCCAGCTTGGGAGACACAGCAAGAC
TCTGTTTCCAAAAAAAAAAAAAAAAATTAGCCGAGTGTGGTAGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAAGTGCTTGAACCC
AGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTTAAAAAAAAAAAAAAAAGATGTAGGT
ACACACAGAACTTGAATGTGGCACAACAGAGAGTTTTCTCCACAAGGCAGTACCCTCCCTGACTAAGGCCCWGGGATCCTTCTGAGCTGTGGGTAGGGCT
GCAGAATGGGACGGATTAGCCTGTTTTCTACCTTCTTACCCCAAACCACTCTGGGGCTCCAATGGGAGCCATTTCCTCATCTGTAAAAACAATAATATAG
GCCTGTGGTTCAGATGTGTTGGTGCAGGGACAAAAAGCTGGAGCTGTGGTATAGCCATGCCAGAAGGGAAGGATTGGGGGAGGGGAGGGGCAAGAATATG
GCTCCAGCTTAGCCTAGGCCTCATGCTCTGCTCCCCAGAGTGGAAACAAGGTGGCCATTTCAACAACTCCCCTGGAGAACACATCCATTARAGTGGGGCC
AGCTCGGAAGGGCAGCTACAAGGCCAAGATGGCCCGAAGGAGCAAGAGGAGCCGCGGCAAGGATGGGCAAGAAAGGTGAGCCAGGCGCAGTGAAGAGGGT
TTTCTCTGAGCCACATGAGTGCTGGTACGTGGTGGGTGCCTTGGCCCTGGGGGTCCAGTGTGTGCTGTGCTCACTGCACCGACTCAGCCTTTGACCCTTA
TCCCCGCAGCAGAAAAAGGAGCTCCCTGTTCCGCAAGATCACCAAGCAAGCATCCCTGCTCCACACCAGCCGCAGCCTTTCTTCCCTTAACCGCTCCTTG
TCATCAGGGGAGAGTGGGCCAGGCTCTCCCACACACAGCCACAGCCTTTCCCCCCGATCTCCCACTCAAGGCTACCGGGTGACCCCCGATGCTGTGCATT
CAGGTACGAAGGGCTCCCTGCAGATCAGTGACAACCCCTGGGAAATAGGAAAGTTCCTAGGCCCTGTGTGCTTCTGACAGATCCCACTCTGAGTCTCTCA
TTTAGCCCACCCCCTGAAAGATCCTGTAGTCTTGGGGAGGAATTAATTGATGGGGAAGGGGGTAGCTTGGTTTCTGGGACATAACAGGGCTAAGCCCTGT
CTTGCCCTTGAGTCACTTCTAACAGCTAACACTGCTCTGCTTTTGTCTGTCTGTCTGTCTGTCTCTGTACAAAGTGGGAGGGAATTCATCACAGAGCAGC
TCCCCCAGCTCCAGCRTGCCCAGTTCCCCAGCCGGCTCTGGGCACACACGGCCCAGCTCCCTCCACGGKCTGGCACCCAAGCTCCAACGCCAGTACCGCT
CTCCACGGCGCAAGTCAGCAGGCAGCATCCCACTGTCACCACTGGCCCACACCCCTTCTCCCCCACCCCCAACAGCTTCACCTCAGCGGTCCCCATCGCC
CCTGTCTGGCCATGTAGCCCAGGCCTTTCCCACAAAGCTTCACTTGTCACCTCCCCTGGGCAGGCAACTCTCACGGCCCAAGAGTGCGGAGCCACCCCGT
TCACCACTACTCAAGAGGGTGCAGTCGGCTGAGAAACTGGCAGCAGCACTTGCCGCCTCTGAGAAGAAGCTAGCCACYTCTCGCAAGCACAGCCTTGACC
TGCCCCACTCTGAACTAAAGAAGGAACTGCCGCCCAGGGAAGTGAGCCCTCTGGAGGTAGTTGGAGCCAGGAGTGTGCTGTCTGGCAAGGGGRCCCTGCC
AGGGAAGGSGGTGCTGCAGCCTGCTCCCTCACGGGCCCTAGGCACCCTCCGGCAGGACCGAGCCGAACGACGGGAGTCGCTGCAGAAGCAAGAAGCCATT
CGTGAGGTGGACTCCTCAGAGGACGACACCGAGGAAGGGCCTGAGAACAGCCAGGGTGCACAGGAGCTGAGCTTGGCACCTCACCCAGAAGTGAGCCAGA
GTGTGGCCCCTAAAGGAGCAGGAGAGAGTGGGGAAGAGGATCCTTTCCCGTCCAGAGRCCCTAGGAGCCTGGGCCCAATGGTCCCAAGCCTATTGACAGG
GATCACACTGGGGCCTCCCAGAATGGAAAGTCCCAGTGGTCCCCACAGGAGGCTCGGGAGCCCACAAGCCATTGAGGAGGCTGCCAGCTCCTCCTCAGCA
GGCCCCAACCTAGGTCAGTCTGGAGCCAYAGACCCCATCCCTCCTGAAGGTTGCTGGAAGGCCCAGCACCTCCACACCCAGGCACTAACAGCACTTTCTC
CCAGCACTTCGGGACTCACCCCCACCAGCAGTTGYTCTCCTCCCAGCTCCACCTCTGGGAAGCTGAGCATGTGGTCCTGGAAATCCCTTATTGAGGGCCC
AGACAGGGCATCCCCAAGCAGAAAGGCAACCATGGCAGGTGGGCTAGCCAACCTCCAGGATTTGGAAAACACAACTCCAGCCCAGCCTAAGAACCTGTCT
CCCAGGGAGCAGGGGAAGACACAGCCACCTAGTGCCCCCAGACTGGCCCATCCATCTTATGAGGATCCCAGCCAGGGCTGGCTATGGGAGTCTGAGTGTG
CACAAGCAGTGAAAGAGGATCCAGCCCTGAGCATCACCCAAGTGCCTGATGCCTCAGGTGACAGAAGGCAGGACGTTCCATGCCGAGGCTGCCCCCTCAC
CCAGAAGTYTGAGCCCAGCCTCAGGAGGGGCCAAGAACCAGGGGGCCATCAAAAGCATCGGGATTTGGCATTGGTTCCAGATGAGCTTTTAAAGCAAACA
TAGCAGTTGTTTGCCATTTCTTGCACTCAGACCTGTGTAATATATGCTCCTGGAAACCATCTTTATGTCTTTTGCTTGCTTGTTTTCCTTCGGTCAACCC
ACATGTAACTAGGTCCTGTGTTGCTGCTGGGAATATAGTGGTGAATAAAACAGTTTCCACCACCAGGGGAGGGCCACCTAACCCAGCTTGACTTCCCAAA
GGCTTTGACATTTGAGCTCAAACATGAAGAATAGATGATAGGTAGTAGTTTGCTGGGTGTGGAAGAGTGGAGGTTGGCATAAGAAAGGCTGTCCAGGCAA
CGTTTAGCACATGCAGTATACCTGGCATAGTCAAGGAACCAAAGATAATTCAAAGTAGAAACGGGTCTGGCAAGTGAGGCAAGGGCCATGTCTAATGGTC
TTCCAGGAGATTTGACTTCGTGAAGGTGATGGGGAACCAGAAAATACCATGTAGCAACTAAAATTCCTTCATAGATAAGGGCACTAAGACTTTGATGCCC
ATGGTAATACAGTAGCTTGGGTAGAACGGGGGTTAGAACGTAGGTCTCCCTTGGACTCCGGAACTCACATCTCTCCTAACTAGGATTGCCTCAGCCAGGA
AATGAGGAGGGGAAGAAGTGAGAGAAGGCAAAGAGTTTAACTTTGGGTGCGTTTGAGATAAAAGAGAAGACAGAAGCAGCAACCAGCAGAGTCATAAAGT
CTATGGGAGGAGTTTTAAAATGGACAGAGAAGTTAACGATAAATGCCGAGGTGAGGGCGAGATTAAAACAGCTGCCAGTCGTATTTAGTAACAAGCCCTT
CATAATTGTAGCCAGTGAGCTCTTCCTGGGCTGTTGTAGGTAGAGGCCTCAGCACTGGAGGTGGATGGACATCGTGTGTGTAGCCCGCATTGAGTAGAAC
TTCATTTGATGGTAGTGTGGGAGGAAGGGGGAGGACATAAGTGGGACCAGTGCCAGGGGAGTCAGGAGGTGGCATCACAGGGCAGGCAGTGGGGCTTGGT
AGAGCACCAAGGCTTTGTCTCCATAGTGATAGAGGACTTGAGAAACTGTCTTGCACTGGTTGCACTGATCGTCCCACAATCCAGTGCCTAGGTCTGAAGA
AGACGTGTTAGGAGGCCTGAAGACGAAAATGCCTCTGGGCCATTGCCTGGGAAGGCTGTGGCCACCAGAGGGCGCACTGTATCCACAGTGGCAGAGCCCA
TTTATGCAGATATTTGGCCCCTCAGCCTTCTAGTCCTCTCCACTTCTTCATTCATTCACAGCGGACCCTGGGCTAATGTACCGGGACCTGGGCAGACAGA
TCACAGGTTGTGAGCTGGAGAATGGCAGGGGCATGGCTGAGGTAGCAAGTGCCCCGTGCATGTAGGGATCTGGTCAGAAGCACCATACCACAGGTGAAAA
GGATGTTGGGAACTGCCCTCCTAGAGGGTTGGAAATGGGGATGGGAGGAGGAAGCAGAGATGCTAAACATCCTATACCACACTGGGCAACTGCCCCAAGT
GTCAGTGGTGTTCCCCTTGAGAAACTGGTGGGATTATCCTGAGGGTAGTGAAGAGTTTCTAAAAGGTAACTTCAGGGAAGTGGTATTATCATTTGCTTTA
GGAAGATCACTCGCTGCAGTATAGAGAGGCTGGAGTGGAGTGAGCGTACCACAGAGGATGTAGTGACCCATTTTGGTGGTCTGAACTAGAACAGCAACAG
TGAGGAGGTAAGGAAGGAAAGGGTGGGAAGCTGGACATCTAGATTTGGGAGCCATCAGGAAGTAGAGGGCAATGAAAGCCACAGGAGATGAGGACTGTCC
AGGGAACATACGCAGAATGAGGAAGAAGTCCCGAAATACTGGCACTAGCTGAGGGGGATAGAGCCAGTGAAAAGTTGAAGGTGGGGATTGAGATCCTGAA
TCAGGGAGAAGCCAGACCATCTAATTTTGTAATTCACCCTAAGATCAATGGAGACTTATTTAATGTTTTACATCGGTTCAGATTTGTATTTTGAAAAGAT
GACTGGTTGCTATAATGAGAATGGATCTGAGGGGGACAAGAATGGAAGAAGGGGGGCCTTCCAGGATGAAGGGTGCAGATGGTAGTGAAGCAGTGAAGTT
AGAAGTGATGTTTTGATTGACACTTGGTGAAGGACTTTAGGTATGAAGCAGAGGGCTATCAAGGATGATGACTGACTACATTTTTGACTTATATAACCAG
ATGAATTGTATTTCCATTCACCGAAATAAGAAACAAGGAAGAGAACCAGGGCTAAGTAGTTCAGTGCTGCATTCCATACGCTAAATATGAAGTAGCTTCC
AATAGAGGTCTGGGCAAATGAAATAAACAGATGTAATCAGCCTAGAGATGGTAGGTGGATTCATGGCTGTGGATAAAACTGCCAGGTAAAATGGCATTGA
GAACTGAAGGAATCCAGGAGATGTAAAAGAACAGTCAGATGTCAGAAGAATATTAGATTAGTGAGTTGTGATAGAGTCCATGAAGGAGCTTTCCATGGAC
AGGATAGTTAACAGCGATGGTTATTGAAGGCATCAAGAAAAGCAGTTTCAAACAGTGGTGGAACCAGTACTGAAATATTTGAGATGGGGAAATAAGGAAA
TTTAAGACAGTTCTTTCCAAAGGCTTGGCTTTGAAGAGGAGAAAAGAGATAAAGGTATATGGGATGATTGAGTAGGGATTAGGGGAGTAGAATGAGAACC
AACCAACCATGTTTAAGTGTCAGTGGAAATGATCCAGTTGAAGTAGAGAAAGAATTGATCTTAATCTTGGGAGATTCCTGAGGTGGAAGAAAATAGATTC
CAAAATACATGTGGAAGGATTGACTTTAGTTGGAGGGGACTATTGTAATTTAACAGATGGGAGGGAGAATAGTTATGTAGATATAGATAAGGTTGTAGGT
TTGGTGGTAGGAAGGTGAGGAAATTCATAGCCAATCATACTTTTTCTGACAAGTAAACAAGTTTGCTTTTTTGAGACAGAGTTTCGCTCTGTTGCCCAGG
CTGGAGTGCAGTGGCACGGCCTCAGCTCACTGCAACCCCTGCATCCCAGGTTCAAGCAATTCTCATGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTG
CATGCTACCACGCCCAGCTAATTTTTGTACTTTTAGTAGAGACGGGGTTTCACCACGTTGGCCAGGCTGTTCTCGAACTCCTGACCTCAGGTGATCCACC
CGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCAGCCCCAAGTAAACAAGTTTGAAGTGTCGGTGAGATACCCAGGAGCCCAG
TGGAAACATCCAGCCAGCGGGTAGAGTTCAGAAGAAAGAACTGGGAAGGAGCTAGGAATTTGAGCATCCTAAACACAGAAGTGCGAACAACTCTGGGATT
AGGAGAAATCCGTAGTTCCTGGCAGTGGTCTTGGGATGCTGTGTAGCTAAAGTGTAGTGGGGAGAAAAGACATAGGCAAGGTCACTTAGAACAACAGGCT
GTTCCCTGCCCAATCTGACTTATTTATAATTGAGTACACATGGGTGGGGCCTGAGACATGGATGAGCGCTGCAATATCCTATGCAACAAGAGGTTATCGC
ATGTTGGCTCATTACGTTCCCAGAATACAGGAAGCTCAACAGTGTGCCTTGGCAGGAGATGACAAGGGCCTGGGGCAATAAGAGGATAGATTATAAAGCT
GGGCCCATTTCCCCCTCCCCCAGAGTAGAATGTGGAAACACTTCATTCTGGGCAGAAATATGAGAACCAATAAACAGCTTATTAGGAGTGGGCAGTGAGG
TGTGGAGGAAATGGCATTCAGTTTTAATTTTCTCAGAGTCAGTAAGACTTCCTGTGTCTGTGTTCGGTGGACAGGACTCTGGCATCATGCCTAGTTGGAG
TCAATGTCCTCCCCTAGGAAGAAAAGAGCCTCTGGCTGCCCCAGTACTAGTCTTTTGGTGCTTACTGGAGAGAAGGTTTGGAAGTTTCAAGGGCTGTTCA
ACACCTGAGTACTCTTCTCTCTTGACCCCCACTCTGCCCCCAGCCCACCCCCTTCATAGCATGAAGACAAAAAATTACTTTATTGCAATGTCTTTATTGC
ATTACTGGAGCAAGTTGGCCAGACTGTCCCCTCTTGGGGAAGGTATTAAACAAAAAGACCAATAAGTATCTCCTCTCGCCTTTCCCCCTACCCTCCCCAA
CAATTGCACAGCAATGTCTGAACACATCTGGTGACAAGAACAATTTGTAAAGTGGTCTAGCAACTACATTATGAACTGTCCCATCACAAGACATACAGTT
GGCTTTCTTGTGAGTCAGATATTTTTACGTAAACTACACGAATTTTCTTGGACACATCAAAGACAACAGAATAGATTTTTCACAAGTAACGGCACCAAAG
TCACATGCTGGAATTTGTAAGGAAACGAGGTTGTTTGCCACAAGTGGCTGGAGCTAAAGCAGGTTTGAGCAGTTGGCAGCAGAGGGCCCAAGCAGGCCCC
CTATCTGGACCCTCTGGTTTCTGAGGCCACTGAAGCCTCACAGAGGCCTACTCTGGGTTGTTAAATAGCAGCAGAGACCACCTTAGAAAACAGGAATTGC
CCAGGTGCAATTCTCAGTTTAAGAGAACACATGGGGCTGATTACTTGTAGCAAAAAAGAGACCCGTGGAAGACACATTGGCTCTCAAAGCTTCTTCAAAG
CACATGAGGCCTAAATAAGTGGAGGTCCCATCAAGGCTTGGAGAGGGAGTGAAAGTGTTGGGAGGGCCTCATTCTTGGCCAGATCAGTGGTAAGGACGCA
GGCAGTCTATCCAGGCCCGAATCATGGCGTGCCATCTAAGGCCAGGTGGAGACAACACTGTTCTGTGATGAAAGCTTCACCTGGAAACAATGGGCCTAGT
ACCTGTGTCCAGCCAGCCCCAAGCTGCTTGCATGTCAGTAGCTGGGTTCTCTAGCCAGGGGTATAATGAACCCCTCTGATCTTGGTCTCTCTTTGCCCTC
TGCCTCATTGAAACTGCAGTTAAGATGCCAAGACAGTCCCAGGGTCCAGATCATGGGACAGGACATGGCACTAGACTCTCATGAAGGAGGCCAAGACCTG
CTCCCAAGTCATGGGCGTAGAGAAGCACCTTGCTACCCTCTCCCCCTCTACACACCAGGCCCAGTGGGTAGTAGACTGGTCCCTATGCCATTTCCACAGG
CTCAGGGTCAAGCAAGTCATGTGGCAACTGGTCAGAAAAGATACTGTCAAACCTCTCAAATGACCCCTGGGTCTTAGATCCCACAAAACAATGAATTCAA
GAATGAAAAAAAAAATGAAGGAATGTAGGACTGAAAAAAAGCAGCCCTTCTCCACAAGCCAGCCCAAGTGTAGATAAAGATGGTACTTGGTCTCTCCCTG
CACACCGCTGGTGTCTGCCCAACAAGGAGCAGACACATTACTGAATACTACAGCCCTGTATCTGTATTTCCATTTTGGTTTAAAAGACACTCAGAACACA
CTGAAATTTTAGTACCAGATGGGAGGGATTCCTTGCACGTAATCTTGAGCATCCACCTGCTTCAGCAGGTTCAACACCAGGTGCAAAGCCATCCAGGTGT
GCCCAACAGCAATTAGCTTGGTATTATTCAGTAAAACTTTCAGTTAAGATTTCAATTGACAGTTTGGGGAAGGGATGTGCTGGCTATTAGTTAAATGACT
TTAGAGGGGGGTTCATTTGTCTCTGTCTCACCCAATCCTGAAACTGCAGTGTAACCAAGAAAAAGCCAAAGAGAAGCACTTCCCTTTCTATCCTCGTCAC
TAGTAACTGGAGGTTTTTCCAAAATTAAAAATCTGTGTCTACATCATGGTCCATATTTTAGACCCTGTCATGGAAATAAGTGCTCAGGTAAACTAATATT
TTTCTTTCACCCCCAGAACTAGAGCTTTCCTAGCTGTAAGCCTTATAAACCAAGATGCAGGTACTGGCTTCTCTAGCTCAGCCAGGGTGCCTGACTGCAC
AGCTTTGGGTTCAAACAGCTGACTCACTCTGAGCCTATTATGGTCCCAGGATTGGCTCAGAGGCAGCTGGACTCTATTTGTCAAATGAGTGTTGACTGAT
GGGTGTGGGGCATGATGGGGGCAGGAATAGATGCCTGCCCCCACTCCATTTGCCTAGCT


SNP Information

Context             (SEQ ID NO:30271):
ACTCTGATTTTTGCTCTCTGCCTATTTCTGTAAACTTTATATTCTTTGCTTCTGTAGATTTTCTTTTTTCCTTCATTCTCAAAACCTAAAACTCATAGTG
R
CCTCTACCGCCTTCAAAGAAAAGACTTAAAAAATTCAGGGGGAAAAAATTATACGAAGAAGTCACAGTACAAAAGGAAGCAATTACATTGTACATTGTGG
Celera SNP ID:            hCV497673
SNP Position Genomic:     27302
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30272):
AAAATTGAGTGCTACTGGCAGTGAATTTGACTCTGAGTTCCAGAAGAGAGGGAACTAGGAGGGGGGACTTCCAGGGGCGGGTTCCAGGGACTGCCCACCT
Y
GGCATCTGCACCTGAGGACCCGTAGCCTGCTCCTGTACCCCACTGCAGCCAGAGTCATGTCAGTGGCCATATTAGGATGTCTTTTTTATCTCTCTTTTTT
Celera SNP ID:            hCV29103801
SNP Position Genomic:     126583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30273):
GGCTGACAGAACTGCATACCCCTTGTGTGAGAGAACTTCCTACCAAGACTCCAGTGTGAGGGCAAAACTTGAGTAGCCAGGAGAATGATGAAACGGAGGC
R
AGAGAGACTGGGAGCACCATGTCTGCGGATTCAGTAAGGAGGTTGGGGTCTCTATGGAAACTGGCAGATGTCAGGAAAAAAAACTAATGCCAACTAACAC
Celera SNP ID:            hCV29103802
SNP Position Genomic:     115897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30274):
CCTAATCCAGTATGACTTGTGTCCTTACGAGAAGAGGGGATTAGGACACAGACAAGCACAGAGGGAAGGCCATGCAAAGACAAAGGGAGGTAGCCATTTA
S
AATCCAAGGAATGAGGTCATAGAAGAAACCAACCCTGCTAATGCCCTTATCTTGGACTTCTAGCCTGAACTATGAGGAAATAAATTTCTGTTGGTTAAGT
Celera SNP ID:            hCV11861470
SNP Position Genomic:     126939
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|G,9)   total(G,9|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30275):
TCAGATAACATAAAATTAACCATTTTAAAGTGTACATTTTAGTGGCATTTCATGCATTCACAATGTGTGCAGCCATCACCTTTATCAAGTTTTAAGACAT
K
TTCACCACCATCCCCTGCAAAAAAAATCCTCTACCCATTAAACAGTCATTATTCATTCCACCCTCATTCTAGCTAGGGCAACCACTAATCTGCTTTTTGT
Celera SNP ID:            hCV29103803
SNP Position Genomic:     38098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30276):
GTCATGATTACCAATAACCATTCTAACATGATACTGTGATTATAGCAAACTGCTATAATCTTAAACTGAATTGGGAATATTTCTAACCAGAACAAAAGAT
R
TGATATTCTGTTGAACATTTTATCATCAGTTCTCATGTTGAATATGATGTCATTTTGGGTGCCATATTATTATTGAATTTTGTTGAGATGAGATTTTCAG
Celera SNP ID:            hCV29103804
SNP Position Genomic:     37901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30277):
GAGCTAGAGCTTTGCAGTGCCTGCTGTGGATCAAAGATCAAGCTATGGTCTAGGAACCTATAGAATTTAAGGACTGGGGTCCCAGGCAAGGCTTTCAGGG
R
CTCCAGGCTGGGTCCTTTTTGCCTCCTTTCCTTTCACTGTTCTGGGACCCTCTTCTGCATCTCTCCACTCTACCCACAATTTCTCCTTTCCCTCTCACCC
Celera SNP ID:            hCV27517619
SNP Position Genomic:     231393
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,7|G,1484)   total(G,1484|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30278):
AGATAAAGCCAAACCTCCTGGGTTACATTCCCAAGGGGTTGGACACTGTTGGTCACAAGATGTTTAGGGTTGAGGGAACAAGTTAATGATGCTAACTAAC
K
AAAAGATGCTTATGAAACTTATGAAATGTTTCAGTACTTGAAGATCAAAAAGCATTCTTAGTTTAAGAATAGGTTTTGCTTTCATACAAAATTAGCTGGG
Celera SNP ID:            hCV156642
SNP Position Genomic:     145564
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30279):
CTGTGTAAATATTACATCAGATTTAGTCCTAAGAAAGATTACTTTGGCTGCAACATGGATAGTGAATTGGAAGAGAGGGCAGGATGAGCCAGGGACATCA
K
GGGAGAGGTACTCAAAGCAAATTCATGTGAGATGGGGTGGCCAGAACTCAGACAGTGAATGGTAGGATAATAGAGAGAAAGAGGTGGATTAGAGGGGTAT
Celera SNP ID:            hCV8358562
SNP Position Genomic:     223028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30280):
CACAGCGTAACGGGAACCTGGAAAAGGAAGTGCTTTAGTCTTCCCTGGAAGGAACATTCAGTGAATGCTCCCTGGGGGACGTGAGGCTTATTCAGCAAAC
Y
GAAGGATGAGTCTAAGTTTCCCAGATCGGGAGCATGGGAAGGAGCATTCAGTGGGGCACAGGGTGGGTTTGAAGAAGTGCTGAGGGGTAAGCCTGGAAGG
Celera SNP ID:            hCV8358563
SNP Position Genomic:     222339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30281):
TTGTCACAGATCATGGGAGAGATTCCGATGCCAGGGAGGAGTGCAGGTGGCAGGGAGGGGGCATTCACAAGGGTGGCTCCTGGAGGAATGTCTGCGGAGG
M
AAGTTCTGTTACTATAACCCTTGTGTGCCCCTAAGGAGACCTGGCAGGAGGAGGGGGACCACCTGGGTCACTCACCCCAGGCCTTGTGTCTCATAGATTA
Celera SNP ID:            hCV25971306
SNP Position Genomic:     232951
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,1)   caucasian(A,38)   total(A,71|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:30282):
CTCCCGAGTAGCTGGGATTACAGGCTTCTGCCACCACACCTGGCTAATTTTTATATTTTTAGTAGAGACAGTGTTTCACCATGTTGGCCAGGCTGGTCTC
R
AACTTCTGACGTCAGGTGAGCCGCCCACCTCGGCCTCCCAAAGTACTGGGATTATAGGCATGAACCACTGCGCCTGGCCAGATTATAATTTTTTTATTAA
Celera SNP ID:            hCV482037
SNP Position Genomic:     16110
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30283):
GTCCTCCTGAAAGAGTCTCAGGGACCCCAAGAGGTTTGCCAACCATACTTTGAGAATCACTGTCCAGCTTGATTGTAGTGGGTTTCTTTTTTTTTTTTTT
T
AACTGAACCAGCTCAAGTTTTACAGAATTAAAACATGTATGTTTATAAAGGATATGGAACTGTAATTTTCTTAGACTGTTGCTATCTGGCTTTGAATCAA
Celera SNP ID:            hCV156644
SNP Position Genomic:     144221
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30284):
TCTGCCACACTGACGTTAACAGTTGTCTTTCTATCCTTTTTTAAATTCCTAGGAAAGTGATCCTCTCTGGTCAGCTATTAGAGGTGGGAGGGAAGGTACA
S
ACACACAGTACAAATGTGGCTCCTAGAAACCAGAGCAGTTCTCAGGAAAAAAGAGAAAGGCCCATCGGCCAAGCAGATACCCAAGAGACTCTCATATAGG
Celera SNP ID:            hCV8358564
SNP Position Genomic:     220790
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30285):
GCGTGAGCTACCGTGCCTGGCCGTTTTAATAGTTTTTTAAAAATTTCTTTGGGATTTTCTACATATAGGATTGTTTTGTGTGTGAATGATAACAGTTTTA
Y
TTATCTTCCAATCTTTTTTATTTGTTTATTCCTATTTGTTTTTTTATTTTTTTGTTTTTTTATTTGTTTATTCCTTATTGCACTGGCTAGAACCTCTAGT
Celera SNP ID:            hCV156645
SNP Position Genomic:     143687
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30286):
GAACTTCTGACCTTGTGATCCACTCACCTTGGCCTTCCAAAGTGCTGGAATTACAGGCGTGAGCTACCGTGCCTGGCCGTTTTAATAGTTTTTTAAAAAT
Y
TCTTTGGGATTTTCTACATATAGGATTGTTTTGTGTGTGAATGATAACAGTTTTACTTATCTTCCAATCTTTTTTATTTGTTTATTCCTATTTGTTTTTT
Celera SNP ID:            hCV156646
SNP Position Genomic:     143631
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30287):
AAAAATAAAAATAAAAATAAATAACAAATATGTTGAATAGCCAAATCTTAAATGTTGTATTTTAATTTTATGGATTAAGTTTTTGTCTCTGTTGTCATCC
Y
GTACCAACATTGGTACTGAAGTATGATATTGGAGAATGATTTTTGACCACTTACTTTTCTTGAGCTTTTTGCCTAAACCAAGCCACTTTGAATATGTTTC
Celera SNP ID:            hCV11861476
SNP Position Genomic:     119231
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30288):
TTAGTAGAGACGGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTTCTGACCTTGTGATCCACTCACCTTGGCCTTCCAAAGTGCTGGAATTACAGGC
R
TGAGCTACCGTGCCTGGCCGTTTTAATAGTTTTTTAAAAATTTCTTTGGGATTTTCTACATATAGGATTGTTTTGTGTGTGAATGATAACAGTTTTACTT
Celera SNP ID:            hCV156647
SNP Position Genomic:     143589
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30289):
TATTAGGTGTTTTTGTTTTTTTATTTGTTTGTTTTTGTTTGTTTTGACAGAGTCTTGCTCTGTCACCCAGGGTAGAGTGCAGTGGCGGGATCTCGGCTCA
M
TGCAGCCTCCACCTCCTGGATTCAGGTGATTCTCCTTCCTCAGCCTCCCGAGTAGCTGGGATTGCAGGCGCCTGCCACTGCGCCTAGCTAATTTTTCTAT
Celera SNP ID:            hCV156648
SNP Position Genomic:     143386
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30290):
GACATGACCAAACTTATTTATATAAGTTTTATTAGGTGTTTTTGTTTTTTTATTTGTTTGTTTTTGTTTGTTTTGACAGAGTCTTGCTCTGTCACCCAGG
S
TAGAGTGCAGTGGCGGGATCTCGGCTCACTGCAGCCTCCACCTCCTGGATTCAGGTGATTCTCCTTCCTCAGCCTCCCGAGTAGCTGGGATTGCAGGCGC
Celera SNP ID:            hCV156649
SNP Position Genomic:     143357
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,6)   total(G,6|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30291):
CTGACTTTGCATGTCAAGAATCAAACTGTGGGTATTTGTTAATCTTTGACATGAGATGACACTATCAAAAAAGAACAGAATTTTTTTTAAAAAAATAAGC
Y
TTGATACTTCTGAGGAGGCCTGATCCTTATTAAGTCCTGGCTAAGGAAACAGCTACTCAGGATCACTTCCCTTATATCCTGGTGCCCACTAGCCAGAAGA
Celera SNP ID:            hCV9118654
SNP Position Genomic:     198449
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30292):
TCTCCTGACCTCGTGATCCACCTGCCTCGGCTTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACAGTGCCTGGCCCCAGAAGAAAGAATTAGTGAGCTC
R
AAGACAGGCTATTTGAAAATACACAGCCAGAGGAGACAAAAGAAGAAAAAGATAAAAAGGAATAAAAAGCATGCCTACAAGATCTAGAAAATAGCCTCCA
Celera SNP ID:            hCV475321
SNP Position Genomic:     19392
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30293):
GGCAATTTACAAAAGAAAGAGGTTTAGTGGACTTACAGTTCCATGTGGCTGGGGAGGCCTCACAATCATGGCAGAAGGTGAAAGGCATGTCTCACATGGC
R
GCAGACAAGAGAGAGCTTGTGCAGGGAAGCTCCCCTTTATAAAACCATCAGATGGGCCGGACGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGG
Celera SNP ID:            hCV26413014
SNP Position Genomic:     227023
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30294):
GGACTATAGAGGAAGTATCCTGATGACAGCAAAACTGTGGTGGTAACCACTGCCATTTCTGTTGCTTAGGTCCTTATTTAAATATGATTTGCCACCATTG
S
GGGACTAAACAGGTTTTTGTGAGGACAAATGTATGGTCCTGAGGGGATGTGGCAGGGAGAATTATTAGTCTAGGCCACCCCCACATGAGCAGGGCTCACA
Celera SNP ID:            hCV26413015
SNP Position Genomic:     221881
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30295):
AAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGAGAAAACTGGCTAGCCATATGTAGAAAGCTGAAATTGGATCCCTTCCGTACACCTTATA
Y
AAAAATTAATTCAAGATGGATTAAAGACTTAAACGTTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCATTACCATTCAGGACATAGGCTTG
Celera SNP ID:            hCV26413016
SNP Position Genomic:     219204
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30296):
AAACTATACTACAAGGCTACAGTAACCAAAACAGCATGGTACTGGTACCAAAACAGAGATATAGATCAATGGAACAGAACAGAGCCCTCAGAAATAACGC
Y
GCATATCTACAACTATCTGATCTTTGACAAACCTGAGAAAAATAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGAGAAAACTGGCTAGCC
Celera SNP ID:            hCV26413017
SNP Position Genomic:     219060
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30297):
CCTCAGTCCCCTGCAATACTGAGAGAAGCCTGCTTGGTATCAAAGGAAGTCACTTCTGTTCCTTTTCTAAATCCAAAATTATATTACTTTGTTGTATTAC
R
CGAAGCTCCACCATGGGTAGTAGTCATAAGTATTTGACTAGGAGGTTTGCTACCCAAAGCCAAAAAGTGGCTCCAGTGGCTGTGACGGGCTTTCTTCTAC
Celera SNP ID:            hCV26413019
SNP Position Genomic:     213251
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30298):
TTCTTTTCTTCAGCTAGATTTGGGTTTGGCTTGTTTTTGCTTTTCTAGTTTCTTTAGCTATGATGTTAGGTTGTTAATTGAGATCTTTCTTTTTGATGTT
R
AGCATTTAGCACTATAAATTTTTGTCTTTTTTTTTTTTTTTTTTTTTTTTGGAGACAGAGTCTCACTCTGTCGCCCAGGCTGGATGCAGTGGCGTGATCT
Celera SNP ID:            hCV444877
SNP Position Genomic:     105148
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30299):
GGATTACAGGCATGAGCCACTGTGCCTGGCCTCTTTATCCCGTTTCAAAAGATAAATTAATTGTGGGAGATCAACATAACAATCATCACTGATTTTTTTT
T
AACCATTTAACTCTGGTTCAAAAGATAAATAATAATCTATAATCCACCAGTGTATACAAATTTTTTATCACATTTTCCCTTATGTTGTAAAAAAAAAGAA
Celera SNP ID:            hCV453699
SNP Position Genomic:     48512
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30300):
GAAGCTCTTTAGTTTAATTAAGTCTCATTTGTCCATTTTCGTTTTGGTCATATTTGTTTTTGAGGTCTTAGTCATAAATTATTTGCCTAGGCCAATGTCC
R
TAAGAGTTTTTCCTAGGTATTCTTTTAGGGTTTTTATAGTTTCAGGTCTTAAATTTAAATTTTTAATCCATCATGTGTTAATTTTTATATATGGTGAGAG
Celera SNP ID:            hCV444878
SNP Position Genomic:     103136
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30301):
GCTGAGGGACTTAGATTCCTCCTCAGTCCCCTGCAATACTGAGAGAAGCCTGCTTGGTATCAAAGGAAGTCACTTCTGTTCCTTTTCTAAATCCAAAATT
R
TATTACTTTGTTGTATTACGCGAAGCTCCACCATGGGTAGTAGTCATAAGTATTTGACTAGGAGGTTTGCTACCCAAAGCCAAAAAGTGGCTCCAGTGGC
Celera SNP ID:            hCV26413020
SNP Position Genomic:     213231
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30302):
TGGGAGGCCGAAGCAGGCATATCACTTGAAGTCGGGAGATTGAGACCAGCCTGGCCAACATGGTGAAACACCATCTCTACTAAAAATACAAAAATTAGCC
R
GGCATGGTGGTGCAGGTCTGTAATCCTAGCTGCTCGGGAGGCTGAGGCAGGAGAATCACTTGAATCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTG
Celera SNP ID:            hCV9118662
SNP Position Genomic:     202233
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30303):
AGGAAAGTAGGTTGTTATCCTGAGATAGCTGAGAAGTAGCATTCGTAACTCTGCTGCTTGGCTGTGAACCTCCTTGTATATGGAACTAGGATCTTGTTTC
Y
CATTTGCATGTCTCTTTTTTTGTTAAGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAATGGCACCATCTCGGCTCACTGCACCCTCTGCCTCC
Celera SNP ID:            hCV26413021
SNP Position Genomic:     211105
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30304):
ACTGGAAACTCCAGGAATAAGAAAGGCTCTAGAACTCAGTACCCGTTAAAGTGGGAGTATGTAGCTGCTGAAGATGGTGGGAGGGGCAGGGTCTCTGGGG
W
TGGCCATCTTTCTTCTTGATAGTTCCATAGCACTAAAGTAACACAATCATTTCTTTCTTTTTTAGTCCCGGACGATCCCCAGTATCCTTTGACAGTGAAA
Celera SNP ID:            hCV26413022
SNP Position Genomic:     210289
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,4)      total(A,4|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30305):
TTAGGAGTAGGTCCCTTTCTAGGTCTTTCTAGCCTAGAAGAGGTCTTTGTGAAAACCAAGCCTAGCTCCATATAGTACCATTTTGAACTGAACAAGGTAC
R
CTGGAAACTCCAGGAATAAGAAAGGCTCTAGAACTCAGTACCCGTTAAAGTGGGAGTATGTAGCTGCTGAAGATGGTGGGAGGGGCAGGGTCTCTGGGGA
Celera SNP ID:            hCV26413023
SNP Position Genomic:     210189
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30306):
TGGACATGGTGGCATGCACCTGCAGTTTCAGCTGCTTGGGAGGCTGAGGCATGAGGATCACTTGAGCCCAGAAGTTTGAGGCAGCAGTGAGCTATGATAA
Y
GCCACTGCACTCCAGCCAGGACAACAGAACAGAATCCTGTCTCTAAAAAAACAAACAGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGG
Celera SNP ID:            hCV26413024
SNP Position Genomic:     207082
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,14)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30307):
CTTGAACCCAGGAGGCGGAGATTGCCATGAGCCGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTATCTCAAAAAAAAAAAAAAAAAA
A
TCCCCTTTCCCATAACTCTTCACTCAAACAAGTGATTTTTTTAGAACCAAGGTAAGTCTCATCTGCAAATTTTAAGACTTAACTCATTGCTCCAGCTTAT
Celera SNP ID:            hCV26413025
SNP Position Genomic:     206442
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30308):
TCTTTCTCATGTTTGGGATTCTTAGAGATTCTTAGATTTGTGATGTTACAAGAAAAACTTGGGACTGCAACGTCCCATCTAAACTGGGAAGGAGCCATGA
G
ACCAAAGAATGACTCAGACAAATTTAACTTGATGAGTAGACGAGTTTATTCAACTTACATACAAGGCACTCCTGGACGGCAGCAGGACAGCTCTAGAGAT
Celera SNP ID:            hCV26413026
SNP Position Genomic:     197515
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30309):
TTTTTTCATGGTTTTGCTTTTGGTTTCATATCCTAAAAATTCATCGCCAAACCCAAGGTCACCTAGATTTTGTCCTATGTTATCATATACAAGTTTTATC
R
TTTTTTGTTTTTACATTTAGGTAAATCTTACATTCGGATCATTTTCATGACCCATTTTGAGTTAATTTTTGTAAAAGGTTGTATCTAGATTCATTTTTTT
Celera SNP ID:            hCV26413027
SNP Position Genomic:     193063
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30310):
ATCACGATCAAAATTGTGAATACATCTGTCATCTCCTAAAGTTTCCCTAGGTCCTTTTGTAATTACTTGCAGGCAACCACTGATGTGCTTTTTGTCACTC
R
TAGATTACTTTGGATTTTGTAGAATTTTATCTAAATGGAGTTATATAGTATGTACTGTGTTTTTTGTCTGGCGTCTTGTCCTTTGTATTTCCATATGAAT
Celera SNP ID:            hCV26413028
SNP Position Genomic:     187591
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30311):
TTCTCACTGTCATAATTTTGGCAAAGGCAGTTTCAAAATTATTGATTTTATTCTGTCAACAAACTTTAAAATGGTGGTAATTTTGGCTTTTTTTTTTTTT
T
GAAAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTATGATCTCAGCTCACCGCAACCTCTACCTCCCTGGTTCAAGCAATTCCCCTGCCTCAGC
Celera SNP ID:            hCV26413029
SNP Position Genomic:     183920
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30312):
CTCAAAAACAAACAAACGAAACCAAAAAAAGAAAAGAAAAAGAAAAAATTATAGTAGTTATACAAGTGCGCTCCTCCCCTGGTAAGAATTGTGTAGTCAT
R
CTAGCATCCTCCCCATCCCCTCTTCCTCAGATCAACCAGAAAAACAGAGAAAAAGTCCCACGTTAAGTATGAGCACATACGTCCTTATGATCGCCTGTAA
Celera SNP ID:            hCV317913
SNP Position Genomic:     100581
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30313):
TAGATACTACTGTCACATTAATCCAAAGATGTCATTGGTCTTTGGCAACTGTTAAGTTTAAGATCTTTCTCTAATAAACATTCCCCTTCCCGGGCCAGGC
R
CAGTGGCTCACACCTGTAATCCTGGCACTTTGGGAGGCTGAGGCAGGCTGATCGCAAGGTCAGGAGATCGAGACCATCGTGGCTAACATGGTGAAACCCC
Celera SNP ID:            hCV497407
SNP Position Genomic:     206153
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30314):
GAAGTGGTCTGGTCCCCAATCCTTCAGAGGGTATTTTCCCAGCAGGAGCTGTTACCTTCTTTGTTTCAAAGTAAACTAAATTCCTACCAAAGTTAGTTTT
S
GCCTAAGCTCAGAAATGTACAAGGGCAGCTTGGAGGTTAGAAGCAAGATGGAGTTGGTTAGGTCAGATTTCTTTCATTGTCATAATATTCCTAGTCAGAT
Celera SNP ID:            hCV9119614
SNP Position Genomic:     183717
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30315):
ACTTCGAGACCATTAAGCTCATCAGCAATGGCGCCTATGGGTAAAGGCAGGGGTCAGGGTGTGGCCAGGACTGAAGCCGGGTCAGCCTTTGATCTCTTCC
R
TGTGAGAGTGTATGCTGCCCAGTCCTCTGGGCAGATGCCTCGGGGTGGACCTTCTCACTCCCAGAAGCCTCCTGGGTGGGCAGGAGTTCAGATTCCTCTG
Celera SNP ID:            hCV15878764
SNP Position Genomic:     225420
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,81|A,1412)   total(G,81|A,1412) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30316):
TCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAACTAGGATTACAGGCAGCCGCCACCACGCCTGGCCAATTTTTTTTTTTTTTTT
T
TTGAGACGAAGTTTTGCTCTTGTCCCCCAGTCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCTGCCTTCCGGATTCAAACAATTCTTCTGCC
Celera SNP ID:            hCV26413100
SNP Position Genomic:     15904
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30317):
TGTTTTGCATAACACATTTATTAATTTTTTAAAAATTATTATTGTTTTTTTTTGAGTCAGAGTCTCTGTCACCTAGGCCATAGTGCAGTGGCTCGATCTC
R
GCTCACGGCAACCTCTACCTCCTGGGTTCAAGTGATTCTCCTGCCCAGCCTCCTGAGTAGTTGGGATTACAGGTGTGTACCATCACGCCTGTGTAATTTT
Celera SNP ID:            hCV11864614
SNP Position Genomic:     55804
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30318):
ATTTTTTTCAGTAAGTATAATGTTTTTGAGATCCGTCTAAATTGTTGCATGTATCCACTCAGTTCTTTCCCTCTTTGTGTGTAGTATTCCATTGTATGGT
B
ACACATCACTTGGTTATTTACTCACATGTTGATAGATTTTATGTGTTTGTTTTTTGAATCTGCACCACTGGCAATGGATTTTTTTAAAGCTATTAACTTT
Celera SNP ID:            hCV11864617
SNP Position Genomic:     55201
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3|T,3|-,6)   total(G,3|C,3|-,6|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30319):
GGCAGATACACTGGTGGGGCTGGCCGTGTGCCACATGCCACACACACTTAAGCAATACAAAGAAGTTTACTCCATACCCAGAAGAGGGGAAAAGTTTCTG
Y
TAATAAGGAAGAAGAATCTGTGGCCAAGTGACAGCTTGCCACACAGCTTCCTTATGAGGGAAAGTTTTAGACCCAGGCCACTAATTGGGTAGTCTTGGAG
Celera SNP ID:            hCV26413030
SNP Position Genomic:     174464
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30320):
CCATCTCCCAGTCTCAGGTGATCCTCCTGCCTCAGCCTTCCGAGTAGCTGGGATCACAGGCACAAGCTACCATGCCTGGCTAATTTTTTTTTTTTTTTTT
T
AATTTGTAGAGATGGAGTCTTGCTATGTTGCCCAGACTGGTCTCGAACTCCTGGGCTCAAGTGACCCTCCTCCCTCAGCCTTCCAAAGTGTTGGAATTAA
Celera SNP ID:            hCV11864618
SNP Position Genomic:     54926
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,8)   total(-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30321):
CCTTTCTCTCTTTTTCTTCTTGTATTACTGCTGCATACGTATCACACCTTTTGTAATTGTCTCACAGTTCTCGGATGTTCTGGTGTTGGTTTTTTTTTTT
T
CGGTCCTTTTTTCTTTGCTTTTTAGTTTTGGAAGTTTCTGTTATCATATCCTCAAGATCAAAGATTATTTCCCCAGCAGTGTTCAGTCTATTAATGAGCC
Celera SNP ID:            hCV26413031
SNP Position Genomic:     170949
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,7)   total(-,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30322):
ATTGTAGGTGTGTGGCTTTATTTCTGGGTTCTCTATTCTGTTCTATAGGTCTATGTGTCTGCTTTTGTACCAGTACTATGCTTTTTTTTTTTTTTTTTTT
T
AAACACTGTAGCCTTATAGTATAGTCTGAAGCTGGGTAATGTAATCCCTGCAGCTTTGTTCTTTTTGCTTAGGATTGTTTTGGCTATTTGAGCTCTTTTT
Celera SNP ID:            hCV11864619
SNP Position Genomic:     53236
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30323):
GGTTTTTGGGTAGACGTTAATTTTTAACTTATTTGGGTAAATAAGGAGCACAATTGCTATATTGAATGGTAAGAGTGTATTTGATTTTGTAAAAAAAAAA
M
AAAAAAAAACTCTTCAAGCTGGGCGTGGTGGCTCACGCCTGTAATCCCACACTTTGGGAGGCCAAGGTGGGCAGATCACTTAAAGTCAGGAGTTCAAGAC
Celera SNP ID:            hCV26413032
SNP Position Genomic:     168493
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30324):
TATAGGTTTTTGGGTAGACGTTAATTTTTAACTTATTTGGGTAAATAAGGAGCACAATTGCTATATTGAATGGTAAGAGTGTATTTGATTTTGTAAAAAA
M
AAAAAAAAAAAAACTCTTCAAGCTGGGCGTGGTGGCTCACGCCTGTAATCCCACACTTTGGGAGGCCAAGGTGGGCAGATCACTTAAAGTCAGGAGTTCA
Celera SNP ID:            hCV26413033
SNP Position Genomic:     168489
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30325):
TGACTTTTTAATGATCGCCATTCTAACTGGTGCAAGATGATATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTC
R
TGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCGCCCACTTTGTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTG
Celera SNP ID:            hCV26413034
SNP Position Genomic:     164601
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30326):
CAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCT
R
TCATTGTTGGACATTTGGGTTGGTTCCAAGCCTTTGCTATTGTGAGTCATGCCGCAATAAACATACAAGTACATGTGTCTTTATAGCAGCATGATTTATA
Celera SNP ID:            hCV26413035
SNP Position Genomic:     164226
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30327):
AGCCCCTCTGGATCCTGAAACTCTGCCCTGCTCTGTAGGCAGAAAAGGGAAGATGCTTGAGCTGATCCCCTAGGTATAGCTTCTGAAGGTCTGGCTTCTT
R
CTAGATTTGCTGACCTAGACTCCATGCTGCTCATCCTACCCCCTTGCCCATGTCCTCCCTGTCCACAGGCAGTGCCTATGAGGTGAAGCAGCACCCATTC
Celera SNP ID:            hCV15954673
SNP Position Genomic:     231803
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,22)   caucasian(A,20|G,16)   total(A,34|G,38)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,21)   caucasian(A,22|G,18)   total(A,37|G,39)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,360|G,1127)   total(G,1127|A,360) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30328):
AGGGTATTGAAATCCAGGTAAGCAATAAATAATATATCAATAATAATATAATGGATACGTAATAATATCTCCCTTTATTGGGGAGGGAATATGTATTTTT
Y
TCCCACTCTCACTTCCCCATCTTAACCAGGACATCTTGGTTGTTACTCTGAAATATTATAGCATCTGGAAGTGCTTGACTGTAACCAGCTCCACATTCTT
Celera SNP ID:            hCV26413036
SNP Position Genomic:     155993
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30329):
AACACCTATTAAACCTTGAATAATAACAACTACTTTAGGACAGAAAAAAACAAAACAATATGTAATTTCTAAACCAATAGAGCAGAGGTTAAAAAAAAAA
A
CTTGATTAATTCAAGGAGAGTTGCCATCAGACTTGGAGGAAAACTTTACCTTAGAGCAAAGACTTTTCTCCTAGTTCCTCTGATGCCTGCTGCCCTTGCG
Celera SNP ID:            hCV26413037
SNP Position Genomic:     155299
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,6)   total(A,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30330):
GTTTGGGAGGACAAGACGGGCGGATCACTTGAGCCCAGGAGTTCAAGACCATCCCAGACAATATGGTAAAACCCTGTCTCTACAAAAAATACAAAACTTA
K
TCAGGCATGGTAGCATGGGCCTGTGGCCCCAGCTACCCTGGAGGCTGAGGTGGGAGGATCACCTGAGCCCAGGAAATAGAGGCAACAGTGAGTGGAGATT
Celera SNP ID:            hCV26413038
SNP Position Genomic:     153497
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30331):
AGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAATCTCCGCCACCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCT
S
AGTAGCTGGGACTACAGGCACCTGTCACCACGCCCTGCTAATTTTTTTGTATTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGCCTCGATCT
Celera SNP ID:            hCV26413039
SNP Position Genomic:     142796
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30332):
CTTCTTAGTGTCTTTAGCCAAAGTGGCATACTTTAGGATAACATTTCCTGGTCCCCTTTAGAAGAATAATACAAGATTCAGTGTCAGTGTATGGAAGCCA
R
TCAATCCCCAATTCTGTCCTGGAGAACACAGGGAAGGCTTCAGAGAGAAGGAAATTTGAGCTGAGAAGTGAAAAATTAACATGTATTAGGTATACATTTG
Celera SNP ID:            hCV11872131
SNP Position Genomic:     145055
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30333):
TCCTAAATTGATATAATGTCTTACTAAAGAGGTGTGACCCACATTTGAAAAAGCACTGGTTTGCCTATGAGTTAGTCCTTTGAACATTACCCTAGAAAAA
R
CAGTTTGATACGCTTTGTCATCTAGGTGAATGAGAGAAGCCCCTCAGAGTTGGCAGAGCCGCTGAAGCAGGGGACAAGACTTGCTTCTCTTTGGCTCTCT
Celera SNP ID:            hCV167598
SNP Position Genomic:     114647
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30334):
ATCTCCAGTGATTAAGAATCTTCCTGGTACATGAGATAGAACACCTTTACAAATGCAAATTTATATTACTTTTACAAAAGGGAAATTTATACCTTACTTT
T
AGGCAGAAAGGGGGAAGGCAGAGAGTTTGTTGCTTCTTAGTGTCTTTAGCCAAAGTGGCATACTTTAGGATAACATTTCCTGGTCCCCTTTAGAAGAATA
Celera SNP ID:            hCV11872132
SNP Position Genomic:     144922
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30335):
CAGACTTCATCAACTAATGTGTTATTTAAAGTAAAGGTCACTTGTTAACAAAATTAAAAATTTTTAAATGGAGTTTGTAGCTTAAGAAAACTTAAATGGT
Y
AAAAATCATGGTTCTGTTTTTGTTTTTGAGAGTGTCTTACTTTATGGCCCAGGCGGGAGGGCAGTGGTGCTATCACAGCTCACTAAACCTTGACCTCCTG
Celera SNP ID:            hCV167599
SNP Position Genomic:     116984
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30336):
CAACATGCTAAGTTTCTGGTAAACCTCTCTTCCTGGCTTGCAGAGAGTGGCCTTCTTGCTGTGTGCTCACATGGCCTTTATGTGGTACACCAGCCTGAGG
R
TAGGGGCATAGATCTGTCTCTTCTTCTTTTTCTTCTTCCTTCTCCCTCCTTCCTTATTTTTTCCTTCATTTTCAAGCCCAACAGTCCTATAGGATTAGAG
Celera SNP ID:            hCV506507
SNP Position Genomic:     92850
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30337):
GTCCTGGGTTTATGGCCTCTGTTCTAGTGTGTTCTAGTGTGTTACAGCTCCATTCGTCTTGGGTCATTTGATGAGGAGTCCACTAATATTTTGTACTACC
R
TGCCCAAGGATTAGGGCTCACAGAGAGGGTTTTTCGTCTAATGGGACTCCTGTTAACCTTCCTGCTCTTAGATTAGGAGATAACAAAAGCAAGAGGAGTA
Celera SNP ID:            hCV28035052
SNP Position Genomic:     161888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30338):
CCTCAAACTCCTAGGCTCAAGCAGTCCTTCCACCTGGCCTCCTGAGTAGCTGGATCTAAAGGCATTATACCACCATGCCTGGGCTTTTTTTTTTTTTCTC
M
AGTCACTTTTGTTTTTATTTATTCTAATATTATTTGTTTGTTTATTTATTTTCTTTCTAGAAATGAGATCTCACTACGTTGCCCAGGGTGATCCTAAACC
Celera SNP ID:            hCV11872135
SNP Position Genomic:     139111
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30339):
AATGGTTATATGATAGGAGTAGACAAAGGAAATAGAATATTTTTGAGGATGGCAGAAGATGAGTTCAACTTTAGTTCCTAAAATACCCTCAGTGTGACAG
R
AATTTTAAAAAATTATTTTAATGGAAATCAGAACCTCTTTCCTCTGCATTACAGGGTTAGTACATTGGGAAAAGCATAGGGCAGAAAGCACACAGAAGGG
Celera SNP ID:            hCV28035053
SNP Position Genomic:     12678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30340):
TTTACTACAGCCATAGCCACAGAGCTGACAGGTAATAGCGGGTATAATGGGGAGAGGGGCTGGGAAACTGCTATGCATGGCCAGACAATATGGTTTGTGA
Y
GTTGTGGTTGGTGAAAACTGGTTGTGATGATTCTTCTCTGACTGTGGGTATGAACATTGGGCCTTTCATGTCTTGCAAAGAGGCCCAAAGGGATCTCCCT
Celera SNP ID:            hCV37950
SNP Position Genomic:     203111
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30341):
ATAAGTCCTATACATCTATATTTTTATAAAACTCCAGTCCTATACATCTATATTTTTATAAAACTCCACTGACCTAGAAGGTGCTGGATTGAAATGTTAA
R
AGTAAGGTTGTTACCAAGTAAACATTTTCAGTTTTTATTATTTATTTATTCATTCATTTTAGACAAGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTG
Celera SNP ID:            hCV506509
SNP Position Genomic:     95533
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30342):
GAGCTGCAACGAGTAGGCTTACTAAAGAGGCGTTGAGGAGTTATCCATAGGAGTAAATAGAGTAAGATGTAAGTCAATTTGATGTAGTGTTATCCTGTTT
Y
CTAGAGGTTGTCCTTAAAATTGTAAAAACGGATGACACTCCCAAGCATTCTCTGATTTGGCCATCATTATACTTTTGTACCAGTGTGTTCACAATCATTG
Celera SNP ID:            hCV28035054
SNP Position Genomic:     6846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30343):
TCTCTGGGCTGTCCTCTTATACAACATAGTAAGAAAAGCTGCTGGTTATTGGTGGGATGGGGAGAAGTGTTTCAACCCTGCCAAACAGAGTATCAGGAAT
Y
GTTTGTTTCTGTGTTACTGGCTGGCGCTTTGGAGGATCACATTGGTTTGCAATGTCAAACAAAAGACAGATTGAATTGAACACTAAGGATAGACCCATTG
Celera SNP ID:            hCV37951
SNP Position Genomic:     202781
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30344):
CTTTCTCTTGCCTAATTGCTCTGGCTAGGACTTCCTATGTGGAATAGGAGTGGTGAGAGTGGGCATTCTTGTTTTGTTCCAGTTCTCAAGGGGACCGTGT
Y
TTTTGCCCAGCATGATGTTACCTGCAGGTTTGTCATAGACGGCTCTTATTATTTTGAGGTATGTTCCTTTGATGCTTAGTTTGTTGAGGTACTTGATTGT
Celera SNP ID:            hCV11872137
SNP Position Genomic:     138516
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30345):
ATACCTTCATTTGTTGAAAGCTGTGTCCTGGCGGGAAGACAAATGAGTAGTGGGAGAGAAAGACAAACAAATATATGTTTATAAATTATGACAAGCACCA
Y
AGAGGGAAAGAGCATGATGCTGCATGAAAGAACAGGAAGAGGGCCGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAAGCAGGCAT
Celera SNP ID:            hCV37952
SNP Position Genomic:     202052
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30346):
ACCTGAGAACTTCTCTTTCCCCTTAAAACACACATGTTCCTGGTTTAGCCCTTGGATACAGTGCGCAGAGATATATATGCAAGAAACTTTTGGATTAGGG
K
TCCTGTTGCCCTTTGAGAAAGTGTGAACATTTGGCTATACCCTCTGACTGAATGAGCTCTTTAAGCCTTCTGAATGTTGGTTCACTTGACAAAGACAGAT
Celera SNP ID:            hCV37953
SNP Position Genomic:     199402
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30347):
TGATTCCGTGTCTTTGCTATAGTGAATCGTGCTGTGATGAACATGTGAGTGCATATGTCTTTTTGATAGAACGACTTATTTTCCTTTGGGCATATTTCCA
R
TGATGGGATTGCTGGGTTGAAAGGTAATTCTACTTTTAGTTCTTTGAGAAATCTCCAAACTGCTTTCCACAGAGGCTGAACTAATTTACAATTCCACCAA
Celera SNP ID:            hCV11872138
SNP Position Genomic:     136970
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30348):
AAGCTTCTGAGCTTTAAGTTAGCAAGTTACAGGGAACACGTGAATACTAATTAAGAAATGGCGGTATGCTTTGTAGACTTGGGGGCCTTGATTACGAACT
R
TCTTAAGGTTTACTACTATCCTGAGTCCCTACCTGAGAACTTCTCTTTCCCCTTAAAACACACATGTTCCTGGTTTAGCCCTTGGATACAGTGCGCAGAG
Celera SNP ID:            hCV37954
SNP Position Genomic:     199271
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30349):
CTGTAGTATTCTGTGGTATGTGTATATGTACCATATTTTCTTTATTCAGTCCTCTGTTGATGGGCACCTAATTTGATTCCGTGTCTTTGCTATAGTGAAT
M
GTGCTGTGATGAACATGTGAGTGCATATGTCTTTTTGATAGAACGACTTATTTTCCTTTGGGCATATTTCCAATGATGGGATTGCTGGGTTGAAAGGTAA
Celera SNP ID:            hCV11872139
SNP Position Genomic:     136897
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30350):
AAAAAGAACAGAATTTTTTTTAAAAAAATAAGCCTTGATACTTCTGAGGAGGCCTGATCCTTATTAAGTCCTGGCTAAGGAAACAGCTACTCAGGATCAC
K
TCCCTTATATCCTGGTGCCCACTAGCCAGAAGATGGGGAGAGGTCATAACAGATATCCCTGACACAGAGCATGGAAAACCCAGAGTTCATGCAATGTTGA
Celera SNP ID:            hCV37955
SNP Position Genomic:     198516
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30351):
ATACTGGACTGCAGAACCTGTGCCCTGTGGTCTGTGCTTTCCAGCTTTGGAGTGGGCACTAGACAATAAGCATGAAGAAGGAGGCAGAACAAACACCTAG
S
AATTCATTTTGACGTATATGGTGTTTATGAAGTTTGCAAGTATATAATGTTGAGAAATGTATCTCATGCTTGTCCTCCTCCTCCTTGTATGTTAGGTGTT
Celera SNP ID:            hCV27969828
SNP Position Genomic:     211603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30352):
ATGTTTGGTTGGTTCTCAGGGATACCTGCTCCTCAGCTGGGTACCATTGCCATGGGCCTAGCCTTCAGGTTTCAGGCAGTGAACATATGTACCTTTAAGT
R
ATCTGGTAAAGGACCCATCACACAACATGTGGGTATATGGTTTTTATCAAATTTGCAAAATGGTCCGCCATTATTTCTTCCTATCTTTTTTCTGTATCCC
Celera SNP ID:            hCV37956
SNP Position Genomic:     197977
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30353):
ATGTTTTTCCATTTGTTTGTGTTGTCTGTGATTTCTTTCATCAGTGTTCTTTAGCTCTCCTTGTAGAGGTCTTTCATCTTCTTGGTTAAATGTATTCCTA
R
GTATTTTATTTTGGTTGTGGCAATTGTAAATGGGATTGAGTTCTTGATTTGATTCTGAGCTTGAATGTTGGTATATAGAAATGCAACTGATTTGTGCATT
Celera SNP ID:            hCV27969829
SNP Position Genomic:     103770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30354):
CCTGGACTCAAGTGATCGCCCTCCTCAGCCTCCCAAACTGGCATGACAGGCGTGAGCCACTGTACCCGGCTCCCTCTAAACTGCTTTTAAGCTAATTTTC
W
GGATCTTTGCCTACTGTGTTTGAACAATGATACTGTTTTTCTTGAGAGATTCTCAGATACTCTCTGGGATGTTTGGTTGGTTCTCAGGGATACCTGCTCC
Celera SNP ID:            hCV37957
SNP Position Genomic:     197808
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30355):
TTTTTAGACATGGGGTGTTTTGCCATGTTGCTTAGGCTGGTCTCAGACTCCTGGACTCAAGTGATCGCCCTCCTCAGCCTCCCAAACTGGCATGACAGGC
R
TGAGCCACTGTACCCGGCTCCCTCTAAACTGCTTTTAAGCTAATTTTCTGGATCTTTGCCTACTGTGTTTGAACAATGATACTGTTTTTCTTGAGAGATT
Celera SNP ID:            hCV37958
SNP Position Genomic:     197759
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30356):
AATTTTTGTTTTTGTTGCAATTGCTTTTGAGGACTCAGTCATAAATTGTTTCCCAAGGTCAGTGTCTGGAATGGTGTTTCCTAGTTTGTTTGTTTGTTTT
T
CCCTAGGATTCTTACAGTTTGAGGTCTTACATTTAAATCTTTAATCCATCTTGAGTTAATTTTTGTATGTGGTGAAAGGTAGGGTTCCAGTTTCATTCTT
Celera SNP ID:            hCV11864620
SNP Position Genomic:     52942
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30357):
CACTTGAGCCGAGGAGTTCGAGACCAGCCTGGGCAACATAGTGAAACCCTATCTCTTATATTTAAAAAACAAAAACAAAAACCACACAAAAAAACCTGTA
M
ATCAATAAAATAAAAAGATAGTATGATTGAAAAATGGCCAAGGGACTTGGACAGTTCACACAAAAGAGATCCAAGTGGTCAATAAATGCATGAAAAGATA
Celera SNP ID:            hCV9119627
SNP Position Genomic:     180156
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30358):
TACATCAGTTTGAGGGAGAATTGCCATCTCAACAACACTGAGTTCTAATCCAAGAACGGAAGTTCTCTATTTATTTAGGGTTTTTTTTTTTTTTTTTTTT
T
GAGATGGAGTTTCGCTCTTTTGCCCAGGCTGGAGTGCTGTGGCACAATTTCGGCTCACTGCAGCGTCCACACCACCCCCACCCCGGGTTCAAGTGATTCT
Celera SNP ID:            hCV26413040
SNP Position Genomic:     142052
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30359):
ATACATCAGTTTGAGGGAGAATTGCCATCTCAACAACACTGAGTTCTAATCCAAGAACGGAAGTTCTCTATTTATTTAGGGTTTTTTTTTTTTTTTTTTT
T
TGAGATGGAGTTTCGCTCTTTTGCCCAGGCTGGAGTGCTGTGGCACAATTTCGGCTCACTGCAGCGTCCACACCACCCCCACCCCGGGTTCAAGTGATTC
Celera SNP ID:            hCV26413041
SNP Position Genomic:     142051
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30360):
CACACCTGGCTAATTTTTTTGTATTTTTCCTAGAAACGGAGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGTGATCTGCCCACCTTGG
Y
CTCCCAGAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCCAATTTTTCAATTTCTACAAAAGACCTTGCTGGCATTTTGATAATGATTACTTTG
Celera SNP ID:            hCV26413042
SNP Position Genomic:     141845
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30361):
TATAATTCCTCCAACTTTGTTCTTTTTCAAAATTATTTTATGTGTTTTGGGTGCTTTGTGTTGCTATATAAGTATGAGGATCAATTTTTCAATTTTTTTT
K
GGGGGGGTGGGGTCGCAGGGGACAGTCTTGCTTGGTAGCCCAGGCTGGAGTGCAATAGCGCGATCTCAGCTCACTGTAACCTCTGCCTCCTGGATTCAAG
Celera SNP ID:            hCV26413043
SNP Position Genomic:     141593
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30362):
TGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCGCGCCTGGCCTGTTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTT
K
ATCTTATGTGAAGGGAATCAGTTTCCTGTCCTGGGAAATTGAGATAGATGCATTCATTCATTCATTCATTCATACATTCAACTGCATACTAGGCCCTCTG
Celera SNP ID:            hCV26413044
SNP Position Genomic:     132481
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,7)   total(G,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30363):
GGGGGAGTTGTTGGTGGTGAAGCCCCTTGGAGTTTGCCATTTACATAGCTAACTGATTGCTCAGCTGAGGAAAACCTTGGCTTCCTCTTCTGGCCCACGT
W
GAAAGAGGAATTATCTGTAGTAGTCATGCTTGTTATGTAGACTCTGGGACTCTGAGAGGTGAGAATGCATCTAGAAGGCAGCAGCTTTTCTTTCATGTCC
Celera SNP ID:            hCV26413045
SNP Position Genomic:     131537
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,5)   total(A,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30364):
GGGACTCAGCTTTGCTGAAAGGGCTGCAGCACTTCTGTGCAGTTCATTGCTACACTCTTTATAATGGAAGATCTAAACCTACAGTTAGTGGCAATTGACA
R
ACTTAGAACTGTTCAGAGCTTGCTGCCTGGGCATAGAAAGCCATGGTCACTGTTGTCCTAAGCCTGGACCTTGTCTGTCTTTGGGCGTTAAAGCAGGATA
Celera SNP ID:            hCV11864487
SNP Position Genomic:     162819
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30365):
GTTGCATAATAACAAATTTTGAAATATGTGTAAAGCTATTGATTTTTAAAAAATAAGCACATGTTAAATATTTAACTCATTGTTAGTAAGGAAATCTGGC
M
GATATATTAGCCAGTTCAAAGAAGTAAAAGAACCACAAAGTGATATGTGGTATGTGTATGTGTAGTGTTGAAATAAATGTATTATTTATTATAAAATTGA
Celera SNP ID:            hCV11864489
SNP Position Genomic:     93398
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|-,6)   total(A,1|C,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30366):
CTATTGTCATTGATAACATCTTATCAGGAGATAGAGTTTTGAGATCAACCGGTCTGACCACAATTTATTAGGCGGGAATTTCCTCTTCCTAATAAGCCTG
R
GAGCGCTATGGGAGACTGGGGTCTATTTCACCCCTGCAGCCTCAACCATAAGAGACAGGCCACGCCCAGGGGGGCTGTTTATAAGCCAATACCTCCAGGC
Celera SNP ID:            hCV26413048
SNP Position Genomic:     129415
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30367):
TCATTTCTCCTCTTACAGCAGGGAAAGCGCATCTTGAGAGTATCTTCAGAAGAAGTGATTCTCTTGTTAGAGTAGGGAAGGTTTTTTGATTTTTTTTTTT
T
GTTTTTTCATTGAAAAGGTAAAATAATGAAGACTAGTGCTGTGCTTTAACTTCAGGAACCCTTATATGCGACAGATAGTTTTTCATAGACCCTGGCTCCA
Celera SNP ID:            hCV26413049
SNP Position Genomic:     128808
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30368):
GGTAAGGCTGTCTTCCTCTCCTTACTTCTTCCTCATGGAATCTCTGATTGCTAACCTGTAGGACCTGATAGATATTTCTTGGTTGATCACCACTAGTGGT
M
ACTCTCTCTTACTCTGATTTTTGCTCTCTGCCTATTTCTGTAAACTTTATATTCTTTGCTTCTGTAGATTTTCTTTTTTCCTTCATTCTCAAAACCTAAA
Celera SNP ID:            hCV11872140
SNP Position Genomic:     27191
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,9)   total(A,3|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30369):
CTAATGGTTCTTGTCTCTGTACTGTCTAGATCAGTTTGATGTGTTACTTATCTGTATTTGTTACAGCTTCCTTCATTGACATATAATAGATATACCTCAT
Y
GGGCTGATTTTTTTCGAAAGTTTCTTATTTATTATAATACTCCTGATTAGGTGGGTGTTGGCTTAAAAATGTCTACATGTTGATGATATTATTGGACACT
Celera SNP ID:            hCV11872146
SNP Position Genomic:     26130
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30370):
GTGGCACTGTCTCGGCTCACTGCAAGCTCCACCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTTCCGAATATCTGGGACTACAGGCGCCCGCCACCA
Y
GCCCGGCTAATTTTTTTGTATTTTTTAGTAGAGACAGGGTTTCATTGTGTTAACCAGGATGGTCTCGATCTCCTGGCCTCGTGATCCGCCCACCTCAGCC
Celera SNP ID:            hCV37960
SNP Position Genomic:     197057
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30371):
TTGGATCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCTGTCTCAGCCTCCCGAGTAAGCCGGGGTTACAGGTGCCTGCCACCACGCCTGGCTAA
Y
TTTTGTATTTTTAGTAGAGACAGGGTTTCATCATCTTGACCAGGCTGGTCTTGAACTCCCGACCTCATGATCCACCTGCCTCAGACTCCTAAAGTGCTGG
Celera SNP ID:            hCV11872147
SNP Position Genomic:     25889
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30372):
GCCAGTTACTTGAAGCTTGTTTTTCAAATGGCAGGTGACATGGGGTCAGTTATTCTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCTCAGGC
K
GGAGTGCAGTGACATGATCTTGGATCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCTGTCTCAGCCTCCCGAGTAAGCCGGGGTTACAGGTGCC
Celera SNP ID:            hCV11872148
SNP Position Genomic:     25769
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30373):
CAGGCTGGTCTTGAACTCCTGACCTCAAATGATCCACCCACCTCAGCCTCCCAAAGTTCTGGGATTACAGGCATGAGCCACCGTGCCTGGCTATTTTCAG
Y
GTTTTAATCTTGATGCTGCTTAGTGGGTCTGTTCAATTTGTGAAAATTCATTGAGTTCTATGCTTAGGTATGTGTACTTTTCTAAAATGAGTAATGTACT
Celera SNP ID:            hCV11872149
SNP Position Genomic:     24585
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30374):
TGGGGTTTCACCGTGTTAGCCAGGATGGCCTCGATCTCCTGACCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACC
R
CGCCTGGCCTACGAGGATTTTATTAGAAAGAGAATTGTTGCATATTGTTTTGAAAGAAAAGTCATTGGTACTTGCAAAGTTTTTAGAAGCTGGCAAGCTC
Celera SNP ID:            hCV487800
SNP Position Genomic:     142960
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30375):
ATGTATTCCTTATATATGTAGCTGGGACCACAGGTGGATGCCACCATGCCTGGCTAATTTTTTGACTTTTTTGTAGAGACAGGATTTCGCCATGTTGTGC
R
GGCTAGTCTCTGCTGGGCAAGGTGTCAGAACCCGGCAGTGGAGAGTGGTTGGCTCACTGGTGGTAAAAGAATTTACTGACAGCAGTATAGGTTTAGAAAG
Celera SNP ID:            hCV384170
SNP Position Genomic:     43979
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30376):
CATTTCCCACTATCATGTGGAGGAATCCCGCTCAGTACACAATTTCTTTCTGTGTACTCCTATCTGAGCTAGGGAAGCCAGCAGGCCAACTGACTTCTCC
S
ACTAGGTCAGATCTTCCCCTCCTCCCCATTCCTCCCGACCTCCAAACCTCTTCCCTCTCAGTTTCTACATAGCATTCTGGGAAAGTTACAACTTAAATAT
Celera SNP ID:            hCV11864491
SNP Position Genomic:     84937
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30377):
ACATTCTTTCTAAAAGACCATTTTTTGGCAATGAGGAAAGTCCATCAAAACGGTTTCAAGGTATTTCATTTCTCCTCTTACAGCAGGGAAAGCGCATCTT
S
AGAGTATCTTCAGAAGAAGTGATTCTCTTGTTAGAGTAGGGAAGGTTTTTTGATTTTTTTTTTTTGTTTTTTCATTGAAAAGGTAAAATAATGAAGACTA
Celera SNP ID:            hCV26413050
SNP Position Genomic:     128743
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30378):
AGCCAAGATTGCGCCACTGCACTCCAGCCTGGGAGACAAAATGAGACTCCGTCTCAAAAAAAAAAATAAAAAATAAAATTTAAGAGGCAAAGAAAAAGTT
R
TTATTTAGAAATATGTGGCCTTTTCCATTATTAAGATAATGCTGTGAATTTCCTAGGACATTTAGGTAGACCAACAGGACTCAGATGGGTTCTTATTTCT
Celera SNP ID:            hCV11864492
SNP Position Genomic:     84618
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30379):
GCCCTCCTGCCCTCTCATGCATTCTCACTAATTGTTTCTGCTGAAAACTGGCCTGTTGGGGCTCAGCAGGACATGGACTGAAATGAAAAACACTTTGAAT
T
ACATTCTTTCTAAAAGACCATTTTTTGGCAATGAGGAAAGTCCATCAAAACGGTTTCAAGGTATTTCATTTCTCCTCTTACAGCAGGGAAAGCGCATCTT
Celera SNP ID:            hCV26413051
SNP Position Genomic:     128642
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30380):
CTGGCACATGGTTTTGAGTATCTCTTGATGACTATGGTCTCAGAACACACAACCTGGAGCAACATCTTACAGCTTTGGAGCTTGTTAAATTTCATGTTTT
K
TTTTTTTTTTTTCATAGACTTACTAACATGTGTGGTCACTGTATTAGTGCTTCATTCCATTCTTCTTTTGTATCCATGCCATGCAAAGTGCCAGTTCATT
Celera SNP ID:            hCV26413052
SNP Position Genomic:     121847
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30381):
AGTCCTGGCACATGGTTTTGAGTATCTCTTGATGACTATGGTCTCAGAACACACAACCTGGAGCAACATCTTACAGCTTTGGAGCTTGTTAAATTTCATG
K
TTTTTTTTTTTTTTTTCATAGACTTACTAACATGTGTGGTCACTGTATTAGTGCTTCATTCCATTCTTCTTTTGTATCCATGCCATGCAAAGTGCCAGTT
Celera SNP ID:            hCV26413053
SNP Position Genomic:     121843
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30382):
TTACATTTACTCACCACTCACTCAGTCACCCAGAGCAAGTTCTAGTCATGCAAACCCCACTCATGGTAAGTGCCCTATACAAGTGTACCATTTCTATCTT
T
TACATGTATTTTTACTGTACCTTTTTTATGTTTAAATGCACAAATACTTACCATTGTGTTACAGTTGCTTACAGTATTCAATGCAGTAACATGCTATACA
Celera SNP ID:            hCV26413055
SNP Position Genomic:     108946
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30383):
GTTTCTTTAGCTATGATGTTAGGTTGTTAATTGAGATCTTTCTTTTTGATGTTAAGCATTTAGCACTATAAATTTTTGTCTTTTTTTTTTTTTTTTTTTT
T
TTTGGAGACAGAGTCTCACTCTGTCGCCCAGGCTGGATGCAGTGGCGTGATCTCGGCTTACTGCAACCTCTGCCTCCCAGGCTCAAGCAATTCTTCTGCC
Celera SNP ID:            hCV26413056
SNP Position Genomic:     105195
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30384):
AACCAACTATCCCTTTATTTCAGCCTTTTCATATCAGTTTGCTTTTGGTATATCTCTTGCAAATGGCATACAGTAGGTTTTCTTTAAAAAAAAAAAAAAA
A
GTCCTGTTTGTAATGAAAAGTTTGTCTGTGTACATTTATTATGATTAATGATATATTTGGACTTGTTTGTGCCATATTATTTTTTGTATTCCATATCCTA
Celera SNP ID:            hCV11864498
SNP Position Genomic:     73478
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30385):
ATAAATGTACCAGTGTAGGTGTCTTTTTGATAAAATAATTTTCTTATGCTATGTCATAAGGCCCAAGGGAAAAAAAAGAGCTTTACAATTAAAAAAAAAT
W
TTTTTTTTTAAGATTTCTTTTCCCGGCCCAGCGCGATGGCTTACACCTGTAATCCCAGCACTTTACTTTGGGAGGCTGAGGCAAGTGGATCACAAGGTCA
Celera SNP ID:            hCV26413058
SNP Position Genomic:     102237
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30386):
TTATAAAACTCCACTGACCTAGAAGGTGCTGGATTGAAATGTTAAGAGTAAGGTTGTTACCAAGTAAACATTTTCAGTTTTTATTATTTATTTATTCATT
Y
ATTTTAGACAAGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCTCTGTCATAGCTCACGGCAGCCTCAACCTCCTGGGCTCAAGCGATCCTCCTGT
Celera SNP ID:            hCV26413059
SNP Position Genomic:     95588
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30387):
TGAAGAGGACATTAAAAAAATGAAAAGATATTTCATGTTCATGGATTGGAAAAATCACTATTAAAATGTCCATAGTACCCAAAGCAATCTACAGATTCAA
Y
ACAATCCATATTCAAAATACCAATGACATTCTCCACAAAAATAGAAAAAACAATTCTAAAATTTACGTGGAACCACAGAGGACTCAGAATAGCCAAAGCT
Celera SNP ID:            hCV11872150
SNP Position Genomic:     22180
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30388):
TGCTACATTTGTTACAGTTGATGAGCCTACACTGACACATCACCCAGGCACTAGTTTACATTAAGATTCACTGTTAGTGGTATACATTTTGTGTGTCTGG
R
CAACATTATCATTTACCATTATAGTATCATACAGTCTTTTCACTGTCCTAAAAATTATCTGTGCTCTGCCTATTTATTTCTTTCTCCCCTTAACTCCTGG
Celera SNP ID:            hCV489847
SNP Position Genomic:     168009
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30389):
CTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGACTGGGCAACAAGAGCAAAGTCTGTCTCAAAAAAAAAAAAAAAA
A
GAATGTATTCCAATATCAGATGACAAATTCTAATCATGCAAACCACCGCAATTACGTTTGTACCAACCTAGTAGTACTGGAAGTCTTAACTATGGTAATT
Celera SNP ID:            hCV11872151
SNP Position Genomic:     21660
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30390):
CCATTATGTAATGGCCTTCTTTGTCTCTCTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCCTTTCTTTGTTTTCC
R
TTTGCTTGGTAGATCTTCCTCCATCCCTTTATTTTGAGCCTATGTGTGTATTCAGTATTAAATATCTACTACATAAGTAGGTTACAGTGTCAGTAATGTC
Celera SNP ID:            hCV489848
SNP Position Genomic:     167628
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30391):
TGGACTTCTGGAAATGGGAGTAGCAGTAGGATTTGGCTTGTTTCCTGATCCAAAAGCTGGGACTACATTGGGTATAGTGCCATGGGACTGAATTCACATC
Y
TAGGCTGATGCAAAAAGCATTAATGACTACCCTACATGCACCTGTTGTGTGATCTGAGGATACTGCTGAGATACCTGACATTGCCACGCACATTCTTCTC
Celera SNP ID:            hCV11873963
SNP Position Genomic:     224832
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30392):
GCCTCTTGATTAAGGTGGCCAGATGCCATCTCACTCAGACCACAGCGGCTCCATGTTATCCATTAATACAGTTTGGGAGAGAGAGGATATGCCTGTCCCC
S
CAGAGCTCATCACATCACTAGAGAATTTCCCAGTCCAGAACCCCTTATTACCTCCAGACCAAGACCTCTCTCTCTGGAGTAGTACCAACTGAGCTGAGGG
Celera SNP ID:            hCV27991502
SNP Position Genomic:     213713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30393):
CGGCCACTACACTCCTCACCTTCAAGGCTTGCCTCCTTTGCAAAACTTTTTGAACCACCACTGCACTGTACAGTTGTTAGCAGTTCCTCTCCAAATGCAT
Y
GTTGATGTTGTGAGTTGTCTCCTTTGCTTTACGACCCATTTTGAACTTATTCAAAAATTGCTCATATTTGCTTTTTATCTAACTTCATTCCCATAGTCTA
Celera SNP ID:            hCV11872154
SNP Position Genomic:     21160
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30394):
ATATTACTGTAACATAAACAAATAAAGGTTTATTATCTTACAGAGAAGAATGCAAAATTTGCATAAATTTTGAGAACCAAACAGGCTTTAAGGAAACCAG
S
TTGTGGCAGGAAATTTTGAGCAGGTTACACACTACTCTGTGAGAGATACTGAAAAAAGTTGTGAATCATTCATACATGTTTCATAAATGATTCCTTTCAA
Celera SNP ID:            hCV27948072
SNP Position Genomic:     64537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30395):
GATGACACTTCAAAATGATGATTATTTGATTTTCACTCAGCTCATGAGGCACCCACTTAACGAGCTTTTTCACCTTTTCGATTTGCTTCAAATGCTGAAT
R
ACTGTAGGATGGTCGATGTTGAGTTCTTCGGCAACTTCTTGTGTAGTTCTAAGAGATGATTGCTCACAATTGGTCGTTGTGAACTTCCGATGGTCGGCCA
Celera SNP ID:            hCV11872155
SNP Position Genomic:     20965
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30396):
ATCTTTATTAATCAAAATAGGAACCATTACAATCAACACATTTTCGCCAATGAGAAATGTTTGTTCTTGTTGTGTAAAAATCCATGCTTTGGGATTTGAC
R
AACTCTTGGAAAGAATGTTCTGCATCCTGCTGGTCATGGAAATGTTTTCTCTGCAAAACGTTGTCGAGATGCTTGAAGAAGTGGTAGTTGGTTGGTGAGA
Celera SNP ID:            hCV11872156
SNP Position Genomic:     20347
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30397):
ACTTAAACGTAAAACTATGAAAACCCTGGAAGACAACCTAAGCAGTACCATCCTGGACACAGGAATGGGCAGATTTCATGACAAAGACACCAAAAGCGAT
Y
GCAACAAAAGCAAAAATGGACAAGTTTAATTAAACTTAAGAGGTTCTGCACAACAAAAGAAACTATCAACAGAGTAAACAGACAACCTACAGAATAGGAA
Celera SNP ID:            hCV27919870
SNP Position Genomic:     151261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30398):
TATTCTCTTTCTCAGGGACGTTCCATGCTGAGAATAAGAATTCAGCGATATTTCTCCCATTTGCTTTTGAAAGAAGAGAAATACGGCTCTGTTCTGCCTG
R
CTCACCGGCGGTCAGAGTTTAAGGTTCTCTCTCTTATTCCCTGAACAATTGCTGTTATCCTGTTCTTTTTTCAAGGTGCTCAGATTTCATATTGCTCAAA
Celera SNP ID:            hCV27919871
SNP Position Genomic:     129619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30399):
GCACAAAACAGAATCTCTCTGCATGTGACAGAGTCTCATATCATAAGAATAATGCAACTAACAAGGAAATTAAGTTGTTTTTGTCACATGTAAAATGAGA
R
TAATAAGGCCAGTCCAAAAACTTATAGCAAACTGTAAGAGATTATTGCAAATAAGACAGTGAAGGTTACATCTGATTTAGAAAACATAGATAAACATAAT
Celera SNP ID:            hCV27919872
SNP Position Genomic:     95212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30400):
GAATATTAATTTATCATAAAGCCTTCTTAAATTTACTTTGCTGTAAATTTTTATAAAGAATCTCAGATTGGACTTTTAAAGGCCTCTATTATTTGTATTT
Y
GAGGCTAGGAAGGCAAGCCTAAGAAATACCACATTTCACTTGTAATAACTATAAATTTGGGTGAATTCCTAAGGGTCCTGGGCCTTCCAGGAAGTGGCCT
Celera SNP ID:            hCV27919873
SNP Position Genomic:     94245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30401):
TGGCCTTTAGCTATTGCTATATTTACACCTTAGGTAGTATAACTGGCTGATTGTGTGCTTTATACATACCTTTATCTGTCAAATTAGGGAATTTGGATTC
R
TGTCTCCTGAATTTTGTAGGAGAGTAATTATTGTAGCATGTCTTATAGTTTGGAAAAAATGATTGAATTTAATGTGTTAAACTCACTTCCTAAAAATATA
Celera SNP ID:            hCV27919874
SNP Position Genomic:     66179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30402):
TTTTGTCCATTTGTTCAATATGGGAAGTGGGAGTAGCGGGGAGGATGTCTTTGTGTAGCAGGTGGGAGGCTAATTTTTGGATCAAAGGATATCCTGATAA
Y
ACCGAAGTTTGTGATTCTCAGGCCACAGAGAGAATCAGGATCATTTGTGAAAATTCCTACCTCCTTAATTTTTTATTTTGAAATTTTGAAATCTGCAGAA
Celera SNP ID:            hCV27919875
SNP Position Genomic:     33835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30403):
TTTCAGGTCTTCCTTTTTTGATATAAGCATTTAAAGCTATATATGTGCCTCTAAGCACTCCTTTAACTGTATTCCATAATTTGGTGTGTGTGTCTTTATT
R
TAGTGTAATTCAAAATATTTTCTAATTTTCTTTGTCATTTCATCTTTGACCAATAGATTATTTAGAAATATGTGGTTTCGTTTCCAAATATTGGAAGATT
Celera SNP ID:            hCV459400
SNP Position Genomic:     110541
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30404):
ACCCAGCCTTTATTTTTTCCTCATTTTTGAAGGACAGTTATGCTCAAGATAGAATTCCGTATGTCATCCTACTCACTTCTGGACTCCACAGTTCTGATGA
R
ATATGAGCTGTTCGTCTGATTCAGGATCTCCTGTATTTGACAAGTTGCTTTTCTCTTGCTGCTTTGAATATTATTTCTTTGCCATTGGCTTTGACAGTTT
Celera SNP ID:            hCV27919876
SNP Position Genomic:     23682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30405):
ATTTTTATAAAACTCCACTGACCTAGAAGGTGCTGGATTGAAATGTTAAGAGTAAGGTTGTTACCAAGTAAACATTTTCAGTTTTTATTATTTATTTATT
Y
ATTCATTTTAGACAAGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCTCTGTCATAGCTCACGGCAGCCTCAACCTCCTGGGCTCAAGCGATCCTC
Celera SNP ID:            hCV26413060
SNP Position Genomic:     95584
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30406):
CTCCAGTCCTATACATCTATATTTTTATAAAACTCCACTGACCTAGAAGGTGCTGGATTGAAATGTTAAGAGTAAGGTTGTTACCAAGTAAACATTTTCA
R
TTTTTATTATTTATTTATTCATTCATTTTAGACAAGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCTCTGTCATAGCTCACGGCAGCCTCAACCT
Celera SNP ID:            hCV26413061
SNP Position Genomic:     95564
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30407):
CCACACCCAACTAATTCTGTATTTTTAGTAGAGATGACGTTTCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCACAAGTGATCTGCCTGGCTCAGCCT
M
CCAAAGTGCTAGGATTACAGGCGTGAGTCACTGCACCTGGCCTTGCATATAACTTTTGACTGCCCCGAAATTTAACTACTAATAGCCTGCTGTTGACCAG
Celera SNP ID:            hCV451412
SNP Position Genomic:     169387
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30408):
ATTAGACAAATTAAGAATAAGAAAAACAAGTTTTTAGTTTACCTTCATCACTTCTCCAGTGTGCTTGCTTGTTTCATGTAGAGTTCACTTTCTCCCCTAT
R
TAATTTTCTCTCTGAACAACTTCTTTTAACATTTCTTGCAAGGCAGATCTACTGCTATAGAATCCCCCATTTTTTGTTAGGGAAAATCTTTATTTCTTCT
Celera SNP ID:            hCV451413
SNP Position Genomic:     170378
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30409):
AGGAGACTCAGTAAGACGTTCTTAGTTCTGGGTTAGGGGAGGGTCAGTGAGAATCAGATGTGATTTAGGAATGTTTCATTTTACAAGAGCAAAGTCTACT
Y
AATTGTTAAGAGTTATAGATAGCCTAACAAGGAATACAACTGGCTCCCTTGCATATTAGAAAATGGACATTAAAATAATATTTCAAACAAATTACTATAA
Celera SNP ID:            hCV26413062
SNP Position Genomic:     94712
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30410):
AACCCCTGGCACAATACATTGGCCAGCTTGAGTGAGTCTGGGCACAGCCTTCACAGCCCCAGCAAAGGCACTTCTCCTCCAGATAGCAGCCAAAAGGAAA
Y
ATTGCTGAGCTGCCCCCAGGGTGGCTCTCTCAAGATTGTGGAAGGGCGAACTTAAGAGGATGTTATTTGCAGCTGGGTACACCTAAAACATGTCCCAAGT
Celera SNP ID:            hCV476173
SNP Position Genomic:     207902
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30411):
GCTCACCCTCAGTCTACCTAACTATCATACAATAGCCAGGAAAAGCTTTTTAAAATGCGGATTTCATTATTAGATATTAATTTAAACTTTTTTGGTGAAA
W
TTTTTTTTTTTTGAAACAGAATCTCACTTTGTCACCCAGGTTGGAGTACAGTGGTGCGATCACGGCTCAGTGCAGCCCCAGCCTTCCTGGGCTCAGGTGG
Celera SNP ID:            hCV26413063
SNP Position Genomic:     91565
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30412):
ATGATATGTCTAAGTGCAGTTTTTTTCTGAATTTATCCTGCTTGGTATTTTCTGAGTTTCCTGAATTTATGGCTTTGTGTCTGACTTTAATTTGGGGAAA
W
TTTATGTCATTATTGCTTCAAATAATTCCCTTCCTTTCTCTCTTTTTCTTCTTGTATTACTGCTGCATACGTATCACACCTTTTGTAATTGTCTCACAGT
Celera SNP ID:            hCV451415
SNP Position Genomic:     170816
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,7)   total(A,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30413):
CTCCCGGAGCCTCAGGTGAGGGTGCTCTCTGCCCACTGTTCCAGTGCATGTGGATTTCAGCTTGTTTGCATAACACAGAGGTGGGCACACTATGCTATAA
R
GGGCCAAGATAGTAAATATTTTTAGGCTTTATAGGCCATATATCTCTGTCACATTCCTCAACTCTGCTGTTGTAGTATGAAAGTATCCACAAATAATATA
Celera SNP ID:            hCV476174
SNP Position Genomic:     208540
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,9)   caucasian(A,32|G,6)   total(A,57|G,15)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30414):
AATTGAAGCAGCTCTGAATGGCTTTTCTTGCCCAATGCTATAGTGGGGGCCTCTTTTTGATGATTCCTTTCAAATAGGATTGTTTCTTTTGCTGTTGTTG
Y
TATTTTGTTTGTTTTTGTGACAGGGTCTCATTCTTTAGCCTAGGCTGGAGTGCAGTGGCGCAGTCTCAGCTCACTGCAGCCTGGTCCTCCCTGGCCTCAG
Celera SNP ID:            hCV26413064
SNP Position Genomic:     89202
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30415):
TAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACCTGAGGTCGGGAGTTCCAGACCAGCCTGACCAACGTGGAAAAACCCCATCTTTATTAAAAA
Y
ACAAAATTACCCGGGCATGGTGGCACATGCCTGTAATCTCAACTACTCAGGAGGCTGAGGCAGGAGAGTCACTTGAACCTGGGAGGCGGAGGTTGCAGTG
Celera SNP ID:            hCV476175
SNP Position Genomic:     207265
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,10)   total(C,10|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30416):
AAAGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGAGACAAAATGAGACTCCGTCTCAAAAAAAAAAA
W
AAAAAATAAAATTTAAGAGGCAAAGAAAAAGTTATTATTTAGAAATATGTGGCCTTTTCCATTATTAAGATAATGCTGTGAATTTCCTAGGACATTTAGG
Celera SNP ID:            hCV26413065
SNP Position Genomic:     84584
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30417):
AATTAGCCAGGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGACAGGAGAAAGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCC
R
AGATTGCGCCACTGCACTCCAGCCTGGGAGACAAAATGAGACTCCGTCTCAAAAAAAAAAATAAAAAATAAAATTTAAGAGGCAAAGAAAAAGTTATTAT
Celera SNP ID:            hCV26413066
SNP Position Genomic:     84522
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30418):
ACATGGTGGAACTTTCTGGATTGATGGACATGTTCTATATTTTGATAGAGATTTAGGTTATCTGAGTATATGTACTTAACAGACTTATCAATTGGCATAC
R
TAAGATTAAGTAATTTAAGATTTGTACAGTTGAATGTTTGTAAATTTACCTAGAAAAACACACAAAAGAATTGCAATCAAATACTGAATTTTAGCAAAAA
Celera SNP ID:            hCV310253
SNP Position Genomic:     82913
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30419):
CGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACCTGAGGTCGGGAGTTCCAGACCAGCCTGACCAACGTGGAAAAA
Y
CCCATCTTTATTAAAAACACAAAATTACCCGGGCATGGTGGCACATGCCTGTAATCTCAACTACTCAGGAGGCTGAGGCAGGAGAGTCACTTGAACCTGG
Celera SNP ID:            hCV476176
SNP Position Genomic:     207247
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,11)   total(C,11|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30420):
GTGAGACTCCATCTCAAAAAAAAAAAAAAAAGAAAAGAAAAAAGCAAATCTATAAAATGTTTAGAAGAAAATATAAGCACATATATTCATGACTGTGTAT
S
AGGGATATATTTCTTACATGGACAGTTGTTTTGGAGAGCAATTTGGAATATCCAGTACTTTATGACTCAGTAGTTCAACATCCAAGAAACTTTTTCTACA
Celera SNP ID:            hCV26413067
SNP Position Genomic:     83433
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30421):
TGTTCTATATTTTGATAGAGATTTAGGTTATCTGAGTATATGTACTTAACAGACTTATCAATTGGCATACGTAAGATTAAGTAATTTAAGATTTGTACAG
W
TGAATGTTTGTAAATTTACCTAGAAAAACACACAAAAGAATTGCAATCAAATACTGAATTTTAGCAAAAATAATTTTATAAAATAAGCGAATTTTACAAA
Celera SNP ID:            hCV310254
SNP Position Genomic:     82943
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,6)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30422):
CCAAGGGGAGACGTTTTTTACTTAATTTTTTAGATAGTGAGGACTGAAGATTTTTTTTTTTTTTTTTTAACCTTGAGTGGCTGGAGTGCAGTGGCACGAT
S
TCAGCTCTGCAACCTCTGCCTCTTGGGTTTGAATGATTTTTCTGCCTCAGCCTCCCAAGTAGTTGGGATTACAGCTGCCTGCCATCATGCCTGGCTAATT
Celera SNP ID:            hCV412943
SNP Position Genomic:     64914
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30423):
GGCTTTTGTGATGCAGCTGGTGAAAAAGCTGATGATTATCATTGCCCGCCCAGCACGTCTCCTGGAATGCCTGGTGAGTGGACTCTAGGAAAGTCAGGTG
R
GCAGATTTAGAGGAGGACTATAGAGGAAGTATCCTGATGACAGCAAAACTGTGGTGGTAACCACTGCCATTTCTGTTGCTTAGGTCCTTATTTAAATATG
Celera SNP ID:            hCV25942145
SNP Position Genomic:     221766
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:30424):
AGCGTGAGACTCCATCTCAAAAAAAAAAAAAAAAGAAAAGAAAAAAGCAAATCTATAAAATGTTTAGAAGAAAATATAAGCACATATATTCATGACTGTG
W
ATCAGGGATATATTTCTTACATGGACAGTTGTTTTGGAGAGCAATTTGGAATATCCAGTACTTTATGACTCAGTAGTTCAACATCCAAGAAACTTTTTCT
Celera SNP ID:            hCV26413068
SNP Position Genomic:     83430
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30425):
TGTTTACTAAGATTCTGACAATTACCATAAAGTTGGAAAGTTTAAACGTTGCTTATGGAGTGTGTAAGGAACAGAATCATATCATGAGAACAATCTTTCA
Y
TCTTAAAATCTAAAAGATTATGTATTTTGAGCCATGAATTAAGAAACAGAAGCATCTTTAAACTTGGCTGAAGTTCTACTTTAAAAATGGCAGCCAGTAA
Celera SNP ID:            hCV412944
SNP Position Genomic:     66443
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30426):
AAATATTTTTTTCTCACTAAAATGGAAAGTGAGGTGATTAGCTGAGCCTGAAGAGAGAGGATAAAGTATGATACAGTCTTTTAAAAGGATGGGAGAAAGA
R
TACACTAAGAAGTATGGTCTGATTTCCAGTAGTATGAAGAGCCAAAGTTAGTGATCATACACATAAAGTGAGACTAGTCAGCTTTTCTATATGACTTTCT
Celera SNP ID:            hCV11873970
SNP Position Genomic:     176763
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30427):
AACAGAAGCATCTTTAAACTTGGCTGAAGTTCTACTTTAAAAATGGCAGCCAGTAACCAAAGAAACAATTCTTGAGATCATTAAAGCTTGGATAAAATGA
S
ACTTTTTCATGCTGTGCCCTTTTAGAAGTCTGGGGGAATGGGGAGCGTTTCCTGTGACAGCACTGTAAGTGATAAACAGCTGAATGAATTTGTCCATGCT
Celera SNP ID:            hCV412945
SNP Position Genomic:     66588
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30428):
TGGGGCAGGAAAATCACTTGAACCCAGGAGGTGGAGGTTGCCGCACGCCGAGATTGCACCACTGCGCTCCAGCCTGGGTGACAGAGCGAGACTCCATCTC
A
AAAAAAAAAAAAAAAAAAGGCACCACCAATAACTTTAGTAGGCAAGCCACAGATTAGAACATATTTATAAAACACATATGACAAAGGACTTGTATTTAGA
Celera SNP ID:            hCV26413069
SNP Position Genomic:     81954
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30429):
GTTTTGTTTCTGGAAAGGAAAACGTGACATGGATTTTATAAGCTTAGTAGCTGTAGGTGGAGACTCTTGTTTTGTTTGCTAAACCTTTTTAATAAGCAGC
R
AAGTCAGGATATCAAAGATTGGAATTTTTCCCCCGGAACCTTTTGTTCTTTTCTTAGTACTTCAAATAATTTCAACCAAAGGGGTATGCATGGAAAATGA
Celera SNP ID:            hCV412946
SNP Position Genomic:     67127
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30430):
CAAGGGCTGCAGCAAAAAGACCAATTATGAGACTGTTGTGGTCAAAAAAAGCAAGAAATAATAACAGATTGGAGGGGTGATAGCAGTGGACGATGTGGAG
R
ACTTTCTTATTGGCCATTTTTACAGATACGTGAAGCTCAGTAGCTTCCTCAAGGACAGACAAGTAGGTGTATGGCCAGGCTAGATGTATAGGTTAGGGTA
Celera SNP ID:            hCV412947
SNP Position Genomic:     70061
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,6)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30431):
AAGGCTACAATGTATATTTAACTCTTCAATGCCCAGACACTGACAAATACCCACAAGCGTTAAGACCATTCAGGAAAACATGACATCACCAAACAAACTA
Y
GTAAGGCACCAGGGACCAATCCTGGAGAGATAGAGATACATGACCTTTCAGACAGAGAATTCAAAATACCCATTTTGAGGAAATTCAGAGAAATACAGGA
Celera SNP ID:            hCV11872162
SNP Position Genomic:     18803
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30432):
TTATCCTGCTTGGTATTTTCTGAGTTTCCTGAATTTATGGCTTTGTGTCTGACTTTAATTTGGGGAAATTTTATGTCATTATTGCTTCAAATAATTCCCT
T
CCTTTCTCTCTTTTTCTTCTTGTATTACTGCTGCATACGTATCACACCTTTTGTAATTGTCTCACAGTTCTCGGATGTTCTGGTGTTGGTTTTTTTTTTT
Celera SNP ID:            hCV11873976
SNP Position Genomic:     170848
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30433):
CCTTGACCTGCCCCACTCTGAACTAAAGAAGGAACTGCCGCCCAGGGAAGTGAGCCCTCTGGAGGTAGTTGGAGCCAGGAGTGTGCTGTCTGGCAAGGGG
R
CCCTGCCAGGGAAGGGGGTGCTGCAGCCTGCTCCCTCACGGGCCCTAGGCACCCTCCGGCAGGACCGAGCCGAACGACGGGAGTCGCTGCAGAAGCAAGA
Celera SNP ID:            hCV27471376
SNP Position Genomic:     237093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:30434):
GGTGGCACAGTCACAGCTCAATACAGCCTTGAGCTCTTAGGCTCCCAGATTTTGGCTATTCTAATCTATGCGTAGTTGTATCTCATTTAATTTTCAATTC
C
TGGCGGAGCACGATGGCTCACACTTGTAATCCCAGCACTTTGGGGAGGCCCAGGCAGGCTTTTTTTTTTGAGAGAGAGTCTCACTCTGTCACCCAGGCTG
Celera SNP ID:            hCV11873978
SNP Position Genomic:     169082
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,5)   total(C,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30435):
CTTATTTGGGTAAATAAGGAGCACAATTGCTATATTGAATGGTAAGAGTGTATTTGATTTTGTAAAAAAAAAAAAAAAAAAAACTCTTCAAGCTGGGCGT
R
GTGGCTCACGCCTGTAATCCCACACTTTGGGAGGCCAAGGTGGGCAGATCACTTAAAGTCAGGAGTTCAAGACAAGCCGGGCCAACATGGTGAAATGTCG
Celera SNP ID:            hCV11873979
SNP Position Genomic:     168520
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30436):
GAGGGTAGGACACATGTGATTACAGAGTTTTCCCATCATTGTTCTGGATGTCTCTTGGCCTAAAGATCAATCTGTAAGCCTTTTTTTTTTTTTTTTTTTT
T
AGACGGAGTCTCGCACTGTTGCCCGGGCTGGAGTACAGTGGTACCATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAG
Celera SNP ID:            hCV11872167
SNP Position Genomic:     14837
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30437):
CTCCCAAGTAGCTGGGACCACAGGTGCACGCCGCCACACCCAGCTAATTTTTGTACTTCTTGTAGAGGTGGGGTTTTGCCATGTTGCCCTGGCTGGTCTC
R
AACTCCTGGGCTAAAACTACCTGCCTTCCTCGGCCTTCCGAGGTGCTGAGATTACAGGTGTGAGCCTCTGCACCTGGCCTTTGGTGAATTTTTTCTTACT
Celera SNP ID:            hCV38789
SNP Position Genomic:     91781
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30438):
TGGCAGTCCTTCCCTTCCTGGCTGCTGTTTACCAACTTAATTATTCTTCCTGTTTCATGTTAGATTCTATAATCCAGTATACATCTTACTACTCTTGGCC
R
GGCGCAGTGGCTGATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACCTGAGGTCAGAAGTTTGAGACCAGCCTGGCCAACATGGTGA
Celera SNP ID:            hCV9119650
SNP Position Genomic:     62932
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30439):
CCTGGGCGACAAGAGCGAAACTCCGTCTCCAAAAAAAAAAATCTTACTACTCCTCTCAACTCCTGCTATTATCTTTGTTATTTTCAGCAACCATGTAGAT
K
AATCCATCCAATAATATCCTGGCATAGTTGTTGACCTCATTATCATTTCTAGTCCACTTAGCTCTCTGCCTTGTCATACCTCTGAAATGTTCCTTCACTA
Celera SNP ID:            hCV9119651
SNP Position Genomic:     63282
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30440):
AAAATGTTCAAGTCATGATTACCAATAACCATTCTAACATGATACTGTGATTATAGCAAACTGCTATAATCTTAAACTGAATTGGGAATATTTCTAACCA
G
AACAAAAGATATGATATTCTGTTGAACATTTTATCATCAGTTCTCATGTTGAATATGATGTCATTTTGGGTGCCATATTATTATTGAATTTTGTTGAGAT
Celera SNP ID:            hCV97725
SNP Position Genomic:     37890
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,5)   total(G,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30441):
TAGTGGCTGCAAAGAGGCCCCACTGCTGCTGGCAAGCTCTAACAGCAGGGAAGCTGCTTGGAAAAGAGACTTAGCTTGGACATGGACACAACATGGCCCC
R
GGGGCCTCAGGATTTTAGGAGATACCCTGTGATCTCTGTGACAAAACAGTCTTTACTTTGGAACTGCTGTTCACATCTGCCTGATAGATCCCAACCTGGA
Celera SNP ID:            hCV29103797
SNP Position Genomic:     224238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30442):
TAAATGGAGAAGTACTATGTTCATGTATTATAAGACTTGATATTTTGAGATATCACTTCTTTCCAAATTGATGTATAATCCCAGCAGGCTTTTTTTTTTT
T
GGTAAAAATTAATAATTGGATTCAAAAATTCAAATCGAAATGCAAGAATCTAGAATATCTAAAGCAATCTTGGAAAATAATAAAGTTAAAGGACTGTACA
Celera SNP ID:            hCV26413070
SNP Position Genomic:     81323
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30443):
CCAACTCACCATCTGTGACCAGACAGGTTCACTAAGCAGCTCTCCAAGCACCTGCCTAACTCCCTTGGGTCCTAAGGTTAAGTAAGAGGATCCTGAGTTA
R
ATGAAACTCTCTCTCACTTAACAAACTTCCCGGTTTAGAAACCAGCAGTGCCCATACACTAAGTTTACACAGTTGGGAGGTCCAGTGGAAGAACAGAGGA
Celera SNP ID:            hCV29103798
SNP Position Genomic:     212223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30444):
TAGTTTTTAGAGAATAGCATCTTATCACTTAGCTTTAGAGCTTCGCTACTGGTGGGTTAGATTAGAAAAATGCAGTTTCTTCTTCCTATTTTTTTTTTTT
T
CTCTTTTTTGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTCCAGTAGCATGATCTTGGCTCACTGCAACCTTCACCTCTGGTCTCAAGCGATCCTC
Celera SNP ID:            hCV26413071
SNP Position Genomic:     75583
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30445):
AAGTAGTCTTATCTCATTTTGTTTCTGTAACATATTGTTTGATCCATTCCTGGTCATATAAAGTAGATGCTGAATAAATATTTGCTGAATGAAAGGATGA
R
TCAGTGTTTTAGCACTTTCAACTTTCTGTGTTCATTTGTATTTCATTTTTGCTTTTAAGTTGCATGTTATTGAAGGTAAGAACTATGTCATCATTTTGTC
Celera SNP ID:            hCV461045
SNP Position Genomic:     12367
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30446):
GGTAGTTTTTTTATTTGTTTTGTTCCCAAGAATATGCTGGGGCACACCCAACCCTATTGACCAAAACTAAGAAGACACAGAGAATCCTACTCCAGGGGAG
K
TTATCCTGGGAAAGCCACCAGTGAGCTTAGGAGTAGGTCCCTTTCTAGGTCTTTCTAGCCTAGAAGAGGTCTTTGTGAAAACCAAGCCTAGCTCCATATA
Celera SNP ID:            hCV29103799
SNP Position Genomic:     210062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30447):
CATTTATTATGATTAATGATATATTTGGACTTGTTTGTGCCATATTATTTTTTGTATTCCATATCCTACATCTCTATGCCTTACTGTCCCCTTTTTTTTT
T
ACCCTTTAAAAATATTGGTAGAGTTTTTTTTCTTATTTTCTTTTTCTATTTCTACTGGTGTGTTAGAACAAATTCAAACTTTAACCCCCTCCTGAACACT
Celera SNP ID:            hCV26413072
SNP Position Genomic:     73611
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30448):
CCCGCCCATATTTTCTTTATCTAGTCCACTGTTGATGGGCACCTAGGTTGATCCCATGTCTTTACTATTGTGAATAGTGCTGTGATTAACATGTGAGTAC
R
TGTGTCTTTTTGGTAGAATGATTTGTTTTCTTTTGTATATTTACCCAGTAATAGGATTGCTGGGTTGAATGGTAGTTCAGTTTTAGGCTCTTTGAGAAGT
Celera SNP ID:            hCV108478
SNP Position Genomic:     52301
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30449):
ATCTTGAGGTAGTTTTGGTAAGGTATATGTTTTTAAGAGTTTGTCCATTTTGTTTATTTTGTTATTTATTGAGATCAATTTGTTTATATATATATATATA
W
AAATTTTTGTTCTTTTAAACCTTTGCTGATTTGTTCTTCTGTTTCTCTTTGTATTTCTAATATTGGGTATTAAGACTCTTTTTTTTCATTATCAAGTATC
Celera SNP ID:            hCV26413073
SNP Position Genomic:     72914
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3|T,3)   total(A,2|T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30450):
TATAGAGGTCAGCAAAAAGATCTGGGATAGAGATACAAATTTGAGATTGTAAAATATATAGAGAAAGGAGAGTGTACAAGCAGAACTAAAAGGACAGTCC
Y
CATTTAAGGGTCTAAGGTGATGAAGGATGAGCCTGCAAAGATGTTTAAATGGTGTGTTTGCGGGGATAAGAGGAAAAACAAGAGAATGTGGCTTCATGGC
Celera SNP ID:            hCV412950
SNP Position Genomic:     78332
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30451):
GAAGATCTCTGTTCCTGTGATTCTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTTGAGACAGAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCA
R
TGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCAGCCTCAGCCTCCTGAGTAGTTGGGATCACAGGTTCCTGCCACCAT
Celera SNP ID:            hCV26413074
SNP Position Genomic:     72363
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30452):
GTACTGATCTGGAGTCCTGGGCATCAAATGCAGGCTTTTGTATAGGTGTAAGGAAGTCGGAAGGGATGGATTTCCACGGATGCGCTTCCGTGCCTCTAAA
R
GAATGCAGAGAGGGGCATATATGCATTTTAGGAAATTTTATTATTGTTAGCCAAAACTGTAGTCTACCATATTACCCATTTAAACTATTCAAGAAGTCAG
Celera SNP ID:            hCV412951
SNP Position Genomic:     79226
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30453):
CTGTTGTTTCCATGATATGGCGTGTCTTGAATGCCAAGGGGAGACGTTTTTTACTTAATTTTTTAGATAGTGAGGACTGAAGATTTTTTTTTTTTTTTTT
T
AACCTTGAGTGGCTGGAGTGCAGTGGCACGATCTCAGCTCTGCAACCTCTGCCTCTTGGGTTTGAATGATTTTTCTGCCTCAGCCTCCCAAGTAGTTGGG
Celera SNP ID:            hCV26413075
SNP Position Genomic:     64881
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30454):
TTTTGCCCGTAGGGAGCTCCTTGTGTTTGCTTGGGAAATAAAACTAAACATTGGAAAAGCACAGTGGCAATACAAGATGAAAGTCAAGGCAGTGAAAAAA
K
TTATTCCAAGGAGGAACACAGTGCTTTATGGAATCTAACTGGTGCCGAGTGTAATTGCTGACCCAGTTCAGTTTAAAGAAGTATACTGTGCGGCCCGTGA
Celera SNP ID:            hCV102660
SNP Position Genomic:     161252
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30455):
GAGTCGAAAAAGTTTTGTTCTGGAAGGAAGCAAGGAAACATGGGTACTAATATAGGCTTTGCCACTAACAAATTATGTGTGGCTTTAAAACAGGAGCTCC
Y
ACTTCTGGACCTGAATTGCCATACTTGTAAAATGAAGGGATTGGCTACCTGATCTCTATGCTTAGTCATCTCCCCAAACAGTTAAAGTTCCATGGTACCT
Celera SNP ID:            hCV412952
SNP Position Genomic:     87208
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30456):
GACTACAGGCACAAAAAGTGCCATCACACCCAGCTAATTGTTGTATTTTTAATAGAGATGTGGTTTCACCATGTTGGCCAGGCTAGTCTCAAACTCCTGG
S
CTCAAGTGATCCGCCAGCCTTTGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCTGGCCCTTGAGCTGGGTTTTGAAGAATGAATAGGAG
Celera SNP ID:            hCV26413076
SNP Position Genomic:     61710
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30457):
GGGTTTAAATTTTAAATTTTAAATTGAATTGTCTAGGCTGGGTGTGGTGGTTCACACCTGTAATCCGAGCACTTTGAGAGACTAAGGCAGGAGGATCGCT
W
GAGTTCAGGAGTTTGAGAACAGCCTGGGCAACATAGTGAGACCCTGTCTCTACAGAAAAATTTTAAAAATCAAAAAATTTTGTATTGTCCAGGAATTTTC
Celera SNP ID:            hCV412953
SNP Position Genomic:     88421
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4)   total(A,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30458):
TGGATGGGGCACCACTGTGATGGGCCTGATGAGTCTCTGAGACTGCTGCAGGACTTGGATTTTGTAACTAAAGTTAGTTCTTATTTTTATACTTTAAGTT
Y
TAGGGTACATGTGCACAATGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTTGTCATTTACATTAGGTATATCT
Celera SNP ID:            hCV26413077
SNP Position Genomic:     60009
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30459):
GGTCTCATTCTTTAGCCTAGGCTGGAGTGCAGTGGCGCAGTCTCAGCTCACTGCAGCCTGGTCCTCCCTGGCCTCAGGAGATCTTCCCATCACAGCCTCC
Y
GAGTAGCTGGCACCACAGGCACCTGCCACCACATCTGGCTAATTTTTGTATTTTTTGTAGAGATGGGGTTTCACTATGTTACTCAGGCTGGTCTGGAACT
Celera SNP ID:            hCV412955
SNP Position Genomic:     89326
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30460):
ATGTATTCTAAATATAAATTCCTTGTTGGATATGTGGTTTGCAAATAACTTTTTTATTCTTTTTAACAGAGTGTTTTGCATAACACATTTATTAATTTTT
W
AAAAATTATTATTGTTTTTTTTTGAGTCAGAGTCTCTGTCACCTAGGCCATAGTGCAGTGGCTCGATCTCAGCTCACGGCAACCTCTACCTCCTGGGTTC
Celera SNP ID:            hCV26413078
SNP Position Genomic:     55733
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30461):
AGTTCCTGGGCCCCAGGGATGTGATGTGTCAAACTTTGTTCCTATGAAACTGACAGTGTCATGTACTTTCCCATTCTGATGCAACTTGATGCCTGGATCA
R
TGCTTCTGGAAAATGTGCTAAAAAGAGATACCACCTGCTGCATACACATAATAAACCCTTTGTTGAGGTATCAGTGGCGTCTGATATAGGGCTTTAGGTT
Celera SNP ID:            hCV412956
SNP Position Genomic:     90034
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30462):
CCTAAAACTATAAACTTTTAAAAGTTTTGTATGTATTCTAAATATAAATTCCTTGTTGGATATGTGGTTTGCAAATAACTTTTTTATTCTTTTTAACAGA
G
TGTTTTGCATAACACATTTATTAATTTTTTAAAAATTATTATTGTTTTTTTTTGAGTCAGAGTCTCTGTCACCTAGGCCATAGTGCAGTGGCTCGATCTC
Celera SNP ID:            hCV26413079
SNP Position Genomic:     55703
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30463):
AGAGTGATAGCTTTGTGTTACATTTAAGACCCTGTCTTTTAAAAGTTGGTGGGAAGTAATTTCATATAGATTCTCTAAGTGTCCAATGGGAAGGCAGGAC
R
TAGCAGAGGTTGGGAGGGAAGTAGCCATAGTCATCACTCATATCCCTACAGGGAACCAGTTTGTTGTTAAAAAATGGATGTAGTTGTTGGCGAGCTTTAC
Celera SNP ID:            hCV412957
SNP Position Genomic:     90291
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30464):
AGGGTCTGGCTATGTTGCCTAGGCTGGGGTGCATTCGCGCAATCACAGCTCACTGCAGCCTTGAACTGGGCTCAAGCAGTACTCCTACCTTAGCCCCCCC
R
AGTAGCTGGGACTATAGACACATGCCACCATACCCAGCTAATTTTTGTATTTTTTGTAAAGATGGGATTTTGCCATATTGCCCAAGCTGGTCTCAAACTC
Celera SNP ID:            hCV412959
SNP Position Genomic:     106642
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30465):
GCAATATAATTTTTATTTATTTGCCTCCCTTGAGTGTGAGCTTCTTGAAGAAGACAGTTCTGAAGATACAGGGCTTGGTACACAGCAAACTTGTAATTAA
Y
GTTTGAGGTCAGGCATGGGTGGCTCACATCTGTAATCCAATGCTTTGGGAGGCTGAGGTGGGGGGATTGCTTGAGGCCAGGAGTTCAAGACCAGCCTGGG
Celera SNP ID:            hCV11873984
SNP Position Genomic:     58551
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30466):
CCATCCCTCCTGAAGGTTGCTGGAAGGCCCAGCACCTCCACACCCAGGCACTAACAGCACTTTCTCCCAGCACTTCGGGACTCACCCCCACCAGCAGTTG
Y
TCTCCTCCCAGCTCCACCTCTGGGAAGCTGAGCATGTGGTCCTGGAAATCCCTTATTGAGGGCCCAGACAGGGCATCCCCAAGCAGAAAGGCAACCATGG
Celera SNP ID:            hCV25960516
SNP Position Genomic:     237635
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,38)   total(C,67|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:30467):
GGGACTACAGGCATGGGCCACGATGCCTGGCTAATTTTTATTTTTATTTATTTTTAAACTTTTATTTATTTATTTTTTGAGACAGAGTTTCACTCTTGCT
S
CCCAGGCTGGAGTGCAGTGACTCACTGCAACCTCCGACTCCCAGGTTCAAGTGATTCTCCTGCTTCAGTTTCCTGAGTAGCTGGGATTACAGGCGCCTGC
Celera SNP ID:            hCV11873986
SNP Position Genomic:     46716
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30468):
TTCAAGGAGAGTTGCCATCAGACTTGGAGGAAAACTTTACCTTAGAGCAAAGACTTTTCTCCTAGTTCCTCTGATGCCTGCTGCCCTTGCGGGGAATTCT
R
ACTACCTGCTTCTGTGGAAATACATTCATTTGTTCAATAAACACTTGTCGAAAACCTCCTATGCCCTGTGTACTATTTCTAGGTGATTGGGATACCTCTT
Celera SNP ID:            hCV11851120
SNP Position Genomic:     155409
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30469):
ACAAAGTGGGAGGGAATTCATCACAGAGCAGCTCCCCCAGCTCCAGCGTGCCCAGTTCCCCAGCCGGCTCTGGGCACACACGGCCCAGCTCCCTCCACGG
K
CTGGCACCCAAGCTCCAACGCCAGTACCGCTCTCCACGGCGCAAGTCAGCAGGCAGCATCCCACTGTCACCACTGGCCCACACCCCTTCTCCCCCACCCC
Celera SNP ID:            hCV25940991
SNP Position Genomic:     236669
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,24)   caucasian(G,1|T,15)   total(G,3|T,39)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30470):
CCCTAAAACTATAAACTTTTAAAAGTTTTGTATGTATTCTAAATATAAATTCCTTGTTGGATATGTGGTTTGCAAATAACTTTTTTATTCTTTTTAACAG
A
GTGTTTTGCATAACACATTTATTAATTTTTTAAAAATTATTATTGTTTTTTTTTGAGTCAGAGTCTCTGTCACCTAGGCCATAGTGCAGTGGCTCGATCT
Celera SNP ID:            hCV26413080
SNP Position Genomic:     55702
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30471):
GCACAGGAGCTGAGCTTGGCACCTCACCCAGAAGTGAGCCAGAGTGTGGCCCCTAAAGGAGCAGGAGAGAGTGGGGAAGAGGATCCTTTCCCGTCCAGAG
R
CCCTAGGAGCCTGGGCCCAATGGTCCCAAGCCTATTGACAGGGATCACACTGGGGCCTCCCAGAATGGAAAGTCCCAGTGGTCCCCACAGGAGGCTCGGG
Celera SNP ID:            hCV12111039
SNP Position Genomic:     237358
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,34|G,4)   total(A,70|G,6)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,32|G,4)   total(A,63|G,5)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:30472):
TGACAAAAACAAGTAATGATACTGGGATAACTGGCTAGCCATATGCAGAAGATTAAAGCTGGACCCCCTCTTTTCTTTTTTTTTTTTTGAGATGGAGTCT
Y
TCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTAGGCTCACTGCAAGCTCCACCTCCCAGGTTCACACCATTCTCCTGCCTCAGCCTCTGGAGTAG
Celera SNP ID:            hCV26413081
SNP Position Genomic:     51938
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30473):
TAAAATTCGTATGGAACCAAAAAAGAGCTTGAATAGCCAAGGCAGTCCTAAGCAAAGAGAACAAAACTGGGGGCCTCACGTTACCCAACTTCAAACTGTA
S
TATAGGGATACAGTAACCAAAACAGCATGTTACTGGTACAAAAGGCACATAGATCAATGGAACTTTATTTCCGGCAGAAATAAAGCTGCACACCTATGAC
Celera SNP ID:            hCV26413082
SNP Position Genomic:     51717
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30474):
CCCAAAAGCTCCTTCAACTGATAAACAAATTCAGCAAAGTTTCAGGACACCAAATTAACATACAAAAAACCACTAGCATTCCTATCCACCAACAACAGCC
M
AGCTGGGAGCCAAATCAGGAAGGCAATCCCATTCACAATTACCACAAAAAGAATACAATACCTAGGAATACTGCTAACCAGGGAGGTGCAAGATTTCTAC
Celera SNP ID:            hCV26413083
SNP Position Genomic:     51326
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,6)   total(A,6|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30475):
TGATGTTTGTCACTGTGAATATAAAGACACATCAGCCAGCATGATTCTGGGTTTTTCTTCAGTCACTCTAAGTTCCCAGGTGCAGTTGCAAAATAGATGG
R
AAGCTTGGTTGTAAAGGGTTGGGATTTCGCCAGGACTTTGGTGTCCTTGGGAGGTAGCAACGTTTCATTTGGAGCTAGAATTTAAAGCAGACACTCAGAA
Celera SNP ID:            hCV231029
SNP Position Genomic:     159943
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30476):
CGCCACCGCATCTGGCTAATTTTTTTGTATTTTTAGTAGAGACTGGATTTCACCATGTTTGTCAGGCTGGTCTCGAACTCCTGACTTCAAGTGATCTGCC
Y
GTCTTGGCCTCCCAAAGTGCTGGGATTATAGGCATGTTTAATCTTTTAAAAAATGAAAGAGCCGGCTGTGCGCGGTGGCTCACGCCTATAATCTCAGCAC
Celera SNP ID:            hCV412960
SNP Position Genomic:     107484
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30477):
TAGGCAAGAGGGTGCCTGTGTGAGCAGCTCCATTAAAAACTTTGGACACTGAGTCTTTGGTGAGCTTTCCTGGTAGACAACATTTCATGGATATAGTTAC
Y
AGGTGTTGCTGGAAGAAATAAGTGTGTCTTATGTGACTTCACTGGGAGCGAACTCTGGGAAGCTTGTGCTTGGTTTCCTCCAGACTTTGCCTCATGCACC
Celera SNP ID:            hCV26413084
SNP Position Genomic:     50880
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30478):
GATAGATAATGTTAGACAGTGAAGTATTCAACTTAGATAAGAACTGTAGGAGTTTAGATAAAGTGCATTCACTTGAGAATTGCTGTCCTTTTCACTCTTA
S
TTTTTCTTTTTGTAAGAGGAACTTGTTTCTAATGCCATCTAGTGTCTTTTGAAGGGTATATGAGTAATGTTAAGAGGTTTTAAAATAAAAGTTTTGAAAT
Celera SNP ID:            hCV26413085
SNP Position Genomic:     46131
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30479):
TTTCAGATAAGGAGTTTTGTCTTCGGATGGTCTGCTTGATTGCCACTAGGTGATCGTTGTATTCTTCTGTGTCGAACTCCCAGGCTCAAGTGATCCACCC
R
CTTTGGCCTCCCTAAGTACTGGGATTATAGGAATGAGCCACTGTACCTGGCTGTTACTTTTATCTGAAATTGAGAATACAGGAAAAGGAACAGGTTTGGG
Celera SNP ID:            hCV26413086
SNP Position Genomic:     44520
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30480):
TGCAGTGAGCTGAGATCGCGCCACTGCACTGCAGCCTGGGAGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAATGCCAAACTTAGATTTAGGATACTA
Y
CCCTAACCCCCATCAAATGGTAACTGGTAAGTGTATGTTTAAGTTTCTAAAAAATTGCCACATAATTTTCCAAAATGTTTATACTGTTGTACTTTCCTAC
Celera SNP ID:            hCV412962
SNP Position Genomic:     107865
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30481):
CTTTTTTATGTTTAAATGCACAAATACTTACCATTGTGTTACAGTTGCTTACAGTATTCAATGCAGTAACATGCTATACAGGTTTGCGGCCTGGAAGCAG
Y
CTATAGGCTATACAATACCATATAGCCTATGTGTGTGGTAGGCTATACCATCTAGGTTTATGCAGGTATACTCCATGATGTTCACATAATGATGAAATCG
Celera SNP ID:            hCV412963
SNP Position Genomic:     109067
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30482):
CAAGCAAAAATGGATGAGTGTACCCTCCTAGAGATTTTGATCCAGATGTCTGGGGTTAGTCACAAGCATCTGTGTTTTCTTTTCTTTTCTTTCTTTCTTT
Y
TTTTTTTTTGAGACAGGTTCTCCCTCTGTTGTCCAGTCTGGAGTGCAGTGTCATGATCTTAGCTCACTGCACCCTCTGCTTCCTGGGTTCAAGTAATTCT
Celera SNP ID:            hCV26413087
SNP Position Genomic:     34695
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30483):
TATTTTATTCGTTATGTGGTTATTGTCATTGGGATTTCATTCTGGATTTGACCCTCAGCTTGGACGTCATTGGAGTGTAGAATCACTACTGATTTTTGTA
Y
GTTGATTTTGTATCCTGAAACTTTGCTGAAGTTTATCAGATCTAGGAACCTTTGGGCAGAGGCTGTGGGGTTTTCTAGGTATATAGAATGGTAATTGTCT
Celera SNP ID:            hCV49438
SNP Position Genomic:     138287
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30484):
GCATGGCAGAGTGCTAGAACTCTTAGGAGGTAAAAAAGTTCAAACCTCACATTTTACACGATGGGAAAATTTGAGTCCAAAACAAGTTAAATGGTTTGTT
S
AGGTTGAGGAAAATAGCCCTTCTCCCATTTCTTTCTGTCTTCCTTTTCTTATATTCAACATTATTTGATTACGTACTATCTGCTAGGACACTGTTTTGGG
Celera SNP ID:            hCV412964
SNP Position Genomic:     119962
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30485):
ACAGACTAATTACGATACCTCATCCTTAAGTATTTCTCCTAAGGTGAAGGATACTCTCCTAAATAACTACAATATATGACCAGATCTAAGAAGTTTAATA
S
TTTTTTTTTTTTTTTTGAGCCTGAGTCTCGCTCTGTCACCCAGGCTGGAGTGTAGTGGTGTGATCTTGGCTCACTGCAACCTCTGTCTCCTGGGTTCAAA
Celera SNP ID:            hCV26413088
SNP Position Genomic:     34167
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30486):
AGGAAGACTCATATCATGAAGATGTAAATTTTCTCCATTAAGCTATAGATTTAATGCAGTCCCGATCAAAACCCAGGTAGTATTTTTCAGAAAATATCAA
R
CTGATTTCAAATGTATATTGAAATGTAAAGGACCTAGAATAACCAAAACAATATTAAAAAGAAGACCAAAGTTAGAGGAATCAAACTTATTTTATGACTT
Celera SNP ID:            hCV11873990
SNP Position Genomic:     42058
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30487):
TTGGTAGAGACAGGGTTTCACCATATTGACCAGGCTGATCTCAGACTCCTGACCTCAGGTTATCCACCCGCCTCGGCCTCCCAAAGCACTGGGATTACAG
R
CATGAGCCACCACTACTGGCCAGGACTTTTGTTTTTATGCTGGGTGAGATAAGTAGCCACTGGAAGGTTTAAATAAGAATGTCATGATCTGACGTAGATC
Celera SNP ID:            hCV412965
SNP Position Genomic:     120767
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30488):
TGCACATTTGCAGAATGAAGGAAAGAAGGCAGGCAGGCTCTACTCTGGGCTTATGGAAGTTTTGAGCAGAACACCATCATCATCATCATTATTTTTTTTT
T
ATGGAGGGCTTTATGGAAAGACTTTCCAGTAAAAGGTACATTTGAGACTTGAAAACTTAACTAGATTTTAAAAGTATATTGTAATTTTCTAGTAAAACAT
Celera SNP ID:            hCV26413089
SNP Position Genomic:     30055
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30489):
TAGAGACGGGGTTTTGCCATGTTGGCCAGGCTCTTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTAGGCTTTCCAAAGTGCTGGGATTACAGGTGT
S
AGCCAATGCGCCCAGTCAGCTATTTTTATATATATACATTCTATGATCAAATGTCTGTTCAAAACTTTTGTCTATTTAAAAAAAAATTTTTTTTGTCTTA
Celera SNP ID:            hCV11873991
SNP Position Genomic:     40890
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30490):
CTTTCTCATGTTTGGGATTCTTAGAGATTCTTAGATTTGTGATGTTACAAGAAAAACTTGGGACTGCAACGTCCCATCTAAACTGGGAAGGAGCCATGAG
A
CCAAAGAATGACTCAGACAAATTTAACTTGATGAGTAGACGAGTTTATTCAACTTACATACAAGGCACTCCTGGACGGCAGCAGGACAGCTCTAGAGATC
Celera SNP ID:            hCV11850765
SNP Position Genomic:     197516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30491):
TTTTTTGTTTTTAAGGTGCAAGGGTAAATCTGATCTCTGATTCCCCATAATGATGAGAAGCAGAAGTCTAGTCTTGCTAATATTTTGAGCTCATGCTTCT
R
TCATTAGTTGTTCTTATTGCTTTATGAGATTATTGGTTGACTGATTCACGTTGCATAAGCCCAATAGAAGCAGATTATTTTAAAATTATTTTATCTTCCT
Celera SNP ID:            hCV412968
SNP Position Genomic:     122648
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30492):
CAGTTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGATTACAGGCGACCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCAC
R
TTGGTCAGGCTGGTCTCAAACCCCTGACCTCGTGATTCACCCACCTCGGACTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCCAGCCTATGT
Celera SNP ID:            hCV412969
SNP Position Genomic:     123249
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30493):
GCCTCCCAGGCTCAAGTGATTCTCCAGCTTCAGCCTCCCCAGTAGCTGGGATTGCAGGCGTCCGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGA
K
ACGGGGTTTCACCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCC
Celera SNP ID:            hCV518426
SNP Position Genomic:     10119
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30494):
TAATAATTTATGATTTTAAAAAGGCCAAAATTTTCATTGTATGTGTCGAGACTGGTTGAATTCTATTTATTTGGGTAGTAAGAGCCCAGCTGATCAGCAA
R
CATCTACATCTCACACGTAACTTTTTTTTCCCTTTCTCATGACATGGAACAGTGCTTGTTACAGTTTTTATTATACTAGTATTTAAGAATACGTTCTAAT
Celera SNP ID:            hCV518427
SNP Position Genomic:     10385
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30495):
ATAAGCCAATACCTCCAGGCGCGTATTCTCTTTCTCAGGGACGTTCCATGCTGAGAATAAGAATTCAGCGATATTTCTCCCATTTGCTTTTGAAAGAAGA
S
AAATACGGCTCTGTTCTGCCTGGCTCACCGGCGGTCAGAGTTTAAGGTTCTCTCTCTTATTCCCTGAACAATTGCTGTTATCCTGTTCTTTTTTCAAGGT
Celera SNP ID:            hCV9119819
SNP Position Genomic:     129596
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|G,8)      total(G,8|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30496):
AATTGAAATGCCAAGTCTCACTCCAAGTAGCCAAGTGACTGGGATGATTTAACACCAGTCTTTGCATGAGGTAGCTCCGGGGGCTTCCAGGCTACCACCC
R
TCCGCTGAGAGTTAGTGTACCCAACTCTGCAGATATCCAGTACTTCATCTTACTGGAATGAAAGAATTAAGACTTGCCCTTTATCTTCTTAGGATCCTGG
Celera SNP ID:            hCV231030
SNP Position Genomic:     156609
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30497):
AAGTTATGGAGAGGAAACCTGGCCAGCTCTCTATCGGGTAAATATCTGATTTTGTTGTTTTAAGAAATGTGGGACCATGTGGTCAATATTTAAGTGTATA
T
TAATTGAATTGGCATCTTGACAGTTTCTTCTCTGGTAGTAGTCTTGTATAGAACATTTATGGTAAGGCTGTCTTCCTCTCCTTACTTCTTCCTCATGGAA
Celera SNP ID:            hCV26413090
SNP Position Genomic:     27030
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30498):
TATGTGGAATAGGAGTGGTGAGAGTGGGCATTCTTGTTTTGTTCCAGTTCTCAAGGGGACCGTGTTTTTTGCCCAGCATGATGTTACCTGCAGGTTTGTC
R
TAGACGGCTCTTATTATTTTGAGGTATGTTCCTTTGATGCTTAGTTTGTTGAGGTACTTGATTGTCTGATCATTTTTTCCTCTGTGTAACTAATCTCCTT
Celera SNP ID:            hCV49440
SNP Position Genomic:     138551
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30499):
TAAGTTATGGAGAGGAAACCTGGCCAGCTCTCTATCGGGTAAATATCTGATTTTGTTGTTTTAAGAAATGTGGGACCATGTGGTCAATATTTAAGTGTAT
A
TTAATTGAATTGGCATCTTGACAGTTTCTTCTCTGGTAGTAGTCTTGTATAGAACATTTATGGTAAGGCTGTCTTCCTCTCCTTACTTCTTCCTCATGGA
Celera SNP ID:            hCV26413091
SNP Position Genomic:     27029
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30500):
ACTTCACTCTTCTTTTTATGTTTGGGCATTTGTAAATCATGTTTTGGATAGTCACCACCAACCAATATTAGTACTTACCCATTTTTTTGAACTCACTAAT
S
ACAATATATAACTGTATAGAATTTTTTTCTTTTTTTTTTTTTTAATCTTAGAGAACTGGAAATTTCCTCCTTTTTTGCCCCTTGTGGCTTTTAGTATTGC
Celera SNP ID:            hCV26413092
SNP Position Genomic:     25562
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30501):
GCTACCATGCCTGGCTAATTTTTTTTTTTTTTTTTTAATTTGTAGAGATGGAGTCTTGCTATGTTGCCCAGACTGGTCTCGAACTCCTGGGCTCAAGTGA
Y
CCTCCTCCCTCAGCCTTCCAAAGTGTTGGAATTAAAAGGGTGAGCCACTATGCCTGGCCTTTATGTGAATATTATATAAATGGAACCATATAGTATATAA
Celera SNP ID:            hCV444226
SNP Position Genomic:     54991
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30502):
CTTTATTTTTTCCTCATTTTTGAAGGACAGTTATGCTCAAGATAGAATTCCGTATGTCATCCTACTCACTTCTGGACTCCACAGTTCTGATGAGATATGA
R
CTGTTCGTCTGATTCAGGATCTCCTGTATTTGACAAGTTGCTTTTCTCTTGCTGCTTTGAATATTATTTCTTTGCCATTGGCTTTGACAGTTTGGTTATC
Celera SNP ID:            hCV26413093
SNP Position Genomic:     23689
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30503):
ACCGCAATTACGTTTGTACCAACCTAGTAGTACTGGAAGTCTTAACTATGGTAATTAGACAAGAAAAAGAAATAAAGGGTATCCAAATTGGAAAAGAAGT
M
AAATTATCCTTGTTTGCAGATGATTTGATCTTATATTTGGCAAAAGCTTAAAGACTTCACCAAAAAACTATTAGAACTGATAAATTTAGTAAAGTTGCAG
Celera SNP ID:            hCV26413094
SNP Position Genomic:     21805
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30504):
GAGAGGAGGTCCTGGAGTGGGTGGCTCCTTTCTGCAGGCAGGTGGTCCCATTATCTCCCTATGGTCCCTCCCTCCTCTCCCCAAGCCTGGCTGAGTCCAG
S
GGCTTTTATGGGCCTCAGAGGGGAGGAAGTGCATGCTGGTTGGTCCATGGGCGGCCATGGGTGGGCCCAGGGAAAAGCACCACAAGTTGCCCTTGCGGTT
Celera SNP ID:            hCV412970
SNP Position Genomic:     124208
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30505):
GTGTGGTTTTGCAGTCATGGCTCACTGCAGCCTCCATCTCCCAGTCTCAGGTGATCCTCCTGCCTCAGCCTTCCGAGTAGCTGGGATCACAGGCACAAGC
Y
ACCATGCCTGGCTAATTTTTTTTTTTTTTTTTTAATTTGTAGAGATGGAGTCTTGCTATGTTGCCCAGACTGGTCTCGAACTCCTGGGCTCAAGTGACCC
Celera SNP ID:            hCV444228
SNP Position Genomic:     54893
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30506):
TTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGTAGTGCAGTGGCGTAATGGCTCCCTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGGCT
Y
AGCCTCCCAAGTAGCTGGGATTACAGGTGTGTGCCACCACACCTGGCTAATTTTTTTGTTTTTTAGTAGAGACGGGGTTTCACCGTGTCAACCAGGATGG
Celera SNP ID:            hCV26413095
SNP Position Genomic:     19185
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30507):
ACCACAAGTTGCCCTTGCGGTTTCTGGGACTGGCGACCCATCCCCCAGGCTTCAGGCTTTCCCTGGCTTGGAGGTGGGTCTTCACTGTGGACCAGCTTCT
Y
TCCACCCAGGAGCCTGTCTGCCTCCTGCTGCTGTTCATGGTGACCAGGCTGTTCATGCTAAGGGGTGCCTGCAGGCCAGCACTGGGCTGTCCTCAGTGCA
Celera SNP ID:            hCV412971
SNP Position Genomic:     124387
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30508):
TGAAAATGACATTTGTACAATATCATTAACTAGATTATAGCCCTTATTTGGTCTTTATATACACTTGTATATGTTTGTGTGTGTATGTACAAGTCATGCA
R
TCTCATCCCATGAATAGATTTGTGTAATGGCCACCACCACAATCAACATACAGAACCGTGCTGTCATTACAAAGGAATTCGCTTGGGCTGCCCTTTTATA
Celera SNP ID:            hCV444229
SNP Position Genomic:     54572
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30509):
GGAAATCAGAATCCCCTAAGGTAACTTCAGCAAAGAAATGGAAATAATTAAAAAGAACCAAGCTGAAATTTTGGAGTTGAAAAATGCAGTTGATATACTA
A
GGAATGCATCAGAGTCCTTTAATAGCAGAACTGATTAAGCAGAAGAAAGAATTTATTTATTTATTTATTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAG
Celera SNP ID:            hCV26413096
SNP Position Genomic:     19016
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30510):
TTAGAGTTGCATATTTAGTTGGTAAAGCTATAAGGAAATGATTATCATAATATTGACTTTAGATGGGGTAAAGGGAGGGGTTTTGATCAGGAGGGATTAT
K
TGGAGGGATTTTGGAAGATGGCATTGTTAAACCTAGATGGTGTTTACACAGGTGCTTGCTATATAATTATATTCCTTTATAACTAGTTAAACTGTATAAA
Celera SNP ID:            hCV412973
SNP Position Genomic:     181220
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30511):
TAAGGAAATCAGAATCCCCTAAGGTAACTTCAGCAAAGAAATGGAAATAATTAAAAAGAACCAAGCTGAAATTTTGGAGTTGAAAAATGCAGTTGATATA
C
TAAGGAATGCATCAGAGTCCTTTAATAGCAGAACTGATTAAGCAGAAGAAAGAATTTATTTATTTATTTATTTTTTGAGATGGAGTCTCGCTCTGTTGCC
Celera SNP ID:            hCV26413097
SNP Position Genomic:     19013
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,4)   total(C,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30512):
GATTCTTCTCAATAATGTCATTTTTTCTGGAGCTAGAACCGTGAATGTAAGTCATTAATAACAATCAGCTTAGCTGGGCACAGTGACTCACACCTGTAAT
R
TCAACACCTGGGGAAGCCAAGGTAGGGGAATTGCTTGAGACCAGCCTGGACAACATAGTGAGACCCCCATCTCTTCCAAAAATTAAAAAATTATCTGGCT
Celera SNP ID:            hCV412974
SNP Position Genomic:     181645
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30513):
TGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAACTAGGATTACAGGCAGCCGCCACCACGCCTGGCCAATTTTTTTTTTTTTTTTTT
T
GAGACGAAGTTTTGCTCTTGTCCCCCAGTCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCTGCCTTCCGGATTCAAACAATTCTTCTGCCTC
Celera SNP ID:            hCV26413098
SNP Position Genomic:     15906
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30514):
CAGCCTCCCCCACATTTCTGAGGCTATGGTTTTGTTTTGTTTTGTTTTGTTTTGAGATGGAGTCTCAAAAATTGCACTCCAGTGCCCAGGCTGGAGTGCA
R
TGACGCGATCTCGGCTCACTACAACCTCTGCCTCCCATGTTCAAATGATTCTCCCACCTCAGCCTCCTGAGTAGCTGGAATTACAGGTGTGCATCACCAC
Celera SNP ID:            hCV412975
SNP Position Genomic:     183188
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30515):
CTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAACTAGGATTACAGGCAGCCGCCACCACGCCTGGCCAATTTTTTTTTTTTTTTTT
T
TGAGACGAAGTTTTGCTCTTGTCCCCCAGTCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCTGCCTTCCGGATTCAAACAATTCTTCTGCCT
Celera SNP ID:            hCV26413099
SNP Position Genomic:     15905
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30516):
CAAACTCCTGACCTCAGGCAATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTAGAGGCGTGAGCCACCGCGCCCGGCTGTAATTTTGGCCTTTTAAG
S
TAAATGTATATTGGAGAAATAGAGAAAACCCAATAAAAGTAGCACACATTTTTAGGCCTTAGCATCTGTGGTAGAATAAAGAATTTCTGTGATCTTTGGT
Celera SNP ID:            hCV412976
SNP Position Genomic:     184228
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30517):
GCTGAGTCATGTACCCTGGAGGTTCAGGCTTCGGTTACGGGCAGCCCCTCTGGATCCTGAAACTCTGCCCTGCTCTGTAGGCAGAAAAGGGAAGATGCTT
K
AGCTGATCCCCTAGGTATAGCTTCTGAAGGTCTGGCTTCTTGCTAGATTTGCTGACCTAGACTCCATGCTGCTCATCCTACCCCCTTGCCCATGTCCTCC
Celera SNP ID:            hCV25935460
SNP Position Genomic:     231761
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,38)   total(G,75|T,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30518):
TGCTGCTGGCCTCCTCAGGGCCCTCCGGGAACCGAGGCGCATCCAGGAGGCCTGAGCAGCGGCGTCGCACTGTCATTGGAGGGCTTGAGTCACTCTCTGT
Y
TGGGATGACTCAGACACCGACAGCCGCTTCCGTAATCTATGAGACACAAGGCCTGGGGTGAGTGACCCAGGTGGTCCCCCTCCTCCTGCCAGGTCTCCTT
Celera SNP ID:            hCV25932120
SNP Position Genomic:     11176
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30519):
CTTCTAACAGCTAACACTGCTCTGCTTTTGTCTGTCTGTCTGTCTGTCTCTGTACAAAGTGGGAGGGAATTCATCACAGAGCAGCTCCCCCAGCTCCAGC
R
TGCCCAGTTCCCCAGCCGGCTCTGGGCACACACGGCCCAGCTCCCTCCACGGTCTGGCACCCAAGCTCCAACGCCAGTACCGCTCTCCACGGCGCAAGTC
Celera SNP ID:            hCV25938510
SNP Position Genomic:     236616
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,7|G,27)   total(A,7|G,63)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,7|G,33)   total(A,7|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30520):
TAATAGAGTAATACTGGCCCCATGGAATGAGTTAGGAATCATGTTACAATCATCTTTGCTTGGAAGAGATTGTAGAGAATTGGTATCATTTCTTCTATAA
R
TGTTTGGTAGAATTAATCAGTGAAACATCTGAAACAGGTGCTTTTTTTGGAGATGATTAGCTATTGACTCAGTTTCTTTAATGGAGTCTTTCTTTTTTTA
Celera SNP ID:            hCV11863010
SNP Position Genomic:     194688
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30521):
AGTAAATTCTATTTGGTGATGGTATATAACTTTTTTATACATTGTTGGATTTGATATTTCTAATATTGAGAATTTTTGCATCTGTTTTCATAAGAGGTAT
K
GGTCTGTAGTGTTTTTTTCTTACAATATCTTTATTTGGTTTGGGTAATAGAGTAATACTGGCCCCATGGAATGAGTTAGGAATCATGTTACAATCATCTT
Celera SNP ID:            hCV11863011
SNP Position Genomic:     194543
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,7)   total(G,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30522):
CCTCCTTCCCAATGTATTTACCTTTTATTTCCTTTTCTTGCCTTTTTGGTTTTGTTTTGCTTTTTAATTTATGTATTTTTTTTAGAAATGGGGTCTCACT
R
TGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGTAATCCCCCCAACTCAGCCTCCGAAAGTGCCAGGATTACAAGTATGAGCCACTGCACCCAGTCG
Celera SNP ID:            hCV11863012
SNP Position Genomic:     193991
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30523):
AAGGTCCTTTCAGTTGGCTCCTTTCCCCCCTTGACTTACATCAATTTGGTGGTTTTTGTTTGGTTGGTTTTGGTTTTGGTTTGTTGTTGTTTTATCCCTT
T
CCTTACTATCTGCGATTATAAGATATTCCAGGCTCATGTTGTATATTTCTGACCCCAGTCCTAGAATCAGCCGTTTCTCCAAGAGGTCTGGATTTTTAAA
Celera SNP ID:            hCV11863016
SNP Position Genomic:     190926
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30524):
TCCAAGAAAAATTGCTGACATTACAGAAGATAAAAATTTATCATCCCTTGGAGGGAATTGAAAAACAAGTATCATGATTTAATAAATACAGCCAACAATG
S
ACTTCTTCCATTGGGAGCTACATGTCTTTGTGAGGTTTATTTTATTTTATTTAATTTTTAATTTTTTTTTTTTTTGAGACAGAGTCTCATTCTTTCAACT
Celera SNP ID:            hCV11863018
SNP Position Genomic:     186306
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30525):
TTCAGCATGATGTTGGCTGTGGATTTGTCATAGGTGGCTTTTATTTATTTTGAGATATGTTCCTTGGATGCCTAGTTTGTTGAGGGTTTTTATCATGAAG
R
GATGGTGGATTTTATTGAAAGCTTTTTCTACATCTATTCATCTGACTTCCTTTTTTCTGCTTGACCTAATAGAAAAAATTTTCAGCCCTACTTGAAATGA
Celera SNP ID:            hCV444230
SNP Position Genomic:     54056
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30526):
TATCTAAGTCTCTTCAGCTATGAGCCTCTGAAGGCCAAGGATTGAGTATACTTGCACCTTTTTGAGTATTTTAAGTGCCTGACATAGAACCTTGCAATTA
R
CTGTCATTAAAAAATGACTGTGGACCAGGTGTGGTGGCTCCTGCCACAAGCCTTTGTAATGCCCAGCATTTAGGGAGACTGAGGCAGGAGGGTCACTTGA
Celera SNP ID:            hCV445034
SNP Position Genomic:     147045
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30527):
AAAAGAAAAAACAGAATAATAAAAAGATAAAACAACAACCATAAAAATGACCATGATGATACTGGTCTATTGAAAGTGGGGGGCCTGGTCCTTATGTAGC
R
TCTCTACCCATGGCTGCCTCGTAGAAACTAACTGTGTTCTAATCTTTTCTGCTATGGAAATTTGGGCACAGGCCAGACAGCTGGGCAATTTATTGAGGAA
Celera SNP ID:            hCV445035
SNP Position Genomic:     147534
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30528):
CCTGGGTTCACGCCATTTTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCACCACCATGCCCGGCTAGTTTTTTGCATTTTTAGTAGAGAC
R
GGGTTTCACTGTGTTAGCCAGGGTGGTCTCGAACTCCTGACCTTGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGT
Celera SNP ID:            hCV453700
SNP Position Genomic:     48334
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30529):
TCTTTTAAAAACATATTAAGGATACTTGTATTTAACAAGTTTTTTAGGAAAAACATTGTACAACATTTATGTTTTTCATGATGCTGAAAATGCTGAATTA
Y
ATGTCAATTTAATTTATCTCTTAGAAGAAAAAGTAACATAATTAAAATCACTGGGTCTCTAATCTTTAGTTCTCTCTCCACAAATAAAACCTGTCACTTT
Celera SNP ID:            hCV453701
SNP Position Genomic:     47986
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30530):
ATTTTTTGTATTTTTAGTAGAGATGGTGTTTCACCATGTTGGCCAGGCTGGTCCCAAACTCCTGGCCTCAAGTGATCCACCTGCCTCGGCTTCCCAAAGT
R
CTGAGATTATAGGTGTGAGCCACCGCGGCCAGCTTAATTTTTATTTTTAAACTTTTTGTAGAGGTGGGATTTTACAGTGTTTCCCAGTTTGGTCTCGAAC
Celera SNP ID:            hCV453702
SNP Position Genomic:     46932
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30531):
TAACTTAGCTATAAATAAATACAAAACAAAACCCAGTTATGTAAAGAAAAATTGAAATTAGAAATGTGGAGATTCCGTAAACTTCTTTGTTCATCTGGGA
R
CCAACTTCAGATTACCACTTCAGATTTACCTGTGGGAACCAAGCACTGATGTACATGGATGGTCCACGTGAGGTGTACTTCTCTGATGTGACTCACAGGT
Celera SNP ID:            hCV508249
SNP Position Genomic:     97879
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30532):
AATTGCTCTGGCTACCACTTCCAGTACTATGTGGAATAGGAGTAGTGGGAGTGGACATCCTCGTGTTGTTCCATTTCTTAGAGGGAATGTTTTCAGTTTT
Y
GCCCATTCAGTATGATGCTATTGGCTGTGAGTTTATCATATATGGTTGTTACTATTTTGAGGTGTCTTCCTTCAATGCCTAATTCGTTGAAGGTTTTTAA
Celera SNP ID:            hCV9119255
SNP Position Genomic:     104133
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30533):
TGTCTGTTCATGTCTTTTGCCTATTTTTTAATGGGGTTATTTGTTTTTTGCTTGTTCAGTTAAGGTTTTTTGTAGATTCTGGATATTAGACCTTTGTCAG
R
TGTATATTTTGCAAATATTTTCTCCCATTCTCTAGGTTGTCTGTTTACTCTGTTGATAATTTATTTTGCTGTGCAGAAGCTCTTTAGTCTAATTAGGTCC
Celera SNP ID:            hCV9119328
SNP Position Genomic:     137358
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30534):
ACTTCCAGTACTATGTGGAATAGGAGTAGTGGGAGTGGACATCCTCGTGTTGTTCCATTTCTTAGAGGGAATGTTTTCAGTTTTTGCCCATTCAGTATGA
Y
GCTATTGGCTGTGAGTTTATCATATATGGTTGTTACTATTTTGAGGTGTCTTCCTTCAATGCCTAATTCGTTGAAGGTTTTTAATCATGAAGTGATGTTG
Celera SNP ID:            hCV9119256
SNP Position Genomic:     104149
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30535):
TCAGGATTTTAGGAGATACCCTGTGATCTCTGTGACAAAACAGTCTTTACTTTGGAACTGCTGTTCACATCTGCCTGATAGATCCCAACCTGGATTGCAT
Y
GGCCCGGCTGAGTTGCATTTAGAACCTCAGTTCCAAAGAGGTCAACAACAAAGGGCCACAATCACATTTGCAAAAATGGTCACCTCCTCTGCAACTTGCC
Celera SNP ID:            hCV217119
SNP Position Genomic:     224345
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30536):
CCTTTAGAAGTTTGCTTTGTGGACAATGAAAGAGAGTGACTGGTTATTTCTCTAGGATTTAGTATGTATAACTTTCTTTGTAACTTCAGAATATAGTTTA
R
TATCTTTTATTTTGTTCAATATAGTCAAACATTACTTAAAGTTCTTTGGGAAATATCATCATTGGCAGAAAGTATCAAAGTGTATCAATTTGAGGGTCCA
Celera SNP ID:            hCV34681
SNP Position Genomic:     75294
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30537):
CCAGAATGGTCTCAATCTCTTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGAATTACAGGCGGGAGCCACCACGCTCTGCCCAGGTTACT
T
CTTTTGTCTCATTTTTATGGTGTTTCCTGGAGGACAAAAGATAAAAGCATGTGCTTGGTCTGCCATCTTTAACTGAGAATGTTTTATGCATTAGCCTCTT
Celera SNP ID:            hCV11863022
SNP Position Genomic:     29523
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30538):
AAAGAGCTGGGATTATAGACCTGAGCAACCAGGCCAGGCCAGATACTCCACTTAATTGCAATCCCCTCCATGTTTACTATAGCTTATACCTTTCTTTGCC
Y
AGTTGCATTGGTTACAGTCCATCTATCTGCTTTAGATTTCCCCACAGTTTTTTCACCCCCTCATTATCAGTGTCTGGCTGTTTCTGTCATTATGGCCTTT
Celera SNP ID:            hCV11863023
SNP Position Genomic:     29096
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30539):
AGCTCAAGCAGTCCTTCCTTGGCCTCCCAAAGAGCTGGGATTATAGACCTGAGCAACCAGGCCAGGCCAGATACTCCACTTAATTGCAATCCCCTCCATG
Y
TTACTATAGCTTATACCTTTCTTTGCCCAGTTGCATTGGTTACAGTCCATCTATCTGCTTTAGATTTCCCCACAGTTTTTTCACCCCCTCATTATCAGTG
Celera SNP ID:            hCV11863024
SNP Position Genomic:     29068
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30540):
CCAGATAAAATGTTGGCAAGCACAGTAGCTCTAAATCTATCCAGATGGCTACCGGGAAAACATGCTCCTGTGTGTGTCCATCTGGGCCTAGTTCTCTAGT
Y
CCCCGACCACCCCAGATGCAGATCATTGCCTCAAGGTCTGGCTGGAACACTATAAGGCTTCGGTGACATGGAAGAGTCATTGAGGAGCCCCACTGAAGAA
Celera SNP ID:            hCV25937723
SNP Position Genomic:     228005
SNP Source:               Applera
Population(Allele,Count): african american(C,12)   caucasian(C,29|T,1)   total(C,41|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:30541):
ATCCAAATAAATATTTGGCTTCGCTAATTGCTTTCTGGTGAAATAGATTTCCTAAAACTTTTCCAGAAGATCAGCTAAGACACAGCCTACTTTGATACCT
S
CAGGTTTTTCCGCAGAGTTTCTTGGGGAGGTAGCAGAATAGTAAATAGGGCATTTAGAAGTTCCGTGACAGCAAAGACCTTGTCTATTTTGTTCAAATTA
Celera SNP ID:            hCV9119696
SNP Position Genomic:     69771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,5)      total(G,4|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30542):
TGTTAGCCAGGATGGCCTCGATCTCCTGACCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCTAC
R
AGGATTTTATTAGAAAGAGAATTGTTGCATATTGTTTTGAAAGAAAAGTCATTGGTACTTGCAAAGTTTTTAGAAGCTGGCAAGCTCTGATTGGTGAATG
Celera SNP ID:            hCV487798
SNP Position Genomic:     142973
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30543):
GGGGTTTCACCGTGTTAGCCAGGATGGCCTCGATCTCCTGACCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCG
Y
GCCTGGCCTACGAGGATTTTATTAGAAAGAGAATTGTTGCATATTGTTTTGAAAGAAAAGTCATTGGTACTTGCAAAGTTTTTAGAAGCTGGCAAGCTCT
Celera SNP ID:            hCV487799
SNP Position Genomic:     142961
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30544):
TTCTAGTTTTTGGATATTATGAATAAAGCTGCTATAATCATTCATGTATAAGTTTTTTTTTTATGGGCATATGTTTTCATTTCTCTTGGGTACATACCCG
R
GATTGGTCAGCCCATAAAATCAGTGTCCCACTCTGCTGCCACAAATGGGAATAACTTAGCTATAAATAAATACAAAACAAAACCCAGTTATGTAAAGAAA
Celera SNP ID:            hCV508250
SNP Position Genomic:     97727
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30545):
TGGGAAAGACAAATCTTCAAATAATCGTTAGTGGAAACACTTAAGATAGGATTGTTGGTGCTTGAGAAATAATACCTGGTTACTTATTTAACCGAAGTGA
Y
GGTAAAACATTTATAAACAAACATAGAAAGTAACACAATTTTAAATAACTGTAGTTTTTTTTATGAGGAGCCCTATGCTTGCTTGATTAAGGACCTGATA
Celera SNP ID:            hCV508251
SNP Position Genomic:     96756
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30546):
CCCATTCCTGTGATCCCTGAATCATGTTGTTTCTGAATATTCAGGGGTGGGAGTGTCCTATCACAGAGAAAGTCTTGTTCATCTCAGTCTACTATATGCT
R
TAAAACCGAAGATGCCAGCAGCTTTCGCTTATATCTGTCACCACTGACTATCTCTCTCCCTTGGTACAGGAGTTTGACCCTGAAGAGTTCTACCACCTTT
Celera SNP ID:            hCV217120
SNP Position Genomic:     223921
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,27)   caucasian(A,23|G,17)   total(A,34|G,44)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30547):
TGCCATTTCTGTTGCTTAGGTCCTTATTTAAATATGATTTGCCACCATTGGGGGACTAAACAGGTTTTTGTGAGGACAAATGTATGGTCCTGAGGGGATG
Y
GGCAGGGAGAATTATTAGTCTAGGCCACCCCCACATGAGCAGGGCTCACATCAGTGGGGGTCTTGGGGGTGAGAAGCGTCAGGAGCATAGCCCAGTTTAG
Celera SNP ID:            hCV217121
SNP Position Genomic:     221931
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,13)   caucasian(C,8|T,22)   total(C,23|T,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30548):
GTGGTGGTAACCACTGCCATTTCTGTTGCTTAGGTCCTTATTTAAATATGATTTGCCACCATTGGGGGACTAAACAGGTTTTTGTGAGGACAAATGTATG
K
TCCTGAGGGGATGTGGCAGGGAGAATTATTAGTCTAGGCCACCCCCACATGAGCAGGGCTCACATCAGTGGGGGTCTTGGGGGTGAGAAGCGTCAGGAGC
Celera SNP ID:            hCV217122
SNP Position Genomic:     221917
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,1)   caucasian(G,8|T,12)   total(G,15|T,13)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30549):
CTTCCCCAGTTGTCAATTCACTGTTCTCACCACTCTTGCTGCCTCTTCACAAGTTCCTTTGCTGCCCACCTCTTCCTACTGGTGTGTCACAGGGCACCAT
Y
CGGCATGCCTGGTCTCCCCTTTCTCTTTCCTCCACTCTCTCTCTGATGTCTTGCCACCTGCTCCCATGTCTTCAGTTGTCATCTCTACGCTGAGGACTCC
Celera SNP ID:            hCV217123
SNP Position Genomic:     220240
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30550):
GCGGCCTCGCTCCCGGAGCCTCAGGTGAGGGTGCTCTCTGCCCACTGTTCCAGTGCATGTGGATTTCAGCTTGTTTGCATAACACAGAGGTGGGCACACT
R
TGCTATAAAGGGCCAAGATAGTAAATATTTTTAGGCTTTATAGGCCATATATCTCTGTCACATTCCTCAACTCTGCTGTTGTAGTATGAAAGTATCCACA
Celera SNP ID:            hCV25942198
SNP Position Genomic:     208531
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,38|G,2)   total(A,72|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:30551):
TTGTAGTGAGCCAAGATCGCACCACTGCACTCTGGCCTGGGAGACAGAGTGAGACTCTGTCTTTCAACTGCCCCCTCCCCACTCCAAAAAAAATTTAGTG
R
ATTTGTCTTATTTGATGGGTTATATAATCTGTTAATACCATTTTAGTTTTGATGCTCAAAATTGTATCATATCTGGTCAAGGGAAGTTTCTTCAGGCTGA
Celera SNP ID:            hCV31787
SNP Position Genomic:     134762
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30552):
TTCTTGCCTGCTGGACATCAGGCCATAGTTGGTCTGCAGGCTGTAGTTTGCTAACCCCTGGCACAATACATTGGCCAGCTTGAGTGAGTCTGGGCACAGC
Y
TTCACAGCCCCAGCAAAGGCACTTCTCCTCCAGATAGCAGCCAAAAGGAAACATTGCTGAGCTGCCCCCAGGGTGGCTCTCTCAAGATTGTGGAAGGGCG
Celera SNP ID:            hCV27530569
SNP Position Genomic:     207850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30553):
AACAATTCTAAAATTTACGTGGAACCACAGAGGACTCAGAATAGCCAAAGCTATCTTCAACATAAAGAAGAAAACTGGAGAAATGACATTACCTGACTTG
M
AATGATACTAGAAAGCTATGGTAACCAAAACAACATGGTACTGACATAAAAACAAACAGAGACCAATAGAACGGAATAGAGAACCCATTAATAAATCCAT
Celera SNP ID:            hCV493285
SNP Position Genomic:     22329
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30554):
GTGAAAGAGGATCCAGCCCTGAGCATCACCCAAGTGCCTGATGCCTCAGGTGACAGAAGGCAGGACGTTCCATGCCGAGGCTGCCCCCTCACCCAGAAGT
Y
TGAGCCCAGCCTCAGGAGGGGCCAAGAACCAGGGGGCCATCAAAAGCATCGGGATTTGGCATTGGTTCCAGATGAGCTTTTAAAGCAAACATAGCAGTTG
Celera SNP ID:            hCV8358528
SNP Position Genomic:     238009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:30555):
GCACCACCAAGCCTGGCTAATTTTTTAATTTTTTTGTAGAAATAAGGTCTCTCTATGTTGCTCAGGCTGGTCTGGAACTCCTGAGCTCAAGTGATCCTCT
W
GCCTCAGCCTCTTAGAGTGCTGAGATTACCATACCTGGCAAATCATGCTCTTCAAATGTGGGTACACTGCTGTTGGTAATCATTTTCTCTGTTTTACTGA
Celera SNP ID:            hCV167600
SNP Position Genomic:     117229
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30556):
CAAGAATATGGCTCCAGCTTAGCCTAGGCCTCATGCTCTGCTCCCCAGAGTGGAAACAAGGTGGCCATTTCAACAACTCCCCTGGAGAACACATCCATTA
R
AGTGGGGCCAGCTCGGAAGGGCAGCTACAAGGCCAAGATGGCCCGAAGGAGCAAGAGGAGCCGCGGCAAGGATGGGCAAGAAAGGTGAGCCAGGCGCAGT
Celera SNP ID:            hCV8358529
SNP Position Genomic:     235891
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,32|G,6)   total(A,68|G,6)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,32)   caucasian(A,32|G,4)   total(A,64|G,4)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:30557):
TAGACTCTAGACCCATTGTATAACCAGTTTGCAGAGTAGTAATTAGGGGCAAAAAGAAAATGAAATTTGCCGGCCAGGCGCGGTGGCTTACGCCAGTAAT
Y
CCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACTCTGTCTCTACTGAAAATACAAAA
Celera SNP ID:            hCV167601
SNP Position Genomic:     117509
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30558):
CAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACTCTGTCTCTACTGAAAATACAAAAA
R
TTAGCCGGACGTGGTGGCGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAACTTGCAGTGAGCCGA
Celera SNP ID:            hCV167602
SNP Position Genomic:     117611
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30559):
AATACAAAAAATTAGCCGGACGTGGTGGCGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAACTTG
Y
AGTGAGCCGAGATGGCGCCACTGTACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAGGAAAGAAAATGAAGTTTGGCTTTCA
Celera SNP ID:            hCV167603
SNP Position Genomic:     117701
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30560):
ATACCACTTCACATACAGGATAAGAATCTTCCATTTCTCCCCTTCCAGCCTTTATATAGTTGTTTTCAAACTTTTGATCCTCATGTGTTGTAAATCCCAC
M
CTATTATTTAATAGTAATAATATTATTATTAATTAAACATTTACTGCTTTTTAAAGAGATTTAAATAATAAGAAAATGTCATGCATCTTTTTCCATGTAG
Celera SNP ID:            hCV514826
SNP Position Genomic:     195173
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(A,1|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30561):
ATAATCTCAAAGCATTGGGTCTAGTAGTAAGGGTAGATGTCCTCTGTTTTTTCATTATTTTCACTGTCTTCTCCCTAATCTCCCCAAACTTAGAATCTTA
Y
ATATCATTAATTTGTATCATTTAGTACCTATCATTGCAGCTGTAAAACTCTTCATACATTGCAATTGTAAAAATTTTAGCTCTTGACTCCAATTACTCTC
Celera SNP ID:            hCV470705
SNP Position Genomic:     175086
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30562):
TTAGAATCTTACATATCATTAATTTGTATCATTTAGTACCTATCATTGCAGCTGTAAAACTCTTCATACATTGCAATTGTAAAAATTTTAGCTCTTGACT
M
CAATTACTCTCTTCAGTTCTACTCCTGTATTATTCTTTTTTTCAGTCTGTTTGTGAGCTGTAATGTGTTATTCTTGGTGGTTTCGATACACCCGTAGTTG
Celera SNP ID:            hCV470706
SNP Position Genomic:     175175
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30563):
GGAGGTTCAGGCTTCGGTTACGGGCAGCCCCTCTGGATCCTGAAACTCTGCCCTGCTCTGTAGGCAGAAAAGGGAAGATGCTTGAGCTGATCCCCTAGGT
R
TAGCTTCTGAAGGTCTGGCTTCTTGCTAGATTTGCTGACCTAGACTCCATGCTGCTCATCCTACCCCCTTGCCCATGTCCTCCCTGTCCACAGGCAGTGC
Celera SNP ID:            hCV16250882
SNP Position Genomic:     231778
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,3)   caucasian(A,36)   total(A,63|G,3)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,40)   total(A,72|G,6)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30564):
GTATCGTGAAGGCAGTGGGTATCATCCAATGTGACAAATTGAAAAATGACCTGATCAGATTTTAGAATAATAAAAGTCAGTAACATTTATGGAGCATTTA
R
TACATGCTAGACACTGCATTACCTCATTTAATTTATCTGGTTAAATCTTCACAACCGTGTAAGAAAGGTACTTAATATTATTTCCTAAATTTACAGATAA
Celera SNP ID:            hCV439070
SNP Position Genomic:     215180
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30565):
GTGAAAGAAGAGACCTAGAATTCATTTCACCTCAATTATCTGTCTTGAACTACCTTTGTTTAACCCACAGGGCTAAGGGAGTGTACTTCAGATTTTCTTC
Y
TGAGTCAAACTGCTTGCCCTGAGACAGACAGGCTTCTTCAGTGGGCTTCCTTTGTGATGTTGCCCTTCAGTGTCTGTGGATGCTTATTGATTGAATTAAT
Celera SNP ID:            hCV11862244
SNP Position Genomic:     116665
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30566):
ACTCTTTGTCCTCTCTAACTCAGCTAGTTTAAAGCAGCTGAAAGGGCTCTTTGTGCCTCTCTCCTTGACTTTGAGCTGGAGTTCGTTTGGGGGATAAAGA
S
ACTACAGGGACTTCACTTTTCCTTCTATGAATTTAGAAAGATTTGGTGCATACAGAGCCATGCTTACAGTCCTCCTCCCATGTTTCTTCCCTCTTGAGAG
Celera SNP ID:            hCV28013296
SNP Position Genomic:     200353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30567):
TACATTTACTCACCACTCACTCAGTCACCCAGAGCAAGTTCTAGTCATGCAAACCCCACTCATGGTAAGTGCCCTATACAAGTGTACCATTTCTATCTTT
T
ACATGTATTTTTACTGTACCTTTTTTATGTTTAAATGCACAAATACTTACCATTGTGTTACAGTTGCTTACAGTATTCAATGCAGTAACATGCTATACAG
Celera SNP ID:            hCV11862246
SNP Position Genomic:     108947
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30568):
GTTATTCCAAGGAGGAACACAGTGCTTTATGGAATCTAACTGGTGCCGAGTGTAATTGCTGACCCAGTTCAGTTTAAAGAAGTATACTGTGCGGCCCGTG
R
AATGGTGTCCCTCTTTAGTTCCTTAAAAACCACTCAAGGTCTCTGGGCCCATGGTGTGGCCCTATTATAATTCATATTTTGTTTTCATTGCAGTTGTCGG
Celera SNP ID:            hCV28013297
SNP Position Genomic:     161352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30569):
TGCACTTCTCTCCCACTGGCGGACGGCTCAGCTCAGCCTGGCCCAATTGTGGCAGTTCCCAGGGGTGGGTTCCCAGGGCAGTGGGCCTGTAGGGGGGCTT
R
CAAAGGAGGGTTCCAGGGACTGTCCACCTTGGCGTCTGCACCGGAAGACCCGTGTCCTGCATCTGTACCCCACTGCAGCCGGCGTCATGGCAGTGACTGC
Celera SNP ID:            hCV28013298
SNP Position Genomic:     125295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30570):
AGGATGGAGGTCCGGCCAGTGAGGCAGGGCTTCGTCAAGGTGACCTCATCACCCATGTCAATGGGGAACCTGTGCATGGCCTGGTGCACACGGAGGTGGT
R
GAGCTGATCCTGAAGGTTAGTGCTGGGCGTGCTGCCTGCATGGTCCCTGAATGACCTCAGCCTGTGAGTCTGTGATGGCAGTTAGGGGAGTGGGTGAGTT
Celera SNP ID:            hCV8358538
SNP Position Genomic:     234744
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,20)   caucasian(A,6|G,28)   total(A,12|G,48)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30571):
TAGCAGGCATCCAAATGCTGGTTCTCCCATGCAGCTGGTTGTAAGTTTTTTTGAGATAGGATCTTTCCCTCTCCACATTGTCTTCATAGAGGATATCCAC
Y
TTAGCTTGATGTCTTCCAAGGCCTCCTCAGTTCTCTCTACCTAGAGCTTCTTGCTGTGCTTGTCACCTTTGTGAGTGGCCAACCCTCTTTAATGGATTAC
Celera SNP ID:            hCV308906
SNP Position Genomic:     25068
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30572):
TGGCCTCCTCAGGGCCCTCCGGGAACCGAGGCGCATCCAGGAGGCCTGAGCAGCGGCGTCGCACTGTCATTGGAGGGCTTGAGTCACTCTCTGTGTGGGA
N
GACTCAGACACCGACAGCCGCTTCCGTAATCTATGAGACACAAGGCCTGGGGTGAGTGACCCAGGTGGTCCCCCTCCTCCTGCCAGGTCTCCTTAGGGGC
Celera SNP ID:            hCV8358539
SNP Position Genomic:     11182
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,20)   caucasian(A,10|G,30)   total(A,24|G,50)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30573):
ATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCTGAGATCGCGCCACTGCACTGCAGCCTGGGAGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAA
A
TGCCAAACTTAGATTTAGGATACTACCCCTAACCCCCATCAAATGGTAACTGGTAAGTGTATGTTTAAGTTTCTAAAAAATTGCCACATAATTTTCCAAA
Celera SNP ID:            hCV11862250
SNP Position Genomic:     107839
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30574):
AAACCAGGAATAACTTCTTAATTTTATTTCTTCGTTCTTCCAGCCTCCTAATTACATCCATGGGGCACATCAAGCTCACGGACTTTGGACTGTCCAAAAT
K
GGCCTCATGAGTCTGACAACGAACTTGTATGAGGGTCATATTGAAAAGGATGCCCGGGAATTCCTGGACAAGCAGGTAAGGAAGGGTAGTTGATACACTG
Celera SNP ID:            hCV8358540
SNP Position Genomic:     229829
SNP Source:               Applera
Population(Allele,Count): african american(G,11|T,27)   caucasian(G,23|T,17)   total(G,34|T,44)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;JBIG-allele(T,521|G,968)   total(T,521|G,968)   no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30575):
TAATGACTGAGACCTTCCAGAACTGATTAGAAACAAACAAGGAACATCTTGAAGCATGGTGAGTCCCCACTATAATAAATAAAAATAAATCCCCATCTAG
M
TACATTGCAGTACTGCAGAGCCATGAAAACAAAGAGAATATCTTAAAGAACCCTCAAGAATTCACTAAAGTAAAAGAGCTCAGCAAGAAAGTTCACTCAA
Celera SNP ID:            hCV112632
SNP Position Genomic:     154043
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30576):
GGTGTGTGCCACTGCACCCAGCTAATTTTTAATTTTTTTTTTTTTTTGAGACGAAGGCTTACTCTTGTCCCCCAGGCTGGAGTGTGATGGCGTGATCTCA
K
CTCACTGCCAACCTCTGCCTCCCAGATTCAAGCGATTCTCCTGCCTCAGCCCCCTGAGTAGCTGGGATTACAGGCGCCTGCCACCATGCCCGGTTAATTT
Celera SNP ID:            hCV11862254
SNP Position Genomic:     106294
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,11)   total(G,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30577):
TACTTCCTACAGAGACATTTTCATAACAATACAGCCATTAAAATCAGAAAATTAACATTAATAAATATTACCATCTAATCTACAAGTTTAATTCATATTT
Y
ACCAAATGTCCCAGTAATATCCTTTGTAACAGAAGGCTCCGATCCAGGATCATGTGTTAGAATTTTACTGTTATTCGTCTTCTATCTCCTTTAATCTGAT
Celera SNP ID:            hCV36962
SNP Position Genomic:     133156
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30578):
CTCCTGGTCTCAAGTGATCCTCCCACCTCAGCCTCCCTAGTAGCTGGGACTATAGGTGTGTGCCACTGCACCCAGCTAATTTTTAATTTTTTTTTTTTTT
T
GAGACGAAGGCTTACTCTTGTCCCCCAGGCTGGAGTGTGATGGCGTGATCTCAGCTCACTGCCAACCTCTGCCTCCCAGATTCAAGCGATTCTCCTGCCT
Celera SNP ID:            hCV11862255
SNP Position Genomic:     106240
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30579):
TTGTCTTTTTTGAATACTCTGGTTTATTTTCTGTGTTTCCAATCTTCAGTGATAGTAATTGTGTAAGTACTTTTTGTGTGCAGTTGTTTTTTTTTTTTTT
Y
CCCAAATTTAAGCAGACTAGCTTATTTGTAGATTTTCTCTTTTTCCTCTTCTAAGCTCCACTGTCTTATTTTTCTGTCTATGTTGGGATCACAACGTACT
Celera SNP ID:            hCV9118700
SNP Position Genomic:     112181
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30580):
TTTGTGGTGGAAGAAATATTCCTTCTATCACTGTTTATGCTCTCAATCCCCTCCCTTCCTTTTCAAGAATAACTTTTTTTTTGAGAACTTTGGCTGCAGA
R
TATGGAGAGTTAAATGCAAGCTGGAAGAGTTGTCTAGATTCACTGTCTTTATTTCCTCATCTCCTACCCACTGGAGTTGGGCTTTTGCTCCTACCACTCC
Celera SNP ID:            hCV11864502
SNP Position Genomic:     64122
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3|-,4)   total(G,3|A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30581):
TGTAATACATTGCGTTTTATGCCTTGATTGGAAGGAATGAGTCTGTTATAAACAAACGTTGATGCTAGCTCTTAAGTGTCTCAGATGGGTATGATGAACC
K
TAAGAGGCATAATAAATTTCATTGTGATTTGGGTTAAATTAAATAACCACTAACCTTTACTCCATTTGCATGTCTTCTAAGAAAATGATTCCAGAGTATT
Celera SNP ID:            hCV458825
SNP Position Genomic:     127399
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30582):
TAAGGTCTTAAGCCTCTTTATTGACTGTATCTTAGGGATGGTCTTAGGACCTTACAAATTGTTGCCCGTAATAATTTGAAGGACAATGAAGATACAGTCT
K
GAAATGATACCCACTCTAGCTCTGTAATACATTGCGTTTTATGCCTTGATTGGAAGGAATGAGTCTGTTATAAACAAACGTTGATGCTAGCTCTTAAGTG
Celera SNP ID:            hCV458826
SNP Position Genomic:     127276
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30583):
ACTTGAACCTGGGAGACAGAGGTTGGAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGAATCTGTCTCAAAAAAAAAAAAAAA
A
TTTATGTGAAGCAAGAATCAATACATATATGACCCATTAGGGTAATTTTTCTTGGCAGTCCTTCCCTTCCTGGCTGCTGTTTACCAACTTAATTATTCTT
Celera SNP ID:            hCV11864505
SNP Position Genomic:     62779
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30584):
TAATTACTAGTTTATTTTCCTCAATTTGTTTTAGTAAACAAAATATTGTATCCTTCTACTTTAATGAAAAATTTTAAGTTTTTTTTTTTTTCCCCAACTT
Y
AGCTTTAGGGTCAGGGGGTATTGTGCAGATATGTTACATGGGTAAATTGTGTGTTGTGGGGATTTGGTGTACAGATTATTTTGTCACTCATGTAATGAAC
Celera SNP ID:            hCV11861459
SNP Position Genomic:     135980
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30585):
TTACAGGCATGAGCCAGCACACCCAGCCTCTAATTTCCCTTTTGATTTCTTCTTTGACCCACAAATTATTCAGAAGTATATTGTTTAGTTTATGAATATT
K
GGGGATTTTCCAGAGATGTTTCTGTTACTGATTTCTAATTCTATTTCATTGTAGTCAGAAAACATATTTTATATGACTTGAATCCTTTTAAAATTTATTG
Celera SNP ID:            hCV130789
SNP Position Genomic:     190446
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|G,8)   total(G,8|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30586):
CCAAGAGTGCGGAGCCACCCCGTTCACCACTACTCAAGAGGGTGCAGTCGGCTGAGAAACTGGCAGCAGCACTTGCCGCCTCTGAGAAGAAGCTAGCCAC
Y
TCTCGCAAGCACAGCCTTGACCTGCCCCACTCTGAACTAAAGAAGGAACTGCCGCCCAGGGAAGTGAGCCCTCTGGAGGTAGTTGGAGCCAGGAGTGTGC
Celera SNP ID:            hCV25932318
SNP Position Genomic:     236978
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,30)   caucasian(C,2|T,34)   total(C,8|T,64)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,26)   caucasian(C,4|T,28)   total(C,10|T,54)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:30587):
TCTTAAAAAAAAAAAAAAAAGATGTAGGTACACACAGAACTTGAATGTGGCACAACAGAGAGTTTTCTCCACAAGGCAGTACCCTCCCTGACTAAGGCCC
W
GGGATCCTTCTGAGCTGTGGGTAGGGCTGCAGAATGGGACGGATTAGCCTGTTTTCTACCTTCTTACCCCAAACCACTCTGGGGCTCCAATGGGAGCCAT
Celera SNP ID:            hCV1595986
SNP Position Genomic:     235572
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,9)   total(A,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30588):
AGAGAAAAGGCTAGAGAGAGAGGCAGGAACTAGTTCATCAAGGGCCCTTTTGTTATATTTGGGTTTTATTCTAAAGGGGCCTAGAGAGTCTTGGAAGGGT
S
TGCTAACCAAAGATATGATAGAATGGCATGCCCAGATTATGGTTCAGGTTTAGAAAGCTCACTCTGCCGGTGAAAAGAGACACTGAGACCACTGCCAAAG
Celera SNP ID:            hCV1595987
SNP Position Genomic:     228533
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(C,-|G,-)   TSC_42_A(C,33|G,50)   TSC_42_C(C,21|G,63)   TSC_42_AA(G,37|C,46)   total(G,150|C,100)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30589):
TAGATGGTGAGAGAGTAGTAAGAGAAAAGGCTAGAGAGAGAGGCAGGAACTAGTTCATCAAGGGCCCTTTTGTTATATTTGGGTTTTATTCTAAAGGGGC
Y
TAGAGAGTCTTGGAAGGGTGTGCTAACCAAAGATATGATAGAATGGCATGCCCAGATTATGGTTCAGGTTTAGAAAGCTCACTCTGCCGGTGAAAAGAGA
Celera SNP ID:            hCV1595988
SNP Position Genomic:     228513
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30590):
TCCAGATAAAATGTTGGCAAGCACAGTAGCTCTAAATCTATCCAGATGGCTACCGGGAAAACATGCTCCTGTGTGTGTCCATCTGGGCCTAGTTCTCTAG
Y
CCCCCGACCACCCCAGATGCAGATCATTGCCTCAAGGTCTGGCTGGAACACTATAAGGCTTCGGTGACATGGAAGAGTCATTGAGGAGCCCCACTGAAGA
Celera SNP ID:            hCV1595989
SNP Position Genomic:     228004
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,14)   caucasian(C,8|T,26)   total(C,20|T,40)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;(T,-|C,-)   JBIC-allele(C,445|T,1048)   total(C,445|T,1048)   TSC_42_A(C,33|T,50)   TSC_42_C(C,12|T,71)   TSC_42_AA(C,33|T,50)   total(C,78|T,171)   no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30591):
CCAAGGCAGGTAGGTCATCTGAGGTCAGGAGTTTGAGACCAGCCTGGCTGACATGGTGAAAACCCGTCTCTACTAAAAATGCAAAAAAAAAAAAAAAAAA
A
TTAGCTGGGCATGGTGGTGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAA
Celera SNP ID:            hCV11861460
SNP Position Genomic:     135656
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,8)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30592):
TGTGATCCCTGAATCATGTTGTTTCTGAATATTCAGGGGTGGGAGTGTCCTATCACAGAGAAAGTCTTGTTCATCTCAGTCTACTATATGCTGTAAAACC
R
AAGATGCCAGCAGCTTTCGCTTATATCTGTCACCACTGACTATCTCTCTCCCTTGGTACAGGAGTTTGACCCTGAAGAGTTCTACCACCTTTTAGAAGCA
Celera SNP ID:            hCV8358550
SNP Position Genomic:     223929
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,19)   caucasian(A,10|G,30)   total(A,27|G,49)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30593):
CTAGCACATAGGAGGTGCCCAGTAAATATTTGAAGGTATACATGCACCAGTAGGGCTTTGCCAAAGCTCTTGTGAGCCATAATTGAGTGTGTGCCAGGAC
W
GCTGTGGACTGGGCATCTGAATACACCAGACAGTGCCACCTGGCTGATGGAAAGCATGGGACCAGATCAATAGGCTGAGCTCTCTTTAGAGTAAAACCTC
Celera SNP ID:            hCV8358551
SNP Position Genomic:     223646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30594):
CAGTGAGGTCAAAGAGTTGCTAGAGGGTTTAACCCAGTGTGTGGCACTTAGTAGGCACTCAGTTATTATGTGCAGACAAGGATTGTGCTTTTCAATGGAT
Y
TCCAGCCTCTAGCACATAGGAGGTGCCCAGTAAATATTTGAAGGTATACATGCACCAGTAGGGCTTTGCCAAAGCTCTTGTGAGCCATAATTGAGTGTGT
Celera SNP ID:            hCV8358552
SNP Position Genomic:     223537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30595):
GCAATACTTGCCTAAGAGCAGGAAGCTGAAGCTTTCTAGGATACTTCTGTTTCTAGAACTAGGAAAATTTTATTTACTAAATTTTACATTGTGTTATGGA
M
AAATCTCAAAAATGTTCAAAAGTAGAAAGACTCATACTACATCCCCAGTATCGTCTACATTGTCAGCTCATGGTATACTATCTCATCTACATCCCCACCT
Celera SNP ID:            hCV11861464
SNP Position Genomic:     130134
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30596):
ATTCTTAGCACTTCATTTTGCTTCCATTACTTTTTTCTTTGCTTCTATTACTTTTCTCATATTCTTATTTTCCCTTGGATATATTGCCTACCATATGTCC
A
TACTGCAGAAGCTCCATTACTGGCTTAGGTGAGGCAGTGGCAGCTGGGTGCCCTCCTGCCCTCTCATGCATTCTCACTAATTGTTTCTGCTGAAAACTGG
Celera SNP ID:            hCV11861465
SNP Position Genomic:     128492
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30597):
AAAAGGGAAGATGCTTGAGCTGATCCCCTAGGTATAGCTTCTGAAGGTCTGGCTTCTTGCTAGATTTGCTGACCTAGACTCCATGCTGCTCATCCTACCC
S
CTTGCCCATGTCCTCCCTGTCCACAGGCAGTGCCTATGAGGTGAAGCAGCACCCATTCTTTACTGGTCTGGACTGGACAGGACTTCTCCGCCAGAAGGCT
Celera SNP ID:            hCV25935086
SNP Position Genomic:     231845
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,40)   total(C,75|G,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30598):
GAGTGTGAGCTTCTTGAAGAAGACAGTTCTGAAGATACAGGGCTTGGTACACAGCAAACTTGTAATTAATGTTTGAGGTCAGGCATGGGTGGCTCACATC
Y
GTAATCCAATGCTTTGGGAGGCTGAGGTGGGGGGATTGCTTGAGGCCAGGAGTTCAAGACCAGCCTGGGCAACCTAGCAATATCCCGTATCTAAAAATAA
Celera SNP ID:            hCV94468
SNP Position Genomic:     58582
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30599):
TCCCTCCTCTTCAATTTTCTGGAAGTGTGTAGAATTGTTACTACTTCTGTCTTATATGTTTGGCAGAATTGTCCAGTGAAGCCTCTGAACCTAGAATTTG
W
GGGAAGGTTTTAAATTATAAACTTAATTTTGTTAATAGATATAGGATTAGTTAGGTTATCTGTTACTGAGTGAGCTTTGGTAGTGTATATCTTTCAAAGA
Celera SNP ID:            hCV130790
SNP Position Genomic:     189071
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,6)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30600):
AGTCCCAGTGGTCCCCACAGGAGGCTCGGGAGCCCACAAGCCATTGAGGAGGCTGCCAGCTCCTCCTCAGCAGGCCCCAACCTAGGTCAGTCTGGAGCCA
Y
AGACCCCATCCCTCCTGAAGGTTGCTGGAAGGCCCAGCACCTCCACACCCAGGCACTAACAGCACTTTCTCCCAGCACTTCGGGACTCACCCCCACCAGC
Celera SNP ID:            hCV25959834
SNP Position Genomic:     237529
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,38)   total(C,68|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:30601):
TCTGAACTAAAGAAGGAACTGCCGCCCAGGGAAGTGAGCCCTCTGGAGGTAGTTGGAGCCAGGAGTGTGCTGTCTGGCAAGGGGGCCCTGCCAGGGAAGG
S
GGTGCTGCAGCCTGCTCCCTCACGGGCCCTAGGCACCCTCCGGCAGGACCGAGCCGAACGACGGGAGTCGCTGCAGAAGCAAGAAGCCATTCGTGAGGTG
Celera SNP ID:            hCV25931885
SNP Position Genomic:     237109
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30602):
GCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCTCTTATATTTAAATTTTTATTTTTGCTGGTCATATATTTAGTTACATAGAGCCATTTCTTGTTTG
K
TTTTTCATAACATTCTCCTCTTTTTTTAAAAGGATGCGATTATCTTCTCTTTTTTTTTTTGAGACAGAGTCTCACTTTACTGCCCAGGCTGGAGTTTAGT
Celera SNP ID:            hCV497671
SNP Position Genomic:     27776
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30603):
TTTGCTTCTGTAGATTTTCTTTTTTCCTTCATTCTCAAAACCTAAAACTCATAGTGGCCTCTACCGCCTTCAAAGAAAAGACTTAAAAAATTCAGGGGGA
W
AAAATTATACGAAGAAGTCACAGTACAAAAGGAAGCAATTACATTGTACATTGTGGCATAATTCTTTTCTTTCCTTTTTTTTTGAGATGGAGTTTCGCTC
Celera SNP ID:            hCV497672
SNP Position Genomic:     27346
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,5)   total(A,5|T,5) 
SNP Type:                 INTRON


Gene Number:                 129
Celera Gene:                 hCG2036650 - 206000045581846
Gene Symbol:                 CSMD2
Protein Name:                CUB and Sushi multiple domains 2;KIAA1884
Celera Genomic Axis:         GA_x5YUV32W802(48975851..49638949)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12289):
ACAGAAGGATCCAGGGGAAAGGGGAGAGAAAGCATGGCTCATTGCAAGAGTGCAAGGGTGTCAGAATGGCTTAGAGCTGAGGGATTTGGGAATAGGGAGA
TCTGAGGCTAGAGGGGCTGGCAGGGACAGATGATGGGGGCTCTTGTAGGGAGGGTCTAGCAGGGAGCTTGGATTTTACTCTGTAGGCCATAGGGGAAAGT
CCGGGGAAGACAGAGGAGCTGTGAAATCAGGTGAGTGTTTTAAAAAGATAGCTGGTGGCAGAGAGGAAGATGCATTGAATAGGGCAAGAGCAGAGATGGG
CACTTGTTACTCAGTTGTTGTAAGTAACCTGAAACATAGCCATTGTGGACTCTGGTTAGAATCTGGGAGGTGTCTAGGAGGCAGAATCTGGAGGGCTCAG
TGATGGCTTGATGTGGGGACTGGGCAAGATGGGAGTCCAGGATAAATAGGTTTCTGGCTCAGGATCTGGGTGGATGTGGAAACTGTTCCCTGAATTGGGG
AGCTGAGCAGAGAGGCAGGCTGGGGTGGAGAACTAGAAGTGGATAAGCCCAGGTCTGAGCAGGCTGTGGTGGAAGGGGTGGGGTGGGGCTCCTATGAGAC
ATCTGAGGAGAGAGAATGCCAGATACAATACAGACCCTGGGACTTGGGAGAAAAGAGGTTTCCATCCTAGAGTTGCCCATCCACCAGCAGGGACAAATAA
GAAAGCCAGCAATTATGGAGAGACTGTTGAGTCAGAAGAGAGGTCTATTTCCACCCCACACCCTTCCTTGGTACCCTGTGAGTGCTGCAGATTTACACAC
TGTGTCCTCCCTCCCTGAGSTGGCCCACTCTGTGCTTTCTTCCTAGAAAGTGCTGGTTCTCACCTGCCCTTTCCCATAGGCTGAGCTAGGAGCCCTTCTT
ATTTCCATCACATGCTATATCTCTTCTGGAGTAATCAATCATGCTTTGCTGTTTAACGCTGTTCTCAATAAACTCTCAACCCCCTGAGGACAGGGGCCAT
GGGAATGTCTTATTCTTCTTTATATTTGTTTCCTCAACACCTAGCACAGACTCTGACATGCAGCTCAGTGTGGCATGAACAAATGAATGAAAGAGTAAGT
GAAGAGTAAGTGAATGACTACACAAGATACTATGCAAAAAATGAGCAAGCCTGCATAAAAGTATTGCTAGCTGCTGTAACAAACTCCAATATTTCAATGG
CTTAACACCCTGTTTTGTCACTGGCATGAACTCTTTTTCCTTATACACAAATGAAGAATTTTCACCAAGAATGTCAGAATTTGGTGACCACAGCATGTGG
TAGCACTAGAGGAATGGCCTAGGCTGTGGGCCCCTTCTCACTTCTCCCTCCTGGTTTCAGAAGCCCACAGCCTCACCTTGGTGTGGTCTGGGCTTTTTCC
TCATGAAGCCCCTCTGTCGCCACTCCTTGGGCAGCAGATCACTGCCACCTCTATGGTGATAGCCTCGCCCTTGGGAGATACTCGCTTTGGCCTGATCATG
CTCATGATTTTAAAATTGTGCCCCATTTGGGATCCTAAGCTTTTCCTCTGAGCCCATCTTTGTCCTGTAGCCCTTCTCTGCAGCCCTGCCTGCCCCTTGG
CCTCTATTTCTGCCCTCGCATTGCTAGAATCTCCCATTTGCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCAGCTTCAGAAGGCTTTTTG
ATCTTTTCCTGGGTCAGAATGAAAATTTCAGGGCATCAAGTCTACAGCTCCTCCTTGAATGAGGCAGAGTTCTCCAGAGCATCAGGCCTTGTATTCTTTC
TAAATCAAACTCTGATTTTATCTGGATATTAGGCTTATCTTGGCTAGTCACTAGACTGCATTGGGCTTTTTTGCAATGTGATATTGTAAAGACACCTCAA
CCCACGACTGCCTGTTGCTCACAGGGAGAATGAGAGGGGCAGGCAGGGAGCCAGCACTTGGGGCTGGGCTGAGACCCACACTCTCCTAGGCTAGATGCGG
GTAGGCTGTTATGTCTTTGACTCCTGCCTCTCCATTGCCCTGCAGATGTTTCCAGGGTCCCCATCTCTGCCTTTGCCCCCATGTTTCCTGGCTCAGACTA
TTGCAGTAGTCTTCTAAGTGGTACCCTTTCCTTTCTTACCCTTTCCTCACAGAGAAGTTAGAGTATATGTCAGGCCACATCACTTGGCGTCTCTTTCCCA
GAAATGAAAACCTACCTTTCATATTCAGAGCTGTCTACTTTTCACTAAAGGAGCCATGCTATACACAGAAAATAAATGTAAACAGATATCTCTTTACATA
TATTTTCTGACTGTCAAGCATCTCTCTCCTCCCTCCATCTGAAAAGTCATCTCCTCCTGTTATAGAATGAATTGTGTGCCCCCCCACCCAAATTCATAGG
TTGAAGTCCGAACCCCTAGTACTTCAGGATGTGACCTTATTTGGAGGTAGAGTCTTTAAAAAGTCAGTTAAGTCAAAATGAGGTCATTGGGTTGGGCCTT
AATCCAGTATGACTGGTGTCCTGATTAGAAGTTTGGACACAGATATGTACCATGGGAACACATGTGAGGACACAGGGAGAAGAAGGCAGCCATCTACAAG
CCAGAGAGAGAAGCCTCAGAGGGAACCAACTGTGTCGACCTCTTGATCTTGGACTTCCAGCCTCCAGAATTGTGAGGCAATACATTTCTGTTTTTTAAGC
CACAGGGTCTATGGTACTTTGTTGTGGCAGCAGTCCTAGCAAATTAATACACCTTCTATTTCTCACTGGCTAAGAATAAAATGCAAACTCCTCGCCATCC
CCTAATAGACCCTATGTGATCTGCCCCACTCCCTATCTCCCATTGCTTACCTGGATCCAGCCCCATCCTCCTCCTCCTGGCCCCCTTTCCTTTTTACAGC
CTTGCCTGTGCTCACTATACCAAAAGCTCTTTCCCCAACTTTGCATGGCTGCCTTGCTTAATTCTATTATTATATTAATTAATTAATTAATTAATTCATA
GACAGATAGTCTGGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCATGGCTCACTGCAGCCTTGAACAGCTGGGCTCAAATGATCCTCTGGCTTTA
GCCTCCTGAGCATCTTGCTTAATTTTAGATCCCATCTTCCACCGTTGCCATCTCAGAGAGGCCTTCTCAGACCATCTCCTTAAAGCACATCCCCATATTG
TTTCTCCTAGCACCATAAACTTTCCTTTTGTAGCATCCTTAATTAGTAACTTTATGTGTATTTGTATACATATTTTCTGCCTTCATCAAGTCAGGGACTG
TGCACTAGGTGTATATTCATTGTCTAGCACAGCACCCAGGCACATAATGATGCTCAATAAATATTTGTTGAGTAAATGAATCTTCATCTTTTCAAGGTCT
TTATCCATGTCTCAGGTTCCAGACCAAATCCTACTTTCCTTCTTAAATTAGCCTTCTGATCCCCCAAGTCCAGGAAAAGCTCACTGTCTTGACATGCCTC
TCGGTAGCATGCCGGTTCTTCAGTCATGGTGATTATCGCTGTCTGACGGTATCAGTTACGTGTGGGTTTCCACCTCTGGCCTGCATCCTCCCAAAGCAGG
ACCACACACTGTGCATCTCTGCAGGGCCCAGAGCACAGCCTCGCTCAGGGCCCCCGAGCACAGGAGGCGCTCAGTGAAAGCACGTGGACCCAAATAGATC
AGAGAGCAGGAATGGCGGAGGATGTGAGTAACTGGGCCTTTTGCAGGGATAAAATAGGTGCCCTGCCCTCCACAGCCCCCAGGGAGAAGGATGACAAACG
CTCCTTTTGCCCGGGAAAGTTCTGGGGGTAAATCTCATCTGCCCGTTGCAGCCACAGAGCAAAGTTCTGGAGCTGAGAAGAGGGTAAGAGAAAGCCCATT
GGMCTGCAGCCCCAGAATTACAGAGCAGCCCAGACTCTCTTCTGCCCAGCTGTGGGCTGCACAGGAGGCCTGGGCATCTCTGCCAGTTCCTTTCTCTGGA
GGAGAACCCCGCCTCCAAGAGAGGGGTAAAGTCGGAGCTTAGAAGCCAGGAGCCCACCCCCAGGCAAGCCCAGCTAACAGCCCCCAAGGCCACCACCACC
ACTCACTGCTGGCGTAGTCAGTCCCTTCCTCCTCTCCAGGGCTGGTGGGAAGGCTGAGCCCTCTCTTTCGGGGGCTGAGTCTGGACAATGGGAAGGGAGA
AGCCCCCTCCTCACTGCCCMGGGAACATAAAGCAGGCCTTTCACTGAGGAGTTCTGGCTGCTTCGGTTGGTTCTTGGCACCCAGCAAGGCGGCGTCGGGA
GGGGCGGGCATACAAGCGTGTTGGGGGTGGGGACCAGGCCCGCGATTCTGAGGAGATTCGCCCGCCCAGGGCCACCGGGCTGGCTCCCCAGCTGTGGGAT
GAGCTCATGCAGGGAAACCGGAACAACTTGGGGTGGGGGGAGGGAGGAAGAGTGGCATCTAGGAGGCTGCGAAAGCGTGGCTCTGGGGAGGAAGTTTTTC
ATGGGGAGTAGGGACAAGCCTCCACTCCTCCAGCCCTGCCCCCGCCCCCCAATTCATATCGTCAACTCCACAGCCCCTCTTCACACCCTTCCTTGGATGG
AAATTCCTGGCCACGCTGACAGCCGGCCAACCTGGGTCGCCAGCCACCCCCAGCCTGGCTCGCCATCCCTACAGTCCCTCTCCACACCCTTCCCCGGAAA
TTCTCAGGCCCCACCGCCCGCCGGCCACTGCCCCCTTGGCCACACAGATGCCAACGCTCCGTTTTGGCCAAATCAGGCTGCCCTAAGCCCGGAGCACAGC
TTCTCTGGGGTGTGTCGGCAAAGGGGGCGGGGGTGCCCATCGCAGGTGCCTTTCCACTGCACGCGCCAGCAGGAGCCTCCTCTCTGGACCTTGCCCCTCC
CAGTTTCCTCCAGCCTCCCCCCATGAAGCGTCTCTTCCCTCTCGCCGAGAGTTTGGCGTAGACAGCGAAGGAGCCATCGTGACTGGCGGAGAAGCCTGGA
GTAGACGAGACAGAGACGGCGACCGAGTCGGGTGGGGGATGGGGTGGGGACCGACACTAAGCCCTTGGGGCCTAGAGGCAGCCGCTACTGGGGAGAGGTG
GGGAGCAGCTCACGTCCTTGGGAAGAACTCTCTTGGTTTGGGGCCTTGGCTGGGAGGAGGAAGGGGAGAGGAAGAAGTAGGATCCGATTATTTAAATTTG
GGGATAAATTGTACTAGTAACTCTTGCACCGTCCTTCCACCAACCTCACTCCCCACCCCCAACTCGCGTGCACACAGGGACCGCCTCTGCCACCCTGAGA
TTTTTGTCTTAGGGTAGGAGTGGGACCGCACTGGGTCAAATGAACCGGTTCCCCCCCCTCCCCACCCCACACACAACCCCCCTCCACCGCCCTCCAATTC
TTAACCCTGCCTCTGTCTACGCACACACGCCCCTCTCCTGGGATGGGGTAGGAGGCTATTGTGAATGAGGCTCATAAGCATCGCCCCCGGCCCTAGATGG
CAAGTTCAAAGCCACCACCCAAGATCAGCTGGTAAGAGCCAAGACTTGGGGAACGCGTCCTTCTTTGGTTACCTTTTCCCAGACAGGATTCCAATTTCCA
AACGTGGAAGAGGTGTGCGTGTATGTGCCTGTGTGTGTGAGTGCGTGTGTCTCTGTCACTGTGTGTGTGTGTGTGTGTTTGTGTGTGTGTGTGTGGAGAG
GGGGGTGTATTAATGGGTGATGTTATAAATGAAAACAGGAGGACTGAACTTAAAAGAAACTGGTCAATTGCAAAACARACACGGATAAACAACCCTTTAG
ATGTAATTTGTGGTTTATCTGGAGGTGGAGGTGGCGCTGAAGAGGAACCCCCGCCCCCCAATATTTTATCCTTAGCTGCGCCTCCACCCCCAGCATTTGG
AGCGGCGGAGAAGCGGCTCCGGAGTGATTAATCCGGGGATAATTCACCCCCTCCCGCCCCCCGGCGCGAACCCCGCGAAGCGGGATTGGAGCGAGTCATT
TCCGAGAGCGCAGCGCGCCTCTCCCCGGCCGGGCGGACACTTGGTTCATTCCAGCCGCAGAAGCTCAGGGCTCCCGCGTACCGGGATTTTTTCCGAGCAG
AAAAAAGCTCCAGAGCTCTCCTGACCTCCTTTCTCCTCGGCGGCGAGCGGAGCCTCTCCCTCGGCGCTGCCGGCCGCGCCATGCCGCGCTCGCGGGGACG
GGAGCTGGGGCGCTGCGGCTGCCCCGCGGGGAGGGCTCGCGGCGAAACCGGGATTTCGGCGCTTGTGCCGGGCGCCGGGAGCCGCTGGGGCCGCCCGCCG
CCGCCAACGCCGCCGCCTCTGCTGCTGTTGCTGGGCTGTGGGTTGCTCAGCGTCTCGGCCGCCGCGGGTGAGTCCAGCCGCGCCGAGGAGCCAGCGGCCG
CCGCGCGCCCCACCCGAGCCCCGAGCCCACCCATCCTCGACCCGGTCCCAGTCCCTCCCCCCGCCTCTATCCCTGCCTGAATCTCCCACCCTCCCAGTTG
CCTACTCTCATTCTCATCCCTGCCTCCGTCTCCCACCCCACCCTCAGCCACGTCCTCACCTCCACCCTCACCCTCACTGCTGCCCCAACCCCAGCCGCAA
CTTGGACGGATGCGGCCGGTGTGGGGGCCTGGGAGACAGACATCCCCGCCCGGGGTTGCGGGGCACCTGGTCTGTGGCTTCAGTTTCTCCAGCCTCCCAG
CCCCCACGGTGCTAGGCTTTTTCCCGATAAACTTTCCRGGAGCCCTACTCCCCCGGCTCCTGATTCTGCCAGGCACGCTGGTCCTGGGGGCTGGAGAGGA
ACCGTGCGCCCCCTCCCCATTTCTGCGTCTGCAAGGTCTGCCCTTCCCTGCCCCCGCCCATTTTCTCCAATTGAAACCGGTGCCCCCTCTGGAACCGACT
GCAGACTGCGGCCGCCATCCCCCTCCTCAAATGCTACCCCTCCCTCGGCGCTCGGAGCTAGGAGGGGGTTCAGGTGGACGCGTGCCCACGGTGGGGGTCC
CGCGCATTCCTTGCAGGAGGGTGCAGGTGGGGGCTGGAGGGTGTTGAGGGATGGGAAGGAGGGGGTGGGGGTTGTAGCCCGAGGCGGGGGAGGGAGTGCC
GCCGCCAGGCTTCGCGCTGCCACATTCCCCTCGGTGCTCACTCCGCGCCAAAGTGCCCTTTCCCGCGCCCTGCTGCAGCCGAGCGCCTCGGCTGCGGCAG
CGGCAGCGGCGGCGCGGGCGGCGGGACCAGCTCCCGACGACCGAGTCCGGGAAGGGGCAGATCTAGCGGGTGCGGAGAGTCCCGGAACTTCGCGGGTGTC
TGGCTGCAGCTTGCAGCGCGCGGGGGAGGTACGCGAACCTTCGAGGGAACCCGGTCCCCTGTGGAGGCTACTGGCCGCGACTGGTGCCCTCCCGCTTTAC
CCACAGCACCCCTCCGAAGCTCAGTTCTAGCTACAAGCTAGAAAGTTCCGTGTGCCCGGGTGGAGACGGGTCCAAACCGGGATGCCTGGAACCGCATTTT
CATTTAGCCCGCGAGGCTGACACCCACTGGGGGAGAAACCGAAACACCTGCTGGCCAGGCCTAGACCTAGGGCACCTTCGACCTGGAGCCGTGTTTTCTT
TTTTGTTTTTGTTTTTGTTTTGTTTTGTTTTGTTTTGAAACCACCGATTGAACCTCTGAAGGCTTGGCCTGGACCACCCCAGTTCCCCTTCTTGGGAAAG
TGCGCCTCTCCTCTGGCAGGTCAGTGAGTGGCGAGCTCTCTGGCCCACTCTGGCCTTCAGCGTCTTGTGAGTCTGTCCTCGCAGACCGTGTCGCCCACCG
CTTAACCGCGGCATGTTGGGGTTCTTGGTCAGGGAGGGCGCCCCGAGCCAGCTCTGGCTCTCTCATTCCTAGCTGAYGGGACTTTCTTAGGTTCTGCTAA
GAGTCATAGCCACCGACACCCAGAGAGGGGCGCCCGCGGTGCGCGCGCCTGGGAGCTCTGGCCTCTCGCACACCCACACCCACTGGGAGGCTGTGCATAC
CGACGCTGCTGGTCACCCAGACTTGCCACATGGRCGGTGGGGGAATCGCTGCTACCTCCCGCCAGGCCTCCCGGACGTACGTTGAGGCGAGGCCGGTCTC
TGGCTTAGCTGATTGGAGAATGTCTCGGCATCGGACTGAATTGTTTTTCTGGCTAGATTTGTCCCTGCCCCTTGGGCATATCCTGCCCCTAGGGGAGAGA
AAAAGGCCGACTCACCGGCGCTTGCMCCGCTCAGCGGTGCTGGAATCCTGCCCTATAGAGATCCATTTGCTCGCAGCTCCTTGCTCAGTAGAGAAGTTGC
GGGGAGGGGGCCTTGTGTTCATGGCTTGGGGTAGTTCCTCTCCGGCAGGCCCTGCTCTGGCTTGCAAGCTTCCAGTACATTTCTTTTCTTTTCTTCTCTT
TCTTTTTAAATTTTTTTTAAGACGGAGTTTTGCTCTTCTCGCCCAGGCTGGAGTGCAATGGCGCGGTCTCAGCTCACTGCAACCTCCGCCTCCYGGGTTC
AAGCGATTCTCCTGCCTCAGTCTTCCGAGTAGCTGGGATTACAGGCGACCGTCACCACGCCCGGTTAATTTTTGTATTTTTAGGAGAGATGGGGTTTCAC
CATGTTGGCCAGGCTGGTCTCRAGCTCCTGACTTCAGGTGATCCGCCTGCCTCTGCCTCCCAAAGTGCTGGGCTTACAGATGTGAGCCACCGCGCCCAGC
CCAGTACATTTCTTTTTAAGCCTTTCCCGCCTTTAGATGGGCTGTTTGGCCTTGCAGGCAGCAGAGATTTGGAAATGGACTTGGTGACAGAAGATCGGCA
GGATTTGGTACATTAGAAGGGGAAACACATTCATTTTGTGTTCAGTTCACACTGTTGAATTTAAAAGATGCTCAGGACTGAACCGTCTCCCTTCCTCGGC
TCAGTGATCACTGGATAAATGAATAAAATRGTTTGAAAAAGGGGAGTCTCCTCACCCACCCATACCTTCTCCCCTCAACCCCTTTAGTCCTTGTCCTGCC
TTGCACTCCCCCTYCCCCTCCCCACCCCAGCCTCCCTGGAGACTTCCCACCAATTACCTGCTGTCCCTATCAATCATCCTCCCTTTTTTTTTTTTTTTTT
TTTGAGAGGGAGTTTCACTCTTTTGTTGTCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTTGCTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCT
GCCTCAGCCTCCTGAGTAGCTGTGATTACAGGCGCATGCCACCATGCCCAGCTAATTTTGTATTTTTAATAGAGAAGGGGGGTTTCTCCATGTTGGTCAG
GCTGGTCTCGAACTCCTGACCTCATGATCTGCCCACCTTGCCCTCCCAAAGTGCTGGGATTACAGGCGTGATCCACCGCACCTGGCCACCCTCCCTTCTT
AAAACACATTTCCCTTTGACCTGTGAACAGGCTCATCTTTACCACAAAACAAGCCAAGAAGCCTTCTTGGCCCTATTGACCTATCTAAGCCACTGCCCCA
TCTCTTTTTGTCTTTTAGTCACTTCTCTTCAAAGGGGTCTTCATGTCAGTTTTCTCTACTACCCGTCACTCCTTACTTCARCCTCTGTCTCCAGGATGAC
ACTGGAACACTCTAGAAGAGAGCACCAATGACCACCTCAATTGCCAAATACATTGTACTTTATCTTTATTTTCTTTTATCTCTCTGTGGCTGTGGCCACT
TTGGATGAATTTCTCTTCCTTGGGCTTCTGGGACACTATGTTTTACTGATTTTTCTCCTATCTCTTGCGTGTTCCTTCTCAGTCTCTAATACTAACACTT
ATTCCCCTCCCTGAAGTATAGTGTCCTGCAGCATTTAATTCTTTGTAMTTTTTCCCATTCCTTTTCACCACTCTCTGGGTGAGCTCATCCTTGCCCAACC
CTTTCACTACCACACTCTGAAGCTTCCAGACAGATCTCTTCTGCCAAGACATCTCTCCTGAAATTCATCTATTGGCTTCCTGGTCCATGGGAATTCTGGG
TCTAGGTAACCCATRTATCCAGCTGATCCTTGGACATCTTCACTTAGATATTTCCCTTCCAGAGCAATCTTAYTAGCTTCTTTCTTAAGCCTCCCGTATT
TCCTTTGTGAGCTGGTGGTTCCTGTAGCCTCCCAGTTATGGAGCCCAGAAACCTTTGGATTATCCTCAACTCCTTCCTTATCATATGGTCATCAAATTCT
GTCAGTTTCATATCCTCAATTATTCTCGAACCTAGCTACTTTCCTTGAGGAGCTCTGAGCATTGAAAAAGCTATCATGCCTTCCACTCCCTTACTAACTA
ATTTTTAAAAAGCAATATTAAACTATAAGTAGATAGTTTAAGTAGATGGAATTCTGACAAAGTTCTGATTTTTCCCGTGCCAATTAYATCATGGCTTTAA
AAAAATCAAATGCCAAATTAAAAAAATTTCCCCTGCTTTGTATGTTGTCTGAGTGCTTGCTTTTAGTCAGCCTCTTGTAGACTAGAGCACTGACTGTACT
CAATGTTCTACTGTAGTACAAACTGAATTGTATTAAAAAGCATTTATTTGTCTGCCTTATATATTAAAATGTGAGCTTACTGAAGGCAGGGATGGTGCTT
TATTTCTCTTGGTATCCCCATATCCAGCTCAGGTTCTGGCATAGAATTGGTGCTTGATGTATGGCTGTTTGATCAGATGATTTTTACAGTTTTCTTTTTC
TTGGAGAGTTTTCCAAGGACTGATAAGACTAAATCGGGGGTCAAGGAAGCCAGCTGGTTTGCAGAGGTAATAAGATGACAAAGACATCTGGTCCCCTGTT
CCTTTCCCCACAACTAAGTATCACCGTTTGGTTACAGTTCCCTAGGTTCTAGAACCAATGCAACAATAAGCCCTTGGCATACCACTCTCCTCCAACCCTG
AGCCAAGGAAAGGCGTTTCACTACTCAGTCACCAGTGTGTGTATGAATTTGAATTTCCATTTGCAATCAAGCTGAGGGTTTATGGTTTTTAAAAAATGAG
CTGACTGCAGCGGAGAGTGCCCACCATATCTAGGGCTGGTGAGTGTGTGGCTTTGTTGAAGGTGAGATTAGAATCATGCACCAGGGACTGGAGGACCAAA
TTGCAGGGTCTTGGACACTGCCTGGTTTGGGTTTCTCCGGCAGAGCCCAGCAGGCAGCTTCAGCAGCACCCCCTTCACCCTCATTCATGTGCCTGACCTG
CCTGTTTCACCCTCATCATCACGCCAGCAGGATTAAGGGAACCTGATTGCTCCGCAGAGCCTTGCTGGAGACCCAGCTGATCTTCAGGCCTCTCTAGGGC
TCAGTCTCCCTGCTGTAAAAAGGACAAGTAATTCCTGAGTTTTTGGAAGGATTAGAAACCAGAGATGCAACGAGTCCAGTGCCATACCTCATCGAATGTG
CCTATTAAATAGAAGCTGGGGCCAAAGGAATCAGCCAGGAAGTCTATGTGCCCTCACCATGTCCTTCCCCACCTACCATGCTCAGAGAGCTGTTCTGGAC
ACCCAGGGGAGTTATAATAACAGCTCATATTCACTGAGTACTCACCGGCACTGTCTTAAGCACTTGGATGTATTAACTCAATCCTCTCAGCAACCCAGTG
AAGCCTGCAGTATTATTATTCCCATTTCATAGATGAAGAAACAGGTTCAGAGAGGACACATAACTTATCCACGCACTAAGTAAATAGCCGAGCCACAGTT
TGGATGCAGGCCTGGCTGACGCCATATCTTTTACTCATAACCTTGTTGCCATTCAACTTCTTGGGGACCCAGCTGGTACCACGTCCCTGGAAGCGTCTGC
CCAGGCTGCCTTCTTTGGCCTTGCTCTTCCCACTGGGCTGTCCTCATCAGTTATACTGTGCTGCTTTTGAGGCCTGAATCCCACACTTCTAATCCTCAAG
CAGCTATTGTCCATTCCTTTCCACCACAAGCTCCTGGGKKGGGGGGGGGGCAGGCTGTAAAGTCATTCTTGGTTTCTAGCCCCAAACACCCATCTAGATG
GAACTCTACTGTGGGTTCTTACAACTCCTCACATTTCCTTTGTTGTCAGAGTCATCAGGACATATTGGAATTTCTTGCTTAGTGAGGTGGTTATCTGTCT
CATTTCCCTAAAGGACTGTGAACTGAGGCAGGGCAGTGTAGAGCACATAGTGGACACTCAGTAAGTGTGCTGATGAGACAGTCAGAGCTGATGAGACAAT
CAGAGGCAGGTTGTTTGGAGCCCAGGGCTCCCTTTCCTTTAGACCACCCTGTTGGGCATTCCCAAGGGCAGCTGGGGGCTGGGAAGACTGGAAACGGGTT
AAGGGGCATCTTCAAGTAGGAGGCAGCCCCAGGCCCATCTGCACAATAATAATAGCTCTCCTTTACCGAGTGCTGGTTAAATGCTTTGTAGACATTACCA
TTTAATTATCACTGTAATATTGTATTTGAAGATACTGAGGCTCAGAAAGTAAGCAGCTGGGCCAAGGCTGTAGAGCAGGTAGGTAAAGAAGGCGGGATTW
AACCTCAAGTCTACCTGACCCTAGGGCCCATCTTTTTGGAAAGCCCTTGTTACAGTGCTGGGCCCATTGTTACCATTCAATACATGTTAGATACTATTAC
TATTACTACAACTACGGTCTACTTGCTTTCAGCACCAGCCTCTTAGAAATATAAGAGAAACAATTCATACACTCTGCCACTCTCTGGCACCACTATACCC
AGTGGGGGGAGTCTTTTCTCTTTGCTCCTCTGGCTGAAAGCACACACCTTAGAACCTGGTCCCCTCACTCAACCCATCAACCCAGCTCAGTGCCCTTCAT
CCAGGAGGGTAGGGAGGGAGAACCCTCTACCTCGAGAATGCACTGCATTGCCCTCCCTGGATTTATCTCCTTGGGTGGCATATGGCCTTGCACCCCTCCT
CTCCATCTGCTGCAGTGTCGTGAGAGCTTCCCCAACAACAGGGGAACATCGGGGTGAACCTGCAAATAGAGGATTATTTCAGAGTCTTTATGCTTACAAA
GACTCTGTCTCAGGGTTCACTCGCTTTGAGAAGGGCTTGGTTTTCCCTTGGACCCACAGAAAGCAAAGAGTGGGCTATGCAACGTGGGAGTTTCTCTACT
TGAAAATGATGGCGTGGCTCTCAGAGCTCTTTTCTTACTCTTGTAAGTTAAGAGAAACAAAGGAAACTCATATTTATTTTTCCCCTGGACTCTAGAGAGC
TCAATCTCCTGGACTGTCTTTTCATACTCCTCTTCTAAAAATGAGATTCTTTATCTTCTTTTCTTCTCTCCCACCCAAACACACACTTAGTTCTTAGAGC
TTTGGGAGAAGGTGAGACCCCTTTGGCCTTCTCAGGTAGCTTAATGTCACATGAAAGATAGTCATGACCCACTATACATCCACAAATGTGAACTTTAGCC
AAACAGCAGATGAGAGGGAAGGAGATGGAGTGGAACATGATGGGGTGGGATTGGAGAAACAGCCTAATTTGAGGTAGACTGAGCTCAAGTAGGAAGGTGT
AAGTTGGGTAGGATCAAAGGTGGGTTGGGATGTGTTGGCACAGGATAGATAGAGTGAGACAGGTGATGGAATGGAATGGGATAGGATTGAGTGAGATGTG
ATGTCGGGGATGGGATCGAGAGGGTGGGGTGTGCAGTATTCAGGGGATTGACTGGGATGGGGGGTGAGGTGGGGAGGGAATGTGTTAGAAGACACTGGGG
TGGGATGGGATAAGATGGGGTGGGTGGAGTTGGGGTCGAGTAGAATGGAACAATTGGGATATGATGGAGGGGAGGTGAGATGTATTGTGGTAGAATGGCA
TGAGATAGAGGTGAGTCAGATTTATTGGGATGGTTTGGGTTGGTTGAGTTGGAACAAGAGACTGGGAGATAAGATGGGGTTATTATATAACCAATTGAAT
AGGCACCAACTGAGTGGACATGAGGAAATGGGAAGTGAGGGAGGGCACTGGAAATACCTTGACCCGCCTCACATTGTTGTAGCATCTTCATCTTCCTGAC
CAGGACTTTGTGAACGTTGGTCAGTTTCTTTCTCACCTGAATTGTGAAATTTCCAGCAGACATAAAGTCTCCATTAGCCTTTGGTCCCATAAAGCATGAA
TCCTAAAATGCTGGAGGCTCCCTTTTCCTGCCATAAGGGATCATTCTTCAGGGAGACCCTGGGAGTCCCATGTGGCCACCACCAGGAAACCATCCGAAAA
ATATGCYTGGCACAAACCAGGAACCCCAGGGCAGCTCCTATCAAGTCCACCATCAGAGAAAGACATTGTGCCTACCCTAGAGCTAGCACAGTGGCTCCAC
TCACAGAAAGGAAAGCCGAGGATGGAGTAGGGGTTTACCTCCATGGCCCCCTCTGCTGGGCGAGTCTCTCTCCTAGAGACTCTCTTACTTTCCACCTGTT
TGTGTTTGTATTGTTGGAAAATTTTAAACTGAATTTGTCTTTCAAGGGATGTCAGTCCCACCCTTGAAAAATCATTATTATAAGGAACTTTTATGATGCT
AAAAATAATGTATGTATAGTTAAATTACTGMGAGCACCAAATTACTCTGAGAAATTTACTTGAGAATCTCCTGTGCCATCTAGAACAGAAAATAAGGGCT
TATATTGCAACACAAATAGCCTTCCTACCTGCTAATGTCTAATTTATACCAATTAAGTGCAATTATAATCCATAAACCTCAAAAAATTATGTGTCCATCT
TCAAGGTTTTCAAATAGAAAACAGAATAAGTTCTATTATTAAGTASGTACATCTATTTATTGATTGAAAGTAAGTGAGTGTGACGGATGTAACTGTAAAG
GGAAAAAGCAGAGACTTTGAAATTTGAGATACAAGTATATTATGAGAGAATGTGCAGACATTTTGTGCAGAATGATTGATGGCCCTTTCTGAGATGAGCA
AGTGTGGTAGAGTCGACTCAGGCCTCGGGAGGTTTGTCTTCAGGTTGCTGCCTGACCCCAACCCTTTCCCTACCCCAGCCTCAATCTGTCTACCTACCAA
CCTTCATTGCTTCCTCCATTGCCATTTCAGGAATGGAGAGAGTTCAGTGATTGGGTGRGACTTGGTGATGGTGTGTGGACTTGGCAGTAAGAARGAGATG
ACAGTTTAATGGTTTATTTTCAATTAATGCTAAAATGTTCCTAGCACGAAAACAGACATCTCAATGTTGGCATCCCCTCCTGCCAGGGACCTATGTGGCC
CTATCCTCCTGGCCTTATCATATGTGCATTCCTAGAAGGGCTGACTCATAGCAGATCCTCAGCCAGGAGAAAGGCCTTGTTTGGCCTAGGAGTCAGGAAT
TCAGCCTTCCAGGCTTGGCTATGCCCCTAACCACCTATGTGAACAGAAGCCAATCGTTTCATCTTCCTAGGCCTCTATTTTCACACCTATAAAATGGGGA
TAATAATACACAGTGTGTCTATGCAATGATGGACTTGGAAGCTCTTTAAAAAAGAAGCGTCCAAAGAGAAGCCAGAGCTATTAGAATAAGACCAAAAAAG
TTTCTAGTTTAAGCCCATCCAGTGGGAGATCCTGCCCAGGGCTCGGGCTGCTTGGCTTTCCAGGGATGGGGAGCTCACGACCTCTGCAGACAGCTTGCCA
GGCTATTTTTCAGGTCTCAGGGGTGAGAAGGAGGGTGGGCTTGCTGAGCTTCTTGGCCTTGATCCATTCTTACCCTCCAGTGGCCTGTGGGACTGCTCCT
GAAAACTCAAAAGGGAAGAAACAAGCCATCTCCATCCAGAGCCCATCAGACATCCTGGTCACAGCCTTTTCCCCAACCACCACCCACCCCTGGGCAGCAG
CACTGTGAGTTCAGTCTCGGAGAGTTGACTGCTTGGGCTTCACTCTCACTAACACATTCGTCCAGGGTACCAGATCTGAATGAGGCCTTTAACTATAGCA
AGAGGAAAATTCCCTGCATTCGAGAACCTCTGGGACTCACATCTCCTACGATATTTTGTTCTAAGGAACATGGAAAGAAGACAGTGTTACAGGGACAGTT
TTCCTGAGTTACGTGGAAGGCACAGTTGACGTTTTCTGTTTTCTGCACCCCACCAAGTCTCAGGTGGGTAACATTTGAATTAATCCTACCCTCAGTCCAT
TAGCACTTTATGATCACCTCTCTGTGCAAAACTTCTCTCTTATTTACAAAGTTTGCCTCCCTTCATCCCCAATCCTGAAGCTAAGCTATCCCAATCCCAA
TAAGTACTCATTCTGATGTGTTTGATATATGTCTTCAAATATGCATGGATCCAGGCAGGGCGCGGTGGCTCACGCCTGTAATCCCAGCGCTTTGGGAGGC
TGAGGCAGGCAGATCACGAGGTCAGGAGTTTGAGACCAGCCTGATCAAAATGGCAAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTG
GTGTGCACCTGTAATCCCAGCTTCTTAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGTTTGCAGTGAGCCGAGATTGCATCACTGCAC
TCCAGCCTGGGTGATAGAACAAGACTCCATCTCAAAAAAAAAAAAAAAAAAGCCTGGATCCTTATAAAATGTGTAGGGTTGTTTGTATGTATATGTATTT
TTTATTTCTATAAATGATATTGAAGTCTAAATTTCATCTGGTTTCTTACTTTATTTACTCAACTCCATATTTTGCATATCTCACCATGCTCATTGAGTGT
ACCTAGTCAGTGGTTTCTAACTGCTTCATTGCATTATGAGTTATACATCCATCACGTTTTACGTATCTGTTCCCCTGAGGATAGCCATCTAGCTTATCAG
CAACTCCCCCTTACTCCACCACTAAAAGTTCTGAAGAACATCCTTGTACATTCCCATTTGGGACCCTGTGTGAGAATAGTTCTGGACTATATGATGGAAG
ATTTGGTCCCTGGGTTAGTGTGTTAATTTTTCATGTTCTGCCATGATGTTTTTCAGAGCACCATGGAAATGGTGTGCCAGGTCACATTTCCACTAAGAGT
GCCCAAGAGTTTCTGTCTTCCCACGTCCTCATGAGTACCTAATATTAGCCACCTGTCCAATTTTGCCATTTTTAGGAGTGTAAAGTGCCATCTCGTTGTA
TTAATTTACACTTCTCTGATTACTAGCAAGTCTGTTAAGTCTAGTAAGCTTGTTAGCTGTTTGAACTTYTTTTCTTCTGAATTACCTATTTATATTCTTT
GCCCATTTAAAAATTGGATCTCTTGCCTTAGARATCTTCCGGTTGATTTGTAGAAGTTTTGTTTATAGTCTAGGTGTTGCCCTTTGTTAATTTTAGAAGT
TGCAGATAGCTTCTTCTAGTCTTTAATCCATCTATTTGGCATATGGCAGCTTTCGTTGGACAGAAATGCTTCCTTTTGATATAGTCAGATCCATCAGTGT
TTTTGGGGAGGTAGAAATTGAGATAGGAGGGCACTGATGAGCTAGAGAGCATGGTGGGGTCCCATGGGCCCACTCCCTTGCAGGGCTGGCTCTCTGTATA
GAGGGCTCTGAGGAGTTCTAGAACCTTCCTGTCCATCCATCCTGGGCCCCCACATCCTACAGGAGGTTTCTGGCTCAAGGCCCTGTGTTTCCCGAAGGCC
CCAGTTAAAGTACAATTTAATGGATGGATGCTATACCTAGAGAATGGGCAGGATTACTCCTTSARCAGGCAGTTATTGAGTGCCTCTGTGCGCCTGAGCT
CTCAGCAGCACTGGGGACATGGGCAAGTTTCAGTGCTGAGTGTACATAAGAGAGGCAGCTACACACAGGCTCASAGCAGCATTATTCACAACAGCCAAAT
GGCGGAAGCAACCCATGTGTCCATGTGCAGATGAGTGGATAAACAAAATGTGGTATATCCATATGATAATCTTTCAGCTTTAAAAAGCAAGGAAATTCTG
ACACCTGCTACAGCATGGCTGAACCTTGAGGACATCATGCTAAGTGAAAGAAACCAGTTACAGGCCAGGTGCGCTGGCTCACACCTATAATCCCAGCACT
TTGGGAGGCCTAGGCAGGTGGATCGCCTCAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGTAACTCTGTCTCTACTAAAAATACAAAAATCAGC
CGGGCACGTTGGTGCGCACCTGTAGTCCCAGCTACTCGGGAGGCTGGGTCACAAGAATCACTTGAACCCAGGAGGTGGAGGCTGCAGTGAGCCGAGATCG
CRCCACTGCATTCCACCYGGGGTGACAGAGCGAGAGTCTGTCTCCAAAAAAAAATTAAAAAGAAAGGAGCCAGTTACAAAAGGGCAAATAAATACCTACC
ATATGCTTTCACTGATGTGTGAGGTATTTAGCACAGGCAAATTCATAGAGACAGAAAATAGAATGGTGGTTGCCAGGGGCTGGGGAGGGAGAGATGGGGA
GTTAATCATTTAATGGGCACTGACTTTCAGTTTTGCAAGATGGAGAGAGATCTGTGGATGGATGGTGGGTGATGTTAGCTCAACAGTGTGAATGGACTTA
ATGCCACTACATTATATACTTCTAAGTGGTTCAGATTGCACACTTATGTTATATGTATTTTACCACAATTTTTATAAAAGAAGAGGGACAACTCTTTAGA
CACAAGGGATCAAGGAAAGCTCCCAGAGAAGGATGTTCAAGCCGAGACCTGCAGGATCAACAGGAGTGAGCAGGTGAAGAGGGGAGCAGGAAATGGCTTG
CGACAGTGCAGGTTCATCTGCATGGGCTCCTGGTTGAGTGAGAGTGGGTTGTTCCAGGTCTGGAAGAAGGTTTGCTCACCAAAGAAGGGCATTGAGGAGG
CTGGAGGRTTTGGAGAAGGGGGATGGCTGGCTGGCTTGGCYGGCAGCCACAGGTCTCTGAAAAAACACAATGAGGGTAGGGTGCTACTGGCAAAGGCAGG
CCTTGGTGAGGGTGCCTGGAGCCCCACATCAGCAAATTGGGGCTGAGGGGATCCTTTTTCTTCCACAAGTCCTCTACCTGGTGCCCTGGCCTCCCAGGGA
GGGTAAACAGCTGAGTGAACAGTCAAAAGTACATGAAACCCATTCCATGAATCATGGATCATAAGTTATGGTTCTGTTCATCATGCCTCCATGAGAACAT
CACAAAACTTCCATCTAGAAAGGAAATAGGCCAAGTGTGGTGGCTTGTGCCTCTCATCCCAGCAGTTTGGAAGGCCRAGGTGGGAGGATTGCTTGAGGCC
AGGAGTTTGAGACCAGCCTAAGTGACAAAAAGTGAGGCCTCTTCTGTATAAAAATAAATAAATAAATAATTAGCTGGGTATAGTGGCATGTGCCTGTAGT
CCTAGCTACTCGAGAGGCTGAGGCCGGGGGATGGCTTGAGCCCAGGACTTGGAGGCTGCAGTGAGCTATGATTGTGCCACTACACTCCAGCCTGGGTGAC
AGAATTAGAAGACCCTGTTTCTCTTAAAAATGTGACTGAAAGAAAGGAAGAGAGAAGGGGGGGGAGGGAGGGAGGGAGGAAGGAAGCAAGGGAGTGAGGG
AGGAAAGAAGAAATAAAAGAAAAATAGAAAGTCTACCTACTTGGGCTGAGTCAGCAAGTCCTTTCCAGGTGCTGTCTGTGGGGAGACCTGCTATCTTCTA
CCTTGTCCAGGCCATGTGTGCCTGTCAACCTTTTGTTCCTTCCGCCTCTCTCCTTTCCTCTCCCTTCTCTGCCAATCTCCTCCACTTATGTCTTTTCCTT
TCTTTTCCTGTCCATCCCCTTCCCTAGTCCTGCTACTTCCCAAGAAACCAGGATTCCCTCTCATTGTAAGTCATCCTCCTCCCCATCCTCAGCCTTGCCA
TCTGTGAGAGCCTCTTCCTGACCTTTSACCTTGCTGCCTCCACCCTCACCCCAGCCAGGACCCTCCCCTCCGTGGCCTTTTCTTTAACCAGGCTTCAACC
CCATACCTCTGTCATCAAGGTGGCTTTTTAAGGCCTTTAGCTGCTCCCGTCTGCCTAGGAGCATTGGGACTGGCTCATGGAACACTCACTGAGTACCTAG
TGCAGTGGYCCTGGGTTGGGGGTCATGGACACAAATACCTTTTAAAACCAAGTTCCTTCCCCCAGGGACAGTTATAAGCTACTAAAGGCCAAAGGAGCTC
CAAGCACAGCAGAGGGGGAGAGGGGAAGAAGGAAGACTTCATTCAGAAGGTGCCAGCAGGCTCTTCAAAAGTGAGCAGGGATTCGGTTGAAGGAGAGCAA
TTTGCAGGTAGAATATCTTCGAGGGAGCAGCTAGACAAAGACTTAAAGCAGCAGGCTGTGCTTGGGAGATGTCAAGTTTGCATCCCCYGCCCCCCCTTTA
TCAGCATCATAGTCTTCCTTGTGGAAGCTGTCCCTTAGTTTTTATTTTTATCTTTTTTATAGGCAGAGTCTTGATCTGTCACCCAGGCTGGAGTGCAGTG
GTATGATCATGTCTCAATGTAACCTCGACCTCATGGGCTCAAGTGATCCTCCTGCTTCAGCCTCCTGAGTAGCTGGGGCTATAGGCACATGCCACCACCC
TTGGCTATTTTTTTTTCTAAACTTTTTTGTAGAAATGGGGGTCTTGCTMTGTTGCCCGGGCTAGTCTTGCACTCCTGACCTCAAGTAATCTTCCCCCTTC
AGCCTCCCAAAGGGCCAGGATTACAAGCGTGAGCTGCAGTCCCTGGTTGGCTGTCCCTTGTTGAACACTCAGGCCCTATGCTTAGTGAGAGCTGCTCATT
CCTCCCTTACCCCTTACAAAACTCCTAAGAATTCTGTCATTTTGCAGTTGAGGAAACTGAGGTTTAAGGAAATTAAATTACTTGCTAAGACCACACAAGT
AGGGAGGGGGAGAGCCTGGATTTAAACCTAGTCTRATTCTAGAGCCCATAGGCTTAACCACTGTACAGGTTTCCCAGTTAAAAATGTAGATTCTGGCCAG
GTGCAGTGGCTCACRTCTGTAATCCCAGCACTCTGAGAGACTAAGGTGGGAGACTTGCTTGAGGCCAGTAGTTCAAGRCCAACCTGGGCAGCATAGTAAT
ACCCTGTCTCTACAAAAAATAAAAATATTAGCTGGGTGTGGTGGCGGCACACGCCTGTAGTCCCAGCAAGTCAGGAGGCTGAGGCAAGAGGATTGCTTGA
GCCCAGGAGGTCAAGGCTGCAGTGAGCCATGATTGCACCACTGCACTCTAGCCTGGGTCACAGAGCAAGACCCTGTCTCAAAAAAAAAMAAAAAAAAAAR
AAAGAAGAAAAATGTAGATTTCCAGGTCTTCCTCTGATTTTCTGAATCAGAGGATCTGAGAGCAGGGTGCAGGGATCTGCGTCTTTAATGAGTTCTTCCT
GCTYACCTTCTGATGACCCTGGTCTTAACCCCACTCAGGAATGACTAGAAGAAGGGCTCAGGTCCTGGGTGTCTTTGAGCAAAGGCTCTGCCTCCACAAG
TCAGCCCACACCTGGGCTACCTTTGCAGCACCGCCTTCCCCTCCCTCTGTCCCTCCTTTACAATTAGCCCTGGTGCTGGTGCCATAAGGACATGTTCCCA
GGGAGTGCAGCAGCCCAGAGGTTGTCACCAGGCTGACCAGATTTGTGTTGATGAGATTAGGCAGCCCCCTGGAAGAGCCTGGGAAGGCACCAGCCCCAAA
GGCACGCATTAGCATTCCTAAACTGCTTAATACACTTCACAAAAGGGCTGTTGGTGAGGGTTGGCCTGACAGCTTGGAGCTCCTGAATCACTAAGTCTTT
CCTCCAGCCCTGGATTTGTTAGGTGAGAAATCAGGACACTCAGGGGAGTCTTATCCTCAACTTCTTCCGTGTACTAATTCCCATTATTCTGGATTTAATA
CTCTCTGAAGGGCAGACACACAGCAYTGAAATGCCGTTTTCTTCGGGCCTGTWGGTGGGGGGCAGCTGGCATTTCAGGATGAGGCATTGCAGGCAGGCTG
AGGTGAGGCCAGCCAGCCGGGAGATGAGGAAGCTACAGAGGGTGGGGCTGAGGAGGCCAGGGTCCAGCCTTCACTTTCTCCCTGGCTGGAACAGGACCTC
GGACCCAGGGYGGGGAGCAGGCAGGGTAGAAGGACCCTAGCTCAGTGAAGGGGTATTTAGAGAGTCTGTGGTCCCAGTGAGGACCCAAGGGGCTCAGCAG
GGAAACTGAGGCAAATGGCCAGTTATGCAAATAGGGCTGTGAAGGTAGGAAGCACAGTAACACTGGGAGGCCCAGAGATGGCATTCATTCATTTATTCAG
CCATTCCTGGGGTTTCATTCATTCCTTGGGTTTGAGGAAGTAAAGTAGGGACTAGTAAATAAATGCTCGGGGAGGGCAAAGSTTTCATGACCAGATGAGT
GTGGGAAACACTAGACCCTTGGCTTCTGAGGTGTGGTTCAAGGCCTTGCCAGGAAGCTTKTTAGAAATGGAGCCTCTTGGACCCCATCCGCCACCTACTG
CACCTAAATTTTAACAAGATCCCCAGGTCAATTCCTGTGCCTGTGAGAGTCTGAGAAGCACTAGGCGGTGCATTCTCTGAGCACAGACTTTAGAATAAGG
CCGACCCCAGCAAACCTTCGTCCTAGTTCATTCTTGGCCTCAGTTTTCACATTAGTAAAATGGGGCAAAAATCCTGACTTCAAAGTCATGCTTGTAAAGG
TCCATGCTTGCAGAGTGCCTGGCTCAGAGCATGCAGCTCTCCTGCCCCTTTGTCCTGATGAGTCTGTGCCCCCACTGAAGGAGGGGGTTTGGCCCTTTTG
TTCACTGCTGTGTCCGCAGATGTAGCACAGTACCTGCAGCATGGTGGATGCTCAATAAATATTGTGAATGAATGAATGAATGAATGAATTACACGTCAAG
TGGTTGTCAGATCAAACTGAACATGCTGGAGACTGCTTTCGGGAGCAGCAAAGATGCAATTTTCCTTTTGTTTTCTGTTGCTGCACCAAATTACRGCAGA
TTTTTCAGAGTGAAGGATTGCTGAGAGACTGGGCAAGGGGCCGGTGGAGGTTTTTGATGCRGAGCAATGAGATAGTTGCTCTGTGTCTGCCTGTGTTTCA
GGAAAATTCTGTTATTACTGAAATCTTTGGTTTGAAAGCCACTGTTAGAACTAAATATTTTGGGAAATGTTAGCCATTAACACCTTAGTAAGAATGAGCC
GATTAGTCCAGAAAGTAGGATCAGGTAGGTGGCAAGGGGGTAGACTTCTATGGATCTGGACCCTCCCAGTGTCCCTGGGCCTCAACGAGATTTTGAACCT
AGAAGTTCATCTTACCCAATGCTGTGCCTCTCTTTACTCTTGCTCCAGCCCTTGTGGGCCCCTCCCTCTCAACTCAGTCCCTAGAGTGTCCTGCCTCTGG
CTTTCGACCACTCTGGACCACAGGCTCTGTCCTGGGGCCATTCTCATCTCTGTGGCAGCCTCACCCGCTCACTCTCTTGAACAACCTTGTGTCCTACTTC
ATAGAAAAGTTGACACTAAAGGAAACAGCTGCGTGAGCCTTGCTGCTGAATTTGTGCAGGGAAGCGCTGAGGACACCATACCCTGTGTTACGCAGGGACG
TCACTGCCATAATTGGCATCCCTGTGCCCCATTTCTCTAACTCCTCCCTCCCCTCTGTTTCCCTCCCATTAGCCCATGCACACACTTTCTTTGTGTCTTA
ATAATACACTAAAAAACAGCCCCTCCCTGACTCTGCACCCACTTTTGGCTGTCACCCCGTCTCTCTCCTTTCCTCCCCAGCCATACTTCCTGAGATGGTG
TCTGCCAATTCATTTCTCAGCACCTGTTACCTGGCTTACACCCTCCTCACTCCGGGGGAGGTGCTCCAGCCTAGGGCACCACATGACTTCCTGTTTACTA
AATCCAAGCATCTCTGCCGGCTCCTAGACCTTCCACAGTCTGGCCACAGCCAAGCTTCCTGACCTTCTGACCATCCTCCTCCCTCCCCTCCCCCTCTTCA
GCGTCTGACACTGCCCATCACTCCTTCCCACTTAACATTTGCTTTAATATTGGAGCTTCCAGCATTTGCCTTGACCTTCTCTTTTTATTCTTTATTTCTT
TATTTTTTTATTTTTTTATTTTTTGAGATGGAGTGTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCTGCCTCCCG
GGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACASGCGCCTGCCACCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGG
GTTTCACCATGTTAGCCAGGATGGTCTTGATCTCTTGATCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGSTGGGATTACAGGCATGAGCCACCGCGC
CAGGCCTTATCCTTTATTTCATTCGCTCCTATGGCTTTCATGCCACTGTCCAAATGCTGAGACTCTCCATACTTAGGTCTCTAATGAAGACCTTGCTCCT
GAACTCCAGAACCGCATAACTCCCCACTCCACACACTGAAGTCTTCATTCCTGCTGTCACCTATATGACTCTCTCCCACCCCCAGAAACTTTACTCTCCC
AAACTTTTGTGGCCCACCTCTATGAATTGCTTCATGCATCTTCACAGTCATGCATCTTCCTAAGCCAGAAACCTGGGACTCATCCTGGAATTCCACCCCT
CTCTGCTCCCTTTCACTAACCACATCTTATGGATTTTACTTCTCAAATCATTCTCAAGCATTTTTCTGCATCTTTGCTTGGCTTGGAACTCACCCCTTTT
CTCCTGAACAGTTGGAACATAGCACTCTTACAACTGCAGTGGCAGGGCTATGGCCTCCCACATCTGTCCTAGCTTCTTCCAATAGGTGGTTCCTGCTTCA
GTCAGACAAAGGGAGTGACTTTACTCTTTAGAATGGAAGAGGAGGGACAAGACAAAKGTCAATGAGAAGTTGGTACCTCTTGAAGAACTGGCAAAGAGTT
TGAAGCTTTTGGGTTAAGASTGGCTTTGGAAGGTGCTTAAACTGATATGCCACTAACACCTGCTCCCTGCTGGGGCTCTGATGAGTAGGGTAAAGACCTA
GAATAATGGTCAAAGGGAAAAGTACTGATTCATTTATTAATAGCCAGGCGTGTGCCTGATACCCCTCAGGRCACAGGTCCTGAGCTGGGCTCTGGTGGTA
CATTCCTGTAATCCTGGTGACTCGGGAGGCTGAGGTGGGAGATTCACTTGAGCCCAGGAGTGATCATGCCATCGCACTCCAGCCTGGGTGACAGAGTGAG
ACCCTGACTCTAAACAAACACAAATTACTGGTCTTTGGTGTATCATGTTGAAGAACATGGCTTGGCCTGTTGAGGCTGAATGGAGCTTTCCACCTCCTTT
CACCATGAATCTAAATCTTGAGAATGGAGCACTCAGGACATCTGCAGAGTTAGGGCTAGGATTGTGCCTCTCGAGAAGCCTCAGTGTCCACTTTCCCAGC
CAGCTCTTGGCACGAGAATGATGGGGGKCTTGTTCTACTCATCAGTTTCAGGTAGAACAGGCGTCTGGTCCCTTGGAAGCCCTCCCTAGCCTGGGCAGAA
AGGAGGTCCCCCTCTCCTCTGTGTGCTGAGACTGCCATGGGGAGGGGAAAAGACTCCTAAATGCCTCCCCGTTCCTCGACACAACCTAACTTTGTTATGG
CGCGGGATGTTCTCCCGTTCTCTGAGTTCCTCCCAAGAGTCTTGTGTTTCAAGGCACTGTTTCTACCAGGCTGCACTCATTAAGAAGGACATGGATTCAT
TTCCCCATTTCTATTTCTGTGTTTTCAGGTCTGCTGGTACAGATCAGCTCTCCCCAGATCCCACCTACCCTACAAAAATTACACTGGGAGATGCTGCCAA
GGGGCAGGGAGGAGGTTCATTAGCATTCTCAGCTGCATTCAGAGCCACCCCTCCAGGCAGCAAGAGGGCAAAGCCATGGCCGAGTGAGGAGGTGCCACTC
AAAGAAGCAGGCATGCAGCCCTCCTGCCTTTCTGCTGTCCTGGTACAGAACCTCAGCCCCTCCCAACTTCTTATGGCCTCGACTTTCCTTTATCCCCCAT
ATGTGGTCTGAGTTGAGGCCATGAGCTATACACTTTCCTAACTTGGGTGGTTCTGTTCTTTGGCCCTGGGAAAAGGCATCTTCTTAGGACCTCATTCTTA
TTCACTTTGTCTAAGATTGAGGCTACCCTCATTCATCCCCCAAATGCACCTCATTTCACTTTCCTCTTTCAAAGAAGCAGGCAGCCTTGCCAAGGGGCTA
AAGTTTCTCATGCAGTCAAGCGGAGGGGTTGGGGAACCACCATCCCTTAATTGGCAAGCCTCTGGTGTCCCCCAAGGGCCACAGCTCGGTCTCACCGATC
AGAGTGGACAAAGGGCAGTGTGACCTCACTGATTGGGAATAGTTCCAGCCCAAAGCAGACACTTGGCATTTATTTGGCCTGTGCATTTTGATCGCGGTTA
AATGCAGTTTCTGTTAGGCTCTTTGAAATATTGAAAATAGCTCACAAACTCTCATTACTGCCTTTGAAGAGCCACAGGGGTCTGGGAACCCCAGGCAGGG
AATGCCGTTCTTGTCCAATTTCTCCTCTACACCCTCAACACCCCCTCCCTTACTTCCCCTCTCAAGTTTGGAATGAACTGCCTAAAAAACACAAGAGGAG
TCACATGGAGAGATCAAAATGTCAGCTTCATTACCTTACCGATAACGCTGATTGGAAGACRTGGCTTTGGATATGTGGCAAAATTGTCTTGTTAATACAT
CACTCTTGAATTGAAGAAGTTACCCACTCATTCACCAGCAAAGGAAACAGCCTCAGGCTTCCCTCACAGGAGCAAGGCTTGCTGGGTAAGTTAAGGGGGT
GCAAGGTGGGTTGGGGCTGAGCTAAGTATGCCAAGTTATTTCCCCACAAATGCCCTTTGGACAAGTCACTCTTCCTCCAAGGTAGGGAGAGAGTTAAGGG
TCAGAGAGAGACTGGAAAAATGTGTGCCACTGGTACTTGGTCCTCTGGAGCATGGACTGGGAATTCATTCCCCTCTGTGGAGACAAGAGTAGGATGAACA
TGTTCTCTCCTAACACTGCATGGTGAATCTGGACCTGAGCTGGTTGGCACCGCCTGCAGCTGGAGGTAACTGGGACAGGCARGACCTGTCCCACCCMATC
AAGAGGAATGGTAGGAGCCCCACCCACCTTGGACTCAGCTGTAGMTACCAGACAGCCTTGGAGGTTTCTCAAAGCTGTTATCCAGACTGAGAGGAGATGT
TGACTAAGACATTGATCATCTGGCCCGCTTATCTCTGTGGCATATTTAAATAAGAAAATAAATTGTTAATTTTTCTCTACCCTTCATTGTCCCCTGGAAG
AGTAAATGGAGAATATATTTCAACTAGGTGGATTGTTAGGAAATGRGACAATGGTTTAAAATGCATCAGCTCTGGAGTCAGACCTGATTCTCCTTGGTTA
ACTCCTTGATAGAAACTGATGTCAGATTAGGGCCGGGCATCACACATTTGCTTTGCAGACAAGGGGCCAAAATTGACTTGAATAATAGRCCCAAGGCAAG
AGGAGCAGGCTGGAGATGACAGAGACAGTTACTAGTATAAAGCAGTAGCAACACCAAGACTTTTCCCCTCCTTCCTTCCTTCTTTTTTTCTCCCATCTGT
GTATATGTTTAACCAAGTTGTGTTGAGCTACCACCTTGTGCCAGATACCATGCTGGGTTCTGGGATATAGAGTTTGATGACATGCATGGGATCTGTCCTT
TGGCCCACATCCCCCTAAGCTTTCAGTCTTTCTAATATATCACCTGCAGAGTGGACAGATAATTACACAGATAATTTAAAAGCAATGTGGTGAGCATCAC
AATAAAGTTTAACAYGGGGCAAGGAGAGGGGTTATGGGAGCACACAGGAAGGTCAGGAGTCTAGCCAGCGCCTATCAGGGATGACTTCCTGAAGGAGGCA
ATGTTAAACTGAGACCTGGAGGTCTAGGGGRCAGTTAGTGTAGAAAAGACTGAGAAGAGTCAATCGCAAGTTTTTCACCTGGTAAAGCTATTATTGTTAA
TGGCCTGGGAGGCTGCTGCTCTGGGTGGACAGGCACTGGGACCCGTGAGGTGCCAGTCTCATTCTGACTCTGATTATGTTGAACACGTTGCTGTACCCAG
GCACTGTGCTAGATTTTTATATGATTATCATATTCAGTGGGCTCCAGACCCCACTGAAGGTAGGTAGTATAATGATTCTCATTTTATAGACATAGTCTGA
GATTTGGTGGAATAAGATGACTTGCCCAAAGATCACACAGCAGGTAAAGGATGGAGCTGGGACTGTTGTTACCACATAACAGCATCCACATGCGGTTTCT
TAATCATGTTTTTACAGCTGTTTCCACACAGCACACARTGTCRCAGCCCTAGATAGAGTCCAGCAGTGGCACAAATCACAAACCATTTCAATAATAATAG
CACTGATAATATCATCTTCATGTATGGAGTCCCTACCATGAGCCTCTGTGCCAAGCATTTTGTATACACCATCTAATATAAACCTTAAAACAGGTCCGTA
AGAGAGATGGCATTATTATCCCCATCTTGCAGAGGGGCAGAYCGAGGTTCAATCATGTTAAGTAATGTCACAAAAAGTCACACATGGTTGGTAAATGTTG
GAGTTACATCCAGGGCTGCATGACTCCAAAGCCCATGCTGCTGAGTGGAACACTATTTCATTCCTGATACAATTTCATGCAAGAAGATGGAGAGAGGGGG
CCATTCTCTTCTTCCATCACCCCCTGCCACTTTCCAGGCCTTCGTTTTCTCATCTCTATAAAGGAGACAGCCTTCTGCCTGCCTTGAACAGAGATGGTGA
CGGGATCACCAGGGTTTTGCAAAGGCCAATTCCGCTGGGCTTGTAAGGTGCTTGCAGCTGAATTTCAGGACTTGCGTCTCCTGGGGCACCAGGTGGCTTC
TGAAAGGAGACTGAGGGGGCAGAGAAGAGCCGATCTTGGGCCTTGGCTCCAAGGACAAGTTGTCTGATTTGATCCTGCAGACCGTTCATCTCTGGATGAG
TGTACCCCCATTTGCTCGTAGTTATTAGATGTGTAAAGATAACCTATTTGGAGACTGAGGGGGCCGCCAGGACAGGATGACCCATCTCTTCCCCAAAGGC
CGTGGCAGCAAAAGAATGGCTCAGAGAAGCTGCTTAGGGACACTTCATGACTCACACATGCAGCAAACATGTATGGGGTGGGCCCTGTACAGTGTCACAA
AGAGGGAAGACAGCATCCCTGCCTTAAGGAGCTCACATTTCTATGAGGGAGGCACATCAGAGCAGTCACCGTGCAACGTGGTGCCCAGAAACCTGGTGGT
CACCCTTGATACCTCTTTCTCCCTTTCCTTCTCTCCCCACATCAAGCCATGAGCAAATCCTGTTGGCTCCACCTTCAAAATAAATCCAGGATCCCAGCCC
CTGGTGCCACCCACATCACACCCAAGGGTCCGAGCCATCTTCTTCTTTTGCCTGGACCCTTCCCTGGTTTCCCTCCTTGCATTCTCGCCTATTTCCATTT
TCCTCCAACCTGGCAGCTGGAGAGCTTTGAACATGGTTAGGCAGATCATTCATTCCCCTGGCATCATTCAGAAATAAGTCAAGGTCTTTCCATGTGCTCA
CCCCTCATTTTCTTCCTGACCTCATCCCCCTAAGACTTGCTCCTGCTTACTCTGCTCCGGCCAGTGGCTTCTCTGCTGTTCCTCAGACACACTGGGTGTT
GGGGCATGCATGCAAATAGATTTGGGGCTCTCCATCCCCTGGGTAGCCACAAGGCCCAGCCATCACTTCAATAAATTCTTGTTCCAACGTCACCTCCTTG
GAGAGGTTTCCTCAACCCCCTCATCCACAGTAATCCCTTCCTTCGCTTACCCTGCTCTGGCTTCCTTCATAGTTCTTAGAACCACCCAACATAGGATRTA
TGCATTTTGAAACATTTACTGACTTCTCAAGCAAATCCCATGAGATCAAGGAGCTTGTCTATCTTGTTCTCTGTGGTATGCCCAACTCCTAGAACAGTGT
CTTCCACATAGTAGGGGCTTGATGAATATTTATGGGATGTTGAATGAATGAATACAGAGGGAGAACCAAGACATGAAAACCCAGTAGATGGAGTTAATAA
CTCCAGTGTATGGGGGTGGGTGGGGGGTATGGGTAGGTTCACTGTTGGGTGATGTGACATTTGAGATGGGACTTAAAAGGTGGAGCAGGTAGTTTTCAGG
GGAGGAAAGGAGTGGGAYGTATCCCAGGAAGAGCCTCCAAACCTCAAAAGGCCCTATATTCACARGAGGAAATGAGAAGTTCTGTGTGTTCGAGTGTTCC
TTGTGTGTGTGTGGTGGCTGGGGCTGCAGGAAGTGAGGCTGGAGGGGGACAGGTTGTAGAGGAGGGGAAAGGCTGTTCAGTGGGAAGTGATTATGAGCCT
GGTCTCTGGAGCTAGCCCAGCTGGGTTCAAATCCCAGCCCCACGTGAAAAACTTATAAGTCACCCTGGGAGGAGGGTATGAAATCTTTGCTTAGGACCTC
AGAGAAAAGTGTTGTTCTCTGTTCTATATTYTCAGAGGCATAGATTGGAGATTGGGAGAGACCCAGGCTTAAATCCTGTCCCTGCTTGGTACTAGCCTGT
GTAAGGGGCATAGTAATCTCTTTAGGCCTCAGTTCYCCATCTCTAAAACAGGAACAGTAGTGCCTCATTCACAAAACCTTTGTAACAATGCAGTGAGATG
ATATACATGATGCATTTACCTAGGCCTGGCCTGGTACTCCCTCGTGGTTGCCAAGGTGATGGGACCTGCTAAACACAGTGGGATCCGAGGCATTGGGAGA
ACACTTGCCTTGAAGCTCTTGGTGAGGCTGCAGGTGTTCTCTAGACATTTGCCAGGCCTTGCTTGCAAGTGGCGGTGCCTTTGCTCGGAGAGCCAGAATT
TCAGCCTGCTGTCCCCTTCAAGCTCACAGAGGGCCATGCTTTCTTCTGCCGCTGGGTTTTTTTTTGTTTGTTTGTTTGTTTTKTTTTTTTGCATATGCCG
ATTCCTCTGTCTGGAGTATTATCTTCCCCTTTCACTGCATTAACCATGGCTCAAGTTTCACTTCCTCAGAGAAGGCCCCCTGCCCCCRCAGTCTAAATCA
TTCTCATAGAATTGTGTGTCTTGCCCTTGGATAACTTATCTCAGTTGATCATGATACATTGATCAAAGCCATTAATTTATTATTATCAAGCTTGCTGTCT
AGACTGGAAGCTTCAGGAGGTCAGGGACTTTGCCTGGCTTTGCTTATTATCCTACCTCTGGACCATGGATGGTCCCTGGCAAATAGTAGGCCATTAGTTA
ATATGAAGAATGATTTAGGGACCATGGAAATGACATGCACAACTCTAGTAAAACATTGCCTTTGCCTGTTCCTTCCCACACAAGACTGGCAGGACAGGGG
AGCCACTTTACCCATGAATCTCACAGCTTTAGGAGGGATGCCAGTTTGTCTTTTTAATTTATAACAACAACAACAATGAATAAGATGTACTCAGTGCTCC
AGCCGCTGTGCTAAGTACTCTGTAGACATTATTCCTTCACTTAATGGAAACATCATTATTACTGAGAGAAAAGAAAGATGCTGAGAAGTTTGTATAATGT
GGTACTATTTTAAGGAAACAAACAATGGCAAACCCCTACTGTATATGTAAATGTGTATATGTGGGTATGTCAGTTTATGTTTGTGACTCTGTCTGCTTTC
TGTAGCTTATAACATAATTACCACAAAAATCTGAAGCCTATAACAAAATTGCCACAAACTTTCTGTTGCTTATAATAGAATAACCACAAAATTCTAAAGA
ACAAAATTACCTGAAGACGGATAATTTATAAAGAAAAGGAATTTATCTCTTACAATTCTGGAGGCTGAGAAGTCCAAGGTCGAGGGGCTGCATCTGGTGA
GGGCCTTCTTGCTAGTGGGGACTCTCTGCAGAGTCCCATGGTGGCACAGGGCATCACATGGTGAGGGGGGCTGAGTGTGCCAGTCCAGGAGGTCTCTCTT
CTTCTTCTTACAAAGCCACCACTTCCACTCCCATGATAACCCATTAATCCATTAACCCATTACCCCGTTAATCTATGAATGGATTAATCACCCCTGAGAG
CAGAGGCCCTCACCTTTTAAAGGCCCTGCCTCTCAATACTGCCACTTTGGGGATTAAGTTTCAGCACAAGTTTTGGATGGGACAAACATTCAAATGGTAG
TAGTATGCATGTGGTTTTATAAGAAAACATAGAGATTTGGGAAAATAAAAACTAGACTTCAATATGGGTTGCCTAGGAGTGAGTGTTGGTTAGTGGGTCA
TGGGGTTAGGTGAGGATGGGGGGTGATGGAGAGGAAGTCGAATATGAAAAGGAAAAATAAAAATAAAATTTCACTGAAATCCCAATATGATACACAAGAA
GATCATATTTATGCATTCATGCAAGGTTATATATGAATGTGTATGTAAAAATATATAAAAATTGTTTCAAAAAAAGGAGTATATGCTGGCAAGGGTGCAG
TGTGATGGGCACTTCAATAAACTGCCTGTAGGGGTGTAAATTGTTACAAACTTGCTGGAAAGCAACTTGGCACTATATTATCAACAGCCTTTAAAATATT
CATATATTTGGACTCGATATTTCATTTCAAAGAATTTACCCTAAAGAAATAATCAGACATGTAGTCAACCATTTATGTAGAAGATGCATAGCATTACTTA
CAAAAGAGGGAAAAAGTGAAAATGAAATAAGTGGCCAACCGTAAGAGAGAAGTTAAGCTGTTACATCARAATCTTAATTGAAGTCTCTTGACAGTCCTGT
AGATATGGTTACTCTTACCACCTCCGTTTTACAGATGGAGAAAACAGAGGCTCAGGGAGGTGAAGGAGGTTGGCTGCAGTAACACAGCAAGTGGTGTAGC
AGGATTTGAACTTCTACATATTTGCAAACATATGAGATTCCTTACCTTAGTGACAAGCTTGTGATCAAGGTAAACATCTGTCATTCAAATCCCTCTCCTG
GAGGAAATCGTACAGTTCCAAAGTACAATGTACATGCCTCAAACCCTTAAAACCTTGATCTGGGACCTGCTTAACCATAGTATGTGGAGGGACCCCCCAG
AAGGATCATAAAAGGGACTTCACTTTCTTTTAAATAAATWGAAAGCTTGTTTAGCCAGCACCTGACATAGACTTACCACTTAGTAAATACTACAACTTAT
GATTCACATGATTGTGTTTTCTTGGTTAGAGAATCAGTTCAGAAAATGGGATGTTTTCTTGCTTATCATTCTGGTTTCCCCTACTTGGTTTAGCTTGGAA
ATTGTCCTCTTAATAGCAGCTTGTTGGAGTGGCAAGGCTGAAGCTTTAGAGTCAGACTGGGGTTTGAATTCTGATACTGCTTCTCAGCAGCTGTGTGATT
TTAGACAAATTACTTAACCTCTGTGAACGCAGTTTCTCCTCTGAGCCCCTTTACCTAACTCAGAGAATTGCAGGGAAGATGAAATTAGGTGTCAAATAGA
AAGCACTTGACAAGTCCCTGTCTTGTATTAGGTGTCTATTACATGTTAGGTTCCTTGCCTTCCCAATTGGAAAGCACAGTCTTCAGTCGAAGCACTGGAT
TGTGAGTTGCTTTAGCCAGGTTGGGCCAGGTTGGGCCAGGCTGGAACAGGCTATACACTGGGCCAGGAGCGCTGGTGTCATGGCTAGGGCTTCACCCCAG
GCTAGAGTTCAAAGGCAGRAGGGTGAAGGAGGGAAGGGAGCATAGTTAGCTGGGCCCAGAATGGACACTGGAGGTTACAGGGTAGTTTTGAGCCTGATGT
GTTTACTCTTACTGGTAGCTAGAAGTCCCAGCTGGTCAGAGACCAGCGGGGGAATCTGGGCATGAGAGGAAGAGAAGGGATATAAGTGTGGAAAAAGACT
TGCTGTTAAGAGTGCTCAAAGATGTTCTGGTGAAAAGAGCTTAGTGGGCCTTGTTGAAAAAGTAATAAGGTTTCAGTCACTTTTTTTTTCTTATACTCAC
TGGGCCTTGCTTGCYGCAGTCTCTTTGCCTCCAGAGAGATAAGTAAGTCTAGGYTATGRGGTGGGATGAAGAGGTGCAATTGCTGAATGGATGGGTGGAC
GGATGGATGGGATGGATAGAGATAGTGGGTGATGGAAGAATGGATAGGTGGATGGGATGGATTGCTAGAGAGCATTGATGGGTATTTGGGATCAATGAAT
AAGTGGATGGGGTATTAGATGGGGGGATGGATAAATGCATGGATGACTAGGATGGAAGGATGTGTTTGATTGATGAGTGGGTAAAGTGGAAGAATAGATG
GGCTAGATGGGATCAATGGATGGAATGGATGAGTRAATGGAAAGATGAGTGGAAGGGTGAATGYATGGATGGCAGGATTGGCTTGATAGAGATTATAGCA
ATGAAATGAGATGGCTGAATGAAACAAATGATGGAATGGACAGCAAGTAGATTCATGGGATGAGTAGACATATAGACAGATGAATGTACAAGAGGAAASA
CCCATGGTTGGTAGATGGAAGGATGATTGAATAATAGATGGATCGGAGTTTTCATAATTTATTGTTTAAGCAAACTCATTTGGGGATTGGCTGGACAAAA
AATGGTAATAAAGGCTGAACTGGATAATTTTATTAAAGGCATCATGGGAATTGACAAGCGAATGATGCAGAGAGGAGTCCAGGCTCCTATCCCAAGGAAG
TTTCTCTAACAAGTGCCGTTAATGAAAAATCATGATATGTCAGGCCTGTAACCCCAGCACAGACCATGTTCACATAGCTCTGTGAAAGACTGTGTCTGTT
CTCATGCACAAACACTGTCTTCATGATCTCTGATCTGCAAATATGGGATACGTCCACACTGGCGTTCACACTCACATGTAATATTTAATAGATAACACTT
GTTCACACTTTTTTTGGAACCAAAAGAAACTCAATGGCTAACATCCACAGCACATTCAACTGAGTGGGCTGAACCCACAGGAAGGAAAATCAAGTGGCTT
AGGGGTTGCCTTGTTTAATGGATGTGAGGTTTTTTCTTAGTTAAATAAGTAATTTATTTTGAAAGTCACCAGTTCAGTGAAATAGTTTTTAAGTTTTCTT
TACTAGAGCAACCTGTGTGACTGAAGATAAAGTATAGACCAGATCTCTGAGTTTCTCAGGCAGGGCCTGGATAGTCTTCAGGATGCAGTTACCCAAATGA
CCTAATTTTTCTCCCCTTCCAGCCATGCCTCTCTCTCCTGCTTGCTCCTTCTCTTCCCTTTAAGTTTAATTAGTTATAACTACTTTTTAATTACTATAGA
AGTAATACATGCTCAGGGCAAAAATTCGAATKGCATAGAAGAGCATATGGTGAAAAAAGCCCTTCTCCCCACTGCAGAGCCCAGTCCCACTTATCAACAG
TTTCTTCTGAATTACTTCAGAAATTTTCAAAACATGTAAGAAAATGTAAATGGAACACAAATTATATTTCACAAAAATGGGATCATTGTAGATMTATCAT
ATACATTAYTCTGTAACATGCTTTTTTCTCTTAGAAATGTCTCTTATACCTCTTTCTGGGTAGGTGTACATAGATTTATCTCATTCCTCTTAGTGGCTAC
ATGATATTTCATAAGTTACTGTAAATTAGTCAATCAGTTCTTTTTTTTTTTTTTTTTTTTTTTTGAGAYGGAGTCTTRCTTTGTTGCCAGGCTGGAGTGC
AGTGGCGTGATCTCTGCTCACGGCAACCTCCGCCTCCCGGGTTTAAGCGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACTACAGGCACGTGCCACC
ACACCAGCTASTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAAGATGGTCTCGATCTGTTGACCTCATGATCCACCCGCCTCGGCCTC
CCAAAGTGCTGGGATTACAGGAGTCAATCAGTTCTTTATTATTTAGGCTTTTTCTAGTTTTGGGCTACCCCAAACAATATCACAACAAAATAATTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGWGATTTCAACATGAGGGCAGATGTCTATAGAATGGATTTGTTGCCTCAAAGGATATATGCATTTGATA
AACTTGCCAATTTGCATTAATTTAAAYACTGCCAATAGTATTTGAAAGTTCTTTGTAACGCTACATTTTCGAGTACATCAGAATCACCTGGAGATCTTGT
TAAAMTACAGATTGCTTGGCCCAGGAGTTTCTGATTCAGTGAATCTGTGATCAAATAGGTCTGCAGTAGAGTAGATTTGGGATGAGATCTGAGTATTTGA
ATTTCTAACAAGTTCTCCGGTGATGCTGATGTGCTGGTCAAGGAACCACTGCTCCATCCTTTCCCAACAACTTTTTAAAAACTTGCGAATCTGATGGAAA
TCAGAAAAGTAGCTCATTATTGCGTTCCTTTAATTATAACTGAAACTAAGCATCTTTTCATGTTTCYCAGTTGTCTGTATCTCTTCTCCTGAAAACTATC
TGTTTATGCACCTTGCTTGTTTTCTATGGCATTGTTTCTATTTTTCTTACTGATTTATAAGAACTCTTTGCATATAAAAGACACTGGCTCTTTAATCTGT
AGTAGCATGGCAAATCTTTTTTGCARTTTGGACCTGTGTTTACACTCTGTGGTATCTTTATTTTATTTTTTGCATAGAGAGATTCTACATATTTATGCAC
TTAAATTTGTCAGTGTTTTGGCTTCTGGTTTTGTGTCATACTTAGAGAAAGACCTTTTTCCCTTTAAGATTATATACAATTTAACAATGAATGTGTCTTG
ATGCTTTCTTTTATAATAATTTCTAATCTAAAATAGGGCAGCAAATGTTACTATGGTAATGTAGTGACTACTTATTTGGAWATGAAAATATGAAGTTTTC
ACATTTCTGAATTAACCTAAAGGGATATTTGCGGCCTCTTTATCCCCTAGGCCTGTCAGAGAGAAAAGAAACTCCCATTTCATGGCTTTCCCCTCTCCAG
ACTATTACTRTAATGGGTTGAGATTTAAAGAAGAGTTTGAAGATCTAGGGCAAAGAGTGTTGGCTGTTGTCAGGCAAACAGATGTTTCTAATGTGATGGA
GGCACCAAGAGAACCATGGAGACCACAAGCATGAGGCATCACAGCACACAAATGCTCCCTCCTATTTCTGCCTGTTTGGCTGCCAGAGCTGCTCAGTATT
TTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTYACTCTGTCACCCAGGCTGGAGTGTAGTGGTGCAATCTCTGCCTCCCCGGTTCAAGCGATTCTCC
TGCCTCAGCCTCCTGAGTAGCTGGGACTATTGGCACACACTACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTCACCATGTTGGCCAG
GATGGTCTCAATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACCATAYCCAGCCTGCCCGAGTTTTA
TATTCACACTCCCTACCCTTGGGCATGCTCTCTTTGACTAAGTAGCAAGATGTACTATGGGAAAGGAACACAAGGGATGGGAAAGTGTGAAACATAGCCT
TTTGCACAACCTGTAACTATGGGCTAACTGATTTTTTTTTTCTTTTGGACAGAGTCTTGCTCTATCACCCAAGCTGGAGTGCAGTGGTGCAATATTGGCT
CACTGCAACCTCCACCTCCTGAGTTCAAATGATTCTCCTGCCTCAGACTCCAGAGTAGCAGGAATTACTGGCACCCACCACCACGCCTGGCTAATTTTTG
TATTTTTAGTAGAGACAGGGTTTTGCCATGTTGACCAGGCTGGTCTCGAACTCCTGACCTCAGGTGACCCACCCACCTGAGCCTCCCAGAGTGCTGGGAT
TACAGGCGTGAGCTACTACACCCGGCCTGGGCTGACTGAATTAATGGAACCATCATTATTTTGCAAGGCTTGCTTTTCTATTATTCAGACAACTTCAAGT
GCAGAGTTCAGTGCTAGATACTGGGATGATATCATTCACAAGCCACTGTACTGGCTTGGGAGGAACTGGCAGTCTAGTGGACAGCTAGATACAGAAACAA
GTGGTATTGCAAAAGAGGGAGAGAGGTGGTAATAGAAGGTGCTAGACTTTACAAGGACAGGAACTATGCCTTATCTGTCATTCTGTCCTAGGACGAAGCA
TGAGGCCTGACACTGAGGTGCCCAACCAATGTTTGGTGATTGAATGAATTAATTTGAAAGCTGTATTAGTCAAGGTTCACCAGAGAAATAGAACCAAAAA
AAAAAAAAAGGTGTGTGTGTGTGTTTGTGTGTGTGTATAAAATTTATTATGAGAATTGGCTCATGCAATTATGAAGGCTGAAAAGCCCCACAATCTGCCA
CCTGTAAGCTGCAGACCCAGGAAAACTGATGGTGTAATTCAGTCTGAGTCTGAAGGCCTGAGGAAAGGGATGTGGGATAGTGGGGGTGAACCCTGGTGTA
AGTCCCAGAGTGTGAAAGCCYTAAAATTAGGAGCTCTGATATCTTATGGCAGGGGAATATCCCAGCTCAAGGAGAGAGAATTTGCCTCTTCTCTGTCTAT
TTCTTCTTTCGGGGACCTCAATGAATTGGATGAGGCCCACCCACATTGGTGAGGGTTGATCTGTTTTATTTAGTCTCCYGATTCCAATGCTAATATTTTC
CTGAACACCTTCACAAACACATCCAGAAATAATGTTTTCCCAGCTATCTGGGCATCCTTTAGCCCAGTCAAGTTGACACATAAAGTTAACTATCACAGGA
ACAGAGGGGAGGGAGCAAGTAACTACACCTGGGGGAGGTCCCAGAGGAGGGGATATTTGGGTCTTAATCAGAAGAAGAGGGGTGATAGAGAAGTGGGTAA
CAAGCAAGATGGTTCTCGGTGGGTGCCACCTGTTACCCACCAGGGCCTGGGATGAATTCCACAATGTCACATGGTAAGAGTGAATCGGSGCTTTATTAGG
GGAAGGGAAAGCTGACTAAGGGTCAGCAGGACGAGGTGCCACAGGTCTCCCATTCTCCCTTATGTCCATGGAGGGGTGTGCTGGGGCCATGATATTCTGC
CTGACATCCATCCCGAGTCTGTTCCAGAGGCGAGTCCTCCCTCTCTCTTGCTCTTCCTCCTTACAGGTCAAGTGTGTGAGTCACCTCATCAGTGAAGGGA
CATGCAAGCTGCTTGGGTGTGTGCTGTTTTTAGGAATTGTCTATAAGGTTAGCTGTCCCATACTTGGGGGAATTTGTGGCCCATGAGAGGTTGGAATCCC
TCTTGTCTCTTGGGAAGCTGAATTTGGATGCCCCTGGCCCCAGCTAGCTCATGATTTAGGCAACCCCGAGTGAGCGCTCAGAAGTATTTTCAGGGGATCC
TGACCCTTGCATTGCAGTGGGAAAGGGTGTGTGGGCTGAGAGGTGAGCTTGTGCAAAGACAGAGCTGTGCCACTGGATGGGAGGCAGAAGAACCCCCTGA
CTGGAGACTCTGGCCTGGGCTCATTTGAAAACAAGAAGGAAATTTTATGCCTGATCAGGAATGAGTAACTTGGTGATGGTGGCCTCAGGGATCCCCACTC
TGTGCTGCCTCAGAGAGAGGCCTGGGCCTGGAGGCTGTGGATGGGTGTCAGCATGAGTCTGTGGCTTCAACCTGATCTCCACTTCCTGCAGTTCCTGATG
GTGAGTAAGCCCCCCTCAAGCTAGGTCCCTGGAGTGGAGTTGGGGAAGAAGGTGCAGGATGCCAAGATTGATATGACACCAGGGCCAAGTCAGCAGGCAG
GGTCTGGTCTACACACTCTCCTAGAGAGTGCAAGACAGGGACATCCCCAGGCAGGCTGGCCTGTGTAAGTAACTTGCAAGATATATTTCCCTGTTTGCTT
ATTGAAAAGAAAAATTAAGACCCCCCCCTCTCCTGCACCTCCCAATAGAGCAGACAGAACTTTGACTTTGGGTCAGGTATAATTCATTCTTGTCTAGTAC
TTTCACTATTGGCTGGCTCTGCCAACCTCTCTTCACCTCAGTGTCCTCATCTGTAAAGTGGGGTTATAATAGCCCCTGCCTCATGGGATAGTCAGGAAGG
AGAAATGAGAGCATGCACTTGCAGGGACCTAGTGCATGGCAGGTACTTAATAATGTTTAACAAAAATGAAGCATTGCTTGGTGAGGTGGGAGGTGGAGAA
ACAAGAGCAGGGAAGGGTACGGAATGCTAGGCAGAAAGGAACAGGTACCACATTGAATGCAAGCATTTATTGAACACCTACTATATGCTCTATCTGGTGG
GGAGATACATAAAGGAGAATCAGATGCCATATTTTTTTCTTGATTCCTGGATAGGATGGTCTCGGTTTGTCCTTTAAACCAGGAAGCAAGCTGTGGATGT
GCGGAGATGGGGACCTGGGACGGGTTTCTGGGAAGGAGGCCCTTGAAAACGGGCTCCAAGAGTTGGAAAATGGATGCTATAGTCAGGAGTCATCAGAGAA
GAAAGACATCCTGAGAGAGGAGCCTAAGGATGGGTGGAGGGCAGGGAAGGCATTGAGCGCAGGGCTGAGCAGGGTGAGTCTTTAAAGCCTTCTCTGTCTC
TCCCTGGGACAATCGATCCCTGGCTGGTCCACCTGCTTCCCCTGTTCTCACCTGTGGTTCCTTCTTCACACAGCAGCTGGAGAAATCCTAAAACATGCAG
ATCTGATTCGGTCACCCCTCCCACTGCATACACACAGTTGAAACCATCCCGATTTGATCTGGCCTTGACTGCCAGTCTACCCACGCTTCCCCTCCCACCA
CTCCTGCAYGCTTCTCCATACCCCAGGTGTACTTGCCTTTTTGCTTTTACTGGAAAACAACAAACTTTTTTTTTTTTTTTTTTTTTTGCCTCCAGACATT
TCTTCCTGCTGTTTTTTTCTGCCTGGAATGCTCTCTCTCCCATCTTCAAACAGTTCGCTCTTACCCTGCAGATACCTGCTCAGGGATGGCACTGTCAGAG
GTGACCACAGTAGATGAAGGACTACATCACCTTCTTCATAGCTCTGATCATGCTCATTATATGATCTACTGTTGTTTACTTGTTTACTGTCTGTCTCCCC
CACTAGACAACAAGCTGCATGAGGATGACTACAGGGACTCTRYACCCCCAGTGCCACACACAGCACTTGATAAATATTTATCARTTGCATGAATGAAAGG
CACAGGGTGGAGTGGAAGGGAGAGAATGAGTGGTAATTAATGTTTCTTGAGCTCCCCAGGGCCTGGAGTCTCATGTTCATAATCTTATTTAATTTTCCCA
GCATGCCTGTGAGGGAGGTATTATTAATATTATGCTTTCCTTATAGATGAGGGAGCTGAGACTCAGAGAGGGTGAGCAGGGCGCCCCAGGTCACACAGCC
AGCAAGTGGCAGAAGGGACTGTGAATTCAGTTTTGTCTGACTCTGCAGGCCAGGCTTGTTCCTTCCTGCAGTGCTGCCGGATGCTCTGTGTGTGCAGGGA
GCACTGAGCCAGTCAGAGCGGCGGAGGCCCTGGCACATGTGCATGTCTGCAGTAGAGGGCAGTGGTGAGGATGCAATCCCAGCTATCGTGGGCTATTTTA
TTTTATTTTATTTATTTATTTTTTTGAGACAGAGTCTTGCTCTATCGCCTAGGCTGGAGTACAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTCCC
GGGTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCGGCTAATTTTTTTTTATTTTTAGTAGAGATGG
GGTTTCACCGTGTTAGCCAGGATGGTCACGATCTCCTGACCTCGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACYGCG
CCCAGCCTATCATGGGCTCTTTTAAATTCCTCCCTATTTACACATATCCTTCCATGTATTGTAACTGATACATGTAAGCACATGTGCACACACACACGCT
TCTACACACAACATGTGTTCACATACACAGTTTCACAAGACAGGTACACTGCTTTACCACTCACAAACACAACATCAGGTGGAAGGGACACCCAGACCTT
TACACAGATTCTTCCAGAAGGGCACTGATACCCTAGTGGAGGGAGGGGGTGGCAGCGGGACCCATGGAGCCTCCATCCAGGATGGGAGGGTGGGCATGCA
GCCACGTACTAAAGAGCTGTATGCATGAGAACCGTGTGTGCAAAATGTATATGTGTGTGTGTGKGGGGGGGGGTACACATGTATGTAGTGGACGTGGACG
TCTGTTTCTGTAGCTGTTGATGTGTGTGTGCACAGGTGTGAATTCTGCATGCCAGGACTTGGGCAGTTGTGAGCATCTTGCTTAGCCTGGGTTCCAGCTC
CCAGCTCTCCAGCCCCAAGGGTGGGTCAGGCTTTGACCTTGAACCTCCCCCATCCCTAGTCACTGTCCTTCTGAGCTGGCAGAGTTTAGGGACGACGCCC
CTCCTGACTACACTTCAGGCTCTGTGTGGAGTGGCTTTCCTGGGAACAAAAGCCGGTCTACTCACTCCCCGATGACCCAGGATATGAGTCTGCACTTGAC
AACCATGCCTGGTAACAGCCAGGGCTCAACAAGGCCGRCAGCTGCACAGAGCCTGCCAGGCTGTGTGGGTCCTTCAGGGAGGCGGGGGCCTGGTGCTCTG
TGCTCAGCAAGACAGGTCTATGCCTCTGCCTGAACTTCAGGCTTCTTTGAACACCCAGGTCTTCTCTTTTGGTGGAGCTGCCACCACTTCGACAACGTGC
TGGCTTGGAGCCCTCACTGTCTGTCTGTGCTTTCTCAGGGAGGAGGAAGGTTAGGAGACACACCCTCAGACCCGAGCGCAGCATCCCTTCCTGCGGGTAC
AGTCTTTGAAGGACATGGGATTCCCACAAATTCTACCAAGAGTCACCACTGAGTTGAGCCGGAGAGGTTTTCCGCCTCAGTCTCTGCACTCAGTCCTTCA
GGTGCTCTGGGGAGGAGCCTCRGAAGCTTCCAGTGCTGGGGGCTAAGTGGAGCAGGCAGGGGTCAGCTGCCTGGGTTTTGCTTGGAGAGAAGCCCTCAAA
AAGGTCCAGATTGAGCTCAGAGTCCAGAGGGAATGTGGGAGGRAGGACACCCCTGGTCTTGGGTGTGGAGCAGAACTGAGGTCAGGGCGTCGGTGAGGCC
GATTGCTGAGAAGGTGGAGGAAGAGGCCACTTCCCACAAGGAAGAAATCAAGAACTGCAGCCAAGGGGCAAATGGAGGTCTTGCTGGCCTGAGAAGAGGG
TGGGACGATGGGTGTGGTGGTGCCCAGCCATGCAAGGTCCCTTCAAATGCTGGAGACCCCGAGACTCTCAACAACTCCTCTCAGAGCAGCCCCTTTCCTT
GGTTACCAAGGCCGGCCAGTCTCCACTGTGCATCCCTTGAACCACTGTCCCACTAGGACCCTCAGTCTCTACACGCTCCAGCCCTGGGTCAGTCCTGCAA
CTCAGCTCTGGGCCTGCCACCTGGACTATGAATCCTGCTGCCACTGCGAACTCACATCTCTAACCTACGCCCAGCACCCCTTAACTATCTTTCTATCGGC
CACCTGGTCAGCTTCCTGTCCTAATCCTAAGAGTGGCCATTCCAAGGCACAAATCCCTGGTTCCATCACAGGATGACTACCCTGGTACCTCACTGAGAAC
AGGCAGACCATCAGAATGGACTTCCACATCCTCCTCCTACCTGTGGTTACCTGCTTCTGCAGCCACTCCTCCTCCCCTCACTCCTGGAGGAAGAGGTGGG
GTCTCTCCCACAGTCCCCAGTTCCCAGAGCCCAGGACCCCTTTCTTCCATCTGTCTTCTTTGTGATATGCCCCTTCTCTCCCCTCTACCCTCCCATTTTA
TTTTTCTTCTCCACTGACTTCACTCCTTGAATTTAAAACAGGTTCAAAATAGAAGGTAGAAGCTTTTTGGGCCCTGAACTCCTCTCTGGCTGCCGCCCTG
TTCTTTGCCATTTAAAGCTAAGTTCCTCAAATAGTCCATACTCAGTCTCTGGTTCTTCCACTTAGCTCCCATGGGGACCTGGGGGGTCGGATGCCGCTGA
CGGAGCCTTTGTTGTGAAGCTGTGCGTGGCTTCTTGGTGTCTCACTCTGGGTCATGCCCTCGTTGCCTTCCGCTATCCCYATCTGGTCTCTCTGTTCCTG
TCTGCCTCTTKCCTGTGTCTCTGTCACTTTTCCGTCTCTCTGTTTCTTTTTCTGTCCTCTTGCATCTCCCTGGCTTGCGGTCTCACTCTCTATCTGCCGT
TGTGTCTCTTTTTCTATCTGCCCATCTCTCTTACTGCCTGTTCTTTTCTTTGAGTCCCTGATTTTCTCTGCTCTGTCTTTCTTTCTACCTGGCTGTCTCT
GTGGGTCCTGTCTCTGTGTCCCTATTCCCTCCCCTGCCCGTCTCTCTCCCCATCTATGTCTCTCTCTCTCCCCATCTATGTCTCTCTCTCTCCCCGAGTC
TCTCCTTGCCTCCGTTTCCTTCCTCCTGGCCACAAGGACAGCCTGCCTTGCTAGCTGTGATGCCCCTGACAGCGAGAATCAGTGTTCTTTCCCACTCCAC
TCCCTCCTGCAGTGTCTCCCAGCCCTCCCCATCTCCCTCGTCTGGGTGTCTAACTGCTGCTACAAGGGAGCGAGGGCACAGGACTCTTAGAAATCCCAAA
GGGTGTAGATTTTGAAGCAAAATGGGAGCACAGCACCTTTTGTGTCCCACACATAATACTTGGGGGATGGGCAGTGGCTGCAGGCTRGGCCCCCCATGAA
ATGCTTCAGCTGTGCCACCTCCCATAACCGTGGCCTTAGAGGATCACAGAGCCTGTGCTCRTGGGCAAGGATCCTTGGGTTCTGCCTAGCCCCATTACAG
GGAGGTAGTTTAGTTCAGGTCTCAACCAGCAGCAGGAGGTATGTGCTAGGTGGGCTCAGCCAGAGTCCAGGGCTGTGGGGAAGAGCTCGGCTTTATTTTC
TAGGGAATGGATTGGGAGCTGCCGGAAGTGCCTTAGGTTGAGCTCCCCGGAGGCAGACCTGAGACAAGGATTAAGTGTAAGTAGTTTAAATTGGAGGTGG
TCCAAGAAATACCAGTTGAGGAATGGTAAGGGAGAGTCATCAGTAAAGGGTTTGTCTCCAACCCAGCTACTGCTGTGGGCAACTGGAGTGGGTCTGGATG
AGGGCATGGGTGGAACGGACTCTTGGCCTTCCCATGCCCTGCAGTGATGTCTGTTGGATTTTCTTTGGAGCTGAAGAAGTGAGGCTGGGGCTTCACAACC
CTCTCCCTTCTGAATATCACTAGGATGTCAGGTCATGGATGGTGTCACTGAACAGACCCCCACTGGGTCCTGGAGATCTCCCCCTCAAAAGCCCTCCCGG
GGCCTGAACTGGAGCAGCATGTCTGGCTCTTCTGGGGCCTGGCATGATGGCCTCACCTAAAGAAATTCCTTCCAGAAGACAGTGGGGCTGGGGGAGAGTC
CACCTCTGTGTGGATCTGTGGAGCACCTCCAGTTAGTGTAATTACATTCTTCCTGCTGACAGTTCCCACCATGGTCTCAATTGGATGTGACATTCTTATT
AAATAACTTCAGTAACTAGTAATAATAACACAGTCCTTACTTCCTGACCTAAATTGCTTGATGCTATTTTGGTGAGCAACCACGGTGCTGCAGGGCTTCT
GCAGAACGGCCTGCCAAATTGCTGCCAACACACACACACACACRCACACACACACACACACACACACACACAGCCAAGGTTGATGGGAAGTGTGCTTGCA
CCATCTGTGCACGGCCTACCTGTGTGTGCCCTGGAGCACATGTGAGCGCCATACCTGCCGTCCAAATGAAGGAGCCCCATATGCCTGATGGCAGGGCAAG
TTTCCCTGGCCAAGGGCTAACCTTCCCAGCCTGGTTGTTGCACAAAATGGAGATTTGACTTCCAAAGTACCTCTTATGCCATGTCCTTCCCTCTCTACCT
GCCTCAGCTTCTGTGCATTTATATCTGTCTTCCCCTGTCTCTGAAGTTTCCTTCCCTCCCTTTTCCACTTGTGAAATTTTATTCATCTTTTAAGACCCAA
TGCAGATGTTACCTCTGCCAGGAAGCCATCCCTGATTCCACTATAGAGGGATTTGTCACTCCCTGAGTTGGCCTYCTTTATTTGGTCTGGCCTGGCTCTA
TTCTAATTACRTTAGCTGGATATATGATGGTCAAGGGCAGGGACTGGGTCATAATCATTTCTGATGATTGACACACTCATTCCCATTGTAAGACTCCCTG
AGTGTTTACTGAATCGAAGTCATGGAAGTAGACATAGATTTATGGGGAGGGGGCATTGATGGAAACTGAGATTTTCTGGTGGTGGGTTTCTCCACAGAGA
TGAAATGCTTGCAATGCCCCTAGTTGGTCTTTGTTTTTATTTTCCATCTTTACAAAAAAATGTGAGATGTTCACTCTTGCAGAACAAATAGAACTGTGAC
TTTTGTTTCACAATTTATRTGGCTGATTTTGTCTGCTTTTGACAGTTCTGTTGTGTTCCTGACAGTTACAATTTGGTTTCTCTCTGGGACCTTGGRATGA
TAAGTTGGGATGCCAACCTCGCATTGATCCACTGGGGGAGCACAGACCCCTTCTTGTTTCTCCCCATGCTGTGCTTATGAATGGGAAGTTCTGAGCAAGC
CMATGAGAAGACAAATGGGGAGAAAACAAGGCAACATGAAAGTGTGCAAGTGTGCACCAGGAGGCAGGGTGTCACCTGGATCATCTGACCCAGGTGACTA
GCCGATGGCATGAGCAGTGGACCCTTGGGTTTCTCCAGACCCTATCCCCATATCTGTCCAGTCTCCCAGAAGACAAGTGTAAATGGACTCCTCTGCACTC
CTATGCCCTTCCCTTTCTCCTAGTCCACCCACCAGCCTGTGGCATGTCCCCCAAATTTTATGTGAGTTCCAAGCAGACATAAATTCAAAATGGTTGAATT
TTCTCTGGATCCTCAGCWCACAGAACAAGCCTCACTGGCAGGAAGCATCAATATATGTGTGCTGAGTGCATGATGGATGGATGAATGAATGAATGAATGA
ATGGATAAATGGTGCCATCTTCTAAAGCTTATAATTTCCTTCCTTGGCCTAAGCATGGAATTTCTGTTTTGGATTTGAATCCCAGGACCATGACTTACTA
GCTGAGTGATTTTGGAAGATTATTTTGCCTTTGAGGAACTGGATTCCATCTTCAAAACCAACAGCAGAATCCAAGCCTGCYTGGGTTATTGTCAATGTCA
AGCACATAAGGGACTGTACAGTGTAGTGGTTAAACCCATGGGTTCTGGACCTAAGCTGCCTGTGTTCACAACCTTACTCTACTACTTCCTAGTTGTATGA
CCTTGGACAACTTACTTGGTCTCTTACTGTTTAGGGAAAAGCTCTCTTAAGCCATGTTGTTGTTTTTTTTTYCTGCTCTCACACAGCCACCACCAACACA
ACAACAATCATCAATACAGAGGAAGACTTCTGTGACCAAAAGTGTGGGTTTTTTTTCTCCACACATTAAGCAGTGGACACCAGCCAGGCATCCTCCAATT
CAACTCCTACCCTATCTACCTGATGATAGAGTCACATCCCATGGGTTGGGGGCTCAGTTCCCGAGACTCCCCCCCGCTTCAGACACCAGTCACATGTCCA
AACCTCCAGAACTTCTGACCAATTGGCTTCAAGTTGGGGTTCCCACAACCCCCCCYCCTTTAAGTTTGATTAATTGGCTGGAGTAGCTCACAGAAGTCAG
GGAAACACATACGTTTACCAGTTTGTTATAAAGGATATACAAAGGATACAGATGAACGTTAGATGAAGAGGTGTGTAGGGCAAGGTGTAGGGGGAGGGGC
TTGGAGCTTCCATGCCCTYCCTGGGCACACAAACCTCCAGGAATCTCCACGTGTTCCGCTCTCTGGAAGCTCTCTGGACCCCGTCCTCTTGGGTTTTTAG
GGAAGCTTCATTACGTAGGCATGATTAATTAAGCCATTGGCCATTGGTGATCAACTTAACCTTCAGCCCCTGTCCCTTTCCCGGAGGTTCAGGAGTGGAG
CTGTTAAGTCCCAACCCTCTAATCCTGCCTTATTCTTTCCAGTGATCAGCCCCACTTTGAACCTATCACACAAAAGAAAGACAGCACTTGGGAGATCCCA
AGGATTTTAGGAGTTAGGAACTACAGGAACTACAGACAAAAATAGCACCACTTAACCTCAGGCTGCTCATTACATATGGGGATGACCTTAGCACCTACCT
GCCAGGACTCTTGGGAGAATTTCATGAGGCAAAGCACTTAAAGCAGGGCCTTCACCTAGCAAGTGCCCAGGACATATATGACAGGGTGTCTTGCCCGAGT
TGCCATTGAGATGGGATTAGGAAGGCATTTGGGGATCAGGCTATCCTCCCTCTAGTGGGCCTCTCTGTCCCCTGGTAAGATGCCCTTCACCTCTCAAAGA
ACTTTCAGGATGACTGGCCCCAGCCCTGATTTGCATGGGTGTAGGAATTTCATGAGAAAGAACTTGAATCCTGAGCACAGATGGGGTATGGAAATAGGTG
GACCTGTGTAATAGGTGGGAGGAGGCTCTATGAAAATTAAAACTCTGGGGGAGATAAAGTAACACCAGAGAGGAAATAGGTAGACCTTTATAATGGGTGG
GAGGAGGTTCTATGAAAATTAAAACACTGAGGGAGATAAATTAGCACCAGAGAGGAAATTCACCCACTTTGCATGAGGAAGAGGATTAGTGGAGTGGGCT
GGACAGGGAGGGCCCTGCTGCTTGAGGGTAAGAAAAGACAGAGGTTCTGGATACAGCAGGAGGCTACTCTTGGACGCAGCCCATCCCATTTTGTCCCCTG
CAGATCCCGGACCTCGGTGCCTGGAGGAGAGGGTAGCTTGGTAAAGATGAAAAAGGTGCCCCAAAGGCTCAGCTGTGGGTCTCCCTTCTCCTGCACGGTT
TCTCAGCCTTGGGCATTTTGGGCTGGACACTGTTCTGGAGCACTGTCCTGTGCATCATGGGAAGTTTAGCAGCCTCTTCAGAATCCACCCACCAGCTGCC
AGTAGCGGCCCCCTACTCTGAGTTGTGATAATTAAAAATGTCTCCAGACGTTGCCAGATATCCCCGGGAACAAAATCGCCCCCAAATTTAGAACCGTTGT
TCTGCTAGACTGGAAGAGGATATTTTCCTACCAGCTGGAAAGAGAGATGAAAAGTGGAAGTCAGGAGGTAGAAAAAAAAAAAAAAACCAGAAAAATTCCT
TCCAGCTGCCTGAGAGTGTTAACTAACCCTATTGTATATCCAAGATCAAGGCGTGCCTGTGTTCACCTATGGCTCTCAGCAGACGCTCAGCAGCAATAGT
GAAGTCTCAGCAGTCCTGAGGTTGTGGAGAAAGGGGACAACAGCTGGAAAGAAGGCCTACAGGGTCCAAAACAATGGCTTCCATTAGAGTTAGCGACCTT
GGAAGAGCCCCTGGAGTGCTGGTTCTCAACCTCGGCCATACCATAGCCAGGGTCCCACTCCCAGAGGGCTAATTTTAATTAATTYAATTTAATTGGGACA
CTGTGATTTTACAAAGCTTCCCAGGTGCCACATGGTTGAGAACCAGCCACTATAAGCAAGAATTTATATCAGTATCACCTGGAAGCTTATTAGAAATGCA
GGTTTTCAAGCCCCACCCAGACCTACTAAATGCCAAGGTGATTTGTATGCACATTAAAGTTTGAGAAGCACTGACCCACTGACCTAGGATATAAAAAGTG
GGAACAATGAAGACTTTTTATTCTAACAGGTAGAGTCTCTTGATTCAGTAACAGCTACACCAAACTGGCAAGACCTAGTGGTCATAGCCTCCATCTTTTG
CTTAAGCAGAAGAGACCCGGGACAGGGACTGTATAGTAGATGGATCTTCCTCATCCTTSGTACTTCTCAAGCTGATCTGGCTGCCCCCACAAGCCCAATG
AAAAGACATCTGTCCTTCCTAGTCTGTTACATGTCTTCCTCCCTCTCCTCTTTTCTATCTTCCCCAAGTAGATGGAAGAACATAGGAGAAAACCCCAGAC
TTCAGCTGCCCTTTGGCTCTCCTAACCTCCACATTCGCTCATTCATTCAACAACTATTCATTGTGCACCTCATGTAGGCACACACTCTTCTTGATTCTGA
GGATTCAGTAATACACAAGAAAGAAAGAAATTCCTGTCTTCTGGGAGTCTGCATGTCTGGTTATTCAAAGAAAATAAACAAATACGTTAGTAAATATGTA
ATATGTTGGGTGGTAAGAGCTCCTAAAAAAAATAAAGCAGAGAATGGGTGGTTGGAAATGCCTCGCTGGGCATATGGCAGGAGGGGGACCATGTTTTATT
TTCTTCTAATGGAAAGATATGAAACTAAAGTTACCAGGCCAGGTGTGGTGCCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCRC
CTGAGATCAGGAGTTTGAAACCAGCCTGGCCAACATGGTGAAACACCGTCTCTTCTAAAAATACAAAAATTAGCCGGGCATGGTGGCAGGCACCTGTAAT
CCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGAGTGCAGTGAGCCGAGATTGCGCCATTGTACTCCAGCCTGGGCAAC
AAGAGCAAAACTCAATCTCARAAAAAGAAATTACAGTTACCAATTAATTGTTGTCCTACTATACACCTCATATTGCTCTGTATAAATCTTACACAAACTC
CCATGCCCCTCGTTTCTTCACTGTAGTAAGGAACACATAATATAAAATTTACTGTCTTAACCACTAACTATACAGCACAGTAGTGTTAACTATATGTGCC
TTATTGTGCACATAGAACTCTAGAACTTTTTCATTCTGCAAAACTGCAACAACRCTACACCCATTGAGCAACAACTCTCCTTTCCCCCAGCCCATGACAA
TCACCATCTTAATTTCTGTTTCTGAGAGTCTATTTTAARTATCTCATATAAATGGAATCATGCAGTAATATCTTTTTGTGACTTATTTATAGGTTTAATG
ACTTATTTATTGTTGGTTTATTGCACTTCATATAATGTCTTCAAGGTTCATTCATGTTGTAGCATATGAAAAGATTTCCTTCCTTTTTTAAAGGTGGAGT
AATATTCAATTGTATGTATGTACCACATACTCTTTATCCATTCATCCATGTAGGTACATTTAGGTTGTTTCTACCTCTTGTCCATTGTGAATAATTGCTG
CAATGAACATTGGTATACAAATATCTCTTAGAGATCCTGTTTTCAATTTCTTTTGGATATAGACCCAGAAATAGGTTGTTGAATCAGATGGTAATTCTAT
TTTTATATTTTTGAGGATCTTCCATGCTGTTTTTTATAGCAGCTGTACCATTTTACACTCCCACCAACAATGCACAAGGATTCCAGTTTCTGCACATCCT
CACCAACACTTGCCATTTTCTGTTTTGTGGATGGTGGCTATTGTAACAGGTGTGAGGTGATATCTCATGGTGGCTTAAATTTCATTTCCCTAATGGTTAG
TAATGTTGAACATAATTTCATATGTTTGTCAGCCATTTGTCTATCTTCTTTGGGGAAATGTCTATTAAAGTCCTTTGCTCATTTTAAAATCAGATTATTC
ATTCAGTTATTGTTGAGTTAGAGGAGTTCTCTGTATATTCTGTATAGCCACTCACCAGATAATATGGTTTGCAAATATTTTCTCCCATTTCTTAGGTTGC
CTTTCCATTCTGTTGACTATTTCCTTTGCTGCACAGAAGTTCTTAAGTTTGATGTAGTTTCGTTTGTCTATTTTTGCTTTTGTTGCCTGTGCTTGTGTTG
TCATATCCAAGAAATCTTTGCCAAATCCAATGTCATAAAGCTTTCCTTTTATGTTTTCTTCTAGGAATTTTATAGTTTCAGGTCTTGCTTTTAGATCTTA
TTCCATTTTGAGTTAATTTTTATATATGGTATATGGTAAGGGTCCAACTTTATTCTTCTGCATGTAGATATCCAGTTTTCCCAACAACATTTGTTAAAGA
GGCCATTCTTTCCCCATTTTGTAGGTTTGACACCCTTGTCAAAGACCATTTGACAATATATTTATTTCTGAGGTTTCTATTCTGTTTCACTGGTCTATTT
GTCTTTCTTTAGTCCARTGCTATACTGTTTTGATTACTGTAGCTTTGCAATGTGTTTTGAAATTAGGAAGTGTGGGGCCTTCAGCTTTGTTTTTCTTTCT
CAGATTTGTTTTGGCTATTTGGGGTCCTTTRAGATTCCATATAAATATTAGAATGGCTTTTTCTATTTCTGCAAAATGTGCCATTGGGGTTTTGATAGGG
ATTGCATCGAAYCTGAAGATCACTTTGGGAAAATATGAGCATTTTAACAACATTAAGTCTTCCAACTCATGGACATGGAATGTCTTTCCATTTATTTGTG
TTTTCTTTAATATCTGTAAGCAATGTTCTATAGTTTTCAGTTCACAAGTCTTTTGCCTCCTCAGTAAAGCGTATTTCTAAGTATTTTATTCCTTTTGATG
CCATTGTAAATGAAAGACAAGATGAGGAGAAAGATAAAAAACAAAACAAATCTCCTTTTTAGATTGTTCATTGTTCATGTATAGAAATGCAACTTATTTT
TGTGTGTTGATTTTATATCCAGCAACTTTGCTGAAATTGTTTATTAGTTCTAACAGTTTTGTATGTACGTGTGGAATCCTTAGGGTTTTCCACATACAAG
ATCAGGTTGTCTGCAAACAGAAATAATGTTAGTTTGGATGACTTTTGTTTCTTTCCCTTGTCCTCTGGCAAGGACTTCCAGTATTATACCGAATAGACTG
GTGAGAGAGAGCATGCATACCTTGTTCCTGATCTTAGAGGGAAAGCTTTCAGTTTTTCACCATTCAGCATAATGTTAGCTATGGGCCTTTTATATATGGT
CTTTACTATATTGAGGTAATTTCTTTCTATTCCTAGTTTGTYGAGTGTTTCTTCTTTTTTATTTTGAGACAGAGTCTCACTCTGTCGACTGGGCTAAAGT
GCAATGGCATGATCTTGGCTCACTGCAACCTTCGCCTCCTGGGTTCAAGTGATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCTGCCA
CCATGCCCAGCTAATTTATTTTTATTTTTAGTAGAGATGGGGTTTCACCAAGTTGATTAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCT
CAGCTTCCCAAAGTGCTGGAATTTCAGGCATGAGCCACCACCACGCCTGGCTGAGTGTTTTTTCTTTTAATCATGAAAGGGTGCTGAATTTTTCAAATGC
TTTTTCTGCATTGAGATGATCATGTGGTTAACATGGGATATTATATTGATGGATTTTCATATGCTGAACAAAATTTTTGCATTTCAAACATAAATTCCAT
TTGGTCWTGCTGTACAATCCTTTTAATATATTGTTGAATTTCATTTGCTAGTATTTTGTTGAGGATTTTTGCACCTGTATTCATCAGGTATATTGGTCTG
TAGTTTTTGTTTGTTTGTTTTCTTTTTTTTTTGTAGTATCTTTGATTTTGGTATTAGGGTAATGCTAGGCTCATAAAATTATTTTGGAAGTGTTCTGTCC
TCTTCAATTTTGGGGGAAAGTTTAAAAAGCATTGATGTTAGTTCTCCTTTAAATGTTTAGTAGAATTATCCAGTGAATCCATGTGGTCCTGGGCTTTTCT
TTGTAGATAGGTTTTTTATTACTGATTCAATCTCCTCACTAGCTCTAATTCTGTTTAGAGTTTTTATTTCTTCATGATTCAGTCTTGGTAGGTTATATGT
TTCTAGAAATGTATCAATTTCTTCTAGGTTATCCAATTTGTTGGCATACAATTGTTCATTGTAGTCTTTTATAATCCTTTTTACTTATGTGTCATCAATT
GTAGGTCTTGTCTTTCATTTCTGATTTTTATTTGAGCTTCTCTATTTTTCTAAGCTAGTCTAACTAAGAAAAAAATCAACTCTTAATTTTGTTTATTTTT
CCCCATTTTAAAAATTATTTATTTCCTTTGTTTTTGCTCTAATCTTTATGATTTTGTTCCTTTTGATAACTCTAGGTTTAGTTTGTTCTTTCTCTAGTTC
TTTTACATGTAAAGTTAGGTTATTGATTTGAGATCATTCTTTTTTTTAAYGCATGTGCAATGTGCTGCTGTAAACTTCTGTCTTAGTAACACTTGCTGCA
TCCTGTAAGTTTTTGGCATGCTTTATCTTTATTTTCATTCGTCTCAAGATATTTTCTAATTCCCCTGTGATTTTTTCTTTGACCCATTGGTTCTTCAAGA
GTATGGTGTTTAATTTTCATATATTTATGAATTTCCAGTTTTCCTTTTGCTGCTGCTTTTTAGTTCTATTCCTTTATAGTTGGAAAATGTAACTGGTATG
ATTTTAATCTTCTTGAATTTGTTAAGACTTATTTTATGGCCTAGCATGTGATCTGTCTTGAAGAATGTTTCATACGCACTTGAGAAGAATGTATATTCTG
TTGTTGGGTAGGGTATTCTAGATATGTCTATTTGGTCCAATTGGTCTATAGTCTTGTTCAGGTTTTCTGTTTCCTTACTGATTTTCTGTTTGATTAATTA
TCCATTATTGAAAGTGGGGTATGGAAATCTCTCTTCCTTATCATGTTACTGTCTATTTTTCTCTTTAATTCTGTCAATGTTTGCTTCATATATCTGGGTG
CTCTTCTGTTAGGTACATATATGTTTATAATTGTTATATCTTCCTTGTTGAATTGACCCTTTTTTCATTATACAATGTCTTCTTTGTCTCYTGTGACAGT
TTTTGATTTAATGTATATTTTTTCTAATATAATTATATAATCACCTTGCTGTCTTTGGTTACCATTTGCATGAAAAATCTTTTTCTATTCTATCACTTTT
AGCCTATTGCATGGAATATCTTTGTCCGTTCTTTTACTTTTCATTTATGTATGTCCTTATGTCTAAAACGAGTCTCTTGTAGACAGCATATAGTTAGATC
TTGTTTTTATAAGTCAGTTTAACTACTTTATGTCTTTTGATTGCTGAGTTTAATCCATTTACATCGAAAGTAATTACTGATAGAGGACTTACTATTACCA
TTTTCTTATTGTTTTCTGTGTGCCTTATAGTTACTTTGTTCCTTTTTTCCTCTCTTGCTACATTCCTTTGTGTTTTGTTGATTGTTTTTGTAGTGACATT
CTTTGATTTCTTATATTCTTTGGTGCATCTTCTATAGTTATTTGCTTTGTGGCTACAATGGGGATTACATAAAATATTTTATAATTATAATAATATGTCT
TAGACTGATMATAAGCCTCAGTTGCATATAAAAACTTCACGCTATTACACCTTCTTTCTCCCTACACACTTTGTATTAGCAATATCACGAATTTCACCTT
TTACAATTTTGTATTCATTATACTTATATTTTTATACTTTCATCTTTTAAGTTTTATACTAGAATTAAAATGATTTAGGCATCACTATTATAGTATTACA
AGATTCTATTTGTCTATATATTTATTTTTACTAGAGAGTTATATATTTTTGTATGCTTTCATGTTGCTGTCTGGTGTGTCCTTTAATTATAATTTTCATA
AGGCAGATCTAATGGCGATGAACTCCCTCACCTTGTTTACCTGGGAAGGTCTTTATTTCTCCTTCATTTTGAAGGACAATCTTGCTAGATAAAGGATTCT
TGGTTGGCATGGTTTCTTTTTCCTTTCAGTACTTTGAATATATCACCTCTTTGGCCTCTGGGCTTGTAATGTTTATGCTGAGAAATCTGCTGATAATCTT
ATGAGARCTCTTTTGTAGGTGATGAGTCATGTTTCCTTGCTGCTTTCAAGATTCTTTCCTTCCTTGTCTTTAACTTTTTCTTGTCTCAATATTGACTTCT
TTGGGGTCATTGTAGTTGGAGTCTTTTAAGCTTCTTTACTTTGGATTTTGATTTTCTTCTTTAGATTTAGGAAGTTTTCAGCCGTTATTTTTTTCAAATA
AGCTTTCTGTTCCTTTTTTTCTCTTTTCTCCTTCTAAGACTTTCATAACACACATATTGGTCTATTTTATGGGGTCCTCTAAGTTCCTTAGGCTTTATTC
ACTTTTGTTCATTCTTTTTTCTATTTGTTCCTCTGACTTAATAATYTCAAATGACCTGTTTTTGAGTTCACTGATTCTTTTTTCTGCTTAAGTCTGTTAT
TGAACCCCTCCAGTAAAATTTTAAATTCAGTTATTATAGTCTTCAGCTCTAGAATTTCTGTTTGATCTTGTATTATAGTTTCTAACTTTTTGTTGATATT
GTCATTTTGTTCATGCATCATTTTCCTGATTTTATTTAGTTTGTCTATTTGTGTCCTCTTGTAGCACATTGAGCTTCTTAAAGACAATGATTTTGAATTC
TTTGTCAAATAATTAATAGATCTCCATTTCTTTAGAATTGGTTTCTGAAGATTTATTATGTACACCACCCTTCCTTTTTTTTTGAGACAGGGTCTCATCC
TGTTTCCCAGGCTGGAATGGAGTGGTGTGATAATAGCTCATTGTAACCTCAACTTCTGGGCCTAAGTGATCCTCCTGCTTCAGCCTCCTGAGTAGCTAGG
ACTATAGGTGTACCACTATGCCCAGCTAATTAAAAAAAATTGTTTTTAGAGATGGGGGTCTTGCTATCTTGCCCAGGTTGGTCTGGAACACCTGGCCTCA
AATTATCCTTCTGCTTCGGCCTCCCAAAGCACTGGGATGACAGGTATGAACCACTGTGCTCAGCCTATTTTCTTCCTTTAGTTGAGCCATGTTGCCTTGT
TTTTCGTTTTTTTTTTTTAAGTGTGCTTTGTTATTTTTTTAGTGATTTCTGCATTTGAAAAACAACAACAACAACAACAACAACAAAGGAGTTCTCCCAG
TCTTTACAGAGTAGTTTTACACAAGGGAAAGTCTTCAGCAGCTAGAGGTTCTGGGGGCTTTCCTTGGGATATATATTCTCTGAGCTTGCATGTGTACTTT
CTTAATTAAAGAGGTTTACTGGGTCTTGTTTGTTTTTCCTTCAAGGGYTTGTAATTTCTTGCTCCCTCTGGTGTCTGATTATGGTACTCAGGTTCTCTGG
TGTTGCAAAAAGCCAGTGAACTGTCTTTTGTTCTCCATGGCCCCCAGGCATTGAAAGTATGCTGGTTCCCCATCAGCACTCTGGTTTCTGTCAGGTGAGA
CAGAAACCGGTCCCTCTGCAGCCCACTGAAAAGTGGGAACACTGAATGTATGCTATGCTCTTCTCTTTCCTTTCCAAGGGGGAAGCTGCAAGTTGAACTT
TTTCCTTCAGTCTCACTGAACTGTGACAGTTGGGAGAAGGGTTTTTATGGTTGACATGAAACAATTTTTCTTATGCATTTCAATATGGTGGCTTTTCACT
TTGAGCTTGCCTGGGGTACTGTAACTTCTTAACTGGTTTCTAGAGTTCTCATAAAGGCTTTTTTGGACTGTGTATTGTTGTTAAGTCAGTGTTTCTRTGG
GGCAGAATGTCTGGGGCTTCCTATTCTGCCATCTAGCTGATGTCACTCCCAAGCCCCTGGCACCTCCTCCAGGCACCTTTCCCCCACTGCCCCTCAGCAG
AAGCCACAGGACTGTAAGGGCCATGAGGGGGCGCCAGGGATTTACAATTATAAAGGTCTTGTTGGGCCATAATAAAGTCYCTCYCAGCTAACARGTGACC
AYGGGGCATGTGATGGTCTTGCTTTGTTCACCCATGTGCGTCTTGCATATTATTCATGCTATGGATGAACATGTGCTCCTAGCCATTTCAAGGTTAGACA
TGTTTTGAGAGGATGTTGCATMTGTGACAACTGTCAGGAGTCACAGGTCCTGGGTCGCTGCTCTGCCACCCATGTGTGACACCTCTGGCTCTCTCAACTC
ATGCGTTTTAAGACCCACACTTTCTCTTGGAGGGCATGGGGAGATAAATACCTCTTGATCCTAAGAATTCAGTTGGGAAGTGTCACAAGGAGGGTATGAG
GAAGCTCAGAGACACAACCATTTCCAAACCCAAGTTAAGAAGTCTGAGCCATGAGTGACTCAGCCAGGAGTAGAGCTTAGCTCACAATGGTGGGGTTGAA
GCTGGGTCCTACCTTCCCATCCATGTCCTTCTTTTTCTCCTTTCTCCCGTCCAAGTACTAACAAGGCCYGAACCTGCTTAGCTTCCGAGATCAGACAAGA
TCAGGCACGTTCAGGGTGGTATGGCCGTAGATCTCTTTTTCTCCTTTCTATAAATTCCTTGCTTTCCTATATTACACACCCACACACCAGCTGCCCCTCA
GCCATGAGCATTGTCAGGGAAGGGTCAGACTGTCTTTTAGGAGGCCCTAGTAAAAATCCATTGAATTGGCTTGAATCCTTTTCTTTCTATATCCCCATGC
TACTCCCAAGCCTGTGAATTTCTTGCCAGAAATCTCTAGCATTGGACTAACTAGATTCTAGAGGCCTATATAGATTTTACTCTTTATAGATTATCTTATT
GGAAGGCACATTCATTCATTCATTCAACATATACTTTTGATTTTTCTCAAGGCTGCCCATATGACCCAGAAATTCATGCCCCAGTCTCTGGCATGGTGAC
AAAGCATAGTATGCCCACAGGAGAAGAAGGCTAGTATTGGAAGTATTTCTGGAGGCTTTGAAGGGTCTCCAGGACATTCATTCACATAACTCTGCAGAGC
AGTCCACTGGGAAACCCTTTGAGTTACCTCATGGCTGGAGTGCCTATAGATAGAGCTGTCTGCTGCAGTGTGGAGGCGGTTGGACAGCAGGTAGTTATAT
AGGCTGGGGCTGCAGCTGACAAGACTGGGGAAKCCCAGGGTGAGCAAAGGCCATTAAGGGCAGAACTGGGCATCTGGGGAAATGGCCATGGCAATGTCTT
CTAAACAGAAGTCTGAGGTCACTGGGCTGGGTTCTGAACCCAGTGTCTCCACATGCCCAGCCTGATCATGTTTTTCACCTTGGTTTGCATGTGTATGGGC
AAGGGGCAACAATAAGCTTGTTAGGGTTTCCTTTTATAGAGACTGTAAGAGGAAGTACATTTCTCTACTACTCCCTGACACAATTTTTAGATTATCTGTC
CACCCACTCAGATATATTTTTCCCTCAGTTCATTCAAACTGCGAGAGAGAAAGAGAGAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAT
TTGAAAGAATTTATTGAAATAAGGTTCCTTTCAGCCAAGACTGCCACCTCTGTCCTTCCTCTGGGGGCAGGGAGACAGAGACAGGGCTGTAATGGAGTCG
TGTCTAGTTGAGAAAAGCTTCTTAGCTCTGGTCAGCTCTTTTAGGCCTTCATGCTGTGTCTGGCATATGACCAGCCCAAATCTTTTTCTCTCTCCCTCCC
TTCCTGTTTCATACCAGTGAGGTGGTAGAGCCTATATTTTAAGATCTCAGTCTCAGGAGTCAGAGAATCCTGTGTTTGAACCCCAGCTTTGCCAGATGTT
ATTGTATGTGTGAGCTTGGGCAAGCTACTTACCCTGATCCCCATTTGTTAAATGGGATGAAGAATAATACCTGCTTCTTTGGGATATTGGAAGGTTTAAC
AGAAATAACGCAAGGACCAAAGTCATGATTGTGTGGGGCACACACAGTCAGTGCCTGATAAATGATGGCTGAAATTCCTTCAACTTCCTGCTTACTGACA
CATGCATCCTGTGGCAGCCCTGTGCTGGATCCTCAATGATATAGTGGTAAAAAAGGCAGACCATGCTCTGTGTCCCCAAGGAACTCAGTCTGGTGGGGAG
ATGGTTATGGAAGTCATGGGCAAGTGGCATTCAGGATCCTTCCTTCCCAGATTTTCATTGTGGGCTGGGTTTCTGGGTCTGTGTGCTACCAGACAGAGCC
ACACCAACTGGTTTGGTTTCCTAGGCCTTTAGGGAGTTGGGTCCATATGAATTGTACTTTTGTAAAAGCACTGGATTGTAGTTTGTTCATTCATTCAACC
AATATTAACTGAGTGCTGACTATGTGCCAGTTACTGTTCTAGGCACTTGGGACGCATCAGTGAGTAAAACAAAGGCCTTTCTCTTGTGAAGTAAATATTC
TAGCAGGAGGAAATAAACAATAAACAGTAAGTACAATATATAAGTAAATTACATAGGGTGCTACAGAGTGATACATGCTATTGAAATAAGAAAACATAGA
GCAGGTAAGGGAGATTGGAGGTGCCAGCGATGGAAGTAGGGGGTTAGTTAATATTTTATTTCATTTTATTTTATTTTTTAACTTTTATTTTAGATTCAGG
GGTACATGTGCAAGTTTGTTATATAGTCAACCCATGTCATGGGGGTTTGTTGTACAGATTATTTTGTCACCTAGATATTAAGCCTAGTACCTAATAGTTA
TTTTTTGGATCCTCTCCCTCCTCCCGTTCTCCACCCTCAGGTAGTCCCTCGTGTATGTTGCTCGCCTCTTTGTGTCCATGTGTTTGCCTCTTTGTGTCCA
TGTGTTCTTATCACTTAGCTCCCACTTATAAGTAAGAATATGTGGTATTTGGTTTTCTATTCCTGTGTTGGTTTGCTAAGGATAATGACTTCTAGCTTAA
GATGGAGATCTTAATATATATGCTTCATTCATGTTCCTGCAAGAGACATGATCTTGGKTTTTTTTTTATGGCTGGATAGCATTCCATGGTGTATATGTAC
CATATTTTCTTTATCCAGCCTACTATCGATGGACATTTAGGTTGATTCCATGTTTTTGCTCTTGTGAATAGTGCTTCAATGAACATAAAAACGTGTGTCT
TTATGGTAGAATGATTTATGTTCCTTTGTGTATATACCCAGTAATGGGATTGCTGGGTTGAATGATAGTTCTGTTTCTAGGTTTTTGAGGAATCACCAAA
CTGCTTTCTACAATGGTTGAACTAATTTACACTCTCACCAACAGTGTATAAGCATTCTCTTTTCTCCACCACCTTGCCAGCATCTGTTATTTTTTTACTT
TTTAATAGTAGCCATTCTGGGTGCTGTAAGATGGTATCTCATTGTGATTTTGATTTGCATTTCTCTAATGATCAATGATATTGAGCTTTTTTTATATGCT
TGTTAGTCTCATATATGTCTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGTTCTGTCACCCAGGCTGGAGTGCAGTGGCGCCATCTCGGTTCACTG
CAACCTCCGCCTCCTGGGTTCACCCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCACACCACCAYGCCCGGCTAATTTTTTGTGTA
TTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGACTGGTCTTGAACTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGAGATTACA
GGCATGAGCCACCGTGCCTGGCTCATATATGTCTTCTTTTGGAAAGTGTCTGTTCATGTCCTTTGCCCACTTTTTAATGGAGTTGTTTATTTTTTTCTTG
TAAATTTGTTTAAGTTCCTTACAGATGCTGAATATTAGACCTTTGTCAGATGCATAGTTTGCAGATATTTTCTCCCCTTCTTTAGGTTGTCTGTTTACTC
TGTTGATAGTTTCTTTTGCTGTGCAGAAGCTCTAAAAGACTTAAATGTAAAACCAAAAACTGTAAAAACTCTGGGGGACAACGTAGGCAATACCATTCTG
GATTGGCAAAAGTTTCATGATGAAGATGCCAAATGTCCATTGAATGATGAGCCCCTGCTGGCATCTAGACTGGTCTGAGCTGAGCCAGGGCCATACTGAC
CCCATCACTAATTTGCTTGAGCAGAGGGAGCTGATTTGAGCTCTCCCTTTTGATAGGAACAACTTTCAAATCACCATCAGTGCTCATACAATTCAAAMGT
GTAGTTGGGGGCATCAAAACACAAAACCCTTTCCTTTATAYGTAAAATGAGCAACACGTCTGCTGAAGATTGGGAAAGCAAAGTGAAATTGCAGATGACC
TTTGAATGCCTTAATTTAAAGAATGATCTGGATTGATCTTGCCCTGGATCTGCTGCCACTGTCTTCATGAGTGAACCTTCTGGATTCCCARTAGATGTCC
AGTCTGAAGCTGTCAGAGGAATGAGGGGGTTGGGCTGCTATGGAGAAACAAGAGGATGCATCCAACAGCTSGTGACCACATGTCATGCCCTCCTTGATGC
TGGCCCTCATGCTTTCTGATTTCAAGTCTTACCACCCCTCATCTCTAGAGAGTTAGCCTCCCACCTGTCCTCCTCTGTGTCATTGGCTACTGAAGAATAA
GTGCCAGGAACATCTCGGGAGTACACCTTGCAAGGATTGCCCTCCCTATCCCAGGACTCCTGTGTCAAATCACCTCTACTGTGGTTCCGTCTGGCCCAAG
GCAGGAAGACAGAGTCTCGGGCACTCAGGATTCTGAATGGAGCTGCAGTGCTCTCTCTTCTACCTTCACCCCTTTCCCTCTTCAGCCTCTTTCCCTCTTT
CTATCCCTTCATTCCTTTATCTCACCAATTCTCTTTGTTACTTTCTTATCATTGTAGTTCCTTTTTCTTCTGGTGCAGAAATTATGGGAGAGGTTGGACA
GGCATCCCCATTGGCTTAGGAGCAGAAGAAACAGCCTCCCCTGAGGACATTTACGGTTCCGGACCATGGACAGGGCTACTCTTGCTCCAGTCAGGCACCA
ACAACTCACTTGGGCTAGCTGCATCAGAGCATCTCTGTGAATGTGGTCTTGAGAACCTCATTCCATAGATAGAGGGGCAGGGGCCATAAGTGACTAAGGG
ACTTGACCATACCCCTTGCTAGCAAGTGGCAAGGCAGAGTTAAGAACCCAGGCTTTCTGATTCCATGGCACTATGTTAGGGTTTTGGGTTTTTTTTTCTC
TCTCTCTCATTAGGGTTTTGTTTTCTTTTTCTCTCTCTCATTTTTAAAATTAATTTTCAAATATGTCTCACATAAGGGCACAGGGCTTGAAGTTGCCTAT
TTTCTTTAGGRATGAGGCCAGTTCCACCAGATAAAACAGGAGCCATGTGTTTTTAATGGATAAAGAAACAAATGAAAAGAAAAAAGAAAGACACCGTTGA
MAAGCAGACAAATTAATCCATTTACTTGACAAATATTAATGGAGTGTCTATGAAATGCCAAGCCTTGTGTTGGGATTTAACAGTGAGTCAGGCGTGGTCC
TGCCCTCATGAGATTCTCATGGTGAGAGAAACAGCAGCATAGGCTTGGTTTCACATATTTTGACAATTCACTCCTATTTCCCGAGTTATTATGATTCTTT
TTCTTCTGGGAAGTTCAATGTGCTCAGGCGTCCCCATGTGGTCCCCTTTCTGCCACTGTGCTGAACCTCACCATAGTGGACTCATTCCCCAAATGTCAGG
CAATGGGACAGAAGCCTAGGAGTTCTAACTGACATGACTGACACTTGAGGAAAGGGCTACCTAAGGTGAAGTTCTTTGCTGTATGAGAGTGCTGTAGAAA
GGAGTTTAGCTTACTACATTGGCCATCCTTCATCCATCCACCCACCCACCTATCCATCCATCATCTATGATAGAGTAGTGGTTAAGAAGACAGGATGTGG
CACCAGATTGCCTGGGGTTGATTCCTATTTCCATTTTTATCAGCTGTCTGACCTTGGGCAGATTACTTAACCTTCCTAGACCTCAGTTTCCTTACCTATG
AAATGGGGAGAGTAATAGTACCTATCTCATATGGTTGTGAGGATGGAATGAATTATTATATGTACAGTGCGTAAGACAGTACTTGGCACAGAAAAAATGT
TTAATAATATATTATTATTATTATACCGTAAGCTCCATGAGGGCAGGAAGCACTCACTGGGACACAGTGGGTGCTTAATACTATTTTCAAAATAAGTAAA
TGAATGAATCAAGCATTTGCTAAGCCCTCAACTTTCATGAGTCTGTTCCTGTGCTTAGCCATTGTCCCGTGGACCAAAGCCATAGCTCAGGCATCTTCTC
AGCTGGGGAGAACTCAATGGTAGTTCCTTGTTTTCACTCTGAAAGACCCAGACAGGAGTAGAATCAGCCTGGCAGAGGCCCCTGGCCCCAGAGATACCTG
GCCCTTTCTCTTGCTGCTGATCCAGGGCTGTGGCATAATAAGAATCAGTAAAGCAGAGATGCTTCTGCTAGTCCAGGATTCCCTGTCAAAATAATAAACA
ACCCTTGACTAGTGTTGGCTTAGGATGATGGAAAATGAACTGCATCTGTATCACCATGCAGGGAAAATCATGTTTGGTCCGCAATGGTGGCTTCTGTGTT
AAACATGTCCAGGAGAATCAGAAAGCCTGGAGTTAGAATTAGGAAGCTGAGTGGCATGGGATTATTCCCACGAAGCAATTGAATATGGTACAGGGACAGG
CTTGCTGCTTCACCCCACCTGCCATGCATTGTTTTGTGCCTTTGTTGCATGCATCCCCAGCTTGAGAGGAAAAAGGAGACCCGTTTTGTATCCAGGTCCC
TGAGGCACAGCAACTGTGCTAAGCTCTTTTCAATAAATCCCAGGCTCTGACCCCTGGTGCTGGGTGCAGAGTGGAACCAGAACTATAGCTTTGAGAGTAT
GTCCTGAGATGATGTGWGTGAAATATTTGCAGCCTGGCAGAGGGAAGGGTGGTAGGGTTGAGAGCCTGGGTTTTGCTTTTGTACAGATCTGGGTTTGAAT
CTCAGCTTTTCCATTGCTACTTGTTTGACCTTGAACATGTTTTAAACCTTGAAGAGCCTTAGTTTCTTTACCTGTAATATGATGAGGGTGGGGCTGTAAC
AGCCATTTCAAAAGGGTCATTGCAAATGTTAGAGAGATAATGTTAGTGAACCACAGAAATGTTGGCCCCTTCTCAGACTTGCATGAAAGCACCAGTCCTT
CTAGGTTTGTCTGTGCTCCTTTCTGTTCCCCTAAGATTGAACAGCATGGTTTCCCTGAACCACTTGTCACGTGGAGATGGCTAGTAAGATGGGCCATGTC
TGTCTCCTACAATCCACTGTGAACTCCTTGAGGGCATGGACCATATTATATGCAATCTGCCCCTCCCATCTCCCCCAACTCCCTACTGCCCATTAACACC
CCCACCTATAMACCCTGGAACTAAGCCATCCATTCCCCAGATTTGCTGACTGAAAGACTGAATTTGTCTTGGACCTCTGGGGTTCTTGATAGAATCCATG
GGGTCCCTAACTTGGATGAGGACAATTGCATTATTTTCACTAATCTCCTACTGAAACAGCATTTCTACCAATCATGAAGATAGGCAACAAACACGGAAGT
GGTATTAGCAGTACCTGTGAATTTGTCACTGGTAAGATCACAGATATTTCCATAGAACATTACAGTTGTTACAATTATCTTGAAGTAGCATTTATGCTTC
ARACTACAATATGTATCAGGCCCACTGCTAGATCTTATTAATAATGCATTAATAAAGGAGCACTTWTTAGTGTATGATCGATTTTCAGTATATTTTAAAA
ACTATATTTCARTCTAGCTGATTTCCTTTGCAATTCTATGTATTTTGTTTTACATATTTTAAGACACCATTTGAGRTGGTGTCACGAGGCTCCAAGGAGG
GCATGGCACGACAAAGATGGAGGACTTCAGGTCATGGRGGTCCAGGGATAGGCTTTTTTGGCCTGCTAATCCCCTGAAATGAATGAAAACGGCAGAAGGT
TAGCTTCCTATGTATGTGATTCTAGAAAAAGTATTTCTGACTTTCATTAGGAACTCCAATATGGCTAAGAATTAGACCAGTCGTTCTCAACTAGAGGTGA
TTTTCCCCCTAGGGGACATTTGGCAATATCTGGAGARATTTTGGTTGTCACATTGGGAGGTGCTACTGGCATTCAGTGGGTAGAGGTCAGGGACGCTGCT
AAACATCCTATATGTACAGGACAGCCTCCCACAGTGAAGAATTATCCCACCCAAAATGTTGATAGTGTTGAGGTTGAGAAACCCTGGATTAGACTACTGC
ACATTCACAGAAATCTCTCCGATTGTTAAGATCTGTAGTAAAAAAAAATAGTGCACATCTTCATTAAAAACATCTGTGATAATTGTGTCACCCAGCACTT
AATGCACGAAATAGGGAGATGGGGGTAGCGGAGAGCGAAGAGTAACTGCCTGCAGACTAGAGGAGGCTCCTTAGAGGAGATGAACTGAGCCTGGGACYGT
GAGTTAGATTTGCTAGGTTGAGAAGGTTGCAGTGGAAGGGCGTATGAGGCAAAGGGCCAAGCACTGCAGGTGACAAATTAGTGGTGTGACTSAGGCACAT
GCTGTGCAGGGGAGAGGGGCTAAAATGAGGCTCAGTGCCAGCATCCCTAATGACCTAGTTCTTGGTCCTTTCCTAAAGGATCATTGTAGAGAGCCAAAGA
TACTGTTTGACCCCTGCCTCTCTCATCAGCGGACAAGGTGCCCCTGCCAGAAGGCATGCATAGTGATGGGCCAGAGGCTGATTGTAGACTTGAGGTGTCC
AGCTGGTGCTCCGTGTGGCAGGTGAGACACCTTCAGCGGGCGTGATGATTTATCCAGCATCTGCAGCTCCCCGCTGTGTTTCCTCTTAGGGCAGTTTCAT
TAATTGCGTGGCTTCAACAAATCCATATCCCCAGTCCAGATTGCACTCCCAAACACCAGTCTACAGCCCTAACTGCCTTCTGGCCATCTCCGTCTGGATG
TCCCACTGGCATCTCCAACTAAATTTGTCCAAAATTGACCTTATCAGTCAATAAATATTTGCAGAATTGAATTGAATTTTCCTGCCAAACTTCTCAAGAG
AGTTATCTCCTTAAAATTATCATTATTTGTAGACAACATGATTGTGTACCTAAAACACCCAAGGGAACCAACTGAGAAATTTTTAGAATTAATAAGTGTT
CAGAAACCTGGCTGGATGTGAGATGAATGTATAAAAATCAATAGGTTTTCTGTATATCATAAAAACCAGTTAGAAAAAAATAATGAGAAAAATGACATTC
ACTAGTGCGGCAAAAAGTGCATAAAATGTCTGTGAATAACYTTAACAAGATGTGACTGGGACTTAAAGAAAAGCATCTAATCTTTACTGAAAGATTAGGT
GGTGTTTGCTGTGCCAGGTTCTGTACTGAACATTTAGCAACTCAGCAGATATCACATTAATCTGTACAACCATCCTAGAAGTGGGTGTTAATTTTAAAGA
TGTCAAAACTAAGGCTTAAAGAGTTTAAATAAGTTGCCCACACACAATATTAAGTGGCAAATCTGAAATTTGAACCCAAAGCTTTTGTTTCCAAAACCTA
TGCTTTTAACCTTTCCACTAAGCCACTTCCAAAATAAACCATAAATACACAGATAAATGAAGTTGGTGAGTATTTTCTGAATATTAGATTAGTGCAAAAG
TAATTGTGTGTGTGTGTGTGTGTGTTTGCCATCATTGTTAAYGGCAATAACCGGAATTACCTTTGCACCAACCTAATACAAAAGATTAATTCATTTCACT
CACTCATTCATTTAAAAATGYGTACTGAGTGTCTACTATGGGCAAGTACTGGGCTAGGTGATGGAAATAAAATTGAAGAAAAGCTCAAGGAGGGTCGGAC
GCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGAATCGCAAGGTCAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGT
CTCTACTAAAAACGTGAAAAATTAGCTGGGCGTGGTGGCGGGTGCCGGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAG
GCGGAGATAGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGTTGACAGAGCGAGAATCTGGCTCAGAAAGAAAAAAAAAAAAAAAAAAAAGCTC
AAGGAGTTTGCTGGTAGAGACAGCCACATAAACATATCATTATATCACCATTGATGAAGGCAATGACATTCATCATGAATGATAAACAAGGAGTGGACGA
ATACTTGATGGTGTCTTGAGGGTTCCCAGAAGGCTTTCTGGAGAAGGTAATGAGTTTGAAAATGCCTGGAGTTAGCCGAGTGAAGGAACAATCCAAGCAC
AGAATGCTAGGTGGGCAATTAATATTCATTTATTCATTCATTCAACCAACAACTATTCTGTGAGCATCTATTATGTACCAGGTTCAGGTCTGCGAGCTAG
AGATAGAGCAGAGAAAAAAATGGTGCCCCACTCTCATGGAGATTGTATTTTACTGGGGAGGGYGCATCAGAAAATTAACAAGAGGAAAATATATGGCAGA
GGTGCTAAGTGCTATCAACAAATAAAGCAGGCACCAGGAACACCTGGCTTGAGAAGCAGGTCTGAATTGTACTTAGGGTAGTCTCCAAGGAGGTTATATT
TGACTAGACACCGGAAATAAGTAAGGGTCCCATGGCTACTGGGGAAACATTTTCTGGGCTGAAGTCTTGGCAAATGCAAAGGTCCAGCATGGCCGGATTA
CAGGGATATGGCCGGATTACAGGGATATGGTTGGATCACAGGGATATGGCCGGATTACAGGGATATGGCTGGATCACAGGGATATGGTTGGATCACAGGG
ATGAGGGGACAAGAGATAGGAGAAGAGGTGGACAGGCATCTGGGTACCCATTCATTTAAAGCTTTGAGGACTATGGTGAGGACTTTGGCTTTTATGTTGA
GTGAGATGAGAAGCCAACCAATCTTTAGTTGAGAGAAGTCTTTCTCAGTGTGAACAAGGGAAAAATATTACCAAGAAAAAAGAGATAAATGTGACTGCCT
ATAGAAAGTGAACATTTTGGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGTCAGGAAATCGAGA
CCATCTTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAGTAAAAAAAATTAGCCGGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTAATCGGGAGGCT
GAGGCAGGAGAATGGCATTAACCTGGGAAGCGGAGCTTGCAGTGAGCTGAGATGGGGCCACTGCACTCCAGTCTGGGTGACAGAGCAAGACTCTGTCTCA
AAAAAAAAAAAGTGAACATTTTAATCTACATGGGAAATCTAAACAAAACAAAAAGCACACAACCAGGTAGAAAACAATATTTGCAACAAATATGACAAAA
GATTAAAATTCTGACTCTATAAAGAGTTAGTACAAATTAACAAGAAAAATAGTAAGACCTAATAGAAGATTTAAGTATATAACATTTAGAAACTTCAGTA
TGTCAAACATGATAAAATTAAAAGGCCAAACAACTACAAAACACATATATAGCACATGCGATGCATAAAGGATTAATATATTACACATATATAAAATAGA
TAAGTAGGTAAGAAATGAGGGAAAAAAATACCACAATGAAAAATGAGCTGAGGATTTGATCAGCTAGTTCCAAAAAGAAGAAATTAAAATTATTAGAAAA
AGTGAAAAAGATGTTGAATCTGAGTCATAAAACATCACTAAGTAAAATGAGATCACATTTTTTGCACCTAATAAGCAGGCAAAAAGTTTCCAAATAAGAC
AATACACAAGGTTGGCAAAGGTGCTGTGAGATAGGTATTCCTAGACATAACTATTGAGAGTTTAATGGGTGCACATTTCCTAGAAAGGATATTGTTAACC
CAGAGCCAAAGCCTCAGAAATGTTCATACCATTTGACCCAGTCATCTGCTATTTGGAAGTCTGTCCTGGGGAAATCATCCAAATCATCCAAAACAAATGA
ATGAGCAATGACTTGAGGAGTCTAGTTCTCTGAGATTGTTCTGGAGCCTGATGGGGGTAGCTGCATTGACCAGAAACTCAAAGCATGGGTGAAAGAAGGC
AGACCATCCTGGCTAGAGAGAAATGCAAGGTGCCGTCAAAATGGAGGTCAGTAGCAGCATTCCCATCTACAGGGCAGAACATCAGTCACTAGAAGTGAAG
AACGGGTAGACTTTTTCTTGAAAGAAATTCAACGTTTCATGGGCATGAAAGGACAAAGCCATTCTGGCATGAGCTCCCATTCCATTCACATTTCAATCTG
GAGTGGCTGCTCTGGGTTATAACTTCTTCAACTTACTAACATACATTGGTTTCAGGGAGGTTTCCAAATGAGTCAGGCTTCTAACCCTTTCTAGCCATCC
CTGAGAGAGGTCAGCCAGCCTAATGTGGACAGTACCTTACCCGACCCCACCTGAAACCAAAGCTGGAGGCAGTTACTGTATAGGGGAACATTTATTCTGG
GACTCTGGCCGTGGAAAGGCATTTTCCACTGCATTGACCAGCATCCTATCACCAGATCTAACTAAGGGTCCAGGTCTTATTTACAATGGAACAAAAAATC
CAGAAGCAATTTAAATGTTTGACAATAGGAGAATGGCTAACTAAATTCTAGTATAACCATACACTGAAACGTTGTGCATCCATTTAAAATGCTGTTTATG
AACAGATTCAGTATCTTAGGGAATGCTCACGTTATAATGTTTACTGAATTGTTACAAAAGAAAACCGAGAAATGACCTGAATGGCCATCAACAGGGGAGT
GGTTGAATAAATTGAGATACATCCATGGCATGGAATATTACACATTCATATAAAAAATAAGTTAGATCTGTATCTACTGACCTGGAACGTGTCCCCGGTG
TATTGTTAAGTGAGAAAGCAAGTTGCAGAAAAATGAGCTAAACTACAGTTTTATTTTTTAAATGAAATAATCAAAATTCTCCCAGAATGTGTCTGTGTGG
TTTGCATGAGAGAGAAGAAGGTGAGGGAGGGACACATACCTGGCTGTTAACTTCGGTAATTTTGGATTGGGTGGGGAGGAGGGAGACTGCATATATATTT
TTTTATACTTGCATTGCGTATGTGCATATCTATGCATATTACAAGTCCACATTGCCTTTTTAAATTGAAGATTGAAGAATAACTTACWGAAAAAGTAGCA
CACAAAATTATACATATGGTGTTATCTCACCAGTGTGAAATATGCATGGAAAAAAATCTCAGAAAAATGAAAATATTAACAGCAGTTGCCTCTGGAAGGA
AGAGATTATAATCAGTTTTCTCTTTTTAAATCTTGCCTGTATTTTTCAGTTTCTACAATGTAGAAGTTATTGTTTAGAATACAATGGCCTTCCACCTTCT
CATCAGCCAATCTTGCCTATTACAATCTGCCCTCTTTCCACCTTGCCATCCTCCCACCTGCCTTTGCTGAAATTGATCTATCCATTCAGCAAATACTTAT
TGAATTCTAGGCACTAGGGATGCAGCAGGGACCAGGTCAAGGCTCCAGCTCTCAGCATTGCTTCCAGAGGGACTATTTAGACACCAGACAGAGTGACCTC
ATTCAAGACCCTCATCTTAGTCTTTCTGTGCTGTTCACCACATTGAGTCAACCTCTCCCACATGGAACTGCCCTCTGGATCCTCTCCGACTATTCTACCT
GTTCCCTGCTCTGTCACCTTTTCTGTCCCCTTACATGGGAGATGTTCCCAGAGGCTCTGTTCTGAACTCCTTCACTTCTTTCTCTATAGCAGAAGATGCC
ATTCACACCCAGATTCTTAATCAGAATCTCCTGTCCTTGGCAGGTCTGAGCCAAGGCAGAGGTCTGGGATGCTGGAGATGGTGGTGAATGTTGATATTTC
ATTGGTTGTCCACAACACGAATCGGGGAGGCCCTTAAGATGTGGCCCCTGTGGCATCTATACTTCAGAACCACTCTGTGTACCCCTCTAGCATGGTATTG
TCTAATGACATAYTTTGATTTACTTGTTTCTAGTCTATGATCCAGGTCCCCATGGCTTATCACAGGGTCTATCCTAGAGGAATGAATGAATGAAGGAAGG
AATTAATGGCATGATGCAGTGACATTACCAGGCAGGTTTTAGGGACAGGAGCAAAGTAAATCTGGTACCTGTACCAGTGAGGGAAAGTTCAAGGAAGTGT
ACTCAGGGCTTCTCTGAAAGTTGTGGAGTTAGAGGCTTTATTTCATTATCACTGTGGTTGGCTATTTTTCTGGCTTCTGGGCCATTTATGTCTTCTTTTG
TGAACTAATTTGTTCAGATCCTGTCCAATTATTACTAATAGTACTTTTCCCCCTAAGTATTAGTAATAGTTCTTTCTATATTCACCATATTACTTTTCTC
CTAACATTTTTGTATGCTTTCTGATATTCTGTTGTTGACATATGCATACTTTTAATATCAATCTTGTAGTATCCTCCACAGCTATTATGCTAAAAAATCA
CGGTCAGATAATTACCTAGGTTTTCTTCTCATTATTTTATGACTTTATTTTTTTACCATGTAACTCTTTGCTCCATCTGGAAGTTATTTTTGTATATGGT
GCGATTCGAGGAGATAACTTAATTCTTTTCCCAAACAGTTTATTAGTTGATCCAGCAAAAGTCTTTTTCTTTTCTCAATTTTTTTTAATATTGCCTGATA
CATATTTCCATTTTTATGTGCATTAAAGATATTCATGCAATACCATTTCATGTCCTACCTGTTTACTCCTGGACCACCCCCACACTATTTTCATAAGTGT
CATTTATGATGCTGTTTAGTATCTTGTGRAATGAGACTGCTAAATTTACTATCTTCTCTAAAMAATGCATTGTGACAATCTATTTTTCTTTTTTTTTCTT
TTTATTTATTTATTTATTTATTTATTTTTTTATTATTATACTTTAAGTTTTAGGGTACATGTGCACATTGTGCAGGTTAGTTACATACGTATACATGTGC
CATGCTGGTGTGCTGCACCCACTAACTCGTCATCTAGCATTAGGTATATCTCCCAATGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGTCCCCAGAA
TGTGATGTTCCCCTTCCTGTGTCCATGTGATCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCGGTGTTTGGTTTTTTGTTCTTGTGATAGTTTA
CTGAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACA
TTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAATGCCACAATAAACATACGTGTGCATGCGTCTTT
ATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACT
GACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTT
TAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCATGTGTTT
TTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTCAATTTGTTTGAGT
TCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTT
TTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGTCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCAT
GCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACGTTTAAGTCTTTAATCCATCTTGAATTGATTTTTGTA
TAAGGTGTAAAGAAGGGATCCACTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGT
TTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGCGTTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCA
GTACCATGCTGTTTTGGTTACTGTAGCCTTGTGGTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCG
ATGCGGGCTCTTTTTTGGTTTCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGGCATTGGTAGCTTGATGGGGATGGCATTGAATCTGT
AAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCCTT
GAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGT
TCACTCATGATTTGGCTCTCTGTTTGTCTGTTGTTGGTGTATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGC
TTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAATCATGTCGTCTGCAAAGAGGGACAATTTGACTTCCTCTTTTCCTAA
TTGAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGGCCAGAGCTTCCAACGCTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTG
CCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAAATATGTCCCAT
CAATACCTAATTTATTGAAAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAGTCATGTGGTTTTTGTCTTT
GGCTCTGTTTATATGCTGGATTACATTTATTGATTTGCGTATATTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAATCTTT
TTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAAGTCTCTTTTTTGGTTGTGT
CTCTGCCCAGCTTTGGTATCAGAATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCTTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGG
TACCAGTTCCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTCTTTTTGGTTGGTAAGCTATTGATTATTGCCACAATTTCA
GCTCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGAGTGTATGTGTCCAGGAATTTATCCATTTCTTCTAGATTTTCTA
GTTTATTTGCGTAGAGGTGTTTGTAGTATTCTCTGATGGTAGTTTGCATTTCTGTGGGATCAGTGGTGATATCCCCTTTATCATTTTTTATTGCGTCTAT
TTGACTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCGGTCTATCTATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGA
AGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATTTCAGTTATTTCTTGCTTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTT
CTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGC
GTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCGTTGGTTTCAAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGG
AGCAGGTTGTTCAGTTTCCATGTAGTTGAGCGGTTTTGAGTGAGATTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGATAGTTTGTTA
TAATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCAACTATGTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAAAATGTATATTC
TGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCCGCTTGCTGCAGAGCTGAGTTCAATTCCTGGGTATCCTTGTTGACTTTCTGTCTCGTT
GATCTGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTAATGTGTGGGAGTCTAAGTCTCCTTGTAGGCCACTCAGGACTTGCTTTATGAATC
TGGGTGCTCCTGTATTGGGTGCATATATGTTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATCATGTAATGGCCTTCTTTGTCTCTTTT
GATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTTCTTGGTAGATCTTCCTCCATCCTTTT
ATTTTGAGCCTATGTGTGTCTCTGCACATGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTT
TAATTGGAGCATTTAGTCCATTTACATTTAAAGTTAATAGTGTTATGTGTGAATTTGATCCTGTCATGATGATGTTAGCTGGTTATTTTGCTCGTTAGTT
GATGCAGTTTCTTCCTAGTCTCGATGGTCGTTACATTTTGGCATGATTTTGCAGTGGCTGCTACCGGTTGTTCCTTTCCATGTTTAGCACTTCCTTCAGG
AGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTG
GATATGAAATTCTGGGTTGAAAATTCTTTCCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTAGGGTTTCTGCCGAGAGATCTGCTGT
TAGTCTGATGGACTTCCCTTTGAGGGTAACCTGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATG
TGTCTTGGAGTTGCTCTTCTCGAGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAATCTGAACGTTGGCCTGCCTTGCTAGATTGGGGAAATTCTCCG
GGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCCATCACTTTCAGATACACCAATCGGACGTAGATTTGGTCTTTTCACATAGTCCCA
TATTTCTTGAAGGCTTTGCTCATTTCTTTTTATTCTTTTTTCTCTAAACTTCCCTTCTCACTTCATTTCATTCATTTCATCTTCCATTGCTGATACCCTT
TCTTCCAGTTGATCGCATCGGCTCCTGAGGCTTCTGCATTCTTCATGTAGTTCTCGAGCCTTGGTTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTG
TATTGGTTATTCTAGTTATACATTCTTCTAAATTTTTTTCAAAGTTTTCAACTCCTTTGCCTTTGGTTTGAATGTCCTCCTGTAGCTCAGAGTAATTTGA
TCGTCTGAAGCCTTCTTCTCTCAGCTCGTCAAAGTCATTCTCCGTCCAGCTTTGTTCCGTTGCTGGTGAGGAGCTGCGTTCCTTTGGAGGAGGAGAGGCG
CTCTGCTTTTTAGAGTTTCCAGTTTTTCTGTTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTTTGGTCTTTGATGATGGCGATGTACAGATGGGT
TTTTGTTGTGAATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGACAGGATCCTCAGCTGCAGGTCTGTTGGAGTACCCTGCAGTGTGAGGTGTCAGT
GTGCCCCTGCTGGGGGGTGCCTCCCAGTTAGGCTGCTCGGGGGTCAGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGCCAGTTCTCAGATCTCCAGCTG
CGTACTGGGAGAACCACTGCTCTCTTCAAAGCTGTCAGACAGGGACATTTAAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCCCC
AGAGGTGGAGCCTACAGAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTCGAGCTTTCCGGCTGCTTTGTTTACCTAAGCAAGCCTGGG
CAATGGTGGGCGCCCCTCCCCCAGCCTCGCTGCTGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATCAGCGAGACTCCGTGGGGTAGGACCCTCC
GAGCCAGGTGCGGGATATAATCTCGTGGTGCGCCGTTTTTTAAGCCCGTCGGAAAAGCGCAGTATTCGGGTGGGAGTGACCCGATTCTCCAGGTGCCGTC
CGTCACCCCTTTCTTTGATTAGGAAAGGGAACTCCCTGCCCCCTTGCACGTCCCGAGTGAGGCAATGCCTCGCCCTGCTTCGGCTCGTGCACGGTGCGCG
CACCCACTGACCTGCGCCCACTGTCTGGCTCTCCCTAGTGAGATGAACCTGGTACCTCAGATGGAAATGCAGAAATCACCCCTCTTCTGCCTCGCTCACG
CTGGGAGCTGTGGACGGGAGCTGTTCCTATTCGGCCATCTTGGCTCCTCCCCCCGACAATCTATTTTTCCAGTTAAACTTAGGTATCATTTTACCAAACT
TAAAACGGGTCATTGGGCTTTTCATCCGAATTGCATTAAACTTATAAATTAACTTTTCTGTAACTTGTCAAGAGGTTAATATCATAAATTAACCTTTCTG
TATCCACTCAAGATTATGCTATGTCTCTCCAGTTATTCAAATTTTTTATCCCTCTGTAAAAGTCATTTTCATATCGTGCCTGCACACTTCTTGTTAAGTT
TATATGTACTATATGCATTTTGTAGTTACCATAAACAAGATCTTTTTTCTTTATATTTTTATCTGTCATTGACATATAGGAATGTTACTGATTTTTGTAT
ATTATTTTGCATTTGGCTAGTTTATTAAAATTTCATATTATCTATAATAGCTTTATAATGAATTCTCCTGGGTTTTCTAGGTATATTAATGTATCATCTA
CAAACCATAATTTTGCTTCCTCTTTTCTCATTTCTTTTTCTTGTGTCACATGGGTTAACTCTTCCAATAAGCCGTGAAATCCCAGAGGTGATGGTGGCAC
CTCTGTCTTGTTCCCAATCTTAATCAGGTGTTTCACCTTAAGTACAATGTAGAGTATTGTTCTAAAATTGAAGCTTTATCATAGTAAGGAAATATTCTTT
TTCCTAGTTTTGAATGCTTATTTTAATCAGGGTTACATGCCTAATTTTATGAAATGCCTGTTTAGGATTTATTCAGAAGACCTTAACATTTTTTTTTCTC
ATTTAATGGGATACTTCGTGTTAAGAGATTTCTTAATATTAAAGTCCTTTAGAGATTAACTGTCCTTTGTCAGTTAATCCCTAAAATGGGCTTTAAAAAA
ATTAGTGTCGAGTCAATTTATCAGCATCATGGTGAAGAAAATGGATTCGAAGTGGAATACTTATGTTTGAATCCCACCTTTGTGTAACAGTGACTTGGGC
CCCATTACTTAATTTCTTTCTGCCTTAGTTCTTCGTCTGTAAAATGGAGATGATAGTAATAGTATCTACCGTATAGGGCTGTTGTGAGGATTAGACAAAT
CAATATAGGTAAAGTTTTTAGGAGAGTGTCTAGCCAAACACTAAGTAAATACAAACAAAATATTAAATTATTGAGAATTTACCATGTACCTAATACTGAG
CTTGGGACATGGATTCAAAGATGGGCAAACTCACATGTGGTGTCTGCTCTCATGAAGCATTCAGCCTGGTGAGAAGACAGATACTTGTGAAACAATCACT
TGGAAGCATGGAGATTTACTTTTATAATAAGTACCACCAAGGAGAAGTTACGGTGTCATGACACTGTGTAGTAGTGGGCTTGACCTGACCAAGGAAGGAC
ACTAGGCTGAGATCTGAAAGATGGGTATGCTAAGAGTGTTGTAGGCAGAGAGAACCGCGCAAAGGTCCTGTGGCTCTGCAGTGCAAGAGTGTGGCAGATA
CAAAGGACAGAAACAGGCAGGATTTGGCTGGAAAGCTGGTGGATATGAAGCTGGGAGGTCACTAAGGGCCAGGCCATGTGGAAAGCCTTGTATACTTTAA
TTTTCCTTATTGAAGAGCAAGGAGGAGCCATTGAATGTTTGGGGCATTTGGGAGGTTGGCATGACCTCACCACCTTCTGCGTGCAGTGTGAAGAACAGAT
TGGCAAGGACCAGAGCAAATGTGGCTGACCAGTTAGGAGTTAATACGGCAGTTTAGGAATGAGCTTGGTGTAGGGTGGGGACAGACGGAGATAGAGATAG
AGTGGTAGATTAGCCATGGGGTTGTGAAGAAGAGGAAGCTTCTAGGTGAGCCTTACTTAGATAAAGAGATGGAGGCATGATTCCATTCACTGAGTTGGGG
GGTAGGCAACAGAAGAGGAGAGAGTGGGTGGGGGGACATCGAGAGCATCCCAAAGGGGTGATGGGCCTGGCCCACAGAGGGATGGCTGGCCTGGATCATG
ACGTTGTGAGTAACCAATGCACAAGTGGGAAGTCCCCCAAATCGGAGAGAGGAGCAGAGGCCTTGGCACGGAGACTGAAAGGAGGCAGAGAAAGAGCAGG
AGCAGGAAAGGAGTATGGTATTGTGGGAGGAAGCTCAGGGCATTGCTGCTCAAAGTGTGGTCCCACAGAGGGCATCATCACATCACCAGGGAGCATGGTG
GGAAGGCAGTCCCTCCAGCTCCACCCCGGTGTCGATCTGAATCTCCATTTGAGACAGATTCCCCAGGTGATGCGTGTGCACAGTGAGGTCTGAGATGCTC
TGGCCCGGAGGAGTGTTTCTGAAAGGAGGGTGAGCAAGAGCAGTCAGAGGCACTGAGCAGTAAATTAACAAGAAAACGGAAAAATAGCCACTGAGCCCAT
GGGTAGTAGATCTGTTTGGGTGGATCAATGGGACCAGAAGGCAGAATTGACAGGGTTGGAGAGTGAGTGGGAAGTAAGGAAATGGAGACAGAAAGTATAG
ACAGATTGTGTTTTCTATAAATTTAGCTGTGAAGGAGAGAGAGACAAGGCTGGAGGGAGACGAGGAGTGGGGTAGGGAATTTTTTTCTTAACGATAGAGT
CTTGAGCACATTTAAAATGAGAAGATACTAGTGGAGAGGAAATGACTGAACACACGTTAGAAAGAAACAGGAACGTATACTGTTCTTGAAGAGTAGGGAA
GAGTCGAGACTCTTGGCAAGAGTCCATTTAGATGGAGGAAGAGGTAGCTCCTCTGTAGCAGGAATGAAGACAGCATGGGATAGGCTAGAAGGGTTTGGAA
TTGGGAAGACAAGGGAATCCTTAGGAATGGCTTTTATTTTCTATGGAGAGTGAGGGAGAGGAATTAGCTGAGAGCCAGGAGGTTGCAGACAATGGAGAAG
GTTTGAAATTGTGGTTCTGACATTCCATGTTGTAGAGGGGAAGTCTGAGTTCAGCCTGGTATTGGTGGCTGTGTAGTTCAGATTCTCAAAGCCTTAATTT
TCTACTGCATAGAGTTGTTGTAAGCCTTGATTAAATGATACACAATGTATCACCTGGTCAGTACACAGCGCACAGCAAGCCGACAATCAACGTTAGTCAC
CCTTTGTACCTCCCTCGGTGCCAAGTACAGGGCTGGCTCATGGGAAGCACTTGGAAAAGTGGGTTCATGATTTGCTAACACATTGCTCCTGACTCTCTAG
AAGCTTCTAGGAGTTATTCTGGCTATTCTGAACTGCTCCATTTCTCTTTCCCAGGCCAGAACTGCACGTTCCAACTGCACGGTCCCAATGGGACAGTTGA
GAGCCCAGGGTTCCCATATGGCTACCCCAATTACGCCAACTGCACGTGGACCATCACCGCGGAAGAGCAGCACAGAATCCAGCTTGTGTTCCAGTCCTTT
GCCCTGGAAGAGGACTTTGATGTCCTGTCGGTGTTTGATGGTCCACCCCAGCCAGAGAATCTGCGTACGAGGTACCATGCTGCCCACCTTCCCTGTAGCA
AACAGCTGGGCTATGAGCCAAGCTCACTAGGAGGAAGATCTTTCTCGAGTGAAAAGTTTATGGTCATCAACAAAGACCACTGTTTTCATGATGTCCTCCC
TCAACCCCTCTGGTTTTCCAATTCATGTCTCTTGCTTAGAGGTTTCCGGTTGGGAGGATTGATGAGTAGGACATTTGGGAAGACTAGAGAGAAAACACAA
GAGGGTTCTAGACAAATTCAGCTCTTTCTTTTGAAACTGATTTTTCATGCACAGGGTGTATTATTTGTACACACAGAAATATAAGTTGGAACCAACAGAT
ATGGGTGTTGAAGGCTGATAGTGATGCAGTGAATATGTCTTGCGTCACAGTATTTGAAACCATCAATACTTTTCTGGACTTTGCTTTGCATTTCCAAGGC
CTTGGTTGTGGATGTAGACTCTGGAATTTGGGGGAGTTCTCACCCTCTTAACCCCCATCCCTGTGATGGAAGAGATCCCCATGGAGAGAGTAARATGGCT
TCCTGTACCCCTGAGCTGACTCCCAAGGGGAAGAGCTTACAGGAGGGAGATGGGAGGAAGGCTTCCAACCTCTGCAGAAAGGGCAGACTTTTCTGGGGCA
AAGGTGAAGACCCCAGGGTCAAAACTCTCTAGGTGACCCGGAGGCCAGCCAGGGTCTGTCACAAGCCTTGTCCAGGTCAGGTCAGCGTGGCTTCCCGGCT
CTACAGGAAGCCAAAGGGTTAATGGCTTACAAGCCAAGCCCTGGGGAGCCGGAGGTGCTAATTGCTTCTAATGACATGATGCACTAATGAGTGGTTCCCA
GCCAAATGCTTAACCTCAAAGCTTTGTTTAAGATGCATCTCAGCCCTTGGCCTCCAAGCTCCTGCAGCAGGGTCACACACACATTTACTGCACAGTCTTC
AGCCCTCTTCTCTTTCCCCTCTGGGCAGAAGTGAGTCTGGGAAGCCTGCAGCAGAGGCGGGGGGGCATCTGGGGCCCCCTGCACCCCTTCTGCAGCTTCT
CCCAGAAAAGACTGGGCTAATCATCTTCCCTTGAGGTTCAGCAGGGTTCTGTGAAACATTGGTAAAGGGCTAGAGTCCTCTTCAATCATTCATTCCACAA
ATATTTCATGGGTACCTATTATGTCTTGACACTGGCCTAGATGCTGGGGAATAGCAGTGAGAAAAACAAAGCCACCGCCTTCATGGAGGTTACATGCTAA
TGGGGAGGCAGGCATGGAAATATCTAACATGTCTGGTCCTATGAAGACAAAGCACACAGGGTAAGAAAGTGATGGCAGGAGTGCTGGCTTTATTATTATT
ATTATTATTATTATTATTATTATTATTATTATTATACTTTAAGTTCTGGGATACTTGTGCAGAACATGCAGGTTTGTTACATAGGTATACATGTGCCGTG
GTGGTTTTCTGCACTCATCAACCCATCATCTACATTACGTATTTCTCCTAATATCCCTCCCCTAGCCCCCAACCCCCTGACAGGCCCCGGTGTGTGATGT
TCCCCTCCCTTTGTCCATGTGTTCTCATTGTTCAACTCCCACTTATGAGTGAGAACATGCAGTGTTTGGTTTTCTGTTCCTGTGTTAGTTTGCTGAGGAT
GATGGTTTCCAGCTTCATCCATGTCCCTGCAAAGGACATTAACTCATCCTTTTTTATGGCTGTGATTGCTGGTTTTTATAGGGTGGTCAGGGATGGTCTT
TCCCAGGGGAAARAGAGCTATGAGCAGAGAGCTGAATCATGGAATATCATGTATGGTGTGGTATCCCATGTAGGTATCTAGGGAAAGCTTCTAGGCTAAG
GGCACAGGAAATGTAAAGGGTACAGGGCCACCGTTTGGAGGATGGTCTTGCTGTGGCASAGCCCACTTTGGCCAAGCCAGTCATGTTGACTAGGAAGACC
TGCAGTTTTGGAATCCTCATTCTAGATCATCCCAGGTGTTGTTTTTATGCTCTGCTAGTTTGAATTCCTCTCACAAGCAAAGGAGGGTATGCAGGAGGTC
AGTGGTTAGAGGCTAGAGCAGAGCCAGTGGGTAGGAGTTCTGGAAGGGAAAAAGTGAGGCTGGGAGGTGGCAGAAGGTGGTAGATCCTGCAGGGCCTCAT
AGGCCATGCAGGGACTTTGGCCTTGATCCTGAGGCACAGGAAACCCTTGGAGGGTTCTGAGCAGAAAAGGGACCTGCTGTGACAGGCCTTTGCCATCGTG
GGGAAAATGGAGTGAAAGGGGTGAGGCTGGAGGCTGCTGTTCAGGGCAGAGAAGAAGGAGGCTTGGGTCTCCTGGAAGTGGGGACATGATGAGAAGTGGC
CAGCTCTGTGCTGTATTCCAAACACAGAGTGGACAGGATTTGTTGTTGCATTGGGTGTGGGCTATGGGAGAAAGGAGATGAGGATGATTCCAGTCTCCTT
GGCCTTAATGATTATGGAAAGAAGTAGCTGTTTCCTGAGATGGGGACAGCAACAGGAGGAGCTGGAAGTTAAGATTCAGTTTGGCCCTATAAAATTTTAG
ATGTCTATTAGATATCCAGGTGGAGAAGGCAYTTAACGTGCACTTGAATATGTGGTTTTTGAGTTCAAGGCCGTCAGGGCTAGAGATACAAAATTGGGAG
ACTAGGACTGGATGGTGCCTAAAACGTAAGACTGGATGTGGTCACAAGGGAGCCAGTCTTCTCCATCAGATTTTGAGCTCATGTGACACCATCTATGGGG
CACCTGTGTAGACTTTTGATGAATGTTGAATGCATGTTTGAAAGATAGAAAGTCAGGTCAAACCAATGGGGCACTGATTGAGGTATGGACAGCTAGAGGC
AAATTCTCCAATTCTGCCTGCTGGAGTTATTTAAGCTTGTCCTGCTCTTAAGGCAGAGTCCCCACATGTGTGGTCGAGTCTTTGTTTTCTGACACTTGGT
TTTCTTTCTTTYTTTTTTTTTTTTTTTCCAGGAAACTTAAGATTTYATTTGCATAAGCCACAGTAATTAAGAAATTCAATTTGGTTTTGAAATGGAGATT
GACATACAGAAACACAACCCCATACACACATTCTCACACAGTCTGTGGGAAGTGTTTCCAGAGCAGTCTTGTTTGTGGTATTTGTTGTGTGGTCCTAGTG
GGGAAGAAGTAAAGAGTCTTTGTTCACCTCAGACAAATTTATAAACTAACTGACCAAGAGATGGACTTTGTTTACAAGTCTGTTTATAAATAAAATGACG
TTCTAATTTTTATTAAATAATAGGCAGTTAAGCAGCAGTAAAAATAAGTATACCAGAATTAAACAAAGAAAGGGGTTCATATCTCACTTTCAAATGGTCA
GCTCTTTTCCCCCTAAACCTCAAAAAATCTTCTGTCTCCTCTCACCATCTTGTTTTAGAATTGACTACCAACTATTGCAGGAAATTGAACTGTTTTTGAC
CTACATTTGTGATGAGTCTGCCATAATGTAATTCTGATTGTGCTGTCAAAGAAAACCACATATTCCCCCCACCAAAAGAAAATAATTATGTATAATGCAA
ACGTGATTATCATTGTTAGTGTGGAAGGGTACAATTTATTTATTTATTATTATTATTATTATTATTATTGTACTTTTAAGTTTTAGGGTACATGTGCACA
ACGTGCAGGTTTGTTACATATGTATGCATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCCAATGCTATCCCTC
CCCCCTAACCCCACCCCACAACAGTCCCTGGTGTGTGATGGTCCCCTTCCTGTGTCCAAGTGTTGTCATTGTTCAATTCCCACCTATGAGTGAGAACATG
CGGTGTTTGGTTTTTTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGG
CTACATAGTATTCCATGGTGTATTTGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTATGAATAG
TGCTGCAATAAACATATGTGTACATGTGTCTTTACAGCAGCATGATTTATAATCCTTTGGGCATATACCCAGTAACGGGATGGCTGGGTCAAATGGTATT
TCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCAC
ATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGAT
GGCCAGTGATGGTGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCGCCCACTTTTTGATGGGG
TTGTTTGTTTTTTTCTTGTCAATTTGTTTGAGTTCATCGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCAAAATTTTTCTCCCATTCTG
TAGGTTGCTGTTCACTCTGATGGTGGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTACCATTGCT
TTTGGTGTTAGACACTTGGGTTTTCTGACTCTGAGAGGAAGTATGGAAGACTCAGCAGAGACTGGTCTGGCCTGTGTTCTAGCATGGAAGGGTGGGAGTT
TCCATGACCTGGAGAAGTGGTTCTGGCAGGGAAGGCTTCCTCTTGTCCTTAGGATGCAGAAGAATCAGATGTGTCCCCAGCCACGGCACAGCATTCCTGG
CCAACCAGCCATGAGGATGAGGCTCTGGGGTTGAACCTTCATTGGGTTTTCCCTGCTTGTGCTCCTGATCTCTGTCATCTTTATGATCTGCTTATTCTAA
TTCATTTCACACGGGCTTAGCAAAGGGGAAGGGCTAGAAGGAGACCACTGCCTTTTTTTTTTTGATTGATGATGACAACAATAGCCACAGCAACAGCTAA
TATTTATTGAGTCTTTAATGTGTATCAGGCATTGTTCTACATGCTTTACTAGTGAGGCTGGAGAGCAGTGGTGCAATCTCAGCTCACTGCAATCTCTGTC
TCCTGGACTCAAGCACTTCCCCCACTTCAGCCCCAAAAGTAGCTGGGACTACAGGCATGAGCCCCCACGCCTGGCTAATTTTTGCACTCTTTCTGTAGAG
ACAGGGTTTCACCATGTTGCCCAGGCCGGTCTCAAACTCCTGAGCTTAAGTGATCCACTTTGCCTCCATCTYCCAAAGTGCTAGGATTACAGATATGAGC
CTCCATGCCCGGTCTACTAGTGTGTCATTTAAGTCTTAAAACAGTTTATGGTTAAGTGTTACTATTAAGCCTATTTTAATGAAACTGTAGCAAACTTAGT
TATGTCACTTGCCCAAGCTCAGATCATTTTTAAGTAGGGCCAGAACTTTATCCCAGGGATAAATAATATTTCAGTGGACTGAGAAGTTGAATTAGGAAAA
ATGAACCTAATTTTGATTTTGAGAAATCTATTGAATGTTCCACTCATAATTAATTTACAACAATGAACAAAATAAGGGAAAAAATCATCACTTAAAASAC
AGATATATAGGGTTGAACAGAGAGTGACAAAGAGCGAGAGCTAGAAGATTCTTTGGRGGCCCCTCTTTCCTACATCTCAGCCTCTCTGGTTCTATCAGAT
GAGTCCTAGCAGCATTTTCCATGCTGCACTTTTTTGTGTGTGTGATCTAACCACACATTCTTCATCAAATACCACCTCACTTCTCTGCTCCCTTTGCCAG
ACAATTCTCCAAAGAGCTGCCTATGTTTTCTATCTCTGCTTCCTTGATTTCTTTTTTTTTTTTTTTAATTTTTTTAGTATTTATTGATCATTCTTGGGTG
TTTCTCGGAGAGGGGGATTTGGCAGGGTCATAGGACAATAGTGGAGAGAAGGTCAGCAGATAAACATGTGAACAAAGGTCTCTGGTTTTCCTAGGCAGAG
GACCCTGCGGCCTTCCGCAGTGTTTGTGTCCCTGGGTACTTGAGATTAGGGAGTGGTGGTGACTCTTAACGAGCATGCTGCCTTCAAGCATCTGTTTAAC
AAAGCACATCTTGCACCGCCCTTAATCCATTTAACCCTGAGTGGACACAGCACATGTTTCAGAGAGCACGGGGTTGGGGGTAAGGTTATAGATTAACAGC
ATCCCAAGGCAGAAGAATTTTTCTTAGTACAGAACAAAATGGAGTCTCCTATGTCTACTTCTTTATACACAGACACACTAACAATCTGATCTCTCTTTTC
CCCACATTTCCCCCTTTTCTATTTGACAAAACCGCCATCGTCATCATGGCCCGTTCTCAATGAGCTGTTGGGTACACCTCCCAGACGGGGTGGTGGACGG
GCAGAGGGGCCCCCCCACCCCCCAGAYGTGGCGGCCAGGCAGAGGTGCCCCCCACCTCCCAGACAGGGTGGCTGCCGGGCGTGGGCGCCCCTCACCTCTC
AGATGGGGCGGCTGCCAGGCGGGGGCGCCCCCCACCTCCCAGACGGGGCGGCTGCTGGGCGGGGTCGCCCCCCACCTCCCAGACGGGGCGGCTGCTGGGC
GGAGGGGCTCCTCACTTCCCAGACGGGGCGGCCGGGCRGAGGGGCTCCTCACTTCTCAGACGGGGCAGCCGGGCAGAGGYGCTCCTCAGTTCCCAGACGG
GGTCGCGGCCGGGCAGAGGCGCTCCTCACTTCCCAGACGGGGTGGCGGCCGGGTAGAGACGCTCCTCACCTCCCAGACGGGGCGGCCGGGCAGAGGTGCT
CCTCACATCCCAGACGGGGCRGCCGGGCAGAGGCGCTCCCCACATCCCAGATGATGGGCGGCCAGGCAGAAACGCTCCTCACTTCCTAGACGGGATGACG
GCCGGGAAGAGGCGCTCCTCACTTCCCAGACTGGGCGGCTGGGCAGAGGGGCTCCTCACATCCCAGACGATGGGCRGCCAGTTAGAGACGCTCCTCACTT
CCTAGACGGGGTGGCGGCCGGGAAGAGACGCTCCTCACTTCCCAGACTGGGYGGCTGGGCAGAGGGGCTCCTCACATCCCAGACGATGGGCAGCCAGTTA
GAGACGCTCCTCACTTCCTAGACGGGGTGGCGGCCRTGCAGAGGCGGCAATGTCAGCACTTTGGGAGGCCAAGGCAGGCGGCTGGGAGGTGGAGGTTGTA
GCGAGCTGAGATCAGGCCACTGCACTCCAGCCTGGGCAACATTGAGCACTGAGTGAGCGAGGCACCTCGGGAGGCCGAGGCGGGCAGATCACTCGAGGTC
AGGAGCTGGAGACCAGCCCGGCCAACACGGCGAAACCCCGTCTCCACCAAAAAATACAAAAACCAGTCAGGCGTGGCGGCGCGCGCCTGCGATCCCAGGC
ACTCGGCAGGCCGAGGCAGGAGAATCAGGCAGGGAGGTTGCAGTGAGCCGAGATCACGGCAGTACAATCCAGCCTCGGCAACAGAGAGAGACCATGGAAA
GCGGGAGACGAAGAAGAGGGAGCGGGAGGGGGAGGGGGAGGGGGAAGGAGAGGGACGACCACTGCCTTTTATTGACCTGGAACCAGAGGAGCTCACACCT
CGGAGGATGATAGGAGGGGAAATGACCTTAGAGGACAGTCCAAGTAACATTGGAAGATGCTGTCCTTGATACTGGAATGGTGCTACTCTGGGGGTGTGGA
GAGGCAGCAGCAAGCATGCTTGGTGGGGACCCTTGGGTCTTTGTGAATTTTTTTTTAATGTTCTTGCATGATTTTTAATCTACTGAGATTTCCTTCTTAT
TCATGAATCATTTTTGTGTGTGTGTTAGTCCAGGGAATCACCAATAAAATCACCCATTTTATTGAGAGTGTCAAGTCTATTATCCTAAGGTTGTACACTG
TTTTCCCACTCAACCTTTCTTTCTCCATGGTGTCTGGGTCACATCCCTTTCTCACATCTGCTCCTGTGCATTTCTTTCTTTCTTTCTTTCTTTCTTTCTT
TCCACTCAGTTAGTCTTGCCAGAAGTTTGCCTATTTTATTGGTCTTTTTAAAGTTCCARTGCTAGGGTGATCCATTTTATTCTCTTTTATCTAAATTATT
GATTTCTGCTTTTATCTTTATCTATTCTTTTCTCTCACTTTCCTTAGGCTAATATTGTTCTTTTGCCAATTTTGTAAATTAAATTAGTTTTATTATTTCT
TGTTTGATAATAAAAACATTAAGAGACATTTTCCCCTAAGTATAGCTTTGACCACATTCCATAAATTTTTATGGCTAGTTGTTATTTTAGAAAGAGTTTC
TAATTGCAATTTTGTTCTTTCTTTGACTCTAGGGTTTTCCCCTTAAATTTTGAAGTAATATTTGTTTATACTTTAGAAATTATTATCTAGCTTTATTTCA
TTATGATTAGATTATGATTTCTACTTTGGAGAATTTGTTGACTTGTTTCCCTCTGTATAAGATCATTTTTTGTCAGTATTCTATGAAGAAAGATATTCTG
TGTATGAAAGGTGAAAAAATTATGTTATTAATATCATTCAGTTTTTCTAATTTCATATCTATTGCCTAACTGATATTTGCGGATAGGCAATATATTGCTC
TCACATTCTTACTATAGTTTATATCAGTTCCTCCTTTTATTCCTAAGTTTTTATTTTATATACTGTGATCCTATACTCTTCAGCACATTCATATTTTCAA
ACATTAGATCTTCAGAGTGAATTTTGTATATGTATATATATATTTCCAATATGAAAATTGTAGTTATTCCCTATTCTCTCCTTTTTTTTTTTTTTTGCTT
TACATTCTACTTTGTACCAATATTACACTCTTTTTTTCTTTCAGATATGCATTGATTGGGTCCATTTTTGCCAATTTCTCTATTTTTAATATATCTATAT
TATTGTTTTAGGAATAGTTCTTAGCACAATATACACAGTAGTTAAATTTTTAAAAAATCCTGGCTAAGAGTCACTATCCTTTAACAGGAAAATTTAGTTC
ACTCATATTTTTTGGTAACAACTGATATGTTTGCTCTTCTATTATACTTAATGCTTTCTATTACTTTTAAGCGTCCTTACTGTTACTTCCTTTTATCTGT
CTTCTAGTGCAAGTTGTCTTTGTTTTTTCTGTGATTTTTATTCTATTAGTGCTTAAAGTTGCTTCTTTAGAACATGTTTTAAGCTGTATTTTTCTGTCAA
CATCCTGCCTAGCTAGCTTTTGTCTTAGGTAGGTCTTACTGACTCTATCTTGTAGAATTTTCTTCGTGTTTGTAGCATGTAGGTATCTATCTGTATTCCT
TGGTTTCCAAAGTTAATGTAGATATTCCATCTCTTTATATACTTTAGATCATTTTCATGAGAATTTAGGGGGTCAGGCAAGGCAGAGTTTAACATGTTAT
CGTTCCTCTTCATCTTGACATGGAAATTTTTTAAATAAAAGTTTTATTCTTTTTGATGCTATTGTGAATGGGTTTTTTAAAAAATTTGTTTTTGGACTAG
CCATTGTTAGTATATAGAAATACAATTGATTTTTGTAAATTGATCTTGTATCTTGTGACCTTGCTGAATTTGTTAGTTCAGTTCGTTTATATCTGTGAAT
AAAAGTTTTAATTCTTCCTTTCCAATCGGGATACCCCTTATTTCTTTTTTTCCCTGATTGTGCTGTCTAGAACCTCCAGTATAATATTGAATAGAAATGG
TCAGAGTGGCTAGCCTTGACTTATTCCTGATGTTAGGGGAAAAACATTTCGTCTTTTAGCATTRAGTATGATGTTATCTGTAGGTTTTTTGTGGATACCC
TTCTAATAAAAATTTTTAAGCAGAGGATTTTGGCATGATTTGGTGGCAGTGTGGAAAATGCACTGGGGTGGAGGGCAGACTGGCGACCGTGGGGCAAGGA
AAGAGACAGCAGTAGTCTGGACTAAAGCAATGAAGGGTAAAGATGGCATGGATGTGTATGATGCTATGGGAAAGAGTTATCCCCAGAGTTAGTAGTGGAT
GTATAGGGACAGTGGACTGGGAGTAAGAAAAAGAAAGGAATGGARGATGACTCCGCAGTGTCTGCCTTGGAAACAGAAAACAAACCAAATCAGTCTGCAG
TGAATTTCAGTCTCCAGTGAAATGTGTTCTTGGGGCCTACCAGGATATTTGCTGCACTGACATTTTTCTTCACTTGTCTGGTAGATAGAGCAGGTAGGTC
ACCTCCTGTCTCAGTGTTTTCCTGTGAGACAGAAGGGTGCAGTGGGGACAGACCTAGATTTATACCTAGCTAGGCTCTACATTTATTAATGCTATGACCT
CATACAAGGTTTGGTTTCTCTGAGCCTCATCTATAAAATGGAGGTGACATTTACCCGCCTTACAGGGTTGTTGTATGTGAGCCACCAGCTATAGRTGCTT
ACGTGGTCCGGAAACATTGTTTACGTCCTTTCCTGCCCTTCTGTTCTTAGGACTCAGTAACTCAGACCTTTCCAGAGAGTTCTAGTGCCTGTGATGACAC
TTCATCTGTGGCCAACTCATCAGACATTTTAGACTGGGAATTTCAGGTGTGGTAGAAAGACACTGAAGGAGTCACTGAGCTCAGGAACAGTCATTAATTG
TGCATGTATGTATCATGTGTATGTATGTAATGTGTACGTATCATGGCATTACTGATCCCATGATAGCCTCCTCTCCTCTCCCTTCCCACACAGACAGTGG
GGCCAGACCACCAAGAGGCCTGCAGCAGATTTTTCTCTGCCTGCATCACCTGGGGGATTTCCATGTTTATTGTCTAAAACTTAATGAGCTGGGCACAGTG
GCATCCACCTGTAGTCCCAGCTACTACTCGGGAGGCTGAGGCAAGAGGATTGTTTGAACCTGGGAATTCAAGACTAGCACGGGCAACACAGTAAAACCTA
GTCTCTGAAAAATAAAAATAAAAAAAAAYTTCATGAGTACAAGTTTTGCAATTACTGCTTTCACTACATTTTAAAAAATTATTTTATTTTAGATTCGGAG
GTTACATGTGCTGGTTCTTTACATGGATACATTGCACAATGGAGGGGTTTGGGCTTCTAGTTGTATCCATCACCCAAATAGTGAGCACTGTACACAATAG
GCAGTTTTTCAACCCTCACTGCCTCCCAAACTCCTCCCTTTTGGAGTCTCCTCACAGCATTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTT
GCTGTGTGGCCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCTTGCCTCAGCCTCCCGAGTAG
CTGGGACTACAGGCGCCCGCCACCACGCCCAACTAATTTTTTGTATTTTTTAATAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCTTG
ACCTCATGATTCGCCCGCCTCGGCCTCCCAAAGTGTCCTCACTGCTTTTTTTTTTTTTTTTTTTTTTGARACGGAGTTCCGCTCTTTAGCCCAGGCCGGA
TTGCAGTGGCACAATCTTGGCTCAGTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGC
CACCGCGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGATTCACCGTGTTAGCCAAGATGGTCTCGATCTCCTGACCTTGTGATCCACCCTCCTC
GGCCTCCCAAAGTGCTGGGATTACAGGCGTGACCTCACTGCATTTTTAAGGCATCTCTCTTCTCTTCTCTCCAACACTCTGGTCTTCTTTCTTTATGGAT
GCGTTCCAACAAAAGGCTGAAACGTTACCTCCCTACCCCAATCCTAGCCCCCTTTAACCTCACCTTTCTCCAGCTGCTTGCTCCTGGATTGTGTTGTGAG
AAATGAACTTTCCTCCTATTAGATTCTAAGCTCCTTAAGGCTGGGAGTCATGGGAGTCAAGCCTTCTATATATATATATATATATATATATATATTTTTT
TTTTTTTTTTTTTTGCTTTGCTGTAACAGAGCCATACAGTGGAATATACACCAGTCTTGCCAGTAGATGACATGAGTTTGCTCTCCAGCTCCTCCCTAGC
TGCATAGCATTGGCAAGTCACTTTCACTGATATCCACAGTATGCTAATTGATAAACGGGGTGTATCAAGATCTACCTTATAGGTTAGTTGATCAAGATTA
AATTAAAACAGTATGTAAACTGCTTTAATTATGATGAGATAGAAACAAAAGGAATACTCCTACATTTATAGGAAAAATTAGAAAGCACTATTTAGCAAAA
AGACAAAATAATTTGTGAATCATGAGRTAGAGCAGTGGTTCTCAACTGAAGGCAGTTTTGTCCCCCAGGGGACATTTGGCCACATCTGGAGAAATTTGTG
GTTGTCCCAACTGCAAGTGGAGAGGTGCTGATGACATCTACTAGGTTGAGGCCAGGGATTCTGCTAAACATCATCCCACAATGCACAGCACAGCTGTCTA
CAGTAAATAATTATCTGTCCCCAAATGCCAGTAAAGCTGAGGTTGAAAAACCGTGAGGTGGATTGATTTGAGAGGTTCATACCTTTAGCATAAGACATAC
CTGGGTTTTACTCCTCTTTCTATGTCTGTGAACTTGGGCAAGTGAGTCAACCCATTCAAGCCTCAGTTTCCTTCTCAGCAAAATGGGAACTTCTCACTGA
TGCTATGTACTGGCAGCTTCACCTGGCATCATTGATGAGAAGGTGCCAATAGACACACTGCGCACAGCTTGTTCTATATGCAGATGCTATTCATCTCCCA
RTGACTCCCTTTCTCTACCAGGAGTTCATAGCCATCTCCTTGAAAGCATCTCACATTTCATCTGGAGCTATTCACAAGCAACCACATCCCAGGGTGCCAG
AAGGCAGCGTCTGGCTGCTTCAAATTAAATTTACAATAGAAGCTGATCAGATTCTTCTCATAATGGATCAGGGTGGGGAACGGGAGTAGGAGCTGGTCCT
GAAGGCCGGGAGCCTGTAGGAGTTTGGAAATTAGCAAGAAAAGAACAAAGAGCCTTCCAGATAATGCAGTGTCAGCCCTGCCTGGATGAATTACTGAAAC
AATCCCCACGTCTCTGCTTTTGCACAATTAGATGGCCTCTCCGTGCTGGCAGACATCCTATTGCATTGCAGTTTAATGTGGAATGAAGTTTTCTAATGGG
ACACGAGCAAACATAATCTATGAAGACGCTGCTAATAAACTGCATCCCGTATATTGGAGGGTTTATAGGGTGCTGGTGATGACTGCACCAGTTAAGCACA
GMTAAGCATCTCTTAATTTAGACATTTGGGCTCAAGTTATGGGAAACACTACAACTCGTTCCCTCAATTATTGGAAATACACATTCTGTCATCAGCCTAA
GGTGCAATGTAGTTTTAGTCATTTGGAGCTAGTTGCAGATTTCACTCAACTGGCGTCAGACACCTGTTTTGGAAGTTGTAAAAATCCACAAATTTGCCAG
ATTTACTGTCTTCTTATGAATATGTATCACAGCAGAGGCCCCCAAAGGACCTGTTTTTTGGATTCCTTAAAAGGTGTGCCTTGCACATCAATAGGGACGT
CCTTGAAGGGTCTGCTCTCCAGAATGCCTCTGGGAATGTGCTCTTGTGGGCAGAAGGAGGCTGGGAGGACCCATGGGGATGAGGGAAAAGTCTTTGTTCA
GGATTGAAACAGAGAGGGGACACTGGAAAGGAGAACAAAGGAATGAGGACACTGAACGGCTATTATGTTCCAGCCACCATGCTGGACACTTGTGTTCATG
CTCTCATGGTAATTTATTCTACATTTATTGAATGCCTAACAGGAATGCCAGGTATCRGAGACACAACAGTTAACAAGACAGCTTCTGCCTTCAAGGAACT
TAACGATATCTTTAGGGAGACAGTTAAATAATCAGGGTATAAGTGCTATGACTGGGGAACCTGACCTCGCCTTGGGGGAGATCTTTGTGGATGCTCATCT
GGAGGCTTGGGATGAACCCCCTCCATCTGCCCCTTGCTTAGTTGTCCCTTACTCATTCCTCAAGTAACTCAGTTGTCCCTTCCTTGCCCAGGACACCCTT
TCCTCACAACCTGGTCAAACCCTCCTGTGATACCTGCTCAGATTACCATGCATTCACCCTTTGTGGTTTTACACRCGYGTGTGTGTGTGTGTGTGTGTCT
TCTTCATTTATGCCCATCTACCCCACAAGGCTGTAAACTCCTTGATGACAAGAACTCTTTCTCTTTTACTTTTCATTGTAGCTCTCCAGGGCCTAACAGA
GAGTCTGGCTTATAGCAGATGCTAAACAAATACTTATGGAGTGAATGAATCAATGCTCTCTGGAGGAAGAGATCCCTAATAGAGTGTGGAAGGAGGGATG
AGAGTGTTTCGAGCCAAGAAATAGTATGTGCATAGGTCTAGGCAAAAGTGAGAGAAAGGTGAGGTGCAGAATGACAATGGGTAGGTTCATTTTGGCTGGT
GTATAGTGGGAAGGTGGAGCAGTGGCCCGGGCCAGCTCCACCAGGGACCCTGTATGCCCTGCTGAGGAGCTCGATACATTTCTAAGAAAGATGGTTCACA
ATGAAAGGTTTTAAATAGACATTGTTCACATTATCTAATAATTCAACAACACCTTTAGGAGGTGGGTAGTATTAATTCTCTTTGCAGAAGTTAAGCAAGC
ATGTAAGGCCCCTAAGCTGCCAAATAGCTGATATAGTTTGGCTCTGTATCCCTGCCCAAATCTCGTGTTGGATTGTAATCTCCAATGTGGGAGGTGGGGC
CTGGTGGGTAGTAATTGGATCATAGGGCGGATTTCTCATGAATGGTTATCACCATCCTCTTGGTGCTGTCCTGACGTTAGTGAGTGAGTTCTCATGAGAT
CTGGTTATTTAAGTGTGGGGCACCTGCCCCATCTCTGTTGCTCCTGCTTTTGCCATGTGATGTGCTTATTCCCCCTTTGCCTTATGCCGTGATTGTAAGT
TTCCTGAGGCCTCCCCAGGAGCCAGGCAAATGCCAGCATCATGCTTCCTGTGCAGCCAGTGGGACTGTGAGCCAATTAAACCTCTTTCCTTTATAAATTG
TCCCATCTCAGGTATTTCTTTACAGCAATGCAAGAATGGACTAACATAGTGGCTAAAGAGGGGTGGGCCAGGGGTCTCCTAGAGCCAGAAACAAGGCTTT
CCCCCACTATACCAAAATGCCTTTTCATTGCTTTGGATTTATTTGCATTCATTCATTCAATTTCCTTTTAAAAATCCATTCCTTTTTCCTTTTTAAGCAG
TTTCTCTAAAATAGTAAATGTAATAGGTATTTTCTGCTTTAAGAAGGTCAGCAGTGTATAGAGTGAGAAAAATGCAGCTGCCTCCTTTCCCAGGCCCTTG
TCCCAGCCTCACTCCCTRGAGGTAACCGCTGTTAACAGTTTGGTGTGTGTCCAATTTCTTTTTAAATAAGGATTCATTAAACTGCCCATGAGGCTTATTG
GGACATCCATCAGACCTTTAAAAATTGTTCTGATGAATTAAGTGTAAACTAATTAGAAACATGGATTCAATTACCCTTGAAACACACAAGGGTTTAATAA
TTAATAGGAAGTGGGTTTGAGGCCAAAGGCATTATGGATTTTATCAAACCCCTAACATCAGAAAAGTAAATATGTTTGATTCACCCTAAATGCTGGCAAA
TTTGCCATCCGGAGGCAAACCTGTTGGTAGGAGCTGTGTAGTTAATCAGGAAAGTTAGCTGTGGTTAATAAGGAGGCAGAGGAAGAGGGGTGCAGAAGAC
AAAACCCGCTGATCATTGCTGGGCAGGGCTTCTTGGGACAGGGAAGTGGCCTGTTTTGTGGGGTTACTGCAGTCTGCTTCCTTCACAATCCAAAGCAGGC
TTTGGAGTGGGAGGCTGGATACCTGGGACCCTGGTATCTGCTTGATATCCAAGTTCACACAGGTCAGCACCACCTGACCAGCACCGAAGGGGGTTATGGA
AGGGGAGGAGTGGGGTCTGCCAGGGATGAGGCTCTGGAAACCAAYTGCAGTGACCCCATGGGGCAGCCATGTGCTCCATCCCTAATGCCAAAGGGAGGGT
CTGGGCAGACGTGGTGGGGGAGGGGTTGGCAGCAGGTGATACACAAAGCCAGGTGGGCAGCAGTGTCGGGGTCCTGAGCAATCTCTCCACTCACAGTAGG
ACCCTGTGGTTCAAGGTCAAAATCAATATTTGTGGCAAAGCCTCACCTTGCTCATTCACCAAGTCTGCTGTTTAATAGCAGCCAAAATTTAACACCCCCT
GGAGCCAGAGTCTCAGTCCAAAAGGCTGTGCTGCCTGCATCACTTCTCACAATTGGTCCTGCCTGCAGTATCATGAGATATTGGTCAAAGACGCAACATT
CCCCTAGAGCAGACTTGGCCACCTCTAGATCCTCATCGGCCCCTCTCTTCCAAGTGGCTGCTGACAGCACTGTTGCTGAGATAGGAAGTTTCCCCCTTCT
ATATCCTCAGCTCTTACTCCCTGAACTTCTGGGGCCACAGAATTTGCTCTTCAAGGGACCCTGGTGTCTGCAGGGTGGAGGCAGGTTTGGACTTGTCATT
CTAGTCTTCCCTCTGTTTCTTTTTCAGCAGACACGGTACCCAAATAAACACTTCCCAAGTATTGAGTCCCTCATTCTCTTGGAATTAAAGTAAATCTAAA
ACTAAATCAATTCTCGACTTTTAAGTGACAAAAGAGCCAAATTATTGTACCCTTAAGTGGGTCTACTGCCACAACTACCCATAAACAGTGAGGCCAGCCT
TTTGCTACTGCATCAATTTCTACTCTGTCACAAGATGTGGTGCCAAGAGCCAGACCAGGGGCATGGAGAGCTGGGTTCTGTCCCAGCTTGGCCACTGGTT
TGCTTGTGATCTTCACTAAGTCCTATTCCTTCTCAGGGCCATCTGCGTTTTCCTGACTTACAATATGAGGATTTAAATCTAGAGGAACTCCAAAGCTTCT
TCCAGCTCTGAAATTGTGTGATTGAATGATGCTGGAGATGCATATAGAAGGACTATAAAATATCCCTGAGCTTCTGGGATTCTTTCTACTCTACGTAGGT
ACTGCTCTTGGCTGTTTCAGCAATTCCAGCAGTTGTCTTTGGCGAACAGTTTATTTTCCAATGGCACGTTAAGCAGTGTGGCAGAGAAGGCTAATTGCCC
ACCATCAATCTTGCTCCTTTTCCACAGTGTAGGTGTTAGTGGGAAGCAGCTGCCTAGCTAGGGACAATATTTTCCTAGGCCCCCTTGCATCTAGATGGAG
CCATATGACTTAGTGGAAGGTAGATGGAAATGATGTGTGCCTCTTCCAGGTCTGGGCAGAAAGCCTCCTCTGCAATCCTCTCTTTCTATCTTTCCCTGGG
ACAGGAGATGAGAGAAGCCTAGATGCCTGGATGACTGCATGGAGCAGAACCCACCTCSTCCCCTATCTGCTGCTGATTGATTGAATTTTACATAAGTGAG
AAATAAACTTTTATGTAAACTTAGACCTCACGTATTACTGCACCAGTTGCCCCAGGAGCTGCAGCTGACTGGGTTTGCCTAGATGACATGGTAAAGACAC
TGTAGACAGTATAGACTACTAGCCTGGCTGTTGAATTCATGGAAGCAGTTTCTGACCACGTGATGCCCCTAGCATCTTGCAGACTGGCAATGCAGCATCT
TCAATCCTGCCTGGAGGAGCAGATGTTTTCACGAAGTTTATAGTGGCTAGCTCCTCTGCACCTGGCAGTCTTTCACTGTGCCAGTTCAGTCTCTCGCATC
ATCACTGCCACCTTTGTCCTTCCATAAGCAATGGCTGCCTTATTAAGTCTCATAAGGAAGGAAGCGTGAACAATTGACTCCACCTTCCAATTTGATTATT
TTAACCCAAAGGGCTCTTAACTAGGGATCTAGGGGCTTTTGTGATGCCCTGGCAAGCTGGTAGAGCTGCATACAACTTCTCCCTCCTCCAAAGTTCCACA
GCTACATATCAAAGACAAGGCAAATCTTAAACTTACGTAAACCCTACAAAGTAAAGAGGAACGGGGACGCATCTTGGCTCTGATAGTTTAGCTGGATTTC
AGTTATAAGAGGAATTCCTCACCATCCAGAGATAAAGAAATCTGGACAATAAAGAAGCTTTCTAGTTCTGCAAGAAGCCTTGCAGTAGTGGATATTTTCA
AACCTGCCTTGGTCTGCAAGGGTGGGGGTGGGGGAATGCAGACACAAAGAGTTCTTGCAGACAGAGGCAGATTTGTATCCACTACCGCAAAGCTCCACCC
ATGTAAGTGCCCAGTGTTACTCCTCTCAATTCCGTTTGATTGTTGTGGCTTCTCAGGCGCATTATGTTATTGACTTCTCCCAACAATCCAATTGAAGTGT
CATATTCATCCCATTTTGCAGAGGAGAAAGCTGAGCTTCAGAATGGCTCATAAGCCCTATGCTAAGAAGGTGTGGCTGAGTTCTTAGCATTTTCTCCCTG
CTCTGAGCCAGTGCCCTCCAGCCACAGGAGCCTGTGGAGGGCGGGAGAAAGGCCTTGGGCAACAGTCAGCCAGAAAAAGGACCCATCTACCCTAAAGGAC
AGAGATAGATGAGAGGAAACCTACCAGAGACGGGATTCTACAGTCCTGTCTCCTTCCATGTTTGGAATTTGCCTGCACTTAGGCAAGAAGTAAAGGAAGA
GGGAATGGCTGTCTTTTCTCCACTGCACTCTTCCTCCAGTGTAAGTTAGGTGAAGGCCTCAAAGTGGCAAATTATTTGTAGAACCCCAAAGGAGTGGGCT
TCTTCTATTTTGGAGTATGTAGAAGAGTAAAGATTTTCTTTAATTAGATAGTGCCGGATAGATTTAATTAAAGCTTCAAACCTGCAATTTTCTTTGTTTG
ATTGATCAGTTGGTGCTGATTGCCTGGAGTAATTATGAAGGGGGAGGTGGAGTTTTCAAAGTCTGATGGTGATAAGAAGCAGACTGAGTCAACCCGTGGA
TACTTGGTTGTCAGAGTCATTCTGAAAAGATTTAAATTGCACAAATGTTTGTTGGCTGGTCAAATGAAAAATAAGGTATCTAAATCACACTTTTGTCTAA
ATCATGCTCCTGGTGGATGTGCTTCTGCAGAAAAGGTCCCCTTTCCCCTCCTTTCTCCAAATCTAATCACACCTCTGAGACCAGGCAGTATTCTGTTATT
TTTGTCTTTCTTTTATGAAATAATTGAAGCACATTGTTGGGAGTGTCTCATAATGGCCTTCTAAAATTTCTAGAGCTTACTGGAGGGTCAGGAGAGAAAG
AGCATCTTATAGTCTCCATGTGAATTTAGGGAATTCAGAAAGAGCTTTAAAGTCAGGCACTCCTGGGGTTGAATCCTGCCTTTACCATTTACTACCTCTT
TGACTTTGGACAAGTACCCTTGAACTGCTTTTTCCTCATCAGCAATGCAAAAGAGTTGTGAAGATTCTTTGAGCTGATGTATGCAAGCCAAGCACCCACG
GTTAGCCTGTGATGGGTTCTTACTGGATTTCTGTCTCTTTCCCTTCCTGTGCTCTGTTGCTTTGCTGAGGTCACCACCATAAAAGTTCCATGAACTCACG
GGACCAGAGCTGTCTTGTTCACCACTGCAGACAGAGACCTCAGCACACTGCTTTGTACATGGGGGGTCTCAGCAAATTCTTGCCCARTGAATGAATAAAT
AGTTGAATACCCTGTATATTTAGGCCTCCCTAAAAGTAGATGACACCAGTACAGAGTAAAAGAAGGGGTTCCAAAGAGTTGCCACATTTATGAGGCCCTG
GGGGGTGCAAGATGAACAATGTCATGCAGGCTGCCATGTGAAAGCATTGGTGGAGAAACTGTTCTCTTTTTCCTCTGAACTGGTCAAACCATCTTTATTA
GTCCATTTTTCATGCTGCTGATAAAGACATACCTAAGACTGGGCAATTTACAAAAGAAAGAGGTTTAATGGACTTACAGTTCCACATGGCTGAGGAGGCC
TCACAATAATGGCAGACGGCAAGGAGGAGCAAGTCACATCTTACATGGATGGCAGCAGGCAAAGAGCAAGCTTGTGCAAGGGAACTCCCCTTTTAACTAT
CAGATCTCACAAGACTCATTCACTATTATGAGAACAGCAGGGGAAAGACCTGCCCCCATGATTCAATTACCTCCCACTGGGTTCCTACCCCAACACGTGG
GAATTCAAGATGAGATTTTGGTGGGGACACAGCCAAACCATTACCAACATCTTGGGGAACTGAGTTCAGTTCTCAGTTACACACTGGAATGGGAAGCTAA
TGATTGTCAAGACTGCTGCAGCATAAAAAATGTTTAAGTTAAAAAATAACAAAACAGGCTACAGAATTATCTGTTTATTATGTACATTACCATGTAAGCA
TGTATACACAGGTGAATAAGACTAGAAGGAAATATAGCAACATGCTAATAATAACATGGGTATGAGGATGGCTTGATTATGAATAATTTTTTAATCTTTT
GTATTGAAAAGTTTTTTGCAACATAGTTACATTGTTTTTATAATAAGAATGCATGTTTTGATTAATGTAAGATTAAATGTAAAAGAAAAGAGAAAAGTTT
AAGTATATCCCTTGCTACCCATACCCAAAGAGGGACATTGACAAACTCAAGTGGGACCACGGGAGAATGACCAGGATGAGGAAGGACTTTATGTTGCAAG
ATGGATCTTGAGGACTTCAGGCTGTTCACTTGAAGGAAGGAGACTCTTAGGGGAAATGACGACTGTTGTCAAAAGCTGACATAAGATGGTGGCACTCAGG
CTGTGAAATGTACATTCCAGGGRAACAAACTTCAAGTCATTTCTAACACTTGTGTCTGTCTAGAACTGAGGGTCCCTGTCTCAGGAAGCACCAGTGCAGA
AGTTGGGGCTTCTAGGGAAGCACCTCTCTGGGCTACAGACATGCCATCTGCACAGTGGGGCTGTAGCTCTCTGTCAGTCATTCTTTACCTGGGGATGTGC
CTCCCCAATCCTGACTTCCTGGAGTCATGGAGAGTGGTTCTTGCATCACATATTGTAAGTGGGAGCCAGAAGGGAGGTACGTGTGCAGTTTGAAAAAGCA
TCTTCAGARTGACCTTTACTTTGACTTGTTTTTATTCATTTTATTTTGAATTTTAAACCACATTGAAGAAGGAGGCAGTCATTTTATGTGAATCTTCATA
GGGGGTCCCTGATTTTAAAAGGTTGACAAACTGCTCTGGAAAGGGGCTTCTCAAACTTTCACACACATGCAAATCAGCTGGGAATTTGTGAATGTGCACA
ATCAGATTCAGTCTGAGATGCATTTCCAAGGAGCTCACAGGTGATGCTGGTGCTACTGGCTCATGGACTAGTCAGGATAATCCCTGAGGCTCTTCCTGGC
AGCCCCTGGGGCTCCTGGCTCCCTAGAATGGCAGAATATTGGTTTCTTATGTACAAGCCGTTGGCCCATCCTTTGTAGAGTTTGTTGAATGGAGAGTAAC
CATGTAAGAATGCACCCCCCACCTAATCCAGGCAGCACATAAGAACTGCCTTCAGTAGCAATAGAACTAAGCATTCCTTGCTCAGATTTACATCTTTTGT
ACATGTTTAAATCTGTGCCCATGTCTGTTTATCATTTGCAAATAATGCTCTGTTGTCTTAATCCTACTTTTATGGCTAATGATGTGTGTTTCATTCTCAA
GTGTAGAACTGGAGTAAATATATATTTCTCAATAGTTTTCCCTCTAATCACTACCCAGAGCTGTGAGTCATTGGGATAACTCATGTATGAGGGAGCTTGT
ATCTGGAGTCCATCCCTCAATGCGAGCCTTCTCTGGCTGCCTGTTACAGCCCTGGTGCGGGCATTCATCCTCGCCTGTGCCTTCCCTGCAGGCTGAGGGA
GGCACCACAACTTTCTCCATGAATCTGCGAGGGCATGACAGGCTTGCCAATACCATCGATCCTGTCCCCTTCCAAGCAGAATTGCTTCACTATCATTTCC
AGGAATTTGTGATGTTTCTAATTTGATGATTGAGTGTCGCTCTCCACCATTCCTGCTCAGCTGCAGATAGTGCTGTCTGTCCTGCAGACCCCAAGCCCAT
CCTGACTGTGGAGAAGCCCCATCTTTCCCAGAGAGCGGCACAGGACTGAGCATTCTAGGACCAGGACACTCAGATGCCTACTGTGCTGCAGTGTACCCAA
CCCCCTGGCTGGTCCACATCCTGCTGCGTCCAAGCCCGCCAGACCCCTGCCTCCCTAGGCTAGGGCAAGACTCCACCTGCCTCTCTTGAGCCCACTTGTC
TCTGCAGCTGGACTCAGACCCTGACTTCTAACTCCAYGTCAGAGCCAGCCCCCAGGGCCTTAGCAGCTCCCAAGACTTGCAGCTCGAGCTTCATGGCATC
CCCCCTCTACTAGGCTGGTTTCTGAGCCCCAAACTTTGATTATTTCCCCTCTTCCTTTCTCTGCCCATTATTTCTGCTGACTTTGTTGGTGTTTCAAGAT
GCAAAGGATCAGGGAACGCTGAGGGAGAGGAAATTCCGAGGGAAAGGAAATTCCAAGGCAGAGAGGGGGATGCAGGAGGGAATGAGCAACGAGTAGGGTG
GGATGAATCAACTGCAGGCTTTGGAACAGCGCTTCCTGATCATAAAAATTAGCACTTATACAGTATTTGTATATGCAGTGTATATATTAGTATGTGTGCT
GTGTGTATGTGTCTGCATAAAAAACACTCGTACATATAACACATCCTTGCACCCAGCACTCTTCTCAGCTTGAAATGCTACATCTCACTGAGTGTTCTCA
GCAGCCCTATGGGGAATGTATTATCATTAGCCCCATATTACAAATAGCAACTGAACTGAAGGAAGGGAGGGAGGAAGTGTCTTCCTACGGTCACACAGCT
GGCTGATCCAGGTGGTCAGACTTCAGAGTTGACCATTATGTCTTGACCATTCTGTAATACTGTCTCAAGTTCCTAATTGGGCAGGGTGGAGATATGGATC
CCTCTGAACTTCTGATGACAGCCAGGGACTCTCTCCCATAATATACACACATTGAACTAAAATTTTGCATTTAATTTCTATGGGTGGACTCACAAACTAC
TTGAAACTCATCTTTGAGCCCCAGGGTAACAACTCATGATTTAGAGGTTGTGCATATAGRTGGCAATAATGATAATAGGAATTTAAACTATTTTTGAGCA
TTTACTGTGTCCTGGGTACAGTGCTAAAGGCTTTCCATGAATTACCTTGCTTACAACATTTCCATAACATTTCCATTCACCCGCATTGCACAGATAAGAA
AATTGAGGTTTATAGAGGTCAAGTCATTGTCTCAAGCTCAAGCAGCTAGTAAGCACCAGAGATGAACTAAAACCCAGCTCTGCTGGTTCCAAAGTCAGTG
CTCTGTGCACTGTGCAGCCGGCCCTGCTTAGGGCTGGTGGTACCCTTGTAGACATAGGCCTGAGGGAGAGAAGGGGCAGTTTTGGGGATGGTTTAGAATG
TGTGCTTCTGGACTGTTTTACTGCCTGAACCTTTGGAGATTTGGACCCCAGCCCATGCCTGATGGAGTCTGCAGTTTGGCATAATGAATTCTGTGCATAC
CCAACAATTCGGCCCTATCTTTGAGAGCARAAAGGCAGAGTGGGGCGAAGAAGGAAAGTGTTGGTGCACCCAAAGGCAGAGCTGGACATGGGAGAGAAGA
AGAAGTCTGTTTCAAGCTGTCTGTAAGACACTCTCAGAGTTAAGAGACCATCATGAGGTGGGGTTGGGGGAGGGGAGMAAAGGAAGGCCTAGGGGAAAGA
AGAGCTTTCAGGAAGCCTCCTTGATATGGTTTGGCTCTGTGTCTCCACCCAAATTTCATCTTGAATTATACTCCCATAATTCCCACATATTGTGGGAGAA
ACCTGGTGGGAGGTAATTTGAATCATAGGGGTGGTTTCCCTTATATCATTCTTGTTGTAGTGAATAAGTCTCACGAGATCTGATGGTTTTATCCGAGTTT
TCCGCTTTTGCATCTTCCTCATTTTTCTCTTGTTGCCACCATGTAAGAAGTGCCTTTCGCCTCCTGCCATGAYTCTGAGGCCTCCCCCGCCATGTGGAAC
TGTAAGTCCAATTAAACCTCTTTTTCTTCCCAGTCTCGGGTATGTCTTTATCAGCAGCATGAAAATGGACTAATACAGTAAACTGGTACCAGTAGAGTGA
AGTGTTGCTGAAAAGATACCCGAAAATGTGGAAGCAACTTTGGAACAGTAAGAGGTTGAAATAATTTGGAGGGCTCAGAAGAAGACAAGAAAATCTGTGA
AAGTTTGAAACTTTGGAACCTCCTAGAGGTTTGTTGAACGGCTTTGAAATGCTGACAGTGATATGAACAGTAGGGTCCAGACTGAGATGGTCTCGGATGG
AGAGGAGGAACTTGTTGGAAACTGGAGCAGAGGTGACTCTTGTTATGTTTTAGTAAAGAGACTGGTGACATTTTGCCCCCGCCCTAGAGACTTGTGGAAC
TTTGAACTTGAGAGAGATGATTTAGGGTATCTGGCAGAAGAAATTTCCAAGCAGCAAAGCATTCAAGAGGTGACTTGAGTGCTGTTAAAAACATTCCATT
TCAAAAGGGAAACAGAGTATAAAAGTTCAGAAAATTTGCAGCCTGATGATGCAGTAGAAAAGAAAAACCCATTTTTTGAGGAGAAATTCAAACTGGCTGC
AAAAATTTGCATAAGTAACAAGGAACCAAATGTTAATCCCAAAGACAATGGAAAAATGTCTYTAGGCCATGTCAGAGACCTTCACAGCGGCACCTCCCAT
TACAGCCCCAGAGGCCCGGGAGGAATACGTGGTTTTGTGGGCTGGGCCCAGGATCCCCATGCTGTGTGCAGCCTAGGGACTTGGTGCCCTGTGTCCCAGC
CACTCCAGCCATGGCTGAAAGGGGCCAACATAGGGCTCATGCTGTGGCTTCAGAGGGTGGAAGCCCCAAGCCTTGGCAGCTTCCATGTGGTGTTGAGTCT
GCTGGTGTGCAGAAGTCAAGAATTGAGGTTTGGTAACCTCATTTCAGATGTATCCAAATGCCTGGATGCCCAGGCAAAAGTTTGCTGTACGGGCGGGGCC
CTCATGGAGAACCTCTGCTAGGGCAGTGCAGAAGGGAAATGTGGGATCGGAGCACCCATCGGAGCTCCATCTAGTGGAGCTGTGAGAAGAGGGCCACCAT
CTTCCAGACCCCAGAATGGTAGATCCACCAACAGCTTGCAGTGTGTGCCTGGAAAAGCAGCACTCAATGCCAGCCCATGAAAGCAGCCCAGAGTGGGGCT
ATACCCTGCAAAGCCACAGGCCGGAGCTGCCCAAGACTATGGGAATCTACCTCTTGCATCAGCATGACCTGGATGTGAGACATGGAGTCAAAGGAGATGA
TTTTGGAGCTTTAAAATTTGACTGCCCCATCTGGATTTCGGACTTGCATGGGCCCTGTAACCCTTTTGTTTTGGCCAATTTCTCCCATTTGGAATGGCTG
TATTTACCCAATACCTGTACCGCCATGTAGCTAGGAAATAACTAGCTTGCTTTTTGATTTTACAGGCTCATAGGCAGAAAGGACTTGCCTTGTCTCAGAT
GAGACTTTGGACTGTGGACTTTCGTGTTAATGCTGAACTGAGTTAAGACTTTGGGGGACTGTTGGGAAGGCATGATTGGTTTTGAAATACGAGGACATGA
GATTTGGAGGGGCCAGGGTTGGAATGATATGGTTTGGCTGTGTCCCCACCCCAATCTCAACTTGAATTGTACTCCCATAATTCCTACATGCTGTGGGAAG
GATCAGGTGGGAGGTAATTTGAATCACGGGGGCGGTTTCCCCCATACTGTTCTTGTGGTAGTGAATAAGTCTCATGAGATCTGATGGTTTTATCGGGGTT
TCCGCTTTTGCATCTTCCTCACTTTTATCTTGTTGCCRCCATGTAAGAAGTGCCTTTCACCTCCCACCATGATTCTGAGGCCTCCCTAGACATGTGGAAC
TGTAAGTCCAATTAAACCTCTTTTTCTTCCCAGTCTCGGGTATGTCTTTATCAGCAGTGTGAAAACGGACTAATACACTCCTCTTGCCCRTAAGGGTTTG
GCCATAGGTTTCTATAGCCAGTTCTGTTGCTTTGCTTCTCCAGGGACTGTCAGTTGTGGCATCAGAGAGCAGAGTCTCAAACACCAGCAGAAGCAAGGGT
GTGGCTGGAGGCCTTTCAGCAGAACAGGCCAAAGAAGAGCCAGGTTCAGCCACAGATGTTGGAGGCTCCCCCTGGCCATCCTGTCCTCCCTTGCCTGGCT
GTCCCACCCTCGGGATGGACCCTCACCTTGGGATCTCTTGCTCATGGTCTTGCCCCCGGAGCCCCTCCCTCTGCCCTCTTCACCACCTTCCCTGTCCTCC
ATGTCCTTCCTGTACCCCCTGTCTTCACTGCCAGCTCGAATGCATGTCCTGAAACATGGCCACAGCGGGACTTCCTGGCTTGTCTGTTTTAAGGCATCCA
CATTAAAGTGACTGTCAGAAGGTATAAGCTACTCTTTTGCTACCAGTCGTGTGTACCATGGACACCCCTGATGGATGTCAATGACATGTGTTACTTGGTA
ATAAAAATAGTTGAAGGCTTAAGGGTTTATTTTTAGGCTGGGTCCAAATGCTACCTCAGAATGCCTCTGCAGAGTCTCAGAGGGCCTGGTGGGTGCTTGT
CTGGTTTTGCTTTGAGCTATTGCCAGCACCTGGGTCCCAGCAAGGTCAAGGGCTGTGGTAAAATGTGCTCTTGCTGATTTTATATTCACCAAGTTCATAA
AGAACTTAAGAGTCCAAAGAGCCACATGTATCCTGCTGGACTCCCCATCAGAGGGGAAGCCAGCACACTCATGACATTGGGGTCTTAGCCCATCCTGATG
ACCTGATCTGGGGATCCCATACACAGATCCCATACACAGATATGGAGAGGCTTGAAGCAATTACCCTAGCTGAGCTGACCCAACCATTGCCTCATTTGGA
AAAGGAAGATAATGCTTTCAACCTCTAGGGCCATGTGCATAGACGGCAATAATGGTGTCAGGTTATAAGGCCTCCAGGAGGTTTTGTAGGATCCAGCACG
GAAGCCTGTGCCTTTGTGTGTGATGATGGGGATGCATTGCAGTCACGATGAGCTATGGTGCCCAGCAATCTCTTTCACTCATCTGAGTAATAATATTGAT
AATATTAATGGCTACTATTATTGAGCACTTACTATGTACCAGGCACTGCTCTAAGCACTTTGCATATATTAACCCTTTTAAGTCTTACAAGAACTCTGTG
AAATAGGTGTTGCCATTCTGCAGATGAGGAGCTGAGGCTCAGGGAGATTGAGTAACTCATAAGTGGTGGTGCTGGGATTTGAGCCCATGAGTCAGGTAGT
TGAGCCCCTGAGCCCCACTCAGAACACAGATAGCAGAGAAGCAGTGAGTGGTGGCCCTGGGTGCTAGAGAGGAGCCAGGGGCATGGTCTTCCATGGTGAG
GCAGCCTYGGTGCCCTGTGTCCCAGCCGCTCCAGCCGTTGCGAAACGGGGCCAATCCAAAGTCTGGATCAGCCAAGGATGGACAGCCATCAGAGCACAGT
CTGCCTTGTGGTCAGAGTGAGATGTGGCACACAAGGGCCTGGCACAGAGCCTGGCACACTGTCCAGCYKGCTTCTCACCATGGCACCCTCGATATTCAGG
ACTATGGAGTTTCTTTGTTGTAAGGAGAGGTCCTCCACCTTGTAGGATATTTAGCAGCAACYGTGGCCTGCCAGTAGCCCCCCTCTCCCCATTGCAGAGA
AGAAAAATGTTCTCAGACATTGGCCAATGTCCCAGGCAGGGTTGGRGTGGAGCAAGCTTGCTGCAGGGGTTGGGAAGTGCGAGCTTCCCTTTGTGCCAAA
GACTCTTCCACGGCTACGGATTATGGTCTCTTATGCAATAGCTGTCTCCAGTCGTGACAGAAAGCCAACTTTTCTGACCCAGGGGATACAGGTGGGTGGG
GCCTTTGTGCATCTCAACCACCAGGCAGAAGCATGGCTAGGGGAGGAACAGGGACCACGAAGATGAGGCCTGGCTGAGAGGGGACTGGACAGTGACTGCT
TTCCAAGCCTTCACAGCCTTTTTATCCTTTTCCATTAAAGGGATTCATGACATTTTGGTTACTCCATTTCTGCAAAGAATCAATTGAAAAGATCAAAAAT
ATGGCATCTGGAGAATTTAAAATTAGATTCTTACAAAATACAAAGTAGAAGAGAGAAGAAAAAAAAAAAAAAGGAAACAGGGAACCCCATGACTTGCACA
AATCCTGCATTTGTTGCCTGGGAGCTGAGCAATCCTGGCTCTAGATGAGAAGGAATTCCAGGATGCCTGGGGGCGAGGTACGCTGGGGAGGGCAAGGCAG
CCTCAGAGCTCCCCSCAGGCTGCCGCAGTTGCCTGTCCTCCCCCAGGGGCCCTGCATCCTCCGCCTCCCGGTCTTTCTCCTTCCCATCCTTTGATATATA
TGTTTTCAGTATATAAATACATTCTAATTATAGAAAACTTGGAAAATGAAGACTGTCATAAAGAAGAATTTTTAAAAGTCAGCTGTCATGTTGGCACCCA
GAAAGAACCACTGATAACACACCCTCACACACTTATGCATTGATTTTACCCAAACTGAATCCTACTGTCTGTTCCTTAGCTGCCTGCAGTCATGTTTCAG
AGCCTCCTTTGCCTGCAGATCCTCTTCTTAGGATGTTCATTCCCCTGACCCAGGGGACTGTTCTTGGCTGGTCCTCCTTTTCCTCTGTGGCATCCACTCC
TGTTGACCTTTCCCATTCCTGGCCCTCATCCTCAGCTCCTGGCACCCTGTGCCTTCCTGGCATTCTTCTTTCCCTCTCTTCTAGAGGTCACAAATGTGAT
GAAATCCAAGGAGCCAATCGCAGCCATGGCTGTGGCTTCTGTCAGGCCAGAGGTGACCCTATGATGACCTGATGGTCCAGCAGGGTGGGGGTGAAAGGGA
CATTTGAATGAACACAGATGAGATGGGACCAGCCAGGCAAGAGTCCAAGGGAGTGGTGGTTGACAGGGATTCAGCCCAGAGGGATCTGGGCAGGGGAATT
AGGAAAGCAAGAGTTACCCACCAGGATCCAGGGTGTGCTACAGTACTGACAATGTCGACTTTTACTGCTTGTGTTCATTCRTTCATTCATTCATTCATTC
ATTCACGTATTCATTCCCCACATAGTTACTGAGCACCTGTTAGGGGCCAGCCACTGAGGGAGACCATATAATATGTTAATTATACTGGGCCATGTGGTCA
CTCTGCAGGGTTGAACAGGCATYGCAAAAACAGTGGGGGAACAAAATACACAGATTCCCATCTCTCCCAAACTTAGCCTCTAGTAAGGGAGATTAGTAAA
TAAACTAGGAAACAGACAGAATGATTACAGATTTGATAAGCTTCTGAAGGAAAGAAATAGGGTGCTAGAATTGACATGGCCTGGGGAACCTACTTGGGTG
GCTTGAGTATTCAGGAAGGACCCAGTTAGAATGAGGGGGCTGAGGGAAGAGGGTGTCAGATGGAGGCACATCTAGCAAAAAGCTGTGAGCCAGGAAGGTG
GTGGCCTTTTGAGGCACAGAAGAAGGGCCCATGGGTCTCGCTCCACCCCTCTCAGCCCTTGGGGTGTAGCTTTTGYTGGTCACTGGAAGCACCTTGACTT
CTGATGATACTGATAGCTCCATCCTTTTGCATGTGTAGCAGTGACCTTAGGGTCATAATGTCACCAAATACTTGAGCTGTGACTTGGGGAACCCTTGAGC
CTAGCAGGACCTTGGGGATATTATTGTCATTGCTCACTTACTTGTGTCCTGCCATGACCCCTCATGCTTCTGTCCTATGAGACATAGCAAGTGGCCCAGT
CTCTAGATTTGCAAATGGGGACCAGGGCTGGGTTTCTTTGCCTAGGACATTCACTGACCGCCACCTAAGAAGCAGCAGGTCCTAAAGTTTGGTTTAGACA
AGGGCCCCACCCAAGGTTCAAGGCTAGTTGAGATCTAAAAATATAGCATCCATGGCTTCCAGCTTGTAAAACGGCTTCATGTCTGGCAGGTGGTAGAGCA
ATCATGTAATTCAGGGCTGGGGTGTGGGGAGCAGGGTCCAGGCTTCTGGGGACCAGGGCTGACCAGCCCTAATAAAGTAGGGCGAACAGTGCTGAAGGCC
AGGTGTGCGGTTTCAACCAGGGTGGGCAGCCCAGTGGGCACTCAGACCCTCAGAGCTGACACTCACTCCAAACCCAGATCCCCAGACAACAGGCATAGGT
GGTGATTCCAGCTCTAAACCCTGCCTTCTCCCTGTCTCGTCTGCCTTGGTAGATATAGACTTCCTCTGCTACTGTGGGCCCTTCACATATTCCATTCTGA
TGCCACAGCCTTGCACGCTGTAGCTCAACAACTTCCCTCTCCTTGGGGTAGGTCTTGGTTTATTTATCTTCATAAATTTTGTTTGATAGCTATAGGAATG
TAGAGGATTTGTTTTTATATCATCATCATCATCATCATCATTTCAAGCCCTTGCTCTAGGTCAGGCATCATGCTAAGTGCCTTCCCTATAGCACCCCATT
GAATCATCACAAAGATCATCTGGGGTAGGTACTGTCATCTCCATTTTGCAGGTGTGGAAACAAGGATGAGAGAGGGGAAGTGACCTGCCCGGGGTGACAC
AGCAAGTAAATGGCAGAGCTGGAGTCTGAAGTGCACCCGTGCTCTACCCAGCTCCTATGTGATGCAGGAGCCTGGGACCCTGTTTCTCCCAGCTCACAAG
CCATCCTTGGCAAATGGAGTTGTCACTCCCACTACAGCTGTGCTCATCCTGTCCCAACTAGGTGACTATGACTGGCTTTCCCTCGTCCCACGCCCCTACT
CCCAGGCTAGTTCTCTCTGCTTTCAGGCCAGGAGAAGCCAAGCCTGCCAGAAACAGCTCTGGCCAGTGTCACTGCCAGCCCAGAGCGTGCCTCACCTCCT
CACCCCAACCCCCAGCTTGCCTGCCAGTGCTCAGATGTGTGGTGCTATAAAAAGCCAAGTAGTAATATGCAAATTGCCCTGATTATTTATGGCCAAGTTA
GTAAATAAGCCAGAGAGACAAGGTGGGTAGTTGTTTTTATGATCTCTGCAGTCCTTGCAGGAAAATCTACAGTAGGCAGAGTCTGGGTGGGCAGAGCTGG
AGCCCATGGTTTAACAAACACAGCCTAATTATCAGGCACTGGGGACAAACAAGCGAGGGGGCTTGTGGAAGGGAGTAACGGGAAGCGGTGGCCAAGAGGC
GGAGGCAAGGGGCTGGAGGACTGAGTCTGGCAGCTGGACCCTCTCTGCCCACCTCTCTCTGGCTCAGCCTTTGAGCTGCCTGCCGGGAGGGGGCGGGGAC
TGAGACACCAATCAGTGTAAGGTGCTGTAGTGTTGCTAGGAGGGGAGGGGTCCTGACAGTTTGCCAGGGCATCGCCTCCACCAGGAGCCTCCCACTCTAA
AGCTGCAGGAAACAGCATAGAAACAGCGAGAGGCTCAGGGCTTAGGGGTCTAGGAGAAGGGAAAAGGGAAGCTTCCTGCCAGCCATCAGCCTATGCTGAG
GTTGGCGTGGCATCCTGGGTGGGCACCTGAATTAGTTTTCAGCGCTGTTGCATATCTGTGATTCCAGCCCTTGGAAGGTTGTGGTCAGGATGGAATCAAG
CAGAGAGACCAGGGCAGAGGCTGTGGTGCTCAAGGGACTTGAGGAGATCAAGACTCCAAGCAGCCACAGGGCACAGTCAGCAGTGCTGCTAGGCTTTCGC
TCCCACTCTCTGCTCAGGTGTCACTGGGAGTGGAGGGGAGACGCAGCAGATCCAGTAGATGCCACATCCATAGTTCATTGGTTGGAGCTAATGACCCCAG
GAGCAACCAGCAACCCAAAAGGAGGGAGTTAGTGTATTGATACCCCAGCCTCTTCTTCCTGTAATAGGATGACTCTGAGTTGCGTATTCTATGCTCACTC
CCAGTGTTCCCCAATGGGATTTAGCTCAATTGACTCCCAGTGGCACCTTATATGACCAGGTCCCCTTTCTCAGCTGCCTTCTCTTTTCTGTTTCATATCC
CCTCCCCTCACWGTGCTCTTAGGGTCAACTCCCAAATAAGCTCACTTGTAGCCAAATCCTTAACACAGGTCTTGTTTTAGTGGAAATCCAACCCAGGTGA
TATAGCTAAACAGGTGCTGAACATTTTGATAGAAATAATTGTAATAGCTATGAGCACTTATTCTGTGCTAAGTACCATTCAAAACATTTTGCCTGTATTA
AGTTATTGAAACCTCTCAACACTCTGTAAGGTAGATACCATTGTTAACCGTACATTTGATGAAGGGGAAAATGGAGCACAGACATGTTAAAGAACTTACC
CAAGGTCACACAGCTGAGCCAGGATGCAAAACAAAGCACTACTAGCTTTAGAGACTATTTTCCTAATTATTATACTAAATTGCAGGCCTTTCAGATATTC
CCCAAAGACCTCTTCATTCCAGGCCTTATGCTTAGCATTGGGATCCAGAGATGAAGCAGACATAGGCCCTGACCTTGGAGAACTCAGTCTTGAGGCAGAA
ACATGAAGGAAATAGACAAGCCAGTGCAGCATAGAGGGATGTGTCCAGAGCTGGGAGAGATTAGAGGCAGAGCACCAGGAATCAGGGAAGGTGTTCCTGA
GGAGATATCACTTGAACACAAGTCTTAAAGAAGAAATGGGAGTTGGGAGATAGCAGGGGATAAATGGAGTAGGAAGAATAGTCCAGGCAGGGGAACAGTG
GTGTAAAGGAGCTGAAGCGAGTGTACCACGGTGATATTCAGGGAATTGCATGCCATTCTATATGGCTGGTGTGGTATTGTGAAATATACATTTGGTCTTT
GTCTCTTGTCCTGACATACGGCTGCTGAAATCCTTGGAATCTCCAAAGTGATACACATSTTATGAATGCTAATGGGTTGACTGTTGGCTTGCCATCCCTA
AATATCTTCAAGACCGGGGTTGGTTACTGGGAAGACCAAGCCATGATTAAAGAGTTGGGATTTTCAGTGTCAACCCGCAAACTCTGGAGGAGAGAGGGGC
TGAAGGTTGAGTTGATCACCACTGGCCTATGATTTAATTAATCATGCCTATGTAATGAAGATTCTATAAAAACTCAGAAAGACTGGGCTCAAGGAGCTTC
CAGATAGCAGAACACAYGGAGGTTCCTGGAGACTGATATGCTCAAAGAGGATGTGGAAACTCCATGCCTCTTCCTCCATACCTTGGCCTCTCCATCTCTT
CATCTGGTGTTCATTGGTATCCTTTGTAATATTCTTTATAATAAACCAGTAAATGTAAGTATTTCCCTGAGTCCTATGAGCCACATTAGCAAATTAATCA
AATCTGGGGGAGGGGGTCCTGGGAATCTTGCTTTACAGCCAGTTGGTCAGAAGTAAAGGTAAAACAACCAGGGTCTTGTGATTGGCATCTGYGGTGGGAG
GCAGTCTTGTGAGACTGAGCCCTCAACCTACGGGACCTGATGCTAACTTCAGGTAGATAATCAGAGTTGAATTGCACTGGAGGACATCCAGCCTGCATCC
ACTGCAGAAATGATTGCTTGTTTGGTTTGTGGGGAACCCCATCCCACCTCCATTTGGTTACAGAAGTATTCTGTGTTGATTGTCGTAGAGTGAGAGCAGA
GGAAAAACAGTTTGTTTTTCTACAGCTGAAAAGTTGGGAGTAGACTGGCTATTTGCTTGTTTATTGTTATTGTTGTTTGGGGAGAGAGTGGATGACTGCT
GGGAGAAGCAGCAGAGGCCAGATTACAAAGGGTCTTGTCACCATGCCAGGGGGAGGCAGAGCTACCCAGGGGCTCCAACTATGTTTACAGTGTTTTATTT
CCTGTGTGGGTGTTGTATATACAGGTGCTTATTATATTATTCTTCATCCTTGTGTCTCTAAAAGATTCTTATTTTTGAAAATGACTTAGAAAAAATAAAA
GCATTTAGGAGGTAAACAAACCCAAAGAATAGACTGGAATCATCACCTCTCCTTACAGAGACGTAGTTCTGGGAAGGTGCCCTAAAGTCTCAAGCTTTTT
TCACACCAGCTCACACGATAAGAGACAATCACCAGCTCCAATAATGTTTGACAGTGGCCTGGTTGGAAACCACTTTTTTTWAAAGAGACAGAGTCTCGCT
CTGTCGCCCAGCCTAGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTTCCTCAGCCTCCCGAGTAGCTG
GGACTATAGGCACCTGCCACCACGCCCGGCTAATTATTATTATTATTTTTTATTTTTTGGTATTTTAGTAGAGACAGGATTTCACCGTGTTAGCCAGGAT
GGTCTCGATCTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTTCAGGGATTACAGGCATGAGCCACCGCACCYGGCCAGAAACCACTTTTATA
GTTTGGATCTCAGACCCAAGGACAAAAGTTCACTCATGCCTGTCTTTAGTGCAAGTTCTCTAGATTAAGCCTGAAGAAACTTTTTGGATTCTGGTCTTAA
TTATTATCTAGGACATTCCTGCTGGCTTCGTACTAGTCATAAATTGATCAGTATGCCATCTCTGTTCCCAGAGAAGATATTAAAAATTACAGGGCAAATG
CAATGTAGTATCCTGGATTGGATCTCGGAAGAGAAGAAGGACATTTGTGGAAAAACAGGCAAAATCCAGATAAAGTCTACAGCTTAGTTAATAGTAAAAT
ACCTATGTTATCTCTTAGTCTTGACAAATGCGCCATGGTTATGTAAGCTGTTGACATTTAGGAATAGTTGGATAAAGAGTATATAGGAACTTTCTGTGCC
ATTTTTGCAGCTTTTATATAAATCTGAAATTATTTCAAAATTGGGAGTCTATTTACAAATTCAGGTGGGCTGGGCAGGGCTAAGGATTTAGCTCTGCCGC
AGGCTGCTAGAGCCCTATTCCCAGTTGACAACTGTGTACAGTTGTTGAGCCAGTAATCAATGGGTCTTATTGTGATAAAGTCTAGCTCATCTTTCCCTTT
CTTGTGCATTTATAAGTGCCTTGTTGAAGCTAGTGCATTCCATATCTGTTGTATTTTCCTGCTTTCCCACCCAGTAACTCTTTTCAAAAGGAAATAAAGA
TGATAATAGTGCACTTTGCAGAGAAACTCAACTTGATCAAAAGATTTGCCGGAGGATGCCTGGAAATAGCATGTTTCTTACTACATTTTAAGAAATTCAT
CTACTAAAGTTGCATGTTCATATGCCTTTTCAGACTCTGAAGCAATGCGGACTTGTTTTCCTGAGGAAACAAAGGGAGAAAGAGGGATTCTAGGGTAGTA
GAGCACCGCAATCATAATGGACCTGTATTGAAACTACACACACCATTACATATTAACCTTCCTTGGAGCTTTCTTGTGTCCACTTTGCTAGGAGGGACCC
AAGAAGGTGGACTAAAGAAGAGCCAGTCACCCATGGAAGCATCCCATTCTGACTTCGAGATCTGGTGACCTTTCAGTCTTTCCCAGACAGGCTACACGGC
AAACTGTCCTCCACTTACATCATTCTAATTGTCCCTGCTGATTAATGAGGTCACTTACGGTATCAATTATTATCCTATCAAGAGAATGAATATGAGACTG
AAACAAATGCCCATGAACTTGCTTATTCTATTAAAAAATAAAGTAATGAGAGATGATTGATGGTGTGTGCCCCAAGAGAAGGCGTGGGAAGGGATGGACA
GTAGAGAGAGGTAGAAATGAGCATGTTCTGATTAGGGGTTAAAAGAGGCTTTTGTTTAAAAGTAGTTCGCCATTGACCCTCTTCCTTCCAAAGCCACTTA
TTGAGAGAGCTGTCCAAACTCCTTGTCTCACATGCTTCCTTCCCATCACCAGCTTGCTCTTTGTCCCCCAGTTTCAGCCTTGCCACTGACACTGCTCTCG
AGCAGGTCACCACCACTGTCCTCATTGCCAAATCCACGGACCCTCTTAGTCGTCTCTTACCAAGCCCCTCAAAAGCGCTTGCTGCCAATGACCTAATTCT
TCTCGAAACACTTATACCACCAATTCCTCATTCATTCATTCAATCTCGTGTATATTTACTGAGCATCCACTGTGTACCAGGCACTGAGCCAGGGACTGAG
CATACTAGAGTAAGCATGATGGACACAGTCCTTCTTGTTCTAAATGGAGTTTGCATTCAGATAGAGGAAGATAGGCAATTAACAAGTACACACATATAAA
TGAGCTGTGTTAGTCTGGGTTCTCCAGAGAAATAGAACCTATAGGATACTCAATAGATCCTATAGGATACTCTCTCTCCTCTTTCTCTTTCTTACACACA
CACACACACACACACACACACACACACAGTTGTCCCATAGGGGATTGATTTCTCGACCCCCCCCCCATGGATATAAAAATCTGCAGATGCTTAAGTCCCT
TATTTAAAATGGTGTAGTAATTGCATATAACCTCCCATATCCTCCCATATCCYTTAAATCATCTCTAGATTACTGACAATACCTAACACARTGCAAACAC
TATGTAGTAATTGTACTGCGTTGTTTTAAAATTTTTATTATTTTTATTAATATTATTTATTATTTAATATTTTCAATGCATGGTTGGTTGACTCTGCAGA
TGGGGAACGCTACTGTGTGTATGTGTGATGTGTGTGTGTGTGTGTGTGTGTGTGTATACATATGCTTTATTATAAGGAATTGGCTCACATGGTTGTGAAG
ACTGAGATCTGCAGTTGGCAAGCTGGAGACCCAGGAAAGCTGATAATGTAAGTTTCAGTCTGAGTTCCCATCAGAAGACGAGAGAAGACCAATACCCCCG
GTTGAAGACAGTCAGAGAGAGTACCTTCTCCCTTACTCAGATTTTTGTTCTATTTAGGCCCTTAATGGATTGGATAACCCCCACCCCCATTAGTGAGGGC
AGTCTACTGATTCAAATGTTAATCTCACCCAGAACCTCCCTCACAGACACACCCAGAATAATGTTTAACCAAATATCTGGGCATCCTGTGCCCTGTAAAG
TTGGCACCTGATATTAACCATCACAAATCCACCCCTTGTCAACTCTGCACTATATACATCTTAAAACACACTTAACTGCCAAATAAAGACAATAACAAAC
TTACAATTTTGCCTAATATGACATGACTATCCTGCATTAACCCCTCACCAGAGGAGGAGACAAAATCTTGGAATGGTGTTTACTCTTCCTGATATCCTGC
AACTTAAATACTATGGTGTAAAAGTAACAATACTTAAATACCATAACATAAAGTTATTATATCTTATGCTATATGAAAAAGGAAAAAGAAAACAAATACA
TATTACTTAATATATATGTATGTGTGTATATTTATATATTTATATTTACGTATATTTATATACACACATGAATAGATATATCCTTATATACACATGCAAA
CACTCATAACAAAATAAAGAGGGATACTCATAACAATGACAGTCTTTATTTCTGTAACTGGCTATGTGGTCACAGCTGGTATTTATAACTAACTCTTTCA
CTACCCATTCTGTATTCCCTTTGTCTTCAGCAAGCATCACAGCTGATCATGGTTCTTTACCACGTGGGGTGACCTAAACTTAAAGTGCCTGAGCCATTAA
TAGTCCTGCCTGGATTGAGTTGTTCTGGTTTTTCATTGATCTTAATCATAGGCCATGATAATACTAAGAGATAACCTAARGGATCTTCTTTATTCCAGAC
ATAATCTTCCTTACCTCCATTGTGTAGTAGCAGTCCCATTTCTGTTTGGTAGTGAGAATCAATCACCCTGGCTAGCATAGTTACTCTTTTCTTTGCCTGT
TGATTCAGAGGTATGAGGAGTGCAAAGTGCCCGGGTAGCAGTCTTAACTTTCAGCACAGTAGGATCATTGTTGTGACACCTGGAACTAAGACCTCTGGGC
TAGCATAGCATATGCTAGCCTCTGGACTTGCATAGCATATGCTAGCCTCTGGGCTAGCATAGCATTAATTTTCAGCTCAGTAGGATCATTGTTGTGACAC
CTGGTGGGAGCATTCCTCCCTTTGGAACTAAGACCTCTGGGCTAGCATAGCATAAGGTCATAGAACAGGAAGGAAACACTTTGTCAGTTGGTCACTAGAG
GTAATAGTAAGTGGAGCTACTCCTATTTCCATCCCTTGATTTCTAGACTTGTGAATCCTGGCTATGGGAGAAAGAACACTATATATGCATGCTGATTCAG
AGCATATACAGCCTTCTGGAGAACCTTGTCCCAGCGCTGCAAGGTATTGCCACCTAGCTGGCATTGTAATTGAGTCTTGAAAAGGCCATTTCATTGTTCT
ACCTAGCCAGCTGCTTCAGATTGGAGGGTTCACATGGTAGGACCAGTGAATCCCATGAGCATGAGCCCACTGCCACACTTCTTTGGCTATAAAGTGAGTT
TATTGGTCAGAAGCAGCACATTGTGGAATACCATGACAGTGGATTAGGCACTATGTAAGTCCAAGGATGGTAGTTTTGGCAGAAGCACTGCATACAGGGA
AAGCAAATCCATATCCAAAATAAGTGTCTGTTTCAGTAAGAACAAAACACTTCTCCTTCTACAATGGAAGCAGTCCAGTGTTATCTAACTGCCACCAGGG
TAGTTGGCTTATCATGCCAGGGAAGGGTACCATTTTGGGAACCCCRCTTCTGGTACCAAAATCTGTTTTGGTCTCTTTGGGCTGCCATCAGAAAATACTC
GTAGACTGGGTGGCTTAAACAGTAGAAATTTATTTTCTAACTGTCCTGAAGGCTAAAATGCAAGATCAGGGTGCCAGAATGGCCTGATTCTGGTGAGAGG
TTTCATCCTGGCTTGCAGATAGCTGCATTCTCACTGCATCTTCACATTGCAGACAGGGTCGGCAAGAGAGGCAGAGAAAGGGGTCTTTTCTTATAAGGGC
ACTAATCTCATGTTGGAAGTCCCATCCTTATGACCTCATCTAATCCTAACTACCTCCCGAAGATCCCACCTCCAAATACCAATTCAACATATAAACTTTG
GGAGTTCACACTCAGTCCATTACCTAAGCCATCCAGGTAGTGGTAATTGTTATGAGAAAAATAAAGCAGAGCAACTGGCAGAGTATGACAAGGCRCAATC
AATGGAACCTTTTTGGGAAGTGATACCTCACTTGTTTTCACATGTCAGTCCCTTAAAGCTTGCCACTGTCTTCAGGGTTTCATGTTTTCTTCTGTGGCAC
CTCACTCTATACACTTGGATTGGATCTTAGGGGTGAGCAAGTCCCTGTTTTACAGTATGTCACTAAAAGTGATTCAAAAGATGGCATCTGGGGTTGGGGG
GCAAAACCCAGTTCCAAATTCCAGCTGACAGTTATCCTAAGGGTCCAGGCAGAAAAGCAGAATTCAGGGATAAGGCAGCAGTTCAGAATCCAGGGTCATC
TACCGTAATATGAATGGTGCTCCTGAAAGATGTGCAACATAGTGGCCCTGAAAAATCCTAGAAGCTGCAGCAGAGTTAGAGGTTCACAACAGACACTGGG
AAGTAAGGCYTGAGAAAGTCCCTGAACCACCTGCAAAAACTCTCCAGTGACCAAACTCTCTTACTGCCTCTGTGGCTCCTCCCTCTCTTGTCTACAGATG
AGGCCCACAGGTAAAGCCTCTTTGCTATTAACTGCAAATATCGATGGTTTGGATGTAATTCAGGTTGACCCTCCACTGTTCACAACGTGTGACTTGGGCT
TGGGTAATCACGTTTCACACTTCACAGCTGTGGGCTCAGCCTACCCTGCAGTCCCAGCCTGAGCAAAAACCCTGGAGCCCCTCTTACTGAGAAGGGTCTC
TCCACATTTCCTTCTGGAGAAGGAACCATGGTTCTGGAGACCATGGTTCTGGAAGCTCCTGTTTCTCCTAGTTCCCTGGAGTATGGGAAACAGTGGGCAT
AGTGTCCTGGTGCCTGACCCTCCCTTCCAAGTGGGCCARCAAGCATTTCTGTCCAGTTCACAAAGACAGGGCCTGATATTCTCCCACTTCATGGCCAACA
CCTTCTGGTGGTGGCTATGCAGCAGCTGATAATAATATGTTTAGTATTAACCTGTGCACAGGTGCTGCCTGTAGCACACTGCAAAGCGCTGTCTTTAAAT
GGAGACCTAATCTTTCAAACCAGGTGCGGTGCTCAAAACCAGCTCTGGCGGCCAACAGGAAGGGCATTGTGGTACAGAGCAGGTAAGGAGAAGACCCCCA
TTCTTTCTGTCCATCTTCTCCATCCTCTTGCAGGCATGTTCAGCATCTTTTGCCTTCTTAGAATTCTCAGAGGCTCCACCTGCTCCTTCCCCAGGTTGGC
CTGAGCAGCTGTCCGAGGGGGTAGGTGGGCACAAAGCCCTCAGGATGCAGAATCTGCTGACCATTCACTGATATTTTTATAATTGTTGTTTGTGTCTCTC
TGGCACACAAGGAACAAATCCTAGCCTGGCACCATCTGAGGGCCTGGGTAAATCTCAGCTGTTCCATCAAACCTCCTGGGGTGGTCCAAACTTTAAGGGC
TGCCTTGACAGAGAGCAGTTTCCATTCCTAAATGGGTGATGTCACTAAGCCTGATTTAGGGGAGGTAGATATGGAAGGCAGCACCTGTGCACGGGTTAAT
AACAAACATCATCATTATTATCAGCTGCTGCATAGCCACTGCCAGAAGGCATTGGCCACGAAGTGGGAGGCAGGCTTCTGGAACATGACGACCTCTCTTC
CTCAAAGCTTCCTTCCCCATTTCCAWCCTTGCCAACCTCCTGACACGTGGTGCTGGATACTTCAGTCTCTGTCATGGAAGACCAAGTTGGCTCAGGGGTT
TTCAGGCTTCTGTGGAAGTAAATGAAGTCTGCATCTGCTAGAAGGCTGAGCAGCCTCCAGAAAAATCCCCTCTCTTGGGGAGACTGGTAATTAAGCAGTC
ATGGCAAACAAGTGGAGGAGGAACATCTGGTTGTATCCATTTGTTCTCCTGTCATTAGTTGGGGAACAATTTTATAAATTACACGTAAAGTGGGTTTTGT
CTTTCCTCTGCTTGTGCCATCCTCTTTGAGATGACCTCCGTATCCTACCACAGCCCGCCATGCCCTTTGGATGATTGGCTAACAATTTATCTTTTTAGAT
CAGCTCAGGCTGGTGCATCAAGTTCCCTGGATGCATCCTTATCACTGCACTTACTATATTGCATTATAATTGTGTCTTCAGTAATTACCTCCTATGGTGT
ATCTGGTGCTGTTCTCAATACTGGGGTTAGATAAGTGAACTAAGTGGATAGAAATCCCTGCCCTCGTGGAATTCACACACTGGTGGGAAAAGGTAGACGT
AATAAATAAGGAGTGATCAAATATATAGGAAGTCAGATTATGATAAGTGTTAGGAGAAAATGCAGGACAAGGGGAATCAGGAAATGGGACAGGAGGGGAG
GAGGGTTGCAATTTTAAGTAGAATAGTTATCAAAGCCTCGGTGTAAAGGGTATGTGAACAAAGACCTGCAGAAGATGAAGGAACAAGCCATACACATCTG
GGGGAAGAGATGAGGTAGCTGGAGGAAACTGAGAGAAGAGCAGGTGCAAAGGCCCTGAGGCAGAACTTGCCAGGTGTGTTTTAGGAACAGCAAGCGGCCG
TTATGGTTAGAGTGAGTGAGCAGGGGGAGGTAGTTGGTGATAAGGAGGGTGGTGATGGAGTGGGAGCGGGTAGTGGCAGCAGAGGATTCCCTAGGGCCTT
TAGACCATTATGAAGACTTTGGCTTTTATCCCAAATCGAGTGGGATGCTTTTGGAAGGGTTTCAAGCAGAGAAGTGACATGATCTGACTTAAGATGATCA
CAGAAGCTGCTGTGTTAAAGAGGATCTGTAGGTGGACTAGGAGGAAAGTAGGAAGACTGGTTAGGAGGTTACTGCAGTAATTGAGGCAAGAGATGGAGGT
GTCCTGTTCCAGGATGGTAGTAATGAAGGTGATGAGAACTGGCTGGATTTCTAGATAAATTAATGTAAATGCCTCCGTTTGAGGGTAAATCCCTCGAGAG
TGAGTCCACGTCTTAGGCATTTTTATCCTGAGAACCAAGCATAGTACATAGCGTTTAATAGGGCATACAATTAATATTTGTTGAATGAATGATTGATGAG
AAAAATTTGTAATTGTTACCGGTGGGAATAAGCCAGCCTTAATCTCTTTTGTGAACCTATCAGATCATAGAGACAAATCATGGGTAACATCTATTTAGTT
TCTCAACTGATGTCGTAAATAAAGCTATTCATGCATGTACTGAACCAAGAAGTGTGGGGTACGCTGGATCCAACTGTATTTGTCTATTATTCAGGACTTT
CCAAAGCTTTTCATACAGTAATGCAAAGGTTCCCAAAGTTTCTTAGGTGCCATTAGTGTCTCAGTAATGTTTCCACGGTGCTCCATGGGTAAAAGAAATA
CCTATTAGCTCCACTTATTAAGTAGTTAGGTCCAAATAACTGAATAAGTATTTATACCCCAACAACTCTGTATCTGTTTGAAGATAATATAAATTGAAAG
AAAAACATTTTTGTTTCATCCTTAAATAATTGTTAAATAACAATTGATTGCTAATGGTATGTGTTTCCTTGTTGGTCATTGCAAAGATTCTCAAACCTTG
GACTCAGATTGGACACTACCACCTGCATATCCTGTTCCACACTGATTCACACATGGTCCCTAATTCCCATCACACCAACTACCAAAGCTTTGCAAAGATA
TGATGTCATCTAACGGAAGGTAGCTTTACACTGAAATTGTGAACCACCTTGAGCTAATAGTTTGTGTGTCCAGCAGATATTAAGTGCCACTATTTCCTTT
GAAAGTTAAAAATAGTCCTTGGTTACCCTTGTAAACTCACTGCAATGCCCTGGGGCACCTTGGTGCACCGTTTGGGAACCATGGTGCATTTCCCAAAATT
ACTTATTTTTTTCAGGCAAACCTACTAACATCATATTGGATAGTATTCTGTGCAACATGATTTGGGAACYGTTGGGGTAGAGCACATCAAGAGGGCTCCC
TGCTGCAGAAGGAGACGCTGCAGTCCAATGGGAAACACCCCTGAGTTTTGATGGAGCGAGTGTGCTTAGAGGATTTGCATTCTGAACGTAGTGCTTCTCC
CCTATTTTTAGACCTCAGCAGGTGGGTCTGCTGTGACTCCAGATCTTGCTTCTAAAGAGAGTCCACATCCTAGAAAGTGTACTGTATATGGGGATTTGGA
GGTCTAGCTTTGCTCCCATCCAGTCATACTTAAGACAGGTATCCCAGCCTCCAAAAATAAATGCACATGTGCAGCTGAAAGCAGAGGTTTGCAGAGCCAG
TAGATGTTTTCTGGAGAGGCAGGGACATTCTAGACAAGATCCTTTGGACATAAGTTGGGTTTTTTCAGCAGATATCTAGCTAATGCAAGATTGCCCTCTT
AAATGGGAGTTTATTACAAGGATCTCCAGATCTTGAGACAGCACAAGAATAATCTCTTTAGACTTCCTCTCATTCTGGGTTTCAGGGTGTTGAAGACTGA
GAGTGTCAGTGGTCTCATAGCTAATGTAGCTACAGCCTCAGCTCCATGATCTACCTTCTCTGGGCATATCCTTTCCCAGAGAGATTTCCACAGAACCCCA
GCCCACAAGATGCTTTAAGAATAAAGGAGTCTATGATGTATATATAGAAAGGCACAAAAAGCCTAGATTTTCCACATTTCCCAGTTTTAGAAGCTCTTGA
TGAAATGCAAAGGGGAATTACCAGTGAAAACCTGTGTTTGTAGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTRTGTATGGTGTGTGATTATGACT
AATGTCCATCAATTACCTGCAAATTACTAGATGATGCCTGTAATGATAGTTCTGTTTTTAGCTTAATGGTTTATGTATCTAACTAGTGGCTGCTGTCTGG
AGTAGGGCTGCTGGCAAATCAAAACACTATTTGCCAAGCCTGTCAGTGTGACAAACGTTGCTTACATTTACTCTTTTATTCCCAAGGTCAATTGGTATGT
CTTTTTTCATATCACTGTTTGATGTGCTAACAGCCTTAAATGAGAACCATTCAATAAAGGCCCAATTTGCTATATTACTATTTATTCCTAGGTAATTCTA
TATTAGTTTGGCTCTTTAAGATTGCAAAGAAGAGACATGCATAGATCACCCTCGGAAGTGGAGGCTTATCACATGGTTCTCCAGATCTCGGGGCAGCACA
GAACCACATCTCAGACCTTTGGTCACTCTGGGTTTCAGAACTTTCAAGATAGGGAGTGTCAGCAGCCTCATGGCTGACATAGCAACAGCCTCATGATTGT
TGTAGCAACAGCCTCAGCTTCATAATAACCTGCATTCTCTGGGCCTATTGTTTCCCAGAGAGGGTTCCACAGAACCCCAGCCCACAGGATGCTTTAGGAA
TAAAAGGGGCTATAATATAATGGGTTTGGGATCTGTTACATAATCTATTCCAGCCTTGAAGGTTTACATTGACTTAGCTTGTTAAAAGTCCTCCTACGCA
TTTTATTTTTTAWTTGTTTTCTGAAAAATCCYTGCTTTATTTAACCCAGCATTTCCCAATTCTGTTTAACCGGTGAACATTCTAGAAACATGCTTTGAAA
AATAACCTAGTTTTGGTACTTTCCAGAAAAATCTGGTTGTATTAATTTGTCAGTCTCTGTGTTGGGGGGTCTGCATCACCACCCGCATGATTTATTAGGA
CTCATAGGATTCAGTATAAATTTGTACCCATGGCTATGATTTATTATAGTGAAAGGATACAGAGCAAAGTCAGCAAGGGGAAAAGGTGCATCCTGGGGCG
ATGGCTGGGAGAAGCCAGGCACAAGCTTCCAAGAGTTTTCTTCTGGCAAAGTCACACAGGTCGTGCTTCAAACCCCTGGCAACTAATTGTGACAACACAT
ATGAAATATTGCCAACCAGGAAAGCTCAGCAGAGACTCATTGCCCAGGGTTTTCCCACAGAGATGATTACCTAGACCCCTCTTCCTGTCACATACCAAAA
TTCTAGGCTCCCAGGTGGAAAGCAGGTGTTCAGCATAAACCATAATGTTTGTACAAATTGTTTAGACCTCTCTTGAAAGTACTGGAAATGGAGGGAACCC
TCCTGAAATCCCGGTTCCCAGATGCCAGACAGGGATTATACTTGTAAGCTGGCCTTTCAAAGGATAGCAGTCAGGCCTTTTCTGTCTGCTTTCTCATAGT
GAAACCGTCATTTATTGACTCTATATTGCATCTAATATGTACTGTGCACTAGTGATATAGTGAAAAGGTTATAGATAGTCTTTGCCTCCAAGAGACTTAC
CATCAAGAAGGAAAGACAGATATATAACAATTCAGTAAGAAAATCGATTCATGATCATTGGGATGAATGTTACAAAGTAGAAGTACTCTATTCTCTGAGG
ACATTTATCAAGGATCCCTAAACTCTTTCCCAGAGGAACTGATGCTGAAAGTGAGCCCTGAAAAGCTAATGCAGGGTTGGGGGGAAGGTAAGGTGGAGGC
CGCCTGGGTGGCAAAGGGATACATCTGGGCACAGAGTCCTAGGGACAGCATCTGCAAAGGCCCTGAGATGGGAAGAGATGTGGCACCTTCAAGGACAGTA
TAAGAAGCCAGCTTATGCCTGTAATCCCAGCACTTAGGGAGGCTGGGGCAGGTGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAATACTGTGAA
ACCCTGTCTCTACTAAAAATACAAAAAAATTAGCTGGGCGTGGTGGCGGGCACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACGAGTT
CAGAAGATCGAGACCATCCTGACTAACATGGTCAAACTCCATCTCTACTGAAAATACAAAAAAAAATTAGCCAGGCATGGTGGTGGCCTGTAATCCTAGC
TACTCGGGAGGCTGAGGAAGGAGAATGGTGTGAAACCCCGGAGGCAGAGCTTGGAGAGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGCCACAGAGC
GAGACTCCTTCTCAAAAAATAGAAGCCAGTGTGGGTAGAGGGGGAAAGACCAAAGGGGAGAGAGCCATGAGCTGAGGTAGAAAGAAAGGCAGGCCAGGTC
TTGCAAGGCAAAGCCTCGGGCCACGTCACCCAGAGAGCCATCCATCTCTGTCATTCCTGATCATTATGTCCTTCTAGCTGATCCAGATCTCTTATTTCAC
TTGAGGCCTAGGGAACCAGTCCCAGCAACACTCACTCAGGGACGACTCAGGGCTCTGCCTCCATCCTCAGAAAGTTATGAAAAGTGGGGGTTTATCACAT
GGTTCTCCAGATTTTGGGGCAGCACAGAGACAATCTTAAAGAGCCCAACTAATATAGAATTATCCAGGAATAAATGGTAATATAGCAAATTGGGCTTTTA
TTGAATGGTTCTCATTTAAGGCTGTTAGCACATCAAACAGTGATATGAAAAATGACATGCCAATTTGACCTTGGGAATAAAAGAGTAAGTGTAAGCAACA
CTTGTCACACTGACAGTCTTGGCAGATAGTGTTTTGATTTGCCAGCCGCCCTACTCCAGACAGTTTCAGAAAGTTCCATGTGCCTGGAAGACATTTGGAC
AAAGCCTAATTCTTCCGTCTTTCCCTGTCTTCTATGTTTTTCTATCAAGCAGGAATCAAGACTTACATTTACTCCAGTAATGGGGTCAACCCAATGTACT
AATAGACTCCATAATTCCAGGTTGGAGTTTGTTGAGATCAGAGTTTCATTATGGCCTTTCTCACTGGTTCTCTGACTGGCAAAAGCAAAGCCATGTCTCT
GAGCTTGGCCCAAGATTCAACCAGGTATGTTCCTCCTCCTCTCTGAGGATCAGCATCTGAGACCTGTTGCCACTCAGTAAATATTTGAGGGATTAAAATT
GGATTGAACTTGAGAGGTGGCACGCTCATACCTTTGGCAGATGTGAATGCCAGTGTTCTTCTCTGCGTGGAGCCCAAGTGTGTCTCTCTGGAGCCTCTGT
CCTGTGGTCCTTTTTCTTTGCCAAGCATTTCATGAGGACATTGGTGTGTCAAGCATGGCCCTAGGGATGTGGAGACAGTTCTTATCCTTTGCCTTGCCAA
CTCTGTTGGACCCCAGACTATACGTGCCTACTGTCTTCAACTGTTCCTCACCCCACAGGGTGAGGGGTCTTTTAGGGTCTCCTTGCTGCAAGCCTGGCAC
GTCAAAGCCAAGAGACCCCAGCCTGAGGAAGTGAGTAGTTGGTCAGCTTGAGAGCCTTGAAGTTCTCAAACATGGGCACAAACTCCTGGAGTAAGAAAAT
GAGCTTTCATTTCCATGGGTAGGAATTTGCAGACACTTCACTTGGGTGGAAGAAATGTCATATTCCTGCATTAAAAACAATTTGACTTTGAGTCCCATGC
ATAAAGGGGAAGAATTTCACTTCAGCCACTGTTGGGATTCTCCCAAGCAAGGTCTTACATAGACCTGGCATTCCAGGAAGACCCTCAGGTCTCAGTCCAC
ACTGGGCATTGTTGATGTGCTCAAGGCCTCAGTGACACCTGAAGGCAGGAAGCTCAGTTGTATCCGAGCCAAATTCTGGTGGGGGAGTTCAAGTCCTTCT
GCTTAGAATGGGAGTCCTTTTGTGTACAGTCCAGCACTTCTGTCCCCTCTTCCTTATTTAAATAAATAAATAAATGGCCCATTTATTTATTTTTGAGACA
GGGTCTCATTCTGTCACCCAGGCTGGAATGCAGTGACATGATCATAGCTCACTGCAGCCTCAAACTCCTGGGCTCAAGCAATCCTTCTGCCTCAGACTCC
TGAGTAGCTGGGACTACAGGCATGCACCACCATGCACAACTATTCTTGAAAGTTTTTGGAAAAACAGGATCTCACTATATTGACCAGGGTGATCTCGAAC
TCCTGGCCTCAAGCGATACTCCTGCCTCGGCCTCTCAAAATGTTGGGATTACAGGCACAAGCTACTGCACACAGCCTAATAATACCCTCTTTAAAATAAA
AGCTCCCACCCTTTTATTTTTCCTGGAATGATTAGGAAGAAGTGGAGGTGTTCGAAGCAGTCTGCTTTTTCCTTATATCTCGCCTCATTTCATGGGTGTG
AAGGGGATTTGCCATGTCACTAAGTGTTACTTAGCCCAAGTCTGGATGTCTCTCCCTCCTGTTGTCTATACTGCCAGCATCAGAGTCACCTAAGACTCTG
TGTGGCTGCTCCTCGAAACACCAAATAGTTGGCCATTCATTCATTTATCCATTCATTTAGAAATACACATGCAAGGTGAGCAACACAAACTCAGCCATGG
CTCTTGGGGTGCTTTCATCTAGTCAGGGAGACCTTAATGAAAACTACTYACCCCAATAAACATCTAATTAGGAATTATGGTTAGTGCTAGTAAAGAAAAG
AAAAGAAAAGGGATGTCAGTCAGGATAGGTCAGGTTATACTCTGTGTACTAATCATGGTTTTTTAATTGTCTGTATTTTCTGATACTTTGACATCTTGGG
ACTTTGTTGACCTAAAATAGCAAAGAGCTCTCCCGGAAGTATGCCTTTCATRTGCAAACTGATGATCCCAATTGGGTAGAGCACAACTAAGTCTTTTATT
ATTTTTTTTTTAATTTAATTTTTTTTTTGAGTCAGGATCTCACTTTTTTGCCCAGGCTGGAGCACAGTGGTACGATCGTGGGTCACTGCAGCTTCGAACT
CCTAGGCTCAAGTGATCCTCCCACTTCAGCCTCCTGAATAGCTGGGACCACTTAAGCCCCCTGAGTAGCTGGGACCACAAGTTTAGCTGAGTAACCACCA
CACTCAGACAAATTTTTGAAAACATTTTTATAGAGATGGGATTTCACCATGTTGCTCAGGCTGGTCTTGAACTCCTGWGCTCAAGTGATCCTCCCACCTT
GGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTRTGCCTGGCCTCTACCTCTTTTATTGAGATCTCATTGTTTATCTACTATCCCCCTGCCCTAA
TTACCCAGGGCCATACATCRGACAGCTAAGGGTGGTCCACATACCCTGGTGCCCTCTGAAATTATTCAAACTAGGCAATCCTAAACCTGCTCAGCTGCTT
ACCTGATCTTGCCCATTCCTTCTTGGGAAAACCACAATAAAGGCTCTTGCCCACATTTWCCCAGGCTCCTTCTGCCTTGTCACTGACGCTGGAGCTTCTG
ACATGCTTGTGGCCCTGCATGGCATAGTATGCCCCTTCCTCTAGGAAACTGTGTTATCTTTTCAGCGGCAGTGTCTTCTGATCTGTTGGCCTCACCATAC
CTGARTGGTAGTAACAAAACCTACAAGTGAAAACATGGTGGTAGCAAACAACCCTCAAATTGAAATGGCTTAACTCACCAAAAGTTTATTTCTTGCTCAT
GCTGCAGATTCAAAAGAGGTTTGCAGGGGCTCTTTGCTTAGGGGAGTTGCTCAGAGACCGTGGCTGCGGAGGCCAAGGATCACTGACCTTGGATAAGGGG
AAGGGAATTCAGCAAAAGGTACACAGGCTGTTCAAGCCTCCCTCCTGGCAACAGTGACCTTCACTGCTACCCAAATCTCCCTGGCCAAGCTGGTGTCATG
GCCAGGCCTGACCTCCACAGGGGTGGGAGGTGCTGTTCCACTCTGTGTCTAGAAGGAAAGCTGGAAATGCAAGGTGAACCATACCAGTGACTTCACTGGG
ACCTCTGAGCATGCAGAATAGGCTGGTCTGGGATGTCAGGAATGCACCTTTCTAGAAGTAACGTTGAGACACTCGTGATAAGATTTGAATGATGAGAAAG
AGTTAATTAGACAAATCCCAAGGGTTAGAAAGTGTTCTAAATGGGAGACAGTGCGTGCAAAGACCCTGAAGATGGGGCATGGCAAATTGAAGGAACTGAA
ACCASAGGTGTACGAAGGAAGGGAGTGGGAGAAAAGCGGGGGAAGAGTATTTAATCACTGACATTATTTAGAACATGGATGCATGGTGATAAGAAGTGAA
CTTTTAAAGTCCATTTTATTATTGATTTCAAATTCCCTACAGGAAATTAATGCCCTTATTGCCTGCACTTTGGGCTGACCACTTCCTTTGCCCTTGGGAT
GGCCTTGACCAAAGAAGACTGGGGGGCTGGAGCCAGGCAGGAGACAGAGCAGAGAATCTGTCAGGGCCAAGCCATGCAGGATTTGTGAACCTCGTTAGGG
ATTCTGGCTTTAATCCTAAGAACAGTGGGAGGCTGTGGRTAGATTCTGAGCTGAGAAATGAGGAGTATATGGTGTCCTGGCCGTCCCATTTTCAAGACTC
TGGGTTACTTTTGGCAGGAAGGCAAAAACAAAGAAAAGACAGTGGAGAAAATGAGAAGACAATAAGGCTGATGTAAAGCAGAAGATGAGTATTGTTTTAC
ACGTTTGGCTATGCCACCTGTTTGCAAAATGCTGTTCTCTGTGCATTTTAGAGTCTGCAAGGAGGATAACTCATAGCAACAGGGGACTCTCACCTGCCTT
GCCATCATTTTACTGCATTTCTCTGCTAAGTCTGGATTTCACTATTGAAGGATACCTCACTCCTTTCAATATGGTATTTAATCTTGTCAGATAAAAGATG
GGAAAGTCTGAAAGTTTWATTTGCTCATTCTGTCATGCAACACCATAGCTCCTCCTAACTGCGGGGTCTTCAGCGTGTCTAAAATCGATCTCAAAGATAA
GTGGGTGGGGGAGCGATGATTCAGGTATCCAGCTGGGGAGATTCAATTTCCCATMCCCTCCCCCAGCCTTAGCTAGCGCCTTTGAGGAATCCTCCCTGCT
GGAATTTATCTACCAACCCTGGGAAAGAGCAGAGCAGTGGTAAATATCTGATTAGAGAAAATGCCTAGCAAGCTGCAATTCCATATATTGTAAGTGATAA
AACTGTAATTGTTTGTTGACAGTGTACATTAGCTATTCACAGCTYGCATCAATATAGTACYGAGAAACTAGGGTCTAGGAATCTTTAATGGCAGTGCAAA
AATATACTGGAACTAAGTTGGGGAATAAAATCAACAATTTCTGCTTAGTGAGAGGAATGCCATTCTCAGAGAGGACTTCATAGGAGAAGGCCTGGTGAGG
TTTGAGCTTCCTCCATGAGGCTCTATGTAGTTGAAGGAAAGGATGGTCCCTAGGCTGAGTGTCTGGGAAGGGCACCCAAGGGCATAATTCTGGTAGACAT
GGGTGAGAGACAAGTTGCAGCTGCTGTGAATTGGGCCCAYCTGGAGATGGAGACAACCAGCGCTTGCTAGGATGGGGTCTGGGGAACCAGATATAGGTCT
GGCCTTGCTGGGGACAATTTACTATTTTAATCCATAGGGTACAATGGGATGATGTCAGTCTGTCACTGAAGATACGAATATTTCGGGGGAGGGAAAGGGC
AACTGGTGCATGGGCAAGTCAACAGGAAGCCAAGGAATAGGCTAACGGGGGCCCTGTGGCCTGAGTTCTGGTACTGGTAGTCAGCAAGGCTGCAGTCAGT
GCCGCCGGTGGGGGCGGGGAGGGTGCAATACAGGCTGGAGTGGATAGGAGGCGGCTGGAGTGAGGGGCCTGGAAAAGACAAAGCTCAAAGCCCAATCCAG
GGAGACTGAGTGTAAGTCTGATCTAATGGAGGACTGGCGTACTGTCCAATAGCAATATAATATGAGCCATAGATATAATTTTTTAAAACTTWTTAAATTT
AATTTTTTATTGGTAGAGGGTGTTTTACTGGGGAAATTCACAGACAGAAGCATGGTCTTGGGTAGCCACAAGGCAGGTAGATCTCTGCAATGTTACTCCC
CAGACCCAGGGCATATGTACCATAGGGAAAGGGTGTATGTGTCCAGCCAGACAATGAAAAGCAGCCTCTAGAACAGGCAAGGGTACTGTATGTGTCATAG
CCTGTAACTTGTATGATAAACATCAAGATTGACATATTCTTATGCTAGGAACAGTAAATAAAATAGGAATCAGGAGGCATTCTCAAGACTGGAGCTAATC
AGAAGTCAATATGGTAGATTTGTATTCATGAAACTTTTTATTTTGAAATAATAATAGATTCACAGGAGAGGTTCCATGTACCCTTCTCCCAGTTTCCTCC
AATAGTTACATCTTATGTAACTATAGCACACTCTCAAAACCAGCACACTRCCACTGGTGCAATGTGTGTGTATACTTCTGTGTCATTTTATCACATGCAG
ATTCCCATAACCATCACTGCAATCAAGACACAGAATGATTCCATCACCCAAAGATCTCCTCATACTACCTCTTTGTGGTCATATCCATTTCCCTTCCTCT
TACGATTCCTAATCTCTAGCAAGCACTAATCTGTTTTCCATCTCTTTAATTTTATCATCTCTAGAATGTTATATAAATTGAATCACATGGCATGTGATCT
TTTGAGATTAGCTTTTTTTCCCTACTTGGCTTAATGACCTTGAGGTCCACCCAAATTGCTACATGTATTCATAGTCCATTCCTTTTTATTGCTGAGTAGT
ATTCTGTGGTATGGATGTACTCCAGTTTGTTTAGTCATTCACCTATTATTGTAGGACATTTTGGTTGTTTCCAGTTTGGGCTATTAGGAATAAAGCTGCT
ATGAACAATTATGCATAGGTTTTTGGGCCTAATGGATATAAGTTTCCACTTCTCTGGAGTAAATTGCTGAGTTGTATAGTTATGTGGTTTTTTTTTTCTT
AAAGAAACTGCCAAACTATTTACCAGAGTGGCTGCATGTTTTTGCATTTCTACCAGCATTGTATGAGGAATCCAGTTTTCCTGTATCATCACCAGCATTG
GGTATCGTGACTATAGTGTTTTATTTTAGCTGTTCCAATGGGTATGTAGTAATATTTCTTCATGTTCTTAATTTGTATTTCCTTAAAGGCTAGTGATGTT
AAACATCTTTTCATGTGCTTATTTGCCATGCATATGTCTTATTTGGTGAAATGTCTCTTGCATGTCTTTTGCGGATTTTCTAACTGAGTTGTTGAATCCT
TGCCTTTTTCTCAATCTTAAGGGAAAAGCATTCAGTCTTTCACCATGAAGTGTGATGTCAGCTACTGTTTTTTTTTTTTTGTAGATGTTCTTTATCAACT
TCAGAAACTTACCCTCTATTTGTAGGTTTCTGAATTTTTTTTTTTCGTTTAACTACAAACGGGTGTTGAAATGTGTCAAATACTTTTTCTGCATTAGTTG
ATGTGGTCATGTGATTTTTCTACCTTTAACCTGTTAATATGGTAGATTACACTGATTGATTTTTCAAATGTTGAACCAGCCTTGCATCTTTAGACACAAC
CCCACTTGGTTATGGTGTAAAAATATTTTTATATATTGCTGAATTCTCCTTGCCAATATTTTGTTAAGGTTTTTGTGTTTGTATGCATGTGAAATATTGA
TCTTCATTTTTCTTTATTTGTATTGTCTTTGGCTTGGTACCAGAGTAATACTGGCCTCATAATATGAGTTTGGAAATGTTTGTTCTTCTTTTCTGGAAGA
GATTAGAGTAGAATTGGTGTTAATTCTTCTTTATATGTTTGGTAGAATTCTCTAGYGAAATCATCTAGGCCTAGATATTTCTTTTTTGGGAGTTTTAAAA
TTACTAATTCAATYTCCTTAATAGTTATAGGGCTATTCAAGTGATCTGTTTCATATTGGGAAACTTACGGTAGTTTGTGCTTTTCAAGTTTGTGCCCATT
TCATTTAATGTGTGAAATGCATGTGTGTAATTTGTAGTATTTCCTTATTATCRTGTTGTTAAGTGCAGGATCTGTTTTCCTTAGYCCTTGCCAACTCTAG
ATAGGTGAAAAATGAGTCTTGGGGTTTCAGTTTTCACATTTTTATATTAATTAGGTGGATCATTAATTTGTATTGTATCTTTTGCTCTTTTCYTCCTGTT
TACCGTTTTCTTACTGATTTGTAAGAACTTTTTCTAGGTTATAAATACRAATCCTCCTCCTGTCACATATTCGTAACCTTTCAGGTTGCACTTTTCTCAT
TATCTTTTACAGTTTTTTGTCACACATACATGCTTTTAATTTTCATGTAGTTATTAATCAATATTTTCCTTTAAGGCCTCTGGGGTTTTATGTTGTATCC
ATTAGCACTCAATTTCAAGAGATAGAAAACCAAGTCAAGCTAGTTTAAGAAAAAAAGAAAGTAAAGAAAGAATGTTAGCTTATGTAACTGGGCATTGAAG
AGATAAATCTCGCTGCATGGATTAAGGATCTGAAAAATACATCATCAGGGTTCTGTTTCTCTTCTCTTGCCACTGCTCAGCTTTTATTTATATCTATCTG
GCGATATCATTTTCTCTAAAGCAGATAGTCTCTGTGTGATGATAAAAAGGCTGCTGGGAGTCTCAAGCTTATATTGTAGTAGTTTAAGGTCCAAAAATAA
AAGGCTTTCAGAGTCTGTATATTATATCCCATAGAAGGACTCGGAATGACTCTGCTTGGGTGGTATGGTCTCTTCCCTCTTCCCCATACCCTGAATCCGT
CCATAAAAATGAGGGCTAGTATGTCGCRATTGATCATTTACCTAGCTCTGTGGCTAGTGGGTAGGTGGAGTACCATCAGAACTCCATGCCATGGACAGCT
CCCATGGAAGACTGACAGGGCAAATAGGTGCAAAGAGAGTCCTCTGCGTGTCTTGCTTAGGAGGCCTTTCCCCAGCATAAGATGATTAAACAAAGTTTGT
TTCCTTATAATATGTATGATTTCATTATTTTATGTATACATTTTTGATGAGAGAGAGTATATGAATATGGGGTGAGGTAGRGATCTTTTGCTGGATGTGT
TTATATTTGAAGAGAAGATGCCCTTGAAACTTATTTGGTTGCCTGCTGCATAATTTGATAATTTTTTCTTTGCTTTTTCTTGAGTCTATTCTGAGTTAAC
ATGAATCCCACAAGGTTAGGATGGTGGGAAGGGCAAGGGCTTCATCTAGCATAAGGGTTTTCACAGTGTCTGTTAACAAATATCTGGTTTAACTCATCTG
AGCCCGATACTCATGCCCTTCAGTGGATATCCTGGGCATCAAGATATTGTATAGCAGTGGGAGGTATACAGCGGCACCCAGGAGAACCACGGATATTTCA
ARTTACCTAAAAATGGGGACAAAGTTAAACCTTGAAATTCCTCCTAGATTCCTACCTGGGTGTGGTAAGGCAGGCTGAGGCTTAGAGGGGGTTAAGGACA
AAGGTGTGTAGGAGACTGGCCACCTCACTATGACCTGTGTGCACAATCAGGTCCCTGTGAGGGTCACCAGGCATGGATGCCCAGCAGTGGACAAGGTCTT
TCCTAAATGTATTCCCAAGTGTTCAGTGGTATCTTTTTCCCTTAGAGGAATCTTTAAAAATGATTATCTTGTGCTAAAAGCATATTATTTCAGGTTCAAC
AATTCCTTTAGCTTCACACCTGTTTCCTTTTATTCAGTTAAATTCCAGAAAGAAAATTTAAACATTTTAATTTTAATAGCAYGCACAGTTTGATCCCATT
TGTATGAAATTATTTCATTGAATATGATTCCATCTATTGATCCCACCATCTCTTTGTATGTCAACTGTCAGGAATAATTATTTCTAGATTGTGTTGGTTT
TTTATTTTTTGCTTTCTTTAAAAACTAATAGGCACTTATTTCTATAAAAGCAGTAGACATTCCTTTGAAAGAATAAAGTCTATGATAAGAAGCATGCTCA
TTCTTCTACTTAGAGTTGGCTCTATTTCCCTTACTATGTGAATAAATATTGTCTACTGGCAATTGTTAGTTGTAAACTCATGGGGAATTATACCCAGAGC
CTCACAGGACCTCAGCCAGAAAGAGAGGAGACAGGAAAAGAAATCAGAAAAGGAGAAAAGAGGAAACACAAAGGAAGCAGGCAAGCCTCCAGGTTGGGGA
TTAGACCATGGCTTTGGCGGAGTCACTTCCTCATGTTTCTGGGGCAGAAGCCTGCTGGTTTTCATCACCTCTGCTGAGAATCACTTTGTCTTTGAACACC
CTCTGTGTGCCTAGATCAGCACTGTGTATCCAGCAGGCACTCAATAAATGCTTCGTGGATGTGTAGTTTCCCAAGGGGGTCATTCTCCCTAATCCAATTC
TTTGTCTTTCAGGCTCACAGGCTTTCAGCTGCCAGCCACCATTGTTAGTGCAGCCACCACCCTCTCTCTGCGCCTCATCAGCGACTATGCAGTCAGTGCC
CAAGGCTTCCACGCCACCTATGAAGGTAAGTGCCTCCCTCATCGGCCACAGGAGCCGGAGATGTGATGTCCTAATAGCCACAAGCAGGACTGCATTGCTC
ACAGATGCAGGGAAGTGTTCTTCAGACCCAGAGCTTGCGCCTGTCCTGACAAGGCTGGTTACTAACCAGTAACTCAGTTACTTAAATTGTCCCTCTTGGT
TCCCAGGAAACTGAGAATTGAAATCAAAGCTCATGTGCAGTAGTTTATCCTGAGGGCCTGGTAACATCTACTTCTCTGTCCCCTTTAACTGGGTTTTGTT
GTGTTTTTATTTTTTTAATTCTGTTTTATATTGGGCTTCATTGTATAAGGTACCTCAGGTTGTTTTTGAAAATAAAAGACATATAAACCCTAAGTAAAAG
AAATAAAATAAGCAACTGAAAACACCATACAATGACTGCCAAGAGTCAGTTTTATATCATTCAGAGAAGAACAATCGATTTTTCCTTAATAGCATGGATT
AGGGGCTTTTGGTTTGTGCTATGCAAATAATTTGTACTTCTCTCAGTCTGTTTAAATATGGTGTTAGAATTCAAATTAACACTAATATCTTCAGATTATA
CACTATTATTATTATTAACTTTATTATGTTCAGAAGGTGGTACTTCTAGATCTCTGTCATTTCCCTGGGAAATTTACATCTCATTAATAGGTAATTATGC
CACTCTTGGCTAAGACCTGCACTGTTATTTTGTGTTAAGATCATTAATAGGCATATTTTAAGACTGTTAATGATAATTAATAACAGTAATGACATAATAC
CCTAGTAAAGCACGCCAGATATCCAAAAGCTTTTTTTTTTTTTTTTTTTTTTTGCCTTTGCCTTTGTTTAAGAACTTAAAGAGTAAGCGATGCTTTCTTC
AATGAAGAAGCTATAGCAATACAGAAACAGACACTCCCTGTCTTGGCCAGGGGTGTAATGCATAAAGAGGACAAGTTCTGCCTCCTTAGCAAAAAACCAC
CCCTGGTGGCAGGGGGTATAGGGGAGATGGTTTGATGCTTTAACCTGAGCAACTGGGGGCTCCTGGGAAGGCTTCAGTTATTTTTAACTAAAGGTTGCTG
AGAAGGCTCCTGAGAAAGTTCCACCTGTCTTTTGCTGAGGGCTTCTGACATAACTCTATTTTACCTTAACTGAGGGCTCCTGACAAAGACTGACCTGTCC
TTAAAGTGAGGATTCCTGAAATAGCCTAATTTCTTTTTAAAAAATGATCAGATCTCAGCCGGGTGTGGTGGCTAACACTTGTAATCCCAGCACTTTGGGA
GGACGAGGCGAGTGAATCACTTGAGGCCAGGAGTTTGAGACCATCCTGGGCAACAGGAMAAAATCCCGTCTCTACTGAAAATACAAAAATTAGCCGGGCA
TGGTGTTACACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCACAAAAACTGCTTGAACCTGGGAGATGGCACTGCACTCCAGCCTGGGTGACAGAAT
GAGACTCTGTCTCAAAAAAAAAAAAAAAAGTTCCTACCAATATCAAGCCTGTGATTTTTGTCATCCTATTTATTCCTTCAACCTGGCCCTGAATCCAAAG
TAATTCTCTCCAAGTTTGAGCAACAAGCTCCTCACTAGGAGAAGCCTCTTCAGAAGCTTCCTAAAGTCTGTCTGGCCATTAGCTCCTTCCACAATAGGTT
GGCCTTGGGGACATTGACTGCACTTGGGACCCRGGGCCAGGAAAAGGGAGACTGGGTCAGGGACACTAGAAGAGGTGCCAGCAAAGATGCTGGGAGTGAC
TGACACATGGGGGAACTGGCCGGGCCCTAGGCTCTCATGGTGCCCTCATTTCTCAGTCCTGGTCGATCTTTGAGGCCCTGGCTTCCCTGAGGCTTGARGA
AAAAGGTGTCCCTGCCCACACTGCCCTGTTAGGGGCACAAGCACTTCTCATTAAGCAGAGCAGATCTGAGGGCACATTCAGAGTCCCGTGAAAACAGACA
CTGTCACCTGGAAATCATGAGCAGGGTCTGTAGTTGGGCAACAGGAGGTCTGTAAACTCCATGACATTAGAGACAAAAATTCTGAGGGTGGGTRTATCTT
TTTCTAGGGAGAATATACAGCAGGCRTTAGARAACTCAGATCCCCCTGGCCAAATCTAGCCAGAAGGTTGTTTTTGTAAATAAAGTTTTATTGGAACACA
GCCATGCCCATTCGTTGACATGTGTTTGGTGGCTGTCTTCATRCACTACAACTGCAGAGTTGAGCTATTGTGACAGAGACCCTATGCAAAGCCAATGAGA
TACTTACTTTTTGACCCTTTACAGAAAAAATTTACTTACCCCTGGTCTGCAGCTGTATTGTCCAATACAGTAGCCATCAGCCACATATGGCTATTTACAT
TTAAATTAACTAAAATTGAATAGAATTTAAAATTCAGTTTCTTAGTCACACTAGCCTTGTGTCAAATGTTCAGCAACCACATGTGGCTTGTCTGCCATGT
AGAACAGCCCAGATACAGAATATTTCCATCATTGCAGAAAATTTTACTGGACAGAGCTGAGCTGGAGCTTTCATCGGATTCACAAAGAGGCCGGTGATTC
AAAAGAGATTGCAAAACATTAGGGATAAATTAGAGGCCAGTGGATCCCTCCTCCCACCTGCCTGGCACAGGTGAGGCAGTCCAGGCATGAGAATGCTCAA
CATTCCACAGCAAGACTCACAGGGCAGAAGGAACAGCCTATTTCACCTCAGCCACATAATGATGTCAGGTGTCTAAGTCATTGGCACTAAGGAAATAAAG
CCTTGTAGGCAAGGCCCCTGCAAAGGCTAGACCAATGCTAACAGATTGCTGTAGCCGAGCGAGTCTCTATGCAGTCACCTGTTGCAGGGTTTCTGCAAAC
TACGCAGGATGTGTGGCTGGCTGTTTTGTACTGCATGGTAAAGTGGGTCACAGGTGTCTGTGCTAACAAAGGAGTCAGACACCCATAAGCCAAGGCTGTG
GCTATCACTGAAGCTCATTAATTTGATTTGGGACTGGGCTATGTGGCAATTCATGCATCTGGACAAATGTGAGTTGCACTTACTTTTGGAACACCCACAG
TGGATGGACAAGGATGGAAGGTGGGAGGCATGAGTAGGGTCAGCCACAGCTGTGAGCATACCTACCTGATATATGCCCTGGGATGTCTATCRTTGAGCTT
ATTCAACAGGCAACTGAATCGGGTTGAACCTGTACCTGACTCACTGGGTGACCTTGGGCAGATTTTTAAGCTCTCTGAGCCTCATTGTGGGGTGGAGGAG
GGGAGATTCACTAGTCAAAAGGAATTTATGAAGATTTGGCTCTCAGGGAAGGAGCTCAGCCCCCTTCCTCCATTGCAGAGTCCCCTTGGACATTTGTGCT
GGGTGGCAAGCAGGGAGAATGACAGACAGGCTTCAAAGAAGAGGCCCCCACTTCCAGCCTAGGCTGCCCCCAGTCAGGATGGTTTCCTTATATTCGCTAT
TCATGATGTTGTTGTGTCCGTTTCAAAATGGCATCAGGGCCCTGCTCTTSGTAGCTCCTCTTGGCTGACATCCCCAAATGTCTGCTATCAAAGCGAGTTT
GATCCTCCTCCACCCTCATCCAGAATGTGAAAAGTATAGATAAGGAACTGAACTGCTGCTAGGGATTTTGGAGAAAGGTGAAGTCAGGTGATGAGTGTCA
GCCCACGGCTGCTGCCGCCGCAAGGAAAAGATCAAAAAGGCCGGTAGTCAAACCCTGAGATGACAGAAGGTGCTTGGTTTGTAATCCCCGGGGGCAAGAG
CGTGGGCCGCAGCAGCTGGACGGGAGGGAAGGGGATCAACCTGTATTAAGCACCGACTGTATGCCAGGCACTTTACATACATTATCTCATTTAATCCCCC
ACCACAACCCTGTGGACAGACATTGCTATCCATCTTACAGAAGTACATGCTGAGCCTCAGGGAAGTTTTGTGTGCAGCTTAGGGCCTGATGGCCAGGAAT
TTTAACGTGGCTTTTCTGCAAAACTCTTTGAGTAAGGCAGAGGCTAGTGACTCCATTTCACAGGCAGGTAAACTGGAGATAAGCCAGAGGCAGGGGAGGA
TGTGGGAACTTCCAGGCTGGTGTGGGTCATCCATGGAGGCAACAAGAGATGTGTTCCTGAGCTTCTCAGCTAGGGTCACCAGATAAAATACAGGGCACTC
AGTTAATCTGAATTTTAAATTATTCAAATTTTTGAAGTGGGAATAATGTTTAGTGTAAGTATACCCCAAATATACTTATTTTATTTTATTTATTTAGTTT
TTTGAGATAGGGCCTCACTTTTTCCTCCAGGCTTCAGTCCAGTGGCACGATCTCAGCTCACTGCAGCCTCGACCTCCTGGGTTCAGCCTCCTGCCTCAGS
CCCTGAAGTAGCTGGGACCGCAGACACGCGCCACCACAGCCGGCTAATTTCTTTGTATTTTTGGTAAAGATAGGGTTTCACCATGTTTCCCAGGCTGGTC
TCGAATTCCAGAGCTGGAGCGATCTGCCTGCCTCGACCTCCCAAAGTGCTAGGATTACAAGCATGAGCCACCACACTGGGCCTGAAATTTAAATATAACT
GAGCATCCTGCATTTTCAGTTGCTAGAACTGACAATCCCATTTTCAGCAAAGAGTCTGAAAATAGGCCCCAGGAGCCCTCGCCCCACTTACCTCCTCCTC
CTCCTCCTGACTCCCATGTCTGCCCATGTCCTGCTCTGCCCATGTAGGGCTGTCTGCCCAGGTCTAGCCTCAGTTCTGCCATTCCAATGAATATACATTT
AGACATCTATCTGCTCACACACATATGCACACAGGTGTGGATCCGTGTGCACTTGGGATTATGCTATCTGTGCAATTCTGTAATCTGGTTAATGAAGCCA
ACGTTTTTCTGTGTTAATAAAAGTAGCCCTGATTTGTCTTTCTAATGAACATCACTGAGGAAGCCATTGTGGTTTGCATATACCATAGTTATCTAACCAG
TCATCTTCTGTGGACATTTAGGTGAAGAACATCCTTGTACATACAATTTAAGCCCTCATCTAATTATCTTCTTAGAATAAATTCTTGGAAGTGCAATTGC
TGGGTCAAAGAGTATGTAGATTTTCCATTTTATACATAATTCCATCGTGTCTTCAGAAAGGTTATACGAACGCACACTTCTACCAACAGTACACAAGCAG
GCCTGAGCCCATTCCTCCCACCTTGCCAGTGTTACAAGTCAGTTTCATGGATTAAAATGGGTGGAAAATGACATCCCATTTGTTGCGATAATTGGCATCT
CTTTGATTGTAGGTAAGGTGAAGCACCTGTCATCACTTACTGGCCATGTACTGATAATTGTATAAATCCTCTCTCTTGGTCTCTGCCTACTCTTCCATGG
GGGTGTTAGAATTTTTCTTATCTTCTTTGTAAGTGCTTTTTGCATATTAAGGATATTAATGTAATGGGTTTCCTTTAGAGGTACAGCAGTTTTCATTTTT
ATGCCACTCATTTTACATTTTAATTTTTTAATTTTTCCTTTATGCTATCTATTTTTGGTGCCATGCTTGGAGAGGCTTCTTCTGTGTGAAGATTAGATAA
ATGTTCATTTAAAGGCTCACCTTATTCTTTTAGTTTTATTTTACTGTTTATTTTTAAATCCTCCTGGAACCCAGATGTGTTGATCTTGGTTTCTGTGTCT
CCCTTTCTGTCTTTGGCTCTCTGATGCTTGCCATGTGTCACTCCGAGTTCATGGAAGCCTGCATCTTCCCCACTCTACCCCCAGTGTGTCTCTATCTGAT
GTTTCCAGTCTTCCTGCCATTTGGTCATTTTTTTCTCACCCTAGCCCCAGACTTCCCACCTTCCCCACACACAACTCCCAACTGTTGCATGAGATTGTTT
CCGATTATTCCAGACTGATCGCCAGGTAAGCGAGCGTGATGGGCAGATCAGAAATGCCAATGAGGGAAGAGTCTCTGCAGGTTTTTAGTGCTTAATCCTG
GTTGCACCTCTGCATTTTAGCAGCATGGATCTCGTGCACTCTGACACTTTTGTGAAGGAGAGCCCATCTCTGAGTGTCGGGTCTCAGTCTGTTAGATCTA
CTTAATACTCTAGCTCTCAAAACAGGTATTTCTTTGTTTAGCTAAGTCTAACTGTGATCTGGACATCTCACTATCAAACTATAGGCTTCCTTAAAAATCA
GACCTGTTCTATTCCACTAATGATCTCTATGAAGAATCTTAGAAGGATGAGGTACCCTTATTTTCCCTTATTTTTTGTGGACTCCTTGGTAACCATAAGG
GGAAAGGTGGCATAGTACAAGAATTAAGATCTCAGGTTCTGAATTCAGACACCTGGAATCAAATCCTATCTTGCCACTCACTTGCTGGTTGACCTTGGAC
AAGTTATGTCATTTCATTGAGCTCCAGCCTCTGTGCCTATAAAATCAGGATAAGAATAATACTTCTTAGAGCTGTTGTGAGGATTAAGGAAGAGAATGCA
CAAGTCACAAGATGTGCTCAGTATGGGACCTGGCAAATTGTCAGCGCTTGATAAATGTCAGCTAATTAATTAAGTCACTCTCATCCTAACCTTACTTGAC
TGGGATTATTTCAGGGGATGGAAGGAATATGTCAACTTCATAGYTCACAATCCCAGCCCCACCCCAGTACCCTGGCTCCAGAGTTTGCATAAAATCCTTA
ATCCAGCTGTTCGTGGTGTGTCTAGCTTTACAGCCAGACGGTGGCTKTTGGAGGGAAGAAGCAGAGTGTTCTTCATATTCATGAGCCTCTGGCACTGCTT
GAGCCTGTGTCCATTGGATAGGGATGAAGTCTCAGGTTTTGTCACTTGGTGGATGGGAGCTAATGAGGCCAAACCAGGAACTTAGTCTGTTCATGGCCTC
TTCTCTTTGTATCAGAGATGTTGGCTTTAGAGCTAAGGGTCCTAGTAAGAAGTCAAATAGGCCCTAGGCTTTTGAGGTCATGGATTTGAAAACTGTGACA
CACACACATACATGCATGTACACGTACTCACACAAATASAACTCTTCCATAAGATTCACAGGGAGTTTACAGATGCCCTGTGGCCACCCCGATCCCCTAG
TTCACCTAAAAAAACAGCCCAGAGAGGTTGACCTCACACATTAAGTTGATGGTAGAGATTTCTTCGTTCATTGAGCTAATATTTACTGGGCACATATTGT
GTGCAGTCCTTGACTTTCATCCAAGCTTCATTTTCATTGTCACGATTTGTGCTCTCTCCCTAGTCTATCTCCCCTCCCAAAGGRGAGCAGGGAGAAAGAA
GACATGCTCCACTTAGTGTCACTTCTGGAAAAAAAAAGACAAAACCCTGGTATGCTTTTGCTACCAATGGAAGATCGGTAATATCATCTCTGTATAAGGA
CCACAGCGTGTTGCAACAGGGTAGACAGACTCATCTGTGAGGGATGGACAGATGGAGCCAGAGCTGCCCGTTTTGCTGTTCCAGGAGACGCAGGTTAGGA
GCAAGCCTCAGAACACAGTGTGCTTCTGTGATGTTTGGAGGTGGGAGTAGGGTTGGAGGTGATCATGCCACTGTGCACGCAGATAAATTGGGGTCCAGAG
ATGGAATTGGAAGCAAGTACATGGGAGAAATGGGCCTTTCCTGGTTTTGTTTTTTCCTGTAATTAGACCTGCTGATTCTCTCTCTCGGCCTCAGCCTCTC
AGACAATTTCCTCATTCCAAAAGAGTTCCCCAATTCTGGGACATGATGCAGACATCTCAAAATTGGGCTAATGGAAGCCATTTGATCACATATATATAGA
TAGACATACACTGAATATGCAATTTGCAGCATTTAAGCCACTCCAGGCCAGAACAGCAGAACAGCAGGCCAATGCCCTCCTCCAGGGAGGGAGGTGATAG
ATGTCCATTTCCTCCGCTCAGGAGGGATGGTGTGTGCTTCCTGAGTGAACCTGTTCCATTTCCGATGGCTCTGCCTTGGGAGTTGGAGAACATTCATTTT
AATCAGTACTGTGGAGTAGCAAATTAATACATAGAGACGTGACATTTGAGACAAATTGGGCAGCACTTCTCAATAAGTGGAGAATCAGGATGATTTTCAT
ATCACGTCCTCAATAATCCCACAAATAGTTCATCATGCATAGTAATATTTTACCCCTTTGGGGAAGAGTATTAACATAGCTTTAAGATGATATTATGCCA
AACTCTAGTGCCATGACCGTCTTCCTGTCAGGGTGTCAGGAGAAACAGTGATGAGGAGGAAGGAGCATTCTCACGCAGCTGCCTGCTTGCAGATACAGTG
TACCTCTGCTTCACTTCTCTGTCCCCATTCATTCATTCTTCATTCATTCAACAAATATTTACTGAACACCTGCTATATATCAGTCCCAAAGTAGGCTTTG
AGGATACAAGAAAGAATAAGAAGTGGCCCCTACATTCAAGGAGCTCTGAAACCTAAAAATGTTGGGAGAGAAGTAAGGGCATAAGCCCAGGAGACAGGAG
ATGTGGATCCAAACCCTAGCTTTCCCTCAGGCTGGCTGTGAGACCTTGGGCAAGTCTCCCAACCTCCCTGAAATGATTTTTTTGCAAAACAGAAACTATA
ATGCCCACTTTAATAGGTTGTAATGAGGATTAAAGAGTCAGTGCGTGACAAGTGCCTGGCACAGAGATGCTATTCAAAAACAACCAATTCGTCTACCACG
TGGAGAAAATTGCTCTCATGCCCGGTTAGGTTTCTGGAGATCAAGTTTGAGCTCTGCCATATCCCCAGTGTATGCCCTTAGATAAGGAACTACACCTCTC
AGACTCCTCCTATGAAAAATGGGGTAATTTTCTCTCCATTTCAAGAGGACTGTGAGCATGAATGACAAGGTCTAGAAAGAATCTAGGGTGACATTTGGCA
CATAGTAGGCACTCAGTAAAAGGAAGCTAATATAACAAGGCATGGTGGGTTTTATGGGAGTGAAAAAAACCCAATTCTTTCCCCTGACAAAACCTTTGGT
CAAATCTTGTGGCTCTCCGAGGGCAAGAACTATCACTTACTTTTTTGTTTTCTCTGCCACCATGATACCTTAGTCTAGGGCCTGCCACACAGTAGGAGTC
CTGCAATGGTAGCTATTGCTTGCATCTCCTGACCTGGATCCCTACTAGTCTATATAAGGCTTTTGTACAACACAAAAGTGGCTACTCTGAGAAGACCCTG
TCCTGTGAGCATATGGCTCAGTGGATAGCGTATAGGCTGGGTTCTAATCCTTATCACCCCTCTGCCTGGGCATACTTTCGCAGTACTCAACTTGAACAAC
TTGAAGGTTTTGGAGCTTTACTTCAGAACCGTCCTCTTGGGAGTCTGTGGTCATTCACTATCCAACAAAAGATTCAGAGATTCATTGGATGCTTGGGAGC
AAAGATCTCAGAGAGCTTTCACTTGAAACCCTTTAATTGGGTTAAAGGGTTTAGCCCTTTAAATCCTTCGAGTGTGGTGGCTTACACCTGTAATCCTAGT
ACTTTGGGAGGCCAAGGCCAGAGGATCATTTGAGGACAGGAGTTTGAGACCAGCCTGGGTAACATAGCAAAACTCCATCTCTACAAAATATTAAAAAGAA
AATTAGCTAGGCATGGTGGTATGYACCCGTAGCCCTACCTGTTCAGGAGGCTCAGGCAGGAGGATCACTAGAGCCCAGGGGGTTGAGGCTGGAGTGAGCT
GTGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAACAAGATTCTGTCTCAAACAAACAAACCAAACCAACAACAACAATGGAAATCCCCAACCATTTA
ATTGCTTCCAGGATGGAGTCCAGACTCCTTACCTGGCCATCAAAACCTCCGGCATGAGCCCTACCTCCATCCCCTTCCAGTTCTCAGATGCACCATACTC
TGTCTTCCCACTTGTCTTTCAAACACACTGAGTCCCCTCTCCTGAACCACCTCACCACTACCACCCAACTCTTCTCTTCTGTTCTCTGCCTAAACTAAAT
CCAAGAGGCTGCCCCTGTGTACAACAGCCCTATTCTATTACCTCTTGGCTCCCTGCACTTCTCCTTCTATCATGTGCATCACTCGTRTATTTTCTGTTCC
TTGTTTACCTTCTCTACTCTTGTGTGTGCTTCTGGACAGGAAGAACGCTCAATAGAGCACTGAAGTCAGAGCTCAGGGTCTAAAGGAAGACTTGACTCCC
AACTCGTCCAGATAGTAGCCAGCATGTGACTTTGAGCAAGTCACTTAACCTCCTCTGACCCCTTATCATAGGAGGACAATAAGAATAATAAACCCTACTC
CATGGGATTGTTGTAGGGAAGAAATGGGGTAACACATCAAGTGCTCCTAATAATGCCTGGCATAGAATAAACACTCACTAAGTGGATGTGTAAGCTATTA
GGATCACTCTTCACAGTTGTGCCTAGCCCAGGGTCAGACACATAGTAGGTGCTCAATAAATACCGATTAAACAAGTGAATGGATAAATGATCGTCTTGCC
CCATGTGAAAGGCCCAGGCAAGAAAAGAGATTTAGGCTCAAGGTACCTGATACCATATTTCTTTGACTCTAAGATGCCCCCAGTCRTAAGATCCAGCTTT
AGTTGATGTACCATTAAGAAAGAAAAAAATGCTGCCAATTAAAGTGTGACATGCCATTGACTATAAGACACATCCTAATTTCAGAGATATTAAAATATGG
AAAAGCTTGCACCCTAGAACCGATGAAATATGGTAACTGCTTAATTGCTCCTAACCACCCCTTAGCCTCAGTTGAGGTGTACTTATCATTCCAACCTGTT
CTCTGACCCAGAGCTCTCTGATGGTCAGGATTCCTCCTTTTCAGCATTCAGGTGGGGACTCTTTACCATGTGATCACCTGTTAATTTATTCTCTTGGCTC
CAAGTCTCATTACTTCTCAATTTTCTGCATTGAACTCTATTTAACACTTATTAGCACAGGTCTTTAGCTGATAAACACCCTTTTCACGGGAAGCAGCAGG
GTGCCCCAGGCTTGACCCTGCCTCCCATAACCGTGCTCAAGGCAGGGGGGCCCAGAGACCCCCAAACATGGCTAGCTCAGGACCACTGCCAGCCCACTCC
CAGCCCCTCCCAGGATGGATCCCTTGGTACCGAAGAACCACTGGGTGGGGACCTGGATGTGATTTCTCCCGTGTGGATAGAAGGGGAGAGGGTTGTCCTT
CAACTGCTGCTCTGGTAGGGACCGTAGCTGGACATGCATATCTGTCTCCTTCCTGTGCCCTTGGGTCAGGTGACCCTGTTGGAGCTTCCTCCACTGACCC
CAGCCCTAGAGGTTTAGGGGATGCATGCCTTTCTGCCACCTCTTCCTTGGGGTGACTTATTTCCCAACCCATGAGCCCAGCATCAGTGGGGAGAGAACAC
TTCCAAACAGAAGTGTCAAATTGAATATTTCAGTCCCACCTCTTGCCATTAATGAATAACTCAGGAGTGATTAACCACTGTTTTGGATTATTCTTTCTAC
CTTTTCCTTCATTAATGTGAATAACTGAGAGTTGAACCCACTGATATTTCATTTTAACAGCAGGAGAGAAAAGCACTTACCGCATTAGGTAGGAGATTCT
GATTTGGAGATTTGGCGGTGGACAGATGGCATCCCTGTCCTTCCCCTGTGGATGCCGTTACATGATAGGAGTTGTTTCACAGTCCTTTATCCTCATACAA
GCTGCAGGGTCCATAGCCCAGGGCCTCTGAGATGAAGACAACAAAGGAACTGGCACTTGTCGAGCACCTTCGACATGCTCAGCAATGCAGGGGTGGGGGC
TTTATAGACAACAACCGACACATAACCACCTCGTGAGCAAGGCCTTAGGATCCCCATTTTACAGATAAGGAAGTTGAGGCCTAGAGAGGTGAGTTACCTT
GCCTGAGGTGAACCAGGACCTRAAGGTCATGCACAATTTAAAAATCAGTCTGGTTCCAAAGCCCACACTCTCCACCGTGTTCCTGCTGAAAATAAGCCCT
GCACAGTTCTCCAGGCCTGCCCCACTCGCCTACCCCTACCCCACAGCAGGAGAGGCCTGGGAGAGTCRGGTGGGCCAGCAGCATGACGCTGGGGCATCTC
CTTGAGCCTGTGGTCCCCAGCCCTGGCCTTGCTCAGGGCGTTGTTGCTGCCTGAGACCCGTCTCATGGACAGTGGCTTTGCTTCCCAGCTCTGTCATCCT
TCCTTCCAGCTCTCCGCTTCCTGTTATCCCTCAAGACCTTTATCCAGCTATATTTGCAGAGTAAACAGACTGGGCTTGGTAATGAATTACTTGACCAGGA
GCTAATCTTGGGAAGTGGAGGGGACAGGGCAGGTGAAACACATTTGAGCCTCAGGGCCTCCATACATTCTGTTCCCCTTGCCTGTACCCAGTGGCCCCAA
AGCCCTCTCCCTGGTTCCATTCAGCTCTGTGCTCATGTGTCTTCTTATTGAGAAGCCTTTTCTGACCACACTGTATATAACACAGCACCTGTTACCCATC
ACTCCCTAKCACCTCCTGACATATGCTATGACTGTTTATTTATTTGCTTATTGTCCTTCTCTGCAAGAATGTGAGCTTCCTGGGGTCAGGAGCTTTGTGT
TGTTTTGCATTACTATTGTTCTGTGCTGATTCCTCAGCTCCTAGGACAGGTCCTGTCACATGTTAGGTACTCAGTAAATATTTGGTGAATGAATGGAATC
AAAGACCAGAAGAAAGAGCAAAGGCATTTGAGCAACTGCAAGAAGGGCAGTTGTGGAGTATGAGGGCAGGGGTGTGGCCGGAGCTGAACTGGCTTGAGGG
ACAGGGAATAGCTCATGTAGGACCTAGGAGGCCACAGGAAGGAGTTCGGGCCTTACTCACAAGAAGGGGACCATCGCTGAAGGGTCTTAGGCAGGGAAGY
GGCTCMGTGAGATTTATGCTTTAKAGACATTGGGGAGAGCAGGGGCAGACTGCGGGGAAGGAAACCAGTCACAGGAGGCAAAGCAGGGACCACTGTCGAG
CATAGAATGTTTCTGAACCTTCACCAGCACTGAGGATGGTGCCAGGACAAGGGGAGACCAAGCCCAGGGCTCACTCCCTACATTGCCTTTATGGATGGAC
ATTTACACTGCTGGAATAGAAGGAATGCCCTCTACGTGGAGCAGCTTAGCCTTCACAATTGCTTACACAGTTGTTTGTGATATTTCTGTCTGTTCTGCTG
ACATTCAGATGTGACTGTAACTGATTGAACAAGCTCACCTGAAGAGTCTTGCTGAATAGATGAATGTTCAAGTGCTGGGGTCTCCAGTTGTGAGTGATGT
GGGTGGAGCCCTAGAGATCATACTGGGAAATTATGCAGAGGAGTCAGGGCAGGGAGACATAGCAAATGCATTGGGTGATGATGATCGTCAGGATGATAAT
GAAAGCTAGCATTGCTGGGGCTCTTACCAGGTGCCAGGCACTCTTCTAAGTGCCTTACATTTTAACATTTAATTCTYAAGYAGTCCTTTGAGGTAGGCCC
TATTATTATCTCCATTTTACAGATGAGGCACTGAAAGTTAAGTAACTTGCTTGAGGTCACACAGCTAGTAAGAGGTAAAGTGTGGGTTTGAATCCAGACA
GTTTGACTTCAGTCTACAAAAAGGAATAAAATAATTTCACATAGTTGCGACTATTGGATCCAAATTAAATATTCCACTATAATAGGGAGCAGTGTCAAGC
TTTGTACTTTAAAAAATCTAACAAAAGGAAAAGATTAGTGATCAGACTATATTCAAATGTAAAAGTTCTGCACAATAAAAATCATGTAAAATGGGAAGAG
AAACAACTGACTTGAATAATATTCTACCAAATGTGGCAACAAAGGGTTAACCTCTGCATTGTATAATGAACCCATACAAAGTGGTAAGAAAGGTATCAAG
GAGTTCACACCAGAGGAAATAGAGTCAGCAAATAAATACATAGCAGCACTACCTGGTCCTGATAGTTATCAGTGTAATGTCAATTAAGACAATGAAATGG
CACTTTATCCCTATTAARTTAGGCTGAAGAACTTCGGTGGGTATGATGCAGTGCTGGAGTGGTGGCAAAGACACAGACACACTCRCACATGGCTGGTGCT
GATGTAAATTAGTCCTTTGGAAATCCAGCTTGACAGTATGTATCAAGAGTCATAAAATGCTCATGTCATTTGACCCAGTAATTCCCCTCCTGGGAATATA
TCCTAAGGAAATAATTCAACAGAAGAAGAAAGTTATATGCATGAAAGTGTTGATTTCAGCATTATTTATAATGATGAAAAATTGGAAACTGTAAAAATGT
CCAACAGTAGGGGCATGGCCAGGCAAATTATGGTAGATCTACCTAATAGATTTATGCAGTCATTTAAAAGTATAATAGCATTATTTGGCAATACAGAAAG
ATGTTTATGATATTATTTTCYGTGAAAAAACCAGAATGCAAAATGGATTCTTCATATTTATTACAAACATGTAAAGTAGGTCTTATATGAACAGGGACTG
GATGGAAATAAAAAAAGAAACAGTTGACGTGGGCAGGCAGTGAGATGTGGGTGAATTTTTTTTTAAGTTCCTCTTTATGGCTACTCAAGTGTTGTTTGTG
TGATAAATAGCAAATGGGAGAAAAACCAAAATCAGAGTAAACTAACACTCAAACCAACATCAGTGAAGTCCTGGCTTGTGTGAAAGCTATGTGGAGGTGT
CAGTTGGCTATGAACATAACATGAATCAAATGTCACATGGCTCTATTAATGGAAATATAGACTCTGGATCTTGGAGGGTGGATGCATTCAGAAGAAGGAA
ATTCATGTAATAAAGCATTGATCAGTAGCAAGGTGTTTTGTTTTGTTTTACGGAGATAAGGCCTTACTCTGTCACCCAGGCTGGAGTGCTATAGTGTGAT
CATGGCTCACTGTAGCCTTGACCTCCTGGGTTTAAGTAATCCTCCTGCCTCAGACTACTGAGTAGCTGGAACTACAGGTGTGCACCACTATACTCGGCTA
AATTTCTGTAGAGATGGTATCTTGCTATGTTGCTCAGGCTGGTCTCAAACACCTGGGCTCAAATGATCCTTCCATCTCAGCCTCCCAAAATGCTGGGATT
ACAGGCATGAGCCACTGTGCCTGGCCACAAGATGTTTTTGAGGGTCATGGATTGTATCTCTAGCACAAGACCCAAAACTAAGTAGGTATTTGGGAGAAAT
TAATGAGACAAGTAACTATGAAACAAAGAATAGTTAAGGAGAAGATCTGGAAGTGACAAGAGAGTTTCTCTCACAGAAGACAAATAAGGATTCGTTCTGC
ATTGCTGCAGGGAGTAGAACAATGTCCAATGGAAAGATGTTAAAAGTAGGTGAATTTCAGCCAAGAATCAAGAAGTTGTTTTATATAGCTTTAATTACCC
TAAATTGGAGTAGGCTGCCTTGTGATGTAATGAGTTCCTCATTTCTGGAGGTGATCAAGCAAGGCTTTGATTGATCAAGCTCTGCCAAGGATTCTGTTAA
CATACTTTCCAAACTGGCATATATACTGGATTTTATCAAAGTTGACATTCTATTGACTGTAAGATGTACCATTATTTTATGCACCACTAAGAAAGAAAAM
AGTGCCAGTTAAACGATCACGTACCCTTGGTTGTAATACTCATTCTAATTTCTGAATTGTTTATATGTGAAAAAAAACTGTGAAATACTATATAGCCCTG
AGGGTTGCATGATGGGAGCACCAAAGCCTACAAGCTAAATGTGGCACGTTTTCTAATCTTATCGTAAAGCAAATATACATACAATCATTCTATCTGTCTA
TCTATCTATCTATATCAAATAGTAAACTAAATACATATATTTCAACCAAATATATATTTTAAAAATATGTTTCTTTATGCAGTCTATCACTGATGGGCAT
TTGGGTTGGTTCCAAGTCTTTGCTATTGTAAATAGTGCTGCAATAAACATACATGTCCATGTATCTTTATAGCAGAATGATTTATAATCCTTTGGGTATA
TACTCAGTAATGGGATTGCTGGGTCAAATGGTGTTTCTGGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACATATACACCATGGAATACTATGC
AGCCRTGAAAAAGAATGAGTTCATGTCCTTAGCAGGGACATGGATGAAGCTGGAATCCATCATCCTCAGCAAACTAACAGAGGAACAGAAAACCAACACC
GCATGTTCTCACTCATAAGTGGGAGTTGAACAGTGACAATACATGGACACAGGGAGGCAAACATCACACTCTAGGGCCTATTRGGGGTGGGGGGAAAGGG
AAGGGAGAGCATTAGGACAAATACCTAATGCATGAGGGGCTTAAAACCTAGATGACGGGTTGATAGGTGCAGCAAACCACCATGGCACATGTATACCTGT
GTAACAAACCTGCACATTCAGAACATGTATCCCAGAACTTAAAGTAAAATTTAAAAACRTATATGTTTCTCTATAAATAAAATGATAAACTATAAATCTT
AACTAAATATATGTATATAAATAAAATATTCATGCACATAAACTAAATACACACATMCACACACACACACACACACACACACACACAGAGCAAGGAGTCC
AGTGTAAATGGGCATCTTTCAAAAGATAGAGGAGGAGATTTCAGAGATATCCTTCTGGTGGCTGGCCATACTTTCTTGAGCCCCATGTCCCAGGTGCATG
CACCCACATTCTTTTCCTGCTGAAGATTTATTCGTGTGAGAAGCTTGGCTGAACTGCATAGGGGCTTGCTCTAGATGCTTTCTAAAATCCATGACAAATC
TAGGAGTCGCTAATCCAATGGATCTATAATACTTTAAATCAGCAACTCCTTATCCACTCATTCCATTGACTTTGATTCCAAAGTGCTTTCTAATCCCTAG
TATTGGTCTAGGCCCTGCCTCTCAGATGCCATGAACAATAAGACTGCAGGGATCCAGGCCTGTGGCCCTCCTGTTGTACCAGAGCTCCAGCATCTCTGGA
ACCCCTACAGCCCTTTGTGATCCAGGAATCTGCAGAGTGCCTGGGAAGGGATGGGTGCTTTACCCAGGCATTAGCTTTCCCCAGGCCCAAGTAAGCCTAG
ACCCAGTGCCATGGTGGCTCCTCATGCCTYTCACCTAGCTAGTCTCCCACCCACTTCTGGAGGCAGGGAAGAGAAAGGACACTGCTGGGACAATAGGATA
AGCCTACACTTTGGAATCATAGAGTTCTTGGGTTAATCTACCACTCACTGTGGAATGCTCTGTAATATCTCTGAGGCTCAGTTTTCTCAACTGTAAAATA
GGGGTATGAGCATAATGAGATAACAGCAGAGCTCACATACAGCCATGCCCAGTGAGGTCGAGTGTGCTTCCCCTCCAAGATCCCATTTTGCCCTGGGAAG
GAAAAGAATTTTCAGCAGGAAAAGAATGTGGGTACATGCACCTGGGTTCTGGGGGCTCCAGCTAGTATGGTCATGGGACACTTCTCCTAAAGCTTCTGTG
TCCGTCTCAAATGAGGGGTAAGATACAGGAGGACTTCCTTCTTTTCTTGAGAAATATGCCTGGAAGACTGTAGTTTTAGCAGCTCCACCCTTCATAAGCC
AGGGAGAATACATATTTTCTTTCCTGTGCTGCACACCCAGCTGTCTTGGGGAAAAGCACAGACCCTGCTTAGAGGCACACATGGACTGGTTGGCTTCTGG
CTGAGGCTTCTTGGTACAGAGAGTATCTTTGTTTCTCATTGTCCAACCAAGAACAAACAGGAGGAAATGTCCTCAAACACTATAAAGGTTATGCAAACCT
AGGTGTTTTGTTGTTGCTGTTGTTCATCTACCCATCCATCCATTCATATGCCTTGAATACCTCTTCTGAACAAGGCCTGGAAAAACCCACATGGGTAGCA
CCAGCCCTTGCCCTTGGGCAATCATGGTCTAGTGGAGGAGACAGATAAAAAATCAGACAACTGTGACAACTGCTGGAGAGCTGAGCGCTTAGGRCACAGT
GGTCGCTTGCCTAGGCTCCAGGAAAAGATCACACTAGAGCRACTGTGGATTCCACACCATGGCCTACTGGGGAATTCCCAGGCTCTGAGCCAGCAGCACT
TCTGACCTCTCAAGGTGAGAGTTCCCCTGGCATATCTGGAGAACAGAGATGCAACCAGTGCTCCTGGAGCAGAGTGAGGGAGACGAGTGGTAGGAAGAGA
TAAAGTTGGAGACAAGGGACCAGGTCACACACAGCCTTTACATTATGGGAAGAACTTGGCTTCTACTGAGTTTATCAGGRCCCATGGGCAGGTTCTGAGC
AGAAGCTGACCTGGTCTGACCTAGCTTTAACCAGCTGCTGTGCTGAGAATATGCTGAAGGAGTGCAGAGTGGGAACAGGGAGACTGGCCCGGAGTCTAAT
GCAGCAATGCAGGTGAGAAGCCAGGGGGCGCTCTGGGTGAGAGCCGCAACGGTGAAGGCGGAGAGAAGTGGGCATCTTCCAGACAGTTTGAAGGTGGAGC
TAATAGAACTGGCTGGCAGATTAGAAGTGGGTGCTGGAGAGGAGCCAAGGTTAGCTCCCAGGGTTTGGGGGGATCAACGGGCMGTATGGAGCTGCCCTTA
ACTGAGGTGGCAAAGCCCATAGGAAGAGCAGGTTTGGGGTGCGGAGATCAGGAGCTCAGTTCAGACTGTTAGGTGTGAGAAGCCTGCCAGGAATATGGGA
GGAACTGGTGGGTAGGCAGCTGGATGGAGAGAACCTATCTGCCCATGTAAGTTGGAGCATCCTTAGCRTGTAGATTGTATTGAAAGCCATGAGGTCAGAT
GAGATGACCTCGCAAGGGAGCAGAGACAGAAAAGAGGGATTCTCTTTACTCCCCAAGGCTGCCTTTGCCTGTGGTATTCAGAGAGTGCCCTTTGCCCCTT
TTTTTCCCCAGGTGTGGACCTGGAAAACAGTTATGTCTGTTTCTGGTTCTTGCAGCAGTTGTAGTGTCAGCTCCTTCCAGAGGTCTAAGAAGGGGCAGAT
CAGGCTGYAGAGAGCTGGGAACCAAGAACAGTACCGCCCCTGGCAAAGGAGACCTAGCCCCTGCCCCRAAGGGCTTCCCAGCTCCCTACTTATCTCCCTG
AAGCAGGTGCCCAGCTCCCAGCAGGAGCTCAGCACATGTTGGCTGAGTGGAGGGATKTGGGGTCTCAGGAGAGYTGGTGGGTTCTACCCCGCGGTCCTGA
GAGAAGCAAGAAGGACTGTGTTGTCAAGAGGATGCCCCTCTGAGGGAGAGAGGCAGGTCGTGTGTGTGCATGGGTGCCAGGGAGCAGATGGCAGCGCAGA
CAAAGGCTCGCCCATGGCACAGAGCACAGAAGCTCATCTCTGCCTGGCAGGCACCTATTGCCCAGGGAACGATGGATTGAAAACTCCATAATGGCACGAT
GATGACTGATAATACTTGAAAGGAAACTGCAACGTCTGCTTTCAAAGCAGCCCTCCCCGGAAGGCTGAACTGCCCTCAGCTCCCATCTCAGTGCCTTTGT
CGATGGCCATAACGCTCAGCCAGCTTGCTAGCGTTCACACCTAGAGAACAATTAATCAATCTGTGGCTTGGGCTTAGTGTTGGGCTTCTTCCTAAAGGCT
AATCGTTGGTTCACAAAAAGGAAGCTTTGCTGGCCCATTGCAGATGGGAACCCCAGGAAAACAAAATGCAGACAAGCCTGGAGAGGCAAATGTATCCCCT
TTGTGCCCAGGCCCTGGMAGCTATGTTGAAGGAAGCTGTATGGGACTTGGTTATATTTCACTGGCTTTGTTTATGTGACTGTGTGTGTTTGAAGGATAAT
CTTTTATTCATTCAACATATATTTATTGTGTACTTACTACTGTGTGCCAGGCATAATTTGAAATTCTAGGCTCAGAGCAGTGAATAAAACAGATAAAAAT
TCTCTGTCCTTATGGAGCTTACATTCTAGTATATGGAGCAGATAATAGACAAGCTACATGATGAAATCCTGTCTTTAATAAAATTACAAACATTAGCCGG
GCGTGGTGGTGCATGCCTGTAGTCACAGCTACTCAGGAGGTTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTCGCAGCGAGCCAAGATCACGC
CATTGYACTCCAGCCTGGGTGACAAAGCAAGACTCTCAAAAAAGAAAAAAAAAATAGACAAGTTAAAAGAGAAAATTGTGTAGTATRTACATGTTGATGT
GCAAAGCAAATTAAGAAACAGAGGAGGATAAGACGGATCTGGGGTGGAGGGATGACCATTTTAGATGGGCAGTTTGGGAAGACCTTGAGAAGGTGGTATT
TGTGTGAAKAGGTGAAAGAGGTGAAGGACTGAAGCCTGGGAGAAGAGTGTCCCGGCAGCGGGAAGAGCAAGGGCAAGGCTCTGAGGTGGGCCTGATCTGC
TGGAGGAGCAAGGAGTCCTGGGTGGCTCGTGGGGATGGGTGGGGAGAGAGGCATAGATGGTGGAATCGGAGAGGCTGTGGGGCCACAAGACAGTTCCTGA
TAGACTTAAAACTGGAAGAAAACTGTGAACCATTCAGCCCAAATTCCCAGTTTTTCAGATGAGGAAACGGCTTCTAGCCACTCAAAGCGATGTTTATAGT
CTCACTGTCAGTAGCAGACCYGGTTCTATCACTCAGGTGCCTTGATGTCCAAATTACTCCTTTTCATTTAACTCATCTCGTCACTCAGAACGTGCTTATG
GGTTACCAGAGGCTGGGAAGGGTTGTGAGTGGGGAGGGAGGAGGGGAGGATGATTAATGGGTWGAAAAAATCATTATCATGAATAAGACCTACTATTTGA
TACCCCAACAGGGTAACTATAGTCAATAATCATTTAATTTATGCTTTAAAATAACTGAAACAGTATAATTGGATTGTTTGTAACACAAAGGATACATGCC
TGAGGGGATGGATACCCCATTCTTCATGATGTGATTATCACCCATTGCATGCCTGTATCAAAACATCTCATGTACCCCATGAATATATACACCTATGTAC
TCAACAAAAATTAAAAATTAAAAAAAAGAATACACTTATAGGCTTTTCACTCACTATTGGACATGAGCTATAAACAAAACTGGTGGAGAGGCCCCGGGAA
CTAGGGTGGGGAAAGAATGGACTCTCTTAGGCACGTGCTCATAGCCTCTCTTCGTTTCTGTTTCCCATCTTGATGGAAACACTGCAACGTTTACCTCACC
TCAGAGCAAATGGAAATGGGACTCCTTTGCCAGTTTACCAAACTGATTTCYGGACTTTTGTCAGTTTTGATAGCAGTCCACCCCAACCCACCTTTATATG
TAGAAGTTATTAGAAAGAGTTATTAGACTGGGGCTCAGCCTCTGGTGGGAAAAAGAAGGGAAGCATGTAGTAATCTGATCAGGAATTACTAGCACAGTGC
CAGGCAGTGGGGATTCACTCATGAGCACAGGCAGCCTCTCCCTGAGACCTCCTGGAGCCCCCAGCCCAGCTTGGGGCTAGACCAGTAGTCAAAACACAGT
GACCAAGGCTGTGAAGGGGTTGACACGGGACCATGGGAGTGAAATGGAAGGGCATCCAAGCCAGACTTAAGGTGAATGGGTTAGGGAAGGCCTCCTAGAG
GAAGTAAAGACCTAAAGGATGAAAAGAAGGTGGCTAGGCCTTCCCAAGGCAGAAGGAAGCTCAAAAACAAATCACTGGCCAGGCGCGGTGGCTCATGCCT
CTAATCCCAGCACTCTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTTCACCGAGGCTAACACGGTGAAACCTCGTCTCTAC
TAAAAATACAAAAAATTAGCCTAGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAG
CTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAACCTGGGTTACAGAGCGAGACTCCGTCACAAAAAAAAAGAAAAAAAAGAAAAAAAAAATCAAGAG
AGTCAGTGTGGCAGGCCCTGCTGACGATCAACCTGGATTCGGGTCCAGCTCCATTGGTTACACCCTTTGTGACCTCGGGCCAGTCACTGAACCTCTCTAA
GCCTCAGCTTCCATGTTTATAAAATGAGACTAACAATAGAACTTACCTTACAGAGTTACTGTTAAAAGGACATAACAGGAGAATGCAGGTAAACTATGTG
GCACATTTTAAATGCTCGTAGATGATGGATTATCCTTATAATCCAGTATGGTAGAGGGTTGTGGATGATAACTCCCTTACAGGCCCTGCTTCCTGGAGGT
GGCACCACTGTGGCTGAGTCTTACAGGAAGAGGGTCAGTGAACTAAGGGAAGGATGAAGAAGTGGAGAGGAAGGGATTCCAGACAGAAAGAGGAAAGACT
GAGCAAAGACTGGAGGCCAAGGCCCACATAGAGTGGTGGAAAGCTGCATGTGATTCAGTCTCTGGGAATARTATCAGAAGGCAAGGAAGGCTCTACAGCA
GACAGACCTGTATGAATATTAAGGATCTGAACATTGTCCTGTAGACAATGGAGAGCCACTGAAGGGCTCTTAGAAGCAAGGAGGTGACACAATTAGACAT
TTCAAAAGATCACTCTGGCTGCTGAAGGGAGAATGGATTGCAAGGATGCAAGACTGGAGGCTGGGAGCCCACTTAGGAAAACATTGCCTTGGTCCAGATA
AGAGATGATGAGACGTGAGCTAGGATAATGGCCATGGGAATGGGATGTAGGGGAGAGACTAGGGTTGAGTCACATAGGAGTGAAATCAGCAGGAGTTAAT
ATTTTATTAAATGTGGGGGAGTGGGGGTAGGAGGAAGCAATAAGGCAAAGGAATGTGCAGAATGTCCAAGAAGTCAGCAGTTTTTGGAAAGAAACTCCTG
ATGGATTTAGGAGTTAAGCGCTACTATATGCTAGTTAACCCTCCAGGAGGGTGTGAGATCACTCAGGGAGAGGCAGTTTCAGTGGGGAGGGCAGTGGTTA
GYGAGGGAGTCTTGGGAGAGACCCAGGGCAGGCAGAGGAAGAGGCTTACATGGAGGGACCATCACTGAGGTCCCAGGAGAGCTGGGAGTAGATTGAGCAG
ATATTGGGGTCAGAGGCTCCAGGAGTGGTGTCAGCAGGGTAAAGGCCCAGAAAGATCAGGGCGGCACAGTGTCTCCTGGCTTCAGCTCTCAGATGCTACC
CTGGAGTATGCAGAGTTCACTGTGGAAGGCCCTTCCACCTYCCCCCACCCCCGACCCTCAATTCAGGGGGCTGAGGCAAGAATTGGAGGTGAGCAAGTAG
AGAAGGGTGTCTGGTCACCTCTTATAGGACATTAAAATGATAAGGGGAGACGTGGGGCCAGCTGGGGTTCTGGGTTTGTTTGGCTTTGTTTTTCTCATAG
GAGAGACAAGGGTGAGTTTAAAAACCAATGGAGCTTGCTGGAAAAAAGAGAAAAGGATCACTAAGTCCTGAGAGAGAAAGGGTCCTGAGAAGGAGGAAGA
GCCCCTTATTCTCTGCAGCTGGCTCCAAGTGGTTAAGGATGGGTGAGTTTGTGTGGTATGTTGTGTGTTGTGTTGTGTGTGTGTCAGAGGGTGGATGGGG
TAGGCAAAGTGGATGGGGTAGGCAAAGAAAGCTGGGGAGCTCACACCAAAATATCCTCAATTTCTTCCATAACAGGCTGAGGTGAGAAGGGTTGTGAAGA
TGTCAAATCAACATTCATTCATTCATTCAGCAAATAGTTATGGTGCACCCACTGTATGCAAAGCACTTGAGAGGCACTGGGAATATAGTCATGAACAACA
CACACCCTGTCCTCATGGAACTTACAGCCTAGTAGGGGAAGAGATGTTAAACAAGCAACCACACAGATAAATACAAAGCTATTAATGAATAAATKAATAT
CGTAAGACTTCACTTATATTCCTACAAAGCTCCAACTTTATTAGAAGCTGCCCATCTGTGTGTTTAGGTGAGAAAGAGTTTTTGAACGTGAAYCTATTGT
TCTCCTTAGTTCTGTTGAACAGAACAGCATCATGATAGAGCCCTGAGGCAGAAAACTAGAGACCACCTTCAGATGGGCGCAAGTCTACTGACTTAACCTA
CATCTTTTTATTAGTACTCAGACCTAGCAGTTCTTTGTATTGACTCACAGAAGCTTCTGCCCATCCACAGTACTTTGTATGAGAAGAAACAACATGGTAC
AACTAAAAGAGTTGGGATTTGGGGTTGGAAAACCCGATGTTAAAGTCCCAGCCATGCTGCTCACTAGGGGGACAAGATGAATGAGACATTTAACCTTTCA
GGACCTTCATTTCTTCCTGCATTAAAATAGGCTGAATCCTGACACCTGCTCTGCCTTCTTCACAGGGTACTTTGGAAGGTGAAATGAAGGAACCTGTGGG
GAGATGGGTGGTAAACGTAAAGTATGGAGCACGTCTGTGGTTTTATTTTTCACCTGTGCCCACTTGGAGTTGGAGCCAGTGACAGATGAGTGCAGAGAAT
TGACAGCAAATTTCAGAATTCTGATTTGGTTTTGCGCACTCCATAAAGCATAATTATTTGTTGGTTTAAGTGAGATCTCCAGGCTTTTTCAAAKAGTCAA
ACAATTTATACTCAAACTGCATTTTGACAGCCAGCCTTGGATATGCTCATCTTTTTTCAAGACCACATGTCTTGCTTTTACAGATTGTGTTACATGTTCA
TGGAAGAAAATGGGAGACATTCACAAGAGCACAAAGAAGAAAATTAAAATCAACTATTATCACACCCCCTAGATATAACCACAATTAATATGTAATTTAT
TCTTCCAGGCATATATGTGCATATTAGTGCATAAAATTCGAAATATATATATTTATGCTATTTATATTGCTATAATTATTCAGCCAATCCCCTGTGTTTA
AATTTAGATTGTTTCTACTCTTCCCCTTTGACAGATAATGCTGTCGTGAAACATTCCTATACATAAATCATTGGGATGCATCTGATTATTTCCTTAGAAT
AAATCTATAAGGGCATGGCCATTTCAAAGAGTTTTGGTATGTGGCTTCAAATTGCTTTCCAGGGAGATTTATGTTCTTATCAGTAATGCATACCCATTTC
TTCACTCCCTCCCCAACACTGAATATTAACAATTTTAAACCAATTAGTTTAAAATTGGATGGGTAAAAGGTGGTTCAACAACAGGGGTCAGAGGAGGCCA
ATCTTGAGGGATTGCCCATATCCCAACAGCTGTAGGACTCTTAGCAGAACTCCTGTTTCTCAGAAGCTTGTTGTTCCATGGCCAGGGTCTGGCCTGCTTC
CCATCCACAGAGGACCGAGTAAGTGCTCCTTGTATGCTTTCCCCAGAGTGGGCACTTCCATGAGGCTGAGGTCACTTCCATGAGGCTGAGGTCAGGCGTG
ATGCTCAGGGGTGTCTGAGTCCTGGAGACAGAGAGGGAGCTTCAGGTCGAGGCGGGCCAGTCCTCTGCTTATCATCTTGGATGCAATTCTGGACTTCGAC
TTAAATAAAGGTCCTTTTTTAGGTTCCACCAGAAGTGGGCACCAGGATGCTCTGGTCATTCACAGGGCATGCCTCTTTCCAGACTAGATGCAGAATCTCC
AGAGGCAGTGAGCTAGCATTCTGCCCCGGGAGAGAACATTTTTTATGGCTAGATGGGAGCGTGTCACAGTTTCCATGCCTGAGAGAGTCTGGCAGTGGAA
TCCCTGGGGGACACTCACCTTCCTCACCAGCACTTGCATACTCCTTGGGGGCCTTTACTGTCTTGGACCTGGGGAACCTTGGGGTAGTTACGACTCCACA
CTGGACATGGCTGGTGGCTTATAGGGGATGAGAAGGCAGAGAGCATGAACTTCCTGAGCCTAGTACCCAAGAATGAACTGTGGCKCATTTGCTTATTCAT
CCCACCTTGCATTGTGCTAGTTATTAGRTGGAAAAAAAATGAAGATAAACAGGACCAAGTCTTTTGGTGACTTGTAGGAGCTCACAAGTAAGACAGACAA
ACCTGTCAACCAGCAATTGCAAAACAATGAAGTGTTTGATAARCCCTAGAATAATTTCTTTCTGAGGCTCTGGAAACCCAGGCTACTCACCTATCTTTAT
CTGTTATTTATACTCTAGAGAAGTTCCTCTGGAAACAGTGTGGAGGTGAACGGTGGTGAGAGGGTCAGGTAATGAGATCTGGGGTGGGATGGGGTGGAAT
AGGAGCAGTTGATCTATTGGCGGCTCTAGGTTGAAGCTCCTGGAATAATAGAAGCAGGTGTAGGTGGGGTMTTGGGGACACAGAATTCTCCAGGTGCAAC
GTACAGCATCCCCATCCYCTAGGCAAGATATTAATCTCTGAGTTAAGGACTAAGGGACCCTGATGAGGTCTGGGAGGACTGTCTCAAAGGTTCTCTAGAC
TGAGGCACCTTGGCTTTGTATTTGGCTGGGATTCAGGATGGAGTGAGTGATGAACCAAGATGGGCTGGAGTTCTAAGAGGGCCAAGTATATACTGATAGA
AGGATATGGTAGTGAGGGCAAATGGACTTTGTCTTGTATTGCCAATATCAGTCAATTGGTTGTGGTTGACAAAAACCATGTGTTCAGACCACATCTAGAT
TCACTGAGAAGAGGGCAGAGATCAATTAGTGATGTCTGCATGGGGRTGGATGAGCAAAATAGTGGCACATGTGCTATTTGTGTCATTTCTGACCTCAGGC
ATCACAGAGCATATTGCTGGATGGCAGAGAGGATAGCATCATAACAGTGTGCATGATTGATGCTTATACCTGGGAAGCAGGCTGCATAGGCTCTGCTAGA
ATACAAATCTGAGGTATCAGAGGAGTAGGAGCCATCCATGGAAGAAAGACTCTTGAGCTCAGCAGTGTCCCAAACCTTGGTGACCAGAATCTGACAAGGT
TCCAGTGCTAGGAGACCTATAGCATGAGTCAAGGAAACTGAGGCAGAAACTCAGTCATAGACACTATACCAAACCGGTGAGTGCAAGGAAGGTTCAAGCT
TGATGGGCTCCTCTTGACTCATAATATTGGGCCTGTGGCCACATGGCTAATTTGGACTCCACCTTCTAATGATGTCCTTGCCCTAGTCAGGACCACATTC
AAGGCCTGGGCGTGGTAGAGCCTGCAGTAGCCATATGGGTTACACCTAATCATAAATAAATCACAGATTGGTTCTACAAAGGGGAAGTGGAGGATTCCTG
GCAAGTGAGATATTAGGAGCATTTAAAAGTTCTCTTTTCTCTCCCCACCTAATCCTCTCCCATAGCCTAAGCACTGTCTGTATTTTCACTATCACAGATG
CACCCATAAAATGCCTAAGCCAGAAATGAGCACATGACCCGTCATTGCCCAGGAAGTAGGTCTTTCACTCTCCCTCTGCCTCTTGGCCAAGGCAGAGAGG
GTCTCCCTAGCTGAATGTGCTTGGGTTTRGGAGCTCTTCCTATTACTCTGGGAAGATTTCTCTCTCTCGTATCTAATTAGCTTTCTTATTGAGAGGTCAC
TTTCTTTAAATGGGAACTCTGTTCATGGGTTTCCCATGTCAGCATGAAGAGCCACTGATGGAAAGTGGTGGGGGATTCTACAGCTGCTGAGCCATCCATG
CCCATTGTCTTCAGGGGTAATTGTYGAATGACCCMCAGGTCAGGGCTCAGCCCAGCCCAGAAAGGATTGAGAAGAGGTAATTGCTGAGGAAGAAGGAGAG
CGAGTGAGGATTGGCAAGTCCAGAGCCAGATGGGGAACACTCTCAGAACAACRTCAAGCTCCTACATGTAGGAGAGAGTTGGAAATAATAGATTAGGTGG
AATTAAGATGCTATTTGACCAGGCCATAGGAATACTTGGACCCTACCTCAGGCCATCTCGTTCTAAAAAGCCCCCTAGGGAGATTTCATATRTYCTCAAT
TGCAAGATGTACTCCCTCCCCTCCTACACCCTAACCAATAGTTTAACCTTTTGGAAATCAAAACAAATCTTACTATCAACAAATGCAGTTTATGCTGTGT
TTTTCTTTCTCTCTTTTTCCCAAAAAGCCCTAATTAAATTGACGACACATGTTATTATTGATGGCGTGCTTGAATCAAGAAAATATAGTATATGTACAAA
GAATGGCGCTGGCAAAAAACAAAAACAAACAAACAAAAAAAAACCTTGATTACTAGGTAAAGCTGTGGCTCCAAATGCTCTAGCAAGCTGGCTAGATGCC
AATGAGAATGTCTTTAGCCTACTTCCATGATTTTTCTGTATGAGAGAAGGCCTACTCAAATAAATTTTAACACGAAAGGGAATCTATTGGCTTAAGTTCC
AGGGAAATCCAAAGGGTGGCGGGTGTGGCCTCAGGAACAGCTGGATCCAGTGTCACTGGGACCTCATTCATCTCTCAGTCCTGTTTTTTCTCTTTTATGT
GGCAACAAGATGGCTTCTGGGAGCTTTGGATTCACATGATCCTAGAGAAAGAGAGAGATTATATTTCCCCAGACATCTGCAGATCTAAAGTCATGGAAGA
AGTGTTTTTGGCTGTACTCAGGTTGTGTGCCACACCTCAAGAGAAATCCCAGCGGACTAAGGGATGGGGTGTCATATTGGCTGGTCTCCTGGGGCTAGAG
GGCAGGTAGGCATTGTGATTTGATTGAGAGTCTGCACAGAGCCACATGGGATGGGGGCAGGGCAGTTCTCCAATGGGAAGAGAAATGCTGGACAAATAAA
AGCAACAGCTGTCCACTCTTGGATCAGCCTGAAAGGCCTCGGACCAAGACTTCTTCCATSTAAAGCTCAATCTGAGACTTGACTTTTACCACTTCTGTTT
GAGGAAAGGCCAGTCTAGACTAGACCATTGGAATGACAGAGGACAAGGAGAGGAAGAGGCAGGGTGTGGTGCCTGGATGGTGCAGTAGAGTCCCTCCAGG
GTGTTGGCCTCTGGACATGTCCCCACCAAGGGGATATGAGAAGAAGCAAAACAGCCAGAGAGGCTTAGAGCAACCTAATCCATGCCAGCAAAGAAGGAAG
AAGCCAGAGAGAGACTGCATCCTCCTGTGAAGATAATGCATGGGAATGCTTAGCCCATTGCCTGGCACCCAGCGTCCAATCAATAAATGGTAGCTATTAT
TATTACCCATTAGGGATCATCCCTCAGCGCCTGCAGTCTGGGCATGATGGATGCAGGCTGTGCTTGTGTAATGGGGATTATTTATTAGTCACCTTGTAAA
AAGCAATGACAGAAAGGCGCAAAACTATGTTACCACAGAGGGATCTTATCTCATGGAAATCAAAAGCTTCTCTGTTTTTCCACTAAGAAACAAGAGCACT
TGTTCTCAGAGATTAATCCAATTCCACTGTAAAGACCTCAAGGGGAAGGAGGAGATGTAATTCAAACAGATTTCAGCACTGCTTTTGGGATAATACTCCT
CCAGCTCCTAAGTACCTGGGACTTGGGCATGGATGGGAGGGAGGGAGGGGAATGGGAGTTGGAGAAGGAAGGAGGGAGTTGGTGTGAAGAGGCAGGAGAG
TACCCTTGGAGCTCGCTTAGACCTTGCCTGGCCTTCTCTACTGGTTCAGGGCAAAGCCCCAGAGGTACTGTTTATGCAAATAGGTTGCTATCCAATGAGG
GAGCCTGACCCACTTTGACCACTCCCTGCAGCTGCACCTGCTTTCGGCTTCCTCTCCTGGCCCACTGCAGATCCAGGGCTCATTTTACAAAACTTGGGCC
CATTACCCATTGCCATTTAATTACAAATACTGTTTGCAAACCACTTTAAATTTTTTTTTTAATTTATCTTTTCCATTAACAGATGTAGCAAGAGTATATT
TATGTGGCAATGCTTATACAACAATTCAGAGTGGCCACTAAATCCCCATGTGTGGGCTTAGGCCTTTTGTTAATTATTTGTTTCACAACAACTCTGCCTG
AAAACAATCAGCAATGGCTCCCCAAARAACATGGGAAAATTTAAAATTTATGTGGTTAATAGGAGGCAGCATACAAATCACTTCTAATTAGCATGCAACG
AGACTTTGTGGCCACCCTGAATATTAACATTGATTAAGCACTTAAGTCGCCCCAACCCCTCATAATAATTTTTTTGCATATACCCCACAACTATCCTCAG
AGGTAGCTGTTATTAACTATTATGTGCCCATTTTACAGGTGAGAAACTGAGGCACCAGGAGAGTAATAGTCTGGGGGAGTGTTGAACCCAGAACTTCAGA
ACTAGGCCCTGCCATTGTCACAAGACAAGGCCTCCTGGTAGAAGCCACCTAGTCAGCTTGTAAACAGGAATTATGATTTAATTTTTWAAAATGACCCATG
TCTATTTTAAGCATTCAAGCAATACAGTAAGAATATAAATATGAGATATTTTATAATCACTACTCACAATTCAACATTCCAGAAGTAGAGCATTGTTAAG
GTTTTCAGGGCATCACCCTTGACATCTAGCTATCTAGAGGGATAACAAACTAATGCTAATGCTGGAAAGACAGATTTTTCAAGAAAACAAAGTGAGCTTG
CTACATACCCACCATTTTATTTTTACTTTTCAAAATTTTACTTAAATTCGACAGATGGAAAAAAAAACAAAGGTTGAAGGAATCATTAAACTTCAGATCA
TTAGACATTAGCTCCTCAAATATACCTCTGAAGCTAAGACCAAGTTCAAACAGCATGTTAAGAAGTTGCAGTCATTATTATCCTTTTTATTATTATTATT
TTTGCAGCATTTATTAACCACCCCTGCATTGAAGAGGAGGAGGTTAGCGCATGTATATTTGTTCTTATTTCCATAAACTCCCTTTCCTGGTTTAAATTCT
TTTTAATTTGGCAAGATCTATAACATTTATATTCCATTCTGTACAATCCTCAGGGTTGTGTAATCTTAGTTCCATATTTAATAGGATTTAACACTCACCA
CCAATTTTCTTGCCATACATTTTACATTCCAAGTGTTGTATTTTGATTGATTTCTTCATTTGCCAGAGTCCACTGTCAKATACTTCTTACAAGAAAGGTT
CATGGGTGTTGTATTCCCTGAATTCATGCTCGTGAATGTCCACCTGTTGTCTAAATATGTAAATGACAACTTCAATGAGTATACACCTCTTAAGCTGCAG
TTCTCCTCGGAGCTCGAATGGCTTGATTGGAGGCCAACCAGACTTATTTCTCTCTTGTTTAGCTTGGTGTTTCTGCCTAGATGTCCATATGATTCATTCT
TTTCCCTTGAAATGTAGTATCTTCACCAGAATACATCTTTAAGGTGATTGCTATATATAAAATTTTTGGAGACCTCATGTGCTCTTTTGATCTTGAAATT
CAACTTTCACTATTTCAGGGATGTTTTTGTCGATTATATCTTTGTATGTTTTTCTCTATGGATATGTTGAATTTCTTTTGTCAATATTCCCTATCTGTGA
TCTTCCATATAATCATGTTTATATATTTGATCTTTTCCATGTATTTATTTAATTTTCCCAAGTTTGCTTGCCAAGTTCATGAGTTGAGTTTTCAGATATG
TTTAATTCATTCCTCCTTCTCCTTTTCCTCCTCTTTTCTCTCCCTCCTCTTCCTCCTCCTCCTCTCCCTCCTCTTTTTCCTCCTCCCCTTCTTCCTCCTT
CCCCTTTCTCCTTCTCCCCTCCTTCCTCCTCCTCTTTCTACTCCCTTTCCTCCTCCACCTCCCCTTCTACCTCCTCTCTCTTCTCTTCCTGTTTTAGCTG
TTTTCAGTGTGGTACTTCTTTTTCTTTCCCAGCTCATCTTTCATGGTTTTYGCTTATCTTACAATTTTTCTTTTAGGTCCTTGAAACTTTTCTTTGAATT
CCTTTTTAAAAACTCTGCAATTTCTTTGAGATTAGACAACAGTGGTTTTCTGAATTCATCTTGCTTCCTTTGACAATTCCCTCTGAGGTCTATGTGTTCC
ATAGCCTTTTACTTTATTCATTTCTTCCTTTCTTATTTTGTTTGTTTATTTTGTAATTTCTATGACACTTCTCTGGCTAGTTCCCTACTAATTATCTCTC
CCTTTTTTTGAGTTGGACCAAATATTTGCCAAAGAATAGTGTGCAGAACTCTGGGGCCTGGGAAAGGGGATTATGAACCGAGCGGTTCTGCATTGCCGGT
ATGGTTTTGTGGTCCATTTGTCCTCTCACCAGATCCGGCATTTCTCTTTGCTCTGTGCCAAAGCTGCTGCGTGTGGTGGTTTGGGGATGGATGTCTCATT
TGTCCACTGCCTTACTCTGCAGCCTCTCTAGGACAGAGACAGGGCCGTCCATCATTCGGGTGAAAAGGCACATGGTCTCTCCTTCAGTCTCCTCACATTC
CTTCCTGCTTGAAATGCTGAAGAGGTTTCCGCGGGACACTCCCATGGCTGGTCCACATTCCCACATCTTGTCACTTTCATCAAAAAGTTTATTGAAGTCC
TTTTGAGGACTGAGATACTTTGTTTTAAGAAAATTTCGCTGAAGGTCTGAGGATTACTGTGTAGACTGTCAACACTTCTTGTTTAGATTCACGTTTCTCA
GTATTTGGCAAATATGCCTAATGGTTTGTGGTCAAGACCCATTTCCTTGTTTCCCTAAAGATACAGTTTCTACTCCTCTGTATTTTTGTTCTTGTTGTCA
GTGGATTTCAAGAGAGATTAAAAAATGTAAAWACCTTCACTGGACATCTTTAAAAAGAAATCTCCCTTTTCAGTGTTGTTTAATAGTTATACAGAATTCC
ACTATGCAAATATAGTAACATTTACTAAAATTCTCTCTTGAAGGACATTAATGCTATTTCCTTTTCTTCTTCTTTTTTTTGAGTATAAACAAGGCTATGA
TGAATATCTTGGAGTGTRTGTCCAGTTATCCTCATCATATTTTAAAGAACTGGGGAAAAGCCTTAGAGAGGTTCAAGGATTTGCCCAGGGCCAAGAATCT
AGTTTCTGGTTAGGCATGGCAGCTTATGTATCTGTAATCCTAGCACTTTGAATGACTRTGGCAAGAGGATCACTTGGGCCCAGGAGTTTGAGACCAGACT
GGGCAATATAATGAGACCCTGTCTACCAAAAAAAAAAATTAGCTGGGTGAGGTGGTGCATGCATGCGGTCCCAACTACTCAGGAGGCTGAGGCAAGAGGA
TCCCTTGAGCCCAGGAGTTAAAGGCTGCAGTAAGTGAGCTATGATCTCGCTACTGCACTTCAGCCTGGATGACAGAATGAGACCCTATCTCAAAAAAATA
GCAAAATAAAAAAAAATTTTTAAAAAGTATCTAGTTACCATACACCTGGATGCAAGCTCAACCTTGAGACATCCGTTTCAAAGCTGTCCAGCCTGCCACA
GCCCTGCCTCTYTGTTCATCTCAGGGAAGACCCTTCCCACTGCCCGTCCTCTCCAATTTTATTGCCTCCTCCTCTGGCATTGCAGTCTTGTAGATTTAGC
CCCTATTCTCAAAGGGATTAACTGTAAGAGGATTTCTATGCAGCTTTTCTCCTGGATTCACACAAAAGGACTTAGATAAGTCTTGGCTTATGGGGCCTTA
ATGGGCTGTTAGGGGAAAGTGGAACATCTGGGGCCACTCAAACCAGAAGGAGGCATCAGAGAGGCTGGCCATACCTGGGGAGGACCTTCCAAAGCCTCTT
CTTCAATGTCCTTATTAAGGACAGAATCCGGGAGCCTGGGCTGTTTATGCAACCCAGATATTTAGACTTCCTAAGTTGAGGATMRACTCTYTGGGGGCAT
CCACACATCAACTACAAATAATTAAGTATCTAACAGGTAGCCAGAGCCAGCTTCATAGATATCTGACCTATGCAGTCATACAGGGCCCTGCTCAGGGAAG
AACCCTGAGCTTGGTTTAATGCTCTTCTGTTGACCTCTTGAAATTAATAATCATATTTTAACCAGGGGCCCTGCCTTTTCATTGTGTACTAGATGCTGAT
TACGTAGCTGGTCCTCCATGTACCAGACACAACACCAGGCTCTTTCACCTGTGCCAGCTGAGGCTGCCACAGGGAGAAGCAGAGAACTGGATCTGAGGGC
TGCYAGGCTAGGAGTCTACAGATCTGCAGGCTGCAGTCTGAGCAGCGTTGCGTGAGAAAAGCAGCAAAGTTAACGAAGCTGGGCAGACAGAAGGACACCT
GGACAAGGTGACTGTCCTCTGGGCCTATAGCCACAACTGGTCCTACTACAGACTGGTCATTTTGCATGTACGTGAGCTGGAGATCTTAGTCTGTTTTCTG
TTGTTTATAACAGAGTACCTGAAACTGGGAAATTTATTTAAAAAGGAATGGAGGCTGAGTTATGGAGGCTGAGAAATCCAAGGACTAGGGGCCACATCTG
ATGAGGGCTTTTTTGCTGGTGGGGACTCTGCAGAGTCCAGAGGAGATGCAGGGCACCATCCAGCACAGAGCAAGAGACCTGAGCATTCTAATGTGCTAGC
TGAGGTCTCTCTTAATTTTCTTRTAAAGCCACCAGTTCCTTTCCCATGCTTGCCTATTAATCCATTAACCCATTAGCCCATTAATCCGTGAATGGATTAA
TCCATTCATGAGGACAGAGCCTCATGACCTAATCGCCTTTTGAAGGCCACACCTCTCAATACTGCCACATTGGGGATTAAATTTCAACATGAATTGTAAA
GGCAACAAATATTCAAAATCATAACAGGGTCCTTGGTCTGCACCTCAGGGGCAGAGGAGATGCCCATCCTATCTTGCTGGACTGCACCCTGATGACAGAG
GCTTCGAGAAAAGAAGGCATTCCTTAGATTGCCACTACATTTTTCTCCCAKCACTAGTCACATTACTGAAGCAAAGGAGCCCAGTTCCAGTAAATATGCA
GACAGATCCTYGCATTTCATCCTAGCTAACTGTGGTGGGAAGATGGCCTCCTTCTTTCTCCCCTCCAACTCTCTCTTTCTCTCTTTTCTTTCTTCTGTTT
TATTAGCTGCACACAAAAAAAAGATTTTTATTACTCAAATGAGCTCTCAGCACGTTTGTTAATATACTCCTAATGGGTTTTAAGACCTAAAAGCAACAGC
ATGGGTCACCGTTTGCCTGCTCAGCAAGAATTTGCCTGGTGGGAGGGTGGGACTGAGAGAGGGGAGGAAGACAGGGAACAGGAGCTACCTCTGTTGGCCA
GGCCCACCATGCAAATGAGCTGGGATGCRGTCCCAACATATTAAATGGATCAGAGCAGCTTCTCATTCACATGTGCAAATTAGATTAATCAGACCAGATG
CAGAAAGAGGAGAATAATAATGCCGTTACTAAGGACACGCAGGCACCCGCAGGGACCCGCAGGAGACATACCTGGACTGAGAATCATATTTGGACACCGA
GTCATGACCTGGCTTCTCTCACTGAGCCATTCCACTGGGGCCAAATCTGCCACATGATCCCAGCCTCTGCAGCTCTCCAAGTCCTTCCTGTTGGGCCCAG
CCTGCCCAGGCAGCTTCCAAGGCATCGATGAGCAGGGAAACCGACTCTCGTTTCTTCATAGCCCCTTTGGTGCCTAGGTCTGAGCCCTGCAGAGAGGCTG
GGTGTCAGAGTGATTCAGTGTGGCCTGAGGGTTGAGAACACAAAACCCAGTATGTGATGAACTGACATGGTCCTTACCCATTGTATGACCTTGAGAAAGT
GACTTGAACTTCAGTTTCTGCATGTGCAGAATAATTCTCTCAAAGGATTATTCTGCAGGTTAAATGAGATAATATGTGCAAAGAACTGTGCCAGATGCAA
TAAATATTATCTATTATTGTCTTTCTTCTTCCGGTCCCTTTTTTCTCCTTTCTGCTTACCTTCCTGCCTTTCTCTCTGCTTTCCCCTCTCCCTCCCTCCC
CTTCCTCTTCCTCCCGCCCTTTTCTCCTTCCTTTCCTCCCTTCCTTCCTTTTTCTTTTCTGCTTCGTAGAATCGGTTCCAGTTTTCTATAAGTTGATTCA
TAGAACTGATTCCATGATTTATCTAATTTGATCTTCCAGGAGAGGCACACAAGTCCAGAGATGGTGGTGTCCTTTGGATGCCCCAGCTGCCTGCCTAGAG
GGGTGGCCCCTTGAGTGAGCAACCCTTTCCTTCCAGTCCATGCAAGCTCCTGGGTCTCCTTCCTCAGGGCTTGGCTCAGTCCTCTTGTCTGCCCAGCTCT
CAGTAGCTTCAGGATGAGTAGGACTTGCTGCCAAGACATTCTGTTTGTTCCCTGCGTGTTGTGCCCTGACAGCTGATATATGCAGAATCCACACACCTGT
GCCAAGGCTGGTAGGCAAAGAGGTTTTCGTGGAAAAGCCAGGGCGGAGGGATTCAAAGCTTGACCGAGTATGGCTTGTCATCATCCTCTGACACTTTTTC
ATCCCTCTCCGAGTTTTATTTTGGTGGACACTGTGTGTCCAGGATTGGGGCAGAAGGAAAGTGTGGCAGATCCAGCCAGAGGGCRTGGTGATTGCATATT
GCTCTGATTACCAGTGAGGTTGCGCATCTTTTCATGTTTATTGGCCATTTATATTTCCTTTGCTGTGAATTTTCTGTCCATATCCTTTGCCCATTTTCAT
AGGTCATTTGAATTTCTTTTCCTTTTTTCAGTAATTTGCAGGAGGTCTGAATAATATTAGGACATTTGTTCTTTGTTTGTTGTGTCTATTGTGCAAATTT
TCTTTTAGTTGGCTGCTTGTCCCTACCTTGTCAATTGTATTTCCCACAAAGTGACCTCAGCGAGGGGTGCATCAGCACCAGGGTGTGCACATCAGTAAAG
AYAGTTGGAGTCACACCTGGGAATAATATCCATCAGGTGCATATCAACAGAAAAATCTAGATGAACCACTGCTCCCGGTTACTGAATATGAACACAACTG
GACTTTGGAATTTTAAAAGTGTTGCTTTTCCTATTCGCGATAAGTCCATTTCTTTCCTGGGTGAAAAGAGAGCAGAGATATGGTAAACTCTCATAGCTCT
GCTGTAGCTGGAAGCTGAATTTGAACAAACTCATGAGGGGGTGGTTCAGAAGTGGGGACTGGTGAGATAGCTGCCATGTTTTTCTGTCTCCTGAGAGCTG
AGCAGGATCTCAGACCTTTGGAGGAATCGAAGTTTTGCACAAGCCCTGGGTCTTGACCCAGAGGCCGGTTGCAGAGACCATATCCCAGAAGCAGGAGGCC
AGACTGGCTTTTGATCCTAGATTGCTGGGCTGGTAACAAGTGGAGTCCAAAAAGACAAGGTCCGATGTCCCAGAGCTTAGCCCTGAAGCCACTAGGCCCT
GTTGAATCATCTACTTGGCAGCCTCTGATGGTGACAGTGTMGTAGTCCTGCAGCTGAGGGCTTAACTTGGGTGAGTCCAACTTTGGTAAAGCCAAAGACC
CCAYGTGCATATACAACTGGGACTTGTCATTTTGTGAGAAGCGAAGACAGCAGAGTCGTCCAAGTGTGGACTTCGTTGGAGTCTTGCTGGATCCACTTGT
GGATAATTTACACTCTTGGAGAACCTTTCTTCTCTTTCTCTTCATCACTGGAAACATTTGCAAAGAACCCATTGGGTTCAGGACTGATGAGAGCTCATGG
AAAACACTTCTTTTTTTTTTTTTTCTTTTCTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCAGGCTGGAGTGCGGTGGGGCGATCTTGGCTCACTGCAA
CATCTGACTTCCTGGTTCAAGCGATTCTTCTGCCTCAGTCTCCTGAGTAGCTGAGATTACAGACATGCACCACCACACCCAGCTAATTTTTGTATTTTTA
GTAGAGATGGGGTTTCACTGTGTTGGCCAGGCTGGTATCGATCTCCTGACCTCGTGATCCACCCAACTCGGCCTCCCAAAGTGCTGGGATTACAGACATG
AGCCACCGTGCCCGGTGGAAATACTGCTTAGCTACGTAAACCAACTGATCTATGAATGAGGCCAATGAGATTAGATTCCTGGGCCCATCAGTGTTTGAGA
AGTAGAAGTGGGTTTAGGGAAGTGGTTCTAGGGTGAAGGGCATTTTAACTAAGAACTAACTAAATTCCTTTTTTTTAAGATGAATATTTATGGAATATCT
ACCATGTGCTGGGTACTGAGTTGRGCTCTGGAAATATAATGAAAAACAAAAATAAGTACAATCCTTCCTTTCATGGATCTTAAAGGAGAGAGTAGGAGAC
AGACATTAATCAAGGAGCCCCTAAACATATGTAAAAGACAACTGTGAAAACGGCCATCCATGGTGCTGTGAGCRTGGGATTGGGAGAGCTGGCCTAGTGG
GAGGCAGTGGTCACTCAGCTAGCTCTGGAGGAAGAGGGGACTCATCAGGGGGAAGACAGGCCTTCCCAGCTCAATGAAATTTGCCTGCCTGTCACTCATT
CTCCCTTCTTCCTCTCGCTCACCTACCCCACTCCCATAACCCAAAGCATACCCSCTGGATCCAATGGATTATTATGTCCTATTTATTCTACCTCTGAAAA
ATCCCTCAAATTTAACCACCCTTTTCAGATCTCCCTACTGGCTCTGCCTCAATTATCTTTTTATCTCTCCCCTAGATTCCTTTAAGGGTATCCTCACTGT
TATATTGCCCTCCAGTGTCTCCCTTCACTAATTCACACATCCTGGAGTCAAACAATTGTCTCCACCCATGGGCAAAAGCCTTCTTAACAGAACGTGACCT
TTTTCATTTAACCCATTCACATTTAGAGGTGGTTATAAGCTAGACACATTGGACTTACTAGAAAGAAAGGGCTAGATTTATTGGAAGGGGTAGCCTTTGA
GCCGTACAAAGAAGAATGGATATGGAGATAAGGTGCGGGCAGGGGAGGCCACTGCAAACAAGCAAAAGAGTGGTGGTAAATATTTCCAAGGGGGTCTAGG
AGAGTGAGTTTTGAGAGAAAGCAACTGGGTGGGGCAGCCAGGAGGGGGACTTCCAAGGAAGTGTTTCCTTAATGTGATAGGAATAGATAGAAACTAGATA
GTATAGAGTTATGAATTATGAGAGACATAGGCAAAGGAATGCATTTCTCTTTCAATATTATTGGTCATGAGAGCAAAGCAAGATGGTGGCTGGAGGTAGA
AGTAGCAAAGGAAAAAAGAAGTGACGAGAGAGAGAGGGAGAGGCTGGCTGAGGGTGTAGAAGTGTGGACTTGCTGATAGAGAAGGGCCCAGGAGACACAG
AGTGGGCAGAGGCGGCTGAGATGGGGTCGAGAACACAAGTCCGAGGACTCCCAAAGAGAGAAGCCCTTCTTGAGAGAAAAGGCAAGTGGAAATCAGTGGC
ATTAGTGGAATGAGATGGACAGAAGCAAGGTGAGGGAGGGAGCCAGTGTGACCTGTTGTGGTTCTGTAAACCAAGTTTTTAAATAATAAAAATAAATGTT
AATAGTATATTTTGCTATAAAATTTTCAGACAATGCAAACTACAAACTGAGGGTCCCCCTTCACCAGCCCTCTCCTGCCTTCCCCTCTCAGAGGTTTATA
GGGTTCATGGATTGATGCGTAACCTTCCAGGTTCTTTTCTATACATTCACAGCACTGTAAATRTATCTAGATAGAGATATATACATAGACACAGACATAT
ACATATATAGAGACACATACATGTGCACACAATACACATATACATATGCAGACACAGTCATACTTTTTTACATAAGTGGGACAATACAAGATGTACTATT
CTGAAACTTGCTTTTTTTCATGTCATATGTCTTTAGAGCTCTTTCTCTATTCATATTCATTCTTCCTGGTGGATCTATGGATCTCTGTGCCATGAGTTAT
CTAACTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCACGGCTCACTGCAAGCTCTGCCTCCCGG
GTTCACACCATTCTCCTGCCTCAGCCTCCTGAGCAGCCAGAACCACAGGCGCCCACCACCACGCCCGGCTAATTTTTTTTTTTATTTTTATTTTTAGTAG
AGACAGGGTTTCACCATGCTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTAGCCA
CCTCACCTGGCCGAGTCCTGTACCTTCAATTGGAACATCTGGGAACCTGATTCCAGGTGGCTCCTGATACACAGCCCTTGAATGTTTAGGGTTCCAGAGA
ACACTGAAACCTTTTAGTTTACCGCTGTACATCCTACATGAACTTGAAAGTGTGGGCTATATAAATTGGTGAATAATCATTGCCACATAAATATACTCTT
GCTACATCTGTTAATGGAAAAGATAAATTAAAAAAAAAATTTAAAGTGGTTTGCAAACAGTATTTGTAATTAAATGGCAATGGGTAATGGGCCCAAGTTT
TGTAAAATGAGCCCTGGATCTGCAGTGGGCCAGGAGAGGAAGCCGAAAGCAGGTGCAGCTGCAGGGAGTGGTCAAAGTGGGTCAGGCTCCCTCATTGGAT
AGCAACCTATTTGCATAAACAGTACCTCTGGGGCTTTGCCCTGAACCAGTAGAGAAGGCCAGGCAAGGTCTAAGCGAGCTCCAAGGGTACTCTCCTGCCT
CTTCACACCAACTCCCTCCTTCCTTCTCCAACTCCCATTCCCCTCCCTCCCTCCCATCCATGCCCAAGTCCCAGGTACTTAGGAGCTGGAGGAGTATTAT
CCCAAAAGCAGTGCTGAAATCTGTTTGAATTACATCTCCTCCTTCCCCTTGAGGTCTTTACAGTGGAATTGGATTAATCTCTGNNNNNNNNNNNNNNNNN
NNNTGGGTGCATTGCTTGAGCCCAGGAGTTCAAGAACAGCCTGGGCAACATGGCAAAACCTCATCTCTACTAAAAATACAAAGAAGTAGAAGGGCATGGT
GAGCCTGGTGAACATGGTGGCGCACGCCTATAGTCCCAGCTACCCAGGAGGCTGAGGTGGGAGGTCGAGGCTTCAGTGRGCCGTACTGTCATGAGTACCA
TCATCAATGCACTTTTATGAGCTTATATACGAATGTCTGTCAGATGGAAAGTGAGGAGTGGAATTTTTGCATCAAAGACTATGTGGGCTGTAATTTTGTT
ATTGTGAGACTGTCTTCTCCAAAGCTTGTTTACACTCCCACTAACCACCTGGGTTGATTCCCCTACCCTCTCCCAACATTAGATTTTATCAGGCTTTTTC
ATTTCTGCCAATCTGATTGTCAAATAATGCTATCTCATTGTTTTGATTTGCATTTTCCTGATTAGCAACACGGTGCCTCTTTTCATATACTTATCCTCCA
TTTGTGTTTGTGATTTTTTTTTCAAGTGGATTACCTGTTCATATCTCCTGCCCATTTTTTTTCTGTTGGGTATTTGCTTTTTTTTTATTGACTTGGACCA
CTTAATATATTCTTGGTATCACTGTGTTGTCCATTATATATGTTATGGCTGTCTTTTCCTACTCTGTAATTTGTATTTTAAGTTTGTTTTGAGGCCTATT
TTATTGAGTCAGAGACAGATAGCTTAAATGACTTGCCCAAGGTCCCTCTGCCTAGAGCTGTTTTCTGACTCCCCGTGGTGTTTCACCAGATCCAGTATTC
CTCTGCAGAACAGCAAGACCGTGTCTTCCTTTGGCTCCCTTTCAGGGGGATTTTTTAATTGCATGCACTCCTGGAGTAAGCTGACTTTGATCCTGTTGCA
AAGCTGGCTGAGGCAGGGAAACCTATGACTATGGCTGTTGCTGGGTTCTACTCCACCTGTTCCATTTCTCTTCTCAATTTCGATGGAAGAATTTCCAAGA
TTTTCTAGCCCACACTTTCAAGTTCATGTAGGATGTACAGCGGTAAACTAAAAGGTTTCAGTGTTCTCTGGAACCCTAAAGATTCAAGGACTGTGTATCA
GGAGCCACCTGGAATCAGGTTGCCAGATGTTCCAATTGGAARTACAGGACACAGCCATRGGAGGTGGCTGATGCCTGTAATCCCAGCACTTTGGGAGGCT
GAGGCAGGAGGATTGCTTGAGGCCAGGAGTTYCATGCCAGCTGGGAAAACATAGCAAGACCCTGTCTCTACAAAAAATGAAAAATATCARCCAGACATGG
TGGGGAGTGCCTGTAGTCCTAGCTACTTGGGAGGATCGCTTAAGCCCAGGAGTTCTAGGCTGCAGTGATCTAAGATTATGCCTCTGTACTCCAGTCTGGG
CAACAGACAGAGGCCCTGTCTCTAAAAAAGAGGAAAAAAAAAAAAACCCAAAACACCCAGTTAAGTTTGATTTTCACATAAATAACAAACACTATTTTAC
CATAAATATGTCCCATACRATATTCTATTATAAGTATGACCCATGCAATATTTACTTACACTAAAACATTATTCATTTTTATCCAAAATCAGATTTAGCT
GGGATTGTATATTTTATCTGGCAACCCTAATCTGGAGGAGACAGGAAAGGGTAGGAGGYAACTGGGTGAGCTCAGTAGGCTCACCCCTGGCCTCAACCTA
AGGCTGGCACTGTTTAAATGTCTTAGATTTTTAGATTTAAGAATGTAAGGTACGAAGAGATCAAGTGACTTGGCAGAGCTGAAGTTTGGATCAAGATAGG
TCTGATAGAAGAGCCCATTGTTTTTCCCAAGTCCCTTGARTTTGGGGTGACTGATTCTCCTCTTCATAGCCTCTCCCCAGGGTGTGGAAGAGACAGCCCC
AGAGCAGCAAAGAGTGTGAGGAGATAGGCCTATCAGAACCGGGCTTTCCAYGTGCAGAAAGTGTGGGGTGAGGGGAGAGTAATGTGTTTCGTGCAACACT
CTCATCACCTTAAATGGGGTGAATCCTCATTAATTCCAATTAAATAACTGTTTAATTGGTTCTAACTCCATTTCCAGGAGTGAGCTCACAGCCCATGAAT
AGATCTTTGGACTTCTGACTACTACATATCTTACATTACTACTACATCCTATCACTTTTTTTGATACCTAGTCTAAATTTTTTTTTGAAATGGAATTTCA
CTCTTGTCGTCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACATCCGCCTCCCAGGTTCAGGTGATTCTCCTGCCTCAGCCTCCTGAGTAG
TTGAGATTACAGGCGCAGGCCACCATGCCAGGCTAATTTTTTGTATTTGTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAATGCCGGA
CCTCAGGTGATCTGCCAGCCTCAGCCTCCCAAAGTCTTTTTTAAATCACTCTTATTGATATGTAATTAATATACARTAAAATACACCATTTTGGAGTGTA
CAGTTTGGTGCGTTTTCACAAGTTCATGCATCCATCTAGCTACCACCACAATCAAGACATAAACATCTCCATCRCCCCCAAAAGTTTCTTTGTGCCGGTT
CTTAGTCATTCTCCTCCCATCCCTGACCGCAGGTAACTGATCTGCTTTCTGTCACGTCAGATTAGATTTGTCTTTCCTAGAGTTTCACATAGCAAAATCG
TACAGTGTAATCATACAATATATACTCTTGTGTCTGACTTTTTTCAGTATAACAGTGATGAGATTAGTTCATGTGTTGTCATGTGTATCAGGAGTTCATT
CATTTTTTTTACTGCTGAAAACTATTCAGTTTTATTAATATACCATAATTTCTTTATCCATCCAAATATCCTTTTGGTGAAAGTTTGGGTCATTGGTTTG
GGGTCATTATAAGTAAACCTGCTGTGAATGAACATTGAAATATAAGTCTTTGTGTGATTATATGTTTCATTTCCTCTGGGTAAATTCTTAGGAATGAAAT
TACTAGGTTGTGTGGTAAGTGTATGTTTACATAAAATACTGCTCAACTGTTTTCCAAAGTAGTTATACCATTTTGCATTCCCATCAGCCATGTATGGTGG
ACATGCCCTTGCTGAAACTTGGTATCTTTATTCTTTTACATTGTAACCATTCTAATGGGTATGTGGTGGTATCTCATTGTGGTTTTAATTTTCATTTCCC
TGATGGCTAATGAGGATAAACATTTTTTCACCTGTTTATTGACCATTTGGAAATCATCTATTCAAGTTTCTGCCCATTTTTAAATTGAATTATTTGTCTT
ATTAGTGAGTTATAAGATTACATATATATGTGTGTTTTATTTCTATATAATTCATATATATTAATATACTATAATTTGTTTATGCATCCAWATATATATA
TATATATATATATATATATATRTATATATATGGAGAGAGAGAGAGATTTTTACCTGTCCCAAAGCCATGAAGGTTTTCTCTTGTTTTCTTCTGGAAGTGT
TATAGWTCTAGCTTGTATATACACTCAGTTGTATGATTCCTTTTGTGTTAATATTTGTGTATGGGGTGAAGTGAGAGTTGAGGTTCATTTTTTCCCTGTG
TGAATATTCAGTTGTTCTAGCATCATTGGTTGAAAAGGCTATTAGCAGATCGTATTTTGAATAAGATGCCGATACAACATGATTGATTCCCTATCAGCAT
CCCCTCCTTGTCTTAGTATTTTTTTTTTCCATCAACAAGTATTTGTTGAGTTTCTGTGACWTGTCAGGTGTTGTTTTAATTGCTGGGCATCAGTCCTGAA
TAAAGTGGAACAAGTCCCTGCTCTCATGGAGACCGTGGCTTAGCCACAGGAGACAACAACTTAACCCAAAATAATAATAGTAGACCTGGCCCTAGAAAGA
TAACTAAAATAGGGTTAGGAAACAGAGAGTGGCAGGACATTCCAGAATGAAACAGAGAGGGCAACATTTCTAAGAAGACAGCGTTTGAGCAGAGACCTGC
AGGGTGGGGGATGTGAGGGCCTGGCTCTCTGCAGATGGGCTGTTAAGGGGACAGACTGATTGCCAGAGCCTCCCATTCCCAGCCCAGCTTCTCAGACACT
CCCTTAGGGGTCTACAGTTGTGACAAGGGCCCTCTGCAGAGCTCATGTGCCATCACATGTCACTCGGGTCTCCTCCATGTCCTGGCTACTCCAGCCACTG
CTCACAAAGCTGCATCTGACAGCAGGGAGTGACTTTCGCAGATTTCACTCCTTCATTCATTTCTTTAATTAAAAGGTATGTATTAAGCCCAGTAAGTGTG
CTTGGCACTGCGCTAGACTCTGGGGAGACAGAGATGAACAAATGAATGGACCTGAGTTACGGCTTCAGCAGGAGCCAGCTCAAGAAAAGTCTTAAATGCA
CTTGGTACATGAAGTGTTTGCTCTGCAGACAGGAGAGCTCCATGAATGGCTAAAGCTACTGGATTTGGGGGAGTGAGGAATGGGAGACAAGGAGAGTTTA
TCCTAGGAGACTGTTGCAATAGGTCGGGTGAGATATGATGCAGGTGTGAATTAAAGCAGTGGAGATGTGGGGGCTGGGAGAAAGAATGTTGGATGATCCA
GGTTTCTAACTTGAACACAGGGGCATGGTGGTGCTACTGATTTTAGGGGACACAGGAGGAAGAGCAGGTCTGGAATAGGTGAGTGCATGGGTAAAGTGAT
GAAGAGTCTGTTTGGAGGCACGGCAAGGGTGAGGTGCTCCTGGTAGAAATGTCTAGGACTTAATTTCACTTGAAGGTCTGAAGCTCATGAAGGAGATCTG
GGTGGGAGGTCAAGCCTTGCAATTTATCCACAGAGGAATTATAATTGACAGCAGAGATGGAAGAGATGCTCCTGGGAGGTATCTAAACAAATACTTGCTC
TGTGTCAGACTTTTGCCTGGCGTGCTACTAAATGTTTAATATACTGGTTAGGACATTGAGTTCTGATGCCCAACTCCCTGGGTTAAAACTTTAGCAGTAG
CACTTGCGAGCAGGGTGACCTTGGGCAAGTCAACTCAACTCTATATTCCTCTGCTAAATGTTGATAGTAATAAATTTACCTTCTGGGGTATTATGCGGAT
TAAATTATCTGGTATGTGTATAGCACATAGAATAGTGTAATACCATGTGATTGGTAAATGTTAGTTGATCCTAATATCCTTTAACATACCTATAGCATAG
GGGGTATCATTACTTGTTTTATAGATAAGGGAATTGTCCAAGGTTATGGAATTAGGTAGTGGAAGAACAAGGACTTGAATGCAGGCCTGTGTGTCTCCAG
AGTCTACCATTCAAGGCTGTCTTCTACTGGGGGATAAAGGTCTGTGCATTCATTGGCTACTTGATGAACTTAGCCCCTCTGGGCAGAGGGGTTCCAATGC
CTGGCTAAGCCCYCATCCCTGCTGTGCCATCGGCCATGGCTAGTATCTTCTACCTGCAACCTGGAGCCAGCAGACCCTGCAGCCCCTCCTGCAAGCCTTA
CACACACACACGAGAAGGATGCTGCCTTTCTCACCTCCTCCAGATGCTTGCACCTACTGTGCCACATTGCAATCAGGGGCTGCATGTCCGTGCCTTGGTC
CCAGAACAGAGGAGGAAAGGAGCCCTGGAGTCCATGCTGACAGAGRTCTGTTTACCTTCATGCCCAGTGCCCTGAGTTACGCTCCAGGTGTCCCATTTGG
AGAAGAGAAGCTAGTCAGGAGCCCTGTCTGAGAGACTGTGGCAGCTTGGGGTTGAAGCCAGGAGAGCAGACTTGGAAGGACTTTAAGCTATTAGCAAATA
CAGCACAGACAGAGGCCAGAAGTTCTGAGAGGAACTGGGATTAGGGAACAGTCTGAGTCATGGCCTGGCAGGGAAGCATGAAGGCAGCCAGCTCTGGGGA
GGGCACTGAGAACAAGCAGGCCCAGGCTGGATGCCTGGCTCTACCTACTCGCTCTGTCACAAGATTTCATGCTTCTCTGAGCCTCAGTTTCTTCAGCTGT
AAAATGGGCATGGCAAGGATACATCCCTTCTAGGGGCAATGTGAGGACTCCTTGCTATGCCAAGGATGTTACGTGTTAGCTTCCCTTCCCTTCCCCTGCC
TACCCAAGGAGGGAGGATTTCCTGCAGAAGGCAAGCTTTCAGCAGCGCTGGAGAGGTACAGAAAGACATGGATTGAGAGAGTAGAGGTAGGAGGGTGTTG
CTGCAAGGGCCTGAGCCTTGTATCCCCAGAAGCCGGAGCTGAGTGGAAAGCTTCAAGGTGAAGGGATTATTGGGCATAAATATGTAAAGAGGAAAGGAAC
TGGCTGCTGTCATTCTAGTAATCCTGGCTGCTGCCAGCTCTGCGGCAGGCATTGGGCTGGACTGGGGTGGTGCCAAGGTGAATGAGGTGCCACCTCTGCC
CTCAAGGAGCTCCCTGGGTTGGGGCAGTCAGACTTATTAATGGAGCATCTCCATCCAGGGTGCTAACTGATGCTCAGGGGTTGGACAAGGGAAACAGCTC
AGAGCAGAGAGTGACTGCTCCTTCCACCAGAACATGAGTCGCTGTGCCCTGGCAGCCTGCGAGTGGACTGAGGCCCCATGCATTCCTCTAAGGGTGGGGC
GATCAAAGAGATTCCAGGCCTCCGCTCTATAGACTGGAGGCTTGAAAGGGAGCACAGGTTTGTACCAGCAGGACTAAGCTTGGCAGTGCACCAAGGACCT
TGACCTCCAGCCAGGGAAAACAAAGGCACAAGATCTACTGGGGAGCAGGGACTTTCACATACATTATCCTACTTAACCTCCTTAAAGTATTGAGTGTCCC
TTTTTTATCCAAAGCCAAGAGAGGTTAAACAACTTACCTAGAGACACACAGTGAGCAAGTGGCAGCACCAGGATTCACACTCGGGTACGTTTCGACTCCA
CTGGCTTGATCTTTCCTACAAGCACCCTCCAAGCCAGCCCCATGCCTTCCCAACAGATGGACCACTTCCACCTCTCTGCCAAGCCCTGCAGACGTGGCTA
CGTCCTGCCTTCCTCCAGAGGAGCCTGGGCAGCCTCAGGGCCTGGCCCACCGCAGTCCCTCCTGTCCTCCCCAGCTGCCAAACCACTAATTAGTGTGCCT
GGCATTGTTCCTCACAGTTTCCCTCTCACTCTCGCCTCCCCTAGAAAGCCTAGCTCCCAGCTAAATTTAGCTGTGACTACTTCCCAGGGAGGGGTGGGGT
GGATGGGGAAGGAAGGCTAAGTCCTGAGTTTTGAGTCTCCATAGTGAAAGGGAGACAGCCMAGGGCTCCMTCCCTCCAGGACAGCTTCCCCTCCATCGAC
CTGCTGGTGAAGCCTTGARGCTGTGGCATTGCGTTACTGCACACACTTGGCTTGAATATGATGGATTCTGAGGTCCATGTACGATAGCAATGGGAACCGT
TAACGCCACACGTCTGCCTTCATCAAAGCTGCCTTGTTTTCTTTGAGAGGTTTTATAATAAGCAATCATTACCCATTTGTGCAATACTTTTATATTAACA
TCACCTCTTTTATACACTGGGGTTCTGGGGTTCTGTGTGAGATTTCCTTCCTTCCTTCCTKCCTGCCTGCCTGCCTGCCTGCCTTCCTTCCTTCCTTCCT
TCCTTSCTCCTTCCCTCCTTCCCTCCCTCCCTTCTCCCTTTCCCTTTCCTTTCCTTTTTCTTTTGACAGGGTCTCACTCTGTCACCCAAGCTTGAATGCA
GTGGAAAAATCTCAGCTCACTGCAGCCTTCAACTTCTGGACCCAAGGGATCCTCTCACCTCAACCTCCCGAGTAGTTGGGACTAAAGATGCATGCCACCG
TATCTGGGTAATGTTTTTACTTTTTGTAAAGACAGAGTCTCGCTATGTTGCCCAGGCTGGTCTGGAACTCCTGCAATCCTTCTTCCTCCACCTCCCAAAG
CGCAGGCGTGAGCCACTGCACCCAGACCAAGATTTCTTTTGGGAGGGATTTGTTTTCTTAAAAAGCAAGTTTGGAAACCAGAGCTTCACACTTGAGTGTC
TTGCTGCTTTGAGTGTGATCTGAGAAGCAGCTGCATGGGCACCCCCTGAGAGCTTGTTAGAAATGCAGAACTCAGCCCCCACCCCACACCGAGTGAAATA
GAACCTGTTKYACTTTCAAGATCCACAAGTGATCTCTACACTGTTGAAGAAGCACTGCCTTAGTCTAAATCAGGATCACTGAGGAGCTTGTCAAAATGCA
GATTCCCTGGCTTCCTCCATGAGATTCTGACTCAGGAGTAAGGGAAGGCCCAAGCTATGTCCATTTTGTCCTTTTTTTTTTTGGTGGGGGGAGACAGAGT
CTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCCCTGCAAGCTCCGCCTCCAGGGTTCACGCCATTCTCCTGCCTCAGCCTCCYGAG
TAGCTGGGACTACAGGCATGCGCCACCACGCCTAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTTKAACTCC
TGACCTTAGGTGATCCACCTGCCTTGGCCTCCCTTGGTGCTGGGATTCCAGGCATGAGCCACTGCACCCGGCCTATGTCCATTTTTCATAACACCCCTGG
TTATGGTGCAAGTCTTTCGTCTGCCCTGAGATGTTAATGTTCACTCTCGGCTAACAGCTTCAGGGAGGCAGGCTGCCCAATACATGCACAGAAACAAGCT
TCCTCAAAACGTCTTTCTCTCCTTTACAGAGATCCTGTCCTCTGATGTCCCTGACCTCAGAGGTAGTAGGATGGGTGATGGGCTGGGGAGAAAGCATGCC
TGTGACCTGCAGCTTCACAAGTTCTCACTTTAGCCTTGACCACCGAGACATCCTTCTGCTACAGGGAGAGATAGACTAAGACAGCAGACGTTCTGTGAGA
ACCAGGTCTGTCCCCAAGAAGAGGAAGTCTTGCAGATTACAGACCAGATCTGCAAATATTCCTGCAGACTCTTTGAAATTACTTTCTACATAACCAGTCT
CCAAGGATTTGATGTCAGTTCTTTCCTCCCTTCTTGCCCGCTAGAACTTCCCACAGGGAAAAATGTTCCCAAGTAGAGAGATGCCCCAAGATAGGTGGCA
AGGAGGGGAGAGGCAGGTGATTAGACCTGCTGCATTGCCCACATCCTTGAGCATGAGGCCATAAATAAGTTCTTGGCATCTGCTAAGTGCTCAAAAAATA
ATCATCGGATATTTTTTTAAAAAGCCATCTCCCACCTGGATTGTTGCACTGCCTTCTAAGCAGCTCCCTGCCTCCAGTCTCCCTCTGCAGAGGGCCCTTG
TCATAACTGTAGACCCCTAAGGGAGTGTCTGAGAAGCTGGGCTGGCAATGGGAGGCTCTGGCAATCAGGCTCTTCCTGTAACAGCCCATCTGTAGACAGC
TGGGTCCCCACTCCCCTGATCCTGCAGGTCTCTGCTCACACCCTGCCTTCTTAGAAGTGTTGCCCTCCTCATCTCACTCCCCTTTAATTCATCCTTCTTG
GGCTCCTAGCCCTGCCATCCCTTGTTCTGAGTCCCTCAAGACTCCCTTGGACTCCTAGGGTCTGGTCCAAATGTCTTGGATGTACAAAGCCTTCACGAGC
TGGGTTCTGCCTACCCCTTCACCCACATCTTTGCCAGCCCTCCCTGTGCCCTGTGCTCCACCAAGGCCACAGTAGATCCAGCGCCTTGAGGGTGCCATGC
CCTTGCGGTCATCTCTGCCTGTGCACCTGCTGCTCCCTCTGCCAGGGATATCCTTTCCTCCACCAACTGGCAGGTCTCCTATAACCTATTCCAGGAGTCT
CTTCACAGGTCCGTCATTCATTCAGTCATTCAACATGAATTGAGTGAGTTCCTACCATGTGCCACATACTAAGCTAGAGTCTGGGGACGTACAGTGCCTG
TGATAGATTCATCAACTCATTTAAAATACTCCCAGTCCAAGAAGCTTCAGGATAACCTCTCTCCTCCCTTCCACAGTTTGCTAATGAGGAAACTGAAGCA
CGGTGTGGTTAAATGGCTTTCTCAAGGACAAACTACTAGAAGGTAGAGGGTCAGGACTGGAGCACAGAGTCTGGCTTCAGAGCCCAGGGCTTGGGCACTG
TGGCACTGTGCCACTGTGCAGCCCCTTTGCAAAGGTCTGTTTCTCAATGTCTCCTGTGATCTTGCTCCTCCTTCCTCCCGCCCTGGTTCTCCTCTGTTGC
TCCCAGCTCAGAGGATGGAACGTCTGTTCATCCAGTAGCCCCCCAAGAAAACTGGTAGTCATTTTGGCCACTGATCTCTCCATCACCCACTTCTGTTTGC
CTTCTGAATGTTTCTGACATCTGTCCACTTTCCACTTTTCTTCACCRTCCTGTCACCCACTAGCCTGAGGTTCCATCTTGTCTCACCTGGACAGCTATGG
TAGCTCTAAATTGCCTTCTCTGCCTTCACCCATGCCCTCGGCACAAATCAGCAGACTTACAGCCACTCTGATCAGGGCACCCAGTGTGACTTCCACAGGC
CTCCCATACTGCCCTCTCTGCCCTTTCTCAGCCCTCCCTCTGAAGCATCTGCACAGGGGACCCCTTCCACCTGGGGGTGCTTCTTAYCCTGCAGCCCCAT
CCCAGCAGAACCTCACTGTGCCCATTCCTCAGCTCTCAGCTCCAGACTCATTGTCCCAGGGGTTCTCCTCTGATGGCCTGTCCAGCCCAAATGCCTTTGC
TTCCCTCATGGGCCAGTCTGGCTCTATGATTACATACTTGGCAGTGTCATTGCTGTATGAGCACCTGTCTCCTTCATGAGACTGAAAGCTCCAGGAGAGT
GGCAACATATCTAGTTCTGGTCTCTACTGTATACTCAGTGCGTGGCCCAGGGCCAGATATAGAGTAGGACGGAAATACGTGATGAACAAATGAAGGGGTT
GTTATGACGATCAAATGAGAAAGTATAGGTAAAAGTACTCAAAACAGCCCCTAGCACAAGTCAGATACTCAATTATAAGCTACTAGTAATGAGTCTTGTT
GTTAGAACCAATCTTGAGCAAGCCTTACCTGATGCCCAAAGGGGGATGAAAATTGCAAATAACGAGGATGGCAACTGCACACAGCTGGAAGGGACTATAC
AGAGCTGAGGGTGGAAGCTGCAAACAGCTGAGAARGTGCTTATGAACAGCTGGGGCTGTGACTGCACACTCCTGAGGATAAGGCCTGCAAATAAGTGGGR
AGTGAGTGCAAATAGCTGGAATGTTGAACTGCAAACAACCGGGAGTAAGGACTGCAAAACAACCAGAGCAGAGGCTGCATCTGGGGAGCAGAAGAGCTTC
GGAGCACTCACATCACCCACTGCCTCTGCAATACTGGGTCCCTGCACTTTCTCCTCTCTCCCAACAGAAGTGTGCCCAAGAGACCCCAGGGGTATCTCTC
ACGGGCCCACAAATAAGACTGGTTCGCCTGGTCTATTCTGAAGTAACTTTTCCCTCCCCTCCCATGCTCCACCATGTTACTTTCTCTCAGTTCTTCAGAT
AGGCTTGTATCCTCCCACTACCTGACCTTTGCACATGCCAGGCCCTCCTTCTGGAAGTTCCCCACCCCATCCTTCAGATCTGAGTTCCAATACCACTTTA
TCAGAGAGACAAGATCAGATTATCCTTCTCCATTTTCCTTCGTTTCATCATCTTCAGTGAGAACAATGATTAGCATTTGCATATACTTGTTGGGCTTTCT
GATGACTGCCTACCACCCCTACTAGACTCTAATCTTCTAGAGAGCAGGGACTTAGCACCTAGTCCACGGTCTGACACGTAGTAGGTGCTCATAAATATGA
GATGGATGGAAGGATGAATGGAGGAACTGGAGCAATGGTTGAGTGGACAGAGAGTTCCTCAAAGGCACAAGCGAAGAAAATAAAACAACTGTCTTAATTG
AGTGCYTACTGTGTACCTGGCCCTGGAACAAGTCATCCCTTTCTTGTTAGTGCTTGGGATGTATATGAATGAATCATTCTTTGTCTCTCCAGGGAGTCAG
AAGATCTTGATTCTTTCCTTCATTCAGCCAGTGTTTCACTGTGAGACCTGACCTACTAGGAAACCTGTTAGGAAAAGACAAAATATTCCTGCCAGTGCTT
TGCACTGACAGCTACCCTTCCTGCAACCTACCTCAGATAACAGCAAGGAAGGAGCCAGTGGTCCTGAGGCTCCAGTTTACCCATTTATGAGAGAGGGATT
TGGGTTCTAAGATGATCCCTAAGGACCATGCCAGGTGGGATAGTCTGAGTCTGTGAAACTTCTCAGGAGGTTCCTTATATCTTTATTTTGTAACTGGCCA
GGTTCCAGAGTCCCAGCCCCAGATAAGAGTYGAGGGTTCTGGCCACTGGTGCCCACTGCCTTGGCCAGGAAAGGGTCCACAGTGAAGGCTCTCCCCTGGT
TCCAGGACACTTGTTCTATCTACCAAGTTGCCTACAAGAATCTCAGATCTCTAAAGCGGGCACAGAACCCAGACTTACACAGACACAGAAACCCACTAAA
ACCCCCAAAAATAACAATAGTCAATCTTTATAAAGCACTGGCTAGATGCCTGGCATTGCTCTAAACTGAAGCTCAGAGAGGTTAAAGAACTTGCCCAAGG
TCACACAGCTAGTAAGTCAGAGCTGGGCTTTGGACCCAGGCAGATGGGCTCTGGGGTCCCTGCTCTTAACCCCTGCATCATAGTCTGAGACATCCAGTCA
CACTCACCACCAGACACACAGGCTCACAAAAGTACACACACACACATAAAACACACACAAGCTTTTCCAGTGAAGGCAACAAAATGGCTGCTGTCTCCCT
TCTCTTTCCTTTCTTGTAGTGATTTAGGCTCTGTGGGCTAAGAACTCTGCACAAAGCCAGAAAGGGTCTCTTGTTACCAGTCTGTTTCTCAAATGGATTG
GCATTCACAGTCGCTCTGCCAGCCAGTCTGGACAAGAGGCTTGGGAAGCACTGAGCCTGTAGTGCCCTTGGATACTGGTACCCACAGTAGGAGGAAGGGG
CAGGGCTATTTCTCAGCAGGTTGACGACGCTTTGGATGGTAGCCGAAATGCCTCCTTCATCTCTGTCCCATTAATTCAAAGATGCCATAGGAAACCTGCT
AGGAAAACACAAAATAGGCTTGTCTGGCTCTCTGCACTGACAACCACCCCTACTCCACCCTGCTTCAGACACAASGAGGAAGGGAACCTGGGCAGCTGTG
ACGGGGCCAGGTCCTACTGGGCACAGCCACCCTGGGCATCTCACTGGCAGGGGATCTGGCATGGGGTGGGCAAGGAGAACCTCAGAAAGACAGAGAAGGG
CAAAGTAAACCAGCAGGTGAGACAGGAGCATGTCAGATGGGCACACAAAGCAACAGAAACGTGGAGTTCAAGTCCAGGAGCTTCCAGAAAGGTATATGTA
CCTGCAATGATGGGAGGGTGGAGATGGCTGTGGTTGATCCTGACTCTGATTCTTATTGACTATGTGATGTGGCTTTGGGCAAGTTACTTAACTCTCTGTG
CGTCAGTTTCCTCTTCTGTAAAATAGAGATGGCAATAGTACTCACTTCTTRGAGTTGTTAAGAGGATTTAGTGAGATAATTTTGCAAAGAGCTTAGTATG
ATGCCTGGAATATCATAGACATGCAATAAATGTTAGCTCTCATTCCTGGAAACAATGAGGAGGATGAAGATGCAGCGGGGTCAGGAGAGACAGAAGGGTC
TGTGCCAGGGCTAGGTGGCTCGTAAGCATCCTTGCATCATCCCAGCCACTCTGAGTTTCTAGGGTTCTTAGGTACGGTGTCCTCTCCTGGCCTTTGCATC
TGCTGTTCTCTCCACCTAGAGCACTCTTCCCTCTCTTCTCTGGATTAACTCTTGCGTATCCTTCAGGTGTCAAACTTAGACCTCTCTCTGCCCGGGAAGC
CCTTCCTGACCCTGACCCTGCAGGTCTGGCTGAAAAGCCTCCTCTCAGAGYTCCCACGGCTGTCTATACAGCTCATCATGATCTTTCTCGCCCTGGAGTG
GGTTGCGGGTCTACCTGTCTGCCCTCTGTGATGTGTCATGCTCAGCACCGAATCCCCAGAGATTCACAGAGCCTGGAACACGGTGCTAAATAATAAGTTG
GGAATGAATGAAATAACGACTTGTATGTTGAATAATAGAATATTGTCCCATTACACCCAGCTGCTTCTCAAAGACAAAATTTGAAGCACCAGACATAATG
AGATGCTCAATGTGGTGGGGCCAAGAGTACAGGCTCTGGAGTCAGACTTCCTGTGTTGTAATCTCATCTCCTTCCCCAGTACCTGCATGACCTTGGGAAA
ATTGCTTAACCTTTTTCTTCCTCAAGTTCCTCATCCATATAATGGGAATAATAAAGYCTCCACCTTGCTGAGTTGCTGCAAGGATAAACAACACACTTAA
AGATTTTAGACAGGGCTGGCCCAGAWGAGCTCTCAGCAAGCCTTAGTCCTCCTTAGAGGTGTGCTCCACCTCACACCTGCCCTTCCCACATTGTGAATCG
TGTCAGCCCCGACCGGGACCCCTGCCCGCTTCTGTTGACTCTTTCAGTAGTTTATAGAAGCTGTTGCGATTTTTTTCTAATTTAATGTTTATATCCTTTT
ATGTCCTGACCAAAAAACAAATGACCCAAGAGGAAGGCTGGGGAGAGGGGACATCTGAGTTGAGGCTTCCAGTCCCACCACTGTAGATTCTGTTTCTTGG
GCTCTTATTCCACAGGGTCAGCATGTGGAAGGGTTGGGTCAGGGAAGGGCATCTCAGGCAGAGGCAGCAGCAGGAGCAGGAGCTGGCAAGAGCACAGCTC
AGTGCTCCTGCTGCAGYAAAGKATGGGGAGGTGCAGTGAGGGGTTGGCAGGGGATTGGTCATGGGGTGTCCTGAGGGTCCCTGGAAGTTGCTTGGAATCT
AGGCTGCAGGCAACAGAGCACCACTGAGGGCTTTGAGCAGGTGAGACCTAAGAGAGAGTGCCCTGATGGAAGGATGGACAGAGATTTGCTGGGTAATAGG
GAGGGTGTCTGAACATTCATGGGGTTGAATCTCCTGCTCCCACAGGGTCCTGTTCTGCCCTGATGGAGGGATGGACYGAGGAGAGTTTGMTGGGTAATAG
GGAGGGTATCTGAACATTCATGAGGTTGAATCTCCTGTTCCCACAGGGTCCTATTCTTGCCCACTCACCTCCCTCACCACCAACATTCACTGGGCCTGTT
TGCCCATCTGCCCACTCCCCACCCAGCCCTGCTGCCAGGCTGGGAGTTCTATGGGAAGGTAGTCATTCCCGGCCAGCTGTTTACCTCCAGCACCCTGGAC
AGGATCTGGCTCAGAGTAGGTGGAATTGTTTCCCTCCATCCTTTCTTGCTAACTTCCTACCCCTCTCCTCCTAACTTGAACTTTCTTACCTGCTTTTGTC
CCTCTCTGCCTCTTTGCTTGAATAACAGCCTGTGCTGTGAATTAATTTCTGTCCTCTGTTTCCCCTACACCCTCCCCCATATCCCATAAACTGCCACTTC
TTTTCTGGAAAAGCTCTGAACTCCACGACACTTGAAGAACCTAAAGGGAAGGGGTAAAGAACCAATACCAGTCAAACAGCTTTCATATGCCAAGAACTAT
GCTGGGAACTCTATATGGATTCCTTCATTTAACTTTTCAAACAGCCCAAAGAGGAATGTATTAGTGTCCTACCTTATAAATGAGGGTCAGAGCAGTTCAG
AGTTGCCCAGTGTCACATTGTGGCAGAGCCAGAGGCCTCATCAAAAGAATGGTTCTCTGATGGTGGAATCTCAGGCATTTTGAGGGGGCAGCGGGAAAGA
TTTGGAATAAGGAGACTCCTGGACCACTCGCATCATGCCCTGGTGGTGTTGCCTCCATTGCTTCTGCCTTGGGTCAGGGATTCCTGATCCACAGCCCTGC
TCTGAGCTGGAGTAGATTCYGTGAACCTCCCTGGGTCAGATGGTGCTCCAGGAAGGCAGAGAGGGCATCCCACATCCTGCTGAGATAGTGCTGCAATGGT
GGGTTGGAGCCAGCGGAGAAATGAAGCCAGAGGCCAGATCCCCGGGGCTAAAGTTACACCCTAGGCTGGGAATCCCCAGGTGGGTTCTGAGATTTTGTTT
CCTTATCCCCAACCACCCCCTTTTGGATCCATCAGCCTTTGTTTAAACCCATTTTACCAAGTCCTCAATCATCTGCTGCCCCTGATCCTGTGCATGACTC
TGGCCCTGGTCACAGCCCTTGGGCAAGACAGATGAGCTCCCCTTCTGTGTCTCACCATGGCAATGGAGACCTGCAGCCATCCACATCCTGAGCTAGCTCT
GAAAGTCAAACCAGCACATTCTACTCAGGTGAGACAGCAACCCGGGTCCCTTGGCTCAGCATCGAAGGGTTGGGAATGATCAGCAAGTTGCTGTTGAGAA
TAGAGAAATGAAATATGTGAGGATATAACTTTTAACTTAAAATGCGGTGCCCCCTGCATTTGGATGTCAGGAGGGATCTTGAGTGACGTTTGTGGAGCTG
CTGGGGTGAGCATGTGAGGTCAAATATACTCATTAGCCATGCTTAGAGGCAATGGTGGAGGGAGCGAGGAATACACTGGTTCCACCTGCTGGGTTTCTCC
CTATCAAGAGGGAAGCAGAGCTCAGATTCAGTTCGACATCCCCAAAGCAGGCCCACAGCCRTGCACACAGAGAGCATCCGCACAGGCCACTGGAGCGTCA
GTGGAGTCCAACCAGGCTGCACCAGCTTCCAGATGCCCTTCACCTGCTACAGAGGGGAGGCCCTCCCCTCCCCCCTGGTGGTTCCTTTCGATGGCACCTG
TGTAGCATCATCTCTGCTTGGAATAAACCAGGTTTTGGCTGTCAGGAATCTTATTACAGAAGGAATCTGGGTGGATGGCCAGACTTTGTGTGAGATTCCC
TAATCGGTGGACTTGGGAMATTTATGCACTTGTGTGTGTGTGTGTGTGTGTGTGTGTACACTTGGGAGAGGGAGGATCTGTGGATCTACTGAATGTCTTC
TAAAAGGGATCTATTCATTTATTTAAATAATACCGTGTATTATGTCCCTGATACTGTTCCAGGCACTGGGGATATAGCAGTGAAGAAAAGTCTGTTTGTA
CTCTAACCCAGGAGACAGAAAATAAATACATGACTCTAAAACTGTCAGGAGCCCTTGTGATTACAGTAAGTGGACTCCAGTCTAAGTGAGGGGTACCCCT
GGATCCACTGCACCTTGCAGAGGAGGTCTGAGTGTAGGCTGGATGCCCTCAGAAGCCAGGCCCTCTGGTGCTGGGCATGTACCCTGGAGAGTGACACACT
GATTCTTCCCAGCCTTCCTTCCTACACCTAGCCTGGGGCCAGCCTCCTGAAGGAAAGGGTGGGAGCTTGCCCAGCCAGGGGCAGTCTGAGCAGAGCTKTG
TGCAGTGGAAAGTGCCTGGCTTCAGAGTGTTGTGAGGTGAACTGGGTGGAGGCATTAAGCATCTGGCATCATGGCTGACTCAGGGTGGCTGTTCCRTCCR
TAGAGTACCCTCTTCATTTGCCTTATTAGGGACACTCAAAGATGAAAAGTGTGCAGTCATCTGAGTTTGCTCTTGTAGAAGGGGCCAGGAAGCTCCAGTC
CTAAGAAGGTCATTCCTTGGAGATACTCCTTCYGTTCTGTGGGACTTGGAGGCTTTAATGTGCAATGTAGGAATTGGATCCTGAGATGGGCCTTATCTGA
CTTTCAAGCTCATGCTCAAACACTTGCCRGTATTCTCCTGCAGTGTGCTTTGTGTCGAGCCCTGTGCTGAGATGAGTAACTCTCAGCCTCTGACTTTGGG
ACACTCACAGTTCCATGCAAGCAAAGCACCTCTGCCACTGACTAGCCCTGGGACATCAAGCAGGTTACTTAAATTTCTCTAGGTCTCTGTTTGTTTCCTC
ATCTGTAAAATGGGGATCGTTGGAGTGCCTTCTGGGACTTTTGCAATATATAAAGCACTTAACACAGCATTCAGTAAAACTTGCTCCTTGGGGACAGACA
GCCTGACTGGCTCATGTCTGWGTCCCTAGTGCTTGGCCCYATGCCTGGCTCAGAGGAGCATTTCCAGAAGAAAGGCAGAATGAGCACGCAGTGGGAGGAA
TCTCCTCTGTATGCTGCTGGGTTATCAGTTTCTGGAACCATGTGAGATTTGTGCGAGCCCATGTGACCAACAGACAGTTCTTCAGGCTGCTATAAAGCAG
TCKCCAACACCTGTCCCTGTGAGCCGCTGCATTGTGTATTTGAGCCTTTGATATACCGGGGATGTTTGCCAAGGGAGAGAAATGTTATTGGACATTTTTC
GTGGCTGTAAGGATTACTTCTTGATGAAAACACACACAAAGAAAGACTTACAAGCTGCCCTTAAGGTAGGCAAATGAATGATGTGTGTTTACAGCATCCA
GGCCATTGCTCAGGGCTGTCAGCTCTGCAGACTCCTTGCAGGGGCTGCAGCAGAAGAAGGGAAGTGGCCAGCACATCCATGTGGCTGAGCAGAGGGCAGT
TCTGCTCAGACTGCAGCAGCCCATTATTCTGATTCATCCRTTGAYTCTTCCTACCCCTCTCAGTGTGTTGACGTCTTTCCTATAAAGACTGAGGCTTTTA
CCTGAGCTCTGCCCTGGTCACTCCCCATTCCCCAAACTAGAAGGCACCTTCTCCTCAGTGCATCTGCCTAGAGAGCCTGTCCMTGCTCAGGCACCCTGGG
GGCTCTTCCTTCTCGTGTAGGAGTCCTGTCTCCCCAGCCAGCTCTTACGTRCTAAAGGGCAGGGTGCATGGCCATTCCTCTTAGGCTCCTTCTACCCTCA
AGTGCATTTTCCTGCACTAACAGGCAGGCAAGAAAGAGAAGAGAAGAATCATCTCACCAGGTGCACTTCACCTTCTCAATGCAGTTATCACACCCAGCTA
CCTTGTACCCTGACCTGGGAGTCCCCTGGGGCAGGAAGCTTTTCTGATTCAACCCAGGACCCCCTCAGGGTCTGCAAAGCCTGGGGCAGTGCATGGGGTC
AATGAATATCTGAATGAATGAGTGAATAATGGAACCCAGCTTTAGCTTCTATGCTGACCCTTCTCCCATTCCATTTCAGACCCCATCWCCTGTGCAGGAA
GCCCCTTGGCCTCCCTAGTGGGTAGCAATGTCCCCTCTCAGCTGTCTGCACTGCCTCCTCCTCYGAGTCTGCTTACTGGCATTGAGTGTTCTTCCTGCTG
TCAACACAGCTTGGGGACATGCCAGCGTGCTGGGCAATAGGCCCAGCACATCCTAAGGCAGATAGTGTGGGCAGGGGAGGATCCTAGCAGGGCTGGATTC
TGGCACGGCCAGGCCTGGGATCTGGTTGAGGAGAGKGTTAAAGAAAGACAGGGCCTGGGTCTGGAGGGGTGGCTGGGAGCTGAGTCTTGGGGTCAGAGGC
TGAGGCCTACTTGCAACTGGGCAACCTTGGATGGATGGCTTACCCTCTCTGAACCTCAGCCGTCTCTCAGTCTGCAAGGGAGAAGCCTGAATGGAGACTC
ATAGTCTTTTAGCTGTGAAGGCTCATCCTGCTGCTTCGGGTCCTGTGCAGAGCCTTGGAGAAACATCAGTAGATGAGTCAGTTGCGCTCGTGCAGGTCGT
GGTCTGTGTGTTGGTTTCCTATGGCCTTTGTAACAAATCTCTACAAGCATGATGGTTTAAGACAGCACAGATTTATTCTATTACAGTTCCGGAGGCCAGA
AGTCCACAATCAGACTCACTGAGCTACAGTCAAGGTGTTGGCAGGGCCGATTCCTTCTGGAGGCTCTAGGGGAGAATATGTTTCCTTCCTTTTCCCAGCT
TCGGAGAAGCCACCTCCTTGGATTATGGCCCCGTCCTCCCGTCACTCTGATCTCCTACTTCCACGGTCACAGCTCCTATTACTGACTCCAATCCTCCTGC
CCCCCTCTTATAAGGACACTTGTGATTACATTGGACACATCAGGATAATCCAGGATGACCTCCCCAYCTCATCCTTAACTTAATGACATCTGTAGTCTCT
TTTGCCATGTAAAGCAGCATATTTCCATGTTCTGGAAATCAGGGCATGGACATCTTTGGGTGGGGGTGAGGAGTATTATTAAGCCTGCCACAGTGTGGTT
GAATCTAAAACTATGAATCAATTAATCATCAAATAAATGAATTACTATGAACTCTAATGGCACCAGCCACAAAGCAGCACTGTGCTGTCAAAGTATCACA
GGGACCTGGCTTAGCCTCGAGGACAGCAAGGGCTGGGCCACATTCCCCTTTTTCTTTTCTCTGTTCTCTCAAGCCCTGTTCATCCCACTGCCCCCTCTGC
TGTCCAGAAGWCCCCAGGGAGTCCGTTTCTGCAGTTTCCCACCACCTACTCCCGCGGTCCCTGCCCCAGCCTGGAACATCCTTAAGGGGTGGCTGTCGTG
AATGTTAGCAATGCTTTCACCTCCTACGCAGCAGTCCTTTGAGGACTARCTTYCCTAGGGAGTACCAGTGATGGAAATATCAATATTATAAGTATTTGTC
TCCTGGGCTGGAAGAAGTATCGAGCTGTGATTTAGTCAGTTGTGCTGCCTCTCTCTAACCACCCAAATTCTCCTTTGCCTCTTTGGAAGACTTACAGGAA
TAGATCTCGTCAACTCTCCATGGCTCCCAGGGCACTCTGAGGAACCAAGCTGGGAGGGTGAAGTCAGGTAGAATTTGGGTTCCTTGGAGGCACCCCCTCT
CACCCACCTCCCAAAACAGGCACCCGCCCAACCTRCCGAAGGCACTTGAACCARTCCCACATGACCCTCCCAAGCTTGCAGAGAAGGCAAAGAAGTAATC
AGCTGCTTGCCACTGGGCTCCACGGGGAAAACCCAGCTCTGTCCTTTCACGAGGATGTGACTCCAAGAGCTGCTCGGAAGCTGCTGGCTCTGCTCTCACC
CACGCACAGCACAGAAAAGACATTGGAATGTGCCTGGCTTTGCACAAAAGCTGAAGCAACCAGGATCWGGGGAAAGACCTGAGCSAGGCACGATGTTTCC
CGAGGCCCTGCAGATCTCCCAGCCTGTGAGCAGTGTCAGGGCTGGACCCAGTGGCTGCCCCACCATAAGGCCGGAGGAAGATTGGTCRCGGGCATGCATT
TCCATGAAGCCGCCACACTGGCTCACCCATGCACATGAGACACTTTTGCCGGCCTCAGGGAGTCTAGAGGTCACAGCTAATGTGGCCCAGGTGGGGCCTC
AAGGGAGGACAAAGGCTGGTGTTCATCTGCAGCATGTTAATCGTGAGTCCTGCTCTCTGGGAAGGTGTCCTTGGCCGTGCCAGAAGCGTTGAAGGAGATC
CTGTTAACTGCTAGTGACTTCCCACCAGTCCCGGCAGACACCGCAAGGGCTGCCATAATGATAATGATAATGGTTCTAGTAATGATCATTGCTCTCATTT
GCTGAGTGTTTATGTTGTGCCAGGCACTGTGCTAAGCTGTTTATATGCATTACCCCAATTAATCCTCCCAGCAACCTGATTGTTATCATCCTGATTTTAC
TGATGAGGAAACTGAGGCAGAGGGAATTAAGCAACAATGCACATGGTTGGTTGAGGAGAGAGGCAGCATGGGTTACGGTAAACAGAGCACACATTCAGGG
GTTACACAGAATTGGATTCAAATCCAGAGTTTGCCACTTACCAGTTAAGTGACCTGGAAAATCACCTGCCTGCTCTGAGGCTCAGGGAAGCAGGAGGGAG
CAAGTGGACACATATGGACATAGGGGCCCCTCCCCAGGGGCCCAGCCCTGTCCCTGCACGCACCTGGACTCAGGTAGGCCCTGAAGGCTGGGGATGAGCC
TCAGAGGAAGCCATCTCCCTTCTGGGGAAGGCCCGGGCTGGGAAGGAGAGCTGCCCTGTTGAGTGGGCATCTGATCTTTCCTGCCAGGAAGGGTGGGGGG
CAGGAATGTGCCAGGAGAGCACCTGTAGTATCATCTGCTCCTGGGTGCCCAGGCCTGAGCTCAGGCTTGGGTGCCATTGGATGTCACTTTGAGATCCCAC
AAGCTGGCCTCACTTTACGGGAGCAGAGACAATGGGCAAGATCTGGAATGAGGGTGGGATTAGCGATTGCGGACACAGGGATTCCTGAGGGAGGGAGAAA
AAGAGGGAGRGGATTGAGTCTTGGGCACCATCACCACATGGGGCCTGCTATTGCCTAGAGGTCTGGTGTGTAAGAGCTGAAACTGTTCCACCTTTCTTCA
CCATCTGAAGCATACACACTCACTCACTCATTCATTCATTCATTCATTCATCTAAGGAGCCAGCCAGCACAGTGGCTTTGGAGTCAGATGGGACTGCCTT
TGAATTTCTGCCTTTTCTTTTCTTTTTTTTTTTTTTTGAGATGGAGTTTTACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTTACTGCA
ACCTCCGMCTCCCAGGTTCAAGCAATTGTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCACGCCCGGTTGAATCTTTTTTTAGT
AGAGGTGGGGTTTCTCCATGTTGAGGCTGATCTCAAACTCCTGACCTCAGGTGATCCGCCCRCCTGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCC
ACCACGCCCGGCTGAATTTCTGCCTTTTCATGGATTCTTAGTGTGATCTGAGGAAAGCCACTTACAATCTGAAGCATACACACTCACTCACTCATTCATT
CATTCATCTAAGGAGCCAGCCAGCACAGTGGCTAAGAGCACAGGCTTTGCAGTCAGATGGGACTGACTGAATTTCTGCCTTTTCATTAATTCTTAGTGTG
ATCTCAGGAAAGTCACTTAACTCTCAAAACCTTAACTTTCACATGTGTAAAATGGAAATAATAATACCTAATTCACAAGGCTGCAGGTAGGGTCCAATGA
GATAGTATTATAAATCACTTAGCATAGTGCATGGCATCTGTAACTACGCAATAAATAATTTCAAAATCTCTATATCTATCTATCTGTCTATCTATCCATC
CATCCATCRCACTGTCTAGTAGAAATGTGATCTAAACCTCAAATGTGAGCCATGTGTATAATTTTAAATTTCTAGTAGCCATGTTAAAAGACTGAAAAAG
AAACAGGTGAATCAAATCCAGTAGTATACTTTAACCCCATCTGTTCAATATATTACTATTTAAAAATGTAACCAATGTAAAATGCAATATTTTACATTGT
TCCTTTCACACTGTCTTTGAAATTGGTTGTGTATGTTATGCTTAAAGCACATTTCAATTCAGAGCAGCTGCCTTGAACAGTGTGGCCATTCCCCAGGATT
TGGTCCTTGTTTTGTTCTTCTCTGACCATGTTCTTTCTCCTATGATCTCACTGACTCCCACCGTTTCAATGATCACCTCTAAGTGAACAACGCTGGGAGT
GACTTACAGGACCTACTCCTGGGAGCTAGAGAACAGACAGGATGTGTCCAGAWCATGCCAAGGGGGACATGTGACTGACAAGGTTGAAGGCTAGCAGAGG
CCTGAAAAAGTAGCATCAAGGTGGTAAAGTCCCAGAACAAGCTGGGTGTATGAGTTTCCTATTGTTCCCAATAAATTATCAAAATTACCAACGATCACAG
TTATAGTTAATCACAGTTATAAAATTGTCACCAACTCAGTAGCCTAAAATAACACATGTACATTCTCAGTTTCTGTGGGTCAGGATTCTGGGTATGGCCT
TGTGGGTCCTCAGTGCAGGGTTTCAAAAGGCTGCTGTCAAGTGATGGTGGGGCTGCATTTTCATCTGGAGGMGGAGTTCAATTCCAAGCTCATTCAGGTG
TCTGACAGGTGGATGTCAGGTGGAGGCCACTCTGAGGTTCTAGAGGCAGCCCTTTCATCCCAGAGGCCAACTTCAATTCCTTGCCACATGGCATCTCCAA
CATGGACCCTTCCTTGATCAAGCCTGCAAGCAGATCTTATCTCTAATCTGCTAAGACAGAGTCTTACACAATGTAGCATAATCATAGGGGTGACATCCCA
TCCCCTTTTTCATGTTCTGTTGGTGAGAGGCAAATCACAGGCCTCACTCATACCAAAGGGGATGGGAATACAAGAAGCCATGAACACCAGATGCTAGAGG
ATTGTTGGGAGTCACCTTGGGGGCCATCTGCCACCTGGAATTTGTAAAAMACTCTAAAGATGGACAGCAAGAGGTTAGCGGGCTTAAGACTCACCCSAGC
TCCCATGTGAGTTCTAAGTTAAGGAAGCATGAGATGCAAAGATAACTCACCTAACATGACTCAAAGAACCAGCTTGATTCATTTCTAGACAGGCTYCCCG
AAGTGTGGGACTATGACAGGGCCAGGCTGGAAAATGGGTCGGGCTTCTCATCTTCCTCCTAAAGAGGAGACCACTAGGCTCATGGGGCAAGGCTGACCAG
TGATAGTTAGCCAGGGGTTGAAAATAGTCGCRGAGATGGGCAGCTTCCATGCTTTAGCATCTAAGAATACTCCTGCAGTGATGGGATCTCATCTGTGGTT
TCTGACCGCCTTGCAGAAAACCATGTAAGGAAGACATGGCATCCTTCTGACTCTCTGTTACCCTAGAGGATGGGGCTCTTCAGACAAGCCCTCCTTCCTT
CATCTCAAGGTTTATCCTGCCCCGTGGAGGTTCTTCTTCACAGACTGGAGGTCAGAAAGTGCAAATAAAACTGAAGCAAAGAATGTGATCTGGGCTCTTC
TCAGAGACCCATTGCCCCGAGTGAGGCCCCCCAAACCTATTGGCCCTACTCTCATCGGGAAGGCCCCGTGAGGCATTCCCTCCCAGATGGAAGCCCTGAC
TTCCTGGTTACAAAGAGTTAATGTATTGTTTTTCATGATACCTCTAGAACACCTGTTGGGTGACCATCATGGACGTTTGGCTGGGATTTGATGTGGGGAG
TGCAGAGGGGGACGTGGATCACTACGGAGATAAAGAAATCAATAGAGATACCTTTATGGTGTAGGGAAAGAGGGTGTGCACACTTGTGCCTGGGTTCACC
TGTGGGTGCAGGTGTGCTGGGCGATTAAACAGGAGTGTACATGCATTTGTTCACGCTGGGGTGTGGATGTCTACCTGTGTGTGTAGAGCCTTGAAATTCA
AGCCAGGCATATCCTGAGAACCTGACATTCCCAGATCCTCAAATATCTTTATAGACTACCCCCCACCCCCCGCTTTAAAAAAAAAAGTCTGTGAAGTGTG
TACTTAAGAAAAAGTGTTTTGGTGACCTCTTCAGACCTTTAATGATTCCATAAATATGAGATCAAAGCCATTTATAAAATATTAAAATCAATTCTCCACT
AAAATATACTCTCCTCTACCTCACCCCACATCATTATGACCAACACATTCGCATGGAGTTTAACTAAAGCTTCTAAGACTAAATAGAATCGTGATGAATA
ATAATACCACGCCCCTATTAACTTCTCCTGTGGCAAGGGAAAACGTTTGCGAAATGTTTAAACCTTTTCTCGTACTTAAAGGTCAGCTCAGCAGCCACAG
GACTGCCTCCACCACCTGGTGCTTTATGGAAATGTTGACGTGGCTCCCAGCTGTTGTCTAGGCGCATTTCCACAGAGAGTCATGGGTTTCCTGGGCATAT
ACTCACAACACTCTCAACCGCCTTTTTAGCTGTCACAAAAGTATTCATTCCCACTCAATAAGCAATTTTTGCCCTGGCTGAAGCACTTGCTGAAATGATT
TCATAAATCATCTTTTTCTTGTTTTCAAACACTTGCAAATCAGAGCCACCATCAAACTCAACATCCACTCCTTAATTCACCCGCAGCTTCTATTTTCTTG
CTAAAAACCATTACTTCCTTAGACTCCCTCGCTTACTTTTCAGTTTCATCACCACCCTGGGCAGTTGGCTCTATTTTGGGAAATGATTTTTCACAATAAA
ATGAAGATTCTTATCACTTTACAGGAGTTGCCACATAAGCCCCAACAACAAACCCCCTAGAACCCAAGATCCTGAGAAGGTCAACAAGGTTTCTTCACTA
GCTGAGTGTCTCCCTCACATGCCAGCCTCCTGGCACATGTGATTCCCATTTAAGCCTCAGCATAATTGGGAATTACGTCCTGGATCAAAGATCTACTTTA
TGTAGACCAGGCCTTCAAGGATTTGCAACCATCAGGGCAGAAAATTTTCATGGTTGCTTCTAGGGATGGGCAGGTGAGATCAAGGTTGGCCTAGAATTGC
AGTCAAGAAGGCTTCACTGCTGGTGGGCTGGCAGAATCTGGAGTCAAGACCAGAGGCTCAAGGCTGGACTCYTTGGATTAGGAAACTCCCTGGAAGTTCA
GGGAGCCATGTAGGTTTCCTGTCCTGTAAGATTTGGGTCTTGCATCATTTCTTACGGGAAGTGATCTCTGACCTCTCCCTTGTCTCCCCAGAGCAGGTGA
GCTACTTCCACTAAGCTCATGCCATTCCACCTCGTTCCTTGGCCACTGGACTTATTCCCTGTGCTGTGCTTACTGCTGGTTTCTCCCRTCTCTGCATCCT
GCATTAGACTGTGATTCCCTGAGAAGGGACTCTGCCTGCTCATTCATTCTGTTGCCAGTCATATGGCTTATGGAAAGGATGTGCTTCTAATGTGGCTATC
CGCATTCAGGGCCAGCTTCCTGGGTTCACAAACTGTGAGGTCACACAGGTCACCGAGGAACCTATGCATGGTATTATGCTCTGCTATGACCATCTTGAAA
TTCTGAACCATTTTTTGAAAAAGAGGCCCTGCATTTTCATCCAGCACTGTGCCCTGAAAATTAGGTAGCCATTCTTACCTGTATTTAATAAACTGGTAGA
CAGGAAGTATTTTTAGAGGGTTGTTGTGCCTAGATGTCTAATATCAATGTAGCATTAGATGAGAATCCCAGAAGGCAAGGACCCCAGTTATGGAGCACTT
CCTGATAGCACCCAGCATCAAGCCRAGGCACAAGGGCATCCTTCACCATCACACTTACCCCGTGGCCTTGGCTGGAGCAACTTGAAAGTATGGAGAGGGT
CACCAGCACCCAAGAGGACCCTTCAACAAGAACCTGGAGATTGTGTGTTTATGGCACTAAGTGTGGCATGCATTTGTTCTCTTGCATAATTTCAGAGCCA
GACAGTGAAATTATAAAGCTAGGAATGACAAGAATGATGAGGCCCTGCAAATCAGGGAAGACACATCACCATAAGCTCTTTATCAGGCCTTCMCCCAAGA
GGCCCTCTGTGGAAAGTGGGAAGCAGGAGGGCCTTCTTCACTCCACGGTCGAGGGGAAGAGGATGAGTGGAGAGAAGAATTCTAACCCCATCCTGGGTGA
CTTTGATTCAAGCTCCATAAGGTTTACCAAGGGGAAGCTTGATGATTTGAGGCAACCTAGAGGGACAGAGTCAGTCCAGGTGCCTGGGCCAAGCAGCCCT
CTGCCTCTGCACCTTTGAGGTGTGAAGAAGAATAGTAAATTCCTGAGTTTCCTGAGTGCTTTCCATGTGCTACTTGTCACAGTGCTAAATGCAAGTTCTC
ATCTGATCCTCYATAGTCTTGCTAGAGAGGTGTTATGAGCACTACCATTTCATAAACGAGGACACAGAGCACAGAGAGGTCCAGTGATGTGTCCCCAGTC
ACTCAGCTGATAGTTAAGGGGAGAGTCAGGATATAAAGCCAGATATACCTGGTGCTGAAACCTGAACTCCCAGTGCTGCAGCGCCCTACCCCTCAACCAT
CTAGGGCCAGGAAGGCCTCACTTCTGGGGTCTGGGAGCAGGGGCTTTCATATGATGGGAGGGGTTGTGCATCCATCTGCCTGGACAGATCAGAAGGAGAG
AAGAGGCTTGGGGTCCCCATCCTCAGAAATAAAAACAAAAAAGCAGAAGTCTTGTTGGGAGTGGGAGGATGAGTCCTAAAATTATCTCAAAACAAGTCAG
AAACCTGGAATATACAAAACTTAAGGCTTCTAGAACCTCTGCCCTTGTCCTATTCCAGTTGCTTATTTCTTCATTCATCCAGCAATTACCTCCAAAGAGC
CTAACATGTGCCAAGCACGTTTTACTGGGGACTAGGAGTGCAGAGATTCAAAGAGAATTACAGATWTGGATGAGATGCTGATCATGTGCCAGGRGCTGAT
TTAAGTACATTCTATGTACTTCTTTCTTCACAATAGCCCTGTGAGGCAGGCACTGTTATTATCATCTCCATGTTATAGCTGAACACATTGAGACATAGAG
AGGTTAAGTCCCACATCTAGGAAGTGGTAGAGCCAGGATTTGAACCCGGACAGTCTTGCTGCAGCGCCTTCTCTCCACCACTCCATGGCACCACTTCAAT
CTCAAAGATCTTACTGTTTAGAGCAGTTGTTCTAATCCCCAACCCCACATTAGAACCACCCAAGGATCTTTTAAAAATCTGCACCCTCAGGGAGACTCTC
GTACACTGTAGGTGAGAAGACAAAATGGCACAACCACTTTGGACAAACACCTTGGCAGCTTGGCAGTTTCTTGAAAAGTTAAAGACACATCTGCCATCTG
ACACAGCCATTCTACTTCCAGGCTTTACTGCAAGGAAAATTAACACATATGTCCACACAAAGACTTGTACCCAAATGTTTATAGTGGTTCTATTTGTAAG
AACAGAAAACTAGAAATAATGCAAATGTCCATCAACAGATGAATGAATAAATAAATAGTAGTATATCCCTTCAGTGGAATACTATGCAGCAATAAACAAG
AAGGAACTGATACAAGCAACAGCATGGATGGATATCAAGTGAACTATCCTGAGTGGAAGAAGTCAGACCAAAATGAGTCCTGTATGATTACATTTATATG
AAATTCTGGACATTTTAAACTAGTTGAGAGTGAGGGAAAGCAGATCAGTTGTTGCCTGGGGAGAGAGGATAGAGAGGAGAGGAGAAAGGGACTGCATGGG
GTGGGTCCAGAGGAAAATCTCGGGAATGATTGATACCTTCATTATCCTGATTGTGGTGATGGTTTAAGAGGAGTATACATACTTTAAAATGTAACAAAGT
GTACATTTTAAATATTTGTTGTTAAAATAAAGTGTGTACACTTTAAATATATGCCAATTATAACCTCAACAAGGCTGTAAGAGAGCCCATGCTGAGACCT
CATCCAAGAYCAAATAAATCGGAATCTTTGGGAGTAGAACCCAGACATCTGTATTTTAAAGTTCCTCAGAGATTCCAATGGGCTGTCAAGGTGCAGAAGA
GCAGATGCAGTGAGGAGACTGTTGCATAAGCCAGGGGTAGGTATTCAGATTAGGTGAGGGGCCCCATAAGGGGCTTTGAGAGGAGAATGGTGTGGCTGGG
GTTGCATTTAAGACACTGTTGTTGGATCCAGGGTGAGGAAGACAGGCTTTAGACTCTCAATCTTTTGACAGCAAGATCTGCACTCTCAGGCAGGTGACAC
CTGCTCTTCATTCTTCCTTTCCCTTATTCATTCATTCACAGATATTTACTGAGGGCCAACTACGTACCAGACATTGCTCTAAGCCCTAAGGACAAGAATG
AAGGAAACAGAAATCTCTTCCTTCATGAGTTTGCATTCCAGAGAAAATAAACAGTGTGGTTACAGGTTCTGCATGATATGTTAGATGCTATGAATAAAAA
GGAAGCAGGGAATAGAGGTGGGGAGAGATGGGTCTGGATGCAATTTTAAAGAGGATCTCACCGAGCAGCAGACATTTGCRGACACACCTGAAGGATATGA
GKGAGTCAATCTTGCTGATTTGGGGGAGGAAGATTATTCCAGGCAGAGGGAGCTGCAAGTACAAAGGTCCAGAGGCTGGAGCAAGGGAGGGAGTAGAGAG
GAAGGCAGGGAAGAAGCAACTCACCTGGGGCCCTGCAGGCCATTGGAAGGACCTGGCATTTCCTCTGAGTAAGAGGGGAAGCTGTTGGGGCATTGGAGTA
GAGAAGCAGTAATAAATTTTTTCCCTCAAGGTTCCTTGTAAATCAGATGTTTGTCAAGTGAAYCCTGCTTCAAATCCCCTATGAGAACCTGGGCTGACCT
TGCTTGAAAGTGGCTGGATTCCACAGAGCATGTGTGTTTGCACAGATGCTGCACATGCTTTACTCAAATGAAGTCTTTCTGTGGCCCCCTAAACCCCCAA
CTCTTTTGGGTAAGAGCAAGCCCCCTAAGTAGCAACATGCCCACATATAGAACTCGCTCCCCCTCCCCAGGGACCGCTTTCAGGCAGACATGCTCCTCAT
CATTAAAAATGGATGAAGCCTGAACAGAGGGAGGGAAGCATGCAAGGAAGATGTCAACTGTGAGTGAGGCTGCTGGCCCTGCAGTACGAGTCCTGGGCAA
AGGAGCCTGAGCATCCTCTCTCTTGCCCAGACCGCATGAATTTGCTGGAATGTTTTCCATTCCATCCATCCCAAACAGCTAGTGTACCATTTATTGAGTC
CTTACTAGGTGCCAGTGTCTGTGACATGTGTTTTTCACATGATCTATCTCATTTAATCTTCTCAACATCCCCAAGTCTTAATAACTCCCTGTATTCTTCC
ATTTGTGTTGCTATAAAGGAATATGTGAGGCTGGGCAATTTATAAGGAAAAGAGGTTGATTTGATTCATGGTTCTGCAGGCTGTACATGAAGCATAGTGC
CAGCATCTGCTTCCAGTGAGGCCTCAGGAAGCTTACAGTCATGGGGGAAGGTGAAGGGAAGCCAGCGTGTCCCATGGCAAGAGAGGGAGAAAGAGAGAAA
GGGAGGGGATTTCAGGCTCCTTTAAACGATCAACTGCGTGAACTCATGGAGTGAGAACTCACTCATTACTGCCAGGACAGCACCAAAGCCTTCATGAGAG
ATCCACCCCCATGACCCAAACACCTCTCACTAGGCTCGCATTCAAACCATCTCACTCTCATCTCACTGATGAGGCCCCTGAAGGTCAGAGAGGTACAGTG
TAGTTCTCAAAGTCACACAGCTAAGGTGGATGCCCAGGCCTATCTGATTCCAGAACCGTGCTTGGAACCACACCATGACATTRCCACTCCCTCCCAGATG
TCACTGAGATACTGGCCTCCTTTGCCTTCCAAGCAGGACAGGGCATGCAAGGCCAGAAGACTCCTGTCCCAGTGAGCGCAGCTCCTCAGTCTTACACAGG
CCTAATGGGATTTTAGAGGCAGAGGCAGGCTGTGAGAAAGAGGTGGGGTTTGGGATCAGGCTGGTCTTGAACTGGGGGAAGCACAGGCCCTTGTTAGGAT
GCCCAGTGACATCAGCTGCAAAGCCTTCGACACCCACTGATGCACCTGCAGGGGGCTCTGGGGCAATGGTGAGACCAGGCAGGGAGGCTGCCAAGCCATG
AGTTGTGGGTGCTCCTCCTTGGAAAGTGTGACTACAGCTGGCAAGTAGGGGATTGGCAGGGGAGGGGGCTGATGCGCTGTAGCGCATTGATGGCCTGGAT
TTCATATAAGGCCCAGTAAACCAGAAACAATAGAGAATGGTAGGAGATGGAGTCAGAAATTGTGGCCTGGGGTTGTCTGTGCCCACACAGGGATCAGGAA
AAGGATGGGAGATGTGGCCCACTTCAGACCCCACCTGCCATGGACATGCTTCCTGAATCACTGCCTCCCAATAACTCACTAATTCCAGAGTCGCCCTCAA
ACCAGATATGTCCCTAATCAGTGGGCGCTTTCTAAAGACATCATATACATAGACTTCTGCTAAGTACTGAGACTGAAATGCAAAACTCTCATCCCCCAGA
GAGATCCTGTTAGCTGGGAGAGGAGGCGTCTGATTCCTGAGCTCAGAAAGGTTGGCAAATGAGAGTCTCTGTTTCCATGGGAAATGCGTGCGGTGCCCCT
GGGCTTCCATGGTGCCTGGCACAGGCTTCCACTGCAGCACCCCCTTATCTCTCTGTAATTGTTTGGCTGCACATCTGTCTCCCCCACAACACCATGAGCC
CCTTGAAGGCAGGACCTATGTCTGATCAATGTCCCTGTCCCCGATGGCTGGCCCAGACTGCTCCACAGAGTTATAAAATAAATTATTGAATAATTAGGAA
GAAACTGCTTCCAGAGAGCATCAGGGTTCCAAGTCAGTGGTCTGATAATGTCTGTGTGAGCGAATCTACCTCCCGTGGATTTTGTGTGTTGAATAATTGA
GTGAGGTATGCCAGGGGCAGAGCAGATGTGAGATTGCTCAAACCTCTGACAAATGAAAGACAGTTTCCAGCACAGAGGAGGTGGTCTGAGGCCGAGACCC
ATCCCATGGGGGTGGGCCTCTGGGGATTCCCAGGAGGTCCACCTGAGGAAGAATATAGGGTGGGGCAAGAGGCCAGCTTGAGTTGGAAGACGACAGTCAG
CACAGCCCTGGAGGCACCAGGGATGGTAAGAGTGGGCTGGGGGCAGGAGCAGGGTAGGGTCCTCACTGTGGACCATTGTGACCTCCTGAGACCCAGAGGG
CTTCTGTCACGTGGGGATCAGGATTTGGAAAGGGGCCGAAAGTCAAGTTGCCAGACAAAGCTTTATTCATTCATTCATTTGACCTATGCCCACGCTGCTA
GGATCCAGCAGGAATGCAACAAAGCCGCTGCCCTTGTAGAGGTTGACTTCTGGTGTGGAGACAGCCAGGGGGCAAGCCAATCAAAAAATAATTTCAGATT
GGGATAAATGGCATGCAGAACAAAARCAGGGTCAGGGAAAGAGAGTGGTGAGCTGCATTACATGGGACAGGGCAGTCTGGGAGGGCTTCCTGGAGGAGCT
GACCCTTGAAAAGAGACCTGAAAGATGTGAAGCCAGGAGTTTTTGCAAACACCGCAAAGGGCTTTGAGTTTGGCAGGTGTGAGGAGCCACCTGAAGGCCC
CTATGGAAGGAGTCAAGGGCAGCAGGAGGGAGAGGGGGCAGGGTGAGCAACTGTGCTGCTTTGCTTTGACAGAGGATTTTCCGGGACACGGGACTTTCAG
TACTAAACCTGGATATGTCCCGGGCAAACTGGGACTAAATTGGTCACCTAGAGGTAGGGCCTGAGGACAGAGAGGCTGCTGGGGCGAGAACACGCAGGCC
CACCTCTGAGGTCACAGGGAGGACTTTGGGTTTTATTCTACATTGAATGGAAATGGAAGGCAAAAACTCGTTTCTGACTTAAATATCTGTGTGTGTCTGG
CACTGTGCTGGGCAGTTGATAAGGATGAGGCATACACGATCCCTGCCTTTGCGGAGTTTCAGGCTTTTGTGTTTTCTCACATTGGCAATTAAGCCAGCAG
TGTCACACGTGTCACCACACGCCTTCTCTGTGGCATTTTTTATCTAGGCTCAGAATAAACAAAGAGAAGCATCCATAGTCTTCAGAGCAGGCGCCTTTCC
TCTCCACCTAGATCAGCAGGTTGCTATTTCCAGACATCATCTCACTGTGACCACGAGGGAAGCACATGTTATCTGATCTGGAAAATTGAGCAGGGGCTCA
CCTTTACTGGGCACCTGTGTGGGAAGGTCACAGGTCAGCAGGGAGTCGAGATAAATAGGCAGCTACAACACAGCATGGCGAGGGCCTTGTGTGGGCAGAG
GGGTATCATATCCACAAGCATGAACATCTCTTAAACACTAACTGTTTCAGCTTKCTTTCTGCTGCATAAAAAAAATCACCACRCACATAGCAGCTTAAAC
CACATTTACTACCGCACAGTTTCCATGGGTCAGAAGTCCAGGCATGGCTGARCTAAGTTCTCTACTAAGGGTCTCACAAAGCTGTCATCCAGGGGCAGCT
AAGGCTGAGGTTTTATCAGAGACCTGAGGGCCTCTCTCAAGTTCACATGATTGGTGGCAGAATGGTTTCCTTACAGCTGTAAAATCAGGATGGCTTCCTT
CTTCAAGGTCAGCAGAAAAGTCTCTACTGCTTCAAGTCTCTAACCTCTAAACCCTCAGGGCTTACCTGATTTGACCAGGCTCACCCAGGAGAATTTCTTT
TTGGATTAACTCAAAGTCAACTCATCAGGGACCTCAGTTATGTCTGCAAAAAAAAATCCCTTCACCTCTGCCATATAACTTTACCTAGTCATGGGTGTGA
CAGCCCATCATCTCTACGGGTCCTATTCACACCCAAAGGGAGGGGATTGTGGAGATGGGACCAAGGGGTGGGATGCTGAGGGGCATTTCAGAATTCTGCT
TATCACACTAACCATGGAAGAGGTGCTTTACACTTACAAACTCATTTCATTCTCAGAACAATGCTATGTGATAGGTACTATCATTGTCCTCATTTACAAG
TGAGGAAACTGAGGCAGAGAGGGGGTAAGTAATCAAGTCAAGGTCCCACAGCCAAGAGGACCCAGTGCTTTGGAAAAACACAGCCTCATGGAATGAGGAT
CCCTGTGGCAGTCAGGAAAAGGCGTGGGGGTGGGAGCGAGCCTACCAAAGTTCGCCTTGCTGTTTCATAAAGCGTTGCCATGGAAACCCTGCATGAAGCA
TCCCTCAAAGAGCTGTTTGATTATTTTTTCAGGGTGGCATCTGCAGTCACCTAGCAGCAGCACCAACACACACACATGCGTGCGTGCACACACACACACA
CACACACACACACAGTGACTGAGTTAATGGGTCTAGTACAGGCACATGGCAGGAGATCTGGAAGGTCTATTGATAAATGAATTGCTTATTGGCAGGATCA
GGGTTCTGTTCGGTGTCTCTACTGCAGGGAACCCAGATCTGGGAACCTTTCAGGTCCTGATGGTCATGGTGCTGTCGGTCTTCAGTCACTGTGGGTCCAG
AGAGACTGTCTCTCAGCTGCCCCTTCTGTCTCCTCCCACTGGCTTATCCTTCCAGCTCCAGCCCTGCCTGCCCTTCCTAGACCTTCTCATGTCAGCAATC
TTAGTGTCTTTGGCCAACCTGGGAGTGGGATARGATTGTGTAGAACTCATTGACATTAAGCCTGAACACACAGACCTATAAGGCATGAAACTTGTTCACT
CACAGCCCCTTTGATGAATTCCAGCTCCTTTGATGACACAGAAAGTCCTGGACACTTATTGATCTTGTCCCAAATCTTAAAGCGAGGTCTAGCCTTGCAG
ATCAATGAGGCAGGAGGCCCAGGGTAATCATTATGATGACAATGATGATAATAATAATGACTGCCATCTAGTACAACGTCTTGCCAGGCAGCATGCAAAG
TGCTCTGTATACATGGTTTCATTGCTCATTTGTCAGTTCATTCAACAAGTATTTATTGAGCAATGGCTCTCTGCCAGGTACTGGGTCTATACTAATGAAT
GAGTCAGAGAGGCTCCCTGCTTGCATGGAGCGTACCTTCTAGTAGGGAAGATAGACAGTAAACAAAGSGGGGAAAGACAGCCAGTTGTGATAAGTGTCAT
GCAAAGACTTGAAATAAGACAGCCTTGGAGAGAGGACCTGTGGGCTTCTGCCTCTTTGATTTGTGTGGTGAGGGGAGGCCTCTCGGGGGAGGTGATAGGT
GAATGCAAGAGCCCTGAGGTAGGAACTTGGTAAGCCTGAGGACCAGAAAGTTGGGCCACAGTGGCTGGAGCATGGTGAGGAAGGAATCAAGGGCACCAGC
AGAGACTGGCCACGGAGACTCTGCAGGTCCAGGACAGGAGGGTGATTCTTATTTAAAGGGAGATGAGAAGATTTAGGGGGGTGTTAAGCAGGGGAGAGAC
ATGCTCTAATTTGTATTTTAACAGATCCCTCTAGCTGCTGTGTGAAGAGTGGCTGTGGGGGCAAGAGTGGAATCAGGGAGCTCAGTTAGACCTTTGGAGA
CACCGGGTGAAGGAGACTGGGGCTTGGGCCAYGGAGGTAGCACAGGAGCCAAAGAGGAGTGCTTGGRTTAAGGTATGCTCAGCAGGGCTGACTGATGGTG
TGGGTGTGGGGGTGGAACATAGAGAGGATTCTGGAATATTCCTAAGATTTTGGTCTGAGCAAGAGGGTAGATAGAGATTCCATCTTCAGAGCAACTCTAA
GCTGTGATGTTTTCTGCACTGCATAACTTAAAAAGCAGACACACAATGGYCTGACACCTGCTACAGCATGGATGGCTCTCAAGGACATTATGCGAAGTGA
AGGATGCCAGTCACAAAAGGATAAAAACGATATGATTCCACTTATATGCAGTGCTTGGACTAGTCAAACTCATAGAGACAGAAAGTAGACTGGTGGTTGC
CAGGGCCTGGGAGGAGGGGGAAATGGAGTGTTATTGCGTAGTGGGTACAGTTTCAGTTTTGCAAGATGAAAACAGTTTTGTGGATGGATAGTGGTGATGG
TTACACAACAATGTGAATATTCTTTTTTTTTTTTTTAATACTTTAAGTTCTAGGGTACATGTGCACAATGTGAATATTCTTAATGCCACTAAACTACACT
TAAAAATGGTTAAGATGCTACATTTTATGTATATTTTACTATAATTAAAAAGAACAGAGCCAGGATCTCATAGTTGGTAAAAGGCCAAGCCAGGTTTGAA
CTCAGATCTGGTGTGTTAATTGCCGCATCACCCTGCTTCCAGGAACACAGGCCCCAGCCTTGATGTGAGCTCCCTCATGGTACCAGTGTCGAGGTGGAGA
TCAGCCTACATCATGCACTGGTGTGGCCACCATAGGAGGACACCAACCCCCAGGTGTGGCTGGTTTGGCACCTGTAAGTGGGATGTTTGAATGGAGAGAT
GAACAATAGAAAGTAGACTGAACGCCGGCACTTTATTTTGTCTAATAGTGTCAGCATATACAAAGCAACCCRATAGAAATGATGATGATGATGGTGATGG
TGGTGATGATCAGGGTGACACAAAGTCAGCTTCCACACACTGGCATATCAGTGCCAAGCCCTTCACACATGACATTTTATCAATCCTCACCACAACCCTA
CAATATAGGTACTTTCATTATTCTACATTTCATTCTACAGATGAGAAGACTGAGGCTGAGTGACTTTCGTTAAGATTGCCCATGAGTAAGCGGGAGTAAA
AGATCAAAACGTGGTCTGTCTCCAGAGCCTGAATGCCTTTCTAGTAATGACCCGGGTTAAATGAGGAAACTAATTAAGAAGGTATAACAGCACTCACTCC
TGAGTGTTCTATTTTTTGGGCCAACTTGAAGGGACACGCGGGTAATTATTTCCTGGAATAAGCATCCTCTGCACAGGCCCCAGGATGCTCCATGCTCAGC
CTCCTGCGTGGAAGCTGACACCGCGTTTGCTTGGCGACAAGTCACAACAAAGCTCGGCACACTCCCACCCCGCCCCACTCAGGCGGCGCCTCKTGGGGGA
AAATAAGATAAAACAAAATCAAGCTGAGCTCCTAATTCACATTCCATCTCTGGCAGCTCCTTGATGATGAATAATTCTGGAATTGGAAATGAGGCAGGAG
AAAGGCAGATGGGGATCCGGGCAGTGTGGCCCAGCAGCCCGTTCTACTCGGGATCGTCCTCTCTTCCTCCTTGGGATGGCGAGACAGGGTCCACGGGTGA
TAAATGAACACCTTGACCTCCTCCTCCTTTTAAAAGAATTATTATTTTCAATCGTGGTGAAATACACATAACACCACTCATTATCTTAACCATTTTTAAG
TGTGGAGTTAGTTCATTGGCATTAAGTACATTCACATTGTTGTATAACCATCCCCGCCATCCRTCTCCAGAACCTTTTCATTTTCCCAAGCTGAAACTCT
GACCCTTTAGTCTGTACTAACTCCTCTTTTCCCTCTCCCCCAGCCCCTGGTAACCTCTATTCTGCTTTCTTTCTCAATGAGTTTGACTACTCTAGGTGTC
TCATATAAGTGGAATCATACAGTATTTGTTCTTTTTGTGACTGGCTCATTTCACTTACCATGATGTCCTCACAGTTCATCCATGCTGTGTAGTATGTGTC
AGAATTCCCGTCTTTTGTCAGGCTGAATAACATTCCGTCGTTCGGATGTACCATGTTTTGTTTAGCCATTCACCCATCATGGACACTGGAGTTGCTTCTC
CCGCTTGGCTGTTGTGATAGTGCTCCTATGAACATACCTCCTTCTCCTTTACCGGAGGCTGACTTAACCCTGGCTACCCTCAATTGTATAATTGTGGGTA
TTTGGATGGCCGGAGTTAAGTCAGTGTTCCCTCCCCCCACCACCAACAGAACTGCCACCCCCATACCCCTCACTTGGCCTCCACTAGATCTTACCCTGGG
CCCTACAGGTTTCCATAGCAACCCAGTACCAATCAGCTGTGGAAGGCAGTCAAGTTTAGGGGTTTGAGTCCAGGCTTGTTACTTACAAGGTTTACGACCT
AGGGCAAGTTAGTTCATTTCTGYGGTCTTCGTTTCCTCATTTGTAGAAACAAGATCATGATAGTACTATACCTACTTCGACTCTCAGGGGAGGGGGTTGA
AGGAGATAATACTAKCCCTAGGTCTGTGCCAGGTGCCTTGCATGGATTATCTGCCTGGGTCCACATAGCAACCCTAAGGGGTAGTTATATTATTATCCTC
TTTATAGATGAAGAAACTGAGTCTTGGGGAGGGAAAGGACTTGCTCGAGGTACCATGATAGCATGGGGGATTGGAGAAGGGAGTGAGCATGGCAGGGAAC
CAGAATCACTGGGCAGTGGTACTGGGATTCTGAGCACTGGGCTTGTACCCTTATCCATGGGAAGTGCCCTGCAAATGAAGGCTAGTCTGATAAATTTTGG
ACATGCTCATAGCTGGCTCCTGAGTCAATAAAATCAATCCGTATCTCTCAGGGAGCAGGGTCAGCTTGAACAGGCAAGGCCCTTTTCTGGCAGGGACATT
TTAAGCTTGGAATGGGGCTGTCAGGTGAGCCATGCTGGGCAAAAGCACTAGGAATCTATGCCTGAACTCGGGGGCCTGTGGCTCCTTTCTTCCTGGGAGG
AGGGTCCATGTGTTTTATCTTCTCTCAAAAGATCCCTGACTCCAAACTGGTAAAGACCCACTTGGATTCTAGCCCATGGATCTCAGAAAAAGCTACAGAC
TCTATAAGGACTATGAGCTACAGAGATTGGGTTCTACTGCAAGCTTAGAGAGGGCAGGTTCCTGGGTCAGCTGGGCTGTAGGCATCATGGAAACGTTGCA
AGTTGGCACAGGTTGAGGCTGCAGGACAGACAGACTGTGCGAGGATTCAGGGGCATGTGAGAGAAGCTGGTTCTGGCTGTGTAGCAGAGAATGGGTAGGC
CAYGGCTCTGCAAATTTAAATTCATTTATTGCTCATGTATCTGTCCTGGGCAGGTGTTTAATATGGTGGGGAGCTCTACTCCACCTGGAAATTCAGGGAT
AAAGCCTCCTTCCACCTTGGAGACACACATCCCCTTGGGTCTGATCAACAACATCCAGCCAATGTAGGAAGAACATGCAGGAGGCTGCATGGAGGTTTTT
ATGGGCTAAGCCTGGCCAYGGCCTGTATCACTTTTGCCCATGGTCCACCTAACTGCAGGGAGGTCTAGGAAAGGTTGTCTAGCTGTGTGCCCCAAGAAGG
GAAGATGGAATTTTGGTGGAGCTAGACTTTTTTTGCCACGTGCAGCCATCCAGCAAACATTTGCTGGTGCCCAATGCCTTACGGAATGTTTAAGGAACAG
AAGCCCTGTGACGTGAGTTCAGTAAACATATGGCTGACAATCTCACAGAAAGCTAAGTTCATTGAGGTTGTCATCCATCCACTCATTTATACATCCATTC
ATTCATAGAGTCGTTGATTCAAGAAATAGTTTTTGCGTGTCTACTGTGTGCTGGCCACTGTGCTATATGCTGGGATACAAAAGTGAAAAAAGTCAGACAA
GGTCTCTGTTTGCATGGAGCTTAAATGTTTGTGTGTGTGCATGTGTGTGTGTGTGTGTGTGTGTGTGTAAACAACAAAAACAAGAACCACATAAAATGAT
TACTCATGACTGTAAATGCTCTGAAGGTATAATAAAGGGTGGTGAGGCAGAATAGCTGAGGTTGGATTAAATGTCAGGATTAAATGTCTGAAGGTATAAT
AAAGGGTGGTGAGGCAGAATAGCTGAGGTTGGATTAAATGTCAGGGTAGGCTTCTCTGAGGAGGTGACATTTGAGTTGAGTGCTGAAAAACGATCATGAA
TGAGCAATGCAGAATGGAAGACAGAGAACTTCTGGGCCAGGGAATATTGTGTAAAGGCCCTGGGGCAGAGAAGAACTTCATGTACTTGAAGATTATCCAC
CATCACTACTGTTATTCTTATTCAGACCTCTACCTCTTTGCTCTATTAGTTTTCCTCTGCTTAATACCACTGGTTCTGTAACTGGACCATCAAATTCAAC
AGCTCTGTTCAGTCCTGTTCTGGCTTTAGCTATCTTGGTGGCATTTCACACATTGCCAGCCAAGTTTTCATTCTCAAGATACTTGGGGTCATCACAGCCT
CTTGGTCAGAGTTTCCTAGGACTCAGCCCTTAACTGCTCTTCTCCTTCTCTCTACCTTGGCTCCTGTGGCCTCCCCACCATGCTGAGTGTCCATGGAGGT
GTGTACAAAGCACACTGGACCACTTGGCTCCACGGAGGAGAGGGGGATGTCTTCCCAGAGGTGACATTTGAACTGAGTCTTGAAAGGTTGAGAAGGATTT
GCCAGATGATGAAAATCACAAGAGTACTTCAGAGGTGGGGCCAGCAACTGCAGAGGCCAAGGGGCGTGAAAGGGCACAAAGGAGAGATCACAGAAGGAGA
GGTGACGAAGGAGCAGGAGTGTGCGTGGTTGAGGGTGTGGTAGGGATGGAAGTAGCGGGAGGAAAACCTGGACAGATGGCTGAGTCCAGATTGTGTAGGA
CATTAAATGTCTTGCTAAGAAGTAGACAGTTTCTTCTGCCGGCATCAAAGAGTCACAAGAAGCTTAAGGATGGTGCCTGGGTTTGTTTTATAGGCAGGTG
AGTGTTGGAGCGAGGATTGGAGAAGGAAGTGAGCCTGGCAGGGAACCTGAAGTGGAGGACGGGCGAGGGGGTAGGTGGGAGAAAGCCAGGGAAGAGATTG
ATTTTTCTTGGCAGTCAACGATGTAAATGGCTGGCATAATTGCTTGACACAGAGCCTATCCTTAAAGGTCATTTGGCCTCACCTCTTCTTAGGGGTTGCA
GCCCGGGATGGGCTCTGATAGTTTTTTAAATACAAGAGCACCTTTTGTAGAGTGTAAGCATAATGAGGGCAGGGAGGACATTCATCATCAGATCCCAGCA
AACCACCAAGGTGTGAAGACACCAGTTGAATGAGTTAATGAATGAGCAGCTCCAGTAAGCCATGTGCCTCTTGAACAGATGACAGAATGGAGTGCAATGT
CCCTAACATTTAGACAAATTCTTGTCTCATTGCTCAAGGGAGGGAAGAGAGAACCAGGCTGGCTTCCGCAGCCTCTCTCCAGCCCTGGAGATGTGTGCTA
ACAGACTGGCCTGGGAAAAGAGGGTGGAAGGTTGGAGACTTGGCCAATGTCAGTCAGGAATGACTGTGGGTCAGATTGTCAGATAGAGGACCAAGGGGAA
AGAGAAATTGGGGTTCTCAGGTGTCTAGAAAAACACCCAAGGTTCTGGATGATGCCCGACTCAATGCTGTAATCAGTTAGGAGCTGGAATTAACAGCTTT
CTATCTTTGGTGAACAATCACCATGGTGGAACAATGAGGTCAACAGCAGCTCTTCAGAGACATGAAGACAGACGCATCCCAATCCTTGGCTGAATAGGAA
GGAGGGAGACAAGATACCCAGGGACATGGCATAAGGCTTCTTCTATGCATATGACCTGTGCCCCAGGACAGTTGCAGGCCAGGTCTAGAGAGTGTGGAGT
GCAGCTCCCTCTTTTTCACCTGGGGAGATTTAGGGCCTGGTAACACCTAACTCCCAGGCCTTGAGTTCCTGGGCCTGTCAGTAGCCTAGCCTTTGCTGTA
AATGTCATCTTGCCCAACTATGCCAACCACTGGCTTCTCAACCACGTTTCCCTCAATGCCCATCCTCAACAGGCTCTCCTACCTGAATACCCACATGCCA
TGTCCCTGCACATACCCACATACCCACACATTTCATAGTTATGCAGTTTACATGCATATATAGACACACACATGCTCATGTAACACCAACACACCAGCAT
GACTATAGACACAAACTCTCCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGCTGGAGGAGAAATAAGGAGAGCCATTGTTGCTGGAACATTGGG
TGTGAGGAGGAGACGGGTACGTACAGTTGGAGACATGGGTGGGGCTAGCTCATGGAGGACCTTGAGTGATATTCTAGAGCTTGACACCAACTGAAGCGCT
TTTAGGAGGGAAGAGCCATGATCCTACTAGTTGTTTAGAGAATGGGTTGGATTGGGGCAAGTCTGAAGACAGAACAATGAGGAGGCTATCTCCAAGTCCA
AGAGAAGAAACTGAGATAGGGTAGGGCCTGGTCCTGGAGCCTGAGCAATGGGGTGGGGGCAGATATGAGAGATGGAAGGAAGGTAATTCAAGAGACTGGG
TGTGAGACCAGATGAGGTCTCAGCTTGGATGGCTGGCTGGATGATGGGCCAGTCCCAGATGCAAGGAACCCAGGGGAGAGATGGGTTTGGGGCAAGGGCA
GGAGAGTAATTTGGGCCATGTGCAGTTGGAGGCACTTCTGAGATTTTCACTTAGAGAAGCCCGAAAGTAGCAAGACTTGGGGTCTGGAGTCAGGAGGAAG
GTCTGGGCTGGGATTTTGCACACAGGAAGTTAGGAGTCACTAACCCTGGGAACAAGAGCCTGGAAAGCAAGCAGTGGGGGCTTCTGTACTCTTGGCCATG
TGCCACTTCTTGTCTCTGGAACATCCTTCCTTCTCTGTCAAGACCATACCAAATGCCTCTTCCAGGAAACTTCTCCAAATTATTCCTTCCCCTCATCCCT
GAAGTTGTGAGCCACTGGCTGGTGAGCCAGGGCAGCACAGGGCAGCTGAGGCGAGGATCAGAGAGGGGACAAGGTCTGAGTCCATTGATACACAGGGTCT
CCTCTTGCATTTCAGTTTGCAGCTGGGTAGGACTATTCACGAATGATTCTTATTAGGCTGTACGGGAGGTCTTTAGAATTCAAAGCAACAGACCGCTCCC
TGKMTCAACAAGAGCAGTGTAGGTCTAAGGGATGCCGCCTGCCTGGCAGAGCCAGGGTGCATCCCATGTTCTGGCTCCTGGGGCCATCTGCCCTCCCCAG
CCACTGTACCCGGCTTCTCTCTTTTTCAGCTCCAGCCTCTCCCACACTGCCCTGGCATCTTCTCCCAGGGAATCCAGGGGCTTATATGTAATCACATCCT
AAACTTATTGAGCACTTCCTGTGTGTCAGACACTGAGATAAGCACTTTGCCTGGTTTATTGGACTTAATCCTCTCAACAGCTCTCTAAGCTGGGTGCGAT
TATTACCCCCATTTTATTGCTGAGGAAGCTGAGATGCAGGAAGGTGAAGTAGCTTACTATTTAAGTAACAGTGCTGGGGTTTGACCATGAACCCAGAGTA
CAGCTCCAGAGTCCACTCTCCTAATCCATACCTGTTATACAACCAGTAACCCACAGCCAGGAGAGGCACAGATGGAATTCACACCCAGGTCTATGGGACA
CCAGAGACATTTTCTGGACCATGATGCCCTGTGTCTCCCTGACCCTGACAGCCCTTGATCCCTACCTCTGAAATCACAGACTGAGCCAGCAGATGCTTGA
GGCGTCTCTAGGGTCAGATCTACCTCTGCGCCTCTATCCCTGCATTCTGTACTGTGTCTGGGAAAACAGGAGCTTAAACACAAGTGTCAGGCAGGCCCCA
TGAGTGTGTGATATAACACTGGCTTCTGAGGGCTGTTCTGGTTGTATAAAGAGATACCTGTGCAAAAGTTTATTAATCCAAAGAGGCTATATGGAAATGG
ATCGGTATCTTGAGATGGACGTGGCTTGTACATAAACATGAGTGGTTTATTCAAATGTGTGGGAGAGTAAGTGTGTTGTATCCATTGTCATGTGTGTGAA
TGTAAGAGCTGTGTTCAGACGCATCCTGAATTTGCCTGTTTTTATATATGCATGTTTATGTGTATGAGAATGTACATGTGTGCATGTCTCTTGTAAAGGG
GAATATGTAAAGGGGATGTGAATGGATGGATTTGTGCATGTTGAGTGTGAGTGTGTGTTAGTATGCCTGTGTTTCTGTGTAAGACATTTTTGGGTCTTCC
AATTAAGGAGCTTGTCCAGGGCAGAAGGCAGAGGGTAGAGTCCATTCTACCACCTGCCTCTATGACTTCAGAGGACCTGAACAGATGGCTTCCCCCTGCA
CAGGGTCCTCCATGAAGCCTTTGGAGAAGTAGTTGGACTCCAGAGATGAGTGAAAATTAATGGATGAGGCAGGGGCTCTCCTTTCCTACTGTTCCTGATC
CTCAAACTGCAAAATGTTCACCAAGTACCATCTTTGGCCCAGTTAGGGAGACCTGTAGGAAACAAAGCCTCAAAGCAGACTCTGTAGCCAGCAAGATAGT
CTTATGACTCACCAACTCTTCCTTCACTTCTACAGCAGCTAAGAAAGAAGGTGCCAAAGTCAGGCTGACTAGGTGTACACCCCAGTTCCCCTGGTTCCAT
GCTGTGTGAATGTGAGCAAGTGACTCACCCTCTCTGCGCCTCAGTTTCCTCTCCTGTCCAATGGGCACAGTATCCACCTCAGTGCTATTATGAGCATTAA
ATGAGAAAGGATTAAGTGTGAAGTTTGTCATAGAAGTGGTCCRTAAGCGATGGTGCTTATGCTGAAGGAGGAAGTGAGGAGGATGAGGATTCACAGGACA
CCCTACGGGAACTCAAGTGCACCACACGTTGAATCCCTGTCTTTTGCAGTCGCCCTGTTCACCATCATTTGCAGAAGGTGGTTGATGGTGGTCAGACGCC
TCTTCCTCAGTTCCTCTTTGGGCCCCTCTGTCTAACTCTTCTTGGAAGGAGAGAGGCCGTGGGTCTGGAGCCTTGGGAACATGGTGCTTCTTCCAGTAAA
ATACAAGTTCAGCTGTCTCTTGCCTTAAGAGAGATGGCTGTGAGGTGTGCTGGGGCTTCAGGGCCGTGGACGGGGAGCCAAGTGGAGGAAATAGGGGCTC
TGGAGTTCTGTTGTCTAAGGGATTAGTTGATGTGTGGGACATCATTATGGGCATCCCAAGTAATGCAGGTCCTCAAGGCAATACTTCCCTACCAGCCAGC
AGGATATAGGGGACTAAGACTCAGCCTTGGGCAGGGGCAGCAGAGCCTGGCCCAGAGCAGGGCTCCCACCCTGGGGGAGGTTAAGGAGATAACAAGGCTA
GTTATGCAGTCTGTTAGGACAGCCCYGGCAAGGGATAGAGTAACCTTCCAGGTGTGCAGCCTCACCAATAGTTATAAACCCCAGCCTCAAGGCAGGACCC
TCCAGCCAGGTTCAGAGCCTCCTCCTCTTTGAGCTCCTTTGCCAGGATTGGTTCAGGGCTGAGGCCATAGGAGATGACATTCTATCTGCAGCTGGACAGG
GATGTGGGCCAAACATGGCAGCCCTGGCCATAAACCTCCCAAAGCCTGAGGGTCATTCTGACCCAGACAAACAGAAAACCTATCCTGCTATAAAAATTGT
CAGGTGGCCGGGCGGGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCTAAGGCAGGTGGATCACTTGAGGTCAGGAATTGGAGACCAGCCTAGCT
AACAYGGTAAAAACCCCATCTCTACTAAAAATACAAAAAAAAAAAAAAAGTTAGCTGGACATGGTGGGTGGTGCGCGCCTGTAATCCCAGTTACTCAGGA
GGCTGAGGCAGGAGACTCGCTTGAACCTGGGAGGTGAAGGTTGCAGTGAGCCAAGATTATGCCACTGCACTCCACCCTGGGCGACAGAGTAAGACTCCGT
CTCAAAAAARAAAAARAAAGTTGTCAGATGAAAAGAAAGAAGGTATCTCTTTGTCCTCTTTGTCCTTTCTTAACATGCTACATTCCTCTGGAAGTGACAA
GTTTACTTCTTTTGTAAGAATTGATTTTACCACCACAAGTTACTAGCCAATGGGTCATAGAAGACCTTAGGCCAATCCTGCCCCCAGAACAAACAGTTGT
TTGCATGTTCCAGTGGGAGACATGTTTGTCAAGAAAAACATTTTCACATTAACCTGGAAAGTTCTATGTAAACGTCAAGTACCCTTGCTATTGTTGTTTT
ATTTTCATAATGACTAGTACAGAAAGTAAAGCAACTCAGGTTTATCTTATTCCAGAATCCAACACCTCCCAAAATGTGTTTCGCAGAACAATTCAGAGTT
TATTAGGCATTACTGAGAGTAAAGTTCCAAAGTCAGGGCAGTGATTATGTAGTCAAATTTTTGGAAATTCTGGATTAAGCAAGGTTAAGCAGGTTTCTCC
TGCAGAAACTCTCAGATAAACTTGTGAGCACTGGTTTCTTCAAGAGGGAGGGAGTTTCTGTTGTATTTTTTAAAATTACCTGACACACTGAATGTTTTTC
TTATTAAGTTTATTTCTCAGCCAGTGTATCATAGAACACACCGGAAAATAATTTTCTACCCCACTATGCAATTAATCAAATTTAGCCTCAAATTGCATAT
TTAGCTATTCTAAGCCTAATACTAACAGTATTTAGCCATGTTTCACCATAGGGTACCACTTATTTTCCATGTGTTTTTCTGTCTAGATATATTTGATCAT
CCCTGGGCTAGGGTGCTGTCGGGGCAGATCGGGCTGAGCAGGGGGCAGCAGGGCAGGTGCTGGAGAGGTTCACATAGGCCGCAGGATGAAGGACCTGGTG
CCAGCCTAATGCTCTTCCTCCAAGGGACCAAGGCTTGCCACAGTCTTCTGAAACAGGGGCAGCACGTGTTACTGGTTTGGAAAAACTGAACTTCCCTTAG
AGAGTGACAGGAGCAGGAAGGAGGCAATGTGGCTCCCTGCTCCCCTGCAATCTTGCTGTATCCCAAACCTTCTCAGGTCCTACCCTAGGAGGCCCTGAAA
CATCCCCCTCTGCATCCACTCTTCCAGCTCAATATTAAATTCCTTAAAGGCAGGGTCTAGCTCTTCCCCTTTTCCTCTGCCCCATTTCCCCAGAGAAATG
GCCCCAACTTTTTAAGAGGTTGAAGTCTTTGACGCAGAAGAGATACCTCTTCCCTCTGGGTCAGGGTTGCCCAAATTGGCAAATTAAAATACAAGAAACC
CAGTTAAATTTGAATTTCAAATAACAAAGTCTTTTTAGTATAAGCATATTCCAAATATCCCAAGGGATATCCTTATACTGTAGAAGGGTTTGTGTTTTTC
TGAACTTCAAATCGAACTGGGAGTCCTATATTTTACTTGGCAGCTCTATTCTGGGGCCTATGATGTTTCCTTCTTGGTGGTGCTTCTTTAAAGAATCCCA
GGTGGAAGAGAGGAAGCCATGGGTTCTGTGGTTAGGAAGCAGCAAGGAGAGTTCTGTTCTGACAGCCTCTCTGTGRCCCCTCTGGTGCAATGATGGATGT
CTTTGCAGCCCCAGCTAGTCTAGGTTGGAGGAAAGGGGCCAAGGAGAGCTCTGACTGGATGTGGGTTGGGAATCCTCTAGGCCTGGCAAGGAGAGGAACT
CTGAAGTTACCAAGAGCATGGACTCCACACTGGGGAAGCAGTGAAACAAACAAGGGTCTTGAATCCTGGGAGATCAAGATTACAACATGGTAAAAGGCAC
AGCCCTTAGATCAAGCAGCTTGGGTTTTAACCCCAGCTTTGATCCCAACCTGCATTGTAGCCCCGGGTAAGAGTTAGCCCGGCTGTTCCTCAGTTTCCTC
CCTGTAAAAAGGAGACAGTTGTAGTACCTCCGTCCGCATAAGATGAAATAGAAGAATGCTAAGCAATGTGCCCAGCTCATAGTAAACACTCAAGCCGTGA
CTATTATTACTTTCACTACTCCTACTAGCTGTGTGACCCTTCGGATCTCTAAATTCAACTCTCTCTTTGGTAAAATGAGGTCATCTTTACCAACCTAAAG
ATTAGCTATAAAGACTAAAAATGAATCCTATTTTAATGGGGAAGGGTGGAGGCTATAAATACACAAGCCCTTCCCTGCAGTCAGCACAATGCCCACCTGT
CCCCAGGGCCAAATGGTAGGGAAAAGGAAATTTGATGTAGGTCTCAATCTTCAAGTGCCACCTGCCTGTCTCTTCCAGTACCTGCTAGTCACCTCTGTCC
AGCACCTTCCCTGGTGCAGCCCACTCGCCCCACAGTCCCTTCCCATCGTTGACTCCCATCAAAACTGAGCTTTCCTCACTTGCTTTTATCACAGGAGTTG
GGGGGGGGGCGTTCCTGAGATATGAATCATATGCCTCACATAAGTACATAACTGAATAAACACTAGTTCAGGGTCAGCAAACTGTGGTCTGTGGGTCAGC
TGGCTATTTTTATAACTAAAGTTTGGTTAGAACACATATTGCCTGTGGCTGCTTTCACACTGCATGGAAAAAATCAGGTCCCTGTGACAGAGACCATATA
GCCTGCAAGGCCAAAAAATATTTACTATCTGGCCCTGTATGGAAAATGTTTGCCAATTCTTACACTATTTATTGCTTCKTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTAATTCTGATTAATATATAATATATATTTTATTATGTATACATATATATTTAATTCACTCAACACATTCCGGCTTCAACTAAGCACTCGCT
TCCTGCCAGACATGAAATCAAATGCTAGATATATAAAGAATACAGCACTGTTCCTGCCCCTCAAGGAGTCCAGAGATGAAAATAGACACCTAAAGAAACA
ATTACAACAAGCAGGCTCAGCTCCTGTTTGGAAGCCAGGGTGTTATAAGTGGATGAATGAATGAATTACAATGTACAACAAAGTGCAGGAATTGAAGCGC
AAGGAAACCCCCACGTAACTCCTTAGATGGGSTCCAAAAAAACCCAATCATGTAAAATGTGGGCTTGTGAGATTGCAACATTAACAAAATGAACAGAGGG
AGCCTGCCTATTTCATGGGCCAGGAGATTCAGGATTCTAACAGCCAATTGCCAATGACATTGTGACAGTATTTATAGTCAATCAAGATGTGTTCTTGTGG
GATCTTATGGGTTATACAAGACACTTAGGGTATCAAGGAGGGCTTTACGGAGGAGGTGACATTTAAGTGTGGCTTTGATGGAGTTTGCCAGATGAAGAAT
TTGAGAGAAAAGGTAGAGAGGACAAGATGAGAGAAGGCAGAAAAAACGTCAGCAACAGTCAGATCACAAGGATGGGGGCAGCCTAGGCCTAAGCTTTAAT
TCGTACTGATGGCAACAGAGAGGTTCTTAAGGTTTTCTTTTTATTTCCTTTTTTTAAAAATTAATCTTTCRAATTATTATGTATTCTCATGAGAGTCACC
CAGAAGACCATAGGTTCTGTGTTTGCCTGTGCCTTGGTGGTAAGGAACTTACTTTTATAATGTGGGCTCCTGGCAGGGTCAATAGGGCATGGCCATGGTG
AATTTGTCATTCTAGAATGCTGGCTCCRGCATTGCTGAGGACAATGCACTGGAGAGGGCAAGGCCAGCAGTGAGAAGATCAGAGTTGGGCACAGAAGTCC
AGGGAAGAGACCATGAGGGTCTTCAAATGAGAAGGAAGTTATAGGGCTAGTGTGGTTTATGGAGGACAGGAAACTCTAGGAGAGAGGCCACATTTGCTGC
TGTCAGAAGTAAAAACCTAAAAACAAGAAAGGCCCTGGAGATTGAGCAGTTAAAGCTCAGAGAGATAAACCCAGCTGGGCCAGTGGAATAACTTACATGA
ATAGGTTAGTGGGAGTTGTTCTCAATCTCAGCTTTTCAGTCTCCTGGAGCAGCCGAGGCTCTGTTTCTCACGTTATGATTCAGCAGGTTTAGGRACAGGG
TCTAAGCATCAGTATCTTTATAAAACTTTCCACATAACCATGATGCTGAAGGTTGCAGAATCACAAACATGAGTCGAGAGAATAGGCTTATGGCGGAGGG
CTTCTGCCTGACAATGGTTAGGGCAAAGCCCAGCAGGGCGGGGCCCTCTGACTAGTTGTGGGTGGCATCCTCCATCTGATGCCCTGGCACCTCTGCCTCT
ATTTGATTGACAGGTAGCAGGAAATATACAGGACCAACCTAGAGGTCAGCTTGCCTGGTTGTCACCCCAAATCCTCTCCCTCAGGAGAATGCATGTGAAT
TCCTTGTGAGAATGTTTCAAGGTACAGTAGTCACTATGGACTTCCTGTGGAATGGACTGTGCAAGAATGGCCTATTGCAGGCAGAAATGTGGAATCCCAG
ACAGTGATGTGAAAACCTGCCTCTGCCCCTGCAGTGAGCTACGTGGCCTTGGATAAATGCTCCAACATCTCTGGCAACTATGCTTATCTCAACAAGTGAT
GATAATAATAGCACCTCTCTCGATAGGTTGTTGGGAGGATTAAATAAGATCATTAAGTCTCTCAGTAAGCTTTTATGAAGTTATTATTATACATCAGGCA
CTGTTCTTGGAACTGAGAAACAGCGTTGAACAAAAAAGACCAAAAAATGCCTGTCCTTATGGAGCTTACACTGTAGCAAGGTGAGACTAACAATAAACAG
ATGGATGTATCAAGCAAAAATACATATCATTTGTAGTATATGAAGTATATTAACTTTATATATGACATATATAAAATGTATAATTATATATCTCATGTAT
AATAAAATATAAATATATATCAGTTGAATGGAGAGGAAATGGAGACAGCAAGTATAGAARACTCTTTGGGGATGGAAATATATGAAAAGCACTTGACATT
AAGGATAGCACAGAGTAAGTATGCTATGAATTATGTTTAAAAGGCCAAACCGCTAAAAATAAGGGAGTCGTAAAGATTAAGTAAGCTAATATATGATGCA
GAAGTGCCTAGCACAGATCTGGGACTCAAAAAAGAGTAGTTTTTATTCTTCCCTCCCTGATCCTGCCCACTGCCCCCAGATCACACACATATGGACACAC
GTACACAGGCATCACCTTCTCTTCTTTCCATGATGAGGATTGTGGGAAGACTAAATCCTTCTCCCTGAATTCTTCTTCCCAACTAGCCTACCACTTGGTA
TCAATCGTATGGCCATGGAGATGAAACAAGTTACTTGATRGAAGAGAAGAAATCAAAACATATGGAGGGTGCTTGTCCAGAGAGCATAAATGACTCTTCA
TTATAATAAGGGAACCAAAGTCTCAAATTAAAAATAAAAGAAGGCATGATGTAGCTTTTGCTGCACTTCAGCCACAGAGGAGATTCATTGTCATRCAATC
ACTGAGAATATTACGTTGATTGGCAAGAGTCGGGCTTTGTAGAAGAGACAAAAATTCCCCACAGCTAATCTACAATGGAATTGTTCAATGTCAGGCACTG
CTTTAATAATATTGTTCTGGGCTGCGTTGGATGTAAATATCCCCCTCTTCATTTGGTAAGCAATCAAAGGGAAGCTTTATAGATGGGAGAGCATGAACGG
TTATAGTATCTGTGCTAAAAAATACACGGACATTCTAAAAAAAAAAATCAAAGAACACGGTGCCTTAGAAAGGATTCGCTTTGTAGCTTATCTCCAATCT
CCTATGTCTGTCCAGCAGGTTGCACATTAGACACATAACAAAAGACCACACTTTAAATGTTGCCCTTGACATTATTAAAAAGTACAGGACTGGCAAATCA
GACTGGGAAAAAAATCAGACTATTAAATCTGGACAGTCGGGTAATCTCTCTTCATCTTATTGCAGTGCCTAGAATGATGAAAGGAGTAAGGGAACTCTTG
TTTATTAAGCACCCACTATGTGCTTGGATGCTTTGCCTCTGTCAGAAGCAGTCTCACATTCCAGAGTGCTGAACAATGGAGGCAGAAAGACCGAGGTCCT
CAACCTAGCTCTGCCATTTTCTAGTTGTTTGGCCTTGGGCAAGCAAGTGAATGAAGCTCTCTGTGCCTGTTTTTTTTTCACCTGTAAAATGAGGATACTC
CATATCCCACAAGATAAAGTGCCTGGTATGTTTCAGGTCCTGGACTAAAAGTAAAATAAGCTTTTAGTCCAGGACCTGAAACGTACTAGGCACTCAGGGG
TAGGTATTATAAGTTGAATTTTAATCTGCGCAACAGCCCTGTGATGAGTTGAATTGTGTCTCCCTAAAAGCTATGTTGAAGACTTAACCCCCAGTACCTG
TGAATATGACCTCATTTGGAACAGGGTCTTTGCAGATGATTAAGTTAGGATGAGGTCATTAGGATGTGTACCCTATCCAATATGAGTGGTGTCCTTATAA
AAAAGGGACATTCAGACACAGAAACAAAGCAAGAGAACACCGTGTGAAGACAGAGGATTGGAATGACGCATCTGCAAGCCAAGGAACAACAAAAATTGCC
AGCAAACCACCAGAAGCTAGGAAGAGAAAAGGAAGGATTCACCTACAAGTTTCAAAGAGATCATGGCTCTGCTGACACCTTGATTTTAAACTTCTAGCCT
TCATAACTGTGAGAAAATAAGTTTCTGTTGTTTTCAGCCACCTAGTTTGTGGTGCTGTTACAGGAGTCCTAGCAAATGAAAACACCCTTACAGGATGAAA
AAGTATCCCCAGTTTCTGAAGAATTGAAGGCCAGTGAGGGAAAGTTTACAGCTCAAGATTGCGCAGCCAGATCGGGGATTTGAACCCATGTCTCTCTGAG
CCTAAAGTCTGGCCTTTCTCCATCCACTGTGGGACCTCTCAGGAGTGGAGCTTGGCATAAAAAAGCAGGTGGGGTTGGAAATGAGCCCCATTCATTACAC
CCAGGTCCCAATGGAAGCATCAGGTCAGAGTGGTCTGATTGTGAACAGCTCATTAAGTAAAGAGCAGTGAGCKTTTGAGAGTGACTTTTTAAGAAGAATC
GACTTTTATTTATAGTGATGTTCCAGTCATTAATTTCGAAGGAAGAAAGCCCAAAGCAGAAGCAGGTTCATTAAAAATTTGACATTAGTAATTTAATTAA
ATTGGGTCTTTGCGTCTCATTGCGGAAAATGACACGTTAGTTCTACACCAGTTCTCAGCTCATTTCCCCTAGTTGGCTCCCTCCCCTCACCTTAGCTTGC
TTTTTTCTCCAAATGTTTACCTGACCTGCCCTTCCCACCCCACACTCATAAGCACACACACATCACAGTCATTGCCTCTGCTGTAAGACACCTGCATAGG
ATTATGGGAAACACCAAGTGAGCCAGCAGCAGGGCATCATGGGAAATGCCAAGTGAACCAGCAGCAGGGACTGATCATAGAAGATGCTAAATAAGCCAGG
AGCATGGGATCTCATGGGATACACCAAATAAGCAAGCTGCAGGGGATCATGGGAAGTACCAAGTAAGCCAGTAGTGTGGGATCATGGGAAATGTTAAGTA
AGCCAGCAACAGTACAGGATCATGGGAAACACCAAGTAAGTCAGCAGCAGATCATGGGAAGTATCAAGTAAGCCAGCAGCATGGGATCATGGGAAATGCC
AAGTAAACCAGCAGCAGGGGATCACGGGAAACGCCAAGTAAGCCAAGAGCAAAAGATGGGAAGTACCAACTAAGCCAGCAGCATGGGATGATGGGAAATG
CCAAGTAAGTCAGCAGCAAGGGATCATGGGAAATGCCAAGTAAGCCAGCAACATGGGATTATGGGAAATGCCAAGTAAGCCAGCGGCAGGAGATTATGGG
AAATGCCAAGTAAGCCAGCAGTGTGGGATCATGGGAAATGCCAAGTAAGCCAGCAGCAGGGGATCATGGGAAATGCCAAGTAAGCCAGCAGTGTGGGATC
ATAGGAAATGCCAAGTAAGCCAGCAGCAGTACAGGATCATGGGAAACACCAGGTAAGTCAGCAGCAGGAGACCATGGGAAGTACCAAGTAAGCCAACAGC
AGGGGATCATGGGAAATGCCAAGTAAGCCAGCAACATGGTATCATGGGAAATGCCAAGTAAGCCAGCAACATGGGATCATGGGAAATGCTAAGTAAACCA
GCAACATGGGATCATAGGGAATGCCAAGTAAACCAGCAGCAGGGGATCATGGGAAATGCCAAATAAGCCAGCAGTGTGAGATCATGGGAAATGCCAAGTA
AGCCAGCAACATGGGATCATGGGAAATGCCAAGTAAGCCAGCAGCAGGGGATCATGGGAAATGCCAAGTAAGCCAGCAGCAGTACAGGATCATGGGAAAC
ACCAGGCAAGCCAGCAGCAGGGGAATATGATAAATGCTAAGTAAGCCAGCAGCACAGGATCATGGGAAATGCTAAGTAAACTAGCAGTGTGGGATCATGG
GAAATGCTAAGCTGGGCCAATGGACAGGGCAATAGAGGTAAATCTTTTCATCTAGATCATCTCACTTGGCACAGGTAAAGAATGGGCAAGGAAGAGCTCT
TCAGTCTTTAAGATTCACTCTCACAAAAATATAAGCCTCTGAGGGCTGGCCCCACTGTGCCAAGCACRGTAAGCCCACAATGAATTTTTGTTGCATGAAG
GAATTAATACATGAATGAGTAACTCTCCAAATAACTAATTAATGAACATGCACATATGTCCCTACAAGTGCCAGGCACTGTGCTAGTCTCCCAGGATATA
CCTATGAACCAGACTAGGCCCACGCCCTCATGGCCCTGTGGCCCAATGGAATGAGAACATTTGCCATTTTGTGAGCACCTACTATGTTCTGGGCGTTGTG
CCAGGCATGCAGCATTTATATTGGTAACTCCCTCAACCGCTAAATATTATTGGCCTCACTCCTTTCTCATTTGAAGAAACTAAGGCTCAGAGAGTTCATG
TGACTCAAGGTCACACAGAATAAGACATGATGGCACCTGGTTTCACACCCAGATCAGGCTGGTTCCAAAGTCTACCATTACCCTCTACACTGAGCTGTTT
CCTCTCAGAGGAGGAAGAGAGGAAGGGGGAGGGAATACCTTTTTTCAGAGGGTTCTGAGATCATCAGAGCTGGTAGAGGGTTCTGGAAGGCAGATACTAA
CAGCAACATTGGCAGGAAGAGGGTATTGCAAGGACTAGGGGGGCCATTTAGAGTCCAGGCCTGCCCACTTCCACTTCCCCATCACTGCCACCCCACTCTT
TTACTCCAGGCTCCCTCAGCTCCTGGGTTATCTCTGGCCTCAGGGCCTTTGCACATGCTGTTTGCTCTTTTTTGCTTAGCTAAGTCTTACTAATCTCCCA
GGGTTCTGCAGAGATGTCACCTCCTCCAGGAAGTGATCTCTGACCTCTCCCCCAGCTGGGTTTGGTTCCCTACCTGTTCCTGTCCCATCATAACTCTTAG
TGTGCCATTAATTGTGCACAGCACCCACTGTACCGAGGGTTAGATTCACTTGCGTTGTACTCACTGTACATCAGGCTCTGTCCTAAGCACTTTGCATACC
TGAACTGGCTTAATTCTTGCAACAATTATTTTGATATAAGGAAGGTGCTGTTGAGCTCCCTATCTTACAAATGAGGAAACTAAAGTGCAAAAAGGTTAAA
AGACTTACTCACGGTCCCACAGGTGGTAAGATTTCAGGCTGGGAAGTGAACTCAAGCACGGTGGCTTCCAAGTCTGCACTTACCACCATCCGGCTGCATG
GCCTCTCAGAGACAGCCTCAATAAGTCATTGCCAGGTGGATTAATGGAGAGGTACTTAAACGGTAGTCTGGGCATGACTAAGACCCCTACTCCTCACCCC
ATGGGGGTATCCTAGAATGATAGGAGGTGTTGACCTTTAAGGCACAGGCAGTTCTAACTCTGGGGGACAAGGCAGAGGGCAGGGGGAAGCTGGGTCAGTT
AGAACAGGTGACTGACTTATGGGCACAGAGAATCTGTGTCCTCCCTCCCTCCTTATTGCCAGGTCATGGTGCTCTTGCACCTTCCCCAAGACCATTTCCT
CTGCCTCATGAGAGCACACTTGCAGGTGACCATGATTGCTTGGCTCTGGCCACACACTGTGCATGGTGTTTCCTGGCTCCCAATTTTCCCCCTTTAAACC
AGTCAGGCTGATGAGAACCCGGGTTCTTGTTTTCCCACTTCACTGCCTATTCTGCCTAATCCAACCCTTTCAACTCCCCTGAACCTGCGGGGCCAAAGTG
CCCCTCTGGCTGCCAGGGTGGATCACACATGAAAGAAAGGACACTGGATTTAATGAGCACCTACTCTTATGCCATGCCTTATGTCCCTTCCATGGTATTT
AGTGAGGAGTGTGGAGTCTGAAATCAGGCCAGCCATGCCCAAGAGGTTAAAGTAATATTCCTGGAATTGCATCTCTAGTGATCAGGATGAACATAATTCA
CATCCATGGCTGCGCATTAGAAAAGGCAAGAGACCTGGACATCCAGTTGTAAACTCATGTGTGAGATTTTGAGTAACCCTTGTCTCTTATGAGTAACCCA
TTCCCAGGGAATCTACAGCCTTGAGAAGCGGGCAGATCAGCAGTGGGCAATGCTGTTCACAGAAGAAGAAATGAGTTCCAGGAAGCCCGAGTGGCCTAGG
GAGTTGCTACTAGGAAGCCCGGTGTCAGGGCTCCAGCCCAGCTCACGGGGTACCCGTCTCTTTCTCTGTTTCTCCTCACAGTTCTCCCCAGCCACACATG
TGGGAACCCAGGGAGGCTGCCCAATGGCATCCAGCAGGGTTCAACCTTCAACCTCGGTGACAAGGTCCGCTACAGCTGCAACCTTGGCTTCTTCCTGGAG
GGCCACGCCGTGCTCACCTGCCACGCTGGCTCTGAGAACAGCGCCACGTGGGACTTCCCCCTGCCTTCCTGCAGAGGTAGGTGGCCAGCAAGGGGTCTGA
CAGAGTGGGGCAGTGGCTGGGAGGTGATGCTGGAGCTTCCAGTGACATCCAGTCTCAAAGGGCAAAGCTACACCCCAGCAGGGAGGGGGGTACCCAAGTC
TGGACAGCACAGAGGGTTTTCAGGGTCCTCAAGTGTTCTAGGGGTATTTCAACCTCACCTGACCTCCTAACCCTCAAGTGTGCACTCCCTCATTTTTTCC
CCTGTATCAACAAACTTATATGTAGCCAGTCTTCCCTTACCTCTAGCCCTCCTGTCTCAGAAGAAACATCATTTCTCTTCCTATTGCAGACCCTCTCTCC
TCTTGTGGAAGCCAGATCACTTTCCCAACAGCTTTCGTACTGACCTCACTGTAGGAATTATTCTTTTCTCTTTCCTATAAATTCAGCCTCTCTCCCTATC
TAATAGTTTCTTCCTTTCAGCCTCCAAATATGCTCAAAATCTCTTTACTCCAACAACCCCCTCCCCCAGAAAAACACCTCTCTTCTATGCTGTGTCGGCC
TCAGCCTCCCAGCTAGGTTGACCAACTTGTTCATATTTGCCCAAGACCTTCCCAATTTTAGTCCTGAAAGTTCCGCATCCTGGAAACCCACTCAGTTTCA
GGCAACAGAGACATTTGTCACYCTACTCCCAGCCTATTCCTTACACAATCTTCTTTTTTTTTTCCTTTCTTCCTTTCTTTTTTCTTTCATTCTTTTTCTT
TTTTCTTTTTTTTTTTTTTTTTAATTTTATTTGAGACAGGATCTTCCTCTGTCCTCCGTGCTGGAGTGCAGTGACGTAATCATGGCTCACTGCAGCCTCA
AACTCCTGGGATCAAGCGATCCTCCTGCCTCAGCCTCTGGAGTTGCAGGGACCGCAGGCATGTGCCACCATGCCCGGCTAATTTTTTTTTTTTTTTTTTT
TTCATGGAGACAGAGTCTCTCTATGTTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAATGATCCTCCGGCCTTGGCATCCCAAAGTGCTGAGATTACAG
GCATAAGCCACCATACGTGGCACACGATCATTTTTAAAAGCTTAGAAAATACAGAAGGGAATAAAGAAGAAAGAAAATTTACCTGTTTTAACTGTGATTT
TAATGTATGTCCTTTCCATCTTCTTCCAATACGTATTGCACATATGCATATATTACAAATATGTACATAAATTGAGATTATGATGCATGCAGACAATTTT
TAACCACCTTTGAAAAACAATCAATCACATCACACTGTAAGATTTCCCATGCCATCAACATAGCCCAGCATCTTGAAAGCTCCATCCAGCCTTGTCCCTC
CTTTTCCCTTCTCATTTACTCCTCTGCAGACTGGCCTTTGCCCTCAATATTTGCATCATTTTGCCAAATCAGATGGGAATTGTTTTGGCTCTTGTATTTC
TTGACCTCTTAAGAAACCTTTGCACTATTGACCACTCTTTTCTTCTAGTAACGCTCATCTCTAAATTCCATGGATCCTGAACATCCATATATCAGTCTGG
GAGGAACATTTCCAGGAGTTGAGAAGTCATTGGAATAACTAGCTCCTCCTTTAGTTCAAATTTTATTTTTCTTTTGGAGGAAGATTTTCTGTAATTACTG
TAAAAGACTAGCTCCAGGGATAAGCAACTCCTTCTTCCTGCCACATGCACACACTTTTTGTTATTGACACCAAGGATAAAAATTACATGGCATGTATACC
TATTCCCCTTCTTCCCAATCCCATGGCAGACATAATTAATTGTTCATTGCACCCTTTCTGCTTGGGTCCAGACACAGCTGTGAATTCCCTCCCAATAGGC
AAGCCACAGCCAATCAATCTGAGTTGCCACTTGACTTCACCTTTGTTTACCTCTCCTCAACCAATAGAATGGGCCTTGGCCATGTTGAGCCTTCTTGGTG
GACCACAAGGGAACTAGAGTTCCCTTTCCTGCTTTCCTAAGTCCCATCTTCCCAGGCCCCATTCCTAACTCAGGAACTGCCTCTTTCCATGATGGACTTC
AGGAATTACCAAACCAATCAGGTGAGACCTTGGCCCCTACACAGGTGTGTGGCCTAACCACAGCCTGAAAGCTGCTGTATCTGCCCTTCCTTATAGCATC
CTTACCCACCCCCTGCCTTAAGGATGTTACCGTTAACATTCTGATCTTCCAAGGAGGGTGTCAGAGTTGTGACACGATGATAGAATATGAAATATGATAG
TAAATAAAATCAAGTGTCTAAGTTATGAAATATAAACTGCAGTTCTTTTTCTTTTTGCAGCACTATAAATRCCATGCTATTTTGTTCAAGATAAAAACCA
GAAACAAATGTAATCCAATTACTGGATGCAGCGGGGGTATCACTCTGCTTGGGGAAGTAAAATACTCAGCAATATCCAATGCTAATATGGTGGAAATCCA
CTAACCCTCCTAATATCTCCAGGAATCTGTCAGCTTTAGCTTCCTCTGAATCTTGAACTCAATGCCCTGTCTCCCTACCCCTGCTTCTGCTCTGCCAACT
TAGGTTGGGAACTGGGTCCATTTTTCTTGGATCCCCTACTTCTCCAAAAGACAAAATACAAGCCAACAAACAAAAACATCAACGAAGGCGTCTGCATGTA
GTTCAGGCTTTATGGAAGGTGTGGCAATGCAAGGAGCTTACATCTTAGCAATGCAAATGACTTAAAATGAAAGTATGAGCAACCAGGAGCTTCACAGTCT
TTTGGCCCCTCCTCCCGGGAAGCTTCTCCCTGGCTTCTGTCTTGGCAGGCTCCAGGTTCCCCTGTGATGTGCATTGTACCCTCTCTTCTTTCTCCAGCCT
CTTCCACCTTGGTGCTGCCTGCACCTTGAGCCCATTTCAGAATTTCCATCAACTTCTTAGGCACAAGAGCCTGGTTTCCTCTTGGTTTTGTCATCTCCTT
GCAGTCTAATGTCTCCCCTCCTCCTCCAAGCTATTTAGGTATAGGGTAGTATTTTCCTGAACAAAGAGAACTCTCATTCTATAAGACACTCTGGGGCTGG
ATGTTAACATATCTTTTTGTTACCCCACCAGCCAGAGATAAGTGATGAGGGGCACCTCATGGAGGTCTTCTACCTCTTGGATGTCTTCATGTCCAATCAA
GGCTCACAACCCAGTGTCTTTGTGTCCAGGCACAGCGGGCAGCAAGGGCTGGCCCTTCCGAGGGAAGGAGCAGGGTGGAGAGATACCACTCTTCTRGCAT
TCACACCACACAGTAATTCATGGGCCTGGGCGGGGGTGGCATGTCTTTTGGTGGCACGACTCTCTGAAGTCTTCCAATTCTTTTTTCGTCKTCTGAAATG
ATGATGATTCTTTCCCTCCTTCTCCTTCACTGACTTTCCACCCTCATTCCCCTTAAATACTGGAGGGCCCAGCTCGGCCTCTTCTCTGGGGATTTCTTCC
ATCTCTTGGAATTTCTCATCTACTGTGTTGCTGTAATTGTTACTAGGGGGCAACTCTCCAATCCCCACCTCCAACCCCATTCTCTGTCCTGAGCTTCAGG
CCCCTGTGGAGAGTGAACTATGCTAAAGTTCTCCTCAGCTTGTTTCAAACTTGGCCCATGAAAACCTCACTCTTCCTGCTTTCCCCAAACCTGCTCTTTT
TGTTGCCTTCCCCAGCTCAGTGAAAAGTGTCCCCACCAACAGTGGCCAAGCTGAACCCCTCAGGGCATCTTACATTCTTGCTTTTCTTGCTGTTCACATC
GCATCATCGGCCCCCATGTCCCTCTGCACCAGCCTACCCCCTCCACATCTCTGTTGCTCTTCAGATGATGGTCCAGGCTCTCTCGTCTCTCACTTGCCTC
ACTGAAGGTTGACCCTCTGTAGGCAGGTGTGCCCCAGTTCTCTCCTGCTCACACCAGCCCATTCCTACCTGTACTGCTAGGGAGAACTTGCTAAGGCACA
GATCTGACAAAACTGAGTGGCTCAGTCCCTTAGTGGCTCTTCATCACTGACGGGGTCTAGTTCAGATTCCTTAGCATGGAGCAGAAGGCTCTTCCAGAAA
GAGCCCCACCCCAATCTTTCCAGTCTGTCTCTTAGACTTATTTTAAGTAGCTTCCACTTTAGCCACACCAGAGAATGCTCCCTTCCAAACGCCCTAGGGA
AGCCAGCTGAGGATGTCAAATCCTGCTTCTAGAAGGGCTTCCAGCCCCCTGCTGCCTGAGGGGTCTGAGATGTGGTTCTGCTCAAAGGCTGGGAGAGAAT
AAAATGACTTTCCAACTCTCAGACCCCCTAGGGCTTCCCCCCACCCCCAGTCACCTCCCTACCTTCAGGTTCATCTCTATTATAATCCCCACAAGCTACA
AGAATATCCTAAGAAACATCCTCAATAATGTCAGTGATTTTATAAAAGTGATTTCCCAAACTGTTCTTCCTTAGGAGGCCAAGCTAAACAGGAACAAAGG
GTACCCACCATACACCCATCCTGTGCCAGGAGTGGTGGTCATGCCAGAGTGAACAGGTTCATACTTGGGAAGCATTAAAAGCCTTTTGGCCTTTCTTCCT
CTCGTGTAGAACTCTCAAGAGCTGGCATCTGCGAGTGGGTAAACCTCATCCACTGGGCAGTGGTCCGTAAATATTTGCTGAATGAACGGCTGTCTGGATG
GGTCTAATTCACCATCAGAATCATGCTAGCATACAAGCCCGAAAGGGAAATTACTAGCCTGGGTTACCCCACCTGCCCAGTAGCTCTGAGTGACAATCTC
TTTAAGTCCAAAGCTTCCCGGAGCAGACTGGAAAGCCGTGTGTGTCTGTTTTATCTAGGAAATGTCATGTGCCCAGCTGGAGGGTGGACTTGGTCTGGGG
ACACAGCACAGACTAGGAGTGGGGGAATAGGGAACAGCTGGGAATAGGGGGGAGCCAGGTGTAAGGCCGACCCCCAAGGAGGCCCATCCCAAAGATCCTG
ACCCATCAAGGCTTGGTCCAGCTGACAGAGGGAAGGAGATGGGGCCTGTGACCCCCCTTCACTTTGTGTCACACTGGGCACGTTTTCAAAAGCAGAGGTC
CCTGGGAGGTGCTGAGCTTTGTGTCATCTCTTTGATCCACAAGAGGGAAGATCATGTGGATTTCAGCAACAGGCCTCTGAYTTATGAGGGCCATTGGCCC
TGGATCAAAGAAGGCTGCATGGGGAAGTGACGGAATTCATATGCACTGGGGACTGAGAGGCAGGTGGTAGGGAGAAAGCTGGCCAGAGCAAGAAGTGCTT
AGCCTCTGAGGTTCAAGCCAAACACGGCAGGCTGTCACCATACCTGGGGAAGACGGAATACGGTCTGCAGAAGCTTGGACTGCAAGCGCTGAGCTGTATT
CCAAATTTTCTGGCCCCAGGGGAAGAAACCTGCAGAATGTGAAAAAGAAGCAGTGGTGTCGGGTATGGACAGTGCATAGAGTCAGACTGGCCTGGGTTCA
ACCCTAGGTAAGCCAGCCCCTAGCTGTGTGGTTGCCAGGGGTGCTGCTAAACCCCTCTGAGTTTTAAAGGTGGGACACAAGTAGCAGCCTTACAGGGCTG
ATTGTGTCCTCATTTTATTCACTTGGCTACTCAACAACTTTCTCTTGAGTGCCTGTTATGAGCCAGCCAGTCATTAATTCAATTATCATTTATTGACTGC
CTATACAGTGCCAAATATTGTTCTAGACTCAGAGAATTGGAATGATGAGCAAATCTGACCAAATTCCATGATCTCTTGGAGTTTACATTCTAGCAGCCAG
GAGGCAGAAAACAGATACACACGCCAAATAAACAGGTGGTGGTAGGAGCTACGAGGAAGTAAAGTCTTAGCCAGTGATGGGGAAGGCTACTTTAGACGGA
GCAGTCAGGGGAGGCCTCTGTGGGGAGGTGGCCTCTGAAATGAGTCCTGTGACAAGGAGGAGCCTGTTGTGTGAAGACCTGGAAAACGGCATTCCTGGCA
AAAGAAGCAGCAAGTGCAAAGGCCCTGAGGTGGGGGAAAGTACTGGACACGCTAGAGGAACAGAAAACAAGCCCCTGTGGCAAAAGTAGAGTGAGGGGTG
GGTGGAGAGGGCAGGGATGGGGTGAAGCAAGGTAAGAAAGCGGAGGCTGAAGCGGGCAGATCGCGAGATCAGGAGTTTGAGACCAGCCTGACCAACATGG
TGAAACTCCATCTCTACTAAAAATACAAAAATTAGCTGGACGTGGTGTCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGTCAGGAGAATCTCTTG
AATCCGGGAGGTGGAGGTTTCAGTGAGCTGAGATCATGCCACTGCACTCCAACCTGAGTGACAGAGCAAGACTCTATCTCAAAAAAAAAAAAAAAAAAAA
AAAGTATAGGCTTGGTTCTGAGTTCAGGAGGCAACCAGGGGAGAGTTTTAAGCAGAAGTATAGTCCAATTTAACTTAATTTTTTTAAAAGATCACTCTGG
ATACTAGCTGAGCAAGAGCCACAATAAGAAGATCAGTTAGGAGGCAGCTATTATGGGCAACCAGGCTGGAGTTGCTGCATCTTGGTCGAGGGTGGCCGGA
GTAGAGGTGGAGGGACAGGCGTAGATTGGGGCTGTGCTTTGGGGATACAGCCAACAGACCTTATAGATGGGTTGGATGGCTGATAGAATAAAGGGCCAAA
GTTGACTCCTAGGCTTTTCCTGGAGGGCTGGTGGGTGGGGATGCCAATGACCAAKATGGAGATGACTGGCACAGAGGGCAGGAAGCATGTGCCCTAAAGG
GAAGCAAGACAGCTCACTTTGTCCAGGTAACGTTTGAGACGCCTGTGAGACATCCAAATGGGGGCATTGATTCTGCAGCTGGAAGGAGTCCTAAGCTAGA
AAGAGATCTGGGAAAGGCATAAGAGGGCAACACTGTAGATAGCAAAGAGGGTCTGGGCACTGCATGCTGGACACCATTGTGTTGATCAAATTTAACAACA
TGGAGAAGGCACTAAACACTATGCCGGGTGCAGTGTGCACCTTGAGTGATTCTGAGCACTGGGGCCTCAACAGCGACCACAGCTACCCAAGGCCACTCTT
TACGATAGGGTAACTCTACTGCTACTGGGATAACTAGCCTTCCATCACTTTTGCAATTACTGTTACTATACCAGAACGTTTCACGATATGGGCTCTGGAG
GCCAGTCACCTGGATTCAAATCCTGGCCTTGCCACTTACACCCACTGGCTGAGTGGCTTGGGACCAGTTACTCAACCTCTCTATGCCCCAGTTTTCTCAT
TTGTAAATGGGAATAATAATGGTACTTAACTCATAAGTTGGCAGTGAGGTTCACATTGATAAATGCTAAGCACATAGCAGAGGGCCTTGTTCATAGTTAT
GACTCAGTGAGGGGTATCTATCATTGTCATTCTCACTGCCACAGCCTCACTGGCCACCATATTGAGCCCTAACTAAGTACCAGGTCCTGCATTACCTGTT
GTAATCCTCACAACTCCCAAGGAGGTTAAGGTAATGTTATCTCCTCTTACAAGTGAGGAAACTGAGGCCCAGAGAGGTGCAGTGCTTTACCTGTGATTAC
ACAGCTTGAGAGTGGTGGAGCCAGGATTCAGCGCAAGTCCACGTGCCTAACAGCCATGATCTTGACCACCACCCTCCACTGCAGGCAAGGATGGTGGCCT
CTGGCCCACAGCAGGAGACTCACAATGATGCTGTGATTTCCAGAGCTTCTCCAGCCTGATGGTTCAGGGCCTGAGAGCTTGGCCTGCAGGTGCAGGCATC
CCCTGCATGGCTCCACCAGTCAGGGACTGGCAGTCTCTTGCGGTTTCCCCTTGACCTTCCATGCATTCCTGAGGAGAGAAACCTCTGGGAAAGGGCCTGA
GGTCATTCTGTTGGACAGATGCTGCTTCAGGGTGGGGGCTGGAAACTACTTTTCCATCCTATGAAGAAAGCCAGACCCAAGGTTCACCCACCTCCACTTA
AGCACTGGTAGCTGGACCAGCACTTTTGAGGCAGCACAAAGGCCCCCAGGCAGAAGAGAAGGGAGCAGGAGGAAGCGTCTCATGCCTGGAAAACCCCATC
TCCAGGGTCTGGTGCTTCCAGGAGCCTGCTCCTAGCCCATGTCAGGAACAGGATTATAGTGACTGAGGCCCAGGAGGCAGACAAATAGGTGGGTAATGGT
GTGGGCCTGGAGTCACAAGGTCTTAGGTTCAAACCCTAGCTCCAACATTTAGTAGCTATGTGACCACAAGGAAGTCTTAAAAACTCACTGAGCCTCTGTT
TCCTCATCTGTAAAATGTGCACGATAATACCTATGCTCTCGAGGGTTTGAAGATTAAAGGGGAAAATGCAGGTGAAGCATTTTGCACAATGCCTGGCCCA
TAATGAAAGCTCACTAAGGAGTGTCATGTAATCAAATACCATGTCCTGTCTACATTCTTCCCCTCAGAAGGATACCTTAGGTGGCTGTAACTATAGGAGT
CTGGGAGCAATAGTGATGTTCTCAGAATTGGTCATTTCTTCATTTTAAGGAGTGTCATTGATAAAGCCAAGGATAAATGGGCAGAGTCCAAAGCCCCCAG
GAAGAGGGGACTGAAGAAGTTGAGCAAGTTCTGGGGGCCCCAGCATGTTTAGGCACACGAAACCATTCACCACAAGAAAAGGGGGTGGGCCGCAACTTTG
GGGCACTCCTGCCCTGGTGCTCTCAGTCTTGCACTGGAATTGGAAGATGGTGGCTTCTCCTTTGGGGCCTGTTGGCATCTTCATTTCCACAGAGGCTGAG
GGGTCCTGGGGAAGATGATATGAACAGAAGCCAATTCCAAGGACCCCAAATCTTCTAGGCATGCAAGATGGTACCCTAGAGCTGGCCTGAAGTAGAGAGG
ATAATGTCCTGTTTTCTCCATTTCCTGCCTGAAATTTGTCAGTCATTGTAGAGTTAACAGAAATCAAAGAGGATTGAGGGAGAGTTCTCTAAAATTATGG
CTAATTGAAGAGATTTCCGTAGAACTTAAAGTCGATCATAAATAAAGTCATAAACTTGGAAAGGCAACTATCAGCATAACACACCTGCACCTGAGAATAT
GCATGACTTAATGGTGGTGCAAAATGCCCATTGCCAGAGAAGGAGAAAGTGTAAATGAATATTTTAGGACTATGGTGTCAGCTGAAGGTTATATTTTATG
ACTCTGGAGTTGTAACCATGAAATATGATGCCTTGTCTAAAGTGGGAGAAAACCTCCAAACAGCTTTTGCAGGATCTTCAATCAAAACAGGATGATGCAA
GGGCCAGGGTGTCGGATGAGCCCAAGAGGCAGGGATGGCTAAAATGGTAAAGGTGCCGCCTTCAGAGGAGACTGGTAGCTCTGGCCAGAGGATCTCAAGT
TCTCAAGTCCTCAGTTCTAGCACAAGTCCAGAAATCATTGCCTACAGTTGGGAAGTTTGAAAATCTCGGGATGGCTTACCAAACCACTATCAAGCAGGGA
TGTGGAGGAGACTACCATCCTGGTACCAGAGACACTCAACTGAAATCTTGACTCAGCCACTCCCTATGTGACCTTGGGAACATTACTTAACCTCTCTGAG
CTTCAGTTTTCTGTTACATTTATTTGTTCAGCAGATATTAGTCAAGTGCCTGCTGTATGCCAGGAAATCTGCTAGGTGCTAGGGACAGAACAGACATGGC
CTCTGTTCTCATGGAGTTTGCTATCTACATGTTAACTAAGTAATGATATAATTGATCAATTAATTATGGAAAATCATTAATTATGGCAAAATATGTGGTG
CTCAGAAAGTATATGATGGGGGAGGGATTATTCTATTTCTGTAAAGATCCTCGAGGAAGCAGCACTTGGATCGGGACCTAAAGGCTGAGGGCGAGGGGGC
AGTCAGGCCCAACGAGATAGGGAAGAAGTTTCCAGAAAGAGAAAATAACACTTTCAAAGGCCCTGGAGCAAGGCAATGCTTAGTGAATCGGAAGAGCTGG
GAGGAGGCCAGGGTGGCTGCAGATAGTAGGGACAGAGAGACTGGCATGAGGCAAGGCCCTGTAAGGTCCTTGTGAGTCATCGGGTATTCCACTTTATCCT
GAGTGACAATGGGGGTTATTGATGGTTCCAACAGAGAGAGTGGTGTAATCAGGCCCATGGTTTCCCGTATTACTCTGGCCTCTGTGAAGAATGGACAGAG
GCTGCAAAGCAACCTACAGATTCAATGTAATCTGTATCAAAATACCCGTGTCATTTTTCACAGAAATAGAAAAAACAATCCTAAAATTCATAAGGAACAA
CAAAAAAGCCTGAAAAGCCAAAGCAATCTTGAGCAAAAAGAACAAAGCTGGAAGCATCATTCTACCTGGCTTCAAAATATATTACAAGGCTATAATAACC
AAAACAGGATGGTATTAGTATAAAAACAGACACAGACCAATGAAACAGAATAGAGAGTCCAGAAATAAATTCATATACTTACAGCCAACTGATTTTCAGC
AAAGGCACCAAGAACATGCATTAGGGGAAGGACGCTTGCTTCAATAGTGCTGGGAAAACTGGATAACCATATGCAGAAAAATGAAACTAAACACCCATCT
CTCACCATATACAAAAATCAACTTAAAATGAATTAGAGACCTAAACTTAAGACCCCAAACTATAAAACTACTGGAAGAAAACTTAGGGGAGTTATTCCAG
GAGATTGGTCTAGGCAAAGATTTTATGGCTAAGACCTCAAAAGCACAGGCAACAAAAACACAAATAGACAAATGGGACTATATTAAACTAAAAAGCTTCT
ACACAGAAAAAGAAACCATCAACAAAGTGAAAAGACGACCTGTTAAAGACGAGAAAATATTTGCAAGCTATTCATCTGAGAGGGGACTAATGTCCAGAAT
GTACAAGTAACTCAAACAACTCAACAGCAAAAAAATAATAATAATAACAATCCCATTAAAAAGTGAGCTAAGGACATGAATAGACATTTTTCAAAAGAAG
ACATTAAAATGGCAAACAGGTATATGAAAAAATGTTCAACATCTCTGATCATCAGGGAGGTGCAAGTCAAAATCACAGTGAGGTATCATTTTACCCTAGT
TAGAATGGCTATTATTAAAAAAGCAAAAAACAACAGATGTTGGCAAAGATATGGAGAAAAGGGAGCTCTTATACTTTGTTGGTGGGAATGTAAATTAGTA
CAGCCATTATAGAAAACAGTATGGAGATTTCTCAAAAGACTAAAAATAGAACTACCATATGATCAAGCAATTCCACTACTGAGTATTTATCCAAAGGAAA
GGAAATCAATGTATCAAAGGGATACCTGCACCCCATGTTTACTGAAACACAATTCATAACAGCAAAGATATGGAATCAACACAAGTGCACACCATTAGAT
AAATGTATAAAGAAAATATGGTATATGTAATATATATGTGTGTATGTGGTATACACATACATGGTGGAATACTACTCAGATGTTAAAAAATGAAATTAGC
TAGGTGCAGTGGCATGCGCCCATAGTCCCAGTTACTTGGGAGGCTGAGGCAAGGGATCTCTTGAGCCCAGGAGTTCAAGTCCAGCCTGGGCAATGTCCAG
CACAACTCCATCTCTATTTTTTTTTTTTAGAAGAGTGAAATCCTGTCATCTGCAGGAACATGGGTGGAACTGGAGGTCATTATGCTAAGTAAAATAAACC
AGGCAGAGAAAGACAAATATCACCTAACACTCATACGAGGAGTTAAAAAAGTGGATCTCATAGAGGTTGACAGTAGAATGATTGATAGTTACCAGAGGCT
GGGAAGGCTGTGTGTGTCCAGGATTGGAGGATGTAGGGCATGAAGAGAGGTTGGTTAACAGGTACAAATACACAGTTAGGTCAGTGGTCCCCAACCTTTT
TTGGCACCAGGAACCAATTTCATGGAAGACAATGTTTCCATGGACAGGAGGTGGGGGATGGTTTCAGGATGAAACTGTTCCACCTCAGATCATCAGGCAT
TAGATAACTTGCTCAACACTCACCTCCTGCTGTGCAGCCCAGGTTCTAACAGGTCCCGGTCCATGGCCTAGGGGTTGGGGACCCCTGAGTTAGGTAGAAG
GACGAATAAATTCTAATGTTCAATAGCAGACTATGGTGACTATAGTTAAAACAACAATGTATATTTCAAAATAGCTAGGAGAGAGAACTTGAAATGTTCC
CAACACATAAAAGTGATAAACTCTTGAGGTGATGGATGCCCTAAATACCCTGAATGGATCATTACACCTACTGTGTTAGGCTTTTCTTGTATTGCTGTAG
AGAAATGCCTGAGACTAGGTAATTTATCAAGAAAAGAGGTTTAATTGACTCATGGTTCCACAGGCTGTACAGGAGGCATGGCATTGGCATCTGCTCAGCT
TCTGGGGAGGCCTCAGGGAGCTTTTACTCATGGCGGAAGGTGAAGTGGGAGCAGGCACTTCACATGACCAGAGCAAGAGCAAGAGAGGGAGTGAGGGAGA
GGTGCCACACAATTTTAAACAATCAGCTCTCGAGATGACTCACTCACTGTCACAAGGACAGCACCAAGCCATGAGGCATCCATCCCCATGACCCACACAC
CTCCCACCAGGCCCCACCTCCAGTATTGGAGATTACATTTCAACGTGAGATTTGGGAGGGACATTCAAACTATATCACCTACTATGCATGTCAAAAAATA
ACACGCATACCCCATAAAAATGTACAAATATTTTATAACAATAAATTTTTTAAGGGAGTGCTCCAAGATAAAGTTCTCAATGCAAAAAAAAAGTATGTGA
GTTGATTGATATGCTAATTAGCTTGATTTAGTCATTCCACAATACATACATATATCAAAACATCACAGTGTATTCCATAAGGACATACAATTATTGTCAA
TTAAAAATAAAATTTAAAAAACTGAAAAACCAAAAGAATGGATGGGCTGGAGGAGGAAGGAGGCTTGGAGACCAGGAGGGGGCTTCATGGCTGTGGTTAA
CTTGGAGTGTGACATGGCTTGGGGTACAGCAATGGCAGTGATGGCGGGGGACAGGATTGACAGCCACCTAGATGGACTGCCAGCTGAGTCCCTGGCTGGA
TGTGGGGGTGTGGGAGGAGTTGAGGATGTCCCCTGAGCCTCTGCCATGAGGAAGTGGGTGAATAGTGCTGACCCTCCAAGATGGGAAAGTCTGGAAGAAG
GCTAGGCTTCTGGGAGGAAAGGATGAGAGTGATTTTGGTTGGGTTGGGTTTGAGAGCAATGTGGAATATCTAGTTGGGTTTCTAAGACTGGAAGTAGGCA
GAAGGCTCTGGAGTCATTGTCTTTCCCCCAAGACCTGCTTTTCTTCTGGAATTCTTTGTTGTCCACCTGGATGTGCAGGCCAGATTAAATGAGACTATGT
GGACCAAGGGCCTGATTGGAGACTTGGCCACACAGAGTGGCTGTGCCTGCTCCTGAGCCACTCCCTCCCCCTCTAATGTTTCTCTTTGGCCCCTGCTTAC
TTTCCACCTGAGTGCCCCTCCCTTCCCACCTTCTCTTCTTTCAGGTATCTTTGCTTCTGCCTGCTCCATACAKGTCTGTTCAGTCCCCAGCCTTCTCCAC
TCCTGTGGTGGGAGCTTCCCTCTCTGTCCTGCTGATTCCCTGCCTCACAGTCTCTGGGATCCCAGGCCCATAGGTATCCCCATCTGTTTATTCCCCAGGA
TCTCACACTCAGCATGGGAGTGGGGAAGAGCAGGGAGGAAGGGCCGTCACTTCCTGCAGAGCTGCGTCTCCTCTAGCGTCCCTGTCTCTGCTCTCTCCTT
CACCATCCATTTTCTGTTGGAGACTTCACCCTCTCATTCCTCCACAGTCTGCCTCCTAAATCCCTTCCTGCTGCTTCTCTTTCCTCCCTGCCTAGTTGCA
GCTTTGATGATGGGAAAACCTCTTCTCCATTCTCTGTCTCTGATCTCCCCACCGGCAACCTTCCCTGGCCACCAAACCATATCTTTCATCCATTACTATG
GGACCAAATCATCTTTCTAAAATAGGTCTGGACTTGTACTTCCTGCTGAAAACCCTCTTCTCCACACCTACCATGACTCCCCTGCACCTGCAGAGGAAAG
TCCAAACACCTCGGCAGTGCTGTCAAGGCCTTCCCCCAAGCAGCATGCCCTTCCAGGCCTTCTTGCCTCTGAGGGCCTGTTTGCTCTGCCTGGAACCCCT
CTATTTCTTCCCCTTCCAGCACACTCCTGTGCTTTTTTGAAGGTTCGGGCTAAATGTCCCTTTCTTCACCATGATCCCTTTCCCCAGTACAGTCAAGACT
CAGCCATTGTGCCCAGGGCGAAGACAGTTCCACCTGGTGTAGTGAGGGCCAGTGACAGGACTGTTGGGGACCAGTGGGCCCGGTGCTTGCTCGGAACAAT
ATTGGCAAATCTCCCACTTGTTGGCTGGCTCCTGTGGCTTATCTCCCTGGTAATGTTCATGGTGAATTTATTTACATCAGAAGGMGACAAACTCTGCCTC
AGATGTCAGACATCATAGCCTCCTGCCAGAGAGATACTCAAGGCAGAAATACTGTGCAACTTGATAAAACAAATCAACAGCACCACTGAACTGGATTTAA
AGCCAAGCAAGGCCAATCTTGCCTACCTTCCCTCCCTTCCTGCTTTCTGGGGCCTGGGAAGCTGGGTTGAGGGTAGCAAAGGAGGAAGAGGGGAGGAGAA
CAGAACCTCAGCTCCTCTACTCGGCAYTCAAGGACCTTCGCAGTCCAGCTCTTGCCTTCCTGTCCAGCCCAGCTCTGTCATCTCTGCATGTCCCTTTCAG
TTCAGACGGTCCTGCCTAATAAGTCCCTAAACATGCCACACTCCCCAACTTGAACTGTCCTTGCTGTTTTTCTGCCTAAAACACCCTCTCCCCTGAGGCC
TACCAGGCAGGCACCCTCAGCTGATGTATGCTGCCAGCTCAGTGTTGGAAATGAAGCCAGACTCTGACTATGTCTCACTGTTACCACCTGGTCTTAGCCA
CCATCACCTCTCACTGGATTATTGGGGTAGCTTCAAGAGGCCCCCACCTTGTTCCCTTGCCCTCTCTGGTCTGCTGTCTACATGGCATCCCAAGGGATCC
TGTTAATACACAAATGACATCATATCATCCTCAGCTCAGAACCCTCCACTGGCTTCTCAACTCATTCCGAGTAAAAGTCCACATCCTTACAGCGGCCTCT
CAGGCCCTCGGAAGCCCTGCCTCCCCTGCCACTTTCCTCCTTCTTCCTGCATTCCAGCCCTTTGGGTCTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAG
ATTGTCGCTCTTATTGCCCTGGCTGGAGTGCAATAGCACAATCTCGGCTCACTGCAAACTCTACCTCCTGGGTTCAAGCGATTCTTCTGCCTTGGCCTCC
CGGGTAGCTGGGACTACAGATGTGCGCCACCACRCCCAGCCAACTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCATCATGTTGGCCAAG
CTGGTATTGAACTCCTGACCTCAGTTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCAGTCCTTGGGTCTCTT
GATGCTCTTCAACGGTGCCAGGCCTCTGCACCCTGGTGACCTTTGCATTTGCTGCTCTATCTTCCGTGAATGCTCTTCCCCCAGGTAACCATGTGWCTTC
CTCTCTCATTCCTTCAAGTCTTGGCTCAAATGTCAACTTCTCAGTGGGGTCTTCCCTGACCACCCTTTCTGAAATATCCACACCCCCACTCCCAACACCA
GATAGCCCATTTTCCTCTGCACTTACCAGCTCATTTACTATAGAGTTAATTATTTATCTTGGAGTTGTCTTTATCCTTCTGACCAGAATGTAAGCTCTGG
GAGGATAGGAATTTTTGTTTTATTCACAGCTGAATCCCCAGCACCTAGAACAGTGGCTGACACATAGTAGGTGCTCAGTTAGCATTTGTTAAATGAATGA
ATGAATAAGTGAATGAATATATTAACACAAATTCTGTCTCTTCCATAAAGCCCTTCCTAACTATGTGCTATCACTGCGCCTTGAGCATCCCCATCRTAAC
TATTCTGTGTTGCCATTGCTGGCTTGCCTGCCCACCTCCTCCCTCAGAAGCATTTGAAGGCAGAGAGGAAATCAAGCTTTTCACATTGTAGTGCTGGCCC
TACCCAGTATTTGGCCCACAGTAGGTGCTCAGTTAATGGGTATAGGAGGGAAACCTTCATAAGCACCTACTCTGGGAGAGTAGGTGTATATCTTACATTT
CTGCACTCATAGAAACTTAGAAGTTAGCATTGAGAAATGCTATGAGTTGGCTCATGATTCTCTTGACCCTGTAAAGAACATTAGTAAGAATAGTTCAGAG
CTGCTAAACAAGATCACTTTTATCTCTAGCCCAGATGGCTCCTATATATCTGTTAATCTGATCTCACCRTTGGAGGCCCCACAGACATACCCACTTCTGC
GTGTCCAAAACTGAACTCCTGGTTGCCTTCCATACCACAAGGAGCTCCCTTCCTGGGTTTTCTGCCTCAGGAAATAGCACCTTTCATCCATCCAGATGCT
TATACCAGCAACCTGGATTTTATACCTCCTAGTTGCTGAATTCTGGAGATTCTGCTTCCTAAATATCTCTCAAATAAGTCCTCTCCCACCCTCCACACGA
CCTTAGCTCGATCTCATCCAGCCTCACCTGGACTGTGGTGRYTTTGGTGATACCAAGAGCATCCCATGCGCTTCCCTGACTCAGACCTCCTTTATACCAT
AGCCAGTGTTCTTTCTAAAATGCAAGTTTAATCACATTTCTTCACTGCCTTTGATCCTTAAGATGAAGTAGAAGGAAAAAGGAGAATCTAGCATTAGCAT
CTACCCACATGTCAGTCACTGGCTAATGCTAGTTACTGTCACATTAACTATCTAATTCAGTTATCACAACAGAGAAGCAAACTGAGCCTTAAAAAAAATA
AATTTCCCAAAGTTATGCAGGTGGCTGGGAAATTGTGGAGTCTAAATTCAAATCTAGACCTTCCTTACCCTAAAATCCATTTCCTTTCCAATGCACTCCC
CTGTCTCCAAATCTTTTTGGCTCAGTGTTCTCTGCCATGTGACTTCTCCTACATGCCATTACTATCTTATATTATTCATCTTTTTTACCCTGTGATGAGT
CATCTAGAGCTGTTTATCTTAGACATGCCTTGCACGTTCATATGTCTCTGCTTATGACCATTTGGTTCCTTCTTCCCTGAAATGTCCTTCCCCCTCTTCT
CCATCTAGTGAACTCCTACTCATTCATCAAAACCCAGCTCTAATGACACTTCCTCTGTTAGGCTTCTCAGATGGACTTGTCCAAACAAAGTCATTTGCTG
CTTTATCTATGTCCACAAACTGTGAATTGTACTCTTGGGAGACAGAAGGATGTATTGCAGGTATAGCCCATGGTGAGTGCTAGGGCTTGAAAACCAGACT
ACTCATGTAAGCCTCTTCTCTCTGTGCCCACAGCTGATGATGCCTGTGGTGGGACCCTGCGGGGCCAGAGTGGCATCATCTCCAGCCCCCACTTCCCCTC
GGAGTACCATAACAATGCCGACTGCACATGGACCATCCTGGCTGAGCTGGGGGACACCATCGCCCTGGTGTTTATTGACTTCCAGCTGGAGGATGGTTAC
GACTTTCTGGAAGTCACTGGGACAGAAGGCTCCTCCCTCTGGTAAGCACAACATCACCTTCCTTTCCTACCCTRTTCTCTGCAACTGTGAATTACTGGGA
TGCTTGCAGTCTCCTCAGTGCCTGGACCTGCAGCCAGAGGCCTCTTAGCCACTTCCTTATACCTACTGTTAGAGTCCTTTCATCTCATCCTAATGAAAAA
GCACTGCATATTTTTAGAGCTGGGGTAATTTTTATAGTGATTTTGATATCTGATTTGAAACATGTTCTTGCTGAAGATTTTTATGATGGGTCTTGGTTGA
ATAACTTGCATTAAGACTAAAAATGTTCTGGTCTCAGGATGTGGACAGGGTCTAGTAAAATGATTCAAAATATTGTTCCATTTCTGGAAGACATATGCAT
AGCATCCAAAAAGGGACTAGAACCATAAGTGACCATTGCTGAGACTAGAACATTTTTAGTCTTAATTCTTCCCACTCCAAGGGTCCTGATACATCAGAAA
GGCATTATGTCCCAGTGTCTGAAGGGTAGGACTTACTTTCTCCCTCTTGTTCTGGCTTTGCTAAAAAAGTGCAGGCTCTTCTGTAGTGTGCTTCATGGAG
AGTCTCAGTTGTTGATGGGTTAGGGAGGATATGAGTTATTGAAGCCATCGTTGCTTATCCCAGACTTGGGCTTGCAGGATGTGCTCAAATTGAGGATGGC
TTGAGGAAGTATCTGGCTTTCTGTTTGGGTGAGAAGCATCACAAGTGGTATTGTGGCATTTGGAACACTCTCTTGTATTCTCATTGTGGCTGTGTTATCA
GGAGGACTTTTGTTAGCACATGAGGAGCCAATAGAAGGATATGTCCAGGTGTACTTCAAGCAAGGATGGGGCATCGTTGGAGCCTTAGTTGCTGCATAGT
GTCAGGTGAAGGTGGGGATTCCACTTCCTGATGTCAGGCAGGAGTCACGGCGTTGGCTACCAGGGGGTGCCGCAGTGGGAATAGCGTTCTGGTGGAGGCC
CTGGGTGCGGGGCTGGGCCCGGCCAGGTCTGGCGGGGCTGTGCTCCAGGAGTGGATGGACGGAGGGCATAGGGGTGGGAGGAGGTGTCACTGAGGATTCT
GAGCGGAGCAGAAAGTGGGTGTCTGCAAGAGTCAGAGAAGACAGAGACGTGGCAGTCAGTGGGAGTAGGGAGGAGGAAGATGGGAAGGAGAGGAGAAAAG
GAGGGGAATGGGGCACGTTTATTGCACACCTTCCCTGTGCCAGGTTTCATGGCGGTAGGAACACCAGTTGAGTGAGACATGGTTTTTTAAGGAGCTCATT
GTCTATCTATCTGTTAGGTAAGAAAATCAGACAAACCCATGGTAGGAGCCAAGTGTGACTATTAAATATTTAAGAGGGATAAAGGGGGAATGGATTCTTC
CCAAGTATAGGCTCAGATTTGGGAACTAGCATAAGCAGAAAACTCAAGTTTCCTGGTGCAGTGGAAGGTGAGCCGACATGGGAGTCAGAAGACCCTGGTG
TCACCATGAGCTTCTCACAGGAAGCTGGCCAGGTCATTTCCTACCCTGGTCAGAGGGCTGAGAGAAGCACAGGTGAGTGAGGACAACCTGCTCTGTGGAG
GATGACATTCTATAAACTAGTCCAAGAGGAAAAGCTGGTGATTTTAAGCTAGGAGTTGGGTTGAAGGTTAAGGTGAGTCTTCACTCAACTGGAATCCTGA
TGATCTGCGCAGTGTGAAGACCCTTGGACCYCTGCCTCTTTTGTAAAATACCTGTTTACTGACTGTAAGTGTAATGCATATGCTCCTTGTAGAAAACATG
GAAAATCTACAAAGGTATGGAAAAATTAAAATTATTACAATTTTGATGTACTCCCCTTTGACCTTTTTTCTTGGCCTAGATYAAGCTAGCTGGCTATTTA
TATATATTTAATATGACCAAATTAGGATCTAAAAATATCTGTAGTTATATATTTTTAGCTAATTATTGTGTCATGAAATGTTTTCCTGTACCATCACAGA
TGCCTCCAAAATATACAAGGTCTGATAATAATATCATTTGTTGACCCTTTACTACCAATATGTGCCAGACAGGTTATAAGCTCTTTAGAGCTATAATTTC
ATTTCATCTTCATAAAAATTATATGAAGTAAGTAGCATAGTTTTCCTCCTTTTACAGAAGAGGAAAATGAGGCCCAGAGAGGTTATACTACCTGCTTGAG
ATCACACCGGCGAGTAAGGAGCAGAGCTGGGATTCAACCCCAGGTTAATCTGATACTAAAGGCTGTCTTCCAAGCCATGACAGCATGCTATTATGACATG
CGATATCTGTGATGAGTTTTCCGGGCTRTGTAGCATTCCCTTGTAAGACTGTAGCATAGTTTACTCATCAGACCTCTTGTTAGGTGGTTCCCAAGTTTTC
ACTTCTATAAACAGGTGCCAAGACGAATACCCTTGCCAGTTCCCTGTCTTCCAGTCCCAAGGCCTTTTCGACTCACTTGTTTATCCATGGGCCAAATGGT
CTCCTACAGCTTCTGCCCTCCAGGTGTGAGTCTACACGTTGTCCRAACTTTTGGAGTGAAACAAATCTGAAAGAGTTCCTTTTCCTATTAAGTCACTCAG
TGGGGAAGGAATTAAGCAGAGGAAATTATTAGGGGAGTCACTCAGAACTCTTTGCTATAAGATTACATTATAATTATTTACAGGGTTGGTGTCACCACTG
CCAGGATGGATGCATTTGTTGTTCTAATTTATACTTGCATAGCAATTATGGATAAACAAACTTGGAGACTCAGGACGTATGTGTGGGAAGAATCAGCTCT
CTCCCTTGCCCCTCTCCTTTATGGATCCCTGGATTCCTGTAAAAATTTGATGCTGCTGGTTTATGAGTATACTGCTTTTGTAAGCATACATTAAGATTTC
AGGATGTTCTCTTGCATTCTGTGCCAAGGCATAGAAAAACAACAGATCCTGTTAGCAAAGATGGATTTGGACAACTGGGCACCCCCTTCACCTATCAAGA
AGACARGAATTCCTTTGAGAGAAAAAAAAAATCCACTACCTCCCTTACCAGATAACAAGTTCCCACTGATTCAGAAGGGAGAGTGGCATGCAATGTCCCT
GACTCAGTTTCCACACTCTTCCCCTCCCCCTAAACGGGATAGCAACAAATTAGGGCTTCTGGACTAGTAAAATTTCCAAACAATTGGAGAAACATAGGAT
TGGTCATTTTTTATTTTGCCAAGTAAGGATGTTAGAAGAAAACCTGCCAACTCCTCAGAATATTATTCATAAAACAAAGGACAATTCAAAGCCAAAACTG
TGGCAGGAAATAATCAATTGGAAGTGTTGTCCTGACATCATGAAAGATAAGGTGCGGGGAGCACACATAAATAACAGTATGTGCCCATCACTGGAGTGGC
CAACAGTATACATGCAGCAATCAGTGGGCCAGTTCTCCCTGTTTTGCTGGTCCCGGTCCAGCCTTTGGGAATCCAACAATACATGTTTTGAACAGGAAAA
AGCTGTTACTGTGGTGAGCACTGAACCCTGTAGCTCTGACATGTTGAGCTATTCCCTAGTATTTTAGACTTACTCCCCCTAAAAGTTAATTGCATTTTTG
TGTGTGTGACCATGAGCAAAAGCTGGGCTTGGACTGACTGAGGGTTACAACCCACAGAGAAGAATTGGTATTACACCCTGACTACACATACATGTGTGCA
GCCCTCACCCAACATACACACAAMCACACACACACACACACACACACACTGCCAAATCGTCTCTGACACATACCTTTCCAAGTCACTGCCAAATTCACAT
CACCAAGTCATCCCTCACCCCCAGACCACCTTAAGCACATGTACACACCTGTCCCCCCTTACACACAGTTCCATTTCCAGTTCAATGTAGGAGCCAGACT
TTCTCTCACTGACCCTGCTGGAGTGTGGGGGTGGTGGGTTTTCTTTCTCTGCTCTGCTCTGACCCAGTCACTTGGCTCTGACCATCATGGAGCTCCATTC
CTTTCCATCACGTTCTAAGAAAACACTCTCACCTTTGATAAGCTTCCTCATGAAGCCCCAGGACTTTTTCAAAGGACTGGGACTGGGGATACAGAAGACC
CTTTTAACAATATGGGGATGTAGGTCCCTGAAGGATATCAGGATCACGTTATACTGAGTAGAAGTGATCTCCAGCCCATCACAGAACTGACCTCTCCATT
GGTTGAGAAAATCAGCAAAGTGAAGCCCCCTGAGAAGCCACTAGATCCAGAATCTGTCTCCTCTTTCCTCTGTCTCATACCCAACACTCTCCATCTGAGT
CTCTCCAGAACCATCCCCAGATTAAAAGAGAGGAGGGAAAGCCAGACATCCTCTCCTAGAMTATAGGAGAGGAAGTTTGTGCAGTTTCTCTGGAATTAGA
TATCGAGCCTGCACCATGGCATCGAACTGGGAAGGGGGTAGGCTTGGGAGTCAGCAGAGACACTTGGGCTCAAAACCAGCCACCTCTCAGTAGTTGTGTC
ATCTTAGGATATTTACCAGCTTTTCTGAGCCTGTTTCCACATCTGAAAAATGGGTCTCAGTATACCAACCTACAAAACACTTTGAGAGGGTGAAACGTGG
CAACTGCTGCCTGGCTCACCATAAGTACAATACTCCTGGAATGAGGCTTTGAGAGGAAAAGAGTAAGATGGAGCAACCCCAGCAATTCAGAGCCTCGTTG
GCCCTATTTTTGGTGGTCCCACTGAAGCCAACATATGAGCTTTCCAGCCCAGTGGCATCTCACCAGCAGAAAGGCACAGCCTGGCTGCCCTGACTCTATC
TAGCCTCAAGGGGAATTGCCTGGAAACTCAGATAAGGTTAGTGTGGGGAGAGTCTCTGGGTGAGACTGGAGGATGTCCTTGCAAAAGTTAGAAGAGGGGA
CAGTGATTTTGTTGGAACTATCTTCCCAGAGCTGCACTTGGCAAGCACATTATGGATAGCATCACTTCTGTTCCTGGATCTAGCCCCACACTGGCCAGTT
AGCTGCTTTGTTAAGCAGAAGAGGGCCGGATGCAGTGACTCACACCTGTAATCCCAAGACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGTCTAGGAG
TTCAAGATGAGCCTGGGCAACATGGAGACACCTGTCTCTACAAAAAATACAAAAATTAGACGGATGTGGTGGCACACACCTGTAGTCGCTGCTACTCAGG
AGGCTGAGGTGGGAGGATCACCTGAGCCCTGGAGGTAGAGGCTGCAGTGAGCTGAGATTGTGCCACTGTACTCCAGCCCGGGAGACAGAGTAAGAAAGAC
TCTGTCTAAAAAGCAAAAAGAAAAAGAAAAGCAGAAGAGGATTCTACCAATTCAGCTACCACTAAGAGCTCTGTGCAGGACTAGGAAAGCAGAGGTACTC
CACAGTGAGTCAGGCACAGCCCCTGTACTGGGGTGCTCACAGAGTAGGGGGGCAGGGACCATAAGTATGGAGAAGGCATTCAGGAGACAACTACCAGAGA
TGGGAGGGGCATCTCTGCTTGTGCCCCCTCGCTCTCTCTGGACCATGTGGTTGGAGGGTTCTATTGGGCCTTCTTCTCTCCTTCTTTCCTCTACCCCTCC
CCAAGGGGCAAATTCTTCCTACAACAGGGAAGGCAGACAGAGTCTGACCTGCACTCAGAATTGAAGCCACTCTTGTCTTGGGGGCCAGTGGAAGTGCCAG
CCTCAGGAGTGTGTGTGGGGGGGTGTATGATGCGGGGGTCGTCCAAAGCTCCTTTCCACCCGTGGGATTTCTGTGTAGATCCTGGAACAAACCTCTGCCC
CTCCAATTTCCTTGGCTGTGACTCTGTGGGTTAGTTTTGGCCAGTGGTTCCCAGTCTCTCTTCCTTGCCCTGGCCACTGTATATTGATTTTCTTTTTTTA
TCTATTTCACTCGGATCACCCTGGATGGGCTCTGCCTGCCCATTCTCTATGTCCCCACACTCCCAGGCCCAGTCCCCACAAAACTGTGTGCTAATAAACT
CCACCAAACATTCAAAGTAGGAAGAGAAAGGAGAGCACCTTCCAGGGCTCAGAGGAGGACACTGTCCTGGGGCAGGAGACCAAGGCCTCAAGGCAGAGGC
TGCACTTGAGACAGGTCGAGAAGGATGCATACCATTTTAATATAGGAGATGAGGTGGTGGGAAGCGCATTCTTCTAGGGCTTCTGCCTAGTCCTCCTGGC
CAAAGTGTGGGAGTTCCTTGATCCCTGGGACACAGTCCAAGAAGAAATAGTCCCAGAAATTCTCTAAGGAAGATGCTGTCCAGCATGCACCCACCCCGGG
GCTCTGGCATCTACCTTTGAGCCTAGGCATCTCCCTCCACCTGCAGAAGAATAGGATGCCTGCTCTATCTGTCTGGACTTCCCAGATCCTGGCCCTGTGG
CCACTGGGTAGACTTTGGCTGTTTTTGGAAAGAGAATTTCCCTGGGAAGCAGGCTCAACCTACTCTCTAGGTCCAGCAAGTAACCCTTTTGAGTTTCAAC
ATTAAATTTCCTTAATTTCATMCCTCCTTTTCATGTCCTTAGAGCTTTGACGGATTTGCTTCACTTCATTCCCTTCATTCATTTGCTTTTGTTTTTGTAG
GTGGCGATACAAAAACTGTCTACTCTGCAGACGTTCACTTTGAAAATTTTGCTAGCAACACTCTTTCTCCTCTTGAATGATCTTGCTTTAATTATTAGGC
ATTTTACCCATGGAATTTGAGCCAACTAGAACCATTTGATCTCAGTGACGTTTAACTAGATATCTCATTTAAGAGCCATTAGATCCAGATATAGTTAGAA
TGAGAATTGCACGCCAATGGAGATTTGTTAATAATAACTATCCACTTATTTATTTATTCACATATGCTTTATCAAACCATTGGTTTAGCTCATTCATGTT
CTTTGTTACTTTTCCCCTATTTATTTTCTGTAATCATTTATTGAGACTCTTCTATGAACGAGGCTCTCCTAGGTGCTAGAGGGACAAAGCCACAGTCTGG
GTTCCTAAGGAGTTATTTATTCCTTCCACAAATGTTTATGTAATAGCCAAGCACTGTGCTGGACCCTGAAGCTCACAGTCGGGGCAAAGAGGCAGAATAT
AATTAAATGCTTTGCAATATCATGTGTTAGGTGCTTTTCTAAGAGGTATAAAGAAGTTCCCCTAGGAAATAAGGAGAAATGTAATAGCCAGGATTCTTTG
GGTTTAAGAAATAGAAACCCACCTCCAGCTAACTCACGCTACAAAGGGAATGTGCTGGCCTCTTTAACTGAAAAGTCCAGAACTTGACTTCAGGCAGTGC
TGGATCAAGGTATGCAAATAATGTTTCTCCCCATCCCAAGGCTTTGCTCTCTTGTGTGTTAGTTTCATTCTCAGGCAGGCTTTCCCAAGAGGTGGCAAAG
GGGACCACCCTCAGCTCCCTATAACCTACCTCTCTTGGCAATCCCAGCAGAAAGGGAGCATATCTTTCCTAATGGGTCCTACAAAAGCCCTCGGATAAAC
CTTGGTGGACCAGCCTGAGTCATGTGCCCACCCCTCAATACCAGTGTAGCCAAGGGATGTCCTCATTGGCTGGATCCAGATCATGTGACTGTCTGCCCTC
CCCAAAACTCAGGCTGGGAGTGGAAGCCCTGGCAAGACAAAAACTAAGACTGTCCTTGAAACAAGTCATCAACCTTCCTGTAAGAGGGCGGTGATGCTGG
AAGGGCTCGGAAAAATTAGTCCCACAGGATGATTTTTGAGTTGAACTGAGGGGTAAGATTTTGCCATTGGCATGGAGCCGAAAAGAGCCCTGGTGCATTT
GGGGCATTGCAAGTCAGGTGCAGGGAGCAAGAGAGGAAGTGCAGGATATGAGGCCCAAAATGAACACAGGAGGAGCATGGACCAGGAGCAAGAACCCTGC
CCCTTGTTCATAAGCCAGAGAGGATTCCATAAGCTGTGGAAAGCTATTAAGAGACTTTAAGCAGGGAAGTAAAATAATCATTCTGAATTTTAAGTGGGTT
AAACAGGAAGGCCCAGAAATCAGCTATAAAACTTTTTTTGTGACTCTGCAGGCAAGAGAATCCAGCCTTGAACTGAGGCAGCTATGAAGGGGTAGAGAGG
AGGAGGGGCTGATGATTATCAAGTTCTGGCTGAATGACTATGGTGGGGCCATGTATTGAAGAGAGGAACACAGGAGAAGAAGTGGGCTGGGGTGGAGTGG
GGAATGGCAATGCCCATTGGTCTCTCCAGCACAAAATGAGCACCAATAGGGAAGTCAAGGCTGCAAGAAGGAAGAAGATAAGGCTGGATGTGCTGGGACA
CAGCTGCCCTTGGTTACGAATTCACAGTCATTGGGATAAGACTGGTGAAGGTGGTCAGATAAAATCAACAGCTAYACCTGAAAGCTTGGTGTTCAATACC
CTGGCAGGACCATGAGCGGTCATCTTCACAATGAGCACCAGCATCGTCTTTCATAGGGAAAATCTCCTTCATTATGGTCACTGTCATCTTACCATTTCAT
CTTCATTACCAGCATCTCTCCATCATCATTCAATCAKTCAAACAAACTACTCAGGCCCTTCTCCTGCTTGACATTGAACTTGGCACTGGGAATGCAATGG
TGGAGAAGACAAGGCCTCTGCCTTTGTGGAACTTACGGTCTATTTGGGGGAGACTGAAGTTAGTAAAATATTCAAACATAAATGTAGAAAGTATGMCACA
TGTCATAAAGGAAATGAACAGGATGGGGAATAACAGCAGTGGGGACCCTATTCTAAATCTGACCTCTCTGAGGAGGGTAGGATTTAAGCTGAGACCTGAC
TTTTGAGAAGGAGCCACAGGGGAAGAACTCAGGTGGCAGCTTTCCAGGCAGAGGGAGCTGCACATGTAAAGGCTTATCATCTCAATGTCCTATTTGCTCC
TGAACTTCGTACATGGAGGTAGCATAGGCCTGGTACCTGTCCTCTGAGGTTTCCTCTTTGAATGTCAGGAGCAAGGCAGAGTCAAGGTCTCAAGCTAGCA
GAGACACTCAGAAAACAGCTCAGATGGTGCATGACTAAGGATGCTGAACCCATGTTGGCTGAGCTGGTAAGCGAATAAGGCCCATTCTAACCGAGCCTCA
GACCTCCTGCCTTCCTGTGGGCTTGTGACGCCTTTGCTTCTCTCTCCTTCCTTGACACATCACAACTCTTTAAGTCACACTAAGTAACTGTCCTTTTTTG
ATGGAGCCCATGAAATTGCATCTGCTGTATCCATCAGGAGCCAAGCCATAAATAACCAGCCCTTTAAAATCTCGTCTCCTGTATCTCTTGGAGTTGGAAA
TAGCATTACAAGCTCTGCCGCGGAGCAGTAAGAAAAGATTAGTGCCTTAGCATGCTGCTGGCACAAATGTGTCCGGAGGAGTGAAGGCCAGGGCTCCAGC
ACTCTACATGGAGTATCAATGTGACTTCCTTGCTTCCACTAGTGAGAACTTGCTCTCAAAAAGAGAACAAAAGTCACAGCTGGGAGGAGCAGGAAGTGAA
CTGGTGTTGTCGCAGTGGGCACAGCGGCTCTGCTAAAGCTTGTGACTTGGCAAAGTTCTGTGCATGGGAAGCTGAGGTCGGGCAGCTGGCCTGCCCCCCA
TGGGTCTGACTGCATGCAACAGGTTTGTACTAAGTGCCTCATCTGCGAGGCGGCCTGTGCCAGGACTGTGAAGGGCACCAGAGAACAAAATGCTGTCCTC
GACCTCTCTTGAGGAGCTGCCAGATGCCTGATGGTGCCGCTAAGACAGATGGAAGGAGYTGTTCTGGGTCCTCCAGAGCCCCTTGTTCTGGCAAGACCTG
TCTTCTGGAATGATGTTGCTTCATTCTGAATGTTCAAGGCCCCCTCCTGGTCTCTGTTTTCATGTTTGGCCATGAATGTTTGTTCCACTCACTCTCAGCT
TAACCTACATGTTGTTTCACGTTGGTTTGCGTCTCTCCTGCTACTGCAACCACTTCCCAGGTTCCCAAGACTGACTTAAGTCTTCAGTTCTATCCCTTAG
TCTGTACTTTTTTCTTTTTTACTTTTCTTCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCAGCCAGGCTGGAGTGCAATGTCACAATCTCG
CTCACTGCAGCCTCCACCTCCCAGGTTCAAGTGATTCTCTTGTCTCGGCCTCCCGAATAGCTAGGACTACAGGCACATGCCACCATGCCCAGCTAATTTT
TGTATTTTTAGGAGAGATGGTGTTTCACCATATTGGTCAGGTTGGTCTCAAACTCCTGACCTCAGGTGAGCCACCACGCCCAGCCCAGTCTGTACTTCTT
TTCATCCTAGTTTCTCTTTATCCAGTGGCTGATGGGTGACATCCACAGACTCACCAGAGAGGCAGGATTCACACAAAAAACTAGCAATGACAGTCCGATG
AAATGGCAAAATCACCATTTCACATATGGTGAAACTCAACAGTTCAAATTCACATATGGTGGATCTCAACAGTTTGGGTCATTTGGGGAGGGAGAAGGCA
GAGTTTCTTTGAACAAAATGAGGTGGCTTCATGGACGAGGTAGATCTCTAGCATCCCTGGGAATTTCTCACCCAAGCTTCTTGAAGAGTGGTCTACACTG
GCTACCCTCAAGTCTTCTCTCCCCATTCATTCCTTACCTACTTCACTCCCACTCTTCAACCCTCCAGCCTCCTCCTGAAATCACTCACATTAAGATGATG
ATCAAAGGGCCGGGTGTGGTGGCTCTCACCTGTAATCCCAGCACCTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCT
AACAGGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAAAAAAATTAGCTGGGCGTGGTGGCAGACGCCTGTGGTCCCAGCTACTCGGGAGGCTGA
GGCAGGAGAATGGCGCAAAGCCAGGAGGCAGAGTTTGCAGTGAGCCGAGTTCACGCCACTGCACTCCAGCCTGGGCGACAGAGCCAGACTCCGTCTCAAA
AAAAAAAAAAAAAAAAAAGATAATCATCAAATAACCAACCCCACCCCTACCCCATTCCAAAGACTACCACTTCCAATTACCAATGCCAGAAGGCGTTTTT
CAGGTCTCACCTTCTGGACATTTCTGCATTACTTTACACTGTCAGTCATTTTCTCCTCTGGGGGCTCTGCTTTCTGCTTGCCTCCATGCCACTCTTTCTG
ATTCTTCTTGGATCTCTCTGGCCATTCCTTCCGTGTCTCCTTTGATGTCCATTCCTTCTTGCTGTACTGCTCTGCTCACTCCACACATCTCCCAGGGTAG
TCTTACCTGCTCTCAAGATTTCAGGTACTACCTATTTCCTCCCAAATATGGCTCCCTAGCCCAGCCTACCCACTGAGCCAGTCAAACTGTAGAGCCAGCT
ACCTGATGGACATCTCCACTTTGATGGACCACCAATATCTCCAACTTAACTTGTCTCAATTTTGCTCATAATTGACCCATAAAATCATCAGTCTGTGTCC
TTTCCTAGTTTATGGTACCATTCCCCACCTAGTTATCCAGAAATCTGGGAATATCCCTATTTAATCCCTCTCTCTCACCAGCCACATTCAATTAATTGCT
AAGTTCTCCCAATATACTGTACCTTTCCATCCTTTCTACCACTGCCTGAATTCAGCCCATCATCTTTTCTTCTTTGAGGGATGTAATAGCCTCCTTACTG
ATCTCCCAGCATCTTGGCACTGTCCAATTCATCCTCCTCACTGCTACGAGAATGGCTTAATTAAAATGCAGATCTGACATGCTAAGCCCCAGGCAAAAGC
TTTCAATCATCTTCTGTTGTCTACAGATTAAAATTCAATCCCTTGATAGGGCACACAAGGCCCATCTGGATCTAACCCTTGCCTAAGTAACCACCCCAGG
CTCACATCTTGCCACTTCCTTTTTTAAATTTTATTAACCCTAAAACTCAGTGGTATAACACCACAAAGATTTCCTTCTTGCTCATGTTACAGATTTGTGA
TGGACCAGTGGGAGTGGCTCTGATCCACATCATCACACATGTGGGTACCCAGGCTCGAGGGGGTTGCACCATATTCTAACCACACCATCTGAAATATGTG
GCCTTCTTTAATACCATGACAGGGAAAATGAGTGGAGAATCCAGCATGGCTTTCCACCACTCTAGCTCAGATATGCTATACATAATTTCCAACTCATATT
TCATTGGCCACAAACAGTCACACAGTCCAGCTTTGCTGCAAGGGAGCCAGGAAACGGGGATGAGCAGATGAGATGCTTGGTGAGCCGAGTTCTCTGCCAC
ACCTCATGCTTCTGTAGACAAGATGCCGTGGTTCCTGTCAAAGGCCAGCCCTCTCCTGTACTCCAGAGCTCATCTTCCTCCAAAATTTCCCTACTATATG
TATCTCCTTTTCCTTGCATTCCACAATTGTTCTCTCTATTGAGCACTTCTAACACCATAAAGGCATGTTCCAATATCTGCCACCTAAAATCAAAATAAAA
ACAGCACCCATCAAACCCCTATTACTCCATCCCACTCAGCTACCACGGAATGGCTCAGCCACTGCCAATTGCTGAGACAGTTCTTTCTCAGTTTCTGCCC
TGCTTTGTCACTAAAACTGACCTTGCTAAAATTGACAGCAACCTCCAGGTTGCCCATTYCAGTGTCGTTTCTCCATCTTCATCTGACTCAGCCTCTTGGC
AACACATGACACTGATCACCAGTCCTTCTTGAACTATTTCCTTCTCTTGGCTCCTATGAAACCATGTAGCTGGTTACCCTATGGCCATTCCTTCTTAGTC
TGTTTTGCTGTTTCTTCCAACGTCCACTCTCTGTCCAGCCTTTATGCTTGGACTACCCAGAGGGTCCTGGGACTCTCCTCTCTTTTATTCTCTTTCCCAG
CTAGCCCCAACAAATCACACATGGGCTTTCAATATCATCTAGATGCCAGTGGCTCTTGATTTAAATTTTCAGTCCTCAAGGGTCTTCTGGGCTTCATGCA
TATTAACAGGAATCTTAAAATGAACATATCGCTGGGCACAGTGGCATGTGCCTCTAGTTTCAGCTACTTAGGAGACTGAGGTGGGAGGACTGCTTGAGCT
CAGGAGTTCAAGACCAGCTTGAGCAACATAGGGAGACCCTGTCTCTTAAAAAAAAAAACGGAAAAATATATATAACATAAAACCTATCGGCTGGACACGG
TGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATGATGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCCATG
TCTATTAAAAATACAAAATATTAGCTGGGTATGGTGGTGGGCGACTGTAGTCCTAGCTACTCAGGAGAATGGCATGAACCCAGGAGGTGGAGCTTGCAGT
GAGATCGTGCCACTGCACTCCAGCCTGGGCGGCAGAGCAAGACTCCATCTCAAAAAACAAAACAAAACAAAACAAACAAAAAAACCTATCATTCCATTTT
TAGGTGTACAACTTAGTAGCATTAAGCACATTGGCTATTTAGTGGTGGATAACACCACTATCTATCTCTAGTACCTTTTTTGCCTTCCCAAATGGAACTC
CATGCCCATTAAAGAAGAATACCCAGAATAGTCAGATTCATAGRCAGAAAATGGAACAGTAGCGACAAGGAGATGGGCCGTCATTTCTTTTTAAGGCTGA
ATAATATTCCCTTGTATGTCTAAACCACATTTTGTTTATCCATTGATCTGTTGATGGACATTTGGGTTGTTTCCATCCARTTTGGACTTCTCATCCCCTC
CCCACTCATAATCTGTTCTCTTAGCCTTCTCCACGACCTCCCACATCTGTTTTCCTAAGAGGAAGCTGCTTCTGCCCATTTGGTTCCGCCAGCACCTTTG
GGCTGCTCGGGGGCCTTGTCTCCCTGCTTCTACCCCTCTGTAATCCATTCTGCAGATGGCACCTAGAGTGACTTGGGTTTATTAATCAAATCATGTCTCC
CCTGTTTAAAGCCTCCCAATGGCTTACTATCACATTTAGAATAAAATCCTACAAGACCCTACATTGTCCAGCCACTGCCTACCTGTCTGACTTCCCTCCT
ATCCCTCACTCACACCCATTCTCTGTGCTCTTCATCCTGTCCCTAGGGTGGGCTAAGCAGGTTCCCTGCTYGGGCTTCTGCACTAGCTGTTCCCAGGGCT
TAGGATCCTCCTCCTTCACAGTCTTCAAATCTTCCTTCCAAGTTAAAAAAACAAAAAACAAAAACCACTGTTTTTTTGAAATATAGAGTTCAATGTAAAT
TTCCTATCTTTAGAAAAGACTTTCCCGTCCATGCAGCCTAAAGTAACCCTTGCTGTCTATCAGAGGATCTTGTTTTATTTTAAACATTCATCAATACCTG
ATATTTTCTTGCTTACTTACGTATTTCTTTTTCTTCTGTGCCCTTCCCCTCCCCTGCCATTGCCAGCAGAACCGTGACAAGCCCCTAATRTGCATCTTGG
CACTTAGTAGGTATCCAAGGTTGGTTTGTTTGGAGGAGAGATCTGCTTCTGCCTTGCCAGTTACAATGTCCTGTGGCTAATTGCAAAGGTTAACATGGAG
CCTCTCCACCAAGTATTTTAAGTAATAACCTTCCTGGGGGACATTTGCAAATTAGCACTGACTCTTGCTGATTACTCATCCTAAACTCAGTCTGATTAAT
AATTAATCAGCAAACTGCTTGGCCAGAGCGGGCTGATCAGTGCTAGAAAGGATCTTAAATTATGCAAGTCACTTGGCCAGTCTTTAAAAAAAAAAAAAAG
CTCAGCAGTCGACAACAGAACTGGAGAGGTTTGATTGCAATGTGAGATCTCTCTCAGTTGTTTGTTTTTTCCTTTTTGGCTTTTTTTTCTTTTGACTAAG
AAATCAATTAGGCTCAAACTTGCAACCTCAGAGAGAGACTGTGTAGCACAGAAATAGAAATGTGTTAAATATCACTTTCTTTTTGTTTCTTTCCTTCCAA
AGAGTTTTGGTCTGTGAGGCAGAGGTTAAAATTAGCCAATTTGCTAAGCAAATGCCTGTCTGGCACTTGATGTCAATTTCTGCAGCCACGTCAGTTTCAG
CTATTCACTCACTTCCTCTGAGCTGCAGTGCCCTGTGTCTGGCAGGAAGGAGGTGAGAGATTTGATGGGTACTGTCTGCTTGCCCACCCTGGGGTTGGGG
TGAAATCAATTTGCCAGCAACCTGTCCCACCAGGAGTCCATATAGTGCTCTATGTCTCTGGCCTACAAAACCCAGAGAGACAGGAGGAAAGGCAATCAGA
GGGTGATGAACAGGCTTCCCACTCTCAGGAGTGAACTTGGGGACCGCCAGGGACCCCTCTTAAGCCTTATCTGTAGCCTCCAGCCTCCAGAGCCAGTCCT
GCATGTGGCTTTATCTTTCTTCTCTAGATACCTCTTCTGGTCACTGGAGATATGGCTGAGGGGGATACTTAGCGAAAGCTGAGGGGTTTGTGGACATTAA
TCTCCGGGCCAGAAAAAAAGGTGCAGGGATAAAGGGTTTAGTGCAGTCCATGCAACTCGGATCCTGATTAGAACCAGCAGGGTGACAAGGTGATTCCCCA
GACCAAATAAGTCAGCATGCCCAGGGAGGGACCCAGGCATCGGTGATTTTTACAGCTCACTGTGGATTCGTGTGCACCAAAGAGGAGAAACATGATGTGA
TAGAGCATGAGAGGCTTTTGGGAAAGAGATTATGAAGGACATCAAAGAGTGAAGTAGAAAATGGGCTTTTCAGGAGTTGATTGTCTTTCTGGAAATAGAG
GGACATCTCTCTATGTTGTGTCAGGCAGGGTAAGGGAAGAAGAGGCAGCCAGATGGGGCGGTTTCCAGGAGCCCTGCAGTTTCTGATCCATCTCAGTTAC
ACCCCCAACTTTTAAAAAAAATACCCTGTGTTTCCTTTAAAAAATGCCCTCTAGGACTTATCCTGTGTTTCTCAAACTGGGTTGCACTGACCAACTCCCT
GCTTCAGAAGACTTGCTTGAATGCTCTTTGGAAGAATGCAGATTCCTGAGCCCCACCTCTGTAAAATCATGGATTCCTGAGAATAGAACTCAACTAATTC
AGTATTTTTAACCATTTTCCTGGGTGTTCTGAAATAGATTTAAGTTTAAGAGTTACCCTGGGCCTAAATAGAATACTTTCCAGAGTGATAATATAAAGGA
AGTAGATTCTGCCCATTATGAAATGATTTGTCTTTTTATGAATTGATTCATTATTGAATTTCTCCCCAGTTATGTTTGACGTATAGGTTTGGTTATGGCT
TATGCGTGAGTTTGGGCAAGCACATCTATTCCATAAAATGAAGCACATTGACTCCTAGTAAACTTTATTTATTTATTTCACAAATATTTTTCCTTGCCTA
CTCTGTGCCAGTTTCTGTGATAAGCTTTGTGATTACAATGCTGAACTAGGAAGTCTCAACCTTTCAAGGAGCTGCTAAAGTTTAGCCTTGAAGTCTAGTC
TCACCTCCTTGTCTACCTGGTATAAGCCTGTGCAAGGGTCTCCCTCCTGAAACCTTTAGATGCATTGGGACCTGTGCCCTCCCTCAGCCCCACCCACACT
GGGCAACCCCAGGCTCCTACGACGCACTGGCACAAGCCAAACTTTTCTAGAATACAGAGTCCTCCTCCCAACATGAACTCTTTCAGAGCATGGACTTGGC
CCATCATCTCTGAATCCTCAGGGCTCAGTAGAGTCCTGGCACAGACAGGTGTAAAGATTTTCTGACAATTTGTTGAATAAATATAGCCTCTGAGATCTTA
GAGTCTCAGCACCTTCTCACAGCCAACCGCATCTCACCRGCATCAAAGGGAAAAGCATATGGCACTTGGCTCACCTCGCCTGGTGTCAGAGCCCTTTGGC
AACAGGACCAATGTCAAGATAAATAAACAGGCAAATATTCATTGTTTGCCTCTATGATTGAATTGAGGCCATCACATGTGTGGAATGCCATCTTGCCCCA
TTGGGTCTTCACCCCCAAGTTTGAGTTAGGTATTGGCATACCCATCTTGCAGATAAARAAACTGAGCCTCAGAGACTTAGCTTCCTCCTCACCTACACGT
GGTTCTCCCCAGCTGGGTTTTCCCATTTTGTTCCCTCTGCAGATCCTAGGCCAGCCACTCCAGGATCATTTCTCACCCTTAAAGTAGGCTTTGATGCAAT
CTGTCCTCTTTGAGTCTCTATCTGCCTTCCTCCTGCCTTAATATACCTTCAACAGTATAATCACTTTGAGAGCTACCATGTTTCAGGCACTGTACTAAGG
TTTTTATATGCATGGTCTCATTTAATGTTTACAAAACTCTTTTTTTTTTTTTTGAGATGGAGTTTTGCCCTTGTTGCCCAGGCTGGAGTGCAATGGCATG
ATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTCACCTTAGCCTCCCCAGTAGCTGGGATTACAAGTGCCTGCCACCACACCTGG
CTAATTTATTTGTATTTTTAGTAGAGACAAGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTAACCTCAGGTGATCCACCTACCATGGCCTCCCA
AAGTGTTGGGATTACAGGCGTGAGCCATTGCKCCCAGCCACAAAACTCTTGTAAAATAATAATATTATCATAAAGAGATTAAGAAACCTGATGTAATATA
GCTAGTAAGTGTCCGAGCCAGAAATTGGATCCCCATCATCTGGACTCTAAATCCTGATCTACCCCTCTTTCTCTTCTGCTCCTCTGGGATCTAATTCATT
TTCTTTCCTGACACCAAGGAGGGCACCATGGAGCATAGATAGCATTTGGACTCAATGTTGGGTTCAAATACCAATTCTGCTACCAACTAATCGTGTGACC
TCAGTTAACTTTCTGACCCTCTCAAGGCCTTTCATACAGTTATAAGAAATAATTGGGCACAGAAGACTTTGAACAGCCCCAGATTCCCAGCTTGTAAATC
CAGCTTGTGTCCTTCTTCTGCCCTTTCATGGTTACAGCACCTGGAAGGGCTTTCCTCCCCTCCTCCCCTGCCCCTCTCACCCTGCTCCCAGAGCCTCCCA
GCATATGCTCCGTGCAGACAGCTACACACAGCTTCTTTCAGAGGTTTAAGGTCCTGTGGGTCTTGGCCTCTGCAGTTGATAAGTCAGGGAGGCAGCTTSA
GGCTGACCGAGGCAGAGGCCACAGCAAGAGGTTGTCATGTCTCCTTGGGCCAGGCAGCCCTGAGGTCCCAGGGCCATTTGGCAGTACCCTGAAGGGCACA
TGGGGAAAGTCGGGGTTGAACAATAATGGCTTTTACTCTTCTCTCACAGCAAGTCACTTAGCTTTCTGAACTTCAGTTGCCCTAGTTTTATAAGGCAGGT
GATGGGTCCTCACCACCCTCACTGTAACCTGCTGGGAACATGCAGATTGGTGTACAGAGACCTCCTAATTTTTCACATATAAATCCAACCCCACAGATTC
CCTTCCAGTGGGATCTGCCTCCTAAGGTGATTTTTCTGGAACTGAGAGGGTTTTAAGGAAGAAAATACAATTACTATGTGTAGGGTACCAACGACATGCC
AGGAGTCTACACTGATTTTTCCTTTGTGCCTTTAAGCAACTCTGAGAACCCGAGACTCAGTGAGGTCATTTACCCAAGGTCACAGAGCTAGGAAGTTGCA
GCCTGAAGCCAGGGCCCTTTGCCTCCCAACCTCTGCTCTTTCTGCCCCTCTGGATTTTGGAGGTTGGAAAGAGACCTTGGGTATCCTGGAGAGATGGCCC
TGGGCCTATGCCATTGGCTTCAGCTTCTTCCCCCTGGGGCTGCTTTTGGGCCTTGGGCTGTGGTTGGTTGATGTGGGCTGGCTTCACAGATAGCCAGGCT
CATCGAGGCCTTGGCTCCCACATCCTGCCAGCTCCCTAGATGCCAGCCCTGGTGAGCGTGGGACAGACTGCCATCAGCGTTCCCCTTTCAAGAGAGCCCT
GTCAATGCAGATAAATGGCCCGTGTCATTTAGCCACATCCGTCACGTCCTTCTCGTTGCTGGTCTGTGGCCTGAGTTGTCCAGATAACCCTTTTCATTTA
GTGTTGTCTTTATGGATGCCACAGAGGTCTCCGGGCAATGACAGCCCAGCCTTTGCACCRACCAGGAAGAGTCACAGGCAGGCCTGCTTCCTGACTTCTG
TTTGCTGTCTGTTTGGCTCTCACAATTATTGGAATCTGTCAAGCTCCATCAAGTGACATTTTTCACATGAGGGCAAGTGTCCTTCAGGCCTCACTCTGAG
CTGGGAATGACATCCTGGACGCTGACGTGGCCTCCATCTTTCCACCAGCGGTTTCCTTCACAGTTGCCAAGCTTCCTTCAGCCCTGGCTCAACAGTGCCC
TCCTAAGCTTCCCCCTCAATGCCCTCAGTCCCTCTTTTTGTAATTACCCTTTCCCCAGCCCCACATTCCCCTGGTGCCTTAGCAAGTAATTACCTTCATA
GGGAAGTTGACAAGTCTCTGGCGACTCCTAGCCCCGGCTGGAAAAGATTCATTATTCTGTGTCTGGAAATAACCAGCCCCATCAGCACAGGGGCTGAGAT
AACACCAGTGTAAAAGTTCTTTATTCAGGGGGATTAATTAGGATTCCTTATTAAAGATCCAATTAGGCAAAAGGGCATTTTTATCTGTGATAGTCAGCTG
CTCCTATTTTTCTAAAGCTGTAACTCTTAAGTTTTTTTAAAAAAGGAAAAAGCAGGGGGTTGTGTTTTTGTCTAAAACAATTCACTCTTTCATTGTCAGC
TATGTCTTCATCAGGATGTGAAAATAGATTTTCTCATTCAATTTGCAGTGCTTTATCTCTTCGGAGTCTGGCAATGACTCCACGATATCCCTTCAACAAG
AACCGCAACTCAGATGGGCTGTTGGGGAGTGGGATGTTTGGTTATCATGACTGCAAGAGAAATAGTAATAGCATTTTTTAGCAACCTGACTCCATGAGCT
GGCAGGAAATGCCATCTCTGCCATGTAATGTCTGTGTGACCTTAGGCAAGTCCCTTCACCTCTCTGAACCTCAATGTCCTCCTCTCTCAATCTAACTCCA
AGGATCAGGATAAGGGTTTAATTGGGGCAATATTACAAAGTGACTAGGAACCCAGGGTCTTGACTGAGACCACCTTACACCCACACTCACAAGCCATGTT
GACTTCTGAACCTTGGTTTCCTCATCTGCAAAATGGGAGGGAAATACCTCCTCCGTCGGGTCTCTGGGAGAATTGAGGGAGATAACATTTGTGGAACCAC
CTTGCCCATGGAGGGCCCTTGATACATGTTTATCAAACCTGAATCAACTCATTTTGTATTTCCCTCAAAGACGCTCAGTGAGGTTCCCTGGAGTGAGCTG
TTGCCGCTCCCCATCTCAGGTGAATTGAGCTCATTTTGTCCCTGGTAGTGCCTGGGTGATTCCACAGTACAGTGAGGCTGAGACTCCTGGCTCTGTTGTC
ACCCGGCTGTGTCCTCAGTTGCTCCCCACGGAAGCAGTGCTGGCTGCAGGAGGGGTGACCTCTTGACCTCAGTCATGATGTGGACATACACAGTATGAAC
CCACAGGTTTTTACTTGCATTGTTAAAGACAGCAGCAGCAGCTTGTTTACCCCAGGAAAGAAAGCCCTGGAGAAATAAAATAATCTGGCTTCCAGAAAGT
TCAACAGAAAGTGTTTTGTCCAGTTGCCAGATTCCACAGATGAGGAAATTGAGTCCCAGCATCACTCAGCAAACATGTGGCAGAGCCAGGGCAGAATCGA
AGCTCTTCATGTCTGATCCAGATCTGTTTCCACCACCTTCAATGTTTGCTGGCCACCTAGCACTGAGCCGGCGTTTGTAGACTTCACATGAGAGGGTCAC
AGCAGCACCTGGCTCCAGCAGGATCTGAATCCACATAAACCCTACTTCATGTGGTGTTCCTCACCTGTCTGCCTGTCCTGGCTCCTCATTGCTTGTGCCT
CAGTGCCTCAGTTTACCCCATAGAGGAGCCACTTTAGCTTCTGGTTCATCTTCTCACCTTTCCACAATAYTGTTTTGGCCTGAATACCCTCTTTTACAGG
CTTGCCCCCTGTAACCCTGCCCCCTCCACCACGGCCTCTGTGACCTTACCTTCTCCTACCCTCCCTCTTATTCCCTTCCCCAGCCACAAKGGCTTCCTTG
CTGGTCCTTAGATGCCACGCGTGCTCTTCCCACCTCAGGGCCTTTGCACGTGCTTTCCCCTCTGCTTGGAATCCTCTCCCCCTGAGATATCCACACATCT
GACTCCCTCCCCTATTTCAGGTGCCACCTTTAAGATCATATGCACAGTGAGGCCTTCCCCAATCACCTATTTAAAATGGCAGATGCCTCCTCCCAGTCAG
TAGAGTGTCTGCCCATGTTTGCTCCTTCTCAGCCAGATCCTCACACTTCAAAGTGTGCCTAGCTCATAGGGAGCCTGGAAGTTGGGAGTTCAACCCCTCT
TCTTGGTTCCAGTCCTGAAAGCCCTGTTGCTCCACAGCCATCATTCTCCTTCGCCAGATGAAGAAACTGAGGCACAGGTGGGTGGCATGTGACTTGCCAA
AGTCACCCAGGGAGTTAGTGTCACAGGAGGGACTGCTGGGGTAATCTTAAAACAATGGTAAAAATAGTTGTACTTGTGGGGTTATTTATATCTCTCTACC
TGGTTTGCCCTGAATCTTGGTGTGACCTCACCAGGTGATGTCCTCAAGCTTCACCGAGGCCTCCAGTATGTGGCCATGTGTAAGACCCATGTCACAGAAA
CAAATGGTCCTACTGCAAAAATGTGCTGATGGAAGAGAACACAGTCTGTGCTGAGAACCAAGAAATCCTCTCCCCCTCGCTACTCCCCTCCTTACCCTCC
TACCCCCTCTGCCAATTCCCCCATCAAATAATTCCTGATAATGAAGTTAGGATGATTCATTGGTTTTCTGATGAGCATGAATTCATCATCAAAATCTACA
TATTTCAGTCCCCTGATATGTGCTCTCATATTCCTAACCTGATTAATATGTAAAGTGCTTTATCCTGTGACTTAACAAAAGAAAACTCAGCTTGGATTTA
GGGACCTGCAAGCCTCCCAGACTCTGGGGTTCTGGGAAGCGTGGGGAGATGCCACTGCTTCCGTCTTGGAGGAGATGACGGTATCTCATCAGGGACTGGG
TCAAGGTGCCAGCAGGTGCTACAGTTGAGAGGGGAGTTGGTTGCTCAGGACCAGGCCCTGGGATGCCTGAGCACTGCGGCTTCAGACCCCTCATCCCATA
ACCCAGAAAGACCTGGCTGCAAAGTTGTTTAATATTCACAACCCCACAAACTCATGGGGGCTGGGAACAGCCTGCATCCCATGCCTAGGGACCCGGATGA
GATGCGGCATCCCCCTCTCAGCCTTTCTGGAGGGCGGCCAGTGTAGCCTGCCACCTTTCTGCCAAGGCCACTTAAGCCATATCCCTGCACCAAGTCCCCC
TGCCTCTCCAGAGGGCGGGCTCAAGCTCTGCATGAATGCCTCAAGCCGCGCTTCCCCAGCCACCACCCGTGGGGTGGCCCTGCTGCTGCTAACCTTTTGT
CTTACCCATGATTCCCTCAATATAAGGTCCAGCCTCCCAAACCTCTGTCACTTCATCCACCATACATCCCCATCCGCTCTACTACCAATTTTGGCCCACA
CCTCCTTGGACTCAGACCATTTCCCAGTACCCCCATGTAGGGCCAATCCCTGCCTCTTTCACCCCTGACCCACAAACCCATACACCCTGCAGGCATTCCC
ACCAGGTGCTCTGTGCCTGTATCATGAGAAGCTGTTTGCCTAGAGGGCTCTAAGGTCAGATGTGGATTCAAASCTCTGCTCCGGGATTTGGGGAAGCTAT
TTAACCTCTCTGAGCCTCGGTTTCTTTAGCTTTAAAACAATGCTATCAGGAATAATAATTTATATTTCTTAGGGCTGTTGTCAATTTCAAATTAGCATTA
AGCAGAGAATCTAACATACAACATGTAGGTAACACTCAATAATGTAGCGATTATTGATATTCATCCTCATGGCCACTGACTGAGGTGGGCAAGAATTACT
TCAATTTTTCTGATGTGGAAGTGGAAGCTCAAAGATGTTGGGGTTGGATGTGGTTGACAGGAGCAAAGCAGCACCTCTTCTCCACAGAAGTACCTGGGGC
ATCTTGGGGGAAAAGGATTTGGGACCCTGTGGAAGACAGGATACCTGAGAGGAGACTTGCCCTGCAGGAGATGGGGACCCAGTCAGTGACCCGGATGCCC
CAACAAGACAGAGGTCCCAGAAGAGGGCTGCTCCTAGGCATATTATGTGTCTGATGCTGGAGTTCTTGCCCCTCTGGAACCAGGGTATTTTCCAAGTTTG
GGTTCCCCAAAAGCAGGCCTGAGACAAGGGTTCAAGCACAAGTGTTCTATTAGGAAGCACAGGTGACACTAGCAGATAAGAGGGACATAATACAGGGAAG
AGACWGTAGCTAATAAAGGGTGGTCATACCAGCTACCACAATGGGGGTCTGGGCCATAATCCCACAGGGACACTCTAGGAAACCCAGGTCTGCAGAACCC
AGATCTTAGAATTATCCCACCCAAGGAATGAGGGAGCTGAGGTATTTATACACCAATTCCTGAAAGTCATTGAATGAGGGCTGCTCCTGAGGGGTTATTA
ACTCCCTAGCCCTTCCAGCCTGCTGTGCACATGGGCAAAGTGGCCTAGCATTGGGGGAAAAAAGCCTTCGAGCACAGGGATGCAGACACTGGGAGCTTGC
AGTCAGCTGGCCCACTCTGAAAGATCGAGTATTACAGGAAGGACACTGGCACCACCTGCTACAGGTGTACGTGTATSAAAAGGCAGTGTTACTGACAGAG
CTGTAACACTGGGGGCCTAGGCAGCTCTGGAGTGAGACCCAGCTCACTAAAAGTGACCCTTGGAAGGACCACCTTCCCTTCAGCCTTGGGGAGCCACTGA
AATTTGAGTGAATCCACAGAAACCTGTGGTGTAGGCAGTGGTCCTAGCAAGCAGGCACAGAAAAAAAGAAGAATCCATTATCCAGGTGGCCCCATTAACA
GTAATCCCCCTGTCCCTGTCACCACTGTCAGACAACAGCTGTAGACCCCACATCGGGATATGTTTGATCTCCTGCCCTTCTAGCAGGCTGCAGCCAGTGA
GCAAGAGGACTGCCTCAAAGTCCAGTATCAGCCACCCCAGCATCCTGGAAAAAGSCATGGCTGCCTGCTAGCTTGGCAATTAACCATTGAGATTTGGAAA
ATCAGGGCTATGAAACTTACTTTGTATAGCCACAGAATGGTAAGTTCTGTGGATTTAGGTCACACACACACTCATACAAACCAATTATTCACTGGAATGC
AAGACAGTCTGCTGTCAACATTCAAATATTTTTGGAAAGTTTGTATGTTTCTGGCTGTGCTCTGAGTGAAGTCGTGCTTATTTCACAAGTTGTAGGCTGG
GAGATGAAGTCACAAAGAGCTCATGCATAGCTGAGCAGGAACTCCCACTTGGAGGCTTTATTTAGATGTGCCCCAGCATTCCCTCCATCGCTCTCTTGAA
CTGCCAGGAGAAGTTTCAGAGCTCAGCCTGGGGAGGAAGAAAAGGGCTCAGAGTTCAGATACATTCTTCTCTATGTAGGTGAAAGCTGCTTTGTGCTTCA
CTTCCCCATCCTTTCCCCTCTCCTATCCTCTGCCTGGAAGGCCCATGGGAAGAGGCCAGGATCTGGACTCAGATAAACCAAGTTCCACTGGGCAATCTTA
GGCAAGTGACTAATCTTTCAGTGCTCCTAGCTGCAAAATAGATAGAATAGTGCCAAAAATTGTGCTTACGAGGTAAGTAGCACAGAGCAAGTACTCAATG
ATAGCCACTCCCCCTCCTTTCTTATAAGTAATTTTAGCTCCCTTTCTGTTTTAATTTCTTTCCCCTCCTCTTCCATTCAGATTGTACCAGGCAGAGCTGT
GACCCAGATGTTTCTAGTGATGTGGGAATTGGATGGATGCAAAGCATGATGATCCATTCACAGTCATAATCAAGCATCATCAATTTATTATACAGATACT
ATTATGCTAGGAAATCCCATTAATCATTTTTGATAGGATAACATGAACCCTTTCACCAGACCTGTTTGCTCTTGAGCCTGTCTGCATTTGGTCATTCACC
TCCTACGAATGCACTCAAGTTGGTGCTGAGGGCCCAGGGATGCCCAGCCTCACTTTCTRCTTCAAAGTCACCCAACCAGACTCAGAGGGAAAGAGAAATT
ATTTTACTGAATTTGCTTACAGCAAAAAGTAAGCAGAACTTTAAAAGAATAGAGAGTATTAGTAGCACAATTTGCAATTGCAAAAATAAGAAACCAACCT
AAGTGCCCATCAACCAATGAGTGGATAAAGAAAACGTGGTATATGTACCCCATGGAATACTACTCAGCCATAAAAAGGAATGAAATAGTGTCTTTTGCAG
CAACTTGGATGGAGCTGGAGGCCATTATTCTAAGAGGAGTAGCTCAGGAGTGGAAAACCAAATGCCGTATGTTCTCACTTATAAGTGGGAGCTAAGCTAT
GAGGGTGCAAAGGCATAAGAGTGATATAATGGACTTTGGGGACTTGGAGGAGAAGATTGAGAGGGGGTTGAGGGGTAAAAGACTACATATTGGGTACAGT
ATACACTGCTCAGGTGATGGGTGGACTAAAATCTCAGAAATCACCACTAAAGAACATGTCCATGTAACCAAAAACCACCTGTACACCCAAAAACTATTGA
AATGAAAAATAAATCAATAATTTTTTTTAAGATTAAAATTTTTAATCCTATTTTTATTTTCAATTTAAAATATCCCCCCATATGAAATTAAATATGTCTG
ACATGGTGTCCTCCAGTTTGCCAAAAGCTAAATGACTTTAAATGCAAATTATATTTTATTGAAAAACTCACTAGTGTATATACTATAGTTGTCACAAATA
TACATATTTGTGACAAAAAATAAATTTCCATTTTTTTTTTGATGGTGTCTTTAGGGTTTTCTTTTTATTATTATTATTATTATTATTTTACTTTAAGTTT
TAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGCGCCATGCTAGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATC
TCCTAATGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCAGTGTTCAATTTCCAC
CTATGAGTGAGAACATGCAGTGTTTGGTTTTTTGTCCTTGCGATAGTTTACTGGGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAA
CTCTTCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCACTCTATCATTGTTGGACACTTGGGTTGGTTCCAAGTC
TTTGCTATTGTGAATAATGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTTTAATCCTTTGGGTATATACCCAGTAATGAGATGG
CTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAGTGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAG
TGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTG
ATTTGCATTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAATGTCTGTTCATGTCCTTCG
CCCACTTTTTGATGGGGTTGTTTTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCAAAA
ATTTTCTCCCGTTTTTTAGGTTGCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTCTGGC
TTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCTTTGCCCATGCCTATGTCCTGAATGATAATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTT
TTAGGTCTAACGTTTATTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTGCATATGGCTAGC
CAGTTTTCCCAGTACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAARATCAGATAGTTGTAGATATGCAGCGTTA
TTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTC
AGGTAGCATGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCGATGCGGGCTGAAAAAAAGAGCCCACAAAAAAAAATTTAATTTTAAAAG
AATAGGCAGGGCACGGTGTCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAAC
ATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGCRGACGCCTTTACTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATG
GTGTGCACCCGGGAGGCGGAGCTTGCAGTGAGCAACGATCGCTCCACTGCACTCCAGCCTGGGTGACAGAGCCAGACTCCATCTCAAAAAAAAAAAAAAA
AGAAAGAAAAAGAATATGTATATTCTTTTATATATATTTAGATCCCCACAAAAGCAGACGAGTATTATATTTTTTATTTCCATTGTAAACATAAAGCATG
GTCATTAAAGAAAATTTAGAAAATTGAGAAAAACTGAATAAAGAAACTCTATGCATGAACATTTTGATTCATTTCTTTCTYTTTTTTTTATAGGTATGGC
TTTGTTTTTAAAGAGCTGTGTTCATAGAGTATTGTGTGAGTGTGTGTGTATGTGTTTAAGTATATACCCACTTTTTATWATGAGTAATTTATACTCTTTG
TGAAAAATTCAAAGCATACCTGAGAGTACAGAATAAAACGTTAAAGTCGTCTATGTGTTAAATCCCTACCCTAATTCCACTGTCTTCCCTAAGCATTATT
AAGTTGGTCTATTAGCCTAGGCATTACACACACACACGCTGGCGCATGCACACACACACACACACACACACACACACACAGGATAGGAGGTGAAACATAA
ACATATTATTCTACAGCTTGCTTTTATTCTCTTAAATGTCTACGTTAAATATGTTTCAATGTCAGTATATATATATATGTCAGCCTCATTTTTTTTAACA
ATTTCCCTAATAATTGCATTTTTCACTATTTCAAATAATGTTATAGTTAACATCATCATGARTATACCTCAGTGCACATTGGAGCATTAATAGGATAGCT
TTCTTTAAAATAGAATTTCTGGGTCAAAGTATACATTATTTTTAAATTTAGACTCTGCTAAAGTGTACTCCAGAAAGACTGTGCCAATTTCATGTTTCCA
TCAACCATGTATAACAGTGGCTATTTCCCTAACTCTTTTCCAAATTAAAGTTTTGTTTTTATCCATCTCAGTGGGTGAAAAACATTCCTCCAATTATTAG
TGTAGTTAGTAATCTCTTCATATGTCCATGGTCACTTTTATTTTCTGGATTGCCTGTTCATATTCTCTACCCATTTTTCTATCAGGTCATGTTTGTTTTT
CCTATTCATTTATAGGAGCTCTTTGTATATTTTTAACATGTATTAAAATCAATATATGTTGTAAAAAGGTTTTATCAATCAGTAGCATGTCTTTTAGCCT
TACTTTGTTGTCTCTCACAGCATAAGTTTTATTTTGTGTGTGTGTGTTGAAATCAGTTGATCTTGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCA
CTTTGGGAGGCTAAGGTGGGCGGATCACAAGGTCAGGAGATGGAGACTGTCCTGGCTAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAACAAAAT
TAGCCGGGCGTGGTGGCGGGCGCCTATAGTCCCAGCTACTAGGGAGGCTGAGGCAGGAGAAYGGCATGTACCTGGGAGGCGGAGCTTGCAGTGAGCCGAT
ATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGGGAGACTCCATCTCAACAACAACAACAACAACAACAACAACAAAAATCAGTTGATCTCCTGATTTG
ATCACATAAAACTTCTCAGTTTTGTGTCTTGGTTAGGAATACCTTCCTGCTTGGAAATTATAGAAATAGTCTTCTCTATTTATTCTGGAACTCTCAGAAT
TTTTATATTTTACATTTAGCTATTTAATCTGTGTGAATTATATTTTTGTACGAGGTTTGAGCTATAGATCTAGCTTTATTTTAGTTATAAATGAATAATG
AATTAACTCCAAACCTGTCCTTTCTGATTTGAAATAGTCCTTTCATCATAAACTGAGTTCAGCTCTATTCATGGTTCTACAACTGGACTTTTTCTTCTAT
TTTATTTCTCTGTTAATCTATTTCTGTGTCATAATTGTATCATTTGAATTTTGCCATAGCTTTGTAATAATTTTTGTTTTCTACCCAGAAAAGACCTCCT
TCATTATTATTACTTTGAAAATATTTGTTGACAATTGTTGTGCGTTTACTTTTCCAGATGAATTTTAGAGTAAATTTTTCAGATTTCCCCCAAAGAAATT
TCACTGTGACTTTCGTTGAAATTTCACTGAATTTGTAGATTGATTTGGAGAGAATTAAAATTTTTACAGTAAATATTCCTATCCTGGACGATGGTATGCC
TCTTATTTTCCAGGCCTTTTTTAATGATCTTGAATAAAATTTTATAGTTTTCATCACATAAGTCTAGTGAATTTCTTGTTAGGTTTTTTTCCTAGGTCCT
TTTATAGTTTTTATTGTTATAGTGAATAGGGCCATTTGTCACTGCATTTTTTTTCTAGTTGCTTATTGCTGGTAAATAAGAAAGCTATTGATTTCTGTAC
ATTTCTTCTGTAACCAGCCATCTTACTGAACTCTCTCATCAGCCCTAATAGTTTTAAAGTTGATTATTTTAGATTTTCTAGATTAGACAATCATATTAGC
TGCAAGTAATGTAATTTTATTTCTTCTTTCCCACATGGATGCTTTTTTTTTGGCTTCTTATATGACTACTGCCTCCAGAATTATTATATTAAAGAGGAGT
GATAGGTTTGGCAGCTCTAGAATTTCTGAATAAGAGGGACTTAAAGGCAAGCATAGCTTTTACTAAATTCTATATTACAGATCAATAAAAACAGCAAAAT
TAGTTCTAGAGTTTTTTCTCCCATTATATAACATTAAGAAATTATGTGTTTTTCTTATTAAGTAGTGTTATTTTTTAAAAACTCTGGAGTGATTTGGAAG
GAGCTGATAGAGGTTGGAGAGGAAAGTTCTCTAAATGGAAACCCAGTGGTTCTGTAACACCATCGCTTGATGAGGCTAAGTACAATTTTGTATCCTGATT
ATTCTGCACTTATAACATTAGCATTTTCTCTGTTATTATAAACCCTTGACCTCAAAATATTCATTAAGTGGATATATCACAGCTTACTTAACCATTCCTC
TTTCTGTGAACATTTAGGCTGTTCCTCGTTGTTTATGTTATAAATATTGCTGCAAGGAACATTTTTGTGTGCAAAGCTTTTTTTTTTTCTGAATTTATGA
TTATTTCTTTAGGAGCAATTCCCAGAATGAATATTTTTTAAGATACTTGATTCTTATTGCCAAATTGTTTTCTAAAAGCATTTGATCATTTTACRCTGCC
ACAGTATGTGAATGTCCGAGGAAACAGACCTTTTAAAATTAAGGATTATAAAATATGTCATAGAAGAAAGAGAACGGACTTTGGAGTCAAAGAGATGGGT
TTGAATTCTGATTCCTCCACTGAAAAATGGTCGTATTTAAATAAATTTAAAAAAAAAAACSTCTGAGTCTCAGTGTCCCCCTCTGTAAAATGTGCAGCTA
ATTCTTCTTCAGTCATGCTGAAGGCTGAGTGAGAACAAACTAGTGATGGCACTCAGCACAAAGTAGCTCTAAACAAATGGGAGTCACTTTCCCTTTATTT
GGACTGTTTTCAGAGGTTTTATTTTCTAAACAGCTTTGGAGACTTCCCCTGAAAAACATGCTGCAATTAGGAATGACTTCTGTCCCTTAGCCGAGGCCTG
TCTGCCAAGGGGAAACCCTTTCCTGCGGCTGGCTGCTGGCCCCAGTTGTAAGCTCTGAGATCTGTTATGCAGAAGAATTTCCCATCGGCTGCCCACTGTG
CCCCACGCTGTGTGCAGGCCACACATGAACCTCTGCTCTGTGCTGGGGCAGAGGAACAAGCAGCACTCAGCATTCCCGGTGAAAACAGTGGCTGGGGGCT
TCCAGAGAGGCCATCAGCTTCTCCCCTGATTCCCTAACTGGATTCTTCTTTTCTGACATTGCACAGAGCAGGGTGGTTGTCATCTGCTCCCATCTCTTGG
TTGCCAAGTCCTGCCAGTTCTGCCTCCTAAGTATCTTTCCAATTTTTCCCTTTCTCTGCAACACCAGTACGCCCGACTTTGTTTAGGTGCTCTCACACCT
GGAACACTGAAGCAGCCTCCTGCTTGTCTCCAGAATTTCTCCCTCCTGCCCATCCTCTATTCTGGTCCAGTGTGACCTTTCTAAACCAAATCTGGCTGTG
CTGTTTCCTTGCTGAAAACTCTTTGATGGCTCCTGTCACCCATGGAATATAGTCCAGAGCCTTAGCTCAGCATCCAGTATCCTCTAGCTATCTGTCTCTC
CTAAGTTGTACATTCCACTCATGCATTCTTTTATTCAGGAGACATTTATTAAGTATCAGCGACCATAAGAATTGTATTCACTAACACTTTTTGCACCCTT
TCTAGGCACTTTGGGGCCAGGCTAAGCACTCGATATGCATAATCTGTCTTAACCCTTTTAATAACCCTATGAGGCTGGTATTATTTTCATTCCCCTTTGA
CACATGAGGAAATTGAGCCCAGAAAGTTAACCTAGCCTGCCCAAGATGGCTCAGCTAGGAAGTAATAGAGCCAAGACTTTGTCTCCCAAGCCCATGCTCT
TAACCACTCACCARTCCCAATTTCTTTCATATATATTAGGCCTGAGAATACCTATTAGACTAAACTGGTGGTATCTTTCTCCATACACATATTTTGTAAG
AAATATGGGCACAGAATTCATACTACTTAAAAATTATAGAGCTTGCTGCCAACCAGACACTGGCATAGGAATTTGGCAGATTCTTCTCCTAAGTGCTCCA
GGGCTGACCACAAGATTCCTGCCTTGAACCCCAGATCCCAGAACCCCCATTCCTGCTTCCTCATGTGGTGCCCATGCTTGGGTTAGTTATAATTTCCCAG
GAGGGACCCCTGCGTTTCTCTCTGGACCAGCCCTATGGGGTATGTGGTGGGCACTCAATAACTGCACTGAATTAAATCGGATTGAATTGAACCAAATTGA
ATTCACAGGCAGATATTCTCCAGCAGTGGCTGGGWCTTAAGTTCATTGTTGTCTTAATCATCTTGTGGTAGATTGCATTGCCTCCTCCATAAGCCAGGCT
AAGCACTTAGGTTTTTGAGAATAGTGTATCTTAAGGGGTTTCCATTCAAGCAGGGTAGCTCTTCTGCATAGGCCACTGGAAATAGGTCTGAGTTGTGCGT
GTTCTTTGACGTAGTTTTCTGATATGTCTCGGAAGTCAAACAATGTGGGCTTAAGAATCACCCGTACTGCTTACACTGCTGTGTGACCTTTGGCAAGCTA
CTTAAMCTCTCTGGTCTCTGGTTCTTCATCTGTCTGTCCCAACAGGATACTGTGAGAATTAAAATGAGGAATTTAATGTGAACTCTTACTATGCACAATG
CATAGTAACAGAACACAGCTTTTGGCAATAATTATAACAGTTGTTTTTCTTTCCATGTCTCTCCTGTCCATGCTGAATTGGACAGTGAGCTGGATTGGGA
GCAGGGACAATAAGGAAATGACAGAGGCAGAAATCAGAAAGCATGGTCTTCAGTGGGGCTTGGTCAGCCTAGGGCTCTGGACAAAGGGGGAATTCTTAGC
TTCTATGCCTGGGAAAGTACCTGAAGGATATGGAAAATTGAGAGAGGATGAGCCTGGAGAGATAGATGGAGGCCAGATGATTCGTATTTTATTCTGAAGG
CAATAGGAAACCGCTGGAAGGTTTACAGCAGGGGAGTAACATTATCAGCTTTGCATTTTTGAAAGACCACCCTGGCTGCTGCTGGAGTACAGGATGGAAG
GATGGATGCAGGCACAGACACAAACTGCTCATTGTTGCAGTTGCCCAGGTGAGAGATGATGAGGCCTGAATTAACACAGACAGTATTAGTGGAGACTGAG
AGGAGGGAGAGGTTTAACAGACTTAAAAACAGCATCATTTGGTTAGCAATGCAATTAACCTGAGGGACAAAGCGGGAGGAGGAATAAGATGGCTGTCAGC
CCTTGGTTTGAGTGGCCAGTGTGTGGGATGGCAGGAAGTGGCAAAGGGGGTGATCATCTTAAGTTTGAGGTGCCCCTGGGGTGATGGCATCTTAAGTTTG
AGGTGCCCCTGGGATGCCAGAGGTAGAAGGATGTAAGGATCTAAAGTTTTGGGGAGGAGTAAAGGTTGAAAATAGATGTCTGGGAGCCATCAGCTTAGGT
GTGAGGAGAGAGCTTACAACKGGGACACAACAGGGAAAAAGGGAGGATGAGAGGACAAGAGGACAAGCAGAATAAATTAGAGTATTAGGACTTCCTGGRA
GCSTAGACTCATCCACTAGAGAGGGTGGGCATGGAGTTGATTGCGCTGACATCCAGCATGTCAGGGAAAGCCCTGGGAATTCCACTGTGTGTCCACTGTG
TGTCTGCTATGGTCATGGGAGGCCCTCTAGCTTCCTGCCTGGCCTAGAGAGTCCACTGAATTCCAGTCTGTTGCASTGGCCCATGAACCCCAGCCCCGCC
CTGCCCAGCTCATCCTCCTTCTAGGGCTGACCCTCTCCTTCTAACTCCTTCTAAGTTATATTGAAGAGCCCTGGTCTTCATTGGCCATTGCCAATCTCTT
CCAAGTCCAAATTCCATAATAAGAGGGAAGGCTTCTATCTGAGAGTGGGCAAAAGAAACATCTTGAAAGTGGGGCCTTGTTTCCCAATTCAAGGCATGTG
TCCCAGGGATCATATGGGTCTTTGACTGTAGACTCCCTGAGAAGGCTTGGAGAGTTCCCATATGTGTTAAGGCCTTCTAACTTCTTGGCTCCATGGATAC
TTCTCTGAACTAAACAAATGAAAGTGTCTAGATTTCACACTCACAGACTATAACTCGGTTGATTAGGAGTTGATCCGGAAATCTACATTTTCAATACTCA
CCCTAGGCTATCTCGATACAACTAGTCAGAGACCACCTTGGAGAAATACTGACTTAAAAAAAAAAGGCAACTGTGAGGGGACCTAACATCTAACAACCAT
CCACAATTTGCCCTACTATTGACATTTCATTTAGTCCTTACTAAATGAGGTGAGGTAAATGTGTCATCATTTATTCTAGAGGAAATCATCTGAGGCTCGG
AGATATTTAGCAACTTGCCCAACYACACACAGCTGGTTGCTGGCAGATTCAAAATTGGAAGCCCRGGTCTTTTTTACTCCGYAGCCTAAGACATATACCA
ATATATCACCTACTGAGAGGAAAATGGCMCCTGTTTTTGGGTAGCTAAATGTCCATTCTATGGAAGAAAGTTTAAATAACTGGGAGAAACTGAACCAATG
GGTAGTTGCAGGAGTCAAACCTTGACTCAGTGCAAAGATCTTTGTAATAAAATGGAATAGCTTCCTTGGGGAGACCATTGGAAGAGTCAAGGAGGGGCTG
GACAAACACCAGCCTCCAGCTGGTGTGGTAGAGAGAATTTATGAAGTAGGCTGGAGTACATGACTCTGAATCCCTTTCAAGCCTGTGATGAGTAAGATAT
GGAGCTTTGATAACTTGATTGCCTGAATTTGGTGCTCCTGTTGGCTCTAGACTGCATCCGTAGCCACGAAGGGAAGAAAAGGAGGAAGAGAAGGGAAGGA
AAGAAGGAAGAATGGAAGGAAGAAAGGAAAGGGGGAAGTTAGCTAGTAAATTCAGGGTATGAGGATTGAGAAAACTATGGATCCTGAATCTTCCATTCTT
TATTGAGTAATTTCTTAACTAGGAAACAACTGAGAAAGCATGCTGTGACCTCAAAGAGATAGGTACCTCCATTTTTCTTTATGGATGATTGAAGTGTATG
CCCAGTGTTGACCTCTGCAGTGAACTCATGGCATTAATGGGGAATCCTCCTTGAACCAAATTTTAGAGAAACAGGCAAGTTTTCACATGTGCCCTTATCA
CTAATGCCAGCCTAATGCCCTATTCTACAAAGGATTAACAGTCAATAGAAAGGTAGATATGTTTCATTTCTCTTTGGTCTGAACATTCTCAAGTGGGAAG
AGTCGTGACATAGGCAGCTTTAGAGAAAGTATGAAATTACAAATGTTGTCCATTGACAGCCTGTCCTTTGAAGCTGTCTCATTAGACCATCAGTCTTCAC
CTAAGTCACTTTCAGTCCTCCAGACTCAATTACCTCTGGCCACCCCACTCCCATCTCCCCACTGAAGTTCTGCCATAGCCCCGTGGATACCAGTACTCAC
ATTTGCCTCCAGTTCTCCATTCATAGCTGTTTAATCTTAGACAAGTCACTGAACCTCTTAGAACTTCATGTCCTGTTGGTGGGATTATAAATGGCACAAC
TTTTTTGGAAGGTAATTTTCATGGTAGGAATTAAAACGTGAAATGTGGATACCACTTTTAGGGATTTATACCAAGGAACTAGGGAATAGTGAGAGGCTGG
TGCAAAATGATATGTGCAAGGATGTTCACTGCAGCATTATTTATTATAATGGGGAAAAGGAAACAGTATATGTCCAATATTAATGGTTCCATAAACTGGC
ACCTGTGGCTGATACAACACATGGGGATTAAAATTATAATTTCAGAAACTTTCGAATAAATTTGAAAATGCTTAATATAGGATATTAAGTTAAAAAATTA
ATATACAAAACTGAATATGTAGTTTAAATACACAGTACTAATGCATTTTATTATTTATGTTCTTTTGTATTTCTAAGTTTTATAATAAGCTTATATTACT
TTCTGCACACAGAAAAACAAGTAAAAGTTAAAATATATTTTGAAAGCTCCCACCACCTACAGGATTAGGAACAAATTTTCTAACAGAAGATTTTATAATC
CGACTCCATCCCAACTCAGCTCCTTCATTTTCTGTCACTTCCTCCCCATCATCTTCAGTTCCCCACACCATTCCCTCCCTTGCACCTTGCTTTAACTACC
CCACGCTGCTTGGCATTCTGTAAACACACCATAACTATGCATACTGCCATGCTGCCATGCCTTCATGCTTCCTGCTTTCCCTAGCCAAAACGACCTTCCC
CACATTTTTCAAGAACTAATTCAGGCATCTCCACTTCTTCCTTGACAGTTAATTATTTCCTGCCCCTTTCTCCTACAGAACAGTTTTTATATACTTAATA
ATTACTTATTTAGTAGCTGTTATTCTCATTTTACTTTTCTTCAACATTTGTGGGAACCCCAAGGAGGGAAGRCTGACTGTCTCAGAGGATCAGGAAAGGA
TTCACAGAGGAGGGTTGCAGGAAAATGAATAGGAGTTTGTCCACTAGACAGAAAGACAATAAATGCCCTGACAGAACTCCAGAATGAGTTCCCAGCTTGT
ATCTATTTCTCTCATAACTCTTTTCTCCCTGCGTAATGTGTTGCTTATGGGTACATGTCTCTTCCCTACCAGCGAGGTCATTAAGAGCAGAAAATGTGCC
TTGTTTGCCTTGTGGTGTTTAGCACAGTGCCTGGGCATCATAAATATATTTTTGTCCCAGAGCATGAAGGTCCAAAAATAACAATACAGTAATTACCTTT
CTCCTTGTTTCAGGGTGAATGGGGGAAAATCATATTCTTATTGTCACTTATCACTGGTTTCAAGTATGAGCCCAGAGATGCTGAAAATGCTTTATATTTT
GCTAATTTGAACCAAATTGAAGAAGTTGTCCCCTTGGTAGGTCTTAAGAGGATATTCTGCAAAATTTGTACTTTMTTTGAGTATAAGAATTGTACCAATA
TGAGCTTTGCTTCCCCTTTAAACAGCATGCCACAAGAATGATGCCTTTGAAATAAATCCTGTTTGAGTAATGTTTCTCTTGGACTCATAAAATCTTTATG
GAAATCTTTTCTCATCTCATAGACTATGAGAAGAAAGAGAGAGCCAAAACCACTGAGCTGTAAGTGAAGAGCGCAGTCTTTTCTCATATGTGGGTCACAC
TTTAATGTAAATAGTTTTTAAATGCAAATCCCATACCGACTACACATTAGCTCAAAAATCCTAGCTCTGTCCAAGTGCTGAATCTGTGAGTTAAGATCTC
TTAATCTCTCATTAAAGAGTAGGTGGTATGGAAATGTATCCATTCAGATAGAAAGTTTGAATGTATTAAAAGATCCAGTAATAGCCATACTAGGGATAAG
AACACAAATGCTGGCAGAAATAAAAACAGCTTTATGTCCTCCCTCAAAAAGAGAGAGAGAGAGAAGCAGTAAGTTGGCAGAGCTGAGCTCTCAACCCAGC
TATGCAAAGGGGCACTGACTTGGGAGCCATACACTCATTCAGCATACATTTTTGGGGTGCCTGGTATATAATAGGCATTATACAATGACATTAAATTAGA
TAAATCATCATTTTTGGTCTCCATGAGGTCACAATCAGTGTTTGCTCATCCACTGACTAGCTGTTAACTTTGAGCAATTTACTTAACCTTTCAAGCTTCA
GGTTTTTCATTTTAAAATTTTGGATAATAGGATCTTACTAGATTACTGTGCAGATTAAATAAGGTAATGTTTACAAAGCACTTTGCATAGAACTTAACAT
ATTATAAACTCTCAATGAGTGTTACATATTAGTATCAGGTGTGATGCGCTATGCTAAATTCTTTATATTCATGCTCTCATTTGTTCTCTCATTTGCTCTA
CACCTGTCACCTTGAGTAGGTTTTAATTCACCCTTTACACGGACAAGAAGAAGGAGGATCAGAAGAATGTGGTTTGCTAACTTGCCAAGTTCATACAGTT
AGTAGTGGGAACAGCATTCAAAGCCAGTTCTTTCTTCATCTAAAACCAATGCTCATGATTATAGTGGTGGTGGTTAGAGCAGGAATRGGGGAGAGACACC
AATGCTTGCTATCAGCCACCCAATATTGTAAGACAAAATCTCCTACCCTCATCAGGACTGGCATTTTTGGGAAGGCAAAGTCTAAGGGAATGAGGTGGTC
ACATGACTCAGGTATTTGTGTGACTTTCAGGTCAGGGACATTTGTGGGTTAATAGATATGGGGAAGATAAATCCCAACCCTTGGGAGAGTAGGCCCAAAG
TCCATCCATCCAGAAACAGTTTCACAAAACTGCTAGCCCATGGGGGAGCAAGAAATGGGACCAGAGATTGAAGCAGACCAACCAGACAGATGGGCCACAC
TTAAGTGGAGTGGTTAATGATCAAGGCTGCAGGGATTCCAGGGACTAAATCCCTGGCTCCTGGGATCTTAGTGGGAGGTGGTGGGGAGGACAGCAGACTA
TTTCCAGAATCTACTCGACAAGTGGAAAAGGGGCTCATAATGAATTTCCTGCTGGAGACAATTGTCACTGGGACAGGGCAGGTTGACCCTGAATATGTGA
CCAAGCAAAGGCTAAGCAAAAGCTGGCACCATAGAAGCCACCAACTCACACATTCCAGTTGGAACCTCCAGCCGAGAGAACTCTTTGATTGTGTTGGTCT
GCATCCTGTGGCTTAGGGACAGTGGGAGTTCTGAACTAGTGACCACACATTGTTACCGCGGTAAGAAGAATGTGCTTTTTCTTTTCGTTCAAGAGCTTAT
GATTCAGTCCTATGGATTCATATAAATAGATATTCTCTTTGCTTTACTACCTGTGGCAAATAGGACTACAAAGCACAATAGCACCCTGTCCCCCTCCCCA
GGGCTGTCCCATAAACAGTGGGAGTTATCTGAGTTCCCTTGATTGAAATTGGAAAGGTCATATCTCAATAGTATCTTTAGGGCTTGCTTTTCCCATTTGT
GACAATCTTGGACTGTCCTCAGGCCTCCCTAAGGTGTCCTTCCAGCTCTGACCTTCCAAGGGTGTCTTTCGGACACAGAGAGTTTGGCCAGCCATCAAGC
AGGTAAACAGATCAATGAGGGCTGTTCACTGAATTGTGCTCCTGGGCCTCTACTACTGCTTTCAGCCCTTGCTGCCACTGTCAGATCAATGCGGGGAGCA
GATGGCTGTGCTGTGTCACAATAATGGCTCCTTTGAAGAGACTTTGCTCAGTCCTTCTCCTGTAAGCTAGGGAGGTGAGGGGCAGCTGCACCCAACACCT
GGCAGCTCAAGGGAGGCCCATGTTGGCTTCTAATAAAAGCAGCGGGGGTGTCTGGAATGGACCACATGTGGGTCTCCCACTCACCTGTGATGCTGTCTGT
CCCCGTCAGAGGGGAAGTGTGGTTGCTCACATCTCATGTACATCTAGCCCATGTGGTGCTGGCCTCATCGTCTACTGAAGCTGAAGGAAAGCATGTTGTG
TCCAAAAGAAACAAAGCAGGATTTTCAGCTTGTTTGCAGTAACGGCCTCACGGGATGGCTCCTGGCTTAGGAATCAGAGAATTTGCTGAACAAATACATG
GGCAGAAAGTGCTGAAAAGCAACTCTCAGATATTACATGGTCTATTCCCCTTCTCTCTGCTTGGTCCCAAATGGTCACTCCAGCCCCTGAGTCTGCCTGA
CCTTCAAATCCAGGAACCCAACTCCCAGTTTCCACATCTCTTAATTCAAACTATCAAGAGAGAGAATCTGATTGGCTCCACTCATCAGTCGAGTGTCTCC
ACTCCTTGTCCAATCAGCTGCAGCTAGAAAGGGGCAAGCTCAGCTTGTACCAGTATAGCTGCAGGAGCCCCTCCCTTCAGCAGCGCAATCCTGAAAAGAG
GGCAGGGGCTTGGCAGCAACCCTGGGCATATCTTCGACATTAACTTAACATCTCTCTCTTCTCTGTGGTCTCTCTCAGAAAGTAATAGGGAAAAGTATTC
TTTTCAATTTGCCCCCTTGAGCTACACAAAATAATACAGACTAAGGGCCTGGCATTCAGTGAAGAGAACTTGAGAGCAATTTCGGGGTGCCTTTACCACT
ACAGTATTGTCTTGTCTGCCTTTCACAGTCTGCAAAAGGGAGCTCTGTAAATACCAGGGATTTTGTGATTATTATGAATCCTCTAAGCAGCTAAATTTCC
CAAATTCTCAGAGTTGTAATGCCTCGGGATTTAGAGATATAATTAAGAACAGATGAGCCTCACAAAGGTTGATGGTGAGGATCTGGGATTGCATCAAGCC
ACAGAGAGAATTTTGCTGTGAGTTCCAGGCCCTCATCTCCCCCAGTGCGACAAGGGGGACAAGTCCAGTGGGACAAGGACTGGAGGGGGTGATGGCACAC
AGGACCTCTGTTAACGAGCCATTGGGCCCAGGAATCCTGACCTCTCATTTTCCCAGAACTTGTGACACAATCTATAAACCCACTCAACAGGTTAGGAAGA
GGCAATGCTGAGTCAGCCCTGGGCTGTGCGCCATAGCCATCCTGAACAGCTTTCTGCCATTACAGGATAGAATAAGACCAGCCAGGTSTGGCCCATTTCC
TCTCAGCAGCCATTTGCCTTCTGCCCACACATCGATCTTGCCAAAAGAGGGCTTGTGCTGCAGCATTGAGTCATTCTCCTACCCTCTTTAGTTTATACTC
ATTTTTCAGGGTTTTCTCTGACTCTACTACTTACTGAAAGGTGTAGAAATACTAATAAGGCAATACTATGTTTTATTTGATCTATAGACTGCAGCAACCT
GAATCTATATTATCTGTCATGCCAAGAATGTTTTGACCTTCTAAAAGGAAATGAATGCTCTCCGGACCAGAGCCAAGCAAGCAGCTTAGACCCATTCACA
AGCAAAAGTCTGGGGCCTTGAGAGTTCCAGGGCATTMAATCACCATCAGAATAAGACTAGGGTCTTGAAGCTCATGATCTGGAGCACTTAGAGTGGRCAA
GGAGCAATGACCCCACAGCTACTATGACACATGGTAGAGTGTGGGTGCTGCAGCCAGGATGCCTGAGTTCTGCTACTTGATAGCTGTGTGACCTCAAGCA
AGTCGCCTAACCTCTCTGTGTCTCCATCTTCTCACCTGCAAGCCACAGGTTATAAAGGSTTGCTGTAATAGATGAGTAAATACATGCGAGGGACTTAGAA
CAGTGCCTGGCGTKCAGTAAATACTCAGGGCAGCATCTGTGTCCCAAGTGGTACGTAAGTTCTTTATGCCATGTCTTCTCATTCTATTCCCATATGACCC
TGAGAAACAGCTTTTGGTGTTGCCATTATACATAAGAATAAAGTGAATTTCTCATGTTCGACAAATTGCCCAGGGCCACATGGCTAGTAAGTAGCAATGA
CAGATTCCCAAGGTAGAGATCTCTGACTACAAATCCTGTGTTCTATCTCTTGACCAGTTCCCCTCATGGTCAGGCTGGCTTCCCGTAATTACAAACTCTC
CCCTTTAGTTCCCTCTGTTGTCTCTTGATGCTCACTTGACTTTCAGGGACTCTGGAATCTCTGCTGCTTCCCAGCTGTGAGACAACTAAGACCAGGCAAT
CTGTCTTTGCCTCAATTTCTTTATTTCTGTAAACTGGCATAGTAACAGGGCCTGCTGAGAAGGAGAACAGCAGCCCCTGATGGCTGCAAGCTGGCCTGGC
ACTATCAGTAAGGCCTTTTGCTGCCGAGAGCTGGCCTGGCACCTACACCTAGACCTTGGGGTTCTCCTGTTGACCATAAACAATTTCACTGAATGTCAAT
GCCGGACAAAACCACTCTAGGACCCTGATAGATGAAGACAAAAACAAGACCATTTCAACATCATGAATTCAGACAAAAACAAGAACATTATTCAAAATAC
AAAGATGACTTAACAGCCCCCCTCCCTCCACCTCTTGGCTGATGTGAGTGATGGCTGCTTCTTTACCAATTACAACTCTTATCTTCCTTCATTCCTCCTG
CCTTGTAAATAAAATTTATGAAGTACCCAACCAGAGAATTACACCTACCTCCAGTCTCCAATCCAGGGCAAAGCTCTGCTTCCTTGAACCCTCCCCCAAT
TAACTAACACAAGCCCGAATCCTACAGTGAATTATTTCTTACCTTCTTACTGAGACACTGCACAGCTCCCTGTGGTGTGCATTCTCCCTCACTGCCACCA
GTCAGCAAACCCAACTTTGTTCAACTACAGGGAGGTCCATGGTGGTCATTGGCCGGGGGCTGACACTGCCTCTAGAATTATACGTGATGATATCTGGAGA
ACACTTAGAAATAGGGCTTAGTCCATAGTAAAYGCCCAAARCATGTCAGTCATGAGCATGACATTTATTATAAGAAATACCCTTCCTCTTTGGACAGAGC
TAAGGAGCATACATTTGCTCTCACTAACCAGCCCCCTTCTTTTCTGAAGTCCATGCAGTTCCCCCGCCCCTTATGTTTGCCCTGGGCACTGAAGCATTCT
CTTTTTGCATTTCACAGATCTTCACACTGCAGACCTCAAACCTAGAAAAATCTGTTTTGCCCATGACATTGGAGGCTGTTGTCTGCCCTGTCTCTGGGAT
CCCAATGAAGGACATCCTCTCAGGGTATTTAGACAGCATAGAGGGGTGGGAGTGGGGGCTAGATGAGCAGTGGACTGATGATCAGGCCTTGGCGGCCCTT
TCCCACTTCCTGGCAGAGTAGATACTTTGCACATGGAAGTTCCCTCACCCACTTGCCAGGGCTGTGCGGGCCAGAGGAGCCTGGCCAGATTCTTCATCAC
AAATGTACTCGCAGCTGCATCAGTGAGGGACAGCCCCAGGGACCACAGAGTTCTTCCATGCCCACTGCYGCTAATTAGAGATAATACATTAAAAATACAG
AGCCGCATCTGTTCGTTGTAACATGGGTATCGAGGAATTTACGTGGTTTATAATGACAGAGTGTGGGGAGAGGAAAATGCTGATTCTGTCTGGGAGCCAG
AGGCACAGCTGTGGGCGAAGAGCTGGAGGTGTGGTTTCTGGTGCCCATCAAACTCTCTGGGTGCTAACCAAGCCCTCCCTTTGAGACACCCAGGGATAGA
TCCAGGTACTTATCTGGAAATACCAAGCTAGGTAACATGACCAGTCAAGCACAAAGTGGATGTCCAGATGCCCAGGAGGCCTTCTGGCCCACATGCAAAA
TACATGTCCCTTCCACACACAAAATACAAATACTCTGGTATTTGCAAAGAGTTCTTGAGAGAAGGGAGACACAGGACAGAAGAAAAAACATGCTTCTCAT
GATTCAATTGTTCATTTTCCATCAAACATGAACTGAGCACCTAACCTGCTGTTCAAGTTGTCTGTAAAATGGGGTGTTTAAAGTACCGCTCTCATTGAAT
GTTTTTCTTAAGTAAAATAATTGCATTAAATGGCTTCAAACAGTACCCAAATCATCTAACACAAGCCCAAATCCTGCAATGAATTATTTCTTACCAGGTA
TGATGTAGGCATTCAATAAAAGTGTGCTATTATCATTCTACTCCATGTGACGCATTGTGTTAAATTTTAGAGCACTGTGATGAATAAGGCAAGATCCCTT
CCCTTCTCTACCAGTTGAGGGGACAAACAGTTGCTATAATGTGCTGTGCATTGGGATGGCATTGTATGAACTTACATAAGCTATTATGGGAACACACAAG
GGAGTTGGAGCATCAAAGACAGCTTCCTAGAGGAAGGGATACCTGACCTAAGTCTGTAGAACAGGTTGAAGTCTACCAGACCTAAAAGGTAGGAGAGATG
AGAAGTATGTGCAAAGGCCCTGGGGAGGAGAGAGTGTAATGTTTCTGGGGAAAATGCAGTGTAGCCCGACCTTAGGGCAGGTGCGTTAGGTGTCTGTTGC
TGTGTCACATATTACTCCAAAGCTTAGTGGTTTGAAACAACATTTATTAGCTCATATTTTCTCTGTGTTAGGAATGTAAGCGTAGCTTAATTGGGTTCTC
TGGCTTAGGGTTTCTCATAAGGCTTCAATCAAGGTGTCCACTAGGGCGGCAGTCATCTCAAAGCTCAACTAGAGGGGAGGACAAGCTTCCAAGTTTCTTC
ACATAATTGTTTGCTGGATTCAGTTCCTCAGTGCTATTGACCAGAGACAGCCCTCAGTTCTTCTCCAAAGGGAAGCTTTCAACCCAGCTGCTTCATCAGA
GCAAGCCAGAGAGTAGAGCCAGAGAGAGAGGATAAGACAGAAGTGACAGTCTTTTATAACCTGATATGAGAAGTGACATTCTATCACTTTTTCTGTATTC
TATTCTTTAGAAGCAAATCACTAGGTCCAGCCCACACACAAAGGGAGGGGACTGCACAAGGACATACCAGAAGAGAAAGAAATTTAGAGTCATTTCTGAA
GCTGCCTATCACAATCTACCCTCTGGCTCTCCAATGATTCTTGTCCCTTCCACATGCAGAATACATGTCCCTTCCACACACAAAATGCAATCATCCTTCC
CAAGGTCTCTAACATCTCCTCCCGTGGGAGCACCAACTGAAAGTCCAGGATCTCATCATCTAAATCAGGTGCAGGTGTGGATGAGGCTCTTGGGTATAAT
TCCTTAAGTACAAGTTCTAGAATACTGTTACTACAGATTTGGTGATTTGAAAAGCTAAGGAGATAAATTATCTGCCCCCCATATGCCCAACATACAATGG
CAGGTTAGGTATAGAGGAATGGCTATAAACACTGCTACTCAAAGGGAGGAAAATGTGAGGAACAAAGGCGTCACTGGTCCGTAACAATTTTGAAATCCAG
CCAGGAAAAGACTGCAAGTTTCTTGGTTAGGTTTCAAAGCCTGGGGATAATTCTCCATGACTCTTAGCTCCACCTTCTAAGCTCTTGGTTCTTCCCTCTG
AGTAATCCTTCCTTTTTCATGAAAGGAAACCTGTGTTTAAAGCTGACTTGTTTTCTCAGCCTGTTTCCTGCTGAGAATTTTAGGGGTCCAATGGCCTCAT
TTTATTTTGTACTGTCTCTGTTCCTTTCTGTCCCAGCTGTGTTTCTTCTCATAGGTTTTCTCAGAAACCTTCTGGGTCTTCTGTAAATTGCACTGAGATT
CCCTCTATTACACAAAAAAACAAACCCACAAATTTCTTTGAGAACTAAACTTTTCAACCTGAGCCTCTTGAAAAGATGGCCAAGGGACAGCCCCTTGGCT
TCCTAGAGTCCCTATTGTTTGATCTGGAGGATCTATGAGGCCTACCCTAATCTCTTTAAAGGGCCTTTGTATGACTGAATAATACCATGATCTTTTGATC
TTTCTGAAGTCTTAACCAAAGGCCCACAGTCACACCCACAGCTTTATCTCAGACCACCATTTCTTGCTCAAATGCCATTTCTTAATTTTAGCACCTTTTG
CTGACTTGGGAGACTGAGAATTTTCAAAACTATCAGGTCCTGTCTCACTTTAACTTTTTTTTTTCTCTCTTCTCACATAAGCAGTAAGAAGAAATTATTT
TCAACACTTTGCTTGGACATCTCCATAGCTAGATCACTAAGTTTATTAGGTACATATTTTGCTTTCCATGTAACTGCAGACAATAGTGGCACTAAGCTTT
CTACCACTACCTAACAAGGATGTCCCTYCTCCATGATATGGTTTGCATGGGTCCCCCAAATGTCATGTGCTGGAAAGTTAATCCCCAATATGGTAGTGTT
GAAAGGTGGGGACTTAAAGAGGTGATTGGATCATGAGAACCCTGTCTTCATGAATGGGTTAATCCATCCATGGATTAATGGGTTATCACAAGAGTGGGAC
TGGTGGCTTTATAAGAACAGGAAGAGGCCAGGCATGATGGCTCGTGCCGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCAGGAGTTCGAGCCC
AGCCTGGCAAACACGGTGAAACCCCATCTCTATGAAAAATACGAAAATTAGCCAGATGTGGTGGCACACACCTGTAGTCCCAGCTACTTGTGAGGCTGAG
ACAGGAGAATCACTTGAACCCAGGAGGTGAGGGCTGTAGTGAGCCGAGATCACGCTACTACACTCCAGCCTGGGCAACAGAGCGAGACTCCATCTCAAAA
ACAAAACAAAAGAAGAGAGACCTGAGCAGGCACATCAACATGCTCAGTCCTCTCTGCAGACAGTCCTCACCAATAAGAAGGCTCTCACCAGATGCAGCCC
TTTGACCTTGGACTCCTCAGCCTCTGTAACTGGTAACTGTCAAATAAATTTCTTTTCTTTACAAATTACCCAGCTTTAGATATTCTGTTACAGGCAATAG
AAAATGGACAAAGACATTCTAGTTTCCAATAACATGTTCATCACTTCTTTTAAGCCCCCACCAGCTGTATCCTCAAAGTCCAGATTTCTACAGTGTCTTC
AATTGTCTTTGAGGCAATTGAAGATTTCTCTAACAAGCTTCTCAGAATACTTCTCACCTCTGCCCACTGCCTGGTTCCAAAGCTATCTCACATTTTTAGG
TATATGTCATGATACTATCCTTCTCTTGATGCCAAAATCTGTACTCATCATTTCAGTTTGTAACAAATTATCTGAAGCCTTAGTGCCATGAAACACCTAT
TAGTTTCTATGGGTCAAGAATCAGGTACAGTTTAGCTGAGTCCGTCACAAGGCTGCAGTAAAGGTGTCCACTGGGGCTGCAGGCATCTCAAAGGGGAGTG
ATCCACTTCCAGGCTTACTTACGGTTATTGGCAGGGTTCAGTTCCTTGCAGGCTGTTTGACTGAGGGCCTGAGTTCCTCACTGGGTGTTGGCCAGAAGCC
ACCCTCTGTTCCTTGCCACATGAGCCTCTCCATAGGGCAGCTTTCAGCATGTCAGTTTGCTTCAAGTGAGAGAGAAGAGGCAGAGAGAGCGGTCACAGCC
TTTCATAGCCTAACATCAGAAGTGAAATCCTATCACTTTGGCCACCAGGTCTAGCCCACACTCAAAGGGAGGGGATTACACAGAGTGTGAATTTCAGGAG
TTGGAGATCACTGGGAGCCATTTCAGAAACTGCCTACCACGGTGAATATCAGGGACAGCACAACTAKCAATGCCCCAGTGGCCTGATTATGCCATGTCAG
ACTCCCATAGGTGATGGACAACCACTGAAATATTTCACCGTTGAAGGGGAGACATAGAAATGTCACCCAGCAGCCTGAACAGAGAAAGCAYTGGAAATGC
AGCACTGGGTAGGGAGAGCTGTTGCAATGCAACTACCTCAAGGGATGGCCTCATAATGAAATGTTCATTGTGTCACTGGTAATCCAACCCAGAGGTCAGG
GCCAACCTGAAGGGTCGTATCCCCTTTGGGCCCTGGGCCAAGCTTTWTCTCCTGCTTGAAGCTATCTTCTTGTGTGCTGCTCTTGCCTYTTGAACCCATC
CTTTAGAGACCAAGGCAGGCAACCCCATTCCTAGGGCACTGCTTATGCATCAGATGCCACTTAACGATGATGTCCCAGGCATTTCRTTTATTCCCTAGCA
CACCTAAGGGGCAGGTACTGTTTGATGGAAGTGTGACAAGTGGTCACATGATAGGACAAAGGGGCATCAATGCCTTTGTGACCTCATCCTGGTGACCTCA
CCCCATCCACAGACCTGACTTCCTATCTTAAAGGCCCAGGAATTGGACATTTTTTGCCCTCAAATAATTGATATTTTAGTGGAAGCTAAAACCAAGATTC
CTATGCTGCTGTGTGGCCCGGATGCCAGTTGATTGTTTTGCAACTGATACCAACTTCTCTGTTGGAATTTGAGGGAAACCCAATAAATAAATATACTTAT
TCCCCTCTCAAGTGCAGAATCAATTGGCAGATGCAAGAGAAAAACAGATGAGGATCAGCATGTCACCTTTATTACTGATGAACTGATTGGAGAGCTGTCT
GAATATGCTCTGCAGCTAGGGCGATGGGGAGAGAGAGAAAGGGAGAGTGGGGAGGGCTAACTGAGCATGGTCTGCTCCTCCTCCCAAACCCACCAGCCAG
ATGAGCCATGCCTCCTACGCAGAGTGAATGAGGGGCTACAAGAAGGAGAATTTGTCTGTGGTCCTGGGACCAGGAGCATCAGTATCACCTGGGAACTTTC
AGAAATGCAAATTATAGATCCAACTCCCAGAAATACTAAATCAAACTCTGGGGGTAAGGCCCGGCAATCTGTGTTTTAATAAGCCCTGCAGGTGATTCTA
ACACAGGCTTAAAGCTGAGAACCACTGGCCTTTTGGGAGTTGTTCCCCACAAGGCCCAGGAAGAAGTATTCCCCTGGAATATTTTGCCACCCGTGCCCAC
CCATTTCCTCCATTTCCTGAGAAAACATATCCCAGAGATAGGATTCACAGTTCCCACATTTGGTTTTTAGCTTCCAGCTGCTCCAAGGAATACCAAGTGG
AGGCTTCTCATTATCTCCCTTCTTTCCTAAGGGAAAAAATGCCATGGATTTGGTGTCTTCTTTCTTGCAATCCTTTAGAGGGGCAGAGGGGTAATCCCCT
TGTTGGCACTTGATAGTCTCTGAAGACCCTAGAATGATGAGTAACACAAAGTCAGAGATGGAAGCACGTGGTTCTCCACTACTGAAATCTCTCTGTGGCT
CTCAGTTGCACTTAGATTTCCACATAAACCCCTTGCCAAGGCCTTCACCCTTCCAAACACATCTCGCCCATTTGTTCACACCTCCAGTTGCTCCGGCCTC
CCTCTGTCCCTCTAATATGCCAAGCTCGCTTCTGCAAGGACCTTTGCACTTGCTTCCCTGCTGCTTGGAGGACTCTTCTCTTACACCTTGGCTTGTCTGG
CTCCTTCTTGCCCTTTAAATCCAAACCCAAATGCCAGCTCCGCAGAAAACTTCTGACCATCCATTTCAAGTGCCCTCTATCCTATCTATCATCATTTATC
TCATTACCCACGTTTATTTTCTAGTGAGTACTTTACCCTATCAAAAACTGATTCGATATATGTATTTGTGKTGTTTGTTTGTTTGTTTGTTAAGATGGAG
TCTCACTCTGTCACCCAGGCTGGAGTGCAATGGTGCAATCTGGGCTCGCTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGA
GTAGCTGAGATTACAGGCACGTGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGACATGGGGTTTCACCATGTTGATCAGGCTGGTCTCAAATTCC
TGACCTCATGAAACACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCACCGCGCCTGGCCTATTTGTTGTTTTTTTAATTGTCTGTCTC
TCCTCACYGGAACGTGAGAGATGAGGAACCTTGTTGTATTCCCAGCACCAGAATAGTTGCTGTTATATTGCAGGCATAAGATTTATGTAAATATCTGTTG
AATGAATGAGTAAGTAAATTAATGACTACATGAACACAGAAAAACGGTTGAGGAGAGAAGGATCAGAGTTGAGTGATTCAGTCATCAAGATGGTGATGGG
CCTGCCTTCCTCTTCTCAAGGACAGGAGCACCTGAGGCCAGCTGAGTGGGCCTGGAATGCTGGCACCACACCAGATTGTCCATCTACTTTTTCTCTCACC
CATTATCTTAGGTCCAGGCTCCCCCAACTTCTCCTCCTCCTTCCCTCCCTCTCTCTCCATTGTCATTACATTACAGTCATTAGAAGCCAGCAGATTCAGA
CCCTCCTATTGTCTTTTTCATAAAGGACTGTTAATGGAGTTAGTTTTCAGCAGGGGAACTGCAAACTCTTGTCAAAACTCTGACTTGGCCACCCACATTC
ACATAATTAATCACACAGGAAACCAGAAAGGGGTGGCATGAGAGCTGGGGCCTAGCTGTGTGGGGGCCCTCTTCCCAGAGAGGAGTGTGGTACATCACAC
AGCTGCTGCCCACCAAGAGCCCACATTTCAGGCTGGAAACAAGACAACCCAACTGGAACTACTACTGGGTAATACAAATCAGGATCTAATTAGCACTGGA
CGGTGGGAGGTGGCCCTCCACCTTCAAGATGTTGGTAACAAGAGATTGGTAACAAAGGAAMGGAAATTAAATGGGGAAGGTAGAGGCTGGAGATAGAAAC
AAGATTAAAGACAGTCTCTTCTAGAATTATAAGGAAGAGGGCATTTATTGAGTAATGTATTCTCTATTGCTGTGTAACAAATTACCACAGACTTAGTGGC
TTAAAACAAAATACACTCATATGGTTTAAACATTTATAGTTTTAAACTTACATTTATACAGTTTCTGTGGGGTCAGGAGTCCAGTAACAGCTTAGCTGTG
TGCATTGCTTCAGGCCTTGGTCAGCCAGGGCCAAGTTCTCATCTGCTGGCTTGACTGSGGAAGGATTCACCTACCCACTTGTGTGGCTGCTGCARTATTA
AGTTCCTTGTGGTTGGTGGACTGAGAACTTCTGTTTCTCACTGGCTAATGGTCTGAGGCCACCCTCAGCTTCTAGACATTTCCCACAGTTCCTTGTCATT
CCTTGCCACATGGGCTTCTCAAACTTGACCACTTACTTCATCAAGCAGCAAGGAGAATCCCTAGAGCAAAGTGGCTAGCAATATATAGTATTATTTATCA
TCACATAATCACAGAAGTGACATCCCATCTCCTTTGCCACATTCTATGGGTTAGAAGAAAGTCACCTGTCCAGCCCACACTTAATAGGAGGGGATTATAC
AAGGGTGTGAACACCAAGAAAGGAGGAAAGGATTATGGAACAGCCACCCTAGAGTATATCCGCTATATTACCTATTAGATTTAGGACTGTGCCAAATACT
TTTACATGTATTACCTCAGTTAATTGCTAAAACAACCTGTAAGGCAGGCATTATCCTCCTTGCACAGATAAGAACATGAGGCTCAGAGGAATGAGAACTT
GCCCTAAGTTCTGCCAACATTAAGGTGGGGACCACCATATCATGGCATCAAGTGAACTTGTATGAGTGTACAGGCTGGAGGGCCAGCACCCTTATAGTAA
GGAGCAAGGGCCCCAGGGAGGCAGGGAGRGGGCAGGAAGAGCAGGAGGGGGATAGCTCTCCGTGAGGGGTGAGACCAGGAGGAAAGGATTGGTATGGATT
ACATTTCAAGAATGAAGGAAACTGAGAGCACTTATATCTGAGGATCTCTATTTTCTCAATGAAGCAGAAAATGCGGGCGTCTCCTGAGAGGSAAGAGAAG
CAGAGCCAAGTTGGAATAGCAGCTGTGGGGAATGCGGAACGGGAATTTTGCCAGCATGCCTACAAAGTTGTCAAGTGGAATAAGGCTGCTTCCTTCATGA
AGACTGCAGCACAGGCTTGCTGGGTGGTCCCCAGTCCCTCCCCCATTACTTTCTGCATTCACTTTCATCATCTTGCTTTGCAGTGCTGCAATTTATGCCC
AAGTCCATCTCTCCTGTCAGAAGGAAATTTTTTATAGGGCGGGAACTTAGCAGTAGTGCGTAATGTGCCTCCCTGTACCCAGCAAATGGCCTGGCACATG
AAAATCCTCCACAAATGACCTGTTTGATTCCAGACCCTGAATTTCTAAATCACTGTATTACCTCTCATCCCCTAAAGGCTCATGCAGTTCTAAAAGACTG
TTCAAAAATATGTATTTTTACTGTTCAGCGCAGTAGAGTAGAAAGTGTAGGTCCCTCTATCATGGAATAGGGGTCCTTAGAGGTGGAGTTAGGGAGATCT
GTTGCATGTATAAACTGGTGACAAAAAAGCAGCTTTGCATTTTGGCCCAGTATTTTTGATGTCAAGAAGTCAGAAGAACCATTTCAAAATATTCCATTTC
AATCTTTATTGATTGGTATGGAATGTTGCCTACAGTATATTCTTGCCTGAAAAATCTAGTTACCAGACAGACACTTACAGCACAATCCCATTTGTGTCAA
ATTATAGTCAAGTAGGAAAAAACCTAAGTCAAACCATSTCAGGGAAAAAATGAAATGTGTTGTTCATCTTCAATGAAAAGTTTAGGAGACTGTTCTGATG
CCACAGGGATTCTAGCATCTCGGCCTCCTTCTTGGGCCCTATGAGATGGCAAATGGCTGTCCACATTCCCTGGACTGCGGTGTCCCCCAGGACTCCTTAC
ACAGGTCCAGAGGTCCACCCTGATAGGACCAACTTGGGTCACATGCCCACCACTGAGCCAATGACTGTGGCCAAGGCGATCCTGCCCTCTTATCCAGCCT
TGGTCACGAAAGGGAGTCAGAGTGCTATGAACAAGAGGAAGAGGAGTGGAGGCCACATATTATACATCTATCCACTGAAAAACGATTGATCTGGTTCCCC
AGCCCCCTGCTTTTTTTTTTTTTTTTTGGTAAAATCTGCCCCTTGCCTCCTCCTGATTAGGGAACACCCCTGGGAGTTCACCCTGGCCCCACTGAGCGTA
TCTAAGTGTTGCTGGAAATCCTGGGTTCCCTCAGGCCTGTCTCAACTCAGATGCCATATGTTTCTCCTGGGGCCTCAAGTGTGAGCTTGAACTCTAGGCC
TTCTAGCCCTGGCAGTCTTCCCAGTCCTGCCACTGCTTAGCAGAGTCAGACGTCATGTTCCTGAACCTGACACTGAGTAGGGTCCTCTCACCTGGATCAC
CACTCAGAACCACGGTGCTTCTACCTCCATGACTGCTGCTACTTTACACCTGGAGGCTCCCACCCAGTGGCCCAAGTCACACCTTTTGTTTACTGCTGAC
ACTTCTCTCAAAGCCAGCCCTTCCCTCCCTTTCCCTCCCCTCCATTCCCCTCCTTTCCCTTCCCTTCCCCTCTCTTCCCTTCCCCTCCCTCCTCTCCTCC
CTTCCCCTTCTTTCCCTTCCCGTCCTCTCCGTTCCCCTCCTCAGGATCAGTCTCTCCTCTACCAAGCCACTCCCTCCTCCACAAAGCATCAGTCACAGCT
ACTCTAATGCCACACATGAGACCAGGAACAGGAAATACGGTTGAATGGCATTTTGTTTTTTCAAACTGGATCCATCAGCTCTGCCTGACTCTTTTCCCTC
TGCACCGGTTTCTAGCTGACATTCGGTRCTTCTTCCTGGCATTACATTGTTTACGGTAGAGTTCAAGTTCCTCGAAGTACTTAGCTCTCAGGAGAGCCAC
TCTTTGCTCATAAGGGTGCTTCTCCAGGTCTGTCGCTGTTGACCACATCTTCCCTGTGGCCTTGGCCACCTGCACCACCGACCAGTTCGGGTTCTCCCTC
TTCAGCTGAGCATAGTGGTCTTGGCAGAAGAGTAGGAAGGATGATGGAGGCCGTCTGGGTKCCTGGGGATCCCGCTTTCTCCGTTTCTTCCTCTTGCCAA
CATAATTCATCATTTCTTCCTGGTATCGGGCTTTGTCGAGTTTGGCCAGGGCTTCATATTTGGCCTTTTCATGCTTTGAGATGGATCTCCATTTTTCCGA
ACACTTTCTAGAGAACTCTTTAAAGCCAACRTAGGTATTTGGCTGCTGCTCCTTGAATTTGTTTCTGTAATTCAGCAAAAAGTGAACGTAAGAAGAGACA
TTTGCCTTAGGCTTTAGCTGGATTTCTTTTCCCATGTTCGTAAGTTCACCTTTTTTCTGGATTCAGTAACGTGGACAGGAGAGACTGTTGTTCCCACACT
CCAGGAGCAATCTAGAAAGTGCTGTACTTGCAGCGAATTTTTCTGTCTGCAAGAGCTGTAGTCAGGGCTCAGCCTTTTCAGTGCTGATGGCATTGTTGAG
TCAGAGGAGGGAAACTGTGACATCATCCACAAGCCAGCCAATCCCAGCCARCACCTGTGGGCATTTGTGTACAGGTGCTCGTATTGGTTGGTTACTTGAG
GGTCAATGTTTGCCTCTCATGAAAGATGATGGTTCATTCATAGTAGGCTATGAGGCAGCTATGTCCCCCAGAAATAATTCTCCTTGGCTTCCTGGAGGCA
GTGGGTTTTGCTGCACTTTAGGGGCTTAAAATCCCTAGGCTGTAGTGACAGGCCATGGGGTCTGCCTTCCTCACTATACGATTTTCAGGATGCCTCATCA
TCCCTTCCAAAGACAGGCTGAGCATAATGAACATGGGGAGGTGGATAGATCCAGGGCTGTCATGATAAAATGTGAAGTGTTTCTGTTTGCCTTGAACAGT
GGCAGCTCATGCCATACAAAGGGTTTAGTAGTAACTCTAAAAGTAATCAGGTATGACAGCTGTGACTTGGTTCCTGTCAGGACAAAGTTGTCTAATTTAA
AACCTGAGCACTTGGGCTATGAGTTGGAACTCTTCATTTCTCTGAAGAAATGTGAGGCGAAAGAGGGGGGAGAACCTTGAGATTTTATTAATTAACACTG
GAGTTCATGAAAATGAAATGGAATTTGTAGCACATCCAGAAGCCTCCCCACTCTCATGTGAGGGGTCCCCATTTCTTAGGTTTAGAACACAAAGCTGTAA
CAGCTACACTCAAACTGGCCGGCTTCTGGCTTTTGGTCAAAGTAATTGCAGATATTCCACTAGTCTTTCAATTGGAGGGAAGAGAAAAGATGAAAAAGTG
TCATTCTGGGGGCCTTTGGACACTGCTAGGTACTTGCCTGTGTGGCACTGGGTTTAATATCACTTAATGGTTGATGATAGCCCCAAATTTATAGGACTAG
AAAACTGAGTTTCATTAAYATAAAAAGTAACATGTTCAAGGTTGAACAGCCACTCACAGGTGAGAGTGTGGATTTTGACRGCTGATTGCTTGACCTAAGC
CTGTGCTTCATCCTGCCTGCACAGAGCTGTTGCCAGGGCACTGAGGGTCCAGATATGTGGTCTCAGCAGCTGAGCYGGACAAGGAAACTTGCCTAAGACT
AGACCATATTTTGAATTTTTCCAGGTTCATTCCCAGGGTTCCAAGACTTCAGTGTTCATCTTCTGTAAAAGAAAGATGGAAACTAATAAGAGTCTCCAAT
CCTGAATTCTTGCCCAGCTCTGCTGCAAGGTGGCTGGCCTACCTAAGCCATCCCCTTCCTCCCTGTGAGCCAATGATCTCTCATAAATTGAGCATTCTGG
ACTGGCCAGGGAAGCCCCTCCAGGGRACAAGCTGTAGTTGTGTGGCAGGATTTGGGGGCCTATAAGATATCAGGTGCCATCAAGGAAGTCTGGGCTAGTA
GGGGGTCTCGCAAAGGAACGGATTACTCTGGGGACACTTCTCAGCCTAGGTAGCCTTTTTCCCCCTGGCTCTTTCTCCCAAGGGGCCAGAGGTTGACTCA
CACATTTTTTGGACATGAGCAGGGCTGCCTAGATGAATGGGACACAGCTCCTTTCTGAGATCAAAAGATGGGACATGAGGAAGAACTTTAATGAAAGTCC
ACATATTCATCAGACTCTGCTCAGGCTCAGACACACACACACACACACACACACACACACACACACACACACACACACACAGAGTAGCTTATCTGTGCCT
CTTAACCTTCCATCCCTCTCATGATAAGATCCAGGAAGATTAACCCACAATAGCTATCGGGAAGCTAGCAGATTTAAGAAGAAAAGGCAGTAAAAGGGAA
AAGCTATGTCAACCTTTTGGTGTTGTCAAAGTTCCAACTTGGAGGATGAAGCAGGGGAAGTCCTTGTTTAGGGGAGCTTAGGAAAGGTAAATAAATCTGG
CTTCCTAAATCAATGCTGTGTGCTGGGTATCTAAGAGTTGCCCTTCCAGATCCCCTTTCCAGCCTTCTCCAACCTCTCTTCAACCTTCTCTGGCCTGGGA
AGCTGGTCTGTATGAGCCACATCAGAGGATCCCATACCCTCTGRTTTCCATCTCACTTTGGTCAATGGGGCCCTCCACAGGAGATCAGAGATGGAGGAAA
GTTAAGTCAAGGCATTTATTCTCCTGGATCCCCACCCCAGGGTCACTTGGAGCTGGTTCTGTGTCCCTGGACTGAAGGTCACTGGTCCTCATAAGGTGTC
CTCTCTAAATGACTCTCTCCTTCCAGTACAGGCATTGCCCCCTTTCTTTATCTCCTCCTGCCTAGGGTGGTAAAACTCTACTTTTATGAGCCTCTGAGGT
CTCTGCTACTTTCCCACACTCTGCCCTCACCAATCATTTTAATTTGAGTGGCCATCTGTTTCCTGCGGGGACCCTGACCAAAGTACCATGGTTTTAGCCT
TTCACCATGTAGGCATCAGTTTAATAGAGAAGAGTAATGAGCTTCTGGAGATCCAAGTGCCTGGCAGTCACACAGCCTAGAGCAAGCATGCCTGCAAGGA
CAGTAGCATGACCAGACCACATGCCCGGGAAGAGGTGTCCAATATTCCCTAGATTATGAGATGACCTCCAGGCAGGAGCATTGGTCTAGAGGGCCAGGTA
GTAAATATGATAGGCTTGGTGAACCACAGGGTTTCTGTTGCAGGTACCCAGCTCTGCCACTATACCTCGAAAGTAACCATAGAAAATACCTAAACCAATG
AGTGTGGCTATGTTCCAATAAAACCTTATTTTTAAAAAATARGCTGCAAGCTGGGGGTCGTAAATCTGCCAACTCCTCGTCTACAGATGTGAGTTCAGTA
TTTTCAAACATCTTGATTGCAGTCTGCAATAAGAAATACATTTTACATCATGACTCGTTTACATACATACATACTTAATATTTATATAATGCTTAATATG
AGCCAGTCTCTCTTCTAAGCACTTTATGTACCTCATTCCATTCAGTCCTCATAACAAGCCTATGGGAGGGCTATTTTTATCTCCATACAAGGATAAGTGA
ATTCAGATGAAGGTAGCAAAGCACAGAGAAGATATAGAGATAAAAAATTTCTACTTGTGTGACATACTCTTATTTTCTACTCTGTTGTAGTCACCTTTAC
TTTATGTTGTTATTTAAAATGCCACCCACAGACTGACCTCATGACCCACTGATGGGTCACACTCCAAGAATGGATTTGAAAAACACTGTCCAGACAAGCT
GAGAGGGAGCTTCCGCCTCRGAGACTGTGAGATCCTCTTTACTTGGTGGCAGTAACATGAAGTGGAAAGAACATGGCCTTTTAAGCCAGACACATATAAG
TTCAAATTCTAGCTTTGCCATTTACTAGCTGAGTAACTTTGGGCAAGTCTAGCTCATTACAACCATATCTCTAAAAAGTAGTGAGGTGATAATAAAGCCA
TGAGGATTAAACAAATTGAAATGATAGGAATAAAAACAGATGGCACTCCCCCTCTCCAGTGTGGGCTGGACTTAGCCACCCACTACTAATGAATAGAACA
TGGAAAGGGACAAATAGTAACTTTACAGCGGGGAAATCTGGCAGACACCACTTTAACCAAGTGATCRAAGTAAGCATCATCAATAACAGGTCATGTTGAG
ATCACAGAACCCCTTTCTGTGTTGCCATAATAACAGCATCTCACCGCCATGATATTCTTCCCAAAAATCCATRGCCAAGGTCTATGAAAAAACATTAGAC
AAACTGAAATAAAGAACATTCTACCAAATACCTGATCAGTACCCTTCAATAATGTCAAGATTTTAAAAAACCAGGGCAAGGCTAAGAAACTGATGCAGAT
TKGAAGAAACCAAGAAGACAGGACAAATGCAATGAGAGATGCTAGACTGAATCCTGTGACAGACAAAAAGTGGGCCACTGGTGGAAATCTGGGGAAATCT
GAATAAAATGTTTCATTTAGTTAATAGTACTGTACCATTGCTGATTTCTTAGTTTTTATGCATGACCCAGGGTTATGTAAGATGCCAACATTAGGGAATC
GGGGTGAAGGGTATACAGGACATTTCTGTATGATCTTTGCACTCTTATTTCAAAATAACATTTTTTTAAAGAAAAATCTTTCCAGTTGATAGCAATGTGC
AGCCAGGGTAAAGACACCCTGCTCTTGATCCATCATCTCCRGGAATCACAGGGCCAGATTTTACCCTCAATTACAGCAGCATATGCTCYTAGCATATCTC
TGTCAAAGTATCTCTCAGATTTTGCAGCATGATGGAATCACCTAAGCTTTCCAAAACCCTCAGTGCTCAGGCCACAGCAACAACAGCAAACATACCTGGC
ATAAGCATGTGTATGTCAAATGCTTTGAAACTTCCTTCATCCCCCTCCTGCCCCTTCCTCTGTGGAGTGGGACTCACTGGTTGCATTTACCCTCTGAACA
AGGCATCTGCAAGTGGCAGAAGAATGCCTCTCCAAAGATGCTGGCGTCCTAAGCCCTGAAACCTGTGAATTTGTTCCTTACTTGGTAAAAGGGACTTTGT
AGATAAGATTACTCTAAGGATTTAGAGCTAGGGAGATGATCCTGGATTATCAGGTGGGCCTGATAGAATCACATGGCCTTTGTAAGAGGAAGGCAGGAGT
GTCACAGTCAGAGGAGATGTGATGAGAGAAGCAGAGGATCAGAGGTGGAGAGAGATTTGAAGATGCTACACTGCTGATATTGAAGACAAGGGAAAGAGGC
CACAAGCCAAGAAATGCAGGTGGCTACTAGCAGCTGGAAAAGGCAAGCAAAAGGATTGTCCCCTAGTGCCACCAGAGGGGCTCAGTCCTCCCCACACCTT
GATCTTGGCCTGCTGAAACCCATTTTGGATTCTAACCTCCAGAATTATAACACAATAAATTTGTGTTCTTTAAGCCCTTAAATGTACAGTTATTTGTTAA
GGCAGCAATAGGAAACTAGCACAGTATCTTTCTCCTCTGGCTGCTGGTCTGTAACTTTTCTTCTGCCATTCTTAACCCCTGCTTGTGTTAATGAAGAAGA
CACATTTGAGGGTGAAAGTTTTATACCACGGCATATTCAATTTGTTGAGGGAAAAGAACATGATATATTCAATCCTGCACACTCTTCTTCACTCGCTGAC
TCATTAAGTCACTAATTCACTAATTCACTTAGCAGTTAATTCACTCTTACGTTCTTTCAGTTCATTCACTCACTCATGTACTCACACACCCATCTCAATA
AATAGCTGTTGAGTTGCTGGAGCAGTGTGGCTGCTGCTTTGATGGCCAGTGATGAACAGTGTTTGAGGGATGGATGTGTCCCAGGAAGGAGGGTGGTAGT
CCAGGGAATCATCTGAATTCACTTGGATCGCTACATAGTAAGAAACCAGATAGGGAGGCCAGGCCATAAGCAGTCAGTCCAAGGCTCTTTGGCACTGACC
TCGTGCCAGGAACTGTTAATCAATCAGATGTGAGCACAATATTTTAATAAAAATGATGATCATACTTTGGGTACATCATCTCTGGAAGCCTGGAAGCGTG
AAAAGAGAGATTAATTTATCCAAGGCCACACAGCAATAAGTGGCAGAGCCAGGCTTCGAACTCAAGCTTGTTTGACCCCTTGGCTCATATGTTTAGCCTC
TACTGGTAGTCTAGGAACTCCCTTGGCTGGGGCTAGGGTAAGGAAGCAACTGGGAAGGAACAAGGCCAAGTATTGCAGGAGGAGGGAAGAAGGAAGGAGA
AAAAGTTATCTAAATTTCAACGTTTAAAAGATTCAGGTGAGTCTTTTCTAATCTGGGTTGATCCTCATTCTGGATAGATCTAGTCAACTTATCTCTAGGT
CATGGGATGTTCTAAGTCCAGGAGGTCAACTGACTTGGATGACCCATAGAACTTCACCAGCATCTGAAGATAAGCACGGAGCCTGCATCTACTCCCAAGG
GCAGAGGCTTGCCAAAGCCAGGCGAAGTGTCAGCACCCAGCCCAATGGACTAGTGGGCAGGTGGGCAGGCAGTGGTCAGATGATTAGACACAGAATGGGA
TCAGCCTGGTTGGGGGATGCCTGGCTACCTATGAAAGGATACAGGACAGATCTAGAACAAGACCAACTCTGGGTTGATAACTCACACAGTGATCTATGGA
TACTCCTCACAGGTCTTTAAAAACCTACTCCTTTATAGCATRGGAGAGTGGCCCTGATTATTCAGTCCACCTACTTCTCTTTCATCCACAGTAGACATCT
TTTGTTTTGTCTGCCTAGSACTCCTCACTTCTTTTGAGCACATTCCTTCTTTTGGAGAATTGTCCSCAAACTAGTCATGGGGTTCTAGTGGAGGCTACCT
CCTTGGCCCCAGGAATGGGTACATTCCCCAGCTAAACTAATCAGAGGCCTCTGATGGGCTTTTTCTAATTAGAGTCACGGAGAGAGATTGTCATCTCTCT
AGTGGTGAAGGTGAGAGAGTGAATCACAGAGCTACTAAGGGTGGTCATGGCTCCAGCCTCAAGCAGCCGCCATTTGCAGTAGAGAGAATGATGCCAGCAG
GCAGAGCACAACAGAGATGGGGCACCGAGAGAGGGCCTTTGTAGCATCTGAGTTCTTGGTTCTGGCCATCCCTGGGGCCAGCTACAACTCTACTCTTCCT
ATGGTTTAGCTACAATCCATAGCAGCCAATCATTTCTTCTGTAGGTGGATGTGATCTGGATTTCTCCCATCTGAAAGCCAAAGTATAAGGCATTAATCCA
GGTGGACGGCAGCAAGCAATACAAGAAGAGAGGAATTCTCCTCTCCCCCATTTTTGATGCTTTTTGGGCACATGCTATGTGCCAGGCACCTTTTATATGC
ATCACCTCACTTAAACCTTTTAACCACTCAATGAAGTGGGTGCTGTTATTATCCTTACTATATAGATGGGGAAACTGAGGCCTAAAGCAGGTCAGTTACT
TGCCCAAAGTGAGACAGTAAGTTTAGAGCTGATGATACTTGAACCCAGGCAGTCTTCTTCTAGGGCCTGCGTGCTAAGTCTCTACCCCAAATTAGTTTCT
ACTCAGTAAATATTATTCCCTTTGCCTACGAGTCTACCTTGCTGTACAGAGATATGGCAGGGCCAAGAATTGTAGATGTCGTGTCTTGAGGCCTTAGAGG
GAACTTTGTGAGCGTCACTCACAATCGCACTATGAGATATAAACTGGGGAAAGAAGGGCTCAGAGAAGTGAAGCCACCTCTCCAAGGTCACATGGCCAGC
AGACAATGAAGGCAGGATTAGAACTCAGCTCCATGGGACTCTAGGACCACTTGCTCACTAGCCTTAGTGTGTGTGAGATGTTTAGCCCACCCATCCTCCA
GCTGTTGGGCAGCTCACTCATTCTTCTGGACATCAGAGCTGCTGATCTCTGGCAGGGACCACTAGCTGCCTCCTAACAGGGGAAGGGACATMCATGATGC
TCAAACTCAGAGTGGCAGTTAAGTGGCAGGCACACACTGATGTGGGCAGCTCCTCAAGAAGCCATTTACAACAGTCCCTCTGGGTGAGAAATAGTACTAA
TTACAAGCAGCGGAGGCTTCTGCAAGGCAAGCGGTGCCACCCTCTATGGCAGGAAGCAGGTTCCTTCTCCAAGTCATGTCTGCCAGTGACAGGTGGAAAG
TGGGCAAGGCTGGGAAAGCAGGAGCCAGTGSAGGCCAGGCTGGGGTTCCCCAGAGAAAGAGGGAAGTTGATGGCCAGGTGTACTGGCTGGTCTGGGTACC
ACAGAGTGCCCTGTCCTTCTACCCCTGCACTGCTCTATCACCAGAGTAGATGCAGGTGCCTCATTTCCCTGGAGAAAACTAAGCCAGGCTGCTCTGCGGT
CTACTCTGAAGGGTTGGGTTCAAGGCATTGGTAAGATCCCACCACCTCTTCTCAAACCCCAGCAAGGCAGGGGGAAAATAGTTCACATTTGTGAGGCACC
TACTGTATGCCAGGCACAGACTTGGACACATTATACACATGAGCACTGCTGCTCAGAGGAATCCCATTGCACAGATGAGGAAACTGAGGCTCAGAGAAGT
TACGTTGCATGCCCATGTTCACACAACTAGGAAACAGTAGAACGCAGATTCAAATATAGCACTGTCTGGTTCCGAAGGCCTGGCCCTTAACCCTTAACCT
TTTTAAACCTATTGCTTCTGTGAGGAACAAGACAGGTGATGAGCCAGATAGGTGTCATCTTTACTTAGGCAGAGACTCCAGTCAGGAAGAAGAAGAGGGT
TGAGTAGAGTTGAGTGTGAATATGCTGTAGTCACCACGCTCTTGAGGCCTGCACCCTGTTTCTGGGCCAAGCCTGATGGGGATAGGCTTTAACATCCTAG
AGCATGGAGGCTGCCAGTCCTCAGGACTGCCTTCCCGGATCTCAGATCTGACATATAATAGAGACTTGGGCTGGGGACAGGGGACAGCCAGCTAAAGCCT
CAGCAGCTGGTCAGAGTGGAGACTGCTCTTAGATTCTGTCCAGTCAGACTGACTCCTGGAGGATAAATGTACAAGGTTCAGGACATCATATAAAAGTAAT
AAGGGCAAGTTGGGGAGGCAGCAACAGAAGTGGAAGAAATGATGCTAGGACACCATTTCCCAAATCTCCCCTGGGAAAGCCAAGCCTGTGGGGTCTTCTC
CTCATTAAAGTGAGTACTCAGCCCTTCTCTCCATCCAAACCTCAAATGGGGGCCATAGGGACCTACCTTCCTGATAGAAGTTCCATCAGCTCATTGGCCC
AGCTTGGGACACATGACCACCAGGATCCAATCAGCTGTAGCCTATGGGTCATATGATGTACATGGCTACCCCTGTCAGGAGCTGTGGGTTGAGGGAAGGA
GACTGATCTTCAAAGGCTTCTGGTCTTCATAAGAGAGTAGAACTGCCTGATTTAGACCTGGAGACAGTAAAGGACGGAGTGGGCAACTCAGAAAAGCAGC
TGGGGATCCACCCACAAGCCTCTTCACCCAGAGCTTGGCATCAGCACCAGTTCTGATCTTCAGACCCAACCCTGTTCTGTCACTTCAGCACGATGGGAAG
ATCCTCTCTATAGAGGCAGGAAACACCTTACCCATCAGCTCTGCCAGCTGAGCAGCTGAGCTAGCAATGGAAGGAAACTGACACACCAAGCCACCCCTAG
ACCTTCGCAATATGCCACCACCCCATACACAAGACCCAGCGTGTTGGTGAGGAAGCCCTCATCCCGGCAACAGCCAGGCTCCCTGTTCCTCAGCACTCCA
AGCCTCAGACATGTGTCCTCCAGAGAGCCGTGCATCTGGAGGAAAAACATTTACCTGATGTGGTTTCTGTGGGTTCCCTGGAGCTAACAATTAGCTGAGC
AAGAAAGAGTTCTGATAATTTGTTGAGTTTATTGAGTTGCTTCTGGGGAAAGGGGAACATTTGCCCACATTGATTAGCAGACCTCACTGTTGCTGCTTTG
GGGATAGGTCAGCATGAGAAGAATCCCCAGGAAGGTACCAGCAGCTGCTAAGTGAAGCAGGTAGTGGGGCACAGCCAGAGCTGAGGAACTAGRACTGGGG
AAGCATGTCTTGACAGGAGTGGGCAGTGCCATGGGAAACCCGGGTGAAGCCCGCGTGGCACTGGAGGCCCTCCCTCCTATTCCCTGGCTCACCTGCTCAC
TGCCTCTTTCTCTGCTTTTCCCCACATGTAACCTCTGCTTTCACCAGCAGGCTCTCATTCATTCATTCATTCGGCCAATCATCCCTTCTTCCACTGAGTG
ATATTTACTGAGCCCTTTCTTTATGTCAAGCACTCTCCAAGGTACCAAAGAAAGAAACAGCTCCTGTCTTCAGGGAGCTCATAGTTCAGCAATGCATGGT
GAGAGAAGCACTATGGTGGAGAAAGTGCAGGGTGCCCAGAGGGGACAAAGGAGAAGTAAACCAGACCTAGCAACAAAGGACAGGTTTCCTGAGCCAGGGG
CTGATACACCTGCACGATGAGTAGGAAGTAGCTAAGAAAAGAATGGGGATGGATCAAGATTGGGAGAGAGAATTTGGCAAGAAGGTAAATTCTTAATTGT
TGGGAACATTCAAAATAGATCATAATTGACCGTTTTTCAAGAATGCTGTGGTTGAGACTCAAATATAGCTGGGCATTAGACCTAGAAGACCTTTGAAGTC
CTTCTCAAATCTCAGATTTTAAGGTTAGCTGGTTCCCACTCTCCTGATAGCAGAGGGGATGTAATTCGATATCCCACCACTGAAAGTAAGCTACTGCTGT
TTGTTCATTTATTCATTCATTCACAAACATGTCCAATAAAAGTGTTCTTAACCCACCCTGCCTCCCCCAAAGAAGCCAGCTGGACTACCCAGCACTCCCA
TGGCCTCAGTAGATCTTCCTGACTGGTGCCCATGGCACCCCCAGCAACTGCTGCCAACAGGCAGTCTCCCACCCCCACCCTCAATGCCTGTGCACTTCTG
CTCCTATCAGCTGAGTCTTGCACTTTCCGAGATTCAGTTGGGTTTGTTGCCAAGTCTCTCAGTGCCAGTCATACTTGTTATTGTAATTATGTGATTTAAA
TTAAACATCACATAAACTGATGAAATATGAGTGTGAAAGGAAATATAGTTGCATCTATGGAAACTAAATTGAATGCTTTGGAATGATTCCATGAAGGAGA
GTCTCTTAAAAGAATTGCTTACTAAATATTAGGTGTGAGTGAATGAGACAACTGTACCCCACTGGGTAAATTACATGAGGGGAGGGGGATGGGACAAAGC
ATCCTTATCACCTTGATGAGAATGGATGTCAATTTCTGGCACATAGTAGGTGCTCAAGAAATATTTGTTGGCTGGACGATCTGTAGCAACATTTGAAATG
GTGAATGATGCATTGTGGTTGTAGTTTATATAAGACAGWCAATGTGGAGAACAAACCCATGATCAAAGGGAAGGCCTTGGTCCTGCATTAAACTGATTGG
CAAATAAATGTATGCTTAAGTGTTTTACATTATAATGAAATGTTGAAGCTACATCTGTGTCCTTTTTTATGATTCCCTACTTAGAAATTAAATTTTTATT
TACCAACCAACTACATCATCTGTGAGGCTTCTATGGTAGGAATTAGCAAACTTTTTTTTCTGTAAGAAGCCAGAAAATAAATATTTTGGGCTTTGCAAGT
CATCRTCTTGCACAACTCCTTAACTCTGTCATTGCAATGTGGAAGCAGCCACAGACAATTTGTAAATGAATGAATRGGCATGGTTGCAATCTGGTAAAAC
CATATTTACAAAGACAGGCAGCAAGCTATAGTTTGCCAACCCCTGTTCTATGAAATGTATTTGTTCTGTGTGCCAGGCACTGTGCTGTGCACCAGAGATA
CTGAGACAAAAAGAAGATTTTATTCCAGCTCCCATGGAGCTTGCCTGCTAGTTGAAGAGATGGTCAACTCAAAAGATGAGTACAATTTGGTATGCCCAGG
ATCATGGCAGGGCCATGTCCACTGGGGGCAGGGAGAGGGAGAGATAGAGGAAAGGAAATATTTAGTTAGGTTTATAGGATCAGTGATATTTTCCCAAGTA
GCCAGGTGGGGCAACAGGAAAAGGGCATTACAGGYAGAGGGAATAGCATGTGCAAAGGTCTGGAGACACGAAAGTACTAGTCGCATTCCAGGATGTACAA
GCCATTCTGTGTAGCTGGATCTCAAAGTGTGTGTCATTGAAGAGGAAAGACATTAAAAAGCTTGGACTTTATTCTGGAGCCAGTGGGTTCAACCATTGCT
GCTGGCTTTCCAGCAATGCAGGGATTTGATCAAAATTCCCCACAAAGTATGGAAGATCGATCAGAGGCAGAGGGCAAATCAGAAGCCCATCTCTGTAGTC
CAGGTGAGAAACGATGAGGACATGAAATGGAGAAGACTTGGCCACAATTGGCGATAGGGGTGAAGGAGAGTGGGGAGTTGAGGATGCTGCCTGGGTTGGG
TGACCAGGAGGATGGTGTAGATTAGGGGGAGCAGTTGCACTAAGGAGCAGAAACGACTGGGGGAAAGCTTTGGTTTGTTCAGAGCATAGTAACCAACCCC
AAACACATACTAGGTAGCCGGGAATTGAATCTTTAAAGGCTGGCTCAGATCTTTCAGAGCTGTCCACACAACCAGGGTGGGCAGGCACTGCTGGTAAAAA
AAAAAGCCTTGGGAGGCTGAGGGGCCTCTTTTCAAAGATAAGGCCCAGCAACTCATATTCAAAAGAAACTTCCATTTGTCCCAGGCATTCACTCAGTTCC
TGGAAAATATATAACATCATGGGATTGTCTTGGGGAAAGAATTTATCTTGACATAGCAAGTCCTAGGAGTTTAGCTAAAGGAAAACTGATTTTGGAAAGC
ATTTTGATAAGAATGGGTGTCAAGGCTGAGTCATTAAAGGTTTGCTTCAGGAATGAGAGGTGGCTTAGGTTTGGCAGAGGAGGGATCAGCCTCAAACAAG
GGCCTTGGGACTATTTGCCCACCACTGACAAAGACATTTTCAAAAGGGTTTCTCTGATTGTATCCTGGTGTCCTCTCCATTCATCAGGGAGGAAAGCAGG
TGACAGGTGGGAAGGGAAGAGGGCTTGGGAGTGGGGATAAGGTGGTGAGGACCTCCTATATTTCACATTCTCCTAGGCCAGCCTTGGGGATGGGGAGGGA
TGGTTTATACTTAGTACTGGGATGCAGAAGTGCTTCAACTCTGAATCAGACCAGGGCCATGCACATAGCTTACTTAACAGATAATGCCCACAGGAGATGC
TCTGGGAGGACAGAAGCCAGATGCTATTGATGGAGAAGGAATGGAGGCTGAACAGAAAAGAAGGCATTGCAGCTGAATCGTGTACATTACAGGCTTTTCA
GGGACTCCCTATATCTAGGGAACCACAGTGGGAGTGGCCCTCACTTGCGAGCACAGTGCCTTTTACAAAATATGTGCTTGGTGATTGCRTGAATGAATGT
TCTCCTGAAGATGTCAGTTTTCAGGGATGCTAAGATTTAAACTAAGATCTCCTAACACTCCTCCCCCTCGACTTACAATTAGGCAGCAATTCCTTGCACA
GTCACTGTTGTCATCTTGATGGGGGTATCTCTCAGCTCCCCAACATCCCGACTGCATGAGAAGCTTCTTAAGAAGAAATGCTTCCCACAAAATCTKCTCT
GAGCTCTTCTTCATGAAGGGAATGGCTCAGAGCTTTCTGCAGAGGAGCTCAAAGCCACTTTTCTATAATCAACTACATGCATTACAGGGAGTGATTTTTT
TTTAATTCTYCCCAAGCCAGATTCCATTAATGAAGCCCCACTTAACAGAAGTCAATTTACCAAAAAGAAAAAAAAAATTGAGTGTAATTGCTTAAATACA
TTTTATGTTGTACTGCAATAGCAATTTTCTGGGTGAACTTGGAATTCCCCAAGCCCCCCGTAGTGAAGTTAATGTGGACAGAAAGGTTTGAAAGGGAGAA
TCTCTCTTTGTGTTTCTCTCCTTTAATTATGATTCTAAGAGGGAGCAAAATTAAAGAGGATCCTGGGGGAAGTCAGGAGGGGGGAGAAGAGGAACAGAAT
GGAATTCAGCCTAAATGATTCCACTGCCTTCCTTCATGCTTGCATGTACATGTGAGTGTAATGCAGTGGCTGAATGCATAGGCTCTGGATGGGATGGCTG
GATTTAAATCCCACCTCTGCCACTTAATAGCTGTGTGACCATGAACAAGTTTCTTTACCTCTCTGTGCAGCCAGGTGGTACAGTGAGAAAAGGCATAAAG
AGCATCAAGGGCAAAGACAGAGAAGCACAAAAGAACAACGTGTATTCCTGAATACATGAACTCTTCTGTTTGACGGGAGAACTGTGTGTGTGTGTGTGTG
CGTGCACACTCAGGGTGAAAGGCAGGCAGGAGTCAAACCGGGAAGGCTTCACTGAGAAGGTGACATTTGTTCAAAGCCTTGGAGGAAGCGAGGGGCTAAG
CCAGGTGGAGTTCTGGGAGAAGTGCCAGTGTAGCAGGCAGAAGGGATGTCAACTGCAAAGACCCTGAGGCAGGAGCAGGCCTGGCCAGTTTTGAACAGTG
AGGAGATATCTGTGGCTGGGGCATAAAGGGTAAAGAGGAGGAGGCAGGAAAAGGAAAGGAAGAGTGGCTTTTTCAAGGCCTTATAGGCTATAATAAGGTC
TTTTACCCTGAGGATTGGATCCATTGAAGGTTCGTTTTGTTTTGATTTGTTTTTCACTAACTCTATTATAATATAGTTTACATAAAATAAAATTACCATT
TATTTTATTTACCTATTTACTTATATTTTGGAGATGCTATCCAAAATATAAGTAAATAGGTAAATAAAATGGGGTCTCACTGTCTTGCCCAGGCTGGTCT
CCAACTGCTAGGCTCAAGCAATCCTCCCCGCTTGGCCTCTCAAAACCCTGGGAATACAGGCGTGAGCCACTGTGACTGGCTGTAAATTACCTATTTTAAA
TGTACAGTTCCTTGGAGTTTGCCCAATGTGTACATCTCATCTAATCAACATCTCATTTGAGATGTAAGACATTTCCATCACCCCCAAATGTTCCTTGCAC
TATTTCCCAGCCAGGCAGTCCCCAACCTTTATCTCTCACCCCCAGCTCTGACAACCACTAATCTGCTTTCTCTCACTAAACTCTTTTGCAGAGTTTCATA
TGAATGAGTCACTCAGTATATACTCTCAGTATATCCTCTTTGATGGCCCAACATAATGCTTTTAAGAGTCATCCATGTTGCAGGTATTGGTAGCTGGTTC
CTTTCATTGGAGAGTTTCGAGCAAGGCATGACACCATCTCAATGGCAGAGTCTGATGTGATGATTCTGCCATGTAAGCCCCCAATTCTTTGATAGATGCC
AAGAAAACTCTCAACTGCCCAACATTTGTGTCCAGGGAGGTAGGAGCAGAACAGAGTAAAGCTGCATGGGCAACACAGGGCCCTGAGAGTTTAAGCCTCG
GAAATTAACAGTTAACAGGATTTCTAGGAGTGGGTAAATGTGTGGGAGAAATGGGAGGTGGGAGATGCCCCTTAGGGCTTCTCCTGATCTCACAGGCCGG
GGAAGTCTCACTGACTTCCTGCTGCAATCTTGATCATTAATCTCATCCTGCTCTTGAGACCTCAGCACCCTCCCCTCATTCCATTTTGCAATAAAGAGCT
TTTGGTCCTGAATTATTCAGGTAGATTCTCCCTACTTCTACTTCCCTTATATAAATAGCCTCCAAGCTTTGTCATTGAGATAGAATTGAATTTGGCCTGG
AGAAAAAAAAAAAAAAAACCCACAATACGTTTGTGGCTCCTTAGAAAACTTAAATGACTCAGTCTGTAATAAACTATTTTAAATGGGATCTGGTGAAATA
CAGTAATTGGTTTTTATAATAGTTTTTACCATAGCGGTATGGGTTATATTCCTGAAGTTTGGTGTGTGTCAGCATTTTCATTTAGTAAGAATTCAGTTTT
GCAGTGCGTGAAGCTCCTTGGTTAGTTCTTTTGTTTAATGCATATTTATGAAGACCCACTATGCTGGATGTCTTCCATTTGCACCTCCAGATCCTCTCCC
TTGCCTTCTCCTTGCTCCATGCCTGAGAATACTTACCTAAGGGGCTGCATCAGTATGCTCTCTTGCTCTCTGGCTTCCAGTTGGGCTAGATCAACAGGAG
AATCAGTGGGAGACTGGAGGAGGGGAAGGAAGAGAGTGAGTTCTGCRTATTCATTCTTTGCCTCCTCTTGATGGGCTTTTCACAAATTGGCTATAGCCCC
AGATTGTGAAAGAAGATCTGGGTCCTATATGGTGTCTTCTTACATGCAGCCCCCTGTTTGGAGATAACTATTTTCTCTCTGCTCCAGGATTGGGAGTGGT
AACAAGTCCCTCAGTTGCCAGYCCCAGGATACTGCCCCTCCCGGGTGGTTCCCCCATAGTCGGCCCTCACCTTTATAGTTCCAAGAGTTTGATGAATGAC
TGTTTCACATAGGATATAAGGACCTATGTGAAAGAGTATAGAGAAAGGGTATAAGGACCTATGCAAAAGAGTCACTCATCAAACTCCTGGGACTCTTCTT
ACATGACTGTGACACCTGTTTTCTGCTGGAACCCTGAAATGCCTACTTTGTGTCCAGTATGGTGTTAGAAGCTGGAAATCAAGATGAAGAATGGAACAGC
AGCTGCCGTTACTGACAGCTTGTTATTGCCAGGGACTGTGCTGAGATCTTCTTTTGTGTATTATCTCATTTAATCCTTGCAAGCTTTTGAGGGAGGGGTC
ATCATGATCCCCATGTTTTAGATAAGGTCACTAAGTCTCAGAGGGTTTCTGTAGTTTTCCTGAGCTCACACAGCTGATCCCTCCAGAGCTCAAGTTTCTT
CACTAMTAGGCCACATTGCCCCCTTTGAGGAGTTATCTTAAGGAAACCACACACTTCTATAACTGAATTATAATTTGAATAAAATGTTGTGGCATCACAG
AGGAAGACAAAGGAAAATTATATTTATTAAGCTAACATGTGCCAGATACTGACCTCGATTCTTTGTGTGTAAGATTTCTTACTTATTCCTACAAACTCTT
AGGGCTGGTATTACTCCTGTTCTCCAAAAGGTTAAGTAACAGGTCCAAGGTCACACTGGTGAAACCTGGATAAGAACCCAAATCTGTGCTTCAAAGCCAA
GGAGAGTAGGGAATGCTTTACTGCAGATGTGATACTTAAGGGGCTTCCCAAAGTCATCTTGGGGGACATGGATGGGCAGGAGAAAGCGTTACAGGTGAAT
ATATTCCAAGCAGAAAAGGCAAAGAACTAGAAAAAAGAAAAAGGATGGAATGCTTAGGGAATTTAAGCAGGAGGTGCTGTGGTCTGAAGGATCAGTTGCC
TCCTCCCAGCAGCTGAGGGAAACCCAGCAGTGGGATGAGACCCTGGAGGAGCCATCTCAAGCTGCTCAGGCCTAGGGTACTGGAGGGGCCTGGGGCAACA
CCGCCTTCCCTTCCTGCTCCAGAGCTGGGCTGAGGCCTTGGCACTCAAGGGAAGTGGAGGAACTCCTGAATGCTCATACACCTATACCACTCAGCTCTGG
TCCCTGAGCCCATCTGCTTCCTGTTCCCACAGGTTCACCGGAGCCAGCCTCCCAGCCCCCGTTATCAGCAGCAAGAACTGGCTGCGACTGCACTTCACAT
CGGATGGCAACCACCGGCAGCGCGGATTCAGTGCCCAATACCAAGGTAGGCAGGTCCCAGGACTGTCTGGCTTCCTCAGTGGGCAGCAGAGATGACACCT
GGAGGGCTCATCACCTCTCCCTACTGGGTCCGGTGTGGCTTCAGGCATCCTTGCCTTCTTTGTACGTTTCTWTTTGCAGACCAGAGGTCTGCAGATTTGC
ATCTCTGCATCTGCCCTTGTCTTTTGCCCCAGAGAGGGATGTTTCCCAAATTATGTAGCTGGAGCTGCCCCTCACATGCCAGGCTAATCATAATAGTTAA
TACCAGATGCCTGCTAAGAGCCAGGCACAGTGCTAGGCACTTGGCAAGTASCATCTCCTTTAATCTTCATCATTATCCTGCARAKGAAACACGGTCATCA
CCTCACTTTATGGACAAGGAAGCTAAGGCCCAGAGAGGTTAAGCCAATTTCCCAAGGCCATCTGAACTCCTGCCTTTTGAGTCTGGAGCCCACCCTCTTA
ACCACCAGCCTTTGCTGACCTCTGCAGCCTACATTTCTACTCTTTTTCATTTTATCTAAAACATGAATATATTCCAAAATCACTTTAGGGAGCATGATAG
CTTTGATGCTCAAATCTGTGAAGAACTGTCTAGTGGCAACAGATCAGACCAGGAATGGCAGGTGGAGATCGCAGCTAAGCAGATTTCTGCTGCAATAATG
AAGAATTTCCCAACCCAAGAACCACCTATAMAAAGGAGTGGGTTAACCCAGAAGCAAGGAGCTGTCTGTAACTGGAAGAGATCCAAAAATCCAGCTGATA
GATGGGAGCGGATGAGCACATTCCTTTTCGACATTGCGTTTATTCAAAGTACTCAAAATTTATAGAGATAAACACCAAGGGTTGGCCTCATAACATGCTC
ATTAAGCCTTTAGCTATTACCACTCTCAAATTGTTATTGGTTTTAATAGAATAGACAGCAAGCTTATATTGTGTACCTATTAAGTATAAGGACCTGTGTG
AAGCCCTGGGCTCCAAGGCCAAATGCCTGCTGGCTCACCCTCAAGGTAGCATAGGGCAGAGTAGTGCCCCCTCCACAAGGCTCCTAGGGCCAGGCTTTCT
GGCTGGAAACTGGGATAAAAGCAGCTCTGAAGGAAGAAGCGTTACGTTCAAAATCTGAACCTTTTAGGAACGGCCTAATTTACTTAGCCTTGGGTGGTGT
ACCCATTTGAAATATCTAGAAAGTAAACAAGAAACCAACTTGGTTCAGTAGCTTAACAAAGGCTTACCCTGAGAGCTTTCTTGGAGATGTTTTTTCCACT
GCTGAGGTTGGGTCTTTGTGTGAGTGGAACAGCTGTCTGTATCTTTCTGCTGTGTTTCTCAAAAGACAAAAGCAGAGATGAATGCTATAATTGTWTCTGA
TTAAGTAAGTGCTGGGTGTTTCTAATATTTCAAGTTACTGAGGGCCCATTTGTCAGTTTTTAAGGTTAAGGTTTGATGCCAGCAATGGGCGACAAGAACC
CAAGCCTGGCAGTCTCCAGATCACACATCGATTCCACATCTGTGCACACCAGGCCCCGTGCTAGGCACTGTATGTACATTGCCCCACTCAGTACTCCCCA
CAGTAAAGTGATACATTTGTTTTTATTTCTGTTTATTTTTTCTCCAGCTGAGGAAGCTGGGGCTCAGAGAGGTTGTAACTAGCCCAAGATCACACAGCCT
GTGAGCTGTAAAGCTCTAATTCATTCTGTATTTGCAGAATTACAGGGCCTCCTCTGATGGTGCTTTGGGTGTCTTCCATTTCCTATTAACCGTAGCTTTC
AAACTTTGTTTTGCTCATCCCACCCCACTGTAAAAAAMAAAATCACAACCCAGTATAAGCATATATCTGTAGAGCTAAAAGGAAAATATGACCAAGTGGT
ATTTACTGTGTACAATGTAGTCTGAAAATGTCATTTTTATTTTTAAATGCTAGTTGCAGCCTCTAAATTAATTTTACAAATCTGCAGCAGGGAACAACTC
ACAATCTAAAAAGCACTGTTTTAGTTGCAAACTTCTTGAAAGCAGGCCCTGTTCTCTGTTCCCTCTATCATCCTTAGCATAGCCCAGAATGAAGTTTTGC
ATGTTAGTGTGCGCCAGTGTATAAAGAGGACTTGCTAGATTTTAAGCGCTTGGCATTTATTACTTTGTTCAATCCTAACAGCAACTGCGTGAAGGAGATA
CTATTACCCGTCCCATTTTACAGTTGAGGAACGAGAGTCATAGAGAGGGTAACTAGCTGGCTCAGGTCTCATTAATAGTATGTAGGAGCCAGGATTTGCA
GCCCAGCAGTGTTGATTTGGGTCTGGCATGCTCAATTATTGTGATTCTGTTAATAAATGATTCTTCCTTGAAACCTGCTTTTTCTAGTGTTTTCCTGACT
GAGACCGCATAGTGCAAGGATATACAGTGATCGTTTAGTAACTCCATTGTTGACTTTCTAAAGCAAGGTTTCTCAGGCTCTGCGCTATTGACATTGTGAG
CTGGATAATTCTTTGTTGTGAGGAAGTGTCCTGTGCATAGCAGGATGTTTAGCAGCGTGCTTGGCCTCTGCCCATTAGATGCTAGACACAGTGCAGTAGG
AGGGAGCCACAGGGACCAGCAGCCATTAGCAGCGCCCCCCCACACACACACAGTCATGACAACCAAAAAAGTCTCCAGACATTGCCAGATGTCCCTATGT
GCACAAGCACCTCCAGTTGACAACTACTACTCTGAAGGAATAAAAACTCTGGAGCCAGGAAAGACCAAGCTAAGCTTTATTATTGCAAATACACCCTAAA
ACAGTGGCAGAAATAGATTTCAGTCAGGGGTCCAGCGGGAGACAGGAGGAATACTGCACAGCTTTAACGGTAGAGGGTTTAGTGAAGGCACAATGTACAG
AGGTGAGGGTGGAGTCAAAGGAGCCCGCAAGAGATGGTGAGGCCCCTGAGGACTAAGCAGCAGGTGGCCTACACCACCACTAGGTGTGCAAAGGGACCAG
GGAAGAAGGTGGCAAGAGCTGGAGCCATAGAAGAGAGGTCTGCCCCTTGGCAGACCTGGAAAGCTATTCCCTACCTGCAGTGCAGGAGGAGGGGACCACA
GGGATCCATAGTAGCCAGGGCGTGAGGAGGGGATCAGGGGATCAGTAGCTTGACCTCTCTCCTCTCTCTCTCCCATCCACTGTGCTTCCCATCTGCCAAT
CCAACAGGAAGCCAAGAGCAAGGAAACAGAGGCCCTGCTCTGTCCTGCTCCCTGCCCTGGGATCTCTGGCTGGCATTACCACCAGGCTCCCTTGCTCTCT
AGCAGTCCACAGAGRTCAGCTTCTTGGGGCACAGAACAGGGCAGAGAGGTTTAAAGAATGGACCTGGAAGGGCAGGGGAAGAATCACTGGCATTGGATCA
GTTTCACCCACAGTCAGCTTTGTGGCACTATAGTCTTAAGTGATTTATGGCACTTCAGAGCTAATGATTACCAACTTCTAATGGTATTGASAGAKATTTT
TTCCCAGATAAACAAAAAGAAGTAAACTTAAAATAAAAGATAACCTACAACATAGTACATTATATTCTGGTCTCAGTCCAATCAGAATTTAGGATGTCTG
TGGCCAGACACARTTTTACCTAATACCACAGGGTATCAGAAGGCCTGAGTTCTAGTCGGGCTCTGCTTCGGACTGGTTATCAGGAGGTAGGCAACTGTGT
TCAGTTTAACAAGCATTTTGGGGTGACATTACTATGTGACAGCAAAAAAGATGAATGCGCCTAGGCCAATCTCTGCTCTTAAGGAGAACAGGTTAAAGAG
AGGCACAGACATAAATCTATAACTTCTGTACAGCATGATAAGAGCTGTAATTGAGGCCTGATTAAGAGTTCCTGGGCTAGAGATAAAAGGGCAATTAGTT
TTGCCAGAAGGATTTAAGGAAAGCCAAAAAAGAGGCAGTGACTTMAATGTGGGTCTCAGAAAGATGCCAGACAGACCATGGGAAGATATGTTCCAGGTCA
AGCAAAGGCAAGAAAGCATGAAACTACCACATCTAATGAACCACAACTACTTCCATGCGTCTAAAGCAGCAGTCACAGACCAAATCCGGCCCTCCACCTG
CCTTTCTATGGCCCTCCATCAAAGAATGGGTTTTACATTTTTGAACAGTTGAAGAAAAGAAAATTGAAAAAAATAATATTTCGTGACACATGAAAACTGC
ATGAAATTCACATTTCAGTGTCCAGAAAGGTTTATTGAAACACAGCTACGCTCATTCATTTACACCTGGTCTATGGCTGCTTTAGCACTGCCAGGGCAGA
GCTGAGCAGTTTATGACTGACACAAGAGGCCCACAGGCCTAATATATTTACTATCAGGCCCTTTACRGAAAAAGTTTGCCAACCTAGAGGCAAGTCTGCC
ACCTAGAGAAAAGCAAGCAGGATASGTAGCGAGCACTGAGACTGGAAAGTGTGGTAGTGGTCAAGTTGTGAAAGTCTCAGTAGAGTTGGGCTTGATTCCA
TGAGTCATAGATGAGAAGTGATCAGAAGTTGTTAATGAAAGGGGAGACGTGATCACATTTTCGTTTTAGGAAGATCTTTGCCCTAGAATCCAAATTGAGA
AAATGGTTAAGAATCTTGGGGAATTGGTAACAAGGGCCAGAGTTTAAACAGGAGTGAAGATGAAAAGGAAGGGACAGACCAAATGTATTTCTGGTAAACC
CCACTGGACTCATGGCTAGTTAGATTTGGTGGGAGTGGGAGGGGATGGGGTTGAAGGAGATGAAGGAGTCAGGGATGARTCTAGCTTAAGTGGTTTTAGM
AAAATGATATTAACAAAGATGGTCTGGGGCAGAAACAGATGGGGGATGAAGTTTGCTTGGGACACATTGATTCTGGGTAATGTTGGGATGTCAGGGATTG
GGAGACTATCTAGTGAGCAGTTAACTATTCTGTGGGTCTGTAGCTCAGGGAAGAAGGGTCTGGGCTAGAGATAATGATGTGAAAAGTTCAAACCAAAGTA
GAGGCTGAGACCACCATTCCCCTCCCCATGTATAACATGAGAGGATAGGGCCAAAAAAGTGGTTTTCAAATTGGGTTCCTTGGAGACTAACAGGTCCTCC
AGCATGGTTTGATAGTGGCTGAGTGGGTGGGACTTCAGGTTTCCACCCCTACTTCAACCTGAGCAGTTTCTCTTTGAAGTATTTTATGTAGTGGGTATTT
ACCTAAGAGTATGTTAAAATGATAAGTTCCTGTAGCCAAAGTGTTTGGCAACCACAAGACTTTAAAGTTCCTTAAGGTTTTTTTTTTCAGTTCTGGTAGG
CCTATTGAGGTTGTGTAATCAATCCGTCTGCCTCCAGGCCAGGAATGTTTCAAGTCTATGGAAATGATGGTGAGAAGAACCTTTCTTAATGCACTCAATG
CCTGCTAATCACAACTGGTGAGGGGCTTCCCTGGCTGGGAGGACAGCACCCTCATTATCTCCCTCCTCATCTGTAGAGAGGGGCTCTTGTTAACCCTACA
GGGCTATTGGAAATGAAAGAAGATCCCAGTATAAAATACCTGGCACTTGGTAGGTTCTGAGGAAGTGGAACCCTCAATCCTCATATTCATCAATCACTTT
GACTCACTTGTTAAATGGTGAAACCCTTGCACAGTGAGAAAGAGCTGGTGCCTCTGGCTCTYCCTTAGACACCTGCTCTTTGCTTTCCACTCTGACCTAA
TGATCGTCATTTGGCCCCTCCCTTCAGTCAGATCCCAGCCTGCCTTTCCTATACCTGTCACTGCCTCTCTTGCCAAGTCAACCCTGCTGACTGAGAGATG
GAAGATATTCCACAGTGAAAACCAYTGGCTCCTTTGCCTTCTAGAAGTCCTGCACTGAGTTTCAATTGTCTGCAGAATAAACTTATTCATTTGAAAACAT
TTGCATTTACTGAGATGGTTGAGGCTTTTTATAATAACAAGCTGAAGCTTCTGTTTTCCATTGAACATGTTGGGTTCTTGCCTGTGACTTGGCTTCAATC
TGAGGCCAGAATGAAAGTGCTTCAGGCATCCTGTGGTCCATGTTCTGACTCTTTTGTCCTATTCTTGGCCTGCTGATCTGCTAAACTTTCCAGCCTAATT
TCCAGGTTCTGCACCTCCAAAGGTCTCTGCAAAAATTGCAGGCTTGTTGCTGCTTGGCTCAGGAGCCCAGGGTCCACAAAACTGAGCTCGTGAGTTCAGT
CCAGAGTGAGCCTGTTACTGATGTAGGCACACAAAATATGGCACCCGTGACCTCACCAGGTTTCAAGCGTAACCCACTCCTTTTGACAGGAAATGAATTT
AAAGCACATATTCTTATAACAGTCGTTCATTCACTCAGTCATCAAACTGTCAYTGGGAAACTTCTGTGTGCCTGGTTCAGTGTCATCACAGAATATAGAT
GCACAAGCTCATGGGGCAACAGCTAGAAGAACAGGACATGATTTTGCAGTGCGTTGGGGTTTCAACAGAGGTCTGAAGGAAGTCTTGAGGAGGGCAATGA
CTTCTACCTGAGAGATGTAGACACCCATAGGGAGGCAATAACATTTGAGTGARGTCCTGGGTACCTACAAATAAGAGGTAGCCAGGCAGAGAAGGGGAGG
AAAGAATGTCCCAGGTAGAGAAAACAGTATTGCTTAGGCCGCATAGGCTATCAAAACCAATAACCAATGGCTAGAGTGATTTCTTAAACATCTCTCTTTC
CTCTCATCATTGTCTCCAGCTGAATTCACCGAAGTTAGTGAATAACCCCACATGGCTTATTAATAATGACAAAGCACTATTCTGGGAACTAGAACATGCT
ACTCCCAACACTGCTTCCCATTTACCATGCCAGATCCTTCTCTTCTTTAGGAATTCCAGTGGTCTCAGTTTTGCTGTGGTTAACTGAGAATCCACGGAAG
CAGCATCCAACAAAGCACTTTTTACAACCTTAGTTGAGTTGATGATTATTTTTTCTACCATTTTCAAAAAATCTCTGAGCGTAGTGCATAACCAGCTTCT
GGGGAGCTTTGCATAATTTTCTCGACTGTCGGTGGGTGATCCTTCAACACCTGAATTCTTAGCAATAGCTATTGCCAGAATTTTGAGTGTTCTTTTAATT
ATTTCTATACTAACTTTTTACTCTTCATTAGCTGGAGCAGTGAATCTAAGGATGAAATGTACCAAGGCAAARCACCCAAATGATATCTTTTTCAATTGTA
ACTCCTGTAACATTCAGTGTATCTGACTCTGTTTTTTTCATTCTCTTCCACATCATTTTTCCCATCAACCTTCAGCACAGCTATTGCATCCAAAATTTTG
YCGGATGTTCTTCTAGTTTTCCTTTTTCATAGACACTAATAGTAACATCTAACTGCTCAATTATTTCTTGCATATTTTTCTCAGTTTGAGTCTTGTCACC
TTTTCCTTCCAAGAACATGGCATCATCTTTGGTCACAATGRCTGCTCCAACTTTTCCTAAGTCATGAAACTGAACATCTTCAAGCTTTAGGGTCAAGCTC
TCTTCCAAAYACCATGCCATTATAGCAATAGCTTTGTTTGGTCTTTCTGTGTCACCAAAGCCTGGAGTTTTGACTACTGTAGCCCAAATGCCAACTTTTA
TCCTATTTTAAATGATCATACTGAGAGCATCTTCAGCAATTATGACCAAAGACTTTCAGTGGACATTGGCAATTTTAAGGTGGGTACAATTAACTGCTTA
CTGGAAATCCCAAGCATCCTAGAATTCTCCTTTCTGGACTTCTCATATGTTATTCAAGTAGGAAGAGATGTAATCTTGGTCAATCTCTGTTGTCTAATTC
ATTCAGTATTTTTCTGTCCTTTACTGTGATGACACCCTTCCAACATTTGTGATTACATCAGAAATGATATTGCTGATTTGTTTGTCTCCATTTGCAGACA
TTGTGTAAATGGAGAAATCTCTTCAGGAGTTGTCACAGGTTTAGGCTGCTTCTTAAGTTTGGTAATTACAGTATCAGCACATAACATCACACCTTTCCTG
GTTTCCACTGGATTAACACCTTTGCTAATCTCTACCAAGCCTTCCATGGTGAYGGAGCATGCCAGTACAGTAGCAATGGTGGTGCCACCCCACCCTCTTC
ATTTGTGTGTTGGCAACATCCTGATCAAATCTGGTGCCAACATTTATCTTGTAAGTCAATTGACCCGCAACAGACACATCATCTTCTGTTACTTTGAGGC
TTCCCTATCTCTGTTCAGGAATCACTGTTCTTCCCTTTGGCATCATAGTAATGGCTACAGCACCTGCTAGAAGGTCTGTACCTTGAAGCATTAGGTCTCA
AGCATGTGCACTGCATTGTCCATCTTTGGGATAATTCTGAGTGAGGTGAGGAACCAGTGTGCCAAACCCTGGCTTCATCTGGCAAARGACTGTGGGTAAT
GAAAGCATTTCTGCAGGGTAGGTGGCTAAATGGCRAGGCAGCCCTCAGCTACAAGGGAGGGGCAGAATGCAGGATGTATACCCAACAATTTTTCAAGTAG
GAAAAAGGCAAGGTCAGATTTCAGTTTTTGAAAGATCACCCCCTGCAACTTTTTAAAAGATGGGCTGGAGGGGATGAATCTGCAAAGAAAACTCTAGCAA
AARAGGATGAGTATAGGTAGGAGTGTCTTAGAACATTGAAAGAAGGATACACATTGGAGAAATTGTRTAAGGCTGAGCAAATTGGATTTGGAGAAGGAGT
AGTGGCAGGAAAGGAAAAGATGGTTCAGCCAGCAAGACTGGCAAGTGGCAGGGCAAGGGGAATGATCTAGTTTATTGGAGGGGCTCACCCTCATAGAGGG
AAGTCTGAATCCATTGGGAAGAAAAGAAGATGCAGATTCCCTCCACTTCTTGACTCCCAGAGCCTTGGAGACAGGTTAGGCCTCCCTTTGCTCTCTCCTC
TCCTAACAGGTCCTTGTCTCCCACTAGCTCAGCCCAGTAAGTCATGCTGCAGACTAGAGAGACATTTGTATTGCCAGATTCTTCTAGCTAAATGTGTACC
ATGTGTCCCGCTAACCTTTACAACAGCGGGAAAATGTCTTGTAATTAACCAGAATATAAAGRATGAATGGAGCAGCCTGGCAGTCTCCTGTAGTCATTAT
CATTCGGAGGAGATGAATGTACCTAGTAAGATTTCCATCAACCAGTTACAGCCAGCACTTTTCCCTTGGGAGTCCTGACTTTGTTCACATACAGTGAAAA
CCATGCACAGAATATATGTATGATGTGTATGACTTCTTTTTTGTATGTGAATATTTGTATCCATGTGTTTACATGTGCTTGAATATGTACTTGTGAGTGT
GCTTGTTATACGCAGAAATGTGCATGTATGCATGGGTAAGKGCACAGTACGAGAAGCAGCCCAGTGAATATTAAGCATACTATCGGGGGTGTGCATTAAA
TTGTAGCCAGACCATTGAGCCAGCCCCAGGTTCCATTTTACCTCCACTGCATTGATAGTAMARAACTTCTTTTTACAGACAAGTGGTTCAGTATAATATC
ATTGGGACAAGGCTAGTGGGTGCTCCATRAAAAAAAATCCATGTACAAACAACATGAAYGAATATATCCCAGAAATTCTCTATGTTCTTTCTATGTTGTT
CATCTTCTTGTTTTGACCTTCTTTTCTGACTGGGTCTGCTGGTAGTGCACTCTGGAGTTTTGGAGACCTGCCTTTGTTCTCTGACTCTCACAACCTGGTC
TGTCCCAGTCTGTTGAGTTAGCTCTTCAATGAGCTTATTTCATGGCTGATTTCCCATGGTGCTGCACATTCCATGATCACTCATCACCCCACCCACCTGA
GCAGACTGTTAAAAAAACAAGATGGCTATATATAACTCAGGGTGTGACTGCTTCCCKGGGATTGCTCAAAAACTGAGACCCCAGCATCTGGAAGTGATGT
CTTAATGCTAATATTCTGGAGGTGGAGCCAAGATGGCCGAATAGGAACAGCTCCAGTCTACAGCTCCCAGCGTGAGCGACGCAGAAGATGAATGATTTCT
GCATTTCCAACTGAGGTACTGGATGCATCTCACTGGGGATTGTCGGAGAGTGGGTGCAGGACAGTGGATGCAGTGCACTGAGCCTGAGCCGAAGCAGGGC
GAGGCATGGCCTCACCCAGGAAGTGCAAGGGGTTGGGGAATTCGCTTTCCTAGCCAAGGAAAGGGGTGATGCACGGCACCTGGAAAATCGGGTCACTCCC
ACCCTAATAATGTGCTTTTCCGACAGTCTTAGCAAATGGCACACCAGGAGATTATATCCCACGCATGGCTCAGAGGGTCCTACACCCACGGAGCCTCGCT
CATTGCTAGCACAGCAGTCTGAGATCAAACTGCAAGGTGGCAGGGAGGCTAGGGGAGGGGTGCCCACCATTGCTGAGGCTTGAGTAGGTAAACAAAGCGG
CTGGGAAGCTCGAACTGGGTGAAGCCCACCACAACTCCAGGATGCTGGTCTGCCTCTGTAGATTCCACCTTTGGGGACAGGGYATAGCCAAACAAAAGGC
AGCAGAAACTTCTGCAGACTTAAATGTCCCTGTCTGACAGCTTTGAAGAGAGTAGTGGTTCTCCCAGCACGCAGCTCAAGATCTGAGAGCGGGCAGACTG
CCTCCTCAAGTGGGAACCTGACCCCCGAGTAGCCTAACTGGGAGGCACCCCCCAGTAGGGGCAGACTGACACCTCACACAGCCGGGTACTCCTCTGAGAC
AAAACTTCCAGACGAACGATCAGGCAGCAACATTTGCTGTTCACCAATATCTGCTGTTCTGCAGSCTYCGCTGCTGATACCCAGGCAAACAGGGTCTGGA
GTGGACCTCCGGCAAACACCAACACACCTGCAGCTGAGGGTCCTGACTGTTAGAAGGAAAACTAACAAACAGAAAGGACATCCACACCAAAACCCCATCT
GTATGTCACCATCATCAAAGACCAAAGGTAGATAAAACCACAAAGATGGGGAAAAAACAGAGCAGAAAAACTGAAAATTCTAAAAATCAGAGCTCCTCTC
CTCCTCCAAAGGAACACAGCTCCTCACCAGCAAYGGAACGAAGCTGGACAGAGAATGACTTTGACGAGTTRAGAGAAGAAGGCTTCAGATGATTAAACTA
YGATGAGCTAAAGGATGAAGTTCGAACCCATGGCAAAGAAGTTAAAAACCTTGAAAAAAGATTAGACAAATGGCTAACTAGAATAACCAATGCAGAGAAG
TCCTTTTTTTTTTTTTTTGAAATGTATTTTTGTTTGTTTTTTTTTTGTTTTTTTTGTTTTAATTTATTTTATTATTATTATACTTTAAGTTTTAGGGTAC
ATGTRCACATTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCACTAACTCGTCATCTAGCATTAGTTATATCTCCCAATG
CCATCCCTCCCCCCTACCCCCACCCCACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGATCTCATTGTTCAGTTCCCCACTATGAGT
GAGAATACGCAGTGTTTGGTTTTTTGTTCTTGCGATAGTTTACTGAGAATGATGGTTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCAT
TTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACACTTGGGTTGGTTCCAAGTCTTTGCTAT
TGTGAATAATGCCGCAATAAACATACATGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCA
AATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGYTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTCTTCCTA
TTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCAT
TTCTCTGATGGCCAGTGATGGTGAGCAGTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTTGCCCACTTT
TTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCT
CCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTGTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGTCTTTTGT
TGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGT
CTAACGTTTAAGTCTTTAATCCATCTTGGATTGATTTTTGTATAAGGTGTAAGGAAGTGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCC
AGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCGAAGATCAGATAGTTGTAGATATGCGGCGTTATTTCTGAGGG
CTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTGTAGTTTGAAGTCAGGTAGCGTG
ATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGATTTGGCGATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGA
AGAAAGGCATTGGTAGCTTCATGGGGATGGCATTGAGTCTATAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCATGAGCA
TGGAATGTTCTTCCATTTGGTTGTATCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGTTCCTTCACATCCCTTGTAAGTTGGATT
CCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTAGTGTATAAGAATGCTTGTGATT
TTTGTACATTGATTTTGTATCCTGAGACTGCTGAAGTTCCTTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAATCATGT
CATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTGATTGCCCTGGCCAGAACTTCCAACAGTAT
GTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGT
TTGTCATAGATAGCTCTTATTATTTTGAGATACGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCT
TTTCTGCCCCTATTGAGATAATCATGTGGTTTTTGTCTTTGGCTCTGTTTATATGCTGGATTACATTTATTGATTTGCGTATATTGAACCAGCCTTGCAT
CCCAGGGATGAAGCTCATTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCTGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTC
ATCAAGGATATTGGTCTAAAATTCTCTTTTTTGATTGTGTCTCTGCCCGGCTTTGGTATCAGGTATGAGGCGGCCTCATAAAATGAGTTAGGGAGGATTC
CCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGTTCCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACT
CTTTTTGGTTGGTAAGCTATTGATTATTGCCACAATTTCAGATCCTGTTATTGGTCTATTCAGAGATTCGACTTCTTCCTGGTTTAGTCTTGGGAGGGTG
TATGTGTCTAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCGTAGAAATGTTTGTAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGAT
CAGTGGTGATATCCCCTTTATCATTTTTTATTGTGTCTGTTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGAT
CCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTACAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTT
CTGCTAGCTTTTGAATATGTTTGCTCTTGCTTCTCTAGTTCTCTTAATTGTGATGCTAGGGTGTCAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCAT
TTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGTGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCCTTGGTTTCAAAGAACATCTTTAT
TTCTGCCTTCAGTTCGTTATGTACCCAGTGCAGGTTGTTCAGTTTCCACGTAGTTGAGCGGTTTTGAGTCCGTTTCTGAATCCTGAGTTCTAGTTTGATT
GCACTGTGTTCTGAGAGACAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACTATGTGGTCAATTTTGGAATAGTTAT
GGTGTGGTGCTGAAAAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCCACTTGGTGCAGAGCTGAGTTCAATTCCTG
GGTATCCTTGTTAACTTTCTGTCTCGTTGATCTGTCTAATATTGACAGTGGGGTGTTAAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTCTCTTTGT
AGGTCACTCAGGACTTGCTTTATGAACCCGGGTGCTCCTGTATTGGGTGCATATATATTTAAGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCA
TTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTATTGGTTTAAAGTCTGTATTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATT
TKCTTGGTAGATCTTCCTCCATCCTTTTATTTTGAGCCTATGTGTGTCTCTGCACRTGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTC
TTTATCCAATTTACCAGTCGATGTCTTTTAATTGGAGCATTTAGTCCATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATGATGA
TGTTAGCTGGTTATTTTGCTCGTTAGTTGATGCAGTTTCTTCCTAGTCTCGATGGTCTTTACATTTTGGCATGATTTTGCAGCAGCTGGTACCATTTGTT
CCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTTTGTAAGGGATTTTATTTCT
CCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCAATTTCTTCTGACTT
GTAGAGTTTCTGCCGAGAAATCCGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCTAACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCAT
TTCAACTTTGGTGAATCTGACAATTATGTGTCTTAGAGTTGCTCTTCTCGAGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAATCTGAACGTTGGCC
TGCCTTGCTAGATTGGAGAAGTTCTCCTGGATAGTATCCTGCAGGGTGTTTTCCAACTTGGTTCCATTCTCCCCGTCACTTTCAGGTACACCAATCAGAC
GTAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAATCTTTGTTCGTTTCTTTTTATTCTTTTTTCTCTAAACTTCCCTTCTCACTTCATTTCATT
CATTTGATCTTCCATCACTGATACCCTTTCTTCCAGTTGATCACTTCAGCTCCTGAGGCTTCTGCACTCTTCACGTAGTTCTCGAGCCTTGGCTTTCAGC
TCCATCAGCTCCTTTAAGCACTTCTCTGTATTGGTTATTCTAGTTATACATTCTTCTAAATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAA
TTTCCTCTTGTAGCTCAGAGTAGTTTGATCATCTGAAGGCTTCTTCTCTCAATTCGTCAAAGTCATTCTCCATCCAGCTTTGTTCCGTTGCTGGTGAGGA
ACTGCGTTCCTTTGGAGGAGGAGAGGCGCTCTGCTTTTTAGAGTTTCCAGTTTTTCTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTTTGGT
CTTTGATGATGGTGATGTACAGATAGGTTTTTGGTGTGGATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGACAGGACCCTCAGCTGCAAGTCTGTT
GGAGTTTGCTAGAGGTCCACTCCAGACCCTGTTTGCCTGGGTATCAGCAGCGGTGTCTGCAGAACAGCAGATTTTCGTGAACCACGAATGCTGCTGTCTG
ATTATTCCTCTGGAAGTTTTGTCTCAGAGGAGTACCCGGCCGTGTGAGGTGTCAGTCTGCCCCTACTGGGGGGTGCCTCCCAGTTAGGCTGCTCGGGGGT
CAAGGGTCAGGGACCCACTTGAGGAGGCAGTCTGCCCATTCTCAGATCTCCAGCTGCATGCTGGGAGAACCACTGCTCTCTTCAAAGCTGTCAGATGGGG
GCATTTAAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCCCCAGAGGTGGAGCCTACAGAGGCAGGCAGGCCTCCTTGAGCAGTGG
TGCACTCCACCCAGTTCGAGCTTCCCAGCTGCTTTGTTTACCTACTGAAGCCTGGGCAATGGCGGGCGCCCCTCCCCCCGCCTTGCTGCTGCCTTGCAGT
TTGATCTCAGACTGCTGTGCTAGCAATCAGCGACACTCCGTGGGCGTAGGACCCTCCGAGCTAGGTGCGGAATATAATCTCCTGGTGTGCCATTTCCTAA
GCCCGTTGGAAAAGCGCAGTATTCGGGTGGGAGTGACCCGATTTTCCACGTGCCGTCTGTCACCCCTTTCCTTGACCATGAAAGGGAACTCCCTGATCCC
TTGCACTTCCCGAGTGAGGCAATGCCTCACCCTGCTTTGGCTCATGCACGGTGCGCTGCACCCACTGTCCTGCGCCCACTGTCTAGCACTTCCTAGTGAG
ATGAACCCGGTACCTCAGATGGAAATGCAGAAATCACCCTTCTTCTGCGTCGCTCACGCTGGGAGCTGTAGACTGGAGCTGTTCCTATTCGGCCACCTTG
GCTCCTCCAGATATACCTAATGTTAAATGACGAGTTAATGGGTGCAGCACACCGACATGACACATGTATATATATGTAACAAAACTGCACGTTGTGCACA
TGTACCCTGAACTTTAAGTATAATAATAAAAAAAGGAAAGTYATTTGAAGAGACTGTAAATAAAAGTAAATTTAATCTAAAAAAAAATGCTAATGTTCCT
GGTGATGTGGATCTTGCCTAGAGCTTACCCCTCAGTGAAGGATCTTACATGACCCGTCAATCAGCTCCCATATGGTGTGTGCCAACTGTAGGTTCTACCA
TCAATCAGCTGGGCCTGAATATACATTTTGTAGAGTTTGTGTTGTTGGTATGCRGAACCCTTGCCCAAAGAGCTGTGACCCCTGTATTTCCCTGCGCTAA
CATGATGAGGACAAAGACTCTAYCTGTGGATTCTAGCATGCATCCGATGACCATGTGGTGGCTACAGGCAACACTGGTGATATAACCTCTCAGACCTAGC
TCAAAGCGGTAATCACCAAGTTCATATGTACATTATGGAGCTCCCTGCAGCTTTTCAGGTTCCTTCTCACTCAGTTCTCATCACCTTGACAAACTCCATC
CTATGCTAAGTAGCAGGAAGTAAAAGAGGAAGAACAGAAGTTAGCTCAAGCTTGCGTTGCATGATGACATCATCCATTACTAGAAGCAGCCCAATGAATA
TTAAGCACAGATCCATTAGGTTAGGCAGTCTTTCCTTGSGGAGGAATGAGTGGAGAGGGTGGACACAGAAATCAGAAGGATTMTTTCTGGGCCCTTGAGA
GAGGCAAGGAGCAGGAGACTTTTCCTCARTGCAACCGTGAGAAGAGAGGAAGGGGAGGCTCCCTCTTAGCATCGCCTCCCCTCATGGCCACRCATATCTC
ACAGTGCCCACATCAGCCCCTACATGGAAAATCCAAGCAGCTTTGCCCCTGGGAATGGCCTCTGTGGTGCTCTGGTCCCCTTCCTCATTCCCCTTCCTCT
AGCAACACTRGAGCCAGAGACAAGGAGACGATGAAGACTCTTTCTTCACCTCCCACTTGGCCAGGTGCCCTGAGCCATCTCCACAGACCTGACCACAAAT
GGGCTGCACCGGGTCATAGAGACCCCTCACCCACTGCTGCCCTGATGCTGGGGTACCAGGGCTATCAGGCTCAAATTGTTGTTGTGGTGCTGGAACTGCT
CCTGTTCTCCCAGGGATAGTGAATCAGAGGGCTATCCCCCTGCCRCACTGTATTAGCTAGGCTTGAATAATGTATGTTTCCYTACTAATGCCCTCTGTTT
GATCRTGTGTCCATGTTAGTGTTCATTGGAAATTTTCCTGCTGGATACACATGGAGAGTAATGCACATTTATAAAAACGGTTTGAATGCATGTTGGGAGG
CTATGACTCCGTGGTAATAACTGAATTTTATCAGGCATTCAGATTACACAGTGACTTGCCTGCCAGGGAACAAACCCTTGGGGAACTTTTTCATGTAGCC
AGAGTTGGGGGACTGGGAGGCAGCCTTCCTTGCATATCTGATTACTGTGAGCTTTGATTTGGGGATTGGCCTGTTACCTCAAGTCCAGAGCAAATACCTG
AGTTTTCAGAGCCTGAGCTTGGGAGCAGATCCTGGAGAAGGTTTACAGTTTCCCTGAGATTGCTTTGGGTGCAGATCACAAGAAAAGAGGCTGAGGCTCA
GTGAAGAACACAGCTGTTTCCTGGCTGTGTGACTTACAGCAAGTCACCTAAACCACTTTGAACCCTGATTTGATTATCTATTGAGTAGGTATAATAACTA
CCAGTCAAGGTTGTTGAAAGTATAAGGACCAAATGAAATGATTCTAGGCGTTGAGGATACACCATGAATAAAAATCCCTGCCTTTGTAGAGCTTACATTG
CAATGTGGAGTGACAAAAATAACTACATAAATGGTATAGTATGTTAGAACATTGGGAAGATAACRTTGGGAAGGAGGCAGGGAGAGCTGGGGTTGCAGGT
GTCATTTTAATGGAGTGGTCAGGGAAGGCCTYAGTGAAGAAATGGTGTTTGCACRAACACTTAAGGGAAAAGGGGAGCAAGTCGTAGAGATACCTGAGGA
AAGGCCTTTTGGGGAATTGGCAGGCTGAAGCAGAAGCATGCCTGGCATATTGTAGGCACATCAGAGAGGCCCATGAGGCTGGAGAAGAGCAATCGAGGCC
AAATACAGAGTCAGAGAGGTCATGGGGAGAACAGATTGGTCTTGCAGGCCATCTTAAGGACTTTTACTCTAGAAGACATGGGTTGCCACTGATGAGCTTT
GAGCAGAGATGTAATATGGTTTGACTTATGTTTTAATAGGATCCCTCTGGTTCTTGTGCTAAGGACAGACTATATAGGGACAAGGGTGGAGAATGGGAGG
CCACAGTCATGAGGGGAAAGGTATCTCRGACTTGAATCAGGATGATAGACAATGGAAGTTGTGAGAAGTGGTTGCCTTTGGGATATATTTGGAAGGATTT
TCTGATGGATTGTGTGTGGGTTTGAGAAAGAGGAGTCAAGGACGCTGATTTAAGTAAAGAACTTGTAAAGCACCCTGGACCTGGCACGTATGAAGTGCCC
AGTTACAGTTGTTGTCACCACTCCTGGGTATCAATCTGAGCAGGGCTAAGTCAGCAGGCGGGGCCAGCTGGAAGATGGCACCGTGGGTAGCTGGGATTAA
ACAGCTGCTCCAAGGCATATAACCAGAGACAGGGTGAAGCTGTTAGAGGCCAAGAGAATGCCTTGGGTAACAGGGGTGGTCAGACCAAAGGCGGCTGATG
GGTACAGAGGAATGGCCTTTGGAATTATGGAGTTCTGGCTCTGGCACCTTTTGTGTGCTATTTGGCAAAGTTCTGATGAACTGAGGACTAGGCTGGACTT
AGTGACAGGGTCAAAGCCAGATCTGATCCATCAGGCACCCACTTGAGTCAGGCCCCATCTCCCAGTGACCTCCAGGATTCAGCTTCCCCTGCCTGTAAGA
GGTTGGCTTATGTAGGCTGGGCTTGGCTTGGCTAATTCCCTCTTCCCCCATGTGTCTCTTATCCTCCTGGGAGCAGCTATGTTGTCTCACAATGATGGCA
GAGATGCAAGAGGCCAAGCCTAATCTGGCAAGTGCTTTTATGCCTTTGAACACATCAWGGCCTCCAAATTTCCCATGGCCAAAGCAAGTCACAAGGCCAA
ACCCAAAGTCAAGGAGKGGGGGAATGTACTCCACCTCTGTAATGGAGGGAGCTAAAAAATCACATTGCAAATGGTGAGAATACAATGAGTAGYGACAATT
TGGGCCCATATTCTGATCTACCATACCCTGTCAGGGCTGACTCAGAATTGAGGTAGAGAAAAAGCTGTGGAGAAGCAGAGGTGGGCTGCAAGGCTGCACA
CGTCGACGCTCATGAAAAGTTTGCTGAGGAGCAGGTTGAATTCAGTAGGTCTGGTGAAATCTCAGACATCTGTGAGAGGCCACCGGGGGAGTCCCAGAGC
CTCTCAGAGCCCACCCAGTAGGAGACCACATTTTTGGCCTCCCTCAGAGGGCTAGCCTTGATAGTAACTTTTCCTTCATGTCTGAGGTCCTATTGCCCTT
GACCACTACCCTTGGAATGTCCCAGCCCAGAAGTTCCTGGCTTTGACCCACCATGGAATGTTCCAAGGCACAAGGGGGAATCCTTCTAGAGGGACCCTTA
TCCCTGGTCACAGGCAACAACTCACATTGTTTTTCCTCTTACCTCCTCTCTAGTCAAGAAGCAAATTGAGTTGAAGTCTCGAGGTGTGAAGCTGATGCCC
AGCAAAGACAACAGCCAGAAGACGTCTGTGTGTAAGTGTCCGCCCGCCAGCCCGCCTGCCGGGCCTCTTGCTTGAGGTCACACGTGCAGGCACTAAACCG
TGGGGAAGCCAGATGATGCTGGAATGACTTTCCTTCAACCCTGCTTCCTCCATCCTGGGCTCTGCGCTTGGACACACTGACCCAACGGCCAGAGAGCAGC
CCTGGGGCCTGCCCTTTGCCTTCTCCTCCTCCTCTTCCCATTTTCCTCCTTGTCCTCTTTCTCCCTCACTTCSCATTTGAACTGCAGTCCAGGGAGTCAT
TACTGCTACATTTCTCTCTTTATTTTCCTTTTGAATCACTTCCACCTGCTAAGACAGTCCTCCTTCAGCTCCTCTTTTAGGAGTCAGTAACCTTGGGCTG
GGATCTTGGGGGCTGTAGGGCCCCAGTTCCAGCTCCCAAGGCCAGATTGGGAAAGGGAGGCAGGGGAATGCCTAGTAACCTCCTCCAAGGGCCCCTGGAC
CTGGCTGAGCAAAGAGAGGACTGGGGAAGTGTGGGGGTGGGTCCTGCCTCGGGKCRATGGGGAGGCACTGGGGGCTCTCTTCTTGGGCRTGGGGAGGATG
ACATCTTTCAGAACATGTTCCTGCTACCAGTGTTTGTAAGGTTAATAGGGGTCTAGTTCTGGGGAATGGTCTGGAATGTGGGTCCCAGAAACACCTGATC
AGGGCCTGTGCTAAGGGGCTTTTGAGCTGAAGCCCAGGAAGGGCTGGGGAAGGTTCTGGGCACCTCCACAAGACTGGGCTTAAAAGCAGGGGAGGTTTTT
TTCCAGAAACCTTCCACTTTCCTTCTGGGCCGAGTGGTAGGGAGCCTTCCTTGGTCCTCCAAATGACTGACCTGGTTTTCCTTCTCCTTCCCTCCCTTTG
CCCTTCTCCTGCATCTCTGGTCCTCTCTCCCTTCACTTTTTCTCCTCTTGCCACTTTCTGCTCCATCGTTCTTCTCATCCTTCTGCTCCCGCCTCTTCTC
TCCCTGCTTGTCTTCCTGTCCCTGACTTGCTCCTCCCACCCTCCCCATTCCTCCCCTTCCATCTCACCTCCATGTGCTCACTTTCCTGGAGATGCTAGAA
GTACTTATTGAGGAGAGAAGGGCATAGAGTGGCACCGGTGGTTTTCGAGCTCTGTGCCGATGTGTGTGGCCGGGAGAACATCAGGAGAAGAGGCACTTTG
GTCTCAGGMTCCGACTGAACCGAGCCTGGGTTGGGGATTGTCTGTGGTCTTTGAAGTTGTCTGAGTGGAGACAGTTGCCACAGGCTGTTGGATACAGCCA
GGAACTGGCATCTCCAGTCACCACCCTCAGGGACTGGATGGCAGAGGGCACCAGAAGAGCCTTCTTCTGTGCTTGACTGGGGGTTTAGGGGAAAGGACAG
GGTGCTAGGAGAGCCCAGGGTCAGGCCAGGAACCTGCAGAGGGCTCAAGCCATGGCCCTGACCCTCACAGGCTTTTTCTTTCTGTAGCCACAGGAGACCC
AATGAACTGAGGCAGGCACAGTTTAATTTCACAGTTTGCCCTGGAGCCACAGGCAAACTTAAGGAAATGGCCCTGACTTGGGAGATCAAATATTTATCCC
AACTGTGTCCTCAGGGAGCATGTTACCCCAGACACTAATGTTTCAGTTTTCACATCTGTAGAATGGGGATGCAAAATCCTACCCTGCCTTCCTCCCAAGA
GTGTTGCCAGATCTAAGATGGGTCTTGTTGACCTAGGACTTCAGGAGGCCCATGGACTAGCCAAAAAAGTACATGTGATGCTCTGGGTGCATTTTTCTGG
AGACAGGATGCAGGGTTTTCATTAAGCCGACTAAGAAGATGCCAAAAACTCCCTCAGGAAGATAAAGAGAAACCCTGTTCTAATGAAAGAATGCAAATGC
TCTTTGCAAAATAAATATATATATCTCTATTGAGAAGATATTAGCCTCCATTCTAAGAGTTCCTCAGAAAGAATGGGTGTGTGACTCCAGCTGCCTCAGA
CCCAGGTAGCCACATGTCTKCAGGTGGCTGGCCTCCTGTGTTCTGCCCAAATTCCCTGTGGACAGCTGCCCTGAAGTTCATGGGGAGAGTGGACCCAACT
CTCTACCTWGCCATCAGTTCTGAMCACCCACCCACCTGTGACTCCCTGCGTTGGGTAGAAGGTGGTGCCTTCCTGAGCACATTGCGGCTTCTCCCTYGCC
ATAGTGGCCCTCCCAGAGTAGAGTAAGGATTACTCCCCATTCCTGTCCCTCAGTAGCCAACAGGAAAGCAATGCTGTAAACACAAGCAGCTGGTTTTGAG
TAGGCAGAGAAGACTGGAATTAAAAAAAAAAAAGAAAGGGAGAAACACTTCTTGCCTCCATAATTCAGACAGTAAACTGATCGCTGAGATTTAAGTTTGC
TTGTTTCCTGGGGAAGCTTGAAGATCCTCGTGGGACCACCATCCCCTGCTCAGTCCTCCCTGGAAGGGGGCACTGGCTGGGTATRAGCCGCGTCACCGTT
GGGTTTGTGACTTTCTGGATGGTGCCTGGGTTTCACCTGGGGCTGGCTGAGGAAAGGGGAGGCGGTAGGGTCTGCTCTGTCTGTCAGGGGCTTGTGGCTT
GGCGGGTGGGCTTTGCCATGGTCTCGCCTCTTGAGTCCAGCCCCGTCCTGATGGGGCAGACTTCTGTTCGTTCTGCTTCCTGGGTGATGTCAATACTGAA
TGAGAGGGCAAGAGAAGGGGAAAGGGAACCGCCATATGTTCTTCACGTGCTGCAAGGGGGCTGTGTGGTTCCCATGAAATGGTCAGCAGAGACTTTGGGA
TGGGTATGACTCRTGGGTCACAGGGTTGACTAGACAGAATCTAAAGAAGGTGGGTGCTTAGCTGGGAAGTCTGCAGTAGGRACGGATCACTGTGAAGCTC
TAGGGGGACCTGGCTTACCACAGATAAGGCAGCAAATACAGCTCAGGCTTCCTCCTCCTTCCCACCTTCTGGGTGCCTTAGAGGACCCCCTAGTTATCTC
CGTTCCATTACTTGCAAAAAACTGAGGCTTCCAGGAAGCAGGAGCTTCCTCTGCTTCGGGAATGGCACTTCCATCTTACTTTCCCAGCCTGAGGYGTCTG
GACTGGTGGGAACGGCTCAGGATGTGAAAGCTTTGGAGGTAAAGGCTTGGCAAGGAAGGGGATGGGSGTAAGAGACAAGTAGGGGTAGGGGTAACTGGCT
TGAACGTGCACTGCACACAACCAAGAGGATACCTGTGTCTGGCTTGAGCACACAGTCTGTCCAAATCCTCAGGTTCCATGGCCAGCCATAGCCTGGGCTA
CCTGGAGGTTTAAACACGGTCTACTTCAGGCCTCTAACTGTAGACTCCCTCAGTGAGTCTAAAACGAGCTCCCCACCTTCCTTACTTCTATGAAACCACC
TGCATCCTCACAGGTACCCAGGCCCTGGAAATCCTGGAAATGCCCTGCTCCTTCTCCTCATGCCCTAGGTCCCCTGTGAGTCCCAGGGATTCTTTCTTTG
CCACATCCATTCCTGCTGTCTCATGTCTAGCCTCACTCCAGGCTCTTGTTGTCCTCAGCCTGAATAATCACAAAATTTCCTAACTCATCTCTAGGTAACT
GGCCCACCTTTGAGCCAGCGGGTCTCACCACGCCTTCTCCCCACCAGAACTCTCCAGCGGCTCCCCATCATTTTCAGGATCAGACTCAAACCCYGTAAAA
GTCTGATCTCTGAAACCTCACCATCCACTCTTCCTTGTCACTCTTCACCTTCCCTCCTACTCTGGTCACACTGCATAACACGCATTCTCTTTCCAGGTTT
CCACCTCACTCCTCRTGCCTGTCTATCTTTGTCATCTCTGTTGCCGTGTGTCTAAATCCTATTAGCTCAGAAGGTCCATGTTCGATGCCACCTCTTCCAG
GCAGCCTCACATGCGGGTGCATCCTTCATCCCTCCCCACTGTGGTCCCACAGTCCGCTTCCGTGGTTTATGTCCTCACTCAACTGGAAACTCCTTGAGGA
CAGTGGTCTTATCTGACTACCTTTCGCATTTCCATGGTATCCAAATAAAGCCTTGTACACAGTAGGTGCTCAATGAATGCTTGTTGTGTACCTATGTGAG
CAAGTGGGTGAGTGAGTAATGGAGTGCTTTGTTCACCTTATGGGACATTGAATGGGATGGGAGGGACATGCGCAAAGTTGGAAAATGCCGAATGCTGTCC
AGATGCCCTGGAACCCTTGTCTAGAGGTTGCTGTTGGGGTCATGGGATTGGTGAGGCTTTGAGTGGAACTCCTCCGACCAGGCTGTGTGCCTGGCTCCAG
CTCCTGGTCATCCTCAAAGCCAGGAATCCAGCCTCCTCAGTACCAGCATCCCGACGAAAAGGAACAGGCAGGGGCCAAAGGGTTGCCTACCCTCCCTACT
GTGTGTGTATCCGCTGCCCCCTGACCAAGCTTCTCCTCTAGCCAAGACAACTGTGCATATGGTTTTTGTAAATAGGACTCTGGCGCTGGCAAGTGTCAGA
GCATTGCACCACCTACCAGAACCATCACAGGTGCCATCTCTGCCCGGTGCCCTTGATGGGTGGCACTGGGTAGGGGATGCTCTGGTGACTGCTTACTCTG
GCTCGAGAAGTATCTGATGGGAAGAGGTTTCTCAGAAGAAATGTCTGTGTTTGAGCTGAAGTCCCAGCTTTGAACTTTGACTGCAGCTTTCTCTTACATT
CTTTACCGTTTCTGATCATGCACCCACCTTTTATTTAACTTTSTTTGAGTCATTTCTCCATCTGGGGCTGAGGTGGGGGGCTCATTTCATCTAGAGTCTC
CACCCCAGATCTGAAGCATAGGCGTGGTGGGGGGAGGTCACCAGGGGCTGTGGATGGTCCACTTCTGGCTGCTGGTGTGGGACGAGGGAAGCAGGTGGTG
GTTGGCATGGAGGGCCTGTCTCTGAGCCCACACACTNGTGATGACTTTGCTCACAAAGGAATTTGTCAAAAGCAGCCTCCTATNTTGCACATCCAAGAAA
CCCCAGGCCAGTAGACTCCGGCCACCCCACACAGCCCCAACAAAGCAGGGCCTCATTCTGTCTCTGCCTCCACCTCCCACCCTGAGACATTGCCCCAGCT
GGTGCCTCCCTGTGACTGTCCATCTCTGTGTGTGCTGKTTTTTTTTTTTTTTTTTTTTTTGCCTTGTAGTAACTCAGGTTGGTGTGTCCCAAGGACATAA
TATGTGTCCAGACCCTGGCATACCCGAAAGGGGCAAAAGACTAGGCTCGGATTTCAGGTAAGATCTATTTGGGAATTTTCTGATTGCAAGAAGGGTGGGG
TGGCCTGGCTGGGAGGAAGACAGGGGCTGGCYTTCCTGCAGGTGGAAATGGAGAGGATGGCATGGATATAGGAACAGACACTTCCTGGAGAAGAGCTATG
GCTTTGACATTCTCTCCTGGTTCAGTCCTTGGCATAGTGCCCATGCTTTAGTGGGGGGAGAGAACTGTAGACTGCCAGTGTTATCCAGAAAACCTATGTA
CCCAGGGTACAAAGGGCTGCCATCTCAGTAATGACACGCCAGAAGGCAACTCGCGCCTGCAATAATCTAGGAGACCATTTTCCTTAAAGTTTATGGGTAT
CATCCACCCAYGCTTAGCTGCCCTAACTGGTGCTTATCTCAGAGGATCGCTGTTTTGCTCACAAAGTCACCTTTTAACTCAATCCTAAAACCATTAAACA
GTCCGAAAAAAGAAGATGAAGAGCAGATGTTCCTTCCAATGGAGATTTTTAGTGATAAAACAGTGGAGCAGAGATTAAGGGCCAGAAGGAAAAATAACAT
GTGCGGCTTCTTTGTGGAACCAGGAAGGACTTGGGGCGGGGCTTGGCAGGCCCAGGGATGGAGCTCACAGACACACTTTGTCTCCCAGGTTAGGATCCAG
CGTCCAGTTCACCTGCAACGAGGGCTATGACCTGCAAGGGTCCAARCGGATCACCTGTATGAAAGTGAGCGACATGTTTGCGGCYTGGAGCGACCACAGG
CCAGTCTGCCGAGGTGAGGGTGCCCTGGGGAAGGGAGGCTGGCCAGAGAGTTGGGCTGAGCCTGGAGGCTGAAGCCCAGCTCCCAGCACCTGAGGCCCAG
GCTCTCAAGCAGACTGGCTCCCCTCCCCCCTCACTCCCTGCACTTATTTACCAATAAGCATACTTATCCAGCCCTTTCTCAGTATCAAGGCCTGCGCTAG
GATCAGGAGATACAGAGATGGGGAAGATAAGCATTATGGTGCTTGCCCTGCATGGACCTTACAGTCTAATGGGTGAGGCACGTAAGAAACAGCTTGCTAC
CTCATTGAATGGATACTGAACCACACCTAGATAGGAAAGGAAGTCACCTTTTATACAGTCACCTTGAATCCCTCTGTTACAACACACATGCATCTTGAAC
CCTGTTTCTTTCCCCATATTGCAACAGACAGACTTGTCACTTCTGCAAGAGTGTTTTTACCTATGTAGTGATGACATGCTTCTAACCCCCTATCTGGGTG
TTTTGTTCCCCAGGGCCCTGCCACCACATCCCCAGGTGTCACATGAGCCAAGCCTGGGCTGGCCTAGCCCCTACCCCCCAAATAATCTTAAAATAACAGA
GCCAAGTGTATTCCTGCTTTGGGGCAGGGCTACAGCTGCTTCTGTGGTAGAGAAGCCCCTGACCTCATCCCCCAGGGAACCAGCAGAGAGAGCCCCTGTG
CACTAGGCTGTTAGGTAGTCTTTAAAAGCCAACAGGTGCTCTTTTGAGTGCCCCTTTAGAGGAGAAGATATGTTGCCCACTGCAAAGTTACATGCTGGAT
CCTTCTGATCTAAGAAAGAGATTCTTTGCCTCTCTTTGGCATATGCATCAAGATAAAATTCATGCAGAGTAAGAGGATCCAGGAAAAATAATATCTCATT
ATTATACTGAGAAAGGGGCAGAGTTGGAGCTGAAACCCATATCCTGTTTTTTAACTGAGTCCATAAGTAATCTAGAAGAGTGTCACTATAACATCTTTCA
AATAAGCCTTACATCCTCATTCAACTTTGAGGTGGCCATGTTCTACAGTTTATAATGTTCTTTGCATTTTCACTGATTTTAGCTATATTATCTCAAGGAT
TCTACATAGCTACTATGTTTTTAAAAAATCAAACAACAAAAAAGAATTCTTGTCATAACTCTCAGCAATTGGGCAAATCACCCATTTTCCCTAAGCCTTT
CTTACCTCYAAATGTTGCTAATAGTATGTATCCTACCCTTCTTCTGTTTAATGTGGAGATTGAATGGAGTTGTGAATGTGTAAGCAGTTTATGAATTGAA
AAGTGCTAGAAGAAAAAAAATATCCTCATGCCAGTAGAACATGAGCTCTATAGGGCAAGGACTTCTGTTTTGTTCACTGCCTAAAATGGGGCGTGGCATG
TAGCAGGTACTCAGTAACAGGTGTTGAATGGAYGACGGAATGAATGACTCATTGAATAGCATACCACTCCAATGCCAGGGAGCCCAGACACCAGCTGTGC
AGAGAGGCATAGAATTATCAAGTCTGAGGACCAAGGGACCCTGCCCATCTGTCGTTTCAGAATTCCTTTTGAGAAGCCAGGATGACAATGCCTTTTGCAG
TGGTGGGATCTGGTCCCTCCTCAAGACCTTTTCACTAGAGGAAGGTTGTTCTCTTAGTTCTCAAGAGATGATGATTGTTTACATGAACATGCCAAGGGTG
GAGAAGGGCTGGTTTTGACCTGAGGGAAGTTTGTAGCTGAAAAAGTGTGTTCATCCTTTTCTCCAGTGATTTGGACCCACTGAAGTCTGAGTTCTCTGCT
GCATTGTAACTAAGCATTGGGCTGGGCTTTTTCACGTGGTCATCTCATTCCATCACCTGCTACTGTAAAACAACAGGAAATCATGGTACAAATCCAACCA
TCATCATTTTTAGCTGGGGCCCTTGGGCCAGTTTCTTCACCTCTCTGAATCTCTTTTTTCCTGCCAAAAAGTGGTGATAATAGAACATTACTTYGTGGGG
TTACTTTGAGGACTAGATGAGGCAGTCCTTGTTTAGAAGTGATGCCAGTACGTCTGTGAGACTTAYRTGCACACRTATTCAGCTTAACCTGCTGGGCACT
GTCCRCATAAGCTTCCTCAAGCCCTGGAGCAAACCTCAGCCTCTAGTTGCTGCAGGTTCTTTTAGAAGCTGTCTTGTCTAATCCTATTGCAATCATACAG
TTTGGGAGTCACATGGACTTTGATCTAGATCACAACTCTGACACCTTTTAGCTTGCTGGCCCTGGGCGGGTTCCTTCATCTTTTTTAGCCACAGGCCTTC
ATYTGTGAACAAGGAAAACAAAATCTTCCCCGCCTACTGATTATGAAATTTAAACAAGGCATTTTCTAGAAAGTGACCAGCCCTGACGGTGGTGGAGGGT
ACATTCTCAACACAGGTTAATATTCCTGCCTTCTTCTCTCTTTTTTCTCCCCTCCTATAGGCCATTGTGAAGGAGAAAGAGAGACTGCTAAGTCTCCTGG
GTTTGAACTTGGATGATATGTCCTGGGCTTCCCTGAAGGCCCAGGGCTGAGATAGATATTAGAGTAAAGSGTCTTTTTATTTTGGCAATTTTAAGGTTTT
TATTTTAAARTMTTTYGTTTTCAATTAATCGCAATYACTATTCTGTGATTTTTAGGACAGTTTAGGTGAACCCCACCTTAAGAATGAAAACGAACAAAAC
TCTTTCCATTCCAAGAAGTTCCACTAACAAGCAGGTTACCAAAAGATCACATTCTAAAAAGGATTTTACCATAATAATGGTATTATTTTTTCTTTAATGC
AGTTAAAATATGATTTGATTAGAAATACTCATTTTCCCACACAATTAATTCTACTAAAACATGGGGCCTGGCAAATAATAGGTTCTCAGCTAATGTTTGA
GGACCACCTGAATGAATCAGTGATTGAAATGAATGAACAATATGGGACTGTGCCCTCATTTTGAGATATGAAATTAGGCGTTCACAGGCCTTTCTTTTCT
TTCCCTCCCATCAGAAGAAATAAGCTTCTAATTTGACTCCTAGAAAATTTTCATCACACAAAGGAGATTGAGGGCAATGTGAAACACTGTTAAACTAATT
CTGTTCAGCCCCAGATACAGGCAGAGTCCATAGATATAGAGCTTTTCAGACTTATTTTACATATGGAGCCCAATATTYAAAAATAAGTTTTTGCAGAACC
CTAATAAATAAAACAGATACAAGTGGAGCATCTCTGATTAAAGTTGGGTCAGGGGATTTCTAGTCTCCCCTCCATCACCATTTTCAGTAGCCTTTGAGTC
CTGGTACCCCTGGGGCCCCAGGGAACACTGTAAACCACTGGTATAGTGAGAGGACCAAATTAACAACCAGCTCTGATTTCTTGTGATCACAAATTGGTGT
TGATAGAGTTTAGGGACTGAGTACCAGGCCCAGATGAAACTCTTACAGTTACTGATTCACAAAGTAAATAATTAACAGGAACTTATATATATTATTTTTC
CTTTGTGGCTAAACTCATATATATGTATATGCCTTTGGGTGGCTAGAATACCAAGCTTGGGACTTAGAGACCTAAGTTAAAGTTCCGACTTTGTTATTAA
CCATGTGGCACAGGGAAAATCACTGAAACACTATGGATCTTTTTCCTCATCTGTAAAAGGGCAGTAAAACAGGAGAAATATGGCACAAACCAGGGTGAAT
TAAATGCCATGATAATTACAGGTGGCTGTCTTCTTGGTGGATTTCATTAGATCAGCTTTCTGGTTTTACTCCTTAAACATAATTGTTATCCAGAGTTCTA
TTTTCAGATCTCTTCTCTTCTTTCCTCTCTTCTCCTCTCCACTTATTTTCCCTGGATGACACATACTGATTGTACTAGAGTACRTGCCCCATTGCTCCAG
CCCTGAGAATGTCCCTCAGTCCCTTACCTATATGTGCTAATGATAAAGCTCTTATTTATTAAATTATGTATACTTGTATATAGCATTGCACTAGGCATTT
TTCATAATTTCTTTATGAGTAAAGTGGCAATAACCATATTTTATGTTTAGCTGAAGCTTAGAGTGGGCAGCCAACTTGCCCAAGGGCACAAAGCTACATC
TGTTGAGTTGAATTTCAAACCCTGACTCCAAAGGCTGAATCCTACTTCTACTTGAAAATTGTACCTGGACATCCTTCGGAGTCAATAGATTGGATGGAAC
CATGCAGAGCAACTCCCCCTCCACTCCCCACTTTTTTTGGGTAACTTTTAATTTTGATATGATTTTAAACTTGCAGAAAAGTTGCAATTAATGTGCAAAA
AGCTCCCATGTACCCTTTCCTAGATTTAAACAACTGCTTTTAAAAAGTTAGTGGAGAAGAAGAAAGCTAAGAAGAAATTCGGTCAGAAACGTAGGAGAAA
AGCCAAAAAGCGTCACTGAAGCCAAAGAATGTGAGTTTCACAAAGAGAGAAAGATCAGTAGTGTCAGATACTCTAGAGAGGTCAAGTATAATCACAACTG
AAAAGTAAACATTGGGGTTAGTGACTCAACCAAGTGTTGAATATTTGAACTTGTTTCTGCAAGGAATTGGTGAAGGAAGACATGGGAAATGATAGACTTG
GGCTGAAGTTTCTATTGTGATGGCAAACCATGAATCTGTMGTGATACCACAGTTCTCCTGGTAGYCCCCCAGCCCCCAGGATTAGAGATGGAAAAGGTGA
GTGGTAGAATTGATGGAAAGCAGGCATTTCACCAAGCAGATATGAGAGCGATGAGGAAGATGTAGGTATTGGTGAGTGGTCTTGAGGTCCAGACTGGATA
GTGAGGGAAGAGGGGTCAGGCGAGGATCAATAGATGGGATGAAATGTGGGAGCCAGAAGGCTAGAGGGGCCTATGATGTAGGACAATGGTGCATTGAGAC
CCAAGTCATTCTGCTGGGAACACAGGCAGTGGGGGAAGGAATGGAATGACTGGGTTTAAAATCTGTGAGTTGGACTTTCCTGGCTCCCAGGATAGCAAGG
CCCTGGGTGTGGCTATAAACATGGTTGATCATGAGTTGGAGGAAGAGCAGGGTGTCAGATCTCATAAGAGGGCAATGCCCTCCAAAACAAGGGACATCTC
TCCATTGAAACAGGAGGGAAAAAGGAATTGAGTACACGTGCAGATAGAATTGCATTCTTAGAGAGTGGGACAAAGGACCCGCCTGCTATATGGCTTCTGT
TCCCTCCAAAGAGAAAGCCAAAGTCATCGGCTAAGAGTAAGGGGAGATAAGAGGAAGAGGAAGATGTTCAAGGAATGTCTAGAACATGTGAAAAAGTCTT
TGAGCAGAATGAGAGAGTGAGCTAATAGAGATAAATGGTAGGGTCACTGGGCAATAGCTAGGATTTTTTTGAGATGAGTAATCAGGAGTTTATAATAGAC
ATTCATCTTCCTACTAGTGATTTTTTTCACAGCAAAGCTCAACTGTATGGTGGCAGGTATGGAGAAGGCAGGTAGAGAGATTCATTCCAAACTGATGTCT
TCTAGGCAACTGATGAAAGGAGGAAGAAGAAAGGGACTTGGAACAAGCAAGAAAATGAGCCTAATGGTGGCCCATGTGATCAAAWTTGCATAAGGACAGA
AGACAAGACCGAAGGAGCTGATGGGTAGAGAGGAGATATTGCTGTCAACAGAGTGGAGGTCTCAGTGGGGAAAGATGAACTCTACTGGAGGTTCAGAAAA
CAACTGTGAAAGAAATACTTGAGGGTGGGAGCAAGATCTTGACTACAGAGGGCTGCATAGGAGGCAGTGGCATAGGAGGGGAAGATGGGCTTCAGTCAGG
ACAGTAGTGGGAGTAGGAGGTTCCGAAAGATGTTGCAGCTACAAGTAGGATTTGTTTTCCTTAGAACTGGTAGTGGGAGGTGGTTCCAGAGGACTGTGGA
AAGGGTTGGGAGGGAGGCCAATAGGAGAAGCAAGGGAAGGCAGCATGGAACAGGATGGGAATCAGATTTGGAGAGAAGATATGAGACCAGAGGCACTTGC
ACCCGGAGCAGTTCTCTTCTTTGGCACCAAGTTGTTTCAGTGTCAGAACTGGCTGTGGGTCCAGGTGGTAGCTCCCTATGGTCCCCTGGGATACTGTTCC
CATTATATGATAATGTCCAGAGGAAAAATGGGAGTAGCTGCAGAGCTCAGGCATGGAAGATCTCAGGGAAGTCTCTCCTGAAAGCGATCCAGAAGAGCAT
TTCAGGGAAAAAGGCAAATAGAGAAACAAAATGATATGTTCATTCATTTAGTGAGATATTGAGCACCTACCATTCTGCCAGCCCATCTGGGTCACTGTGA
TGAACTTTCTATCTGTTGATGGGATCCCATGGAGCTGGCTGCTCAGGGTGATGTCTGTCTGTCTGTCCACAGAACCCCTGACTTTGCYCAGATAGCAGAG
GAAAAAAGTAGCTAATGCTTCATTTTGAACCTAGTTTAAGGTGCTCTATGCTATCTGCAGACTGTAATATTTTAATTAAACCCCTCTAAGCCCTTAAAGT
GGTAACTGCCTTTTTGGCCTGTTCTCTCTCATTACCTTCAGCATGTTTCAACAGAMTGCAAATATACCATCTAATTCTTGGAAACAAGTACAAGATAAAT
TGATTCTGAAGCTGAGGGCTTTGGGCAGCAAAATCTGACTTTCCGGAAGAGGTGTAAGATGGTGCTGGTGGAGCTTTGTAAGGATTCTCTGCAGGGCTAG
AGTTCTGAGTCCACAGGTCCTCTTTGCAAAGGTGGGACGGAATCAGGGCTTTGATTGTCTTATTYTAATTTGTTTAGTAATGTTGCCAGTCTCRAGTGTA
CTTGTGGGGGAAAAAAACCTATGTCCAGAAACTTCAGGAAAGGCAGAAAAAGGATCCTTAGCCTTGAGAGAAATCCTGGGCATAGAGAAACAGAATAGAC
ATGGCATTGGGAGTCTGATTATCTCTTGTCCCAAAGGTTGAATATTGACCACATCCCAGGCCCTGGGCTGAACCTTCACATCCATCATCTCATATAATTT
CATCCTCACCATATCTCAATGAGGTGGTATCATTTGTCCCATTTTACAGATGAAGAAACAAAATCAGAGAGATTTTCTAACTCATCCAGACTTAAGCGAC
CAGCAAATGGATTTAGATCCAGAAGGCTAAGTTCATAAATTTTAAAACCTGACCTCGCTTTAACCATGCCACATTGCCATAGGGCCCAGTTGTATCAAGT
GCAATCTAGGAATCTAAGTGTTTCTCAGTACAGAATGAAAGGAGCAATCAGATATACATGGGGGAATGGAGTGGGGGTTCCCCCAGGACTTGTTCAAACT
TGATTGAACAGATTCTTSAGCTCAGGATGAGGGAGGAGGAGATCCTTCCAGYGCAGGACTACAGTGAGAAGAAATCTCCTCCCAGGAGGTGATGAGCTAA
CAAAAAGGAGGTAACAGACCTGTCCCAAAAGCCCCTTGCAAATAACCCTCTGACAACACCTGCTCTGCTTGATGGTGAATGTTTTTCCACCTGCTCCCTC
CACTTGCTGTGGCCCTTCAGAGAGGAGGGGCTATGTCAGACACTTTTTTCTCCCCACACTTTTCCTGGCCCATAGTAGGCACTCAATAAATGTTGGAATG
AATGAGCTRAGCGCAGGAATGAGTGCRTGAAATGAGAAGAGATTCATTATGTCTAGGAGCTGCAGAACCTGCTTCCCAGACCCTCCTAGGAAGGGTGTCC
TGGGAAAGGTTTATCATGGCCCTTTCCACACATGGCAAGGAGCTCTAGGATATTTGGCCCCATCAGAGGAAACTAGGTTTGACACCACTTTCATTTTAYA
TAGTTAAGCTTGTTGAGTTTGCTCACTATTTCTTTACTGTTAGGCACTTTGCCTACAATTAGGATAAATTGCCATGTGGGCAGCATGAGAACAGGCTCTT
AGAACCTTTTATTAAAATAGCTGAACACTAACGTTAAAGAATGAAGTGGCTAGAACTAAGCACACATTTTTAAAGAAAGCAAATACCTAGGTACAACGTA
GTACCTTAACTGTTATAAATCACTACTTAATCTAATTAGTTTAGAAGCTATTTTAAAGAGCTTAATTAGATTAAGCTGTGATTGATAACACTTTATATCT
ACTTGAGTAGAACACTTCTAATTCACCTTGAATCTTTATGCTTCCAGTCAAAAGCCRGTTTCAGGGATAAGCTGAGTGTGGAGACGGATTTGGGAAGCAG
TGAAATCACTCTGGGGGCCTGGCACTGAGCTGAGTCAGGGGCCTTGGCAGAGCTCTTGGGCATAGACATTCTGAGACCTAATGGAGTGGCCTTGACAAGG
ATATCCTGAAATTCCTCTTCAGGAGGACCAAGGGGGTCACGGAGGAAGGAACTGAGGGGCAGGCAGAACCTGGAATGAGGTCAGACTCCTAGTTAAGCAG
CATTAGGTCCACAGCAGCACTCAGCTGGTTTGGAGAATTGGAGTGCAAATYGGGAAACAGACAGGTCAGCAGAGTAAGGCGTGGGCTGCTTAGGTGTCCA
TAGGTGCCTGCGATCCACCTAGCTTTATGTCAACCTGACAGGTTCTAGCCCACACCCTCTTGACAAAGAGGAATTGCATGATCATAGTGGAGTCGGGGTG
TGGGGGTAAGTGGGGCATGCAGAGGGGTCGCTTAGCCTGCCTTAGAAGTTCATCATTGCCTACAGAACAGCAGTCACAGTGCTCCAGGCACTGCGGCTTC
CCTTCAAGCCTCCCAAGAACTGTAGAGGAAGGACCCAGGAAGCAGAAGGTTATGTCCAGGGTGGGAACTGTACAGATGCAGTGTCTTCTGGGTGGGGAGT
GGGAGGCAAGAAGGGGAACTGGACCTAGTCTTAATTCAAAGGCTTGTCTTTCATCTCCTCTGCAGCCCGCATGTGTGATGCCCACCTTCGAGGCCCCTCG
GGCATCATCACCTCCCCCAATTTCCCCATTCAGTATGACAACAATGCACACTGTGTGTGGATCATCACAGCACTCAACCCCTCCAAGGTAAGCCTCTTGG
GGAGCGGGGTGGTGTTCTGTGGGCAGGGCTAGGTTGGGGACAGTTGGCCTACAAGGTTTTTCAAACCCAGAACTTACTGATGGTAGATTCTCTGCAGACA
GTTCTTTTACTTTTTTTTTTATTAATATCGAGTGGATAAAAAGCAGATTATAAAATATAAGCAAAATATAAAGAACACCAATACAACAAACACCTGTGCA
GCCATCGTTCAGCTTAAGGGGAAAAGAAAATCGTTACCTTAGTGATGCAGGTTCCTCACCAATCCTGTTTCATTCCCTACACCCTCAGAGGTAACCATTA
CCTCAATTGTGTGTTTATTATTCCTTTGTTTTTCTTTATACTTAGCACTTAAGTGTGTATCCCTAAAAATACATTGCTTAGTATGCTAACGTTTGAACTT
CATATAAATGTAATCATGTATGTATTCTTAATCAACCTCACTCAAAATTGTGTTCCTAAGATTTATCTAAGTTATTGTATGTAGTTTGTACTTCTACATA
CATTTTTTCATGTTTATTTCCTGTTGAGTTTTTTTCTCCTGTGCCCTTTGTTCTCTCTTATAAATTTTACAAGTATGTTGCCAAGATCCACAAAATAACC
TGTTGGAATCTTTATTTTAATTTTATCAAAACTACAGATTAATTGGAGAAGAACTGATATCTTTTTGATACTGAGTCTTCCAGTTCATGAGTATGGTATA
TCTCTCTATTTGTTTAGGGTTTCTTTAATGGCTTGCAATAAACTTGTATAATTTTTTCCATTACAGATCTTATGTATTTCTTAATATATTTACTCCTAAA
TATCTTATATTTATYGTTGCTATTATAAATCAAATCTTTTAAAATTGCACATTCTACTTGTTTCTTGCTGGTGTTTAGAAATGCAATTGATTTTGTACTT
TGATTTTTATATTAGCAACTATCTTGTAAAAATGTATCTGAATTCTTTGGGCTTTTCTACATGGATAGTCATCATCTGCAAAAAAAATGATGGTGTTGTT
TCTACTTTCCATTTCTTATACCTTTTCTTTTTTATTTTCTTGCCTCAGAGTTCTGGTTGGAACCTCCCAGTATAACATCAAATCATTATTATGATGGTGA
CCCCTATGGTCGTTGTTTGATATTTAATAGAATGTTTTTATTTCTTCACCATCAAACATCATCAAGTATGATGTTTGCTGAAGCTTATTTTTCATTTGTA
GATACTCCTTTTATAATAGAATTAGGGAATTTACTTCCTAATCGTAGTTTGCTAAGAGCTTTTATCAAGAATGGTTATTGAATTTTATGAAGCATCTTCC
TATATCTATTGATACAATCATATAATTTTTCTCCTTTATTCTCTTAGTATAGCAAATATTGCCTTTTCTCATGTCAAACCAACCTTGCATTCTTAAGATT
AACATAACTTGATCATTTAGTATTGTCATTTTTATACATGCCTATATADTGTTTAGTAATTTGTTTCTATTTTGTTAGTGAGCTTGGCCTGTTATTTGTT
TTTTCATATTGCCTTTGCCAATTTTTGTGTCAATATATTGCTAGCCTCAGAAAATGATTTGAAGAGTATTTCCTCTCTTTCTATCCTTTGGGGTTATTAG
TGGAAGATTGGCATAACTTTTGCCTTGAAAGTTTGGTAGAATTTTTCAGCAAAACTATCGTGGTCTGGTGTCTCCTTTGTTTGAAGATTTTAGACTATAG
ACTTAATACATGTAATGGCTAGAGAATTATTTTGGTCATCTGTTTTTTTTTTCTTGACTCCATTTTAGTAAATATTAAAATTTATTGGATATAAAGTTAT
ACATACTATCTCTTATTATAGTTATGATACCTGCCATTGTTGTGTTTCAATTCCCTTTTTCATTTCTAATATGTATCATTTTTTAATTGGTATTGGCAGT
GGTTTAACATTTGTTAGTCTTTCCAGAAAATGAATTTTTGTTTTCTTACTATTCCTTTTAATATATTTATTTGCTAATTTGTCAGTTTCTGCTCTCATCT
TTATTACTTTCTTCCTTCTAATGCACTTGAGTTTATTCTGTTGTTCTTTTTCTAGCATCTTAATTTTGATGCTTTGTTCATTATTTTTCAATCTGATTTA
AGCATCAAAGGCTACRAATTTCCCTCTGAGGACTACTTTGGCTACATTCCTACAGATTTTTACAGTTATTTATTTTCTGTTATAGTTTAGTTCTGAATAT
TTTTTAATTTACATTATTGTTTCATCTTTTAAGCATGAGCTATTTAGAAGTATTTTTTAATTTTCAAAGGATTTTTGTAACTCTCTCTTTCCTACTGTTT
CTAAATCTTGTGGTCAGGGAACATTGATCTGTATTTGAATCATTTGAAATTTGTGCTTTTAGGACCAGAAATGGTCATTTTTCACATAGATTCTGTGTAG
GCTTGAAAAAAACCCTGCATTTTGCAGTTTTTGTTTTCTAATATGTCCATTACATCAAGCTTGTTAATTGTGTTTGTCTCTTTTATATCTTCATTGATTT
TTCTTGTCTTCTTCATCAATCAACGGCAGAGGGAGGAATATTAAAATCTTCCATTATGATGGTGGATTTGCCTATTATTCTTTAAAGTTCTGTCAATTTT
TGCTTCATGTATTTTGAGACTGTGTTATTAGAGCATCAAAGTTAAAACTCAGAATTATATATCTTCCTGGTAAATTGAACTGTTTCAAAAATAATTATGT
AGTAACTCTCTTTATCTGTRGTAATGTTTTTAACCTTAAAGGCTTTTTCCCTCCATCCATTGCATCAGTTTTCTCTTGGTCTTTGTCTAATAAATATTTT
CTATTCTCTTACTGTTAACTTTTCGACTTCCTTGTGCTTTATATGTGTTTTGTGTATAGCTGGATTTTCAAAAATCCCCTCTGACCATTTGTCTTTTAAC
TAAAGAATTTAGACCTTGTGAATTATACAATCATTTCTATTCTTTGAAATTTGTCCTAAAATACTCTAGAAATAGCAATATGCCTACTTAATAAAGCCTA
GCATTAAACAATAATTTTGTGTTCTTCCTGAAAAGCCAAGGATCTTAGGACACTATGACTTTAATCATTCCTTCCAATTCATACTCTRTGGTGTGTGTAT
ATTATGTTACCTTAATTTTTTCTCAAGTTATTATTGTTATTGTTTGATAAAGCCACTGTCCACTTAGGTTTACTCATATATTGACCACTTATTTGTTTAC
CACTCCTTCTTGTATATCAGTCCTTCTCTTTGGAATATCTTTCAGTGCAAATACATGCTTTAAAATTTATTTTCTTGTCAATGATAAACTCTATTAGTTC
TTGTTTGTCTTTTTAAAAAATAATTTCAATTTTTATTTTAGATTYGGGGGTACATGTGCAGGTTTGTTACATGGGTATATTGCATGATGCTGAGGTTGGG
GTACGGATCCTGTCACCCAGTCTGTAAGCATAGAACCTAATGTGTAATTTTTTCTTTGTCTTAAAATGTCTGCTTACCCTTGTTCTTGAAAGAACGCTAG
TATTCACTGGACATTTGATTATCAGTTGATAGTTCCATTCTCTCTGCACATGGAAATATTGTTCTGGTGTCTTCTGGGTTTCACTGTTGCTGTCAGTTTA
TTGTCATTGCTTTGTATAGCATCCTTCTGGCTGCTCTTACTGTCTTTTCTTGTTCTTTAATGTTATGTAGTTTCACCCTTATGTGTCTAGGTGTGAATAT
TTTTTGTATTCATCCTGTTTAATTAAGTTTCTTGAATCTATGGATTGTATCTTTCATCAGCTTGGGAAAATGTTTACCCATTAYCTTTTCAAATGCTTCT
TTTTTCTTCTTCTAGAAGACTGACAAGATATGTTCATCTTTCTCACTCCATCATCAGTATTTCTTAACCTCTCTCATACTTTCTCTCTTTCATTCTGTTC
ACTAATTCTCTGTTCAGCTGTGTCCAGCCTCTGTTAAATCCATTCACTGAAGATTTATTTTAATTTCAAATGTAGTCTGCACTTTATGAAGCCCTATTTG
ATTCTTTTTCAAACGTTCTTAGTCATATTGTCATATTTTATAAACTCTTGCTCCATACTCTTATGTTTAGATCATTCTTGAATTCTTTCCATAATTAAAC
ATACTTATTTTATATTTTGTGTCTGTTAGTGTCAATATCTGAAGTTTTTGCAAATTTGATTCTGTTTTTTCTCACCTCTTGCACTCAGAACCATGTTTCC
TTCTTTGTTTTATATTGTTTGATTATGTGGTTAGAAGGGTAAATTTTCTCTCTGGTAATTCTTTGAGACCTGGGTGGATGGTGGGTTCTTCCAGAGAGGG
TTTGCATCTGCTTCTGCCTAGTGCTGGGGGCATTACCAGCCAGAAACCTCTTCACACAAAATTCTCAGTATGGAGGTTTCAAACCACCCAAGTAATATGA
AGGCTGCAAACCCATGTGAAAACTGACTTACTGTTGTGAATTCTCAGTGGAAACATTTTTCTTRTCTACTCAGTGTCAAGGTCTAAGATAAACAGTCAGC
CTCCAGATCCTCCCAGAGGGTGGTAGTGACAGGTGAGAAGGAGATAGGCTCATTTCTAATTCACCTTCACACTATGGGTGCAGATTTAACTAACCCAACT
CTTTCAGAAGTATCGTATTACAGTCACCATTGTGCTGGGCCCTGAATTTTGTCTCCTGTTCCCTCTTTTCTATGAGTTGCTGAAAAGTGAAGCTATATTG
ACCGAATTTTTAAAAGGTACTCAAGACCAAAGCCGTCTTCATGTTCTGAATCACATTTTAGATTCCTCCATTCACTGTGTTGAGTATTCCTTATTACACT
AATGTAGTCTACTCAGGCKACTGTAACAAAATACTGCCCACTAGATAGCTTAGACAACAGACATTTATTTTCTCACCATTCTGGAGGCTAGAAGTCCATG
ATCAAAGTGCAACTAAATTCGGTTTCTGATGAGGGCTCTCATCCTGGCTCGTAAATGGCCACCTTCTCACTGTGTCCTCTCATGGCTTTTCCTCTGTGCA
CACACGAAGAGAGTGCTCTTTGATGCCTCCTCCCCTTCCCATAAGGACACCACTACCATCGGATTACAGCCCCATCCCTATGACCTTATTTAACCTTAAT
TACTTCCCTAAAAGCCCCATCTTCAAATATATTCACATTGGGGATTCAACATGTGAATTCAGGGGGACATATTATAATTCAATCCTTAACACTAACTTGG
AAAAAGCTGCTTTTTTTATTTTTATTTTTATTTTGTCATTTTAAAATTTTACCTAACACTTTAAAATTGTTTGGTCCGGGTGCCTGGAACCACAGTGCTG
GGAACACTGGAAGCAGATTTCCTCTGCACAACATTTTRCAAAGAAAGATTCACATTTAATTAAATTATTTCATGATGTACCTAGTTAATGGGAAAGGACA
CTTCAGCCACATGGGGTGAGGGTGGAGGCTAGGCCAGAAGGACTTAATACCATGAAATCATATTAAGTTGTTGACTAGAGGGCTCTTCCTTGGGCACTGT
TACAATCCTTATCTCCATTTTCTTTTGAACCTGAAGGTGAGGTGTCGGGGGAAGTCTAAGTAAAGTCTGAGGATTTTCTAAGAAACAATTAGATTCACCC
CCAGAAGGCCTAGCCTTGGTCAGTGTGTGGAGACCAGTGACCTCCATATGGTCACTCCCCTACATGCCTTGCAAGAGATCCCACCAGCCTGAGTTTCTAA
AGATAGCACCTCTGCAGAGCACCGCTTAGAGTGTGCAGAGCAGTGTTTCTAATATCTCTGTGGGGCCTTGGTGGGCTTCAGGTAGTGCTGAGGGAGCCCA
GAAAGGCTGAAGAGAACCCTATCCTGATCCAGGYGGGAGGAGACCCAGGGAACATACAATGCAACAAGGAGGGTCTAAGTGTGGAAACTCAAAGTCTAAG
ACTGAGGAATAGAAGTTGTCTTCTGGGAAACAGCAAGGACAATGGATGCTGTGTGCCTAACCCTGTTCATGGAACTGGCCTACAGGTGAGATACAGGTGT
ATCCAAGGACTGCCTATCCACTCACCTTCAGACATCTCCTTCAGCAAAAAGCATAGTCTCTAAGCTCACAGTATGTTTTATGAGATGAGCATTCATTCAT
TCATTGATGTAGATATGGCCTCTGCCCTTGAGGAGTGTGCACGTRAGAGTGAAGAACAGGTCTGAAAAAAAAAAAAAGAGTGCAGGTAAGTCCTGATGGA
GGCATGTCCAGAGCGCTATGGGAAAACTCAGGGAAGAGCTGCTAACTGGGAGATAAGGGAAGTTTTCACAAAGGAAGTGACATGTCAACAGGGTCCTGAA
GGATGAGTAGGCTTGGAAATCAGTATCTCAGGGAGGACAAATGTGCAAAGGCACTGAGGTTTGGAATAGCCCCTTAGAACTGGAAGTAATTCAACATGCC
TGGATGCAGGTAAGGACAGAAAGGTAAGCAGGATTCAGATCATGGTGAGCCCACATGCTTGGCCCAGAAGTTTGGGTTTTATCTCAAAACACAGATTGCT
AAGGCTAGCAGTGTTAGGCTGTTGTTAACAACAATAATAGCTCTTATTGTATGCCTGTCCCATTACAAGCTCTAAGCTAAGCTGTCTATATGAATGATTT
TATTTCATTCTCGTAATAGGACAATGAATTTTATTTTAATATACCTATTTGGTAGATAAAGAAACTGAATCATGGAAAGGTTAAAGGTTAGGAAACAGCT
GAAGCACAGAGCCAGTAAGTGGCAGAACTGGGATTTAAACCCCGTCTTTCTAGCTCCAAAGCCCATGCACTTACATAGCTGGGCTGTGCTGCTGGATGGA
ACAAGATCTCAGAGTAGATGAAAGGGGCTGGGCTTCACCTCAGTGGGATGAGCCTGGAAGGACGAGGATCACTCTATCTCCTGAACTAAAGCAATASCAG
GAAGATCTGAGTTTTTGGAAAATTACTCTAGCAGCAATGGAGAAGTTTAGAGGTGGATACTGGAAGGAGAAAGACCAGTTAGGAGGATGAAGCAGTTACC
TAAGTAGGAAAAATGGGGACATCCACCAAGGCTTTGGAAATGTGGAGGGGAAAACAGATGAGAGAGATTTAGGAGATAGAGTGGGACTTGGTAGCTGATT
GGATGTGGGAGCTGAGGGAGGAAGAGAGGTCTTATTCAATATTGTATCCCAAGTGACCAACGTGGTTCCAGGCACATAGTAGGTACTCGGCCTATATTTA
TTCCATGAACAGATGAATGATGACTTAGTGCTTTCTGGCTTGGTCCAGTGGTAGAGTTAAAAAGGAAATACAGATGGAGGAACATGCTTTGCAGGGGTCA
GGAGAGAAACAGTGCATTTGGAATGTCTGTGGTTCATTCAATGTCATTTGGATATACTGGATGGAAACTCTGGGTAAATCTGAGTTTAAGAGAGAGGTTT
GGGTGTTATCTCAGCACGTGGGTGAGAATAGAAGCTTAAGGAATGGACAACATTTCTTGGAAAGACTGAAGAGAATAAGAAAATTCAGAATGGATCTGAG
AATACCGTCGTGACAGGAGAAAGAGCAAAATCCAGTGAAAGAACAGAGAAGGAGCAATCTGAGAGGCGGGAGGAGAATCGTGATGCAAACACAGGAAGAG
TTTCCAACTAGGGCATGTCTGATCATGGCAACGATGACAAATGTCTTGCTGGAAAAGTGCTAGAAGGAGACCATTGGCTTTGGCCTTGGAAGAAGACTTT
GCAGTGAAGCTCTAGGGGCAGCAACAGACAGCAGTAGGGTGGGAAGCAAATGGATGGGAGGTGAGGCTGTGGAGGCCAGGATGGGCAGTAGCCGGCAAGG
AACATAAGATAGAGAGAAAGTTTGGGGTTACTTTGGGGCATGTGTTTAAAATATTGGAACTGGAGTATGTTAGTAGGCTTAGGAAAAAATATGCACAGAG
GGAGAGAGTGAAGGTACAGGAGAAGAGGGATGGTGACAGAAGGGAGATTCTGGAGTGAGAGGGCCACGGGATTGAGAATGCAGGGCTCCCTTTGCGAGGA
GCAGGGGKAGAAAGATGCTGTTGTTAGAAGGAGCTGAAAGGTTTGCTTGTGGGAGTGTAAGAGGGACATGTGTCCCCTTGCTCTCCTCATAGTCATGGAA
TGATTATGATGCATCCCTGACACCTACGCAGGAGGATCCTTCCTGTAATTCCATCTCCCTTGTAGGACCTCTGCTACCTGGGCTTGGCAAGGAGCTAGGA
ATGTCCCAGGGACTGGGGCCCTCCAAGGGCAATGAGAAGGCCCAAAGAGAGAAGCAGGGATGCTGTGGTGTGGGAATGGCTAAGAACCTACATCAAGACA
CCAGCATTAACTGAGCATCTATGGGCTGTGCGCCTCTGCACTGTGGGAACAGGAAGAACTTACAGTCTTATTGGAGAGGCAAGTTARGGATATGTCTGTA
CTCAATAAACTAGGAGTAAGGGAAATAAAAACACCCCAGTGCATCCTCCTGGAAACTTCATAGATTCAAGGAACAGAGGAAAGAAGGCTCAGAGCAAGTG
ATGCAGGCCTACTCCACATGCAGCCTCCATGCCCTCCCTTCGACTGGGATGTCCTCGGGCAATGTTGACCTCACCTTGGGCATTTGGGTTATCTCAGTCC
TTATAATATTAATCTGACATTAACRTCTGCCTACAATAATTTTTCCCAAATTTCATCAGAAATGCCTTGGAGACACTTTAAAACCACAGATTCCCAAGCT
CTTTTCCCCAAAGATCTGATTCAGTGGGTCTAGGGTAGGTACCAGAACTTATTTTTAAAGACGACCCTGGTGGTTCTGACCAGCTAAACTTCTGTCAACA
ATGCAATTCCTTCTTCCAGCAAAGCACACAGTGGTCTCTCTGCCCCATCTCTCCCTTTGGGCAGCCCCAGCTTCAGCCACACTGAACTCAGGTTCACAGA
CACACCTGGCCCTTTAAGACCTGTCTGGGCACATCTGGTCCCAGTGTGCCTTCCCTTCTCCTCCAGGCAAATTCCTATCCCCCTTTGAGAGACAGTCCAA
ACAACCCCTCTTCTGAGAAGCCTTCCTAACTTCATCATGTGTTGCTCCTTCCTGTTCCTACAGCACTTTTTGTTTTCTTGCATTTAGAATCTATTTCCCC
CATAGCTCGTGAGCATCCTGAAAGCAGGAATAGCACTTTGTTTATTTCTTCCACAGTTAGCACAGTGCTGGGCATAGAGAAGCAGCTCAGCGATATTTGA
ACATGTGAGTGACTGTTGGAGGAGGAGCTCCTCTGGGATGGTTCTGCCCATCCCAGAGGCTTGAGATTCAGGCCTTCTTCCTCCAGGGCCTCCTCTTGTT
AGGTCCCTTCAGCTCAGCCTCATGGAAAAACAAAGATGTAGACAGGACTGAAACCCAGACCTGCCTTGATGCCCCCTACCTACACACATCTGTCTTTCTT
TTGCAGCTTCTCAGTATGAACACAAAACATTTGATCCAATTTGCACATGAGCCTCACTTGATTTGATCAGGATAGTTAATCCACCTTTGCTAGAAAAGAA
TGAAAAGCGAGACAGAAGAGAGATGGAGAGTGAGGATGGGAGGGAGAGGGAGGGGGCATGGAAGGAAGAGGGAAAGGAAAGCTCGTTATATGAACTTCAA
AGCAAAGATAACAGCGTTTTGATTATTCACTCCTTGGGGATTATCACTGTCACTGTTTCCTTTGTAGACCTGAAGAACTGAGAATTAATTCTCCAGGCAG
GTGATCGGCAGCTAGTGCAAATGTCAGGGACATACTCGTTGGCCCATTTGTTCACTCACTTATTCATTCAGCAAACATTTACTCAAACACCCTCTCTGTG
CCAGGCCCTGTGCAAGACACCTGCGATCAGAGGTTTGCCGTGTGCCTCCACAGCCCCTCCTCACATCTGGGGGACCCTTTAATAGCCTCCTCAAGTCCAA
AGCCTCATTCCTTTCCCTTTTACAGCTGTCTCGAAATCATGTGCTGGCATTTCCCCTCGCCCAGATCTGGCTGTGGCCATGTGGTATCCCCACACACCTT
CTCTGTTGCTGAAGACAAACCCTGCCCGCTTGCTAGCCAGGATTTTGTGCCCCTCCTGTCTCCCATCCATGCTTCCCTGGTTTGAGCCCTCATCCCACTG
TATTGTAGTCTATGTACTCAGGGTCTTCTGTGAAGCTTTCTAGAAACTTAGAGGTCTCTATTGGCAGCAGCCATGTTATCTTGCCTGCCAATGCCCCTCC
AAAGCCCGGCACTTGGCAGGTGTGTAACTGTTGAATGAATCAGTGAATAAATGAATCAGTCAATCCATAAGTGAATGAGTCCAAGGGCTTACTGCTCTCA
GAACCACCAAAATGAAACCTCAGGTAGTGACCAAAGTTCCAGAACCTCTGACCCTTCTTAGTMCCTGCTGGAGGCCTCTGTCCTTGAACTCCTGGGAGTT
CAGGTCTTCAGCCTTCCTACTGGCCTCCCCTCCTCCTCACCCCAGGAGTTAATTCTCTAGCTCTTCCCTAGGGCCTCAGCAAGACCCTGGAGGGAATCAT
GGTTCAAGCTGTGCCCAGGAAAAGTGAGTTCCCTTCCTTTCATGGAGCTAATAGTTACACTGGCAGCAACATTGTAAACTGAGGCTGGGTGGGCCAAGGT
CAGCCCTCAGGGGCTCAAAGAAATGCTCTGAGGAGAAATATGGGAGGTAAGGCTGGAGCACAGCATTGTGGCAGGGCCTCTACCTAGCCAGGAAGTGGCA
GGGGCAGGCCTTGCAAAGCCCACACTTTCCAAGCCAAGATGCTGAACTCTATCCTGCAGTTTCAAGAGTTGGCAAACTCTTCTGCGGTGACAAACACCTG
TCTTCAGAACCTGTAGCCATTAGGTCGTAATTGACTGGGAGGTGCAGAAAATTCCTCTGCAGAAGCTTAAAAAACACACCGTTTATTTTCTCCACATACC
AAAAGTCCAGAGGCAGAAAGTCCAGGGCTGGCTTGGTGGTTCCCTCCKGGTCTCATGCTCCTTGTATTTTTCCCTCTGCTGCTTTTCATATGACTCTCAT
CCTCATGATCACAAGAAGGTTGCTCCCTCTCTGTCCTCACATCTGTATTCCAGGAAAAGCAAGGAGAAAGATGAGGAAATGGTCTGAGGACTCCTCAACC
CATGTTTCCTTGCCCAGAGCTCTGTCACATAGACATCTTTAGCTCTGAGATTGGCAAGATACATACATTGCCACACTCCCAATAAAGTTGGGGTTCTGTT
AGGGAGAAATAAATGGAGGAAGGGACATTAAGTAACCCACTATCCATGGTGTTCACAGCATCCCAAATTATGAACTAGATCAAAATGGAGCTGTTTTGGT
TTAAGCAGAGGCTTCCCTCCTCTGGCTCCTCTTCCACCCTTGTGGGTTGGCCCTGGAGTACCTTTATGGAACCCTGGGGTACCTGGGAGCCCAGTTTGAA
AACCATTGCTCTAGGGAAGCCATCAGCAAACTTCTTCTGTAAAGAGCTAGACMATAAATATTTTAGGCTTTAAAGTCCATGTAAGGTCTCTGTTGCATAT
TCTTCTATGTTGTAGGTTTTGTTTTTTCACTCATTGAAAGTGTAAAAAATCATTCTTAACTCCAAAGTCCACAGGTCCACATATAAAAATAGGCTATAGG
ACAGATTTGGTCTGAGAGCTAGTTTTCCAACCCCTGCTGTAGGAGATAGGGAGGTGCTAAGAGCATTTGGTACAGAGTGAAGGATGGGCTGCAGAGACAG
ACAGCCCAGTTAGGAAAGTGTTGTAGCAAAGCAGTCCTTAAACAAAACAGCCTCAGTCTACATCTCCCGGGACTCTAGCTTCCCACAAGACTGCCCTGAG
CTGGCAGATCCTCTGCAGGCTTGTGCAGGCTTTGGGCACATGCTGGCAGCACCYGGAGTCCTATCTTTTGGCTAATCCTGGACAGCACGTGGCAAGGGGA
GAATGTTCTCCAGGGCCTCCAGTGGGTGTCCTCCAGGGTCCCACTCCATCTCCCATGATTCTCAGGACAAGGTGGCTGTGACACCCCCTAATTTCTCCTC
ATGCTCTTGGACCCTGCATCAGCCTCCACTGGTCTCTCTGCCTCCAATCCTCCCTTCACACTGAATTATAGCTTCCCATCGACTTGACCATGAAGTCCAG
ACTGCCTGCTCTGGCTGTGGGTAAAATCCCCTGCAGACTCAGCCAGGCTCTTCTTCCTGTCCCACTCTCCTTGGCCCTTCACTTCTCACAGTGTAGCCTG
GGCTGAGCCCACACACACCCTTCTCCATCCCGCCAGGCCCAGACCCACCTCCTCTATGGACCCCCTTCCATCTCTCTCCTCTTTGCACTCCTCYAGCACT
CACCATCAGCACCATGTCCTGGGCATTTAGATTCTACTCTAAATTGTCAGGCAAGCAAGATAACTTATGGGAAGCAGCTAGCTCTGGGCTTGGCACATGG
CAGGTGCTCAGTAATTATGTCCTAGATGATGGGTTTGTTTATTCATTTATCTAATGGGTTTAAATTGGGTGTCTGAGCTGTATACAAATGTGCCTCTTTG
ATCATGCCTATTTCATGTGCTGCCATTTCTCCTGCCTCCGAAAGGCGCTTTGTGAGCTTGATTGATCTGCATGTTAGTTAATGAGTCATTATAGGAGCCT
GTCTTTAAACAAAGGCCAAAGCAGAGAAGGAAAAAAAGAAACGAAAAAAAGAGAGTGCTAGTACATTGTGCACTAGAGGCTCGTCCTGAAACTGCAGCAT
TGTGTATGTTGAACAGTCTTCTTGTGTAATTAGCTCCTGCATCAGGGTCGGCACTCTGAAATGTGGTTCACATCAATGGCAGCTCTAACCAGTGATGTGA
ATCATTTTATAGCTCTGGGTTCTGGCCTTCAAAGCAATATTTTCCCATTATAGGCGTAATAATCATACACTCCCTTTTTGGAGGTGGCTGGGTGAGCCGT
GTCCTCTGCCCCAGGGCTGGCTGGAAGGGGCTGATATGGTGAGAATATGCAGCCGGGCCCCTCAGTCCCTGCAGAGCCCAGGCCCTTCCTCCAGCAGAAG
ACACTACCTGCCTTGTGGTGTTTTATATGCAGCAGCTGTTTCCTGACCCCCTGCTGGGACCCAGAAAAAAGAACTCAAGGAAAGTGTGAGAGAAAACAGA
GGCTTAAGTCATGCTTCCTACCTTGTGGGCCTGTGACCTTGTTGGAACATCATGAGGCAGTAGAGCAGAGTGACAAAGAGCCTGGCCTCTGACTGCCTGC
CTGGTGGGAGTCCCAGCTCTACCACTTGCCTGTGTGACCCCAGGCAAGTTGCCTAAATTCTGTGCCTAGCCTGTCCCATTTGTGAAATGGAGGTACTCAA
AATAGCTATTGTGCTGTATTGGGGGAACCTGCCCCTAATATTTAGACATCGATTCTTTCTATTTTCCATAAGTGTCAGCTGGCTGAGAAATAAAGAGAAA
GAGTACRAAGAGAGGAATTTTACAGCTGGGCCTCCAGGGATGACATCACATAACAGTAGGACCGTGCTGTCCACCTGAACCTTAAAGCCAGCAAGTTTTA
TTAAGGATTTCAAAAGGGGAGGGGGTGCAAGAACAGGGAGTAGGTCACAAGATCACATGCTTCAAAGGGCAAAAAGGAGAACAAAGATCACATGCTTCTG
AGGAAACAGGACAAGGACAAATTCAGAACTACTGATAAGGGTCTATGTTCAGCTGTGCAGGTATTGTCTTGATAAACATCTTAAACAACAGAAAACAGGG
TTCGAGAGCAGAGAACYGGTCTGACCTCAGATTTACCAGGGTGGGTTTTTTTCGCCACCCTAATAAGCCTGAGRGTACTGCAGGAGACCAGGGCTTATTT
CAGTCCTTGTCTCAACCACATAAGACAGACACTCCCAGAGCGGCCATTTATAGACCTCCCCCCAGGAATGCATTCCTTTCCCAGGGTCTTAATTATTAAT
ATTCCTTGTTAGGAAAAGAATTTAGCAATATCTTCCCTACTTGCACATCCATTTATAGGTTCTCTGCAACAAGAAAAATATGRCTCTATTCTGCCCAWCC
CTGCAGGCAGTCAGACCTTATGGTTGTCTTCCCTTGTTCCATGAAAATTGCTGTTATTCTTTTCTTTCTCAAGGTGCACTGATTTCATATTGTTCAAACA
CACGTTTTACAATCAGTTTGTACAGTTAACACAATAGTGGTCCTGAGGTGATGTATACTCTCAGMTTACAAAGATAACAGGATTAAGAGATTAAAGTAAA
GACAGGCATAAGAAATTATAAAAGTATTAATTTTGGGAACTGATAAATGTCCATATTAAAATGAAATCTTCACAATTTACATTCAGAGATTGAAGTAAAG
ACAGGCGTAAGAAATTATAAAAGTATTATTTGGGAACTGATATATGTCCATATTAAAATGAAATCTTCACAATTTATGCTCCTCTGCCACAGCTCCAGCT
GGTCCCTCCATTCAGTGTCCCTGACTTCCCACAACAGTGCTGCATTTCTCATGAGTTGATATGTGTAAAGTGTTCAGAACAGAATTGAGCACATTGTAGG
TCTCAGCTCTTGGAGTGATGAAATCGCATAAGAGAAGATGATCAAAGACTATGATTGTCTTGAAGAATCTCCTAGACCAGGGATCAGCAAACTATAGCCT
ACAGGCCAAATACAGCTCTTTGCTTGTTTTGTAAATAAAGTTYTGTTGGAACACAGCCACACCCATTCATGTACACATTGTGTATGGCTATGTTCATGCT
ACATCAATAGAGCTGAATATCTGTGATACAGATCACATGACACACAAAGGGGGAAATATTTACCATCTGTCCCTTTACAGAAAAAGTTTGCCAACTTTTG
TTCTAGATGGTAACCACTGTGAGGGGTCTGAGAGCCTAGCAATCCATCCATGCTAGAGAAGCAGGAAAGCTTTGGAAATTGTTCTCCCAGTCTACATTTT
TTCAGCCCCTGGCATGGGCCTGGCCCACCGACAGGAACTGGTACAGAGGCAGTGAGGCCTGACCCCTGCCCTCCAGGAGTTCATGGTGTAGTGGAGGAAT
AAGTAAACAGACCCATCACAGTCCAGCAGGTAAGTGCTAAAACAGACGAGAGGAAGGGGCTGAGMAGGGGCTGCTCCCCTTGTCAAGGTTAGTCAGAGAG
AACTGAGACAAGTCAGGCTCACAGATGAGAAGAAATATTCTAGGGCAGTGACAGGGAGCAGGAAGAGCCTGCGTAAGTCAGGGTCATGAATAGGCTGYCC
TGGTGTGAATGCCCAGGACTTCAAGTGGCCACACAGGCTGTGCAGTGGAGGGCAGTCAGCAGGGAGCAGGTGCAGAGATGCCCTTCTTATGTTTCATGCT
AGGAAATGAGACTCCAGGAAATGTTCTGTAAAGCAGGAGTGTGGAGTGTGAGAGATGGGTGGGAGATCCCAGCCTGAGGAAATGATCCCATGATGATGCC
ATTAGCCAACAGGGAACATTCTGGATAGGAAACCCAGAAGGGCCAAGGAATCCCCACTCACTATTGACAAATCCCATCTCCTCTTTAATAACTCGCTCCA
AACACTGATTGCTACAGGCTCACACCCCGCCTCAMCTAGACGTTGCTGCAGGCCCACATCCTACTTCACCTAGACCTTGCTACAGGTCCACATCCCACCT
CACCTAGACCTTGCTACAGGCTTACATCCCGCCTCACCTTGACCTTGCTACAGGTCCACATCCCGCCTCACCTARACCTTGCTATAGGTCCATACCCTGC
CTCACCTAGACATTGCTACAGGCCCACATCCCACTTCATCTAGACCTTGCTACAGGTCCACATCCCGCCTCACCTAGACCTTGCTACAGGCTCACATCCT
ACCTCACCTAGACCTTGCTACAGGCCCACATCCCACCTCACCTAGACCTTGCTACAGGCCCACATCCTACCTCACCTAGATCTTGCTACGGGCCCACAAC
CCACTTCACCTAGACCTTGCTACAGGTCCACACCCTGCCTCATCTAGAACTTGCTACAGGCTCACATCCCACCTCACCTAGACCTTGCTGCGAATTGGAC
TCCGAGCTTTCAACTCTCCCTCAATGCTCCTGCTCCTAGAACAAAAATCTCATGTCATGCCTTTACTGCCAACCCTTCCATAACTCCCCGTTGACTTTAG
GACAAAGCCCAAAATTCTTAGCATTACCGGCAGCCTCTCATAATCTGACTGCTCCTATTTCTCTCCTATCGCCACCCTCCACCACCTCCTTGCTTAAACA
ACTACTCAGTAGTTAGACCTCTCTGGATAAGTCATCCTGTTCCACACCGCTGCCTTTCCCTCTGCCTGGGTTGCTTTCCCTTCCATATCCATTGGTTGAA
CTCCAGTTCATCTTCCAAACTCAGCCTGAGTTTCCTTTCCTCCAAGAAGCCTCCTTTAACCTTTCTCCCAGTCAAAAGCAATCACTTCCTTCCTCTTCTG
TGTCTATCTGTAGACCCACTGACGTGCTCACAGATACTATTATCCAGAGATGCATCTTTCTGTGACTCTCAGGCCACTGCAGAGGGGCCCTGCATAGACA
CTACCCAGGCTTATGAATGAGGGCAGTGTCAGTTTGCCTCTGGGATACCTGAGAAAGCACCTTGGGGTAAGGCTCTGCAGGGTCCCTGGCAGGATGTGGG
TGCTGAACGGTTTGATTTGGATGGAGGAAACCTGCAGAAGGCGTCAGCCACAACTAGGAAAAAATATCCACAGAAATTATATACTCCTTGAGTTGTAGAA
CAGAAAGCAAAGGAGCAACTTCAGTCTCCCTGTTGGGGGAATGAGGATCATCATCAGATTGAAACCAGACTGAAACAGACAAAAAGAGATACAGATTAGA
CATCAGGAGTGAGTGCCTGTGTGTGTCCTGTCCTTATGAATGGCACCATCCCCCACCCAAACAATTGCACAAGCCAGAAACCTGCAACTTATCCTGGATC
TTTCCCTCCCCTCAGCACCACATGCATCCTGTCTCAAAGCCCTAAATATCACTAGGACCCTCCCTCTTCTCCGTCCACACTGCTACTCTTCCATCGTTCA
CCTGCACTACCAAAAAAGCCTGCAACCATCCTCACCACCAGCCTCACTCCTGCCAATGAGTTCCACACATACTGCCACACTGACATTTYCTCAAACACCT
ATGCGWCCCTGTCACCCACTATTTAAAACTCTACTGCTCCTCCCCTGGCATAAATTCTAATTTTGGAGGGTAGAGGTATGAGACCTTTTGAACCAAACTC
CAGGAAAACTTTTCAAATTCCAGACCTTCCCAAGTCACCTTCTTGCACTGAAGGCCCAGTCACATTATCCCCGAGAGCCAGGCAGCTAGCAGGTATGTTC
AGTTTGTAGATCTGCTAGCAACAGACACTGAATAATTTCTTCTGGAATGTTCCATCTCTGCCATAGCTCAGGCCCTGTGCACCTGACTCCTTCCCAGAGC
ATCCCCCTCCCTCCCTCTCCAAGCATCCCCCTTTGGCCTGATGGGGTCATCAGTAGCCTTCAGAATTTCCTCAGACACCCCCATCTCCAGTAGCACCTGC
CCCTGACTCCAGCTGGGTGAGCCATAGGCTCCTCTTCGCTCCCACAGCCCCCTGTAGCATCCATCCCACCCCAGTGCTGTGGTTATCAGTTTGCATTTCT
ATCTCCCCTTCTTAGCGAGGGCAGATACCATGTCATGCTCACTGTGGAAACCCACCGCCCAGCCTGGCATATGGGGAGTGCTTAGTAAATATTTGTGGAA
GGCAGGATTAAAACAAGAGGGGGGAATCTTGTTGAAATCTCTTTCTGAGAACATTCATTTATTCAACAAATAAACAAAAAGGATGGAGAAAAGCAGTCAG
AGGAGAAGACGAGAGAAACTTCTGCAGGTCCCTGGGGGCAAGAGAGCTGAGATTCCACATGTGGCCTGAAAAGTTGCCAACAAGCCCATGGGGATTTCTG
TGCATTAAGGCGTGAAGAAAGAGTCTAATCATCTCGCTGTTGGCCAGATGTGCCCGGTTGCTGTGACAGCCACCAGAATTGGCCAGATGTGCTATGAACA
TCTTCAGAAACATCAGGGGGCCCTGGAGACTGCATGGCCTGGAGAGAAATAGTTCACACTCATTAAAGTGGGACAGAAATGGTCAGTTTGTTTAGGATGG
TGTCACCAGTGACTCTGAGCATTGGGACATAACACAGAAAATCCTTCCTCCCCTCAAGGCTTTGGAAGGCTTCCTCACAGCCCCTGCCTGCTCCTAACCC
TGTGTTCCCTCCCTAGGTGATCAAGCTCGCCTTTGAGGAGTTTGATTTGGAGAGGGGCTATGACACCCTGACGGTCGGTGATGGTGGTCAGGATGGGGAC
CAGAAGACAGTTCTCTACATGTAAGTGCAGTGGGGCATGTTGTTTGGAAGGTGGGACGGTGGCTGGGGTTGGTGGGGTGGGGTTTGTGGAGTCCTGCCTG
GTCCCTAGACCATACTACAGCAAAGACAGTATCCTGCAATGTTCCTAGTTTCAGCAATAATCCTTCTACCTCTCTCTACTCTGACCAAGGGGAAAAGAGC
ACTGGGCACCTTCTCACTGAATTCATRTGAAATGTGAATAGAATGAGCAGTCTGTTAGGGGGCAGGGGAGATCGAGGTTTTGTGGATGAACCTGGAGCCT
TCCACTGGCTGGCTGCTTCCATGCAGACCTTGATTCTGCCACCCTGACAGTTTTTACTCCAGGCCACATCCAGCCGTGGCAGCCTGACCTCAGACAGAGA
TAATGGAAATGAGTTGCTAACCTTTCTGCATGCTCAGAGCTCCCTGGGAAATGGATGGTTTCAGAGAATCAGGACCATATAGACATAGTGGCCACACTTC
CTGAGCCAAAAAAGACCAGTATGACATGTTCCAGACAAGGGAGAGGAGAATATCAAGCTGTCATGGGATTCTGCTATGTTGAGTCTGTGCTCTTGGGGAC
CATTTAGCTTCTCTTTTGCCCACCACCAATAGCCTGACTTGAAAACCAGGAAAAAGGCCAAGCGTGGTGGTGTATTGATGTAATCCCAGCACTTTGGCAG
GCCAAGGCAGACGGATTGCTTGAGCTCAGGAGGTCAAAACCAGCCTGGGCAACATGTTGAAAACCCATCTCTACAAAAAATTCAAAAATTAGCTGGATGT
GGTGGTGCACGCCTGTATAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGGATAGCTTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTGAGAGCATGCCA
CTACACTCTAGCCTGGGTGACAGAGTGAGATCCTGTCTAAAAAAAGAAAAAAAAAGTCAGGAAATGCTTCTGCTCAGGACATGTGGCTTAGCTTCAGAGA
CAAACACCCTGACCACATCCATCTCCCTTCCAGGAAGGAGGTGGAGTGTCACCAACATTAAACACCTACCATGCTCCCAGGCACTGGGATGGAAACTTTT
GCATCAATTATCTCGCTTAAGCCCTGGTGTTATTATTCTCTTTTAACAGATGGGGAGACTGAGGCCCAAAGGTTTCAGAGAAGGTTGATAGCAGAACCAG
CACTCAAGTTCATGTCTTTTGATTTCAGCCAAGGACAATGTCCCATGCCACACTCCTTCCCAACAAGGCTAGCTCCAGGATATCTCCTTCTGGTTCTAAT
GCTGAATGARAAATGGCCATTTAGTAACAGCTGGCTTGTCCTGAGGCTGTTCTTTTCTGGGTGTTTTTCACAACTTCCCTACACCTACCTGGAGATGATG
CTATACAGGCAGTTACATGACTCATCTTATCCAATGGTACCCACTGAATCAGGTGACATGGCTGGGACTTGGGATTTCTCCAGACAAAGGAATGGAATGT
GAGCCCACAGGGCATTCTCCCCCATGCCTAATTCACTGTATTAGTGAGGGTTCTCCAGAGAAACAGAACAATAGGAGATAGAGATAGATAGATAGATGAT
AGATAGATAGATAGATAGATAGATAGATATTAGAGAGATGATAGACGATTGATTGATAGATGATAGATGATACACAGATAGATGATAAATAGATGATAGA
TGATTGATAGATGATAGACAGATAGATGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGACAGACAAACAGCAAATAGA
TAGATAATTTGTTGTAAAGAATTGTCTCATGTGATTTTGGGAGACTGACAGGTCCCAAGATCTTCCAGGTGAGTTAAGAAGCTAGAAACCCAGGATAGTC
AATAATGGAGTTGCAGTCCAAATGCCAGTAGGTTCAAGATCCAGGAAGAGCTGATGTTACAGTTCAAGTTCAAAAGCCAGAAGTGAGCTGATGTCTCAGT
TTAAAGCCAATTGGACAGGAGGAATTCTCTTATTCAGGGGAGGGTCCATCTTTTTGTTCTGTTTGGCCCTTCAACTGATTGGATGAGGTCCACCCACCTT
GGAGAGGGCAATCTGCTTTACTCAGTCTGTCGATTTCAGTGTTCATCTCATTCAAACACACTCTCACAGAAACACCCAGAATAATGTTTGACCAAGTAGC
TGGGTACCCTGTGGCCTAGTCAAGTTGACACATAAAATTCACCATCACACTTACCTCTCCCCCTCACTTGGTGCATCCCCATCACTCATTTTCTGCCCTA
GTTTACTGACCCATATGGTGCCTCAGCTCTTTGTGCCCAAGAGACTAGGATCCCAGCTCTCTTTCCTCCCACAATCCCAATGTGCTTTGACATAGAGAGA
ACCTTAGAATAGCAGAACTTTTGAAAAGGCTATTGAGGATCATACCATACAATCCCCTCATTTAACATAGAGTGAAAAAGCCCAGAGAGGCTCAACCACT
TGCCCAAGGTCCCACAGCAAATGAATGGTGGACTCAGAGCCTGGTGCTGTAATTGGGTCAAACAGAGGAAAAGCAGGGGTCCCAGCCTTTTCCCTTGCTC
ATCAGCACCCCAGAGTCAGGAGCCAGCACTGGCCTGGCCACAATCCTTACTCAGCTTGTCAGAGCCCAGGCTCAGGGATGTCACACAGGCCAGGCTGTTG
GATCCCATGTGCTCTATCCGAGCTCCACTTCCATATCCCCCATGGTGTGATGACCTCTCTGCAGCTGACTCAACAGCCTCCCAAGCTCTGAGACCCTGGG
TGAAGCAGAGATTAGGACTCATTAGTTCAGTTGCCCACTCCACAACCCCCTGCCTCCATCTGTGCTGGTAATTTGTCTGATCTCAACAAAAGAATGAGGT
TGGATTTCTTCTGGAAATCCCAGCCTGCACAGGGGACCCCTGGCTCTGCCACTGTATCAGGTTGACCTTGGAGAAGCCACTGCCCATTCTGCACTTCCAT
ATTCTCATTGTACTATGGGCTGACAACCCCTACCTTCCTGGCAACAGGGCCATTAAATGAGATAATGGGTAGGAAAYTGATAAGTGCAGTATCTTACATG
GGTAGGTGCTTGGGGTTGGGATTGTGAATTGAATCCCCCCCTCCCCGCCCCCACACCCATGCTTAAACCCTCTTCTTCAATAAGAATGTGGCCCTCAGAT
AATGACTACACTCTAAGCCTTGTTCCTTATCCTGGAATGGAAGGAGATGTCTCATTGAAAGAATGGCYTGGGTTCCAACTGGAGAAATGGGTTTCTGTGA
GGGGAAACCCACATAAAGACAGCAAGGAGGTGGGGGTGGCGGYGGTCTTTTCTGCAATACAGGTCACACAAGAGATCAAAAGTTGCAAGAATGTAGACAC
CCTCTTGATTGGATTTGGCTCCAACTATCCCTGTCCCCTGAGCAAGTAAGGACACAGATCTCCCTTGTGAGCCCAAGGGTCAGGGCTAGAGAGTCAAAGT
TGTGATTCAACCCATGAGATTCTACCCACAGCCAAGGGGAAGACAGGATGAGTCTTCCCAGCACAGGGAGAGCATGCTGCTGGGCTCCAGAGTCAGAAAC
ACAGTGGGGCCCAGAATTTGCCCGAGCRGGCCTGGATCCTGGATAGTCCTTTAAATGTCATCGGTCAGGCAATCATTCTATTCGGGTGTCATGGTGGAGA
GCACACCTCTAAATATCTCTCTCCTGCCAGCCTGACAGGTACATCGGTCCCGGATCTCATTGTCAGCACCAATCATCAAATGTGGCTCCTCTTCCAGACT
GATGGCAGTGGCAGTTCCCTGGGATTCAAGGCTTCTTATGAAGGTAACTGCTTTTGGCAAGCCAGATGAACTGTGTCCTGGGAGTCAGAGACGGGGTCTG
GATTTGCAGTCAGAATTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCCGTGGCACGATCTTAGCTCACTACAGCC
TCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCACACCAACATGCCTGGCTAATTTTTGTATTTTTAGT
AGAGACGGGGTCTCACCATGTTGGCCAAGCTGATCTCGAACTCCTGACCTCAAATGACCCACCTGCCTCAGCCTCCCAACGTGCTGGGGTTACAGGCGTG
AGCCACCATGCCCGGCCACGGGATCCTGGTTCTCCCCTGCACTAGCTTCCTCCCCCTTAGGCATGTTATTCCACTTCTCTGAGCCCCAGCCACCTCTTTG
TTCTGAGGGCCTTCTGGTTGTTTTGAGGATTATCTGGGATAAAACACTTAAAATGCTAGGCACCCAGCATCAGATGCACACCTCAGTTCCATCCCCAATT
CATACCTGGTTCATGGAGACTTTTAAGAGGCCTCACTTATTTTTAAAATCTTTAGAGAGGACAATAGCTTCCCAAGATACCCTATTGGGTTGCATGTGAT
GAATGAGTGACTCTGTGCATAGGGCTAGGAACAGATAAACACCACTGTTGGTGGCCTGAGAAAGATGCAGACAAGAGTCTTCATCTCTTGCTTAGAATAG
GCATTAAGGGAACTGCAAACCCTGGGGCCCAGGAGATACCCTCAACATCACCCTTCTGACCACTTCCAAACCCCCTTTGGCSAATAACAGCTAACGCCAG
TCCCTACAAAGGTGGAAGGAGAAGCCATCCACAAGTTACTGTTAAGCCCCTCTTAGGTACTAGACGCTAGACCAGCACAAGGGGGACAGACACATCAAGT
CTAGGCATCGTCTCAACTGACTTGTGCTCTAGTGGCGAGATGGAGGGGAAAGCAAACGAAGTGGCATGCAAAAGAGCTGCCTGGACAGTGCCAGTGGGAG
CAMAGAGAAGGGAGCAGACATCTTTTCAGGAACATCTGAAAGGGGATCAGGAAAGCGCTTTGTCACAAAAGTGAGCCTAAAGTCCTCAGAATGACTAGGT
GGSTACTAGGGAGACAGGCCCAGGGAGCGGGGAGAAGGTGTCCCTTCAGTGTGGCTCACACAGCATACCCCCAGTGTACCATAGGTTCCTCCTGCTCCAG
GACCTGTACTCTGTTTCGAAACTGGGTACAGGTACACAGGAGGTGTATTCGTGTTCTTGGGCTGGCTGGCTTCACACAACGGACATTTATTCTCTCACAT
TCTGGAGCCTGGAAGTCTGACGCCAAGGCTCAGCAGGGCCATGCCCCCACTATGGGTAGAATCCTCCCCTGCTTCTCCCTAGCTTCTGGTGGTGGCTGTG
AGTCCTTGCTGTTCCTTGGCTGTAGCTGCATCACTCCAGTCTCTGCCTTTGTCATCACACAACCTTCCTGTGTGTCTCTCTGTCCTCTTCTTATAAGGAC
ACCAGCATATTAGACTAAGGGCCCTCCCTACTCCAGCATGGCTCCATCTTAACTTGATTACATTTGCAGCAACTCTGTTTCCAAATAAGATCACATTTAT
AAGTACCAGAAGTCAGAACTTCAGCACGTCTTTTTGGGGAACACAGTTCACCCCATAACAGGAGGCTAGCCCATACTACACTAACAATGTCATACAATGA
TGTCTCCTGGGGTAAAGATGACAGCTATACTGAGATTTTTTAAGAATAGGAGGCCATGTGTCTAGGGAAGACAGAACAACAGACAGAAAATACTTATGGG
GTGACAGACTCTGAGTGCAGATCCTGGTTCTGTCACTTTCTAGCTCCATGGCAGGTCATGGAACCTTTCTCAGGATCTGTTTCTTCATCTGTGAAACAGA
GATAATAATACAACCTRGGTCTCAAGGGTCCTGTGAAGATGGTTAGATTAAGAAATGTGAACATAAGAAATGTTGCAAATTGCAAAGCAATTAGTGAGTA
ACTAATGAGCCAGTACACAGGTAGTTCAATGAGCGGGCTGTTCCGGTGCATAAAGTTACACATAAGCAGCTGTGGGGCTATGAGAGGAGCAGCAGACAAA
ACTATCAGGAGACCTTGATTCAGGTCCAAGCCCTGTCACTCACTACTTTGAAAAGGGGAATGGAGATGGATGCAAAGTTGCTAAGTTTTCACCCATTTCA
GAAATTCTATGGATGTTCAGCAGTGAATGTTCCCAAAAGCAGGGAGAAATGATTCCATGTCATCCTCATGCCCTTAATCTGTCCATATTTTGCCAACGGT
TTGAATAAGAAGTAAATAGCGTGAACTTGAAAGGGATGACAATACTAGTCAGCAAACAGAGTGCAGAAAGATCTGGGTGGGGTAGAGCCRTTGACTAAAT
TAGTAGGAAAAGATAAAGTGGGAATAAATATCAAGTCATGATTTAAGACTTAAAAAGAAATTAGCTACTGGAATTTATCCCAGGAAGTTAGTTGTGCTTT
ATCCTGCCCTGAGCAGGCACCAGAGAATTGAGCTTAGATGTGGGACCTCAGCTTGGGATAGATAAGGAGAGGATTTAAGGCAATTCCTGTAAGAAATGTT
GATGGCCCCCGAATGTTTATGCAGGAGAAGAAGTGGACTTGGGAGATTTGAGAGCTGTGTCCRGATATCTGAAGGGCTTTCATGTGGGAAAGAGGAATTA
GATGCATTTGGTGTGATCTTGTTGGAAAAGAAAGGGACATACCACTTGTTGAAAGCCTGCTATGTGCCATAGCTTTATGTTCATTATCTCAGGGTTTTCA
CAGTGTCTTGCAAAGACCTGCGGTACCCTYCRGGGACCTCCATGGTAGGATAGGGCATGCCCAGGATGGAGGGTTCTGACCACCCTGCCTCTGTTTCTTC
TCCTTTCTTCTCTTTTGCTCTTTGTAAGCCTTCTTTTAAGAGAGGATTCATAGCTAACCACTGGCTTGAAAGACATTACTTCATCTCATTCATTGCTTAC
AATGATAAAATGGCTGCTATTTTATGGATGAAGAATCTGAGACTCAGAGGGGTGAAGTAATCTGCCTGAGGTCACACACAAGTGTGGAAAGTAGCAGAGC
TGGGATTTGAACCCATGTCTCCCTGGCTTCAGAAGCCCATGGATTTTCCCCTTGCACCAGAAGCCTCCCAAGGTTACATAATTTCAATTCCTTATAAAAT
CTTTAATAGAAGCCAAAGCTTTGCCCCAGTCAAATAGACCAAGTATCATGAGCCTGGATTCCATGTCACCAGAGGTTGGGGAGTTAGTTCACAAGTTCAT
TTGTCCATTTCACTCAGCCAGTATTGGCTAAGCTTTTGTTATGTGACCAACATTTTGCTGGGTGCTGTGATTATAATAGCTAGCAGCTTGGATGTGGTAT
AAAGCATATGCTATGTGAATGCTGCTCATGGACTAGGTGTCAGCAGGACTTCTCCTTGGAGCCGTGACAAATTAGGAAGGACAGTCTGGGTGTTTAGAGA
CATGGCAAACCCACAGGGACTACGTCAGGTTCTGTGCACAGAGGCAGTGGATTCTAGAAAATAGCACAGACTCTGAAATTGCACCAGACCTAGTAAATCC
CAGTGTGGTCCCAGCTGTGTAAGCTTGAGTCTTGTGGTCTCTCTGAGCCTCAGTTCCCCGACTTGTACAATGGAAATAATGATGCCAATCTGAGAGCRTT
GTTAGGAGAGTGAAATGAGATCTCAAAGCTCCTTGCACATTGCCTGGCATAGAGATGGTGCCTTCCCTGGGGGTGTCACCAAAGTTTCTCTCCAGCCAAA
CCTTCCACATTTCTTGTCCTCCAGGCCAGGCACCTGGATCTGCCTCCAGGTGCTCTGATAGGCCCTGGGTTTAGGTCCCTGCCTTACACCAGCACTCCCC
ACCTAGGGCCCTCCCTCCCCATACTGGCAGAGAAATGAGGTGGCTCTGTAAGGCCTCAGTGCAGGGCGTGGAGCCAGAAGTGGCAGGAGGCAGAATCAGG
CTCGCAGGAGCCTGGAGGCCTCACAGTGCGTTGGAACCTGGCTCAGTGAAAATTCAAGGGGCTAAGTTGGGTGGGCCACTTTTTTGTTTTTGTCCCTTCC
ACCTTTGACTTTTTATATGAGGGGCAAAGCCCATCATTCTCACACCCTCCTGGTGAGGAGCCCCCTCTACTATAAAAAGGTGGGTGGGTTGAGTCCCCGG
CACCCCGATGTGACTCCCTGTCCTTGCCCATCCTGCTCCTTGGGCTCCTATCACCTCCACCTCCTGGTTTTCTTTTACCTCTCTGGCTGCTCCTTCACAG
CTCCTCCATGGCTCCCCACTGCCCCTCAGAGTCTATCCTCAGCCTTCAGTCCTCTTATTCTAGAACCTTCTGCAGTTGATCACGTGTACTTCCATGGTTT
CAGCCTCAACCCAAACTCTGGTGACTTCCACATCTGTTCTCCACTTGCATTTCAGTCTTCCTGTTACACATTTTGATATGGCTTCCCTCTCAGCTGTCTC
AAACCCACCCACCTGTATAGTCTGCTGACAACAAAATGCCCTGGGATAGGGAGTCACATGGTGGGGGCCGGGGACTCAACCCACCCACCTTTTTATAGTA
TAGGGAGCTCCTCACCAGGAGGGTGTGAGAATGATGGGCTTCGCCCCTCAAATAAAAAGTCAAAGGCGGAAGGGACAAAAACAAAAAAGACTGGGTGGTT
TACATTTGCAACAACTCTGTTTTCAAATAAGATCACATTTATAGGTACCGGAGTCAGAACTTCAACACGTCTTTTTGGGGGGCACAGAGCACCCCATAAC
AGAAGGCCRGCCCRTCTTTCCTACACTAACACTGTCATACCACAATGTCCCCTGGGGTAAAGATAACGGTTGTACTGTTTTAATAGGAGGCCATGTGTCT
AGAGAAGGCAGAACAGCACCCCGTTTTCTCCCAGTTCTAGAGGCTGGAAATCCAAGGTTAAGGATTTGGCCAATTTGGTTTCTGATGAGGGCTTTCTTCG
TGGCTTGTAGACAGCTACCTTCTCACCATGGCCTTGCATGGGCTTTCCTGGGTGCATGCACACACAGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAG
AGAGAATGAGAGAATGAGCMTGGTGTTGTTTCTTCTTAGACATCCATCCTCTCAGATCGGGGCCCTGCCCTTATGACCTCATTTAACCTTAATTACTTCC
TTAGAGGCCCCATCTTCAAATACAGTCACACTGGGGGCTAAGAGCCTCAATACAGGAATTTGGGGGAGTTGGGGGAACACACAAGTTCAGTCCGTAATAC
CRTCCAAAACCAAGCTCGCCATCTCTGCCCCCACACCTGTGACCTGCACCTGTGTACCCCATCTTCACGAACAGCACCACCATCCATGCCATCCCTAGGC
CTCATCTCCGCCTCCTCCTTTTCCCTCTCCCCACCTCTGACTCCATTCCCAGATTCTGTCAGTTTTCCGCATCCCACTTCTGTTTCACTGCTGAGCTGAG
TCCCTCCCTCATCACCTCTCACTTGAATAGTGGCAGAGTCTTCCCAACCAGCATCGCTGGCTCTAGTCCTCTCACTCCCATCTACCCATCTGCCACATGG
AGCAGTGATCTTCCCAGAATCCAAATCTGGCACAATTCCCCCCTAGTTAAAAAAAAAATGACAACTTCCCATTGATTTTAGGATAAAGTATAACGTTTTC
TACATGACATCCGAAGTTCTCCATAATAATAATTCCACCAAGTTCTGGTTTCTACGAATCCATTCAAGACAAAAATCTCTGCAGTCCTGTAGAGCCTAAT
TCAGTGCCTGGCACAGGACACATGCTCAGAAAAGCATGTAGAATTAAATTGTAATGAGGATCTACTCAGTCATAATCAGGTACCCTCCTCAGCACCCTCT
CAATTCCCTTTTGGTCCACTTTACCACCTTCCTAGTGCACAGATGCCAACAGCCCATGCATTCTCTATTGTCCCTGTAGGATTTGGGGTTGGGCAAACCC
AGCTTATAATCAGGATCTTCCTTTGACTCCCTGTGTGCCAGTCTCTCCCCATCAATGAGCCTGAATTTCCTAAYCTGTGAAGAGGGGCTGATGAATGGTT
ATCTTTCCAGGGTCTCATGAGGACTCAGTATAGTCAAGCACCCAGCATAGGGCCTGACATTTAGTAAATGCTCAGTTGGAAGCTTACTCCCYTCTCTGCT
CTCCAAGGCCTACAGCTCTTCTTCCAACCTACATCATTACCYGAAGCTTCAGAATTACCTCTGCCTCCATTTTAGCCCCTGTTATTCCAGCTCCTGGGGA
GTTCCACACAGGATAGACATCTCGACTCAGGAACGAGCAGGGGTTGGGGGGCGGGTAGCTGTGATGCAGGTTTCTCGTAGGATGGCATAAGGCATCCAAG
GGCAGAGACCTCCCATATCCATCATTTCCACTCATCCCTTAGGCACATCTGGCTGCATCATCATCATCAATACCCACTCTGTCCCAATTTGAGCAGAGAG
ATACAACCTTAGGGGCAGGCAGGTGGCACTCCAGTATCATCCTTTCTTCCTCATTGAAAGCATGAACCTGGTGGGAAAATTGGGGCATTTGCTTCCCAGA
AATCCCTCCAGTTCTGCTTGTCACAATCCCAGGTCAGGGGGCGGGGGAGGGGACTCCTGATCTGTCAATATCTGAGCACTCTGAGCCAGTCTCCCTCCAT
GGGGGCGACCAGCTGTGGGAAATGCAGTCATAGTTGCAATTTCTTTGCTTCCCAGTAGAACAAGAAATATTTAAGGAACAGGCAATTAGCACTTACCAGA
AACATTATAAAATTACATACAACTTGCTAACAAGTTTTAGCATCAATCTGGAAGTCTCCTTGCTTCCTTACTGGAGTCTGGAATCTGGCAGCTTAATGCT
GAGTCTGGGAGGCTGGCCCAGGGGAGGAAGAAGCTGGGACCTGGACCCTACAGACATGAAGGAGCAGGACAGTAGAGATTATGCAGAGGGGCTGCCCAAC
AGTCCAGGGCACTCATGTTAGAAATGAGCTCATCTGTTTGTTCAACATTTTCTAAGGCCCTGTGATGTGTTGCAGACAATGTTCAGGACACTGAGGCTAC
AAGGACAGCAAGACAATCTCTGCCTTCACCTAATTCATAGTCCATTTTCAGTAGCATAGAACAAGTGCTAGAAGACAGGGAAATACAAAGGAGGGGCAGC
AAATCTTGCTCAAGGGCATCAGGGGAGTCTCCCTGGAGGAGGTGATGTCTGAAACTGAGACTTGCTTGAAGGATGAAAAAGAGTTTGTCAGACTCCCTTG
AGAGAGGGAACAGGTGGGCTTAGAAAGCTGACATGCAGATAAGATTGAGGCTAAAACCTCAGTAAAAATAAAGTCTGAGAGCAAGTTGGGGAGAAGAGGG
CCAAGACTTGCTCTCTGCAGGCAGTGCCACATCCCCTTCTTCAGAACTTCACTCCAGTGGTGGGCACTGCTGAGCCCCCAGAAGAGGTGGTTTTAGAAGC
AGACTTCAAAGGAGGCCAAGGGCAGCCRACCAGCATCACTCACCACTCCCTCTAGGACACCGCCTTTCCTCTTGTCAGATGCCAAGCACATGGCTATTTT
CAGCCTCTCTTCTGTTATTYTCAGTACACCTCTATTTCTTGTCTTTTCCCCATAAACTGGAAGGCCCAAACATTCCAACTTTGGCCAAGAATGTCACTAA
CATGTTCCTAAGATGCCCGCTGAGTTTCCATGATACCTCTAAAGGTTTTTCAGGCACTGGGAGCCAAAGTTGAGCTAGATACAAGCAGCAGCTGCCTCTT
CTCAAAAAGTCCCAGTGGGATCCAGCCTGTTCTAGCCCCTGGAGGCTGGGCTGGCAAACAGCAGAGGATGCTGCCGCATTAAAATTTGGTAGAAAGTAAT
TTGTCAGTGAGATGTRCTCTCTAAATACATAGCTTTTGCAAACGGTAAGCTTTAGTTTGGGGCTAATGCAGACAGCTTGGAGGCTACCTCCATGTCCTTT
GTTTCCAGCCTCCTTTGGCTGGTGACAAACCCATGACAGTGTTATAGAGGAAGGAGATGGGGAGGGAAGAATGTCACCCACTTCATCCAGCCATACCTCC
ATTCCACTTGTGGCAATCGTGTGCAGAAAAACACATCAGTCCCCATAGGTGCACATACAGATGTGGGGTCTCTCACCTCCTGGTGCCCTTCGCATAATCA
GAAGTAGAAAAGCAGAGTGGGGTGTGGTTCTGAGGCAATCCAGGTGGTCTGGGCATGCCCACAGGGTGTTCCTAATGCACCGAAGATGTCCTGGTCACTC
ACTAGGAGTTTGTGCTGATTCAACAACAGGTCTGAGCACTTAGTATGCATAAGGCACTGGGCTTGGTTCTGGAGATACAAAGAGTGGAAGGGATGCGACC
CCTGGCTCTGAGGGAGCTGACAACCCACAGGATGGAGCTTAAATGACTTATTACTCATCGAACCAAGCCCTTCAGGGTCTCCCTCCAACCATCTCTCCGG
CCTCTTCTCTCTTCATCACTTGAGCTTCCCACTACACTGAGCTTCTAGCTCTTCTCTAGACTCTACGCTGTTGTCCTCCATTTCTCCTTTCCTGCTGCTT
TCCTTCCATCCTCTCCTCCATCCTCCCCCATCATGCCTCAAAAGTTTATTGRATCCCCTCTCTGTGCCTTGCACTTCACTAGAAAAGCTGGGATRTAGAC
ATTTCAAAAAACATTGGCTCGGTCCTCAAGGAACTTACCAATTAACAGTGGGAAACACACGCCCAAAATTGCAGCACCCGTTGCTATAACAACAGAAATG
TCCAAGGGGGCTGGGAGCGAGAGAGAAAGAGCTCCTAAGTCTGCCTGGGCGATTCGAAAGAAGGTCCCACATGGGAATGCACTTGCACCAACACTGAAAG
ATGATTCTTTGTCTGGTAGACAAAGCAAAGGGTGTTCATTTCGGGAAGAGAGGATGGCAGGTGCCACGTTACAGCCATCTGAGGGGCGGCTGGGCTCTGC
AAACAGCAGCGACAATAACACTGAGGAAATATGGTTAGTCACTGGTTACACACTGCATACTGGACATTTTGACAATTATCTTGTGTACAGAAGCTCATTT
AATCCTCACAACAACCTTGTTATTACCATTTCCATTTTACAGATGACAAAACTAAGGCTCAGAGAAAATAAGTCACATGCCCAAGGTCTGTTCCTTAGTA
TCAGAGCCAGGATTTAGATCCTGGRCTTTGTGATCCCAGAGCTCTTGCCACTGCACTATTCTACCTCCCTACAGATCACTCATTGCTGTGCCGTGTAAAT
CTCAAGGTCGCTGATGGCCAAAGAGCAGGCTGGGGTGGGAGGGGTAGGCAAGGGTCCTGCCATGCTGAGGAGTTAGGATTTTAGTCTGTGGATTTCAGGA
AGCTGTAAAAGGATCAATGAGCAGGGGATGGTAATCATCATATTTTTATTTCTGAGTGATCTTGTGCTCCTTTGTAGAGTATGAAATAGAAGGAAGAGCC
AGGGGAACCATAGGCTGCTACTGGCACCCAGATGAGGAGTTGCAAGGGCTGAACTCAGGCAGGGAGAGACGGGGTGGATAGCAGAGGGTTCTGGGTATGT
GGGAGGAGGAGTCAACAGGAGGAGACTAAGGAGAGCTGAGGGAGAAGGACAGGGCAATCCAGGCTGACTCCCAGATTTGAACAACCTGTAAGAAACCTGT
CCAGCGCTCCCAGCCAGAGGCTTGAGCTGCCCCTTCTGCTATCACCCAAGTCATGTGGTCAGGTCTACATCCTCTCCATTGCCCTGGTCATTTGTATTGG
AATTATCTCCATACCCACCTGACCCTGAGTTCTCCAGGGGCAGGGGCCGTGGGGCAGGCAAYGCTATACCTTTAGTGCTTAGTGTGGCATTTGGCACGGT
TTCCATGCAAAATATTTGCTAAGCTCAGAGTATTCTGTGTGTTCCAGGGACTGTGCTAAGTGCCGGGTACACAGTGATCAAAAATACATAATGGATGCCT
GCCTTCATGGGGCTTACATTCTAGGGGGTGGGAGTGAGGGGGGCTGGGTGGTGAATCATCTTGTGCCCAATGCCCAACCAGAGCTCCAGAAGAACAAATT
TTCATCCTTTTATTCGCTGTTATACCCCCAATGTCTAGAACAGTAACCAGTAAAATACTTGTTGAATGAACAGATGGGTAGTTACAAGGGGCATCATTGC
TATAAAGGGAAAGAATGTGGTGCCAAAATGGGAGGATTGCTCGAGCCCAGGAGTTCGAGGCTGCAGTAAGCTGTGATAGCACCACTGCACTCCAGTTTGG
GCAACAGAGCAAGACCCTGTCTCAAAAGAAAAAATAAAAAGAATGGGGTGCAAAGAAAGAAAAGTAAAAGGGAAATGTCTAAGATCTAAGGTGTGTGGTC
AAGGAAAATGTCTTGGAGGAGGTAACATTGTAAACCAAAGTCTGTTAATGCAAGGCGTTAGTCATGCCAAAGGAAGAGGAGAGGAAGCTCAAGCCAGGGG
AAYAATGAGTTAGTGAAGGAGCCAGTGAAGCCTCCCAGCCTCATGTGAAAGGCAGCAAATCCTCGTCTTCCTCCAAGCAGTGCCTCCCCTCTTGGAGCAC
ATCAAATATTCAGTGAATTTACAGAACCACATGATACAGTCCCTTCTGTACAGACATTTTCATAAAAGACGATTCCAATTTGGTATTAGAAATGGAAAAA
CCTGGGGAGAAGAGTGAGATTGATCACAGATGATGGGGATAAAACAGCTGAGAAAGGGGAAGCAAATATGCTGAGTGGCAGAGCTCAGTCATGATGGACT
TCTGAGGCATCTTAGAAGCAATCATCTCATGTTTTCCAGTTTGCTTTTGGTAGGCAAAAGGAGAGAGACAGGAGAAACACTCATAAAACGGAATTATATT
AAACCAGATAACAGGAAATTGCATGTGTGATTTTTCTGCAAGTCAAAATCCATTTGTCTATTTGCAATTCTGGGTCCTGACGTCAGACTTGGTCAGCACC
TGACCAGAAGTGCCAAGATCAAACACCTTTCAGGCAGGGCAGTGGAGCACAGGGAGCCCTTTGCAGGAAGGCAGCGGCCGTGGTCTCTGTGTTTCCAGCA
GGAGTTGACTCTGAGCTTGGAGAGAAGGCTTAGGCCAGGACAGGAGGTGTCAAAGGGACAGAAGCCAGCCAGCAGCCCCCTCTGCCTTCCTGGAAGGAGC
TCCCAAACTCTCACCCCACCCTGCTCTGTTCTTCCTCTTCCTTCCACCCAATCTTGATTCTCTGAGCAACACATCCCCCAATGCCTTAGAACTCTTTGCC
AAATGCTTCCTTGAATCTGAGTTCCCGTGAAGTCACCACGACCCTGTAGCCCTCTGCAGTGCTAGCAGCTCACTTCCCCACACCCAATGAACTTCACCTT
GAGAGGGGCTCGTATGCTTGCTCGCCGATGCCATTCCACCCACGTGTAAACCCCTTCCCCTTTGACCTTATGCTGTCTTCAGCTCTGACACTTTCTACCC
CTCCTCATCACTGTCACTGATCTCCTCCTCCCTACTTGCCATCACCTTGCCTCTCAGGCCTTGACCTTCTCACTTCCTTTCAGTGTACTTCACCCTGGCT
GCAGCTGGACCTCATCATCAAGCACCTCTGAAATCTCAATTCCACATACTTCAGCTTTTTCACATGACACTCCCTTTACTCCTGCCCATCATCCCTTCCC
ATCCTCTATTTCCCCCATCGCCCCCTGCTCCTTTCACCTCTTTCCTTCTTCATTCTAAGCCTCTTGGATAACACTTTGGCCATTCTTTTTAACAACATGT
TCAGCTCCTTTGCCCCGTTGTCTTCCATTTCTCCAAGCCCAATCCCCCCTCACTCAGTCAATCCTCCTACCCCTTTCTCTACTTCTACAGGAACTGAGTG
GCCAAGGGCTGCTGGGACAAGTCATATAGCCCTGCTGGATGGTATCCCTACAAATGAGTCATCTGCACCCTCGGCGGGCCCCAGAGGTGCATGGCAATCC
ATCTAGGCATGATTTCCTCTTCTCCAGAGTGACAGCTTCAGACATTCTCTTCAAGTCGTTTTCCCATGACTTGTCCCTCACCTTCAGCAAAGACTGTGAC
CTCCTCCACTTAGAAAATAGAGCCTGTGTCATCACAGGATCTCCCTCGGTCTCCTGCCATCCTACCTGAAAACTCACTGCCACCACTTCTTCCCTCTTTA
CTGCAGTCTTGAGGGAAGGACATCCCTCACGGTCTCTAAGGCTGGGCCTCTAGTGTGCTCTCAGTCCCATGCCTCTCTCCTTCTCTGGAGCCCCTGTAGG
GGGCCCCTTTCTCCTCCACATCTTCAGCTAACCATTCAATACATCTTTCCTCCCACCCCTTCATTCTTCTCTAGCATTTCAATATGGTCAAGTTTCTCCT
GTACTAAACTACTTTAACCACTCCCACCCAGGCCATATGCCTCATGAGCTGCTACCTAATTTCTCTAGAGAGAGTGATATCACCTTCTCTTCTCCTGTTK
GGTATTGGCCCCATCAGTACACACAATCCTGGCAGTATCAATGTGACCTCTTTTTGCTAACCTGTTTTTCAATCCTATGTAAACTTCCCTGCAGCATTCA
AGGCTGTTGATCTCCTTCTTGAAACTCATTCTTCTTTAAGCTCCTGTGACCCCACTCTCCCAGTCTAGCATTCTGCTGGTCCCTACATTGTTCCTAACTG
TCCTGTCCTAGACCAACATCCCTTCTCACTCTCCTTGGGTAATTTCATCCTTGTCATGGCTTCTTTTACAATCTATGAGCTGAATTTCTAGACCAGGCTT
CTCTCTTGAACTTAAGACCCATATAGCCACTTCCTGCTAGATATTTCCACTTGGAGGTCCCACTAGTACCTTAAAACTCAGCATCCCCTACTGATGACCC
TCCATTCAGACCTATACCTCTTTCTGCATTCTTGTCTCAGTGAGGGTACACCCAAGTGCTCAGGCCAGGCACTTAGTTATGTAACTAAAGTTAGCTGTGA
CAATAACTATTGGGTTATTGGAGGACCACATCCTCCAAGAAGCCTTTCCTGACCCAGGTCTGGGACTAGGGTCAGGTGAGCAGGGCACTCATGGGCACGA
AATTTAAGTGATGGGGAAAAAAAAACTCAGCAATTAAGATAAATAACACTTAATGCAAATTTTTTTTAAAAATTAATATTAGTGCAAAATATCCRTGTTA
AAACACATCAACATTTGAATCAAAGACAGGCTCTGACAGTGCTGGGACTATGGTGAAGACCAGTGAGGTGAGTGATCTGAGCATAGGGTTGGATCCAGGC
TTTATTTTAAATGTTGGTATTTTTCTTCATTGTGAATTGGATTTATGGCATTAATTGTAATTTTCTAGAAAAAAATATCGCACTAAGATATTATTTGTCA
TGATAACTGAGATTTTGGCGCCCCTTGAAATTTTGTAGATGAGGTTAGTACTTCCATTCTCCACACCCTATTTCCAGACTGATCCTCCACATTTGAGTTA
GGTGCTTCTCCTATGTGCATCCACAGCACGAATCCCCTGTATCATAAACACCTATTTCCTTGTCTGTTCATTTCTTGAGGGCAGAGACCATATCCAGATG
TCAAGGGTCTAGCACAGCAACTGGCACATAGTAGGTGCTCATTGCATTGTTCGTAAGTGGGTGCCTGTGATTGCATGATGGTAGGAGGAAGTGATGGGTG
GGTGGATGTGGGCATGTGCGCAGGGCTGTGCCTACACGATGGGAAGGCTGGGCAGATTCCTTCATCCCCCTTAGGATCCCCTTTTTCTTAAGCCAATCAY
AGCCTCAGACTAGCTGCTGTGGGCAGGAACACAGGCACATGTACCCCACGTGCATATCTCCTGCAGCAATGGTGGGGCCTCACTAGGAAACCTTATATCT
GGGTTCTGCCCCTGGCAGCAGGAAGGATCCAGCTCTGTYTTGAAATGCTGTGTAACTTTCACCAGGTCTCAAAATGCCTGCAGTGACAGCCCTCACACCC
CAGGCTCTCGCATCCCAGAGAGCATGTCTGGGGACATCTGGAGGCAGGTGGGTCCTGCTGCTTGCTTCTCCACGTTGACTTATCACAGGAGCCCCTTCTT
TCCTTCAGATTCCCTGGAGCTCTGGGACCTGTAGCAAAGGGACCATGTTCCTGGAATGCCTCAGTGTATCCCCTCCCCCATCCCTGAGCCTGAGCAAAGC
CAGCTTCAGAGGGGTTTCAGCTATGTTTTCAGCAGATGTACTTGTAGAGGGTGAGGCCAGGGGGACATGTGAGGTGAGAGGCAAGTGGGCTGACTTACAT
TTGATTTGAGATGCCTCACACCTGGCACATGGTCACACAGACTCCCCTGCACAAAGGGGAGGACCCTTGTTGTTCAACTTAGATGATCACACACACACAC
ACACACACACACACACACACACACACACAATCCCAGCCATAGAATGCCTTGTCCTGCCTGCTCTCAGCACAAAGCTGGCAGCCTTCGTTTTGGGTTAACA
TGAATGCAACAGTCAAGAGCCCGCCCATAAAAGGCAGTGCCTGGAGCTGCCCAGCCCACAGAAGCCCCCAGTGTGGTAGGAAAGCCTTTGCAGAATCATC
CCTGTCAGGATCACACACACCAACTTCAGGGACTGTGGCTCTGACAGCCCATGATGGTGTCTACCGAACAGGCAGGGTCCCTTTTTCCTGAGAATCCTAR
GTAGTGTCCAAAAAACTCCCCTGATGACTCTGGGCCCCTCTCTCCCAAATCTCGGGACTCATACAGTCCTCACCTCACCGTCTGGCACTGGCTTCATGAC
CTCCTGTCTATCCTGCAGGACGCCCTTCTCCCCGGAAACAGAGCTCCCCTCCTTCCCTCTTCTTCCTCCTCCCCTCCACCACCCCCTCCTCCTCGTCCAT
CTCTCACAGCATTAAGCACAGCATGAGTGGGAGTGGAGGTGACTCCAGAGGAAGCTCCAGAGGCTTGGCCAGGACATACTCCTTTCCAGAAGCATCTGGA
TCCTGACTGCCTCTCCGGTGAGGTAGCCAGCCCATCATGCCCACTGGGTTCAGGGCCCCCAGAGCTGTCTCAGGGAACCCACTCCATGTCTGTCTCACCA
CTGTTGACTCAAGTGAACTTTCAAAGCATACTCAATGAGTCATTTGTTTCATTTTACCTGCTACCATTGCAAATTGAATTAAGGAAACATCTCCATGAAG
GTTCTTCCACATCAGCAGGCAGTGAACATTTATTCTCAATTAATCTCTGGTTTGGGAAAAAGACAGGGAGCAAAGCCTCAACTGCYGTGTCATCTTGACT
TGCCTTTGCTGCTCAGAAATGGACTGTACTTGAGATCTGTCGTGACATTAGCAGTTCAGATGCAAGGTCAGGTTCAGTGAGGAAGTCTCCAAAGACTTCT
AATGCTGTGGAACTTGTTGCTCCTGGGACAGGTAACCTGTGAAGAATGTAGACCCACCTTCTCCCTAAAATTGCTTCATCTCATATTGGATTTAGGGAGG
GGTAAGGGATCAAAACATCCAAGCATCTAGAACACTTTATGTGGACACAGAGTCTCAGGCACTTGATAGCTGGAAGCCCATTCATCCTAGGATGCTGCGA
TGAAACAGGACATTGCAGGATTTCTCACAAACCTCATTCCTTATAAGAACGTTGAATCCTACCTGTGTCACTCTGAGCACTGACTTATGGCAGAAGAGCA
GTAGAGCTTGTCATGTGGACCTTCAGCTCCAAAAGAGGTATAAAGTCACCTTTTGTCTCTGTTTTCTCATCTTCCTGTCTTTCAGAGATCGAGCAGGGCA
GTTGCGGTGACCCTGGCATACCTGCATATGGCCGGAGGGAAGGCTCCCGGTTTCRCCACGGTGACACACTCAAGTTTGAGTGCCAGCCCGCCTTTGAGCT
GGTGGGACAGAAGGCAATCACATGCCAAAAGAATAACCAATGGTCGGCTAAGAAGCCAGGCTGCGTGTGTAAGTGAGCAGGGAGGAGGCCACGCCAGGGT
CTTCACTGAGAGGCAGGGGCCCGTTTCCTAGCTAATCCAGGGGCCCCGTCCCTGGGAACCTTGCAGGTTGTAACAACAGCTGCACTCTGGTTGGTTTATT
CTACTCCTCGGAACGTTGCTGGTGGGGTCCTTATTTCTGGCAGGAATGTCGACTGTAGCACTGAGAACAAGTGCTCCTGACATTTGGGGATGCTCTTCAA
CACCGTCTTACCCTTCTTGGTGATCCTTAAGAGCAAGGAGACACCACTGGGACAAAGCCCACCAGGCTCAGACCCAGACATTTCCTGCTCACCGTCATTG
CCACCCCTGACACCATCTAATCCAGCAGGGTGGAAGGGACTGTCAAGTTTGTAAGGCTGTAGACACCACCAGCCTCCAGTAACTGTGGGAAACTGGCCTT
GCCAGGATATAAACAGTTTCCTAAAATTGCTTTATCTCATATTGGATTTAGGGAGGGAAAAGGGATCAAGCTATCTTTGGACTGTTGATCTTTTGGGGAA
GGGGTTGGAGTTGAGTGCTCTGTTCTGTGGAGATAACAAAGAAGCCCTTCTTCCTTCCTCTTGGATGACCTGACCATACTTTGCAGCACAAATGATATCT
TAAATCTTCAGTCGCGTTGGGATTGGCAAGGATGAGGGGCTGTGTGTAGCCAAGGGAGGCCCAGACATGGTCTCTGTGGGAAATCAAAATTTCCAGCTTC
TCTGGGCTGTTACGTCTTCTCCCATCCCTTGTCACTCCACCTTCTCCATCTCTTTCCATGTGCTTCTCTCAGGGAAAGGCAGGCAGCCTGACCCTCAGAT
CCTTCACCCGGCTCAGTGGGTTACTTGGGGCCTCGAGTTCTGCACACTAGAGATCGGTGATCCCTCAGGGCTGGGAGAGGAATAGCCTGGGAGACTGTCA
GGGTCTCTGTGATGACTGAGAGTTTGGTGTATGAGTTGATGAGTTGGGATGAACCATGGTGATGATACTTTTTAAATGAAAAAAAAAAATCACKTTGTCC
AACAAAGCATTTTGATGACTTTTGAGTTTATTTATGTAAAAAGTCTTGAGAGGTTTAAAGATCAAGTCACCCTTAAATACACATTGAACAACTCACCCTT
ATTGAAAAAAAAATAAATTGCATGATATCTGCCCATCCCTGCTCCCCACTGTGGTTAGAATATAGAGCCCAACAGCATTAGCCACGTAGCATGCTGGGAG
CCACAAGGACCTGGAGGAGCAGGGAGCAGCTCGGGGCAGGCAAACACAAAGGCTTTGCCCATTGCAGAGACCAAGCCCAGGGACAGGTGCACGGGGCAGG
GCTCTGCAGAAGCAGGGCCTGAGAAGATAAAGGTACACACAGTGGGAGCCCCAGGTGCCATGGGGGCTTAATCTCTGAAATCCATCTAGATAAAACAAGG
CAGGGAGAAATGGAGGAGGGTCTAGCTTCTGCGACAAAGAGCTGGGAGGATTCACATGGGAAGCAAAACCAGCCAGCCTCTTAGGACCAGGATAAGATTC
ACTGTCCCCCAAGCTGAAAGAGGCAGGTAGCAGAATGCCAGCTGRGGGACTGTTGCTTGACCCCTCCAAGAGTTTACTTGGCCCTTTGGCTCTTAGGAGC
AGGTTTATAACATCCCTGTAAAACCTTCACCAAGGGCAGAAGACCTTGAAGTGCTGCCCAGCAGGCCCTTGGTGTCCACAAGCAGGGCCGGCAGCCTCCA
GTGAGCTGGGCACTGCTTGCAAACAGCTGAGAAGGAAAGAAGATAGGTCTGTCCCAACAAGTATGTGTCAGTGCTCCCTGTGGTTTGAAACAAGGATGAG
GGGTCTGAGGCTTATGGATGAAAGCTAAGCAGGTACTCTGGGGAGCTGACATGGCATTTCTTCTTCTAGACAATTCTGGGATAGAGCAGGATGACATCCC
CAGGCCCTTCCATCACTCAAGTGTGTCTGGACATTGGAGAGYAAGAGGACACAGCTTGAATCTCAGGGATGCTGGCTTCCATGGAGGAAGCCAGAGGGAG
CCAACCGGCCCCATGCCTTTGCAGCATATAGCCAGGTCACCCTTGCATTTCAACAAAGTGAGGGACTTCCATCTGCCCACTCCCTACTGAGTACCCAGCA
GGTAAGCTGATGCTTTTATAGGTCCTGGGCATTGCCCTCAGGGAGCTCATAGTCCAATTGGTGATAAGAAAGTATGGTGATAAGAAAGGCCTGGTACACT
GAGATGACTTTGGTTTCAAAATCTGAAGACCAGGTTCTTAGTTCTAGCTCAGCTTTGTGGCTAAAGCCAAGCATCTTCTCTCTGGATTTTCATGTACTGA
CCTATCCAATAGGGTAGCACTCCATTGTGGCTCCAAATATTCTAAGCCTCTATGATCATATTTRTAGAAAAAGATGACTATGACATGAATAGTCCTCACA
TTTCCCACAATAAATACCTGGAAGCTACTTTGAAAGTGGATCATTACAGAGCAGGTCATACTTCGATTGAGAGACRATGTTAAACTTTGGAGTTCTGCTC
TTAACTCTAGATCAAATATAATGTTATCAATAGAAAAGGGACAATACCTATAAACATCTATAAAAATATAAAATATAAGGTTGGTCTCTGTGTTTTACAA
AGCGCTCATAAATGTACATACAAAAGCTCCTCTAGCAAAAGTCAGCATAAGTGCCCTAAATTTTCCAATACATTAGTCACAATAAATATTAATACAATAC
TTGGCAAATAACATTGCCCTTTCCTTATTGAGAGCTATAAGGGGATTGGGGATATTATTTCAATGGCTCAAATTTATTTGAGAAGTTGTCTGAAGAGGTG
CAAAGTATTGTATTGTTCTTCTCTTGAAACATTTTCTTCAAAACAACTCTTTACTAGGGAATTACCCTGCCAAGAATACACAAATACACTCTTCCTTCAT
GTTCCAAAACATTTTCTGTAGCAAGCAGAGACTTCAGAATCATTTTGTTGGCTTTTGAGCTGCCCTCACAGTAGTRGATGCTCAATAGATAGTCTTTTTT
TAATTTAGGTTTTTAAGAAGATGATTTATCTCACAGTGAAAAACGTTTTGAAAGAAAAGGTGGAGCTAGCTTCTTTGCTCTTACTCTCTGGTCCTCAGTT
AATTCACATCTCCCGGGACCCCTGCTCAAAATCAATGGGAAGTAATACCACTTTCCATCCATTCAAGCTATTGACTGCCTGTCTTCCCTGTGCTGAGCAC
CATGCATTGGATTCAGAGTTGTTCAGTCTCTGCCTAGGAAATTGCTCATCCTGGCTGTCATGGTGGGAAAGCTTTGGCCAGGCTGCATATATTCTTTACC
TTCCAGAAGCTTTGCCATTTTACTTCCTTCCTTACAAAAGAATAGAGAGCATTTCCCATACAATCTTGTCCAGCTATTCTTCCACCACAAGAGATACAAT
GGCAAGGAAGATACAAATAACTCTGATGGTGGTTTGCACAATACTTGATGCTTTGACGACAGGCTGGCAGAATGCTTCACACTTCTTAAGGAAGCCAGGA
AACCAATTATCAATCCATTAGCAGCCACTTTCAAAAGAAGCTTCAAAACAGCCTTCACCAGAGATATGCCAAGAATGCATGAATGCACACTTTCCTTTGC
CATTTTGTAAACCACCTTAAGAAGATGTGAATCCTAATTGCTCAGTTCTTAATGTGTATAGTATATGTGTGAAATGTGAAGGCAGGAACTTCTTGGATGT
ATACGATTTAAGTTACAAATCAGCAATCTAATCTTGAGAGGTCAAGGGAGGGAAAATTGGATCCTTGGGTGCTCAGGGAAAATGTCCCAGAAGATACAAG
ACTTGAGCTGGGCTTTTGGAGAGTTGGAAGGGAAAGAGATGCTGTGGGAAATGGCCCACAGAGATGCTGTGGGAAATGGCCCTACTGGCCCTCTGCTAGT
ATCTTCCTGTCCTTTACTCTGACTTCCTCCTTACTTATCCCACCTTCTGTTCTGGTGACACAMACACACACACACACACACACACACACACACACATGCA
CGCACACATTCCGGGATGAATTGGGTAATGGGATCTGCAAGAATCTGGTCTCTCCCATGGACCATTACTCCAGAGTAGAGTTTCTCAAACTTAGCACTAT
TGATATTTTGGCCTAGATAATTCTTTTTGTGTGGGGCAGTATTGTGTATTATAGGATATTTAACACATCTCTGTCATCTACCAGTAGCACCCGCCCCACA
CACCAGCTGTGACAGCCAAAAATATCTCTAGACATTGCCAAATATTCCCTGGGGGAAAAAAATCACAGATTAAGAACGACTAGTCTAGGATAACTTAGTT
TTGTCAAATTCCAAATATGAAGAATCCTATGGATTTGTGTTTTAAGTGAGGCTATGATTAAAGTCTGTAGCATTATGACAGTGGGAAGGCATGGGTTAGA
GGAGAATGCCAATTTTATTAAATGTTCTACATTATTGGGAATATATGAGTCCTCCCTACTGTGTTATAGGGTATTTATTCTCTCAATTTATAGATTAAAA
CAAGGTTCAAAGAAATATAACTAACACGATGGTCATAGAACCACTAAATAATAGGCTGGAATTTGAGCTGTTAATTAACAGAGCAGCAATTTGCACCCAG
GTTCTTGCTGCAAGTCTTGCCCTGTCTCCATTGCACTAGATTTCTAGAAGTTTAGGGATCATCTGCAAATGTAAGGACAAGGAAGCCTTAGGATAAAAAT
ACTAGGCCAGAGTATAGAAGCAAACTGCTGGCCGAGTTACCTKTATGAAGCAACAAAGGTTGWCAGGAGTTAGACAAATCCAAGAAAGGTAGATTTGTGA
CCCTTACTGGAAATCTATCAATATTGTATACCCCCAMCATACAATATACTGGGGTTGAAACCTCTTCCTAATCTTTACATTTTCTCTGTTCCTTCTACCC
GTTCATTTATTTATCCATCTTGATTTATTGAGTACCTGCTATGTACAAAGTTAGCTGCATAAGAGGGTATGGCTGTTCCTGGTCAAATTCTAAACTGAAG
GGCCTTTGGGGATGATCCTGCTAAGGTTAAAGGGACAATCTCATGGTGTCATGCCCTATATAATGTGCTGTAACTCTATCTCTAGACGTATCTGGAGCTC
AAGGGCCAATACTTGACAGAGACTTTTGGTATGTTCTCATATTTTTCAAGTTTAAGCTAATTTAATGGTTTAAATAAATCTACAAGTTTAAATAAAGAAA
ATATTCATATTCTCTCTCCCTTAAACCAAACTGATTTCAAATTCGACCAGTCTTTTTTTATTCTTACCCATCTATACACATATGTTATGTGGTCTTCATC
AGAGTGAGCATACCATTTTGCATTCTATGTTTTAAAGCCCATATTCTGCTGTGAATCTTACCATGTTGCTACATAGTTATCATTCTTAAAAATCTGTGGG
TTCTTCTGTCAAGTGAATAAACCATGACTTATTCAACCAATTATATTTAATTATTTTATATAAGGCTATAATGAGCATCTTCAGCCTATGGCTTTTTCTT
CTCTTGAATTATTTCCTTAGAATAAATTTCTAGAATTGACATTATCCGATCAGGACATGAGTATTTTTATGACTCTTGATGCATACTGTTGCATGGTTTC
CCCAAAATATGGTGTCGGTTCATAATGCCAGTAGCAAAAGCTGTAAGATTAAGAACAAGACTCAAAACGTATGGTCTTTCCATCCAGAAACATGGCATGC
CTCTATTTCATGTTTATCTACTTTCACTTTTCTAAAGATAACAACTTTGTGGTTTTCTCGTTTAGGTCACATATATATTGCTTGTAAACTTTGTTAGCTT
CACTAAACTTCAAATATTTGTGTGGCCATTTAAAAGTTGCTAATTTAATAGCTRTAAGTTGAATCTATTTCTGTAGCACACCTTTGTGGACTACTGTGAA
GTGCCCAAKGTTAAGTGCCACGAATTCAGAGATGAATTGGGCACGGTCCGTGTCCTCAAGGAGCTCTTCTCATGTGGAGATAGACACCATTATATAAATG
AAGTGGGCCCTTGTGGCTTATAATTTAGTTTTTCAATGAGAAAACATTGATGCTATGAATATTAGGTTCATTCTTTTATTTAACACATATTTATTGAGTG
CCTGCAATGTGGTGGGCATCATAGTGGSTGCTGAACAGAAGAGCAACAGCCCCTCTTCTCATGGGGCATAGACTTGACATCTTCTCTGTTAGAATGGTTG
GGCCCGAAAGATGAGAGGCCCTGCTGGAAAAGGAGACATCCAAGAGGCAGCAGTGGGTTCTGGGAGAAGCCACTGGGTTTGGGCCTATGCAAAAGGGACA
TGTTCCGTAGATACATTGACGCACACATAAACACCCACACACACRCGCGCGCCCACACTGCAGGACTGGGTACTTGGGTTTGTAATGGTTCCTATAGGGG
TTGGCTGTTGCCTAATGGATATGAATGAAGAAGGGAGGTGGGTTTATGGGAGCACAGTCTGGAGACAGACTGCTGGGTAGCCATGGGCCAGAGACATGTC
CCTGTTGGGGTAAGAGGTATAAAAGAGGTGTCTGGAGGACTGCCAAGATTGCCATCACAGGGCACTGGATAGAGACTTCAGTCTTGGCCTTTCTTCAGCC
GACCTGGTTCCAGCCCTGTCTAGGAGGGACATGGGGCATTTGCTGTTTCCAATCCCTGTATAGTGACTACTGGTACTGACATGTGGCTACTGAGGTGTTG
GTATTCTTTCCCAATTTGAAGGCATTCTTTCTACATTGTGTATAGAAATTCTTTGTGGTATTTGATATATGTATTTTCCCAACCTCATTTTCCCTATTTA
TTTTCTATTTTTCATTGTATAGTTGTCTTACATTTCTATATAAACAAGTCTCTCAGTATTTGTGATTTATTTTCAAAGCTGACAAAGTTATTCTGCCATG
GATCTGAGAAACAGTTYGTTCTATTTTTGGTTATTTGTCAGTAATTTGATTTTTTAAAATATAATTTGTTACTCCATCTGGAGTTTACTTAGATGAATGT
ATAATATTGTCCAAACTATTATGCAGTTTTCCAACACAATTTATTAAGTAATTCATTTCCCTTTTGATTTGAGGGAAATGAATTGTTTTATTACATACTG
AATCCTCAAATGTAGTTAAGTCTATTTCTTGAGTCACCACTTTGTTCTGCTGCTCTATTTCTATCTTAGCACTGGTATTGAATAATTTTAATTGTTGTTT
TATAATGTGTTCTAATATCTGGCAGAGCTAGAAACAACTCCTTCCTCCCTGAATTATTTTCTCTTTCAGAATATTCATTGTTATTCTCATCTGTTTGTTG
TTCAAGATTAATTTTAGAATCATTTTGTCAGAGTAAAAAAAACATCCTATTGGGATTTTTGTATGTGCACKCCTGTTAAAATATAAATTAACTTGAAGAA
AATAGGCATTTTTATAATACACAGCCCTCATATCCAGACACATGTTTTTGTTCGCCTACTTCCGTCTTTCTAAATATAACAGCTCCATGGTTTTCTTCAT
ATAGGTCACATGCATTGCTTCGCATACATTGCTTGTCACCTTTATTCTTAAATAGGCAGGTACTTTTTTCATTTCTCCTCCCACCCTGACCTCAATGCCA
CATGCACAGGTGAAGCATGCTCTATTTTCCCTCCCCTCTATGGCTGAAACCTAGTGTTCCCTGTAAACATACAATCCCAGATTTTCCAGGACAAATGCAA
TTTCAAACATCATTTCCCTTGGCCCAGAAAATATGATCACAATAGCTAGAGTCCTTGGAAATTGCCTTTTTCAAATGATCAGAGCCAGAGTTGGGATCAG
CAAAGATTTAAATGCATCAGCCTCAGCATGAGGGATAATATTCCTGGGAACTGTTTGTGATTAGGCCAGGGACCGTGATCGGTGTGAGCTTCCTCTGCTT
AATGTAACATTCCCCTCATTTCTCTAGACTTCTTTCAAGGTTTCATTGACCTACAGATAGCCCCAGAAAATAAACAGGGAACTTAGGAAGTCCCAGGTCT
CCCTCCCTCTGTTATCCAGTCCTCAAGAACCTGAACACTGAAGACCTGTGGTTTCCCTTTGCTAGTGGCAGGCAGAGCAGGGGGTGCCCGCTCTGCAGAA
TTCTCCCAGTGATCTGAAGGGGACGTCGCCTTGAGTGGAAAGTCAGGGGTGGTAGCAGGATGGGGGAGGGTCTGTATCTGCTACTGTACTGGAGAATGGG
CACTAGTCATAGCTATGAAGCGTCCCAGGGCCATGGGGCAGCCTGGGAAGTGTATGCCAGAGTTGAGGGAGTCCAGGGCTGAAAGAGCTGACCCTGGATG
AAGGAATGGGTCACAAAGGAGGCTGCTGGTGTTGCCTCTCAGAATGTACAAGGAGGTGGAGTCAATTCTTGTCCTACCAGGCCAGTATGGGTCAYATCAT
TGCCTGTTACCTTTGTTTTCAAATAGGCAGATACTTTATGGGGGAAGGAAGATTCTGGATTGACTCATGTCCTCACCCAAGGGAATAGGGTGTATCCCGG
CAAAGTATATCCTTGACCCATCCAAAGGCTTCAGTCTCCAAAAAGAGACTTCAGTCTCACAGCAGAGACTAGAGAGGAAACCATGAACCAGAATAGAAGC
CCAGTCCTTGGACTGGGGCATACATATTGAAGAAGGGTTAGCAGGAGAGGGAGATCCTAAAACTGAGTGGGCCTATATGTATGCTGGGCTTCTCACAAGC
CCACCAGTTACTGGCTCTGTGCAGCCACACACATCTCACCCCAACAGTTTGTAGGACTAGAACTTCCCAAAGTACCATCATGCTTAGCTGGGCTTGGCTT
AGAATCTGGCTGTAAGAACCAAGCCCGTGGGATCCAGCTCTTCAGTGTACCTGGCCAGGGTGAAATCAGGCAGACTGAAGGGATGGCTCACGAAGGAGGC
TCCCAGCATTTCCTATCAGGATGTCCAAGGAAKTAGTCAACACTTTCCCTGCCAGGCCAGTGTGAGTCACATACATCACTTGTTTCCTTTATGCCTAAAC
AGTSAGGTACTTTATAGGAGAAGGAAGTGTCTTTGGTGGCCCTGCGTGGTCTAAAGTAGACCCAAACCCAGCTAACCATTAGAATCACTCATAGGCCTTT
TAAAATACAAAATTCTTGGCCTTGTCCCCCAAAATTCCAATTCAGTAGGTCCAAAATGGGGCCTAGGAATTGTAGTTCTAAAAAACTCCTAGATGATCTA
GACATTAGGTCATATTTCTGAACAACTAGTATGGAACACATACTGTATGCCAGTTGCTTGGGGAAAGTTTTGTGTCAGTTCTGTGAGGTTTGGTCCCTTG
AATTTGTCTCTTGAATTCCTTTCTTGAATTCCTCTGGGCTAATGGGAAGGCTTGAGCTCTTGGATTACATCATGCCAAGAGACTTTTTTCCTAGCTAATA
CTTGTGTCATGCCAAGATACATGGGGTTGTGATACATGTGGTGWTACGTTGTGTTCATATGCTGTTGCTATTAAGTTGGCCAGGCTGAGCTGCCATAACT
CAGTTATTAGGATGATTGTAGTCTCCCAGGGTCCGTGGGATGTTGACCTCCATGTTGGTATCCCATCAAGGAGTGAGATGCATGGTCCAGTACTCCCACA
TTACAACTTGATGTTTTTCATTTAATTTAAATGCAGCAAAATGTGGAAGGGAGTGGGTACTATGTACTGGCCATTACACTCAGCACCGGGCAAGTGATGA
AGATGATTCAAACATGGTTCTTGCCCTCCAAGAGCTCATAGTCTAGTGAGTAAGATAAGCRTGTGCTTTTATTTTAAAGCAGTCTCTGAATTATTGCACA
TAGATGTGGTCACAAAGTGCTACCAGAATGTAGAGGAAGAAAAATTCATTCCAACTGGCAGATTTTCAGAAGTCTTCTTGGAAGATTGTAGCACAGGCAA
AAATTTCAGTCCAATCCAACCCAGGAATCTGTCCAAAACCAAACTGTGAACACAGTTTAATCCAAGGCCCAGTTCAAAGGCCTTATTCCAGCTAAGAGTC
CTGGTCCAAGGTATATTAGGACCACAGCTACCTGCGTGGAAGAGGAACTGGGAAAACTGGTCAAGCTTTAGGAGTCTAATCCTGGGCTGTGACCTCTACT
TATAGGGGAATGAGGTATCTCTGTCATTCTCATTTCAGCTTTCACCTTTGGGATCAAGCCAACAGGCTCTGTTTTCTCTGTAAAATATCCAAAGTTGTGT
GTATGCATTCTCCACTGTGCTCTGCCATGCCTGACTCAGAGAGCTGTGGAGGCCAACAGAGTTTCCCCAGCCAGGGTCTGTTTTCACAGCTGCTGGCTCA
AAAGCTGGAGCTTGAAGTTCTATCAATACCCCAACCCTGTTCTTTGAGCCTCTTGGTGAATTTGTCATCTTACTTGAACATATGTGCATTACTATCAGCC
CTCAGTGATGTGGGTGTCCTCAGACTCTGTGGTCCTCGGGGAAGGCACTACATACCTTTTCTAGGGCTTGGCTTTCTAAGAGGGCCTTGGGTTACCCCCT
CTTGTGTTGATTGGCCCTTCCTCTAGGCCTTATGTACAAGAGCAATCTTTTGGGTGACTCAGGGGAGGTGGGTTCAGAGAAAAGGCTCCTGGCCCTAGGC
TACCTGATCAACTCTCATCTTGCTCTGGGACTTAGATCAGACTCCCCCATGGTCTTGCAGGGAGCTCCCCCAGGCTACCTGTAAACTCCCTTGGATTATC
GTGTTTCCCCTGGAAGAAAATCCAAATGTACTTCCTTGTGTCATGGAGAACAAYCAGCATGTATTGTTTTCCAGTCTTCAGTGGGTGGTGGTCTGAGGCA
TGAATGGACCATGGCAGTTCTAGACTCCTTGAGTGAGGATGCTCTGACGAACAGGCTTAGAATGCATGATGGAGCTCTCTAACAGAGCTCAGGGGCTCAA
GTGAAGAGGACAGGCCCTGAGTGCCTCAAAGACCCAGGGACCTGGGCCTACAGTCCTGAGAACATCCCCTGAGTTGTTGAAGATGTGATCCACACCCTTC
CTTGAATTCCTCTGGGCTAATGGGAAGGCTTGAGCTCTTGGATTACATCATGCCAAGATACTTTTTTCCTAGCTAATACCTGTGTCTGGCTGACCAGATT
AATAAGAGCAGCTGAAGCTAACCTTAGCTGGGCATAGAGACCATCTGGGATCTGCCCATGTAGGAAGAATAGGACGCTACGAGTATCACTCATAGGATCC
TGGGGGCTGGGTGCAGGCAGCTGTGGGATCTCACAGGAGAGAAGCACTTTTGAGTAGCCTTTGCTTGGGACATGGAAAGACTGGGTCATCAGGACTTCCA
TCTGTTCCCCAACATGTCACAGTTCCTCAGAATCTCACAGTGAGACTCAAGACTGACAGAATATCCAACACTCAAGTGAAGGGCTGTTCAGTACCAGGTA
CCCCCATGCAGCTGACAGTGCCTCTCCTTTCTAAGGTTATCTGCCCACAGATCTGCTCACAGAAGGTGCCTCACCAGGTCACAGTTGGCAGTCGAGCAGT
CAGTCATTCCTGCAAATGGGGAGTTTTGTCAGAATCTTCTGGACTTGGAGTTACCTGTTCATTCCTTGAGGAGAGGAGGGACTGAGGATCAAAGAGCAAA
CCTTTTGGCCTGGGGTCTTGCTGGATTGAGGGTGTGGTAAGGGAGAAGTGGGGAGACACCACTTTTGCTGCCTTAGTAGGCTGATTAAGACTAGGAGATA
CACCAAGCAGAAGCATGCGTGGAGACAGCCATCAGCAGCAGAGTGGGGATGTCCCTCTTGTTTCAAATTCAGCCAAAATTGAATGTATACCTTCCCTGAG
CCCAGCACAGTGCTGTGTTCCATGCCTTCACAAACTTCATTGCGTTGAGTCTTCACAACAAAGCTGTAATTTAGAAGTTATTAATCCCATTTTTATATAT
GAGGGGAAAGACTCAATGATGTAAAGTACCTGCCCTCTTCCTTCCTCCCAAATGCGTACAGCTAATAAGTGAAAAATACATGCAAACCCCCAATTTTTAG
AAGGATTCATATTTGCTCCAACTTTGGCATGGTGGCTTGGTCTGGCTACGTATATTTTCCAAAGAACTTATGGTCTGTTTTCAAGGTAAAAGCTGAGCCC
CAAGAGTGTGGACTCAGCTACTTCCCAGTAGCMTAGGGCAGGAGGCCTTTTTTGTGCTTTGTTCCATAAGGTATCAGAATCTTTCCTGTGAGCTGGGGAT
ATGAGTTCCTCAGCCAGCCACTGAGGAATGCATGAAAATCCCAGTGCAGAGCCTGGCCTTGGGAAAGACCTCTAAACATCTCAATGAAGAGGGCCTAAAG
GCCGGGGTAAGCACCTGGAATGGTTTGGTGGGGACAATGCATTATTCCARAGGTGTGGCAAGAATCAGTCATGGCCACAGGGTAATTCCAGGCAGTGGGT
AATTTCCAAAGGTTATGCTGATGAACAGTCATGTAATTTATACCAAGAACCTAGCCAACCTCTATGGGATACAGGTAACAGGGTCCAGCCATAGAGGGCA
AGAACTTAGCAATCATCAGACCCCTACCAATGAGCTTCAGTTTAGGATTCCAGTTCCAGAGGGGATTGAGTTGTGAATGAGGAACTTGAAGCAAAAGCTA
GTTTCATGAATAGCTGCTACCATGAGTAGGGTGACAATATATCCCTATTTGCTTGGGACAATCCCAGTTTACATCTTTTGTTCTAGGTAATTATCCATAG
TGCCATCTTTCATTCTCAAAACCAGTTTGGGCAATATGTTACGTGGGTACCCTAACATGCCAAAGACCTCATGCCAAGAAAGGAATTGGGCCTCAGTGAT
TGATTTGAATGCCATGCCAAGAGGGATCTGAGTCAGAGGTCTATGAGGCTATATATAGTGGTTTATCTTTTTTTTCTTACTTGTCACTGACTTGAAACTC
AAGCTCTGGGCTGGGCACAGTCGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGC
TAACACCGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAGGAG
AATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCAGAGATTGCGCCACTGCACTCTAGCCTGGGTGACAGAGAGAAACTCTGTCTCAAAAAAAAAAA
AAAAAAAAGAAAAAAAAAGAAAAGAAACTCAAGCTCTGTATGATTAACCCCTTCCTACCTCTCTCCCCSTCATCCCATGCCGCTCTTCCATCAAAACTCT
TGCCTACCTCAATGCCTTTCCACTTACAGTTCACCATGTTGGAGTGTCCCTCACAAGASTGGCTCCATCTCATCATTCCTTAACTGTCACATTCCCAGAG
AGACCATCTCTAACCACCTTATCCAGAAGAGCGATGTCACTTTTTATTTCCTTCATACCCTTTTTTATAAGTGTATTAGTCAACTTTTGCTGTGGCATCA
ACAGCCCGAAACTCTCAATGACTTGAAACAATAAATATTTATTTATTACTCATATCTCAAGAGGGTTGTAAGTCAGCTGCAGCTCTGCAGGGCTCTCCTG
GGCTCCACATAACATCTCGTTCTGGGACACAGGCTGAAGGACCACGTTGTGCCTAGAGCATGTTGTTCTCATGCCAGAAGGCAGAAGCTTCAGGGAACAG
AGCCAAACTACTCAAGTACATTTATAGCCTCTGCTTGGAAATGCCTACGTCATGTCCACTCACAATTCCGTGGGCTAAAGTAAATTGCAAGACTAAGCCC
AAAGTCAATGGGGATAGGGAAGAGAGCACCACCTCAAGAGATGTATAGCAAGGGCAAGGAGAGAACAAATGATTGTGAACAATTAGTATGATCTACCATA
ATAAGTGATGCTTATTTTATTTGTTGATTATCTGGCACCCTCACTAAACTATAAACTCCCTGAGGGCAGACCTGTATATGTCTAGTTCATTGTTGTACCA
ATCATACAGCAAATTCTTTGTAGTATTTTCCTATTTTTGTTACAATTATTATTAGTAGTGTTATATTGCTGCTATTATATAAACAAAGCCAACACAGCTG
GAGTGAGAGAGCATTTGGTTTGGAAGATGCTTGGCCACCCAGGGTCTACTGGCAGCAGGATTTTATTCCACAGCCCTCAAGCTAGTGTAGTTATAGCCAA
GAGTGGCTGAGGCCCTGAGTGCAATGAGCCTGTCATACAGACTCTATCACTGCAGCTAGGAAGGGTAAGTGGGGGAGGAGCGAACATTCTAGAAAAAGAA
AATCACTGGGGCAAAAATACAAACATGGATTAGCCTTGCACATTTGGAGAGCTGCAAGTAGTTTAATCTGACTGGAGTGTAGGGTGCAATAGGGGAGGGT
GGGGAGAGTGGAAAAATAAAAAAGATTGGCAAGGGCCTTAGGTCACTGAGAGTCTTTTGTGCCCCTACGAGGAGTCTAGACTTTATCTTCTGTGCAGCAG
GGAGTCTTTAAGAAGTCCCAAGCACGGATGTAACAGCAAAAGAATTTGTGAGTTTCAAAATTGACCCTGGAGCCGATATGGAGGATGGATTCAAAATGAG
TGAAATTTAAAATAGGACACCAGGTAGACTCTGGCAGTAGAAAGAGGGCCTCCACTTAATAGGGATGTGATGAGGATGTGACAAGTACAAGAGATACTGA
AGAGATAGAATCAACAGAAGTTAGTTACTGATTGAATATGAGAGCGAGGGAGAAGGAGTTGACATATTTTGCTTAGGCAACTGGGTGTTGTCATTCATGG
AGATAAGGAATGAAGGAGGCTTAGGAAAATAGATAAAGAGTTCAATTTTGGACATGCATTTGAGGTGCCGGTGGGATCTCCAGGAGGGATGTACATCAGA
CAGTTTTGCCTCAAGTCTGGAGTGTGGTAGGAGGGTTTGGGTTACTAGAATTTATTTTGGAGGCAGTGGCATAAAGGAAGCAAGAGTGGGGAGTGAGAAG
AGCGCCTAGGGCAAACCTATACCTGGGTGATGGAAGGGCTGAGTCATTTGTTAATGCCAGGGAACATTCCAGGTCCCAGAGAACCTTGGTTCCCTTGAGA
ACCAAGTTTGGGGAACCTTAGCCCCTGAGAATCAAGTTTGGGGAAGAAGACAAAAAGTTCAATTGTGGACATGTTTTAAGTTGCTGTGACAAAATCCAAA
CTGACTCTCATGATTTTTTTTTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGT
GTGCTGCACCCATTAACTCGTCATTTAGCTTTAGGTATATCTCCTAATGCTATCCCTCCCCACTCCCCCCACCCCACAACAGTCCCCAGATTGTGATGTT
CCCCTTCCTGTGTCCACGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGTGTTGTTTGGTTTTTTGTCCTTGYGATAGTTTACTGAGAATG
ATGATTTCCAGTTTCATCCATGTCCCTACAAAGGACATGAACTCATCACTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAA
TCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAATGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCA
TGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGGACTCTCATGATTTTTAAAAGACC
TTGCCATCCRACTCTCATAATTTTTAGAAGACCTTGTCATCCTCTTTAGTTTGTCTTGTGTTCCTTGCTCCATCTGTCACCCTGCTTCTACCTACCATGC
TGGCCTCCCTTCTGTCCCTCACATGCACCAAGCTCATTCCCACCCCAGGGCCTTTGCCCTTGTAATTCTTTCCCCCTGCAGTGAACCTTCCTTAGAATGA
TTGRTTCCTTATCATCAGACCACAGTCCAAAGGCCACCTCCTCAGACAGGCCATTCCTGCTGCCTTATTAAAAGCAGCCCACCTCTATGCCATTCATTCC
TTTTTTCGTCACCTCTTAGAATGTAAACTTCAGAGGGGCTAAGGACTTKCTTATCCATCTTGGTGGCTGCTGATCCCATACCTAGAATAGGGACAGACAC
ATAGCAGGTGCTCCGTCACTCCATCAATACTTGAGCTAGGTGGAGACATTTCAAAGACCACTGGATACACAGGTCTGGCGTTCAGAAGAAATGTCTTTCC
TGCAGGCATACACTTAGGAGTTAYGTGAGGATGAGGTGCCCTAAAGAGGACAAGCAAGTGAGAAGATGACCCTGAAATGGATCTGTTCATATTTCAAAAG
GTAAAAGCCAGGTAGAGAGGAAAGCTTTCAAATGACTGCCAAGGGACGGTCAGAGCTAGAGATGGAAAACCTGGAGAAGGTATTATGGAAGAACCAAAGT
GTCTTAGGAATGAGAGAGGGCTAGCTCTGTTGAATGCCCTTCTAATTTGTCTCAGAACACCGATGCTCAAGTTCTACCTGTCCAAGAGGTGGAAACTGGG
CAGAAAAAAAAGAAACACAAAAACTTGTGTACAAGCCAGGTGTCTAAGACCAGAGTGAGCAACATAGTGAGACCCCCCYSCCCCCGCASACACACATCTC
TTAAAAAAAAATAAAAATAATTAGTCAGACATAGTGGCACACACCTATAGTCCCAGCTACTTGGGAAGCTGAGGTGGGAGGATCACTTTTAGCCCAGGAG
TTCAGGACTACAGTGAGCTAGGATTGCACCACTGCACTGCAGCCTAGAGACAGTGAGACCCCTTTCTCTAAAAAATTGTTTAAAGAAWAAATAACTTGGG
CACAATTTATGGTTTTTGGACTGGATTATATCAAATATGAATCTAGGAGGACATACATGTGCTCAGGAAATGTGCAGCCAGTATTGCCCATTTATCCTTC
ATACTCCTTTTGGAATGTGTGTGAGTTTCTAGACTGCATCCTCAGTATTCTCCTTAGAAAGAAAGGAGCCTAAAGTTAACTTAATCTTGTTTATGATAAG
GATAAGCCCTGCCCAGTAACTAGCTTTGCCCTGATGCAGGTGACCTTGAGAAACTCACACAGTGTCTTTGGGACTAACATAGTTAAATGATAACTTTCAC
CAGGCTCTAGTGCCAGAGATGACATTAAGATAACTGAGACACAACTTTACATACACTGAGCTTCTGAGCAGAAAGAGGTGAAAGAAATTTAAGGTTGGGT
TTGTGAAGCCTCTGCCTCCAGCTCAACAATAGCTGAATCAGCAGAGCTGCCTCAGTTTACTTACCTAGATTCATACACTGAAGCAAGAACAATCTGATTG
GGCCACTTCTGCTTGGGTGAGCATTGCTGGATAAAATCACCCAACCAGACAAATTGGCACTGCTATAAATTCATGAACACCAATCTCAGTCAGGCTTACA
ACAGTGCCTAGCAATCCATCTGTGTTTCTCAAGTCATTCTCTTCTCCATTTCTCCATGGAAACTACCCCAAACATTCACTACCCTGCTCGAACCCATGAA
CAGCCCCTTCTCCTCACCTTACTCCTACCTCACAGGCAACACTCTCAATTTTCAAATACTAAAGACACCAAGCCTACAGACCAACACCCATCCTCGCCCT
TCCTCTATTCTTCCCACCTTTTATAAGAGATGATCAATCCTTTCTCCCATCARAAAACAATTTCCCTATAAATTACCCATCAAAAAATTTTTAGCATAAC
TCCATTTATGCTTTAGATAAGGAACCTTTAAAAACTTTTAACATAACAGTGAGAAATGTATTTTTACCTTGTAACTTTGTACACACTTGCACATAATTGA
AACATACATTTCACAAGCAGTACTTACCTTTACTACTTACATTGAACTCAGATATTTCCTRTGCTCTTCCTTTATTAGCCCATTCTTGCATTGTTATAAA
GAAATTTCTGAGGCTGGGTAATTTATAAAGAAAAGAGTTTGAATTTGGCTCACAGTTCTGCAGGCTGTACAGGCATGGCACCAAGATCTGTTCAGCTCCT
GATGAGGGCCTCAGGAAGCTTACAATTATGGCAGAAGGCAAAGGAGAGCCAGTGTATCACATGGCAAGAGTGGGAGCAAGATGGGGGTGGGGTAGGTGAT
AGGTACCACATTCTTTTAAACAACCAGATCTTGCATGAACTAGCAGAGCAAGGATTCACTTGTAGCCAAGGGGATGATGCTAAGCCACTCATGAAGAATC
TAACCCCATTATCCAAATACCTCCCCCCAGGCCCCATGTCCAACATTAAGGATTACATTTCAATGTGCTATTYGGAGGAGACAAATATCCAAACCATATC
ATTCTGTCCCTGGCTCCCCAAATCTCATGTCCTTTTCACATTGTAAAATACAATTATCCCTTCCCAATAGTCCCCCAAAGTCTTAACTTATTCCAGCATG
AACCCAAAAGTCCTAAGTCTAAAGGCTCATCTGAAGATGAATTCCTTCCACCTATGAGCTGGTGAGATCAAAAGCAAATTATTTACTTCCCAGATACAAT
GGTGTGCAGACATTTGGCAAACATTCTCATTCCAAAAGGGAGAAACTGGCCAAAAGAAAGGGGTAACAGGCCCCACACAGTTCTAAAACCCAGCAAGGCA
GAGATTAAATCTTAAAGATCCAACATAACCCTCGACTCCATATCCCACATCCTGGGCACATTGGTGCATGGGGTGAACTCCCAAGGCCTTGGACAGCTGT
GCCTCTGTAGCTTTGCAGAGTGCAGTCCTTGTGGCTGCTCTCATGAGTTGGACTTGAACACCTGTTGCTTTTCCAGGCTCAGGATGCAAGCTTGCCATGA
CTCTACCATTTTGGAGTCTGGAGGGTGGCAGCCCCCTTCCCACAGCTCCACCAGGCACTTCACTGGTGGGACTCTGTGTGGGGGTTCCAACCCCACATTG
CCACTCCACATCATCCTCTGAAATCTATGGAGAAATTGCCAAGCCTTCTTCATACTTGCATGCTGTGCACCCACAGGCTTAATATCGCATGAAAGCTGCT
AAGGCTTATGGCAGCTTACACTCTCCAGAGCAGCAGCCCAAGCTGTATCTGGAGCCCTTTGAGCTGTGGTTGCAGCTGGAGCAGCCAGGATGCAGGGAGC
GATGTTCTGAGGCTGCACAGGACTGCAGTGCCCCAGGCCTGGTCCCTGAAATCATTCTTTCCTCCTGGGCCTCTGGGCCTATGATGCGAGAGGCTGCTGC
AAAGATTGCTGAAATGCCGTCAAGGCCTTTTTTCCATTGTCTTGGATGTTAGCACTTGGCTCCCTTTCAGTAATGCTAATCTCTCTAGCAAGTGGTTGCT
CTACAGACTGCTTAGATTCTTTCTTTACCACAGGGYCAGGTTGCAAATTTTCCAAACTTTTGTGCTTTTCTTCTCTTTCAAATGTAAGTCCCAACTTTAA
GTCATCTCTTTGCTCCTGTTCTGATCATGAGCTGTTAGAAGCAGCCATGCTAATTCTTGAATGCTTTGCTGCTTAGAAATTTTTTCCATCAGATACCCTA
GGTCGTCACTCTTAAGTTCAAACTTGCAAAAAGCCCTAGGATATGGACTTAATGCAGCCAAGTTATTTGCTAGGGAGTAGCAAGGGTGACCTCTACACCA
ATTCCCCATAAGTTCCTCATTTCCATCTRAGACCTGTTAGCCTGGCCTTCACTGTCCCTATTTCTATCAGCATTTTGGTGACAACCTTTTAAACAGTCTC
TAAGAAATTACAAACTCTCCCTCATTTTCTTATCTTCTGAGACCTTCAAACTCTTCCAACCTATCCCTGTTACCCAGTTCCAAAGCTGCTTCCACATCAT
CAGGTATCTTATAGTAACATCCCACACCCCTGGTACCAATTTTCTGTGTTAGCCCATTCTTGTATTTCTATAAATACTTGAAGCTGGGTAATTTATAAAG
AAAAGAGGTTTGATTTGGCTCGTGGTTCTGCAGGCTGTACAGGCATGGCACCAACATCTGCTCAGCTCCTGGTGAGGGTCTCAGGAGGCTTACAATCATG
GCAGAAGGCAAAAYGGAGCCAGCGTATCATATGGTAAAAGTAGGAGCAAGGTAGGGTGGGGGCACCACACTCTTAAGAAACCAGATTTCATGTGAACTAC
CARAACAAAAATTCACTCATCACCAAGGGGATGGCGCTAAGCCATTCAAGAGGGATCTGCCCCCATGAGTCCCACCAGGCCCAACCTCAAACATTGGGGA
TTACATTTCAACCTGAGATTTGGAGGAGACAAAAAACCAAACTATATATTTTTTTGTTTGTTGTTTGTTTTGTTTCTTAACATGAAATTTATGACCAGCT
AATAACGGGTTGCAATCCACTGTTTAATACATTTAGCTATAAATTCTTCCTCACCTTTCACCTTTTCATGAATCTTATGCTTCAAATAATTCTTCCTCCT
TCTGCTAACTCTTCAGCCACTTCCCTTCTGCCAGTTGCATTCCATCAACATTGAAATTTTCTCAGGCTGCTCTCATCAAAACAAAACAAAACAAAAAACA
CCCAACTTGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCATGAGGTCGAAAGATCAAGACCATCCTGGC
CAACATGGTGAAACCCTATCTCTACTAAAAATACAAAAAAAAAAAAATTAGCTGGGCGTGGTGGCACACACCTGTATTCCCAGCTACTCAGGAGGCTGAC
ACAGGAGTGCATGAACCCAGGAGGCAGAGGTTACGGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGCAACAAAGTGAGACTCCRTCTCAATAATAA
TAATTTTAAAAAGTATCTTTCTTCACACTCTCATCTCCTTGCAGGTTCTCTAAGTCTCTTTCATACCCAAACTTCTGTAGCAGGATGTCTATGTACCCTT
GCTGTGTTCATTTCTCACCTCCCAGTACCCTGTTACCCCACTCCATTCTGATTTCTGAGTCCACCACGTCTCTGAAATTGCTCTCACAAAACTCACCAAT
GAGTCTCATGTTGCTGAAACCCAGTGGATCATTTTCAGCCTAGATGATACATGGCGCTCAGCAGTCTTTCAAAACAGATGTCCCTTCCTCCTTCTGGYAA
CCCTCTTTCCTTGTCTGTATGACACCACTCTCCTGTGTTTTCTCCTACCTCTTGACTGCTTGGTCCCTGTCTGCCCTGCCAGTCCCCTTTCTCTCAAAAA
GTTCAATGCCATCTTTTTTTTTTTTCCCAACTCAATAGCTCTGTTGTTTTAAGTTTTTGTTTTCTAATAATATTATATGTTTTTTCACCTCTTTATTAAC
CAACTTTATTTATTCTTTGTTGGTTGCCTCTTAATTTCCTTGGCCAATATTTCTATGTTGAGTGTACATCTTTCTRTCAAATTCCAATTCTTCATAGATG
AAGGATAGTAAATATYTAAATGTAGTAACTTGCACATATTTTCTCTCCATTTGTCTCTCATTATTCAGCTTTTGTTTATGGTGATTTTTGAAATCTAAAA
TCTTCCATTTCTGTAGTTTAAAATTTCCCTTATGATTTCTAATTTTGGTGTAATACTAATAAAGTCCTTCCTTGCCTCCAACATTATACAAATATTCCTT
ATATTTTCTTCTAGGACTTCTCTGGTACATGGAATGAAGTGTGGACCTAATTTTGTCATTAACTGGCTAGCCATTTGTTCTAGCATCAGGTATTGATCAA
TCAACCCTCTCTCTGCTAATTTSAAAAGCCCCCTTTATCATATATTTTTGGTTCCTTTTCTGGACTTTCTTTTCCAGCTCTGTTGATCTCTCTTTTGAAG
TCAATATAGTATAAATTATATTATTACAGCTTTATAATATGTTTTAGTATTTAATATCTGGGTTGTCAAGCCCTTCCTCCTCTGGGAGGAAGTAGGTGTC
GTGGTCAAGAGCTTGAGCTCTGGTACTGGCCTGACTGGTTCATCTTCCCAGCTCTATCATCTACAGTGACTGTATGACCATGGGCAGATTAATTTAACAT
TTGGACTCAGCGTCTGTCTCTGTAAAGTAGGTTAATAATAGTACCTATCTCAGAGGGTTGCTGTGAGAGTTAATGAGTTGAGATACAGGAAGCTCTCAGA
ATGCCAACTAGCACCTTATATGCTATTATTCCTTATCTGTCTCAAGGAGAGCTCGGCTGTTTTCACCTGTTTACCAACAGATGGATCTTGCAATGGTTTT
AAGTTCCAGAAAAAAAAAAGATCTGGCCTGGAATTGTGTTAAATTTGTACCATGATTTAGGACACTTTTCATCTTAGTAATATGAATTATTTTCAACCAG
GAACATAGTTTGCCTCTCCATTAAAAATTTTTTTTCTTCCTATCAGTACAGTTTTGTTGTTTTTGTTGTGTAGGTCATGTTGGCTTATTGTTGTAGGGCT
GAATTTGATTTTCTAGCACTTTGCATGAAGGATTTTCTATACTGTAGGTGTRTCATTGTGTTGGTGGATATGATTGTGTGTGTATCATACATATCATTGT
TATGGGAGTATTGTATCAAAATCAATTTAAATAGCATGGCTATTACAAGTTTGTTTATAGTTTTGAAGCACTGGCCATGAAACCACCTACCCACTAAGTA
TTTTCCAGTTTCCTCAGGTTTTTCCCTTCATGCTAATTTTGGTAATTCAAATTTCTCTAGGAAATGCTCCATCTTATCCATATTTCATATGTTATGTATA
CTATTCTTTTATAGTTGGATTATCACCTTAGTGTTATTATAGCCTCCTATCCCTATGTATATTTATCTTTTCTATTTCTACTTATTGAGCAAACCAATCA
GAAATTTTTATTGATCTCTTCAGAAGCCAATTTTTTTTTCTGTTTTTGTCTTTTCTAAGTTTATTCTCTCTTCTCTCCTTAATCATGTTCAGTTATTCTT
TTGGTAACTTTTTAAGTATAAACACTAATTGCACTTATTTTATTTCTTTATTGTTTAATCATGAATAAAGCTATGAATTTTCTCCTTACTACAGCTTTGG
TCTAGTATCATCATCATTATAAGAAGTCTGTATTGGCYGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGA
GGTCAGGAGATCGAGACCATCCTGGCTAACACGGCGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGAGGTGGCAGGTGCCTGTAGTCC
MAGCTACTCGGGATGCTGAGGCARGAGAATGGCGTGAACCTGGGGGGGYGGAGCCTGCAGTGAGCCGAGATCAGGCCACTGCACTCCAGCCTGGGTGACA
GCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGAAGTCTGTATTGATAGCTTTGTTTTCCTCATTGAGCTCAGGAACTTATTTGGAAAGAGT
TTTATGAATTTTTAAGTGATTATGGATTTTTCTTTGTTCTTTTCTTATTGATGTCTAGTTTATTTGTACTGTGAACAGAAAATGTGGCCCAACAGTTTTT
GCATTGTGATAGAATTTATGGGGATTTTCTTATAGCCTAMTGTAAGGTCAATTTTGTAATAGTCCATGGGCACCTGTAAAGAAGTTTGCATTCCTTGTTT
GAAGACTACAGAGTTTCATATAATATACACACTCATAATATTTTCAGATCCTTTTTATCTTGATCTTGATTTCAGGGTAGTATATTTTATTTTGTCTCTT
TCATGCTTTTGGACATAAAGTATTATAACWGTCATATCTTTATTTTGTAATGGGCTCATTATCCATGTTTTAAATATGATATTTGGATTTTGTATTAGGT
CTCTATAAAGGACTACTGAAAACTCTCTTTGTTTGGTGACAACACCAAAAGAAAAACATAATAAAAGAGGGGTCTTCAACAAGCCCCTTTTATTTTCTAC
TCAAGCTCATGTTAAATAATAACCTAATATAATGCACAGTAATTACACATCTACCTGTTAATAWGTTTYCCACCTTTATTATTTGTCAACAGTCTGACGC
TTCTGACTTAAAAGTTTAGTCGACATCAAGATCCATGAGCACAGYCTGGTCACTACTCTGAAGGAGGAAGGTGCCTGATCTCCTTCTTTTAACCTGGGTG
ATTGAGGGTGATGAGATCCAATTACAACTTTTTAAAAATCCCTCATTTGCGACACTGAGAAGTAGGCTCTTCCTATTCTCTTACAGAAATATTACAATAC
AACATGCATACATAATTTTCCAGAGCAAGAAAGATTAGATCTTTGTAAGACAACGCACACTTCCTCTTCCTGCCCTTGTTGCAACAAGTCTGAGTACTCT
TTTGAGATGGAAGACAGAGCTTTATAAGGCCACATTCTTGTTCTAAGAGTGTCAGTTTATCAGCCCTGTCTCCTTCCAGGTATAATAAGAAATGCCTCTT
GGTAGCTGTCCAGAAAACTCTTGGCATAAGAAAAGGATCATCCAAGAGTCAGGTGTAATATAATATCCAAGGATCAGATATTAATATTAAAATTCCTTTT
TTGTTGTTCACATTTGCCTCCACCAGTAGTTCTCAAACCCTGGCTGCAATTTGGGATCACCTGGGGAACTTTTTAAAATCGGTGATGCCCTGAGCCCAGT
CCACCAATTAAATAGGAATATTTGAGACTTATAYTGATAAATTACARCACTCTTCTAATGTAAAGCCTGAGCTATCTTGGCCCATTCCTTTACTTTTGAG
TATTCAGAGTCACTTTGTCTTAGCTGTGTGTTTTGTCCCAAAGAGAGGGTTGTATATTACTGGGAGATTAACCTGTATACATTTATTGTCATAACYGATG
TTTTATCTTTTTTAAAGCATCTTACGTTACAACCCCCCTACCCCATGCTTCCTTGTTGTTTCCTTTGAATTTCTTTTTTCCTCCCTGAACTACTTTGCTT
TTTCCCCTTTGGTAATTTTGAAGAYAAGCTATTTCATATTCTATTACTAATTACACYTAACATCTTTAAAAGCATGCTCCAACCTATATTTCTCTAATTA
ACCACAGAAACTACAAAACAGGATTTCTTGCAAGATGAGCAAATTAGCATATCTCCTTGCTCCAACTTTACTCTTTGTGTCAGTAGAATCTGGAATRTTC
TACCCTAGAGTTTGGGCAGGAATAACGTCTTATATTTTCTGTTCCAAGGAATATTTGTTACGCTTGCATTTCATTTTATAACTATGTTTACATAAATTAT
TTAAATTCATTACCATATTGGTTTATTTGCTCATTGTCAATCTTTTTTTATGCTTTTTGTTAACCTCAACTTTATCCTACTTGAGTTTGTTGTTTAAATT
CATCTCTTGGTTGGATAGGAGACATCTTTGAGTGGATGTGAGTAGGACATGTTTTGAGGCCTTTGATATTTAAGAGCAGCTTTCTGTTGCCTTTGCTGTT
TAACAACTTGGCTCATTCATACCCTTTTCCACTGTAAATTATCTAGGGACACATCTGTACTATGTCTAAGATAAATACATGCAGGGTTACAGCACAGTAT
GTTTCTCTGTTTTCCAGAGTTGACACAGGTATCCATCTATTAATATTTGTACAGACTTTGGTCAATCTGTTGGTCGAGGTTTGGAGTGGGATGGGGTTAT
GAGACCCACATGTTCATGTCACCTTCTTTCAGAATGGTTTCAACCATTAGGTACTCATTGATTCATTCAGCAAATATTGGTTGAGCACCTACAATGTGTC
AGGCATTGTGGGAGCCACTAGGGATTCAGCAGAATCAGATGAGATTTCTGCTGTCATGGAAGATCTGTGTATGTGTTGGGGAGAGGGAAGGACTGACCAT
CAACAGCTAAACATGTAAACAAGATAATTTTAGAGAATGATAAGCAGAGCTATCATATATAGCTGCTCAAATTCCAAAATGGTGCCCCTGGAGCTTTGCA
ACATGACAATCCTGGTTAAAGGTTCTAGAGAAAAAATAATACACTGATAGAGTGATGGAGGTGGGGAGAGGGTCTCAGGCCTTATTAATTAAATAGTCCT
CTGCAGCAAATTTATTTGCTCACATACTCACAGTGCCCCTGACCATCTTCCCTCTGAAACTTTAGCACCTTTCTTTGTCTTCATCTGCCTTGGACTTGCT
CAGCAGGCCCTGTGACTTGCCCCCTCTGCCTTCAAGGTCTTTGCCTTTGGGTTTTGATTCCTCATTATTTGCATTATGTTCCCAACTGAACTCCCACAAA
GCTGGAGACAAGATGGCTGTGTGGGGGCATSCATGTCCAGCCTAGAGACTCCCAATTCAGTGCTAATGTAATATTTCAAGTCGACAGATGAATCTTCAGC
AGATTTGAGGAACGCCTTCTAAGACTCCACGGTCACATAGGCCCAGGGGGAAGTGTYATTCTCATACTGAGAGACATGGTGGGGGGTTAGTAAGAGCTTG
GTCTCTAGAATYAGGCTGCAYTGATTTGGCTTTGGCGCTACCATTTACTGGCCCTGCATTACTTAACCTCTGTGTGCCTCAGTGTCTTCATCTTTAAATG
GGGTTAATAACAATACCTACCTCGTAGCATTATAGTGACAGTTAAATTGAGCAAGTGATGGAAGTGCTTAGAATGGTGTCTACTCTTAGTTAAACCCTCA
ATAATATATAATAATAATTGCCATTAACTATATATTACATTACCTAAAAGCCTTTTCATGTCCTTCTCTCCCCTTGGCTCGAATTCTTTCTATACTTAAA
ATATACATGGATTACAGGGATGAGACTGAATGTGTCTTAAGAACCAGGCTTACTTTGCTGAATTGCATGGGAGGGCTTTTACAGCTGCAGACTGGAAAAG
AAATACTTAATGCAGAAAATGGGGAGCTGGGCAGAGTCAGGGAGAATCAAGACTAAACTCATCACAAGGAGTCACCAATTTTTTTGTTTTAATGTTTTCC
CCCCTTTGGCAAACATGATTTTATTATTTTTCATCTTAGCATCATTACCTTTAGTAAGTCAAATATTTTACTCACTTAAATATCAATTTAATTAACACCA
AACATCTATATAAATGTTATAAATGGACTTAAATGTTTATCCATATTTGGAACTACCTTTTTTATGCTTGTATATATTAAAAGATGTTTAGAATGAACCT
ACAGCATTTTTGCAATCAGAAAAATTAAATGTTGTTTCATTTTGAACGCCTRCGACCCTGATATAGTTTTTATTTGGGGGCTTATGTCCAGTCTTTATCC
ATWTATAAACAAATATTTAATAGCTATAATCAAAAGCATGCATATAATTTTATGATCTACTGCTTTATTTAAAATTATGTTTAACATTCTTTCTACAGGG
TCWTATTTATCACTTTAATGATTGCAGTCAAACTGTATCACATTAAAGGCTATAATTTACCTCACATTATTGGGCTGACATATAGTTTGTTCACATTTTT
CCTCTATAATAAAATTATGTCATTGTAAACATCTTTGGCTAGGTGGCTCTTTTTCTTTTGAATTAATTCCTAGAGATTACTGAGTCAGTCTTTGAGTAGT
TYTGTGGCTCTGGATGCGAACTTACATACTCCCTTCAAAAAGGATCATATCAGTTTTGCTCTGCAATTGGCAATAAATGCATGTATGAGATTCCATGAAG
CCTCAACAATATTGSATTCTATATTTTTTCTTTATTTTTTCTATTGAAATGGACTGTGTTGTCATATTAATTCTATTTTCTTTCATATGAATCCTCTAAG
CACTCTCTTTACTCATCTTAGTGATGTTCTTAGATAATTATAAAGGTTCTAATTCAATATTGATATTTTTCCTGTGTCATAAGCGTTGTGATTATTTTTT
TCATTTTATTATTTTCTTTTATAATTTTGTTTTAGTATTTATTTGTTTTCTCATTTACAGCACTTTCTTTGCCTATTCTTATTCCAGGGTCTGCTACTAG
TTGGCATGAAAATAGCTTAAAATAAGGGTTTTTGGAAGGGTGGATCYTTAGGGTGAAATAGGGGAGAGAGAACAGGACGTGGACAGGGATCACAATGGAT
GCTGTCACCTCCCTCCCCCAGTTTCTTCAGAAGCTTTGGTCTCTGAAAGATGGTGCTCCTGGCACCTCTTTAGCATAGTGTGGCATCTTGGGGTTGTCAG
AATCCCATGGCACACCTATCATTTTTCCATCAAAAATGTTTGAAGGAGACAAATGGTCCTGGGCTGTCTCCACCCGGTTACCGCCTGGGGAATTAGCACT
GCTGTGTCATTAAGCAATGTCCTTTCCTACTGCTGTAAACCCAGCTGAGAGGGGTCAGGGACTGTGACTCTACACTTAGGCTTGAGTTGTGGCTTTGCCC
CACCCAAGGGACCCAAAGCACGAAGACGCAGTGTTTCACATCCAGACACATCCAATCTGTAAATACTCAAAAAATGGGAGAGGTCAAAGGAGAGATGTTA
ACCACTACCCAAAATCCCCCAGCCAGAAATGATCCTTGCCAACAATTGGTGGACACTATTACAGATATCACATAGTTTTCTATGCATTTATACAAATAGA
CAGTTGGATGGATTGATAGAAATAATTTTTAAAAATCTGGGCCGCATCCTAGGTGRGCGTGCTGACCAGGGGAGAGGGGCCAAGAGAAGACCAGTTCTGC
CATGTCTGCCTTTTGCCAAAGGGGCCCTACCCATTGCTAAGTCCAGCATGGAGCCCAGCATGTCTCCCCACCTGGAGCTCAGAGCCCAGCCAGTCCAGCC
CAACCCTTGTGCCACTCTTTCTTTCTGTTGCTTTTTAGACTAAGAAGATGTTCCCCCTGCCAGCCCTCAGTGGTGCAGGCAGAATGTTGGGGATGCTTAC
TGACCTCCACTGCTCTTCTCTTGCAGTCTCCTGCTTCTTCAACTTCACCAGCCCGTCTGGGGTTGTCCTGTCTCCCAACTACCCAGAGGACTATGGCAAC
CACCTCCACTGTGTCTGGCTCATCCTGGCCAGGCCTGAGAGCCGCATCCACCTGGCCTTCAACGACATTGACGTGGAGCCTCAGTTTGATTTCCTGGTCA
TCAAGGATGGGGCCACCGCCGAGGCGCCCGTCCTGGGCACCTTCTCAGGAAACCAGCTTCCCTCCTCCATCACAAGCAGTGGCCACGTGGCCCGTCTCGA
GTTCCAGACTGACCACTCCACAGGGAAGAGGGGCTTCAACATCACTTTTACCAGTGAGTCCTCCCTCTGTCACCAGCTGGCCCTCCATCTGAGTGTCTGC
CTCTGAGGATGATCGAAGGTGCTCCCATGGAGGGAGGAGGAGGTGTGGATGGGGCAGTTCCCAGGGCATTGCAGGGCTGCAGTGCCCAGTCATGGAGCTC
CCAGCATGACCAAGAAAGGGCATAAAGCACTGGCTGCCAGGCAGGGTGCTCTTTTCTGGAAGTCCCTCTCTGAAGGGCATTTATCTCCCATAGTTGTGAT
ATATAATGTAAAAGGAACCTGGAACCTCATTTTTGCCCCAACCTTCCCCATCCTACAAGACCCAACCAGAACTAGGGAGGGCCCAAGAGAAAGAAAGCCT
CTATCATTCTCATTGGTTTCTGATGCCCTCTCTGAGGTGCTCTCCGAAATCCCTGAATGCCTGCCTGCTGCTGACCTCTGAGTTCGTGCCGGGGCTGCTC
ACTTTGCTTTGCCCAGTTCCCATTCCCATAGTCAMATCAGAATCAAAGCTTTGGAGCAACACTTCTGTTGGGCTCCCAGACTTACTGGGGACAACTCTTA
GGGAATTTCCTCATAGCCCCTCTGAGGGCCACCATCTGAAAGTTGCCACCTCCAGTTTCAATCCTGGGCCCCTTCTCTAGAAGCAGCCTAAACTCAGCAG
TGATTATTTTTATTTCTGTATCTCGTGGTTACAGAGGGGGTTGGGGGGGGGGCGGGCAGAAGCTTGGTGACTAGAAATAGCAAGCCACCAAAGATAGCAA
GAAGTGGTTATCAGGTCGTAAGAAGCTATAAATCCAGTGGACTTGGCTGATGACAAACAGTCAAGTGAGGCTGGAGGTGGGTCCATCTGAGCAATTAACT
AGATCCTTTCCCAGAGGCTGCTTGTGAAGGGCGAGTCCCCAGTGCAAGCTCTGCTCCATGCCCACAAACACTGATCTCCCAACCCCCATTCCCACCGTTG
GCATAAAGGCCTTGCCTCCGTTTTCCACCTATCTCTGGAGTCCAGTTGGACTGAAGACATTAGATGCTACCTGGTGGGCCATTTGGGTCCCCCGATTCCA
AGAGACCAGCCAGGTAAAGCCCATTCCATTCCCCTCACCACTCTTGTTTAGGACACAATCAACCTTCTCAGGGCATGTCTCCTCCAGGGGATTCCTGTTT
CATCTGCTGTGGGCAGGAAGAAGCAGGGGGAGATCCTAGTTCTGTCTTTCCTAACCCTAGTCTAGCACTGACCATGCTGCTTCACACTAGAAAGGAGCGA
GTATGCTTTCCTTATCTTTATATCCCTTGGCCCCGCACAGGGCCTGGTGTGTGCTAAGGATCAGCAAATGTTTACGGAATGGAAGGATCCATGAATGAGT
AAATGCTTTCTCTTGCCCTGGCGGAGTAGGAAGAACAAGGATAAAAGGTATCCTGGGGAGCACAYTTATCCAGGATGGTGAGGGCCAAGAAGTCATGTGG
GTTTGCAGCATGTGTGGACACTGAGTGGGAACTTGGGAGGAGGAGGCAGCTGATGGCCCAGGGGCTGAGCTTCATCATGACGGCAGCAGACTAACCTGAG
GATAGCTCTTACTTGTATTTCTTTCCAAGGTTTCTCTACCATTGTAAAAATGATACACATCCAATCTGTAAATACTCAAAAAATGGGAGAGGTCAAAGGA
GAGATGTTAACCACTACCCAAAATCCCCCAGCCAGAAATGATYCTTGCCAACAATTGGTGGACACTATTACAGATATCACATAGTTTTCTATGCATTTAT
ACAAATAGACAGTTGGATGGATTGATAGAAATAATTTTTAAAAATCTGGGCCGCATCCTAGACCTGCTGAATTAGAATCACTAAAGGGATGGGGCCCCAG
AATCTACATTTTTGGTAGGCTTCTGAGGCGATCGGATGCAGTCAGTGAAACAATCSTCCATGGCCAAGTGTCAGGGAATTAGTGTAGTCTCTCCCATAGG
AYTTTAATCTCCTCCTACATCCCAACTGATGATCACTGAGGCTGAGCTTGARTTTGCCCAGTGTCAGGGAGCTYGCCTCCCCAGACAGCTCTCTCCATAG
CTAGCAGGCACTCTAGATTTCAAGTCAACTTATGTTGACTTGAAATCTGTGTCCCTGTAACAAGGATCAGTGGTCCCACTTCCACCCCTAGAACTCCCGG
TAACAAGGCTAATTCCTCTTCCACATGGAACATAATGAACAACAATGACAGTAGCTGCCATCCATTAAGCACCTCCTGTGGGCTGAACCTGGTGCTGAGC
ACTCAACAGTCATCACTGGAAGCCTCACAACAAAAACTCCATAAAGCAAGATCTACCCCTTTCACATGCCAGAAAACTGAGGTTTGGAAAGGTACACAGG
GAGAAGTGGGTCCTTGACTCAGAGCTTTTGCTCCCAGATGTTGGAAATAACTCCATATTCCTGCTATGTGCATTTGCGCTTGTGTGTGTGCGCATGCACG
CGCGCGCGTGTATGTGTGTGTTCATATGTGGGTGTATGTATCTGTGCCTACATGTGTATGACTGATGCATTTGAAAGAAAAATGCCTGGACTTCTGGGCC
CCAAGCATCATTTTTTTTCCCACACCATATTTCTAAATGTCAGGGTGACTTCGTGGTCATAGTTTCCAACGAAGAAAGGTTGGGAGACTCAAGTCTGGGC
TGACCTAAGCGTTCAAATGGAAGGGTGTTGGGCACTCAACTGAAGCCCTGCATGGGATCATCACAGTCATCTCCACATCAGAGGCTCCCTTACCTCATCT
GCAATGGGAAGGGTCAGGTTTGCAGGCCTCTTGCCTCTAGCAAGATCCAGCAGCCCCTAGGGCCACTGCTGTTTCTGAATGTGCAAATGTTTCTATCACT
AGGGAATTTCAGAGGCCAAGAAATTTTTTTTTCAAGTGGCCCATACCCATGCAGCCATGGATCCTGGTCTCCACTGGAAAGCTGCCATCCTCAGAACAAC
AGGGGTGAAAATAGAGCCTGGCTTCGGAGACATTTAGTAAGAGAACTGTGAYGCCCCTGCTGGAGGAAGGCAGGGAACATGCTTGGTAGAGACTGAGCAG
GAAAGAGTATCTTCCCATGCAGAGGAGGGAAGAAGGAAGGGAACTCATCTTCAGTGAGCACTTACCATCTGTCACGTGCCGCACCGAACAATTGCCACTC
TCATATTCACATCAACTTTCATTTTATTTCTATCTCAGAATGACCCTGCAAGTGAAGGATGATCTCCATATTATCAGTCAGGAAACTAAGGCTCATCAGA
ATTGCATAAGTTGTCCAGGACCATGTAACGAATAAAAGGCAAAGCATGATTAAATCTACAGCGTTCTGACTCTGTCCTCTCCCCACTCTGCATTATCAAT
TGCCTGGGTAGAGTGAGAGGCAGCCCTGACAATAGGCAAGGAAATAAAGGAAATAGCTTCAGACAGGGTTAATTCTAGGGCACCTCCTTTATGATGCTTA
GAGTCTATTAGCGTCACAGAATTTAGAGTCCAGCTCACCTCAAGCAGAAATGATCCCATAACTGTCTGAAGTTAGGGAATCTTGGAATGGATTTGACATT
GAGGAGACAGATCAGCTCATTAACCACACTGAGCCTCAGTTTCCTCATTTGTAAAGTAGGGTAACAAGAGCTACTTCATAGAATCATTATGTGGTGTAAA
TGAGCTAACAGCAGAAACACTTAGCTTATTGCCTGATCTATAAATGTCCATTAGAATGCAGTGGGATTAGGTGCTCGGGAAGGCAGGAAATCAAGTTTAA
TGAGCACCTGCTTAATGCCGAGGTCCTAGAATGCCTAGCTCTCCCRCCAACATGGCAAGTTCTTGGGGAGGTGGTGGAGTTCTAGGGTTTCCCATCCCAA
GGAAGCTAATTTTCTTTAGGGATTCTTCTCTACTCCAGCAATGTCTGATCATGTCCTTGAACTCCATCTACACAGCCTTCCGACACAACGAGTGCCCGGA
TCCTGGCGTTCCAGTAAATGGCAAACGGTTTGGGGACAGCCTCCAGCTGGGCAGCTCCATCTCCTTCCTCTGTGATGAAGGCTTCCTTGGGACTCAGGGC
TCAGAGACCATCACCTGCGTCCTGAAGGAGGGCAGCGTGGTCTGGAACAGCGCTGTGCTGCGGTGTGAAGGTACGAGCCTGCAGGCTGGGAGCAGTGGCC
ATTGTCAGCCAGAGAGGCTGGGGAGGGGGAGCAAGCAGCCCAGGCCATGGTGGTTCCTTTCTGCGTTGGTCCTTCCTCTTCTCCCAGAACGAAGGGCCAC
TCTCTCACCCTCATGCTGGAATAGCAGGGGCTTCATAAGGCCACTGTGCGTAGGAATTTAAATTATAACCAGAGATTAAAGTAGAGAAACGGCTCTGGAT
TGTCAGGYATCAAAAGCACCTCTTCTTTCAAATGAGAACTCTCTTCGGTATCACAGCCATTAAGATCCCTGTTTCCAGCTCCTGCCCAGGGGAGCTCCGG
CAGCCCAAAGTAGCATTGGCAGCGCTGCGAGTTTTCGGGTCTTTCAAGCTGCCTGTCACTCTTTCCTTCTCCACATGTTTATTTTCCCCAATTCCCTGGG
ATGTCTCCCAGTCTCGGCCTTTGTGCCCTGTTAAATGCTGACTTTATATCCTTGTGGTCAGTCTCCAGGAGACTCAGGGCCAACCAGCCAGAAGAAACAC
AGCTTGCAGCAGGCACACGGCTGATGATGGCAGTTCTTCAGTCCTGCCTCGCCACACAAGACAGTTTTTGACTCAATTTTCAAGACCAGCCATCTGTTCC
ACCAAACTACAGACATTTAAAATACAGATAAAGCTTCTTGAGGCAGGAGTCAGGTTAAATTTGTGTACCAAGCATGGTGTACCAAGCATTTGTGCACCAG
GCAAATTTGTGTACCAAGCATTGTGTACCAACCGTGGTACCTGGCACGGAATAGGTGCTTAATAAATATTTGTGAATAATGGATGAATAGTGAGTATCCC
AAGGGCCCCTTGGGGAAACTGACAGTATCCAAGSAGACGAAGGCTGTGATTCTCTCCTTTTAGGAGGCAGAAACCTTCTTCTCACATTTCATGTGATAGA
AAGAGGATAGAGACTTAAGAGACCTCTTGACTTAACCCAATTCCTAAACTCAAATCTGGGCATAGTGGCCATGAACAGGAAGGACAGGAGAATGAAGAAG
GGAGCATGCCTGAGAGAGAGTRTTACCCAGAGCTTACAAATGGCTCGATGGGAGACAAGGGACCACTGAGAACACTGGAGGTGGCAAGCAGTCCAGGTGG
GCATTTGAGTGAGAGGGGCCCAAGCTGGGATCCTGGCAATTCACTTTTCCCCTTGAGCCTTTGTATTTTCCAGCTGGAAAAAAAAGGAGGGATAATGATA
ATTATCAGATGTGTATGGAGTAGGCAGTCCTGGTATAAAGTAAGTCCTCATAAGCTGCGCCTTCACTGTCACGTAAACTCCATGAGGTTAGGGAATCTTC
CTTGGCCTCATATTCCCACAGCTGGTGTGTTGTTTGATACTTGGTAGATGCTCAATCAATACTGGTTGATGAGTCACCGAATAAATGAATGAATGAATGG
CCTTTTAACTAGGCTAGAGCCTCCCTAATGAGACGCATATCAATGAAAGGCCTCCAGAGCCCCGACTCTCACCAGACTGCCTGCTGTCTCCACCCTGCAA
CTTATCATCCAAGCCACCCTGGGGAAGTAACTTGACCTCTCTGTGCCTCAGTTGCCCCACTGTAAAATGCAGGTTGATAATGGGAACCCGCTTGAAGAGT
TGTCTTGAGCATGCACAGTTCTTGGAGCAGTGCCTGGTGAGAGGTAACACTCAATAAGTGTTGGCCATTAGCGTTAACTTGATTTTAACTATTTCTTCAT
TGGACCAACCAGATCAATATTTGCTCCACTTTGGGGGATCAAGTGGTGCGTTTCCATCCTTCCAGGAACTTGCCCCAACCGTGACATGAATAGAYATTTT
TTTCTGACTTCCAAACTTCCCGCAGTGTGGTCTGTACAACCTCATCTGCCATTCTTCCTCAGTGCAATCAGCACTTTTGGAAAGAACAGAAGCTTTGGAG
TTAGAGAAACAACACGAAACTCAGTCTCCATGCTTCCCAGCTGTAGAATTAATGGGCTTAGGTTAAGTAACTAGACCTAGACCTCAGGTCCCTCACTGGC
AACAGGGGAATAAGTATGCATATCTGATGGAGTTMTTTGCTGGTGAAACAGGTCACCGTACAAAGCATCCATGCAGAACCCAGTCTGGAGGGTTGTGAAT
CGGTGGTCTTTCACCTTCCTACAGACCAGCCCCCTCATTTTCCCTTGCACTCATTGACCACTTCTAATTTCTTTAGTTTTCGTTGTGTTGGTTCATATCT
CTGAGATCTTCCCTGCTGTCTCTAGCTCACCTGATCTCTTCCTTCTCCTAATTTCTATTATTTTTCATGGGCCACCACCACTGGACCACTTTCTTGGATA
CTGGTTCTTACCATTATTACATTTACCAGTTCCACAGGCCTTGGTCCTGTCTGCCCAACAAGACTGTGAGTGGTCTCAGGGCAGAAGGCCAGATTCCCAT
TGCCCCTGAGCCTGCAGGGGCTTAGTCCCAAATTAGTTGACTGCTCTGAGGAACCCTCAGGAATTAGTAACTGCACAATCCTCCTCTCCACCTGCCACCC
TCCTGAATCAAGTGCTCTTAGACTTTAGCTCTGCGATGCATTGAAACCYTCAAGGCCATGTATGAACACATGAGATAATTTGACCTTTGTTAATGGATCT
TCAAGTGGCTCACTATTTTTTTTTTTTCTTTGAGACGGAGTCTTGCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAAGCTCCACC
TCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCACCACCACACCCAGCTAATTTTTTGTATTTTCAGTAGAGA
CAGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCACCCACCTCAGCCTCCCGCGGCTCACTATTTCATAAGCAAGGTCTTC
ATTTTAAAGTTAAAAAGGTCTTTTTCATTCTGTCCCTGGAGGGGGAAATGCTGTAGGGTTGGGGCAGTAGGCACTAGAAGTAAGGGACAGTCTATTGGAG
ACCCTGACCCCAGGGAGAGCCCGCTCGGTTTTCTCAGAGCGATGGGCATTTGATGCCAGCCTGGTTTTCAGGGATCTGGGAAGTTGCATGCCAGGCAGAG
TGTGAGAGCCTGATGCCACTTAGGGTGGCTGAATCCCAGCCTTAAAACCTTAGACAGAGCTGGCTAAAGAAGCCCCTGGGAACCTGTCCCTTCTTGGCTC
CTCTCCCTCCTTTTGTCTGAGCCTTGGTAGAGCTCTGCTTTGCAATCAGCATCTTTGTCTTTTCCGTTTTTTTTCTAGTTTTGTTTTTGATTAAGTGTCC
CCACCTTGTGGACAATTAAATGCAGAAGCTAATGGTCTTTTAGAAAATCTTTTAATATATGCTAAGAGCCACTTAGCTTTTGAGAGGCTATAATAGGACA
AGAGAGACGATGGCTTCTCCTAAATTTAGAAAGAAGGATGATTATCTGGAGGATCTAAAGCAGGGGTCGGCAAACTTTTTCTTAAAGGGCCAGAGAGGAA
GTATTTTCGACTGTGTGGGCTATAACTCTGCTGTCCTAATGCAACAGCAGCCTTAGACAATACGGAAGTGAATGGGCTAGATTGACCAAGTCTGTGATCT
TGAGTTCACAGGACACAGGAGTCCCTTAGGTGTAAAATCAGAAATTTCCCAAGAAAGACTTCCGGGTAGTGAAGGCAGCTACACCGGCGTACCTGCCTGA
CTTTCTCTCCCCTACACTTACCTCTTCCTTGTCTCTTTAAAGGAAAAATAATCATACCCCACTAGGATAAGTGTCTTACAGTGTCACCTCATTTCAACCT
TGCACCAGTCCTAGGAAATAGATGTCGTTATTGTCCCTGCTAGGACACAGACAGGTTAAGTCACCTGCGTAGGATCTTCCCAGCTTGTAAATGATGGAGC
CAGAATTCAAATCCAGACTCTTGGCTACCCTGTTACTGTATTTTTCTTGAATTATATCACTGAAGAGAATATAGTTTCCAACACCTCTATGAAAGACTTA
AAAGCATCTCCAAATAGAACGAAAAGCAGGATTTCTACTTTCGACATCCCCGTAGAAAATTAAAAGGAAATACATTGCCTAATGCATAAGACAAAGAAGA
CAGGACATCACATGGAGACATCGGAAATTGACAGCATGAAACAAAATGACAGCAGAAGACAAACATATCAGTTATGATAATAAAAGTAATTAAACTCCCT
ATTAAAAGACAAAGAGCTGAGCTTTAAGAATATTCTGCTTACAAGAAATACACACAAAAAAAGATAAATTATCTACAGTGAGTGTGTATTTTCTTTTTTC
TTTTTCTTTTTTCTTTTTTTTTTTTGAGATGGAATCTTGCTCTGTCATCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAGCCTCTGCCTCCC
AAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGTATGCAACCATGCCTGGCTAATTTTTGTATTCTTAGTAGAGACGGGG
TTTCACTATGTTGGCCAGACTGGTCTCAAACTCCTGACCTCATGATCTTCCAGCCTCGGCCTCCCAAAATGCGGGGATTACAGGCTTGAGCCACCACACC
TGGCCCCTGTATTTTCATTTTTTAAATTTTAAAGAAATACTCGGAGGGTTGCTTGAGCCTGGGAATTAGAGGCTGCAGTGAGCTATGATTGTACTACTGC
TCTCCAGCCTGGGCGACAGAGCTAGACTCTGTCAAATAAACAAATAAAGGAATACTTGGTGGTTGTAAAAATTTCAAATGATGCACAAGTGCAATACAGC
TCAAAGTGGAAATGCTCATTTCCCAGTCCCACTCCCCAGAGGAAAATGGTTTAACAGTTTGGTATAAACACATCCACATTTATTCTCTATCTACACCAAA
TGTGTTACTTTTAAAATCAGGAAAAAAGCAAGTACTGTAATAAAGAAAGAAGGTCAGTTCTCCTCATGACCACAAAGAAATCTAAGTGGTGGTGGTAGCT
CATTTTGGCATTAAGGAAGAACTATAAGGGTAGTTACTGCATTTCTAGCAATCTCTCATTTAATCTTCTTGCCACTCTTGCAAGAAAGATGTAATTGTGC
TTTATCCATGAGAATCCGCAAAAACAGTGAGGTGAGTTGACGTTCCCAAAATCACCCAGCTGGTAATCATTGAGCACATACTATGTGCTAAATACCAGGC
CAATTGCTTTACATCTGTATTAGTCCATTCTCACATTGCTATGAAGAAATGCCCAAGACTGGGTAATTTATAAAGGAAAGGTTTAATTGACTCACAGTTT
CACATTGCTGGGGAGGCCTCAGGAAACTTACACTCATGGTGAAAGGCAAAAGAGAAGCAGGCACCTTCTTCACAGGGCGTCAGGACAGAGTGAGTGCAAG
CAAGGGAAATGCCAGATGCAAACCATCAAATCTCCTGCGACTCACTATCATGACAGCAGCATGGGGGAAACTGCCCCCATGATCCGATTACCTCCACCTG
GTCCTGCCCTTGACACGCAGGGATTATGGGGATTATAACTCGAGGTGAGATTTGGGTGGGGACACAGAGCCCAACCATATCAACATCCACTGCCCCATTG
ACTCTTCATGAGGAGGTATTGTTATCCTCACTTCACAGATGAAGAAACTGAAGCTCAAAATGGTTATGTAACTTGCTTAAGACCATAGCTAAGTGAATGA
GAGAGTCAAGGTTCAAATCCAGATATTCTGATTCCAGAATCATCACTTTTAACCTCCAAGTGAGGTCTGAGTCCCAAGTTCATTCTGCTTATATTCTACC
ACAAAACAGTGGAAGACAGGTGGTAAGGGGCACAGGTGGGTAGTGGGGAGGCAGAGCTAGAGAGTAGGAGGCAACACTTCCAGCCGCAGGGCTGAGTAAC
TCCAGAGGCACTCTGGTCAGAGGAAAGGACTTCCACTACTTCTGGTCACTCACACTGGACAGCTAGTCAACAAAACCCCTTAGCAGCAGCCTACATCCCG
TTACAGAAGCAGTGGTTGAGGTGGGCATTCCCACGTCCACCCAGAGTGGTTAAAAATGCAGGCTCTGGAGCTGGACTGCCCAGGTTTAAATCCTGACCCT
GCGACTTCCTAGTGTGTGTTCCTGGCCAGTCGCCTAAGCTCTTTGTACCTCAAGTATGTTCCCTCAGCTATGAAATGAGGTTAATGTCTGTGCCCGCCTT
ATAGGTGGCTGTGAAGACTAACACACAGGGGAAGCAAAAGCATACATGAAGGTCAGAGCCTGGCATGTTGTAGAGCTCAGTGCTCAATGAGTATTTGTTC
TCTGTATTCTATTCTGTCACCATTCCCTATTCCTCTTTGCCTTGCACAACTTTAGCATCAGGGTCAGGAGAAGTGGCTCATCCCTCACAGGGGACAGCAA
CCCCTCATCAGAAGCTCAGTGTATCAGTCAGCCTGGGCTGCCGTAACACAGTGCCACAGACTTGGTGCCTTAAACAACATAAATTTATTTTCTCACAGGT
CTGAAAGCTGGAAGTTCAAGATCAAGGTACTGGCAGGGCTGGTTTCTCCTGAAGCATCTCTCCTTGGCTTGCAGATGCCCACTTCCTCTCTGTGTTCTCA
CGTGGCCTGTTTTCCTGTGCACATGCACCCCTGGTGTCTTCCTCTTATAATGAGGACACCAGTCCTACTGGACTAGGGCTCTATCCTCATGACCTCATTT
AACCTTATTTACCTCCTGAAAGGCTCTCTCTCCAAATGCAGTCACATTGGTGGCTAGGGTTTCAACCTCTACATTTTGGGAGGACACAATTCCATCCATA
ACACCCAGTATCCCTGCCTATCAACCAGTATTTCATTCCTTCAACAAATATTGAACATCTAGTGAGTACCAGGTGCTGGGACAGTCACAGGGTCCCTCTT
TTGTCTTATTGCTGAGCTCTTCTCCCTGTTCAAGAGAGGATCCTTCCTTCTTTTTCCTTCTTTTCTTTGTGTGTGTGTGTGTGTGCATGTGCACGCACAC
AGACATGTGTGTGCTTCCCTGTTTTTGCCTTCACCTTGTTTAAATGAAAAATTTCAAACATATACCAAAACAGAGAGAATAGTATAATGAACCCACATGT
ACCTATCAGTCAACCTCAACAATTATAAACTCATGGCCTATTTTGTTTTCATTTATATCCCCACCCATTCCCCCACAACCACCCTGCTGGTTCTGGGATT
ATTTCGCAGCAAATTTCAGTCATCACACTTCATCTATGACATTTTAGTAATGTGTCTCCAACAGATAAAACTAGCTCTTTAAAACATAACCACATTGCTA
TCATTTTAAAAAATTAAAAACAATTAATATAATCAAATTTCCATGATTGGCTAATACGTTCTTTGATAGTATTTTTAAGTCAGTATCCTTGTTAGCTTCA
TACATTATAATTGGCTGATATGTCTCAAGTCTTTTCTAATCTATAGGTGTCTACTCCCCACCCCCTTGAGATTTTTTTGTTGTTGCAGAAGTCGGGTCAT
TTATCTGGAGATAAATGAGAATTATTCAGAATGAGGAGTCTCCTGCATTCGGAATTTTGCCAGTTGCTTCCCTGGGAGGTTGTTTAACACAATTGTCTCT
CTTTTATGTTCCCTTTAATTGGCAGTAAGATCTAGAAACTTAATCAGATTGARCTTCCATTTTTTTAGCRAGAATATCTTGTAGGCAATGTCTTCAACAG
AATCATATGATATTTGGGTATCTCTCTTTTGGGGTCATTAGGAACCATTAATGATCATACCCTAGGAATTACAAAATGGTAACATGCTATAATTTATTTT
TTCATAAGCTGAAATGCTACACTTAAAGAAAACTTGTCCTCATCAACTATTTGGTTACTCCGAGATACAGTTTGTAAAGGAAAAGCAAGGAAATAATTAT
TTGTATTTGCCGGTTTTTGTATTAATGAGTTGATTCCCTAACACCTTCCAAAGTTGCACATTTTTAAATATCATTACAATCCAAACATACTTTATGTATT
TAAATCTACTGCAGTTTGTTCTAATTAATGCTCAAATTGTGTCATTGGCTAGTGGGAGCCTTTTGAAGTTGGCCTAACATCATCTTGTACATTTTCTGTC
TCTGACCCAGAATCAGTTATTTCTCCTAGAAACCCTGGTTCCTTTTAGTGGAAACTGATATTTAAAATTTGGGCACTAGGGGTACTTTTTATTATTGACT
TCGTTCCTGTTTCTAAGCCTTTTCAATGARCACAGCTAGGAAACAGTTTTTAAAAGAAAATTCGTCATGGGTTTATTTCATTTCCAATGTAAAAACACTT
TTTCTTTTTTACTTAACTTCTTTAATATCATATCCATATCTCCTTTCACTCTTGCTGAAAATCCCAGTTCCCAACACCATTAATATAATTTCCCAATTCA
TAGGACATGCCTAAGAGTCCCAAAGTAGTAATACCAATGGCTACCAACAATAATATAATTACAGAGAATAGTTTAAGGGTTTTTTTTTTTTTCATTTCTT
TTTGTATCCTATTAAGGTAGGCTATCAAATTATTGTGTTTTAAAATCTCTTTTACTAGTTTCTTCATGTGGGATTATGCTACCAACTAATCTAGCATTGC
ATTCATTTATTTCACTCTGCTTCTGAGTTTCTAGAAATTGCTTATCAGTTTATTGATTTGCTTAATCTTTCATTTTAATTATTTAAAATATTTACATAGT
TCCAAAGCTAAATATATAAAAAAGGTATATTCTGAGAAAGCCTAGCWTCTATCCCTATCTTCTCTACCCTGTTCCCTCCGTCCTTCTGTGAATAATCTTT
TAGTTTTTGGTTTATCCTTTCAGTGATTGTTAATATGAGTGAATATGTGTGTATGCCTCTGCCCCTTTCTTAGATAAAGAGAATCATACCATACCTACTA
ATCTCTACCATGCTTTTATTCACTTAACAACATAGTCTGGGAACCACTCCATGATATTATATAGAATATCCCTCATTCTTGTTTTATAGCTGCATAAATA
GTCCATTTTGTTGATTACCCTAGTTTATTCAGTTAGATCTCTACCACTGAACATTTGGGCTGTTTCCATACATTTGCTATCACAAATAGTGCTACCTTGC
ATAACCTTGTACATATATGTCATTTCATATTTTTGCCAGTGTATCTTTGGGAGAGTTCTAGAAATAGAATTGCTGGGTCAGAGAGTAAATGCATATGCAT
TTTGTTGGATATTACCAAATTCCTCTGCACAGCAGTTGTACCATATTGCACGTTCACCAGCAAGGTCCTAGAATCCTTGGTTTCTCACGGCCTCATGTGT
CATTAAACTTTGGATTTTGCCTATCTGATGGATGAGAAACAATATTTCACTGTGCTTTTAATATGTATTTTTATGTTTAAGAGTGAGGTCRATCATCTTT
TCAAATGTGAAAGAGACATTGCATTTAAGAATCCTCCCCTCCAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAGGGGGGAGGGATAGCTTTAGG
AGATATACCTAATGCTAAATGACGAGTTAATGGGTGCAGCACACCAGCATGGCACATGTATACATATGTAACTAACCTGCACATTGTGCACATGTACTCT
AAAACTTAAAGTATAATAATAATAAAATTTTAAAAAATTAAAAAAAAAAAAAAAAAGAATCCTCCCCTCCAAATCCCTGCCGGGCAACTACCACTCTGCA
ATATGAAGATGAACAACAGAGAAAGTGAAGGACAGAATGATTAAATAGGTCACTGGACAATCACAGGTGCACAGGAAGAGATTAACTAGCCAAACTAATG
AAGCAACACAGCAGAGAAAGAAAGCAAAGTGGTGACCGCCAAAGGAAGGGATTGAATTTCCCTCTCTGGAGATTGTAGATGGGGTTTCGTTGATATGTAT
GCACTGAGTGGAGAGTGGCCTAGACAGGCAATGGAGACTGCATGATCTGTAGCTCCCCGGGCAGTAAATGGGGARATCACAGTCCAACAACCAGAGATGC
TGGGCCTGTGCTGAGATGGAGCCAAGAAAGAGTCCCTCCTCACTGCTGAGATGCAAACCTGTATTGTAACAATGGGATGTAGCAATAGGCACGCCCCTCC
CCACCTCTAAGGTCTCATGTGTCCACCTGAGAAATGGAGGAAAGCATTAGTAGTTGCAGTGAGATGGATGGATGGGTTTTGAAAACTGGGGTTACCCAGG
AAGTGACAATACACATACACAATTTACTCTCCCAATGTTTGATATAGCTCTATGTAATTATTTAGTTTCTCTAAGCCTCAATTTACTGAAAATGGGGTAA
TAATCCCCGCCTATAAAACGAGGATGATAATAGTACGTGCCATTTAGTGTTGCCATTGTCACAAGGATAATCCACATTAAGCCCTGACACATAGTAAGTT
ATCGATACACATGAGCTTATTACTGTTGGCTGTGGTTGTAGCACTATTATGTGTCACGGGGGATTTAGAGACAGAAGTCTTGAGATTCAATCTCAGCTCT
AATTTCATTAGCTCTGTATCCTTGATCTAGTCTCTTAACCTACTTGGCCTTAGTTTTCTTCTCTATAAAATAGGGATAATAACTTCATAAATGCATGCAT
TTAAATGAGATAACACATGTGTAGCAATTAGCATAGTAAGTCATCAGTAAGAGTTGACGACTACTACCCTTATTATAATCTTCTTTGTTAATTAAACTTC
CTAATATAAGTTTCTATTAAGAATACTTGACAACTATTTTAGATAATTCTTGAAGGTTATAGCATTAAAAAAAAAAGAGGATTGGGTATATTAGACTATC
TTTTATGAAACTGATTACCTCGAGAAATCTACAAAACTTTGCAGAGAGAGAAGTGCTATGTAGCTCTTTATTCCTCCCCAGTCTTGTTCAGGGAATTTTT
GGCATCTGATAGCTCCATAGTAAGGGAGTACAAAGGAGCAGAGGTTCCTTTGACATGGGAGGCGGCTTAGCTTAARATCTCTGGATTTACGCTGTCTTGC
CTAGGTCTGAATCCAAGCTCTGCAACTTGCTAACCCAAGGCTAGTTACTCAACCTCCGTAAGCCTCAGCTTTCCTAGGAGGTAATAATAGCACCAACCTC
ACAGGGGATTTTGTTTTGCAAAGAGTGAACATGATTACGTATGTAAGCTCAGTGCCTGACTGAGGTGGAGTCAACCCCCAGTCAATGGCAGTGGTGATGG
CAGTGACAGAAGCAGTAATAGTGGATGTCATCATCATCCTCATCATCAGCCTTGGGGAGGTGTGCTAGTCTGGGTGGGCTAGGCTACACGGTGTTAACTT
ACAACCTCCAAATCCCAGCGGCTTAAAAATCAGGAGCTTATATCTCACACAGACCACTGAAGCTACATATTTAACATGGGTCATCAGGGATGTCTGCTCC
TTAGAGTCACTTAGGGGCCCAGATTGATGAGACTTCCCTCTTGACACTTGCTTCCACAATTACCGAGGCCGGAAAAGGAAACTGTGTGCAGATCACACAC
AGGCTTATAAAGTTTCCACAGAGACATGATGTACAGCACTTCTGCTCTCATTTTATTGGTCACAGCAGTCACGTGACCTTGCATAACTTCAAAAGGGGTG
GGCAGTGAAATCCAATCATGTGCCCTTGAAAGAGGAATAGCTCTAATGACTACCTTAGGGGCTGAGGGTCTGGTTGCAGGAAGAGACAGTGGTGGTGGGA
AAGAGGCAGCTGAGAATGGGGAAGCCCAGGATGGGACATGTGGACAGAGGCATAAATAACAGACTTTGCAAGACCAGAGACAGCCAGCAGCTGTGCCTAG
GCCTCCCAGTGTCCTGTGGAGTTMCCTGCCTTGGACTGTATTCATTCATCCTGTCATTAACTCATTGATTCATCCAACCAGCAATCATTGAGAAACAACT
GTGTGCCAAGCACCATGCTCAATACTGGGGATACCCAGTTGTGTAACACAATTAACACATCCCATGCCCTCCTGGAGTTTACAGTGAAGCAGGGAGTACC
GGCACCCTGAGCTGAACGTCTGAGTTGTAGGGTCCTGGGGTTCTGACCTTCTCCAGGGCCAGATGTGAGGAGGTTGGCTGGGTCTATGCCCCTGCCTCAG
GCCTGACAATTGAGTGAGGAACGAAGGAAAAACACCATGTGGCCCAAATATTAGTTGTACTTCAGCCCTTCTAGAATGACAAAGGGACTTTGCTTAAAGG
ATTCTTTTCATTTCTCCCATCTGGCCTTTAATAACACTCCACATGATATAACTGGACCTACCCATAAAGGTCCCAGTAGACAAAACTCACAGTTTATAGT
TTATGTAATTTTCCATAAAAACAAAAACTATACTTATTGCCTGACACATTTTATAGAGAGATTTTCTGTTTGTTTACTCATTTGTCCCTGAAGAAAGCTG
CCTCTCTTCCTTCTGTCCCCCCAGCTCCCTGTGGTGGTCACCTGACTTCGCCCAGCGGCACCATCCTCTCTCCGGGCTGGCCTGGCTTCTACAAGGATGC
CTTGAGCTGTGCCTGGGTGATTGAGGCCCAGCCAGGCTACCCCATCAAAATCACCTTCGACAGGTGCTTGTGACCACAGCCTTGGGGGAGAGGGMAAGGG
GGAGATTTTTACAGAGCCACGTGGGAGGGAATGCAGGGTGGATAGGGGACCAGTACCAAYGCTGAAATGTCAGCAAGGTTGGAGAACACTGGACCAAATT
GCCCTGGGTGGGGCAGACCTCACTGGCTCTGCCCTTGGGCTTGGTTTGTGCTGTTTAGGGGACTATGGCAGGAGGGGTGAAGAGAAGGCTTGGGTACCAT
TTGGGATGTTAGAGCTCCCCCCTCCCCAGCCCCCAAGGAGGGGGAGTGGGCAGATAGACACCATCAGATGTTAAAGCATGACTCTGGTATCTGACGAGCA
TTCTCCTGGAAATGTCCAACGTGGGAAGGCAGCCCCCCACCTCTGCCCCAAATCCTGCTCATGTGCCCCACTTCTAGCTCCCACCCTGGCTATGCCCCTT
GGGTGGAGAACGTAGCCACCTAAATGTGAAAACAAACTTCTTCCGGACAAAGTGTTCCTGGCCTGGAATAGCAGTCTGCAAACTTTTGTGTGAAGAGCCA
GATGGTAAATATTTTAGGCTTTGTGGGCCACTTGCCTACTTGCATATCTCTGATGCATGCTCTGCTTTGCCTTTTTTTTTTTTTAAGATCTCTTTACAAA
TGTAAAAAGCATCCTTAGCTCTCCAGGCTATAGACCAGATCTGGCCCTGAGGCTTTAGTGTGCTGACCCCTAGCCTAGAATGTTCTGACCTCCATGAGGC
TAGTCATTGTGCCTCTAGGTCTTAAGCTGGCTCACAGATCAGGCCACAGAGAGGATGAGAGCAGTTTCCAACCATGGAAGGAGGAGGAGGGATGTTAAAT
AGAGTGGAGAAGGTCCTTCTGCATCGCTAGTGAATGTGTGCAAATTATATTAAAAGATCCCAGCCTGCCAAAATCTGGTTATTCGGAAGCCCTGGGTCAG
GCAGGGCTTTATGTCATTTGCAAATTAATAAGCTTGGATTTCTCAAGAAGGCTTCATTTCTGTCATTTGGCAGATTCAAAACCGAGGTCAACTATGACAC
CCTGGAAGTACGCGATGGGCGGACTTACTCAGCGCCCTTGATCGGGGTTTACCACGGGACCCAGGTTCCCCAGTTCCTCATCAGCACCAGCAACTACCTC
TACCTCCTYTTCTCTACCGACAAGAGTCACTCGGACATCGGCTTCCAGCTCCGCTATGASAGTGAGTCTCAGTGGGCTCAGGAAAAGGGATGACAAGGTC
AGCCCAGGTGGGTCAAAGGCCTCAGGACTGTGCTCCACCACAGGCCCCTGCTTGGCCCCATCCCCATGGTGTTCTTGGCTAGGCTGTGCCCTTCAGAAGG
CCCTGGGGAAGGCACTCTGTTGCTCTCAGCATCCCTCAGGTCATGGGAGCTTAGAGTTGTTCACAACCTTCACGCTAGGCCCTTGCGTGCAGACCTCCTG
GCAGGTGATTGGGTGCCGCCACGCYGGGCACTCTGGGATCAGAACATTTGACTGACCATGAAGTTAACCCAAGATGGCATCTCACACCCACACTTGTCCT
TCCTCATCACCTCCCACATTCATCCCCTCGATTTAAAGGATCATTGTCACTTCAGTTCTCTGTAGACCAACATAGAAAGCTGGAGCTGCGAGCACCATGA
GGACAAGGTCATTTTCTTACTCCTAAGCCTTAGCATAGCACCTAAGCCACTCTCAGCAAATTCTGACGGCCACATTTCATGAGTCAGTAATTGGCAACTT
CTGCCTTTAATAAACCAGGGCTCTCTTCTTACTCTTTGGAGTCAACTGGGGTCCCTCTGTAGTGACAGTAAGCTGTCTGTCCCAGCTGTGGCCTCTCTCT
TTCAGCTATAACACTGCAGTCAGACCACTGTCTGGATCCAGGAATCCCAGTAAATGGACAGCGTCATGGGAATGACTTCTACGTGGGCGCGCTGGTGACC
TTCAGCTGTGACTCGGGCTACACATTAAGTGACGGGGAGCCTCTGGAGTGTGAGCCCAACTTCCAGTGGAGCCGGGCCCTGCCCAGTTGTGAAGGTGAGG
GACACCATGAGGGGGCGCTAAAGTAGCAGACTCCTCTCCTGCCACAGAAACACAGGTGCTCAAAAGACCACTGACTCCCTCACCCCATCAGCGAAGGTTG
GGCTTTCGAGAGATGGGGGATGGGGTCCCAGGAGGATGACGGGGGTGCTCCCTGAGGCCCTCTGGTCTTTCACTGCCCTCTTCACTCCTTCTRTAGCTCT
CTGTGGTGGCTTCATTCAAGGYTCCAGTGGGACCATCTTGTCRCCAGGGTTCCCTGACTTCTACCCCAACAACTTGAACTGCACCTGGATTATCGAAACA
TCTCATGGCAAGGGTGAGTGTTTCAGCCCATAGCAGGCATTGGGATGTGACGAGGTCAGGGACCCAAGTTCCTCAGGTCAAGTTGACCTCAATGGGGATC
TCCCTAGATAGTGACCTCTGGGCTTCGTCTGAACTTTTCTCACCAACAAGAAAACTTCCAGAGTCTTCTCATCCCTTTGAATGGTAGAACTTGTTCAATA
AGTATTGTTGAGATTCTAAAATCTCCCTGCTGGAAGAGCTCTTAGAGGTTACCAGCTRTCCAATCTCACTCAGTACAGGAACCTTCTCTAAATCACTCCC
TGCAAGATGGCAACACRCCAGCTCAGCTCACCCTCTGCCTAAACATGCCTGATGTGGGGAGGCCACCAACCCGTTCAACARATGGGCACCTACTATCATT
TTTGCACAGATGCTTTCTTCTAATAGTCTATTAGGTGTCTCTGAAAATGTTTTTCTTGTATTGCATCCTGGAGGAGCATCAGATACACCTGCTCCCTCTT
CTTCACATTCACCCTTCAGATACTGAACACAGCGATCCCCTTCTTGCATAACTCAGCTCCTCCCCTGATGCCATCTTTCATATGGGTCACCAGCCTGCAC
TGCTGCCTCAGCTCCCCTAACGTGAGTGACCTTTGGGAGTCCAAGTTCAAAGTAAAAGTGCTGGTTATAAATAAATGTTAATTAATATATTAATACTCTT
TTCTCAACAAATATGTATTCGGTGCCACCCATGTGGCTGACACTGGGGCTGGGCATCAGCAGTAACCAGGCAGATTTGGCTTCTAGCCTCAGAAGCTTAT
TGCCAAGTTCATCCAGAGTCATGGTTCTTGCAGTTTGGCAAATACACTAATGCTTAGGCCCAAGGCTAGAGGTTTTGATTTTCTACGTTGGCGGTGGAAA
CCAGGCATCTATGTTTTCAGAACACTTTGCCAGTAATTTTGATGCATGCTTTTAATTAAGAACCTCTGATCTAGAAGAATTAACATGCAGAAGAGCCAAA
AAACTAATTTTAAAGGAAGATTAATCYTTCCGGATATTAAAATGTTGTTATGGGCTAAATTAATGTTAACAATGTGGTATGAGTACAAGAGTGGACATAC
AAATAAGACGTGGAGAATAATTGTCCAGAAATAGATCCCTCCGTGTGTGCACACACATGCCTGTGTACGTGTGAGAAAGAGACAGACTTTAGTATATAAG
TAAAGTGTCATTTCAGATCCATTGAAGAAAGGATGGATTATGTAATAAATGGTGTTAAAACAGTGGGTTGAACCATTGGAACAAAAGAAAAAAAAACCGT
CTATACCTCAAGCATTCTCAAGCATTTAATCACATAAACTCCAGCACTAGAGGAACATGAATCTCTAACCTCAGGTGGGCACGTACTTTAAAGAGTAACA
ACAAAGGTAGAATCCATAAAGGCAAAGACTGCTAGATTCAATTAAAAAAAACTTTGAAAGGATTTAGGTTAAAAAAAAAAAGTTCCATAAAAATTTAAAG
TCAAATACTAAATAGAAAAAAAAAAATCGCAACATGTGATCGACTAAGGATTAGCAACCAGACACACAAAGAGTTCTTTAAAATTTTTAGGAGACATATG
CCTAGCCAAACCAGCCCGCAAAATGAGCAAAGCTATAAAGTAACACTTTGTAACAGAGGAAATACAAATGGAAAATCATGGACCTCATTAATAATGAAAC
AAGTGTAATTTTAAAAGAGAAATACCATTTCCCTTTTTAAGTCATCAAAGAAAATTGTAACAGTCTGGGGGATAATGTGGACACTTGCATGCTATTGACT
GCTGACATTGTGCGAAATGGTTCAGGCATTCCAGAGGGTGACTTGGTGATGTGAATCAAAAGTCTCGAAAATATATTGTAAGGGACTTAGGAATCTGCAG
ATTTTGGTATCCAAGGGTGGTCCTGGAACAAATCCCCTGCAGATACAGAGGGAMAACTGTACCTGCCTTTGCATCTAGCAATTCCACTTACTGGAATTTA
TCTGAAGAAAATAAGTAAAACTCTACATCAAGATTTAGCTTCAAAGATTTCCCCTAAGATATTATGTATTATACTGAAAAATTAAGAACTATTAAAATGT
CCATCAATAAGGAAATGTTAAATAAACATAGGGTATGGCCATAGAATAAAATACTAGGCAGCTCCTAAAAGGAATAACATGAAAGAATATTTAAAGACCT
ACAGGGGTGGTTGCAATACTTTGTTAAGTAAAAAAAATAAGTTTGCCAAAAGAATATATTTAGTTTAAAAGACATCCTTGTTTGCATAGAAAACAGCCTG
GAAAAAATATACCCCAAGATGTTGTCTCTTATTTTCATCTTTTGGCTTTTTTCTAATTTTGAGCAGTAAACACATTACATCTAAAATATACTATTTGTAT
AACAAAGAAGATTTGAAAGAAAAGTCATTTATAGTCCCACCACATGTACTTAAGTGTGTCACTTGGCCTTTACTAGGCCTGCCCTACCCAGGGCTAGGGT
GGCCTGGAGCTTACTGCATCAAGGCAAGACTAGCCAGGTGGTCAGGGTGAGGCCCAGGATTGTCCGCTTCCCACAACATTGTTCCTAAGGAGGGGAGGGC
TGGAACAGTGTCCTTGTTCATCCTGCAGAGCTGTTTCCACCAAGCCTGGTCAGAGGAGACCATTGGAAAGAAAAGCAGCCCCTCACGATCCCTAGAGAAA
CAACCCCTGTCATTGTGGTTTTCTCTGTGTCTGGGCATCTGTGATTACAGGAGGTGTATGTTTTTCTGTGAGTTTCTATGTGTGTGTTTTTTCCTGGAAG
TCAATCAAGCTCACCAACTATTTTACAAATGTTTATTTGATACTTGCACTACCCAAATTGCTAGGAAAACAGCTGAACAAGCCACTCTGCCAGTGCCTGC
CTTCAGGAAGTTTATGCTTTAGTGGTAGTAGACAGCCTAAACCAAGATCTCAGTATATAGCATGACCAATATGTGATAGAGCAGACAGAGATGTGAAAAC
ATCCCAAGCCCAGCCCAGGGCTTAGGAAGGTGTCCTGGAGTTGAGACTTCAGCTGGTCTTCAAAGATGAACAGGACATAGCCCGGTTGAAAGGTGCTCAG
CAGAGAATCAACAAGAAATCATGGATGAATGACCAGATCACTTCTTCCTTAGAACCACTTAAAGGCATCACCTAATTCTTAGCATAGATCCCCAAATTAT
AAAATCGCTAGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGTGTCAAGGCAGGCAGATCACCTGAGGTTGGGAGTTCGAGGCCAGCCT
GACCAACATGGAGAAACCCCGTGTCTACTAAAAATACAAAAAAAATTATTTGGCGGGGGTGGCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGC
AGGAGAATTGCTTAAACCCAGGAGGCAGAGGTTGCGGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTTCATCTCAAAAA
ATAAGAAATAAAATAAAATAAAATAGCTGGCACAGCCTCATAGTCCTTACCTGTCTCAGCCTCATTCTGAGCCCTCTAAACTAAGTTCTAGCTACACAAA
ACTTCCTTCAGTTTCTRGAACTTGCCAGGCTTCCCTTCTCCTCTAGAGCTTTACACATTTGTACAATGTTCTTCTCTCTGGAACACTTCGTCTCCCCAAG
CAAGGGGAATGGGAATCTCTGCCGTTGCCCTTGCCTGGCCAGCCCTTCATCCTTCTGAATCCCCTTCCTCTAATGAGCCTTCCCTGACCCCCTCTCCCCA
GCTCTGCATCTAGGTTGGGCTCTTCTCCCCTGGGCTCCCATAGCATGCATTCTATACCTCCATGATTTCAGACTTTACTCCACTGTAGAGAACTTGCATT
TTCATCATCAGTCTCCCTGACAGACTAGGAGCTCTGTGAGAGATAGGTCTGTCTTGTTTCCTGTAGTTTTCTTGGCTTCTGGCTCTATGCCCGGCACATA
AGGAACTCAAGAAGCATTTGGTGATATGAATCAAATTGAACTGAGCCCAGGCCCTTCTCCAGAGGGCATTCTTCGTTCTCTGTTTCTAAGAGTATCTCGG
GTTAACAGACCTATTAAGCTGCTGTCTGTGATTGCTCCCTAAGAGGCAGCAGTATGGCTCAGGAAACTCAAAACTCTGTGAAATTTGAAATAGTTCAACT
TGCCACCTGCCCAGTCCAAGGGAGCAGCCAATTCAGGAGTCCTGAGAATGTGCCCTTGCTGAGACCCCAGAGCTGACACCTTTTAACCCGTGAGGCTTTC
CGGGAGTTAGATGAGTTGAGCAAAGGGAATGCCTTCTGTTGCACCCCTACTGTGTGCCAGCCACTATGCTGTGTGCTTTGCATATACTTTCCCAGTTATG
ACTCACTTCGGGGGTAAATGTCACCTGTAAGAGAGATATTATTGCCTACATATTACAGTTGAAGAACCTGGAACCTGAGGTGTTAAGCAACCTTAGCCAA
GACCTTTGAGCAGGTAAATGGGCTTTTGATCCAGGTGTTTCTTACCCCCAAGTCCATGCCTTTTCCACTGCCCTGCTCTTTCTGCTCCTATGTGGTATTG
ATGTCATTGGTACGATTTTGCTTGGTTCAGTCAAGTGAAGTATTTGTGTGTGCATCTGTCACATCAAATCTGGATTCAAACTCCAACATGGGGCCTCTCT
ATTTCTGCAACAATGTCTTCATTTTCACACAATGGCCCAAAAAGCCCCAAGCAGTCAGCGCAGCTGGGAAACCCAGAGGTTTCAGCTCAGATGTTTGCTC
ATCCTTAGAATCCCAGCCAAATGTTTACCCCTTTGGAAGGGCTCTATTTGCATGCTAGAAGAATAGAGTGCAAAGCGCGATGCTTAATCAACTTGTTTCC
ACCTGTGACTGGGTCTCACCCGCTCTCCACCCAACTCCATGTCCTAGGTAGGAGGGAAAGGACGTATATTTCCTAAGCTGTATAGACTGAGAACAGTTTT
CTCATTTGCAGACATGTTTRTATGTCAGGAGTAKAGCATGCACGTGGGCACATGCACCCACAAGCCTTTTCACATCAAGGATTTTGACCCCCGTGAAGCC
TTCCCAACCAGTGAGGCATAGTTCCCATTCTTCCTCCATGCCCCACTCTGAATTCTCACTAGTAGTGATGTGTCTGTCTTCTCCACTAAACTGGGAGATC
TTTCTCAGTGCTTAGCACAAGGCCTGGCACTTGGTAGGTGCTTAGGCCTTGATGCTTCTCAGTTGCCTGGGAACAGGGTATTTACAAGCTGCATCTTTGG
TCCCATCGCTTCTGTTGGGTTCTGTCTCCTCCACCTCTATCTATAGAAGCCCAAATCCTCCAGGATCACCAGCCTCTATCAACAGAGATGCAAGGATATA
AAAACCTTTAAAATGCTTTAGCATTAGAGGCTTATCTCCAACCATCATTTATAAAAAATGTAGCAGTAATTATCTAGAGAAGTACTTCTCAAATTGTAAG
TGTGTATAAATCATTTGGGATCTGAAGAGCATGCAGATTCTGATTCAGTAGGTCTTCAGTGGAGGCCAAAGATTCTGCAATTCTAGTAAGTCCCCCAGTG
CTGACCACACTGCTGGTTCATGGACCATACTTTGAGTAGAAAGTGGGATCACACTTGGAGTAGCAGGTGGGTCCTAGTCTAACATGAGTTCCTGTCCTGG
CACCATCCACAACACATAGTCCCAATAGGATACTCACTTGGTGTGATTCTGCATGGTTCATTCAAGTTAAGTATTTGTGTGTGCATCTGTCACATCAAAT
CTGGATTCAAGCTCCGACATGGGGCATGGCCCATGTGCATGGCCACGCACTTACACACATGCCCACCAAACACAACTGCCATCTGGACAAGTTCTAGAAT
TGCTTTGGGTGTTAAGACCATGCTGCTCTATAACTTCCCTCACTACCTGATCTCTTACCCTACCTGGCTGTTCTTAACTACCTGCTCTCTTTCTGTAGCC
TGAGAGGCCGCACCCTGGAGTAGCTGAGAGCACAGCCTCTGCAATCGGATTGCCTTAGTTCAGATCCTAGCTCTACCACATACTAGCTGGGCGACCTTGG
ACAGATGACTTCATCTCTTTGTGCCTCCGTTTCCTTGGATGTAAACTGGAGATGATAATAACATACCCACGCCACAGGGTTCCTGGCAGAATTAAATGAG
TTTTTCTGTCTCCCTTCCAAGGGACAGGGGCTGACTATAGTGCAAGTAAAAGCAGTTAGGACAGTAAATATTTAGTGCTTGAAATGTTAATGAATATCAT
TACTTTGATTTTATTTTATGCTCTTAACCTTCCCCCTTACTGGAGCTCCCTCCTCCCTCTTTCCAGCTCTCTGATTGCTCTTTGACCATCTCCCCCATCG
CTCCAACTTCACCTGGTCTCCTACTCCCTGTCACTTCTGCCCATGCTTCCAATCACCCCTTCTCTGATTCTCACTCTGCCCTCTTCTCTCCTAGCCCTCT
TCTCCTTGCTTGTGGCTTCAGATATCAACTATTTGCTGGTGACTCAAATCTACCTCTGTAGTCCCCCTTTAATCCTGAACTTCCAAATCTGTCCTTCCAG
TGGCCCACTAGCTCTCACTGCTTGCATGCAGAAAAGGCTAAGTCCATTACTCTTCTACAACCCACACCTTCCTCCTGCGTGCCCTTCCCTAGGTAACAGA
AGACATCACCATCCTTCAGGTGGACGTGCCACTGGATGTCATGTTATTTCTCCTTTGCATTAAGTGCCTGCTGTCTTGGCTACCCTACCCTGACCCCTGA
AGSCTCATGGCCATCTCCTGCTCTTGCTCCTTCTGCCAAGCCCCATCCTCTCCCAGTGCAGAGCAGCCACCAATATAACTGATCTCCCTCCCTGCTCTCC
CTCCACTTCATCCTCCTTACAGCCACCAACATCTTGCTAAAACTGAGATCTGGTCCACTCTGGATAGGATGGCTTCTCATTGCCTCCAGAAAAATATTGG
GTCTGGCCCCCGTCTACCTATCCAGCTTCAATTCCAGGAGTAGCCACACCCAGCTGCTGCTCAACAAACCTGGAATTGACAGTCCCTTTACACATATGGG
TCTCCTGCCTGGGACACTCTTCCTTCCCTTACCTGGTTAATTCCTGTGCATCCTTTTAAGATCCATGTCAATTGTTTACTCCTTGGTGAAGCCATCCTCC
ACCTGCCTCTTCCTGCTGTCAACTGCTTTCTGTTCCGGCCCCCATGGCATGCTGTCTACATTCATTCCAGCACTCAGCACTCTGTATTGCAGCTATTCGT
TTAATGTCTGGTATATCCTCTTGCACCTAACCCTGGATCCTAGCCCATAGTAAAGACTCAACAAATACACAAATGCTTGTTGGATGAATTAATGAATGTC
TCTAAAGCATTCTCATAGGTCAAGCCATAAATCTCTCTTTTAAATTTTGAGAACTGTAAAATTCTCCCTGTAATTTTAGAACTGTAAAAGAAGAACTGTA
AAATTCTTCTCCCTGACTGAATCTCTGGGCACTTGTGTGTTCAGGTTCCTTCATTCAGATTCACCTGTATGATTTGTCAATGCATGCTTGTAGTCATACA
CACAGATAGACATTTGCAAACTGGAAATGTTTGTGTAGATCCTGTCTTGCAGCTGAGGTTCTCCAGCCATCTCGCCATCAACAACCTGACCCTCTGGTCT
CTTGGCAGGTGTGTTCTTCACTTTCCACACCTTCCACCTGGAAAGTGGCCATGACTACCTCCTCATCACTGAGAACGGCAGCTTCACCCAGCCCCTGAGG
CAGCTAACTGGATCTCGGCTGCCAGCTCCCATCAGCGCTGGGCTCTATGGCAACTTCACTGCCCAGGTCCGCTTCATCTCTGATTTCTCCATGTCATATG
AAGGATTCAACATCACCTTCTCAGGTAAAGAGTATGAGGGTCCCTGAGGGGAAGAGACCATGGTGCTATTTGCTCTCTCYTTCTGCTACCAGTCTCTGGT
TTTCCTAGCAGATAGATATTAATCCACTCTCCAGTCCCTGGGAAGTTGACCTTAGTGCTTCAGCAAAAGATGCTTGGGTTAGACCCAAGTAAGAACTTAC
CTATAATGGTCTTGGAAGGAGTTAGCATAATCACTGAGGATTCTTATTCTATGAAGGTGTTTAGGATTTGCTCTGAACATGGCCCACCTAGCTGGATGAA
CTAGAGGACTTCACAAAAGTCCCTTCCTACCTTAGTTATTCGAGATTTTTCTTCTGATTCCACTTCCACATTGCCAACCCCAGCAATATGAAAAAAAAAA
AGGTTTGAAATTAACATATTGGAGTGGTTTAGTCTCATTTGGGATCTTTTTCATCAATGCTAATTTTGTAGTAATAGATATTTATCTCTCTGTTTAGGGA
TTTGGAAAAGAAAGTGCTTTTATTTGGCATTCAGGGAGAAAAGAGGACCCTTGGCTCCTCTCATACCGAGCCCTTCACCATTCTTGTCCCGTAGCACCCC
AGAGTACCTCCCTCCACCTTTCTCAGCCACGGCCAGGAGTATCAGATGGATTCCTCCTGGGATGGACAAGAGGTATCCAGCTTCTAGGAACTGGGGTGTG
GCCCAGCTTAGTCCCCTGCCAGGCCTCCAATGCAGAAGTCACCTGTCACATCCCTGGATTCACTTGGCCAATGGGACATATCCAGCCAGTGAGACTCAAC
CCTTATGAGAGAGACCCTCTTTCTCATCACACATCCCTGGAGGACTGCATCCTGAAGGGAGAAGCCCTTGCAGACGAGGGACTAGTCACTTCTATGCTGT
CACTAGAGGCCCCAGGCAGGGCTTTGGCCCATAAATGCCCCTGGTCATGCTTGCCGTCTGCCTCAAGTGCCAACGTAGCTGAGACATGGCTTCTCGTCAG
GCATTTGGAGTGTCTTCACCAGTGGGAGTTGCCTGAGGCTAAGTCATGTATTCTGACCTTCTAGAACCTGCTGGTTGAATGTATCTAGTTTGTTGCCCAG
AGACAAGGAAGCAGGAGAGCCTGTGAGCCCCAAGGCACAGGTTTAAAATGGAGATAAAAGGATAGCACAGAGAAGAGCTGAGTCCTGAGGATCCTCAGAA
ATCCTCCTGGGAAGCCTGTCTAGGAAAGGCTGTGCCCTTTCACTGCTCACAGGAGTGGGTGCAGACCGCCCGTCCTGGCCTCCCCGTGCTTCTCTCTGCC
TCTGCCTCCCCGTGCTTCCCCATGTTTCTCTCTGCCTCTGCTCCCCTCGGGCTCTCACTTCTTCTCTTTTTGGGCCAGTGTCACCTTTTGTGGGCCAGTG
TGCGCATGCCCTCTTCTCTGTCTTTCGTTGTCCCTGGCCCTTTCCCCCTGGTGTTTTGCCTGTGCGTTCCCATCTTTTTGCTTTGTGTCTCCCYGCAATG
TCTCTGAGCCCGGATCTCCTGCTACCTTTCCAGAGTACGACTTGGAGCCCTGTGAGGAGCCCGAGGTCCCAGCCTACAGCATCCGGAAGGGCTTGCAGTT
TGGCGTGGGCRACACCTTGACCTTCTCCTGCTTCCCCGGGTACCGTCTGGAGGGCACCGCCCGCATCACGTGCCTGGGGGGCAGACGGCGCCTGTGGAGC
TCGCCTCTGCCAAGGTGTGTTGGTAGGTGGTCACGTGCTTTCATTTTGCTTCACTAATGGGGTGGGACAGATTATAGTCAATTGATGTGAGGTGGTGGAC
GGCACACAGGCCAAGAGGCTGACTTAGCCCACACTTACCACACTTACCTGCAGTGGGACCCGGGGCAGGTAACCTAACCTCCTTCTGCTCCATCCTCCTT
ATCTGCAAAATAGGGATGGCAATCCCTGCTTCATCAGGCAGTTCTGTATAAACTACAGTGACCTTTACAAATTAGGTCCACAGTGGGCACTCACATGAAG
TCGATTTCAGTACTCTTACCTCCCCACCCTCAGCACACAGACCCATGGCTTAAGGATGCCTCTTACCGAGGAATCTGGATGGGCACTAGGTGGGCCTGTA
GGAGGGGTATATGACCTTTGCCCAGGGGGAGTCCCCATCTGGAGGAGTAGATGGGTGCTTTTACTAATCCAATGGYGGTGCTCACTCTTAGAGACGCCTT
AGGAAGGCTTCATCCATTCAGCAGGGGAGGACAAAAGGAACAGGGGCGGGGTCATTTATAGATGACCCACTACATCTCAGGCATCTGCTAGGTTCTGAAG
GTACAAAGGTGAACAAAACAGAGAAATTCTTCACTCGTGGTCCACATTCTGGTGGTGGGGACACAAGCTGTGAATATTTAGATATGTGATGTGTCAGGCA
GTGTTGAGGCATACAGAGAAAAATTAAGTCAGCTTAGAAAGTGCTGGAGCTAGGGTTGCTCTTTTATCATGGYCAGAAAAGGCCTCTCTGATGAGTTGAC
RTTTGGCCAGAGATAGATATCTGGGAGAAGAGGGAACAGAGGACCAAGACCCAAACCATGAGCATGCTCAGCATTTGAGGAACAGCTCAGAGGCCAAGCT
GGAGCAAGCGGCAGGGAGAACAGGAGATGTGGAGGTTAGAGGCAGCTGTTGGAAGTTGGAAGTGGGCCCTGCCAGCCTCCTTGCAAGAGCTTTAAAGAAG
TCTGTTCAGAGCGCTGTGCCCAGGTAGTAGGGGAAGCAAGTATTTTCCCCAGGGCGGAGTGATTGCTGTCTGTCCCTAATGTATGAGGCTCCTGGGTGCC
TGTTTGCTCAATCCTTATAATGTAGGGCTGGATAAAACACTAGCTGCATTCATGGAGTATTTTCCATGCTCACTGTTAGCCATGGACCTCACGTAAAGTG
AAATAGTATATAAAACCCCATAAAAATATACAAAACAGATCAAAGCAGCACTGCACTGACTGAAACAGGGACCAGCATCTCAAATGCCAGTGAGGTCAGC
TGTGCCCGAGACAAGTCCATGGAGCCCTCAGGCTATGCCGAGGACAGCTTAGACAGGCTGGCAAGATGAGCCGGGCCCAGGCTGTGCACTCATGCAGGCC
AAGGTGGGGTCACTGCTCTGCCACTTACCAACGCCTAGATCTCAGGCAGGCCAGCAAACCCCCTTAACCTCAGCTTCCTTGTTTATAAAACAGAGATAAC
AGCATCCAATTCACAGGCTTTACTCTACCTTAGATGACATCATTTACATAAACCAAGAGGTGGCATATAATTWTCAGCATTTTGCCAATAACATTTTTAT
CTGTATTTATCAATAACCAATTATYGTTATTTTGCCAATAACCTTTTACAATCTCAGAAAGGAAACATTAAAACAAAGAGCTACAGAATTCCATTTCTGA
RCAATTAAATAACCCCAGGGTTTACTCCGTCTCCTATAACCATCCCCAAAGGCATCCACCCACCCTGATCTGGCCACACACACTCAGAAACACATAGAAC
CCCGCCACCCACCCCAGGAAGGTTCAGTTCATGTCTGGCTGCTAGCAGCTCCTTTAGTCTCTGGGAAAGCATCCTCAGCTAAATGGTTCTGGGGGAAATT
CTCCTTGAATGGAATTAACCAGGACCACAGATGCACACAGCCCTTAAGCTCTTGCCTCATTGATCTCATTACATAAACTCATTCTTTAACTTATTATTCC
AATTACTGTTTGTTCATGACACCTCACAATATTTTCATTATTACATTTGTCTTCTGTTTCACATGTTATTAATAATGCACAGTAGTTATAGTCACCTCTA
ATTACCACCAGCCCTGCTGCCGAGGCTCAGGCTGGAGGCATCTCRGGAATGCCCACCGGGGGCTGCTCCCAGTCGCCATGCAAATTGGATGATTTAGTCC
ACATAGTGCTACCAGGAACATTTCCAGCCGAGAAGGAGATGAACAGCCCTGGGCTTTAATGCATGGTGTGACGTGGGTGGCGGGGAGGGAGGTGACATAG
CCCCTGAYATCAGGGGCCCCTGAATTTGATGTAGAAGAGACAGCCCTGACCCCAGGGGACCCCAGTCTGCAGCAAGAGACATGGCCCTGTCCTTGGGAAT
CCTGGTGTGATGGAGAAGACCTAACCCTCTGCCTCAGAAGCCCCAGGCTGATGGATAAGGTACAACCTCTGCCCTTAACGAGACCCCTTCTGATGGGGGC
GACAGAAGTCACAGATGCCAGAATCAGCCACAGCACTTACCTGTGGTTGTGACTGTTTGTTTCTCTGGAACATTTATTTGTTTCCATTTGTGCCTGTGTT
TGGCTTCTRAGTTCATCTGTTCACCTCCCCTGTTACTTTGGAGACTCTCCCGGAAGCAAGTGCCCCGTCCCTCTATCCCTCCTGTCCCCTCCCTGGTGCC
CAGGACAAAGGCCTGACAGGGAGTCAGGACCTGGGGATTGGCCAAGGACTGGCCACATCTAAAGCTATCAGCCCCTCCTCGTAAAGGTATCAGGCGTGTG
GGAAGGAGGAGAGGCTCGTGCTGGGGCAGAGGTGGGGCACATAGCTCTTATGCAGGAAGCAGGGCCAGGAAGGAGGTCCAAAAACACACCCAAGCCCATG
TTTAAGGGAAGCCAGCTGTCGAGAATTAGGCAGAGGGCAAGAGGCATCAGGAACCATGAGGGTGCTGTGAGCCTCGGGCAGCTAATGCAYGCTTCCCATA
TGCTTCTCAGGCTTTCTGCCAGTCCCAGAATCCAGGCAGTTAGGGTTCCAAATGGAAGCAGGTAATCCATGTAGATTCACCTGGGACATTGGTGGAGAGG
CTACTATGTGCTAACCATTCCCCTATGTTTACCTATCTTATATATAAAATCTCATGCGTTGATTCTACAGTCTTATGAGAATGCTATTATTGTCCAGATG
AAGGCAGATGAAGAGATTAAATTTCAGTGAGTTGACACAATGTATCTAACTCCAAAGTCCATGATCATCCCACTGCACCACAGGCCTCTGCCTAGATGGA
GGGGAAAGGTAGTAATCTCAGAGAAAATGGAGAGATGCTTCAGAAGGCTGCCCATGTGATATGACTGAGTAATAAGTGTTTACATATGCATGGCCCTAAG
CAACTCCCCCTCCCCCCGACAAATCCTCACCCTCACCCTCATCTGAGATCATCAAAGAAATGTACACATGCTGGAAACGTCTATGTAAATTATCAGCAGC
CACTGCCCCCAGGGAGCCTGCCCACCACTGTCCCTTGAGTTTTATGAGCCATCTCAGCACATTCATCATGATATTTGGAAGTTTTGCAAACAGACTAAGT
TTAAAAGTACTGTAAAGTTAGATTTCTCCTCCAAGAGAAATAAATGAGGCCATATATAAAGTCTTAGGAAACTGAAGCTGGTCCTGAATTGAGCAGGACA
CAGGGAGGAGGGTCCATTCAGAAAAGTAGGGACTTGGTGGTGGGACATGTGGCCCCCATCTTCAAAGGACTAATGAGGAGCCTTAGGACAAGATAAAACA
CAAGATGTATAACTAAGCCCATGAGCAGTTCAGCTCTGAAGGTTTCCATGTTCTCCATCTATGCTGCCTCAGCCTAGTACGCTCCTGGCTTAGGGTAATT
AGGGTTAACTATAAGGCCCAAGCAATGGCCCTTTGGTCAACCCCAGGGCTTTTCTAGCCACAGACTGTGCCTGGACTGAAGGATACTGAGGGATGGTTTA
GAGAAAGCAGATTTGCTACCAGCCGCCTGAAAGATTCAAGGCATGCTCCAAATTCCCCATATGTCCACACGAATAACAGGCCTGCCATCTGGACTTGTAT
TTACATCCTTCCGGAACCTAATTATTATTTTTAGGACTGTACATCTTCTGAGGTCAGTGTACTCCATATCCATTCATTCATTCATTCATTCATTCATTCA
GTAAATATTTATTTTACAGACAATCCAGGCTAAGCCTTGGAAATTCATAGATTCATCCAGCATGACCCTAGYCCTCAAGTTACTGACAGTTTAGGTGGGG
GACAYAGGACAGGCAGCAAGCAATCAAGGTGCAATATGGGAGGTGCTCAGATACAGGAAGGAACAGGGAGGGGCCCCCCAATTATTAAAGATCCCATTCC
TCTGTGCATGCCCTAAGCCTGCCCTGCCTACGCACTGTGTGGGTGTTAAGGAGACAGTAACACGACCAAGCCCCAAAGGATCCACAGTGCAGTAGAGGAC
ATAGAAATGTTAACAAATAAGTGAAGTAAAATGGGATGACTACTATAAATAAAGGTATGAGAACAATGGGGAAAGAATGACTAATTCTGGAGGAGGAGAA
GCAGTTTCCAGAGGAGGGTGTGATTTCATTAGCTGTTGAATGAAACAGGCTGCAATGAGACTATGCTAAAAACTTTCCCCAGGACCCAGGAGGTTGAGTT
CTCAGCCCCCTCCTCCTCGTGAATCCACAGAGAGGCTTGGTCTCAGTGGTTGAGTACCTGGTTCCTTATCTTTAAACCAGAAATGATCATTGTGCCTACA
TTATGGGGCTGGCTGTTGCGACTAATGACTGAAATGGTCCTTGTAAAGTGTCAATCGTGCTGTTTTGCACATAAGGGTTAGCGATTATGATGTGATCTTG
CCCCCTCTTAGTTTCTATTCTGTGATACTGAAAGGCTTCATCTCTCCTCACTTAACTGCCCCCCTCTTCCCCTGACCTCCTCCTCGGTCATTTCTGTTGC
TACGCTACTATATGAATAGGTATGTGGCACGGCTGCTTTATAGCACTGAGAAATTGTAAAGGATGCCTGGTGGGTTAGCGTCTGTTTCTGTAGGAGAGAG
ACAGACAAACAGCACAAGAGACAGAAACAAAGCAGGCAGCACCATAGGTAGGGAAGTATTTTTTTTTTAAGTTTGAGAGGCATTTCTGTAGACAGTCCAA
CAACTGGACAGACACGCAGGCACCTTGGCAGGTAGACAGGCAAACGACTTGTCATCTTTGTCAGGTTCTTCAGAGCTGTGAGTTGCTTTCTGGATGCAGC
TGATGGGGGTTAATCTATGGTTATTGTGATTCTCTTTCCAGCTGAGTGTGGGAATTCAGTCACAGGCACTCAGGGTACTTTGCTGTCCCCCAACTTTCCT
GTGAACTACAATAACAATCATGAATGCATCTACTCCATCCAGACCCAGCCAGGGAAGGGAATYCAGCTGAAAGCCAGGGCATTCGAACTCTCCGAAGGAG
ATGTCCTCAAGGTAAAATTGATCGATTTCAGAGTATGTGTGTTATAGTATGCAATAGTCTAGTCAATACTCACTCCTTTGTCTCTGTGTGAATGATCCAA
ACTTTCTCCTTCCTTCCTGAGTCCCAAAATACTGTCCTCACTCATCTGGGAGAAAGAGAGGACCAAAAGAGAGGGGTATATGGGTATCTAAGAATATGGT
TTTAGAGTTTGTTTAGAAGCTGCCTGCTATCAAATGCATGTGTAATTGAGTATGGGTTGACTGCATAATAAAAGAYAATAATTTAGCTTAGGGAACATGG
CAAAGCCCCATCTCTACAAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCATGCCTGTAGTCCCAGCTACTGGGTAGGCTGAGGTGGGAGGGTCACTTG
AGCCAGGGAGGTTGAGGTTACAGTGAGCCATGATCATGCCACTGCACTCCAGACTGGGTGACAGAGTCAGACCCTGTCTCAAAATAATAATAATAATAAT
AATAATAATAATAATAATAAGTTCGGTTGGAGCAGCCAATGGATCCAGTTTTCCATTTTGAGCCCTGACCRTCAACATGGATGATGAAGAGCTCATAGAA
CATGTATATATATGCATGTGTGTGTTCATTTGTGTAGCTATGTATTTATGGATATAGATGCTTTTTTAAATATGTTTCCACCTGTGTGTGAATCGGTGTC
CATGWATTTGGTTTTGGGGATCTGTGTCTGTGCAYACCTGTGTCAGCATATTGTGTGTATGTGCACTTGTGCATTGTGTATGTTTTGGTTGAATAACAGG
CTATTGCAGTAGCTTCAGTGTACTACGATGATGGCCTGGTGTGGCAGTGGGGTTAAAGAAAGTGAGTTTGAGACATATGTAAGGGAARGAAATGATAGGA
CTTGGATTACAGAGAAGGTCATAGAGAGGGATTTGTTAAGACACTGAGCATATATGTCTTATGTTTCTTTGCATAAATACAAAGAATATGTGATTGAGTA
CCTCCAATAATGTGTGGTGTATGTCTGTGTAATCACAGAGTTGAGCGTGGAGAATTTATTAAAGAGCTGCCTTAATAAAATGAATGATAAGGAAAGCCTC
ATACAAAGCATGTTCATTTTCATTCTAGGCCAAGGAATTTTTTTAGCTTTTTCTAATATAGTTTTATTCCTTGTAGCCAGAGAAGTCCTTACATTGGAAA
AAGTTGAACCAGAGCCCACTACTCTGGAAAATCCAAAGATAAACCATTAAATTTCCATGCTTTCAGATTATCTCCAGATGTGATAAATGTGCTGTCCTTT
TTATGTACAGATGATGGATACTCTTGGCCAACCCCCTGGGGCATATGTCCTCTGGGGTGTATGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGCGCGCGCGTGTGCACGCGTGCGTGTTTGAAATGCATTTCTCACTCTTACCTAATCCTTTTTGAACCCAAGAAGATTCACTCATGAGAT
CACTGGCTGGGACTGGATGTGCCTGAAATGGGATAGAACAATCTCATTGGCTTCTTAAGCTCTGCTTTCCAACCCCACATAAAAACAGTGTGTGTCTCCC
AACAAGAGAATACAAGACAAGGGTTTTATGCCCTTCCAATAACCATGTCTTTAGGCATCACCCTTGACCTTCACTTCCCTCCATCCATTTGAGTCTCAGA
GGGTGCAATCAGTACAGCAGCACCAGAGGGACCTCCTCTCTGTAGAGGTACAGATGGAGTAACGCAAGCTGGGCAATGCAGAGGCTTTCTTGGATGAAGG
CCATTAGCACAAAAAGCCAGCTTTGAGGCATAGTTTACAATTTTCAGGTTTTGAAGGGAGTATAAGCAGTGGTTCTGTGCAAGTGACCTGATAGAGCCAG
CAGAAATGGCTCCCAGGTTGCTGGAGGTCATATGGAGTATGGCCAGTGCCCATGCTTCCTCACTAAGGGGGTCTAGATTCAGAATAGCACCTAAGACATA
GTCAGCAGGTGTGCACACTCAACGGCACCGTCAGGGTTCTGGCTTCAGGGTCAGGTGGGCAGCTCAGTAGATAAGCAGAGAGAGTCTTTCTGAGGTGGTC
AGGGTAAGAAAGGAGGAGGGACATGGGGCATAAAACCTAGGTCAGAGTTCAGGGAGGACTAACAGAGGATGCAGGAGCCCAGGTAGTGCACACACATACG
TGCACACACACACGCATACACAAACACATGCACACACATGCAYACRCACACAATGCACACACGCACACACACATACACACGCACGCACAAACACATGCAC
GCRCACACACACACACGTACATGCACACACACACACACTCTTTAGCACCAGGGTAGGAAATGCTCCTGCTACGGCCTCTTTGAGTTTAGCTCCTCTGCTC
TCCCTTAGAGACTGCTGAGTGTTTCCATTCCCAATTTCCATTTTCCCTCTGTTGTGGTGTGCCAACAAGAAAATTAACTGGATATGTGTAAATATTCAGT
AGATCAGAAGAAGAAGACATGTCTTCGGAATCAGAGCTAATTGCCCCTCTGTAGGCAACGAAGAACAGAGACATACTTTAAAAGCTCCTAATTTGTATTC
TTAAGAGAATTTGAGAGAATATTATATTTATGACACAAAAATAGGCAATAATGAAAACAGAGCAATCTGAGATGAGGAGAGATTGAATAGAGATGAAAAA
CATGATCACCCAATTAAAAAATGGAATGGAGGCAATGAACGGAAGATGGTAAACCACAGAAAAATGAAATCAGTTTATTAAAAGATAAATTTGAGAATTT
CTCCCACATCTCATAAGGAAATGAAAAAGAGGATTATTTTATATTAATAAAATGGATAATCAATCCACAGTAAAACTTTATGTGCCAAATAACATAGCAC
GAATAAATTAAATAAAAACCGCTGGAAATGTAAAAMAATTTAATAAAGTTACAGCCATCATGGAAGATTTTAATATACCTCTGTAAGTCTGTGACATATC
ACCTAACTTAACGATAAATAAAGATTTGGGTAGCTTGAATAATGTAACATAATAAATCAGAAGAAAGTAGGAGAAAGATACTTTTAAAGATAAAGGCAGA
AATGACTAGAGAAACAAAACTAAAAAGCAATAGCAATTGTCAACCAAACCAACTGTTTTTTTTTTTTTWAAATAATAAAGTAGACAATACTAGCAGAACT
GATCAAGGAATAAAGAAGCCACAAATATGTAATATTAGGAATTGAAAAGGGACATAATCAAAGATATAGGAGAGATTATGGAAATAAGAAAATGTTTAGG
GATCACGCCACTGCACTCCAGCCTGGGCGACAAAGTGAGACCCTTTTTCAAAAAAGAGAAGGAATGTTTAGGAACAACTGTAAGCCAAGAAATCTGAAAG
CTCAGATGAAATGGAAATTTTTATAGATAAAAAGTACTAATATTAAAAAAAATCTGAAAAAAAAACAATGACCATTAAAAAATTATGATTCCCCCGTATC
CTCTCTCAAAAGCCCCAGGCCTTAACTATTTTACAGGTAAGCTTAACAAAACTTCAAGAAGCAATTAATCCCTGCAATAAACTCTTCAGAAGAGAGAAAA
ATAAAGAACCATCTCCCAACTCATTTTTTCTTAATGAGGCAAGTAGAAACTTTGGTATCAACGAGTAAAATTATGGTTACCAGGKKATTGAGGGAATGGG
GAGATAATGGTCAAAGTATAGAMAGCATCAATTAGACAGAAGAATTAAGGGTTTCTTTTTCCTTTGAGATGTATTGCACGTTACAGTGAATATAGCAAAT
AATAATGTATCATACATTTCAAAATCACTAAAAGAGTAAATTTCAAATGTTCTCACCACAGAAAAAGATAAGTATTTGAGGTGATGGTTATGTTAGTTTG
ATTTACTAATTCCACATYGTATTCATAAATCATAACATACTTTCTACTGCATGAATATATTCAGCTATAATTTATCAATTTATAATTTAAAATAAAAATT
TTAAAAAGAACAGAAATCAGAAACTATTAGGGCAGTCTCACTTTTGATCACAGATCTAAAAATTTTGAGTATAAATCTGATTGAATTTGGCTATGTATTA
AAACAAAGATGAGACCATCCTGGTTAATACAGTGAAACCCTGTCTCTAGTAAAAATACAAAAAAAAAAAAAAAATTAGCGGGACGTGATGGCGGGTGCCT
GTAGTCCCAGCTACTTGGGAAGCTAGGGCAGGAGAATGGCGTGAACCTGGAAGGTGGAGCTTGCAGTGAGCCAAGATTGCAGCCACTGCACTCCAGCCTG
GGTGACAGAGAGAGACTCCGTCTCAAAAAACAAACAAGCAAACAAAGACGACCAAGTAGGTTTGATTCCAGGAATGTGAGGATGTGTCAAAATTAGAAAA
GCTCATAATGTTATTTGTTAGACAAACCATATGAAATTGCTATTTTTGTAGGTCAAAACTGTTAAAATATTGGCAATTTCATGGCTCAACCTAATAGCCT
ATAAACAGATTAGCAAAGAAAAAGACATTATCCTGCTAATACACCCCAAAACATCATGTGATTAAGTTCAACACCCACTCATGATTTTTGAAAACATCTC
ATAAAACTACAAATAGAACTTTCCTAACTTGATAAAAATATTTCTACCAAATGCCTATAGCAAACATTATACTTAATGGCAAAACTTCCTAAAGATTTTC
AGTAAAGTCAAGAACAAGATCAATAGTTCTACTATCACCAATAGAACGCAGCATTGTACTGAAGAGACAAACCATTACATTTATACCAGAAAAAGAAAAA
AAGGAACTATAAAAATTAGAAAGGAATATAGAAAATTGTGACTTTTGTTTCAAAAATACAAAACAATCAACTAATAAACTCAAAATCAATAAGAAAATTC
ACAAAGCTTCTGGTGTTTCTATAACCAAATAAAACTTGCAATCAGGAGGGAAAGTCTCATTTATAATAGAAACAAAAACTGTAAGACACCTAGAAATAAG
CCCTCCAAAATGTGCATGATCTTAACTGAGAGAAGATAAAATTTTATTTTGATATTGATGTAACTAAAATAAATGCAGGGAGATTTCATTCTCATGGATG
CACAGAGGGTATGAAAAGGCAGGCAATTCACAGAAAAGGAAGTAAGAACTGTTGATAAACATAAAAAGATGCTCAACTTCAATGGCGATCAAGGATTTAC
ATATTAAAGTGAGATACCACTTTACACTCATCAAATTGGAAAACATCATAATGCCCTAAAATACCAAGTATCAGCAAGGATATAAAGCAATGAAAGCTGT
CAGACGTTGCTGGTGAGAGAGCAAATTGCTATTCCTTTTCAAAGAGCAATCTGGTAATATCTAACCAAATTGAAGATGTGTCATCCCCACAACCAGCTTT
TCCATGCTAGATGTATGCTCTAGAGAAACTCAAGCACACGTGTGCAAGCGGACATGCAGGAATATTCATAGAAATTATGCTTACATTGTTTGTAATTGTG
TATAGAAAGCTTTCTGCTTAGCATATTCATTTTGAAACCAGCCATCTTGCTGACCTGCTTTATTGGATGTAATGGATGTGCATAGATTCTCTTGGATTTC
TCAATCACCTGCACATAATGATGAATTGGACCATCAAGCAATATTCTGTTAGGAAATAAATGTATACAAAGGCCCAATTCCCAATAGCAATCAAAAATAT
AAAAATACCCAGGAATAAGAACAGAATGGTAGTGAGAGACATAAAAGACATTTTGATTAAATGGAGCTAGACACCATGTATATGGATTGGAAGACTCAAT
ATCACATAGATAGATTTTTCTCAAATCCGTCTATACATTTAATGTAGCTCAGTCAGAATTACACAAGTTTTGTTGGGGAGTTTTTTGTTTTACTTTTTAT
AATTCAGGAAAATTCTTGAGTTTAGAAGAGTACATCTGGGAGAATTTTGTTTAAGTTAAAAGAAGACAAATGAGGACTTTTCCTACTAATTATTTAAATA
TATTGTAAAGCTACAGTAGCTAAAACAGTGTGGGTCATGCACAGGAATAGACAAATAGACAAATGCAATAGAATAGAAAGTTGACAAACAAAACCAAATG
TATATAATTATATGTTAATTATATATGTGATAAAGACTGATTTGAAATTAGTAGTGTGTGGAATATTTACAAACAGAGTTTGGTTAAATGACTAATCTAT
CAGGGAGTTAAGGTAGAATTGTATATCATATCCCAAAATAAATTCCAGGTAGATTTAACGACATGAATTCTAGAGGAAAATATTGGTTTATTTATCATAC
ATTTACTGAGTGAGCCTTATGTGCCAGAGCATATATTTTGGGCGCTGATATGTAAATAATTATCTTGCAGATTGGGTTAATTTTTATTATAGAAATTCCT
GCCACCATTTAAATGCTGTTATGGAAAAAATATTTAATGACTTTAAAAATATACACATTATATTAAGTGAAAGAGCAGTTTGCCCTATAGTATCTATAAT
TCGATCTTATTGTTATAAAAAATTATAAAAACATAAATTTATGCAAGGAAATAAATGCATAGAATAAAGGCTAGAAGGACACTTACCAACATGTTGTAAG
TTCTGAAAGTTATTTGCACATTTCTGTTTTATAAGTTTTTCTGCAATTAATATTGTAATGATGCAAGTAACATTTTTGTTCTTGATGAATTAGGATGAAT
TATGCTTGGAAATTAAGGAAAATATCCTGTTCCCATCATACTTTTTATTAATTAACCATAATTTCTTAATAGCATCATATATCCAGTGAGGGTTTAAATT
TCCAATTATCTCATAGATGTCATAATATTTTTTAAATTTATAGTTTATTTGAATCAGGATTCAATAAGGTCCACACATTAGATTCATTGTCTGATGTGTT
TTTTAATCTGTAGGTTTCTCCCTCCATCTCTTTTCTTTTCCCCCTTGTAACTTACTTGTTGAGGAAATCAGATCATTTGTTCAGTGGAACTTTCCACTCT
GGATTTTGCTGAATGCACTCACAGGGTATCATTTCGTATGTTCCTCTGTCCTCGGTATTTATTGCCTGTAAGTTGGAAATTGGATCCAGTGGCTTGATCT
GATCAGGTCTGATTTTTTGGGCAAGATAACTCCATGGGTGATGGTATATCTTTTATTAAAGAAACACATGGTGTCTGATTGTCTTTCTTACTGCAATTGA
TGATTATTATTTCTTATTGCAATTGATGATTCCTAGTCCATTGATGATAAATGCCTTGGTCCATTGATTTCCATATGTTTCGGTGATTAAAAATATTTTT
GTAACAATTTAAGCTAAACTCTTTGAACTTGTATTATCTTGATGTCTGTTGGAACCCCAGAATTCACTCAGTCTATCAGTGATACACAGCAATTACACAA
GGATCTGGAAACAGACTTCAGGCTCCCAGGAGCCTAAACAAATCTCTGTAATATACAACACTGTTAGTTTGAAGGATGGCTTCTTTTAGAAAGCTTTGCT
TCATAAATAGTACAATGGAAATATTGTGCCAATTTGCTGGCAGCTGGCATCACATTGTGTGCCATGCACAAATATTCATCACCCACTCAGAGATCCCATC
TTTGATATTTACAAAAGCACCAGGGGGTCTTTCACTCAATCACAACTTCTGTTGTTATTTGTACAATTATCTGGAAAGGAGCAGCAACCTTGAAACCTGG
GGAGCCAGTTCATTATTCTGATGATTGTTGTCTTTGCTGGTACTAAGAAGTTCAGGGGACAGATGGGAGTGAGGGAAGCCAGATGCCTGTACGATTCCAC
CCTTGGCAAGCCCAGCAGGCCCTAGCTGGAGCCCTCATTTTAGGAGGGAAGGGGCAGAGGCTGAGCTTGGGGAAGAAAAAGTCACCATGACATGCTGGTG
TCTGGATCCCAGGGATGATGTCCAGCAGAGTGCTCAAGACAGGCTACTGCCACAGTGGGGTGGGATCAGGTGAGAGGATGGCTGTCTCATCTACTGGAAG
GACAGGATTGAGGGTTTAGCAATGTAGAGATGAATGCTTTCAGCCTGTCTCTCTGAAGAAACAGATGGTTTGACAAGYAGGCAACCCAAACCTGGCCTCC
CCAGGCTGCTAAAGAGTAAGCTGGTGCTATATGGGCATTGCGGGAACAAGAACAAATCTCCACTGGAAAGATTAGAATAGCAATGAGTTCCCAAAGACTA
GATTCACACTAAAGATGGGCTGAGCATAGAACTGACATCAAGGGAAAACGAGATAACTTGCTCAGTTGATAGCTTCCCTCTGCCATCTTCCTTGCATCTG
ATAACTCACTGTGCCTCTGATAGTTGTTACCAGTGCTAAASTCCAGGASTGTGGGTTGTGGGGTAAGGAGGTGTTGTTCAACATAAGGCCATGCTGACGA
CATTGGGTTGGGGGTCTCTCCTGTGTCCAGGTTTATGATGGCAACAACAACTCCGCCCGTTTGCTGGGAGTTTTTAGCCATTCTGAGATGATGGGGGTGA
CTTTGAACAGCACATCCAGCAGTCTGTGGCTTGATTTCATCACTGATGCTGAAAACACCAGCAAGGGCTTTGAACTGCACTTTTCCAGTAAGTCTTTCTT
GCATCTGTGTGGACAAGGAAGTCAGGGTTTCCCRTTTTATTCATTTATTTGAGCTTCTGCTTGCTCACGAGATACAAAGAATGTGCTCTTAAGACTGTTT
TAAAATCCAATATGTATCCATCAGTGGATGCATGGGTAAACAAAATGTGATATGTTCATACAATGGAATAGCATTTGTCCATAAAAAGGAGTGAAGTGGC
CGGGCACAGTGGTTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAGATGGTGA
AACCCCATCTCTACTAAAACTACAAAAATTAGCTGGGCGTGGTGGCGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAAC
CCGGAAGGCAGAGGTTGCAGTGAGCCGAGATTGYGCCACTGCACTCTAGCCTGGGTGACAGAGCAAGACTGTCTAAAAAAAGAAAAAAAAAAAATGGAGT
AAAGTATACATGCTTTGACATGGATGACCCTTGAAAAGATTGCAGTAAGTGAAAGAATCCAGTCTCAAAGGCCACATATTGTTTGAGCTCCATCATATGA
ACTGTCCAGAACAGGCAAATCCATAGAGCCAGAAAGTAAAGGGCAGTTGCCTAGGGCTGAGGGAGTTGGGGGAAAAATGTGTATGGAACTTCTTTTTGAG
GTGATAAAAATGTTCTAGAACTGATTATGGCAATAGCTGTACAACTCTGAATCTACTAAAAGACATTGGATTGTACACATTAGGTGGGAGAATGTATGGT
ATGTGAATTGTATCTCAATAAAGAAAGCTATTGGGGAAAATCATGCACGGAGTATAGTCAGGTTTCCCCTCGTCTGGGCTCAAGGCTGCCTGGCAGAGGA
TCCTTGCCTGTTACAGCAAGAGGTTCAGTGGAAGAGGATTAGAGACACCTTTGAATTCCACTTCTATCATGTGAAAATTGTGTAAGTTTGGAACAATTTA
TTTAACCTTCCCAAATCAATGCTCTCCGTTGTAAAATGCAGATAATTATACCCACCTGTAAGACTCCTGTGAATAACAAATGAGAGAGAACACATGTATA
GCGCCRTAGAGTGGGAGCTCTGCATAAATCTGTTTCCTTTTCCAGCCCATTTCAACAGCGTATGTTTAAGCAGGTCATAACTCAGCTTTTAAACATACAT
TTAAAGTGACTTCTCCATATTACACCATCTTATCAGAATGTCTCAATAAGCAAAATGAAAAGAACGCTCCTGCTAGCAAAAATGCTACGGGGTCAAACAA
AAGAAATAGAAAATGCAGACCTTAGGCCTGAAAACTATTAAAAGCAGAAATCATTTACATATAGCAACAGAGAAATGGATGTTCCTTAATATACCCTCAA
CTGAGCATAGAAATGAGGAAATCCTGACTGGTGAATCCATCAGAACCCAGGGTCCGTGGCTGAGACAGCTTCCTTGAGGACGTGGGCTTTGAGGGAAGAG
AGGAAGCATGGTTTCTGCCACAATAGGTCTTACTCACTCTACCTCTTCTCTCCTCACCAGGCTTTGAACTCATCAAATGTGAGGACCCAGGAACCCCCAA
GTTTGGCTACAAGGTTCATGATGAAGGTCATTTTGCAGGGAGCTCCGTGTCCTTCAGCTGTGACCCTGGATACAGCCTGCGGGGTAGTGAGGAGCTGCTG
TGTCTGAGTGGAGAGCGCCGGACCTGGGACCGGCCTCTGCCCACCTGTGTCGGTAGGAGGGCTCTTCCTCTGCAGGGAACCCTTGGGTCTCCCATAATAC
CAAGCTCTAGTCCTGGTCYCATTCCAGTTAGACCCCATGCTCCAGGGCCTGGGGGCCATCAACTTGGACTGAATCCTCTTGTTAACAGGCATCATGGTTC
ACCTGCACCCCTTCTCCACTTCCTCACTTTCACACCTCATTACACCCMTGCAGCAGTGCAGTCAGGCGGGTGGCTTGCCTTTGTCGCACATTTAGCAAGT
GGGACCACAGCCAAGTCATGCCCTCAAAATTGTAACGCGGGTGATAGCGATGAGGTGGGAGAGTCCATTAGAAAGGGAGAGATGGGGCTTTTGCCTGAGT
TCCAGGGCTTATCGTAACGCCAAGACTCAAATGAGTCTCCCACCCACTTTAGGTCTCAGTTTCCCTATAGGTAAAATGGGGCTCATTCTCCCTTTACTGG
AGGAATGTCAAAAGACATAGTAAGATAAAGAACACCCATTGCTCTCACTGATAAAGAATGCAATAATGAACTTGCATCTTCTTAAACCTGTGATTCTTCC
AGAATGTCATCAGAGGTTCTCTAGAATCTTTACACATGTGTCACAGGACAAGAGACAGTGATCTGAGGCAGAAGTGCAAAATAGGCAAAATTGGTTGTTC
TGTTTGGCCTTTTCATCTCTTACCACCCATCTCCCTGCTAATGTGAGTTCCCCCATACTGCTTCGTCCTGCCTCCTACCTTTCCAAAACCAGATCTGTCT
CTCTCTCCACCCCCTTCCCCATGTCCCACAACCTCAACGTGTCTGTGCCAGCACTGGCTAATCTTGTAAGAACAAAACCTCCACTGGAAAAACACATACA
TGCCTACCAAGCCCCACATGCCAAAATTGGTGCACATGTATGTCTGGGTATTTGTGGAGGCAGAGAAATAAATGAAGAATAAAACCTGTTCACTGCCCTT
GTCAGGGCCCATACTCCAGCATGGAGAATAGACACATAAACAGATAAGTATAATGTAAGAGAAGCACTGTAAAAAGAGTTAAGTGCAAAATGTTGGGAGG
ATATGAGAATGTTTTGCATGGGAGGTGATATTTCAATTGAGACTTGGAAGAATGGATTAGAATTCACCAACAGGAGGGAGAGGAAGGGAGGTTGACATTC
TAGACTGAGCACGTGCAAGGGTGAAAGTGTGAACCAGCATGGTGGGAAGTGTTAAAGGCCACAGATGCTTTTCCCCTAGACGACTACATTTTCACAGGAT
CTTTAACACTGTTATACAATGGAGGGTCTAAGTGGACCCTCTGCAAGTGGACAGACCRAAACAGTAGCCTTTATGGAACCTCTAGGGTCTTCCTCTCCCT
TTGCCTTTGACCTGGTCTTCAGGCATATCTCCCCTTTCGCCCTCCATCTCTTTTTATATCTCCCCTCATTCATGTGCCAGGAACTATGCTAGGCACTAGG
AATACAGAGAAGAGCAGATCTCAGGCCAGGAAGGGTGATGCTTGCATAAACACACAACCGTATAATGCCACAGACAAGCAAGCCAGAGCACACAAAATGA
AAAGGAGGGATGATGACTCGTATTACAAGATAATTATTTGCTTTGCAGAAAAGATTCACTGTAAGATTACTTTGAATATCAAATATGCCAGTTGGACTGG
ACTTATTGGGTTCACTCAAGCAGTATAAGAGCATTTAAACTTAGACTTACACTAGAACCTTGGAGGCCTTCCCCATTGAGACTGCCTCTAGCCTGMTAGG
GGATTGAGGCTGTGTATTTGAGATTATGTGCATATTTTTGTATATGTCATGTTGTGGTCGACTTCATCATGGTCTACCACAAATGACTGCTATAGCTTAA
AACATCCAAATGTTTTATTCTTCGGTGAGTGGACTCTGCAGCCCAAACAAAGCAGCCAAGACTCAAGGGTGGGAAGAAGGGAGAAGACCAGAAAGAGTAG
ACTTACATGTTCTCAATGTTGTTGAATCTGCTACATGCTGGCCCACTCAGCCCCCTCCTGCCCACCTGCCAGGCCCCAGGTAAGGTATCTAGTTGTCCAT
GATGACATGTTCCCAGTGCTGCTGCCTCCAAATCCTCACTTCCCAGGAAGCAGGAGGTCCTTCTCTGTCTGGAATATGGAAGGAAGCTCTAACCAAGGAC
ATGGATAATGCCCTCCCACCTTTCTAGCTACTTCCTCTATTTGTGGAACCAGTCAAGCCTCCTCCCCACAATTGTAGTCCATCCTCTCACCAGCACCCTA
CTCCCTGCCATGGGTCCATTCAGCCTGGCATCTTTCAATCAGGTTGGCACCTCCCACCCCAACAGCACCTTGGAGAGAAGAGTGAAGCTTGAGCAGAGGG
TCTTGTAGAGGGCCTCTCCTGCAACCCTTCCTTAGTGGTCCTGTGTGAAACCAACGGGTCCATGAAATGTTTGATGTGTCCTTTATAGCAACAGGTAGGG
GTCAGTCTTCCATCTGTGACCCTGATCCCTTCTTCTCMTATTTCTAGCATCTTGCCTAATCAACTATTCCTTTTCCTAAATAGCTCTGCAATGAACATCC
TCCTCTTCATTTGTAYTCATTCTCCCTTGATTCAGACGCTTATAGTAATTTGCATGGAAAGCAATAATCTGCTTCCATTCATTTGATTGTCCAGCCATCC
ATTAATTCAATAAACGTTAAGCATCTATAATGTGCCAAACAGTATACTAGGTACTTGATGTGCAGATATAAGACAAGGTCCCTGCTGCCAAGGAGCTCTT
AGTCTTGTGGAGGAAATAGACATGATTTTAATAACATGTTACACATGCTATAGTAGAAATCTATTCACATTGTAATGCAGACACAAAGGAGGGCAGTGTC
AGTTCTACCTGGGGAGGGGAGGTATGTCACAAAAGATGTCACAGCGAGGATGTTTATTCAGGTCCTCCATCCAAATAGAGCTTGTGGACTTCATCAGCCT
AGACCAAAGAGTTCACGGAGGCCAAAGGGAGCCACTCTGGTGGGCTCAGTGGGCTCTACTGAAAAGTTTAGACTTCATTTGGGGAGTGAATGCAAGCAGT
GACTTGTTTGCATTTGATAAAGATCCGTTGATGGCACTGCCTAGAGCGTGGGCAACTCTGCCAGCCTAGAGATTGTGAGGGCCTGAGTCAAGACTCCAGC
AATGTGGGCAAAGTAGAGTCAAACATGAATAATACCACACAGGTTTAGCGACTGGGTCTCAGAGGCAGATTAGATGTCGGGGAGGAAGGAGGAGAACACC
AGCAGGAACCCCCAGCTTCTGACTTCAGTGACTGCTCCAATGGGGAATGTAGACCTCTTCACCTGCCTCCCTGCCTCCAGTTTCACCCCTGCTGTACCCC
ATCATACTGCCACCACAGTGACTCCTCCTAACATGCAAAGTTCACTGATGTGTCATGCAGTCAATTAACTCACATGTATAATCACTGCAATTCTTTCCTG
GAACAGTGAATATATGACAGCCTGGTATCCAAGGTCCTTCAACCTGTGATGCTTCCTCACCTTTCCRGTCCCATCTCCCCSMTCTCCCTATCTCATACCC
CAGCCTCCAGCCTGCCATGCTGTTCCTCACCTCCAGGAACTTTGCAGTTACTCTTCTGTCTCTCTCTGCAGTGCCCTCCTTCCCATCCTACCCTTGCCAC
CCAACCGACCTGGTCAACTCTTGCTTCTCCTTCAAGGTTCATTTAAGACCAGCACCCTCCCTGACCCTCGCTGTCCTTTGCTCAGGGAGATTGGTCACTT
CTGCTGCTACTTGTTGTTAGGATACCTAGCACACAGTGTGGCTGTCTTCTCTACTASACAGTAAACTCTTCCAGGGGAGGGCAGTATCCTGTTGATCTCT
GCTGTCCTGGCAGCCAGCAGAGGTCCTGTTGCTATCAAGAAGCAGGTTGAAGTACTTGCATGTTCCTCCCTAGGAGGCTTTGAGGAGGTTGGTCACAGAA
CAGGCAATCAGCCCTACACTCAGGGACCATTTTTATTTACCAGTGTACAATTCAGTTGTTTGTAGTTATATTAGTCTGTTCTCACACTGCTGTAAAGATA
CTACCTGAGACTAGGTAATTTGTAAAGAAAAGAGGCTTAATTGACTCACAGTTCCTCATGGCTGGGGAAGCCTCAGGAAACATACAATCATGGCGGAAGG
GGAAGCAGGCACCTTCTTTACAAGGCAGCAGGAGAGAGAAAAGTGAGAGAAGGAGGAACTTCATAAGTTCTGATGGAACTTATAMAACCATCAGATCTCG
TGAGAGCTCACTCACTATCATGAGAACAGTATGGGGAAAACTGGCCCCATGATCCAGTCACCTCCCACCAGGTTCCTCCCTCAATATCTGGGGATTACAA
TTCAAGACGAAATTTGGGTAGGGACACAAAGCCTAACCATGTGAGTAGTATACTCACAGGCTTGTACAGCCATCACCACAATCTAATTTTTGAACATTTT
GTCCCCCACAAGAGAAAACCCATGCCCATTAACAGCCACTCCCCGTTGTCCCCTTCCCCAGGCCCTGGCAACCACTAACGTACCTTCTGTCTCCAAGATT
TGCCTATTCTAGGTATTTCACATAAGTGGAATCGCACAATGTGTCTGACTTCCTTCACTTAACTAATGTTTTCAGCGTTCATCTATATTGTAGCATGTAG
CAAGCCTTGATTCCTTGTTGTTGTTGTTGTTGTTGTTATTGTTTTGAGATGGAGTTTCGCATTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCGGT
TCACCACAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTACCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTACCACCACGCCTGGCTAATTTTT
TGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGATCTGAAACTCCCGACCGCAGGTAAGCCACCCACCTCAGCCCCACAAAATGCTGAG
ATTACAGGGATGAGCCACCATGCCCGGCCGCCTTGATTCCTTTTTATGGTTGAATACTATTCCATTGTATGGCTATGCCACATTTTGTTTATTCATTCAT
CAGTTGATAGACATTTGGGTTGTTTCCACTTTTTGATAACTATGAATAACGTTGCTATGAACATTCATGTTCAAGTTTTTATGTGAACATGTTTTCATTT
ATCTTGGGTATATGCCTAAGAGCAGAATTGCTAGGTCATATGGTGACTATGTTTAACATTTTGAGGAACCACCAACTTGTTTTTGAAAGCAGCTGCACCA
TTTTACATTTCCATCAATAATGATGAGAGTTCCAGTTTCTCCACTCCCCACCTACGCTTGTATAGTCTTTTTGACTATAGACATCCCAGTGGGTGTGAAG
TGATATCTCATTGTGAGTTTGATTTGTATTTCCCTAATGACTAACAATGTTAAACATCTTTTCATGTATGTATTGGCTATTTATATATCCTCTTTGGAGA
AATGTTTATTCGAATCCTTTGCCTTTTATAAATTGGGTTACTTGTCTTTTTATTGTTGATTTGTAGGGGTTCTTTATAGGTTCTGGATATAAGTCTCATC
CAGAGACCTTTTAATATGCTGTGCTCAATCACTTGAAATGAATGGGAGAGGGAAGGGACTCAAGAGCAAACAGGCAAAAGGAGCCACTGAGTGACTGCTG
GCAGCTCAGGCCACCCCATGAAGCTCACTCTTTTGGGATTTCTTTCAGCCGAGTGTGGAGGGACAGTGAGAGGAGAGGTGTCGGGGCAGGTGCTGTCACC
CGGGTATCCAGCTCCCTATGAACACAATCTCAACTGCATCTGGACCATCGAAGCAGAGGCCGGCTGCACCATTGGGTAAGTGTCAGGGCTGACAAAGTAA
CTATCGCCAGTTGTTCAGGGGARCCATCATCAGCATCATCACCAGGCCATCCAGCTAGTGCCTGGCCTGCCTGCCTCACCTGGAGAACCTTGTGATCAAT
AGTGGTTGCTATACTGGATGCCTTAGAAAATCTAGAAAGGTCAGTCTCAGCCTCTCAGGGCTTCATGCCAAGTCCATACACCTCACTGGCCCAGATAGCA
CAGTTACAGCAGAGTAGCCGAGGGCATGGATTGAAGGCATGCAGACCCCCATTTGAATCCAACCCTTCCATGTACTGTTTGCAGGACTTTGGGAAAGTTC
CTTATCCTCTCTGCATCTCATTGTCCTCTTCTGTAGAGTGTGGATCTCAGGATAAAGCACTTGAATGAGATATTGCATGTAATATGCTCAGTATAGTATT
TGGAACATAGTGAAATATTTAATAACAGTTGCTGTGGTTATTTCTGACAGTTAGCAAGCACTAACTCAGCTTTAGCTGTATGGCCCCTGGCAGATTGCTT
CCCTTTTTTAGGCTGTTTCCTCATCTTTAAAATGAGGACAGAAATGCTTGTATTTTAGAGTTGTGGAGGAAGTAAATAGCAAAAGACCAGCAGTGGTATG
TACTTCTTCAAAAGATAAATTCCTTCAAAATAGGTATGCCATCAAAATGTAACTTCCTTCCAGGCATTCCTTATTGGAATTTCAAGGAGTCAGAGGAGAA
AGAACCATCACCATTTACTGAACACAGAGCCTACCTTATTAACTCCCTGCAATAGCCCTATTGATAATAATAGTAAGCCCTAATAACAAATAGGCATTAT
TGTAATTCCCATTTTATAGATGAGAAAACTCAGATTCCAAGAGGATGCATAGCATTTCTAAGTTTGCACAGGGAATCAAAACTCTGAGATCCGAACCCAG
GTCTTTCTGAATCTTCACACTATTGCACTGCTGGCAAAACGGGGCCTTGAGCCATGGCTCAGGTGAGTTAGGAGGAAAAGAGCAGGTTGGGGTAGCAGTA
TGAGCGGAGGTATGAAAGGAGGATAGAACAAGGGAATTGGGGGGGAAACAGTCTGGCTGGAGTAGGGGAAACACATGGGTAAGGAATGGGAGATAGATAG
GGGTAAAGTATAGCCTGGTTATGGACCATCTTAAATGCCAGTAACTAAGAGGGAGCCATGGAAGGTTCTTGAGCAGSGTCGGTCCACCAGGGTTATTTGC
AGTGTAGAGAGCTCATGGGGAGACACCATCAGGAGTCTGTTACAATGATCCAGGAAGTAAGTGCTAAGGATTTGGAATAGTGAGGAGCCAAGAAAAGGAA
TAGAAGTATAGCTAGGAGAAGATTCCTGCATGTAAGAGTTTCCAATTAAGAAGAACTGGCTGAATGGGTGTTTTGCTGCAAGAAATATAGATATTCACTT
ATGTACACAGTTCAATTAATGTTAAGGAAATGTATTAAGTATTTAATATGTACAAATTTTTTAGCTAAACTCTGAGGAAAATAAGGTCAGCAGTGTACAT
AGGGACTTTGCATTGTTAGGGAACAAGTTAAATATGCACATTCATCCTGCACGGCACTGCTGGGATAACCTTCTGAAAGCATACCTGATCAATTCACCCT
CTGATCAGAAACCGGATTCCATGGCCACCCCACGCTCACAGAATAAAAGCTAAACATTTTATTCTGGCCTTTGAGGCTACAGCGACTTCAGCCTCCCTCC
CCAACCTTATTTTCCACTTCTCTTCAATGACATTCCGGCAAAGCAAAATTATTGGTGACCCCTGTACATGGCCTAGCTCAGGGCCTAGCTCAGGGCCTTT
GTTTCTACTCTGCCCTTCCTCTGGAACGCCCTCCTCCCTCCAAAGGCTTACATCTAAAATTATCCATCCCTCAAAGTCAAGTGCAAATGTCAGCTCACCC
GGGAGGTCATCCCTCACCCCCTCTCTTGCGGGGCTCCTAGGAGTCCTTTCTGCCTCTTTTGAACTTCCATTRCCTGTTGCATATATTTTCCTGATGACAC
TGACCACTTTTCTCCTTTATTTATGCTCATGCCTTACCTCCCCTCCTGGAGCTGTGGTCTCTGCCTGATTCATCTTTGCAAGTCTCCCAGCTCTTAGCAC
AGTGCCCCCGGCTCAACAAGTGTCAAGTGTTTGATGAATGAAAGAATGAATGAAGCAAGACCCAAGTATAAAGGTAGTTATATGCCTAGTGGATCTATGA
TAGTTCCTCGGTGACTAGTGGTTGAACAATGAGTGGATCGAGAACATAATGACTATTTCACTTTAGTATACACATGTGCAAATCAAGAGGTTTTCCCACT
TTCTTCACTTGGAGCATCATTCATTGATGCATTCATTCCCTCATATTCACAAATATCTGTTTGTTTACTACCTGGTTGTSCCTGTGCCAGATGCTGGCAT
TATATAAATGAATGAGATGTGGCCATGGTTCACAAAGAGCAGACGCACATGTCTGTCCAGAACAAGGTGGTGGCACAATGAGGAAGGGGAATGAAAAAGC
AGGACAGGAGGAGATGGGAGAAGTTATTCTGGAAAAGGTGACCCTAGAGCTGAGTCCTGAAGGAAGGAGAGGAGGTTGCCAGGTAGCCAAGGAGGAAGGT
GGGTGGGAGGGTAATGGGCCTCTAGGCAGAGTGAAGCAGTGTGGTCAGCCTCAAGGAGCTGGAAATGGTTCCCGCAGCTGGATGATCACCTGCGATTTGG
TGGGTGGCGGCATTCATGGGAGATGAAGCTGGTGGTGGAGGCTGTGGGGAGCACAGAGGGCGTTGGGGCTATGAGGCTGCGTTTTGACAGCTCCTGGCAG
TTTGGAGGAGAATGGGCGGAGTGGGACGGGCTGGGCCGGTAAGCGCAGTGAGGAAGCTGCCTCCAGAGTGTGGCTGGGGACGAGGAGGCCAGAAGTCAGG
CAGTGGCAGTGGAGATGGAGAAGAAGAGAAAATTCAGGGGACATTCAAGTGATCACACCAACTTTTCTCAACTACTGTKTGTGACAACAATACACCAAGT
ACCYGCGTACCTACCGCCTACACCCAAATGGCGTTACTATTTTGCCATATATGCTTATGTGCTTTCTTTGTKCTTCTCTTTCCATCCTTTTGTTTTCCTT
TTTGCTGAGCTGCTGGAAAGTACACTGTCAACATCATGATACTTCATTTCTAGATGCTTTGGCACACATCGTCTAAAGAGAAGGATGTGTTCATCCATGG
CATAGCGGCCGTAATGTACCTAAAAGGCACAGCATTAATTCTCTGGGAATTAAGGAGAGCAGAGCAGATCTAGGTGTGGCTGGCACAAGGAAATTACAAT
AAACTGATGAATGGATTTCTGGGCAGTAGTGAGGACCATTTTCACTGATGAGAATGGTGGCTATGGGGGTGGAGGGGAGACAGGAGGCGCCTTTCTAGCC
CTCAGGAAGACAAGATCAAAACCAATACAGGAAACGTCCTCTCCAGAGTAACATAGCAAGAAATATGAAGTCATGGGGGGCATGCTGAGGATCCCAAAAT
GGGAAGAAGAAAGTAAAGGTCCAAAGAAGGTAAAGATAACATCAGTCCTTAGTCTGGATGGCTTCTTGGAGCCACAGCAACCTCAAAGGAGCTAATGTGA
AGTAAGAAGATGTCTTCCCAGTTTCACTGAGAGCTGCAGAAAGATGGAGATAGAGTGGCAAGACACTGTCCCTTCCTCATTCTCCCACCCCAGTCTGCCA
TCCCAGCCAGTATGCATAGCATGCACACGTACAGCTGTATTTATGTGTGCTCACTCCGTCCTCCCCCTTTCTCTCCCCTTCCCTTCTTCTTTCCCACTCC
CTCTCTCCCTCTCCTCCTCTCCTTCCCTCCTTCTTTCCCACTCCCTCTCTTCCTCTCCTTCCCTCCCTCTCTCTCTTTTTCTCCTCTCCCTCCGCCTCAA
CCCCCAACACACACACACACCTGTCTTGAATAACCAGCAGCAAAGTTAGGATAACTCACACTCATAATTAGACAAACACAAAAAGCCCCTTTGTGTTTGA
GTCCTTATTTAGTTATTATCTTTTTTATTAGAAATATCTTTATAGAATTTTTCTATATACAAATTAGGTACTCTTTTTTTTGGAGGAGGGTTGGACAGTC
TTGTTCTATTGCCCAGACTGGAATACAGTGGCACTGTCTCAGCTCACTGCAACCCCTACCTTCCAGGTTCAAGCAGTTCTCATGCCTCAGCCTCCCAAGT
AGCTGGGATTACAGGCAAGCGCCATCACGCCTGGCTAATTTTTGTAGAGACAGGGTTTCACCATGTTAGCCAGGCTGGTCTCGAACTCCTGGCCTCAAGT
GATTCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCAGCCAGATAATCATTTTTTTAAAATTCAAAATTTAAACAAAT
TTATAAACTCGAAATGAAACGTTTCCACAATCTTACTCTGTAATCTTACTCCTCCTCACACCCCACATAAAATAACTATTAATGTCTGTYTGCTCTACTT
ATTCTTTTGGATATTTTGTGTGCCAATATGTACATAAAGCAAATGTAATGCACATGTTTCTAAACCAAGTTCATCCACATGCATGGCTTAGTAGCTTGTT
TTCTGTTTTACCTCTTAATCATATGTCACCATCTCATCATGTCAATGTCTATAGACCTACCTCATCCTGTTTGATGGGTACAGAGAATTYTATTGTATGT
ACCACCATAATTTATTTAACTATTCCCCTGTTGAATAAGTGAATCTTTTCAGCTTTTCACTCCAACATTCTTATTCCTGAATCTTCGAACAGTTGTCCAT
TTATTTCCTTAGGATATATTTTTAGGAGGTAAATTTTGATACATGACCTCAAATTTTCTTCTAGATATTATAGCAATTTACAAGTCTACCAGAAGTCTAT
GGGAAGGCCTGCTACCCCACGCAGTATCACTAGACATTGTCAATACTTTCAGTCTTCACCGCTTAGATGGACAATAGGATATTTAATTGTCTTTGCTGTT
TCTGGTTCTTTGTGTGTTTTCTGTTTGGACAATTTGTCTTTTTCATATAGAGTGTTCARCTGGGCTCATTTCTAGTCTATAACTCATTTAGGTTTCTCTT
AAATCCAATAATATTTAAGAATTTTTTCAGTTACTAAGTGGTTTATAGATCTTGTATGCTTTTCATTATTTTTATTTTGACTGCATTGTGCCTTTTTTTA
CTTTTCAAACTTTTTGTTTTATTTATGTTCCATGGGCATTGAAGAATATGAAATGAGTACAAGGGGCTATATTTCTTTTACATAAAATGTATTATGCTTT
CTTTCAAACARAATACATTATGCTTCTATATTGCTTTTTTTTATTGTTAACTCTTCCTGTTGTTAGCTGATCTGCTTTAATTGGCTTTTTGTTCTAGTGA
TTTCAGAGTTCTATATCCTGTTTTTATTTTGCCAGTGATCTTGTGTTTTCATTAATTCAGTTCTCAACAGTAATTATCCTGTTCTTTACCCTCTTTTTGT
TTTGGAAATCTTGCTTTTGTTTTTATTTCAAGGAAACTAATTTTCTGTTTCTAGACTGCTCTTGACAGCCTACTTTTGTTTTTATCAATATGTTATCATC
TTGTATCCCTGAGAATACTATTTGTGTTTTGTTTTACAATGGTTGTCAGTTTTTCCCTGTGTCAACTGCATTTTGCACTTGAGCCATTTGGTTTGATTAT
TCAGCTGGATTCTTTATGTCCCATGAGTTTTATTGTTTATTCACTATCAAGTCATAGCTAAGCGCTGGACTCTGGTACCAGCCTACCTGAACTCTTATTT
GCTGTGTTGCTCAGGGAACTCTTTAAGCCCTCTGTGCCTCAGTTCTCTTATGTTTAAGATGGTAATTAAAGAGGGTACCCTCCTTAAGGTTGCTATGAAG
ATTGAGTGAACATATATAAAGCACCTAGAATGTGGCTGGCTTGTAATTCCCAAATGATGAGAACTCCCACCTGGAGCTAGGTGGATAGTTGTTCATTTTA
CCCAAACAGAGTATTCCTAAGCACAGCAGGCTGTAAGTCACCCCTAAAGGATCTCAGGTGGTGGGTGCTGTACTGTGGGTGGGAGCATGTGTGCTAGGTG
GGAAGGGACATGGGCTAGGCAGCAGGCTAGCCGATGAGGCTATTTCCAGGGGCACAGACAGGAGAAGGCTTGCAGATGCATCTCCCTACCCTGCTTCAGC
CCTGATCCAGCACTGAGGGTGACCAGAGGGATCTGTAGCCAGGTTTGCTCCAGCAAGCTGGGCAAGGATGGTCCCTTCCCAGGAGTGCCCAAGAGGCAAA
GTAGTTGGCTGCAGGAATCTACAGTCAGGCTTACCCTTGGGTGTGGTCCAAGCTGGAAAATGGGTCCTGCCTGGATGTGTGTGACAAGAGTGGAATGGAA
GGCAGCCCCTTTCCTTGAACCCTGGTAATACCTACAGCATCTGGCAAGTGCTTCTTCCTAAGTGCCAAGAATGGGGTGGATGAGCCAATGCACTCCATCC
AGGCCTGGCAGCTGACAGCAGGAGGGCAGACCCATGAGCTGCTCCCTCCCTGTCACCCTTGCCTGTGTCATCAGTACATAGAACACAGAAGTTTCATCCT
ATAGGAGTGGAAACTCTTCTCAGCTTCTGGTGTTGAGCTGGAGGGTTTTGTTTTGTTTTGTTTTTAATAATCAGTGGGCGAGCTCAGATGAAAACTGGAA
AAGAAAGGGAGGGAAAGCCCTTTGCTCTTGGTTCTGCCCCTCTAAAACATTCATCAAATACCTATAGCACACCAGGTTCTGAATCAGTTATTACTGTCCC
CATTTTATAGATGAGATCATCGAGGCCCAGAAAGAATGAATGACCTTCCTTGAGATCTGACAATTACCCAGTAATGTGGGATTGGAACATGTTCCGTCTA
ATGTCAGTCTTTKCTCTTTCCCATCTGCCATTCAGGCTGTGGTCTGATTCCATCTAACAAAATATGCAATGATTACCTGCTCTGTGCCAGAGACTGTGTG
ATGCTGTGCAGTCGGAAACACAAAGTCCAGACCAAGGCCAGGCCTTGTCTGCCAAGAGTTCACATTCTAGTGGGGAAATAGTCAAACAGACAGGTACCTC
CAAGATAAAATAGATGCTATAAGTGCAAGCCAAGTGACGGAGTTCAGTAACAGAGAAGAGAGAGAGGAGTTCTGCCTGGGACTGTAGAGGCAATCTTTCC
AGCTAGGGGTAAGAGAGCAAAGGTATGAACATAGGGGAAAATACAGGATCTGGCCACGAAAGGGCACTCACTTGAYGTGGCTGGAGCTGCGTGCATGTGG
GCAAATAAGGCTGTGTGGGTAAGGAGGAGTCTTTACACACTGAAGGCCAAGACAAGAACTCTGAATGGATTTCTCAGTATAATAAGGAGCTGTTGGAACA
CTTTAAAGACAGTAACAACATTCAGTTCAATTTAAAAACTTGGAGCATTTACTCAGTGCTGGGCATTCTGCCAGGCACGGGGGTATAAATATAAATAAGA
AACAGCTTTTCCCCTTGAAGGTCTCAGTATTATAGACAGAAATTATATCAGTTAGGAATGAAAATAGAAAAACGGACTAAAGCTGGCTTCAACAGATGGG
GGTTCATTTTTCTCCTGGAACAAGAATCTGAAGGTCCCATCCAGACTTGGTACCGCTGCTCAGGAAGCCATAACCTTCCTTCTTGGTCTGCCATCCTGAG
GCTTTCATCCTCGTGGCTACCTAGTTGGCTGCCGCAGCTCCAGACATTATGTCTGTGTTCCAGTCTAAAAGAAGAGGGAAGAGGAAAGGGCACGGAGCTC
TCTCCTGATGAAAGTTTGCTTGTGTATTTGGGAAGAACCACTATCCTTAGAGATACTGTCCTACATCTCATTAGTCAGAACTTGCCATGCCTGGCAGGGA
AAAAGTGGGAAATCAATTTTGCTTTGCTTTTAGAGCCTCAATAGTAGAGAGATRAGAGGTTTGGAAATGAAGCACAGATCATCCAACCCACAGTTTCTGC
TATAGATTCTAAGATAATGTGATGAATGCTATAGTGGAAGTATGCACGAAACACAATAGAAAAGTGTCTGCGAGGACAGATCATAATTCTGTATGGCAGT
TGGGGGTGGACTACAGGGAGGAAGCACCTTTCCAGCTGCACTTTAAAGAACAGTAGGAGCTCACCATGCAGGGTGGAGGTGAGGCCCTCCCAGGCATGTG
AAAGGGAGGAAGATATGAATGTACACAGCTGCTTCTGGAAGAGCTCATTGTCTAGGGGGGATATGAGGACTTCAGGAAGATCTGTGGCAGCAGTGCAGAG
GATAAATTGGCTGGGAAGCCAGGGAGGAGCCTAGGAGCACTGTTGAGGGATCCTGGTTATATTCAAAAGAACTGAGTCATTTCTTATGCGCAAATGTGGT
TCGGGTTGAAGCTACGGTTGTCTGGCTTCGTGGAGGGGGAAGGAAGAAGGGAGAGGAGACAGTCCTCTGCCGATGTGCTTTCCCTGCAGAGATCTGGGAC
CCATGGAAGGTGGAGAACTTCTCACTCTGGACACTCGGATTTCTGCTATGCCCATAAAGCTCATATTTGGCTAATAGTCCTTGTTTTTTAACTTCAGGGA
TACTTCTTAATGATTAACAYACAGGGAAAACTGAAAACTCCATTCTTGGATTTTGGTCACCATGCAGCAGGCATTGGCGGGCATGGTTTTGATTAACCAG
GACCCCTGCCCAGTGGAGCTTATCTTCCTGGGAGGATGCTGGGCTAGAAAAACATCTGGTTGTGCCTGAAGCCTGGATTCCCTTGCTGTCGTTTCAGATC
AGTCACAGGGCAGCAACTCCCCACAGTGGTCAGTGTTGCCTCCCTCCAGCCAGCAAGTGGGCAGCTGGCCCAGAGGAGGCAGAAGGCACCAGAAGTGAAG
CTTGCATTCACAGCTCTTGCCAGGAATCATGGCCACAGGTTCAGCAGCTTCCAGAGGGTTTATTTCTGAGCAATTATAGCAAGTTAAACCTTAAACAGAG
AAGGTTCGTGTACTTACACTGCAAGAGCTGATCTCCTAAAGGAACTGAACAGAGAAGCACACACACAGTGGGGTATTCCTTTGTCAGATTTAAGTCTTCA
ACAAATTGGAGAATAGCCAAAAGGAATGTACACATTTTTTGAAGGAGAGGATGTGGATAGCCTGGAAGGTATAAATGAAGCTTTGAGAATGGTGGCACTC
TCCGGCCATTCAGTTTTTCATAGAACACCTCTAGAGAAAGAAACACAAACTACTTCAAATTATCCTCATACGATAATCTAACCGAGCTACACTGAGTAGT
TGAATTGGCCAGAATGCATCAACTTGACTGCCAGTTTAAGATCCCAAAACTGAATTCCAACATCTCTTAGGAGGAAAATAAACTATTCAACCAAAGAAAT
GCACGTTCCCTGTGGGTTGACCACACTGAAYCAGTATAGATCTCTCCCTTTCCAAAAATAAGTAAAGAAATAAGCAAAAAGTACATAAAATAAACTTGTA
TGATGCCACTTAAAACATACCACTCATTAAAAGAGAACCATCTCCCTAAAAAAATACAAAATTTTTTTCTAAACATGTTTTACTATAATAGACATGAAAA
TTTAAATGGATATAGACATAATAATCTCATTTAAATATAAGAAATATGCATGATCAATAGAAGATGGATGATGAAATGCAGGAGGAGAGATTCTGAAATA
GACAGACAGTGATTAAGGTAAGAAAGGAATGCGAAGAAATTAAACACACAGYAACAACTAAAATCCACAATAGCAGCATTTGCCTTGTAAGAAATAAAAG
CATTGAAGTAGTAGACAAGCTAGACTCTAAGTAATGAAAAGTAGACAAACATGGAAGACAAAGTGCCAATCCAGGAAGCACAAATGCAGAAGAGCAATGA
AACTGAGCAGAAGGAATAATAATATACAAAAGGCCATCACCTCCCCTGGGGAAAAGGTGGGGAGTGGGTTGACCAAGGCTAAAATGTGCTCAGTGAAGTG
AAAGGAGTCGTTGAATTTCCAGGGAAAAAATAAATTAGATACAACGTGATGAAAAATGAAATCGTTCCAAGGGGTGGGAGTGCTTACTCCACAAAGTAAT
TCGGGGCTCTAGACCTTGGGTGAGGTAGAAGGGAAAGGGGGAGGCAGAGGCAACCTCTAGAGCAGACCAAGGGTATAGGAGCTCAGGATGAATTATAAAA
AATCCCTACAAGCATTTGGCAAAACCGACTCACACAGGCAAGTACATAGTCATCCCTCATTCTATAAAATATTCATTTACAAAACCACCMCAACTAATCC
AACCCTCCTAAGACTCCTTTTCTTTTCCATAATACCAAAGTCCAAAGTCAGTGGTGCTATTGGCCTCAAGAATTGTTGATTCAGCCAGGAAATATGATTC
ACTTACAAAGGTAACATATTATCCTCAGATATGCACAAAAGCCACATAAAATTGGCTCTCATCGGCTTCCTGAGGAACTTACAAAAACATTGTAGTAGGT
TGAAYGGTGGCCCCCAAAAATGTGAGGTTCCAATGCGTGGAACCTGTAAATATTGCCTTATTTGGATAAAGGGTCTCTGCAGGTGTGATTAAATTAAGGA
TTTTGAAATGAAGGGGTTATCCTGGATTATCTGGGTGAACCCTAKATGCCACCACATGCAACTTTGTAAGAAGAAGACAGAGGGAGATTTTATACACGTA
GAGGAGAAGGTGATTCAAAGACAGAGGTAGAGGTTAGAGTGATATAGCCATAAGCCAACGAATGCCAGCAGCATCAGAAATTGGAAGAGGCAGGAACAGA
GTCTATTCTGGAGCTTCCAGAGGGAGCATGGCCCTACTGACACATTGATTGAAGCGCAGCAATACTGATTTCAGACATCTGGCCTCCAGAACTATGAAAG
AATAAATTTCTGGTTTTGTTTATGTTTGTTTGTTTGTTTGATTTGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATTTCAGCTCACTGC
AAACTCCACCTCCCGGGTTCAAGTGATTCTCCGACCTCAGCCTCCCAAGTACCTGGGGTTAAAGGCACCTGCCACCACACCTGGCTAATTTTTGTACTTT
TAGTAGAGACAGGGTTTCATCATGTTTGCCAGGCTGGTCTAGAACTCCTGACCTCAGGTGATCTACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGG
CATGAGCCATCATGCCTGGCCAAATTTCTAGTGTTTTAAGCCACCAAGTTTGTTGTAATATGTTACAGCATCCACAGGAAGCTAATACAGACATACAATT
TTTAGCCAACTGAGATGTTTAGAAAAACTACACGGTACTAAGAATTGGTGACTATGAAAGATTGTGTGTAACTTGGGCCTCTAGTCCCTACTTATATTGT
CAATGGTTTGATGGTTGGGAGAGGGCATAGGGAAAGGTGAAACCTTTTTAAGATTTACTGTCTTACATAAGAAGAAGTAAAATGGTATAATATATTATTT
TTCTTAAATTTGATGATTAGAGAAAATACAAGTTTAGGAGTACTTTTGAAAATGCTTAAAGAAAACCACCCATAGAATTTAAAATAAAATGTGTACTTTG
CAAATCACTAAAGAAAACTTACAAACTAAGGAATATTACCCAAAAAAGCAAGAAAATATAATAAACAAAAGCATAAAACACAGCCAGGCGTGGTGTCTCA
TGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGGAGGTGAATCACTTGAGGCCAGGAGTTCGAGACCAGCATGGTCAACCCAGCTAAACCCCATCTTACT
AAAAATAGAAAAATTAGCCAGGCATGGTGGCATGCACCTGTAGTCCCAGCTATTCAGGAGGCTGAGGCATGAGAATCACTTGAACACAGGAGGCGGAGCT
TATAGTGGGCTTAGATCATGCCACTGTACTCCAGCCTGGGTGCCAGAGTGAGATTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGCATAAAACAGGA
TGATGGAAATAAGCTTGTATTATTAGTCAACAGTAATGGCTAACTGATATAACAGATAACCCCCAAATCTCAGTGGTTTAACACAATAAAGGTTAATTTT
TCACACACTTCACAGTCCAGTGCTAGTCTGCAGTGGGGAACAGGGTCCTGGGTGGGGCTGGAGGTGTCTGTTCCACAAAGTAATTCAAGGCTCCAGGCCT
CATGTAGGGAAAAGAGAATGGGGGGAGAGGAGGCAGCCTCTGGAGCAGATCAAGGTTACAGGAGCTCAGGATGGGCAGGAGACTGAGAGGCTGACCGGAT
ATAAGGCCCAGAGCACAGAAGTGCTACCGTCTGAGGCTTCTCTGAAGGATCAGCAAAGAGCTAAAGTCAGGTGCCTGGGCGGAGTGCAAGACTCAGATGC
TGAGCAAAGGGTCTGCAAAGGGAGCAAACACAGGATCCCAGAGAGAGGCCCCAAGACGACGGTGCACAGGGAAAGGAAGCCTCTACCGTGATGTGTAGAG
TAACTACTGACTGACCTGTGGCAGGGAAAGCAGGAGCCGTAAAGAGCTATGAGCTGGTGCCCACATGGGAAACATTCATATTGCAAGGCAAAGATTCTTG
GGTTGGATAAAATTTAAAAGAATGCTGCTAAACAGAAGAACAACAAAATATTAAAAATAAAAGGTTGGGACAAAAGAATAGCATGAGAACACATGGAAGT
AAAAAGCAGGGATCACAATATTGCTTTTCTGTTAAAAAAAAAAAAAAAAAAAAAAAAGGCGAGGCCATCCTGGCTAACACGGTGAAACCCCGTCTCTACT
AAAAATAAAAATAAAAAATTAGCCAGGCGTGGTGGCGGGCACCTGTAGCCCCAGCTACTCGGGAGGCTGAGACAGGAGAATGGCTTGAACCCGGGAGGCA
GAGCTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAAAGAAAAAAAAAAAAAGTAAAATTCAAGGT
TAAATAACATTAAAAGAGACACAGGGAATGCTTTCATATGATAAAATGCATAGTCCACAATAATGCTAACAGTCATGAATCTGCACTAAGTAACCTAATG
AGAAAACATAAAGCAAAATCTGTCAGAAATATGAGGAGAAATTGACAATCCTTATAGGAGACTTTAGCACATCTCTCTTAGTCAAGTAAAAAATAAAATA
AATTGAACAAAAATGGAATTATTTTAGGTGATTTTACCATTTGATGATTATTTAATACTATGTGCTAGATGCTTTCTATGTGATTTCATTTATGATAATA
CTCTTAGCAACGCTGCTTGATAGATTGAAATTACAGCCATTTTACACGGGGGTAAATTGAGGCTCTGCAAGGTCACCAAGTTAGCTCTCTCAGAACTAGT
ATTTGAGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGACCGAGGTGGGTGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCCA
ACATGGTGAAACCCCATCTCTACTATAAATACAAAAATTAGCTGGATGTGGTGGCATGAGCCTGTAATCCCAGCTACTTGAAAGGCTGAGGCAGGAGAAT
CGCTTGAACCCAGGGGGCGGAGATTGCAGTGAGCCAAGATGGCACCACTGCACTCCAACCTGGTGACAGAGCAAGACTCTATCTCAAAAAAAAAAAAAAA
AAAAACAACTGCAATTTGAACCCAGGTCTTTGGTTCCACAGCCAGTGTTTTGACTTTATGGAAACATTTCTTCCAAGGACAAAGATACATTGGCCCCTCA
CAGAATCCCTGACACCTACAGGGCAGACTCTGGACTCTGTCTAGTGATAGGCAGTCTCAGAGCCTCCAGTGACAGGGTGATGAGGAAGAGAGGGCAGCTG
GCCGGAGGTCACCCAGCACGTTAGAGGGAAGCACAAGGTCACAGCTTAAGTCCAAGACAGCAGTCACTACCCTGGAACATTCTGCAACGTTTTCAGTGAC
CTGAAGCCCAGTTTTATTTTTCCACTTTAGAAAATAACCAAAGAATCTTTTATTTCTTTTGCATGCCAGCTGGTCCCTGAAGAGAAGAGCCTTTTATTTT
GCTATAGACACCAATGCTGGATTTGGGCTTTGGTCTGTCTTCTCAGTTTTTGCTCTTTGGATAGCGTGATACTTAATTATTATTGTCTGCTATTATGATC
ATGGTTTAATTGTTGGTTTGCAGCTCGGTCAGCTTAGAGGGGGGCATTTGATAAAACAAGTATTATTTTCTTATTGCCCTTTCCGATGTCACCAAGGATA
ATTGCAGCTGCATTCTCATGTGGGGACAGGAGTGATTTCTGACCCCCTTCCCCCTGCAGCAGCTGTTCATTCACATGCCATTTTCCCCTAATGTAAAGAT
CCACCATCATGACTCACATCAGCGATGGGTTTATTGTGTTCCTGCAGTGGTGACTGTTGGTTGGGAACATCCAAAGCCCTTTCATATTCTGGGGCCCAGT
CAGAAGGCAAGTGAAATCAACAGGTCAAGGTGCCATGAATTTTTTTTATTTTCTCATTTTTGCATGTCTTTCTTTCTTTTTTTTTTTTTTAATTTATAAA
GAAAAGAGGTTTATTTGGCTCATGGTTCTACAAGCTGTACAAGAAGCATGGTGCCAGCATCTCCTTTTGGTGAGGGCCTCAGTAAGCTTCTACTCATGGT
GGATAGAGAAGGGGGAGCGAGCATGTCACATGGCAAGAGAATGAGCAAGAGAAGTCGGGGAGGAGCCACGCTCTTTTTTTTTTAATTTTATTATTATTAT
ACTTTAAGTTTTAGGGTATATGTGCAGAACGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACGCATTAACTCATCATTTAGCA
TTAGGTATATCTCCTAATGCTATCCCTCCCCCCTCCCCCCACCCCACAATAGTCCCCAGTGTGTGATGTTCCCCTTCCTGTGTCCACGTGTTCTCATTGT
TCAATTCCCACCTGTGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTCCCAGCTTCATCCATGTCCCTACA
AAGGACATGAACTCACCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATCTGGGTT
GGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCCATAAACATACATGTGCATGTGTCTTTATAGCTGCATGATTTATAATCCTTTGGGCATATACCCAG
TAATGGAATGGCTGAATCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAA
CAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTG
TGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTTTTTTGACTGCATAAATGTCTTCTTTTGAGAAGTATCTGTTCAT
ATCCGTTGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCACTGTAGATTCTGGATRTTAGCCCTTTGTCAGATGAGTAG
GTTGCCAAAATTTTCTCCCATKYTGTAGGTTGCCTGTTCACTCTGATGTTCGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGT
CAATTTTGGCTTTTGTTCCCATTGCTTTTGGTGTTTTAGAGATGAAGTCCTTGCCCATGCCTATGTCCTGCATGGTATTGCCTAGGTTTTCTTCTAGGGT
TTTTATGGTTTTAGGTCTAACATGTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGTGATCCAGTTTCAGCTTTCTACATATG
GCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGGTGGTTGTAAATATGTG
GCATTATTTCTGAGGGCTCTGTTCTGTTCTATTGGTCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTT
GAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGTGATGCGGGCTCTTTTTTGATGCCATATGAACTTTAAAGTAGTT
TTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTAATGGGGATGGCATTGAATCTATAAATTACGTTGGGCAGTATGGCCATTTTCACAATATTGATTC
TTCCTACCCATGAGCATGGAATGTTCTTTCTTTTCTTTGTATCCTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATC
CCTTGTAAGTTGGATTCCTAGCTATTTTACTCACTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGTAT
AGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGATGATGGGGTTTT
CTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTTATTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTGATTGCCCAGGC
CAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTATCCATTCAGT
ATGACATTGGCTTTGGGTTTGTCATAAATAGCTCTTATTATTTTGAGATACGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGAGTTGTT
GAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATCATCTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTATGTTTATTGATTTGCGTAT
GTTGAACCAGTCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGTGG
ATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTCTCTGCCAGGCTTTGGTATCAGAATGATGCTGGCCTCATAAA
ATGAGTTAGGGAGGATTCCCTCTTTTTCTGTTGATTGGAATAGTTTCAGAAGTAATGGTACCAGCTTCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAA
TCCATCTGGTCCTGGACTTTTTTGGTTGGTAAGCTATTAATTATTGCCTCAATTTCAGAGCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGT
TTAGTCTTGGGAGGGTGTATGTTTGTAGGAATTTATCCATTTTTTCTAGATTTTCTAGTTTATTTGCATAGAGGTGTTTGTAGTATTCTCTGATGGTAGT
TTGTATTTCTGTGGGATCRGTGGTGATATCCCCTTTATCATTTTTTATTGCATCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCAGT
CTATCAATTTTGTTGMTCTTTTCAAAAAACTAGCTCCTGGATTCATTGATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCCCTGATCT
TAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTCCTTCTCTAGTTCTTTTAATTGTGATGTTAGGATGTCAATTTTGGATCTTTCCTG
CTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTKCTTTGAATGTGTCCCAGAGATTCTGGTATGTTGTRTCTTTGTTCTCATTGGTT
TCAAAGAACATCTTTTTTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGATTGTTCAGTTTCCATGTAGTTGAGCGGTTTTGAGTGA
GTTTCTTAACCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGATAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAGTTCTTTACTTCC
AACTATGTGATCCATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGAAGATGTCTATTAGGTCT
GCTTGGTGCAGAGCTGAGTTCAATTCCTGGATATCCTTGTTAACTTTCTGTCTTGTTGATCTGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTA
TTATTGTGTGAGAGTCTAAGTCTCTTTGTAGGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAG
CTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGTTCTTTGTTGGTTCAAAGTCTGTTTTATCAGAGACTAGGATT
GCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTTCATCCCTTTATTTTGAGCTTATGTGTGTCTCTGCACGTGAGATAGGTTTCCT
GAATACAGCACACTGATAGGTCTTGACTCTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATATACATTTAAGGTTAATATTGTTA
TGTGTGAATTTGATCCTGTCATGATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGATGCAGTTTCTTCCTAGCCTTGATGGTCTTTACAATTTGGCATG
TTTTGCAGCGGCTGTTACCAGTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTSGTGGTGACAAAATCTCTCAGCATTT
GCTTKTCTGTAAAGGATTTCATTTCTCCTTCACTTATGAAGCTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAAT
ATTGGTCCCCACTCTCTTCTGGCTTGCAGAGTTTCTGCCGAGAGGTCAGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCTCTGG
CTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCGAGGAGTATCTTTGTGGTGCTCTCTG
TATTTCCTGAATTTGAATGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATCATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCCG
TCACTTTCAGGTACACCGATCAGACGTAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAAGCTTTGTTCATTTCTTTTTATTCTTTTTTCTCTAA
ACTTCTCTTCTCGCTTCATTTCATTCATTTCGTCTTCCATCGCTGATACCCTTTCTTACAGTTGAACGCATCAGCTACTGAGGCTTGTGCATTCGTCACG
TAGTTCTCGTGCCGTGGTTTTCAGCACCATCAGGTCCTTTAAGGACTTCTCTGAATTGGTTATTCTAGTTAGCCATTCGTCTAATTTTTTTCAAGGTTTT
TAACTTCTTTGCCATTGGTTCAACCTTCCTCCTTTAGCTTGGAGTAGTTTGATCTTCTGAAGCCTTCTTCTCTCAACTCGTCAAAGTCATTCTCCGTCCA
GCTTTGTTCCATTGCTGGTGAGGAGCTGCGTTCCTTTGGAGGAGGAGAGGCACTCTGATTTTTAGAGCTTCTGGTTTTTCTGCTCTGTTTTTTCCCCATC
TTTGTGGTTTTATCTACCTTTGGTCTTTGATGATGGTGACGTACAGATGGGGTTTTGGTGTGGATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGTC
AGGACCCTCAGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCCACTCCAGACCCTGTTTGCCTGGGTATCAGCAGCGGTGGCTGCAGAACAGCAGATATTG
GTGAACTGCAAATGCTGCTGCCTGATCGTTCCTCTGGAAGTTTTATCTCAGAGGAGTACCCAGCCGTGTGAGGTGTCAGTCCGCCCCTACTGGGGGTTGC
CTCCCAGTTAGGCTACTCGGGGGTCAGGGACCCACTTGAGGCGGCAGTCTGCCCATTCTCAGATCTCAAGCTGCGTGCTGGGAGAACCACTACTCTCTTC
ATAGCTGTCAGACAGGGACATTTAAGTCTGCAGAGGTTACTGCCGCCTTTTGATTGTCTGTGCCCTGCCCCCAGGGGTGGAGCCTATAGAGGCAGGCAGG
GCTCCTTGAGCTGTGGTGGGCTCCATCCAGTTCGAGCTTCCCAGCTGCTTTGTTTACCTACTCAAGCCTGGGCAATGGCAGGCGCCCCTCCCCCAGCCTT
GCTGCCGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAAGGCTCCGTGGGCGTAGGACCCTCCGAGCCAGGTGCGGAATATAATCTCCTGGTGTGCC
GTTTGTTAAGCCCRTTGGAAAAGCGCAGTATTAGGGTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACCCCTTTCTTTGACTAGGAAAGGGAATTT
CCTGACCCCTTGTGCTTCCCAGGTGAGGCGATGCCTCGCCCTGCTTCGGCTCACACAYGGTGCACTGCACCCACTGTCCGGCACTCCCCAGTGAGATGAA
CCCGGTACCTCAGTTGGAAATGCAGAAATCACCCGTCTTCTGCATCACTCATGCTGGGAGCTGTAGACTGGGGCTGTTCCTATTTGGCCATCTTGGCTCC
ACCCCCCTTTGCATGTCTTTCCAATTTGCAATGGGATAGAGATAAACTGCCTATAAGCAGGGAGGTGGGAATCATTTGTTTGTTTGTTTTTGTTTTTGTT
TTTAAAAAATACCTAGTGTGTCCAAGTTTCCTTCAGASTAAAAGAACTGAGGACCRTGATCTCAGAAGCAAGTTTTGCCTGTGGGCAGCACTTGAGAGGG
ACGGGCCCCTGCAGTGAAAATCCACTGTCCTCCCAGCTTCTTAGATTTAGGCTCTGGTAGAAAATCTCCTGTTGCTGAAGCTGAGTGTTGTGAACCTTAC
ACTAGCCTCAGCAAAGCACAGTGGAGTCTCAGAGGGGGCTGGTGGGAAGAGGTACGGGAGTGAGGGCCAGGTGGGTCCACCCTTAGCTAGGGCCTGCTAT
TGGTTGGTGGGGGCGTGGGTGTGGCAGTGGGAGGTGGAACTCTGAAAACACTTTGAGGAAAGGCATGTGGAGATCTCAGACTTGAACAGGGWTATCTGCA
CATCCCAGGGTGTCCCTGCAGCCAGCAATGAAGTCAAGATCCAGCCCCCGCAGAGCAAGCAGAATTTCAGGGCAGCCCCACCAAGGAATGGGAGGGAGAA
CCAGGGGCCCAGTGAGACCCAGTTACCTGAGCTGGCATACTTGCTGGAGTTAGACTGCAGATTATCATGAGTGCCCAAGATGCAACCTAGGCAAACCAGA
TACCAGACTTAGGATGATGAGACCAACTCAAAAGCCCTCCTTTGGTGGAACCCCTCCCTCACTGCCCTCAGCCCTGCCCCAGCACCAAGGAAACTGCTCT
CACTAGGAGAATGGGGACCATGAATTCCTCACTCCTCTGCAGCTTGGACATTATCACCATTCCCTGAGCCACGGCTTCAGGTCTCAGCCACCCGCATTTC
ATGCTTTGTCTTCCTGAAGAGCTTGTCATTTCCTGGGTGGGCCAGCCTCTACATCCCCTCTGTGTCTTTGCATACCCTATTTTCTCTGCCTGCATTCTGT
CCCCTTCTCACCCTCCTCACCCACCCCCTTCATCTGGACTCATCCTGTTAATCTCTCATCTCTCTTTTCTCTTATAAAGATATCAAGACTCAGCTCAGTA
GTTACCTCTCCCAGGAGGCCTGGTCTCATACCCTTGGCCTAAGTTAGGGGGMTTCTCCGTACATACCTTTACTGTAGACTGTACCACATGCAGGGGTGGA
AGCATGCCATATTCTTATCTGAATCACCAGTGCCTAGTATGCTATCTGAACCTAGTACTTACTATTTATAGATTTAAAGTATGACTATCAGTATCACTGT
AGGCTCAGGGAACCTACAGGGCTGGATTTWAAAAGTGTGAGACCATGGTTGCAGTATCCCAGTTTCTCCCAGATTTAGATTCAGCAGTGAGCTCTGGCCC
AGGTTCTGTGTGGCTAGATTCTATGTCTTTGGTAGTGTAGAGCACCAAAGATACAGCTGTAAGATCCGAGGGGCTAGATGTGGATGGTAAAGGAAGAGCT
CAGAACTTCCAGAGAAATAGGAAGTATCCTCCTTAGTATATAGGATTTGTTTAAGTTGCCTCTTGTAGAGTGACAGATGCTTGGCAAGGACAGTGGGTGA
GTTTGGATGAACCACAGGGGTCCCTGAAAGCTGGTGAGCCATTCGTTCATTCATCAATTCAGTCAGACAACATTCACCAAGGGGCTAGTACAGGTCAGGC
CTCATGCTGGGTACCAGAGATATAGAAGTGAATGAGACACTGGCACAAGAGTTAAGGGATTCAGCAAGACAGGGAAGTCAATGGATGACTCTGATAGAGC
AGGAGCCTGTAGAGGGAGCATCTCACTAGACTGAGGGGATGGGGAGGACAAGGAGAAGCCTGTGGAAAAGCTCCCCACTGGATGTGAGGCACCTACCAGT
ACACATCAGTCAGGGGGTAGAAGAATTTACTAGGGCTGCTGTAACAAACTGAATAGCTTAAAATAACAGAAATGTGTTTTGTTCACAGTTCTAGAGGCTA
GAAGTCCAAAATCATGTTCTCAATGGGCCAAGATCCCTCTGGAAATACTGGGGAAGAATCTGTCTCATGTGTCTCATAGCTTCTGGTGGTTGCCAGGAAC
CCTTCGCATTCCTTGTGTTGCAGACACATTACTTCTATCTGTGCCTCCATCACATGGTCTCCTTCCCTGTGTCTCTCCTGTGTCTCTGTATCCAAATCTC
CCTCTCTTTTCTCTTACGATATCAGTCATTGGATTTACGGCCCACCCTAATCCAGTATGCCCTTCTTGTCATAACTTGATTACATCTGATTCTATTTCCA
AATAAGGTCACAGTCACACAGGTACCAGGGGTAAGGACTTGAGCATATCCTTTTGGGGGACACAAGTCAACCCGCTACAAGTGGCATGGGGCCATTTGCA
GGGGGAACTTCCAGGCAGAGAGAAGGCTCTGAAGCAAGAGAATAAGAAGGAAATCAGTAAAGGGTTAGAAGAATGGGAGAAGGCAACTGGGGAAGCCCAG
GGGGGACTTGGTGTGTCCCCTCGGAAGTCTGACTTTATCCTGTAGAGAAGGAGGAGAGACTGGGTCAGAGGAGTGGTTCAGAAAGATAGACRTGGTCCTG
ATGGAAAAGGTGGATTGAAAGGATGGGAGGGGAACTGGATCCAGGAAGGCCAGTTACTCTTTCGATTCCTCTTAATTTGCTTTTCCCTCTTTTGCCATCT
TTCTCTCCCTCAATTTCTCCACACTTTCCTTTCTTCAAAACTGTTTCAAAGACACTGCCTCCTTGAAGCTTTCCTTGCCTCTTCAAATTAAAAGAAAAAG
AAGATGGTGTAAAAGAAAGGCCTTTGGTACCAGACAGACATGGTTTGAATACCGTCTCTGACCCTTGCTAGTTGCCTCTGTTAATCCCTTGGAACTTCAG
TTCCTCCACAGCAAAATAGTGAGAATACACTCTCAACTGCAGGGCTTTATGAGGATATTCAGCAATGTACATAAAGCAGTTGGCACATGGGAGATTTTCT
ACAAACGTTTAGCTCTTTTTGTCCTCCGGTTATTTTGATAGCATCTTATTTATTCCACTCTTTAGCACCTATTGCACATATTATTATGTTTTGGGTGTCT
CCTTCAGTAAGTTTCCTCCAGGGCAAGCACAGAGCCTTGCACATTTCTGCAGCTCTCAACACAGAGCTTGACATGCAACATGCTTCATTTCTCTTCCCTG
GAAATGGCCTGTTTTGTGTTTGTGGTCCAAAGAAACGCACACACAGACAAGCAAGTCATCAATAGGAAGGAAGATCTTTTCACCTCTTTCCTCCACTTCA
GTTTCTCCTACCTAGGGGCACAGTACAATGGGGAGGGGAGCTGCAAACTGTTCTCAGGATATCAAAAGCCAGAAGAAGACCCAGTGTTCACCTACAGGGG
AGCTGCTCACACAAACCACAATGGCTGTTTTGGCCTGGAATTATCTCTGTCGATCAGAACTGCTCATTAGCATTTATAGACTCTGATTTCTATAAGATAA
GTATTCAATAAGAGTCTTAATAAATGTGGTTGGGTTGGCAAACCAAGTCTTTACTGGCCATCATCAAAGGTTTATAATAAAAGGGGTCACTGGCCCCCTG
TGGCAGCCCCTAGCTAATTTCCCTGCATCCACTCTTGCCCTTGTCAATCTTTTCTTACCCAGGCACCAAGAGTGATCGCAAAATGTAAATCGGAACCTGT
CAGAGCTCAGCTTAAAATATACCAATGACTTCCCTCAGCTCCTATAGTACACACCAAACATCTYCCCCCATCCACGGAGTCCCGCCAGCCCTGCCCCTGC
CTACCTCTCCTGGCCCAGTGTCGCCTCCATGGCCTTTCCATTGTGACCTTTGCACATGCTCTCCTTTATTCACTGCAGGCTTCCTCCCACCTCTCACCCC
TCCTGCTCTCCATGTGGCTTGGCATCTTGCTTAAATGCCACTTCCTTAGAAGGTCTTCTCCGGCCACTCTGTCTAAAGTGGATGCTCTGCCTCAGCACTC
TGCCATGTCCTGCCCTGTGCTAGACACAGCTGATAATTTTTTAGTGAGTTTGTGTCTGGGGGGTTATTGCCCATCTCCAGAAGCTCCCGGAGAATGGCAC
CCTGTCTGTCATCTTCACTGTWATACAGCAGCACCCCGCATATGGGAGGCGCTTAAGTGAATGAGTGCCGAAAGGGGCTTGAACTTTAGCCTCTGTCCTT
TCCGTTGCCAACTTGTATTGTTCGTGCACACAGAGAACCCCGCCTTCTCCTCCCTTCTTCTGCACTCCTCTCCGCAACATCAATGCCAAGCCTTTGACTT
TGTCTGTTTATCAGATCAGCTAAGCCGAATGCAATCAACTGGCATTTTTAATTCATATCAGCTTACGTATGACTCACATATAAACTGTTGATGATTGATA
GAGCCTCTCCAGCCCCTGCCTAGCTCTCAACCACAGCCTCTTCCTCCCAGAGATGTGGGCAGCATTGTTAGGAGAGAGTAGAAGCACTAAGGTCTGACCT
GGATTAGTATTAAATAATAGCAATTCCAGCTTACTGTCTAACCAGCCCATGACCTTGTGCAAGTTACCTACCCTCTCAGAGCCTCAGTATTCTCATTGTT
AAAGATGAGACTAGTCCTAGCTACAAAATAAAGATGCTTGCATGGACTCCATGGGCTAATGTGAAAGTGCCTTATACACAGTGGTTGTTATGGAAACACG
TTTTCCTTCATGTCTATTTAGTCCCCATATTCTTGCTTTTCTCAGCTTCSTGTCAGACTGGGGTTTCATTCGTTCATTCATTGATTCACTCACTCATTCA
TTCAGTTGTTCACCCTCAGGATTTCACATGGCCTCTAGAGTCAGTCTCTAACTAGAATACAATAAAGCCCAAACTCCCATAGCTAATTTTGAGACTCATT
CTCTTCCCTCTCTCAATCAGCTGTATTCTCTATGGCATCCTAATACCACCTGAACTCAAGTATGGAGTTGCCTTTCTTCCCGGACAGCTTCACCTCCTCT
CTGCCTCCAGGTCTTATCTCATGTTATTAAATCCAAAGAAAGCACTCTCCTTTCACGCCACYTAAACTTCAGGTCTCATTTCCTTTTGCCTTCCCTGATG
AGYGTGGCCCACACCGATGTCTTTTCTGAGAGCACGTACAGCCACACCACACGGCTGGCACTCGGTCTCCTCTTGGCTGCTGATTTCACAGTGCATTGAT
CACCACAGAGAAAGCAGAGAAGGCAGGGGGCAGCCTGGCACAGCAGTGAGTATGTGTGTTTGTGCTCTGTCCTAGGGATCTCCTTCTCCTCTTTTCAAAT
CAAATGTGGGGCCCCAGCCTTACACAGGTCCTGGTTTTAAGGAATCCCCTCCTATATCTATAAAAGATTCTACCTAGGAAATCCAAGAGATTCTGTTGGT
TTCTAATAGTACTAACTAGTGACCGAAAGTAAGAAACACACACACACACACACACACACATATATATATCTGACAATAAATAACTAGAAAATGTAACTAA
ACATTAAATCTCATTCACAATAGAACCAAAACCATAAACTTGTGGACTGCCAAAGAGGAAATTTAACAAGAGGTGTGCAAAGAAGAAAACCATAACAAAG
ATGAAAAACATAAAACTTTGCAAAGTACATAAACTAAGTTATCTACAATGTTCCTGGCTGGGGAAAATTAGTAACATAAAGATATCAATTATCTCCAAAT
TAATCAATGTGTATATAATCCCAATCAAAATCTCAATCACATTTTTTTGGGACTTGGTAACCATAAAGTTTATCTAAAAGAGTAAATTTGGGAAATTAGT
AAGTTTTAGGGAAAAAATCAAAATTTGAGAATATGGAAACCCAAGTAAGGTGAGTAGCTACGTTCCTGGTACCACAAGTAGATTCTAGTATAGGGAAAGG
AGAGATCACTGGACTTGAGAGAAGAGTCCAGAAACAGCCCGCAACTAAGGGGATATTTCAAATCAGTAGGGAGAATCAGGATTCTTCAGCTATGAGCGTG
TCATCATCCATGGGTATCATGAGCACCATCCAAAATGTCAGATACATCTTAGGCAAACAAGGCCTGGTTCCACACTCATGAAAATTATGATCTAGTTAGG
GAGAAGCATAGTCTACAAATAGGTACACTAAAGATAGACTGGTAGATGCTACGGAGGGAGTAAACAGATGTTTTGGTAGGCAAAGTGTGGAAGAGGCTAC
TTTAGATAGGTGTTGGGAGAATTGAGTGTCAATTTGGAAGAGTAATGAACTTGTTAGCCTCAAAAAATGAAACTAGCCAGGTGCAGTGGCTCACACCTGT
AATCCCAGGAATTTTGGAGGCTGAGGCAGGAGGATTGCTTGAATCCCAGCATTCAAGACCAGCCTGAGCAACACAGAAAAACCCCATCCCTACAAAAAAT
AAAATTAGTCAAACATGGTGGCATGTTAACTGTGGTCCCAGCTACTCAGGAGGTTGTAGTGAGTTACGATTGCACCACTGAACTCCAACCTGGGCAACCA
GATAGGCCCTGTCGCAAAAAAAAAAAAAAAAAAAAAAAAAAGAGAGAAGAAAGAAACTATACAAGTCCCAGGAAAGTATTAAAGTTTTGATTAAAGTTTT
GTTTTGTTTTTGAATCGTTGGGTCGGGGAGAGGTCTGCCCAAGCATAACATGACATCCAGTATCCTTAAAGGAAAATATTAACGTATTTGGTTACATAAA
ATTAATCACTTCTTACCAAAATGGATACCACAAACCAAAGTTAAATGAGAAAAAGTCACCAGACACTAGGAGAAAAGATTAGCAACAAATATATCATATA
AAAGAGAAATCAAAAATATAAGGTAAATAAAAGTCATAATATATAAGTAGAATTTCAAAAGTTTGCATCCATCAATTAAGATGGATAAAGAATTTGAAAG
CTACAAATGCCCAGTAAATATGTGCAGAGATACCCAACCTTACTAAATCATCTAAACTCAAAACTGCCAGAGAGATTCCACTGTGGTCTAGCAGATGGGG
GAGTATTTTCGTAAAGAATATATTTACAACATTATAATATCTAATGCTGATGAGGTGAACTTTAGAGAGAATAGTAACATCAATACTGATTAGTGCGAAT
ATAAATTGAAACAATCACTTGAGAGGATAATTTAGCAAGATTTATTTTAAAATTTTTATKTATTTTATTTTCTTTTTATTTATTTATTTATTTATTTTTG
AGACGGAGTCTCGCTGTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAAGCTCCACCTCCCGGGTTCATTACATTCTCCTGCCTCAG
CCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACCTCGCCCGGCTAATTTTTTGTATTTTTAGTAAAGACGGGGTTTCACTGTGTTAGGATGATCTTGA
TCTCCTGACCTCGTGATCCTGACCTCCTGACCTCAGCCTCCCAAAGTGCTGGGATTACAGACATGAGCCACCGCTCCTGGCCTAAAATTTTTAAATAGAT
GCCCTTCTTCCCCTAGAATTACTTTGGCAAGTCAACTGAAATATTAGCAGAAATGCACAAAGCTACATAAAGATGCAAATGTTCCTTGCAATTTCATGTG
AAATTGTGTTATATAACAATGTCCATTTCTGCAGAAAAATGAGGGTGATGTTTTTGTCCATGATATAGTATTAAATGAAGAAAGAAAGTTATAGAAAACT
ACATAAAATATGTCTCATTTTGAGGGAACAATATATTTGCGTGCTCATTGAAAAAAACTCTGGAAGCATATGTACCAAACCTACTATTAATTGAATAGCT
CTGGAGAACAGGTTGGCWGTGTGAAAGAGAGACTTTTTTAAAATTCAGTACATCTGTATATTGTTTGCCTTTTCTCTGCCTTGAGTATGTCTTATTTTTA
AAATTTAAAAAGATATTTTTAAAAAGAGATAGTGATAAATGGATTGGATCCTGGAACACAAAAAAAGACATCAGTGGAGAAACTGGTGAAATTCAAATAA
AGTCTGGAGTGTAGTTCATAGTAAGTATGCCAACATTGCTTTCTTAGTCGTGACAAATGCACCGTGGAAATGTAAGATGTTAGCAATAGAAGAAATGGTG
AAAGGTCTATGGGAACACCGTATTRTCTTTGCAACTTTTCTGTAAGTCTAAAATTATTCCACAATAATAAAAAAAATTAATTAACAGAGAGAGTCACACA
GGCTTGTAGCCAAGGTATCTTTGGCTGTTGGAATCTTTGGTTCCAGAAAAATTCAGGTTACTACTTGAGCTCCCTTGCTCTGAGAGCTCTATCTCTGTCC
TGCAGACCCCCACACAGGGAGACTCCCACCTGGCCTCCTGAGGTCTGCAGAGATTATCTAAGCCAGGCCTACATATAGCTAATATCCCCAGAATTCTGCT
CTGGGAAAGCAAGGTATGAGGTCACCCCTACCTGCACCATGGCTGGGCCAGCTTCTCAGAGACTCCACAGTTCCCCCTGCCCTCTAGCCCCAATTATTTT
TTTTTTTTTACCTATATCCTTTGTCCAAGCCAGATCCTGCCTTCTCAGTATTCCCCTTCCAACCTAGAATGGTAACAATATGGGCTCAGGGAGAGGTCTG
CGGGCTATGTAAGGTTGAGGAGAGGGATGCAGTCTGACAATGGCAACATGGAGCTCATAATAAGAAAAGGATGCACAAAACCTACACCTCGCACCCTTGT
CCCCATTGCTGGAGGCCCCAGTGGGAGGAGCTGGCCTGGTGAAATGAGGATGCTGCCAGACGCTGCCTTCTCTCCCCTCCTGCTGGGCTTCGGAGGTTTA
GGGCTTTGTAGGTTTAGGGCCAGTCTTCGTAGGTTTAGGACCTTCTGACCAGAAGCCCCTGGAAAGAAGGGCTGAGTCCAGATGACCACTGCCTCTTCTC
TCCGTGCAGGCTACACTTCCTGGTGTTTGACACAGAGGAGGTTCACGACGTGCTGCGCATCTGGGATGGGCCTGTGGAGAGCGGGGTTCTGCTGAAGGAG
CTGAGTGGCCCGGCCCTGCCCAAGGACCTGCATAGCACCTTCAACTCGGTCGTCCTGCAGTTCAGCACTGACTTCTTCACCAGCAAGCAGGGCTTTGCCA
TTCAATTTTCAGGTCTGTGCGTGCCCTCTGCCAGCCCCACTCCACATGTCCTGACACATGGCACCCACCTTCCTCTGGCCCTCACTTTCCTTCATCCCTC
AGTCCATGTAAAGATAGTTATTGAACATCTGCTATGTGCCTGGTACATGGTTAGCACCTGTTCAAATGTCTGTGCTGAGCTCACTCTGGTAGGGAAGACA
GGTGGGTTAATAGACACATACAAATAGGTAAGCATCTGGATGGAGACATACGGTCCATAATGGTCACCTTGGAGCATCAAGGAAGATGTTCCAGAAAAGA
TGATGTCCAAGCTCAGACCCAACGGACAAGTAGAAGTTACTCAAGAAAAGAAAGTGTTTCAAGGAGCAAGTAGTCATCTATGACAAGGAAAGGTGCCACT
GAAATGGACTTTGGAGGACTTGTGCACCCCTATTAGATGGAAAAGAGAGAAAAGGGCATCCTAGGTGCAAAGAACACATGAACAAGTGTAGATGCAGGAA
TGTGGGCTTTGGAAGTGGAGGGCTACCCCATGTGGCTGAAGCACAGGGAGCAAGGAGGGATGTGGGAGGTACAAGTAGACGGTGGCTTGGGGCATGGTTA
TGAATAAGCTGATGGGACATGCTGCACGCTCAGGTTCTTAGTTGAGTGCAGATCTCAGCAAAGACTGGAAGTGAACATGAGTCATCTAAATTTAATTAAT
TAGGCACTGCAATAGCCAATTATGGAGGAGCATGACAAAGAGCTACCCAAAATGGCCAATGCTCAAACATCCAAATCCCAGTATGAGATAATTTATATGA
TTGGTCCTGCCTCTCCCTGGAATGCATCATCTCATCTCCTCTGAAGTGCCTCTTCCATCATTCCTCCCCCTGATCAAGTGACTCTGCTTCGGTTTCTGCT
CGTGTTTATTATACAGCAGCTGTCTTCATTACCATCTCCTTACTCCACTGTGTGTGTGGTGGGAGGGAGGGGGGGAGTTTCCATGGTGATTCCAGAGCAA
TTTCTTGTGGCACCTGTGCCGTGGCTTTGCCCCCGAGCTCTTTCCCAGTTGGTGTATCAGCTAAGGGTGGTTGGGGTATATCCCTGGCACCACTGAGATT
GTTACAGAGTTGCAAATCCTGCTTCTAGCTCTTTTCTGCTACGTCTGTCATCTCTGTGGAAATAAGCATTTAGCAGCGTGGGGAGCAGATGAGAGTCTCC
AGGATCACATTGCTTTATACTTATAAATTTGTCCATTTAACACTCATGCATGCTTCTAGTCTAGCATTTTCCATCTATTCCTAAGAGTTCCATGGAATAC
TAATTGATATTGCAAGAAAAAAGAAGTTTGCATGATCAAGTGATGCTGGGGAGGTGCTCAGGCTGATGCAGACCCAAGGAAATGATCTGCAATATGGGGC
CTCTGAGAACGTTTGCTATGCTAATGCCCTTAAATTCAAAAGATGTCTGGTAGGCCACAATTTCCAAACATATTCCATCATGGATGACTTTTTTCAAGGC
CATCTCAAGAGACTAACATTTCGTGGAACAAACTTGGGAAGTTGCTGGAATAAGCAATGGAAGGATCTCCCAGCAGTAAGGAGGGTAGAATGCTAAAGAG
ACGGCTCGATCCACTCTCTGGGGAAAGAAGTATTATGAATAATTAAAGCCAGACATATTTTCTCCAACTGCGCCCAAGCTGATGGGTGCGGCTTAAAAGA
AAAGAAAAAGCCCATAATTATGCTGACAAATTCACCCACAGATTTGCATTATCTGACCTCGACTGCATACTCAGTGTAGCCACGCGGGACAGAGTCCCTG
GGTGCTCTCCTATGCTGTATGCAGGCTGCTTTCTCATGCATTGCCCAGCTCATGGAAGTCCTATTCATCCTTCAAGGTTCATCTCAGATGCCACTGCCTC
CTAATCTCCCCATTCAGAGTAAAACTGCTATAGCCCACGGCACCCTGGCACTTTACTTCTATTTATTCAATACCAGGCATTCTGTCTCGTCTTGAAGCTG
GGCACCTACTTGACATCCCACTAAAAGCTCTTAGAAGACAGGGTCATGCCATGCCTCCCGACTCTCTCATAGTGTATGTATGCAGCAGGTGCTCACTCAC
AGCTTAGTGAGCAAATGGGCACATGAAGATATGAACACATGAATGGATGGTTTTCTCTAACAGAAGGGTTTCCTTGGGCAAGCTGCCCTTAGCATTGCTT
ARGCAGAGTAGCATGGTCAAAGCTACCTAGCCTGGGCTCCAGAAAGGTCATGACAGCCTGGCCCAGTGTTATGGGCATAACCAAGGTTTGGGAAAGGTCA
CCTTCCCTGTTRCTGTCATCAGTTAGCAAATACCAGGACTACTCTAGGGAAGAGAGAACGGCTCACCCCATGTTAACTTTATAGTGTGTATTTGACAGGG
GATTGTACAGAAATGCCAGGGACGATTAGTGCAGGCTTGGCTTTATTAAGTAAACATGACTGTGTAACATCTAACATCCTGTCTGTACCACGTGGATCCA
GCCTTTCCCCGGGTGCTTTGCCAAGCAGCTCCAATTCAGGAGCATTAAAGAGAGAAAGTGAGAACAAAAAAAAAGGTGAGCGGGAAGCATAATCACAGCC
ATTCCTATTGAGTGGCTGCCACACTAAGCTCTCCACTACATCAGCTCTTACAATTTTCACAAAACCCTTACAGTATGGGCACCATTATTACTCCATGTTG
CAGATGTGGGCTCCGAGGCTTCTCATACAAGGTCATCTAGTTAATAGCAAAAACCATGTGTCTGTTTCTTAAACCTAAGCTGCTAATCATTGTACTCTAT
TGCCTCCCATATAAATAATCCTTCCAAGTATGGCCAGAACAATGAGCTATTTTTCTTCTAGGGGAACATTTACATGTGTACAGTGCCCTATAAAGCTAGA
GATGAAAGCTAAGTCTGATTTTAACTGGGAAGGAAAAAGATTGATGCATATTTGACTTTACAAATAAGTTCAGTAGCTGTCAAATGTTGATATGTAAACA
AATGAGTGTGCCTGTGTTCCAGTAAAACTTTATTTACAAAAATAGGCATAGGCCCAGATATGGCCGTGGGCCATAGTTTGCTGTATGCTTCCTTAGGTGT
TATTGAGTAGAAGGTATCAGATTGTGTAACTCAAGACTCGTATACAATCCCAGAGGTTATAATTAGTGACATCAGTGTATACAGTTGCCCTAGGCTGCCG
CTTCTCAAACTTTTCCGCTGATGTCCTCCTGATAGCAGAAGAGAATGGGTGTGCATCCTCAGGATGTCTGGTGGCTGTAGCAAGCACAAAATATCTTTAA
GGCTTCACATTTTTGCTTAAAAACTAATATGAATTTTACCTTGTAATCCAGAATAAATTCTTTTGTTTTAGTATAAAAGTAGTTTTTCCTTAAATTGTTG
AGAAAACTGATATTCCAATCAAATCAGTATTATTTATCCTGTGGTTTCAAGAACCTCCTTGCCCTAGAGTGCCCTGAGCACAGGCTATGAGGGATGACAT
ASCTGGGGACTGGGACCGGGCCCCGCTGTCAGCTCTGGGCTGTGGAGGCAGCCAGGGTTGTTCCAGCTCTTGAGATTCCTTTCTCTGGACTAACTCTTGC
ACCCATTCCTCCGGTGTGTTTTCTCATGCCACATTTGTTCATTTATTCACCCACTCATTCTCCTATTTATGTATTCCTTCCATCTAGCATTCATTCAGTA
TTCGCTTATAAAACACCTGCTCTATGTTAAACTAGGTTAGGTAATAGACACGAAGACGTCGCAAATTCCTGAGTATTTTGAATTTTTAATATATCTCAGY
TATTTTTGAATTCTTCTCTGCCCACTTGCTACAAATATCTGACTTTTCTTCAAATATGGTTTCAGTCTAATGGATCCTTGGTTGTCTGCCATTGCAAGAG
AGAGCATGATCTTGACCTAACTTCAGTAACTCCCGGTAACCTCACAACCACTGCTTAGCATTTAGGCAGGCCAACTCGCAAAGTCCTTTGCAAACCCTTC
CAATTGAATACATGGAGTTTATTTGTTTGTTTGTTTTAGAGATGAGCTCTTACTCTGTCACCCACACTCGAGTGCAGTGACATGATCATGGCTCACTGCA
GCCTTAACCTCCTGGGCTTAAAGGATCCTCCCACCTCAGCCTCCAGAGTAGCTAGAATAACAGGCAACTATCACCACACCCAGCTAATCTTTTTTATTTT
TTTGTAGGGTCAGGGTCTTGCTGTGTTGCTCAGGCTGGTCTCGAGCTCCTGACCTCAAGTGACCTTCCTGCCTTGACCTCCCAAAGTGCTGGAATTATAG
GCGTGAGCCACCATACCTGGCAGCATGGAGTTTAGACTTAATTATCTTGTCACTTCCTCCTTCTGATCATGTTAGTTACATTATACAAAATTGCAATGCT
TTGTTTATGTAACAATGCTTGTATTCTTAAGCTGAATTCAATTCTATAATTATAACAGTATAATCATGCTTAACTCATAGCATCTCATGACAGGCAGATG
ACAGTAATGGTGAAGGTACTGGAAGAATGGTAGTGGTGATATCAGTGAGAGTGACAAGTGTGATCACAATTGGTGGTGGAGGCAGTGATAGTAATGGGAG
TGAGAATAGTGGCACTGTGGCTACAGCTGATGATGATGATGGGGAGGTTCTGGTGGTTGTGGCAATGCACGGATGATGGCAATCAGTGAGGGTGATGAGC
TGGGAGCCTCCTGAGTGGCAGACACCCAGGCGACCTTACCCTCTCTTCTATTTCCTTGCCCCAGTGTCCACAGCAACGTCCTGCAATGACCCTGGGATCC
CGCAGAATGGGAGTCGGAGTGGTGACAGTTGGGAAGSCGGCGACTCCACAGTGTTCCAGTGTGACCCTGGCTACGCGCTGCAGGGAAGTGCAGAGATCAG
CTGTGTGAAGATCGAGAACAGGTTCTTCTGGCAGCCCAGCCCGCCAACATGCATCGGTACAAAGCAGCTGCAGGGTGCACTCTGCTCTTGGGGCTCACAG
TTGTGTGCTCCAGAACCTTCCATGCACAGCAGCTGCATSTTGGGCCTGGGGCCAAGAGAATTGAAACAGACAAAAGTTGCAGAAAACCCATTGTTTACCC
TGCTTTGCATGCATGTGTCCCCACACGCACTCACTCACGTTCACACTCTATACACAGAGCACTACAAATTCCTCACTTGCTAAAATTGTCCCAGAGATTT
CCAAGTCAGACAGGTCTGTCCCTTTCTCTCTGGCCCAGGCTGTACAGGTCAGAAGGAGGACAGTGGGTCATCTTGGGTAATAAAGGCTAACAGATTCCGA
AATGACCCTTCTATTACCTGAAGCAATAGAAGGGCACCCACAGCCTCAGAATGTAAAGAAAAGAACCTTGCTTTTGCTGTTCTCAAGGAAATTATTGGTT
ACCTGGGTTTTGGTTCTTTTAGGTTTTAGAGATAGAGTCTCACTCTGTCGCCCAGACTGGAGTGCAGTGGCACCATCACAACTCACTGCAGCCTTGACCT
CCTGAGCTCAAGTGATACTCCTACCTCAGCCTCCCAAGTAGCTGGGCTTGCAGGCCTGTGCCACCACACCCAGCAAATTTTTGTATTTTTGTTGTTGTTG
TTGAGATGGAGTCTCACTATGTTGCTCAGGCTGGTCTGGAACTCCTGGGCTCAAGTGATCCTCCTGCCTTAACCTCCCAAAATGCTGGGATTACAGGTTT
TGTTTCTTTAGATCTGTCCTCAGTCTTAAAACCTTCCTGTATGAGAGATGAAGACATGAAGGACCTGAGACTTGTCTAAGGTCCCATCACTTAAAAAGGG
TGGGGCCTGAAAAATCCTGCCTCTAACTACTTGAGACTGAGAGGAGGAGGGAACTTGAAGGGAGGCTGGGATGGGAAAGAAAGGTAAATAGATAGAGACA
AACCCTCCAGGTGCCCACTTCCACATGTCTATTTTGCTCAGGTGAAATAATGAGTGTTTATCTCCCCTGTCAATGCTGGCTGTTAGAAGAGAAGAGAACC
CATGGTCACTGAGTCCTTACTGTGTACTTGCCCCATACTGGACATTTACTTAGATAACCTCATTTAACTTTCCCAACAGCTCTCTGAAATTAGCACCATT
TCCTCATTTACACTTGAAACTGAAACTTAGACAAATTTGGATATCTTGTCCCAAATCACAGAGCTAGGATATGGCAGAGCCAAGATTTACACCCACGCCA
GTCTGAATGCAAAGCCTCTCATTTTCCTACCTCCCACACTGCCTCCCCTGCTGGAGATGGGTGTAAGGGGCTTCCTGAGACAGCTCCTGCAGGAGCGTCT
GCCCTGGCCTGCACCTCTCTCACTCAGGCTTAATGGGAGGCAGTACGCTGCCCAGGCCTCTGAGGACTGGCCTATGACAGTCATGGCTCTGAGGCCTGGC
CCTGAAGTTGACACACTAAATCCTGCTCCTCAGTGGGAATTAGGAGCCGCATAGGTATGTGGGGCAGGAGGTTGAGACCTGGGTTTCAGATCCAGCTGAG
TTCTTCACTACGTATTCTGCTGTGTAGGGAACAGTATGGGATACTGAAGTAGACACATCCAGATTTACTTTCTAGCTCTGCCATTTACTACTTTGGTGAC
CTTGGGAAATTACTTCAACTCTCTGAGCCTGAGTTTCCTTATCTCTGAGGGTAAATACACTTCCCTTATGGCATTGTGGGGTGAGGACACGCCTAACCCC
AATCTCAAGAAATACTAATTTCCTTCCTTTCTATCTTCCTTCCTTCCTTCTTTTCATCCTTCCCTTCTTCGATTCCTTCTTTCAAGTCTTCAGACTCCCT
TCCCTTCCCTAAGCCAGAATTCCATCTGCTCAAGGGAATTCTGTTGAGGCCCAGGAGAGAATCTGGGAACCTCTGAGGCTCCTTCCAAATTCAGCCTTCT
GCAAGGCTGTGATTCCTTAGACTTATTTTACAGAAAAGCAGGTCCTGAGATGAGATTGTCCCAAGTGGAGAAGGAGGATTGTGCTAAGCTGAGGAGAGCA
ATAAATGTGCAGTGGGTAGGGTGGAGAGGTTAATTCAGTTTTCATCACCCGTTCTTCTACACTCGGCTTTGGGAAATGTTCCTCAGGCAACAGAATAAAT
GCCTTTGCCTCTTCTCTCAAATGAACTGGAAATCCCAGTGACATGCTTCTGATTTCCAGCTCCCTGGGCGTTCTGCCATGAGCGGGTCTAGCTGGCCCTG
ATAACCCTTCATTACAGGGAGGAAGCAAAGGAAGAAAACAAATACTCATTGGATGCTGTCCCCGTGATAGGCACCGGGCTAAACATTTTAGCTACATTAT
TGCAGCTGAAATCACTCTGTGGTGAGGTTAGAGCTCGGGATTCCACTCCCTGGCTCAGGTCTGCCTTCACCACAGCAAGCTGTGTGGCCTTAGACAAATT
GCCCAACTTCCCTGTGCCTTAATTTCCTCACCAGTAAAATAGTGAAAATGGTAGTACTTACCATCTAGCATTGTTTTGAGGATTAAAAAAGAAAATACTA
TAAAGCAATAAGAACTGTGCCTGGCTCATAGTTAGCACTGTGTATGTTAGAAGCCATTATCATCATTATTCTTTTACTTTCGAGATGAGGAAATAGAGGC
TCAGAGGGGTGGACAGCTGGCCCAAACTCACACAGCCAATGAGTGGCATTGTCAGAATTTGTGCTCAGGATTGTATGACTTCCAAATCAATGCCCTTTCC
ACAACTCTCACCCTCAGTCCAACCTGCCCACTTCTTGGCTGTCTAGAAGGATSTGCAGCTTGCACCCACTCCCATCTGGGCAACCATGGTTTAGTAAGCT
CAAAAGGACCCCTCGACTAACCCTGAGCAGTAGGAGCCTTCCTGTTGGCGAGGCAGCCCAGGGATCCAAGCAAGGCCTTGGGGCACAACTGGCAGCAGCC
AGGGAAGCCCATGCCCGATGCCATGGAACTATCTAGAAGAGATCTGTGCCCAGACAGCAGCCTAGAACCCAGAGACACTGATAGTACTTTGGGGGTTGGT
GGGAGAGTAACAGGGGCAGTTTCAGAAACACAGAGACTCACCCCATCTGTGGCAAACTTAAGGGAAGAAGCCCCTGAGCTGGCAAAGGGACGTGGAGGCT
GGGAACCAGAATGGAGGCCTCGTTGTGCCCCCTTGGGAAGATTTCCCCAGAGTTGGGACTTCTGATATGACACTGGCTTTCCACTCTCACTGGCCACATC
AGACTCTGTTTCTAGGCTGGCCTGGGCAAGGCCACGCTCCATGGACTGGACATTACAGTCTTGCTTTGTTAAGCTCAAGGGTCTAGACTGATTGTACTGG
CCTCTGCTTGGCCCCACTTATCTAGCCCTCTGCTCCTGAAGGATTCAGTGGTGGAGACACAAGTGAGACATAAGCAGACCCAACTTAAGGCACCACCTCG
CTCAGAAGCTCCTGCAACAACTGTGCTCTCCCTGCTGGCCAGCGGGGAGAAGCACGCCTCCTCTACTCTGGCTACTGCTACCGACTGTATGGAAGTAGAA
AGGGGGAAAACAACAGACTTTGGAGCCAGTCCCATGTGAGTTTGAGTCTCAGAGTGACTCTGGGCAAGTTACTTAGGCTTTCTGAGACTCACTTTCCTCC
TTTATAAATCAGGAAGAATAATCCATTGCTCATTGAGTTGTTAATGAGACATAAATGAGATAGTGTATCTAAAATGTGATTTGTTAAGTCTAATACGTAA
TAGATGCCTATTTGAGTGTTTCTGATACTCAGGATGGTTCTTGGGATATATTTTCCCATGGAACAAAAAGCAGACTACTCATGACCACTCGGATTTTATG
TTCAGCCACATTAGGGCTCTTATGGCCTGACCTGAAGACCTACCATTTGTTTGAGACCCTGTTAGGGATTGACCCAGCCCTTTAAGCCTCACCCTGAGTA
AAAGCCACAGCCAGAGGTGGCTCCATGACACAGCTAAAGTACCAGTGCTCAGCTCTATGACAAGCCAAAGGCTGCTCCTAACTTTGGAGTCAGGTATACC
CTTTTGCTCCCCCCACAAAGACTCATCTTGGATTTTCTAGCCAGCCCTTAAATGGCTCTCTGTGTTCCTGTGGGCTCAGTGTTGACAACCTCTGATGGTG
CCCTGTGGTTTCCAGACCAAACCATACCTATAGTCTTGGCCATCCTGCTAACGACCCCACACGCTTCCCAGCTCTTACTCTATCCAGTCCTCATGCCACG
GTACAGCAGCCCCAGCCATGGAGGAAGAGACCTGATCCAGGCTCTGGGGAAGCTGCCCCAGAAGGTCCCTAGGTAAATAGGTTGCTGTGTCACCTGGCCA
CTTTCTCCCTCCCCACCTGCTTGAGAGACCTGTCATCTCAGGGGAGGGCGACCACGTAGACTGATTGGGGATTAATAATAGCTCCATACAACTGAGGTAC
ACACATACTCTTGGACAAGGCCTTTTGGAAAGTTGGAAAGTATCTGCAGCCGCGAGCAGATGCCAGGAGCACTGGCAGCGTAGGAGACCAGCTGCGCTTG
GCAGGCGAATGTGAGCCTGTTTCCCACTCCTCCTGACATTGAGTGCACGGGAACTCACAGTCAGTACCCACAAAGCTTGCCGGGAAGCCGATGTGAGGCA
GTGAAGGAAGGCCATGTACTTCATAGGTGTACAGACAGTGCCGGCTCCGTCTATCAACCATTCACTCTCTACCAAATACTTCAGCAGACATCTCCAATAA
TCTTTACAACCACCCCACAGAGAAGATATTGTCTCTTTTTATGATACGGGAGAGACATCGAGGGCTAGAGAGGCTAGATGAGTTCCCTGAGTTCACACAG
CTAGGAAGTAGCAGGGTCAGGTATTTTTAAAGAATAATTTATTAGGCCGGGCGCGGTGGCTCACGCCTGAAATCCTGTGACTTTGGAAGGCTGAGATGGG
TGGATCACAAGGTCAGGAGATCAAGACCATCCTGGCTAATACAGTGAAACCCTGTATCTACTAAAAATACAAAAAAAAATTAGGTGGGCATGGTGGCGGG
CGCCTGTAGTCCCAGCTGCTTGGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCTACTGCAATCCAG
CCTGGGGCTGGGGGACAGAGCGAGACTCCGTCTCAAAAAATAATAATAATAATTTATTGAGGTGAAATGCACCTAACATAAAATTACCTGTTTTTCAATG
AACAGTTCAGTGGCATCTGGTACTTTCGAAATGTTGCGCAACCACCACCACTATCTCTGAAATATTCCCACCCTCCAAAGTAGAAGTCCATCATTTCACC
TTCTCCTGAGTCCCTAAGCCAGGTTCAACTTCAGCCTGTCAGCCTCAGCCTCTCCTCTCTCAATAGTGCATTAGCAACACCCATGAAAATGAGCCCAGGG
TGAAGAGGCAGCCTCACCCTCGTCTTCTTCTCTCCTCAGCTCCCTGCGGGGGAGACCTGACAGGACCATCTGGAGTCATCCTCTCACCAAATTACCCAGA
ACCCTACCCGCCAGGCAAGGAGTGTGACTGGAAAGTGACCGTCTCACCAGACTACGTCATCGCCCTGGTATTTAACATGTATGTACCTTTCCCCCGGGTG
GGAGACGAAGGGTTCAGAGTGGCTAGGGGCTCTGGGACCTGGGTCTCCAGGTGAGTATTCACAGGTCTGTAGCAGAGTTCTCAGCTCCAGGGAGGTGAAG
AAGCCGAGAGAGAGAGAAACTAGCATTTATTGAACATCTACRTGCCAAGCACTGTGCTCAGTGGTCTCATGCATATCATCACATCTAATCCTTGTAGTAA
TTTGTGAGGAAGCAATTATTATTTCCTCTCTACCTCTGAAGATACTGGGACCTGGAAAGGAGGCCTTTGTTGGATGCCCTTGCCCTGCCCTCTGCATTCC
CAGTCTGCTTCCCCGGCCCCTTCCACCCCACTCCAGAGGTATAAACAGGCGGGCTTGGGTCCCAGGCACCCCCCCCAATCTAGCTCCTGCACTTGCTTTT
CCATTCCTGCTACAGAAAAGCTCTTCAAAAGAACTGCCTCTGCCTTTCTCTACTTCCTCACCTCCCGTTCACTCTCAACCCCCTGGAACCTGGTTTCTGC
CTCCATGGTTCTACTGGAAACTCCTCTGATAAAAGCCACCCACGAACTCCTGGTTCCAAACAAAATGGGCCTTTCTGTGTTTTATCCACTCCACCTCTTG
ATCACCCTTTCCATCCTTAGACTGCTTTTTCCCTTGGTTTGTGTGAAGTTACTCTTCCCAGTTCTCCAAGCTCTTCTGTGACTTCACGTGGACCTCTTGT
TAAACCATCTTCTTTTGCCGGGCTTTGTCAAAACCTCCTCTTCTTCCCCTACACCCCTTTCCTGGACAAGTTCGGTCATTCCTGTCTCCACTCTCCTCTT
ATAAGTGGAAGACTCCATTCTGCTGCCCACCCTGGCTTTATTCTGAGCGTCAGCATCGCTATCCAGATGTTGGGCATCTCTGTCTGGGGCCTGCAGACAC
TGCAAATGAGCATGTACAAAATCAAGCATATTTTTTCTCCCCCAGAAGAGCTCTGTTCTGAGCCTTGGGGCTGGCATTGACACCTGCTCTCACGGCTTCT
TCCACTAGCAGCAACCAAGGCATGCAGCCTCTATCGCCTTCACTCTCCTCATGTATTTCCTCTTCTCCATCCTCCTAGCTCCTGTCCTGGTTTAAGTCCT
ATCATTTCCCATCTAAATTACTGCCCTCATCTCCTAGCTGGTTCCTCTGCCCCATCTTGCCTCCCATGCCGATCTCTCCCTTAGCTAGCTGTCAGAGTGA
TCGTGTCACTCAAAAATGCTGAAATAACCACCCTACTTTCCATTTTAACATCCTCTAATGACAGTGCTCAGCAATAAAAAAGAATGAACTACTGATACAT
GCAACAAYGTGGATGAGTCCCAAAAATATTATGCTGAGTGAAAGAAGACAGACATAAAAAAGTACATAATGTATGATTCAACTCCTATAAAATTGTAGGA
TCAGCAAAACTAATCCCTGGTGAAGAATTCTAATCAGTGTTGGCATCTGAGGGTAGGGAAGGTTGAATGGGAAGGGGCATTTGGAACTCTCTGGGGTGGT
GGGACAGTTCTGGGTCTTGATATGCATGTGTCAAAACTGATAGAGTGGCACACCTTAGGGCTGATCATTTCACACGGTGTAAATCATACCTCAATTCAAA
AACAAAGAAACAAACAAATAGATCCTTTATTTTTAAATCCTATCATGGCCCTCTATTGCTTATAATAAAGGCCCAAACTTTGGAGTTTCATTCCAAACAA
TCTGGTGCTTGCCTACCTCTCCAGTCAGCCCCCCACCCCATCCTAAGCCCACCCCATCCTAAGCCCTAAGCTCCAGCCAGATGGAACTCCTTGCAGTTTC
AGGGCCTCACGGATTCTTTCATGCCCTTATGACTTTGCCTCTGTTTCTGCCTTCACAGCAACTTCCTGTTCCCTCCTTGTCCTATCTGTAAGGGTCTTCT
CATCTCCCAAGACTCAGTTCAGGCTTGATTTCCTCCATAAATGTTTGATTTTTCATCCTCCCCAAGGAACCTTGCTTTGTGTTTCTGCTCTGCCTCGGGC
TGACTTCATACATTATTTTGTTGTTGATATATCTGTCACTTCCTACAGCACCATCAATTTTTGAAGGCAGAAGTGGTGTCTTACATGTCCCCATGTCCTT
GGCACCTTGCACAGTGCCTGGAATATCGAGGGTGCTCAAAATTTGATGATGGAAGGGAGAGACAGAAAGAAGGCAGTTAGTTAGGAAGTGGTGATGCCAT
CATTTGTGACCAAGACTCACTCCCTCCGAAACCCTTCGCCGGTGACTTTCAAAAGAGCAGATGTCAAGAAGCTGAATTACAGGGGCAAGAAGACCGTGTC
ACCCAGCCATGGTGTGTTGACCCCGCAACTGACACCAGTGTGACAAGGTGCCAGGTGGGAAGGAGGCCAGTGCGCATCTGGCTCTGTGCCCCGTGCCTCC
CAGTCCCCCATCCTGTCTCTTAGCCAGCCTTATCTCCTTTGTCCTAGAGATGTATGACCTCCTCCCCCTGCTATATATCTTAGCCAAAAGGTAGAACAGT
CATTTTACTCTCAATCTCAAATAGAGTACAGTAAGTCCTCAGTATCATCAACAGGTTCTTGGAAACTGTTGACTTTAAGTAAAACAAAGTATAGCAGGTC
TTCAAATGTTTCCTTCAATGTCATTTCATTATRTTGTTTTTGTTTTGTTTTGTTTCTGAGACAAAGTTTCATTCTGTCACCCAGGCTGGAGTACAGTGGC
ACAATCTTGGCTCACTGCAACCCTTCCTTCCTGAGTTTAAGCAATTCTCATGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCATGCCACCACACCC
AGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATTTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGACCTGCCCACCTTGGCCTCCCA
AAGTGCTGAGATTACAGACATGAGCCACTGTGCCCAGCCTGTATGTTGATGAGAAATAAACAATTGGTTTTGTTATATGTCATTTCACTTAAAGTCATGG
TTTCTGAGAGCCTGTGGACAATGCTGAGGACTTGCTGTATCTGAGTATCCCAGACCATGGCTGGGCAGGAGCAAATTTGCATCTGAAATCTATTCTCTGC
AAGCTCATTTACTTTTCTATTGTTTTCATCTTTGCACACTTGATTGGTATCAATTGCCTTTGTTAGATATATACTTAAGAGTGGAATTGCTGCACCAGAG
CACAGGCATACAGGGGGGACTTCAAAAAGTTTGTGGAAAAATTGAATTTAAGATGAAAATAAAAAATATAAACTTTATTACTCAACATAAACTCCATCAA
GTTCAAGACACTTTTGTAACCAACTATTCCAGTCATTTTGTCCATCCCTAAAGAACAGAGGGTCCTGGTAATTTAACCATGTCAATGTAGTCTTTTTTAC
TTTATTAACGGAAGAAAAAATGGGTGCTCTTTAAAGATTTTTTTAAGATTAGAAAACAAAAAGCAATAAGAAGGAGCCAAATCAGGACTGTAAAGTGGAT
GCCTAATGATTTCCCATTGAAACTCTTGAAAAATTACCCTTGTTGGATGAGAGAAATGATCAGGAGCATTGTTGTCGGGCAGAAGGAGTCTCTCTCGAAG
CTTTCCAGGCACTTTACTGCTAAAGCTTTAGCTAACTTTCTCAAAACAAACTCCTAAGAAGCAGATGTTATCATTCTTTGGCCCTTCAGAAAATCAACCA
CAAAATGTCTGGAGCATCCATAAAAAAGAAAAAAACCCATTACCTTGACCTTTGCTCCACTTTTGCTTTGACTGTACACTTCCATTCCCTGGTAGCCATT
GCTTTGATTGTGCTTTGTCTTCCRGATTGTACTGGTAAATCCATGTTCCATCTCCTGTTCTTGGGAGAAATGTTTCAGGATCTTGATCCCACATTTTTTA
AATTTCCACTGAAAGCTCTGCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGACTGGAGTACAGTGGCACAATCTCTGCTGACTGC
AAACTCCACCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCTTCCTGAGTAGTTGGGACTACAGGTGCCCACCACCACGCCTGGCTAATTTTTTGTATTT
TTAGTAGAGACGGGGTTTCACCGTGTTAGTCAGGATGGTCTCGATCTCCGGACCTTGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGC
ATGAGCCACCATGCCCGGCCAAAAGCCCTGCTTTTGTCTGCAGCTGATCTAGGCACAATGGTTTTGACACCCATCAAGTAGAAAGTTTGATCAACCTTAA
TTTTTTAGTCAAAATTGTGTAATCTGAACCAGTCGAGATGTMTATGGKGTKGGCTTTCGTTAGTGMTATTAATCATTGGKCCTATTCAATTAGGACACAA
ACAAGATTAATTTTTTTCCTCTCCAACTGATGTGGAGGTCCGCCTTGGCAGGCTTCATCTTCATTATCATSCCCTCCCTTCGTGAAACAAGTTATCCATT
TGTAAACTGCTGATTTCTTTGGGTCATTGTCCCCATAAACTTTTTGTAAAGCATCAGTGATGTCACCATTCTTCTACCCAAGCTTCACCATAAATTTAAT
GTTTTTCCTTGCTTCAATTTTAGCAGAATTCATGTTGCTCTGATAGAGGCTTTTTTCAAGCTGATATCTTGTCCTTCTTAATGCCTCACATTAGATCCTG
TGCAGACATGTTATAACAAGTTAGTGTGAGTTTATTTTGGTGCAAAAAACTTTTGAACTCCATGCATAATTTTTTCGTAATATGCATTTTCCATCATTTT
CACTCGAGCCATTCCAGTGGGATAAATTACATTCATGAACTCTAATATTCAATTTGCTCAACTAAGTTTTTAAAATGGATTTTTCTCTCATACCAGGGTC
AGAATAGCTAAGGGTTAGSACATTTGTGGGTGCTAGGCGTGGGGCAATAGCAGACCCTGAGGAGAGCTGGAGCACTGGCTTGGGATGAAGGCACAAAGCT
AGGGTCCTTCAYGGTAACAGGTCCCTTCCTCCCTGAGAATGGCACCATAGTTGGCTCATTCTCTCTTAGAAAATGAGGTTCAGAAGAGCACAGTATAAGG
ACATTAGTGTCAGGTAAGAGAGTTGGGTTTTGGACCTACTTTGGTTGACAGCTTGGTGTCCAGAGTTGGCAACTCATTTTCCCTTCTGTATAAGGAGGAC
GTTAGGTTTTCAGCTCCAGATTTTTAGACACTGACTGGAATCTGACTCCTCTGCCCCTGAGCCTGCCTCTTCCATCTTCTCACCTGACTGAGGTCATCAG
GGCCTCATCTTCTCCCTTCCCACCAGCCAGTCTTCAGGGGTTGGGTACCAGTGGGATGGTGGGCTTGCTCCCTGGGAGGCCCTATGCTTTGGTTGAGCCT
AAGACCCCGGCAAAAGCCTTTATTTGACCTTAGTGGGGTGGGGGTGGGATGTTTTTGTTCCCCAGCTTTAACCTGGAGCCTGGCTATGACTTCCTCCATA
TCTACGACGGACGGGACTCTCTCAGCCCTCTCATAGGAAGCTTCTATGGCTCCCAGCTCCCAGGCCGCATTGAAAGCAGCAGCAACAGCCTCTTCCTYGC
CTTCCGCAGCGATGCATCTGTGAGCAATGCTGGCTTCGTCATTGACTATACAGGTAAGGGCCCTGGTGCCAGAGAGTACTGAGGACAGGTCCAGCTAACA
AGGCAGAGGGCAAGTAGTGTAGCGTAGTGAGGAGAGCCCTGGGCTGGACCACAGCAAGCCCACACCAACCCTAGCACTGCTGCCGCCTGCAGAAACCTGC
CTTTCCTGCGGCCCCCATCTGGGCTTAGTCTTTCACCCCTATATTCTCCAGGGGTGGGAAAAAAGGGAACCAGCATTCTTTTTGCACCTCATCTATTTCC
AACCACTASTCCTCTTCTCTTTTTCTATGAGGGTCATTCCTAACTCTATTTCAACCTCATAGCTATCAGCTGGTATCTTCCTTCACTCCACTTCACTAAA
GAGGATTCTGATATGAGGCACAATCTTCCTCTCCACTCAGAGCTTCTCACCATCCTGGGTAACTTCAACATCCCTATGGACAGCCCATCTAATCCTAGGG
TCATGGTGCTTAGACCTCTGTCCCAAGGACACTCCTTGGCCACACTCTGACACCTCGTCATAGACTGGTCACTTTCTGATACCTCCTGATCACATTTGCT
CATCCTTCCAGCTGTGCTAATTAAGGCAAGTTCAGTAGTGTTGTGGTAGAGAGCAAGAGTCAACAATTTTTCCCCTAAAAATAGTAAATATTGTAGGTTT
ACCTATCACAACTACTCAGCCCTACTACTGTAGTGCTAAAGCAGCCACAGACAAAACAGAAAGAAATGGGCGTGGCTGCATTTGAAGAAAAATTCACTTA
CAAAAACAGGCTGTCCCTGCCCAGTTAAGAGCATTGACTGTCAAATTAATTGGATTGAAAGTTCATGTTTATGACTTAACATTTGCGTGACCTTGGATAA
AGCATTGAACCTCTTGAAGCCTCCATTTCTTCCTTTATAAAACGATGGTAGGAAAATTCCTGCTTCATAKAAATGTAAAGATCAGTGAGTCCACACATGA
AAGTCCTTGGTACAGTGCCTGGCACATATCATGCATTCTGTAATGTTCAAGTATCATTAGTAGTAGTAAGAGGAGTTCCAGGCTCTCGAGCACTCCACTG
TCTTCTACGCTATTATCTCTTTTTGACCTTTTAGTCTTCCCTAATTATCCCAAATCCCATTATCTAAATCCCAGCTCCCTTCCTTGCTTGATTTGTGAGC
TTGRCAAGTATTATCTCTTGGAACATCATCTACAAATTGTTGCTAGTAATAATTATGTTGCAGGAGGTTAAGATTAAAAGATATTTTATACATGCATATT
TTATATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATAATGCTCCATATGTACTAAACACTCTACAGATGCTCTGGGAATG
ATAGATTTTGTTATTGTTACTATAACCCGGGTTCACCCAGGCCTCATCAGCCTGAGCATACAAATGGGGTCGCATTACCAGCTAAAATTAAAAATTTTCT
GGCTCATGTTCCCCACTTGCATAACATAAGACCTCAGATACCTTTTAAAGTGTCCCCTAATTAAATATTTCCGGCCACCCCTGGGAATATCTCACATGAG
CTCACACATAACACTAATTAGAACAATGGCAAACTTAGTGTTTTCCCACTGCCAGCACCAGCCTAAGTGCTCTATATCCATCAACTCATTGGACTCCTCA
TAGTTCTTGATTATCTCCTGTTTGTCGGGTACAGTTCTAGAAGACTGGTGTGCAAAATGGAGAATGTTTTACTTGTAGTCTTCTTGCCTCACGGGGCTGG
CCTAGGCAATGGATATTCTGCCATCCTTTCTTCCTCCAGGCACCTGCCATTTGGTAAACCTCCTGGGCCCAAACCCTCTTCCACACACTGATATCAGCAC
AGTCAGACACTTTGGAATTCTAACAAACAGAAGCCACAACTTAGACCCAGTCTGGGACCTCCATTGCTCCCACCACCACCATCCCCACTGCCATATCATC
ACCATTTCTTATTATTCATCTCTTCCTTCATATTCTCATCAGTACCCTCAATTGTCCTGCCCGCTAGTCCTCCAAGTGCATAAACCTTGCAAAACTGTAC
CCTTTGTTGAACCCACACCCACACAGCTGAGGACACCCAGACAAAGCTGCACAAACGTGATACTTAGAGTCACTACGAGTGATGTCCTTTCCCCCAGCCA
AGCCTTAGCAACCACCAGAGCTGCCTCCGACTTGACCCAACTGAGTTCTTCTTGGCAGAGATTCCAAAATTCACCCCAAATGTCACCCCGTCAGCCTCAT
TTTTTATAAGATGATTTCATTTCAGCTTCCCTGGATACAGTAAGCTATTGGGTAGAAACCCCCTGAGCTTCCTCTCCAGTCACCTTGTTCATGCCTACCT
GCCTGTGGCCATCTCTCCCCCAGGTCTTCTCCAAGGAAATTCATGGTCCGAGAGCCATACTTTCAAAACCTCTTTCCCAGTGAAGTTCTTTCCACTTTTG
CCTGTTGACCCAAGGTGGGTATCTAGAGGGGTCTTTAGGTCTAAACCATAACCCGGGGAATAAGACCTCCCCAGCTGCCATCGGAGCCAGCCAAGCAGCC
AATTACTGGAGAGAGGGGAGAAGAGAGGCACATCCTACAGACGTATCCCCCATCACCCTATTAGGATCTGTAGTGCAAGTACCAAGATAAAGATAACTAT
GTGTGTTTGAGGGGTAGGGGGTGCCTGTTGGAAGCCTCAAGCATCCTTCATTATTTCATTTGTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTT
CCTTCATTCCCAGACTACACACCTCCTAATATTAGTCACCCTCTACTATCTCCCTGGGCCTCTGGTCTAGTAGCCCATTTGGTGGAACCTAGGGACCCCT
ACCTTACCCTCTGGTCTGCTTCTGCCTATGCCAGGATCCCTGGATTCCTGGAATGGGTCTACTTTGCTATCAGGTCCCATGGCTTTGAGGATATTTTCCC
ATGTACACTATCTTTCTTTATAGGGTAGGCTCCATCACTTCATAACTGTATGCCCTGAAACAAGTTGCCTAACTCCTCTGAGCATTGCTTCCTCMTCCAT
GAAAAAGGGACAGTGACACTAAACGAAGGAGTTGTTGTGAGGATTAGCACATAGGCACAGCATCAAGCAGAGTGCCCAGTGCCAATAAGTATTTGATATG
TACTTTGATCCACCCACTTTCATCCCACCTCCTTTTTCCTAYGTCACTGGTATTGCATTTGTTGTGCCTTTGTTTGGAAGGGAGAATGGGGCTAACCCAG
GGGAACACGGTACATGTTCTTTTCTGTTTACTGAAGATGTAAAGTGTGAGCATAATGTTTTGCACATGTAATAAGTGTGGGATATTTATAACATGAATAT
TTGTGATAGACGTATGTGTCCCATATGCTTTGCCAGCCCATAGCAAAGAATTTAGACATTCCACACCCTGTAAGTCTGGAGAGAACCATAGATGGAGAGG
CAGCCCACTGAGGACCTCCACAGGGAGGCAGGGCTGGGTCCTCAGGAAAAGCAGAATTGGCCTCTGCATCCAGGAAGCATCTGTGTCCATGTCTTTTAGA
GAGATCCAGGGCTCTGCTAAAACTGAGAGTCTGGGTATCCTGGGAGCTGTGGCTTCAGGGGTCTTGCTTAGGGAGGTGAAAGGGGCCTACGAGCGCCCCA
CATAGAGAGATGTTGCTGGACTCAGTTGGGCTCAGCACAGGGGAAATTACTCTCTGAGATTAACCCTTCCCCTGACCCAAGGCAGAGAGACCAGGAGCCT
TTCTCCACACACAGCTTCCCAAGTGAGAAGCAGAAACAGTTTGGTAGAATCTTAGGAAATATCAAAAAACCACTCAGAGCAACTTAAGCAAACAAAGGGG
TAACTTATTATAAAAACACAAGAAACAGAAACCCACTCAAAACAATCTGACACAAAAAGGAGACATGATTATGAGAAAACAACTAACAGCCTAAGTAACT
TAAGCTAAAAGGTTTCTATATTTTAACAATACAGATAACAATAACTCTGACACAAAAAAGCAAAATACTTTTAGAATACAAGAGCCCAAGGGCAGAAAGC
ATAAACTCCCAAAGGACTGGAATCAGGATGGCAGAGGCACAGACTGAGACCATCATCCGCACTCCAGAATCGTTCTCTCTCCTCCCTGCCTCCTTCTGAG
CACTTGCTACATTCTCCCCTCCCTGCAGATCAATTTTCCTTGCTTTTCCATTCTCCTGGGATAAATGTGGCTGTCTCACTCCTGACTTTTTTTGTTTGTT
TGTTTGTTTGTTGTTGTTGTTTTCTTTCCTTTTTTTTTTTTTTTTTTGAGACAGAGTGTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCAG
CTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCGCTTGCCTTAGCCTCCTGAGTAGCTGGGATTACAGGCATGCATCACCACACCCGGCTAGTTTT
TGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAAGCTGGTTTTGAACTCCTGACCTCCAGTGATCCACCCACCTTGGCCTCCCAAAGTGTGATA
CAGGGTGTGAGCCACCGTGCCCAGATCACTCTTGGCTTTGAATCACTTCCCAGTTTAGATTCCAGTTTCAGATCCCAAAGGATCATCTGAGGGAACAGGC
TTAATTCAAGTGTCCACTGAGCAGCATCATGGGATTAGGCTTTTGCAGAAGGGGCAAGAGCAGGTCAGGCATTTTTATTTATTTATTCATTCGGTAAATA
CGAATTGAGCAGCTACCATATGCCAGACCTTCTTACAGGGGCTGAGAACAGACCAGAAAACCAAACAAAGTCTCTGCCTCCATGGAGTTCACATCCTCGT
GACAACTAGACCGACGGACCCTTCTGTAGATGAGATGTTGGAAGCCCACCTGGTTCTAAGGCAAAGAGGGGTGGGTTTTTAGATGTCTCTGTTCAGTTGC
TTCTGAAGGGTGACTGTAGTGTCTTAGTCATCTCTGGGCAGACTTTCTAGGAGATGATTCTGAATGCAGTCATGTCATCTGTGGATTTCTATTAGACCAT
TGATCAGAGGCACTTCTATTCTGAATTCATCCTCCTGGGTGGCTTTACCCTTTGCTAAAAGGAAACAAAGAACAGCAGGGATCCTGTGTTTTGGAYACAG
TTACCAAAATGGAGTCACAGGGAGGTTTATGTCTTTCTCCAGGCCACGGATATCAACAGAACCAGTGGGGTGGAAGGACCTTTATTCTCATATACCAGCA
TGTGTGGCAGCCTTTTCCTAGGCAGGAATGTGCTGAAACATCCACGCACATGCAAGACATATTCATTCATTCAACAAATGCTTGATGACTCCTACTTCAT
GCCATGCCCTCTGCTGGGTGTTGAGAATACAGCAGGGAGCAAAGTAATCATCATCCCTACCCTAATGTAACTTACAGGTGAGTGAGGGAAACAGCAAGAA
GTAAGAAGCATAAGAAGTTAGGAAAGAAAACAACAGGCTCCTCTGAGAAACAAATCAGAAGGGTTGCTGTGAAGGCCTCTCTGAGCAGGATCCATTTAGA
CAGAGCCCTAAAGGTTAAGTAGAAGCCCTCTGTGCCAGAGTGGGGGCCAGGGGCGTTTCAGAGGRAAGAGTTTRAAGTGTGTGTTAGAGAATCTGAAAGA
ACACAGGAAAGACCAAAGTGAATCGATTTTTAATGGAAGGTCCTAAARAGCATGTATTTTCTCTTTCAAGCCCTTGRAAGTAACACTGTGGGCCTGGAAG
CTACGGCCACACCTGCTACCACCCCTATTCCCACCACCTGCTGCTGTTATGGGTCATTCTTCTTAAATGCAAATTAGAACTATCTTATATTCTGCCTCCT
TTTAAAGGAATGCATGTTTGTTGGAAAAATTCAAACAATATATAAGCATATAAGATATACTCTTAAAGACTTAGCATGCCCCCAAATACCATCATCCCGT
GCAATACCATTATTAACAGCTTGGTATCTCATTTCGGATACTTTCTATAAATATAAAGTAATGTAAAGTCTGTATCAGGAGTTGGCAAACTTTTTCTGGA
AAGGGCCAGAGAGTAAGTATTTTTACTCCAGATGGTCTCTGTTGCCACTGCTCAGCTCTGCTTCGTAATGCTAAAGGCAGCCACAGACAATATGTAAACA
AATGGCTGTGTTCCAGTAAAACTTTATTTACAAAACCAGGCAGCCACCGACCTGTGGGCTGTAGTTTGCTGATCCCTGTTCTATATGAATGAGATTGCAC
CATATGTACTCATCTGTAATCTGATTTTTTTGTATGTGAGCCCAAGAATAGATCTTGGACTCCTTCCCATATCAGTATTCAAAGAATAGTGCTATTCTTT
TAAAAGGCTGCTAGTGTTTCAGTAGATGGCCCTAATCCACCCTTTGTAACCAGTTCCTTACTGGTTGAATGTTTGGGTTATATTCAGATTTTTGCAGTTA
TAAGGTTTGGAAGTAAGCCTCATCTATTAGGACCAGAGAGAAGCTGGCTCTTCTCATTTTCCCATTTTGAAGGGCTTGGGTTTTATTTATTATAATCACC
ATGATGTTTTAGTCATTTAGTGTTATCATTCACAGCTGAGCTTTGGTTTGGCTGACTAAAGACCTGATTTTGGTCTTAATTCTACCTCTAAATAGCTGAA
AGGCTTGGAAGACTCATTTGGCCTCTCTGATCACCATATTCCTCATCTATAAACTGAACATGAGCATAACCGGCCCTGCCTTCTGCAGAGGGTATTGTGA
GACACAAATGAGATAACGGCTTGGAAAGTGCCTTGAAAATTATGAAGTGATATTCCTATGTAAGGGGCTATCATCACTGTCATTATCCATGTCATTATTA
TTAATGTGGTAATGCTTGGGATGATGAGCTCATCTTTCTCTTACGTGTGAGTAAATATAGAATAGAGTCTGTAGTTGGAATCGTTGATGTGGTTGTTGAT
TTTCCAAGCCTCAAAGTATTCAGCCAAACAATTCAGCAGCCATTTATTAAGCCTCTATTATGTGCCAAATAGGGCTAGCCTTGGTGCCAAGTTCTGTGCT
AGTTGCCAGGGTTATGAGAAGATCAGGTGATGAACCTTCTCCTCCAGGAGTTCAGAACCTACTGGAAAGAAATACCCTTACCCAAGTTACCAAAATAGCG
TGATACATGTTATAACCAGGGAAAGAAAAACAGAATTCTGCCAGAGAGAAGGTGGCATTAAAAGTGTAGGATTTTGCCACACAAATAAGGAAAGAAAGGA
CATTCTGACATCTGTAAAGTTCTGGGCCAGTCATTCCCAGCTAGGGTCCAATGCTGGTGCAGCAGTTACCCAAAAACACAGTTGCCTGAACAAGGTAGAC
ATTTATCAGACTTCCTATAAAAGAAATCTGGAGGACAGCGCCCAGGATTGATGAGGGAGCTCCACCTTGGCTGCTTTTGTCTCCCTACTCTACCATGCTA
GTCCATGGATCCCATTTCAACGTTATCTCCGATCCAAGATGGCAACTGAGGTTCCAGCCATCATGTCTGAGTTCCAGACTGAGAGAAGGAGGAAAGATGC
AAGGAAGGAAAGGCCAATAAGCATTTCCCTCAGCTGAGTCAACTTCCCTTAAACAGTCTTTTTAAAAGTTCCACAATAATCCACTGAAGATATTTGTTAA
GTGCCCACCATGTGACAGACACTGGAATATGGCCGTGAACAAAACTGAACAGCTGCCYTTCTGAAATCTATATTMTAGTGGAGGAAGACAGAAAAAAATA
AGGTCWATATAGAGTCGATGAGAGAGTATTAACTGCAGTGGAGAGAAATATAGCAGAGGAGGGTGTTGGGGGCATTGGGGAGAGGAGTATTGCAATTTTA
AGTAGCTGCTCAAAGAGTGTCACTGAAGGAGAAATTGAGCTAAGTCCTGAAAGAGGTAAGACAGGGAGCCACAAAGACCAGAGGCCAGTGTCGTTGGAGC
AAAGCTAGCATAGAGAYGACAGGAGCTGAGGTCACAGAGGGGACTAYTGGGGCCACATGTGCAGGGCCTTGAAGGCCTGTAAGGATTTTGGTTTTACCCC
AAGTGACACGGGAGGCTATTGGATTGTTTTCAGCAGACATGATCTAACTCGTGTTTACACAAGGAGGCTGGGAAATGTAGAATTTAGCTGATGCCTTCAA
GCTCTGGATAAAATTGGAGTTCTGTTATTGATGGATGAAGGTGGGGAAAGTGGTTATTGGGGACTACAGCTAGTTTTGCCTCTTATGAGCTGTGTGAACT
TTGATTCCAAGTTACTTAATTTTTCTGAACTTTAGTAAGATTTAACCCACTTTGAATTTATAAAAAGGATAGATGAAACAAAAGACATGATGACAGGTCC
CTGGATCTCTATGACTCACATATGGGTCACCCAGTGGCCAGTTCTATTCTGGCCAGAGACACTAGGCATATGGAGAAGACAGATTTGATAAAGGAGGTCA
AGGCAATGCATCACGGGGCACATGAGGAAACCACTGAGGAGTGCCCTGTGACGAGTGGCCATGTTGTCGGTCCCACTTGGGTTTAAATGCAGTAGTGCAT
CCAGAGCTGCTCCACTCTCAGCTGCGGGCAACGACTTAAGGTGCAGGATCTTCTCACATGCTCCTGTGCAATAGTGAGACTCTCAGAGTTCCATCCCATC
AGTCAACCAGATGATTGGCAGCTGAGTGACAGCCTCAAGTAGTGGCCGCCTCCTGTGTAGGTAATCTAAAAGGTACCCAGGTGACAAGGACGGCCCTCAG
CAAAATTCCTCCTGAGCCATTCATCTCTGATGAATGAACACTGATCCCTTCTATTCTGGTTCTTCCCTCCTTAACTCCACTCTTTGAATTTCTGAGTCCT
TCTGCAAGGACTGTCAGCACCCTTTTGTGAGTCCCCATCTCTAGACCTCTCTGTTGCCCCCCAATAATGTATCCTCCAAAATGCTCATCAGTCAACCTGA
TACTCAGTTGCATCTCCCTGGTACTGACTGGCCTCAGCTGTATCCTGTTACTGCCCAGCCCTGGTGACAACCCTCTTGACCATCAGTTATCTTAGAACAA
GGAGGACGGAGGAAAGGTAATCATGCATAGAAGCGTGAGCATGGGCTCCCAGTTGCTGCTCAGGATTTCCAGCTGATGGTGAGGGATGCTGGAGAGTGTC
CTACTCCAGAGATTTGGGACTTGGACTAGTACTCTCAAGCCACAGGCAATGTCAAGAGTGGTCTTGTTTGATGCAGAGCGACAGAGTAGAGGACTGTTTA
TTCATAAACTGTATGACTGATAGGGAAGACATGTAAGGGTCAATAGCCACATGAAAAAAATACTGTGGTTTTCATAAACTGGCAAGCACCCAATACCCAG
TGCAGAGCCCTGGAAAACTGCACTGGAGACATCAACTTATCCCACCGGTCGGGTAACCCAACCCAGAGGTGGAAGTGAGTTTTGTACTTCCTCCCTGAAT
CTAAGTATTGGTACCCATGCACTCAGAAGAACCTGCAACAGATGGGTATGACTGGGCCTGCAGAACAGATGCCAGCTCTACTCCCCAGCCAGTGGTACAG
ATGGGGCAGAAGAGAGAGGAAGAGAAAGAGCATCTCCAAAAGCAGACTGTCTGCCCTGCTTCTCAGGTGAACACAAAAGGCCAGGAGGCTGCTGAGTGTG
GGGGGTCAAAGATGAGTAAAGTGATGGGCTGTACCTAAGCACTGACCTTTACCACARTGACCCTGCCGGCAGCTGAGATGTGGTCCAGGGACTGTCAGCC
CCCACCAGCCAGAGAAACACAYGTTTCCCTTGGGGAGGAGCAAGCAGGGGATGAGAGAGGGCCTCAGCGATTTTGCTGGGCCTCCTTCCTCTGTGGGTCA
AGGCAAGAACATGGGGGGAGGAGGGGAAATTGCCCTCTTCAATGTGATTTCCATCCTTCAATTTCTACCCAAATTTAGAGACGTTTCTAGACCTGAGGGG
AATAGGAGCCACAGTCACGCATCCCCGTGTGCTCTGTGGCTAATTAAAGTCGGGTTCTCCTCATGGGCACTGGAGCCCAAGAATAGCCTCCTCATGAGCC
CTCTGTGTGTGTGCACGTGTTTGTATYTCTTTTTCCCAGAAAACCCGCGGGAGTCATGTTTTGATCCTGGTTCYATCAAGAACGGCACACGGGTGGGGTC
CGACCTGAAGCTGGGCTCCTCCGTCACCTACTACTGCCACGGGGGCTACGAAGTTGAGGGCACCTCGACCCTGAGCTGCATCCTGGGGCCTGATGGGAAG
CCCGTGTGGAACAATCCCCGGCCAGTCTGCACAGGTGGTGGAAGCCTGGGGATGGCAGGGGTCTGAGGAACTGAGGGCATGCCAGGGGYAGAGGGTGCTG
TGGGCTGGGGAAGGGAGGGGGGCAAGGTCCTCAAGCCCGGCTCCTCCAAGCCTGGCAAACCTGGGTTTGCCGTGGATGTGTATAGAAGTGGCTTATAATT
CACTAGGTGTGCAGTTCCTTTCAAGGTATCATCTCAGAACCCATGGTGTCCCTACCCCCATTCACAYAGATGCTCATGCCCTCAACAGAGGCCCCCAGAC
ATGCCACATCAGGGAGCTCACACCAGGGAGAAGTCATTTAAAGGTGGCTCCTGGACTAGTTCCTAGGCCTAGGGAAAATCACTGAGAGATCAGATATGTT
GAAGTAAGGCCCGCAGGGTGTGCTGATTCCAGGTGGGTCTGGGTGAGCCATGGGGGTCCTGACAAGAGAGATAGGAATGAGTATCAGGGCTTTAAGAGCT
TGGTGACCACCCATTGAAAAGCCAAGCATACCCCCTTTGTCATGGTAAGAGAGGCAGGCTCAGACCCGCCCCTTGTGGAAATTGGGCACCTTGGAGAGGA
ACAGAAGGTGGCTGGGTCACATGGGCTGGCCACTCCCCATGGGGTTAGTCCGGGGAAGCTTCAGCTCCCTATTCACACTGACACTCACTGTCCAGGTTAG
ATGTCAGCCAGGGCAGCAGATCATTTCTAGGCTCCACGTGTAAGCAGAAGAGGTTCCTAATGTGCTCCCTAAGGCTGTGACTTCAGGGACCAATGCCAGG
GTTAATAGGTAGAGGGCAAGAACTGACACCTGCCCAAGAGGGCCCTCGGTAGCTTCAGGGCAAGTTTCAGGCTACATGCCAGGCCAGGGGTGCACGTTCT
TGGGCAGGGCAGGGTCCGCAGGACTTGCCTTCTCCAAGCTAGGGCCTGCCCACCTCAGGGCAGCCCTACTGGGGCCAGAAGCTCAGGCTGGGGCAGAACA
GAGGATGGTCACTGGTAAGAGGCCCACAAGGTCACCTGACTCTCTATCTGGTTTCTCTTTCAKCCCCCTGTGGGGGACAGTATGTGGGTTCGGACGGAGT
GGTCTTGTCCCCCAACTACCCCCAGAACTACACCAGTGGACAGATCTGCTTGTATTTTGTTACTGTGCCCAAGGACTATGGTATGGGTTTTGGTTGTTGT
TGTTCATATGTTTTCTGACTCCTCACCCTCATTCCAAAATGAGCAATTCCTCAGACGCCTCCCAATTATATACAGCCCCATTGTGGGAATCGCAGAACAG
TCTCCCCAAAAGGACGGCCGAGTGCTGACGTTTCTCAAACGGGCTGCAGAATACATTCCGGACACAAGAGGGCAGAAGGGCACAAGTGAGCCCCGCCAGA
ACCAAGGGGACAGAGTTGGTGAGAAACTGGCCAAGACAGAGGGAAGGCAAGGTGCCCCAGGGGACTACCCAGTATGGCCCAAGTCCTAAGGGAGGTGCCG
CAGATCTAGACCTGTTAGGAACCCAGGGTGAGTGGCCAAGGAGCAGGAGGGAGGAGAGGAATGGGATGGAGCTGGGCTTGAAAGTGCAGGTGAGGGAGAY
CAGGAGCCACATCATTCTGGTGTCCCATCTGAGAACCAAAGCCTGGTCCAGAAGCTATAGGTAGGACAAGCAAGAAAAAAGTGAAAAGCAGACCAGTGCC
CTGGGAAGACAGAGAAACTTCCAGATTCCAAGAGATGTGGGCAGAAAAACCAACCCAGGCTCATTACCTGGTTGGCAGTGGGGACATTCAAGAGTCCTGC
CAGCCTTGGAGGCATTCAGGAAGATGAAGGGCAACCAGGTGACCAGGCTGGCTTCTTTCTTCCTGGATCTCCTCTTTGTAGGAGGACTAACAACCATATC
TAAACACAATTGATGTTGGATGTGGCAAAGGACATCAACATGTCCCGACCACCCAGGGGAGGAGCAGGACGGAGGGAGCAGCCTGCAGAGAGCCAGCTCC
TTATTCCCCAAGACAGGATGGGCAAGCACAGAGCAAGGCCTGATGCTTGAGGCGTTCGCCAAACATTTAGTAAGCACCCATTGGGGGCCACGCACTTTAC
TGGGTCCTGGAGTTGCAGAGATGAGAGAGACATGTTCTCTGTCCTCTATAAATTCCCAGTCTCATCTCTACCCATAGCTCCAGCCATCAGTACACCCACT
CCTGCCCCAGAACCAGGACACCTATGTACATGTACACACACTCCCCAATATACTGAGGTGGCAGGGGCCTCAGACCTGCAGGATCGCAGTTAGAAAAGTC
CTGAAAGGCTGTCCAATCTGATCTGCTACCCAGAGCAGAATCCTTGGTAGGTGGGCATGCAGTTTGTGCCTGGATCCCTCCAGTGATAAGGAGCTCACAG
CACTGACTACAGATCTCTGTATACAGTTTTCAACTCAATGACACTGACTAACTGACGTTGGGACGCATGAATGTGGGGTCCTGACATCGCATGGAGAATG
AGGGATGGTACCCAAAGCCCTCTGATGGCCTCCAGATAGCTGCTGCAGCTGCTATCTGGGAAAGGAACAAAGTTGGCTCCATTTCGCCTCTACCCGCCTG
ACCTTTGGGTGCAGCCCTCCATGTTGTCTTGACCCTTGTGAAGGCCAGCCCGGCCTTCCCAGCTCCCCGCCTCCCTGTGCCGGGTGTCTGGCCACTGCCA
GACTGTGCCACTGCACTAACCAGTGCAGCAAGCCACAGCCCAGGAACCAACAACTTCCCCAGGGCTGCCCTCCTCCTGGCTTGGGCCCCTAGACCCCTAG
ATCCCCTCTCCTGCCCCCAGCGTGCCTGCCCAGTCCCCACACTGTGTCTCCTCCACAGTGGTGTTTGGCCAGTTCGCCTTCTTTCACACGGCCCTCAACG
ACGTGGTGGAGGTTCACGACGGCCACAGCCAGCACTCGCGGCTCCTCAGCTCCCTCTCGGGCTCCCATACAGGTATCCGGGGCTCGGCCAGTGTGGGGAT
GGTTGTGGGCCGGGGGCATCACGTCCGGCTAAAGSAAGGAGGCTCTAGAAGCACCCCATGGCCGCAGGTGGAACCCTACGGCTCTGCGTGCCTGTCGTGT
TCTGGTGCTTGTCTACAACGCAGCAGCCAGCTCGTGAGAGCTCCAACTAGCGGGGCCTTCAGCAGCTGCCCTCACCCAGACTGTGTCTACACCGCCCCCT
TGTGGTGTAGCCTTCTCCTGTTGGTTCGTATTCAGAYRCAACTTTTTTTCTTACTATAAATGTRTTGCATTTTCATTATAGAAAACTTAGTGACAAAACA
AAATAATTGCATACAGAATCAAAATAAAGACTACCCCGAAAGAGCCACTGACAAGATGTAGTGGATTTCCTTCCAGTCTTTGTATCTACTTCGACGTTTA
CATATTTTATTCAACAAACCAATATACATATTTTATTGAAATATTCGCTACGAGCTTTTCTCTGTCATTTTTTTTCTTCTAGGCTAGGATTTTTAAGTGC
TACATAGTAGTCTCTCAYACAGTTAGTTAAAATTTATGTAACGAATTCCCTATTATTGAACATTTAGATTGTAATGTTTTGTGCTTATGAATAGTAATGC
AATGTATTGTACATACATCTTTATATACATTTCTGTTACTTTAGAATATCTAGAAGTGGAATTGTCAAGTTAAAGGATATGTGAGATCTTTAAGGCTTTT
TATGCAGATTATCAAATATCCCTCTAGAAAGRTCTTGTCAGTTTGATCACCAACAAGAAAGAGGGCATGTTTTATTCTCACAAAAACCAGGTAATTAAAA
AAACAAAAGCGTCATCAGTTTGAAAAGTGAAAAYGGTATCTCATTTTCTAATTTGCCTTGTTTTATTACTAGTTAGGTTAAATTTTTATAATGTGTTTAT
TGGCCTGTGCATTTTTTATTTGTGAATTTATTGTGAATTTGTGTCGATTTTTCTACAAGCACTTATTTTCTTATTTATTGAGTAGAGCTCCATATTTTAT
RAGCTACATAAATATATATAATATGCTATAAAAAGCCCTCCTCTCCAGCTTGTCTTTTGCTATATAATTTTCTTCAGGGTGCTTTAATGTCAGAATATGT
AAATTTCCCATGCTATCAAATCTATCAATGTTTTCTTATATAGTTTTCTCCTTTGCTTTTATGCTGGTCAAATAAATATTCCTCTGTGTTTTCTTTCACT
TCYTAGTTTCATCACACTGCTTTAATACCTTTGGAATTTATTTTGATTTATTATTTGATATAGGGAATCTAACCATATTCTTTCAAATATAGTTAATCAG
TTGTCCTAGCAGAATTTTCAAAATGCCAAATTTACATATACTAAATTTTTATGAAGGGTCTGTTCTTAGACTTTTTATCCATTTCTTCCAAGTGTCTATT
TATTCCTTTTTTAGTTTTAATTATTATAACACTATAATAGTGTTTACTATATAATAATTTTAAATACATGGTACTATAAGTCCCCAGAGCCATTCTTTGT
TTTGAATTTTTATTGGCTGTTGTTGCTTACTTTTGCCTCCAAATTATATTTAGAAATATTTTGTTAAGTTTAAAACATTGCATCAGAATCTTGACTGGGA
TTTAATAAAACTTACACGTTAAATTAGGGTGAACTCACGTTTATATTAACTCTTCTTCCCATCCAGGAATACAATATGTCTCTCCATTTGTTTATCTTCT
GTAGCCCTTGGGAGGGTGCTATAATTTTTATTTAGGCRGTATTCATTGTTTGTTAACTTTATTCCCAGATATTTCATGGAGATTTTTGTTGCTGTTGTAA
ATGGGTCTTTTTTCCCCCATTATGTTTTMTAGCTGGTCTTTACTAGTATATTCAAAGACTGTTGTTTTTGGCATATTTGCTTTGTAAAGTCATCAGACTC
TTCATAATACTGCTTACACTGCCAACTAATTCTCCTGGCTCYTCTAGGCAAGAAGTAATATCATCTGCAAATAAATTTGTCTCATTATTTTATCTCCTCC
TTTTCAGTGGCTTTTCTTTTATTTTCTTCCATGGTTATTGGTCTATTCAGGTATATTACTCTAATATCAATGTTGATATTTTAGCTTTTAGTAAAAAATC
CATTTCATAATTTCATTTACATTTAGTACCACAATGTATATAATGTACTATGGTGATGTTTACCCTGCTTTGTATTAGTGGTGATATTCCTGCCTTTGTT
ATCCTGCATCGTGCATTCATCATCCCCTTTTTACTCGGYTGTACCAGGTGTTTTGTGTTTTTGTGGGTTTTTTTTAATTTTTATTGCTGCAATTTATCAA
TTATTCTGCAGTTTGTTGTTGCTTTTTTTTATTAATCTCTGCCTTTATTTCATCATTTCCTTCCTCATATTTTTCTTCTGATTATTTTGTTCTTGTTCTA
ACATCTTGAATTGAGAGCTCTGTTCATTATTTTCTCTGTGTAATAAAGAACATGTTTACAGCGATGTATTCACCTCCAAGCATAGTTTTGGCTTCATGCC
ATAAATTTTGATATGTACTATGTTCATCATCATTACTTTTTAAATAGCTCATCATGGTGTTGTTTACTCTTTTTGCCCAAGTGTTGGCTAAGAATGTCTT
TTCTTTTCCCCTAAGAATATGGATTTTGTTCTTATTGCATTAAACTTTTGTGTTAATTTATATTTTTATTTCCATGTAGTGAAAGAATGTGGCCTGTACC
ATTTCTTCTTTGGGGATTAATTGAAGTCCCTTCAGTAGCCAAGGACCTTTTTTTTTAGTTTTCTAAATATTTAAGAAGGATGTGTGTTCTCTGTAAGGTA
GAGAAGCAAGACGAATGAGCTCAGGCTCTACAATCACACTCTTTTCTTAGCTCTCCTATTTGTTTTCTAGGTGACTTAAGGCACAATACTTGACCTCTCT
GAGCTTCAGTTTTCTCCTCTGTAAAATGCAAAGAAAAAGAGTCCTACCTCCTAAAGTTAGTGTTAGGAGTAAATGAGTTTTGTAATTGCCATTAAATCAA
TCTTACTCAATTTTGTTATTCAGATCTATTGTATCAGTGATTCTCAACCAAATGAATTTTTTGTAACCACCACCTCACACATACACACCCAACCAAGAGT
GTAAATCAGGAACTCCTGGAGTAGGATGCCTTTTCAAAACAGATAGATAGATAATGTATAGCTATAGATTTAGAGTTATAGTAAGGATTTTCAAGTAAAG
AGCTATAGAGAGGTCTACATTTAAGACCTATAGATGTAAATATGGATGTAGATATAGGTGTATAGGACCAATAGAAACAGGAAGTAAGGAAGGAAGGAAG
CAAGGAAGGAAGGAAGGAAGGAAGGAAGAAGATGGGGGAGGAAGATGAGAGAGTGAGAGAGAAAGAGAGAAAGATGTATAAGACCTGTAGATATAAAACT
CCTGACCTCAAGTGATCTACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGTGAAACCCCATCTCTACTAAAAATACAAAAATTCACTGGGCATGGTC
GTGGGTGCCTGTAATCCCAGCCACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGTGGAGGTAGCAGTAAGCCAAGATCGCGCCATTGCAC
TCCAGCCTGGGCGACAGAGAGAGACTCCGTCTCAAAAGAAAAAAAAAAAACCTGTAGATATCAATATCAGTATATTCAGAGAGTCCCTTATTCCTCATTT
GGAGAAACACTGATAACAAGCCATTGGTACTGATGGGAGTGCACTATGTCCCTGTCCCTGAGTTGCGTTGGGGGAGAAAAAGCTTAAGGACCGCTACTCA
ACAGTCTTCATTTTGTTTTTCTATTTGATGTATCAATGATTGTGAATGTTGCATGAAAGTATTTCCCATTACAGTTATGATATTTTGTTGTCTTCTTGTA
TATCTAGCAATTTTTGCATCTGTTTTCCTGACATATCTTCTCTCATTTTCTCCAAGTCTTTCTCTTTTAAGAGGAAGTTGACTCATTTATTTTACAAGTG
AATTATTTGGTCTGATATCTGTCATCTTGTGTTGTTCTTTCTGCGCTTTTGTTTGTGTTGTTTTGATTTTGCTTCCTCGCTTTTCCATACATACCTGACC
CATCTCTAATTTTCAAGTTTTTCTTGATATATTTGGACTTTTATATTAATGTTATAGTAGTTATTTTTTAAATTGTGGACTTCTTCCCCAAGAGCAAATT
TTTGAATTTGCATTTGCATTTTGTTTTGTTAGCTCATTGACAATAGTTATTATACTTTTCTGGTTGTATTTATCCCTGCTGGTGTCTGAATTCCCTACTT
TAGTTTTGGGTTTTGTTTTTTTTTTTTTCAGTAGGGCTTATAACTGCAGTACTTTCTGTACCATGCATATATGAGAATGCTTTCCTTTTGACATGGGATA
TAAATGACAMCTTGATTGTAAATCAAATTACGGGTCAAACTTTATCTTTCAAAACTGCAGTAATTATTCCACTCTATTCCAACATTTACTGTTACASACA
AATTGGGGTCCAACGTGATTCTTTGTCCTTGTAAGTAACCTGTGCTTTTCTGTCTATRTGATTTTCTTTTTTTGTTGTTGTTAATTAAAAAGCCCACTGG
GAGGTGTTGTGGTGGAGGTCTCTTCTCACTAATTCTACCTTGCACTTGGCAAATATTTCAATCTGTACCTCACATCTTAGGAAAAGTGTCTTCTTTCTTA
AATGATTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGTAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCC
AGGCTCAAGAGATTCTCCTGCCTCAGCCTTCCGAGTAGCTGAGACTCCAGGTGTGCTCCACCATACCCGGCTAATTTTTGTATGTTTAGTAGAGATGGAT
TTTCACCATGTTGGTCAGGCTGGTCACAAACTCCTGACCTCAGGTGATCCGCCCGCCTCAGCCTCCCAAAGTGTTGGGATCACAGATGTGAGCTACTTCA
CCCTGCCTTAAATGATTTTTTTTCTCCTTCAATTTCTCTGTCTTCTCTTTCTGAAATTCCTGATACATGCATATGGATTTTTTTTTCATCTTTCACGTCA
CTTGTCATTTCTCTCGTTATTTTAATCTCTTTATCCTTTTTCTGTGGATTCTGAGAGAATTTCCCAAATTTCATCTCGACTTCACTGTTCAGTTTTTGTG
GAATCCAGCTGCTTGCACTAGCATTTCTCATCTCTTTGCAGCCTTTATTGATCTCAGATCCTTCTTCCTCTGACTTCACAGATGCAATGCTAGATTTAAT
CTCATGACAACCATGACTGAACATCTGCTGAGAGTTTTGCCTGTTCTTTGTTGTGGTTCACATAAAGTATTTGCTTTGACTTCTTAGAGTGATCTCCTTC
CTCAAAACTTTAACATTTTTTCTTATGTCCAGTGATTTTACTATTTGCTCTCCCTTGAAGATGGAGGCCCGTGTGCCTTCAGGGCTGCAGTTGACATGGG
TTCTGTGAGAGCTCACTAGGGTCGTTATCCACATCTGTCAGGCCAAATAGAAAAGTTGAGTTTCACTCTGCTCACATCCATCTGGAGGAGGAGTTGGAGA
TGGCAGTGATATCAAAGGGATGCTTTGCCTTCATGAGTTTCTTTCTGCTTTGGCAGCTACATGTTAGCTGGGGGCAATAACTGTTAGCTGGGACAATGAC
TCCTAGCCAGGCTCAGCCTTCTGGGTCACATACACATCTAAGCCTGCCTTGCAAAAGCTCTCTGCTCCCATATTGGTGGCATCACATGAGCTTCCTGGAA
GTACAGGTGGACCTCCCAGTAGTTCCGTTGTGGGTCCCAACTCTAGCCCTCACTGTAGTGGAGATAGAGCCTGGTTCTCTGTAATCCCTGCTTCGTCCTG
AGAATGGGGTCTGGGGTCAGCAGCGCTTCTCAGGGGTCCCTGAGGCTGCAGGGGGGCAGCAGGCAGAGTGGCCATGCTGCTGCCTCCACCCATGTTCTCC
CTGCGCTTCCCCAGAATGGCAACTACACTAATTGGCTGCAGGTCCAGTTGGTGCTGTCTCTCCCCTGGCCCATCTGTACTGCACCAAGCAGAAGATATAC
CTTTGTCTTCTGCTACAAAAGCTGTCAGTCTACCCTGGTTTCCTGTGCCCATGCAGGTTCCCCCCAGTTTGTGTGTTATTGGCCGGCAATAGTACATCCT
GGTTTGCCTGGGACAGTCCCACCATAACTATTGATAGCACTTTCTTTGACTCTCAAAAATGTTCTAGTATGAACAATACATTACACCATCGCTCTGGTAA
TCATTTCACAGGATGGTGGGAGAGTGTCTGGGAAAGACCAGTTGCTCCTAGATGATCACATCATCCTCCTTCCTAGAGGCCAATGCTATTTTTAAAAACT
CAGATTGATGTCAGTTTTCCAAGTAAACCACCAGTCAGCCGGCTTGGTAACAGCTGCTGTCTCCATCCCTGTCGCTCCACACATCCCTAGCAGCCTTCTC
CTTTCCGGCACAGGTCATTTAATCTTTCTGGACCTCTCTTTCCTTCTTTATTAAATGAGGGTACTGAACTCTGTCATGCCAACCTCACAGTGACCACAGG
TCAAGTTAAGACCGTGAATGAAAAAGCTTTCTATAAACTTTAAATTGTAAAGTGCAGTAAAAATACGTGAGATTTTATTTCAGGAAGGCCTGGAATGTGG
AAGGAATTGCTGCATGGGGTACTGGCAGCCCCTCCTTCCTGGCCAGGATTTTATCTTCTGGGCCCACCTGCTGGACTCACTGTTCTCTCCTCCTTGCCCC
TTATCTCGGCAGGAGAATCACTGCCCTTGGCCACCTCCAATCAAGTTCTCATTAAGTTCAGCGCCAAAGGCCTCGCACCAGCCAGAGGCTTCCACTTTGT
CTACCAAGGTATGGAGGACATGGACGCCGGAGGTAGGAAGGTGATCTCGGTTCTTAAGGGACTCGTGATCGAAGGGACAGGGATCTTTGACCTCTAGTCT
GAGTCCCTTTCTCAGGGTGTTTGGGGGCAGTTACTAGTTTGTAGGGCAATTCCCTGAAATCCAGTTAATTTTATGCATTCACTTACTCAGCAGACATTTC
TTAGACAAGTTCTGTGTTTAATGAGGAAGGAAATCAGACAAAGGCAGCCAGTTTTTTCCCCTTCCCCACTCCACCCATTGTCTGGCATGGTCCAGATGGC
ACTGAAGAGACCAGCCCAGGCATCTTACCTGGACTCCCCTGGAGCTTGGTTTTGTCTGCCAGGCACAGTAAAGGTGCGGGGAAAACACAGGCTTTGAAGT
GCCGTGGACATCGATTTGAATCCCACCTCCCCACCTTCGAGCTAGGCTCCAGCTACGCCAGGCCTCAGAGCCTGTTTGCTCACCTGTAAGGAGCGGGCAA
TCACAATGCCTCACTGATAGGATGCAAAGAGGCTTCGGGAAGTAGCTGGTACCAACCAGCCAGTTGGTGTTAGTTCCCTTCCTTATTGGCCCAGAAAGGT
AGTTTGGAGCATCCTGGTTTTCACCCCCAGGTCCCAACCTCTGCTTGCCCAGGAGAACATCCACTTTTGTAGGGCCCAGGTTCTAAGCATGGTCCTGTTC
ATTCGACTCTGCCCAGGATGAGCTGTGTTTCTCTTTGCAGGAGTGATCCTATCACAGGGGAGGCCATCCCGGGCCCATCAGCCATTCTGGGCGGCAGGAG
GGAGGGGAGACTGGGGGTCATGGAGGGCAGGGCCCCAGGCAGGATCTTAAGGCACATGGGGAAAACAGGACAGAGGCAGGGCAAAGGCCCTGAAGGTAGA
GGAGGAAGGCCCATTCTCCTTGCTAGGGAACGTGGGACCCTGATGAGTGAGGGGCGTCGTTGGGAAAGCAAAGAACAAAACTGGGCCTAAGGTCTGTGGG
AGGTCCACGGCTCTACCTCCCGTGCTTTCCAGGAGCTGTGCTGTAGCGCTGTGTGTCCAACTATAATTCGGTATAACAGGCATCCTCCTAGTTAGCCCTC
GAGCCCTTCCCTACGGGAGAGCATCCAGAGCCTCCCAGGGTTTCATCCAGACGGTCTTTGTTCCAGACCCGTTGTATGTCCGTCCCTGGGCCAGTTTCTG
AGGGGTGAGGCCTCCMCTCAGTGCCCTTGTCCCCCACAGCGGTTCCTCGAACCAGCGCCACGCAGTGCAGCTCTGTGCCGGAACCCCGCTATGGCAAGAG
GCTGGGCAGTGACTTCTCGGTGGGGGCCATCGTCCGCTTCGAWTGCAACTCCGGCTATGCCCTGCAGGGGTCGCCAGAGATCGAGTGCCTCCCTGTGCCT
GGGGCCTTGGCCCARTGGAATGTCTCAGCGCCCACGTGTGTGGGTGAGTAACCAGGACCCGGGCGTTGAGGGTGCGGGGGGCGGCACGTAGTCCTTTCTC
TGTAGGGGAGGCAGTCAGCCCCAGTGATGCCCCACGACACACAGCAGCCGCTTCCCACCGCATGGCTGAGGTGGGGTGTCCCAGTCAACCCCAGTCCCCG
GCGCTGTGGGCTGTGTGAAGACAGCCGGTGTACTGGGGACGGGGCACACGTGGAGAGAGGAGCTGGGCCCAGGGCCCCGAACAGAGTTGCATGGGGAGAG
GCCGTGGAGAAGGCAGGACTGGGGACATTAGGGAGACACCCCCATGGGGAGGAGGACAAACAGAGGCTGGGGGCCATGAGGGAGGAGTCAGCTTGGGAAG
GCTYCCACGGGAGGCCACAAAGCCTCTGACCCGATGGCCTCTCCTCCCAGTGCCGTGTGGAGGCAACCTCACAGAGCGCAGGGGCACCATCCTGTCCCCT
GGCTTCCCAGAGCCGTACCTCAACAGCCTCAACTGTGTGTGGAAGATCGTGGTCCCYGAAGGCGCTGGCATCCAGGTAGGGGCAAGGGGGCGCCTCGGTC
GGGCAGGTGGCCGTCTGCTCCCAGGTAACAGCTCACAGGTGACAACCACAGGTGCTGGCTGGTGCCAAGGCCTGAGTCAGGGTGAGCCAGGAAGAGACAT
ATCAGCCCTGTACCTGCCCCTGCGGCTAAGGAGGCTCAGTCCAAGTGTGGAGATGTGGCTCCCATGCAGAAAACACAGCAGGTTCCAGGCCCCAAGAGCT
TCAGGGACATGCGGTGGGAGTCGGGTAACCCAGGAAGGAGGAGAGGTGGGCATTGATTGGCCATGGCCAGGAGGGGAGGCTAAAAGAAGAAATGGGCCTG
GAGCTGGAATCTGAAGTGTGGGAAGGATTCATAGAAGTTGTTCCTCAAATGGCTAAAGATTTTCTTAAGATTGTGAGGGTTAGAAGGGGAGGCAGTGCTA
ATGAGAAGAAAGAGCAAAGCACCCAGCACAGCTGAAGCACAGAGAACCCCCAGGCACACACCTAGGGAACCACGCACAGCATGAGCTGTAGAAGCTGAAC
TGGGGGCATAACTGGTACCCAGGGGTAAGAGCCAGGCAGAGGGAGGCCCCAGCATTGGCGTCAAGGCAGGGAAGAGGGTCAGGAGCCTGCAAGGCCAACA
GAGAGGCAGCAAACTGGGAGTCCAGCAGACAGATCTGGGCAGGAGTGGGTTACGGGCTCATTGCTGCAGGACGTCTGATGAAATCAAGGCAGGAAAGTGR
GGAAACCCAAGGAACATTCCAGAGATGAGGAGACAGTCAGTGAGACTGTCTTTCCACTTCCTGGAACTTCTTTTCCCCATTCTCTGCCTTGCAAAATATC
CACTGTCTTCTAATCATTTTTTTCCACATCTGTCTTCCCCACTGGACAACGAGCTCCTTGGAGTCGGTTCTGCATCTTACTTTTATTGAAAGGGACTAGC
ACAGTGTTAGGCCCAGAGTAGATTCTCAACAAATTGAATTAACTACGGGAAGGGCAGAAAGGGAAAGCAGAGAAGGAGGGAGGGACGCAGGCTGCCTAAC
CAACAATTCACTCTTCTCCCTTCCCAGATCCAAGTTGTCAGTTTTGTGACAGAGCAGAACTGGGACTCGCTGGAAGTATTTGATGGTGCAGATAACACTG
TAACCATGCTGGGGAGTTTCTCAGGTAAGCTGGGTTTCCAGGGGCTTCAATTTGGAGGGTAGTACTAGAGCTCATCATCATGAACATTGTTATTATCATT
ATTATTATTGAGATATCACTTATATTCCATGAAATTCACCATTTTCAAGTGGACACATCAGTGGTTTTCAGGAGATTCGAAAGGTCCTGCAACCATCACT
ACTATCTAATCCCAGAACATTTTGACCACCCCAAAATAAACCAGGTACCCATTTGCACTCCCCTCCCCAGCCCACACCTAGCCTCTAGTAACCAGTAATC
TACTTTCTATCTCTCTGGATTTGCCTATTCCAGGCATTTCATATAAATGGAAGCCTTCTGTGTTTGGCTTCTTTCACTTAACGTGATGTTTTCAAAGTTC
CCCCAGTCACAGTATGGTTCAGCACTTCATTGTAAGGACAGAGCATATTTTGTGTGTCCATTCATCAGTCAATGGCTTGTTTCCACTTTTGTGCTGTTAT
GAATAATGCTCATGCACAAGTCTTGGTGTGAACACACATTGTCACTTCTCTTGAGTATATACCTAGGAGTGGAATTGCTGGGTCATGTGGGAACTCTATG
TTTAACTTTTGGAGGAACTTCCTGTTTTCCAAAGTGGCAACACCATTTTGCCATTCTAGTAATGGACTTCTGACTGAGTGTGGTGTATAGGTGTGCCCAG
TGGCCAGGGCAATTATCTGAATCTTTTAGGCCCAGAACTCTAGGTGGCCAAGAGATAAAGAGGAGTCACATGCTTCAGATAAACTGTCCACACTGCAGGA
CTGCCCAGAGAATAATACAGGTCAGAGTTATCCTGAAGATGGCTATGAGGAGACCCAACTCATCCCTCACCCTCCTGCGGGCACATGGCTCTGCCACTGC
TCATCTTACAGGAAGCAGATTGGAGTTTCCCCTCCCTCAGCCAGTAGAGACCTAGCCCTCTGAGGAGTGCTAATTTGTCATTTAGTGAGTTTCATAACTG
GGGACATCTGGGGGCCTTGGGAGCAGAATGTCAGCAGGTAGCAAAATCCAGAGGAATGGGGAGGAATGCAAGGGCCTGGAGGAGCCAAACTTAAATGGTT
TTCCCTGGTGTCCTTGCCCTAGGAACAACCGTGCCTGCCCTTCTGAACAGCACCTCCAACCAGCTCTACCTTCATTTCTACTCAGATATCAGCGTATCTG
CAGCTGGCTTCCACTTGGAGTACAAAAGTGAGAATCCAGGGTCTTGGCTGGTACAGGGTTCAGGGTGGGACCTAAAAGTTGCTGAGCCCCTTCTGAGCAA
GGATTAAACTGGAGCTGCATATTGTCCATCCCACTTAAGCCTTCCCACAAACCTAGGTGAAGATGCTAAAGCCCAGAGAAGGTCTGAAACCTCCTCAAGG
CTGTGTTCTCGTCCAAGTGTCTGTTACTCGAAAACCTGTATGCCTGTTCAGTATCCACACCAGGAATGGGAAGGGGACTTGCATTGGCCAAGGTCCCAGT
ATATAATTGGGATGTAAGAAAATTGTGCTTTCCTCCCCCAGGTCTAAAACCTGGCCTTTCTAACCCCTAGTTCTATGATGCGATTATTTTTGAAGTTCCT
CCTTTCATTGGCTACCTCACTCATCTTCTACCAGATTTCTCACTGCAGGCTCAAACCCTTATATCCTGGCTTCTGGCATCCCTAAGTGGTCACTACCAAA
TACTCTTCACAGAGAAAGATTTGTGGATGTGCCTTCTGGGGAACAAAGAAAGAGGTTTCTAGGGAAACTGCTTGCATACTGGGACTGCCTGCCCTACCCC
CTTTCTCCACTGGGTACAGGAAAGAATAGGTAGGCAGCAGCATTTTTTACACTTTTATTCGGCAAATATTTATTGAGCATTTACAACATGCCAGGCACTG
TGCTGGGTTTTGCCACGATTGGGAAAGATTAAGATGGGTCAGTCAAAGTCCACTAAAGAGAGGTAGACACATAGACAGAGAGGTGCATGACAGCATTACA
GGTGCTCTCATGGATGGCTCTAGATGGTAGAGAAATGGTTCAAGGGAGAGAATGGTTGTGGGCGGGTGGAGATGCAAATGTTGTGAAGAAACATTGAGCA
CCTGCAATGTGCCCCGCCCTGTGTTAGGTCCCCGCAGTACAAAGGTCAATAAGACAAGGCCCCTGCCTTCAAAAGCACAAAATCTAGAAGGAGAGATGGA
CATGGGCACAGTCATTTTAGTGAAACCTAAGAAAGTGCAGAGGAAAGGAGAGATGCTAAGAAAGTACAAAGGAAAGGAGCTAAAGCTAGCCATGTAAGGC
CTTGCAGAAGGGGATGCCTGAGTTAAGTTTGCAATGAGAAGTGAAAAATGCAGGAAGGCATGGTTGGCTAGACCATCTGCGACAGCATGGGCCTGTGCAG
AAAGAAGGCCCACTGGGTGCTAGATGTCTGATTGGGTCAGAACTGTGTTATGCACATGCCCATCTGGGTCTGTGAAACAAATGAACTTCATCCAGCTGCT
TCAGAAAGAATTAAACAGGTCCYAGGATGCTCATCACCTGAAAGAACTGAAGCATGCACCTGGAAAAAAAAAAAAAAAAAAAAAAAAGACCCAGGACAGC
TAGAAGCAGACCCTGCAGGGTAAAGGGTAGGACAGGGACCTCTGAGACTCCTTCCAGCAGATATGTAAGGCTTCACTCCCCTGGTGGAGTGAAATATCCT
GGGTTTCTCGACTAAATCACATTTTTTTCCTTTCATCCCTTCTTCTCTGTTCTCTCCAGTTTTCTCTATCCAATATTTTGAGCTCTTAAATGTTCCCTAG
AATCTTCTCTGTTCTTTCTTCTTCCAAAGATACATTTTCTTTGTAAATCACTTTGCCATTCTACTGCCTCATTCCCAGGAAAAAAATCCACCTCTTCTCA
ATTTTCTTCGTCCAAGGGGACTGGCAGTTTTCCCAGTAGCTGACATTTCATGTGTTGTCCCCTCATGATGGGAAGAGCTACGGAGAAACAGAGCTTCCCA
CTGGTATTTGGAGACTGGAATTCCTAGGAGCCAGGGCCCTGTAGTTATATTTTATTTTGTAGGATAATCTACAAAGAGCTCACAGACAATAGAGAATTAA
CTGCTATTGTACAGGCAAATGGTTTTGAAGGGTACTGAAAAGTCACATCCACTGCTATGATTCATAATTGTTTATTTAATTTAAATGGAAATGGAGCAAT
ATGCTTTCAAAAGTAATAAATTACATATGATAAAAAATAATTTTTCCTTTGTTGTAAGCATGGCTTAAATAAAATCAATCTGTGTAGCATAAGATAAGTT
AGAATGGACTTTTCTATATCCCCCTCCATTTTTCTCTTCAGCCTCATCTTTCTCCCATTCCATTTTTCTTCCTACCACGCTTTTTTGTCCTCATTCTGCT
CTTCTCTCCATCACTGGACAGTAAGTAGGTCTTTCCAATAAGTAGGTCTAGTTAGTTGCAACTACTGCACTAAATAGTGAGTTTTGTTCTACTTGGAGTG
TGGAGAGGAATGGGGAGAAATAGACAAGATGACAAGTGAAACACTTGAAACTCAGTTTGATGGGTTTTTTTTAATGCTTGTCCTTGGGGTCTTTTGTCTC
AGCTGCTGAGAGTTTTGGACAAGGCTCAAAGAGTTTTCATTTCCAAATATCACACTCATATCTTAAAAGCACATGTGGGACAGGAATTGCCTGGGAAAAG
TGTGAGGAATTTCCAGAGTGATAGCAACGTTCTGTGGTTTTGACAGGTGTTTGGGTTACAAAGGTACAGGCATTTGTCAAAACTCAGCACATGTACACTC
AAGATTATGATGTTTACTTGATTATTACCATGTTCATGCACAGTTTTTGCATTTTGTTATATGTGAGTTTCCCTCAGAGGGAAAAAAAGCACATGTAGTT
ATCAGAGTCTCATCTCTGAATGTGGCATGAGGACTCATTAGCTGCTGCCTGGGAAGATGGGTTGGTGGCTGATGGTCTAGGCTGATTGGTCCTTTCCTGT
TTCTTTTCCATGAGCCCCTAGCTGCCTGTGGGCACTGGATACACGTGGGCTCCTCAGGGAGCCTGTATCCCCCAAAGGAGCCTGTATCCCCCAAGGGAGC
CTCCAGAAGGGCCAAGGCTGCCATCTCCCACATTCTCTGGGCCATGCCACCCAGATACGGTCTGCCATCCTTCCATTTCTGCCGCCTTGGTTAGGAAGAC
CACTTTAGAGTTTACAGCTACCTCTCCGCCTCCTCATGAGTCTTCTGGCCCTTGCCCCTGGACAAGTGCCCTCCAAGTCCAGTCCAGCAAGACACAGAAA
CTTTTTAGTGCATGTGAAGTGCCTGCACCTGTACATGGACTCCTGCAGAGCACAGGAGAGGCAGGAAGCCCCCTGTCTGGAAATGCTACACTCCCATTTG
CTGTGTGGGAGGCAGCCAGGGAGGGATTCAAAGCAGGATGAGGACTGTTTTAGGAGGGGAGGCAGGGAGAGCAGGGGACAGGGTCAGACATGGGCTCATG
TGGCCTCAGGGCTTGGCTTCTGCTTGGCCGACCTGGGGTCAGACTGGGCTTGGTCTGAATCCTGGGTCTGTGGCTTACTAAGGAAATGTTTCAGTGCCTC
CTATGGCCTGTGTCCTCATCTGTGAAATGGGATGTGAAGACCTGCTTGAAGGGTATGAGGGGATACCCTCACCAATGGGCCCCAGCCTTGCTCATGGAAG
TGCTCAGTGAGCACTTCTCTTGGGAAGATGGTATGGACTGGCAGAAAGGAGGAGGAGGAAGATTAAGCTGGGTGCTCTAGCAAAACATTGTGTGCAATGC
CAGGCATGTAATGAGGAATAAATGAGTGCAGGTTGAATTTGAAAAGTCAAGAAAGGAGACTGAAGGAGGAGCATTTGAGATCCTGTGGAGGTGATCTTGA
AAGAGGACTAGGCCAAGATCATGAAAGTCCTTAGAACATCAGGATGAGAAAGTTGGATTCCATATTATAGGCCATGAGGACCTGCTTCAAATCACTGAGC
AAGGAGGTCCCACAATTCAAGGAGAGATTTTAAGCAACACGAGTTGCCTGTGAGTGCAGGGTGGACTGGACTAGCAGTGGCTTGGGGTAGGGGATGAAGG
AGGGTTTTAGCGGGGCCAGTGCTCAGTGAGGCCAGAGCTGAACACGGGAGTTGAAGTGTGAGAGGCCACCAGTGCTGCTCCCAGAAAGGGGCTGGCCTGA
CCTTGAAAACACAACAGGAGAAATAAGGCAGTGGAGAGTCTTATCTGCTAACACACTTTTCTCAGAGTCTTGGAAAGTCGGACTCTAACTGAGCCCCTGA
GCATCGCTGATGTGTCCCTCCCTGCTCTCCTTCCTTCTTGACCTTCTTTTCCCTCTCTCTCTCTCTGTCTCTCTGTCTCTGTCTCTCTGTCTTAGCCCAC
AGGATCTGTCTTCTTAGGGTAAGGAAGACAGAGGGGAGTTAAGAGTAAGAAGCAGGAGGGATGTGGGAGGAGAGCATGCAGAGAAGTCTCCCTAGCTAAG
CCCCCTAGCTAAGAGCTCAGTGAGTGGACAGGACAGCCAGCATCCCCTGGGATCACACCCACCTTCTCAAGGAGCTTTGGTCTGTTGAGCCTCCGTGCCA
TGTAAATATACTCTTTTTCTCTGTGTGCTGCAAGGTGAAGAGAGTTGGGAAGAACTAGCCTACAGGATGAGAGAAAGCACAAATTAGAAGCACCCCTTCT
CCCTGCCACCAGCATCTCACCCCAGCCTACCGCCACGTTGACCTGCTGGGCTAGTCCATTCTCCTTTCCTTCTGTCTCTGTCTTGTCTAGCGGTGGGCCT
GAGCAGTTGTCCGGAACCTGCTGTGCCCAGTAACGGGGTGAAGACTGGCGAGCGCTACTTGGTGAATGATGTGGTGTCTTTCCAGTGTGAGCCGGGATAT
GCCCTCCAGGTACCTCCCCTGACACCCTAGAGCAGGAAACAGGTGTCCCCTGAGATGTGGTTGGCCAGCCTTACACCAGCAGAGCTACAGTCACCAAAGA
ACAGGGAGCAGCCCCCAGGTCCCCCGGGTACCATTATCCTCTCCTGGAGCTGTTCATGCAAAAGATAAACTCTGCTGACTTTAACAATTTGGCACAAGCC
AACCTCCAATGTGTTCCTGCAAAGTTGGGTTTGATTCGGCTTTAGGGAAATTTAATTTCCCTTTGAAGGCCATCAGGGAATTTAGTAATTAAAGGACTCT
CACAAGGAAACCTCTAATAATGAGAATTCTTTAGTAATCGTTGTTAATAATTGTCCTTCCCCAAATTCTCTCTCCCTCTACCTCACTCCCATCCCACAGT
GGATCTGTGTGTCTTTGTGTATCTTGTTCCTTAACATGAGGCCCCTGAACCAGACCCCTGTACAGCCCCTGGTTGTACATACAATTGTGCCCACGGGGAC
AGCTAGCCCATCCCTGTTCCTGATTCCTCCAGGGCCACGCCCACATCTCCTGCATGCCCGGAACAGTGCGGCGATGGAACTACCCTCCTCCACTCTGTAT
TGGTAAGACAGCCCAGACTTTACAATTCATTCCAACCAATTTTCTCTCAGGGATCTTAGCTCAGTAGTGTATCATTGAGTTCAAGTTCAAATCAGAAGAA
AGTTTGATATTCTGGATTTGTTCCAAGTCAGTCATTTTAAACTGATGTTTTTATAATCTCTAACTCCCATTTAATGCAGTCATCACTTTTGGAAACTCTG
CCCCACCAAATGAAAAGTTACAGGAGGTCTGCCCATTTGAAAACATGATGATGACCGTTCTGGCTCTAGTTAATCAACCAGATCCCAGATGGAATTTCTA
GGCACTTTGGGCTTCCCCCGTGACTTCTTGTGGGACAGACAGACAAATCTAATAAAGAAATGATGAGGTTGGCCGGGTGCAGTGGCTCATGCCTGTAATC
CCAGCACTTTGGGAGGCCGAGTCAGGCGGATCACTTGAAGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAA
AAATTAGGCAGATGTGGTGGCACACACTTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGC
TGAGACTGCACCACTGTACTCCAGCCTGGGTGATAGAGCACAACTCCGTCCCAAAAAAAAAACGAAAGACAAGAAAAAAGGAAAAGAAATGCTGAGGGCT
ACGTGCGAAACAAGGACTTGGCTTCGTCCCTTACCCTGTGCTACGGCAGTGATGAGCAGATCAGCAGACACAAGAAAAGACAGCATCTCCCCTTCAGAAG
CTTCTGGTCCAGTTAGGCAAAGAAGAAAGGCACATTTATTTAATATCTACTATATGCTAGGCATGGAGCTTCATATTTCCTCAGATCAGCCCTGCAGGGG
AGGTACCATTACCCTCAATTTGCAAACAGGAAATCTCAGTCTTTTAGGATTAAAAAGGAAGTGGCAGAGTCAGGAACGGAAACCTAAGGTTCTCTGGTGC
CCAGTCGATTGTGAGGTGCCCCTCAAGGCTGACCTTGGGGCAGGGAGGTAAGGGAGTGACACTCAAGCACGATGGCATTTCTCTTCTGTGGTTTCACCAC
GGTGTAGGGCATAGGCATCTGTGGAGCAGGTCAGAAATGTGAACGGTCAGCCCAAGGCACTTTCCCCCATTAGAGACTACAAAGACCTTGCTATGGAAAC
CATTCATTTAACGGCAGCTGCTGTTCATTAGGGGTTTACAACATGTGCCAGCCTTGTCCCAAGTAAATGCAGTCCTTTCTGATATGACCTCACAACAACC
CCATTAGAAGGGTGCTGTCACTAGTTCCATTTTACAGTTGTGGGAAACCGAGTTCTGGAGGGTTTTGAACTTGCCCACGGTCCCATCGGAAGTGAAGGTG
GGATTGTGACACAGGCAGTCGAGGCTGGAGCCTACTCTGCACTGTTTTCGGGTCTGTTTGCCAAGCTGTCCTCTCCCCAGAAAGCACTTGCCTGGACCTG
CCAATCCCTGTTCTATGATCCTTTCCCTGGGTCTCTAAGACTGGCTAGCCCCTTTCTGTTCACACAACCTTTTCCTAATAAGATGCAAAAGAAAAGAACT
GATGTCAACTGACCAGACTGCAGGGGTGCCCCAGCCCTGCATCCTCAGATGACTCTGAATTCACCTTGATTGGCATATCAGATGTCCCTAAGCCCCTGGG
TCACTCAGACAGCCTGGTGGTTGGCTCCTGTGGGATGCTGATCACCGTCACTTTTCTGAGGATGGGCTCGTGGTGAGCCTCCCCTGCCGCCCACCCTGCC
CCCTGAAATATATATTTGAGAAGAGCCTGGCATGGTGCCGGGCACAGAGTGGGGACTTGATGCATGCCAGTCCCCTTCCTTCATCCTTTTTCTGCAGTCT
TGAAAGAGTAGATTGGGCAGTGAGGAGAGGGAGATTTGGGGGATACGGTAAGAAATGGTTGGACTTCTTTTGGCACAGAACTTCCTCACTTTTCCTGGAC
ATCCTCACCAGGGAACTGACCTGTGAAGGGCATGTTCAAGGTCAAGAGTCCATAACTTGGGTTTGTGGACTTTTAGGCTGTCCTAGAATGTACCTCCCTT
CCTGAATGTACATATTGAATGTTGCCCGTGGGCTTAGTCTTTTAAGAAGATTCCTTTGGATTCTCAAGGGGCTATATGACTCATGAAAGCTTAAAAACTG
CTGCTTGAAGGGAGCTTCCAAACATTGGCAGGGCCCTGTACACCCCTTGATGTTGTCCTGACCCTCTGTCTCATCTCAKTGTCACAGCACAGTGTGGGGG
AACAGTGGAGGAGATGGAGGGGGTGATCCTGAGCCCCGGCTTCCCAGGCAACTACCCCAGTAACATGGACTGCTCCTGGAAAATAGCACTGCCCGTGGGC
TTTGGTAAGTCTCTGCAGCCCCCAGAGGAGACAGGCTTCAAGCCCAGACCCTTGAGCTTAAAACTACTGTCYGCCAAAATCTCTTAGCACAAACTTGGGC
CAAGTCTGTTTAGTACTCTGCCTCTCTGTTTTCTCATCTGTTGACCTCTTGTACAATTGTGAAGACCAATTAAGAATGGCAGAGATTAACATATAGGGGG
GAGAAAAATCTTAGGGGTTGCCATTATTATTATTTGAGCCATAAACTAAAATCCAGGAATGTGGAATGAGAAATTACTCGGATTATACCTAACTAACACT
GTATCACTTGATATTAAAAATAAAAAATAAAAATAAATTACTCAGGGACTTAAAAAAAAAGGCGGGGGTGGGGCGGAAATCTGTCGTACAGAGACTGGAC
CTCAAGTTGTACTTTTAACCCCAGTGTCTAATTTATCATCCTAATTAAATTGAGCCAAATCAATGAGAAATCGAGTTTGCATTCTTCTTCGTATGCACAT
TCTAGCTGGCCTAGAGACTGGGAAGGTTGTTTTTTTGGTTTTGGGGGGTTATTTTTGTTTTGTTTTGTTTTTGGAGCTGGAGTATGCTAGGCATGGGAGG
TTGTCAGGGTGTGGAGGACATCAGTGTGGGTACAAAATGTAATTGCTGGTGATCCACATATTATGCACTGGGAATATCATTTAACCCAAATGTCTCTGTT
GAAGGGATGAGGGCTTTGTGCTGACATGGAACTGATGGGCCGTACGCACGGGTCATCTTGCCCAAGCCATTGCACTGCTTCTAGGAATGAAATGTCCCAA
GGGGATTATGCCTGCATAGCCCTGAATGCCAGTCTGTGAGCCTCAGAAATGAAGATCTCCCATTTTATCCTTCATTATTCAGCCTGGAGTGTGATTAGAG
ATTAGGGAAGGGGCTTTTGGGAGAAAGCAGTCTAACTGGCCTTCTCTAAATCCGGTTGGAGGGGAGGAGAGAGCTTGGTGGCCCTCTGAAAGATGTTATT
TTCTGTTCAGTACCATCTTCTGAAGGAAACTGGGTGTTCAGTACCATCTTCTGAAGGAAACTGGGAGCAAAGCGATGACGCCCTCGGCAGTCTTAGGAGA
CTCCAGACTTTGAGACATTAAGAGGATCTGGGAGACCCTGTACCTCTGCATCCAGTCTTGAGGCAGAACCAAGATGATAGAAGGTGGGGAGGGCAACATC
CAAAGGCAAACAGAAGTTTGAATGAGGTGGCTTTCCCTGTAAGTCCTTATGTTCAGCCACCATTTTCACCTCTAAATTCTGGGTGCTAATTCAGGTTTCA
GGGAAGAAGCTACTGCTGGGTCCAGTTGCAAAGGCCCGGGATCCCTTGCTTTCAAGTTAATGTTGGATTCTGCCGAGGTCCCTAACTTGGTACCTGGTCT
CAGCGTGTAAAGAGCTGCTGCAGCTACATGCTGCTCCACTAGATGGCGGTCACAGTCCAGTTCTTTCCTTGGAGTTCAAGTCAGAAATTCCGCCATCCTT
AAAGAGCCCCTTCTGTGGGCCTGCAGCCCGCAGGGCTCCTATATGAGGGGACGATGCCTGGGCAGTGGAATGGAAAGCACAGGCTCCTCAGATAATGTAT
ACAAAGATGTCATCACAGCCTAACACGGTGAAAACCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCCTGGTGGCGGGTGCCTGTAGTCCCAGCTAC
TTGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCCGGGCGACCGAACAAGA
CTCTGTCTCAAAAAAAAAAAAAAAAACCATCACAAAATTATCTGCAACTTGGAAACAATCTGCATGTTCATGAGTTGGGGAGTGAACTGTATGGTTGGAT
AATTCATAAAATGGAATTAACATGCAGTTAAAATGAATGAACTATATTTTTGTATATTAACATGGATAGACCTTGAAAAACACAATATTATGTAAAAAAC
TGTATGTACAGTATAATATCATTTATGTAAATCTTGAAAACACATAAACCCAGATACATATTTAAGAATCCAAAACCATGAACTGGAAGGATAGCTTCCA
AATTCATGTGATTGCTTCTGTGGAGGGCAGGAAAGGAATGGAACAGGGCAGGAGATGAAAGATCTTCAACATTAAGTGTCGAGTCTTTATTTTATTCTTT
AAATGATCAGATGCAAAAAGAATTATACTCGTGCTTATTCTGAGCTTATTTGATAGCACAGATAAGCCAATTTTAAAAATGAAAATCCATCTATAATCTC
ATCGTGCAGCGATAATCACTAATGGCTTAGTCTCCCAGCGTTACCATGTAAGTCTCATGAAGACAAGGACCTTCTTGATCTTGCTCATCCTGTACAATGC
CTAGCACAGCCCTGATGTACAGCAAATGCCCAGCAAATATTCCTAGCAGGCAAATTAATATTCTTCCATGTTTTATAATACAAAAATTAGAATTGTATAC
AGCATACTATTTGTCATCTGATTTTTACAATTATCAATGCAATATGGGCTTTTTCCTATGCTCAGTAAATATATTTCTTCAATAACATTTTCCATGGTGA
TCTAATTTTGAAAAATCTTATCAGTAAACAAACATAAATGTTCCCACCTTCGTTCTTGAAAGAGTATATTACTATGTACATTAAGAACTTAATTASATTT
ATTTAACCTGTCAGGTTGCTAGAATGTCTTGATTAACTCACTAAGATCCCAAAGTAGAAACTTTATTTGGCTTCTTTATGGAACAGAGGGGACAATGTAT
ACTTCTAAGCCCTACGTTTCTGAATTATCATAAGAGTTCTAGAAAACAGCAGTATTGAAGGTCTTGTCTTTTGATTAAGTATTGGGGGTGTTATTTTTAA
ATGAAAAGTTTATTCTAGCAAAACTATCTTTATGCTGATATTGGACATATGAATCATAAATTTAAACAAGTGTTGACCCTGAACTTTGTTTTCAACAAAA
TAAAATGAACTCCAGTGGAGCTCTGAAATGACTGATGCCTTTATTTTTGAATGAATAATACACTTTTAAGTTCAGCCCTGTCAAAGACAAGAGACTTGGC
TGGACGGGCAATTCCCAAAGCCAGTTCTAGGAGCCTTGGCTGGGTGGGAAATCAGTAGCAGGGACTCATGGCTCTGGCAGGAGCTGCTTTCATGAGGCAG
CACACTTGAGGCAGGACTGTGTTGCTTTGGGCACTGTCTGCCTCTGTCTTGCTCCCAGGAGCTCACATCCAGTTCCTGAACTTCTCCACCGAGCCCAACC
ACGACTACATAGAAATCCGGAATGGCCCCTATGAGACCAGCCGCATGATGGGAAGATTCAGTGGAAGCRAGCTTCCAAGCTCCCTCCTCTCCACGTCCCA
CGAGACCACCGTGTATTTCCACAGCGACCACTCCCAGAATCGGCCAGGATTCAAGCTGGAGTATCAGGGTAAGGACAAGGAGCACCGCCTTTGCTTCTCT
GTCTATCTCCATCTCTTGCCCCAGCCACCCACCTTCCCAGCCTTCCATGTGGGGGAAARCAGAACACCATAAGGGGTGGGTTGCGGTGGCAGGCCCAGTC
AGGGAAGCTTCCTTTTGGTGGCAGATCTCTCCGGACCCCATTTGTCAGCTTAAGTTCTCCCACAGCCTTTTCAAGAGTGGCAGGCCCAACAGCACCCTCT
GAGGCTCCCACTCTGTACAGCTGTCCCTGGGCAAGTGGCCCATCTGTGCCTTCTCAGGTGTCCCAAACTGTCCAGCCAGTCACTTCCCCTCGGGCTTGAT
AAACTGAATTACTTCCCCAGGGTCCTTCCCTGCACATCAAGCCCAATTACTCTCAGCAAAGCTCTTCCTATGACAGGATGGAGGATTCTAGTAACAGTCC
CAAGGGCAYCTCTAAGCCTTGCACAAGGAGCAGGTTTTCCTGTGAGGCCCAACCACACTCACCACAGCTCCACCTCTCTGAAGTGGGATCCCGTGACCGG
CCCCACTCATTCTGGGACATTCCCTGGAAAGAGCCCCATCTACACTCAGGTTCCCCTGTGTTGTAGACCATCCATCACCTGTGGATGTGGAGATTGTGCC
CAACCTGTGCAGCTGTACATGGTCCTGAGTAAGCCCAACCTCGCCCTTGGATGCTTCCCTTATTGTGACTGACCGAAGCATTTGTTCTAATCCCTTTCCC
AGATTCTTCCACTGAATTTTTAAAAATATTTTTAGATTTTTTTTCCAATACTAATTCATGTTTGTAAAAAAAAAAAAAAAAATCTAAACACTGTAGATAA
TTTTGTGAGCACATTGTGTTAGCTCAGGCTGCTGTAACAAAATACCATAAGCCAAGTGCCTTACAAACAGCAGAAATTTATTTCTCACAGTTCTGAGGGC
TAGGAAGTCCAAGATCACAGTGCCAGCAGATTCCGTGTCTGGTGAAGACCCACTTTCTAGTTCATAGACAGTATCTTCTCACTGCGTCCTCACATGGTGG
AAGGGGCAAAAGAGCTCTCTCAGGCCTCTTTTATAAGGGAACTAATCCCATTTAGGAGGGTGGGCCACCAAATGCCCTGCCTCCAAATACCCTCACATGA
GGGATTAGGTTTCAACATAGGGATTTGATGGGACAGAAATATTCAGGCCCTAACACCCGTCACAGGAAGTCAAAATCCTCCCATAATCCCATCCTGTCAC
TACCCTATGCAGAGATACACACTTTCAACAATTCAATATGTATTCCCCGCTTTTCTCGGTATATATATTGCTGTAGCTATATTTTTAGCCAAAATTGGAT
CGTACTATAGTTTTCCAATTTTGTTTTTTAAAGTTAATTTTTAATTACACAAACAATTTACAAACATATTTATCTTTTAAAAAAAGAAAAATACAAGAAA
GAAATTAAAACCTTACAAGTAAGGCCAAAGCTCTCTTTGTCTATAGCCTCCAAACCCAGGATTATTCTCCAGAAACGGCTACTATTGTTTAGTTGTGACC
TTTCCAGGCCTGGATATATGTATGCTACATGTACCTGTGAAAAATATGTAACATTTTATAAAATTTTTTGACCACGTTTTCTATATAAATAGTACCATCC
TATATGCAGCTTTCTGAGAGTTGACTTCTTTATTCTGGAAATAATATGGTGGGGATGGAGCTCCTCCCTTGCCAGAGAAGAATACTGAGGGGGTACTGGG
CTTCTCATTTAGGGAAAGCCTTAAAGGGCATCCCACGAGGTGGGTGCAACTGAATCAGTTCTGCAGGAGACTTCAGGGTTCCGGGGTCCATCTCAGGGAA
AGCTTTGGTAAGTGCGGCTGGGCTTGTCATCTAGAGGGAGCCTCAGGAGAAGCTGGGCCTTGCACCCAGACAGAGCCACTTCACTGGTGTTAGCACAGCT
GCCACACCCAGGGAAGGTGTGTGCAGGCTCATCACAGAGGCCAGCCTTGCCCAAGGATGTCTGTGCCTATTATCTGGGAGGTGTGTACCTGTCAAACAGG
TCATGACGCGTCGGATGGCCGTGATGTCACAGGAGGGACTTGGTCCCAAATATGTCCTCTCAGAGACAGATGCAACGCCTTCCCCCAAGGCTTTCCTGTG
TCTTAGTTTGTTAGGGCTGCCATAAGAAAGTACCACAAACTGGGTGGCTTAAACAACGGAAACTTACTGTCCAATGGCTCTGGGGCTGGATGGTCAAGAT
CAAGGTGTCAGCAGAGTTGGTTCCTTCTGAGGCCCATGAGGGAGACTCTGTCCGGGCCCCTCCCCTGGCTTCTGGTAGTTCATGACAATCTTGGCATTCT
CAGCTCTTAGAAGTATCACCCCGACCTCTGGCTTCATCTTCACATGGTGCTCTTCATGTGCCTCTGTCTCCAAATTCCCACCTTCTATAAAGACACCAGT
CATATTGGATCAGAGCCCACCCTAGTGACCTCATTTTAATTTCCATAAGTTTGGTAAAGATCCTGTCTATTTCCCATAAGGTCATATTCACAAGGAGTGA
AGTCTTCAGCATATGAATTTTGGGAGACATATTTCAGCCCCTTGCACCCCTCCCAGGCCCAAGTGCTCTCTCCCTGAGACCTTCCTTCTCGGATAAATAT
AAGGAATGGCAGTGCCACCATTGTGCCAGGGACAGCTGCCCTGGGCCCACCCCGTGCACTGTGCCTTCACCCTAGACAATRGGCACGGTCCTGCCACTGA
ATCCCTGTGATGGGACCAGCCACTCGCTGTGCTCCCCGTGTGATGAGCCCACTTGTCCTTGYAAAGGTTGTGCCTGTGTGACCGCCTCAGATTCTCCATT
GACTCCCYCGACAGAAGAGGCCTAACTACCCCCACAGAGCCCTGGCCTTGGGCTCACTCGCCCCTGATTCCCCAGCCCCCATCTTTGGAAATGCTCCCAC
TATGGCCACCCTGCACAAGGGGCCCCGCTGTCCCCCTGAGGTTTCCTGGACGACAAGCCAACATTCGGGACTAGTGTCCCTCCCTGGGATGGGCCTGTCT
CTCCCACTGAGGTTTGCAGCCTCCACAGGCCCAGTCCTCCTCTGATAACTTTCCCTGCGTAGGGAGGCCAGGGGGCAGCGAGTTGCCTTCAGACACCCAG
CTCCTCCACCAGGAGTTGGCCCAACATGTGAGAGGCACAGCGACATCCAATGGGGCTTCCACCCTATAATGGGCCCCCTCCTCCCACAAGCATGTGACCT
TCAGGACTTGCCTGGATGTTCCCCTTCAGTCCCAGGCACAGCCACTCCCTCAGCGTTCACCTGTCTGCCACAGTCCCAAGGACTCCTGTGGAGCCACACA
TGGTGCCGGGGCACCTGCTCCCCTCAGACTTGGGCTCCACCCCTATTAAGGCTTCTCGTTTGGGGCGATCCCAACCTCTTGGGCTAGGTTGCCTCTAGGG
CCAGAGGCCTAAGTATTCCCACAGAGGCCTCATCATTTGTGATAGGCCCAAATAAYTCTCCCTGACCATAAGCCCACACTCTCTGTTTACACCTTCCTCC
GCCGTACGGAGCRGCACCTCGTAAGCAAGCTCTGACCACTCTCCCCAGGTTTTTCCTCTGGGGAAAAACCCAGCTTCAATGAACGAGCCATTTGTCCCCA
CTGAGGCTGTTTCTGTCAGACCCAGCTCTCTATGGCCCCTCGACTTTCCTTAGAAGTCCAACTCTTTACTCTTTCTCAAAATTCCTCCAACTGATACTCT
GCACTTCCCATGCTAGGGTCTTCTTTTCTCTTCTTTAAGTAAAGATTCCCATCAAGTTCTTAGTAGCAGCATAAGCAACTCCTAGCCAGGCCTCCCGGTC
CGACATGCTTAATGTGTTCCATGACAATTTCTCAGGAGGGTTCTGTTTATAAAGAACTTAGCAAAATGGCTAAGATGTACAATTGTCCCCAAATGCTAGG
CATCATCATTATTAATGTTTTAAAATAATGGCATTTTGCTTGAAATTGTATCTACCTGATTATGGCACTTTGTTTGGAAGTGTGTTCCCACTGTCACCAG
GTGTGTCCCTTTAGAACAAACCCACTTGCTTTCCTGAGGAGTCCTTCTTTGGGGAAGTTCATCCTTCCTCCTCTTAGGGTTTATTTCTGCCTTATRTGGC
CAACCTCTCCCTTTGAAGCTTCTTGCAGGGGAACAGGCTCTGAGGTTTCTCTCAGTGTTGAGGTACTCTCACTGAAGTTTCTGTCTTTTTGAAGAGCCTA
GATCCTTCCACTGGAGATGATTCCTGTAGGAGAGGCCCAGCTGCTCTCATCAAGGCTGCTCCTGGCTTCCCACACACAGCCACTCCCTTCCTTCTCTCCC
CGTCTCTGAGTCCACGTGGCTACCCTGAGCCTTTCTGTAAAGACCCAACCCATCCCATTGGGTTGCCTCCCTGGGCAAAAGGCCCCCTGCTTCCGCTGAG
ACTTTCGTTGCCAAACGGCCCAAACCCCCGTGCTGCAGGGCCAGGCCTGTCCTGGGGCTAAGCAGCCACCCCACCCATGTGGTTGCTCAGTTTTTGGCAC
ACCCAATTACCTCAATGATTTCCCAGGGAAACCTGCCCAGTTCCTCCCCCTGAGACTTCCCTGTGAGGTACTGAATGGAAACATAACACAGCCACGTGAG
TGCTCAGGAAATGTTATCTTCAAGATCCGCGTTATTGATGTTGTTATTACGTATGAGAAACACATGTACTTCTAAGAAGCATCTATCCAGTCCCAACTAC
TTCCACTGAGKATTCCCACTGTAGGAACGTTCTGTCTCCTCCCRCTGCCAATTTCCTGAGTGGAGTGGGCGCAATTACTGCCACGAAGGCTGTTCTGTGT
CCTGTGGACCCAATTCATCAAAGGCCTTGCTCAGGAATCCCTCAGCAGCCTCTCCCCAATGGACTGGCCTCAGCTGCTTCCATGGAGGCATCTCCTGTGG
AGTCAGGCCACCCACTCTCATGGAAACAGCTTCCCTGCCCTTTGGAGGGACTTGCTTTGTGACAGCCACACGTCCCTTAGCCCAGCTACTCCCTCTGAAA
AGCTTCTCTCCTTGCCACAGATTTGACTTACTCCCACCAGATTTCTTCCTTCCTGAGAGGTTTTGATCTCTCGGAGTTGGAAARAACCAACTCAACTCCT
CCCGTCGCCGCTTCCTATGTCTGGGATCTTGATCCTGGTTGTGAAGGTTCAATGAGATAAGCAACATGAAAGGARTTAGGCTGGTGCCTGGCCCCCAGTG
GCACTCAGTGAATAGAGGTTCAATTGAGCAATGTCTTCCTTGAGCCTCCTTTTCCTACGGAATTACTAATAATAGATACTATTTACTGAGCTTTCACCAT
GTGCCAGTACTGTGGAAAGAGCTATGTATGTGTTATCCTACTTAGTCCTCAAAATAATCATTCTATACACAGGAAAACTGAGGCGTACACAAGTTAAATT
ACTTACCCAAAGCCAATGACTTGTACATGACAAAGGTCCATCTGAGTCCAAATCTTGAGGCTTCACCACTATGCTTTCTGCCGCTCCTATTTTCTGGTCA
GAGAGAATAAAGTGACCTTTTCTCCGGATCTTTTCCAGCCTATGAACTTCAAGAGTGCCCAGACCCAGAGCCCTTTGCCAATGGCATTGTGAGGGGAGCT
GGCTACAACGTGGGACAATCAGTGACCTTCGAGTGCCTCCCGGGGTATCAATTGACTGGCCACCCTGTCCTCACGTGTCAACATGGCACCAACCGGAACT
GGGACCACCCCCTGCCCAAGTGTGAAGGTATGTCGCTCCCTCATCCCCAGCAGTTCTTCCTGGGGTACTCGTGGAGACTGGTYCAGAGCAATCCCATGTT
CCACCTACCTGCTCTGTGGGATCTCCAGGGCTGGAGGTCCAGGCAAACTGTGGTCCATCCTGTTTTCACATGGTGTGGCCCAGCCTCTCCAGGGAGAGGG
TCCTGGTGACAGGGCTCCGGGCCAGCACTAGGGAGGACCTGGAGGAGATGTGGGCCACAGCCAAGAGGAAGACACACCCAGCCCTTGGGAAGATCCACCC
TGACAGACTGGAGGACTCCCATTGGAAGGGAAGGCTCCATGTGAGGGAGTGGGAGCCCAGTGGTATGCTGAGAGCTAGAGAGGTAGAGTTAATCCAGGCA
CCTGCCCAAAGGGAGAAGAGCATGAAGCCTCTTTATAAGAACTCTCTTGCTCCCCTCTTCATCTTCCCCCTCCCTGCTCCATTATACTCTCYTACACAGG
GCTGGAGAGACCTGAGTTGATCTATCAGGGAGCYGGAGGTGGCACTTTCTTGGGTCTTCTTCCTTACCCAGAACCAGGAAGGAAGGTGACCAAGAGCTTG
TGCTGCCTCCACCCTCATCTGCACACTTCAGTTCCATTTGCCTTCCCTCTTCATTCTGGCATCCCATCATTTTCCTGGAGGAGTGGCAGAAATTTGTCTT
GAAAAAGGAAGCCTTAGCAAGGGCAGTAATCCAGGAAAGAGTGCCCCAGCTCTAGGATCAGATCACCCCAGGCTCCAACTCAAACCCCTTTGCCTCTCTA
AGCTTCAGGTTCTTCCTCAGTAAAGTGGGACTTCTCATCTTTATTTCACAAGAGCTGGAGGACTTCACAGATGGCTCACTCTCAGACTCAAACTCTCAGT
TTAACTCTCGATGGAAAGAGGACCTTGTTTGCGAAACTGAGCCGTTCTGGTGTTGGAATGTAAAACCATGATTTCTAAAACTATTATAGCCTCAGTTAGT
TTTTCAGATTTTCAGAGCTCTGCTCTGCGTAACCAGTTGGTCATTCCGCAATTGTTGGCCCATCACGTGCTGTGCAACAAGCCTCATCCTGGGCTTTCTT
CCATTCTCACACCTTGTTTGTCTTTTTGTGGCATCACAGGAGAGAGAAAAGAGCAGCGCTTTCTCAGTCTGCTAGCTTGAGCCAGAAGCTGTTCTTCCTC
CTCAGAAGCCTTCTTCCCTTGGCTTCTCTGACACCATACTCTCTTGCTTTCTCCCATGTCCCTAATGGCAAATTTTAAGCCCCTTAATATAGCACACATG
ACCCTTAGGTTAGGGCCTAGTCCCTGCTGACCTCCCATATTCTCCAGTCTTGCAGATTTTATGTTCCAGCCTAAGCTGAAATACTTTGTTTTCCAATGTG
CCATGTTTTCTTGCCTCTGGGTCTTAGCATATGTTGTTCCTTTCCCATACAGCATTCCTCTCTCTTACCTTGCCTACTTAACCCTAGTCATCCCTTAGGT
CTGAGTATAAATATGAATTCTAGAAGGAGTCCTTTCTTACTCTCACAAAACCAGATGCAGGGCTCCCCCAAACACCCCCGTGGCATTCATGATGATGACA
TGGTCCAGCCTGTGCTACAGATGCTGGTGTGTTTGGCTGTGTCCCAGTGGTGTGTGTGCCTGGGACAGAACTAGAGTACCTTGTTCCCCACTGTCTCCCA
GGCCATGGCTGGCACCCAGGAGATATTCAGCTTATGTAGCAGGGATGGCGTGTACCTGTGCACCACTTTCAGGATGTACGTGCATTCACAGGACCCCTGG
CCTCTGCTTGGAATCTGTTGGGATTCTCTCTCCTCAGTCTGGTCTGCCCCAACCAGATGTCTGCTTGATGCCCCATGTCAGCTACAACACTCATTATTCT
GGACCATGGTGTTTGGGGATTTTTGTCCACCATCCCCATCTATTTTCCTCCATGGTGACTGATTCTGAATACCATGAAGATGTCAAAGTCTTTTCATCCT
CCTGCCTGAGGCCTAAATCAGTGAGACTAAAATTGAGTATTGCTTTTGGGGAACAGGAAGATAAGGAGAGAGGATCTTATCTACATAGCAAATGCGTCCT
CTTCCAGGGCCTGGGCTGAACATTTTGCCTGCATCGTTTCACCTCATCACCACCACAATCCTATGGGGGAGGTATTCTTAGTYCCATTTTACAGGTGAGG
AAATGGAGACTCAGGGAGGCTAAACTACTTATCTAAGACTATCTGCTCAATACATCGTTCAGCTATGATTTGAACCCAACCTTAGCCTCACCCCAGGAAC
CCTCAACTCGAAGTCTAGACCACAAGTACCACTCTAGAAAGAGCAGATCAAAGAGGAAGAAAGAAAGACTTTCCTAATTTCTTAGCTCTTCCCAGCAAAA
GCACTGCAGCTCTGACCCTAACGTCTGCTCCCTCCCATTCCTGGGAAGGGAGAGGGGACAGCTTCAGGGCATCCTTTCTTCTTGGCAGTTCTCTTCATAA
GAAAGAGAAAGAGGGAGGCTGAGGCAGACCCACAGAGGGGCMTGCAGTGATGATTGAGAGCCAGCCAGGGTGTTCTGTGTGGGGACTGGTGGGTAGAACC
AGGTGCAGCCATCCTCAGCTTGGCCTCCCCTTCCGCATCCCACCCAACCTCCCTGACAGGATRATTAGTTCTGGGAGCTGGGATTTCCTCAGGAAGGCAT
CTGAATTCTCAGGTGKGTACCGAGGCCCTGCACTTACGTTTGTGTTCCCTCCCTGGCAGTCCCTTGTGGCGGGAACATCACTTCTTCCAACGGCACTGTG
TACTCCCCGGGGTTCCCTAGCCCGTACTCCAGCTCCCAGGACTGTGTCTGGCTGATCACCGTGCCCATTGGCCATGGCGTCCGCCTCAACCTCAGCCTGC
TGCAGACAGAGCCCTCTGGAGATTTCATCACCATCTGGTAGGCCAGGTGCCATGTCAACAGCCAATTAGAAAGGAGCATTACTGGGGTTCTACACTGGGT
TACCAGTCAGTTACCTATTGGTTTAGAAAAACCAAGAGGTGAATGGTTTTTAAAGGCTGTCAGCCTCCTGGGTTTCAAATAAACATAGTGGAATGGGGCT
CAGCTCCAACTGGCCATTATGGCTCCTTAAAGGGAGAGGAATGGGAGGGCAGTGGCTCCCAGCCTGCAACCCTGCCAGGGCCAGGGAAAGTACCAGTGGG
TGTGTTAATGGGAGTAGGTGTGGGTACACAGACTTTCCTCGGTATTTCCAGAGTTCAAACCAACATTCTACATGTACCTGGGCTAAGCCACCCAGACTAA
TGGAAGAGATTTGAGGTGGAATTTTGTGATGTCCCGTTGGTCATCTGGTGCTGAGCCAGCACTTTCCAGCAGAACTTTCTGCAGTGATGGAACTGTTCTA
TGTCTATGCTGCCCAATATGGTAGCCACTGGCTACAGAGTACTTGGATATGACTGAGGGTCTGATTTTTAAATGTYATTTAATCTTGATAATTTAAATGT
AAATAGCCATGTGTGGCTGGCAGTGGCTGAATTGGACAGCTCAGCTCTGAGTTATGTAGTTATATACAACAAGAGTTAATTTTACATTGGGAATACAAAT
TAGCATTTGATATGTGCAGTTTCCTGGACAGTTTCTTCCCAAACCACTGGATCTTTGGAAGAGCAAATAATTTTAAAATTCCTTTGTTTGGTGGTTACTG
CCATTCTGAGAATCATCGGGGTTAGGGGAATTCTCTTCCAAAATTCCCAGGGCTTGGATAACTGTAACCAGACTGCCCTGGGTTAATTTCCAGCATGATT
TCCAAGCAATGGCTAGGAACAGACAGGAGGGGTTAGATAAGGTTTCAGGGAAGAAATCTTTTGTCCCAAAAGGCATTGTGGGTATACTCTTTGCTTGGAA
GACAAGGCAATGGAGCATGGAGCCGATATGCATAGCAGCAGGTTTTCACACCAGCTCCTCAGCCCTGTCCTAGTGCTGCCCCAGACTGAGAGGACCTGTG
GTAAGACCCACACCCCTGCTCCATGGAGCCTAAATTTGCCCAGGAGCCCATTGGGCTGGTGAAGAATCAGGTGGATGAGGAATCAGTGTGAGCTTCACCA
ATTCTATCAACTATGTTGGGAGACCAAGTTGGGAACGGTTGGGAGAGGTATTTAGGGCATGGTGTGGGGAAGTGTTGGTACAAAAAGAATCATAGCCTCC
CACTCCAGGTCTGTCTTAAGGCCACTGATGGCACCAAGTGGAGCAGGCAGCCATGGTGACTAGTGACATGCCAGGACCTTGTTTCCTGTGTACAGGGATG
GGCCACAGCAAACAGCACCACGGCTCGGCGTCTTCACCCGGAGCATGGCCAAGAAAACAGTGCAGAGTTCATCCAACCAGGTCCTGCTCAAGTTCCACCG
TGATGCAGCCACAGGGGGGATCTTCGCCATAGCTTTCTCCGGTCAGTATGGAAGCCTGGCCTGGTGGGAAGGGCCAGGCTTTCAAGTCAAGGCTGAGCTT
GACTCCCGTCTCCACCATTTGCGGATCATGTGACCTTGAGTGAGTTGTATAACCTCTTGGAGCCTCAGTGTCTTCAGAGTTATGAGAATTAAATGTATTA
GCCTATGTGAGAGCTCTCAGTGCAGGGTTCTGTAAATGCAAGTTTTCCTCCTATTCCACACTGCCAGGGCAGAGAGGCACAGAAGCCCAAACCTTGGTGC
CAAGTCCACTCATTCACATCAACTCACTGGCTGGATCATCCCTATACCTGTGCCCCAGCTTATCCCTTAGCACTTTCTAGCGGGTTCTCCTTCTCCAAAG
GGATCTAGGGCTTCTGCTGACCTCTCAAGGAGCACTGTGTTTTTGTGCACAAATGAAGATATTGTGATTTTGAGTAGGAAGAGTATGAACAATTCAGAGT
AGGTATGCCTTTATTGGCAGCCTGTTTTCTTCTACAAGTCCCAAGTTAGGGATCTGGATATTTCCTCATTTTTATTATAGTGGAATTGCCTAGAGAAACT
TATAGAATGTTCTCTGTGGACTTGTGCCTATCTATGGAATGATGCACATATTTGCAATTTACAGATCACTGCAGATATTTTAACCAGAAATCAGGAAAGC
TGGATTTTACTCCCAGCTCCACCTTGGGCCAGCTGTGTAAAACCTTGCACAGGTCCCTTCCCCACTTGAGACTTCAGTTTCTTCACCTGTAGAATTACCG
GCTTGGAGTTTGTGACCTGTAAGAATTCTGTGAGGTAGTAAGGCAAATATTCTAACCCCCACTTTACAAATGAAGAAATAGGGCAAAGGAAGGCTCAAGT
ACTTGCCCAAAACCATGTGGATAGAACTGGAAACAGAACCCAGCCTCCGCAGTATCTGCTGCAGTATCTGCTACAGTATCTGCTCTGGTGTGACTATACA
GTGTTATTACATCATGCGTGCACTTGCAGAAACACACTAAGACTGTGAAAGAGGTAGTGAAAGAAACAGRAAGCAACAGAGAGAAACAAGGATGTAAAGA
ACCTAAGCAGCTGTGACTGCCATTCCCAGGAGCTATCGTCCAGGGTGAGTGCAATGTGGGAATGAGACTCCGCCCTCTCCATCTGCTCAGTTCCCATGCC
CCTCTCATTGGGCACACCTGTCGCTCCACTAATGAAATCCAGGCTTTAAGGCTCTGTCATTTTGACTTGTGACTTTCCCATAGAGTGATAAGAGTATGGA
CTTCAGAGTCACAGACGGGTTCAAACCTTGGCTCTGACACATGCAAGCTATGTAACTTTGTCTGTCATTTCACCCTTCTGAGCCTCAATGTTATTATGCA
CAAAATAGGAATCATATAAGTACCTAACCTCCTAAAGTTAAATGAAACAATGCTTGGAAATCCTTAGCTCCAGGCACAGAGTATAAAAGGTGATCAATAA
ATTATAGTTCTAATAGTCATCATTGTCATGATTATTTTTATTATATCTAGATATTGACAGGCTTGGTGTAAAGTTACCTTGGTGGTAGGCCAGGTCTCTT
GTTCCTGTTCCTGAGCCTTCACCTGTACCAGAACCAGGCAAAGGAGGCTCAGCACAGCCCCAGGCCATCCTTATTTCCAAGTTCTTCTCAGCAAGGTCTT
TCATTGAGAGTGCTTGCCTAAGGGCACAATGCTCCTTCTGCCTCTCAGATGAGACACAAGGCCCTTGCTATGGTGTAAATGCTTAGGCCCCCCTAGAATT
CATATGCTGACATCCTAACCCCCAAGGTGATGGTATTAGGAGGTGGGGCCTTGGGAGGCAATTAGGTCAGACAACAGAGCCCTCATGAATGGGATTAGTG
CCTTTATAAAAGAGACCCACAGAATCACCACACTGAAGCCTTCTCAGTGGAAAGAGCTAAGAAGCACAGGAAACACAGAGGCCGAGGTGGGCGGATCGCC
TGAGGTGAGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGATGGGCGTGGTGGCGCATGCCTGTAATCC
CAGCTACTCAGGAGGCTGAGGCAGAAGAATCGGTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATCACGCCATTGCACTCCAGCCTGGGCAACAA
GTGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAACACAGGAAACTCATTTGCTGCTTTTACCACATGAGGACACAGCATAAAGACAGCTGTCCAT
GAACCAGTAAGAAGGCCCATACCAGACATCAAAATTGCCAGTCCCTTGAACTTGGACTTCCCAGCCTCTARAACTGTGATAAATAAATTTCTGTTGTTTA
GAAGTCACCCAGTCTATGGTAATTTGTTACAGCAGCCTGAATGGATTAAGACAGCCATTCAGTCCCAGCTCAGACCAGAGCCCAAGGCTTCACTGACCAC
AGGAGCAGGCAAGGGTCTGGGGCAAGAGAGGAGGAACTGCTGTGCCCAGATCGGCAGGCTCAAGTGGGAGAGGCACTGGACTAGGGGATGAGTGAGCAAG
AGAGGCACATTCCATGCCTCATAGAACTTTTGGTAAGTTGTGGAATATATCCTACATATAAAAATGTATGTAACATGTATGTGCAGTTTAAAGAGTAATA
AAATGAACACCATCATTGAGCCTAAGAAAAAGAACACCTAAGCCTTTGAAGCTCTGTTCCTTCCTCAGCACATTCCCCTACCCTACCCTGAGAGTTAACC
ATGATCCTGTACTTTTGGTTAATATTCATTGCTTTTCTTTTTATTTTACTCCATATGTGAGTCTCCAAAAATATGTTGTTTAATTTTGCATGTTATTTCT
GTTATGTAAAGACAATCATTCTATAAATGTTCTTCTGTGACCTGCTCTTCTCACTCAAAATTAAGTTTTTGAAATTCATGTTGATGCAYGTGACTGCACT
TAACTCATTTTTCAATGCTGTATGATTTCATTGCATGAAAATATAGCAATTTATTTAGTCTACTGTTAACACTTAAGTTGTTTCATTTCAAGCAATAAGA
ACATTGTTGCTTATTCCTTATTGTGAACATGTACAAGGGTTTCTCTTGAGTACATGTCTGTGTGGAGTTGTGAGGTTGTAAATATCCACATATTTAGTTT
CACTAGGTAATGCTCAATTTATCTTAGAAGCAGTTATAACCATTTACACTCTTCCCAGCAACTGAAGTAGAGTTCCTTTTGCTGTACATCCTTGCAAACA
CTGGGTTTTAGCAGACTTTACATTTCTACCAGTCTGGTAGGTGCATGAGATGGCATTTCACTTGTATGCTTGTGATGAGGCAGAGCATCCTTTCCTGTGT
TACTGAGTGTTCATGCTTCCTGCTCTGTGAAATGTCTGCTCCCCAGACAGCTTTCCTGCTCCAAGGAGAAAGAGATAATGAGTAACCAAGAGGACAAAAT
TTTTGCAAATTGTAACAAATGCTTCGAAAGACATAAAAGGATAAGATAGCAAACAAAAAGTTGTAGAATTCCATGCAAAGTAATTGTGGAAAACCTAAGA
GAGGATATTCAAGATAAGAACTAAAGAAAAAAAAAGGAGCTAGACTTGCAAAAAGTGGACAGTGGAAGGGAGTGGGGGAAAGAATTTTTGCCTTTCTCCA
GGCAAGCAGCCCTAAGGAACTTTCTTTTCATATGAGGATCAATAAGAAAAAGGAAAAATACCTTAAGGAGACCTGTGAAAGATTTTATAACATTAAAAGT
TAGAACATGAAGTTTGAATTACAGAGAAAAATGCCCTTGAAAAAAAAACATGGTTTAGGAACTAGAAGTAATAGAAATAAATTTTGGGAAGCATCTTCTT
CTAATATAAGTCTAGATAACATGGACTCCAAATAACAGGTGAAATGTTCAGACAGCACACAAATGAAAAGAAAGATCTGGCCAAGAGATAAATAAAACGA
AAGCTAAATCTCTTCCCTTCCCCACTTGAATAATTCAGTCCTAAAGCTGTGAGATGGGACAAAGCAAAGACATCTGATATGGTTTGGCTGTGTCCCCACC
CAAATCTCATCTTGAATTGTAGTTCCCATAATCCCCATATGTCATGGGAGGGACCAGGTGGAGATAATTGAATCATGGGGGCCAGTTTCCTCCATCCTGT
TCTCATGATAGTGAGTTAGTTCTCACGAGATCTGGTGGTTTTATAAGGGGCTTCCCTCTTCACTGGGCTCTCATTCTTCTCCTTCTTGYTGCCATGTGAA
GAAAGACGTGTTTGCTTCCCCTTCTCCCATGATTGTAAATTTCCTAAGGCCTCCCCAGCCATGCTGAACTGTGAGTCAACTAAACCTCTTTCCTTTATAA
AATACCCAATCTCAGGTATGTTTTTATTAGCAGTGTGAGAACAGACTAATACAGCATCCATACCTGTCAGGCAAGAGGGAGTGTGAACCATTGTAGCCCA
GGCCGGGGTGTCAGGGGGAGCCACACTGATGGGCTGCCTGGCATGGGCAGCTGGAGCTTAGGTATCTGTACAGGGATGGAGCTGGCACAGGGTGTCAGAG
CTCTGCRCAGGATGAGCAGACACCCATGTAGGGTATTGGAGCCCAAGCAGAGGAAGGCGGACAGCCACACAGAGAAGGTTCAGCCCAGGAAAGGAAGTCA
GAGCCCAAGTAGGGTGAGGAGGGAGGGGTCAGCAGAAATGAAACCTTGGTTCCAGATGGGTGACTGATCGAATACGTTAATACGTCAAGGACAATAGAAG
GCAGGTGTCTCACTGTSAGAGAAGAGGGTTAGAACTATGGATAGAGCAAAAATTATAATATACCCAATGGTGTTAAATTTGAATTGGATGTATCAGTGTG
AGCTTATGGTTTTCAATATGTAGAGATATGGAAGAAAATAGTGTGTGAGTGGGGCATGTTTGAGTACATGTGTGTTTGCACATACATTTCTTAGCTCTTT
CTACTGAGAAGGCTTCAGAGCAGTGATTCTTCAATAGTAATGAGCACATCTAGCACCAGATATTGGTTCCTAAATAACATTTTCCACTAAAATGGACCAG
GGCTCCTTGAAGAAATGGCTAATCCCAAGCCTGGGGCAGAGAAAGTAGAAGACAAGCCAGGAATATCTTATGGCAGAAACTAAGGAAATGCCCAAGGCAT
GATGGAGACATGTCAAAGGGACATAGAATCTGGCTTGGAGGGGTTCTCATTGACCATATTGGGGATAATTTGAGAATCAAAGTTGTTTAAAATAGTAACA
AATGGTGGTGACCTATTGAATCAAACAGAACACTATGTATATCCACGCAGACATTAAATAATTACAAGTTTTTATAAGGAAGGGGATATTTACATAACTT
CAAACTACCCCTTCCCCCACCCCACTCCACACACAATAATAACAAAGGGAAAAAGAAGTGGAGAAGACTGGAAGACACGCCCACCTCATCAATAATGGGA
CAAATTGAAATCATACTCCAGGTGAGAGGATGCAGTGAGAAGAAGCCAGCATCACTTCCATGATTATCCAGTTGCAGAAGACARGCTGAACATAATCAGG
AGGAAACACCAGGCAAACCTAACTTGAGGGACGGACTGTCAACTCCCTGGCAGGCAGTCTTCAAAAATATAAAAGTTCTGAAGGTCAAGTAAAGACACTG
GAACCATTCCAGACTAAAGGAGACCAAAGAGACATGACAATGAAATGCAACATGTGATTYTGAACTGGATCAATAAATTATCAAGGAATTTATCGGAAAA
ACAGGTGAAACTTGAATGAGATGTGAAGATTCGATGGCAGTAATGTGTCAGTGTTAATTTCCCAATGTTGATGGTTGTTTTGTGGTTATGTGAGAGAATG
TGCTAGTTTGTAGGAAATACACTAAGATATTCTGGGGTTACAGGGCAACATGTTGGCGACTTACTTGCAAACGGTTCATGGAAAAAGATTTTTGTACTAT
ACTTCCAACTTCTCCTAKACCTTTGTGGCTGCTCCAAATTAAAACTTTTATTTCCAAGGGAAGCTAGATACTAAAAAATAGCAAGACTGAAAAGAAACAA
AATAGCGTAATTTTCATCATCACAAGAATCAGCGAGAGCAGAAGCAACACTGTAGAAAAACAATGCAAAGATGAGGAGGACAAACCTGAAAATCTCAACC
CAAATAGGGAGAAGGGCAGAGGCGTGAAAATGGTAGAGAGAAGATAGAAGATAAGAAATAAGGAGACCCAGTGGACAAAGAGCCAAGACACTGATAACAA
GCATTCAGGAAGAAAGGAACCAAATGGAAATGATAAAACTTTTCTGAGATGAAAGAAAACCTGTGTATATAAAGGAGCTCTCTGGATACCAAGAGAAATA
AAAAAGAGGCTGGCAATTTTTTCAACTTGTAAGGGTGAGGAGTAGGGGAAATCTACAAGAATCCAGGCTGAGAAAGTTACCTTAAATGAACCAAAATCAG
ACAATTCTCAGGCTAATTTTTGACGTTAGATTACAGAAAATGAAGGAGGTGATGTTTAAGGAGGAGAAAAAGTTAGGGGCTTCATGTGTGAATGCAAGAA
ATTGTTATTTGCAGGGATTCAAGAATTTACAATTATTGCCACTCTATCTCAAGCGGGGCTGTAACTCCAGGTGGCTGTAACTCCGGATGAACTCCAGATG
AACCAGTAACTCAAAATAGAGAAGATGTATGAAAGAAAAGATAAAAATGGAGTGTTGATACTAGTTAAGCACAGACTTAAAGCTAAATAATAATGGAACA
TATGGATTCAAAGCAGTGCAAATACAATAATTCTTAAAAGACTACAAATAATTATTTTATATTAATAAATGTGCAAGAAGGTGGAAAAGGGATAAGAGAA
TGTCCTTATCTTTTGTGACGGTGGAATCAATATATATTATCCAATTGTTGACTTTGATCACTAGAGAAATAAGGATTTTGAACATATACTTTAGTCACTA
ATATATTTAAAATAAAGTATAGTACTTCTAAATCACTAAAAGAAAAAACATGTAAAACATAATYCAAATATAAAAGGCAGAGAACAAAGGAAACTATGTA
GGGACAAAGATACAGCAAGCACAAAATAAGATACAGCAGTAGAATAAAATCATTCAATTGTAATGAAAAATGCAAATTTACTAAAATTCAATTTCCTGTT
AAAAAACAAAGACTCTTAATGATCTGGTTTGGCTGTATCTCCACCCAAATCTCATCTTGAATTGTAACTCCCACAATTCCCATGTTGTGGGAAGAACCTG
AATTATGGGGGTGGGTCTTTCCTGTGCTAGTCTCATGATAGTCAGTAAGTCTCACAAGATCTGATGGTTTTAAAAAATGGGAGTTTCCCTGCACAAGCTC
TGTCTTGTCTTGTCTGCCACCATGTGAGACATGCCTTTCAACTTCCACCATGATTATGAGGCCTCCCCAGCCACGTGGAATTGTAAGTCCAATAAACCTC
TTTCTTTTGTAAATTGCCCAGTCTCAGGTTTGTTTTTATCAGCAGCATGAAAATGGACTAATATATTTAGATTAACCTAAATAACATTCAACTATATTTT
CTATACCAGGAACATAACTAAGACAATGTGACACAGTTTAAAGATAAAAGGGTGGCCAGAGATTATATTGGGCAAACATAAACAACAACAGTAACAATCA
AAGAAAAATGCAGAATTCATAATGTCTTCAAGGTTCCATGTTATAGCATGTGTCAGAGTTTCCTTCCTTTTTAAGGCTGAATAACATTCCACACATGTGG
TATATATTTATTAATAACGTTAGTACAGACCACATTTTGTTTATCTGTTCATCCCTCTATGGACATTTGTGTGGCTTCTACCTTTTAGCTTTTGTGAATA
ATGCTGCTAAGATCATGAGTGTACACATATGTCATGATAATTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCG
TGATCTTGGTTCACTGCAAGCTCCGCCTCCCAGGTTGGCACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCACCACCTCGCCCA
GCTAATTTTTTGTACATTCAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATMTCCTGACCTTGTGATCCGCCCACCTCGGCCTCCAAAA
CTGCTGGGATTATAGGTGTGAGCCACCGCGCCCGGCCGTCATGATAATTTTTAAAGTGATTATCCAATTAGGAAGGTTGCAGAAAGATGCCCACTTAGTG
ATAGGTAGTTTGAGAATTGCAGATCCAAAACCTTAACACAATATGATTAGCTACACATTCCAATCACTTTGTGGTGCCTGTGCCACTCATAATGTTCTCT
TTAACTGCTCCTCAGGGCACTTGGCAGCTGTTTGTACATTGTGACACCCCTCCACGCACACATCTGCCCCCCAGCCACAGAAGCTTGGACCAGAGGTGGA
CACCTGAGCTGACTGCAGCAGGGGCAATCAGATGTTCTCTCTTGGGAAGTTGAAATAGGACCCAAGAGATTCTACTTTTGCCTGGACCCATCTCCTGAAA
AGATAAAAATCCAAGTGCAATGGATTGCTGCTCTTCTACTTTCCATGTGGACCAAAAAGTAGAACAATCCTATGTGCAGAAAGAGAATGATTGAGAAGTG
GAAAAATTTCCTTGGTTTCTGATGGCCCTTCAGTTCCTCGTCCTCTACCTTTGTGAAGTCTGGCTGCAAACCCACCCTTGGGTTCTCTCTTCTCTGAGAG
GCTTTTTTGCTTATTCTAGCCTGAATTGATTTATTTACATCCAAAGGTTCCCAAGGAATACAACAACCTAGGACCCAGCAATCCTACTTCTGGGAATTAT
GCAAAGATATGTGCATGAAGATATTGCTTGATATGTTATAACAGGGAAATTAGAAATAATCTAAATGTAAAAATAGTAAGAGATTAGGTATTATAAATTT
AAAGTGTATACTCAGAGAGAGAGAGATAGGGAAAGATACAGTCATTACAAAKCATTCATGTATGAACCTGGGCAACATAGTGAGACTCTGCCTCTACCAA
AAAAAAAAAAAAATTAGCTGGGTGTGGTGGTGCATGCCTGTAGTCCCAGATACTCAGAAGGTTAATGTGGGAGGATCAGTTGAGCCCAAGAGTTTGAGGT
TACAGTGAGAGCTATGATTGTGGTACTGCACTCCAGCCTGGGTGACAGAATGAGAACCTGTCTCTAAAAAGAAAATAAAAAGAATCACTCATGTAGAATA
CAATTCACTGATTTAGGAAAATGTTTATTTTATATTGTTCAGTGCAAAAAAAGCAGGTGATTTTAAAAACTCAGGTGATGGTATCACAAGAAAATGCAGT
GATTATGGACTCCCACCCTAGACCACACTCACCACTCCTTGTGATGTTCTGAAAAAGAGATACAGACAAGAAACAAAGGCAAAGGAAGGCATTTCAATAT
TAGCTGGGCATGGACCCCAGATTCAAAAGCAGAGCCTGAGTCCTTTGGTAAGCTCAAATGAACCAYGTGAGCTCACATTTTTTTCTAAGCTAATTTGGTT
TTAAAGGCTGCAAATGAGGCCGAGCATGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACCTGAGGTTGGCAGTTCTAG
ACCAGCCTGACCAACATGGAGAAACCCCGTCTCTATTAAAAATACAAAATTAGCCAGACGTGGTGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGGTG
AGGCAGGAGAATCACTTGAAACCAGGAGGTGGAGGTTGCCATGAGCCGAGATCGCACCATTGTGATCCAGCCTGGGCAACAAGAGCAAAACTCCATCTCA
AAAAAAAAAAAAAAAAAAAAAAAGATAAWTAAAAGCTTCAAATGAAAGGCCAATTCAGCACACCCAGCAGCTTGAGGAATAACATTCCCAGGAAGACGAC
AGGGACCATTGCTCACAATGGCTGCTGCTGAGCCAACTGCTGCTTAACATTAATAAAGCAATTGCCCCCACCGTTCACGAGTTAACATGTTCACACACAC
CAGAATCTGGCTATGCTCTCTCAACACCTCACCCTCTTCCCCTCAGGGGAAGAAGAAGGGTATTCACAAAATGAAATGGAAGAGTCTGCCTTGAATGTCC
CCTGCCCTAGAGTTCTGTAGCAATAACATGGTGGATACAGTGGGATACCATCAATGTGGTAAGAGTATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGATGGGAAATAGGGAGGGCGTGTCTGTAAAAGACCCAAGATCCTACAGCAAAATCTTCACAATGCTTATGCCTAGATGGTGAGATTTG
GGAAATTTTTGTTTTGTTGCTTTTTAGTATCCCATGAGCTTCCCGCATTAAACAGAAATTTGTAATTTTATGGCCAGGCACAGTGACTCACACCTGTAAT
CCCAGCACTTTGGGAGGTCAAGGTGGGAGGATCACTTGAGCCCMGGAGTTTGAGACCAGCCTGAGCAATATCTTGAAACCCGATCTCTACAAAAAAAAAA
AAAAAAAAAAAATTTTAATTAGCCAGGTGTGGTGGCATGAGTCTGTAGTCCCAGCTACTTGGGAGGCAGAGGTGAGAGGATAGCTTAAGCCCAGGAGGTC
AAGGCTGCAGTGAACCATGATTGTGCCACTGTACTCCAGTCTGGGTGACAGAGCAAGACCCTGAAAAAAAAAAACCTAGTTTTAAAATGTAATGGAAAAT
CACCCCAATCAAAACAGTAATCACAAAATATAAAGTACCCAGGCTGTATTTAAGTGGGGATTTGTTTTTATTCATTTTTTTTTCCTGGAAAAGTTTAGTA
TGCCTTAGAAGTTTTGAAGATAAGTATGACACTGAGAATGGAAGGCACCAATTTTTTTAACTTATTAAGAAAAATTATAATTGGCTACATAAAAACTTAA
TACTTCTACAAATCAAAAGTGCCATAAATAAAACTAAGCAAATGATAAACTGGGAAAATATAATTAACGGCTAAGGTCAACCTTGAATATTCAGAGTTCT
TCAAATTTATAAGAAAAATAGGGGCAAAGAAAGTCTTTCATAGCTAGACCTTCTTTCTGCCTAGAGTTTTATAATGTGTCAAGCTGCGGGGTTTCACCGT
GCACTGGATGTGGATGGTACAGTATGCAATGCACAGAGGCACTGTTTTGTCACGCCATATTGTTGGGTGATCATGAAGTGATGTTTTAAGTATTTAAACT
TCTAACATATTGGTTCATCACAACTCTTTTAATAGACAGTTAAAAAGAGAAATGCAAATAGGCCATTAACGTGAAAAATGCTTAGCCTAATTAGTTATCA
AATGCCAATTAAAATAAAATAAATGCTGCTTTTTTGTTTAGCAAGTTAACAAAGATTAAAACAGACGACTATCTCTCCCAGTGGGGCCTAAGTTCTGTGA
GGGCAAGGGATGTATTTGTTTTGGTTGTTCTTGTAACCTCATCACCTGACACAGTGCCTGACCCAGGGTGAGCCCTCCATAGACAATCATTACATGAACT
GGGTGAAAGAAGAATGATGGCACCCAGTGCTGGAGGAACAGTCRCTCTGTTGACAGTATCAATGGGAACCATTTTCCTGGAGGGCAAAGTGGAAGCATGC
AGCAAGTGTGGACRTGGCCTTCCCAGGCTTATGTTAAATCAAAGGTAAACCCACTTGGTTACCTCAAGAGTGCCTCTTAGTTTTAACACCCACATTTCAT
AGAGCTTACGTATCTCTCAGTACGATACATTTCAGCGAGTGCGTCTATAGAAAACRTTTACAGTTAGATCCCCCAAAACATAGTACACCATTTTCAATAA
ATCTATATGCAGGGAAAGTCTCAAGCTGCATTCCAACTACAGTTGGTAAAATGTCAGAATCCCATGCGGACTTTTGGAAAGGGGCTCCAATTCCATGGCG
GGGATGTGTGTCTCAGAGGCTGCTGGCTCTGAGGTGTCACTCCATGCTGTTCATTGTAAACTGTACTCTACCACCTAGTGCCAGTCCTGAATGCATTCCC
ACTGAGTCTTTCATAGCTAGACCTTCTTTCTGCCTAGAGTTTTATAATGTCTCAAGCTGCAAGATTTCATGGCGCACTGGATGTGGATGGTACAGTATGC
AATGCACAGAGGCGCTGTTTTGTCACACCATGTTGTTGGGTGATCGTGATGTTTTAAGTATTTAACTTCTCTAACAYAATGGTTTGTTGCATATATTTAG
GTATTTTATTTTGTCTTAATTACTTTTTGGATTTTGGGTTGAAGTACAACACAGTATAATTTTTTCCCACTTAAAATAATGGGATATAGGCTCCTAGTTA
ATATCTTTACACAGAACATTTGATTTCCAGGAAAGGATTACTGACATTCAGCAGGAGATATCTGTACTTTCAAAAGGGTCATGTACTTGAATCTTCCTAG
TTAAAAAAGAAAAAGAAAAAAAACGTAAAAGATGCRTATATAAAAAAAGATTTCATTGCAGCTTTATTTTAAATTGCAAAACTTTGGAAACCTAAATGGT
TAACAGAGTATCTGTTAAATACATTCTAGTAAATCTGTATGATTAAATCCTATGAAGTTATTTCAATCATATTTTCTAAGAAATGTAATTATATGGGAAA
TTCTTGCAATATAATAATAAGTGTGCAAGGATCAACACAAGCTATATAACATATAATGCAAGTTGTATAAAACAAAAATATTTATATTTGCAGAGAATAA
ACACTCCAGGAACGTACTRTAATTGGTTAACAGTCGTTATCTCTGAGAGGGCAATGGATAAGTTTGATTTCTTCCTACTGTTCCATAGAATACCTCAAAT
TTTCTTTAATGATAATGTACTATATTTGTATTTATTAAAGAACACTTTTTTAATATAGCAAGGATTGGGGTGATTGGAAATAGTAACGATAACAGCAGCA
GTGGCAGCAGGAGCAGCTAACACTTGTATAGCACTTGACTCTGTGTTAGTAATAAAAGCCAGGTTATGAGCCCACACTGAACTTAGCCTCAGTAAATAGC
ATCCTGCCTCTAGCATCATCCAGTCTCTGCCCATAGGGATGAATTCCAGCCTAGAAAATTTGTGAATCCAGAAGTATCTGGTCAAAGATCAGAAGGGTCA
GCTTGTCAGCTGACTTCAGTAGGTACTCGCAAAAGCCACATGCAGCATGTAGATGCTCAGTGGTGGGAAGAATACAGGGTTTGGGAACAGCCAGACCTGC
ATTCAAATCCTACCTGTGCCACCTAATTCCTGTGTGACCTTGAGGAACTTACTTCACCTTTCTGAATCTCACTTGCTCACGAGTAGAGTAAGAGCACCTC
ACAGCATGGTCAGATGTTGTGAGGGTTAGAGTGGCAGCCTATAAAACGCCTAATATCCACGAGGCACTCAGAAAACGCTCCTCTCCCACCCTTCAGTGCT
GGTGATGGTGTCACTGACTCCTTAGATTGCCCCTCTTTTGTTATTATTAATTTCAATAAGGATGACAGAAGATAAGCAAAAAGGACTTGGCTAAACTTGC
CCTGTTTACAGATAAGTACTCATGAATATCTGTGTGTGAATAAATGAGGGATGAGAAAGTGAAGAATTGAACAAATGAATGACGGTGTACCTGGAGAATG
ATGATCTTACCCTGACTTGCCTGCTTTTATCTTTTCAGCTTATCCACTCACCAAATGCCCTCCTCCCACCATCCTCCCCAACGCCGAAGTCGTCACAGAG
AATGAAGAATTCAATATAGGTACCACCTCCCAAGCCAGCAAGGACTGTGAACCCAGGACTGGGGAAGGAAGGGAAGGTGGCGGGGGGAGCTGTCGGGCCA
GCGGACCTTATCCCCTGCTCCTGTCTGTGGAGAGAGAAACAGTAGGCCCTGTGCCAGAGGGTTCTGCCCACTGAGTTTACACCCAAAATAAAATCAAAAG
GGGAGGCAGAAAAATAGTTTTCTTTTTTTGGTTCAAGTCAGCATCTTTTTGAGAAATAAATCCATGCAAGACAGTATAAAATGTCCTGGAATATGAAACA
TTCYGAGGCTCACACAAGGCTGAGTTGTGAGAGGGGAGCAGTCGTCTGGGCCATTTGATGGGAGCTGAGCTAGTTATTTAAGTCTGARCAGAACATGACC
CRCCTCTGATTATCTCACCTGGAAGTGGGTTCAARGTACTAATGACTGGACTTCTTAAGAGGGTCTACATGTTGGTCTTTCTTTGACAGGTGACATCGTA
CGCTACAGATGCCTCCCTGGCTTTACCTTAGTGGGGAATGAAATTCTGACCTGCAAACTTGGAACCTACCTGCAGTTTGAAGGACCACCCCCGATATGTG
AAGGTAATTGCATGGAGCCGCATCTGTATGGGGCCTAGAAGTTCCTCCTGAACAAAGCTCTTGTTTTGCTCCTCTTTCTATTCCCAGTTCTCAGCTCAGT
CACTGCCCCATAACATGAAAGGTCACTTGGTAAATGTTGTCTGATGGATGAGTAAGTGCATGAGGAATGAGTGAGTGATCACTCTAGATAGGTTCTCTGC
CCTGTTCTGATATCTGAACCTGTGAATTGGCCACAGTGGCCACATTTATTTTCATCTGCCTTTTTTTCATTCCTGGGAATTTCTTGGAATTGCATACTGA
GTACTGGAAGGAGGAAGTCCCTCCCTGGTGTGGGCGTGGGCTCACACACCATCCCTGCTTTACTGATGCGCGGATGCACTCAAGGTGCTGTGTGCCAAAC
CAGGCAACTGAGAGACCACAGCAGTCTTTATTCCAGTGTACMATGCCTTGACAGAAATGAATTCGCTTCAGCGAGTCACCCCAATTAAGATCAAAAAATA
GTCTCCACTCATCAGGCATCTGACCTAAGTAAGGCAAGGTACCTGATTGTCCTGCCCTCAGCCTTCCCTTCTATAAACTGAGGATAATGATAGTACTTAT
GCCATGGCGGTATTAAATGGGTTAATAACATAAACCAGTTTAGAATGATGCCTGGCATGCAGTAATTGCTCCATRTTTGTGTTAATATTATCATTAGTGC
GACTACTGTTTCTAGAACTACTGCTACCTGCAAATATTCAGTAGCCTATGGGGAAACAGGYCAGCCTTTCCCCCACTTCTGGGAAAGCAAGAGTAGGAAG
AACCTGCAATATGGACTGTCAGTAAGGAATAGCAGACCTGGTAGAGGCAGGAGAGGACCACGAGGCCTRAGAGAACTTAAGTATCACCACATCTCAGTGC
CCTGTGCTGGTCATCGGATTAGTGAAATCAGGAACATGTCAAAGCTAAGCGAGTTTCCTCTTAGAAGACATTAGTTTTCCTTCTCCTCTTAAAATTAAAA
AGGAAGCTCTATTGGGAAAAGTCAGTGAGTACCTTTCAAAGCTACTCAGGCAGAATCCTGGATGCGTCCTGTGAAATTCTGGGCCACAGCAAGACTCTAG
GAGCCCAGCCCCCGTGCTGATTACCAAGCCCCACTTCTCTGAAGGCAGAGGTGAGATGGGTGAACAGCCCATGGCAAAGTCTTGTACCCAAAATAGCATT
ACCTGAAATTGTAATCCTGGGATTAATTTTTGGTCTTGCAGTTCCMGTTCCAGAACCTCCCTTTTASCAGTGTCCCAGAATCCAGCAGACCCAGGAAGCC
TGTCTAAAGGCACATCTACTGCAAAACACTGATTTCTCCGTGTGCAGTGATAAGAATACTTACAACTATTGTCAATGCACACCTTTGTACTGAAAGAACA
ATGTACTGAAGAAGTTGATTTAGTCCTCAGAACTTTGCTTTGGCGTCCGCAACCCAAACAAATGGAGGTGGATGGTCCTGAAATTGCTTTCATGCTGTGA
TGCTTGCCTGTGCCCCAGGACACAGCATCTCCTCAGTGCTGGGGAAGGGCCTCTCTGAACCAGCAGCTTCCCTCCCACTCATGGTGATGACGAAATAACG
AATCCTGCTCCTCCAGCTCCTCCTTTTCTAAGTTCCAAGCTCAATGTCTTCCTTAGAATGACATTTTTTTCTTTAGCTATATAAATAGTACTAATTAAGC
CACAGCCAAGTTCTGAGACYTTTCTGTTCAAGATGCAGTTTTCATCATTCCCTCTACAATTTATTGAAGCACTATGTTGCATGCTTTACATATATTATTT
CATAATATATATATATACATATATGTATATAGATATATTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCAGGCTGGAGGGCAGTGGTGCAATCTCAGCT
CACTGCAACCTCCGCCTCCTGGGAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACATGCCACCACACCCAGCTAATTTTTGTAT
TTTTAGTAGAAATGGGGCTTCACCATGTTGGCCAGGATGGTCTTGAGTTCTTGACCTCATGATTCACCCGCCCCGGCCTCCCACAGCGCTGGGATTACAG
GCATGAGCCTCCGCACCCAGCATGTAATATTTTATATAATGCTCACAACAGCCCTGTAAGGTCTGTGTTATCTCTGTGTTGGAGATAGAGAAGCCATCAC
ACAGAGAGGAGATAACTTGTTCAAGACCACACCATTAGTAAGTGGCAGAGGTGGGCTATGAATCCAGGTGTATTTGACTCAAAATCCCATGTACTTACCT
CTGCCCTATACAGTACAATCTTTGTTCAAATAAAACCCATTTTATAGATTATCTCCTTTGGATCTGGGGAAGCCTTACTGTTGTCTGTATGTATGTTCCA
TCCTCCCCTACTCAAAGCCAGGTAGTAGAACCCACAACTTATCTAGGAAGTGATTCCAACCAACTGGCAAAGCTCAAGTCCCAGAAATACTGCAATATTG
ACACAGGATCTAAGCCCACCTCATGTCATGGAGCAGCACAGTGATGGATGTGGGATCTTATCTGAATGTGCTCAAATACTGATTTTCTAGGGGTTGTCTT
TAGTATTGGGAAAAGCAAATGTATTGGCCGTAGTTCCATCTCCACCCCCACGTACTTGGTGTTTCTCTTTCTTTCTCCAAGTGCACTGTCCAACAAATGA
GCTTCTGACAGACTCCACAGGCGTGATCCTGAGCCAGAGCTACCCTGGAAGCTATCCCCAGTTCCAGACCTGCTCTTGGCTGGTGAGAGTGGAGCCCGAC
TATAACATCTCCCTCACAGTGGAGTACTTCCTCAGCGAGAAGCAATATGATGAGTTTGAGATTTTTGATGGTAAGTCAGTCAAATGCCTCACAGTTCTCT
GCTGCAGAAGACATGGACTTGCTCCAGAACCCGAGGAGTCTGTGCTGCAGTTTTCCTATCAGGGCTTGCCAGAAGCTCCACAGGATGTCCTTCCCTACCA
CAGCAACCCCAAGGCCATGGGACCTGAGGGGTGGCATGGCCCAAGCAGCAGAGCTGCTTGTACTGCAACTTGAACCTGTTACCGAACCTTTTCTTACTCT
AGCTCCCACTCAAAGCCATTCCTGTTCATGTCAGCAGATAAATGGGTCAAACAGTATTCCCAAGTGAAGAGTGTGCTTCCTCCAAAACCCAGAGATCTAC
CAAACATTGTGCTGCCTCTTTGGCTTTAAGAGGGAAAATGTGCAATAATTTGCTCTTTAATTTGGAGGGCATGTCTCAGCATGCTTCAGACCACTGGACC
CTAAAAATTCATAGCAGAACTTTGTAGGATTTACCTCTTACCCTCTGGAGCACATGCATCTTGAAAAGKCATCTTGCCAAAGCACTAATTGTCCCTTCTC
ACTCATCAGGTCTAATTAATATGATGTCCTCAATAGAGTGAACCAATATGTTATATTCTGCAAGATGTCCAGATGGTCCACATCCCTTTATACTCGGTTA
TGACAGAGAGCAGGAGAAGTAACATAGCTCTGGGGGAAACCATGAATGTATACTGTTGTCTACCTCATGTGAATGCAAAGTGCTTCTGATCCTCATTTCT
GAAGGGTATGGAAAAGACTACATGGCCAGATCAACAGCTACATTCTATGTAACCAAGGCTGTGTTAATCTGTTCTAATAAAGATATGCGCCTCACACAGC
TGCTACAATTGAGGCTCCTACTTTGTTAAGTGTGTACTGTGAGACGGACCTGGGCCAGGACTCCATTTATTCCCAAAACCACCCTTCATACACCACTCCT
CTGGCAGAGTAGCTATGATAGTGCTTTGGAYCCCCAGTCATCARCATCAATTAACATCCTGTATCCAGAAGTCTTTGATATATCTGAACATTCCATTTTC
TATAATATTCTGTTTTCTGAGTAAACAGTAGTAGGTCTTTTGGGGGAAGAACGGTAGGAACAACTACTATATACAATTATTGTCATTGTGCGGGGTCTTT
TTTCATAGGGACCCAGCCTCTTGGGAAATGAAACCTGGCTCAAGTCTGCAAACTGGGCAAAGGATTGCACCTTTCTGCTGGGGGCAGCTTTTCTCATCCT
GCAGTTAGCTACTAATGATCTRTTTTGTTCATATAGTTATACTTGTTTTGGCTGCTCTTCTTGGCTTCCTATTTACCTTGCCCTTAGGAACATCATGCTC
TATGAGCCATCTTCGTAGATCCCGTAGGCCAGGCTCTCCCAGCTGCCATTCCAGCCTTGCTTCCCATTTTAGTAATTATGCCAACTTTGCTTCTGACTGT
TAAGTAATTCCACCTGGCCTCTGTGTTCTAGGACCTTCTCATCCCCATTACTGCTAGGGAGCCCAGTGTCTCTCCCCATCAGTTTTGACCCACAGAGGAT
AGCCATTAGTTACTCAGGTTTTCAGCAATGCTGGTGCTCACCCGCTCCAGGAAGGCTGGAGCTCCTCACCTCCTGATTGCTTTAGTAAATGGAGTGTCCT
CCAGGTCTTCCTGAGAACTRTGGTCAACTTTTACACAGCAGACCTAGCCCAGCATGCCACTTCTCCCAGCCTTTCCCTTCACAGTTTGCATGGCAGTTCT
GGTGACTCTACTTTGTTTAATATGATCCATTAATTTTTCCAAGCTTCTAAGAGCTGTCTCAGTGGCATAGTAGAGCCATCATTCAGGGCCTTTTCMAGAG
TGATAAATCCTGTGTTATGGGTTATCCAGCTTTATATTCTGCGCCCCTTCAACCAGCCCCCTCGGGATGCAATYTCAGACATTTAAGGTAGGACAAAAGA
AGAGGGAGGTYTTTYTCAAAGAGCTTTCAAAAGCAGTATTAGGGAGCTCTGTTACTTATGACCCCGAGACATGACATTTTCCTCTAGCTTTATTGCTATG
TATTCATTCCAWAAATATTTTTTTCTATATGGCAGGCACTGAGCTTTTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACTGAGTCTTTCTCT
GTCACCCAGGCTGGAGCACAGTGGTGCGATCTTGGCTCACCACCTCCTGGGTTCAAGCGATTCTCGTGCCTTAGCCTCCCCAGTAGCTGGGACTACAGGC
ATGCACCACCATGACCAGATAAWTTTTGTATTTTTTTTTTTTTTTTTTTTTTTTTTTAGTAAAGATGGGGTCTTGCTTGCCAAGCTGGTCTCAAACTCCT
GGGCTCAAGTGATCCACCTGCCTCACCTTCCCAAAATGCTGGGATTACAGACATGAGCTTAAATACACACAAGAGAAGTAGGGTGGCCAAGTGGAAGAAG
TTCCCAGTTTGAAAACCAGCTCTTCCATTAACCAGCTACTTGACCTTGTCAAGTCTCAAAATGCAAATCAATTTCATCTTACCTGCCAGCCCCTAGAGGT
AGGCAGGGACTTCCTAGAGCACTGCTTTAGAGCTGGGCTTAGGAGAAAAGAGCACCTTGAGCAATKCCTGTGGATGCAGAGAGAGGAGTGCAAGTACAAA
TGATTTTGCTGACTCTGAACAAGTCACCCCACCCTCTGAGCCCTGAGGTCTTCCCTGGAGGCTCCCTGTGATGGCTCCCATGGTCTGTAATCCTGCGTCC
TTCTCACCCCAGGTCCATCAGGACAGAGTCCTCTGCTGAAAGCCCTCAGTGGGAATTACTCAGCTCCCCTGATTGTCACCAGCTCAAGCAACTCTGTGTA
CCTGCGTTGGTCATCTGATCACGCCTACAATCGGAAGGGCTTCAAGATCCGCTATTCAGGTGAGTGAAAAAAACACAAATAAGCCACAGGCCCTCTCCTC
ATCGAAGCCTCAAGCTCCTCTGTGGAGACCGGGCGGCCATTCCCCTCCTAAATCTGCCTCACCTGAAGCTAAGTGGTCTTTGCCATTCCCCTACCTCCTA
TTTTTCTATTCCATTCCCCTCTTGAACCTCTTCCCTCTTTTCTCATACTGCCAGCCTTTGTCTTCAGGATAAGTTTAACAATTTTATATGATCTGATAAT
GCCTAACAGTGATCCTGTCCCTTTAGGAAAGTTAGGAAATGCTAAYAAAAGTTTCTTAAAACTAAAAAGCCCTAAGGYATAGATCTCTGACTGGCAGATG
TTAAGCATGCAGCAAAGGATGGGCTATATTTCAAGGCCAGGTGCCTTTCTTCTGCTCTGCAAGCCATATCTTATAAACAGAGTCAGATCAAAAGGCCAAA
GACTGACCCAGGCAACAATCTATAAGGACTGAAAAAAATAATCCTGGGAATATAATGAGATGGAGAAAATTGAATTTATCTGATCTCTCGTCATGGGGAT
TACTGTCTGTGGTTGGAAGAAAACTTCACAAGGTGCTTGATGCCCACTTTGAAGAGAGGTGGGTTCAGTGAACTGCTGACTGGGCTCCGCAAGCTTGGAG
GCAGAAATGAATTACTTAAGACCATGGGGGGTTCCATCACACACCAGTTCCCTTTCAGCACTCTTTCCCCTGGCTACCTTTGGCCTACATTCCAGGCAAA
CAATGAACAAATTTCTAAAGAATATTGGTTGGGGGCTAGGTGCAGTGGCTCACGCCTGTAATCTCAGCACTTTGGGATGCCAAGGCGGGCAGATCACCTG
AGGTCAGGAGTTTGAGACCAGCCTGACCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGRTGGCATGCACCTGTAATTTC
AGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCACGCTACTGCACTCCAGCCTGGGCAACAAG
AGTGAAACTCTGTCTCAAAAAAAAAAAAAATTAAAAAAAAAGAATCTTGGTTGGAAGGAATGTCAAATTCAGTGCCTGAAGTCCCACTTGCCACAGTCCA
TCTCTTCTCATGGGTCTCCTACTTGCAAGACCAGCCCATACTCAGTGGGTGGACAGTCTTAAAGAATCCCTGGGTGTAGCTTTCAGGGGAGAGCCAACCA
GAGGAAGCTGAGGGCCCCTGGGAGAAGGTGGGTCTTGACTGTCTCAGAGCCCATATCCTCTGCAAAGTCCATCCAACCTCTCCTTTCCCTGGTGCACACG
GAGAGGGGTCTGGGTGGCTGCAATGACTGAGTGCCCCAATGTCAGTSACCAGCTCTCTCACCTACTAGCTGTGGGATTATTAGGCAAGGTACTTAACCAC
TTCAGSCTTCAGTGTCCGCATGATGGAAAAGAAACTTTAAGGTGCCTCTTAGGGCTGAGTTCCTGGCAGCTGCTCACTCAAACAGGAAATATAGCAGTTT
GGTAGCATTTCACTATGCTGGTTGCTAAATTAGGAACTGAACGTTATTAAGGAGTTACCCTTTCCTTGATGTTCTAACGTGTTTGGGGATAATGAGTCAG
TTGTAATTACAATACATATGCCACGTAGAAAGTGAGTTAATTACATGGCGCAACAATTAGTACTTAATAATTCAGATCGAGTAGATGAGTGTAATYTGCA
CCTGCGTCTGTCACTGTGACTAAGTATATTTTACAACCGAGATTCTTGTTCCTGAGGGAGGTAACCATGTGGATACAGCACACATARGACACAGCGGGCA
AAGCAGGAGTAGGGAAACAAATTCGGCTTGGAAGGCAGCTATTTAAAACAACCATTTCACCGGCAGASGGATATGATCACCAAGAAAGAGGCCGGGGACC
TCACCAGGGGTGGCTGTAAGGGCCCCACACGCGCATCCTGCCTTATCCATCTCTGCCTGGAAGACCCCACCAGGGACTCCTAGGGCAAACAAAGAGAATT
ATCTGCSTGCTCCTTTGGTCATCCCTCTTTCSTGGCCTCACAGAACTCCCCCTGAGGATCCSTGGCAGGCTTTATAATGTGAGTCCTTTCAGGCTGGGAT
TTTTTGTTYTGTTTTTTTTGTTTGCTTGTTTTTTGAGACAGAGTCTCACTCTGTCACCCACGCTGGAGTGCAATGGCRTGAGCTCATCTCCCTGCAGCCT
CCACCTCCTGGGTTCAAGTGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACTACGGGCACGCACCACCACGCCTGGCCAATTTTTATATTGTTAGTA
GAGATGAGGTTTCACCATTTTGGCCAGGTTGGTCTTGAACTCCTGGCCTCAAGTGATCCACTGGCCTCAGCCTCACAAAGTGCTGGGATTACTGGCGTGA
GCCCAGGCCAGGGTTTTGGTCTGTTKTCTTCACTGTTGTATTGCAAGCACTTAGAACAATATCTGGAAGATAATAGATACTTGATGTCTATTTGTTGAAT
AAATGAATGAAATAAGTTGAAGCCATATGTGGAGGGGAAATGAGCACTGTAGGGAAATGTGTGTCCCAGGTTGCCACAGGTCAGTCTCAGCACATTCCCC
CACACAGCACAAAGAAGGACAATGACCACTTACTGAGCATTGAACAGTGAGTGCCCCATGCTGTGCTGGGGGCTTTATGTACGCAATCTACATATACAGC
TTAAATTGCCCAAAAATCTGTGAGGTGGGTATTACCAGTCCCAATTTACAGGCGAGGAAATTGGAGCTGAAGTGATTTGCCCCAAGTTACAGAAACTGGT
CAGATCAGAAACGGGACTGGAGCCCAGCCCTCACTAAGGTCAAAGTCCACACCCCCGCAGTCGCAGCTTTCTGGAACCAACCCCATTGGGTTCTACTTTC
TAAGTCTGTTTCGGAGCTGAAGGGATTTGAGAGCCTGAACTTAGCCATACACCAGATCTACCTTTGGACCGCAAAAGGGACCCAGTGCTTCATGAAGCTG
GTTTTTTTTGTTTTGTTTTGTTTTKTTTCCGTTGTTTTGTTTCGGCTTTACCAACCTGACTGGGTGTTTTTCAATATCCACCATTCAGACTTTCCTCAAC
AGCAGAGGATGTGGCAGTGGCAAAGACAAGGGGATGGGGGGAGACGAAAGGGAAAGGGGCCTGCMTGAAAGACCATGTCTGTCTTCCTGCTGGTGCCAGT
TCCCTGAACCTCATCTTGTTGTTCAGCCCCTTACTGCAGCCTGCCCAGGGCTCCACTCCATGGCTTCATCCTAGGCCAGACCAGCACCCAGCCCGGGGGC
TCCATCCACTTTGGCTGCAACGCCGGCTACCGCCTGGTGGGACACAGCATGGCCATCTGTACCCGGCACCCCCAGGGCTACCACCTGTGGAGCGAAGCCA
TCCCTCTCTGTCAAGGTGAGAAGCAGGTGGAAAGGGGGTCACAAGGTAGCTCRGATCCAACTCATATCTTGGGTTTKTCCCAGGACTAGTCACTTCCAAA
YGTGGGTTTCCTCTTTGATAATTATTTCATTCTTTCCACAAGCATTTACAAGATCTGTAGTGCRTAGCAATCTCAGTGTTTTGAGATCCATGGGGGAGAT
GGGTATGTGAGCACATCAATGCAAAGTGGCAGAGGAAGGAAGTGTCGTGTCAGGAGCATAATCAGTGTTGTGGGAGYCCAGAGGTGAGAAAGGATCTGCT
TCCTCCTGGCCAGCTGGGGAGGGCTCCCAGCAGAGGGGATGCTTGGGTTCYGGCTCATAGAGCAAGTGGGTTGATCAAACACTTGAAATGTGTCAGTCAA
TTTGCATGCATTACCTTTTATGATTTATGATTTTATGATTTATGACAGTTTTTTCCCTTCAAGTAATATACATTCAAACTAAAAATCTGAAGAAGAAAAA
AAAAAACGGTAGATAATGCAAAAGAAAAAAAGTGAAAATGAACAATAAACCTGAGATCACCACTGTTAACATTTCAGCACATTTCCTTTGGTCTTTTATG
TATTGATTATAAAAATAGGATCATCCGTGTACAAAGCTCTTATAGATTTTGTTTCCCATAATGCTGTGCAACCACTGAAAATCATGGKGAGGAAGTATAT
TTAACTATATACTATTTTTTGAGACAGAGTCTCCCTCTGTCGCCCAGGCTGGAGTCCAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTT
CAAGCAATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGTCACCCGCCACCATGCCTGGCTAATTTTTGTACTTTTAGTAGAGACAGGGTTTCA
CCATATTGGTCCGGCTGGTCTCAAACTGCTGACCTCAGGTGATCCGCCCACCTCGGTCTCCCAGAGTGCTGTGATTACAGGTGTGAGCCACCGCGCCTGG
MCTCTATTGTTAATATTATACTTCSTCACCATTATTTTCAATAGTTGCACAGCATTATGAGAAAATTGTCATTCATTTAAGTATCATTCTCTTSTTGGTC
ATTTGGATTTCTATATTCTTTGTGACGATAAACTTATAATTCCATCTTTATGAATATTACATATTTCCTTAAGGCAAATTCTCAGAAATGAGATTCTCGC
ATCATAACGTATGCGATTGACAGCTGTCGATACTGATTGCCTCCCAGAAAGTTTGTCCTCATGTATAGCAGCATGTGAGAACTGTCTTTTCTCCCACAGT
CTCAACGTTAGGCACTGCATTTAAAAAAAGAAGAAAACATTGCCAACTACATAGACAAAAACAGGAAATCACATTGCTATTTGATTTTTCCTTTGGTTCC
CAGTAGTGGTGAAGTACTTTTTAATGACATCTCTCATCTCTAATCCTCACAACCTTCTCGCCTGTGCCTGTGCTTTCTCAAAGAACAAAAACAATGTGCT
ATTAATAATCTACTCTACCCCTAAGCAAAGGTCACAGTGAACTGGCTGTCCACAAATGGCAAATGGCATTTGGCTTTGGTCTCTGCGTCTCTAACTGCAT
TAACAAGGACAAGTCTTTTTTCCGGAGCGCCAGTTGGAACCTACTAAGCCTCTCATTTCTGTTACCTTACATCACCACCCAAAATTAAGCCTCCACCAGA
CTTCAGTTGACCCATCCCCATACTACTGTGCATGTCTTCTCCCCACTGCACCCCTTGCCTCCCACTGATGCCCTTCCTCTAAGCCTCCCACTGYGTTCTC
TGGAATCCTAGTTCCGTGGCCAGCAAGCGTACACCCTCAGTCCCTACCYAGCTGGCTGTCTTCACTTCCTCCCTCCATGGAGACCATGGCTGTCCTCTGA
GAGCACGTATGCTGTGGCCCTTTCAAGTGGATTGTTAATCCCCCTCCACCCACCTCCTACTTCCCACAGAATTCTGGGCCAGGAAGGGCCTGGCATTATT
CCACTTCTCTACTGCTGTTTCCAAACCATGACTTTTCCACTCTTCCTTTAGAGACTCTATGCCTCCTAATGCCTTCTCTCTCCTTCCCCAGCCCACTCTC
TCACCTGTGTCTCTCTCCCTCAGAGATCTCATTCCACCACAAGCCTCAAATACTTTGTGATTGTATCCCCTCCYCCTCCTACCCACAGGAAGTGTCCCTC
TTACCACCGGGTTTTGGGGACTGCATTTTGGCATGGAGATCATGAGACACAGGCTTTTAGTATCTCAGGCTGGAGTATTATCTTCTGTCCCCTTAGTTAT
CTACAAGAGCAAGGCCAGGCCAGGGCCTGTGAGAAGTGGCTGCCRCCCACTTCCTTCACTGCCCTCCCTGGATTGRCTCTCCATGCAAGACACCAGTGGA
GATCCAAGTATTTCTTCCCAAAGGATTYAAGGAAGCTGGGCAGGTAGTTGATGTAATATGACAGCTTAGCTAACCTAGTTCCACTGAAGGAGCTCATAGC
CTTTCTGATTAGTCATTAAGAGTCTCATGTTTAAACACTCTCTTATTTCTCATTCCTTCTGTGTTCCTGATCCTCCTCTTCTGGAAAGTCCCACACTTAG
ATCCTTCTTCCATCTTGGTATTCCAACTTCTCTCCCTCTGAACAGTCTACCCTCCTCCATTCATAATGGAGCCCCAGCCTGATGCCTCTTATTGGTTCTG
GAAATTCTTATAGCATCAAGCATCTTGTTAGGCAATCTCAATGGGACTCTGCCCAAGCTTATTCTGGCTCTAAGCGAAAAAGTTCTGAGCTCTAGACTAG
TAGCCAGAGGGGATAGTGGATGGAGGCAGTAGTGGGTACTTTGACGGATTAATCTTTCCATCTGTAATACCCCCTGAGCTGTCAAAGRGCAAGGATGATT
TATAAGTATTACTTTCTTTCAAAGACCAAACAGTCTACTCTTGCCTAAGTAATTCCTATTCCTCCTATAAACATAATGTCGACCCTACTCCTTATAAAAT
AATAATCCTGGCCATGTTGCTGCAAACATTTCTCTCCTGAGTTGTCCCTTTGAGATTCCTTTTCTTYGTATTCTTGAGTTAGTTCTGTCATTTTTCATAT
CTCATATMTTGTCCTTTCCTGGTTTTCACCCTCTTTTTCATGGGGTATATCYTTAAGTAAATTCCTCAGAAAGGGTTCACAAGAGGTGCATTTTCTGAGA
CTTTACATGTCTGAAAGTGTCTATCTTTTTGCCCTCACACATGYTTGGTCAGTTGACTGGGTAAAATTCTAGTTTATAAATCATTTTCTTCAGAGGTTTA
AAGCTTTGTTCCATTATCTTTGAACACTCACTGCTGATGGGAAGTCTTATGCCAGTTTGATTCTCGTTCCTTCACAGTTATGTCATTTTTTTTTYCCTCT
TTCTAGTAATTTGGAGGAATGCCTGTGTGTCTCTGGACTTCTTAGATACACAAAATTCCGTGATGGTGAATCTAAGAGKGATTCTCTTTGCATTCCTTTG
GCTCCCTTTCCATCTGAAGACTTGYGTCTCTCTTCAGCTCTGAGAAATTTTCATCTATGATAATTCCATCCCATCCACTTTTTGYGTTCTCTCTTTTTGG
AGCTCTGAACAGTTGGATGCTGGACCTTCTGTATTGRGGATTGATCCGTGTTTTCTGTCATTTTCTCTCATTTTCGGTCTCTTTTTTTTCTATATTCTGA
GAAATTTACTTTTCATCTCTAATCCTATAATGCTTATTTCGGCAATCATATTTTTCATTTCAAAGAGTTTGTCCTTGTTTTTTTTTTGTTTGTTTKTTTT
TCCTTCAGAGCACACTGATTTTATTTTATGAGTACCGTATGTCACCTTGACTTTCTCAAGATACTACTGATCAGAAGTTTAAAGATTGTGTATCTTCTGT
TTTCTAAATTAGCTCTGTTTCCTAAGGGGACATTTATTTTAAACTTTATCTTGGTTTGTCTTGTTCGCACTGCTGATTTTCTTCACATGTATAATGATCC
TTGATCGTATTTTAAAAGTAAGGGCCAGGTTGATTTTTCCAGCTATGAGATGTGGATTACGTTTGTTATTTTTATATACAGATATCTTGGTCCACAAAGT
CTCTCCTATCAGTGAGAGGTTGAGTTGAGTATGTGGCAGACCTGAGTAGGCAATGGGGCAGCCTTTAGGCCAAGAGACCATAAATCCTAGAATTAAAAGA
GCTTTCCTCTGGGATGCCAACTCCCACCATAACAGCCCTAATTCWTCCTAAGAGAGWTCCCCCTCAGTGGAAAAGAAAATTCTCTCTTTYGTTTGGAGAG
TAGATACTTGAATGTGTCTACACTGTGTTTGTGGGAACAGATGGCGGAGAACTGGTTTCACCCTGAGGCTCCCTCCCATATATTTTGAGCTACAGCTTCT
TTGCACTTCTATCTTTATTCCTTCTTCCAAACTTAAAAAAARAAGAAGAAAAAACTCTTCTGCTGATGATCCTCCCATTTTCTTTTTTATTATGAKACTT
TACCCTTTAATTAGTTTTTACTAATAAAAGGACCTTGGGAGGGGAGGAAGGATAAAAATAGTTTCTCAGAATACCATCYTAAAACAAATGCTCATGACAT
TGTTTTCCTTTTGCTAGCTCTTTCCTGTGGGCTTCCTGAGGCCCCCAAGAATGGAATGGTGTTTGGCAAGGAGTACACAGTGGGAACCAAGGCCRTGTAC
AGCTGCAGTGAAGGCTACCACCTCCAGGCAGGCGCTGAGGCCACTGCAGAGTGTCTGGACACAGGCCTATGGAGCAACCGCAATGTCCCACCACAGTGTG
TCCGTGAGTCCTCGGGCAATGGAGGCGGGTGTAAGGAAGGGCTAGGTAGGCAGCTGGAAAGATTCCTGCAAGGAGTGAGCTAAAAGCAAAGTAATGAGGG
GGRAAAAAAAAAAACATGGACATGGAGGTTGGRGGATTTCAGAAGAGGAGGCAGGTGCTGAAACTGCTCTCAGCATTGATAACCATTGTGCCCTAAGATG
TTTCCACAAACCACCATGGAACTTAGGAATGGCCTGGTCCACTCCCTTTTAGATGGAAAACCTGTCAGAAAGTTTGCATGAATGTCCCTTGATTCCAAAG
CTCTAAAAACAACAACTTTTAGGCCAGATCACAAAATGGCAACCTCCTCGACTATGTCCCATCCAAAGACAGAGGTTTTTGTTTTGTTTTGTTTTTTGGC
CTACACGGTGCTTTATAACAAATTTTGAATTACTCCRCAATCTTTTAAAATCAAGAAATTTTACATTAAAATCCAGATTTCTGTCTTCTCTTGAAAAATG
AAAATCTAATCAAATGCAACTCAAACATTCAATAGTCAACCTTGACTGAGTACTATTTCCCTTTTTTAATTTTTAATTTTTTAGCAGAACTGTACTCCCC
AGTTTGCCACATCCCCCACCCAACCCACCTGTTCATTTACCAAACCTGCCTGAGAACTGAAGATTCCTGGATTCTTCATTATTGCATTAAGGTCTCCAAG
TCCCTAGATCTGGGCTCTTACAAGGTCTTCCAGAATTAATCAAGTAATTAATCCTYCTTTCTTTTCCTCATTTCCCCAGCTGTGACTTGTCCTGATGTCA
GTAGCATCAGCGTGGAGCATGGCCGATGGAGGCTTATCTTTGAGACACAGTATCAGTTCCAGGCCCAGCTGATGCTCATCTGTGACCCTGGCTACTACTA
TACTGGCCAAAGGGTCATCCGCTGTCAGGCCAATGGCAAATGGAGCCTCGGGGACTCTACGCCCACCTGCCGAAGTAAGCCCAGGAAGGGAGGGTGGGCA
AGTTTAGCAGGGTCCCTCCTACCTAAGCTGTCTCATGCATGGAGTGAACTGGGGTGGGGGAAAAAGGGGTATCACCAGGGATTGCAGTGTACTGCTTTTT
AAACTCTCATCTAGTAGAATCAGGAGCTGGGAAAATGCCTACTCCTTTACTCCTTTAAGGAAGTATTTCTTAGCATCTTCTCATCTTATCAAAAGCTGCT
TTTGTCCAGATGAGCATGCACTAATTCATTTCTTTAATATTCTTAGGCTCTTACTATATGCCAGACACTGTAGAGGTTTGAAGATAAAAGATTTTGGTTC
CTGCCCACAAGGACTTTATAGTCTACTGGAGAGGCAGACACATAAAGAAGTGATGATAATGTGGTGCGATAAGACCTGAAATGGGAGTGTATATAGGAGG
AATGAGGGTAGCACAGGCGACAGGTCACCTAAACCTGCCTGCCTTCTCCATTGTCAATTGTTTTTCTTTGGTTCTTTAATACACTTTCAAAGGTCGGAAT
CTCTGGGAAGACACTCTGAGACAGAGGCTTATTAGGGGGTGCTCTTGAGAACACCACCTACAGAAGGGAAAGGAGGGAAGGAAGCAGGACTGGGCAGAAG
GAGAATTGAGCTCTGATGCAGTATCCATGAAAGCCTTAGCTCACCCCCCAGGGAGCTCTGGATGGCCCTTCAGAATTGTCACAAGTTGGAGCAAGGGAAC
TGTTATACTGCCACACTGACCAGCCACTGGATGCAGGCTGGCCTAGGAATGGGACATGACCTTCCTAGGTGGGAGGACTCCTCAACCACAGCAATCTGAA
AAGGGCTGCCAGCCAAGGGTTGTTTTCCAGCAGCTGGGGAAATAAGTCCCTCGGTCCTAAAAGGGGCTCTGAGTAGCTCATCGCAGCATGCACTACGATA
GGGATATGCTCATCATATTTATGTGACCAATGCAGATGTCACAGAGGAGGCAAGTGATTGTAAAGAGGTAGAAGGAAGTGGTCAGTGARAAGTGGGAGTT
TGAAACTGGGAAGGAGGAGAAATGGTGTCTTCCAATGCCTGTGATCCAGGTTGGGCATAGATCCCAGCATTTGAGAGGCTGAAGTGGGTGGATCACTTGA
GGTCAGGAGTTCGAGACCAGCCTGGCCGACATGGTGAAACCCTGTCTCTACTAAAAAAAAAAAAAAAAAATTAGCCAGCATGGTGGTGCCCACCTGTAAT
CCCAGCTACTTGGGAGGCTGAGGCAAAAGAATTGTTTGAACCTAGGAGGCAGAGGTTGCAGGGAGCCAAGACTGTGCCACTGCACTCCAGCCTGGACGAC
TGTGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAGCCAATGTCCGTGATTCATGACACTGTTGTCTTTGCACACTGTGGTGCAGACTGCACAGTGGG
ATGTAACCACATATGTGGCAGAGTAGTCCCAAGCGTTTGGCAGCCTCACTACAATGCAGCCACTCACATTTCAGTGCAGCCTTGGCGATTAGGCCTCACC
TCATACATCAGCCAGAGGCTCTCAGCAGTGCTCTGTTGACAAMGAGTGTGAGGCTGCTGGGCTCAGAAAAGAAGGGCAAGGAAATTGAWTAGCAGTGTCT
GCCCAGGGCACTCAGGAGCATACCACAGAATCGCCATCTCTTCCTAACCACAGTGCACATCTCAGCCACCTGAGGAGGATTAAAAAAATACACAGGCCAG
GGCSCTATCTGCAAAGCTGGTGAGTCAGGCACCTGCAGTGGAGCCGGGCATTTTAAATAACCTTCAGGGGCTTCTGGAGACACCTCCAGTTGAGGTGCCA
CATCACACAAGTCAGCAACACAACCCATATTCTGGTCAGGAATTCCAGCAGAGTAAGGTTAAACAGGTCTTATTTTTGTCACAGTTCTTGCTAAGCAGAA
GCAGCCATGTCCCTCCTCTTGGGGCTGGCTTACTGAGCATCTTGTGATCATTTTAGTCATCTCCTGTGGAGAGSKCCCGATTCCCCCCARTGGCCACCGC
ATCGGAACACTGTCTGTCTACGGGGCAACAGCCATCTTCTCCTGCAATTCCGGATACACACTGGTGGGCTCCAGGGTGCGTGAGTGCATGGCCAATGGGC
TCTGGAGTGGCTCTGAAGTCCGCTGCCTTGGTAAGTGACCTCTGCAGGCCTATCCTGCCCAGTTTTTCTCCTTGAGATAGATTAGATCTTTCCAAAGCTG
AGATCCAGTCTTTAAACAGTATCATTTCACCTATTGACATAAAATGCTTAATCCAAACACCAACTATTGGCCATCAGGCATGACTAAAACCCTGGAACAG
CTTCTCCTGGGCCACCCAAAAGAAGGAGAAGAACCTCAGATCTAAAGAGACAAGCTTTTGAGGGGTTCTCATTCTGGTTAGAAAGACAATCCCTTCCTAT
TGGCCTTTGTATAATGAGTGAAGCCCCAGTCTCCATTTTTGGCAAATTTGCAGAYGCATTCCTGTAACACACCTAAAATACCTTTTATATTATCTATTAG
CAAATTTTACAYACAACATATAGATCTATACATATATACTAAGCAAATTACAGAAACATAAAACAACCTGGCTTCCAAAGGACAAAGTTATCATTTCCTC
CATGGCTAATCCACTCCCTGGTTCTATGGTTCTGTCTCCTCTCACACCTTTCTTGGACCCCTGGAGTCTAAAAGAGGGCCCCAGCCACATAAACCTAATA
GGATAGATTGAATGGTCTGYCCTGGGGTGAACAGTGCTGTCTTGCCACTGTCTCAGGCCCATTAAGGACACAGTCACAGGTTATTTCCACAGAGAGCCAA
AGGAAGCTGGTAGAAATGCCAGGAATATATTCTACCCAAATCCCATATAATAAAAAGAATTCACCTAGGTGCTACTCAAGGAGAAGGAAGGAAAGATGAA
TTTAGCCAAACCATCTGTTTTTACATAGTTGTTTCAACACAGCCAGGTTTTGACTGCCTTAATGTAGACAATGGTGCCCTCCATGCAGCAGATGCTCGGT
GAAAAACAAGATGCCCAGGCTAGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCAAAGGCGGGTGGATCATTTGAGGCCAGGAGTTCGAG
ACCAGCCTGGCCAACATGGTGAAATCCATCTCTACTAAAAATACAAAAATTAGCTGGGTATGGTGGTGGATGCCTGTAGTCCCAGCTACTTGGGAGGCTA
AGGCAGGAGAATCCCTTGAACCTAGGAGGTGGACATTGCAGTGAGCCAAGATCGTGCCACTGCAGTCCAGCCTGGCAGACAGAGCAAGATCTTGTCTCAA
AAAAAAAAAAAAAAAAGATGCTCCTGAGTTTGAGTTTTTGGGGGCGTTTCTTGTTTGTTTGTTTGTTTTTTTATAGAAGGCTTTTTTGTATCTGGTTGGT
AAGAAAAAGTGGGGGATGATCCTGGGGACAGTGAGGTAACTGATCATTTTGCACACATCTGTGTAGAGACACAGAAACTGAAGCTCAGAAGTGAGTGGCC
ATTTGGGGTACAACCTTGGGATTTGGGGTGCCAAGTCCTCAACACTATTTTTGTCATGCTGAGGGTTCCTGAAGTCACTCCTAGATTGCTACTSTCAGGG
AGAGGTGGGAAAAGTAATGAGTTGTGGGATAGTTGGTCCTTTTCCCCACCATCCCTGTCTCTAGCCACTCAGACCAAGCTCCACTCCATTTTCTATAAGC
TCCTCTTCGATGTACTCTCTTCCCCATCCCTCACCAAAGCTGGACACTGTGGGACTCCTGAGCCCATTGTCAACGGACACATCAATGGGGAGAACTACAG
CTACCGGGGCAGTGTGGTGTACCAATGCAATGSTGGCTTCCGCCTGATCGGCATGTCTGTGCGCATCTGCCAGCAGGATCATCACTGGTCGGGCAAGACC
CCTTTCTGTGTGCGTAAGTATGTCATCCACTCTCCCTAGTCATGGGGCTCAGATTCAACATGGACTTTCTCCCTGTCTCTTAATTAGATTAGCTAGAGGT
TTGTTTTAAATATATATATATATATATGATTGCTATTTTTTTTTTCAAAACTGAAAGCATTGTTGATCTAATGTTTTCAGTTCTCTGCATCATTAATCAC
TGTTTTCACCTTTATTATTTCCTTCCTTGTGATTTCTTTTGGTTTACATTTTTGTTCATTTTCTAGCTTTTGAGTAGGAATTTAATTCATTTATTTTCAT
TCTTTCATTTCTATTGAGTTTTATTGCTATAAGTGCTTAAGACTATGAAATTTCCTCTGATCACTGCTTTAATTGTATCCTATAGAGTCTAATAATAAAT
GTTTATTATTTATTAGAAATTCTGTAATTTTGGTATTGATTTCCCCTTTTACATAGAAAATTTTTAATAGAAGGATTTGTTTCTAGGTGGAAGGCCCTTT
TTTTTCATTRTGTTATTCATTTCTAATTTTATTGCATTGTATGTAATATTTCTACTTCATGGAATTGACTGAAGCTTTCTTTGTGACCTAATAGTTGGTC
AGTTGTTATGAATGTCCCATGTGCACTTGAGAAGAAAGGATATTAGGATGTCATGTTTTATTTATATATTCATGAGATATATCTGATTGATTATGTTGTC
TATGTCCTTTACATTCTTACTTTTCACCCACTCAATCTGTTTTATTCTGAGAGATGTGTTTAAAGTTTTCTATTATTAGTGTGTTTCTRTTTTTCCTTGC
ACTTCCTGTAGTTTCTGTTCTATAAAGATGGTTGCTGTCTTATTTGGTGCATAGATATTCATAACTAGTATCTCCATTGCACATTGTGGTTTTTAGCCTT
TAAAGATTACTTTTTTGTCACTTTTAACATTTTTTAGCTAGAATTGTACTTTGCTTGATATTAGGCTTACAACCCCTGCTTTAATTCTTTTGCCTGATGC
ACCTTTGACCATTCTATTTTAGCCTTCTGCTTCTCTTAGGTGTGATTCTTGTATGCAGTATAAATTGCCTTATAAGCTAACTTAACCATCTTTTTCTTTT
AGTTGGTTAGTTAAACTCATTCACATATATTAATATGACTGATATGTTCGGTCTTAATTTTGCCGTCTCCCATTTCCCCCACTTCTCCACCCATGGTAAC
CACCATTCTGCTCTCTGTTTCTACGTATTTGACTTTTGGAATTATAATATTAGTTTAATTCTATTTTTCTTATAGGTTATTTGGTTGTTTTTTTTTTTGA
GGTTCCYGATTATTTTTCCCTTTATCCTAAAGTCTAATATTTTTACTAGGACATGCTTCAGAGTTAATTATTCCAAGACAATTTCCTTAGGTATTCTATG
GGTCTTTGAATATATAGATTCAGGTCTTTCTTTATTTCCAAAGACTTTTCTTGGATTATGGTTTTAAACACTGATATTGCTTTGTTTCCCACTGTTTTTT
TTTTCTTCTTCATCAGCTCTGATTATGTGTATGTTGAATCTTCTTTGCCTATCTTCTCTCTCAGCCTCTCTCTCATTATTTTCACCTCTTTATCTCATTT
TAATTCCCTTGGTTTTTTGCCTGACTTTCTTGAGTAACTCTTATTAAATTATCATTTGAGAATATTCTTTCTTGGGCCTCTTATAATTTAGTCTTCATTT
CTCAGATGGTTTTGTCTTTTTCTTTTATCTCTTTAAAGCATACAATCAGTTATCTTTTATATTCTTCCACCTTTTGTCCATTTGTGCTGTTTAGTTTTTG
ATTTTCTGATTTTCATGGTGGTTTTTAAAATATCTCCAGATGCTTATTTGAGAATATTTAGTTCAGTTTAGAATGCTGCTACATTTTTCTTACGCTTCAC
ATGTTTTGTTTTTGGTGAGGAGGTTTTCATCAGATGAAATTCTTGAATTCTTTTCTATTTTTTTCTTAAAGTAGCTTCGTATACATTTAGGTTGATGTCT
TCTATTCATTTTATGGCTTTAGTGTGGTTTAGTAGTACCCTCTTCTGTCAGTGTTACAAAGTCTTTCTCTCTGATTGTTTTTACTTCTTTATCTCATTTT
GATTATCTTGGATGTTTGCCTTTGTTTTGTTTATTTATTTTTTTTAATATAAGGTTTTGTGTGTGGTAAGGAAGAGGTTGTGTGTCCTTCATTTTTGTTT
GTTTGCGTGTTTTTCTTTTGTCTTGCAGAACCCCAGGTTTTCCCATCATTGCTTCTTATTCCCTTTATCACTCAGAGGATGTCACTTTCTTTTCTTCCAG
AAGCAATGAGGGAGAATCACACACACTTTTATGTCCCTTTTCTGTGGTTGTACATTGACATACCAAGATTTGTTTTCAGTATATTCATATATGAGATGGA
TTTTCTCCTTCTGGCAGTGATTTTAGATCAGTGTTAAGCCCTTCACCTGCTCCTCTCTTCTCTTTCTCATACAGTCTTGCTCTCCACAAAAGCTTGCAAC
AGAACCATGAGAAGTAACTCTGCCTGGGCTTAGTGTATATTTCTCTTACATGTAATTTAAAGTTTGTAGCACTCTCTGGCTTCTAGTTAGGCTGCAGGCC
TGGGTTTTCTATTATTTATTCTTCTGGTTAATCTGCATTTTTTTGATTTAGGCAATCACTGTTATGCTTAGCTGCCTGGAAGTAATTTGGRTAATTCTTC
ACTTTTTAAATTTCCCTAAAGTGAGCCTTTATGTAAAGTGCAAGTTTTCCTTCTTAATTTTTGTAAGGCAGTTTTTTTATTTTAATTCTTCTTTTGGCTT
TTTATATATGGGATGGGGCCATAAAATAATGAGAACTTCTCAAAAAACAATGCCTGAAATTAGTCTTAATAACTTCTTAAGGGTTACAGAAAGCAAGACC
CAAGCCAGATATTGTAGCTTGTGCTTGTAGTCCCAGCTATTCAGGAGGCTGAGGTCGGAGGATCCATTGAGCCTGGGAATTTGAAACAAGCCTGGGCAAC
ATAATGAGATCCCATCTCAAAAATAATAAAAAATAAAGWTCCATCTGTATTCAGTCACTCTTTCAGATGTGTCTAAATAAAACATGTTTAGTTTCACCCA
GAAGAACATGCAGATGCCCTCAGGAAATTGGTGCACGATGTATACAAAGAGATTTAGGTAATAAATAATAGAGACTGTCGGGGTCTGGGTGGAGAATGTC
TGCCTGGCCTAAAGACATTGAACGTTAGACTGGACCATATTCAAAGGCAGTGAGTGAAGTAGTTAGGCACTCAGGTGTGGACCCAGATTGCCTGGGTTTA
CATCTCAGCTCTACCATCAGATCTGCTGTGGCTATGTAACTCTAGGTAGGTCGATTTACCTCATTAGGTCTCAGTCTTGTCACCTGTAAAAAGCAGGCAC
CTCAAAGACTACTGGGAGCATTAAATAAATTAATACACATAAGATAGTTAGACCGGTGTCTGATCCAGATGTTAAGCAGCAGTTGCTGCTGCTGCTGCTG
CTGTTGTGTGATGATGATGATGATGAAGATGATGGTAGTGGTGGTAGTAATGCTGCCACCATCACATTACAGAATCCAGGATCTCTTACACTAAGGCCCA
TTCTCTCTTGGAGCACAGAGGTTTGGGAATTATCTGGAGGAGGAAAGCAAGAATAAAAGAACAAATATTTGTAAGTGTTTACTCTGTGCTAAGCACTGTG
TTAGCTGCCAGTACATACAAAGTCAAGGTTTCCAATGTCAACMAGACTCTCAAAATTTTCCAGCTGTCCTCTTCATTTCCTCAGTCAGTTCCCTTGCCCT
TTCTCCATACAGCTGTTTGACAATTCTGCCTCCTTTCTGAAGACTTATATTCCATYGCCCCTACCTACGTTCTCAGCAAATAACTAAGTTAAACAGTTAA
GATGGCCTGGAATCAGAGAAGCTGGGTTCAAAATTCAGATGAGACATTTAGAAACTGTGACCCTTGAACAAATATCTTGAGTCCTCTGAAATTCTGTTTT
CTGTGGGTATAGTGGTGGTGCCTACCTCATAGGGTTGTGAGGATTAAGTGAGACAATGACTGCGAGCCCCAACAATTGTTAGCTAATCATATAATATCAC
TTTCTATTCTGCAGAGATGATAGAAGCCATCAGAMAATAGCTTCTCCTACTTTCAGCTTCCCCACCCACACATCTGCTCTGTGTACATCCATCCTTGCCC
CTTCTCTCCCACCTCAGTAGAAGAATCTCTCTCCCAGCCCATGGTTAATCCCTCCACCAGTCTCTGGATCTCCTTCCCTCCTGCCTCCTTAGTGAGGTTA
GTCTATTCTTAATCCTCTCCTATGTTACCATGGACCTTCCCTTTCTGTTTCCCTCAGCTTCTAAGACCATATTCAATAAAGATTCCCTTAGCATCTACTA
TATGCCAGACCCTGTGTTAGGTGCTGAGGATCAACATGAATTGAATGTGTCATACATCATCTCTGCCCTTAGGAAACTAGGTCTAGTTGTCCTGAAATGT
GCTCAAAAGCCCATTAAGTGCTCAAGCCTCATCAGGACCTCTACTTTCCTCCTAATGATGCCTTATTCTTCTGCCCATGGCAGCCTGTATTAGTTCAGAG
TCCTCCAGAGAAACAGAACAAATAGGAGGTGTGTATAGAGAGAGAGTGCAATTTATTTTAAGGAACTGGCTCACACAATTGTGGAGGCTGGCAAGTCCAA
AATCACCAGCATAGGCTGGCAGGGTAGAGACCCAGGAAAGAATCACAGTTCAAGTCTGAAGGCAGGCTGCTAGCYGAATTCCCTCTTCTTCCAGGGATAG
CAGGCTGCCTTTTCTCTCAAGGCCTTCAACTGATTGGATGAGGCCCACCCACATTATGGAGGGCCTCATAATCTATTTCACTCAAAGCCTCCTGATTGAA
ATGTTATCTCATCTAAAACATACCCCTTCACAGAAACATCTAGAATAATGTGGACTAATGTTTGGCCATATGTCTAGGTATCACGGCCTAACCAAGCTGA
CACGTGAAGTTAACCATCACATGGCCATGCTGCTTGAGACGGTTGCCTACACTAATTGCCTCCACCTCTCCCCTCTCATTAGCAGCAAAGGCCACTTCTC
TGCTCTAGCCAGAAAGAACTTCCATCCCAGTCAACAGTATCTCTGGTCCTAGGCCATGTTCTAGAATGCTCAGAGCCTCTGCTACCCAAGAGCTGCAGAG
CAGGAATCTGAGAAGTGCCAGCCAAAGCTTCCAAGCAGCCAGAAAGCCTGGGACCTAAAGAGAGCAAGAAGAACTTATATGGGGGCACCAGAGATGACAC
CTGGTCGCAGCAGCTTCTTCTCCTGCTGATCCTGGTCCAGGGCCTGTGGCTTGGGAATATGTGGGAAGCAGTGGGTAAGAGCCTGAACCAGGCAGGGGAC
ACTTGCAAGTCACCAGTGGTCCTATTGATGAATCCGATGAACACATTTTCATCTTTATCTTATTTGATCTATCAGGGATATCTGACAATTCTTGAGGCTC
TTGGCTCTGTGACAACTACCCCCTCCTGTAGAGCTTTTTGCTTTACTACTTTTTTGATCACTCCTCAGTTTCCTATAGGTTTTTTCTTTTTTAACATCTG
CCCTTCAAAAAGTGGTATTCCCAAGGGTTTTAATCCTCAACATTCTTCTCTCTCTTTATATGAGTGATTTCCGCCTTCAGGGAAGGGGCATCACGACCTT
TTCCAAATCCGGTGAAAGTAATGGACCCTCTCCCGAGCTGGCTGCAAACACCCAGTGCCTTGCATATAATTTCAGGGGTTTACAGATGCTGCGATGCTTA
TCCCTGCTCTCCCACCACCTTCTTGACCTGGCGAAGCCCTACTCACCCTTGAGACCTAGATCAGACCTCATGCCACTCCCTGTGGGACCCTCTTTGACCC
ACTCTCTCCCCAGAGGAGGGTAAAAGCCACGGTCCACTGCGCTGGGCTCTATCTCAGCACCAGCCCACTGGGTTTAACAGCCGCTTCCCTGCCTGCCCTC
CTACAAGTCTGTAAAATGAGCTTCCTGAGGTCAGAGAACATTTTATATTCTTCTTTGTATATTCCACTCCATAGCAGAGTACCTAGCTCATAAAAGGCAC
TCAGTAGACATTTGATTATAAATAATTATGTGAATTGAATCTATTTTCAAAGCAACCCTGTGAAATGCATATCAAAATTCTTACTTTGCAGCTATAGAAA
CCAAGGCTCAAAGTGAATTATCCTTAGACCCAAAGTCAGGAAGGGGCAGAGCTGAGCCGAAATCCTGGTCTGCTGGCCTTCATAGCTCATTCTCATCTCA
CTATGCCAGGCTGCTTTGAACCCCTGTGGTCCACTAACAGCATGTCCCCTGCTCTTCCTGGCTCCCTCCACTGGAGTCAGGGTTGCTACTACTGAGATTT
ACAGAAGAGAACTAGCCCAGAAAACACCAGATCTGGCCACASCAAGGACTGGGTGCTTCCTCWTCTTACACCCCCGTCCCCATTATCACCATTTGGGTCT
TAGGTGGGATCCTCATGGATTTARGTATTGGRCAAAGAGAACATCCCTTATAGTTCCTAATCTTCCCACAAATTAAAACCCAGAACAAAGCGAGAGGCCT
GGCAAAAGCATCAGGTGGGAGTTCAACTCCATGAGACCAGGGTGCCAGGCTGGGACGAAATAGAACTAAGGACTAAGGATCAAAGCAGAAGCCTAGGCAT
CCATCCATTCATGCACTTACTCATTYGCTGATTCACTCAGCAAATATTTATCACACTCCTGCTGAATGTCAGGCACTGGTACATACACCAAGGATGCAGC
AATAAGCAAAACCAAGTCCCTGACCTCAAGGAGCTTGCATTCAGCTGAAGGGTGATAAGCAATAAACAAATACAGAAGTGCTGTGGTGTGTTGGTTGCTG
ACAGTGCTATGGAGAGAGGTTGAGCAGAGCAAGGGACCTGGCAGTACTGGCCATGCTGGCCAACTAGGGACTAAGGGAAGGCCTCACTGACATGGTTAAT
TTGAGGAGAGACCTGAGAAGAAGAGGGCAGGAGTTAAGGGATATCTGCAGGAACAATGTCCTAAGTAGAGAAAAAAGCAAGTGCAAAGGCCCTGAGGCAG
GAACTTGCTTTGTATATTCATGAAACCTCCAAGAGGCCAGTGCAGCCAAATAGAGTGAGCTATACCACTGGGAGAAAGGGGGAATCAGAGGGATGCAGGG
ATAAGCATGGTGGCCTGCAAATACCACATCCCTTTTCTCTTCCCTGCTCATGTCTGAACAAAATAGTAAAACAGACTGGTAGGTGGAGGCCCAAATATTA
CCTCGCTTACTAATAAAGGCTAAGTTGGAAAATGGAGCTTAATGTGACAGTCAGATGGAGGCTGCTACATGAACCCAGAATGAGATGGATTCACCCACCC
ACAGAGGCAACACTGCAGTGGGGCATGCAGCCCTGCAATGTTGGGGATAGCCTCCCTCCTCAACAGCTGAGAGCAGCCGAGAACATTGCTCCCTGCAGAC
ARCTAGGTCCCTAGAAAAAGAAGGGATGCTGAGCCAAACATGCCAGCTCATTACTCCCAAGTTGCACAGATCAAAGTGCACTAACTGAACTCCCTTGCCA
TGGAAGGAATTGGAGGTAGTGGGTTCTCTCCAAACAGCAGCTCTGCTTCCCCAGTTTACCTGGGCTATTGATCTAGCAGAGTGACTGAACTCTGCACCAG
TCTTGGTTAGTATTCACTCTGGTTCTACAAGGTTGGCTCAGGAATGAGGATGGGCCTAAACCAGCTGACAGTTGGCCATCAGTATACCCAGCAATTAAGA
ATGGATCTGGGGAGCCGAGGGCATCAGAGGCAAGGAAAGTAAGATAGCACTGACCGCTCAGACCACAGAGAACCACAGTCCAGTCCTAACACCCTATGGG
AAGTCATAGAATGATTGATCTCAAGTTGTCCAAGCTACAGACATATCTTCAAGGCAGACAGAATGTTCCCCTGACAATTTCAGTTTATAAAGGTTTTACA
GCAAAAGAGATTGAAGTTAGACTTAGGGCTGAACTTCACTGATGGCCTAAGAGATGCCAGGTGAGAGGTGGATAAATTCTGAGGGGTGTGGAATAGTAGG
AGGGCTTACCTATCTTCTGTTTTGGTTACAGCAATTACCTGTGGACACCCAGGCAACCCTGTCAACGGCCTCACYCAGGGTAACCAGTTTAACCTCAACG
ATGTGGTCAAGTTTGTTTGCAACCCTGGGTATATGGCTGAGGGGGCTGCTAGGTCCCAATGCCTGGCCAGCGGGCARTGGAGTGACATGCTGCCCACCTG
CAGAAGTGAGTCACCCTTTCTCTCCCAATCCAGTCCCCACCATCTCTGCTATATGTGGTTCTGTAGCTCAGAAAAAGAAGCCAGTGAATTCATTCTGGCA
TCATTCTGATCCASATAGGGAAGATGGAGCAGAGAAGGGTCATAAATGAGGACTTTCTCAACCCTTAGATAAAGAGCCACATAAAATTTCATCATCATGG
GTTATATAAGGAAAGCAAAACTTAAGTTTTATCTTTCAAGTCGTCTTTTTTACCTTTCATTGAACAAATAATGTATCATTATCTTATAAAGCCCCGTTAT
TTTTTAACAGAGGTTTATTTTTCTCACATAAACAAGARATCTAGAAGTAATATTATTTCTGCAGCTGCTCCACGAGATCAGGAGCAATATCTTGGTCTTT
CCTTGTGGTTGCAAAATGGCTGCTGCAGCTCCTTTGGAACCACTCTTAAGAGATCCCCATTCTTGATGAAAAAGCAGAGGGTTAAAAAGCAGAGAGCCTA
AGAGTTGAGATAAAGGGGGTGAGGGCTGGGGGAAAACACACAGAGAGGAAGCCAAAGACTCAAAAGGCAGAGAGAATACAGAATGTCCTGGCTCTATTTG
GAGTATTTAGGAAATAGCTTCTAACGCTTTTAGAGGCTTTTGACAGCAGTGAAGCCTCAGAGAGCCTCATCAAAAGTAAAAATCCTTAAAGGCTTATCAA
AGATTTTTAAAAAATACCTTCCTGCCCACTTCATATGATAAGTTTGAGACTCAGGTAAGATAATGGATTTGAAGATGTTTGGAAAGAAAAGTATAGTCAT
GGGTTATGAATAATGTTGTCATTATTCTAAAATCTTATCCTGATTTTGAGTTAAGCTGCTTTGGAAACACTTTTAAGATTTTAAAGTCAAATATATCCCC
CAGGATATTAATATGTCCCTGAAATACTCATAAAAGTGATTAAAACCATTTTCAAAAGAGCCCAACCCTGTTCAAGTCAGTTCAAATGCGTCAGTTTTAC
AATTGACAAGCTTTGCTGTGGGAGGCACATTGTGCTASGATCAGATATATGGAGACTAGACATTCATGCCCTCAAGGGACTCGTGTGTTCAAACAAGTCA
CAGCACAGGCTGGTAAAGTCAGCAAYAGCGATTTGTGCAAGGGAGTACCAGAAAGRGAGTAATCAATCTGGGAAGAGGTGGGAGGAGTTCTCTAAGGAGG
TGATGTCTAGCTGGACATGGAAGGATGACTCTTCTGACCAGGTAACCAAGGTGAGGGGAGAAGTCCAGCAACCTTGGGACCAGCTCACCCTCCCGACAGG
GTCTGCTTCATTGCCTAGTTTTGCTCGGARGATTTTACTATACTGGGAATCCATGCCTGTTTGGACTTCTGTTCAATTGCAGTCATCAACTGTACAGATC
CTGGACACCAAGAAAATAGTGTTCGTCAGGTCCACGCCAGCGGCCCGCACAGGTTCAGCTTCGGCACCACTGTGTCTTACCGGTGCAACCACGGCTTCTA
CCTCCTGGGCACCCCAGTGCTCAGCTGCCAGGGAGATGGCACATGGGACCGTCCCCGCCCCCAGTGTCTCTGTAAGTAGATGTCACCTGCTCAAAATGAC
TGATGGGGTGGCCCGTGTCAAAGAACAGTCCTCCCCTCTGTGCATGTGTGTRTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTGCACATGTATGAGTTGC
CTTATGGTGACAGTCACTCTGGCTACTCCTGGGATTTCAGATTCCTTCTTGAGCCTCTGTTGGGTGACTTCCATACCAATTTTTGTGTTCTCACTTTCCT
AGCTAGAGGCCTGGTCCCTTTCCTCTCTAGTTACCACCCTCTTCAGCTTACAGAGTTCCCTTTTTTCAGAACTGGCTGCCTCGCGGGACATCATCTCCCA
ACTTTACCTTTTCCTTGCCCTTCCAGAAACACAGCACATGAACCCCTTCCCTTTAAAGGACTGAAGCAGAGAGGTCACAGACTCTGGAGGCAGACCAACT
TGGACTGGAATTCTGGCTTTGCTACTGAACAAGTAGTGTGGTTTGGGAAAAATTCACTAACCTCTCAGAGCGTCAGTTTCTTCATCTATAAAAATGATGC
CAGTACCTATTCCATAGGGTTATTAGAGGATTAAAGGGGAAACAAAATCTATTAAAAGTCCCAGCATAGTATCTGGTACATAGTAGCTACTCAATAAACA
ATGACCACATTAATTATTGTTAGGAAAAGAATTGGGGACAACTGGTTTTTTAAAAGGGGTTGGGGAGGTGCTCAGAATCCTGATGTATTAGTCTGTTCTC
CCACTGCTATAAAGAACTGCCCAAGACTGGGTAATTTATAAAGGAAAGAGGTTTAATTGACTCACAGTTTCACAGGGCTGGGGAGGCCTCAGGAAACTTA
CAATCATGGTGGAAGGAGAAGCAAACATGTCCTTCTTCACATGGTGGCAGGGGAGAGAAGAATGAGCAAAGTTGGGGAAAAGCCCCGTATAAAACCATCA
GATCTTATGAAAACTCACTCACTATCATGAGAATAGCATGAAGGTAACTGCCCCCATGATTCAATTACCTCCCACCGGGTCTCTCCCACAACACGTGGAG
ATTATGGGAACTACAATTCAAGATGTGGTTTGGGTGGGGACACAGCCAAACCATATCACCTGACATCTGGTCCCTGGCCTTACACGTCCTTAAGAGAAGA
GCAACCCCTTGGTTTCCTGCTCTCCCCTCTGTTTCCTAAAGGTGAATCCACATAGATTTCTCTCTCCCCCATCTTCCAAGAAGCAAAGGTGAAGATGCAC
TCAAGAGGGAGTAATAGATATGCAGTTAAGGCCATGCAGCAGTCCACCTACCTTTGGCAGATTATATACATTTTGTAGGCCCTCCAGTCTGGACAACTGC
ATTTTTTTACGCCCTCGTGGCTGTAGGTCTAACAGGAGCCTGGTATAGCTGCTCACTGCTTGTATTTTCCTCGCTTGAGAACTCTGGCCTGGCCATCCAA
TCCCATTTATGACCAGCAAATAGTTTGGGGTCAGAAATGGACACCACCTGTGTACAGTGGTGCCAGCTGAGAGTCACAGCCCCTAGTGGACTCAAATTGT
TTTTTCTTCTAGTAAAATGCAGCTTTTATCATAATAAAGTGACCCTATCCATATTAACTTTTTGTCCCAATGCTTGTTTTCTCTAAAGTTAATTCAGTCA
CATATTCAGGCTCCTCTTCTAATTCTGGTTCTCTTGCTGCTCTAATTCTGGTTCTCTTGATGCTGCTTCAGTGGAGGAGWGAGATCCTCCAATGAAGTCT
TGAACCCATCAAAGTCATGCATGAGGGTTAGAATCAGCTTACTCCAAACTCCTGTKAATGTKGCTGTKGATATTACTAATAGGTATATATATTAATATAG
AGGCATACATTGGAGATATTGCAAGTCCAGTCCCAGACTACTGCAATAAAGCAMAAATCGCAATAAAATAAGTCACACAMATTTTTTAGTTTTCCAGTAT
AATCTAAGTGTGCAGTAGTATCATGTCAAAAAATATGCACACCTTAATTAAAAATACTTTATTGCTAAAAAATACTAACAATCATCTGAGCCCTTAGCAA
GTCATACTCTTCRCTGGTGGAGACTTTGCCTCAATGTTGATGACTGCAAACTGATCGGGGTGGTGAAGGCTGGTGTGGCTGTGGCAATTTCTTGAAATAA
GACAACAGTGAAGTCTGCCACATGGATTGACTCTTCCTTTCATGAAAGGTTTCTCTGTAGCGTATGCTGCTGTTTGATAGCATTTTACCTACACAGTATA
ATGCCTTTCAAAATTGCAGTCAGTCTTCTCAAATCCTGCTGCCACTTTATCAACTAACTTCATGTGAAGTTCTAAATCCTTTATTGCTGTTTCAACAATG
TTCACAGCATTTTCACCAAAAGTAGTTTCCTGATTCTTCTCAGGAAACCACTTTCTTTGCTCATCCACAAGAAGCAGCTTCTCATCTGTTTGAGATTGGT
CATGAGATTTCAGTAATTCAGTCACATCTTCAGGCTCCACTTCTAATTCTAGTTCTCTTGCTACTTTTACCACATCTGCAGTGRCCTCCTCCACTGAAGT
CTTGAACCCCTCCAAGTCATGTGTGAGGGGTGCAATCAGCTTTTTCCAAACTCCTGTTAATGTTGATATTTGGACCTCCTCCCATGAATCACAAATCTTC
TTAATGGCATCTAGAATGATTAATCCTTTCCAGAAGGTTTTCAATATACTCTGCCCAGATCCATCAGAGGAATACACTATCTGTGGAAGCTATAGCCTTA
TGAAATGTATTTCTTACATAATAAGACTTGAAAGTCAAAATTATTTCTTGATCCATGGGCTGCAGAATGGATGTTGTGTTAGCAGACATGGAAACAACAT
TCAATTCCTGTACATCTCCAGTTCTGATGTACAGGAGCTCTTCATCATTTAGCACTTGGCTGACCAGGTGCATTGTCAATGAGCAGTATTATTTTGAAAG
GAATCTCTTTTTTCTGAGCAGTAGGTCTCAACAGCGGGCTTAAAATGTTCAATAAACCATGCTATAAACAGATGCGCTGTCATCCAGGCTTTGTTGTTCC
ATTTATAGAGCACAAGCAGAGCAGATTTGGAATAATTCTTAAGGGCCCTAGGATTTTCAGAATGGGTAAATGAGCATTGGCTCCCAGTTAAAATCACCAG
CTGCATTCATCCCTAACAAGAGAGTCATTCAGTCTTTTGAAATTTTGAAGCCAGGCATTGACTTCTCTCTAGCTATGAAAGTCCTGGATGGCATCTTCTT
CAAATAGAAGGCTGTCGGTGGCTCATGCGTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACAAGATCAGGAGATTCAGACCATCCTGGCCA
ACATGGTGAAACCCCATCTCTACTAAAATACAAAAAAATTAGCCAGGCGTGGTGGTGTGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGGGAA
TTGCTTGAACCTGGGAGGTGGAGGAGGTTGCAGTGAGCTGAGATGGTGCCACTGTACTCCAGCCTGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAA
AAAAAAAAAAAAAAGGCTGTTTTTTCTACCTTTAAAATCTGTTGTTTAGAGTAGCCACCTTCATCAATTAGCTTAGCTAGATCTTCTGGATAACTTGCTA
TAGCTTCCACATCAGCACTTGCTGCTTCACCTTGTACTTTTATGTTATAGAAATGGCCTCTTTCCTTAAACGTCATAAGCCAACCTCTGCTTGCTTGTAC
TTTTCTTCTGCAGCTTCCTCAACTCTCTCAGCCTTCATAGAATTGAAGAGGGTCAGGGCCTTGCTCTGGATTAGGCTTTGGCTTAAGGGAATATTGTGGC
TGGTTTGATCTTCTGTCCAGATCTACCTACCTYCCATGGTAGGTGGATGCCAAGGACGATGCTAAACGTCCTACAATGCACAGGACAGCCCCCTACAATA
AAGACTTACTCAAACTTTCTCCATGTTGGCAATAAGGCTGTTTCATTTTCTTATTCATGTATTCACGGAAGCAGCCCTTCTAATTTCCTGCAGGAACTTT
TCCTTTGCATTCACAATTTCACTAATTGTTTGATTCAAGAGGCTTAGCTTTAGGGCTGTCTCAGCTTCCGACATGCCTTCCTCACTAAGCTTTTAATCAT
TCCTAGCTTTTGATTTAAAGTGAGAGACACAACTCTTCATTTCACTTGAACACTTAGAGGACATCATAGGGCTATTAACTGGCCTAATTTCAATATTGGT
GGGTCTCAGGGAATAGGGGCACTCAAGGAGAGGGAGATAGACAAGGAATGGCCAGTTGGTGTAGCAGTCAGAACACACACAACATTTATCAATTAAGTTC
TCCATTTTATGTGTGCATGRTTCATGGCGCCCCAAAACAATTACAATAGTGACATCAAAGATCACTGATCACAGATCACCATAACAGATGTAACAATAAT
GAAAACGTTTGAAATATTGTGAGAATTACCAAAATGTGATGCAGAGACATGAAGTGAGCACGTATTATTGGGAAAATGGTGCTGTTAGGCTTGCTCAACA
CAGGGTTACYAAAAACCTTTCATTTGTAAAAAAAACAACATCTGTAAAGCACACTAAAGCAAGACACAATAAAACTAGGTGTACCTGTAACTTATAACCA
GCTTCCTTCTTTTAGTATTGGCATGATTTTTTTATCATTTTATTTTTAACTGCTCTCTATGTAAAAAGCATGTAATTGTGATTTTTAAACCCTATCTGAC
AATCTTTTCTTTCAAGTGGAGGATTTWATCCATTTGCATTTTTTCTTTCTTTTTCTTAGTGAAATATAATTCACACACCATAAAATGCATTCTTTTAATG
TATACAATTCAGTGATTTTAGTGTATTCGCAAAGTTGTACAAGTATCATCACTGTCTAATTCCAGAACACTTTCATCATTCCCAAGCAGCCCTTAAAAGT
CACTCCCCATTGCCCACCCCACCCCAGCTTCTGGCAACCTCTAATGTACTTTTCTGTCTCTGTGGATTTACCTATTCTGGACATTTCATATAAATGGAAT
TATATGTGTGTCTTTTGTGTCTGGCTACTTCCACTTAACATAAAATTTTCAAAGTTCATCCACGTTTTAGCATATATCAATACTTTATTCCTTTTGGCCA
AATACTATTTCATGGYATGAATATACCACATCTTGTTTATGCATTCGACAATTGATAGATGAACTGGGACTATTATGAACATTTCCACTTTGGGACTATT
ATGTTTCCATTTTTTAGCTATTATGAATTATGCTGGTTTGAACATTTGTGTATAAGTTTTTGTGTGAACACGTTGTCAATTCTCTTGGGCATATACCTTG
GAGAGAAATTGCCAAGTCACATAGGAACTCTATATTTAACTTTTTGAGGAACTGCCAAACTGTTTTCCAAAGTGGTTGCACCATTTTCCGTTTCTACCAG
CAGTGTATAAGGATTACAATTTCTCCATATTCTTTCCTATGCTTGTTATTGTTCATCATTTTTATTATAACCATCCTAGTGGATGCAAAGTGCTATCTCA
TTGTAGTTTACATTTGCATTTCTCTAATGACGAATCGTGTTAAGCATATTTTTATGTGTTTACTGTGTAACAAATCATAGTGACTTAATGCAACAGCCAT
TTTCTTGCTTATGATTGGCAATTCTGGCAGGGTTTAGTAGAGACAGCTCATCTCTGCCCCACATGTTATTGGCTGTTGTGGCTCAGGTGGGCCTAGAAGA
TCCGAGATGGCCTCACTCATATCTTGGCACTGGCTGTCAGCTGGGGCATTGTGATTGTCCATGGTCCCTCCCCTCATATGAGTTCTTGTCATTCCGTAGT
CTCTGCCAAACTTCCTTACATGGTGGCATAGTACTCCAAACAGGGAAGGTAGAAGCTGCCAAGCCTCTTAGGATGTAACCTGGCTCAACATCACTTCCAC
CATGTTTTGTTATTCAAAGCAAGTCACAAGGCCAGCCTGATTCAAGGGGAGGGGAAAGGGGAAAAAGACTCCACTCCTTGATGGGAGGAATTGTTAGTAG
CAGCAGTCTTTGCAGATAATCTACCATAAGCATTTAGAACAATGTTTGACCCATATTAAGACCACATTGAGAAGTGAAGATACCTAAGACCCATTCTTAC
CATCCCAGTACCTACCAAAATTCATCATCAGGGTCAGCACTGGCCCAACCCAGGTTTTACCACTTGGTCACCTGTTGTGGTCTGCCTGTATGCTATGCCC
TGTGGGCTTTCTGGGTATGATGTCTACAGGGATCTCCTACCAGACTCCAAGACATTATCATCTCTCCTTGAACTACTGCAACAGCTCCCTCTTTCTTGTA
CCACCTGGTCCTTTCTCTACACAGTAGCCAGTATAATCTTGTTAAAATGTAAATCCGATCATATAACTCCAGTGGCTTCCCAAGATGCTCATAATAAAAT
CCAATTTTCATGCCATGATCTGGCTCATAGTGACCTCTCCACCCTTGTCTTCTTCCATTCTGTCCTGGCTCATTCCAGTCCCAGCATCCTTGGCTTCCTT
GCTGTCTCTCAAACACAGCAAACTCACTCTGGCCTCTGGCCCGTTATACCTGATGTTCCATCCCCAACAATACTCTTCTCCAAAATTTTGCATGGCTGGC
CTCTTCACATCATTCAAGTAACTTCTCAAAGTCACTTGATCTTCCCAAACACACGGAGTGTCTAGCACATGACAGGGACTCAATAAATGTGTGTTGAGTA
AATGAGAGAATCTTAGGATCAACCTGTGATCCTGTGACAAGACCAATGGGAAGACCAGCCCCAGTAATGTTGAAAGCATTACCCTTGCCTAGACATCTCA
ATTCTGGTGTTCTATCTTCTCACTTGTTTTCACAGCTATACTTCAGTATTTTAGTAAAGGGAACTTGCATACTGAGAGGGACAGGTTGGGGACAACTGAT
GAGGCAACTGTAAGATGCAGATGGAAAAGGGCTATAATTGGCTTTCATTCTGGAATCCTTGGCCAATGAAGACAATCTGAGGGTGACAGAGCTCCCATTT
TTGTCTTGTGTATACTCTGCRTACCACCTTCCTGCCCAGAGACATCATGAGTATGAGGAAATAGGGAGAGGTAAGCATAASAGGCAAGAGAGAAAACAAT
CTAATGTTATTGTATATCTGCTACATGCTGAGAAGGTATTATTCCTCATTTCATAGATATGGAAAACTGTCCCCTGAGTGGACATTGTCTGCCAACGCCA
GGTGGGCATGCCAGCAGGAAGTTTGCTTCAACAGATACCCTTGGGTTTCTCTTCTTCCCAGCCTCTTGCTTAAAGAAGCCTAGCATGGATTGTGTGATGG
TGAGCCATCCCTGTGCAGAGTCATTGAGATGTTTGCTTTTCCCCCACAGTGGTGTCCTGTGGCCATCCGGGCTCCCCGCCTCACTCCCAGATGTCTGGAG
ACAGTTATACTGTGGGAGCAGTGGTGCGGTACAGCTGCATCGGCAAGCGTACTCTGGTGGGAAACAGCACCCGCATGTGTGGGCTGGATGGACACTGGAC
TGGSTCCCTCCCTCACTGCTCAGGTATGGTGCATGGCATTGAGGAAAGAGCTCCAGTGGAATGCTTGACTGATGGGAGGTAGACGAGCCCCCAAGGTGTG
AGTGTGATTGATGGATGGGAGGGAATCAGACCTCAGAACCCTTATATCTACCCTAACAGGTAGAAAGCACAGCAAGACAAGGTCCCAATGGAGCTTCAGC
TTCTGGTGGGCTGAGCCCYGCCTTATCCCCTCAGTCAGCCCTGACCATGCCCAGGGATTGCAAAACTAGGAGGGGCACAACTTTTTAGGTCAACCTATGG
CCAGAGTCCTGTCCAGACACTTGATTTTATGAGTTCCTGGGGACAGTTCAAGTCTTCCTGTTGATCAGCTCAGGTCCAAGCCCACTCCTGTGTTCTTTTC
TTCTCTGTTTCAGACTCGTGCTCAGGTCCAAGCCCACTCCTGTGTTCTTTTCTTCTCTGTTTCAGACTCGTAGGCCCCAGCCTCCTTCCCTTTCTTATCA
CTGCCCCTCAACTTGTCCTATGTCCTGGCTACCTAGTGGGGTACAGTCTTCTTCTCTACTGCCTTGAAACGCCAGTCCCCAGACTTTTCCTGTTAAGTTC
CTTTTACTGCTAATGAGGACACTGACAGATGCTATCAAAATCGCAAATGTAGAGAACTGCCAAAGGTCCTATGTCCACAGTATCCAAACCAGAAATGAAT
GTGTAATGCCATATAGCAGAACAAAATTTTGCAAGTGAATTGTCCTGCCAATAGCAGAAACCACCAAGCTAAAATATTAGTGCCTTGCAGCTTTGTCTTC
TTTGAGGGGGACCTGCCTGGCCCTAGGAAGGGATTCCATGTTGCCTGCAAGAGGGAGCTGCTTGTGCAGCTTGATGTTCCTCGGAGGGCCCACCTTGGCA
TTGAAATTAACCCGTAACCCTTCCCATGCCAGATCCCTTCAGAGGAAAGGATCATGACCTCCTCCTAATACAGAAGCCTTCTCCTTGATGTAGGACCTTA
CCCATAAGATGTGCCACTGTTCTTGCAGTTTGACATTCCCAGATGAGCCTGCCTCCCAAAAGTTAGGTCACTGCCAGAATATTTAATGAGATATTCATTA
GATCTCTCCAGAAAGAAAAGAGTCCCAAAGCCACTATTTCAAAGGGCTGTTGGTTGCCCAGGAAATCCCAGACACATCACTCTATATGACCACCCAGGAC
TTTGGCCTCTCACCCCTATTAATCTCATTAAACACCTAATTAAGGAACYGGGCAGGACTATATAGGAGCCATGATGACTCATTTAGCTGGGCTAGAGGAA
GGCCTATTAACTGTGCCCTGGCTTCTTTCTGTTTGGACATCTGGTAGAAGTGATAGGCAATACAGCATGAGAGGACAAGGGTCATGTACATTGCCTCTCC
AGCCTCCCTGGAGCTCTCTGAAAACAGAATTAGAAGGAATTCAATGTACGCAAAGGCTAGACAATGAGTGAACCTTAAATCCCTTGGATGAGAACATAAG
GGATGAGAAGAATAGGCAATTAGGAAGTAACATTAGGTATATACCACAGATATAGAGATAGTTCCTCCCTTCCTGAAACAATGTCGTCTTTTGCAGTGGC
ATCTCCTGCCAGTCCTATGAAATACACATTCATGAATTCCAGGTCAAAGTTTTTAGTCTCATTGTKTGCAAGCAGTGGACCCAACTGTTGCACAACAAAA
CCTCTTAAGTCCTTGAGTCATACACCACTGGGCCACCAAGGCTATGGAGAGATTTCTGGAGTTTGAGACCTACTTCAAGARGTTCACCACCCACATCTCC
ACTGTCATTCTCTTTGCCTCTTCGGTAAATAGTTGCCATCTATCTACTCTGCCCCCATGGTGCAATATCCTGTCCAGACTCCCTTCCATCACTGAACTAG
AAGCCTCCAATACTGTAGTGGGGGCCATTCTTTCAGAAAAAGCCCCTAGGACTGAACACCATTGTATTAGTCTGTTCTCATACTGCCAAAAGACATACCT
GAGCCTGGTAATTTATAAACAACAGAGGTTTGATCAACTCACAGTTCTGCAGGCTGTACAGGCTTCTGCCTCTGGGAAGGTCTCAGGAAACTTACAATCA
TGGCAGAAGGGGAAGCAGGCACATCTTCACACGGCTGTCAGGAGAGGGAGAGCAAAGTGCAACACACTTTCAAACAACCAGATCTCATGAGAACTCACTC
ACTATCACGAGAACAGCAAGGGGGAAATCCACCCCATGATCCAATCACCTCTCACCAGGTCTCTTCCCCAACCTGGGGATTACAATTCAACATGAGATTT
GAATGGGGACACAGAGCCAAACCACGTTAACCATCTTGTGCCTATTTTACAATAGTGCTAGCTCCAGCTGAGGTTAGCTAGCCAGTGTGTGGGTTAGAGC
TGCTCACCATCAAGATTGTTTCCAGGGAGACCCAGTTCTGCCTGTTGTGTGAATTACATCCTGGCAACCTTCAAAAGATAAGAAAACCTAGCCAAATGCG
ATRAGCTCTCTTTTATTAATGTTTACATTGAAGGTTGAAAATGAATCCCTCTTCCACRGTGGGAAACAGAATGGAGAACATGTGGTTAGGTAGTGTCTCA
CAGTCTGAGTCGAGACTAGGAAAGGGAATAATCCCAAGGTTGAGAAGTGGAARAGACATAAATGGCAAGTGGTGGGGTACACATGACTTAAACATTTATT
GGCTCCAGCCAACTAGATGTGGTCACTCAGATGTTACCATTTGATGCCCACACATGGTTACATGAGGAGATAGATTCCATGATAGTTGTAACTTTATCTT
TTCATGCAGTTGTCATTTATTCGGTAATTGTTCTCCTCTTTCCTCATGTTTACCATGGCCTGGTCTGATCTAAGGACATCTCCTACACATTTCTGTATCA
TGAAATGTGTTGGCCCTGCAGGGGACCATAGATCTTGTGGCTTTGTCTCCTGTTCTCTACCTTTCTTCGCCCCTTGGGTCCTTGGAGGTCTCTTGAGTGG
GTTTGCACAATACCAGAAGCCAGAGAAATGTAGGAATGTAGCAAGAGGAAGGGGGTGAAGCAAAAATGAAATGAGAGGGTCTGAGATGTTTATTCTAGAG
CTCACTTGTATGGCATAATTTGTGAGTAGGGAATCCTTAATGAAAGGCCCAGCATCGATCACCTTGAATATTTATCATTTCTTTGTGGTGAGAACATTTA
AAATTCTCTCCTACAGCTACTTGGAAATATACAATACATGCATCAAAACATCACTTCCTACCCCATAAATATGTRCAATGATTATTTGTCAATTAAAGAT
AAAATGAAACTTTTTAAAAAGTAATAAATAAATAAATAAATGCCCAAGATCAAGATTCAAGCTAGGCGGTTAAGAAATGAAGCTATGCTAAGCAGTTTGG
ACTTTATCCTATGGCATCGGGGAGCCAGTAAAGATGTTTCTGCAGGAAAAAATTTTTTGAAAAAAAAAAAGGTCAGATGGTTAGTGATTGTTAAGATTAG
AGGACAAAGTAGAAGATGGATTAGAGGGAGAGTTTACAAGGAGGGGACATTAGTCGGGAGGCTCTTGCAAGAGTTCAGGCAAAAGAATGTTGAATGTCTA
AGCTAAGACAGTGGCACAGGAGAGGAGATGGGACTACAGAATCAGCAGGTGTTTGTAGAGAAGAGGGGAAGGGGAGAAGGAGGACCTGTGGCCAGTTTGG
ATCACTGAAATTCCAGACTGGCACGGGCCACAGAGCCTTTCCTCTGCCTTCTTGCTTCCCCTCCCTGTGTGGTTCCCAGGGACTTACCCATGGCCTCAGA
TCTTTGTGTTCTTCCACCATTGCATATGGAGGCAGGAGCRTGTGCAGGTAACTTGTGCTAGGCCTCATTCGTGGGACCCACTGCATCCCCTTAGTCCCAT
CCCAGTATCTTTCTCCCCTGCTTCTCCACTCCCTTTTCTTCCCTGAAAAATAATGGGATTTGTGTGGTTCTGGTCCATAGGAACCAGCGTGGGAGTTTGC
GGTGACCCTGGGATCCCGGCTCATGGCATCCGTTTGGGGGACAGCTTTGATCCAGGCACTGTGATGCGCTTCAGCTGTGAAGCTGGCCACGTGCTCCGGG
GATCGTCMGAGCGCACCTGTCAAGCCAATGGCTCGTGGAGCGGCTCGCAGCCTGAGTGTGGAGGTAATGTATGTGACCATTCTGCTTCTCCCCTTTGCCC
AGCCCCAGAGCTCGCCCCTGCTCCTGCTSTTATTCCCAGGCACCTGCGCTCACAGAAAAAAACCGTRGCCCCATTTGAACCCTCAGCCTGGCTGATAGGA
CTGCAACAGATAATTCATGTGCATTTTCATTAGTAATCAAAAGACAAACATATTCCCACTCTCACCTCAAAAGGGAAGAAATCAAAAAAGACTGAATTTG
ACCCACTATTTCATTCATTTCCCATATAGTTTCATTCAGCATCTATGTGCCAAGTGCTGTGGAATGTGCTGGGGACACAATGGTGACCAAGACGGACACT
GCCATGGTCTGGATATTTGTGACCTCCCAAAAATCATATGTTGAAACCTGGTCACCCAGTGATAGTATTAGGAAGTGGGGTCTTGGGAAGTTGTTAGGTC
ATGGAATGGGATTAATGCTCTTATAGAGAAAAGAAAATACCTTAGAAYGCTCCCTTTCCCTTGTGCCATGTGAAGACACAGCAAGAAGGCACCATGTCCA
AGCCTGAACAGACGGAGACACACATCTTGATCTCCTGGGGCTTACAGTCTAAGGGAAGAGACTACGTGAAACAAATATTCAATGTGCCAAAAGATATACA
AATCCAATTTTAGAAAACTCTCAAAGTAATCTAGGCCCTCAGTGATGTTGCCTGAGGTAGCACCAATGGGAGAAATTATCATTTTTCCATATATTCCTAA
GTTTCTGGGGAAAATGTATATTTTTAAATCTCTCTCTCCTCTTGCAGTTGGTCCCCAAATCTCTCTGTCTCTCTCTTTCTAAAATACAGCTTGCATAGTA
CTCTCCTAGGCAGGAAGCAGGCTTAACAGATGAGAGTAAGTTTGAGTGAGAAGATCTGGAAGAGGAAGGAGATAATCATTTAGCAAGATACAAGTGGAAT
GGAATTGGGAAGTGTGTAATGGCCAGGCAGCACTGAGCGCTCACTTAAGGTGGGGGGATCATTAATTTAAAGTGAGAGCAGTCAGCATGGGACCATGTTT
TTGTTCAAGCTCATTTTGCTACCTAGTTGTGGGCACAGAGCAGACAGTGCATTGGGTACAGAGCTGGAGATTTGACAGGCAACTAAGACATTGGCAGAAG
TGGCAAGGGAAAAGAGGGTGAATGTGAGGCAGAGATTATATGTGTATATATATATATATATATATAAATGCACAGTGGTCAAGTCAGGGCATTTACAGTG
TCCATCACTCAAGTACAATACATTTTTGACTATAGTCTCCCTACTCTGCTATCAAGCATTGAACTTATTTTTTCTTTCTAACTGCATGTCCATGCCCTTT
AACCCACTTCTCTTCATCCTCCCCCTCCCCTGACTCACCCTTCCCAGGCTCTATTATCTGTTTTTCCACTCTCTACCTCCACGTGAWCCCCATGTATTTT
CAATTTAAGAAGTTATTTTCACAGCTCTAACTCTAAAAGTCTAGAATCAATGACCAGATCAGTGGCAATGAGTACTCTTACTGCCTGGATTGTGGTCCAT
TCTCCATTAAAAGAAACTAGACTCTCTGGAGAAATGGCTAATTCCCGGGCTGGTGCAGGAAATATACAAGACAAATATGGAGGCCGGGCGCGGTGGCTCA
CGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGGTCGAGACCATCCTGGCTAATACGGTGAAACCCCGTCTCTACTA
AAAATACAAAAAAAAAAAAAAAAAATTAGCCGGTCGTGGTAGCAGGCGCCTGTAGTCCCAGGTACTCGGGAGGTTGAGGCAGGACAATGGCATGAACCYG
GGAGGCGGAGCTTGCAGTGAGCCAAGATAGCGCCACTGCAGTTCAGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGACAA
ATWTGGAACATCTTGTCACTCCAGCGAGGATTCCACCAAAGATAACTGAGGTCATGTTAACTGGACTCAGGAGCCAACTAGAAGAGGCTCCTATTGGCTA
AAGATGGAGAATCTGAGCATCAATAAGAATAATAATGGCAATGGATGGGAACATAAAAAATATCTTTAGATCCATGAGTTCAAAATGATTCTTAAATAAA
CACATTGGTCACCTTTGGAGTTTGCTAGGAAACCAACTCATTATTCTGACATTTGATTTAAAATAAAAACCACACACAAAAAATCAAGCATTATCTGGCG
TTCCTATATGAACAGTATTTCAGGGTAAGCAAATATTTGATGATAGAAAATGTCTTTCCTAAAGAACTCTAGCTAATGCAGAAAGAAGGATAGAATTAGA
ATATCACCACTTTCCAATCCCTAATGAAATAATGAATCTGGTCAATGACTGCTAAAACTATTAAATGAAAAACTTCATAATGGAAACTTCATAATGCCAC
ATTAGGCAGGCATGCCCGAAATCACTGATGAGCCTCAACATCATGAACAAGAAAACACCCAGACATTCTTTGCTTCTTATCCAATGCAATAGGAGAGGCC
CAAAACCACCTATGAATACCATTGCCAAAAGGCGGAACTTGATTACAGGAAGGAACTACAGGGGATAGAGGAATATGTTAAACTATATCTCATTGATGCA
GTTAGCAAAATCCAGAAAGTGTGAAGTTCTATAGGACAGATGTTCTGGTTTCTGTAACAAATAAATTATAGAAGCAGAAATAATCATCTCTGGGTTCAAA
GTCTTAGAGACGTGTCAACCAAATGTCATGTGTGGACCCTATTTGGATCCTGATTCAAACAAATCAACTGTTAAAAAAAGAGAAAAACAACTGAGGAAAA
TCAAGCACTGATTGGATATTTGGTGATATTAAGCAATTGTGTTTAAAATTTTAAGGACGATAATAGAATAGATCATCTTTTTTCTGTAAAAAACTGGAAT
TTGCTCAGAAATTTCAAAAGATTCATAGGGGTSTCTCCTTCCTGTCTAGGGGCAAGATAATTCGATACAAAAGCAGCATGAGAGGCATTTCTATCCACGA
GGTCCCGAGGTAGCATGTGGCTTCCACTCTGGGCAGTTATCAGTCCCCTAGGTGATACCCACCATTGTTCTGGTGAATAATGTGTATTTTTGTCTTCCTA
GTGATCTCTTGTGGGAACCCTGGGACTCCAAGTAATGCCCGAGTTGTGTTCAGTGATGGCCTGGTTTTCTCCAGCTCTATCGTCTATGAGTGCCGGGAAG
GATACTACGCCACAGGCCTGCTCAGCCGTCACTGCTCGGTCAATGGTACCTGGACAGGCAGTGACCCTGAGTGCCTCGGTGAGAGCTCAGGCCCTACGGG
YTCCATGGCCAACAGTGGCCCAGATCCTGCATGCCAGAGGAGAAGGCTATCCATGGAAGATGGTGCAGAATGGTTGGGATGGTCGGACTTGAACCTGAAC
GATAATCATATGAATAGCCTCTGTTGAGCATATGCTATGTGGCAGCCACTGAGCGAAGTACTTTATTTCATATGCACATTTCATTTGATCTTCACCATAA
CTCCGTAACTCCGTGAAGTAGCTACTATTATCCCCATTTTGTATATGAGATGGCTGAGGCTCAGAGAGGCAGAGAATATATGTTGGCCATTTCTCAGGCT
CTAGCCAATTCCTTGGGCTTTCCCTTTTATCTCTTAGAATCAAACCCCAGAGCTCAACCTGATTCTCTTTTCACTTCAAAGATGCAGCTATCTGCCATCT
TTGTTGCTTCGYTCTGTCCTTGTACCCGACCCCACCCAGTACGGGTTCCTGAGCACGGTGTAGCCTCACAGCTCCAATTTCTTGCTTCTCTCAAGGGTAG
TCCCAGTTCTTTTCTGGGAAAAGTGAGTCACTGTGGGATCCAGATGGAGGGAAGAGATAGGATGAGGAAATGTGACAAGATTCTCCCTGTCAAAGTCCTA
GTCTGTGATTTCGACTCCCTCTGAAATCCCGTGTCAAGTTCACTTTGGTTTTGAGACCAGAGCTCACCAAGCCCCACCCTCAATGATATGATGACATAGG
CATGACCCTTTCATGGGCCATAAGACCCTGCTTCCAGGCTGTTGTCCCTAGGAGTCCTGTGTAGGTGCTGTTGGGCCTACAGAGGCCTCSTAGGTACAAC
AGCAGGTGATAAGATGTACCCCTCAGCAGACAAATCAATTGTCTCATGTGGTTCATTAATATACCTTAGGTTCTTCAAACAGAAAACTCCCTTTCCCTGG
GTCCTAGCCTCATTTAGGAACTGAGCCCTCTGGATACTTCCTCTTASAGGGGGCACTTTGAATAAGGTGAATCTTCATAGCCCAAGTTGCAGCGGTGCAT
AAGSACAGTGTGGGCAAGSACAGGACTGATGCCAGGKATTTGACMAAACAAAATTTAAAATGGGCAAGCTGGGTGTGGTGGCTCATGCCTGTAGTCCCAG
CTACTCAGAAGGCTGAGGTGGGAGGATTGCATGAGCCCASGAGTTCGAGGCTGCAGTGAGCCATGACTGTGCCTCTGCACTCCAGCCTGGGTGACAGAGT
RAGACCCTGACTTAAAAAAAAAGAAATTTAGAATGGGTAATGTCCAACTGGGATCCTGTGAGGAGACAGGGCATCCCTGATCTGACAGTTTCCCTTCTTG
GATGCATGCASGGAGTGATAGGGATGGTATTGGAGGAGAAGTGGGGTCCTGGCCAGGAGTGAACAATGCTATATCTCTCTTATCCTAGTCATAAACTGTG
GTGACCCTGGGATTCCAGCCAATGGCCTTCGGCTGGGCAATGACTTCAGGTACAACAAAACTGTGACATATCAGTGTGTCCCTGGCTATATGATGGAGTC
ACATAGAGTATCTGTGCTGAGCTGCACCAAGGACCGGACATGGAATGGAACCAAGCCCGTCTGCAAAGGTGTGTCTGGGGCTGCAAATGTGGACAGAGAG
CCAAAGAAGATACAAAAGTGAGATGTAGGCCCTGAGCATCTCTCTAGAAGGGAGAGGGGTGAAAGGCCAGCCCTAACATCTTATCAGGGGATGTGCAAGS
TGAGAAAACTGGCCCCTGAACATCTGCCAGGAGTGAATCAGAAGTACCAAAATAAGGCCTGGGCCATGAACATTGAGGGGAGGGTCCCGCAAACAGAGGA
CTGGGTTGTCACACTTGAGAGAGGGCATTGTAAGGTGCAAAAAGATCAGAACTCCCACAGTAAGAGGGCCCCATTCTGGTTCTTCCTGTTTAGCCCAGGC
TCTAGGTGGGTGCAGGGTAGTCGGTGATATCAATGATGGTGACGGGGGCTGGTTTCCCAGGACAGCATCAGAACTCAGCCTGCTTTGGTCTCCCTCCAGC
TCTCATGTGCAAGCCACCTCCGCTCATCCCCAATGGGAAGGTGGTGGGGTCTGACTTCATGTGGGGCTCAAGTGTGACTTATGCCTGCCTGGAGGGGTAC
CAGCTCTCCCTGCCCGCRGTGTTCACCTGTGAGGGAAATGGGTCCTGGACCGGAGAGCTGCCTCAGTGTTTCCGTAAGTTGCTTACAAGGGCCTTTGGTG
CATCCTCTTCAATAGCTCCTTCCCCTTGCCTCCTCGGAGCTTTGTGGCTGGAAGGCCCAGAATAGGTAGTCCCCTCCCCAAAACCAGGGAGGAGCTTCAT
CAAAGACACTATTAAAGAGGGAAGGAAGTGGAAAGGAAGAAAATGAGGATCCCTTAATTGAGCCCTGGTGTCAGATACTGTCTATGGTAACAGAAGGAAA
TTAAGCTAGAGATATTGGGGGTGTTTTTTTTTTTACCTGAAGGGTTGTTAACTGTATGGAATAGTACTCCAAGATCTGAGGGTTCCCAGTGCTATATACA
TGTCTGTTTTCATGAAAAATGACCTGCACAGAAAAGACTTCTGGGAAACCTGTGATTTTCTGGTGAGTTGCTTTATTTTTTATMCACCTGGCCCAGTTGT
ATCCTGAGGAGCCCCAAATCTATTCCAGGGCTTACTCTTTACTGAGATCCCCAGTAAGCAGGTTCTGGGTCACTTATTCTTGTCACACCCTGTGAATGGG
CTCTGGAAGGTTTTCTCCATGCCCGTGCTTTGGGCAAACAGTAGGACGTATTTTTCTAATTGCCATTTATCTAATTCTGCAGAAAACTATCCACATACTC
ATGATACTGTTTTGGGTTCCTCTGAAAATTTGCTTCCATCTGGGGATTTCCTCAGAGATTAGGGCCAGCAGCTCAAAACTGGACACAGGTATTTGGTGCA
ATGTTACCCTTTCCAACCTTCACATACTACCAGGGTCAAGTCTGGACTCAGCCACCTTGCTTTTCCTCTGGAGAAATAGCTGAAGTGCCTTTTAACAATG
AATTATGGTCATCATGAAAAAAATTTTACCCATTAGAAAATACAAAAAAGAAAGTAAAAGTCATCTGAACTCACACTTTCCAATGATAACCACAGTTCAG
CTTTTGATGGTGTCCCGTGTGAATCACTGTGCATTTTTGAATAGATAGTGATATGTATACATTTTCTAGAACTGGTATTGGCTCATGCTGTRCATACTGT
TTCATAACTTGTATTCACTGATAGGCCACCAAAACCTTTCCATCAATACCTTTCTACCTTTCTTTATCAATATTTACTGATCTATGCATCATCATTTTTA
ATGGCTTTAAAGAATTTCCTTGTAGATACAAGTTATTTAATCTTTTTGCACTGGTGATGAATTTAGATTATCTCCAACTTAATCAYGTTAGAAGCAGTTC
TGCAATATGTATTCCTGAAAATTGCCTTTCTTGGCCGGGTGAGGTGACTCATGCCCATAATCTCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGG
TCAGGAGATTGAGACCGTCCTGGCTAACAAGGTGAAACCCTGTCTGTAATAAAAATACAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCACC
TACTCGGGAGGTTGGGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCAAGATCGCACCCCTGCACTCCAGCCTGGGCGACAGAGTG
AGACTCCATCTCAAAAAAAAAAATGCCTTTCTTTACTCCTGCAGCAAAGCCCTAKGCATGAGAATGCTGGGCCGAGGGCAGTCATGCCTCCCTTCTTGAC
ATATGTTGTCAAACTGTCTTCTAGAAACTGTCCCAATTTACATTCCCCACAGCAGTTAATGAGAATGTTTCTGGATGCACACCCTCATCAATAATGGATT
GTGCCAGTATTTTTAAATATTTACCAGCCTGAGGAGCTTTAAAAGATCGCTCATTACTTTAATTGGCATCACATTGCTTATGAGAAAGGCCACGCTGGTT
GCTCTTCACTTGTCAGCCGTTTGTGTTTCTGGTTCTTTCAGTTGCCTCCTTCTGGATACAGTAACTTCCCATCAATCGATTCTTAAACTGACTTCTAATT
GGTCAGCATAGACACCCCAACCTTCAGGGCAGAGGATGCAGGTCCAGCTTCATTTTATTTTGCATGTGGTTATGTATCTCATGACTCCATATACACATAC
ACACAGACACACACACACACACGCACACGCACACACATTTGCATCATAGCATAAAGCAATGCTTGAAGTGACATCGTGGTGAGCTTTGCCTTTGGTAGTC
AATTTTTAATGGCACTGCCTGATGTTAACATGGCCTGAATGAAATGGGTACACCCATGCACTACCCACCGCAGTGTAAATGTGTACCCTTTGGGGAAAGA
CATTTGACACTACCCATCAAGAGCTGTGGATGTGTTCAGCCCTTTAAAAATAATAAGTTCACTCCTAGAGAATTCTCCTAAGAAAGTAATACATGTGAAA
AGAAAAAACAAAAAAGAAAACAAAACAGGTGAAAGAAGAGTTATATATAACTGTATAATAGAAAATGCCCAATATAAGGATTATGATAAAATATAATTAT
GGTACAACCACCTGTTGCTAATTGTGTAGCCAATAAGCGATGATGATGTCATAAACATAGGAAATATTTACAAGATAATGCTAAGTGAATGAAACAAGAT
TTACGATCACATAGGCTTGGGTTTGCCGCTCCGCACAAGTTTCCATACAACTGAACAAAGATTGGAAAAGAATGTGCGTGAAAATGGAAAAAAAGTTTTG
AATAGTGGGATTTTCGTTTATTTCTCTTTCATGTTCTAAACTTCCTGTAATGTTACTCCATTACTTGGATCATTATTAATAGGCACTTTGAATGTAGAAG
GGAGAGGAAGCCCCCATCAGCAGCAGCACYGCAGCAGGTGGAAGCACCTACCTGGGGCTGCCCCGGTTCCCAGAGTTCAAGCTCAACCAGGAAGGGAGCA
GTGCAAAGAACAAAGATGGGGGTGTGGGACTGGAAGATTGGGTTCTGGAAAGCAACTTAGACCTGCCTTTCTCCCTTCGTCTTCCCAGCTGTGTTCTGCG
GGGATCCTGGTGTCCCGTCCCGTGGGAGGAGAGAGGACCGAGGCTTCTCCTACAGGTCATCTGTCTCCTTCTCCTGCCATCCCCCTCTGGTGCTGGTGGG
CTCTCCACGCAGGTTTTGCCAGTCAGATGGGACATGGAGTGGCACCCAGCCCAGCTGCATAGGTGAGAGGTCATCTGGAGCAGGGAGCGTCTTGGCTGGG
GTTGCGGGAGACCTTCTTTTGGGCCTGAGATGATTACTTTCCTTCCCTGTCTTCAGTGGTCTCATCTGCAAAAGGGAACATCTCATCCTCTGAGCTTCTG
CAGCAGGATGTAAAATAGCCAGAGCTAGTGTGCTTCGAGGAGTCAAATAGACAGCCAGGGCCAAGGCTCAGGTGGGGATCTCAGTGGGCAGGGAAGTCAG
GATGTGGCCGCATTTTCTTTTCTACACCTATTTCCCAGAGTGAGATGAGGCCGTGAAGGCTTCCATGACCATGTGATCTGTGTCTTTGTTTTGGCCATCC
AGATCCGACCCTGACCACGTGTGCGGACCCTGGTGTGCCACAGTTTGGGATACAGAACAATTCTCAGGGCTACCAGGTAAGGAGGTCAGCCAAGATAGGG
TCTTCCTACATCCTATCCCTTCTTGTCACTGTCAACATAAGAGGACCCAGAGACCTTCCTCAGGACAGCACTCAGGGAGGACAAGAGCTTGGAAAGCGCA
GAAAGAAAGCCCTCTGCCTCTTTGAACAGTGCTCCRTGGGAGCACCCTGCAGAGACAGCAGGACCCTAACATCCGTCAGAGAAACTGATGAGGAAGGACA
GATGGCGTGCAGTTCCATGAACACTTCCCGGCAACCCCAGGCAGGGTGGTTGTGGAAATACGGAAATGAGTGAGACCTCTGTCCTCACGGTGCCCACCCC
ACCCACAGACACTGGGCTCATGCACAGTGGCAACGAGCATGTGCCACACAGGAGGCAGGCCTGTTGGCATGCCTGGCCCACCAGGACACAGGCCCTGCGG
ACACACCTCAGATGAGCTTTGGGAGGAGAGAACCTGGACAGTCTGGGTTGTGACACATTGAACAGAGAAAAGGATGGCCGGGTGCGGTGGCTCACGCCTG
TAATCCCAGCACTTTGGGAAGCCAAGGCGGGTGGATCATGAGGTCAGGAGATCGAGGCCATCCTGGCTAATATGGTGAAACCCCGTCTCTACTAAAAATA
CAAAACATTAGCCGGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGGACCCAGGAGGCGGAGCTTGCAGT
GAGCCAAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCGGTCTCAGAAAAAAAAGAAGAGAAAAGAAAAGGAAGAATGGGTGTGTTCA
AGGCAGGACAATTAGGTGGAGTCCAGGACTTGCCCAGGAAAATATCGGACTCACCTGGACATGACAGGCTGGGATCTAGTCAAGTAATGTGACTTATTCA
CTTAGTCTGTACTCACTCGGCACATGCTTATGGCCCTGAACTGTTCTAGGAGCTAGGAATACAGTGGGAACAGGACAGACTGGGTGCCTGTTTGAAGGGA
GCTGCCTGGCTGAAGATGATAAATAAATAAACGAGCTAGCTTCTGAGAGCAGTAGACACGACACGGTGATTGATATAAAGGGGTGTGAACGGGGTGGGTT
ACCATTTTAGGAAAGGTGGTTAGGGAAGGGTGACATTTGAACTACGGCCTCCATGATGARAAGGGCTAGCCCTGTGCAGAGCAGGGTGACATTCCTGGCT
GAACGAAGGGCTGGTGCAAAGGAGTGCTGAGGGAAGTGCTTAGCAGCCTGGGGGCCTGGAAARTAGGCCAGCTAGCAAGTCTGCAGCCCCGTGAGGGAGG
AYAAGGAAATGTAGTCAAGAGTGAGGCTAGGTTGGAAAACAGCTTGGTCCTGGTGTGTAAAGTTAAACATTCACACACTCTATGACCCAAAAGTTCCACC
TCTGCAAACATATCCCAGAGGCACTCTTGCACATGTCACCAAGAAACAGGAAATTTGTGGGTATAGTCACGTGATGGATTATTATACAGCAAAGAAAATG
AATGAATTACAGCTCTGCATGACATGGATGAATCTTAGAAACATACTATCAAGTGACAAAGGTGGCATGACACTACTTTTACAAATATTAAAACCAGCAA
AAACTTACTAAATTGTTTAGAGGTATGTATGCACATATGTGATAGGATTGTTTTTTAACAAGGCAAGGAAATTAACACAAATTTCAAGACAGCCATTACT
ACGGAGGGGTGTTGAGGAACACAGCAGGGAAAGAGCCCCTAGAACATTACAACCATGTCCATAGCTCTTAAGTTGCATGGTGGATTCAATCTAAAATATC
CATTTTATTATTATACTTTATATGTGTTCCATATATTATTTTGTGTATGTCGGATATCACATAATTTTTGCAAAGGCGGCAGCATGGGACAGGTCATGCA
GGGCCTTGAAGCCATGATAAGTATTTTGGATTTTATCTAAAATGCCATTTGAAGGTGACACAATCTGATTCTTCATTTGAAATATTACTCAGGCTGCTGA
GTAGAGAATGAATATCAGGGAGTTGAGAATAGATGCACTTAGGCAAGGAGGACACTGTTGTCATGACTCCAGGGAAAAAGAAGGTGAGAAGTGATCCTGA
ACGCTTGTTCRGGATACATTTTGTAGGCAGAACCAAGAGGACTCATTGATGGGTTGGATTGTGGGGTCGAAGGGATCAAAGATGACTTGAGGTTTTTTAT
TTGCACAACTGCATGGATAAAGGTGCCATTTGCTAAGTCAAATGATGAAATCCAAGACAAAAAAGTGTTCAGCATGGAAGAAGGGAGTGGAATTTAAGAG
TTACACATTGCATTTGCACATGCTCCAGTAGGTAATAGGGACACATAAGTGTTTGAACTGGGAAGTAGTATAATCCGAGTTGCAGTATAGGAAACAGATC
TAGCCGCATTMCACCAAGTGGATTGGGTAGGGAGAGATGGAGCCCGTGGTTGCGGGGTGTCGAGTTGTACAGTGAGGGGCTGGTGGAGGGTTAAGGTAGG
GAACATAACTGAGCAGAGCAGGGAGGGAGGGTGGCAGTTCGTTCAACAGATTCTATGGGGGCCATATCTGTAAAGACAAGTCTCCCATCCTTAAAGAATT
TGCAATTTCATTGAGGAAAGGAACACACACACAATATTTAATTTGCACTCTTCTTCACATTTTGTAAAATGYTGTCAAATCCGCCATCACATTTGAGTGT
CACAACATTCCAGTGTGATTGTGGCAAGGATGGTCATCCCCACTGTATCCTTAGGAAGACTAAGGTTWACAGAGTTCCATGCAGCCTGYCCTGAGTAAAT
GCAGAAGCCAGAACTCGGATCCAGGGTCTTCTGAYTCTGAATCAGCCACCGTGTCCACAACAGAGTGTAATATTACAACTTTGTTCAGGGTATTAGATGA
GGCCTTGTGGAGGAGGCATCCTATCAACTGCCTCAAAGGARGAAGAAAATTTAACCAGGCGGAGAATCAGAAAAAGAGTTTTGCAGGCAACAGTGCGGKA
GGAGTTGGGCCATGTGAAAGTGGTCAAGGGACAGACGTAGGAAGCACCGCTGAAAGGAAGGGGCTGATGGGACTTTGTATCTTGCCGCAGGTTGGAAGCA
CAGTCCTCTTCCGTTGTCAAAAAGGCTACCTGCTTCAGGGCTCCACCACCAGGACCTGCCTCCCAAACCTGACCTGGAGTGGAACCCCACCTGACTGTGT
CCGTGAGTGCAGACTTCACCCACATCCCAAGAAAATTCCTCTTGCCCCAGCTGGGCATCTGGGTCATGTTTGAATGCTCTGAATGACAGGGAGTTCACAA
CTCCCCATGCGAACCGACATCGGTCTCTTTGTAGTCCTTACACTTTGGGGCCTCACAGAAGACTTCCACACAAAAGCCTTTCTGATATTGGAAGGCAATC
CCTATGCCTTAGCAAAGAAAAAACTATCCAGTGGCAGCAGCAAAAACTAACAACTGCAAGGCCAGGCCTCAGGATGGAGATATCAAGCTTTTGACCCAGT
TACTCCTTTACCCCTCAGGAAGTGCTGCAGGCTTAAGTTCCCCCAACTCAGAGTCAACCAAGCCGATATCCACATGATCTCCATCTTGGCCATTCCTCTA
GACACAGAGCTTGGGTTAGGGTGGAGGATTAGGGAGGGGGATGCTTGGCATGAAAGGGACTGGAAGGGAAAGGAAGAGGATATTCTATCTAGGAACAGGG
GAATGGTCGAAAGGGCCCCTGAAGCCCCTAATCTCCTCCAGTCCAACAGGGYCTTTCCTCTCATCCAGCCCACCACTGCAGGCAGCCAKAGACGCCAACG
CATGCCAACGTCGGGGCCCTGGATTTGCCCTCCATGGGCTACACGCTCATCTACTCCTGCCAGGAGGGCTTCTCCCTCAAGGGTGGCTCCGAGCACCGCA
CCTGCAAGGCGGATGGCAGCTGGACAGGCAAGCCGCCCATCTGCCTGGGTGAGTGTGCCTGCTCGGGGAAGCTCTCCAGGGCGGGAGGCTGAAAGTGCTG
GCTGAACTTGAGCTGAAAGAGGGCAAAAGAGAAGGAAGGAATTGCGTTTCAAGGAGCTGGATCCCGCTTCTGATTTTCTAAGGTTTTGAGTMTAGAAGAG
CAAAGCAGAGCGGTCTAAAAAGGTGCATACTCAACCCACCCCAAGGGTTGCCCCTTTTGCCTGGGCTGAAACACTCACAGGATCACATTTCATCATCAGG
CAGAGGAAAGTGCTTTCTTCCACCAAACTGGAGTGACGCATTACACATATTGCACCCTTGATAAAACAGCACCCGCCTGTAGGTCCCTTGGGGTTACCAG
GATGTCCCAGACCTCCCTTCCCCTCTTCTTCATTCACTCGTTCTCTATTTATTGAGAGTTCATGTGGCCCCATGCTTGCGCTAGGCATGAGGGATTCAGA
GGGGAAAGACACAACCCTGCCATGTGGAAGACAGACACGTTATCAGATTTTATATTTGGAGTACTTGGAGGAACATGGAGATGTGCCAAATGCTGTAGGA
ATGAGGAGGAAGGGCACTAAAGTGGGGGAAAGGAGAAGTCAGGGAGGACTTCCTGGAGAAGGTGATGTCTGAGTCCAGTCTTGAGGGAAAGGATTAAGGT
TAAACGATTAGTTCAGTGCTGGAATAGCATTAAACTCTCTGATAGGCACTCACCTCACCAGATACCAGGCATTGTGCTAARTGCTTTGTATGTTTCAACT
CATTTAATCTTCACAAGATCCTATGAGGCTATTTAATATATGAGGAAACTAGGGCATAGAGAAGTTAATTAATGTGTCCAAGGTCCCCAGCTGAGAAAGG
TTAAGTGCTGAAGATCTATACCCTGATGGTCTAACTTTAGGATCTATGACTATTTTGCTATCCTGCCACTCAGAGGGAAGCCTTCAGGGTCAGAGACTAT
ATCAGAGCTAGAACTTACTAACGGTGTTTTATTTTCATGGTATCACTTGGAAATTTCTTTTGTTTTCCACATACAGTAGTGATATAAAGTACATTTATTA
AAGTACATTTAAGTTTTTATTGTGATAGAATATACATAATATACAATTTTAAGTGTACAATTCAGTGGCATTAGTTATGTTTATGATATTGCACAGCCAT
CACCACTATCCATTTCCAGAATTTTTTCATTATCTCGAACAGAAACTCCATACCCATTAAACAATAACTGCCCATTTCCCCCTTCTCTTAGCCCATAGTA
ACTGCTATCATACTTCCTGCTTCTGTAAATTTGCCTATTCTAAGTACCTCATGTTAGTGGAATCATACAATATTTGTTCTTTTGTGTCTGGCTTATTTCC
CTTAGCATAATGTTTTCAAGATTTAACCATGTTGTGGCATCTGTCGGAATTTCTTTCCTTCTTATGCGTGAATCATATCTCATCATATGGACATCACTTT
TTGTTTATCCATTCACCTGTTGATGGCTGTTTAGGCTGTTTCCACTTTTTGGCTATTACAAATAATACTTCTGTGAACATACATGTACATGTTTTGTTTT
AATATGTTTTCAGTTCTCCTGGGGACATATCTAGGAAAACAGTAACTCTATGTGTAATATTTTGAGGAATTGCCAAAGTTTTCCAAAACTCTTGCACCAT
GTTATTCCCACCAGCAATGCATCAGGGTCCAATTTCTCGACATCCTTCCCCACACTTGTCCATCCTGTTTTAGTGTATCCATGATCAGTGGGTATAAAGT
GGTATCTCATTGTGGTGTTTTTTATTGTTTGTTTGAATTTTCATCCAATTATTTTTTAATTGACAAATAAAAGTTGTATATATGTAGAGTGTACAGCATG
ATGTTTTGATATATGTATACATTGTGGAGTGGCAAAGTCATGTTAATTAACATATCCATTAACTTCATATACTTGCCATTTTTTGTGGTAAGAACACAAA
ATCTACTCTCAGTAATTTTCAAGTACACAGTGCATTGTTATTAACTATGGTCACCATGATGTACAAGAGATCTTGAACTTATTCCCTGTCTAACTGAAAT
TCTGTGCCCTTTGGCCAACATCTTTCCAATTCCAACCCCCCAGTACCACCCCACCCTAGCCCCTGGTATCCACTATTCTACTCTCTACTTCTATTAATTA
GTTCAATTACTTTAGATTCCACAGATAAGTGAGATTGTGCAGTATTTGTCTTACCGTACCTGGCTTATTTCACTTAACATAATGTCCTCCAGGTTATCCC
TGTGGTCACAAATGGCAGAATTTCTTTCTTTTTTAAGGCTGCATAGTATTCCATTGTGTATATATTCCATGTTTTCTTTATCCATTCATCCACTGATGGA
CACTTAGGTTGTTTCCGTATCTTGGCTATTATGAATAATGCCTCAATAAACATGAGAGTGCAGATATCTCTTTGACTTACTGATTTTGTTTCCTTTGGAT
ATATACTCCATAATGGTATTGCTGTATCATATGGTAGTTCTATTTTTAATTTTTTGAGGAACCTTCATACGTTTTCCATAATGGTTACATTAACTTAAAT
TCCCACTAACAATGTGCAAGAGTTTCCTTTTCTCCACCTCCTTACCAACACTTGTTATCTTTAATCWTATTTATAATAGTCCTTCTAACAGGTAGGAGGT
GATATCTCATTGTGGGTTTCACTTGCATTTCCCTGATGGTTAGTGATGCTGAGCATTTTTCATATACCTGTTGGCCATTTGTATGTCTTCTTTTCAGAAA
TGTCTATTCAGGTCCTTTGCCTGTTTTTAAATCAGGTTATCTATTTTCTTGCTATCGAGTTGTTTTAGTTCCTTCTATATGTTCCTTAGATGTTAATCTC
TTACCAGATGTGTGGTTTGCAAACAATTTCTCCCATTCCAYAGGTTGCCTCTTCACTCTGTTGATTGTTTCCTTTGCTGTGCAGAAGCTTTTCAGTTTGA
TGTAATCTCATTTGTCTACTTTTGCTTTTGTTGCCTGTATCATTGTGCAAAAATGATTTATATTTCCTTAATGGCTAATGGTGCTCAGCACTTTTTTATG
TGTATGTCTTCCTTAGAGAAATGTCTATTCAAATCCTTTGTCCATTTTTTACTGACTTATCTTTTTATTGTTGAGTTGAAAGTGTTCTTTCTCTATCTAA
AATACAAGGCCTTTATAAGGTACATGATTTGCAAATTTTTTCCCATTTCACGGGGTGTCTTTTCGCTCTCTTGTTGGTGTTCTCTGAAGCACCAGTGTCT
TTAATTTTGATAAAATCTAACTTTTCTATTTTGGGGGTTGCATATGCTTTTGTTGTCATATCTAAGAAACTGTGATACATCCAAGGTCACAAAGATTTAT
GCCTATGTTTTATTCTTAGAGTTTTCTAGTTTTACTTCTTAGATTTATGTCTTTGATCCATTTTGAATTAATTTTTTATGATATTAGGTTAGAATCCAAA
CTCATTCTTTTTTATGTGGCTATCCAGTTGTTCCAGCACCATTTGTTGGCAAGACTATTCTTTCCCTGTTGAATTGTCTTGACACTCCCGTCAAAAATCA
TTTGACCATAAATGTATGAGTTTATATCTGGATTCTCTATTCTATTCCATTGATCTCTATGACTCTCTTTATGCCATTACCACCCAGCCCTGATTACTTT
AGCTTTGTAGTAGGTTTTCAAATTGGCAAGTGTCCCAGTCTGGGCACCCTAGGGAGACTACATGTCTACAAAAAAATAAAAGTAAAGAAATTAGCCAGGA
GTGGTGGTGTATGCCTGTAGTCTTAGCTATTCAGAAGGCTGAGGTAGGAGGTTCACTTGAGCCCAGGATTTGGAGGTTACAGTGAGCTATGATTACACCA
CTGCACTCCAGCCTGRATAACAGAGCAAGACTTTGTCTCTAAATAAAAATAAATTGTTTTAAATGAAAGAAAACAAAAAATATTGGGACGTATCAATTAT
CCAACTTTGTTCTTTTTTAAGACTGTTTGCCTATTGTTTTGCCTTTTGTTTCTATACAGATTTTAAGATTGGCTTGTCAATTTCTGCAAACTAGAGAGCT
GGAATTTTGGCAGAAATTGCATTGAACCTGTAGATCAATTTGGGGAGTATTGCCATCTGAACAATATTAAGGTTTCCAAACCATGAACATGTGATGTCTT
TCCATTTATTTAGATAATTAATTTCTTTCAATGATGCTTTATATTTTTCAGTGTACAAGTCTTGCATTTCTTTGGTTACATTTATTCTTAAATATTTTTA
TCTGTTATTATAGCTACTTTTATTTAAAAATATATAATGTTTTAGAGGCAGCTGAATTCAACCCATTACTGTATGATCTTGAGCAAGCCCTTTCATTTCT
CTGCCTCTCAAAAAGTTTCTGTGCTATAAAATGGGGAAAATAATCTCTACTTCAGAGTTTCAAGAGCAGGAGGAAATGAAGAAGTGCCTATCACAGYACC
TCGCACATAAGATGCTTTCTCCTTCTTTGCTCCATTCATCTTATGAAACCTAAGACGATAAAGCATTTTGTTCAGAAGTACACTTGCATTGAGTCACTGC
AGAAACTTTCTCCACAGCATTCTGTGTACTGAGGCATAGGCTGACCTCCAGAGTTGAAGGAGATTTGCTAAAGCTGTGCTCCCCGCCAAGGCAGACAGTG
GGGAGTCTGCCCTTAATGGCGACAAGGCAGATTTTCTATTGTTTCTCTGCAAAAGAAGAAAAGACATTAATACTTACTGGTCATGACTTTCCTGTTCATA
ACCTCATTTATTCAGCATAGACCTGTGAGGTATGTTTCAGTTTTTTCCAGGTTTCAAATGAGGAGGCAAAGACTCTGAGTGGTGAAGTTACTAGTCAAGS
TCACGCAGTCATTAAGTGGCACTGCTGGGACCTGAACCTTGGCCGTCTGGCCCAGGCCCAAAGCTTTTGCCTTTGCTTTGCCTGTGAGGGCTTCTTGGTC
TTAATCTCATCATTCCAAGGGAGGAAGGYGCTCCTCTGCAACCCCCACCAGGACTCACAGAGTTCACCGTTGATGGGTAGAAGTTCTTCCTTCATGCGAG
GCATCTGGAAGAAAAGCAAAGTCGAGGGCAGGACTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCCGTCACCCAGGCTGGAGTGCAGTGGCRTGA
TCTTGGCTCACTGCAAGCTCCGCCTCSCAGGTTCACACCATTCTCCTGCCTCAGCCTCCGCAAAGTTTTCAATGAGGACATTCAGGGAGTCTGTGCACTT
GGATGGGAAAATATACACCTTTTATTCCTTTACTTCTTACTGAAATGTAGCCTCTCCTTTAATTTGGAATGTAGACAACAACCCTTAGGAGTGTTAGCAC
CTGTGACTTTGTCACCAGTAGAAATTGAAAAGACTTTTGTATATATTCCAGTTGCTACCAATATCATGAATATTGTTCATGTTCCTGACTACTTCAAGAT
TATGGTTATTTCTTGACTCACTGCTAGATCCTGTTATTTAATGCAGTAATAAAGAATCATATATACCACTATATCCTAATGTCTTGTCTAATATTGTAAG
AACTCCAACTAATAAAATGGACTTCCTCTGTAATTCTTTGTATTTTTTATTCTGAGAGGGATCCATAGCATCATTAGAGCATCAAAGCAGTCTACCTCCT
GGTCTAAAAAAAATAAGGGGAAAGCAAGATCTCAAAGAACCCATTGACCTAAGGTCAGACAGGTGGTCATTATTTTTCCAACAGAGTGTGAACCAGAAGC
TGAACCTGTTTTCTTCCACTCTTTTTCCCCAGCAGAGGTCCGGCCCAGTGGGAGACCCATCAACACTGCCCGGGAGCCACCGCTCACCCAAGCCTTGAGT
ACGTATGGTCCAGATCATTGGCTCAAGAAACTGGTGTTACTTTTTTCACACAGTTAGCCAGAAAACTCGTGTTGCTGAGAGTTGCTGAGTGCCTAGAGGA
AGGGCATGAAAACTATCTATAAATCTGGATGGCTTTCCCTACCCACCTCCCCAGCCCAGGCAGACTTCAGAAGAAAGTGAGCCTGAAGGAAGCAGAAACT
TCATCTGGAAGAAAGAGCCAGCAACTTCCAACTGGAAGCTCTGGAACTGTTGATTACTACAGCCCCTCCTGGCATAGGACTGGCCAGTGTGTGGTCATAC
AAACACATTGACCCAGGCCATACCCAGGGAGCTTCCTGGAAATGGTTACAGTTTAAGATAGGTCTGGGGTCTTTCCAAGTATCACATCCAGAACTGGACA
CAGACTGCAGATGTGGCCTGACCMATACCAAATTCTTAGAGACTATCACATCCTTTCATGAACCTTCTACTTTTATTTACCACATTAACATGTGTATTAT
GCAGGAAACGAGGCTAGATTTGGCATCAGAAACTCAATTTGAGTACCATTTTGGTCACTGACCAGCTGTGTCCTTGGACGAATGAGCTTCGCCTCTTAAG
CTTCAGTAAAATAGAGATCATAATAATTGCCATAGAGAATGATTACAAGGATAAATGACAATTTTAGTAGCTATCACTGATTAGGTGCTTTTACACATGC
AACATCATGTAACATACAATTTACAACATTAGTCATTTAACCCCTAGAATAACCCTGATAAGGTAGATGGGATGGCCACCATGTATAGGAATACAGGCAT
AGCCTATACAGGGAGAAAGTCAAGGCTTTTGCACATGATCAGACAACTGATAAGTGACAGAGCTAAGATTAGACTCTGGGTCTGTCTGACTTCATTTGCC
CATGTTCCAATTCACCATGCTATACTGACATGTCAGTTTTCTCTCTCTTCTCCCCTCTTCCATTTCTCCATCTTTTAAACACCTTTCCTTTTCTCCTCCC
TTCTTCTGTCACTCCTTTCTAGTTCCCTCTCTATATCTTTTTAAATATTTTAATTTTAATTGACAAATAATAAACATATTTATAGAGTACAATGTGATRT
TATTCTATATGTATACATTATGGAATAAATAAATCAAGCTAATTAACATACCCATCATCTCACCTAATTATCATTTTTTTGTGATGAGAACATTTAAAAT
CTACTCTTTTGGCCGGGTGTGGTGGCTCACACCTGTAATCCCAGCRCTTTGGGAGGCCAAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCC
TGACCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAATTAGCCRGGCATGGTGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTAAGGCAGG
AGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACACCATTGCACTCCAGCCTGGGCAACAATAGCAAAACTCCATCTCAACGAAAA
AACTACTCTTTCAGCAATTTTGAAATGTACAATACATTCTTATTAACTATAGTCACTATGCCATGCAGTAGATCACCAAAACTCATATCTCCAGTCTAAT
GGAAACTTTGTACCCTTTGACCATCTCCCCATCACCCTCCACTCTGCCCCAGCCTCTGTAACCATCATTCTACTCTCTACTCCAATGAGTTCAACTTTTT
TAGATTCCATATATAAGTGAGATCATATGATATTTATCTTTGTGTGCCTGGCTTATTCCACTTAAYATAATGTCCTCCAGTTCATACATGTTGCTGCAAA
TGAAAGAATTTCCTTCTTTTTAAAAGCTGTCTAGTATTCCATAGTGTATGTATATATACCCTTTWCTTTATTTGTTCATTCATTCACGGACACTTGGGTT
GTTTCCCTATCTTGGACATTGTGAATGATGCTGCGATGAACATGGGAGTGGATATTTATCAGTTCCCTCTATCCATCCACTCTGAGACACAAGACGAGAA
GAGGCCAGAGCATTCTACCACCTTCCTCACATGGTAGACATTGGGGAAAGGAAACAATCCCAGTGAGTGGGCTGGGATCAGTCATCAGGCTACCCCAATT
CTGGCAGCACACACAAAGTCCCTCTCACATCTATTTCTCAATTCCTCTAGTTCCTGGGGATGTTTTTGCCAAGAATTCCCTGTGGAAAGGGGCCTATGAA
TACCAGGGGAAGAAGCAGCCAGCCATGCTCAGAGTGACTGGCTTCCAAGTTGCCAACAGCAAGGTCAATGCCACCATGATCGACCACAGTGGCGTGGAGC
TGCACTTGGCTGGTAAGGAGCAGGCCCCTCTATGAAAGCCGGGAGGATGGATGGGCACACACCCTTGGCAAGGATGAGCCTAATGGCATTGCATCATACT
GTCATGCAAGGCTCAGACTTGTCTGGTSGTCAGGGAAGAGGAAGTGTCTATTCATCTTTACATGATAAAGCACTGTGGACTAAAGGGAAATGTTTAAATG
GCAAATATTAATAACCTGAATACATAAAGAACTCTTATGAACAAAGAGAAAAGACTGATATCCCTAAACTGAACCAAAAATAGGGGCAGAGACTTCCCAG
GATCCCAAGTACAATCAGTCAACAAACAAAAGAAAAAATATTTTTCAGCAATCATCAAAAAAAAAGTAAACTCAAAATGTCATTTTCCACTTACACCATC
AACTCAGAGTGTTTTTAAACAATAACACTTAGTGCAGGTCGGGTTCAGCCATGAACGCCAAATTCTAAAATGGTACCATTCTGGGAAAACAATTTGGCGA
TTTGTGTCAAGATCCTTGAAAATGATTGGACCCATTAATTACATTTCTAACAATTTTTATCATAAGAAGATACGGAGGGAGTCAAACATTTATGAATAAA
GGCTGTTCCCATTACAAGGCCATTTGTAGTATATAAAAACTGGAACTAGAAAATTTCCCTAAAATAGAGAAATGGATATTTTAATGATAGTATATCTACT
AGATGAAATATTATGCCAGTGTTGAGGGAAATGCATTCATTATAATGTATTTAAAATATGACTCCAGTGTTTTAAAGGAAAATATTACATTCATAAGAAA
GAAAACAGGAATAATTTACAGTAACGTGGTTATTTCTTAGTAAGATCAGGAGAGATCATTTTTTCTTCATGCATCTCAGCATTTTCTAAAATTTTCCCAA
TTTTCAATCTTTCTATAATCAGAAAAAGTAAGTACCTTAGAAAATAAGTGTTTGTTGAATAGATGGATAGATAAGCAAATGTGTGAGTGAATGAACATAT
TAATGCACAACCCCACATAAAATCCTATCTACGCATTCATACGTGCACACACCTACGCAACTGCAGGATGACATTTGCTCATTTCACACATGATAATAGA
CATGTTCACATGCTCCCATGCCCAGGACCTCATGAACTATTGCACCCATTGAACTATCTATGCATTAGTGGACAGATTAAAAGACAAAATCATATTCTCA
CACATGCCTGTGTCAATAGCATCACAACCTCAACCCGGTAATCCAATTATTAACATACATATGCATATATTAATAATTCTTGCATATAACCACGTTCAGC
CTACACAAACCCACACTCAACACTACACTTACGACTTAAAGGGATGTGGAGAATGTTTATATCAACATCTACACATGAAATTCCATCCAGAAACTTACAC
CCACAAACCCACAAATTTGAGTTTTGAAATTTTCCCATATCTTTCATGTGTAACACCTGAACTTTATTTCCCAGGAACTTACAAGAAAGAAGATTTTCAT
CTCCTACTCCAGGTGTACCAGATTACAGGGCCTGTGGAGATCTTTATGAATAAGTTCAAAGATGATCACTGGGCTTTAGATGGCCATGTAAGTTCAGCAA
ACTCACCTCCTCCCCTGACTCCCAGATCACTGGCAGGGAAGAGGAGGACAAAAGGGTGTGCAAACCCCTAGGATCAATCTGGCAACTTGGGAGGAGGTTT
TCTGTGGGGCCCTGCCTAGGAGCAGCAAGAGGATCCTCATCTGCTAATGAAATAGGCAAAGGAAAAGATTTTAAAAGACAGAAGACTCAGAGTCCAGAGG
TTCACCACATTCAAGAGAGTTGGAGTAAGTTCTGTTGTTTGAACAGAAAGCAAGGGATGGAGGTTGGGGGCAGAGGGAATTCAGGCTAGTTGAAGGTATT
AATGTGGTGGGTGGGAGCTGGAAGAAGGCAGTGAGTCTCACATGACTACATTGAACTTCTCCTCACACTTGAGGATGCAGATTGTGAGTGATTAACACAG
CTTGAGAGACCAGGACATGGCAGAGGGATAGGACTTTCTTGCATTCCCTTGTGGAAAAGACATTCTATTCTAGGGCTTTCTTGAGGTGGAAGCTGGATCT
CCAGTGACACTTCTCTGGCCATACCTTCCTATTTCACACATAGTGGAGTTGAGCATAGCATCCCCTACCACGTCCTCCACTTCTCTGTCTTGGATTGCTG
GAGCTAGAAGAGAAAGGATAGAATGAAGCGAGAGGTCATGGTAGACCAGAGTAGCAGAGAGCTAGGGAGTCACAGTGCATTCTCATGGACAGGACCAGCT
GGTGGAGGACTGTGGCATAGTTGACTTTGCTTTATAAACACATCAGGAGAACCAAGTGGCTTCTCCAGGGGCTGGCACATACAGGTAGTTCCTTGGTAGG
CCCAAGGGTATCTGTAGGTCCCCTTCATAATCCAAGTATGGGCCAGCTTCAATCATCGTGGCCCAAAAGCTGTGCAGGAACAATAGACTCCACCATCCAG
GAGGGTCAAAGTTGGGACATGGAGCTAGCAGTGCAGGCCAGGGGAAGATGAGGATGGGGATCCAGAGGGCCAGGAACAGCTGGAGCTACTGCCTAGGACG
CCAGACAAGCGTSGAGCCTTTTGATAGCCAGCAAGGTGTGTTTGCGGGGACAGCTGCGGAGGGCAGACAGAGGCTGCTCCTAGCCATGGAGCATAGGTTG
GGAGTACCCAGGAGCRCAGGCATCCTCACAGCATGCCCTCAGCCGCTGCGGCCCCAGACTGCACATTTGGGGGTCTGCATCTGTCACATGAGCATCAGTA
GCAGGAGTTATGTCCCCAGCTACGCCCCCTAAAAAATTAATAGCTCTTAGAACTGTGACGAACTCTCCAATACCTTTAATCTGCAAGGGACATTTTCAGC
ATGGTTCTGTGTGTTCCATAATGCTCCAAAAGGCGGTTTTTCATCACAGTAATAACAGCTACCATGCATGTAAGGCCTATAAATTAAGTGTTCTGAAGTA
TTTCATCTTTATTAACTCATTTAATCCTTACAGCCACCCTATGACATAGGTACTGTTACTATTCTCATTTTGCACATGACAAACTGAGGCACAGAGAGAT
TAAGTGATTTGACCAGTAGAAAATAAAATCTTCCTCCTACCTCATACATGTAGCTGGTGCCCCTGCCCCACCCCGGGCTCCCCGGTCACACCCACCCTTG
CCTAGGTGTGGGCAGAGAACAAACCCTGTGTGTCAGAGCAGCAGGTCAGTGGGTGACCTGCTGGGCAGCGTGTATGATGAGAGAGGAGTTMTAGATCCTT
CCAGCAGCCTCCCACSTGCTCTCTGTGCTCCCCACCATCACAGGTCTCGTCAGAGTCCTCCGGAGCCACYTTCATCTACCAAGGCTCTGTCAAGGGCCAA
GGCTTTGGGCAGTTCGGCTTTCAAAGACTGGGTAAMTAGTGCTTGTCCCCCGRAAGTGTGGGCCCGGGTGGGTGGGAGAGAAACCGTGTGTGCCGTGGTC
AGGTAGAGGACTGGGGAAGTTGAACAGTCTGAGGCGGGGGTGCTTTGGCCTCTTTGGGATCAGGGATGCCTCTTGAGATTCTGACAAAAGCCATGGAATA
TCTCTCCAAAAGCAAACACATGTGCATAACCCACTCAACCTTTGWCAAAGTTTCCTGTTCAGACCTGGAGAGGAGAGCCCCCAACTCCAGGGACATTGGC
TCTTAGATACAGCCCCCAGCCACACCCTCCAGCCAGCCCTGKGTGTSACCCCTGCCTCAACAAACAACGACACTGTGGAGTGTCTTAGAGCTCTCAGGGT
GCCTTGACTGTGATGTCGTTTCTGCCCTAGCCCAGCCCTAGAAGACTGGTTTTGTGCCCATTTTACAGATAAGAAAACTGAGCATTAAGGCCACTTCCCT
CCCTGGTCCTTCCCTGGCCTCTTTACCTAGCGTGCTTCCTGTCATCCATGTCAAACATCCACACCTTGGAGCCTTGTCCTGGCCCAGAGCCTCTGGGTGC
CCAGCCTCAGACTCTGGTGGGGGGAGGGGTCTGGTTTCTCAGAAGCAGGGGAGGGGGAAACAGGAGGCAGCCGCAGGTGCGTGACAGCCTCTSTGTACCC
CAGGCACTGACACCTCCCATCGCCGGGGCCCTTGCCTGCCAAGGCAGTCCACTCCATGTCCTCTGGCTCCAAGCTCCTGAAAGCTTCTCTGGACTGAGCC
ACGGTSTGCTCCCACCCTTTCCCACCCACASTGCTCCTCCCCCGGAGTTGTCCCAGCTCTGCCCTCATGAGSTGCATGGACTGAGACCACTGTYTTCCAC
ACAGCACCCTTCACCTACTGCAAGATGGCCAGGCAYGCTGCAAAGGCCTTAGAAAATCACAGTTTTTGTTCTGGCTCCACAGCAGACATCCTGTCCCCTC
TCAGAGCCCCAGCCCCTCAGTTAGCAGGGTGCCTACTGGGGCCACAGTKTCTACTTGTGTTCTTCTGAGCCTTCCCAGTCTGCAGGGGAGGGTGAGGAAG
GAGGAGAGGCAGCCTTTCAGAAGGAGATGCTTCAGCTTCAACCAGAACAGTTTCACCTTCATCTGTCTTATATTTTGTTGTGCCTGTAAGGTTTCATCTG
ATAAAAGGCTGCTACAGCCAAAAGAACTTTAGAGACTTCTAAAGGGCTGCACCCTTGTAARAGTTTSTGTTGAGCCATGGTTTCAGGCTCCTCTGCGGAT
GGTCCTCTGGGTGCCATCTGAGCAGCACAAGGTAGATGCATGCAGGACCCTGCCCCCAAGGACTGAGTGTGCACGTGGAGGCAGGCGGGCAGCCCTGGGC
ACACCTGCCTCCCGTGMTGAGCAGGAGTGAGGAGCACCMTGAGTGGCAGCCCTGCTTCCCAAGAGTGTATAGTCGGGGAGGGTAGCCAACGGAGCCTCAG
ACTGTGTCTCGTGACTTGACTTTTCTGCTTTGGGACTTTACAGACCTCAGGCTGCTGGAGTCAGACCCCGAGTCCATTGGCCGCCACTTTGCTTYCAACA
GCAGCTCAGTGGCAGCCGCGATCCTGGTGCCTTTCATCGCCCTCATTATTGCGGGCTYCGTGCTCTATCTCTACAAGCACAGGTACCGTGCAGGAAGGAG
GCAGGGCGGGCATCAGGCAGGCCTCCCTCTCTCCCTCCAGSGCCCCCCGCACCAGACCCCTAAGCCTCTCTGTGTCGCTCTTTTCATGCCGTGGGCACTT
CCTCTTTTATCGCCAGGAGAAGACCCAAAGTTCCTTTCAATGGCTATGCTGGCCACGAGAACACCAATGTTCGGGCCACATTTGAGAACCCAATGTACGA
CCGCAACATCCAGCCCACAGACATCATGGCCAGCGAGGCGGAGTTCACAGTCAGCACAGTGTGCACAGCAGTATAGCCACCCGGCCTGGCCGCCACCACC
GCCACCGAGAGCCCCGCCTCCAGCAGCCGGTGAGCAGGGGTGTGGGAGGAAGACAGGCCATGACAAGCACAGACAGGGACCTATGCGTGCCAGGGGCTCC
ACCCAAYGGAGTCGCACACACCAMATAGACACACCCAGTAAGAGGAGAGCTGTGCATTGAGCATCATTGTGTAACAGGCACTGAACCAGGCCCTTTGTGG
ATCTAATATATTGAATCCCTGCACGCCCTGTGAGGTAGAAGCTTGTGGGAGCCCCATTACAGATGAGAAAACTGAGCTGCATAGAAACTAACTTGAGCAA
GGTCACACAGCTCAGAAGGGGTGGGGTCGAAATCCAATCCCAGGCTGACTGGCTCCAGAAACTGCTCCTCACCCCTGGGCTTGGCAGAACATCGGCATGT
ACTAGTCTGTTTCTCTCTAGAGAAACAGAACCAACTGGATATATACATCCTCTGGGTCGAAGTCAAGCCCTGGAGATCTGTAGAGCTATACAGAGATGCA
CATATATCTGTGTATATAGGTATATTGTGTATATATATACATTCATACACTATAAACGCAATACATATACCCCATATCAAGATATATCCATACCTATCCA
TCTATATATAGATACGCATCTCCGTAGAGCTATATGTAAATGTTATATAGAGATAGAAATATAAATAAATATATATTTAGAGAGAGAGATTCATCTAAGG
AATTGGCTGGCAAGGTGGAAATCTAAAGGGCAGGCCAGCAGGCTAGAAATTCCAGCAGGAGTTGATGCTGTCATCTTGAGTCCAAAAGCAGTCAGAGACG
GAATTCCTTCCTCTTTGGAGCACCTCAGTCTTTTTCTTAAGGCCTTCAGCTGATTGAACGAGGCCCACACACATTATGGAGACTCAAAGTCTACTGATTT
CAAAGTTAATTTTATCTAAAAAGATACCTTCACAGCAATATCCAGATTGGTGTTTGACCCATCAACTGAGCACCATAGCCTAGGCAGGTTTACTTACAAA
ATTCCCCACATTGAGCACAACAGAGGGGAGGAGCTCCCGGAAATATAGACAGGGGGCAGACACACCCACACGTGTACACGGTCATGMACACACACACACA
CATACGCATACATGCACACAGGCATGCATCTGACAGGCCCACTGGGAAGGAACTGATGAATCTAAAAGGCACTGCCTCTTCCTCACTGTGTCCTCCTTCG
ATGACACCCTCACCTCTGGGACCTATGACCCTTCAGGAGTTGCCCCAACACGATGTCCAAGCTGCACCCCTCTGAGAACTGTCTTCTCCCACACATCCCG
CTTTCTGGGGATAGGCAGGTGCCCCCTCTCAGGTCCTGTGCTGAAGGACTCTGGGGAGAAGAGTCACAGAGCCAGCCAGGTAGGGATTCCCAGTGAGGGC
GGTGGAAAATCCGCCAAGTGGGCCACCAGCCAAACCCAGGGCTAGTGTTGCGCTCCCTCCCCACGCTCCTGTGCATGGCCGCTCACGTGGCAGATTCTCC
CAGCCACACACAAATGGCAGTGCAGCGAGGAAACAGGCTTTTATGAGGGTGCCTGCAAAGGCCACCAACAGAGATGGTGGGGACAGTTCCTGCGGAGGGG
GTTACAAGAGCAGCAAATGTCATTATCACTGCCCAGCCCCTGACGTGCTTTACTCCCTTTCTGCCTCACAACTCCTGGAGGATTTCACAGTTTCAGCCTG
AGTCCCAGATGGTGAGTGAGTCAGGGACTCAGCAGATGCAGCTCCTGAATACAAACAATTTATGGAAAGAGCTTTTCCCCATCTTTTTACGTCTCTCCAA
AACAAACATTTAAATAAGGGTTCCCCCTTATTCCAGTGGGATTGTTTTAGCATGCCAAAATTACTCCTCAAGTTTCATCTGTATGCCCAATCTTTATTTT
TTCCTTCTCAGAACTCTTATCAATAGAAGGCAAAAGAGAAAAAGAAAAATCCCCTCTGATGATGTAAATCGGGGCTTGGAGATGATCAGTGATGAATCTG
ATTCACTGCATGAATTATTGAACAGTGTAAGAAAGAAACAAGAATGCCRCTGACCTCCACACAGTCACTCTTRCTCCACACCTGGGTTCTGCTGGGTTCC
AGGTGCTGGTGTGCGCCATGCTGTCACCTCCRGGTCGGCTGGGGTTGGTGGCTCCACATCTGGCCAGCCCTCAGCATTGGCCCCTTGCCAGCAGGCTCTG
AACCCACTGCCCAGCCCACAGGTCTCCAGCAGGGCCCCTCTGACCACTTCTGCCCACAGCTGGAGCATAAAGAAAGCAAGAGCCACCCTGAACAGWCACA
CACACATTGCAAATGAGTGACTAGATGGTAATTTTTTTTTAAATAATGCCAAGGAGAAAAGCTGAAATTAAAATAAACACCCTACTAAGGAAGCAACGAG
GCCTGTGCGGTCAGTGAGTAACAGGGCGGGGGAACAGGGCTGTGTGATGATGTTTGCCAACCCTTCCTCCATTAAAAAAAAGTATCAAAAATGAGATTTC
ACAACTGTGTCACTACAAAAATGAATATAATCCAGCCTGGATTCTTTATTACAGAGCCATTATTATCCTAGTCATTTTTTTTTTTCATCTGATTTTGAAA
GAAACTAAAATTAGAATGTTTTCCTGGGTTCCTAAAAGTATGGTGGCCCCCAAGCACTGGGCCTCCAGGTCTAATGGCGAAGTTGGCCCTGCAAGGGAAA
AAGACAGAAAAATACATGTTCTGCTGCACGTATTCCCTACCTACCCCCATCCCCAACCTGGGAAGATTAAAAATCAAAGTGAAGATTGAGGTGACTCATC
TCTTTCCCGCTTGTGCCTTCTTTTCTTTGCCGCTTTGCTTTTCCTCCTCTGCTCCCGGCCCCTCCCCTCCCACTGCCTCTTTTTTCTTTGCAAACTCAGG
TGTGATCTGTTTGTTCCCAGTTCCCCAGGGGGCAGGAAGTAGGCTCCCCTGAGCACAGTGCCCAGTGCCCATCTTCGTTCGTCTCCTTGCCTGTGTCTGC
TACTGCTGGGACTCAGGCCCTCGCCCTGCCGCCATCTATGCCAGTTACCCTGGAGAGGACTCCTGCCGTGTCCTGAAAAGGCAGAAAAGGAAGAGGGGCT
GCAGACAGAGGAAGAAAGTTTATGGATTTAAAATAGCAAAGCAACTTGTGGATCTGTGTGTGTGTGTGNNNNNNNNNNNNNNNNNNNNACACACCACCTC
TCCTTCATTCACGTCCTATGGAAGAGACCATAAAGGCTTCAAAACTAGAAGTGCGCATGAAGGATGCTTCATGCCCTGTTCCCCACACAGAGAAGAGATG
AAGAGGGGGAGGTACRGTCAGCTTTCAAAACAATATGCCCCCCGCCCATCCCATGTGTGAGGACATGGTGACTCGGTGACTGTAACAGTAGGACACATCC
CATCATGCGGTCAGAGTGCAGAAACCCGGTCAGCGTGCAGAAACCAGCTGTCTGCTGATGAACGGCCCATCTGCACAGCGGCAGCAAGGATTACCCCAAG
GGCAGGAAAAAAGTCTTTGGAAATAGATTGAAAATCAGTTTCTTTATTTTTTTCAAACACTGTTTTATTGAGTTCTAAACCCAGTGGATTAAAAAGTCAT
TTGGGTCCTGGGAAGCACTGGGAAAGAAGGGAGAGCCGGGGAGGATAGGGCAGGAGTCTGGCCAGGAGCCCAAGGTCAAGTCTGGCTGTCAACTGACAAA
GAGAAGAGAAGACAAGTCTGTGGCCCAGACAGGRTGCCAAGTCTGGGGGCAGCAGCAGGGTCCTTGAGAGAACAGGGGAGCAAGCCTGCCCCAGTACCCA
AAAAACAATGGCTATCATGTACTGGGGTTATTCTCTGTGCCTGACACTTTACCTRTAGTATTTCTAGTCTGCACAATAACACCAAAATGTAGGATTTGTT
ATTCCCCTTTGACAGATGAGAAAACAGAAGCCTGCAAAGGTAAAGACAGAGTTAGGAAGTGTGGAGTCAGAATGCAAACCCAGATCAGTCTGCCCCAAAG
TCCACTACACCAGCTGCCAGAAACCCTGTTCTAGAAGGGGCAGCTAAGAAGGGAGGAGCCGATGAAWCTCTACAGTAGCACTGTGGCCAGGTCTGGAAAG
CCAGGCAAGACACCTGTGTGTCCTATCTGGGTTCTGCTGTCTCCGCGTAGGCAGCTTCGGGGCAAGGATTCAACTCCCCAGGCCTCCCACGGTTGGTGCT
GGCTCCTTGGCTCCCAGCAGCCGCTGACCATAGCCAGCAAAAGACCTGGCAGGTCCTGAATCAAAACAACAGAGTGGCTGAAAGTCACACCTCTCCAGCT
CCTTGCGAGTGGGTTTGATTGATTTTGACAGCTATATCATGCTTGGGTCGTTCATGAATTCCATGAGAATTGTTGGGAAGTTCATGAGTTTAGGAATCAA
AGTATAGCATTTAGGGCCACTTTCTCTGTCCTCGGGAAGGCCCCCACAAGCTTAAGCCCCTGTATACGTGTGACATGCTGGCCTCAGAGATTCATGTCAC
ATATTGAAATAGCAAATAGAAATGTGCAGGAGCGGAGGGACAGCGACACCTGGTTCTTAAGCAAATTCTAGATTGGAACAATTAGAAGATCTGACTGATG
TTAAGAGTGGCCAGAGGAAAGTGAGAGGCGTCCATTTYCAGCAGACACAATGGAGGCTGACAGAGGCAGGAGCCTACCCCTGGCCACACCACCTCTGGGA
CACGGCACCCCCCTGGGCCTGGAGGGAGAGGGCCAATCCAGACACACTCACACTCTCATCTCTTTCCTTGGCTGGAAACAAGTGCAGGAAGCTCCCCTCC
CAATTTCTTATGCTCCCTTCCCCCTTACACTCCTCTCCTTCGACTGCTCCCTTCCCCCTTCTTATGCCCCTCTCAGACCACCCAGCGGATGCCTATTCCC
GCCCCCCACCCCTCCCCTGCGTCTCCTTGTAAAGTTCCATGAGATGCTCGAGGAGCACCTGCTGGTGGGGCACCCAGCACTCTGCTGGGCATCACCCTCC
RCACCCCTGACATTTCTCTCCACCTCCAGAGGCTTGGAAGGGAACAGGGCAGATGAGGCCCTTCACCCACCATCTACGCCATATACCCATCACCATCCCA
TGAGGAAAAAAAAAAAAGTAAAACAAAGACAAAAAAAATCTTTTGTACAGAGATATATTTTTATTATACAAAGTTTGTACAGTACCAAAAAAGAAAAAAA
AAAGGTGTAAATTTTTTTTTCATTATTGTAGGTAAACGGTAGTGGAAGCCTTTTTTGTAAATGTAATAAAATGTATAAATATGGTTTTCAGAAAACATCA
AGTGCTGTAAATATGTAATCTACACACCTTCTTGGCTTGTCTGCAGTATATACATTTAATTTATCTGTCTCTGTATATGAGGCTTCCCCCTGGGGTCCTG
CATTATGGTACTTTCCTGAATTTGAAAGCAATTTTAAATTTTTTGAATTCAAATAAAATATAAATTTTTGCATTGGTTTTCTTACATTTTTATGGCCTCT
TTCATGACTAGGGGCAAGTGTTTGTTGGGAAAGGGAAAGAAGGACATATTTTCGCCTAAAATCCAAGGGTAGAAATATGGGAGTCCATTTCTTAACTGCA
TTGTGTTATCACTGCTACATGTTGGAAACTCTGAGCAAAAATGATAGTGCATACCCCACATAAAAAAAGTTAACTCAAAATGGATCAAAGACCTAAACAT
AAGCCCTAAAATTATAAAATGCTTACAAGAAAACGTACGTGGAAAACTTCATGACATTAGATTTGGCAGTGATCTCCTGCATATGACATCAAACGTATAG
GCAACAAAAGAAAAAACAGATAAACTGGACTACATCAAAATTCACAACTTCTGTATATCAAAAGATACAATCAACAGAGTGAAAAGGCAAGCTATAGAAT
GGGAGAAAATATTTGCACATCATATATCTGATAAGGGGTTAATATTGAGACTCTATAAAGAACTCTTATGAAAGACTTGAACAGTCATTTCTCCAAAGAA
AATATACAAATGGCCAACAAGCACACGAAAAAATGCTCAACGTTACTAATCATTAGGGAAATAATCAAAGCCACAATGAGATGCCATCTCACACCCATTA
GAATGGCTACTATCAAAAAATAATAAGTGTTGGTGAGGATGTGGAGAAATTGGAACCCTGGTGCCCCATTGGTGGGAATGTAAAAAGGTGCAGTCACTAT
GGAAAACAGTATGGCGATTTCTCAAAACATCAAAAATAGAATTACCATATTGTCTAGCAGTTCTACTTCTGAATATATACCCAAAAGAGTTGAAAGCAGG
GTCACAAAAAGATATGTTAATAGCGGCATTTATTAACAAATGCCAAAAAGTAGAAGGAACCCAAATGTCCATCAACAGATGAATGGATAAACAAAATGTG
GTACATATGTACAATGGAATATTATTCAGCCTTAAAAAAGAAGGAAACTCTGACCCATACTGCAACATGGATGAACCTTGAGGATGTTATGCTAAGTGAA
ATAAGCCAGTCCCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACCAGATACTATGTGATTCTATTTATAAAAGCTACCTTGAGTCATCAAATTCAT
ACAGAAAGTAGAATGGTGGTTGCCAGGGACTAGGGGGAGGAAAGGATGGGGAGTTACTGTTTAATTAGTATAAAGTTTCAGTTTTATAAGATGAAAAGTT
TCTGGAGGCCTGGAAGCCCTACGCGTTCTACTGGTTTTAAAACAAAGAGCTCAATTGACACCAGGTATGACTTGTCAGTCTCTACATTCTCTCCTGATGG
AAGAGTTTTTTGAGTTGAATATGCTGTGAAGGCTGTGGAAAATAGTACAGCCACTGGACTCAGATGTAAAGATGGTGGTGGCTTTGGGGTAGAAAAGGGA
GTCTTCCTAAACTTTATGAAGAAGGCTCCAACAAAAGACTTTTTAATATTGATTGGCATGTTGGAATGGTGGTAGCAGGTTTGTTGACAGATGCCCCTTC
TTTGGCAGATATAACAAGAGAAGACGCTTCCAACTTTAGATCTAGCTTTGGCTATACCATTCCACAAAAACATCTTGCAGACACAGTTGCCATGCATATA
CACTCTGCAGTGCTGTTAGACCTTTTGGCTGCAGTTTTACAGTAGGGTCTTACAGCGTGAACAACAGGGCACAATTCTGCAAGATGTTTCGTATGGTTAT
TGGGGCTGTACCCTTGGCAAAGCCAGGCACGCTGCAAAGATAGAAAATAGAAAAGCTTCAGGTGAAAGAAATGACCTGCCATGTTATTGTTAAGAAGTTG
CAAAAATATTTACATAGTATATGATGAAGTTAAGAATAAACCTTTTAAATTAGAACTCAGCAGGGTTGGTGAATTAACTAAAGGAAGAAGACATGAAATT
ATTCCAAAAGATATAAGGGAAGAAGAAGAGAAACATGCCAAGGAATCTTTGAAGGAAGAAGATGAATCAGATGATGACAATATATAACATTTACTCCAGC
ATCTATTCTATTTTAAATTTCTGCTACAGTCCCAGGTTAACATTTAGCCCCCTGTGGATTATACACACTCACTAACCAATTTTCATTAAATGTTTGTATT
GTGAAAAAGGAGAAAGAAAAGTTCTGGAGATTGCACAATTACGTGAATATACTTAATGTACTTGATGCCACTTAACAATGGTTAAGATGATCAATTTTAT
GTTATATATATTTTACCACAATACAATTTTTTTTAATTTATAGTGGAGGCCACATCAGCTCAGACCAAGAACCTGGGGACAAAGAAGTTGCTCCCCTCAG
GGTTGGAGTTTGGCTTGGACTGAGGAGCTCAGGATCTGAGGACCGCGGTCTAAGGGCAGGTGGGCTTAGGCAGTAGAAACTCCATAGCAGAGAAAAGCCA
AATCAAGGAGGGTCATCCAGGCAAGACAGTCATGAGAGGAGTGGTGAGGAAGAAGAGGAAAGAACTGGCAAGAGCTAGTAGGAGCCTATCCTTTCTTAAA
TGTACTATGCATTTGTTAGCAGTCATCATTTTAGGTGGAAAATTCATCCAGACTACCTTCAGTTTTCTGACTCCCACTACCCTTCACTTTTGCACTGTAC
CTCGGCTCCARCTGCCCCCCTTGTCACCTCAATAACCTGATTTAGACCAACATTCCCAGTTTTTTGTTTTTGTTTTTTTTGAGACACAGTCTCACTCTGT
CGCCCAGGCTAGAGTGCAGTGGCACAATCTCGGCCCACTGCAACCTCCACCTCCCGGGTTCAAGTGATTTTCCTGCCTCAGCCACCGGAGTAGGTGGGAT
TACAGGCACGCGCCACCATGCCTGGCTAATTTTTGTATTTTTTTTTTTTTTGTAGAAACGGGGTTTCAGCATGTTGGCCAGGCTGGTCTCGAACTCCTAA
CCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCCCCAGTTTTAATAAAGGCATTCCATCTTGG
ACACGCTGCCTGGCATTTCTCTCCTGGACACAGGGAATCAGCAGGGTGGGTGTAGTCCTCCCACTGGAACCTCAGGTAGCTTGGCAGGGATTCAGGGTCA
GGAATTGGACTGTTGTCCAACACAAGCTCCGGTTGGATTGGGAATCAAGAGAGCAAGGGAGCAAATATTAAGTCTAAGTTCAGAAGACAAGTTCATACCA
GCATGCAAATATGCAAACACTTTATAAGAAAATAGCAGATGGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCTGGTGG
ATCACTTGAGGCCAGGAGTTCGAGACCATCCTGGCCAACCATGGCAAAACTCTGTCCCTACTAAAAATAAAGGAGAAAAAAGAAAGGAAGAAAAGAGCAG
ATTGCTGGACACCACATAGAGTGGGGAAAGACTTCCAAACATCAGGCCAGGACAAGTTTTCATAAGCCGTAGGGCATAGATAGAGGGGGCAAGCCCAAAC
TACAATGCCTGTGAGACAAGCTGCACCCCACAAGATCTACCTATACCAAGAGAACAGAGTGTCCCTGAACTAAGAAATCAAATAAACACTAACACCACTC
CATTCCCTCACTCCAGCAGAAGCACCTGTTATTGCTGGTCTAGGAAAATCCTACACATTTCTTTTCTCACGGACAAAAAGGGTTCATGGACATATCTTCA
AAGCTTCTATAAGAATAAAACAGCTCTCCCTCTCCCTCTCCCTCTCCCTCTCTCTCTCCCTCTCCCTCTCCCTCTCTCTCTCCCTCTCCCTCTCCCCACG
GTCTCCCACTCCCTCTCTTTCCACGGTCTCCCTCTGATGCCCAGCCGAAGCTGGACTGTACTGCTGCCATCTCAGCTCACTGCAACCTCCCTGCCTGATT
CCCCTGCCTCAGCCTGCCGAGTGCCTGCGATTGCAGGCGCGCACCGCCACGCCTGACTGGTTTTCGTATTTTTTTGGTGGAGACGGGGTTTCGCTGTGTT
GGCCGGGCTGGTCTCCAGCTCCTAACCGCGAGTGATCCGCCAGCCTCGGCCTCCCGAGGTGCCGGGATTGCAGACAGAGTCTCGTTCACTCAGTGCTCAA
TGGTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCGCTACAACCTCCACCTCCCAGCAGCCTGTCTTGGCCTCCCAAAGTGCCGAGATTGCAGCCT
CTGCCCGGCTGCCACCCCGTCTGGGAAGTGAGGAGCGTCTCTGCCTGGCCGTCCATCGTCTGGGATGTGAGAAGCCCCTCTGCCTGGCTGCCCAGTCTGG
GAAGTGAGGAGCGCCTCTTCCCGGCGCCATCCCATCTAGGAAGTGAGGAGCGTCTCTGCCTGGCCGCCCATCGTCTGAGATGTGGGGAGTGCCTCTGCCC
CGCCGCCCTGTCTGGGATGTGAGGAGCGCCTCTGCCCGGCCGCGACCCCGTCTAGGAGGTGAGGAGCATCTCCACCTGGCCGCCCCGTCTGAGAAGTGAG
GAGCCCCTCTGCCCAGCAGCTGCCCCGTCTGAGAAGTGAGGAGCCCCTCCGCCCGGCAGCCACCCCATCTGGGAAGTGAGGAATGTCTCCGCCCGGCAGC
CACCCCGTCTGGGAGGGAGGTGAGGGTCAGCCCCCGCCCAGCCAGCCGCCCCGTCCCGGAGGGAGGTTGGGGGGGGGGGGTCAGCCCCTGCCCGGCCAGC
CGCCCCGTCCGGGAGGTGGGGGGCGCCTCTGCCCGGCCGCCCCTTCTGGGAAGTGAGGAGCCCCTCTGCCCGGCCACCACCCCGTCTGGGAGGTGTACCC
AACAGCTCATTGAGAACGGGCCATGATGACAATGGTGGTTTTGTGGAATAGAAAAGGGGGAAAGGTGGGGAAAAGATTGAGAAATCAGATGGTTGCTGTG
TCTGTGTAGAAAGAAGTAGACATGGGAGACTTTTCATTTTGTTCTGTACTAAGAAAAATTCTTCTGCCTTGGGATCCTGTTGATCTATGACCTTACTCCA
ACCCTGTGCTCTCTGAAACATGTGCTGTGTCCACTCAGGGTTAAATGGATTAAGGGCGGTGCAAGATGTGCTTTGTTAAACAGATGCTTGAAGGCAGCAT
GCTCGTTAAGAGTCATCACCACTCCCTAATCTCAAGTACCCAGGGACACAAACACTGCGGAAGGCCGCAGGGTCCTCTGCCTAGGAAAACCAGAGACCTT
TGTTCACTTGTTTATCTGCTGACCTTCCCTCCACTATTGTCCTATGACCCTGCCAAATCCACCTCTGCGAGAAACACCCAAGAATGATCAATAAAAAAAA
AAAAAAAAAAAAAAAAAAGGATTAAAACAGAAAATGAGTAGTAAAGACATTGTAACTTGGGTATATATCTAAGAGTGGAAAAGAGAAAAAAAGCAAAG


SNP Information

Context             (SEQ ID NO:30604):
TTTTTGTTTTATTTATGTTCCATGGGCATTGAAGAATATGAAATGAGTACAAGGGGCTATATTTCTTTTACATAAAATGTATTATGCTTTCTTTCAAACA
R
AATACATTATGCTTCTATATTGCTTTTTTTTATTGTTAACTCTTCCTGTTGTTAGCTGATCTGCTTTAATTGGCTTTTTGTTCTAGTGATTTCAGAGTTC
Celera SNP ID:            hCV16245946
SNP Position Genomic:     484111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30605):
TCACTGCAATTCTTTCCTGGAACAGTGAATATATGACAGCCTGGTATCCAAGGTCCTTCAACCTGTGATGCTTCCTCACCTTTCCAGTCCCATCTCCCCC
M
TCTCCCTATCTCATACCCCAGCCTCCAGCCTGCCATGCTGTTCCTCACCTCCAGGAACTTTGCAGTTACTCTTCTGTCTCTCTCTGCAGTGCCCTCCTTC
Celera SNP ID:            hCV11182973
SNP Position Genomic:     476482
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30606):
GCTAGATCACTAAGTTTATTAGGTACATATTTTGCTTTCCATGTAACTGCAGACAATAGTGGCACTAAGCTTTCTACCACTACCTAACAAGGATGTCCCT
Y
CTCCATGATATGGTTTGCATGGGTCCCCCAAATGTCATGTGCTGGAAAGTTAATCCCCAATATGGTAGTGTTGAAAGGTGGGGACTTAAAGAGGTGATTG
Celera SNP ID:            hCV9957324
SNP Position Genomic:     299628
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30607):
GGCCAGAGGAGCCTGGCCAGATTCTTCATCACAAATGTACTCGCAGCTGCATCAGTGAGGGACAGCCCCAGGGACCACAGAGTTCTTCCATGCCCACTGC
Y
GCTAATTAGAGATAATACATTAAAAATACAGAGCCGCATCTGTTCGTTGTAACATGGGTATCGAGGAATTTACGTGGTTTATAATGACAGAGTGTGGGGA
Celera SNP ID:            hCV9957325
SNP Position Genomic:     296869
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:30608):
CTCTGTGTCTCCATCTTCTCACCTGCAAGCCACAGGTTATAAAGGGTTGCTGTAATAGATGAGTAAATACATGCGAGGGACTTAGAACAGTGCCTGGCGT
K
CAGTAAATACTCAGGGCAGCATCTGTGTCCCAAGTGGTACGTAAGTTCTTTATGCCATGTCTTCTCATTCTATTCCCATATGACCCTGAGAAACAGCTTT
Celera SNP ID:            hCV9957326
SNP Position Genomic:     295214
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30609):
TTGTATGTGAATATTTGTATCCATGTGTTTACATGTGCTTGAATATGTACTTGTGAGTGTGCTTGTTATACGCAGAAATGTGCATGTATGCATGGGTAAG
K
GCACAGTACGAGAAGCAGCCCAGTGAATATTAAGCATACTATCGGGGGTGTGCATTAAATTGTAGCCAGACCATTGAGCCAGCCCCAGGTTCCATTTTAC
Celera SNP ID:            hCV9957181
SNP Position Genomic:     334141
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,2)      total(G,1|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30610):
CAAGAACATGGCATCATCTTTGGTCACAATGACTGCTCCAACTTTTCCTAAGTCATGAAACTGAACATCTTCAAGCTTTAGGGTCAAGCTCTCTTCCAAA
Y
ACCATGCCATTATAGCAATAGCTTTGTTTGGTCTTTCTGTGTCACCAAAGCCTGGAGTTTTGACTACTGTAGCCCAAATGCCAACTTTTATCCTATTTTA
Celera SNP ID:            hCV9957182
SNP Position Genomic:     332310
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30611):
CCCCTGGCCAAATCTAGCCAGAAGGTTGTTTTTGTAAATAAAGTTTTATTGGAACACAGCCATGCCCATTCGTTGACATGTGTTTGGTGGCTGTCTTCAT
R
CACTACAACTGCAGAGTTGAGCTATTGTGACAGAGACCCTATGCAAAGCCAATGAGATACTTACTTTTTGACCCTTTACAGAAAAAATTTACTTACCCCT
Celera SNP ID:            hCV8020394
SNP Position Genomic:     140843
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30612):
AGTTGGGCAACAGGAGGTCTGTAAACTCCATGACATTAGAGACAAAAATTCTGAGGGTGGGTATATCTTTTTCTAGGGAGAATATACAGCAGGCATTAGA
R
AACTCAGATCCCCCTGGCCAAATCTAGCCAGAAGGTTGTTTTTGTAAATAAAGTTTTATTGGAACACAGCCATGCCCATTCGTTGACATGTGTTTGGTGG
Celera SNP ID:            hCV8020395
SNP Position Genomic:     140732
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30613):
GTCTGTAGTTGGGCAACAGGAGGTCTGTAAACTCCATGACATTAGAGACAAAAATTCTGAGGGTGGGTATATCTTTTTCTAGGGAGAATATACAGCAGGC
R
TTAGAGAACTCAGATCCCCCTGGCCAAATCTAGCCAGAAGGTTGTTTTTGTAAATAAAGTTTTATTGGAACACAGCCATGCCCATTCGTTGACATGTGTT
Celera SNP ID:            hCV8020396
SNP Position Genomic:     140726
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30614):
AGTAACATCTAACTGCTCAATTATTTCTTGCATATTTTTCTCAGTTTGAGTCTTGTCACCTTTTCCTTCCAAGAACATGGCATCATCTTTGGTCACAATG
R
CTGCTCCAACTTTTCCTAAGTCATGAAACTGAACATCTTCAAGCTTTAGGGTCAAGCTCTCTTCCAAACACCATGCCATTATAGCAATAGCTTTGTTTGG
Celera SNP ID:            hCV9957189
SNP Position Genomic:     332241
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30615):
CAAAACTGCAACAACGCTACACCCATTGAGCAACAACTCTCCTTTCCCCCAGCCCATGACAATCACCATCTTAATTTCTGTTTCTGAGAGTCTATTTTAA
R
TATCTCATATAAATGGAATCATGCAGTAATATCTTTTTGTGACTTATTTATAGGTTTAATGACTTATTTATTGTTGGTTTATTGCACTTCATATAATGTC
Celera SNP ID:            hCV16212381
SNP Position Genomic:     51039
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30616):
GCCCGCCAACATGCATCGGTACAAAGCAGCTGCAGGGTGCACTCTGCTCTTGGGGCTCACAGTTGTGTGCTCCAGAACCTTCCATGCACAGCAGCTGCAT
S
TTGGGCCTGGGGCCAAGAGAATTGAAACAGACAAAAGTTGCAGAAAACCCATTGTTTACCCTGCTTTGCATGCATGTGTCCCCACACGCACTCACTCACG
Celera SNP ID:            hCV25759184
SNP Position Genomic:     513839
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,36)   total(C,73|G,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:30617):
CCTCGCAGACCGTGTCGCCCACCGCTTAACCGCGGCATGTTGGGGTTCTTGGTCAGGGAGGGCGCCCCGAGCCAGCTCTGGCTCTCTCATTCCTAGCTGA
Y
GGGACTTTCTTAGGTTCTGCTAAGAGTCATAGCCACCGACACCCAGAGAGGGGCGCCCGCGGTGCGCGCGCCTGGGAGCTCTGGCCTCTCGCACACCCAC
Celera SNP ID:            hCV27857789
SNP Position Genomic:     7877
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:30618):
ACTCCTGTAACATTCAGTGTATCTGACTCTGTTTTTTTCATTCTCTTCCACATCATTTTTCCCATCAACCTTCAGCACAGCTATTGCATCCAAAATTTTG
Y
CGGATGTTCTTCTAGTTTTCCTTTTTCATAGACACTAATAGTAACATCTAACTGCTCAATTATTTCTTGCATATTTTTCTCAGTTTGAGTCTTGTCACCT
Celera SNP ID:            hCV9957190
SNP Position Genomic:     332101
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30619):
TTGCCAGAATTTTGAGTGTTCTTTTAATTATTTCTATACTAACTTTTTACTCTTCATTAGCTGGAGCAGTGAATCTAAGGATGAAATGTACCAAGGCAAA
R
CACCCAAATGATATCTTTTTCAATTGTAACTCCTGTAACATTCAGTGTATCTGACTCTGTTTTTTTCATTCTCTTCCACATCATTTTTCCCATCAACCTT
Celera SNP ID:            hCV9957191
SNP Position Genomic:     331972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30620):
TCACCAGGTTTCAAGCGTAACCCACTCCTTTTGACAGGAAATGAATTTAAAGCACATATTCTTATAACAGTCGTTCATTCACTCAGTCATCAAACTGTCA
Y
TGGGAAACTTCTGTGTGCCTGGTTCAGTGTCATCACAGAATATAGATGCACAAGCTCATGGGGCAACAGCTAGAAGAACAGGACATGATTTTGCAGTGCG
Celera SNP ID:            hCV9957199
SNP Position Genomic:     331153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30621):
AGTTAGCTCAAGCTTGCGTTGCATGATGACATCATCCATTACTAGAAGCAGCCCAATGAATATTAAGCACAGATCCATTAGGTTAGGCAGTCTTTCCTTG
S
GGAGGAATGAGTGGAGAGGGTGGACACAGAAATCAGAAGGATTATTTCTGGGCCCTTGAGAGAGGCAAGGAGCAGGAGACTTTTCCTCAGTGCAACCGTG
Celera SNP ID:            hCV11859422
SNP Position Genomic:     342939
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30622):
GAAGCAGCCCAATGAATATTAAGCACAGATCCATTAGGTTAGGCAGTCTTTCCTTGGGGAGGAATGAGTGGAGAGGGTGGACACAGAAATCAGAAGGATT
M
TTTCTGGGCCCTTGAGAGAGGCAAGGAGCAGGAGACTTTTCCTCAGTGCAACCGTGAGAAGAGAGGAAGGGGAGGCTCCCTCTTAGCATCGCCTCCCCTC
Celera SNP ID:            hCV11859425
SNP Position Genomic:     342983
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,4)      total(A,4|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30623):
TCTTTCCTTGGGGAGGAATGAGTGGAGAGGGTGGACACAGAAATCAGAAGGATTATTTCTGGGCCCTTGAGAGAGGCAAGGAGCAGGAGACTTTTCCTCA
R
TGCAACCGTGAGAAGAGAGGAAGGGGAGGCTCCCTCTTAGCATCGCCTCCCCTCATGGCCACACATATCTCACAGTGCCCACATCAGCCCCTACATGGAA
Celera SNP ID:            hCV11859426
SNP Position Genomic:     343029
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30624):
GCAATTGTGTTTAAAATTTTAAGGACGATAATAGAATAGATCATCTTTTTTCTGTAAAAAACTGGAATTTGCTCAGAAATTTCAAAAGATTCATAGGGGT
S
TCTCCTTCCTGTCTAGGGGCAAGATAATTCGATACAAAAGCAGCATGAGAGGCATTTCTATCCACGAGGTCCCGAGGTAGCATGTGGCTTCCACTCTGGG
Celera SNP ID:            hCV16110283
SNP Position Genomic:     628633
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,6)      total(G,6|C,6) ;(G,-|C,-)   Caucasian(G,16|C,62)   African-American(G,4|C,78)   Asians(G,31|C,49)   total(G,51|C,189)
SNP Type:                 INTRON


Context             (SEQ ID NO:30625):
GCATCAGTATGCTCTCTTGCTCTCTGGCTTCCAGTTGGGCTAGATCAACAGGAGAATCAGTGGGAGACTGGAGGAGGGGAAGGAAGAGAGTGAGTTCTGC
R
TATTCATTCTTTGCCTCCTCTTGATGGGCTTTTCACAAATTGGCTATAGCCCCAGATTGTGAAAGAAGATCTGGGTCCTATATGGTGTCTTCTTACATGC
Celera SNP ID:            hCV15841705
SNP Position Genomic:     323347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30626):
TGAATAAAAATCCCTGCCTTTGTAGAGCTTACATTGCAATGTGGAGTGACAAAAATAACTACATAAATGGTATAGTATGTTAGAACATTGGGAAGATAAC
R
TTGGGAAGGAGGCAGGGAGAGCTGGGGTTGCAGGTGTCATTTTAATGGAGTGGTCAGGGAAGGCCTCAGTGAAGAAATGGTGTTTGCACGAACACTTAAG
Celera SNP ID:            hCV11859430
SNP Position Genomic:     344165
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30627):
TGGTATAGTATGTTAGAACATTGGGAAGATAACATTGGGAAGGAGGCAGGGAGAGCTGGGGTTGCAGGTGTCATTTTAATGGAGTGGTCAGGGAAGGCCT
Y
AGTGAAGAAATGGTGTTTGCACGAACACTTAAGGGAAAAGGGGAGCAAGTCGTAGAGATACCTGAGGAAAGGCCTTTTGGGGAATTGGCAGGCTGAAGCA
Celera SNP ID:            hCV11859431
SNP Position Genomic:     344232
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30628):
CTAGCCTCATTTAGGAACTGAGCCCTCTGGATACTTCCTCTTACAGGGGGCACTTTGAATAAGGTGAATCTTCATAGCCCAAGTTGCAGCGGTGCATAAG
S
ACAGTGTGGGCAAGGACAGGACTGATGCCAGGGATTTGACAAAACAAAATTTAAAATGGGCAAGCTGGGTGTGGTGGCTCATGCCTGTAGTCCCAGCTAC
Celera SNP ID:            hCV16190785
SNP Position Genomic:     630004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30629):
GGAAGATAACATTGGGAAGGAGGCAGGGAGAGCTGGGGTTGCAGGTGTCATTTTAATGGAGTGGTCAGGGAAGGCCTCAGTGAAGAAATGGTGTTTGCAC
R
AACACTTAAGGGAAAAGGGGAGCAAGTCGTAGAGATACCTGAGGAAAGGCCTTTTGGGGAATTGGCAGGCTGAAGCAGAAGCATGCCTGGCATATTGTAG
Celera SNP ID:            hCV11859432
SNP Position Genomic:     344255
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30630):
ATGCTGGGGTACCAGGGCTATCAGGCTCAAATTGTTGTTGTGGTGCTGGAACTGCTCCTGTTCTCCCAGGGATAGTGAATCAGAGGGCTATCCCCCTGCC
R
CACTGTATTAGCTAGGCTTGAATAATGTATGTTTCCCTACTAATGCCCTCTGTTTGATCATGTGTCCATGTTAGTGTTCATTGGAAATTTTCCTGCTGGA
Celera SNP ID:            hCV15841709
SNP Position Genomic:     343445
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,20)   caucasian(A,15|G,19)   total(A,25|G,39)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30631):
GGTGTCATTTTAATGGAGTGGTCAGGGAAGGCCTCAGTGAAGAAATGGTGTTTGCACGAACACTTAAGGGAAAAGGGGAGCAAGTCGTAGAGATACCTGA
G
GAAAGGCCTTTTGGGGAATTGGCAGGCTGAAGCAGAAGCATGCCTGGCATATTGTAGGCACATCAGAGAGGCCCATGAGGCTGGAGAAGAGCAATCGAGG
Celera SNP ID:            hCV11859438
SNP Position Genomic:     344298
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,4)   total(G,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30632):
CATTTTAATGGAGTGGTCAGGGAAGGCCTCAGTGAAGAAATGGTGTTTGCACGAACACTTAAGGGAAAAGGGGAGCAAGTCGTAGAGATACCTGAGGAAA
G
GCCTTTTGGGGAATTGGCAGGCTGAAGCAGAAGCATGCCTGGCATATTGTAGGCACATCAGAGAGGCCCATGAGGCTGGAGAAGAGCAATCGAGGCCAAA
Celera SNP ID:            hCV11859439
SNP Position Genomic:     344303
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,4)   total(G,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30633):
TGGGAGTCACATGGACTTTGATCTAGATCACAACTCTGACACCTTTTAGCTTGCTGGCCCTGGGCGGGTTCCTTCATCTTTTTTAGCCACAGGCCTTCAT
Y
TGTGAACAAGGAAAACAAAATCTTCCCCGCCTACTGATTATGAAATTTAAACAAGGCATTTTCTAGAAAGTGACCAGCCCTGACGGTGGTGGAGGGTACA
Celera SNP ID:            hCV27970083
SNP Position Genomic:     354303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30634):
GACTATGACATGAATAGTCCTCACATTTCCCACAATAAATACCTGGAAGCTACTTTGAAAGTGGATCATTACAGAGCAGGTCATACTTCGATTGAGAGAC
R
ATGTTAAACTTTGGAGTTCTGCTCTTAACTCTAGATCAAATATAATGTTATCAATAGAAAAGGGACAATACCTATAAACATCTATAAAAATATAAAATAT
Celera SNP ID:            hCV27970084
SNP Position Genomic:     401676
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30635):
TAATGAGTGAAGCCCCAGTCTCCATTTTTGGCAAATTTGCAGACGCATTCCTGTAACACACCTAAAATACCTTTTATATTATCTATTAGCAAATTTTACA
Y
ACAACATATAGATCTATACATATATACTAAGCAAATTACAGAAACATAAAACAACCTGGCTTCCAAAGGACAAAGTTATCATTTCCTCCATGGCTAATCC
Celera SNP ID:            hCV27970085
SNP Position Genomic:     602712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30636):
CACACTGACCCAACGGCCAGAGAGCAGCCCTGGGGCCTGCCCTTTGCCTTCTCCTCCTCCTCTTCCCATTTTCCTCCTTGTCCTCTTTCTCCCTCACTTC
S
CATTTGAACTGCAGTCCAGGGAGTCATTACTGCTACATTTCTCTCTTTATTTTCCTTTTGAATCACTTCCACCTGCTAAGACAGTCCTCCTTCAGCTCCT
Celera SNP ID:            hCV11859440
SNP Position Genomic:     346273
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30637):
AGGGAGGCAGGGGAATGCCTAGTAACCTCCTCCAAGGGCCCCTGGACCTGGCTGAGCAAAGAGAGGACTGGGGAAGTGTGGGGGTGGGTCCTGCCTCGGG
K
CAATGGGGAGGCACTGGGGGCTCTCTTCTTGGGCATGGGGAGGATGACATCTTTCAGAACATGTTCCTGCTACCAGTGTTTGTAAGGTTAATAGGGGTCT
Celera SNP ID:            hCV11859441
SNP Position Genomic:     346554
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30638):
GGAGGCAGGGGAATGCCTAGTAACCTCCTCCAAGGGCCCCTGGACCTGGCTGAGCAAAGAGAGGACTGGGGAAGTGTGGGGGTGGGTCCTGCCTCGGGTC
R
ATGGGGAGGCACTGGGGGCTCTCTTCTTGGGCATGGGGAGGATGACATCTTTCAGAACATGTTCCTGCTACCAGTGTTTGTAAGGTTAATAGGGGTCTAG
Celera SNP ID:            hCV11859442
SNP Position Genomic:     346556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30639):
GGCCTCTCTGAGCAGGATCCATTTAGACAGAGCCCTAAAGGTTAAGTAGAAGCCCTCTGTGCCAGAGTGGGGGCCAGGGGCGTTTCAGAGGGAAGAGTTT
R
AAGTGTGTGTTAGAGAATCTGAAAGAACACAGGAAAGACCAAAGTGAATCGATTTTTAATGGAAGGTCCTAAAAAGCATGTATTTTCTCTTTCAAGCCCT
Celera SNP ID:            hCV11183019
SNP Position Genomic:     530674
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30640):
GCCAGGACTGTGAAGGGCACCAGAGAACAAAATGCTGTCCTCGACCTCTCTTGAGGAGCTGCCAGATGCCTGATGGTGCCGCTAAGACAGATGGAAGGAG
Y
TGTTCTGGGTCCTCCAGAGCCCCTTGTTCTGGCAAGACCTGTCTTCTGGAATGATGTTGCTTCATTCTGAATGTTCAAGGCCCCCTCCTGGTCTCTGTTT
Celera SNP ID:            hCV9957500
SNP Position Genomic:     263359
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30641):
GCCTAGTAACCTCCTCCAAGGGCCCCTGGACCTGGCTGAGCAAAGAGAGGACTGGGGAAGTGTGGGGGTGGGTCCTGCCTCGGGTCAATGGGGAGGCACT
G
GGGGCTCTCTTCTTGGGCATGGGGAGGATGACATCTTTCAGAACATGTTCCTGCTACCAGTGTTTGTAAGGTTAATAGGGGTCTAGTTCTGGGGAATGGT
Celera SNP ID:            hCV11859446
SNP Position Genomic:     346570
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,2)   total(G,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30642):
CTCTTTCCTCTGTCTCATACCCAACACTCTCCATCTGAGTCTCTCCAGAACCATCCCCAGATTAAAAGAGAGGAGGGAAAGCCAGACATCCTCTCCTAGA
M
TATAGGAGAGGAAGTTTGTGCAGTTTCTCTGGAATTAGATATCGAGCCTGCACCATGGCATCGAACTGGGAAGGGGGTAGGCTTGGGAGTCAGCAGAGAC
Celera SNP ID:            hCV9957501
SNP Position Genomic:     257961
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30643):
CTTCCCTCCCTTCCTGCTTTCTGGGGCCTGGGAAGCTGGGTTGAGGGTAGCAAAGGAGGAAGAGGGGAGGAGAACAGAACCTCAGCTCCTCTACTCGGCA
Y
TCAAGGACCTTCGCAGTCCAGCTCTTGCCTTCCTGTCCAGCCCAGCTCTGTCATCTCTGCATGTCCCTTTCAGTTCAGACGGTCCTGCCTAATAAGTCCC
Celera SNP ID:            hCV9957509
SNP Position Genomic:     250627
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30644):
TGCTTCTCAGGTGAACACAAAAGGCCAGGAGGCTGCTGAGTGTGGGGGGTCAAAGATGAGTAAAGTGATGGGCTGTACCTAAGCACTGACCTTTACCACA
R
TGACCCTGCCGGCAGCTGAGATGTGGTCCAGGGACTGTCAGCCCCCACCAGCCAGAGAAACACATGTTTCCCTTGGGGAGGAGCAAGCAGGGGATGAGAG
Celera SNP ID:            hCV11183021
SNP Position Genomic:     534757
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30645):
CTTGTCAGTTTGATCACCAACAAGAAAGAGGGCATGTTTTATTCTCACAAAAACCAGGTAATTAAAAAAACAAAAGCGTCATCAGTTTGAAAAGTGAAAA
Y
GGTATCTCATTTTCTAATTTGCCTTGTTTTATTACTAGTTAGGTTAAATTTTTATAATGTGTTTATTGGCCTGTGCATTTTTTATTTGTGAATTTATTGT
Celera SNP ID:            hCV11183025
SNP Position Genomic:     539134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:30646):
TAATAGGATTTAACACTCACCACCAATTTTCTTGCCATACATTTTACATTCCAAGTGTTGTATTTTGATTGATTTCTTCATTTGCCAGAGTCCACTGTCA
K
ATACTTCTTACAAGAAAGGTTCATGGGTGTTGTATTCCCTGAATTCATGCTCGTGAATGTCCACCTGTTGTCTAAATATGTAAATGACAACTTCAATGAG
Celera SNP ID:            hCV11345009
SNP Position Genomic:     169579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30647):
ATTTCCCATGCTATCAAATCTATCAATGTTTTCTTATATAGTTTTCTCCTTTGCTTTTATGCTGGTCAAATAAATATTCCTCTGTGTTTTCTTTCACTTC
Y
TAGTTTCATCACACTGCTTTAATACCTTTGGAATTTATTTTGATTTATTATTTGATATAGGGAATCTAACCATATTCTTTCAAATATAGTTAATCAGTTG
Celera SNP ID:            hCV11183027
SNP Position Genomic:     539503
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30648):
TTGACGTAGTTTTCTGATATGTCTCGGAAGTCAAACAATGTGGGCTTAAGAATCACCCGTACTGCTTACACTGCTGTGTGACCTTTGGCAAGCTACTTAA
M
CTCTCTGGTCTCTGGTTCTTCATCTGTCTGTCCCAACAGGATACTGTGAGAATTAAAATGAGGAATTTAATGTGAACTCTTACTATGCACAATGCATAGT
Celera SNP ID:            hCV27471435
SNP Position Genomic:     286606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:30649):
GCTTAGTGAGCAAATGGGCACATGAAGATATGAACACATGAATGGATGGTTTTCTCTAACAGAAGGGTTTCCTTGGGCAAGCTGCCCTTAGCATTGCTTA
R
GCAGAGTAGCATGGTCAAAGCTACCTAGCCTGGGCTCCAGAAAGGTCATGACAGCCTGGCCCAGTGTTATGGGCATAACCAAGGTTTGGGAAAGGTCACC
Celera SNP ID:            hCV2429970
SNP Position Genomic:     511002
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,16)   total(G,16|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30650):
TGGGTAATAGGGAGGGTGTCTGAACATTCATGGGGTTGAATCTCCTGCTCCCACAGGGTCCTGTTCTGCCCTGATGGAGGGATGGACTGAGGAGAGTTTG
M
TGGGTAATAGGGAGGGTATCTGAACATTCATGAGGTTGAATCTCCTGTTCCCACAGGGTCCTATTCTTGCCCACTCACCTCCCTCACCACCAACATTCAC
Celera SNP ID:            hCV27974383
SNP Position Genomic:     194390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30651):
AGGAGGGAGGGGTCAGCAGAAATGAAACCTTGGTTCCAGATGGGTGACTGATCGAATACGTTAATACGTCAAGGACAATAGAAGGCAGGTGTCTCACTGT
S
AGAGAAGAGGGTTAGAACTATGGATAGAGCAAAAATTATAATATACCCAATGGTGTTAAATTTGAATTGGATGTATCAGTGTGAGCTTATGGTTTTCAAT
Celera SNP ID:            hCV11183032
SNP Position Genomic:     575617
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30652):
GCTTCAGAATTACCTCTGCCTCCATTTTAGCCCCTGTTATTCCAGCTCCTGGGGAGTTCCACACAGGATAGACATCTCGACTCAGGAACGAGCAGGGGTT
G
GGGGGCGGGTAGCTGTGATGCAGGTTTCTCGTAGGATGGCATAAGGCATCCAAGGGCAGAGACCTCCCATATCCATCATTTCCACTCATCCCTTAGGCAC
Celera SNP ID:            hCV11859603
SNP Position Genomic:     389546
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,7)   total(G,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30653):
TTCAAAAATATAAAAGTTCTGAAGGTCAAGTAAAGACACTGGAACCATTCCAGACTAAAGGAGACCAAAGAGACATGACAATGAAATGCAACATGTGATT
Y
TGAACTGGATCAATAAATTATCAAGGAATTTATCGGAAAAACAGGTGAAACTTGAATGAGATGTGAAGATTCGATGGCAGTAATGTGTCAGTGTTAATTT
Celera SNP ID:            hCV11183036
SNP Position Genomic:     576560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30654):
ATTTGAGAGCCTGAACTTAGCCATACACCAGATCTACCTTTGGACCGCAAAAGGGACCCAGTGCTTCATGAAGCTGGTTTTTTTTGTTTTGTTTTGTTTT
K
TTTCCGTTGTTTTGTTTCGGCTTTACCAACCTGACTGGGTGTTTTTCAATATCCACCATTCAGACTTTCCTCAACAGCAGAGGATGTGGCAGTGGCAAAG
Celera SNP ID:            hCV11860000
SNP Position Genomic:     594025
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|G,8)      total(G,8|T,3) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30655):
AATAATAGATTCACAGGAGAGGTTCCATGTACCCTTCTCCCAGTTTCCTCCAATAGTTACATCTTATGTAACTATAGCACACTCTCAAAACCAGCACACT
R
CCACTGGTGCAATGTGTGTGTATACTTCTGTGTCATTTTATCACATGCAGATTCCCATAACCATCACTGCAATCAAGACACAGAATGATTCCATCACCCA
Celera SNP ID:            hCV8020593
SNP Position Genomic:     134550
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30656):
ATCATGGTTTTTTAATTGTCTGTATTTTCTGATACTTTGACATCTTGGGACTTTGTTGACCTAAAATAGCAAAGAGCTCTCCCGGAAGTATGCCTTTCAT
R
TGCAAACTGATGATCCCAATTGGGTAGAGCACAACTAAGTCTTTTATTATTTTTTTTTTAATTTAATTTTTTTTTTGAGTCAGGATCTCACTTTTTTGCC
Celera SNP ID:            hCV11345029
SNP Position Genomic:     130952
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30657):
ATGGCACCAACCGGAACTGGGACCACCCCCTGCCCAAGTGTGAAGGTATGTCGCTCCCTCATCCCCAGCAGTTCTTCCTGGGGTACTCGTGGAGACTGGT
Y
CAGAGCAATCCCATGTTCCACCTACCTGCTCTGTGGGATCTCCAGGGCTGGAGGTCCAGGCAAACTGTGGTCCATCCTGTTTTCACATGGTGTGGCCCAG
Celera SNP ID:            hCV25992636
SNP Position Genomic:     566483
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,8)   caucasian(C,10|T,14)   total(C,22|T,22)
SNP Type:                 INTRON


Context             (SEQ ID NO:30658):
ATCTGTCTTATATTTTGTTGTGCCTGTAAGGTTTCATCTGATAAAAGGCTGCTACAGCCAAAAGAACTTTAGAGACTTCTAAAGGGCTGCACCCTTGTAA
R
AGTTTCTGTTGAGCCATGGTTTCAGGCTCCTCTGCGGATGGTCCTCTGGGTGCCATCTGAGCAGCACAAGGTAGATGCATGCAGGACCCTGCCCCCAAGG
Celera SNP ID:            hCV9956594
SNP Position Genomic:     651461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30659):
TCCTGACTTCCTGGAGTCATGGAGAGTGGTTCTTGCATCACATATTGTAAGTGGGAGCCAGAAGGGAGGTACGTGTGCAGTTTGAAAAAGCATCTTCAGA
R
TGACCTTTACTTTGACTTGTTTTTATTCATTTTATTTTGAATTTTAAACCACATTGAAGAAGGAGGCAGTCATTTTATGTGAATCTTCATAGGGGGTCCC
Celera SNP ID:            hCV11345036
SNP Position Genomic:     103409
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30660):
TGTTCACTTGAAGGAAGGAGACTCTTAGGGGAAATGACGACTGTTGTCAAAAGCTGACATAAGATGGTGGCACTCAGGCTGTGAAATGTACATTCCAGGG
R
AACAAACTTCAAGTCATTTCTAACACTTGTGTCTGTCTAGAACTGAGGGTCCCTGTCTCAGGAAGCACCAGTGCAGAAGTTGGGGCTTCTAGGGAAGCAC
Celera SNP ID:            hCV11345037
SNP Position Genomic:     103123
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,15)      total(G,1|A,15) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30661):
CCTTCCTTGCCCAGGACACCCTTTCCTCACAACCTGGTCAAACCCTCCTGTGATACCTGCTCAGATTACCATGCATTCACCCTTTGTGGTTTTACACACG
Y
GTGTGTGTGTGTGTGTGTGTCTTCTTCATTTATGCCCATCTACCCCACAAGGCTGTAAACTCCTTGATGACAAGAACTCTTTCTCTTTTACTTTTCATTG
Celera SNP ID:            hCV11345038
SNP Position Genomic:     96478
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30662):
AGCATCTATTATGTACCAGGTTCAGGTCTGCGAGCTAGAGATAGAGCAGAGAAAAAAATGGTGCCCCACTCTCATGGAGATTGTATTTTACTGGGGAGGG
Y
GCATCAGAAAATTAACAAGAGGAAAATATATGGCAGAGGTGCTAAGTGCTATCAACAAATAAAGCAGGCACCAGGAACACCTGGCTTGAGAAGCAGGTCT
Celera SNP ID:            hCV11345039
SNP Position Genomic:     68363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30663):
TTTCCCATGTACACTATCTTTCTTTATAGGGTAGGCTCCATCACTTCATAACTGTATGCCCTGAAACAAGTTGCCTAACTCCTCTGAGCATTGCTTCCTC
M
TCCATGAAAAAGGGACAGTGACACTAAACGAAGGAGTTGTTGTGAGGATTAGCACATAGGCACAGCATCAAGCAGAGTGCCCAGTGCCAATAAGTATTTG
Celera SNP ID:            hCV8922139
SNP Position Genomic:     528095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30664):
ATCTGTTTGAGATTGGTCATGAGATTTCAGTAATTCAGTCACATCTTCAGGCTCCACTTCTAATTCTAGTTCTCTTGCTACTTTTACCACATCTGCAGTG
R
CCTCCTCCACTGAAGTCTTGAACCCCTCCAAGTCATGTGTGAGGGGTGCAATCAGCTTTTTCCAAACTCCTGTTAATGTTGATATTTGGACCTCCTCCCA
Celera SNP ID:            hCV11784120
SNP Position Genomic:     616484
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30665):
TGGATGATATGTCCTGGGCTTCCCTGAAGGCCCAGGGCTGAGATAGATATTAGAGTAAAGGGTCTTTTTATTTTGGCAATTTTAAGGTTTTTATTTTAAA
R
TCTTTCGTTTTCAATTAATCGCAATTACTATTCTGTGATTTTTAGGACAGTTTAGGTGAACCCCACCTTAAGAATGAAAACGAACAAAACTCTTTCCATT
Celera SNP ID:            hCV11859496
SNP Position Genomic:     354610
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30666):
CACATCCCCTTCTTCAGAACTTCACTCCAGTGGTGGGCACTGCTGAGCCCCCAGAAGAGGTGGTTTTAGAAGCAGACTTCAAAGGAGGCCAAGGGCAGCC
R
ACCAGCATCACTCACCACTCCCTCTAGGACACCGCCTTTCCTCTTGTCAGATGCCAAGCACATGGCTATTTTCAGCCTCTCTTCTGTTATTTTCAGTACA
Celera SNP ID:            hCV28035329
SNP Position Genomic:     390728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30667):
AGACACAGGCTTTTAGTATCTCAGGCTGGAGTATTATCTTCTGTCCCCTTAGTTATCTACAAGAGCAAGGCCAGGCCAGGGCCTGTGAGAAGTGGCTGCC
R
CCCACTTCCTTCACTGCCCTCCCTGGATTGACTCTCCATGCAAGACACCAGTGGAGATCCAAGTATTTCTTCCCAAAGGATTTAAGGAAGCTGGGCAGGT
Celera SNP ID:            hCV11860034
SNP Position Genomic:     596745
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30668):
TCTCTTTTTTTTCTATATTCTGAGAAATTTACTTTTCATCTCTAATCCTATAATGCTTATTTCGGCAATCATATTTTTCATTTCAAAGAGTTTGTCCTTG
T
TTTTTTTTTGTTTGTTTTTTTTTCCTTCAGAGCACACTGATTTTATTTTATGAGTACCGTATGTCACCTTGACTTTCTCAAGATACTACTGATCAGAAGT
Celera SNP ID:            hCV11860035
SNP Position Genomic:     598178
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30669):
GAACAGATGGCGGAGAACTGGTTTCACCCTGAGGCTCCCTCCCATATATTTTGAGCTACAGCTTCTTTGCACTTCTATCTTTATTCCTTCTTCCAAACTT
A
AAAAAAGAAGAAGAAAAAACTCTTCTGCTGATGATCCTCCCATTTTCTTTTTTATTATGAGACTTTACCCTTTAATTAGTTTTTACTAATAAAAGGACCT
Celera SNP ID:            hCV11860036
SNP Position Genomic:     598835
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30670):
GTGAGTCCTCGGGCAATGGAGGCGGGTGTAAGGAAGGGCTAGGTAGGCAGCTGGAAAGATTCCTGCAAGGAGTGAGCTAAAAGCAAAGTAATGAGGGGGG
A
AAAAAAAAAACATGGACATGGAGGTTGGGGGATTTCAGAAGAGGAGGCAGGTGCTGAAACTGCTCTCAGCATTGATAACCATTGTGCCCTAAGATGTTTC
Celera SNP ID:            hCV11860038
SNP Position Genomic:     599304
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30671):
GGGCATAGATCCCAGCATTTGAGAGGCTGAAGTGGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCGACATGGTGAAACCCTGTCTCTACT
A
AAAAAAAAAAAAAAAAATTAGCCAGCATGGTGGTGCCCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAAAAGAATTGTTTGAACCTAGGAGGCAGA
Celera SNP ID:            hCV11860039
SNP Position Genomic:     601353
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30672):
CCCAGGACCATGACTTACTAGCTGAGTGATTTTGGAAGATTATTTTGCCTTTGAGGAACTGGATTCCATCTTCAAAACCAACAGCAGAATCCAAGCCTGC
Y
TGGGTTATTGTCAATGTCAAGCACATAAGGGACTGTACAGTGTAGTGGTTAAACCCATGGGTTCTGGACCTAAGCTGCCTGTGTTCACAACCTTACTCTA
Celera SNP ID:            hCV11345051
SNP Position Genomic:     47281
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30673):
GGGTGGGGGGTATGGGTAGGTTCACTGTTGGGTGATGTGACATTTGAGATGGGACTTAAAAGGTGGAGCAGGTAGTTTTCAGGGGAGGAAAGGAGTGGGA
Y
GTATCCCAGGAAGAGCCTCCAAACCTCAAAAGGCCCTATATTCACAAGAGGAAATGAGAAGTTCTGTGTGTTCGAGTGTTCCTTGTGTGTGTGTGGTGGC
Celera SNP ID:            hCV11345055
SNP Position Genomic:     30218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30674):
GGAGCTGACATGGCATTTCTTCTTCTAGACAATTCTGGGATAGAGCAGGATGACATCCCCAGGCCCTTCCATCACTCAAGTGTGTCTGGACATTGGAGAG
Y
AAGAGGACACAGCTTGAATCTCAGGGATGCTGGCTTCCATGGAGGAAGCCAGAGGGAGCCAACCGGCCCCATGCCTTTGCAGCATATAGCCAGGTCACCC
Celera SNP ID:            hCV28035330
SNP Position Genomic:     401142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30675):
GACTCCCACCGTTTCAATGATCACCTCTAAGTGAACAACGCTGGGAGTGACTTACAGGACCTACTCCTGGGAGCTAGAGAACAGACAGGATGTGTCCAGA
W
CATGCCAAGGGGGACATGTGACTGACAAGGTTGAAGGCTAGCAGAGGCCTGAAAAAGTAGCATCAAGGTGGTAAAGTCCCAGAACAAGCTGGGTGTATGA
Celera SNP ID:            hCV28035331
SNP Position Genomic:     202753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30676):
CTTGATGGTCTTTACAATTTGGCATGTTTTGCAGCGGCTGTTACCAGTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCT
S
GTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGATTTCATTTCTCCTTCACTTATGAAGCTAGTTTGGCTGGATATGAAATTCTGGGTTGAAA
Celera SNP ID:            hCV28035332
SNP Position Genomic:     497775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30677):
TGAGGCAAAAGAATTGTTTGAACCTAGGAGGCAGAGGTTGCAGGGAGCCAAGACTGTGCCACTGCACTCCAGCCTGGACGACTGTGCAAGACTCCGTCTC
A
AAAAAAAAAAAAAAAAAAGCCAATGTCCGTGATTCATGACACTGTTGTCTTTGCACACTGTGGTGCAGACTGCACAGTGGGATGTAACCACATATGTGGC
Celera SNP ID:            hCV11860040
SNP Position Genomic:     601519
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30678):
CACCCATGGTAACCACCATTCTGCTCTCTGTTTCTACGTATTTGACTTTTGGAATTATAATATTAGTTTAATTCTATTTTTCTTATAGGTTATTTGGTTG
T
TTTTTTTTTTGAGGTTCCTGATTATTTTTCCCTTTATCCTAAAGTCTAATATTTTTACTAGGACATGCTTCAGAGTTAATTATTCCAAGACAATTTCCTT
Celera SNP ID:            hCV11860041
SNP Position Genomic:     605388
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30679):
GTAAAGTGCAAGTTTTCCTTCTTAATTTTTGTAAGGCAGTTTTTTTATTTTAATTCTTCTTTTGGCTTTTTATATATGGGATGGGGCCATAAAATAATGA
G
AACTTCTCAAAAAACAATGCCTGAAATTAGTCTTAATAACTTCTTAAGGGTTACAGAAAGCAAGACCCAAGCCAGATATTGTAGCTTGTGCTTGTAGTCC
Celera SNP ID:            hCV11860042
SNP Position Genomic:     606933
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,7)   total(G,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30680):
ATTTGTTAGCAGTCATCATTTTAGGTGGAAAATTCATCCAGACTACCTTCAGTTTTCTGACTCCCACTACCCTTCACTTTTGCACTGTACCTCGGCTCCA
R
CTGCCCCCCTTGTCACCTCAATAACCTGATTTAGACCAACATTCCCAGTTTTTTGTTTTTGTTTTTTTTGAGACACAGTCTCACTCTGTCGCCCAGGCTA
Celera SNP ID:            hCV2024111
SNP Position Genomic:     660311
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:30681):
TCAGAATGCAAACCCAGATCAGTCTGCCCCAAAGTCCACTACACCAGCTGCCAGAAACCCTGTTCTAGAAGGGGCAGCTAAGAAGGGAGGAGCCGATGAA
W
CTCTACAGTAGCACTGTGGCCAGGTCTGGAAAGCCAGGCAAGACACCTGTGTGTCCTATCTGGGTTCTGCTGTCTCCGCGTAGGCAGCTTCGGGGCAAGG
Celera SNP ID:            hCV2024114
SNP Position Genomic:     656267
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,10)      total(A,10|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:30682):
GCCCATGGCAAAGTCTTGTACCCAAAATAGCATTACCTGAAATTGTAATCCTGGGATTAATTTTTGGTCTTGCAGTTCCCGTTCCAGAACCTCCCTTTTA
S
CAGTGTCCCAGAATCCAGCAGACCCAGGAAGCCTGTCTAAAGGCACATCTACTGCAAAACACTGATTTCTCCGTGTGCAGTGATAAGAATACTTACAACT
Celera SNP ID:            hCV15933334
SNP Position Genomic:     586467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30683):
CTCTGAACCCACTGCCCAGCCCACAGGTCTCCAGCAGGGCCCCTCTGACCACTTCTGCCCACAGCTGGAGCATAAAGAAAGCAAGAGCCACCCTGAACAG
W
CACACACACATTGCAAATGAGTGACTAGATGGTAATTTTTTTTTAAATAATGCCAAGGAGAAAAGCTGAAATTAAAATAAACACCCTACTAAGGAAGCAA
Celera SNP ID:            hCV2024116
SNP Position Genomic:     654496
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30684):
AAGTCGTCTTTTTTACCTTTCATTGAACAAATAATGTATCATTATCTTATAAAGCCCCGTTATTTTTTAACAGAGGTTTATTTTTCTCACATAAACAAGA
R
ATCTAGAAGTAATATTATTTCTGCAGCTGCTCCACGAGATCAGGAGCAATATCTTGGTCTTTCCTTGTGGTTGCAAAATGGCTGCTGCAGCTCCTTTGGA
Celera SNP ID:            hCV15933335
SNP Position Genomic:     612738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30685):
AAAGAAACAAGAATGCCACTGACCTCCACACAGTCACTCTTGCTCCACACCTGGGTTCTGCTGGGTTCCAGGTGCTGGTGTGCGCCATGCTGTCACCTCC
R
GGTCGGCTGGGGTTGGTGGCTCCACATCTGGCCAGCCCTCAGCATTGGCCCCTTGCCAGCAGGCTCTGAACCCACTGCCCAGCCCACAGGTCTCCAGCAG
Celera SNP ID:            hCV2024117
SNP Position Genomic:     654332
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30686):
TTTTTTTATCATTTTATTTTTAACTGCTCTCTATGTAAAAAGCATGTAATTGTGATTTTTAAACCCTATCTGACAATCTTTTCTTTCAAGTGGAGGATTT
W
ATCCATTTGCATTTTTTCTTTCTTTTTCTTAGTGAAATATAATTCACACACCATAAAATGCATTCTTTTAATGTATACAATTCAGTGATTTTAGTGTATT
Celera SNP ID:            hCV15933336
SNP Position Genomic:     618727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30687):
GGCTTGGAGATGATCAGTGATGAATCTGATTCACTGCATGAATTATTGAACAGTGTAAGAAAGAAACAAGAATGCCACTGACCTCCACACAGTCACTCTT
R
CTCCACACCTGGGTTCTGCTGGGTTCCAGGTGCTGGTGTGCGCCATGCTGTCACCTCCGGGTCGGCTGGGGTTGGTGGCTCCACATCTGGCCAGCCCTCA
Celera SNP ID:            hCV2024118
SNP Position Genomic:     654273
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30688):
ATCCCCTCTGATGATGTAAATCGGGGCTTGGAGATGATCAGTGATGAATCTGATTCACTGCATGAATTATTGAACAGTGTAAGAAAGAAACAAGAATGCC
R
CTGACCTCCACACAGTCACTCTTGCTCCACACCTGGGTTCTGCTGGGTTCCAGGTGCTGGTGTGCGCCATGCTGTCACCTCCGGGTCGGCTGGGGTTGGT
Celera SNP ID:            hCV2024119
SNP Position Genomic:     654249
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30689):
GTGGAGGCAACCTCACAGAGCGCAGGGGCACCATCCTGTCCCCTGGCTTCCCAGAGCCGTACCTCAACAGCCTCAACTGTGTGTGGAAGATCGTGGTCCC
Y
GAAGGCGCTGGCATCCAGGTAGGGGCAAGGGGGCGCCTCGGTCGGGCAGGTGGCCGTCTGCTCCCAGGTAACAGCTCACAGGTGACAACCACAGGTGCTG
Celera SNP ID:            hCV25994415
SNP Position Genomic:     547157
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,26)   total(C,59|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30690):
TGTGTCTGGCTACTTCCACTTAACATAAAATTTTCAAAGTTCATCCACGTTTTAGCATATATCAATACTTTATTCCTTTTGGCCAAATACTATTTCATGG
Y
ATGAATATACCACATCTTGTTTATGCATTCGACAATTGATAGATGAACTGGGACTATTATGAACATTTCCACTTTGGGACTATTATGTTTCCATTTTTTA
Celera SNP ID:            hCV1774772
SNP Position Genomic:     619116
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30691):
TGTGAGAAGTGGCTGCCGCCCACTTCCTTCACTGCCCTCCCTGGATTGACTCTCCATGCAAGACACCAGTGGAGATCCAAGTATTTCTTCCCAAAGGATT
Y
AAGGAAGCTGGGCAGGTAGTTGATGTAATATGACAGCTTAGCTAACCTAGTTCCACTGAAGGAGCTCATAGCCTTTCTGATTAGTCATTAAGAGTCTCAT
Celera SNP ID:            hCV1774774
SNP Position Genomic:     596828
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30692):
TATTATCTTCTGTCCCCTTAGTTATCTACAAGAGCAAGGCCAGGCCAGGGCCTGTGAGAAGTGGCTGCCGCCCACTTCCTTCACTGCCCTCCCTGGATTG
R
CTCTCCATGCAAGACACCAGTGGAGATCCAAGTATTTCTTCCCAAAGGATTTAAGGAAGCTGGGCAGGTAGTTGATGTAATATGACAGCTTAGCTAACCT
Celera SNP ID:            hCV1774775
SNP Position Genomic:     596776
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30693):
GTGGAAACTGGGCAGAAAAAAAAGAAACACAAAAACTTGTGTACAAGCCAGGTGTCTAAGACCAGAGTGAGCAACATAGTGAGACCCCCCTCCCCCCGCA
S
ACACACATCTCTTAAAAAAAAATAAAAATAATTAGTCAGACATAGTGGCACACACCTATAGTCCCAGCTACTTGGGAAGCTGAGGTGGGAGGATCACTTT
Celera SNP ID:            hCV8922303
SNP Position Genomic:     415889
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,2)      total(G,1|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30694):
GTCCAAGAGGTGGAAACTGGGCAGAAAAAAAAGAAACACAAAAACTTGTGTACAAGCCAGGTGTCTAAGACCAGAGTGAGCAACATAGTGAGACCCCCCT
S
CCCCCGCACACACACATCTCTTAAAAAAAAATAAAAATAATTAGTCAGACATAGTGGCACACACCTATAGTCCCAGCTACTTGGGAAGCTGAGGTGGGAG
Celera SNP ID:            hCV8922304
SNP Position Genomic:     415880
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,2)      total(G,1|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30695):
CAGCCGGTGAGCAGGGGTGTGGGAGGAAGACAGGCCATGACAAGCACAGACAGGGACCTATGCGTGCCAGGGGCTCCACCCAACGGAGTCGCACACACCA
M
ATAGACACACCCAGTAAGAGGAGAGCTGTGCATTGAGCATCATTGTGTAACAGGCACTGAACCAGGCCCTTTGTGGATCTAATATATTGAATCCCTGCAC
Celera SNP ID:            hCV2024120
SNP Position Genomic:     652324
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,3)      total(A,2|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30696):
TTCTCTCTCCTTCCCCAGCCCACTCTCTCACCTGTGTCTCTCTCCCTCAGAGATCTCATTCCACCACAAGCCTCAAATACTTTGTGATTGTATCCCCTCC
Y
CCTCCTACCCACAGGAAGTGTCCCTCTTACCACCGGGTTTTGGGGACTGCATTTTGGCATGGAGATCATGAGACACAGGCTTTTAGTATCTCAGGCTGGA
Celera SNP ID:            hCV1774777
SNP Position Genomic:     596574
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30697):
TTAGAAAATCACAGTTTTTGTTCTGGCTCCACAGCAGACATCCTGTCCCCTCTCAGAGCCCCAGCCCCTCAGTTAGCAGGGTGCCTACTGGGGCCACAGT
K
TCTACTTGTGTTCTTCTGAGCCTTCCCAGTCTGCAGGGGAGGGTGAGGAAGGAGGAGAGGCAGCCTTTCAGAAGGAGATGCTTCAGCTTCAACCAGAACA
Celera SNP ID:            hCV2024121
SNP Position Genomic:     651249
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,9)   total(G,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30698):
CCTCCCCCGGAGTTGTCCCAGCTCTGCCCTCATGAGCTGCATGGACTGAGACCACTGTCTTCCACACAGCACCCTTCACCTACTGCAAGATGGCCAGGCA
Y
GCTGCAAAGGCCTTAGAAAATCACAGTTTTTGTTCTGGCTCCACAGCAGACATCCTGTCCCCTCTCAGAGCCCCAGCCCCTCAGTTAGCAGGGTGCCTAC
Celera SNP ID:            hCV2024122
SNP Position Genomic:     651136
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30699):
CCAAGGCCTTGGTTGTGGATGTAGACTCTGGAATTTGGGGGAGTTCTCACCCTCTTAACCCCCATCCCTGTGATGGAAGAGATCCCCATGGAGAGAGTAA
R
ATGGCTTCCTGTACCCCTGAGCTGACTCCCAAGGGGAAGAGCTTACAGGAGGGAGATGGGAGGAAGGCTTCCAACCTCTGCAGAAAGGGCAGACTTTTCT
Celera SNP ID:            hCV8020789
SNP Position Genomic:     82794
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30700):
GCCTTTTGATAGCCAGCAAGGTGTGTTTGCGGGGACAGCTGCGGAGGGCAGACAGAGGCTGCTCCTAGCCATGGAGCATAGGTTGGGAGTACCCAGGAGC
R
CAGGCATCCTCACAGCATGCCCTCAGCCGCTGCGGCCCCAGACTGCACATTTGGGGGTCTGCATCTGTCACATGAGCATCAGTAGCAGGAGTTATGTCCC
Celera SNP ID:            hCV2024123
SNP Position Genomic:     649516
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30701):
GAATTATAAAAAATCCCTACAAGCATTTGGCAAAACCGACTCACACAGGCAAGTACATAGTCATCCCTCATTCTATAAAATATTCATTTACAAAACCACC
M
CAACTAATCCAACCCTCCTAAGACTCCTTTTCTTTTCCATAATACCAAAGTCCAAAGTCAGTGGTGCTATTGGCCTCAAGAATTGTTGATTCAGCCAGGA
Celera SNP ID:            hCV8922164
SNP Position Genomic:     489090
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30702):
TGGGACATGGAGCTAGCAGTGCAGGCCAGGGGAAGATGAGGATGGGGATCCAGAGGGCCAGGAACAGCTGGAGCTACTGCCTAGGACGCCAGACAAGCGT
S
GAGCCTTTTGATAGCCAGCAAGGTGTGTTTGCGGGGACAGCTGCGGAGGGCAGACAGAGGCTGCTCCTAGCCATGGAGCATAGGTTGGGAGTACCCAGGA
Celera SNP ID:            hCV2024124
SNP Position Genomic:     649413
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30703):
CAAATACTAAAGACACCAAGCCTACAGACCAACACCCATCCTCGCCCTTCCTCTATTCTTCCCACCTTTTATAAGAGATGATCAATCCTTTCTCCCATCA
R
AAAACAATTTCCCTATAAATTACCCATCAAAAAATTTTTAGCATAACTCCATTTATGCTTTAGATAAGGAACCTTTAAAAACTTTTAACATAACAGTGAG
Celera SNP ID:            hCV16256907
SNP Position Genomic:     416953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30704):
CTCTATGAAAGCCGGGAGGATGGATGGGCACACACCCTTGGCAAGGATGAGCCTAATGGCATTGCATCATACTGTCATGCAAGGCTCAGACTTGTCTGGT
S
GTCAGGGAAGAGGAAGTGTCTATTCATCTTTACATGATAAAGCACTGTGGACTAAAGGGAAATGTTTAAATGGCAAATATTAATAACCTGAATACATAAA
Celera SNP ID:            hCV2024125
SNP Position Genomic:     646928
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30705):
GAAGCCCAGGGGGGACTTGGTGTGTCCCCTCGGAAGTCTGACTTTATCCTGTAGAGAAGGAGGAGAGACTGGGTCAGAGGAGTGGTTCAGAAAGATAGAC
R
TGGTCCTGATGGAAAAGGTGGATTGAAAGGATGGGAGGGGAACTGGATCCAGGAAGGCCAGTTACTCTTTCGATTCCTCTTAATTTGCTTTTCCCTCTTT
Celera SNP ID:            hCV16256908
SNP Position Genomic:     502292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30706):
ACATAATGTCCTCCAGTTCATACATGTTGCTGCAAATGAAAGAATTTCCTTCTTTTTAAAAGCTGTCTAGTATTCCATAGTGTATGTATATATACCCTTT
W
CTTTATTTGTTCATTCATTCACGGACACTTGGGTTGTTTCCCTATCTTGGACATTGTGAATGATGCTGCGATGAACATGGGAGTGGATATTTATCAGTTC
Celera SNP ID:            hCV2024126
SNP Position Genomic:     646365
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,8)   total(A,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30707):
CATTCTACTCTCTACTCCAATGAGTTCAACTTTTTTAGATTCCATATATAAGTGAGATCATATGATATTTATCTTTGTGTGCCTGGCTTATTCCACTTAA
Y
ATAATGTCCTCCAGTTCATACATGTTGCTGCAAATGAAAGAATTTCCTTCTTTTTAAAAGCTGTCTAGTATTCCATAGTGTATGTATATATACCCTTTTC
Celera SNP ID:            hCV2024127
SNP Position Genomic:     646266
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,8)   total(C,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30708):
TCGTTTGGGGCGATCCCAACCTCTTGGGCTAGGTTGCCTCTAGGGCCAGAGGCCTAAGTATTCCCACAGAGGCCTCATCATTTGTGATAGGCCCAAATAA
Y
TCTCCCTGACCATAAGCCCACACTCTCTGTTTACACCTTCCTCCGCCGTACGGAGCGGCACCTCGTAAGCAAGCTCTGACCACTCTCCCCAGGTTTTTCC
Celera SNP ID:            hCV11859801
SNP Position Genomic:     564156
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30709):
CCTTCTTCTGTCACTCCTTTCTAGTTCCCTCTCTATATCTTTTTAAATATTTTAATTTTAATTGACAAATAATAAACATATTTATAGAGTACAATGTGAT
R
TTATTCTATATGTATACATTATGGAATAAATAAATCAAGCTAATTAACATACCCATCATCTCACCTAATTATCATTTTTTTGTGATGAGAACATTTAAAA
Celera SNP ID:            hCV2024129
SNP Position Genomic:     645599
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30710):
GATAAATGAATAAAATAGTTTGAAAAAGGGGAGTCTCCTCACCCACCCATACCTTCTCCCCTCAACCCCTTTAGTCCTTGTCCTGCCTTGCACTCCCCCT
Y
CCCCTCCCCACCCCAGCCTCCCTGGAGACTTCCCACCAATTACCTGCTGTCCCTATCAATCATCCTCCCTTTTTTTTTTTTTTTTTTTTGAGAGGGAGTT
Celera SNP ID:            hCV11345075
SNP Position Genomic:     9014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30711):
TTACTCCTGGACCACCCCCACACTATTTTCATAAGTGTCATTTATGATGCTGTTTAGTATCTTGTGAAATGAGACTGCTAAATTTACTATCTTCTCTAAA
M
AATGCATTGTGACAATCTATTTTTCTTTTTTTTTCTTTTTATTTATTTATTTATTTATTTATTTTTTTATTATTATACTTTAAGTTTTAGGGTACATGTG
Celera SNP ID:            hCV8020790
SNP Position Genomic:     72763
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30712):
ATATTCATGCAATACCATTTCATGTCCTACCTGTTTACTCCTGGACCACCCCCACACTATTTTCATAAGTGTCATTTATGATGCTGTTTAGTATCTTGTG
R
AATGAGACTGCTAAATTTACTATCTTCTCTAAACAATGCATTGTGACAATCTATTTTTCTTTTTTTTTCTTTTTATTTATTTATTTATTTATTTATTTTT
Celera SNP ID:            hCV8020791
SNP Position Genomic:     72729
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30713):
CCTGGGGGCCATCAACTTGGACTGAATCCTCTTGTTAACAGGCATCATGGTTCACCTGCACCCCTTCTCCACTTCCTCACTTTCACACCTCATTACACCC
M
TGCAGCAGTGCAGTCAGGCGGGTGGCTTGCCTTTGTCGCACATTTAGCAAGTGGGACCACAGCCAAGTCATGCCCTCAAAATTGTAACGCGGGTGATAGC
Celera SNP ID:            hCV25923695
SNP Position Genomic:     473148
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,36)   total(A,71|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:30714):
TGTCCAAGAGGTGGAAACTGGGCAGAAAAAAAAGAAACACAAAAACTTGTGTACAAGCCAGGTGTCTAAGACCAGAGTGAGCAACATAGTGAGACCCCCC
Y
CCCCCCGCACACACACATCTCTTAAAAAAAAATAAAAATAATTAGTCAGACATAGTGGCACACACCTATAGTCCCAGCTACTTGGGAAGCTGAGGTGGGA
Celera SNP ID:            hCV8922311
SNP Position Genomic:     415879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30715):
CCAGGGAGCTTCCTGGAAATGGTTACAGTTTAAGATAGGTCTGGGGTCTTTCCAAGTATCACATCCAGAACTGGACACAGACTGCAGATGTGGCCTGACC
M
ATACCAAATTCTTAGAGACTATCACATCCTTTCATGAACCTTCTACTTTTATTTACCACATTAACATGTGTATTATGCAGGAAACGAGGCTAGATTTGGC
Celera SNP ID:            hCV2024130
SNP Position Genomic:     644924
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30716):
AACCTCATTTATTCAGCATAGACCTGTGAGGTATGTTTCAGTTTTTTCCAGGTTTCAAATGAGGAGGCAAAGACTCTGAGTGGTGAAGTTACTAGTCAAG
S
TCACGCAGTCATTAAGTGGCACTGCTGGGACCTGAACCTTGGCCGTCTGGCCCAGGCCCAAAGCTTTTGCCTTTGCTTTGCCTGTGAGGGCTTCTTGGTC
Celera SNP ID:            hCV2024131
SNP Position Genomic:     643500
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30717):
TTCTCTGCCTCTCAAAAAGTTTCTGTGCTATAAAATGGGGAAAATAATCTCTACTTCAGAGTTTCAAGAGCAGGAGGAAATGAAGAAGTGCCTATCACAG
Y
ACCTCGCACATAAGATGCTTTCTCCTTCTTTGCTCCATTCATCTTATGAAACCTAAGACGATAAAGCATTTTGTTCAGAAGTACACTTGCATTGAGTCAC
Celera SNP ID:            hCV2024132
SNP Position Genomic:     643097
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30718):
TGTAGTCTTAGCTATTCAGAAGGCTGAGGTAGGAGGTTCACTTGAGCCCAGGATTTGGAGGTTACAGTGAGCTATGATTACACCACTGCACTCCAGCCTG
R
ATAACAGAGCAAGACTTTGTCTCTAAATAAAAATAAATTGTTTTAAATGAAAGAAAACAAAAAATATTGGGACGTATCAATTATCCAACTTTGTTCTTTT
Celera SNP ID:            hCV2024133
SNP Position Genomic:     642516
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30719):
CTATTTTCTTGCTATCGAGTTGTTTTAGTTCCTTCTATATGTTCCTTAGATGTTAATCTCTTACCAGATGTGTGGTTTGCAAACAATTTCTCCCATTCCA
Y
AGGTTGCCTCTTCACTCTGTTGATTGTTTCCTTTGCTGTGCAGAAGCTTTTCAGTTTGATGTAATCTCATTTGTCTACTTTTGCTTTTGTTGCCTGTATC
Celera SNP ID:            hCV2024134
SNP Position Genomic:     641541
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30720):
TTCTCTAGACTCTACGCTGTTGTCCTCCATTTCTCCTTTCCTGCTGCTTTCCTTCCATCCTCTCCTCCATCCTCCCCCATCATGCCTCAAAAGTTTATTG
R
ATCCCCTCTCTGTGCCTTGCACTTCACTAGAAAAGCTGGGATATAGACATTTCAAAAAACATTGGCTCGGTCCTCAAGGAACTTACCAATTAACAGTGGG
Celera SNP ID:            hCV952600
SNP Position Genomic:     391852
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30721):
GAGGCCTTGTGGAGGAGGCATCCTATCAACTGCCTCAAAGGAAGAAGAAAATTTAACCAGGCGGAGAATCAGAAAAAGAGTTTTGCAGGCAACAGTGCGG
K
AGGAGTTGGGCCATGTGAAAGTGGTCAAGGGACAGACGTAGGAAGCACCGCTGAAAGGAAGGGGCTGATGGGACTTTGTATCTTGCCGCAGGTTGGAAGC
Celera SNP ID:            hCV2024135
SNP Position Genomic:     637699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30722):
ACCATTTCCATTTTACAGATGACAAAACTAAGGCTCAGAGAAAATAAGTCACATGCCCAAGGTCTGTTCCTTAGTATCAGAGCCAGGATTTAGATCCTGG
R
CTTTGTGATCCCAGAGCTCTTGCCACTGCACTATTCTACCTCCCTACAGATCACTCATTGCTGTGCCGTGTAAATCTCAAGGTCGCTGATGGCCAAAGAG
Celera SNP ID:            hCV952601
SNP Position Genomic:     392425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30723):
ATCAGCCACCGTGTCCACAACAGAGTGTAATATTACAACTTTGTTCAGGGTATTAGATGAGGCCTTGTGGAGGAGGCATCCTATCAACTGCCTCAAAGGA
R
GAAGAAAATTTAACCAGGCGGAGAATCAGAAAAAGAGTTTTGCAGGCAACAGTGCGGGAGGAGTTGGGCCATGTGAAAGTGGTCAAGGGACAGACGTAGG
Celera SNP ID:            hCV2024136
SNP Position Genomic:     637641
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30724):
GGTCTACATCCTCTCCATTGCCCTGGTCATTTGTATTGGAATTATCTCCATACCCACCTGACCCTGAGTTCTCCAGGGGCAGGGGCCGTGGGGCAGGCAA
Y
GCTATACCTTTAGTGCTTAGTGTGGCATTTGGCACGGTTTCCATGCAAAATATTTGCTAAGCTCAGAGTATTCTGTGTGTTCCAGGGACTGTGCTAAGTG
Celera SNP ID:            hCV952602
SNP Position Genomic:     393062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30725):
AAAGACAAGTCTCCCATCCTTAAAGAATTTGCAATTTCATTGAGGAAAGGAACACACACACAATATTTAATTTGCACTCTTCTTCACATTTTGTAAAATG
Y
TGTCAAATCCGCCATCACATTTGAGTGTCACAACATTCCAGTGTGATTGTGGCAAGGATGGTCATCCCCACTGTATCCTTAGGAAGACTAAGGTTTACAG
Celera SNP ID:            hCV2024137
SNP Position Genomic:     637372
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30726):
TAGCTATGTATTTATGGATATAGATGCTTTTTTAAATATGTTTCCACCTGTGTGTGAATCGGTGTCCATGTATTTGGTTTTGGGGATCTGTGTCTGTGCA
Y
ACCTGTGTCAGCATATTGTGTGTATGTGCACTTGTGCATTGTGTATGTTTTGGTTGAATAACAGGCTATTGCAGTAGCTTCAGTGTACTACGATGATGGC
Celera SNP ID:            hCV8922178
SNP Position Genomic:     463335
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30727):
CATTTGCACATGCTCCAGTAGGTAATAGGGACACATAAGTGTTTGAACTGGGAAGTAGTATAATCCGAGTTGCAGTATAGGAAACAGATCTAGCCGCATT
M
CACCAAGTGGATTGGGTAGGGAGAGATGGAGCCCGTGGTTGCGGGGTGTCGAGTTGTACAGTGAGGGGCTGGTGGAGGGTTAAGGTAGGGAACATAACTG
Celera SNP ID:            hCV2024138
SNP Position Genomic:     637111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30728):
TGTACTAAACTACTTTAACCACTCCCACCCAGGCCATATGCCTCATGAGCTGCTACCTAATTTCTCTAGAGAGAGTGATATCACCTTCTCTTCTCCTGTT
K
GGTATTGGCCCCATCAGTACACACAATCCTGGCAGTATCAATGTGACCTCTTTTTGCTAACCTGTTTTTCAATCCTATGTAAACTTCCCTGCAGCATTCA
Celera SNP ID:            hCV952604
SNP Position Genomic:     395700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30729):
AACGAAGGGCTGGTGCAAAGGAGTGCTGAGGGAAGTGCTTAGCAGCCTGGGGGCCTGGAAAATAGGCCAGCTAGCAAGTCTGCAGCCCCGTGAGGGAGGA
Y
AAGGAAATGTAGTCAAGAGTGAGGCTAGGTTGGAAAACAGCTTGGTCCTGGTGTGTAAAGTTAAACATTCACACACTCTATGACCCAAAAGTTCCACCTC
Celera SNP ID:            hCV2024139
SNP Position Genomic:     636002
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30730):
GCACGAAATTTAAGTGATGGGGAAAAAAAAACTCAGCAATTAAGATAAATAACACTTAATGCAAATTTTTTTTAAAAATTAATATTAGTGCAAAATATCC
R
TGTTAAAACACATCAACATTTGAATCAAAGACAGGCTCTGACAGTGCTGGGACTATGGTGAAGACCAGTGAGGTGAGTGATCTGAGCATAGGGTTGGATC
Celera SNP ID:            hCV952605
SNP Position Genomic:     396395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30731):
ATGTACCCCACGTGCATATCTCCTGCAGCAATGGTGGGGCCTCACTAGGAAACCTTATATCTGGGTTCTGCCCCTGGCAGCAGGAAGGATCCAGCTCTGT
Y
TTGAAATGCTGTGTAACTTTCACCAGGTCTCAAAATGCCTGCAGTGACAGCCCTCACACCCCAGGCTCTCGCATCCCAGAGAGCATGTCTGGGGACATCT
Celera SNP ID:            hCV952606
SNP Position Genomic:     397139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30732):
AACATCTCCATGAAGGTTCTTCCACATCAGCAGGCAGTGAACATTTATTCTCAATTAATCTCTGGTTTGGGAAAAAGACAGGGAGCAAAGCCTCAACTGC
Y
GTGTCATCTTGACTTGCCTTTGCTGCTCAGAAATGGACTGTACTTGAGATCTGTCGTGACATTAGCAGTTCAGATGCAAGGTCAGGTTCAGTGAGGAAGT
Celera SNP ID:            hCV952607
SNP Position Genomic:     398486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30733):
ATGGCTAATTTGGACTCCACCTTCTAATGATGTCCTTGCCCTAGTCAGGACCACATTCAAGGCCTGGGCGTGGTAGAGCCTGCAGTAGCCATATGGGTTA
C
ACCTAATCATAAATAAATCACAGATTGGTTCTACAAAGGGGAAGTGGAGGATTCCTGGCAAGTGAGATATTAGGAGCATTTAAAAGTTCTCTTTTCTCTC
Celera SNP ID:            hCV11265974
SNP Position Genomic:     165743
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30734):
GTCTCTGTTTTCTCATCTTCCTGTCTTTCAGAGATCGAGCAGGGCAGTTGCGGTGACCCTGGCATACCTGCATATGGCCGGAGGGAAGGCTCCCGGTTTC
R
CCACGGTGACACACTCAAGTTTGAGTGCCAGCCCGCCTTTGAGCTGGTGGGACAGAAGGCAATCACATGCCAAAAGAATAACCAATGGTCGGCTAAGAAG
Celera SNP ID:            hCV952608
SNP Position Genomic:     399055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:30735):
ACTGTCAGGGTCTCTGTGATGACTGAGAGTTTGGTGTATGAGTTGATGAGTTGGGATGAACCATGGTGATGATACTTTTTAAATGAAAAAAAAAAATCAC
K
TTGTCCAACAAAGCATTTTGATGACTTTTGAGTTTATTTATGTAAAAAGTCTTGAGAGGTTTAAAGATCAAGTCACCCTTAAATACACATTGAACAACTC
Celera SNP ID:            hCV952609
SNP Position Genomic:     400194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30736):
TGTGTTTGCCATCATTGTTAATGGCAATAACCGGAATTACCTTTGCACCAACCTAATACAAAAGATTAATTCATTTCACTCACTCATTCATTTAAAAATG
Y
GTACTGAGTGTCTACTATGGGCAAGTACTGGGCTAGGTGATGGAAATAAAATTGAAGAAAAGCTCAAGGAGGGTCGGACGCAGTGGCTCACACCTGTAAT
Celera SNP ID:            hCV15936841
SNP Position Genomic:     67621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30737):
CAGCATTTCCTATCAGGATGTCCAAGGAATTAGTCAACACTTTCCCTGCCAGGCCAGTGTGAGTCACATACATCACTTGTTTCCTTTATGCCTAAACAGT
S
AGGTACTTTATAGGAGAAGGAAGTGTCTTTGGTGGCCCTGCGTGGTCTAAAGTAGACCCAAACCCAGCTAACCATTAGAATCACTCATAGGCCTTTTAAA
Celera SNP ID:            hCV8922322
SNP Position Genomic:     408204
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,8)      total(G,1|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30738):
GACACGGTGATTGATATAAAGGGGTGTGAACGGGGTGGGTTACCATTTTAGGAAAGGTGGTTAGGGAAGGGTGACATTTGAACTACGGCCTCCATGATGA
R
AAGGGCTAGCCCTGTGCAGAGCAGGGTGACATTCCTGGCTGAACGAAGGGCTGGTGCAAAGGAGTGCTGAGGGAAGTGCTTAGCAGCCTGGGGGCCTGGA
Celera SNP ID:            hCV2024140
SNP Position Genomic:     635860
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30739):
GCATCATCATTTTTAATGGCTTTAAAGAATTTCCTTGTAGATACAAGTTATTTAATCTTTTTGCACTGGTGATGAATTTAGATTATCTCCAACTTAATCA
Y
GTTAGAAGCAGTTCTGCAATATGTATTCCTGAAAATTGCCTTTCTTGGCCGGGTGAGGTGACTCATGCCCATAATCTCAGCACTTTGGGAGGCCGAGGTG
Celera SNP ID:            hCV2024141
SNP Position Genomic:     632386
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30740):
ACAGTTCAGCTTTTGATGGTGTCCCGTGTGAATCACTGTGCATTTTTGAATAGATAGTGATATGTATACATTTTCTAGAACTGGTATTGGCTCATGCTGT
R
CATACTGTTTCATAACTTGTATTCACTGATAGGCCACCAAAACCTTTCCATCAATACCTTTCTACCTTTCTTTATCAATATTTACTGATCTATGCATCAT
Celera SNP ID:            hCV2024142
SNP Position Genomic:     632192
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30741):
TCCCAGTGCTATATACATGTCTGTTTTCATGAAAAATGACCTGCACAGAAAAGACTTCTGGGAAACCTGTGATTTTCTGGTGAGTTGCTTTATTTTTTAT
M
CACCTGGCCCAGTTGTATCCTGAGGAGCCCCAAATCTATTCCAGGGCTTACTCTTTACTGAGATCCCCAGTAAGCAGGTTCTGGGTCACTTATTCTTGTC
Celera SNP ID:            hCV2024143
SNP Position Genomic:     631584
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,15)   total(A,15|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30742):
CTTGGGCTTTCCCTTTTATCTCTTAGAATCAAACCCCAGAGCTCAACCTGATTCTCTTTTCACTTCAAAGATGCAGCTATCTGCCATCTTTGTTGCTTCG
Y
TCTGTCCTTGTACCCGACCCCACCCAGTACGGGTTCCTGAGCACGGTGTAGCCTCACAGCTCCAATTTCTTGCTTCTCTCAAGGGTAGTCCCAGTTCTTT
Celera SNP ID:            hCV2024144
SNP Position Genomic:     629412
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30743):
GATACTACGCCACAGGCCTGCTCAGCCGTCACTGCTCGGTCAATGGTACCTGGACAGGCAGTGACCCTGAGTGCCTCGGTGAGAGCTCAGGCCCTACGGG
Y
TCCATGGCCAACAGTGGCCCAGATCCTGCATGCCAGAGGAGAAGGCTATCCATGGAAGATGGTGCAGAATGGTTGGGATGGTCGGACTTGAACCTGAACG
Celera SNP ID:            hCV2024145
SNP Position Genomic:     629001
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,27)   caucasian(C,6|T,34)   total(C,11|T,61)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30744):
GGAGGATTCACATGGGAAGCAAAACCAGCCAGCCTCTTAGGACCAGGATAAGATTCACTGTCCCCCAAGCTGAAAGAGGCAGGTAGCAGAATGCCAGCTG
R
GGGACTGTTGCTTGACCCCTCCAAGAGTTTACTTGGCCCTTTGGCTCTTAGGAGCAGGTTTATAACATCCCTGTAAAACCTTCACCAAGGGCAGAAGACC
Celera SNP ID:            hCV952610
SNP Position Genomic:     400745
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30745):
AAGCCAAGCATCTTCTCTCTGGATTTTCATGTACTGACCTATCCAATAGGGTAGCACTCCATTGTGGCTCCAAATATTCTAAGCCTCTATGATCATATTT
R
TAGAAAAAGATGACTATGACATGAATAGTCCTCACATTTCCCACAATAAATACCTGGAAGCTACTTTGAAAGTGGATCATTACAGAGCAGGTCATACTTC
Celera SNP ID:            hCV952611
SNP Position Genomic:     401564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,10)      total(G,10|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30746):
ATACACAAATACACTCTTCCTTCATGTTCCAAAACATTTTCTGTAGCAAGCAGAGACTTCAGAATCATTTTGTTGGCTTTTGAGCTGCCCTCACAGTAGT
R
GATGCTCAATAGATAGTCTTTTTTTAATTTAGGTTTTTAAGAAGATGATTTATCTCACAGTGAAAAACGTTTTGAAAGAAAAGGTGGAGCTAGCTTCTTT
Celera SNP ID:            hCV952612
SNP Position Genomic:     402176
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30747):
TCATTTCTTTGTGGTGAGAACATTTAAAATTCTCTCCTACAGCTACTTGGAAATATACAATACATGCATCAAAACATCACTTCCTACCCCATAAATATGT
R
CAATGATTATTTGTCAATTAAAGATAAAATGAAACTTTTTAAAAAGTAATAAATAAATAAATAAATGCCCAAGATCAAGATTCAAGCTAGGCGGTTAAGA
Celera SNP ID:            hCV2024148
SNP Position Genomic:     624775
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30748):
CTGCAAATGTAAGGACAAGGAAGCCTTAGGATAAAAATACTAGGCCAGAGTATAGAAGCAAACTGCTGGCCGAGTTACCTGTATGAAGCAACAAAGGTTG
W
CAGGAGTTAGACAAATCCAAGAAAGGTAGATTTGTGACCCTTACTGGAAATCTATCAATATTGTATACCCCCAACATACAATATACTGGGGTTGAAACCT
Celera SNP ID:            hCV952613
SNP Position Genomic:     403963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30749):
TTACCTGTATGAAGCAACAAAGGTTGACAGGAGTTAGACAAATCCAAGAAAGGTAGATTTGTGACCCTTACTGGAAATCTATCAATATTGTATACCCCCA
M
CATACAATATACTGGGGTTGAAACCTCTTCCTAATCTTTACATTTTCTCTGTTCCTTCTACCCGTTCATTTATTTATCCATCTTGATTTATTGAGTACCT
Celera SNP ID:            hCV952614
SNP Position Genomic:     404037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30750):
AGCCCAAGAATAGCCTCCTCATGAGCCCTCTGTGTGTGTGCACGTGTTTGTATTTCTTTTTCCCAGAAAACCCGCGGGAGTCATGTTTTGATCCTGGTTC
Y
ATCAAGAACGGCACACGGGTGGGGTCCGACCTGAAGCTGGGCTCCTCCGTCACCTACTACTGCCACGGGGGCTACGAAGTTGAGGGCACCTCGACCCTGA
Celera SNP ID:            hCV25758932
SNP Position Genomic:     535174
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:30751):
TTTCTCGTTTAGGTCACATATATATTGCTTGTAAACTTTGTTAGCTTCACTAAACTTCAAATATTTGTGTGGCCATTTAAAAGTTGCTAATTTAATAGCT
R
TAAGTTGAATCTATTTCTGTAGCACACCTTTGTGGACTACTGTGAAGTGCCCAAGGTTAAGTGCCACGAATTCAGAGATGAATTGGGCACGGTCCGTGTC
Celera SNP ID:            hCV952615
SNP Position Genomic:     405054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30752):
TTCAAATATTTGTGTGGCCATTTAAAAGTTGCTAATTTAATAGCTGTAAGTTGAATCTATTTCTGTAGCACACCTTTGTGGACTACTGTGAAGTGCCCAA
K
GTTAAGTGCCACGAATTCAGAGATGAATTGGGCACGGTCCGTGTCCTCAAGGAGCTCTTCTCATGTGGAGATAGACACCATTATATAAATGAAGTGGGCC
Celera SNP ID:            hCV952616
SNP Position Genomic:     405109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30753):
GTTTTTCAATGAGAAAACATTGATGCTATGAATATTAGGTTCATTCTTTTATTTAACACATATTTATTGAGTGCCTGCAATGTGGTGGGCATCATAGTGG
S
TGCTGAACAGAAGAGCAACAGCCCCTCTTCTCATGGGGCATAGACTTGACATCTTCTCTGTTAGAATGGTTGGGCCCGAAAGATGAGAGGCCCTGCTGGA
Celera SNP ID:            hCV952617
SNP Position Genomic:     405328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30754):
GTATAGTTGTCTTACATTTCTATATAAACAAGTCTCTCAGTATTTGTGATTTATTTTCAAAGCTGACAAAGTTATTCTGCCATGGATCTGAGAAACAGTT
Y
GTTCTATTTTTGGTTATTTGTCAGTAATTTGATTTTTTAAAATATAATTTGTTACTCCATCTGGAGTTTACTTAGATGAATGTATAATATTGTCCAAACT
Celera SNP ID:            hCV952618
SNP Position Genomic:     406117
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:30755):
TGGATGAAGGAATGGGTCACAAAGGAGGCTGCTGGTGTTGCCTCTCAGAATGTACAAGGAGGTGGAGTCAATTCTTGTCCTACCAGGCCAGTATGGGTCA
Y
ATCATTGCCTGTTACCTTTGTTTTCAAATAGGCAGATACTTTATGGGGGAAGGAAGATTCTGGATTGACTCATGTCCTCACCCAAGGGAATAGGGTGTAT
Celera SNP ID:            hCV952619
SNP Position Genomic:     407595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30756):
CTCACCATCAAGATTGTTTCCAGGGAGACCCAGTTCTGCCTGTTGTGTGAATTACATCCTGGCAACCTTCAAAAGATAAGAAAACCTAGCCAAATGCGAT
R
AGCTCTCTTTTATTAATGTTTACATTGAAGGTTGAAAATGAATCCCTCTTCCACGGTGGGAAACAGAATGGAGAACATGTGGTTAGGTAGTGTCTCACAG
Celera SNP ID:            hCV2024150
SNP Position Genomic:     624003
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30757):
CTGGGACTGTAGAGGCAATCTTTCCAGCTAGGGGTAAGAGAGCAAAGGTATGAACATAGGGGAAAATACAGGATCTGGCCACGAAAGGGCACTCACTTGA
Y
GTGGCTGGAGCTGCGTGCATGTGGGCAAATAAGGCTGTGTGGGTAAGGAGGAGTCTTTACACACTGAAGGCCAAGACAAGAACTCTGAATGGATTTCTCA
Celera SNP ID:            hCV2024153
SNP Position Genomic:     486076
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30758):
TCTAGAAGTTTAGGGATCATCTGCAAATGTAAGGACAAGGAAGCCTTAGGATAAAAATACTAGGCCAGAGTATAGAAGCAAACTGCTGGCCGAGTTACCT
K
TATGAAGCAACAAAGGTTGACAGGAGTTAGACAAATCCAAGAAAGGTAGATTTGTGACCCTTACTGGAAATCTATCAATATTGTATACCCCCAACATACA
Celera SNP ID:            hCV8922339
SNP Position Genomic:     403943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30759):
TCCAGCTCTTCAGTGTACCTGGCCAGGGTGAAATCAGGCAGACTGAAGGGATGGCTCACGAAGGAGGCTCCCAGCATTTCCTATCAGGATGTCCAAGGAA
K
TAGTCAACACTTTCCCTGCCAGGCCAGTGTGAGTCACATACATCACTTGTTTCCTTTATGCCTAAACAGTCAGGTACTTTATAGGAGAAGGAAGTGTCTT
Celera SNP ID:            hCV952620
SNP Position Genomic:     408133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30760):
CTTGCAGGGAGCTCCCCCAGGCTACCTGTAAACTCCCTTGGATTATCGTGTTTCCCCTGGAAGAAAATCCAAATGTACTTCCTTGTGTCATGGAGAACAA
Y
CAGCATGTATTGTTTTCCAGTCTTCAGTGGGTGGTGGTCTGAGGCATGAATGGACCATGGCAGTTCTAGACTCCTTGAGTGAGGATGCTCTGACGAACAG
Celera SNP ID:            hCV952621
SNP Position Genomic:     409954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30761):
TGGCTTGGTCTGGCTACGTATATTTTCCAAAGAACTTATGGTCTGTTTTCAAGGTAAAAGCTGAGCCCCAAGAGTGTGGACTCAGCTACTTCCCAGTAGC
M
TAGGGCAGGAGGCCTTTTTTGTGCTTTGTTCCATAAGGTATCAGAATCTTTCCTGTGAGCTGGGGATATGAGTTCCTCAGCCAGCCACTGAGGAATGCAT
Celera SNP ID:            hCV952622
SNP Position Genomic:     411333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30762):
AGCCTGGCCTTGGGAAAGACCTCTAAACATCTCAATGAAGAGGGCCTAAAGGCCGGGGTAAGCACCTGGAATGGTTTGGTGGGGACAATGCATTATTCCA
R
AGGTGTGGCAAGAATCAGTCATGGCCACAGGGTAATTCCAGGCAGTGGGTAATTTCCAAAGGTTATGCTGATGAACAGTCATGTAATTTATACCAAGAAC
Celera SNP ID:            hCV952623
SNP Position Genomic:     411550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30763):
GACAGAGAGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAGAAAAAAAAAGAAAAGAAACTCAAGCTCTGTATGATTAACCCCTTCCTACCTCTCTCCCC
S
TCATCCCATGCCGCTCTTCCATCAAAACTCTTGCCTACCTCAATGCCTTTCCACTTACAGTTCACCATGTTGGAGTGTCCCTCACAAGACTGGCTCCATC
Celera SNP ID:            hCV952624
SNP Position Genomic:     412469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30764):
CTCTCTCCCCCTCATCCCATGCCGCTCTTCCATCAAAACTCTTGCCTACCTCAATGCCTTTCCACTTACAGTTCACCATGTTGGAGTGTCCCTCACAAGA
S
TGGCTCCATCTCATCATTCCTTAACTGTCACATTCCCAGAGAGACCATCTCTAACCACCTTATCCAGAAGAGCGATGTCACTTTTTATTTCCTTCATACC
Celera SNP ID:            hCV952625
SNP Position Genomic:     412559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30765):
GTTGATAGGTGCAGCAAACCACCATGGCACATGTATACCTGTGTAACAAACCTGCACATTCAGAACATGTATCCCAGAACTTAAAGTAAAATTTAAAAAC
R
TATATGTTTCTCTATAAATAAAATGATAAACTATAAATCTTAACTAAATATATGTATATAAATAAAATATTCATGCACATAAACTAAATACACACATACA
Celera SNP ID:            hCV11265992
SNP Position Genomic:     155059
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30766):
TCAATACTTGAGCTAGGTGGAGACATTTCAAAGACCACTGGATACACAGGTCTGGCGTTCAGAAGAAATGTCTTTCCTGCAGGCATACACTTAGGAGTTA
Y
GTGAGGATGAGGTGCCCTAAAGAGGACAAGCAAGTGAGAAGATGACCCTGAAATGGATCTGTTCATATTTCAAAAGGTAAAAGCCAGGTAGAGAGGAAAG
Celera SNP ID:            hCV952626
SNP Position Genomic:     415524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30767):
GAACAGAAAACCAACACCGCATGTTCTCACTCATAAGTGGGAGTTGAACAGTGACAATACATGGACACAGGGAGGCAAACATCACACTCTAGGGCCTATT
R
GGGGTGGGGGGAAAGGGAAGGGAGAGCATTAGGACAAATACCTAATGCATGAGGGGCTTAAAACCTAGATGACGGGTTGATAGGTGCAGCAAACCACCAT
Celera SNP ID:            hCV11265993
SNP Position Genomic:     154883
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30768):
TTTTTACCTTGTAACTTTGTACACACTTGCACATAATTGAAACATACATTTCACAAGCAGTACTTACCTTTACTACTTACATTGAACTCAGATATTTCCT
R
TGCTCTTCCTTTATTAGCCCATTCTTGCATTGTTATAAAGAAATTTCTGAGGCTGGGTAATTTATAAAGAAAAGAGTTTGAATTTGGCTCACAGTTCTGC
Celera SNP ID:            hCV952627
SNP Position Genomic:     417161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30769):
GGTCTCCAGGTGAGTATTCACAGGTCTGTAGCAGAGTTCTCAGCTCCAGGGAGGTGAAGAAGCCGAGAGAGAGAGAAACTAGCATTTATTGAACATCTAC
R
TGCCAAGCACTGTGCTCAGTGGTCTCATGCATATCATCACATCTAATCCTTGTAGTAATTTGTGAGGAAGCAATTATTATTTCCTCTCTACCTCTGAAGA
Celera SNP ID:            hCV25754803
SNP Position Genomic:     519542
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,36)   total(A,1|G,73)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30770):
CCTTTTGAACCCATCCTTTAGAGACCAAGGCAGGCAACCCCATTCCTAGGGCACTGCTTATGCATCAGATGCCACTTAACGATGATGTCCCAGGCATTTC
R
TTTATTCCCTAGCACACCTAAGGGGCAGGTACTGTTTGATGGAAGTGTGACAAGTGGTCACATGATAGGACAAAGGGGCATCAATGCCTTTGTGACCTCA
Celera SNP ID:            hCV25993653
SNP Position Genomic:     301486
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,40)   total(A,74|G,4)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:30771):
AATGAGTCTCATGTTGCTGAAACCCAGTGGATCATTTTCAGCCTAGATGATACATGGCGCTCAGCAGTCTTTCAAAACAGATGTCCCTTCCTCCTTCTGG
Y
AACCCTCTTTCCTTGTCTGTATGACACCACTCTCCTGTGTTTTCTCCTACCTCTTGACTGCTTGGTCCCTGTCTGCCCTGCCAGTCCCCTTTCTCTCAAA
Celera SNP ID:            hCV952629
SNP Position Genomic:     420398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30772):
TGGTACATGGAATGAAGTGTGGACCTAATTTTGTCATTAACTGGCTAGCCATTTGTTCTAGCATCAGGTATTGATCAATCAACCCTCTCTCTGCTAATTT
S
AAAAGCCCCCTTTATCATATATTTTTGGTTCCTTTTCTGGACTTTCTTTTCCAGCTCTGTTGATCTCTCTTTTGAAGTCAATATAGTATAAATTATATTA
Celera SNP ID:            hCV11859693
SNP Position Genomic:     421023
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30773):
TGTTAAGTCTAGTAAGCTTGTTAGCTGTTTGAACTTCTTTTCTTCTGAATTACCTATTTATATTCTTTGCCCATTTAAAAATTGGATCTCTTGCCTTAGA
R
ATCTTCCGGTTGATTTGTAGAAGTTTTGTTTATAGTCTAGGTGTTGCCCTTTGTTAATTTTAGAAGTTGCAGATAGCTTCTTCTAGTCTTTAATCCATCT
Celera SNP ID:            hCV28017741
SNP Position Genomic:     17233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30774):
TTGTAATGGGCTCATTATCCATGTTTTAAATATGATATTTGGATTTTGTATTAGGTCTCTATAAAGGACTACTGAAAACTCTCTTTGTTTGGTGACAACA
C
CAAAAGAAAAACATAATAAAAGAGGGGTCTTCAACAAGCCCCTTTTATTTTCTACTCAAGCTCATGTTAAATAATAACCTAATATAATGCACAGTAATTA
Celera SNP ID:            hCV11859696
SNP Position Genomic:     423145
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,5)   total(C,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30775):
CCATTTATGTAGAAGATGCATAGCATTACTTACAAAAGAGGGAAAAAGTGAAAATGAAATAAGTGGCCAACCGTAAGAGAGAAGTTAAGCTGTTACATCA
R
AATCTTAATTGAAGTCTCTTGACAGTCCTGTAGATATGGTTACTCTTACCACCTCCGTTTTACAGATGGAGAAAACAGAGGCTCAGGGAGGTGAAGGAGG
Celera SNP ID:            hCV28017742
SNP Position Genomic:     32769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30776):
TCCAGCCTGCTTCTCACCATGGCACCCTCGATATTCAGGACTATGGAGTTTCTTTGTTGTAAGGAGAGGTCCTCCACCTTGTAGGATATTTAGCAGCAAC
Y
GTGGCCTGCCAGTAGCCCCCCTCTCCCCATTGCAGAGAAGAAAAATGTTCTCAGACATTGGCCAATGTCCCAGGCAGGGTTGGGGTGGAGCAAGCTTGCT
Celera SNP ID:            hCV28017743
SNP Position Genomic:     110062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30777):
ATATTGGGAAACTTACGGTAGTTTGTGCTTTTCAAGTTTGTGCCCATTTCATTTAATGTGTGAAATGCATGTGTGTAATTTGTAGTATTTCCTTATTATC
R
TGTTGTTAAGTGCAGGATCTGTTTTCCTTAGCCCTTGCCAACTCTAGATAGGTGAAAAATGAGTCTTGGGGTTTCAGTTTTCACATTTTTATATTAATTA
Celera SNP ID:            hCV28017744
SNP Position Genomic:     136153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30778):
GGAAAATGTCTTGGAGGAGGTAACATTGTAAACCAAAGTCTGTTAATGCAAGGCGTTAGTCATGCCAAAGGAAGAGGAGAGGAAGCTCAAGCCAGGGGAA
Y
AATGAGTTAGTGAAGGAGCCAGTGAAGCCTCCCAGCCTCATGTGAAAGGCAGCAAATCCTCGTCTTCCTCCAAGCAGTGCCTCCCCTCTTGGAGCACATC
Celera SNP ID:            hCV9956952
SNP Position Genomic:     393703
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30779):
AGCATCATCAATAACAGGTCATGTTGAGATCACAGAACCCCTTTCTGTGTTGCCATAATAACAGCATCTCACCGCCATGATATTCTTCCCAAAAATCCAT
R
GCCAAGGTCTATGAAAAAACATTAGACAAACTGAAATAAAGAACATTCTACCAAATACCTGATCAGTACCCTTCAATAATGTCAAGATTTTAAAAAACCA
Celera SNP ID:            hCV28017745
SNP Position Genomic:     311373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30780):
AGTAGGTAAACAAAGCGGCTGGGAAGCTCGAACTGGGTGAAGCCCACCACAACTCCAGGATGCTGGTCTGCCTCTGTAGATTCCACCTTTGGGGACAGGG
Y
ATAGCCAAACAAAAGGCAGCAGAAACTTCTGCAGACTTAAATGTCCCTGTCTGACAGCTTTGAAGAGAGTAGTGGTTCTCCCAGCACGCAGCTCAAGATC
Celera SNP ID:            hCV28017746
SNP Position Genomic:     335283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30781):
ATCCTGGCAACCTTCAAAAGATAAGAAAACCTAGCCAAATGCGATAAGCTCTCTTTTATTAATGTTTACATTGAAGGTTGAAAATGAATCCCTCTTCCAC
R
GTGGGAAACAGAATGGAGAACATGTGGTTAGGTAGTGTCTCACAGTCTGAGTCGAGACTAGGAAAGGGAATAATCCCAAGGTTGAGAAGTGGAAAAGACA
Celera SNP ID:            hCV16116729
SNP Position Genomic:     624058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30782):
AAAAGTGGTGATAATAGAACATTACTTTGTGGGGTTACTTTGAGGACTAGATGAGGCAGTCCTTGTTTAGAAGTGATGCCAGTACGTCTGTGAGACTTAT
R
TGCACACGTATTCAGCTTAACCTGCTGGGCACTGTCCGCATAAGCTTCCTCAAGCCCTGGAGCAAACCTCAGCCTCTAGTTGCTGCAGGTTCTTTTAGAA
Celera SNP ID:            hCV1948300
SNP Position Genomic:     354067
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30783):
TGATAATAGAACATTACTTTGTGGGGTTACTTTGAGGACTAGATGAGGCAGTCCTTGTTTAGAAGTGATGCCAGTACGTCTGTGAGACTTATATGCACAC
R
TATTCAGCTTAACCTGCTGGGCACTGTCCGCATAAGCTTCCTCAAGCCCTGGAGCAAACCTCAGCCTCTAGTTGCTGCAGGTTCTTTTAGAAGCTGTCTT
Celera SNP ID:            hCV1948301
SNP Position Genomic:     354075
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30784):
TTTGAGGACTAGATGAGGCAGTCCTTGTTTAGAAGTGATGCCAGTACGTCTGTGAGACTTATATGCACACGTATTCAGCTTAACCTGCTGGGCACTGTCC
R
CATAAGCTTCCTCAAGCCCTGGAGCAAACCTCAGCCTCTAGTTGCTGCAGGTTCTTTTAGAAGCTGTCTTGTCTAATCCTATTGCAATCATACAGTTTGG
Celera SNP ID:            hCV1948302
SNP Position Genomic:     354105
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30785):
AACTGAGCCCTCTGGATACTTCCTCTTACAGGGGGCACTTTGAATAAGGTGAATCTTCATAGCCCAAGTTGCAGCGGTGCATAAGGACAGTGTGGGCAAG
S
ACAGGACTGATGCCAGGGATTTGACAAAACAAAATTTAAAATGGGCAAGCTGGGTGTGGTGGCTCATGCCTGTAGTCCCAGCTACTCAGAAGGCTGAGGT
Celera SNP ID:            hCV16168739
SNP Position Genomic:     630019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30786):
AAAGAGGGGTCTTCAACAAGCCCCTTTTATTTTCTACTCAAGCTCATGTTAAATAATAACCTAATATAATGCACAGTAATTACACATCTACCTGTTAATA
W
GTTTCCCACCTTTATTATTTGTCAACAGTCTGACGCTTCTGACTTAAAAGTTTAGTCGACATCAAGATCCATGAGCACAGTCTGGTCACTACTCTGAAGG
Celera SNP ID:            hCV952631
SNP Position Genomic:     423264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30787):
ACGCCTTCTAAGACTCCACGGTCACATAGGCCCAGGGGGAAGTGTTATTCTCATACTGAGAGACATGGTGGGGGGTTAGTAAGAGCTTGGTCTCTAGAAT
Y
AGGCTGCATTGATTTGGCTTTGGCGCTACCATTTACTGGCCCTGCATTACTTAACCTCTGTGTGCCTCAGTGTCTTCATCTTTAAATGGGGTTAATAACA
Celera SNP ID:            hCV952632
SNP Position Genomic:     425712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30788):
AAGACTCCACGGTCACATAGGCCCAGGGGGAAGTGTTATTCTCATACTGAGAGACATGGTGGGGGGTTAGTAAGAGCTTGGTCTCTAGAATCAGGCTGCA
Y
TGATTTGGCTTTGGCGCTACCATTTACTGGCCCTGCATTACTTAACCTCTGTGTGCCTCAGTGTCTTCATCTTTAAATGGGGTTAATAACAATACCTACC
Celera SNP ID:            hCV952633
SNP Position Genomic:     425721
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30789):
ATATGTCCTGGGCTTCCCTGAAGGCCCAGGGCTGAGATAGATATTAGAGTAAAGGGTCTTTTTATTTTGGCAATTTTAAGGTTTTTATTTTAAAATCTTT
Y
GTTTTCAATTAATCGCAATTACTATTCTGTGATTTTTAGGACAGTTTAGGTGAACCCCACCTTAAGAATGAAAACGAACAAAACTCTTTCCATTCCAAGA
Celera SNP ID:            hCV1948305
SNP Position Genomic:     354616
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30790):
TGGTGAAACTCCGTCTCTACTAAAAATACAAAACAAAATTAGCCGGGCGTGGTGGCGGGCGCCTATAGTCCCAGCTACTAGGGAGGCTGAGGCAGGAGAA
Y
GGCATGTACCTGGGAGGCGGAGCTTGCAGTGAGCCGATATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGGGAGACTCCATCTCAACAACAACAACAA
Celera SNP ID:            hCV26469300
SNP Position Genomic:     282862
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30791):
TGTGAAACACTGTTAAACTAATTCTGTTCAGCCCCAGATACAGGCAGAGTCCATAGATATAGAGCTTTTCAGACTTATTTTACATATGGAGCCCAATATT
Y
AAAAATAAGTTTTTGCAGAACCCTAATAAATAAAACAGATACAAGTGGAGCATCTCTGATTAAAGTTGGGTCAGGGGATTTCTAGTCTCCCCTCCATCAC
Celera SNP ID:            hCV1948306
SNP Position Genomic:     355178
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30792):
AGGTGCTCTCCGAAATCCCTGAATGCCTGCCTGCTGCTGACCTCTGAGTTCGTGCCGGGGCTGCTCACTTTGCTTTGCCCAGTTCCCATTCCCATAGTCA
M
ATCAGAATCAAAGCTTTGGAGCAACACTTCTGTTGGGCTCCCAGACTTACTGGGGACAACTCTTAGGGAATTTCCTCATAGCCCCTCTGAGGGCCACCAT
Celera SNP ID:            hCV952635
SNP Position Genomic:     428935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30793):
TGTTATCCAGAGTTCTATTTTCAGATCTCTTCTCTTCTTTCCTCTCTTCTCCTCTCCACTTATTTTCCCTGGATGACACATACTGATTGTACTAGAGTAC
R
TGCCCCATTGCTCCAGCCCTGAGAATGTCCCTCAGTCCCTTACCTATATGTGCTAATGATAAAGCTCTTATTTATTAAATTATGTATACTTGTATATAGC
Celera SNP ID:            hCV1948307
SNP Position Genomic:     355884
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30794):
TAGAAGAAAGAGAACGGACTTTGGAGTCAAAGAGATGGGTTTGAATTCTGATTCCTCCACTGAAAAATGGTCGTATTTAAATAAATTTAAAAAAAAAAAC
S
TCTGAGTCTCAGTGTCCCCCTCTGTAAAATGTGCAGCTAATTCTTCTTCAGTCATGCTGAAGGCTGAGTGAGAACAAACTAGTGATGGCACTCAGCACAA
Celera SNP ID:            hCV26469301
SNP Position Genomic:     284761
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30795):
TTCCAAACTGATGTCTTCTAGGCAACTGATGAAAGGAGGAAGAAGAAAGGGACTTGGAACAAGCAAGAAAATGAGCCTAATGGTGGCCCATGTGATCAAA
W
TTGCATAAGGACAGAAGACAAGACCGAAGGAGCTGATGGGTAGAGAGGAGATATTGCTGTCAACAGAGTGGAGGTCTCAGTGGGGAAAGATGAACTCTAC
Celera SNP ID:            hCV1948308
SNP Position Genomic:     357585
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,4)      total(A,4|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30796):
AGGTCCATGGTGGTCATTGGCCGGGGGCTGACACTGCCTCTAGAATTATACGTGATGATATCTGGAGAACACTTAGAAATAGGGCTTAGTCCATAGTAAA
Y
GCCCAAAGCATGTCAGTCATGAGCATGACATTTATTATAAGAAATACCCTTCCTCTTTGGACAGAGCTAAGGAGCATACATTTGCTCTCACTAACCAGCC
Celera SNP ID:            hCV26469302
SNP Position Genomic:     296333
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30797):
TCCTAGACCTGCTGAATTAGAATCACTAAAGGGATGGGGCCCCAGAATCTACATTTTTGGTAGGCTTCTGAGGCGATCGGATGCAGTCAGTGAAACAATC
S
TCCATGGCCAAGTGTCAGGGAATTAGTGTAGTCTCTCCCATAGGACTTTAATCTCCTCCTACATCCCAACTGATGATCACTGAGGCTGAGCTTGAATTTG
Celera SNP ID:            hCV952636
SNP Position Genomic:     430356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30798):
TGGGTCACTGTGATGAACTTTCTATCTGTTGATGGGATCCCATGGAGCTGGCTGCTCAGGGTGATGTCTGTCTGTCTGTCCACAGAACCCCTGACTTTGC
Y
CAGATAGCAGAGGAAAAAAGTAGCTAATGCTTCATTTTGAACCTAGTTTAAGGTGCTCTATGCTATCTGCAGACTGTAATATTTTAATTAAACCCCTCTA
Celera SNP ID:            hCV1948309
SNP Position Genomic:     358388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30799):
TTCATGAAGGGAATGGCTCAGAGCTTTCTGCAGAGGAGCTCAAAGCCACTTTTCTATAATCAACTACATGCATTACAGGGAGTGATTTTTTTTTAATTCT
Y
CCCAAGCCAGATTCCATTAATGAAGCCCCACTTAACAGAAGTCAATTTACCAAAAAGAAAAAAAAAATTGAGTGTAATTGCTTAAATACATTTTATGTTG
Celera SNP ID:            hCV26469303
SNP Position Genomic:     320910
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:30800):
ATCTACATTTTTGGTAGGCTTCTGAGGCGATCGGATGCAGTCAGTGAAACAATCCTCCATGGCCAAGTGTCAGGGAATTAGTGTAGTCTCTCCCATAGGA
Y
TTTAATCTCCTCCTACATCCCAACTGATGATCACTGAGGCTGAGCTTGAATTTGCCCAGTGTCAGGGAGCTCGCCTCCCCAGACAGCTCTCTCCATAGCT
Celera SNP ID:            hCV952637
SNP Position Genomic:     430402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30801):
CCAGTGAATATTAAGCATACTATCGGGGGTGTGCATTAAATTGTAGCCAGACCATTGAGCCAGCCCCAGGTTCCATTTTACCTCCACTGCATTGATAGTA
M
AAAACTTCTTTTTACAGACAAGTGGTTCAGTATAATATCATTGGGACAAGGCTAGTGGGTGCTCCATGAAAAAAAATCCATGTACAAACAACATGAATGA
Celera SNP ID:            hCV26469304
SNP Position Genomic:     334261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30802):
AATCCTCCATGGCCAAGTGTCAGGGAATTAGTGTAGTCTCTCCCATAGGACTTTAATCTCCTCCTACATCCCAACTGATGATCACTGAGGCTGAGCTTGA
R
TTTGCCCAGTGTCAGGGAGCTCGCCTCCCCAGACAGCTCTCTCCATAGCTAGCAGGCACTCTAGATTTCAAGTCAACTTATGTTGACTTGAAATCTGTGT
Celera SNP ID:            hCV952638
SNP Position Genomic:     430452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30803):
AGTGAATATTAAGCATACTATCGGGGGTGTGCATTAAATTGTAGCCAGACCATTGAGCCAGCCCCAGGTTCCATTTTACCTCCACTGCATTGATAGTAAA
R
AACTTCTTTTTACAGACAAGTGGTTCAGTATAATATCATTGGGACAAGGCTAGTGGGTGCTCCATGAAAAAAAATCCATGTACAAACAACATGAATGAAT
Celera SNP ID:            hCV26469305
SNP Position Genomic:     334263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30804):
GGGAATTAGTGTAGTCTCTCCCATAGGACTTTAATCTCCTCCTACATCCCAACTGATGATCACTGAGGCTGAGCTTGAATTTGCCCAGTGTCAGGGAGCT
Y
GCCTCCCCAGACAGCTCTCTCCATAGCTAGCAGGCACTCTAGATTTCAAGTCAACTTATGTTGACTTGAAATCTGTGTCCCTGTAACAAGGATCAGTGGT
Celera SNP ID:            hCV952639
SNP Position Genomic:     430474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30805):
GGTTCCATTTTACCTCCACTGCATTGATAGTAAAAAACTTCTTTTTACAGACAAGTGGTTCAGTATAATATCATTGGGACAAGGCTAGTGGGTGCTCCAT
R
AAAAAAAATCCATGTACAAACAACATGAATGAATATATCCCAGAAATTCTCTATGTTCTTTCTATGTTGTTCATCTTCTTGTTTTGACCTTCTTTTCTGA
Celera SNP ID:            hCV26469306
SNP Position Genomic:     334329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30806):
ACTGGGAGCATTAAATAAATTAATACACATAAGATAGTTAGACCGGTGTCTGATCCAGATGTTAAGCAGCAGTTGCTGCTGCTGCTGCTGCTGTTGTGTG
A
TGATGATGATGATGAAGATGATGGTAGTGGTGGTAGTAATGCTGCCACCATCACATTACAGAATCCAGGATCTCTTACACTAAGGCCCATTCTCTCTTGG
Celera SNP ID:            hCV15778230
SNP Position Genomic:     607611
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30807):
TAAAAAACTTCTTTTTACAGACAAGTGGTTCAGTATAATATCATTGGGACAAGGCTAGTGGGTGCTCCATGAAAAAAAATCCATGTACAAACAACATGAA
Y
GAATATATCCCAGAAATTCTCTATGTTCTTTCTATGTTGTTCATCTTCTTGTTTTGACCTTCTTTTCTGACTGGGTCTGCTGGTAGTGCACTCTGGAGTT
Celera SNP ID:            hCV26469307
SNP Position Genomic:     334359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30808):
ACTGACACCTCACACAGCCGGGTACTCCTCTGAGACAAAACTTCCAGACGAACGATCAGGCAGCAACATTTGCTGTTCACCAATATCTGCTGTTCTGCAG
S
CTTCGCTGCTGATACCCAGGCAAACAGGGTCTGGAGTGGACCTCCGGCAAACACCAACACACCTGCAGCTGAGGGTCCTGACTGTTAGAAGGAAAACTAA
Celera SNP ID:            hCV26469308
SNP Position Genomic:     335565
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30809):
GACACCTCACACAGCCGGGTACTCCTCTGAGACAAAACTTCCAGACGAACGATCAGGCAGCAACATTTGCTGTTCACCAATATCTGCTGTTCTGCAGGCT
Y
CGCTGCTGATACCCAGGCAAACAGGGTCTGGAGTGGACCTCCGGCAAACACCAACACACCTGCAGCTGAGGGTCCTGACTGTTAGAAGGAAAACTAACAA
Celera SNP ID:            hCV26469309
SNP Position Genomic:     335568
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30810):
GTGTATGATGAGAGAGGAGTTCTAGATCCTTCCAGCAGCCTCCCACCTGCTCTCTGTGCTCCCCACCATCACAGGTCTCGTCAGAGTCCTCCGGAGCCAC
Y
TTCATCTACCAAGGCTCTGTCAAGGGCCAAGGCTTTGGGCAGTTCGGCTTTCAAAGACTGGGTAACTAGTGCTTGTCCCCCGGAAGTGTGGGCCCGGGTG
Celera SNP ID:            hCV16116730
SNP Position Genomic:     650170
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:30811):
CTGGGTGCCCAGCCTCAGACTCTGGTGGGGGGAGGGGTCTGGTTTCTCAGAAGCAGGGGAGGGGGAAACAGGAGGCAGCCGCAGGTGCGTGACAGCCTCT
S
TGTACCCCAGGCACTGACACCTCCCATCGCCGGGGCCCTTGCCTGCCAAGGCAGTCCACTCCATGTCCTCTGGCTCCAAGCTCCTGAAAGCTTCTCTGGA
Celera SNP ID:            hCV16116731
SNP Position Genomic:     650893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30812):
TGCAGACTGTAATATTTTAATTAAACCCCTCTAAGCCCTTAAAGTGGTAACTGCCTTTTTGGCCTGTTCTCTCTCATTACCTTCAGCATGTTTCAACAGA
M
TGCAAATATACCATCTAATTCTTGGAAACAAGTACAAGATAAATTGATTCTGAAGCTGAGGGCTTTGGGCAGCAAAATCTGACTTTCCGGAAGAGGTGTA
Celera SNP ID:            hCV1948310
SNP Position Genomic:     358556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,2)      total(A,2|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30813):
CTGGTGGAGCTTTGTAAGGATTCTCTGCAGGGCTAGAGTTCTGAGTCCACAGGTCCTCTTTGCAAAGGTGGGACGGAATCAGGGCTTTGATTGTCTTATT
Y
TAATTTGTTTAGTAATGTTGCCAGTCTCAAGTGTACTTGTGGGGGAAAAAAACCTATGTCCAGAAACTTCAGGAAAGGCAGAAAAAGGATCCTTAGCCTT
Celera SNP ID:            hCV1948311
SNP Position Genomic:     358765
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30814):
CAGCCATGGATCCTGGTCTCCACTGGAAAGCTGCCATCCTCAGAACAACAGGGGTGAAAATAGAGCCTGGCTTCGGAGACATTTAGTAAGAGAACTGTGA
Y
GCCCCTGCTGGAGGAAGGCAGGGAACATGCTTGGTAGAGACTGAGCAGGAAAGAGTATCTTCCCATGCAGAGGAGGGAAGAAGGAAGGGAACTCATCTTC
Celera SNP ID:            hCV952640
SNP Position Genomic:     431452
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30815):
GGGCTAGAGTTCTGAGTCCACAGGTCCTCTTTGCAAAGGTGGGACGGAATCAGGGCTTTGATTGTCTTATTCTAATTTGTTTAGTAATGTTGCCAGTCTC
R
AGTGTACTTGTGGGGGAAAAAAACCTATGTCCAGAAACTTCAGGAAAGGCAGAAAAAGGATCCTTAGCCTTGAGAGAAATCCTGGGCATAGAGAAACAGA
Celera SNP ID:            hCV1948312
SNP Position Genomic:     358794
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30816):
GTCCATTAGAATGCAGTGGGATTAGGTGCTCGGGAAGGCAGGAAATCAAGTTTAATGAGCACCTGCTTAATGCCGAGGTCCTAGAATGCCTAGCTCTCCC
R
CCAACATGGCAAGTTCTTGGGGAGGTGGTGGAGTTCTAGGGTTTCCCATCCCAAGGAAGCTAATTTTCTTTAGGGATTCTTCTCTACTCCAGCAATGTCT
Celera SNP ID:            hCV952641
SNP Position Genomic:     432246
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30817):
CCCTCATGCTGGAATAGCAGGGGCTTCATAAGGCCACTGTGCGTAGGAATTTAAATTATAACCAGAGATTAAAGTAGAGAAACGGCTCTGGATTGTCAGG
Y
ATCAAAAGCACCTCTTCTTTCAAATGAGAACTCTCTTCGGTATCACAGCCATTAAGATCCCTGTTTCCAGCTCCTGCCCAGGGGAGCTCCGGCAGCCCAA
Celera SNP ID:            hCV952642
SNP Position Genomic:     432808
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30818):
GTGTTTCTCAGTACAGAATGAAAGGAGCAATCAGATATACATGGGGGAATGGAGTGGGGGTTCCCCCAGGACTTGTTCAAACTTGATTGAACAGATTCTT
S
AGCTCAGGATGAGGGAGGAGGAGATCCTTCCAGTGCAGGACTACAGTGAGAAGAAATCTCCTCCCAGGAGGTGATGAGCTAACAAAAAGGAGGTAACAGA
Celera SNP ID:            hCV1948314
SNP Position Genomic:     359318
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30819):
AGGAACCCTCAGGAATTAGTAACTGCACAATCCTCCTCTCCACCTGCCACCCTCCTGAATCAAGTGCTCTTAGACTTTAGCTCTGCGATGCATTGAAACC
Y
TCAAGGCCATGTATGAACACATGAGATAATTTGACCTTTGTTAATGGATCTTCAAGTGGCTCACTATTTTTTTTTTTTCTTTGAGACGGAGTCTTGCTGT
Celera SNP ID:            hCV952643
SNP Position Genomic:     435149
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30820):
ATATACATGGGGGAATGGAGTGGGGGTTCCCCCAGGACTTGTTCAAACTTGATTGAACAGATTCTTGAGCTCAGGATGAGGGAGGAGGAGATCCTTCCAG
Y
GCAGGACTACAGTGAGAAGAAATCTCCTCCCAGGAGGTGATGAGCTAACAAAAAGGAGGTAACAGACCTGTCCCAAAAGCCCCTTGCAAATAACCCTCTG
Celera SNP ID:            hCV1948315
SNP Position Genomic:     359352
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30821):
AATTTTGCCAGTTGCTTCCCTGGGAGGTTGTTTAACACAATTGTCTCTCTTTTATGTTCCCTTTAATTGGCAGTAAGATCTAGAAACTTAATCAGATTGA
R
CTTCCATTTTTTTAGCGAGAATATCTTGTAGGCAATGTCTTCAACAGAATCATATGATATTTGGGTATCTCTCTTTTGGGGTCATTAGGAACCATTAATG
Celera SNP ID:            hCV952644
SNP Position Genomic:     440253
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30822):
GTGGCCCTTCAGAGAGGAGGGGCTATGTCAGACACTTTTTTCTCCCCACACTTTTCCTGGCCCATAGTAGGCACTCAATAAATGTTGGAATGAATGAGCT
R
AGCGCAGGAATGAGTGCATGAAATGAGAAGAGATTCATTATGTCTAGGAGCTGCAGAACCTGCTTCCCAGACCCTCCTAGGAAGGGTGTCCTGGGAAAGG
Celera SNP ID:            hCV1948316
SNP Position Genomic:     359609
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30823):
CTCCTCCAAAGGAACACAGCTCCTCACCAGCAATGGAACGAAGCTGGACAGAGAATGACTTTGACGAGTTAAGAGAAGAAGGCTTCAGATGATTAAACTA
Y
GATGAGCTAAAGGATGAAGTTCGAACCCATGGCAAAGAAGTTAAAAACCTTGAAAAAAGATTAGACAAATGGCTAACTAGAATAACCAATGCAGAGAAGT
Celera SNP ID:            hCV26469310
SNP Position Genomic:     335901
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30824):
GGGGCTATGTCAGACACTTTTTTCTCCCCACACTTTTCCTGGCCCATAGTAGGCACTCAATAAATGTTGGAATGAATGAGCTGAGCGCAGGAATGAGTGC
R
TGAAATGAGAAGAGATTCATTATGTCTAGGAGCTGCAGAACCTGCTTCCCAGACCCTCCTAGGAAGGGTGTCCTGGGAAAGGTTTATCATGGCCCTTTCC
Celera SNP ID:            hCV1948317
SNP Position Genomic:     359627
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30825):
TTTTTTTTTTTTTTGAAATGTATTTTTGTTTGTTTTTTTTTTGTTTTTTTTGTTTTAATTTATTTTATTATTATTATACTTTAAGTTTTAGGGTACATGT
R
CACATTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCACTAACTCGTCATCTAGCATTAGTTATATCTCCCAATGCCATC
Celera SNP ID:            hCV26469311
SNP Position Genomic:     336105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30826):
CCCTGGGAGGTTGTTTAACACAATTGTCTCTCTTTTATGTTCCCTTTAATTGGCAGTAAGATCTAGAAACTTAATCAGATTGAACTTCCATTTTTTTAGC
R
AGAATATCTTGTAGGCAATGTCTTCAACAGAATCATATGATATTTGGGTATCTCTCTTTTGGGGTCATTAGGAACCATTAATGATCATACCCTAGGAATT
Celera SNP ID:            hCV952645
SNP Position Genomic:     440270
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30827):
CCTGGGAAAGGTTTATCATGGCCCTTTCCACACATGGCAAGGAGCTCTAGGATATTTGGCCCCATCAGAGGAAACTAGGTTTGACACCACTTTCATTTTA
Y
ATAGTTAAGCTTGTTGAGTTTGCTCACTATTTCTTTACTGTTAGGCACTTTGCCTACAATTAGGATAAATTGCCATGTGGGCAGCATGAGAACAGGCTCT
Celera SNP ID:            hCV1948318
SNP Position Genomic:     359799
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30828):
TATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGG
Y
TGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTCTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCGCCATTC
Celera SNP ID:            hCV26469312
SNP Position Genomic:     336657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30829):
AGTTTATTGATTTGCTTAATCTTTCATTTTAATTATTTAAAATATTTACATAGTTCCAAAGCTAAATATATAAAAAAGGTATATTCTGAGAAAGCCTAGC
W
TCTATCCCTATCTTCTCTACCCTGTTCCCTCCGTCCTTCTGTGAATAATCTTTTAGTTTTTGGTTTATCCTTTCAGTGATTGTTAATATGAGTGAATATG
Celera SNP ID:            hCV952646
SNP Position Genomic:     441347
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30830):
AGAGCTTAATTAGATTAAGCTGTGATTGATAACACTTTATATCTACTTGAGTAGAACACTTCTAATTCACCTTGAATCTTTATGCTTCCAGTCAAAAGCC
R
GTTTCAGGGATAAGCTGAGTGTGGAGACGGATTTGGGAAGCAGTGAAATCACTCTGGGGGCCTGGCACTGAGCTGAGTCAGGGGCCTTGGCAGAGCTCTT
Celera SNP ID:            hCV1948319
SNP Position Genomic:     360157
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30831):
TATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTATTGGTTTAAAGTCTGTATTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTT
K
CTTGGTAGATCTTCCTCCATCCTTTTATTTTGAGCCTATGTGTGTCTCTGCACGTGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTT
Celera SNP ID:            hCV26469313
SNP Position Genomic:     339902
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30832):
CCTCATGTGTCATTAAACTTTGGATTTTGCCTATCTGATGGATGAGAAACAATATTTCACTGTGCTTTTAATATGTATTTTTATGTTTAAGAGTGAGGTC
R
ATCATCTTTTCAAATGTGAAAGAGACATTGCATTTAAGAATCCTCCCCTCCAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAGGGGGGAGGGAT
Celera SNP ID:            hCV952647
SNP Position Genomic:     441991
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30833):
ATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCTTTTATTTTGAGCCTATGTGTGTCTCTGCAC
R
TGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTACCAGTCGATGTCTTTTAATTGGAGCATTTAGTCCATTTACATT
Celera SNP ID:            hCV26469314
SNP Position Genomic:     339956
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30834):
CCCCAGTCTTGTTCAGGGAATTTTTGGCATCTGATAGCTCCATAGTAAGGGAGTACAAAGGAGCAGAGGTTCCTTTGACATGGGAGGCGGCTTAGCTTAA
R
ATCTCTGGATTTACGCTGTCTTGCCTAGGTCTGAATCCAAGCTCTGCAACTTGCTAACCCAAGGCTAGTTACTCAACCTCCGTAAGCCTCAGCTTTCCTA
Celera SNP ID:            hCV952648
SNP Position Genomic:     443576
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30835):
AGCCTAATCTGGCAAGTGCTTTTATGCCTTTGAACACATCAAGGCCTCCAAATTTCCCATGGCCAAAGCAAGTCACAAGGCCAAACCCAAAGTCAAGGAG
K
GGGGGAATGTACTCCACCTCTGTAATGGAGGGAGCTAAAAAATCACATTGCAAATGGTGAGAATACAATGAGTAGTGACAATTTGGGCCCATATTCTGAT
Celera SNP ID:            hCV26469315
SNP Position Genomic:     345417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30836):
TCCCTTCCTGAAACAATGTCGTCTTTTGCAGTGGCATCTCCTGCCAGTCCTATGAAATACACATTCATGAATTCCAGGTCAAAGTTTTTAGTCTCATTGT
K
TGCAAGCAGTGGACCCAACTGTTGCACAACAAAACCTCTTAAGTCCTTGAGTCATACACCACTGGGCCACCAAGGCTATGGAGAGATTTCTGGAGTTTGA
Celera SNP ID:            hCV3190581
SNP Position Genomic:     623166
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30837):
GCCCAGGATGGGACATGTGGACAGAGGCATAAATAACAGACTTTGCAAGACCAGAGACAGCCAGCAGCTGTGCCTAGGCCTCCCAGTGTCCTGTGGAGTT
M
CCTGCCTTGGACTGTATTCATTCATCCTGTCATTAACTCATTGATTCATCCAACCAGCAATCATTGAGAAACAACTGTGTGCCAAGCACCATGCTCAATA
Celera SNP ID:            hCV952649
SNP Position Genomic:     444424
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30838):
AGTAAGGATTACTCCCCATTCCTGTCCCTCAGTAGCCAACAGGAAAGCAATGCTGTAAACACAAGCAGCTGGTTTTGAGTAGGCAGAGAAGACTGGAATT
A
AAAAAAAAAAAGAAAGGGAGAAACACTTCTTGCCTCCATAATTCAGACAGTAAACTGATCGCTGAGATTTAAGTTTGCTTGTTTCCTGGGGAAGCTTGAA
Celera SNP ID:            hCV26469316
SNP Position Genomic:     348322
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30839):
GGTTTTGGCTGTCAGGAATCTTATTACAGAAGGAATCTGGGTGGATGGCCAGACTTTGTGTGAGATTCCCTAATCGGTGGACTTGGGACATTTATGCACT
T
GTGTGTGTGTGTGTGTGTGTGTGTGTACACTTGGGAGAGGGAGGATCTGTGGATCTACTGAATGTCTTCTAAAAGGGATCTATTCATTTATTTAAATAAT
Celera SNP ID:            hCV26469317
SNP Position Genomic:     196231
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30840):
GAGGGAATCAGACCTCAGAACCCTTATATCTACCCTAACAGGTAGAAAGCACAGCAAGACAAGGTCCCAATGGAGCTTCAGCTTCTGGTGGGCTGAGCCC
Y
GCCTTATCCCCTCAGTCAGCCCTGACCATGCCCAGGGATTGCAAAACTAGGAGGGGCACAACTTTTTAGGTCAACCTATGGCCAGAGTCCTGTCCAGACA
Celera SNP ID:            hCV3190583
SNP Position Genomic:     621719
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,1)      total(C,1|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30841):
GTTTTGGCTGTCAGGAATCTTATTACAGAAGGAATCTGGGTGGATGGCCAGACTTTGTGTGAGATTCCCTAATCGGTGGACTTGGGACATTTATGCACTT
G
TGTGTGTGTGTGTGTGTGTGTGTGTACACTTGGGAGAGGGAGGATCTGTGGATCTACTGAATGTCTTCTAAAAGGGATCTATTCATTTATTTAAATAATA
Celera SNP ID:            hCV26469318
SNP Position Genomic:     196232
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30842):
GGGTGACAGAGCTCCCATTTTTGTCTTGTGTATACTCTGCGTACCACCTTCCTGCCCAGAGACATCATGAGTATGAGGAAATAGGGAGAGGTAAGCATAA
S
AGGCAAGAGAGAAAACAATCTAATGTTATTGTATATCTGCTACATGCTGAGAAGGTATTATTCCTCATTTCATAGATATGGAAAACTGTCCCCTGAGTGG
Celera SNP ID:            hCV3190584
SNP Position Genomic:     621081
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|C,4)      total(G,4|C,4) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30843):
TTTTGGCTGTCAGGAATCTTATTACAGAAGGAATCTGGGTGGATGGCCAGACTTTGTGTGAGATTCCCTAATCGGTGGACTTGGGACATTTATGCACTTG
T
GTGTGTGTGTGTGTGTGTGTGTGTACACTTGGGAGAGGGAGGATCTGTGGATCTACTGAATGTCTTCTAAAAGGGATCTATTCATTTATTTAAATAATAC
Celera SNP ID:            hCV26469319
SNP Position Genomic:     196233
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30844):
CACATTGTGCTAGGATCAGATATATGGAGACTAGACATTCATGCCCTCAAGGGACTCGTGTGTTCAAACAAGTCACAGCACAGGCTGGTAAAGTCAGCAA
Y
AGCGATTTGTGCAAGGGAGTACCAGAAAGGGAGTAATCAATCTGGGAAGAGGTGGGAGGAGTTCTCTAAGGAGGTGATGTCTAGCTGGACATGGAAGGAT
Celera SNP ID:            hCV3190586
SNP Position Genomic:     613526
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30845):
GATTAAAACCATTTTCAAAAGAGCCCAACCCTGTTCAAGTCAGTTCAAATGCGTCAGTTTTACAATTGACAAGCTTTGCTGTGGGAGGCACATTGTGCTA
S
GATCAGATATATGGAGACTAGACATTCATGCCCTCAAGGGACTCGTGTGTTCAAACAAGTCACAGCACAGGCTGGTAAAGTCAGCAACAGCGATTTGTGC
Celera SNP ID:            hCV3190587
SNP Position Genomic:     613438
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30846):
CAGAGGCAACACTGCAGTGGGGCATGCAGCCCTGCAATGTTGGGGATAGCCTCCCTCCTCAACAGCTGAGAGCAGCCGAGAACATTGCTCCCTGCAGACA
R
CTAGGTCCCTAGAAAAAGAAGGGATGCTGAGCCAAACATGCCAGCTCATTACTCCCAAGTTGCACAGATCAAAGTGCACTAACTGAACTCCCTTGCCATG
Celera SNP ID:            hCV3190588
SNP Position Genomic:     611602
SNP Source:               Celera
Population(Allele,Count): no_pop(G,7|A,9)   total(G,7|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30847):
ACTCCATGAGACCAGGGTGCCAGGCTGGGACGAAATAGAACTAAGGACTAAGGATCAAAGCAGAAGCCTAGGCATCCATCCATTCATGCACTTACTCATT
Y
GCTGATTCACTCAGCAAATATTTATCACACTCCTGCTGAATGTCAGGCACTGGTACATACACCAAGGATGCAGCAATAAGCAAAACCAAGTCCCTGACCT
Celera SNP ID:            hCV3190589
SNP Position Genomic:     610826
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,12)      total(C,12|T,3) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30848):
ACTGACACCTCCCATCGCCGGGGCCCTTGCCTGCCAAGGCAGTCCACTCCATGTCCTCTGGCTCCAAGCTCCTGAAAGCTTCTCTGGACTGAGCCACGGT
S
TGCTCCCACCCTTTCCCACCCACACTGCTCCTCCCCCGGAGTTGTCCCAGCTCTGCCCTCATGAGCTGCATGGACTGAGACCACTGTCTTCCACACAGCA
Celera SNP ID:            hCV16116741
SNP Position Genomic:     651006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30849):
AGCTCCTGAAAGCTTCTCTGGACTGAGCCACGGTCTGCTCCCACCCTTTCCCACCCACACTGCTCCTCCCCCGGAGTTGTCCCAGCTCTGCCCTCATGAG
S
TGCATGGACTGAGACCACTGTCTTCCACACAGCACCCTTCACCTACTGCAAGATGGCCAGGCACGCTGCAAAGGCCTTAGAAAATCACAGTTTTTGTTCT
Celera SNP ID:            hCV16116742
SNP Position Genomic:     651072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30850):
GCAGGGTCCTTGAGAGAACAGGGGAGCAAGCCTGCCCCAGTACCCAAAAAACAATGGCTATCATGTACTGGGGTTATTCTCTGTGCCTGACACTTTACCT
R
TAGTATTTCTAGTCTGCACAATAACACCAAAATGTAGGATTTGTTATTCCCCTTTGACAGATGAGAAAACAGAAGCCTGCAAAGGTAAAGACAGAGTTAG
Celera SNP ID:            hCV16116743
SNP Position Genomic:     656055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:30851):
CTGCTTTCCTTCCATCCTCTCCTCCATCCTCCCCCATCATGCCTCAAAAGTTTATTGAATCCCCTCTCTGTGCCTTGCACTTCACTAGAAAAGCTGGGAT
R
TAGACATTTCAAAAAACATTGGCTCGGTCCTCAAGGAACTTACCAATTAACAGTGGGAAACACACGCCCAAAATTGCAGCACCCGTTGCTATAACAACAG
Celera SNP ID:            hCV8922364
SNP Position Genomic:     391895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30852):
ACTGAGGGGCAGGCAGAACCTGGAATGAGGTCAGACTCCTAGTTAAGCAGCATTAGGTCCACAGCAGCACTCAGCTGGTTTGGAGAATTGGAGTGCAAAT
Y
GGGAAACAGACAGGTCAGCAGAGTAAGGCGTGGGCTGCTTAGGTGTCCATAGGTGCCTGCGATCCACCTAGCTTTATGTCAACCTGACAGGTTCTAGCCC
Celera SNP ID:            hCV1948320
SNP Position Genomic:     360451
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30853):
GAAGGTTGGGCTTTCGAGAGATGGGGGATGGGGTCCCAGGAGGATGACGGGGGTGCTCCCTGAGGCCCTCTGGTCTTTCACTGCCCTCTTCACTCCTTCT
R
TAGCTCTCTGTGGTGGCTTCATTCAAGGCTCCAGTGGGACCATCTTGTCGCCAGGGTTCCCTGACTTCTACCCCAACAACTTGAACTGCACCTGGATTAT
Celera SNP ID:            hCV952650
SNP Position Genomic:     447393
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,12)   caucasian(A,20|G,12)   total(A,44|G,24)
SNP Type:                 INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30854):
TAGGGTTTCTTTAATGGCTTGCAATAAACTTGTATAATTTTTTCCATTACAGATCTTATGTATTTCTTAATATATTTACTCCTAAATATCTTATATTTAT
Y
GTTGCTATTATAAATCAAATCTTTTAAAATTGCACATTCTACTTGTTTCTTGCTGGTGTTTAGAAATGCAATTGATTTTGTACTTTGATTTTTATATTAG
Celera SNP ID:            hCV1948322
SNP Position Genomic:     361815
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30855):
TTGCCAGTAATTTTGATGCATGCTTTTAATTAAGAACCTCTGATCTAGAAGAATTAACATGCAGAAGAGCCAAAAAACTAATTTTAAAGGAAGATTAATC
Y
TTCCGGATATTAAAATGTTGTTATGGGCTAAATTAATGTTAACAATGTGGTATGAGTACAAGAGTGGACATACAAATAAGACGTGGAGAATAATTGTCCA
Celera SNP ID:            hCV952651
SNP Position Genomic:     448527
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30856):
AATAAAATAGCTGGCACAGCCTCATAGTCCTTACCTGTCTCAGCCTCATTCTGAGCCCTCTAAACTAAGTTCTAGCTACACAAAACTTCCTTCAGTTTCT
R
GAACTTGCCAGGCTTCCCTTCTCCTCTAGAGCTTTACACATTTGTACAATGTTCTTCTCTCTGGAACACTTCGTCTCCCCAAGCAAGGGGAATGGGAATC
Celera SNP ID:            hCV952652
SNP Position Genomic:     451117
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30857):
CTGTGTTATTAGAGCATCAAAGTTAAAACTCAGAATTATATATCTTCCTGGTAAATTGAACTGTTTCAAAAATAATTATGTAGTAACTCTCTTTATCTGT
R
GTAATGTTTTTAACCTTAAAGGCTTTTTCCCTCCATCCATTGCATCAGTTTTCTCTTGGTCTTTGTCTAATAAATATTTTCTATTCTCTTACTGTTAACT
Celera SNP ID:            hCV1948324
SNP Position Genomic:     363720
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30858):
ACATCACCATCCTTCAGGTGGACGTGCCACTGGATGTCATGTTATTTCTCCTTTGCATTAAGTGCCTGCTGTCTTGGCTACCCTACCCTGACCCCTGAAG
S
CTCATGGCCATCTCCTGCTCTTGCTCCTTCTGCCAAGCCCCATCCTCTCCCAGTGCAGAGCAGCCACCAATATAACTGATCTCCCTCCCTGCTCTCCCTC
Celera SNP ID:            hCV952653
SNP Position Genomic:     454303
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30859):
GTGCAAATACATGCTTTAAAATTTATTTTCTTGTCAATGATAAACTCTATTAGTTCTTGTTTGTCTTTTTAAAAAATAATTTCAATTTTTATTTTAGATT
Y
GGGGGTACATGTGCAGGTTTGTTACATGGGTATATTGCATGATGCTGAGGTTGGGGTACGGATCCTGTCACCCAGTCTGTAAGCATAGAACCTAATGTGT
Celera SNP ID:            hCV1948325
SNP Position Genomic:     364345
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30860):
CTCAGTATGGAGGTTTCAAACCACCCAAGTAATATGAAGGCTGCAAACCCATGTGAAAACTGACTTACTGTTGTGAATTCTCAGTGGAAACATTTTTCTT
R
TCTACTCAGTGTCAAGGTCTAAGATAAACAGTCAGCCTCCAGATCCTCCCAGAGGGTGGTAGTGACAGGTGAGAAGGAGATAGGCTCATTTCTAATTCAC
Celera SNP ID:            hCV1948326
SNP Position Genomic:     365464
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30861):
TTTGGCTGTCAGGAATCTTATTACAGAAGGAATCTGGGTGGATGGCCAGACTTTGTGTGAGATTCCCTAATCGGTGGACTTGGGACATTTATGCACTTGT
G
TGTGTGTGTGTGTGTGTGTGTGTACACTTGGGAGAGGGAGGATCTGTGGATCTACTGAATGTCTTCTAAAAGGGATCTATTCATTTATTTAAATAATACC
Celera SNP ID:            hCV26469320
SNP Position Genomic:     196234
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30862):
GTGTTGAGGCATACAGAGAAAAATTAAGTCAGCTTAGAAAGTGCTGGAGCTAGGGTTGCTCTTTTATCATGGCCAGAAAAGGCCTCTCTGATGAGTTGAC
R
TTTGGCCAGAGATAGATATCTGGGAGAAGAGGGAACAGAGGACCAAGACCCAAACCATGAGCATGCTCAGCATTTGAGGAACAGCTCAGAGGCCAAGCTG
Celera SNP ID:            hCV952654
SNP Position Genomic:     457901
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30863):
ATTTTAAAATTTTACCTAACACTTTAAAATTGTTTGGTCCGGGTGCCTGGAACCACAGTGCTGGGAACACTGGAAGCAGATTTCCTCTGCACAACATTTT
R
CAAAGAAAGATTCACATTTAATTAAATTATTTCATGATGTACCTAGTTAATGGGAAAGGACACTTCAGCCACATGGGGTGAGGGTGGAGGCTAGGCCAGA
Celera SNP ID:            hCV1948327
SNP Position Genomic:     366338
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30864):
GTCTGTGTTTGAGCTGAAGTCCCAGCTTTGAACTTTGACTGCAGCTTTCTCTTACATTCTTTACCGTTTCTGATCATGCACCCACCTTTTATTTAACTTT
S
TTTGAGTCATTTCTCCATCTGGGGCTGAGGTGGGGGGCTCATTTCATCTAGAGTCTCCACCCCAGATCTGAAGCATAGGCGTGGTGGGGGGAGGTCACCA
Celera SNP ID:            hCV26469321
SNP Position Genomic:     350743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:30865):
GCTTCCTTGTTTATAAAACAGAGATAACAGCATCCAATTCACAGGCTTTACTCTACCTTAGATGACATCATTTACATAAACCAAGAGGTGGCATATAATT
W
TCAGCATTTTGCCAATAACATTTTTATCTGTATTTATCAATAACCAATTATTGTTATTTTGCCAATAACCTTTTACAATCTCAGAAAGGAAACATTAAAA
Celera SNP ID:            hCV952655
SNP Position Genomic:     458673
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30866):
TGCAGAGCAGTGTTTCTAATATCTCTGTGGGGCCTTGGTGGGCTTCAGGTAGTGCTGAGGGAGCCCAGAAAGGCTGAAGAGAACCCTATCCTGATCCAGG
Y
GGGAGGAGACCCAGGGAACATACAATGCAACAAGGAGGGTCTAAGTGTGGAAACTCAAAGTCTAAGACTGAGGAATAGAAGTTGTCTTCTGGGAAACAGC
Celera SNP ID:            hCV1948328
SNP Position Genomic:     366834
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30867):
GATGATATGTCCTGGGCTTCCCTGAAGGCCCAGGGCTGAGATAGATATTAGAGTAAAGGGTCTTTTTATTTTGGCAATTTTAAGGTTTTTATTTTAAAAT
M
TTTCGTTTTCAATTAATCGCAATTACTATTCTGTGATTTTTAGGACAGTTTAGGTGAACCCCACCTTAAGAATGAAAACGAACAAAACTCTTTCCATTCC
Celera SNP ID:            hCV26469322
SNP Position Genomic:     354612
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30868):
CTACCTTAGATGACATCATTTACATAAACCAAGAGGTGGCATATAATTATCAGCATTTTGCCAATAACATTTTTATCTGTATTTATCAATAACCAATTAT
Y
GTTATTTTGCCAATAACCTTTTACAATCTCAGAAAGGAAACATTAAAACAAAGAGCTACAGAATTCCATTTCTGAACAATTAAATAACCCCAGGGTTTAC
Celera SNP ID:            hCV952656
SNP Position Genomic:     458725
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30869):
CAAAAAGCATAGTCTCTAAGCTCACAGTATGTTTTATGAGATGAGCATTCATTCATTCATTGATGTAGATATGGCCTCTGCCCTTGAGGAGTGTGCACGT
R
AGAGTGAAGAACAGGTCTGAAAAAAAAAAAAAGAGTGCAGGTAAGTCCTGATGGAGGCATGTCCAGAGCGCTATGGGAAAACTCAGGGAAGAGCTGCTAA
Celera SNP ID:            hCV1948329
SNP Position Genomic:     367145
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30870):
GCTGAACCTTCACATCCATCATCTCATATAATTTCATCCTCACCATATCTCAATGAGGTGGTATCATTTGTCCCATTTTACAGATGAAGAAACAAAATCA
G
AGAGATTTTCTAACTCATCCAGACTTAAGCGACCAGCAAATGGATTTAGATCCAGAAGGCTAAGTTCATAAATTTTAAAACCTGACCTCGCTTTAACCAT
Celera SNP ID:            hCV26469323
SNP Position Genomic:     359067
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,7)   total(G,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30871):
CTGTATTTATCAATAACCAATTATTGTTATTTTGCCAATAACCTTTTACAATCTCAGAAAGGAAACATTAAAACAAAGAGCTACAGAATTCCATTTCTGA
R
CAATTAAATAACCCCAGGGTTTACTCCGTCTCCTATAACCATCCCCAAAGGCATCCACCCACCCTGATCTGGCCACACACACTCAGAAACACATAGAACC
Celera SNP ID:            hCV952657
SNP Position Genomic:     458801
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30872):
CTGAACCTTCACATCCATCATCTCATATAATTTCATCCTCACCATATCTCAATGAGGTGGTATCATTTGTCCCATTTTACAGATGAAGAAACAAAATCAG
A
GAGATTTTCTAACTCATCCAGACTTAAGCGACCAGCAAATGGATTTAGATCCAGAAGGCTAAGTTCATAAATTTTAAAACCTGACCTCGCTTTAACCATG
Celera SNP ID:            hCV26469324
SNP Position Genomic:     359068
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30873):
TCTGGCCACACCAAGGACTGGGTGCTTCCTCTTCTTACACCCCCGTCCCCATTATCACCATTTGGGTCTTAGGTGGGATCCTCATGGATTTAAGTATTGG
R
CAAAGAGAACATCCCTTATAGTTCCTAATCTTCCCACAAATTAAAACCCAGAACAAAGCGAGAGGCCTGGCAAAAGCATCAGGTGGGAGTTCAACTCCAT
Celera SNP ID:            hCV3190590
SNP Position Genomic:     610632
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,13)      total(G,3|A,13) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30874):
ATTTGTCTTCTGTTTCACATGTTATTAATAATGCACAGTAGTTATAGTCACCTCTAATTACCACCAGCCCTGCTGCCGAGGCTCAGGCTGGAGGCATCTC
R
GGAATGCCCACCGGGGGCTGCTCCCAGTCGCCATGCAAATTGGATGATTTAGTCCACATAGTGCTACCAGGAACATTTCCAGCCGAGAAGGAGATGAACA
Celera SNP ID:            hCV952658
SNP Position Genomic:     459245
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30875):
TGAACCTTCACATCCATCATCTCATATAATTTCATCCTCACCATATCTCAATGAGGTGGTATCATTTGTCCCATTTTACAGATGAAGAAACAAAATCAGA
G
AGATTTTCTAACTCATCCAGACTTAAGCGACCAGCAAATGGATTTAGATCCAGAAGGCTAAGTTCATAAATTTTAAAACCTGACCTCGCTTTAACCATGC
Celera SNP ID:            hCV26469325
SNP Position Genomic:     359069
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,7)   total(G,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30876):
ACACCAGATCTGGCCACACCAAGGACTGGGTGCTTCCTCTTCTTACACCCCCGTCCCCATTATCACCATTTGGGTCTTAGGTGGGATCCTCATGGATTTA
R
GTATTGGACAAAGAGAACATCCCTTATAGTTCCTAATCTTCCCACAAATTAAAACCCAGAACAAAGCGAGAGGCCTGGCAAAAGCATCAGGTGGGAGTTC
Celera SNP ID:            hCV3190591
SNP Position Genomic:     610624
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,12)      total(G,3|A,12) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30877):
GTATATGGGTATCTAAGAATATGGTTTTAGAGTTTGTTTAGAAGCTGCCTGCTATCAAATGCATGTGTAATTGAGTATGGGTTGACTGCATAATAAAAGA
Y
AATAATTTAGCTTAGGGAACATGGCAAAGCCCCATCTCTACAAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCATGCCTGTAGTCCCAGCTACTGGGT
Celera SNP ID:            hCV952659
SNP Position Genomic:     462876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30878):
ATAGCAAATATTGCCTTTTCTCATGTCAAACCAACCTTGCATTCTTAAGATTAACATAACTTGATCATTTAGTATTGTCATTTTTATACATGCCTATATA
D
TGTTTAGTAATTTGTTTCTATTTTGTTAGTGAGCTTGGCCTGTTATTTGTTTTTTCATATTGCCTTTGCCAATTTTTGTGTCAATATATTGCTAGCCTCA
Celera SNP ID:            hCV26469326
SNP Position Genomic:     362449
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6|G,6|A,6)   total(G,6|A,6|T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30879):
ATGTCCCCTGCTCTTCCTGGCTCCCTCCACTGGAGTCAGGGTTGCTACTACTGAGATTTACAGAAGAGAACTAGCCCAGAAAACACCAGATCTGGCCACA
S
CAAGGACTGGGTGCTTCCTCTTCTTACACCCCCGTCCCCATTATCACCATTTGGGTCTTAGGTGGGATCCTCATGGATTTAAGTATTGGACAAAGAGAAC
Celera SNP ID:            hCV3190592
SNP Position Genomic:     610542
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,10)      total(G,3|C,10) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30880):
AATAATCCACTGAAGATATTTGTTAAGTGCCCACCATGTGACAGACACTGGAATATGGCCGTGAACAAAACTGAACAGCTGCCCTTCTGAAATCTATATT
M
TAGTGGAGGAAGACAGAAAAAAATAAGGTCAATATAGAGTCGATGAGAGAGTATTAACTGCAGTGGAGAGAAATATAGCAGAGGAGGGTGTTGGGGGCAT
Celera SNP ID:            hCV1004700
SNP Position Genomic:     532775
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30881):
GGATTATCACTGTCACTGTTTCCTTTGTAGACCTGAAGAACTGAGAATTAATTCTCCAGGCAGGTGATCGGCAGCTAGTGCAAATGTCAGGGACATACTC
G
TTGGCCCATTTGTTCACTCACTTATTCATTCAGCAAACATTTACTCAAACACCCTCTCTGTGCCAGGCCCTGTGCAAGACACCTGCGATCAGAGGTTTGC
Celera SNP ID:            hCV26469327
SNP Position Genomic:     370738
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30882):
CTTTTTAAAAGTTCCACAATAATCCACTGAAGATATTTGTTAAGTGCCCACCATGTGACAGACACTGGAATATGGCCGTGAACAAAACTGAACAGCTGCC
Y
TTCTGAAATCTATATTCTAGTGGAGGAAGACAGAAAAAAATAAGGTCAATATAGAGTCGATGAGAGAGTATTAACTGCAGTGGAGAGAAATATAGCAGAG
Celera SNP ID:            hCV1004701
SNP Position Genomic:     532758
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30883):
GATTATCACTGTCACTGTTTCCTTTGTAGACCTGAAGAACTGAGAATTAATTCTCCAGGCAGGTGATCGGCAGCTAGTGCAAATGTCAGGGACATACTCG
T
TGGCCCATTTGTTCACTCACTTATTCATTCAGCAAACATTTACTCAAACACCCTCTCTGTGCCAGGCCCTGTGCAAGACACCTGCGATCAGAGGTTTGCC
Celera SNP ID:            hCV26469328
SNP Position Genomic:     370739
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30884):
ACAATTGTGGAGGCTGGCAAGTCCAAAATCACCAGCATAGGCTGGCAGGGTAGAGACCCAGGAAAGAATCACAGTTCAAGTCTGAAGGCAGGCTGCTAGC
Y
GAATTCCCTCTTCTTCCAGGGATAGCAGGCTGCCTTTTCTCTCAAGGCCTTCAACTGATTGGATGAGGCCCACCCACATTATGGAGGGCCTCATAATCTA
Celera SNP ID:            hCV3190594
SNP Position Genomic:     608875
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,12)      total(C,12|T,3) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30885):
AAACATCTTAAACAACAGAAAACAGGGTTCGAGAGCAGAGAACTGGTCTGACCTCAGATTTACCAGGGTGGGTTTTTTTCGCCACCCTAATAAGCCTGAG
R
GTACTGCAGGAGACCAGGGCTTATTTCAGTCCTTGTCTCAACCACATAAGACAGACACTCCCAGAGCGGCCATTTATAGACCTCCCCCCAGGAATGCATT
Celera SNP ID:            hCV26469329
SNP Position Genomic:     374774
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30886):
AATCAAAAGTCTCGAAAATATATTGTAAGGGACTTAGGAATCTGCAGATTTTGGTATCCAAGGGTGGTCCTGGAACAAATCCCCTGCAGATACAGAGGGA
M
AACTGTACCTGCCTTTGCATCTAGCAATTCCACTTACTGGAATTTATCTGAAGAAAATAAGTAAAACTCTACATCAAGATTTAGCTTCAAAGATTTCCCC
Celera SNP ID:            hCV27991770
SNP Position Genomic:     449454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30887):
GAAAGCAAGAATAAAAGAACAAATATTTGTAAGTGTTTACTCTGTGCTAAGCACTGTGTTAGCTGCCAGTACATACAAAGTCAAGGTTTCCAATGTCAAC
M
AGACTCTCAAAATTTTCCAGCTGTCCTCTTCATTTCCTCAGTCAGTTCCCTTGCCCTTTCTCCATACAGCTGTTTGACAATTCTGCCTCCTTTCTGAAGA
Celera SNP ID:            hCV3190595
SNP Position Genomic:     607843
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30888):
TTACTTCCCCAGGGTCCTTCCCTGCACATCAAGCCCAATTACTCTCAGCAAAGCTCTTCCTATGACAGGATGGAGGATTCTAGTAACAGTCCCAAGGGCA
Y
CTCTAAGCCTTGCACAAGGAGCAGGTTTTCCTGTGAGGCCCAACCACACTCACCACAGCTCCACCTCTCTGAAGTGGGATCCCGTGACCGGCCCCACTCA
Celera SNP ID:            hCV27991771
SNP Position Genomic:     561109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30889):
CAGGGGCGTTTCAGAGGGAAGAGTTTGAAGTGTGTGTTAGAGAATCTGAAAGAACACAGGAAAGACCAAAGTGAATCGATTTTTAATGGAAGGTCCTAAA
R
AGCATGTATTTTCTCTTTCAAGCCCTTGGAAGTAACACTGTGGGCCTGGAAGCTACGGCCACACCTGCTACCACCCCTATTCCCACCACCTGCTGCTGTT
Celera SNP ID:            hCV1004703
SNP Position Genomic:     530748
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30890):
CCACTGCCAATTGCTGAGACAGTTCTTTCTCAGTTTCTGCCCTGCTTTGTCACTAAAACTGACCTTGCTAAAATTGACAGCAACCTCCAGGTTGCCCATT
Y
CAGTGTCGTTTCTCCATCTTCATCTGACTCAGCCTCTTGGCAACACATGACACTGATCACCAGTCCTTCTTGAACTATTTCCTTCTCTTGGCTCCTATGA
Celera SNP ID:            hCV27991772
SNP Position Genomic:     266259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30891):
ATTCAGGAGGCTGAGGTCGGAGGATCCATTGAGCCTGGGAATTTGAAACAAGCCTGGGCAACATAATGAGATCCCATCTCAAAAATAATAAAAAATAAAG
W
TCCATCTGTATTCAGTCACTCTTTCAGATGTGTCTAAATAAAACATGTTTAGTTTCACCCAGAAGAACATGCAGATGCCCTCAGGAAATTGGTGCACGAT
Celera SNP ID:            hCV3190597
SNP Position Genomic:     607139
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|A,5)      total(A,5|T,4) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30892):
CTCTCCACCGTGTTCCTGCTGAAAATAAGCCCTGCACAGTTCTCCAGGCCTGCCCCACTCGCCTACCCCTACCCCACAGCAGGAGAGGCCTGGGAGAGTC
R
GGTGGGCCAGCAGCATGACGCTGGGGCATCTCCTTGAGCCTGTGGTCCCCAGCCCTGGCCTTGCTCAGGGCGTTGTTGCTGCCTGAGACCCGTCTCATGG
Celera SNP ID:            hCV8702104
SNP Position Genomic:     150668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30893):
TCTGCTCTCTGTTTCTACGTATTTGACTTTTGGAATTATAATATTAGTTTAATTCTATTTTTCTTATAGGTTATTTGGTTGTTTTTTTTTTTGAGGTTCC
Y
GATTATTTTTCCCTTTATCCTAAAGTCTAATATTTTTACTAGGACATGCTTCAGAGTTAATTATTCCAAGACAATTTCCTTAGGTATTCTATGGGTCTTT
Celera SNP ID:            hCV3190599
SNP Position Genomic:     605407
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30894):
ACCATTGATCAGAGGCACTTCTATTCTGAATTCATCCTCCTGGGTGGCTTTACCCTTTGCTAAAAGGAAACAAAGAACAGCAGGGATCCTGTGTTTTGGA
Y
ACAGTTACCAAAATGGAGTCACAGGGAGGTTTATGTCTTTCTCCAGGCCACGGATATCAACAGAACCAGTGGGGTGGAAGGACCTTTATTCTCATATACC
Celera SNP ID:            hCV1004706
SNP Position Genomic:     530196
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30895):
TTTTGAGATAGGGCCTCACTTTTTCCTCCAGGCTTCAGTCCAGTGGCACGATCTCAGCTCACTGCAGCCTCGACCTCCTGGGTTCAGCCTCCTGCCTCAG
S
CCCTGAAGTAGCTGGGACCGCAGACACGCGCCACCACAGCCGGCTAATTTCTTTGTATTTTTGGTAAAGATAGGGTTTCACCATGTTTCCCAGGCTGGTC
Celera SNP ID:            hCV8702105
SNP Position Genomic:     143000
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30896):
GATTAGCACATAGGCACAGCATCAAGCAGAGTGCCCAGTGCCAATAAGTATTTGATATGTACTTTGATCCACCCACTTTCATCCCACCTCCTTTTTCCTA
Y
GTCACTGGTATTGCATTTGTTGTGCCTTTGTTTGGAAGGGAGAATGGGGCTAACCCAGGGGAACACGGTACATGTTCTTTTCTGTTTACTGAAGATGTAA
Celera SNP ID:            hCV1004707
SNP Position Genomic:     528242
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30897):
TTCCCAGTTTTAGAAGCTCTTGATGAAATGCAAAGGGGAATTACCAGTGAAAACCTGTGTTTGTAGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
R
TGTATGGTGTGTGATTATGACTAATGTCCATCAATTACCTGCAAATTACTAGATGATGCCTGTAATGATAGTTCTGTTTTTAGCTTAATGGTTTATGTAT
Celera SNP ID:            hCV8702106
SNP Position Genomic:     126178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30898):
TCTACGCTATTATCTCTTTTTGACCTTTTAGTCTTCCCTAATTATCCCAAATCCCATTATCTAAATCCCAGCTCCCTTCCTTGCTTGATTTGTGAGCTTG
R
CAAGTATTATCTCTTGGAACATCATCTACAAATTGTTGCTAGTAATAATTATGTTGCAGGAGGTTAAGATTAAAAGATATTTTATACATGCATATTTTAT
Celera SNP ID:            hCV1004708
SNP Position Genomic:     526204
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30899):
TATGACTTAACATTTGCGTGACCTTGGATAAAGCATTGAACCTCTTGAAGCCTCCATTTCTTCCTTTATAAAACGATGGTAGGAAAATTCCTGCTTCATA
K
AAATGTAAAGATCAGTGAGTCCACACATGAAAGTCCTTGGTACAGTGCCTGGCACATATCATGCATTCTGTAATGTTCAAGTATCATTAGTAGTAGTAAG
Celera SNP ID:            hCV1004709
SNP Position Genomic:     525970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30900):
TGGGATCCAGCCTGTTCTAGCCCCTGGAGGCTGGGCTGGCAAACAGCAGAGGATGCTGCCGCATTAAAATTTGGTAGAAAGTAATTTGTCAGTGAGATGT
R
CTCTCTAAATACATAGCTTTTGCAAACGGTAAGCTTTAGTTTGGGGCTAATGCAGACAGCTTGGAGGCTACCTCCATGTCCTTTGTTTCCAGCCTCCTTT
Celera SNP ID:            hCV8922370
SNP Position Genomic:     391116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30901):
AAGGGACATACCACTTGTTGAAAGCCTGCTATGTGCCATAGCTTTATGTTCATTATCTCAGGGTTTTCACAGTGTCTTGCAAAGACCTGCGGTACCCTCC
R
GGGACCTCCATGGTAGGATAGGGCATGCCCAGGATGGAGGGTTCTGACCACCCTGCCTCTGTTTCTTCTCCTTTCTTCTCTTTTGCTCTTTGTAAGCCTT
Celera SNP ID:            hCV9956986
SNP Position Genomic:     386032
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30902):
TTCTCACCATGGCCTTGCATGGGCTTTCCTGGGTGCATGCACACACAGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAATGAGAGAATGAGC
M
TGGTGTTGTTTCTTCTTAGACATCCATCCTCTCAGATCGGGGCCCTGCCCTTATGACCTCATTTAACCTTAATTACTTCCTTAGAGGCCCCATCTTCAAA
Celera SNP ID:            hCV8922374
SNP Position Genomic:     388320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30903):
TCCCAGTGTGGTCCCAGCTGTGTAAGCTTGAGTCTTGTGGTCTCTCTGAGCCTCAGTTCCCCGACTTGTACAATGGAAATAATGATGCCAATCTGAGAGC
R
TTGTTAGGAGAGTGAAATGAGATCTCAAAGCTCCTTGCACATTGCCTGGCATAGAGATGGTGCCTTCCCTGGGGGTGTCACCAAAGTTTCTCTCCAGCCA
Celera SNP ID:            hCV8922375
SNP Position Genomic:     386898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30904):
GTCAGCATGTGGAAGGGTTGGGTCAGGGAAGGGCATCTCAGGCAGAGGCAGCAGCAGGAGCAGGAGCTGGCAAGAGCACAGCTCAGTGCTCCTGCTGCAG
Y
AAAGGATGGGGAGGTGCAGTGAGGGGTTGGCAGGGGATTGGTCATGGGGTGTCCTGAGGGTCCCTGGAAGTTGCTTGGAATCTAGGCTGCAGGCAACAGA
Celera SNP ID:            hCV952800
SNP Position Genomic:     194117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30905):
TGTAATCTCATCTCCTTCCCCAGTACCTGCATGACCTTGGGAAAATTGCTTAACCTTTTTCTTCCTCAAGTTCCTCATCCATATAATGGGAATAATAAAG
Y
CTCCACCTTGCTGAGTTGCTGCAAGGATAAACAACACACTTAAAGATTTTAGACAGGGCTGGCCCAGATGAGCTCTCAGCAAGCCTTAGTCCTCCTTAGA
Celera SNP ID:            hCV952801
SNP Position Genomic:     193657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30906):
CCAGGTGGGATAGTCTGAGTCTGTGAAACTTCTCAGGAGGTTCCTTATATCTTTATTTTGTAACTGGCCAGGTTCCAGAGTCCCAGCCCCAGATAAGAGT
Y
GAGGGTTCTGGCCACTGGTGCCCACTGCCTTGGCCAGGAAAGGGTCCACAGTGAAGGCTCTCCCCTGGTTCCAGGACACTTGTTCTATCTACCAAGTTGC
Celera SNP ID:            hCV952802
SNP Position Genomic:     191631
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   Caucasian(C,26|T,58)   Asians(C,6|T,78)   total(C,32|T,136)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30907):
ATAAGATGCCGATACAACATGATTGATTCCCTATCAGCATCCCCTCCTTGTCTTAGTATTTTTTTTTTCCATCAACAAGTATTTGTTGAGTTTCTGTGAC
W
TGTCAGGTGTTGTTTTAATTGCTGGGCATCAGTCCTGAATAAAGTGGAACAAGTCCCTGCTCTCATGGAGACCGTGGCTTAGCCACAGGAGACAACAACT
Celera SNP ID:            hCV952803
SNP Position Genomic:     183061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30908):
TGGAACAAGATCTCAGAGTAGATGAAAGGGGCTGGGCTTCACCTCAGTGGGATGAGCCTGGAAGGACGAGGATCACTCTATCTCCTGAACTAAAGCAATA
S
CAGGAAGATCTGAGTTTTTGGAAAATTACTCTAGCAGCAATGGAGAAGTTTAGAGGTGGATACTGGAAGGAGAAAGACCAGTTAGGAGGATGAAGCAGTT
Celera SNP ID:            hCV1948330
SNP Position Genomic:     367897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,2)      total(G,2|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30909):
TCCTCCACCTCCCCTTCTACCTCCTCTCTCTTCTCTTCCTGTTTTAGCTGTTTTCAGTGTGGTACTTCTTTTTCTTTCCCAGCTCATCTTTCATGGTTTT
Y
GCTTATCTTACAATTTTTCTTTTAGGTCCTTGAAACTTTTCTTTGAATTCCTTTTTAAAAACTCTGCAATTTCTTTGAGATTAGACAACAGTGGTTTTCT
Celera SNP ID:            hCV952804
SNP Position Genomic:     170351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30910):
AGCCAGGGTGTTCTGTGTGGGGACTGGTGGGTAGAACCAGGTGCAGCCATCCTCAGCTTGGCCTCCCCTTCCGCATCCCACCCAACCTCCCTGACAGGAT
R
ATTAGTTCTGGGAGCTGGGATTTCCTCAGGAAGGCATCTGAATTCTCAGGTGGGTACCGAGGCCCTGCACTTACGTTTGTGTTCCCTCCCTGGCAGTCCC
Celera SNP ID:            hCV27474252
SNP Position Genomic:     569063
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,8|G,1491)   total(G,1491|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30911):
GTGAAGGTACAGGAGAAGAGGGATGGTGACAGAAGGGAGATTCTGGAGTGAGAGGGCCACGGGATTGAGAATGCAGGGCTCCCTTTGCGAGGAGCAGGGG
K
AGAAAGATGCTGTTGTTAGAAGGAGCTGAAAGGTTTGCTTGTGGGAGTGTAAGAGGGACATGTGTCCCCTTGCTCTCCTCATAGTCATGGAATGATTATG
Celera SNP ID:            hCV1948331
SNP Position Genomic:     369008
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30912):
TCAAGACCCATTTCCTTGTTTCCCTAAAGATACAGTTTCTACTCCTCTGTATTTTTGTTCTTGTTGTCAGTGGATTTCAAGAGAGATTAAAAAATGTAAA
W
ACCTTCACTGGACATCTTTAAAAAGAAATCTCCCTTTTCAGTGTTGTTTAATAGTTATACAGAATTCCACTATGCAAATATAGTAACATTTACTAAAATT
Celera SNP ID:            hCV952805
SNP Position Genomic:     171232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30913):
AGGCATGCACCACCACGCCCGGTTGAATCTTTTTTTAGTAGAGGTGGGGTTTCTCCATGTTGAGGCTGATCTCAAACTCCTGACCTCAGGTGATCCGCCC
R
CCTGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCACGCCCGGCTGAATTTCTGCCTTTTCATGGATTCTTAGTGTGATCTGAGGAAAGCCACT
Celera SNP ID:            hCV27474253
SNP Position Genomic:     201862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30914):
CCTACATCAAGACACCAGCATTAACTGAGCATCTATGGGCTGTGCGCCTCTGCACTGTGGGAACAGGAAGAACTTACAGTCTTATTGGAGAGGCAAGTTA
R
GGATATGTCTGTACTCAATAAACTAGGAGTAAGGGAAATAAAAACACCCCAGTGCATCCTCCTGGAAACTTCATAGATTCAAGGAACAGAGGAAAGAAGG
Celera SNP ID:            hCV1948332
SNP Position Genomic:     369387
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30915):
AAAAATTTTTAAAAAGTATCTAGTTACCATACACCTGGATGCAAGCTCAACCTTGAGACATCCGTTTCAAAGCTGTCCAGCCTGCCACAGCCCTGCCTCT
Y
TGTTCATCTCAGGGAAGACCCTTCCCACTGCCCGTCCTCTCCAATTTTATTGCCTCCTCCTCTGGCATTGCAGTCTTGTAGATTTAGCCCCTATTCTCAA
Celera SNP ID:            hCV952806
SNP Position Genomic:     171912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30916):
GTTGAATAACAGGCTATTGCAGTAGCTTCAGTGTACTACGATGATGGCCTGGTGTGGCAGTGGGGTTAAAGAAAGTGAGTTTGAGACATATGTAAGGGAA
R
GAAATGATAGGACTTGGATTACAGAGAAGGTCATAGAGAGGGATTTGTTAAGACACTGAGCATATATGTCTTATGTTTCTTTGCATAAATACAAAGAATA
Celera SNP ID:            hCV952661
SNP Position Genomic:     463488
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30917):
ATCCATAAGTGAATGAGTCCAAGGGCTTACTGCTCTCAGAACCACCAAAATGAAACCTCAGGTAGTGACCAAAGTTCCAGAACCTCTGACCCTTCTTAGT
M
CCTGCTGGAGGCCTCTGTCCTTGAACTCCTGGGAGTTCAGGTCTTCAGCCTTCCTACTGGCCTCCCCTCCTCCTCACCCCAGGAGTTAATTCTCTAGCTC
Celera SNP ID:            hCV1948334
SNP Position Genomic:     371363
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30918):
ACCTTCCAAAGCCTCTTCTTCAATGTCCTTATTAAGGACAGAATCCGGGAGCCTGGGCTGTTTATGCAACCCAGATATTTAGACTTCCTAAGTTGAGGAT
M
AACTCTCTGGGGGCATCCACACATCAACTACAAATAATTAAGTATCTAACAGGTAGCCAGAGCCAGCTTCATAGATATCTGACCTATGCAGTCATACAGG
Celera SNP ID:            hCV952807
SNP Position Genomic:     172284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30919):
AAAATTCCTCTGCAGAAGCTTAAAAAACACACCGTTTATTTTCTCCACATACCAAAAGTCCAGAGGCAGAAAGTCCAGGGCTGGCTTGGTGGTTCCCTCC
K
GGTCTCATGCTCCTTGTATTTTTCCCTCTGCTGCTTTTCATATGACTCTCATCCTCATGATCACAAGAAGGTTGCTCCCTCTCTGTCCTCACATCTGTAT
Celera SNP ID:            hCV1948335
SNP Position Genomic:     371948
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30920):
CCTTCCAAAGCCTCTTCTTCAATGTCCTTATTAAGGACAGAATCCGGGAGCCTGGGCTGTTTATGCAACCCAGATATTTAGACTTCCTAAGTTGAGGATC
R
ACTCTCTGGGGGCATCCACACATCAACTACAAATAATTAAGTATCTAACAGGTAGCCAGAGCCAGCTTCATAGATATCTGACCTATGCAGTCATACAGGG
Celera SNP ID:            hCV952808
SNP Position Genomic:     172285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30921):
AGGGTCTTAATTATTAATATTCCTTGTTAGGAAAAGAATTTAGCAATATCTTCCCTACTTGCACATCCATTTATAGGTTCTCTGCAACAAGAAAAATATG
R
CTCTATTCTGCCCAACCCTGCAGGCAGTCAGACCTTATGGTTGTCTTCCCTTGTTCCATGAAAATTGCTGTTATTCTTTTCTTTCTCAAGGTGCACTGAT
Celera SNP ID:            hCV26469330
SNP Position Genomic:     374983
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,10)      total(G,10|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30922):
CTGGAGTACCTTTATGGAACCCTGGGGTACCTGGGAGCCCAGTTTGAAAACCATTGCTCTAGGGAAGCCATCAGCAAACTTCTTCTGTAAAGAGCTAGAC
M
ATAAATATTTTAGGCTTTAAAGTCCATGTAAGGTCTCTGTTGCATATTCTTCTATGTTGTAGGTTTTGTTTTTTCACTCATTGAAAGTGTAAAAAATCAT
Celera SNP ID:            hCV1948336
SNP Position Genomic:     372453
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30923):
GTAGCTGGTCCTCCATGTACCAGACACAACACCAGGCTCTTTCACCTGTGCCAGCTGAGGCTGCCACAGGGAGAAGCAGAGAACTGGATCTGAGGGCTGC
Y
AGGCTAGGAGTCTACAGATCTGCAGGCTGCAGTCTGAGCAGCGTTGCGTGAGAAAAGCAGCAAAGTTAACGAAGCTGGGCAGACAGAAGGACACCTGGAC
Celera SNP ID:            hCV952809
SNP Position Genomic:     172604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30924):
ATTTTATATTAATAAAATGGATAATCAATCCACAGTAAAACTTTATGTGCCAAATAACATAGCACGAATAAATTAAATAAAAACCGCTGGAAATGTAAAA
M
AATTTAATAAAGTTACAGCCATCATGGAAGATTTTAATATACCTCTGTAAGTCTGTGACATATCACCTAACTTAACGATAAATAAAGATTTGGGTAGCTT
Celera SNP ID:            hCV952664
SNP Position Genomic:     465536
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30925):
CAGAAGGGCCAAGGAATCCCCACTCACTATTGACAAATCCCATCTCCTCTTTAATAACTCGCTCCAAACACTGATTGCTACAGGCTCACACCCCGCCTCA
M
CTAGACGTTGCTGCAGGCCCACATCCTACTTCACCTAGACCTTGCTACAGGTCCACATCCCACCTCACCTAGACCTTGCTACAGGCTTACATCCCGCCTC
Celera SNP ID:            hCV26469331
SNP Position Genomic:     376535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30926):
CAGTCTACATCTCCCGGGACTCTAGCTTCCCACAAGACTGCCCTGAGCTGGCAGATCCTCTGCAGGCTTGTGCAGGCTTTGGGCACATGCTGGCAGCACC
Y
GGAGTCCTATCTTTTGGCTAATCCTGGACAGCACGTGGCAAGGGGAGAATGTTCTCCAGGGCCTCCAGTGGGTGTCCTCCAGGGTCCCACTCCATCTCCC
Celera SNP ID:            hCV1948337
SNP Position Genomic:     372854
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30927):
AGGAGAAAGATACTTTTAAAGATAAAGGCAGAAATGACTAGAGAAACAAAACTAAAAAGCAATAGCAATTGTCAACCAAACCAACTGTTTTTTTTTTTTT
W
AAATAATAAAGTAGACAATACTAGCAGAACTGATCAAGGAATAAAGAAGCCACAAATATGTAATATTAGGAATTGAAAAGGGACATAATCAAAGATATAG
Celera SNP ID:            hCV952665
SNP Position Genomic:     465769
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30928):
CCTTGCTACAGGTCCACATCCCACCTCACCTAGACCTTGCTACAGGCTTACATCCCGCCTCACCTTGACCTTGCTACAGGTCCACATCCCGCCTCACCTA
R
ACCTTGCTATAGGTCCATACCCTGCCTCACCTAGACATTGCTACAGGCCCACATCCCACTTCATCTAGACCTTGCTACAGGTCCACATCCCGCCTCACCT
Celera SNP ID:            hCV26469332
SNP Position Genomic:     376675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30929):
TAGCCTGGGCTGAGCCCACACACACCCTTCTCCATCCCGCCAGGCCCAGACCCACCTCCTCTATGGACCCCCTTCCATCTCTCTCCTCTTTGCACTCCTC
Y
AGCACTCACCATCAGCACCATGTCCTGGGCATTTAGATTCTACTCTAAATTGTCAGGCAAGCAAGATAACTTATGGGAAGCAGCTAGCTCTGGGCTTGGC
Celera SNP ID:            hCV1948338
SNP Position Genomic:     373294
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30930):
TTCAGAAGAGAGAAAAATAAAGAACCATCTCCCAACTCATTTTTTCTTAATGAGGCAAGTAGAAACTTTGGTATCAACGAGTAAAATTATGGTTACCAGG
K
GATTGAGGGAATGGGGAGATAATGGTCAAAGTATAGAAAGCATCAATTAGACAGAAGAATTAAGGGTTTCTTTTTCCTTTGAGATGTATTGCACGTTACA
Celera SNP ID:            hCV952666
SNP Position Genomic:     466285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30931):
AATGCCAGCTGAGGGACTGTTGCTTGACCCCTCCAAGAGTTTACTTGGCCCTTTGGCTCTTAGGAGCAGGTTTATAACATCCCTGTAAAACCTTCACCAA
G
GGCAGAAGACCTTGAAGTGCTGCCCAGCAGGCCCTTGGTGTCCACAAGCAGGGCCGGCAGCCTCCAGTGAGCTGGGCACTGCTTGCAAACAGCTGAGAAG
Celera SNP ID:            hCV26469333
SNP Position Genomic:     400834
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,9)   total(G,2|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30932):
TATTGTGCTGTATTGGGGGAACCTGCCCCTAATATTTAGACATCGATTCTTTCTATTTTCCATAAGTGTCAGCTGGCTGAGAAATAAAGAGAAAGAGTAC
R
AAGAGAGGAATTTTACAGCTGGGCCTCCAGGGATGACATCACATAACAGTAGGACCGTGCTGTCCACCTGAACCTTAAAGCCAGCAAGTTTTATTAAGGA
Celera SNP ID:            hCV1948339
SNP Position Genomic:     374407
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30933):
TCAGAAGAGAGAAAAATAAAGAACCATCTCCCAACTCATTTTTTCTTAATGAGGCAAGTAGAAACTTTGGTATCAACGAGTAAAATTATGGTTACCAGGG
K
ATTGAGGGAATGGGGAGATAATGGTCAAAGTATAGAAAGCATCAATTAGACAGAAGAATTAAGGGTTTCTTTTTCCTTTGAGATGTATTGCACGTTACAG
Celera SNP ID:            hCV952667
SNP Position Genomic:     466286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30934):
GATGCTGTGGGAAATGGCCCTACTGGCCCTCTGCTAGTATCTTCCTGTCCTTTACTCTGACTTCCTCCTTACTTATCCCACCTTCTGTTCTGGTGACACA
M
ACACACACACACACACACACACACACACACACATGCACGCACACATTCCGGGATGAATTGGGTAATGGGATCTGCAAGAATCTGGTCTCTCCCATGGACC
Celera SNP ID:            hCV26469334
SNP Position Genomic:     403163
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1|-,4)   total(A,1|C,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30935):
ATTTTTTCTTAATGAGGCAAGTAGAAACTTTGGTATCAACGAGTAAAATTATGGTTACCAGGGGATTGAGGGAATGGGGAGATAATGGTCAAAGTATAGA
M
AGCATCAATTAGACAGAAGAATTAAGGGTTTCTTTTTCCTTTGAGATGTATTGCACGTTACAGTGAATATAGCAAATAATAATGTATCATACATTTCAAA
Celera SNP ID:            hCV952668
SNP Position Genomic:     466323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30936):
AGGCAGCAGTGGGTTCTGGGAGAAGCCACTGGGTTTGGGCCTATGCAAAAGGGACATGTTCCGTAGATACATTGACGCACACATAAACACCCACACACAC
R
CGCGCGCCCACACTGCAGGACTGGGTACTTGGGTTTGTAATGGTTCCTATAGGGGTTGGCTGTTGCCTAATGGATATGAATGAAGAAGGGAGGTGGGTTT
Celera SNP ID:            hCV26469335
SNP Position Genomic:     405545
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30937):
GTCCCCAGATTGTGATGTTCCCCTTCCTGTGTCCACGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGTGTTGTTTGGTTTTTTGTCCTTG
Y
GATAGTTTACTGAGAATGATGATTTCCAGTTTCATCCATGTCCCTACAAAGGACATGAACTCATCACTTTTTATGGCTGCATAGTATTCCATGGTGTATA
Celera SNP ID:            hCV26469336
SNP Position Genomic:     414682
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30938):
CGGCCCCCATCTGGGCTTAGTCTTTCACCCCTATATTCTCCAGGGGTGGGAAAAAAGGGAACCAGCATTCTTTTTGCACCTCATCTATTTCCAACCACTA
S
TCCTCTTCTCTTTTTCTATGAGGGTCATTCCTAACTCTATTTCAACCTCATAGCTATCAGCTGGTATCTTCCTTCACTCCACTTCACTAAAGAGGATTCT
Celera SNP ID:            hCV1004710
SNP Position Genomic:     525309
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30939):
GATGATGCTAAGCCACTCATGAAGAATCTAACCCCATTATCCAAATACCTCCCCCCAGGCCCCATGTCCAACATTAAGGATTACATTTCAATGTGCTATT
Y
GGAGGAGACAAATATCCAAACCATATCATTCTGTCCCTGGCTCCCCAAATCTCATGTCCTTTTCACATTGTAAAATACAATTATCCCTTCCCAATAGTCC
Celera SNP ID:            hCV26469337
SNP Position Genomic:     417573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30940):
TTTGGCTCGTGGTTCTGCAGGCTGTACAGGCATGGCACCAACATCTGCTCAGCTCCTGGTGAGGGTCTCAGGAGGCTTACAATCATGGCAGAAGGCAAAA
Y
GGAGCCAGCGTATCATATGGTAAAAGTAGGAGCAAGGTAGGGTGGGGGCACCACACTCTTAAGAAACCAGATTTCATGTGAACTACCAGAACAAAAATTC
Celera SNP ID:            hCV26469338
SNP Position Genomic:     419314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30941):
AGAGGGATCTGCCCCCATGAGTCCCACCAGGCCCAACCTCAAACATTGGGGATTACATTTCAACCTGAGATTTGGAGGAGACAAAAAACCAAACTATATA
T
TTTTTTGTTTGTTGTTTGTTTTGTTTCTTAACATGAAATTTATGACCAGCTAATAACGGGTTGCAATCCACTGTTTAATACATTTAGCTATAAATTCTTC
Celera SNP ID:            hCV26469339
SNP Position Genomic:     419549
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30942):
ACTTTGGGAGTTCACACTCAGTCCATTACCTAAGCCATCCAGGTAGTGGTAATTGTTATGAGAAAAATAAAGCAGAGCAACTGGCAGAGTATGACAAGGC
R
CAATCAATGGAACCTTTTTGGGAAGTGATACCTCACTTGTTTTCACATGTCAGTCCCTTAAAGCTTGCCACTGTCTTCAGGGTTTCATGTTTTCTTCTGT
Celera SNP ID:            hCV8702113
SNP Position Genomic:     121495
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30943):
TTAAAGTGCCTGAGCCATTAATAGTCCTGCCTGGATTGAGTTGTTCTGGTTTTTCATTGATCTTAATCATAGGCCATGATAATACTAAGAGATAACCTAA
R
GGATCTTCTTTATTCCAGACATAATCTTCCTTACCTCCATTGTGTAGTAGCAGTCCCATTTCTGTTTGGTAGTGAGAATCAATCACCCTGGCTAGCATAG
Celera SNP ID:            hCV8702114
SNP Position Genomic:     120080
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30944):
AAATTTTGCATTTAATTTCTATGGGTGGACTCACAAACTACTTGAAACTCATCTTTGAGCCCCAGGGTAACAACTCATGATTTAGAGGTTGTGCATATAG
R
TGGCAATAATGATAATAGGAATTTAAACTATTTTTGAGCATTTACTGTGTCCTGGGTACAGTGCTAAAGGCTTTCCATGAATTACCTTGCTTACAACATT
Celera SNP ID:            hCV8702115
SNP Position Genomic:     105460
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30945):
AAGTCCTCAGTATCATCAACAGGTTCTTGGAAACTGTTGACTTTAAGTAAAACAAAGTATAGCAGGTCTTCAAATGTTTCCTTCAATGTCATTTCATTAT
R
TTGTTTTTGTTTTGTTTTGTTTCTGAGACAAAGTTTCATTCTGTCACCCAGGCTGGAGTACAGTGGCACAATCTTGGCTCACTGCAACCCTTCCTTCCTG
Celera SNP ID:            hCV1004719
SNP Position Genomic:     522033
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30946):
TCCATGAACTCACGGGACCAGAGCTGTCTTGTTCACCACTGCAGACAGAGACCTCAGCACACTGCTTTGTACATGGGGGGTCTCAGCAAATTCTTGCCCA
R
TGAATGAATAAATAGTTGAATACCCTGTATATTTAGGCCTCCCTAAAAGTAGATGACACCAGTACAGAGTAAAAGAAGGGGTTCCAAAGAGTTGCCACAT
Celera SNP ID:            hCV8702119
SNP Position Genomic:     101987
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30947):
ATGCCTAGCAAGCTGCAATTCCATATATTGTAAGTGATAAAACTGTAATTGTTTGTTGACAGTGTACATTAGCTATTCACAGCTTGCATCAATATAGTAC
Y
GAGAAACTAGGGTCTAGGAATCTTTAATGGCAGTGCAAAAATATACTGGAACTAAGTTGGGGAATAAAATCAACAATTTCTGCTTAGTGAGAGGAATGCC
Celera SNP ID:            hCV11266043
SNP Position Genomic:     133361
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30948):
GGACTCTGCAGAGTCCAGAGGAGATGCAGGGCACCATCCAGCACAGAGCAAGAGACCTGAGCATTCTAATGTGCTAGCTGAGGTCTCTCTTAATTTTCTT
R
TAAAGCCACCAGTTCCTTTCCCATGCTTGCCTATTAATCCATTAACCCATTAGCCCATTAATCCGTGAATGGATTAATCCATTCATGAGGACAGAGCCTC
Celera SNP ID:            hCV952810
SNP Position Genomic:     173023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30949):
GCAGAGGAGATGCCCATCCTATCTTGCTGGACTGCACCCTGATGACAGAGGCTTCGAGAAAAGAAGGCATTCCTTAGATTGCCACTACATTTTTCTCCCA
K
CACTAGTCACATTACTGAAGCAAAGGAGCCCAGTTCCAGTAAATATGCAGACAGATCCTCGCATTTCATCCTAGCTAACTGTGGTGGGAAGATGGCCTCC
Celera SNP ID:            hCV952811
SNP Position Genomic:     173351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30950):
AATTTGCCTGGTGGGAGGGTGGGACTGAGAGAGGGGAGGAAGACAGGGAACAGGAGCTACCTCTGTTGGCCAGGCCCACCATGCAAATGAGCTGGGATGC
R
GTCCCAACATATTAAATGGATCAGAGCAGCTTCTCATTCACATGTGCAAATTAGATTAATCAGACCAGATGCAGAAAGAGGAGAATAATAATGCCGTTAC
Celera SNP ID:            hCV952812
SNP Position Genomic:     173729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:30951):
CCTCTGACACTTTTTCATCCCTCTCCGAGTTTTATTTTGGTGGACACTGTGTGTCCAGGATTGGGGCAGAAGGAAAGTGTGGCAGATCCAGCCAGAGGGC
R
TGGTGATTGCATATTGCTCTGATTACCAGTGAGGTTGCGCATCTTTTCATGTTTATTGGCCATTTATATTTCCTTTGCTGTGAATTTTCTGTCCATATCC
Celera SNP ID:            hCV952813
SNP Position Genomic:     174985
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30952):
ACAAATTCAGAACTACTGATAAGGGTCTATGTTCAGCTGTGCAGGTATTGTCTTGATAAACATCTTAAACAACAGAAAACAGGGTTCGAGAGCAGAGAAC
Y
GGTCTGACCTCAGATTTACCAGGGTGGGTTTTTTTCGCCACCCTAATAAGCCTGAGGGTACTGCAGGAGACCAGGGCTTATTTCAGTCCTTGTCTCAACC
Celera SNP ID:            hCV1948340
SNP Position Genomic:     374717
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,8)   total(C,6|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30953):
AATATTCCTTGTTAGGAAAAGAATTTAGCAATATCTTCCCTACTTGCACATCCATTTATAGGTTCTCTGCAACAAGAAAAATATGGCTCTATTCTGCCCA
W
CCCTGCAGGCAGTCAGACCTTATGGTTGTCTTCCCTTGTTCCATGAAAATTGCTGTTATTCTTTTCTTTCTCAAGGTGCACTGATTTCATATTGTTCAAA
Celera SNP ID:            hCV1948341
SNP Position Genomic:     374998
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|A,5)   total(A,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30954):
TGGATCTTAAAGGAGAGAGTAGGAGACAGACATTAATCAAGGAGCCCCTAAACATATGTAAAAGACAACTGTGAAAACGGCCATCCATGGTGCTGTGAGC
R
TGGGATTGGGAGAGCTGGCCTAGTGGGAGGCAGTGGTCACTCAGCTAGCTCTGGAGGAAGAGGGGACTCATCAGGGGGAAGACAGGCCTTCCCAGCTCAA
Celera SNP ID:            hCV952815
SNP Position Genomic:     176774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30955):
ATGGCTGTCTCATCTACTGGAAGGACAGGATTGAGGGTTTAGCAATGTAGAGATGAATGCTTTCAGCCTGTCTCTCTGAAGAAACAGATGGTTTGACAAG
Y
AGGCAACCCAAACCTGGCCTCCCCAGGCTGCTAAAGAGTAAGCTGGTGCTATATGGGCATTGCGGGAACAAGAACAAATCTCCACTGGAAAGATTAGAAT
Celera SNP ID:            hCV952670
SNP Position Genomic:     470678
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30956):
CCTGCCCTCCAGGAGTTCATGGTGTAGTGGAGGAATAAGTAAACAGACCCATCACAGTCCAGCAGGTAAGTGCTAAAACAGACGAGAGGAAGGGGCTGAG
M
AGGGGCTGCTCCCCTTGTCAAGGTTAGTCAGAGAGAACTGAGACAAGTCAGGCTCACAGATGAGAAGAAATATTCTAGGGCAGTGACAGGGAGCAGGAAG
Celera SNP ID:            hCV1948342
SNP Position Genomic:     376065
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30957):
TTCCATCGTTCACCTGCACTACCAAAAAAGCCTGCAACCATCCTCACCACCAGCCTCACTCCTGCCAATGAGTTCCACACATACTGCCACACTGACATTT
Y
CTCAAACACCTATGCGTCCCTGTCACCCACTATTTAAAACTCTACTGCTCCTCCCCTGGCATAAATTCTAATTTTGGAGGGTAGAGGTATGAGACCTTTT
Celera SNP ID:            hCV1948343
SNP Position Genomic:     378089
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30958):
ACCAGCCCTCTCCTGCCTTCCCCTCTCAGAGGTTTATAGGGTTCATGGATTGATGCGTAACCTTCCAGGTTCTTTTCTATACATTCACAGCACTGTAAAT
R
TATCTAGATAGAGATATATACATAGACACAGACATATACATATATAGAGACACATACATGTGCACACAATACACATATACATATGCAGACACAGTCATAC
Celera SNP ID:            hCV952816
SNP Position Genomic:     178063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30959):
ACTACCAAAAAAGCCTGCAACCATCCTCACCACCAGCCTCACTCCTGCCAATGAGTTCCACACATACTGCCACACTGACATTTTCTCAAACACCTATGCG
W
CCCTGTCACCCACTATTTAAAACTCTACTGCTCCTCCCCTGGCATAAATTCTAATTTTGGAGGGTAGAGGTATGAGACCTTTTGAACCAAACTCCAGGAA
Celera SNP ID:            hCV1948344
SNP Position Genomic:     378106
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30960):
GGGCAGTTCTCCAATGGGAAGAGAAATGCTGGACAAATAAAAGCAACAGCTGTCCACTCTTGGATCAGCCTGAAAGGCCTCGGACCAAGACTTCTTCCAT
S
TAAAGCTCAATCTGAGACTTGACTTTTACCACTTCTGTTTGAGGAAAGGCCAGTCTAGACTAGACCATTGGAATGACAGAGGACAAGGAGAGGAAGAGGC
Celera SNP ID:            hCV952817
SNP Position Genomic:     167360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30961):
ACTGGACTTATTGGGTTCACTCAAGCAGTATAAGAGCATTTAAACTTAGACTTACACTAGAACCTTGGAGGCCTTCCCCATTGAGACTGCCTCTAGCCTG
M
TAGGGGATTGAGGCTGTGTATTTGAGATTATGTGCATATTTTTGTATATGTCATGTTGTGGTCGACTTCATCATGGTCTACCACAAATGACTGCTATAGC
Celera SNP ID:            hCV952672
SNP Position Genomic:     474696
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30962):
CAGTATCCTGCAATGTTCCTAGTTTCAGCAATAATCCTTCTACCTCTCTCTACTCTGACCAAGGGGAAAAGAGCACTGGGCACCTTCTCACTGAATTCAT
R
TGAAATGTGAATAGAATGAGCAGTCTGTTAGGGGGCAGGGGAGATCGAGGTTTTGTGGATGAACCTGGAGCCTTCCACTGGCTGGCTGCTTCCATGCAGA
Celera SNP ID:            hCV1948345
SNP Position Genomic:     379527
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30963):
CAGCCCAGAAAGGATTGAGAAGAGGTAATTGCTGAGGAAGAAGGAGAGCGAGTGAGGATTGGCAAGTCCAGAGCCAGATGGGGAACACTCTCAGAACAAC
R
TCAAGCTCCTACATGTAGGAGAGAGTTGGAAATAATAGATTAGGTGGAATTAAGATGCTATTTGACCAGGCCATAGGAATACTTGGACCCTACCTCAGGC
Celera SNP ID:            hCV952818
SNP Position Genomic:     166353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30964):
GTCCTGTGTGAAACCAACGGGTCCATGAAATGTTTGATGTGTCCTTTATAGCAACAGGTAGGGGTCAGTCTTCCATCTGTGACCCTGATCCCTTCTTCTC
M
TATTTCTAGCATCTTGCCTAATCAACTATTCCTTTTCCTAAATAGCTCTGCAATGAACATCCTCCTCTTCATTTGTACTCATTCTCCCTTGATTCAGACG
Celera SNP ID:            hCV952673
SNP Position Genomic:     475438
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30965):
GAGGGATCTGCCCCCATGAGTCCCACCAGGCCCAACCTCAAACATTGGGGATTACATTTCAACCTGAGATTTGGAGGAGACAAAAAACCAAACTATATAT
T
TTTTTGTTTGTTGTTTGTTTTGTTTCTTAACATGAAATTTATGACCAGCTAATAACGGGTTGCAATCCACTGTTTAATACATTTAGCTATAAATTCTTCC
Celera SNP ID:            hCV26469340
SNP Position Genomic:     419550
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30966):
GGAGATGTCTCATTGAAAGAATGGCTTGGGTTCCAACTGGAGAAATGGGTTTCTGTGAGGGGAAACCCACATAAAGACAGCAAGGAGGTGGGGGTGGCGG
Y
GGTCTTTTCTGCAATACAGGTCACACAAGAGATCAAAAGTTGCAAGAATGTAGACACCCTCTTGATTGGATTTGGCTCCAACTATCCCTGTCCCCTGAGC
Celera SNP ID:            hCV1948346
SNP Position Genomic:     382643
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30967):
AAAGGCCCAGAAAGATCAGGGCGGCACAGTGTCTCCTGGCTTCAGCTCTCAGATGCTACCCTGGAGTATGCAGAGTTCACTGTGGAAGGCCCTTCCACCT
Y
CCCCCACCCCCGACCCTCAATTCAGGGGGCTGAGGCAAGAATTGGAGGTGAGCAAGTAGAGAAGGGTGTCTGGTCACCTCTTATAGGACATTAAAATGAT
Celera SNP ID:            hCV952819
SNP Position Genomic:     161841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30968):
AACTCACATGTATAATCACTGCAATTCTTTCCTGGAACAGTGAATATATGACAGCCTGGTATCCAAGGTCCTTCAACCTGTGATGCTTCCTCACCTTTCC
R
GTCCCATCTCCCCCCTCTCCCTATCTCATACCCCAGCCTCCAGCCTGCCATGCTGTTCCTCACCTCCAGGAACTTTGCAGTTACTCTTCTGTCTCTCTCT
Celera SNP ID:            hCV952674
SNP Position Genomic:     476467
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_AA(G,16|A,67)   total(G,16|A,67)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30969):
AGGGATCTGCCCCCATGAGTCCCACCAGGCCCAACCTCAAACATTGGGGATTACATTTCAACCTGAGATTTGGAGGAGACAAAAAACCAAACTATATATT
T
TTTTGTTTGTTGTTTGTTTTGTTTCTTAACATGAAATTTATGACCAGCTAATAACGGGTTGCAATCCACTGTTTAATACATTTAGCTATAAATTCTTCCT
Celera SNP ID:            hCV26469341
SNP Position Genomic:     419551
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30970):
ACAGCCAAGGGGAAGACAGGATGAGTCTTCCCAGCACAGGGAGAGCATGCTGCTGGGCTCCAGAGTCAGAAACACAGTGGGGCCCAGAATTTGCCCGAGC
R
GGCCTGGATCCTGGATAGTCCTTTAAATGTCATCGGTCAGGCAATCATTCTATTCGGGTGTCATGGTGGAGAGCACACCTCTAAATATCTCTCTCCTGCC
Celera SNP ID:            hCV1948347
SNP Position Genomic:     382928
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30971):
AGACAGGCCTTCCCAGCTCAATGAAATTTGCCTGCCTGTCACTCATTCTCCCTTCTTCCTCTCGCTCACCTACCCCACTCCCATAACCCAAAGCATACCC
S
CTGGATCCAATGGATTATTATGTCCTATTTATTCTACCTCTGAAAAATCCCTCAAATTTAACCACCCTTTTCAGATCTCCCTACTGGCTCTGCCTCAATT
Celera SNP ID:            hCV16146850
SNP Position Genomic:     176954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30972):
ATCACTGCAATTCTTTCCTGGAACAGTGAATATATGACAGCCTGGTATCCAAGGTCCTTCAACCTGTGATGCTTCCTCACCTTTCCAGTCCCATCTCCCC
S
CTCTCCCTATCTCATACCCCAGCCTCCAGCCTGCCATGCTGTTCCTCACCTCCAGGAACTTTGCAGTTACTCTTCTGTCTCTCTCTGCAGTGCCCTCCTT
Celera SNP ID:            hCV952675
SNP Position Genomic:     476481
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30973):
TTTTATTTCTTTATTGTTTAATCATGAATAAAGCTATGAATTTTCTCCTTACTACAGCTTTGGTCTAGTATCATCATCATTATAAGAAGTCTGTATTGGC
Y
GGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGCGAA
Celera SNP ID:            hCV26469342
SNP Position Genomic:     422338
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30974):
CAGAGAAGGGAGCAGACATCTTTTCAGGAACATCTGAAAGGGGATCAGGAAAGCGCTTTGTCACAAAAGTGAGCCTAAAGTCCTCAGAATGACTAGGTGG
S
TACTAGGGAGACAGGCCCAGGGAGCGGGGAGAAGGTGTCCCTTCAGTGTGGCTCACACAGCATACCCCCAGTGTACCATAGGTTCCTCCTGCTCCAGGAC
Celera SNP ID:            hCV1948348
SNP Position Genomic:     384303
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30975):
CCCAGAACTTCAGAACTAGGCCCTGCCATTGTCACAAGACAAGGCCTCCTGGTAGAAGCCACCTAGTCAGCTTGTAAACAGGAATTATGATTTAATTTTT
W
AAAATGACCCATGTCTATTTTAAGCATTCAAGCAATACAGTAAGAATATAAATATGAGATATTTTATAATCACTACTCACAATTCAACATTCCAGAAGTA
Celera SNP ID:            hCV16146851
SNP Position Genomic:     168887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30976):
GGTCAGGAGATCGAGACCATCCTGGCTAACACGGCGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGAGGTGGCAGGTGCCTGTAGTCC
M
AGCTACTCGGGATGCTGAGGCAAGAGAATGGCGTGAACCTGGGGGGGTGGAGCCTGCAGTGAGCCGAGATCAGGCCACTGCACTCCAGCCTGGGTGACAG
Celera SNP ID:            hCV26469343
SNP Position Genomic:     422501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30977):
GCAGATCCTGGTTCTGTCACTTTCTAGCTCCATGGCAGGTCATGGAACCTTTCTCAGGATCTGTTTCTTCATCTGTGAAACAGAGATAATAATACAACCT
R
GGTCTCAAGGGTCCTGTGAAGATGGTTAGATTAAGAAATGTGAACATAAGAAATGTTGCAAATTGCAAAGCAATTAGTGAGTAACTAATGAGCCAGTACA
Celera SNP ID:            hCV1948349
SNP Position Genomic:     385117
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30978):
CAATCATGGCGGAAGGGGAAGCAGGCACCTTCTTTACAAGGCAGCAGGAGAGAGAAAAGTGAGAGAAGGAGGAACTTCATAAGTTCTGATGGAACTTATA
M
AACCATCAGATCTCGTGAGAGCTCACTCACTATCATGAGAACAGTATGGGGAAAACTGGCCCCATGATCCAGTCACCTCCCACCAGGTTCCTCCCTCAAT
Celera SNP ID:            hCV952677
SNP Position Genomic:     477185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30979):
GGCTAACACGGCGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGAGGTGGCAGGTGCCTGTAGTCCCAGCTACTCGGGATGCTGAGGCA
R
GAGAATGGCGTGAACCTGGGGGGGTGGAGCCTGCAGTGAGCCGAGATCAGGCCACTGCACTCCAGCCTGGGTGACAGCGAGACTCCGTCTCAAAAAAAAA
Celera SNP ID:            hCV26469344
SNP Position Genomic:     422524
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30980):
AGGGAAAACGAGATAACTTGCTCAGTTGATAGCTTCCCTCTGCCATCTTCCTTGCATCTGATAACTCACTGTGCCTCTGATAGTTGTTACCAGTGCTAAA
S
TCCAGGACTGTGGGTTGTGGGGTAAGGAGGTGTTGTTCAACATAAGGCCATGCTGACGACATTGGGTTGGGGGTCTCTCCTGTGTCCAGGTTTATGATGG
Celera SNP ID:            hCV25924855
SNP Position Genomic:     470941
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,28)   total(C,65|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:30981):
GGGTAAGGAATGGGAGATAGATAGGGGTAAAGTATAGCCTGGTTATGGACCATCTTAAATGCCAGTAACTAAGAGGGAGCCATGGAAGGTTCTTGAGCAG
S
GTCGGTCCACCAGGGTTATTTGCAGTGTAGAGAGCTCATGGGGAGACACCATCAGGAGTCTGTTACAATGATCCAGGAAGTAAGTGCTAAGGATTTGGAA
Celera SNP ID:            hCV952678
SNP Position Genomic:     479977
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30982):
TACTAAAAATACAAAAAAATTAGCCGGGCGAGGTGGCAGGTGCCTGTAGTCCCAGCTACTCGGGATGCTGAGGCAAGAGAATGGCGTGAACCTGGGGGGG
Y
GGAGCCTGCAGTGAGCCGAGATCAGGCCACTGCACTCCAGCCTGGGTGACAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGAAGTCTGT
Celera SNP ID:            hCV26469345
SNP Position Genomic:     422549
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30983):
CAAAGTCAAGTGCAAATGTCAGCTCACCCGGGAGGTCATCCCTCACCCCCTCTCTTGCGGGGCTCCTAGGAGTCCTTTCTGCCTCTTTTGAACTTCCATT
R
CCTGTTGCATATATTTTCCTGATGACACTGACCACTTTTCTCCTTTATTTATGCTCATGCCTTACCTCCCCTCCTGGAGCTGTGGTCTCTGCCTGATTCA
Celera SNP ID:            hCV952679
SNP Position Genomic:     480772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:30984):
TCTGCCTTGGACTTGCTCAGCAGGCCCTGTGACTTGCCCCCTCTGCCTTCAAGGTCTTTGCCTTTGGGTTTTGATTCCTCATTATTTGCATTATGTTCCC
A
ACTGAACTCCCACAAAGCTGGAGACAAGATGGCTGTGTGGGGGCATCCATGTCCAGCCTAGAGACTCCCAATTCAGTGCTAATGTAATATTTCAAGTCGA
Celera SNP ID:            hCV26469346
SNP Position Genomic:     425484
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,20)   total(A,1|-,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30985):
AGCATTTTTGCAATCAGAAAAATTAAATGTTGTTTCATTTTGAACGCCTACGACCCTGATATAGTTTTTATTTGGGGGCTTATGTCCAGTCTTTATCCAT
W
TATAAACAAATATTTAATAGCTATAATCAAAAGCATGCATATAATTTTATGATCTACTGCTTTATTTAAAATTATGTTTAACATTCTTTCTACAGGGTCA
Celera SNP ID:            hCV26469347
SNP Position Genomic:     426503
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30986):
TTATAAACAAATATTTAATAGCTATAATCAAAAGCATGCATATAATTTTATGATCTACTGCTTTATTTAAAATTATGTTTAACATTCTTTCTACAGGGTC
W
TATTTATCACTTTAATGATTGCAGTCAAACTGTATCACATTAAAGGCTATAATTTACCTCACATTATTGGGCTGACATATAGTTTGTTCACATTTTTCCT
Celera SNP ID:            hCV26469348
SNP Position Genomic:     426603
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:30987):
CAGAATTTGTGCTCAGGATTGTATGACTTCCAAATCAATGCCCTTTCCACAACTCTCACCCTCAGTCCAACCTGCCCACTTCTTGGCTGTCTAGAAGGAT
S
TGCAGCTTGCACCCACTCCCATCTGGGCAACCATGGTTTAGTAAGCTCAAAAGGACCCCTCGACTAACCCTGAGCAGTAGGAGCCTTCCTGTTGGCGAGG
Celera SNP ID:            hCV1004721
SNP Position Genomic:     516553
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30988):
CTCTATAATAAAATTATGTCATTGTAAACATCTTTGGCTAGGTGGCTCTTTTTCTTTTGAATTAATTCCTAGAGATTACTGAGTCAGTCTTTGAGTAGTT
Y
TGTGGCTCTGGATGCGAACTTACATACTCCCTTCAAAAAGGATCATATCAGTTTTGCTCTGCAATTGGCAATAAATGCATGTATGAGATTCCATGAAGCC
Celera SNP ID:            hCV26469349
SNP Position Genomic:     426802
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:30989):
AGAAAGCCTCCTCTGCAATCCTCTCTTTCTATCTTTCCCTGGGACAGGAGATGAGAGAAGCCTAGATGCCTGGATGACTGCATGGAGCAGAACCCACCTC
S
TCCCCTATCTGCTGCTGATTGATTGAATTTTACATAAGTGAGAAATAAACTTTTATGTAAACTTAGACCTCACGTATTACTGCACCAGTTGCCCCAGGAG
Celera SNP ID:            hCV8702120
SNP Position Genomic:     99758
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:30990):
GTATGCCAACATTGCTTTCTTAGTCGTGACAAATGCACCGTGGAAATGTAAGATGTTAGCAATAGAAGAAATGGTGAAAGGTCTATGGGAACACCGTATT
R
TCTTTGCAACTTTTCTGTAAGTCTAAAATTATTCCACAATAATAAAAAAAATTAATTAACAGAGAGAGTCACACAGGCTTGTAGCCAAGGTATCTTTGGC
Celera SNP ID:            hCV1004722
SNP Position Genomic:     507825
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30991):
GTCCCTTCCTTGCCCAGGACACCCTTTCCTCACAACCTGGTCAAACCCTCCTGTGATACCTGCTCAGATTACCATGCATTCACCCTTTGTGGTTTTACAC
R
CGCGTGTGTGTGTGTGTGTGTGTCTTCTTCATTTATGCCCATCTACCCCACAAGGCTGTAAACTCCTTGATGACAAGAACTCTTTCTCTTTTACTTTTCA
Celera SNP ID:            hCV8702121
SNP Position Genomic:     96475
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30992):
TTTTGAGGGAACAATATATTTGCGTGCTCATTGAAAAAAACTCTGGAAGCATATGTACCAAACCTACTATTAATTGAATAGCTCTGGAGAACAGGTTGGC
W
GTGTGAAAGAGAGACTTTTTTAAAATTCAGTACATCTGTATATTGTTTGCCTTTTCTCTGCCTTGAGTATGTCTTATTTTTAAAATTTAAAAAGATATTT
Celera SNP ID:            hCV1004723
SNP Position Genomic:     507518
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30993):
GCCTCCAGGTCTTATCTCATGTTATTAAATCCAAAGAAAGCACTCTCCTTTCACGCCACCTAAACTTCAGGTCTCATTTCCTTTTGCCTTCCCTGATGAG
Y
GTGGCCCACACCGATGTCTTTTCTGAGAGCACGTACAGCCACACCACACGGCTGGCACTCGGTCTCCTCTTGGCTGCTGATTTCACAGTGCATTGATCAC
Celera SNP ID:            hCV1004726
SNP Position Genomic:     504803
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30994):
CGGCTATTATGTTCCAGCCACCATGCTGGACACTTGTGTTCATGCTCTCATGGTAATTTATTCTACATTTATTGAATGCCTAACAGGAATGCCAGGTATC
R
GAGACACAACAGTTAACAAGACAGCTTCTGCCTTCAAGGAACTTAACGATATCTTTAGGGAGACAGTTAAATAATCAGGGTATAAGTGCTATGACTGGGG
Celera SNP ID:            hCV8702125
SNP Position Genomic:     96157
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:30995):
CATGGGCTAATGTGAAAGTGCCTTATACACAGTGGTTGTTATGGAAACACGTTTTCCTTCATGTCTATTTAGTCCCCATATTCTTGCTTTTCTCAGCTTC
S
TGTCAGACTGGGGTTTCATTCGTTCATTCATTGATTCACTCACTCATTCATTCAGTTGTTCACCCTCAGGATTTCACATGGCCTCTAGAGTCAGTCTCTA
Celera SNP ID:            hCV1004727
SNP Position Genomic:     504450
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30996):
AGACACAGCTGATAATTTTTTAGTGAGTTTGTGTCTGGGGGGTTATTGCCCATCTCCAGAAGCTCCCGGAGAATGGCACCCTGTCTGTCATCTTCACTGT
W
ATACAGCAGCACCCCGCATATGGGAGGCGCTTAAGTGAATGAGTGCCGAAAGGGGCTTGAACTTTAGCCTCTGTCCTTTCCGTTGCCAACTTGTATTGTT
Celera SNP ID:            hCV1004728
SNP Position Genomic:     503822
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30997):
TAAATACACAGATAAATGAAGTTGGTGAGTATTTTCTGAATATTAGATTAGTGCAAAAGTAATTGTGTGTGTGTGTGTGTGTGTTTGCCATCATTGTTAA
Y
GGCAATAACCGGAATTACCTTTGCACCAACCTAATACAAAAGATTAATTCATTTCACTCACTCATTCATTTAAAAATGTGTACTGAGTGTCTACTATGGG
Celera SNP ID:            hCV8702127
SNP Position Genomic:     67542
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30998):
CACCAAGAGTGATCGCAAAATGTAAATCGGAACCTGTCAGAGCTCAGCTTAAAATATACCAATGACTTCCCTCAGCTCCTATAGTACACACCAAACATCT
Y
CCCCCATCCACGGAGTCCCGCCAGCCCTGCCCCTGCCTACCTCTCCTGGCCCAGTGTCGCCTCCATGGCCTTTCCATTGTGACCTTTGCACATGCTCTCC
Celera SNP ID:            hCV1004729
SNP Position Genomic:     503464
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:30999):
CTCCATGCCCTCCCTTCGACTGGGATGTCCTCGGGCAATGTTGACCTCACCTTGGGCATTTGGGTTATCTCAGTCCTTATAATATTAATCTGACATTAAC
R
TCTGCCTACAATAATTTTTCCCAAATTTCATCAGAAATGCCTTGGAGACACTTTAAAACCACAGATTCCCAAGCTCTTTTCCCCAAAGATCTGATTCAGT
Celera SNP ID:            hCV8922390
SNP Position Genomic:     369625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31000):
ACTCAAGACCAAAGCCGTCTTCATGTTCTGAATCACATTTTAGATTCCTCCATTCACTGTGTTGAGTATTCCTTATTACACTAATGTAGTCTACTCAGGC
K
ACTGTAACAAAATACTGCCCACTAGATAGCTTAGACAACAGACATTTATTTTCTCACCATTCTGGAGGCTAGAAGTCCATGATCAAAGTGCAACTAAATT
Celera SNP ID:            hCV8922391
SNP Position Genomic:     365819
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31001):
TTCTAATGCACTTGAGTTTATTCTGTTGTTCTTTTTCTAGCATCTTAATTTTGATGCTTTGTTCATTATTTTTCAATCTGATTTAAGCATCAAAGGCTAC
R
AATTTCCCTCTGAGGACTACTTTGGCTACATTCCTACAGATTTTTACAGTTATTTATTTTCTGTTATAGTTTAGTTCTGAATATTTTTTAATTTACATTA
Celera SNP ID:            hCV8922392
SNP Position Genomic:     363116
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,1)      total(G,1|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31002):
TGGATTTAGGAGTTAAGCGCTACTATATGCTAGTTAACCCTCCAGGAGGGTGTGAGATCACTCAGGGAGAGGCAGTTTCAGTGGGGAGGGCAGTGGTTAG
Y
GAGGGAGTCTTGGGAGAGACCCAGGGCAGGCAGAGGAAGAGGCTTACATGGAGGGACCATCACTGAGGTCCCAGGAGAGCTGGGAGTAGATTGAGCAGAT
Celera SNP ID:            hCV952820
SNP Position Genomic:     161602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31003):
TTGCCAACGGTTTGAATAAGAAGTAAATAGCGTGAACTTGAAAGGGATGACAATACTAGTCAGCAAACAGAGTGCAGAAAGATCTGGGTGGGGTAGAGCC
R
TTGACTAAATTAGTAGGAAAAGATAAAGTGGGAATAAATATCAAGTCATGATTTAAGACTTAAAAAGAAATTAGCTACTGGAATTTATCCCAGGAAGTTA
Celera SNP ID:            hCV1948350
SNP Position Genomic:     385590
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31004):
GACGAGGAGGCCAGAAGTCAGGCAGTGGCAGTGGAGATGGAGAAGAAGAGAAAATTCAGGGGACATTCAAGTGATCACACCAACTTTTCTCAACTACTGT
K
TGTGACAACAATACACCAAGTACCTGCGTACCTACCGCCTACACCCAAATGGCGTTACTATTTTGCCATATATGCTTATGTGCTTTCTTTGTTCTTCTCT
Celera SNP ID:            hCV952680
SNP Position Genomic:     481779
SNP Source:               dbSNP
Population(Allele,Count): (G,-|T,-)   (T,-|G,-)   (T,-|G,-)   Caucasian(T,84)   African-American(T,84)   Asians(T,84)   total(T,252)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31005):
TAAGGAGAGGATTTAAGGCAATTCCTGTAAGAAATGTTGATGGCCCCCGAATGTTTATGCAGGAGAAGAAGTGGACTTGGGAGATTTGAGAGCTGTGTCC
R
GATATCTGAAGGGCTTTCATGTGGGAAAGAGGAATTAGATGCATTTGGTGTGATCTTGTTGGAAAAGAAAGGGACATACCACTTGTTGAAAGCCTGCTAT
Celera SNP ID:            hCV1948352
SNP Position Genomic:     385863
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31006):
GAAAGGGACATACCACTTGTTGAAAGCCTGCTATGTGCCATAGCTTTATGTTCATTATCTCAGGGTTTTCACAGTGTCTTGCAAAGACCTGCGGTACCCT
Y
CAGGGACCTCCATGGTAGGATAGGGCATGCCCAGGATGGAGGGTTCTGACCACCCTGCCTCTGTTTCTTCTCCTTTCTTCTCTTTTGCTCTTTGTAAGCC
Celera SNP ID:            hCV1948353
SNP Position Genomic:     386030
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31007):
CTACTGTTTGTGACAACAATACACCAAGTACCTGCGTACCTACCGCCTACACCCAAATGGCGTTACTATTTTGCCATATATGCTTATGTGCTTTCTTTGT
K
CTTCTCTTTCCATCCTTTTGTTTTCCTTTTTGCTGAGCTGCTGGAAAGTACACTGTCAACATCATGATACTTCATTTCTAGATGCTTTGGCACACATCGT
Celera SNP ID:            hCV952681
SNP Position Genomic:     481872
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31008):
TTTAAACAAATTTATAAACTCGAAATGAAACGTTTCCACAATCTTACTCTGTAATCTTACTCCTCCTCACACCCCACATAAAATAACTATTAATGTCTGT
Y
TGCTCTACTTATTCTTTTGGATATTTTGTGTGCCAATATGTACATAAAGCAAATGTAATGCACATGTTTCTAAACCAAGTTCATCCACATGCATGGCTTA
Celera SNP ID:            hCV952682
SNP Position Genomic:     483290
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31009):
TGCGAACTTACATACTCCCTTCAAAAAGGATCATATCAGTTTTGCTCTGCAATTGGCAATAAATGCATGTATGAGATTCCATGAAGCCTCAACAATATTG
S
ATTCTATATTTTTTCTTTATTTTTTCTATTGAAATGGACTGTGTTGTCATATTAATTCTATTTTCTTTCATATGAATCCTCTAAGCACTCTCTTTACTCA
Celera SNP ID:            hCV26469350
SNP Position Genomic:     426915
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31010):
GCTACCAGGAACATTTCCAGCCGAGAAGGAGATGAACAGCCCTGGGCTTTAATGCATGGTGTGACGTGGGTGGCGGGGAGGGAGGTGACATAGCCCCTGA
Y
ATCAGGGGCCCCTGAATTTGATGTAGAAGAGACAGCCCTGACCCCAGGGGACCCCAGTCTGCAGCAAGAGACATGGCCCTGTCCTTGGGAATCCTGGTGT
Celera SNP ID:            hCV26469351
SNP Position Genomic:     459408
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31011):
TCACAGATGCCAGAATCAGCCACAGCACTTACCTGTGGTTGTGACTGTTTGTTTCTCTGGAACATTTATTTGTTTCCATTTGTGCCTGTGTTTGGCTTCT
R
AGTTCATCTGTTCACCTCCCCTGTTACTTTGGAGACTCTCCCGGAAGCAAGTGCCCCGTCCCTCTATCCCTCCTGTCCCCTCCCTGGTGCCCAGGACAAA
Celera SNP ID:            hCV26469352
SNP Position Genomic:     459709
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31012):
TAGAGGCCCCATCTTCAAATACAGTCACACTGGGGGCTAAGAGCCTCAATACAGGAATTTGGGGGAGTTGGGGGAACACACAAGTTCAGTCCGTAATACC
R
TCCAAAACCAAGCTCGCCATCTCTGCCCCCACACCTGTGACCTGCACCTGTGTACCCCATCTTCACGAACAGCACCACCATCCATGCCATCCCTAGGCCT
Celera SNP ID:            hCV1948358
SNP Position Genomic:     388502
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31013):
CCAAGCCCATGTTTAAGGGAAGCCAGCTGTCGAGAATTAGGCAGAGGGCAAGAGGCATCAGGAACCATGAGGGTGCTGTGAGCCTCGGGCAGCTAATGCA
Y
GCTTCCCATATGCTTCTCAGGCTTTCTGCCAGTCCCAGAATCCAGGCAGTTAGGGTTCCAAATGGAAGCAGGTAATCCATGTAGATTCACCTGGGACATT
Celera SNP ID:            hCV26469353
SNP Position Genomic:     460090
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31014):
TGAATGGTTATCTTTCCAGGGTCTCATGAGGACTCAGTATAGTCAAGCACCCAGCATAGGGCCTGACATTTAGTAAATGCTCAGTTGGAAGCTTACTCCC
Y
TCTCTGCTCTCCAAGGCCTACAGCTCTTCTTCCAACCTACATCATTACCCGAAGCTTCAGAATTACCTCTGCCTCCATTTTAGCCCCTGTTATTCCAGCT
Celera SNP ID:            hCV1948359
SNP Position Genomic:     389392
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31015):
TATATATATGCATGTGTGTGTTCATTTGTGTAGCTATGTATTTATGGATATAGATGCTTTTTTAAATATGTTTCCACCTGTGTGTGAATCGGTGTCCATG
W
ATTTGGTTTTGGGGATCTGTGTCTGTGCACACCTGTGTCAGCATATTGTGTGTATGTGCACTTGTGCATTGTGTATGTTTTGGTTGAATAACAGGCTATT
Celera SNP ID:            hCV26469354
SNP Position Genomic:     463305
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2|-,7)   total(A,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31016):
CAGTGTTCTCTGGAACCCTAAAGATTCAAGGACTGTGTATCAGGAGCCACCTGGAATCAGGTTGCCAGATGTTCCAATTGGAAGTACAGGACACAGCCAT
R
GGAGGTGGCTGATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTGCTTGAGGCCAGGAGTTCCATGCCAGCTGGGAAAACATAGCAAGA
Celera SNP ID:            hCV16146863
SNP Position Genomic:     180459
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31017):
CAGAGTTCAGGGAGGACTAACAGAGGATGCAGGAGCCCAGGTAGTGCACACACATACGTGCACACACACACGCATACACAAACACATGCACACACATGCA
Y
ACGCACACAATGCACACACGCACACACACATACACACGCACGCACAAACACATGCACGCACACACACACACACGTACATGCACACACACACACACTCTTT
Celera SNP ID:            hCV26469355
SNP Position Genomic:     464843
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31018):
AGTTCAGGGAGGACTAACAGAGGATGCAGGAGCCCAGGTAGTGCACACACATACGTGCACACACACACGCATACACAAACACATGCACACACATGCACAC
R
CACACAATGCACACACGCACACACACATACACACGCACGCACAAACACATGCACGCACACACACACACACGTACATGCACACACACACACACTCTTTAGC
Celera SNP ID:            hCV26469356
SNP Position Genomic:     464846
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31019):
TTCAAAATCACTAAAAGAGTAAATTTCAAATGTTCTCACCACAGAAAAAGATAAGTATTTGAGGTGATGGTTATGTTAGTTTGATTTACTAATTCCACAT
Y
GTATTCATAAATCATAACATACTTTCTACTGCATGAATATATTCAGCTATAATTTATCAATTTATAATTTAAAATAAAAATTTTAAAAAGAACAGAAATC
Celera SNP ID:            hCV26469357
SNP Position Genomic:     466518
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31020):
GTGCCTAGTATGCTATCTGAACCTAGTACTTACTATTTATAGATTTAAAGTATGACTATCAGTATCACTGTAGGCTCAGGGAACCTACAGGGCTGGATTT
W
AAAAGTGTGAGACCATGGTTGCAGTATCCCAGTTTCTCCCAGATTTAGATTCAGCAGTGAGCTCTGGCCCAGGTTCTGTGTGGCTAGATTCTATGTCTTT
Celera SNP ID:            hCV1004730
SNP Position Genomic:     501030
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31021):
TGGGCGTGGTGGCGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGAAGGCAGAGGTTGCAGTGAGCCGAGATTG
Y
GCCACTGCACTCTAGCCTGGGTGACAGAGCAAGACTGTCTAAAAAAAGAAAAAAAAAAAATGGAGTAAAGTATACATGCTTTGACATGGATGACCCTTGA
Celera SNP ID:            hCV26469358
SNP Position Genomic:     471634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31022):
GCCTGCTATTGGTTGGTGGGGGCGTGGGTGTGGCAGTGGGAGGTGGAACTCTGAAAACACTTTGAGGAAAGGCATGTGGAGATCTCAGACTTGAACAGGG
W
TATCTGCACATCCCAGGGTGTCCCTGCAGCCAGCAATGAAGTCAAGATCCAGCCCCCGCAGAGCAAGCAGAATTTCAGGGCAGCCCCACCAAGGAATGGG
Celera SNP ID:            hCV1004731
SNP Position Genomic:     500192
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31023):
CTCCCTGACCCTCGCTGTCCTTTGCTCAGGGAGATTGGTCACTTCTGCTGCTACTTGTTGTTAGGATACCTAGCACACAGTGTGGCTGTCTTCTCTACTA
S
ACAGTAAACTCTTCCAGGGGAGGGCAGTATCCTGTTGATCTCTGCTGTCCTGGCAGCCAGCAGAGGTCCTGTTGCTATCAAGAAGCAGGTTGAAGTACTT
Celera SNP ID:            hCV26469359
SNP Position Genomic:     476757
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31024):
AGCAGGGAGGTGGGAATCATTTGTTTGTTTGTTTTTGTTTTTGTTTTTAAAAAATACCTAGTGTGTCCAAGTTTCCTTCAGACTAAAAGAACTGAGGACC
R
TGATCTCAGAAGCAAGTTTTGCCTGTGGGCAGCACTTGAGAGGGACGGGCCCCTGCAGTGAAAATCCACTGTCCTCCCAGCTTCTTAGATTTAGGCTCTG
Celera SNP ID:            hCV1004732
SNP Position Genomic:     499856
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31025):
AGAGATAAACTGCCTATAAGCAGGGAGGTGGGAATCATTTGTTTGTTTGTTTTTGTTTTTGTTTTTAAAAAATACCTAGTGTGTCCAAGTTTCCTTCAGA
S
TAAAAGAACTGAGGACCATGATCTCAGAAGCAAGTTTTGCCTGTGGGCAGCACTTGAGAGGGACGGGCCCCTGCAGTGAAAATCCACTGTCCTCCCAGCT
Celera SNP ID:            hCV1004733
SNP Position Genomic:     499838
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31026):
TGTAAATATTGCCTTATTTGGATAAAGGGTCTCTGCAGGTGTGATTAAATTAAGGATTTTGAAATGAAGGGGTTATCCTGGATTATCTGGGTGAACCCTA
K
ATGCCACCACATGCAACTTTGTAAGAAGAAGACAGAGGGAGATTTTATACACGTAGAGGAGAAGGTGATTCAAAGACAGAGGTAGAGGTTAGAGTGATAT
Celera SNP ID:            hCV1004734
SNP Position Genomic:     489445
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31027):
ATAGGTTTTCTGTATATCATAAAAACCAGTTAGAAAAAAATAATGAGAAAAATGACATTCACTAGTGCGGCAAAAAGTGCATAAAATGTCTGTGAATAAC
Y
TTAACAAGATGTGACTGGGACTTAAAGAAAAGCATCTAATCTTTACTGAAAGATTAGGTGGTGTTTGCTGTGCCAGGTTCTGTACTGAACATTTAGCAAC
Celera SNP ID:            hCV8702133
SNP Position Genomic:     67141
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31028):
GATCAATAGAAGATGGATGATGAAATGCAGGAGGAGAGATTCTGAAATAGACAGACAGTGATTAAGGTAAGAAAGGAATGCGAAGAAATTAAACACACAG
Y
AACAACTAAAATCCACAATAGCAGCATTTGCCTTGTAAGAAATAAAAGCATTGAAGTAGTAGACAAGCTAGACTCTAAGTAATGAAAAGTAGACAAACAT
Celera SNP ID:            hCV1004735
SNP Position Genomic:     488552
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(C,83|T,634)   total(C,83|T,634)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31029):
CTGACTTTCATTAGGAACTCCAATATGGCTAAGAATTAGACCAGTCGTTCTCAACTAGAGGTGATTTTCCCCCTAGGGGACATTTGGCAATATCTGGAGA
R
ATTTTGGTTGTCACATTGGGAGGTGCTACTGGCATTCAGTGGGTAGAGGTCAGGGACGCTGCTAAACATCCTATATGTACAGGACAGCCTCCCACAGTGA
Celera SNP ID:            hCV8702134
SNP Position Genomic:     65937
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31030):
TCTCACTCTGGACACTCGGATTTCTGCTATGCCCATAAAGCTCATATTTGGCTAATAGTCCTTGTTTTTTAACTTCAGGGATACTTCTTAATGATTAACA
Y
ACAGGGAAAACTGAAAACTCCATTCTTGGATTTTGGTCACCATGCAGCAGGCATTGGCGGGCATGGTTTTGATTAACCAGGACCCCTGCCCAGTGGAGCT
Celera SNP ID:            hCV1004736
SNP Position Genomic:     487420
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31031):
CTTCTGGCATTCACACCACACAGTAATTCATGGGCCTGGGCGGGGGTGGCATGTCTTTTGGTGGCACGACTCTCTGAAGTCTTCCAATTCTTTTTTCGTC
K
TCTGAAATGATGATGATTCTTTCCCTCCTTCTCCTTCACTGACTTTCCACCCTCATTCCCCTTAAATACTGGAGGGCCCAGCTCGGCCTCTTCTCTGGGG
Celera SNP ID:            hCV1948500
SNP Position Genomic:     239291
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,8)      total(G,8|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31032):
CGTTTTCAAAAGCAGAGGTCCCTGGGAGGTGCTGAGCTTTGTGTCATCTCTTTGATCCACAAGAGGGAAGATCATGTGGATTTCAGCAACAGGCCTCTGA
Y
TTATGAGGGCCATTGGCCCTGGATCAAAGAAGGCTGCATGGGGAAGTGACGGAATTCATATGCACTGGGGACTGAGAGGCAGGTGGTAGGGAGAAAGCTG
Celera SNP ID:            hCV1948501
SNP Position Genomic:     241081
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31033):
CAGACCTTATAGATGGGTTGGATGGCTGATAGAATAAAGGGCCAAAGTTGACTCCTAGGCTTTTCCTGGAGGGCTGGTGGGTGGGGATGCCAATGACCAA
K
ATGGAGATGACTGGCACAGAGGGCAGGAAGCATGTGCCCTAAAGGGAAGCAAGACAGCTCACTTTGTCCAGGTAACGTTTGAGACGCCTGTGAGACATCC
Celera SNP ID:            hCV1948502
SNP Position Genomic:     242655
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31034):
CTAATGTTTCTCTTTGGCCCCTGCTTACTTTCCACCTGAGTGCCCCTCCCTTCCCACCTTCTCTTCTTTCAGGTATCTTTGCTTCTGCCTGCTCCATACA
K
GTCTGTTCAGTCCCCAGCCTTCTCCACTCCTGTGGTGGGAGCTTCCCTCTCTGTCCTGCTGATTCCCTGCCTCACAGTCTCTGGGATCCCAGGCCCATAG
Celera SNP ID:            hCV1948503
SNP Position Genomic:     249473
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31035):
GCTTGCTCGGAACAATATTGGCAAATCTCCCACTTGTTGGCTGGCTCCTGTGGCTTATCTCCCTGGTAATGTTCATGGTGAATTTATTTACATCAGAAGG
M
GACAAACTCTGCCTCAGATGTCAGACATCATAGCCTCCTGCCAGAGAGATACTCAAGGCAGAAATACTGTGCAACTTGATAAAACAAATCAACAGCACCA
Celera SNP ID:            hCV1948504
SNP Position Genomic:     250385
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,5)   total(A,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31036):
TAGCACAATCTCGGCTCACTGCAAACTCTACCTCCTGGGTTCAAGCGATTCTTCTGCCTTGGCCTCCCGGGTAGCTGGGACTACAGATGTGCGCCACCAC
R
CCCAGCCAACTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCATCATGTTGGCCAAGCTGGTATTGAACTCCTGACCTCAGTTGATCCGCC
Celera SNP ID:            hCV1948506
SNP Position Genomic:     251334
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31037):
CTCTTGATGCTCTTCAACGGTGCCAGGCCTCTGCACCCTGGTGACCTTTGCATTTGCTGCTCTATCTTCCGTGAATGCTCTTCCCCCAGGTAACCATGTG
W
CTTCCTCTCTCATTCCTTCAAGTCTTGGCTCAAATGTCAACTTCTCAGTGGGGTCTTCCCTGACCACCCTTTCTGAAATATCCACACCCCCACTCCCAAC
Celera SNP ID:            hCV1948507
SNP Position Genomic:     251596
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31038):
GGGCAGCCGACCAGCATCACTCACCACTCCCTCTAGGACACCGCCTTTCCTCTTGTCAGATGCCAAGCACATGGCTATTTTCAGCCTCTCTTCTGTTATT
Y
TCAGTACACCTCTATTTCTTGTCTTTTCCCCATAAACTGGAAGGCCCAAACATTCCAACTTTGGCCAAGAATGTCACTAACATGTTCCTAAGATGCCCGC
Celera SNP ID:            hCV1948361
SNP Position Genomic:     390820
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31039):
AATGAATGAATAAGTGAATGAATATATTAACACAAATTCTGTCTCTTCCATAAAGCCCTTCCTAACTATGTGCTATCACTGCGCCTTGAGCATCCCCATC
R
TAACTATTCTGTGTTGCCATTGCTGGCTTGCCTGCCCACCTCCTCCCTCAGAAGCATTTGAAGGCAGAGAGGAAATCAAGCTTTTCACATTGTAGTGCTG
Celera SNP ID:            hCV1948508
SNP Position Genomic:     251996
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31040):
GGGTGGATGTGGGCATGTGCGCAGGGCTGTGCCTACACGATGGGAAGGCTGGGCAGATTCCTTCATCCCCCTTAGGATCCCCTTTTTCTTAAGCCAATCA
Y
AGCCTCAGACTAGCTGCTGTGGGCAGGAACACAGGCACATGTACCCCACGTGCATATCTCCTGCAGCAATGGTGGGGCCTCACTAGGAAACCTTATATCT
Celera SNP ID:            hCV1948362
SNP Position Genomic:     397000
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31041):
CTGTAAAGAACATTAGTAAGAATAGTTCAGAGCTGCTAAACAAGATCACTTTTATCTCTAGCCCAGATGGCTCCTATATATCTGTTAATCTGATCTCACC
R
TTGGAGGCCCCACAGACATACCCACTTCTGCGTGTCCAAAACTGAACTCCTGGTTGCCTTCCATACCACAAGGAGCTCCCTTCCTGGGTTTTCTGCCTCA
Celera SNP ID:            hCV1948509
SNP Position Genomic:     252369
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,12)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31042):
CCCTGTCAGGATCACACACACCAACTTCAGGGACTGTGGCTCTGACAGCCCATGATGGTGTCTACCGAACAGGCAGGGTCCCTTTTTCCTGAGAATCCTA
R
GTAGTGTCCAAAAAACTCCCCTGATGACTCTGGGCCCCTCTCTCCCAAATCTCGGGACTCATACAGTCCTCACCTCACCGTCTGGCACTGGCTTCATGAC
Celera SNP ID:            hCV1948363
SNP Position Genomic:     397900
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31043):
AGTAGCTTGTTTTCTGTTTTACCTCTTAATCATATGTCACCATCTCATCATGTCAATGTCTATAGACCTACCTCATCCTGTTTGATGGGTACAGAGAATT
Y
TATTGTATGTACCACCATAATTTATTTAACTATTCCCCTGTTGAATAAGTGAATCTTTTCAGCTTTTCACTCCAACATTCTTATTCCTGAATCTTCGAAC
Celera SNP ID:            hCV26469360
SNP Position Genomic:     483490
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31044):
ATATTCATTGTTATTCTCATCTGTTTGTTGTTCAAGATTAATTTTAGAATCATTTTGTCAGAGTAAAAAAAACATCCTATTGGGATTTTTGTATGTGCAC
K
CCTGTTAAAATATAAATTAACTTGAAGAAAATAGGCATTTTTATAATACACAGCCCTCATATCCAGACACATGTTTTTGTTCGCCTACTTCCGTCTTTCT
Celera SNP ID:            hCV1948366
SNP Position Genomic:     406571
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31045):
TTCTTTTGAGAAGTATCTGTTCATATCCGTTGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCACTGTAGATTCTGGAT
R
TTAGCCCTTTGTCAGATGAGTAGGTTGCCAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGTTCGTTTCTTTTGCTGTGCAGAAGCTCTT
Celera SNP ID:            hCV26469361
SNP Position Genomic:     494477
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31046):
GGGAAGGCTTGAGCTCTTGGATTACATCATGCCAAGAGACTTTTTTCCTAGCTAATACTTGTGTCATGCCAAGATACATGGGGTTGTGATACATGTGGTG
W
TACGTTGTGTTCATATGCTGTTGCTATTAAGTTGGCCAGGCTGAGCTGCCATAACTCAGTTATTAGGATGATTGTAGTCTCCCAGGGTCCGTGGGATGTT
Celera SNP ID:            hCV1948367
SNP Position Genomic:     408644
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31047):
GGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCACTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCCAAAATTTTCTCCCAT
K
CTGTAGGTTGCCTGTTCACTCTGATGTTCGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTCCCAT
Celera SNP ID:            hCV26469362
SNP Position Genomic:     494522
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31048):
TATGTACTGGCCATTACACTCAGCACCGGGCAAGTGATGAAGATGATTCAAACATGGTTCTTGCCCTCCAAGAGCTCATAGTCTAGTGAGTAAGATAAGC
R
TGTGCTTTTATTTTAAAGCAGTCTCTGAATTATTGCACATAGATGTGGTCACAAAGTGCTACCAGAATGTAGAGGAAGAAAAATTCATTCCAACTGGCAG
Celera SNP ID:            hCV1948368
SNP Position Genomic:     408961
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31049):
GGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCACTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCCAAAATTTTCTCCCATT
Y
TGTAGGTTGCCTGTTCACTCTGATGTTCGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTCCCATT
Celera SNP ID:            hCV26469363
SNP Position Genomic:     494523
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31050):
ATGTTTGTAGGAATTTATCCATTTTTTCTAGATTTTCTAGTTTATTTGCATAGAGGTGTTTGTAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATC
R
GTGGTGATATCCCCTTTATCATTTTTTATTGCATCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCAGTCTATCAATTTTGTTGATCT
Celera SNP ID:            hCV26469364
SNP Position Genomic:     496419
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31051):
ATCAGTGGTGATATCCCCTTTATCATTTTTTATTGCATCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCAGTCTATCAATTTTGTTG
M
TCTTTTCAAAAAACTAGCTCCTGGATTCATTGATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCCCTGATCTTAGTTATTTCTTGCCT
Celera SNP ID:            hCV26469365
SNP Position Genomic:     496516
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31052):
CTTCTCTAGTTCTTTTAATTGTGATGTTAGGATGTCAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACT
K
CTTTGAATGTGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCATTGGTTTCAAAGAACATCTTTTTTTCTGCCTTCATTTCGTTATGTACCCAGTA
Celera SNP ID:            hCV26469366
SNP Position Genomic:     496747
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,6)   total(G,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31053):
CAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGTGTCCCAGAGATTCTGGTATGTTGT
R
TCTTTGTTCTCATTGGTTTCAAAGAACATCTTTTTTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGATTGTTCAGTTTCCATGTAG
Celera SNP ID:            hCV26469367
SNP Position Genomic:     496782
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31054):
CTTTAGAGAGAATAGTAACATCAATACTGATTAGTGCGAATATAAATTGAAACAATCACTTGAGAGGATAATTTAGCAAGATTTATTTTAAAATTTTTAT
K
TATTTTATTTTCTTTTTATTTATTTATTTATTTATTTTTGAGACGGAGTCTCGCTGTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGC
Celera SNP ID:            hCV26469368
SNP Position Genomic:     506860
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31055):
CATGGTCAAAGCTACCTAGCCTGGGCTCCAGAAAGGTCATGACAGCCTGGCCCAGTGTTATGGGCATAACCAAGGTTTGGGAAAGGTCACCTTCCCTGTT
R
CTGTCATCAGTTAGCAAATACCAGGACTACTCTAGGGAAGAGAGAACGGCTCACCCCATGTTAACTTTATAGTGTGTATTTGACAGGGGATTGTACAGAA
Celera SNP ID:            hCV26469369
SNP Position Genomic:     511112
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,15)   total(G,15|A,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31056):
TTTCTTTAGGGATGAGGCCAGTTCCACCAGATAAAACAGGAGCCATGTGTTTTTAATGGATAAAGAAACAAATGAAAAGAAAAAAGAAAGACACCGTTGA
M
AAGCAGACAAATTAATCCATTTACTTGACAAATATTAATGGAGTGTCTATGAAATGCCAAGCCTTGTGTTGGGATTTAACAGTGAGTCAGGCGTGGTCCT
Celera SNP ID:            hCV8702140
SNP Position Genomic:     63201
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31057):
TAGGGTTTTGTTTTCTTTTTCTCTCTCTCATTTTTAAAATTAATTTTCAAATATGTCTCACATAAGGGCACAGGGCTTGAAGTTGCCTATTTTCTTTAGG
R
ATGAGGCCAGTTCCACCAGATAAAACAGGAGCCATGTGTTTTTAATGGATAAAGAAACAAATGAAAAGAAAAAAGAAAGACACCGTTGACAAGCAGACAA
Celera SNP ID:            hCV8702141
SNP Position Genomic:     63111
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31058):
CTCTCCCTTTTGATAGGAACAACTTTCAAATCACCATCAGTGCTCATACAATTCAAACGTGTAGTTGGGGGCATCAAAACACAAAACCCTTTCCTTTATA
Y
GTAAAATGAGCAACACGTCTGCTGAAGATTGGGAAAGCAAAGTGAAATTGCAGATGACCTTTGAATGCCTTAATTTAAAGAATGATCTGGATTGATCTTG
Celera SNP ID:            hCV8702142
SNP Position Genomic:     62041
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31059):
AGCCACAGGACTGTAAGGGCCATGAGGGGGCGCCAGGGATTTACAATTATAAAGGTCTTGTTGGGCCATAATAAAGTCCCTCTCAGCTAACAGGTGACCA
Y
GGGGCATGTGATGGTCTTGCTTTGTTCACCCATGTGCGTCTTGCATATTATTCATGCTATGGATGAACATGTGCTCCTAGCCATTTCAAGGTTAGACATG
Celera SNP ID:            hCV8702146
SNP Position Genomic:     57802
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31060):
GCCACAGATGCTTTTCCCCTAGACGACTACATTTTCACAGGATCTTTAACACTGTTATACAATGGAGGGTCTAAGTGGACCCTCTGCAAGTGGACAGACC
R
AAACAGTAGCCTTTATGGAACCTCTAGGGTCTTCCTCTCCCTTTGCCTTTGACCTGGTCTTCAGGCATATCTCCCCTTTCGCCCTCCATCTCTTTTTATA
Celera SNP ID:            hCV1004748
SNP Position Genomic:     474258
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31061):
TCAGCAGAAGCCACAGGACTGTAAGGGCCATGAGGGGGCGCCAGGGATTTACAATTATAAAGGTCTTGTTGGGCCATAATAAAGTCCCTCTCAGCTAACA
R
GTGACCATGGGGCATGTGATGGTCTTGCTTTGTTCACCCATGTGCGTCTTGCATATTATTCATGCTATGGATGAACATGTGCTCCTAGCCATTTCAAGGT
Celera SNP ID:            hCV8702147
SNP Position Genomic:     57794
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31062):
CCACTGCCCCTCAGCAGAAGCCACAGGACTGTAAGGGCCATGAGGGGGCGCCAGGGATTTACAATTATAAAGGTCTTGTTGGGCCATAATAAAGTCCCTC
Y
CAGCTAACAGGTGACCATGGGGCATGTGATGGTCTTGCTTTGTTCACCCATGTGCGTCTTGCATATTATTCATGCTATGGATGAACATGTGCTCCTAGCC
Celera SNP ID:            hCV8702148
SNP Position Genomic:     57784
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31063):
TCTTAAGGCAGAGTCCCCACATGTGTGGTCGAGTCTTTGTTTTCTGACACTTGGTTTTCTTTCTTTCTTTTTTTTTTTTTTTCCAGGAAACTTAAGATTT
Y
ATTTGCATAAGCCACAGTAATTAAGAAATTCAATTTGGTTTTGAAATGGAGATTGACATACAGAAACACAACCCCATACACACATTCTCACACAGTCTGT
Celera SNP ID:            hCV1885301
SNP Position Genomic:     85246
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31064):
TTCTGCCTGCTGGAGTTATTTAAGCTTGTCCTGCTCTTAAGGCAGAGTCCCCACATGTGTGGTCGAGTCTTTGTTTTCTGACACTTGGTTTTCTTTCTTT
Y
TTTTTTTTTTTTTTTCCAGGAAACTTAAGATTTCATTTGCATAAGCCACAGTAATTAAGAAATTCAATTTGGTTTTGAAATGGAGATTGACATACAGAAA
Celera SNP ID:            hCV1885303
SNP Position Genomic:     85212
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31065):
TTCCTGAGATGGGGACAGCAACAGGAGGAGCTGGAAGTTAAGATTCAGTTTGGCCCTATAAAATTTTAGATGTCTATTAGATATCCAGGTGGAGAAGGCA
Y
TTAACGTGCACTTGAATATGTGGTTTTTGAGTTCAAGGCCGTCAGGGCTAGAGATACAAAATTGGGAGACTAGGACTGGATGGTGCCTAAAACGTAAGAC
Celera SNP ID:            hCV1885304
SNP Position Genomic:     84832
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31066):
TGGTATCCCATGTAGGTATCTAGGGAAAGCTTCTAGGCTAAGGGCACAGGAAATGTAAAGGGTACAGGGCCACCGTTTGGAGGATGGTCTTGCTGTGGCA
S
AGCCCACTTTGGCCAAGCCAGTCATGTTGACTAGGAAGACCTGCAGTTTTGGAATCCTCATTCTAGATCATCCCAGGTGTTGTTTTTATGCTCTGCTAGT
Celera SNP ID:            hCV1885305
SNP Position Genomic:     84159
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,7)      total(G,7|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31067):
TTCTGGAGATTCTGCTTCCTAAATATCTCTCAAATAAGTCCTCTCCCACCCTCCACACGACCTTAGCTCGATCTCATCCAGCCTCACCTGGACTGTGGTG
R
TTTTGGTGATACCAAGAGCATCCCATGCGCTTCCCTGACTCAGACCTCCTTTATACCATAGCCAGTGTTCTTTCTAAAATGCAAGTTTAATCACATTTCT
Celera SNP ID:            hCV1948510
SNP Position Genomic:     252641
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31068):
CTTCATCCATGTCCCTGCAAAGGACATTAACTCATCCTTTTTTATGGCTGTGATTGCTGGTTTTTATAGGGTGGTCAGGGATGGTCTTTCCCAGGGGAAA
R
AGAGCTATGAGCAGAGAGCTGAATCATGGAATATCATGTATGGTGTGGTATCCCATGTAGGTATCTAGGGAAAGCTTCTAGGCTAAGGGCACAGGAAATG
Celera SNP ID:            hCV1885306
SNP Position Genomic:     84013
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31069):
CACTTCCCAGACTGGGCGGCTGGGCAGAGGGGCTCCTCACATCCCAGACGATGGGCAGCCAGTTAGAGACGCTCCTCACTTCCTAGACGGGGTGGCGGCC
R
TGCAGAGGCGGCAATGTCAGCACTTTGGGAGGCCAAGGCAGGCGGCTGGGAGGTGGAGGTTGTAGCGAGCTGAGATCAGGCCACTGCACTCCAGCCTGGG
Celera SNP ID:            hCV11266071
SNP Position Genomic:     89436
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31070):
TCTGGAGATTCTGCTTCCTAAATATCTCTCAAATAAGTCCTCTCCCACCCTCCACACGACCTTAGCTCGATCTCATCCAGCCTCACCTGGACTGTGGTGG
Y
TTTGGTGATACCAAGAGCATCCCATGCGCTTCCCTGACTCAGACCTCCTTTATACCATAGCCAGTGTTCTTTCTAAAATGCAAGTTTAATCACATTTCTT
Celera SNP ID:            hCV1948511
SNP Position Genomic:     252642
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31071):
CTCCTCACATCCCAGACGATGGGCGGCCAGTTAGAGACGCTCCTCACTTCCTAGACGGGGTGGCGGCCGGGAAGAGACGCTCCTCACTTCCCAGACTGGG
Y
GGCTGGGCAGAGGGGCTCCTCACATCCCAGACGATGGGCAGCCAGTTAGAGACGCTCCTCACTTCCTAGACGGGGTGGCGGCCATGCAGAGGCGGCAATG
Celera SNP ID:            hCV11266072
SNP Position Genomic:     89352
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31072):
ATTGACTTCCAGCTGGAGGATGGTTACGACTTTCTGGAAGTCACTGGGACAGAAGGCTCCTCCCTCTGGTAAGCACAACATCACCTTCCTTTCCTACCCT
R
TTCTCTGCAACTGTGAATTACTGGGATGCTTGCAGTCTCCTCAGTGCCTGGACCTGCAGCCAGAGGCCTCTTAGCCACTTCCTTATACCTACTGTTAGAG
Celera SNP ID:            hCV1948512
SNP Position Genomic:     253674
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31073):
TGCATATATATTTTTTTATACTTGCATTGCGTATGTGCATATCTATGCATATTACAAGTCCACATTGCCTTTTTAAATTGAAGATTGAAGAATAACTTAC
W
GAAAAAGTAGCACACAAAATTATACATATGGTGTTATCTCACCAGTGTGAAATATGCATGGAAAAAAATCTCAGAAAAATGAAAATATTAACAGCAGTTG
Celera SNP ID:            hCV1885308
SNP Position Genomic:     71088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,8)      total(A,8|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31074):
GCTCCTCACTTCCCAGACGGGGTGGCGGCCGGGTAGAGACGCTCCTCACCTCCCAGACGGGGCGGCCGGGCAGAGGTGCTCCTCACATCCCAGACGGGGC
R
GCCGGGCAGAGGCGCTCCCCACATCCCAGATGATGGGCGGCCAGGCAGAAACGCTCCTCACTTCCTAGACGGGATGACGGCCGGGAAGAGGCGCTCCTCA
Celera SNP ID:            hCV11266073
SNP Position Genomic:     89121
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31075):
AAAGCTGGTGATTTTAAGCTAGGAGTTGGGTTGAAGGTTAAGGTGAGTCTTCACTCAACTGGAATCCTGATGATCTGCGCAGTGTGAAGACCCTTGGACC
Y
CTGCCTCTTTTGTAAAATACCTGTTTACTGACTGTAAGTGTAATGCATATGCTCCTTGTAGAAAACATGGAAAATCTACAAAGGTATGGAAAAATTAAAA
Celera SNP ID:            hCV1948513
SNP Position Genomic:     255331
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31076):
CAGACGGGGCGGCTGCTGGGCGGAGGGGCTCCTCACTTCCCAGACGGGGCGGCCGGGCAGAGGGGCTCCTCACTTCTCAGACGGGGCAGCCGGGCAGAGG
Y
GCTCCTCAGTTCCCAGACGGGGTCGCGGCCGGGCAGAGGCGCTCCTCACTTCCCAGACGGGGTGGCGGCCGGGTAGAGACGCTCCTCACCTCCCAGACGG
Celera SNP ID:            hCV11266074
SNP Position Genomic:     88980
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31077):
GCTCCTTGTAGAAAACATGGAAAATCTACAAAGGTATGGAAAAATTAAAATTATTACAATTTTGATGTACTCCCCTTTGACCTTTTTTCTTGGCCTAGAT
Y
AAGCTAGCTGGCTATTTATATATATTTAATATGACCAAATTAGGATCTAAAAATATCTGTAGTTATATATTTTTAGCTAATTATTGTGTCATGAAATGTT
Celera SNP ID:            hCV1948514
SNP Position Genomic:     255482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31078):
CCCAGACGGGGCGGCTGCTGGGCGGGGTCGCCCCCCACCTCCCAGACGGGGCGGCTGCTGGGCGGAGGGGCTCCTCACTTCCCAGACGGGGCGGCCGGGC
R
GAGGGGCTCCTCACTTCTCAGACGGGGCAGCCGGGCAGAGGCGCTCCTCAGTTCCCAGACGGGGTCGCGGCCGGGCAGAGGCGCTCCTCACTTCCCAGAC
Celera SNP ID:            hCV11266075
SNP Position Genomic:     88938
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31079):
TGGGATTCAACCCCAGGTTAATCTGATACTAAAGGCTGTCTTCCAAGCCATGACAGCATGCTATTATGACATGCGATATCTGTGATGAGTTTTCCGGGCT
R
TGTAGCATTCCCTTGTAAGACTGTAGCATAGTTTACTCATCAGACCTCTTGTTAGGTGGTTCCCAAGTTTTCACTTCTATAAACAGGTGCCAAGACGAAT
Celera SNP ID:            hCV1948515
SNP Position Genomic:     255928
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31080):
AAAATGAACCTAATTTTGATTTTGAGAAATCTATTGAATGTTCCACTCATAATTAATTTACAACAATGAACAAAATAAGGGAAAAAATCATCACTTAAAA
S
ACAGATATATAGGGTTGAACAGAGAGTGACAAAGAGCGAGAGCTAGAAGATTCTTTGGGGGCCCCTCTTTCCTACATCTCAGCCTCTCTGGTTCTATCAG
Celera SNP ID:            hCV11266076
SNP Position Genomic:     87898
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,9)   total(G,3|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31081):
GTTCTCTTGCATTCTGTGCCAAGGCATAGAAAAACAACAGATCCTGTTAGCAAAGATGGATTTGGACAACTGGGCACCCCCTTCACCTATCAAGAAGACA
R
GAATTCCTTTGAGAGAAAAAAAAAATCCACTACCTCCCTTACCAGATAACAAGTTCCCACTGATTCAGAAGGGAGAGTGGCATGCAATGTCCCTGACTCA
Celera SNP ID:            hCV1948516
SNP Position Genomic:     256606
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31082):
CCTGATGGGAAGCCCGTGTGGAACAATCCCCGGCCAGTCTGCACAGGTGGTGGAAGCCTGGGGATGGCAGGGGTCTGAGGAACTGAGGGCATGCCAGGGG
Y
AGAGGGTGCTGTGGGCTGGGGAAGGGAGGGGGGCAAGGTCCTCAAGCCCGGCTCCTCCAAGCCTGGCAAACCTGGGTTTGCCGTGGATGTGTATAGAAGT
Celera SNP ID:            hCV25757424
SNP Position Genomic:     535389
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:31083):
TTGTGGGAAGACTAAATCCTTCTCCCTGAATTCTTCTTCCCAACTAGCCTACCACTTGGTATCAATCGTATGGCCATGGAGATGAAACAAGTTACTTGAT
R
GAAGAGAAGAAATCAAAACATATGGAGGGTGCTTGTCCAGAGAGCATAAATGACTCTTCATTATAATAAGGGAACCAAAGTCTCAAATTAAAAATAAAAG
Celera SNP ID:            hCV1948517
SNP Position Genomic:     230340
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31084):
GATGGGGGCAGCCTAGGCCTAAGCTTTAATTCGTACTGATGGCAACAGAGAGGTTCTTAAGGTTTTCTTTTTATTTCCTTTTTTTAAAAATTAATCTTTC
R
AATTATTATGTATTCTCATGAGAGTCACCCAGAAGACCATAGGTTCTGTGTTTGCCTGTGCCTTGGTGGTAAGGAACTTACTTTTATAATGTGGGCTCCT
Celera SNP ID:            hCV1948518
SNP Position Genomic:     228571
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31085):
ATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGGACTCTCATGATTTTTAAAAGACCTTGCCATCC
R
ACTCTCATAATTTTTAGAAGACCTTGTCATCCTCTTTAGTTTGTCTTGTGTTCCTTGCTCCATCTGTCACCCTGCTTCTACCTACCATGCTGGCCTCCCT
Celera SNP ID:            hCV1948372
SNP Position Genomic:     415010
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31086):
AAGCCAGGGTGTTATAAGTGGATGAATGAATGAATTACAATGTACAACAAAGTGCAGGAATTGAAGCGCAAGGAAACCCCCACGTAACTCCTTAGATGGG
S
TCCAAAAAAACCCAATCATGTAAAATGTGGGCTTGTGAGATTGCAACATTAACAAAATGAACAGAGGGAGCCTGCCTATTTCATGGGCCAGGAGATTCAG
Celera SNP ID:            hCV1948519
SNP Position Genomic:     228132
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31087):
CCTCCCTTCTGTCCCTCACATGCACCAAGCTCATTCCCACCCCAGGGCCTTTGCCCTTGTAATTCTTTCCCCCTGCAGTGAACCTTCCTTAGAATGATTG
R
TTCCTTATCATCAGACCACAGTCCAAAGGCCACCTCCTCAGACAGGCCATTCCTGCTGCCTTATTAAAAGCAGCCCACCTCTATGCCATTCATTCCTTTT
Celera SNP ID:            hCV1948373
SNP Position Genomic:     415204
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31088):
GGCCATTCCTGCTGCCTTATTAAAAGCAGCCCACCTCTATGCCATTCATTCCTTTTTTCGTCACCTCTTAGAATGTAAACTTCAGAGGGGCTAAGGACTT
K
CTTATCCATCTTGGTGGCTGCTGATCCCATACCTAGAATAGGGACAGACACATAGCAGGTGCTCCGTCACTCCATCAATACTTGAGCTAGGTGGAGACAT
Celera SNP ID:            hCV1948374
SNP Position Genomic:     415349
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31089):
TTTAGCCCAGGAGTTCAGGACTACAGTGAGCTAGGATTGCACCACTGCACTGCAGCCTAGAGACAGTGAGACCCCTTTCTCTAAAAAATTGTTTAAAGAA
W
AAATAACTTGGGCACAATTTATGGTTTTTGGACTGGATTATATCAAATATGAATCTAGGAGGACATACATGTGCTCAGGAAATGTGCAGCCAGTATTGCC
Celera SNP ID:            hCV1948375
SNP Position Genomic:     416088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31090):
TTATTTGTCTTATTAGTGAGTTATAAGATTACATATATATGTGTGTTTTATTTCTATATAATTCATATATATTAATATACTATAATTTGTTTATGCATCC
A
TATATATATATATATATATATATATATATATGTATATATATGGAGAGAGAGAGAGATTTTTACCTGTCCCAAAGCCATGAAGGTTTTCTCTTGTTTTCTT
Celera SNP ID:            hCV26469370
SNP Position Genomic:     182690
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31091):
ATTGTCTTGGATGTTAGCACTTGGCTCCCTTTCAGTAATGCTAATCTCTCTAGCAAGTGGTTGCTCTACAGACTGCTTAGATTCTTTCTTTACCACAGGG
Y
CAGGTTGCAAATTTTCCAAACTTTTGTGCTTTTCTTCTCTTTCAAATGTAAGTCCCAACTTTAAGTCATCTCTTTGCTCCTGTTCTGATCATGAGCTGTT
Celera SNP ID:            hCV1948376
SNP Position Genomic:     418636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31092):
TATTTGTCTTATTAGTGAGTTATAAGATTACATATATATGTGTGTTTTATTTCTATATAATTCATATATATTAATATACTATAATTTGTTTATGCATCCA
W
ATATATATATATATATATATATATATATATGTATATATATGGAGAGAGAGAGAGATTTTTACCTGTCCCAAAGCCATGAAGGTTTTCTCTTGTTTTCTTC
Celera SNP ID:            hCV26469371
SNP Position Genomic:     182691
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7|T,7)   total(A,1|T,7|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31093):
AAAAGCCCTAGGATATGGACTTAATGCAGCCAAGTTATTTGCTAGGGAGTAGCAAGGGTGACCTCTACACCAATTCCCCATAAGTTCCTCATTTCCATCT
R
AGACCTGTTAGCCTGGCCTTCACTGTCCCTATTTCTATCAGCATTTTGGTGACAACCTTTTAAACAGTCTCTAAGAAATTACAAACTCTCCCTCATTTTC
Celera SNP ID:            hCV1948377
SNP Position Genomic:     418929
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31094):
ACTCAAAAATGCTGAAATAACCACCCTACTTTCCATTTTAACATCCTCTAATGACAGTGCTCAGCAATAAAAAAGAATGAACTACTGATACATGCAACAA
Y
GTGGATGAGTCCCAAAAATATTATGCTGAGTGAAAGAAGACAGACATAAAAAAGTACATAATGTATGATTCAACTCCTATAAAATTGTAGGATCAGCAAA
Celera SNP ID:            hCV26469372
SNP Position Genomic:     520708
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31095):
AGAAGGCAAAACGGAGCCAGCGTATCATATGGTAAAAGTAGGAGCAAGGTAGGGTGGGGGCACCACACTCTTAAGAAACCAGATTTCATGTGAACTACCA
R
AACAAAAATTCACTCATCACCAAGGGGATGGCGCTAAGCCATTCAAGAGGGATCTGCCCCCATGAGTCCCACCAGGCCCAACCTCAAACATTGGGGATTA
Celera SNP ID:            hCV1948378
SNP Position Genomic:     419403
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31096):
AAAAGAAAAAAACCCATTACCTTGACCTTTGCTCCACTTTTGCTTTGACTGTACACTTCCATTCCCTGGTAGCCATTGCTTTGATTGTGCTTTGTCTTCC
R
GATTGTACTGGTAAATCCATGTTCCATCTCCTGTTCTTGGGAGAAATGTTTCAGGATCTTGATCCCACATTTTTTAAATTTCCACTGAAAGCTCTGCTTT
Celera SNP ID:            hCV26469373
SNP Position Genomic:     523224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31097):
TATGTTTTTTCACCTCTTTATTAACCAACTTTATTTATTCTTTGTTGGTTGCCTCTTAATTTCCTTGGCCAATATTTCTATGTTGAGTGTACATCTTTCT
R
TCAAATTCCAATTCTTCATAGATGAAGGATAGTAAATATTTAAATGTAGTAACTTGCACATATTTTCTCTCCATTTGTCTCTCATTATTCAGCTTTTGTT
Celera SNP ID:            hCV1948379
SNP Position Genomic:     420676
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31098):
AGCTGATCTAGGCACAATGGTTTTGACACCCATCAAGTAGAAAGTTTGATCAACCTTAATTTTTTAGTCAAAATTGTGTAATCTGAACCAGTCGAGATGT
M
TATGGTGTTGGCTTTCGTTAGTGCTATTAATCATTGGTCCTATTCAATTAGGACACAAACAAGATTAATTTTTTTCCTCTCCAACTGATGTGGAGGTCCG
Celera SNP ID:            hCV26469374
SNP Position Genomic:     523742
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31099):
TCTAGGCACAATGGTTTTGACACCCATCAAGTAGAAAGTTTGATCAACCTTAATTTTTTAGTCAAAATTGTGTAATCTGAACCAGTCGAGATGTCTATGG
K
GTTGGCTTTCGTTAGTGCTATTAATCATTGGTCCTATTCAATTAGGACACAAACAAGATTAATTTTTTTCCTCTCCAACTGATGTGGAGGTCCGCCTTGG
Celera SNP ID:            hCV26469375
SNP Position Genomic:     523748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31100):
AGGCACAATGGTTTTGACACCCATCAAGTAGAAAGTTTGATCAACCTTAATTTTTTAGTCAAAATTGTGTAATCTGAACCAGTCGAGATGTCTATGGTGT
K
GGCTTTCGTTAGTGCTATTAATCATTGGTCCTATTCAATTAGGACACAAACAAGATTAATTTTTTTCCTCTCCAACTGATGTGGAGGTCCGCCTTGGCAG
Celera SNP ID:            hCV26469376
SNP Position Genomic:     523751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31101):
AATAGAGTCAGCAAATAAATACATAGCAGCACTACCTGGTCCTGATAGTTATCAGTGTAATGTCAATTAAGACAATGAAATGGCACTTTATCCCTATTAA
R
TTAGGCTGAAGAACTTCGGTGGGTATGATGCAGTGCTGGAGTGGTGGCAAAGACACAGACACACTCGCACATGGCTGGTGCTGATGTAAATTAGTCCTTT
Celera SNP ID:            hCV27461192
SNP Position Genomic:     152618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31102):
GACACCCATCAAGTAGAAAGTTTGATCAACCTTAATTTTTTAGTCAAAATTGTGTAATCTGAACCAGTCGAGATGTCTATGGTGTTGGCTTTCGTTAGTG
M
TATTAATCATTGGTCCTATTCAATTAGGACACAAACAAGATTAATTTTTTTCCTCTCCAACTGATGTGGAGGTCCGCCTTGGCAGGCTTCATCTTCATTA
Celera SNP ID:            hCV26469377
SNP Position Genomic:     523766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31103):
AGAAAGTTTGATCAACCTTAATTTTTTAGTCAAAATTGTGTAATCTGAACCAGTCGAGATGTCTATGGTGTTGGCTTTCGTTAGTGCTATTAATCATTGG
K
CCTATTCAATTAGGACACAAACAAGATTAATTTTTTTCCTCTCCAACTGATGTGGAGGTCCGCCTTGGCAGGCTTCATCTTCATTATCATCCCCTCCCTT
Celera SNP ID:            hCV26469378
SNP Position Genomic:     523780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31104):
AGGTGAGATCAAGGTTGGCCTAGAATTGCAGTCAAGAAGGCTTCACTGCTGGTGGGCTGGCAGAATCTGGAGTCAAGACCAGAGGCTCAAGGCTGGACTC
Y
TTGGATTAGGAAACTCCCTGGAAGTTCAGGGAGCCATGTAGGTTTCCTGTCCTGTAAGATTTGGGTCTTGCATCATTTCTTACGGGAAGTGATCTCTGAC
Celera SNP ID:            hCV8922701
SNP Position Genomic:     205572
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31105):
AATCATTGGTCCTATTCAATTAGGACACAAACAAGATTAATTTTTTTCCTCTCCAACTGATGTGGAGGTCCGCCTTGGCAGGCTTCATCTTCATTATCAT
S
CCCTCCCTTCGTGAAACAAGTTATCCATTTGTAAACTGCTGATTTCTTTGGGTCATTGTCCCCATAAACTTTTTGTAAAGCATCAGTGATGTCACCATTC
Celera SNP ID:            hCV26469379
SNP Position Genomic:     523871
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31106):
TCCCCCACTGCCCCTCAGCAGAAGCCACAGGACTGTAAGGGCCATGAGGGGGCGCCAGGGATTTACAATTATAAAGGTCTTGTTGGGCCATAATAAAGTC
Y
CTCTCAGCTAACAGGTGACCATGGGGCATGTGATGGTCTTGCTTTGTTCACCCATGTGCGTCTTGCATATTATTCATGCTATGGATGAACATGTGCTCCT
Celera SNP ID:            hCV8702154
SNP Position Genomic:     57780
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31107):
TAACACACATATTGGTCTATTTTATGGGGTCCTCTAAGTTCCTTAGGCTTTATTCACTTTTGTTCATTCTTTTTTCTATTTGTTCCTCTGACTTAATAAT
Y
TCAAATGACCTGTTTTTGAGTTCACTGATTCTTTTTTCTGCTTAAGTCTGTTATTGAACCCCTCCAGTAAAATTTTAAATTCAGTTATTATAGTCTTCAG
Celera SNP ID:            hCV8702155
SNP Position Genomic:     56246
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31108):
CTTTGTGCAGTGGAAAGTGCCTGGCTTCAGAGTGTTGTGAGGTGAACTGGGTGGAGGCATTAAGCATCTGGCATCATGGCTGACTCAGGGTGGCTGTTCC
R
TCCATAGAGTACCCTCTTCATTTGCCTTATTAGGGACACTCAAAGATGAAAAGTGTGCAGTCATCTGAGTTTGCTCTTGTAGAAGGGGCCAGGAAGCTCC
Celera SNP ID:            hCV8922708
SNP Position Genomic:     196796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31109):
AAAGCTTTCAGTTTTTCACCATTCAGCATAATGTTAGCTATGGGCCTTTTATATATGGTCTTTACTATATTGAGGTAATTTCTTTCTATTCCTAGTTTGT
Y
GAGTGTTTCTTCTTTTTTATTTTGAGACAGAGTCTCACTCTGTCGACTGGGCTAAAGTGCAATGGCATGATCTTGGCTCACTGCAACCTTCGCCTCCTGG
Celera SNP ID:            hCV8702156
SNP Position Genomic:     53042
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31110):
CTTAATGCACGAAATAGGGAGATGGGGGTAGCGGAGAGCGAAGAGTAACTGCCTGCAGACTAGAGGAGGCTCCTTAGAGGAGATGAACTGAGCCTGGGAC
Y
GTGAGTTAGATTTGCTAGGTTGAGAAGGTTGCAGTGGAAGGGCGTATGAGGCAAAGGGCCAAGCACTGCAGGTGACAAATTAGTGGTGTGACTGAGGCAC
Celera SNP ID:            hCV1885310
SNP Position Genomic:     66298
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31111):
GATCGATTTTCAGTATATTTTAAAAACTATATTTCAATCTAGCTGATTTCCTTTGCAATTCTATGTATTTTGTTTTACATATTTTAAGACACCATTTGAG
R
TGGTGTCACGAGGCTCCAAGGAGGGCATGGCACGACAAAGATGGAGGACTTCAGGTCATGGAGGTCCAGGGATAGGCTTTTTTGGCCTGCTAATCCCCTG
Celera SNP ID:            hCV1885312
SNP Position Genomic:     65676
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,13)      total(G,13|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31112):
TGTATCAGGCCCACTGCTAGATCTTATTAATAATGCATTAATAAAGGAGCACTTATTAGTGTATGATCGATTTTCAGTATATTTTAAAAACTATATTTCA
R
TCTAGCTGATTTCCTTTGCAATTCTATGTATTTTGTTTTACATATTTTAAGACACCATTTGAGGTGGTGTCACGAGGCTCCAAGGAGGGCATGGCACGAC
Celera SNP ID:            hCV1885313
SNP Position Genomic:     65612
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,13)   total(G,4|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31113):
GTATTAGCAGTACCTGTGAATTTGTCACTGGTAAGATCACAGATATTTCCATAGAACATTACAGTTGTTACAATTATCTTGAAGTAGCATTTATGCTTCA
R
ACTACAATATGTATCAGGCCCACTGCTAGATCTTATTAATAATGCATTAATAAAGGAGCACTTATTAGTGTATGATCGATTTTCAGTATATTTTAAAAAC
Celera SNP ID:            hCV1885314
SNP Position Genomic:     65502
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31114):
AATCCACTGTGAACTCCTTGAGGGCATGGACCATATTATATGCAATCTGCCCCTCCCATCTCCCCCAACTCCCTACTGCCCATTAACACCCCCACCTATA
M
ACCCTGGAACTAAGCCATCCATTCCCCAGATTTGCTGACTGAAAGACTGAATTTGTCTTGGACCTCTGGGGTTCTTGATAGAATCCATGGGGTCCCTAAC
Celera SNP ID:            hCV1885315
SNP Position Genomic:     65211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,6)      total(A,5|C,6) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31115):
TGCTAAGCTCTTTTCAATAAATCCCAGGCTCTGACCCCTGGTGCTGGGTGCAGAGTGGAACCAGAACTATAGCTTTGAGAGTATGTCCTGAGATGATGTG
W
GTGAAATATTTGCAGCCTGGCAGAGGGAAGGGTGGTAGGGTTGAGAGCCTGGGTTTTGCTTTTGTACAGATCTGGGTTTGAATCTCAGCTTTTCCATTGC
Celera SNP ID:            hCV1885316
SNP Position Genomic:     64717
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,6)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31116):
GGTGGTGCTTCTTTAAAGAATCCCAGGTGGAAGAGAGGAAGCCATGGGTTCTGTGGTTAGGAAGCAGCAAGGAGAGTTCTGTTCTGACAGCCTCTCTGTG
R
CCCCTCTGGTGCAATGATGGATGTCTTTGCAGCCCCAGCTAGTCTAGGTTGGAGGAAAGGGGCCAAGGAGAGCTCTGACTGGATGTGGGTTGGGAATCCT
Celera SNP ID:            hCV1948520
SNP Position Genomic:     226676
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31117):
GTGAACCTTCTGGATTCCCAGTAGATGTCCAGTCTGAAGCTGTCAGAGGAATGAGGGGGTTGGGCTGCTATGGAGAAACAAGAGGATGCATCCAACAGCT
S
GTGACCACATGTCATGCCCTCCTTGATGCTGGCCCTCATGCTTTCTGATTTCAAGTCTTACCACCCCTCATCTCTAGAGAGTTAGCCTCCCACCTGTCCT
Celera SNP ID:            hCV1885317
SNP Position Genomic:     62271
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31118):
CTTGGGCAGGGGCAGCAGAGCCTGGCCCAGAGCAGGGCTCCCACCCTGGGGGAGGTTAAGGAGATAACAAGGCTAGTTATGCAGTCTGTTAGGACAGCCC
Y
GGCAAGGGATAGAGTAACCTTCCAGGTGTGCAGCCTCACCAATAGTTATAAACCCCAGCCTCAAGGCAGGACCCTCCAGCCAGGTTCAGAGCCTCCTCCT
Celera SNP ID:            hCV1948521
SNP Position Genomic:     224526
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31119):
GCAGATGACCTTTGAATGCCTTAATTTAAAGAATGATCTGGATTGATCTTGCCCTGGATCTGCTGCCACTGTCTTCATGAGTGAACCTTCTGGATTCCCA
R
TAGATGTCCAGTCTGAAGCTGTCAGAGGAATGAGGGGGTTGGGCTGCTATGGAGAAACAAGAGGATGCATCCAACAGCTGGTGACCACATGTCATGCCCT
Celera SNP ID:            hCV1885318
SNP Position Genomic:     62191
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31120):
AGTTTCCTCTCCTGTCCAATGGGCACAGTATCCACCTCAGTGCTATTATGAGCATTAAATGAGAAAGGATTAAGTGTGAAGTTTGTCATAGAAGTGGTCC
R
TAAGCGATGGTGCTTATGCTGAAGGAGGAAGTGAGGAGGATGAGGATTCACAGGACACCCTACGGGAACTCAAGTGCACCACACGTTGAATCCCTGTCTT
Celera SNP ID:            hCV1948522
SNP Position Genomic:     223943
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31121):
GTGGCGCCATCTCGGTTCACTGCAACCTCCGCCTCCTGGGTTCACCCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCACACCACCA
Y
GCCCGGCTAATTTTTTGTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGACTGGTCTTGAACTCCTGACCTCGTGATCCGCCCGCCTTGGCC
Celera SNP ID:            hCV1885319
SNP Position Genomic:     61379
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31122):
CTTGCATTTCAGTTTGCAGCTGGGTAGGACTATTCACGAATGATTCTTATTAGGCTGTACGGGAGGTCTTTAGAATTCAAAGCAACAGACCGCTCCCTGG
M
TCAACAAGAGCAGTGTAGGTCTAAGGGATGCCGCCTGCCTGGCAGAGCCAGGGTGCATCCCATGTTCTGGCTCCTGGGGCCATCTGCCCTCCCCAGCCAC
Celera SNP ID:            hCV1948523
SNP Position Genomic:     222304
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31123):
TCTTGCATTTCAGTTTGCAGCTGGGTAGGACTATTCACGAATGATTCTTATTAGGCTGTACGGGAGGTCTTTAGAATTCAAAGCAACAGACCGCTCCCTG
K
CTCAACAAGAGCAGTGTAGGTCTAAGGGATGCCGCCTGCCTGGCAGAGCCAGGGTGCATCCCATGTTCTGGCTCCTGGGGCCATCTGCCCTCCCCAGCCA
Celera SNP ID:            hCV1948524
SNP Position Genomic:     222303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31124):
GGAGACACACATCCCCTTGGGTCTGATCAACAACATCCAGCCAATGTAGGAAGAACATGCAGGAGGCTGCATGGAGGTTTTTATGGGCTAAGCCTGGCCA
Y
GGCCTGTATCACTTTTGCCCATGGTCCACCTAACTGCAGGGAGGTCTAGGAAAGGTTGTCTAGCTGTGTGCCCCAAGAAGGGAAGATGGAATTTTGGTGG
Celera SNP ID:            hCV1948525
SNP Position Genomic:     218619
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31125):
TTTGTTGGTTGCCTCTTAATTTCCTTGGCCAATATTTCTATGTTGAGTGTACATCTTTCTGTCAAATTCCAATTCTTCATAGATGAAGGATAGTAAATAT
Y
TAAATGTAGTAACTTGCACATATTTTCTCTCCATTTGTCTCTCATTATTCAGCTTTTGTTTATGGTGATTTTTGAAATCTAAAATCTTCCATTTCTGTAG
Celera SNP ID:            hCV1948380
SNP Position Genomic:     420716
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31126):
TTGGCACAGGTTGAGGCTGCAGGACAGACAGACTGTGCGAGGATTCAGGGGCATGTGAGAGAAGCTGGTTCTGGCTGTGTAGCAGAGAATGGGTAGGCCA
Y
GGCTCTGCAAATTTAAATTCATTTATTGCTCATGTATCTGTCCTGGGCAGGTGTTTAATATGGTGGGGAGCTCTACTCCACCTGGAAATTCAGGGATAAA
Celera SNP ID:            hCV1948526
SNP Position Genomic:     218403
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31127):
TTTTGTTGTTTTTGTTGTGTAGGTCATGTTGGCTTATTGTTGTAGGGCTGAATTTGATTTTCTAGCACTTTGCATGAAGGATTTTCTATACTGTAGGTGT
R
TCATTGTGTTGGTGGATATGATTGTGTGTGTATCATACATATCATTGTTATGGGAGTATTGTATCAAAATCAATTTAAATAGCATGGCTATTACAAGTTT
Celera SNP ID:            hCV1948382
SNP Position Genomic:     421752
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31128):
TGCTCAGCCTCCTGCGTGGAAGCTGACACCGCGTTTGCTTGGCGACAAGTCACAACAAAGCTCGGCACACTCCCACCCCGCCCCACTCAGGCGGCGCCTC
K
TGGGGGAAAATAAGATAAAACAAAATCAAGCTGAGCTCCTAATTCACATTCCATCTCTGGCAGCTCCTTGATGATGAATAATTCTGGAATTGGAAATGAG
Celera SNP ID:            hCV1948528
SNP Position Genomic:     216493
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31129):
TTGGTCTGAGCAAGAGGGTAGATAGAGATTCCATCTTCAGAGCAACTCTAAGCTGTGATGTTTTCTGCACTGCATAACTTAAAAAGCAGACACACAATGG
Y
CTGACACCTGCTACAGCATGGATGGCTCTCAAGGACATTATGCGAAGTGAAGGATGCCAGTCACAAAAGGATAAAAACGATATGATTCCACTTATATGCA
Celera SNP ID:            hCV1948529
SNP Position Genomic:     215250
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31130):
TTTTCTTATTGATGTCTAGTTTATTTGTACTGTGAACAGAAAATGTGGCCCAACAGTTTTTGCATTGTGATAGAATTTATGGGGATTTTCTTATAGCCTA
M
TGTAAGGTCAATTTTGTAATAGTCCATGGGCACCTGTAAAGAAGTTTGCATTCCTTGTTTGAAGACTACAGAGTTTCATATAATATACACACTCATAATA
Celera SNP ID:            hCV1948386
SNP Position Genomic:     422840
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31131):
GGGATAAATTACATTCATGAACTCTAATATTCAATTTGCTCAACTAAGTTTTTAAAATGGATTTTTCTCTCATACCAGGGTCAGAATAGCTAAGGGTTAG
S
ACATTTGTGGGTGCTAGGCGTGGGGCAATAGCAGACCCTGAGGAGAGCTGGAGCACTGGCTTGGGATGAAGGCACAAAGCTAGGGTCCTTCATGGTAACA
Celera SNP ID:            hCV26469380
SNP Position Genomic:     524319
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31132):
CTCTAATATTCAATTTGCTCAACTAAGTTTTTAAAATGGATTTTTCTCTCATACCAGGGTCAGAATAGCTAAGGGTTAGGACATTTGTGGGTGCTAGGCG
T
GGGGCAATAGCAGACCCTGAGGAGAGCTGGAGCACTGGCTTGGGATGAAGGCACAAAGCTAGGGTCCTTCATGGTAACAGGTCCCTTCCTCCCTGAGAAT
Celera SNP ID:            hCV26469381
SNP Position Genomic:     524340
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31133):
AGACATCCCCGCCCGGGGTTGCGGGGCACCTGGTCTGTGGCTTCAGTTTCTCCAGCCTCCCAGCCCCCACGGTGCTAGGCTTTTTCCCGATAAACTTTCC
R
GGAGCCCTACTCCCCCGGCTCCTGATTCTGCCAGGCACGCTGGTCCTGGGGGCTGGAGAGGAACCGTGCGCCCCCTCCCCATTTCTGCGTCTGCAAGGTC
Celera SNP ID:            hCV27855896
SNP Position Genomic:     6738
SNP Source:               Applera
Population(Allele,Count): african american(G,4)   caucasian(A,1|G,9)   total(A,1|G,13)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31134):
GGGGTCTTCAACAAGCCCCTTTTATTTTCTACTCAAGCTCATGTTAAATAATAACCTAATATAATGCACAGTAATTACACATCTACCTGTTAATAAGTTT
Y
CCACCTTTATTATTTGTCAACAGTCTGACGCTTCTGACTTAAAAGTTTAGTCGACATCAAGATCCATGAGCACAGTCTGGTCACTACTCTGAAGGAGGAA
Celera SNP ID:            hCV1948388
SNP Position Genomic:     423269
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31135):
GTATTATCTCTTGGAACATCATCTACAAATTGTTGCTAGTAATAATTATGTTGCAGGAGGTTAAGATTAAAAGATATTTTATACATGCATATTTTATATA
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATAATGCTCCATATGTACTAAACACTCTACAGATGCTCTGGGAATGATAGATTT
Celera SNP ID:            hCV26469382
SNP Position Genomic:     526308
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,8)   total(T,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31136):
ACACATCTACCTGTTAATAAGTTTCCCACCTTTATTATTTGTCAACAGTCTGACGCTTCTGACTTAAAAGTTTAGTCGACATCAAGATCCATGAGCACAG
Y
CTGGTCACTACTCTGAAGGAGGAAGGTGCCTGATCTCCTTCTTTTAACCTGGGTGATTGAGGGTGATGAGATCCAATTACAACTTTTTAAAAATCCCTCA
Celera SNP ID:            hCV1948389
SNP Position Genomic:     423345
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31137):
TATTATCTCTTGGAACATCATCTACAAATTGTTGCTAGTAATAATTATGTTGCAGGAGGTTAAGATTAAAAGATATTTTATACATGCATATTTTATATAT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATAATGCTCCATATGTACTAAACACTCTACAGATGCTCTGGGAATGATAGATTTT
Celera SNP ID:            hCV26469383
SNP Position Genomic:     526309
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,8)   total(G,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31138):
ATATATATATATATATGTATATATATGGAGAGAGAGAGAGATTTTTACCTGTCCCAAAGCCATGAAGGTTTTCTCTTGTTTTCTTCTGGAAGTGTTATAG
W
TCTAGCTTGTATATACACTCAGTTGTATGATTCCTTTTGTGTTAATATTTGTGTATGGGGTGAAGTGAGAGTTGAGGTTCATTTTTTCCCTGTGTGAATA
Celera SNP ID:            hCV26469384
SNP Position Genomic:     182806
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31139):
TGCTGTGAAGGCCTCTCTGAGCAGGATCCATTTAGACAGAGCCCTAAAGGTTAAGTAGAAGCCCTCTGTGCCAGAGTGGGGGCCAGGGGCGTTTCAGAGG
R
AAGAGTTTGAAGTGTGTGTTAGAGAATCTGAAAGAACACAGGAAAGACCAAAGTGAATCGATTTTTAATGGAAGGTCCTAAAAAGCATGTATTTTCTCTT
Celera SNP ID:            hCV26469385
SNP Position Genomic:     530665
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31140):
GTGTGTGTTAGAGAATCTGAAAGAACACAGGAAAGACCAAAGTGAATCGATTTTTAATGGAAGGTCCTAAAAAGCATGTATTTTCTCTTTCAAGCCCTTG
R
AAGTAACACTGTGGGCCTGGAAGCTACGGCCACACCTGCTACCACCCCTATTCCCACCACCTGCTGCTGTTATGGGTCATTCTTCTTAAATGCAAATTAG
Celera SNP ID:            hCV26469386
SNP Position Genomic:     530777
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31141):
AATTGGTGAAGGAAGACATGGGAAATGATAGACTTGGGCTGAAGTTTCTATTGTGATGGCAAACCATGAATCTGTCGTGATACCACAGTTCTCCTGGTAG
Y
CCCCCAGCCCCCAGGATTAGAGATGGAAAAGGTGAGTGGTAGAATTGATGGAAAGCAGGCATTTCACCAAGCAGATATGAGAGCGATGAGGAAGATGTAG
Celera SNP ID:            hCV25968884
SNP Position Genomic:     356665
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:31142):
CTGGGTCTGTGAAACAAATGAACTTCATCCAGCTGCTTCAGAAAGAATTAAACAGGTCCCAGGATGCTCATCACCTGAAAGAACTGAAGCATGCACCTGG
A
AAAAAAAAAAAAAAAAAAAAAAAGACCCAGGACAGCTAGAAGCAGACCCTGCAGGGTAAAGGGTAGGACAGGGACCTCTGAGACTCCTTCCAGCAGATAT
Celera SNP ID:            hCV26469387
SNP Position Genomic:     550864
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,10)   total(A,2|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31143):
TGAGGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCCGGGCGACCGAACAAGACTCTGTCTC
A
AAAAAAAAAAAAAAAACCATCACAAAATTATCTGCAACTTGGAAACAATCTGCATGTTCATGAGTTGGGGAGTGAACTGTATGGTTGGATAATTCATAAA
Celera SNP ID:            hCV26469388
SNP Position Genomic:     559010
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31144):
CATTTCTGCGGTCTTCGTTTCCTCATTTGTAGAAACAAGATCATGATAGTACTATACCTACTTCGACTCTCAGGGGAGGGGGTTGAAGGAGATAATACTA
K
CCCTAGGTCTGTGCCAGGTGCCTTGCATGGATTATCTGCCTGGGTCCACATAGCAACCCTAAGGGGTAGTTATATTATTATCCTCTTTATAGATGAAGAA
Celera SNP ID:            hCV26469389
SNP Position Genomic:     217615
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31145):
CCTTACTCTACTACTTCCTAGTTGTATGACCTTGGACAACTTACTTGGTCTCTTACTGTTTAGGGAAAAGCTCTCTTAAGCCATGTTGTTGTTTTTTTTT
Y
CTGCTCTCACACAGCCACCACCAACACAACAACAATCATCAATACAGAGGAAGACTTCTGTGACCAAAAGTGTGGGTTTTTTTTCTCCACACATTAAGCA
Celera SNP ID:            hCV8702161
SNP Position Genomic:     47472
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31146):
TGCCAATTTGCATTAATTTAAATACTGCCAATAGTATTTGAAAGTTCTTTGTAACGCTACATTTTCGAGTACATCAGAATCACCTGGAGATCTTGTTAAA
M
TACAGATTGCTTGGCCCAGGAGTTTCTGATTCAGTGAATCTGTGATCAAATAGGTCTGCAGTAGAGTAGATTTGGGATGAGATCTGAGTATTTGAATTTC
Celera SNP ID:            hCV8702162
SNP Position Genomic:     36205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31147):
TGTGTGAGATTTCAACATGAGGGCAGATGTCTATAGAATGGATTTGTTGCCTCAAAGGATATATGCATTTGATAAACTTGCCAATTTGCATTAATTTAAA
Y
ACTGCCAATAGTATTTGAAAGTTCTTTGTAACGCTACATTTTCGAGTACATCAGAATCACCTGGAGATCTTGTTAAACTACAGATTGCTTGGCCCAGGAG
Celera SNP ID:            hCV8702163
SNP Position Genomic:     36127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31148):
TGGAATAAACCAGGTTTTGGCTGTCAGGAATCTTATTACAGAAGGAATCTGGGTGGATGGCCAGACTTTGTGTGAGATTCCCTAATCGGTGGACTTGGGA
M
ATTTATGCACTTGTGTGTGTGTGTGTGTGTGTGTGTGTACACTTGGGAGAGGGAGGATCTGTGGATCTACTGAATGTCTTCTAAAAGGGATCTATTCATT
Celera SNP ID:            hCV8922716
SNP Position Genomic:     196219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31149):
TGGACCACTCGCATCATGCCCTGGTGGTGTTGCCTCCATTGCTTCTGCCTTGGGTCAGGGATTCCTGATCCACAGCCCTGCTCTGAGCTGGAGTAGATTC
Y
GTGAACCTCCCTGGGTCAGATGGTGCTCCAGGAAGGCAGAGAGGGCATCCCACATCCTGCTGAGATAGTGCTGCAATGGTGGGTTGGAGCCAGCGGAGAA
Celera SNP ID:            hCV8922717
SNP Position Genomic:     195220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31150):
AGGCATAGATTGGAGATTGGGAGAGACCCAGGCTTAAATCCTGTCCCTGCTTGGTACTAGCCTGTGTAAGGGGCATAGTAATCTCTTTAGGCCTCAGTTC
Y
CCATCTCTAAAACAGGAACAGTAGTGCCTCATTCACAAAACCTTTGTAACAATGCAGTGAGATGATATACATGATGCATTTACCTAGGCCTGGCCTGGTA
Celera SNP ID:            hCV8702167
SNP Position Genomic:     30636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31151):
TATTCCTGTGTTGGTTTGCTAAGGATAATGACTTCTAGCTTAAGATGGAGATCTTAATATATATGCTTCATTCATGTTCCTGCAAGAGACATGATCTTGG
K
TTTTTTTTTATGGCTGGATAGCATTCCATGGTGTATATGTACCATATTTTCTTTATCCAGCCTACTATCGATGGACATTTAGGTTGATTCCATGTTTTTG
Celera SNP ID:            hCV1885320
SNP Position Genomic:     60758
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31152):
ATCCCAGCCCCACGTGAAAAACTTATAAGTCACCCTGGGAGGAGGGTATGAAATCTTTGCTTAGGACCTCAGAGAAAAGTGTTGTTCTCTGTTCTATATT
Y
TCAGAGGCATAGATTGGAGATTGGGAGAGACCCAGGCTTAAATCCTGTCCCTGCTTGGTACTAGCCTGTGTAAGGGGCATAGTAATCTCTTTAGGCCTCA
Celera SNP ID:            hCV8702168
SNP Position Genomic:     30531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31153):
GATCCTCAATGATATAGTGGTAAAAAAGGCAGACCATGCTCTGTGTCCCCAAGGAACTCAGTCTGGTGGGGAGATGGTTATGGAAGTCATGGGCAAGTGG
C
ATTCAGGATCCTTCCTTCCCAGATTTTCATTGTGGGCTGGGTTTCTGGGTCTGTGTGCTACCAGACAGAGCCACACCAACTGGTTTGGTTTCCTAGGCCT
Celera SNP ID:            hCV1885321
SNP Position Genomic:     59928
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,10)   total(C,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31154):
GATGGGACTTAAAAGGTGGAGCAGGTAGTTTTCAGGGGAGGAAAGGAGTGGGACGTATCCCAGGAAGAGCCTCCAAACCTCAAAAGGCCCTATATTCACA
R
GAGGAAATGAGAAGTTCTGTGTGTTCGAGTGTTCCTTGTGTGTGTGTGGTGGCTGGGGCTGCAGGAAGTGAGGCTGGAGGGGGACAGGTTGTAGAGGAGG
Celera SNP ID:            hCV8702169
SNP Position Genomic:     30265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31155):
GGCTGGAGTGCCTATAGATAGAGCTGTCTGCTGCAGTGTGGAGGCGGTTGGACAGCAGGTAGTTATATAGGCTGGGGCTGCAGCTGACAAGACTGGGGAA
K
CCCAGGGTGAGCAAAGGCCATTAAGGGCAGAACTGGGCATCTGGGGAAATGGCCATGGCAATGTCTTCTAAACAGAAGTCTGAGGTCACTGGGCTGGGTT
Celera SNP ID:            hCV1885322
SNP Position Genomic:     58933
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,7)   total(G,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31156):
AGTAGAGCTTAGCTCACAATGGTGGGGTTGAAGCTGGGTCCTACCTTCCCATCCATGTCCTTCTTTTTCTCCTTTCTCCCGTCCAAGTACTAACAAGGCC
Y
GAACCTGCTTAGCTTCCGAGATCAGACAAGATCAGGCACGTTCAGGGTGGTATGGCCGTAGATCTCTTTTTCTCCTTTCTATAAATTCCTTGCTTTCCTA
Celera SNP ID:            hCV1885323
SNP Position Genomic:     58269
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,10)      total(C,10|T,4) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31157):
CTTTGTTCACCCATGTGCGTCTTGCATATTATTCATGCTATGGATGAACATGTGCTCCTAGCCATTTCAAGGTTAGACATGTTTTGAGAGGATGTTGCAT
M
TGTGACAACTGTCAGGAGTCACAGGTCCTGGGTCGCTGCTCTGCCACCCATGTGTGACACCTCTGGCTCTCTCAACTCATGCGTTTTAAGACCCACACTT
Celera SNP ID:            hCV1885324
SNP Position Genomic:     57922
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31158):
AATGCTGTCAAATCCGCCATCACATTTGAGTGTCACAACATTCCAGTGTGATTGTGGCAAGGATGGTCATCCCCACTGTATCCTTAGGAAGACTAAGGTT
W
ACAGAGTTCCATGCAGCCTGTCCTGAGTAAATGCAGAAGCCAGAACTCGGATCCAGGGTCTTCTGACTCTGAATCAGCCACCGTGTCCACAACAGAGTGT
Celera SNP ID:            hCV16079953
SNP Position Genomic:     637468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31159):
CACTTTGAGCTTGCCTGGGGTACTGTAACTTCTTAACTGGTTTCTAGAGTTCTCATAAAGGCTTTTTTGGACTGTGTATTGTTGTTAAGTCAGTGTTTCT
R
TGGGGCAGAATGTCTGGGGCTTCCTATTCTGCCATCTAGCTGATGTCACTCCCAAGCCCCTGGCACCTCCTCCAGGCACCTTTCCCCCACTGCCCCTCAG
Celera SNP ID:            hCV1885325
SNP Position Genomic:     57597
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31160):
GGTTGACATGAAACAATTTTTCTTATGCATTTCAATATGGTGGCTTTTCACTTTGAGCTTGCCTGGGGTACTGTAACTTCTTAACTGGTTTCTAGAGTTC
T
CATAAAGGCTTTTTTGGACTGTGTATTGTTGTTAAGTCAGTGTTTCTGTGGGGCAGAATGTCTGGGGCTTCCTATTCTGCCATCTAGCTGATGTCACTCC
Celera SNP ID:            hCV1885326
SNP Position Genomic:     57549
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31161):
GTGGAATCAGGGAGCTCAGTTAGACCTTTGGAGACACCGGGTGAAGGAGACTGGGGCTTGGGCCACGGAGGTAGCACAGGAGCCAAAGAGGAGTGCTTGG
R
TTAAGGTATGCTCAGCAGGGCTGACTGATGGTGTGGGTGTGGGGGTGGAACATAGAGAGGATTCTGGAATATTCCTAAGATTTTGGTCTGAGCAAGAGGG
Celera SNP ID:            hCV1948530
SNP Position Genomic:     215067
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31162):
GTTCTGGGGGCTTTCCTTGGGATATATATTCTCTGAGCTTGCATGTGTACTTTCTTAATTAAAGAGGTTTACTGGGTCTTGTTTGTTTTTCCTTCAAGGG
Y
TTGTAATTTCTTGCTCCCTCTGGTGTCTGATTATGGTACTCAGGTTCTCTGGTGTTGCAAAAAGCCAGTGAACTGTCTTTTGTTCTCCATGGCCCCCAGG
Celera SNP ID:            hCV1885327
SNP Position Genomic:     57148
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31163):
TAGCTGCTGTGTGAAGAGTGGCTGTGGGGGCAAGAGTGGAATCAGGGAGCTCAGTTAGACCTTTGGAGACACCGGGTGAAGGAGACTGGGGCTTGGGCCA
Y
GGAGGTAGCACAGGAGCCAAAGAGGAGTGCTTGGGTTAAGGTATGCTCAGCAGGGCTGACTGATGGTGTGGGTGTGGGGGTGGAACATAGAGAGGATTCT
Celera SNP ID:            hCV1948531
SNP Position Genomic:     215032
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31164):
CTCCCACTGGCTTATCCTTCCAGCTCCAGCCCTGCCTGCCCTTCCTAGACCTTCTCATGTCAGCAATCTTAGTGTCTTTGGCCAACCTGGGAGTGGGATA
R
GATTGTGTAGAACTCATTGACATTAAGCCTGAACACACAGACCTATAAGGCATGAAACTTGTTCACTCACAGCCCCTTTGATGAATTCCAGCTCCTTTGA
Celera SNP ID:            hCV1948532
SNP Position Genomic:     214133
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31165):
TTTCTTTCTGCTGCATAAAAAAAATCACCACACACATAGCAGCTTAAACCACATTTACTACCGCACAGTTTCCATGGGTCAGAAGTCCAGGCATGGCTGA
R
CTAAGTTCTCTACTAAGGGTCTCACAAAGCTGTCATCCAGGGGCAGCTAAGGCTGAGGTTTTATCAGAGACCTGAGGGCCTCTCTCAAGTTCACATGATT
Celera SNP ID:            hCV1948533
SNP Position Genomic:     212952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31166):
GGCCTTGTGTGGGCAGAGGGGTATCATATCCACAAGCATGAACATCTCTTAAACACTAACTGTTTCAGCTTTCTTTCTGCTGCATAAAAAAAATCACCAC
R
CACATAGCAGCTTAAACCACATTTACTACCGCACAGTTTCCATGGGTCAGAAGTCCAGGCATGGCTGAACTAAGTTCTCTACTAAGGGTCTCACAAAGCT
Celera SNP ID:            hCV1948534
SNP Position Genomic:     212883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31167):
AATAGGCAGCTACAACACAGCATGGCGAGGGCCTTGTGTGGGCAGAGGGGTATCATATCCACAAGCATGAACATCTCTTAAACACTAACTGTTTCAGCTT
K
CTTTCTGCTGCATAAAAAAAATCACCACACACATAGCAGCTTAAACCACATTTACTACCGCACAGTTTCCATGGGTCAGAAGTCCAGGCATGGCTGAACT
Celera SNP ID:            hCV1948535
SNP Position Genomic:     212854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31168):
CAAACCCTGGCTGCAATTTGGGATCACCTGGGGAACTTTTTAAAATCGGTGATGCCCTGAGCCCAGTCCACCAATTAAATAGGAATATTTGAGACTTATA
Y
TGATAAATTACAGCACTCTTCTAATGTAAAGCCTGAGCTATCTTGGCCCATTCCTTTACTTTTGAGTATTCAGAGTCACTTTGTCTTAGCTGTGTGTTTT
Celera SNP ID:            hCV1948390
SNP Position Genomic:     423934
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31169):
GGTCAGAGAGGTACAGTGTAGTTCTCAAAGTCACACAGCTAAGGTGGATGCCCAGGCCTATCTGATTCCAGAACCGTGCTTGGAACCACACCATGACATT
R
CCACTCCCTCCCAGATGTCACTGAGATACTGGCCTCCTTTGCCTTCCAAGCAGGACAGGGCATGCAAGGCCAGAAGACTCCTGTCCCAGTGAGCGCAGCT
Celera SNP ID:            hCV1948536
SNP Position Genomic:     210283
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31170):
GTGTGCTCTGTGGCTAATTAAAGTCGGGTTCTCCTCATGGGCACTGGAGCCCAAGAATAGCCTCCTCATGAGCCCTCTGTGTGTGTGCACGTGTTTGTAT
Y
TCTTTTTCCCAGAAAACCCGCGGGAGTCATGTTTTGATCCTGGTTCCATCAAGAACGGCACACGGGTGGGGTCCGACCTGAAGCTGGGCTCCTCCGTCAC
Celera SNP ID:            hCV25759047
SNP Position Genomic:     535127
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:31171):
CAATTTGGGATCACCTGGGGAACTTTTTAAAATCGGTGATGCCCTGAGCCCAGTCCACCAATTAAATAGGAATATTTGAGACTTATATTGATAAATTACA
R
CACTCTTCTAATGTAAAGCCTGAGCTATCTTGGCCCATTCCTTTACTTTTGAGTATTCAGAGTCACTTTGTCTTAGCTGTGTGTTTTGTCCCAAAGAGAG
Celera SNP ID:            hCV1948391
SNP Position Genomic:     423947
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31172):
AAATATTTGTTGTTAAAATAAAGTGTGTACACTTTAAATATATGCCAATTATAACCTCAACAAGGCTGTAAGAGAGCCCATGCTGAGACCTCATCCAAGA
Y
CAAATAAATCGGAATCTTTGGGAGTAGAACCCAGACATCTGTATTTTAAAGTTCCTCAGAGATTCCAATGGGCTGTCAAGGTGCAGAAGAGCAGATGCAG
Celera SNP ID:            hCV1948537
SNP Position Genomic:     208410
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31173):
ATTATCACTGTCACTGTTTCCTTTGTAGACCTGAAGAACTGAGAATTAATTCTCCAGGCAGGTGATCGGCAGCTAGTGCAAATGTCAGGGACATACTCGT
T
GGCCCATTTGTTCACTCACTTATTCATTCAGCAAACATTTACTCAAACACCCTCTCTGTGCCAGGCCCTGTGCAAGACACCTGCGATCAGAGGTTTGCCG
Celera SNP ID:            hCV15786620
SNP Position Genomic:     370740
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31174):
TTGAGTATTCAGAGTCACTTTGTCTTAGCTGTGTGTTTTGTCCCAAAGAGAGGGTTGTATATTACTGGGAGATTAACCTGTATACATTTATTGTCATAAC
Y
GATGTTTTATCTTTTTTAAAGCATCTTACGTTACAACCCCCCTACCCCATGCTTCCTTGTTGTTTCCTTTGAATTTCTTTTTTCCTCCCTGAACTACTTT
Celera SNP ID:            hCV1948392
SNP Position Genomic:     424096
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31175):
AAAGAGCCTAACATGTGCCAAGCACGTTTTACTGGGGACTAGGAGTGCAGAGATTCAAAGAGAATTACAGATATGGATGAGATGCTGATCATGTGCCAGG
R
GCTGATTTAAGTACATTCTATGTACTTCTTTCTTCACAATAGCCCTGTGAGGCAGGCACTGTTATTATCATCTCCATGTTATAGCTGAACACATTGAGAC
Celera SNP ID:            hCV1948538
SNP Position Genomic:     207394
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31176):
CGTTACAACCCCCCTACCCCATGCTTCCTTGTTGTTTCCTTTGAATTTCTTTTTTCCTCCCTGAACTACTTTGCTTTTTCCCCTTTGGTAATTTTGAAGA
Y
AAGCTATTTCATATTCTATTACTAATTACACTTAACATCTTTAAAAGCATGCTCCAACCTATATTTCTCTAATTAACCACAGAAACTACAAAACAGGATT
Celera SNP ID:            hCV1948393
SNP Position Genomic:     424225
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31177):
CCTTTGAGGTGTGAAGAAGAATAGTAAATTCCTGAGTTTCCTGAGTGCTTTCCATGTGCTACTTGTCACAGTGCTAAATGCAAGTTCTCATCTGATCCTC
Y
ATAGTCTTGCTAGAGAGGTGTTATGAGCACTACCATTTCATAAACGAGGACACAGAGCACAGAGAGGTCCAGTGATGTGTCCCCAGTCACTCAGCTGATA
Celera SNP ID:            hCV1948539
SNP Position Genomic:     206812
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31178):
TGTTTCCTTTGAATTTCTTTTTTCCTCCCTGAACTACTTTGCTTTTTCCCCTTTGGTAATTTTGAAGACAAGCTATTTCATATTCTATTACTAATTACAC
Y
TAACATCTTTAAAAGCATGCTCCAACCTATATTTCTCTAATTAACCACAGAAACTACAAAACAGGATTTCTTGCAAGATGAGCAAATTAGCATATCTCCT
Celera SNP ID:            hCV1948394
SNP Position Genomic:     424257
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31179):
ACAGACACTGTCACCTGGAAATCATGAGCAGGGTCTGTAGTTGGGCAACAGGAGGTCTGTAAACTCCATGACATTAGAGACAAAAATTCTGAGGGTGGGT
R
TATCTTTTTCTAGGGAGAATATACAGCAGGCATTAGAGAACTCAGATCCCCCTGGCCAAATCTAGCCAGAAGGTTGTTTTTGTAAATAAAGTTTTATTGG
Celera SNP ID:            hCV8020403
SNP Position Genomic:     140694
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31180):
ATTAACCACAGAAACTACAAAACAGGATTTCTTGCAAGATGAGCAAATTAGCATATCTCCTTGCTCCAACTTTACTCTTTGTGTCAGTAGAATCTGGAAT
R
TTCTACCCTAGAGTTTGGGCAGGAATAACGTCTTATATTTTCTGTTCCAAGGAATATTTGTTACGCTTGCATTTCATTTTATAACTATGTTTACATAAAT
Celera SNP ID:            hCV1948395
SNP Position Genomic:     424397
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31181):
GACTGACACATGGGGGAACTGGCCGGGCCCTAGGCTCTCATGGTGCCCTCATTTCTCAGTCCTGGTCGATCTTTGAGGCCCTGGCTTCCCTGAGGCTTGA
R
GAAAAAGGTGTCCCTGCCCACACTGCCCTGTTAGGGGCACAAGCACTTCTCATTAAGCAGAGCAGATCTGAGGGCACATTCAGAGTCCCGTGAAAACAGA
Celera SNP ID:            hCV8020404
SNP Position Genomic:     140498
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31182):
ACTACCTTTTTTATGCTTGTATATATTAAAAGATGTTTAGAATGAACCTACAGCATTTTTGCAATCAGAAAAATTAAATGTTGTTTCATTTTGAACGCCT
R
CGACCCTGATATAGTTTTTATTTGGGGGCTTATGTCCAGTCTTTATCCATTTATAAACAAATATTTAATAGCTATAATCAAAAGCATGCATATAATTTTA
Celera SNP ID:            hCV1948396
SNP Position Genomic:     426452
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31183):
CGAGTAGCTGGGACTACAGGCACCCACCACCTCGCCCAGCTAATTTTTTGTACATTCAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGAT
M
TCCTGACCTTGTGATCCGCCCACCTCGGCCTCCAAAACTGCTGGGATTATAGGTGTGAGCCACCGCGCCCGGCCGTCATGATAATTTTTAAAGTGATTAT
Celera SNP ID:            hCV26469390
SNP Position Genomic:     578963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31184):
TGGCTCGTGGAGCGGCTCGCAGCCTGAGTGTGGAGGTAATGTATGTGACCATTCTGCTTCTCCCCTTTGCCCAGCCCCAGAGCTCGCCCCTGCTCCTGCT
S
TTATTCCCAGGCACCTGCGCTCACAGAAAAAAACCGTGGCCCCATTTGAACCCTCAGCCTGGCTGATAGGACTGCAACAGATAATTCATGTGCATTTTCA
Celera SNP ID:            hCV27850022
SNP Position Genomic:     625729
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,33|G,1)   total(C,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:31185):
CACTAGGAGAAGCCTCTTCAGAAGCTTCCTAAAGTCTGTCTGGCCATTAGCTCCTTCCACAATAGGTTGGCCTTGGGGACATTGACTGCACTTGGGACCC
R
GGGCCAGGAAAAGGGAGACTGGGTCAGGGACACTAGAAGAGGTGCCAGCAAAGATGCTGGGAGTGACTGACACATGGGGGAACTGGCCGGGCCCTAGGCT
Celera SNP ID:            hCV8020405
SNP Position Genomic:     140333
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31186):
CAAATGTTTACGGAATGGAAGGATCCATGAATGAGTAAATGCTTTCTCTTGCCCTGGCGGAGTAGGAAGAACAAGGATAAAAGGTATCCTGGGGAGCACA
Y
TTATCCAGGATGGTGAGGGCCAAGAAGTCATGTGGGTTTGCAGCATGTGTGGACACTGAGTGGGAACTTGGGAGGAGGAGGCAGCTGATGGCCCAGGGGC
Celera SNP ID:            hCV1948397
SNP Position Genomic:     429865
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31187):
GTGGAGGTTGCCATGAGCCGAGATCGCACCATTGTGATCCAGCCTGGGCAACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAGATAA
W
TAAAAGCTTCAAATGAAAGGCCAATTCAGCACACCCAGCAGCTTGAGGAATAACATTCCCAGGAAGACGACAGGGACCATTGCTCACAATGGCTGCTGCT
Celera SNP ID:            hCV26469391
SNP Position Genomic:     580729
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31188):
GGAAGAGTCTGCCTTGAATGTCCCCTGCCCTAGAGTTCTGTAGCAATAACATGGTGGATACAGTGGGATACCATCAATGTGGTAAGAGTATATGTGTGTG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATGGGAAATAGGGAGGGCGTGTCTGTAAAAGACCCAAGATCCTACAGCAAAATCTTCACAATGCT
Celera SNP ID:            hCV26469392
SNP Position Genomic:     581078
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31189):
GAAGAGTCTGCCTTGAATGTCCCCTGCCCTAGAGTTCTGTAGCAATAACATGGTGGATACAGTGGGATACCATCAATGTGGTAAGAGTATATGTGTGTGT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATGGGAAATAGGGAGGGCGTGTCTGTAAAAGACCCAAGATCCTACAGCAAAATCTTCACAATGCTT
Celera SNP ID:            hCV26469393
SNP Position Genomic:     581079
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31190):
AAGAGTCTGCCTTGAATGTCCCCTGCCCTAGAGTTCTGTAGCAATAACATGGTGGATACAGTGGGATACCATCAATGTGGTAAGAGTATATGTGTGTGTG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATGGGAAATAGGGAGGGCGTGTCTGTAAAAGACCCAAGATCCTACAGCAAAATCTTCACAATGCTTA
Celera SNP ID:            hCV26469394
SNP Position Genomic:     581080
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31191):
AGAGTCTGCCTTGAATGTCCCCTGCCCTAGAGTTCTGTAGCAATAACATGGTGGATACAGTGGGATACCATCAATGTGGTAAGAGTATATGTGTGTGTGT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATGGGAAATAGGGAGGGCGTGTCTGTAAAAGACCCAAGATCCTACAGCAAAATCTTCACAATGCTTAT
Celera SNP ID:            hCV26469395
SNP Position Genomic:     581081
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,4)   total(G,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31192):
TGACATTCAGCAGGAGATATCTGTACTTTCAAAAGGGTCATGTACTTGAATCTTCCTAGTTAAAAAAGAAAAAGAAAAAAAACGTAAAAGATGCATATAT
A
AAAAAAGATTTCATTGCAGCTTTATTTTAAATTGCAAAACTTTGGAAACCTAAATGGTTAACAGAGTATCTGTTAAATACATTCTAGTAAATCTGTATGA
Celera SNP ID:            hCV26469396
SNP Position Genomic:     583342
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31193):
TCACACACCATCCCTGCTTTACTGATGCGCGGATGCACTCAAGGTGCTGTGTGCCAAACCAGGCAACTGAGAGACCACAGCAGTCTTTATTCCAGTGTAC
M
ATGCCTTGACAGAAATGAATTCGCTTCAGCGAGTCACCCCAATTAAGATCAAAAAATAGTCTCCACTCATCAGGCATCTGACCTAAGTAAGGCAAGGTAC
Celera SNP ID:            hCV26469397
SNP Position Genomic:     585642
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,16)      total(A,1|C,16) ;(C,-|A,-)   (A,-|C,-)   TSC_42_C(A,0|C,82)   total(C,82)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31194):
CTTTATTCCAGTGTACCATGCCTTGACAGAAATGAATTCGCTTCAGCGAGTCACCCCAATTAAGATCAAAAAATAGTCTCCACTCATCAGGCATCTGACC
T
AAGTAAGGCAAGGTACCTGATTGTCCTGCCCTCAGCCTTCCCTTCTATAAACTGAGGATAATGATAGTACTTATGCCATGGCGGTATTAAATGGGTTAAT
Celera SNP ID:            hCV26469398
SNP Position Genomic:     585726
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|T,9)   total(T,9|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31195):
TACCCTCTCTTCTATTTCCTTGCCCCAGTGTCCACAGCAACGTCCTGCAATGACCCTGGGATCCCGCAGAATGGGAGTCGGAGTGGTGACAGTTGGGAAG
S
CGGCGACTCCACAGTGTTCCAGTGTGACCCTGGCTACGCGCTGCAGGGAAGTGCAGAGATCAGCTGTGTGAAGATCGAGAACAGGTTCTTCTGGCAGCCC
Celera SNP ID:            hCV25753167
SNP Position Genomic:     513637
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,38)   total(C,75|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:31196):
TTTATTCCAGTGTACCATGCCTTGACAGAAATGAATTCGCTTCAGCGAGTCACCCCAATTAAGATCAAAAAATAGTCTCCACTCATCAGGCATCTGACCT
A
AGTAAGGCAAGGTACCTGATTGTCCTGCCCTCAGCCTTCCCTTCTATAAACTGAGGATAATGATAGTACTTATGCCATGGCGGTATTAAATGGGTTAATA
Celera SNP ID:            hCV26469399
SNP Position Genomic:     585727
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|A,9)   total(A,9|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31197):
CAGAGCTGAGGGTGGAAGCTGCAAACAGCTGAGAAAGTGCTTATGAACAGCTGGGGCTGTGACTGCACACTCCTGAGGATAAGGCCTGCAAATAAGTGGG
R
AGTGAGTGCAAATAGCTGGAATGTTGAACTGCAAACAACCGGGAGTAAGGACTGCAAAACAACCAGAGCAGAGGCTGCATCTGGGGAGCAGAAGAGCTTC
Celera SNP ID:            hCV8922724
SNP Position Genomic:     190500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31198):
ATATCTACGACGGACGGGACTCTCTCAGCCCTCTCATAGGAAGCTTCTATGGCTCCCAGCTCCCAGGCCGCATTGAAAGCAGCAGCAACAGCCTCTTCCT
Y
GCCTTCCGCAGCGATGCATCTGTGAGCAATGCTGGCTTCGTCATTGACTATACAGGTAAGGGCCCTGGTGCCAGAGAGTACTGAGGACAGGTCCAGCTAA
Celera SNP ID:            hCV25752368
SNP Position Genomic:     524998
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,38)   total(C,70|T,6)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:31199):
TTGGAGAGGTTTCCTCAACCCCCTCATCCACAGTAATCCCTTCCTTCGCTTACCCTGCTCTGGCTTCCTTCATAGTTCTTAGAACCACCCAACATAGGAT
R
TATGCATTTTGAAACATTTACTGACTTCTCAAGCAAATCCCATGAGATCAAGGAGCTTGTCTATCTTGTTCTCTGTGGTATGCCCAACTCCTAGAACAGT
Celera SNP ID:            hCV8702174
SNP Position Genomic:     29898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31200):
GCCTCTGTGCCAAGCATTTTGTATACACCATCTAATATAAACCTTAAAACAGGTCCGTAAGAGAGATGGCATTATTATCCCCATCTTGCAGAGGGGCAGA
Y
CGAGGTTCAATCATGTTAAGTAATGTCACAAAAAGTCACACATGGTTGGTAAATGTTGGAGTTACATCCAGGGCTGCATGACTCCAAAGCCCATGCTGCT
Celera SNP ID:            hCV8702175
SNP Position Genomic:     28542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31201):
GCATGGTTTCTTTTTCCTTTCAGTACTTTGAATATATCACCTCTTTGGCCTCTGGGCTTGTAATGTTTATGCTGAGAAATCTGCTGATAATCTTATGAGA
R
CTCTTTTGTAGGTGATGAGTCATGTTTCCTTGCTGCTTTCAAGATTCTTTCCTTCCTTGTCTTTAACTTTTTCTTGTCTCAATATTGACTTCTTTGGGGT
Celera SNP ID:            hCV1885330
SNP Position Genomic:     55907
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31202):
CTTATATTCTTTGGTGCATCTTCTATAGTTATTTGCTTTGTGGCTACAATGGGGATTACATAAAATATTTTATAATTATAATAATATGTCTTAGACTGAT
M
ATAAGCCTCAGTTGCATATAAAAACTTCACGCTATTACACCTTCTTTCTCCCTACACACTTTGTATTAGCAATATCACGAATTTCACCTTTTACAATTTT
Celera SNP ID:            hCV1885331
SNP Position Genomic:     55410
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|A,8)      total(A,8|C,2) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31203):
GATTTTGTTCCTTTTGATAACTCTAGGTTTAGTTTGTTCTTTCTCTAGTTCTTTTACATGTAAAGTTAGGTTATTGATTTGAGATCATTCTTTTTTTTAA
Y
GCATGTGCAATGTGCTGCTGTAAACTTCTGTCTTAGTAACACTTGCTGCATCCTGTAAGTTTTTGGCATGCTTTATCTTTATTTTCATTCGTCTCAAGAT
Celera SNP ID:            hCV1885333
SNP Position Genomic:     54250
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31204):
TGCATTGAGATGATCATGTGGTTAACATGGGATATTATATTGATGGATTTTCATATGCTGAACAAAATTTTTGCATTTCAAACATAAATTCCATTTGGTC
W
TGCTGTACAATCCTTTTAATATATTGTTGAATTTCATTTGCTAGTATTTTGTTGAGGATTTTTGCACCTGTATTCATCAGGTATATTGGTCTGTAGTTTT
Celera SNP ID:            hCV1885334
SNP Position Genomic:     53507
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31205):
GTCTTAACCACTAACTATACAGCACAGTAGTGTTAACTATATGTGCCTTATTGTGCACATAGAACTCTAGAACTTTTTCATTCTGCAAAACTGCAACAAC
R
CTACACCCATTGAGCAACAACTCTCCTTTCCCCCAGCCCATGACAATCACCATCTTAATTTCTGTTTCTGAGAGTCTATTTTAAATATCTCATATAAATG
Celera SNP ID:            hCV1885336
SNP Position Genomic:     50954
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31206):
TGTGCCTAGATGTCTAATATCAATGTAGCATTAGATGAGAATCCCAGAAGGCAAGGACCCCAGTTATGGAGCACTTCCTGATAGCACCCAGCATCAAGCC
R
AGGCACAAGGGCATCCTTCACCATCACACTTACCCCGTGGCCTTGGCTGGAGCAACTTGAAAGTATGGAGAGGGTCACCAGCACCCAAGAGGACCCTTCA
Celera SNP ID:            hCV1948540
SNP Position Genomic:     206225
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31207):
CCAGAGCAGGTGAGCTACTTCCACTAAGCTCATGCCATTCCACCTCGTTCCTTGGCCACTGGACTTATTCCCTGTGCTGTGCTTACTGCTGGTTTCTCCC
R
TCTCTGCATCCTGCATTAGACTGTGATTCCCTGAGAAGGGACTCTGCCTGCTCATTCATTCTGTTGCCAGTCATATGGCTTATGGAAAGGATGTGCTTCT
Celera SNP ID:            hCV1948541
SNP Position Genomic:     205788
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;(G,-|A,-)   (G,-|A,-)   Caucasian(G,84)   African-American(G,84)   Asians(A,25|G,59)   total(G,227|A,25)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31208):
TTTTCTTCTAATGGAAAGATATGAAACTAAAGTTACCAGGCCAGGTGTGGTGCCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATC
R
CCTGAGATCAGGAGTTTGAAACCAGCCTGGCCAACATGGTGAAACACCGTCTCTTCTAAAAATACAAAAATTAGCCGGGCATGGTGGCAGGCACCTGTAA
Celera SNP ID:            hCV1885338
SNP Position Genomic:     50499
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31209):
GCACGATGTTTCCCGAGGCCCTGCAGATCTCCCAGCCTGTGAGCAGTGTCAGGGCTGGACCCAGTGGCTGCCCCACCATAAGGCCGGAGGAAGATTGGTC
R
CGGGCATGCATTTCCATGAAGCCGCCACACTGGCTCACCCATGCACATGAGACACTTTTGCCGGCCTCAGGGAGTCTAGAGGTCACAGCTAATGTGGCCC
Celera SNP ID:            hCV1948542
SNP Position Genomic:     200388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31210):
ACCAAACTGGCAAGACCTAGTGGTCATAGCCTCCATCTTTTGCTTAAGCAGAAGAGACCCGGGACAGGGACTGTATAGTAGATGGATCTTCCTCATCCTT
S
GTACTTCTCAAGCTGATCTGGCTGCCCCCACAAGCCCAATGAAAAGACATCTGTCCTTCCTAGTCTGTTACATGTCTTCCTCCCTCTCCTCTTTTCTATC
Celera SNP ID:            hCV1885339
SNP Position Genomic:     49959
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31211):
TGGCTCTGCTCTCACCCACGCACAGCACAGAAAAGACATTGGAATGTGCCTGGCTTTGCACAAAAGCTGAAGCAACCAGGATCAGGGGAAAGACCTGAGC
S
AGGCACGATGTTTCCCGAGGCCCTGCAGATCTCCCAGCCTGTGAGCAGTGTCAGGGCTGGACCCAGTGGCTGCCCCACCATAAGGCCGGAGGAAGATTGG
Celera SNP ID:            hCV1948543
SNP Position Genomic:     200285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31212):
CTCTGAGGAACCAAGCTGGGAGGGTGAAGTCAGGTAGAATTTGGGTTCCTTGGAGGCACCCCCTCTCACCCACCTCCCAAAACAGGCACCCGCCCAACCT
R
CCGAAGGCACTTGAACCAATCCCACATGACCCTCCCAAGCTTGCAGAGAAGGCAAAGAAGTAATCAGCTGCTTGCCACTGGGCTCCACGGGGAAAACCCA
Celera SNP ID:            hCV1948544
SNP Position Genomic:     200035
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31213):
TGACGGCTGATTGCTTGACCTAAGCCTGTGCTTCATCCTGCCTGCACAGAGCTGTTGCCAGGGCACTGAGGGTCCAGATATGTGGTCTCAGCAGCTGAGC
Y
GGACAAGGAAACTTGCCTAAGACTAGACCATATTTTGAATTTTTCCAGGTTCATTCCCAGGGTTCCAAGACTTCAGTGTTCATCTTCTGTAAAAGAAAGA
Celera SNP ID:            hCV16190497
SNP Position Genomic:     308776
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,13)   caucasian(C,22|T,18)   total(C,47|T,31)   
SNP Type:                 INTRON;PUTATIVE UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,12)   caucasian(C,21|T,15)   total(C,45|T,27)
SNP Type:                 INTRON;PUTATIVE UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,486|T,999)   total(C,486|T,999) 
SNP Type:                 INTRON;PUTATIVE UTR 5


Context             (SEQ ID NO:31214):
CGCGGTCCCTGCCCCAGCCTGGAACATCCTTAAGGGGTGGCTGTCGTGAATGTTAGCAATGCTTTCACCTCCTACGCAGCAGTCCTTTGAGGACTAGCTT
Y
CCTAGGGAGTACCAGTGATGGAAATATCAATATTATAAGTATTTGTCTCCTGGGCTGGAAGAAGTATCGAGCTGTGATTTAGTCAGTTGTGCTGCCTCTC
Celera SNP ID:            hCV1948545
SNP Position Genomic:     199753
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31215):
CTCCCGCGGTCCCTGCCCCAGCCTGGAACATCCTTAAGGGGTGGCTGTCGTGAATGTTAGCAATGCTTTCACCTCCTACGCAGCAGTCCTTTGAGGACTA
R
CTTCCCTAGGGAGTACCAGTGATGGAAATATCAATATTATAAGTATTTGTCTCCTGGGCTGGAAGAAGTATCGAGCTGTGATTTAGTCAGTTGTGCTGCC
Celera SNP ID:            hCV1948546
SNP Position Genomic:     199749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31216):
TTAGCCTCGAGGACAGCAAGGGCTGGGCCACATTCCCCTTTTTCTTTTCTCTGTTCTCTCAAGCCCTGTTCATCCCACTGCCCCCTCTGCTGTCCAGAAG
W
CCCCAGGGAGTCCGTTTCTGCAGTTTCCCACCACCTACTCCCGCGGTCCCTGCCCCAGCCTGGAACATCCTTAAGGGGTGGCTGTCGTGAATGTTAGCAA
Celera SNP ID:            hCV1948547
SNP Position Genomic:     199611
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,8)      total(A,1|T,8) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31217):
TCACAGCTCCTATTACTGACTCCAATCCTCCTGCCCCCCTCTTATAAGGACACTTGTGATTACATTGGACACATCAGGATAATCCAGGATGACCTCCCCA
Y
CTCATCCTTAACTTAATGACATCTGTAGTCTCTTTTGCCATGTAAAGCAGCATATTTCCATGTTCTGGAAATCAGGGCATGGACATCTTTGGGTGGGGGT
Celera SNP ID:            hCV1948548
SNP Position Genomic:     199267
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31218):
TCCCATTCCATTTCAGACCCCATCTCCTGTGCAGGAAGCCCCTTGGCCTCCCTAGTGGGTAGCAATGTCCCCTCTCAGCTGTCTGCACTGCCTCCTCCTC
Y
GAGTCTGCTTACTGGCATTGAGTGTTCTTCCTGCTGTCAACACAGCTTGGGGACATGCCAGCGTGCTGGGCAATAGGCCCAGCACATCCTAAGGCAGATA
Celera SNP ID:            hCV1948549
SNP Position Genomic:     198464
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31219):
CCGGGTGTGGTGGCTAACACTTGTAATCCCAGCACTTTGGGAGGACGAGGCGAGTGAATCACTTGAGGCCAGGAGTTTGAGACCATCCTGGGCAACAGGA
M
AAAATCCCGTCTCTACTGAAAATACAAAAATTAGCCGGGCATGGTGTTACACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCACAAAAACTGCTTGA
Celera SNP ID:            hCV8020412
SNP Position Genomic:     139959
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31220):
CCAAATGTATTTCTGGTAAACCCCACTGGACTCATGGCTAGTTAGATTTGGTGGGAGTGGGAGGGGATGGGGTTGAAGGAGATGAAGGAGTCAGGGATGA
R
TCTAGCTTAAGTGGTTTTAGCAAAATGATATTAACAAAGATGGTCTGGGGCAGAAACAGATGGGGGATGAAGTTTGCTTGGGACACATTGATTCTGGGTA
Celera SNP ID:            hCV9957207
SNP Position Genomic:     329579
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31221):
AGAGGCCCACAGGCCTAATATATTTACTATCAGGCCCTTTACAGAAAAAGTTTGCCAACCTAGAGGCAAGTCTGCCACCTAGAGAAAAGCAAGCAGGATA
S
GTAGCGAGCACTGAGACTGGAAAGTGTGGTAGTGGTCAAGTTGTGAAAGTCTCAGTAGAGTTGGGCTTGATTCCATGAGTCATAGATGAGAAGTGATCAG
Celera SNP ID:            hCV9957208
SNP Position Genomic:     329225
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31222):
TGGTCTATGGCTGCTTTAGCACTGCCAGGGCAGAGCTGAGCAGTTTATGACTGACACAAGAGGCCCACAGGCCTAATATATTTACTATCAGGCCCTTTAC
R
GAAAAAGTTTGCCAACCTAGAGGCAAGTCTGCCACCTAGAGAAAAGCAAGCAGGATAGGTAGCGAGCACTGAGACTGGAAAGTGTGGTAGTGGTCAAGTT
Celera SNP ID:            hCV9957209
SNP Position Genomic:     329167
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31223):
AATTAGGTGGATCATTAATTTGTATTGTATCTTTTGCTCTTTTCCTCCTGTTTACCGTTTTCTTACTGATTTGTAAGAACTTTTTCTAGGTTATAAATAC
R
AATCCTCCTCCTGTCACATATTCGTAACCTTTCAGGTTGCACTTTTCTCATTATCTTTTACAGTTTTTTGTCACACATACATGCTTTTAATTTTCATGTA
Celera SNP ID:            hCV8020419
SNP Position Genomic:     136349
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31224):
TGACTTCCACAGGCCTCCCATACTGCCCTCTCTGCCCTTTCTCAGCCCTCCCTCTGAAGCATCTGCACAGGGGACCCCTTCCACCTGGGGGTGCTTCTTA
Y
CCTGCAGCCCCATCCCAGCAGAACCTCACTGTGCCCATTCCTCAGCTCTCAGCTCCAGACTCATTGTCCCAGGGGTTCTCCTCTGATGGCCTGTCCAGCC
Celera SNP ID:            hCV8922731
SNP Position Genomic:     189887
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31225):
GAAAACTGGTAGTCATTTTGGCCACTGATCTCTCCATCACCCACTTCTGTTTGCCTTCTGAATGTTTCTGACATCTGTCCACTTTCCACTTTTCTTCACC
R
TCCTGTCACCCACTAGCCTGAGGTTCCATCTTGTCTCACCTGGACAGCTATGGTAGCTCTAAATTGCCTTCTCTGCCTTCACCCATGCCCTCGGCACAAA
Celera SNP ID:            hCV8922732
SNP Position Genomic:     189647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31226):
CTAAGCTTTCAGTCTTTCTAATATATCACCTGCAGAGTGGACAGATAATTACACAGATAATTTAAAAGCAATGTGGTGAGCATCACAATAAAGTTTAACA
Y
GGGGCAAGGAGAGGGGTTATGGGAGCACACAGGAAGGTCAGGAGTCTAGCCAGCGCCTATCAGGGATGACTTCCTGAAGGAGGCAATGTTAAACTGAGAC
Celera SNP ID:            hCV8702180
SNP Position Genomic:     27815
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   Caucasian(C,2|T,82)   African-American(C,25|T,57)   Asians(C,3|T,79)   total(C,30|T,218)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31227):
TCTCCTTGGTTAACTCCTTGATAGAAACTGATGTCAGATTAGGGCCGGGCATCACACATTTGCTTTGCAGACAAGGGGCCAAAATTGACTTGAATAATAG
R
CCCAAGGCAAGAGGAGCAGGCTGGAGATGACAGAGACAGTTACTAGTATAAAGCAGTAGCAACACCAAGACTTTTCCCCTCCTTCCTTCCTTCTTTTTTT
Celera SNP ID:            hCV8702181
SNP Position Genomic:     27489
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;(G,-|A,-)   Caucasian(G,84)   African-American(A,8|A,20|G,38|G,76)   Asians(A,2|G,72|G,84)   total(G,354|A,30)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31228):
GAGTGTGATCTGAGAAGCAGCTGCATGGGCACCCCCTGAGAGCTTGTTAGAAATGCAGAACTCAGCCCCCACCCCACACCGAGTGAAATAGAACCTGTTG
Y
ACTTTCAAGATCCACAAGTGATCTCTACACTGTTGAAGAAGCACTGCCTTAGTCTAAATCAGGATCACTGAGGAGCTTGTCAAAATGCAGATTCCCTGGC
Celera SNP ID:            hCV8922733
SNP Position Genomic:     187411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,16)      total(C,16|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31229):
TGGCACCGCCTGCAGCTGGAGGTAACTGGGACAGGCAGGACCTGTCCCACCCAATCAAGAGGAATGGTAGGAGCCCCACCCACCTTGGACTCAGCTGTAG
M
TACCAGACAGCCTTGGAGGTTTCTCAAAGCTGTTATCCAGACTGAGAGGAGATGTTGACTAAGACATTGATCATCTGGCCCGCTTATCTCTGTGGCATAT
Celera SNP ID:            hCV8702182
SNP Position Genomic:     27145
SNP Source:               dbSNP
Population(Allele,Count): (C,-|A,-)   no_pop(A,-|C,-)   no_pop(C,-|A,-)   JBIC-allele(A,487|C,988)   total(A,487|C,988)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31230):
AACATGTTCTCTCCTAACACTGCATGGTGAATCTGGACCTGAGCTGGTTGGCACCGCCTGCAGCTGGAGGTAACTGGGACAGGCAGGACCTGTCCCACCC
M
ATCAAGAGGAATGGTAGGAGCCCCACCCACCTTGGACTCAGCTGTAGCTACCAGACAGCCTTGGAGGTTTCTCAAAGCTGTTATCCAGACTGAGAGGAGA
Celera SNP ID:            hCV8702185
SNP Position Genomic:     27097
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31231):
AACACTTCTCCTTCTACAATGGAAGCAGTCCAGTGTTATCTAACTGCCACCAGGGTAGTTGGCTTATCATGCCAGGGAAGGGTACCATTTTGGGAACCCC
R
CTTCTGGTACCAAAATCTGTTTTGGTCTCTTTGGGCTGCCATCAGAAAATACTCGTAGACTGGGTGGCTTAAACAGTAGAAATTTATTTTCTAACTGTCC
Celera SNP ID:            hCV16119378
SNP Position Genomic:     121046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31232):
CTCAAGTTTGGAATGAACTGCCTAAAAAACACAAGAGGAGTCACATGGAGAGATCAAAATGTCAGCTTCATTACCTTACCGATAACGCTGATTGGAAGAC
R
TGGCTTTGGATATGTGGCAAAATTGTCTTGTTAATACATCACTCTTGAATTGAAGAAGTTACCCACTCATTCACCAGCAAAGGAAACAGCCTCAGGCTTC
Celera SNP ID:            hCV8702186
SNP Position Genomic:     26661
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   JBIC-allele(A,506|G,971)   total(G,971|A,506)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31233):
AGCACTCAGGACATCTGCAGAGTTAGGGCTAGGATTGTGCCTCTCGAGAAGCCTCAGTGTCCACTTTCCCAGCCAGCTCTTGGCACGAGAATGATGGGGG
K
CTTGTTCTACTCATCAGTTTCAGGTAGAACAGGCGTCTGGTCCCTTGGAAGCCCTCCCTAGCCTGGGCAGAAAGGAGGTCCCCCTCTCCTCTGTGTGCTG
Celera SNP ID:            hCV8702187
SNP Position Genomic:     25428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31234):
TAGAGTTAGCGACCTTGGAAGAGCCCCTGGAGTGCTGGTTCTCAACCTCGGCCATACCATAGCCAGGGTCCCACTCCCAGAGGGCTAATTTTAATTAATT
Y
AATTTAATTGGGACACTGTGATTTTACAAAGCTTCCCAGGTGCCACATGGTTGAGAACCAGCCACTATAAGCAAGAATTTATATCAGTATCACCTGGAAG
Celera SNP ID:            hCV1885340
SNP Position Genomic:     49585
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31235):
TGAGTGTGATCTGAGAAGCAGCTGCATGGGCACCCCCTGAGAGCTTGTTAGAAATGCAGAACTCAGCCCCCACCCCACACCGAGTGAAATAGAACCTGTT
K
CACTTTCAAGATCCACAAGTGATCTCTACACTGTTGAAGAAGCACTGCCTTAGTCTAAATCAGGATCACTGAGGAGCTTGTCAAAATGCAGATTCCCTGG
Celera SNP ID:            hCV8922739
SNP Position Genomic:     187410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,16)      total(G,16|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31236):
CAGTTTGTTATAAAGGATATACAAAGGATACAGATGAACGTTAGATGAAGAGGTGTGTAGGGCAAGGTGTAGGGGGAGGGGCTTGGAGCTTCCATGCCCT
Y
CCTGGGCACACAAACCTCCAGGAATCTCCACGTGTTCCGCTCTCTGGAAGCTCTCTGGACCCCGTCCTCTTGGGTTTTTAGGGAAGCTTCATTACGTAGG
Celera SNP ID:            hCV1885341
SNP Position Genomic:     47919
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31237):
TCCTAGTCCACCCACCAGCCTGTGGCATGTCCCCCAAATTTTATGTGAGTTCCAAGCAGACATAAATTCAAAATGGTTGAATTTTCTCTGGATCCTCAGC
W
CACAGAACAAGCCTCACTGGCAGGAAGCATCAATATATGTGTGCTGAGTGCATGATGGATGGATGAATGAATGAATGAATGAATGGATAAATGGTGCCAT
Celera SNP ID:            hCV1885342
SNP Position Genomic:     47018
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,7)   total(A,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31238):
AAGTTGGGATGCCAACCTCGCATTGATCCACTGGGGGAGCACAGACCCCTTCTTGTTTCTCCCCATGCTGTGCTTATGAATGGGAAGTTCTGAGCAAGCC
M
ATGAGAAGACAAATGGGGAGAAAACAAGGCAACATGAAAGTGTGCAAGTGTGCACCAGGAGGCAGGGTGTCACCTGGATCATCTGACCCAGGTGACTAGC
Celera SNP ID:            hCV1885343
SNP Position Genomic:     46702
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31239):
CCTAGTTGGTCTTTGTTTTTATTTTCCATCTTTACAAAAAAATGTGAGATGTTCACTCTTGCAGAACAAATAGAACTGTGACTTTTGTTTCACAATTTAT
R
TGGCTGATTTTGTCTGCTTTTGACAGTTCTGTTGTGTTCCTGACAGTTACAATTTGGTTTCTCTCTGGGACCTTGGAATGATAAGTTGGGATGCCAACCT
Celera SNP ID:            hCV1885345
SNP Position Genomic:     46519
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31240):
ACCTCTGCCAGGAAGCCATCCCTGATTCCACTATAGAGGGATTTGTCACTCCCTGAGTTGGCCTTCTTTATTTGGTCTGGCCTGGCTCTATTCTAATTAC
R
TTAGCTGGATATATGATGGTCAAGGGCAGGGACTGGGTCATAATCATTTCTGATGATTGACACACTCATTCCCATTGTAAGACTCCCTGAGTGTTTACTG
Celera SNP ID:            hCV1885346
SNP Position Genomic:     46211
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31241):
AGTGCATGGGGTCAATGAATATCTGAATGAATGAGTGAATAATGGAACCCAGCTTTAGCTTCTATGCTGACCCTTCTCCCATTCCATTTCAGACCCCATC
W
CCTGTGCAGGAAGCCCCTTGGCCTCCCTAGTGGGTAGCAATGTCCCCTCTCAGCTGTCTGCACTGCCTCCTCCTCCGAGTCTGCTTACTGGCATTGAGTG
Celera SNP ID:            hCV1948550
SNP Position Genomic:     198388
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,9)   total(A,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31242):
AATTTTATTCATCTTTTAAGACCCAATGCAGATGTTACCTCTGCCAGGAAGCCATCCCTGATTCCACTATAGAGGGATTTGTCACTCCCTGAGTTGGCCT
Y
CTTTATTTGGTCTGGCCTGGCTCTATTCTAATTACGTTAGCTGGATATATGATGGTCAAGGGCAGGGACTGGGTCATAATCATTTCTGATGATTGACACA
Celera SNP ID:            hCV1885347
SNP Position Genomic:     46175
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31243):
CTCCTCAGTGCATCTGCCTAGAGAGCCTGTCCCTGCTCAGGCACCCTGGGGGCTCTTCCTTCTCGTGTAGGAGTCCTGTCTCCCCAGCCAGCTCTTACGT
R
CTAAAGGGCAGGGTGCATGGCCATTCCTCTTAGGCTCCTTCTACCCTCAAGTGCATTTTCCTGCACTAACAGGCAGGCAAGAAAGAGAAGAGAAGAATCA
Celera SNP ID:            hCV1948551
SNP Position Genomic:     198051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31244):
TAAAGACTGAGGCTTTTACCTGAGCTCTGCCCTGGTCACTCCCCATTCCCCAAACTAGAAGGCACCTTCTCCTCAGTGCATCTGCCTAGAGAGCCTGTCC
M
TGCTCAGGCACCCTGGGGGCTCTTCCTTCTCGTGTAGGAGTCCTGTCTCCCCAGCCAGCTCTTACGTGCTAAAGGGCAGGGTGCATGGCCATTCCTCTTA
Celera SNP ID:            hCV1948552
SNP Position Genomic:     197983
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,3)      total(A,2|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31245):
TTTCTTCATTCATCCAGCAATTACCTCCAAAGAGCCTAACATGTGCCAAGCACGTTTTACTGGGGACTAGGAGTGCAGAGATTCAAAGAGAATTACAGAT
W
TGGATGAGATGCTGATCATGTGCCAGGGGCTGATTTAAGTACATTCTATGTACTTCTTTCTTCACAATAGCCCTGTGAGGCAGGCACTGTTATTATCATC
Celera SNP ID:            hCV11182861
SNP Position Genomic:     207366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31246):
TGGGGGATGGGCAGTGGCTGCAGGCTGGGCCCCCCATGAAATGCTTCAGCTGTGCCACCTCCCATAACCGTGGCCTTAGAGGATCACAGAGCCTGTGCTC
R
TGGGCAAGGATCCTTGGGTTCTGCCTAGCCCCATTACAGGGAGGTAGTTTAGTTCAGGTCTCAACCAGCAGCAGGAGGTATGTGCTAGGTGGGCTCAGCC
Celera SNP ID:            hCV1885349
SNP Position Genomic:     44861
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31247):
CTGCAGCAGAAGAAGGGAAGTGGCCAGCACATCCATGTGGCTGAGCAGAGGGCAGTTCTGCTCAGACTGCAGCAGCCCATTATTCTGATTCATCCGTTGA
Y
TCTTCCTACCCCTCTCAGTGTGTTGACGTCTTTCCTATAAAGACTGAGGCTTTTACCTGAGCTCTGCCCTGGTCACTCCCCATTCCCCAAACTAGAAGGC
Celera SNP ID:            hCV1948553
SNP Position Genomic:     197845
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31248):
AGGGGCTGCAGCAGAAGAAGGGAAGTGGCCAGCACATCCATGTGGCTGAGCAGAGGGCAGTTCTGCTCAGACTGCAGCAGCCCATTATTCTGATTCATCC
R
TTGACTCTTCCTACCCCTCTCAGTGTGTTGACGTCTTTCCTATAAAGACTGAGGCTTTTACCTGAGCTCTGCCCTGGTCACTCCCCATTCCCCAAACTAG
Celera SNP ID:            hCV1948554
SNP Position Genomic:     197840
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31249):
TCCTCTGTATGCTGCTGGGTTATCAGTTTCTGGAACCATGTGAGATTTGTGCGAGCCCATGTGACCAACAGACAGTTCTTCAGGCTGCTATAAAGCAGTC
K
CCAACACCTGTCCCTGTGAGCCGCTGCATTGTGTATTTGAGCCTTTGATATACCGGGGATGTTTGCCAAGGGAGAGAAATGTTATTGGACATTTTTCGTG
Celera SNP ID:            hCV1948555
SNP Position Genomic:     197503
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,6)      total(G,6|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31250):
TTTGCAATATATAAAGCACTTAACACAGCATTCAGTAAAACTTGCTCCTTGGGGACAGACAGCCTGACTGGCTCATGTCTGAGTCCCTAGTGCTTGGCCC
Y
ATGCCTGGCTCAGAGGAGCATTTCCAGAAGAAAGGCAGAATGAGCACGCAGTGGGAGGAATCTCCTCTGTATGCTGCTGGGTTATCAGTTTCTGGAACCA
Celera SNP ID:            hCV1948556
SNP Position Genomic:     197340
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31251):
TGGAGTGCCTTCTGGGACTTTTGCAATATATAAAGCACTTAACACAGCATTCAGTAAAACTTGCTCCTTGGGGACAGACAGCCTGACTGGCTCATGTCTG
W
GTCCCTAGTGCTTGGCCCCATGCCTGGCTCAGAGGAGCATTTCCAGAAGAAAGGCAGAATGAGCACGCAGTGGGAGGAATCTCCTCTGTATGCTGCTGGG
Celera SNP ID:            hCV1948557
SNP Position Genomic:     197321
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,6)      total(A,6|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31252):
CTTCCGTTCTGTGGGACTTGGAGGCTTTAATGTGCAATGTAGGAATTGGATCCTGAGATGGGCCTTATCTGACTTTCAAGCTCATGCTCAAACACTTGCC
R
GTATTCTCCTGCAGTGTGCTTTGTGTCGAGCCCTGTGCTGAGATGAGTAACTCTCAGCCTCTGACTTTGGGACACTCACAGTTCCATGCAAGCAAAGCAC
Celera SNP ID:            hCV1948558
SNP Position Genomic:     197029
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31253):
ACTGATTCTTCCCAGCCTTCCTTCCTACACCTAGCCTGGGGCCAGCCTCCTGAAGGAAAGGGTGGGAGCTTGCCCAGCCAGGGGCAGTCTGAGCAGAGCT
K
TGTGCAGTGGAAAGTGCCTGGCTTCAGAGTGTTGTGAGGTGAACTGGGTGGAGGCATTAAGCATCTGGCATCATGGCTGACTCAGGGTGGCTGTTCCGTC
Celera SNP ID:            hCV1948559
SNP Position Genomic:     196698
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,9)      total(G,1|T,9) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31254):
GACCCCATCACTAATTTGCTTGAGCAGAGGGAGCTGATTTGAGCTCTCCCTTTTGATAGGAACAACTTTCAAATCACCATCAGTGCTCATACAATTCAAA
M
GTGTAGTTGGGGGCATCAAAACACAAAACCCTTTCCTTTATATGTAAAATGAGCAACACGTCTGCTGAAGATTGGGAAAGCAAAGTGAAATTGCAGATGA
Celera SNP ID:            hCV27931032
SNP Position Genomic:     61998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31255):
AACTCTAGATAGGTGAAAAATGAGTCTTGGGGTTTCAGTTTTCACATTTTTATATTAATTAGGTGGATCATTAATTTGTATTGTATCTTTTGCTCTTTTC
Y
TCCTGTTTACCGTTTTCTTACTGATTTGTAAGAACTTTTTCTAGGTTATAAATACGAATCCTCCTCCTGTCACATATTCGTAACCTTTCAGGTTGCACTT
Celera SNP ID:            hCV8020423
SNP Position Genomic:     136293
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31256):
TGGGACCGTGAGTTAGATTTGCTAGGTTGAGAAGGTTGCAGTGGAAGGGCGTATGAGGCAAAGGGCCAAGCACTGCAGGTGACAAATTAGTGGTGTGACT
S
AGGCACATGCTGTGCAGGGGAGAGGGGCTAAAATGAGGCTCAGTGCCAGCATCCCTAATGACCTAGTTCTTGGTCCTTTCCTAAAGGATCATTGTAGAGA
Celera SNP ID:            hCV27931033
SNP Position Genomic:     66392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31257):
CAAGTTTGTGCCCATTTCATTTAATGTGTGAAATGCATGTGTGTAATTTGTAGTATTTCCTTATTATCATGTTGTTAAGTGCAGGATCTGTTTTCCTTAG
Y
CCTTGCCAACTCTAGATAGGTGAAAAATGAGTCTTGGGGTTTCAGTTTTCACATTTTTATATTAATTAGGTGGATCATTAATTTGTATTGTATCTTTTGC
Celera SNP ID:            hCV8020424
SNP Position Genomic:     136185
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31258):
CACCACTGGCCTATGATTTAATTAATCATGCCTATGTAATGAAGATTCTATAAAAACTCAGAAAGACTGGGCTCAAGGAGCTTCCAGATAGCAGAACACA
Y
GGAGGTTCCTGGAGACTGATATGCTCAAAGAGGATGTGGAAACTCCATGCCTCTTCCTCCATACCTTGGCCTCTCCATCTCTTCATCTGGTGTTCATTGG
Celera SNP ID:            hCV27530200
SNP Position Genomic:     115517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31259):
TATATGGCTGGTGTGGTATTGTGAAATATACATTTGGTCTTTGTCTCTTGTCCTGACATACGGCTGCTGAAATCCTTGGAATCTCCAAAGTGATACACAT
S
TTATGAATGCTAATGGGTTGACTGTTGGCTTGCCATCCCTAAATATCTTCAAGACCGGGGTTGGTTACTGGGAAGACCAAGCCATGATTAAAGAGTTGGG
Celera SNP ID:            hCV27931034
SNP Position Genomic:     115259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31260):
GACAGGGAATAGCTCATGTAGGACCTAGGAGGCCACAGGAAGGAGTTCGGGCCTTACTCACAAGAAGGGGACCATCGCTGAAGGGTCTTAGGCAGGGAAG
Y
GGCTCCGTGAGATTTATGCTTTAGAGACATTGGGGAGAGCAGGGGCAGACTGCGGGGAAGGAAACCAGTCACAGGAGGCAAAGCAGGGACCACTGTCGAG
Celera SNP ID:            hCV27931035
SNP Position Genomic:     151500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31261):
CTGTAATTGAGGCCTGATTAAGAGTTCCTGGGCTAGAGATAAAAGGGCAATTAGTTTTGCCAGAAGGATTTAAGGAAAGCCAAAAAAGAGGCAGTGACTT
M
AATGTGGGTCTCAGAAAGATGCCAGACAGACCATGGGAAGATATGTTCCAGGTCAAGCAAAGGCAAGAAAGCATGAAACTACCACATCTAATGAACCACA
Celera SNP ID:            hCV9957217
SNP Position Genomic:     328745
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,3)      total(A,3|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31262):
TTCGTTTCTGTTTCCCATCTTGATGGAAACACTGCAACGTTTACCTCACCTCAGAGCAAATGGAAATGGGACTCCTTTGCCAGTTTACCAAACTGATTTC
Y
GGACTTTTGTCAGTTTTGATAGCAGTCCACCCCAACCCACCTTTATATGTAGAAGTTATTAGAAAGAGTTATTAGACTGGGGCTCAGCCTCTGGTGGGAA
Celera SNP ID:            hCV27931036
SNP Position Genomic:     159851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31263):
CAAAAAGAAGTAAACTTAAAATAAAAGATAACCTACAACATAGTACATTATATTCTGGTCTCAGTCCAATCAGAATTTAGGATGTCTGTGGCCAGACACA
R
TTTTACCTAATACCACAGGGTATCAGAAGGCCTGAGTTCTAGTCGGGCTCTGCTTCGGACTGGTTATCAGGAGGTAGGCAACTGTGTTCAGTTTAACAAG
Celera SNP ID:            hCV9957218
SNP Position Genomic:     328413
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31264):
TAATCATAATAGTTAATACCAGATGCCTGCTAAGAGCCAGGCACAGTGCTAGGCACTTGGCAAGTACCATCTCCTTTAATCTTCATCATTATCCTGCAAA
K
GAAACACGGTCATCACCTCACTTTATGGACAAGGAAGCTAAGGCCCAGAGAGGTTAAGCCAATTTCCCAAGGCCATCTGAACTCCTGCCTTTTGAGTCTG
Celera SNP ID:            hCV27931037
SNP Position Genomic:     325185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31265):
GGATCAGTTTCACCCACAGTCAGCTTTGTGGCACTATAGTCTTAAGTGATTTATGGCACTTCAGAGCTAATGATTACCAACTTCTAATGGTATTGACAGA
K
ATTTTTTCCCAGATAAACAAAAAGAAGTAAACTTAAAATAAAAGATAACCTACAACATAGTACATTATATTCTGGTCTCAGTCCAATCAGAATTTAGGAT
Celera SNP ID:            hCV9957219
SNP Position Genomic:     328295
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31266):
AAGTCCTGAGTTTTGAGTCTCCATAGTGAAAGGGAGACAGCCCAGGGCTCCATCCCTCCAGGACAGCTTCCCCTCCATCGACCTGCTGGTGAAGCCTTGA
R
GCTGTGGCATTGCGTTACTGCACACACTTGGCTTGAATATGATGGATTCTGAGGTCCATGTACGATAGCAATGGGAACCGTTAACGCCACACGTCTGCCT
Celera SNP ID:            hCV8922740
SNP Position Genomic:     186619
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31267):
GCTGTGACTACTTCCCAGGGAGGGGTGGGGTGGATGGGGAAGGAAGGCTAAGTCCTGAGTTTTGAGTCTCCATAGTGAAAGGGAGACAGCCCAGGGCTCC
M
TCCCTCCAGGACAGCTTCCCCTCCATCGACCTGCTGGTGAAGCCTTGAAGCTGTGGCATTGCGTTACTGCACACACTTGGCTTGAATATGATGGATTCTG
Celera SNP ID:            hCV8922741
SNP Position Genomic:     186570
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,9)      total(A,9|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31268):
TGGGGCTCTGATGAGTAGGGTAAAGACCTAGAATAATGGTCAAAGGGAAAAGTACTGATTCATTTATTAATAGCCAGGCGTGTGCCTGATACCCCTCAGG
R
CACAGGTCCTGAGCTGGGCTCTGGTGGTACATTCCTGTAATCCTGGTGACTCGGGAGGCTGAGGTGGGAGATTCACTTGAGCCCAGGAGTGATCATGCCA
Celera SNP ID:            hCV8702191
SNP Position Genomic:     25071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31269):
TTTACTCTTTAGAATGGAAGAGGAGGGACAAGACAAATGTCAATGAGAAGTTGGTACCTCTTGAAGAACTGGCAAAGAGTTTGAAGCTTTTGGGTTAAGA
S
TGGCTTTGGAAGGTGCTTAAACTGATATGCCACTAACACCTGCTCCCTGCTGGGGCTCTGATGAGTAGGGTAAAGACCTAGAATAATGGTCAAAGGGAAA
Celera SNP ID:            hCV8702192
SNP Position Genomic:     24920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31270):
CCCACATCTGTCCTAGCTTCTTCCAATAGGTGGTTCCTGCTTCAGTCAGACAAAGGGAGTGACTTTACTCTTTAGAATGGAAGAGGAGGGACAAGACAAA
K
GTCAATGAGAAGTTGGTACCTCTTGAAGAACTGGCAAAGAGTTTGAAGCTTTTGGGTTAAGAGTGGCTTTGGAAGGTGCTTAAACTGATATGCCACTAAC
Celera SNP ID:            hCV8702196
SNP Position Genomic:     24857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31271):
CTTCATTGGACCAACCAGATCAATATTTGCTCCACTTTGGGGGATCAAGTGGTGCGTTTCCATCCTTCCAGGAACTTGCCCCAACCGTGACATGAATAGA
Y
ATTTTTTTCTGACTTCCAAACTTCCCGCAGTGTGGTCTGTACAACCTCATCTGCCATTCTTCCTCAGTGCAATCAGCACTTTTGGAAAGAACAGAAGCTT
Celera SNP ID:            hCV3138285
SNP Position Genomic:     434395
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31272):
ATATATATGTGTGTTTTATTTCTATATAATTCATATATATTAATATACTATAATTTGTTTATGCATCCATATATATATATATATATATATATATATATAT
R
TATATATATGGAGAGAGAGAGAGATTTTTACCTGTCCCAAAGCCATGAAGGTTTTCTCTTGTTTTCTTCTGGAAGTGTTATAGTTCTAGCTTGTATATAC
Celera SNP ID:            hCV8922748
SNP Position Genomic:     182722
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31273):
TTAGAAATCCCAAAGGGTGTAGATTTTGAAGCAAAATGGGAGCACAGCACCTTTTGTGTCCCACACATAATACTTGGGGGATGGGCAGTGGCTGCAGGCT
R
GGCCCCCCATGAAATGCTTCAGCTGTGCCACCTCCCATAACCGTGGCCTTAGAGGATCACAGAGCCTGTGCTCGTGGGCAAGGATCCTTGGGTTCTGCCT
Celera SNP ID:            hCV1885350
SNP Position Genomic:     44787
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31274):
TCCCAGCTGTAGAATTAATGGGCTTAGGTTAAGTAACTAGACCTAGACCTCAGGTCCCTCACTGGCAACAGGGGAATAAGTATGCATATCTGATGGAGTT
M
TTTGCTGGTGAAACAGGTCACCGTACAAAGCATCCATGCAGAACCCAGTCTGGAGGGTTGTGAATCGGTGGTCTTTCACCTTCCTACAGACCAGCCCCCT
Celera SNP ID:            hCV3138286
SNP Position Genomic:     434635
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31275):
GTTGTGAAGCTGTGCGTGGCTTCTTGGTGTCTCACTCTGGGTCATGCCCTCGTTGCCTTCCGCTATCCCTATCTGGTCTCTCTGTTCCTGTCTGCCTCTT
K
CCTGTGTCTCTGTCACTTTTCCGTCTCTCTGTTTCTTTTTCTGTCCTCTTGCATCTCCCTGGCTTGCGGTCTCACTCTCTATCTGCCGTTGTGTCTCTTT
Celera SNP ID:            hCV1885351
SNP Position Genomic:     44211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|G,7)      total(G,7|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31276):
GTAGATGGGGTTTCGTTGATATGTATGCACTGAGTGGAGAGTGGCCTAGACAGGCAATGGAGACTGCATGATCTGTAGCTCCCCGGGCAGTAAATGGGGA
R
ATCACAGTCCAACAACCAGAGATGCTGGGCCTGTGCTGAGATGGAGCCAAGAAAGAGTCCCTCCTCACTGCTGAGATGCAAACCTGTATTGTAACAATGG
Celera SNP ID:            hCV3138287
SNP Position Genomic:     442575
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31277):
TGGGGGGTCGGATGCCGCTGACGGAGCCTTTGTTGTGAAGCTGTGCGTGGCTTCTTGGTGTCTCACTCTGGGTCATGCCCTCGTTGCCTTCCGCTATCCC
Y
ATCTGGTCTCTCTGTTCCTGTCTGCCTCTTGCCTGTGTCTCTGTCACTTTTCCGTCTCTCTGTTTCTTTTTCTGTCCTCTTGCATCTCCCTGGCTTGCGG
Celera SNP ID:            hCV1885352
SNP Position Genomic:     44180
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,8)      total(C,7|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31278):
CTCAGCATCCCTCAGGTCATGGGAGCTTAGAGTTGTTCACAACCTTCACGCTAGGCCCTTGCGTGCAGACCTCCTGGCAGGTGATTGGGTGCCGCCACGC
Y
GGGCACTCTGGGATCAGAACATTTGACTGACCATGAAGTTAACCCAAGATGGCATCTCACACCCACACTTGTCCTTCCTCATCACCTCCCACATTCATCC
Celera SNP ID:            hCV3138288
SNP Position Genomic:     446625
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31279):
TCCCACAAATTCTACCAAGAGTCACCACTGAGTTGAGCCGGAGAGGTTTTCCGCCTCAGTCTCTGCACTCAGTCCTTCAGGTGCTCTGGGGAGGAGCCTC
R
GAAGCTTCCAGTGCTGGGGGCTAAGTGGAGCAGGCAGGGGTCAGCTGCCTGGGTTTTGCTTGGAGAGAAGCCCTCAAAAAGGTCCAGATTGAGCTCAGAG
Celera SNP ID:            hCV1885353
SNP Position Genomic:     43022
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31280):
CCAGAGTCTTCTCATCCCTTTGAATGGTAGAACTTGTTCAATAAGTATTGTTGAGATTCTAAAATCTCCCTGCTGGAAGAGCTCTTAGAGGTTACCAGCT
R
TCCAATCTCACTCAGTACAGGAACCTTCTCTAAATCACTCCCTGCAAGATGGCAACACGCCAGCTCAGCTCACCCTCTGCCTAAACATGCCTGATGTGGG
Celera SNP ID:            hCV3138289
SNP Position Genomic:     447758
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31281):
TCCTGGGAACAAAAGCCGGTCTACTCACTCCCCGATGACCCAGGATATGAGTCTGCACTTGACAACCATGCCTGGTAACAGCCAGGGCTCAACAAGGCCG
R
CAGCTGCACAGAGCCTGCCAGGCTGTGTGGGTCCTTCAGGGAGGCGGGGGCCTGGTGCTCTGTGCTCAGCAAGACAGGTCTATGCCTCTGCCTGAACTTC
Celera SNP ID:            hCV1885354
SNP Position Genomic:     42638
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,8)   total(G,5|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31282):
TCTGATCATGCTCATTATATGATCTACTGTTGTTTACTTGTTTACTGTCTGTCTCCCCCACTAGACAACAAGCTGCATGAGGATGACTACAGGGACTCTG
Y
ACCCCCAGTGCCACACACAGCACTTGATAAATATTTATCAATTGCATGAATGAAAGGCACAGGGTGGAGTGGAAGGGAGAGAATGAGTGGTAATTAATGT
Celera SNP ID:            hCV1885357
SNP Position Genomic:     41143
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31283):
GACAGAGATTTGCTGGGTAATAGGGAGGGTGTCTGAACATTCATGGGGTTGAATCTCCTGCTCCCACAGGGTCCTGTTCTGCCCTGATGGAGGGATGGAC
Y
GAGGAGAGTTTGCTGGGTAATAGGGAGGGTATCTGAACATTCATGAGGTTGAATCTCCTGTTCCCACAGGGTCCTATTCTTGCCCACTCACCTCCCTCAC
Celera SNP ID:            hCV1948562
SNP Position Genomic:     194377
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   Caucasian(C,26|T,50)   African-American(T,40|C,42)   Asians(T,41|C,41)   total(C,109|T,131) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31284):
CTCTGATCATGCTCATTATATGATCTACTGTTGTTTACTTGTTTACTGTCTGTCTCCCCCACTAGACAACAAGCTGCATGAGGATGACTACAGGGACTCT
R
TACCCCCAGTGCCACACACAGCACTTGATAAATATTTATCAATTGCATGAATGAAAGGCACAGGGTGGAGTGGAAGGGAGAGAATGAGTGGTAATTAATG
Celera SNP ID:            hCV1885358
SNP Position Genomic:     41142
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31285):
CATGTGGAAGGGTTGGGTCAGGGAAGGGCATCTCAGGCAGAGGCAGCAGCAGGAGCAGGAGCTGGCAAGAGCACAGCTCAGTGCTCCTGCTGCAGCAAAG
K
ATGGGGAGGTGCAGTGAGGGGTTGGCAGGGGATTGGTCATGGGGTGTCCTGAGGGTCCCTGGAAGTTGCTTGGAATCTAGGCTGCAGGCAACAGAGCACC
Celera SNP ID:            hCV1948563
SNP Position Genomic:     194122
SNP Source:               dbSNP
Population(Allele,Count): (T,-|G,-)   Caucasian(T,3|G,77)   African-American(T,1|G,73)   total(G,150|T,4)no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31286):
CGGTCACCCCTCCCACTGCATACACACAGTTGAAACCATCCCGATTTGATCTGGCCTTGACTGCCAGTCTACCCACGCTTCCCCTCCCACCACTCCTGCA
Y
GCTTCTCCATACCCCAGGTGTACTTGCCTTTTTGCTTTTACTGGAAAACAACAAACTTTTTTTTTTTTTTTTTTTTTTGCCTCCAGACATTTCTTCCTGC
Celera SNP ID:            hCV1885359
SNP Position Genomic:     40809
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,9)   total(C,5|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31287):
GTTCCTCATCCATATAATGGGAATAATAAAGTCTCCACCTTGCTGAGTTGCTGCAAGGATAAACAACACACTTAAAGATTTTAGACAGGGCTGGCCCAGA
W
GAGCTCTCAGCAAGCCTTAGTCCTCCTTAGAGGTGTGCTCCACCTCACACCTGCCCTTCCCACATTGTGAATCGTGTCAGCCCCGACCGGGACCCCTGCC
Celera SNP ID:            hCV1948565
SNP Position Genomic:     193726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31288):
CTTGCGTATCCTTCAGGTGTCAAACTTAGACCTCTCTCTGCCCGGGAAGCCCTTCCTGACCCTGACCCTGCAGGTCTGGCTGAAAAGCCTCCTCTCAGAG
Y
TCCCACGGCTGTCTATACAGCTCATCATGATCTTTCTCGCCCTGGAGTGGGTTGCGGGTCTACCTGTCTGCCCTCTGTGATGTGTCATGCTCAGCACCGA
Celera SNP ID:            hCV1948566
SNP Position Genomic:     193251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31289):
TCTTATTGACTATGTGATGTGGCTTTGGGCAAGTTACTTAACTCTCTGTGCGTCAGTTTCCTCTTCTGTAAAATAGAGATGGCAATAGTACTCACTTCTT
R
GAGTTGTTAAGAGGATTTAGTGAGATAATTTTGCAAAGAGCTTAGTATGATGCCTGGAATATCATAGACATGCAATAAATGTTAGCTCTCATTCCTGGAA
Celera SNP ID:            hCV1948567
SNP Position Genomic:     192851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31290):
TTCAAAGATGCCATAGGAAACCTGCTAGGAAAACACAAAATAGGCTTGTCTGGCTCTCTGCACTGACAACCACCCCTACTCCACCCTGCTTCAGACACAA
S
GAGGAAGGGAACCTGGGCAGCTGTGACGGGGCCAGGTCCTACTGGGCACAGCCACCCTGGGCATCTCACTGGCAGGGGATCTGGCATGGGGTGGGCAAGG
Celera SNP ID:            hCV1948568
SNP Position Genomic:     192475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31291):
CCCAAAGGGGGATGAAAATTGCAAATAACGAGGATGGCAACTGCACACAGCTGGAAGGGACTATACAGAGCTGAGGGTGGAAGCTGCAAACAGCTGAGAA
R
GTGCTTATGAACAGCTGGGGCTGTGACTGCACACTCCTGAGGATAAGGCCTGCAAATAAGTGGGAAGTGAGTGCAAATAGCTGGAATGTTGAACTGCAAA
Celera SNP ID:            hCV1948569
SNP Position Genomic:     190435
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31292):
TTGGTGTTAATTCTTCTTTATATGTTTGGTAGAATTCTCTAGTGAAATCATCTAGGCCTAGATATTTCTTTTTTGGGAGTTTTAAAATTACTAATTCAAT
Y
TCCTTAATAGTTATAGGGCTATTCAAGTGATCTGTTTCATATTGGGAAACTTACGGTAGTTTGTGCTTTTCAAGTTTGTGCCCATTTCATTTAATGTGTG
Celera SNP ID:            hCV8020431
SNP Position Genomic:     136014
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31293):
CTCATAATATGAGTTTGGAAATGTTTGTTCTTCTTTTCTGGAAGAGATTAGAGTAGAATTGGTGTTAATTCTTCTTTATATGTTTGGTAGAATTCTCTAG
Y
GAAATCATCTAGGCCTAGATATTTCTTTTTTGGGAGTTTTAAAATTACTAATTCAATCTCCTTAATAGTTATAGGGCTATTCAAGTGATCTGTTTCATAT
Celera SNP ID:            hCV8020432
SNP Position Genomic:     135956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31294):
AGAGCAAGGAAACAGAGGCCCTGCTCTGTCCTGCTCCCTGCCCTGGGATCTCTGGCTGGCATTACCACCAGGCTCCCTTGCTCTCTAGCAGTCCACAGAG
R
TCAGCTTCTTGGGGCACAGAACAGGGCAGAGAGGTTTAAAGAATGGACCTGGAAGGGCAGGGGAAGAATCACTGGCATTGGATCAGTTTCACCCACAGTC
Celera SNP ID:            hCV9957227
SNP Position Genomic:     328115
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31295):
TAAAATCTCCCTGCTGGAAGAGCTCTTAGAGGTTACCAGCTGTCCAATCTCACTCAGTACAGGAACCTTCTCTAAATCACTCCCTGCAAGATGGCAACAC
R
CCAGCTCAGCTCACCCTCTGCCTAAACATGCCTGATGTGGGGAGGCCACCAACCCGTTCAACAGATGGGCACCTACTATCATTTTTGCACAGATGCTTTC
Celera SNP ID:            hCV3138290
SNP Position Genomic:     447817
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31296):
ACCTTCTCTAAATCACTCCCTGCAAGATGGCAACACGCCAGCTCAGCTCACCCTCTGCCTAAACATGCCTGATGTGGGGAGGCCACCAACCCGTTCAACA
R
ATGGGCACCTACTATCATTTTTGCACAGATGCTTTCTTCTAATAGTCTATTAGGTGTCTCTGAAAATGTTTTTCTTGTATTGCATCCTGGAGGAGCATCA
Celera SNP ID:            hCV3138291
SNP Position Genomic:     447881
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31297):
CCGCTCTCCACCCAACTCCATGTCCTAGGTAGGAGGGAAAGGACGTATATTTCCTAAGCTGTATAGACTGAGAACAGTTTTCTCATTTGCAGACATGTTT
R
TATGTCAGGAGTAGAGCATGCACGTGGGCACATGCACCCACAAGCCTTTTCACATCAAGGATTTTGACCCCCGTGAAGCCTTCCCAACCAGTGAGGCATA
Celera SNP ID:            hCV3138292
SNP Position Genomic:     452520
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31298):
ACTCCATGTCCTAGGTAGGAGGGAAAGGACGTATATTTCCTAAGCTGTATAGACTGAGAACAGTTTTCTCATTTGCAGACATGTTTGTATGTCAGGAGTA
K
AGCATGCACGTGGGCACATGCACCCACAAGCCTTTTCACATCAAGGATTTTGACCCCCGTGAAGCCTTCCCAACCAGTGAGGCATAGTTCCCATTCTTCC
Celera SNP ID:            hCV3138293
SNP Position Genomic:     452534
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31299):
TGGATGGGCACTAGGTGGGCCTGTAGGAGGGGTATATGACCTTTGCCCAGGGGGAGTCCCCATCTGGAGGAGTAGATGGGTGCTTTTACTAATCCAATGG
Y
GGTGCTCACTCTTAGAGACGCCTTAGGAAGGCTTCATCCATTCAGCAGGGGAGGACAAAAGGAACAGGGGCGGGGTCATTTATAGATGACCCACTACATC
Celera SNP ID:            hCV3138294
SNP Position Genomic:     457576
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31300):
ATTCATTCATTCATTCATTCATTCATTCAGTAAATATTTATTTTACAGACAATCCAGGCTAAGCCTTGGAAATTCATAGATTCATCCAGCATGACCCTAG
Y
CCTCAAGTTACTGACAGTTTAGGTGGGGGACACAGGACAGGCAGCAAGCAATCAAGGTGCAATATGGGAGGTGCTCAGATACAGGAAGGAACAGGGAGGG
Celera SNP ID:            hCV3138295
SNP Position Genomic:     461372
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31301):
AGAAGTGGGTAACAAGCAAGATGGTTCTCGGTGGGTGCCACCTGTTACCCACCAGGGCCTGGGATGAATTCCACAATGTCACATGGTAAGAGTGAATCGG
S
GCTTTATTAGGGGAAGGGAAAGCTGACTAAGGGTCAGCAGGACGAGGTGCCACAGGTCTCCCATTCTCCCTTATGTCCATGGAGGGGTGTGCTGGGGCCA
Celera SNP ID:            hCV1885360
SNP Position Genomic:     38989
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,10)      total(G,10|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31302):
ACCCTGTCTCAAAATAATAATAATAATAATAATAATAATAATAATAATAAGTTCGGTTGGAGCAGCCAATGGATCCAGTTTTCCATTTTGAGCCCTGACC
R
TCAACATGGATGATGAAGAGCTCATAGAACATGTATATATATGCATGTGTGTGTTCATTTGTGTAGCTATGTATTTATGGATATAGATGCTTTTTTAAAT
Celera SNP ID:            hCV3138296
SNP Position Genomic:     463171
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31303):
AATTTGCCTCTTCTCTGTCTATTTCTTCTTTCGGGGACCTCAATGAATTGGATGAGGCCCACCCACATTGGTGAGGGTTGATCTGTTTTATTTAGTCTCC
Y
GATTCCAATGCTAATATTTTCCTGAACACCTTCACAAACACATCCAGAAATAATGTTTTCCCAGCTATCTGGGCATCCTTTAGCCCAGTCAAGTTGACAC
Celera SNP ID:            hCV1885361
SNP Position Genomic:     38679
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31304):
GAAAACTGATGGTGTAATTCAGTCTGAGTCTGAAGGCCTGAGGAAAGGGATGTGGGATAGTGGGGGTGAACCCTGGTGTAAGTCCCAGAGTGTGAAAGCC
Y
TAAAATTAGGAGCTCTGATATCTTATGGCAGGGGAATATCCCAGCTCAAGGAGAGAGAATTTGCCTCTTCTCTGTCTATTTCTTCTTTCGGGGACCTCAA
Celera SNP ID:            hCV1885362
SNP Position Genomic:     38521
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31305):
CGAGATAACTTGCTCAGTTGATAGCTTCCCTCTGCCATCTTCCTTGCATCTGATAACTCACTGTGCCTCTGATAGTTGTTACCAGTGCTAAACTCCAGGA
S
TGTGGGTTGTGGGGTAAGGAGGTGTTGTTCAACATAAGGCCATGCTGACGACATTGGGTTGGGGGTCTCTCCTGTGTCCAGGTTTATGATGGCAACAACA
Celera SNP ID:            hCV3138299
SNP Position Genomic:     470949
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,34)   caucasian(C,17|G,9)   total(C,21|G,43)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31306):
GATTTCACCATGTTGGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACCATA
Y
CCAGCCTGCCCGAGTTTTATATTCACACTCCCTACCCTTGGGCATGCTCTCTTTGACTAAGTAGCAAGATGTACTATGGGAAAGGAACACAAGGGATGGG
Celera SNP ID:            hCV1885364
SNP Position Genomic:     37481
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31307):
GCATCACAGCACACAAATGCTCCCTCCTATTTCTGCCTGTTTGGCTGCCAGAGCTGCTCAGTATTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCT
Y
ACTCTGTCACCCAGGCTGGAGTGTAGTGGTGCAATCTCTGCCTCCCCGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTATTGGCAC
Celera SNP ID:            hCV1885365
SNP Position Genomic:     37236
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31308):
ATGGCATTGTTTCTATTTTTCTTACTGATTTATAAGAACTCTTTGCATATAAAAGACACTGGCTCTTTAATCTGTAGTAGCATGGCAAATCTTTTTTGCA
R
TTTGGACCTGTGTTTACACTCTGTGGTATCTTTATTTTATTTTTTGCATAGAGAGATTCTACATATTTATGCACTTAAATTTGTCAGTGTTTTGGCTTCT
Celera SNP ID:            hCV1885366
SNP Position Genomic:     36626
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31309):
GCTTGCACCTACTGTGCCACATTGCAATCAGGGGCTGCATGTCCGTGCCTTGGTCCCAGAACAGAGGAGGAAAGGAGCCCTGGAGTCCATGCTGACAGAG
R
TCTGTTTACCTTCATGCCCAGTGCCCTGAGTTACGCTCCAGGTGTCCCATTTGGAGAAGAGAAGCTAGTCAGGAGCCCTGTCTGAGAGACTGTGGCAGCT
Celera SNP ID:            hCV1948572
SNP Position Genomic:     184946
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31310):
AAGGCTGTCTTCTACTGGGGGATAAAGGTCTGTGCATTCATTGGCTACTTGATGAACTTAGCCCCTCTGGGCAGAGGGGTTCCAATGCCTGGCTAAGCCC
Y
CATCCCTGCTGTGCCATCGGCCATGGCTAGTATCTTCTACCTGCAACCTGGAGCCAGCAGACCCTGCAGCCCCTCCTGCAAGCCTTACACACACACACGA
Celera SNP ID:            hCV1948573
SNP Position Genomic:     184713
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31311):
GGCCAGGCTGGTCTCGAATGCCGGACCTCAGGTGATCTGCCAGCCTCAGCCTCCCAAAGTCTTTTTTAAATCACTCTTATTGATATGTAATTAATATACA
R
TAAAATACACCATTTTGGAGTGTACAGTTTGGTGCGTTTTCACAAGTTCATGCATCCATCTAGCTACCACCACAATCAAGACATAAACATCTCCATCGCC
Celera SNP ID:            hCV1948576
SNP Position Genomic:     181776
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31312):
CCCCAAAAGCAGGCCTGAGACAAGGGTTCAAGCACAAGTGTTCTATTAGGAAGCACAGGTGACACTAGCAGATAAGAGGGACATAATACAGGGAAGAGAC
W
GTAGCTAATAAAGGGTGGTCATACCAGCTACCACAATGGGGGTCTGGGCCATAATCCCACAGGGACACTCTAGGAAACCCAGGTCTGCAGAACCCAGATC
Celera SNP ID:            hCV11182884
SNP Position Genomic:     277105
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,4)      total(A,4|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31313):
CTGATTCTCCTCTTCATAGCCTCTCCCCAGGGTGTGGAAGAGACAGCCCCAGAGCAGCAAAGAGTGTGAGGAGATAGGCCTATCAGAACCGGGCTTTCCA
Y
GTGCAGAAAGTGTGGGGTGAGGGGAGAGTAATGTGTTTCGTGCAACACTCTCATCACCTTAAATGGGGTGAATCCTCATTAATTCCAATTAAATAACTGT
Celera SNP ID:            hCV1948577
SNP Position Genomic:     181251
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31314):
AGAATGTAAGGTACGAAGAGATCAAGTGACTTGGCAGAGCTGAAGTTTGGATCAAGATAGGTCTGATAGAAGAGCCCATTGTTTTTCCCAAGTCCCTTGA
R
TTTGGGGTGACTGATTCTCCTCTTCATAGCCTCTCCCCAGGGTGTGGAAGAGACAGCCCCAGAGCAGCAAAGAGTGTGAGGAGATAGGCCTATCAGAACC
Celera SNP ID:            hCV1948578
SNP Position Genomic:     181140
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31315):
AGGTACCCAGCTCTGCCACTATACCTCGAAAGTAACCATAGAAAATACCTAAACCAATGAGTGTGGCTATGTTCCAATAAAACCTTATTTTTAAAAAATA
R
GCTGCAAGCTGGGGGTCGTAAATCTGCCAACTCCTCGTCTACAGATGTGAGTTCAGTATTTTCAAACATCTTGATTGCAGTCTGCAATAAGAAATACATT
Celera SNP ID:            hCV11182889
SNP Position Genomic:     310442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31316):
TTTGTCACAGTTCTTGCTAAGCAGAAGCAGCCATGTCCCTCCTCTTGGGGCTGGCTTACTGAGCATCTTGTGATCATTTTAGTCATCTCCTGTGGAGAGC
K
CCCGATTCCCCCCAATGGCCACCGCATCGGAACACTGTCTGTCTACGGGGCAACAGCCATCTTCTCCTGCAATTCCGGATACACACTGGTGGGCTCCAGG
Celera SNP ID:            hCV27521400
SNP Position Genomic:     602175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:31317):
GATCCCCATGTTTTAGATAAGGTCACTAAGTCTCAGAGGGTTTCTGTAGTTTTCCTGAGCTCACACAGCTGATCCCTCCAGAGCTCAAGTTTCTTCACTA
M
TAGGCCACATTGCCCCCTTTGAGGAGTTATCTTAAGGAAACCACACACTTCTATAACTGAATTATAATTTGAATAAAATGTTGTGGCATCACAGAGGAAG
Celera SNP ID:            hCV9957236
SNP Position Genomic:     324006
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31318):
TTAAATAAGAAAATAAATTGTTAATTTTTCTCTACCCTTCATTGTCCCCTGGAAGAGTAAATGGAGAATATATTTCAACTAGGTGGATTGTTAGGAAATG
R
GACAATGGTTTAAAATGCATCAGCTCTGGAGTCAGACCTGATTCTCCTTGGTTAACTCCTTGATAGAAACTGATGTCAGATTAGGGCCGGGCATCACACA
Celera SNP ID:            hCV16193212
SNP Position Genomic:     27346
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,37|G,1432)   total(G,1432|A,37) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31319):
GAGATCATCGAGGCCCAGAAAGAATGAATGACCTTCCTTGAGATCTGACAATTACCCAGTAATGTGGGATTGGAACATGTTCCGTCTAATGTCAGTCTTT
K
CTCTTTCCCATCTGCCATTCAGGCTGTGGTCTGATTCCATCTAACAAAATATGCAATGATTACCTGCTCTGTGCCAGAGACTGTGTGATGCTGTGCAGTC
Celera SNP ID:            hCV16190670
SNP Position Genomic:     485713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31320):
TCAACAGTTTCTTCTGAATTACTTCAGAAATTTTCAAAACATGTAAGAAAATGTAAATGGAACACAAATTATATTTCACAAAAATGGGATCATTGTAGAT
M
TATCATATACATTACTCTGTAACATGCTTTTTTCTCTTAGAAATGTCTCTTATACCTCTTTCTGGGTAGGTGTACATAGATTTATCTCATTCCTCTTAGT
Celera SNP ID:            hCV1885373
SNP Position Genomic:     35494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31321):
TCTCTCCTGCTTGCTCCTTCTCTTCCCTTTAAGTTTAATTAGTTATAACTACTTTTTAATTACTATAGAAGTAATACATGCTCAGGGCAAAAATTCGAAT
K
GCATAGAAGAGCATATGGTGAAAAAAGCCCTTCTCCCCACTGCAGAGCCCAGTCCCACTTATCAACAGTTTCTTCTGAATTACTTCAGAAATTTTCAAAA
Celera SNP ID:            hCV1885374
SNP Position Genomic:     35332
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,7)   total(G,7|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31322):
CAATGAAATGAGATGGCTGAATGAAACAAATGATGGAATGGACAGCAAGTAGATTCATGGGATGAGTAGACATATAGACAGATGAATGTACAAGAGGAAA
S
ACCCATGGTTGGTAGATGGAAGGATGATTGAATAATAGATGGATCGGAGTTTTCATAATTTATTGTTTAAGCAAACTCATTTGGGGATTGGCTGGACAAA
Celera SNP ID:            hCV1885375
SNP Position Genomic:     34499
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31323):
TCTCTAAAAAAGAGGAAAAAAAAAAAAACCCAAAACACCCAGTTAAGTTTGATTTTCACATAAATAACAAACACTATTTTACCATAAATATGTCCCATAC
R
ATATTCTATTATAAGTATGACCCATGCAATATTTACTTACACTAAAACATTATTCATTTTTATCCAAAATCAGATTTAGCTGGGATTGTATATTTTATCT
Celera SNP ID:            hCV1948580
SNP Position Genomic:     180819
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31324):
GTTTGATTGATGAGTGGGTAAAGTGGAAGAATAGATGGGCTAGATGGGATCAATGGATGGAATGGATGAGTGAATGGAAAGATGAGTGGAAGGGTGAATG
Y
ATGGATGGCAGGATTGGCTTGATAGAGATTATAGCAATGAAATGAGATGGCTGAATGAAACAAATGATGGAATGGACAGCAAGTAGATTCATGGGATGAG
Celera SNP ID:            hCV1885376
SNP Position Genomic:     34364
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31325):
ATGCATGGATGACTAGGATGGAAGGATGTGTTTGATTGATGAGTGGGTAAAGTGGAAGAATAGATGGGCTAGATGGGATCAATGGATGGAATGGATGAGT
R
AATGGAAAGATGAGTGGAAGGGTGAATGCATGGATGGCAGGATTGGCTTGATAGAGATTATAGCAATGAAATGAGATGGCTGAATGAAACAAATGATGGA
Celera SNP ID:            hCV1885377
SNP Position Genomic:     34335
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31326):
GAATCATCTACTTGGCAGCCTCTGATGGTGACAGTGTCGTAGTCCTGCAGCTGAGGGCTTAACTTGGGTGAGTCCAACTTTGGTAAAGCCAAAGACCCCA
Y
GTGCATATACAACTGGGACTTGTCATTTTGTGAGAAGCGAAGACAGCAGAGTCGTCCAAGTGTGGACTTCGTTGGAGTCTTGCTGGATCCACTTGTGGAT
Celera SNP ID:            hCV27529833
SNP Position Genomic:     175904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31327):
TTTGGGAGGCTGAGGCAGGAGGATTGCTTGAGGCCAGGAGTTCCATGCCAGCTGGGAAAACATAGCAAGACCCTGTCTCTACAAAAAATGAAAAATATCA
R
CCAGACATGGTGGGGAGTGCCTGTAGTCCTAGCTACTTGGGAGGATCGCTTAAGCCCAGGAGTTCTAGGCTGCAGTGATCTAAGATTATGCCTCTGTACT
Celera SNP ID:            hCV1948582
SNP Position Genomic:     180590
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31328):
CCAATTGGAAGTACAGGACACAGCCATGGGAGGTGGCTGATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTGCTTGAGGCCAGGAGTT
Y
CATGCCAGCTGGGAAAACATAGCAAGACCCTGTCTCTACAAAAAATGAAAAATATCAACCAGACATGGTGGGGAGTGCCTGTAGTCCTAGCTACTTGGGA
Celera SNP ID:            hCV1948583
SNP Position Genomic:     180532
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31329):
GTTGGGGTTTCAACAGAGGTCTGAAGGAAGTCTTGAGGAGGGCAATGACTTCTACCTGAGAGATGTAGACACCCATAGGGAGGCAATAACATTTGAGTGA
R
GTCCTGGGTACCTACAAATAAGAGGTAGCCAGGCAGAGAAGGGGAGGAAAGAATGTCCCAGGTAGAGAAAACAGTATTGCTTAGGCCGCATAGGCTATCA
Celera SNP ID:            hCV11182892
SNP Position Genomic:     331353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31330):
GGTAAACTAAAAGGTTTCAGTGTTCTCTGGAACCCTAAAGATTCAAGGACTGTGTATCAGGAGCCACCTGGAATCAGGTTGCCAGATGTTCCAATTGGAA
R
TACAGGACACAGCCATGGGAGGTGGCTGATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTGCTTGAGGCCAGGAGTTCCATGCCAGCT
Celera SNP ID:            hCV1948584
SNP Position Genomic:     180442
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31331):
ACATTTACTAAAATTCTCTCTTGAAGGACATTAATGCTATTTCCTTTTCTTCTTCTTTTTTTTGAGTATAAACAAGGCTATGATGAATATCTTGGAGTGT
R
TGTCCAGTTATCCTCATCATATTTTAAAGAACTGGGGAAAAGCCTTAGAGAGGTTCAAGGATTTGCCCAGGGCCAAGAATCTAGTTTCTGGTTAGGCATG
Celera SNP ID:            hCV1948585
SNP Position Genomic:     171418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31332):
AAGCCTTAGAGAGGTTCAAGGATTTGCCCAGGGCCAAGAATCTAGTTTCTGGTTAGGCATGGCAGCTTATGTATCTGTAATCCTAGCACTTTGAATGACT
R
TGGCAAGAGGATCACTTGGGCCCAGGAGTTTGAGACCAGACTGGGCAATATAATGAGACCCTGTCTACCAAAAAAAAAAATTAGCTGGGTGAGGTGGTGC
Celera SNP ID:            hCV1948586
SNP Position Genomic:     171558
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31333):
AAAGCCTCTTCTTCAATGTCCTTATTAAGGACAGAATCCGGGAGCCTGGGCTGTTTATGCAACCCAGATATTTAGACTTCCTAAGTTGAGGATCAACTCT
Y
TGGGGGCATCCACACATCAACTACAAATAATTAAGTATCTAACAGGTAGCCAGAGCCAGCTTCATAGATATCTGACCTATGCAGTCATACAGGGCCCTGC
Celera SNP ID:            hCV1948587
SNP Position Genomic:     172291
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31334):
AAGAAGGCATTCCTTAGATTGCCACTACATTTTTCTCCCATCACTAGTCACATTACTGAAGCAAAGGAGCCCAGTTCCAGTAAATATGCAGACAGATCCT
Y
GCATTTCATCCTAGCTAACTGTGGTGGGAAGATGGCCTCCTTCTTTCTCCCCTCCAACTCTCTCTTTCTCTCTTTTCTTTCTTCTGTTTTATTAGCTGCA
Celera SNP ID:            hCV1948588
SNP Position Genomic:     173411
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31335):
CTTTTAGTTGGCTGCTTGTCCCTACCTTGTCAATTGTATTTCCCACAAAGTGACCTCAGCGAGGGGTGCATCAGCACCAGGGTGTGCACATCAGTAAAGA
Y
AGTTGGAGTCACACCTGGGAATAATATCCATCAGGTGCATATCAACAGAAAAATCTAGATGAACCACTGCTCCCGGTTACTGAATATGAACACAACTGGA
Celera SNP ID:            hCV1948589
SNP Position Genomic:     175302
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31336):
TTCATTTTGTGTTCAGTTCACACTGTTGAATTTAAAAGATGCTCAGGACTGAACCGTCTCCCTTCCTCGGCTCAGTGATCACTGGATAAATGAATAAAAT
R
GTTTGAAAAAGGGGAGTCTCCTCACCCACCCATACCTTCTCCCCTCAACCCCTTTAGTCCTTGTCCTGCCTTGCACTCCCCCTCCCCCTCCCCACCCCAG
Celera SNP ID:            hCV3104224
SNP Position Genomic:     8930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31337):
AAACCCTGGTTCCTTTTAGTGGAAACTGATATTTAAAATTTGGGCACTAGGGGTACTTTTTATTATTGACTTCGTTCCTGTTTCTAAGCCTTTTCAATGA
R
CACAGCTAGGAAACAGTTTTTAAAAGAAAATTCGTCATGGGTTTATTTCATTTCCAATGTAAAAACACTTTTTCTTTTTTACTTAACTTCTTTAATATCA
Celera SNP ID:            hCV27828552
SNP Position Genomic:     440830
SNP Source:               Applera
Population(Allele,Count): african american(A,24)   caucasian(A,37|G,1)   total(A,61|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:31338):
CTTCCGAGTAGCTGGGATTACAGGCGACCGTCACCACGCCCGGTTAATTTTTGTATTTTTAGGAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTC
R
AGCTCCTGACTTCAGGTGATCCGCCTGCCTCTGCCTCCCAAAGTGCTGGGCTTACAGATGTGAGCCACCGCGCCCAGCCCAGTACATTTCTTTTTAAGCC
Celera SNP ID:            hCV3104225
SNP Position Genomic:     8622
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31339):
GCACAGTCACTGTTGTCATCTTGATGGGGGTATCTCTCAGCTCCCCAACATCCCGACTGCATGAGAAGCTTCTTAAGAAGAAATGCTTCCCACAAAATCT
K
CTCTGAGCTCTTCTTCATGAAGGGAATGGCTCAGAGCTTTCTGCAGAGGAGCTCAAAGCCACTTTTCTATAATCAACTACATGCATTACAGGGAGTGATT
Celera SNP ID:            hCV9957244
SNP Position Genomic:     320796
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31340):
ACAGGCTTTTCAGGGACTCCCTATATCTAGGGAACCACAGTGGGAGTGGCCCTCACTTGCGAGCACAGTGCCTTTTACAAAATATGTGCTTGGTGATTGC
R
TGAATGAATGTTCTCCTGAAGATGTCAGTTTTCAGGGATGCTAAGATTTAAACTAAGATCTCCTAACACTCCTCCCCCTCGACTTACAATTAGGCAGCAA
Celera SNP ID:            hCV9957245
SNP Position Genomic:     320589
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31341):
AACTCTCTACCTTGCCATCAGTTCTGACCACCCACCCACCTGTGACTCCCTGCGTTGGGTAGAAGGTGGTGCCTTCCTGAGCACATTGCGGCTTCTCCCT
Y
GCCATAGTGGCCCTCCCAGAGTAGAGTAAGGATTACTCCCCATTCCTGTCCCTCAGTAGCCAACAGGAAAGCAATGCTGTAAACACAAGCAGCTGGTTTT
Celera SNP ID:            hCV25964940
SNP Position Genomic:     348197
SNP Source:               Applera
Population(Allele,Count): african american(C,22)   caucasian(C,39|T,1)   total(C,61|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:31342):
GAGGGAGAGATAGAGGAAAGGAAATATTTAGTTAGGTTTATAGGATCAGTGATATTTTCCCAAGTAGCCAGGTGGGGCAACAGGAAAAGGGCATTACAGG
Y
AGAGGGAATAGCATGTGCAAAGGTCTGGAGACACGAAAGTACTAGTCGCATTCCAGGATGTACAAGCCATTCTGTGTAGCTGGATCTCAAAGTGTGTGTC
Celera SNP ID:            hCV9957246
SNP Position Genomic:     319235
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31343):
GACAAGAGTAGGATGAACATGTTCTCTCCTAACACTGCATGGTGAATCTGGACCTGAGCTGGTTGGCACCGCCTGCAGCTGGAGGTAACTGGGACAGGCA
R
GACCTGTCCCACCCAATCAAGAGGAATGGTAGGAGCCCCACCCACCTTGGACTCAGCTGTAGCTACCAGACAGCCTTGGAGGTTTCTCAAAGCTGTTATC
Celera SNP ID:            hCV16193222
SNP Position Genomic:     27082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31344):
GAAAACTGATATTCCAATCAAATCAGTATTATTTATCCTGTGGTTTCAAGAACCTCCTTGCCCTAGAGTGCCCTGAGCACAGGCTATGAGGGATGACATA
S
CTGGGGACTGGGACCGGGCCCCGCTGTCAGCTCTGGGCTGTGGAGGCAGCCAGGGTTGTTCCAGCTCTTGAGATTCCTTTCTCTGGACTAACTCTTGCAC
Celera SNP ID:            hCV16190680
SNP Position Genomic:     512302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31345):
CAGTAATTATTCCACTCTATTCCAACATTTACTGTTACAGACAAATTGGGGTCCAACGTGATTCTTTGTCCTTGTAAGTAACCTGTGCTTTTCTGTCTAT
R
TGATTTTCTTTTTTTGTTGTTGTTAATTAAAAAGCCCACTGGGAGGTGTTGTGGTGGAGGTCTCTTCTCACTAATTCTACCTTGCACTTGGCAAATATTT
Celera SNP ID:            hCV16190681
SNP Position Genomic:     542858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31346):
GGTTGGGCCAGGTTGGGCCAGGCTGGAACAGGCTATACACTGGGCCAGGAGCGCTGGTGTCATGGCTAGGGCTTCACCCCAGGCTAGAGTTCAAAGGCAG
R
AGGGTGAAGGAGGGAAGGGAGCATAGTTAGCTGGGCCCAGAATGGACACTGGAGGTTACAGGGTAGTTTTGAGCCTGATGTGTTTACTCTTACTGGTAGC
Celera SNP ID:            hCV1885381
SNP Position Genomic:     33719
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31347):
CAAACCCTTAAAACCTTGATCTGGGACCTGCTTAACCATAGTATGTGGAGGGACCCCCCAGAAGGATCATAAAAGGGACTTCACTTTCTTTTAAATAAAT
W
GAAAGCTTGTTTAGCCAGCACCTGACATAGACTTACCACTTAGTAAATACTACAACTTATGATTCACATGATTGTGTTTTCTTGGTTAGAGAATCAGTTC
Celera SNP ID:            hCV1885382
SNP Position Genomic:     33140
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31348):
CTGAGCCACGGTCTGCTCCCACCCTTTCCCACCCACACTGCTCCTCCCCCGGAGTTGTCCCAGCTCTGCCCTCATGAGCTGCATGGACTGAGACCACTGT
Y
TTCCACACAGCACCCTTCACCTACTGCAAGATGGCCAGGCACGCTGCAAAGGCCTTAGAAAATCACAGTTTTTGTTCTGGCTCCACAGCAGACATCCTGT
Celera SNP ID:            hCV15907071
SNP Position Genomic:     651094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31349):
TTTGCATATGCCGATTCCTCTGTCTGGAGTATTATCTTCCCCTTTCACTGCATTAACCATGGCTCAAGTTTCACTTCCTCAGAGAAGGCCCCCTGCCCCC
R
CAGTCTAAATCATTCTCATAGAATTGTGTGTCTTGCCCTTGGATAACTTATCTCAGTTGATCATGATACATTGATCAAAGCCATTAATTTATTATTATCA
Celera SNP ID:            hCV1885383
SNP Position Genomic:     31088
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31350):
GGTAAAGGATGGAGCTGGGACTGTTGTTACCACATAACAGCATCCACATGCGGTTTCTTAATCATGTTTTTACAGCTGTTTCCACACAGCACACAGTGTC
R
CAGCCCTAGATAGAGTCCAGCAGTGGCACAAATCACAAACCATTTCAATAATAATAGCACTGATAATATCATCTTCATGTATGGAGTCCCTACCATGAGC
Celera SNP ID:            hCV1885385
SNP Position Genomic:     28343
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31351):
CAGCAGGTAAAGGATGGAGCTGGGACTGTTGTTACCACATAACAGCATCCACATGCGGTTTCTTAATCATGTTTTTACAGCTGTTTCCACACAGCACACA
R
TGTCGCAGCCCTAGATAGAGTCCAGCAGTGGCACAAATCACAAACCATTTCAATAATAATAGCACTGATAATATCATCTTCATGTATGGAGTCCCTACCA
Celera SNP ID:            hCV1885386
SNP Position Genomic:     28338
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31352):
GGTTCTAGGGTGAAGGGCATTTTAACTAAGAACTAACTAAATTCCTTTTTTTTAAGATGAATATTTATGGAATATCTACCATGTGCTGGGTACTGAGTTG
R
GCTCTGGAAATATAATGAAAAACAAAAATAAGTACAATCCTTCCTTTCATGGATCTTAAAGGAGAGAGTAGGAGACAGACATTAATCAAGGAGCCCCTAA
Celera SNP ID:            hCV1948590
SNP Position Genomic:     176624
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31353):
CCTCATTATTGCGGGCTTCGTGCTCTATCTCTACAAGCACAGGTACCGTGCAGGAAGGAGGCAGGGCGGGCATCAGGCAGGCCTCCCTCTCTCCCTCCAG
S
GCCCCCCGCACCAGACCCCTAAGCCTCTCTGTGTCGCTCTTTTCATGCCGTGGGCACTTCCTCTTTTATCGCCAGGAGAAGACCCAAAGTTCCTTTCAAT
Celera SNP ID:            hCV15907075
SNP Position Genomic:     651941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31354):
GTCAAGTGGTTGTCAGATCAAACTGAACATGCTGGAGACTGCTTTCGGGAGCAGCAAAGATGCAATTTTCCTTTTGTTTTCTGTTGCTGCACCAAATTAC
R
GCAGATTTTTCAGAGTGAAGGATTGCTGAGAGACTGGGCAAGGGGCCGGTGGAGGTTTTTGATGCAGAGCAATGAGATAGTTGCTCTGTGTCTGCCTGTG
Celera SNP ID:            hCV1885387
SNP Position Genomic:     22895
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31355):
TAGGTGGAATTAAGATGCTATTTGACCAGGCCATAGGAATACTTGGACCCTACCTCAGGCCATCTCGTTCTAAAAAGCCCCCTAGGGAGATTTCATATAT
Y
CTCAATTGCAAGATGTACTCCCTCCCCTCCTACACCCTAACCAATAGTTTAACCTTTTGGAAATCAAAACAAATCTTACTATCAACAAATGCAGTTTATG
Celera SNP ID:            hCV1948591
SNP Position Genomic:     166494
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31356):
CATTCATTCATTTATTCAGCCATTCCTGGGGTTTCATTCATTCCTTGGGTTTGAGGAAGTAAAGTAGGGACTAGTAAATAAATGCTCGGGGAGGGCAAAG
S
TTTCATGACCAGATGAGTGTGGGAAACACTAGACCCTTGGCTTCTGAGGTGTGGTTCAAGGCCTTGCCAGGAAGCTTTTTAGAAATGGAGCCTCTTGGAC
Celera SNP ID:            hCV1885388
SNP Position Genomic:     22282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,7)      total(G,5|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31357):
GAGGTAATTGCTGAGGAAGAAGGAGAGCGAGTGAGGATTGGCAAGTCCAGAGCCAGATGGGGAACACTCTCAGAACAACATCAAGCTCCTACATGTAGGA
G
AGAGTTGGAAATAATAGATTAGGTGGAATTAAGATGCTATTTGACCAGGCCATAGGAATACTTGGACCCTACCTCAGGCCATCTCGTTCTAAAAAGCCCC
Celera SNP ID:            hCV1948592
SNP Position Genomic:     166374
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,12)   total(G,12|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31358):
GAAGAAAAATGTAGATTTCCAGGTCTTCCTCTGATTTTCTGAATCAGAGGATCTGAGAGCAGGGTGCAGGGATCTGCGTCTTTAATGAGTTCTTCCTGCT
Y
ACCTTCTGATGACCCTGGTCTTAACCCCACTCAGGAATGACTAGAAGAAGGGCTCAGGTCCTGGGTGTCTTTGAGCAAAGGCTCTGCCTCCACAAGTCAG
Celera SNP ID:            hCV1885389
SNP Position Genomic:     21304
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31359):
CATGTCAGCATGAAGAGCCACTGATGGAAAGTGGTGGGGGATTCTACAGCTGCTGAGCCATCCATGCCCATTGTCTTCAGGGGTAATTGTCGAATGACCC
M
CAGGTCAGGGCTCAGCCCAGCCCAGAAAGGATTGAGAAGAGGTAATTGCTGAGGAAGAAGGAGAGCGAGTGAGGATTGGCAAGTCCAGAGCCAGATGGGG
Celera SNP ID:            hCV1948593
SNP Position Genomic:     166235
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|A,7)      total(A,7|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31360):
ATGGGTTTCCCATGTCAGCATGAAGAGCCACTGATGGAAAGTGGTGGGGGATTCTACAGCTGCTGAGCCATCCATGCCCATTGTCTTCAGGGGTAATTGT
Y
GAATGACCCACAGGTCAGGGCTCAGCCCAGCCCAGAAAGGATTGAGAAGAGGTAATTGCTGAGGAAGAAGGAGAGCGAGTGAGGATTGGCAAGTCCAGAG
Celera SNP ID:            hCV1948594
SNP Position Genomic:     166225
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,8)   total(C,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31361):
CCAGTTCCTGAACTTCTCCACCGAGCCCAACCACGACTACATAGAAATCCGGAATGGCCCCTATGAGACCAGCCGCATGATGGGAAGATTCAGTGGAAGC
R
AGCTTCCAAGCTCCCTCCTCTCCACGTCCCACGAGACCACCGTGTATTTCCACAGCGACCACTCCCAGAATCGGCCAGGATTCAAGCTGGAGTATCAGGG
Celera SNP ID:            hCV25994894
SNP Position Genomic:     560569
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,22)   total(A,1|G,55)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:31362):
AGCACATGACCCGTCATTGCCCAGGAAGTAGGTCTTTCACTCTCCCTCTGCCTCTTGGCCAAGGCAGAGAGGGTCTCCCTAGCTGAATGTGCTTGGGTTT
R
GGAGCTCTTCCTATTACTCTGGGAAGATTTCTCTCTCTCGTATCTAATTAGCTTTCTTATTGAGAGGTCACTTTCTTTAAATGGGAACTCTGTTCATGGG
Celera SNP ID:            hCV1948595
SNP Position Genomic:     166029
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31363):
AGATAAACAGGACCAAGTCTTTTGGTGACTTGTAGGAGCTCACAAGTAAGACAGACAAACCTGTCAACCAGCAATTGCAAAACAATGAAGTGTTTGATAA
R
CCCTAGAATAATTTCTTTCTGAGGCTCTGGAAACCCAGGCTACTCACCTATCTTTATCTGTTATTTATACTCTAGAGAAGTTCCTCTGGAAACAGTGTGG
Celera SNP ID:            hCV1948597
SNP Position Genomic:     164643
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31364):
ATGAGAAGGCAGAGAGCATGAACTTCCTGAGCCTAGTACCCAAGAATGAACTGTGGCTCATTTGCTTATTCATCCCACCTTGCATTGTGCTAGTTATTAG
R
TGGAAAAAAAATGAAGATAAACAGGACCAAGTCTTTTGGTGACTTGTAGGAGCTCACAAGTAAGACAGACAAACCTGTCAACCAGCAATTGCAAAACAAT
Celera SNP ID:            hCV1948598
SNP Position Genomic:     164528
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31365):
TGTTTTTCAATATCCACCATTCAGACTTTCCTCAACAGCAGAGGATGTGGCAGTGGCAAAGACAAGGGGATGGGGGGAGACGAAAGGGAAAGGGGCCTGC
M
TGAAAGACCATGTCTGTCTTCCTGCTGGTGCCAGTTCCCTGAACCTCATCTTGTTGTTCAGCCCCTTACTGCAGCCTGCCCAGGGCTCCACTCCATGGCT
Celera SNP ID:            hCV25753507
SNP Position Genomic:     594165
SNP Source:               Applera
Population(Allele,Count): african american(A,34|C,2)   caucasian(A,40)   total(A,74|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:31366):
AGAGAATTGACAGCAAATTTCAGAATTCTGATTTGGTTTTGCGCACTCCATAAAGCATAATTATTTGTTGGTTTAAGTGAGATCTCCAGGCTTTTTCAAA
K
AGTCAAACAATTTATACTCAAACTGCATTTTGACAGCCAGCCTTGGATATGCTCATCTTTTTTCAAGACCACATGTCTTGCTTTTACAGATTGTGTTACA
Celera SNP ID:            hCV1948599
SNP Position Genomic:     163194
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31367):
CACTAAAACATTATTCATTTTTATCCAAAATCAGATTTAGCTGGGATTGTATATTTTATCTGGCAACCCTAATCTGGAGGAGACAGGAAAGGGTAGGAGG
Y
AACTGGGTGAGCTCAGTAGGCTCACCCCTGGCCTCAACCTAAGGCTGGCACTGTTTAAATGTCTTAGATTTTTAGATTTAAGAATGTAAGGTACGAAGAG
Celera SNP ID:            hCV11859198
SNP Position Genomic:     180959
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31368):
TGCCAGCCTCAGCCTCCCAAAGTCTTTTTTAAATCACTCTTATTGATATGTAATTAATATACAATAAAATACACCATTTTGGAGTGTACAGTTTGGTGCG
T
TTTCACAAGTTCATGCATCCATCTAGCTACCACCACAATCAAGACATAAACATCTCCATCGCCCCCAAAAGTTTCTTTGTGCCGGTTCTTAGTCATTCTC
Celera SNP ID:            hCV11859199
SNP Position Genomic:     181813
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31369):
AATAAATATTTTGGGCTTTGCAAGTCATCGTCTTGCACAACTCCTTAACTCTGTCATTGCAATGTGGAAGCAGCCACAGACAATTTGTAAATGAATGAAT
R
GGCATGGTTGCAATCTGGTAAAACCATATTTACAAAGACAGGCAGCAAGCTATAGTTTGCCAACCCCTGTTCTATGAAATGTATTTGTTCTGTGTGCCAG
Celera SNP ID:            hCV9957256
SNP Position Genomic:     318876
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31370):
AACCAACTACATCATCTGTGAGGCTTCTATGGTAGGAATTAGCAAACTTTTTTTTCTGTAAGAAGCCAGAAAATAAATATTTTGGGCTTTGCAAGTCATC
R
TCTTGCACAACTCCTTAACTCTGTCATTGCAATGTGGAAGCAGCCACAGACAATTTGTAAATGAATGAATAGGCATGGTTGCAATCTGGTAAAACCATAT
Celera SNP ID:            hCV9957257
SNP Position Genomic:     318805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31371):
AAGGCCAAACCCAAAGTCAAGGAGTGGGGGAATGTACTCCACCTCTGTAATGGAGGGAGCTAAAAAATCACATTGCAAATGGTGAGAATACAATGAGTAG
Y
GACAATTTGGGCCCATATTCTGATCTACCATACCCTGTCAGGGCTGACTCAGAATTGAGGTAGAGAAAAAGCTGTGGAGAAGCAGAGGTGGGCTGCAAGG
Celera SNP ID:            hCV27523969
SNP Position Genomic:     345493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31372):
CCTGGATTTAAACCTAGTCTAATTCTAGAGCCCATAGGCTTAACCACTGTACAGGTTTCCCAGTTAAAAATGTAGATTCTGGCCAGGTGCAGTGGCTCAC
R
TCTGTAATCCCAGCACTCTGAGAGACTAAGGTGGGAGACTTGCTTGAGGCCAGTAGTTCAAGACCAACCTGGGCAGCATAGTAATACCCTGTCTCTACAA
Celera SNP ID:            hCV1885392
SNP Position Genomic:     20915
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31373):
GCTCCTTTGGTCATCCCTCTTTCCTGGCCTCACAGAACTCCCCCTGAGGATCCCTGGCAGGCTTTATAATGTGAGTCCTTTCAGGCTGGGATTTTTTGTT
Y
TGTTTTTTTTGTTTGCTTGTTTTTTGAGACAGAGTCTCACTCTGTCACCCACGCTGGAGTGCAATGGCATGAGCTCATCTCCCTGCAGCCTCCACCTCCT
Celera SNP ID:            hCV16022132
SNP Position Genomic:     593109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31374):
TGTCATTTTGCAGTTGAGGAAACTGAGGTTTAAGGAAATTAAATTACTTGCTAAGACCACACAAGTAGGGAGGGGGAGAGCCTGGATTTAAACCTAGTCT
R
ATTCTAGAGCCCATAGGCTTAACCACTGTACAGGTTTCCCAGTTAAAAATGTAGATTCTGGCCAGGTGCAGTGGCTCACGTCTGTAATCCCAGCACTCTG
Celera SNP ID:            hCV1885393
SNP Position Genomic:     20835
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31375):
CTCCTGCTTCAGCCTCCTGAGTAGCTGGGGCTATAGGCACATGCCACCACCCTTGGCTATTTTTTTTTCTAAACTTTTTTGTAGAAATGGGGGTCTTGCT
M
TGTTGCCCGGGCTAGTCTTGCACTCCTGACCTCAAGTAATCTTCCCCCTTCAGCCTCCCAAAGGGCCAGGATTACAAGCGTGAGCTGCAGTCCCTGGTTG
Celera SNP ID:            hCV1885394
SNP Position Genomic:     20549
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,7)      total(A,7|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31376):
CTGTCATCAAGGTGGCTTTTTAAGGCCTTTAGCTGCTCCCGTCTGCCTAGGAGCATTGGGACTGGCTCATGGAACACTCACTGAGTACCTAGTGCAGTGG
Y
CCTGGGTTGGGGGTCATGGACACAAATACCTTTTAAAACCAAGTTCCTTCCCCCAGGGACAGTTATAAGCTACTAAAGGCCAAAGGAGCTCCAAGCACAG
Celera SNP ID:            hCV1885395
SNP Position Genomic:     20009
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31377):
GTCCTGCTACTTCCCAAGAAACCAGGATTCCCTCTCATTGTAAGTCATCCTCCTCCCCATCCTCAGCCTTGCCATCTGTGAGAGCCTCTTCCTGACCTTT
S
ACCTTGCTGCCTCCACCCTCACCCCAGCCAGGACCCTCCCCTCCGTGGCCTTTTCTTTAACCAGGCTTCAACCCCATACCTCTGTCATCAAGGTGGCTTT
Celera SNP ID:            hCV1885396
SNP Position Genomic:     19827
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31378):
GCAGGTTCATCTGCATGGGCTCCTGGTTGAGTGAGAGTGGGTTGTTCCAGGTCTGGAAGAAGGTTTGCTCACCAAAGAAGGGCATTGAGGAGGCTGGAGG
R
TTTGGAGAAGGGGGATGGCTGGCTGGCTTGGCCGGCAGCCACAGGTCTCTGAAAAAACACAATGAGGGTAGGGTGCTACTGGCAAAGGCAGGCCTTGGTG
Celera SNP ID:            hCV1885398
SNP Position Genomic:     18808
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31379):
CTGGTCACCCAGTGATAGTATTAGGAAGTGGGGTCTTGGGAAGTTGTTAGGTCATGGAATGGGATTAATGCTCTTATAGAGAAAAGAAAATACCTTAGAA
Y
GCTCCCTTTCCCTTGTGCCATGTGAAGACACAGCAAGAAGGCACCATGTCCAAGCCTGAACAGACGGAGACACACATCTTGATCTCCTGGGGCTTACAGT
Celera SNP ID:            hCV15907088
SNP Position Genomic:     626148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31380):
CTAACTGCGGGGTCTTCAGCGTGTCTAAAATCGATCTCAAAGATAAGTGGGTGGGGGAGCGATGATTCAGGTATCCAGCTGGGGAGATTCAATTTCCCAT
M
CCCTCCCCCAGCCTTAGCTAGCGCCTTTGAGGAATCCTCCCTGCTGGAATTTATCTACCAACCCTGGGAAAGAGCAGAGCAGTGGTAAATATCTGATTAG
Celera SNP ID:            hCV8020618
SNP Position Genomic:     133155
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31381):
TCCACCTACTTCTCTTTCATCCACAGTAGACATCTTTTGTTTTGTCTGCCTAGGACTCCTCACTTCTTTTGAGCACATTCCTTCTTTTGGAGAATTGTCC
S
CAAACTAGTCATGGGGTTCTAGTGGAGGCTACCTCCTTGGCCCCAGGAATGGGTACATTCCCCAGCTAAACTAATCAGAGGCCTCTGATGGGCTTTTTCT
Celera SNP ID:            hCV9957266
SNP Position Genomic:     313966
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31382):
AAAAACCTACTCCTTTATAGCATGGGAGAGTGGCCCTGATTATTCAGTCCACCTACTTCTCTTTCATCCACAGTAGACATCTTTTGTTTTGTCTGCCTAG
S
ACTCCTCACTTCTTTTGAGCACATTCCTTCTTTTGGAGAATTGTCCCCAAACTAGTCATGGGGTTCTAGTGGAGGCTACCTCCTTGGCCCCAGGAATGGG
Celera SNP ID:            hCV9957267
SNP Position Genomic:     313919
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31383):
TGCCCTCTATCCTATCTATCATCATTTATCTCATTACCCACGTTTATTTTCTAGTGAGTACTTTACCCTATCAAAAACTGATTCGATATATGTATTTGTG
K
TGTTTGTTTGTTTGTTTGTTAAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGTGCAATCTGGGCTCGCTGCAACCTCCACCTCCTGGGTT
Celera SNP ID:            hCV11859352
SNP Position Genomic:     302971
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3|-,7)   total(G,3|-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31384):
CAAGGTGGCTGGCCTACCTAAGCCATCCCCTTCCTCCCTGTGAGCCAATGATCTCTCATAAATTGAGCATTCTGGACTGGCCAGGGAAGCCCCTCCAGGG
R
ACAAGCTGTAGTTGTGTGGCAGGATTTGGGGGCCTATAAGATATCAGGTGCCATCAAGGAAGTCTGGGCTAGTAGGGGGTCTCGCAAAGGAACGGATTAC
Celera SNP ID:            hCV11859356
SNP Position Genomic:     309026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31385):
TATCTGATTAGAGAAAATGCCTAGCAAGCTGCAATTCCATATATTGTAAGTGATAAAACTGTAATTGTTTGTTGACAGTGTACATTAGCTATTCACAGCT
Y
GCATCAATATAGTACCGAGAAACTAGGGTCTAGGAATCTTTAATGGCAGTGCAAAAATATACTGGAACTAAGTTGGGGAATAAAATCAACAATTTCTGCT
Celera SNP ID:            hCV27461714
SNP Position Genomic:     133345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31386):
ATGCCTGAGTTCTGCTACTTGATAGCTGTGTGACCTCAAGCAAGTCGCCTAACCTCTCTGTGTCTCCATCTTCTCACCTGCAAGCCACAGGTTATAAAGG
S
TTGCTGTAATAGATGAGTAAATACATGCGAGGGACTTAGAACAGTGCCTGGCGTTCAGTAAATACTCAGGGCAGCATCTGTGTCCCAAGTGGTACGTAAG
Celera SNP ID:            hCV9957411
SNP Position Genomic:     295159
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31387):
TTCCAGATCCCCTTTCCAGCCTTCTCCAACCTCTCTTCAACCTTCTCTGGCCTGGGAAGCTGGTCTGTATGAGCCACATCAGAGGATCCCATACCCTCTG
R
TTTCCATCTCACTTTGGTCAATGGGGCCCTCCACAGGAGATCAGAGATGGAGGAAAGTTAAGTCAAGGCATTTATTCTCCTGGATCCCCACCCCAGGGTC
Celera SNP ID:            hCV11859357
SNP Position Genomic:     309744
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31388):
AAGTTCATACAGTTAGTAGTGGGAACAGCATTCAAAGCCAGTTCTTTCTTCATCTAAAACCAATGCTCATGATTATAGTGGTGGTGGTTAGAGCAGGAAT
R
GGGGAGAGACACCAATGCTTGCTATCAGCCACCCAATATTGTAAGACAAAATCTCCTACCCTCATCAGGACTGGCATTTTTGGGAAGGCAAAGTCTAAGG
Celera SNP ID:            hCV9957412
SNP Position Genomic:     292087
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31389):
CAGTACAGGCATTGCCCCCTTTCTTTATCTCCTCCTGCCTAGGGTGGTAAAACTCTACTTTTATGAGCCTCTGAGGTCTCTGCTACTTTCCCACACTCTG
C
CCTCACCAATCATTTTAATTTGAGTGGCCATCTGTTTCCTGCGGGGACCCTGACCAAAGTACCATGGTTTTAGCCTTTCACCATGTAGGCATCAGTTTAA
Celera SNP ID:            hCV11859358
SNP Position Genomic:     310024
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,6)   total(C,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31390):
CCTACAGAACAGTTTTTATATACTTAATAATTACTTATTTAGTAGCTGTTATTCTCATTTTACTTTTCTTCAACATTTGTGGGAACCCCAAGGAGGGAAG
R
CTGACTGTCTCAGAGGATCAGGAAAGGATTCACAGAGGAGGGTTGCAGGAAAATGAATAGGAGTTTGTCCACTAGACAGAAAGACAATAAATGCCCTGAC
Celera SNP ID:            hCV9957413
SNP Position Genomic:     290472
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31391):
CAGGACAGATCTAGAACAAGACCAACTCTGGGTTGATAACTCACACAGTGATCTATGGATACTCCTCACAGGTCTTTAAAAACCTACTCCTTTATAGCAT
R
GGAGAGTGGCCCTGATTATTCAGTCCACCTACTTCTCTTTCATCCACAGTAGACATCTTTTGTTTTGTCTGCCTAGGACTCCTCACTTCTTTTGAGCACA
Celera SNP ID:            hCV9957274
SNP Position Genomic:     313842
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31392):
AACTGAAATAAAGAACATTCTACCAAATACCTGATCAGTACCCTTCAATAATGTCAAGATTTTAAAAAACCAGGGCAAGGCTAAGAAACTGATGCAGATT
K
GAAGAAACCAAGAAGACAGGACAAATGCAATGAGAGATGCTAGACTGAATCCTGTGACAGACAAAAAGTGGGCCACTGGTGGAAATCTGGGGAAATCTGA
Celera SNP ID:            hCV9957275
SNP Position Genomic:     311502
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31393):
TGGACTTAGCCACCCACTACTAATGAATAGAACATGGAAAGGGACAAATAGTAACTTTACAGCGGGGAAATCTGGCAGACACCACTTTAACCAAGTGATC
R
AAGTAAGCATCATCAATAACAGGTCATGTTGAGATCACAGAACCCCTTTCTGTGTTGCCATAATAACAGCATCTCACCGCCATGATATTCTTCCCAAAAA
Celera SNP ID:            hCV9957276
SNP Position Genomic:     311267
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31394):
TGGAGTCCAAAAAGACAAGGTCCGATGTCCCAGAGCTTAGCCCTGAAGCCACTAGGCCCTGTTGAATCATCTACTTGGCAGCCTCTGATGGTGACAGTGT
M
GTAGTCCTGCAGCTGAGGGCTTAACTTGGGTGAGTCCAACTTTGGTAAAGCCAAAGACCCCACGTGCATATACAACTGGGACTTGTCATTTTGTGAGAAG
Celera SNP ID:            hCV16212617
SNP Position Genomic:     175841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31395):
GGCTGAACCTTCACATCCATCATCTCATATAATTTCATCCTCACCATATCTCAATGAGGTGGTATCATTTGTCCCATTTTACAGATGAAGAAACAAAATC
A
GAGAGATTTTCTAACTCATCCAGACTTAAGCGACCAGCAAATGGATTTAGATCCAGAAGGCTAAGTTCATAAATTTTAAAACCTGACCTCGCTTTAACCA
Celera SNP ID:            hCV11859500
SNP Position Genomic:     359066
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31396):
CATCCTCCAGCTGTTGGGCAGCTCACTCATTCTTCTGGACATCAGAGCTGCTGATCTCTGGCAGGGACCACTAGCTGCCTCCTAACAGGGGAAGGGACAT
M
CATGATGCTCAAACTCAGAGTGGCAGTTAAGTGGCAGGCACACACTGATGTGGGCAGCTCCTCAAGAAGCCATTTACAACAGTCCCTCTGGGTGAGAAAT
Celera SNP ID:            hCV11859364
SNP Position Genomic:     315092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31397):
ACAGCTGGTTGCTGGCAGATTCAAAATTGGAAGCCCAGGTCTTTTTTACTCCGCAGCCTAAGACATATACCAATATATCACCTACTGAGAGGAAAATGGC
M
CCTGTTTTTGGGTAGCTAAATGTCCATTCTATGGAAGAAAGTTTAAATAACTGGGAGAAACTGAACCAATGGGTAGTTGCAGGAGTCAAACCTTGACTCA
Celera SNP ID:            hCV9957420
SNP Position Genomic:     288529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(T,7|G,2) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31398):
ATGGGGTATGTGGTGGGCACTCAATAACTGCACTGAATTAAATCGGATTGAATTGAACCAAATTGAATTCACAGGCAGATATTCTCCAGCAGTGGCTGGG
W
CTTAAGTTCATTGTTGTCTTAATCATCTTGTGGTAGATTGCATTGCCTCCTCCATAAGCCAGGCTAAGCACTTAGGTTTTTGAGAATAGTGTATCTTAAG
Celera SNP ID:            hCV9957421
SNP Position Genomic:     286335
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,9)      total(A,9|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3;INTRON;hmCS


Context             (SEQ ID NO:31399):
TGAGCCCAGAAAGTTAACCTAGCCTGCCCAAGATGGCTCAGCTAGGAAGTAATAGAGCCAAGACTTTGTCTCCCAAGCCCATGCTCTTAACCACTCACCA
R
TCCCAATTTCTTTCATATATATTAGGCCTGAGAATACCTATTAGACTAAACTGGTGGTATCTTTCTCCATACACATATTTTGTAAGAAATATGGGCACAG
Celera SNP ID:            hCV9957422
SNP Position Genomic:     285914
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31400):
GCGGTGCCACCCTCTATGGCAGGAAGCAGGTTCCTTCTCCAAGTCATGTCTGCCAGTGACAGGTGGAAAGTGGGCAAGGCTGGGAAAGCAGGAGCCAGTG
S
AGGCCAGGCTGGGGTTCCCCAGAGAAAGAGGGAAGTTGATGGCCAGGTGTACTGGCTGGTCTGGGTACCACAGAGTGCCCTGTCCTTCTACCCCTGCACT
Celera SNP ID:            hCV11859368
SNP Position Genomic:     315331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   (G,-|C,-)   Caucasian(C,16|G,66)   African-American(C,2|G,72)   total(G,138|C,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31401):
CGGCATCGGACTGAATTGTTTTTCTGGCTAGATTTGTCCCTGCCCCTTGGGCATATCCTGCCCCTAGGGGAGAGAAAAAGGCCGACTCACCGGCGCTTGC
M
CCGCTCAGCGGTGCTGGAATCCTGCCCTATAGAGATCCATTTGCTCGCAGCTCCTTGCTCAGTAGAGAAGTTGCGGGGAGGGGGCCTTGTGTTCATGGCT
Celera SNP ID:            hCV27851993
SNP Position Genomic:     8226
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,38)   total(A,73|C,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31402):
GTATGGATTACATTTCAAGAATGAAGGAAACTGAGAGCACTTATATCTGAGGATCTCTATTTTCTCAATGAAGCAGAAAATGCGGGCGTCTCCTGAGAGG
S
AAGAGAAGCAGAGCCAAGTTGGAATAGCAGCTGTGGGGAATGCGGAACGGGAATTTTGCCAGCATGCCTACAAAGTTGTCAAGTGGAATAAGGCTGCTTC
Celera SNP ID:            hCV27851994
SNP Position Genomic:     305192
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31403):
TCCGAGGCTCACACAAGGCTGAGTTGTGAGAGGGGAGCAGTCGTCTGGGCCATTTGATGGGAGCTGAGCTAGTTATTTAAGTCTGAACAGAACATGACCC
R
CCTCTGATTATCTCACCTGGAAGTGGGTTCAAGGTACTAATGACTGGACTTCTTAAGAGGGTCTACATGTTGGTCTTTCTTTGACAGGTGACATCGTACG
Celera SNP ID:            hCV27851995
SNP Position Genomic:     585002
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,10|G,26)   total(A,14|G,54)
SNP Type:                 INTRON


Context             (SEQ ID NO:31404):
TTTCAGCAATGCTGGTGCTCACCCGCTCCAGGAAGGCTGGAGCTCCTCACCTCCTGATTGCTTTAGTAAATGGAGTGTCCTCCAGGTCTTCCTGAGAACT
R
TGGTCAACTTTTACACAGCAGACCTAGCCCAGCATGCCACTTCTCCCAGCCTTTCCCTTCACAGTTTGCATGGCAGTTCTGGTGACTCTACTTTGTTTAA
Celera SNP ID:            hCV27851996
SNP Position Genomic:     589720
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:31405):
CCTCAGACTGTGTCTCGTGACTTGACTTTTCTGCTTTGGGACTTTACAGACCTCAGGCTGCTGGAGTCAGACCCCGAGTCCATTGGCCGCCACTTTGCTT
Y
CAACAGCAGCTCAGTGGCAGCCGCGATCCTGGTGCCTTTCATCGCCCTCATTATTGCGGGCTTCGTGCTCTATCTCTACAAGCACAGGTACCGTGCAGGA
Celera SNP ID:            hCV8922016
SNP Position Genomic:     651795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:31406):
TTCCTCGAACCAGCGCCACGCAGTGCAGCTCTGTGCCGGAACCCCGCTATGGCAAGAGGCTGGGCAGTGACTTCTCGGTGGGGGCCATCGTCCGCTTCGA
W
TGCAACTCCGGCTATGCCCTGCAGGGGTCGCCAGAGATCGAGTGCCTCCCTGTGCCTGGGGCCTTGGCCCAATGGAATGTCTCAGCGCCCACGTGTGTGG
Celera SNP ID:            hCV25972065
SNP Position Genomic:     546543
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,40)   total(A,77|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:31407):
CATGCAGGACCCTGCCCCCAAGGACTGAGTGTGCACGTGGAGGCAGGCGGGCAGCCCTGGGCACACCTGCCTCCCGTGCTGAGCAGGAGTGAGGAGCACC
M
TGAGTGGCAGCCCTGCTTCCCAAGAGTGTATAGTCGGGGAGGGTAGCCAACGGAGCCTCAGACTGTGTCTCGTGACTTGACTTTTCTGCTTTGGGACTTT
Celera SNP ID:            hCV8922017
SNP Position Genomic:     651639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31408):
TCTGAGCAGCACAAGGTAGATGCATGCAGGACCCTGCCCCCAAGGACTGAGTGTGCACGTGGAGGCAGGCGGGCAGCCCTGGGCACACCTGCCTCCCGTG
M
TGAGCAGGAGTGAGGAGCACCCTGAGTGGCAGCCCTGCTTCCCAAGAGTGTATAGTCGGGGAGGGTAGCCAACGGAGCCTCAGACTGTGTCTCGTGACTT
Celera SNP ID:            hCV8922018
SNP Position Genomic:     651617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31409):
ATGTATTTTGTTTTACATATTTTAAGACACCATTTGAGGTGGTGTCACGAGGCTCCAAGGAGGGCATGGCACGACAAAGATGGAGGACTTCAGGTCATGG
R
GGTCCAGGGATAGGCTTTTTTGGCCTGCTAATCCCCTGAAATGAATGAAAACGGCAGAAGGTTAGCTTCCTATGTATGTGATTCTAGAAAAAGTATTTCT
Celera SNP ID:            hCV922078
SNP Position Genomic:     65738
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,13)      total(G,4|A,13) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31410):
GTTATGGGAGCACACAGGAAGGTCAGGAGTCTAGCCAGCGCCTATCAGGGATGACTTCCTGAAGGAGGCAATGTTAAACTGAGACCTGGAGGTCTAGGGG
R
CAGTTAGTGTAGAAAAGACTGAGAAGAGTCAATCGCAAGTTTTTCACCTGGTAAAGCTATTATTGTTAATGGCCTGGGAGGCTGCTGCTCTGGGTGGACA
Celera SNP ID:            hCV922079
SNP Position Genomic:     27931
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,13)      total(G,13|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31411):
TTATGATTATTTCTTTAGGAGCAATTCCCAGAATGAATATTTTTTAAGATACTTGATTCTTATTGCCAAATTGTTTTCTAAAAGCATTTGATCATTTTAC
R
CTGCCACAGTATGTGAATGTCCGAGGAAACAGACCTTTTAAAATTAAGGATTATAAAATATGTCATAGAAGAAAGAGAACGGACTTTGGAGTCAAAGAGA
Celera SNP ID:            hCV9957430
SNP Position Genomic:     284595
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31412):
TCAGTATATATATATATGTCAGCCTCATTTTTTTTAACAATTTCCCTAATAATTGCATTTTTCACTATTTCAAATAATGTTATAGTTAACATCATCATGA
R
TATACCTCAGTGCACATTGGAGCATTAATAGGATAGCTTTCTTTAAAATAGAATTTCTGGGTCAAAGTATACATTATTTTTAAATTTAGACTCTGCTAAA
Celera SNP ID:            hCV9957431
SNP Position Genomic:     282162
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31413):
AATTACAGGGCCTCCTCTGATGGTGCTTTGGGTGTCTTCCATTTCCTATTAACCGTAGCTTTCAAACTTTGTTTTGCTCATCCCACCCCACTGTAAAAAA
M
AAAATCACAACCCAGTATAAGCATATATCTGTAGAGCTAAAAGGAAAATATGACCAAGTGGTATTTACTGTGTACAATGTAGTCTGAAAATGTCATTTTT
Celera SNP ID:            hCV11859377
SNP Position Genomic:     326638
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31414):
ATACGTTTTCCATAATGGTTACATTAACTTAAATTCCCACTAACAATGTGCAAGAGTTTCCTTTTCTCCACCTCCTTACCAACACTTGTTATCTTTAATC
W
TATTTATAATAGTCCTTCTAACAGGTAGGAGGTGATATCTCATTGTGGGTTTCACTTGCATTTCCCTGATGGTTAGTGATGCTGAGCATTTTTCATATAC
Celera SNP ID:            hCV9956635
SNP Position Genomic:     641267
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31415):
GCCCCAAATTTATAGGACTAGAAAACTGAGTTTCATTAACATAAAAAGTAACATGTTCAAGGTTGAACAGCCACTCACAGGTGAGAGTGTGGATTTTGAC
R
GCTGATTGCTTGACCTAAGCCTGTGCTTCATCCTGCCTGCACAGAGCTGTTGCCAGGGCACTGAGGGTCCAGATATGTGGTCTCAGCAGCTGAGCCGGAC
Celera SNP ID:            hCV9957292
SNP Position Genomic:     308680
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:31416):
TTTGTGTGTGTGTGTGTGGAGAGGGGGGTGTATTAATGGGTGATGTTATAAATGAAAACAGGAGGACTGAACTTAAAAGAAACTGGTCAATTGCAAAACA
R
ACACGGATAAACAACCCTTTAGATGTAATTTGTGGTTTATCTGGAGGTGGAGGTGGCGCTGAAGAGGAACCCCCGCCCCCCAATATTTTATCCTTAGCTG
Celera SNP ID:            hCV922080
SNP Position Genomic:     5778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:31417):
CTTATATTTTGTTGTGCCTGTAAGGTTTCATCTGATAAAAGGCTGCTACAGCCAAAAGAACTTTAGAGACTTCTAAAGGGCTGCACCCTTGTAAGAGTTT
S
TGTTGAGCCATGGTTTCAGGCTCCTCTGCGGATGGTCCTCTGGGTGCCATCTGAGCAGCACAAGGTAGATGCATGCAGGACCCTGCCCCCAAGGACTGAG
Celera SNP ID:            hCV8922021
SNP Position Genomic:     651467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31418):
GACACTGCTAGGTACTTGCCTGTGTGGCACTGGGTTTAATATCACTTAATGGTTGATGATAGCCCCAAATTTATAGGACTAGAAAACTGAGTTTCATTAA
Y
ATAAAAAGTAACATGTTCAAGGTTGAACAGCCACTCACAGGTGAGAGTGTGGATTTTGACGGCTGATTGCTTGACCTAAGCCTGTGCTTCATCCTGCCTG
Celera SNP ID:            hCV9957293
SNP Position Genomic:     308619
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31419):
TTGACAAAGTTTCCTGTTCAGACCTGGAGAGGAGAGCCCCCAACTCCAGGGACATTGGCTCTTAGATACAGCCCCCAGCCACACCCTCCAGCCAGCCCTG
K
GTGTCACCCCTGCCTCAACAAACAACGACACTGTGGAGTGTCTTAGAGCTCTCAGGGTGCCTTGACTGTGATGTCGTTTCTGCCCTAGCCCAGCCCTAGA
Celera SNP ID:            hCV8922022
SNP Position Genomic:     650542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31420):
CTTGGCCACCTGCACCACCGACCAGTTCGGGTTCTCCCTCTTCAGCTGAGCATAGTGGTCTTGGCAGAAGAGTAGGAAGGATGATGGAGGCCGTCTGGGT
K
CCTGGGGATCCCGCTTTCTCCGTTTCTTCCTCTTGCCAACATAATTCATCATTTCTTCCTGGTATCGGGCTTTGTCGAGTTTGGCCAGGGCTTCATATTT
Celera SNP ID:            hCV9957294
SNP Position Genomic:     307261
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,15|T,5)   total(G,48|T,6)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,5)      total(C,5|A,2) ;no_pop(A,-|C,-)   ;(C,-|A,-)   POOLE|_CEPH(A,35|C,153)   total(C,153|A,35)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:31421):
CATCACAGGTCTCGTCAGAGTCCTCCGGAGCCACCTTCATCTACCAAGGCTCTGTCAAGGGCCAAGGCTTTGGGCAGTTCGGCTTTCAAAGACTGGGTAA
M
TAGTGCTTGTCCCCCGGAAGTGTGGGCCCGGGTGGGTGGGAGAGAAACCGTGTGTGCCGTGGTCAGGTAGAGGACTGGGGAAGTTGAACAGTCTGAGGCG
Celera SNP ID:            hCV8922023
SNP Position Genomic:     650236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31422):
AGAACAAACCCTGTGTGTCAGAGCAGCAGGTCAGTGGGTGACCTGCTGGGCAGCGTGTATGATGAGAGAGGAGTTCTAGATCCTTCCAGCAGCCTCCCAC
S
TGCTCTCTGTGCTCCCCACCATCACAGGTCTCGTCAGAGTCCTCCGGAGCCACCTTCATCTACCAAGGCTCTGTCAAGGGCCAAGGCTTTGGGCAGTTCG
Celera SNP ID:            hCV8922027
SNP Position Genomic:     650116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31423):
CCCACCCTTGCCTAGGTGTGGGCAGAGAACAAACCCTGTGTGTCAGAGCAGCAGGTCAGTGGGTGACCTGCTGGGCAGCGTGTATGATGAGAGAGGAGTT
M
TAGATCCTTCCAGCAGCCTCCCACCTGCTCTCTGTGCTCCCCACCATCACAGGTCTCGTCAGAGTCCTCCGGAGCCACCTTCATCTACCAAGGCTCTGTC
Celera SNP ID:            hCV8922028
SNP Position Genomic:     650091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31424):
ACATTTGAGTGTCACAACATTCCAGTGTGATTGTGGCAAGGATGGTCATCCCCACTGTATCCTTAGGAAGACTAAGGTTTACAGAGTTCCATGCAGCCTG
Y
CCTGAGTAAATGCAGAAGCCAGAACTCGGATCCAGGGTCTTCTGACTCTGAATCAGCCACCGTGTCCACAACAGAGTGTAATATTACAACTTTGTTCAGG
Celera SNP ID:            hCV8922029
SNP Position Genomic:     637489
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   no_pop(T,-|C,-)   (T,-|C,-)   Caucasian(C,35|T,47)   African-American(C,18|T,58)   Asians(C,24|T,58)   total(C,77|T,163)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31425):
ATTCGCTTATAAAACACCTGCTCTATGTTAAACTAGGTTAGGTAATAGACACGAAGACGTCGCAAATTCCTGAGTATTTTGAATTTTTAATATATCTCAG
Y
TATTTTTGAATTCTTCTCTGCCCACTTGCTACAAATATCTGACTTTTCTTCAAATATGGTTTCAGTCTAATGGATCCTTGGTTGTCTGCCATTGCAAGAG
Celera SNP ID:            hCV2950505
SNP Position Genomic:     512600
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31426):
GGGATCTGGGCAGGGGAATTAGGAAAGCAAGAGTTACCCACCAGGATCCAGGGTGTGCTACAGTACTGACAATGTCGACTTTTACTGCTTGTGTTCATTC
R
TTCATTCATTCATTCATTCATTCACGTATTCATTCCCCACATAGTTACTGAGCACCTGTTAGGGGCCAGCCACTGAGGGAGACCATATAATATGTTAATT
Celera SNP ID:            hCV16253147
SNP Position Genomic:     111481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31427):
GCATAGCAGGATGTTTAGCAGCGTGCTTGGCCTCTGCCCATTAGATGCTAGACACAGTGCAGTAGGAGGGAGCCACAGGGACCAGCAGCCATTAGCAGCG
C
CCCCCCACACACACACAGTCATGACAACCAAAAAAGTCTCCAGACATTGCCAGATGTCCCTATGTGCACAAGCACCTCCAGTTGACAACTACTACTCTGA
Celera SNP ID:            hCV11859381
SNP Position Genomic:     327435
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31428):
CATTGGATCAGTTTCACCCACAGTCAGCTTTGTGGCACTATAGTCTTAAGTGATTTATGGCACTTCAGAGCTAATGATTACCAACTTCTAATGGTATTGA
S
AGAGATTTTTTCCCAGATAAACAAAAAGAAGTAAACTTAAAATAAAAGATAACCTACAACATAGTACATTATATTCTGGTCTCAGTCCAATCAGAATTTA
Celera SNP ID:            hCV11859382
SNP Position Genomic:     328291
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,3)      total(G,3|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31429):
CTCTTTTTTTTATAGGTATGGCTTTGTTTTTAAAGAGCTGTGTTCATAGAGTATTGTGTGAGTGTGTGTGTATGTGTTTAAGTATATACCCACTTTTTAT
W
ATGAGTAATTTATACTCTTTGTGAAAAATTCAAAGCATACCTGAGAGTACAGAATAAAACGTTAAAGTCGTCTATGTGTTAAATCCCTACCCTAATTCCA
Celera SNP ID:            hCV9957440
SNP Position Genomic:     281779
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31430):
CATTGTAAACATAAAGCATGGTCATTAAAGAAAATTTAGAAAATTGAGAAAAACTGAATAAAGAAACTCTATGCATGAACATTTTGATTCATTTCTTTCT
Y
TTTTTTTTATAGGTATGGCTTTGTTTTTAAAGAGCTGTGTTCATAGAGTATTGTGTGAGTGTGTGTGTATGTGTTTAAGTATATACCCACTTTTTATTAT
Celera SNP ID:            hCV9957442
SNP Position Genomic:     281681
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31431):
CCATTCATTTAGAAATACACATGCAAGGTGAGCAACACAAACTCAGCCATGGCTCTTGGGGTGCTTTCATCTAGTCAGGGAGACCTTAATGAAAACTACT
Y
ACCCCAATAAACATCTAATTAGGAATTATGGTTAGTGCTAGTAAAGAAAAGAAAAGAAAAGGGATGTCAGTCAGGATAGGTCAGGTTATACTCTGTGTAC
Celera SNP ID:            hCV8020655
SNP Position Genomic:     130749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31432):
TGCTGCATAGCCACTGCCAGAAGGCATTGGCCACGAAGTGGGAGGCAGGCTTCTGGAACATGACGACCTCTCTTCCTCAAAGCTTCCTTCCCCATTTCCA
W
CCTTGCCAACCTCCTGACACGTGGTGCTGGATACTTCAGTCTCTGTCATGGAAGACCAAGTTGGCTCAGGGGTTTTCAGGCTTCTGTGGAAGTAAATGAA
Celera SNP ID:            hCV8020657
SNP Position Genomic:     123126
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,5)   total(A,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31433):
GTGAGCCAAGATCGCACCCCTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAATGCCTTTCTTTACTCCTGCAGCAAAGCCCTA
K
GCATGAGAATGCTGGGCCGAGGGCAGTCATGCCTCCCTTCTTGACATATGTTGTCAAACTGTCTTCTAGAAACTGTCCCAATTTACATTCCCCACAGCAG
Celera SNP ID:            hCV8922033
SNP Position Genomic:     632755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31434):
CTCCGCTCATCCCCAATGGGAAGGTGGTGGGGTCTGACTTCATGTGGGGCTCAAGTGTGACTTATGCCTGCCTGGAGGGGTACCAGCTCTCCCTGCCCGC
R
GTGTTCACCTGTGAGGGAAATGGGTCCTGGACCGGAGAGCTGCCTCAGTGTTTCCGTAAGTTGCTTACAAGGGCCTTTGGTGCATCCTCTTCAATAGCTC
Celera SNP ID:            hCV8922034
SNP Position Genomic:     631118
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:31435):
ATTTAATTATCACTGTAATATTGTATTTGAAGATACTGAGGCTCAGAAAGTAAGCAGCTGGGCCAAGGCTGTAGAGCAGGTAGGTAAAGAAGGCGGGATT
W
AACCTCAAGTCTACCTGACCCTAGGGCCCATCTTTTTGGAAAGCCCTTGTTACAGTGCTGGGCCCATTGTTACCATTCAATACATGTTAGATACTATTAC
Celera SNP ID:            hCV27868461
SNP Position Genomic:     12500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31436):
CTTAAAAAAAAAGAAATTTAGAATGGGTAATGTCCAACTGGGATCCTGTGAGGAGACAGGGCATCCCTGATCTGACAGTTTCCCTTCTTGGATGCATGCA
S
GGAGTGATAGGGATGGTATTGGAGGAGAAGTGGGGTCCTGGCCAGGAGTGAACAATGCTATATCTCTCTTATCCTAGTCATAAACTGTGGTGACCCTGGG
Celera SNP ID:            hCV8922035
SNP Position Genomic:     630311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31437):
GGACAGCGACACCTGGTTCTTAAGCAAATTCTAGATTGGAACAATTAGAAGATCTGACTGATGTTAAGAGTGGCCAGAGGAAAGTGAGAGGCGTCCATTT
Y
CAGCAGACACAATGGAGGCTGACAGAGGCAGGAGCCTACCCCTGGCCACACCACCTCTGGGACACGGCACCCCCCTGGGCCTGGAGGGAGAGGGCCAATC
Celera SNP ID:            hCV8690567
SNP Position Genomic:     656838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:31438):
ATACCAATTAAGTGCAATTATAATCCATAAACCTCAAAAAATTATGTGTCCATCTTCAAGGTTTTCAAATAGAAAACAGAATAAGTTCTATTATTAAGTA
S
GTACATCTATTTATTGATTGAAAGTAAGTGAGTGTGACGGATGTAACTGTAAAGGGAAAAAGCAGAGACTTTGAAATTTGAGATACAAGTATATTATGAG
Celera SNP ID:            hCV27868462
SNP Position Genomic:     14746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31439):
AGCCGGGGAGGATAGGGCAGGAGTCTGGCCAGGAGCCCAAGGTCAAGTCTGGCTGTCAACTGACAAAGAGAAGAGAAGACAAGTCTGTGGCCCAGACAGG
R
TGCCAAGTCTGGGGGCAGCAGCAGGGTCCTTGAGAGAACAGGGGAGCAAGCCTGCCCCAGTACCCAAAAAACAATGGCTATCATGTACTGGGGTTATTCT
Celera SNP ID:            hCV8690568
SNP Position Genomic:     655934
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:31440):
TTACTGTCTGTCTCCCCCACTAGACAACAAGCTGCATGAGGATGACTACAGGGACTCTGTACCCCCAGTGCCACACACAGCACTTGATAAATATTTATCA
R
TTGCATGAATGAAAGGCACAGGGTGGAGTGGAAGGGAGAGAATGAGTGGTAATTAATGTTTCTTGAGCTCCCCAGGGCCTGGAGTCTCATGTTCATAATC
Celera SNP ID:            hCV27868463
SNP Position Genomic:     41184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31441):
ATAACCACCTCGTGAGCAAGGCCTTAGGATCCCCATTTTACAGATAAGGAAGTTGAGGCCTAGAGAGGTGAGTTACCTTGCCTGAGGTGAACCAGGACCT
R
AAGGTCATGCACAATTTAAAAATCAGTCTGGTTCCAAAGCCCACACTCTCCACCGTGTTCCTGCTGAAAATAAGCCCTGCACAGTTCTCCAGGCCTGCCC
Celera SNP ID:            hCV27868464
SNP Position Genomic:     150522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31442):
AAGGAAGCTTTGCTGGCCCATTGCAGATGGGAACCCCAGGAAAACAAAATGCAGACAAGCCTGGAGAGGCAAATGTATCCCCTTTGTGCCCAGGCCCTGG
M
AGCTATGTTGAAGGAAGCTGTATGGGACTTGGTTATATTTCACTGGCTTTGTTTATGTGACTGTGTGTGTTTGAAGGATAATCTTTTATTCATTCAACAT
Celera SNP ID:            hCV27868465
SNP Position Genomic:     158318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31443):
CACAAGCAAAAGTCTGGGGCCTTGAGAGTTCCAGGGCATTAAATCACCATCAGAATAAGACTAGGGTCTTGAAGCTCATGATCTGGAGCACTTAGAGTGG
R
CAAGGAGCAATGACCCCACAGCTACTATGACACATGGTAGAGTGTGGGTGCTGCAGCCAGGATGCCTGAGTTCTGCTACTTGATAGCTGTGTGACCTCAA
Celera SNP ID:            hCV27868467
SNP Position Genomic:     294997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31444):
GCTAATCATAATAGTTAATACCAGATGCCTGCTAAGAGCCAGGCACAGTGCTAGGCACTTGGCAAGTACCATCTCCTTTAATCTTCATCATTATCCTGCA
R
AGGAAACACGGTCATCACCTCACTTTATGGACAAGGAAGCTAAGGCCCAGAGAGGTTAAGCCAATTTCCCAAGGCCATCTGAACTCCTGCCTTTTGAGTC
Celera SNP ID:            hCV27868468
SNP Position Genomic:     325183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31445):
GTGGAGAAGGCAGGACTGGGGACATTAGGGAGACACCCCCATGGGGAGGAGGACAAACAGAGGCTGGGGGCCATGAGGGAGGAGTCAGCTTGGGAAGGCT
Y
CCACGGGAGGCCACAAAGCCTCTGACCCGATGGCCTCTCCTCCCAGTGCCGTGTGGAGGCAACCTCACAGAGCGCAGGGGCACCATCCTGTCCCCTGGCT
Celera SNP ID:            hCV25998297
SNP Position Genomic:     547004
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,1)   caucasian(C,16)   total(C,37|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:31446):
TACGCGATGGGCGGACTTACTCAGCGCCCTTGATCGGGGTTTACCACGGGACCCAGGTTCCCCAGTTCCTCATCAGCACCAGCAACTACCTCTACCTCCT
Y
TTCTCTACCGACAAGAGTCACTCGGACATCGGCTTCCAGCTCCGCTATGAGAGTGAGTCTCAGTGGGCTCAGGAAAAGGGATGACAAGGTCAGCCCAGGT
Celera SNP ID:            hCV25926109
SNP Position Genomic:     446309
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:31447):
GGCAGGCAGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGC
R
GACGCCTTTACTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGTGCACCCGGGAGGCGGAGCTTGCAGTGAGCAACGATCGCTCCACTGCACTCC
Celera SNP ID:            hCV9957450
SNP Position Genomic:     281355
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31448):
GACCTGTTTGCTCTTGAGCCTGTCTGCATTTGGTCATTCACCTCCTACGAATGCACTCAAGTTGGTGCTGAGGGCCCAGGGATGCCCAGCCTCACTTTCT
R
CTTCAAAGTCACCCAACCAGACTCAGAGGGAAAGAGAAATTATTTTACTGAATTTGCTTACAGCAAAAAGTAAGCAGAACTTTAAAAGAATAGAGAGTAT
Celera SNP ID:            hCV9957452
SNP Position Genomic:     278859
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31449):
TGTGGTTCATTAATATACCTTAGGTTCTTCAAACAGAAAACTCCCTTTCCCTGGGTCCTAGCCTCATTTAGGAACTGAGCCCTCTGGATACTTCCTCTTA
S
AGGGGGCACTTTGAATAAGGTGAATCTTCATAGCCCAAGTTGCAGCGGTGCATAAGGACAGTGTGGGCAAGGACAGGACTGATGCCAGGGATTTGACAAA
Celera SNP ID:            hCV8922040
SNP Position Genomic:     629947
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31450):
GGGATATGTTTGATCTCCTGCCCTTCTAGCAGGCTGCAGCCAGTGAGCAAGAGGACTGCCTCAAAGTCCAGTATCAGCCACCCCAGCATCCTGGAAAAAG
S
CATGGCTGCCTGCTAGCTTGGCAATTAACCATTGAGATTTGGAAAATCAGGGCTATGAAACTTACTTTGTATAGCCACAGAATGGTAAGTTCTGTGGATT
Celera SNP ID:            hCV9957458
SNP Position Genomic:     277855
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31451):
GATGACATAGGCATGACCCTTTCATGGGCCATAAGACCCTGCTTCCAGGCTGTTGTCCCTAGGAGTCCTGTGTAGGTGCTGTTGGGCCTACAGAGGCCTC
S
TAGGTACAACAGCAGGTGATAAGATGTACCCCTCAGCAGACAAATCAATTGTCTCATGTGGTTCATTAATATACCTTAGGTTCTTCAAACAGAAAACTCC
Celera SNP ID:            hCV8922041
SNP Position Genomic:     629790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31452):
GGGATGCAGACACTGGGAGCTTGCAGTCAGCTGGCCCACTCTGAAAGATCGAGTATTACAGGAAGGACACTGGCACCACCTGCTACAGGTGTACGTGTAT
S
AAAAGGCAGTGTTACTGACAGAGCTGTAACACTGGGGGCCTAGGCAGCTCTGGAGTGAGACCCAGCTCACTAAAAGTGACCCTTGGAAGGACCACCTTCC
Celera SNP ID:            hCV9957459
SNP Position Genomic:     277477
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;JBIC-allele(C,109|G,1388)   total(G,1388|C,109)
SNP Type:                 INTRON


Context             (SEQ ID NO:31453):
GGGTGCTCCCTGAGGCCCTCTGGTCTTTCACTGCCCTCTTCACTCCTTCTATAGCTCTCTGTGGTGGCTTCATTCAAGGCTCCAGTGGGACCATCTTGTC
R
CCAGGGTTCCCTGACTTCTACCCCAACAACTTGAACTGCACCTGGATTATCGAAACATCTCATGGCAAGGGTGAGTGTTTCAGCCCATAGCAGGCATTGG
Celera SNP ID:            hCV25926118
SNP Position Genomic:     447443
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,34)   total(A,1|G,67)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:31454):
GCCAAAGAAGATACAAAAGTGAGATGTAGGCCCTGAGCATCTCTCTAGAAGGGAGAGGGGTGAAAGGCCAGCCCTAACATCTTATCAGGGGATGTGCAAG
S
TGAGAAAACTGGCCCCTGAACATCTGCCAGGAGTGAATCAGAAGTACCAAAATAAGGCCTGGGCCATGAACATTGAGGGGAGGGTCCCGCAAACAGAGGA
Celera SNP ID:            hCV9956660
SNP Position Genomic:     630700
SNP Source:               Applera
Population(Allele,Count): african american(G,20)   caucasian(C,2|G,26)   total(C,2|G,46)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31455):
CTACTCAGAAGGCTGAGGTGGGAGGATTGCATGAGCCCAGGAGTTCGAGGCTGCAGTGAGCCATGACTGTGCCTCTGCACTCCAGCCTGGGTGACAGAGT
R
AGACCCTGACTTAAAAAAAAAGAAATTTAGAATGGGTAATGTCCAACTGGGATCCTGTGAGGAGACAGGGCATCCCTGATCTGACAGTTTCCCTTCTTGG
Celera SNP ID:            hCV9956661
SNP Position Genomic:     630201
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31456):
CAAACCCATACACCCTGCAGGCATTCCCACCAGGTGCTCTGTGCCTGTATCATGAGAAGCTGTTTGCCTAGAGGGCTCTAAGGTCAGATGTGGATTCAAA
S
CTCTGCTCCGGGATTTGGGGAAGCTATTTAACCTCTCTGAGCCTCGGTTTCTTTAGCTTTAAAACAATGCTATCAGGAATAATAATTTATATTTCTTAGG
Celera SNP ID:            hCV9957466
SNP Position Genomic:     276473
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31457):
TGCCTGTCCTGGCTCCTCATTGCTTGTGCCTCAGTGCCTCAGTTTACCCCATAGAGGAGCCACTTTAGCTTCTGGTTCATCTTCTCACCTTTCCACAATA
Y
TGTTTTGGCCTGAATACCCTCTTTTACAGGCTTGCCCCCTGTAACCCTGCCCCCTCCACCACGGCCTCTGTGACCTTACCTTCTCCTACCCTCCCTCTTA
Celera SNP ID:            hCV9957467
SNP Position Genomic:     274670
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31458):
TGGTCTGTGGCCTGAGTTGTCCAGATAACCCTTTTCATTTAGTGTTGTCTTTATGGATGCCACAGAGGTCTCCGGGCAATGACAGCCCAGCCTTTGCACC
R
ACCAGGAAGAGTCACAGGCAGGCCTGCTTCCTGACTTCTGTTTGCTGTCTGTTTGGCTCTCACAATTATTGGAATCTGTCAAGCTCCATCAAGTGACATT
Celera SNP ID:            hCV9957468
SNP Position Genomic:     272760
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,7)   total(G,7|A,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31459):
CTAGACATTCATGCCCTCAAGGGACTCGTGTGTTCAAACAAGTCACAGCACAGGCTGGTAAAGTCAGCAACAGCGATTTGTGCAAGGGAGTACCAGAAAG
R
GAGTAATCAATCTGGGAAGAGGTGGGAGGAGTTCTCTAAGGAGGTGATGTCTAGCTGGACATGGAAGGATGACTCTTCTGACCAGGTAACCAAGGTGAGG
Celera SNP ID:            hCV8922052
SNP Position Genomic:     613556
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31460):
TCCCTCCACTGGAGTCAGGGTTGCTACTACTGAGATTTACAGAAGAGAACTAGCCCAGAAAACACCAGATCTGGCCACACCAAGGACTGGGTGCTTCCTC
W
TCTTACACCCCCGTCCCCATTATCACCATTTGGGTCTTAGGTGGGATCCTCATGGATTTAAGTATTGGACAAAGAGAACATCCCTTATAGTTCCTAATCT
Celera SNP ID:            hCV8922056
SNP Position Genomic:     610563
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|T,10)      total(A,3|T,10) ;no_pop(T,-|A,-)   ;(T,-|A,-)   Caucasian(A,6|T,76)   Asians(A,1|T,81)   total(A,7|T,157)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31461):
TTGTGAGGATTAAGTGAGACAATGACTGCGAGCCCCAACAATTGTTAGCTAATCATATAATATCACTTTCTATTCTGCAGAGATGATAGAAGCCATCAGA
M
AATAGCTTCTCCTACTTTCAGCTTCCCCACCCACACATCTGCTCTGTGTACATCCATCCTTGCCCCTTCTCTCCCACCTCAGTAGAAGAATCTCTCTCCC
Celera SNP ID:            hCV8922057
SNP Position Genomic:     608235
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|C,9)      total(A,5|C,9) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31462):
GCCAGTGTGCGCATGCCCTCTTCTCTGTCTTTCGTTGTCCCTGGCCCTTTCCCCCTGGTGTTTTGCCTGTGCGTTCCCATCTTTTTGCTTTGTGTCTCCC
Y
GCAATGTCTCTGAGCCCGGATCTCCTGCTACCTTTCCAGAGTACGACTTGGAGCCCTGTGAGGAGCCCGAGGTCCCAGCCTACAGCATCCGGAAGGGCTT
Celera SNP ID:            hCV25929463
SNP Position Genomic:     456894
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:31463):
CGGATCTCCTGCTACCTTTCCAGAGTACGACTTGGAGCCCTGTGAGGAGCCCGAGGTCCCAGCCTACAGCATCCGGAAGGGCTTGCAGTTTGGCGTGGGC
R
ACACCTTGACCTTCTCCTGCTTCCCCGGGTACCGTCTGGAGGGCACCGCCCGCATCACGTGCCTGGGGGGCAGACGGCGCCTGTGGAGCTCGCCTCTGCC
Celera SNP ID:            hCV25925182
SNP Position Genomic:     457011
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:31464):
GTGGTACCTGGCACGGAATAGGTGCTTAATAAATATTTGTGAATAATGGATGAATAGTGAGTATCCCAAGGGCCCCTTGGGGAAACTGACAGTATCCAAG
S
AGACGAAGGCTGTGATTCTCTCCTTTTAGGAGGCAGAAACCTTCTTCTCACATTTCATGTGATAGAAAGAGGATAGAGACTTAAGAGACCTCTTGACTTA
Celera SNP ID:            hCV8922200
SNP Position Genomic:     433434
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31465):
CAGCATATGCTCCGTGCAGACAGCTACACACAGCTTCTTTCAGAGGTTTAAGGTCCTGTGGGTCTTGGCCTCTGCAGTTGATAAGTCAGGGAGGCAGCTT
S
AGGCTGACCGAGGCAGAGGCCACAGCAAGAGGTTGTCATGTCTCCTTGGGCCAGGCAGCCCTGAGGTCCCAGGGCCATTTGGCAGTACCCTGAAGGGCAC
Celera SNP ID:            hCV9957475
SNP Position Genomic:     271799
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31466):
GTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTAACCTCAGGTGATCCACCTACCATGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCATTGC
K
CCCAGCCACAAAACTCTTGTAAAATAATAATATTATCATAAAGAGATTAAGAAACCTGATGTAATATAGCTAGTAAGTGTCCGAGCCAGAAATTGGATCC
Celera SNP ID:            hCV9957476
SNP Position Genomic:     271232
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,5)      total(G,5|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31467):
TTTTCCAGCTGTCCTCTTCATTTCCTCAGTCAGTTCCCTTGCCCTTTCTCCATACAGCTGTTTGACAATTCTGCCTCCTTTCTGAAGACTTATATTCCAT
Y
GCCCCTACCTACGTTCTCAGCAAATAACTAAGTTAAACAGTTAAGATGGCCTGGAATCAGAGAAGCTGGGTTCAAAATTCAGATGAGACATTTAGAAACT
Celera SNP ID:            hCV8922061
SNP Position Genomic:     607956
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31468):
GCTGCAGGCCTGGGTTTTCTATTATTTATTCTTCTGGTTAATCTGCATTTTTTTGATTTAGGCAATCACTGTTATGCTTAGCTGCCTGGAAGTAATTTGG
R
TAATTCTTCACTTTTTAAATTTCCCTAAAGTGAGCCTTTATGTAAAGTGCAAGTTTTCCTTCTTAATTTTTGTAAGGCAGTTTTTTTATTTTAATTCTTC
Celera SNP ID:            hCV8922062
SNP Position Genomic:     606791
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31469):
TTATTAGAAATTCTGTAATTTTGGTATTGATTTCCCCTTTTACATAGAAAATTTTTAATAGAAGGATTTGTTTCTAGGTGGAAGGCCCTTTTTTTTCATT
R
TGTTATTCATTTCTAATTTTATTGCATTGTATGTAATATTTCTACTTCATGGAATTGACTGAAGCTTTCTTTGTGACCTAATAGTTGGTCAGTTGTTATG
Celera SNP ID:            hCV8922063
SNP Position Genomic:     604610
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31470):
CAGGGCACTCAGGAGCATACCACAGAATCGCCATCTCTTCCTAACCACAGTGCACATCTCAGCCACCTGAGGAGGATTAAAAAAATACACAGGCCAGGGC
S
CTATCTGCAAAGCTGGTGAGTCAGGCACCTGCAGTGGAGCCGGGCATTTTAAATAACCTTCAGGGGCTTCTGGAGACACCTCCAGTTGAGGTGCCACATC
Celera SNP ID:            hCV8922067
SNP Position Genomic:     601904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31471):
GGAATATGAAACATTCCGAGGCTCACACAAGGCTGAGTTGTGAGAGGGGAGCAGTCGTCTGGGCCATTTGATGGGAGCTGAGCTAGTTATTTAAGTCTGA
R
CAGAACATGACCCGCCTCTGATTATCTCACCTGGAAGTGGGTTCAAGGTACTAATGACTGGACTTCTTAAGAGGGTCTACATGTTGGTCTTTCTTTGACA
Celera SNP ID:            hCV27853930
SNP Position Genomic:     584988
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,40)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:31472):
ATGTATGTGACCATTCTGCTTCTCCCCTTTGCCCAGCCCCAGAGCTCGCCCCTGCTCCTGCTCTTATTCCCAGGCACCTGCGCTCACAGAAAAAAACCGT
R
GCCCCATTTGAACCCTCAGCCTGGCTGATAGGACTGCAACAGATAATTCATGTGCATTTTCATTAGTAATCAAAAGACAAACATATTCCCACTCTCACCT
Celera SNP ID:            hCV27853931
SNP Position Genomic:     625767
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(A,6|G,28)   total(A,11|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:31473):
GGTGTTCTGTGGGCAGGGCTAGGTTGGGGACAGTTGGCCTACAAGGTTTTTCAAACCCAGAACTTACTGATGGTAGATTCTCTGCAGACAGTTCTTTTAC
T
TTTTTTTTTATTAATATCGAGTGGATAAAAAGCAGATTATAAAATATAAGCAAAATATAAAGAACACCAATACAACAAACACCTGTGCAGCCATCGTTCA
Celera SNP ID:            hCV11859561
SNP Position Genomic:     361111
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31474):
GATTTTTCTCCTATCTCTTGCGTGTTCCTTCTCAGTCTCTAATACTAACACTTATTCCCCTCCCTGAAGTATAGTGTCCTGCAGCATTTAATTCTTTGTA
M
TTTTTCCCATTCCTTTTCACCACTCTCTGGGTGAGCTCATCCTTGCCCAACCCTTTCACTACCACACTCTGAAGCTTCCAGACAGATCTCTTCTGCCAAG
Celera SNP ID:            hCV16147333
SNP Position Genomic:     9848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31475):
GCACAGACAGGTGTAAAGATTTTCTGACAATTTGTTGAATAAATATAGCCTCTGAGATCTTAGAGTCTCAGCACCTTCTCACAGCCAACCGCATCTCACC
R
GCATCAAAGGGAAAAGCATATGGCACTTGGCTCACCTCGCCTGGTGTCAGAGCCCTTTGGCAACAGGACCAATGTCAAGATAAATAAACAGGCAAATATT
Celera SNP ID:            hCV9957484
SNP Position Genomic:     270439
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31476):
GCCACTGCCTACCTGTCTGACTTCCCTCCTATCCCTCACTCACACCCATTCTCTGTGCTCTTCATCCTGTCCCTAGGGTGGGCTAAGCAGGTTCCCTGCT
Y
GGGCTTCTGCACTAGCTGTTCCCAGGGCTTAGGATCCTCCTCCTTCACAGTCTTCAAATCTTCCTTCCAAGTTAAAAAAACAAAAAACAAAAACCACTGT
Celera SNP ID:            hCV9957485
SNP Position Genomic:     267771
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31477):
GTCATTTCTTTTTAAGGCTGAATAATATTCCCTTGTATGTCTAAACCACATTTTGTTTATCCATTGATCTGTTGATGGACATTTGGGTTGTTTCCATCCA
R
TTTGGACTTCTCATCCCCTCCCCACTCATAATCTGTTCTCTTAGCCTTCTCCACGACCTCCCACATCTGTTTTCCTAAGAGGAAGCTGCTTCTGCCCATT
Celera SNP ID:            hCV9957486
SNP Position Genomic:     267380
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31478):
TTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTTCAGGGATTACAGGCATGAGCCACCGCACC
Y
GGCCAGAAACCACTTTTATAGTTTGGATCTCAGACCCAAGGACAAAAGTTCACTCATGCCTGTCTTTAGTGCAAGTTCTCTAGATTAAGCCTGAAGAAAC
Celera SNP ID:            hCV8020697
SNP Position Genomic:     116780
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31479):
CCATCTGTACCCGGCACCCCCAGGGCTACCACCTGTGGAGCGAAGCCATCCCTCTCTGTCAAGGTGAGAAGCAGGTGGAAAGGGGGTCACAAGGTAGCTC
R
GATCCAACTCATATCTTGGGTTTGTCCCAGGACTAGTCACTTCCAAATGTGGGTTTCCTCTTTGATAATTATTTCATTCTTTCCACAAGCATTTACAAGA
Celera SNP ID:            hCV8922071
SNP Position Genomic:     594453
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(G,40)   total(A,6|G,72)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31480):
CTATTACAGATATCACATAGTTTTCTATGCATTTATACAAATAGACAGTTGGATGGATTGATAGAAATAATTTTTAAAAATCTGGGCCGCATCCTAGGTG
R
GCGTGCTGACCAGGGGAGAGGGGCCAAGAGAAGACCAGTTCTGCCATGTCTGCCTTTTGCCAAAGGGGCCCTACCCATTGCTAAGTCCAGCATGGAGCCC
Celera SNP ID:            hCV8922217
SNP Position Genomic:     427856
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31481):
TTTCTCATTTACAGCACTTTCTTTGCCTATTCTTATTCCAGGGTCTGCTACTAGTTGGCATGAAAATAGCTTAAAATAAGGGTTTTTGGAAGGGTGGATC
Y
TTAGGGTGAAATAGGGGAGAGAGAACAGGACGTGGACAGGGATCACAATGGATGCTGTCACCTCCCTCCCCCAGTTTCTTCAGAAGCTTTGGTCTCTGAA
Celera SNP ID:            hCV8922218
SNP Position Genomic:     427247
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31482):
ACATGTGGAACTGTAAGTCCAATTAAACCTCTTTTTCTTCCCAGTCTCGGGTATGTCTTTATCAGCAGTGTGAAAACGGACTAATACACTCCTCTTGCCC
R
TAAGGGTTTGGCCATAGGTTTCTATAGCCAGTTCTGTTGCTTTGCTTCTCCAGGGACTGTCAGTTGTGGCATCAGAGAGCAGAGTCTCAAACACCAGCAG
Celera SNP ID:            hCV16261350
SNP Position Genomic:     108390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31483):
GAGTGTAATTTGCACCTGCGTCTGTCACTGTGACTAAGTATATTTTACAACCGAGATTCTTGTTCCTGAGGGAGGTAACCATGTGGATACAGCACACATA
R
GACACAGCGGGCAAAGCAGGAGTAGGGAAACAAATTCGGCTTGGAAGGCAGCTATTTAAAACAACCATTTCACCGGCAGAGGGATATGATCACCAAGAAA
Celera SNP ID:            hCV8922078
SNP Position Genomic:     592787
SNP Source:               Applera
Population(Allele,Count): african american(G,18)   caucasian(A,3|G,25)   total(A,3|G,43)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31484):
ACAATTTTATATGATCTGATAATGCCTAACAGTGATCCTGTCCCTTTAGGAAAGTTAGGAAATGCTAATAAAAGTTTCTTAAAACTAAAAAGCCCTAAGG
Y
ATAGATCTCTGACTGGCAGATGTTAAGCATGCAGCAAAGGATGGGCTATATTTCAAGGCCAGGTGCCTTTCTTCTGCTCTGCAAGCCATATCTTATAAAC
Celera SNP ID:            hCV8922079
SNP Position Genomic:     591278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31485):
ACCTCTTGACTTAACCCAATTCCTAAACTCAAATCTGGGCATAGTGGCCATGAACAGGAAGGACAGGAGAATGAAGAAGGGAGCATGCCTGAGAGAGAGT
R
TTACCCAGAGCTTACAAATGGCTCGATGGGAGACAAGGGACCACTGAGAACACTGGAGGTGGCAAGCAGTCCAGGTGGGCATTTGAGTGAGAGGGGCCCA
Celera SNP ID:            hCV11859711
SNP Position Genomic:     433622
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31486):
CCAGTTTAAGATCCCAAAACTGAATTCCAACATCTCTTAGGAGGAAAATAAACTATTCAACCAAAGAAATGCACGTTCCCTGTGGGTTGACCACACTGAA
Y
CAGTATAGATCTCTCCCTTTCCAAAAATAAGTAAAGAAATAAGCAAAAAGTACATAAAATAAACTTGTATGATGCCACTTAAAACATACCACTCATTAAA
Celera SNP ID:            hCV27477295
SNP Position Genomic:     488231
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,54|C,1423)   total(C,1423|T,54) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31487):
GGTAGAGCTCTGCTTTGCAATCAGCATCTTTGTCTTTTCCGTTTTTTTTCTAGTTTTGTTTTTGATTAAGTGTCCCCACCTTGTGGACAATTAAATGCAG
A
AGCTAATGGTCTTTTAGAAAATCTTTTAATATATGCTAAGAGCCACTTAGCTTTTGAGAGGCTATAATAGGACAAGAGAGACGATGGCTTCTCCTAAATT
Celera SNP ID:            hCV11859712
SNP Position Genomic:     435926
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31488):
GGTGGATAACACCACTATCTATCTCTAGTACCTTTTTTGCCTTCCCAAATGGAACTCCATGCCCATTAAAGAAGAATACCCAGAATAGTCAGATTCATAG
R
CAGAAAATGGAACAGTAGCGACAAGGAGATGGGCCGTCATTTCTTTTTAAGGCTGAATAATATTCCCTTGTATGTCTAAACCACATTTTGTTTATCCATT
Celera SNP ID:            hCV9957493
SNP Position Genomic:     267244
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31489):
TCAGTGCTAATGTAATATTTCAAGTCGACAGATGAATCTTCAGCAGATTTGAGGAACGCCTTCTAAGACTCCACGGTCACATAGGCCCAGGGGGAAGTGT
Y
ATTCTCATACTGAGAGACATGGTGGGGGGTTAGTAAGAGCTTGGTCTCTAGAATCAGGCTGCATTGATTTGGCTTTGGCGCTACCATTTACTGGCCCTGC
Celera SNP ID:            hCV8922226
SNP Position Genomic:     425657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,15)      total(C,3|T,15) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31490):
TTCAAGGTCTTTGCCTTTGGGTTTTGATTCCTCATTATTTGCATTATGTTCCCAACTGAACTCCCACAAAGCTGGAGACAAGATGGCTGTGTGGGGGCAT
S
CATGTCCAGCCTAGAGACTCCCAATTCAGTGCTAATGTAATATTTCAAGTCGACAGATGAATCTTCAGCAGATTTGAGGAACGCCTTCTAAGACTCCACG
Celera SNP ID:            hCV8922227
SNP Position Genomic:     425531
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,9|C,12)      total(G,9|C,12) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31491):
AATATTTGAACTTGTTTCTGCAAGGAATTGGTGAAGGAAGACATGGGAAATGATAGACTTGGGCTGAAGTTTCTATTGTGATGGCAAACCATGAATCTGT
M
GTGATACCACAGTTCTCCTGGTAGCCCCCCAGCCCCCAGGATTAGAGATGGAAAAGGTGAGTGGTAGAATTGATGGAAAGCAGGCATTTCACCAAGCAGA
Celera SNP ID:            hCV25956099
SNP Position Genomic:     356640
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,40)   total(A,1|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:31492):
TATTCCAGTGTACCATGCCTTGACAGAAATGAATTCGCTTCAGCGAGTCACCCCAATTAAGATCAAAAAATAGTCTCCACTCATCAGGCATCTGACCTAA
G
TAAGGCAAGGTACCTGATTGTCCTGCCCTCAGCCTTCCCTTCTATAAACTGAGGATAATGATAGTACTTATGCCATGGCGGTATTAAATGGGTTAATAAC
Celera SNP ID:            hCV8922089
SNP Position Genomic:     585729
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|G,9)   total(G,9|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31493):
GTCAGGAGTAGAGCATGCACGTGGGCACATGCACCCACAAGCCTTTTCACATCAAGGATTTTGACCCCCGTGAAGCCTTCCCAACCAGTGAGGCATAGTT
C
CCATTCTTCCTCCATGCCCCACTCTGAATTCTCACTAGTAGTGATGTGTCTGTCTTCTCCACTAAACTGGGAGATCTTTCTCAGTGCTTAGCACAAGGCC
Celera SNP ID:            hCV11859724
SNP Position Genomic:     452624
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31494):
AATTAGACAAATCCCAAGGGTTAGAAAGTGTTCTAAATGGGAGACAGTGCGTGCAAAGACCCTGAAGATGGGGCATGGCAAATTGAAGGAACTGAAACCA
S
AGGTGTACGAAGGAAGGGAGTGGGAGAAAAGCGGGGGAAGAGTATTTAATCACTGACATTATTTAGAACATGGATGCATGGTGATAAGAAGTGAACTTTT
Celera SNP ID:            hCV27464343
SNP Position Genomic:     132305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31495):
TCCCTGGGATTCAAGGCTTCTTATGAAGGTAACTGCTTTTGGCAAGCCAGATGAACTGTGTCCTGGGAGTCAGAGACGGGGTCTGGATTTGCAGTCAGAA
T
TTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCCGTGGCACGATCTTAGCTCACTACAGCCTCCGCCTCCCAGGTTC
Celera SNP ID:            hCV11859584
SNP Position Genomic:     383216
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31496):
CAAGTCATGATTTAAGACTTAAAAAGAAATTAGCTACTGGAATTTATCCCAGGAAGTTAGTTGTGCTTTATCCTGCCCTGAGCAGGCACCAGAGAATTGA
G
CTTAGATGTGGGACCTCAGCTTGGGATAGATAAGGAGAGGATTTAAGGCAATTCCTGTAAGAAATGTTGATGGCCCCCGAATGTTTATGCAGGAGAAGAA
Celera SNP ID:            hCV11859586
SNP Position Genomic:     385732
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,7)   total(G,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31497):
TGAGGACACAGCATAAAGACAGCTGTCCATGAACCAGTAAGAAGGCCCATACCAGACATCAAAATTGCCAGTCCCTTGAACTTGGACTTCCCAGCCTCTA
R
AACTGTGATAAATAAATTTCTGTTGTTTAGAAGTCACCCAGTCTATGGTAATTTGTTACAGCAGCCTGAATGGATTAAGACAGCCATTCAGTCCCAGCTC
Celera SNP ID:            hCV8922093
SNP Position Genomic:     573171
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31498):
GATGTCTGATTGGGTCAGAACTGTGTTATGCACATGCCCATCTGGGTCTGTGAAACAAATGAACTTCATCCAGCTGCTTCAGAAAGAATTAAACAGGTCC
Y
AGGATGCTCATCACCTGAAAGAACTGAAGCATGCACCTGGAAAAAAAAAAAAAAAAAAAAAAAAGACCCAGGACAGCTAGAAGCAGACCCTGCAGGGTAA
Celera SNP ID:            hCV8922097
SNP Position Genomic:     550823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31499):
GATTATGTTGTCTATGTCCTTTACATTCTTACTTTTCACCCACTCAATCTGTTTTATTCTGAGAGATGTGTTTAAAGTTTTCTATTATTAGTGTGTTTCT
R
TTTTTCCTTGCACTTCCTGTAGTTTCTGTTCTATAAAGATGGTTGCTGTCTTATTTGGTGCATAGATATTCATAACTAGTATCTCCATTGCACATTGTGG
Celera SNP ID:            hCV3190600
SNP Position Genomic:     604889
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31500):
GGTTCTATGGTTCTGTCTCCTCTCACACCTTTCTTGGACCCCTGGAGTCTAAAAGAGGGCCCCAGCCACATAAACCTAATAGGATAGATTGAATGGTCTG
Y
CCTGGGGTGAACAGTGCTGTCTTGCCACTGTCTCAGGCCCATTAAGGACACAGTCACAGGTTATTTCCACAGAGAGCCAAAGGAAGCTGGTAGAAATGCC
Celera SNP ID:            hCV3190601
SNP Position Genomic:     602920
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31501):
TTGTTACAATTATCTTGAAGTAGCATTTATGCTTCAAACTACAATATGTATCAGGCCCACTGCTAGATCTTATTAATAATGCATTAATAAAGGAGCACTT
W
TTAGTGTATGATCGATTTTCAGTATATTTTAAAAACTATATTTCAATCTAGCTGATTTCCTTTGCAATTCTATGTATTTTGTTTTACATATTTTAAGACA
Celera SNP ID:            hCV27501354
SNP Position Genomic:     65566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31502):
TGGCAACCTCCTCGACTATGTCCCATCCAAAGACAGAGGTTTTTGTTTTGTTTTGTTTTTTGGCCTACACGGTGCTTTATAACAAATTTTGAATTACTCC
R
CAATCTTTTAAAATCAAGAAATTTTACATTAAAATCCAGATTTCTGTCTTCTCTTGAAAAATGAAAATCTAATCAAATGCAACTCAAACATTCAATAGTC
Celera SNP ID:            hCV3190603
SNP Position Genomic:     599637
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31503):
AAGGAAGGGCTAGGTAGGCAGCTGGAAAGATTCCTGCAAGGAGTGAGCTAAAAGCAAAGTAATGAGGGGGGAAAAAAAAAAACATGGACATGGAGGTTGG
R
GGATTTCAGAAGAGGAGGCAGGTGCTGAAACTGCTCTCAGCATTGATAACCATTGTGCCCTAAGATGTTTCCACAAACCACCATGGAACTTAGGAATGGC
Celera SNP ID:            hCV3190604
SNP Position Genomic:     599333
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31504):
CGTGAGTCCTCGGGCAATGGAGGCGGGTGTAAGGAAGGGCTAGGTAGGCAGCTGGAAAGATTCCTGCAAGGAGTGAGCTAAAAGCAAAGTAATGAGGGGG
R
AAAAAAAAAAACATGGACATGGAGGTTGGGGGATTTCAGAAGAGGAGGCAGGTGCTGAAACTGCTCTCAGCATTGATAACCATTGTGCCCTAAGATGTTT
Celera SNP ID:            hCV3190605
SNP Position Genomic:     599303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31505):
TGACATTGTTTTCCTTTTGCTAGCTCTTTCCTGTGGGCTTCCTGAGGCCCCCAAGAATGGAATGGTGTTTGGCAAGGAGTACACAGTGGGAACCAAGGCC
R
TGTACAGCTGCAGTGAAGGCTACCACCTCCAGGCAGGCGCTGAGGCCACTGCAGAGTGTCTGGACACAGGCCTATGGAGCAACCGCAATGTCCCACCACA
Celera SNP ID:            hCV3190606
SNP Position Genomic:     599095
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,13)   caucasian(A,17|G,19)   total(A,34|G,32)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:31506):
CTTCTTTGCACTTCTATCTTTATTCCTTCTTCCAAACTTAAAAAAAGAAGAAGAAAAAACTCTTCTGCTGATGATCCTCCCATTTTCTTTTTTATTATGA
K
ACTTTACCCTTTAATTAGTTTTTACTAATAAAAGGACCTTGGGAGGGGAGGAAGGATAAAAATAGTTTCTCAGAATACCATCTTAAAACAAATGCTCATG
Celera SNP ID:            hCV3190607
SNP Position Genomic:     598896
SNP Source:               Applera
Population(Allele,Count): african american(G,17|T,13)   caucasian(G,16|T,16)   total(G,33|T,29)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31507):
ACTCTGTTTTCAAATAAGATCACATTTATAGGTACCGGAGTCAGAACTTCAACACGTCTTTTTGGGGGGCACAGAGCACCCCATAACAGAAGGCCGGCCC
R
TCTTTCCTACACTAACACTGTCATACCACAATGTCCCCTGGGGTAAAGATAACGGTTGTACTGTTTTAATAGGAGGCCATGTGTCTAGAGAAGGCAGAAC
Celera SNP ID:            hCV11859594
SNP Position Genomic:     388014
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   Caucasian(G,4|A,80)   total(G,4|A,80) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31508):
GGGGCACCAGAGATGACACCTGGTCGCAGCAGCTTCTTCTCCTGCTGATCCTGGTCCAGGGCCTGTGGCTTGGGAATATGTGGGAAGCAGTGGGTAAGAG
C
CTGAACCAGGCAGGGGACACTTGCAAGTCACCAGTGGTCCTATTGATGAATCCGATGAACACATTTTCATCTTTATCTTATTTGATCTATCAGGGATATC
Celera SNP ID:            hCV11860131
SNP Position Genomic:     609482
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|C,7)   total(C,7|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31509):
CCGCGGTGCGCGCGCCTGGGAGCTCTGGCCTCTCGCACACCCACACCCACTGGGAGGCTGTGCATACCGACGCTGCTGGTCACCCAGACTTGCCACATGG
R
CGGTGGGGGAATCGCTGCTACCTCCCGCCAGGCCTCCCGGACGTACGTTGAGGCGAGGCCGGTCTCTGGCTTAGCTGATTGGAGAATGTCTCGGCATCGG
Celera SNP ID:            hCV27844068
SNP Position Genomic:     8034
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31510):
ACATCAGCCCCTACATGGAAAATCCAAGCAGCTTTGCCCCTGGGAATGGCCTCTGTGGTGCTCTGGTCCCCTTCCTCATTCCCCTTCCTCTAGCAACACT
R
GAGCCAGAGACAAGGAGACGATGAAGACTCTTTCTTCACCTCCCACTTGGCCAGGTGCCCTGAGCCATCTCCACAGACCTGACCACAAATGGGCTGCACC
Celera SNP ID:            hCV27844069
SNP Position Genomic:     343210
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,2)   caucasian(A,32)   total(A,50|G,2)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31511):
TGAAATATTGTGAGAATTACCAAAATGTGATGCAGAGACATGAAGTGAGCACGTATTATTGGGAAAATGGTGCTGTTAGGCTTGCTCAACACAGGGTTAC
Y
AAAAACCTTTCATTTGTAAAAAAAACAACATCTGTAAAGCACACTAAAGCAAGACACAATAAAACTAGGTGTACCTGTAACTTATAACCAGCTTCCTTCT
Celera SNP ID:            hCV11860137
SNP Position Genomic:     618510
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31512):
ATATTTATTTTACAGACAATCCAGGCTAAGCCTTGGAAATTCATAGATTCATCCAGCATGACCCTAGCCCTCAAGTTACTGACAGTTTAGGTGGGGGACA
Y
AGGACAGGCAGCAAGCAATCAAGGTGCAATATGGGAGGTGCTCAGATACAGGAAGGAACAGGGAGGGGCCCCCCAATTATTAAAGATCCCATTCCTCTGT
Celera SNP ID:            hCV2949245
SNP Position Genomic:     461405
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31513):
CACACACACACGCATACACAAACACATGCACACACATGCACACGCACACAATGCACACACGCACACACACATACACACGCACGCACAAACACATGCACGC
R
CACACACACACACGTACATGCACACACACACACACTCTTTAGCACCAGGGTAGGAAATGCTCCTGCTACGGCCTCTTTGAGTTTAGCTCCTCTGCTCTCC
Celera SNP ID:            hCV2949246
SNP Position Genomic:     464903
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31514):
AAATCAAGAGGTTTTCCCACTTTCTTCACTTGGAGCATCATTCATTGATGCATTCATTCCCTCATATTCACAAATATCTGTTTGTTTACTACCTGGTTGT
S
CCTGTGCCAGATGCTGGCATTATATAAATGAATGAGATGTGGCCATGGTTCACAAAGAGCAGACGCACATGTCTGTCCAGAACAAGGTGGTGGCACAATG
Celera SNP ID:            hCV2949247
SNP Position Genomic:     481180
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31515):
AGCCAGCCGGGAGATGAGGAAGCTACAGAGGGTGGGGCTGAGGAGGCCAGGGTCCAGCCTTCACTTTCTCCCTGGCTGGAACAGGACCTCGGACCCAGGG
Y
GGGGAGCAGGCAGGGTAGAAGGACCCTAGCTCAGTGAAGGGGTATTTAGAGAGTCTGTGGTCCCAGTGAGGACCCAAGGGGCTCAGCAGGGAAACTGAGG
Celera SNP ID:            hCV29130306
SNP Position Genomic:     22011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31516):
CAACACGAATCGGGGAGGCCCTTAAGATGTGGCCCCTGTGGCATCTATACTTCAGAACCACTCTGTGTACCCCTCTAGCATGGTATTGTCTAATGACATA
Y
TTTGATTTACTTGTTTCTAGTCTATGATCCAGGTCCCCATGGCTTATCACAGGGTCTATCCTAGAGGAATGAATGAATGAAGGAAGGAATTAATGGCATG
Celera SNP ID:            hCV29130307
SNP Position Genomic:     71913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31517):
ACGAGATCTGATGGTTTTATCCGAGTTTTCCGCTTTTGCATCTTCCTCATTTTTCTCTTGTTGCCACCATGTAAGAAGTGCCTTTCGCCTCCTGCCATGA
Y
TCTGAGGCCTCCCCCGCCATGTGGAACTGTAAGTCCAATTAAACCTCTTTTTCTTCCCAGTCTCGGGTATGTCTTTATCAGCAGCATGAAAATGGACTAA
Celera SNP ID:            hCV29130308
SNP Position Genomic:     106373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31518):
CTGAGCCCCACTCAGAACACAGATAGCAGAGAAGCAGTGAGTGGTGGCCCTGGGTGCTAGAGAGGAGCCAGGGGCATGGTCTTCCATGGTGAGGCAGCCT
Y
GGTGCCCTGTGTCCCAGCCGCTCCAGCCGTTGCGAAACGGGGCCAATCCAAAGTCTGGATCAGCCAAGGATGGACAGCCATCAGAGCACAGTCTGCCTTG
Celera SNP ID:            hCV29130309
SNP Position Genomic:     109808
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31519):
GGCAGCCTTTAGGCCAAGAGACCATAAATCCTAGAATTAAAAGAGCTTTCCTCTGGGATGCCAACTCCCACCATAACAGCCCTAATTCTTCCTAAGAGAG
W
TCCCCCTCAGTGGAAAAGAAAATTCTCTCTTTTGTTTGGAGAGTAGATACTTGAATGTGTCTACACTGTGTTTGTGGGAACAGATGGCGGAGAACTGGTT
Celera SNP ID:            hCV3190610
SNP Position Genomic:     598657
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31520):
AGTAGGCAATGGGGCAGCCTTTAGGCCAAGAGACCATAAATCCTAGAATTAAAAGAGCTTTCCTCTGGGATGCCAACTCCCACCATAACAGCCCTAATTC
W
TCCTAAGAGAGTTCCCCCTCAGTGGAAAAGAAAATTCTCTCTTTTGTTTGGAGAGTAGATACTTGAATGTGTCTACACTGTGTTTGTGGGAACAGATGGC
Celera SNP ID:            hCV3190611
SNP Position Genomic:     598645
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31521):
GCTCTGAGAAATTTTCATCTATGATAATTCCATCCCATCCACTTTTTGTGTTCTCTCTTTTTGGAGCTCTGAACAGTTGGATGCTGGACCTTCTGTATTG
R
GGATTGATCCGTGTTTTCTGTCATTTTCTCTCATTTTCGGTCTCTTTTTTTTCTATATTCTGAGAAATTTACTTTTCATCTCTAATCCTATAATGCTTAT
Celera SNP ID:            hCV3190612
SNP Position Genomic:     598037
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31522):
ATGGAAGGATGAATGGAGGAACTGGAGCAATGGTTGAGTGGACAGAGAGTTCCTCAAAGGCACAAGCGAAGAAAATAAAACAACTGTCTTAATTGAGTGC
Y
TACTGTGTACCTGGCCCTGGAACAAGTCATCCCTTTCTTGTTAGTGCTTGGGATGTATATGAATGAATCATTCTTTGTCTCTCCAGGGAGTCAGAAGATC
Celera SNP ID:            hCV27952747
SNP Position Genomic:     191206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31523):
TCTTTGCATTCCTTTGGCTCCCTTTCCATCTGAAGACTTGTGTCTCTCTTCAGCTCTGAGAAATTTTCATCTATGATAATTCCATCCCATCCACTTTTTG
Y
GTTCTCTCTTTTTGGAGCTCTGAACAGTTGGATGCTGGACCTTCTGTATTGAGGATTGATCCGTGTTTTCTGTCATTTTCTCTCATTTTCGGTCTCTTTT
Celera SNP ID:            hCV3190613
SNP Position Genomic:     597985
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31524):
AAATCAATTTTGCTTTGCTTTTAGAGCCTCAATAGTAGAGAGATAAGAGGTTTGGAAATGAAGCACAGATCATCCAACCCACAGTTTCTGCTATAGATTC
T
AAGATAATGTGATGAATGCTATAGTGGAAGTATGCACGAAACACAATAGAAAAGTGTCTGCGAGGACAGATCATAATTCTGTATGGCAGTTGGGGGTGGA
Celera SNP ID:            hCV11859743
SNP Position Genomic:     486810
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31525):
TAGTGGCAACAGATCAGACCAGGAATGGCAGGTGGAGATCGCAGCTAAGCAGATTTCTGCTGCAATAATGAAGAATTTCCCAACCCAAGAACCACCTATA
M
AAAGGAGTGGGTTAACCCAGAAGCAAGGAGCTGTCTGTAACTGGAAGAGATCCAAAAATCCAGCTGATAGATGGGAGCGGATGAGCACATTCCTTTTCGA
Celera SNP ID:            hCV27952748
SNP Position Genomic:     325531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31526):
GTGTGTCTCTGGACTTCTTAGATACACAAAATTCCGTGATGGTGAATCTAAGAGGGATTCTCTTTGCATTCCTTTGGCTCCCTTTCCATCTGAAGACTTG
Y
GTCTCTCTTCAGCTCTGAGAAATTTTCATCTATGATAATTCCATCCCATCCACTTTTTGTGTTCTCTCTTTTTGGAGCTCTGAACAGTTGGATGCTGGAC
Celera SNP ID:            hCV3190614
SNP Position Genomic:     597925
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31527):
TATGTCATTTTTTTTTCCCTCTTTCTAGTAATTTGGAGGAATGCCTGTGTGTCTCTGGACTTCTTAGATACACAAAATTCCGTGATGGTGAATCTAAGAG
K
GATTCTCTTTGCATTCCTTTGGCTCCCTTTCCATCTGAAGACTTGTGTCTCTCTTCAGCTCTGAGAAATTTTCATCTATGATAATTCCATCCCATCCACT
Celera SNP ID:            hCV3190615
SNP Position Genomic:     597879
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,7)   total(G,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31528):
GGTATATCCTTAAGTAAATTCCTCAGAAAGGGTTCACAAGAGGTGCATTTTCTGAGACTTTACATGTCTGAAAGTGTCTATCTTTTTGCCCTCACACATG
Y
TTGGTCAGTTGACTGGGTAAAATTCTAGTTTATAAATCATTTTCTTCAGAGGTTTAAAGCTTTGTTCCATTATCTTTGAACACTCACTGCTGATGGGAAG
Celera SNP ID:            hCV3190617
SNP Position Genomic:     597644
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31529):
GAGATTCCTTTTCTTTGTATTCTTGAGTTAGTTCTGTCATTTTTCATATCTCATATATTGTCCTTTCCTGGTTTTCACCCTCTTTTTCATGGGGTATATC
Y
TTAAGTAAATTCCTCAGAAAGGGTTCACAAGAGGTGCATTTTCTGAGACTTTACATGTCTGAAAGTGTCTATCTTTTTGCCCTCACACATGTTTGGTCAG
Celera SNP ID:            hCV3190618
SNP Position Genomic:     597552
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31530):
TTCTCTTTCTTTTTAAATTTTTTTTAAGACGGAGTTTTGCTCTTCTCGCCCAGGCTGGAGTGCAATGGCGCGGTCTCAGCTCACTGCAACCTCCGCCTCC
Y
GGGTTCAAGCGATTCTCCTGCCTCAGTCTTCCGAGTAGCTGGGATTACAGGCGACCGTCACCACGCCCGGTTAATTTTTGTATTTTTAGGAGAGATGGGG
Celera SNP ID:            hCV26469207
SNP Position Genomic:     8494
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,11)   total(C,5|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31531):
CTGGCCATGTTGCTGCAAACATTTCTCTCCTGAGTTGTCCCTTTGAGATTCCTTTTCTTTGTATTCTTGAGTTAGTTCTGTCATTTTTCATATCTCATAT
M
TTGTCCTTTCCTGGTTTTCACCCTCTTTTTCATGGGGTATATCCTTAAGTAAATTCCTCAGAAAGGGTTCACAAGAGGTGCATTTTCTGAGACTTTACAT
Celera SNP ID:            hCV3190619
SNP Position Genomic:     597508
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,7)   total(A,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31532):
GGGTCTGGGTGGCTGCAATGACTGAGTGCCCCAATGTCAGTGACCAGCTCTCTCACCTACTAGCTGTGGGATTATTAGGCAAGGTACTTAACCACTTCAG
S
CTTCAGTGTCCGCATGATGGAAAAGAAACTTTAAGGTGCCTCTTAGGGCTGAGTTCCTGGCAGCTGCTCACTCAAACAGGAAATATAGCAGTTTGGTAGC
Celera SNP ID:            hCV27844070
SNP Position Genomic:     592406
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,40)   total(C,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:31533):
ACCTGTAGTCCCAGCTACTCGGGAGGCTGGGTCACAAGAATCACTTGAACCCAGGAGGTGGAGGCTGCAGTGAGCCGAGATCGCGCCACTGCATTCCACC
Y
GGGGTGACAGAGCGAGAGTCTGTCTCCAAAAAAAAATTAAAAAGAAAGGAGCCAGTTACAAAAGGGCAAATAAATACCTACCATATGCTTTCACTGATGT
Celera SNP ID:            hCV26469209
SNP Position Genomic:     18218
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31534):
AGGCATCGTCTCAACTGACTTGTGCTCTAGTGGCGAGATGGAGGGGAAAGCAAACGAAGTGGCATGCAAAAGAGCTGCCTGGACAGTGCCAGTGGGAGCA
M
AGAGAAGGGAGCAGACATCTTTTCAGGAACATCTGAAAGGGGATCAGGAAAGCGCTTTGTCACAAAAGTGAGCCTAAAGTCCTCAGAATGACTAGGTGGC
Celera SNP ID:            hCV16205641
SNP Position Genomic:     384203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31535):
TGTAAAAATGATACACATCCAATCTGTAAATACTCAAAAAATGGGAGAGGTCAAAGGAGAGATGTTAACCACTACCCAAAATCCCCCAGCCAGAAATGAT
Y
CTTGCCAACAATTGGTGGACACTATTACAGATATCACATAGTTTTCTATGCATTTATACAAATAGACAGTTGGATGGATTGATAGAAATAATTTTTAAAA
Celera SNP ID:            hCV16205642
SNP Position Genomic:     430143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31536):
TCAGCCAAGGATGGACAGCCATCAGAGCACAGTCTGCCTTGTGGTCAGAGTGAGATGTGGCACACAAGGGCCTGGCACAGAGCCTGGCACACTGTCCAGC
Y
TGCTTCTCACCATGGCACCCTCGATATTCAGGACTATGGAGTTTCTTTGTTGTAAGGAGAGGTCCTCCACCTTGTAGGATATTTAGCAGCAACCGTGGCC
Celera SNP ID:            hCV29130310
SNP Position Genomic:     109968
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31537):
GACTCATTTAGCTGGGCTAGAGGAAGGCCTATTAACTGTGCCCTGGCTTCTTTCTGTTTGGACATCTGGTAGAAGTGATAGGCAATACAGCATGAGAGGA
C
AAGGGTCATGTACATTGCCTCTCCAGCCTCCCTGGAGCTCTCTGAAAACAGAATTAGAAGGAATTCAATGTACGCAAAGGCTAGACAATGAGTGAACCTT
Celera SNP ID:            hCV11860147
SNP Position Genomic:     622876
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31538):
CAGCCAAGGATGGACAGCCATCAGAGCACAGTCTGCCTTGTGGTCAGAGTGAGATGTGGCACACAAGGGCCTGGCACAGAGCCTGGCACACTGTCCAGCC
K
GCTTCTCACCATGGCACCCTCGATATTCAGGACTATGGAGTTTCTTTGTTGTAAGGAGAGGTCCTCCACCTTGTAGGATATTTAGCAGCAACCGTGGCCT
Celera SNP ID:            hCV29130311
SNP Position Genomic:     109969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31539):
CAAAAAGCTGTGAGCCAGGAAGGTGGTGGCCTTTTGAGGCACAGAAGAAGGGCCCATGGGTCTCGCTCCACCCCTCTCAGCCCTTGGGGTGTAGCTTTTG
Y
TGGTCACTGGAAGCACCTTGACTTCTGATGATACTGATAGCTCCATCCTTTTGCATGTGTAGCAGTGACCTTAGGGTCATAATGTCACCAAATACTTGAG
Celera SNP ID:            hCV29130312
SNP Position Genomic:     111976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31540):
GCCACATGTCTTCAGGTGGCTGGCCTCCTGTGTTCTGCCCAAATTCCCTGTGGACAGCTGCCCTGAAGTTCATGGGGAGAGTGGACCCAACTCTCTACCT
W
GCCATCAGTTCTGACCACCCACCCACCTGTGACTCCCTGCGTTGGGTAGAAGGTGGTGCCTTCCTGAGCACATTGCGGCTTCTCCCTCGCCATAGTGGCC
Celera SNP ID:            hCV25964283
SNP Position Genomic:     348109
SNP Source:               Applera
Population(Allele,Count): african american(T,22)   caucasian(A,1|T,39)   total(A,1|T,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:31541):
GTTTGGGAACCATGGTGCATTTCCCAAAATTACTTATTTTTTTCAGGCAAACCTACTAACATCATATTGGATAGTATTCTGTGCAACATGATTTGGGAAC
Y
GTTGGGGTAGAGCACATCAAGAGGGCTCCCTGCTGCAGAAGGAGACGCTGCAGTCCAATGGGAAACACCCCTGAGTTTTGATGGAGCGAGTGTGCTTAGA
Celera SNP ID:            hCV29130313
SNP Position Genomic:     125370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31542):
TAATATAATGGGTTTGGGATCTGTTACATAATCTATTCCAGCCTTGAAGGTTTACATTGACTTAGCTTGTTAAAAGTCCTCCTACGCATTTTATTTTTTA
W
TTGTTTTCTGAAAAATCCTTGCTTTATTTAACCCAGCATTTCCCAATTCTGTTTAACCGGTGAACATTCTAGAAACATGCTTTGAAAAATAACCTAGTTT
Celera SNP ID:            hCV29130314
SNP Position Genomic:     126913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31543):
GGGGTCCCAGGAGGATGACGGGGGTGCTCCCTGAGGCCCTCTGGTCTTTCACTGCCCTCTTCACTCCTTCTATAGCTCTCTGTGGTGGCTTCATTCAAGG
Y
TCCAGTGGGACCATCTTGTCGCCAGGGTTCCCTGACTTCTACCCCAACAACTTGAACTGCACCTGGATTATCGAAACATCTCATGGCAAGGGTGAGTGTT
Celera SNP ID:            hCV25955464
SNP Position Genomic:     447422
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,26)   total(C,59|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:31544):
TCTGTTACATAATCTATTCCAGCCTTGAAGGTTTACATTGACTTAGCTTGTTAAAAGTCCTCCTACGCATTTTATTTTTTATTTGTTTTCTGAAAAATCC
Y
TGCTTTATTTAACCCAGCATTTCCCAATTCTGTTTAACCGGTGAACATTCTAGAAACATGCTTTGAAAAATAACCTAGTTTTGGTACTTTCCAGAAAAAT
Celera SNP ID:            hCV29130315
SNP Position Genomic:     126932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31545):
AGGCAAATTATGGTAGATCTACCTAATAGATTTATGCAGTCATTTAAAAGTATAATAGCATTATTTGGCAATACAGAAAGATGTTTATGATATTATTTTC
Y
GTGAAAAAACCAGAATGCAAAATGGATTCTTCATATTTATTACAAACATGTAAAGTAGGTCTTATATGAACAGGGACTGGATGGAAATAAAAAAAGAAAC
Celera SNP ID:            hCV29130316
SNP Position Genomic:     153021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31546):
ACATACTTTCCAAACTGGCATATATACTGGATTTTATCAAAGTTGACATTCTATTGACTGTAAGATGTACCATTATTTTATGCACCACTAAGAAAGAAAA
M
AGTGCCAGTTAAACGATCACGTACCCTTGGTTGTAATACTCATTCTAATTTCTGAATTGTTTATATGTGAAAAAAAACTGTGAAATACTATATAGCCCTG
Celera SNP ID:            hCV29130317
SNP Position Genomic:     154200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31547):
CAGAGTGGCCACTAAATCCCCATGTGTGGGCTTAGGCCTTTTGTTAATTATTTGTTTCACAACAACTCTGCCTGAAAACAATCAGCAATGGCTCCCCAAA
R
AACATGGGAAAATTTAAAATTTATGTGGTTAATAGGAGGCAGCATACAAATCACTTCTAATTAGCATGCAACGAGACTTTGTGGCCACCCTGAATATTAA
Celera SNP ID:            hCV29130318
SNP Position Genomic:     168527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31548):
ATAAACATAATGTCGACCCTACTCCTTATAAAATAATAATCCTGGCCATGTTGCTGCAAACATTTCTCTCCTGAGTTGTCCCTTTGAGATTCCTTTTCTT
Y
GTATTCTTGAGTTAGTTCTGTCATTTTTCATATCTCATATATTGTCCTTTCCTGGTTTTCACCCTCTTTTTCATGGGGTATATCCTTAAGTAAATTCCTC
Celera SNP ID:            hCV3190620
SNP Position Genomic:     597467
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31549):
TTAAAAATGTAGATTCTGGCCAGGTGCAGTGGCTCACGTCTGTAATCCCAGCACTCTGAGAGACTAAGGTGGGAGACTTGCTTGAGGCCAGTAGTTCAAG
R
CCAACCTGGGCAGCATAGTAATACCCTGTCTCTACAAAAAATAAAAATATTAGCTGGGTGTGGTGGCGGCACACGCCTGTAGTCCCAGCAAGTCAGGAGG
Celera SNP ID:            hCV26469210
SNP Position Genomic:     20978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31550):
AGCTCTAGACTAGTAGCCAGAGGGGATAGTGGATGGAGGCAGTAGTGGGTACTTTGACGGATTAATCTTTCCATCTGTAATACCCCCTGAGCTGTCAAAG
R
GCAAGGATGATTTATAAGTATTACTTTCTTTCAAAGACCAAACAGTCTACTCTTGCCTAAGTAATTCCTATTCCTCCTATAAACATAATGTCGACCCTAC
Celera SNP ID:            hCV3190621
SNP Position Genomic:     597288
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31551):
CACCAGACTTCAGTTGACCCATCCCCATACTACTGTGCATGTCTTCTCCCCACTGCACCCCTTGCCTCCCACTGATGCCCTTCCTCTAAGCCTCCCACTG
Y
GTTCTCTGGAATCCTAGTTCCGTGGCCAGCAAGCGTACACCCTCAGTCCCTACCCAGCTGGCTGTCTTCACTTCCTCCCTCCATGGAGACCATGGCTGTC
Celera SNP ID:            hCV3190622
SNP Position Genomic:     596194
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31552):
AGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCATGATTGCACCACTGCACTCTAGCCTGGGTCACAGAGCAAGACCCTGTCTCAAAAAAAAA
M
AAAAAAAAAAGAAAGAAGAAAAATGTAGATTTCCAGGTCTTCCTCTGATTTTCTGAATCAGAGGATCTGAGAGCAGGGTGCAGGGATCTGCGTCTTTAAT
Celera SNP ID:            hCV26469211
SNP Position Genomic:     21189
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,8)   total(A,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31553):
CGCCTGGACTCTATTGTTAATATTATACTTCGTCACCATTATTTTCAATAGTTGCACAGCATTATGAGAAAATTGTCATTCATTTAAGTATCATTCTCTT
S
TTGGTCATTTGGATTTCTATATTCTTTGTGACGATAAACTTATAATTCCATCTTTATGAATATTACATATTTCCTTAAGGCAAATTCTCAGAAATGAGAT
Celera SNP ID:            hCV3190623
SNP Position Genomic:     595494
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,7)      total(G,7|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31554):
AGCCCAGGAGGTCAAGGCTGCAGTGAGCCATGATTGCACCACTGCACTCTAGCCTGGGTCACAGAGCAAGACCCTGTCTCAAAAAAAAACAAAAAAAAAA
R
AAAGAAGAAAAATGTAGATTTCCAGGTCTTCCTCTGATTTTCTGAATCAGAGGATCTGAGAGCAGGGTGCAGGGATCTGCGTCTTTAATGAGTTCTTCCT
Celera SNP ID:            hCV26469212
SNP Position Genomic:     21200
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31555):
ACTGCTGACCTCAGGTGATCCGCCCACCTCGGTCTCCCAGAGTGCTGTGATTACAGGTGTGAGCCACCGCGCCTGGACTCTATTGTTAATATTATACTTC
S
TCACCATTATTTTCAATAGTTGCACAGCATTATGAGAAAATTGTCATTCATTTAAGTATCATTCTCTTGTTGGTCATTTGGATTTCTATATTCTTTGTGA
Celera SNP ID:            hCV3190624
SNP Position Genomic:     595425
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,8)      total(G,8|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31556):
CCATATTGGTCCGGCTGGTCTCAAACTGCTGACCTCAGGTGATCCGCCCACCTCGGTCTCCCAGAGTGCTGTGATTACAGGTGTGAGCCACCGCGCCTGG
M
CTCTATTGTTAATATTATACTTCGTCACCATTATTTTCAATAGTTGCACAGCATTATGAGAAAATTGTCATTCATTTAAGTATCATTCTCTTGTTGGTCA
Celera SNP ID:            hCV3190625
SNP Position Genomic:     595401
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31557):
CAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACA
S
GCGCCTGCCACCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCTTGATCTCATGATCC
Celera SNP ID:            hCV26469214
SNP Position Genomic:     24149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31558):
ATATCTTGGGTTTGTCCCAGGACTAGTCACTTCCAAATGTGGGTTTCCTCTTTGATAATTATTTCATTCTTTCCACAAGCATTTACAAGATCTGTAGTGC
R
TAGCAATCTCAGTGTTTTGAGATCCATGGGGGAGATGGGTATGTGAGCACATCAATGCAAAGTGGCAGAGGAAGGAAGTGTCGTGTCAGGAGCATAATCA
Celera SNP ID:            hCV3190626
SNP Position Genomic:     594564
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(G,36)   total(A,4|G,70)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31559):
ATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCTTGATCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTG
S
TGGGATTACAGGCATGAGCCACCGCGCCAGGCCTTATCCTTTATTTCATTCGCTCCTATGGCTTTCATGCCACTGTCCAAATGCTGAGACTCTCCATACT
Celera SNP ID:            hCV26469215
SNP Position Genomic:     24273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31560):
TCCCTCTCTGTCAAGGTGAGAAGCAGGTGGAAAGGGGGTCACAAGGTAGCTCGGATCCAACTCATATCTTGGGTTTGTCCCAGGACTAGTCACTTCCAAA
Y
GTGGGTTTCCTCTTTGATAATTATTTCATTCTTTCCACAAGCATTTACAAGATCTGTAGTGCGTAGCAATCTCAGTGTTTTGAGATCCATGGGGGAGATG
Celera SNP ID:            hCV3190627
SNP Position Genomic:     594501
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,25)   caucasian(C,17|T,21)   total(C,30|T,46)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31561):
CTTTGCTCGGAGAGCCAGAATTTCAGCCTGCTGTCCCCTTCAAGCTCACAGAGGGCCATGCTTTCTTCTGCCGCTGGGTTTTTTTTTGTTTGTTTGTTTG
T
TTTTTTTTTTTGCATATGCCGATTCCTCTGTCTGGAGTATTATCTTCCCCTTTCACTGCATTAACCATGGCTCAAGTTTCACTTCCTCAGAGAAGGCCCC
Celera SNP ID:            hCV26469216
SNP Position Genomic:     30979
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,6)   total(T,6|-,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31562):
GCTCGGAGAGCCAGAATTTCAGCCTGCTGTCCCCTTCAAGCTCACAGAGGGCCATGCTTTCTTCTGCCGCTGGGTTTTTTTTTGTTTGTTTGTTTGTTTT
K
TTTTTTTGCATATGCCGATTCCTCTGTCTGGAGTATTATCTTCCCCTTTCACTGCATTAACCATGGCTCAAGTTTCACTTCCTCAGAGAAGGCCCCCTGC
Celera SNP ID:            hCV26469217
SNP Position Genomic:     30983
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|G,6)   total(G,6|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31563):
AGGTTGGTCTTGAACTCCTGGCCTCAAGTGATCCACTGGCCTCAGCCTCACAAAGTGCTGGGATTACTGGCGTGAGCCCAGGCCAGGGTTTTGGTCTGTT
K
TCTTCACTGTTGTATTGCAAGCACTTAGAACAATATCTGGAAGATAATAGATACTTGATGTCTATTTGTTGAATAAATGAATGAAATAAGTTGAAGCCAT
Celera SNP ID:            hCV3190629
SNP Position Genomic:     593426
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31564):
GAATTACTTCAGAAATTTTCAAAACATGTAAGAAAATGTAAATGGAACACAAATTATATTTCACAAAAATGGGATCATTGTAGATCTATCATATACATTA
Y
TCTGTAACATGCTTTTTTCTCTTAGAAATGTCTCTTATACCTCTTTCTGGGTAGGTGTACATAGATTTATCTCATTCCTCTTAGTGGCTACATGATATTT
Celera SNP ID:            hCV26469218
SNP Position Genomic:     35509
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31565):
CATAGATTTATCTCATTCCTCTTAGTGGCTACATGATATTTCATAAGTTACTGTAAATTAGTCAATCAGTTCTTTTTTTTTTTTTTTTTTTTTTTTGAGA
Y
GGAGTCTTACTTTGTTGCCAGGCTGGAGTGCAGTGGCGTGATCTCTGCTCACGGCAACCTCCGCCTCCCGGGTTTAAGCGATTCTCCTGCCTTAGCCTCC
Celera SNP ID:            hCV26469219
SNP Position Genomic:     35669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31566):
TGTCCTCATCAGTTATACTGTGCTGCTTTTGAGGCCTGAATCCCACACTTCTAATCCTCAAGCAGCTATTGTCCATTCCTTTCCACCACAAGCTCCTGGG
K
GGGGGGGGGGGCAGGCTGTAAAGTCATTCTTGGTTTCTAGCCCCAAACACCCATCTAGATGGAACTCTACTGTGGGTTCTTACAACTCCTCACATTTCCT
Celera SNP ID:            hCV16189915
SNP Position Genomic:     11939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31567):
TTTTGTAGGTTTGACACCCTTGTCAAAGACCATTTGACAATATATTTATTTCTGAGGTTTCTATTCTGTTTCACTGGTCTATTTGTCTTTCTTTAGTCCA
R
TGCTATACTGTTTTGATTACTGTAGCTTTGCAATGTGTTTTGAAATTAGGAAGTGTGGGGCCTTCAGCTTTGTTTTTCTTTCTCAGATTTGTTTTGGCTA
Celera SNP ID:            hCV8020880
SNP Position Genomic:     52217
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|A,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31568):
AAGGCCCAGGGCTGAGATAGATATTAGAGTAAAGGGTCTTTTTATTTTGGCAATTTTAAGGTTTTTATTTTAAAATCTTTCGTTTTCAATTAATCGCAAT
Y
ACTATTCTGTGATTTTTAGGACAGTTTAGGTGAACCCCACCTTAAGAATGAAAACGAACAAAACTCTTTCCATTCCAAGAAGTTCCACTAACAAGCAGGT
Celera SNP ID:            hCV8922400
SNP Position Genomic:     354636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31569):
CAGCTTGGCCTCCCCTTCCGCATCCCACCCAACCTCCCTGACAGGATGATTAGTTCTGGGAGCTGGGATTTCCTCAGGAAGGCATCTGAATTCTCAGGTG
K
GTACCGAGGCCCTGCACTTACGTTTGTGTTCCCTCCCTGGCAGTCCCTTGTGGCGGGAACATCACTTCTTCCAACGGCACTGTGTACTCCCCGGGGTTCC
Celera SNP ID:            hCV27509944
SNP Position Genomic:     569116
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,58|G,1429)   total(G,1429|T,58) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31570):
TCCACGGTGGGAAACAGAATGGAGAACATGTGGTTAGGTAGTGTCTCACAGTCTGAGTCGAGACTAGGAAAGGGAATAATCCCAAGGTTGAGAAGTGGAA
R
AGACATAAATGGCAAGTGGTGGGGTACACATGACTTAAACATTTATTGGCTCCAGCCAACTAGATGTGGTCACTCAGATGTTACCATTTGATGCCCACAC
Celera SNP ID:            hCV11860151
SNP Position Genomic:     624153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31571):
AAGGAGAAAGAGAGACTGCTAAGTCTCCTGGGTTTGAACTTGGATGATATGTCCTGGGCTTCCCTGAAGGCCCAGGGCTGAGATAGATATTAGAGTAAAG
S
GTCTTTTTATTTTGGCAATTTTAAGGTTTTTATTTTAAAATCTTTCGTTTTCAATTAATCGCAATTACTATTCTGTGATTTTTAGGACAGTTTAGGTGAA
Celera SNP ID:            hCV8922401
SNP Position Genomic:     354570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31572):
AGCTAGGCGGTTAAGAAATGAAGCTATGCTAAGCAGTTTGGACTTTATCCTATGGCATCGGGGAGCCAGTAAAGATGTTTCTGCAGGAAAAAATTTTTTG
A
AAAAAAAAAAGGTCAGATGGTTAGTGATTGTTAAGATTAGAGGACAAAGTAGAAGATGGATTAGAGGGAGAGTTTACAAGGAGGGGACATTAGTCGGGAG
Celera SNP ID:            hCV11860152
SNP Position Genomic:     624960
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31573):
CAACAAAGCAGGGCCTCATTCTGTCTCTGCCTCCACCTCCCACCCTGAGACATTGCCCCAGCTGGTGCCTCCCTGTGACTGTCCATCTCTGTGTGTGCTG
K
TTTTTTTTTTTTTTTTTTTTTTGCCTTGTAGTAACTCAGGTTGGTGTGTCCCAAGGACATAATATGTGTCCAGACCCTGGCATACCCGAAAGGGGCAAAA
Celera SNP ID:            hCV8922402
SNP Position Genomic:     351138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,3)      total(G,1|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31574):
TGTCCATGCCCTTTAACCCACTTCTCTTCATCCTCCCCCTCCCCTGACTCACCCTTCCCAGGCTCTATTATCTGTTTTTCCACTCTCTACCTCCACGTGA
W
CCCCATGTATTTTCAATTTAAGAAGTTATTTTCACAGCTCTAACTCTAAAAGTCTAGAATCAATGACCAGATCAGTGGCAATGAGTACTCTTACTGCCTG
Celera SNP ID:            hCV11860154
SNP Position Genomic:     627087
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,9)   total(A,3|T,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31575):
CTGAAAGAGGTAAGACAGGGAGCCACAAAGACCAGAGGCCAGTGTCGTTGGAGCAAAGCTAGCATAGAGACGACAGGAGCTGAGGTCACAGAGGGGACTA
Y
TGGGGCCACATGTGCAGGGCCTTGAAGGCCTGTAAGGATTTTGGTTTTACCCCAAGTGACACGGGAGGCTATTGGATTGTTTTCAGCAGACATGATCTAA
Celera SNP ID:            hCV16205651
SNP Position Genomic:     533047
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31576):
GAGATGCTGAAAATGCTTTATATTTTGCTAATTTGAACCAAATTGAAGAAGTTGTCCCCTTGGTAGGTCTTAAGAGGATATTCTGCAAAATTTGTACTTT
M
TTTGAGTATAAGAATTGTACCAATATGAGCTTTGCTTCCCCTTTAAACAGCATGCCACAAGAATGATGCCTTTGAAATAAATCCTGTTTGAGTAATGTTT
Celera SNP ID:            hCV29130320
SNP Position Genomic:     290975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31577):
TACAGGGGGCACTTTGAATAAGGTGAATCTTCATAGCCCAAGTTGCAGCGGTGCATAAGGACAGTGTGGGCAAGGACAGGACTGATGCCAGGGATTTGAC
M
AAACAAAATTTAAAATGGGCAAGCTGGGTGTGGTGGCTCATGCCTGTAGTCCCAGCTACTCAGAAGGCTGAGGTGGGAGGATTGCATGAGCCCAGGAGTT
Celera SNP ID:            hCV11860157
SNP Position Genomic:     630045
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31578):
CCTTCTAAAAGGAAATGAATGCTCTCCGGACCAGAGCCAAGCAAGCAGCTTAGACCCATTCACAAGCAAAAGTCTGGGGCCTTGAGAGTTCCAGGGCATT
M
AATCACCATCAGAATAAGACTAGGGTCTTGAAGCTCATGATCTGGAGCACTTAGAGTGGGCAAGGAGCAATGACCCCACAGCTACTATGACACATGGTAG
Celera SNP ID:            hCV29130321
SNP Position Genomic:     294937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31579):
ATAGCAATGTGCAGCCAGGGTAAAGACACCCTGCTCTTGATCCATCATCTCCAGGAATCACAGGGCCAGATTTTACCCTCAATTACAGCAGCATATGCTC
Y
TAGCATATCTCTGTCAAAGTATCTCTCAGATTTTGCAGCATGATGGAATCACCTAAGCTTTCCAAAACCCTCAGTGCTCAGGCCACAGCAACAACAGCAA
Celera SNP ID:            hCV29130322
SNP Position Genomic:     311889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31580):
AGCATTAGGTCTCAAGCATGTGCACTGCATTGTCCATCTTTGGGATAATTCTGAGTGAGGTGAGGAACCAGTGTGCCAAACCCTGGCTTCATCTGGCAAA
R
GACTGTGGGTAATGAAAGCATTTCTGCAGGGTAGGTGGCTAAATGGCAAGGCAGCCCTCAGCTACAAGGGAGGGGCAGAATGCAGGATGTATACCCAACA
Celera SNP ID:            hCV29130323
SNP Position Genomic:     333187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31581):
TTCTGAGTGAGGTGAGGAACCAGTGTGCCAAACCCTGGCTTCATCTGGCAAAAGACTGTGGGTAATGAAAGCATTTCTGCAGGGTAGGTGGCTAAATGGC
R
AGGCAGCCCTCAGCTACAAGGGAGGGGCAGAATGCAGGATGTATACCCAACAATTTTTCAAGTAGGAAAAAGGCAAGGTCAGATTTCAGTTTTTGAAAGA
Celera SNP ID:            hCV29130324
SNP Position Genomic:     333235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31582):
AAAAGGCAAGGTCAGATTTCAGTTTTTGAAAGATCACCCCCTGCAACTTTTTAAAAGATGGGCTGGAGGGGATGAATCTGCAAAGAAAACTCTAGCAAAA
R
AGGATGAGTATAGGTAGGAGTGTCTTAGAACATTGAAAGAAGGATACACATTGGAGAAATTGTGTAAGGCTGAGCAAATTGGATTTGGAGAAGGAGTAGT
Celera SNP ID:            hCV29130325
SNP Position Genomic:     333403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31583):
GGAGGGGATGAATCTGCAAAGAAAACTCTAGCAAAAGAGGATGAGTATAGGTAGGAGTGTCTTAGAACATTGAAAGAAGGATACACATTGGAGAAATTGT
R
TAAGGCTGAGCAAATTGGATTTGGAGAAGGAGTAGTGGCAGGAAAGGAAAAGATGGTTCAGCCAGCAAGACTGGCAAGTGGCAGGGCAAGGGGAATGATC
Celera SNP ID:            hCV29130326
SNP Position Genomic:     333467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31584):
ACATTTGTATTGCCAGATTCTTCTAGCTAAATGTGTACCATGTGTCCCGCTAACCTTTACAACAGCGGGAAAATGTCTTGTAATTAACCAGAATATAAAG
R
ATGAATGGAGCAGCCTGGCAGTCTCCTGTAGTCATTATCATTCGGAGGAGATGAATGTACCTAGTAAGATTTCCATCAACCAGTTACAGCCAGCACTTTT
Celera SNP ID:            hCV29130327
SNP Position Genomic:     333862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31585):
GGGCCCCTGGACCTGGCTGAGCAAAGAGAGGACTGGGGAAGTGTGGGGGTGGGTCCTGCCTCGGGTCAATGGGGAGGCACTGGGGGCTCTCTTCTTGGGC
R
TGGGGAGGATGACATCTTTCAGAACATGTTCCTGCTACCAGTGTTTGTAAGGTTAATAGGGGTCTAGTTCTGGGGAATGGTCTGGAATGTGGGTCCCAGA
Celera SNP ID:            hCV29130328
SNP Position Genomic:     346589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31586):
GTGCAGTGGAAAGTGCCTGGCTTCAGAGTGTTGTGAGGTGAACTGGGTGGAGGCATTAAGCATCTGGCATCATGGCTGACTCAGGGTGGCTGTTCCGTCC
R
TAGAGTACCCTCTTCATTTGCCTTATTAGGGACACTCAAAGATGAAAAGTGTGCAGTCATCTGAGTTTGCTCTTGTAGAAGGGGCCAGGAAGCTCCAGTC
Celera SNP ID:            hCV29130329
SNP Position Genomic:     196800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31587):
TGTGGATACAGCACACATAGGACACAGCGGGCAAAGCAGGAGTAGGGAAACAAATTCGGCTTGGAAGGCAGCTATTTAAAACAACCATTTCACCGGCAGA
S
GGATATGATCACCAAGAAAGAGGCCGGGGACCTCACCAGGGGTGGCTGTAAGGGCCCCACACGCGCATCCTGCCTTATCCATCTCTGCCTGGAAGACCCC
Celera SNP ID:            hCV3190630
SNP Position Genomic:     592868
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31588):
GTCAGTTGTAATTACAATACATATGCCACGTAGAAAGTGAGTTAATTACATGGCGCAACAATTAGTACTTAATAATTCAGATCGAGTAGATGAGTGTAAT
Y
TGCACCTGCGTCTGTCACTGTGACTAAGTATATTTTACAACCGAGATTCTTGTTCCTGAGGGAGGTAACCATGTGGATACAGCACACATAGGACACAGCG
Celera SNP ID:            hCV3190631
SNP Position Genomic:     592696
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,23)   caucasian(C,9|T,29)   total(C,22|T,52)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31589):
ATCTCATTCCTCTTAGTGGCTACATGATATTTCATAAGTTACTGTAAATTAGTCAATCAGTTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTT
R
CTTTGTTGCCAGGCTGGAGTGCAGTGGCGTGATCTCTGCTCACGGCAACCTCCGCCTCCCGGGTTTAAGCGATTCTCCTGCCTTAGCCTCCCGAGTAGCT
Celera SNP ID:            hCV26469220
SNP Position Genomic:     35678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31590):
CCAAGGCGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATG
R
TGGCATGCACCTGTAATTTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCACGCTACTGC
Celera SNP ID:            hCV3190632
SNP Position Genomic:     591880
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31591):
CAGGCACTCAGGGTACTTTGCTGTCCCCCAACTTTCCTGTGAACTACAATAACAATCATGAATGCATCTACTCCATCCAGACCCAGCCAGGGAAGGGAAT
Y
CAGCTGAAAGCCAGGGCATTCGAACTCTCCGAAGGAGATGTCCTCAAGGTAAAATTGATCGATTTCAGAGTATGTGTGTTATAGTATGCAATAGTCTAGT
Celera SNP ID:            hCV25928876
SNP Position Genomic:     462563
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,34)   total(C,1|T,67)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:31592):
TCTCTGCTCACGGCAACCTCCGCCTCCCGGGTTTAAGCGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACTACAGGCACGTGCCACCACACCAGCTA
S
TTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAAGATGGTCTCGATCTGTTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTG
Celera SNP ID:            hCV26469221
SNP Position Genomic:     35811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31593):
TGGGAAATGAAACCTGGCTCAAGTCTGCAAACTGGGCAAAGGATTGCACCTTTCTGCTGGGGGCAGCTTTTCTCATCCTGCAGTTAGCTACTAATGATCT
R
TTTTGTTCATATAGTTATACTTGTTTTGGCTGCTCTTCTTGGCTTCCTATTTACCTTGCCCTTAGGAACATCATGCTCTATGAGCCATCTTCGTAGATCC
Celera SNP ID:            hCV3190633
SNP Position Genomic:     589322
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31594):
ACAACTTTTTAAAAACTTGCGAATCTGATGGAAATCAGAAAAGTAGCTCATTATTGCGTTCCTTTAATTATAACTGAAACTAAGCATCTTTTCATGTTTC
Y
CAGTTGTCTGTATCTCTTCTCCTGAAAACTATCTGTTTATGCACCTTGCTTGTTTTCTATGGCATTGTTTCTATTTTTCTTACTGATTTATAAGAACTCT
Celera SNP ID:            hCV26469222
SNP Position Genomic:     36467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31595):
GCATGTCTCAGCATGCTTCAGACCACTGGACCCTAAAAATTCATAGCAGAACTTTGTAGGATTTACCTCTTACCCTCTGGAGCACATGCATCTTGAAAAG
K
CATCTTGCCAAAGCACTAATTGTCCCTTCTCACTCATCAGGTCTAATTAATATGATGTCCTCAATAGAGTGAACCAATATGTTATATTCTGCAAGATGTC
Celera SNP ID:            hCV3190634
SNP Position Genomic:     588569
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31596):
TTAACAATGAATGTGTCTTGATGCTTTCTTTTATAATAATTTCTAATCTAAAATAGGGCAGCAAATGTTACTATGGTAATGTAGTGACTACTTATTTGGA
W
ATGAAAATATGAAGTTTTCACATTTCTGAATTAACCTAAAGGGATATTTGCGGCCTCTTTATCCCCTAGGCCTGTCAGAGAGAAAAGAAACTCCCATTTC
Celera SNP ID:            hCV26469223
SNP Position Genomic:     36881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31597):
AATTAACCTAAAGGGATATTTGCGGCCTCTTTATCCCCTAGGCCTGTCAGAGAGAAAAGAAACTCCCATTTCATGGCTTTCCCCTCTCCAGACTATTACT
R
TAATGGGTTGAGATTTAAAGAAGAGTTTGAAGATCTAGGGCAAAGAGTGTTGGCTGTTGTCAGGCAAACAGATGTTTCTAATGTGATGGAGGCACCAAGA
Celera SNP ID:            hCV26469224
SNP Position Genomic:     37010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31598):
CTCCTTTTCTAAGTTCCAAGCTCAATGTCTTCCTTAGAATGACATTTTTTTCTTTAGCTATATAAATAGTACTAATTAAGCCACAGCCAAGTTCTGAGAC
Y
TTTCTGTTCAAGATGCAGTTTTCATCATTCCCTCTACAATTTATTGAAGCACTATGTTGCATGCTTTACATATATTATTTCATAATATATATATATACAT
Celera SNP ID:            hCV3190636
SNP Position Genomic:     586920
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31599):
AAGCATGAGGCCTGACACTGAGGTGCCCAACCAATGTTTGGTGATTGAATGAATTAATTTGAAAGCTGTATTAGTCAAGGTTCACCAGAGAAATAGAACC
A
AAAAAAAAAAAAAGGTGTGTGTGTGTGTTTGTGTGTGTGTATAAAATTTATTATGAGAATTGGCTCATGCAATTATGAAGGCTGAAAAGCCCCACAATCT
Celera SNP ID:            hCV26469225
SNP Position Genomic:     38296
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31600):
CAGAGGTGAGATGGGTGAACAGCCCATGGCAAAGTCTTGTACCCAAAATAGCATTACCTGAAATTGTAATCCTGGGATTAATTTTTGGTCTTGCAGTTCC
M
GTTCCAGAACCTCCCTTTTACCAGTGTCCCAGAATCCAGCAGACCCAGGAAGCCTGTCTAAAGGCACATCTACTGCAAAACACTGATTTCTCCGTGTGCA
Celera SNP ID:            hCV3190637
SNP Position Genomic:     586446
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31601):
TGACTGCCAGTCTACCCACGCTTCCCCTCCCACCACTCCTGCATGCTTCTCCATACCCCAGGTGTACTTGCCTTTTTGCTTTTACTGGAAAACAACAAAC
T
TTTTTTTTTTTTTTTTTTTTTGCCTCCAGACATTTCTTCCTGCTGTTTTTTTCTGCCTGGAATGCTCTCTCTCCCATCTTCAAACAGTTCGCTCTTACCC
Celera SNP ID:            hCV26469226
SNP Position Genomic:     40866
SNP Source:               Celera
Population(Allele,Count): no_pop(T,8|-,9)   total(-,9|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31602):
TCCCCCACTTCTGGGAAAGCAAGAGTAGGAAGAACCTGCAATATGGACTGTCAGTAAGGAATAGCAGACCTGGTAGAGGCAGGAGAGGACCACGAGGCCT
R
AGAGAACTTAAGTATCACCACATCTCAGTGCCCTGTGCTGGTCATCGGATTAGTGAAATCAGGAACATGTCAAAGCTAAGCGAGTTTCCTCTTAGAAGAC
Celera SNP ID:            hCV3190638
SNP Position Genomic:     586069
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31603):
ATGGGGTTTCACCGTGTTAGCCAGGATGGTCACGATCTCCTGACCTCGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
Y
GCGCCCAGCCTATCATGGGCTCTTTTAAATTCCTCCCTATTTACACATATCCTTCCATGTATTGTAACTGATACATGTAAGCACATGTGCACACACACAC
Celera SNP ID:            hCV26469227
SNP Position Genomic:     41897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31604):
AGTAATTGCTCCATGTTTGTGTTAATATTATCATTAGTGCGACTACTGTTTCTAGAACTACTGCTACCTGCAAATATTCAGTAGCCTATGGGGAAACAGG
Y
CAGCCTTTCCCCCACTTCTGGGAAAGCAAGAGTAGGAAGAACCTGCAATATGGACTGTCAGTAAGGAATAGCAGACCTGGTAGAGGCAGGAGAGGACCAC
Celera SNP ID:            hCV3190639
SNP Position Genomic:     585961
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31605):
CTGACCTAAATTGCTTGATGCTATTTTGGTGAGCAACCACGGTGCTGCAGGGCTTCTGCAGAACGGCCTGCCAAATTGCTGCCAACACACACACACACAC
R
CACACACACACACACACACACACACACAGCCAAGGTTGATGGGAAGTGTGCTTGCACCATCTGTGCACGGCCTACCTGTGTGTGCCCTGGAGCACATGTG
Celera SNP ID:            hCV26469228
SNP Position Genomic:     45744
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31606):
CCCAGGTTCCCCAGTTCCTCATCAGCACCAGCAACTACCTCTACCTCCTCTTCTCTACCGACAAGAGTCACTCGGACATCGGCTTCCAGCTCCGCTATGA
S
AGTGAGTCTCAGTGGGCTCAGGAAAAGGGATGACAAGGTCAGCCCAGGTGGGTCAAAGGCCTCAGGACTGTGCTCCACCACAGGCCCCTGCTTGGCCCCA
Celera SNP ID:            hCV25926196
SNP Position Genomic:     446360
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,1|G,37)   total(C,1|G,71)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:31607):
AGTTCCCGAGACTCCCCCCCGCTTCAGACACCAGTCACATGTCCAAACCTCCAGAACTTCTGACCAATTGGCTTCAAGTTGGGGTTCCCACAACCCCCCC
Y
CCTTTAAGTTTGATTAATTGGCTGGAGTAGCTCACAGAAGTCAGGGAAACACATACGTTTACCAGTTTGTTATAAAGGATATACAAAGGATACAGATGAA
Celera SNP ID:            hCV26469229
SNP Position Genomic:     47756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31608):
GGTCAGCAGAGACTTTGGGATGGGTATGACTCGTGGGTCACAGGGTTGACTAGACAGAATCTAAAGAAGGTGGGTGCTTAGCTGGGAAGTCTGCAGTAGG
R
ACGGATCACTGTGAAGCTCTAGGGGGACCTGGCTTACCACAGATAAGGCAGCAAATACAGCTCAGGCTTCCTCCTCCTTCCCACCTTCTGGGTGCCTTAG
Celera SNP ID:            hCV8922410
SNP Position Genomic:     348881
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31609):
CACTCAAAGATGAAAAGTGTGCAGTCATCTGAGTTTGCTCTTGTAGAAGGGGCCAGGAAGCTCCAGTCCTAAGAAGGTCATTCCTTGGAGATACTCCTTC
Y
GTTCTGTGGGACTTGGAGGCTTTAATGTGCAATGTAGGAATTGGATCCTGAGATGGGCCTTATCTGACTTTCAAGCTCATGCTCAAACACTTGCCAGTAT
Celera SNP ID:            hCV29130330
SNP Position Genomic:     196933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31610):
TTTCTCAAGGTGCACTGATTTCATATTGTTCAAACACACGTTTTACAATCAGTTTGTACAGTTAACACAATAGTGGTCCTGAGGTGATGTATACTCTCAG
M
TTACAAAGATAACAGGATTAAGAGATTAAAGTAAAGACAGGCATAAGAAATTATAAAAGTATTAATTTTGGGAACTGATAAATGTCCATATTAAAATGAA
Celera SNP ID:            hCV29130331
SNP Position Genomic:     375165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31611):
AGAAGGGGAAAGGGAACCGCCATATGTTCTTCACGTGCTGCAAGGGGGCTGTGTGGTTCCCATGAAATGGTCAGCAGAGACTTTGGGATGGGTATGACTC
R
TGGGTCACAGGGTTGACTAGACAGAATCTAAAGAAGGTGGGTGCTTAGCTGGGAAGTCTGCAGTAGGAACGGATCACTGTGAAGCTCTAGGGGGACCTGG
Celera SNP ID:            hCV8922418
SNP Position Genomic:     348813
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31612):
CAAAGACTATGATTGTCTTGAAGAATCTCCTAGACCAGGGATCAGCAAACTATAGCCTACAGGCCAAATACAGCTCTTTGCTTGTTTTGTAAATAAAGTT
Y
TGTTGGAACACAGCCACACCCATTCATGTACACATTGTGTATGGCTATGTTCATGCTACATCAATAGAGCTGAATATCTGTGATACAGATCACATGACAC
Celera SNP ID:            hCV29130332
SNP Position Genomic:     375643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31613):
CTAAGTGGAGCAGGCAGGGGTCAGCTGCCTGGGTTTTGCTTGGAGAGAAGCCCTCAAAAAGGTCCAGATTGAGCTCAGAGTCCAGAGGGAATGTGGGAGG
R
AGGACACCCCTGGTCTTGGGTGTGGAGCAGAACTGAGGTCAGGGCGTCGGTGAGGCCGATTGCTGAGAAGGTGGAGGAAGAGGCCACTTCCCACAAGGAA
Celera SNP ID:            hCV15986407
SNP Position Genomic:     43143
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3|-,5)   total(G,3|A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31614):
CTTATCCTCCTGGGAGCAGCTATGTTGTCTCACAATGATGGCAGAGATGCAAGAGGCCAAGCCTAATCTGGCAAGTGCTTTTATGCCTTTGAACACATCA
W
GGCCTCCAAATTTCCCATGGCCAAAGCAAGTCACAAGGCCAAACCCAAAGTCAAGGAGTGGGGGAATGTACTCCACCTCTGTAATGGAGGGAGCTAAAAA
Celera SNP ID:            hCV8922419
SNP Position Genomic:     345358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31615):
GAGAACTGAGACAAGTCAGGCTCACAGATGAGAAGAAATATTCTAGGGCAGTGACAGGGAGCAGGAAGAGCCTGCGTAAGTCAGGGTCATGAATAGGCTG
Y
CCTGGTGTGAATGCCCAGGACTTCAAGTGGCCACACAGGCTGTGCAGTGGAGGGCAGTCAGCAGGGAGCAGGTGCAGAGATGCCCTTCTTATGTTTCATG
Celera SNP ID:            hCV29130333
SNP Position Genomic:     376198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31616):
GAGGGTGAAGTCAGGTAGAATTTGGGTTCCTTGGAGGCACCCCCTCTCACCCACCTCCCAAAACAGGCACCCGCCCAACCTGCCGAAGGCACTTGAACCA
R
TCCCACATGACCCTCCCAAGCTTGCAGAGAAGGCAAAGAAGTAATCAGCTGCTTGCCACTGGGCTCCACGGGGAAAACCCAGCTCTGTCCTTTCACGAGG
Celera SNP ID:            hCV29130334
SNP Position Genomic:     200054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31617):
CACTCATAATATTTTCAGATCCTTTTTATCTTGATCTTGATTTCAGGGTAGTATATTTTATTTTGTCTCTTTCATGCTTTTGGACATAAAGTATTATAAC
W
GTCATATCTTTATTTTGTAATGGGCTCATTATCCATGTTTTAAATATGATATTTGGATTTTGTATTAGGTCTCTATAAAGGACTACTGAAAACTCTCTTT
Celera SNP ID:            hCV29130335
SNP Position Genomic:     423030
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31618):
CGTTTATATTAACTCTTCTTCCCATCCAGGAATACAATATGTCTCTCCATTTGTTTATCTTCTGTAGCCCTTGGGAGGGTGCTATAATTTTTATTTAGGC
R
GTATTCATTGTTTGTTAACTTTATTCCCAGATATTTCATGGAGATTTTTGTTGCTGTTGTAAATGGGTCTTTTTTCCCCCATTATGTTTTCTAGCTGGTC
Celera SNP ID:            hCV29130336
SNP Position Genomic:     540038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31619):
ACTAGTATATTCAAAGACTGTTGTTTTTGGCATATTTGCTTTGTAAAGTCATCAGACTCTTCATAATACTGCTTACACTGCCAACTAATTCTCCTGGCTC
Y
TCTAGGCAAGAAGTAATATCATCTGCAAATAAATTTGTCTCATTATTTTATCTCCTCCTTTTCAGTGGCTTTTCTTTTATTTTCTTCCATGGTTATTGGT
Celera SNP ID:            hCV29130337
SNP Position Genomic:     540242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31620):
GCTCCTGGAAAATAGCACTGCCCGTGGGCTTTGGTAAGTCTCTGCAGCCCCCAGAGGAGACAGGCTTCAAGCCCAGACCCTTGAGCTTAAAACTACTGTC
Y
GCCAAAATCTCTTAGCACAAACTTGGGCCAAGTCTGTTTAGTACTCTGCCTCTCTGTTTTCTCATCTGTTGACCTCTTGTACAATTGTGAAGACCAATTA
Celera SNP ID:            hCV29130338
SNP Position Genomic:     557272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31621):
GGTGATCTAATTTTGAAAAATCTTATCAGTAAACAAACATAAATGTTCCCACCTTCGTTCTTGAAAGAGTATATTACTATGTACATTAAGAACTTAATTA
S
ATTTATTTAACCTGTCAGGTTGCTAGAATGTCTTGATTAACTCACTAAGATCCCAAAGTAGAAACTTTATTTGGCTTCTTTATGGAACAGAGGGGACAAT
Celera SNP ID:            hCV29130339
SNP Position Genomic:     559896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31622):
AAACTGAGGATAATGATAGTACTTATGCCATGGCGGTATTAAATGGGTTAATAACATAAACCAGTTTAGAATGATGCCTGGCATGCAGTAATTGCTCCAT
R
TTTGTGTTAATATTATCATTAGTGCGACTACTGTTTCTAGAACTACTGCTACCTGCAAATATTCAGTAGCCTATGGGGAAACAGGTCAGCCTTTCCCCCA
Celera SNP ID:            hCV3190640
SNP Position Genomic:     585875
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31623):
AGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGAGTGCAGTGAGCCGAGATTGCGCCATTGTACTCCAGCCTGGGCAACAAGAGCAAAACTCAATCTCA
R
AAAAAGAAATTACAGTTACCAATTAATTGTTGTCCTACTATACACCTCATATTGCTCTGTATAAATCTTACACAAACTCCCATGCCCCTCGTTTCTTCAC
Celera SNP ID:            hCV26469230
SNP Position Genomic:     50721
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31624):
TCTTTATTATTTAGGCTTTTTCTAGTTTTGGGCTACCCCAAACAATATCACAACAAAATAATTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
W
GATTTCAACATGAGGGCAGATGTCTATAGAATGGATTTGTTGCCTCAAAGGATATATGCATTTGATAAACTTGCCAATTTGCATTAATTTAAATACTGCC
Celera SNP ID:            hCV16091554
SNP Position Genomic:     36033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31625):
AAGTGTGCAAGGATCAACACAAGCTATATAACATATAATGCAAGTTGTATAAAACAAAAATATTTATATTTGCAGAGAATAAACACTCCAGGAACGTACT
R
TAATTGGTTAACAGTCGTTATCTCTGAGAGGGCAATGGATAAGTTTGATTTCTTCCTACTGTTCCATAGAATACCTCAAATTTTCTTTAATGATAATGTA
Celera SNP ID:            hCV3190641
SNP Position Genomic:     583619
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31626):
TGATTACTGTAGCTTTGCAATGTGTTTTGAAATTAGGAAGTGTGGGGCCTTCAGCTTTGTTTTTCTTTCTCAGATTTGTTTTGGCTATTTGGGGTCCTTT
R
AGATTCCATATAAATATTAGAATGGCTTTTTCTATTTCTGCAAAATGTGCCATTGGGGTTTTGATAGGGATTGCATCGAATCTGAAGATCACTTTGGGAA
Celera SNP ID:            hCV26469231
SNP Position Genomic:     52331
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31627):
ATGGCATGATCTTGGCTCACTGCAACCTTCGCCTCCTGGGTTCAAGTGATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCTGCCACCA
T
GCCCAGCTAATTTATTTTTATTTTTAGTAGAGATGGGGTTTCACCAAGTTGATTAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCAGC
Celera SNP ID:            hCV26469232
SNP Position Genomic:     53204
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31628):
GATTACTGACATTCAGCAGGAGATATCTGTACTTTCAAAAGGGTCATGTACTTGAATCTTCCTAGTTAAAAAAGAAAAAGAAAAAAAACGTAAAAGATGC
R
TATATAAAAAAAGATTTCATTGCAGCTTTATTTTAAATTGCAAAACTTTGGAAACCTAAATGGTTAACAGAGTATCTGTTAAATACATTCTAGTAAATCT
Celera SNP ID:            hCV3190643
SNP Position Genomic:     583336
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31629):
CTCTACTACTCCCTGACACAATTTTTAGATTATCTGTCCACCCACTCAGATATATTTTTCCCTCAGTTCATTCAAACTGCGAGAGAGAAAGAGAGAGAAA
G
AGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAATTTGAAAGAATTTATTGAAATAAGGTTCCTTTCAGCCAAGACTGCCACCTCTGTCCTTCCTCTG
Celera SNP ID:            hCV26469233
SNP Position Genomic:     59263
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31630):
CTGGATGTGGATGGTACAGTATGCAATGCACAGAGGCGCTGTTTTGTCACACCATGTTGTTGGGTGATCGTGATGTTTTAAGTATTTAACTTCTCTAACA
Y
AATGGTTTGTTGCATATATTTAGGTATTTTATTTTGTCTTAATTACTTTTTGGATTTTGGGTTGAAGTACAACACAGTATAATTTTTTCCCACTTAAAAT
Celera SNP ID:            hCV3190644
SNP Position Genomic:     583077
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31631):
AGTGACTAAGGGACTTGACCATACCCCTTGCTAGCAAGTGGCAAGGCAGAGTTAAGAACCCAGGCTTTCTGATTCCATGGCACTATGTTAGGGTTTTGGG
T
TTTTTTTTCTCTCTCTCTCATTAGGGTTTTGTTTTCTTTTTCTCTCTCTCATTTTTAAAATTAATTTTCAAATATGTCTCACATAAGGGCACAGGGCTTG
Celera SNP ID:            hCV26469234
SNP Position Genomic:     62989
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31632):
ATGATGGCACCCAGTGCTGGAGGAACAGTCACTCTGTTGACAGTATCAATGGGAACCATTTTCCTGGAGGGCAAAGTGGAAGCATGCAGCAAGTGTGGAC
R
TGGCCTTCCCAGGCTTATGTTAAATCAAAGGTAAACCCACTTGGTTACCTCAAGAGTGCCTCTTAGTTTTAACACCCACATTTCATAGAGCTTACGTATC
Celera SNP ID:            hCV3190645
SNP Position Genomic:     582514
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31633):
GGGACTTGACCATACCCCTTGCTAGCAAGTGGCAAGGCAGAGTTAAGAACCCAGGCTTTCTGATTCCATGGCACTATGTTAGGGTTTTGGGTTTTTTTTT
C
TCTCTCTCTCATTAGGGTTTTGTTTTCTTTTTCTCTCTCTCATTTTTAAAATTAATTTTCAAATATGTCTCACATAAGGGCACAGGGCTTGAAGTTGCCT
Celera SNP ID:            hCV26469235
SNP Position Genomic:     62998
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31634):
ACCTGACACAGTGCCTGACCCAGGGTGAGCCCTCCATAGACAATCATTACATGAACTGGGTGAAAGAAGAATGATGGCACCCAGTGCTGGAGGAACAGTC
R
CTCTGTTGACAGTATCAATGGGAACCATTTTCCTGGAGGGCAAAGTGGAAGCATGCAGCAAGTGTGGACGTGGCCTTCCCAGGCTTATGTTAAATCAAAG
Celera SNP ID:            hCV3190646
SNP Position Genomic:     582444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31635):
TATTGAGTGCCTCTGTGCGCCTGAGCTCTCAGCAGCACTGGGGACATGGGCAAGTTTCAGTGCTGAGTGTACATAAGAGAGGCAGCTACACACAGGCTCA
S
AGCAGCATTATTCACAACAGCCAAATGGCGGAAGCAACCCATGTGTCCATGTGCAGATGAGTGGATAAACAAAATGTGGTATATCCATATGATAATCTTT
Celera SNP ID:            hCV291920
SNP Position Genomic:     17774
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31636):
ACAAGAAACAAAGGCAAAGGAAGGCATTTCAATATTAGCTGGGCATGGACCCCAGATTCAAAAGCAGAGCCTGAGTCCTTTGGTAAGCTCAAATGAACCA
Y
GTGAGCTCACATTTTTTTCTAAGCTAATTTGGTTTTAAAGGCTGCAAATGAGGCCGAGCATGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCCA
Celera SNP ID:            hCV3190647
SNP Position Genomic:     580366
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31637):
AGAAATAATCTAAATGTAAAAATAGTAAGAGATTAGGTATTATAAATTTAAAGTGTATACTCAGAGAGAGAGAGATAGGGAAAGATACAGTCATTACAAA
K
CATTCATGTATGAACCTGGGCAACATAGTGAGACTCTGCCTCTACCAAAAAAAAAAAAAAATTAGCTGGGTGTGGTGGTGCATGCCTGTAGTCCCAGATA
Celera SNP ID:            hCV3190648
SNP Position Genomic:     579852
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|G,5)      total(G,5|T,5) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31638):
TTCATTAGGAACTCCAATATGGCTAAGAATTAGACCAGTCGTTCTCAACTAGAGGTGATTTTCCCCCTAGGGGACATTTGGCAATATCTGGAGAGATTTT
G
GTTGTCACATTGGGAGGTGCTACTGGCATTCAGTGGGTAGAGGTCAGGGACGCTGCTAAACATCCTATATGTACAGGACAGCCTCCCACAGTGAAGAATT
Celera SNP ID:            hCV26469237
SNP Position Genomic:     65943
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,13)   total(G,13|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31639):
GAGAAATAAGGATTTTGAACATATACTTTAGTCACTAATATATTTAAAATAAAGTATAGTACTTCTAAATCACTAAAAGAAAAAACATGTAAAACATAAT
Y
CAAATATAAAAGGCAGAGAACAAAGGAAACTATGTAGGGACAAAGATACAGCAAGCACAAAATAAGATACAGCAGTAGAATAAAATCATTCAATTGTAAT
Celera SNP ID:            hCV3190649
SNP Position Genomic:     577864
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31640):
TGAGGCAGGAGAATGGCATTAACCTGGGAAGCGGAGCTTGCAGTGAGCTGAGATGGGGCCACTGCACTCCAGTCTGGGTGACAGAGCAAGACTCTGTCTC
A
AAAAAAAAAAAGTGAACATTTTAATCTACATGGGAAATCTAAACAAAACAAAAAGCACACAACCAGGTAGAAAACAATATTTGCAACAAATATGACAAAA
Celera SNP ID:            hCV26469238
SNP Position Genomic:     69200
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31641):
CAATTCTGCCTGCTGGAGTTATTTAAGCTTGTCCTGCTCTTAAGGCAGAGTCCCCACATGTGTGGTCGAGTCTTTGTTTTCTGACACTTGGTTTTCTTTC
T
TTCTTTTTTTTTTTTTTTCCAGGAAACTTAAGATTTCATTTGCATAAGCCACAGTAATTAAGAAATTCAATTTGGTTTTGAAATGGAGATTGACATACAG
Celera SNP ID:            hCV26469239
SNP Position Genomic:     85209
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,10)   total(-,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31642):
TTCTCCCAGGGATAGTGAATCAGAGGGCTATCCCCCTGCCGCACTGTATTAGCTAGGCTTGAATAATGTATGTTTCCCTACTAATGCCCTCTGTTTGATC
R
TGTGTCCATGTTAGTGTTCATTGGAAATTTTCCTGCTGGATACACATGGAGAGTAATGCACATTTATAAAAACGGTTTGAATGCATGTTGGGAGGCTATG
Celera SNP ID:            hCV8922420
SNP Position Genomic:     343505
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,3)   caucasian(A,24|G,10)   total(A,53|G,13)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31643):
CATCGGTCTCTTTGTAGTCCTTACACTTTGGGGCCTCACAGAAGACTTCCACACAAAAGCCTTTCTGATATTGGAAGGCAATCCCTATGCCTTAGCAAAG
A
AAAAACTATCCAGTGGCAGCAGCAAAAACTAACAACTGCAAGGCCAGGCCTCAGGATGGAGATATCAAGCTTTTGACCCAGTTACTCCTTTACCCCTCAG
Celera SNP ID:            hCV11860173
SNP Position Genomic:     638118
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31644):
GAGCCCATATCCTCTGCAAAGTCCATCCAACCTCTCCTTTCCCTGGTGCACACGGAGAGGGGTCTGGGTGGCTGCAATGACTGAGTGCCCCAATGTCAGT
S
ACCAGCTCTCTCACCTACTAGCTGTGGGATTATTAGGCAAGGTACTTAACCACTTCAGGCTTCAGTGTCCGCATGATGGAAAAGAAACTTTAAGGTGCCT
Celera SNP ID:            hCV27834488
SNP Position Genomic:     592347
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,1|G,33)   total(C,1|G,67)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31645):
GAGTATCAGGGTAAGGACAAGGAGCACCGCCTTTGCTTCTCTGTCTATCTCCATCTCTTGCCCCAGCCACCCACCTTCCCAGCCTTCCATGTGGGGGAAA
R
CAGAACACCATAAGGGGTGGGTTGCGGTGGCAGGCCCAGTCAGGGAAGCTTCCTTTTGGTGGCAGATCTCTCCGGACCCCATTTGTCAGCTTAAGTTCTC
Celera SNP ID:            hCV29130340
SNP Position Genomic:     560759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31646):
TTGTGGTGCTGGAACTGCTCCTGTTCTCCCAGGGATAGTGAATCAGAGGGCTATCCCCCTGCCGCACTGTATTAGCTAGGCTTGAATAATGTATGTTTCC
Y
TACTAATGCCCTCTGTTTGATCATGTGTCCATGTTAGTGTTCATTGGAAATTTTCCTGCTGGATACACATGGAGAGTAATGCACATTTATAAAAACGGTT
Celera SNP ID:            hCV8922428
SNP Position Genomic:     343482
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,16)   caucasian(C,16|T,18)   total(C,30|T,34)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   (T,-|C,-)   Caucasian(C,22|T,36)   African-American(C,33|T,47)   Asians(C,29|T,43)   total(C,84|T,126) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31647):
ACCAGGTGTGTCCCTTTAGAACAAACCCACTTGCTTTCCTGAGGAGTCCTTCTTTGGGGAAGTTCATCCTTCCTCCTCTTAGGGTTTATTTCTGCCTTAT
R
TGGCCAACCTCTCCCTTTGAAGCTTCTTGCAGGGGAACAGGCTCTGAGGTTTCTCTCAGTGTTGAGGTACTCTCACTGAAGTTTCTGTCTTTTTGAAGAG
Celera SNP ID:            hCV29130341
SNP Position Genomic:     564796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31648):
CCCTTGAGAGAGGCAAGGAGCAGGAGACTTTTCCTCAGTGCAACCGTGAGAAGAGAGGAAGGGGAGGCTCCCTCTTAGCATCGCCTCCCCTCATGGCCAC
R
CATATCTCACAGTGCCCACATCAGCCCCTACATGGAAAATCCAAGCAGCTTTGCCCCTGGGAATGGCCTCTGTGGTGCTCTGGTCCCCTTCCTCATTCCC
Celera SNP ID:            hCV8922429
SNP Position Genomic:     343092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31649):
AGGCAGAAAAATAGTTTTCTTTTTTTGGTTCAAGTCAGCATCTTTTTGAGAAATAAATCCATGCAAGACAGTATAAAATGTCCTGGAATATGAAACATTC
Y
GAGGCTCACACAAGGCTGAGTTGTGAGAGGGGAGCAGTCGTCTGGGCCATTTGATGGGAGCTGAGCTAGTTATTTAAGTCTGAACAGAACATGACCCGCC
Celera SNP ID:            hCV29130342
SNP Position Genomic:     584904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31650):
TGTTTTGAGATCCATGGGGGAGATGGGTATGTGAGCACATCAATGCAAAGTGGCAGAGGAAGGAAGTGTCGTGTCAGGAGCATAATCAGTGTTGTGGGAG
Y
CCAGAGGTGAGAAAGGATCTGCTTCCTCCTGGCCAGCTGGGGAGGGCTCCCAGCAGAGGGGATGCTTGGGTTCCGGCTCATAGAGCAAGTGGGTTGATCA
Celera SNP ID:            hCV29130343
SNP Position Genomic:     594677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31651):
CACCCCTTGCCTCCCACTGATGCCCTTCCTCTAAGCCTCCCACTGTGTTCTCTGGAATCCTAGTTCCGTGGCCAGCAAGCGTACACCCTCAGTCCCTACC
Y
AGCTGGCTGTCTTCACTTCCTCCCTCCATGGAGACCATGGCTGTCCTCTGAGAGCACGTATGCTGTGGCCCTTTCAAGTGGATTGTTAATCCCCCTCCAC
Celera SNP ID:            hCV29130344
SNP Position Genomic:     596249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31652):
CTAGGAACAGGGGAATGGTCGAAAGGGCCCCTGAAGCCCCTAATCTCCTCCAGTCCAACAGGGTCTTTCCTCTCATCCAGCCCACCACTGCAGGCAGCCA
K
AGACGCCAACGCATGCCAACGTCGGGGCCCTGGATTTGCCCTCCATGGGCTACACGCTCATCTACTCCTGCCAGGAGGGCTTCTCCCTCAAGGGTGGCTC
Celera SNP ID:            hCV29130345
SNP Position Genomic:     638489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:31653):
TCTTTTACAGGCTTGCCCCCTGTAACCCTGCCCCCTCCACCACGGCCTCTGTGACCTTACCTTCTCCTACCCTCCCTCTTATTCCCTTCCCCAGCCACAA
K
GGCTTCCTTGCTGGTCCTTAGATGCCACGCGTGCTCTTCCCACCTCAGGGCCTTTGCACGTGCTTTCCCCTCTGCTTGGAATCCTCTCCCCCTGAGATAT
Celera SNP ID:            hCV29130346
SNP Position Genomic:     274790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31654):
GGTGTCAGGGGGAGCCACACTGATGGGCTGCCTGGCATGGGCAGCTGGAGCTTAGGTATCTGTACAGGGATGGAGCTGGCACAGGGTGTCAGAGCTCTGC
R
CAGGATGAGCAGACACCCATGTAGGGTATTGGAGCCCAAGCAGAGGAAGGCGGACAGCCACACAGAGAAGGTTCAGCCCAGGAAAGGAAGTCAGAGCCCA
Celera SNP ID:            hCV3190650
SNP Position Genomic:     575407
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31655):
CCTCCATCCTGTTCTCATGATAGTGAGTTAGTTCTCACGAGATCTGGTGGTTTTATAAGGGGCTTCCCTCTTCACTGGGCTCTCATTCTTCTCCTTCTTG
Y
TGCCATGTGAAGAAAGACGTGTTTGCTTCCCCTTCTCCCATGATTGTAAATTTCCTAAGGCCTCCCCAGCCATGCTGAACTGTGAGTCAACTAAACCTCT
Celera SNP ID:            hCV3190651
SNP Position Genomic:     575089
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31656):
TGGCTAATTTTTGCACTCTTTCTGTAGAGACAGGGTTTCACCATGTTGCCCAGGCCGGTCTCAAACTCCTGAGCTTAAGTGATCCACTTTGCCTCCATCT
Y
CCAAAGTGCTAGGATTACAGATATGAGCCTCCATGCCCGGTCTACTAGTGTGTCATTTAAGTCTTAAAACAGTTTATGGTTAAGTGTTACTATTAAGCCT
Celera SNP ID:            hCV26469240
SNP Position Genomic:     87572
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31657):
CATGTTATTTCTGTTATGTAAAGACAATCATTCTATAAATGTTCTTCTGTGACCTGCTCTTCTCACTCAAAATTAAGTTTTTGAAATTCATGTTGATGCA
Y
GTGACTGCACTTAACTCATTTTTCAATGCTGTATGATTTCATTGCATGAAAATATAGCAATTTATTTAGTCTACTGTTAACACTTAAGTTGTTTCATTTC
Celera SNP ID:            hCV3190652
SNP Position Genomic:     573789
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31658):
ACAACAATGAACAAAATAAGGGAAAAAATCATCACTTAAAACACAGATATATAGGGTTGAACAGAGAGTGACAAAGAGCGAGAGCTAGAAGATTCTTTGG
R
GGCCCCTCTTTCCTACATCTCAGCCTCTCTGGTTCTATCAGATGAGTCCTAGCAGCATTTTCCATGCTGCACTTTTTTGTGTGTGTGATCTAACCACACA
Celera SNP ID:            hCV26469241
SNP Position Genomic:     87957
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31659):
CAAAACCGCCATCGTCATCATGGCCCGTTCTCAATGAGCTGTTGGGTACACCTCCCAGACGGGGTGGTGGACGGGCAGAGGGGCCCCCCCACCCCCCAGA
Y
GTGGCGGCCAGGCAGAGGTGCCCCCCACCTCCCAGACAGGGTGGCTGCCGGGCGTGGGCGCCCCTCACCTCTCAGATGGGGCGGCTGCCAGGCGGGGGCG
Celera SNP ID:            hCV26469242
SNP Position Genomic:     88727
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31660):
GCTACAGTATCTGCTCTGGTGTGACTATACAGTGTTATTACATCATGCGTGCACTTGCAGAAACACACTAAGACTGTGAAAGAGGTAGTGAAAGAAACAG
R
AAGCAACAGAGAGAAACAAGGATGTAAAGAACCTAAGCAGCTGTGACTGCCATTCCCAGGAGCTATCGTCCAGGGTGAGTGCAATGTGGGAATGAGACTC
Celera SNP ID:            hCV3190654
SNP Position Genomic:     571870
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31661):
TCCTCACTTCCTAGACGGGATGACGGCCGGGAAGAGGCGCTCCTCACTTCCCAGACTGGGCGGCTGGGCAGAGGGGCTCCTCACATCCCAGACGATGGGC
R
GCCAGTTAGAGACGCTCCTCACTTCCTAGACGGGGTGGCGGCCGGGAAGAGACGCTCCTCACTTCCCAGACTGGGCGGCTGGGCAGAGGGGCTCCTCACA
Celera SNP ID:            hCV26469243
SNP Position Genomic:     89276
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31662):
TTTCTGCAGTGATGGAACTGTTCTATGTCTATGCTGCCCAATATGGTAGCCACTGGCTACAGAGTACTTGGATATGACTGAGGGTCTGATTTTTAAATGT
Y
ATTTAATCTTGATAATTTAAATGTAAATAGCCATGTGTGGCTGGCAGTGGCTGAATTGGACAGCTCAGCTCTGAGTTATGTAGTTATATACAACAAGAGT
Celera SNP ID:            hCV3190655
SNP Position Genomic:     569876
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31663):
CGGGAGGCTGAGGCAAGAGGATTGTTTGAACCTGGGAATTCAAGACTAGCACGGGCAACACAGTAAAACCTAGTCTCTGAAAAATAAAAATAAAAAAAAA
Y
TTCATGAGTACAAGTTTTGCAATTACTGCTTTCACTACATTTTAAAAAATTATTTTATTTTAGATTCGGAGGTTACATGTGCTGGTTCTTTACATGGATA
Celera SNP ID:            hCV26469244
SNP Position Genomic:     93229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31664):
TGGGAAGGGAGAGGGGACAGCTTCAGGGCATCCTTTCTTCTTGGCAGTTCTCTTCATAAGAAAGAGAAAGAGGGAGGCTGAGGCAGACCCACAGAGGGGC
M
TGCAGTGATGATTGAGAGCCAGCCAGGGTGTTCTGTGTGGGGACTGGTGGGTAGAACCAGGTGCAGCCATCCTCAGCTTGGCCTCCCCTTCCGCATCCCA
Celera SNP ID:            hCV3190656
SNP Position Genomic:     568942
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31665):
CTGTGTTAGCCAGGATGGTCTCGATCTCTTGACCTCATGATTCGCCCGCCTCGGCCTCCCAAAGTGTCCTCACTGCTTTTTTTTTTTTTTTTTTTTTTGA
R
ACGGAGTTCCGCTCTTTAGCCCAGGCCGGATTGCAGTGGCACAATCTTGGCTCAGTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCC
Celera SNP ID:            hCV26469245
SNP Position Genomic:     93770
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31666):
ACATAGCAAATGCGTCCTCTTCCAGGGCCTGGGCTGAACATTTTGCCTGCATCGTTTCACCTCATCACCACCACAATCCTATGGGGGAGGTATTCTTAGT
Y
CCATTTTACAGGTGAGGAAATGGAGACTCAGGGAGGCTAAACTACTTATCTAAGACTATCTGCTCAATACATCGTTCAGCTATGATTTGAACCCAACCTT
Celera SNP ID:            hCV3190657
SNP Position Genomic:     568583
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31667):
AATTATGATGAGATAGAAACAAAAGGAATACTCCTACATTTATAGGAAAAATTAGAAAGCACTATTTAGCAAAAAGACAAAATAATTTGTGAATCATGAG
R
TAGAGCAGTGGTTCTCAACTGAAGGCAGTTTTGTCCCCCAGGGGACATTTGGCCACATCTGGAGAAATTTGTGGTTGTCCCAACTGCAAGTGGAGAGGTG
Celera SNP ID:            hCV26469246
SNP Position Genomic:     94627
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31668):
TATAAGAACTCTCTTGCTCCCCTCTTCATCTTCCCCCTCCCTGCTCCATTATACTCTCCTACACAGGGCTGGAGAGACCTGAGTTGATCTATCAGGGAGC
Y
GGAGGTGGCACTTTCTTGGGTCTTCTTCCTTACCCAGAACCAGGAAGGAAGGTGACCAAGAGCTTGTGCTGCCTCCACCCTCATCTGCACACTTCAGTTC
Celera SNP ID:            hCV3190658
SNP Position Genomic:     566934
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31669):
GAAAAACCCATTTTTTGAGGAGAAATTCAAACTGGCTGCAAAAATTTGCATAAGTAACAAGGAACCAAATGTTAATCCCAAAGACAATGGAAAAATGTCT
Y
TAGGCCATGTCAGAGACCTTCACAGCGGCACCTCCCATTACAGCCCCAGAGGCCCGGGAGGAATACGTGGTTTTGTGGGCTGGGCCCAGGATCCCCATGC
Celera SNP ID:            hCV26469247
SNP Position Genomic:     107062
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31670):
TCCCCCATACTGTTCTTGTGGTAGTGAATAAGTCTCATGAGATCTGATGGTTTTATCGGGGTTTCCGCTTTTGCATCTTCCTCACTTTTATCTTGTTGCC
R
CCATGTAAGAAGTGCCTTTCACCTCCCACCATGATTCTGAGGCCTCCCTAGACATGTGGAACTGTAAGTCCAATTAAACCTCTTTTTCTTCCCAGTCTCG
Celera SNP ID:            hCV26469248
SNP Position Genomic:     108238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31671):
TCTCGGTGGGGGCCATCGTCCGCTTCGAATGCAACTCCGGCTATGCCCTGCAGGGGTCGCCAGAGATCGAGTGCCTCCCTGTGCCTGGGGCCTTGGCCCA
R
TGGAATGTCTCAGCGCCCACGTGTGTGGGTGAGTAACCAGGACCCGGGCGTTGAGGGTGCGGGGGGCGGCACGTAGTCCTTTCTCTGTAGGGGAGGCAGT
Celera SNP ID:            hCV25972621
SNP Position Genomic:     546615
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:31672):
TCTTACAAGAACTCTGTGAAATAGGTGTTGCCATTCTGCAGATGAGGAGCTGAGGCTCAGGGAGATTGAGTAACTCATAAGTGGTGGTGCTGGGATTTGA
G
CCCATGAGTCAGGTAGTTGAGCCCCTGAGCCCCACTCAGAACACAGATAGCAGAGAAGCAGTGAGTGGTGGCCCTGGGTGCTAGAGAGGAGCCAGGGGCA
Celera SNP ID:            hCV26469249
SNP Position Genomic:     109683
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,13)   total(G,1|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31673):
AAAAAAGTATCAAAAATGAGATTTCACAACTGTGTCACTACAAAAATGAATATAATCCAGCCTGGATTCTTTATTACAGAGCCATTATTATCCTAGTCAT
T
TTTTTTTTTCATCTGATTTTGAAAGAAACTAAAATTAGAATGTTTTCCTGGGTTCCTAAAAGTATGGTGGCCCCCAAGCACTGGGCCTCCAGGTCTAATG
Celera SNP ID:            hCV15778172
SNP Position Genomic:     654776
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,8)   total(-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31674):
ACATTTTGTAGAGTTTGTGTTGTTGGTATGCGGAACCCTTGCCCAAAGAGCTGTGACCCCTGTATTTCCCTGCGCTAACATGATGAGGACAAAGACTCTA
Y
CTGTGGATTCTAGCATGCATCCGATGACCATGTGGTGGCTACAGGCAACACTGGTGATATAACCTCTCAGACCTAGCTCAAAGCGGTAATCACCAAGTTC
Celera SNP ID:            hCV8922430
SNP Position Genomic:     342623
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   (T,-|C,-)   Caucasian(C,16|T,62)   African-American(C,2|T,76)   Asians(C,6|T,74)   total(C,24|T,212)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31675):
TCTGCAACCCCCACCAGGACTCACAGAGTTCACCGTTGATGGGTAGAAGTTCTTCCTTCATGCGAGGCATCTGGAAGAAAAGCAAAGTCGAGGGCAGGAC
T
TTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCCGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAAGCTCCGCCTCGCAGGTTCA
Celera SNP ID:            hCV11860181
SNP Position Genomic:     643735
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31676):
CCGTCAATCAGCTCCCATATGGTGTGTGCCAACTGTAGGTTCTACCATCAATCAGCTGGGCCTGAATATACATTTTGTAGAGTTTGTGTTGTTGGTATGC
R
GAACCCTTGCCCAAAGAGCTGTGACCCCTGTATTTCCCTGCGCTAACATGATGAGGACAAAGACTCTATCTGTGGATTCTAGCATGCATCCGATGACCAT
Celera SNP ID:            hCV8922437
SNP Position Genomic:     342554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31677):
TTAAGTTTGGTAATTACAGTATCAGCACATAACATCACACCTTTCCTGGTTTCCACTGGATTAACACCTTTGCTAATCTCTACCAAGCCTTCCATGGTGA
Y
GGAGCATGCCAGTACAGTAGCAATGGTGGTGCCACCCCACCCTCTTCATTTGTGTGTTGGCAACATCCTGATCAAATCTGGTGCCAACATTTATCTTGTA
Celera SNP ID:            hCV8922438
SNP Position Genomic:     332853
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31678):
CAGTCAGATCCCAGCCTGCCTTTCCTATACCTGTCACTGCCTCTCTTGCCAAGTCAACCCTGCTGACTGAGAGATGGAAGATATTCCACAGTGAAAACCA
Y
TGGCTCCTTTGCCTTCTAGAAGTCCTGCACTGAGTTTCAATTGTCTGCAGAATAAACTTATTCATTTGAAAACATTTGCATTTACTGAGATGGTTGAGGC
Celera SNP ID:            hCV8922439
SNP Position Genomic:     330625
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31679):
TCAGGAGGCTGACACAGGAGTGCATGAACCCAGGAGGCAGAGGTTACGGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGCAACAAAGTGAGACTCC
R
TCTCAATAATAATAATTTTAAAAAGTATCTTTCTTCACACTCTCATCTCCTTGCAGGTTCTCTAAGTCTCTTTCATACCCAAACTTCTGTAGCAGGATGT
Celera SNP ID:            hCV8922296
SNP Position Genomic:     420088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31680):
GCAGCGGCTGTTACCAGTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTT
K
TCTGTAAAGGATTTCATTTCTCCTTCACTTATGAAGCTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGG
Celera SNP ID:            hCV28013559
SNP Position Genomic:     497805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31681):
ATCCAGGCACCTGCCCAAAGGGAGAAGAGCATGAAGCCTCTTTATAAGAACTCTCTTGCTCCCCTCTTCATCTTCCCCCTCCCTGCTCCATTATACTCTC
Y
TACACAGGGCTGGAGAGACCTGAGTTGATCTATCAGGGAGCCGGAGGTGGCACTTTCTTGGGTCTTCTTCCTTACCCAGAACCAGGAAGGAAGGTGACCA
Celera SNP ID:            hCV11859934
SNP Position Genomic:     566892
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2|-,7)   total(C,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31682):
AGTTGGAAAGAACCAACTCAACTCCTCCCGTCGCCGCTTCCTATGTCTGGGATCTTGATCCTGGTTGTGAAGGTTCAATGAGATAAGCAACATGAAAGGA
R
TTAGGCTGGTGCCTGGCCCCCAGTGGCACTCAGTGAATAGAGGTTCAATTGAGCAATGTCTTCCTTGAGCCTCCTTTTCCTACGGAATTACTAATAATAG
Celera SNP ID:            hCV3190660
SNP Position Genomic:     565875
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,7)      total(G,7|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31683):
AGCTACTCCCTCTGAAAAGCTTCTCTCCTTGCCACAGATTTGACTTACTCCCACCAGATTTCTTCCTTCCTGAGAGGTTTTGATCTCTCGGAGTTGGAAA
R
AACCAACTCAACTCCTCCCGTCGCCGCTTCCTATGTCTGGGATCTTGATCCTGGTTGTGAAGGTTCAATGAGATAAGCAACATGAAAGGAGTTAGGCTGG
Celera SNP ID:            hCV3190661
SNP Position Genomic:     565784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31684):
GAGGCTCAGGGAGATTGAGTAACTCATAAGTGGTGGTGCTGGGATTTGAGCCCATGAGTCAGGTAGTTGAGCCCCTGAGCCCCACTCAGAACACAGATAG
C
AGAGAAGCAGTGAGTGGTGGCCCTGGGTGCTAGAGAGGAGCCAGGGGCATGGTCTTCCATGGTGAGGCAGCCTTGGTGCCCTGTGTCCCAGCCGCTCCAG
Celera SNP ID:            hCV26469250
SNP Position Genomic:     109734
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,13)   total(C,1|-,13) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31685):
TTATTACGTATGAGAAACACATGTACTTCTAAGAAGCATCTATCCAGTCCCAACTACTTCCACTGAGGATTCCCACTGTAGGAACGTTCTGTCTCCTCCC
R
CTGCCAATTTCCTGAGTGGAGTGGGCGCAATTACTGCCACGAAGGCTGTTCTGTGTCCTGTGGACCCAATTCATCAAAGGCCTTGCTCAGGAATCCCTCA
Celera SNP ID:            hCV3190662
SNP Position Genomic:     565444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31686):
TAGTTACTGAGCACCTGTTAGGGGCCAGCCACTGAGGGAGACCATATAATATGTTAATTATACTGGGCCATGTGGTCACTCTGCAGGGTTGAACAGGCAT
Y
GCAAAAACAGTGGGGGAACAAAATACACAGATTCCCATCTCTCCCAAACTTAGCCTCTAGTAAGGGAGATTAGTAAATAAACTAGGAAACAGACAGAATG
Celera SNP ID:            hCV26469251
SNP Position Genomic:     111623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31687):
ATGTTATCTTCAAGATCCGCGTTATTGATGTTGTTATTACGTATGAGAAACACATGTACTTCTAAGAAGCATCTATCCAGTCCCAACTACTTCCACTGAG
K
ATTCCCACTGTAGGAACGTTCTGTCTCCTCCCGCTGCCAATTTCCTGAGTGGAGTGGGCGCAATTACTGCCACGAAGGCTGTTCTGTGTCCTGTGGACCC
Celera SNP ID:            hCV3190663
SNP Position Genomic:     565411
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,5)   total(G,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31688):
TCACTGTGCTCTTAGGGTCAACTCCCAAATAAGCTCACTTGTAGCCAAATCCTTAACACAGGTCTTGTTTTAGTGGAAATCCAACCCAGGTGATATAGCT
A
AACAGGTGCTGAACATTTTGATAGAAATAATTGTAATAGCTATGAGCACTTATTCTGTGCTAAGTACCATTCAAAACATTTTGCCTGTATTAAGTTATTG
Celera SNP ID:            hCV26469252
SNP Position Genomic:     114508
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,12)   total(A,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31689):
GTATTCCCACAGAGGCCTCATCATTTGTGATAGGCCCAAATAACTCTCCCTGACCATAAGCCCACACTCTCTGTTTACACCTTCCTCCGCCGTACGGAGC
R
GCACCTCGTAAGCAAGCTCTGACCACTCTCCCCAGGTTTTTCCTCTGGGGAAAAACCCAGCTTCAATGAACGAGCCATTTGTCCCCACTGAGGCTGTTTC
Celera SNP ID:            hCV3190664
SNP Position Genomic:     564213
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31690):
CCTAAAGTCTCAAGCTTTTTTCACACCAGCTCACACGATAAGAGACAATCACCAGCTCCAATAATGTTTGACAGTGGCCTGGTTGGAAACCACTTTTTTT
W
AAAGAGACAGAGTCTCGCTCTGTCGCCCAGCCTAGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTTCC
Celera SNP ID:            hCV26469253
SNP Position Genomic:     116481
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,11)   total(A,1|T,11) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31691):
TGATGGGACCAGCCACTCGCTGTGCTCCCCGTGTGATGAGCCCACTTGTCCTTGTAAAGGTTGTGCCTGTGTGACCGCCTCAGATTCTCCATTGACTCCC
Y
CGACAGAAGAGGCCTAACTACCCCCACAGAGCCCTGGCCTTGGGCTCACTCGCCCCTGATTCCCCAGCCCCCATCTTTGGAAATGCTCCCACTATGGCCA
Celera SNP ID:            hCV3190665
SNP Position Genomic:     563508
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31692):
ATCCTATAGGATACTCTCTCTCCTCTTTCTCTTTCTTACACACACACACACACACACACACACACACACACAGTTGTCCCATAGGGGATTGATTTCTCGA
C
CCCCCCCCCATGGATATAAAAATCTGCAGATGCTTAAGTCCCTTATTTAAAATGGTGTAGTAATTGCATATAACCTCCCATATCCTCCCATATCCCTTAA
Celera SNP ID:            hCV26469254
SNP Position Genomic:     118757
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31693):
TGCCTTCACCCTAGACAATGGGCACGGTCCTGCCACTGAATCCCTGTGATGGGACCAGCCACTCGCTGTGCTCCCCGTGTGATGAGCCCACTTGTCCTTG
Y
AAAGGTTGTGCCTGTGTGACCGCCTCAGATTCTCCATTGACTCCCTCGACAGAAGAGGCCTAACTACCCCCACAGAGCCCTGGCCTTGGGCTCACTCGCC
Celera SNP ID:            hCV3190666
SNP Position Genomic:     563462
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31694):
CAGGAGAATCACTTGAACCCGGGAGGTGGAGGTAGCAGTAAGCCAAGATCGCGCCATTGCACTCCAGCCTGGGCGACAGAGAGAGACTCCGTCTCAAAAG
A
AAAAAAAAAAACCTGTAGATATCAATATCAGTATATTCAGAGAGTCCCTTATTCCTCATTTGGAGAAACACTGATAACAAGCCATTGGTACTGATGGGAG
Celera SNP ID:            hCV11859796
SNP Position Genomic:     541939
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31695):
CTTCCTTCTCGGATAAATATAAGGAATGGCAGTGCCACCATTGTGCCAGGGACAGCTGCCCTGGGCCCACCCCGTGCACTGTGCCTTCACCCTAGACAAT
R
GGCACGGTCCTGCCACTGAATCCCTGTGATGGGACCAGCCACTCGCTGTGCTCCCCGTGTGATGAGCCCACTTGTCCTTGTAAAGGTTGTGCCTGTGTGA
Celera SNP ID:            hCV3190667
SNP Position Genomic:     563381
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31696):
AAGGCACAAAAAGCCTAGATTTTCCACATTTCCCAGTTTTAGAAGCTCTTGATGAAATGCAAAGGGGAATTACCAGTGAAAACCTGTGTTTGTAGGGGTG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGGTGTGTGATTATGACTAATGTCCATCAATTACCTGCAAATTACTAGATGATGCCTGTAATGATAG
Celera SNP ID:            hCV26469256
SNP Position Genomic:     126149
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31697):
AGAGAGGCAGCAAACTGGGAGTCCAGCAGACAGATCTGGGCAGGAGTGGGTTACGGGCTCATTGCTGCAGGACGTCTGATGAAATCAAGGCAGGAAAGTG
R
GGAAACCCAAGGAACATTCCAGAGATGAGGAGACAGTCAGTGAGACTGTCTTTCCACTTCCTGGAACTTCTTTTCCCCATTCTCTGCCTTGCAAAATATC
Celera SNP ID:            hCV3190668
SNP Position Genomic:     547900
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31698):
GGCACAAAAAGCCTAGATTTTCCACATTTCCCAGTTTTAGAAGCTCTTGATGAAATGCAAAGGGGAATTACCAGTGAAAACCTGTGTTTGTAGGGGTGTG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGGTGTGTGATTATGACTAATGTCCATCAATTACCTGCAAATTACTAGATGATGCCTGTAATGATAGTT
Celera SNP ID:            hCV26469257
SNP Position Genomic:     126151
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31699):
GTTTTCCAAAGTGGCAACACCATTTTGCCATTCTAGTAATGGACTTCTGACTGAGTGTGGTGTATAGGTGTGCCCAGTGGCCAGGGCAATTATCTGAATC
T
TTTAGGCCCAGAACTCTAGGTGGCCAAGAGATAAAGAGGAGTCACATGCTTCAGATAAACTGTCCACACTGCAGGACTGCCCAGAGAATAATACAGGTCA
Celera SNP ID:            hCV11859799
SNP Position Genomic:     549024
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31700):
AATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACGAGTTCAGAAGATCGAGACCATCCTGACTAACATGGTCAAACTCCATCTCTACTGAAAATAC
A
AAAAAAAATTAGCCAGGCATGGTGGTGGCCTGTAATCCTAGCTACTCGGGAGGCTGAGGAAGGAGAATGGTGTGAAACCCCGGAGGCAGAGCTTGGAGAG
Celera SNP ID:            hCV26469258
SNP Position Genomic:     128258
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31701):
TGGGACCTCTGAGCATGCAGAATAGGCTGGTCTGGGATGTCAGGAATGCACCTTTCTAGAAGTAACGTTGAGACACTCGTGATAAGATTTGAATGATGAG
A
AAGAGTTAATTAGACAAATCCCAAGGGTTAGAAAGTGTTCTAAATGGGAGACAGTGCGTGCAAAGACCCTGAAGATGGGGCATGGCAAATTGAAGGAACT
Celera SNP ID:            hCV26469259
SNP Position Genomic:     132197
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31702):
GAAGTGGAACCCTCAATCCTCATATTCATCAATCACTTTGACTCACTTGTTAAATGGTGAAACCCTTGCACAGTGAGAAAGAGCTGGTGCCTCTGGCTCT
Y
CCTTAGACACCTGCTCTTTGCTTTCCACTCTGACCTAATGATCGTCATTTGGCCCCTCCCTTCAGTCAGATCCCAGCCTGCCTTTCCTATACCTGTCACT
Celera SNP ID:            hCV8922446
SNP Position Genomic:     330462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31703):
CCCACTGGACTCATGGCTAGTTAGATTTGGTGGGAGTGGGAGGGGATGGGGTTGAAGGAGATGAAGGAGTCAGGGATGAATCTAGCTTAAGTGGTTTTAG
M
AAAATGATATTAACAAAGATGGTCTGGGGCAGAAACAGATGGGGGATGAAGTTTGCTTGGGACACATTGATTCTGGGTAATGTTGGGATGTCAGGGATTG
Celera SNP ID:            hCV8922447
SNP Position Genomic:     329600
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31704):
TCCACTGCTGAGGTTGGGTCTTTGTGTGAGTGGAACAGCTGTCTGTATCTTTCTGCTGTGTTTCTCAAAAGACAAAAGCAGAGATGAATGCTATAATTGT
W
TCTGATTAAGTAAGTGCTGGGTGTTTCTAATATTTCAAGTTACTGAGGGCCCATTTGTCAGTTTTTAAGGTTAAGGTTTGATGCCAGCAATGGGCGACAA
Celera SNP ID:            hCV8922448
SNP Position Genomic:     326195
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,4)      total(A,4|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31705):
AAAAAAAGTATCAAAAATGAGATTTCACAACTGTGTCACTACAAAAATGAATATAATCCAGCCTGGATTCTTTATTACAGAGCCATTATTATCCTAGTCA
T
TTTTTTTTTTCATCTGATTTTGAAAGAAACTAAAATTAGAATGTTTTCCTGGGTTCCTAAAAGTATGGTGGCCCCCAAGCACTGGGCCTCCAGGTCTAAT
Celera SNP ID:            hCV11860198
SNP Position Genomic:     654775
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,8)   total(T,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31706):
ATTTCATCACTGATGCTGAAAACACCAGCAAGGGCTTTGAACTGCACTTTTCCAGTAAGTCTTTCTTGCATCTGTGTGGACAAGGAAGTCAGGGTTTCCC
R
TTTTATTCATTTATTTGAGCTTCTGCTTGCTCACGAGATACAAAGAATGTGCTCTTAAGACTGTTTTAAAATCCAATATGTATCCATCAGTGGATGCATG
Celera SNP ID:            hCV25927311
SNP Position Genomic:     471234
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,18)   total(A,51|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31707):
ACAGGTGCTTGTGACCACAGCCTTGGGGGAGAGGGCAAGGGGGAGATTTTTACAGAGCCACGTGGGAGGGAATGCAGGGTGGATAGGGGACCAGTACCAA
Y
GCTGAAATGTCAGCAAGGTTGGAGAACACTGGACCAAATTGCCCTGGGTGGGGCAGACCTCACTGGCTCTGCCCTTGGGCTTGGTTTGTGCTGTTTAGGG
Celera SNP ID:            hCV25928116
SNP Position Genomic:     445260
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,30)   total(C,61|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:31708):
TTATTCCAGTGTACCATGCCTTGACAGAAATGAATTCGCTTCAGCGAGTCACCCCAATTAAGATCAAAAAATAGTCTCCACTCATCAGGCATCTGACCTA
A
GTAAGGCAAGGTACCTGATTGTCCTGCCCTCAGCCTTCCCTTCTATAAACTGAGGATAATGATAGTACTTATGCCATGGCGGTATTAAATGGGTTAATAA
Celera SNP ID:            hCV26469400
SNP Position Genomic:     585728
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|A,9)   total(A,9|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31709):
GTTTTCATCATTCCCTCTACAATTTATTGAAGCACTATGTTGCATGCTTTACATATATTATTTCATAATATATATATATACATATATGTATATAGATATA
T
TTTTTTTTGAGATGGAGTCTCACTCTGTCGCCAGGCTGGAGGGCAGTGGTGCAATCTCAGCTCACTGCAACCTCCGCCTCCTGGGAAGCAATTCTCCTGC
Celera SNP ID:            hCV26469401
SNP Position Genomic:     587038
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31710):
GTCACCAGGGGCTGTGGATGGTCCACTTCTGGCTGCTGGTGTGGGACGAGGGAAGCAGGTGGTGGTTGGCATGGAGGGCCTGTCTCTGAGCCCACACACT
N
GTGATGACTTTGCTCACAAAGGAATTTGTCAAAAGCAGCCTCCTATCTTGCACATCCAAGAAACCCCAGGCCAGTAGACTCCGGCCACCCCACACAGCCC
Celera SNP ID:            hCV952590
SNP Position Genomic:     350937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-|C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31711):
GGTGCGATCTTGGCTCACCACCTCCTGGGTTCAAGCGATTCTCGTGCCTTAGCCTCCCCAGTAGCTGGGACTACAGGCATGCACCACCATGACCAGATAA
W
TTTTGTATTTTTTTTTTTTTTTTTTTTTTTTTTTAGTAAAGATGGGGTCTTGCTTGCCAAGCTGGTCTCAAACTCCTGGGCTCAAGTGATCCACCTGCCT
Celera SNP ID:            hCV26469402
SNP Position Genomic:     590323
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31712):
CTCCATCTGCTCAGTTCCCATGCCCCTCTCATTGGGCACACCTGTCGCTCCACTAATGAAATCCAGGCTTTAAGGCTCTGTCATTTTGACTTGTGACTTT
C
CCATAGAGTGATAAGAGTATGGACTTCAGAGTCACAGACGGGTTCAAACCTTGGCTCTGACACATGCAAGCTATGTAACTTTGTCTGTCATTTCACCCTT
Celera SNP ID:            hCV11859944
SNP Position Genomic:     572077
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,11)   total(C,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31713):
TGTGAGTCCTTTCAGGCTGGGATTTTTTGTTTTGTTTTTTTTGTTTGCTTGTTTTTTGAGACAGAGTCTCACTCTGTCACCCACGCTGGAGTGCAATGGC
R
TGAGCTCATCTCCCTGCAGCCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACTACGGGCACGCACCACCACGCCTG
Celera SNP ID:            hCV26469403
SNP Position Genomic:     593178
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31714):
GAGGGAAGCAGGTGGTGGTTGGCATGGAGGGCCTGTCTCTGAGCCCACACACTCGTGATGACTTTGCTCACAAAGGAATTTGTCAAAAGCAGCCTCCTAT
N
TTGCACATCCAAGAAACCCCAGGCCAGTAGACTCCGGCCACCCCACACAGCCCCAACAAAGCAGGGCCTCATTCTGTCTCTGCCTCCACCTCCCACCCTG
Celera SNP ID:            hCV952591
SNP Position Genomic:     350984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-|C,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31715):
GGTTTAAAGCTTTGTTCCATTATCTTTGAACACTCACTGCTGATGGGAAGTCTTATGCCAGTTTGATTCTCGTTCCTTCACAGTTATGTCATTTTTTTTT
Y
CCTCTTTCTAGTAATTTGGAGGAATGCCTGTGTGTCTCTGGACTTCTTAGATACACAAAATTCCGTGATGGTGAATCTAAGAGGGATTCTCTTTGCATTC
Celera SNP ID:            hCV26469404
SNP Position Genomic:     597795
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31716):
GCAGATCTAGACCTGTTAGGAACCCAGGGTGAGTGGCCAAGGAGCAGGAGGGAGGAGAGGAATGGGATGGAGCTGGGCTTGAAAGTGCAGGTGAGGGAGA
Y
CAGGAGCCACATCATTCTGGTGTCCCATCTGAGAACCAAAGCCTGGTCCAGAAGCTATAGGTAGGACAAGCAAGAAAAAAGTGAAAAGCAGACCAGTGCC
Celera SNP ID:            hCV3190670
SNP Position Genomic:     536900
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31717):
TCTGAGAAATTTACTTTTCATCTCTAATCCTATAATGCTTATTTCGGCAATCATATTTTTCATTTCAAAGAGTTTGTCCTTGTTTTTTTTTTGTTTGTTT
K
TTTTTCCTTCAGAGCACACTGATTTTATTTTATGAGTACCGTATGTCACCTTGACTTTCTCAAGATACTACTGATCAGAAGTTTAAAGATTGTGTATCTT
Celera SNP ID:            hCV26469405
SNP Position Genomic:     598196
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31718):
TTGCCGTGGATGTGTATAGAAGTGGCTTATAATTCACTAGGTGTGCAGTTCCTTTCAAGGTATCATCTCAGAACCCATGGTGTCCCTACCCCCATTCACA
Y
AGATGCTCATGCCCTCAACAGAGGCCCCCAGACATGCCACATCAGGGAGCTCACACCAGGGAGAAGTCATTTAAAGGTGGCTCCTGGACTAGTTCCTAGG
Celera SNP ID:            hCV3190671
SNP Position Genomic:     535567
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31719):
CCCTCTTCTTCAATAAGAATGTGGCCCTCAGATAATGACTACACTCTAAGCCTTGTTCCTTATCCTGGAATGGAAGGAGATGTCTCATTGAAAGAATGGC
Y
TGGGTTCCAACTGGAGAAATGGGTTTCTGTGAGGGGAAACCCACATAAAGACAGCAAGGAGGTGGGGGTGGCGGTGGTCTTTTCTGCAATACAGGTCACA
Celera SNP ID:            hCV952593
SNP Position Genomic:     382568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31720):
GACCTCTGAGCATGCAGAATAGGCTGGTCTGGGATGTCAGGAATGCACCTTTCTAGAAGTAACGTTGAGACACTCGTGATAAGATTTGAATGATGAGAAA
G
AGTTAATTAGACAAATCCCAAGGGTTAGAAAGTGTTCTAAATGGGAGACAGTGCGTGCAAAGACCCTGAAGATGGGGCATGGCAAATTGAAGGAACTGAA
Celera SNP ID:            hCV26469260
SNP Position Genomic:     132200
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31721):
GAATTAAAAGAGCTTTCCTCTGGGATGCCAACTCCCACCATAACAGCCCTAATTCTTCCTAAGAGAGTTCCCCCTCAGTGGAAAAGAAAATTCTCTCTTT
Y
GTTTGGAGAGTAGATACTTGAATGTGTCTACACTGTGTTTGTGGGAACAGATGGCGGAGAACTGGTTTCACCCTGAGGCTCCCTCCCATATATTTTGAGC
Celera SNP ID:            hCV26469406
SNP Position Genomic:     598690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31722):
GTGTCACTGAAGGAGAAATTGAGCTAAGTCCTGAAAGAGGTAAGACAGGGAGCCACAAAGACCAGAGGCCAGTGTCGTTGGAGCAAAGCTAGCATAGAGA
Y
GACAGGAGCTGAGGTCACAGAGGGGACTATTGGGGCCACATGTGCAGGGCCTTGAAGGCCTGTAAGGATTTTGGTTTTACCCCAAGTGACACGGGAGGCT
Celera SNP ID:            hCV3190672
SNP Position Genomic:     533017
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31723):
CATCTCTTGCTTAGAATAGGCATTAAGGGAACTGCAAACCCTGGGGCCCAGGAGATACCCTCAACATCACCCTTCTGACCACTTCCAAACCCCCTTTGGC
S
AATAACAGCTAACGCCAGTCCCTACAAAGGTGGAAGGAGAAGCCATCCACAAGTTACTGTTAAGCCCCTCTTAGGTACTAGACGCTAGACCAGCACAAGG
Celera SNP ID:            hCV952594
SNP Position Genomic:     383982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31724):
TGGCGGAGAACTGGTTTCACCCTGAGGCTCCCTCCCATATATTTTGAGCTACAGCTTCTTTGCACTTCTATCTTTATTCCTTCTTCCAAACTTAAAAAAA
R
AAGAAGAAAAAACTCTTCTGCTGATGATCCTCCCATTTTCTTTTTTATTATGAGACTTTACCCTTTAATTAGTTTTTACTAATAAAAGGACCTTGGGAGG
Celera SNP ID:            hCV26469407
SNP Position Genomic:     598842
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31725):
GGGTTAGGACATTTGTGGGTGCTAGGCGTGGGGCAATAGCAGACCCTGAGGAGAGCTGGAGCACTGGCTTGGGATGAAGGCACAAAGCTAGGGTCCTTCA
Y
GGTAACAGGTCCCTTCCTCCCTGAGAATGGCACCATAGTTGGCTCATTCTCTCTTAGAAAATGAGGTTCAGAAGAGCACAGTATAAGGACATTAGTGTCA
Celera SNP ID:            hCV3190673
SNP Position Genomic:     524412
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31726):
AGGATGGTCCCTAGGCTGAGTGTCTGGGAAGGGCACCCAAGGGCATAATTCTGGTAGACATGGGTGAGAGACAAGTTGCAGCTGCTGTGAATTGGGCCCA
Y
CTGGAGATGGAGACAACCAGCGCTTGCTAGGATGGGGTCTGGGGAACCAGATATAGGTCTGGCCTTGCTGGGGACAATTTACTATTTTAATCCATAGGGT
Celera SNP ID:            hCV26469262
SNP Position Genomic:     133640
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31727):
ATGGAGTTGCCTTTCTTCCCGGACAGCTTCACCTCCTCTCTGCCTCCAGGTCTTATCTCATGTTATTAAATCCAAAGAAAGCACTCTCCTTTCACGCCAC
Y
TAAACTTCAGGTCTCATTTCCTTTTGCCTTCCCTGATGAGTGTGGCCCACACCGATGTCTTTTCTGAGAGCACGTACAGCCACACCACACGGCTGGCACT
Celera SNP ID:            hCV3190674
SNP Position Genomic:     504762
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31728):
CCAATCCAGGGAGACTGAGTGTAAGTCTGATCTAATGGAGGACTGGCGTACTGTCCAATAGCAATATAATATGAGCCATAGATATAATTTTTTAAAACTT
W
TTAAATTTAATTTTTTATTGGTAGAGGGTGTTTTACTGGGGAAATTCACAGACAGAAGCATGGTCTTGGGTAGCCACAAGGCAGGTAGATCTCTGCAATG
Celera SNP ID:            hCV26469263
SNP Position Genomic:     134092
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4|A,4)   total(A,4|T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31729):
CTACTGGGAGCATTAAATAAATTAATACACATAAGATAGTTAGACCGGTGTCTGATCCAGATGTTAAGCAGCAGTTGCTGCTGCTGCTGCTGCTGTTGTG
T
GATGATGATGATGATGAAGATGATGGTAGTGGTGGTAGTAATGCTGCCACCATCACATTACAGAATCCAGGATCTCTTACACTAAGGCCCATTCTCTCTT
Celera SNP ID:            hCV26469409
SNP Position Genomic:     607609
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31730):
TCTCTCATCTCTCTTTTCTCTTATAAAGATATCAAGACTCAGCTCAGTAGTTACCTCTCCCAGGAGGCCTGGTCTCATACCCTTGGCCTAAGTTAGGGGG
M
TTCTCCGTACATACCTTTACTGTAGACTGTACCACATGCAGGGGTGGAAGCATGCCATATTCTTATCTGAATCACCAGTGCCTAGTATGCTATCTGAACC
Celera SNP ID:            hCV3190675
SNP Position Genomic:     500852
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31731):
TTTGCGGATTTTCTAACTGAGTTGTTGAATCCTTGCCTTTTTCTCAATCTTAAGGGAAAAGCATTCAGTCTTTCACCATGAAGTGTGATGTCAGCTACTG
T
TTTTTTTTTTTTGTAGATGTTCTTTATCAACTTCAGAAACTTACCCTCTATTTGTAGGTTTCTGAATTTTTTTTTTTCGTTTAACTACAAACGGGTGTTG
Celera SNP ID:            hCV26469264
SNP Position Genomic:     135468
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31732):
GGAGAGCATCCAGAGCCTCCCAGGGTTTCATCCAGACGGTCTTTGTTCCAGACCCGTTGTATGTCCGTCCCTGGGCCAGTTTCTGAGGGGTGAGGCCTCC
M
CTCAGTGCCCTTGTCCCCCACAGCGGTTCCTCGAACCAGCGCCACGCAGTGCAGCTCTGTGCCGGAACCCCGCTATGGCAAGAGGCTGGGCAGTGACTTC
Celera SNP ID:            hCV25968762
SNP Position Genomic:     546416
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,38)   total(A,1|C,73)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31733):
GGTGCCGTCTGTCACCCCTTTCTTTGACTAGGAAAGGGAATTTCCTGACCCCTTGTGCTTCCCAGGTGAGGCGATGCCTCGCCCTGCTTCGGCTCACACA
Y
GGTGCACTGCACCCACTGTCCGGCACTCCCCAGTGAGATGAACCCGGTACCTCAGTTGGAAATGCAGAAATCACCCGTCTTCTGCATCACTCATGCTGGG
Celera SNP ID:            hCV3190676
SNP Position Genomic:     499558
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31734):
CTGTAGGATTTGGGGTTGGGCAAACCCAGCTTATAATCAGGATCTTCCTTTGACTCCCTGTGTGCCAGTCTCTCCCCATCAATGAGCCTGAATTTCCTAA
Y
CTGTGAAGAGGGGCTGATGAATGGTTATCTTTCCAGGGTCTCATGAGGACTCAGTATAGTCAAGCACCCAGCATAGGGCCTGACATTTAGTAAATGCTCA
Celera SNP ID:            hCV952598
SNP Position Genomic:     389274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31735):
GTCCTAGTAAGAAGTCAAATAGGCCCTAGGCTTTTGAGGTCATGGATTTGAAAACTGTGACACACACACATACATGCATGTACACGTACTCACACAAATA
S
AACTCTTCCATAAGATTCACAGGGAGTTTACAGATGCCCTGTGGCCACCCCGATCCCCTAGTTCACCTAAAAAAACAGCCCAGAGAGGTTGACCTCACAC
Celera SNP ID:            hCV26469265
SNP Position Genomic:     145639
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,10)      total(G,1|C,10) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31736):
AGTTTGATCTCAGACTGCTGTGCTAGCAAGGCTCCGTGGGCGTAGGACCCTCCGAGCCAGGTGCGGAATATAATCTCCTGGTGTGCCGTTTGTTAAGCCC
R
TTGGAAAAGCGCAGTATTAGGGTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACCCCTTTCTTTGACTAGGAAAGGGAATTTCCTGACCCCTTGTG
Celera SNP ID:            hCV3190677
SNP Position Genomic:     499414
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31737):
CCAGCATAGGGCCTGACATTTAGTAAATGCTCAGTTGGAAGCTTACTCCCTTCTCTGCTCTCCAAGGCCTACAGCTCTTCTTCCAACCTACATCATTACC
Y
GAAGCTTCAGAATTACCTCTGCCTCCATTTTAGCCCCTGTTATTCCAGCTCCTGGGGAGTTCCACACAGGATAGACATCTCGACTCAGGAACGAGCAGGG
Celera SNP ID:            hCV952599
SNP Position Genomic:     389442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31738):
TATATAGCCCTGAGGGTTGCATGATGGGAGCACCAAAGCCTACAAGCTAAATGTGGCACGTTTTCTAATCTTATCGTAAAGCAAATATACATACAATCAT
T
CTATCTGTCTATCTATCTATCTATATCAAATAGTAAACTAAATACATATATTTCAACCAAATATATATTTTAAAAATATGTTTCTTTATGCAGTCTATCA
Celera SNP ID:            hCV26469266
SNP Position Genomic:     154389
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31739):
ACAAAGGTAACATATTATCCTCAGATATGCACAAAAGCCACATAAAATTGGCTCTCATCGGCTTCCTGAGGAACTTACAAAAACATTGTAGTAGGTTGAA
Y
GGTGGCCCCCAAAAATGTGAGGTTCCAATGCGTGGAACCTGTAAATATTGCCTTATTTGGATAAAGGGTCTCTGCAGGTGTGATTAAATTAAGGATTTTG
Celera SNP ID:            hCV3190678
SNP Position Genomic:     489305
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31740):
ATATAGCCCTGAGGGTTGCATGATGGGAGCACCAAAGCCTACAAGCTAAATGTGGCACGTTTTCTAATCTTATCGTAAAGCAAATATACATACAATCATT
C
TATCTGTCTATCTATCTATCTATATCAAATAGTAAACTAAATACATATATTTCAACCAAATATATATTTTAAAAATATGTTTCTTTATGCAGTCTATCAC
Celera SNP ID:            hCV26469267
SNP Position Genomic:     154390
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,4)   total(C,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31741):
TATAGCCCTGAGGGTTGCATGATGGGAGCACCAAAGCCTACAAGCTAAATGTGGCACGTTTTCTAATCTTATCGTAAAGCAAATATACATACAATCATTC
T
ATCTGTCTATCTATCTATCTATATCAAATAGTAAACTAAATACATATATTTCAACCAAATATATATTTTAAAAATATGTTTCTTTATGCAGTCTATCACT
Celera SNP ID:            hCV26469268
SNP Position Genomic:     154391
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31742):
ATAGCCCTGAGGGTTGCATGATGGGAGCACCAAAGCCTACAAGCTAAATGTGGCACGTTTTCTAATCTTATCGTAAAGCAAATATACATACAATCATTCT
A
TCTGTCTATCTATCTATCTATATCAAATAGTAAACTAAATACATATATTTCAACCAAATATATATTTTAAAAATATGTTTCTTTATGCAGTCTATCACTG
Celera SNP ID:            hCV26469269
SNP Position Genomic:     154392
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31743):
CCAGAGGTCAGGGCCAACCTGAAGGGTCGTATCCCCTTTGGGCCCTGGGCCAAGCTTTTTCTCCTGCTTGAAGCTATCTTCTTGTGTGCTGCTCTTGCCT
Y
TTGAACCCATCCTTTAGAGACCAAGGCAGGCAACCCCATTCCTAGGGCACTGCTTATGCATCAGATGCCACTTAACGATGATGTCCCAGGCATTTCATTT
Celera SNP ID:            hCV16179264
SNP Position Genomic:     301389
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,49|T,1260)   total(C,49|T,1260) 
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:31744):
TTATGTAGCTGGAGCTGCCCCTCACATGCCAGGCTAATCATAATAGTTAATACCAGATGCCTGCTAAGAGCCAGGCACAGTGCTAGGCACTTGGCAAGTA
S
CATCTCCTTTAATCTTCATCATTATCCTGCAAAGGAAACACGGTCATCACCTCACTTTATGGACAAGGAAGCTAAGGCCCAGAGAGGTTAAGCCAATTTC
Celera SNP ID:            hCV8922455
SNP Position Genomic:     325151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31745):
TTCCTCAGTGGGCAGCAGAGATGACACCTGGAGGGCTCATCACCTCTCCCTACTGGGTCCGGTGTGGCTTCAGGCATCCTTGCCTTCTTTGTACGTTTCT
W
TTTGCAGACCAGAGGTCTGCAGATTTGCATCTCTGCATCTGCCCTTGTCTTTTGCCCCAGAGAGGGATGTTTCCCAAATTATGTAGCTGGAGCTGCCCCT
Celera SNP ID:            hCV8922456
SNP Position Genomic:     324972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,5)      total(A,5|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31746):
GTCCTATATGGTGTCTTCTTACATGCAGCCCCCTGTTTGGAGATAACTATTTTCTCTCTGCTCCAGGATTGGGAGTGGTAACAAGTCCCTCAGTTGCCAG
Y
CCCAGGATACTGCCCCTCCCGGGTGGTTCCCCCATAGTCGGCCCTCACCTTTATAGTTCCAAGAGTTTGATGAATGACTGTTTCACATAGGATATAAGGA
Celera SNP ID:            hCV8922457
SNP Position Genomic:     323522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31747):
ATATTATTTCAGGTTCAACAATTCCTTTAGCTTCACACCTGTTTCCTTTTATTCAGTTAAATTCCAGAAAGAAAATTTAAACATTTTAATTTTAATAGCA
Y
GCACAGTTTGATCCCATTTGTATGAAATTATTTCATTGAATATGATTCCATCTATTGATCCCACCATCTCTTTGTATGTCAACTGTCAGGAATAATTATT
Celera SNP ID:            hCV1973272
SNP Position Genomic:     137882
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31748):
GCCCGATACTCATGCCCTTCAGTGGATATCCTGGGCATCAAGATATTGTATAGCAGTGGGAGGTATACAGCGGCACCCAGGAGAACCACGGATATTTCAA
R
TTACCTAAAAATGGGGACAAAGTTAAACCTTGAAATTCCTCCTAGATTCCTACCTGGGTGTGGTAAGGCAGGCTGAGGCTTAGAGGGGGTTAAGGACAAA
Celera SNP ID:            hCV1973273
SNP Position Genomic:     137502
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31749):
GATGATTAAACAAAGTTTGTTTCCTTATAATATGTATGATTTCATTATTTTATGTATACATTTTTGATGAGAGAGAGTATATGAATATGGGGTGAGGTAG
R
GATCTTTTGCTGGATGTGTTTATATTTGAAGAGAAGATGCCCTTGAAACTTATTTGGTTGCCTGCTGCATAATTTGATAATTTTTTCTTTGCTTTTTCTT
Celera SNP ID:            hCV1973274
SNP Position Genomic:     137181
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31750):
CCCATAGAAGGACTCGGAATGACTCTGCTTGGGTGGTATGGTCTCTTCCCTCTTCCCCATACCCTGAATCCGTCCATAAAAATGAGGGCTAGTATGTCGC
R
ATTGATCATTTACCTAGCTCTGTGGCTAGTGGGTAGGTGGAGTACCATCAGAACTCCATGCCATGGACAGCTCCCATGGAAGACTGACAGGGCAAATAGG
Celera SNP ID:            hCV1973275
SNP Position Genomic:     136928
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31751):
TACTGGGAGCATTAAATAAATTAATACACATAAGATAGTTAGACCGGTGTCTGATCCAGATGTTAAGCAGCAGTTGCTGCTGCTGCTGCTGCTGTTGTGT
G
ATGATGATGATGATGAAGATGATGGTAGTGGTGGTAGTAATGCTGCCACCATCACATTACAGAATCCAGGATCTCTTACACTAAGGCCCATTCTCTCTTG
Celera SNP ID:            hCV26469410
SNP Position Genomic:     607610
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,4)   total(G,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31752):
CGCATTAAACAGAAATTTGTAATTTTATGGCCAGGCACAGTGACTCACACCTGTAATCCCAGCACTTTGGGAGGTCAAGGTGGGAGGATCACTTGAGCCC
M
GGAGTTTGAGACCAGCCTGAGCAATATCTTGAAACCCGATCTCTACAAAAAAAAAAAAAAAAAAAAAATTTTAATTAGCCAGGTGTGGTGGCATGAGTCT
Celera SNP ID:            hCV11859952
SNP Position Genomic:     581344
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31753):
TTTCTCTGCTAAGTCTGGATTTCACTATTGAAGGATACCTCACTCCTTTCAATATGGTATTTAATCTTGTCAGATAAAAGATGGGAAAGTCTGAAAGTTT
W
ATTTGCTCATTCTGTCATGCAACACCATAGCTCCTCCTAACTGCGGGGTCTTCAGCGTGTCTAAAATCGATCTCAAAGATAAGTGGGTGGGGGAGCGATG
Celera SNP ID:            hCV1973276
SNP Position Genomic:     133018
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31754):
TTTCTTCTAGTAAAATGCAGCTTTTATCATAATAAAGTGACCCTATCCATATTAACTTTTTGTCCCAATGCTTGTTTTCTCTAAAGTTAATTCAGTCACA
T
ATTCAGGCTCCTCTTCTAATTCTGGTTCTCTTGCTGCTCTAATTCTGGTTCTCTTGATGCTGCTTCAGTGGAGGAGTGAGATCCTCCAATGAAGTCTTGA
Celera SNP ID:            hCV26469411
SNP Position Genomic:     615603
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31755):
AGGAGACAGAGCAGAGAATCTGTCAGGGCCAAGCCATGCAGGATTTGTGAACCTCGTTAGGGATTCTGGCTTTAATCCTAAGAACAGTGGGAGGCTGTGG
R
TAGATTCTGAGCTGAGAAATGAGGAGTATATGGTGTCCTGGCCGTCCCATTTTCAAGACTCTGGGTTACTTTTGGCAGGAAGGCAAAAACAAAGAAAAGA
Celera SNP ID:            hCV1973277
SNP Position Genomic:     132639
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31756):
GTTAATGTTGCTGTTGATATTACTAATAGGTATATATATTAATATAGAGGCATACATTGGAGATATTGCAAGTCCAGTCCCAGACTACTGCAATAAAGCA
M
AAATCGCAATAAAATAAGTCACACAAATTTTTTAGTTTTCCAGTATAATCTAAGTGTGCAGTAGTATCATGTCAAAAAATATGCACACCTTAATTAAAAA
Celera SNP ID:            hCV26469412
SNP Position Genomic:     615854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31757):
TAGGTATATATATTAATATAGAGGCATACATTGGAGATATTGCAAGTCCAGTCCCAGACTACTGCAATAAAGCAAAAATCGCAATAAAATAAGTCACACA
M
ATTTTTTAGTTTTCCAGTATAATCTAAGTGTGCAGTAGTATCATGTCAAAAAATATGCACACCTTAATTAAAAATACTTTATTGCTAAAAAATACTAACA
Celera SNP ID:            hCV26469413
SNP Position Genomic:     615880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31758):
GCTTGTGGCCCTGCATGGCATAGTATGCCCCTTCCTCTAGGAAACTGTGTTATCTTTTCAGCGGCAGTGTCTTCTGATCTGTTGGCCTCACCATACCTGA
R
TGGTAGTAACAAAACCTACAAGTGAAAACATGGTGGTAGCAAACAACCCTCAAATTGAAATGGCTTAACTCACCAAAAGTTTATTTCTTGCTCATGCTGC
Celera SNP ID:            hCV1973279
SNP Position Genomic:     131705
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31759):
CAGTAGTATCATGTCAAAAAATATGCACACCTTAATTAAAAATACTTTATTGCTAAAAAATACTAACAATCATCTGAGCCCTTAGCAAGTCATACTCTTC
R
CTGGTGGAGACTTTGCCTCAATGTTGATGACTGCAAACTGATCGGGGTGGTGAAGGCTGGTGTGGCTGTGGCAATTTCTTGAAATAAGACAACAGTGAAG
Celera SNP ID:            hCV26469414
SNP Position Genomic:     616013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31760):
CCCTGGTTCCATTCAGCTCTGTGCTCATGTGTCTTCTTATTGAGAAGCCTTTTCTGACCACACTGTATATAACACAGCACCTGTTACCCATCACTCCCTA
K
CACCTCCTGACATATGCTATGACTGTTTATTTATTTGCTTATTGTCCTTCTCTGCAAGAATGTGAGCTTCCTGGGGTCAGGAGCTTTGTGTTGTTTTGCA
Celera SNP ID:            hCV27463916
SNP Position Genomic:     151109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31761):
TACTGTCCTACATCTCATTAGTCAGAACTTGCCATGCCTGGCAGGGAAAAAGTGGGAAATCAATTTTGCTTTGCTTTTAGAGCCTCAATAGTAGAGAGAT
R
AGAGGTTTGGAAATGAAGCACAGATCATCCAACCCACAGTTTCTGCTATAGATTCTAAGATAATGTGATGAATGCTATAGTGGAAGTATGCACGAAACAC
Celera SNP ID:            hCV3190680
SNP Position Genomic:     486754
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31762):
CAAAGAAGTAGAAGGGCATGGTGAGCCTGGTGAACATGGTGGCGCACGCCTATAGTCCCAGCTACCCAGGAGGCTGAGGTGGGAGGTCGAGGCTTCAGTG
R
GCCGTACTGTCATGAGTACCATCATCAATGCACTTTTATGAGCTTATATACGAATGTCTGTCAGATGGAAAGTGAGGAGTGGAATTTTTGCATCAAAGAC
Celera SNP ID:            hCV27463917
SNP Position Genomic:     179479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31763):
CCGCTTAGATGGACAATAGGATATTTAATTGTCTTTGCTGTTTCTGGTTCTTTGTGTGTTTTCTGTTTGGACAATTTGTCTTTTTCATATAGAGTGTTCA
R
CTGGGCTCATTTCTAGTCTATAACTCATTTAGGTTTCTCTTAAATCCAATAATATTTAAGAATTTTTTCAGTTACTAAGTGGTTTATAGATCTTGTATGC
Celera SNP ID:            hCV3190681
SNP Position Genomic:     483859
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31764):
ACGTATATGTTTCTCTATAAATAAAATGATAAACTATAAATCTTAACTAAATATATGTATATAAATAAAATATTCATGCACATAAACTAAATACACACAT
M
CACACACACACACACACACACACACACACAGAGCAAGGAGTCCAGTGTAAATGGGCATCTTTCAAAAGATAGAGGAGGAGATTTCAGAGATATCCTTCTG
Celera SNP ID:            hCV26469270
SNP Position Genomic:     155157
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,4|A,6)   total(A,6|C,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31765):
CTTCATAGAATTGAAGAGGGTCAGGGCCTTGCTCTGGATTAGGCTTTGGCTTAAGGGAATATTGTGGCTGGTTTGATCTTCTGTCCAGATCTACCTACCT
Y
CCATGGTAGGTGGATGCCAAGGACGATGCTAAACGTCCTACAATGCACAGGACAGCCCCCTACAATAAAGACTTACTCAAACTTTCTCCATGTTGGCAAT
Celera SNP ID:            hCV26469416
SNP Position Genomic:     617833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31766):
CGTATATGTTTCTCTATAAATAAAATGATAAACTATAAATCTTAACTAAATATATGTATATAAATAAAATATTCATGCACATAAACTAAATACACACATA
C
ACACACACACACACACACACACACACACAGAGCAAGGAGTCCAGTGTAAATGGGCATCTTTCAAAAGATAGAGGAGGAGATTTCAGAGATATCCTTCTGG
Celera SNP ID:            hCV26469271
SNP Position Genomic:     155158
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31767):
CACTCAAGGAGAGGGAGATAGACAAGGAATGGCCAGTTGGTGTAGCAGTCAGAACACACACAACATTTATCAATTAAGTTCTCCATTTTATGTGTGCATG
R
TTCATGGCGCCCCAAAACAATTACAATAGTGACATCAAAGATCACTGATCACAGATCACCATAACAGATGTAACAATAATGAAAACGTTTGAAATATTGT
Celera SNP ID:            hCV26469417
SNP Position Genomic:     618320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31768):
CTGGGATCCCGGCTCATGGCATCCGTTTGGGGGACAGCTTTGATCCAGGCACTGTGATGCGCTTCAGCTGTGAAGCTGGCCACGTGCTCCGGGGATCGTC
M
GAGCGCACCTGTCAAGCCAATGGCTCGTGGAGCGGCTCGCAGCCTGAGTGTGGAGGTAATGTATGTGACCATTCTGCTTCTCCCCTTTGCCCAGCCCCAG
Celera SNP ID:            hCV26469418
SNP Position Genomic:     625608
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:31769):
CCAGGGAGCAGATGGCAGCGCAGACAAAGGCTCGCCCATGGCACAGAGCACAGAAGCTCATCTCTGCCTGGCAGGCACCTATTGCCCAGGGAACGATGGA
T
TGAAAACTCCATAATGGCACGATGATGACTGATAATACTTGAAAGGAAACTGCAACGTCTGCTTTCAAAGCAGCCCTCCCCGGAAGGCTGAACTGCCCTC
Celera SNP ID:            hCV26469272
SNP Position Genomic:     157977
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31770):
ATGTTTTAATAGGATCCCTCTGGTTCTTGTGCTAAGGACAGACTATATAGGGACAAGGGTGGAGAATGGGAGGCCACAGTCATGAGGGGAAAGGTATCTC
R
GACTTGAATCAGGATGATAGACAATGGAAGTTGTGAGAAGTGGTTGCCTTTGGGATATATTTGGAAGGATTTTCTGATGGATTGTGTGTGGGTTTGAGAA
Celera SNP ID:            hCV1948279
SNP Position Genomic:     344628
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31771):
TAGTTACGACTCCACACTGGACATGGCTGGTGGCTTATAGGGGATGAGAAGGCAGAGAGCATGAACTTCCTGAGCCTAGTACCCAAGAATGAACTGTGGC
K
CATTTGCTTATTCATCCCACCTTGCATTGTGCTAGTTATTAGATGGAAAAAAAATGAAGATAAACAGGACCAAGTCTTTTGGTGACTTGTAGGAGCTCAC
Celera SNP ID:            hCV26469273
SNP Position Genomic:     164485
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31772):
TAAAAATACAAAAAAAAAAAAAAAAAATTAGCCGGTCGTGGTAGCAGGCGCCTGTAGTCCCAGGTACTCGGGAGGTTGAGGCAGGACAATGGCATGAACC
Y
GGGAGGCGGAGCTTGCAGTGAGCCAAGATAGCGCCACTGCAGTTCAGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGACA
Celera SNP ID:            hCV26469419
SNP Position Genomic:     627499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31773):
TTATTAGATGGAAAAAAAATGAAGATAAACAGGACCAAGTCTTTTGGTGACTTGTAGGAGCTCACAAGTAAGACAGACAAACCTGTCAACCAGCAATTGC
A
AAACAATGAAGTGTTTGATAAGCCCTAGAATAATTTCTTTCTGAGGCTCTGGAAACCCAGGCTACTCACCTATCTTTATCTGTTATTTATACTCTAGAGA
Celera SNP ID:            hCV26469274
SNP Position Genomic:     164621
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31774):
TATTAGATGGAAAAAAAATGAAGATAAACAGGACCAAGTCTTTTGGTGACTTGTAGGAGCTCACAAGTAAGACAGACAAACCTGTCAACCAGCAATTGCA
A
AACAATGAAGTGTTTGATAAGCCCTAGAATAATTTCTTTCTGAGGCTCTGGAAACCCAGGCTACTCACCTATCTTTATCTGTTATTTATACTCTAGAGAA
Celera SNP ID:            hCV26469275
SNP Position Genomic:     164622
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31775):
ATTAGATGGAAAAAAAATGAAGATAAACAGGACCAAGTCTTTTGGTGACTTGTAGGAGCTCACAAGTAAGACAGACAAACCTGTCAACCAGCAATTGCAA
A
ACAATGAAGTGTTTGATAAGCCCTAGAATAATTTCTTTCTGAGGCTCTGGAAACCCAGGCTACTCACCTATCTTTATCTGTTATTTATACTCTAGAGAAG
Celera SNP ID:            hCV26469276
SNP Position Genomic:     164623
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31776):
TGGCTAATTTGGACTCCACCTTCTAATGATGTCCTTGCCCTAGTCAGGACCACATTCAAGGCCTGGGCGTGGTAGAGCCTGCAGTAGCCATATGGGTTAC
A
CCTAATCATAAATAAATCACAGATTGGTTCTACAAAGGGGAAGTGGAGGATTCCTGGCAAGTGAGATATTAGGAGCATTTAAAAGTTCTCTTTTCTCTCC
Celera SNP ID:            hCV26469277
SNP Position Genomic:     165744
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31777):
CTATGGAAGAGACCATAAAGGCTTCAAAACTAGAAGTGCGCATGAAGGATGCTTCATGCCCTGTTCCCCACACAGAGAAGAGATGAAGAGGGGGAGGTAC
R
GTCAGCTTTCAAAACAATATGCCCCCCGCCCATCCCATGTGTGAGGACATGGTGACTCGGTGACTGTAACAGTAGGACACATCCCATCATGCGGTCAGAG
Celera SNP ID:            hCV1004650
SNP Position Genomic:     655516
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:31778):
GGCTAATTTGGACTCCACCTTCTAATGATGTCCTTGCCCTAGTCAGGACCACATTCAAGGCCTGGGCGTGGTAGAGCCTGCAGTAGCCATATGGGTTACA
C
CTAATCATAAATAAATCACAGATTGGTTCTACAAAGGGGAAGTGGAGGATTCCTGGCAAGTGAGATATTAGGAGCATTTAAAAGTTCTCTTTTCTCTCCC
Celera SNP ID:            hCV26469278
SNP Position Genomic:     165745
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31779):
GGAAGACAGGCCTTCCCAGCTCAATGAAATTTGCCTGCCTGTCACTCATTCTCCCTTCTTCCTCTCGCTCACCTACCCCACTCCCATAACCCAAAGCATA
C
CCGCTGGATCCAATGGATTATTATGTCCTATTTATTCTACCTCTGAAAAATCCCTCAAATTTAACCACCCTTTTCAGATCTCCCTACTGGCTCTGCCTCA
Celera SNP ID:            hCV26469279
SNP Position Genomic:     176951
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,3)   total(C,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31780):
CCAACTGTTGCACAACAAAACCTCTTAAGTCCTTGAGTCATACACCACTGGGCCACCAAGGCTATGGAGAGATTTCTGGAGTTTGAGACCTACTTCAAGA
R
GTTCACCACCCACATCTCCACTGTCATTCTCTTTGCCTCTTCGGTAAATAGTTGCCATCTATCTACTCTGCCCCCATGGTGCAATATCCTGTCCAGACTC
Celera SNP ID:            hCV1004652
SNP Position Genomic:     623281
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31781):
GTTGGTTGCCCAGGAAATCCCAGACACATCACTCTATATGACCACCCAGGACTTTGGCCTCTCACCCCTATTAATCTCATTAAACACCTAATTAAGGAAC
Y
GGGCAGGACTATATAGGAGCCATGATGACTCATTTAGCTGGGCTAGAGGAAGGCCTATTAACTGTGCCCTGGCTTCTTTCTGTTTGGACATCTGGTAGAA
Celera SNP ID:            hCV1004653
SNP Position Genomic:     622749
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31782):
ATGGAAAAGGGCTATAATTGGCTTTCATTCTGGAATCCTTGGCCAATGAAGACAATCTGAGGGTGACAGAGCTCCCATTTTTGTCTTGTGTATACTCTGC
R
TACCACCTTCCTGCCCAGAGACATCATGAGTATGAGGAAATAGGGAGAGGTAAGCATAAGAGGCAAGAGAGAAAACAATCTAATGTTATTGTATATCTGC
Celera SNP ID:            hCV1004654
SNP Position Genomic:     621021
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31783):
TCAGTGGAGGAGTGAGATCCTCCAATGAAGTCTTGAACCCATCAAAGTCATGCATGAGGGTTAGAATCAGCTTACTCCAAACTCCTGTTAATGTTGCTGT
K
GATATTACTAATAGGTATATATATTAATATAGAGGCATACATTGGAGATATTGCAAGTCCAGTCCCAGACTACTGCAATAAAGCAAAAATCGCAATAAAA
Celera SNP ID:            hCV1004655
SNP Position Genomic:     615768
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31784):
GCTGCTTCAGTGGAGGAGTGAGATCCTCCAATGAAGTCTTGAACCCATCAAAGTCATGCATGAGGGTTAGAATCAGCTTACTCCAAACTCCTGTTAATGT
K
GCTGTTGATATTACTAATAGGTATATATATTAATATAGAGGCATACATTGGAGATATTGCAAGTCCAGTCCCAGACTACTGCAATAAAGCAAAAATCGCA
Celera SNP ID:            hCV1004656
SNP Position Genomic:     615762
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31785):
CTTGATGCTGCTTCAGTGGAGGAGTGAGATCCTCCAATGAAGTCTTGAACCCATCAAAGTCATGCATGAGGGTTAGAATCAGCTTACTCCAAACTCCTGT
K
AATGTTGCTGTTGATATTACTAATAGGTATATATATTAATATAGAGGCATACATTGGAGATATTGCAAGTCCAGTCCCAGACTACTGCAATAAAGCAAAA
Celera SNP ID:            hCV1004657
SNP Position Genomic:     615756
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31786):
TCTCTAAAGTTAATTCAGTCACATATTCAGGCTCCTCTTCTAATTCTGGTTCTCTTGCTGCTCTAATTCTGGTTCTCTTGATGCTGCTTCAGTGGAGGAG
W
GAGATCCTCCAATGAAGTCTTGAACCCATCAAAGTCATGCATGAGGGTTAGAATCAGCTTACTCCAAACTCCTGTTAATGTTGCTGTTGATATTACTAAT
Celera SNP ID:            hCV1004658
SNP Position Genomic:     615680
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31787):
CCCTTTCTCTCCCAATCCAGTCCCCACCATCTCTGCTATATGTGGTTCTGTAGCTCAGAAAAAGAAGCCAGTGAATTCATTCTGGCATCATTCTGATCCA
S
ATAGGGAAGATGGAGCAGAGAAGGGTCATAAATGAGGACTTTCTCAACCCTTAGATAAAGAGCCACATAAAATTTCATCATCATGGGTTATATAAGGAAA
Celera SNP ID:            hCV1004659
SNP Position Genomic:     612514
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31788):
GCACATAGTAGGTGCTCAAGAAATATTTGTTGGCTGGACGATCTGTAGCAACATTTGAAATGGTGAATGATGCATTGTGGTTGTAGTTTATATAAGACAG
W
CAATGTGGAGAACAAACCCATGATCAAAGGGAAGGCCTTGGTCCTGCATTAAACTGATTGGCAAATAAATGTATGCTTAAGTGTTTTACATTATAATGAA
Celera SNP ID:            hCV8922465
SNP Position Genomic:     318539
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,5)      total(A,5|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31789):
CTGCTTTGGGGATAGGTCAGCATGAGAAGAATCCCCAGGAAGGTACCAGCAGCTGCTAAGTGAAGCAGGTAGTGGGGCACAGCCAGAGCTGAGGAACTAG
R
ACTGGGGAAGCATGTCTTGACAGGAGTGGGCAGTGCCATGGGAAACCCGGGTGAAGCCCGCGTGGCACTGGAGGCCCTCCCTCCTATTCCCTGGCTCACC
Celera SNP ID:            hCV8922466
SNP Position Genomic:     317193
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31790):
ACTCTTATTTCAAAATAACATTTTTTTAAAGAAAAATCTTTCCAGTTGATAGCAATGTGCAGCCAGGGTAAAGACACCCTGCTCTTGATCCATCATCTCC
R
GGAATCACAGGGCCAGATTTTACCCTCAATTACAGCAGCATATGCTCTTAGCATATCTCTGTCAAAGTATCTCTCAGATTTTGCAGCATGATGGAATCAC
Celera SNP ID:            hCV8922467
SNP Position Genomic:     311841
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31791):
AAATTATTCAAACTAGGCAATCCTAAACCTGCTCAGCTGCTTACCTGATCTTGCCCATTCCTTCTTGGGAAAACCACAATAAAGGCTCTTGCCCACATTT
W
CCCAGGCTCCTTCTGCCTTGTCACTGACGCTGGAGCTTCTGACATGCTTGTGGCCCTGCATGGCATAGTATGCCCCTTCCTCTAGGAAACTGTGTTATCT
Celera SNP ID:            hCV1973280
SNP Position Genomic:     131559
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,6)      total(A,6|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31792):
ATTACAGGTGTGAGCCACTATGCCTGGCCTCTACCTCTTTTATTGAGATCTCATTGTTTATCTACTATCCCCCTGCCCTAATTACCCAGGGCCATACATC
R
GACAGCTAAGGGTGGTCCACATACCCTGGTGCCCTCTGAAATTATTCAAACTAGGCAATCCTAAACCTGCTCAGCTGCTTACCTGATCTTGCCCATTCCT
Celera SNP ID:            hCV1973281
SNP Position Genomic:     131420
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31793):
GGATTTCACCATGTTGCTCAGGCTGGTCTTGAACTCCTGAGCTCAAGTGATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACT
R
TGCCTGGCCTCTACCTCTTTTATTGAGATCTCATTGTTTATCTACTATCCCCCTGCCCTAATTACCCAGGGCCATACATCAGACAGCTAAGGGTGGTCCA
Celera SNP ID:            hCV1973282
SNP Position Genomic:     131339
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31794):
CAAGTTTAGCTGAGTAACCACCACACTCAGACAAATTTTTGAAAACATTTTTATAGAGATGGGATTTCACCATGTTGCTCAGGCTGGTCTTGAACTCCTG
W
GCTCAAGTGATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTATGCCTGGCCTCTACCTCTTTTATTGAGATCTCATTGTTT
Celera SNP ID:            hCV1973283
SNP Position Genomic:     131278
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,6)      total(A,6|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31795):
AGGCGGAGCTTGCAGTGAGCCAAGATAGCGCCACTGCAGTTCAGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGACAAAT
W
TGGAACATCTTGTCACTCCAGCGAGGATTCCACCAAAGATAACTGAGGTCATGTTAACTGGACTCAGGAGCCAACTAGAAGAGGCTCCTATTGGCTAAAG
Celera SNP ID:            hCV26469420
SNP Position Genomic:     627603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31796):
CTTCCTCTTACAGGGGGCACTTTGAATAAGGTGAATCTTCATAGCCCAAGTTGCAGCGGTGCATAAGGACAGTGTGGGCAAGGACAGGACTGATGCCAGG
K
ATTTGACAAAACAAAATTTAAAATGGGCAAGCTGGGTGTGGTGGCTCATGCCTGTAGTCCCAGCTACTCAGAAGGCTGAGGTGGGAGGATTGCATGAGCC
Celera SNP ID:            hCV26469421
SNP Position Genomic:     630037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31797):
TTGACAAAACAAAATTTAAAATGGGCAAGCTGGGTGTGGTGGCTCATGCCTGTAGTCCCAGCTACTCAGAAGGCTGAGGTGGGAGGATTGCATGAGCCCA
S
GAGTTCGAGGCTGCAGTGAGCCATGACTGTGCCTCTGCACTCCAGCCTGGGTGACAGAGTAAGACCCTGACTTAAAAAAAAAGAAATTTAGAATGGGTAA
Celera SNP ID:            hCV26469422
SNP Position Genomic:     630140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31798):
CATGTTCTAAACTTCCTGTAATGTTACTCCATTACTTGGATCATTATTAATAGGCACTTTGAATGTAGAAGGGAGAGGAAGCCCCCATCAGCAGCAGCAC
Y
GCAGCAGGTGGAAGCACCTACCTGGGGCTGCCCCGGTTCCCAGAGTTCAAGCTCAACCAGGAAGGGAGCAGTGCAAAGAACAAAGATGGGGGTGTGGGAC
Celera SNP ID:            hCV26469423
SNP Position Genomic:     633930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31799):
TGGCCGGGCGGGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCTAAGGCAGGTGGATCACTTGAGGTCAGGAATTGGAGACCAGCCTAGCTAACA
Y
GGTAAAAACCCCATCTCTACTAAAAATACAAAAAAAAAAAAAAAGTTAGCTGGACATGGTGGGTGGTGCGCGCCTGTAATCCCAGTTACTCAGGAGGCTG
Celera SNP ID:            hCV26469424
SNP Position Genomic:     224905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31800):
TGAGGAGAGAAGGGCATAGAGTGGCACCGGTGGTTTTCGAGCTCTGTGCCGATGTGTGTGGCCGGGAGAACATCAGGAGAAGAGGCACTTTGGTCTCAGG
M
TCCGACTGAACCGAGCCTGGGTTGGGGATTGTCTGTGGTCTTTGAAGTTGTCTGAGTGGAGACAGTTGCCACAGGCTGTTGGATACAGCCAGGAACTGGC
Celera SNP ID:            hCV1948285
SNP Position Genomic:     347209
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31801):
GGGCTAGCCCTGTGCAGAGCAGGGTGACATTCCTGGCTGAACGAAGGGCTGGTGCAAAGGAGTGCTGAGGGAAGTGCTTAGCAGCCTGGGGGCCTGGAAA
R
TAGGCCAGCTAGCAAGTCTGCAGCCCCGTGAGGGAGGATAAGGAAATGTAGTCAAGAGTGAGGCTAGGTTGGAAAACAGCTTGGTCCTGGTGTGTAAAGT
Celera SNP ID:            hCV26469425
SNP Position Genomic:     635963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31802):
GTGGCTGGCCTCCTGTGTTCTGCCCAAATTCCCTGTGGACAGCTGCCCTGAAGTTCATGGGGAGAGTGGACCCAACTCTCTACCTTGCCATCAGTTCTGA
M
CACCCACCCACCTGTGACTCCCTGCGTTGGGTAGAAGGTGGTGCCTTCCTGAGCACATTGCGGCTTCTCCCTCGCCATAGTGGCCCTCCCAGAGTAGAGT
Celera SNP ID:            hCV1948286
SNP Position Genomic:     348124
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,21)   caucasian(C,40)   total(A,1|C,61)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31803):
AATATCAGGGAGTTGAGAATAGATGCACTTAGGCAAGGAGGACACTGTTGTCATGACTCCAGGGAAAAAGAAGGTGAGAAGTGATCCTGAACGCTTGTTC
R
GGATACATTTTGTAGGCAGAACCAAGAGGACTCATTGATGGGTTGGATTGTGGGGTCGAAGGGATCAAAGATGACTTGAGGTTTTTTATTTGCACAACTG
Celera SNP ID:            hCV26469426
SNP Position Genomic:     636811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31804):
AGGAGACTCGCTTGAACCTGGGAGGTGAAGGTTGCAGTGAGCCAAGATTATGCCACTGCACTCCACCCTGGGCGACAGAGTAAGACTCCGTCTCAAAAAA
R
AAAAAAAAAGTTGTCAGATGAAAAGAAAGAAGGTATCTCTTTGTCCTCTTTGTCCTTTCTTAACATGCTACATTCCTCTGGAAGTGACAAGTTTACTTCT
Celera SNP ID:            hCV26469427
SNP Position Genomic:     225110
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31805):
TGAGATTTAAGTTTGCTTGTTTCCTGGGGAAGCTTGAAGATCCTCGTGGGACCACCATCCCCTGCTCAGTCCTCCCTGGAAGGGGGCACTGGCTGGGTAT
R
AGCCGCGTCACCGTTGGGTTTGTGACTTTCTGGATGGTGCCTGGGTTTCACCTGGGGCTGGCTGAGGAAAGGGGAGGCGGTAGGGTCTGCTCTGTCTGTC
Celera SNP ID:            hCV1948288
SNP Position Genomic:     348485
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31806):
CTCGCTTGAACCTGGGAGGTGAAGGTTGCAGTGAGCCAAGATTATGCCACTGCACTCCACCCTGGGCGACAGAGTAAGACTCCGTCTCAAAAAAAAAAAA
R
AAAGTTGTCAGATGAAAAGAAAGAAGGTATCTCTTTGTCCTCTTTGTCCTTTCTTAACATGCTACATTCCTCTGGAAGTGACAAGTTTACTTCTTTTGTA
Celera SNP ID:            hCV26469428
SNP Position Genomic:     225116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31807):
TATCTCCGTTCCATTACTTGCAAAAAACTGAGGCTTCCAGGAAGCAGGAGCTTCCTCTGCTTCGGGAATGGCACTTCCATCTTACTTTCCCAGCCTGAGG
Y
GTCTGGACTGGTGGGAACGGCTCAGGATGTGAAAGCTTTGGAGGTAAAGGCTTGGCAAGGAAGGGGATGGGCGTAAGAGACAAGTAGGGGTAGGGGTAAC
Celera SNP ID:            hCV1948289
SNP Position Genomic:     349095
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31808):
CATCCCCACTGTATCCTTAGGAAGACTAAGGTTTACAGAGTTCCATGCAGCCTGTCCTGAGTAAATGCAGAAGCCAGAACTCGGATCCAGGGTCTTCTGA
Y
TCTGAATCAGCCACCGTGTCCACAACAGAGTGTAATATTACAACTTTGTTCAGGGTATTAGATGAGGCCTTGTGGAGGAGGCATCCTATCAACTGCCTCA
Celera SNP ID:            hCV26469429
SNP Position Genomic:     637535
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31809):
AGTCCCTTCCTCCTCTCCAGGGCTGGTGGGAAGGCTGAGCCCTCTCTTTCGGGGGCTGAGTCTGGACAATGGGAAGGGAGAAGCCCCCTCCTCACTGCCC
M
GGGAACATAAAGCAGGCCTTTCACTGAGGAGTTCTGGCTGCTTCGGTTGGTTCTTGGCACCCAGCAAGGCGGCGTCGGGAGGGGCGGGCATACAAGCGTG
Celera SNP ID:            hCV25639040
SNP Position Genomic:     4220
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,31)   caucasian(A,12|C,26)   total(A,19|C,57)
SNP Type:                 UTR 5;INTRON;hmCS


Context             (SEQ ID NO:31810):
TTTCCTTTTGTTTTCTGTTGCTGCACCAAATTACGGCAGATTTTTCAGAGTGAAGGATTGCTGAGAGACTGGGCAAGGGGCCGGTGGAGGTTTTTGATGC
R
GAGCAATGAGATAGTTGCTCTGTGTCTGCCTGTGTTTCAGGAAAATTCTGTTATTACTGAAATCTTTGGTTTGAAAGCCACTGTTAGAACTAAATATTTT
Celera SNP ID:            hCV8702205
SNP Position Genomic:     22961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31811):
CCTTTTGCCCGGGAAAGTTCTGGGGGTAAATCTCATCTGCCCGTTGCAGCCACAGAGCAAAGTTCTGGAGCTGAGAAGAGGGTAAGAGAAAGCCCATTGG
M
CTGCAGCCCCAGAATTACAGAGCAGCCCAGACTCTCTTCTGCCCAGCTGTGGGCTGCACAGGAGGCCTGGGCATCTCTGCCAGTTCCTTTCTCTGGAGGA
Celera SNP ID:            hCV25639041
SNP Position Genomic:     3903
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,35)   caucasian(C,40)   total(A,3|C,75)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31812):
TAAATGCTCGGGGAGGGCAAAGCTTTCATGACCAGATGAGTGTGGGAAACACTAGACCCTTGGCTTCTGAGGTGTGGTTCAAGGCCTTGCCAGGAAGCTT
K
TTAGAAATGGAGCCTCTTGGACCCCATCCGCCACCTACTGCACCTAAATTTTAACAAGATCCCCAGGTCAATTCCTGTGCCTGTGAGAGTCTGAGAAGCA
Celera SNP ID:            hCV8702206
SNP Position Genomic:     22360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31813):
TGCACTACGATAGGGATATGCTCATCATATTTATGTGACCAATGCAGATGTCACAGAGGAGGCAAGTGATTGTAAAGAGGTAGAAGGAAGTGGTCAGTGA
R
AAGTGGGAGTTTGAAACTGGGAAGGAGGAGAAATGGTGTCTTCCAATGCCTGTGATCCAGGTTGGGCATAGATCCCAGCATTTGAGAGGCTGAAGTGGGT
Celera SNP ID:            hCV1004661
SNP Position Genomic:     601189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31814):
ATCCTCAACTTCTTCCGTGTACTAATTCCCATTATTCTGGATTTAATACTCTCTGAAGGGCAGACACACAGCATTGAAATGCCGTTTTCTTCGGGCCTGT
W
GGTGGGGGGCAGCTGGCATTTCAGGATGAGGCATTGCAGGCAGGCTGAGGTGAGGCCAGCCAGCCGGGAGATGAGGAAGCTACAGAGGGTGGGGCTGAGG
Celera SNP ID:            hCV8702207
SNP Position Genomic:     21853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31815):
TTGGTCTTTTATGTATTGATTATAAAAATAGGATCATCCGTGTACAAAGCTCTTATAGATTTTGTTTCCCATAATGCTGTGCAACCACTGAAAATCATGG
K
GAGGAAGTATATTTAACTATATACTATTTTTTGAGACAGAGTCTCCCTCTGTCGCCCAGGCTGGAGTCCAGTGGCATGATCTCAGCTCACTGCAACCTCT
Celera SNP ID:            hCV1004662
SNP Position Genomic:     595088
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31816):
CAGGAGCATAATCAGTGTTGTGGGAGCCCAGAGGTGAGAAAGGATCTGCTTCCTCCTGGCCAGCTGGGGAGGGCTCCCAGCAGAGGGGATGCTTGGGTTC
Y
GGCTCATAGAGCAAGTGGGTTGATCAAACACTTGAAATGTGTCAGTCAATTTGCATGCATTACCTTTTATGATTTATGATTTTATGATTTATGACAGTTT
Celera SNP ID:            hCV1004663
SNP Position Genomic:     594751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31817):
AGACCCCACCAGGGACTCCTAGGGCAAACAAAGAGAATTATCTGCCTGCTCCTTTGGTCATCCCTCTTTCCTGGCCTCACAGAACTCCCCCTGAGGATCC
S
TGGCAGGCTTTATAATGTGAGTCCTTTCAGGCTGGGATTTTTTGTTTTGTTTTTTTTGTTTGCTTGTTTTTTGAGACAGAGTCTCACTCTGTCACCCACG
Celera SNP ID:            hCV1004665
SNP Position Genomic:     593062
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31818):
CGCATCCTGCCTTATCCATCTCTGCCTGGAAGACCCCACCAGGGACTCCTAGGGCAAACAAAGAGAATTATCTGCCTGCTCCTTTGGTCATCCCTCTTTC
S
TGGCCTCACAGAACTCCCCCTGAGGATCCCTGGCAGGCTTTATAATGTGAGTCCTTTCAGGCTGGGATTTTTTGTTTTGTTTTTTTTGTTTGCTTGTTTT
Celera SNP ID:            hCV1004666
SNP Position Genomic:     593032
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31819):
GGGGTGGCTGTAAGGGCCCCACACGCGCATCCTGCCTTATCCATCTCTGCCTGGAAGACCCCACCAGGGACTCCTAGGGCAAACAAAGAGAATTATCTGC
S
TGCTCCTTTGGTCATCCCTCTTTCCTGGCCTCACAGAACTCCCCCTGAGGATCCCTGGCAGGCTTTATAATGTGAGTCCTTTCAGGCTGGGATTTTTTGT
Celera SNP ID:            hCV1004667
SNP Position Genomic:     593007
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31820):
TACTGCCAGCCTTTGTCTTCAGGATAAGTTTAACAATTTTATATGATCTGATAATGCCTAACAGTGATCCTGTCCCTTTAGGAAAGTTAGGAAATGCTAA
Y
AAAAGTTTCTTAAAACTAAAAAGCCCTAAGGCATAGATCTCTGACTGGCAGATGTTAAGCATGCAGCAAAGGATGGGCTATATTTCAAGGCCAGGTGCCT
Celera SNP ID:            hCV1004668
SNP Position Genomic:     591246
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(C,-|T,-)   (T,-|C,-)   Caucasian(C,34|T,50)   African-American(T,21|C,63)   Asians(C,34|T,50)   total(C,131|T,121)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31821):
TGCCACCCACAGACTGACCTCATGACCCACTGATGGGTCACACTCCAAGAATGGATTTGAAAAACACTGTCCAGACAAGCTGAGAGGGAGCTTCCGCCTC
R
GAGACTGTGAGATCCTCTTTACTTGGTGGCAGTAACATGAAGTGGAAAGAACATGGCCTTTTAAGCCAGACACATATAAGTTCAAATTCTAGCTTTGCCA
Celera SNP ID:            hCV8922474
SNP Position Genomic:     310920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31822):
AATCAATTTCATCTTACCTGCCAGCCCCTAGAGGTAGGCAGGGACTTCCTAGAGCACTGCTTTAGAGCTGGGCTTAGGAGAAAAGAGCACCTTGAGCAAT
K
CCTGTGGATGCAGAGAGAGGAGTGCAAGTACAAATGATTTTGCTGACTCTGAACAAGTCACCCCACCCTCTGAGCCCTGAGGTCTTCCCTGGAGGCTCCC
Celera SNP ID:            hCV1004669
SNP Position Genomic:     590666
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31823):
CTTTGTCGAGTTTGGCCAGGGCTTCATATTTGGCCTTTTCATGCTTTGAGATGGATCTCCATTTTTCCGAACACTTTCTAGAGAACTCTTTAAAGCCAAC
R
TAGGTATTTGGCTGCTGCTCCTTGAATTTGTTTCTGTAATTCAGCAAAAAGTGAACGTAAGAAGAGACATTTGCCTTAGGCTTTAGCTGGATTTCTTTTC
Celera SNP ID:            hCV8922475
SNP Position Genomic:     307431
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,35)   total(A,1|G,73)
SNP Type:                 NONSENSE MUTATION;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   (C,-|T,-)   Caucasian(T,1|C,83)   Tfrican-Tmerican(C,80)   Tsians(C,84)   total(C,247|T,1)    
SNP Type:                 NONSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:31824):
GGACCACCATATCATGGCATCAAGTGAACTTGTATGAGTGTACAGGCTGGAGGGCCAGCACCCTTATAGTAAGGAGCAAGGGCCCCAGGGAGGCAGGGAG
R
GGGCAGGAAGAGCAGGAGGGGGATAGCTCTCCGTGAGGGGTGAGACCAGGAGGAAAGGATTGGTATGGATTACATTTCAAGAATGAAGGAAACTGAGAGC
Celera SNP ID:            hCV8922476
SNP Position Genomic:     305029
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,8|G,32)   total(A,10|G,66)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31825):
TATCTGGGTGCTCTTCTGTTAGGTACATATATGTTTATAATTGTTATATCTTCCTTGTTGAATTGACCCTTTTTTCATTATACAATGTCTTCTTTGTCTC
Y
TGTGACAGTTTTTGATTTAATGTATATTTTTTCTAATATAATTATATAATCACCTTGCTGTCTTTGGTTACCATTTGCATGAAAAATCTTTTTCTATTCT
Celera SNP ID:            hCV11266135
SNP Position Genomic:     54891
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31826):
GTGACTTTTGTTTCACAATTTATGTGGCTGATTTTGTCTGCTTTTGACAGTTCTGTTGTGTTCCTGACAGTTACAATTTGGTTTCTCTCTGGGACCTTGG
R
ATGATAAGTTGGGATGCCAACCTCGCATTGATCCACTGGGGGAGCACAGACCCCTTCTTGTTTCTCCCCATGCTGTGCTTATGAATGGGAAGTTCTGAGC
Celera SNP ID:            hCV11266138
SNP Position Genomic:     46596
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31827):
CTGCCTTTTCTTTTCTTTTTTTTTTTTTTTGAGATGGAGTTTTACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTTACTGCAACCTCCG
M
CTCCCAGGTTCAAGCAATTGTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCACGCCCGGTTGAATCTTTTTTTAGTAGAGGTGG
Celera SNP ID:            hCV27490539
SNP Position Genomic:     201708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31828):
ACTTCCATCTTACTTTCCCAGCCTGAGGTGTCTGGACTGGTGGGAACGGCTCAGGATGTGAAAGCTTTGGAGGTAAAGGCTTGGCAAGGAAGGGGATGGG
S
GTAAGAGACAAGTAGGGGTAGGGGTAACTGGCTTGAACGTGCACTGCACACAACCAAGAGGATACCTGTGTCTGGCTTGAGCACACAGTCTGTCCAAATC
Celera SNP ID:            hCV1948290
SNP Position Genomic:     349167
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;(G,-|C,-)   JBIC-allele(C,438|G,1049)   total(G,1049|C,438)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31829):
GGTTTCTGGCTCAAGGCCCTGTGTTTCCCGAAGGCCCCAGTTAAAGTACAATTTAATGGATGGATGCTATACCTAGAGAATGGGCAGGATTACTCCTTCA
R
CAGGCAGTTATTGAGTGCCTCTGTGCGCCTGAGCTCTCAGCAGCACTGGGGACATGGGCAAGTTTCAGTGCTGAGTGTACATAAGAGAGGCAGCTACACA
Celera SNP ID:            hCV8021101
SNP Position Genomic:     17665
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31830):
TTGAGGGAAAGGATTAAGGTTAAACGATTAGTTCAGTGCTGGAATAGCATTAAACTCTCTGATAGGCACTCACCTCACCAGATACCAGGCATTGTGCTAA
R
TGCTTTGTATGTTTCAACTCATTTAATCTTCACAAGATCCTATGAGGCTATTTAATATATGAGGAAACTAGGGCATAGAGAAGTTAATTAATGTGTCCAA
Celera SNP ID:            hCV26469430
SNP Position Genomic:     639381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31831):
ACCTCACCATCCACTCTTCCTTGTCACTCTTCACCTTCCCTCCTACTCTGGTCACACTGCATAACACGCATTCTCTTTCCAGGTTTCCACCTCACTCCTC
R
TGCCTGTCTATCTTTGTCATCTCTGTTGCCGTGTGTCTAAATCCTATTAGCTCAGAAGGTCCATGTTCGATGCCACCTCTTCCAGGCAGCCTCACATGCG
Celera SNP ID:            hCV1948291
SNP Position Genomic:     349815
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;(G,-|A,-)   no_pop(A,-|G,-)   JBIC-allele(G,515|A,976)   total(G,515|A,976)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31832):
GAGGTTTCTGGCTCAAGGCCCTGTGTTTCCCGAAGGCCCCAGTTAAAGTACAATTTAATGGATGGATGCTATACCTAGAGAATGGGCAGGATTACTCCTT
S
AGCAGGCAGTTATTGAGTGCCTCTGTGCGCCTGAGCTCTCAGCAGCACTGGGGACATGGGCAAGTTTCAGTGCTGAGTGTACATAAGAGAGGCAGCTACA
Celera SNP ID:            hCV8021102
SNP Position Genomic:     17663
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31833):
GACCTGAACCTTGGCCGTCTGGCCCAGGCCCAAAGCTTTTGCCTTTGCTTTGCCTGTGAGGGCTTCTTGGTCTTAATCTCATCATTCCAAGGGAGGAAGG
Y
GCTCCTCTGCAACCCCCACCAGGACTCACAGAGTTCACCGTTGATGGGTAGAAGTTCTTCCTTCATGCGAGGCATCTGGAAGAAAAGCAAAGTCGAGGGC
Celera SNP ID:            hCV26469431
SNP Position Genomic:     643629
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31834):
GGCAAAAGACTAGGCTCGGATTTCAGGTAAGATCTATTTGGGAATTTTCTGATTGCAAGAAGGGTGGGGTGGCCTGGCTGGGAGGAAGACAGGGGCTGGC
Y
TTCCTGCAGGTGGAAATGGAGAGGATGGCATGGATATAGGAACAGACACTTCCTGGAGAAGAGCTATGGCTTTGACATTCTCTCCTGGTTCAGTCCTTGG
Celera SNP ID:            hCV1948292
SNP Position Genomic:     351332
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31835):
CGAGGCATCTGGAAGAAAAGCAAAGTCGAGGGCAGGACTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCCGTCACCCAGGCTGGAGTGCAGTGGC
R
TGATCTTGGCTCACTGCAAGCTCCGCCTCGCAGGTTCACACCATTCTCCTGCCTCAGCCTCCGCAAAGTTTTCAATGAGGACATTCAGGGAGTCTGTGCA
Celera SNP ID:            hCV26469432
SNP Position Genomic:     643797
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31836):
AAAGGGCTGCCATCTCAGTAATGACACGCCAGAAGGCAACTCGCGCCTGCAATAATCTAGGAGACCATTTTCCTTAAAGTTTATGGGTATCATCCACCCA
Y
GCTTAGCTGCCCTAACTGGTGCTTATCTCAGAGGATCGCTGTTTTGCTCACAAAGTCACCTTTTAACTCAATCCTAAAACCATTAAACAGTCCGAAAAAA
Celera SNP ID:            hCV1948293
SNP Position Genomic:     351611
SNP Source:               Applera
Population(Allele,Count): african american(C,2)   caucasian(C,7|T,9)   total(C,9|T,9)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31837):
GGCAGGACTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCCGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAAGCTCCGCCTC
S
CAGGTTCACACCATTCTCCTGCCTCAGCCTCCGCAAAGTTTTCAATGAGGACATTCAGGGAGTCTGTGCACTTGGATGGGAAAATATACACCTTTTATTC
Celera SNP ID:            hCV26469433
SNP Position Genomic:     643827
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31838):
GCAGGCCCAGGGATGGAGCTCACAGACACACTTTGTCTCCCAGGTTAGGATCCAGCGTCCAGTTCACCTGCAACGAGGGCTATGACCTGCAAGGGTCCAA
R
CGGATCACCTGTATGAAAGTGAGCGACATGTTTGCGGCCTGGAGCGACCACAGGCCAGTCTGCCGAGGTGAGGGTGCCCTGGGGAAGGGAGGCTGGCCAG
Celera SNP ID:            hCV1948294
SNP Position Genomic:     351946
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,4)   caucasian(A,15|G,15)   total(A,19|G,19)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:31839):
ACATACCCATCATCTCACCTAATTATCATTTTTTTGTGATGAGAACATTTAAAATCTACTCTTTTGGCCGGGTGTGGTGGCTCACACCTGTAATCCCAGC
R
CTTTGGGAGGCCAAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAATTAG
Celera SNP ID:            hCV26469434
SNP Position Genomic:     645746
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31840):
CCAGGTTAGGATCCAGCGTCCAGTTCACCTGCAACGAGGGCTATGACCTGCAAGGGTCCAAGCGGATCACCTGTATGAAAGTGAGCGACATGTTTGCGGC
Y
TGGAGCGACCACAGGCCAGTCTGCCGAGGTGAGGGTGCCCTGGGGAAGGGAGGCTGGCCAGAGAGTTGGGCTGAGCCTGGAGGCTGAAGCCCAGCTCCCA
Celera SNP ID:            hCV1948295
SNP Position Genomic:     351985
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:31841):
TTGGGAGGCCAAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAATTAGCC
R
GGCATGGTGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACA
Celera SNP ID:            hCV26469435
SNP Position Genomic:     645849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31842):
GCTACTATGTTTTTAAAAAATCAAACAACAAAAAAGAATTCTTGTCATAACTCTCAGCAATTGGGCAAATCACCCATTTTCCCTAAGCCTTTCTTACCTC
Y
AAATGTTGCTAATAGTATGTATCCTACCCTTCTTCTGTTTAATGTGGAGATTGAATGGAGTTGTGAATGTGTAAGCAGTTTATGAATTGAAAAGTGCTAG
Celera SNP ID:            hCV1948296
SNP Position Genomic:     353209
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|C,10)      total(C,10|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31843):
GAGTCCTCCGGAGCCACCTTCATCTACCAAGGCTCTGTCAAGGGCCAAGGCTTTGGGCAGTTCGGCTTTCAAAGACTGGGTAACTAGTGCTTGTCCCCCG
R
AAGTGTGGGCCCGGGTGGGTGGGAGAGAAACCGTGTGTGCCGTGGTCAGGTAGAGGACTGGGGAAGTTGAACAGTCTGAGGCGGGGGTGCTTTGGCCTCT
Celera SNP ID:            hCV26469436
SNP Position Genomic:     650253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31844):
AGTAGAACATGAGCTCTATAGGGCAAGGACTTCTGTTTTGTTCACTGCCTAAAATGGGGCGTGGCATGTAGCAGGTACTCAGTAACAGGTGTTGAATGGA
Y
GACGGAATGAATGACTCATTGAATAGCATACCACTCCAATGCCAGGGAGCCCAGACACCAGCTGTGCAGAGAGGCATAGAATTATCAAGTCTGAGGACCA
Celera SNP ID:            hCV1948297
SNP Position Genomic:     353433
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31845):
TTGGCCTCTTTGGGATCAGGGATGCCTCTTGAGATTCTGACAAAAGCCATGGAATATCTCTCCAAAAGCAAACACATGTGCATAACCCACTCAACCTTTG
W
CAAAGTTTCCTGTTCAGACCTGGAGAGGAGAGCCCCCAACTCCAGGGACATTGGCTCTTAGATACAGCCCCCAGCCACACCCTCCAGCCAGCCCTGGGTG
Celera SNP ID:            hCV26469437
SNP Position Genomic:     650445
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,7)      total(A,7|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31846):
CCAACCATCATCATTTTTAGCTGGGGCCCTTGGGCCAGTTTCTTCACCTCTCTGAATCTCTTTTTTCCTGCCAAAAAGTGGTGATAATAGAACATTACTT
Y
GTGGGGTTACTTTGAGGACTAGATGAGGCAGTCCTTGTTTAGAAGTGATGCCAGTACGTCTGTGAGACTTATATGCACACGTATTCAGCTTAACCTGCTG
Celera SNP ID:            hCV1948298
SNP Position Genomic:     353994
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31847):
AAAGTTTCCTGTTCAGACCTGGAGAGGAGAGCCCCCAACTCCAGGGACATTGGCTCTTAGATACAGCCCCCAGCCACACCCTCCAGCCAGCCCTGGGTGT
S
ACCCCTGCCTCAACAAACAACGACACTGTGGAGTGTCTTAGAGCTCTCAGGGTGCCTTGACTGTGATGTCGTTTCTGCCCTAGCCCAGCCCTAGAAGACT
Celera SNP ID:            hCV26469438
SNP Position Genomic:     650547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31848):
GCCCCCCACCCCTCCCCTGCGTCTCCTTGTAAAGTTCCATGAGATGCTCGAGGAGCACCTGCTGGTGGGGCACCCAGCACTCTGCTGGGCATCACCCTCC
R
CACCCCTGACATTTCTCTCCACCTCCAGAGGCTTGGAAGGGAACAGGGCAGATGAGGCCCTTCACCCACCATCTACGCCATATACCCATCACCATCCCAT
Celera SNP ID:            hCV27489203
SNP Position Genomic:     657201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:31849):
AAAAAGTGGTGATAATAGAACATTACTTTGTGGGGTTACTTTGAGGACTAGATGAGGCAGTCCTTGTTTAGAAGTGATGCCAGTACGTCTGTGAGACTTA
Y
ATGCACACGTATTCAGCTTAACCTGCTGGGCACTGTCCGCATAAGCTTCCTCAAGCCCTGGAGCAAACCTCAGCCTCTAGTTGCTGCAGGTTCTTTTAGA
Celera SNP ID:            hCV1948299
SNP Position Genomic:     354066
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31850):
GGTAACTGGCCCACCTTTGAGCCAGCGGGTCTCACCACGCCTTCTCCCCACCAGAACTCTCCAGCGGCTCCCCATCATTTTCAGGATCAGACTCAAACCC
Y
GTAAAAGTCTGATCTCTGAAACCTCACCATCCACTCTTCCTTGTCACTCTTCACCTTCCCTCCTACTCTGGTCACACTGCATAACACGCATTCTCTTTCC
Celera SNP ID:            hCV15876194
SNP Position Genomic:     349694
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,15|C,1476)   total(C,1476|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31851):
CTTGCCTGCCAAGGCAGTCCACTCCATGTCCTCTGGCTCCAAGCTCCTGAAAGCTTCTCTGGACTGAGCCACGGTCTGCTCCCACCCTTTCCCACCCACA
S
TGCTCCTCCCCCGGAGTTGTCCCAGCTCTGCCCTCATGAGCTGCATGGACTGAGACCACTGTCTTCCACACAGCACCCTTCACCTACTGCAAGATGGCCA
Celera SNP ID:            hCV26469439
SNP Position Genomic:     651031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31852):
CCTTCCCAAATCAATGCTCTCCGTTGTAAAATGCAGATAATTATACCCACCTGTAAGACTCCTGTGAATAACAAATGAGAGAGAACACATGTATAGCGCC
R
TAGAGTGGGAGCTCTGCATAAATCTGTTTCCTTTTCCAGCCCATTTCAACAGCGTATGTTTAAGCAGGTCATAACTCAGCTTTTAAACATACATTTAAAG
Celera SNP ID:            hCV3138300
SNP Position Genomic:     472306
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31853):
CGGACCTGGGACCGGCCTCTGCCCACCTGTGTCGGTAGGAGGGCTCTTCCTCTGCAGGGAACCCTTGGGTCTCCCATAATACCAAGCTCTAGTCCTGGTC
Y
CATTCCAGTTAGACCCCATGCTCCAGGGCCTGGGGGCCATCAACTTGGACTGAATCCTCTTGTTAACAGGCATCATGGTTCACCTGCACCCCTTCTCCAC
Celera SNP ID:            hCV3138301
SNP Position Genomic:     473019
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,20|T,16)   total(C,27|T,47)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,30)   caucasian(C,20|T,10)   total(C,26|T,40)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31854):
GTGACCCTGATCCCTTCTTCTCCTATTTCTAGCATCTTGCCTAATCAACTATTCCTTTTCCTAAATAGCTCTGCAATGAACATCCTCCTCTTCATTTGTA
Y
TCATTCTCCCTTGATTCAGACGCTTATAGTAATTTGCATGGAAAGCAATAATCTGCTTCCATTCATTTGATTGTCCAGCCATCCATTAATTCAATAAACG
Celera SNP ID:            hCV3138302
SNP Position Genomic:     475516
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31855):
CACAATCTCAACTGCATCTGGACCATCGAAGCAGAGGCCGGCTGCACCATTGGGTAAGTGTCAGGGCTGACAAAGTAACTATCGCCAGTTGTTCAGGGGA
R
CCATCATCAGCATCATCACCAGGCCATCCAGCTAGTGCCTGGCCTGCCTGCCTCACCTGGAGAACCTTGTGATCAATAGTGGTTGCTATACTGGATGCCT
Celera SNP ID:            hCV3138303
SNP Position Genomic:     478823
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31856):
AGAAATCAGGACACTCAGGGGAGTCTTATCCTCAACTTCTTCCGTGTACTAATTCCCATTATTCTGGATTTAATACTCTCTGAAGGGCAGACACACAGCA
Y
TGAAATGCCGTTTTCTTCGGGCCTGTAGGTGGGGGGCAGCTGGCATTTCAGGATGAGGCATTGCAGGCAGGCTGAGGTGAGGCCAGCCAGCCGGGAGATG
Celera SNP ID:            hCV8702214
SNP Position Genomic:     21826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31857):
TGGCAGTGGAGATGGAGAAGAAGAGAAAATTCAGGGGACATTCAAGTGATCACACCAACTTTTCTCAACTACTGTTTGTGACAACAATACACCAAGTACC
Y
GCGTACCTACCGCCTACACCCAAATGGCGTTACTATTTTGCCATATATGCTTATGTGCTTTCTTTGTTCTTCTCTTTCCATCCTTTTGTTTTCCTTTTTG
Celera SNP ID:            hCV3138304
SNP Position Genomic:     481804
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,8|T,10)      total(C,8|T,10) ;no_pop(T,-|C,-)   ;(T,-|C,-)   Caucasian(C,28|T,54)   African-American(C,30|T,52)   Asians(C,26|T,56)   total(C,84|T,162)
SNP Type:                 INTRON


Context             (SEQ ID NO:31858):
TTTCTCAAAGAGCTTTCAAAAGCAGTATTAGGGAGCTCTGTTACTTATGACCCCGAGACATGACATTTTCCTCTAGCTTTATTGCTATGTATTCATTCCA
W
AAATATTTTTTTCTATATGGCAGGCACTGAGCTTTTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACTGAGTCTTTCTCTGTCACCCAGGCT
Celera SNP ID:            hCV1004670
SNP Position Genomic:     590112
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31859):
TGAAGGAGAGCAATTTGCAGGTAGAATATCTTCGAGGGAGCAGCTAGACAAAGACTTAAAGCAGCAGGCTGTGCTTGGGAGATGTCAAGTTTGCATCCCC
Y
GCCCCCCCTTTATCAGCATCATAGTCTTCCTTGTGGAAGCTGTCCCTTAGTTTTTATTTTTATCTTTTTTATAGGCAGAGTCTTGATCTGTCACCCAGGC
Celera SNP ID:            hCV8702216
SNP Position Genomic:     20288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31860):
CCAGTTTCAGCTTTCTGCATATGGCTAGCCAGTTTTCCCAGTACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAA
R
ATCAGATAGTTGTAGATATGCAGCGTTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTA
Celera SNP ID:            hCV26469299
SNP Position Genomic:     280972
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31861):
TTATGGGTTATCCAGCTTTATATTCTGCGCCCCTTCAACCAGCCCCCTCGGGATGCAATCTCAGACATTTAAGGTAGGACAAAAGAAGAGGGAGGTCTTT
Y
TCAAAGAGCTTTCAAAAGCAGTATTAGGGAGCTCTGTTACTTATGACCCCGAGACATGACATTTTCCTCTAGCTTTATTGCTATGTATTCATTCCATAAA
Celera SNP ID:            hCV1004671
SNP Position Genomic:     590015
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31862):
TGTGTTATGGGTTATCCAGCTTTATATTCTGCGCCCCTTCAACCAGCCCCCTCGGGATGCAATCTCAGACATTTAAGGTAGGACAAAAGAAGAGGGAGGT
Y
TTTCTCAAAGAGCTTTCAAAAGCAGTATTAGGGAGCTCTGTTACTTATGACCCCGAGACATGACATTTTCCTCTAGCTTTATTGCTATGTATTCATTCCA
Celera SNP ID:            hCV1004672
SNP Position Genomic:     590011
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31863):
AGCCATCATTCAGGGCCTTTTCCAGAGTGATAAATCCTGTGTTATGGGTTATCCAGCTTTATATTCTGCGCCCCTTCAACCAGCCCCCTCGGGATGCAAT
Y
TCAGACATTTAAGGTAGGACAAAAGAAGAGGGAGGTCTTTCTCAAAGAGCTTTCAAAAGCAGTATTAGGGAGCTCTGTTACTTATGACCCCGAGACATGA
Celera SNP ID:            hCV1004673
SNP Position Genomic:     589974
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31864):
ACGGACCTGGGCCAGGACTCCATTTATTCCCAAAACCACCCTTCATACACCACTCCTCTGGCAGAGTAGCTATGATAGTGCTTTGGACCCCCAGTCATCA
R
CATCAATTAACATCCTGTATCCAGAAGTCTTTGATATATCTGAACATTCCATTTTCTATAATATTCTGTTTTCTGAGTAAACAGTAGTAGGTCTTTTGGG
Celera SNP ID:            hCV1004674
SNP Position Genomic:     589044
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31865):
TGTGTACTGTGAGACGGACCTGGGCCAGGACTCCATTTATTCCCAAAACCACCCTTCATACACCACTCCTCTGGCAGAGTAGCTATGATAGTGCTTTGGA
Y
CCCCAGTCATCAGCATCAATTAACATCCTGTATCCAGAAGTCTTTGATATATCTGAACATTCCATTTTCTATAATATTCTGTTTTCTGAGTAAACAGTAG
Celera SNP ID:            hCV1004675
SNP Position Genomic:     589031
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31866):
TGGTTACCTCAAGAGTGCCTCTTAGTTTTAACACCCACATTTCATAGAGCTTACGTATCTCTCAGTACGATACATTTCAGCGAGTGCGTCTATAGAAAAC
R
TTTACAGTTAGATCCCCCAAAACATAGTACACCATTTTCAATAAATCTATATGCAGGGAAAGTCTCAAGCTGCATTCCAACTACAGTTGGTAAAATGTCA
Celera SNP ID:            hCV1004677
SNP Position Genomic:     582656
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31867):
ATGGAGCCTCCATCCAGGATGGGAGGGTGGGCATGCAGCCACGTACTAAAGAGCTGTATGCATGAGAACCGTGTGTGCAAAATGTATATGTGTGTGTGTG
K
GGGGGGGGGTACACATGTATGTAGTGGACGTGGACGTCTGTTTCTGTAGCTGTTGATGTGTGTGTGCACAGGTGTGAATTCTGCATGCCAGGACTTGGGC
Celera SNP ID:            hCV11266146
SNP Position Genomic:     42264
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31868):
GAGTCAGACCCCGAGTCCATTGGCCGCCACTTTGCTTCCAACAGCAGCTCAGTGGCAGCCGCGATCCTGGTGCCTTTCATCGCCCTCATTATTGCGGGCT
Y
CGTGCTCTATCTCTACAAGCACAGGTACCGTGCAGGAAGGAGGCAGGGCGGGCATCAGGCAGGCCTCCCTCTCTCCCTCCAGGGCCCCCCGCACCAGACC
Celera SNP ID:            hCV26469440
SNP Position Genomic:     651858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:31869):
GGTTTACTTACAAAATTCCCCACATTGAGCACAACAGAGGGGAGGAGCTCCCGGAAATATAGACAGGGGGCAGACACACCCACACGTGTACACGGTCATG
M
ACACACACACACACATACGCATACATGCACACAGGCATGCATCTGACAGGCCCACTGGGAAGGAACTGATGAATCTAAAAGGCACTGCCTCTTCCTCACT
Celera SNP ID:            hCV26469441
SNP Position Genomic:     653287
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,3|-,11)   total(A,3|C,3|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31870):
TCCCTGTGACAGAGACCATATAGCCTGCAAGGCCAAAAAATATTTACTATCTGGCCCTGTATGGAAAATGTTTGCCAATTCTTACACTATTTATTGCTTC
K
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAATTCTGATTAATATATAATATATATTTTATTATGTATACATATATATTTAATTCACTCAACACATTCC
Celera SNP ID:            hCV26469442
SNP Position Genomic:     227779
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3|-,6)   total(G,3|-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31871):
TAATAAGCAATCATTACCCATTTGTGCAATACTTTTATATTAACATCACCTCTTTTATACACTGGGGTTCTGGGGTTCTGTGTGAGATTTCCTTCCTTCC
T
TCCTGCCTGCCTGCCTGCCTGCCTGCCTTCCTTCCTTCCTTCCTTCCTTCCTCCTTCCCTCCTTCCCTCCCTCCCTTCTCCCTTTCCCTTTCCTTTCCTT
Celera SNP ID:            hCV26469443
SNP Position Genomic:     186856
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31872):
TATCAGTCAATTGGTTGTGGTTGACAAAAACCATGTGTTCAGACCACATCTAGATTCACTGAGAAGAGGGCAGAGATCAATTAGTGATGTCTGCATGGGG
R
TGGATGAGCAAAATAGTGGCACATGTGCTATTTGTGTCATTTCTGACCTCAGGCATCACAGAGCATATTGCTGGATGGCAGAGAGGATAGCATCATAACA
Celera SNP ID:            hCV8020312
SNP Position Genomic:     165246
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,10)   total(G,10|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31873):
AGCAATCATTACCCATTTGTGCAATACTTTTATATTAACATCACCTCTTTTATACACTGGGGTTCTGGGGTTCTGTGTGAGATTTCCTTCCTTCCTTCCT
K
CCTGCCTGCCTGCCTGCCTGCCTTCCTTCCTTCCTTCCTTCCTTCCTCCTTCCCTCCTTCCCTCCCTCCCTTCTCCCTTTCCCTTTCCTTTCCTTTTTCT
Celera SNP ID:            hCV26469444
SNP Position Genomic:     186861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31874):
GGAGCAGTCGTCTGGGCCATTTGATGGGAGCTGAGCTAGTTATTTAAGTCTGAACAGAACATGACCCGCCTCTGATTATCTCACCTGGAAGTGGGTTCAA
R
GTACTAATGACTGGACTTCTTAAGAGGGTCTACATGTTGGTCTTTCTTTGACAGGTGACATCGTACGCTACAGATGCCTCCCTGGCTTTACCTTAGTGGG
Celera SNP ID:            hCV27846055
SNP Position Genomic:     585035
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,38)   total(A,1|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:31875):
GCAATACTTTTATATTAACATCACCTCTTTTATACACTGGGGTTCTGGGGTTCTGTGTGAGATTTCCTTCCTTCCTTCCTGCCTGCCTGCCTGCCTGCCT
G
CCTTCCTTCCTTCCTTCCTTCCTTCCTCCTTCCCTCCTTCCCTCCCTCCCTTCTCCCTTTCCCTTTCCTTTCCTTTTTCTTTTGACAGGGTCTCACTCTG
Celera SNP ID:            hCV26469445
SNP Position Genomic:     186881
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31876):
GTTCTGGTGACTCTACTTTGTTTAATATGATCCATTAATTTTTCCAAGCTTCTAAGAGCTGTCTCAGTGGCATAGTAGAGCCATCATTCAGGGCCTTTTC
M
AGAGTGATAAATCCTGTGTTATGGGTTATCCAGCTTTATATTCTGCGCCCCTTCAACCAGCCCCCTCGGGATGCAATCTCAGACATTTAAGGTAGGACAA
Celera SNP ID:            hCV27846056
SNP Position Genomic:     589896
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,38)   total(A,1|C,73)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31877):
TCTTTTATACACTGGGGTTCTGGGGTTCTGTGTGAGATTTCCTTCCTTCCTTCCTGCCTGCCTGCCTGCCTGCCTGCCTTCCTTCCTTCCTTCCTTCCTT
S
CTCCTTCCCTCCTTCCCTCCCTCCCTTCTCCCTTTCCCTTTCCTTTCCTTTTTCTTTTGACAGGGTCTCACTCTGTCACCCAAGCTTGAATGCAGTGGAA
Celera SNP ID:            hCV26469446
SNP Position Genomic:     186906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31878):
TGTCTTCCAGTCCCAAGGCCTTTTCGACTCACTTGTTTATCCATGGGCCAAATGGTCTCCTACAGCTTCTGCCCTCCAGGTGTGAGTCTACACGTTGTCC
R
AACTTTTGGAGTGAAACAAATCTGAAAGAGTTCCTTTTCCTATTAAGTCACTCAGTGGGGAAGGAATTAAGCAGAGGAAATTATTAGGGGAGTCACTCAG
Celera SNP ID:            hCV26469447
SNP Position Genomic:     256145
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31879):
TGGCGGCTCTAGGTTGAAGCTCCTGGAATAATAGAAGCAGGTGTAGGTGGGGTCTTGGGGACACAGAATTCTCCAGGTGCAACGTACAGCATCCCCATCC
Y
CTAGGCAAGATATTAATCTCTGAGTTAAGGACTAAGGGACCCTGATGAGGTCTGGGAGGACTGTCTCAAAGGTTCTCTAGACTGAGGCACCTTGGCTTTG
Celera SNP ID:            hCV8020316
SNP Position Genomic:     164918
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,9)   total(C,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31880):
GCTGGGCTTGGACTGACTGAGGGTTACAACCCACAGAGAAGAATTGGTATTACACCCTGACTACACATACATGTGTGCAGCCCTCACCCAACATACACAC
A
AACACACACACACACACACACACACACTGCCAAATCGTCTCTGACACATACCTTTCCAAGTCACTGCCAAATTCACATCACCAAGTCATCCCTCACCCCC
Celera SNP ID:            hCV26469448
SNP Position Genomic:     257322
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31881):
AATGAGATCTGGGGTGGGATGGGGTGGAATAGGAGCAGTTGATCTATTGGCGGCTCTAGGTTGAAGCTCCTGGAATAATAGAAGCAGGTGTAGGTGGGGT
M
TTGGGGACACAGAATTCTCCAGGTGCAACGTACAGCATCCCCATCCTCTAGGCAAGATATTAATCTCTGAGTTAAGGACTAAGGGACCCTGATGAGGTCT
Celera SNP ID:            hCV8020317
SNP Position Genomic:     164871
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,10)   total(A,3|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31882):
CTGGGCTTGGACTGACTGAGGGTTACAACCCACAGAGAAGAATTGGTATTACACCCTGACTACACATACATGTGTGCAGCCCTCACCCAACATACACACA
A
ACACACACACACACACACACACACACTGCCAAATCGTCTCTGACACATACCTTTCCAAGTCACTGCCAAATTCACATCACCAAGTCATCCCTCACCCCCA
Celera SNP ID:            hCV26469449
SNP Position Genomic:     257323
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31883):
TTCATCATGCCTCCATGAGAACATCACAAAACTTCCATCTAGAAAGGAAATAGGCCAAGTGTGGTGGCTTGTGCCTCTCATCCCAGCAGTTTGGAAGGCC
R
AGGTGGGAGGATTGCTTGAGGCCAGGAGTTTGAGACCAGCCTAAGTGACAAAAAGTGAGGCCTCTTCTGTATAAAAATAAATAAATAAATAATTAGCTGG
Celera SNP ID:            hCV8702222
SNP Position Genomic:     19177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31884):
AGAGTGGGTTGTTCCAGGTCTGGAAGAAGGTTTGCTCACCAAAGAAGGGCATTGAGGAGGCTGGAGGATTTGGAGAAGGGGGATGGCTGGCTGGCTTGGC
Y
GGCAGCCACAGGTCTCTGAAAAAACACAATGAGGGTAGGGTGCTACTGGCAAAGGCAGGCCTTGGTGAGGGTGCCTGGAGCCCCACATCAGCAAATTGGG
Celera SNP ID:            hCV8702223
SNP Position Genomic:     18841
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31885):
AATGCTGGAGGCTCCCTTTTCCTGCCATAAGGGATCATTCTTCAGGGAGACCCTGGGAGTCCCATGTGGCCACCACCAGGAAACCATCCGAAAAATATGC
Y
TGGCACAAACCAGGAACCCCAGGGCAGCTCCTATCAAGTCCACCATCAGAGAAAGACATTGTGCCTACCCTAGAGCTAGCACAGTGGCTCCACTCACAGA
Celera SNP ID:            hCV8702224
SNP Position Genomic:     14207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31886):
TACACTAAGATATTCTGGGGTTACAGGGCAACATGTTGGCGACTTACTTGCAAACGGTTCATGGAAAAAGATTTTTGTACTATACTTCCAACTTCTCCTA
K
ACCTTTGTGGCTGCTCCAAATTAAAACTTTTATTTCCAAGGGAAGCTAGATACTAAAAAATAGCAAGACTGAAAAGAAACAAAATAGCGTAATTTTCATC
Celera SNP ID:            hCV1004680
SNP Position Genomic:     576818
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31887):
CCTCATCAATAATGGGACAAATTGAAATCATACTCCAGGTGAGAGGATGCAGTGAGAAGAAGCCAGCATCACTTCCATGATTATCCAGTTGCAGAAGACA
R
GCTGAACATAATCAGGAGGAAACACCAGGCAAACCTAACTTGAGGGACGGACTGTCAACTCCCTGGCAGGCAGTCTTCAAAAATATAAAAGTTCTGAAGG
Celera SNP ID:            hCV1004681
SNP Position Genomic:     576384
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31888):
TGGCTATTTGGGGTCCTTTAAGATTCCATATAAATATTAGAATGGCTTTTTCTATTTCTGCAAAATGTGCCATTGGGGTTTTGATAGGGATTGCATCGAA
Y
CTGAAGATCACTTTGGGAAAATATGAGCATTTTAACAACATTAAGTCTTCCAACTCATGGACATGGAATGTCTTTCCATTTATTTGTGTTTTCTTTAATA
Celera SNP ID:            hCV8833622
SNP Position Genomic:     52412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31889):
ACTCATGAAAGCTTAAAAACTGCTGCTTGAAGGGAGCTTCCAAACATTGGCAGGGCCCTGTACACCCCTTGATGTTGTCCTGACCCTCTGTCTCATCTCA
K
TGTCACAGCACAGTGTGGGGGAACAGTGGAGGAGATGGAGGGGGTGATCCTGAGCCCCGGCTTCCCAGGCAACTACCCCAGTAACATGGACTGCTCCTGG
Celera SNP ID:            hCV1004683
SNP Position Genomic:     557079
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31890):
GATATAAATGACAACTTGATTGTAAATCAAATTACGGGTCAAACTTTATCTTTCAAAACTGCAGTAATTATTCCACTCTATTCCAACATTTACTGTTACA
S
ACAAATTGGGGTCCAACGTGATTCTTTGTCCTTGTAAGTAACCTGTGCTTTTCTGTCTATGTGATTTTCTTTTTTTGTTGTTGTTAATTAAAAAGCCCAC
Celera SNP ID:            hCV1004684
SNP Position Genomic:     542797
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31891):
GTTTTGTTTTTTTTTTTTTCAGTAGGGCTTATAACTGCAGTACTTTCTGTACCATGCATATATGAGAATGCTTTCCTTTTGACATGGGATATAAATGACA
M
CTTGATTGTAAATCAAATTACGGGTCAAACTTTATCTTTCAAAACTGCAGTAATTATTCCACTCTATTCCAACATTTACTGTTACAGACAAATTGGGGTC
Celera SNP ID:            hCV1004685
SNP Position Genomic:     542710
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31892):
ATTAGGTGGAATTAAGATGCTATTTGACCAGGCCATAGGAATACTTGGACCCTACCTCAGGCCATCTCGTTCTAAAAAGCCCCCTAGGGAGATTTCATAT
R
TTCTCAATTGCAAGATGTACTCCCTCCCCTCCTACACCCTAACCAATAGTTTAACCTTTTGGAAATCAAAACAAATCTTACTATCAACAAATGCAGTTTA
Celera SNP ID:            hCV8702085
SNP Position Genomic:     166492
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31893):
TATAATGTACTATGGTGATGTTTACCCTGCTTTGTATTAGTGGTGATATTCCTGCCTTTGTTATCCTGCATCGTGCATTCATCATCCCCTTTTTACTCGG
Y
TGTACCAGGTGTTTTGTGTTTTTGTGGGTTTTTTTTAATTTTTATTGCTGCAATTTATCAATTATTCTGCAGTTTGTTGTTGCTTTTTTTTATTAATCTC
Celera SNP ID:            hCV1004687
SNP Position Genomic:     540539
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31894):
TATTTAGGCAGTATTCATTGTTTGTTAACTTTATTCCCAGATATTTCATGGAGATTTTTGTTGCTGTTGTAAATGGGTCTTTTTTCCCCCATTATGTTTT
M
TAGCTGGTCTTTACTAGTATATTCAAAGACTGTTGTTTTTGGCATATTTGCTTTGTAAAGTCATCAGACTCTTCATAATACTGCTTACACTGCCAACTAA
Celera SNP ID:            hCV1004688
SNP Position Genomic:     540129
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31895):
AAGAGCTGTAGTCAGGGCTCAGCCTTTTCAGTGCTGATGGCATTGTTGAGTCAGAGGAGGGAAACTGTGACATCATCCACAAGCCAGCCAATCCCAGCCA
R
CACCTGTGGGCATTTGTGTACAGGTGCTCGTATTGGTTGGTTACTTGAGGGTCAATGTTTGCCTCTCATGAAAGATGATGGTTCATTCATAGTAGGCTAT
Celera SNP ID:            hCV27840178
SNP Position Genomic:     307751
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,40)   total(A,74|G,4)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:31896):
TGGCCTGTGCATTTTTTATTTGTGAATTTATTGTGAATTTGTGTCGATTTTTCTACAAGCACTTATTTTCTTATTTATTGAGTAGAGCTCCATATTTTAT
R
AGCTACATAAATATATATAATATGCTATAAAAAGCCCTCCTCTCCAGCTTGTCTTTTGCTATATAATTTTCTTCAGGGTGCTTTAATGTCAGAATATGTA
Celera SNP ID:            hCV1004689
SNP Position Genomic:     539301
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31897):
GTGCAGCACACCGACATGACACATGTATATATATGTAACAAAACTGCACGTTGTGCACATGTACCCTGAACTTTAAGTATAATAATAAAAAAAGGAAAGT
Y
ATTTGAAGAGACTGTAAATAAAAGTAAATTTAATCTAAAAAAAAATGCTAATGTTCCTGGTGATGTGGATCTTGCCTAGAGCTTACCCCTCAGTGAAGGA
Celera SNP ID:            hCV11182900
SNP Position Genomic:     342342
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31898):
AAAGTAATAAGGTTTCAGTCACTTTTTTTTTCTTATACTCACTGGGCCTTGCTTGCCGCAGTCTCTTTGCCTCCAGAGAGATAAGTAAGTCTAGGCTATG
R
GGTGGGATGAAGAGGTGCAATTGCTGAATGGATGGGTGGACGGATGGATGGGATGGATAGAGATAGTGGGTGATGGAAGAATGGATAGGTGGATGGGATG
Celera SNP ID:            hCV11266156
SNP Position Genomic:     34059
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31899):
TTGAAAAAGTAATAAGGTTTCAGTCACTTTTTTTTTCTTATACTCACTGGGCCTTGCTTGCCGCAGTCTCTTTGCCTCCAGAGAGATAAGTAAGTCTAGG
Y
TATGAGGTGGGATGAAGAGGTGCAATTGCTGAATGGATGGGTGGACGGATGGATGGGATGGATAGAGATAGTGGGTGATGGAAGAATGGATAGGTGGATG
Celera SNP ID:            hCV11266157
SNP Position Genomic:     34054
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31900):
CTCAAAGATGTTCTGGTGAAAAGAGCTTAGTGGGCCTTGTTGAAAAAGTAATAAGGTTTCAGTCACTTTTTTTTTCTTATACTCACTGGGCCTTGCTTGC
Y
GCAGTCTCTTTGCCTCCAGAGAGATAAGTAAGTCTAGGCTATGAGGTGGGATGAAGAGGTGCAATTGCTGAATGGATGGGTGGACGGATGGATGGGATGG
Celera SNP ID:            hCV11266159
SNP Position Genomic:     34015
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31901):
TGGGCTTGGACTGACTGAGGGTTACAACCCACAGAGAAGAATTGGTATTACACCCTGACTACACATACATGTGTGCAGCCCTCACCCAACATACACACAA
M
CACACACACACACACACACACACACTGCCAAATCGTCTCTGACACATACCTTTCCAAGTCACTGCCAAATTCACATCACCAAGTCATCCCTCACCCCCAG
Celera SNP ID:            hCV26469450
SNP Position Genomic:     257324
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,3|-,4)   total(A,3|C,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31902):
GAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCCCTGCAAGCTCCGCCTCCAGGGTTCACGCCATTCTCCTGCCTCAGCCTCC
Y
GAGTAGCTGGGACTACAGGCATGCGCCACCACGCCTAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTTTAAC
Celera SNP ID:            hCV26469451
SNP Position Genomic:     187697
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31903):
GGCACAGGTAAAGAATGGGCAAGGAAGAGCTCTTCAGTCTTTAAGATTCACTCTCACAAAAATATAAGCCTCTGAGGGCTGGCCCCACTGTGCCAAGCAC
R
GTAAGCCCACAATGAATTTTTGTTGCATGAAGGAATTAATACATGAATGAGTAACTCTCCAAATAACTAATTAATGAACATGCACATATGTCCCTACAAG
Celera SNP ID:            hCV952785
SNP Position Genomic:     233668
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31904):
TCCCGAGTAGCTGGGACTACAGGCATGCGCCACCACGCCTAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTT
K
AACTCCTGACCTTAGGTGATCCACCTGCCTTGGCCTCCCTTGGTGCTGGGATTCCAGGCATGAGCCACTGCACCCGGCCTATGTCCATTTTTCATAACAC
Celera SNP ID:            hCV26469452
SNP Position Genomic:     187794
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31905):
TACATGAATAGGTTAGTGGGAGTTGTTCTCAATCTCAGCTTTTCAGTCTCCTGGAGCAGCCGAGGCTCTGTTTCTCACGTTATGATTCAGCAGGTTTAGG
R
ACAGGGTCTAAGCATCAGTATCTTTATAAAACTTTCCACATAACCATGATGCTGAAGGTTGCAGAATCACAAACATGAGTCGAGAGAATAGGCTTATGGC
Celera SNP ID:            hCV952786
SNP Position Genomic:     229094
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31906):
ACCCAGGAGGTGGAGCTTGCAGTGAGATCGTGCCACTGCACTCCAGCCTGGGCGGCAGAGCAAGACTCCATCTCAAAAAACAAAACAAAACAAAACAAAC
A
AAAAAACCTATCATTCCATTTTTAGGTGTACAACTTAGTAGCATTAAGCACATTGGCTATTTAGTGGTGGATAACACCACTATCTATCTCTAGTACCTTT
Celera SNP ID:            hCV26469453
SNP Position Genomic:     267078
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31907):
CCCAGGAGGTGGAGCTTGCAGTGAGATCGTGCCACTGCACTCCAGCCTGGGCGGCAGAGCAAGACTCCATCTCAAAAAACAAAACAAAACAAAACAAACA
A
AAAAACCTATCATTCCATTTTTAGGTGTACAACTTAGTAGCATTAAGCACATTGGCTATTTAGTGGTGGATAACACCACTATCTATCTCTAGTACCTTTT
Celera SNP ID:            hCV26469454
SNP Position Genomic:     267079
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31908):
CCAGGAGGTGGAGCTTGCAGTGAGATCGTGCCACTGCACTCCAGCCTGGGCGGCAGAGCAAGACTCCATCTCAAAAAACAAAACAAAACAAAACAAACAA
A
AAAACCTATCATTCCATTTTTAGGTGTACAACTTAGTAGCATTAAGCACATTGGCTATTTAGTGGTGGATAACACCACTATCTATCTCTAGTACCTTTTT
Celera SNP ID:            hCV26469455
SNP Position Genomic:     267080
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31909):
CAGGAGGTGGAGCTTGCAGTGAGATCGTGCCACTGCACTCCAGCCTGGGCGGCAGAGCAAGACTCCATCTCAAAAAACAAAACAAAACAAAACAAACAAA
A
AAACCTATCATTCCATTTTTAGGTGTACAACTTAGTAGCATTAAGCACATTGGCTATTTAGTGGTGGATAACACCACTATCTATCTCTAGTACCTTTTTT
Celera SNP ID:            hCV26469456
SNP Position Genomic:     267081
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31910):
AGGAAAAAAAAAAAAGTAAAACAAAGACAAAAAAAATCTTTTGTACAGAGATATATTTTTATTATACAAAGTTTGTACAGTACCAAAAAAGAAAAAAAAA
A
GGTGTAAATTTTTTTTTCATTATTGTAGGTAAACGGTAGTGGAAGCCTTTTTTGTAAATGTAATAAAATGTATAAATATGGTTTTCAGAAAACATCAAGT
Celera SNP ID:            hCV26168996
SNP Position Genomic:     657403
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:31911):
GTCCTCATCAGTTATACTGTGCTGCTTTTGAGGCCTGAATCCCACACTTCTAATCCTCAAGCAGCTATTGTCCATTCCTTTCCACCACAAGCTCCTGGGG
K
GGGGGGGGGGCAGGCTGTAAAGTCATTCTTGGTTTCTAGCCCCAAACACCCATCTAGATGGAACTCTACTGTGGGTTCTTACAACTCCTCACATTTCCTT
Celera SNP ID:            hCV8702234
SNP Position Genomic:     11940
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31912):
TCTGTTACTTTAGAATATCTAGAAGTGGAATTGTCAAGTTAAAGGATATGTGAGATCTTTAAGGCTTTTTATGCAGATTATCAAATATCCCTCTAGAAAG
R
TCTTGTCAGTTTGATCACCAACAAGAAAGAGGGCATGTTTTATTCTCACAAAAACCAGGTAATTAAAAAAACAAAAGCGTCATCAGTTTGAAAAGTGAAA
Celera SNP ID:            hCV1004690
SNP Position Genomic:     539032
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31913):
TCCCTTACTAACTAATTTTTAAAAAGCAATATTAAACTATAAGTAGATAGTTTAAGTAGATGGAATTCTGACAAAGTTCTGATTTTTCCCGTGCCAATTA
Y
ATCATGGCTTTAAAAAAATCAAATGCCAAATTAAAAAAATTTCCCCTGCTTTGTATGTTGTCTGAGTGCTTGCTTTTAGTCAGCCTCTTGTAGACTAGAG
Celera SNP ID:            hCV8702235
SNP Position Genomic:     10387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31914):
ACCAATATACATATTTTATTGAAATATTCGCTACGAGCTTTTCTCTGTCATTTTTTTTCTTCTAGGCTAGGATTTTTAAGTGCTACATAGTAGTCTCTCA
Y
ACAGTTAGTTAAAATTTATGTAACGAATTCCCTATTATTGAACATTTAGATTGTAATGTTTTGTGCTTATGAATAGTAATGCAATGTATTGTACATACAT
Celera SNP ID:            hCV1004691
SNP Position Genomic:     538818
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31915):
TGGCTTCCTGGTCCATGGGAATTCTGGGTCTAGGTAACCCATATATCCAGCTGATCCTTGGACATCTTCACTTAGATATTTCCCTTCCAGAGCAATCTTA
Y
TAGCTTCTTTCTTAAGCCTCCCGTATTTCCTTTGTGAGCTGGTGGTTCCTGTAGCCTCCCAGTTATGGAGCCCAGAAACCTTTGGATTATCCTCAACTCC
Celera SNP ID:            hCV8702236
SNP Position Genomic:     10073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31916):
AGCTGCCCTCACCCAGACTGTGTCTACACCGCCCCCTTGTGGTGTAGCCTTCTCCTGTTGGTTCGTATTCAGATGCAACTTTTTTTCTTACTATAAATGT
R
TTGCATTTTCATTATAGAAAACTTAGTGACAAAACAAAATAATTGCATACAGAATCAAAATAAAGACTACCCCGAAAGAGCCACTGACAAGATGTAGTGG
Celera SNP ID:            hCV1004692
SNP Position Genomic:     538564
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,30)   total(A,65|G,1)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31917):
ACTACTGGGTAATACAAATCAGGATCTAATTAGCACTGGACGGTGGGAGGTGGCCCTCCACCTTCAAGATGTTGGTAACAAGAGATTGGTAACAAAGGAA
M
GGAAATTAAATGGGGAAGGTAGAGGCTGGAGATAGAAACAAGATTAAAGACAGTCTCTTCTAGAATTATAAGGAAGAGGGCATTTATTGAGTAATGTATT
Celera SNP ID:            hCV8922643
SNP Position Genomic:     304061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31918):
GAGCTCCAACTAGCGGGGCCTTCAGCAGCTGCCCTCACCCAGACTGTGTCTACACCGCCCCCTTGTGGTGTAGCCTTCTCCTGTTGGTTCGTATTCAGAT
R
CAACTTTTTTTCTTACTATAAATGTATTGCATTTTCATTATAGAAAACTTAGTGACAAAACAAAATAATTGCATACAGAATCAAAATAAAGACTACCCCG
Celera SNP ID:            hCV1004693
SNP Position Genomic:     538538
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,28)   caucasian(A,1|G,31)   total(A,9|G,59)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31919):
ACAACACACACCCTGTCCTCATGGAACTTACAGCCTAGTAGGGGAAGAGATGTTAAACAAGCAACCACACAGATAAATACAAAGCTATTAATGAATAAAT
K
AATATCGTAAGACTTCACTTATATTCCTACAAAGCTCCAACTTTATTAGAAGCTGCCCATCTGTGTGTTTAGGTGAGAAAGAGTTTTTGAACGTGAACCT
Celera SNP ID:            hCV8702092
SNP Position Genomic:     162495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31920):
ATGAAACACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCACCGCGCCTGGCCTATTTGTTGTTTTTTTAATTGTCTGTCTCTCCTCAC
Y
GGAACGTGAGAGATGAGGAACCTTGTTGTATTCCCAGCACCAGAATAGTTGCTGTTATATTGCAGGCATAAGATTTATGTAAATATCTGTTGAATGAATG
Celera SNP ID:            hCV8922644
SNP Position Genomic:     303308
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31921):
AGAGCTCCAACTAGCGGGGCCTTCAGCAGCTGCCCTCACCCAGACTGTGTCTACACCGCCCCCTTGTGGTGTAGCCTTCTCCTGTTGGTTCGTATTCAGA
Y
GCAACTTTTTTTCTTACTATAAATGTATTGCATTTTCATTATAGAAAACTTAGTGACAAAACAAAATAATTGCATACAGAATCAAAATAAAGACTACCCC
Celera SNP ID:            hCV1004694
SNP Position Genomic:     538537
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(C,1|T,31)   total(C,2|T,66)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31922):
GGTGGTCATTGGCCGGGGGCTGACACTGCCTCTAGAATTATACGTGATGATATCTGGAGAACACTTAGAAATAGGGCTTAGTCCATAGTAAACGCCCAAA
R
CATGTCAGTCATGAGCATGACATTTATTATAAGAAATACCCTTCCTCTTTGGACAGAGCTAAGGAGCATACATTTGCTCTCACTAACCAGCCCCCTTCTT
Celera SNP ID:            hCV8922645
SNP Position Genomic:     296341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31923):
CTCGCGGCTCCTCAGCTCCCTCTCGGGCTCCCATACAGGTATCCGGGGCTCGGCCAGTGTGGGGATGGTTGTGGGCCGGGGGCATCACGTCCGGCTAAAG
S
AAGGAGGCTCTAGAAGCACCCCATGGCCGCAGGTGGAACCCTACGGCTCTGCGTGCCTGTCGTGTTCTGGTGCTTGTCTACAACGCAGCAGCCAGCTCGT
Celera SNP ID:            hCV1004695
SNP Position Genomic:     538335
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,29)   caucasian(G,36)   total(C,9|G,65)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,29)   caucasian(C,1|G,35)   total(C,10|G,64)   
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31924):
CAGGTTAGGAAGAGGCAATGCTGAGTCAGCCCTGGGCTGTGCGCCATAGCCATCCTGAACAGCTTTCTGCCATTACAGGATAGAATAAGACCAGCCAGGT
S
TGGCCCATTTCCTCTCAGCAGCCATTTGCCTTCTGCCCACACATCGATCTTGCCAAAAGAGGGCTTGTGCTGCAGCATTGAGTCATTCTCCTACCCTCTT
Celera SNP ID:            hCV8922647
SNP Position Genomic:     294588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31925):
GCCCTACTGGGGCCAGAAGCTCAGGCTGGGGCAGAACAGAGGATGGTCACTGGTAAGAGGCCCACAAGGTCACCTGACTCTCTATCTGGTTTCTCTTTCA
K
CCCCCTGTGGGGGACAGTATGTGGGTTCGGACGGAGTGGTCTTGTCCCCCAACTACCCCCAGAACTACACCAGTGGACAGATCTGCTTGTATTTTGTTAC
Celera SNP ID:            hCV1004696
SNP Position Genomic:     536363
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 ACCEPTOR SPLICE SITE;hmCS


Context             (SEQ ID NO:31926):
TGATGGGCTGTACCTAAGCACTGACCTTTACCACAGTGACCCTGCCGGCAGCTGAGATGTGGTCCAGGGACTGTCAGCCCCCACCAGCCAGAGAAACACA
Y
GTTTCCCTTGGGGAGGAGCAAGCAGGGGATGAGAGAGGGCCTCAGCGATTTTGCTGGGCCTCCTTCCTCTGTGGGTCAAGGCAAGAACATGGGGGGAGGA
Celera SNP ID:            hCV1004697
SNP Position Genomic:     534822
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31927):
GAAATCATCTGAGGCTCGGAGATATTTAGCAACTTGCCCAACTACACACAGCTGGTTGCTGGCAGATTCAAAATTGGAAGCCCAGGTCTTTTTTACTCCG
Y
AGCCTAAGACATATACCAATATATCACCTACTGAGAGGAAAATGGCACCTGTTTTTGGGTAGCTAAATGTCCATTCTATGGAAGAAAGTTTAAATAACTG
Celera SNP ID:            hCV8922648
SNP Position Genomic:     288482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31928):
TTCATTTAACTCATCTCGTCACTCAGAACGTGCTTATGGGTTACCAGAGGCTGGGAAGGGTTGTGAGTGGGGAGGGAGGAGGGGAGGATGATTAATGGGT
W
GAAAAAATCATTATCATGAATAAGACCTACTATTTGATACCCCAACAGGGTAACTATAGTCAATAATCATTTAATTTATGCTTTAAAATAACTGAAACAG
Celera SNP ID:            hCV8702097
SNP Position Genomic:     159363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31929):
AAGGGATTCCAGACAGAAAGAGGAAAGACTGAGCAAAGACTGGAGGCCAAGGCCCACATAGAGTGGTGGAAAGCTGCATGTGATTCAGTCTCTGGGAATA
R
TATCAGAAGGCAAGGAAGGCTCTACAGCAGACAGACCTGTATGAATATTAAGGATCTGAACATTGTCCTGTAGACAATGGAGAGCCACTGAAGGGCTCTT
Celera SNP ID:            hCV1948600
SNP Position Genomic:     161071
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31930):
CATCATTTATTCTAGAGGAAATCATCTGAGGCTCGGAGATATTTAGCAACTTGCCCAACTACACACAGCTGGTTGCTGGCAGATTCAAAATTGGAAGCCC
R
GGTCTTTTTTACTCCGCAGCCTAAGACATATACCAATATATCACCTACTGAGAGGAAAATGGCACCTGTTTTTGGGTAGCTAAATGTCCATTCTATGGAA
Celera SNP ID:            hCV8922649
SNP Position Genomic:     288465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31931):
CACCATGTGACAGACACTGGAATATGGCCGTGAACAAAACTGAACAGCTGCCCTTCTGAAATCTATATTCTAGTGGAGGAAGACAGAAAAAAATAAGGTC
W
ATATAGAGTCGATGAGAGAGTATTAACTGCAGTGGAGAGAAATATAGCAGAGGAGGGTGTTGGGGGCATTGGGGAGAGGAGTATTGCAATTTTAAGTAGC
Celera SNP ID:            hCV1004699
SNP Position Genomic:     532806
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31932):
CAATAAAATACACCATTTTGGAGTGTACAGTTTGGTGCGTTTTCACAAGTTCATGCATCCATCTAGCTACCACCACAATCAAGACATAAACATCTCCATC
R
CCCCCAAAAGTTTCTTTGTGCCGGTTCTTAGTCATTCTCCTCCCATCCCTGACCGCAGGTAACTGATCTGCTTTCTGTCACGTCAGATTAGATTTGTCTT
Celera SNP ID:            hCV11859200
SNP Position Genomic:     181874
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31933):
AATTAAGAAACAGAGGAGGATAAGACGGATCTGGGGTGGAGGGATGACCATTTTAGATGGGCAGTTTGGGAAGACCTTGAGAAGGTGGTATTTGTGTGAA
K
AGGTGAAAGAGGTGAAGGACTGAAGCCTGGGAGAAGAGTGTCCCGGCAGCGGGAAGAGCAAGGGCAAGGCTCTGAGGTGGGCCTGATCTGCTGGAGGAGC
Celera SNP ID:            hCV1948601
SNP Position Genomic:     158909
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31934):
AACTGTGAACCATTCAGCCCAAATTCCCAGTTTTTCAGATGAGGAAACGGCTTCTAGCCACTCAAAGCGATGTTTATAGTCTCACTGTCAGTAGCAGACC
Y
GGTTCTATCACTCAGGTGCCTTGATGTCCAAATTACTCCTTTTCATTTAACTCATCTCGTCACTCAGAACGTGCTTATGGGTTACCAGAGGCTGGGAAGG
Celera SNP ID:            hCV8702098
SNP Position Genomic:     159221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31935):
TTAATAAAGCCTAGCATTAAACAATAATTTTGTGTTCTTCCTGAAAAGCCAAGGATCTTAGGACACTATGACTTTAATCATTCCTTCCAATTCATACTCT
R
TGGTGTGTGTATATTATGTTACCTTAATTTTTTCTCAAGTTATTATTGTTATTGTTTGATAAAGCCACTGTCCACTTAGGTTTACTCATATATTGACCAC
Celera SNP ID:            hCV11182911
SNP Position Genomic:     364088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31936):
CTAGGAGGCCACAGGAAGGAGTTCGGGCCTTACTCACAAGAAGGGGACCATCGCTGAAGGGTCTTAGGCAGGGAAGTGGCTCCGTGAGATTTATGCTTTA
K
AGACATTGGGGAGAGCAGGGGCAGACTGCGGGGAAGGAAACCAGTCACAGGAGGCAAAGCAGGGACCACTGTCGAGCATAGAATGTTTCTGAACCTTCAC
Celera SNP ID:            hCV8702099
SNP Position Genomic:     151524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31937):
AGCCAAGATCACGCCATTGTACTCCAGCCTGGGTGACAAAGCAAGACTCTCAAAAAAGAAAAAAAAAATAGACAAGTTAAAAGAGAAAATTGTGTAGTAT
R
TACATGTTGATGTGCAAAGCAAATTAAGAAACAGAGGAGGATAAGACGGATCTGGGGTGGAGGGATGACCATTTTAGATGGGCAGTTTGGGAAGACCTTG
Celera SNP ID:            hCV1948602
SNP Position Genomic:     158787
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31938):
CTAAATTTAGCTGTGACTACTTCCCAGGGAGGGGTGGGGTGGATGGGGAAGGAAGGCTAAGTCCTGAGTTTTGAGTCTCCATAGTGAAAGGGAGACAGCC
M
AGGGCTCCATCCCTCCAGGACAGCTTCCCCTCCATCGACCTGCTGGTGAAGCCTTGAAGCTGTGGCATTGCGTTACTGCACACACTTGGCTTGAATATGA
Celera SNP ID:            hCV11859201
SNP Position Genomic:     186561
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,8)   total(A,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31939):
TGTCTAGGTGTGAATATTTTTTGTATTCATCCTGTTTAATTAAGTTTCTTGAATCTATGGATTGTATCTTTCATCAGCTTGGGAAAATGTTTACCCATTA
Y
CTTTTCAAATGCTTCTTTTTTCTTCTTCTAGAAGACTGACAAGATATGTTCATCTTTCTCACTCCATCATCAGTATTTCTTAACCTCTCTCATACTTTCT
Celera SNP ID:            hCV11182912
SNP Position Genomic:     364784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31940):
GTGGTGCATGCCTGTAGTCACAGCTACTCAGGAGGTTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTCGCAGCGAGCCAAGATCACGCCATTG
Y
ACTCCAGCCTGGGTGACAAAGCAAGACTCTCAAAAAAGAAAAAAAAAATAGACAAGTTAAAAGAGAAAATTGTGTAGTATGTACATGTTGATGTGCAAAG
Celera SNP ID:            hCV1948603
SNP Position Genomic:     158706
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31941):
CTTCCCAGCTCCCTACTTATCTCCCTGAAGCAGGTGCCCAGCTCCCAGCAGGAGCTCAGCACATGTTGGCTGAGTGGAGGGATTTGGGGTCTCAGGAGAG
Y
TGGTGGGTTCTACCCCGCGGTCCTGAGAGAAGCAAGAAGGACTGTGTTGTCAAGAGGATGCCCCTCTGAGGGAGAGAGGCAGGTCGTGTGTGTGCATGGG
Celera SNP ID:            hCV1948605
SNP Position Genomic:     157774
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31942):
TCATGTCTTTTGATTTCAGCCAAGGACAATGTCCCATGCCACACTCCTTCCCAACAAGGCTAGCTCCAGGATATCTCCTTCTGGTTCTAATGCTGAATGA
R
AAATGGCCATTTAGTAACAGCTGGCTTGTCCTGAGGCTGTTCTTTTCTGGGTGTTTTTCACAACTTCCCTACACCTACCTGGAGATGATGCTATACAGGC
Celera SNP ID:            hCV11182915
SNP Position Genomic:     380610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31943):
GCCCCTGCCCCGAAGGGCTTCCCAGCTCCCTACTTATCTCCCTGAAGCAGGTGCCCAGCTCCCAGCAGGAGCTCAGCACATGTTGGCTGAGTGGAGGGAT
K
TGGGGTCTCAGGAGAGCTGGTGGGTTCTACCCCGCGGTCCTGAGAGAAGCAAGAAGGACTGTGTTGTCAAGAGGATGCCCCTCTGAGGGAGAGAGGCAGG
Celera SNP ID:            hCV1948606
SNP Position Genomic:     157757
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(G,2|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31944):
CCACTGCCCATTCTGCACTTCCATATTCTCATTGTACTATGGGCTGACAACCCCTACCTTCCTGGCAACAGGGCCATTAAATGAGATAATGGGTAGGAAA
Y
TGATAAGTGCAGTATCTTACATGGGTAGGTGCTTGGGGTTGGGATTGTGAATTGAATCCCCCCCTCCCCGCCCCCACACCCATGCTTAAACCCTCTTCTT
Celera SNP ID:            hCV11182916
SNP Position Genomic:     382377
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31945):
CAGCTCCTTCCAGAGGTCTAAGAAGGGGCAGATCAGGCTGTAGAGAGCTGGGAACCAAGAACAGTACCGCCCCTGGCAAAGGAGACCTAGCCCCTGCCCC
R
AAGGGCTTCCCAGCTCCCTACTTATCTCCCTGAAGCAGGTGCCCAGCTCCCAGCAGGAGCTCAGCACATGTTGGCTGAGTGGAGGGATTTGGGGTCTCAG
Celera SNP ID:            hCV1948607
SNP Position Genomic:     157668
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,9)   total(G,9|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31946):
CCAGGTGTGGACCTGGAAAACAGTTATGTCTGTTTCTGGTTCTTGCAGCAGTTGTAGTGTCAGCTCCTTCCAGAGGTCTAAGAAGGGGCAGATCAGGCTG
Y
AGAGAGCTGGGAACCAAGAACAGTACCGCCCCTGGCAAAGGAGACCTAGCCCCTGCCCCGAAGGGCTTCCCAGCTCCCTACTTATCTCCCTGAAGCAGGT
Celera SNP ID:            hCV1948608
SNP Position Genomic:     157608
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31947):
CCAGTACCAATCAGCTGTGGAAGGCAGTCAAGTTTAGGGGTTTGAGTCCAGGCTTGTTACTTACAAGGTTTACGACCTAGGGCAAGTTAGTTCATTTCTG
Y
GGTCTTCGTTTCCTCATTTGTAGAAACAAGATCATGATAGTACTATACCTACTTCGACTCTCAGGGGAGGGGGTTGAAGGAGATAATACTAGCCCTAGGT
Celera SNP ID:            hCV952790
SNP Position Genomic:     217523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31948):
GTTAGGTGTGAGAAGCCTGCCAGGAATATGGGAGGAACTGGTGGGTAGGCAGCTGGATGGAGAGAACCTATCTGCCCATGTAAGTTGGAGCATCCTTAGC
R
TGTAGATTGTATTGAAAGCCATGAGGTCAGATGAGATGACCTCGCAAGGGAGCAGAGACAGAAAAGAGGGATTCTCTTTACTCCCCAAGGCTGCCTTTGC
Celera SNP ID:            hCV1948609
SNP Position Genomic:     157368
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31949):
CTGTAAGTGGGATGTTTGAATGGAGAGATGAACAATAGAAAGTAGACTGAACGCCGGCACTTTATTTTGTCTAATAGTGTCAGCATATACAAAGCAACCC
R
ATAGAAATGATGATGATGATGGTGATGGTGGTGATGATCAGGGTGACACAAAGTCAGCTTCCACACACTGGCATATCAGTGCCAAGCCCTTCACACATGA
Celera SNP ID:            hCV952791
SNP Position Genomic:     215972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31950):
TCTCTGCCAGGTACTGGGTCTATACTAATGAATGAGTCAGAGAGGCTCCCTGCTTGCATGGAGCGTACCTTCTAGTAGGGAAGATAGACAGTAAACAAAG
S
GGGGAAAGACAGCCAGTTGTGATAAGTGTCATGCAAAGACTTGAAATAAGACAGCCTTGGAGAGAGGACCTGTGGGCTTCTGCCTCTTTGATTTGTGTGG
Celera SNP ID:            hCV952792
SNP Position Genomic:     214568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31951):
TCTGTGGGTCAGGATTCTGGGTATGGCCTTGTGGGTCCTCAGTGCAGGGTTTCAAAAGGCTGCTGTCAAGTGATGGTGGGGCTGCATTTTCATCTGGAGG
M
GGAGTTCAATTCCAAGCTCATTCAGGTGTCTGACAGGTGGATGTCAGGTGGAGGCCACTCTGAGGTTCTAGAGGCAGCCCTTTCATCCCAGAGGCCAACT
Celera SNP ID:            hCV11859209
SNP Position Genomic:     203072
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31952):
CAACAACTCTGTTTTCAAATAAGATCACATTTATAGGTACCGGAGTCAGAACTTCAACACGTCTTTTTGGGGGGCACAGAGCACCCCATAACAGAAGGCC
R
GCCCATCTTTCCTACACTAACACTGTCATACCACAATGTCCCCTGGGGTAAAGATAACGGTTGTACTGTTTTAATAGGAGGCCATGTGTCTAGAGAAGGC
Celera SNP ID:            hCV11182919
SNP Position Genomic:     388009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31953):
GAAGCAGGGAATAGAGGTGGGGAGAGATGGGTCTGGATGCAATTTTAAAGAGGATCTCACCGAGCAGCAGACATTTGCGGACACACCTGAAGGATATGAG
K
GAGTCAATCTTGCTGATTTGGGGGAGGAAGATTATTCCAGGCAGAGGGAGCTGCAAGTACAAAGGTCCAGAGGCTGGAGCAAGGGAGGGAGTAGAGAGGA
Celera SNP ID:            hCV952793
SNP Position Genomic:     209002
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31954):
GTTAGATGCTATGAATAAAAAGGAAGCAGGGAATAGAGGTGGGGAGAGATGGGTCTGGATGCAATTTTAAAGAGGATCTCACCGAGCAGCAGACATTTGC
R
GACACACCTGAAGGATATGAGGGAGTCAATCTTGCTGATTTGGGGGAGGAAGATTATTCCAGGCAGAGGGAGCTGCAAGTACAAAGGTCCAGAGGCTGGA
Celera SNP ID:            hCV952794
SNP Position Genomic:     208980
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31955):
CAGAGCCAGACAGTGAAATTATAAAGCTAGGAATGACAAGAATGATGAGGCCCTGCAAATCAGGGAAGACACATCACCATAAGCTCTTTATCAGGCCTTC
M
CCCAAGAGGCCCTCTGTGGAAAGTGGGAAGCAGGAGGGCCTTCTTCACTCCACGGTCGAGGGGAAGAGGATGAGTGGAGAGAAGAATTCTAACCCCATCC
Celera SNP ID:            hCV952795
SNP Position Genomic:     206493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31956):
ATACCAAAGGGGATGGGAATACAAGAAGCCATGAACACCAGATGCTAGAGGATTGTTGGGAGTCACCTTGGGGGCCATCTGCCACCTGGAATTTGTAAAA
M
ACTCTAAAGATGGACAGCAAGAGGTTAGCGGGCTTAAGACTCACCCCAGCTCCCATGTGAGTTCTAAGTTAAGGAAGCATGAGATGCAAAGATAACTCAC
Celera SNP ID:            hCV952796
SNP Position Genomic:     203450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31957):
TATAAATCACTTAGCATAGTGCATGGCATCTGTAACTACGCAATAAATAATTTCAAAATCTCTATATCTATCTATCTGTCTATCTATCCATCCATCCATC
R
CACTGTCTAGTAGAAATGTGATCTAAACCTCAAATGTGAGCCATGTGTATAATTTTAAATTTCTAGTAGCCATGTTAAAAGACTGAAAAAGAAACAGGTG
Celera SNP ID:            hCV952797
SNP Position Genomic:     202309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31958):
TCACTTTACGGGAGCAGAGACAATGGGCAAGATCTGGAATGAGGGTGGGATTAGCGATTGCGGACACAGGGATTCCTGAGGGAGGGAGAAAAAGAGGGAG
R
GGATTGAGTCTTGGGCACCATCACCACATGGGGCCTGCTATTGCCTAGAGGTCTGGTGTGTAAGAGCTGAAACTGTTCCACCTTTCTTCACCATCTGAAG
Celera SNP ID:            hCV952798
SNP Position Genomic:     201410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31959):
GCTACCACCTGTGGAGCGAAGCCATCCCTCTCTGTCAAGGTGAGAAGCAGGTGGAAAGGGGGTCACAAGGTAGCTCGGATCCAACTCATATCTTGGGTTT
K
TCCCAGGACTAGTCACTTCCAAATGTGGGTTTCCTCTTTGATAATTATTTCATTCTTTCCACAAGCATTTACAAGATCTGTAGTGCGTAGCAATCTCAGT
Celera SNP ID:            hCV25755774
SNP Position Genomic:     594477
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,33|T,7)   total(G,71|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:31960):
AATAGGCCCAGCACATCCTAAGGCAGATAGTGTGGGCAGGGGAGGATCCTAGCAGGGCTGGATTCTGGCACGGCCAGGCCTGGGATCTGGTTGAGGAGAG
K
GTTAAAGAAAGACAGGGCCTGGGTCTGGAGGGGTGGCTGGGAGCTGAGTCTTGGGGTCAGAGGCTGAGGCCTACTTGCAACTGGGCAACCTTGGATGGAT
Celera SNP ID:            hCV952799
SNP Position Genomic:     198636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31961):
TATATCTCTATTGAGAAGATATTAGCCTCCATTCTAAGAGTTCCTCAGAAAGAATGGGTGTGTGACTCCAGCTGCCTCAGACCCAGGTAGCCACATGTCT
K
CAGGTGGCTGGCCTCCTGTGTTCTGCCCAAATTCCCTGTGGACAGCTGCCCTGAAGTTCATGGGGAGAGTGGACCCAACTCTCTACCTTGCCATCAGTTC
Celera SNP ID:            hCV9957126
SNP Position Genomic:     348020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31962):
CTCTGAAGCTTCCAGACAGATCTCTTCTGCCAAGACATCTCTCCTGAAATTCATCTATTGGCTTCCTGGTCCATGGGAATTCTGGGTCTAGGTAACCCAT
R
TATCCAGCTGATCCTTGGACATCTTCACTTAGATATTTCCCTTCCAGAGCAATCTTATTAGCTTCTTTCTTAAGCCTCCCGTATTTCCTTTGTGAGCTGG
Celera SNP ID:            hCV8702242
SNP Position Genomic:     10015
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31963):
GGGCACGTTGGTGCGCACCTGTAGTCCCAGCTACTCGGGAGGCTGGGTCACAAGAATCACTTGAACCCAGGAGGTGGAGGCTGCAGTGAGCCGAGATCGC
R
CCACTGCATTCCACCCGGGGTGACAGAGCGAGAGTCTGTCTCCAAAAAAAAATTAAAAAGAAAGGAGCCAGTTACAAAAGGGCAAATAAATACCTACCAT
Celera SNP ID:            hCV1885400
SNP Position Genomic:     18202
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31964):
ATTTCATTTAGTCCTTACTAAATGAGGTGAGGTAAATGTGTCATCATTTATTCTAGAGGAAATCATCTGAGGCTCGGAGATATTTAGCAACTTGCCCAAC
Y
ACACACAGCTGGTTGCTGGCAGATTCAAAATTGGAAGCCCAGGTCTTTTTTACTCCGCAGCCTAAGACATATACCAATATATCACCTACTGAGAGGAAAA
Celera SNP ID:            hCV8922653
SNP Position Genomic:     288424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31965):
TTTTTAGGAGTGTAAAGTGCCATCTCGTTGTATTAATTTACACTTCTCTGATTACTAGCAAGTCTGTTAAGTCTAGTAAGCTTGTTAGCTGTTTGAACTT
Y
TTTTCTTCTGAATTACCTATTTATATTCTTTGCCCATTTAAAAATTGGATCTCTTGCCTTAGAAATCTTCCGGTTGATTTGTAGAAGTTTTGTTTATAGT
Celera SNP ID:            hCV1885401
SNP Position Genomic:     17169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31966):
TTGAATTGAGGCCATCACATGTGTGGAATGCCATCTTGCCCCATTGGGTCTTCACCCCCAAGTTTGAGTTAGGTATTGGCATACCCATCTTGCAGATAAA
R
AAACTGAGCCTCAGAGACTTAGCTTCCTCCTCACCTACACGTGGTTCTCCCCAGCTGGGTTTTCCCATTTTGTTCCCTCTGCAGATCCTAGGCCAGCCAC
Celera SNP ID:            hCV8922654
SNP Position Genomic:     270658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:31967):
CTACCAACCTTCATTGCTTCCTCCATTGCCATTTCAGGAATGGAGAGAGTTCAGTGATTGGGTGGGACTTGGTGATGGTGTGTGGACTTGGCAGTAAGAA
R
GAGATGACAGTTTAATGGTTTATTTTCAATTAATGCTAAAATGTTCCTAGCACGAAAACAGACATCTCAATGTTGGCATCCCCTCCTGCCAGGGACCTAT
Celera SNP ID:            hCV1885402
SNP Position Genomic:     15094
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31968):
ATCAATACCTGATATTTTCTTGCTTACTTACGTATTTCTTTTTCTTCTGTGCCCTTCCCCTCCCCTGCCATTGCCAGCAGAACCGTGACAAGCCCCTAAT
R
TGCATCTTGGCACTTAGTAGGTATCCAAGGTTGGTTTGTTTGGAGGAGAGATCTGCTTCTGCCTTGCCAGTTACAATGTCCTGTGGCTAATTGCAAAGGT
Celera SNP ID:            hCV8922655
SNP Position Genomic:     268090
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31969):
CCAACCCTTTCCCTACCCCAGCCTCAATCTGTCTACCTACCAACCTTCATTGCTTCCTCCATTGCCATTTCAGGAATGGAGAGAGTTCAGTGATTGGGTG
R
GACTTGGTGATGGTGTGTGGACTTGGCAGTAAGAAAGAGATGACAGTTTAATGGTTTATTTTCAATTAATGCTAAAATGTTCCTAGCACGAAAACAGACA
Celera SNP ID:            hCV1885403
SNP Position Genomic:     15058
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31970):
CTATCTAAGCCACTGCCCCATCTCTTTTTGTCTTTTAGTCACTTCTCTTCAAAGGGGTCTTCATGTCAGTTTTCTCTACTACCCGTCACTCCTTACTTCA
R
CCTCTGTCTCCAGGATGACACTGGAACACTCTAGAAGAGAGCACCAATGACCACCTCAATTGCCAAATACATTGTACTTTATCTTTATTTTCTTTTATCT
Celera SNP ID:            hCV1885404
SNP Position Genomic:     9581
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31971):
AATGGTGGAGAAGACAAGGCCTCTGCCTTTGTGGAACTTACGGTCTATTTGGGGGAGACTGAAGTTAGTAAAATATTCAAACATAAATGTAGAAAGTATG
M
CACATGTCATAAAGGAAATGAACAGGATGGGGAATAACAGCAGTGGGGACCCTATTCTAAATCTGACCTCTCTGAGGAGGGTAGGATTTAAGCTGAGACC
Celera SNP ID:            hCV8922657
SNP Position Genomic:     262296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31972):
ACCAGCATCGTCTTTCATAGGGAAAATCTCCTTCATTATGGTCACTGTCATCTTACCATTTCATCTTCATTACCAGCATCTCTCCATCATCATTCAATCA
K
TCAAACAAACTACTCAGGCCCTTCTCCTGCTTGACATTGAACTTGGCACTGGGAATGCAATGGTGGAGAAGACAAGGCCTCTGCCTTTGTGGAACTTACG
Celera SNP ID:            hCV8922658
SNP Position Genomic:     262137
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31973):
ACAGTTTGAAGGTGGAGCTAATAGAACTGGCTGGCAGATTAGAAGTGGGTGCTGGAGAGGAGCCAAGGTTAGCTCCCAGGGTTTGGGGGGATCAACGGGC
M
GTATGGAGCTGCCCTTAACTGAGGTGGCAAAGCCCATAGGAAGAGCAGGTTTGGGGTGCGGAGATCAGGAGCTCAGTTCAGACTGTTAGGTGTGAGAAGC
Celera SNP ID:            hCV1948610
SNP Position Genomic:     157183
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31974):
AAGATAAGGCTGGATGTGCTGGGACACAGCTGCCCTTGGTTACGAATTCACAGTCATTGGGATAAGACTGGTGAAGGTGGTCAGATAAAATCAACAGCTA
Y
ACCTGAAAGCTTGGTGTTCAATACCCTGGCAGGACCATGAGCGGTCATCTTCACAATGAGCACCAGCATCGTCTTTCATAGGGAAAATCTCCTTCATTAT
Celera SNP ID:            hCV8922659
SNP Position Genomic:     261975
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   (T,-|C,-)   Caucasian(C,82)   African-American(T,5|C,77)   total(C,159|T,5)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31975):
GAGACTGTTGAGTCAGAAGAGAGGTCTATTTCCACCCCACACCCTTCCTTGGTACCCTGTGAGTGCTGCAGATTTACACACTGTGTCCTCCCTCCCTGAG
S
TGGCCCACTCTGTGCTTTCTTCCTAGAAAGTGCTGGTTCTCACCTGCCCTTTCCCATAGGCTGAGCTAGGAGCCCTTCTTATTTCCATCACATGCTATAT
Celera SNP ID:            hCV1885406
SNP Position Genomic:     820
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31976):
GAGACGAGTGGTAGGAAGAGATAAAGTTGGAGACAAGGGACCAGGTCACACACAGCCTTTACATTATGGGAAGAACTTGGCTTCTACTGAGTTTATCAGG
R
CCCATGGGCAGGTTCTGAGCAGAAGCTGACCTGGTCTGACCTAGCTTTAACCAGCTGCTGTGCTGAGAATATGCTGAAGGAGTGCAGAGTGGGAACAGGG
Celera SNP ID:            hCV1948611
SNP Position Genomic:     156880
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31977):
GAGGATTGTTGGGAGTCACCTTGGGGGCCATCTGCCACCTGGAATTTGTAAAAAACTCTAAAGATGGACAGCAAGAGGTTAGCGGGCTTAAGACTCACCC
S
AGCTCCCATGTGAGTTCTAAGTTAAGGAAGCATGAGATGCAAAGATAACTCACCTAACATGACTCAAAGAACCAGCTTGATTCATTTCTAGACAGGCTCC
Celera SNP ID:            hCV11859211
SNP Position Genomic:     203497
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31978):
ACAGATAAAAAATCAGACAACTGTGACAACTGCTGGAGAGCTGAGCGCTTAGGGCACAGTGGTCGCTTGCCTAGGCTCCAGGAAAAGATCACACTAGAGC
R
ACTGTGGATTCCACACCATGGCCTACTGGGGAATTCCCAGGCTCTGAGCCAGCAGCACTTCTGACCTCTCAAGGTGAGAGTTCCCCTGGCATATCTGGAG
Celera SNP ID:            hCV1948612
SNP Position Genomic:     156641
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31979):
CCAGCTCCCATGTGAGTTCTAAGTTAAGGAAGCATGAGATGCAAAGATAACTCACCTAACATGACTCAAAGAACCAGCTTGATTCATTTCTAGACAGGCT
Y
CCCGAAGTGTGGGACTATGACAGGGCCAGGCTGGAAAATGGGTCGGGCTTCTCATCTTCCTCCTAAAGAGGAGACCACTAGGCTCATGGGGCAAGGCTGA
Celera SNP ID:            hCV11859212
SNP Position Genomic:     203596
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31980):
GGTAGCACCAGCCCTTGCCCTTGGGCAATCATGGTCTAGTGGAGGAGACAGATAAAAAATCAGACAACTGTGACAACTGCTGGAGAGCTGAGCGCTTAGG
R
CACAGTGGTCGCTTGCCTAGGCTCCAGGAAAAGATCACACTAGAGCGACTGTGGATTCCACACCATGGCCTACTGGGGAATTCCCAGGCTCTGAGCCAGC
Celera SNP ID:            hCV1948613
SNP Position Genomic:     156594
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31981):
AAATGGGTCGGGCTTCTCATCTTCCTCCTAAAGAGGAGACCACTAGGCTCATGGGGCAAGGCTGACCAGTGATAGTTAGCCAGGGGTTGAAAATAGTCGC
R
GAGATGGGCAGCTTCCATGCTTTAGCATCTAAGAATACTCCTGCAGTGATGGGATCTCATCTGTGGTTTCTGACCGCCTTGCAGAAAACCATGTAAGGAA
Celera SNP ID:            hCV11859213
SNP Position Genomic:     203732
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31982):
CTGCAGAGTGCCTGGGAAGGGATGGGTGCTTTACCCAGGCATTAGCTTTCCCCAGGCCCAAGTAAGCCTAGACCCAGTGCCATGGTGGCTCCTCATGCCT
Y
TCACCTAGCTAGTCTCCCACCCACTTCTGGAGGCAGGGAAGAGAAAGGACACTGCTGGGACAATAGGATAAGCCTACACTTTGGAATCATAGAGTTCTTG
Celera SNP ID:            hCV1948614
SNP Position Genomic:     155730
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31983):
CTCTGAGTAAGAGGGGAAGCTGTTGGGGCATTGGAGTAGAGAAGCAGTAATAAATTTTTTCCCTCAAGGTTCCTTGTAAATCAGATGTTTGTCAAGTGAA
Y
CCTGCTTCAAATCCCCTATGAGAACCTGGGCTGACCTTGCTTGAAAGTGGCTGGATTCCACAGAGCATGTGTGTTTGCACAGATGCTGCACATGCTTTAC
Celera SNP ID:            hCV11859215
SNP Position Genomic:     209263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31984):
CATTGGAGTAGAGAAGCAGTAATAAATTTTTTCCCTCAAGGTTCCTTGTAAATCAGATGTTTGTCAAGTGAATCCTGCTTCAAATCCCCTATGAGAACCT
G
GGCTGACCTTGCTTGAAAGTGGCTGGATTCCACAGAGCATGTGTGTTTGCACAGATGCTGCACATGCTTTACTCAAATGAAGTCTTTCTGTGGCCCCCTA
Celera SNP ID:            hCV11859216
SNP Position Genomic:     209291
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,2)   total(G,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31985):
CTGATTTCTCCATGTCATATGAAGGATTCAACATCACCTTCTCAGGTAAAGAGTATGAGGGTCCCTGAGGGGAAGAGACCATGGTGCTATTTGCTCTCTC
Y
TTCTGCTACCAGTCTCTGGTTTTCCTAGCAGATAGATATTAATCCACTCTCCAGTCCCTGGGAAGTTGACCTTAGTGCTTCAGCAAAAGATGCTTGGGTT
Celera SNP ID:            hCV25930602
SNP Position Genomic:     455480
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,24)   total(C,59|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:31986):
GAATTTGTCTTTCAAGGGATGTCAGTCCCACCCTTGAAAAATCATTATTATAAGGAACTTTTATGATGCTAAAAATAATGTATGTATAGTTAAATTACTG
M
GAGCACCAAATTACTCTGAGAAATTTACTTGAGAATCTCCTGTGCCATCTAGAACAGAAAATAAGGGCTTATATTGCAACACAAATAGCCTTCCTACCTG
Celera SNP ID:            hCV27996067
SNP Position Genomic:     14531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31987):
GAATAGCTCATGTAGGACCTAGGAGGCCACAGGAAGGAGTTCGGGCCTTACTCACAAGAAGGGGACCATCGCTGAAGGGTCTTAGGCAGGGAAGTGGCTC
M
GTGAGATTTATGCTTTAGAGACATTGGGGAGAGCAGGGGCAGACTGCGGGGAAGGAAACCAGTCACAGGAGGCAAAGCAGGGACCACTGTCGAGCATAGA
Celera SNP ID:            hCV27996068
SNP Position Genomic:     151506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31988):
ATTAATATCGTAAGACTTCACTTATATTCCTACAAAGCTCCAACTTTATTAGAAGCTGCCCATCTGTGTGTTTAGGTGAGAAAGAGTTTTTGAACGTGAA
Y
CTATTGTTCTCCTTAGTTCTGTTGAACAGAACAGCATCATGATAGAGCCCTGAGGCAGAAAACTAGAGACCACCTTCAGATGGGCGCAAGTCTACTGACT
Celera SNP ID:            hCV27996069
SNP Position Genomic:     162593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31989):
CAGTAATGGGATTGCTGGGTCAAATGGTGTTTCTGGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACATATACACCATGGAATACTATGCAGCC
R
TGAAAAAGAATGAGTTCATGTCCTTAGCAGGGACATGGATGAAGCTGGAATCCATCATCCTCAGCAAACTAACAGAGGAACAGAAAACCAACACCGCATG
Celera SNP ID:            hCV8020342
SNP Position Genomic:     154705
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31990):
GACACGATGATAGAATATGAAATATGATAGTAAATAAAATCAAGTGTCTAAGTTATGAAATATAAACTGCAGTTCTTTTTCTTTTTGCAGCACTATAAAT
R
CCATGCTATTTTGTTCAAGATAAAAACCAGAAACAAATGTAATCCAATTACTGGATGCAGCGGGGGTATCACTCTGCTTGGGGAAGTAAAATACTCAGCA
Celera SNP ID:            hCV8922664
SNP Position Genomic:     238271
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,13)      total(G,13|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31991):
ATATGACATATATAAAATGTATAATTATATATCTCATGTATAATAAAATATAAATATATATCAGTTGAATGGAGAGGAAATGGAGACAGCAAGTATAGAA
R
ACTCTTTGGGGATGGAAATATATGAAAAGCACTTGACATTAAGGATAGCACAGAGTAAGTATGCTATGAATTATGTTTAAAAGGCCAAACCGCTAAAAAT
Celera SNP ID:            hCV8922665
SNP Position Genomic:     229960
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:31992):
GCCTCACTACAATGCAGCCACTCACATTTCAGTGCAGCCTTGGCGATTAGGCCTCACCTCATACATCAGCCAGAGGCTCTCAGCAGTGCTCTGTTGACAA
M
GAGTGTGAGGCTGCTGGGCTCAGAAAAGAAGGGCAAGGAAATTGATTAGCAGTGTCTGCCCAGGGCACTCAGGAGCATACCACAGAATCGCCATCTCTTC
Celera SNP ID:            hCV1649907
SNP Position Genomic:     601743
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31993):
TTAGGCCTCACCTCATACATCAGCCAGAGGCTCTCAGCAGTGCTCTGTTGACAAAGAGTGTGAGGCTGCTGGGCTCAGAAAAGAAGGGCAAGGAAATTGA
W
TAGCAGTGTCTGCCCAGGGCACTCAGGAGCATACCACAGAATCGCCATCTCTTCCTAACCACAGTGCACATCTCAGCCACCTGAGGAGGATTAAAAAAAT
Celera SNP ID:            hCV1649908
SNP Position Genomic:     601789
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,6)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31994):
TGTGCCTTGGTGGTAAGGAACTTACTTTTATAATGTGGGCTCCTGGCAGGGTCAATAGGGCATGGCCATGGTGAATTTGTCATTCTAGAATGCTGGCTCC
R
GCATTGCTGAGGACAATGCACTGGAGAGGGCAAGGCCAGCAGTGAGAAGATCAGAGTTGGGCACAGAAGTCCAGGGAAGAGACCATGAGGGTCTTCAAAT
Celera SNP ID:            hCV8922668
SNP Position Genomic:     228728
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:31995):
GACCATGGTTCTGGAAGCTCCTGTTTCTCCTAGTTCCCTGGAGTATGGGAAACAGTGGGCATAGTGTCCTGGTGCCTGACCCTCCCTTCCAAGTGGGCCA
R
CAAGCATTTCTGTCCAGTTCACAAAGACAGGGCCTGATATTCTCCCACTTCATGGCCAACACCTTCTGGTGGTGGCTATGCAGCAGCTGATAATAATATG
Celera SNP ID:            hCV1885274
SNP Position Genomic:     122339
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31996):
ATGAATGGTGCTCCTGAAAGATGTGCAACATAGTGGCCCTGAAAAATCCTAGAAGCTGCAGCAGAGTTAGAGGTTCACAACAGACACTGGGAAGTAAGGC
Y
TGAGAAAGTCCCTGAACCACCTGCAAAAACTCTCCAGTGACCAAACTCTCTTACTGCCTCTGTGGCTCCTCCCTCTCTTGTCTACAGATGAGGCCCACAG
Celera SNP ID:            hCV1885275
SNP Position Genomic:     121910
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31997):
TACACATAACACCACTCATTATCTTAACCATTTTTAAGTGTGGAGTTAGTTCATTGGCATTAAGTACATTCACATTGTTGTATAACCATCCCCGCCATCC
R
TCTCCAGAACCTTTTCATTTTCCCAAGCTGAAACTCTGACCCTTTAGTCTGTACTAACTCCTCTTTTCCCTCTCCCCCAGCCCCTGGTAACCTCTATTCT
Celera SNP ID:            hCV11859224
SNP Position Genomic:     216863
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:31998):
TTAAGTCCCTTATTTAAAATGGTGTAGTAATTGCATATAACCTCCCATATCCTCCCATATCCCTTAAATCATCTCTAGATTACTGACAATACCTAACACA
R
TGCAAACACTATGTAGTAATTGTACTGCGTTGTTTTAAAATTTTTATTATTTTTATTAATATTATTTATTATTTAATATTTTCAATGCATGGTTGGTTGA
Celera SNP ID:            hCV1885277
SNP Position Genomic:     118891
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:31999):
TCGACCCCCCCCCCATGGATATAAAAATCTGCAGATGCTTAAGTCCCTTATTTAAAATGGTGTAGTAATTGCATATAACCTCCCATATCCTCCCATATCC
Y
TTAAATCATCTCTAGATTACTGACAATACCTAACACAGTGCAAACACTATGTAGTAATTGTACTGCGTTGTTTTAAAATTTTTATTATTTTTATTAATAT
Celera SNP ID:            hCV1885278
SNP Position Genomic:     118853
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32000):
TCTTCATTATAATAAGGGAACCAAAGTCTCAAATTAAAAATAAAAGAAGGCATGATGTAGCTTTTGCTGCACTTCAGCCACAGAGGAGATTCATTGTCAT
R
CAATCACTGAGAATATTACGTTGATTGGCAAGAGTCGGGCTTTGTAGAAGAGACAAAAATTCCCCACAGCTAATCTACAATGGAATTGTTCAATGTCAGG
Celera SNP ID:            hCV11859226
SNP Position Genomic:     230495
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32001):
CCAACTTGTTCATATTTGCCCAAGACCTTCCCAATTTTAGTCCTGAAAGTTCCGCATCCTGGAAACCCACTCAGTTTCAGGCAACAGAGACATTTGTCAC
Y
CTACTCCCAGCCTATTCCTTACACAATCTTCTTTTTTTTTTCCTTTCTTCCTTTCTTTTTTCTTTCATTCTTTTTCTTTTTTCTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV11859227
SNP Position Genomic:     236622
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32002):
GTTATACTGTGGGAGCAGTGGTGCGGTACAGCTGCATCGGCAAGCGTACTCTGGTGGGAAACAGCACCCGCATGTGTGGGCTGGATGGACACTGGACTGG
S
TCCCTCCCTCACTGCTCAGGTATGGTGCATGGCATTGAGGAAAGAGCTCCAGTGGAATGCTTGACTGATGGGAGGTAGACGAGCCCCCAAGGTGTGAGTG
Celera SNP ID:            hCV25616378
SNP Position Genomic:     621504
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,38)   total(C,74|G,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32003):
AGGGTAACCAGTTTAACCTCAACGATGTGGTCAAGTTTGTTTGCAACCCTGGGTATATGGCTGAGGGGGCTGCTAGGTCCCAATGCCTGGCCAGCGGGCA
R
TGGAGTGACATGCTGCCCACCTGCAGAAGTGAGTCACCCTTTCTCTCCCAATCCAGTCCCCACCATCTCTGCTATATGTGGTTCTGTAGCTCAGAAAAAG
Celera SNP ID:            hCV25616379
SNP Position Genomic:     612377
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,34|G,4)   total(A,72|G,4)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:32004):
TAAGACAATGAAATGGCACTTTATCCCTATTAAGTTAGGCTGAAGAACTTCGGTGGGTATGATGCAGTGCTGGAGTGGTGGCAAAGACACAGACACACTC
R
CACATGGCTGGTGCTGATGTAAATTAGTCCTTTGGAAATCCAGCTTGACAGTATGTATCAAGAGTCATAAAATGCTCATGTCATTTGACCCAGTAATTCC
Celera SNP ID:            hCV8020353
SNP Position Genomic:     152685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32005):
ATGATCGTCAGGATGATAATGAAAGCTAGCATTGCTGGGGCTCTTACCAGGTGCCAGGCACTCTTCTAAGTGCCTTACATTTTAACATTTAATTCTCAAG
Y
AGTCCTTTGAGGTAGGCCCTATTATTATCTCCATTTTACAGATGAGGCACTGAAAGTTAAGTAACTTGCTTGAGGTCACACAGCTAGTAAGAGGTAAAGT
Celera SNP ID:            hCV8020354
SNP Position Genomic:     152081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32006):
CAATGGGATTTAGCTCAATTGACTCCCAGTGGCACCTTATATGACCAGGTCCCCTTTCTCAGCTGCCTTCTCTTTTCTGTTTCATATCCCCTCCCCTCAC
W
GTGCTCTTAGGGTCAACTCCCAAATAAGCTCACTTGTAGCCAAATCCTTAACACAGGTCTTGTTTTAGTGGAAATCCAACCCAGGTGATATAGCTAAACA
Celera SNP ID:            hCV1885281
SNP Position Genomic:     114412
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,8)   total(A,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32007):
TGCCTGGGAGCTGAGCAATCCTGGCTCTAGATGAGAAGGAATTCCAGGATGCCTGGGGGCGAGGTACGCTGGGGAGGGCAAGGCAGCCTCAGAGCTCCCC
S
CAGGCTGCCGCAGTTGCCTGTCCTCCCCCAGGGGCCCTGCATCCTCCGCCTCCCGGTCTTTCTCCTTCCCATCCTTTGATATATATGTTTTCAGTATATA
Celera SNP ID:            hCV1885282
SNP Position Genomic:     110715
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,15)   total(G,4|C,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32008):
GATATTTAGCAGCAACCGTGGCCTGCCAGTAGCCCCCCTCTCCCCATTGCAGAGAAGAAAAATGTTCTCAGACATTGGCCAATGTCCCAGGCAGGGTTGG
R
GTGGAGCAAGCTTGCTGCAGGGGTTGGGAAGTGCGAGCTTCCCTTTGTGCCAAAGACTCTTCCACGGCTACGGATTATGGTCTCTTATGCAATAGCTGTC
Celera SNP ID:            hCV1885283
SNP Position Genomic:     110146
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,9)   total(G,9|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32009):
AGAGCTGGACATGGGAGAGAAGAAGAAGTCTGTTTCAAGCTGTCTGTAAGACACTCTCAGAGTTAAGAGACCATCATGAGGTGGGGTTGGGGGAGGGGAG
M
AAAGGAAGGCCTAGGGGAAAGAAGAGCTTTCAGGAAGCCTCCTTGATATGGTTTGGCTCTGTGTCTCCACCCAAATTTCATCTTGAATTATACTCCCATA
Celera SNP ID:            hCV1885284
SNP Position Genomic:     106078
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32010):
CCTTTGGAGATTTGGACCCCAGCCCATGCCTGATGGAGTCTGCAGTTTGGCATAATGAATTCTGTGCATACCCAACAATTCGGCCCTATCTTTGAGAGCA
R
AAAGGCAGAGTGGGGCGAAGAAGGAAAGTGTTGGTGCACCCAAAGGCAGAGCTGGACATGGGAGAGAAGAAGAAGTCTGTTTCAAGCTGTCTGTAAGACA
Celera SNP ID:            hCV1885285
SNP Position Genomic:     105930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32011):
CGCCAGACCCCTGCCTCCCTAGGCTAGGGCAAGACTCCACCTGCCTCTCTTGAGCCCACTTGTCTCTGCAGCTGGACTCAGACCCTGACTTCTAACTCCA
Y
GTCAGAGCCAGCCCCCAGGGCCTTAGCAGCTCCCAAGACTTGCAGCTCGAGCTTCATGGCATCCCCCCTCTACTAGGCTGGTTTCTGAGCCCCAAACTTT
Celera SNP ID:            hCV1885286
SNP Position Genomic:     104637
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,17)   total(C,17|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32012):
ATATCCAAGTTCACACAGGTCAGCACCACCTGACCAGCACCGAAGGGGGTTATGGAAGGGGAGGAGTGGGGTCTGCCAGGGATGAGGCTCTGGAAACCAA
Y
TGCAGTGACCCCATGGGGCAGCCATGTGCTCCATCCCTAATGCCAAAGGGAGGGTCTGGGCAGACGTGGTGGGGGAGGGGTTGGCAGCAGGTGATACACA
Celera SNP ID:            hCV1885287
SNP Position Genomic:     98345
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32013):
AATTCTGAGGGGTGTGGAATAGTAGGAGGGCTTACCTATCTTCTGTTTTGGTTACAGCAATTACCTGTGGACACCCAGGCAACCCTGTCAACGGCCTCAC
Y
CAGGGTAACCAGTTTAACCTCAACGATGTGGTCAAGTTTGTTTGCAACCCTGGGTATATGGCTGAGGGGGCTGCTAGGTCCCAATGCCTGGCCAGCGGGC
Celera SNP ID:            hCV25616380
SNP Position Genomic:     612275
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,4|T,36)   total(C,4|T,74)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32014):
ATGTAATAGGTATTTTCTGCTTTAAGAAGGTCAGCAGTGTATAGAGTGAGAAAAATGCAGCTGCCTCCTTTCCCAGGCCCTTGTCCCAGCCTCACTCCCT
R
GAGGTAACCGCTGTTAACAGTTTGGTGTGTGTCCAATTTCTTTTTAAATAAGGATTCATTAAACTGCCCATGAGGCTTATTGGGACATCCATCAGACCTT
Celera SNP ID:            hCV1885288
SNP Position Genomic:     97718
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32015):
TCCCCGCCCCCAGTGTCTCTGTAAGTAGATGTCACCTGCTCAAAATGACTGATGGGGTGGCCCGTGTCAAAGAACAGTCCTCCCCTCTGTGCATGTGTGT
R
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTGCACATGTATGAGTTGCCTTATGGTGACAGTCACTCTGGCTACTCCTGGGATTTCAGATTCCTTCTTGA
Celera SNP ID:            hCV25616381
SNP Position Genomic:     614052
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,9)   caucasian(A,25|G,7)   total(A,42|G,16)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32016):
TTTTTGGAAAGAGAATTTCCCTGGGAAGCAGGCTCAACCTACTCTCTAGGTCCAGCAAGTAACCCTTTTGAGTTTCAACATTAAATTTCCTTAATTTCAT
M
CCTCCTTTTCATGTCCTTAGAGCTTTGACGGATTTGCTTCACTTCATTCCCTTCATTCATTTGCTTTTGTTTTTGTAGGTGGCGATACAAAAACTGTCTA
Celera SNP ID:            hCV11859236
SNP Position Genomic:     260122
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32017):
CACGAGCAAACATAATCTATGAAGACGCTGCTAATAAACTGCATCCCGTATATTGGAGGGTTTATAGGGTGCTGGTGATGACTGCACCAGTTAAGCACAG
M
TAAGCATCTCTTAATTTAGACATTTGGGCTCAAGTTATGGGAAACACTACAACTCGTTCCCTCAATTATTGGAAATACACATTCTGTCATCAGCCTAAGG
Celera SNP ID:            hCV1885289
SNP Position Genomic:     95602
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:32018):
TCTTCTGACCAGGTAACCAAGGTGAGGGGAGAAGTCCAGCAACCTTGGGACCAGCTCACCCTCCCGACAGGGTCTGCTTCATTGCCTAGTTTTGCTCGGA
R
GATTTTACTATACTGGGAATCCATGCCTGTTTGGACTTCTGTTCAATTGCAGTCATCAACTGTACAGATCCTGGACACCAAGAAAATAGTGTTCGTCAGG
Celera SNP ID:            hCV25616382
SNP Position Genomic:     613730
SNP Source:               Applera
Population(Allele,Count): african american(A,10)   caucasian(A,6|G,2)   total(A,16|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:32019):
ACCAAAGCTGGACACTGTGGGACTCCTGAGCCCATTGTCAACGGACACATCAATGGGGAGAACTACAGCTACCGGGGCAGTGTGGTGTACCAATGCAATG
S
TGGCTTCCGCCTGATCGGCATGTCTGTGCGCATCTGCCAGCAGGATCATCACTGGTCGGGCAAGACCCCTTTCTGTGTGCGTAAGTATGTCATCCACTCT
Celera SNP ID:            hCV25616383
SNP Position Genomic:     604033
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,38)   total(C,75|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32020):
AGTGGCCATTTGGGGTACAACCTTGGGATTTGGGGTGCCAAGTCCTCAACACTATTTTTGTCATGCTGAGGGTTCCTGAAGTCACTCCTAGATTGCTACT
S
TCAGGGAGAGGTGGGAAAAGTAATGAGTTGTGGGATAGTTGGTCCTTTTCCCCACCATCCCTGTCTCTAGCCACTCAGACCAAGCTCCACTCCATTTTCT
Celera SNP ID:            hCV25616384
SNP Position Genomic:     603794
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,9)   caucasian(C,30|G,8)   total(C,57|G,17)
SNP Type:                 INTRON


Context             (SEQ ID NO:32021):
GCTAAGCAGAAGCAGCCATGTCCCTCCTCTTGGGGCTGGCTTACTGAGCATCTTGTGATCATTTTAGTCATCTCCTGTGGAGAGCTCCCGATTCCCCCCA
R
TGGCCACCGCATCGGAACACTGTCTGTCTACGGGGCAACAGCCATCTTCTCCTGCAATTCCGGATACACACTGGTGGGCTCCAGGGTGCGTGAGTGCATG
Celera SNP ID:            hCV25616385
SNP Position Genomic:     602190
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,34)   total(A,71|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32022):
TTTTGTCACAGTTCTTGCTAAGCAGAAGCAGCCATGTCCCTCCTCTTGGGGCTGGCTTACTGAGCATCTTGTGATCATTTTAGTCATCTCCTGTGGAGAG
S
TCCCGATTCCCCCCAATGGCCACCGCATCGGAACACTGTCTGTCTACGGGGCAACAGCCATCTTCTCCTGCAATTCCGGATACACACTGGTGGGCTCCAG
Celera SNP ID:            hCV25616386
SNP Position Genomic:     602174
SNP Source:               Applera
Population(Allele,Count): african american(C,32|G,2)   caucasian(C,32)   total(C,64|G,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32023):
GGTTGGAAATGAGCCCCATTCATTACACCCAGGTCCCAATGGAAGCATCAGGTCAGAGTGGTCTGATTGTGAACAGCTCATTAAGTAAAGAGCAGTGAGC
K
TTTGAGAGTGACTTTTTAAGAAGAATCGACTTTTATTTATAGTGATGTTCCAGTCATTAATTTCGAAGGAAGAAAGCCCAAAGCAGAAGCAGGTTCATTA
Celera SNP ID:            hCV1948497
SNP Position Genomic:     232073
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32024):
ACTGAAGATTCCTGGATTCTTCATTATTGCATTAAGGTCTCCAAGTCCCTAGATCTGGGCTCTTACAAGGTCTTCCAGAATTAATCAAGTAATTAATCCT
Y
CTTTCTTTTCCTCATTTCCCCAGCTGTGACTTGTCCTGATGTCAGTAGCATCAGCGTGGAGCATGGCCGATGGAGGCTTATCTTTGAGACACAGTATCAG
Celera SNP ID:            hCV25616387
SNP Position Genomic:     599956
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32025):
GATGATGATCGTCAGGATGATAATGAAAGCTAGCATTGCTGGGGCTCTTACCAGGTGCCAGGCACTCTTCTAAGTGCCTTACATTTTAACATTTAATTCT
Y
AAGCAGTCCTTTGAGGTAGGCCCTATTATTATCTCCATTTTACAGATGAGGCACTGAAAGTTAAGTAACTTGCTTGAGGTCACACAGCTAGTAAGAGGTA
Celera SNP ID:            hCV8020361
SNP Position Genomic:     152077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32026):
ATCAAGGCTCACAACCCAGTGTCTTTGTGTCCAGGCACAGCGGGCAGCAAGGGCTGGCCCTTCCGAGGGAAGGAGCAGGGTGGAGAGATACCACTCTTCT
R
GCATTCACACCACACAGTAATTCATGGGCCTGGGCGGGGGTGGCATGTCTTTTGGTGGCACGACTCTCTGAAGTCTTCCAATTCTTTTTTCGTCGTCTGA
Celera SNP ID:            hCV1948499
SNP Position Genomic:     239196
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32027):
TTTCTTTTTTATTATGAGACTTTACCCTTTAATTAGTTTTTACTAATAAAAGGACCTTGGGAGGGGAGGAAGGATAAAAATAGTTTCTCAGAATACCATC
Y
TAAAACAAATGCTCATGACATTGTTTTCCTTTTGCTAGCTCTTTCCTGTGGGCTTCCTGAGGCCCCCAAGAATGGAATGGTGTTTGGCAAGGAGTACACA
Celera SNP ID:            hCV25616388
SNP Position Genomic:     598979
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,37)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:32028):
TGGTGCTGCACATTCCATGATCACTCATCACCCCACCCACCTGAGCAGACTGTTAAAAAAACAAGATGGCTATATATAACTCAGGGTGTGACTGCTTCCC
K
GGGATTGCTCAAAAACTGAGACCCCAGCATCTGGAAGTGATGTCTTAATGCTAATATTCTGGAGGTGGAGCCAAGATGGCCGAATAGGAACAGCTCCAGT
Celera SNP ID:            hCV9957152
SNP Position Genomic:     334657
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32029):
GAAAGGGACTGGAAGGGAAAGGAAGAGGATATTCTATCTAGGAACAGGGGAATGGTCGAAAGGGCCCCTGAAGCCCCTAATCTCCTCCAGTCCAACAGGG
Y
CTTTCCTCTCATCCAGCCCACCACTGCAGGCAGCCAGAGACGCCAACGCATGCCAACGTCGGGGCCCTGGATTTGCCCTCCATGGGCTACACGCTCATCT
Celera SNP ID:            hCV25616389
SNP Position Genomic:     638452
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,40)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:32030):
CGCTGCCCTTGTAGAGGTTGACTTCTGGTGTGGAGACAGCCAGGGGGCAAGCCAATCAAAAAATAATTTCAGATTGGGATAAATGGCATGCAGAACAAAA
R
CAGGGTCAGGGAAAGAGAGTGGTGAGCTGCATTACATGGGACAGGGCAGTCTGGGAGGGCTTCCTGGAGGAGCTGACCCTTGAAAAGAGACCTGAAAGAT
Celera SNP ID:            hCV8922682
SNP Position Genomic:     211926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32031):
CTTTTGAGGGGTTCTCATTCTGGTTAGAAAGACAATCCCTTCCTATTGGCCTTTGTATAATGAGTGAAGCCCCAGTCTCCATTTTTGGCAAATTTGCAGA
Y
GCATTCCTGTAACACACCTAAAATACCTTTTATATTATCTATTAGCAAATTTTACACACAACATATAGATCTATACATATATACTAAGCAAATTACAGAA
Celera SNP ID:            hCV27948362
SNP Position Genomic:     602655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32032):
GAGAGCCCCGCCTCCAGCAGCCGGTGAGCAGGGGTGTGGGAGGAAGACAGGCCATGACAAGCACAGACAGGGACCTATGCGTGCCAGGGGCTCCACCCAA
Y
GGAGTCGCACACACCACATAGACACACCCAGTAAGAGGAGAGCTGTGCATTGAGCATCATTGTGTAACAGGCACTGAACCAGGCCCTTTGTGGATCTAAT
Celera SNP ID:            hCV27948363
SNP Position Genomic:     652307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32033):
TGCTATGTACTGGCAGCTTCACCTGGCATCATTGATGAGAAGGTGCCAATAGACACACTGCGCACAGCTTGTTCTATATGCAGATGCTATTCATCTCCCA
R
TGACTCCCTTTCTCTACCAGGAGTTCATAGCCATCTCCTTGAAAGCATCTCACATTTCATCTGGAGCTATTCACAAGCAACCACATCCCAGGGTGCCAGA
Celera SNP ID:            hCV1885290
SNP Position Genomic:     95101
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32034):
TGACCTCATACAAGGTTTGGTTTCTCTGAGCCTCATCTATAAAATGGAGGTGACATTTACCCGCCTTACAGGGTTGTTGTATGTGAGCCACCAGCTATAG
R
TGCTTACGTGGTCCGGAAACATTGTTTACGTCCTTTCCTGCCCTTCTGTTCTTAGGACTCAGTAACTCAGACCTTTCCAGAGAGTTCTAGTGCCTGTGAT
Celera SNP ID:            hCV1885291
SNP Position Genomic:     92695
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32035):
GGCATGGATGTGTATGATGCTATGGGAAAGAGTTATCCCCAGAGTTAGTAGTGGATGTATAGGGACAGTGGACTGGGAGTAAGAAAAAGAAAGGAATGGA
R
GATGACTCCGCAGTGTCTGCCTTGGAAACAGAAAACAAACCAAATCAGTCTGCAGTGAATTTCAGTCTCCAGTGAAATGTGTTCTTGGGGCCTACCAGGA
Celera SNP ID:            hCV1885292
SNP Position Genomic:     92345
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32036):
TGTCTAGAACCTCCAGTATAATATTGAATAGAAATGGTCAGAGTGGCTAGCCTTGACTTATTCCTGATGTTAGGGGAAAAACATTTCGTCTTTTAGCATT
R
AGTATGATGTTATCTGTAGGTTTTTTGTGGATACCCTTCTAATAAAAATTTTTAAGCAGAGGATTTTGGCATGATTTGGTGGCAGTGTGGAAAATGCACT
Celera SNP ID:            hCV1885293
SNP Position Genomic:     92064
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32037):
GTGCCTCTAGTTTCAGCTACTTAGGAGACTGAGGTGGGAGGACTGCTTGAGCTCAGGAGTTCAAGACCAGCTTGAGCAACATAGGGAGACCCTGTCTCTT
A
AAAAAAAAAACGGAAAAATATATATAACATAAAACCTATCGGCTGGACACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGA
Celera SNP ID:            hCV11859241
SNP Position Genomic:     266748
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,11)   total(A,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32038):
AATATTTAGATATGTGATGTGTCAGGCAGTGTTGAGGCATACAGAGAAAAATTAAGTCAGCTTAGAAAGTGCTGGAGCTAGGGTTGCTCTTTTATCATGG
Y
CAGAAAAGGCCTCTCTGATGAGTTGACATTTGGCCAGAGATAGATATCTGGGAGAAGAGGGAACAGAGGACCAAGACCCAAACCATGAGCATGCTCAGCA
Celera SNP ID:            hCV11182953
SNP Position Genomic:     457873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32039):
TGCTCCTGTGCATTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCACTCAGTTAGTCTTGCCAGAAGTTTGCCTATTTTATTGGTCTTTTTAAAGTTCCA
R
TGCTAGGGTGATCCATTTTATTCTCTTTTATCTAAATTATTGATTTCTGCTTTTATCTTTATCTATTCTTTTCTCTCACTTTCCTTAGGCTAATATTGTT
Celera SNP ID:            hCV1885294
SNP Position Genomic:     90359
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32040):
GGGAGGGGATTACACAGAGTGTGAATTTCAGGAGTTGGAGATCACTGGGAGCCATTTCAGAAACTGCCTACCACGGTGAATATCAGGGACAGCACAACTA
K
CAATGCCCCAGTGGCCTGATTATGCCATGTCAGACTCCCATAGGTGATGGACAACCACTGAAATATTTCACCGTTGAAGGGGAGACATAGAAATGTCACC
Celera SNP ID:            hCV25994945
SNP Position Genomic:     301067
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,37|T,1)   total(G,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:32041):
CATAAGAGGACCCAGAGACCTTCCTCAGGACAGCACTCAGGGAGGACAAGAGCTTGGAAAGCGCAGAAAGAAAGCCCTCTGCCTCTTTGAACAGTGCTCC
R
TGGGAGCACCCTGCAGAGACAGCAGGACCCTAACATCCGTCAGAGAAACTGATGAGGAAGGACAGATGGCGTGCAGTTCCATGAACACTTCCCGGCAACC
Celera SNP ID:            hCV25616390
SNP Position Genomic:     634836
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|G,1)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:32042):
AATATACCTTCAACAGTATAATCACTTTGAGAGCTACCATGTTTCAGGCACTGTACTAAGGTTTTTATATGCATGGTCTCATTTAATGTTTACAAAACTC
T
TTTTTTTTTTTTTGAGATGGAGTTTTGCCCTTGTTGCCCAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCA
Celera SNP ID:            hCV11859246
SNP Position Genomic:     270940
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32043):
ATTGTAAACATAAAGCATGGTCATTAAAGAAAATTTAGAAAATTGAGAAAAACTGAATAAAGAAACTCTATGCATGAACATTTTGATTCATTTCTTTCTC
T
TTTTTTTATAGGTATGGCTTTGTTTTTAAAGAGCTGTGTTCATAGAGTATTGTGTGAGTGTGTGTGTATGTGTTTAAGTATATACCCACTTTTTATTATG
Celera SNP ID:            hCV11859249
SNP Position Genomic:     281682
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32044):
TATTCTTGCCTGAAAAATCTAGTTACCAGACAGACACTTACAGCACAATCCCATTTGTGTCAAATTATAGTCAAGTAGGAAAAAACCTAAGTCAAACCAT
S
TCAGGGAAAAAATGAAATGTGTTGTTCATCTTCAATGAAAAGTTTAGGAGACTGTTCTGATGCCACAGGGATTCTAGCATCTCGGCCTCCTTCTTGGGCC
Celera SNP ID:            hCV9957303
SNP Position Genomic:     305938
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32045):
GCTGTGTGCATTGCTTCAGGCCTTGGTCAGCCAGGGCCAAGTTCTCATCTGCTGGCTTGACTGGGGAAGGATTCACCTACCCACTTGTGTGGCTGCTGCA
R
TATTAAGTTCCTTGTGGTTGGTGGACTGAGAACTTCTGTTTCTCACTGGCTAATGGTCTGAGGCCACCCTCAGCTTCTAGACATTTCCCACAGTTCCTTG
Celera SNP ID:            hCV9957304
SNP Position Genomic:     304395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32046):
ACAGTTTCTGTGGGGTCAGGAGTCCAGTAACAGCTTAGCTGTGTGCATTGCTTCAGGCCTTGGTCAGCCAGGGCCAAGTTCTCATCTGCTGGCTTGACTG
S
GGAAGGATTCACCTACCCACTTGTGTGGCTGCTGCAGTATTAAGTTCCTTGTGGTTGGTGGACTGAGAACTTCTGTTTCTCACTGGCTAATGGTCTGAGG
Celera SNP ID:            hCV9957305
SNP Position Genomic:     304358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32047):
TCCTCTGCCTTCTTGCTTCCCCTCCCTGTGTGGTTCCCAGGGACTTACCCATGGCCTCAGATCTTTGTGTTCTTCCACCATTGCATATGGAGGCAGGAGC
R
TGTGCAGGTAACTTGTGCTAGGCCTCATTCGTGGGACCCACTGCATCCCCTTAGTCCCATCCCAGTATCTTTCTCCCCTGCTTCTCCACTCCCTTTTCTT
Celera SNP ID:            hCV27842114
SNP Position Genomic:     625340
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,40)   total(A,75|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:32048):
AATGATCGTCTTGCCCCATGTGAAAGGCCCAGGCAAGAAAAGAGATTTAGGCTCAAGGTACCTGATACCATATTTCTTTGACTCTAAGATGCCCCCAGTC
R
TAAGATCCAGCTTTAGTTGATGTACCATTAAGAAAGAAAAAAATGCTGCCAATTAAAGTGTGACATGCCATTGACTATAAGACACATCCTAATTTCAGAG
Celera SNP ID:            hCV8020371
SNP Position Genomic:     149186
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32049):
TGCCTAAACTAAATCCAAGAGGCTGCCCCTGTGTACAACAGCCCTATTCTATTACCTCTTGGCTCCCTGCACTTCTCCTTCTATCATGTGCATCACTCGT
R
TATTTTCTGTTCCTTGTTTACCTTCTCTACTCTTGTGTGTGCTTCTGGACAGGAAGAACGCTCAATAGAGCACTGAAGTCAGAGCTCAGGGTCTAAAGGA
Celera SNP ID:            hCV8020372
SNP Position Genomic:     148687
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32050):
GGAGCGAGGAATACACTGGTTCCACCTGCTGGGTTTCTCCCTATCAAGAGGGAAGCAGAGCTCAGATTCAGTTCGACATCCCCAAAGCAGGCCCACAGCC
R
TGCACACAGAGAGCATCCGCACAGGCCACTGGAGCGTCAGTGGAGTCCAACCAGGCTGCACCAGCTTCCAGATGCCCTTCACCTGCTACAGAGGGGAGGC
Celera SNP ID:            hCV27920703
SNP Position Genomic:     195961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32051):
AGCTGCTCGGAAGCTGCTGGCTCTGCTCTCACCCACGCACAGCACAGAAAAGACATTGGAATGTGCCTGGCTTTGCACAAAAGCTGAAGCAACCAGGATC
W
GGGGAAAGACCTGAGCGAGGCACGATGTTTCCCGAGGCCCTGCAGATCTCCCAGCCTGTGAGCAGTGTCAGGGCTGGACCCAGTGGCTGCCCCACCATAA
Celera SNP ID:            hCV27920704
SNP Position Genomic:     200268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32052):
GATCATTTGAGGACAGGAGTTTGAGACCAGCCTGGGTAACATAGCAAAACTCCATCTCTACAAAATATTAAAAAGAAAATTAGCTAGGCATGGTGGTATG
Y
ACCCGTAGCCCTACCTGTTCAGGAGGCTCAGGCAGGAGGATCACTAGAGCCCAGGGGGTTGAGGCTGGAGTGAGCTGTGATTGCGCCACTGCACTCCAGC
Celera SNP ID:            hCV8020376
SNP Position Genomic:     148224
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32053):
TACTGGGCACATATTGTGTGCAGTCCTTGACTTTCATCCAAGCTTCATTTTCATTGTCACGATTTGTGCTCTCTCCCTAGTCTATCTCCCCTCCCAAAGG
R
GAGCAGGGAGAAAGAAGACATGCTCCACTTAGTGTCACTTCTGGAAAAAAAAAGACAAAACCCTGGTATGCTTTTGCTACCAATGGAAGATCGGTAATAT
Celera SNP ID:            hCV8020377
SNP Position Genomic:     145884
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32054):
ACAATCCCAGCCCCACCCCAGTACCCTGGCTCCAGAGTTTGCATAAAATCCTTAATCCAGCTGTTCGTGGTGTGTCTAGCTTTACAGCCAGACGGTGGCT
K
TTGGAGGGAAGAAGCAGAGTGTTCTTCATATTCATGAGCCTCTGGCACTGCTTGAGCCTGTGTCCATTGGATAGGGATGAAGTCTCAGGTTTTGTCACTT
Celera SNP ID:            hCV8020378
SNP Position Genomic:     145347
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,10)   total(G,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32055):
AAAACCACAAAGATGGGGAAAAAACAGAGCAGAAAAACTGAAAATTCTAAAAATCAGAGCTCCTCTCCTCCTCCAAAGGAACACAGCTCCTCACCAGCAA
Y
GGAACGAAGCTGGACAGAGAATGACTTTGACGAGTTAAGAGAAGAAGGCTTCAGATGATTAAACTATGATGAGCTAAAGGATGAAGTTCGAACCCATGGC
Celera SNP ID:            hCV16211703
SNP Position Genomic:     335834
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32056):
AAAGTGCTGGCTGAACTTGAGCTGAAAGAGGGCAAAAGAGAAGGAAGGAATTGCGTTTCAAGGAGCTGGATCCCGCTTCTGATTTTCTAAGGTTTTGAGT
M
TAGAAGAGCAAAGCAGAGCGGTCTAAAAAGGTGCATACTCAACCCACCCCAAGGGTTGCCCCTTTTGCCTGGGCTGAAACACTCACAGGATCACATTTCA
Celera SNP ID:            hCV16076733
SNP Position Genomic:     638792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32057):
AGGTAGAAGGATGTAAGGATCTAAAGTTTTGGGGAGGAGTAAAGGTTGAAAATAGATGTCTGGGAGCCATCAGCTTAGGTGTGAGGAGAGAGCTTACAAC
K
GGGACACAACAGGGAAAAAGGGAGGATGAGAGGACAAGAGGACAAGCAGAATAAATTAGAGTATTAGGACTTCCTGGGAGCCTAGACTCATCCACTAGAG
Celera SNP ID:            hCV11859251
SNP Position Genomic:     287521
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,6)      total(G,2|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32058):
GTGTGAGGAGAGAGCTTACAACTGGGACACAACAGGGAAAAAGGGAGGATGAGAGGACAAGAGGACAAGCAGAATAAATTAGAGTATTAGGACTTCCTGG
R
AGCCTAGACTCATCCACTAGAGAGGGTGGGCATGGAGTTGATTGCGCTGACATCCAGCATGTCAGGGAAAGCCCTGGGAATTCCACTGTGTGTCCACTGT
Celera SNP ID:            hCV11859252
SNP Position Genomic:     287599
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32059):
GAGGAGAGAGCTTACAACTGGGACACAACAGGGAAAAAGGGAGGATGAGAGGACAAGAGGACAAGCAGAATAAATTAGAGTATTAGGACTTCCTGGGAGC
S
TAGACTCATCCACTAGAGAGGGTGGGCATGGAGTTGATTGCGCTGACATCCAGCATGTCAGGGAAAGCCCTGGGAATTCCACTGTGTGTCCACTGTGTGT
Celera SNP ID:            hCV11859256
SNP Position Genomic:     287603
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32060):
GGAATTCCACTGTGTGTCCACTGTGTGTCTGCTATGGTCATGGGAGGCCCTCTAGCTTCCTGCCTGGCCTAGAGAGTCCACTGAATTCCAGTCTGTTGCA
S
TGGCCCATGAACCCCAGCCCCGCCCTGCCCAGCTCATCCTCCTTCTAGGGCTGACCCTCTCCTTCTAACTCCTTCTAAGTTATATTGAAGAGCCCTGGTC
Celera SNP ID:            hCV11859257
SNP Position Genomic:     287776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,8)      total(G,5|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32061):
ACAGGAAATACGGTTGAATGGCATTTTGTTTTTTCAAACTGGATCCATCAGCTCTGCCTGACTCTTTTCCCTCTGCACCGGTTTCTAGCTGACATTCGGT
R
CTTCTTCCTGGCATTACATTGTTTACGGTAGAGTTCAAGTTCCTCGAAGTACTTAGCTCTCAGGAGAGCCACTCTTTGCTCATAAGGGTGCTTCTCCAGG
Celera SNP ID:            hCV25763982
SNP Position Genomic:     307028
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,3)   caucasian(A,14)   total(A,43|G,3)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:32062):
GGATGCCTTGAGCTGTGCCTGGGTGATTGAGGCCCAGCCAGGCTACCCCATCAAAATCACCTTCGACAGGTGCTTGTGACCACAGCCTTGGGGGAGAGGG
M
AAGGGGGAGATTTTTACAGAGCCACGTGGGAGGGAATGCAGGGTGGATAGGGGACCAGTACCAACGCTGAAATGTCAGCAAGGTTGGAGAACACTGGACC
Celera SNP ID:            hCV25931447
SNP Position Genomic:     445195
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,36)   total(A,1|C,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:32063):
GGCCTCATAATGAAATGTTCATTGTGTCACTGGTAATCCAACCCAGAGGTCAGGGCCAACCTGAAGGGTCGTATCCCCTTTGGGCCCTGGGCCAAGCTTT
W
TCTCCTGCTTGAAGCTATCTTCTTGTGTGCTGCTCTTGCCTTTTGAACCCATCCTTTAGAGACCAAGGCAGGCAACCCCATTCCTAGGGCACTGCTTATG
Celera SNP ID:            hCV9957316
SNP Position Genomic:     301347
SNP Source:               Applera
Population(Allele,Count): african american(A,10|T,28)   caucasian(A,9|T,31)   total(A,19|T,59)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,5)      total(A,3|T,5) ;(T,-|A,-)   JBIC-allele(A,140|T,1119)   total(A,140|T,1119)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:32064):
GCCATGTCAGACTCCCATAGGTGATGGACAACCACTGAAATATTTCACCGTTGAAGGGGAGACATAGAAATGTCACCCAGCAGCCTGAACAGAGAAAGCA
Y
TGGAAATGCAGCACTGGGTAGGGAGAGCTGTTGCAATGCAACTACCTCAAGGGATGGCCTCATAATGAAATGTTCATTGTGTCACTGGTAATCCAACCCA
Celera SNP ID:            hCV9957317
SNP Position Genomic:     301191
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32065):
GCGCTTGATAAATGTCAGCTAATTAATTAAGTCACTCTCATCCTAACCTTACTTGACTGGGATTATTTCAGGGGATGGAAGGAATATGTCAACTTCATAG
Y
TCACAATCCCAGCCCCACCCCAGTACCCTGGCTCCAGAGTTTGCATAAAATCCTTAATCCAGCTGTTCGTGGTGTGTCTAGCTTTACAGCCAGACGGTGG
Celera SNP ID:            hCV8020385
SNP Position Genomic:     145244
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32066):
ACTTCCAGCCTAGGCTGCCCCCAGTCAGGATGGTTTCCTTATATTCGCTATTCATGATGTTGTTGTGTCCGTTTCAAAATGGCATCAGGGCCCTGCTCTT
S
GTAGCTCCTCTTGGCTGACATCCCCAAATGTCTGCTATCAAAGCGAGTTTGATCCTCCTCCACCCTCATCCAGAATGTGAAAAGTATAGATAAGGAACTG
Celera SNP ID:            hCV8020386
SNP Position Genomic:     142150
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32067):
CACCCACAGTGGATGGACAAGGATGGAAGGTGGGAGGCATGAGTAGGGTCAGCCACAGCTGTGAGCATACCTACCTGATATATGCCCTGGGATGTCTATC
R
TTGAGCTTATTCAACAGGCAACTGAATCGGGTTGAACCTGTACCTGACTCACTGGGTGACCTTGGGCAGATTTTTAAGCTCTCTGAGCCTCATTGTGGGG
Celera SNP ID:            hCV8020387
SNP Position Genomic:     141792
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32068):
CTGAAAATTCTAAAAATCAGAGCTCCTCTCCTCCTCCAAAGGAACACAGCTCCTCACCAGCAATGGAACGAAGCTGGACAGAGAATGACTTTGACGAGTT
R
AGAGAAGAAGGCTTCAGATGATTAAACTATGATGAGCTAAAGGATGAAGTTCGAACCCATGGCAAAGAAGTTAAAAACCTTGAAAAAAGATTAGACAAAT
Celera SNP ID:            hCV16211712
SNP Position Genomic:     335871
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32069):
AATTAATCAAATCTGGGGGAGGGGGTCCTGGGAATCTTGCTTTACAGCCAGTTGGTCAGAAGTAAAGGTAAAACAACCAGGGTCTTGTGATTGGCATCTG
Y
GGTGGGAGGCAGTCTTGTGAGACTGAGCCCTCAACCTACGGGACCTGATGCTAACTTCAGGTAGATAATCAGAGTTGAATTGCACTGGAGGACATCCAGC
Celera SNP ID:            hCV16212379
SNP Position Genomic:     115792
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,12)      total(C,12|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Gene Number:                 130
Celera Gene:                 hCG2036824 - 206000042058843
Gene Symbol:                 MGC45873
Protein Name:                hypothetical protein MGC45873
Celera Genomic Axis:         GA_x5YUV32VTH2(1705838..1734176)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12290):
CGTCAGCACGCTAGTGACATGGCAGGTGAGGACCACGGCACCGCCCCTGCGATCTGGCAGTCAGAGCCCACCTGTGTGTCTGCAGGAGCATCCCTGACTA
CACACCACGGGACGGCAGGGAAGGGTCCCTCGGGCCCCACCCCTTTGTTCTTTCAATGGTAAAGGTTCAGGTCGGTGGACAGACTGGACTTGGAAACACC
TTCTTGCGTCCTCGAAACGACGTGGCACGCAGCCAGCTCACAGCACCCAAAGGCACGGGCAAGTTGCATCACGGCAGCCCCTCCTGTCTGACCAGGAGCA
GGTGCGTTCCTGAGGTCCTGGCCACTTCTGCAGGAGCGTCCGAGGGAGCCCAGCTGATATACCACAGCCCCTGACCTCCCAGGTTAGCCTTTCCATCCAA
CAGCACCAGGACTGGACAGGCCACCTTGGCTGAGGATCACGTGTGCCTGGGTCTGGGCGGTGCTGATGCCCACAGGCCCTGAGTCTGTGTTGCGCACAGG
CCTTGGAAAGCAGTGCACATCCTGTCTGCACCGGTGTCTATAGTGAAGCCATCTTTGTCCGTGTGGCCATGGGAGGGTCTGTCTGTGCTGTGTGTGTGTC
CTGCGCGCGTCGGGAGCTGCTGCGCCACACACAGGCACGCAGGGTGTGGGCACACCTGTGCTKCTGAGCCCRCGTGCCCTTGCCGGTGGCCAGGCACACA
CACAGCTGTGCATCCTTGGCCCAAGATCAGCTGTGCCACACCTGCAGGCTGCAGGATCTTTTCTGTATATCTCCCTCCATCACCAGAAGTAAGCTCAGGA
CTGAGGCTGACAGGCTGGTCTGAGCGCTGCTCACCTGCACCTCCTGGCTGCACCTGTGGCCCCGGACTCAGCTTCCCCATCTCTCTCCTCCCCACCCCAC
CTCTGGGTCATCTCCGGCTGGGGCTGTACCACATCTGGGCTCAATAAATGGTTGATTGATTGATGAGGGGATGGATGAGAAGGGCTCTAAGAGAAATGCT
GGGGAGCCTGGGCAGGCACTCCCGGATGGCGGAGGCGGCRTGCGGGCTGGGGCAGCGGCCCCTGGCGCCCCCACACTCCCCCAGGACGTCTGGGGTCACC
GTCTGCTCCATGGCAGCCCCAGGGTTATTTATGACCTCCTCCCTCTGGCGGCGGGAGGCAGGCTCCAGCCTCAGCCCAGCGGCGGAGGGGCCCCAGCAGG
GGGACCCGGAGCAGCGACAGAGGCACCAAGGCCCAGGCAGGCGGGGCTCGGTGGGCCGGAGGAGGGGCGGTGGAGTCCACACCGCCAGGTCCCTGCCTCG
CTCAGGATGATTCCAGCGCCAGAACTCCGTTCCTCTGGCCTCTGCCGCCAGCCTGAGGAGTGCAGGGGAGAGTGGGGCCCAGGTGTCCCAGACCAAGACA
GGTGTGTGAGTGGACATGGGACACAGGTGTGGTAGTGGAGGACACGTGTGAGCAAGTGAACACATCACACAGATGTGCGAGCAGACACAAGACATGGGAC
ACAGGTGCGCCAGTGAACACGGGACTGGTGTAAGCCAGCGGGCATGAGACACGGGTGTGAGCGAGTGGACACGGGACACGTGTGAGTGGGCACGGACAGT
ACAGGTGTGAGCGAGTGGACACGAGACACAGGTGTGGGAGTGGACACAGGTGTGTGGGAGTGGACACAGAACAGGTGTGAACATGGACACGGACACGGGT
GTGTGTGAGTGGACAGGACCAAGGAAGGGGCACAACCCCGTGGAAAAGGGTGATGCTGGGGGTGAGGAGCCTGGTCCTGTGGGAACGTGGCCTCTGAACG
GGTGCCTGCTTCCCAGGAAGACAAGGAGGTGGTGGGGAAGGCCTCCTCACCCAGCCCCTGGAGGGACCTCCAGAACATCAGGGAGTGGACAGTGAGGATA
GAGGGGTGCCTCCAGCTTTGGACCCAGTCAGGGTCTTTTCTGGAAGACACCATGGGCCCCGGGTAGGCCCCCACACCCAGCCAGAAACCCAGGGCCAGCC
CCATGCCCCTCCTTAACCACACTGTGGGCCTGAGCATGATGAGATGCTGGTGAACAGGGGAGGGCTCTTGGAAGGGAAAGGAGGCCCCTCTGCTGGCCCA
GGTCAGAGGAGAGGCCTGGCCCAAGGGCCTCAGACCCTGAGAGGCACTGCCATGCAGACCTGCGCCTCCCCAGCCTCCCTCTCCAAATCACTGTGTGAAC
ATCAGGGAGTCAGGTGCAGGCGAACCTAGAAGGAGGGTCAGGTGCAGGTGAACCTAGTAGCCCACACACGGGCAGTAGGGTCAGGGCTGCAGCCAGACAG
TGGGCACTCAGGGCCAGTCCACATGGCCTCCAGCTGGCCCCAGGAGCAGACTTTCCACATGGTATCAGACCTGGGAGAAGACACAGACTTCAGGAGAGGA
AGGCACAGGAACTCACTGGCAGCCACAGCTGGGGTCAGGGATGTGCTGGTGTCCTGGATGCAGACAGGTTGATAGGGCCAAGGGTGGCCACATAAGGAAG
GGTCACCGACACTCACACCCACACTCCTACCTGGCCCCCCAGACCCCAACAGACCAACGAGCCCCCACAGAACAGGGCCAGGATAGCGGGGGAGGCTTCT
GGGCATGTTCCTTGCCTGAGCAGAGCACTCCTGGCCCAGACCTCACTCCGCGGGTTGGCTGTGGGACCAGCAGAAGCCTCTGGTGAGATAAGGTGAAGGA
GCCCAGCGTGGTCACCCAGGGTCAGGTTTATGCTCAAGGAAGCTGGTCTGGCAGGAGGTGGTGGTGGGCTGTTCCCTCCCTCGAAGAAGGCACCTGTGCA
AACAGGCCTGTGGCCCACTCACCCCTGGACCTGCTCTGGGAGATGCCCACAGGGACATGCCAGCTGCATCTCAAGGGCAGGGGCCAGGGTCAGAACAGGA
GGCCCCTTTCTAGTGGATGCAACACCGCACAGCAGCGCAGGACAAGGCTGTCTCACCTGCTGTTACCAACGCCCCCAGGTTGTGTTTCTCTTCGGAACGC
TCCAGATGCAATGCCGATCTGGGCACGCAGGGAGGTGGGGGGTGATGGGAAGCTCACCAGGAACCAGGGACTGGGGCCCAGACTGACCTGTCAGAAGGCA
CCAAGGTGGACGTGGTGTGGCCGGTCCTGCTTCACTAGCCTTGCTCCTCCTAGTGGGAGGCCGTGCACTCTGCCAACCCGCTATCCCCCACCCTCACCCT
GCCTCGGATCCACACCACCTTCCTGCTGGGAGGTGTGGGGTGACAGGAAGCTCTTGCCCCACACCATGGTCCTGGCGCGGTCCTGGTGTGAGACATCCTG
CATTTGAAACAGCTGTGTGACTTCAGGAGAGTTACTTGACCTTTCTGTCTCAGCGTCTTCTGCAAAAGACTGAACAGGAACTCCGTGGCTCGGGCGAACT
CACTCCTGTCAAGTGCATAGGAAGGGGCACGAGTGGGCGGGGAGGTGCTGCCCTGTTATTCACAGAACACTTTGCCCAGGCAACACACTACAAATCCACA
ACCTCGCTCCCTGCAGGTGCACTGAGACCACCCACGCCCTCCCGGACACCAACGCCCACCATCAGATTCGCTGCGCAAAGTCCCAGAGCCGCCGGCGCAC
GCTCACACCCCGGCGAGCAGCCCCCAGCTCCCTCCCTCCGAGAGGAGCCCGGTCCGCGACCAGCCCAGCCCATCCCAGTCCCGCGCGGAGTCCTGGATTC
CAGCCGCTCGCAGTGACTCGGTACTCGGGATAGTGCCGGGGGCCGCAGCCCTGTCCCGCTGCCGCCGCCGGATGCCCCGAGTCGGCCGTCACGCACCCCC
CGCGGGAGCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGCCCGAGCGGCGGCGCCAGGTCACACAACGTGTTTTGGCGCATGCGGGCGCTTGGGCCCAAGGGTGCG
ACGCGGGGGCGCATGAGCCGGGACACAGGGGGTGCGGTGAGCGCCAGGCGCCGCGGGGAGTTAAAAAGTTCGGGACCTGAGCGGTGCGTGGTTCCGCGGT
GGCCGCCTCTTCCTGCCGCGCAGGCCGAGGGTCCCGACGGCGCCGCTCACCGCTCCGGGACTCAGCCTTTCTGGGCCCGGCGTGCGGTTCCCTCGGGGCC
GGGGAGAGGGTGGAGCGCGGGAGGAGGGGCGCCGGGTGGGGACGCCCAGGCCCTTCGTCGGGGGAGGGCGCTCCACCCGGGCTGGAGTTGCAGAGCCCAG
CAGATCCCTGCGGCGTTCGCGAGGGTGGGACGGGAAGCGGGCTGGGAAGTCGGGCCGAGGTGGGTGTGGGGTTCGGGGTGTATTTCGTCCACGAGCCGGG
GAGGGGGTACTGGCCCTGCCGCTGACTGCGCGCAGAAGCGTGCCGCTCCCTCACAGGGTCTGCCTCGGCTCTGCTCGCAGGGAAAAGTCTGAAGACGCTT
ATGTCCAAGGGGATCCTGCAGGTGCATCCTCCGATCTGCGACTGCCCGGGCTGCCGAATATCCTCCCCGGTGGTGAGATGCGGGGCTCGGTTGGGGCTGG
GAGTTACTCTCCCCTGCGGAGCTTGTCCCTGCGGTTTTCAGGGTTTTCAGGATCGAGAGTCCTAACCTCACCCCTGCGGGTGTGCTGGAGGGAGCCTCCG
AAGGGCAGGGGGAAGCGGCTTTACCTCGTGCTCTCCCAGCCCTTCTACCTGGACGGGGGAGGAGTCCTCGGGCACCCGAGCGCCCTCCCCGGTGGAGACA
GGGGGGCCRCGCTTGTCTTAGAGCCTCCCCTTGGGTGCCTTTTAGCTGCTTATCCTCGAGTCCTGGGTCAGGGTCTTCTCCCTGGGAGGAGTAATTCAAC
GTGGGCCTGGCACTGTGCCCTGTCACCGCTTGGGGGTCACCGTGTTCTCTGGCCCAGCTGGTGAGGTGTGATTCTGGGACGACAGCATTTTGGGGAGCTA
CAGGCTTGGGTGTGAGTGACTTGTGTCTCTGGGTGCTGAAGGCCAGAGGGTGCAAGGGCCTGGACGTCGAAGTGTGTCCTAGGGACGCAGAGGCTAGCCA
GGGGCAGAGTCTTTGCAGTGTGGGCCTTTGGTGTCCAGGGAACTGGAGTCGGAGGCTGGTTCAAGGCCCCAACCCAGGGTAGACAGCTATGGACACCCTC
ACTGAGGGAGCAGGCAGGAGAGACGGGGATGCTGGGAGCTGCCTTCTGCTCAGGGAGGCACCTGCACCCCCCACCCAGTCTCCAGCCCCCTAGTTGGGCA
GCGAGGGTTAGAGGATTGATCTGAAAAGGAAGAATGCCTGTTGGGAAGGACTAGTTTGGAGCCAATTAGGGCCATGGCTGCTGGGGGTGGGGGCTGCAAT
TCCTGACACACTCAGGAACCCCTTCTTCCAGGAAAGGGTAGGAGAGGCAGAGGTGCAAAATGGGCCTGAGGGTCCCGGGCGTACCTCCGCTTGCCTGCTT
TGGGCCTGAGGTAGGATGGGGGAGGGGATGCCCAGGGGCCTGTGAGCCATGAGTGCCGTAGTCAGGGGGCTGGGCGGCTGCAGACACACCTGTGAAGACG
GCTGGTCCCTCAGACATACAGCATGTTGGGCAGGGGAAGGGGACACAGCCGCACCTCACCCATGTGCCCACCTGACACACAATCCGACATGGACCTGCAC
GCACAGGCAGGCAGCTCACAGAGTTCCCAGGCAGGTGTGCAGACAGCCGGCAGCCCCCTGTCTGCTGTCACAGACCTACCCGGGGCAAGAGGCCCAGTTC
CCTCCTTTCAAGCAGCTGGTGCTGGAGAGGGCTCCTCTGGGCAGCCCGCTGCCTAGCCTTGGGTCTCTGTTTGGATTTGAGCGGCCCCCTTGAGGGCTCC
CCCAGGAGTGGGGAGCACACAGCCTGAGCCCAGCGTCAGTCTCTTCCGACAGTGCTTCCGTGAGCATCTCCTCCCCACCCCGTGGCCACAGCCAGGAGAT
GCCCCCCCACCTGGGGCTCCCAGGTCCCTGCCCTGCGTGAGGGAYGGCTCAGATCCAGGCCTGCCTCTGCCAGTCCCTCCCAGGCCTGTCCCACACCCTT
CCCCTAGGAAGCAACTCCAGGGGCCCCTTCTTTCCAGCCCCCATGTTTCTTACTCAGAGGCTGTCTCCCCCAAGCCCCATGCCAAATCCGCAGGCATGTG
CACCTCATGGTCACAGATGCTCCGGGGCAGAATATGAGTGTGTATGTGCCTTGGGGACCCTGCACAGGGGCCCTGCAGGCCAAGCACCTTCCAAGAGGAG
GTMCTGTCAGGGGCCGAGTTTTCAGATCTGTGTGCTGTGGCCGAGGTCTCTAGTGTGGAGGAGGTGTGTTCTGTCCTTGGGCAGGGTGGGTGGCAGGGAA
GCTGTCCTGGTCCTCAGCACCCCCATCAGCCACTCCAGACCTGCCCTCCAGGTGCCTTGGGGCGTGGCTGGGGTGCCGGTGTGTCCCCACGCCCGACTCT
GCGCATCACGGGGCTGAGGCTGGTATACAGCCTGGGCTCCATTCCCAGCCAGCCCTGGCCTCCTTCCAAGGGGCAGTCTTCTGGTCCTTGCTTCCCTCTC
TTCCCCATCCCACAGACAAGAAGCAGAGAGCAAAGCATTGTGTCTTCTCCTCAAAAGAAGGGAGGTGGGAGGCCGGGTGTGGTGGCGCATGCCTGTAATC
CCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGACTAACACGGTGAAACCCGTCTCTACTAAAAATACAAAAA
ATTAGCCGGGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCC
AGATTGTGCCACCGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAACTAAAAAAGAAGAGAGGTGGGAGAGGAGAGGCTGTCAGAGCCTC
TAAGCCCTGGTGCTTGGGCTGCAGAAGGGCAGAGCTAAGCGGGACTTCCCAGCACAGCACACTCCGGACAGGCTGTGGCTGTTGAAGGGACCCCCGAGCT
CCAGCTGACACGCGGAGGCCCGGGCACAGACAGGCATCATACCTTCGGCCTTGGCCGCACTCTGTGGTCATTGGTGTTGGSGGCAGCCCAGGGTCAGGGC
AGGGTCTCAGCCTCGGACCCCAGGCCCCACCCCTTGCCCAGCAGTGCTGCGTTTTCCCAGTGAGCTGTCGTGGAGAGAGCAGAGGGGACCCAGCGCAGGC
CCAGTGGCCGGTGAGGGGAGACGTGGCTCTGGGACGGGGGCCTCCACCTGGGTGGGGGGATGCTCCAGCTTCCAGACCCTTGGGGAGGGGGCACTGCCCA
AACTAAGCTGGCACTGGGGCTGTGCATTTGAAGGTGATGGTGGTTCTAGGTCTGAGGAGGACACCCTCCTAACAGCCTCATCCCCAAGCTCCGGGCTGTG
TTGTGGCAATGGGAGGGAGGAAGTCTGAGGAGACCCTGGTGACTGAACGGAGGAGGGAGTGAGTTAGACGCTCTCAAGGGCTCTGCCACCTCCCGGAGCC
AGCGGCCTGTTACTACATTTAAAAAAGCCTCCCGCCCACTGGAAAATAATCAATAACTTTCCTTTATCCCTGGGGGTGGCAGGACCTAGAAACACTGGAG
GAGTCCGGAAGTGCCTGGGGCTGGGCCGGCGCTGGTGTGCTGTGCAGGGTGCCGCGGGCACGTCCGCCGCGTGTGTGCGTCAGCTCGGGGCTCGGCTGTG
CTCTGCAGGGACCACAGCGGGCGTGTCTGTGCTCCCACCCGAGGCACCCACAGCTCCACACGCTCGTTCCGTGGGTGCAAAGGAGATGGGAGAAAGAAGC
CCTGWGAGAAATGCGGGGCAGGGTTTGCGGAACRGRGGACCTGGGCTGGTGAGGGCTCCTCGTCTGGTGACCTGTGAGCCCCGGGGCCTGCAGTCTGCGA
GGGTTCAGCTCAGACAGTTGCCAGTGGCCTTGCACCAGGCTGCAGCTGCCCCTGAGCCGGGCTGTGCGTGGCGCTGATGAAATAGAAAAGGGSATTCGCT
TGTCAACGTTGGCATCRGTGGCAGGGTGTGGTGGGCAGAAGGGTCACAAAGTACGGGTGGGATTGGCAGGCAGATACACGGAGGGAACGTGCGCATTTGA
GTGCACGTCCACCAGCACCAGCCCCAGGCCACAGGCAGATCCCAGGAGACACGCAGGGGCCCTAAGAAGGGAGCTGGGAATGAGGGGCCACACAAGCCCG
GGACGGAGGCCTGTCGCACATGGGGTGGCCCCGACTCAGGCCCTGGAGTTGGCCAGGACCCTCTAGCATCCTCAAGGGCTGGGCCAACCAGGCTGGCGTG
GGGTGGGGCAGGGGAGGGCTGAGCCAGTGGGCGTCGTCTGTAGGGGGATGCCCAACTGCGGCCCCGTCTCTCGGCTCTCCTCTGGGTCTCTGGCCAGCTG
TGGCTCCTGCTGGCCCCAGGCGCATCCCAGAGGCAGGTAGAGGGAGGATGGCTGCTCTGAGGGCACCTCTGCCGTGCTTGGGGCTCGGCCTGGGGTGCGA
GACCAGGGCAGACCCCCGGGAGATGGAACGGCCCGGTCCAGCCCCACCTTCCTCTCCTCCTGCCCCACCTTCCTCTCCTCCTGCCCCACCTTCCTCTCCT
CCTGCCCCACCAGAACCGGGGGCGGCTGGCAGACAAGAGGACAGTCGCCCTGCCTGCCGCCCGGAACCTGAAGAAGGAGCGAACTCCCAGCTTCTCTGCC
AGCGATGGTGACAGCGACGGGAGTGGCCCCACCTGTGGGCGGCGGCCAGGCTTGAAGCAGGAGGATGGTCCGCACATCCGTATCATGAAGAGAAGGTACT
TGGACCAGGGCCGGACAGGAAGGCGCAAGGCTCAGATGGGGCTGGAGCTTCAGGCCTTCAGCTGCTCAGATGAGAGTGTCCACACCGGCCTCCCACACCT
TCCCTCAGATGCTGGTCTTTTTGGGGTCCTGTGTGGGTCGCAGGCAGGAGCTGTTTCCTCATCTGCCCCCTGTCTGGCGTCCCCTCCCACCTCTGCTCTG
CGGCGCTCACTGGCAGAGGCAGGTTGGCAGCAGTTGGGACCCAGAGGTCTGCACCTTCCTGGGCCGACGCTCCAGCTACCCTTGCTGACCGGGTCCCAGT
CTGGCCAGAGAGCAGCTCTAGCAACAGGGAGCTCCATTCAGGCTCGTGACTGGCTGTGCAGAAGCAGCCTCGGCCCCCACCTGCGGTACAACAGGAGGGC
TCCTCTGAGTGCACGGCAACAAGCAAGAGGGAGAAGGGGCCTCGGTCCTGTTCTTCCTGATGCGTGTCTGCTGAGGCCAGGAGCTGGCTTTGGCCCATGG
GCCTGTCCTAGTGGGAGGCCCCAGCATGTTGAGCCAGTAGCAGGTGGTGCTGGGCATGGCAGCCGCCCTCGTTCACTGCCCAGGGCTGTGGCCCAGCAGG
GCACTGACCCGAGACAGGTCTGCGCACGCCCTGCTATCCTGAGGCTGGGGTCAGGGGCCTCCAGAGCAACATGGACCTTCTGCTTCCCTTCCTGCAGAGT
CCACACCCACTGGGACGTGAACATCTCTTTCCGAGAGGCGTCCTGCAGGTAGGAGCCGTGCTGTGCGTGCATAAGAGGGGGCCGTGACTCCCCTCCCTCC
CTCCCACCCCTGACCGTGCCCTGCTGTCTGCTGTCCGCTGTCTCAGCGTGAGCTGATGCTGTGATGCTGGCTGAGTGTCTGCCAGGTTTGACATGTGCTG
CAAGGTTGTCCCCCATCCCGGGAGGCAGACAGTGTTGCACCCAGTTGGGACTGAGGGACCCCAGACCCAGTCAGATGCAGCTCTCGGCAGCAGCTCAGGT
GTGAGTTCTGGGCAGCCCGGCCCTGGAGTTAGAGTGCACTTCCTCCCATGTGAGACTGGCCATTTGAGCCCAAAAATGAGGCTGTCACCTCCCCCTTCCC
ACCCTCCTAGAGACCCACAAGGAGGTGAGAATGCTGATGTGTGAGTGGGGCCCTGAAGGGTGTGTAGGAGCYCTAAGGCGAGGGGATGTCTGCAGAGTRG
AGGAACAGGGAAGGGCGTGTAGGAGGGACGAGGAGTGAACCTGGCAGCTCTGGTTCAGTTGGATGCTGAAGAGTCATGGATGCTGGGCCTGTGGGCACCG
TCCTCCAGGCGGGAGCCACCGAAAGTTCTTGAGCAGGGCAGTGACCAGGTGTATGTTTGGAGAAGGTCCCTCTGGAGGCCTTCCTGGCAGACAGGGGATT
GGATTCAGGCTGTGGAAGCAGGACGGTAGGGGGTGTGATTCCAGGATGTGGAAAGGAGATAAAAATGAAGAGCCCCGGGGAAGAGGTCAAGGGAGTTGGG
GGACCCGAGTTCCTGGCTCCAGGGGGAAGCGAGTGGTAAGTCTGTGAACAGAGCCCAGCTGTGGATTCTGTCAATGGGGTCAGGTCTCACCCTGTGGCTT
CCAGGGCAGCAAGGCAGGAAGGAGGCGTCTGCCACAAGGCCAGCTTCCTGGGGCCAGAGCCGTGAAGGCCCAGGGGACCTGCGTGTCTTGGCTCCACGCC
AGATGTGTTATTATTTATGTCTCTGAGAATGTCTGGATCTCAGAGCCGAATTACAATAAAAACATCTTTAAACTTATTTCTACCTCATTTTGGGGTTGCC
AGCTCACCTGATCATTTTTATGAACTGTCATGAACACTGATGACATTTTATGAGCCTTTTACWTGGGACACTACAGAATACATTTGTCAGCGAGGCCTGT
AGGGAAACCCAGCCGCGGTCCCCCCGACCCCGCTCCAGTAACGGCTCCTCCTGCCTGCAGCCCCCTCCTCCGTCTGCCTGGCCTCGGGAATGCAGCGTCC
CTCGGCAGCACTGACGGCAGACAGCCTGGGGTGCCCTAGGAAGAGGCCAGGTCTTCCATCCTGCACGGGCCCTAGAAGGGGCTAGGATGAGTTTCTGAAT
CTCCCAAGGGCGAGATTTCGGTCAGAGGGGAGGGCGTGCTGGGGTCCCCGGAGGAGAAGGCCCAGCACACGCCTGAGTGGACTGAAGCCTCCGCCTGTTG
ACCTGACCCTGGTGTCCGGTCAGAGCGGGTGGTGGTCCCTGAACCCACACGGGCTCCCAGACCATGTCTGTGTTTCAGCCTGTCCCTGGGTCCTTCTGCC
TCTGCAGGCTCCCACAGAACACACTGCCAGGCCACCTCCATCTGTGTGTTCATTTGCTCCCGTCCAGTGGYCTCCACCCATCTGTCCRTCTGTCCTTCCA
TCCCCTTCGCCCTGTCTGGCTGGCTCTGCAGTGACCACCTGCCTTTTGGAGCCAGCGGAGCCCCAGGCCGTCCTCCTCTGCCTCAGGAACCCGGGGTGGC
AGATGCTCCTCGAGCCATTGTTTGCAGGCGGGGGCTTGGCCCCTCTCTCCTGGGCCCCTGAGCTGGTGGGAAAATGGGCAAGGGCTAGGCCGTGTGGTCA
TCAMTGAGGGGCGGTGGCGGGAGGCCCATGCGTGGGCAGCTGGGGTCACACCTGCCAGGCTCTGGCCTCCCCCTCCCCTTCTCCTTCCTGCGCCTCCTGC
CCCAGCCCTGACTGCTTCTCCCAGCTTCCCCACCTCCTGACCTGCAGCCCGGCCCCACCACAGAGACTNNNNNNNNNNNNNNNNNNNNAGGCTCACGGAA
CCGGGAAGGGGTGGAGGGCCGTGCTCCACACAGTTCGTCTCATTGCTCTCTGGGACTCTGTGGATGTGGGATTGGGCTGAATTAGCAAGAAGAGGAGAAA
TGAGGGAAGAAAAGAGTTAAATGCATGTTGATTCCAAGCCCCCGCCTGCCGGGGGGACAGCGGGAGGTTGGAGCACGCAGCCCTGGTGCCTGGTGCGAGC
TGCACGTGTCTGCCGGTGCCGTGTGTGCGTGGGGCGCGTCTCATCAGCTGCAGGACTGTGGTCTGGGCCTCAGTTTCCTCGTGTGCAGAAATCGGGGGTC
AGGGGATGGTTCACATGTGGCACATTCTCTCCTGGGGCCTGTCCTGCAGGACTGCCCCTGAGCAGATCGGCCTCTTCCYGGGCGCCCRGTGGGCCCCTCG
ACCCCCTTTGAGGCAGGGAGTGAGATAACTGTGATTCCCTGTGGAGGGCRTGAAGGCAGAGCCGGCTGGCTGCTCCACAYAGACCCTCCCTGGAGCAGCC
GTRGGGTCCCAGGTCCCAGTGCCAGGTTCTGTGTCGCTTTGACTCGGGTGCTGCGTGGGTGTGCACACAGTGGCGTCACGGGCCACATGCCGAGGCGTGG
GCACAGCAACGTGGCACTCAGAGGTCATCCCCACGCTCACACACAGAGCTAGGCACTCCCTGTGCCCAGGCTGGGCTCCAGCCTCGCAGCTGCCCACGGG
GTCAGCTTTTCCCGGTCTCGTTCTGCAGCCAGGACGGCAACCTTCCCACCCTCATATCCAGCGTCCACCGCAGCCGCCACCTCGTTATGCCSGAGCATCA
GAGCCGCTGTGAATTCCAGAGAGGCAGCCTGGAGATTGGCCTGCGACCCGCCGGTGAGGAGCACAGGGGGCCTGAGGGCGGGGTCGGGGCTGTGGGGCCA
GAGGACGGTGKCGTCTCCACTCAGCACCAGCAGCCTTGGCAGGCAGCCAGAGAGGCAGGAGGAGCGGCCTGTCCCCCAGGGGCTGCATGGGATGGTAATT
GTGTTAATCCCAGCCAGCGGGGCAGACAGGAGGCAGAGGCGGTGGCTCCGCTGTGGCTGCCGCTGGGGTGGGCTTGGAGTAGCCGGGGCCCTGCCACCCC
CTTTCCACAGGGCAGACGTAGGCGTGGCCTCAGAGGTTCAGAAACGCACACCCTGGAGGAACGCACGCACTCCCGCAGCGCACGCATGACTGGTCCCGCC
TCCTAGGGCTCCTGGACGGAAGGGGTCCCCGGTCCCGCCTCCTAGGGCTCCTGGACGGARGGGGTCCCCGGTCCCGCCTCCTAGGGCTCCTGGACGGAAG
GGGTCCCCGTCCCGCCTCCTAGGGCTCCTGGACGGAAGGGGTCCCCGGTCCCGCCTCCTAGGGCTCCTGGACGGAAGGGGTCCCCGGTCCCGCCTCCTAG
GGCTCCTGGACGGAGGGGGTCCCCGGTCGGTCCCGCCTTCTAGGGCTCCGGGAAGGATGGGGTTCTCGGGAGGGAAGGGATCCGGCGCCTGAGGGAGGTG
CTGCTGCCTGGTCACAGTTGTGGGGGGACCAGGCCCCCCTCAGAGGGCACTGCTGTAGAGAGGGGCACAGCAGAGCCTCAGCCCCAGGGCAGGCCGTGAA
AGGAGGCGGGGGCGCCCCGAGGCCCTGTGGACCCCAGGCAGGGGTGTTCCCAGCAGGGCCTGCATCTCTTGGGAAGGAGGGGTGGGGGAGGCCCACCCCC
ATCTGTGTCCCCCATCCATGGCCCCCATCCGCGTCCTCGTGCACCTAGGAAGGCCCTTGTGGGGCTGGGTGGGGGCAGCTTCTGATGCCGCGTTGGAGAC
AGCTGAGAGGCGGTTGATAAAATCTAATTGCCCCATCGATCCAGCAGAGCGGAGGGAGCCCCACAATGATTGAGATATTCTGAGCCAGCAGGCCCTCCCC
TGTGCCTTCACACAGGGAGACCTCCTCAGGTACACGCGTGTGCGTGTGCCGGCATGTCTGTGTCTGSGGTCCTGTGGGGTGCACGTGATGGGGGTTGCCC
GGCAGCTCTCACCCATGGAGTCAGGACGTGTTCGTGCACTTCCGGGCTCACAGGCTCTACGGGGCCTCACGTGTCCTGGACCCGTGTCCAGGTCTCCCAT
ACGCACTCCGTGTCAGGGTCTGGCCCGCTCCCCGGAGCCTCCTCTTGGAGGGGCATTCACCCTGGGGGGCGTTCACCTCTTCTCCCTTCCTGTGACCCCA
GGAACCACACATCCATCCTGTTCCCAGCCCGGGCCCTCCCGCTAAGCCGCACCTCCCTGGGCCCTGGGCTGTGAGGGACTCAGAGCAGGTCCTGCATCTG
CCTCTGTGAGACCCGCTGGGGTCCATGAGTGAGGAGTGAGCATGGCCTCATCGGCCTTCCTGCGGTCTCATTGCAGGCCCCCTTCCACCTGCCCCCCCCC
ACCCAGTCACCTCCCCCAGGCTAGGAGGAGGCCTTAGCCCCCCACAGAACGGAGAGGGTAGTTTCCACTGTGTACAATGGAAAAGTGATTGCCAGGAGGT
GAGAGGCCTTGCTAACCCTGAGGGCATGTGCATGGTGGGCCAGGTGGCAGGTGTGGAAAAGAGCCAGGTTCCCCCAGCCTTGGCCCACCCCCTCCCAGCC
CACCGAGCTCTGGCACGGGAGGCTGTGGGGGAGACGATGGCTTCTCAGGGGCCTGAGCAGTGGTGCCTGGATCCGTGTGTGGCCAGGTGCCCCCCGCCGC
CCGCCGGGCCCAGCCACCCGATCTGTCACCGAGGTGGGGACCCTGGACCAGACCGTGGGACTGACCCTCTCTCTGGGGCCGGGCCTGACAGCAGCCGGGC
CAGGATCAATAAGTTATTAGCACCACTCTGTCAGCTGTAATGTGGGATTGATCGGTGTGGCCGCCGCACTTCCCCAGCCTGATAAAAATGACAGATTAAG
GGAATAAGAAAAAGGAATTAGGCCTGGAGCTGACGGCAGGGCTTGTGGGGGGACGGGCTTGGGAGCCCCACTGCCTAGGCCTCATGGAGGTCTTGGGTCA
CAGGGGRGTGGCCCCTCACTCCACCCAGCTAGAGCCCTCATGAGGATGAGGAAGGGCCAGAGTCGGAGGCACTGGCTGGCCTGGGAGACCCCCAGGGCGT
GGAGTCAGGGGCTTCGGAGGAGCTCGGGGTGGGTCGGAGATGGGTACATGGATGGTGTGGTCTGGAATGGKTGCGGTCGGCAGGACCCAAGGGAGGACCT
CAGGAGAGTGAGCTGGGCCTGGCCTGGGCCTCCCCTCTGCCACCTGCTGGGCTGTGTTTGGGGCTGAAGCTGGACCTGGCCTGGGCCTCCCCTCTGCCAC
CTGCTGGGCTGTGTTTGGGGCTAGGGCTGGGCTGGCCTCGTGGCTGAGGAGGTGGGTGAAGCTACTGGGAGGTGCACCCCAGAAGCCCAGAGCCTGGCTG
GGCTGGTGGACAAGGGCATGACAGCCACGCCAGGGTGCTAGCTCAGGCAGGACTGGGCCAGAGAGGAGGACGTGGGCCTTCTGGGGGCAGGGATGGGTAT
GACCAAGTAGGAGGCCTGGGAGTGGAGGCGCCTCGAGGCGGCCTGGGGGGCCCACAGCCCAGTGACTCACAGAGCAGCAAGAGGTCAGGTGTGAGGTCCT
TCCCGGCTTGTCTCACCCCACGCTGGCATGTGACCCTGCACAGCCCGCCCTCACTCCTGTCCAGGAGGGGAAGGTGGTGCCTGGTCAAACCAAAAGCTTT
TTATTCTCCTCTAGGGGGATGAGAGGGGGGCTCGTTAACTTGCACAAGAGGCTAGATGGCGGGTGGGGCAGCTGGGTGCCTGCTGTGGATCTCTTCTGCA
CACACGCACCAGGGCCAGTGTCAGAGCTCCCCTGTGCCCCTGTCCCGCCACAGCCAGGCGTGATGTCCTCTGCGCTGAAGGCTGGGGCTGCCAGGGCTGG
GCAAGGCCTGTACTCACCAGGACCAAGGGCCCCCTGAGAGATGGTGGGTGCGGTCCAGGCTGAGCTGGAGCAGGGGCTGGGTTCCCCTTCCATTCCTTGA
GATGCAGGTGGGCACTCACTACCCTCCCGCAGGTGACCTGTTGGGCAAGAGGCTGGGCCGCTCCCCCCGTATCAGCAGCGACTGCTTTTCAGAGAAGAGG
GCACGAAGCGAATCGCCTCAAGGTAAGAGCGTGGCTGGGACGAGAGACAGGTCACCAGGGGAGGGGGCAGTCCCTGAGGGTCCCCTGGACCTCGAGCAGG
CACTCTAGAGGGGCGTGGTCCTCGGCAGTGCCTGGAGAAACCTCTCACCCCGGGTCCTCCCCAGCAGAGGCGCTGCTGCTGCCGCGGGAGCTGGGGCCCA
GCATGGCCCCGGAGGACCATTACCGCCGGCTTGTGTCAGCACTGAGCGAGGCCAGCACCTTTGAGGACCCTCAGCGCCTCTACCACCTGGGCCTCCCCAG
CCACGGTGAGGACCCACCCTGGCATGATCCCCCTCATCACCTCCCCAGCCACGGTGAGGACCCACCCTGGCATGATCTCCCCTCATCACCTCCCCAGCCA
CATGTACTCGGCCATTCCTGTTGCTGAGGCCCTGCTGACACCAAGGCCAGGCTGGATGCAGGTCCCTCTGCCACACGTCCTGCCCCATGCCCCCTGGGGC
GGGCCACACCTCCATGTCCCCTAGGTCCCCAGGGTCATGACTAGCTCACATTTTATATAGAGAGAAATGGAGTCTGGGGTGGACCCAGGTGAGGGTGGGC
AGTGGGCATGTCAGCAGCACCCCCCGAGGAGAGCAAGCTCCTGGACCCTGTGGTCTGTGAGTCGTCTATGCAGCCAGACGCCTGCCCCAGGAGCCTGGGG
AGGGGCAGTGAGCAGAAAGGCCGGGCTGGGTGCAGTGGGCACTTGGCCACCAGGACTCCCCAGGTGCTGAAGAGACGCCAGCTGGAGGGGCTGCCCCTTC
CCCCGGGTCGGCCCTGACCCTGTCCACCCCACCTCAGGACGTTCTCCAGGGGTCCCTCCGGGATGCACTCGGACCCCCTGCCCGCTGCACTCAGCCTCCC
AGGCCCCAGCCGCCCGCCTGGCAGGGGAGATTGGCTTTCGGGCTAGAGGTGGGTGGGGGCGCCGGGAAAGGAGGCAGGATTCCTCACANNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNTCTGGGCACAAGATGGCTCGGAAGACGAGCCCCCCAAAGACTCGGACGGAGAGGACCCCGAGACGGCAGCTGTTGGGTGCAG
GGGGCCCACTCCGGGCCAAGCTCCAGCTGGAGGGGCCGGCGCCGAGGGGAAGGGGCTTTTCCCAGGGTCCACACTGCCCCTGGGCTTCCCTTATGCCGTC
AGCCCCTACTTCCACACAGGTGGGCACCCCCACACTCTAGATCCTTCCAGAGGGCACAGGACTGGCAGGCCGCCTGTGGAAGGGTCTTGGGGGGAGGAAA
AATTCCCCTTAGGCACCCATCCCCCACCTCAGCAATTGGGGCACACGACGGTCAGGAGACGGGCGGGTATGGGAAAGCCAGCCAGAGCCCTAGTAACACG
CCCCACAACTCAGGCGCGGTAGGGGGACTCTCCATGGATGGGGAGGAGGCCCCAGCCCCTGAGGACGTCACCAAGTGGACCGTGGATGACGTCTGCAGCT
TCGTGGGGGGCCTGTCTGGCTGTGGAGAGTACACTCGGGTAAGGGGGGGCCCCAGTTCCTGGGGCGGGGCTGGAGCTGGCTGGCAGTCACTACCTCCCTG
GAAAGGATGGTGGGGTAGGGCCATTCCCCAACGCCCTCTCCCTCCCCAAAAGCAGTGCGCAGCAGGGACTGGACTGTGCACCCCACCTTTTTTTTTTTTT
TTTTTTGCCAGGTGTTTTCTGCCTGACACTCAAACCCAACAGATCACTGTTTTTAAAAAATTTCCGTGAGCTGCACAAACAGCTCCTCTTGGCTCTGCTG
GGCTGGAGGATGGAGCAGCACCCGGGTCCTGACCCTCCCTCCCTCCCCCTTCCAGGTCTTCAGGGAGCAGGGGATCGACGGGGAGACCCTGCCACTGCTG
ACGGAGGAGCACCTGCTGACCAACATGGGGCTGAAGCTGGGGCCCGCCCTCAAGATCCGGGCCCAGGTGAGACGCTGGGGAGTGAGGTCAGGGTCTCCAG
ACCACAGCTGGGCAGAAAGCTCTGGGTGGGTGTGCGACAGCCCCCACCAGGCCATCTCTCTGCAGGTGGCCAGGCGCCTGGGCCGAGTTTTCTACGTGGC
CAGCTTCCCCGTGGCTCTGCCACTGCAGCCACCAACCCTGCGGGCCCCGGAGCGAGAACTCGGCACAGGAGAGCAGCCCTTGTCCCCCACRACGGCCACG
TCCCCCTATGGAGGGGGCCACGCCCTTGCCGGTCAAACTTCACCCAAGCAGGAGAATGGGACCTTGGCTCTACTTCCAGGGGCCCCCGACCCTTCCCAGC
CTCTGTGTTGAGGTTGCCGGGGGTAGGGGTGGGGCCACACAAATCTCCAGGAGYCAYCACTCAACACAATGGCCCTGCCTCCCACCGCTTTATTTYTTTC
GGTTTCGGATGCAAAACAAAAAATTTTAAAAGAAAATGTGACTTCAAAGGAAARGAACAAATTTYCAAAGACTTGGGGGAGTGAAGGCAGAGCCTGGTGC
ARATGGACGAGGTCTGCAGACGGAGGGCARAGGTGGTGGAAGGGGCCAGGGGCCTGCAGGCCTCCCCCTGGAACTGGGACTGGTCTCGGTCTGCTGACGT
CAGGGTCAGCTCCCCCGCGGAGCTGACTTCAGCAGCCCACAGCTGTGGGGCTTCAGCAGCCACACCAGCCCAGCCCAGCCCAGCTCTCGATACGTTTGGT
CTTTCATGCTGAAAAATAAATAATAAAGCCTGTCCCGTGTCTACTGCCTCCCCCAACTGCACAGACGCCAGCCTCTAGGCCTGACTGCCAGGGAGGTGGA
AACACTGGCCACCAGCCCGGCAGCCCCTACAGGCCCCCCAGATGGGCTGCCTCAGTCGTCCTCTGAGAGCTGCAGATCCTCCAGCTCGTCCTCCGGCCCC
TGGGCCAGCTGCTGCAGCTCCCCAGGGGCCAGCCCCGCCTCTGCGTCTGGGTCTCCATCTGCGGGGAGAGATGGAGGCTACATAAATTTTGCTTTATCAG
GAAGAAGCCAGCCTTRGAGGTTACTCATCACTAATTAATCACGGCACTAATTAATTTATCCCTGTTGCTGGCTGCCAGAGAACAGAGCATTTGGCCTGGC
CTTCCCAGGGAGGGAAAAGCCTGGCCCAGAGCCCCACGCCCCCCGCCCACGTGGCTCTGCCCTCCCGMCAGATGGGCTCACAGGGCCACACCCTCTCACC
CCAAGACCATTCACCCTCCGAGTTGCTGCTGTCCTCCTCGCCCTCCTCCTCGTCCTCTTCATCGTCTTCCACCCCATGCCGAGTGCTCAGGGGCCTCAGT
ATCCCTGAGGAACAAGAAGCAGAGTCCATATGACTCCCACCCACAGGGTCCACCAGCAAAGTCACAGTGGGGGCAGGAGGGTGGCCAGGCTCCCAACACC
CTTCCCTCCGCTGACTTCCAGCAGGTGGAGAGGAGCCCTGGGGAGGAACTGGGAGGTCACAGGCCTGGGGACAGAGTTACCAATCCCAGTAGGCCTTCAC
TTCAAGGAGGGAAGGCGCTGGCACCAGAAGCCTGGCAACACTGAGGTTGGCCCCAGCTGGGCCAGAGACTGGTGAGCCCCCTGCAGGATGGGTACAGGTG
GCCCTCGTGGCTCTGGGAAGTCCAGCAGAGCCCTCCAGGCCCACCCTTCCCCTGGGAGCACCACGCAGGCCCCACCTCTCTCCGAGAATCCCTCGGTGTC
GTCCTCTTCAGAGCTGTTCAGGTCAAAGAGGTCTTTAAATTGCTTCCTGTCCTCATCCTTCCTGTCAGCCATCTTCCTTCGTTTGATCTCAGGGAAGTTC
AGGTCTTCCAGCTGGAAGGCCAAAGAACCAGGGGCTCAGGTGAGAGARGGCAGGGGCTGGCGGCCACAGCAGGGCCAGGCATCGCCAGACCCACCACCAG
GGCCCCATGTGGCCAATTTCTAGTCCCCTCTGTTCCCAAATCACAAAGCCATCCTCCAAGTTGTCCATCCCATGTCCAAGGTCAAAGGCAGAGCCCTTCC
TGCTTCTCCTCACGGGCCCCTGGTGCCCACATACTGGCCTGGGTGACGAGGTCAGTCCAGCCACTCCACCTGCCCGGAGCCTCCAGCCCATCAGGCCTGA
GGGGGCATGGCCTCCCCAACCTAGTGCAGCCTGGGGCTTCCCCTCCCTGGAAACGCCTGGTTCTGGCCAGTTCTCCAACACCTACCCCCTCTCCAAGTCG
AATCATCCGGGCACGGCCCTGGCCGCCTGGCACTGTTTCCAAACCCTCGCCCTGGTCTCAAGTCATAGTGCGCTAGATCTGAAACCCAGGAAGTCACAAC
ACACCCCCAGGTCCCCTCGCCGAGCCGCACCCGCTCTTTGCCACTGATCTCCAGCTGGATCTCCCGGTCACGCAGCTTGCGCCAGTGGCTGTAGTACAAG
GTCARGGGTGTCCCCTCTTCCCGGGTCAGCTTCTCCCAGGCTTCCTGGGGGGTTGGGGGAGTTCAGGGTCATGCCTCACCCTGGGCAAACCCCCACATGT
AGCTGGGGCTATACCCTGGCAGGTGCCCTCAGGTGGCACTACCCCCAGGGCCCACTAACCACTGCCTGCTGCTCAGAGACGCCGAAGGAAACCCTCTGGC
GGCGGCTGCAGATGTATGCCGAGTTCTCCTGAACCTTCCCAAGCAGCTGCTGCACCTGCCGGCAGTAGTTGGCCACCTTGCACTCCCGGAGGAACRACTT
CAGCTGCGGAAGGGAGGGGTCAGCCACTGAAGCCCAGGACCGCTCCATGTGCACAGCTGGCCCAGGTCCTGTGCAAAACCACGCGTGGTGGCCACGGGGA
TACCCCAGGAGGGGACATGGATCCCATCTCAGGGCTCAAGTGCATAGCTGTTGCAGCTGGGATGGCAGAGGCAGAATCAGCCCACCCTCTGGGCCAACCC
TGCCCACTACTCACCTCTGGAAATAAAGTTTTATGCCAGGCGTGGTGGCTCTCGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTG
AGGTCAGGAGTTCAAGACCAGCCTGGCCAACGTGGCAAAACCCCGTCTCTACTAAAATACCAAAATTAGCTGGGTGTGGTGGTGGGCGCCTGTAAACCCA
GCTCCTTGGGAGGCTGAGGCTGGAGAATCGCTTGAGCCCAGGAGATGGAGATTGCAGTGAGCCGAGATCGCACCATTGCACTCCAGCCTGGGCAACACAG
CGAGACTCCATCTCAAACAATACTACTACTACTAATAAAATACAGTCTCGCTGACGTGCAGCCACACGTGTGCATTGCATGGTTCTGCAGTTGCCTGTGC
AGCTGAACATCCGTAGGAAGCCACGTTTACCATTTGGCCCCTCACCAAAAACATTTTCTGACCCCTACCCCAGACCCCGACCCTGGGCCCTTGAGTCCAG
AAGCAGAGATGCCCCAATGCCAGGTATCACCACCCAAGAGGACATGGGAGGAACAGAGGCTGTGGCCCCTGCTGTGAGTGCCCCCCAGAAAGGGGGTCCC
GGCTCTGTGCATGTGACATGTGTGGCCGTGTGTGAGTACACACACATGCACACACCTCTATCTGGATAAGCCTCTGACCAGTTGTGGCTCATGTGAGCAG
ATCCCTCCTCCCCACACTGCACAGACCTATAGTCGGCACATCTGATTCCAGCCACCAGGGCCAGACAGCAGGGCCCCCACCCCTTCCACTAGGCACAGGC
CTCCCTGAGGCTGGAAACATCACGGCTGAGAGCAAACAGACCTCCCGTGGGGGCCCAGAAGGACCTTCTGAGGATAAGGAGAACCCCCTCCTCCACCCCA
CTCCTGCCTAAGATGAGGCTGACGTGGGGTATTTAGCGGGGCAGGCTGGGCCTTCCTATGAGGCTGATGTGGGGTATTTGGCGGGGCAGGCCAGGCCTTC
CTGCCACCTGAGAAGCCACTCCACCCACTCCCCACACCCGGGATGGCCTGGGGAAGTGTGCGATCAGCGTACCAGCCTGAGCCAGGGTCGGCATGCTCAG
TCCCAACCCCGAAGCAAAGATCAGCCTTGTGGTTCCCACCTGGGGAGGAGGCTGTTGTGCTCCCAGGGTCCTCAGCCCACTGCCCAGGCCTGCCCCCAAA
CCTCCTGAATGGCTTAGAACCCCTCATCAGCCCCTCCAAGGGGGCCTCACGGGGCGCGTTGCCAGCAGTCAGGTTCCACCCCAGTCCCAGGTACCCGGGA
CAAGGGCACCTCCTACCAGCCTGGGGCAGCCAAGCCCGTTATAAGACAGTCTGAGTCGGCCACGAGCCGGTGTGGGCAGGACACACACCTGCAGGACCAC
AGGCAGCACCAGCTCCGGGAAGCCGATGCAGTGTGCCTGGCTGTGCAGGTACTCCAGGGTGAGGTCGTACAGCTGCTCCACCAGGCCGTCCTGAAGAGCA
GGAGAGAGGGCCGAGTGCATCAGGGAGAGGCTGGGGCTGGGCACTCAGGCCCCTTCCCCTCAGGCTGTCAGGGCAGCGCCATCTCCAGGGCACGGACTGC
AAGGAAGGGGCTCCTGGGCCCCAGCCCTGGGAGACCATGAAGGTCCATGCTTGAACTTGGAGGATGCCAGCCCCCTCCCATCCACCTCAGCACCCCCAAC
CCCACCCTGGGAACTGCCCAGGCCCCTCCCCAGGAGGCCAGCCTCACCCGGTACGCCTTCTCCTGCAGGTTGACATTGGACAGCTTCAGGATCACGGAGA
AGTTGATGGGCTTGGAGCTCATGCGCCCTGGCTTCCTGTTGAAGTCGACCTGCTGGAACATCTGCCCCAAGGGCCGTGTCAGGCTCTCTCGGCCCCATGC
CTGGTCACCCTGGCTTCACCCTGGCTGCACCCTGGTCCCCCTGGTCCCTTTGGCCCTGCACCTGGCTGSACCCTGGTCMCCCTGGTCCTCAGGCTTCAGC
ACGAGGAGACCCAACCCGAAACAAGAGATAAGCAGCTAGGCACGGTCCCAGCCCCATGGCCCCACACAGCCTGGCGTGTCCCCGAGTGGGGCTCTGATCA
GCAGGGAAGGATCAGGAACACGGGCCCTCTCCCAAAATCCTGGGAAGCACTAAGGACCCACGTCTGGAGACCTAGAGGTCCCTGCCACACAGAGTACCAG
GACAGCCCCCATTCCTGACAACATGGCACTGAGGCCCATCCTGGCCCTCAGCACAGCAATGCCACATGGGGCTCCGTCCCGAGCAACCAGAAGACGCAGC
AGCAACAGCAAAGAAGAGTGCCAGACACAGGACGGGACAGATGGAGGTCACGGGAGGCCTGGGGGGCCCCTCCCACACCCTCCACAGAAGCCACAGGCCA
TGCACCTCCGTAGGACATGCCAGGAGGAGCAGAGAAAGAGTCAGCCTGGCCTCTCAGTCTTGTGACCCCTCCCCAACCACTAGGAGCCCTCAGGCTGTGA
ACCAGAGAGATCCAGGGTACATGCTGGGGCACCAGAGGACAGAAGCAGATTATGGGGGGCCCAAGGGTGGAGGCCCCAGCAAGACACCCCACTCAGCAGG
GGTGGCTGCCAGACAGCTGAGCTCAGGTCCAGATGGGAAAACGCCCTGGTACTGATGAACCTCTGGGAGGACACTGCCCTTCTCTAGCCTGGGCCGAAAG
TATGGGCAGGCGACTGGCTTCCTGTCCAGGCACCGGGGAAGGGCAGGCACGGCCTACAGCTGAGGGCTTTGTTTTAGCTTTTAGGGTTTGCTTTTTCCGG
AGAGGAGAGGCCTGCATCCCTGCGTGAGAGGGGCCTACAGGGTGCGGCTGCAGTGAACCAGGGCAGTGCACAAGTGAAGAAACAGACACTGCAAGAGAGT
AAGAAAGCACGTAGCCAAGGAGATTGGACAAGGGAAACAGACACAAAGCATGCCTGGAGCTGGGCAGCAGAGCTGGAGGCCCACAGACACAGGGGCCAGG
CCAAGGGCTGGGCAATCAGAGACCACTGCTGGCTGCCATGGGAGTGAACATGGCTTCCTAAAGATGTTCAGCATCCCTGCCTCAGTGGAAGGGGAATCAG
AACGTGCCTGGGGCTTCCATACCTTCTGGACCCAGCAACCTGGGGACCCAGCCCCAAGGACAGCTGTGACACGACTCTGGGCCTTCATGAGGCTGAGAAC
TCATTAGATAAACAGGGTGGAGATCGTGAATTCCTAAATTTACAGCGGGGTGGGGCCTAACCCACCCACTGAAAGTTGAAACTTCGGACTCCAATCTTTC
CCTACCTGAGTGGCATGTGCACGTGCAAAGATGCATACACACAGGTACACACAGGCGCACACATGCACAGGCACACACGTAGACGCACGTACATGCACAC
AGGTGCACACACGCACAGGCACACACAAGCAGACGTGCATGCATGCACCCAAGTGTACAGGTACACGCACAGGTACACACGCACAGTACACACATGCAGA
TGCAAATGCATGCACACAAGTGCACACAGACACGTGTGTATGCACATAGGTGCACAAAGGTACATAGATACACGCAGACGCACATGCATGCACACAGATG
CACACATGCAAAGGTTCATGCATGCACAGGTAGACACATGCAGACGCAAATGCATGCACACAGGTGCACACACGCACAGGTACACACATGCAGACAGGTG
CACACAGGTACACACGCATGTGCATGCATACAGGTACACACAGGTACACACTGGTATACAAAGACACATGCACAGGTGCACACACGCAAAGGTACACGCA
AAGGTACACACATGCATACACACAGGTGTACACACGCA


SNP Information

Context             (SEQ ID NO:32070):
CCCCTTTGAGGCAGGGAGTGAGATAACTGTGATTCCCTGTGGAGGGCGTGAAGGCAGAGCCGGCTGGCTGCTCCACACAGACCCTCCCTGGAGCAGCCGT
R
GGGTCCCAGGTCCCAGTGCCAGGTTCTGTGTCGCTTTGACTCGGGTGCTGCGTGGGTGTGCACACAGTGGCGTCACGGGCCACATGCCGAGGCGTGGGCA
Celera SNP ID:            hCV27852490
SNP Position Genomic:     13903
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,39)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:32071):
GAATTCCAGAGAGGCAGCCTGGAGATTGGCCTGCGACCCGCCGGTGAGGAGCACAGGGGGCCTGAGGGCGGGGTCGGGGCTGTGGGGCCAGAGGACGGTG
K
CGTCTCCACTCAGCACCAGCAGCCTTGGCAGGCAGCCAGAGAGGCAGGAGGAGCGGCCTGTCCCCCAGGGGCTGCATGGGATGGTAATTGTGTTAATCCC
Celera SNP ID:            hCV11610714
SNP Position Genomic:     14311
SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,3)   caucasian(G,3|T,1)   total(G,12|T,4)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(C,4|A,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32072):
AGCTCCCCAGGGGCCAGCCCCGCCTCTGCGTCTGGGTCTCCATCTGCGGGGAGAGATGGAGGCTACATAAATTTTGCTTTATCAGGAAGAAGCCAGCCTT
R
GAGGTTACTCATCACTAATTAATCACGGCACTAATTAATTTATCCCTGTTGCTGGCTGCCAGAGAACAGAGCATTTGGCCTGGCCTTCCCAGGGAGGGAA
Celera SNP ID:            hCV25612520
SNP Position Genomic:     22616
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,4|G,34)   total(A,5|G,71)   
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,2|G,22)   total(A,2|G,54)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:32073):
CTGGCTGCCAGAGAACAGAGCATTTGGCCTGGCCTTCCCAGGGAGGGAAAAGCCTGGCCCAGAGCCCCACGCCCCCCGCCCACGTGGCTCTGCCCTCCCG
M
CAGATGGGCTCACAGGGCCACACCCTCTCACCCCAAGACCATTCACCCTCCGAGTTGCTGCTGTCCTCCTCGCCCTCCTCCTCGTCCTCTTCATCGTCTT
Celera SNP ID:            hCV25612521
SNP Position Genomic:     22768
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,31)   caucasian(C,36)   total(A,5|C,67)   
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,31)   caucasian(C,40)   total(A,7|C,71)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32074):
GTGGCCATGGGAGGGTCTGTCTGTGCTGTGTGTGTGTCCTGCGCGCGTCGGGAGCTGCTGCGCCACACACAGGCACGCAGGGTGTGGGCACACCTGTGCT
K
CTGAGCCCACGTGCCCTTGCCGGTGGCCAGGCACACACACAGCTGTGCATCCTTGGCCCAAGATCAGCTGTGCCACACCTGCAGGCTGCAGGATCTTTTC
Celera SNP ID:            hCV11610681
SNP Position Genomic:     663
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:32075):
GAATGGGACCTTGGCTCTACTTCCAGGGGCCCCCGACCCTTCCCAGCCTCTGTGTTGAGGTTGCCGGGGGTAGGGGTGGGGCCACACAAATCTCCAGGAG
Y
CACCACTCAACACAATGGCCCTGCCTCCCACCGCTTTATTTCTTTCGGTTTCGGATGCAAAACAAAAAATTTTAAAAGAAAATGTGACTTCAAAGGAAAA
Celera SNP ID:            hCV25612508
SNP Position Genomic:     21954
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,36)   total(C,69|T,3)
SNP Type:                 UTR 3


Context             (SEQ ID NO:32076):
GGAGGGTCTGTCTGTGCTGTGTGTGTGTCCTGCGCGCGTCGGGAGCTGCTGCGCCACACACAGGCACGCAGGGTGTGGGCACACCTGTGCTTCTGAGCCC
R
CGTGCCCTTGCCGGTGGCCAGGCACACACACAGCTGTGCATCCTTGGCCCAAGATCAGCTGTGCCACACCTGCAGGCTGCAGGATCTTTTCTGTATATCT
Celera SNP ID:            hCV11610682
SNP Position Genomic:     672
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:32077):
GGGGAAGCGGCTTTACCTCGTGCTCTCCCAGCCCTTCTACCTGGACGGGGGAGGAGTCCTCGGGCACCCGAGCGCCCTCCCCGGTGGAGACAGGGGGGCC
R
CGCTTGTCTTAGAGCCTCCCCTTGGGTGCCTTTTAGCTGCTTATCCTCGAGTCCTGGGTCAGGGTCTTCTCCCTGGGAGGAGTAATTCAACGTGGGCCTG
Celera SNP ID:            hCV16078749
SNP Position Genomic:     6509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32078):
TGGGACCTTGGCTCTACTTCCAGGGGCCCCCGACCCTTCCCAGCCTCTGTGTTGAGGTTGCCGGGGGTAGGGGTGGGGCCACACAAATCTCCAGGAGCCA
Y
CACTCAACACAATGGCCCTGCCTCCCACCGCTTTATTTCTTTCGGTTTCGGATGCAAAACAAAAAATTTTAAAAGAAAATGTGACTTCAAAGGAAAAGAA
Celera SNP ID:            hCV25612509
SNP Position Genomic:     21957
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:32079):
TCCGACAGTGCTTCCGTGAGCATCTCCTCCCCACCCCGTGGCCACAGCCAGGAGATGCCCCCCCACCTGGGGCTCCCAGGTCCCTGCCCTGCGTGAGGGA
Y
GGCTCAGATCCAGGCCTGCCTCTGCCAGTCCCTCCCAGGCCTGTCCCACACCCTTCCCCTAGGAAGCAACTCCAGGGGCCCCTTCTTTCCAGCCCCCATG
Celera SNP ID:            hCV26031090
SNP Position Genomic:     7745
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32080):
CTGGCGGCGGCTGCAGATGTATGCCGAGTTCTCCTGAACCTTCCCAAGCAGCTGCTGCACCTGCCGGCAGTAGTTGGCCACCTTGCACTCCCGGAGGAAC
R
ACTTCAGCTGCGGAAGGGAGGGGTCAGCCACTGAAGCCCAGGACCGCTCCATGTGCACAGCTGGCCCAGGTCCTGTGCAAAACCACGCGTGGTGGCCACG
Celera SNP ID:            hCV25612561
SNP Position Genomic:     24296
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,1|G,37)   total(A,2|G,72)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32081):
GTTGAAGGGACCCCCGAGCTCCAGCTGACACGCGGAGGCCCGGGCACAGACAGGCATCATACCTTCGGCCTTGGCCGCACTCTGTGGTCATTGGTGTTGG
S
GGCAGCCCAGGGTCAGGGCAGGGTCTCAGCCTCGGACCCCAGGCCCCACCCCTTGCCCAGCAGTGCTGCGTTTTCCCAGTGAGCTGTCGTGGAGAGAGCA
Celera SNP ID:            hCV11447400
SNP Position Genomic:     8881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32082):
TGTTTCAGCCTGTCCCTGGGTCCTTCTGCCTCTGCAGGCTCCCACAGAACACACTGCCAGGCCACCTCCATCTGTGTGTTCATTTGCTCCCGTCCAGTGG
Y
CTCCACCCATCTGTCCGTCTGTCCTTCCATCCCCTTCGCCCTGTCTGGCTGGCTCTGCAGTGACCACCTGCCTTTTGGAGCCAGCGGAGCCCCAGGCCGT
Celera SNP ID:            hCV11447401
SNP Position Genomic:     12971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32083):
AGAAAAAGGAATTAGGCCTGGAGCTGACGGCAGGGCTTGTGGGGGGACGGGCTTGGGAGCCCCACTGCCTAGGCCTCATGGAGGTCTTGGGTCACAGGGG
R
GTGGCCCCTCACTCCACCCAGCTAGAGCCCTCATGAGGATGAGGAAGGGCCAGAGTCGGAGGCACTGGCTGGCCTGGGAGACCCCCAGGGCGTGGAGTCA
Celera SNP ID:            hCV11447135
SNP Position Genomic:     16407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32084):
GGGTCCTTCTGCCTCTGCAGGCTCCCACAGAACACACTGCCAGGCCACCTCCATCTGTGTGTTCATTTGCTCCCGTCCAGTGGTCTCCACCCATCTGTCC
R
TCTGTCCTTCCATCCCCTTCGCCCTGTCTGGCTGGCTCTGCAGTGACCACCTGCCTTTTGGAGCCAGCGGAGCCCCAGGCCGTCCTCCTCTGCCTCAGGA
Celera SNP ID:            hCV11447402
SNP Position Genomic:     12988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32085):
ACTGGCTGGCCTGGGAGACCCCCAGGGCGTGGAGTCAGGGGCTTCGGAGGAGCTCGGGGTGGGTCGGAGATGGGTACATGGATGGTGTGGTCTGGAATGG
K
TGCGGTCGGCAGGACCCAAGGGAGGACCTCAGGAGAGTGAGCTGGGCCTGGCCTGGGCCTCCCCTCTGCCACCTGCTGGGCTGTGTTTGGGGCTGAAGCT
Celera SNP ID:            hCV11447136
SNP Position Genomic:     16571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32086):
TGATTGAGATATTCTGAGCCAGCAGGCCCTCCCCTGTGCCTTCACACAGGGAGACCTCCTCAGGTACACGCGTGTGCGTGTGCCGGCATGTCTGTGTCTG
S
GGTCCTGTGGGGTGCACGTGATGGGGGTTGCCCGGCAGCTCTCACCCATGGAGTCAGGACGTGTTCGTGCACTTCCGGGCTCACAGGCTCTACGGGGCCT
Celera SNP ID:            hCV11447404
SNP Position Genomic:     15367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32087):
GTCTGCGAGGGTTCAGCTCAGACAGTTGCCAGTGGCCTTGCACCAGGCTGCAGCTGCCCCTGAGCCGGGCTGTGCGTGGCGCTGATGAAATAGAAAAGGG
S
ATTCGCTTGTCAACGTTGGCATCAGTGGCAGGGTGTGGTGGGCAGAAGGGTCACAAAGTACGGGTGGGATTGGCAGGCAGATACACGGAGGGAACGTGCG
Celera SNP ID:            hCV27464807
SNP Position Genomic:     9793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32088):
GACTGCCCCTGAGCAGATCGGCCTCTTCCCGGGCGCCCGGTGGGCCCCTCGACCCCCTTTGAGGCAGGGAGTGAGATAACTGTGATTCCCTGTGGAGGGC
R
TGAAGGCAGAGCCGGCTGGCTGCTCCACACAGACCCTCCCTGGAGCAGCCGTGGGGTCCCAGGTCCCAGTGCCAGGTTCTGTGTCGCTTTGACTCGGGTG
Celera SNP ID:            hCV27836895
SNP Position Genomic:     13850
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,39)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:32089):
GTTGCCAGTGGCCTTGCACCAGGCTGCAGCTGCCCCTGAGCCGGGCTGTGCGTGGCGCTGATGAAATAGAAAAGGGCATTCGCTTGTCAACGTTGGCATC
R
GTGGCAGGGTGTGGTGGGCAGAAGGGTCACAAAGTACGGGTGGGATTGGCAGGCAGATACACGGAGGGAACGTGCGCATTTGAGTGCACGTCCACCAGCA
Celera SNP ID:            hCV15991097
SNP Position Genomic:     9817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32090):
GTTTCGGATGCAAAACAAAAAATTTTAAAAGAAAATGTGACTTCAAAGGAAAAGAACAAATTTCCAAAGACTTGGGGGAGTGAAGGCAGAGCCTGGTGCA
R
ATGGACGAGGTCTGCAGACGGAGGGCAGAGGTGGTGGAAGGGGCCAGGGGCCTGCAGGCCTCCCCCTGGAACTGGGACTGGTCTCGGTCTGCTGACGTCA
Celera SNP ID:            hCV27470253
SNP Position Genomic:     22102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:32091):
AAGGGCCGTGTCAGGCTCTCTCGGCCCCATGCCTGGTCACCCTGGCTTCACCCTGGCTGCACCCTGGTCCCCCTGGTCCCTTTGGCCCTGCACCTGGCTG
S
ACCCTGGTCACCCTGGTCCTCAGGCTTCAGCACGAGGAGACCCAACCCGAAACAAGAGATAAGCAGCTAGGCACGGTCCCAGCCCCATGGCCCCACACAG
Celera SNP ID:            hCV26072050
SNP Position Genomic:     26469
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32092):
TCAGGCTCTCTCGGCCCCATGCCTGGTCACCCTGGCTTCACCCTGGCTGCACCCTGGTCCCCCTGGTCCCTTTGGCCCTGCACCTGGCTGCACCCTGGTC
M
CCCTGGTCCTCAGGCTTCAGCACGAGGAGACCCAACCCGAAACAAGAGATAAGCAGCTAGGCACGGTCCCAGCCCCATGGCCCCACACAGCCTGGCGTGT
Celera SNP ID:            hCV28031522
SNP Position Genomic:     26479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32093):
AAGAAAATGTGACTTCAAAGGAAAAGAACAAATTTCCAAAGACTTGGGGGAGTGAAGGCAGAGCCTGGTGCAGATGGACGAGGTCTGCAGACGGAGGGCA
R
AGGTGGTGGAAGGGGCCAGGGGCCTGCAGGCCTCCCCCTGGAACTGGGACTGGTCTCGGTCTGCTGACGTCAGGGTCAGCTCCCCCGCGGAGCTGACTTC
Celera SNP ID:            hCV26072051
SNP Position Genomic:     22130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:32094):
GCCCACGGGGTCAGCTTTTCCCGGTCTCGTTCTGCAGCCAGGACGGCAACCTTCCCACCCTCATATCCAGCGTCCACCGCAGCCGCCACCTCGTTATGCC
S
GAGCATCAGAGCCGCTGTGAATTCCAGAGAGGCAGCCTGGAGATTGGCCTGCGACCCGCCGGTGAGGAGCACAGGGGGCCTGAGGGCGGGGTCGGGGCTG
Celera SNP ID:            hCV11610708
SNP Position Genomic:     14192
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32095):
CTCAATAAATGGTTGATTGATTGATGAGGGGATGGATGAGAAGGGCTCTAAGAGAAATGCTGGGGAGCCTGGGCAGGCACTCCCGGATGGCGGAGGCGGC
R
TGCGGGCTGGGGCAGCGGCCCCTGGCGCCCCCACACTCCCCCAGGACGTCTGGGGTCACCGTCTGCTCCATGGCAGCCCCAGGGTTATTTATGACCTCCT
Celera SNP ID:            hCV201545
SNP Position Genomic:     1040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:32096):
AACGCACGCACTCCCGCAGCGCACGCATGACTGGTCCCGCCTCCTAGGGCTCCTGGACGGAAGGGGTCCCCGGTCCCGCCTCCTAGGGCTCCTGGACGGA
R
GGGGTCCCCGGTCCCGCCTCCTAGGGCTCCTGGACGGAAGGGGTCCCCGTCCCGCCTCCTAGGGCTCCTGGACGGAAGGGGTCCCCGGTCCCGCCTCCTA
Celera SNP ID:            hCV26822551
SNP Position Genomic:     14660
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32097):
AAAAATGAGGCTGTCACCTCCCCCTTCCCACCCTCCTAGAGACCCACAAGGAGGTGAGAATGCTGATGTGTGAGTGGGGCCCTGAAGGGTGTGTAGGAGC
Y
CTAAGGCGAGGGGATGTCTGCAGAGTGGAGGAACAGGGAAGGGCGTGTAGGAGGGACGAGGAGTGAACCTGGCAGCTCTGGTTCAGTTGGATGCTGAAGA
Celera SNP ID:            hCV16079288
SNP Position Genomic:     11772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32098):
GAAATCGGGGGTCAGGGGATGGTTCACATGTGGCACATTCTCTCCTGGGGCCTGTCCTGCAGGACTGCCCCTGAGCAGATCGGCCTCTTCCCGGGCGCCC
R
GTGGGCCCCTCGACCCCCTTTGAGGCAGGGAGTGAGATAACTGTGATTCCCTGTGGAGGGCGTGAAGGCAGAGCCGGCTGGCTGCTCCACACAGACCCTC
Celera SNP ID:            hCV27846551
SNP Position Genomic:     13788
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,7)   caucasian(G,36)   total(A,1|G,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:32099):
TGTCCTCATCCTTCCTGTCAGCCATCTTCCTTCGTTTGATCTCAGGGAAGTTCAGGTCTTCCAGCTGGAAGGCCAAAGAACCAGGGGCTCAGGTGAGAGA
R
GGCAGGGGCTGGCGGCCACAGCAGGGCCAGGCATCGCCAGACCCACCACCAGGGCCCCATGTGGCCAATTTCTAGTCCCCTCTGTTCCCAAATCACAAAG
Celera SNP ID:            hCV25612531
SNP Position Genomic:     23448
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32100):
CCAGCCTCTGTGTTGAGGTTGCCGGGGGTAGGGGTGGGGCCACACAAATCTCCAGGAGCCACCACTCAACACAATGGCCCTGCCTCCCACCGCTTTATTT
Y
TTTCGGTTTCGGATGCAAAACAAAAAATTTTAAAAGAAAATGTGACTTCAAAGGAAAAGAACAAATTTCCAAAGACTTGGGGGAGTGAAGGCAGAGCCTG
Celera SNP ID:            hCV11447012
SNP Position Genomic:     21996
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,36)   total(C,70|T,2)
SNP Type:                 UTR 3


Context             (SEQ ID NO:32101):
CCACCACTCAACACAATGGCCCTGCCTCCCACCGCTTTATTTCTTTCGGTTTCGGATGCAAAACAAAAAATTTTAAAAGAAAATGTGACTTCAAAGGAAA
R
GAACAAATTTCCAAAGACTTGGGGGAGTGAAGGCAGAGCCTGGTGCAGATGGACGAGGTCTGCAGACGGAGGGCAGAGGTGGTGGAAGGGGCCAGGGGCC
Celera SNP ID:            hCV25612519
SNP Position Genomic:     22054
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,32|G,4)   total(A,66|G,6)
SNP Type:                 UTR 3


Context             (SEQ ID NO:32102):
CACAATGGCCCTGCCTCCCACCGCTTTATTTCTTTCGGTTTCGGATGCAAAACAAAAAATTTTAAAAGAAAATGTGACTTCAAAGGAAAAGAACAAATTT
Y
CAAAGACTTGGGGGAGTGAAGGCAGAGCCTGGTGCAGATGGACGAGGTCTGCAGACGGAGGGCAGAGGTGGTGGAAGGGGCCAGGGGCCTGCAGGCCTCC
Celera SNP ID:            hCV11447016
SNP Position Genomic:     22065
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,32|T,4)   total(C,67|T,5)
SNP Type:                 UTR 3

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:32103):
CCACCCTCCTAGAGACCCACAAGGAGGTGAGAATGCTGATGTGTGAGTGGGGCCCTGAAGGGTGTGTAGGAGCTCTAAGGCGAGGGGATGTCTGCAGAGT
R
GAGGAACAGGGAAGGGCGTGTAGGAGGGACGAGGAGTGAACCTGGCAGCTCTGGTTCAGTTGGATGCTGAAGAGTCATGGATGCTGGGCCTGTGGGCACC
Celera SNP ID:            hCV16206205
SNP Position Genomic:     11799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32104):
CCTCATGGTCACAGATGCTCCGGGGCAGAATATGAGTGTGTATGTGCCTTGGGGACCCTGCACAGGGGCCCTGCAGGCCAAGCACCTTCCAAGAGGAGGT
M
CTGTCAGGGGCCGAGTTTTCAGATCTGTGTGCTGTGGCCGAGGTCTCTAGTGTGGAGGAGGTGTGTTCTGTCCTTGGGCAGGGTGGGTGGCAGGGAAGCT
Celera SNP ID:            hCV27986599
SNP Position Genomic:     8003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32105):
CATCTTTAAACTTATTTCTACCTCATTTTGGGGTTGCCAGCTCACCTGATCATTTTTATGAACTGTCATGAACACTGATGACATTTTATGAGCCTTTTAC
W
TGGGACACTACAGAATACATTTGTCAGCGAGGCCTGTAGGGAAACCCAGCCGCGGTCCCCCCGACCCCGCTCCAGTAACGGCTCCTCCTGCCTGCAGCCC
Celera SNP ID:            hCV16206206
SNP Position Genomic:     12463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32106):
TGCTCCTCGAGCCATTGTTTGCAGGCGGGGGCTTGGCCCCTCTCTCCTGGGCCCCTGAGCTGGTGGGAAAATGGGCAAGGGCTAGGCCGTGTGGTCATCA
M
TGAGGGGCGGTGGCGGGAGGCCCATGCGTGGGCAGCTGGGGTCACACCTGCCAGGCTCTGGCCTCCCCCTCCCCTTCTCCTTCCTGCGCCTCCTGCCCCA
Celera SNP ID:            hCV16206207
SNP Position Genomic:     13204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32107):
TCGTGTGCAGAAATCGGGGGTCAGGGGATGGTTCACATGTGGCACATTCTCTCCTGGGGCCTGTCCTGCAGGACTGCCCCTGAGCAGATCGGCCTCTTCC
Y
GGGCGCCCGGTGGGCCCCTCGACCCCCTTTGAGGCAGGGAGTGAGATAACTGTGATTCCCTGTGGAGGGCGTGAAGGCAGAGCCGGCTGGCTGCTCCACA
Celera SNP ID:            hCV27838739
SNP Position Genomic:     13779
SNP Source:               Applera
Population(Allele,Count): african american(C,10)   caucasian(C,33|T,1)   total(C,43|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:32108):
GCAGGGACCACAGCGGGCGTGTCTGTGCTCCCACCCGAGGCACCCACAGCTCCACACGCTCGTTCCGTGGGTGCAAAGGAGATGGGAGAAAGAAGCCCTG
W
GAGAAATGCGGGGCAGGGTTTGCGGAACGGAGGACCTGGGCTGGTGAGGGCTCCTCGTCTGGTGACCTGTGAGCCCCGGGGCCTGCAGTCTGCGAGGGTT
Celera SNP ID:            hCV15991085
SNP Position Genomic:     9605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32109):
CCCACCCGAGGCACCCACAGCTCCACACGCTCGTTCCGTGGGTGCAAAGGAGATGGGAGAAAGAAGCCCTGAGAGAAATGCGGGGCAGGGTTTGCGGAAC
R
GAGGACCTGGGCTGGTGAGGGCTCCTCGTCTGGTGACCTGTGAGCCCCGGGGCCTGCAGTCTGCGAGGGTTCAGCTCAGACAGTTGCCAGTGGCCTTGCA
Celera SNP ID:            hCV15991086
SNP Position Genomic:     9634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32110):
CACCCGAGGCACCCACAGCTCCACACGCTCGTTCCGTGGGTGCAAAGGAGATGGGAGAAAGAAGCCCTGAGAGAAATGCGGGGCAGGGTTTGCGGAACGG
R
GGACCTGGGCTGGTGAGGGCTCCTCGTCTGGTGACCTGTGAGCCCCGGGGCCTGCAGTCTGCGAGGGTTCAGCTCAGACAGTTGCCAGTGGCCTTGCACC
Celera SNP ID:            hCV15991087
SNP Position Genomic:     9636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32111):
TCTACGTGGCCAGCTTCCCCGTGGCTCTGCCACTGCAGCCACCAACCCTGCGGGCCCCGGAGCGAGAACTCGGCACAGGAGAGCAGCCCTTGTCCCCCAC
R
ACGGCCACGTCCCCCTATGGAGGGGGCCACGCCCTTGCCGGTCAAACTTCACCCAAGCAGGAGAATGGGACCTTGGCTCTACTTCCAGGGGCCCCCGACC
Celera SNP ID:            hCV25760128
SNP Position Genomic:     21791
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,19)   caucasian(G,20)   total(A,1|G,39)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32112):
CCCCAGGTCCCCTCGCCGAGCCGCACCCGCTCTTTGCCACTGATCTCCAGCTGGATCTCCCGGTCACGCAGCTTGCGCCAGTGGCTGTAGTACAAGGTCA
R
GGGTGTCCCCTCTTCCCGGGTCAGCTTCTCCCAGGCTTCCTGGGGGGTTGGGGGAGTTCAGGGTCATGCCTCACCCTGGGCAAACCCCCACATGTAGCTG
Celera SNP ID:            hCV11610156
SNP Position Genomic:     24005
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,22)   caucasian(A,10|G,6)   total(A,12|G,28)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,29)   caucasian(A,23|G,15)   total(A,30|G,44)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,9)      total(G,7|A,9) ;JBIC-allele(G,559|A,932)   total(G,559|A,932)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:32113):
GGGCGCCCGGTGGGCCCCTCGACCCCCTTTGAGGCAGGGAGTGAGATAACTGTGATTCCCTGTGGAGGGCGTGAAGGCAGAGCCGGCTGGCTGCTCCACA
Y
AGACCCTCCCTGGAGCAGCCGTGGGGTCCCAGGTCCCAGTGCCAGGTTCTGTGTCGCTTTGACTCGGGTGCTGCGTGGGTGTGCACACAGTGGCGTCACG
Celera SNP ID:            hCV27840677
SNP Position Genomic:     13880
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,40)   total(C,72|T,2)
SNP Type:                 INTRON


Gene Number:                 131
Celera Gene:                 hCG2038590 - 208000027041010
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W1V9(17281528..17327363)
Chromosome:                  Chr9
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12291):
CAGCTGGCTTCTTTGTTAATCGTCAACAAAGCTCATGACCCCAAACGCTGACGAAGCTCTAGCTGGGCATTGAAGGGCACACTGTGGTGGCTGAACTCAT
GTCTTTTGTGTCTGGGTTTTTTTTCTTTTTTTTTCTATTTTTATTTTTTGGGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCAACCT
TGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCACGCCTGGCTACT
TTTTGTATTTTTAGTACAGATGGGGTTTTTCCATGTTGGCCAGCCTGGTCTCAAACTCCCGACCTCAGGTGATCCACCGTCTCGGATCGGCCTCCCAACA
TGCTGGGACTATAGGCGTGAGCCACCACGCTCAGCCAGGTTTTGTTTTTTCTTTCACCACCTTAAGTGGTATTTGTTTATTTAAGGTAATTTAATTTTTT
TAAGTAAACCTTTTATTTTAGAATAATTTTTTGTAGGTGATTTTGACTTAAAAGGCTCCAGGGGTGGGGCTTAGAAATGCCCGGCCCACCTGGCTCATGA
GGGAAGCGTGGGTGGTCTCTCTGTTTGAGATTCGAACTGTGTCCTGCCAGAGATGGGCCGGCAATGGGGCTGGTTTTGGGGAGAAGTGGTCAGTTGCACA
GGTCTCCAATGAGCAGAATCAGACCAGGATTTCTACTTTGGTGCTTGCAAGAAAAGGAGGTGGCTGGGCGCCGTGGCTCACACCTGTAATCCCAGCACTT
TGGGAGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGTATTCAAGACCAGCCTGGGCAACATCGTGAGACCCCGTCTGTACAAAATATTTTAAAACTAGCT
GGGCGTGGTGGCATGTACCTGTGGTCCCAGCTACTCAAGAGGCTGAAGAAGGAGAATCCCTTAAGCCCAGGAGGTCAAGGCTTCAGTGAGCCGTGATCAC
ACCACTGCACTCCAGCCTGAGTGACAGATCAAGACTATCTCAAAAAAAGAAAAAAAAAAAAAAAAGAAGGAGGCCTCTTGCAGATCCAGGAGTGCAACTC
TTACTGAACACTGTTAGTTCCTATTAGAAACCTCTGGACAGACCCCTTAACCTGGCCACTGACCACTGATCCTGACCCCAAGTCCTGGGTGCACAGTAGG
CTCTGTCACCTGCTGATCCCGATCAGACTCTAACCATCAGCTAATCCCAACCAATAGCTGAACCCAGACCACAGCCACCAACTGCCCCCCAGTCCTGCCC
ACTTACCTCCAACCCTACCACTCACCTCTCACCCTGACAACTGACCTCTAACCTCTGTTCTCTAATCCTGAGAAAATAGGCGTCATGGTCACGGCTGACC
TGAATTCTTACCCTGACCTTACACTGACCTCAAACATCAACTGACCCCTACAATGCCACTGCTGCCTCAATCCTGGCCACTGGGCTCTGCAGGCTCTTAA
CCTGGTCAAGCTACCCACAGCCCGGGCCGGCCAGCCCCAGCCTAGAATTCTGAGCACACAGTAACCCTAACCAGGCCCCCACTGGAGACCAACGCCAGCC
CCCATAGATGCCAGGCTCTGGCCTTGGCTGGCTCTTTTTTTTTTTCTGAGATAGAGTCTCACTCTGTTGCCCAGGCTACAGTGCAGTGGCAGTCTTGGCT
CACTGCAACCTCTGCCTCCTGGGTTTAAGTGATTCTCCTACCTCAGCCTTCTGAGTAGCTAGGATTGCAGGTGTGCACCACCACACCCGGGGAATTTTTG
TATTTTTAGTAGAGATGGGGTTTCGCCGTGTTGGCCAGGTTGGTCTTGAACTACTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGAT
TGTAGGATTGTAGGCGAGAGCCACTGTGCCTGGCCCCTGGCTGGCTTTTGATCACAGAGGGTCCCAGGCGATGCCTCCCCAGCCCCTACCCCTACTTCTA
CCCCCGCCAACCACCACAGCCCCAGGAGTTGCCTCCCTTGCCTCCTGAGTCTCTGCTTGGACTCTGCCCTTACCAAGGAGCTGGGCTCAGCACAACAGCA
GAGCTGAGCCAGCAACCACTGCTGTCACCCCCAGCACTGCCATGAAGGCTCAGGTTTGCCATCTGTAAGATGGGAGTGACAACAGCGTGTGCCCCACAGA
GGCACTGTGGGACAGGCCGAGAATGTGCAGCCCAGGGCCTGGCACGCAGCGAGTGGTGGCTGTACCCTGACTTGACTCCACTCCACCCGTGAGCTGGGCA
GGACAGGCCGATTCTCCTCATTTCACAGATGAGGCAGGGACAGTCACATGTCCCAGGTCCACTCCAGAGGAGGGGGCAGCGTCTTTGCTCTTGGGGGTGA
CTCTCGTGCCTGAGCCCAGGCCTCTRTCCCGTGTCCCTGCAGGAGGCCGGGTCCTGCAGATCCCCCTGGTGCGGGCAGAGAACGCCGGGAGGTACTCGTG
CAAGGCCTCCAACGAGGTGGGCGAGGACTGGCTGCACTACGAGCTGCTGGTGCTGAGTGAGTGGCGGGGCCTGCAGGTGGGGATTCCCGGGACTGCAAGC
GCCGTAAGGGCCTCCCTCAGAAGGGGCCGAGGCAAAGTGCACACAGTCTTGCTGTACTCAGAGGTTGAAATTGGAGTTACATGCTCGGCCTCAAAGAATC
ATGCAGGACTGGGCGCAGGTTCCAAGTCAGAAGCTTCCTAGCTGTGTGACATTGAGCAAATCACAACCCTTTCTGTGCCCCCGATTCCTTAGCTGCATCA
GGGATTGGGAGGGCTTGGAGAGAAGGGCATGAGGATCCCGACCAGCACCTGACACCAAGTGCCACTCTCGCCTCCACGGCCACCCCCGCCCCCAGGGACC
TGTGCCAGCCCCTCAGCCCCCTCTCCCCCACCCCCAGCCCCACCTGTGATCCTGGGTGACACAGAGGAGCTGGTGGAAGAGGTGACAGTCAATGCCAGCA
GCACCGTCAGCCTGCAGTGCCCGGCCCTGGGAAACCCCGTGCCCACCATCTCATGGCTCCAGAATGGGCTGCCTTTCTCCCCGAGCCCACGGCTGCAGGT
CCTGGAGGACGGGCAAGTCTTGCAGGTCAGGGCAGCCCCCTGCACGGGCTAGGGGCAGTGGCTGCTGAGGCCCAGCACCACTTGTCTGGGAGCCAGGGAG
GGGTCATTATCTGCAAATGAGGCTCTTTGCTGGGAACCATGCTGGAGCCCAGCCAAGAATCACCTGTGAGGAGGCATGCTGGGCCAGCACAGGCCTGTGC
ACGGCATCCAGAGCTTCAGGAGACACCTAGCAAAGGATGCACATGGGTGCGGGACCCAGAGCCCAGCACCGCACACAGCAGCCTTCCGCGGGATCACCAG
CTGGCGCGTGCAGAGCCGTGCCCAGCACTCAGACATCAGGCAGCCCCCTGAGTCACCCCATGTGCAGACACAGAGCTGCGGGGACCCTGGGAGCCCAACA
CACACAGCACGGCCCTCCACAGGGGTGGGGGGGGCTCTTGTCACATCTGGTTTGCTACAGAGAACCACCCAACACCAACCTCACACGCCCGCTCCTGAGC
GCCACACAAGGCCCTGGATGGAGGAGGTTCCAGRTCTCCATGAGCTGCCTGGTGCCTGCTTCCCTGGCATGGGATGGGAGGGATTCCTCGCAGTCATTCC
TGGGGGTGGTGGTGTCCAAGGGGTCTCAGGTATCTCCCAGGCATGGCTCCCTGCACCCACAGGTTTCCACGGCAGAGGTGGCCGACGCYGCCAGCTACAT
GTGTGTGGCCGAGAACCAGGCGGGCTCCGCTGAGAAGCTCTTCACCCTCAGGGTTCAAGGTGAGCTGGGCTGAGCAGGCAGCCCCTGTGGGTTCCTTTTC
CCTTCCCAGGGGGCACTGCCTTGGGGCTTCCAGTATCCTGGGCTCTGGGTCCTGCAATCAGAGTTCAGGGATCCCAGCTGGCCCCAGCCACATCCCGAGA
CAGAGAGCATTTGGGGGGCCCTGATCACTACTGGGCCAACCCCAGGTGGTTTTAAGCAACTTTGGAGATGGCCAGGCATTACCACCACCATTACTGAGCA
CTTACTGTGTACCTGACACGAGGCTGAGCACTTTCCCTGGGCTGACTCCTTCCAGCAGAGCTAGGTTAGCCCACCCAGCTTTGCAGCTGTGGGAGGAGAC
TCAGGGAGGTCGCCCTCAGAGAGGAGTGGGATTGGGGGGGTCTCACTGCCCCGGAGCCTGCACTCCTAACCTCTGCAACTCATGACGTACACCGCACTGC
AGTGGCTGTGAGTTCTGTCTCCAGATGGTCTTGGAGATGGAGGAAGATAGTGTTGAGCCCTCAAGGTCATGGGCTCAAACCTGAATTGATATCTTAGCTC
TGCCACTGACCAGCTGTGTGGCCTTGGAACAGTGACTCTCCCTCTCTGATCCCCTACCCAGTGTCCTTCTGTGTAAGAGAGTCATGGCAAATGGAGGTTT
CTGAATTATTTGAAGTTGTGCCGAGGTGAAGCCCCAGGAGCTGGGTGAGGCTCAGGGTTTCTCTTGGGCTCCGTGCTCCCCTGCTGGTGTGATTCTCATG
CCTTTCTCTACCGTGGTGGCTGTGGGGATAGTCCCGCCACGAATCGCAGGCCTGGACTTGGAGCAGGTCACTGCCATCCTCAACAGCAGCGTCTCCCTCC
CTTGCGACGTCCACGCTCACCCAAACCCCGAGGTCACGTGGTACAAGGACAGCCAGGCCCTCTCCCTGGGTGAAGAGGTCTTCCTCCTGCCTGGTGGGTA
AACTGAGGTGTCCGGCCCAGCTCTAAGGTTACATGGGGAGAGAGTTGCTCCCCCGACCTGGGACAGGGCCGTCAGTCGTGCAGGGATTTAGGACTGGGGG
CTGGGCTGGAATGCTGGTGTGAGGGGCTGGCTTCCCCCGGCAGGCACCCACACRCTGCAGCTGGGGAGAGCACGGCTGTSGGACTCCGGGATGTACACAT
GCGAAGCCCTCAATGCTGCYGGCCGAGACCAGAAGCTGGTGCAGCTCAGTGTTCTGGGTATGTCCATGTCTGTCCCCAACTTGTACTGTCCCCACTCCTT
CAGTCACCCCTCAGCCCATACTCCCCCAGAGAACATAGACAGGAGAGGGCCAGGAGGCACAGGGGGAGGCTGGGACGCCCGCACAGAGCAGCTCTGAGGA
GGGGGAGCAGTGGGACGGGCCCCAAGAGCCTGGCTGGGGAAGGGGCCTCCCCAAGCCTTGTGTGGTGGGGGAAGCCTGTTTCACAGTGGAGCCTGTTTCA
AGGCTCGTGGTCTTCAGAATCCTCTTGGGGAAAAGCTGGCCCAAGGTGTCTTTAGCAAGGACTCGCTGGAAGGTTCTTTCTAGCCCCGGGGCTGGTCCAT
TCACTTGCACGAACACCAGCCAGACACTGCGCTAGGCCTGTGGGCTCACAGCCATGGGGAAGGAGGGCTTCTACATTGGTTCACTGGAGCCACAGGGGCT
GAACGGGCCTCGACAGAGGGCTGTAACCCAGCTGGGGCCTGCCCCTGTAGGAAAAAGCCTGGGTGGGGGCGGGCGACAGCATCTCCCCCATCTAGGAGGC
TGAGGCTCAGAGAGGCAGGAGGCTGTCCCTGGTCACTCAGTGGGTCCTTGGCGTGCTGGCCTGGTTCTCTTCCTCCACCTCCCCTGGGTCTGCGCCAGCC
CCCGGGGCTGGGTCTGCTGTGTGACCCTGGTGGGTTTCCACTGGCATTTTCCCTGTGGCTGAGTGGGGAGGGCGCAGGGACAGCTGCAGCACCTCACTCT
GCTATCTCCTGCCCCCAGTTCCCCCGGCCTTCAGGCAGGCTCCCAGAGGTCCCCAGGATGCGGTCCTGGTGAGGGTYGGGGACAAAGCTGTCCTGAGCTG
CGAGACAGATGCGCTCCCTGAGCCAACTGTGACCTGGTACAAGGATGGGCAGCCCCTGGTCCTGGCACAGCGGACCCAGGCTCTGCGGGGTGGGCAGAGG
CTGGAGATCCAGGAAGCCCAGGTGAGCAACCCTGGGGGCACGGGCAGCCATGAGCGCTGCAGGAAAGTCGCCTCCCAGCCCTGGSGAGCTGCGGGGAGGA
AGGTGGGCAGGATGTGAGTTGCTGCCTCCTTGGCCTGTCAGACCCCAAACCGAGTGGATTAGCAGCTTCCAGGGTGGAAGACATGGGCRGAGCTCAGGGC
TCTGGAGTCACGTTCCAGACCCAGCCCTGCAGTCATGGCATGAGCCCTTCCTGCCTYGGTTTCCTCAGCATCTAGATGCTTTTATCTGGTCCGCTCCGGC
TGACCATCTGAGACTCCTGGGAGTCTGCCCTGCCCTCCCTCCCTCCTTCCGTGGAGTGGATTAGATGCTCACAGTGTTTGTTGGATGAATGTTTGCTGTC
CCCCTCGAAATCCATTCCTGGCCAGGCTCCATCCCCACAGCAAGGGGGACCTCTTCCTGCCAGCTTGGCCCAGGGAGGGAGGTCCCCAGAGCCTGTGTAT
TCACTGTTGARGGGCCCTTCTGCTTCTTGAGGCTCTTGGAAAAGGCCAGAGCGTCCTGATTCCCTTTGGCTCCCCAGTCAGGACCAGCATATTTGGGAGG
CCCCTGCTCTGGAAGTTTTGGGGGCCTAGATGCTTTTGGGGAGCCCTAGCACCCCACTTCCAGCTCCAGCACACAGCCACTGTGTGCTCTTCCTCTTTCA
GGTATCGGATAAAGGTTTATACAGCTGTAAAGTCAGCAACGTGGCTGGGGAGGCCGTGCGGACCTTCACCCTCACCGTCCAGGGTAAGCCAGGGRCCAGC
CTAGCCAACGTGACTGTGGAGCCCCTAGCAACACCCAGGGCTGCCAAGGAGGACAAAGACAATAGCTGGGCAGAGGCAGTGCTGCCAAGTGCTGAAGGCA
CAATGACTAGAATTTGTGTACCTATCTATATCTACATCTCTTTCTTTTTGTAGAGATGGGGCCTCATTATGTTGCCCAGGCTGGTTTCGAACCCCTGGGC
TCAAGCAAACCTCCTGCCTCAGCCTCCCAAAGTGCTGACATTACAGGCGTGAGCCACTGCACCCAGCTAATTTCTAGAATTTAAAAAACTAAGGTTAGCA
GRCTCCAAATAGAACTCTGCCAGTGACCTGCTTCATGGAGCTTAGTAGAGTGACTTTGTCCCTCAGAGCCTAAGGTTTACCTTCAGTGAATGAGTCTAAA
AGCAGTAGCTGCCTGCCAGGCACAGTGGACCTGCCATGGATCCCATGGACCGCCATGACAGTGTCTATAAAGTGCTGGGCACAGGGCCTGGCATGTGGGC
ACTAAGATGAAGGAGCCCTATGAGATCAGACACACAGGAGGCCACGTTACCTGCATCTTGATCCCCAGGGGGGCCTGTCCCATCCACCCAAGGATGGAGC
ACAGATGCTGTTTGATTGGACATGTGGCTCCAGCTGGGGTGAGGAGGAGCCTATTTACACTGTCCAGGAAACTTGGCCAGATTTTCTGGTGCTCAGATGT
CATGTTAGTTAGAATAGAGACTTAGCCGTGCCACAAAAAGACCCCAAAATATAGTTGAGTAAATGAGAGAGTTTAACTCTTATTCAAAAGCCCAGAGGTG
GGTGTCTAGGCTGGTGGGTAGCTCGGCTCCATGCGGTAGTTAAGGGACCCGGGTTCCTTCCCTCCTGTTGATCTTCCATTTCTTAGGGTGTTRTTCTTGT
GCATATGGTTGAAACTGGGACACGGCATCRTGTCCTGGCCCACAGGAAGCAGAAAAGAGCAGAAGTGGTGGGCAAGCATTTATTTCATACAGAAGTTGCA
CCTGTCCCTTCTGCGTGTATTCCATTAGTGAGCGCTCAGGCAGCTGGCTGCAGGGGACACTGGGAAATGTAGTTTCTGCTAGAGTGATCGTGGGCTCAGC
TAAAACTCTGCTATGCACAGTGGGAAGAACGGGCTGAKGGGACACCAGCCATCTGCCACAGATGCCAAAGCCAGTAGCCTCCCAACCAGGTGAGCGGTGG
GCACATGCAACCCTGAGCCATACACAACACAATCGTTGAAAAGGACTGACAAGATGGAGTGCAGGGGCTCATGCCTGTAATCCCAGCACTTTGAAAGGCT
GAGGCAGGGATGATCACTTGAGCCCAGGAGTTTGAGATCAGACTGGGCGACATAGTGAGAAGCTTGAATCTACAAAAAATAAAAAATAAAGTAACAAGAA
AGGGACTGACACCAGGCTTGCTGCTCAAAGCTCCCAGCCCTTTCTGATGGCTACATTGATGAACAGTGGAAAGGGSGAATATCTGGTCCCTGAGGGCAAA
GGCATTTCATCTTGAGCCTGGTTGACTCTGTTCCGCTGGTGGTGTCTGCCTGGGGTGTGTGACTTCATCCTGGCGGAGCAGGAGAGAGTGTTGGGATCGA
TTAGTGATGTCTGCCCTGGCACAGGTTAAGGACTGTGGGTGAGTGAGCCTCCCATTTACCATCCKTGGGCTAAGGAGACCCCGCTGGAGCTTTGCTTTGT
ATGCTTTAAAATAGCCAGGCACTGGTTCTATTTACATTTGTGAATAAAACATAGAATGGGAACTCCTAACTACCAGGAAGGGCTTCTTAGGCCTCCCTGA
TCTGCCTGAGGGGAAGGAAATYGGGGAAGAGTCTCAGAATTCTGACAGTCTGGCTTTCTTCCTGCAGTGCCCCCAACATTTGAGAACCCCAAGACAGAGA
CAGTGAGCCAGGTGGCTGGGAGCCCCCTGGTCCTGACCTGTGATGTGTCCGGGGTCCCTGCACCCACGGTCACTTGGCTGAAGGACAGGATGCCYGTGGG
TGAGCACATCTGTCCTTGTCTGTTTCGCGTAAAGCATTCCTTTCTTTAATAAGATGACAGCAGAAGCGGACGAAGGAAGTTATTGGTTGTTGATGATCTT
GGCAAAACCAGAGACTGGCAGTGCCGTGTTGCCCCCCCCCCACCATTTGTGTTTGAGTGAAGCGTTRTTTATTGGCCCTTGGAATCCAAACATAAAGAGC
GTCTCCTGTGAGGGTTTGGAAGCTCCTTTGCATCCACGTCMTCAGTCAGCTCCCATGAGACAGCAGACGTGGGCTCTCCATTGYGCAGGGCAGGTGCTGA
GGGCCATGGAAAGCCCACTGGCTGACACTGGGYTCAGCATTGGCCCCCAGAGCTGCTCCTTGGTGGTGACTCAGCTCGGTCCTAGCTGGGCCGTTGGTCA
ACCCCATSCCCCATCCAGGCCTCCCCATTCTGGCCGCTGCTGTGCCCACCGTTCCTCCGCATGACGGCAGAAGCCCCACATGGTCTCCTGGGCCCACTGT
GCCTCTCACGCAGGCTCCACGTGGGGCAGAAAGGTCTGAAGGTACAGCTCGGAGCTGGTCCCTTGTCTGGTGGAAATCCGTCCACAGCAGGGGCCGGCAC
TGCCAGCCACCTCTCCCTGCCCCTCCATGCGCTAAACGTGGCTGTGCTGGCTCCTCGAACCTGCCCCTCTCTCTCAGTAACAGCTTTATTGGGATATAAT
TCACACACTATATAATTCACCCACTGAAAACATCCAATTCAGTGATTTGTAGTACAGTCACAGAGTTGTGTGACCATCACCACAATCAAATTTAGAACAT
TTTTATCACCAAAAGGACACCCGTATCCATTAGCAATCACTCCCCGTTTTCCCCCCATTTCTTCTTCCCCCAGACCCAGGAAACCACAAATCTGCTTTCT
GTCTCTGTGGATTGGCCTGTTCTGGGCATTTCACATTAATGGCATCATAGAGTGTGTGGCCTTTTGTGTCTGGCTTCTTCCACTTAGCGTGTTTTCAAGT
TTCATCCGTGTTGTAGCATGGATCAGTACTTCATTCTTTTTTTTTTTTTTGAGACGGGGTCTCGCTCTGTTACCCAGGCTGGGGTGCAGTGCCACAATCT
CGGCTCACTGCAACCTCTGCCTCCTGGGTTGAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCTCGCACCACCACGCCCAGCTAAT
GTTTGTATTTTTAGTAGAGATGGGGTTCCACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCACAGTGCT
GGGATTATAGGCATGAGCCACCGTGCCCAGCCAGTGCTTCCTTATTTTTAAAAATTAAATTTTTCTCTTCATTCCCTTCTGTGGCTGAATATTCCATTGT
GTGGCTGTGTCGCGTGTTGTGCATCCACTGGTCAGTTGATGGGCATTTGGGGTGGCTGCATCTTTTGGCTGAGATGCTCAGTGCTGCTGTGAACCTCCGT
GTTCGTGTTTCTGTGTGGACCTGTGTCATCGCCTCTCGCGGGTCAGGTGGCTGCAGGCCCCACCTCCCTTTGCGTCCAGCTCTTGGCACATGTGTTCCCT
GCCTGGAATACCCACCCAGGCTCCCGTGGTCACCTCTGCTCCCCCCGGCTGACTACTGCTCAACATTCACGTCTCAGCGGAGATTCACCACCTCTGGAAG
CCCTCCCCCACCCTTCCTGTCCCCCAAGTTCCCCGGCTCCATCAGGGGCTCACAGGGCTTGTCAGCACTGGGTCCCCTTGTTTCATGGCCCCCACCCCYG
ATACATTGTGAACTCCTTGAGGACAGGGACTGAGCTGCCCTCATCTTGATTCCCAGGCTCTGCGCTGGACATGGGGCAGTTGCTCGTGTCTTTGTGTTGA
GAGGCTGGCTGGATCCATGAGGATCTGGGCAAGGAGATCGTCCTGGGCTGGGGCCGTGAGAGATGGCTTTGGGCAGGGGTGTGGCTGGAGAGAATGAAGG
GGGAGGCCTGAAGGCCGGGAGTGGGAGGAGCCCGAGCAGAGGCCCAGGGGGAAGCCCCAGTGTGACCTGTGTAGGGTCAGTGAGGGGCTGGTTTGACTTG
AGCAGAAACCTTGATAGACAGGGGTAGAGGGGCAGGGCATGGAGGGAGAAAGCAAAAGCAGAAACCTTGATTGATGGGGGTAGAGGGGCAGGGCGGGGAG
GGAGAGGATGGGAGCTGAGAGCTGGGCCTGAGAGCAAATCCTGGACACTGAAGGGAGGGGGTCCCTTGGGAAGAGCTGTCTCAAGTGGAAGGAAATGAGG
AAGGCTTCTAAGGAACAGAGACTGGGCTGGGGAAGGTGGGGACATATAAGAAGGCGCCTCTGCCTCTGTGGGGCTCAGTTTCCTATGAGCACAAGAAGGG
GCTGGGGGATTCAGGGGACCCCTCTGTCCCACAGAGAGCAGCGCGGTGCACGGTGTGGTCTCCCGGGGGGGCCGCCTCCAGCTGAGCCGCCTGCAACCGG
CCCAGGCGGGCACCTACACGTGCGTGGCTGAGAACACCCAGGCTGAGGCCCGCAAGGACTTCGTGGTAGCAGTGCTGGGTAGGTCTGCGCCTGCACCCTC
CTGTCCCACTCCCATGGCAGCCCCTGCCATCACCCAGGGCCTCACTGCACCCCTGCCTCAGTGGCCCCCCGGATCCGGAGCTCGGGCGTGGCGCGGGAGC
ACCATGTCTTGGAAGGGCAGGAGGTGCGGCTGGACTGTGAGGCCGATGGGCAGCCGCCGCCGGACGTGGCCTGGCTGAAGGACGGCAGCCCGCTGGGCCA
GGACATGGGCCCCCACCTCCGGTAAGACTTGGCCCATGCCCTCCCCAGAGGCGGTAGGGCCCATGTTCCCTTACGCCTCTGCCCTGGGCCCTCCTTCCCT
GTGGCAGGTTCTACCTGGACGGCGGCTCCCTGGTGCTAAAAGGCCTGAGGGCCTCGGACGCGGGTGCCTACACCTGCGTGGCCCACAACCCAGCCGGGGA
GGACGCCAGGCTGCACACGGTGAATGTGCTGGGTGAGGAGCCCCAGGGCATCTGGAGGGTGATGCGTGGGCCTGGGCACGGGAGATAAGGCGACATGTGA
GCAAAGCCCACACTGTGTCCTGGGCCACGGGTCTYACTTCCCTGGGCCTCCATGGCCCATCCTCAAACTAGAGGACAATAGTGCCAGCCCAGGGTATAGC
GGAGATTCGGGAGGTGAGAAGAGAGTCAGGGAGTGGCTGTGTCCCCCATGCAGCGGGCCTCATCCTTCACAAGGGACCACTGTGGTTGCTGGCGGCAGAA
GTCCAGGTCTCCACTTCTGGGATTTCCCTGGGAGGAGCCCACCTTCCTCCCAAGACCTCCGCACTACCCCTCTTTTTTCTACCCACCCTCAGTTCCTCCC
ACCATCAAGCAGGGAGCAGACGGCTCGGGGACCCTGGTGAGCAGGCCTGGGGAGCTGGTGACCATGGTGTGCCCTGTGCGGGGCTCCCCGCCCATCCACG
TGAGCTGGCTCAAGGACGGCCTGCCCCTCCCGCTCTCCCAGCGCACCCTCCTCCACGGCTCTGGCCACACCCTCAGGTAGGGGAGACGGTGGACAGGCCT
TGGCTATTCCACTCAGAGTGGACATGTGGGGATTGTCAGCAAATGGGAGGTGCTGGAAGCCAGGACTGGCTGCAACACCCACTCCCCACCCCACAGCGAG
TGTGGACTGCGCCCCAGATGCTAATGCTAGGATGGGTCTCAGGGACCCAGGGAAGGGGAGGTGGTSGGGGTAGGAGGAGATGCAGGAGAAGTCAGGTTTC
AGGGAAGGAGAGACCAACTGGGCCACAGGAGACGAGGCCTGAGGACGGACTGTTGGCTTTGGTGCTGTGCCTGTCACTGGGGACTGGGCAAGAGCAGCTC
AGGAGGAGTGGTTGGGGCGAAAGGGGCTGAGAGAAAGTGGGAGGACAGAGAGTGAAGCCAGTGAGCTGAGATGACTCCAGTGAGCTCTGAGGGCAAAGAG
GGCTGCGTAGAGGAAGGGGAGCCAAGCTGTCCATATGGGACGTGGAGCTTCCCGAATTTGGGAGGCAGGAGGTCTGGCTTCAGAATGAGATTGGTTGGAG
CAGGCAGCAGGGGTGGAGGCAGCTGGAGGCTTTATCCTGGGGGCACCGGGAACCCAGGTAAAGAGTTTAAGCAGGCCGGGTGCGGTGGCTCACGCCTGTA
ATCCAGCACTTTGGGAGGCCAAGGCGGGCAGATTACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAA
AAAGTTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAG
CCGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACACCATCTCACCATCTCAAAAAAAAAAAAGAAAAAGAGAGAGTTTAAGCAAAGGCT
GGGCTCAGTCACCCCGCCCCCTCTGGCCAGCAAGCTCTTGGGAGACAAAGGTTGGAAAAGGGAGGAAGTCTTTCCACGCAGCCAGCCTCTCCTGTCTCTC
TCCCTTTCTCTTCCTCTCTCTCTCTCCCTTTCTCTTGTCTCCTTCTCCCTCTCCTCTCGGGGGATTCAGGATTTCCAAGGTGCAATTGGCAGACGCTGGC
ATCTTCACCTGTGTGGCCGCAAGCCCAGCTGGCGTGGCGGACAGGAACTTCACCTTGCAGGTGCAGGGTATGGAGCAGGGGGTGGGGCAAGGGGGTCTCT
GGCCTTGGTGGGTGAGAATCAAGGCCCTTGGCCCCCCTGCCCTTCTGGGTGGAACCAAGGATGGGCCCTGGGGGCGTCGAGGAGAGCGGACACTGCGGCT
CAGTCTCTGACTCACTGTATTGCTCGTTTGTACCTCACAAGTGGCTGTGGGCACTCTGGTATGCCCAGGATAGGCGGGGGCAGAGAGGCAGGAAGCAGCT
CAGTAAAGAGACAATCACAATTCCAGGGAACTAGTGACACCAGGGGATGGAGAGGATGCTGTGGGAGCACAGAGGAGGGCACCTCACCTGGCCTTGGGGG
ACCAGGGCGGCTTCCTGGAAGAGGTGATGTCTAAGCTGAGTACTGGAGATGAGAGTCCTGGAATAAAATGGTTCCTGCCCACCTTTCTGCCCTCCATAGT
GCCCCCTGTCCTGGAGCCGGTGGAGTTCCAGAATGACGTGGTGGTGGTTCGTGGCTCCCTGGTGGAACTCCCGTGCGAGGCCCGGGGCGTTCCCCTGCCT
CTCGTGTCGTGGATGAAGGATGGGGAACCCTTGTTGTCCCAGAGCCTCGAGCAGGGGCCCAGCCTGCAGCTGGAGGCAGTGGGAGCTGGTGACTCGGGGA
CCTACTCCTGTGTGGCCGTGAGCGAGGCGGGGGAAGCCAGGAGGCATTTCCAGCTGACCGTCATGGGTGGGTCCTCTGGCCTCTGGCCAGCTTCTCTGGG
CTCGGGGGAGAGGGTGGGACTCTAGGGGCAATGGGAAGGACAGTGAGGGAGGTGAGTCCCCTGGAGACCTGGGACTGCCACCTGGGAGCAGAACTCAGGG
AACTTGGTTCTGGCTGGGATGCCTCTCTCACCTTCCTTGCCTGCGGGGAGTGGGTGGCCGGGCTTTGATTCTCCCAGGGCTGTGCTCCTGGTTTCTTTCC
ACCAAACCTTGGTGGCAGATGCAAGAACAAGGGCCACCAAAATGTGGGAGCAGAGCCCCTGGACTCAGCACAGTGTTTTCAAGTGCGGTGCTGTCCCGGA
AATGTGTGTCAATTGTGTGTTCCCCTCCATGGTGGCTTGCAGAGCCCCCTCACATTGAGGACTCAGGCCAGCCTACAGAGCTGTCGCTGACCCCCGGCGC
CCCCATGGAGCTCCTCTGTGATGCCCAGGGCACCCCCCAGCCCAACATCACCTGGCATAAGGACGGGCAGGCCCTGACCAGGCTGGAGAACAACAGCAGA
GCCACACGGGTGCTCCGGGTGGAGAATGTGCAGGTACCAGTGCCGCCGCCATGGGGCGAGGCTGGGGGTTGGGGGAGAGGGGAGGGACTGCAGGTTCCCC
AGACCCAGTGGGCAGTTGACAAAGTTGGGCTGAAGCACCTCCTCTGTGTGGGGTGTGAGGGTGTGGAGGTGACCCACCTTGGCCGTGCCCTTGGGAGCTG
CCAGCAGGGTCAGGGCCCAGGCTGATGCCAAAACCAGGTGACCCCATCTAGGCCAGAGGAGGGCTGGTGCAGTTAAGGGGGACTTCTGGGAAGAGGCAGG
CATCACACCAGCCCTAAAGCAACAGTGAGATGGAGGGAGAGGGCGTGGGTTGGCTGGGAGGTGGATGGCAGACCTCGCAGGGCTGAGTTTGAATCCTGGG
TCCCTCGWTGCATGAGAAAGAAACCAGATTGGGAGGCGGGCAGAGAGGGGCCAGGGGCAGCTGCTCAACCCGCTCCATCCCCAGGTTAGGGATGCTGGGC
TGTACACTTGTCTGGCTGAAAGCCCTGCAGGTGCAATTGAGAAGAGCTTCCGGGTCAGGGTTCAAGGTARGTGGTGGGGGTGGGGTGGGGGCAGGGCCGG
GAGGCAGGACGGGCTCGCGGCAGGGGTGAGTCCCCCTCTCATATCCTCTTGTGCCACCCCCTTCCCAGCCCCTCCAAACATTGTTGGGCCCCGAGGCCCC
CGCTTTGTGGTCGGCCTGGCCCCAGGGCAGCTGGTCCTGGAGTGTTCGGTGGAGGCAGAGCCAGCGCCCAAGATCACGTGGCACCGAGACGGCATTGTGC
TGCAGGTGGGYGCCAGGCAGGGCCCCAGGGTGCTGCCTTCTGTCCCGCTCAGGCCTCAGACCTGACCTGGCCGGATCCAAGATCCAGAGCGGGTGCCAAG
GGCCCGCTCTGAGCTGCACTTTGCACCCTGTTCCCCGGGTGTCATACCCCCYGCCATTGTCATTGTCACTCCCATTTTATGGATGGGGACACTGAGGCAA
GGCTCAGGTCACTCAGGGCTTCCGAGGCCCACCCAGTATTCTCCCCCTGGCTCCTTCAAGCTATGCTTAGCAGCTGTGTGGCCTGGACCGGTGACCAAGG
CTCTCCGTGCCCACCCCTCAAATGGGGTCAGTTTGCGGCTGTGGATTCAGGGTTGTGGATGTTCTGACAGGAACTCCAGAGAAAGGGGATGCATTTCCTC
CCAGAGGAGTGCATTTCCTTAGAGGGTCCTCGGCGGGGCACAGTCAGGGCCTGCGGTCAGCCTGGAAGTACAGAGCCACTGTCCAGCTTCACCAGTTCCT
CAGTCTTCCACATCTGCTGCCGGGTGGCCTGACGCAGCTGGGCACTGATAAGGGTCTGTCCACCCTGGCGGGGCTCTCCAGGAGGACGCCCACACACAAT
TCCCGGAGCGGGGCAGGTTCCTCCAGCTGCAGGCCCTGAGCACGGCTGACAGCGGCGACTACAGCTGCACAGCCCGCAACGCCGCAGGCAGCACTAGTGT
CGCCTTCCGCGTGGAGATCCACAGTGAGTAGGGCCCGCCCCACCCCACCCTGCCCACCTTACCCCACCCTGCCCACCCCCTTAGAGCCACAGCTCCCAGC
ACCACTCCCTCTGTGCCCCTCCCCAGCGGTGCCCACCATCCGGTCAGGACCACCTGCAGTGAACGTCTCAGTGAACCAGACAGCCCTGCTGCCTTGCCAG
GCCGACGGCGTGCCCGCACCCCTCGTGAGCTGGCGGAAGGACAGGGTCCCCCTGGATCCCAGGAGCCCCAGGTGGGAGAGGGAAGGGGTGGGCCTCAGGG
AGGCTCTCAGGTGCCACTTTGTGGGTTGCAAATCAAACTCACTTGGGCAATTGGAGCAGAAAAGTGACTTTATCATCAGGACGTGGGGTGTCTCAGAACA
CAAGGACAGGCCCACCACTCATGAAGGTCTCTTGCTTGTTTAACTTGATCAGAAGCCTTGATAGATGGGGCGGGGTAGAGGGGCATGAATGGATCTCAYG
AGATCTGATGGTTTTAAAGCTTCTCTCAGCTTCTCTCTGTGTAGGCTTCATCTCTTTCTCTCTCTTACCTTCTTCCTTGGTGAACATGGGAGAAACACAC
CCCCTGACAACCCCGTGGCCCCCAGCCCCAGGTTTACAGCTCCTCAGCTCACTAGCAAGTTGTCTGTGAATCCCAACTCTAAATTCCCAGGGCACAGAAT
GCCATTGGCCCAGCCTGAGTGATGTGTCCATCCCCCATCCAATCAACTGTGGCCAGGGGCGGGATTGCACAGTACAGACATGGCCCTTGGAAAGGGCATT
TTTCAGATCTAGGGGCTGCTCTCAGGAAGAGCAGGGTGCTGCGCCTTCTGCGTCTCAGGAGAGGTCAAGCCCAGGAGGGTGCTGGAGATGCCCAAAGCAG
CCCTTCTCTCCATCTTTCCAATGTTGGCTTGGGCTGTGGGGAGCTGCTCATGGCTCTGACCCCCTGACCTTGGCCTCACAGATGCAAGACTCTGACCTCC
AAAGTTAGCATCTGTATTAGGCCATTTTCACGTTGCTGATAAAGACATACCTGAGACTGGGCAATTTACAAAAGAAAGAGGTTTATTGGACTTGCAGTTC
CACATGGCTGGGGAGGCCTCACAATCATGGTGGAAGGAAAGGAGGAACAAGTTACATCTTACGTGGATGGCAGCAGGCAAAGAGAGAGCTTATGCAGAGA
AACTTACGTTTTTAAAACCATCAGATCTCGTGAGACCCATTCACTATCACGAGATCAGCACGGGAAAGACCCGCCCCCCAATTCAATCATCTCCTACCAG
GTCCCTCCCACAACATGTGGGAATTATGGGAGCTACAAGATGAGATTTGGGTGGAGACAGAGCCAAACCATATCAGCATCCTCTCACTGGGAAAGTGGGG
GCAGAGGGAAGGGTCTTGCTAGAGACAGCCTTGCTCCAGACCCCACTGGCTTGCTCATCTCCAGGGCAACCCCCATCCATTCTAGGTTTGAAATTCTGCC
TGAGGGTTCCCTGAGAATCCAGCCAGTCCTTGCCCAGGACGCCGGCCACTACCTCTGCCTGGCATCCAACTCTGCTGGCTCCGATCGTCAAGGCCGTGAC
CTACGGGTCTTGGGTAGGTGGCCTGGGGAAGGCCTTCAGTGTCCAGTCCCTGTCGGGGTCCAGTCCTTCTTAGTTTCTGAGTCACCCCAGCTGTAGGGGC
CAAGAGCCAATGGTCTTCAAATGTTTTTGACCATGAAGCCCATTAGTAAAAAGTTGTGATCATGCACACTCAAAGGACACAGATGTATTTTAGTGCATAT
ATTACGTAACAGAACAGCGATTCGATTAAGTAAGAAACCATGTACAAAAGGTAAAACAAGTCTGAGAGGCCGAGGCAGGAGGATCACTTGATCCCAGGAG
TTTGAGACCAACCTGGGCAACATAGTGAGACCCCATCTCTACAAAAAAAAAAATGTTTAAATTAGCCAAGCATGGTGGCACGTGCCTGTAGTCCCAGCTA
CTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCGGGAGTTTCAGGCTATAGTGAGCCATGATCACGCCACTGCACTCCAGCCTGGGTGACAGAGTAAG
ACTCCGTCTACAAAAAAAAAAAAAAAAAAAAAAAAGTAAAACATGTGAAAGGATAAAATTCAAAATCACTAGAATCAGATGCCCCAGTCTCCTCCCCCTC
CAACAGATCAGCTTGTGAGAGGTTGCTGTGGTGGGCCCTGGCCTCAGGTGGGGGCTGATGGGAGTGGAGGCCTGGAGGCTTCAGTCAAGGAAAGGCACTG
AGGGGGTGCCAGGCTCAGGGATGGGGAAAGCCCAAAACACCCTGCTGGAAGCGCTGTCTCGGGGCTTTCTCCTGCCCTCTCCCTCTGTGCTCCCTCAGGG
ATGGGTGGAAGACAGTAGGCAGTGGCTTTGCCCCTGGGCACAGCCTCAGAGAGCCCCCAGCCCCTGTGCCCCCTGCACCTGTCTCCTGACCACTGTGCTC
TCCCCAGAGCCTCCAGCCATCGCCCCCAGCCCCTCCAACCTGACCCTGACCGCCCACACCCCAGCCTTGCTGCCCTGCGAGGCCAGCGGCTCCCCTAAGC
CCCTGGTGGTCTGGTGGAAGGACGGACAGAAGCTGGACTTCCGCCTGCAGCAGGGCGCCTACCGGTAACGAGCTGGACTTTGCGGTGGCTTCCTGAGACG
CACAGGGCGGGGAGGCACTCTCTTCTCACGGGGGCATGGGGCAGGGACGGGGCGGGGTGTGCTCAGGTCTCACCGGAGTCAGGACCAGAACTTGTGTCTC
AACTTTGGGGATCAGAGAGTCTTCACACTGAGATMGGGGTGAGGGCACTGGGGATATACAGCTAAACAGAGACATCTGGGCTTTATTTATATCCACCAGA
GTCACTCTTGTCTAAAAACAAAACATGAACTGGGTGTGGTAGCTCACACCTGTAGTCCCAGCACTTTGGGAGGCTGAGGTGGGAGGATTGCTTGAGGCCA
GGAGTTCAAGACCAGACTGGGCAACATAGTGAGACCCCATCTCTACAGAAAATTTAAAAATTAGTAGAGTATGGTGGTGGGTGTCTGTGGTCCCAGCTAC
CTGGGAGGCTGAGATGGGAGGATCCCCTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTGTGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAACGAGA
CTGTCTCAAAAAAAAAAAAAAAAAAAAGAATGTCCATTTTTAAAAATTGGAAAACCAATGTACAGAGAAACAGGGATGAAAACGAAAATCACTCAAAAAT
CCACCAGCTAGACCTGTGGGGCAGAAACTTCTAGAAGACATTTCTAGAGTCAGGGCTGGAGGTCAGATACAGGAAGGGGAAATGGGCGTGAGACCCCCAC
AGCCAGAAAGCCACAGCTGGTCTCTGTCAGCCCAGCAGCCACTTGGCCGTCTGTCTGTCCACCCCAGGCTCCTGCCCTCCAACGCCCTGCTCCTCACGGC
CCCCGGCCCCCAGGACTCAGCCCAGTTTGAATGCGTGGTGAGCAATGAGGTGGGCGAGGCCCACAGGCTCTACCAGGTGACCGTCCATGGTGAGTCGGGG
CAGAGGTGGAGGGGGACACCTGGGGTGGGGGCAGCGCCTTCCCGCTCTTGGGTGCTCTCCCTGCCAGCAGGGAATTGTGTGGCTTTTTCCTGTGCTGCAC
TGGACACCTCCTCCAGGAAGGYCTCTCAGATCCTGCTGGGCCACACTGGCATAACCCCAGCTCCRGCACAGTTCCTGGCACACGGGAGCTCACAGGAGAG
GCCCCTCGCAAATCCAGAATGTTCTAAACTCAAATCTGACCTTGTCATCACCCCCGTTAAAAATCCCTCCCTCCACAGCTGCCCGCTGCCCCCAGGATAG
AATGCAACAATTCAGCTGGACACACCAGGTCCTGTGTGGTCTGGCCCTGCCAGATTCAGCTCACGCCAGACCTGCCTCATTCCAGGGTCTAATCAAGCTG
CTCAGCTTCTTGTTTCTTGCCTCAAGGGGTTTGCACACGCTGTTGCCTTTGCCGGGAACACTCTTCCCCTCACTCAGCAAACACCTGCTTTCCCTTCAGA
TCGCAGGTTAAATGCCACTTCCCCTGGAGGTCTCCTCTGGCCTCCCCTRCTCCAAGTGGGAAACCCACGAGTAACCCCCTGTGAAGTTACTAGGCCAGGG
TCTCTATAGAAAGCTGTATCCCACTGGGTGCAGTGGCATGTGCCTATGGTCCCAGCTACTCAGGAGGCTGAGACGGGAGGGTCGCTTGAGCCCAGGGAGT
CCTGAGCTATAGTGCACTATGCTGATTGGGTGTTCGCACTAAGTTCAGCATCAATATGGTGACCTCCCGGGAGCGGGGGACCACCAGGCTGCCTAAGGAA
GGGTGAACCTGCCCAGGTCAGAAACAGAGCAGATCAAGGCTCTCATGTTGATCAGCAGTAGGATCACACTTGTGATTAGCCACTGCATTCCAGCCTGGGC
AACATACTGAGACCCCATCTCTGAAAAAATACACTTTTTTTTTTAAAGAAAAAAAACTATAGCCCCGTGCCCAGAAGGATGTGCTGAGYGGGCAAATGTG
ACTTCTCCCTCTGTTGCCACCTCCCTCCTTGGCCCTTTGTCACTRATGTCACCTTGTGTACTAGCTTTACCCCCTGGCCCTGTGGCCGTGAGTGCCCTGT
GCCCGCCGGCAGGGCCTCAAGCCTTGTCTTGGGTTTTAGTGCCTCCCACCATTGCCGATGACCAGACAGACTTCACCGTGACCATGATGGCACCTGTGGT
CCTCACATGTCACAGCACGGGTATACCAGCTCCGACCGTGTCCTGGAGCAAGGCAGGCGCCCAGCTAGGAGCTCGGGGGAGTGGCTATCGTGTCTCACCR
TCGGGTAAGTAAGGGTAAGCCACAGAGAGAGGCAGCTGAGGGGAGACTGGGAGAGCAGGCAGAGGGGGTGAAAGGTCACATGGCGGAATAGGATGGAACT
ATCTGGCCTGGCACTGCCTCTCCTGGCTGTGTGACCTGGGAGGACCCTCTCGCCCTCTCTGAGCTCCATATTCTCCTCCATGCTCTGCAGTGTTGAGACC
CATCAGTGGTTCCCCAAGGCCCTCTGGCATACAAGTGCTATTTCATGGCAAAATAAGAAAAATAATAGCTCCCTGGGAGTTTTTGTAAACCTGGTTTAAT
CCCATCAGAAAGATCCTCCTGTATTCTGAAGTTATCTTTGGTGTTGAAACTTCCTTTTCTTGATGATATTAAGATAATAGTACATGGTGATTTTTTTTAA
GATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAATGGAGCTATCTCCGCTCACTGCAGCCTCCACCTCCCAGGTTCAAGGGATTCTCCTGGCTCAGC
TTCCCAGGTAGCTGAGATTACAGGCACCTGCCATCATGTAGGCATGATTTCTGTATTTTTGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTGGTCTTG
AACTCCTGACCTCAGGTGATCTGCCCTTCTCAGCCTCCCAAAGTGCTGGAATTACAGGTGTGAGCCACCATGCCTGGCCTAACATGGTGATTTTTAAAAT
GTCTTTGCCTGTCAAAATAAAACGTTGGAAGCTTTATGGAGAGTCTCCAAATTTATTTGTTAGTTCGTTAGCGAAACACTAAAGTCTAGGAACCAGTGGC
CAAACCTGTGATTTTCAAACTCTTCTGAAGCAATAGAACTTCCTTCCAGGCCAGGCGCAGGGACTCACGCCTGTAATTCCAGCACTTTGGGAGGCTGAGG
CAGGAGGATTGTTTGAAGCCAGGAGTTTGAGACCAGCCTGGGCAACACAGCAAGACCCCATGTCTACAAACACATTTTTAAAAATTAGCTGGGTGCGGTG
GTGCATGCCTGTGGTCCCAGCTGCTTGGGAGGCTGAGGTGGGAGGATTGCTTGAGTGTAGGAGTTCAAGGATGCAGTGAGCTATGATTGCACCACTGTAC
TCCAGCCTGGGCAACAGAGTGAGACTCTGTCTCAAAACAAAATACAAAACAAAAACTTCTTTCCAATAAGTGTAATAAGTGGTAACAGCAAAGTCCAACA
AGTGAAACAAACCACAGTTCTGGTTCCATCTGGGGCTGGGACAGGGGCTGTGGGTGGGCCAGAGTGCCGTGGGCCTTGCTTCCTTCCCCCACCCAGCAGG
CCCCCAGGGGYCCACGGAGCACAATTTAGAACCCTCGTCACTTGACTGCCAAGGTGCAGCCTGCAGTCTGGGAAGGTTAAAATGGTGTTCACTGAGTAAC
CAAGGCTAAGGCCAGGAGGATAAAGGGAGGAGAGGAGGCAGTAATCCTGGGAGGCTTCCTAGAGGAGGTGAGTTTTTAGCAGAGCAAGGTGAGAATGACA
GGATGTGGAACTGTGAGTGGGGGATTACAGGCAGGGGAGTGGCAGATCCTGGAACTTCACAGCCTAAAGGGTCTAGAGACCATCTTGTCTGATTCTTCAT
TGTGCACATGGGGAAACTGAGGTCCAGAGAGTGGAAGGAACTCGCCCATGTCTCTGCTTTGGGCAGGGCACAGAGGCAAACCTAGATGTCAGGTTCCCAT
ACAGTCACATCCCCCAGACTGTTTGTAAATGGGCAAAGGAGGCAGGTTGAGTGACCAGAGACAGAGTGGGGTTGTGTAGGAGCCCTGCYACCTCCATCCC
TGGGGACCTCTGTCCTGATCCCCTCACCCTGATTCCCACCAACAGGCGCCCTGGAGATCGGGCAGGCCCTCCCCATCCACGCAGGCCGCTACACCTGCTC
AGCCCGCAACTCTGCCGGCGTAGCCCACAAGCACGTCTTCCTCACTGTGCAAGGTAAGGGTCCGTGGTCCAGACCCCAGAGTTCCTAGGGCCAGGGGAGC
AGGTGGAGAGCCAGAGGCAGGTGGGGCTCAGGATGGAGGTGAGGCCCCGGGTCTCAGAGGCCCCGACCTGTCTCCCATGGGATTCTTTGGCAGGAAAAGA
ATCAGCCATGGCGTCCTTGTTGCTGTGGCCGATGTTTCTAGAACCCCCGTTCTCCTTAGAGGCCTCTCTCTCTGATGCTCCGAGGCCCGCTGGTTGGAGG
AGTTGTGTTAAGGACATTCTCAGGGCCCTCTGCACCCCCGTCCTTTGTAGCCTCCCCGGTGGTGAAGCCGCTGCCCAGCGTGGTTCGGGCAGTGGCAGAG
GAGGAGGTGCTGCTGCCCTGCGAGGCCTCAGGCATCCCCCGGCCGACCATCACCTGGCAGAAGGAAGGGCTCAACGTCGCTACTGGTGAGGGCCCCTGGC
AGCCAGCCTGGGAAGGGAAGAGAAGAGCGTGGGTCTGGGCAGGGGGGGAGTCCTGCTTCCTGCCCTGGGAGACCCCGCAGACCTGCTGAGAGGTCCTGGA
AAGCCCCTGGCCTGCCCAGATACGCCCCCACCCTTGCTCTGGCCTCCCCCTCCCCAACCCTTCTCCTGTCACCATGGCCTGAGATGCCATCCGAGCACTC
GGTGGCTGAGGTGGGAGGTCGGGAGGGGGCAGCTGAGCTGGGCTCAGGSTCAGGCTTCTTGGCTCCTTCTGTCCCTTGGTCATTCTGTGACCCCAGCAAG
TCATTTGCTGCCTGTGAGACAGAATAGCCCAATCTGCCCACCTCGGGGGTCCCCAGTCCCAGTTCCCAGGCCCCCGATTTTCTTCTTCCTCGTTCAGGAG
TGAGTACCCAGGTCCTACCAGGCGGACAGCTGCGGATTGCCCATGCCAGCCCAGAGGATGCTGGAAACTATCTCTGCATCGCTAAGAACAGTGCGGGCAG
TGCCATGGGGAAGACGCGGCTGGTGGTGCAAGGTGGGAGTGAGGACGGGGCCGAGGTGGGCCCTGGCAACTGAGGGGCTTTGAGGCTTCTGCAAGCTTCT
CCCTTCTCTGCCTGGCAGGGCACACTGCTTATAGTTCTAGAAGGAATTAAGGGGAAAACATCTCYCATTGTGCGCCTGAGTTCTGGTTTCAGACATAAAT
TCCCATCCCCTCTGCCTTCTCTCTGGCCCTGTGGAACACAAGTCTAGCATCCCTCATTCATTCTGGTTTCCAGTAGCTGTAGCCTCTCTGGCCCTGCTCT
GGCACACACACAATTACATGTGCCCTTCCCTTAGTTTGATCAATCATTGGCTTCAAAGATCAGGTGGCATCACTGGCCAAAAATCTGCAAAGTCTGCTGG
GAATATTCAGTATGGGCCGGTCATGTCTTGGCCCCAGTGGCCTGCTTTGTGGTATCTCAGTGGCCATCCCCGCCCGCAGCTATGTAGGGCTGGAGTCAGA
CTCTGGCTGTGAACTCAGAGGGGCTCCTGGCTCCARGAWTCCTCCRCTTCTTGTCCAGCGTGCTCCTCTCCCCTGGGACCTGTAGCATCGCTGGTCACCA
GACCAGCCAGACACCAAGCCAGTGACCCTCACTCTGCCCAGCATAGCTCCTCCGCAGGGATGCTCTGTGACAGCTGCCCTGCTTTTGTTCCTGGAGGTGG
CCTAGTACAAGGTCCAAGTGGACCCTGCCCAAGGCCTCTGTCCTGCGGCTTTTAGTCTTCTGTGTGTGTGCGTGTATATGTGCATGCATGTGTGTGTGTG
TGTACACGTGTGCACAGGTGCAATGGAATCACCGTCACAGCTACACCAAACTCAGGGAGTCCCCAAATCATCCTGAGCACGGGCAATGGCCTATGACTAG
GGAGTTGGAGGGGGCAGCTGATGGCCAGGGAGGGCTGAAGGGCTGGGCCAAAGGCCAAGGGCCCCAGGATGGTGTCAGCCGCCTCCCTGAGCCCCGGTTC
CGAGTGGGCCTCCCTCTGCCYGCAGTCCCACCAGTGATCGAGAATGGCCTCCCAGACCTGTCCACCACCGAAGGCTCCCACGCCTTCTTGCCTTGCAAGG
CGAGGGGCAGTCCTGAGCCCAACATCACCTGGGACAAAGATGGCCAGCCTGTGTCGGGCGCCGAGGGGAAGTTCACCATCCAGCCTTCTGGGGAGTTGCT
GGTGAAGAACTTGGAGGTGAGGCACTGCCCCAAGGGGCACAGCAGGGAATAATGGCTGAGACCCCTGTTTGTCATGCTCTGCGCTGAGCACTATGCAGCC
TTTAACCCTGGGAGSCTGGGGAAATCAGTGTCACCATCCCGGGTACAGASRGCCAGAACTGAGGCTCAAAGTGTACCTAGTTGTCCACCATTGCCAAGAG
GCARAACCCAAATTTGAACCTGGACCTCGGTAGCCAGCTCCTGGGGAAGGGAGGGAACTCGGACTAGGGCTCAGGGATACGGTGATGACTTTGTGTCCTG
AAAGTCTACCCAGTTGTTGTCAACCATGCGTWGGCATTAACCGTCCTCTGGGTTTTGGGGAGTGTTGAGCCAGGGGTRTGGGTGGGACCCCCAACCTCCT
TCCCCTCAGCACTCATCAKATTCTGCAATTTTATGATGAGACCCTCTCCAGATGGGTTCAGTGGACACACCTAGAGGGGTCAGAGGCATTGGACCCGGCC
ACCCAGGGAGCCTGGGGGTGCAGTGGTGAGCGCACCGGCCCTGCTTGAATGCACCATAAAACTCCTCCTCTTGGAGCCCCTGTTGGGCCCTCTATCAGGG
CACCAAAAGCAAGGCCTGCAGTGCAGGTCAAGTTCTGAGGACAGGGCAGCACACAGTAGGTGTTTGGTAAACACTGGCTATTGCGATCATGCAGTCAGGG
CTGGGGTTATGAAGCAGTAGAGCATGTGAATGCTGCAGGGCTGGGCAGGGGCACGGTGGTGATGCTGACCCGTTTGCTAGCTGTGTGACCTTGGGCAAGT
CACTTCCCCTCTCTGGGCTGGATGCTCCATGAGAACCTTCAAGGGTCAGGGGCATCCTGACCTATGCCGAGGTGGGGCAGTTCTCCGGCCAACCCCTTTC
TTTGCTCAMAGGGCCAGGACGCAGGCACCTATACCTGTACCGCTGAGAACGCCGTGGGCCGGGCCCGCCGCCGCGTGCACCTCACCATCCTGGTACTGCC
TGTGTTCACCACCCTGCCTGGGGACCGCAGCCTGCGCCTTGGGGACAGGCTGTGGCTTCGCTGTGCAGCCCGGGGCAGCCCCACCCCTCRCATTGGCTGG
ACTGTCAACGACCGGCCAGTCACAGGTCTGGGTCTGCTGGGCATGGGTGGGACAGAGAGCCAGGACACCGGGAGGTTAAGAAGGGAGGGCAGGTGGGGAG
ACCCAACCTAGTGGAAAGGAAGAGGTTGTCAGCCAGCCCTGTTGGTTCTGGGTCTTCCAAYGTGGCCCTATGTAGGGGGACAGGGCAAACCCAGCTGTGG
CCATATGTGACAAGCCATATATCAGAGCTGGCAAGAGGCCACCTGAGAAGACTCAACCCAGAGACCTCAGGGCCAGGAAGGGGAGGCCTGTGTTCTAGTC
CAGAGCTGCTGCTCCCATTGTGGGACCCTCAGCAAACCCSTTTTGCTGGGGGCCCGTGGGGACTCTGTCCTCCTACCGGAAACCCAGGTGATGTCTAGGG
AGACACAGGGCCTGTGGAGTACCTGCTGGGTACTCAATGTTTGCTGAATTGATAAATTGCTAAGTCCCCTCCACTGCAAAATGATACTTTCCTACATTAG
GATATGACATCACACATTCCTAACTCTGAGTCCCCAGGTGTGGAATACCCGTGCTCACCTGTGGTGAAGGCTTTGCTCGGCTCCACCACTTCCTGGGGAG
GGACCTTGGGCAGGTATAATAGTTCAGCCTGTCTGAGCGCCGCTCTCCATCTGTCAAATGGACATAACCAGGGGTCCTGAGGACAGAATGACAATGGAGG
GGCCGTGCTCGGCACAGGCCTGGCCCGGAGTAGATGCCCAATTGATGGTACTGCTTGTCTGTATTCCTCTCCTAGAGGTGATGGCCCACCCCAAAGGAAA
AGTTCATTATTAGAATCCTTCTCTCGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGG
AGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACACAATTAGCTGAGCGTGGTGGCACATGCCTGTAATCCCAGCTACATG
GGAGGCTAAGGTAGGAGAATCGGTTGAACCTGGGAGGTGGAGGTTGCAATGAGCTGAGATTGCGTCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACT
GTCTCAAAGAAAAAAAAAAAAGAAACCTTCTCTCTAGAAATCATGGCAGTGTTTCAGTAAGTGTCCTGTGCTGAGAGGCCCCCAAAAACCTGCCCTTGAC
CGTTTATCAAACACACAGTGTGCACTGGAAGATGGTAGAAGGCAGGTTCATTAACCGCAGCCTCCAGTGTGGCCTGTGCCTCCCAGGAACGTGTCTGATT
TGATCAACCTTCACCCGGGACTCCCATCTGTTTCTGCATTTTTATTAAGTTCCTGCAGGTACCCAGGCACCAGGGAAGTGTTTAGGGCAGGAGTTCCCTG
CACCCGACTTCTCTTTCTCCACCACAGAAGGGGTGTCTGAGCAGGATGGAGGCAGCACGCTGCAGCGGGCCGCTGTCTCCAGAGAAGACAGCGGGACCTA
TGTCTGCTGGGCGGAGAACAGAGTGGGCCGCACGCAGGCGGTCAGCTTYGTCCACGTGAAGGGTAGGGCACATTCCCCAGGTGGCTTCTCTCTCAAGACC
TCCAGTCTATTGGGACCCAATCTATTGGTTTCCTAAGAACCCAGCCTCCTGTCCTCTGAACTAGTGGTTCCCCACCCTGGCTGCATGTTAGAATCCCCTG
GGGGACTTTAAATTCTGAAGTCCAGGTTCTACTTCCAACTCTGTAAACCAGCCTCTCTGGGGTGAGGCCTAGGCATCGGTATTTTTGACACTCCCAAGAC
GACCCTGGCTGCAGGTAGAATTGGAATCTGACCAATTGCCCTACAGCACTACCTGCAGCTGGATGGTGCCAGGGTAGGAGGAGAGCATGGAGGCCAGGGC
ATCCTGGCAGAAAAATGCCAGAAGCTTGCCAGCCAGCCAGTTGTCCCCTATGACCTACTCATCCACCAGGAGTAGCACAGGAGCCCTCGGTGACAACGTG
TCTTAGTTTGCACAACCTCAGGATGGGTGGGGCTGGATGGGGGKAATGARCAGCCCCAGGCACCAAAAGAGAACTGCAGCTTTTGGTAGATCCAACCTCA
GGAAACCAGGAAGGATATAAGCCAGTCCAGAGCATCGAAGAGTGTTTTGAGATTAGCATGAATCTCATAGCRTTGCTTTGTACAACAGAGGTGTCTAGGG
TTCTTGTTTTTTYATAGTTATTGATTTCCAAAGTACCTGGCAGGTACTCCGCTGCTAGTGTAATCCATCTGTGAAAGAGAGTATATGACACGCGTAACAC
TGCCTTCCTGCCTGTGCCCATCTCAGGCATCACTAATCAATCACAGCACCATTCTCATTCAGCTTCAAATGCTTCTCAGCACAGTTCTTGGAAAGTCTTT
GCCAGTCTTTGTGACTTGACCCATGACATGAACACTGTTTGCTGTCCCTGATGCACTGACTAAACACAACCATGCTGTGCTAGCAGAAGCCTCTGGAGGC
CCCTGGAGGCAGGAGTTGGGCAGTCCTTTGGGGTTTATGGGAGGCTGAGCCAGCAGGCAACCTCTTTTCTGACAACTTGCTCGATGTCACCCCATGCAGA
GGCTCCTGTCCTACAAGGGGAGGCTTTCTCCTACCTGGTGGAACCTGTAGGAGGCAGCATTCAGCTAGACTGTGTGGTGYGTGGAGACCCAGTGCCGGAC
ATCCACTGGATCAAAGATGGCCTTCCACTGCGGGGCAGCCACCTCCGGCACCAGCTGCAGAATGGCTCGCTGACCATCCACAGGACTGAGGCAAGGCGGG
GCCTGGCACCTTGGGTGGGGCCACTGAGGACAACTCTACGCTTTTTCWGATTGTTCAAGAGGGTTCTTCCTATTGCMCCCTCTGCTTCTGCAGTGTACAA
AGCACCTCCCTGCCCATTCCTCAGATATCCTCCCACTACCACCAATATTGACCTCCAGCCAACTGGGCTTTTCCATTCCTCCGTCATCCACCCATTCAAT
GGAGCGAATTAGTTCTACCTCATAGGATTGTAATTAGAAATCAGTGAGATGTCTCATACCCATTATTTAAGAGTGATCTGTGGGTAATGCCTCCAAAATG
TTGTTATTAACAACCTCAGGGGGTAGGGTAGGCAGGTAATAGTGCTCCCTATTTACAGACGAAGACACTGAAGTTCAGAGAGGCCCACAACCAATAAGTG
CAGGAGGCAGCGCCCCCACCCCCAGGTCTCCTGCCTCAGGCCCCGTGCTGTTTCCAAAGCCTTGGGCCCTGGGGCAGCCCCTCTCAACTTCCCTTTTGTG
TCTCAAGTTCTGGTGATTGTGCAGAAATCCCCAAGTCAGTCCTGACTCAAGTTCATCTTAGGGGCCTTGATCTCACCCATTTGGGAGCCTTTCTCTGGGT
AGTAATGATAATAGGACTAGTAATAAGAGCAGTAGTAAGAGCAGTGGTAATAATGGCTCCTGTTACCCAAGTACTAACTGTGGGCCAGGCAYGGGGCCTT
GCACTTAGCAAGCATTATYCCATGTGATGCTTATAAGATCCTAGCAGTTATCACTCCCATTTTACAGAAGGGGTAACTGAGGCTCCAGAGGCATGAAAAT
GTCCTAAGTAATGGGCTGAGGGCAGTAAGCAGTGGGGCTGGGATTCAGTCCCATGTTGGTCTGAYCTCCAAACCTACACTCTTAACTTTGTGCCATGCTA
TCCCCCCMAGTCCCTTGGGTGTGGCCCCCCAGATACCATCTTCTGGGAGTGGACGTGGCCTCAGGCTGCCCCAGGCCCATCTGATGGTGGCRCTGCCACT
CAGAAGTGATGTGAGCCAGCGCGCCACCTGAGTTCCATCACATATCCATGGGTCACCTGTTAGGGAAACGCTGCAAACGATCTCCCTTCTGGAAGACTCA
CTTTGCACACTGGCACAATAAATGCCCTGAGAGGTCCTGCAGTTCAGACTGCCATCCTGTTCATACAACAGAGGTGTCTCATGTTCTTGTTTTCCTATAG
TTATTGATTTCCAAAGTACCATAACATGTTGTCAACTCAATGTCTCCCAAACTTACTTGACCATGGAACCCTGTTCTCCAAGGAGTCTCAAATAATGTGC
CATGGGACAGTAAGATTTCAACGTACACAGTTTGGAAGAGGTGGATCTACACCATGCTTTTCCAGCAAGTTGTTCCACCTAAGGCAACAAGGACCGTAGT
CACAGCCCCCTGTTTTCGGGTGTGAAAAGGGGCTGGATTCTCTTTGCATGTCTGCTGACAAGTGGTCACAGAGGCCCTTCTGATGCTCTGYGGGGGATCA
GGTGCCCCTGGCTGGTTCACAGCCTAAGCCCCTTGCTGGCTGGCTGCCCTCAGTCCCCTACCCAACTGTCTGAGCCACTCATCTTCTTCTCTGAGCACCA
TGCCTCCTCTCCTGTGCCCACTTGCAGAGGGACGATGCGGGACGGTACCAGTGCCTGGCAGAGAATGAGATGGGCGTGGCGAAGAAAGTGGTGATCCTCG
TCCTGCAGAGTGAGTCTCGGCCTCAGCAGAGTGGGGACGTGGGAAGTGTGCTCGGGGACAGCGGTGGCGTGTGCAGCCTAGAGGGCAGACGGCAGGGCTG
GGACTTGGAATTCTTTCATTAATACTTACTTGGAACACACAYTGAATCCTACCAAATGTTTCCCAAATGTGGGGTGACTGAGACTCAGGACTGAGCTAAA
GAAAACCTGGCAACCTGGGCCTGGGGGAGCTGGGCATTTAAAACTCAGACCAGCCGTCAAGATCACCGCGACAGCTCTCKCATGTGCCAAGCAGCTCGTA
GTTTACCAGGCGCTGTTTGAGCCTCAGAATAACACTGTGAAGTTGTCTCAATAGGGATTCTGTAGAAAATGTTTTATTGAAGATGAACACCTGTGGAGAA
GAGCCAGGATCCTAAGTGCAGAGCTCATGAATTTTTACAATGCGAACCCACCCAGTTAACCAGCAACCAGATCAAAGAAATAGGACAGTGCCGGCTCCCA
GCCTCCAGCATGCCCACCTCTGCTTACTGCCCCCTGCCCCAATAATCACTGTCCTGGATTCTGCCTCTTTAAAAAAAAAAAMAACAAACTTTATTGAGTT
ATAATTTGCATACCATAAAATTCACCCGTTCATGCAATGCAATATTATTTAACCTTAAAAAGGAAGGAAATTCTAGGGCTGGGCTCGGTGACTCACAGCT
GTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTGGGGTCTGGAGTTCAAGAACAGCCTGACCAGCATAGTGAAACCCTGTCTCTACTAAAA
ATACAAAAATTAGCTGGGCGTGGTGGCACGCCTGTAATCCCAGTCATTCAGGAGGCTGAGGCAGGAAAATCACTTGAACCCAGGAGGCAGAGGTTGCAGT
GAGCCAAGATCGTGCCATCGCACTCCAGCCTGGTTGACAGGCAAGACTCAATCTCAAAAAAAAAAAAAAAAAAAAAGAACAAAAGGAATGCAAYGCAATT
CTGACACAGGCTACAACATAGATGAACCTTGAGGTCATTATGCGAAGTGGAAAAAGCCGGTCACAAAAAAACAAACACTGTATGATTCTGTTTATATGAG
GGGCCTAGAGTGGCCAAAAGCATAGAGACCCAAAGTAGTATGGAGCTTGCCAGGGGCTGCAGGGAGGGGAGAAGGGGGAGTTAGAATTTAATGAGTCCGG
AGTTTCAGTTTAGCAAGAGAAAAAAGTTCTGGAGATTGTACAACAATGTCAAATACTCAACACTACTGAAGTGTACACTTACAAATGGTTCAATGATAAA
TTTTATGTAATGTTTTTTTTTACAACTATTATTGTTACTAATATTTTTTGAGACAGGGTCTGGCTCTGTTGCTCAGGCTGGAGTGCAGTGGCGCCATCTC
TGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGTTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCGCACGCCACCACACCCGGCTAATT
TTTGTATTTTTAGTAGAAACGGGGTTTCACCATGTTGGCYAGGCTGCTCTTGAACTTCTGACCTCAGGTGATCCACCTGCCTTGGCCCCCCAAAGTGCTG
GGATTACAGGAGTGAGCCACTGCACCCAGGGCTTGTGCTCATTCTTAAATGGAGTTGTTTATTTTACTAGTGAGTTTCTAGAGTTCTTTACATAGCATGG
ATATAGCCCTTTATCAGATACATGATTTGCAAATATTTCTCCCAGTCTGTGGCTTGTCTTTGCATTTTCTTAATGGTGACTTTGAAGAGCAAAAGTGTTA
AAATTTGGTGAAGTCCAAATTTATCCATTGTGTATTTTTTGAATCATGTATTTGGGGTTACACCTTTTAAAAATCTTTGCCTAATCTAAGGTCGTCTTTT
TCTTTTCTTTTCTTTTCTTTCTTTCTCTTTTTTTTTTTTTTTGTTTTAATATTTTTGGGRCAGAGTCTCACTCTGGTGCCAAGGCTGGAGTGCAGTGGCA
AGATCTCAGCTCACTGCAACTTCCACCTCCAAGGTTCAAGCAATCCTTGTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACGCACCACCACACCCG
ACTAATTTTTGTAATTTTAGTAGAGACGAGGTTTCRTCGTGTTGCCCAGGCTGGTCTCGAACTCCTGGCCTCAAGCAATCCACCTGCCTCGGCCTCCTAA
AGTGCGGATTACAGGCAKGAGCCACTGGGCCCTACATTTTCTTATAYGATTTTTGTAGTTTTAGTTCTCACATTTAGGTCWGTGATCCATTTTGAGTTAA
TCTTTGTGTGGGGTAAGGGTCTAACTTCCTTTTYTGCATACGGATAGCCAATTGTTCCAGTACCATTTATGTTGATCTTGAATTTCTTTCAGTGATGTTT
TGTAGTTTTGAATGTACTGGTCTTATATTTTTGTTAAATTGATTTTAAGTCTTTTTATTATTGTTGATGCTATTTTGGGTGGAATTGTTTTCTTTSATTT
TTGGATTTGTAATTGCTAATATGTAGAGATACAGTTGAATTGATATCATATCATCTATGAATAGGGACAGTTTGACTATCTTTCTTTCAAATCTGCGTAC
CTTGAAGTTTTTTGCTTTGCCTTATTGCCTTGGTTGGACCCTCTGGTACACAGTTGAAGCAGCGAGAGCAGCCATCCTTGCCTGGTTCCCTGGTTTAGGT
GGAAAGCAGTCAGTCTCTCACCATGGGGCGTGATGTTAGCTGTGAGTTTTTGTGGATGCCCTTTCTCAGGCTGAGGAAGTTCCCCTTTTGTACCTAGTGT
GTTGAGAGTTTTTGTCATGCATGGAATAGGTTTGTGGTCCAGACAAGATGGTATAGATGCACTTCTCCCTATTTCTCTTGCTAAGGACAGCTAAACACCT
TGGACTTTATATAGAAGCAAACATAAAGAGCCTCTGAAAAGTAGAGAAAAGAAGGAGGATAGACTACCGATCTTGGGACCTGAGGAGCAGCATGGTGGTG
AATGCCCTGGTGTTTCTTTTTGTCCCTTATATCCTGGGCCGCATACTTGAGAAGCCAACAACCTGGAACCACCAGTGGGCTCAGACACACGCATGTGCAC
RTGCGCACACACACGCACRCACACACACGGGGGCATGTGCACCTCAACRAGAGCCTGTCCTCTCTTGCAAAGGACTAGGAAAGGGACAGCATAGTAAGAA
AGAAAACTTGTAAATAACAACCCCTAACTGGGTGTGGTGGCTCGTGTCTGTAATCCCAGCACTTTGGGAGACTGAGGCAGCCAGATCGCTTGAGCTCAGG
AATTTGATATCATCCTGGGCAATATGGTGAAACCCCATCTCTACGAAAAATACAAAAAAAAAAAAAATAGCTGGGCATGGTGGCGCACACCTGTAATCCC
AGCTACTTGGGAGGCAAACACCATGAAAAACACCCCTGCCCCATCATCACACCAACTGGGAGCCTCTAACTTCCACCCTCGCCCCTGTACCGAGGCACTG
CTCTCCCCACACTGGAGCAGGATGCTGTCAGGTGACACCTAATGAGGAGACAGAATTGTCACCACTGTCATCTACTGAGTGGGAAGCTCCTCCCCCGTGT
GGCCAGGTGGGCAGCGARGGTAGTGCCAGCAGAGGCCCGGTGTGGGCGTGCCTCCACCCATCCACCCATGCTCAGCAGTAATGAGGCACCCCTCCCTGTT
CCGGGCTGACCATGGAAGCCTCATAGGGAACCTGGGCTTCCACGCTGACCTGGCGGAAGTGAGTGGCACCACTTTTTCTTGGCAGTTTTATAGCTCTGCC
AAAAACGGAAGATTTAAATAAAAATCCGAGTCTTACAATACTGAAACTCACTTACACACCAGGAACAAGGAAAAGCTCAACTTACACACCAGGAACAAGG
AAAATCTCAATGAAAGCAGACAACAGATGCCTACTGAGATAGTACAGATATCAGGTAATCTGATAAGGACTTTTTTTTTTTTTTTTAAGACAAGGTCTGA
CTCTGTTGCCCAGGCTGGAGTGCAGTGACATGATCAGGGCTCACTGCAGCCTGGGCTCGGGTGATCATCCCATCTCAGCCTCCCAAGTAGCTGGGACTGC
AGGCACGTGCCACCACACCCGGCTAATTTTTATTTTTATGTATTTATTTTTTGTAGAGACAGGGTCTCCTTATGTTGCCTAAGCCAGTCTCAAACTCCTG
GGCTCAAATGATCCACCTGCCTCAGCCTCCCAAAGTGGTGGGATTACAGGCATGAACCACTGTGCCTGACCAAGACTGAACTGTCACCACTGTCACCACT
GAGTGGGAAGCCCCTCGCCTACACAGGCCGAGTGGGGAGCAATAAGCAGTGCCCCTCTCCCTCCCAGCCAGGATGGTGCCAGCAGAGCCCCACTTGAAGC
GCCAACTCCCACCGATCCCCAGCAATAATGAGGCACCCTCCCTGTTCCCGGGTGTCCATGGAGGCCACGTAGGGAACCCGGACTTCCACTCTCATCTGGC
AGAAGTGAGTGGCACCTCCTTCCCCTGGCAGTGTTCCAGGTCTGCTAAGATGGAAGATTTAAATAAGAGCCCAAATCTTATCATACTGAAACTCACTTAT
CATACCAGGAACAAGGAAAAATCTCAGCTTGAATGAGAACTGATACTCAACAGACACCAACTGAGATAGCACAGATGTTTGAGTCATCTGATAAGGATTT
CCTTTTTATTTTTTGATGGGGTCTTGCTCTGTCACCCAGACTGGAGTGCAATGGCACAATCACAGCTCACTGCAGCCTTGACCTCCTGGGCTCAAGCAAT
CCTCCCACTTCTCAGCCTCCCAAGTAGCTGGGACTGCAGGTGCATACCACCATGCCCGGCTACTTTATTTATTTTTTGTAGAGATGGGGTCTTGCTATGT
TGCCCAGGCTAGCTGACAGGGATGCTTCTGTGAGCAGTTGTCAACATGCTTGAAACAAGTGAAAAAAACAGAAAATCTCAGCAAAACGTGGCTGTGGAGT
AATTTGAAGTTCAGGCAGTTTTCAAGTTGGCCTCGGTTTACTGTCCTTTGTACCCCTCAGGTCTCCCCTGCACAGGTGCATATTTCCCACGATGGCCAGG
GATTGTGGGGAGCCAATCCAGCCTGTCCGTGGCTCCTTCATTTCCAGGTTCTCSCCGTTCAGTTGCTGGCTGGGTCCCTGCTCTTCTCAGCCAGGGCCAT
GCCGCAGGCCAGCACAGCAGCCATTTCCCTTTTGGCTCCTACCAGTTTTGCCCCTTTTCCTGATGATATTTCTCAGGGCATACTTTCATCCTCTACTGCA
CATCAAGGCAGCCCCCAGGGGTGGCAAAAGCTGCTGTTTTTCACAGCCATCCCTAATAAAACCACTGTGATGGTCACGGTGGGGTAGGGATGGGCACAGC
CCCAGGCAGGAAGGCCAAAGGCTTCCACTGTTCTTATCCAAAGTTCTAGAGGCTTTATTTWTTTWTTTTTTTTTTTGGAGACAGAGTCTCACTCTGTCAC
CCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGATTAC
AGGCACCCACCACCTTGTCCAGCTAATTTTTGTAATTTTAGTTGAGACAGGGTTTCACCATGTTGGCCCGGCTGGTCTCAAACTCCTGACTTAAGGTGAT
CCACCYGCCTCGGCCTCCCAAAGTGTTGGGCTTACAGGCGTGAGTCACTGCGCCTGGCCTCGACCTTCATTTAAGTGGAATCACCCCACACGTGCTCTTG
CGTAGACTCTTCTTTTGCACATCATAATTTGTGGCATTCGTCCATATTGTTCACGTGGAATTAGTTTATTGGTTCTCATTGCTGTGTGTTTTTCTGCTAC
ATGGATGTACCACAGTTTATTCATGTATTCCACTCTAGGTTAGTTTCCAGTGATGGGCGGTTAAGAACAGGGCTGCTGTGACCTTACGCACGCCCTCCAG
TGAACACGCACACACACCTGTGCTGGGGTATTCGTCCAGGAGCAGAAGCGCTAGGTCTCACAGTACACATGTGTTCCACTTTAGGACACACTGGCTGTGG
TAGTATCTGATGAATGGCCTCCAAAGATATGTCCAGGTCCTAGTCCCCAGGGCCTGTGAATGTTTCCTTACTTGGAAAAGGAATCTTTGCAAATGTAATT
AAGTTAAGGATCTTAAAGTGAGCACATTATCTCGGAGGCCCCTAAATGCTATCACAAGTGTTTTATTTATTTATTTATTTATTTAGAGATGGATTCTCAC
TCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTACTGTAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGTGTCAGCCTCTCAAGTAGCTG
GGATTACAGGCACAGACCACCACACCTGGCTAATTTTTGTATTTTTTAGTAGAAATAGGGTTTCACCATGTTGGCCAGGCTCTTCTCAAATTCCTAGGTT
CAAGCAATCCACCCACCTCAGCCTCCCAAAGTGCTAGGGTTACAGGCATGAACCACCATACCCAGCTGCAAGTATTGTTATAAAAGAGAGCCGGGGCCGG
ACATGGTCGCTCATGACTATMATCCTAGCACTTTGGGAGGCCGAGGAGAGTGGATCACCAGAGGTCGGGAGTTTGAGACCAGCATGATCAATATGGCAAA
ACCCCGTCTCTACCAAAAATACAAAAATTAGCCAGGCGTGGTGGCACACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAAGC
CGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTACCACTGCACTCCAGCCTAGGTAACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAA
YGAGAGAGACAGAGAGCTGGGGTGGTGTGGCAGGGGAGAGAGAGAGAGAAGAGAAGGTAAAGTGGAGACAGAGGCAGAGGATGGATTGTTGCAGCCTCAG
GCTAAGGAATGCTGGTGGGGCAGAAGCTGGAAGAGGTGAGGAATGGGCTCTCCCCCAGAACCTCTGGAGGAAGCAGGGCACCTTAACTTTGGCCCAGTGA
GGCTAATGTGGGCCTCCTGGCCTCCACAGTTTCTCCTGTGTTTCTGCAGCTTGCTGCAGCATCTGCAGGAAGCGAACACACAGGCACACAGCGCCCCACC
TTGGCTGAAGCACGTTGCATTTCCACCTCAGTGTGTGCGAGTTCTGCTTGTTCCGCAGCCTCACCAGCACTGGGCCTTTCCCATCCTTTCCATACTAGCC
TTCCAGGAGGGTCTATAATAGTAAGTGGACAGGAAGCATCATCCCCATATTTCAGAYGGGAACACTGAGGGTCAGGGAGTGACTTGGTGAGAGCCACCCA
CAGTAGGTGACAGAGCACGAGTTTGCCCWTTTCATTGGCATCAACTAGAGGCAGTTCTGACAGATGGCCCCCCACTTCATTGGAAGCAGTCTAACTGTCC
TATAGGAGAGGCTTCATTTAGCYAATCCCAATACAGTCAGGCAATAGAAGACTACCTAGCCACTAACAACAGATATGTAACTGCATGGAAAGGTAGTTAC
GATCTATTGCAGAGGAAAAATAAAAGCAGATGGCCGGGCGTGGTGGCTCATGCCTGTAACCCCAGCACTTTGGGAGACTGAGGCGGGTGGATCACTTGAG
GTCAGGAGTTCAAGACCAACCTGGCCAATATGACGAAACCCCATCTCTACTAAAAATACAAAAATCAGCCAGGTGTGGTAGCAGGCGCTCTTGGGAGGCT
GAGATGGGAGGATCGCTTGAACCCAGGAGGCAGAGATTGCAGTGAGCTGAGATCGCACCACTGCACTCCATCCTGGGGGACAGAGTGAGACTCCATCTCA
AAAAATAAAATAAAAGCAGATACGGCCATATGATCATATTTTCATAAAGAAACAGTGTCTAGAGGGAAATATTCAGGAACGATGACTGGGTGGAAGGATC
CTATGCAGTTCTTATTTTCTTCTTTCTGCTTCTCTGGATTTCCCAGTGTGTCTAAATGAACATATCCCACTTGAATATGCAAAAATAATTAAATGTTCCT
AAAAGCCACCTGGGCCTCCCACAGGTGCTCCGGTGTTCCAGGTGGAGCCCCAGGACATGACAGTGAGATCTGGGGATGACGTGGCCCTGCGGTGCCAGGC
CACTGGAGARCCCACACCCACCATTGAATGGCTACAGGCGGGTCAACCYTTGCGGGCCAGCCGGCGGCTCCGGACCCTGCCCGATGGGAGCCTGTGGCTG
GAGAACGTGGAGACTGGGGATGCAGGCACCTACGACTGCGTCGCTCACAACCTCCTGGGCTCTGCCACAGCCCGGGCGTTCCTGGTCGTGAGAGGTATGG
GGCATCCCTGTCTGGACCTTCGTGGACAGAGGCAGGATCTCTTGCCGATGGGGATTGTGTGGTGCTTATGGGAGACCTGTCCCCTGCCTTGCCAGCTCCC
CACCTCTTCCCTTTGCTTCATCACAAGCCCAGAATGAACCCCTACCCTGCCCGTTTACAGTTGGGTAAACTGAATCTTGGAGGTGCTGTTTGCTGCTCAT
CTTGGACAGGGAACACAGGTTGTTCCTGCTTAACTGGCACAAATGCATGTCCTCTGTCTGGACACTGCACAGCCCCTGGAAGCAGGCAGAGGAAGACAAG
GGCATCCCCGGTGCCCTCGGGGGCTGCTGTGAAAAGTCTGTGCATCAGTGCATGTCCCAGGCATCACACATTGCCTGGCCGTGGCAGGTGGTTGGAAAAG
AAATGGCTTCCTGGTGGGATGGACCCCTGCCATCTCGATTCCTCAATCAGCTCCCTTCTACCTTGGGTCAGACCAACTTTAAAATTAAGAAAAGATCTAT
CCTGAGAAACCACAGTAAATGGATTCAGACCTGCATAAAGGCAAGTCATAAGATATTATTTCTGTGGCCTGTGCCTCTGAAGGGAACACTCCATATATGT
GGGGATGTGTCCCCTTCCCTGTACCTGGCAGACATCACTAATCTATCACCACATGGGAACACTCCCTATGTGTGGCGATGCATCTCCCTCGCTGTCCCTG
GCAGACATCACTAATCTATCACCACATGCGTTGGCAGAATCTTTCTCCAATGAGCCCTCCCAGGCAGCGCCTCTCAGCTAATTGGAATTGGGACTTGACA
CTTGGCCACCTGGAAATCCACGTGAAACCCACTGCCAACCAAATGTGGGACCCTTTCTGGCCGTTGCTCTCATTATCTCCCACAGGCCGGGGCAGGGTAC
CAACCTATGCAGCTCTGAAAGTTCAGCGGTTCTCTGACCCCCCAGCCAGAGATGCAGTCTCAGAGTTAGCCTTGGGTCTAAGCAGACCCCCATGTATTTC
AGGGCTTCGTCCCACTTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCTCACTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGTT
CACTGCAAGCTCTGCTCCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACCCGCCACCATGCCCGGCTAGTTTTTT
GTATTTTTAGTACAGATGGGGTTTCACCGCGTTAGCCAGGATGGTGTCTATCTCCTGACCTCGTGATCCGCCCATCTCGGCCTCCCAAAGTGCTGGGATT
ACAGGCGTGAGCCACCGCGCCCGGCCCGTCCCACTTCTTACCCTCTCCTGTTGGCAGGCCCCAGTCCCAACCACAGAGCTATGTACATGGCCTTTGTATT
TGTTCTGTAGGGCTACTGGTAAAAAAACAAAACAAAACAAAACAAAACAAAACACCACAAGCTGGAGGCTTAAGCCACACTGATTGTCTCATAGTTCTGG
AGGCTGCAAATCCAGGATCACACTGTCAGCAGCCCTGGTTTCTTCTGAACACTGTGGGGAGGATCTGGTCTGGGTCTCTCTCCCAGGGTCTTGGTGGTGG
TCCTCGGCATTCTGTGGCTTGTCGAAACATCACCCCCACCTCTGCCTTCATCTTCCCTGTGTGTGTCTACACTTCCCTATTTATAAGGACACAGTCATGT
TGGATTAGGCCTGCCCTAATGACCTCATTCTAACTTGACTTACTCTATAAAGACCCTATCTTCAAATAGGGTCACATTCTGAGGTCCTGGGGGTTAAGAC
TTCAACGTATGAATTTTGGGTGGTGTGGTAGCATTCAATCCATAACCCAGCCTCCTTATTTTTTTTTAATAGAAACAAATATTCTTCCTTTATATATGTT
AACTGTAGAAAGGCCAGATACTATAGAAATCTGTGAAGAAGAAGGTAATTCTCTCCCATAATTCAGTGACCCAAAGTAGCTTAAGCAATTATTTGGGGAG
ATACATTCTTCCACACTGTTTTCTCTGGATAGAGGAGATACACTTTTCTTTTTACAAATGTCAAATTTACACCCTCTATAACCTGCCATTTTTACTTCCT
CTATCTTGGAAGACATCCAATTATGATACACATCGGTCCACAGCTTTTTGATTGGCTTCGTATCATTCCATGGGAACGTTTTTTATCTTCGTTCGTGTTG
GCTTTGTCAAATGAGCAACGTAGTTTATTTTCCTAGTTTCCATTCCCCAAAGCCACACCGTGCTGCGTATCTTTGTGTGTGGCCCTGAAGATTTCTGTGG
GACGATTTCCTTAAGGGGCATGGGTGGGTGAAGGGAGTTCAGGGTTTGGGAGCTTCTAAACCTGTTTTCCCTCCTGAAAACCTGCTTTTCCTCCTTCCCC
ATCAGCCTGGCAGGTCCCAATCCTGGCCTTGTAGGGGGACAAGAGGCTGCTACGTCACTCCATGTCTGAGAGAGCTGGCGGTGGCTTGCCTGCCGTGCCT
GGGTTCCATTTCCTGTCCCCTTCCAAAGCTGCGCGGGTCACACTCCAGCCTTCTCATCTGCAGCTCCCGATCTCTTCTTCACTCCCCTATTAAAAGGCCA
GGGATAGGTTCACGGCCCTTCTCCTGTCCCTCCCATGGGCCCCAGAGCATCGGATACTGATGAGAAACATCCCAGATGGGCTTCAAATCTCATCAAACCC
CAGCTATGGGCTGCAGGAAATGGCCCTGCTTCCTAGAACCCCAAATTAACCAGCCCCTTGATTCATCCATTTAGGATCCTAGCACTTGAGTGTTTTATGT
TATTTTTTGACAGATCATGGGCAATTTGTTGCTAATTTCCCCTGAGAGCTGCTGAGTGGAGAGGCAGGCTAACTTCTGTCTCTCGCCCCCTGGAATGCCA
TCTGCCTAAACAAGACAGCTGGCGCATTAGTCAGAGGAAGCACCCCCCTGTGCCTGCATCATCCGTTTGATTAGCGCTAAAGAGCATCTGCTCACAGATG
GCCTGGCGGGCAGCGGCTAGGAAACCAGCCCACCCGGCCAGGCCAGCTGCAGGGCAGCCAGGGCYAGCAGCACTGATGGAATGGGGCTGTTCAGGTGATG
GCACCCGGCTCTGGCTCGGTGCCCTGGCTCCTTCAGTGTGCCAGCCACGCCATCGTGGGCTCCCGGCATTTCAGAGACCCACAGGTCTTCTGTGAGTTTG
TGGTCCCGCCTCCTCATTTTACAGGTGAGCCAACTCAGGTGTGGCTTGGGGGCCTGAGGTGGCCAGGTTTTAAGGAATGGCAGAGCCAGAATTAGAAGCC
AGCTCCGCCCTGAGCCCAGGGTTCCTCCTAACAGCCTCCCTTCCCTTTTAGAGCCAAGATCCCCTGGGCGTTGAGTCCATGACCCCTTAGCTGTGTGTCC
TTGGACAAGTGGAGGTGAACTCTCCGAGCCTCCATTTACTCCTTCACGAAATGGGAATGACAGCCTGCTTGTGCTGTGGGCCCCGGGGTGGATAGTCAGT
GGCACTGTCATTCTTTCCCTTCCTTACAGGGGAGCCCCAGGGGAGCTGGGGCAGCATGACTGGGGTGATAAATGGCCGGAAATTTGGCGTGGCCACACTC
AACACCAGCGTGATGCAGGAGGCACACTCCGGGGTCAGCAGCATCCACAGCAGCATCCGCCATGTCCCAGCAAACGTGGGTGAGTGGAAGGCAGAGCATC
ACCTGCCTCTGGGTTATTGTCACAGCCCAGCGAGCATCCTCCAGAACATGCTGGACCTAGGAGGCGCAGAGCCTGTGCCCCGAGACTTGCTCAAGGCCTG
ATGACCAGAGCACGTCTGACCATCTCTCAAAGCTGAGTGCAATCCAAAGTGGACTCAGATGCAGGCAACTTCCTGTCCCCCTCACAACCTCCCAAAAACA
AAGGAACTGCATTTACAGTCAGACCAAGAGTGTGTGAAACGGTCAGTGTTCTGGGGGTGCGGGCGCTCAGATTGTGGTTTCCCAAGCCACCGATGGCTCC
CTGAGGCTTTTCCCCATTTAAGTTAAAGCTCAGGCTGATGGAAGTGGAGGGATCTCCAGTCATGAGTGAGGGGTGCAGGCTGGAGGTGACGGGAAGCGGG
AAACATGGAGAATTGAATTGCCTAGAAAACCTAGAGGACTAAGAAGAGTCACCTGCACACAGAGCTCTCATGTACGGTGTCTGAGCGATGAATGCTCTGA
GAGACTTGCAGAGCTTGTGACAGTGGACGTCACTGTCTCTCCCTTCCCAAGGAATCCCTGGCCCCTCGTGGGGGTCCAGGAGGGGCAGTATTCATGGAGT
CTTCACTGAAAGTAGCTCCTCTGAAGCTGCCCTTGGCCATGGTCCCGCATGAGCAGTGTGGGGTCAGGGGATTTTGCTGGGGAAGTCACTCTGAGCTGGC
TGTCAGCAGACAGCAGATGAAGCGAGACGCTGCCCAGACATGGCTGCTTATTCTAGCTGCAGGAGTGTGAGGCCTGGAGAAGCATCTGGCCCCAAGCCCG
TGGACCAGGCTTTGTTCCATGAAACAGACGCACAGAGAGGCTGGGAAGGTGGTGCCCATGCACAGGGGCCTGGCCAGCTCCTGTGAACCTTGCAAAGCTG
GCACCGTCCCTGACTCAGAGCAAGTGGGGAGCGGGTGTGTTCCCCTTGCCCAGTCCATGGCCCCACCTGGTCCTGCGTGGAGGGCGGGGCATCACATGAA
GAAGATCTGAGAATCCACGTCCAGGGCCATTTTTTGGTTCTTTTTTCAAACGGTTTGGAACAAACCGGGGCTGGTCCAGAAGGGATCTGCAAGTTAGAAA
AGTTGGTTCACTTCAACTCAGCAAATATATAATGACAGTCTGTGGAGTCCCTGGCTCCGTGGTGACCCGGGGCCCTCAATCGGTATTTGTTGAACTGAGT
TAAATATCAACAAGGTACATGCATTTATTTCTTCTTTTTTTTTTCTTTTTGAGACTGCTTCTCGCTTTGTTGCCCAGGCTGGAGTGCAAGTGGTGCAGTC
ACAGCTCACTGCAGCCTCAACCTCCCAGGCTCAAGCGATCCTCCTACCTTAGCCTCCCCAGTAGCTAGGACTATAGGTGAATGCCACCACACCTGGCTAA
TGTCCATATATATATATATATATTTTTTTTTTTTTTAATTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTAGAGTGCAGTGGCATGATCTT
GGCTCACTGCAAGCTCTGCCTTCCGGGTTCACACCATTATCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGACGCCTGCCACGGCGCCCGGCTAATT
TTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGACTGCCTCGGCCTCCCAA
AGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCTGTCCTTAATATTTTTATTTTTTGTAGAGACAGAGTCTCACTATGTCGCCTAGCATTTCCTT
GTATAAATTTATTAATTTCAGTTACTCCAGGAAGTAGATTATTTGCCTCCACCAGATCCCTGATTCTGGTTAAATAATTGGCATGGCAGTCACAAGGCTG
AGTATGGACATCAAGGGAAGGGGCTGAGCTCTCCTGGGGGCAGTGGGGAGCCATGACGGGACCTTGAACAGGAGGTGGCTGCCCTGAGGATCAGCTCTAA
CCCGGCCTCTATGCCCTGCCCCACCCAGGGCCTCTGATGCGGGTGCTCGTGGTCACCATCGCCCCCATCTACTGGGCCCTGGCCAGAGAGAGTGGGGAAG
CCCTGAATGGCCACTCTCTGACTGGGGGCAGGTTCCGGCAGGAGTCACACGTGGAGTTTGCTACAGGTAAACAGGGCCTCCCCCAGGTGGGCCAGGTAGG
ACTAAAGCCTGCGCCCAGGACCTCCCGTGGTGACTCTGGGCTGGGTGGGGATGGTTTGCAGGGGAGCTGCTCACGATGACCCAGGTGGCCCGGGGTCTGG
ATCCCGATGGCCTCCTGCTCCTCGACGTGGTGGTCAATGGCGTTGTCCCCGAGAGCCTGGCTGACGCAGATCTTCAAGTGCAGGTCGGGGGTCAAGCCCT
GGGGTGTGCAGACAGGGTAGGTGAGAGAGACGAAGGTGCCCGGCTCTCAACCACCCCTGAGCAGCCAGGCCCACTCTCCCTTCTGACAGCGCTGCAGGGC
TGGGTCACAGTCTAGCCTTGGACTTAGGGTAGGATGAGCAGTTGTAACAGGCTCAAGTTCAAGCGCTTGAAGGGATGCTCTGAGCCCTGCGACTTCAGAT
CAGAGTATTCTTGTTCAAAAGCACGAGTCCTGAAGAGAGGTGAGCTGCCTAGAGCAGCCCAGCTGGTTAGAAGAGGCTCTGGGAGGCTCACCCCATCTCC
TCCCAAGGCTCACCCCATCTCCTCCCAAGGCTCACCCCATCTCTTCCCAAGGCTCACCCCATCTCTTCCCAAGGCTCACCCCATCTTCTCCCAAGCCTCC
TCAAGCCCCTGAGTTGGGGTAAGGGTCTCAGGCTG


SNP Information

Context             (SEQ ID NO:32114):
GGACCGTAGTCACAGCCCCCTGTTTTCGGGTGTGAAAAGGGGCTGGATTCTCTTTGCATGTCTGCTGACAAGTGGTCACAGAGGCCCTTCTGATGCTCTG
Y
GGGGGATCAGGTGCCCCTGGCTGGTTCACAGCCTAAGCCCCTTGCTGGCTGGCTGCCCTCAGTCCCCTACCCAACTGTCTGAGCCACTCATCTTCTTCTC
Celera SNP ID:            hCV1768100
SNP Position Genomic:     30691
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32115):
CAGAAGGGGTAACTGAGGCTCCAGAGGCATGAAAATGTCCTAAGTAATGGGCTGAGGGCAGTAAGCAGTGGGGCTGGGATTCAGTCCCATGTTGGTCTGA
Y
CTCCAAACCTACACTCTTAACTTTGTGCCATGCTATCCCCCCCAGTCCCTTGGGTGTGGCCCCCCAGATACCATCTTCTGGGAGTGGACGTGGCCTCAGG
Celera SNP ID:            hCV1768101
SNP Position Genomic:     30065
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|C,11)   total(C,11|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32116):
TCTCTGGGTAGTAATGATAATAGGACTAGTAATAAGAGCAGTAGTAAGAGCAGTGGTAATAATGGCTCCTGTTACCCAAGTACTAACTGTGGGCCAGGCA
Y
GGGGCCTTGCACTTAGCAAGCATTATTCCATGTGATGCTTATAAGATCCTAGCAGTTATCACTCCCATTTTACAGAAGGGGTAACTGAGGCTCCAGAGGC
Celera SNP ID:            hCV1768102
SNP Position Genomic:     29892
SNP Source:               Celera
Population(Allele,Count): no_pop(T,8|C,10)   total(C,10|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32117):
GGATATAAGCCAGTCCAGAGCATCGAAGAGTGTTTTGAGATTAGCATGAATCTCATAGCGTTGCTTTGTACAACAGAGGTGTCTAGGGTTCTTGTTTTTT
Y
ATAGTTATTGATTTCCAAAGTACCTGGCAGGTACTCCGCTGCTAGTGTAATCCATCTGTGAAAGAGAGTATATGACACGCGTAACACTGCCTTCCTGCCT
Celera SNP ID:            hCV1768103
SNP Position Genomic:     28613
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32118):
CACCTGAGAAGACTCAACCCAGAGACCTCAGGGCCAGGAAGGGGAGGCCTGTGTTCTAGTCCAGAGCTGCTGCTCCCATTGTGGGACCCTCAGCAAACCC
S
TTTTGCTGGGGGCCCGTGGGGACTCTGTCCTCCTACCGGAAACCCAGGTGATGTCTAGGGAGACACAGGGCCTGTGGAGTACCTGCTGGGTACTCAATGT
Celera SNP ID:            hCV1768104
SNP Position Genomic:     26740
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|G,7)   total(G,7|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32119):
CAGGACACCGGGAGGTTAAGAAGGGAGGGCAGGTGGGGAGACCCAACCTAGTGGAAAGGAAGAGGTTGTCAGCCAGCCCTGTTGGTTCTGGGTCTTCCAA
Y
GTGGCCCTATGTAGGGGGACAGGGCAAACCCAGCTGTGGCCATATGTGACAAGCCATATATCAGAGCTGGCAAGAGGCCACCTGAGAAGACTCAACCCAG
Celera SNP ID:            hCV1768105
SNP Position Genomic:     26561
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32120):
AGCCAGCTCCTGGGGAAGGGAGGGAACTCGGACTAGGGCTCAGGGATACGGTGATGACTTTGTGTCCTGAAAGTCTACCCAGTTGTTGTCAACCATGCGT
W
GGCATTAACCGTCCTCTGGGTTTTGGGGAGTGTTGAGCCAGGGGTATGGGTGGGACCCCCAACCTCCTTCCCCTCAGCACTCATCATATTCTGCAATTTT
Celera SNP ID:            hCV1768106
SNP Position Genomic:     25632
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,8)      total(A,4|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32121):
TAATGGCTGAGACCCCTGTTTGTCATGCTCTGCGCTGAGCACTATGCAGCCTTTAACCCTGGGAGCCTGGGGAAATCAGTGTCACCATCCCGGGTACAGA
S
AGCCAGAACTGAGGCTCAAAGTGTACCTAGTTGTCCACCATTGCCAAGAGGCAGAACCCAAATTTGAACCTGGACCTCGGTAGCCAGCTCCTGGGGAAGG
Celera SNP ID:            hCV1768107
SNP Position Genomic:     25450
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,12)   caucasian(C,6|G,20)   total(C,16|G,32)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,7)      total(G,5|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32122):
AGTGGCCTGCTTTGTGGTATCTCAGTGGCCATCCCCGCCCGCAGCTATGTAGGGCTGGAGTCAGACTCTGGCTGTGAACTCAGAGGGGCTCCTGGCTCCA
R
GATTCCTCCGCTTCTTGTCCAGCGTGCTCCTCTCCCCTGGGACCTGTAGCATCGCTGGTCACCAGACCAGCCAGACACCAAGCCAGTGACCCTCACTCTG
Celera SNP ID:            hCV1768108
SNP Position Genomic:     24636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32123):
CAGATGAGGCAGGGACAGTCACATGTCCCAGGTCCACTCCAGAGGAGGGGGCAGCGTCTTTGCTCTTGGGGGTGACTCTCGTGCCTGAGCCCAGGCCTCT
R
TCCCGTGTCCCTGCAGGAGGCCGGGTCCTGCAGATCCCCCTGGTGCGGGCAGAGAACGCCGGGAGGTACTCGTGCAAGGCCTCCAACGAGGTGGGCGAGG
Celera SNP ID:            hCV1768140
SNP Position Genomic:     2426
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(A,6|G,34)   total(A,11|G,63)
SNP Type:                 TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:32124):
GGCAACTGAGGGGCTTTGAGGCTTCTGCAAGCTTCTCCCTTCTCTGCCTGGCAGGGCACACTGCTTATAGTTCTAGAAGGAATTAAGGGGAAAACATCTC
Y
CATTGTGCGCCTGAGTTCTGGTTTCAGACATAAATTCCCATCCCCTCTGCCTTCTCTCTGGCCCTGTGGAACACAAGTCTAGCATCCCTCATTCATTCTG
Celera SNP ID:            hCV1768109
SNP Position Genomic:     24265
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,3)   caucasian(C,29|T,5)   total(C,32|T,8)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32125):
CTGGTTCTATTTACATTTGTGAATAAAACATAGAATGGGAACTCCTAACTACCAGGAAGGGCTTCTTAGGCCTCCCTGATCTGCCTGAGGGGAAGGAAAT
Y
GGGGAAGAGTCTCAGAATTCTGACAGTCTGGCTTTCTTCCTGCAGTGCCCCCAACATTTGAGAACCCCAAGACAGAGACAGTGAGCCAGGTGGCTGGGAG
Celera SNP ID:            hCV25967604
SNP Position Genomic:     8622
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,3|T,33)   total(C,10|T,64)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32126):
TTTGTGGTATCTCAGTGGCCATCCCCGCCCGCAGCTATGTAGGGCTGGAGTCAGACTCTGGCTGTGAACTCAGAGGGGCTCCTGGCTCCAGGATTCCTCC
R
CTTCTTGTCCAGCGTGCTCCTCTCCCCTGGGACCTGTAGCATCGCTGGTCACCAGACCAGCCAGACACCAAGCCAGTGACCCTCACTCTGCCCAGCATAG
Celera SNP ID:            hCV27879736
SNP Position Genomic:     24646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32127):
GTCAACCATGCGTTGGCATTAACCGTCCTCTGGGTTTTGGGGAGTGTTGAGCCAGGGGTATGGGTGGGACCCCCAACCTCCTTCCCCTCAGCACTCATCA
K
ATTCTGCAATTTTATGATGAGACCCTCTCCAGATGGGTTCAGTGGACACACCTAGAGGGGTCAGAGGCATTGGACCCGGCCACCCAGGGAGCCTGGGGGT
Celera SNP ID:            hCV26955546
SNP Position Genomic:     25719
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,5)   total(G,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32128):
AACCCTGGGAGCCTGGGGAAATCAGTGTCACCATCCCGGGTACAGACAGCCAGAACTGAGGCTCAAAGTGTACCTAGTTGTCCACCATTGCCAAGAGGCA
R
AACCCAAATTTGAACCTGGACCTCGGTAGCCAGCTCCTGGGGAAGGGAGGGAACTCGGACTAGGGCTCAGGGATACGGTGATGACTTTGTGTCCTGAAAG
Celera SNP ID:            hCV15833667
SNP Position Genomic:     25504
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32129):
CTCTCTGGGCTGGATGCTCCATGAGAACCTTCAAGGGTCAGGGGCATCCTGACCTATGCCGAGGTGGGGCAGTTCTCCGGCCAACCCCTTTCTTTGCTCA
M
AGGGCCAGGACGCAGGCACCTATACCTGTACCGCTGAGAACGCCGTGGGCCGGGCCCGCCGCCGCGTGCACCTCACCATCCTGGTACTGCCTGTGTTCAC
Celera SNP ID:            hCV25968157
SNP Position Genomic:     26209
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,34)   caucasian(C,34)   total(A,2|C,68)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32130):
GCTCTTGTCACATCTGGTTTGCTACAGAGAACCACCCAACACCAACCTCACACGCCCGCTCCTGAGCGCCACACAAGGCCCTGGATGGAGGAGGTTCCAG
R
TCTCCATGAGCTGCCTGGTGCCTGCTTCCCTGGCATGGGATGGGAGGGATTCCTCGCAGTCATTCCTGGGGGTGGTGGTGTCCAAGGGGTCTCAGGTATC
Celera SNP ID:            hCV25959085
SNP Position Genomic:     3634
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,35)   total(A,1|G,71)
SNP Type:                 TFBS


Context             (SEQ ID NO:32131):
AGGACAGTGCCGGCTCCCAGCCTCCAGCATGCCCACCTCTGCTTACTGCCCCCTGCCCCAATAATCACTGTCCTGGATTCTGCCTCTTTAAAAAAAAAAA
M
AACAAACTTTATTGAGTTATAATTTGCATACCATAAAATTCACCCGTTCATGCAATGCAATATTATTTAACCTTAAAAAGGAAGGAAATTCTAGGGCTGG
Celera SNP ID:            hCV26955549
SNP Position Genomic:     31482
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,9)   total(A,9|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32132):
TCAGGTTCCCATACAGTCACATCCCCCAGACTGTTTGTAAATGGGCAAAGGAGGCAGGTTGAGTGACCAGAGACAGAGTGGGGTTGTGTAGGAGCCCTGC
Y
ACCTCCATCCCTGGGGACCTCTGTCCTGATCCCCTCACCCTGATTCCCACCAACAGGCGCCCTGGAGATCGGGCAGGCCCTCCCCATCCACGCAGGCCGC
Celera SNP ID:            hCV25998499
SNP Position Genomic:     22989
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,36)   total(C,43|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:32133):
TCCCCTATGACCTACTCATCCACCAGGAGTAGCACAGGAGCCCTCGGTGACAACGTGTCTTAGTTTGCACAACCTCAGGATGGGTGGGGCTGGATGGGGG
K
AATGAGCAGCCCCAGGCACCAAAAGAGAACTGCAGCTTTTGGTAGATCCAACCTCAGGAAACCAGGAAGGATATAAGCCAGTCCAGAGCATCGAAGAGTG
Celera SNP ID:            hCV29292330
SNP Position Genomic:     28444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32134):
ATGACCTACTCATCCACCAGGAGTAGCACAGGAGCCCTCGGTGACAACGTGTCTTAGTTTGCACAACCTCAGGATGGGTGGGGCTGGATGGGGGGAATGA
R
CAGCCCCAGGCACCAAAAGAGAACTGCAGCTTTTGGTAGATCCAACCTCAGGAAACCAGGAAGGATATAAGCCAGTCCAGAGCATCGAAGAGTGTTTTGA
Celera SNP ID:            hCV29292331
SNP Position Genomic:     28450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32135):
AACTGCAGCTTTTGGTAGATCCAACCTCAGGAAACCAGGAAGGATATAAGCCAGTCCAGAGCATCGAAGAGTGTTTTGAGATTAGCATGAATCTCATAGC
R
TTGCTTTGTACAACAGAGGTGTCTAGGGTTCTTGTTTTTTTATAGTTATTGATTTCCAAAGTACCTGGCAGGTACTCCGCTGCTAGTGTAATCCATCTGT
Celera SNP ID:            hCV29292332
SNP Position Genomic:     28572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32136):
CTCGATGTCACCCCATGCAGAGGCTCCTGTCCTACAAGGGGAGGCTTTCTCCTACCTGGTGGAACCTGTAGGAGGCAGCATTCAGCTAGACTGTGTGGTG
Y
GTGGAGACCCAGTGCCGGACATCCACTGGATCAAAGATGGCCTTCCACTGCGGGGCAGCCACCTCCGGCACCAGCTGCAGAATGGCTCGCTGACCATCCA
Celera SNP ID:            hCV29292333
SNP Position Genomic:     29080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32137):
GCACCAGCTGCAGAATGGCTCGCTGACCATCCACAGGACTGAGGCAAGGCGGGGCCTGGCACCTTGGGTGGGGCCACTGAGGACAACTCTACGCTTTTTC
W
GATTGTTCAAGAGGGTTCTTCCTATTGCCCCCTCTGCTTCTGCAGTGTACAAAGCACCTCCCTGCCCATTCCTCAGATATCCTCCCACTACCACCAATAT
Celera SNP ID:            hCV29292334
SNP Position Genomic:     29248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32138):
TCCACAGGACTGAGGCAAGGCGGGGCCTGGCACCTTGGGTGGGGCCACTGAGGACAACTCTACGCTTTTTCTGATTGTTCAAGAGGGTTCTTCCTATTGC
M
CCCTCTGCTTCTGCAGTGTACAAAGCACCTCCCTGCCCATTCCTCAGATATCCTCCCACTACCACCAATATTGACCTCCAGCCAACTGGGCTTTTCCATT
Celera SNP ID:            hCV29292335
SNP Position Genomic:     29277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32139):
GCCATGCTATCCCCCCCAGTCCCTTGGGTGTGGCCCCCCAGATACCATCTTCTGGGAGTGGACGTGGCCTCAGGCTGCCCCAGGCCCATCTGATGGTGGC
R
CTGCCACTCAGAAGTGATGTGAGCCAGCGCGCCACCTGAGTTCCATCACATATCCATGGGTCACCTGTTAGGGAAACGCTGCAAACGATCTCCCTTCTGG
Celera SNP ID:            hCV29292336
SNP Position Genomic:     30192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32140):
GGAAGTGTGCTCGGGGACAGCGGTGGCGTGTGCAGCCTAGAGGGCAGACGGCAGGGCTGGGACTTGGAATTCTTTCATTAATACTTACTTGGAACACACA
Y
TGAATCCTACCAAATGTTTCCCAAATGTGGGGTGACTGAGACTCAGGACTGAGCTAAAGAAAACCTGGCAACCTGGGCCTGGGGGAGCTGGGCATTTAAA
Celera SNP ID:            hCV29292337
SNP Position Genomic:     31042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32141):
GAGACTCAGGACTGAGCTAAAGAAAACCTGGCAACCTGGGCCTGGGGGAGCTGGGCATTTAAAACTCAGACCAGCCGTCAAGATCACCGCGACAGCTCTC
K
CATGTGCCAAGCAGCTCGTAGTTTACCAGGCGCTGTTTGAGCCTCAGAATAACACTGTGAAGTTGTCTCAATAGGGATTCTGTAGAAAATGTTTTATTGA
Celera SNP ID:            hCV29292338
SNP Position Genomic:     31180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32142):
CGCAGTCATTCCTGGGGGTGGTGGTGTCCAAGGGGTCTCAGGTATCTCCCAGGCATGGCTCCCTGCACCCACAGGTTTCCACGGCAGAGGTGGCCGACGC
Y
GCCAGCTACATGTGTGTGGCCGAGAACCAGGCGGGCTCCGCTGAGAAGCTCTTCACCCTCAGGGTTCAAGGTGAGCTGGGCTGAGCAGGCAGCCCCTGTG
Celera SNP ID:            hCV25957849
SNP Position Genomic:     3789
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,38)   total(C,74|T,2)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:32143):
CCTCCCCAACCCTTCTCCTGTCACCATGGCCTGAGATGCCATCCGAGCACTCGGTGGCTGAGGTGGGAGGTCGGGAGGGGGCAGCTGAGCTGGGCTCAGG
S
TCAGGCTTCTTGGCTCCTTCTGTCCCTTGGTCATTCTGTGACCCCAGCAAGTCATTTGCTGCCTGTGAGACAGAATAGCCCAATCTGCCCACCTCGGGGG
Celera SNP ID:            hCV1768110
SNP Position Genomic:     23849
SNP Source:               Applera
Population(Allele,Count): african american(G,10)   caucasian(C,1|G,37)   total(C,1|G,47)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,6)   total(G,5|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32144):
AAAGAAAAAAAACTATAGCCCCGTGCCCAGAAGGATGTGCTGAGTGGGCAAATGTGACTTCTCCCTCTGTTGCCACCTCCCTCCTTGGCCCTTTGTCACT
R
ATGTCACCTTGTGTACTAGCTTTACCCCCTGGCCCTGTGGCCGTGAGTGCCCTGTGCCCGCCGGCAGGGCCTCAAGCCTTGTCTTGGGTTTTAGTGCCTC
Celera SNP ID:            hCV1768111
SNP Position Genomic:     20945
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32145):
TCCAGCCTGGGCAACATACTGAGACCCCATCTCTGAAAAAATACACTTTTTTTTTTAAAGAAAAAAAACTATAGCCCCGTGCCCAGAAGGATGTGCTGAG
Y
GGGCAAATGTGACTTCTCCCTCTGTTGCCACCTCCCTCCTTGGCCCTTTGTCACTGATGTCACCTTGTGTACTAGCTTTACCCCCTGGCCCTGTGGCCGT
Celera SNP ID:            hCV1768112
SNP Position Genomic:     20889
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,10)   total(C,3|T,10) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32146):
GCAGGGATTTAGGACTGGGGGCTGGGCTGGAATGCTGGTGTGAGGGGCTGGCTTCCCCCGGCAGGCACCCACACGCTGCAGCTGGGGAGAGCACGGCTGT
S
GGACTCCGGGATGTACACATGCGAAGCCCTCAATGCTGCCGGCCGAGACCAGAAGCTGGTGCAGCTCAGTGTTCTGGGTATGTCCATGTCTGTCCCCAAC
Celera SNP ID:            hCV25973561
SNP Position Genomic:     4980
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 hmCS


Context             (SEQ ID NO:32147):
CATGGGGCAGGGACGGGGCGGGGTGTGCTCAGGTCTCACCGGAGTCAGGACCAGAACTTGTGTCTCAACTTTGGGGATCAGAGAGTCTTCACACTGAGAT
M
GGGGTGAGGGCACTGGGGATATACAGCTAAACAGAGACATCTGGGCTTTATTTATATCCACCAGAGTCACTCTTGTCTAAAAACAAAACATGAACTGGGT
Celera SNP ID:            hCV1768114
SNP Position Genomic:     19135
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|A,7)   total(A,7|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32148):
GCTGAGATGGGAGGATCCCCTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTGTGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAACGAGACTGTCTC
A
AAAAAAAAAAAAAAAAAAAGAATGTCCATTTTTAAAAATTGGAAAACCAATGTACAGAGAAACAGGGATGAAAACGAAAATCACTCAAAAATCCACCAGC
Celera SNP ID:            hCV26955517
SNP Position Genomic:     19508
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32149):
TCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCGCACGCCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATGTTGGC
Y
AGGCTGCTCTTGAACTTCTGACCTCAGGTGATCCACCTGCCTTGGCCCCCCAAAGTGCTGGGATTACAGGAGTGAGCCACTGCACCCAGGGCTTGTGCTC
Celera SNP ID:            hCV26955550
SNP Position Genomic:     32440
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32150):
CACAAGGACAGGCCCACCACTCATGAAGGTCTCTTGCTTGTTTAACTTGATCAGAAGCCTTGATAGATGGGGCGGGGTAGAGGGGCATGAATGGATCTCA
Y
GAGATCTGATGGTTTTAAAGCTTCTCTCAGCTTCTCTCTGTGTAGGCTTCATCTCTTTCTCTCTCTTACCTTCTTCCTTGGTGAACATGGGAGAAACACA
Celera SNP ID:            hCV1768115
SNP Position Genomic:     16799
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32151):
CAGGCTGGTCTCGAACTCCTGGCCTCAAGCAATCCACCTGCCTCGGCCTCCTAAAGTGCGGATTACAGGCAGGAGCCACTGGGCCCTACATTTTCTTATA
Y
GATTTTTGTAGTTTTAGTTCTCACATTTAGGTCAGTGATCCATTTTGAGTTAATCTTTGTGTGGGGTAAGGGTCTAACTTCCTTTTTTGCATACGGATAG
Celera SNP ID:            hCV26955551
SNP Position Genomic:     33147
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32152):
CCGCTCCATCCCCAGGTTAGGGATGCTGGGCTGTACACTTGTCTGGCTGAAAGCCCTGCAGGTGCAATTGAGAAGAGCTTCCGGGTCAGGGTTCAAGGTA
R
GTGGTGGGGGTGGGGTGGGGGCAGGGCCGGGAGGCAGGACGGGCTCGCGGCAGGGGTGAGTCCCCCTCTCATATCCTCTTGTGCCACCCCCTTCCCAGCC
Celera SNP ID:            hCV1768116
SNP Position Genomic:     15370
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:32153):
CACCTGCCTCGGCCTCCTAAAGTGCGGATTACAGGCAGGAGCCACTGGGCCCTACATTTTCTTATACGATTTTTGTAGTTTTAGTTCTCACATTTAGGTC
W
GTGATCCATTTTGAGTTAATCTTTGTGTGGGGTAAGGGTCTAACTTCCTTTTTTGCATACGGATAGCCAATTGTTCCAGTACCATTTATGTTGATCTTGA
Celera SNP ID:            hCV26955552
SNP Position Genomic:     33181
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32154):
AGCCCTCCCCCACCCTTCCTGTCCCCCAAGTTCCCCGGCTCCATCAGGGGCTCACAGGGCTTGTCAGCACTGGGTCCCCTTGTTTCATGGCCCCCACCCC
Y
GATACATTGTGAACTCCTTGAGGACAGGGACTGAGCTGCCCTCATCTTGATTCCCAGGCTCTGCGCTGGACATGGGGCAGTTGCTCGTGTCTTTGTGTTG
Celera SNP ID:            hCV1768117
SNP Position Genomic:     10599
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32155):
ACATTTTCTTATACGATTTTTGTAGTTTTAGTTCTCACATTTAGGTCAGTGATCCATTTTGAGTTAATCTTTGTGTGGGGTAAGGGTCTAACTTCCTTTT
Y
TGCATACGGATAGCCAATTGTTCCAGTACCATTTATGTTGATCTTGAATTTCTTTCAGTGATGTTTTGTAGTTTTGAATGTACTGGTCTTATATTTTTGT
Celera SNP ID:            hCV26955553
SNP Position Genomic:     33234
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32156):
TTTGTCCCTTATATCCTGGGCCGCATACTTGAGAAGCCAACAACCTGGAACCACCAGTGGGCTCAGACACACGCATGTGCACATGCGCACACACACGCAC
R
CACACACACGGGGGCATGTGCACCTCAACAAGAGCCTGTCCTCTCTTGCAAAGGACTAGGAAAGGGACAGCATAGTAAGAAAGAAAACTTGTAAATAACA
Celera SNP ID:            hCV26955554
SNP Position Genomic:     34019
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32157):
GGAAAGCCCACTGGCTGACACTGGGCTCAGCATTGGCCCCCAGAGCTGCTCCTTGGTGGTGACTCAGCTCGGTCCTAGCTGGGCCGTTGGTCAACCCCAT
S
CCCCATCCAGGCCTCCCCATTCTGGCCGCTGCTGTGCCCACCGTTCCTCCGCATGACGGCAGAAGCCCCACATGGTCTCCTGGGCCCACTGTGCCTCTCA
Celera SNP ID:            hCV1768119
SNP Position Genomic:     9208
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32158):
GCCTCCCAAAGTGCTAGGGTTACAGGCATGAACCACCATACCCAGCTGCAAGTATTGTTATAAAAGAGAGCCGGGGCCGGACATGGTCGCTCATGACTAT
M
ATCCTAGCACTTTGGGAGGCCGAGGAGAGTGGATCACCAGAGGTCGGGAGTTTGAGACCAGCATGATCAATATGGCAAAACCCCGTCTCTACCAAAAATA
Celera SNP ID:            hCV26955555
SNP Position Genomic:     37521
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32159):
CGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTACCACTGCACTCCAGCCTAGGTAACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAA
Y
GAGAGAGACAGAGAGCTGGGGTGGTGTGGCAGGGGAGAGAGAGAGAGAAGAGAAGGTAAAGTGGAGACAGAGGCAGAGGATGGATTGTTGCAGCCTCAGG
Celera SNP ID:            hCV26955556
SNP Position Genomic:     37801
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32160):
AAGTTCAGCGGTTCTCTGACCCCCCAGCCAGAGATGCAGTCTCAGAGTTAGCCTTGGGTCTAAGCAGACCCCCATGTATTTCAGGGCTTCGTCCCACTTC
T
TTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCTCACTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGTTCACTGCAAGCTCTGCTCCC
Celera SNP ID:            hCV26955557
SNP Position Genomic:     40319
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:32161):
TCATCCTGGCGGAGCAGGAGAGAGTGTTGGGATCGATTAGTGATGTCTGCCCTGGCACAGGTTAAGGACTGTGGGTGAGTGAGCCTCCCATTTACCATCC
K
TGGGCTAAGGAGACCCCGCTGGAGCTTTGCTTTGTATGCTTTAAAATAGCCAGGCACTGGTTCTATTTACATTTGTGAATAAAACATAGAATGGGAACTC
Celera SNP ID:            hCV25966922
SNP Position Genomic:     8465
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,36)   caucasian(G,9|T,31)   total(G,11|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:32162):
GTTTGATTAGCGCTAAAGAGCATCTGCTCACAGATGGCCTGGCGGGCAGCGGCTAGGAAACCAGCCCACCCGGCCAGGCCAGCTGCAGGGCAGCCAGGGC
Y
AGCAGCACTGATGGAATGGGGCTGTTCAGGTGATGGCACCCGGCTCTGGCTCGGTGCCCTGGCTCCTTCAGTGTGCCAGCCACGCCATCGTGGGCTCCCG
Celera SNP ID:            hCV29292340
SNP Position Genomic:     42365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:32163):
CTGGGCCTCCCACAGGTGCTCCGGTGTTCCAGGTGGAGCCCCAGGACATGACAGTGAGATCTGGGGATGACGTGGCCCTGCGGTGCCAGGCCACTGGAGA
R
CCCACACCCACCATTGAATGGCTACAGGCGGGTCAACCCTTGCGGGCCAGCCGGCGGCTCCGGACCCTGCCCGATGGGAGCCTGTGGCTGGAGAACGTGG
Celera SNP ID:            hCV1768086
SNP Position Genomic:     39110
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,6)   caucasian(A,12|G,16)   total(A,14|G,22)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:32164):
TTGCCCATTTCATTGGCATCAACTAGAGGCAGTTCTGACAGATGGCCCCCCACTTCATTGGAAGCAGTCTAACTGTCCTATAGGAGAGGCTTCATTTAGC
Y
AATCCCAATACAGTCAGGCAATAGAAGACTACCTAGCCACTAACAACAGATATGTAACTGCATGGAAAGGTAGTTACGATCTATTGCAGAGGAAAAATAA
Celera SNP ID:            hCV1768087
SNP Position Genomic:     38423
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32165):
CCAGCCCTAAAGCAACAGTGAGATGGAGGGAGAGGGCGTGGGTTGGCTGGGAGGTGGATGGCAGACCTCGCAGGGCTGAGTTTGAATCCTGGGTCCCTCG
W
TGCATGAGAAAGAAACCAGATTGGGAGGCGGGCAGAGAGGGGCCAGGGGCAGCTGCTCAACCCGCTCCATCCCCAGGTTAGGGATGCTGGGCTGTACACT
Celera SNP ID:            hCV7434815
SNP Position Genomic:     15208
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,8)      total(A,8|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32166):
ACAGGAAGCATCATCCCCATATTTCAGATGGGAACACTGAGGGTCAGGGAGTGACTTGGTGAGAGCCACCCACAGTAGGTGACAGAGCACGAGTTTGCCC
W
TTTCATTGGCATCAACTAGAGGCAGTTCTGACAGATGGCCCCCCACTTCATTGGAAGCAGTCTAACTGTCCTATAGGAGAGGCTTCATTTAGCCAATCCC
Celera SNP ID:            hCV1768088
SNP Position Genomic:     38329
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32167):
AGCCTCACCAGCACTGGGCCTTTCCCATCCTTTCCATACTAGCCTTCCAGGAGGGTCTATAATAGTAAGTGGACAGGAAGCATCATCCCCATATTTCAGA
Y
GGGAACACTGAGGGTCAGGGAGTGACTTGGTGAGAGCCACCCACAGTAGGTGACAGAGCACGAGTTTGCCCATTTCATTGGCATCAACTAGAGGCAGTTC
Celera SNP ID:            hCV1768089
SNP Position Genomic:     38257
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32168):
GGGACAGCTGCAGCACCTCACTCTGCTATCTCCTGCCCCCAGTTCCCCCGGCCTTCAGGCAGGCTCCCAGAGGTCCCCAGGATGCGGTCCTGGTGAGGGT
Y
GGGGACAAAGCTGTCCTGAGCTGCGAGACAGATGCGCTCCCTGAGCCAACTGTGACCTGGTACAAGGATGGGCAGCCCCTGGTCCTGGCACAGCGGACCC
Celera SNP ID:            hCV29292271
SNP Position Genomic:     5877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:32169):
CAAGCAAACCTCCTGCCTCAGCCTCCCAAAGTGCTGACATTACAGGCGTGAGCCACTGCACCCAGCTAATTTCTAGAATTTAAAAAACTAAGGTTAGCAG
R
CTCCAAATAGAACTCTGCCAGTGACCTGCTTCATGGAGCTTAGTAGAGTGACTTTGTCCCTCAGAGCCTAAGGTTTACCTTCAGTGAATGAGTCTAAAAG
Celera SNP ID:            hCV29292273
SNP Position Genomic:     7102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32170):
GAGGAGCCCCAGGGCATCTGGAGGGTGATGCGTGGGCCTGGGCACGGGAGATAAGGCGACATGTGAGCAAAGCCCACACTGTGTCCTGGGCCACGGGTCT
Y
ACTTCCCTGGGCCTCCATGGCCCATCCTCAAACTAGAGGACAATAGTGCCAGCCCAGGGTATAGCGGAGATTCGGGAGGTGAGAAGAGAGTCAGGGAGTG
Celera SNP ID:            hCV29292277
SNP Position Genomic:     11935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32171):
CTGGCTGCAACACCCACTCCCCACCCCACAGCGAGTGTGGACTGCGCCCCAGATGCTAATGCTAGGATGGGTCTCAGGGACCCAGGGAAGGGGAGGTGGT
S
GGGGTAGGAGGAGATGCAGGAGAAGTCAGGTTTCAGGGAAGGAGAGACCAACTGGGCCACAGGAGACGAGGCCTGAGGACGGACTGTTGGCTTTGGTGCT
Celera SNP ID:            hCV29292278
SNP Position Genomic:     12566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32172):
CCCACCACCTTGTCCAGCTAATTTTTGTAATTTTAGTTGAGACAGGGTTTCACCATGTTGGCCCGGCTGGTCTCAAACTCCTGACTTAAGGTGATCCACC
Y
GCCTCGGCCTCCCAAAGTGTTGGGCTTACAGGCGTGAGTCACTGCGCCTGGCCTCGACCTTCATTTAAGTGGAATCACCCCACACGTGCTCTTGCGTAGA
Celera SNP ID:            hCV11888310
SNP Position Genomic:     36606
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32173):
TCCACGTCCTCAGTCAGCTCCCATGAGACAGCAGACGTGGGCTCTCCATTGCGCAGGGCAGGTGCTGAGGGCCATGGAAAGCCCACTGGCTGACACTGGG
Y
TCAGCATTGGCCCCCAGAGCTGCTCCTTGGTGGTGACTCAGCTCGGTCCTAGCTGGGCCGTTGGTCAACCCCATCCCCCATCCAGGCCTCCCCATTCTGG
Celera SNP ID:            hCV1768120
SNP Position Genomic:     9133
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32174):
CTGTGATGGTCACGGTGGGGTAGGGATGGGCACAGCCCCAGGCAGGAAGGCCAAAGGCTTCCACTGTTCTTATCCAAAGTTCTAGAGGCTTTATTTATTT
W
TTTTTTTTTTTGGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGAGAT
Celera SNP ID:            hCV11888311
SNP Position Genomic:     36365
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,5)   total(A,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32175):
TGAGGGGCTGGCTTCCCCCGGCAGGCACCCACACGCTGCAGCTGGGGAGAGCACGGCTGTCGGACTCCGGGATGTACACATGCGAAGCCCTCAATGCTGC
Y
GGCCGAGACCAGAAGCTGGTGCAGCTCAGTGTTCTGGGTATGTCCATGTCTGTCCCCAACTTGTACTGTCCCCACTCCTTCAGTCACCCCTCAGCCCATA
Celera SNP ID:            hCV25973642
SNP Position Genomic:     5020
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 hmCS


Context             (SEQ ID NO:32176):
GAGGCAGCACGCTGCAGCGGGCCGCTGTCTCCAGAGAAGACAGCGGGACCTATGTCTGCTGGGCGGAGAACAGAGTGGGCCGCACGCAGGCGGTCAGCTT
Y
GTCCACGTGAAGGGTAGGGCACATTCCCCAGGTGGCTTCTCTCTCAAGACCTCCAGTCTATTGGGACCCAATCTATTGGTTTCCTAAGAACCCAGCCTCC
Celera SNP ID:            hCV25998474
SNP Position Genomic:     27949
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,1)   caucasian(C,32)   total(C,41|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32177):
ATCCAAACATAAAGAGCGTCTCCTGTGAGGGTTTGGAAGCTCCTTTGCATCCACGTCCTCAGTCAGCTCCCATGAGACAGCAGACGTGGGCTCTCCATTG
Y
GCAGGGCAGGTGCTGAGGGCCATGGAAAGCCCACTGGCTGACACTGGGCTCAGCATTGGCCCCCAGAGCTGCTCCTTGGTGGTGACTCAGCTCGGTCCTA
Celera SNP ID:            hCV1768121
SNP Position Genomic:     9084
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32178):
ACCACTGTGATGGTCACGGTGGGGTAGGGATGGGCACAGCCCCAGGCAGGAAGGCCAAAGGCTTCCACTGTTCTTATCCAAAGTTCTAGAGGCTTTATTT
W
TTTATTTTTTTTTTTGGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAG
Celera SNP ID:            hCV11888312
SNP Position Genomic:     36361
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,5)   total(A,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32179):
CACCATTTGTGTTTGAGTGAAGCGTTGTTTATTGGCCCTTGGAATCCAAACATAAAGAGCGTCTCCTGTGAGGGTTTGGAAGCTCCTTTGCATCCACGTC
M
TCAGTCAGCTCCCATGAGACAGCAGACGTGGGCTCTCCATTGCGCAGGGCAGGTGCTGAGGGCCATGGAAAGCCCACTGGCTGACACTGGGCTCAGCATT
Celera SNP ID:            hCV1768122
SNP Position Genomic:     9041
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32180):
CAAGGCTCTCATGTTGATCAGCAGTAGGATCACACTTGTGATTAGCCACTGCATTCCAGCCTGGGCAACATACTGAGACCCCATCTCTGAAAAAATACAC
T
TTTTTTTTTAAAGAAAAAAAACTATAGCCCCGTGCCCAGAAGGATGTGCTGAGTGGGCAAATGTGACTTCTCCCTCTGTTGCCACCTCCCTCCTTGGCCC
Celera SNP ID:            hCV26955525
SNP Position Genomic:     20835
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32181):
CGGACGAAGGAAGTTATTGGTTGTTGATGATCTTGGCAAAACCAGAGACTGGCAGTGCCGTGTTGCCCCCCCCCCACCATTTGTGTTTGAGTGAAGCGTT
R
TTTATTGGCCCTTGGAATCCAAACATAAAGAGCGTCTCCTGTGAGGGTTTGGAAGCTCCTTTGCATCCACGTCCTCAGTCAGCTCCCATGAGACAGCAGA
Celera SNP ID:            hCV1768123
SNP Position Genomic:     8967
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32182):
AAAATAAAAAATAAAGTAACAAGAAAGGGACTGACACCAGGCTTGCTGCTCAAAGCTCCCAGCCCTTTCTGATGGCTACATTGATGAACAGTGGAAAGGG
S
GAATATCTGGTCCCTGAGGGCAAAGGCATTTCATCTTGAGCCTGGTTGACTCTGTTCCGCTGGTGGTGTCTGCCTGGGGTGTGTGACTTCATCCTGGCGG
Celera SNP ID:            hCV1768124
SNP Position Genomic:     8276
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32183):
AGGCAGCTGGCTGCAGGGGACACTGGGAAATGTAGTTTCTGCTAGAGTGATCGTGGGCTCAGCTAAAACTCTGCTATGCACAGTGGGAAGAACGGGCTGA
K
GGGACACCAGCCATCTGCCACAGATGCCAAAGCCAGTAGCCTCCCAACCAGGTGAGCGGTGGGCACATGCAACCCTGAGCCATACACAACACAATCGTTG
Celera SNP ID:            hCV1768125
SNP Position Genomic:     7938
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,7)   total(G,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32184):
CATGCGGTAGTTAAGGGACCCGGGTTCCTTCCCTCCTGTTGATCTTCCATTTCTTAGGGTGTTGTTCTTGTGCATATGGTTGAAACTGGGACACGGCATC
R
TGTCCTGGCCCACAGGAAGCAGAAAAGAGCAGAAGTGGTGGGCAAGCATTTATTTCATACAGAAGTTGCACCTGTCCCTTCTGCGTGTATTCCATTAGTG
Celera SNP ID:            hCV1768126
SNP Position Genomic:     7730
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32185):
TAGTAGAGACGAGGTTTCGTCGTGTTGCCCAGGCTGGTCTCGAACTCCTGGCCTCAAGCAATCCACCTGCCTCGGCCTCCTAAAGTGCGGATTACAGGCA
K
GAGCCACTGGGCCCTACATTTTCTTATACGATTTTTGTAGTTTTAGTTCTCACATTTAGGTCAGTGATCCATTTTGAGTTAATCTTTGTGTGGGGTAAGG
Celera SNP ID:            hCV11888317
SNP Position Genomic:     33118
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32186):
CAGAGGTGGGTGTCTAGGCTGGTGGGTAGCTCGGCTCCATGCGGTAGTTAAGGGACCCGGGTTCCTTCCCTCCTGTTGATCTTCCATTTCTTAGGGTGTT
R
TTCTTGTGCATATGGTTGAAACTGGGACACGGCATCGTGTCCTGGCCCACAGGAAGCAGAAAAGAGCAGAAGTGGTGGGCAAGCATTTATTTCATACAGA
Celera SNP ID:            hCV1768127
SNP Position Genomic:     7693
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,7)   total(G,7|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32187):
TCAAGCAATCCTTGTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACGCACCACCACACCCGACTAATTTTTGTAATTTTAGTAGAGACGAGGTTTC
R
TCGTGTTGCCCAGGCTGGTCTCGAACTCCTGGCCTCAAGCAATCCACCTGCCTCGGCCTCCTAAAGTGCGGATTACAGGCAGGAGCCACTGGGCCCTACA
Celera SNP ID:            hCV11888318
SNP Position Genomic:     33036
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32188):
CTTTCAGGTATCGGATAAAGGTTTATACAGCTGTAAAGTCAGCAACGTGGCTGGGGAGGCCGTGCGGACCTTCACCCTCACCGTCCAGGGTAAGCCAGGG
R
CCAGCCTAGCCAACGTGACTGTGGAGCCCCTAGCAACACCCAGGGCTGCCAAGGAGGACAAAGACAATAGCTGGGCAGAGGCAGTGCTGCCAAGTGCTGA
Celera SNP ID:            hCV1768128
SNP Position Genomic:     6795
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32189):
TCCATTCCTGGCCAGGCTCCATCCCCACAGCAAGGGGGACCTCTTCCTGCCAGCTTGGCCCAGGGAGGGAGGTCCCCAGAGCCTGTGTATTCACTGTTGA
R
GGGCCCTTCTGCTTCTTGAGGCTCTTGGAAAAGGCCAGAGCGTCCTGATTCCCTTTGGCTCCCCAGTCAGGACCAGCATATTTGGGAGGCCCCTGCTCTG
Celera SNP ID:            hCV1768129
SNP Position Genomic:     6511
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32190):
GGCCTGCTTTGTGGTATCTCAGTGGCCATCCCCGCCCGCAGCTATGTAGGGCTGGAGTCAGACTCTGGCTGTGAACTCAGAGGGGCTCCTGGCTCCAGGA
W
TCCTCCGCTTCTTGTCCAGCGTGCTCCTCTCCCCTGGGACCTGTAGCATCGCTGGTCACCAGACCAGCCAGACACCAAGCCAGTGACCCTCACTCTGCCC
Celera SNP ID:            hCV29292312
SNP Position Genomic:     24639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32191):
ATGGCCAGGGAGGGCTGAAGGGCTGGGCCAAAGGCCAAGGGCCCCAGGATGGTGTCAGCCGCCTCCCTGAGCCCCGGTTCCGAGTGGGCCTCCCTCTGCC
Y
GCAGTCCCACCAGTGATCGAGAATGGCCTCCCAGACCTGTCCACCACCGAAGGCTCCCACGCCTTCTTGCCTTGCAAGGCGAGGGGCAGTCCTGAGCCCA
Celera SNP ID:            hCV25963883
SNP Position Genomic:     25121
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36|T,2)   total(C,71|T,3)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32192):
CAGGATGCTGTCAGGTGACACCTAATGAGGAGACAGAATTGTCACCACTGTCATCTACTGAGTGGGAAGCTCCTCCCCCGTGTGGCCAGGTGGGCAGCGA
R
GGTAGTGCCAGCAGAGGCCCGGTGTGGGCGTGCCTCCACCCATCCACCCATGCTCAGCAGTAATGAGGCACCCCTCCCTGTTCCGGGCTGACCATGGAAG
Celera SNP ID:            hCV1768094
SNP Position Genomic:     34518
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32193):
TTGCCGGGAACACTCTTCCCCTCACTCAGCAAACACCTGCTTTCCCTTCAGATCGCAGGTTAAATGCCACTTCCCCTGGAGGTCTCCTCTGGCCTCCCCT
R
CTCCAAGTGGGAAACCCACGAGTAACCCCCTGTGAAGTTACTAGGCCAGGGTCTCTATAGAAAGCTGTATCCCACTGGGTGCAGTGGCATGTGCCTATGG
Celera SNP ID:            hCV7434822
SNP Position Genomic:     20449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32194):
GAGAAGCCAACAACCTGGAACCACCAGTGGGCTCAGACACACGCATGTGCACATGCGCACACACACGCACACACACACACGGGGGCATGTGCACCTCAAC
R
AGAGCCTGTCCTCTCTTGCAAAGGACTAGGAAAGGGACAGCATAGTAAGAAAGAAAACTTGTAAATAACAACCCCTAACTGGGTGTGGTGGCTCGTGTCT
Celera SNP ID:            hCV1768096
SNP Position Genomic:     34049
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32195):
TCCTCACATGTCACAGCACGGGTATACCAGCTCCGACCGTGTCCTGGAGCAAGGCAGGCGCCCAGCTAGGAGCTCGGGGGAGTGGCTATCGTGTCTCACC
R
TCGGGTAAGTAAGGGTAAGCCACAGAGAGAGGCAGCTGAGGGGAGACTGGGAGAGCAGGCAGAGGGGGTGAAAGGTCACATGGCGGAATAGGATGGAACT
Celera SNP ID:            hCV7434823
SNP Position Genomic:     21200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:32196):
TGTTTTGTAGTTTTGAATGTACTGGTCTTATATTTTTGTTAAATTGATTTTAAGTCTTTTTATTATTGTTGATGCTATTTTGGGTGGAATTGTTTTCTTT
S
ATTTTTGGATTTGTAATTGCTAATATGTAGAGATACAGTTGAATTGATATCATATCATCTATGAATAGGGACAGTTTGACTATCTTTCTTTCAAATCTGC
Celera SNP ID:            hCV15972275
SNP Position Genomic:     33396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32197):
AATGCCCTGGTGTTTCTTTTTGTCCCTTATATCCTGGGCCGCATACTTGAGAAGCCAACAACCTGGAACCACCAGTGGGCTCAGACACACGCATGTGCAC
R
TGCGCACACACACGCACACACACACACGGGGGCATGTGCACCTCAACAAGAGCCTGTCCTCTCTTGCAAAGGACTAGGAAAGGGACAGCATAGTAAGAAA
Celera SNP ID:            hCV1768098
SNP Position Genomic:     34001
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32198):
TTGCAGTGAGCCAAGATCGTGCCATCGCACTCCAGCCTGGTTGACAGGCAAGACTCAATCTCAAAAAAAAAAAAAAAAAAAAAGAACAAAAGGAATGCAA
Y
GCAATTCTGACACAGGCTACAACATAGATGAACCTTGAGGTCATTATGCGAAGTGGAAAAAGCCGGTCACAAAAAAACAAACACTGTATGATTCTGTTTA
Celera SNP ID:            hCV1768099
SNP Position Genomic:     31894
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32199):
TCGGCCTGGCCCCAGGGCAGCTGGTCCTGGAGTGTTCGGTGGAGGCAGAGCCAGCGCCCAAGATCACGTGGCACCGAGACGGCATTGTGCTGCAGGTGGG
Y
GCCAGGCAGGGCCCCAGGGTGCTGCCTTCTGTCCCGCTCAGGCCTCAGACCTGACCTGGCCGGATCCAAGATCCAGAGCGGGTGCCAAGGGCCCGCTCTG
Celera SNP ID:            hCV29292281
SNP Position Genomic:     15611
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32200):
CGACCTGGGACAGGGCCGTCAGTCGTGCAGGGATTTAGGACTGGGGGCTGGGCTGGAATGCTGGTGTGAGGGGCTGGCTTCCCCCGGCAGGCACCCACAC
R
CTGCAGCTGGGGAGAGCACGGCTGTCGGACTCCGGGATGTACACATGCGAAGCCCTCAATGCTGCCGGCCGAGACCAGAAGCTGGTGCAGCTCAGTGTTC
Celera SNP ID:            hCV25973500
SNP Position Genomic:     4954
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,3|G,37)   total(A,10|G,68)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:32201):
GGCCTCAGACCTGACCTGGCCGGATCCAAGATCCAGAGCGGGTGCCAAGGGCCCGCTCTGAGCTGCACTTTGCACCCTGTTCCCCGGGTGTCATACCCCC
Y
GCCATTGTCATTGTCACTCCCATTTTATGGATGGGGACACTGAGGCAAGGCTCAGGTCACTCAGGGCTTCCGAGGCCCACCCAGTATTCTCCCCCTGGCT
Celera SNP ID:            hCV29292282
SNP Position Genomic:     15752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32202):
CCCAGGACATGACAGTGAGATCTGGGGATGACGTGGCCCTGCGGTGCCAGGCCACTGGAGAGCCCACACCCACCATTGAATGGCTACAGGCGGGTCAACC
Y
TTGCGGGCCAGCCGGCGGCTCCGGACCCTGCCCGATGGGAGCCTGTGGCTGGAGAACGTGGAGACTGGGGATGCAGGCACCTACGACTGCGTCGCTCACA
Celera SNP ID:            hCV25998440
SNP Position Genomic:     39149
SNP Source:               Applera
Population(Allele,Count): african american(C,12)   caucasian(C,33|T,1)   total(C,45|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:32203):
GGGGTGGGGGCAGCGCCTTCCCGCTCTTGGGTGCTCTCCCTGCCAGCAGGGAATTGTGTGGCTTTTTCCTGTGCTGCACTGGACACCTCCTCCAGGAAGG
Y
CTCTCAGATCCTGCTGGGCCACACTGGCATAACCCCAGCTCCAGCACAGTTCCTGGCACACGGGAGCTCACAGGAGAGGCCCCTCGCAAATCCAGAATGT
Celera SNP ID:            hCV27956683
SNP Position Genomic:     20022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32204):
CAGCAGGGAATTGTGTGGCTTTTTCCTGTGCTGCACTGGACACCTCCTCCAGGAAGGTCTCTCAGATCCTGCTGGGCCACACTGGCATAACCCCAGCTCC
R
GCACAGTTCCTGGCACACGGGAGCTCACAGGAGAGGCCCCTCGCAAATCCAGAATGTTCTAAACTCAAATCTGACCTTGTCATCACCCCCGTTAAAAATC
Celera SNP ID:            hCV27999980
SNP Position Genomic:     20065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32205):
ACACCTTTTAAAAATCTTTGCCTAATCTAAGGTCGTCTTTTTCTTTTCTTTTCTTTTCTTTCTTTCTCTTTTTTTTTTTTTTTGTTTTAATATTTTTGGG
R
CAGAGTCTCACTCTGGTGCCAAGGCTGGAGTGCAGTGGCAAGATCTCAGCTCACTGCAACTTCCACCTCCAAGGTTCAAGCAATCCTTGTGCCTCAGCCT
Celera SNP ID:            hCV11888320
SNP Position Genomic:     32860
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32206):
GATTAGCAGCTTCCAGGGTGGAAGACATGGGCGGAGCTCAGGGCTCTGGAGTCACGTTCCAGACCCAGCCCTGCAGTCATGGCATGAGCCCTTCCTGCCT
Y
GGTTTCCTCAGCATCTAGATGCTTTTATCTGGTCCGCTCCGGCTGACCATCTGAGACTCCTGGGAGTCTGCCCTGCCCTCCCTCCCTCCTTCCGTGGAGT
Celera SNP ID:            hCV1768130
SNP Position Genomic:     6257
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32207):
GTAATGGGCTGAGGGCAGTAAGCAGTGGGGCTGGGATTCAGTCCCATGTTGGTCTGACCTCCAAACCTACACTCTTAACTTTGTGCCATGCTATCCCCCC
M
AGTCCCTTGGGTGTGGCCCCCCAGATACCATCTTCTGGGAGTGGACGTGGCCTCAGGCTGCCCCAGGCCCATCTGATGGTGGCGCTGCCACTCAGAAGTG
Celera SNP ID:            hCV11888322
SNP Position Genomic:     30108
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,15)   total(A,2|C,15) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32208):
CTGCGGGGAGGAAGGTGGGCAGGATGTGAGTTGCTGCCTCCTTGGCCTGTCAGACCCCAAACCGAGTGGATTAGCAGCTTCCAGGGTGGAAGACATGGGC
R
GAGCTCAGGGCTCTGGAGTCACGTTCCAGACCCAGCCCTGCAGTCATGGCATGAGCCCTTCCTGCCTCGGTTTCCTCAGCATCTAGATGCTTTTATCTGG
Celera SNP ID:            hCV1768131
SNP Position Genomic:     6189
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32209):
AGTAATAAGAGCAGTAGTAAGAGCAGTGGTAATAATGGCTCCTGTTACCCAAGTACTAACTGTGGGCCAGGCACGGGGCCTTGCACTTAGCAAGCATTAT
Y
CCATGTGATGCTTATAAGATCCTAGCAGTTATCACTCCCATTTTACAGAAGGGGTAACTGAGGCTCCAGAGGCATGAAAATGTCCTAAGTAATGGGCTGA
Celera SNP ID:            hCV11888323
SNP Position Genomic:     29919
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,16)   total(C,2|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32210):
GCGGGGTGGGCAGAGGCTGGAGATCCAGGAAGCCCAGGTGAGCAACCCTGGGGGCACGGGCAGCCATGAGCGCTGCAGGAAAGTCGCCTCCCAGCCCTGG
S
GAGCTGCGGGGAGGAAGGTGGGCAGGATGTGAGTTGCTGCCTCCTTGGCCTGTCAGACCCCAAACCGAGTGGATTAGCAGCTTCCAGGGTGGAAGACATG
Celera SNP ID:            hCV1768132
SNP Position Genomic:     6085
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,9)      total(G,4|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32211):
AGGTGAGGCACTGCCCCAAGGGGCACAGCAGGGAATAATGGCTGAGACCCCTGTTTGTCATGCTCTGCGCTGAGCACTATGCAGCCTTTAACCCTGGGAG
S
CTGGGGAAATCAGTGTCACCATCCCGGGTACAGACAGCCAGAACTGAGGCTCAAAGTGTACCTAGTTGTCCACCATTGCCAAGAGGCAGAACCCAAATTT
Celera SNP ID:            hCV29292320
SNP Position Genomic:     25415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32212):
AATGGCTGAGACCCCTGTTTGTCATGCTCTGCGCTGAGCACTATGCAGCCTTTAACCCTGGGAGCCTGGGGAAATCAGTGTCACCATCCCGGGTACAGAC
R
GCCAGAACTGAGGCTCAAAGTGTACCTAGTTGTCCACCATTGCCAAGAGGCAGAACCCAAATTTGAACCTGGACCTCGGTAGCCAGCTCCTGGGGAAGGG
Celera SNP ID:            hCV29292321
SNP Position Genomic:     25451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32213):
TACGGTGATGACTTTGTGTCCTGAAAGTCTACCCAGTTGTTGTCAACCATGCGTTGGCATTAACCGTCCTCTGGGTTTTGGGGAGTGTTGAGCCAGGGGT
R
TGGGTGGGACCCCCAACCTCCTTCCCCTCAGCACTCATCATATTCTGCAATTTTATGATGAGACCCTCTCCAGATGGGTTCAGTGGACACACCTAGAGGG
Celera SNP ID:            hCV29292322
SNP Position Genomic:     25678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32214):
ACCACAGTTCTGGTTCCATCTGGGGCTGGGACAGGGGCTGTGGGTGGGCCAGAGTGCCGTGGGCCTTGCTTCCTTCCCCCACCCAGCAGGCCCCCAGGGG
Y
CCACGGAGCACAATTTAGAACCCTCGTCACTTGACTGCCAAGGTGCAGCCTGCAGTCTGGGAAGGTTAAAATGGTGTTCACTGAGTAACCAAGGCTAAGG
Celera SNP ID:            hCV7434830
SNP Position Genomic:     22511
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32215):
CTGGTACTGCCTGTGTTCACCACCCTGCCTGGGGACCGCAGCCTGCGCCTTGGGGACAGGCTGTGGCTTCGCTGTGCAGCCCGGGGCAGCCCCACCCCTC
R
CATTGGCTGGACTGTCAACGACCGGCCAGTCACAGGTCTGGGTCTGCTGGGCATGGGTGGGACAGAGAGCCAGGACACCGGGAGGTTAAGAAGGGAGGGC
Celera SNP ID:            hCV25969275
SNP Position Genomic:     26390
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(G,28)   total(A,3|G,57)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32216):
CAGAGACAGTGAGCCAGGTGGCTGGGAGCCCCCTGGTCCTGACCTGTGATGTGTCCGGGGTCCCTGCACCCACGGTCACTTGGCTGAAGGACAGGATGCC
Y
GTGGGTGAGCACATCTGTCCTTGTCTGTTTCGCGTAAAGCATTCCTTTCTTTAATAAGATGACAGCAGAAGCGGACGAAGGAAGTTATTGGTTGTTGATG
Celera SNP ID:            hCV25968726
SNP Position Genomic:     8795
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,35|T,1)   total(C,64|T,10)
SNP Type:                 PUTATIVE UTR 5;TFBS;hmCS


Context             (SEQ ID NO:32217):
CCCTCAGGTCTCCCCTGCACAGGTGCATATTTCCCACGATGGCCAGGGATTGTGGGGAGCCAATCCAGCCTGTCCGTGGCTCCTTCATTTCCAGGTTCTC
S
CCGTTCAGTTGCTGGCTGGGTCCCTGCTCTTCTCAGCCAGGGCCATGCCGCAGGCCAGCACAGCAGCCATTTCCCTTTTGGCTCCTACCAGTTTTGCCCC
Celera SNP ID:            hCV25973331
SNP Position Genomic:     36054
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,9)   caucasian(C,21|G,15)   total(C,46|G,24)
SNP Type:                 INTRON


Gene Number:                 132
Celera Gene:                 hCG2038595 - 207000006918222
Gene Symbol:                 LOC340273
Protein Name:                hypothetical protein LOC340273
Celera Genomic Axis:         GA_x5YUV32W3JR(13871418..13957559)
Chromosome:                  Chr7
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12292):
ACACAAAAATCAACTCAAAATAGGTTAAAGATATCAGTATAAGAAACTGTAAAACTTAAAATGAAACTGTAAAACTCTTAGAAGTAAACGTAGTGGGAAA
GCTTCATGACATTAAGTTTGACAATTATTTCTCGGATATGATGCCAAAAACACAAACAACAAAAGCAAAATTAAATAGGTAGGACTACATCAAACAAAAA
GCCTCTGCACCACAAGGGAAATAATCAACAGAATGAAAAGGTAGCCTACAAAAAGGAAAAAAAAATTGGAAACCATATATCTGGTAAGAGATTAATATCT
AAAATATATAAGGAACTCCTATAACTCAATAGTAAAAAACAAAAATAAAGAATAAATAACCTGATTTAAAAATAGGCCAGGAAGTTGAAAAGACATTTCT
CCAAAAAAGACATACAAATGGCCAACAAGTACGTGAAAAGATTCTTGACATCACTAGTTATCAGGGAAATGTAAGTCAATACCACAATGAGATATCTCAC
ACCTATTAGGATGACTATTGTTAAAAAATAAATAAATAAATAAGTGTTGGTGAGGATGTGGAAAAATTGGAACCCTTGTATATGACTGATGGAAAGTAAA
AAGTTGCAGTCTCTATGGAAAACAGTATGGAGGTTCCAGAAATAATTAAAAATAGAATTACCATGTGACCCAGCAATTCTACTACACATACACACACACA
CACACACACACACACACACACATATGTATAAGAATACGCACATTAATTCCAATAATCTGGATATATTAATATATATTCAAAAGAACTGAAGTCAGTATCT
CGAAGAGGTATATACACTCCCATGCTCATTGCATCATTATTTCTAATAGCCAAGATATGGAAACAACTTAAATATTTATTGGCAGATTAACAGATAAAGA
AAAATATGATACCTACACAAGGAAATATTAATAAGCCTTTAAAAAGGAGGAAGTCCATATGGAACAACATGGATGAATCTGAATGACATTATGCTAAGTG
AAATAAGCCAGTCGCAGAAGGACAAATACTGCATGATTTCTCTTAAATGAGGTGTCTAAAACAGTCAGACTTGTAGATGCAGACAATAGGATGGTGGCTG
CTAGGGACTGAGCAGGGAGAGAAACAGGGAATTGCTGTTCAGCGGGAATAAAATTTCATTTATGTAAGACGAATAAGTTCTAGACATTAACACTACAACA
TTGTGCCTATAGTTGGCAATATTGTATTGTATTGTACACTTAAAATTTTAAGAGGATAGATCTCATGTGAAGTGTTCTTACCACAAAAAATCAATCTGCA
CAATAACTCTAAAATAGAGGTAGTGTAATTTTCCCTATTATCAAATGAAGAATATAAGACTTAGGGGGTTAAAAAACTTGTCTAAGTCCTCCAAGACAGA
AATTGGCAGAAACAAGATCCAAACCCAGGACTTGCAACTCCAGAAAACACAAATGATGAAATTATTGAATACTAGATTTGTCATTATAAAAGTCATACAC
TATAATCTATATATACTGCTTGCTGTTTTGTAGTTAATTACCTTGTAATGTATTAATTATTATAGTTACATCCATCATGATATTTGTCAGATTAACTGTA
TTACGAGTTTTTATTGAGACAGTGTGGACTTCACTCCTATATCATTAGTCTTCTTAGTCTGTTGTTCATAAAACTTGTTCAGCTATTCATGCAGTGTGAT
AATTTGCTTTTAAATTAAAAATATAAAGGGAAATTTGATCCCAGTCATATTATCTCAGTATATACTTTTAGAAAAGAGCTCCGAAGCACAGGTAGGGCTG
CTAGAGGGGAGCATAACTGTCCATTCTACCTACTTTTTGTGACAGGAAATGGGGATTAAGGATACAGATTTAGAAGCTGAATAATAATTATAGTCTGATT
TTTAGTATCAGACTAAAAATCAGTTATCAAAGTCCTGACATCTGTCCTGACTTGGATAAATGTTTAACCATCAAAAAATACTGCCCTTTGCCAGTAATCC
AGCACTTTGGCAGGCAGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGAACAGCTTGGCCAACATGGCAAAACCCTGTCTCTACTAAAAATACAAAA
ATTAACCGGGTGTGGTGGTGCACGCCTGTAATTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTG
AGATCACACCACTGCACTCCAGCCTGTGTGACAGAGCGAGACTCTGTCTCAATAATTAATTAATTAATTTAGTTTATAAAAGTWCCCTTTGCCCCTCTTT
CTACCTAGTCCCGCTGTTTAAATGACTCCCTTAATATCTGTTATGTGGGAAAAACCAGCTGAAGTAGACTCACATTGAATCCTTTTTACCTCTGTCAATG
ATCAAGACCAGCTACATAGTTTGTGGGGTCCAGCACAAAATGAAAATGTAGAGCCTCTTCTTCAAAAACTATTAAGAACTCCAGAATGACAGCAGCAGAG
CATTAAGCCAAGAGTCATGCCCTTCTAAATCTTTCTTACTTTTAAACCAAAGTGCAATACATGCACATTAAATAAAATTGGGAAAACTGAGATGAGAAAA
ATATAATCCATAGATCCAATAAGTAAGAACAGGTACTATTAGTATATTGATATATTTCTACATAGGTGTCTTTTTTATGGGAAATTTTTTTAAAACATAA
TTATAATAGGATACATATTTTTCCTGCATTTTTACAGGTAGCATTATATCATACATCTTTTCCACATTATCATTTAATCTTAATAGCCAATGCTTTGGGA
GGTTCCCTTCTCTTATAGATTTGGAAAAAAGTTTGAAAGAAATTATCACCTGCTTCATCAAGTTTATCTATTGCAATGAAGAGACCTTGTGGAGAGAAGA
GGGAAAACCACACTGGGTTTTAGTACCAGTCCTTCCAGTGACTGGCTGAGGCCCTGAACAAGCTTCTTAACTTTCTGAGTTCCATTTTCCTGCTCTATAA
TAGATAAGAATAAGAAAAGTAAATAGCAGTAACACAGTAATAGTATGAATAGTAACAATACTAGCTGTCGATTGTTGATTCCCTGGCAAATCTGTAGTGC
CAGAAGTGTCAGTTATTGTGCTAGGCATTTACAAAACAAAAACAAAAACAAAAACAAAAACAAAAAAAAACACATTACCTCAAGAATAGTCCACAAAATC
TTTCAGAGGAAGAATAAGCTTGAAGAGGTAAACTAATAGTTTTCAATACCTGTTTTAAGTCTTTAGTAGTTAAGACAGCATAGCATTGGTGCAGTGACAG
ACAAGCTGACCAGCCCAATAGCAAATAGAATACAAAAACAGACACAAAACAATTGTCACCTGATTTATGGTAAAGGCAGTTCTGCAGTATAGTAGGGAAA
TGATGGTCTTCAAAATACGCTGCCGGGACACCTGGTTAACTCTATGGGGAAAATGTACATTGACTTCTACTTGGCATCACATACAAAAACTAATCCCAGG
TGTTACATATCACATCCAAATATGAAAGGCAAATGACAAAGATTGTAAGGTAAAACATAGAAAAACATCTGTGTGACCTTGGAGTAAAGATTTCTTAAAA
CTACACAAAAAGCATAAATTGTAAAAGAAAAAAAATTGATAAATTGGACTTCATTAAAATTTTGAAATTCTGTTCATGAAAAGACACCATTAAGAGAGTG
AAAAGAAAGCCAGGCACGGTGGTTCACGCCTGTAATCCCAGCACTTTGGGATGCTGAGGTGGGTGGATCACCTGAGATCAGGAGTTCAAGATCAGCCTGG
CCAACATGGTAAAACCCCATCTCTGCTAAAAATACAAAAAATTAGCTGGGCATGGTGGCAGGTGCCTGTAATGCCAGCTACTCTGGAGGCTGAGGCAGGA
GAGAATTGCTTGAACCTGGGAGGCAGCTGTTGCAGTGAGCTGAGATCATGCCATTGCACTCCCGCCTGGGCAACAAGAGCTAAACTCCATCTCAAAAAAA
AAAAAAAAGAGAGAGAGAGAGAAAGAGAGTGAAAAGACAATCACATAAACTTTCATTGTAATACATGGTATTTAACAAAGTTCTCACTTCTACAGTATAT
AAACAACTCATGAAAATTGAAAAGAAAAATACAGTTCTAATAGAAAAATGAGAAAAAATGTGGACAATTCACAAGAGAGAATATCCAAATTGTCACTAAT
CATTTGAAAAGTTGTTCAACTTTATTAGTCATCGAGAAAATGCAAATAAAAAYATGATAGTTCTCACCCATCAGACAGAAAGAACCAAGTCTTAGTCAGC
ATATAGAGCAACCATGGCTCTCTTGCACTATTGGGGGGTTTATAAAATAGGGCAACCACTTTGAAAAACTATTTGGCAGAATCTAGTGAAGCAGAGCATA
TACACACTTTACGACTCAGCAATTCCTCTCCTAGGTGTAACACTAGAACTGTGTACATATGTTCATCAAATAAACATTTACAGCAACCTATAAATAGTAG
GGGGAAAAAAAAACTTAAAAACTATCCAAATGTCAATCAGGAATAGAATGGATAAATAAGTTGTGGTATAGTCACGCAATAGAATACTGTGTGGCAATAA
GAATAAATTATCCGCAACTCTATAAAACCAAATGGATGAATCTCAAAAACATAATGTTGAGTGAAAAGACCCAGATACAGAAGAGTATACAATGCACAAT
CTCATTTATATAAATTACCAGAAAATCAAAACAAGTTATGCTGTTAGAAATCGGGATAGTGGTGACCCTTGGTATAGGTGAGTGCTAAGAGTGACTTGAG
GCCGAGCGCGGTGGTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGCATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTG
AAACCCTGTCTCTACTAAAAATGAAAATAAAATAAAACAAAATAAATAGCCGGGCGTGGTGGTGGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGC
AGAATGGCGTGAACCCGGGAGACGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCCAGACTCCGTCTCAAAAAAAAA
AAAAAAAACCGACTGACTTGAAAAGAGCATGAGATGGACTTGTGGGTGCTGGTAATGATGGGATTCTTGACCTGGATACCATGATACGGGCAAATTCCGT
TTGAAATGCACTGATCTGTATGTACCCTTATGTGCATTTTTCCATATATTAATGATACTTGTAAAAAAGTTAAAAATATATATTACTTTTAATTTGTACC
CAACTAGTTAAGTAATATCCCCATTTTAAAGATGAAAACAATTAACTTTCTGACTTTCTTTTTATTCTAATTTCTATTGGCCTTCTTATTCTATTAAAGT
TTCCAAATTTCTCTGCCCAAGGATAAGATACTTGAATATTTAAAACAATACTGCAACAAAGATTTCTTCTTTCCCTCCCTCCCTCCTTTCTTTTTCTTTC
TTTCTTTCTTTCTTTCTTTCTTTCTCTTTCTTTCTTTCTTTCTCTCTCTCTCTCTCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCTTTCT
TTCTTTTTCTTTCTCTCTTCTTTTTTGAGACGGAGTTTCCTGTTGCCCAGGCTGGAGTGAAATGGCATGACCTTGGCTCACTGCAACCTCTGCCTCCTAG
GTTCAAGCGATTCTCCTGCCTCACCCTTCCAAGTAGCTAGGATTCCAGGTGCCCGCAACCAAGCCTGGCTAATTCTTGTATTTTCAGTAGAGATGGAGTT
TTACCATGTTGGCCAGGCTGATCTCTAACTCGTGACCTCAGGTGATCCACCCTCCTCGGCCTCCCAAAGTGCTGGAATTACAGGCATGAGCCACCATGCC
GGGTCAACAAAGATTTCTTAAACAGTGCAAAGGTTGTTATTTCTACTAATGTCTATTTATTTTCTATGCATTTTATTCTGTAGGCGAGCAAAGGTCGGAC
TACAATCGTGGTAGCACACCGACTTTCTACTATTCGAAGTGCAGATTTGATTGTGACCCTAAAGGATGGAATGCTGGCRGAGAAAGGAGCACATGCTGAA
CTAATGGCAAAACGAGGTCTATATTATTCACTTGTGATGTCACAGGTAATGCTTATGTGACATAATGCTATGTCAGCAGGGTTTAACGTTTCAGAGATCA
TACCACACTAGAAAACAAAAGTTGCAAATTATAATCTTAAATTTCAAAAAGCAACCAAGGTTTATRGTTCCTCAGTAAAGAAATGGAGTGTTTCAAATCC
TCAGTGTTGTGCTCAATAATATGATGAAAGTTGAAGAACTAATGGGTACCTGGTACCTAATATCTGCCAGGCACACTTCAAATAGGCTTCAAAACTTGTA
TGTGACCAGAAAGCGTGGCTCACACCTGCAATCCCAGCAATTTGGGAGGTCGAGGCGGGCGGATCATGAGGTCAGGAGATCGAGACCATGCTGGCCAACA
TGGTGAAACCTTGTCTCTCAAAAACACACAAAAATTAGCTGGGTGTGGTGGTGTGTGCCTGCAATCCCAGCTACTCAGAAGGCTGAGGCAAGCGAATTGC
TTGAACTAGGGAGTCGGAGGTTGCAGTGAGCCCAGATTGCGCCACTGCACTCCAGCCTGCCGACAGAGCGAGACTCCATTTCAAAAAAACGAACAAACAA
ACAAACAAAAACTTGTATGTGGAAGATACTGTGATGTTTGGTTAGAACACAAAGAAATATAACACACAGTCTTTACTTAAAGACTTAAAACTCAGCTACA
GAGGCAAATTGCAAAATTGTGCATATAGATATTATTAGTTGTAAAAAGAAAAAGCAAGATTGATGGGGAGAGACAGAGCTATATTACCCACAAAAGGCTT
CATGGAAGAGGTCTTTAAGGTTAAAAGGTGGGAGTTGGGGGTGAACATAAAGGACAAATTCAGGTAGGCAGAACAACAGCATAGAGGTAAGAAGGAACTT
GGTGTGCGACTGAAACAAAAAGGAGGTAGCTTTCCTTAAGTACTTATGAGTGTTGAGGGTATAATGGAAAAGAGTTGGAAAATAACCATCAGATCATGGA
CGTTCTGAGAAGCCAGGCAGAAGGGTTGAGACTTAACGTATGTAGGAAGCACCTAAGACAATGCCTGGCACACAGTGGGCACTCAATAAACACTTGCTGA
ATGAAGGGATGCACACGTAAAACCTTACTATGTGCATGCTACCACATCACCACAGATGGACCAGAAAGCTCATACTGGGCAATCAAGCTGGGGCATGATG
ATGCTGGAGGCACACGGCAAATTCCCCTTCTTTAGGATCCATACTTGCGTGTGTCATGGATCCACCCTACTGGATTTCACATAACTTTCTCATTAGGGCA
CATTAATWTGAGTCATGGGAATTAGGCTCTAGCTCTCTTCTTTGTTCTCGCCCAGCTTTCTTCTCTTGACCTGGAAGGCATCCTTTTTTCGAAGGGCTCT
TCTACAGATAACTGATTTCAACCCTTTTTGGTCTTCTTCAGCTTTCTGATAATATCTTTGATGTCAATATTATTATTTTATAAATTAGGAAATTTAGAAA
GTTATGAGCCTCCATCTCCTCATCAAGTTTATAACTTCAAATTTCAAACCCTAACTTTCTCCATTGTGCTAAAATGAAATATTTCTGAACATACCCTAAG
AAGCAATAACAGTAAAATAGGTTTGAAAATGTAGTTTTTATTAATTGAAAAACTGTCTGATTCTCATTTTATTTCATATTAGTTCACATTTTGTGTCTCA
AAAATAAAAGTGAGGTGTTATTTGATAATCGAATTTTTATTCCACAGTAGACCTAATAATTTACGAGGTTTAATATTTTGAAACTAATATGAGTTGGAAT
AATAGGAAATAACTGGTYGAATTAAGCCTATTTTAAGATTTTTTAAAMACTATTAATACTAGTATAGTCAGATCTTYCTTTGGAGTAGTACATCTTTATT
TTTTATTGTAATTAAACTAAAAATCCATTATAGGTCTTAAGTTAAATGCTTTCACAATGTATAAAAAGCAAAAATGGTGTGTTTGTGGGATGAGTGTGTA
AAAATTTTAAACACCTTATTTAAAATGGATTAGTATTCTCTGGTTACCTAAAATGATGCCCAATCAGATATAACAACACCGTTTTAAATATTAATACTAA
GTATAATATTCTAAGCATGGTACAGTAAATGTAACATACATAATATCTACACAAACACTTTTGAAATGTGAAGATCTGCACATTCTTATTTGCCAAGATT
GACTGCGGTATCAAAATGTGTCAATTTTGATAATTCGTGATTATCACAAATATCACAGTTAATGCTGCTAAAATAATCCCGAGAAGCAATATAGCAATGT
GGTTAAGATGATGAACTCTGTGGTCACTACAAGTTGACTCTACCACTTAATAGTTTTAGGTCCTTGAGCAAGTTATTTAAATTCTCAGTGCATCAATTTC
CTAACCTTTAACAAGAGGGAAATGGTAATAACCTATTAATAAATTATTGTGAGTATTAAACAGGCAAAATCATGTGAAGTACTTAGAATTATTGTTAGTG
TAATAAATTTTATTATGTTATTGACATTAACATTATTTTATCAAACTTTTTAGAAAAGTTCAAACTATGGAGACTAATATTATAATTATTTATTTAGACT
GTCCATGGTTATATACATGTATATTGCTTTAGTGAGTTTGTATGTGAAAATGAAATATAAACATGTAGAGATATACACATATCAAAACTTACTGTCATCA
TTATTTTGTCCAGCGACCTTCTCAAGAAAAGAAAATTTCCTTGACTTATTAAAGCACCTTCTCAGAAAATGTATTATGAAGAGAGGTCAAAGTTCTATTT
TAAACTTGCCACAAAGTGAGAAACTCCTGGGGGCAGGGGAGAAAAGCCAAACAAGGCAGGACATGACGGCTGGTTCCTGTAATCCCAGCTACTTGGAAGG
CTGAGGCAGGAGGACTGCTTGAGCTGAGGAGTTTAACACTAGCTTGGGCAACACAGTGAGACCTACTCTCTAAATAAGTAAATAAATAAATAAAAACAAA
AAATAAAAAATTTCAAAGCCATATAAAATATTTCTTTCATGGCAGAGACATTTACAGGAAAAAAGAGAAAATGATAGCAAAAAGGAATGCCTGATTAAAG
ATGTTTGGATAGTCCGGGGCTGGTTAAAGTTCATTGTCCCTTTAAATGACTGATTACAGTTGTTAGGCTTATCAAAGAATCACCGTGTCCCTGGAAACTC
TTCCATGTGCACATTCTCCTTGTGCACCTAAATCGACCTACATTTTCCATCTCTTCCCCACGTTGGCCAGACCTGCTGGCAACTTAGCTGGGCTTCTCAT
TTCTCTTGTCCTTCTCCTCCCATCTCCTCCTGGGAAAGTCATTGATTTACTCAAACCACATTCAAATGAACAGAGAATCTGTAGCTCCTTTATTTCACTA
AAGTGGTCTTTTTAGTAGAGACAGGGTGTTACCATGTTGGCCAGGCTGGTCTGAAACTCCTGGCCTGAAGTGATCCGCACGTCTCGGTTTCCCAAAGTGC
TGGGATTACAGGGGTGACGACTGCACCTGGTCTTTAATGTTAATTTGATTGCTTTGGAATTTCTTATTGTTGAGGAGTAGGCCCTGTTAGTTTTGTGTTT
TGTTCACAGTTCAGAATGGGTAGCAGGGGCAGGCCTGGAAAGCATGATTGTCTCCCAAGGTCTCTCTCAGGCCCAGCCTCACATATAAGTACCCAACTAA
ATACTACAAGGTCATAAGCCCCAGAAATGGCTAGGAGGAAGGCGTCAGAAACAGTATCTTCTGTCTCAAAAAGCTCCTGTTACTAAGATCTCTCCTTGTT
AGTGATATAATTGCTTGGATTAAGGCATTGTTTTCTGCAGGTGATTATACATGTCTTTGGAAAAGAAAGGACAATGAGCTATTGTCAGTCACTAACATTT
TAGTATGAGATAGACTTATCAGCTCTCTATCAAGCCTGAAAGCTGTTCAGCAAGAACTACATTAGAATATGCCACTTTCAATAGCAAAGGCGATAACAGC
TTTAAAGAGATGCTTAATAAGTTTCCTTGAATTTTTAAGGCATTCTTATAATGATAACCTATATATTCTTCCTGTAAGGATATTAAAAAAGCTGATGAAC
AGATGGAGTCAATGACATATTCTACTGAAAGAAAGACCAACTCACTTCCTCTGCACTCTGTGAAGAGCATCAAGTCAGACTTCATTGACAAGGCTGAGGA
ATCCACCCAATCTAAAGAGGTAATGGCTCAGCGATCAACCAGTTTTTCCTGCATGTTTTCTAATTTTGATTTAATCCTTACAAAATTTAAAATTTATTTA
TAGTAAAATATTACTTACTGTAGCACTAAGCTCACAAAACATGTCTTTCCCAAATTTCACTCTAGCATCAGTGTGTCACTCTAGGTAAGGCTGCCTAATA
AGGCTGCATTTATATCAGAGGCCCTTCTTTATTGGGGAAAAAAAAATCTCGTGAGACTGTTACATGATGTTTTTCCTATGAAGCAAACCATAGGTTAAAA
CAGTGCCTCGGCAAATGTGATACAGATACCAATGGTGATGCTCAAGATTAATTTGGGTCAGGTCAGAGGCATAAATGCATGCCACTCCCGGAATGCAGAT
AGGCCCAGCACATACACCACCCAGGCTTGCAGTCCCAGGGCACAACCTGAGAAGCCTTGCTCACTTGGATGGGAGTATTTGTTCCCATGCTTACTGTGCC
CACTCCTACCCCCAAAGCCCCAGGCTCTGCCTGAGCCCCACATCACCTGCTTTGACTCTCCTTCTGCTGATACCCCTCATACCTCCCAGCAGTTCCCATC
TGCACCTGAAGTCTCACTTTTCTGTCTCAATTCCACTTTCCTTCTCTTAACACGCCCGACACCTGCTTTGAGCCTCCACCACACATCCTGAACATTCTCT
GCAGCACCCTTTTACAACACACCCTTCCATCTTAATCTCACCTTAACCCATGCTTCTCCCAGCCTCCGCATTCACTGAGCTCCAGCCCTCTTCCCAAACC
CAGTCGACCTTTGCTAGCCCCTGGTGCTCTGTAACCTCACATGCCTTGAAATCCCTCACCCTTGCCCCTGTATCTCAGCTTCAGTCCCCTAACCTCCAGC
ATCCATACCATCTCACACCTATCCTTGGCCCATTGTTTCCTCCCAAACTAGAGTTTCCTTCTTCTCCTTGGGACTGACAGAGACTTGAGATTGAATCTCC
TCTTAGCCCGTCTTCATGCCCACTTTCCTTGGTCTCATCTGTCAATTATCTGCCTGAAGCCCCTGGATTATCTGCCCCAAAACCCCTCTTGCCCTTCTCT
GGCATTGCTAATCCATTGCTTTTAATTTTAGCTACAACTCTTTCCTTTTAGGTATGTGGTCCTCTATAGCCATTTACACTCAGACATTTTTCCTTTTCTG
CTAATTTTATTTTTTTAAGTCTATTTAAATAAATAAGCATGCAAAGAAAAATAATGGTATAGATGGTATACCATATGACAAATGTATGTTAAGAATATAG
TACAAGAAAGTTTGTACTGAGACACTAGGCAAGAGTGGAGGAAACACTGTGTTAAAACATCTATTGATAGCTGCTGGACCTCCCTCAGCAACTGCTGAAA
ACACTATGGAAATCTGCCTCTAGGTCTAAAAATTCACCGTATTTATGAAGTGGATTTTCAAAACCTAAGAAAGATAAAAAACGAAAATTAAAAAGGAATT
TCCAGATTTCTGGACAAAATGATATAATTGGTTTACAATCTGATACAACTACGTGCTCCACACATGGAAACTGATAAAATATAAAATGAGAAAAAACAAT
AAAATGTATCTAGGCTCTAAAACAGGAGGAATATCTCTTCACACCAGAACTAGAGCAAAAGCACAAAGTGGTGAGCTGGACAATAGTCACAGACCTGCTC
TGAAAAGAAGGCTGAAAAACCTGGTTAGCCAATGCCTGGAGCTAAAGTTTATAGAAATCCGTGAGCCTGGGGAAGCAGGAAACAGAGAAAGTGTCCTACA
ACCAAGAACCGAAATAAGCTAAGGAGTGACTCAATGGCCATATTTTTAAGGGACTCTTTCAGACTGTGGTAATCCAGTGAAAAATAARCAAGGAAGTGAA
GAGACTGTAATAATCAATAATGAGCTGGGGACAGTGACAGGTCTATAATAATAGCTACAAGAGAGGTTAAGGTAGGAGGATTGCTTGAGCTTAGGAGTTC
AAGGCTGCAGTGAGCTATGATCATGCCACTGTACCCCAGCCTGACTGACAGAGCAAGAACCCATCTCTGAAATAAATAAAAATAAAATAAATAGGCCAGG
TGAGTGGTTCACGCCTATAATCCCAGCACTTTGGGAGGCTGAGGTGGGTAGATCACTCGAGGTCAGGAGTTCAACACCAGCCTGACCAACATGGTGAAAC
CCTGCCTCTACTAAAAATATAAAAAATTAGCTGGGCGTGATGGCACATGCCTGTAATCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAATCC
GGGAGGCAGAGGTTGCAGTGAGCTAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACCCGGTCTCAAAAAACAAACCAAAAAACAAAATA
AAATAAAATAAAATAAACAAAGATCAATAATGAAATGAAAAAGAAATGGAGCAGTATTTTAGAACAGAGTTAATGGGAGTTCTATTAGTCTGGGTCCAGT
CAGGAGATAGAAAGCACACAATGAAAGAGAAAGTTTAGTATAATGAATCATTAAGAGGGGATTGTAGTATGGGGAGTTGGGTAGCGAAAGTTAAGACATC
TCTACCATCTCACACCAGTTAGAATGGCGATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGCTG
GTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAAGGATCAAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTG
GGTATATACCCCAARGATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCAGCACTATTCACAATAGCAAAGACTTGGAACCAAC
CCAAATGCCCATCAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTAGGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGT
AGGGGCATGGATGAAGCTGGAAACCATCTTTCTCAGCAAACTAACAAGGACAGAAAASCAAACACGGCATGTTCTCACTCATAGGTGGGAATTGAACAAY
GAGAACACTTGGACACAGGAAGGGGAACATCACACACCAGGGTCTGTGGTGGGGTGGGGAGAGGGGGGAGGGATAGCATTAGGAGATATACCTAAGGTAA
ATGAYGAGTTAATGGGTRCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATA
ATAAAATAATAATAATAATAATAAAAGAAAGTTAAGACACCTCTAAAGAATACAGAAGTAGCAGATAAAAGTAGCACCCCACTACCSCTGGAGTGAAATA
CAGCACCCATCGATGATCCCTTTCTTCTCTCCCAGCAAGGCGGAGAGGCAGGCCTCAATGGAAAGGGCACAGCTGTGGTTCACTGGATGGCAGAGCAGTT
GCTGTGGTRCCTTGCTGGTGGGGCTTGCTGGAAATCTGCCCTCAAGGGTGGCAAGGGAGACCTTCCACAGGACGGTGCTGAGCTTCAGAACCTGTCAGGT
GCTGGGGAAACTACTGGCCACTGAGCACTACTGGAACAAGAAGCTAGCCAAGATTGTCATCTGCAGGAGTCTAGGGCACTTCTGCATGTGGGAGGGTGCA
GGCATTAGTGACCTGGCTGAGACATAGGACTGTGCTCATAGTTATGCCTCTGTAACCTAAGCCAAGAGCTAGAGAAAGCACCCAGTGGCCACACAGAAGA
GAAAGCTGCATTCTGCAGGCACCTGCCTCTGAAAAACTATGCAGGCAGAACAGAGGAGAAAAAAAACCATCCTGCAGGAGCTTTCCCAGGGAGCACCAGA
AAGATAAGGAAGAAAAACCTCCTCCTGCAATGTCTTTGCGGCACCCTCTACTGACAGGGCTTAACCTCTTGCCCACTGGTAAAGGAGAAATATTTATTAG
GCAAAAAAGTGAATTTGAACCAGAGAGGCAATAAGTCAATAACCAGGACAGGGGTGGTAATATTTCAGACAGGGGCACAGCAAGCATGAGGGCCTGGATT
TGGGGGTCCCAATGACTAACGACAGGGGTAGGCAGAGAGGCGTGTGGGACACTGAGGGACCGGTTCATGCAGGGCCTCTTAGGCCATCATGACAAGTTTG
GATTCTATTCTTCCTCTAACAAAAAACCTTCAGGAGTTTTTAAACAGTGGTTCATGACCTATAGGGAATTTCTGAATAGATTTCAGAGCCCATTAACCTG
AATGAATAAAAAATCACAACTTTTTCCCCCCATTAACCCTTGATAGAAATGTAACATTTACTTTGTGAATCTAAGCAACAAACTACAATAGTATTACCAG
TATTTGTGACATCACGAACGGATACCACAGAAATTTTAATATAACATTGCCCTTATAGATAATTTACAATATATTTACACTCATCATTATYATATCTTAT
GTTCTAATAATGAACCACATTCATAACTGTATCACAACTTTAGGTTACTTGTTAAATATTTTGAATACGATGTTTCAATGGAATTGGCTTTCTTGGAGTC
CTATGTATCATTTAGTATATTTACACATTTCTTCAGGGAAGGATTCCATAGACTTCACCAGTCTTCCAAAGGAGTCCACGAAATAAAACAGGTGAAGCAC
TGCTGCATTAGAGGGTCTTATTCAGAAGGGCACATGGTCTGATCTACTCCATGTGGCTACAGTTTGGAGAACAGTGTGTGGGGGCCAGAGTAAGATGAGG
GAAAGCAGAACGGAGAGGAGGTGATGGAGGCTGAATAATGAACTTGATTGGTCTCACTAAAGCTGTCAGCGGAGAAATAAAATATAGATGGATAAAAGAG
TAGGACAGGGGAATGAGAGTCAGGACCCTGCACCATTTAGATTCGGATAGAAAAAGTCACTAGTGAAGGGATCCTAACAAATGGCTGGCAAAATAAGAGG
AAACCCAGGAGAGTGTTGTATCATAGACACCAAAAAAGAAATGTGGTACAGAAGAAGGAAGAGATCATTTTTGTTAACTGCCGTGAAGAATCACATAAAA
TTAGAGATTTTCACTTTCAACCAAGATAGATTAACAGGGACTAGATTTACTTTCCTGCTTGATAGAACTAAGAAACTGAACAAAATATGTGAAATAATGG
CTTCTGACATTGGACATCATGCAAAGTAGGATAGTGATCTCTGTGGAAGGAGAAATAAATGAGATGAAACTTGTCATTGACCCAGTTTAAGGTCTGAGTA
GTTTTCAGGCCTCGGAGCCTAGAGGGAAAACACAGACAAAACCCAGTGGACTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCACTCTTGT
TGCTCAGGCTAGAGTGCAATGGCGCAGTCTCGGCTCACCGCAAACTCCGCCTCCCGAAACTCAGTGGACTTTGAGTTGAGGAGACAGAGCTAAGAGTTGA
AGGAGGCCAAAGTAGCCAGAGGTTTCAGAGCAAAGAACCGGAGAGGAGAGAACTTCTCAGAAAGAGAAAAGCCCAGAGATCTGCAGAGGTTCTCCTTTGA
GTCTTCATCCGACTACTGATCAGTGTATTTATTGAGGAAACTACCAGAGGCAGGGTATATATCTACCAGAAAAGATTAAAAGGAGCAATTCTTAGAAGTC
ACACAGGGCCAGGAAAAGTTCTTATTAAACTAACTGGAGTAGAAAATCTTTAAATTCATTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTA
TGATTATTATACTTGAAGTTTTAGGGTACATGTGCACAACGTGCAGGTGAGACACTGGGTAAAGTGTTAAGAAAGATATTGCCTCAGAGGGGAAGATAAT
TAGTCCTAGACTAAACTCTGCACTAAACCTAACTAACAAATCCTAATAGCAAGACTCAAAAGGATTAAACTGTTTCCAAGTAATTTAAATGTGTTCCAGA
ACAAGGCTCARTAACATTTACGAGAATTCAGAAATACCTAGTCCCCAAAAGTTTAAAATTTACAATGTCTGGCATCCATTCAAAAATCACCAGGCAAGCA
AAAAAGGAGAAAAAAAATGTACCCAAAATGAAGAGAAAAATCAGTCAATAATAGAAATAGACCCGGAAATGGCACACTTAGTAGAGTTAGTAGAGACATT
AAGCATTTATTATATCTATATTCCGTATGTACATATGTCCCCAAAGGAAGTCCAAATCATTGAAGAAATAATGCTTTAAAAATTTGCCAATTTGATGAAA
ACTTAAAATCCACAGATTCAAGAAGCTCAATAAATTCTAAGCATAAGAAACATAAGAAATCCTACACCTAGGTATATCATAATCAAACTGCTTAAAACCA
ATGTTAAGGAGAAAACTACTAAAGCATCCAGAGAAATTGACACAATATAGATGAGGAAAAAGACAAGAAAGCTACAAACTTCTCRTCAGAAACAATGCAA
ACAAGAAGATAATGGAGCAATATTTTCAAAGCACTGAAAGAAAAAGAAAACACCTCAAATCAGAATGCTATTTACAGAAAAATGCCYAATAAAAAGGAAG
GCAAAGTTCAGACATTTTCAGAAATTAAAGGTTAAAATAATTAACTACCAGCACACCTACACTACAAGAAATATTAAAGGAAGTCCTTTGAGCAGAAGGA
AAGTGATACTAGATGGAAATCTGAATATACACAAAGGAATGAAGAGTATCAGTAATAGTAAATATACAAGTTACTATAAAAGAATGGTTTGTATATTTAC
ATTTTTGATATGTTTAAAAGCATACTTATTTTTCAAAGAAAAAAGAACATTATATTATGGGTTTTTTTAAGACAAGTATTAGTAAAATGTTTGAAAACAA
TAGCCAAAACACTGGGAAAAAGAAACTAAAGTATTATATTTTAAGGTTCCTAAGTGGTATATAACATTGTCTGAAGGTAGATTGTGATGTTAAGGACAGC
CAAAGTAATTTTCTTAGAGCAAACAACATTACTAGGGATAAAGAAGTTTCTTTCAAAATTAAAAAGGAATCAGTTTATCCAGAACTGCAAATAGACAAAT
CTCCAATTGTATTCAGAGATTTCAACACCCTTCTACTAAATCTTAGTAGAACAAGTAAATAGAAATTCGGCAGAAACATAGATGACTTTAATAGCACTAT
CAACAAATTTGACCTAATAAACATTTGTAGAAGACTTCACATATTAACAACAGAGTATGTCTTCTTCTCAAATGCACTTGAAACATTTACCAAAATAGAC
CATATTCTGGACTATAACACAAGTCTCAATAAACTTTTAAAAATTCACATAATACCAGCCTGGGTAACATAGGGAGACCCTGTTTCTACAAAAAAAAATA
ATAATAATTAACCAGGAATAGTGGCATGTTCCTGTAGTCCCAGCTACTGGAAGGCTGATGTAGGAGGATTACTTGAACCCAAGACTTTGAGGCTGCAGTG
AGCTATGATTGCATTACCGTACCCCATGTTGGGTAACAGAACAAGACCCTGTCTCAAAAAAAAGAAAAAAAATCAAGAAATGCAAAGTATATTACCTGAC
CAATATGGAATAAAGTCAGAAGTCAATAACAGAAAGTGGTCTGGGAAACCTTGAAATATTTATAAACTACATAACTCACTTCTAAATAATGCACAAATCA
AAGGAAAAATCAAAAGAGAAACTCAAAAGTGTTTTGAATTGAACAAAAATGAACACTGAACATATCAAAATGTATAGGAAGCTTAAAGTGATACTGAGAA
AGAAACTTGTACCACTAAACACCTATACTATCTAAAAATCTCAAATTAATATACTAAGCTTCCACCTTAAGATACCAGAAGGAAGAAAATAACAAAGAAA
AATCAATCAAATACAAAGCTGGTTCTCTGGGAACATCAATATTGAACTCACTGAGCAAGAAAAAAAAGAAGATACAAACTGCCAACATCAAGAATGAAAG
AGCTGACATCACTACAGATTCTACATATATTAAAAGACTAATAAAATAATCTTATTAAAACATTTATGCAAACAAATCCTACAACTCAGATGAAATGAGC
AAATTCCCTAAAGTTTACAAACTACCAAAGCCCACTCAAGAATAAATTGATAGTTTGAATATTCTTACATTTATTTTAAAAAATTGAATCTGTGGTTAAA
TTCTTTTTTCCCTAAAAAAAAAAACAAAAAAACAAAAAAACTTTAAGCCATATGGCTTTACTGATGACTTCTATTAAAAAAAAAAGTGATAAGGAAGAAG
TTCTTATTCTATGAGACCAACATCATTACTCTGATATCAAAATTAGACAATGAGATTACAAAAAAAATAAAATTATAGACAAATATCAGCCATGAACATA
GACGAAAGAATTCTTAACAAAATGTAACAAATCTAATCCAACCATATAGAAAAAGAATAATATATCATCACCAAGTAGGACTGTTCTAAAAACTGAAAAG
TTGGTTTAACATTCAGAAATTAATGTAATTCTCCTAATTAAAAAAATTAAAAAGAAAAAACCAATTATCTCAATCAATGCAGAAAACCCATTTGATAAAA
TACCCCATCATTTTTTGATAACTCTCAGCAAGCAACGAATTAAAAGAAATTCCTTCAACCTGATAAAAGGCAGCTACAAAAAACAACGGCTAACATCATA
CTAAATGGTGAAAGACTAAGATCGAGAACAAGGCAAGGGCATACACTACATCTATTGAACATTGTACTGGAAGTTCTGGCCTGTTCAATAAGGCAAGAAA
ATAAAAGCATCCAGGTAGGAAAGGAACATGTAGGAGTGTCTTTATTCACAGATGGCATGATTACTTATGCAAACAATCTTATGGAATCTACACATACACA
CACATACACGTACTAAAACTAATAAAGTTTAGCAAGGTTGTAGAATATGTGACAATATACTAAAATCAATCCCAATTCTATATACTACAAGTGGGAAGTG
GGAAATTAAAAATAAAAAAATAATTTTATGTACAATAGTACCAAAATATTAAATTATAGGGAATAAATGTGATCAGAGATTGTAAAACCCACACACTGCA
ATCTATAAAATATTACAGAGAAAAACTACTGAGAAAAATAGACTAAATAAATTAAAAGATATTTTCAATGTGAGTGAATAAGAAAATTCAGTATAGTTAA
GATGTTCTTTCTCCTCCAATTGAATTCACATGGAAATGCAGAAAGCCAAAATAGTCAAAATAAATTTTTTTTAAAAAGAGCAAAGTTGGAAGAGGGATAC
TACCTGATTTCAATTCTGTTTCAACTACTATATAAAGCTAATTACTAATTCTCATTTCAATTACCTATAGAACTATAGTAATCAAAACATTTCAATGGCA
TACAAATAGACAAATAGATCAATGGAACAGAAAAGAGAGCTGAGAAGTAGTCCCACACATAAATGGTCAATTGCTTTTCAACACAAGGGCAAAGGCAACT
CAATTAACAATTTTTTTTTTCAAAAAATGATTCTGGATCAATTATATATCTATAGACAAAATAATCAGCCACAACCCATACCTCAAACCACAGATGAAAA
TTAACTCAAAATGGATTAAAGCCCTTACGTAAAACCTAAAATAATAAAACTTCTATAAGAAAATGCAATAAAAAAATCTTCACGACTTTGTGTTAAGCAA
AGATCTCCTAAATATAACAACAAATGCATAATTTATAAACAAAAAAATTGATAAGTCAGACATTACCAAAATCAAGAACTTCATTATTTGTAAAACACTT
CAAAGAAAATGAAAAGGATAGACCATAAACTAGGGGAAAATGTTTGTAAATCACATATCTGATCAGGACTTGTATCCAAAAAATATAAAGAACTCCCAAA
GCACAATAATAAAAATACAAACAACCCAATTAAATGTCAGCAAAAGATTTGAAAAGGCATTTTGCTAAACAAGATGAGCACATTGGAAATAAGCACACAA
AAAGATGCCCAACGTGGTTAGTCATTTCAGAAATGCAAAAAAAAAATCACAATGAGAAATCACTATACACCTGTTAGAATGGTTAAATCTAAAGAGACTG
ACAGTACCAAATATTGGTGATGGTGGGGTGCAACTGGAGCTTATTTAGCTGGTGGGAGTATAAAATGCTAAAGCTACTTTGGAAAATAATTTGTCAGTTT
CTTAAAAAGTGAAACATTCACCTACTAAATGATCCAGCCATTTCATTTCTAGATATTTGCTCAAGAGAAATGAAAGTATATGTCCACACAAAGCCTTGTA
TATGAATGTTCATAGCAGTTTTATGTGTAATAGTCTAAAAGTGGGAACCACTCAAATTTATATCAACAGGTGGATGGATAATAATTTGTGAGATAGCTAT
ACAGTGAAATGCTATGCAGCAATAAAAGGAAATGATATGCTGATTTATGCCRCAGCATGGATAAATGGCAAAATAAGTATGTTGAGCAAAACAAGCTATC
TGAAAAGGAGTAGATAATGTATGATTTCATTTATATAATGTTCTAAAAATGCAAACTAATCTATAGTGACTGAAAGCATATCAGTAGTTGCAGGAGGAAG
GAAGGAAGAGGACTGGCAACTAAGAAGTGTGGAGAGAGGGATGATAAAAAAGCAGGAGAAAACTTCTAGGGGTAATGGATATGTTTATTATCTTGACTTT
TTTGATGTTTTCCTGAGTCTGTAGCAGTGTTCAAATTTATCAAATTTTACATTTCAAATATGTGCACTTTGTTATATGAAAACTATAACTCAAGAAAGCT
CTAAGCTGTATCAAATGAAATTTAGAATATTTTAGATATCACTTTTTAACTTTTTAATACTCGTCATATCTCTTTATGTCTATAATTTTATGTTTTTGTA
TGAGATTATTTTAACGCATGTACAACCTGTCTCATATTTAAGTAACACAGCCTATTTTATGATTTTACTGAAATTTTTGTTTTGTTTTTATCTTATTTAC
TTCTTTTCTATCTTGACAACACTATTTAAATGATACCATTTTAAATCTTTTATTGTGTATTTTCCCAGAGGCAAAAGAACATCTTTAAATTACCTATGTA
ATGTAGATCGTTCTATAGGAGGAAGATAGCCCTCCTAATTTCCYGGCTCTGTAATTTACTGGTGTCCTGGCACATGTTAAACCTTAATCTCCTTACCAAA
TAAGGTAATTTTGTAATGCACTTAGTTTCATGCTCAGTGCCTGATAGTTAGCGTGCAACTTTTTAAATTTTTGTACATTCTTTTGAACAGTGACCTAGCT
GAAATGTTGTGCCCTTTTTGATGATGAGCTTTAGAAAACTTCAGCAGGAAARATGATGGATACAATCAAATTATTAAGTAATCCAATATAAATGTGGGTT
AGCCACCCTGAAAATGGACTTTAAAGGCATCAGAATTTCAAAGTTCTGTTGTCCAAACAACAGTCCGCATTATAGTGGCCACACTGAGAATAGAACGAGA
ATTATAAACTATTTTATAGTCTTACTTGAAGAATTCTCTGGTTATTAGGTCCATAAATGTCATTATTTTAAGAGTGAATGCCATGAGGAAGTTTTAATGA
ATGAAATACCAAAGAATTCACTGTCTACTTTCCTACTCAGAATAATTACTCACCACAAAGCTGTTCAGAAGAATTTTTAAGATTCTGAAATACACTACTT
ATTGCAGACAAGAGCCAAGAGAGATCGTTATCGTATTATTTATCCTCTGACCACTGTGACCACTACCTCCCCTTGTCACCTTCCACGTCTCCTAGGAAGG
GCTGGCAGACCCAGAATGACTACTTGCATTGTSCTTTCTCTGTATAAAACCTGAAATTTTGTGTAAYATAATCCTTCCTCTGTAATAACATCAGAAACAG
CAATGACTGCTAGCATTTATTGGGTGTTTATTGTTTGCAAATACAGTGAGTTGCAAATGTACTGAATAAAGCTTAATTGTATAAACAATCCTACAAGATA
GGAACTGATACCACTCCCCTTGGAAAAATGAGGAGACAGTCTTGGTGAGTTTAAATAATGTGCTCGGATATTGCAATATTTTGCTTGTAAATAAGAACTC
CAAAACAAGCCAAGGTATTAGGAAAATGTTTTTGTAAATACATCTTGAAACTTTCCAACTTTCAAGTTTGAGATCGTAATGAAACTTTTACCTTCCRCAT
TTTCTTTTCTTAGCTTCTGCCTAGATTTTTTTCTTATCCTGTAGTACAATATTCCATCCAGTTTAACAAGAGTAAAGAAAAATACACCTGCCATTTCTTT
TGTGACCCTTAACAATTACATGTGAGTTAACTGTACTTTTTAAATAATAGCAACTGAGTGAAATGCCAAAAAGTGATATTGCACAAATAGTCACTTGTGG
CAAATCTTCTTTTATTTTATGCTTTAGGGTCATCGTTAATAATACGGGCAGTGAATTTTTTAAGAAAAATATTTTCTACCCTGCTGTCTGTTATGTTTGA
TGTTATACATTATAATTCTGTTTATGATGGGCTAACTTCACTAGATTCTGTTATGCACACAAACTGGCATTTTTAACCAACATATTTTATTTTTAGATAA
GTCTTCCTGAAGTCTCTCTATTAAAAATTTTAAAGTTAAACAAGCCTGAATGGCCTTTTGTGGTTCTGGGGACATTGGCTTCTGTTCTAAATGGAACTGT
TCATCCAGTATTTTCCATCATCTTTGCAAAAATTATAACCGTAAGTAAAATAAATTTGCTAATACTTTCAGCAATTTAAAGAAAGTATGACCTGAGAGAA
CAAGCTTGTATCAGTCTAAACCACAAGGGGAAAATTGGGACTTTTAGTGGGCCGCCCCTAGTGTGGAGTCCGTGATAGGAAGGTTAATTAATGTTCCCAG
GAGATAAGCCAGCATCTCTTGTAAAGTGTGTGGCCGGGCCTTGTTGACTGGGCAATCAGTGAAGAAATTGCTTTGTTTTCTAATTTTTACTCCAGTGCTG
GATCAGCATTCCAAAACACTGAAGAAATAAAATAGGCAAATACAACTACTTTCCTTTCAATTAGTGGGTATAGTTGCAATTTCTTTTCTTACCAGCCAGC
TCAGGGAGAAGAAATAACAAGAGTCTGGGATTTTGCTAAAGGACTCAGGGCAATTGGTGTGTTTAAGGATCTTACAAGATCCATGCTTACTCTTCAATGT
TAACTAAAGTTCTAGCCTGGAACTTCAGTCTCCCTAATTTGCACAGCTATACTTTATCAGTATAAATGCCTGTGTATGTATGTTACTAATTTTTAAGAAA
AATTCTGGGGGCACATTAAAAAGCCTCACCTTGCAGGTACTACTTAACTAGAAGACTACTAAGAAACTTGAGTGATCAAAAATTATTCAAAATAATAATT
CAAGCAAACTGGTGGTTTCTTGGGAAATATACTGTGATAATAATAGCAGATAGATGACTCATTATTCAGATCTCATATTTACATAGTTTAAGAGAATTAA
AAGCAAGTTATTTTTTATCATAGATAATGTATGCAGATGATAGCATCATGGTGCACTTTTTCCCACAGAAATGTGTGTATAGTTTTATTTTTATGTTGAA
ATTTATTTTAAGCTGGGTGCAATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCGGAGGCAGCCGGATCACTTGAGGTCAAGAGCTTGAGACCAGCC
TGCCCAGTAKAGTGAAACCCCATCTCTATTAAAAACATAAAAATTAGCCGGGTGTGGTGGTGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAT
GAGAATCACTTGAACCTGGGAGGCAGAGGTTGCATTGAGCCAAGACTGAGATCGCAACACTGCACTCCAGCCTGGGCGACAGAGCAAGATTCTGTCTCAT
AAAAGAAAAAAAAAAAAGAAATGTATTTTAAAACTCCTGATATACAGAAATTTTCACTTTTTCTGTTTCTTTTATATTTTCCCCCAAACACCTGATAAAA
ATCTGTTCCTTTTCAGATGTTTGGAAATAATGATAAAACCACATTAAAGCATGATGCAGAAATTTATTCCATGATATTCGTCATTTTGGGTGTTATTTGC
TTTGTCAGTTATTTCATGCAGGTAAGCTTTTAATAAACAAGCCTGAGCATGATTACTTTTTGTTGCCATTCTTTCTATTTGAGTTAAAAATATATCAACT
AAATGTTACAAAGGAAAAGAACGTAGATTTTTGTTTGTTTRCTTTTCAGGGATTATTTTACGGCAGAGCAGGGGAAATTTTAACGATGAGATTAAGACAC
TTGGCCTTCAAAGCCATGTTATATCAGGTCAGTGATAAGTTGATTTTTTTTTATTTTATTTAAAATTTATTGTAAAACATTCTAGCTTTAATTCTGTCTC
AAGTCAMTTTTTGACATAATCTTTCTTTGAAAGCACACTCTTTTTGTTCTAAGCAGCAAAAATCTGATGTCAGAAGTCTTATATTTTTCTAAAAGAAGCA
AGTCCAAAAGTGTGACGTTAAAAAAATACAGCTTATAGAAAAGAATGTAGGATCTACTCATTGTTCCTTGCATTCATCTTGACAAATCTTTCTTTTAATG
AATGATGTAGTGTTCTGGGATCAGAACGGAAGGCCAAATTAAAAAGGAGAAGTAAGAGCTACCATATCTTGGGAATGTATCTGAAAAGAAGTTGTTAATT
TCTSTGGTTCTAATTCATGTGCATAGCTTAAGTTTTTTGACTCTACACTTCTTAAAGCAGCCARTCTCTCTGCCTTTATCAGAAGAGTCCTGAACTCAGA
TAACATCGGTCTAGCTGCCAGGTCTGCCTGCCTCACGCAGATGATCAGTCCCCGCTGTGAAATAACTAAAAATAGGTGGATCAAGTAGTAATCTTGAGAA
GTGAGTCTTGGGGGCAAATGGAAGGAATGTCTCAGACTGGCACCTCTAAAATTCTTTCACGAGGCTAAAATGTATTGGGTTACCCTGAAAGCCAGTAATC
ATTAGTAGCCCTTCACCTCACTTTCTGTCACAAAAGCTCACCAGGCAGGAGCAAATAGCTTCCTGCCAAGGTGATTTCTTTTCAGAAATAGAGTTACTGT
CACTCCAACTGAGTCGTCAAAACCCATTTTTAARTCTTATGACTTTTAGGAGCAGTGCTCTGAAGGCTGCCGTGCAACAGCTGTACTCTTAGGGAGCTAC
AAGATACAAAACGGARAGAAGCAAGTCGGAGGTTTCCCACGGCAACACCGTGGTCTAAAGCAATGGGTGACCTTACACCTTCTGTKCAAAAAGGTCCCAT
TTCTGCTTCTTGTTCCACATTTGGAGACACTCCTTAATCCAGAAAAACAAAAGTCTACTTGTAGGATCATAAATCAATTTGATGCCAGCACATACCTCTC
ATGTTAAAGTTGTACATTATTATTTTTTAATTTATGAATACTTTAGGTCTTTACTGCAAATATTCCAAGAAATAAGTTGAGACTTTAATTAACTAATACT
GTATTTCACATTTGTTGACTATTTCTGCTCATTTTTGTTTTTCTTTAAATTTATCTTTTTCCCTGTTCAAATAAATTTATTTTAAATTTCTAGAAACTTT
TGAAAAKGTTTCCTGAATGCCTAGATGTTTGTTTTTATACAGAAGAATATAAATTTTAATTTTTCCAAGCATACTTTGAACTTCCTTTCTGTTCATGGAA
TGCTTTTAGTGGAAGAATTTCAAAGCCATGAGACYGTTTAATGAGAGAAACTGTGGTTAATCTAGTATTTTGATGGTTAATACTGGACATTAATCCTCTG
TCTAGCATTAGCCATGTGAATATTAGGACTGTAACATTTTTAGATACAGTAGCTTCTGCTAATAAGGATGCTTGAAACTATAAGCCATAAACTCTGGGTT
TTAAAATATCWTGTACATACTCACAAAGACTTGCACAGAAAGTCTATGCCACTTAGCACATGTTATTAAATATCCCCATAAGTTAAGTTGTTTGTTTTCC
TTCTTCATCCTTCAGCACTCTTTTTGATTCTTAGCTTTACCTTTTAAAATTGGAGAAAAAGAAGACTAGTATATTTAGCCCTTTCTTTGTAAGCATCTTC
ACAGTTTTGCTTTGTCTATAGTAAGGGAAGCCCCTAGTGTGCAGTTTTATCTAACTCTTATTACCTGATTTTTGTCCTAAGATAAGACTTTTTAAAATTT
AACAACCGTGCTCAGACTTGCAGTGCTTTTTATAAMCATTGTGAAACTTCATTTGAGGTAGAGGTATGTAAAGAAACAGGTGTGTGTAGGTATAAAATCC
ATATTTTATGTGATTACTTTAGATTCTTCCTGTTGAAAAGAATGTTCTAAGTGTTGCTGACTTCAGTCACTGAATAATTCGTCGTTCATTGTGTTTCAAA
GTTAAGTTTACAATTCTTAATGATAAATAATTACCTATAGAGCTATTGAGTTTTTGAACATGTAAGAAGTTTATTTTTCCCCATTTCCCTCTAAATTAGA
TTGGCTAAGGCTTCTTGGGGTTCTTTAAATTATGATAGCATTGATGGTGATCACTAAGGGGCTTCAAAATTTACCTAAGCTAATTCCAAAAGGCTTTGAG
GTAATGAGTCCTGGAGCATGAGAAACAGGTCATGAAACTCAGCTGTAATTCTTCAGTCAGATGGCAGGCCGAACAAAATAATTGATTAAGAACTTAAATA
ATCTGTACAACAAACCCCCATGACACAAGTTTACCTGTATCACAAACCTACACATGTACTCTTCAACTTGAAAGTTTAAAAAACAAAGTTTTTAACAAAA
AATATCCATTGAGGCTAACTAAACAATTAGTATTACATATAATGGATTTTTTTTTTTTTTTTTTTTTCCTGAGACACAGTCTCGCTCTGTCGCCCAGGCT
GGACTGCAATGGCGTGATCTCGGCTCACTGCAAGCTCCGCCTCCAGGGTTCACGCCATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCC
CACCGCCACGCCTGGCTAATTTTTTTTTTTTTTTTTTTTTGTATTTTTAGTGGAGATGGGATTTCACCATGTTAGCCAAGATGGTCTCGATCTCCTGACC
TCGTGATCCACCCATCTTGGCCTCCCTAAATGTTTTCATATATRTTGCCTATGCTGGAAAACAATCCCTGGAGTACACAATTGCTGTCTTGCCAAAAAGC
AATTTCAGACATCTTGCCAACTGAACATCAGATAATGACTAAGATTAATCACATATGTACCTATTCATGGTGTTTTACAGCGAGTTACTATAGAATCAGG
AATGTAATATTCAATAATAAATTCTTTTCATATTTTTTACTTTATACTGTATCTAAAAATGATCTGTGCATTCCATGTCATGTTGAAATCTAGAACCAAT
TAGAAAATACATAAAATATCTTAATTTTGGAGAGAGAGAACACAATAAAAAGCAGGTGATGTCTTTCAGTTCAGCAGTGCTGTGTTTATTATTGTTGCTG
CTGTGTATTCACAGTATGTTAGGCTCTTGCCTGGGATTGTGCTTTCAAAGTGGCTACTGTCCGGTGCAGACTGTAATCTCCATAGGATGCTCTTTGGGCA
TCTAGGACCCGAAGCTCATGCAGACACCTTCCCAACACAGTGGCTCAGGGTGGTGCTATCATGCCTGGCTCCTACCATATTCCTCCATAAAAGTTTTCAT
CTAACATATGATGTGCGTGATTAAGGCACAGCCCTCAACCTGCTATGCCTTTGTTTTGCCTGTTACCTGGGCCTCAGAGCCCTGGCTGGGTTGCAGTAAG
CCAAGATTTTTTTTGTTCTTTACTCACTAAAAATAAACCATCTTTCAGAGACAGTTTCCACATGGTTTTAATCTACAAGAGATACAAGTGGTTCCAGTGA
GTGTGAGGAAACATTCAATAGCTATAAGAGGAAATCAGAATTCCTCAGGCTGAGAAGCACTAAGATGTGCTGTCTCCATTTGCTGTTGAAAATAAAATTG
GTTATTACATTATACTTTTATTGCTTGTAATTTTGACCTGACTCCTTCTTTAGATTGCATACCTCTTAACTTCAGGAGTTTCACAGCCTTCTGCCCTTTT
AGCTTCTCACAACGCCCATTGCTGTAAGTTCTAGGAGGTAATGTGAAGCGTCAGGGAAAATCTTTATTATATGGCCCCTAAAGAGAAAGAGATAGACTTT
TTATCATTAGTTAGTTTAGGTAGAAAGTTTTGAAGATATTTCTAAATTGTGTTGTTTATTGCCTTCCTTTTTTTTTTTTTTTTTTTTTGTGAGACAGGGT
CTCACTCTGGCATCCGAGCTGGAGTGCAGTGGTGTAATCTCAGCTCACTGAAACCTCTGCCTCCCAGGCTCAAGCAATCCTCCCCACCTCAGCCTCCCAA
GTAGCTGGGACCACAGGTGCACACCACCATGCCCAGCTAATGTTTGTGTTTTTTGTAAAGACAGAGTTTTGCCATGTTGGCCAGGCTGGTCTCGACCCCC
TAGACTCAATCCTCCCACCTTGGCCTTCCAAAGTGTTGGAATTACAGGTGTGAGCCACCGCTCTGGCCTTCATCGCCTTACTTTTGAATTATGTCTGCTT
TTCACAAATGACTTATGGAATAAAATTACAAATCACTTGATGGTTGAAAATGACCATTTTAATTCAACATTGATTATTATACTATATGTGGTGATGAGTA
ATGAGTCCAAGCTCTTGGGCTTAAGTTCTTCAGTTTATATATAAATATAGATCTTCATGAAAAAATAAGCAACAGTCATTCAATCCATAGTATTTTATAG
GAATTAAGTACCTGTGAGTGAGGAGGCAGGTAAATGTTTTCTGATTTACAGCAGAAAAATCACAAGTCAGATAAAAAAAATGATTTTTGACAACCATATG
TTAATTCTCCTTTTCTCTAGGATATTGCCTGGTTTGATGAAAAGGAAAACAGCACAGGAGGCTTGACAACAATATTAGCCATAGATATAGCACAAATTCA
AGGAGTATGTATATTGTTTTTATTGTAAATGATGTATGTATGTGGTGTGCACACATGCAATGCACACATGTGTCTGTGCATATATGTGAGCTGTGCTGAG
ATGACCCACATCATTAMTGAGGCCAGGTAAGTCTCAYGGTTAACAGGTAACTCTCAGTGAAAGATGAAAGGAAGACTTTCCGTTCTGGATATTTTTAACC
AAAAATAGAGAATATTTAGTACCTGTAATAGGATAACTAGAGGACTAAAGAAGAGACCAAGAATAAGTTAGAAAAAAGAGCTCAGAATTAAATAGTTAGA
TAAGGAAAAGTAACGAAATGAAAACACACACACTTTGAGTTTTAATATAAGAAAAAGGTTTAGTTTTTCCTTCCCCCAGAAAATAAGATTTTAGTTAAAA
TAATGTCTAACAATTCAGAGTCATGTGTGCATCAGAAATGATTCTGTACTACTTGTTATACAAGTTAAAAAGAATTGTGTAATCATGACCAGTAATATGC
ATAACCAAGATATTTGTATATATTCATAATTAGTGATGGAATGACCAGCATAATATGTATCAAAGTCATGCTTAAACAGCTGTGGGGAGTAGAGGAGTAT
AGAAGAGGTAAGTAATAATTTGTTAGTTTTCTTTTAATTATTTTAACAAAATTCACCTTTGTACAACAAATGGGATCTTAACTGAGAAAAGCAGCAGAAA
ACAAGGTTTCCTACTTTAAACTGAAGTAAAATAAAGCTTTCTATTTCTGTTAAAATAAAAATTCTAGTAGAGTTATAGGCTTTCCTTTTTCCTTATCATG
CATTTGGGAGAAAAGGAAAATGTCAATAATTCACTTCTGAATAACAGAAAAATCTTACAAGTATTTATTCTGTTTAGGAATACTGAGATGTTGCTTGAAG
CTTTGTTAGCAGAGCAACAAACTGTCAACTAAAGCAACCCATCAGAATTGTATGTTTCTTTTAGAGATTATTTCCACAGGATATGGCAACCGTTCTAAGT
TGTTTTTTTTTTTTAACTTTTGCAAGACCTCTTTGTTTAATATACATCGGCAAGATCRGATTTATATTATCAGAAAATAGAATAAGTGGGTTACAGTTGT
GAATATTCACAAGCATTCATTTTGGTTTACAAAGCTAATTTTATGATGGAGAAAGAGCTCGAGAGGAAAGTGGGCATCTTCATCTCTTCCTGAAATTCAT
TTTGTTAATTTTGAAGGCAAGGTTCTAGAATTTTGTTAGATAGTATTTAGATTCTAAAATAGGGCTGAGGAGTTCAATTTTATTGGCATACATGAAAAGA
TGGTGGATAGAATTTCACTTAATAATCAARTAATGGGTATAGCATTAACCTCCGTAGCACAATATAATTATCTGATTAACTTCTGAGTTTAGGAATTCCA
TGGTATACTACTCCAGGCAGAAATATCAATCCCTATAATTCCATTTGAATTCCCACTCCACAAAATTTGCTATTTTTTCTTTACTGTGTTAATGTTTGTC
TCTTACTACTTATATTTCAAATCTTTTCGGAATCTTTTGAGTGAAACAGGCATTCTTACCAGCAGCTATATTAATATGTGAGACATTTCTTTTAGCAGAT
ATTTGCTTCAACTGAAAAACCAAATTATACTGAAAGACCCAACATTACTGTCCTTACATTTATTAATTGTTACTAATAAATAGTATTGTCCCTGAGGGAA
ATTACGGGGAATAGTTGTCAACCTGAYTATAAGCACCTGACTAATATCATTTCATCACTTGAAACTTCATTGTTGCAGTTATTAAGTGCTGGTCTCACAA
TAACTTCTAGACAAGTCAAATCTTTTTCATTAGAACTAGTAGCTAGAGAATAAATGGTTGGAATCCTGATGAAAGATTTTAAAGTTGCCAAATTTAAAAA
GTAAAACAAGGGGTAAACTGTCCCAGGTTGCAAATGGAGTCAGTAAAACTCTCAGGCTGATCAGTAGTGGGATAGTACCTGTGAAGAGCCACTGTACTCC
AGCCTGGACAACATAGTGGGACTCTATCTCTATATTTTAAAAAATCTAATTTTAAAAATTAAATTAATGAATAAAACAATCGAAGAAAGATTTCAGGAGT
GAGACTGTGTCTAATAAAATGTAATTTATAAAAATTCTTACTTTGCCATATAAAGATGGATTCATATTCAATTTCAATGGACAGTTTTTCTATAAAAGGA
AGAGTTGTTTACCAATCTTATTTGTCCACAAATGAATTCTTCCTCACAAGGACACTGTAGCATAAAGATGAGCTAGGAAATAATAATTTGGGGGTCATAT
TTCCTATCATATTGACTTAAATAAGTCATACTCATCTCAATTTCTTCATCATGTAATTTCAGTTATATTTTATTCTATCAAATATATTAGAATGAATGTT
CATAAAATAGCTCCTTAATAATAACAAATCTTAGTTTGAAACCTTTAACTCATGACTGTAAAGGTATTCCTCTGGCCATTTTTTAAAGCTTTGATATTTT
TGAAAGTCATGATAAAAACATGCTAGTGAAATAGAGTCATAGGACAACATGATTCCTAGATAGTTGTCTGAATACAACCAATTTAACTGATATTGTTTTA
GCCCAAGGGAATAGCCTATTGCCAGTACATCTGTCAACAGACTATTTTCTGTGTAATATGTGCTTTAATTAAAGCTAAAAGCCATTTTAGATTATTTTGG
AAACTCAATTCTGTAAAATTACAAGGTATTATTTCTGTACATTTTGGCGATCTCTTTTCATCAACCAAAAGTCTTATTTCATTTTTGTCCACAAGAAAGT
GTGTTATTGACACCACAGTGTGCATTTGATATACCACAGACACATCCAATGCTAGAACCTAGAACTCTTCTCATCAGAGCTGTAATATGTTGCCCAAATA
AATCGTAAACATTTATTTCACGTATTAATTCCAAAAACCCAGTGAGTTTACTAGTTAGAACTAAGATATTATTACCTGGACAATGGTAACCTCATTTCTT
TTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGGGTCTCGCTCTCGCCCAGGCTGGAATGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCA
GGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCTACTATGCCCAGCTAATTTTTTTTGTATTTTTAGTAGAGACGG
GTTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGATTACAGGCGTGAGCCACCGCGC
CCGGCGGTAACCTCATTTCTTAATTTAACTTTTTGACATGGGAAGTGTGTAAAACAACTTGACATTACTTTTGATTCAAACAATGTTGCCATGGAAATGA
CTTTTCCACAGCATAAGGTTGGCGTATAATTGCTGTTTTGTCTTGCAGTTTTAGGTTGAATTAAGAAAGATAATCAAATCTACAGCAGAAGCTAATATCC
AGAGGCATTTAGTATTTGATAATAGTGGTTAAGGACGGCTCTTTTAAAAAAAGTTTTCAAGCAAGGTGCAGTGGCTCACATCAGTAATCCCAGTAATTCA
GGAGGCCAAGGCAGGAGGATCGCTCGAGCCTGGGAGGTCAAGGCTGCAGTGAGCCATAATTGTCCTACTGCACTGTAGCCTGGGTGACAAAGTGAGATCT
TGTCTGAAAAAAAATTGTTTTTCAATCTTGGCCTTGAATTCATAATATTGCAAAAAACTTTACCACTGCTAAGCCATCAAACTGCTGAGTGGTAAGGTAA
GTCAAAAATTTCCCTTGACAAAAACTCACAAAAATGAAGATGGTTACGTTTACAAGAGCAAATGAACTTAACCATTTACACTACTGGTCCAATAATGCAT
GATAAATTCAATTACTTCCCATAAAATATATGCTGACAAATAATAATAATAAATAACCGTAGGCCTTAAACACTTTACATTTTCACAAGCTTTGTAAATT
TGTCCAACCAAGGCTTGTTTTCTGCTGTACAAATATTTTAACCATCAGTTGTAATGTATCTTAGTAGATTCTACTTTGGATTGTACTTATTTTTTTTCCT
CAACTTCTTTGAAAATATTCTCAGCAGTACTTGTTCCACAGAAACTATTTATAGTGCCTAACTTTTCACTTACTTCAAATTCAACGTTGGCTCCTCAAAA
AACCAGCAACTGAGCAGTGTCAGTAACATATGTCAACTCATCAAGATCCAGGAAAAACTACTCAAAATAATCTACCTTATTTTTTAATTGACTGTGGATG
TTACTCTCAACGTCTGTAACTATGAGCAACTGTTCTCACCAAATGGCAGCCTTATATAAGTTACGCAGTCTGAACACATTTCTTCCACTGCTACAATCAA
ACATGATATAATTAACTCACAATCCATAAGTGCCTTTCTTTGCTTGGCCAATGAATAAGCCACTTAAAAATTTACTTTGGTTTCATTCTCATTTTCATAT
TTTAGTTTTGCGAAGAAATTCTGCTAAGACAAGATATTTTGTTTTATATTTTCTAGTTTTCTGAATGCTGCTTTCCTGTAAGTGGGGAATATTGCGATGA
GTGTTCAGTCTGCTAATGTTGACATATTTTGTATTTTTCAGCACTATTTAGTGTCATAGCATAAAAAACACAATGCTGTGGCATCTAATTTGAATACAAA
ATAACTCACAGCCCACCGTTCCTTAAAAACATGGCATTGAAAGTCCACATTTCTCTTATTTTCTGTTTTGAGATGATGGGTATGCAATGGTATTTTTAAA
AACTAGGATAAAGTGTAACAGTACAGCAAAACTCAACATGCTCTCAAATTCTAACCACGTCACTGAGATGTGTAGCATGCTGAGAAGCAGGGTAAAGTGA
TGAGAGTGGCACATATGGTTTCTCTAGCAGCTACCATCACTATAACCTAAGACAGCCTAAACAATAGGTAAACATGACAGTCAGCCAGTTCGTTAAGATA
AGGCTGGGCAAGGTGGCTCACACCTGTAATCGCAGCACTCTGGGAGGACAAGGTGGGCGGATCACCTGAGGTGTTAGACACCAGGCTGCCAACATGGTGA
AACCCTGTCTCTACTCAAACCACAAAAATTAGCTGGGTGTGGTGGTGGCTGCCTGTAATCACAGCCACTCGGGAGGCTGAAGGAAGAGAATCGCTTGAAC
CCGGGAGGTGGAGGCCAAGACCATGCCACTGCACTCCATCCTGGGCGACAGAGCAAGACTCTAAAAAAAAAAAAGAAAAAAAATAGGTAGCCAGGGGYGG
TGGCTCACGCCTGTAATCCCAGCACCCAGCACTTTGGGAGACCGAGGCGGGTGGATCACCTGAGGTCGGGAGTTCAAGACCAGCCTGGCCAACATGGTGA
GACCGTCTCTCTACTAAAAATTAGGTGGGCGTGGTGGGGGGCATCTATAATCCCAGCTACTCGGRAGSCTGAGGCAGGAAAATCGTTTGAACCCGGGAGG
CAGAGGTTGAGGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCACCTCAAAAAAAAAAAAAARKGGGGGGGGGGCATG
ACTGTGTTTCAATAAAACTTTATTTACAGACACTGAAATTTGAATTGCATACCACTTTTACATGATGCAAAATATTATTCTTCTCTTGATTTTTTCCTAA
CCATTAAAAAAATATAAAAAACATTCTTATCTTATGGACAATATAAAAGCAGATAGAGGGTCAGATTTGGCCTGTAATCTATAGTTTGTCAACCCACGCA
ATAAAAAATCCACAAAAGAACTTCAAGTGGCATTTTACAAAAGAAGAAATCCATGTGAACTATGCCCTTGTACTTTTATTCTATTTGTGTGTCTGTATTT
AGAGTGTGATTCTCACAGGCAGCATATAAGTCTCTTTGAATATCTGAATGGGATATTCAGACCATTTTCATTTAATGTGGTTATCAAAATGATTAGGTTT
AAGTCTCTCATTTTGCAATTTGCTCTTTATTCCATATGTTCTTTGCACAGTTTTCCTATTTTTCTGCCTTCTTTTGGATTAAAATTTTTTAGTATTCTAT
TTCATCTCTTTTTGGAGGAGTAAGGAAAGTGATATTGCTAAGTATAATGTTTTGTTTTGTTATTCTAGTGGTTACTTTAGGCTTTATAGTACCCATCTTT
AACTTATCACAGTCTACCTTCAAGCAATATGGATGTCAACTTACAGCGTAAGAAACTTAAAATAGTGCAGTACTTCCATTTTCCCCTCCAAATCTTTTGC
TATTGTTGTCATACAGTCTCCTTCTATATATGTAATAAACCCATACTACATTGAATTATTTTTGCTTAACAATCATCTTTTATTAAAGAATTTTAAATAA
ATATGTAAAGTCCTATGTATTTACTCATGTAGCTAACATTTCTGGTCTCTTCCTTCCTTATTCTAGGTACCTATTTCCATTGGTATCATTTTCCTTCTGC
ATCCAGGTCTTTTTTTCACCTTTCTTAAAGCGTTAAGCTTGATAGTGACTAATTATTTCAGGTTTTTTATGCCTGAAAAGTCTTTATTTCACCTTAATTT
TTTTGAAATATATTTCCACCAGTTATGAAATTTGAGGTTGACAGTTTTTTCTTTCCATTCTTTCTTTCTTTTTTTTTTTTTGAGACACGGTCTCACTCTG
TTATCCAGGCTGGAGTGCAGTGGTGTGATCACTACTCATTGCAGCCTTGACCTACCAGGCTCAGGTGATCCTCCCACTTCAGCCTCCTGAGTAGCTGGGA
CTCTGAGCACATGCCACCATGTCCAGTTAGTTGTTTGTAGATACAGGGTTTCACCATGTTGCTCAAGCTAGTCTTGAACTCCTGGGCTCAAGTGAGCTGC
CCACCTCAGCCTCCTGAAGTGCTGGGATTATAGGTGTGAGCCACTGCACCCAGCCCAGCCTGCCTGCCTTTCTTTCTTTCTCTCTCTCTTTCTTTCTCTC
TCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCTCCCTCCCTCCCTCCCTCCCTCCTTCC
TTCCTTCCTTCCTTTCTTTCTCTCTCTTTCTTTTTCTTTCTTTCTTTCAAGATATTGCTCAGCTGGGCACAGTGGCTTACGCCTGTAATCCCAGCACTTT
GGGAGGCCGAGGCGGGTGGACCACGAGGTCAGGAGATTGAAACCATCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAAATACAAAAACATTAGCC
GGGCATGCTGGCAGGCACCTGTAGTCCCACTCCAGCCTGGGTGACACAGCAAGACGCCGTCAAAAAAAAAAAAAAAAAAAAAAAAGATATTGAGATATTG
CTCTACTGTCTTCTCGTTTGATTTTTTTCAACCAAGAATTTGTCATTATCCTTATCTTTTTTCCTCTGATCATAATGTATATTTCTTCCTTTGCTTTTAA
GATGCTCTCTTTATCACTGACTTTGAAATGTGATTGTGATGGGTTTTGAAATAGCTTCCTACTTGTTTCTTATGCTTGAAGTTCACTGAAATTCTTAGAT
TTATGGGCTTATAGTTTTCACCAAATTTTAAAACTCTATTGACCATTATTTATCTAAGTATTTTTTTCTGTCTTTCTAGTCTCACCTCTCCTTCAAGGAC
TCTAATTCTACATATATTAGGCTGCCTGAAGTTTTACCACATCTCAGCAATGCTTTGTTCATTTTTTTCTGCATTTATTTTGAATAGTTTCTATGCCATG
TCTTCAAAACCAATGATCTTTTCTTCTTCAATATTTAATCTGCTATTGATCCTATCATATATATTTTTCATCTCAGATATTATATTTTTTATTTTTAGAA
TTTTAATATGGACTTTTTTATAGCTTCCTTATCTCTTAACTATTCTAATATGTAGTATATACATTGGTAGTAGCTTTTTAAATTGATAAGTAAAAGTTTT
ATATATTTAGGGTATAAAAATGATGTTTTATATATGTAGTCATTATGAAATGGATAAATTAAGCTATTTAACATATGCATTATTTCACATACTTATTTTT
TGTGTGGTGAGAACACTTCAAATCTATTTTCTTGGTAATTTTCAAGTTTACAATACATTATTATTAACTATAGTTACCACGATATACAACAGATCTCTTA
AACTTATTCCTCCTAATTGAAATTGTGTGTCCTTTTACCAACATCTTCTCAACCCCCTGAATCCCCATCTCCTAGAAACCATGATTTTACTCTCTGTCTC
TATGAGTTTGGCTTTTTTAGATTCTACATATAAGTGAGATCATGTGGCATATCTAACATTTTGTCAATTCTGGGTTGGTGTCCATGGATTCATTTTTATC
CTTATCATAGGTCTTATTTTGCCACTTTGCATGCCTGGGAATTTTTTTTTTTTTCCAGACAGGGTCTCATTTTGTTACCCAGGCTCAAGTGCAGTGGCAT
GAACACAGTTCACTGTATCCTTGACTTGGGAGCAGGCTCAAGCAATCCTCCTGCCTCAGCTTTCCATGCAGCTGAAATGAGAGGTACATGGTACCACACT
CAGCTAATTTTTTTAATTTTGTAGAGACAGGGTCTCACTGTGTTGTCCAGGCTGGTCTTGAACTCCTGAGTTCACGTGGTCCTCCCACCTTAGCCTCCCA
AAGTGCTGGGATTACAGGTGTGAGCCACCATGCCTAACCCCCTGCCAATTTCTGACTGGATGCTACACATTGTGAATTTAAAATTTTTGGTGCTGGATAT
TTTTACATTTCTATAAATATTCTGGGTTTTGTTGTGGAATACAGTTAAGTTACCTGGGAATAGTTTGATCTTTTTGGGTCTTGGTTTTAAGGTTTGTCAA
GCAGGAGTGGAGCCTACTACAAAGGCAAAACCCTTCCACATACTCTACCTACGCCCTGTGGCTCAGAAGGTTTTCCAGTCTGGCTGCTGTTACCAGGCAC
TAATCCCAGTCCTGACATGTATGCACTACTCAGCTGAATACTCAAGAAGGACCCTCTGCAGATATCTCGATTTATCATTCTGTGAATCTCTCTCTTCTCT
AGTATTCTATGCTGCAAACTCTAGCTGACTTAGATTCCTGAGATTCTCAGCTTTGTCTGCTCAACTCAGAGTCTATTGGGCTCTTTGCACTGCCACCTGG
AAACTCTTAAGGTAGTAAGCCACAGCAACCACAGGGGKCACCTTGTTTGTTTGCCACCTCTGCCCGTGGTTGCCTTATGTTCAGTGTCTTGAAAACCACT
GGTTCATGTATTTTGTCTATTTTTTGTTTGGTTTTAGATGAGAGGATAAATCCTTGTTACTCTGTCTTGGTGAGAAGCAGAAATCCTACCATATGGCATT
TTATTTCTACAATTGCATACTGAGTTTCCTTCCTTTCATAATTTTCTTATCAAAGTGATATCCCCCACATCTAGCGTAGTACCTAAGACATAGTAGACAC
TCCATAAATAACTTATCTCAAGAATTAAACAAGACTTTTTGTTCTTAATTTCAAAAAAAAAACCTGTATTTTTGTGCCTCTTGCTAAAGAATCTAAGAAA
GTTTAATTAAATTTCTTCTGATTCCAGTTTTAAATTCTTTCCAGAGGTACACTATTTTTCTGGGTCTTTAAGACCACATTCCRTTTTCCTTCAATTCTTG
TAGTACTCCTCGAGGCCAAGAGTCTCTTATTTTCTGTTTATTCTTCTTGGAACAGAAGAAATATATTCAGATCTTTCTCATTGTACCACCAACACCGAAA
AGCAGGGTTTGTGGCTTGTTCTCGGTYGCACTGACTGAACATTTCAATAAGTTTGTGGTAATTTAAACTAAAATGAACTATAGAAAGGATATAATTCTAT
TTTCCAGCAGCAGATTAACACAAGAATGGAAAACCCAAGCTTATTAAGCAAGCAAAGATATGCAAGTACAAGCCACTTCGTAGAAAGTTCTTGTGTCCCA
AACAAAAAACTCAAATAGAGAAGCCTGTCTCATCAAAAATCTGTCAAGTTCACTCTTGGATACTTTTAGAAATTAGGTTGGTGTGTATAGTCCTTAGACA
AACTTTAAGTGACATGACTCTCAAATATTTGTCTAGCGTGGCTCTGTGAAGTATTTCTACTTCTTTCCCTAATACACTACCCAAGCTTATACATGAAAAC
TACAATGCTCAGCATGCTTTTTGTCTTTACTTTTCTTATTTTCTACCCCTTTTATTTATTTATTATGAGACAGAGTCTCATTCTGTTGCCCAAGCTGGAG
TGCAGTGGCATGATCTCAACTCACTGCAACCTTCACCTCCTGGGTTCACCCAATTCTCCTGCCTCAGCCTCTTAAGTTGCTGGATTACAGGTGCCTGCCA
TCATGCCCAGTTAATTTTTTTGTATTTTTAGCAGAAATGGAGTTTCACCACATTGGCCAGGCTGGTTTTGAACTCCTGACCTCAGGTGATCCACCCGCCT
CAGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCGCCACGCATGGCCTCTACTCCTTACTTCATTTCCTTTTGCTTTAATGTCTAGAGCTGGAATGCG
TGGTGTATGTGTGTGTGTGCGTGTGTGTGTGTGAAACAGGGTCTCACTCTGTCACCCAAGTTAGAGTGCAGTTGCATGATCCTAGTTCACTGCAACCTCA
AACTCTTGGGCTGAAGGGATGCTCCCACCTCAGCCTCCCAAGTAGCTGGAACCAGGTGCACGCCACTGTGCCTGGCTAATTTTTTCATTTTTATGTAGAG
ACAGAGTCTTGCATGGTTGCCTAGGCTGGTCTTGAACTCCTGGGCTCAAGTGATCCTCCCACTTGGGCCTCCCAAAGTGCTGGGATTATAAGTATGAGCC
ACCGCACCCAGCCTAGAGCGAGCTATAATCTTTTTTTTTTTTTTTGAGACAGTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGCAGTATCTCATCTCACT
GCAACCTCCGCCTCCCGGGTTCAAGCGACTCTCCTGCCTCAGCCTCTCAATTAGCTGGGACTACAGGTGCCCACCACCACGCCCAGCTAATTTTTGTATT
TTTAGTAGAGACGGGSTTTCACCACGTTGGTCAGGCTGGTATCGAACTCCTGACCTCTGGTGATCCTCCCACCTCGGCCTGTAATCCCAAAGTGCTGGGA
TTACAGGTGTGAGCCACCGTGCCCAGCTGAACTATAATCTTTAAAGTTAATAGAACACAAACAACAGAAGGTAGTGAGGAATCAGGAACTATATTATGGT
TACCTAATAGGAGATATCCAAACAGAAAAGAATAACTGCCCCAGTGGATATGTTTTATCCTTTCGACAATATAGATACTGTGCCAAGAATTGAAATCCAA
AAAAGTAAAAATCATTGGCTTCAAAATATTAAAAGAAACTTCCAAGTGGAAATTAATACATGTATCAAGGTCTACAAAACATAACCCCCTATCAAGTAAT
TGATGACAAGTAATTCTTGATAATATTTAGATAAAATAAATTTTATATTTAAAGAACAATGAATATCTTATTCTCAACAACACATAATTATAATTTTAAA
AAATAGCTCCAATGATTGCACATCACAATATATATAAATTTTATGTAGCTATAGGAGCATTTAGTATTTTTTTAGGAGCACTTTCCAGGAACCAAGGGCA
AAGACCAATTTTTTTTTTATTGTACCCCAGATTTTAAACACAGTACTTTAGTGGACATTTTAAGGGATAAACACAAAAGCATTACCATATAGTTTTCATG
GACACACTTATATGCATTAATAAACATTAAAGATGAATTGTGGGGACATGTATTCAATTCAAAAGACCATAGTAAGGAGAGGAATGGGCCTGGAAAAGAG
GAAAAGTTATTCTTAAGGTCAGCTTTACAGTAAGGAAAAGCAACAAAATTTGAAAACAGGAGCCCTTGTCATTTCCCTAGAAGAGAAACTGGACAATCTA
GGAGTTCATTCAGAAAAGCAAAGTGGGTGAGGGCTGAACCCTACAGCCTGTTAGCAATACAGCTTTCCCTTAGGAATTCTAAAGCGTGCCGAACCCCAGC
GCAGCCTTAGGGAATCTCCTTTYGCCATCTACTCGATTCCCCAGCGATCTCCTCCAGTCCCAAGGCTTAGATGGCCAAACACCTACCGACAAAGCCCAGG
CTTRCAAGCACTTACCCGACCTGAACGCCACACTCCAGACTGGTCTTCCCATCTGGAGCTTGAGATGACCCCGCACCAGGAGCATTTAGTATTTAAGGAA
AGACATGGAAGGCCTCCAACAATGCCAAGAACTTAAGGTCCACAGCATCTCACCGGTTGTCTAGTCCATATGACTCTGAAACTTATGGTGGGGGGTGGGA
GGCAGAGGAGCAAGGACAGTGTGTTAGTCAGCTCGGGCTTCCATAACAAAGGACCACAGACTAGGAGGCTGCAACAACAGACATTCATTTCCTTACAGTT
CTGGAAGCTAGAAGCCCAAGAACAAGATGTCCGCACGATTGGGTTTTACTCCGAGGGCCTTGGCTTGTAGTTGGCTGTCTTCTATGCGTCCTCACAGGAT
CTTCTCTGTGTATGCAGTGTCTGCTGTGTCCAGATTTCCTCTTTTTTTTTTTTTTTTTTCTTTTGAGACAGACTTTTGCTCTGTCTCCCAGGCTGGACTG
CAGTGGCGTTATGTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCGTCCTGAGTAGCTGGGATTACAGACACGCACCAC
CATGCCCGGCTAATTTATTTTTAGTAGAGATGAGGTTTCACCATGTTGATAAGGCTGGTCTCAGACTCCTGACCTCATGATCTGCCCGCCTCGGCCTCCC
AAAGTGCTGGGATTACAGGCGCGAGCCACCGCACCTGGCCCAAATTTCCTCTTCTTACAAGAATATCTATCAGGTTAGATTAGAGCCTACCTTAAAAACT
TCACTTTAACTTAATTATCCCTGTATCTATAATTTATTTATTTATAATTACCTTATCTCCAAATACGGTAACATTCTTGTAACATTCTTTTTTTTTTTTT
TTTTTTTTTTTTTTTTTTTTTTTGATACAGAGCCTCGCTCTGTCGCCCAGGCTGGAGTGCAGKGGCGCAATCTCGGCTCATTGCAAGCTCCACCTCCCGA
GTTAACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTTGKGGTTTTTTTTTTTAGTAGA
GACGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCGGACCTCGTGACCAGCCCGCCTCGGCCTCCCAAAGTCCTGGGATTCCAGGCGTGAGCCA
CGGCGCCTGGCCCAAATACAGTAACATTCTGATAAACTGGAGGTTAGACCTAAACATATAAATGTAGGGTCGGAGGGACACAATGTAGCCTATAACATAC
ATCACCATTTATCTCTTTTATCCTTAAACTTCCAGGGGATGAACTGTAAGTCAGCATTATATGCCAAATGGCATCCCCATTTAGGCCCATGGTTCTTAGA
GTTAGTGTATCATACCCTTAAACACTTAACCAGGCTACCTTGTCGATCTTAGTTTTCAGTATTTCATAGTTTTTTGAGTGTTTGCTGTTGTGTGTTTTTA
CTTTTTTGAAATTTCCTTAGATGTTTTAGTGAGAAATTGGAAAATGGTTGAGTCATCACCAGATACAGTCTTGAAACTGAAACCACAAAGTTTTTTAGGA
ATTAGGCAGAGCCCTGGGGGGGAGGGAGGATTTGTTATGGTTATTTTTTAATGAAGATGCTAATTTTTTTATAGTTTGGTGAAAATTGATGTAATCTTTT
AGGGAAGCAATTTGGCAATACCCATCAAGAATGTAAGAGTATATACACCTTTTTAAATTTCTTCAGAGGTTTATAACCTGTTACTATAATCATTTATTTT
GACYCAAATTATCCCAGATTCAGCCAGTGGAAGTCCCTTCAAGTTGGGAGAATTACACCTTTTAAGGTGTAATTCCAGTTAGAAATTTAACAATAGGGCA
TTTGAGTGTAAGTAGGTGTAAATGAGAACAAAGATTTTTCACAAAGATGTTCATTACATCTTTATTTTTAATAACGAAAGCAACCCAAATTGAAGGCAAC
CCAAATATTTTTGRAGAATATTTAATAACTGCAGTATAATGTACAAGGAATAAATCAGGAYACAAAACTGCATGCACGTAATAAACCAAATCTGAATGTG
TATAAGTATTTATGTCTAGAAGCATGTAGATTTTAACTTTATCTAAGCTTTTTCTAATGATCCTGTTTTCATGATCAGAGCAAAAAATATATTTCAAACT
GTGGTCAATTCTGTCTTTCCAGGTAAATAGGGGCCCTCATTTTTTTTTAATCCCAGCACTAAAGAACTTTATGTTTCAGCTTATTGCTTAAGTATCATAC
ATCCCACTGAAAGATGATCCATAAAATGTGTAGTTCTTATAAAAGTTATAAAGATAATTCTACATATTTGAAGGTATTTTAAAAATTTATTTTACCTCAT
ACTATGACTCCTTTTCTATCTTGATATTGCCTCTTAGATCTTTACTGAGTGAAACCAATTTATAATGTGCAAAAATGGGAATGAGAGAAATCGTATCCAA
AGTATACACTTTAATGAATATCCATAATCATTCAACTCAACACTACTATGATAGAGTGGCTAAGAGTGCTGGCCTTCCGTCAGTGTGGGAAAGGGGTAGG
GCTGGGGTTTGCAGCCCCGATATTATGACACCCAGTGTGGTGGCAGCCCCGTGCAGGGAAGCAGAGCCAGAGCAGGGTGAGGAGGGTGTTCGTGCAGGGA
AGAGGCAGGAGACATGAGAGCAGATGGGTTACCCATGGAGAGATTAATCACATAGATCAATCTATTAAAGACAATGGGAGCCAGTTTTCTCCCTTGTGAA
GAGGGGTATAACAAATATGGAAAAGGAGAAAACTGGAAATAACCTTACAATGTTGACTTGGAATTGGAGGTATTGATATGACTCATGAGTTTCAAGAAAT
ATACAGAAACAAATATAGATGTAAATGTGTGTTTGTACCTATCAATACACACACACACACACACACACACACACACATTCTCTAGTCTGACCACTGAATT
CTAGTAATAATGAGTACAACCAGCACCATATCTTGACTGCTAAATAAAATTCTCCACTAAAAGAACCCAGGGATCTTTGGAGAAATGACTAATTCCAAAA
GTAGGGCAGAGACAGTACAAGATGAAACTGGAAAATCATTTTGTGTCAGAAAGTAAGGACATATTCCAAAACTGATAGGTATATGTCAAAGGACAAAGCC
AACGTGAAGGGACTTCCACTGGCTACATCTGGGATAATTTGAGTCAAAATAAATGATTATAGTAACAGGTTATAAACAACTGAAGAAATTTAAAAGTCAT
TAGTTCATACTACAATAAATAAGTTGAAAGTTTGATGAGAAATTGGATTTTGACATAGCTTCAAAGTGCTTCAAGACATTTATTAATTACAAAGGGAGAA
AGAACAACTTCATAGCGGAGAAACCTGGAAGAAACCATCTTAATTAATTATTACAAGTGAACAATGCCTGGAATGGGACCAATCAAAACTGCGTGCCACT
TGATAGGATGCAATGAGAAGAACACAGCATCACTTCTCTAAGATTCTTACCAAAGATGCATAATTTGAATCTAATTGTGAGGAAATATCAGATAAGCTAA
AATTGAGAAATTTCTACCAGATATCTGGCTCGCGATCTTCAAAAAAGTCAAGGTCATGAACATCAAGTTAAGAATGAAGAGGCCGGGCGCGGTGGCTCAC
GCCTGTAATCCCAGCAGTTTGGGAGGCCGAGACGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAA
AAATACAAAAATTAGCCGGGCATGGTGGTGCGCACCTGTAGTCCCAGCTACACGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTG
CAGTGAGTCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAAACTCTGCCTCAAAAAAAAAAAAAAAAAAAAAAAAAGAATGAAGAATTATT
CCATATTAAAGGAGACTAAAGAGGCCTGACACCTAAATGAAATGTGTGATTCCAATGTAGATATCCTTTCACTATAAAATACATTATTGAGACAACTGAT
AAAACTTGAAGGAAGTCTAAGCATTAAACGATAGTTATGTAGTTTCCTGATTTTGATCATGGTATTTTGGATAAGAGAGAGAATGTTCTTGTTTATGAAA
CATCATCTCTAAGTATGCAGGGATGATAGAGTATCAGGTCAGCCACTTAATCCCAAGTGATTCAGGGAACAAAGAGTTCTTTATCCTCCAGTTACAAGCG
TATGGCTGTGGGCAGGTTATTTTGTCTGACTACTTTTGTTTCCTCATCTATTGTACGGGACTAGTGATAGTATCCATCTCTTTGCATTGTTATGAGATTA
AATAAGTTGGTAAAGGTAAAGAGGTTATTTAGTGCCTAGTTAAAGTTGGCTAGTTTTTGAGTACCTTTATATATTAGCTCCAACTATAATATGAGAATTA
TGGTTACTATTTATTTTTGACCTTTCTCCTATTTTGGCCCACTTTTAGTGTGTCTTCCCTTCTGCCCTACTGTTTCCTGTCCATGTTGGTTTCCTTTCCA
TAGCAACTCTTGCCTYTCCAACACAAAGCTTCATGCTCCAAAAAGCACTGAGTCAGACAGCATGGGTTATTCCTTGCATGATTATAATATCTTCACCAAT
AGAAAGAGATAATTTGTGTGAATGGTAAATGTACAAAAAATATACAAAAATCTCATTTTTACAGGTTCCATAATGCAAATTTTTTCCATTCAAATAGGAG
TTAAGAATTCACTTTAGAACATTTTTGAAGGTGATTTAGATTCTATTGTAGTAAATACCTAAGCTAAAGTATAGCATTCTCTTCCTTTTTACTCTCCGTG
AAATAGAATATGTAAAACCTTCTAAAAGAATTTATATGCATAACTCAAGCCATCTTTTCCAAAAACTTAAATTTTAAGTACATGTCAATTATGCATGTAT
GTAAAACTGGTACTTTGATGCTAGTATTTATTAAAATATTGATTTTGTATAAAATTCCTAGCAAATGTGATTACAACTTTATAAATAGGAAATAGTAAAA
AATGCTTAACTAAAGATAGACTCTTTCTTTAGKTTTTTGTTAATAGTAACTATGATTCTGTCATTTTCAAACATCAGCTTTATTACCAAGAACTTATCTG
TAAGTTAGGGTTGAAGAGRTGGCAGGGTGTTAGTATCTATGTTTATGCACAAATGAGTTGTTGTATTATTGCTGGGTGTTTGGGTGTAAAGAAACAAGAA
GAATGTGGGTATGTACCTATCATTGAGAAGACAAAGGAAATCCTGTAACTTCAGCTTTCAACACACTCAACTTGCACTGGGCTGTAAAATCCTGCTAAAC
TATTTAAGGAGAGGTCTCAGAGCCACATAAAAGTCTCCCTTTAAGGAGGTAGTATTTAATTTCAGATTGTCTGTTCCTATCATGCTTCTATACAGTCTTC
TATGGTATTCCACTAAACTAAAATCCAGTTCATTTGGACATCTCAATATTGGACATCAAGACATAAAAATAAAGTATAATATTTCCTTAGTTTAGGGCAT
TTTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCTTGGCCAACATGGCGAAACCCCATCTCTACTAAAAATATAAAAAAATTAGCTGGGC
TTGGTGGCGGTTGCCTGTAATCCCAGCTGCTCCAGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGTCGGAGGTTGCAGTGAGCCGAGATTGCGCCA
CTGCACTCCAGCCTGGGTGACAGAGTGGGACTCCATCCCGGAAAAAAAAATAAAATAAGTAAATAAATAAAAATATGTATCTTATTTAATCTCAAAGTAT
AAATTCAAGGCATAAATTTAAGTATAAATTCTTTTTTAAAAAAGTCTACCTTGTTTTGCAAGGAACTATAATAGGAACTCTTGTAAATGTAAAGTTAATT
GAGTTTTTTCCCCCAAAATATGTCTGATTATAGGCAACAGGTTCCAGGATTGGCGTCTTAACACAAAATGCAACTAACATGGGACTTTCAGTTATCATTT
CCTTTATATATGGATGGGAGATGACATTCCTGATTCTGAGTATTGCTCCAGTACTTGCCGTGACAGGAATGATTGAAACCGCAGCAATGACTGGATTTGC
CAACAAAGATAAGCAAGAACTTAAGCATGCTGGAAAGGTAAAATGAAGACTGTTATCACCATCGTAACATTTAAAGAGAAAAACAGTCAGAACTTTATGA
TATGTTAACTATATGATGTGTTAACCATCTTTATGATATATTAACTTCATCTCTTAGGGATCTGTAAAGTGATATGTATAGAGAGAGAAATGCATACAGA
CCAATTTAGGATAGAAGGTAGATATGTTATAGCAATAGRGTACATGATTTAGAGCACAGGCTCTGGAGTCTAATTAGCTGAGTTAGAATCCAGATTCTAT
GCTAACAAAYGTGTGATATGAGCAGGTTATGTCAACCTTTGTAGACTTCAGGTTTCTCATCTGCAAAGTGGGAATAATACGAGTATTCACTTACAAATTT
TTGTGAATATTGCATAAAACACAATGTTATTATACGCAAAACACTTAGAACAGTGTCTGGAAGACAGTAAGCACGTACTAATGTCAGCCATTATTACTGG
GGAAGTTTTCMAACATCATCATTCCCCATTTTCTGGTCATTGAATAATCAAATTTTCTTGAGCAATTCTTCTGAATATTTTATTTTTCAAAACAAACAGG
CAATGCAGCAGTTACTGAATGCAAGGCCATGCACTGATATTGATAACATATAAAACAAGGCTTTAGAGACAGGACCATAAATGACCAATTTATTTAATCA
TTTGGAAAATGCCTGGACATACAGGTATTTAAGCTTCTTAGGATCAACCATATTCATACAAATAATTAYTATATTAGASACTGAAGGAAACATTATGGTG
GCATCATAACACCTAAGAAYTGAAAGAGACATCATCTGACCCAACCATTAACCTGAAGTAGGAGTCCCTTGCACAACATCCCTGTCAAGCGTCCATCCCC
ATCTCCTACCACCTTTTCCTCCAGTGGCAGGTAGTACATTACTTTCCCAGGCTGCCTGTACTTGGATAGTCTTGGGTGGTAGGCAGTTCTTTTCCTTTTC
TTTCTTTTTTTCTTGTCTTATTTATTTATTTATTTATTTATTGGTGGACTTCTATCTTACTCTTCTTGGCTTTCATCTTGGTAGAGGTCCAAAATCTGTT
TTTCATGACAGCCCTTTAGCAGCTGAATCGCTGTAAACAAGGAGACTTCTGTTGACTCTACTTCCAGGTCTTTAAGATGTTCCTCACACCTGTAATCCCA
GAACTTTGGGAGGCCGAGACGGGCGGATCTTTTGAGGTCAGGAGTTTGAAACCAGCCTGGCCAACATAATGAAACCCCATCTCTACGAAAAATACAAAAA
GTTAGCCGGGTATGGTGGTGCGTGCCTGTAATCCCAGTTACTTGGGAGGCTGAGGCAGGAGARTCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTG
AGATTGCGCCACTGCACTCCAACTTGGGCGACAGAGCACAGCTCTGTCTCAAAAAAAAAAAAAAAAAAAGGGGTGTTCCTCTCCTAATACTGTTTTAGAG
CTCTTGGCTACACTGGTGTACATCCTCTGAATAGCAAAATGATGTTAATATCCTTTATAGTCTGTATCACGTTGAATGTGTCACAATTGGCATAGCATAA
ATGTCATACATATTCATGAATAGGGATGCCAAGCACATAACTCACTGTAATCTCGTTTGCCTGAGCCTTAGACCTTTCCACCTTTTTTTGCACAAGATAA
GGACCCTTGGATTGTTTGCTTGTGCTGTATAGTCTGAACTACCTAGCAAATATTCGCCTCAGAGACAGTAAACAGTTGTTTAGACCTCCTTGTCTAATTT
AAACATTGCAATAATTTATACAATTTCTAAATTAATGAGGCCTAATTATGTTTTCCTCATCTTATTTTTTATGTCATGAGCTTTTGCTGTATATGTGCCC
TTTGACTTTTCCTTTATGTATCATTAGAGCAACCTCAGACTATACAACAAACAACTCTAATCAAATAGTCAATTGGAGGCATTTCCCTATGGCTTTTAAT
AAGTCAATTTACTAAACATCAATTTAGAACATAGACTAATAAAATGTATCGGTCCTTCTTCAGTTGCATGTGTAGATTTGGAAAAATTATCAAACGTTTA
GTTTTTAAGACTTTGAATGGGCCAGGTGCGCTGGCTTACGCCTGTAATCCCAACACTTTGGGAGGCYGAGGCAGGTGGATCACAAGGTCAGGAGTTCGAG
ACCAGCCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAACCAGGTATGGTGGCACACGCCTGCAATCCCAGCTACTCAGGAGGCT
AAGGCAGGAGAATCACTTGAAGCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCA
AAAGAAAACAAAAAAAGACTTTGAATAGCTTAATTAGTTTTCTTAATGACTATTTTCTAAGGGTCTGTAATAATATTCATCCCTTCTCCATTGTGAAAAA
TTGGAGATTTTTTTAATGTTCATTCCTTTTTTTATCTTCATTCCTTTTGTTTTTCCTCAAAATTTTTTTATATTCATTCCTTTTGTTTTTCCTCAAACAA
GGTTTCAGCATTCTTATCCATTTTCTTCATATACTATGGAATGTTACAAATGGAGGTTTCTTTAAGTCCATTTTTAAATTAATGAGAATTTAAAACAACC
AATATCAAAATTGGGAGCAGAATCCTGGTGTCCTCACGACAGTCCAGAAATCTAGTTCCCTCCTACAACCCAAGTTATTCTTCAGAGAAGGCCAAGTGTC
TACCTGGTCTTCTCTGTCCCACAGTCCAYTCTGCCAATCTGGAAACAGAATGTGAAAACAGGAAGTTTCTCTTTCAAGCCAACACATGTTCTCATGTCCG
AAAAGCTATTCTAAACCAAAACTCTCTTCCATTTTGAATCCCATGTAATTATGCATTCTCTTTATAAACTATATAAATGTGGAGAAGTATTCATCACATT
TGAATTAAATGTCTTTTTACATTCACAGACGCCAATATGAGAAATGGCTTTATCTCATAAAGAATTTTATAACCACATGCCATGTTACTTTCCTGTAATG
TTCCTGAGTCCTTTTAAGTTGCTATTTTTAATTCTTTGCTAGAATAAAATAATTATGTGATTACTTTATCTCTGCTATCTTTTTTTTTTTTTTTTTTTTT
TTTTTGAGACAGAGAAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGATGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCG
TGCCTCAGCTTCCTGAGTAGCTGGGATTACAGACATGTGCCACCATACCTGGTTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAG
GCTGGTTTCGAACTCCTGGGCCTCAAGTAATCGGCCCGCCTTGGCCTCCCAAAGTACTGGGATTACAATCATAAGCCATTGTGCCTAGCATCTGCTATCT
TTTACTTGAATTGTTTCATAATTTGTAGGAAGCTCCTTTGCATGTGAACATAATGCTTACTAATGTTTTATTCTTCTGTCTATGGAACAAGTTTAAATTG
AAATTCAGTATAAACTTGAATGGGGTTAAACTTAGATCAGTAGRCTAAATCTCAATAAGACATTTTCCTTAAGCTTATYATCCAAAAGTGTCATTTTTCT
ATCTTATTTTCTGGGAGGAAAGGAAGCTAAGAATATTTGTCAGGAAAACTTACTGACTTGATATACTTAATATGTCCCCAGTGTGAGTGACTAGAATTCA
CAAATGGGAAAAGATTAACCATTACTAATTTTATTTCTATATTGTATTGTCCTGTTTTATAAGATAGCAACTGAAGCTTTGGAGAATATACGTACTATAG
TGTCATTAACAAGGGAAAAAGCCTTCGAGCAAATGTATGAAGAGATGCTTCAKACTCAACACAGGTGATTATAGATTCATACTGACTTCAAAAACTTAAT
TTTGTTCTGTAAAGGCAGTACTCTCAAATGACTCCAGTGGTTTGCCTGCTAATTCATTTGCTCTTGAGCCTTTCCTAATAATGTCATGTCATAATTTCTC
ATATGACTTCACCAAGAGAAACTAGAAGAGGAATTGAGGGCAASCACAATTAGAATAAATATTTTAGGTCCTCTCACATTACCATTAACTGTCTGTTACT
AAGTATGCACATTTTTCTTATTTTCCTGAAAGAATATTAATGAAATAACATACGCAAGAAAGAAAATAAAATTGCGGGCAGGGCGCTGTGTCTCACACCT
GTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACTTAAGGTCAACAGTTAGAGACCAGCCTGGACAACATGATGAAACCCCATCTCTACTAAAA
ATGCAAAAATTAGCTGGGTGTGGTGGTGCACACTTGTAGTCCCAGCTACTTGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAG
TGAGCTGAGATCATGCCATTACACTCCAACTCCAGCCTAGGCGACACAGCAAGAGAAAAGAGCTCGGCCCTTTACATTAAATCCCTAAAATAGTTTACAT
TTTAAATACGAATATATACATAATAAATGCACTTRCACTTTTAATTTTAAACTAGTCCTCCTTATCACATTGACTTAGTGATGCTTTTTATATTACTTTA
ACAGAAAGATAGCTTTTTACTCTTTTGGACTCATACTTGTAGTTGGCACCACCCTTTAATTTCCTCTATTCTGTTAATGAAAGATTGTAAYGGAGACTTA
GAAAATCCTTCTAAATACCTAAACCAAATCTCTAACTCTTACACTAGCCATCCTTTCACGGGCTTTGCCCATTCATTTAACAGTATATAAAGTTAAATTT
GTTATACTGAACTAGAGAGTATATGACTATAGGGAAAAGAATTATAACATTATCTGTCTTTTCTCAAAGAATTCTCAGTAGTAAAAAAAAAAAAATCACT
TTCTCTTTCATCATTYGAAAAATGCCTTTCCAMCAAATTATAACATTTCAAAGTYCTCTCTATTTATTACTCTACATGTATTCAATTGACCTTGCTATAA
TTCATGCCTCATTATTTGGTAAATTTTGTACATTCCAGAAATACCTCGAAGAAARCACAGATTATTGGAAGCTGTTATGCATTCAGCCATGCCTTTATAT
ATTTTGCCTATGCRGCAGGGTTTCGATTTGGAGCCTATTTAATTCAAGCTGGACGAATGACCCCAGAGGGCATGTTCATGTAAGTCGTGGAAATAGTCCG
GACCTGGTAGCTCACACCTGTAATTCCAACACTTTGAGAGGCTGAGGCGGGTGGATCACTTGAGGTCAGGAGTTTGAGATCAGCCTGACCAACATAATAA
AACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCAGGCTCCTGTAATCCCACCTACTCAGGAGGCTGAGGCAGGAGAATCGATTGAAC
CCAGGAAATGGAGGCTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCAACAAAGTGAGACTCTGTCTCAAAATAAATAAATTAATTAATAA
GTTGTGGAAATACATAAACCTTGTAAGGGGGTCATGTACTTATTTACCAGAAAGATGTCTAGTTTATAGTGAGTTATCATTTAAATCACATWTGTGGAAA
AGGTATGCTTGAATTTTTTTTAAGTTGGAATTTTTTTAAATATACACATAYTTTTAAATTTTGTATTGATATATAATAGTTACACATATTTTAGGGGTAC
ACATGATATTTTGATATATTCATATGATGTTTAATGATCAAATCAGGGTAATTGGGATGAATTTTATTTTTAATTGACAGACAATAATTGTACATATTAT
ATATTTATGGGGTACAATGGGATGTTCTGATATATGTTAACACTGTGAAATGATTAAATCGAGCTAAGTGTTTTTGTTATTTAGTCTCTATAAGYACAGC
ATAACTGGTAAAATACTGATACTGATATAAGGCATAAAATCTGAATTAAATTCCCAGATGAATTGCTCTCTGCTTCAGTTTACTGGAACATGGGAATGTR
GGGGCAAAATATGCCTTCTTGTCATTCATCCCTTAGGAAATTTGTGAGACATTATGAAACTCTCAGTGTGGAGATGGCTTCCTAAAGTAAGACTGTACAT
CAGTGAGGATGAATTATTTGCTAAGCAAATAATCCAGAAGAAACACATATAAATGAGTGTTTCCCTTCAAAAATGTCACATTTGGAATTGAATGTGGTGT
CCCAGTGAGGCTGCTTCTTCCCAAAGCATTAGGTTGGAGCTCCTATTTTGAAGTTCTGGTCACATAATTATGAATTTATTTGTTTTACCGGAACATCTAA
TGCAACTGCTAAATTAGAAAAATTAATTTTGAGTATTAATTCTGAGCTGAGAGCCTAAAATATCAGAAATGTTGCTAATCCATCATAAACGTCATTGCTA
AGCATTTAGAACTGGAGAAATCCATACAATACTTGACTCAAAAAAGTAACATTATGTTATTTTTAACAAGCCCACCAAAAAATGCACATCCATGCAAGTA
TCAGCCTCTTCACAATAATGAATTGGGAGATTACACCTGTTACAAGGATGCTGCTATTTGGCAGAACACACTGGGCACTTCTCTTTGGGTTTTGTTTCCC
AAGTCTCAGGACATTACTTTGAATATCCTTATTGTYGGCATATTTGTATTTTCAGGATAGGTTCAATTTGAGGAAATGGCCAAAAGACATTTAAACCTAA
GTAATTTCAGAATAACTTGGAATAATTTTTAGTTTCTATTCACATGAAAATTTATTTATTTATTAAGCATTAAGTGAAGTCCCAGGAAGTTTCTTTGTTA
GGCACTGATAAGAAAACAGTCCAGAGTTCACCAACCCAGTATTCCTAAATCTTACCTGACACCAAAGCCACTTAGAAGTTTCCTGGAAGCAGATTTCCTT
ATAAAATGGAATATGGAAATGGAATATCTGTATTTAAAATTTCAACAGAAGGGCTGGATGTGGTGGCTCATGCCTCTAATCCCAGCACTTTGGGAGTCCA
AGGCAGGTGGATCACCAAAGGTCAGGATTTCGAGACCAGCCTGGACAACCTGTGAAATGCTGTCTGTAGTCAAAATACAAAAATTAGCCATGTATGGCGG
TGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCATGAGAATCACTTGACCCGAGGAGGCAGAGGTTGCAATGAGCCAAGATCACACCACTGCACT
CTAGCCTGGATGACAGAGTGAGACTCTGCCTCAAAAAAWTTAAAATAAAATTTCAACAGAAATTGCAAGTTCCCTGTCCTATGTTCTCCTAGCCTCTAAA
ATAGTGTGCRCTATTGCCCATGTGAATTTATAAACCACAATTATATTTAGGCTTGGGTTTCATTCTGATTACATAAGACTAATTACTTAGGTAGATTAAC
AAGAAACAAAATCTGAAATCACATAAATAATTCAGCTCACCAGCCCCCGTGAGCCAGTTTTTCCTTTGTTCTAATATAATCCAGGCACTYCCAAGCTTGA
AAGTTGGTTGTAATCCAAAAGTTTGTTTGCAAGCCAATAGTTTGAAACTCAAAACATGTTTTCCTCATGTTGCTCTAAACTTTCCACAGACTTCTTTAAT
CCCCAGGGCCCCGTTCCTTCTGTATAACTAGTTTTGAGTATTAGTAGAAAGCAAGCCAATTAAACATATTCATACTAATGTACGAGGTTTGATGATTTTC
CAAATTCTCACAGAAGAATTTTCATCTGTTTTCATCAATTTCTCTGTCACTACTCTTTCTTTGCTTTGTAATCACACCTATAAAAAAAAATAAGAAGGCC
AGGCAYGGTGGCTCATGCCTGTAGTCCCAACACTTTGGGAGGCAGAGGTGGGTGGATCACAAGGTCAGGAGCTCAAGACTAGCCTGGCCAACATGGTGAA
ACCCCGTCTCTACTAAAAAATACAAAAATTAGCTGGGCATGGTGGTGGGCGCCTGTAATCCCATCTACTTGGGAGGTGAGGGACAAGAATTGCTTCAACC
CCGGAGGTGGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCAACTCAGGAAAAAAAAAAAAWATATATAT
ATATATATATACATATAAAATTTACTGGATCCTGTTTTTCAGCCAGGACTCTGTGTGTTGGAGGGCTTTARAGCTCCCAGACCTTTCATCTATTACACTT
TCATTAGTGTTCTCATCCAATCTGWCAGTTTTAAATACCACCTGTGTCCTGATAACTTCCTTCTGTATATTTCCAACTCTGACCCTGCCCTGAGCACAAG
ACCCTTATCCAATTACTTAGGAGACACCTCCACTTGGAGGACTAATATCTCAATGTGTTCAAAACAGAATTTAAGGTGTTTCTCCCCAAAGGTTATCTTC
CCCAAGACTTTCCCATCTTAACTAATAACACCAACCACCATCCACACAGTTGTCAGCCCAAAAATGTTGGAGTCATCCCTGTTGCTTCTCTTGCCRTTGT
CCACCACATAAATCACTGATTCCTCATGACTCTAATTCCAAAATTCTTCTCATCCTCTTCACACTCATCCAAGCCCCTCCCTGTCTTGACTGGACCACTG
CAACAACCTCACCAATGTCCTTGTGTCCACTCTTGCTTCCCTATAATCCATTCTCCACACTGCAGCCAGACTGATCATTTAATGCACAAATCCAATAGCA
CCAGTTTATTAAAATTCTGCAAGATCTAGATCTTCCCACTGAAATTTGAATAAAGCCAAAGTCCTTACCATGACCTGAAAGACCTTCATGATGGGGCTGC
TGCGTTGCTTTCCAATTTCATCCACCTCTATCTCCCATGTTAACTACTCATCAGCCCCACACTTGCCATGTCTGTCCCTGGACCTCCCCATTGCAGGGTC
TTCACACTTGCTATTCTCTGCCTGGAATGGTCATTCCCCAGGGCTTTGCTAAGCTACCTTTTTCTTACCACTCAGGCTTCCCCTGCTAAGTCCACTCCTC
AGAGGGACTTTCACCGATGGTCCAAAGTAGTTCCCCTAACCCTCCCTCCTCATCACTCTCTTTCCCATCACCATATTTTGTTTACAACACTTATGACACT
TATGATTCTATGAAATTATATTTTGTGTTTCCATATTTATGAGTGCATAGACTGAGCACAAGTTGTAACCTATCTTGTTCACTGATGTTTCCCAAAAGCC
AAAAACAAGTGGGTGGCACATAACAGACACACAATAAATATTTATTGAATGAATGACTGAATCAAAATTAAGGGGGAGATTTGGAATGGTACATAATTAG
GCAGTACAGTCATTTCTGGAAATGTGCCTTCGGAGTCACCTTCACACTTTGAAAACAGGAGTCTGTTTTTCACAAATTTTTCTAATTTTCTTCTTTTCTA
CACCCATATGTCTAATACCAGGTGCTTTGGCAGGAGGACTGGATCTAAATCGAGGGCAACCATTGATATAAAATATGATGTGTGGAATTGAGAATTTACC
TGTACCTACTGAGATTTGTTTAGATTAAAGCTAAGAAAAAATTTCTCAGTCGAAGAATGATACAACCTCAAAATCATGCCAGTCACTTTCATGCCTGCAA
ATGACACCCGTTAGGATGTTTCCTTTAAGGGGCTTTCCAAGACTGCCAACCATTCCATTACTTATGAAAATTGCTATAACGGCAAATCTTGATTGAATCT
TTACTCAGTTTTAAGTATTTGCTGTATATTATCTGTTTAATGCTCTAAACTACCCTGTGAAATACTATGGTTCCCATTTTACAGATGAGAACAATTAAGA
CTCAAAGAGGTTACCTAACTTGCTCAAAGTTACATAATCGGTAAGTAGCAGAGCACAGATTCAAGTTCATGGTTCCAGATTCCAGAGGTTTGGTTTACTC
AACGTACATTATTATTATTATTATTATTATTACAAATTCTGTGGCCAAACATTCATAGAATATTTCTGTGAAATTATTTTTTAAATAATTCTTGCTTAGT
TTTTCAAACATTCGAGTATTCAAAGTTGGGCTGATTCCTCACATATAAATGGAACAGGTGACCTGCTTAGTGCTATTTTATAGCCCTAAAATATGAGAAT
GAAAAGTCCCCAATATAAAATTTCTTCCCTGAGCTGGCCTACCATACTTCCTGAATTTCTTTTAATTAAATTCATTAAAAGGGGGTCTCTTCTAGATACA
TAAGCATTTTAACTATCAGAACATATGAAGGACTGTTAACATAAGAGTAACAATTAAAGAATAGTACCACCTTGGTATTTCCCAGTGCCCCAAGGGAAGG
AAGAAATAGAGAGCTATCTGAGCTAGAGCCACTGGTATCACTTTTCTTCTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTAAGTTCGAGTCTCGCTCTG
TCGCCCATGCTGGAGTGCAGTGGCACGATCTCAGCTCGCCGCAAACTCCGCTTCCTGGATTCAAGCAATTCTCCCACCTCAGCCTCCTGAGTAGTTGGGA
CTACAGGCACATGTCACCACACCTGGCTAATTTCTGCATGTTTTGGTGGAGACCAGATTTCACCATGTTGGCCAGGCCGGTCTCAAACTCCGGACCTCAA
GTGATCCACCTCCCTTAGCCTCCCAAAGTGCTAGGATTACAGGTGTAAGCCACCACACCCAGCCTCACGTTTTGAGTTTCATCCAGTCAGAATACAGACA
GAATAAGGGTACCCACACTTTTGGAGTATGGACAAAAGAGAGATTCTCTAGGGATTCTCCTCCAGTATTAAATGTGGTTATTGCCCAAAAGAGCAACATA
GCACTATGCATAATGTCAATAGATGAGATTTGTCTTCAACACCAAAGAGGATTTGGTCCTAGAGATCAAATGTGGCCCCAACTACCATGAATGTGTCACA
AGCTCCCTTTAGACACACTAAATGATACCTGGCCTAGAAGACTCTGTACCTTCCAGAATCTAGGATGACAGACAGCTTTCAATCTCATCGACTAGCTAAA
CCAAAGAAATTTACAAAGAAAACTCCCTCCTACTAGAATTCTTCTTAGATAAAAAGCACTTTGAGCCATTCTCTAAACCAATGGTTTTCCAACTCASCAA
TCTAGGAGCTGGTTAAAACTGTAGATACCTAGATCTCATCCTGCAAAATCTGATTTGTAGATCTAGTATGGGGCAGGAATCTTCATTTTATCMAACATTC
CAGATTACTCCAAGGCATAATTTATAGCTACAAGGATGGATTATCTGTGTCTCTTTCAAAAATGACATTGTGTCTCAGAAAGGGAGATACACAAAGGGAG
TTTTAACAGCAAAATTCTTTAATGTGCTCATAATATTAGTTTGTCAGCAAGGCTTTTTAGAGGAAAAAGCCTCTAAAAGAAAAAAAAAGACAACACGCAT
GTCTTATGGTAGAAGCCGTCTCTATTTCTACTATCCTAGAAGTTTATCTGAAATGAGCATTTAAAATAAGGTGATAACATTTTCATTCTGCCACCTTACA
GACAAGGCATAGGGGCGTTTAGAAAATCTCTTGTTTAGGTTCTCATGCACCCATGTGTAGTAAAACACTCACCTCTCCCTTTGTTAGTCCTGGTAACACA
TTCTATTTGTTATTTCACTATAAATGTGTAGATTTAGATGTACAAAATAAGTTTATTTTATCCTATCTCTTTGTGTTAGTCCCTTTCGGCTRGTTTCCAG
CTGACTTGCCTTTTGCAATACCGACCAAGAACCATTCCTAATCAGGAGAGGTTTCTGTAGCCTTCCTTTCCCCACTGCAAAGCTTTCTCTATCTCTGTGA
GTTTCTTCCATATTTTCTATCCATATTATCAAGAAGCTAAGCAGAGCATATAGGTAAGAAAGAATCAAGATATGGCAGCCCTCAATACAGTAATAATAAA
AGCCACAGCTTTGAAAACTGCCTGAGAAGCAGAACCAGGCAGTTTATGGGTGTGTTTCCTAGTTCTCTTAAAAACCAAATGCAGTTCTTGACAAGAAACC
ACATTGTATTTCCAATAATAATGTGATTATTGGCCAAAAGAGCAACATAGGTGGGTTTTCAATGAGTATTAACAGTGGGTCGATACCTTAACATAATAAA
GGATGGACAGAAGGGAGCTAGGCCTGCACCATCATCTTTGCCCTAGGAGGCTGGGCAGCCAGGGAAGAACTGTGAGTGTTATTGCTGTGTTAAGGAAAGC
AACACTGGTTACACAAAACAAAGAAAACAGGAAAGACTTCTTTCCATGTTGGCTGCCATGGCAGCCACCTAGCTCTTGCCTGGCTCCTCCCCAGAGATTA
TCCGGAAGAGACAGACAAGGACAAGATAAGAAGGCTAAATCAACCACTGAAGGGACCTAAAGAAGAGAAATCAAAGGACAGTTGATATCTAGGGCCTTCA
GAAGATTCTAAAATGGAAAGCAAGTGGTAACAAACTCCAACATGTAGGAAAAGACCATTCCAGCCAGCTTTCCACTGCAAGGAAGACCATGTAGGGGAAA
ACACAGAGAGGAAGGCAGCTCACGTTCCAACCCTACAATCTCATGTCTTCTGGGCAAATTGCATAATTTTTCTGAGCTAGAGTCTCCTCATTCATTGACT
GATAAGTTTCCATTCTACTTATCTCCTAGGTGATTAGATGGTATCTTGTATATGAAAACATTCTATAAGATCCAAAGAACCAAATAAATGTTAGTTGCTT
ATTTTCTCCTCCTATCTGTTGAGAAAAGGATTTAGGGCGGGAAGAGGTCTCTGGGTTGTATATGGATGATATACAGATGAGCATGGGAATAATTTTAATG
ACTACCTCTATGGGGAAAGATACTCTGCCTTCTAATCAAAGAAAGAAACTTACTGAGTAAGGACTTGGAAAGTTGTGATTTGACCTGCCGTGCTAATCTA
TTGCTACAGAAGTGTGAGAGCTTTTTTTTTCTTTTTTGTTGTTGTTGTTGCTGTTTTTCTTGAGACGGAGTCTCACTCTGTCACCAGGCTGGAGTGCAGT
GACGTGATCTCAGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGTCTCCTGAGTAGCTAGCATTACAGGTGTGTGCCAACACA
CCCAGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCACCTCGGCCTCCC
AAAGTGCTGGAATTACAGGCATGAACCACTGCACACAGCTCCTGTTAGTGACTTTAAAATATTTGTCATGATACCAAATTACTCCTCTTCATATATCCCA
AATGGGTGAAACTCCTCAAGACCAACAGTGACATGAGAGATTGTTGGCCTGTACATTTCTCCCAGTTAGGTGTTCAGTTCAAATGCCTCCAGGAGCTTAA
ACCAGATTTGAAGGATATGGTTTAACTATGTTACGGAGTTACAGCACGGGTTATTCTACAATAAATACTTGTTGAGTGGAACTGAATTTCAGTTTAGCTC
ACCCTAGCTAATTGGGTCTGATTAGGTAAGGACAAATTCTGTAGCAGACCAGTTTTTTCCATGTGTGGGCCTTGGCCTACCTTTATACAGAATCCACCTG
GAGAAAAAGCGTAAAGAAGATTACTGTCCCTAGGCCGGGCGCAGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACTAGG
TCAGCAGTTCGAGACCAGCCTGGTCAACACAAAAATTAGCTAGGCATGGTGGTGCATGCCTGTAATCCCAGCTTCAGGAGGTGGAGGCAGGAGAATTGCT
TGAACCCAGGAGATGGAGGTTGCAGTGAGCTGACATCATGCCACTGCACTCCAGCCTGAATGACAAAGCAAGACTCTGTCTTAAAAAAAAAAAAAGATGA
AGAAGATTAGTGTCCCTCACTCAACCCCAGATAGTCCAACACCTCAAAGTCCACACTTCCCCTCCAGGGTCTTCAACATAACCCTCATCGGCATCAGCCC
CCATCCCACTTACGTTTCTCTCAGCACTCACTCATTAAAGACGGTATCAGGGCTTTTGCTTGTACTCTCCCTTCTCTAACTGAACCCTTTCTTCCGGCTC
CATTCTCCATCCTTTGGGTCATTTACCTCCCACAAACACAAGTTCTGAGTTGAAGGCCCTTCTCCCTTTCTCATTAATATTTCCATTTTCAGAGGGACCT
AACAAGGATGTCTGCCTCTAGACATTTATGTCTAATGCTTACCATTACTGTTATAGTGGGAATGTTAGGACAGGTAGAGATTTTAGCATATCTCAAATCA
TGGGAAGAAGCTATTTTCTCAGTTATTGATTTCAGAGAAGCCTCTACCCCTTTGGGACTAGAAACCAGGTCTCCTAACTCATAATCCAATTATCTTCCCA
GCTCACCTGCTGATTCTTGGATCAGACTGAGGCTTAAGTCTGACAGTCTGATTTTTCCTTGCATTAAAAACACATTTAAAAAAAAAAACCTTCTGATTTG
GTTACCTAAACTCAGTGACCATTTCTGATGTTTATAGCTGGGTATCAAATAATTCAAATGGCATTTTGAGCTTTAAACACTTTCTGTAAATATCAGTACT
AAAAAATGCCTTGACATCACTGAACTAAATAACAATTATTTTAGTGTTATTTTTGTTTTTATATTTTATACTGTGTTTGATCTTTGTAAAGCCAACAGGA
TTCAGGATCTGAGGTCTAGGTCACTGAAGAGATTGCATCAGCATCAACATCTACCCTTTGATAGGCCCCATTGAGGGAGAAATTCACAAGGAGCCCAGAC
GTGTTTACTTTGCTGTTATCCAGCACTGCAAACAAGCAACTGGGTTCTGTGATGACCCTTTACTGCCTAATGTTTAAATATTGCCAGCGACACTGGTCCA
GTTTTAGCCTGATTGTGCCGTTAGCTTTGTTACTAAGATGCATTGTTTTGCATTCTAGTACACTACTTTCATATCTAAAATGAAATCGAAAATGAGAGGA
AAATATTTAACCGTGGTCAGGTCCTGTGCCACAGTCGAGTAAATATTCTGTGTGCTTCCAAACATCATTTGCACACTTACCATTTTATAATTAACATGTT
TTGAAACTGAGATCATAATCAATAACAAACCTAAAAGATCAAAGTTCTTCTTTCAGTCTTTTTAGTCAGATTTTGCTTTGGGAACCTGAGGAAAATACGA
TCCCCATGATTTGCTCTCTAAATAATGTAGCATATCAGACAGATAACCAGTCATTTAGCTTCAGTTATCTGTCCTAACTACATTATATGCAAAACAAACA
AACAAAAAATCATATCTACTGTGTAAATCCAGATCTCACTACTGGAGATTCATTCTTCCTATTGTCAGTTGAATTCTCTGTCAAATCTCCAAGCAAGCAA
GCCTCATATCAAGATGACTAAGAAGTTTTATATTCACTAGTTGGGACCTTTGATCTGTGGCTCTAATTGGAAGAGACATTTTTAAGATTACCCAAGCTCC
AAAGTTCATTTTGGTGTACAGAGCAAGGAATGATTACTACATGGTAGAAATTTTTTAAAGAGATAACTTGGTGGGTCTTCAGCGTTAGGGGTGCCGTCTA
CATCAAAAGATTATATTCCTGTGCCTGCTTTTTTCTTTACTTTTAGAGTTCTACTGTTTTACAAAGGATCGATGGACCTAAGATTCAAATGCTTTATCTT
TTGATAGAGTTTTTACTGCAATTGCATATGGAGCTATGGCCATCGGARAAACGCTCGTTTTGGCTCCTGAATATTCCAAAGCCAAATCGGGGGCTGCGCA
TCTGTTTGCCTTGTTGGAAAAGAAACCAAATATAGACAGCCGCAGTCAAGAAGGGAAAAAGCCAGTAAGCACAAGTGTGATCTTAAATGTCCAAATAAAG
ATGGCAACAGTAGGAACTGGGGGCCACTGAAGATGGGAGGGAGAGAGGGGCAAGGGCTGAAAAACTAACCATTGGGTGCTATACTCAGTACCTGTGTGAC
AAGATCATTCATACCCCAAACATCAGCATTACGCAATATACCCAGACAACAAACCTGCGCATATACTCCTGGATCTAAAATAAAAGTTGAAAAAATAAAA
TGTAACATAAATGAAAAATAAAAATAAAAAATAAATGTCCACTTATTAAATGAAGGCTGTCTTTGGAAAACTCTGCAAAAGATAATGTCATAGTAACATA
AAGAGTTAAAAGTTTGTGCAAAATAATTTTATGGCTGCAAACGGGGAAAAGGGGTCTTGTCTTAATCAAATTTTTACCTCTACAACTAAAATTTATATTT
CATATTTTAAAATATATGCTTTTAATTTATATGCCTGATGCTATGAGAATGTTCTTGAAAAAAAAGATTGATTCTTATACTGAATKCTACTGAGAAACTA
AAGTTTTGATCTTGGATGAAGATTCGTATTAAGGTTTATTTGTTTTTTTTTCTCTGATAATATATGCAAAGTAAATAATATTCTGCTGCTTCAGACACCA
TTTTTCATGGGAAATATATTTACAAACAAAGGGGAAAAAAAGGAAAGTATACCTATTAAATTGATGCACACAAACAAATTTAGCCTCAAACTCTAAAAGA
CTGTGAATATTAAAAGAGAAATAATAGGTAGGGTGTATAATTTCAAAATAAATCTCTCAATAATAGTCTTATACAGCTGGGCGTGGTGGCTCACGCCTGT
AATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGATCGAGTCCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATAA
AAAAATTAAAAAAATTCAGCCGGGTGTGGTGGCACGCACCTGTAGTCCCAGCTACTCGGGAGGGCGAGACAGGAGAATCGCTTGAACCCGGGAGGCGGAG
GTTGCAGTGAGCCGAGATCACGCCACTGCACCCCAGCTTGGGCGACAGAGCGAGACTTGCTCTCAAAAATAAATAAATAAATACAAAATAAATAATAGTC
TTATACATTAAATATACATTCAATTTTAGTACTTTTCTAGACATTTTAATTTTTAAAATAAAAATAGTCCATTAGGTATATACTTAAATGTTTTTAACTT
ATAATTATTTCCCTCTAGAATTTTAATAGATTTATATGTATGACAGCTTAAAATACAGCATTACTAGAGCTACACAATGGTTAAGAAGAATGCCTGTTAG
TGACAGAAATAAGACTATCTGGAAATTCTCAAAATAGAATGCTTCAAAGATACATCACAGTCAAAATAAGATTTTGTTCTTGTATTTTGGAAAGTAAAGG
ATGTAAGAAGCTTTTTTTTAATTTTAAGATTTATATGTATAACAGTATTGCTACTCCTATTTCTTTCTGCAGATTATAACAGAGGAATTGAGTATCTCAC
TGATCTATGTCCTTACAGAACCATAGGCATGGCATAGACTATGGAAGTGTTTCTTATAAAGGCTATAAAATTAATGAATTTAATCCTTATTTTATTTAGT
ATGTAAATGTTTCTGAATATCACTCTACGCTTTTAAAAATTAAAATCTGGGCAGGGTGTGGTGGCTTACACCTGTAATCCCAGGACTTTGGGAGGCTGAG
ACGGGCGGATCACCTAAGGTCAGGAGTTCAAGTTCAGCCTGGTTAACATGGCAAAGCCCCATCGCTAACAAAAACACAAAAATTAGGGTGTGGGGGCAAT
GCCTGTCACCCCAGCTGCTCGGGAGGCCGAGGCAGGAGGATCGCTTGAACCTGGGAGGCAGAGATTGCAGTGAGCCGAGATCACACCACTGTACTCCAGC
CTGGGTGACAGAGCGAGACTCCTTCTCAAAAAAAAAAAAAAAAAAYTAAARTCTGGTCAAACAAAATTGGCAAATATTGAAATTCCAGCTGGGTGATAGG
TATGTGGGCCATTTATTAAATTTTTCTCTCTATTTTTATACTTTTGGAGTTTTTCATATTAAATAGAATTAAAAATCGTAAGAATAAATTTTAAATGTAT
TAAATTTAGAAGTTTTCTAGAATACCTCTGTGAGCTATTATACAAAATACTTACAAGAGCATACATAAAAATAATTGAATTCTTCATGTTTCTGCGGTAT
TCTGTTTTTTTAAAACCTTTTTTATACAAATGCAGAGAGGGAAGTACACCAAAAAAAATTTAAAAAATAAAACAAAAAGAAATTTTTTATACAAATAATA
TTCATAGGTTGTAGGGGGCAAATGGAAAATACTCACTACACTAAAATAAACGACTACTACACTACTTTTAAATTTTGGCAAATATCCTTCCAGATTTTTT
TTTTCTATTTCTAGATCTCTTAACCACATCTTAACATCAAATTCTTTTAACAAGAAAATAATATCATAAAATTTTTTTTGTTTACTCCTCACCCCTACCT
GCCCTTGCTTCTTACCTATAATATGATGGGCTCAGAATGGGTCAAACATGACTAGTAAACCTGACTGTAAGGATGTGTTTTAAAATCCAGCCATCACTAC
CACCACACACACATGCACACACACACACAAATCCACTACTCCTTAGTTGTTTAGTCTAACAACAAAAATTAATAAGACTTAAAATGCAATTGAGAAGAAC
ACAAAGATCAAAAGAACTTAAAATCTTATGAACCAAATATATAAAGGGAAAGTTAATCATTTAGTGATAGTTCTGGAAAGTCTTTTTTAAACATCCTGGT
GTAGATGAGTATTGGTTTAGAAATCATTAACCAGTAAAGAGATTGATGCACAGAGAGAAACTAAATGTTTAGGCAACTGTCACTGCCAAATAATGGTCAA
TTGAAAATAAAGATAGGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTCGGGAGGCCAAGGTGGGCAGATTGCTTGAGTCCAGGAGTTTGGAA
CCAGCCTGGGCAACATAGTGAAAACCCATCTCTACTAAAAATACAAAAATTGGCTGGGTGTGGTGGCGCACGCTGGTGGTCCCAGCTACTCAGGAGGCTG
AGGTGGGAGGATGGCTTGAGCCTGGGAAGTGGAAGTTGCAGTGAGCCGAGATCACACCACTGCCTTCCAGCCTGGGTGACAGAGCTAGACCCTTTCTCAA
ATAAAATAAAATAAAATAAGAAAGATAAATCAGAATTCAAAACATACTGTACCTTCACTATAAAACATGGCCCAATTTAGAGAAATAACCYTCATACATA
TAGTTTATGAGAACCCCAGCTCTTCTGAATTAAGCAATAAAGGTTTGTAAAGCACAAACCACATTAAAAAGAAAAACGTATTACCCAGATAAGCTGGTCA
AACAACCAACTGCGGAATGGAACTGTCTGTGCAGCAAAGCTGAAGGAAGCAAGTGGTTTTTAGAAACTCAGTGAAGTCAGTAGTGAAGATAACAAGAAAC
ACAGACACAAAAAAACATAAACAAAAGTGACAGAAACCCACTTGCAGTCAACAGCTCTACAGAGATGCATACATGTTTAAAATTAAAAGGGCTCTGGAAA
CATGCACAATTTTCAAAATGAACTTGGCCAGTATGCTACAGTGTGTTACAACCTTCCCAAGTCATTCTTCYCAACTCTGTCAACTTCCTTTCACAGGACA
CATGTGAAGGGAATTTAGAGTTTCGAGAAGTCTCTTTCTTCTATCCATGTCGCCCAGATGTTTTCATCCTCCGTGGCTTATCCCTCAGTATTGAGCGAGG
AAAGACAGTAGCATTTGTGGGGAGCAGCGGCTGTGGGAAAAGCACTTCTGTTCAACTTCTGCAGAGACTTTATGACCCCGTGCAAGGACAAGTGGTAAGA
CAGAACTGAAACACACCTAATCTGGGGGTTAGCAGTCCTATTCTTAAACATTCACTAGGGCTTAAGCATCCCCACTGGTTTGGGTGGGGCAAACAATGCA
GAAGTTAAAAAGAAAAAAAATCTCTGTGTCAACCCTTAACTAAGAGGACAAGCAAACCATCACAAAAATGATGGTTASGACTCTGAAGTGAAGCACAAAG
GTCCAAAGATTCTTCAACCATTCTGGCAGCAGAAATGTTGATCTTAGCCATGGAATTACTTTAGAACATGGGTGCTGGAGATCTGGTCTAATGTTCACAT
CGTGGCTCCGTATTCTGTTGTGGTTTAAGACAGAGAGAACACTGTCCTCCACCTCCTTAGTTCAGGCTTCTGCTTTCCCACCACTCATCCCCACCTCCCA
ACTGTCAAAACTTTATGCACGGTTAAGGCTTATTGGAATCAGCTCCATGAAGTCATGCCTCTAATATCTAAAATAATGTAATCTCCCCATCCTTCGAAAC
TAAGGATTGTTTTTCTTACCTGGCACTTGTCTTACTATACCTTATATTGTGGTTTTTCCATTACCTTGTCCTCCCCCCACCACCCACCACCACATCAGCA
CACCCACACAAAGCTTCCTGTCCTGCCTCCTGCCCGTACAAAAAAGTTCCTAAAACTCAGACTGCCATGTTAGTCCTCATTCTCCTGCAACGTACAGTCT
TTTCGCCCTTACAGATTCTCAATGAGTGTTTGCAAAACAGAGTTTAGGGACTCAAGGGAGTCCTAAAGGGCTCCCTTGAACTATGAGACACTCATCTATT
CGCACATAGCATAGCACACTCCCTCTTCTAAACCTTCCACAGTTAGAACATACCAGTCTATGCCATCAATCAGGTCCTTCATGCCCTGGCCCCTGCCTCC
CACTCCAAGCTCCTCTCATATCACTCCCCACGTCATCATGCACTGTGCTTTTTCTGTTTTTTGGGGGGCTTTTGTACRTTTTTTGTTTTGTTTTGTTTTT
TTGAGACAGAGTCTTGCTCTGTGGCCCAGGCTGGAGTACAGTGGCGTGATCTCTGCTCACTGCAACCCCCGCCTCTAGGGTTCATGCGATTCTCATGCCT
CAGCCTCCCAAGTAGTAGCTGAGATTACAGGGGTGTGCCACCATGTCCAGTTAGTTTTTGTATTTTTTGTAGAAACGGGGTTTCACCATGTTAACCAGGG
TGGTCTTGAACTCCTAGCCTCAAGTCATCTGCCCACCTCAGCCTCCCAGTCTCCTCATGTTCTTTAAACACACCTATGAACCTTTCTTTTGCTATTGCCC
TGACCAGAATGTCCCCTTTGCAGGCTCCTTCTCACTGTTCATGTCTTAGTCTGAACGTCCTTTCCTTAAGGCCTTCTTGTACAACCCCCTTCTCATGCCT
CTCCATACCCTCCCCACTGCCTCAGTCGCTGTACCCTGTTACCCTGTCTTTAGGGTACTTTCCTCCCCTGAGTTTATTGAGTTATTTGTTCATGTGTTTA
TTGCATGCCTCTCTGCTAAAATATAAGCTACATCCATGGGGGGAGGGGGGAGGGACAGCATTAGGAGATATACCTAATGCTAAACCATGAGTTAATGGGT
GCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGTACGTTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATAAAATTAAAAAA
ATATATATATATAAGCTACAAAAGGGAAAGAGCTTTCTCTTATTGACCACTATTTCCCTGGTACTGGAAGAGTCCCCCTCACGTAGTGAGCATGCTCATC
AAATATGAGATGGTGTTGTTAAGAGTGTTGTTATYTATTTATGTGAATAAACATGGCTGTGTGCAAGATGACACAGCTTTACATGTGGAGTACTGTATCA
TCTCCACCTACTTTTTACTGGGCTTTCAGAAAGTCAGGTCCTGTTACAGTGGAGGGGGCAGTAGTGAGTTACAYGCTGTTTGCTTCTATACAACGTATGA
TTTATGAGCCTTCCTTGGGTAACTTTATACTTTGAAATAGCTTGAATTCCTATCCTTCTTGTTATGATTTGTGTGTGTTTGAATACAGTGAACTGTAACA
TGATACAGTTGTGTGATCTTAACACACCATTCTCCAATCTGCTTTTGGCAGCTGTTTGATGGTGTGGATGCAAAAGAATTGAATGTACAGTGGCTCCGTT
CCCAAAYAGCAATCGTTCCTCAAGAGCCTGTGCTCTTCAACTGCAGCATTGCTGAGAACATCGCCTATGGTGACAACAGCCGTGTGGTGCCATTAGATRA
GATCAAAGAAGCCGCAAATGCAGCAAATATCCATTCTTTTATTGAAGGTCTCCCTGAGGTAAGAAAATTTCTGAAATCTTGAATTATAAAGCTGCCAAGT
AAGGCTAAGTAGCTACTGGGCCTATGCAGTTGTTTTTATGTATTCCTTGGATTATACAATGTATTTATTGCCAGAATCTAAAGTTAGATGTAAAACATGA
AGTCAGATGCGAAAAACCAAGTTTGAGATTTTCGTGTGACGATTTTCCTACGACCAAAATGTATTAATATTCACTGGATTAACTTTCACATTTTGTTATT
TGCCTTCCATCCATCTACACTGTGGCTGGTCCACACTATGACCTCCCCGCCACGGCGGTAGCCTCTTCATCTGCCTTCCAGTCTTGCTCCTTTATCATTT
TTCTTCCTCACAGTAATCAGAGGGATCTTTTAAAAACAAATTAGATCCTATCCCTCCCCTGCTCACAACTGCCTCATGGCTCCCCTGTGCGCTTAGAATA
AAGCCCACACACCCCATGGGGAGGGGCTGCTGAAGCCTCTGTAATCTGGCCCTGCTGTTTCCCCAGCAACAACCTCACCACACAGTCGCTTTGCTGCAGC
TGAGCTGGTCTCTCCTGTCTCAAGAACATGCCAACTTGCTCCCCACCTTAGGACATTTGCGTTTGCTGTTTCTCCAGCCTAGACCTCCCTTAGGTTGGCT
TTTGGCATAGTAGCGCCTTAACTTTCTTTTTTTTTTTTGACAGAGTTTCGCTCTTGTTGCCCAGGCTAGAGTTCCATGGTGCAATCTCAGCTCACTCAGC
TCCACCTCCCGTGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCATCACGCCCGGCTAATTTTTTGTATTTTTAG
TAGAGAAGGGGTTTCTCCATGTTGGACAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCCACCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTG
AGCCATCGCGCCCGGCAAGTAGCACCTTAACTTTCAAGCCCTTTCAAATGTTACCTTTGCAGAGGCTTTCCCTAAACATCCTATTTTTAAAAGTCCTCAC
CAGTCCTATCCCCTATCACTTTGTCTTCAGGGCATGTATCACAGTCTGAAAATTACCCTGAGCACTTAGTTATTTGTTTAGTGTTTCCCTTCCCCACTAG
AGTGTAAGATCCTTTTTTATCACCTTGATGTCTGTATTGGCTGTGGCAATTGGCACAAAATCTCAGAAAAGTCAAAAATCTTGGCTAACTGTAGAGAAGC
CTTTGGTAGTGCAAGCATTGATACAAATCCAAAAACAGTGCACAGAGAGGGATAATTGTAACTTTAAGTGTTTATAATATCTGAGTGTTTGCAACACACA
TACACACACATAAAATAAATTAAATGAAATAAAAATAGAGATATTTTCATGTAGGGGCGAATTTCTACATGTGATTTTTATAAACTAAGTTTCTATCTCA
CTTTAAAGGGAGATAGTTAAATTTAACAACCAATATATCAAACAACTAATAATCTAGAGCCCTGTTCTTTGGTGAAGGCCAATAGCCATCATACTCTCTA
ACTTTTATACTCTTTCCCTCACCAGCTCTTCTCCATACTACATAGTGCCTACATGTACAAACAGGATTTCCCTTACTCTGGTAAGGGTTTGCAGTACTAA
AGACATAGGAAGGATTCACATATTTTTTATAAATATAGAGACACTGTGAATGTCTTTTAATGGCAACTTCCTTTTTAACCATGACACTCACTGCATTGTT
AATTTGTGGTCAGATTGTTATCTGCATAATCTCGATAGTTTGTTTTATGTATTGTGAAATGCTGCCCAATTGATATTTGTACCATTTAACTTTTATTCTT
TTTCCTTTGAGACAAGGCCTCACTCTGTCACCCAGGCTGCAGTGCAGTGGTGTGTTCTTGGTTCACTGCAGCCTCGACCTCCCAGGCTCACCTGAGTCTC
CCGAATAGGTGGGATCACAGGCACATGCCACCATGCCTGGCTAATTTTTGTATTTTTTGTAGAGATGGGGTTTCATCATGTTGCTTAGGCTGGACTCAAG
CTCCTGGGCTCAAGCAATTTCACCCACCTCGGTCTCCCAAAGTTCTGGAATTACAGGCATAAGCCACCACATCTGGCCTAACTTTTATTCTTAAATTGTT
TATTATCTTCTATTCTTTTTATTGTACCAGTTCTCACATTTACTCAAAACTATATGCTGCAAAAATCCAYTGTGCTAACTTTTTACAACAGACTTTGAAA
ACTAAGATGTTATTTCCTTTAACATTTTTTCTAAAAGACTAGCTTATTTTTCAGTGTTTTAAATTTTAACTTTAATTTACCTTCATGTCATTGTTCCCCC
AAAAACACGTAGAAAAATAAGGAAACCTGATACCAAAATAAAATAGTTWAAAAAAAATCAAATCAGATAATTCCTAGAAAAGCTGCATATTACTAAATGC
CYTCGGTTAGTACCCTGGGGAGAATAAGGCTGCCCTCTTATGCTCAGTTGGCTGGGAAAAACGAAGAGAGGAAACCAGCCACGCATTCCCCAGCCCTTCT
GGGAACCAAGAACTAAGCTAAATTTCCACCATAGTACAGCAAGGATGCTGTAACTACCGCATTTTACAGATAAAGAAGTTCAATAACTTTCTTAAAGTTG
TATAGAAACTCAGCATTTGAACCTGGATTCTTTGTGCTATCCTGAAGGGACGGAAAGGGTTCGTAACCATGGTGGTCCTAGGGTTTCAGAGATGGGAACA
AAGGTGCCCTTGCTCCTCCCTTCAGAAGAGCAGTCCAAAGCAACCACCACAACTGTGGATAATGGCACTGGTATACTCAGAGTGACACTTAGAAACATGT
TACAGCTCACACGTAGGTTTTTAGGGAAGAAAAGTGAACATGAATCTTGTAATTTGTTGTACTTCCTTCAGATAGAATTAATTTTAGACTGGGTGTAGTG
GCTCACACCTGTAATCCTAGCACTTTGGGAGGCCAAGGAGGGTGGATTACCTTGGTCAGGAGTTCAAGACCAGCCTGGCCAACTTGGTGAAACCCTGTCT
TTACTAATAATACAAAAATTAGCTGGGCATGGTGGCACACGCCTGTATTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGATG
GAGGTTGCAGTGAGCCAAGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAGGGAATTA
ATTTTTTCTTGAGCAAATAAGTGGAGCCCAGCACTCCCTCCAAATACATGGCCACAGTGGCAGTGTGAAAATGGTGAAGCAAAAGTCTGAAAGAGTTCAG
GTCTTCCAGTAACATGCAGTAAGCATAAAATATATACCCATATGTAAAACAGGCATAGGAAGAAAGTCGGCTTCACATAAGACACATTAATGTATTATTC
ATTTTAATTCTCTCCAAGAATTATTTAGCAAATTGAATTGTGTCACACTTTGCTTTCTGAGGATTTCTTTTACTTTTACTACAAACTTTGTGGATTGACC
AATCTGCCATGTCCTGCTTCCTCAAAATTTACTTTCCCTGTCTTCCTTCCTTTCTTTGTCTCTCCCTTTCTTTSTCTCTCCCTTTCTTTCTCTTTCTTTC
TTGCTTGCTTTTCTTGTATTTTCTTCCTTTCTCTCTCTCTTTCCCTTTCTTTTCCTCCCTCCCTCCCTCTCTCTCTCCTTCCTTCCCTCTCTACTTCCTT
CCTTCCTCCCTTCCCCTCCCTCCCTCCCTCCCCCTCTCTCTCTTTCTTTCTTTTCTTTCTTCACAGGGTCTTGCTCTGTCGCCTAGGCTGAAATACAGTG
GCAGGATCTCAGCTCACTGCAGCCTTGACCTCCTGGGCTCAAGTGTTCCTCCCACCTCACCCTCCCCGGGAGCTGCGACCATAGGTGCCTGCCACCTATG
CCTGCCTAATTTTTTTTTTTTTTTTTTTTTTTGCAAAGATGGGGTTTCACCATGTTGCCCAGGCTGGTCTCAAACTCCCGGCTTCAAGTGATCCACCCGC
CTCGGCTTCCCAAAGACACTGTGTCCAGCCCCATGTCTTCATTCCTCTATCCCAACATCCATGCATTTAGTCACTCAACACACAGCTACTGAGCATTTCT
TTGCAAACCACTGGGCTTTTATTTAGGGAAGATAGGACAAATATAGTCCTACTTTTAGGAATATGAAGCCCAATAGTTAAGATGAACACAGATCAACACA
TACAAATAATTATAGTGCACAGAAGGTAAACAAACTTCCATCTGAGCCTAGAGGGGAGTAGAATCACTTCTGGCTGGGGGTTCAGAGGAGACCTTTGGAG
AATTAAGAGGTGATCTGAGTATTGATCAAGTAGAATTTCAGTAGTCAAGGCTTTAAAAGGGCATTCTCTATAATGAGGCAATGGGCATAGCCTGAGCAAA
AACATGGAGACAGAAACTATGGCAATGTTTTCATGGAACTGTAAGCCAATTGACAAAGAATAGAGTATATAAAGCTATGGTATTTGATAAGCATGTAAAG
GTAAAAAGCTGGCACTTAAATCACAAGGAAAGAAATGTTTAAGTTTGGTAGTTACTAAGGAGTCACTGAAGATTTTTAAATAGGGAACATGTTGGGAATT
GGATATTGGAATTACTCATCTAGCAGCAATGTAAATGACGGTAGAGAGTGACAAAGACACAGGCAGCTTGAGAGATCAGTTCAGAGCTATTTCCAGGGAT
AGGTTTTGAAGGCCTACAATAACAATTACAAAGTGAACTAAAACAAGAAAATTGATTTAAAAGATATTTTAAAAGTGGAATCAACAGGACTTGGCTCAAG
ATTGTTTCTGGAAAGTGAGCAAGGAAATGTACAATGCACTGCCAGCAGCCTCATGGAATAAAACACGGAGCAGTGATGAGAGTCCAAAGGCTTCCCCCTA
CACACACACACACACACACACACACACACACACACATATACACACAAGCCACACACAAATTGTGTATGTTTGATGAAAATTCATTTGGTGGCAAAATGAT
GTGAGGATATAATATAGTCCTTTATTTATATTTATCCCACTTAGAATAAATAATCAAATACATCTGCACAAAATTCATGTATTTGATTACCATTGCTTCC
CCAGATCCTTCTGGGGGTGTTAAATAATATATTATCTATTAAATATAGATAACATATCGTATATGTATAATACGTAGACTTTTTTCTTCTAAGGTTGAAA
AAAAATCAGAATTCTTAAATACAGATAACTCCAASGGTTTCGGTAAGGGAGTGTGGATCTGTGTAACGGCTCAAACCAGAAGGGTGCAGAGCAAGGAGTC
AATTAGAACATGCTGAGTGTAATGTAATGCATCTACCACTTATCTCATAGAAATATCCCACAGGCATTTGGAAATACAGGCCTGGGGCATAGGACAGAAG
TGGAAGCAACACCGCCTTGACCTCAAGGATCCTCTGAGACACACACCAGGTGTGGTTCTCTACTAATCTTCACAGTATCACCCAGTGGCAGCTCTCRGTC
RAGCCACATCCTTAAGTAGGACTTTGACCACTGTAACCACCCTGAAAATCCAACCCAGTGCCTGCAGGGATTCTCCAGAATGCAGTTGCTTTAGGATTAG
ACTCTGGTGTTCCCTCTGGGACACAACTGACTTTTAGCTCCGGTTCATATTAAGGAGCCRTTACCCCTTGAGTTTCTCATAAAAGAGGTGATTTCGGGGC
ACTCACCATCCCAGTGATTGCCAGAAAATGGATTCAAATTTTCGGCTAAAGAGAAACTCTGTGGTTCTTTGTTAAAAAACAAATAAAACCATCCTGGCTA
ACATGGTGAAACCCCGTCTCTACTGAAAATACAAAAAATTAGCCAGGCGTGGTGGCGGGCGCCTGTAGTTGCAGCTACTGGGAGGCTGAGGCAGGAGAAT
GGCGTGAACCCGGGAAGCGGAGCTTGCAGTGAGCYGAGATCGCGTCACTGCACTCCAGCCTGGGCTACAGAGCGAGACTCCGTAAAAAAATAAATAAATA
AATAAAATTTAAAAAAATTAAAAAACCTTCATCCAATATGTTCTTTAAACTTACACTCTCCTACAATCCAGGGAAGGCCAAARACTGCAAAGTGATTCCT
AGTTTTGTATGTTCTTCAGCTGCCCTAGAAGAATTCATGTACAATTTAAGCTAGGCTGGCAGAAAGGGCTACGAGCTCATTATCATTCCCACCTCCCTTC
CCAATTTTTAGTTTAAGATTGAATCCCCTCATTTAAATATGAACTTTGCAGTGTTTGGAAATGAACGGCAGACACAGTTTTATCTATGGTTCCAAATTTA
ACAAAATGCATTTTAGGAGGAAGGGGCCCAAGGCCTGCTAGTAGTCCCAGATAAATGACAGAGAAAACAGCGAAAGTCTGTATTCTTTGTAGAGCATTCA
CGTCAGAGAAGATATTTTTACTAGGCTTTAGTAATTCAGACACCCGTCCTTTGCTACAAAGCATGCACCTATGCATGTTAAATTGAAAAGTAAGCTTTGA
GATGACGTAGACACATTTTGTTATAAGGTTATACCACAGGTTCGTGACACCAACTCTGTCCAAAATGCACTTCCTGAAGGCAGTCAGATGTGGAGAGAAA
GGCAATTCCCTCAAGCTTCTCTAGATTACCAACACAAAATGAACAGCTAGGAATCACAAGCTACATGTGAAATGCTGCTACAGGATTAATCTTYCTGGCT
ATACCCTTGGACCAGCTTTCTCAATGGAACTGATCCATCTACACATTCTTGTCTAGGTACCAAGGGCTTATGTTTCTTACAAAAGTGCCAAGGGCCACTA
GAAAGCAATGTGAAGCCTTGAAAGGAAGCAAAGTCAATGGGACAATCTAAAAAGCAGGCAAGAACCTGCTTACCCCAACTGTACTGACCARTTGTGATTC
AGAGGACCATGATGGCTTCAAGATTTGTGTGAAATTTTCTTTACCCTTCCATGAAGGGAAACACTGGAGAAATTGGGTTATTAGTAAGTAGGGGAACTAW
GAAAACACTGTGAAGTGCTAAATGTCACCATTACTACTTAGTGGCCTGAAAAGGTGAATAGACTGTTTCAAGACGCCAACCTGGCCAGGCGCGGTAGCTC
ACGCCTGCAATCCCAACACTTTGGGAGGCTGAGGAGGGTGGATCACGAGGTCAGGAATTCATGACCAGCCTGGCCAACGTGGTGAAACCTCATCTCTACT
AAAAATACAAAAATTAGCCAGGCATGGTGGTGGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGAGAATCGCTTGAAGCCGGGAGGCGGAGGTT
GCAGTGAGCCAAGATTGCGCCACTGCACTCTAGACTGGGTAACAGAGCGAGACACGGTCTCAAAAAAACAAAAAAGTCAACCTAACTTATTTCCAGGAAG
ATGCATGTACCACTGAGACTCCTATCCCAGCATCTGTAAGGATGTGCCCACAGAGGCTCAGCAAGAGCCAAAGTGAAGAAACTTCATAATTTCCTTGTTG
TTTTTACTACTGCGAATCATTTTAACCTGAAAATAGTAGGTAGTATAACTTAATGGAAAAGGATTTGTGTTTACTGTGAACTTGTTTCTTGCCAGTAATT
TTTTTCTTATGCTTTAATTTGAAAAATTTCTTTGTGGAAGCATAATGGCAGAGGTCTGCTGTCTGATCAGATTGGATATGTAAATGAGATGGTAGTGTTT
ACTGCGGCTTTAGCATTTATTTGCAACAAAGCCCAAGAATAGATTTCAACATTTGTTGGGACACAAATTTTCAAGAGTAGCAAAATTTGAAATATTTAGA
TGGTTCTCGCCCACAGTTGCCATGCTAATTTAAATAACCAAGACTTGCTTTCTTAATTGCATGCTCCTGTGATAGAAATACAACACACAAGTTGGACTGA
AAGGAGCACAGCTTTCTGGCGGCCAGAAACAAAGACTAGCTATTGCAAGGGCTCTTCTCCAAAAACCCAAAATTTTATTGTTGGATGAGGCCACTTCAGC
CCTCGRTAATGACAGTGAGAAGGTAACATCATTTTCTTTTATCTCAGAATATAATACCAAATATAAGCATCCAATAACATGGAGGAAACCAAGGTAAGTT
TGGAAAAACAAAGGCCTGGAAAGAATTGTAGTTCTAAGGTCACCAGTTCCAATTAAGGCTTTGGACCTTTACAAAAAGGTCAGTAGGTGGTGGGGAGGTG
GGAGACAGTTGAGACAGAGGGAATCTCATGTTCCAGAAAGGTTTTCTCACTCAAATTTGTCTCATTATCAAAAGTGGACCAATTTTCAAAATGTTTTTTC
ATTCAAGGAAAGAGCCCAAGAAAAWTAACTTTTCAATTTTATTATTATTCCAGTGATGCCAAACAAACTAATAAGGTAATTAGTATGGGTAAAAGAGTAA
TCTACACTGCAGGGTCAGAGCCTGAGAGTTATTCTACCTTCTACAGACTCAGCCTAGTTTGAGCGGGAAACAAGGAGGCAAAGTGACACATGAGAAAATA
CTTGCACAGCAAGCTTCTCCAGCTGTTTGATTTTGCTATGTCCTTATCCCTTAGGAGTTTCTTGCACATGTAGGCACTTATTTAGTAAATGAACATTGGT
TAAATGAATGGTWATCATTAATATTTGTAGAGTATGCATTACATGCTATTATCTCAGTCTTCACAACAACATGACGAATGAGCTTCTTGTATTAGCATGC
CCATTTTACAGATTGGCACACTAAGGCTTAGATTAAGTAACTTCTCTAAATTCTAATGGAGGGTATCTGACCTAAGAGCCCAGGCAGTTAATCCACCCAT
GATTGCTGCTTGAAGATGATTATTATTCTTGATTCTCAAAGCAACAATGTGTTATGAAAAATAAACAACAACTAACTTTTGGGATCAGACATATCTGGGC
TGTAATCCTTACTTCATCAGTTACTAGCAGTATGACCTTGGTCTAACCTCAGTTCAGYTATCAGAAAAATAAAAATACTGTCATTTTATGAGGTTATTGA
AAGAATTTAAATGAGATATCCATCTTGGGAACATTTTATGTATTCAACAAATATGGGTTTTCACCTTCCACTCCCACTTTCTCTATATAGCGTCATAACC
TCACTGTTGGCTGAAATGCTATGTTAACAGGACAGTTCTACAGCTAAATCCTACCAAAAACAAAACAAAATCTATGAGAGAAAATTAGATAAATAAATTA
GACAATTCTACTTAGGTATACTACTTAGAAATACTACTTCCTGACTTTGAGTTTAGAACTACTCAAAGAAATGATAGTAGAAATTTGARTAGTATTAGAA
CTACTCAAAGAAATTGTAGTAGAAATACTACTATAATTCTACTTAGAAATACTACTTCCTGACTGTGAGTTTAGAACCACTAACATATAAACAACTATTT
CATTTTTATTCATTCTCACAAATGCTTTTCCACTGAAAGTCTTACATAATTTATCTGTAGCTAATCTTTCTTTTTTTTTTTTGAGACGGAGTTTCACTCT
TGTCACTTAGGCTGGAGTGCAATGGCAYGATCTCAGCTCACGGCAACCTCCACCTCCCAGGGTCAAGCGATTRTCCTGCCTCAGCCTCCCAAATAGCTCG
GATTACAGATGCCTGCCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGATGGGATTTCTCCATGTTGATCAGGCTGGTCTCGAACTCCTGACCTCAG
GTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCAATGTGCCCAGCTGTAGTTAATATTTCTAGATTTCTATTGAGTAAGGTG
ATTATTTTACAAGTAGGGCAGTTCCTTTGGGGACAAGCAAATAAAGCAAAGAAGGTTATTAGACTACCTTAATTGATTTGACTTAGGTAAGTTTACTAAC
ATCTAACTCAAACTGGTGATCACAGGTCYTTCTCTCTTCCAGGTGGTTCAGCATGCCCTTGATAAAGCCAGGACRGGAAGGACATGCCTAGTGGTCACTC
ACAGGCTCTCTGCAATTCAGAACGCAGATTTGATAGTGGTTCTGCACAATGGAAAGATAAAGGAACAAGGAACTCATCAAGAGCTCCTGAGAAATCGAGA
CATATATTTTAAGTTAGTGAATGCACAGTCAGTGCAGTGATGCTGTTGAGGTAGCACATATTTTGATGTTCGTGTAATGCAAAGAAGGAGTACTTAATAA
TTACTTGGCAAGCTTTGATCTCTTTTATTGCATATATCAATACCTAGAATCATGCTACTCAAGTACATACATGTTCTATTCACACACCATCTGACCTTCA
GATTTTTAAAAGGAAGCAAAAATTTGCTTATTTCATGTAAGTGAAATAATGCTTATATCCTTCACTTTATAAAACTATTCTAGCACATTTGCTTGTAAAG
CAGTTTTCTACAAGGTGAATTTATTTCCCATCAACTTCTGCTATAAAATCGGAAATATGTTTCCAGGGGGAATATTATCCAATTAACCATGTTGAAGGTT
TTAGCAAAGGCAGTGTAAGATAGAGTGGGGCCTGTAGCATTGCAGGGAGAGTGTCTTTCACTTGGAATTTTGTTTTGCAGCACATATTACAGTAGTTTTG
CTAGTCCCTTTTCTCCAGACCGTAGGGATTTCTCTCAATAAGTATTCACTATTTCTCTAAATTTTATTCTATTTTTTTGTTGAGCAGGGAATAGAAAGGA
TTACGATGTAAAATTTCTGGGAGGATTAGGTAGCTATCTCCTACTTCACCAGTAAGTGAAGTGCCTCACATGAGCCATCCCAAAGATTCATTATTCCAAA
CCTTGGGTTTGGCAGTATAAGTCACAGGCCTACCTGTTTATGAAAACTTACTTACTTAAAATAAGAGCTACTTTTGGGCCGGGTGCGGTGGCTCACGCCT
GTAATCCCAGAACTTTGGGAGGCCGAGGAGGGCGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAA
ACACAAAAATTAGCCAATCTTGGTGGCGGGCACCTGGAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCATTTGAACCTAGGAGGCAGAGGTTGCA
GTGAGCCGAGATCTCACCACTGCACTCCAGCCTGCGCAACAGAGCGAGACTCCATCTCAAAAAATAATAAATAAGAGCTAATTTTATTGTGGGTGAAAAT
TTTTAAACGTCTTTCTCTATAATAAAATAATTTCCTTAAATTTTATATATACTTTATCATATATAATGTGTGAATGATTTTAAAGTTCTGTGTAAATAAC
AATATTGGTAAAATGAGTTACATTTTCAACTTACTTAAATATGTAATGTCACCTGGTGATTTTATCTTTATTCTTCAGTGTATTTTCTTCCATTTACACA
TTTAGCTAGCCTCCCTAAAGTGTACTCTACCAATAATTGAAATCTTGTTAAACAAAATTAAAACCATTTATATATTATGCTGCTTTCTTTAAAATGCAAA
ATAAAAATAAGATTGGGGACTTGAGAATCAGATGCATTGCTTAGACACATTGGTGCTGACTGCCATGTGGTTATTTTGCTATTCATGGATATAGAGCTCT
TGGTAGCTTCTCTTCCCGGGGTAGGGTAGACAAGAAGAAAATAAAAATATAGTATGGACATGCTCAGAACCTCAGAGCAGGAGCACCACAGGCTCCAATT
CTGTAATCCCTCCTAGAGGGGCAAATATGGTACCTGAAATGCCTGCTTACCCTTTGAACCTATCAACATCTGTCCCATACCTATAGATAGCAGTAAAACA
CATTCCTTTCTAATGTATAACCCTGCTAGTTTTTATTTCCATTTTATTTTTAATGAGTTTAAAGAACGCTTCACAGGCAGAATTCTCATCAATAAAGCCA
CTGCCTGCACTGGACCAAGCAATCATGCTGAGAATTGGGGTCCCAAAGAGTTTTTAAGGATTTGTAAGGTTATCAGCTGATGAAGGCAGAAAGTAGGTAG
AGATCAACTACTTTTTAGGGGTTGCCACAATTTAAAGGTTTTTCTTTTTTTTTTTTTTTTTTTTTGACGGAGTTTTGCTCCTGTTGCCCAGGCTGGAGTG
CAATGGCGCAATCTTGGCTCACCACAACTTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCATGCACCAC
CACACCCGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTGTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCCGCCCATCTCGGC
CTCCCAAAATGCTAGTATTATAGACATGAGCCACCACACCCGGCCGACAATTTAAAGGTTTAAAATTGCTGTACTGTTCTTAAAGTTGTGTTTAAAATAT
ATCATTTTCATTAAAACAATAGTTATCAGTTTTATAGGCATGACTTTTTATGACTTTTTAATTCTTGCACTTTTCTTTTCTTTCTTTTCTTTTTTTTTTT
TTTTTTGAGACAGACTCTAGCTCTGTTGCCCAGGCTGGAATGCAGAGGTGCAATCTCAGTTCACTGCATCCTTGGCCTCCCAGGCTCTAGAGATCCTCCT
ACCTCAGCCTCTCAAGTAGCTGGGGCTACGGGCCTGCACCACCAAACCCGGCTAATTTTTGTTTTTGTTTTTTTAAACACAGGGTTTCACCATGTTGCCC
AGGCTGGTCTGGAACTACTGGGCTCAAGTGATCCACCCCAGTAGGCCCCAAACGTACTGGGATTACAGGTGTGAGCCACCTTGCCCTGTGTCCTACACTC
TCCTTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTTGGGAGATGGAGTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAA
CCTCAGCCTCCCAGATTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAACTACAGGTATGCGCCACCACATCTGGCCAATTTTTGTATTTTTA
GTAGAGATGGGGTTTCACTATGTTGGTCAGGCTGGTTTCGAACTCCTGACCTCATGATCCACCCACATCAGCCTCCCAAAGTGCTGGAATTACAGGCGTG
AGCCACTGCACCTGGCCCCTACACTTTTCTTAAAGCAAGGTATTCTGTAGCCAAAAAAGAAGCTGAATTAGGCCAGGTGTGGTGGCTCACTCCTGTAATC
CCATCACTTTGGGAAGCCGAGGCAGGCGGATCACTTGAGGCCACGAGTTTGATTTCAGACTGGCCAACATGGTGAAATCCTGTCTCTACTAAACATACAA
AAATTAGTGGGGTGTGGTGATGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCATTTGAACCTGGGAATCGGAGGTTGCAGTGAGC
AGAGATGGTGCAATACACTCCAGCCTGGATGACAGAGGGAGATTCTATCACCCCTACTTCCCACTTCCGTTCCCAGCCCAAAAAAGAAGCTACATTAGGA
ATTGATATTTTTATCTAAAATAAATAAACAAAATGGTACTTCAGCAGATGTATTTATTTATTTTTATAATTTTAACTTTCATTTTAGATTCGCATGTGGA
GTTCCTTCTACATAGGTATATTGCATGATGCTGAGGTTTGGGATACAATTGATCCCATCACCCAGGTAGTGAGCACAGCACTCAATAGATAGTTTTTCAA
CCTTTGGCCCCCTCGCTCCCCACTCTAGTAGTCCCTGGTGTCTATCGTTGCCATCTTTATGCCCATACTTCAGCAGATTTAAATGTAAGTTTTACATGTT
AAATCGCTCATTAAATATTTTATAAATTATTAAATAATACCATGCTTAGGTGTACAGCTTACAACTTGGTATTTACTAAAGGGCTTTAAGCAATGAATGC
CAGATTATTCAGGGCACCAAATCAGTGAATTTAAGACATGTTGTCTTCTTATAGTGCCTTGGATATAGTAGATACTCAATAAATACTAGGTGATTCAGTT
TGAAAAGTCAAAAATCATAGCAGGTATGCATTACTGATACTAAGATGAGCACACACTTACTGAAAAGATGACCTGGTGGGCTTCAGTTGTTTTGCCTCAA
CAATCATGTATTAGAATCTCTCCGTCATGGGTATTATCAGTCATTGGTGACATACTCGATAGTTTACTTCTAGGCTAGACTCGTTTAAGTCCATAAAAAC
TTTTTCTTTCCATTCGGATGGCAATTTTAATTTTAGTTAAATAAATTTTTAATTTTATTTTAATTAATTTTAGCCTTTTATCATAGTTTATGTGTTGGTT
TAATTTATTTAATTTTGAAATAATTTGGTATTTGAGCATACATCGCCTGATTTATTTTAGAACATTGTGAGTCTAATTTCCCACAAGGCTTTTGTCTAGA
TTAAGGCATATTCCCTAGTTTCAAGGACTTCTGGTCTAAGGTAAACACTGATCTCTGCCAGTCATGACTCATAGCCTACTCCTTACTTGGATTGACCTCA
ATCCAAACTGTCTGAGCGTCCTTGCCCTTTGCTTCTCCTCTACCTCTGGGCTTGCTTATAGTTATAAAACAAGAGACTAGAAGAAAGAATGAAACACCAG
TTTAAAACAACATAACAAGGCCGGACGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACCTGAGGTCGGGAGTTCAA
GACCAGCCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATCACCCGGGCATGATGGTGCATGCCTGTAATCCCAGTTACTTGGGAAGC
TGAGGCAGGAGAATCATTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATTGYGCCACCGCACTCCAGCCTGGGCATCGCAGGAACACTCTACCTC
AAAAAAAAAAAAAAAAGAAAGAAAGAAAAGGAAAGGAAAAAAAAGAAAAAACACCTGGCCTAGAAAATCCTAAATACAATGAAGGCAGCTGTCCAGAGAG
ATCAAGATCCATCAGAGTCATCTGTAAATGTTAGTGTGTTACAGCAGGGGTCCCCAATCCCCAGACCACGGACCAGTACCAATCCATGGCCTGTTAGGAA
CCGGGCTGCAGAGCAGGAGGTGAGCAGTGGGTAGGCAAGTGAAGCACGGTAGGAGGTGAGCAGTGGGTAAGCAAGTGAAGCTTCATCTGTATTTACAGCT
GCAGCCGCTCTCCATGGCTAGCATTACTGCCTAAGCTCTGCCTCCTGTCAGATCAGCGGTGGCATTAGATTCTCAGAAGAGCGCGAACCCAATTGTGAAC
TGCACATGCGAGAGAGCTGGGTTGCGTGCTTTTTATGAGAATCTAATGCCTGATGATCTGTCACTGTCTCCCATCATCCCCAGATGGGACCATCTAGTTG
CAGGAAAACAAGCTCAGGTCTCCCACTGATCCTACATTATGGTGATTTGTATAATTATTTTATTATATGCTACAATGTAATCATAATAGAAATAAAGTAC
TCAATAAATGTAAAAATGCACTTGAATCATCCCAAAACCACTGCCCCACTTCCCCGGTCCGTGGAAAAACTGTCTTCCAGGAAACTGGTCCCTGGTGCCA
AAAAGGTTAGGGACTGCTGTTACAGTAGCTCTCAGCAATCAAATCTTATCTGTTAAACTGCCCTTTCTTTGTAAGAGGGAAGGCTGCTCAGTGAGTCTTA
AAATAATTGAAACACCAATGAGGATACCAGTGGAATAAAAACAATTTAACAAGGATAAGGTATGACACAGATGTCAGTGAAAAGAAACAAAAGAACATCA
CACCTGTTTTAAAACTAACCCAGCCAACCTATTTTATATATTACCACTCCTTAAAACAAGTTATGGTATGTTCTCATGTTAAATCAACTTAGGTCATAGC
TAATAAACTGATTCGCAGCCTACTCAATGTGTCAGTTTCACAGCATGCAGAGTATATCATAGCGTTACACATGACCTATTCTATGAAAATATTTCCTAGG
TTATTGTCAACTTATGTATTCATTGCTTTGGTTCTGAGCTCTTATTCCAAGAGGGTTTGTGAAGTGGAATTATAAATTGATTGGAAATAGTCCAGAGAGG
AAACTGGAAAGATTGGAAATGGAGGAATGAGGGTAGAGGGT


SNP Information

Context             (SEQ ID NO:32218):
TGTTTCTGGAAAGTGAGCAAGGAAATGTACAATGCACTGCCAGCAGCCTCATGGAATAAAACACGGAGCAGTGATGAGAGTCCAAAGGCTTCCCCCTACA
C
ACACACACACACACACACACACACACACACACATATACACACAAGCCACACACAAATTGTGTATGTTTGATGAAAATTCATTTGGTGGCAAAATGATGTG
Celera SNP ID:            hCV26973360
SNP Position Genomic:     74903
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32219):
TTCTCATAAAAGAGGTGATTTCGGGGCACTCACCATCCCAGTGATTGCCAGAAAATGGATTCAAATTTTCGGCTAAAGAGAAACTCTGTGGTTCTTTGTT
A
AAAAACAAATAAAACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTGAAAATACAAAAAATTAGCCAGGCGTGGTGGCGGGCGCCTGTAGTTGCAG
Celera SNP ID:            hCV26973361
SNP Position Genomic:     75774
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|-,9)   total(A,6|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32220):
AAAATTAGCCAGGCGTGGTGGCGGGCGCCTGTAGTTGCAGCTACTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAAGCGGAGCTTGCAGTGAGC
Y
GAGATCGCGTCACTGCACTCCAGCCTGGGCTACAGAGCGAGACTCCGTAAAAAAATAAATAAATAAATAAAATTTAAAAAAATTAAAAAACCTTCATCCA
Celera SNP ID:            hCV26973364
SNP Position Genomic:     75935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32221):
GGGAGTTCAAGACCAGCCTGGCCAACATGGTGAGACCGTCTCTCTACTAAAAATTAGGTGGGCGTGGTGGGGGGCATCTATAATCCCAGCTACTCGGGAG
S
CTGAGGCAGGAAAATCGTTTGAACCCGGGAGGCAGAGGTTGAGGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCACC
Celera SNP ID:            hCV2631573
SNP Position Genomic:     34768
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32222):
GTCGGGAGTTCAAGACCAGCCTGGCCAACATGGTGAGACCGTCTCTCTACTAAAAATTAGGTGGGCGTGGTGGGGGGCATCTATAATCCCAGCTACTCGG
R
AGGCTGAGGCAGGAAAATCGTTTGAACCCGGGAGGCAGAGGTTGAGGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCC
Celera SNP ID:            hCV2631574
SNP Position Genomic:     34765
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32223):
AACCCGGGAGGTGGAGGCCAAGACCATGCCACTGCACTCCATCCTGGGCGACAGAGCAAGACTCTAAAAAAAAAAAAGAAAAAAAATAGGTAGCCAGGGG
Y
GGTGGCTCACGCCTGTAATCCCAGCACCCAGCACTTTGGGAGACCGAGGCGGGTGGATCACCTGAGGTCGGGAGTTCAAGACCAGCCTGGCCAACATGGT
Celera SNP ID:            hCV2631575
SNP Position Genomic:     34598
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32224):
TGTATGTGGTGTGCACACATGCAATGCACACATGTGTCTGTGCATATATGTGAGCTGTGCTGAGATGACCCACATCATTAATGAGGCCAGGTAAGTCTCA
Y
GGTTAACAGGTAACTCTCAGTGAAAGATGAAAGGAAGACTTTCCGTTCTGGATATTTTTAACCAAAAATAGAGAATATTTAGTACCTGTAATAGGATAAC
Celera SNP ID:            hCV2631576
SNP Position Genomic:     29437
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,22|C,38)   Chinese(T,0|C,20)   Japanese(T,0|C,40)   African(T,13|C,47)   (T,2|C,6)      total(C,6|T,2) ;(C,-|T,-)   Caucasian(T,22|C,38)   African-American(T,13|C,47)   Asians(C,60)   total(C,145|T,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:32225):
TTTTTATTGTAAATGATGTATGTATGTGGTGTGCACACATGCAATGCACACATGTGTCTGTGCATATATGTGAGCTGTGCTGAGATGACCCACATCATTA
M
TGAGGCCAGGTAAGTCTCACGGTTAACAGGTAACTCTCAGTGAAAGATGAAAGGAAGACTTTCCGTTCTGGATATTTTTAACCAAAAATAGAGAATATTT
Celera SNP ID:            hCV2631577
SNP Position Genomic:     29417
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32226):
TTTTTAGTGGAGATGGGATTTCACCATGTTAGCCAAGATGGTCTCGATCTCCTGACCTCGTGATCCACCCATCTTGGCCTCCCTAAATGTTTTCATATAT
R
TTGCCTATGCTGGAAAACAATCCCTGGAGTACACAATTGCTGTCTTGCCAAAAAGCAATTTCAGACATCTTGCCAACTGAACATCAGATAATGACTAAGA
Celera SNP ID:            hCV2631578
SNP Position Genomic:     27444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32227):
AGTGTGCAGTTTTATCTAACTCTTATTACCTGATTTTTGTCCTAAGATAAGACTTTTTAAAATTTAACAACCGTGCTCAGACTTGCAGTGCTTTTTATAA
M
CATTGTGAAACTTCATTTGAGGTAGAGGTATGTAAAGAAACAGGTGTGTGTAGGTATAAAATCCATATTTTATGTGATTACTTTAGATTCTTCCTGTTGA
Celera SNP ID:            hCV2631579
SNP Position Genomic:     26536
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,5)   total(A,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32228):
TAAACCAAAGAAATTTACAAAGAAAACTCCCTCCTACTAGAATTCTTCTTAGATAAAAAGCACTTTGAGCCATTCTCTAAACCAATGGTTTTCCAACTCA
S
CAATCTAGGAGCTGGTTAAAACTGTAGATACCTAGATCTCATCCTGCAAAATCTGATTTGTAGATCTAGTATGGGGCAGGAATCTTCATTTTATCAAACA
Celera SNP ID:            hCV29298656
SNP Position Genomic:     58897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32229):
GCTAAAGAATCTAAGAAAGTTTAATTAAATTTCTTCTGATTCCAGTTTTAAATTCTTTCCAGAGGTACACTATTTTTCTGGGTCTTTAAGACCACATTCC
R
TTTTCCTTCAATTCTTGTAGTACTCCTCGAGGCCAAGAGTCTCTTATTTTCTGTTTATTCTTCTTGGAACAGAAGAAATATATTCAGATCTTTCTCATTG
Celera SNP ID:            hCV29298583
SNP Position Genomic:     38983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32230):
GGGGACAAGCAAATAAAGCAAAGAAGGTTATTAGACTACCTTAATTGATTTGACTTAGGTAAGTTTACTAACATCTAACTCAAACTGGTGATCACAGGTC
Y
TTCTCTCTTCCAGGTGGTTCAGCATGCCCTTGATAAAGCCAGGACGGGAAGGACATGCCTAGTGGTCACTCACAGGCTCTCTGCAATTCAGAACGCAGAT
Celera SNP ID:            hCV25750246
SNP Position Genomic:     79929
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,28)   total(C,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:32231):
CTCAGCAATCTAGGAGCTGGTTAAAACTGTAGATACCTAGATCTCATCCTGCAAAATCTGATTTGTAGATCTAGTATGGGGCAGGAATCTTCATTTTATC
M
AACATTCCAGATTACTCCAAGGCATAATTTATAGCTACAAGGATGGATTATCTGTGTCTCTTTCAAAAATGACATTGTGTCTCAGAAAGGGAGATACACA
Celera SNP ID:            hCV29298657
SNP Position Genomic:     58993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32232):
TTATTTTCTGTTTATTCTTCTTGGAACAGAAGAAATATATTCAGATCTTTCTCATTGTACCACCAACACCGAAAAGCAGGGTTTGTGGCTTGTTCTCGGT
Y
GCACTGACTGAACATTTCAATAAGTTTGTGGTAATTTAAACTAAAATGAACTATAGAAAGGATATAATTCTATTTTCCAGCAGCAGATTAACACAAGAAT
Celera SNP ID:            hCV29298586
SNP Position Genomic:     39127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32233):
AAGCTGGGTGCAATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCGGAGGCAGCCGGATCACTTGAGGTCAAGAGCTTGAGACCAGCCTGCCCAGTA
K
AGTGAAACCCCATCTCTATTAAAAACATAAAAATTAGCCGGGTGTGGTGGTGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCATGAGAATCACT
Celera SNP ID:            hCV9942489
SNP Position Genomic:     24010
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,7)   total(G,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32234):
GCTTCTCCAGCTGTTTGATTTTGCTATGTCCTTATCCCTTAGGAGTTTCTTGCACATGTAGGCACTTATTTAGTAAATGAACATTGGTTAAATGAATGGT
W
ATCATTAATATTTGTAGAGTATGCATTACATGCTATTATCTCAGTCTTCACAACAACATGACGAATGAGCTTCTTGTATTAGCATGCCCATTTTACAGAT
Celera SNP ID:            hCV26973371
SNP Position Genomic:     78613
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,9)      total(A,4|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32235):
TTTTTTTTTTGAGACGGAGTTTCACTCTTGTCACTTAGGCTGGAGTGCAATGGCACGATCTCAGCTCACGGCAACCTCCACCTCCCAGGGTCAAGCGATT
R
TCCTGCCTCAGCCTCCCAAATAGCTCGGATTACAGATGCCTGCCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGATGGGATTTCTCCATGTTGATC
Celera SNP ID:            hCV26973379
SNP Position Genomic:     79573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32236):
GCCATGTGAATATTAGGACTGTAACATTTTTAGATACAGTAGCTTCTGCTAATAAGGATGCTTGAAACTATAAGCCATAAACTCTGGGTTTTAAAATATC
W
TGTACATACTCACAAAGACTTGCACAGAAAGTCTATGCCACTTAGCACATGTTATTAAATATCCCCATAAGTTAAGTTGTTTGTTTTCCTTCTTCATCCT
Celera SNP ID:            hCV2631580
SNP Position Genomic:     26211
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32237):
CACATTTGTTGACTATTTCTGCTCATTTTTGTTTTTCTTTAAATTTATCTTTTTCCCTGTTCAAATAAATTTATTTTAAATTTCTAGAAACTTTTGAAAA
K
GTTTCCTGAATGCCTAGATGTTTGTTTTTATACAGAAGAATATAAATTTTAATTTTTCCAAGCATACTTTGAACTTCCTTTCTGTTCATGGAATGCTTTT
Celera SNP ID:            hCV2631581
SNP Position Genomic:     25907
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32238):
CTCTTAGGGAGCTACAAGATACAAAACGGAAAGAAGCAAGTCGGAGGTTTCCCACGGCAACACCGTGGTCTAAAGCAATGGGTGACCTTACACCTTCTGT
K
CAAAAAGGTCCCATTTCTGCTTCTTGTTCCACATTTGGAGACACTCCTTAATCCAGAAAAACAAAAGTCTACTTGTAGGATCATAAATCAATTTGATGCC
Celera SNP ID:            hCV2631582
SNP Position Genomic:     25586
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32239):
GTCAAAACCCATTTTTAAGTCTTATGACTTTTAGGAGCAGTGCTCTGAAGGCTGCCGTGCAACAGCTGTACTCTTAGGGAGCTACAAGATACAAAACGGA
R
AGAAGCAAGTCGGAGGTTTCCCACGGCAACACCGTGGTCTAAAGCAATGGGTGACCTTACACCTTCTGTGCAAAAAGGTCCCATTTCTGCTTCTTGTTCC
Celera SNP ID:            hCV2631583
SNP Position Genomic:     25516
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32240):
AAGCTCACCAGGCAGGAGCAAATAGCTTCCTGCCAAGGTGATTTCTTTTCAGAAATAGAGTTACTGTCACTCCAACTGAGTCGTCAAAACCCATTTTTAA
R
TCTTATGACTTTTAGGAGCAGTGCTCTGAAGGCTGCCGTGCAACAGCTGTACTCTTAGGGAGCTACAAGATACAAAACGGAAAGAAGCAAGTCGGAGGTT
Celera SNP ID:            hCV2631584
SNP Position Genomic:     25434
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32241):
ATAATAGGAAATAACTGGTTGAATTAAGCCTATTTTAAGATTTTTTAAAAACTATTAATACTAGTATAGTCAGATCTTTCTTTGGAGTAGTACATCTTTA
T
TTTTTATTGTAATTAAACTAAAAATCCATTATAGGTCTTAAGTTAAATGCTTTCACAATGTATAAAAAGCAAAAATGGTGTGTTTGTGGGATGAGTGTGT
Celera SNP ID:            hCV26972867
SNP Position Genomic:     7999
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32242):
CGTGCAACTTTTTAAATTTTTGTACATTCTTTTGAACAGTGACCTAGCTGAAATGTTGTGCCCTTTTTGATGATGAGCTTTAGAAAACTTCAGCAGGAAA
R
ATGATGGATACAATCAAATTATTAAGTAATCCAATATAAATGTGGGTTAGCCACCCTGAAAATGGACTTTAAAGGCATCAGAATTTCAAAGTTCTGTTGT
Celera SNP ID:            hCV2631585
SNP Position Genomic:     21652
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32243):
AATCTTTTATTGTGTATTTTCCCAGAGGCAAAAGAACATCTTTAAATTACCTATGTAATGTAGATCGTTCTATAGGAGGAAGATAGCCCTCCTAATTTCC
Y
GGCTCTGTAATTTACTGGTGTCCTGGCACATGTTAAACCTTAATCTCCTTACCAAATAAGGTAATTTTGTAATGCACTTAGTTTCATGCTCAGTGCCTGA
Celera SNP ID:            hCV2631586
SNP Position Genomic:     21444
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32244):
GTATTACCAGTATTTGTGACATCACGAACGGATACCACAGAAATTTTAATATAACATTGCCCTTATAGATAATTTACAATATATTTACACTCATCATTAT
Y
ATATCTTATGTTCTAATAATGAACCACATTCATAACTGTATCACAACTTTAGGTTACTTGTTAAATATTTTGAATACGATGTTTCAATGGAATTGGCTTT
Celera SNP ID:            hCV2631587
SNP Position Genomic:     14791
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32245):
TAGGGGCATGGATGAAGCTGGAAACCATCTTTCTCAGCAAACTAACAAGGACAGAAAACCAAACACGGCATGTTCTCACTCATAGGTGGGAATTGAACAA
Y
GAGAACACTTGGACACAGGAAGGGGAACATCACACACCAGGGTCTGTGGTGGGGTGGGGAGAGGGGGGAGGGATAGCATTAGGAGATATACCTAAGGTAA
Celera SNP ID:            hCV2631588
SNP Position Genomic:     13400
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32246):
AATACTAGGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGTAGGGGCATGGATGAAGCTGGAAACCATCTTTCTCAGCAAACTAACAAGGACAGAAAA
S
CAAACACGGCATGTTCTCACTCATAGGTGGGAATTGAACAACGAGAACACTTGGACACAGGAAGGGGAACATCACACACCAGGGTCTGTGGTGGGGTGGG
Celera SNP ID:            hCV2631589
SNP Position Genomic:     13358
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32247):
GTGGGTGAGGGCTGAACCCTACAGCCTGTTAGCAATACAGCTTTCCCTTAGGAATTCTAAAGCGTGCCGAACCCCAGCGCAGCCTTAGGGAATCTCCTTT
Y
GCCATCTACTCGATTCCCCAGCGATCTCCTCCAGTCCCAAGGCTTAGATGGCCAAACACCTACCGACAAAGCCCAGGCTTGCAAGCACTTACCCGACCTG
Celera SNP ID:            hCV29298594
SNP Position Genomic:     41423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32248):
GCCTGAGCATGATTACTTTTTGTTGCCATTCTTTCTATTTGAGTTAAAAATATATCAACTAAATGTTACAAAGGAAAAGAACGTAGATTTTTGTTTGTTT
R
CTTTTCAGGGATTATTTTACGGCAGAGCAGGGGAAATTTTAACGATGAGATTAAGACACTTGGCCTTCAAAGCCATGTTATATCAGGTCAGTGATAAGTT
Celera SNP ID:            hCV9942491
SNP Position Genomic:     24541
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,6)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32249):
TTCAAAGCCATGTTATATCAGGTCAGTGATAAGTTGATTTTTTTTTATTTTATTTAAAATTTATTGTAAAACATTCTAGCTTTAATTCTGTCTCAAGTCA
M
TTTTTGACATAATCTTTCTTTGAAAGCACACTCTTTTTGTTCTAAGCAGCAAAAATCTGATGTCAGAAGTCTTATATTTTTCTAAAAGAAGCAAGTCCAA
Celera SNP ID:            hCV9942492
SNP Position Genomic:     24707
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32250):
ATACGGTAACATTCTTGTAACATTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGATACAGAGCCTCGCTCTGTCGCCCAGGCTGGAGTGCAG
K
GGCGCAATCTCGGCTCATTGCAAGCTCCACCTCCCGAGTTAACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACG
Celera SNP ID:            hCV26973160
SNP Position Genomic:     42463
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32251):
ATATCTTGGGAATGTATCTGAAAAGAAGTTGTTAATTTCTCTGGTTCTAATTCATGTGCATAGCTTAAGTTTTTTGACTCTACACTTCTTAAAGCAGCCA
R
TCTCTCTGCCTTTATCAGAAGAGTCCTGAACTCAGATAACATCGGTCTAGCTGCCAGGTCTGCCTGCCTCACGCAGATGATCAGTCCCCGCTGTGAAATA
Celera SNP ID:            hCV9942493
SNP Position Genomic:     25064
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32252):
TTGCAAGCTCCACCTCCCGAGTTAACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTTG
K
GGTTTTTTTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCGGACCTCGTGACCAGCCCGCCTCGGCCTCCCAAAGTCCTG
Celera SNP ID:            hCV26973161
SNP Position Genomic:     42581
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32253):
CAAGAAGGGAAAAAGCCAGTAAGCACAAGTGTGATCTTAAATGTCCAAATAAAGATGGCAACAGTAGGAACTGGGGGCCACTGAAGATGGGAGGGAGAGA
G
GGGCAAGGGCTGAAAAACTAACCATTGGGTGCTATACTCAGTACCTGTGTGACAAGATCATTCATACCCCAAACATCAGCATTACGCAATATACCCAGAC
Celera SNP ID:            hCV26973309
SNP Position Genomic:     63747
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,6)   total(G,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32254):
CTGAGATTCTCAGCTTTGTCTGCTCAACTCAGAGTCTATTGGGCTCTTTGCACTGCCACCTGGAAACTCTTAAGGTAGTAAGCCACAGCAACCACAGGGG
K
CACCTTGTTTGTTTGCCACCTCTGCCCGTGGTTGCCTTATGTTCAGTGTCTTGAAAACCACTGGTTCATGTATTTTGTCTATTTTTTGTTTGGTTTTAGA
Celera SNP ID:            hCV9942496
SNP Position Genomic:     38538
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32255):
GACTCTTTCTTTAGTTTTTTGTTAATAGTAACTATGATTCTGTCATTTTCAAACATCAGCTTTATTACCAAGAACTTATCTGTAAGTTAGGGTTGAAGAG
R
TGGCAGGGTGTTAGTATCTATGTTTATGCACAAATGAGTTGTTGTATTATTGCTGGGTGTTTGGGTGTAAAGAAACAAGAAGAATGTGGGTATGTACCTA
Celera SNP ID:            hCV7599507
SNP Position Genomic:     46719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32256):
ACTCCAAAACAAGCCAAGGTATTAGGAAAATGTTTTTGTAAATACATCTTGAAACTTTCCAACTTTCAAGTTTGAGATCGTAATGAAACTTTTACCTTCC
R
CATTTTCTTTTCTTAGCTTCTGCCTAGATTTTTTTCTTATCCTGTAGTACAATATTCCATCCAGTTTAACAAGAGTAAAGAAAAATACACCTGCCATTTC
Celera SNP ID:            hCV29298529
SNP Position Genomic:     22497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32257):
AAAGTGTCCTACAACCAAGAACCGAAATAAGCTAAGGAGTGACTCAATGGCCATATTTTTAAGGGACTCTTTCAGACTGTGGTAATCCAGTGAAAAATAA
R
CAAGGAAGTGAAGAGACTGTAATAATCAATAATGAGCTGGGGACAGTGACAGGTCTATAATAATAGCTACAAGAGAGGTTAAGGTAGGAGGATTGCTTGA
Celera SNP ID:            hCV2631591
SNP Position Genomic:     12188
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32258):
AAAATAAACAACAACTAACTTTTGGGATCAGACATATCTGGGCTGTAATCCTTACTTCATCAGTTACTAGCAGTATGACCTTGGTCTAACCTCAGTTCAG
Y
TATCAGAAAAATAAAAATACTGTCATTTTATGAGGTTATTGAAAGAATTTAAATGAGATATCCATCTTGGGAACATTTTATGTATTCAACAAATATGGGT
Celera SNP ID:            hCV2294421
SNP Position Genomic:     78958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32259):
TTTGAAACTAATATGAGTTGGAATAATAGGAAATAACTGGTTGAATTAAGCCTATTTTAAGATTTTTTAAAAACTATTAATACTAGTATAGTCAGATCTT
Y
CTTTGGAGTAGTACATCTTTATTTTTTATTGTAATTAAACTAAAAATCCATTATAGGTCTTAAGTTAAATGCTTTCACAATGTATAAAAAGCAAAAATGG
Celera SNP ID:            hCV2631595
SNP Position Genomic:     7977
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32260):
TTATTTGATAATCGAATTTTTATTCCACAGTAGACCTAATAATTTACGAGGTTTAATATTTTGAAACTAATATGAGTTGGAATAATAGGAAATAACTGGT
Y
GAATTAAGCCTATTTTAAGATTTTTTAAAAACTATTAATACTAGTATAGTCAGATCTTTCTTTGGAGTAGTACATCTTTATTTTTTATTGTAATTAAACT
Celera SNP ID:            hCV2631596
SNP Position Genomic:     7918
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32261):
TAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAAGGATCAAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCCAA
R
GATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCAGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGCCCATCAA
Celera SNP ID:            hCV26973027
SNP Position Genomic:     13115
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32262):
TTCATCAGTTACTAGCAGTATGACCTTGGTCTAACCTCAGTTCAGTTATCAGAAAAATAAAAATACTGTCATTTTATGAGGTTATTGAAAGAATTTAAAT
G
AGATATCCATCTTGGGAACATTTTATGTATTCAACAAATATGGGTTTTCACCTTCCACTCCCACTTTCTCTATATAGCGTCATAACCTCACTGTTGGCTG
Celera SNP ID:            hCV11228863
SNP Position Genomic:     79013
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,9)   total(G,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32263):
TGAACCTGGGAGGCAGAGATTGCAGTGAGCCGAGATCACACCACTGTACTCCAGCCTGGGTGACAGAGCGAGACTCCTTCTCAAAAAAAAAAAAAAAAAA
Y
TAAAATCTGGTCAAACAAAATTGGCAAATATTGAAATTCCAGCTGGGTGATAGGTATGTGGGCCATTTATTAAATTTTTCTCTCTATTTTTATACTTTTG
Celera SNP ID:            hCV26973314
SNP Position Genomic:     65646
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,12)   total(C,12|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32264):
ATAATATTCATAGGTTGTAGGGGGCAAATGGAAAATACTCACTACACTAAAATAAACGACTACTACACTACTTTTAAATTTTGGCAAATATCCTTCCAGA
T
TTTTTTTTTCTATTTCTAGATCTCTTAACCACATCTTAACATCAAATTCTTTTAACAAGAAAATAATATCATAAAATTTTTTTTGTTTACTCCTCACCCC
Celera SNP ID:            hCV26973317
SNP Position Genomic:     66095
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,8)   total(T,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32265):
GTATTATTTATCCTCTGACCACTGTGACCACTACCTCCCCTTGTCACCTTCCACGTCTCCTAGGAAGGGCTGGCAGACCCAGAATGACTACTTGCATTGT
S
CTTTCTCTGTATAAAACCTGAAATTTTGTGTAATATAATCCTTCCTCTGTAATAACATCAGAAACAGCAATGACTGCTAGCATTTATTGGGTGTTTATTG
Celera SNP ID:            hCV334258
SNP Position Genomic:     22133
SNP Source:               Celera;dbSNP
Population(Allele,Count): (C,3|G,8)      total(G,8|C,3)Caucasian(G,21|C,39)   Chinese(G,2|C,18)   Japanese(G,6|C,34)   African(G,15|C,45)    ;(C,-|G,-)   (C,-|G,-)   Caucasian(C,21|G,39)   Caucasian, from CEPH families(C,122|G,200)   African-American(C,15|G,45)   Asians(C,8|G,52)   total(G,336|C,166)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32266):
CTAAAATAGTTTACATTTTAAATACGAATATATACATAATAAATGCACTTACACTTTTAATTTTAAACTAGTCCTCCTTATCACATTGACTTAGTGATGC
T
TTTTATATTACTTTAACAGAAAGATAGCTTTTTACTCTTTTGGACTCATACTTGTAGTTGGCACCACCCTTTAATTTCCTCTATTCTGTTAATGAAAGAT
Celera SNP ID:            hCV26973249
SNP Position Genomic:     52385
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,8)   total(-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32267):
ATAAATAAATTAGACAATTCTACTTAGGTATACTACTTAGAAATACTACTTCCTGACTTTGAGTTTAGAACTACTCAAAGAAATGATAGTAGAAATTTGA
R
TAGTATTAGAACTACTCAAAGAAATTGTAGTAGAAATACTACTATAATTCTACTTAGAAATACTACTTCCTGACTGTGAGTTTAGAACCACTAACATATA
Celera SNP ID:            hCV2631524
SNP Position Genomic:     79289
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32268):
CTCATGTTCCAGAAAGGTTTTCTCACTCAAATTTGTCTCATTATCAAAAGTGGACCAATTTTCAAAATGTTTTTTCATTCAAGGAAAGAGCCCAAGAAAA
W
TAACTTTTCAATTTTATTATTATTCCAGTGATGCCAAACAAACTAATAAGGTAATTAGTATGGGTAAAAGAGTAATCTACACTGCAGGGTCAGAGCCTGA
Celera SNP ID:            hCV2631526
SNP Position Genomic:     78325
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32269):
CAGAGGACCATGATGGCTTCAAGATTTGTGTGAAATTTTCTTTACCCTTCCATGAAGGGAAACACTGGAGAAATTGGGTTATTAGTAAGTAGGGGAACTA
W
GAAAACACTGTGAAGTGCTAAATGTCACCATTACTACTTAGTGGCCTGAAAAGGTGAATAGACTGTTTCAAGACGCCAACCTGGCCAGGCGCGGTAGCTC
Celera SNP ID:            hCV2631527
SNP Position Genomic:     77000
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,6)      total(A,6|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32270):
AGAGAAAGGCAATTCCCTCAAGCTTCTCTAGATTACCAACACAAAATGAACAGCTAGGAATCACAAGCTACATGTGAAATGCTGCTACAGGATTAATCTT
Y
CTGGCTATACCCTTGGACCAGCTTTCTCAATGGAACTGATCCATCTACACATTCTTGTCTAGGTACCAAGGGCTTATGTTTCTTACAAAAGTGCCAAGGG
Celera SNP ID:            hCV2631528
SNP Position Genomic:     76694
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32271):
AGGGCCACTAGAAAGCAATGTGAAGCCTTGAAAGGAAGCAAAGTCAATGGGACAATCTAAAAAGCAGGCAAGAACCTGCTTACCCCAACTGTACTGACCA
R
TTGTGATTCAGAGGACCATGATGGCTTCAAGATTTGTGTGAAATTTTCTTTACCCTTCCATGAAGGGAAACACTGGAGAAATTGGGTTATTAGTAAGTAG
Celera SNP ID:            hCV16121720
SNP Position Genomic:     76891
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32272):
TAAAAAAATAAATAAATAAATAAAATTTAAAAAAATTAAAAAACCTTCATCCAATATGTTCTTTAAACTTACACTCTCCTACAATCCAGGGAAGGCCAAA
R
ACTGCAAAGTGATTCCTAGTTTTGTATGTTCTTCAGCTGCCCTAGAAGAATTCATGTACAATTTAAGCTAGGCTGGCAGAAAGGGCTACGAGCTCATTAT
Celera SNP ID:            hCV2631529
SNP Position Genomic:     76083
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32273):
CTTTTAGAGATTATTTCCACAGGATATGGCAACCGTTCTAAGTTGTTTTTTTTTTTTAACTTTTGCAAGACCTCTTTGTTTAATATACATCGGCAAGATC
R
GATTTATATTATCAGAAAATAGAATAAGTGGGTTACAGTTGTGAATATTCACAAGCATTCATTTTGGTTTACAAAGCTAATTTTATGATGGAGAAAGAGC
Celera SNP ID:            hCV15834497
SNP Position Genomic:     30358
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32274):
TCAAATTTATATCAACAGGTGGATGGATAATAATTTGTGAGATAGCTATACAGTGAAATGCTATGCAGCAATAAAAGGAAATGATATGCTGATTTATGCC
R
CAGCATGGATAAATGGCAAAATAAGTATGTTGAGCAAAACAAGCTATCTGAAAAGGAGTAGATAATGTATGATTTCATTTATATAATGTTCTAAAAATGC
Celera SNP ID:            hCV15834498
SNP Position Genomic:     20752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32275):
GATGTAGTGTTCTGGGATCAGAACGGAAGGCCAAATTAAAAAGGAGAAGTAAGAGCTACCATATCTTGGGAATGTATCTGAAAAGAAGTTGTTAATTTCT
S
TGGTTCTAATTCATGTGCATAGCTTAAGTTTTTTGACTCTACACTTCTTAAAGCAGCCAATCTCTCTGCCTTTATCAGAAGAGTCCTGAACTCAGATAAC
Celera SNP ID:            hCV29298534
SNP Position Genomic:     25004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32276):
CAGAAACAATGCAAACAAGAAGATAATGGAGCAATATTTTCAAAGCACTGAAAGAAAAAGAAAACACCTCAAATCAGAATGCTATTTACAGAAAAATGCC
Y
AATAAAAAGGAAGGCAAAGTTCAGACATTTTCAGAAATTAAAGGTTAAAATAATTAACTACCAGCACACCTACACTACAAGAAATATTAAAGGAAGTCCT
Celera SNP ID:            hCV16151308
SNP Position Genomic:     16887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32277):
CTTAAAGTATAATAATAAAATAATAATAATAATAATAAAAGAAAGTTAAGACACCTCTAAAGAATACAGAAGTAGCAGATAAAAGTAGCACCCCACTACC
S
CTGGAGTGAAATACAGCACCCATCGATGATCCCTTTCTTCTCTCCCAGCAAGGCGGAGAGGCAGGCCTCAATGGAAAGGGCACAGCTGTGGTTCACTGGA
Celera SNP ID:            hCV16151309
SNP Position Genomic:     13687
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32278):
AAAACACGTAGAAAAATAAGGAAACCTGATACCAAAATAAAATAGTTTAAAAAAAATCAAATCAGATAATTCCTAGAAAAGCTGCATATTACTAAATGCC
Y
TCGGTTAGTACCCTGGGGAGAATAAGGCTGCCCTCTTATGCTCAGTTGGCTGGGAAAAACGAAGAGAGGAAACCAGCCACGCATTCCCCAGCCCTTCTGG
Celera SNP ID:            hCV29298684
SNP Position Genomic:     72402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32279):
CTGGGAGGCAGAGATTGCAGTGAGCCGAGATCACACCACTGTACTCCAGCCTGGGTGACAGAGCGAGACTCCTTCTCAAAAAAAAAAAAAAAAAACTAAA
R
TCTGGTCAAACAAAATTGGCAAATATTGAAATTCCAGCTGGGTGATAGGTATGTGGGCCATTTATTAAATTTTTCTCTCTATTTTTATACTTTTGGAGTT
Celera SNP ID:            hCV11228877
SNP Position Genomic:     65651
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,11)   total(G,4|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32280):
GCCTGCAGGGATTCTCCAGAATGCAGTTGCTTTAGGATTAGACTCTGGTGTTCCCTCTGGGACACAACTGACTTTTAGCTCCGGTTCATATTAAGGAGCC
R
TTACCCCTTGAGTTTCTCATAAAAGAGGTGATTTCGGGGCACTCACCATCCCAGTGATTGCCAGAAAATGGATTCAAATTTTCGGCTAAAGAGAAACTCT
Celera SNP ID:            hCV2631531
SNP Position Genomic:     75660
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,9)      total(G,6|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32281):
GAAGTGGAAGCAACACCGCCTTGACCTCAAGGATCCTCTGAGACACACACCAGGTGTGGTTCTCTACTAATCTTCACAGTATCACCCAGTGGCAGCTCTC
R
GTCGAGCCACATCCTTAAGTAGGACTTTGACCACTGTAACCACCCTGAAAATCCAACCCAGTGCCTGCAGGGATTCTCCAGAATGCAGTTGCTTTAGGAT
Celera SNP ID:            hCV2631532
SNP Position Genomic:     75497
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,10)      total(G,6|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32282):
TCTATTAAATATAGATAACATATCGTATATGTATAATACGTAGACTTTTTTCTTCTAAGGTTGAAAAAAAATCAGAATTCTTAAATACAGATAACTCCAA
S
GGTTTCGGTAAGGGAGTGTGGATCTGTGTAACGGCTCAAACCAGAAGGGTGCAGAGCAAGGAGTCAATTAGAACATGCTGAGTGTAATGTAATGCATCTA
Celera SNP ID:            hCV2631533
SNP Position Genomic:     75235
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32283):
TGTCCTCACGACAGTCCAGAAATCTAGTTCCCTCCTACAACCCAAGTTATTCTTCAGAGAAGGCCAAGTGTCTACCTGGTCTTCTCTGTCCCACAGTCCA
Y
TCTGCCAATCTGGAAACAGAATGTGAAAACAGGAAGTTTCTCTTTCAAGCCAACACATGTTCTCATGTCCGAAAAGCTATTCTAAACCAAAACTCTCTTC
Celera SNP ID:            hCV27925773
SNP Position Genomic:     50529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32284):
TGTCTTTTCTCAAAGAATTCTCAGTAGTAAAAAAAAAAAAATCACTTTCTCTTTCATCATTCGAAAAATGCCTTTCCACCAAATTATAACATTTCAAAGT
Y
CTCTCTATTTATTACTCTACATGTATTCAATTGACCTTGCTATAATTCATGCCTCATTATTTGGTAAATTTTGTACATTCCAGAAATACCTCGAAGAAAG
Celera SNP ID:            hCV25751655
SNP Position Genomic:     52755
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,1)   caucasian(C,30)   total(C,51|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:32285):
TTTCAGTGTTTTAAATTTTAACTTTAATTTACCTTCATGTCATTGTTCCCCCAAAAACACGTAGAAAAATAAGGAAACCTGATACCAAAATAAAATAGTT
W
AAAAAAAATCAAATCAGATAATTCCTAGAAAAGCTGCATATTACTAAATGCCTTCGGTTAGTACCCTGGGGAGAATAAGGCTGCCCTCTTATGCTCAGTT
Celera SNP ID:            hCV2631536
SNP Position Genomic:     72349
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32286):
CATCTGGCCTAACTTTTATTCTTAAATTGTTTATTATCTTCTATTCTTTTTATTGTACCAGTTCTCACATTTACTCAAAACTATATGCTGCAAAAATCCA
Y
TGTGCTAACTTTTTACAACAGACTTTGAAAACTAAGATGTTATTTCCTTTAACATTTTTTCTAAAAGACTAGCTTATTTTTCAGTGTTTTAAATTTTAAC
Celera SNP ID:            hCV2631537
SNP Position Genomic:     72170
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32287):
CCTTTCTCAAATAAAATAAAATAAAATAAGAAAGATAAATCAGAATTCAAAACATACTGTACCTTCACTATAAAACATGGCCCAATTTAGAGAAATAACC
Y
TCATACATATAGTTTATGAGAACCCCAGCTCTTCTGAATTAAGCAATAAAGGTTTGTAAAGCACAAACCACATTAAAAAGAAAAACGTATTACCCAGATA
Celera SNP ID:            hCV2631539
SNP Position Genomic:     66991
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32288):
GGAAGGGGAACATCACACACCAGGGTCTGTGGTGGGGTGGGGAGAGGGGGGAGGGATAGCATTAGGAGATATACCTAAGGTAAATGACGAGTTAATGGGT
R
CAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAAAATAATAATAATAA
Celera SNP ID:            hCV15854393
SNP Position Genomic:     13518
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32289):
CTCCCCTTGTCACCTTCCACGTCTCCTAGGAAGGGCTGGCAGACCCAGAATGACTACTTGCATTGTGCTTTCTCTGTATAAAACCTGAAATTTTGTGTAA
Y
ATAATCCTTCCTCTGTAATAACATCAGAAACAGCAATGACTGCTAGCATTTATTGGGTGTTTATTGTTTGCAAATACAGTGAGTTGCAAATGTACTGAAT
Celera SNP ID:            hCV11327294
SNP Position Genomic:     22167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32290):
TTCATGCCCTGGCCCCTGCCTCCCACTCCAAGCTCCTCTCATATCACTCCCCACGTCATCATGCACTGTGCTTTTTCTGTTTTTTGGGGGGCTTTTGTAC
R
TTTTTTGTTTTGTTTTGTTTTTTTGAGACAGAGTCTTGCTCTGTGGCCCAGGCTGGAGTACAGTGGCGTGATCTCTGCTCACTGCAACCCCCGCCTCTAG
Celera SNP ID:            hCV26973330
SNP Position Genomic:     68578
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32291):
AAACTGCTTAAAACCAATGTTAAGGAGAAAACTACTAAAGCATCCAGAGAAATTGACACAATATAGATGAGGAAAAAGACAAGAAAGCTACAAACTTCTC
R
TCAGAAACAATGCAAACAAGAAGATAATGGAGCAATATTTTCAAAGCACTGAAAGAAAAAGAAAACACCTCAAATCAGAATGCTATTTACAGAAAAATGC
Celera SNP ID:            hCV15834508
SNP Position Genomic:     16785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32292):
TGGAAGCAACACCGCCTTGACCTCAAGGATCCTCTGAGACACACACCAGGTGTGGTTCTCTACTAATCTTCACAGTATCACCCAGTGGCAGCTCTCAGTC
R
AGCCACATCCTTAAGTAGGACTTTGACCACTGTAACCACCCTGAAAATCCAACCCAGTGCCTGCAGGGATTCTCCAGAATGCAGTTGCTTTAGGATTAGA
Celera SNP ID:            hCV29298696
SNP Position Genomic:     75501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32293):
CTAAACTCTGCACTAAACCTAACTAACAAATCCTAATAGCAAGACTCAAAAGGATTAAACTGTTTCCAAGTAATTTAAATGTGTTCCAGAACAAGGCTCA
R
TAACATTTACGAGAATTCAGAAATACCTAGTCCCCAAAAGTTTAAAATTTACAATGTCTGGCATCCATTCAAAAATCACCAGGCAAGCAAAAAAGGAGAA
Celera SNP ID:            hCV15834509
SNP Position Genomic:     16311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32294):
GCACAGCTTTCTGGCGGCCAGAAACAAAGACTAGCTATTGCAAGGGCTCTTCTCCAAAAACCCAAAATTTTATTGTTGGATGAGGCCACTTCAGCCCTCG
R
TAATGACAGTGAGAAGGTAACATCATTTTCTTTTATCTCAGAATATAATACCAAATATAAGCATCCAATAACATGGAGGAAACCAAGGTAAGTTTGGAAA
Celera SNP ID:            hCV25621063
SNP Position Genomic:     78006
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32295):
AAAAAATGTGGACAATTCACAAGAGAGAATATCCAAATTGTCACTAATCATTTGAAAAGTTGTTCAACTTTATTAGTCATCGAGAAAATGCAAATAAAAA
Y
ATGATAGTTCTCACCCATCAGACAGAAAGAACCAAGTCTTAGTCAGCATATAGAGCAACCATGGCTCTCTTGCACTATTGGGGGGTTTATAAAATAGGGC
Celera SNP ID:            hCV26972607
SNP Position Genomic:     4253
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:32296):
TTCCCAAATAGCAATCGTTCCTCAAGAGCCTGTGCTCTTCAACTGCAGCATTGCTGAGAACATCGCCTATGGTGACAACAGCCGTGTGGTGCCATTAGAT
R
AGATCAAAGAAGCCGCAAATGCAGCAAATATCCATTCTTTTATTGAAGGTCTCCCTGAGGTAAGAAAATTTCTGAAATCTTGAATTATAAAGCTGCCAAG
Celera SNP ID:            hCV25621064
SNP Position Genomic:     69899
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32297):
AGAGTATATGACTATAGGGAAAAGAATTATAACATTATCTGTCTTTTCTCAAAGAATTCTCAGTAGTAAAAAAAAAAAAATCACTTTCTCTTTCATCATT
Y
GAAAAATGCCTTTCCACCAAATTATAACATTTCAAAGTCCTCTCTATTTATTACTCTACATGTATTCAATTGACCTTGCTATAATTCATGCCTCATTATT
Celera SNP ID:            hCV25620988
SNP Position Genomic:     52716
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,2)   caucasian(C,7|T,5)   total(C,17|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:32298):
AGTTGTGTGATCTTAACACACCATTCTCCAATCTGCTTTTGGCAGCTGTTTGATGGTGTGGATGCAAAAGAATTGAATGTACAGTGGCTCCGTTCCCAAA
Y
AGCAATCGTTCCTCAAGAGCCTGTGCTCTTCAACTGCAGCATTGCTGAGAACATCGCCTATGGTGACAACAGCCGTGTGGTGCCATTAGATGAGATCAAA
Celera SNP ID:            hCV25621065
SNP Position Genomic:     69807
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,1|T,37)   total(C,4|T,72)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32299):
TTCTCTTATTGACCACTATTTCCCTGGTACTGGAAGAGTCCCCCTCACGTAGTGAGCATGCTCATCAAATATGAGATGGTGTTGTTAAGAGTGTTGTTAT
Y
TATTTATGTGAATAAACATGGCTGTGTGCAAGATGACACAGCTTTACATGTGGAGTACTGTATCATCTCCACCTACTTTTTACTGGGCTTTCAGAAAGTC
Celera SNP ID:            hCV26973338
SNP Position Genomic:     69435
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32300):
TCTTCCCCAAGACTTTCCCATCTTAACTAATAACACCAACCACCATCCACACAGTTGTCAGCCCAAAAATGTTGGAGTCATCCCTGTTGCTTCTCTTGCC
R
TTGTCCACCACATAAATCACTGATTCCTCATGACTCTAATTCCAAAATTCTTCTCATCCTCTTCACACTCATCCAAGCCCCTCCCTGTCTTGACTGGACC
Celera SNP ID:            hCV27925780
SNP Position Genomic:     56296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32301):
ATGAGAATCACTTGACCCGAGGAGGCAGAGGTTGCAATGAGCCAAGATCACACCACTGCACTCTAGCCTGGATGACAGAGTGAGACTCTGCCTCAAAAAA
W
TTAAAATAAAATTTCAACAGAAATTGCAAGTTCCCTGTCCTATGTTCTCCTAGCCTCTAAAATAGTGTGCACTATTGCCCATGTGAATTTATAAACCACA
Celera SNP ID:            hCV26973269
SNP Position Genomic:     55039
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32302):
CTAAAATTTATATTTCATATTTTAAAATATATGCTTTTAATTTATATGCCTGATGCTATGAGAATGTTCTTGAAAAAAAAGATTGATTCTTATACTGAAT
K
CTACTGAGAAACTAAAGTTTTGATCTTGGATGAAGATTCGTATTAAGGTTTATTTGTTTTTTTTTCTCTGATAATATATGCAAAGTAAATAATATTCTGC
Celera SNP ID:            hCV2631541
SNP Position Genomic:     64186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32303):
GGTAACACATTCTATTTGTTATTTCACTATAAATGTGTAGATTTAGATGTACAAAATAAGTTTATTTTATCCTATCTCTTTGTGTTAGTCCCTTTCGGCT
R
GTTTCCAGCTGACTTGCCTTTTGCAATACCGACCAAGAACCATTCCTAATCAGGAGAGGTTTCTGTAGCCTTCCTTTCCCCACTGCAAAGCTTTCTCTAT
Celera SNP ID:            hCV2631543
SNP Position Genomic:     59492
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32304):
TTTGACCTTTCTCCTATTTTGGCCCACTTTTAGTGTGTCTTCCCTTCTGCCCTACTGTTTCCTGTCCATGTTGGTTTCCTTTCCATAGCAACTCTTGCCT
Y
TCCAACACAAAGCTTCATGCTCCAAAAAGCACTGAGTCAGACAGCATGGGTTATTCCTTGCATGATTATAATATCTTCACCAATAGAAAGAGATAATTTG
Celera SNP ID:            hCV26973199
SNP Position Genomic:     46116
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32305):
TCTCACAGAAGAATTTTCATCTGTTTTCATCAATTTCTCTGTCACTACTCTTTCTTTGCTTTGTAATCACACCTATAAAAAAAAATAAGAAGGCCAGGCA
Y
GGTGGCTCATGCCTGTAGTCCCAACACTTTGGGAGGCAGAGGTGGGTGGATCACAAGGTCAGGAGCTCAAGACTAGCCTGGCCAACATGGTGAAACCCCG
Celera SNP ID:            hCV2631544
SNP Position Genomic:     55606
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32306):
GGTAGATTAACAAGAAACAAAATCTGAAATCACATAAATAATTCAGCTCACCAGCCCCCGTGAGCCAGTTTTTCCTTTGTTCTAATATAATCCAGGCACT
Y
CCAAGCTTGAAAGTTGGTTGTAATCCAAAAGTTTGTTTGCAAGCCAATAGTTTGAAACTCAAAACATGTTTTCCTCATGTTGCTCTAAACTTTCCACAGA
Celera SNP ID:            hCV2631545
SNP Position Genomic:     55290
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32307):
CCTGTTACAAGGATGCTGCTATTTGGCAGAACACACTGGGCACTTCTCTTTGGGTTTTGTTTCCCAAGTCTCAGGACATTACTTTGAATATCCTTATTGT
Y
GGCATATTTGTATTTTCAGGATAGGTTCAATTTGAGGAAATGGCCAAAAGACATTTAAACCTAAGTAATTTCAGAATAACTTGGAATAATTTTTAGTTTC
Celera SNP ID:            hCV2631547
SNP Position Genomic:     54436
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32308):
CATAACTGGTAAAATACTGATACTGATATAAGGCATAAAATCTGAATTAAATTCCCAGATGAATTGCTCTCTGCTTCAGTTTACTGGAACATGGGAATGT
R
GGGGCAAAATATGCCTTCTTGTCATTCATCCCTTAGGAAATTTGTGAGACATTATGAAACTCTCAGTGTGGAGATGGCTTCCTAAAGTAAGACTGTACAT
Celera SNP ID:            hCV2631548
SNP Position Genomic:     53800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32309):
TATTATATATTTATGGGGTACAATGGGATGTTCTGATATATGTTAACACTGTGAAATGATTAAATCGAGCTAAGTGTTTTTGTTATTTAGTCTCTATAAG
Y
ACAGCATAACTGGTAAAATACTGATACTGATATAAGGCATAAAATCTGAATTAAATTCCCAGATGAATTGCTCTCTGCTTCAGTTTACTGGAACATGGGA
Celera SNP ID:            hCV2631549
SNP Position Genomic:     53695
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32310):
ATACTGAAAGACCCAACATTACTGTCCTTACATTTATTAATTGTTACTAATAAATAGTATTGTCCCTGAGGGAAATTACGGGGAATAGTTGTCAACCTGA
Y
TATAAGCACCTGACTAATATCATTTCATCACTTGAAACTTCATTGTTGCAGTTATTAAGTGCTGGTCTCACAATAACTTCTAGACAAGTCAAATCTTTTT
Celera SNP ID:            hCV26973122
SNP Position Genomic:     31027
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32311):
AGGCACACGGCAAATTCCCCTTCTTTAGGATCCATACTTGCGTGTGTCATGGATCCACCCTACTGGATTTCACATAACTTTCTCATTAGGGCACATTAAT
W
TGAGTCATGGGAATTAGGCTCTAGCTCTCTTCTTTGTTCTCGCCCAGCTTTCTTCTCTTGACCTGGAAGGCATCCTTTTTTCGAAGGGCTCTTCTACAGA
Celera SNP ID:            hCV15834510
SNP Position Genomic:     7408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32312):
TTAAAAAATTGAATCTGTGGTTAAATTCTTTTTTCCCTAAAAAAAAAAACAAAAAAACAAAAAAACTTTAAGCCATATGGCTTTACTGATGACTTCTATT
A
AAAAAAAAAGTGATAAGGAAGAAGTTCTTATTCTATGAGACCAACATCATTACTCTGATATCAAAATTAGACAATGAGATTACAAAAAAAATAAAATTAT
Celera SNP ID:            hCV26973055
SNP Position Genomic:     18576
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32313):
CATGTGTAGATTTGGAAAAATTATCAAACGTTTAGTTTTTAAGACTTTGAATGGGCCAGGTGCGCTGGCTTACGCCTGTAATCCCAACACTTTGGGAGGC
Y
GAGGCAGGTGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAACCAGGTATGGTGG
Celera SNP ID:            hCV11228893
SNP Position Genomic:     49867
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32314):
CGGGCATGATGGTGCATGCCTGTAATCCCAGTTACTTGGGAAGCTGAGGCAGGAGAATCATTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATTG
Y
GCCACCGCACTCCAGCCTGGGCATCGCAGGAACACTCTACCTCAAAAAAAAAAAAAAAAGAAAGAAAGAAAAGGAAAGGAAAAAAAAGAAAAAACACCTG
Celera SNP ID:            hCV26973416
SNP Position Genomic:     84857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:32315):
TGTTTTATAAGATAGCAACTGAAGCTTTGGAGAATATACGTACTATAGTGTCATTAACAAGGGAAAAAGCCTTCGAGCAAATGTATGAAGAGATGCTTCA
K
ACTCAACACAGGTGATTATAGATTCATACTGACTTCAAAAACTTAATTTTGTTCTGTAAAGGCAGTACTCTCAAATGACTCCAGTGGTTTGCCTGCTAAT
Celera SNP ID:            hCV25750368
SNP Position Genomic:     51653
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,3)   caucasian(G,36)   total(G,67|T,3)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32316):
CCTCTCTATTTATTACTCTACATGTATTCAATTGACCTTGCTATAATTCATGCCTCATTATTTGGTAAATTTTGTACATTCCAGAAATACCTCGAAGAAA
R
CACAGATTATTGGAAGCTGTTATGCATTCAGCCATGCCTTTATATATTTTGCCTATGCGGCAGGGTTTCGATTTGGAGCCTATTTAATTCAAGCTGGACG
Celera SNP ID:            hCV25620999
SNP Position Genomic:     52855
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,22)   caucasian(G,30)   total(A,4|G,52)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32317):
CAGCTTTACATGTGGAGTACTGTATCATCTCCACCTACTTTTTACTGGGCTTTCAGAAAGTCAGGTCCTGTTACAGTGGAGGGGGCAGTAGTGAGTTACA
Y
GCTGTTTGCTTCTATACAACGTATGATTTATGAGCCTTCCTTGGGTAACTTTATACTTTGAAATAGCTTGAATTCCTATCCTTCTTGTTATGATTTGTGT
Celera SNP ID:            hCV25621075
SNP Position Genomic:     69574
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(C,3|T,21)   total(C,7|T,53)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32318):
GCTACTTGGAAGGCTGAGGCAGGAGGACTGCTTGAGCTGAGGAGTTTAACACTAGCTTGGGCAACACAGTGAGACCTACTCTCTAAATAAGTAAATAAAT
A
AATAAAAACAAAAAATAAAAAATTTCAAAGCCATATAAAATATTTCTTTCATGGCAGAGACATTTACAGGAAAAAAGAGAAAATGATAGCAAAAAGGAAT
Celera SNP ID:            hCV26972902
SNP Position Genomic:     9088
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32319):
GCTTCAACCCCGGAGGTGGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCAACTCAGGAAAAAAAAAAAA
W
ATATATATATATATATATACATATAAAATTTACTGGATCCTGTTTTTCAGCCAGGACTCTGTGTGTTGGAGGGCTTTAGAGCTCCCAGACCTTTCATCTA
Celera SNP ID:            hCV26973275
SNP Position Genomic:     55892
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32320):
GTTTGGGTGGGGCAAACAATGCAGAAGTTAAAAAGAAAAAAAATCTCTGTGTCAACCCTTAACTAAGAGGACAAGCAAACCATCACAAAAATGATGGTTA
S
GACTCTGAAGTGAAGCACAAAGGTCCAAAGATTCTTCAACCATTCTGGCAGCAGAAATGTTGATCTTAGCCATGGAATTACTTTAGAACATGGGTGCTGG
Celera SNP ID:            hCV25621076
SNP Position Genomic:     67778
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,25)   caucasian(C,1|G,11)   total(C,2|G,36)
SNP Type:                 INTRON


Context             (SEQ ID NO:32321):
AGGCTGAGGCAGGAGGACTGCTTGAGCTGAGGAGTTTAACACTAGCTTGGGCAACACAGTGAGACCTACTCTCTAAATAAGTAAATAAATAAATAAAAAC
A
AAAAATAAAAAATTTCAAAGCCATATAAAATATTTCTTTCATGGCAGAGACATTTACAGGAAAAAAGAGAAAATGATAGCAAAAAGGAATGCCTGATTAA
Celera SNP ID:            hCV26972903
SNP Position Genomic:     9098
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32322):
GTTCTACTGTTTTACAAAGGATCGATGGACCTAAGATTCAAATGCTTTATCTTTTGATAGAGTTTTTACTGCAATTGCATATGGAGCTATGGCCATCGGA
R
AAACGCTCGTTTTGGCTCCTGAATATTCCAAAGCCAAATCGGGGGCTGCGCATCTGTTTGCCTTGTTGGAAAAGAAACCAAATATAGACAGCCGCAGTCA
Celera SNP ID:            hCV25621077
SNP Position Genomic:     63548
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,11)   caucasian(A,33|G,1)   total(A,60|G,12)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32323):
TGCATAAAACACAATGTTATTATACGCAAAACACTTAGAACAGTGTCTGGAAGACAGTAAGCACGTACTAATGTCAGCCATTATTACTGGGGAAGTTTTC
M
AACATCATCATTCCCCATTTTCTGGTCATTGAATAATCAAATTTTCTTGAGCAATTCTTCTGAATATTTTATTTTTCAAAACAAACAGGCAATGCAGCAG
Celera SNP ID:            hCV340051
SNP Position Genomic:     48211
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32324):
AAAGATGTCTAGTTTATAGTGAGTTATCATTTAAATCACATATGTGGAAAAGGTATGCTTGAATTTTTTTTAAGTTGGAATTTTTTTAAATATACACATA
Y
TTTTAAATTTTGTATTGATATATAATAGTTACACATATTTTAGGGGTACACATGATATTTTGATATATTCATATGATGTTTAATGATCAAATCAGGGTAA
Celera SNP ID:            hCV2631550
SNP Position Genomic:     53451
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32325):
CAACTCAGGAAAAAAAAAAAATATATATATATATATATATACATATAAAATTTACTGGATCCTGTTTTTCAGCCAGGACTCTGTGTGTTGGAGGGCTTTA
R
AGCTCCCAGACCTTTCATCTATTACACTTTCATTAGTGTTCTCATCCAATCTGTCAGTTTTAAATACCACCTGTGTCCTGATAACTTCCTTCTGTATATT
Celera SNP ID:            hCV26973278
SNP Position Genomic:     55971
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32326):
AATTAATAAGTTGTGGAAATACATAAACCTTGTAAGGGGGTCATGTACTTATTTACCAGAAAGATGTCTAGTTTATAGTGAGTTATCATTTAAATCACAT
W
TGTGGAAAAGGTATGCTTGAATTTTTTTTAAGTTGGAATTTTTTTAAATATACACATATTTTTAAATTTTGTATTGATATATAATAGTTACACATATTTT
Celera SNP ID:            hCV2631551
SNP Position Genomic:     53392
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,11)   total(A,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32327):
CTGGATCCTGTTTTTCAGCCAGGACTCTGTGTGTTGGAGGGCTTTAGAGCTCCCAGACCTTTCATCTATTACACTTTCATTAGTGTTCTCATCCAATCTG
W
CAGTTTTAAATACCACCTGTGTCCTGATAACTTCCTTCTGTATATTTCCAACTCTGACCCTGCCCTGAGCACAAGACCCTTATCCAATTACTTAGGAGAC
Celera SNP ID:            hCV26973279
SNP Position Genomic:     56025
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32328):
ATTTGGTAAATTTTGTACATTCCAGAAATACCTCGAAGAAAGCACAGATTATTGGAAGCTGTTATGCATTCAGCCATGCCTTTATATATTTTGCCTATGC
R
GCAGGGTTTCGATTTGGAGCCTATTTAATTCAAGCTGGACGAATGACCCCAGAGGGCATGTTCATGTAAGTCGTGGAAATAGTCCGGACCTGGTAGCTCA
Celera SNP ID:            hCV2631552
SNP Position Genomic:     52914
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,4)   caucasian(A,5|G,15)   total(A,15|G,19)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32329):
TATTACTTTAACAGAAAGATAGCTTTTTACTCTTTTGGACTCATACTTGTAGTTGGCACCACCCTTTAATTTCCTCTATTCTGTTAATGAAAGATTGTAA
Y
GGAGACTTAGAAAATCCTTCTAAATACCTAAACCAAATCTCTAACTCTTACACTAGCCATCCTTTCACGGGCTTTGCCCATTCATTTAACAGTATATAAA
Celera SNP ID:            hCV2631553
SNP Position Genomic:     52491
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32330):
GAGGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGTGTGACAGAGCGAGACTCTGTCTCAATAATTAATTAATTAATTTAGTTTATAAAAGT
W
CCCTTTGCCCCTCTTTCTACCTAGTCCCGCTGTTTAAATGACTCCCTTAATATCTGTTATGTGGGAAAAACCAGCTGAAGTAGACTCACATTGAATCCTT
Celera SNP ID:            hCV29298703
SNP Position Genomic:     2284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:32331):
GCCTGCTAATTCATTTGCTCTTGAGCCTTTCCTAATAATGTCATGTCATAATTTCTCATATGACTTCACCAAGAGAAACTAGAAGAGGAATTGAGGGCAA
S
CACAATTAGAATAAATATTTTAGGTCCTCTCACATTACCATTAACTGTCTGTTACTAAGTATGCACATTTTTCTTATTTTCCTGAAAGAATATTAATGAA
Celera SNP ID:            hCV2631555
SNP Position Genomic:     51844
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32332):
TTCCACTGAAAGTCTTACATAATTTATCTGTAGCTAATCTTTCTTTTTTTTTTTTGAGACGGAGTTTCACTCTTGTCACTTAGGCTGGAGTGCAATGGCA
Y
GATCTCAGCTCACGGCAACCTCCACCTCCCAGGGTCAAGCGATTATCCTGCCTCAGCCTCCCAAATAGCTCGGATTACAGATGCCTGCCACCACACCCAG
Celera SNP ID:            hCV29298704
SNP Position Genomic:     79528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32333):
GCCTAGGCGACACAGCAAGAGAAAAGAGCTCGGCCCTTTACATTAAATCCCTAAAATAGTTTACATTTTAAATACGAATATATACATAATAAATGCACTT
R
CACTTTTAATTTTAAACTAGTCCTCCTTATCACATTGACTTAGTGATGCTTTTTATATTACTTTAACAGAAAGATAGCTTTTTACTCTTTTGGACTCATA
Celera SNP ID:            hCV29298631
SNP Position Genomic:     52335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32334):
AACATAATGAAACCCCATCTCTACGAAAAATACAAAAAGTTAGCCGGGTATGGTGGTGCGTGCCTGTAATCCCAGTTACTTGGGAGGCTGAGGCAGGAGA
R
TCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAACTTGGGCGACAGAGCACAGCTCTGTCTCAAAAAAAAAAAAA
Celera SNP ID:            hCV2631558
SNP Position Genomic:     49063
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32335):
TACAGGTATTTAAGCTTCTTAGGATCAACCATATTCATACAAATAATTATTATATTAGAGACTGAAGGAAACATTATGGTGGCATCATAACACCTAAGAA
Y
TGAAAGAGACATCATCTGACCCAACCATTAACCTGAAGTAGGAGTCCCTTGCACAACATCCCTGTCAAGCGTCCATCCCCATCTCCTACCACCTTTTCCT
Celera SNP ID:            hCV2631559
SNP Position Genomic:     48520
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32336):
TCTATGGAACAAGTTTAAATTGAAATTCAGTATAAACTTGAATGGGGTTAAACTTAGATCAGTAGACTAAATCTCAATAAGACATTTTCCTTAAGCTTAT
Y
ATCCAAAAGTGTCATTTTTCTATCTTATTTTCTGGGAGGAAAGGAAGCTAAGAATATTTGTCAGGAAAACTTACTGACTTGATATACTTAATATGTCCCC
Celera SNP ID:            hCV25621000
SNP Position Genomic:     51379
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(C,4|T,32)   total(C,8|T,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:32337):
AAAATATTGATTTTGTATAAAATTCCTAGCAAATGTGATTACAACTTTATAAATAGGAAATAGTAAAAAATGCTTAACTAAAGATAGACTCTTTCTTTAG
K
TTTTTGTTAATAGTAACTATGATTCTGTCATTTTCAAACATCAGCTTTATTACCAAGAACTTATCTGTAAGTTAGGGTTGAAGAGGTGGCAGGGTGTTAG
Celera SNP ID:            hCV26973201
SNP Position Genomic:     46633
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32338):
GTGAACATAATGCTTACTAATGTTTTATTCTTCTGTCTATGGAACAAGTTTAAATTGAAATTCAGTATAAACTTGAATGGGGTTAAACTTAGATCAGTAG
R
CTAAATCTCAATAAGACATTTTCCTTAAGCTTATTATCCAAAAGTGTCATTTTTCTATCTTATTTTCTGGGAGGAAAGGAAGCTAAGAATATTTGTCAGG
Celera SNP ID:            hCV25621001
SNP Position Genomic:     51344
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,1)   caucasian(A,22)   total(A,47|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:32339):
GATTTGACTTAGGTAAGTTTACTAACATCTAACTCAAACTGGTGATCACAGGTCTTTCTCTCTTCCAGGTGGTTCAGCATGCCCTTGATAAAGCCAGGAC
R
GGAAGGACATGCCTAGTGGTCACTCACAGGCTCTCTGCAATTCAGAACGCAGATTTGATAGTGGTTCTGCACAATGGAAAGATAAAGGAACAAGGAACTC
Celera SNP ID:            hCV25750154
SNP Position Genomic:     79975
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,32)   total(A,1|G,69)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:32340):
TTATACAGAAGAATATAAATTTTAATTTTTCCAAGCATACTTTGAACTTCCTTTCTGTTCATGGAATGCTTTTAGTGGAAGAATTTCAAAGCCATGAGAC
Y
GTTTAATGAGAGAAACTGTGGTTAATCTAGTATTTTGATGGTTAATACTGGACATTAATCCTCTGTCTAGCATTAGCCATGTGAATATTAGGACTGTAAC
Celera SNP ID:            hCV28021610
SNP Position Genomic:     26035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32341):
GTTTGAACCCGGGAGGCAGAGGTTGAGGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCACCTCAAAAAAAAAAAAAA
R
TGGGGGGGGGGCATGACTGTGTTTCAATAAAACTTTATTTACAGACACTGAAATTTGAATTGCATACCACTTTTACATGATGCAAAATATTATTCTTCTC
Celera SNP ID:            hCV26973135
SNP Position Genomic:     34885
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2|-,5)   total(G,2|A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32342):
TTTGAACCCGGGAGGCAGAGGTTGAGGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCACCTCAAAAAAAAAAAAAAG
K
GGGGGGGGGGCATGACTGTGTTTCAATAAAACTTTATTTACAGACACTGAAATTTGAATTGCATACCACTTTTACATGATGCAAAATATTATTCTTCTCT
Celera SNP ID:            hCV26973136
SNP Position Genomic:     34886
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32343):
TTTTACTACAAACTTTGTGGATTGACCAATCTGCCATGTCCTGCTTCCTCAAAATTTACTTTCCCTGTCTTCCTTCCTTTCTTTGTCTCTCCCTTTCTTT
S
TCTCTCCCTTTCTTTCTCTTTCTTTCTTGCTTGCTTTTCTTGTATTTTCTTCCTTTCTCTCTCTCTTTCCCTTTCTTTTCCTCCCTCCCTCCCTCTCTCT
Celera SNP ID:            hCV26973353
SNP Position Genomic:     73574
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32344):
ACATGTTTAAAATTAAAAGGGCTCTGGAAACATGCACAATTTTCAAAATGAACTTGGCCAGTATGCTACAGTGTGTTACAACCTTCCCAAGTCATTCTTC
Y
CAACTCTGTCAACTTCCTTTCACAGGACACATGTGAAGGGAATTTAGAGTTTCGAGAAGTCTCTTTCTTCTATCCATGTCGCCCAGATGTTTTCATCCTC
Celera SNP ID:            hCV25752192
SNP Position Genomic:     67371
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,8)   caucasian(T,2)   total(C,6|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:32345):
GATTGTTTCTGGAAAGTGAGCAAGGAAATGTACAATGCACTGCCAGCAGCCTCATGGAATAAAACACGGAGCAGTGATGAGAGTCCAAAGGCTTCCCCCT
A
CACACACACACACACACACACACACACACACACACATATACACACAAGCCACACACAAATTGTGTATGTTTGATGAAAATTCATTTGGTGGCAAAATGAT
Celera SNP ID:            hCV26973357
SNP Position Genomic:     74900
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32346):
ATTGTTTCTGGAAAGTGAGCAAGGAAATGTACAATGCACTGCCAGCAGCCTCATGGAATAAAACACGGAGCAGTGATGAGAGTCCAAAGGCTTCCCCCTA
C
ACACACACACACACACACACACACACACACACACATATACACACAAGCCACACACAAATTGTGTATGTTTGATGAAAATTCATTTGGTGGCAAAATGATG
Celera SNP ID:            hCV26973358
SNP Position Genomic:     74901
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32347):
TAGACCTAATAATTTACGAGGTTTAATATTTTGAAACTAATATGAGTTGGAATAATAGGAAATAACTGGTTGAATTAAGCCTATTTTAAGATTTTTTAAA
M
ACTATTAATACTAGTATAGTCAGATCTTTCTTTGGAGTAGTACATCTTTATTTTTTATTGTAATTAAACTAAAAATCCATTATAGGTCTTAAGTTAAATG
Celera SNP ID:            hCV29298422
SNP Position Genomic:     7948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32348):
TTGTTTCTGGAAAGTGAGCAAGGAAATGTACAATGCACTGCCAGCAGCCTCATGGAATAAAACACGGAGCAGTGATGAGAGTCCAAAGGCTTCCCCCTAC
A
CACACACACACACACACACACACACACACACACATATACACACAAGCCACACACAAATTGTGTATGTTTGATGAAAATTCATTTGGTGGCAAAATGATGT
Celera SNP ID:            hCV26973359
SNP Position Genomic:     74902
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32349):
AAATGACCAATTTATTTAATCATTTGGAAAATGCCTGGACATACAGGTATTTAAGCTTCTTAGGATCAACCATATTCATACAAATAATTATTATATTAGA
S
ACTGAAGGAAACATTATGGTGGCATCATAACACCTAAGAATTGAAAGAGACATCATCTGACCCAACCATTAACCTGAAGTAGGAGTCCCTTGCACAACAT
Celera SNP ID:            hCV2631560
SNP Position Genomic:     48479
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32350):
ACAGGACCATAAATGACCAATTTATTTAATCATTTGGAAAATGCCTGGACATACAGGTATTTAAGCTTCTTAGGATCAACCATATTCATACAAATAATTA
Y
TATATTAGAGACTGAAGGAAACATTATGGTGGCATCATAACACCTAAGAATTGAAAGAGACATCATCTGACCCAACCATTAACCTGAAGTAGGAGTCCCT
Celera SNP ID:            hCV2631561
SNP Position Genomic:     48469
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32351):
GATAGAAGGTAGATATGTTATAGCAATAGGGTACATGATTTAGAGCACAGGCTCTGGAGTCTAATTAGCTGAGTTAGAATCCAGATTCTATGCTAACAAA
Y
GTGTGATATGAGCAGGTTATGTCAACCTTTGTAGACTTCAGGTTTCTCATCTGCAAAGTGGGAATAATACGAGTATTCACTTACAAATTTTTGTGAATAT
Celera SNP ID:            hCV2631562
SNP Position Genomic:     48010
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32352):
TATTAACTTCATCTCTTAGGGATCTGTAAAGTGATATGTATAGAGAGAGAAATGCATACAGACCAATTTAGGATAGAAGGTAGATATGTTATAGCAATAG
R
GTACATGATTTAGAGCACAGGCTCTGGAGTCTAATTAGCTGAGTTAGAATCCAGATTCTATGCTAACAAACGTGTGATATGAGCAGGTTATGTCAACCTT
Celera SNP ID:            hCV2631563
SNP Position Genomic:     47939
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32353):
TTTATTTTTAATAACGAAAGCAACCCAAATTGAAGGCAACCCAAATATTTTTGAAGAATATTTAATAACTGCAGTATAATGTACAAGGAATAAATCAGGA
Y
ACAAAACTGCATGCACGTAATAAACCAAATCTGAATGTGTATAAGTATTTATGTCTAGAAGCATGTAGATTTTAACTTTATCTAAGCTTTTTCTAATGAT
Celera SNP ID:            hCV2631565
SNP Position Genomic:     43561
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32354):
ATTTTGTTAGATAGTATTTAGATTCTAAAATAGGGCTGAGGAGTTCAATTTTATTGGCATACATGAAAAGATGGTGGATAGAATTTCACTTAATAATCAA
R
TAATGGGTATAGCATTAACCTCCGTAGCACAATATAATTATCTGATTAACTTCTGAGTTTAGGAATTCCATGGTATACTACTCCAGGCAGAAATATCAAT
Celera SNP ID:            hCV11228904
SNP Position Genomic:     30630
SNP Source:               Celera;dbSNP
Population(Allele,Count): (G,3|A,7)      total(G,3|A,7)Caucasian(G,22|A,38)   Chinese(G,0|A,20)   Japanese(G,1|A,39)   African(G,13|A,47)    ;GEL_african_american(G,13|A,46)   GEL_asian(G,1|A,58)   GEL_caucasian(G,22|A,37)   total(G,36|A,141)
SNP Type:                 INTRON


Context             (SEQ ID NO:32355):
AGGTGTAAATGAGAACAAAGATTTTTCACAAAGATGTTCATTACATCTTTATTTTTAATAACGAAAGCAACCCAAATTGAAGGCAACCCAAATATTTTTG
R
AGAATATTTAATAACTGCAGTATAATGTACAAGGAATAAATCAGGATACAAAACTGCATGCACGTAATAAACCAAATCTGAATGTGTATAAGTATTTATG
Celera SNP ID:            hCV2631566
SNP Position Genomic:     43514
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32356):
ACACTTGGACACAGGAAGGGGAACATCACACACCAGGGTCTGTGGTGGGGTGGGGAGAGGGGGGAGGGATAGCATTAGGAGATATACCTAAGGTAAATGA
Y
GAGTTAATGGGTACAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAATAAA
Celera SNP ID:            hCV340068
SNP Position Genomic:     13505
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32357):
GAAGCAATTTGGCAATACCCATCAAGAATGTAAGAGTATATACACCTTTTTAAATTTCTTCAGAGGTTTATAACCTGTTACTATAATCATTTATTTTGAC
Y
CAAATTATCCCAGATTCAGCCAGTGGAAGTCCCTTCAAGTTGGGAGAATTACACCTTTTAAGGTGTAATTCCAGTTAGAAATTTAACAATAGGGCATTTG
Celera SNP ID:            hCV2631567
SNP Position Genomic:     43304
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32358):
ATCGATGATCCCTTTCTTCTCTCCCAGCAAGGCGGAGAGGCAGGCCTCAATGGAAAGGGCACAGCTGTGGTTCACTGGATGGCAGAGCAGTTGCTGTGGT
R
CCTTGCTGGTGGGGCTTGCTGGAAATCTGCCCTCAAGGGTGGCAAGGGAGACCTTCCACAGGACGGTGCTGAGCTTCAGAACCTGTCAGGTGCTGGGGAA
Celera SNP ID:            hCV340069
SNP Position Genomic:     13809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32359):
GCCTTAGGGAATCTCCTTTTGCCATCTACTCGATTCCCCAGCGATCTCCTCCAGTCCCAAGGCTTAGATGGCCAAACACCTACCGACAAAGCCCAGGCTT
R
CAAGCACTTACCCGACCTGAACGCCACACTCCAGACTGGTCTTCCCATCTGGAGCTTGAGATGACCCCGCACCAGGAGCATTTAGTATTTAAGGAAAGAC
Celera SNP ID:            hCV2631568
SNP Position Genomic:     41504
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32360):
CGGGTTCAAGCGACTCTCCTGCCTCAGCCTCTCAATTAGCTGGGACTACAGGTGCCCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGG
S
TTTCACCACGTTGGTCAGGCTGGTATCGAACTCCTGACCTCTGGTGATCCTCCCACCTCGGCCTGTAATCCCAAAGTGCTGGGATTACAGGTGTGAGCCA
Celera SNP ID:            hCV2631569
SNP Position Genomic:     40416
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32361):
ATGACAGAGTGAGACTCTGCCTCAAAAAATTTAAAATAAAATTTCAACAGAAATTGCAAGTTCCCTGTCCTATGTTCTCCTAGCCTCTAAAATAGTGTGC
R
CTATTGCCCATGTGAATTTATAAACCACAATTATATTTAGGCTTGGGTTTCATTCTGATTACATAAGACTAATTACTTAGGTAGATTAACAAGAAACAAA
Celera SNP ID:            hCV29298644
SNP Position Genomic:     55110
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32362):
TGCTATGTCAGCAGGGTTTAACGTTTCAGAGATCATACCACACTAGAAAACAAAAGTTGCAAATTATAATCTTAAATTTCAAAAAGCAACCAAGGTTTAT
R
GTTCCTCAGTAAAGAAATGGAGTGTTTCAAATCCTCAGTGTTGTGCTCAATAATATGATGAAAGTTGAAGAACTAATGGGTACCTGGTACCTAATATCTG
Celera SNP ID:            hCV25621011
SNP Position Genomic:     6266
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:32363):
TGTAGGCGAGCAAAGGTCGGACTACAATCGTGGTAGCACACCGACTTTCTACTATTCGAAGTGCAGATTTGATTGTGACCCTAAAGGATGGAATGCTGGC
R
GAGAAAGGAGCACATGCTGAACTAATGGCAAAACGAGGTCTATATTATTCACTTGTGATGTCACAGGTAATGCTTATGTGACATAATGCTATGTCAGCAG
Celera SNP ID:            hCV25621012
SNP Position Genomic:     6079
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:32364):
GGAAAAGAATTATAACATTATCTGTCTTTTCTCAAAGAATTCTCAGTAGTAAAAAAAAAAAAATCACTTTCTCTTTCATCATTCGAAAAATGCCTTTCCA
M
CAAATTATAACATTTCAAAGTCCTCTCTATTTATTACTCTACATGTATTCAATTGACCTTGCTATAATTCATGCCTCATTATTTGGTAAATTTTGTACAT
Celera SNP ID:            hCV25751611
SNP Position Genomic:     52733
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,26)   caucasian(C,30)   total(A,2|C,56)
SNP Type:                 INTRON


Gene Number:                 133
Celera Gene:                 hCG2039266 - 209000071815194
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VYHA(14907736..14971942)
Chromosome:                  Chr20
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12293):
AGTGCTGGAATCCCAGGCGTGAGCCACCACACCCGGCTGAAAGGTGGCTTTGGCGCTGCTAACATCAAGGTCCCTGTGAGACATCCGAGCAGAGATGCCA
AGTTGGCAGTTGGAGACTAGAGTCTAGACTTCACGGGAGAGGTCCAGGCTGGGGATGTAAACTCAGAAGTTGTCAGTTTATTAGTGTTTAGAGCCATGAG
TCTGGATGAGATGGGAGAGAGAGAAGAGGCCCAAGCCTGAGCTTTGGGCACTTGATTAATTCAAAGCCACAAGATGAGGAAGAACCACCTGAAAAGACTA
AGAAGTTGTGGACAGTGAGGTAGGAAGAGAACTAAGAGAAGAAAGTGCTGAATGACAAGCAGCATCATGGTAGCTGGCCATGGGAAATGGCCCGCCAAAA
ACTGCACACTGCGGTTCACACTCTTGCTCGGCCCCAGCCACTTTCCTCTGGGCTGTCACCATAGAACTAACAAAAAGCAGCAGAAGTGGCAGCCTGCCTT
CTGAGGCCAGGTCACAGGAAATCTTGCAGCTTCTACCTTAGTGTTTTTGAATGCTGCTCTGGGATAAGCCAGTTGCCATCAAAGAAGTTTGACTACTCTG
AGCCACCACGATGTGAGGAAGCCCAAGCTAAGCATGTGGGAAGCCCAGGATGGAGGGAAAAGATGGCCAACCAGGGCCATGGTTGTTCCAGCCATCTCAG
CTGAGGCACCAGCCACAGGAGTGAAGAATTTGTTTTAGACATCCAGTCCAATCAAACCTTGCCATGACTTTGGCTACAGCTGCACCAGCATGAGAAACCC
TGAGGGAGAAACCCACAGGACTAGGAGAGACAGTGACACACTGTCATTTTAAGGCTCTATATTCTGGGATGGCTCATTCTACAGTGGATAATGGAGACAG
GAGTTCATTGCAAAGGGAGACTGACCAGTCCCCTGCCCGCAACAGAGCACAGCCCTCTTCACCCAGACCCATGGAGAGGTGGCTGAGCAGACCTCAGCTG
GGCAGCCCTCCACACTCTGAAGGCTCCCCCTTTCCTGCCTTAGTGGCAAGAATAATAATTTTCTCTTTGTGCCCAGAGAGCTGGCAACTGCCAAGTGCCC
TGCTGTCCCCAGGGCCCTTACAAAAGGACTGCAGGGGAGGTTTTTCTGAGAACTGGGTCACCGGTTACTTAGATGCTTCAAACCTGGCAGAACAGAGAAA
CATCAGATAAAGGAGACTGGGAACTTCATAGGAAGCTGCTGGTCCTTGTCATGGGGACACACCATGACAAGCCACCAGAGAGTGGCTGCCTGCCCTCTCT
GGACCCTTATGTCATAGGGACCTCCTCTCTTCTAGAGAGCTCTCTCTTTCTTTGTAAATGTTTGTAAATCTTTCTTTGTAAACATTTTGGAAAGTATGCA
TTAATCAGGCCAGACACGATGGCTCACGCATTTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACTCGAGGTCAGGAGTTCAAGACCAGCTTGG
CCAACATGGTGAAACCCTATCTCTACTAAAAATAGAAAAATTAGCTGGGCATGGTGGTGGGCATCTGTAATCCCAGCTACTCGGGAGGGTGAGGCAGGAG
AATCACTTGAACCCAGGAGAAAGAGGTTGCAGTGAGCTGAGATCACATCTGTAATCCCAGCACTTTGGGAGTCTGAGGTGGGCAGATCACTTGAGGCCAG
GAGTTCGAGACCAGCCTGGCAAACATGGTGAAACCCTATCTCTACAAAAAATACAAAAATTAGCTGGATGTGGTGGCACATGGCTGTAGTCCCAGCTACT
GGAGAAGCTGAAGTGGGAGGATCACCTGAGCCTGGGAGGTCCAGGCTGCAGTGAGCCGTGATTGTGCCACTACACTCCAGCCTGAGTGACAGAGTGAGAC
CTTGTCTTGAACAAAACAAAACAAAACAAAACAAAACAAAACAGAAAAAAACCTGTCCTTTTCTCCCACTGCCTGTTCAGTTCCCCAGAGGCAATTGCTT
AACATTTCTTTCACATTTATTGGAATAGGTAACACAAGGCGTGTGCTAAAAATTTCAAAAGGTACAAAAAAGGTAAAGAGATTAAGTCTCCCTCCTTCCT
TCTCCCCACCCAGCTCCTCTCCCTAAAGACAACCACTTCTACCAGTGTATTACATCTCCTTCCAGAGATATGCTATGCATATGTCAGCATATAATATAAA
CAGCCTTAAAAAATAAAACAGGGCTGGGAATGGTGGTTCATGCCTGTAATCCCAGCACTTTGGGAGGCCACGGTGGGTGCATCACCTGAGGTCAGGAGTT
CAAGACCAGCCTGACCAACATGGTGAAACGCTTGTCTCTACTAAAAATACAAAATTAGCTGGGCGTGGTGGCTCATGCCTGTAATCCCACCTACTTGGGA
GGCTGAGGCAGGAGAATTGCTTGAACTTGGGAGGCGGAGGTTGCAGTGAGCTGAGGTTGTGCCATTGCACTCTAGCCTGGGCAACAAGAGGAAAACACCG
TCTCAAAAACAACCACCACCACCAACCCAGAAAGGGTAACTTGCTACAAATGCTGTTCTGCACCTTGCTTTTCCACTTAACCATATATTTTGAAGGTCTT
CCATATCAGTAGGTAAATAACTGCTTTATTATTTTAGGGGACTGCACAATATTCCACTGTAGGGATGGACCGTAATTCATGTAACCAGCCCCTACTGAGG
GACACTGAGGTTGATGCCAACCTTTTGATATTACAGTGAAACAGCAAATAATCTTGTACTCATGTTTTCTTGCACATGTATGCCTCTCTCAGTAAAGATT
CCTGAATCAAAAGACGTGTGCTTTTGTCATTTTTTAAAATTTTTATTTATTCATTTATTTTTGAGACAGGGTCTCGCTCTGTCACCCAGGCTGGATTGCA
GTGGCACGATCATGGCTCACTGTAGCTTGACTTCCCGGGCTGAAGTGATCCTCCTGTCTCAGCCTCCTGAGTAGCTGGGACCACAGGTGTGTGCCCCCAT
GCCTGGCTAATATTTAAATTTTATTTTTAGTAGAGACAGGGTCTTCCTATGTTGCCCAGGCTGGTCTCAAACGTCTGGGCTCAAGCAATCCTCCCGCCTC
AGCCTCCCAAAATACTGGAATCCCAGTATTATAGGCTGTGCTTTTGTACTTTTAATAGGTATTGACAAAATGAGACTGTATTGATGTTCTTGTTTGCAGA
CTTCATACTTAAGTGCCCCTTTCCCTACACCTTCCCCAATTCTATTCAAATAAAAATCAACATCTTTAATCTGTGCTGTAGAATTGGTAAGAAATGTATC
TCTGCACTTTTACATTTGAAATATATTGTTAGAAGGTTGAGCATCTTCATATGCTTAATTGTCATGGCAACCACTTCTAGCCTGTGTAGCGATTTCTTCT
AGTTGTTTATTTCCATAGAGCTAAATAATGTTTGAATGTAGCCATTCATTGATTTATCAGCTTTAGGTGTTATCTATTGATTTTTGCTCCAATACATGAG
GATTTAGCTCACTTACAGTGTCATCCTTGCACCTCCTCTATCTTTCTACCCTTCCTTCCTTCTCTCTTTTTTATTTTTATTTTTTTTTTGAGACGGAGTC
TTGCTTGTTGCCCAGGGTAGAGTGCAGTGGCACAATCTTGGTTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTACCACAGCCTCCCAAGTA
GTTGGGATTACAGGCGCCCACTGCCAAGCCCAGCTAATTTTTGTATTTTTAGTAAAGATGGGGTTTCACCACATTGGTCAGGCTGGTCTTGAACTCCTGA
CCTCAGGTGATGCACCCACCTCGTCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGTCTCTTCTCTTTATGAAAAATATTGCTGGTTT
TCCATTTATAGTAGTGATATATTTTTTTCCTTTCCTTTTCTTATTAAAATAGACTATTTTTTAGAGAAGTTTTTGGTTCACGGCAAAATTGAACAGAAAG
TACAGAGTTCTCATATATTCCCTGCTCCTCCCACCCCTCAGTTTTTCCCACTACCAAGGTCCTACACCAGTGGTACATTTGTTACAATCGATGAACCTGC
ACTGATACATCCTTATCATCCAAAGCCCATAGTTTGCCTTAGGGTTCACTCTTGGTGCTGCACATTCTATGGGTTTGGACAAATGTACAATGACATGTAT
CCACCATTATAGTATCATGCAGAATAGTTTAACTGCCCTAAAAATCCTCTGTGCTCCACCTATTCATCCCTCCCTCCAGCCTAACCCCAGGAAACCACTG
ATAATTTTACTGTCTTCATGGTTTTGCTTTTTCCACAATGTCATGTAGTTGGAATCATACAGTATGTAGTCTTTTTCAGATTGTCTTCTTTCAGTTAATA
AAATGCACTTAAGTTTCTTCCACGTCTTTTTGTGGCTTGATAGCTTATTTCTTTTTAGTGCTGAATAATATTCCATTGCCTGGATTTACCACAGTATATT
TATCCATTCACCTCCTGAAGGAAATCATGGTTGCTCCCAAGTTTGGGGAATCATTAATAAAACTTCTAGGAACATCTGTGTGCAGGTCTTTGTGTGGACA
TAAATTTTCAGCTCATTTGGGTAAATACCAAGGAGCATGAATATTGGATCATATGGTAAGTGTACATTTCATTTTGTAAGAAACTGCCAAACTGTCTCCC
ACAATGGCTATACCATTTTGTTTTCCTACCAGAAATGAAAAAGAGTTCCCGTTGCTCCACGTCCTCACCAGCGTTTAGGATTTTAATCCTTTGAATAGGC
ATGTAGTGTTATCTCATTAGTATTTTCATTTGCAATCTCCTAACGACAGGTGATGTTGAGCATCATTTCATATGTTTATTTGCCATCTGTATATCTTCTT
TGGTTGAGGTATCTGCTTAGTTCTTTTGCCTATTTTTTTTTTTTTTTTTTTGAGACGGCGTTTTGCTCTTGTTGCCCAGGCTGGAGCGCAATGGTGCAAT
CTTGGCTCACTGCTACCTCCCCCTCCTGGGTTCAAGGGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTACCCGCCACCACACTTGGCTA
ATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGT
GCTGGGATTTTACAGACCTGAGCCATGGTGCCTGGCCTCTTTTGCCAATTTTTTAATGAGGTCTTTTGTCTTCTTGTTATTGAGTTCTAAAAGTTCTTTA
TATATTTTGGACAGCAGTTCTTTATCAGGTGTGTCTTTTGCAAATAATTTTTCCCATTCTGTGGGTTTGGTGGGTTTGTCTTCTCATTCTCTTGAGTGAT
GTGGCATTTAAAAAAATAAAATTACTTTAAGTTTAAAAAGCAAGTCCATTTAAAGAGAAACACCCAGGAAATAATAGCCAAGGTGGTAGAATATGGTGAA
AAAATGAAAGGGCACCCAAGAGCCTCAGGTTTGGGCAATACTGATGACACATAGAGCCTGGTTCCCTGGCAATTATTATGGCGGTTACTACTATTTTAAT
AATATTAGCAGTTACGGTTGGTATTTTTGCTATTACAATTAATGGCATAGGGGCTGTATCGCCCCTGTCTTCCTGGAACCTGGAGGCAATGAGGAGCTCT
GCAAAGTTGTTGAGATTATTATGACCATATCTGGGTATTTCACCACTACAAAGAGCTGCGCAAAGTTTGGACGGTAGGAATCGGGGTGGACATCAGCTCG
GTGACAGGTAGGAGGTGGGTCCGAGGAGGGGTCGGGTCTGGGAGCCTCCGCCCCCAACTCAAGGCAGGCTACACAAGATCTGTCTCCGTTGGCGTCCCGG
TACCTAGCTTGAGCCCGACCATGGGCATGCGTGGCGTGGCGCGAATCCTGTCCCTGTCGCTCGTCCTGGCCGCGGTGGCCACGGGGGCCTGGGAGCGGGG
GCCGCTGGGCGTGCTCTTGCCCTGGCAGGGCTCCGCCGCGCTGGGCCGCTGCTGTCCTGGCCGTGACCCGATGTTTGTCGCCCGCGGGCCCCCGCGCTGC
TTCTGCGACCAAGCGTGCGGCGCGGCGCGGCGCGGGACTGCTGCGCAGACTATACGCGGGTCTGCCCAGGTGCACCCGGGGAAAGGCAAGGCACTAGCGG
AACGCTCGGAGCGGAGGGGAGCTGGGGCGGGGGATGAGCGGAGGAAGGGAGCCCAGCACCTAGGGGGCTCTGGGCTTGGAGGGGTCACACGAGCCGAGGG
CGGGGCGCGGCGCTTGGGGACTGGAAGGGTGCGCCGCGGGGCAGACGGGACGTGCAGGGGGTCGCGCGGGCAAGGAGGGACGCAGACACTCAGGACCTAA
AGGGGAAGCACTGGCTGTGGAGCTGCGAGCCGAGAAAGACGCGCAGGTTATGAACCTGGGTGCGTTCATCTCGGGGGACCTGAAGGAGAGGGACTCGTGG
AGAGTTGAGGGGTGTTTCGGAGGAGGGGCGCAAGGACTGCTCACAGGACTTGAAGGGCGGCAGGAAGGTGGAGGATTCGGCCCAGGTGCGGGACGCAGGC
GGTGGAAGGGAAATGAGCACAAGAGGCGCAGGCAGGAAGGAGAGCGCCTGGTGCGAGAGAGGAAGGAGCGCACCCRGTAAGCGGTGTCGGGGGGGTCGTG
AAGCTTGGAGGGCYTCGAGGGGAGGGAGGCGCTTGGGTTGAGGTAGGGCGCCAGATTTCGCAAATCAAAATACAGCACACCCAGTTAAACTCGAATTTCA
GATAAACAAATCTTTCTAGAGAAAAATATGTCCTAAATATCGCATGGGATATACTTATACTAAAAAATTATTTGTTGTTTTTCTGAAATTGAAATCTAAC
TCGGAGTCCTGTATTTTATCTGAGAGCCCCAGCTGGGGACGGGCGCGGGGCCAAGAGAGCTGCGAGGGAGGAGGGGTTGCAAGCTTCTTTCGGGCGGAGG
GGTCACAAGGCGAATGGAGAAGGTGACAAGGAGCATGGAGAAACCAAGAAAAGGGCTAACGCTTGGAGAGCAAGGATGGAAAGACGCTCAAAGCGGAGGC
GGAACGGTCTGAGTGATTCCAAAACTAGTGTGTCCAAGCTGGTTAGAACTCAGGCAGGCGGGTCCAGAAGCCGAGGGGCCTGACAGATACGCAGGTGAAG
TCCATCTGTGGTCCGCGTGCTGGGCGTGGCCACCGGGCTAGTCCAAGCATTCCTGGTAAAGGCTCCTCCAGAGTGGTACCCACAGCGCTCTATTAAGGGC
TATTTTAGTTGAGTCATTAGTGGGAAGGACGCTGCCTATCCCCTCCCCCCCCGCCACCCCACTCCCTTCTTCTAGAGATGGAGCCTTGCTCTGTCGCCCA
GGCTGGAGTGCCGTGGTGCGATCATCATTCACTGCAGCCTCGAACTCCTGGGCTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGATGACAGGC
ACGCACCACCATGTCTGGCTCTCTATCCTTTTTAAATCCCAGAAGTAAAGTTTTCACACCCACTGGAGACAAAAAAAAATCTAAATTCTGTCACCCTGTA
AAACGGTTATGACCCAACTTTCCTATGTCAGGGAGGAAAGTGATTGATTGGGCCCCTCTACCGTGTGATATCACTAGAGCTTCCTTCAGAAATTTGTTTT
AAAAGACAGAGAGGGCGCTTTTAAAAAAATGCATAATGGGTCGGGCACAGTGGCTCATGCTTGTAATCCCAACACTTGGGGAGGCTGTGGGAGGATCATT
TGAGGCCAGGAGTTCGAGACCAGCCTGGGCAATATTGGAAGACCCAGTCTCTACAAAAAATTAAAAAAAAATTAGCCTCAAATGGTGATGACTGCCTGTA
GCACCAGCTACTCAGGAGACTGAGGTGGGAGAATCACTTGAGCCCAGGAGGTTGAGCCTGCAGTGAGCTATGATTATGCCACTGCACTCCAGCCTGGGTG
ACAGAGCGAGATCATGTCTCAAAAATAAATAAATAAATAAATAAATAAATAAAAATGTAAGGGACCTAACATCCATTAATCACCTATCCCTCTGTGCCCA
GAAGCTGGGCTGGATGTCCCCTGGAACCTGAATACATTCTCCCTGCCCTCTGGGGTTCAGGTATGGAATAACATCCCTGTTTAGCAGTCAAGAAAAGCAA
GGCTCAGAGAGGAGAGGGCTTTGGGCAGTCAAGAATTCCCAGCCAGTGGAGGAGCTGGGTCTGATTCTGAGTCTTCTAGCTCCTTGCTGCCAGGAGTGGC
CAACGTTGGAAATTCAGGCAGCAGTGAGATGAGAAAGTAATTTTGGATGTGGTGTCTTCTCAAGCCATAGGCAAAAGAGAACTCCTTCCAGATTAAATTT
GGGGAAGGACTGCCTGGGGGTGCTTTTGTACTGGTTGGTTTTCTGTGTAGAGAGTTCATGCAGCCGCGGGTCTGTACWGATTGGAGCTGAAGTCCCAGGT
TAGCACCACCAACAGGGGCTCCCCTGCCACAGCGCAGGAGTGGGGGCCCAGGATGGGTCCAGGCAAAGGCATCAGTGATACTTTCTCATGGTCTGACCGA
CACCCACAGAATCACACAATGTTAGCCCCTCCCAAGAGATGTCCTTTCTATACGGAGTGGGGGCTGGAGGAACCAGGAGCCTCAAAGCTTTGCTTTCACC
TTTGTTTTGCTCTTTTGGGATCTGCCTCCTTATCTGGAGCAGGGTCTTGTGAAGAGACGCAGGGAAAAGTTCACTTTCCACCTCCCAGGGGAGCAGGCAG
GAGGGGACTAGTTAGGAGGCAAAAGATGTAGAGAAGTATTTGCTTTTTTCATGGGCTATTTTTAGGAGATAAAGTCAACTGCCTTAAGTGATCAATTGTA
ATAGAGGGAGATGTTGAAGATGACTTAAAAAACAAACAAAATCCGCAAACAACAAATCTAATATTTATGAAATACCAAATGTCAGGAAGGTACTATTTTA
AGTGCTTGAAGTAAATTGTCTCATTTAAGCCTCATAATAACGCTRTGGAACAGTGTTATCATGTCTGTTTTACAGATGAGGAACTAAGGCACAGAGAGGT
TAAGTGACGTGTTCTGGGTTGCACAGCTCTTAAACAGCAGATCTGGGATTTGCACTCCAGCAGTCTGACTCCAGATCTCAATATTGTATAGCAGCTCAAG
GGTGGCAGAGACTCAAGAATGTTAGGAGAGGGAAGCTTGAGTCTACAGGTGTAAGGAGACCCCTTGACATCTTCCCCATTTAGTTCAATTAAAATTTTCT
TTTTTTTTCTTTTTCTTTCTTTCCTTCCTTCTCTCTTTTCTTTTCTTTTTCTCTCTCTCTTTCTTCCTTCCTTTCTTTTTATTTTTCAGGGTTTCACTGT
GTCACCCAGGCTGGAGTGCAGTGGTGCAATCATGGCTCACTGCAACCTCTGCCTCCCAGGCTCAAGTGATCCTCCTACCTCAGTCTCCTGAGTAGCTGGG
ACTACAGGTGTGGGCCACCACACCCAGCTTTTTTTTTTTTTTTTGTATTTTTTGTAGAGATGGAGTTTTACCATCTTTTCCAGGCTGGTCTCAAACTCCT
GGGCTCAAGCTATCCTCCAGCCTTGGCCTCCCAAAGTGCTGGAATTACCAGTGTGAGCYTCCACACCCAGCCTCAATTACAATTGGTGGCCACCTTCTGT
GTGCCCAATTCAGCTAGAAGCACTGGGGGATGGAAGCAAGGCTGGAGTTCTGGTACCCCTCAAGCTTATTGTCTATTTTTGGGAGACAAGGTAGTTGGGA
AAGGAATAAATAATTTCAGTCTGAGCAAGGTGAAGCTTGGAAATGATTGGTGAGGATGGTGTGGARGCAGGGAGAGAGTGGGGCTGGAGTGATTAGTAAG
GCCTTGAAAGATAGACACCACTGTATTTTCCAAGTTATTTACAGAATGTTTCCATGTATTCTATACTTCTTAAAKATCATCTCAACCCTGTATGGTTGAT
GTCCCTACATATACACTTATGTGTTTCCTGTAGACTTAGTACTCTTAGGGTTGTGACACAATTTAACTTAAGTTAACAAGGATATTTATTGGCTTAGGTA
ACTAAAGAACAACCCAGGGATTCCAGAGCTTCAGGCATGACTGGATCCAGGGGCTCCAAGGATGTCATCAGGACTCTATCTCTTTCCATTCTTCGGCTTT
TCTTGTGTTAACTTCATTTACAGGCATGCTGTCACCAAGTGGTAGCAAAGCTAGTGGTCAAAGACAGTAGCTGTAAACTGCCATCCTTAATGGATTGAGA
GCATTTTTCCCCAGTTCCAGCCAAAATCCCAGGGCTGGTTCTCATGGGCTCAGTTTGGATTAAATGGTCATTGCTGACCCAATCAATCACTGAACCCAGG
GAGAAGGAATATATCAACTGGCCATGTGGGGGTCACCTGCCTCATACCAGGAACGAGAGGGTGCGATCAGCCCTGTCCAAACCATGTGGATTGAGAGTGG
GGAGTTTTGGTTTCTCAGAAGAAAACTGAGGTGGTATTCCCAGAAGATGGGGGAAAGGAGGCTGGGAGGGTACTACTCAGCTGTGGGAGACCACGTGCTT
TGGGAAACTTTGGGTAAAGTGTGCTGAGATGTTGAATAGGAGGAGGGCACGGTAAATGACTGTGGATGAGTTGCAGGAAAATGTAGATTTTTAGCCACTG
AGCTTGGGGGTCTCCATCTATGATCCACTGTCAAAAAAGATCCTTCGTGAACCCCCTCAATAGGAGATGGGAACCACTGAGGGATTTCAGGGAACAGGCC
AGAACTGTATTCTAGAAAATCCTTTTGGTAGACAATAAGGAGGGCAGATGGTAAGGAGGCTGGGCAGTGTGGTTCAGAGGAGAAAGCGGGGTTTGGATAA
TGCAGAAAGACATTCCTTGGCTGGGCCCYGTGGCTCATGCCAGCATTTTGAGAGGCTGAGGTGGGTGGATCACAAGGTCAGGAGTTTGAGACCAGCCTGG
CCAACATAGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACGTGCCTATAGTCCCAGCTACTCCGGAGGCTGAGGCAGGAG
GATCGTTTGAACCTGGGAGGCGGAGGTTGCAGGGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGGYGACAGAGAGAGACTCCATCTTAAAAAAAAAAA
AAAAAAAAAAAAGGTGTTCCTTCATGAGCCTGGGCCTGTAAGGGTGGGGTGAAGCGATTCTAAGGGGTCTGTGGGAAATGTGGTCTGGCCATGGCAGGCT
CAGCTGGCACGATGTCATCTGGGTATCCAGGACTCAGTGAGCAGCCTTACCACCGCCCTACCCCTTTCTGTAAGGCTGGGAAGCTAGAATTTCTTCTTTG
GTCAGGAAAAGTGGGCTGGGCTTTGCTTTGAGAAACACTGCTATCTGGTGTTGCCTTTTTGCAATGTCAGCCTGTGGTTATATTTCCTTTGTTGTTGCTA
AGGCAAGATTTGCTCACTCAKTGTTCAGTGGCACATCACTTCCTGAGTTGCTGTGTGCCAGGCCCTGTGCTTGGTGATGGGATACAGCAGGGAACATGAC
AAATGAGGACCCTATTGTTGTGGAGCTGACACTCTAATGGAGGAGGCAGACACTACGAGAATAACCACAGATGTACTGAGTTTGTGATCCTGGGCCTATG
CGAGGGGTGATGATGGTTCCCTCTTGTGTGCGTGCTGCCAGTGAGACGGGTAGAACACGTGCAGGGTGGTGCCTGCCTAATTTTCYGCAAAATCTCTCAC
CTGCCTGGCAGGCAGGGCAGGAGATCGTGGTGGACTTTGGGGATACCCCTTGGTCCAGCTGTCCAGCCAGTGCCTGAATCTGGTCTGCAGTCTTCCTGCC
AGGTTTTTTAGCCACATTGTGAACACTTTCAGTGACACAAAACTCATTCTTCTAGCAGCTTCTTCTACTGTAGATAATCCTTTCTCTCCTGGGAAACCGC
AGGAGCCATCATGCTTCTGCCCTCACCCCCACCCAGAGAGATGGGCAGTCATCCTTTTGAAACCTTTGGTATCACCACGTCACATCTCTGCTCAGAACTC
GGCAATGGCTTTTCGTCATGCCTAGAATAAAATCTGAACTCCTTACAACAGTCCTCAAGGCCCTATATGCTATCTTTGTCCCCTCCCTCTCTGATGTCAC
CTCCTACCACTTTTCCTCTGGCTTATTTTCCTGCAGCGACACTGGCCTCCTCACTGTCCCTCTGATATCCTACCTTTACCCTGCCTCAGCGACTTTGCAC
TGCCTGTTTTGTGCCTGGAATACAGTTCCCTTCCTACACAGTTCCCTTCATCACTTTCTTGGGGGCTCTGTTCAGATGTCCTTGTCTTGGAGGACTTCCT
TGACTCCTGCCTAAAATAGTTTCTTGTTACACCACCCTTGGCACTCTTTCTTTTTTTCCCTGCCTCTCYCTCAACCCTGGCCACTCTTGACCTGCTGTTT
TTTCTCAAAGCACAGATCACTAGTTGAAATTACATGGTTGCATGTTATTGTTTATTGTCTGTTTCCCCCACTGAATGTCAGCTCCTTGAGGGCAGGGCTG
TACCTGTTTTGGTCATCTGTGTTCCCAGCACCCAGCCCAGTGCTCTGCACACAGTAGGTCCTAAATTGTTGTTGAACGAATGCATAAAGACCATTGAACT
GGGCATTTACAGTATGGCCAGTGCTTTGCATTCGCCATTGCAACAAACCCGAGACTGTGGTTCAAATCCAGGTTTGTCTGACTCTACATCCTTGGCTCAA
CTTAGGGATTCTGCCTCTTAAGCCCCAGTGGCCTCATCTCTGAGCTGGGTTTGACAATAGTGCAAACACATTAGGAGTTGGGGACCTGGCAAGTGACAGA
TGGTACCCCCAGAAGGGTATAATAGAAAACAAGGGCTCTATTCACAGAGGTGGGGGCAGCAGTACAGGACAGGAGGAAATGGTGTTATTGGAGCCTGTGA
GAGTAGGATCYGCAGCCAAGGGCCCCCTTCCCCAAAATGGGGGACAATAAACACCTTGGGTGCACTCTCCTCCTGCCCTCTGCTCCTCTCATCCCCGCTG
GTGTTCCCCACTGGTTCAACTCTACTGGCAGCCAGGGAGAGGCTGGGAGATGCACAGGCTTGCTGGGGGTTGAGTATGGAGAGGGAGTACAGAGTTTCAG
GAGACTGTTGTGAGGATTAAATGAAGTCATGTATGGGACTTGCTTGGTTTAGCATCCAAAGCACAATGAACGGGGTTATTAGATGGATGATGAAAGCACT
TGATCAGTCTTAGGTTGCCACACTGGGTGTCTCCCCTCCCTCCTCCTTCTTGCCCTCCCTCTTTCTGTTTCCTTTCTTCTCTTGTTTACCTTCCTTTCTT
TCTTTTTCCTTCCTTCCCTCTGAGCTTTTCAACTCTGCTAAGATGGGCAGATTGAAGGATTGTTTGCTCCAAGAAAAAAATTTTAAACCTCTGAGATTTA
TGCAAAGAATATGTGACTTCCTGACCTTCCAGAGGCACTGCTGCTTGTCTTTGGCACAATAACGCCATTCCTTCATCAAGGATGCACATGATTTTTTCCC
TCTTCACATTTTCACGTTGCTGAATTAGGACATGTCTCATAGCTGGGAGGGCTTTTCCTGAAGACAGACCTCATCTTTCTTGTTAAACGCTGTGTCTCCA
GCACCCAAGACAGTTCTGGGCTCGCTGCAGATGCTTGGTAAATATTTGGGGTATGAGTGAATTAATTCTGACAGTGGTGGCCGCCTTGCATGTGCAGCAA
ATGTGTGTGTGTGCCGCTGACAAAACTTGCTGGCACATCCGTAGAAAGTCTCTCGCTGGGGAAGTGCCCAGATTCCGTTTCTGCTAGACTGCCTTTCCCT
GTCTGATTTGCTCTGGTCCTGATCTGGGAGTGTGGACTTGGAATGAAGAAGTGTCGGTCCCAGCGGGGACATCATTAGAAATACCACCTGTGGTAGACAT
GTGAAGCACCTCAAGGATGGGGGAACCCAGCACGTTCCTTWTGTGATGATGAAATATTTCCGACATACACCACCAATGTAGAGAGATAATACAACAAACC
CTCGGGAAAAGCTAAGAAACAAACCTTGACAATTGCCACTGCAGTGTCTGTTTCCCTCCTGTAGTCACCTGCTGTCCCACTCTCCCCAGAGATTGTCACA
ATGCTGAATTTGACATTTAAAATTCCCATGCATATATGGGGGTATGTGTGTGTTTATGTACATAAACATACACTGTACATTCTTTTTTTTTTTTTTGAAA
CAGAATCTCGATCCGTCGCCCAGGCTGGAATGCAGTGGCACAGTCTTGGCTCACTGCAACCTCTACCTCCCAGGCTCAAGTGATCCTTCTGCCTCACTTT
CCCTAGTAGCTGGGACTACAGGCGTGCACCACCATACCTGGCTAGTCTTTGTATTTTTCTTTTTTGGTAGAGATGGGATTTCACCATGTTGCCCAGGCTG
GTCTGAAACTCCTGGGCTCAAGCGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTAATAGCGCCTGGCTACAGGACTTTCTTGT
GATTCACAGTAGTTATGTTCTGTAAAGTTGCCACAAAGACTGAATTAACCAATACTGAATTAACCAATGGCCCCTAGGGGAAATATGTACACACATATCT
CACTTAGTTTATACTTTAGATCCTAAAAACAACTCATCCTGGTCAATTCCATTTTCTTCATTTTACCAAAGAGTGTTAGGAAGTGTTAAGAGACTCGCCC
GAGGCTGCCTCCCTAACAGTTGCTGGAGTTGGGATTCAAACCCCATCCAACTGGCCCAGGGCTGGAGCTTCTTGCACTACATAGACCTGTCCCTACTGTC
TCTGTCCTCTGGTAACATCTGTATGAAGCTGGAACAAGAAGACAGAGTGGGGCCCTGTTTAACTTCAGCTTGGAACCTGCACATTGAGTTACTCAAATTT
TTCACTAATCTTCGCTTGTCTGTGAGTAACTATAAATGTGCTGCAAGTATTGATTTTAGGGTTAAAAATAATTTCAGCAAATAAGCAAAGTAGCAAATAC
AGAATCTGTAAATCATGAGGACTGGCTGCATATATATGTATTTACTATGCCTGTATGAATGCCTAAATACTTTATAGTACCGTTTTGCAGTTTTAAAAAA
CTATATAGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACTTGAGGTGAGGAGTTTGAGATCAGTCTGG
CTAGCATGGAGAAACGCTTTCTCTGCTAAAAATACAAAAAATTAGCCAGGCATGGTGGTGGGTGCCTGTAATCCCAGCTYCTCAGGAGGCTGAGGCAGGA
GAATCGCTTGAACCTGGGAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAA
ACAAACAAACAAACAAACAAGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTG
TAGCTGTGGCTCATTTTCACTGATGTAGAGGAATAGTTAGTGCTTATTAAACACCTGCTATGTGCTGGGAGCAAATGCTTTATATTTCATATTTGGTTGA
ACCCTTAAGGCCACCCTATCAGTTAGATACTATTCTTATTCCCATTTGACAAAAGAAGAAATTGAAGCATCAGTTGCCCTAAGTGCTTAGGAAATGTTTA
TTGAAGGAATGAGTGATGGAGACGACCTAAGTGATCATCAATAAGATGATTGGATAAAGGTGGAATTCTAAGTTTAGGTGAACATATGAAGAGTTGTCAT
AGGGAAACTTTCAAGGAAGGCATAGACTGAGGTTTGCAAGAGTTCTAGCACTTGGTGTGGTGTTTTGGGGGTTCAGATTGTGGGGAAGGTGGAGAAGACC
TGGATGCTGGCTAGCTAAACCCCACAGAGGTCTCCCTTGCAGACACCACCTTCTCTTCCAGCAGTCTCCTGCACTGTGGCACAGTGGAGTGGCTGCAGTC
GCTGTGTGAAACCTGCCAGGTCTCCTACCATGTACACCGGAGGCGTGTCCTGCAGGAGCCGAGGAATGGGGGTGTCCCCTTCCCGCTGCTGGAAGAGCGG
GCTGGCTGTGTGGAGTACTGGAGCCACCAGGGAGTGGAGTGCCAGCAGTCATTGCATGAGTGGGGATGGGCCCCAGGGGTGGCTCTCAGTGGGAACAGTC
AGGCTGGACTGCAGGGCCCTCCATGAGTTCTTGGGTAGGGTCTGAGTTTGGAATGGGGCTTTGCCTTCCTTTGCCCTGATCCCCCTTCTCATCTTGTGAA
TGAGTTCAGAAGCTCTGAACTCCACTGGGCTTCTCAGTCTTCTTTCTGCTCCTCTCCCTGTGTGAATCAGTCAGGACTTTGTATGCAGGTGATAGGAGAC
CCAACTTAACCTGAACTGAGCAAAACTGTGTGGCTCCTGTAACTAAAATTCCAGGGGCTGCATTCAGGCATGGCTGGATCCAGGAGCTCAAGCAATGTTG
CCAGGAATCTCTCTCCATGTCTCAGCTCTGTTTTCCTCTCAGTTGGCCTCATTCTCAGGCAGGCTTTTCCCTGTAATGGTCTTTGACAGCTTCAGGCTTC
CCTCTAACCAGCCTAACAGCTGAAGAGAAGGCCTCTTTCCCCATAGTTCCAGCAAATATCCTAGGATATTTGTGGTGGTGMGCACACCCGAAGTCCCAGC
TGCTCGGGAAGCTGACGCAGGAGGATCACTTGAGCCCAGAAGTTTGAGGTTGTAGTGAACTGATTGCACTACAAGACCCTGTCTCTAGAGATCAATCAAT
CAGTCAATCAATCAAAAGGTCGTTCTGACTGTTATGTGGACAGCAGACTGAGAGGGGTCAGAGGGAATCAGGGAGCCTAGGGAAGAGGTGGCTGCAATGG
TTCAGGCAAGAGACTATGGTGGTTGAACCAGGGAGGTGGCAGTGGGGTGATGAAAAGTGGGAGTGTTGCTTCCTCTGCTTGAAATCCTTCTCCCTACCCC
CAGCCACTCCCATCCAGCCATTCCTGGGTCATCACTTCCTGTAAAGATGTCAGTTTCCCTGAGGAAGATCGGGAAGATCATCCTGACTTGCTAATATGTG
CCAAGTGCCTCACCACATGACCTGACTCTGTGAGGTCAGTGTTACTATTCTCTTCTTACAGACAGGGAAACCGAGGCTCAAGGAGGTGACAAAGCTTGTC
CAAGTCACATGGCTATTGACTAGAGGACCAGGACCCTCCCATTCTGACCTTTGATATCACCCACCTACAATCTTTTCGTTGTACTGTTTTTTGTTGTTGT
TGTTGTTTGTTTTTTGTTTTTTTTTTTTTAAGACAAGGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTGCAACCTCCTC
CTCCCGGGTCCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCCACCATGCCTGGCTAATTTTTTGTATTTTTTGTTGAG
ACGRGGTTTCACCATGTTGGCCAGGCTGATCCCGAGCTCCTGACCTCAGGTGGTCCACCTGCCTCGGCCTCCCCAAGTGCTGTCAGAATGTAGTAAGGTG
ATATATGATGAGCACCTACTACATAAGTGCTCAATAAACAGCAGCTGAATTATTTTCTTTGCTCACCGTTACAGCCATGAGGCTCTGATCTTTATGACTG
ATCCCTTGAATCTTCTTTCAAAACATCTCACCTCTGTATTTGAGGGCTTGTCCCTTCACCATAGCATGAGAGCAACAGCTGCATCACAGTAGCTAACAAT
GTCAAGCAAATTACAAAGGGAAGAAACACTCACTGAGTACCTGCCTTGTGCCAGACCCTCGACCAATGTTACATTACATTCTGACAATAACACCAGGATG
TAGATACTGATATTATCCCCATTTTGCAGTTAAGAAGAATGAGGCTCAGACAGGTGCAGTAACTTGATCAAGGTCACTCAGCTATAACAAGGGGAGTTGG
GACTAACCTGGGCTTAGCTGGGGCTCTCCTTACTGCTCTAGGTGACACCAAAAGTACAACTACAGCTGTTGGAAGAGGGAAGGGAGGCTGTGTGTTAGGG
ATTCCTAAGGAATCACGAACCTCTTGTGAAATGATTATCAATTCTCTTCTATGTTCTCCTCTGTTTGATCTAGAAAGGAAGAAACTTGGAAGCTGGCCAA
GTAAAATAATTTTATTCATTCATTTGTCTTTCTATCAATCCATCCCCCTATACCTCCTTTCTTCCATCCTTCCATTGTTACATTCACTCATTCATCTATT
CTCCCATCCATCCATCCATCCATCCATCCATCCATCTACTCGTTCATCTAGCCATTTCCACTCATCTCTCTGCATTCTTCTATCTTCTTCCATTCTACCT
TCTTCCATTCTTCTATCTTCCCATCCATCCATCCATCCATCCATCCATCCATCCATCCAGCTATCCATCCATCTATCTACCCATCCATTTTTTATTCATT
CACCTATCCATCCACTTGTCAACTCTCCATCCATCCTTTCCATTCATCCTCTCTTCCACCCATCCATCTTTCTACTCATCTCTCTGTCTCTCCTTTTCTT
CCAGCCTCTCATCTTCCCATTTATCTACCTATTATACATCCATTCTTCCTTTCTTCCATCATTTCAGCTATCTATCCATTTATTCATTTAGTCATTGACT
TTAAACATTTTATTTTCTTCTTTTAAAATTATTTAATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTT
TGTTTGTTTKTTTTTCTGTTTTTTTTTTKTTTKTTTGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCT
CCCTGCAGCCTTGATCTTCTGAGCTCAGGTGATCCTCCCCTTTTAGCTTCCCAGGTAGCTGAGACTACAGGTGCACGCCATCACATCTGGCTAATTTTTG
CAGGATGAGGTTTCACCATGTTGCCTAGGCTGGTCTCAAATTTTTGGGCTCTAGCAATYCTCCTCCCTCGGCCTCCCAAAATGGTGGGATTACAGGCATG
AGACATTGCTCCTGGCTGACTAACTCTTTTATCTACTCTATTAAAAAAATCATTCACTTATTCATTCAGCAAATCATTCATTCAAAAAGAATTTTTGAGA
CCACACCAGGCCCTGAAGTCTCAGAGATAACTATGATCCTGCTTCCAGCACTATAAAGGGCACTGGTAGGGATTATCTACCCAGTTCAAAGATCCTACAG
TCTCTTTAGGGCTGTCTTGTAAGTGACTTGGATACCAGAGGTACCAAGCTCGGTGTCCCTATGGTGCCATARCCTGGGATGTGGTCCGCCCTAACTCTGT
TTTCTCCTTGACCCACAGTCCCTGCTTTGATAACCACASGCAGCTACGGGAAAGAGTGGGAAAAGTGAGATAGTCCCAAGAAACAGGCAACAGCAGGGTA
AGTGAAAATCAATCAACCTAAAGTCAAACTAAAATTTGTGAACATGTTTCCTTGAACTAAGTTTCTTTTTTTTCTTTTTCTTTTTTTTTTTCTGGAGATG
GAGTCTTGCTCTRTTGCCCAGGCTGGAGCTCAGTGGTGTGATCTCAGCTCACTGCAACATCCGCCACCCRGGTTCAAGCCATTCTTGTGCCTCAGCCTCC
TGAGTAGCTGGGATTACAGGCACACACCACCACGCCAGGCTAATTTTTGTATTTTTAGTAGAGACRGGGTTTCATCATGTTGGCCAGACTGATCTCGAAC
TCCTGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAATTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCCAAAATTTCATTTATCACGTCTTT
CTCTTACTTTGGCAACATCCATATCTCCCCGTTTGTCACCTTGTTACACCTGCAAGCTCATTAACATGGATTTTAAAGTCCCCAATGATTGGTCTCCATT
CAACTTCATTCATTCACCCATTCATTCAACTTTGATTGAGTGCCTACTATGTGACAGGTACTGTGCTAGTCCTTGGGTTATGGCAAGGAACAAAAAAGAC
AGAAATACTTGGTCCTCATTGAGTGGACAGTCTAGTGGGAGGAGAGAGACAAAAAACAAATAACATGTTGGAGCCTAAGTGCCATGGAGAAGATAAAGCA
GGGAAGGGGGTAGGGGTGCCCTGAGAAGGTGACATTTGAACTAAGATCTGGAGGAGGAGATCTGGGGGAAGAGTGTGCCTGGAAGAGGGAAACAGCAAGT
GCAAAAGTTCTGGGGCAGGGCATGCCTAGTGTGTTCAAGGATCAGCAAGAAGGCGGGTATAGTTTGAGTGCAGGGAGAGAGTAGGAAATGAGGTTGAAAA
GATAACAAGGTAGGAGGTAGATCCTGTGGGGCCTGTAGGCTGTGTTGAGGAGTTGCGCACTTTCTCTCATGAGGTGGGAGTCATGGTAGGGTTTTTAGCA
GAGGAGTGACATGATCTGACTTAAGTCTTCACAGGATTCCTTGGGATCCTACTTGGACAATGGATAGAGGAGAAGCAAGGGGGTAACTCGGGAGACCAAT
GAGGAGGCAATTGCAGTGGTCCAGGCGAGGGAAGAAGGTGGTTTGGACCAGGGTGGTTTCGTCGTACCTTGTGAAGGATGGATTGTGGGGACTGGCGACA
GATCAGCGTGTTGTGGGATCGCGGAGCTGAGGTCAAATTTCCAGGACAGTGCCTGGCTCATGATAGGTACYCAGTAAATATCAGTTGAAAGAATAAGGTC
TGAACTAAGTCAGTGGCAATGGAGATGGACAGGAGAACTAAAAGGGTTAGGATTCTTTTGATTGCAAGTGACAGAAACTTAGCTCAGACTGCGTCAAGTG
AAAAGGTGAAGTATTGGTTTAGATAACCGGGAGGGAAGTTCTGAAATAACATTACTTCAAGCAGGGCTGGCGCCAACGGTGTGTGTAAGGCCGTCAGGGC
TGGCTCTCGTCCCCTCTCTTTCTGTCACTCGCTCCATGGGTTGACTTTATTCTCAAGCAGGCTCTTTCCCTGTGGTGGTCAAGATGGGCATCTTGCAGAG
ATTGTGGGGATAAGCAGCCCCACATCCTCCCAGATCAGTAACCCCAAAAGTGTCCTCTTGGAAGTCTCAGCGGATCATATCTGGAGGAGACCCCGATTGG
GTCTGCTTGGATCCTGGGCCCATCCCTGAACCAGTCGTCCTGGCCAGGAAGATGGGGAACTCTGGTCGGTCAACTCCAATCACATACCCGCCTTAGTGGC
AGCTGTGGGAGCCACGGCCAGGCCGGCTGAGTGATGGCCCCTCCAAGACCATAGGGCGAGGGCAAGAAGTTTCCAAACAAACTGCCAAAAGGGGAAGAGA
AATTGTATGGGGAAGACGCAATTTCTAGTTATCACAGACTTCTGGTAGGGGACAGATTCCCGAGGGGATATGGGGGCAGATCAGAGAGGGAAGGACTGGG
GATGGGCTTTCGGCTGCACCTGGAAGAAAACCGTGGGCTCCTCTGGCCACCAGGGGGCAGCAGATTCACACAGAGTCATTCACGAGTCCTTGACACGCCG
CGTCTCCTCCAGCAGGGGGTGCTATTTACTGCTCCTTGTAGAAAAAGTTGGGTGGAAGTAAAATTTGGCAAATTCTGGGTCTTATTTCAGATACCCTTGA
ATGGGGGGGCTTTCCTTTTAAAGAATTCTCATTGCAAATCTTTTTTTCTTCTGTTTTTTGAGACCGAGTCTCACTCTGTTGACCAGGCTGGAGTGCAGTG
GCGCCATCTCAGCTCACTGCAACCTCTGCCTCCGGGGTTCAAGCCGTTCTCCTGTCTCAGCCTACCAAGTAGCTGGGACTACAGGCGCGAGCCACCACGC
CTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCATCAAGTTGGCCACTGCAGTGAGCCACCGCGCCTGGCCTTTTTTTTTTTTTTCCCTCTTTTT
TTTTGAGGCAAATCTTTTTCTTTTCTCTTCTTTTTCTTTCTTTCTTTTTTTTTTTTTTTGTGGCAAATCTTTTTAATAAAATAGGATCTTTTGAAAGAAC
GTGCCGGGCGCGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACTAACA
TGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAAATCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCACT
TGAGTCAGGGAGGTGGAGTTTGTTGCGGTGAACCGAGATTGYGCCATTGCACTCCAGCCCGGGCAACACCAGCAAAACTCCGTCTCAAACAAACAAACAA
ACAAACAAAGAAAAGAAAAAACACAGTGGAGAGCTTAAGAGTATCTATTTAGGCTTATTTTCAGCAGAGATGGTTCCATTTTACATCCCACTGCTTATTA
GGTATGTGGCCTTGGGCGAGTTTTCTCTCTGATCCTCCGTTTCCTAATCTGTAAACTAGGGGAAACACCTACCTTGCAGGGGTTCCATATTCCATCGGCC
CCAATGACTTATTTAACATTTTAAAAACTGAGCTGGATATAATTCTAGGAGTTGGACCCAACAGTAAACAAAACAAATGAACATTCCTGGCATTATGGAG
CCAGCCTTCTAATGGGGAAAACAGATGAGAAATAAAACACTCAGTCTTTTGGATAAAGTGCTTAGAATAGGGTCTGCCTGGTACATGGTAAACCCTGAAT
AATGTTAACTTGAAAAGCAGAAGTTGAATCTTGTTGTATGCAACCTGTTGAGGCCAATTGGGTTGCACAAAAGATTCCTGTATCAGGGAGAAATTGTACC
AACCTGGGCCTAAGATAGGGCTGGATGTACAGTAGGTGCTTCATAAATGCTCATGGGTACTTGAGGTGGTATCTCCCTGTGTGGCTGCAGGTACTGTGTC
CAGTTCCAGTTGGGGTCCATTCCAGGGAGCTGCGGGCAGGCGAGGGCACCCCATGCCCAGTGGACAAGGTATYTGAGTCAGGGCCACACGGTCTGTGTGA
GGAGTGAATGGCCTGCCCAGGACACCAGGAGCCGGCGCTGCTACGGGGACGGTGGTGGGGCCAAAGGGTGAGCGACAGGACTCGGGCATGGGCAGGTGTG
GCTGTAGAGCCCAGGGCATCTCTGCTGCCTGAGATAGCACCCTGGGAGAGAGATGCTGCTCCCTGGCCAGGGCGGGGGCCAGCAGGGTCCCAATCCCAGG
GTCCAAAGAGACCAGCCAGTTAGGAGCCGGACTCCTGCCACTTCCGGTGGTGTAAACTTGGGCAAATCTCATCACCTCTCGGATCACTAAGTGCCTCATC
TGAAGATACAGATAATGAGAGGACTTCCCCATCGGTCAGGGGTGAGGGCTAAGTGAGATTGTGCAAGGTGAGGACCTAGGACAGTTTCTGACATCCAGAA
AGTATCCAAGAAAAGGGAGCTTGCATGGTCATTGAACCCTCACGAGTCCCTTAAAGGCCAGATTTGGTTACTCTCATTTTATAGATRGGCAAACCAACTC
AGAGAGGCAGTGTGACTTAGTCAAGGTCACACAGCAGGGTTTGACCCAGATTTGGCTTACATTATCCCTCTAGACTGCCTCCCGTGGGGTGAGGGTATCT
TGGAAAGCACTTCACACATACTAATTATAATACTGGCTTACATCGATTGAGCGCTTCCTATGAGTTGAGGATTATTCCAAGCTCTTTATATTCCTTCATT
CATTCAGTGTTGAGCATGTGCTAGGYACTGTTCTGGGCACTAGGGATTCTGCAGTGAAGAAAACAGCTGAGGTCCCTTCCCTTATGCAGACAGTAAGGTC
CCTTCCCTTMTGCTGGGAGGAGGCAGACATCGGGCAAATAAATCTATAATTTGTCAGATGGGAGATGAATGTTAGGAGAGAAAGCAGAGTAAGGATGATG
TCCTGGGGGTTGTTAATTTTTTTTTTCTTTTCTGGGTCTTGCCCTGTTGCCCAGGCTGAAGTGCAGTGGTGTAATCCCAGCTCACTGCAGCCTCAACCTC
CTGGGCTCAGGTGATCCTCTCACCTCAGCCTCCCGAGTAGCTGGGACTACAGGATGCRCCACCATGCTTGGCTAACTTTTGTATTTTTTGTAGAGACGGG
GTTTCACCATGTTACCTAGGCTGGTCTTGAACACCTTGGCTCAAGCGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTATGGGTGTGAGCCACCGT
GCCCAGCCATTATTTTTAAAAGCCTGATCAAGGAGGGTAACAGAAAGGAGGTGATATTTGGACGGAYACCCAAAGGAAATGAGGGAGGAGCCATGTGGAT
CTCTGGAGGAATAGCTTTCCAGGCAGAGGGACGGCGAGTGCAAARGCCCTGAGGTAGAGCGTGCCTGCTGCACTGAGGAGCAAGAGAGGCCATTGGGCAG
GAGCAGAGTGAGTGAGGGAGAGCGTAGAAGGAGGTGAAGTCACACTAACACACCGTATGCCAATGAAACATTGCAAGAATCTAACATGGATACTTTTAGG
ATCTCTGCTTTCCAGATGAGTTGACTGAGATACAAAGAGGTGCCCAAGGTCACATACCTAGCAAATGGCAGAAATGAGATTTGACCCTGAACTGCTCAGA
CCYCCAAGCCAAGCTCTAAACTCTAGTCTAGACTGTTTCTTACTGAACATGCTTTTCCGGTGCAGGGATTATCACACTGTTGGAATATGAGCTCTCTCTG
GGGTCTGTACAGGGAGTTCTACCATTTCCAAGGGTGTTAATTTCCTTCTTTTAAAAATTAAGCAGCCCTGATCACTGTAAACTTAGAACAGGGAATGCCA
AGGCCAGTTAGGGTGTTAGGGAGAAACGCATTTAGGCAGGAGGCATTGGATTACACAGATCTGGGTTCAGATTCCACCTCTGGCCCTGATTGGCTATGTG
ACTCTGGGCAAGGCCTGCACGTGACCCGGACAGTCACCACCACGTACGATTGTGGGGAGCACCCACAATTTTGCACAGCACCTGACCCCTTGTAGATACC
CACTAGTGGGGGCTGCTGTCATTATCTCTAATCTGCAGAATAGATATAATAAGACGTAGTTTGTGAAAATGAGATGTAATGGATGTGATGAACCTGGCAC
ATAGTAGGTTCCCAGTAAATACACGTCCAACAATATTATCACACTATAGGGTGGCCCTTCCTGCCAGCCTCCCTTCCAACCTCCCTCCCGCTTACTTGTC
CTAGACCTGAGATTCCACTGTTAGAGTTTCATTCTTTGGGATAGGCGCTCACTTTTTAGAGCTTCAGTTTATTCATCAATTTTTGGAAACACTTTCTAGT
CTTAAGACTCTGATTAATCCCAAATTTCTCTTTTTGGACACAAATACTCTGGGATGTGAAACATGGCACTTTGGCAAGGCTGAGATGTGGGTCCCAGGGG
CCACAGTACCCACCAGGAATGGGAAGGGACAGAAAGGAGAGCCAGGGCTGTGTCCGAGACAGGCATCTCTCCACACTCCCCACCTGGGGCCAGGCTGGCA
GAGCAGGTGACGGAAGGTCTCATGGGGGCATGAGCTCACCAGGAAGGACTGGCGGAGCAGGGGGATCCAAGAGAGGAGAGGCATGAGCCGTCAGCCGAAT
TCTTTCCACGGGCAGCTGTGAGAGCGGGCGTGCCAAGGGCATGGGCCTGGAGAGGGATTAGCCTATCAGTTGGGAATTTTTGGAGGGTTTATTTAGCTTA
AGAAGTATCCCTGAGTTTGGGTCAAGCATAAGGAACATCTGCCATGAGCCACTCACCTACTGCGTGCTGGGCACGCACCAAGCAGGTGCTTCACACGTGT
GTTCACAGTTAGGCCTTAGGGGCACTTTTAGACAAGGGACATGAACTCCATTTTATATAATGATGATGGCAATAATAATAGTAACTTTAAAATGTTATCA
TTTGTAAAACACTTATTATCTGCCACGTACTGGGCTTACAGGCTTACAACGGTGCCTGGTACCAYGTGGGAGGCGCTTAATCAGTGTTTTTTTTTTTTTT
TTCTATTTTTTTGATGGGGGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGACTCACTGCAACCTCCACCTCCTGGGTTCAAGCCATC
CTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGTGCATGCCACCATGCCGGGCTAATTTTTGTATTTTTGTAGCAACATGGTTCTGCCATGTTGCCC
AGGCTGGTCTGGAATTCCTGGGCTCAAGCGATCTGCCTGCCTTGGCTTAAAGTGTGGGGATTACAGGTGTGAGCCACTGCACCAGGCCCAGTGTTTGTCA
TTATTGATATTATTTTGCATTTTTACAAAAGATTTGGATTACACCTACAGAAAATTGGCTTTAAAATATATGAACAGGTTCACAAACATTTGGGAAGGTC
ACACACCTAGGTAGACACTGCCCAGGCAAGGAACAGAGCCTGGCCAGCCCCCGAGACCTGCACACGCCCCCTCCCTCAGTCCCTCCCTCCCCATAAAGGA
GGCCTCTGCCCTGACTTCTCTGGTGATCCATTGTGCGACATCCTTGCCAGCTTTAGGAACTCGATGTGGAGCCCTCAACACTATAGTTCCATTTCATTTC
GTTTTGTTTTGTTTCTTTCCAACTTTGCATCAGTGAAACCACGCAGGATGTGCTCTTTGGAATTCGACTGCCTTTGTTCCACATGAGGTTTCCAACGTTC
ATCCACGTGGTTGCACTTGYAGCATTAGCTGGTTCATTCTTGTTGCTGAAATAGTTAGCTATTACTATTATTATTTTGAGACAGAGTCTGGCTCTGTCGC
CCAGGTTGGAGTGCAGTGGCACGGATTCAGTTCACTGCAACCTCCACCTCCCAGATTCAAGAGATTCTTATGCCTCAGCCTCCTGAGTAACTGGGATTAC
AGGCAAGTGCCACTATGCCCAGCTAATTTTTGTATTTTTAGTAGAGGTGAGGTTTCACTATGTTGGCCAGGATGGTCTTGAACTCCTGACCTCAAGCAAT
CTATCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCAGTCAGTTAGCTATTATTATGATCATTTTTATTTTCTTTGCACAC
AGCATCTCAGATGACCTCCCCACCAACACCTCAGAGGGGCAAAGATTATTGATATCTCCATCTTCCACTGAGGAGAGAGAGGCTCCTAGGAGCCAGGTCC
CAAACGCCACCTGATTCCAGAGCCTGTGCTCTTAGCCACTCCGTGGTGTGGCCCCTCAACAGAGGAGGAAAAGGGGGCACAGAGCAGTTAAGCAACTTGC
CCAGCCTTGCCCAGCAGGGACGTGATCGAGCCACCTCCCCAGACCCTCAGAACTGACTCTGGAATGCCCTTGTGGCCTCTGAGGGTCGCTGGCTCTGTGG
CCATCCCCAGGGTGACTTACAAGGGCCCAGTSCCCATACACTTTTAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAAC
TGATGCTATAATAATAATAATAATAATAATAATAATAATAATAWWAWTAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCA
CAAGCTAGAGGGAGGGTCCCTGAAAGCAAACATCCCTGGAGCCCAGGAAAGCCATCATTCGACTGAGCCAGCCCCATCTCTTGCAGGAACAAGATGTGGC
TGTGGCAAGCGGCCAGCCATCCCCGGTGCCGAGGGACCTGGGAGAAGCTAGGGCAGCTCCGGCATTGTTCCTGCCCTGTGGTCCACAGCCTCGTCTTCAT
CTAGCGTCTGCACCCCCTAACCGTCTTTCCAAAGCCTCGGGGATGGCAGGGAAACTGCAGGGCTTGGGATCCCGCAGAACCAAAGAGTTGGGAGAAATCT
GCAATTTTGAGACTGAAGGAACAAGCCTTGTCGTTATGTTGACACTGAAAATAGCTTTATGCTTCCACTCAGTGCCAGCTGAGTCACGGTCCTACTGACA
TCTCCTGCCCATTCAGGGCTTCCCACATTTCATCTCCCAGACACACTCTCCTGGCCCTTGCCCTATTCTCCTTATTGTATACTTAATTTTTTAATGAACT
CTCTCCCTTCCCTTCCCTTTCCTTCCCTCTCTCTCTCTCTTTCTTTCTTTTCTCTTTTTTGGATGGAGTTTCACTCTTGTCACCCAGGTTGGAGTACAGT
GGGGTGATCTTAGCTCACTGCAACTTCCACCTCCCAGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGCACCACCAT
GCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATTTGACCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATGTGCCTAACTCGACCTC
CCAAAGTGCTGGGATTACCGGCATGAGCCACCGTGCGCAGCCCCTCCTTCCCTCCCTTGTCTCCCTCCCCCACTTCCCTCTCCCCCCCTTCTGTCTCCCC
GTTCCCCCCTTTCCCTATCCCCCTCCCCCCTCCCTCCCTCCCTCCCTCCCTTCCTCCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTT
CCCTCTTTCTTGACAGAATCTCCCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCTGCTTGCTACAACCTCGGCCTCCCAGGTTCAAGCGATTCT
GTCACTTCAGCCTCCCTAGTAGCTGGGACTACAGGTGCACACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAAATGGAGTTTCACCATGTTGGCT
AGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCATCTCGGCCTCCCAAAGTACTGGGATGACAGGTGTGAGTCACCATGCCCAGCCTTCTTTTCT
TTACTCAAATAAATTTATTTGAAAAGAAAACTACTTAAATATATGTTTAAAGAGGAAACATTTTATCACAATTATAAAATAAAATAAACAATAATAGCAA
ACATTTATTAAGCACCCGTAAGAGTGCCAAGCACTGTCTCAGCCTTTTATACATACTCACTCATTGGATTCTGAGTTAGATGCAATGATTATCCCCATTT
TACATGTGAGAAAACTGAGGTTCAGAGAGGTTTGGCCACTTTGCTGGAAGTTGCAGTTAGTGAGTGGCAGAGTGGGGATTCGAACTCAGGAGCTGCACCT
ACTGCTTAGGTTCCCTGCACAGTATATCAGCCTCATGAGGGCAGGGGTTTTGGTTTCTGTGTCCCTGGGCCTAAAATAGTGCCTGACACACAATAATGCT
CAATAAATACTTGTTGATAAAAACAAATGAATAAATGAATGATCAGTTGCTATACTAAGAAGACAATCAGGCTGGGCATGGTGGCTCACGCCTATGATCC
CAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCTAACATGGTGAAACTCCATCTCTACTAAAAATACAAA
AATGAGCCAGGCATGGTCGTGGGCACCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGAGAATTGCTTGAAACCCGGGAGATGGAGTTGCAGTGAGCCG
AGATGGCACCACCACTGCGCTCCAGCCTGGGTGACAGCATGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGACAATCAGAAAAATAAATACAA
TGGAAACCAGAGAAGTCCACTGTTGCCTGCTCAAGATGCTGAGCATGAAGCCTGTTCTCCTGATTCAGACAAGAAACCAGCCAGTGTGGAGTGATAGGAA
GAACACACTCATAGCCAATGGAGACTTGCTCCTTGACAAATTAGAAAAATTATACTGGAATCTTGGCACTTTGGGAGGCCTAGGTGGGAGGATTGCTTAA
GCCCAGGAGTTTGAGACCAGCCTGGGCAAAATGGCAAAACCCCATCTCTAAAAAAAAAAAAAAAGATACAAAAATTAGCTGGGTGTGGTAGTGGGTGCCT
GTAGTCTCAGCTACTCAGGGGGTTGAGGTGGGAGGATCACCTGAGCCTGCGAGGCAGAGGTTGCAGTGAGCCGAGATCGGGCCACTGCACTCCAGCCTGA
GCAACAGAGGGAAACCCTGTCTCAAAATAAATTAAAAAAAAAAAAAAGGCTTAAAAGGAGGCTAATTTTTTTCCTTTAGGAGTCAGTTGTTATAAACATT
TTTAACAGTGAATTCACATACCATGCCATTCACCCATTTAAAGTGTACAGTTCAATTCTTTTCAGTATATAGAAAAAATTGTACAACCATCACCACAGTC
CAATTTAGAGCATTTTTATCCTCCTCTGAAAGAAACCCTGTACTCGTTAGCAGCCTCTCCTTCCTCCGACCCCTCTAGCCCTCAGCAATCACTAATCTTT
TTCTGTCTTTATGGATTTGCCTATTCCGGACATTTCATATAAATGGAATCACACAATATGTGGTCTTTCGTGACTAGCTGCTTTCACTTGGCAGAATGTT
TTCAAGGTTCTCCCATCTTGTAGCCTGGATCAGTACTGGAGTCAGTTATTTAATGCTACATCCTGGGTTCGGGTAAAACGACCTAAAATGTGAGTCCCCC
GCTTCAGGAAGYGCCGCTGTAATGAATAAAGAACCTTTTGGGGGAATCATAGCTCAATCTCTTCCTGGTTCTAAGCGGGCAGGTTCAGGCTTCCCTGCGG
TGGGGTTGGAGCAGGAGGTTTATCTTTCAGCTGTCCTTGGGACTGGGCAGGAACTTGTTCAAATGTTACTGCTACTCTATCCTCCTTCCTAAATCAGGAC
TCTGGACGCTCCTGGGAATCACTGTCTGTTGCTGCTCTCTGGGAGTGTGAATGAATCACTGGGTGAGAATGTCAGTAGCACCTGTGTGTGCTGGTCTGGG
GCGAGAATCCTGGGCCAAGGGGCAGCGGAGGGGAGAAAGAAGCAGATGGCCACGAGGCCAGCAAGGGGCTGTCCGACTCRTACCCCACAGCCAGCATTCC
CTGCCTCTACCCGTACACTTGTTTTGGCTGCAGGAAGCTGTTTTAGGTGGAAATCATTTGATGTGTGTAGGTGCTGTCTTCCCAAACACACCGTGCTCGA
CAATTGCCCCAGCTCTGCAGGATAGACTTTTTGTAGCTCTTGGTAGCTACCCATTTTTTCAGCCTCTAAATAGTGGTGGTGCCTGTTTTAATCCTCTCAT
GGATCGTGTAAAGTAGGTGATCTTTTCCCCATTCACAGATGGGAAACTGAGCTTCAGGATAGTCACATGACTTGTYCAAGTTCTCATGATTAGGAAACGT
TGGAGCTGGGCTTTGAACTGGACTGCAAAGCTTGTGCTCTTGACGAAATAGGAAGGCAGAGGCTGTGGTGGGGAGCAGCTTGGTTATGGGTACCCAGAAG
GCAGAGCCGTTTCTTGCGTACCATAAAATGGGACATTTACCTTGGGTACTCCCTTTGGAGTGTGTTGCTGGAACTTGTGCAGGGACTTAGGGARTCTTCT
GGGGAAGAGGCCAGCAATGTGTTGGGGATGGAGACGAGGAGCACTCAGTGTTATGTTTTGGAGCCTTGTCCTACACCTGAGGACCTCCAAGTCTATCAGT
CAAGGCCCTTTGGGAAATGAGTGAAAGAACTCAACCAGCTCGAGCAAGGATAATTTATTGACTCATGTAAAGAAAATATCCAGGATAAGACTGCCTTCAG
GTATGGCTGGATCCAGGGGTTTAAAGGTTGAAGCCACTGCCTCACTTTCTTTTGGCCTTGCTCTCCTCTCTGTTGACTTTGTGCTTAGGTAGGCATCCTG
TGGTGGCACTAATGGCTGCCAGCAGCTCTAGGCTTTCTTCCTCCCCATTCTGCATCACAAAGCTGAAGACAGCATCTCACTTCCAATGGTCTCAGTCTCA
GCTACAGGTCTGGGGTTGCTGCTTATTGACCAGGCTCATCTCACACCCCTGGTTCATATTCCTGAATCAATGGGTSGGGGGAGGGTGGGGGAATGCACTG
TTTTGATTGGCCGGTGCTGGGTCAGGTGCATATCCTTGGAAGTGGAGGCATGGTCAGTCCTACTTGAACCACGTGAACCAAGAAGGAAAACTCGGGACCC
TTGTATCAGAAGCAATGGGAATGGATGCTGGGAATGTTTCAGGCCACAGACATCCTCCTCGTGGGTGGCAGAGAAGCCACCATTCATCTCTGTGGCTTTG
CTGCCAACTTGCCATGGGACCTTGAGCAAGCCACTTCCCTTCTCTGAGCCTCAGTTTCCTCATCTGAACAGCGATGATCTTTAAGGGCCCATACAGCCCT
GAACTTTTGAGGCCAACAGGGTTTGTCTAGCCAACAGCCTGGCATCCTAGCTTGACAGGTCCAAGCTAAGGCTTAGGAATGCATGGCCTTCAGAAACCCT
GGGGTCGAACCTGGGGCTGGGCGCCTGGCCTCTTGTTCTTGCCCATCCTGGCAGGGTACAGCCTGTGATGTGGGAGGGAAGGGTTCTGAGGAGGTTTCTT
TGCACATCCCCAGCATTCTCCGTCTATAATTGGCTCCAAATGAAATGATCTCATCCCTGAACACTGAGGAAGAAAGGGTGGGGGTGAAGCTGCTCGCTGG
CAGCATCTGACATAGTTTATGACTAACCCGCTTCCCTCCCGAGGCAGGGAGAGACGGTCCGCTCTCTCGAAGACAATGTACAATTTTGAAAAAAAAAATA
AAAAAGTCTTGGTAAATAGATTGASGAGGCTCCAGCCTCCTGGGCTTTTGGGAGGCCCAAGGCATTTTTCCCCTCTGCCCAAACCAGGTATCTTTTGCCC
ATTGCTCACAAGTCAACGTGACCCRTGCTATTACCATTCCCCAAACTTTTCACGTCAAACCCTGGCCGGGAAGGTGGTCAATGTAGCCAGTCCATCAAGC
GATTTGTCCCATATGGATTCTCAATTGAGTTTTGTGGCCGGCTGGAGCTTGTTTAAATGCCCATACATTAATTTTGAAAGATGAGCTCCTAATCAACTTT
TAAAAAGCTTGTCACAGCACCATCTGTTTGGCGTTTGTCACTATTGCATTACATAAGAGGAAAGACATTTTTAAAGAATGCGGCTACATTTAGTAATTGG
ATCGCCGGAGAGAAGCCAAACCGGGGCGGATGGCACCGTGATTCAGAAATGCCACGGGCCCTTCTCCGGGGTGTGGCGGCCTCCCCAAATTCCACGCGGT
CTTGGCAGAGACCTGAGTGCAGCCCAGCTTGGGAGACAGGCTTGGGGTGGCTTCTTTTCCTCTTGCCTTGGTCTTCCTCTTATTTTTTCCATTTGTTCTC
CCTCACCCCTTGCTACCCCAGTATTAGCAGTGACCAAGTGGCTTTACTTCCCTGAGTCCCAATTTCCTCATCTGGAAAATGGGATTCACAAGAGCACCAT
CTTGTGAGGTTTAAATGCATTAATGCCTACGGTGCCTGGCACGTGGTGAGTGCTTTATAAAGTGTTGCTATTTTATAAAGCTATGTCTGATGCATAGTAG
GTGCCAACACATGTTCATTTTCCTTCCTTTTYCCCTTCCCTTTATTTATTTATTTATTTAGAGACAGGGTCTTGCTCTGTTGCCTAGGCTGGAGCACAGT
GGTGCAATCTCAGCTCACTGCGGCCTTCACCTCCCAGGTTCAAGCAATTCTCCCACTTCAGCTCCCTGAGTAGCTGGAACTACAGGCATGCACCACCACA
CCTGACTAATTTTTTGTATTTTTTTTGGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAAGTGATCCATCAGCCTTGG
CTTCCCAAAGTGCTGGGATTACAGGCGTGGGCCACCGTGCCCGGCCCCTTCCTTCCATTTAATTCAACAAGTTCTTAGGAAGTGCCCACGTTTGAGGCAG
AGCTGGCATCATGCACATGCACAGCCATTTGCACAGGGCCCCACACTCACAAGAATGCTGAGCTTGGTTTAGCGTTCTGCTGTCGCTGGCTTGACATTCT
TAATTTTTGAACAAGGGGCCCTGCATTTTCATTTTGTACTGGACCCCACAAATTATGCAGCYGGTCTCATCTGGAGGTCTAGAATGATGCTATGTCTTAT
TTGACCGTCTGATATTTAAAATAACAATAGAGTCAACGTTTTAAAATCAGGAGAGTTCACACAACAGTCTGGCTTATTTTAGAAAATTAGAACATCTTGC
CACTGTGAGTCTGCATTCCCACACACTGCCACATGGGCTGGAGCTGGAGTCCTCTATACAGGCCACATCCGCCACTGTCCCCACCACTCCTGGAGGCTTT
GGACTGAGTCTCTTTGCTCATTTATAGAGCTTCCAGCATGGTAGCTGGGATCATGGGCTTTGCAGCCAGGTATGTGTTCAGCTTTTCTGTTAATCATCAC
AGTAACCTCTCTCTTAGGGTAGTAAGGATTAAACTAGTTAATATAGGCAAAGCATCTGGAATATGTTGCACTGTTATTGCTACTGTTCTGCTTTATCCTG
GTGCAGAAGCTCAGACCCCCAGTCTGAGGGCTGCCCCTCCGGGAGCTGGAAGCTGCGCCTGTGGCAGCTGGCTATGAAAGCGTCTCTTTCTGCTGTCCCA
CACAGCAGCCGTTGTCAATGTCCACTTTCTCTCCCTCCACCTGCAGCACCAGAGTTCACACCTTGGGCCCGCCCTCCTAGCATTATTTTGAGAAAAGGGC
CTTCTGTCCTGTAAATAGGCTGAGTCATCCCTGCCTCAGGGCCTTTGCACACGCTGCACTTGCTTCCTAGAATACTTCTTTTCCCATCGCTTTGCTTGGC
CATCTTCTCCTTTTGGTCTAGCTCAAATGGTACTTCCTCAGGGAGGCTTTTCCTGATCGCCTAAGAAAAGTAGCCCTGTTTTCTTTCCCCTGTCATACAC
ATTCGCCTATATTATTTTCTTCCCAGAACTGGTTTGTTGTGTATCTYCCAGAGGACCAGGTCTGCCTTGGTCACTGTGATATCCCTAGCACTTAGGCCAT
TGCCTGGCACATGGTAGATGTTTGATAATTATTTATTGAATGAATGAAGGAAGGAAGAAAAGAATTCATCAACTCCTCATGACCACCCTGTAAAGCAGGG
ACAAGAGACCTGAGTCATGGAGAAGAGAAGGGACTCCTCAAGGTYGCACAGCCCAGAAGGGGCAGAAAGGGTGATGAGGACCTAGGTTTTCTGCTTCTAC
ACCCCCTGTCCCCTCAACCCCCCAGGTGGGAAGCAGCAGAGACATTTGGATCTTTGGCTCGACCAGCCACCAAGAACGGGTCAAGTGTGCAGCAAGGCCC
AGAGCACAGCGTCTGAGRGTGGTGAGAGCGATTCACCCAGGCAGCCAGGAGGCGAGACTGTTTACAGGGGCTAGCGGCTGTCGCCATGACAACCGGACAG
CCTACAGCTTCCTGCGTCACCAGGGACGCAGGTTTGCTCTTGGCTGGGAAGCAGTGGGGACAATGGAGTGGGGGCTGGGAAATGGGGGGACCCTAAACAC
TCAGTCTTGGGGGGAGGCAGTTCTCATTTCTGGTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAAGCTGGAGTGCAGTGGTGCGATCTC
GACTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGTGCTACCATGCCCGGCTAATT
TTTGTAGTTGTAGTAGAGATGGGGTTTCACCATGTTGCCCAGGCTGGTCTGGAACTCTTGACCTCAAGTGATCTGACTAACTCAGCCTCCCAAAGTGCTG
GGATTACAGGTATTAGCCACCATGCCCGGCTGGGAGTTCTCATTTCTGAGAGTTGCTTGAAGGCTGGGAGGGCCTGGTGATGCTACCTAAGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTGTCTGGGCTGTGTGGAGCCAAGCTGCCTGGGTCTGAATCTCAGCTTTGCCTCTTCTGTGCC
GTGGCATTTTGGGCAAGTGAGTTAATCTCTCGGTGCCTTAGTTCCCTCTAATGTAAAATAAGGTGGACAGTAGTACCTCATAGGACTGTTATGAGGATTA
AATGAGATAATAGTCTCACGGCACTTACAATGCACCTTGCATTGTGCCTTAATTCTTGACATCAATCTACATCTGACTCTAGGTTGTCTTCTTGCTGGGG
TAGTGGGAAATTTGGTCTCAATCATCCTCAGGGATCCCTACTTCCCTGGCTTTTGTCATTCATTCAACAAATACTTATTGAGCACCTACTGCATGCCACG
TATTGTTCTAGAGGCTGAGACCACAGCAGTGAACAAAGCAAACAAAAATCCCTGGCAGAGTAGAGCTAACATTCTAGTAGGGATAGATAGACATTAAATA
TGACAAAAAGGAAAATAGATATTATATCAGATGACAATAAGAAGAAAAAGAAAGCAGGGCTGGAGGATTCCAACTGCAGGGGAGCTGTTGCAATTTTAGA
AAAATTGATGCATGGGGATGTGAGTGTGTCAGGGAAGGCCTCACTGAGAGAGTAACCTTTGAGTACAACTTGAAGAAGGTAAAAGAGGGAGTCACAGGTT
ATTTGCAAGAGCATTCCAGGCAGAGGGAACAGTAAGCGCAAAGGCCCTGAGGCAGGAGCATGAGCATGTATGTGACTGTATCATGTAGTCATATCTCTTG
GCAAGTCTGTGTGTGTGATGTTATGTGGCACACATTGGTGGCATATAGGTGGTTATGCCTGTCCACATGGGTGGCAATGCACATACATGTTTGTTCATGT
ACAGAGCTGCTGTGTTCAGTCACAGAGGCTGTGCCTGAACAATTCAGGGAGTGACATTCACACTGATTGCCATGAAATGGGACCCCCTGGTGTAGTGCAG
CGCAGTGGCCCCGAGCATATATATAAGGAAATCAATGTAAAATGTCTGTGAAAATGTTCACACGTGTATGTGTCCGGATATTTAAATATAACGATATGCA
AATATGTATATATGAATGTCTTTAAGATGTTGATATTTCATTCCTCATGGACTTTTGCTTCAGTATTGATTTTTAAAAAATATTGCATTAAGATATTATT
TCTCTTGATTACTCAGTTTTTGGGTGCATCTTACATTTGCATCAGAGGCAAGTGCCTCACTCTCTTAATGCTGGTCCTCGCCCTGCCTTGGAGTTGGGCA
ATGAATGTGCGGGAGGCAGGGATGAGGCAAGGGAAGCCTCTCCTTCTGGCTCCTTCCAGCATCTGGGCTCATCAGCACATGACTAGAATCCAAACCTAAT
CTGAACACATTTTGTTCCTTTAAAACAAGATTTATTGAGTGCTGACTGTGCGCCAGGGACTCTGCATACATTATTTTATTTTATCCTTACCACCATCTCT
GGGGGTAGATATTTGCTCATTCCATTGAACAGACATTTGCTTAGGGCCTACTATGTGCCAAGAGTATAAGCTGGCATTTGTGCTGGTCTGGCAGCCACTC
CTGATTTTTCTGGTAAAAGCACCCCAGTTTTCCTTTAGGGAACCTAGCCTCTTCCCTTTACTGTCCAAGTGGTTTCACCTGGGCTTTCTGTACCCCTCCC
TCAGACTCCAGGGGTGGGGGTGTGATCCAGGCGACCCAATCAGCATACTCCATCCCTTTTGCTCCAGAGATTAGTTATAGGACGAGTATCTAACCCAAGT
TGGTTCAATCAGAGTGAATCCTGGGATTTTTGCTGCCCTGTTGGGAAAAAGAGCTCTCTTTTCATCAGGATTTCTAGCTGTGAGAATTCTGTAACCCTGG
AATTCCCAGTGAGAGTCTACTACATGGAGAGAGAGAGAGAGAGGAAAAACTCATCCCTTATGACATCTTTAAAGCCCCTGGATCCAGCCACACCTGAAGT
CAGTTACCCTAAGATTTTTCAATTCTGTGAGTTTATACTTGTTTTTCTTTTTAAAAGCCAGTTTGAGAGGGAAGCTGAAATCCTGTGCTTGGCATCTTTG
TACATTATCTCCTTTAATTCAGAGATGAATCCCATGGGGAAGGGGCTCTGATTGTACAAGAACTGATCCTCAGGGAGGGAGGTGACTTATCCAAGGTCAC
AGCAGGTTGGTAGTTGGAGCTTGAATTCAAGCCCAGGTCTCTACTCCTGAGCCGTTCTGCCATTCCACATGGTCTGACCTCTGGACAAGAGGGTTTGTGT
GAGTATTAGTGACATAGACCCGAGTCCTGTTATGGCCACTGTTTTGCTCTGTGACCTTGATCAAGTCATTTCTCTAATATGAGCCTCAGTTTCCCATCTG
GAAAAATGGTAGTGCTTACCCCATCATGCTGTCGTGAGATGATCCATGAAAGTAAAGTACTCAGAACAGGGCTAGACATGCAGCAATGAACATAAACTAT
TATTACCATGGCTCTCTTTTTTTTTTTTTAGAAAATTTTTTTTTAAATTTCATAGGTTTTTGGGGAGTAGGTGGTATTTGGTTACATCTTTAGTGGTGAT
TTGTGAAATGTTGGTGCACCCATCACCCGAGTGGTATACACTTCACCAGAGCAGTATACACTGAACCCAATTTATAGCTTTCCATCCCTCACCCACTTCC
CACCTTGCCCCGCAAGTTCCCAAAGTTCATTGTATCATTCTTATGCCTTTGCATCCTCATAGCTTAGCTCCCACTTATGAGTGAGAACATAATGTTGGTT
TTCCATTCCTACCATGGCTCCCTCTTTGAGGGAAGAAAGGGGACCCAGGGGGCTCCCCGGCCACCCTGCTCCCATCCTCCCTGATGGCCACAGGCTCCCA
GCAGCCCTTGATGGCACCTTCATCCATCTTCTGCCAGACACACAGAACTGGCTCGCTTACCCGGGAAGCAGGCACTTAAGGAGGCGCTTCCCCGCTTTCT
CTTTTAATTTTCGTTACATAAATTTCACATTTCCTGGAATAGAGAGCTTGAATGTCTGGACTCATTTGGAAATCGAGTCAGCAAAGGGCCTCATTTATAT
TAATGGGGACTCGAGCCTGACTTGAGACGTGGCAGAGACAAGGATGGATGGCAGCAGCTCCTAGGCCCAGCCATCCAGGCTGAGCTCAGACACTGCCTTG
AGAAGCAGATGCCTCCAGATTTAGGCTGGGACTGTTCTCGTTGTGTGGGGAGCTCCTGGATGCAAGGGCGGTGTTGTCACCCCTCCCCCACTGAAACTTC
CCAATGGCTGCTCACTCTCTCAGAGGGAACTCCAGTCTGCTTATCCTGCTTGACAAGGGGCTGCGTGATGGACCCCTGCTAACCTCCCTGCTCCTGCCCA
CCACTCTCCTCCCTCATCCTTCTTCAGTCTGGCTGGCCTCCTGAGAGCATTCCTGCCTCAGGGCCTTTGCACTTGCCGTGCTCTCTGCCTGAAAGGTTGT
TCTCCTAGCTCATCCCGTGGCTAGCTCCTTCCATGGCTTGTCTCACAGACAGCACCTCAGGGAGGCCTTCCTTGATTGCCCATCTGGAGAAACACTCTCC
AGTTACTCTGTATCACACCCATTTCATTTTCTCCATCACACTGAGCAATAGTTTGTATTTTCTTGTTTACTTATTTGCCTATTTATTTATTGGCTGTCTT
TCCCATGAGAGTATAAACCCCATTAGAGCACAGACTACGTGTCTCCTTCAGCTTTGTCCCCCTAGGATCTGGCTCAGAGAGACAGATTTCTTAAGCACCT
TAATAAATATTTGTGGAATGAATGCCTGCACTCATTCAGCAAACCCTTTCTGAGTGCCTTCCTGGTGCCAGGCTCTATTCTGGGTGCTGGGAACACAGCT
AAGAAAAAGACAAGAGGCAGGGCACGGTGGCTCACGCCTGTAATCSCAGCAATTTGGGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTTGAGAC
CAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAGGATGSAAAAATTAGCCAGGTGTGGTGGCATGTGCCTGTAATCCCAGCTACTGAGGAGGCTGA
GGCACAAGAATTGCTTGAACCTGGGAGGTGAAGGTTACAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTAGGCAACACAGTGAGACTCTGTCTCAAT
TAAAAAAAAAACAAAAACAAGACAAGATTGTTGGCTGCATGGAACTCGTGGTCTGGCGCAGAGAGGAAAACACCATAGTAACGAACATTTATTGAGTGTG
ACAAGGATTTTACAAAGAGACATCACATTTAATCCTAACTACAGCCCTTGGAACTATTATTTGTACCAGTTCATGAGGCACAGAGAGGTGAAATAGCTTG
CTCAAGGCCATACAGTTAGAAAACAGAGGAGCCAAGATTGTGGCCAGGCCATCCGGCTCCCCACTCTGCTGGTTTAACAAGCTCACTGAAGCCACTGGGA
GTTAAAGCCTTGTGCTGTGAAACCTGTGATGGGGGAGGCTCTGAAGGCTGTGGGAGCCCAGAAAAAGCACCTGACCTATTAGGCTGGTGCAAAAGTAATT
GTGGTTCTTGCCATTGAAAGTGATGGCAAGAACTGCAATTGCTTTTCACAACCTAATAGCTTTTGATAGGAGAAAAGATGAGCAAAGCCTCCTGAAAGAT
GCAGTACCTTAGTTGTGTCTAGAATGTATTTATTTTTAACTTTACATTATAGCTTAAGAACTTTTAATATCTCCATGCTGTCCACAGTTAAAATTTTAAG
TAATGCATATTATTCCAGTGAGAGGCAGCACCATCCATCACTGTTGGGGAGTTTCATGCTTGCAATTTTGAGGTTCTCTTTAATGCTTTGAGGACCAACA
CCCTGGACTTACTGGAGTAATGTAGCGCTCAGGTTTCGGCTCCTCCCTTTACTTGGCTCTGAGGATTCTACATGCCTGGAACAAGGCACATCTCCAAAGT
CACTAACGTGGCTAGATAATGGATAACTAGAAGTGCCTGCCCCCTCCACCATCCTTGTCTTGATGCCAGGTGAGATCCAGGCTCCTCTGCCCCAAGAAGG
GCTGAGCTTACATTATCTCCAGCTCAGCAGGTCCTTGGAAATTAGGTTGTTTTAAGGAAATAAAGAAATGTGATATTTCAACAAGACACTAGGRACAGCG
GTTGCCTCTGCAGAGGGAAACTGGGTGGCCAAAGRATGGGGTAAGAGGGAAATTTTCGGGCCAGGCGCTGTGGCTCACACCTGTAATCCCAGCACTTTGG
GAGGCTGAGGYGAGTGGATCCCTTGAACTGAGTCCAGGAATTCGAGACCAGCCTGGACAACATGGCCAAACCCTGTCTCTACAAAAAAGCCCTTCAAAAT
TAGCTGGGTCTGGTGGTGCATGCCTGTAGTCCCAGCTACCTAGGAGGCTGAGCTTGGAGGATCACCTAAGCCTGAGAATTTGAGGCTCCAATGAGCTGTA
GTTGCACCACTGCACTCCAGCCTGGGTGACAGAGACCCTGTCTCAAAGAAAAAAAAAAAAAGGAGATTTTCTTTGCAGATCCTTTTATATCTTTCCCATT
GGGCACCACGTGAAATTATTACCGAGTTTAAAAAAAACTTTTTTTWAAAAAATGTAGAAGTTAATGTATTATTTCTGCATATCGGTCTGTGGACTAAGCT
TTATACGATGCATTCATTCTCTTTATTTACCTCAAATGTGGGAAGTAGCTATTATTGCCTCTTCCTGACAACAACAAAAAAAGCCTGAGGACTGGAGATG
GGCTGTGCCTTGCCCAAGGTCACATGGTGAATTAGTGCCAGAACTGAGACTCCACTGGGTGCAGTGGCCCACGCCTATAATCTCAGTACTTTGAGAGGCT
GAGGCAGGTAGATCGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAGACCCTGTTTCTACTAAAATAAAAAATACAACAGTTAGCTAGG
CATGGTGGTGTGCAATGTAGTCCCAGCTACTTGGGAAGCTGAGGCAGGAGAATCACATGAACCTGGGTGATGGAGGTTGCAGTGAGCCGAGATCGAGCCA
CTGCACTCCAGCCTGGGTGACACAGCGAGACTCTATCACAAACAAACAAACAAACAAACAAAGAATTGAGACTCTACTCCAGGCCTTCTAACCTGTCCAG
GGGGTCTCCACTTCTCCAGGTACCTCTTCCTTTACTGGCGGAAGCCATGCCGAGGTGTGGACAGAGGGGTGGTGATACCTCTGTAGTTATCACCTACAGT
AGGGTGGTCACACGTCACACTGGTGTTACACAATCTGGGCTCAAATCCTGGGGCTGTCCCTGGCCTGCTGCATGACCTTAGGTAAATCACAAAACCTCTT
GGGCCTTGGCTCTGTGATAGCTGGGCTCCAAGATGGCTCCAATGACTCTCACCTTCCAGCGCTCACTCTTTTGTGTGGCCCTCTTTGGCAGTGAATAGGG
CTGACCTGTGGGACCAACAGGGTATTTTGGAAGTGACAGTGTGTGTGACTTCCACAGCTAGATAATAAAGGATATTCTAACAATGGAATATTATTCAGCT
CCTGGGCTCAAGCTATCCTCCCACCTCAGCCTTCCAAGTAGCTGGGACTCCGGGCGTGTACCACCATGCCTGTCTAGTTTTATTTTTATTTTTGTAGAGA
CAGGGTCTCACTATGTTGCCCAGGTTGGTCTCAAACTCCTGGCCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCA
CTGTGCCTGGCGCCGGCTGATGTCTGTCTTGACTGCAACTTCACAAGAGAGTCTGTACAGGAACCGTCCAGCTAAGCCACTCTCAAATACCTGAGCCACA
GAAACTGTGTGAAATGTAAGTGACGATTGTTGTTTTAAGCTGCTAAGTGTTGGGATAATTTGTTACACAGCAATAGGTAATGAATACAGTTTTTCATCTG
TAAACTAAATATTGTGGTAATTTCACAGTGTCATTGATGATAATAATTTCATGATGACTCCTTTGATGATGACTTCATAGGTTGTATTTCATACGGTTGT
TGCTAAGAAATTAGCAAATGCTAATTAGTGCTTGGAGCAGTGTCTGGCACCCAGTAGATTCTGAGTAAATGTTAACTGGTTTGATTATATGTTCTTTGTT
ATTTCTGGCACTGTGAGATGCTGAGCCTGAACAATAGATTCCCCGCCCCCCTTTTTTTTCTGAGACAGAGTCTTGCTYTTGTCACCCAGGCTGGAGTGCA
ATGGCACAAACTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACATGCATGTGCCACCA
TGCCTGGCTAATTTTTGTATTATTAGTAGAGACGGGTTTCACCATGTTGGCCAGTCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCT
CCCAAAGTGCTGGGATTACAGGTGTGAGCCACAGCACCTGGCATAGATACCCATTAAGGAACATAGCTAGGCCCCAGGCTGCAGTGGGATAATAGAGATG
GTTAGGATGAGAGCTACCGCTATTGAACACTCACTCAATGCCTGTTCATAAGCACTTCATATCCTTCCATCGAAGCCTCAGCAGCAGCCCTTTGAGGTAG
ATGCTATTATTTCCCCATTTGACAGACTAGAAAATCAAGGTGCAGAGAGAGACAATGACTGGCCCTAAATCACACACCGAAGAAGTGGGGTAGCCAGGAT
CTGAACTCAGATGTTTCAGACCCCAAAGTTTCTATTCTGAACCACTAGGCTGAGCTGCAGCTTGGCTCCCCATCCCCCACGCCCACCCCTGACACAAAGC
TTATCTTTTCCCTTTACCAATTTCCTGCTTATTAGTACAGAGTTAATTGCCCACACATCTGAGTGCAATCATTAGTTCATTCACCTCCTATCTGCAGAAT
GTCAAACTCCTTTGCACTCGGGAGACTGGAGAGTAGATTCCTTTAGAAGTTTGTTCTTGTGATTCACGTTCCCTCTCCCAGGCTATCCCCTTCAATAGCT
AGGATTGGGAATAAGAATGCACACATGTACAGAAAAGCACAGAAACATCTGCCCTGCCTTAGTTCCCTACAGGGTCTCATCAGAGGTGGTTTCATTAGCC
CCAACCCTTTGCAGCCTGGCACCTTCAGACATGCCACCAGCTGGCTCTCCTAATATTTGCTGTGGGGCCATGTGATCATCAGGAGGGATAGGTCCTCAAA
CAGGCGATGAGCTCAGGACATGGGCATTGCCACACCTGTTCCTCTCCCCAAGGAGGGGGGAAAGCTGTGCAGTCACAGACAACGTGGCCTTTTATAAGCT
TGAATGTGATGTGCATACTTGTGCATGGGCAGGAGAGCAGACAGGGACCAAGCCAAGGCTGACAGGGATCAGAGGGAAGGACAGGGGTGTTTGCGGGTGC
CTGCAATGTGGCAGTGGCTGAGCTGGGCCTGTGTGCCTGTACACCATTGTGTTTCAGATATTTTTGACTGTCAAGTTGCAGGAAGAAGTATATTTTGCAG
CATGACCTGTAACACACACACATGCACACACAATTGACATGAAAGTTTCATGAATCTGTACTTACCTTTTATGAGCAATSCATGCTGACTTTGATTCGAT
TCTAGTTTATTCTACTCCAGTCTATTTTATTCTTTCATTACAAAATTGCTAGTCATGACCCATGAAATATGTCAAAACCCCCAAATGCAGGAGTTCATAA
TCTGGGTCTACAAACTTGTATAGAACAAAACGATATAATTTTATTTTCACTGACCTCTAGTTGAAATACAGCACTTCCTTTAGGTATGAATATAGGCAAC
AAATCATAGTAATATGTTTCATAGTAATTATGTTTCACACACAKAAAAATCACAGGCTGGGAGTGGTGGCATGCACCTGCAGTCCCAGCTACTCAGGAGG
CTGAGGTGGGAGGATCGTTTGAGCCCAGGAGTTCAAGGCTGCAGTGAACTATGATCACGCCATTGCACTTCAGCTGGAGCGACAGAGTAAGATCTTGTCT
CTAGAAGAAAAATCACAGATTGTTTTGTATCTCGTTATGTTTGTTGCAGATGTCTCAAAATAACATTTATGATCTTCACTACCTCAAAATTGTGGTCGTT
ACTAATTGCTGGAACTTTTTATTTATTTGAGACAGGGTCTCGCTGTGTCATCCAGGCTGGAGTTCAGTGGCTCAGTCATAGCTCATTGGAGCCTTGAATT
CCTGGCCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCACCAGGCCTGGCCCGATCTTGTTATTTAATTTGTTAATA
AAGAAGCACTTGTATTACTACATCACACATCTAAAATATTTTGAAAATTGCATTTCAGTAGGTTTCCTTTGTAAACCTATGTATTTGGCTAAGTGCAGTG
GCTCACACCCATAATCCCAGCACTTGGGAGGCCGAGGCAGGAAAATTGCTTGAGGCCAGGAGTTCGGAGAGCAGCTTGGGCAACATAGTGAGACCCTGTT
TCTACAAAATTGATAAGAGACCCCGTCTTTTAAAAAATAACTGGGTGTGGTGGCAAGCCCCTGTAGTCCCTGCTACCTGGGAGGCTGAGGTGGGAGGATC
ACTTGACCAGAAAGACTGAGACTGCAGTGAGCCGTGATCATGCCACTGCATTCCTGCCTAGGTGACAGAGTGAGACCCTGTCTCTTTAAAAAAAAAAAAA
GAAAAAAAAAGGAGCGTGAGGAAAAAAAACCCTTATGTATTGGCATTTAAATATTATTCTGAGTCTGAGAAGGGGGTCTGTGGGTTTCACTGGATTTGTG
AGAGGGTCCATGGCACACAGAGTTTGAGAGCTGCTGCCCCAGTGRGTCCTGATACACAGTTCATGAAACGCTACCCCATGCTGAAAGCTCTTGGGGGGCA
GAGCTCCGGAGTCTTGAACCTCGAGCCCAGCATGGAAATCACATCGGTGGCCAATGTTTCCATAGCACATATGGTGCCAGCCTCTGTACGAGGCCCTTCA
CATGGATTATTTCTTTTAATCTTTACACCAACTCTTGTGTGAGGGGTACTATTCTTAGCCCCATGTCTCTGTCTCTTTACCCTACTTCATTTTTCTTCTT
AGCACCAGAAGTGTCATATATTTTTATCTGTTTATTGGCAGCCTCCCCCACTGGGATGTGTGTCTCTTGAAGGCAGGAATTTGCTTTGCTGAGTGCTTCA
TCTCCAAAATATCAAAATATGCAAGACTTAAGGGGGTACCAAAAACTCAGGAATCATGCCATGTCACATATCATGTTCACACACACACCCACAACCTCAG
AAATCGAAATAAGGAACATTTTACTGCCTTTTTTTTTCTGGGACAGGGTCTCGATCTGTCACCCATGCTGAAGTGCAGTGGTGTGATCATGGCTCACTGC
AGCCTTGAACTCCTAGGCTCAAAAGATCCTCTTGCCTCAGCCTCCCAAGTAGCTGAGACTACAGGCACACGCCACCACACCTGGCTAATTTTTTTTTTTG
AGACAACAGTCTCACTCTTTCACCAGGCTGGAGTACAGTGGCGCGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAG
CCTCCCGAGTAGCTGGGACTACAGGCGTGCACCACTACGTCCAGCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGATGGCCG
CAATCTCTTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGAATTACAGGCGTGAGACACTGCGCCCAGCCTAATTTTTGTATTTCTTATAG
AGATGGGATTTCACCACGTTGCCCAGGCTGGTCTTGGCAACTCCTGGGCTCAAGTGATCCCCTTGCTTTGGCCTCCAAAGTGTTGGGATTATAGGCATGA
GCCACTGTACCCTGTCTGTAATATTTAAAAAAATAAAAAATAATGCCCCAAACCCATAAACAAAATATCAACATTTCAAGTAAAGATAGGATCCAACCTC
CTGCATGTGTACATTACTGCCTGGATCTCCTTATCCTGTTACTGGTCCTGAGGGGCTTAAAACCTAACGGTTGCTAAAGTGAATTAGTCTCATTTTGCAG
ATGGGGACATTGAAGCAAGGATGCTAAAGACCCCCTCGGTGCCAATAGCCAGTAAGTGGAGCAGTTAGGATTTTGAACTCAGGCAATTGAGTTCCAGCCC
CATCTTTCTTAAACCCTGCACAGCCAGCCTCATGAATTATCATGCTTGATCTTTTTGGTAGAGGCAGTAAACTGGTAAAATCAGATAGGTTTGAGTTAAA
ACCCCAGTTTTGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTTGAGATTAGC
CTGGCCAACATGGCGAAATCCCATCTCTACTAAAAGTACAAAAATTAGCTGGGCATGATGGCGCATGCCTGTAATCCCAGCTACTGAGGCAGGAGAATTG
CTTGAATCCGGGAGGCGGAGATTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCTTGGGCAACAGAGCGGGACTCTGTCTCAAAAAAAAAAAAAAAA
AAAAATTCAATTTTGCCCCTTCCTAGCTGGGTGATCTTGGGCCAGTCATCTCAATGCTCTGTACACAGATTAAAGAGGGCAGAGGGGACTGGAAGGGGAT
CAGAATGTGGCTACTTCATTAGGTGGGTCCACTGTGGGTGTGTCTGAGAAAGAGTGGGGAGACCGGGATGTTAGAGCAGGCACCCTTGGGTGAGAGCTGT
GGGAGATGAAATAGAGAAGCATGCAGGAGCCAGTGGATGTAAGTATTTGCAGACCAAGCCAGGGACTTTGGACTTTATTTAACACGTAACAGAAAGCCTT
TGGAAGGTTTTGATGGCAAAGTGACATGATCAGACTGACAGCTTGACAGGACCCCTCTGGCCATTATGTTGAGAAGAACCTGAAAGATCAAGGGCAGAAA
TAGGGAAGCTGGTCTGGACGTGGTACAATATGAAGGCAATAAACAATGGTGGCCTGGCCCCAAGCTGCAGCAGTGGAGGAGCAAGAAATGCAGATCCCAG
ATCTATTTTGAAGGCAGAGCCCAGAGGAACGGCTGACAAGCCATTCATTTCAGCACTGTTTGTTATAGCAAAAGTTGAAAGCAACTTGAACGTTCAGGAG
TAGGAGACTGGCAATTACCATGTATAATAGAACACAACATAGGCTTATGAAAGAATGAGGAGGCTCTTCGTGTATTAATACAGAATGATTTCCAAGATAC
ATTAAATGAAAAAAGCAAGATGCAGAGCAGTGTATATGGCACTCTTACTATTTGTATGGGGTAAAATAAAACAAAGCAAAACAAAACAACACACGCACGC
TACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGCAAAAATGATCTCTGGAAGGATACGTGAGAAACTGGCGGCCTCTAGGGACAGG
GGGACAGGGGTCCAGGGGTATAAGGGAAATTTCACTTTTCATTGCATCTTTTGGATTTGAGATTTTGTGCCTCTTCTCAACTGGAGGTGATGTCCCCCAG
GGGACATCTAGCAATTTCTGGAGACATTTTTGGTTGTTGCAACTGGGGGGAGGTATTACTGGCATCTGGTGAGTAGAGGTCAGAGATGTTGCTAAACACC
CTGCAGTGCCCAGGGCAGACCCCACAACAGAGCAAGAGCTGGCCCTAAATGTCAGTAGTGCTGAATTTGAGAAGGTTTGATCTATTAAAAAACATAATAA
GGCTGGGTGTGTTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGAGCAAGGCGGGTGGATCACCTGAGGCCGGGAGTTTGAGACCAGCCTGGCCAACAT
GGTGAAACCCCCTCTCTACCAAAAATACAAAAATTAGCCAGGTGTGGTGGCGGGTGCTTGTAATCCCAGCTACAGGAGGCAGGAGAATTGCTTGAACCTG
GGAGACAGAGATTGCAGTGAGCCGAGACCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAAACTCAGTCTCAAGAAAGAAAGAAGAAAGAAAGAAAG
AGAGAGAGAGAGCAAGAGAGAGAGAGAGAGAAAGAGAGAGAGAGAGAAAGAGAGAAAGAAAGAAAGAATAGAAGTTTTTTTTTTTTCAGGATGGTCTTTA
TTCTGAGGTTGTATATTTTATGGGTTTGATATATCCTTTGTTTTACTAAGATAATATATAGTACATGATAGTCATTTTTTCCACATCTTTACTTGGCAAA
ATAAAATGTCAGCAAGCCTTATACACTTCTCTAAGCTGAATAAAAAATTATCCGGGCATGGTGGTAGGTACTTGTAGTCCCAGCTACTTGGAAGGCTGAG
GCAAAAGGGTGGCTTGTGTCCAGGATTTCGAGGCTGCAGTGAGCTAAGACTGCACCACTGTTCCCCAGCCTGGGTGTCAGAGTGAGACCACATCTCTAGA
CAAATAAGAATAAWTTTTTTTTTTTTACTGGGCTATGAAATCCTAAAGTCTGGAAACTACCCTTTTCACTCAATGGGCTTTTGAAAGGTAATGATTTTAA
AATATGTCCACAAAATATTTGATCCTTTTTCCCCAAGAGGTAGAATTACCTCTCTCTAAGTGTGAACCAGATTTGGTGACTCACTGCTAACAAATAGAAT
TTGGTGCGAGTGATGGTTTCTGATTTCTGAGACTAGGCCACAAGAYGCATTGTGCCTTTCTCCTTACCCCTCTCTCTTGGACCACTGCCCCTGGGGGATG
CCAGCTTCCATGCTGTGAGGATATTCAAGAGCCCTATGGAGAAGTCCACATGGTGAGCAACTGAGGCCTCCTGCCAACAGCCAGTAAGGAACTGAGGCCT
CCTCAGCCAACTTAGAGGCAGGTCTTCCATCCCAGTCAAGCAGAGGACTGCAGCTGGTGTCTTGATTGCAACCTTGTGAGAGACCCCTAGCCAGAACCAC
TCAGCTAAAGATGCTCCTGAATTCCTGACCCACAAAAACCATGAGATAATAAATGGTTCAACTTGCTAGAGTTTGGGGGGTAATTTGTTACACAGCAGTA
GATAAATACAGAAGGCTGGGCACAGTGGCTCATGCCTGTAATCTCTGTACTTTGAGAGGCTGAGGTGGGTGTATCACTTGAGGCCAGGAGTTCAAGACCA
GCCTGGCCAACATGGCAAAACCCTGTCTCTATTAAAAAATACAAAAAATTAGCCAGGTGTGGTGGCACATGCCTGTAATCCTAGCTACTCTGGAGGCTGA
GTCACGAGAATTGCTTGAACTCGGCAGGTGGAGGCTGCAGCGAGCAGAGATTGTGCCACTGCACTCCATCCTGGGCAACAGAGTGAGACTATGTTTCAAA
AACAACAACAAAAAACCTCCCAAAAACAAATATAGAAATCTTTGAGCCCTATCAGTAAGGCAGAGATCACAGAAAGGTAGCCTATGGGCTCTGGTCTGCC
TACAGATATATTTCCTTTGGCCAGTACAGGACTACAAAAAATGGAATTAATCACTAATGTTTATTTATTTTTATTTTTTATTTATTTTATCTTTTAGCAG
AGACAGGATTTCATCATGCTGGCCAGGTTGGTCTCGAACTCCGCCTTGGCCTCCCAAAGTCCTGGGATTTCAGTTGTGAGCCACATGCCCAGCCATAGTT
GCTAACATTTAAAAGTTGGGTATTTCCTTTAAAAATCCAGATTTCTGACTTCTCTTAGAAAGATCTAATATTGCTGGGCCCACATCCCTATGGGGTAACA
ACCAGCTGGAGATGAATGGTGTTCACCCCTTTAGACAGGGTGTGTGTTCTGTTTTTTATCACACTCACCACCACCCCCTTAAGTCTCTTAGTTAAGTTGC
TTTACTCATTTATGTTACCTGCTCTGCCCCAGTAGTCATTTGAGCTTATGCCTTCTATTGTGAGACAGTTTTTAATGAGATGCCCAGGCATAGTTGACAT
GAGAACTAAATGACCAGAGTTGGAACTTTGATTCATGAATATCATGTAGGATGGGTTACCACTGGGTTGCATAGTGGGGGTGAAAAGCCAGTTATATTTT
CATGTCCTCCCTCTTCTGGGGGGAAGAGAGAAAGCTGATGCCGCCTGGAGACAGGATTCCTGATTCAAGTCCCCTTACAGCGCTTCCCATCTCGCCTCCC
TGTGCCCTCCAAAAAATAAACTCCTCCAGGCTTGTTTTTTCCATACCTTTTATTGAACTCTGCAGACTTCATTAAGGGACCATTTGCTTAGAAATTCTTA
AACATTTGGACATATTTTACAAGACAAGACAGCAGCTGGAGGTCACACAAAGATCACAATTTCATCTCACCACATGCATAAAAAGACACTGGGATTTGTG
TGTGTGTGTGTGTGTGTGTGTGYGCGTGTGTGTTGCGCACATGCGCAATGCTTATTTTCACCTTTACAGGAAGGACTAGAGACATTAACTGACGAGAGAT
GAATAGGACCCACGAATGCACCCCCGAGAAAAGAGTGGCTGAGGACATTGGTCATTTATGGCTAATGTGATTGGCTTGGCCCCTGTCAAGGGTGAGGTGA
TCAGAATGGCTTTACTGGCAGAAAAGCCCCAACCTCACACGACGGGTTCCTGGGAGAGACAGGGTCTTAGCTGATGGGATCTGGGGGCATACTATCATGA
CGGCTTTGGGGCTCAGAAAAAAAGATCTTCGGCTCTAAAAGCTGGAGGGCAGGCTGGCCTTAATATCCAGCTGGACTCCCATGGCTCAGGGAAYGCAATC
CAGTTTCCAGATGTTGGCTCCTATGTTTCTGCCCCAGGAAGTCCCAGACCAAAGGAAGTCCCAACTTCGAACCCTTGGCTTAGTCCATTGGAAAACCACT
TGGTGGTCCCCCCCATGGGTCGTGTGTGAGCTAAAATAGAACATGAGGCTGAGAAATGCAGGGTAGGGGAAGAGGAAGGAGGGCAGAGCTGCTCTGTGGG
CCCCCAGGAAGTGTGGCTCTGAGAGRGCTGTGGCCCTTATCAGCTTGGGGCCTACAAGCATCAAATTGAGATGTCATCTTGAGTCAAAGAAAGATGACCT
TGATGGGGCAGTTATGGGTTTCAGTGGGAGAGGGGCTCCTCATTTTTCTTCTCTTCACAGTTAGGTAGGGATTCATTAACTCCCCCATTCACTCACACAT
TCACGCATCCAGTCATCCACTCAGAGGCCAACCAGTCACACATTCACTCACTCACAAAAACACAGGTTGGATGACCATCATGTGCCAGCGGCATAGGTTG
GGGATAACCCTGAGTTCCTGGTGCAGAAAATAAGATTCTCAGTTTTTGACCTTGGATTGAGAAGGACCTATGAAATCAAGATAGACCTGGAGAATCCTCC
CTGTCCCCACCCACTCAGGCACACTCAGCTCAACCAAGAGGGAGGCCCAAACCCCAGTGAAGCCCAAGGGGCAGAGCCAAGCTGTGGATATGTCAGAGTT
TCTTGGGCATCTTCTCTGCTGCCTGCCTCTTTCCAATCTTGGTTCAGATCAGGGAAGCAGGAAGTATGGGAAGATCCCTGCATGGCCCCTTGAGGGCATC
CTAATGGGACGGAATTGGGAGTTTCTTATATTTTCATGAAATATCCTATTTTTGTCTCCTTGTGTTGTTGCAACTTGAGTGATTCTGCAGGGCAGAGCCT
CCAGTGAGGAGTTGGGAGGAATCTTGAAAACTGGTTTTTATTTTATTTTGGTTTCAGAGGAAGGCGGCTGCTCATTCTACCCATCCAAACATATCATCCT
GCCCAACCTCATACTAAAACAACCAAAGACAAACCAGTCTTCGGTTCACCCTGAGGTTGAAGTCTCACTTTCTCCCAATCCACCATACATAAACCCTCTC
TTGTCAAATGCTTTCCTTAGAGAATGCAGTATGCAGGATGATTTGRGATGGAGGCCACAGCTGCAGGAGAGTGGCATTCTGCTTGGAGGCAGCCAAGAGC
CTGGTTTTGCTGTGAAACTGGATTAAAAGCTGCCTTTCTCTTTTGACCCTTCTGGATTTTTTTCATTGACGGGGACTTTCAAAGGTCTTGAGTGGGGTCT
CTTATTTGATTTACCAAAAAAACAAGCCCTTTTGGAATGGAGCCATTTGCTATTGCCTGGGAAGTTGTTCATTGTGGGGATGGCTAGTGGGGAACAGATA
TCATTGCATCTTTTATACAGAAAGCCCCAGGCTCATGAGGGCACAGGAGCTGGGCGGAGGGGCTGAAGCACCATAAGACAGCCAGCCAGGGATGGGGGAC
AGCGTGGATTGCTCCTTGGCTGGCCTGGGGAAGGGTAGCATGAGTCTCATCCCAATGTGGTGCCTGGTAGGCCACTGGGGATGGGTTGGATTGGTGACTG
ACAGTCATTAAAATGTTCCAAGACGGAGCCGGAAGGAAGCAGACTTGTCTCTTGGACACCCCCTCTGAGAGCTCCAAAGCCCAGAAGTTGCATTCCTGCT
AATTGTGCTGCATGCCTTTGCCTCAGTGGCTTGAGCTTATATCCAGAGTGTTGAAACCACCTACACACACACACACACACACACACACACACACACACAC
ACACACTCCAAGAAACAAAGAGGAATTTCTGTGGTTGTTCAGCCCAGTTTCCATGCAATGCTAGGGCCCCTCTGCAATGCCCATTTTTTACACCATCTAG
CCAGCCTCTCTTTAAACACCTGTGATATAAGGGAGCTCACTGTCCACCATGGCATTGAGCTCCATGGTCAGACAACCCAGCCTGTTAGGAGGGCTTCCTT
AATTTGAGCTGCAATTGACCCCATCCCTTTCATACAATAGAAATTTTCGGAGAACTTGCATACAGCCAGCTGGCAGCTAAGTTTTTTTCTTCAGGTGCAC
TGCCCCACTCCACCCCATCCTGGCCAGCCTTTAGGAGATCTTTTCAGGATCTTTGGAGGGAGGAACAGAGAATTAGGTTTATAAGTGAAGATGAGGGTTC
CCTCGATTAACAGAGCCCTACCCAAATTCAAGTTGGCATTTGGGGTAGTTCAGGAGAAATTCTAGGTTAAGATAAAATCAGGGAGAGTGGATGGAAATGC
AAACTATATAACCTCTTTCTTGATGAAAACAGCAACAGCCATAGGCAACAGTGTTTGCTTATCTGGGCATCAAACCCAGGAAACTACTGGCAGACTTTTT
TTTGTTTTGTTTTTTTGCTTTTGTGCAGAGGAAAAAAAAATCTTGTCTGTTTTATTTGACTCTGGTTCAAACCAGACTATCAGAGGTTTTCGGGGTGGGA
GAACTCTGATCAGGGTCATAGTCCAGAATAATAAAATTCATATTTGAGTTGGCTTCCTCTTGGGAGTTATCTGATGGGATGGCTCACTGCCATCTGAGGG
TCCCAGTTTGGCTCAAATTTCTGATTCTAGGCAGAGCCCCAAGCCCTGCAGCTGACAGTGAGGTGGGTGGTATACCAAAACCTAAACGAATGCAAGTTGG
AGATTATCTGGGCTTTCTTCATCTTCCTGCATGAGTTGACGGATGGAGAATCACTTTCTGCTGAAGATCCTGCCTAGTGAGATGTCCTCCGCCCACCCAG
GACTGAAAACTGCCTCTGGAATTAATTATCAGGACAGTCCAAAAACTCCCCCAGGCGTGGATAGGTGGAAGCTGGAAAACTGCCCCTGTCCTTGCCACAC
ACCTCCTGCTCTATGGAGCCAGGCAGCTGGCAAGGGAAGGGGAGATGAGCTAGCAGATTCGGGGACATCTCTTCTCAGGGTTTGGCTGCAAGGGTGTCTG
GCCACTGTTTTTTGGTGAAGCTGTTAGAAATGGATTGAAATGGACTGGGTGCAGTGGTGGCTCACACCTGTAATCCTAGCACTGGGAGGCCGAGGCAGGC
AGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGAGAAACTCTGCCTCTACTAAAAATACAAAAATTAGCTGGGCGTGATGGTGCGCTC
TTGTAATCCCAGTTACTCAGGAGGCTGAGACATGAGAATCACTTGAACCTGGGTGGAGGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTGCAGCCT
GGGCAACAGAGCAAGACTTTGTCTCAAAATAATAATAACAAAAAAATAAATAAATAAACAGATCGAAACAAGGAACTGATAAACAAGTTGGTGAGATCGG
AGGCCCAGCATGTTCTTGTGAGGTTCACGAGAACCTGAAAAACCTCTGACCTTCAGCTCTGATTGATGTTACAGGCCGACAGGGTGCTGGACATGTGGGA
GCAGCCCAGCCAGGAGGGACTCACATGTGTTCTGGATCTCAGAAATGCCAGTGATGAGTTTGCTTGCATGAGATTTTTGGTTCCAAGATCTCTGGGGATG
AGAAAACTCAGTCCCTTCAGATCCCTAAAGGGGTGTGGGATATAAGTGAAACCAGCCCACATCCCATCCTGATTTTGAGGGCCATCTGTAGCTCTGCTTC
CCTGGGTCTCATTCCTGCATTCATGCCCTGGATTCTTAAGAACAACGAATGGGAGAAACACACAGAAATGAATGAGGAAAGTCACAGCATTGACAGAGTC
CAGGCCTAGTGTCAAGAAATGCCTACACAAGGAAGTCAAACCCCAAAGTCTTTCCCCACCCTCAAGAAATCAGAATCAAAAGGAAGAAAACCCAAACAGC
CCAAGGGACAATGGTAGGAACTGCAAAAGACCAGAAAACATCAGCTACGATAATGACCAACAATGAAACTCCTAAGATATTGTTCTGTATTACAAAAGAA
GAAATTAGACTCAATTGCCCTATTATAAATTTGCTAAAAATACATATATATATATATTTTATCTGAACAGAAAAATAGACTACTCTGAGATGCGTGGACA
TTCTATGACATAGTCGCGCATCAGATACTTCTAGAGCCAGAAAAATGGCAACAGAAAATGCAGAGGTAACTCTTATTTCTGGGTGTAGCCAGGACTGGTT
TGGGTTGCCTGGGCTGAGTGACATGAAAGCATTTGGATGCTGTCCTATAAGCAGTGATAGGTGAGGAAACATCAGCTCGGGGCTGGAAGCTTTCCATTGT
CCTGCCGGGGTCTCAGGGGAGCCCCTTCTCCCTCCTGCCCACTCTGCAGCTACAGAAAAAGTCCTTTCCCAAAGAAGCATGTCCGGAGGCTTTTTGCCTT
GCTCTCTTTTGATTCAAAGTTACTTGAATTGAGGCTGAAAAAAAGCCTGGGGTATTGTTACTTGAGATTAGTTGGTAGAGAAATAAGAATAGGAGAGAGA
TTAGCGATAGAGACCTGGCTTTAGTGGCTCTTGTCCGTGGTGAATTTTAAATATCCCCTTGTCCATGGAACTAGACACTCCAGCTGGGACTGGAGCAAGA
CAGAAATATACAATAGTTACAAATATCAACAATACATTACAGTTTTACAGAAGAGAATACTGTTTTGTTTTTCTCCTTAGAAACATGGATCTTATTAGGA
GAAAGGGCAGAGACGAGGCTACAGTTACCAAGACACATGGAGAAGCTGGAAGTCAGTTTGAAAAAGTTTGTATCACCAGCAGTTTTCAGGGGCAAGCTGG
GTGGGTTAAAAGAAATGGCCTCCTCAGGATTTTGTTGTTTTTCCTTCTTACTCTTCTTCCTTCTTGATCCCCAGTCCTTTGGAGAAAGGGACTTCACGGG
AACAAATGTTCTCTCCTCCTTTTTTCTTTCCCCTTGAAGTGTGCTTAAGATAGAATTCCTAAAGAAGGCACTGAGAAATCTACTGCACCAAAGTCCTGTT
GGTTTCTTTTACCCAAAGATAAAAAGGTGAATATACTGTCTCCTCCAAAGCTTCCCCACCTCTCTCACCGCCGGTGGCAGACTCTCCCCCRTGTGATTGG
GACACATGGCTACCTGGTCCCTAGCCCTTTCAGATAATTGTGGAAGTTGGAATGCAAGTTCAGCTGGGTTCTTGATGAGTTTCAGTGAATTTGCCAAACT
GACCAGCATCCATTCGCCGCGTCCAGCCCCTAGTTTGCTTGTTTGGGTTGACTTGTTTCTTTCTGCTCTCATTGGTTCAGGAATGAATGGGAAATGGACC
ACCAAGTTAAAGCAGGATTTGCCTTCAGACCATTGCTTTCCTCTTCTCTTCTCTATCAAGACCTTTCTATCGAGTGAACTTCTCAGTGAAGACTCTTAAG
TAGATTTCCCAGTGCATGTATATTCACGTACATAGGTACAGGTTGGGTGTATACATATTAAAATTTGGATATGTTCTTTTTTAGCGGGTGGATGGGCTGG
GAAAACTTATAATACTCTCTTTCGAATTGAGCACAGAATAAAAGCTATACTCCCCCAGTACATACACACACAAGTAAAAGAAAAAAAAACCCAATCAAAC
CCAAACAAAATACTTTCTAAGCATAGTATATGCTGAATTTCAATTATTCTGTTTCTATAAGAACTCTATAGGACTCTGGCTATGAAGCCTGAAAAGGTAG
GTTCTTAATGATACTTCTGAATTCGTCCTTCAAAAGTGACTCAATAAAATGCTACTTTACGGTTGGACAAAATACACAAGGAAGGAAGGGCCAGGTCCTA
CATGACCACAGAAGGCAGAAAGGGCCTTTGGTTACAAGGAGAGTTGCACCAATTGGTTTTCGTTTTTTTTAAAAAAAAAAAAAAACAAATCATTTTCAAT
CTGTACAGTTCTCATCTGCTTCAACCAACAAATGAAATGCCTCGATTGGAAGAAGGGGTGGTAAGTTCCTTCTCAATATATATGGCTATATTGAAACATG
TTCACTTTCCTGATATGTAAAATAGACTATATTATTATTATTATTATTTTTTACAGATAGCATCAGCTCTAAAAATATCTGAATTGGAAATCACAACTAT
TTACTTTTATCAAAAAGCATTTGTTTTTTTCCCTGAATTTTCACATTTGTGCTGATGGTGGACATTAATGGTGATGAAAACAAAGAAGAGACATGTGAGA
TGGTCGGCGGAGAACTGTCCCACAGTCATTCCTCAAGAGGCCCCCAGCTCAGACTGCGTGTTCAGCAAAGTGTTTTGGGAGTGCTGCTTCCTCTGCCTGG
CACGGGATGACCTCACACTCTCCCTGCCCCTAAGTCCCTTTGCAGTTGCTGCGCGAATACTCTGAAGATACCTAGGAAGAGTGACGTTCTCGTTTTCTCT
GTTAATGCGGCAAAGAACAGGACTGCACCCTCTTGGGGGGATCTACAGTCTCTGGAGATGCTGAGAAGTGTTATGAATTGGGTTTGTATACAGCAGAGAA
GACATATTTTTAAGGGTGGTGGAATGATCCCATCTCATCATATGTGTGGCAGGTGGCTCAACCTTATGCCTTATGTATGAAGAGCAGGCAGAACAGCTCC
ATGATATTTGTGTACTGAGAGGTGGATCATGCCATTGTACTAACAGGCAGACCAGCAACAGATGATATTGAGACTTAAGACTAGGTGAACCAATACCATA
TCTTTCTTCCACTGGGAAGACATATGCCTGTTACTGTATTGAGGATAGACAGAACTACACTATTGTACTTGGGACATCATCCATCAACATTACATTAAGA
GAACAACATTGTTCCATTGTACTACAGACAGGCAGACCAATAACATGTCATCTTTACTGACAGGTGAGCCAACACTATAGCATTGTATTCATCAGTGGTT
CAACCTAATGCCACTGTACTGAGGAATGGCCAACAACACCATGCTGTTGGACTAAAAGCAGGCAGGACAATGCCAGGTCATCAAACGAGGACAGGAAAAC
CAACACCAAGAAATACACCAGAACCACTCAGGATGCACACAAATACTTATTGCTTTTGTCTGTACTGGCTGCATCGATGGCTGCAGGAAGGAGAGTTGAG
CTTTTAGTACAGACAGTGACACTGAAAAACCAATAGCTGGTTGACAAGAAAGAGAACAGAGTAAAACACCCAATGTCCAACTGTCACTGTGTCCTTTTGA
GATGTGCATGTCTCCTGTATACTTGACTTCATGAGAGGCCCCACCCAAGGGGCAAGAACCCCTCCTGACCCATGAGGGTTAAGGGAAGGTTTCAGAGGGG
CAGGGAAGGAGCCCACAGACTTTGATATGGCAGACAGTAATACCAGCACAATATTACCCATGCTGGCCAGAAATGGGCAGGTAGCAACAATCCAACTACA
GTCCCAACAATTGGGCTATGGGAAATAGTGCTTATTTTAAAGTGCAAGATGTTGACACTGTCCCTGGCAGAACCTATTTTTGAAAAACATAAAGTGCTTT
TTATTTTAACTTTTTTTTTTTTAACTTGAAAACCACAGAAAACAAAACAGAATTTCTATTATAGTAGGTACTTTCCTTGCTGCAGCAGGAATTATTCAGT
CTGAACTGGGCATTTCAATGCGTGGTATTTTTTTCCTTTCATTTTTGCAAGTAAAAAAATCATATTTTTATGCTGTTCTTCAGTAACACACAGTCTCTTT
GAATAAACTATTTCTTTTGCATATTTGACACTTGCATATCTTTTGAGTCTACACTAGTGATGTAAAGAAAGCGTGTTCCTCCTCCAACCCTAAAACAATG
CTCTGAGTTCATGCTGTTGGCTGGGTGCCCACCTTCTGAACCCTTCCCAGATTGCCAGGGGGCAATTAGAATTGAGTACAAGTGGTGCAACTCACCCTGA
TGGTATCTCAAAATAAAATCTCAGGTACTATGAAATACCGAAGTCAATGAAGACATTTGAGTAAGGGTTTTGCGCTGGGATCGTGGCTTATGGCGCAGAG
ACTTCCCCATGACCAATCATTCCCTGTAGCTGTCTAACAGTGGAATCCATCCAGGAGGTGATGGACAGGTGTTCCTAGGGGTGGCTGGGCAACATTCAAT
ACCAAATTGGTCAACCCACTCTTTCAACACCAGCCGCTTGTTCCAGCATCCTTCTCTAGCTGAAGCCAGGAGGACTGTCAATGTTGCCCTCCGAGGCTGA
GATGGAAAGCCACGAGAGAATGGGGAGTATGTGGCCTCGGTCCTGTCTAAAGTGGTGGTAGTGGTGGCTGTGAGTTCCACTCATGTCATCTCCCAAAGAG
GGCTATAGAGTTGTTACAAGGAGGTGCTGTGCCCTATGGCTTGGCCAACTTCATGCTGATGGACCTGTCATGGCTCTCAAGGTCTTAGGGAGCCTTCTCT
GGAGTCTCTCTTCTCTCTGAGGGCTTTACAGGGCCTTTCTGTTCCAGAGTTCATGCAGAAAAGCTCTGTGGCAGGTAAGCTGAACAGCTCTCCTCTTTGG
ACCTCACCCAAAAGTCTCTCCTCCAAGGCAGGGCAGTTCAGATGCTCTGATCTCGTGTGCTTCCATGGGCTCCTCCCCCTGGCAACACACGGACGTCAGG
GGAGATGTGGTTCTCAAGTTTGCACTTTTCCTGACCACTGGGGCCTTTTCCAGTCAATGCTTCTGTGGAGTAAATACAGTTCTGCCTTAAGAACTTAGGG
GAGGTGGGTAAAGGGGAGCTTTCAAAGTGGTTTTTCTCCGATCTTGTCCCCGTGCTGAACTTCGGACTGGTGCTCCCAGGGAGGCTTTTGGGGGGGCTGG
AGTCCACACTGTAGAGCAGCTGTCCCTCATCATCTGTGTCTGCGTCAATGTACTGGTGGACACCCGCCTCAAAGTTGAACGCTATTGCTGTGTGTTTCTC
AGGAGACCGGGGGGGTGTCTTAGCACTTGCTGTGGTGTAGATGGAGGACTCTGGGCTCAGCACAGCCTTGTCCAAAAGCGTGGCACACTCCAGTCCAGCG
ACAGCAGCCGCAGCACTCCCCCGGTTCCTGAGAGGGTCATGGTACATCCCTAGAACGGGGAGGAGTGGACTGGGGTCACCCTCCATGAAGTTGACTTTAA
GTGCTCGGAGCTTCAAAGGGTTGTTAGTTTTCATGGAACTCTTGGGGCTCTCGATGAAGAAACTAGAGTGCTGGCTGGCATCAGGGCTGGGGTTGGCCTC
CACAAACCTACCACCACTGGCACCCAGAGCTCCCCGCCAGCCCACTTCTGGGGCTGTGCTGCCCCCAGTCTTGCTGGGGAGTGATGTCAAAGGGCTGTGG
GAGAATCTGGTGGCCTCAGGGAAGTCTGTGGCACAGCTAATGAAACTATCAATGCTTGACATACTTCGCATGTCAATGACCCCTTCTGTGCGAGTGGGCA
GAGGGGCTACGGGGCTGGGGATACTCTCCATTTCAAGTTCTTCCTTTGGTTTGCTCTGTGCTGCTGACTCCTTGGTATTGAGGATGGGTTGGGATTGGGT
CTTGGCCATCTTATTGTACATGTCTTCCAACTGCTGAACGTTCAGGTGCTGAGGACTAGAAGACGATCTGGCTTTTTCAGGGGATCCCTGTTCCTTGGTT
TCAAAGGACTTACTTGAGCTGGTTTCAGACAGTGTCCTCTTTGTCCATTTCCATTTGTTAGGAGACAAGTGGTTATCTTGTACTTTGTCTTTCTTACCCA
TATTCTCCCCATTTTTCTCAACCACAATGTCCATCATCTCAATGCTCCGGGCAAAAGCATCCTTCATGTTCATGGATACGATGCTGCCATTCCTCTTGGC
TCTCTCCAGAGCCTCTCGCCGTTTGATTGCTTTCTCCTGTCTCTTCTGCTCCTTATAGAACTCAGAGAAGTTATTGACGATGATGGGGATGGGAAGAGCA
ATCACCAGGACTCCTGCAATGCAGCAGAGTCCCCCAACAATTTTCCCCAGGAGAGTCTTGGGGTAGATGTCTCCATACCCAACAGTAGTCATGGTGATGG
TGGCCCACCAGAAAGAGGCTGGGATGCTTTTGAACTTGGTGTCGTCCTCATCCTTCTCAGCAAAGAAGACAAGGCTGGAGAAGATCATAATGCCCATGGC
AAGGAAGAGGATGAGCAAGCCCAACTCATTGTAGCTCCTCCGCAAAGTGAAGCCCAGAGACTGGAGGCCAGTGGAGTGGCGTGCAAGCTTAAGGATGCGG
AGAATTCGCATGATGCGGAAGATCTGGACCACGCGGCGGACATTCTGGAATTGCAGCACGCTCTTGTTGGATTCGGTGAGGAAAATGGTGACATAGTATG
GCAGAATGGCCAACAAGTCAATGGCATTGAGTGGGCCCTTGAAGAACTTCCACTTCTTGGGCGAGGAGAGGAACCTCAGCAGGTACTCCATGGTGAACCA
TGCGATGCACACGGCCTCCACGTGGGCCAGCTGGGGGTTGTCTGTGGACTGGCCGAACTCATCGAGGCTCTGTAGCTCAGGCAGCGTGTTGAGGGACAGG
GCAATGGTGGAGAGGACGATGAACATGATGGAAATTATGGCAAGGATCTGTGAGGAGAAGAGAGTGGGATTTAGTTATCAACCACCCCACAGGATGATCA
TCATAATATCCTGGATCTACAGGGCACTCCTCAATGTTCAAGAGCATTTTCACATTTCACTAGTCATTTAATGAGCCAAAAAGAGAATTTGTTGTAATCC
ATTTATTGTCTAGATGTGGAAACCAAGGCCCAGAGAAATGAAATGTTTTAAAGCTATCAGCAAGCCCAGGGTTCAAGCATACTTTTTCAGATAGTAACCA
TTTTATAGGCCCTGAAACCCTGCATTGTCTGTCACAACGACTCGACTCTGCAGCTGTAGCATAAAACCAACCTTGGATAATACATACATGAATGGGCATA
GCTGTGTTTCAATAAAACTTTATTTACAAAAATAGGCAGTGGACTGAATTTGGCCTGTGAACCATGATTTGCTGACTTCTGATCTAGACCAGTGGCTCAC
ACTGGATGGGGAACTACCTTCACAGAGATGATACTAATGATAATAACTATCCTTGATTGAGTGTTCATTGTGTGCTAGGCACTTTCCATGAAATAGCTCA
TTTCATTCTTATAATAACCCCGTTCAGTGCTATTAGCTCCATTGAACAGATGCGGACACTTGGGTTTCCACAGCTAGTAAGTGGAAGAGCCAGCATTTTA
ACCCAGGTCTGTGTGACCCAAGAACATGAGCTCTTAAGGCTGTGTTAAAAATCAGATTTGGCTGGGTATGGTGCCTCATGTCTGTAATCCCAGCACTTTG
GGAGACCTAGGCAGGAGGATCGTTTGAGGCCAGGAGTTCGAGTCTAGCCTGGGCAACATAGTGAGACTCTGTCTCTATAGAAGAACAAAGGGGAAAAAAA
TCAGATGAAAGCTAACCTTTTGCTAGAAAAATGCCTAGACACTCAAGATTTTGCAGGTAATTCCTAGGGAGGCACAGACATTCTGGGCCCATGTTAACTC
CTGATTGGAACTATGTGCTTTTGGGGGCTAAAGACCTTGGCTTAACTACCTTTGAGTCCCCTGGATCAAGAAGAGAGCTTGGCCCAGAGAAAGGGCTCAA
TGGATATATGTTGAAATTAATGGAATCTAGGCCAGTAGGCCAGTCTACAGACTATGCAGAAAAGCAAACAGATGTAATCAATTGCTCTGAGGGTCTTTTT
TTTTTTTTTCAAAAATACAAATCCAATCACATTACTCCTTTGTTTAATAAATCTCCAGGGCTCCTCATGAAAAAATCCAAACCCCTAAACCTGTCTATTG
GGTCCCCTATACCTGTCTTGCTTTTGTAGATTTTCCCTTTCTCTTCCTCTGCCCCTGCTAAGTGGGAAGGGGGGGGCCTGGTCACCATGGTTGTATCATT
TGATCCTGCCTGCCAATGATCAGAGCATGAAGTTTGGATAAAAAAATCCAAGTTAAGCCAATCCGTACACTGGGGCTTAGCCAGCCTACCTTTGAGAAAT
TTGAGTTCAGGAACCCAGGCGGTGAGTGGGTTACGGGAGGGTAAGTCCCTGAATTAAATGTTAAGTAGAATCTAGGCTTGAATCAGCTTCATGATAAGCC
CAACCCTCAAGCAACTGTCTCCCAAATGTAGGGGACAGAGATGCCATAAAAACATCAGAGAAAGCTGAGCCTTAGCCTAGACATGGTGGCTTACATTTGT
AATCCC


SNP Information

Context             (SEQ ID NO:32365):
GCGTGGTGGCACATGCCTGTAAATCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCACTTGAGTCAGGGAGGTGGAGTTTGTTGCGGTGAACCGAGATTG
Y
GCCATTGCACTCCAGCCCGGGCAACACCAGCAAAACTCCGTCTCAAACAAACAAACAAACAAACAAAGAAAAGAAAAAACACAGTGGAGAGCTTAAGAGT
Celera SNP ID:            hCV26715139
SNP Position Genomic:     22442
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32366):
ATTTAAATATTATTCTGAGTCTGAGAAGGGGGTCTGTGGGTTTCACTGGATTTGTGAGAGGGTCCATGGCACACAGAGTTTGAGAGCTGCTGCCCCAGTG
R
GTCCTGATACACAGTTCATGAAACGCTACCCCATGCTGAAAGCTCTTGGGGGGCAGAGCTCCGGAGTCTTGAACCTCGAGCCCAGCATGGAAATCACATC
Celera SNP ID:            hCV11194555
SNP Position Genomic:     46045
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32367):
TTTTCTTTTTCTTTTTTTTTTTCTGGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGCTCAGTGGTGTGATCTCAGCTCACTGCAACATCCGCCACCC
R
GGTTCAAGCCATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACACACCACCACGCCAGGCTAATTTTTGTATTTTTAGTAGAGACGGGGT
Celera SNP ID:            hCV25988760
SNP Position Genomic:     19770
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,26)   caucasian(G,10)   total(A,4|G,36)
SNP Type:                 INTRON


Context             (SEQ ID NO:32368):
GTACAGAAAAGCACAGAAACATCTGCCCTGCCTTAGTTCCCTACAGGGTCTCATCAGAGGTGGTTTCATTAGCCCCAACCCTTTGCAGCCTGGCACCTTC
A
GACATGCCACCAGCTGGCTCTCCTAATATTTGCTGTGGGGCCATGTGATCATCAGGAGGGATAGGTCCTCAAACAGGCGATGAGCTCAGGACATGGGCAT
Celera SNP ID:            hCV11194558
SNP Position Genomic:     44327
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32369):
AAGTCCTGTTGGTTTCTTTTACCCAAAGATAAAAAGGTGAATATACTGTCTCCTCCAAAGCTTCCCCACCTCTCTCACCGCCGGTGGCAGACTCTCCCCC
R
TGTGATTGGGACACATGGCTACCTGGTCCCTAGCCCTTTCAGATAATTGTGGAAGTTGGAATGCAAGTTCAGCTGGGTTCTTGATGAGTTTCAGTGAATT
Celera SNP ID:            hCV27494005
SNP Position Genomic:     57091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32370):
AGAACTCCTTCCAGATTAAATTTGGGGAAGGACTGCCTGGGGGTGCTTTTGTACTGGTTGGTTTTCTGTGTAGAGAGTTCATGCAGCCGCGGGTCTGTAC
W
GATTGGAGCTGAAGTCCCAGGTTAGCACCACCAACAGGGGCTCCCCTGCCACAGCGCAGGAGTGGGGGCCCAGGATGGGTCCAGGCAAAGGCATCAGTGA
Celera SNP ID:            hCV2249150
SNP Position Genomic:     8478
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   SC_96_C(T,9|A,47)   total(A,47|T,9)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32371):
TTACCTCTCTCTAAGTGTGAACCAGATTTGGTGACTCACTGCTAACAAATAGAATTTGGTGCGAGTGATGGTTTCTGATTTCTGAGACTAGGCCACAAGA
Y
GCATTGTGCCTTTCTCCTTACCCCTCTCTCTTGGACCACTGCCCCTGGGGGATGCCAGCTTCCATGCTGTGAGGATATTCAAGAGCCCTATGGAGAAGTC
Celera SNP ID:            hCV16230164
SNP Position Genomic:     49946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32372):
AGGTACCAAGCTCGGTGTCCCTATGGTGCCATAGCCTGGGATGTGGTCCGCCCTAACTCTGTTTTCTCCTTGACCCACAGTCCCTGCTTTGATAACCACA
S
GCAGCTACGGGAAAGAGTGGGAAAAGTGAGATAGTCCCAAGAAACAGGCAACAGCAGGGTAAGTGAAAATCAATCAACCTAAAGTCAAACTAAAATTTGT
Celera SNP ID:            hCV25988879
SNP Position Genomic:     19539
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,17)   caucasian(C,3|G,21)   total(C,6|G,38)
SNP Type:                 MISSENSE MUTATION;ACCEPTOR SPLICE SITE


Context             (SEQ ID NO:32373):
AGGAAGAAGTATATTTTGCAGCATGACCTGTAACACACACACATGCACACACAATTGACATGAAAGTTTCATGAATCTGTACTTACCTTTTATGAGCAAT
S
CATGCTGACTTTGATTCGATTCTAGTTTATTCTACTCCAGTCTATTTTATTCTTTCATTACAAAATTGCTAGTCATGACCCATGAAATATGTCAAAACCC
Celera SNP ID:            hCV16230165
SNP Position Genomic:     44780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32374):
CTTTGCTTTGAGAAACACTGCTATCTGGTGTTGCCTTTTTGCAATGTCAGCCTGTGGTTATATTTCCTTTGTTGTTGCTAAGGCAAGATTTGCTCACTCA
K
TGTTCAGTGGCACATCACTTCCTGAGTTGCTGTGTGCCAGGCCCTGTGCTTGGTGATGGGATACAGCAGGGAACATGACAAATGAGGACCCTATTGTTGT
Celera SNP ID:            hCV2249156
SNP Position Genomic:     11521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32375):
GATCCTGGGCCTATGCGAGGGGTGATGATGGTTCCCTCTTGTGTGCGTGCTGCCAGTGAGACGGGTAGAACACGTGCAGGGTGGTGCCTGCCTAATTTTC
Y
GCAAAATCTCTCACCTGCCTGGCAGGCAGGGCAGGAGATCGTGGTGGACTTTGGGGATACCCCTTGGTCCAGCTGTCCAGCCAGTGCCTGAATCTGGTCT
Celera SNP ID:            hCV2249157
SNP Position Genomic:     11786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32376):
AAGAAAAAAAAAAAAAGGAGATTTTCTTTGCAGATCCTTTTATATCTTTCCCATTGGGCACCACGTGAAATTATTACCGAGTTTAAAAAAAACTTTTTTT
W
AAAAAATGTAGAAGTTAATGTATTATTTCTGCATATCGGTCTGTGGACTAAGCTTTATACGATGCATTCATTCTCTTTATTTACCTCAAATGTGGGAAGT
Celera SNP ID:            hCV7596155
SNP Position Genomic:     41746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32377):
TGTTCAGATGTCCTTGTCTTGGAGGACTTCCTTGACTCCTGCCTAAAATAGTTTCTTGTTACACCACCCTTGGCACTCTTTCTTTTTTTCCCTGCCTCTC
Y
CTCAACCCTGGCCACTCTTGACCTGCTGTTTTTTCTCAAAGCACAGATCACTAGTTGAAATTACATGGTTGCATGTTATTGTTTATTGTCTGTTTCCCCC
Celera SNP ID:            hCV2249158
SNP Position Genomic:     12469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32378):
AAGAAGGGCTGAGCTTACATTATCTCCAGCTCAGCAGGTCCTTGGAAATTAGGTTGTTTTAAGGAAATAAAGAAATGTGATATTTCAACAAGACACTAGG
R
ACAGCGGTTGCCTCTGCAGAGGGAAACTGGGTGGCCAAAGGATGGGGTAAGAGGGAAATTTTCGGGCCAGGCGCTGTGGCTCACACCTGTAATCCCAGCA
Celera SNP ID:            hCV16159414
SNP Position Genomic:     41294
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32379):
AATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTTTGTTTGTTTTTTTTTCTGTTTTTTTTTTTTTTTT
T
TGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCTCCCTGCAGCCTTGATCTTCTGAGCTCAGGTGATCC
Celera SNP ID:            hCV26715140
SNP Position Genomic:     18935
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32380):
TTATTTTCTTCTTTTAAAATTATTTAATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTTTGTTTGTTT
K
TTTTTCTGTTTTTTTTTTTTTTTTTTGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCTCCCTGCAGCC
Celera SNP ID:            hCV524950
SNP Position Genomic:     18910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32381):
TAATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTTTGTTTGTTTTTTTTTCTGTTTTTTTTTTTTTTT
T
TTGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCTCCCTGCAGCCTTGATCTTCTGAGCTCAGGTGATC
Celera SNP ID:            hCV26715141
SNP Position Genomic:     18934
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32382):
TTATTTAATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTTTGTTTGTTTTTTTTTCTGTTTTTTTTTT
K
TTTTTTTGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCTCCCTGCAGCCTTGATCTTCTGAGCTCAGG
Celera SNP ID:            hCV26715142
SNP Position Genomic:     18929
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32383):
GTGAGCTAAAATAGAACATGAGGCTGAGAAATGCAGGGTAGGGGAAGAGGAAGGAGGGCAGAGCTGCTCTGTGGGCCCCCAGGAAGTGTGGCTCTGAGAG
R
GCTGTGGCCCTTATCAGCTTGGGGCCTACAAGCATCAAATTGAGATGTCATCTTGAGTCAAAGAAAGATGACCTTGATGGGGCAGTTATGGGTTTCAGTG
Celera SNP ID:            hCV717068
SNP Position Genomic:     52226
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 PUTATIVE UTR 5;INTRON


Context             (SEQ ID NO:32384):
CCGGGTCCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCCACCATGCCTGGCTAATTTTTTGTATTTTTTGTTGAGACG
R
GGTTTCACCATGTTGGCCAGGCTGATCCCGAGCTCCTGACCTCAGGTGGTCCACCTGCCTCGGCCTCCCCAAGTGCTGTCAGAATGTAGTAAGGTGATAT
Celera SNP ID:            hCV26715143
SNP Position Genomic:     17604
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32385):
GGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACAAACAAACAAACA
A
GACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTGGCTCATTTTCAC
Celera SNP ID:            hCV26715144
SNP Position Genomic:     15520
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32386):
GCTTGGTTTAGCGTTCTGCTGTCGCTGGCTTGACATTCTTAATTTTTGAACAAGGGGCCCTGCATTTTCATTTTGTACTGGACCCCACAAATTATGCAGC
Y
GGTCTCATCTGGAGGTCTAGAATGATGCTATGTCTTATTTGACCGTCTGATATTTAAAATAACAATAGAGTCAACGTTTTAAAATCAGGAGAGTTCACAC
Celera SNP ID:            hCV11194560
SNP Position Genomic:     34262
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32387):
GTGCCTGGCACGTGGTGAGTGCTTTATAAAGTGTTGCTATTTTATAAAGCTATGTCTGATGCATAGTAGGTGCCAACACATGTTCATTTTCCTTCCTTTT
Y
CCCTTCCCTTTATTTATTTATTTATTTAGAGACAGGGTCTTGCTCTGTTGCCTAGGCTGGAGCACAGTGGTGCAATCTCAGCTCACTGCGGCCTTCACCT
Celera SNP ID:            hCV11194561
SNP Position Genomic:     33732
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32388):
AGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACAAACAAACAAAC
A
AGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTGGCTCATTTTCA
Celera SNP ID:            hCV26715145
SNP Position Genomic:     15519
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32389):
GAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACAAACAAACAAA
C
AAGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTGGCTCATTTTC
Celera SNP ID:            hCV26715146
SNP Position Genomic:     15518
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32390):
GGAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACAAACAAACAA
A
CAAGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTGGCTCATTTT
Celera SNP ID:            hCV26715147
SNP Position Genomic:     15517
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32391):
CAACTTTGCATCAGTGAAACCACGCAGGATGTGCTCTTTGGAATTCGACTGCCTTTGTTCCACATGAGGTTTCCAACGTTCATCCACGTGGTTGCACTTG
Y
AGCATTAGCTGGTTCATTCTTGTTGCTGAAATAGTTAGCTATTACTATTATTATTTTGAGACAGAGTCTGGCTCTGTCGCCCAGGTTGGAGTGCAGTGGC
Celera SNP ID:            hCV11194563
SNP Position Genomic:     26920
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32392):
TGAACCTGGGAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACAA
A
CAAACAAACAAGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTGG
Celera SNP ID:            hCV26715148
SNP Position Genomic:     15509
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32393):
TTGAACCTGGGAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACA
A
ACAAACAAACAAGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTG
Celera SNP ID:            hCV26715149
SNP Position Genomic:     15508
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32394):
CCAAAGTGCTGGGATTATGGGTGTGAGCCACCGTGCCCAGCCATTATTTTTAAAAGCCTGATCAAGGAGGGTAACAGAAAGGAGGTGATATTTGGACGGA
Y
ACCCAAAGGAAATGAGGGAGGAGCCATGTGGATCTCTGGAGGAATAGCTTTCCAGGCAGAGGGACGGCGAGTGCAAAGGCCCTGAGGTAGAGCGTGCCTG
Celera SNP ID:            hCV11194565
SNP Position Genomic:     24467
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32395):
GAAGTGCAGTGGTGTAATCCCAGCTCACTGCAGCCTCAACCTCCTGGGCTCAGGTGATCCTCTCACCTCAGCCTCCCGAGTAGCTGGGACTACAGGATGC
R
CCACCATGCTTGGCTAACTTTTGTATTTTTTGTAGAGACGGGGTTTCACCATGTTACCTAGGCTGGTCTTGAACACCTTGGCTCAAGCGATCTGCCCGCC
Celera SNP ID:            hCV11194566
SNP Position Genomic:     24258
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32396):
TTGAGCATGTGCTAGGTACTGTTCTGGGCACTAGGGATTCTGCAGTGAAGAAAACAGCTGAGGTCCCTTCCCTTATGCAGACAGTAAGGTCCCTTCCCTT
M
TGCTGGGAGGAGGCAGACATCGGGCAAATAAATCTATAATTTGTCAGATGGGAGATGAATGTTAGGAGAGAAAGCAGAGTAAGGATGATGTCCTGGGGGT
Celera SNP ID:            hCV11194567
SNP Position Genomic:     24010
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32397):
GTGAAGGATGGATTGTGGGGACTGGCGACAGATCAGCGTGTTGTGGGATCGCGGAGCTGAGGTCAAATTTCCAGGACAGTGCCTGGCTCATGATAGGTAC
Y
CAGTAAATATCAGTTGAAAGAATAAGGTCTGAACTAAGTCAGTGGCAATGGAGATGGACAGGAGAACTAAAAGGGTTAGGATTCTTTTGATTGCAAGTGA
Celera SNP ID:            hCV2249162
SNP Position Genomic:     20871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32398):
TTGGAAATTAGGTTGTTTTAAGGAAATAAAGAAATGTGATATTTCAACAAGACACTAGGAACAGCGGTTGCCTCTGCAGAGGGAAACTGGGTGGCCAAAG
R
ATGGGGTAAGAGGGAAATTTTCGGGCCAGGCGCTGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGAGTGGATCCCTTGAACTGAGTCC
Celera SNP ID:            hCV7596166
SNP Position Genomic:     41335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32399):
CTTGAACCTGGGAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAAC
A
AACAAACAAACAAGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGT
Celera SNP ID:            hCV26715150
SNP Position Genomic:     15507
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32400):
AGGAGTTTGAGATCAGTCTGGCTAGCATGGAGAAACGCTTTCTCTGCTAAAAATACAAAAAATTAGCCAGGCATGGTGGTGGGTGCCTGTAATCCCAGCT
Y
CTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAG
Celera SNP ID:            hCV26715151
SNP Position Genomic:     15380
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32401):
TAGTCCCAGCTACTCCGGAGGCTGAGGCAGGAGGATCGTTTGAACCTGGGAGGCGGAGGTTGCAGGGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGG
Y
GACAGAGAGAGACTCCATCTTAAAAAAAAAAAAAAAAAAAAAAAGGTGTTCCTTCATGAGCCTGGGCCTGTAAGGGTGGGGTGAAGCGATTCTAAGGGGT
Celera SNP ID:            hCV26715152
SNP Position Genomic:     11168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32402):
CCAGAAGGCAGAGCCGTTTCTTGCGTACCATAAAATGGGACATTTACCTTGGGTACTCCCTTTGGAGTGTGTTGCTGGAACTTGTGCAGGGACTTAGGGA
R
TCTTCTGGGGAAGAGGCCAGCAATGTGTTGGGGATGGAGACGAGGAGCACTCAGTGTTATGTTTTGGAGCCTTGTCCTACACCTGAGGACCTCCAAGTCT
Celera SNP ID:            hCV524963
SNP Position Genomic:     31694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32403):
TAGACAATAAGGAGGGCAGATGGTAAGGAGGCTGGGCAGTGTGGTTCAGAGGAGAAAGCGGGGTTTGGATAATGCAGAAAGACATTCCTTGGCTGGGCCC
Y
GTGGCTCATGCCAGCATTTTGAGAGGCTGAGGTGGGTGGATCACAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATAGTGAAACCCTGTCTCTACTAA
Celera SNP ID:            hCV26715153
SNP Position Genomic:     10929
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32404):
AACCCGCTTCCCTCCCGAGGCAGGGAGAGACGGTCCGCTCTCTCGAAGACAATGTACAATTTTGAAAAAAAAAATAAAAAAGTCTTGGTAAATAGATTGA
S
GAGGCTCCAGCCTCCTGGGCTTTTGGGAGGCCCAAGGCATTTTTCCCCTCTGCCCAAACCAGGTATCTTTTGCCCATTGCTCACAAGTCAACGTGACCCG
Celera SNP ID:            hCV524964
SNP Position Genomic:     32925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32405):
TCAACCTAAAGTCAAACTAAAATTTGTGAACATGTTTCCTTGAACTAAGTTTCTTTTTTTTCTTTTTCTTTTTTTTTTTCTGGAGATGGAGTCTTGCTCT
R
TTGCCCAGGCTGGAGCTCAGTGGTGTGATCTCAGCTCACTGCAACATCCGCCACCCGGGTTCAAGCCATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGGA
Celera SNP ID:            hCV11194570
SNP Position Genomic:     19713
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,19)   caucasian(G,10)   total(A,11|G,29)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32406):
GGAGGCTCCAGCCTCCTGGGCTTTTGGGAGGCCCAAGGCATTTTTCCCCTCTGCCCAAACCAGGTATCTTTTGCCCATTGCTCACAAGTCAACGTGACCC
R
TGCTATTACCATTCCCCAAACTTTTCACGTCAAACCCTGGCCGGGAAGGTGGTCAATGTAGCCAGTCCATCAAGCGATTTGTCCCATATGGATTCTCAAT
Celera SNP ID:            hCV524965
SNP Position Genomic:     33025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32407):
ATTATCTACCCAGTTCAAAGATCCTACAGTCTCTTTAGGGCTGTCTTGTAAGTGACTTGGATACCAGAGGTACCAAGCTCGGTGTCCCTATGGTGCCATA
R
CCTGGGATGTGGTCCGCCCTAACTCTGTTTTCTCCTTGACCCACAGTCCCTGCTTTGATAACCACAGGCAGCTACGGGAAAGAGTGGGAAAAGTGAGATA
Celera SNP ID:            hCV11194571
SNP Position Genomic:     19472
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32408):
CTGAGACTACAGGTGCACGCCATCACATCTGGCTAATTTTTGCAGGATGAGGTTTCACCATGTTGCCTAGGCTGGTCTCAAATTTTTGGGCTCTAGCAAT
Y
CTCCTCCCTCGGCCTCCCAAAATGGTGGGATTACAGGCATGAGACATTGCTCCTGGCTGACTAACTCTTTTATCTACTCTATTAAAAAAATCATTCACTT
Celera SNP ID:            hCV11194572
SNP Position Genomic:     19159
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32409):
TCACCCTGAGGTTGAAGTCTCACTTTCTCCCAATCCACCATACATAAACCCTCTCTTGTCAAATGCTTTCCTTAGAGAATGCAGTATGCAGGATGATTTG
R
GATGGAGGCCACAGCTGCAGGAGAGTGGCATTCTGCTTGGAGGCAGCCAAGAGCCTGGTTTTGCTGTGAAACTGGATTAAAAGCTGCCTTTCTCTTTTGA
Celera SNP ID:            hCV524967
SNP Position Genomic:     53146
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIG-allele(A,245|G,1250)   total(G,1250|A,245)   no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 NONSENSE MUTATION;INTRON


Context             (SEQ ID NO:32410):
TCACAATGCTGAATTTGACATTTAAAATTCCCATGCATATATGGGGGTATGTGTGTGTTTATGTACATAAACATACACTGTACATTCTTTTTTTTTTTTT
T
GAAACAGAATCTCGATCCGTCGCCCAGGCTGGAATGCAGTGGCACAGTCTTGGCTCACTGCAACCTCTACCTCCCAGGCTCAAGTGATCCTTCTGCCTCA
Celera SNP ID:            hCV11194575
SNP Position Genomic:     14296
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32411):
AGAAGGGTATAATAGAAAACAAGGGCTCTATTCACAGAGGTGGGGGCAGCAGTACAGGACAGGAGGAAATGGTGTTATTGGAGCCTGTGAGAGTAGGATC
Y
GCAGCCAAGGGCCCCCTTCCCCAAAATGGGGGACAATAAACACCTTGGGTGCACTCTCCTCCTGCCCTCTGCTCCTCTCATCCCCGCTGGTGTTCCCCAC
Celera SNP ID:            hCV11194576
SNP Position Genomic:     13011
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32412):
GAATGAAGAAGTGTCGGTCCCAGCGGGGACATCATTAGAAATACCACCTGTGGTAGACATGTGAAGCACCTCAAGGATGGGGGAACCCAGCACGTTCCTT
W
TGTGATGATGAAATATTTCCGACATACACCACCAATGTAGAGAGATAATACAACAAACCCTCGGGAAAAGCTAAGAAACAAACCTTGACAATTGCCACTG
Celera SNP ID:            hCV7596201
SNP Position Genomic:     14041
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,9)      total(A,1|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32413):
CTTTTCCTGATCGCCTAAGAAAAGTAGCCCTGTTTTCTTTCCCCTGTCATACACATTCGCCTATATTATTTTCTTCCCAGAACTGGTTTGTTGTGTATCT
Y
CCAGAGGACCAGGTCTGCCTTGGTCACTGTGATATCCCTAGCACTTAGGCCATTGCCTGGCACATGGTAGATGTTTGATAATTATTTATTGAATGAATGA
Celera SNP ID:            hCV11660782
SNP Position Genomic:     35147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32414):
CTCACTTCCAATGGTCTCAGTCTCAGCTACAGGTCTGGGGTTGCTGCTTATTGACCAGGCTCATCTCACACCCCTGGTTCATATTCCTGAATCAATGGGT
S
GGGGGAGGGTGGGGGAATGCACTGTTTTGATTGGCCGGTGCTGGGTCAGGTGCATATCCTTGGAAGTGGAGGCATGGTCAGTCCTACTTGAACCACGTGA
Celera SNP ID:            hCV16230143
SNP Position Genomic:     32176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32415):
ACCTGTGTGTGCTGGTCTGGGGCGAGAATCCTGGGCCAAGGGGCAGCGGAGGGGAGAAAGAAGCAGATGGCCACGAGGCCAGCAAGGGGCTGTCCGACTC
R
TACCCCACAGCCAGCATTCCCTGCCTCTACCCGTACACTTGTTTTGGCTGCAGGAAGCTGTTTTAGGTGGAAATCATTTGATGTGTGTAGGTGCTGTCTT
Celera SNP ID:            hCV11660784
SNP Position Genomic:     31180
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32416):
TTAATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTTTGTTTGTTTTTTTTTCTGTTTTTTTTTTTTTT
K
TTTGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCTCCCTGCAGCCTTGATCTTCTGAGCTCAGGTGAT
Celera SNP ID:            hCV11660786
SNP Position Genomic:     18933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32417):
CTTTGACAGCTTCAGGCTTCCCTCTAACCAGCCTAACAGCTGAAGAGAAGGCCTCTTTCCCCATAGTTCCAGCAAATATCCTAGGATATTTGTGGTGGTG
M
GCACACCCGAAGTCCCAGCTGCTCGGGAAGCTGACGCAGGAGGATCACTTGAGCCCAGAAGTTTGAGGTTGTAGTGAACTGATTGCACTACAAGACCCTG
Celera SNP ID:            hCV11660788
SNP Position Genomic:     16781
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32418):
TGAGCACAAGAGGCGCAGGCAGGAAGGAGAGCGCCTGGTGCGAGAGAGGAAGGAGCGCACCCAGTAAGCGGTGTCGGGGGGGTCGTGAAGCTTGGAGGGC
Y
TCGAGGGGAGGGAGGCGCTTGGGTTGAGGTAGGGCGCCAGATTTCGCAAATCAAAATACAGCACACCCAGTTAAACTCGAATTTCAGATAAACAAATCTT
Celera SNP ID:            hCV7596208
SNP Position Genomic:     6714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32419):
TGAAGGAAGGAAGAAAAGAATTCATCAACTCCTCATGACCACCCTGTAAAGCAGGGACAAGAGACCTGAGTCATGGAGAAGAGAAGGGACTCCTCAAGGT
Y
GCACAGCCCAGAAGGGGCAGAAAGGGTGATGAGGACCTAGGTTTTCTGCTTCTACACCCCCTGTCCCCTCAACCCCCCAGGTGGGAAGCAGCAGAGACAT
Celera SNP ID:            hCV7596170
SNP Position Genomic:     35345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32420):
TTGTGTCCAGGATTTCGAGGCTGCAGTGAGCTAAGACTGCACCACTGTTCCCCAGCCTGGGTGTCAGAGTGAGACCACATCTCTAGACAAATAAGAATAA
W
TTTTTTTTTTTTACTGGGCTATGAAATCCTAAAGTCTGGAAACTACCCTTTTCACTCAATGGGCTTTTGAAAGGTAATGATTTTAAAATATGTCCACAAA
Celera SNP ID:            hCV26715122
SNP Position Genomic:     49714
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32421):
TCTTACTATTTGTATGGGGTAAAATAAAACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGTGT
G
TGTGCAAAAATGATCTCTGGAAGGATACGTGAGAAACTGGCGGCCTCTAGGGACAGGGGGACAGGGGTCCAGGGGTATAAGGGAAATTTCACTTTTCATT
Celera SNP ID:            hCV26715123
SNP Position Genomic:     48643
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32422):
ACTCTTACTATTTGTATGGGGTAAAATAAAACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGT
G
TGTGTGCAAAAATGATCTCTGGAAGGATACGTGAGAAACTGGCGGCCTCTAGGGACAGGGGGACAGGGGTCCAGGGGTATAAGGGAAATTTCACTTTTCA
Celera SNP ID:            hCV26715124
SNP Position Genomic:     48641
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32423):
TGTATTAATACAGAATGATTTCCAAGATACATTAAATGAAAAAAGCAAGATGCAGAGCAGTGTATATGGCACTCTTACTATTTGTATGGGGTAAAATAAA
A
CAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGCAAAAATGATCTCTGGAAGGATAC
Celera SNP ID:            hCV26715125
SNP Position Genomic:     48571
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32424):
ACCCGGGTTCAAGCCATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACACACCACCACGCCAGGCTAATTTTTGTATTTTTAGTAGAGAC
R
GGGTTTCATCATGTTGGCCAGACTGATCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAATTGCTGGGATTACAGGCGTGAGCCACC
Celera SNP ID:            hCV25989335
SNP Position Genomic:     19866
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,10)   total(A,1|G,39)
SNP Type:                 INTRON


Context             (SEQ ID NO:32425):
GTGTATTAATACAGAATGATTTCCAAGATACATTAAATGAAAAAAGCAAGATGCAGAGCAGTGTATATGGCACTCTTACTATTTGTATGGGGTAAAATAA
A
ACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGCAAAAATGATCTCTGGAAGGATA
Celera SNP ID:            hCV26715126
SNP Position Genomic:     48570
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32426):
GTGGTGCCTGTTTTAATCCTCTCATGGATCGTGTAAAGTAGGTGATCTTTTCCCCATTCACAGATGGGAAACTGAGCTTCAGGATAGTCACATGACTTGT
Y
CAAGTTCTCATGATTAGGAAACGTTGGAGCTGGGCTTTGAACTGGACTGCAAAGCTTGTGCTCTTGACGAAATAGGAAGGCAGAGGCTGTGGTGGGGAGC
Celera SNP ID:            hCV7596177
SNP Position Genomic:     31476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32427):
ATCATGACGGCTTTGGGGCTCAGAAAAAAAGATCTTCGGCTCTAAAAGCTGGAGGGCAGGCTGGCCTTAATATCCAGCTGGACTCCCATGGCTCAGGGAA
Y
GCAATCCAGTTTCCAGATGTTGGCTCCTATGTTTCTGCCCCAGGAAGTCCCAGACCAAAGGAAGTCCCAACTTCGAACCCTTGGCTTAGTCCATTGGAAA
Celera SNP ID:            hCV525012
SNP Position Genomic:     51994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)   JBIC-allele(C,237|T,1263)   total(C,237|T,1263)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32428):
CGTGTATTAATACAGAATGATTTCCAAGATACATTAAATGAAAAAAGCAAGATGCAGAGCAGTGTATATGGCACTCTTACTATTTGTATGGGGTAAAATA
A
AACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGCAAAAATGATCTCTGGAAGGAT
Celera SNP ID:            hCV26715127
SNP Position Genomic:     48569
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32429):
GACAAGACAGCAGCTGGAGGTCACACAAAGATCACAATTTCATCTCACCACATGCATAAAAAGACACTGGGATTTGTGTGTGTGTGTGTGTGTGTGTGTG
Y
GCGTGTGTGTTGCGCACATGCGCAATGCTTATTTTCACCTTTACAGGAAGGACTAGAGACATTAACTGACGAGAGATGAATAGGACCCACGAATGCACCC
Celera SNP ID:            hCV525013
SNP Position Genomic:     51623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 DONOR SPLICE SITE;INTRON


Context             (SEQ ID NO:32430):
TCGTGTATTAATACAGAATGATTTCCAAGATACATTAAATGAAAAAAGCAAGATGCAGAGCAGTGTATATGGCACTCTTACTATTTGTATGGGGTAAAAT
A
AAACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGCAAAAATGATCTCTGGAAGGA
Celera SNP ID:            hCV26715128
SNP Position Genomic:     48568
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32431):
TTATTGTCTATTTTTGGGAGACAAGGTAGTTGGGAAAGGAATAAATAATTTCAGTCTGAGCAAGGTGAAGCTTGGAAATGATTGGTGAGGATGGTGTGGA
R
GCAGGGAGAGAGTGGGGCTGGAGTGATTAGTAAGGCCTTGAAAGATAGACACCACTGTATTTTCCAAGTTATTTACAGAATGTTTCCATGTATTCTATAC
Celera SNP ID:            hCV11194581
SNP Position Genomic:     9866
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32432):
GATGGAGTTTTACCATCTTTTCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCTATCCTCCAGCCTTGGCCTCCCAAAGTGCTGGAATTACCAGTGTGAGC
Y
TCCACACCCAGCCTCAATTACAATTGGTGGCCACCTTCTGTGTGCCCAATTCAGCTAGAAGCACTGGGGGATGGAAGCAAGGCTGGAGTTCTGGTACCCC
Celera SNP ID:            hCV11194582
SNP Position Genomic:     9659
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32433):
GGTTTGATTATATGTTCTTTGTTATTTCTGGCACTGTGAGATGCTGAGCCTGAACAATAGATTCCCCGCCCCCCTTTTTTTTCTGAGACAGAGTCTTGCT
Y
TTGTCACCCAGGCTGGAGTGCAATGGCACAAACTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTG
Celera SNP ID:            hCV29209077
SNP Position Genomic:     43378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32434):
GATGAGAAAGTAATTTTGGATGTGGTGTCTTCTCAAGCCATAGGCAAAAGAGAACTCCTTCCAGATTAAATTTGGGGAAGGACTGCCTGGGGGTGCTTTT
G
TACTGGTTGGTTTTCTGTGTAGAGAGTTCATGCAGCCGCGGGTCTGTACAGATTGGAGCTGAAGTCCCAGGTTAGCACCACCAACAGGGGCTCCCCTGCC
Celera SNP ID:            hCV11194584
SNP Position Genomic:     8428
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,1)   total(G,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32435):
CTCTGCTTTCCAGATGAGTTGACTGAGATACAAAGAGGTGCCCAAGGTCACATACCTAGCAAATGGCAGAAATGAGATTTGACCCTGAACTGCTCAGACC
Y
CCAAGCCAAGCTCTAAACTCTAGTCTAGACTGTTTCTTACTGAACATGCTTTTCCGGTGCAGGGATTATCACACTGTTGGAATATGAGCTCTCTCTGGGG
Celera SNP ID:            hCV29209078
SNP Position Genomic:     24803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32436):
TTCGGCCCAGGTGCGGGACGCAGGCGGTGGAAGGGAAATGAGCACAAGAGGCGCAGGCAGGAAGGAGAGCGCCTGGTGCGAGAGAGGAAGGAGCGCACCC
R
GTAAGCGGTGTCGGGGGGGTCGTGAAGCTTGGAGGGCTTCGAGGGGAGGGAGGCGCTTGGGTTGAGGTAGGGCGCCAGATTTCGCAAATCAAAATACAGC
Celera SNP ID:            hCV11194585
SNP Position Genomic:     6676
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32437):
TCTGACATCCAGAAAGTATCCAAGAAAAGGGAGCTTGCATGGTCATTGAACCCTCACGAGTCCCTTAAAGGCCAGATTTGGTTACTCTCATTTTATAGAT
R
GGCAAACCAACTCAGAGAGGCAGTGTGACTTAGTCAAGGTCACACAGCAGGGTTTGACCCAGATTTGGCTTACATTATCCCTCTAGACTGCCTCCCGTGG
Celera SNP ID:            hCV29209079
SNP Position Genomic:     23687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32438):
GCAAACAACAAATCTAATATTTATGAAATACCAAATGTCAGGAAGGTACTATTTTAAGTGCTTGAAGTAAATTGTCTCATTTAAGCCTCATAATAACGCT
R
TGGAACAGTGTTATCATGTCTGTTTTACAGATGAGGAACTAAGGCACAGAGAGGTTAAGTGACGTGTTCTGGGTTGCACAGCTCTTAAACAGCAGATCTG
Celera SNP ID:            hCV1054795
SNP Position Genomic:     9045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32439):
TTAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAATAATAATAATA
W
TATTAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCACAAGCTAGAGGGAGGGTCCCTGAAAGCAAACATCCCTGGAGCCC
Celera SNP ID:            hCV15837254
SNP Position Genomic:     27744
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,4|A,4)      total(A,4|-,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32440):
CCCATCTTGTAGCCTGGATCAGTACTGGAGTCAGTTATTTAATGCTACATCCTGGGTTCGGGTAAAACGACCTAAAATGTGAGTCCCCCGCTTCAGGAAG
Y
GCCGCTGTAATGAATAAAGAACCTTTTGGGGGAATCATAGCTCAATCTCTTCCTGGTTCTAAGCGGGCAGGTTCAGGCTTCCCTGCGGTGGGGTTGGAGC
Celera SNP ID:            hCV16230153
SNP Position Genomic:     30812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32441):
CTTTCTGAGTGCCTTCCTGGTGCCAGGCTCTATTCTGGGTGCTGGGAACACAGCTAAGAAAAAGACAAGAGGCAGGGCACGGTGGCTCACGCCTGTAATC
S
CAGCAATTTGGGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAGGATGCAAA
Celera SNP ID:            hCV27997910
SNP Position Genomic:     40046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32442):
AAGGAGGTGATATTTGGACGGACACCCAAAGGAAATGAGGGAGGAGCCATGTGGATCTCTGGAGGAATAGCTTTCCAGGCAGAGGGACGGCGAGTGCAAA
R
GCCCTGAGGTAGAGCGTGCCTGCTGCACTGAGGAGCAAGAGAGGCCATTGGGCAGGAGCAGAGTGAGTGAGGGAGAGCGTAGAAGGAGGTGAAGTCACAC
Celera SNP ID:            hCV16230155
SNP Position Genomic:     24545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32443):
AGAGTGGGGCTGGAGTGATTAGTAAGGCCTTGAAAGATAGACACCACTGTATTTTCCAAGTTATTTACAGAATGTTTCCATGTATTCTATACTTCTTAAA
K
ATCATCTCAACCCTGTATGGTTGATGTCCCTACATATACACTTATGTGTTTCCTGTAGACTTAGTACTCTTAGGGTTGTGACACAATTTAACTTAAGTTA
Celera SNP ID:            hCV27997911
SNP Position Genomic:     9975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32444):
CACTTGACCAGAAAGACTGAGACTGCAGTGAGCCGTGATCATGCCACTGCATTCCTGCCTAGGTGACAGAGTGAGACCCTGTCTCTTTAAAAAAAAAAAA
A
GAAAAAAAAAGGAGCGTGAGGAAAAAAAACCCTTATGTATTGGCATTTAAATATTATTCTGAGTCTGAGAAGGGGGTCTGTGGGTTTCACTGGATTTGTG
Celera SNP ID:            hCV26715130
SNP Position Genomic:     45900
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32445):
CAGAGGGAAACTGGGTGGCCAAAGGATGGGGTAAGAGGGAAATTTTCGGGCCAGGCGCTGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGG
Y
GAGTGGATCCCTTGAACTGAGTCCAGGAATTCGAGACCAGCCTGGACAACATGGCCAAACCCTGTCTCTACAAAAAAGCCCTTCAAAATTAGCTGGGTCT
Celera SNP ID:            hCV26715131
SNP Position Genomic:     41411
SNP Source:               dbSNP
Population(Allele,Count): SC_12_T(T,9|C,15)   SC_12_C(T,1|C,20)   SC_12_TT(T,1|C,20)   SC_95_C(T,24|C,149)   total(C,204|T,35)   (T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32446):
ATCGCAGCAATTTGGGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAGGATG
S
AAAAATTAGCCAGGTGTGGTGGCATGTGCCTGTAATCCCAGCTACTGAGGAGGCTGAGGCACAAGAATTGCTTGAACCTGGGAGGTGAAGGTTACAGTGA
Celera SNP ID:            hCV26715132
SNP Position Genomic:     40143
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32447):
CACCTCCCCAGACCCTCAGAACTGACTCTGGAATGCCCTTGTGGCCTCTGAGGGTCGCTGGCTCTGTGGCCATCCCCAGGGTGACTTACAAGGGCCCAGT
S
CCCATACACTTTTAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAA
Celera SNP ID:            hCV7596184
SNP Position Genomic:     27632
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32448):
GATGGCAATAATAATAGTAACTTTAAAATGTTATCATTTGTAAAACACTTATTATCTGCCACGTACTGGGCTTACAGGCTTACAACGGTGCCTGGTACCA
Y
GTGGGAGGCGCTTAATCAGTGTTTTTTTTTTTTTTTTCTATTTTTTTGATGGGGGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGAC
Celera SNP ID:            hCV7596185
SNP Position Genomic:     26165
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32449):
CCCCCCAGGTGGGAAGCAGCAGAGACATTTGGATCTTTGGCTCGACCAGCCACCAAGAACGGGTCAAGTGTGCAGCAAGGCCCAGAGCACAGCGTCTGAG
R
GTGGTGAGAGCGATTCACCCAGGCAGCCAGGAGGCGAGACTGTTTACAGGGGCTAGCGGCTGTCGCCATGACAACCGGACAGCCTACAGCTTCCTGCGTC
Celera SNP ID:            hCV1086013
SNP Position Genomic:     35518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32450):
TGGCAGCATCTGACATAGTTTATGACTAACCCGCTTCCCTCCCGAGGCAGGGAGAGACGGTCCGCTCTCTCGAAGACAATGTACAATTTTGAAAAAAAAA
A
TAAAAAAGTCTTGGTAAATAGATTGAGGAGGCTCCAGCCTCCTGGGCTTTTGGGAGGCCCAAGGCATTTTTCCCCTCTGCCCAAACCAGGTATCTTTTGC
Celera SNP ID:            hCV26715134
SNP Position Genomic:     32898
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32451):
TATAATACTGGCTTACATCGATTGAGCGCTTCCTATGAGTTGAGGATTATTCCAAGCTCTTTATATTCCTTCATTCATTCAGTGTTGAGCATGTGCTAGG
Y
ACTGTTCTGGGCACTAGGGATTCTGCAGTGAAGAAAACAGCTGAGGTCCCTTCCCTTATGCAGACAGTAAGGTCCCTTCCCTTCTGCTGGGAGGAGGCAG
Celera SNP ID:            hCV7596186
SNP Position Genomic:     23926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32452):
GGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAATAATAATAATAATA
W
TAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCACAAGCTAGAGGGAGGGTCCCTGAAAGCAAACATCCCTGGAGCCCAGG
Celera SNP ID:            hCV26715135
SNP Position Genomic:     27747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32453):
TTTTCACTGACCTCTAGTTGAAATACAGCACTTCCTTTAGGTATGAATATAGGCAACAAATCATAGTAATATGTTTCATAGTAATTATGTTTCACACACA
K
AAAAATCACAGGCTGGGAGTGGTGGCATGCACCTGCAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCGTTTGAGCCCAGGAGTTCAAGGCTGCAG
Celera SNP ID:            hCV1086015
SNP Position Genomic:     45044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32454):
TAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAATAATAATAATAA
W
ATTAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCACAAGCTAGAGGGAGGGTCCCTGAAAGCAAACATCCCTGGAGCCCA
Celera SNP ID:            hCV26715136
SNP Position Genomic:     27745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32455):
TTTAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAATAATAATAAT
A
ATATTAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCACAAGCTAGAGGGAGGGTCCCTGAAAGCAAACATCCCTGGAGCC
Celera SNP ID:            hCV26715137
SNP Position Genomic:     27743
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32456):
CTTTTAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAATAATAATA
A
TAATATTAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCACAAGCTAGAGGGAGGGTCCCTGAAAGCAAACATCCCTGGAG
Celera SNP ID:            hCV26715138
SNP Position Genomic:     27741
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32457):
CTCCCTGTGTGGCTGCAGGTACTGTGTCCAGTTCCAGTTGGGGTCCATTCCAGGGAGCTGCGGGCAGGCGAGGGCACCCCATGCCCAGTGGACAAGGTAT
Y
TGAGTCAGGGCCACACGGTCTGTGTGAGGAGTGAATGGCCTGCCCAGGACACCAGGAGCCGGCGCTGCTACGGGGACGGTGGTGGGGCCAAAGGGTGAGC
Celera SNP ID:            hCV29209080
SNP Position Genomic:     23173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 134
Celera Gene:                 hCG2039416 - 208000027133940
Gene Symbol:                 CR1
Protein Name:                complement component (3b/4b) receptor 1, including Knops blood group system;C3BR;CD35
Celera Genomic Axis:         GA_x5YUV32W3HS(16194965..16332900)
Chromosome:                  Chr1
OMIM number:                 120620
OMIM Information:            COMPLEMENT COMPONENT RECEPTOR 1;CR1


Genomic Sequence (SEQ ID NO:12294):
CCAACATTTAAACTATTGAGAAAATAAAACCTTGCTCACTGGTGACCACAAATTTACTCTGTACCTTCCCCTAGACTAGGTATGCTGTTCAGCATCTGTT
TTTTTTCTGTTTTTTAAAATTGTGATTAAAAACACATAAAATTTACCATCTTCACCATTTTTAAGGGTACAGTTCGGTAGAGTTAGGTACATTCACATTG
TTGTAGAGCAGATCTCCACAACTCTTTTTCTCTTATAAAACCAAGATTCTATATCCATTATATAGTAACTCCACATTCCCCCATCCCTTCAGTCCCTGGC
AACCACCATTCTGTTTTCTGTCGCAATGAATTTGACTACTCTCAGTACCTCATATAAGTGGAATCATACAGTACCTGTCCTTTTGTGACTTATTTCACTT
AGCATAATGTCCTCAAGGTTCATTAATGTTGTAGCAYGTGTCAGAATTTCTTTCCTTTTTAAGGAAAGGAAGAAATTCATTGTGTGTATATGCAATTTTG
TTTACATTTTGTTTATCCATTTATCTGTCGATAGACATTAGGTTGTGTATTAGTCTGTTCTTACATTGCAATATAGAAATACCTGAGACTGAGTACTTTA
TAAAGAAAAGAGTTTTAATTGGCTCATGGTTCCGCAGACTGTATGAGAAGCATGATACTGGCATCTGCTCAGCTTCTGGGGAGGCCCCCAGGAAACTGAC
AATTATGGCAGAAGATGAAGAGGGAAGCCAGGCATGTTTTACATGGCAGAAGCAGGATCAAGGGAGAGAATGGGGAGGTGCCACACACTAGAACAACACC
AAGGGGATGGTGCTAAACCATTCATGAAGGATCCACCCTCATGATCCAATCACCTCCTACCAGGTCCCACCTCCAACAACTGAGGATTACAATTCGACAT
GAGATTTGGATGGGAACACAGCGTTTTTCTGAGCCCTCCATATTTTTCCAACCTCTGCCTGTTACCCAATTCCAAAGTTGCTGCCGCATTTTCAGGTATC
TTTATAGCAATGACCCACTCCTGGGTACCAATTTTCTGTATTAGTTTCTTCCCACATTGCTATAAAGAAATACCTGAGACTGGATAATGTATAAACAAAA
GAGGTTTAATTGGCTTATGGTTCCAGGGTCTGTACAGGAAGCATGCTGCTGACTTCTTCCTGCCTTCTGGGGAGGCCTTGGGAAACTCACAACCATGGAG
GAAGGCAAAGGGGAAGCAAGACATCTCATACGGTGGGAGCAGGAGGAAGAGAGAGAGGGGGCAGGTGCTACACACTTTTAAACTACTAGATTTGGTGAGA
ACTCACTCCCTACATGGTACCAAGCTAATCCATTCATGAGAAATCCACCTTCATGATCCAATCACCTCCTAGTAGGCCCCTCTCCAACACTGGAGATTAC
AATTTGACATAATATTTGGATCCAAACCATATCAGGTTGTTTCCATCTCTTTACTATTGTGAATAGTGCTTCCATGAGCATGGGTGTGCAGATGTCTTTT
CAGACATTGCCTCAATTCTTTTGGATCCATACCCAGAAGTGGGATGCTCTTCAGCACCTTTTATTCGTGTACAGTCAGCAACACTTTCATTTCCCCACAT
TGTCTGTTCACTCACCTCGAGCCATCTACTCTATTCTACATTCATTCATTCTTCCTTCTATTAAGGGATGATGAAAACATCCGAAGGTAATTCTCTTAAC
TTCCTCTCCCTCCACCTTCCATCCTATCTACATCCACTCACCCTTACCCTCATGTCTGTCTTCCACTTTTCACAGCCTATATCTTTCACTCTTCATCCCT
TTCTGTCTTTTCCAGGACATTGTTCCTTCAGTTAGCCCCTCTCTCATCATTGGCTCCTTCGTTCCACCTCCAAAACTCCTGAAGCCAAGACCTGCTGAGC
TGCATGTGACAGAAATCCACCTCACACTGGCTTAGACCAAAAATGAATTTTGCTAAATCACATGACAGAAAAGTCCAAGCATGTAGCTGGCTTTTGTCAA
AACAGGAATAGTCAAAGGGTGCCTTCAGGAATATCTTCTCCTTCTGCTTTGCCTGGCTGGCTTCATTCTCTGGAAAAAACTCCCTAAAAACTGGCAAAAT
ATTTACTGATGATGCAACATGCACGTCTCATCAGCTTAGCCTTCCAGTACAAAGAGCCTCTCGTCCAATAAGTCTTTCAAAAGTCCCTTCAATAGCTTTC
ATTCTCCAAATAGGGTTACATGCCCCCAAAGGAAACAATAACTAGGAGCAGGACAGTGAAATAAACACAGGGCAAGGCCTGAGTTGCCTGCCCAGCCTTG
GAGATGGGGGTAGGGTTGGTCTACCTCATTGGTTCTCAGGTGGGATGATTTTGCCCTCCCAAGGACATTTGGCAGTGTCTAGAGACATTTTTGGTTACTA
CAACTGAAGGACGGAAGGGTTTCCAGCCTCTAGTAGGTAGAGGCCAGGGATACTGCCAAACATCCTCCAAGGCAAAAGACAGCCCTCCAGAACAAAGAAT
TATCTGGTCCACGATGTCAATAATATTGAGGTCGAGAAACCATAGTCTTCCAGAATCACATTGAACTATGGGAAAGAGGGGATTTCCCAGTGGAAAAATC
TAGGGGCAAATCCCAGAGGAAGGGACCCATTTAGAGCAACAGATATCCACCTTCACCTCCATCTGAAAAAAATCTTCCCCCAAACCATCTATGTTTCTCG
TTTAAACTACCTCTCTTACACCAAATTTTCTGAAAGAGTGGTTGGCCTTAGCTGTCTCAACCACTGTAGTCATTCATTCAAGTGATGATAATTATGGAGC
TCCTTCTGTGTGCTAAGCATTATTTTAGGTCATGGGATTTGGCAGTCGTAAACTGACATGTTCTCATGCAGCTTTTATTCTGGTGGGAGAGACACACAAT
AAGCAGATTTTCAGTTGGTAATAAAATGAAAAAATGATAAGTATAATTTTTTAATCTATATGAAACAGGCAAAAAGGAAAGGAAGTTCTGAATTAATGTG
CAATTTTAAATAGTGGCCAAGGAAGGCTCCATTAAGAAGGTCTCATTTGAGCCAAATAACTCAAGGAGATGAGGTAGTAGCCATGCAGAGCGATATCTGG
GCAAAGAGCATTCTAAGCAAAAGGAATATTAAATGGGAGGAAAAAACTGAAGAGAAAAATACACCTGCTGCACTTGGAGAAATAATTTGTTTGCAAGCTG
ATGGTAAAAATCCAGCAGAAAGAGGTGTATGATAGTGCTGGAGGAAGTGAGAATTGCTGGTTTCCTTGAGTGAGTGAGAGCAAATCGAATCTAGGGCACA
AGTGGAGAGATCACCCTTAGACTTAGACTGTGAACAGTATAATTATATTAACAGGAGAGACGGAGGTTTCATGGGCCAAATACAAGAATTTGGGTGGAGT
GATGGTAGAAAATTGTAGATCTATTTGATTGTTTCTATTTTCTCAATAAAGAAAGAAACAAAGCCATTCACAGAAATTAAGAATGTTGGAGAAGGTGTCA
GAAATAAATGTCAAAATAAAAATATGAAATAGTCATTTAGGAGAATGGGAGAATAAATGGATTAGACAAACAATAGTGGGAATGTCAGGCAGAAGTATAA
TGGTCCATTTGAAATTATTTGTTACTAAAGTAAGGCTAGTCATTGTGGCTATGTGTCTTTTCCAGCCACATTCAGTTTCACAGGTATGACAGCAAAATAA
TGGAGAATTGATTCTAACCAGTAATGTTGTTTTGTCTAATGGCTATAATAACCCAAGAGAAGGGTGAGGGAGCTAACAGTGGGTGCAAGATGGTGATTAT
AAAGACAGAGTATGGAATTTAACCTGGTAGTGATGAAAGTGAAGACACAAAGGAGGTGAGAAGCTGAGAGAGATAGCGGTAGGATCAATGGGCTGCAGGC
ACTGAGACAGACAAAGATTGCTGGATTCAGTTTAACGTTACTAGGGTAAAAGAAAAGAGTTGGATTGGTGGTTAGAGAGTGGGATCATTGAAATCACTGA
GAGGTTGAAAGTGACAAGTCTCCGAGCATGCACATGAGCATTAGAGTCAGAGGAGAGTGGAGGACAAGACCACAGGCAGAGAAGAGGTCAAGGCACTGGA
AGGCCAGGGATTTGAAAATACTATTGCTGTGAATGTTGAAATCACCAGGAACTGTGGCAGAAGTAACAGTGGAGAAGGTGGCCATGAGCCAGGAGCTCAA
ACTTTCAAGGAATGAGGGAGAAAGTAGATACTAGGAGATGGATACCAGCAGAAGTGGTAAGGAGTGGCACCTTCTGATAGCATGTGATGTAAAACTGGGG
AAATGAGCCTTCTCCTCTTCTCTTTTCCTAAGCCTACTACAATCTGGCTGCTACTCCCATTACTCTGTTGAGAATAACTTGAAATGATGATAGCAAATCC
TTAAAAGAATGTCACTGGATGTACTAAAAACTGTGATAAGTGATATGATCAAAGTAGACATTTCTTCCACTAGAATTTTGGGAGGAAGCCTAATGGAAAC
CAATGCGCACAGAAAGACAAATGCTGTATGTTATTAGTCATATGTGGACTCTAAAAAACTCATCTCATAGAAGTAGAGGGTAGAATACTGGTTACCAGAG
GCTGGGGAAGGGAGAGACAATGGGAGATGGAGAGAGATTGGTTAAAGGGCACAGGATCACAGATAGATAGGAGGAATACATTCATCCTTGAATACTTAAC
CCTCTGCCCTAAATCTGTCAGTCCTACATCCATACTTCTTATTTCAGTAAGTAGCACCACCATTCATTTCTAATCCTGGGGCTAACTCTTTTTTTTTTTT
CTTTTCTGAATCATGTCTCCTTTTAATGGTTAAGGAAAACAAGTTTAACATAAAATTAGCAACAACAACAACAACAACAACAAAATCAAGGTTTAAAGTC
AAAATTATTTTAACAGAAAAACCCAGGCAAAATAGCCTACCTACAGACAGGCAGTACATGTCAGAAGGACAGGCCACCCCCAATAAAAAAGATAAAATAT
TATTTTTTCTACCTTTTTTAAACTTAATTATTTAATTATTTCTTTCTTTTTTCTTTTTTTTGTTTCTTTTTTTTATTATACTTTAAGTTTTAGGGTACAT
GTGCACAACGTGCAGGTTTGTTACATATGTATACATGTGCGACGTTGGTGTGCTGCACCCATTAACTCGTCCTTTACATTAGGTATATCTCCTAATGCTA
TCCCTCCCCCCTCCCCCCACCCCACAACAGGCCCCGGTGTGTGATGTTCCTCTTCCTGTGTCCATGTGTTCTCATTGTGGAAGCTGGAAACCATCATTCT
CAGCAAACTACCGCAAGGGGGCTAACTCTTGATTGCTTTCTTCTCACCACCAACCTTAAGAAAGGAAGTAACCAAAATCCAATACATGAGCAACTGTTCA
TTCCATCTCCAATATCTTTGTTAATTGTCCACTTTATCCACCCAGTCAGGGCCGCCATCAAACCTCACTTGGATGTCGGCAAAAGCTCCCCTGACTGGTC
TTCGCAGTCCATTATTGCCCTATTCTAATCTACCTTCCATACTATACACAGATTTACATTTTTTAAATGTGTATCTAATTGTCCCTCCCTTTTAAAAAAT
CTTACAATGGCATGACGTCTCAATTCAGGGTAAGGAAATTGTTTCTTCACATTCCCTGTACACCGTACACATCGCCTGCAATTGCCCTTCAACACGGAGA
GCAGGCATTTCATTAGCTGACCTTCCCACACACATTCTTGCAAAGAGGAAAAGTTAAGCAGGGTGTTTGGAGGCGAGCTGCCATCATCCACCGCCTTTGT
CTGGAAGCGCAGGGCCTCACACGCGGGATCCATCGGAAGCCCGAGCATTGTCAAGCTCTGCTGCTGCACCTGGGTCAGCAAGGTGGGCTCTGCCAGCGAA
ACTCGTTAGAAACAATGCAAATGGGGAGTAAACATGACCTCGCCCATGAAGGGGAAGCTGTGGTCAAAAGCATTTTGTCCCGGAACCCCGCAGCCCTCCC
CACACTCTGGGCGCGGAGCACAATGATTGGTCACTCCTATTTTCGCTGAGCTTTTCCTCTTATTTCAGTTTTCTTCGAGATCAAATCTGGTTTGTAGATG
TGCTTGGGGAGAATGGGGGCCTCTTCTCCAAGAAGCCCGGAGCCTGTCGGGCCGCCGGCGCCCGGTCTCCCCTTCTGCTGCGGAGGATCCCTGCTGGCGG
TYGTGGTGCTGCTYGCGCTGCCGGTGGCCTGGGGTGAGAGGCGGGCGGGCGTGGGGAGGCGCCCGGGCGGACGRGGAACCCGGGGCCCCGCAGAGAACTC
GCGTGCAGCGCTGAGCTGCGCTGCTCTGCGCGCCCGGGTCCGAAGGCAGCGCGATGGGTGGGCTGAGCGCGCGACCCGGCAGGGCGGCGGGTGTAGGATC
CTTCTGCGCACTGGAGACCCTCGSTGCTTCTGGGTAAGCGTGGAGTTCCCASGTGCAGGGGCTTAAGTCGTGACGAGCGCAGTGGAAGGCGCAGATGCTG
AGCGGGTGCCGCACGAAATTCCTTGCCTTTGTGTATTCACAGCCTCGGCTGGCTATAGCCAAGACGTGGCGTYGATCCTAGYGAAAGGGRACTTGGGGAT
CCGACAAACCTGAGTTCTGGTCCTAGAAACTTAACTGTGAGGCAACTTAGCACACCTGAGTCTGTTTGCTCTTCTGTAAAATGGGGACACTGGTATCTCT
GCATCGTGGAGTTGCTGCCTCAGTGGCATTAAGCCTGTCGAGTATCTAACACAGGGCTATGTGTCCCCGAGTCCATTTCTATCCCCCAACCGTTACCTCT
GTACTTAGCTCCCAATGGTGTTTAGACAAGCAGTCCTAGGGATGCAGGTGTTACCTGACAACTGCCCCGCATGGAACTGTCCTCGCCCCCCACACCAAGC
CACCACGGCCATCATCACCATGCACTTAATTGACAGCRTACTTTAAGACAGATGCATGCCAGGCACTTGCGGATTAGAAGAGCAAGGGAAGCCCCAGAAC
ATGCAATGTAACCGTTGCAGGTAGAAGGGACAGTAGATATGTTTACAGTTCGCATTTTAGTGATGTGTTTAGTACAAAATAACGCCTATTATAATTATTA
TGGAAATTTTGAGGCCACATCTCTTCCTTTTTCTTAACTTCAAATAGGTAAACATCTTCAGTTAGAACCCTTCTATTATTATTTTTCGGCTCCCCAGAAG
TCTTCTTGGTTGCCTAGACTCACTGGCAACATCTCATTTGAAGYGACAGTCTTGGTTGTTTTTGTCCAGCCTATTCCTGACAACTCCGGGTTCGCCCTTC
TCTGCCACTAGACATTTTACATTCATTATTTGAGTGTTCCTTCTTCTCTAAAAGAGTAAATAAAATAAAATAAAGTAGAACCAAGTCCCGCAAGAGTTGT
TATTAATATTTGATCTCCTTAGGCACCRGAAAGTAACCTGTCAGGTGCAGAGATGTGATAAAACGTACAATCTTATTTTTAGGAGAGAAGCATGCCCAGT
AAGTTAAGCAATCTGTTGTCAACGCTTAGGAATTTGTGTCATCTTTGGGAGTACTGGCCCTCTTCTTACTAGAATGTTGTTTTACTTAGCCTATGTTGAT
TAAGTTACTGTTATAAACAATCCCAGACACTATTAATTGCAAAAAAAAAATTTACTGAGGTTATCACAATAACTTCCAAATGTGAAACAGCCTAAACTAA
ACTACCTAGAAATTTTGTTGCTGACATAATTTAAATTTTAAAATGCTGATGGATGCTTCCAGTGTGCAYGGTCCTTTGGAATTTTAAAGAAGTATAAGAG
CTCTGCACCCAAAGTGTATGCATATAGAAGTAGGTGGTGGAGTTTTATGAAATCTACTTATTAGGAAGCCAGCGTTCTGCTTTTTCCAGCCTCTGCTACT
TACCAGCTGGTGTCTTGGACCCAGTAAGTTAAGTCACATCACTGACCTTCAGTGTCCACATGTATAAAATGAGCAYAACTGACATCCTGATCTCTGAGAG
AGACGTTTTGAAAATCAGATGGTGTAATGCATGTGACAGTGTTTTGTAATCTGAAAACCCCCATGCATGTCTGAAAAACCATGACTAAGAAGTCGTGCAA
GACTGCAGGATCACCGAAAARCGAGAAATCTCAACTCCTATGATCAGGAAAGGATGAGTGAAAGGTATATGGCTTTACTAGCACTTAAAGAGTGAATCTA
GAAACAGATTGCATACGACAAAAAATAGCAGAGGAGCTAGGATTGTTTTGTTATTATGAGTTACTCACAGTACCCGTAAAGTGGTATAGTGCTATTTGAA
AGAGGACTTAGATTAGCTGCAAATAGATATTGCAAATGTAGGACAACCMCTGAAAAATGTGAAAAAAAGAACTATAATTTATATGTTAATAAGTAAGAGA
GAATTGCATCATATAAAATGCTCAGTTAAAACAATAAAGATGGCTGGGGACAGTGGCTCATGCCCATAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGG
ATCACCTCAAGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAACCCTGTCTCTACAAAAACACAAAAATTACCAGGGCATGATGGTGGGTGCCTG
TAGTCCCAGCTACTCGGGAGGCTGAGGCATGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGTCGAGATCGTGCCATTGCACTCCAGCCTGGG
TGACAGAGCGCAACTCCAAATCAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAACAAACAAACAAAACAAAAAACAATAAAGGGCAGGAAAAGAATGGAAG
ACAAAAAATAGAAACAGAGAACAAGAGAAAAAAAGCAACAAATAAAAACCAGTAACAAAACTAAAGCAACTATATCAACAATCATTTTGAGTGTCAATGA
TCGAAATGCACCATTTGAAACAGATCATCAGAGTGGATCAAGAAACAAGACCCAACTATATACTGTGTACAACAAGACCGTTTTAAATATAGACAATATA
TATGAAAAGTAAATGGATAAAGATATACCATGCTAATGCTAGTCACAGAAAGCAGGAATAGCTGTGTTAATTTCAAACACAGCAGACTTCAGACCAAGAA
AAATTATTAGGGATAAAGAGGGRCATCATATAATGATAAAGGGGCCAATTATCCAAGAAGACGTAACAATATCCCATATGTATGCACCTGATGGAGAGAC
AAAATACGTGAGGCAAAACCCATAGAACTGCAAGGAGAAATAGATGGATTTACTATCATAGTTGGAGACTTCTATGATATCTTTCTGATATCAGAAAAGG
TGCTGAAGTCTCCTTATCAGAAATGGGCAGATTCAGCAGGCAGAAAATCCGTAAGGACATACTTGAATTCAACAGCACCATCAATCCACTTGGGTATAAT
TGACATATATAGATGACTTCATCCACAACAGCAGAGCACATATTCTCCCGCTTACATTCATGGGGATAGACCACATTCTGAGCCATAAAATAGTACACGA
ATTAAGCTTTACCAGGCAGTGTTTAATATAGGGTGGACTCTGGCGCCCTCACGTGGTCCTCATATAGGATCTGGTTTGGTTATCCCTGCTAGGTTAAGGT
GCAAGATAGAAGGGAAGTTCCAATTTGCTTTCTGTGCTTTGTGGTGTATTTTGGTTTACATATGCTCAGATGAGTGGATGTGTGATTTATATTATCTATT
TTAATCTAAAATAAGCTTCACATTTGGACAGGTAACATCAAAAGTGTCCTACACAGAAATGCTGGGTGAAGATCCCAGTAATAAAACCAACTCCAGAAAA
CAAGAAAATGGTAGAGTTGACAATCCCTCTCACCCTCTCCGCAAAGACACATGTATACACATTTTTTGTCAGAGGCATTAAGTAGAAGAAATGCTGTCAG
TCTAATCACAACTGATCACAACTCGATGAAACCAAAAAACCTAGAAAGTATCATGAAGACTGTCGAAATAAGCTTTACATTCACTATTGTGAACAGAGAG
ACTCAATGTGACTGTTTTTTGTCCCGTTAGATGTTAGCTAATGATTGTGCTAAGTCATGATGATTAACAAAGCATTTAAAATATTTATTTTATCTGTGTT
ACATTTCAAAAATTTATATTGAGGCATATAATTTATGTTCGCGTACATATATAATTTATAAATTTATATATTTGAAAGGGCATGCTCTTTTTTTAAACTG
ATAGAGGTGCCTAAGCAAAGCAAGTGCAAATCTATTCCTTAAAGGGTAAGTATGCAGAATGGAAAGCAGAGTGTTCTTTGGGTTGACAGCTCATATTGCA
ACAGACATGAAAGTGATGATGTGTTAATTGTGCATATAGCACAGAATACATCAACTTGCTTTGAATGGAATATCTGAACCAGGAGAATGTGAAAGTGGGC
TGAGTCATACAAGACAAAACCCGAAATGAGATAACAATACATACCCACTAGAATGGCTAAAATGAAAAAGATTGACCGAGCCAAGTGTTGGCGATAAGGT
GGAGTAACTGGAATTATAATATACTGCTATTTGGCAGGTAAAATTATAACATTAACTTTAGAAAATAGTTCAACAGATTCTTAAAACCTTAGACACACAC
TCAACATTTTACTCTTAGGTTTTTACCCAAGAGAAATGAAATCATATGTCCACACAAAGACTTGTACATGAATTTTCATAGCAGTTTTGTTTGTAATAGC
CAACACGTGGAAACAATCCAAATGTCCCTCAACAAGTAAATGGATAAACTAAATTAAGATATATTTATGCAATTGAATATTACCCAGCAACTAAAGGAAA
CAATTTGTATACATGCAGCAACCTAGATGGATCTCTAATTATGCTGTGTGAAGGCTAAACCATAAAAAAAAACCTGAGTGATTTCCTTTATACAATAGGA
TATAAATGAAGTGATTTAGGTTATATGAAATTTTAGAAAGTCAAATCAATCTGTAGTAAGAGAAAACCACCTGAGTTATTTCCTTTATATGATAGGATAT
AAACGAAGTGATTCGGGTTATATGAAATTTTAGAAAGTCAGATCAATCTGTAGTAAGAGAAAACACATTGAAGGTTGCCTAGAGAAGGAAGTGGATGTTT
GGATGGATTACAGAAGGGCATGAGGGAACTCTGTGTGGGTGGGATGTATGATGGAAACGTTTATTGTCTTCATTTTGGTGATGGTTTCACAACGCATACA
TATGTTATAAGTAATCGAATTGTACACTTCAAATACTCATCAATCATTGTATGTAATATATCTTGATAAAGCTATAAAAACTTTTAAAATTATGGTAGGT
CTTCAGTTTGTGGATTTTATATTAATATATTTGTCATAGGAACTAGTCACAATTGAGGGATTGGTAATAAAGGAGAGAAAGGAAACTACATCAAGCTTTC
TTTGTTGAAGGCTCATATATTCCTTTTTTGAGCTATTATACAACTTTGCTTTTTATAATTACCTATACTATTCATATACTACTATGCAGGTAAGAATATT
ATGTAATTAAGGGGAAGGAACTTCTTTCCAAGAATGGTTCATTCAATTTGCTTTGTTACTTTAGGTCTCATTCCTTCCTCTCGTTGCAAGCTTTGCTGTG
ACATTTACCCTCTCTCAATACAGCTTTTGGCGCTAGGCACTTCACATGGAATCTCTTCCTTTGTCCGGCATCAATGGATAAGACAAATATCAAAATTGTA
TTTCATCCCACATATCAACTAGAGGAAAGGTGAATGCATAACACTGAAAATAACAGCAACTGTTTTACTCAGTGTTTTTTTTTTTTACAGTATCCTCAAA
GTGCTGTTATCTATCAAAATCAGCTGTGAAAATTTTTAAAAATAGACTCCTGGGCCCTAACCTAGACCCACTAAATCAGAGATTTGGGGGACATAGCTTG
GATTCTTGATTTTTTTGAGTTTTATAAGTAATTCTTCATTTTTTGTTCATTGCAACAAATATGCATTGAGTTCTTATAATTGAGTGTTAAGCACCAGGAC
TAAGTATTAATTTAGAGGTACAAAAAAACACATCATCTCTTGCCTTTAAATTATGCATATCTAATATCTATTGAGAGAAATAGATACTTCTAAAAGCACA
CAAAGATAAAAAGCACAAATTGTAATAACAAACAATTATTGATATGAAAGGAAAAGCAAAGTGTCRGACTAGAAATTATTATAGGGTGGGGCAGAGGGAA
GTAGTTTAGATTCCAAATCCCTAAGAGGGTCAGGGAAGGCTTCAGATGAGATTGGGTGTGTTCAGGGTGGTATGGCCATAGGCAGGCTGGGGAAGGCTTC
TATAAGAAAGTGACATTTTAGCAGATGCCTGAAGGAAGAATTGAAGTCAGAGTGAAGATAAAATTGCGTCACAYAGAAGGAATGTCATAGACGGGAAAAA
TGTGTGTCTTTGGGAAACTGAAAAAGGGGAAAGGGCCACACCTTGGTGAGGGGACCAAGTGGCACAAGATGAGGCAGGGAACATAGACAAGGGCTTCCTT
GCTTAACAACTGCTGGCTTAATAAAGCAAATGTGTGATGATGGATACAGGCTGTCTGGGAAAAATAAGTAAGAAATATGAGCTTTCTTGGAGCATCATCC
TTTGCTTCAGTAGAAAGCACAGAGTTAGGCTTCCAATTCTGACTAAAGCCATTGACAACAGGGAAAAGGCAACCTTAGGAATTCTCCTCTCTGTCCGGGG
TCCCGTGGGCACTATGATGGAGCTCATGAGATGCAGATGAGAAGTCCCAGGCTGAATCCGGGGCACATTCACTCAGGAGAGCTGAGGTCACCAGTCACTG
AGGTCATCCAGTGCATTCCCGACAGCATAGGCTCATTCCAAGCTAGTTCTGCAAAGGAGCAGAAAATGAACTCTTGGAAGCAAAGCAAGCACTCCCACTT
TAGCGGAATAATCGAATTTAACTCTTAGAAGTCCCCTTACCCTTTTCTAAGGGTAATAATCGTAAGTATAATTTATGAAGTGCCTTCTGTGTATGTGGCA
GCATATACTACTTTTGATTCTCCCTGCAAACCTGGTAGGAAAATATTATTCCCTTTATGAAGATGAAACTGAGGCTCAGCAAGATTAAGCGGTTTGCCTA
AGACCTCATAGCCAYTAAGTAGAAGACATTGGGTTCAAGATTCAATCTATGAACCCAACATTTTTAATACTATATACCATTCTCTTTTTGTATTAATTTC
CTATTGCTGCTGTAACAAATTTCCACAAACTTAGTGGCTTAAGACAACAGAAATGTATTCTCTTCCAGTTCTGGAGGCCGACGTCTAAAATAGATCCATA
GGGCTGTGTTCCTTGTGGAGGCTCCAGGGGAGCAGGGGTTTTCTTGCTCTTTCCAGCTTCCAGGGGCTGCTTCCGTCCTTTGGCTCTTGGCCTCCTTCCT
CTACCTTCCAAACCAGCACCATAGTGTCTCTGAATATCCTTCTTCTGTCTCCTTTCACCCTCTTGCCTCCCTTTTATAAGGACCCTTGTGATCACATTTA
AGGTCCACCTAGATAACCCAGGATAATCTGCCCATCTCAAGATTCTTAATCACATCTGCAAAGCCCTTTAACCATTACAGGTAACAATCACAGGCTTCAG
GGATCAGAACATGGATATCTCTGAGAGGTCCTTACTTAGCCTACCACACCTTTCCATATAGATTCTCAAAATTTTAGCTGAGCCTAATAAGGGAGTTCAT
TACCATTAGGGTCCGGTTTAGTAGCAAGTGCTTCCTTTAAGTGAAAAGGTGAAAGTTGTCCACTTAATAAGGAAAGAAAAACATTGTATGTTGAAGTTGC
TAAGACCTAAGGTAAGAAGGAATCTTCTATCGATGAAATTGTGAAGAAGGAAAAATAAATTTGTGCTAGTTTTGCTGTCACACTTCAAACTGCAAAAGTT
ACAACCACAGTGCATGCTAAGTGCTTAGCTAAGAGGGGAAAGGCATTAAATTTGTGGGCGGAAGAGGTGAACAGAAATGTGTTCTAATTGACAGCTRTCA
GGTTTGGTACTATCTGAGGTTTTGGGTATCGGCTAATGTCTTGGAACATGTCCCCCAAAGATAAGTGGGTGACTACTGTATATTCAAAATAAGCATTTAT
ATACTGGGGAGTAAATCTCCCATGTTATTTGTGTTTTATTTGTCCCACAAATAAAGTAAACAAAGTAGAATTTTAGGCAAGATTCATTTCTAGAGGCAGA
GATATTTTATTATAATAAAGAAGGTTGCTCTACCATAAAATATAGCAATTTAAATTTTTATAATCCTAATAACCTCAAAATATATAAAATAAAAGATGGA
CAACATTATAAAAAGAAATAGACAAATGTACAATAAATAAAATATTTTAACACAACTCATTTAGTATCTAGTAAGACAAGTACTCCCCCMAAAATCAGTA
AAGTATCTAGAAGATTTGAATAAATATTAACAGATTGGATTCACTGACCTTGTTACAAGAAAGAATTATACATGATGATAGGAGAGAGGAAGCCACAGCA
CAGGCACTTACTGATTAACTAAATTTTGAAGCTGTGAAATGCACCTTATCCTTTAGTGAAAGATGATATAAATAGCTTAGTTGCCTTCAAACTGGCAGAG
ACTTTTTGAATGGATGGATGCTGATTTTTTAAAAAGGAGCCCATTTCTGAGGCATCTTTTAAAGCAGGGGTCCTCAACCCCTGGGCCATAGACTGATACT
GTCCAGTGGCCTGTTAGGAAATGGGCAGAACAGTAGGAGGTGAGCAGCCAAGCATTACTGCCTGAGCTCCACCTCCTGTCAGATTAGTGGCAGCATTAGA
TTCTCATAGGAGCAGAAACCCTATTGTGAACTGTGCATATGAGGGATCTAGGTTGCATGCTCCCTATGAGAATCTAATGACTGATGATCTGAGTGGAACA
GTTCCATCTCAAAACCATTTCCCTGCACCCTCCATTCACGGAAAAATTGTCTTCCACAAAACCAGTCCCAGGTGCTAAAAAGGGACTACTGTTGTAAAGG
AATAAGTCCCTTTGCTATTATTATTTTTATTAAGATGGAATCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAGTCTTGGCTCACTGCAACATCTG
CCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGTGCACAGGCATGTGTACAGGCAAGTGCAATCATGCTCTGCTAACTTTTTGTAT
TTTGGGAGAGGCAGTGTTTCACCATGTTGGCCAGCCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCACCTTGGCCTCTGAAAGTGCTGAAATTACA
GGCATGAGCCACCACTCCTGCACCCCTTGGCTATTATTGAAGTGTTCTTTTTCTTTTTTGATCACATCTATGAAGTATATTGGAGAGAAAGAGAAGGTAG
AATGGGAATTTCAACAGGGTCACGGTGGCTCACTCCTGTAATCCCAACACTTTGGGAGGCCAAAGTGGGTAGATGACCTGAGGTCAGGAGTCGAGACCAG
CCTGGCCAACATGGTAAAACCCCATCTCTACTAAAAATACGAAAATTAGCCAGGTGTGGTGGTGGGCACCTGTAATCCCAGCTACTCAGGAAGCTGAGGT
AAGGACAATTGCTTGAACCCAAGAGGCGGAGGTTGCAGTGAGCCAAGATAGCGCCACTGCACTCCAGCCTGGGTGATGGAGCCAGTCTCCGTCTCAAAAA
AGAAAAAAAAAAGTATGGTAATTTCTCCATTAACTTTGATGCTKCTATGGTCTTGATCTCCAGGTCAATGCAATGCCCCAGAATGGCTTCCATTTGCCAG
GCCTACCAACCTAACTGATGARTTTGAGTTTCCCATTGGGACATATCTGAACTATGAATGCCGCCCTGGTTATTCCGGAAGACCGTTTTCTATCATCTGC
CTAAAAAACTCAGTCTGGACTGGTGCTAAGGACAGGTGCAGACGTAAGTAACTCTGGAGTGGGAACCCCCCTGTTAGTCAAACATCYGTAAGATCTGATT
CAATTTGTTCAAATTTTGTAACTGAGTTGCATATGACAATTAGTTTGCCAAGGTGCAATACATATGAGAATTATTCTTGTAGATCATACCTTGTTACTGC
TTTGAGTTCCTGGCGCCTTCATTAAAAGTTTATTTCATGAGAAACAGTCATTGCAGGACATGATTGAGGGAAAATCCCCATTCACTGGGGGTCTCCCATT
TTCATGACTAAAATTAAGTAATGAATGACTTGGGACAAGAAAGAGAAGTGGATTAAATAACTAAAAGATGTGACAATCTTGGGCTTTGAGATCTTTGGAT
TATACCAGTTGAATTGAATTACAGATAATAACRAAGTTTACATTTTTCTGGGAGGCATAATATGGGGATGAAACAGATCTGAAAGGAAAGTTTTTTTTGA
AAGGGAGCTGATCCTGAGGCAGTCTGGTGAGTTTCCTCAAGGTAGCAAAATCTGTGGAACCATCAGAACTGCGTGTGTTCCTCAGTAAGCTACAGGCAGG
TTGAGACCTTATGTACTAAAAAAAGTTTTTAGTTTACTCTACTTGGCTCCAAAATTCTGTTTCTTTCCTGTAGGTAAATCATGTYGTAATCCTCCAGATC
CTGTGAATGGCATGGTGCATGTGATCAAAGGCATCCAGTTCGGATCCCAAATTAAATATTCTTGTACTAAAGGGTGAGTTGGCATCTCTTGAACCAACAT
CTCTTGGTTCAAGAGTTCTAACACAGCCTTACTACCTTCTAGTCACATGTCAGAAAGGACAACTAAACTATTACCATCTGCTCTTTAACGGCTTCAACAC
AGATGTTTAGCTCCTGACTGAAATGAGCAAAGGTATGACAAGATYGGGGGAAAATCATCTGTATCCTTGCTGGAAACCAAGGCAGAGCATATATGAAAAG
TGTGGCATTCATTGGGTGGGAAGGAAGAAAATGGGGGAAGAGTATAGTCAAAGCACACAAACAGCCTTAACGCAGAGGGGACATTGCTGGAAGAAAGGGA
AGGCCATTGAGTAACTGTGTGAGAGAAATCTTAACGGTCATAGCACAAGTAGTTTGCTAGGGCTGCTGTAACAGAGTACTCCAAAACGGGTGGCTTAACA
CAAATGAAGTTTTTAAAATTCTGTTCCGGAGGCTGAAAGTGCAAAATCAAGGTGTTGGCAGAGCCATGCTCCCCTCTAAAACCTGTAAGGATGGATCCTT
CTTTGCTTCTTCCAGCTTCTGGAGCCCCAGGCCTTCCTTGGCGTGTGGCAGCAGAACTCCCGTTTCTGTCTCTGTCCTCACATGGCCGTCTTCCCTCTGG
GTCTGTGTCCTCACATGCTGTTTTCCTGTCTGTGTATGGCTGTGTCGAAAGTGCTCTCTTTTAATAAGGACACCAATCATAATGGATTAGCGCCCACACT
AACGACCTCATCTTAACTGGATTGCCTCTCCAAAGACCATATTTCCAAATAAGATCACATTAATAAGCACTGGGGATTAAGACATCAATATATTTCGGGG
TAAGGGGGACACAATTCTCATTCATTGCTGGTAGGAATGCAAAATGGTACCATGACTTGGAAAGATAATTTGGCAGTTTTTTATAAAACTAAACATACTC
TTACCATGTTATCCAGCAGTTATCCTTCTTGGCATTTATCCAAAGGAATTGAAAACTCATGTTCACACCAAAAAAAAAAGAAATCTGCACACAGATGTTT
ATAACAGCTTTATTCATAATTGCCAAAACTTGGAAGCAATCAAGATGTCCTTTAGCAAGGGAATGGATAAACTGTGGTACATCCATACAATAGAATATTA
TTCAATACCAAAAAGAAATGAGCTATCAAGCCATGAAGAGACATAGAGGAACCTTAAATAGTGAACCTTTTTTCACCATCACTAAGTGAAAGAAGCCAAT
CTGAAAAGGCTACATAACATATGATTCCAACTATATGCCATTCTGGAAAAGGCAAAACTATGGAGACAGTGAAAATATCAGTGGTTGTCAGGGGTTAGGG
AAGAAGGGGATGAATSGGAAGAGCACAGAGGATTTTGAGGGTAGTGAAACTACTCTGTATGATGCCATAACAGTAGGTACATGTCATAATAAATTTATCC
GAAGTCATATAGTGTACAATACCAAGAGTGGACCCTAACATAAACTATGGACTTGGGGTGGCCATGATGTGTCAGTGTAGGTTCCTCAATTGCGAAAAAY
GTACCACCCTGGTGAAAGATGTTTATAATAGGGGAGGTTATCCATGTATAGGGGCAGGGAGTACATAGGAAATCTCTGTATCTTCTGTTCATTATTGCTG
TGAACCAAAAACTGTGCTAAAACACAAAGTCTATTTTTTAAAACTGCATAGACATAAATACATGGGCATATGTGCATAAACAGACACGCACACAAATAAG
TGCAGGTAAAACAGGAAATTTGAACAAAATCTGTGGATTATAACTGTTTCAATATCTTAATGTTGATGTTGCACTATTGTTTTGCAAAATGTTATTATTA
GGGGAAAATTGAGTAAATAGTACCTGGGATCTCTCTGTACTATTCCCTGCATGTGAATCTGATTATCTCAAAGTAAAAAGTTTTTTTTTTTTTTAAAGTT
CCTACTAAATTTCCAAGGGGATGGGCTTCCCCTCAGATCACTACCCCTTTTCAGGGAGCAATAAAGTAATCTTCCTTGGAATGTAGCAATCTGTAACCAA
TCAAAATGCTGTAACTATGCATGGTCCCATATGGAAAATATAATCCTGCTAAAATTTCTCTGTCTCTGCCYATGTAAGTGATACCTTATGTCCTCCACTT
TGGAGTGCTGACCCCATTCATTTGGAGTTGGTCTCTTCCAGGTGGCTACCCTTAACCTTTGTGCTCAAATAAACTCTATCCTTAAATATATTTTCTGAAT
CTCATTATTTAAGGKTGAAAATGTGCTAACCTAAATAATTCACAGGATTTGTTTTTTATTCTCATTTTTTCCTAACCTATCCACCTGGTTCAAGGCACAT
AGATTAAGAAGGAAAATGGAAATGGGACTAATATCCCAGGCTTCACTGTCCCTCTTCGGGGCCCTGGGGAGGAGACTCCCAAAAGTCTAGACATGTTCAC
CCACATCCTGTATGTGGTTTCTGGAAACGAAATGATCATGGCTTTTCCTGAACCATGGCTTAACTTTGTGAATCCACAACTCTCTCTTCCCCAGGAGATC
CAAAAAGGTAGGGTAGGATGTAAAGGCTTCAATCTGTTCAAGTGGATATGAGACTCCCTGGCTCCCCTTACAATAAGTAGCATGGATTTTSTCTCTCTGC
CTTACTTCCTCCAAACATTCTGAATGAGAAGTGTTCAAACCACTATTTGTTCAATTGCTTAATCTACTTTGGGACACAAGTTTAATAAATTAAAATATTC
TTCTATCTGTTCCCCTTGATCAGTGAACATAAAGTTATCTTTTGACTCATATTTAAAATGTTCAGTATTACAACACTGAACAATAGTATGGAGGAAAAAA
AATGCCAACTTAAGTTTGAACTTGCTTCACCATTCCTATCCCAACCCCCATGATTAGAAAATCAAAAAGAACACTTTGAGAAATAACCTCAGTGGGGTCA
AAAGCCAGAGGAGCCTCCAGGATCCCTTGTTCCTAAGACAAACAGGCAGGAGGAGGTGCACATATAGGATTGCAGCTGTTCTTCACTTCATTTGTTCACA
TACTTCATACTTGTGTTTATGTCTGTTGGCAGTGCAATAGAAAATGATTTCATTTTTGGTGGTATACTAGAAGGCATTAAAAAACAAAATAAGGCCGGGT
GTGCTGGCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATTACCTGAAGTCAGGAATTCAAGACCAGCCTGGTCAATGTGGTGAAGCCTGTTTC
TACTAAAAATGCAAAAATCAGCCRAGTGTGGTGGCAGGCACCTGTAGTCCCAGCAGCTAAGGAGGCTGAGGCAGGAGAATCTCTTGAATCCGGGAGGTGG
AGGTTGCAGTGAGCCAAGATCGCACCATTGCACTCCAGCCTTGGCGACAAGAGTGAAAATCTGTCTCAAAAAAAAAGAACAACAACAACAGCAACAACAA
AAATCCCAAATGATATTGAAGTCATTAATAATTACATCATAATCACTAGTATAATGTAATAGTGCATCAAGTATCTTCAAAAGCACCCACTGTTCTCTCA
CTATTTATTTGATCTTCATTTGTCACTGTTTTGTTGTTTGAATAAAGCTTTATGTTGCCAGGTTTTCTTACATACTCATAAAGCAAAGTTCTCAGCTATA
CCAATAACCATGACTGTTATTTGACATTGCTTCATTCCTTCATGTATAGTACTATCAAGTTTGACCCTACCCTCACTATGACTAGTTTCACCCAACCATC
TATCACAACAGAGAGTCTAACGTGAAGTAAAATAAATGTCATAAATTATTCCAAATTTATGGCACACTGTGAACAGTTTGAGACATACTAATTGAGAATT
GCTGACTTTAGTATTTTAAGTATAAAATGAGTGTTCAATTCTTTTTGATCAGCCTGGATTTCCTTTGGTTCTAGTTATGTATCCCCTTCCTTCCTTCCTT
CCTTCCTTTCCTTCCTTCCTTCCTTCCTCCCTCCCTTCCTTCCTTTCCTTCTTTCCTTCTTTGCTTTCTTTCTTTCCTTTTTACTTTCTTTTTTTTTTTT
GATACAAGGTCTTGCTTTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCAGCACTCACTGCAGCCTCAACCTCCCTGACTCAAGCGATCTTCATGCCTCA
GCCTCCTGAGTAGCTAGGACTACAGGAATGTGCCACCACGCCTGGCTTTTTTATAAATTTTTTGTACAGACAGCGTCTCACTATATTGCCCAGGCTGGTC
TCGAACTCCTGAGCTCAAGCAATCCTCTTGCCTCAGCCCCCCAAAGTGCTGGAATTACAGGGGTGAGCCACTGTGAAGGGCCTAATTTGGCCTTCTTTAA
TGAATCTTATTGATAAAAGCCCATCCATGCATCCGTGCATCCATACTTTTAAGGCAAAGAAATACATACAACAGGACTGTATACACACATATACATGTAT
ATATATGACAGCTTCCCTGCACTCAAGAACTTTGTGCTATCTTTTAAAAAATGAAATTTATAGGAAAAACTACAATTCATCTTAGATTTGCATAAAAAAG
TGTCATAAGGTAATAAAGAAGAGAAAGCTCATCCAATTGAGAATGTATGAAAAAGAAAGTCAAAAAGTCCCAAGAAGAATGTGAAACTTGGGAAAGTGAT
AGATAGTCCTTTGATGAGTGTAAAAAGTCCCTCTGAATCCTATAAGAGTGTAATCTCTGGAAGTAGTAATTTAATTGGGTAGTTGACCTGTGTCTTTAGA
ATGTAACATTCCTTATTTTTTGCCTCTAGATACCGACTCATTGGTTCCTCGTCTGCCACATGCATCATCTCAGGTGATACTGTCATTTGGGATAATGAAA
CACCTATTTGTGACAGTGAGTTGAAATATCCCTTCCTATTTCTTTTACCGACACATTCTAATTTTTCTCTGGAATAATAAAAATCTTAACTGAATTCYTT
CTRTGCAATCTGTCCTTCACACGGCTGAAGACTGCGGTAATGTTCTCGAATATTCCTATGGGGTTCCTGGCAACTCTTTCTTTAAGTTCTTCCTTATCCT
GGGATGTGTCTTTTCTAATTCCAGAAGTTTAAATACATAAAAGCCTTCAAACTTGATTTTACTTCAATAAACGTGAAATTATGTTGTTTCTACCACCTCC
AGTATAATAATCATCYTGCTTGGCAAATCAGTAAAGATTTTWAAAATTGATACTCTTCAAGGTTAGCGAAGCTGTGGAAGAACCTGGACTCTCATGTACC
ACGAGATCAACACATCCTCTTGAAAGGCCCCATGCACTATAAACCTCAGAAGTGAACATATATTTTAACCTAYTTCTTAAAATTTATACTTAGGAAATAA
TCACACACTTTTTAAAGYAGTTTGGTATAAACTTTTCATTGCAGCATTATTTATATTAGTTAAAATGTTAGAGTAACCTAAATATTTTAAACTATGGTTT
GGAAATAATCTACTAGTAGGAAAAAGATGTGTTCAAATGACCATTATAAAGAATTCCCTAAGAAACATAAAAYAGCTATGCAGAATGAAAATAAGTATAT
CCATACACTGGCATGGTATTCAGCCATAAAAAATGACAGCATAAAGAAGCACTTAATGACTAGAAAGAGATGTATTTTACGTGGAAAAAGAATCAGATGA
AYGGCATATATGGCAAGATCTCACTTTATTAAAAAATAATACACCTATGTAGTGAGGGCCAGGCTGAGGCTGAGAGAAATACAGTGTATAACATCTTTGT
CTTACTCTTCTCTTTGGATAACTGGACTCCTTTACTTTTCTTCTTGGTATTTAAAAATGTTACTTTTACTAGAAAGTTTAMGAGCTTCAGAATCTAAGTT
TACAAATGACATTGGTCACACATTTATTGCTGTTTATCCACTTTAAGAAACAGTTTTGCTATTTTGTAAAACAAATTGGGAAACCTTCCATCTTATTTGA
AATCTGTAATAAACATGGAATTGGAATAGGAATTTTCCTGGAAATATGAAAAAGATTAGTAAAATAGAGAAAACAAAAAATATAATAATACACCTATACC
TGTATYTATTTTTTATCTCTGTTTCTACTTCTGTAACCTCTCTGTATCCAAATCCTGGTAAATGGCCTCAAGTCTTCTTGGAAAAGGCTAGGGGAAGATT
TACAATACATGCTTTTGAYTGYGTAGCATGGTGCTTCCTCAAGAGAATCCAGTCTCCCATCCGTTGGTGCTGCTCTGGGTCTATAAACTATTCAAGTCTA
GGAATTGTTGATGAACAATGAACTTCTTTTGCAATAATTCAAGTCAGACTTCTATTCACTTGACCTAAAACTCTTACACTTATACAAATCAAGTAACACT
TTAGTCGGCTATCCGTCTACTTTGGTTTTAGAGACTCCATGATCAATTAGCCCAATAACAATGTCCTCTTCAATCAAATCATTCTGATTGCTGTTTCAGC
TCAAATATGCATTACAAGAACCCCCATTGTCTCTGGCAATTAAGTGCTGCCACTGGGACTCTGCCACCCTGAGGTCCTTTGGTCCCCAAGTGAATTCAGA
GAATCCAGTTCAATGGCAACAGTTCCCATTGTCATTCCTGGCCTACAGAGAATGAACCGTTGCAGAGGATGCTGAAACTCCCCATGTGAATGTATTTCTC
AAGCCTCTGGTAAAAGGTCTGTCTTCTGAACCCTCTACTCCTGCACTGTGCCTCACCAGCTCTATCCAAGGATACAACTTTCAGAGTGGAATGGCTGTTG
CTTAACTTCTGCCTCTCAAATATCAGGCTAATTTCTCATGCTATAACCCTAGTCCAGAACCGTACAGAGAAAGTAAGTCTGGAAAACTTAATTCCAAATT
GGCCTGGTTGACATGGTGCCAAACCACCAAATAATTATAATTTTATTTAACTCTTTGTCTTCTTTTCTTTCTTTCCTTCCCTCCCTCCCTCCTTTCCTCC
CTNNNNNNNNNNNNNNNNNNNNTCCCTCCCTCCCTCCCTCCCTCCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCCTCTTT
CCTTATTTTCTTTCTTCTTTACCACGCTGGCTAGGACCACCAGTATAACATTGAACATTGGTAGCAATAGATGTCATCCTTGTCTTGTTCCACATCTCAA
AGTTAAAGTTTAAAACATTTCACCATTAAGCTGGTGTTTACTGTAGGCTTTTGGTAGATAACCATTTTTGAAATAAGGAAATTATCTTATATATTCTTCA
TTGCTAAAAAATTTATGTCTTTGAATCATGTTGAAGTTTATCAAACACTTTAGTTACATATATTGATGTAATCATATCTGTTTCTCTTTTTCTGTTAATG
CAACAAATTGTTTTGAGTACATTTTTGAAAGGCAAATGATTTTAAATTTCAATTTTACATTCTTAAAATAAATCAACTCAGTCATAATATTTAATCATTT
TTATATATGGCAAATATGCTTTTATGATATATTTTAGATGTTTCTATTAAAATATAATTCATGTATCATAAAAGTTACCTTTTTAAATTATACAATTTAG
TGGTGTTTAGTATATTCACAAAGTTGTGTGTTATGGTCTGAACGTTTGAGTCCACCCCAAATCCATATGTTGAAATCCTTACCCCTAAAGTGATGACATT
AGGAAGTGAGGCCTTTGAAAGATGATTAGGGCATGAGAGCAGAGCCATCACGAATGGGATTAGCGTCCTAATAAAAGAGGCCCGGAAGAGCTCCTTTGGC
CCTCCCACCATGGGAGGAGATGCTGAATCTGCCAGTGTTGGTCTTGAACTCCCCAGCCTCCAAAACTACAAGAAATAAATTTCTGTTGTGTACAAGCTAA
CCAGTTTATAGTATTTTGTTATAGCAGCCCAAATAGACTAAGACATTGGGCAACCAGCACCGCCAATTAATTCTAGAACACTTTCATCATCCCATTCCTA
ACATATTTTAGAGATAAGACTATAATTTTCTTTCTTGTAATGTCCTTAATAAGATTTTGATATCAAAGCTATGACAGTCTTATAAAGCCAGCTGGTAGTG
TTTCATATATTTGTTTCCTTGTAAGGGTTTATATAAGATTGGCATTATTTCTTCTTTAAAAATAATTCACCAGAAAAGGTATGTGGCCTGGAGTTTACGT
TCTTGGGAAGTTTTTTTTTTTCCAACCATTTTCCTGTACCATGTAGACTTTTGGCTGAAGTATAACATATATATATAYATAYACACACACACACACACAC
ACACACACACACATATATACATATATACTTATATGTATATATGTATATATACGTATATACGTATGCATACGTGTATGTATATGTGTATATATGTACGTAT
ATATACATACGTACGTATATATACGTGTATACGTATATATACATATACATATATAGGTATATACATATATATACGTATATATACATATACATATATAGGT
ATATACATATATATACGTATATATACATATACATATATAGGTATATACGTATACRTATACATATATAGGTATATGTATACATATATACACACTATATATA
TATACACATATATATAGTGTGTATATATGCACACATCTTAATCATGCAGTTCAATGGAGTTTTACAAAGTAAATGTATCCATGTAAACGTCACTCAGATT
AAGATATAGAACATTATCAGCACCCCAGAAGCCTTCCCGATGCCCTTTCCCAGTTATCTTCCCAAAGAAACCACTATTCTGATTTATAACACTAATAGTT
TTGTTGCTTCCTAAATTTTATATTAAAGGAATCAAAAAATAGATACTCTTTTGTGTCCAGCTTCATCTCAATGTTATATTTGGAAGAGTCATTTTTGTTT
TTGCAGGAAGGATTGTTGGGTCTTCTTTATTATTATGTTGTATTTCATTGATGATCTTGAGTACCTTTTCACGTTTGTGAAGTGCTATTCCAAACTTTTG
CCTATTATTTATTAGTTTGTCTATTGTTTTGTAGAAGTTCTTTAAATATTCTCATGTTTTCTAATAAATGTAACACAAATATTGTCTTTCAGGCTGTGGC
TTTTCTTTTTTCCTTCTTAATGATGTCTTTTGTTTATGAAAGTTCTACATTTTAATAATATTCAATTTATGAGTCTTCTTTTTTCCAGTTACTGCTTTTT
CTATTCTACTTAAGCAATTGGGCCAAGTGAGGTGGCTCATGTCTATAATCCCAGCATTTTGGAAGGCCAAGGCAGGAGGATTGCTTGAAGCCAGGAGTTC
AAGACCAGCCTGGGCAGCAGAGTGAGACCCTGTCTCTACAAAAAAAATAAATATATAAAATTAGCTGGGCTCAGTGGCACATGCCTGTAGTCCCAGCTAC
TTGGGAGGCTGAGGTGGGAGGATCCCTTGAGCACAGAGGTTCAAGGCTTCAGTGAGTTATGATGGTGCCACTGCACTCCAGCCTAGGTGACAAAGCCCTG
TTTCTTATGGATGGGCAATAGATCTAATATCATCTATTAAAAAGACTATTCCTTGCATAGTGCAATGCGACACCACCATGACCATAAGTCAGGTGACCTT
ATGAGTGGATCTCATTCCAGAGAGGTTCTGTTTCACTGGTTTATTTGCCATACTATAAGCACTACATTAAGATTTTAATTACTATAGCATTACATTAAGA
TTTGATATCTGGTAGCATATATCTCCTAACTATGTGCATCTTCAAGATTTACTTGGTGATTCTTGGCCCTTTGCATTACCATATAAAATTTAGAATCAGC
TTGTCAATTTCCACATAAAGAATCCTACTTGAATTTGTATTAAGTTTCTGTTGACTCAGTAGATCAATTTGTGGACAAGTAACAAATTTACAGTTTTGAA
GTTTAAATTTATGAATATGATATATCCTCCCATTTTGAAGTCTTCTTTAATTTCTTTTAATAATATTTGTTAATGTACATTATAGAAGTCATGTACCTAT
TTCATTATCTTTATTCTGACATATTATTTTTAAAATTTCATTCTTTAATTATTTACTTCTTAGATATGCACCTGTTTCATCTCAGCTCCAGCAAATTTGT
TAAATTTACTTATAAATTGAATAGTTTATCTGTAGATTCTTTTGAATTTGCTGTGTAATTATGTCATCTATGAATCTGACAAAGTTTTTACATCTTTTCC
TTTCTTATGTCTTTTGTTTATTTCTCTTGCTTTATTGCATTGGCTAGAACCTCCAGTACAATATTGAATAGAAGACATGATACAAGGCTTTTAATAGTCC
TCATAAATCATGATGTATGCTGTAGATTTTTGCATGATATCCTTTATTAGATTAAGGAAACTCCCCTTTCTTTCTAATTACTAAAAGATTTATGAATGTT
CTTTCTAATTGATCACTGCATGTATTGAGATTATCATGTTTCTTTTTCACTCTGTTAATGTAATATATTACATTGATTGATGTTTAAAAGACAAACGCTG
AATTCCTAGAATAAACCTATGTTGCTTGTGATGTGTTATAGATGATTATCCTATGTATGGGGGATATGCGTGTGTGTGTGTGCAGGATTGCTCATATTTT
TATTGTAACATTGTAACATTGATTTAATATTTAAAATCAGTCAAGGTAAACCTCACTTTGATCATTGTATCATCCTTTGGAAATATTGCTGGATTCAGTT
TCATAATATTTTGTTCAGAAAATTTGCATTTATATTCTCAAGAGATCTTGGGTTATAATTTGCTTTTATTTTAATGTCCTTATCAGGTTTGGGCATCAAG
ATTATGTTGGCCTSATAAAATGTGTTAAAAATTATTTATTTTTTCTAGTGTCTGGAACAATTTGTGTAACATTATTTTTCCTTATATGTTTGGAAGAATT
CAGCAGTGAAGCAATCTGGACCTGAGGGTTTGTTGTTGTTGTTGTCAGGATTTAATATCTTTAATAGCTGTAAAACTATTATTTTATATCTTATTGAATT
AGTTTGGGTAAGTTATATTTTTCAAGGAATTTACTCATTTTATTTAGATTTCCTAGGTTATCAGCATAATGCTGTTTATTATAGTCTCATATTAGCCTTT
GGATGCCTGTAAGTTCTGTAGTGATACCCTTACACTCATTAATTTCTGATATTGGTAATTTCTTTTGCTTCTTTTTCCTTGATTAGTTTTACCGGGGCTT
TATCAATTTTACTAAGCTTTTCAGAAAAACAACTTTTAACTTTCTTGTTTTTTCTTTAGTTTATGACTATTTTCTCTTTTATTGATTTCTGCTTTAAGCT
TTGTGTATTCCTCCAGTCCTAAATTCTTGATACTAATTAATTTGTTTCCAACCTTTATTTTTCTAATATGTACATTTAACCTATCAATTTTTCTCTAAAA
CTGTTTTATTTATTTCCAACAATCTTTATATTTTTATTATCATTGTACATAAAAGCTTTCTAATTTCACTTTTAATATCTCCTCTGACCCATAGGCTGTT
TAGAAGGGCATTGCTTAATTTCTAAATATTTAGAGATCTTCTAGTTATCATTCTTTCATTAATTTAATCATTTGAGACATGGTTTATTGCCCAGAATATG
GACGATTTTGGTAAAATGTTACATATGCACTTGAATGTACAGTTATTTTGCTTCATTTTCTAGAAATGTCATTTAGGAAAATGTGGTTTAGAACAGTCTT
TTTTTCCCCCTCCACTTGTTCTCTCAGTTATGGAGAAGCATGTGTAAAATATCTGTATTAGTTTCCCAGGGCTGCTGTAACAAATTACCACAAACTTAGT
GGCTTCAAAGAAGAGAAATTTACTCTCTTAACAGTTTGGAGGCCAGAAATCCAGTTAAGATGTCAATAGGATTGGTTCCATCTGCAAGCTGTTCTGTGCC
TCTCTCCAGGCTTCCTTCCAGTGGCTGCTGGCAATCGTTGATGTTCCTTGGCTTGTAGATGCATCATTTCCTTCTCTGTCTCCATCTTCTCGTCGCCTTC
TCCTCTGTGTGTGTCCTTTGCTCTTCTGTCTCCTATAAAGACACTGGACATGGATTTAGAGGCCACCCTGGCAATCCAGAATGGTCACAGCTCGAGATCA
TTAACGTGATTGTATCTACAAAGACTCTCCAAACTGGGTCATATTCACAGGTTTCAGAGATCAGGACACAGATATTTTTTAAGGAGGACAGTGGTTATTC
AACCCATTACAATCCCCAACTACAACTATGAATTTGTCTGTCTTTCCTCTTTGTTCTAGCAATTTTTACTTTATGTATTTTAAACATGTTATTAAATGCA
TGAAATTTTTGGTTTATTCTTTCTGCTGAATTGACTATTTTATCATAATGAAATGTCTCTCTTTACCTCTCATAATACTTCTTACCTTAAAATCTACTTT
GCATATTAATACAGCTATATAAGCTTTCTTTATTGTTTTTATATTATATGTGTTTTAAATCTTTTACTTTCAGCCCTTCTTTGTCTTATATTTAAAGCTT
GTCTCTTATAAACATCATATAGTAAGGTTTTGTTGTTTTATTCAGTCTTAGTTGTTCATTGGTGTGTTTGGAACATTAAAATTTAATAATAAAAATTAAA
AATAAATAAATTTAATATAGTTACTGATATAAAGTCTAAGTCTTGGTATTTGTTTCATGTGTTTGTTCCTTTATTCCTCATTTCTCACATTTTTTAATTC
ATCAAGTATTTTTATTATTCTATTTCCCCAGTAGCTTTTAAGTTATATTCCATTTTTTATTCTTAAATGACTACTCTAGAGATAGACATCCTTGATTTAC
TATAGTCTGCTAAAATTGTACTTTTACCACTCTCCAAACAACGCAAGTACCGAAACTATTAATAGTTAATTCCATTTATGTCCTCCCCCTCTTTTTGTAT
TGTTGCCATACGTTTTGCAAAAAGAAAAGCTTCAGCTGAATTAAATTTAAAAGAGTTTAATTGAGCAATGAACGATTCGCAAATCAGGCAGCCTCCCGAG
CCAAAGTAAGCGCAGAGACTCCAGCCCAGCTGCAATGGGGGAAGAGGATTTACCGACAGAAAAAGGAAACTGACGTACAGAAAACAGAAGTGAGGTACAG
AAACAGCCGATTGGTTATAGCTCAGCGTTTGCCTTATTTGAAAACAGTTCAAACAGTTGGCCACATTTGATTGGCCAAAACTCGGTGATTGGCGTAAGAG
TAGTCTGCGGTCTGTTTACATCTTCACTTGTTATAGTTTGCAGTTTACAGAGAAACCTTTAGGCTGAGCTTAAACTACGTAAGGCTTTAGGCTAAACTTG
ATTTAACGATTTACATATATTCTATATTTCAAAGACACTGTTGTCTTTATAAAAACAGTATTTATTTATATTTACACCTTAGTGAATTCTTAGAATTTTT
ATGTTGCCTCAGCATCCATTTAGAATATGTTTAGCTTTCTCATGCCAGAAGCAGGGCTTAGTCACCCTTAATGCCCTTTCTAGTTCTGTACCTCCTCCCA
ATTTTKCAACGTGGTCGAGCCAGATATCTGCCTTATACAACTGCCTCCTGGTGACCACCTCTCTATGGGACAGCTAGATAAAACCTACTTGACTAGCGTC
CCTGACCTCTGTGCCCTGCATGGACTTCGCAGATATGCTGCCGTGACCACCTCTCAGTCGCAGCACGACTGCCTGGAACATGTGCCTGCTTTCTTTAAAC
TCACCAATTAGAACTCCCCATGGGAGATACCTTGGCTTGTAGATGCAAGATGCTGGGTCATACTCTGGTCCCCAATAAAGGCATTGGCTGATGGGTCCCC
TTCTCTCTCTCTGTCTCCTCGCGCTGACCAACCTCTGTGTGATCTTCAGGCGTGCCATACCCCCAGCCCGTAATAAAATCTTTACTGCCATCTTGTGTTT
CTTGTAATGACTGAAGAGGTTTTCTCTATCATAAAGATCCTAAATGAAAACATACCCGCATATGAGCTCTTTCTGGTGTGTTTCCTTCTTATTGCAATTC
TGTCAATTCTATATGAAACTATTTTCCTTCAGCCTGAAAAAGTCTCTTTGGCATTTTTGTATTGTAGAGCTTCTGACAACAAATTCTTTAAACATTTTTC
TAAGTGTGGTTCCTCTGAAGGTTATTGTCCATGTTTCCTGGCTGCTTTTAAAATGGATTACACTTTAAAACAGATTTTTTACAATATTATTGTGTTGTGT
CTAGGTAAGAATTTCTTTGTATTGCTTGGGTTTGCACATTTTTTTTTTTTTGGTTGTTTTTTTTTTTTTTTTTTTTTTTTGACAGAATTTCACTCTTAYC
ACCTGGGCTGGAGTGCAGTGGTGGGATATCTCGGCTCACTGCAACCTCCGCCTCCGGGGTTCAAGTTATCCTCCCACTTCAGCCTTCCAAGTAGCTGCAA
TTACAGGCCTGTGCCTCCATGCCTGGCTAATTTTTACCCTTTTAGTAGAGATGGGTTTTCACCATGTTGACCAGGCTGGTCTCAAACTCCTGACAAGAGG
TGATCTGCCCACCTCGGCCTCCCAAACTGCTGGGATTACAGGCATGAGCCACCGTGCCAGGCCTGTATAGCCTTTTGAACCTGTAATTTAATGATGTCTT
GCATCAGTCTTGGAAAATTCTCAGTTATTAATTCTTCAAATGTTGTTTATGCTCAGTTCTCTCTCTCTTCTCATCGAGGGACTTCAGTTAAACATGCTAG
GCTTTATTCTTCTATGTATTTAGTCTGTATTTTTTAATCTTTTTATATATTGGTGCTTGGTTTTGAGTATTTTCTTCTGTCCTAGCTTCCGGTTCATTGA
TTTTCTTTCAGAGTCTAACCTGCTATTAATCTCACACAAATTCTTAATTTCAGCAATCATATTTTACTTTTACAATTCTAGACTTTTTATTTTCCAAATC
TGCCCTCTTCCCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTTTGTTGCCCAGGTTGGAGCACAGTAGCATAATCATAGCTCACTGCAG
CCTCAACCTTCACAGGCTCAAGCAATTCTCCCACCTCAGCCACCTGAGTAGCTGGGAATGCAGGTGTGCACCACCACACCTACACATCTGGATAATATAT
ATATATATATATGTATATATACTTTTTTTTTTTTGTCGAGACAGGGTTTCGCCATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAACGATCCACTC
TCCTCAGCCTCCCATAGCGTTAGAATTACAGGCGTGAGCCACCACATCCCACCCTGTTCTTTTTAATAGTTTCTAGTTCTTACAAGTTTCAATTATACCC
TTGAACAGGTCTGTAGTTCTAATGGGTCAGTTTCTGTCATCAGTAATTGTGTGTGTTATTTTATCTCTCCAAATATCTGGTTATCTTTGATTGTGTATCA
GGAATTCTATTTGAAAACTGTGTCTGTAGAAATAATTTCAAGGCCTTAGATAACCCATCTTCTTCCAGATGGAATTTTTGTCATTGTTTCTGCAGGCATC
TGGGGACATTAGCAATCTAGGACCACTCTAATTCAGTCTCAGGAACTGTGATTTTCCAGGGCCACCCACAGTACCAGTACTTGAAGTACTAGTTCCAGTC
TCTGAGACAGCAAATTTATTTTCAGTTAACCCTGATTACCAGGGCCTAGTTCTTGTGGCCTCAGAACACATCAGAAGGTATTACCAGGCCTTCCATTTGG
GGCAGGCCCTGGACTTCCATTGTTGTCCCTTAACTTCATGAGAAAATCAAAAGTCTGTTCAGCCTCTCAGTTGCCCCGTCCTGATTCAGCTGCCCATTCC
CAAACAATAAGCAGCCCAGKTGCCAAGCCCAAATACCCAGCTCTCAACTGGATTCTCATCTTCTCCTAGATCATGGCCCAGGAATGCTTCACTAGTTTGT
TAGCTTTCTGATGCTTTAACAGATAAATATTTTTAATTCTCCAGTATTTCTAGCCTTTCTTGAGGGTGGATGGTTGGAGCAATATTTTATTTGAACTGTT
GAGATTACTATTAGTAGAAGCAGAGCCTGAAAAATTTTTATTTTTAATTTTAATTCATTCATTTCTAAATTTATCCAATTAAATTCACTCAGTTTTAATT
TCAAGTGTTTTGGGATTTGGGTTGAAGAAATTTTGTTCTAGTTTATAGCAACACAGTATACTATGTACTACTGCTATACTTTAAAATGTATTTAGGGGTT
TTTGTGGACTAATATATGATCACTTTTACACAGATATCATCTTATGATATCAAACTTAGATTTGATGAAATGAGTTGGTAAGCTTCATRTCTTTTATATG
TTGTGAAACCTTGAAATTACATTTGGAAGTATATTTTTGAATGAATTTTGGTAATTTGTATTTCCATTTATATCATTTAGATTTTCAAAATATTTAACCC
CCTGTAGTCTACAGTTTTATAAATATTCTCATATACATAAAAATATGYTTAAATTCTTTTTCCTACTGTGTATATTTGTGTTTTCTCTCATCCCTTATAC
TTTATCTTTTAGCAAATGTTTTTGTATTTTATTTTTCTAAAAAAGCTAACCTTGGTTAATAACAAAAATGGAAATTAAGAAAGCAAACGGAAAAGAGTAG
GAGAAAACTGTRTAAATACTATAACACTATGATCAAAGAGCTATTTAAAATGAAAAGAATGTGGATTGAGTTAATACATGCATGCAAATACTATAGGAAA
TCATATCAGTAAGAAAGGCAGGACACATCATATTATGCCCATTGAAGCTACAACTTTATAAAAATGTACCTATGTGTTAGCAAAGATTAAAAGCAAATAA
TGAATGTAAAAATAGCTATAGTTTAGTGACTCATGAGATTTCTGTCATTCATWATTTAAACTGACTGTTATTTATCCTGCTCTTCCTTTTTCCAGGAATT
CCTTGTGGGCTACCCCCCACCATCACCAATGGAGATTTCATTAGCACCAACAGAGAGAATTTTCACTATGGATCAGTGGTGACCTACCGCTGCAATCCTG
GAAGCGGAGGGAGAAAGGTGTTTGAGCTTGTGGGTGAGCCCTCCATATACTGCACCAGCAATGACRATCAAGTGGGCATCTGGAGCGGCCCCGCCCCTCA
GTGCATTATACCTAACAAATGCACGCCTCCAAATGTGGAAAATGGAATATTGGTATCTGACAACAGAAGCTTATTTTCCTTAAATGAAGTTGTGGAGTTT
AGGTGTCAGCCTGGCTTTGTCATGAAAGGACCCCGCCGTGTGAAGTGCCAGGCCCTGAACAAATGGGAGCCGGAGCTACCAAGCTGCTCCAGGGGTGAGT
CTGACTGAGGCCTAGAAGGGCCCTGCCAGTGACATGCGTTGCTGTTGGATCAGGAGATTAGTATTTGTTCAGGGGGAGGGATGTGTGCTGAGCAGGGTCG
AGGAGCAAATTTTCTAGGTAGTGAACATGAAATTCAGAAGGTGTGTGTACATGCACATGTGCTGAAATTGCGAAGCAAAGCTCAACCTGGGCAAGGGATA
TGATGTTTCTTTGGGGTTCTTATAAACAGATCTATCAATTACCTTTGAGTATAATAATGGTTGATACAAAATGAGTGATTCCTCTGGCCGGGCACTATAA
TACAGGCTACATGTGAATTTTAATCCTTAAAACAAAGTTATTAGGTAGTTACCAGTTGTTCTATGTTTGTCTGTATTGTTTTGCTTGAGATACTGTCTTG
ATCTGTCACTCACGTTGAACTGCTGTGGTGCCATCATGACTTACTTCAACCTCCGCCTCTCTGGCTCAAGCAAGTCTCCTGCCTGAGCCTCCCAAGTAGC
TGGGAATATAGGTGCATGCCACCATGCCTGGATAAGTTTTTTATATATTTTTTGTAGGGATAGAGTCTCACCATGTTGCCCAGGCTGGTCTCGAACTCCT
CAGCTCAAGCAATTCACCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGTGCCCGGCCTCTATGTTTTAYAGAGAATATGTGCCTT
AGACACATCAGATAACATTCTGAGACAGTAACTTGCAGACAAAACTGGATTGCAAGTCCACCTCACTCCAGAGCCTTGGCTTTGCTCATCAGCATTCAGT
CATGAAATCAAAACTTACTCTAGATACTTTCAAGGAGGGAGGGATTTCATGCAGGTTGTATTAGTCTGTTCTCACATTCCTATAAAAAACTACTTGAGCC
TGGGTAATTTATAAAGAAAAGATGCTTACTTGACTCAGAGTTCTGTAGGCTGTACAGGAGGCATGGCTAGGGACCCCTCAGGAAAGTTACAATCATGGTG
GAAGGTAAAGAGGAAGCACGCATATCTTCATATGCTTGGCAGGAGAGAGAGAGAGAGCAAGGCAGAGGTGCTACACACTTTGGAACAAGCAGATCTCGAG
AGAACTCTATCACAAGACAGCACTAGGGTGATGGTGCTCAACCATWAGAAACCACCTCCATGATCCAGTCACTTCCCACCAGGCTCCTTCTCCAACACTG
GGAATTACCATTTGACATGAGATTTGGGAGGGGACATAGAGCCAAACCATATCGCAGCTAATAGGTCACAAAAATGTTAGAAGGGCAGGAAAAGCAATAG
GACAAAGGCAAAGTTACGAGAGATCAGGGAGCTGCTGTGGCTCCCAGTCTACAGCACAGGAGCCTGGAGTGATGGTGAAATGGCCAGCCCCTCCCACTGA
GCAGGCAGCTCCCTGTAAGCTGCTAGTGCTGCAGGAGCCACCACTGCTGCCAGAATGCAGCTGATATTGCTGGAGCCAAAGTCATTGGCATCGTTACAAT
TGAAGCTGTAGCTACTCACTGAAGCCATCTATACTGCCACTGCCTGAGCCACTTCTAGAAGTAGAACAGATTCTGCCATCATCCTGCTTTTTAATTTGGT
ATATATGCCTCCAATTGGCAGAACCTAACCAGAGCCCAGCTATCAAGGAAGATGAACAATTGTAGTTTTAAGGCTTCCTTTGCTAGCTGTCAAAAGACAG
TGCAGAAGTGTGAGGCTGGGGGCCAACAGAAATTTAACCAGCACAGCACCTCAATATTACATCACCAGGCATTGATTAGTCCAGGGAAACACTGGGTGAT
GAGCCCTGAAAATGGACATTACAGCATCAGAGTATTTACAAACTCCYTAAAGAAGTCATTTTTCTATTCCAATCCCCCATTTGATGCTTGAGAAAGCTGA
AGTCCAGAAAAGGGAACTGATCTGCTCAAAGACAAACCGAAATTATTTTTTCCATTTTATAACAGTTTTATGTAATTTAGTTGAGATCCAAATGTGTTCT
GATTTCCTGAGTTCCAATCAACTATATTAAGAGAGAGCCAGCGCTGCCCTTACAATATGTTGCGTAAATATACACTCTCATCATGGTGACAGTAGGTCTT
TCAGATTTTGTTCGACAGTTTCCCACCTTCTCACTGAAGTGAAATGAATGACTAGGCAGCACCTTGCTACATAGCATGAGGAGAGGAGACCCATAGTTCT
TTACCATCCTATGTCAGGTGGCCGCTGAGAGAAGACTTGAAAGGAGATGAGCATAGATGTATGGACGCTCTTTGTTGCACCAGTGTGATAGGTGATGGAG
GGACCTATTAGATGRGACATGGGCAGGGGCACTCCTTTATTGCTTAAAATGCAAGACTAAATTGGTGATGCCTTTCTAGAAAGGAAGTATGAAGATACRA
AAATCCATCATTCCTCCCAATTTTGTACTGGGTGAACAGTAATTGGAAGCATTCTAGAAGGAACTGTCCATTGTGAAATCTTAGTTGCATACTTTAGATG
AAAAACAATGAATTGGAGATACCTCTGTTTTAGTCACAGTTGTGCCACGTGTCAGTTCTATGACTGATGGCAAGACATCTTCCTTGCCCTGTGTATTTAG
TTTATCAATGTAATAAGGCTGTTATTCTAACTTTATTATTATATATAGATTCGTAATTATTATTCCCTTGGCCAGTTTAACAGTGAGAAAAAAGTTGTTT
TCACACAATTAGCTGTACTTTGTTTCTCTCTCCCCAGTATGTCAGCCACCTCCAGATGTCCTGCATGCTGAGCGTACCCAAAGGGACAAGGACAACTTTT
CACCYGGGCAGGAAGTGTTCTACAGCTGTGAGCCCGGCTACGACCTCAGAGGGGCTGCGTCTATGCGCTGCACACCCCAGGGAGACTGGAGCCCTGCAGC
CCCCACATGTGAAGGTGACTAGACTCTTATCTGGCTTGATATTTTTAGCTTGCGTCTTTATTCTCCACATGCCAGTGATTTCTGTTCATTTTTCTTTATC
TCCAGTGAAATCCTGTGATGACTTCATGGGCCAACTTCTTAATGGCCGTGTGCTATTTCCAGTAAATCTCCAGCTTGGAGCAAAAGTGGATTTTGTTTGT
GATGAAGGGTGAGTATGAGCTTGCCTGACCTGCTGGACATTGAAATTGGGGTTGGGAATCAGTCTAAAAAGGGGAGATTTGGTGTGGCACACACACACAC
ACCTTCAGAGAGATGAACTTTCGAAAGTATACCTAGGAAGAAAGGAAAGAAACATATAGAACTAATAACATGAGATATGAAGAGGAAACTGGAACATATA
TTAACTGGCAAGTTCAAAGGCAAGTATAACTACTGGTTATGAATATATAAGTAACACATTAAGCAAAAAATATCAGCCAGAAACGGTGGCTCACCCCTGT
AATCCTAGCACCTTTGGGAGGTTGAGGCGGGCAGATCACCTGAGGTCAGGAGTTGGAGACCAGCCTGGACAACATGATGAAACCCTGTCTCTACTAAAAA
TACAAAAGTTAGCTGGGTGTGGTGGCATGTGCCTGTAATCCCAGCTATTCCGGAGGCTGAGGCACCAGAATCACTTGAACCTGGGAGATGGAGTTTGCAG
TGAGCCGAGATGGCACCATTGCACTCCAGCGTGGACAATAAGAGTGAAACTCCATCTCAGGAAAAAAAATCATATTTTACAAGCAAAAAGGAATATGAGT
AATTTAGAGAGTCCCAGGAAAAAACTGGAAGTAACAAAAGCTTATTATAAAAAGCTAGGATCATTTGTGAATCATTTCAGTAAATTCTTTAAATCGTCAA
CAGTGAAATTTGTAATAGGACTGAAAATGTAAAAATCAGCATTTTTTAAAAAAATCCAGCCATATATCATCTGGTTAATCATGGGCTCTGGGCTCTGAGC
TGGGGTCCTGATGGCTGCTGTTAATATTTCCRGCAAGCTCATTACCTTGTTTATGTCCACCTAGTGCTCTTCGCAGGGTGCACATCTCTACACGGGAGCT
GACCGGCATGGGCAACAAAGCACCTGATCCCAAAATGTAACACAGAATCTTGGCAGCCTCCAAATGCCAGCACCCAGTAAGAGTTAGGAGGGCATCGGGG
TCCAGCAGACATTGAGAATTTTCGACAATTGCATGCARAAAATAAGTCCTCTCTTCTTTCCTTTTTCCCCTAGAATATTCATGCTTACTCTTCAGCAGCC
CAAATTGCCCTTTTGAGCCTTCTTCACGCCATCACAGATGTGGAGATGAAAGGACAGTCTGTTCTCTCGCCAGCTATTTCCCACTTTTCCACTCCAAACT
GGGAGCTGTTTTACTTGCTGTTCCAGGGTCAGAGTTAGGAAGGCATTACATTAGAAGACTGGGTTTCTAATAACAACAATGAGTGATTTATCAGGTTATC
ATGGAGTAATCAGTGAAACTCCAAGCCTGGGTCCTGGGTCAAGGGGATGGCGCCTATGTCATGACCACCTTTTTCAGTTCAAGCAGGACTATCATGTGAC
CAAGCTACTGCATTTTGCCATTCTATATTGTTCCCTTCTGGAGGCTGTGATTTTTCCAGAATAAGGTAGCCTGTGCAACTCTGCCACCTGCTGGCCTAAG
GTCCTAATAATCCTGAAATTGGGGCTGGGCCTTAGATTGTGAACTAAGGGTTCTCTTGGCTGAAACAGCTCACACTATTCACTCCTATTTTCTTCTTTAG
ATTTCAATTAAAAGGCAGCTCTGCTAGTTACTGTGTCTTGGCTGGAATGGAAAGCCTTTGGAATAGCAGTGTTCCAGTGTGTGAACGTGAGTAGCAGGAG
TAACATTTCAGGCCAGTCTCTCCCTTCATCTGTTCAGTATTTGACCCATGACCTCCCCTAATGTGGTTCTTCAATTTTCTAGTTTGAATTATTGATTTGA
AAATTGCTTATTTTAATAATGTTTGGTTGTGAATCAAATGTATACATCACCTGTCTTTGGAACCATCTGATCTGTCTCTGTCCTTCTGTATTCTGTGTTC
TAGTGCGATAAATCCTATGGTAGCATGATTCTAGGTCAGGAGAGATTAGATAATGTGAAGCCTTAACAATTTGCTTTCTTTCTCTCTTTCTTTTGTTTCT
TTTTTCTCTTCCTTCCTTTCTTCAGTTCTTTCTTCCCTTCTCTTTCTCTCCCCTTTCTTCCTTCCTTCCTCCTTCTTTCTTTTCCATTTTGTTCTTCCAT
CAGGTGCAGTCTACAATTTTTGTATATATTTGATAATACACAAATATTAAACATGCCTTTATTTAATCAATATTTATTGATCACATACTTTGTGCCTGAT
GTTCATCTAGCCACAGGAGTTATATCAGTGAACAAGATGAATGAATTCCCTGTCCCCATGTTGTTTCCACTCAGTTGGGGAAAGGGACAAGAAAAAAAAT
AAATACGATGCTATGAAGATAGTAGAGCAAAGCATTTAGGCATGAGGGAAAAGTGAGGAGCAACATTAGACAAGGCGAGCAGTTTGAGACTCCTTAAATT
CTCAAAACATGTACYTAAATAATTTATGCTGAGAGATTCATAAATAATGTCATTTTTAAAAATTTATTATACTTTTAAGTTCTAGGGTACATGTGCACAA
CGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCC
CGCTTCCCCCACCCCACAACAGGCCCCGGTGTGTGATGTTCCCCTTTTTGTGTCCAAGTGTTCTCACTGTTCAATTCCCACCTATGAGTGAGAACATGTG
GTGTTTGGTTTTTTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTAAAAAGGACATGAACTCATCAATTTTTATGGCT
GCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAATG
CAGCAATAAACATATGTGTGCATGTGTCTTTATAGCAGCATGATTTGTAATCCTTTGGGTATATACCCAGTAATGGGATCGCTGGGTCAAATGGTATTTC
TAGTTCTAGATCTTTGAGGAATCACCACACTGTCTTCCACAATGGTTGAACTAGGTTACAGTCCCACCAACAGTGTAAAAATGTTCCTATTTCTCCACAT
CTTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATAGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGG
CCAGTGATGATGAGCATTTTTTCATGTGTCTGTTAGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCACCCACTTTTTGATGGGGTT
GTTTTTTTCTTTTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGATTGCAAAAATGTTCTCCCATTCTGTAGGTT
GTCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTATATCCCCTTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGG
TGTTTTAGACATGAAGTCCTTGCCCATGCCTGTGTCCTGAATGGTATTGCCTATGTTTTCTTCTAGGATTTTTATGGTTTTAGGTCTAACATTTATGTCT
TTAATCCATCTTGAATTAATTTTTGTATACAGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGTACCATTTATTAA
ATAGGGAATCCTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTAGTATTATTTCTGAGGGCTCTGTTCTGTTGCA
TTGGTCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGTTTGATGCCTCCAGTTTGT
TCTTTTGGCTTAGGATAGACTTGGCAATGCAGGCTTTTTAAATAATGTCATTTTTAAAAAATGAGCCCCATATGTTCAATAATGAGTAGACTACTGATTT
CTCCTAGTCTCCCCATTTATAATTTCCCCAATAGAAGATAGAACTTTGCTTCATTTCTTGATTCTAATGATTGGGAAATGTGTTTCTTTAGAAAACCATG
AAATTTTACTAAAATGTTTATGTTGTTAGAAATGGACATCTTACAGTGCTTTTTAGAGTAAAATTTTGGAAGAACATAACTTATATAGAGATTCTTGCTG
TCTAAGAAATTCAGTGCTCCTTGAAGCAGCATGACAAATTTCTGTTCTACCATCATGAATGAAAGCTCATTGATTGGACTACTCAAGCTTTCTCTTATTT
TTCATAACTGTTGCTAGTTAAAGTAGCTTCTTCCAAATTCCAGTTCTAATGAAAAATGCCAATTAGAAATGAGGAAGAAACTGTTCTAAACAAATCAGCA
GATGCTAGAAAGGAGAAACAACTTGAAACCTGACCCAGAAAGTTAAAAGAGAAAATAAATCATCAACAGACCTAGACATTTTCAAAAGCAAAGCCATCTG
AATCCATTTGGAGTTGTTTTTTATCATGGCCTTACTATGTTTTAATTCACTGTGACAGGGCTATTGTTATCACTGAGATTGATGATCAATATCAAGAAGT
AATCAGCGAAAGGTTTCACCTATTTAAGATGATTAGCACACATATGTACATTTGAGAAATATTTCCTAAGAATGCAGGCTCCTTCCTCAGCACTCTGTCC
CCAGGATCCTGATGAGTGGCTGACACAGGACAAGTGCTTAATTAATATATATTGACTAAATGAATGAGCAACCCTTCAAAATGGCTATTTTTCTTTTTCA
AATGTTTTGCTACTTCATTAAAGTTGTAAAGTTTCCATTGTCCAGGAACCGTTACTATCCGGAAGATTCAGGATAGACAAGTCTCTTTTGTACTTTGCAA
TACACTTTCATTGATATCTCATTTAATCCAACTCTTCAAAGTCCTAATGTCTACTGTCATCTCCTTAGCATATTTTCAGCAACACCAATCATAGCACCCT
GTAATTGCAGAATACCTCTGGTGAAACTCCTGAATGAAACTTAGAGCTTTYRTRTTTTTTCTAGAAATCTTTTGTCCAAGTCCTCCAGTTATTCCTAATG
GGAGACACACAGGAAAACCTCTGGAAGTCTTTCCCTTTGGRAAARCAGTAAATTACACATGCGACCCCCACCCAGACAGAGGGACGAGCTTCGACCTCAT
TGGAGAGAGCACCATCCGCTGCACAAGTGACCCTCAAGGGAATGGGGTTTGGAGCAGCCCTGCCCCTCGCTGTGGAATTCTGGGTTAGTGCTCATTTCCC
CACATCCCAAATGGGTTCAGAATATCTAACCCAGGCCCTCCATATTTCCGTAATTACAATGTGGTATTTATTTGTGCATTTGCCACAATGGAATGCCAAA
CCAATGATAGATGGTTCTAAGGTAGGTCAACACATAAGATCCTGATGACCTTTGCAGATGGAGGGACTGATGAAAAAAGAGGGAGGCGGTGAGTGGTGGG
AAAGTCCTTCATTAGAATCATATGAATTAAAAACAGATGCCTGTGAATCTCCTTATTGAAATGTTTGGTTTAGAAATCTGACCTAGAAAATCGGTGGCTC
CTTCTGCCAGGAAACGTCTTGAGTTCCCGCCCATGCTTGACAGCCTCTCATTGGAGTTTTGATGACTTGAAGTACAAGGAAACCAGACAGGAAAGGTGGA
ACCTGGGCAGAAAAACTCTTTCTGGCTTCCTAAAAATGTGAAAAATTAAATGGGAGCTATCTTTACATTAAATTATATGAGCATTAGCTGAGCGTGGTGG
CAATTGCCTGTGGTCCCAGCTANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGCCAGGAGAAATTAGAGCAGAAATATCTCTTTCAATAGTGAGAGAATAGGAAAAAGA
AGTAGAAAAGCTGGGAACAATAGGTAAAGTTTAGGCTAGGCCTTAGACTTCTCCTGCATTGTAATCCCTCTGGTTTGCCACATATGCATGCTGTCAGGAA
GTTGATGAGGTATGTACAGCACAATTTATTTTCCATTTTTTGCCTTTAGGCACCGACTCATTGGTCACTCATCTGCTGAATGTATCCTCTCGGGCAATGC
TGCCCATTGGAGCACGAAGCCGCCAATTTGTCAACGTGAGTTGAAATCTCTTTCCCCATTCACCCCACCGTTTAATCCTAGAGTTGTCCTCCTAGAATTA
CAAAGAATGGATCTCATCCCTCTTGGAAATGGTATCCTTCTCATATTTGAAGAATCCAGTCATATCCTTAAAATGGCTCACAGCATTCCAAACTTCCACC
TTCAGCTAGAAATGCTTTTTTATTTTTTCTTATCTCAAGGTCTAATTTTTTTTAAACTAGTCTTTAGCTCACTTAAACAGTCCCCCAATTTCATCCTCTG
TTGGGTGAACACCTCCCAGTTTAAAGAGCATTTTATTTAGTGAAGTCAACAAATACAAAGTCAGTGAAAGAAACCCCATATCCTCTCTGCAAGCTCTTAG
TATCACATCAGATATTCAAGCCATGCAGCTCTTTCTTCCTTCTTATTCTTTGTCTAAACAGGATCATGCCATCTTCCCTGTGAGTTGTTTGGAAGATGAG
CTTTCTACATTTTGGGGAGCAAAGACGAATGAGCAATTGCAAGCTAACAAGGAATATAAAATGTGTATAATCCTGGGTTTAGTGATGGTGTGAGGAAATC
AGCAATTTCAAACCCAGTTGGTGGGAGGATAAGTGGGAACAAACTTTGTAGAAGGCCAATAAACTGGCTGGGCACTGCCCTACGGTAGAGTAGGACACAG
TATTCAGTTCTTCCAAGATCAGACGAGATTGGGCGCATTTAGGGTGGTATGGTTGTAGATCAGTATCCAGTTCTTTTTATTATTTCTGAATCTGTAAGTA
TCATGTTTATTATATGTAATATTRTATATTTGTACTTTGTCTTTGTTAGTTCTTCCAGAGCTTTTGTTCTTATTATTTAATAAAGATGTTATACTGAGCC
ACATGTGGTGACTCAAACGTGTAATCCCAGCACTTTGGGAGGCCTAGGTGAGCAGATGGCTTGAGTCCAGGAGTTTGAGACCAGCCTGTACAACATACTG
AAACGCTGTCTCTACAAAAATACAAAAACTATACGGGCATGGTGGCACATGCCTGTAGTCCCAACTACTCAGGAGACTGAGAGGTGGGAGGATTGCTTGA
GCCAGAGAGGTCGAGGCTGCAATGAGCCATGATCGTGCCACTGCACTCCAGTCTGGGCAGCAGAGCAAGACCTTGTCTCAAAAAAAATGCTATGCTGTAT
GCTTTATTATATTAATATCCAATAGAATAAAGACACATGCCTTCTATATAGAGAGAACTAAATTAATAATGGTGAGATAACAGTTAAATTCTCATTTAGC
AGGAGAAATAAAAACATAGACTATAGGCTAGGCACAGTGGCTCATACCTGTAATCCCAGCACATTAGGAGGCTGAGGTGGGCAGATCACTTGAGGTCAGT
AGTTTGAGACCACCCTGGCCAACATAATGAAACCCCGCCTCTACTAAAAATACAAAAGTTAGCCGAGTTTGGTGGCRCATGCCTGAAATCCCAGCTACTC
AGGAGGCTGAGGCAGGAAAATCGCTTGAACCTGGGAGGCAAGGGCTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGGAACAGAGTGAGGAT
CTGTTAAAAAAAAAAAAAAAAAGTGGACTCTAATAATACATGGACACATTTAGTGAAATAAACTTAACTGAGTAGAGCAGAACTTATAATATTTTAAAAC
TGTAAGAACATGTCTGTACMTTAGCAAATAGTAGATGAGAATAGTATTTTCAATATTTACTTCTGGTAATTTGGAATTAAAAAAAAAACTTTTGGGAAAA
TTTACAATAAAGTATGATTTTAACAAACCAGKCTAGGCGTGGTGGCTCACGCTTATAATCCCAGCACTTTGAAAAGCAGAGGCATGCAGATTGCTTGAGG
CCAGGAGTTCAAGACTAGCCTGCCCAACATGGCCAAACCCCATCTCTACTAAAAATACAAAAATAAACCAGACATGGTAGTGCATGCCTGTGATCCCAGC
TACTCGGGAAGTTGAGGTAGGAGGATTGCTTGACCTGGGAAGTGGAGGTTGCAGTGAGCCATGATCGTGCCACTACACTCCAGCCTGGGTGACAGAGCAA
GACTCTGTCCCAAGGTTTTGTYTTGGTTAACTTGCTGTCCCTTTTTCCAGGAATTCCTTGTGGGCTACCCCCCACCATCGCCAATGGAGATTTCATTAGC
ACCAACAGAGAGAATTTTCACTATGGATCAGTGGTGACCTACCGCTGCAATCCTGGAAGCGGAGGGAGAAAGGTGTTTGAGCTTGTGGGTGAGCCCTCCA
TATACTGCACCAGCAATGACGATCAAGTGGGCATCTGGAGCGGCCCGGCCCCTCAGTGCATTAYACCTAACAAATGCACGCCTCCAAATGTGGAAAATGG
AATATTGGTATCTGACAACAGAAGCTTATTTTCCTTAAATGAAGTTGTGGAGTTTAGGTGTCAGCCTGGCTTTGTCATGAAAGGACCCCGCCGTGTGAAG
TGCCAGGCCCTGAACAAATGGGAGCCGGAGCTACCAAGCTGCTCCAGGGGTGAGTCTGACTGAGGCCTAGTAGGGCCCTGCAAGTGACATGCGTTGCTGT
TGGATCAGGAGATTAGTATTTGTTCACGGGGAGGGATGTGTGCTGAGCAGGGTCGAGGAGCAAATTTTCTAAGTAGTGAACATGAAATTCAGGTGTGTAG
ACATGCACATGTGCTGAAATTGCGAAGCAAAGCTCAACCTGGGCAAGGGATATGATGTTTCTTTGGGGTTCTTATAAACAGATCTATCAATTACCTTTGA
GTATAATAATGKTTGATACAAAATGAGTGATTCCTCTGCCCAGGCACTATAATACAGGCTACATGTGAATTTTAATCCTKAAAACAAAGTTATTAGGTAG
TTCCCAGTTGTTCTATGTTTGTCTGTTTTGTTTTGCTTGAGATACTGTCTTGATCTGTCACTCAGGTTGGACTGCAGTGGTGCCATCATGGCATACTTCA
CCCTCCACCTCCCTGACTCAAGCAAGTCTCCTGCCTGAGCCTCCCAAGTAGCTGGGAATGTAGGTGCATGCCACCATGCCTGGCTAAGTTTTTTATATTT
TTTTTGTAGGGACAGAGTCTCACCATGCTGCCCAGGCTGGTCTCAAACTCCTCAGCTCAAGCACCCACCCACCTTGGGCTCCCAAAGTGCTGGGATTATA
GGCATGAGCCACTGTGCCCGGCCTCTATGTTTTACAGAGAATATGTGCCTTAGACACATCAGATAACATTCTGAGACAGTAACTTGCAGACAAAACTGGA
TTGCAAGTCCACCTCACTCCAGAGCCTTGGCTTTGCTCATCAGCATTCAGTCATGAAATCAAAACTTACTCTAGATACTTTCAAGGAGGGAGGGATTTCA
TGCAGGTTGTATTAGTCTGTTCTCACATTCCTATAAAAAACTACTTGAGCCTGGGTAATTTATAAAGAAAAGATGTTTAATTGACTCAGAGTTCTGTAGG
CTGTACAGGAGGCATGGCTGGGAAAGTTACAATCATGGTGGAAGGCAAAGAGGAAGCACGCATATCTTCATATGCTTGGCAGGAGAGAGAGAGAGAGCAA
GGCAGAGGTGTTACAGACTTTGAAACAAGCAGATCTTGACAGAACTCTATCACAAGACAGCACTAGGGTGATGGTGCTCAACCATTAGAAACCACCTCCA
TGATCCAGTCACCTCCCACCAGGCTCCTTCTCCAACACTGGGAATTACCATTTGACATGAGATTTGGGAGGGGACATAGAGCCAAACCATATCGCAGCTA
ATAGGTCACAAAAATGTTAGAAGGGCAGGAAAAGCAATAGGACAAAGGCAAAGTTACGAGAGATCAGGGAGCTGCTGTGGCTCCCAGTCTACAGCACAGG
AGCCTGGAGTGATGGTGAAATGGCCAGCCCCTCCCACTGAGCAGGCAGCTCCCTGTAAGCTGCTAATACTGCAGGAGCCACCATTGCTGCCAGAATGCAG
CTGATATTGCTGGAGCCAAAGTCATTGGCATCGTTACAATTGAAGCTGTAGCTACTCACTGAAGCCATCTATACTGCCACTGCCTGAGCCACTTCTAGAA
GTAGAACAGATTCTGCCATCATCCTGCTTTTTAATTTGGTATATATGCCTCCAATTGGCAGAACCTAACCAGAGCCYAGCTATCAAGGAAGATGAACGAT
TTATTTTTAAGGCCTCCATTGTTAGCTGTCAAAAGACAGTGCAGAAGTGTGAGGCTGGGGGCCAACAGAAATTTAACCAGCACAGCACCTCAATATTACA
TCACCAGGCATTGATTAGTCCAGGGAAACACTGGGTGATGAGCCCTGAAAATGGACATTACAGCATCAGAGTATTTACAAACTCCYTAAAGAAGTCATTT
TTCTATTCCAATCCCCCATTTGATGCTTGAGAAAGCTGAAGTCCAGAAAAGGGAACTGATCTGCTCAAAGACAAACTGAAATTACTTTTTCCATTTTATA
ACAGTTTTATGTAATTTATTTGAGATCCAAATGTGTTTTGATTTCCCAAGATCAGATCAACTAYATTAAGAGAGAGCCTGAGMTGCCGTTACAATATGTT
GTGTGAAATTACACTCTCATYATGGTGACAGTAGGTCTTTCAGATTTTGTTCGACAGTTTCCCACCTTCTCACTGAAGTGAAATGAATGACTAGGCAGCA
CCTTGCTACATAGCATGAAGAGAGGAGACCCATAGTTCTTTACCACCCTATGTCAGGTGGCCGCTGAGAGAAGACTTGAAAGGAGATGAGCATAGATGTA
TGGACGCTCTTTGTTGCACCAGTGTGATAGGTGATGGAGGGACCTATTAGATGGGACATGGGCAGGGGCACTCCTTTATTGCTTAAAATGCAAGACTAAA
TTGGTGATGCCTTTCTAGAAAGGAAGTATGAAGATACAAAAATCCATCATTCCTCCCAATTTTGTACTGGGTGAACAGTAATTGGAAGCATTCTAGAAGG
AACTGTCCATTGTGAAATCTTAGTTGCATACTTTAGATGAAAAACAATGAATTGGAGATACCTCTGTTTTAGTCACAGTTGTGCCATGTGTCAGTTCTAT
GACTGATGGCAAGACATCTTCCTTGCCCCGTGTATTTAGTTTATCAATGTAATAAGGCTGTTATTCTAACTTTATTATTATATATAGATTCGTAATTATT
ATTCCCTTGGCCAGTTTAACAGTGAGAAAAAAGTTGTTTTCACACAATTAGCTGTACTTTGTTTCTCTCTCCCCAGTATGTCAGCCACCTCCAGATGTCC
TGCATGCTGAGCGTACCCAAAGGGACAAGGACAACTTTTCACCCGGGCAGGAAGTGTTCTACAGCTGTGAGCCCGGCTACGACCTCAGAGGGGCTGCGTC
TATGCGCTGCACACCCCAGGGAGACTGGAGCCCTGCAGCCCCCACATGTGAAGGTGACTAGACTCTTATCTGGCTTGATATTTTTAGCTTGCGTCTTTAT
TCTCCACATGCCAGTGATTTCTGTTCATTTTTCTTTATCTCCAGTGAAATCCTGTGATGACTTCATGGGCCAACTTCTTAATGGCCGTGTGCTATTTCCA
GTAAATCTCCAGCTTGGAGCAAAAGTGGATTTTGTTTGTGATGAAGGGTGAGTATGAGCTTGCCTGACCTGCTGGACATTGAAATTGGGGTTGGGAATCA
GTCTAAAAAGGGGAGATTTGGTGTGGCACACACACACACACCTTCAGAGAGATGAACTTTCGAAAGTATACCTAGGAAGAAAGGAAAGAAACATATAGAA
CTAATAACATGAGATATGAAGAGGAAACTGGAACATATATTAACTGGCAAGTTCAAAGGCAAGTATAACTAGTGGTTATGAATATATAGGTAACACATTA
AGCAAAAAATATCAGCCAGAMACGGTGGCTCACGTGTGTAATCCCAGCACCTTTGGGAGGTTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTGGAGACC
AGCCTGGACAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAGTTAGCTGGGTTTGGTGGCATGTGCCTGTAATCCCAGCTACTCCGGAGGCTGAG
GCACCAGAATCACTTGAACCTGGGAGGCGGAGTTTGCAGTGAGCCGAGATGGCACCATTGCACTCCAGCGTGAACAATGAGTGAAACTCCATCTCAGGAA
AAAAATCATATTTTACAAGCAAAAGGGAATATGAGTAATTTAGAGAGTCCCAGGAAAAATTGCAAGTAATGAAAAGCTTATTATTAAAAGCTAGGATCCT
TTAAGAATCATTTCAGTAAATTCTTTAAACCATCAACAGTGAAATTTGTAATAGGACTGAAAATGTAAAAATCAGCATTTTTTTAAAAATTCAGTCATAT
ATCTTCTGGCTAGTCATGGGCTCTGGGCTCTGAGCTGGGGTCGTGATGGCTGCTGTTAATATTCCCAGCAAGGTCATTACCTTGTTTATGTCCATCTAGT
GCTCTTCACAGCGTGCACATCTCTACACAGGAGCTGACCGGCATGGGCAACAAAGCACCTGATCCCATAATGTAACACAGAATCTTGGCAGCCTCCAAAT
GCCAGCACCCAGTAAGAGTTAGGAGGGCATCAGGGTCCAAAAGACTGAGAATTTTCGACAATTGCATACAAAAATCATGTCCTCTCTTCTTTCCTTTTTC
CCCTAGAATATTCATGCTTACTCTTCAGCAGCCCAAACTGCCCTTTTGAGCCTTCTTCACGCCATCACAGATGTGGAGATGAAAGGACAATCTCTGTTCT
CTCGCCAGCTATTTCCCACTTTTCCACTCCAAACTGGGAGCTGTTTTACTTGCTGTTCCAGGGTCAGAGTTAGGAAGGCATTACATTAGAAGACTGGGTT
TCTAATAACAACAATGAGTGATTTATCAGGTTATCATGGAGTAATCAGTGAAACTCCAAGCCTGGGTCCTGGGTCAAGGGGATGGCGCCTATGTCATGAC
CACCTTTTTCAATTCAAGCAGGACTATCATGTGACCAAGCTACTACATTTTGCCATTCTATATTGTTCCCTTCTGGAGGCTGTGATTTTTCCAGAATAAG
GTAGCCTGTGCAACTCTGCCATCTGCTGGCCTCAGATCCTCAAAATCCTGAAATTGGGGCTGGGCCTTAGATTGTGARCTAAGTGTCCTCTTGGCTGAAA
CAGCTCACTATTCACTCCTATTTTCTTCTTTAGATTTCAATTAAAAGGCAGCTCTGCTAGTTATTGTGTCTTGGCTGGAATGGAAAGCCTTTGGAATAGC
AGTGTTCCAGTGTGTGAACGTGAGTAATAGGAGCAACATTTCAGGCCAATCTCTCCCCTTCATCTGTTCACTATTTGTCCTATGGCCTCCCTCAATGTGA
TTCTTCAATATTCTAGTCTTAATTATCGATTTAAAAATAGTTTATTTTAATAATGTTTGGTTGTGAATCAATATGTACATCACCTGTCTTTGCAACCATC
TGATCTGTCTCTGTCCTTCTGCATTCTCTGTTCTAGTGCGATAAATCCTTTGGTCTTGTGCTCCTAGGTCAGGAGAGATTAGATAATGTGAAGCTTTAAC
AATTTTCTTTCTTTCTCTAGTTTTTTCTTTCTTTTTTCTCTTCCTTCCATCCTTCAGTTCTTTCTTCCCTTCTTCTCTCCTTCTCCCCTTTCTTCTTTCC
TTCCTCCCTTCTTTCTTTTTCATTTTGTTCTCCCATCAAAGTGCAGTCAGTCTACAATTTATATATATATGATAATACACAAATATTGAACATGGCTTTA
TTTAATCAATATTTATTGATCACATACTTTGTGCCTGATGTTCATCTAGCCACTGGAGTTATATCAATGAACAAGATGGATGAATTCCCTGTCCCCATGT
TGTTTCTACTTAGGTGGGGAGAGGGACAAGAAAAAAAATAAATTCAATGCTATGAGACAATAGAGCAAAGCACTGAGGAATGAGGCAAAAATGGGGAGCA
ACATTAGACAGGGTGAGCAGTTTGAGACTCCTTAAATTCTCAAAACATGTACCTAAATAATTTATGCTGAGAGATTCATAAATAATAAGTCATTTTTTTW
AAATGAGCCTCATATGTTCAATAATCAGTAGACTACTGATTTCTCCTAGTCTACCCATGTATAATTTCCCCAATGGAAGATAGAACTTTGCTTCAATTCT
TGATTCTAATGATTGGAAAACGTGTTTCTTTAGAAAATCATGAAATTTTACTAAAATGTTTATGTTGTTAGAAATATACTTGGACATCTTACAGTGATTT
TTAGAGTAAAATTTTGGAAGAACATAACTTATATAGAGATTCTTGCTGTCTAAGAAATCCAGTGCTCCTTGAAGCAGTATGACAAGTGTCTGTTCTACTA
TCATGAATGAAAGCTCATTAACTGGACTACTCAAGCTTTCTCTTATTTTTCATAACTCTTGCTAGTTAAAATAGTTTCTTCCAAATGCCAGTTCTAATGA
AAAATGCCAATTAGAAATGAGGAAGAGACTGTTCTAAACAAATCATTAGATGCTAGAAAGGAGTAACAACTTGAAACCTGACCCAGAGAGTAAAAAGAGA
AAATAAATCATCAACAGACCTAGACATTTTCAAAAGCAAAGCCATCTGAATCCATTTGGAGTTTTTTTTTTTTTTTTATCATGGCCTGAYTATGTTTCAA
TTCACTGTGACAGGGCTATTGTTATCACTGAGATTGATGATCAATATCAATAAGTAATCAGTGAAAGGTTTCACCTATTTAAGATGATTAGCACACATAT
ATACATTTGAGAAATATTTCCTAAGAATGTAGGCTCCTTCCTCAGCGCTGTGTCCCCAGGATCCTGATGAAGGGCTGACACAGGATAAGTGCTCAATTAA
TATATATTGACTAAATGAWTAAATAACCCTTCAAAATGGTTATTTTTCTTCTTCAAATGTTTTGCTACTTCATTAAAGTTGTAAAGTTTCTACTGTCCAG
GAACTGTTACTATCCGGAAGATTCAGGATAGACAAATCTCTTTTGTACTTTGCAATACATTTTCATTGACATCTCATTTAATCCAACTCTTCAAAGTCCT
AATGTCTACTGTCATCTCCTTAGCATATTTTCAGCAACACCAATCATAGCACCCTGTAATTGCAGAATACCTCTGGTGAAACTCCTGAATGAAACTTAGA
GCTTTTGTATGTTTTCTAGAAATCTTTTGTCCAAGTCCTCCAGTTATTCCTAATGGGAGACACACAGGAAAACCTCTGGAAGTCTTTCCCTTTGGAAAAG
CAGTAAATTACACATGCGACCCCCACCCAGACAGAGGGACGAGCTTCGACCTCATTGGAGAGAGCACCATCCGCTGCACAAGTGACCCTCAAGGGAATGG
GGTTTGGAGCAGCCCTGCCCCTCGCTGTGGAATTCTGGGTTAGTGCTCATTTCCCCACATCCCTAATGGGTTCAGAATATCTAACCCAGCCNNNNNNNNN
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NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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NNNNNNNNNNNNTCATTTGTTGTGATATGTGTTTTATTGTGGTGGTCTGGAACTGAACCTGCAATATATTTGAGGAATGTCTGTAACACGAAGTGGGCGG
CTTAATACAACAGAAGTTTTTGGAGTTCCATTCTAGAGACTGGAAATCCAAAATCAAGGTTTTGGGAGGGCCACGCTCCCTCTGAATCCTGTAGGGAAGG
ATCCTTCATTGCATCTTCCAGCTTCTGGAGCCACAGGCCTTCCTTGGCATGTGGCAGCAGAACTCCAATTTCTGTCTCTGTCCTCATATGGCCATCTTCC
CTCTGGGTCTGTGTCCTCATATGCTGTTCTCTCTGTGCATGTCTGTTTCCAAAGTTTTCCCTTTTAATAAGGACACCAGTCACACTGGATTAGGGCCTAC
YTTCATGACCTCACCTTAACTTGATTGCGTCTGCAAAGATYGTATTTCCAAATAAGRTCACATCCACAGGGACTGGAGGTTAAGACTTCAGCATACTTGG
GGGGAGACACAATTCAACCTATAACAGAGCCCCTTTGAAAATGTCAGGCATCAGGTGCTCACAGCACACGGTCCAGCTGTTGGTGCTCACCCTTGCTCAG
CACACGGTGGAGGCTCTGCCTCAATCTCATTCTTCATGGGAACAGCTAAGCCAGGTAGCGAATACGGGTTATGTTTGTGTCACCACAACAGACACTGAAA
GGAAGTTTGTGGTGTCCAGCACACTTGCCAGCATAGGCCTCACAGACCACAGCACCTAGAATCTGACAAAAATTAGAATAAATCCGATGTCTCCTTTTCT
CTCTTTTTTTTAAGCATTTTTAAATRCAATTGGTAAATTTCCTGACTGTACCCTMCTCATCTTGCATTGCTGAATAAGTGAGGAACCTCTCTATGGCATG
AAGCAGAAAACCMTTGAGCTTATGAGAAGAAACAGGAAATACATGTAAAAGAGACCAGTCTGAAAAATCAGGAGAAATTTTACAAAAGAGATTTACTGCC
AAGAAACCAGGGAAACTTTCAGAACACTCTCCTTTTCATATTTGTAACAAGWTTCAATTGTACAAATACTTCTGTGAAACTAGCCATGAAGTGTGTACAT
GAATGAATATATGTATTCAGTGTGTTTATATATTTCATTTCATACATGTGATCTATATCATATATATATATCACAATGAATATTGCAGAAAATTAAAGCA
AAGAGTAAGAAGAGTTAACCAAATGTTCCCTGAATGCAGTGAGAAAAGATGAAAAGGAGAAGACAGGCAAGCACAGTGGCTCACATATGTAATCCCAACA
CACTGAGAGGCTGAGGCAAGAGTATCACTTGAGCCCAGGAGCTCAAGACCAGCCTAGACAACATGRCAAAAACCCATCTCTACAAAAAAGTATAAAAATT
AGCTGGGCATGGCAGCATATGCCTGTAGTCACAGCTAGGCAGGAGACTAAAGTGGGAGGATCACCTGAGCCCAGGAGGCTGAGGCTTCAGTGAGCCTTGA
TGGCAACCTGCACTCCAGCCTGGATGACAGAATGAGACCCTGTCTCAAAAAAGGAAAAAGAGAAGACATATGTAACACAGTGTCAGGATTCAAAATACAT
GTAGCAAAAATTCCAGAAGGGTAAGCAAATAAGCCCATACCTAGCCATCACTAGGGAAACTTCTGTGTTTCAGGGATAGAGAAAAAAACTCTGATTCCAG
AAATAAAATGTGAAAATATAATACCCGCAAAAGAAATAAGTTTATTGACACCACATTGATTCTATACAACACTAAATTGTAGAAGATAGCATTTCTCTTG
AGCCAAGCTAATATTCACACCTAGAGGCTCCAGATACACATTAAAGGATAAGAAAGACACAAAAATTGTACCATTTAAGTATGTTTCCCAGGTAATTCAT
AAGCAAATTTTTAAAAAGGAGAATGATGAATTCCAAAGGAAATCTCAATGAGATAGGATATTGGTAAAAAGAAAAAACAACAATAAAAAAATACACACAA
AAACTCGGCAATGTAATCATAATTTACTAATAATCTCTCTAAACTCATAGAACRTATCAATAAAACTAGAAAATGTGAGACAGCAAGAAAAGGTAGGCTA
AACTTACATTACAGAAAAGATGAGTAGACTGACTATATAGAGTTTGACTCTAAAATTGAGAAAATAGGTTTAAATAKCTGTTGTGTGCATATCCATGTGT
GTAATATACATGYACATATATAAAATGAAATTCCTCATTAGAAAAAATAATAAGTTTAATTTCCAAATTATTAGAATAACTAAAACAGCTGAATCTATCT
CTTCCATATAGCAAGTGAGAGGGAAAGAAAAGGAAAGACAAGGAATGCATTTGTCTCTTCCACCAGAAATAAGCCCCCTCATTTTTGGGTCAGGTCATTT
TATTCATTGCTTTCTCCACATCCTCATCATTGGGCATCATGAAATCAATGAAAAAGGCAGTGAAAGAATGATGATGAAAGCAAATCAAATGTATCATTTA
TCTCAATACATTTGGTTTAATCCTCTTGTTGAAAAACAAAGTCTCTTAGACAAGATCAAAAGCAACAAATCTTGTATTTATAAAAAACATGTCTCAAGTA
AAATGACATAGTATTATACACACACACACACACACACACACACACACMCAAATTAAGTGAAAATGCAAACAAAAAAAGGCAAAAATAATATTTAGAGAAA
GATAGAATTTAAGAAAAAAATTGTCAAACTGGTCTACAAAATAATTGTTTTATTTTCGTGCCAGTTGCAGTCCACAGTGAAGCCAAGATATTAAGAAGCA
ATGTGGGCCAGGAGAAGTTAGAGCAGAAATATCTCTTTCAATAATGAAAGAATAAGAAAAAGAARTAGAAGAGCTGGAAACAATAGGTAAAGTTTAGGCT
AGGCCTTAGACTTCTCCTGCATTGTAATCCTTCTGGTTTGCCACATATGCATGCTGTCAGGAAGTTGATGAGGTATGTACAGGACAATGATTTTCCATTT
TTTGCCTTTAGGCACCGACTCATTGGTCACTCATCTGCTGAATGTATCCTCTCAGGCAATACTGCCCATTGGAGCACGAAGCCGCCAATTTGTCAACGTG
AGTTGAAATCTCTTTCCCCATTCACCCCACCATTGAATCCTAGAGTTGTCCTCCTAGAATTACAAAGAATGGATCTCATCCCTCTTGGAAATGGTATCCT
TCTSATATTTGAAGAATCTAGTCATATCCTTAAAATGGCTCACAGCATTCCAAACTTCCRCCTTCACCTAGAAATGCTTTTTTTTTTCTTATCTCAGTCT
AATGTATTTTAAACTAGTCTTTAGCTCATTTAACCAGCCCCCAATGTCCTCTTCTGTTGGTTGAGCACCTCGCAGTTTGAAGAGCATTTTGTTTAGTGAA
GTCAACAAATACAAAGTCAGTGAAAGAAACCCCATATCCTCTCTGCAAGCTCTTAGTATCACATCAGATATTCAAGCCATGCAGCTCTTTCTTCCTTCTT
ATTCTTTGTCTAAACAGGATCATGCCATCTTCCCTGTGAGTTGTTTGGAAGATGAGCTTTCTACATTTTGGGGAGCAAAGACGAATGAGCAATTGCAAGC
TAACAGGGAATATAAAATGTGTATAATCCTGGGTTTAGTGATGGTGTGAGGAAATCAGCAATTTCAAACCCAGTTGGTGGCAGGATAAGTGGGAACAAAC
TTTGTAGAAGGCCAATAAACTGGCTGGGCACTGCCCTACAGTAGAGTAGGACACAGTATTCAGTTCTTCCAAGATCAGACGAGATTGGGCGCATTCAGGG
TGGTATGGCTGTAAATCAGTATCCAGTTCTTTTTATTACTTCTGAATCTGTAAGTATCATGTTTATTATATGTAATATTRTATATTTGTGCTTTGTCTTT
ATTAGTTCTTCCAGAGCTTTTGTTCTTATTATTTAATAAAGATGTTATACTGAGCCACGTGTGGTGACTCAAACTTGTAATCCCAGCACTTTGGGAGGCC
TAGGTGAGCAGATGGCTTTAGCCCAGGAGTTTGAGACCAGCCTGTACAACATGGTGAAATCATGTCTCTACAAAAAATACAAAAACTAAACAGGCACGGT
GGCACATGCCTGTAGTCCCAACTACTCGGGAGACTGAGAGGTGGGAGGATTGCTTGAGCCAGAGAGGTCGAGGCTGCAATGAGCCATGATCGTGCCACTG
CACTCCAGCCCGGGCAGCAGAGCCAGACCTTGTCTCAAAAAAAAATGCTATGCTGTATGCTTTATTATATTAATATCCAATACCATAAAGGCAAATGCCT
TCTATATAGAGAGAACTAGATTAATAATGGTGAGATAACATAGTTAAATTCTCGTTTAGCAGGAGAAATAAAAACATAGACTATAGGCTAGGCACAGTGG
CTCATGCCTGTACTCCCAGCACATTAGGAGGCTGAGGTGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCT
CTACTAAAAATACAAAAGTTAGCCGAGTTTGGTGGCGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAAAATCGCTTGAACCTGGGAGGCG
GGGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGYGTGGGGAACAGAGTGAGGATCTGTTAAAACAAACAAACAAACAAAMAAAAAACACATGGA
CTCTAATAATACATGGATACATTTAGTGAAATAAGGTTAACTGAGTAGAGCAGCACTCATAACATTTTAAAACTATAAGAACATGTCTGTACATTAGCAA
ATATTAGATGAGAATAATATTGTCAATATTTACTTCTGGTAATTTGAAATTAAAAAACAAAACTGTTAGCAAAATTTACAATAAAGTATAATTATTAGAA
ACCAGGCTGGGCACGGTGGCTCACGCTTATAATCCCAGCACTTTGAAAGGCCGAGGCAGGCGGATTGTTTGAGGCCAGGAGTTCAAGACTAGCCTGCCCA
ACATGGCCAAACCCCATCTCTACTAAAAATACAAAAATAAACCAGACATGGTGGTGCATGCCTGTGATCCCAGCTACTCGGGAGGTTGAGGTGGGAGGAT
TGCTTGACCTGGGAAGTAGAGGTTGCAGTTAGCCATGATTGTGCCACTGCACTCCAGCCTGGGTGACAGCAAGACTCTGTCCCAAGGTTTTGTTTTGGTT
AACTTGCTGTCTCTTTTCCAGGAATTCCTTGTGGGCTACCCCCAACCATCGCCAATGGAGATTTCATTAGCACCAACAGAGAGAATTTTCACTATGGATC
AGTGGTGACCTACCGCTGCAATCTTGGAAGCAGAGGGAGAAAGGTGTTTGAGCTTGTGGGTGAGCCCTCCATATACTGCACCAGCAATGACGATCAAGTG
GGCATCTGGAGCGGCCCCGCCCCTCAGTGCATTATACCTAACAAATGCACGCCTCCAAATGTGGAAAATGGAATATTGGTATCTGACAACAGAAGCTTAT
TTTCCTTAAATGAAGTTGTGGAGTTTAGGTGTCAGCCTGGCTTTGTCATGAAAGGACCCCRCCGTGTGAAGTGCCAGGCCCTGAACAAATGGGAGCCAGA
GTTACCAAGCTGCTCCAGGGGTGAGTCTGACTGATGCCTAGAAGGGCCCTGCCAGTGACATGTGTTGCTGTTGGATCAGGAGATGAGTATTTGTTAAGGG
GGAGGTATGTATGGTGAGGAGGGTGGGAAAGTAAGTTTTGGGGGAAGAAGCATGAAATTAAGAATTGGGGGTGTGCATGCACCCATGCATATGTGTCTTC
ATTTGGAAAGCAAGACCTTAATTAGCCAAGAAAAAAGCTATTTTGGACTCACCTATTATTTGATTCTCAGGGCAAAGTACCAGCTGCAATCTCTCTCAAG
TATATTGAAAAATTATATGGACTTTCTCTATGATCAGCTATGTGCTAAGCACTTTATATGCATTTTCTCATTCATTATTTACAACAACACTTTGAAATTG
TGCTATTGTATTATCCATTTAATAGTGACATCAGCTTGATCTTTCAGAGGTTAAATAAATTAGCTAAGTCACATGTTCTAAGCGAGACACCCAGGATTTT
AAAATGCAAGTGTATCAGACCCCAGAGTCTGAATGTTTTGGCTCTTGCCATACTTTCATCAGTATCCATTGCTGAAAGAAAGAGACTGGCTTACAAAGAC
AGAAATCATAGCCTCAGAATAGACAAAGACCTTAGAGTTTGTCTATAATGGTCTGCCTCCTACATTTTATTTTGATTTTATTTTATTTAAAAACTATTTA
TTAGAGTTGAYGTCCCACTCTGTTGCCCAGGCTGAAGTACAGTGATACAATCATGGCTCACTGCAGCCTCAGATTCCTAGGCTCAAGCCATCCACGTCCT
ACATTTTATCCCTAGGAGTCTAAGTCAAGAGTGAAAGTAACTTGTTCAAAGTCAGTTAAATATTTCTAAATTCATGTTTAATGAGGTATAGATTAGGTTG
ATGTTAAAATGGGTTCTGATGCCCTAAGCATGAACGAACAGGACTATAAATAAAGGCAGATGTTGAGTCAAATACTCTCCAAATAATATGCCCTCTCGTG
ACAAAGGACTGTCTTATTTAAKGGCTTGTGTTTTTGATGGCTCATCTTGTCTACTGATGCCACAATAGCTGGCTTAGCAGCTGTGTAGGAGGTGTTATGG
TTGATACATAGGGACAGAGAAGGAGCTTACGATTCTTCTACCAACCCATGTTAGCCTTGTGCAACCACTGAGCTGGGAAGATGAACAGATAAAGGGATAT
AAAGACGGATGTACTGAGGCAGGAGATGGGCAGGGCTTGTGTTCTGGTCACAATCCTGCTGACCAAAACAGGCTCTGGCCCAGACAGGATGAAGTGAAAA
AACAGCAGGAACCAGCAGATGGCGATGAAAGCAATTGCTAGCTGCCCTCATAGTCCCATCAGCACCATGACAGTTTACAAATGCCATGGCAACGACCTAG
AAGTTACCGCCCCTTTCCTGGAAAGTTCTAAATAACTCGCCCCTCAATCTGCATTGATCCAYTCCTTAATTTACATGTAACYGAAATGGGTTTACAGCAG
TATAAACACAGTTGCCTGCCAGGAACCCTTATGTTGCTGACTCTGGGTGTGCTGCCTGTGAGTTAGCCCTGCTCTGCAAGAAGCAGTGCCTTTCACTAAC
AGATTGCTGTCTAGCACCACTGGCTCATCCTTGAATTCTGTCCTGGATGAGGCAAGAACCCTTCCAGAGTAAGCCCCAATTTAGGGGCATGCCTGTCCCG
AAACAGTATGACTGTACTTTAGTCATTGGTGTGCAATCAGAGAAATYGGGGGAAATCTGTAAAACAGATTTGGTCTCAGGTGACAGTCTCATTACCTGAA
TAACAATGGTACAAATYGGGATTACCTTCCTAGGAAATATGTAGATGGAGAATCCACCAATACTGATAACTTCACATTGGATAGCCAGAGCTAGGAGAAA
ATACCTCATGCCCTGTAGATTTACAAGTGAATTTGGGGCCTTGTGCTAGGGAGAATTGGGTTCTATTTCTCTACCTCTGACTAGCTATGAGGTCTTCAGG
AAGCATAGGAAATTCCCCCATAACTAACAAGTACTCTGGAACTGTCCTTTCCACAGTGTGTCAGCCGCCTCCAGAAATCCTGCATGGTGAGCRTACCCCA
AGCCATCAGGACAACTTTTCACCTGGGCAGGAAGTGTTCTACAGCTGTGAGCCTGGCTATGACCTCAGAGGGGCTGCGTCTCTGCACTGCACACCCCAGG
GAGACTGGAGCCCTGAAGCCCCGAGATGTGCAGGTGCCTCAACTCTCTGGCTTCCAGATTTCTCTCTTTACCCCACACATGGAGGTCTTACTCCTATTTT
TTCTTTTTTTTTTTTTTCTTCTTCTAGTGAAATCCTGTGATGACTTCTTGGGTCAACTCCCTCATGGCCGTGTGCTATTTCCACTTAATCTCCAGCTTGG
GGCAAAGGTGTCCTTTGTCTGTGATGAAGGGTAAGTGTGACCCAGAATTCAGATCAGGGACTCAGCACTGCAGAGTGACTCTTGAGCTTAAGGATCAATC
CAAAAAGAGGGCTGACCTAGGAGAAGAAGAATCCAGGGAGATTAACCTCTGGAAGTGTAGCTTTAAAATAAAGGTAGGGACTAAGTGGCACTACTATCAG
GAGATAAAGAGATAAAGAAAAAATGGCGCATATAACTGAGTGTCAAGTACAAACAGAAATACAGTCACCAGTCCAGAAAAGGGGACCAACCTGGTGGAAA
AGAAGTACTAGAGGAGACTAATATCTGAAACAATGATTGGAAAGTGTGGTATGAACCAGCTGGATCCATGAACAGAAGTTTAAAAAGCAAAAAGCTCAAC
TCATTTGATTTCTCACTTATAGAGGCTCAGAAGTAAAATCATTTTGGAAAACGTGCAGCTTCCAGTAAGGCACAAAGGAAAAACAATGGCCGAAATACAA
AAGATCTTGAAAAAAAAAGTGTGTATATATATGTATACATACGTATACATATGGACACGTATATGTATACGTATACATGTACATGTGTATACATATGTGT
ATACATGGACACGTATATGTAKACGTATACATATGGACACGTATATGTAKACGTATACATATGGACACGTATATGTAKACGTATACATATGGACACGTAT
ATGTATACGTATACATATGGACACGTATATGTATACGTATACATGTACATGTGTATATGTATACGTATACRTGTCCATATGTATACGTATATGTATACAT
ATGTATATATACATATGTATATACATATATATGGAACATATGTATATATACATATGTATATACATATATACATGGAACATTAGATGTATGAATAAATAAT
AATTTGCAGACATGAAGAGATAAATAAATATTCTAGGGGTTGTTAAGAAAAGTTTGATATATAAGAGAAAGTTGTATATAAGATAAAATAACATGCAAAG
ATTATTTCACAAAACTTTTAATCAAATAAATAGTGGAATTTGGAATAGGAACGAAAGAGTAAGTAGAAATATTCTAAATTCCAATTACATGTGATTGACA
GCTCTGCCAGCTATTATTGCTTTGTCCTCACTGAAAGCTACACTTTTTCCAAAATGATTTGGCTTCTGAGCCCGTCAATGAGAAACTAAGTGAGTTGAGT
GTTTTCACCTGTGCTTTAGCTTGAGCAGTAAAATGTTAATTAACTTAGGAATTCTCAGGGAGGAGGTTGAGATCTGTCACGAAGGGAAGAGAGAAATGGT
GCATTCATCCAGCCACTACTGCTTTGTTCTTTAGGTTTCGCTTAAAGGGCAGTTCCGTTAGTCATTGTGTCTTGGTTGGAATGAGAAGCCTTTGGAATAA
CAGTGTTCCTGTGTGTGAACGTGAGTAGATGGAATACTTGTTCAGTCTGGATCTTTCTGTTTTTTTCTTAATATAGTTTGCCCCATGGGATTATCTATTG
TTTGTCCCGCTGTTTGTGCCCGCTTTTGATAGAAATTGTTCTTTGTTGGAATAGATACAAGCAATGTTTTGGGRAAAAATAAACATGAGAATCATGTGTT
TTGGGTACCATCCTATAAATATTTATGAGGAGAGTCTGTGCTATAAATAGAGAGAAATGCTTCATAGAAATAAATGTATGGCAAGATGCTAGGCTAAATT
TTTCTCTTCTTTCCTGTCAAAAGTAATAGTCATACTTCAACTTTTCAGTTCTTCCCTCAATCATCCATTTAGTCATATACTCATTCTTTCAACAGAAAAT
TATTTGAGCACCTACTATGTGCCAAGCAATCTTCTGGGAACTGGGGATATACCTATAAACAAGACAGATAAGTCCATGTTTAAGTTTTTGTGCAAGGATA
AAGACAAAAATCAAAGACATGAATAGAAATGTTCAAATGATACTAAGTGTTATTAAGAAAATGCTCTTAATTGAGTCAGTGCTGTCAATTGAGAATGTAG
CTGAGGACCCAAAAGGCAAGTGTAGCCCAGCAAACCTCTGGGTGTAGCTGAGGGTTCAAAATGGGAGGCTGTTGCAGCAATCTAATCAGAGATGTTGGCC
CAGGATAGCAATTGGGAAAGGTGATGATGAGAAGTGATCAAATTCTGGATATATTTTGAAGGTGCAGATGACAGGATTTGGTGATGGTTAGCTTAGATAG
AGGGTGTGAAAGAAAGAGAAGAAACATAGCCAGTTTCCAGGTTTTTGGCCAGAGCAACCGCCAGGGTAGAATTTCCCTTAGCTGAAATGCAGGGGACTGC
ATGAAGTTTGGGAATGGGGGAAATCAAAAGTTAAGCTTGGGACATAACTTTAGTGTTCCTCTTAGATATCCAGATGGATATGTTGGAGAGTCCCAGGCTG
CCCATAGATAKGTAGAAGCCATCATTGTATCTGCTATGCTTGAAATCAGGACTGAAAGAGATCTTCACCTAGGGAGTGAGTGCTGCTAGAGAACAGATGC
ATGGACTGAGCCTGGATGTCCAGGATTAAGAGTTGCAAAGGTGAGAAGGAATCAGCAAAGGGGATTATGATGAAGCAGCCACTGCAGTAAGAGAAAACAC
AGGAGGGTGAGGTGCCCTGGAAGCCAAGTATGGAAATTATTTTAAGGGATTAGACTAATCAACTGTGTCAAATTCTATAGAGAGGTCAAATTAGGTGAGA
ACAGAAAATTGATCTTTGGGTTTAGCAACTTGGAGGTAACAAGTGGAAGTTTCAGTGGAGTGCTGGCAAACACTGATTGGAATGAATTCTAGGGAGAATG
AATGGGAGGAACTGTAACAGATCATAGACAATATTTTAGAGGAGTTTTCATGTAAAGAGAGTAGAAATAGGACTATAGCTGAAGAGGGAAATGACAGCAA
GAGGTTTGCTTTTGATTTTTAAGAGGGCAGAAAATAGTGTGTTAAAAACAGAAACACTACTATGTCCCATCTATCCATTTACTTCTTCACTAAATCAATC
AGGGTATTGCTTCCCCTTCTGATCATAGCTATTAAAAATACATGTTTACAATAGAATTTTGCTCATATGAATACTTTGCCTTAAATCATTTCAATGTCTT
GTATTGATTTATATGATGAAAATGATAATTTCATCTTACATTGTTGGAAGTCAGCTATTTGACAATCTTAACTTCCCTGGAATAGTTAAGAAGTATGAAA
GAAAAGAAAAAGAAAATACCCTCATGAACCCAACATATACCTGAAATCGCTTACTAGAGTGTAAACATTGGTTAAGCTATTTTAACCTTTGATTAGTTTA
TCTATARTTCTTTTAAGCTGTAATATCCTCTTCCCAAATTCAAAGCAAATTAGAAAAGGGAAGGAGTGTCCCCAAATAGAGGCATTCCAAGGAATAAATG
TGTTTCTTTAATGAAAAAAATAAATAAATAAACCCTTAAAAACCAATGAGTATCTCAAAAAACCGTAACATTCTTGAGCCTTTTGAAACACATACAGGAG
TACATAGCATTTTTTTTTCATTGTGACAGCATTACTGCAATCTTTCATCTGTATTTTGAAAATCATAGCCTGGCATCATCAAGAAAAATTAAATCACTGA
TATACAAATAATAAATGTATAATATATTTTAGAAAGATGTCTCTAGGATGAAGACTCTTGATGTCAAAGATCATATTTATCCTGTGCTTTAAACAGTACT
TGACATACAGCAGATATTCAAAAACATGCTTGTTGAATTAATGGATGATTCCCCTTTAATGTGACTGTGAAGATTTTTATTTACTTTAAAGGAATATACT
CTTTATTATTCAGAAATATTAACTATCTGAAAAATTTAGGATGCTTAATTTGGGAAAGGCTTTTGTAATAAACATTGATTTAGTTGTCATTTCATTTAGC
TCCATCTTAGCAGAGGCCTAATACATTTATTTTGCAGTTTCTACTTTCCTTAAGAAGAAAAGTACGCTTAATTGGCAACACAGTCACAGTATGACAACTG
TAGAATCRCCTTGGATTATACTTTAAAATTTTTTATGGAATTGAGAGCTCTTGTTTTCTTTCTAGATATCTTTTGTCCAAATCCTCCAGCTATCCTTAAT
GGGAGACACACAGGAACTCCCTCTGGAGATATTCCCTATGGAAAAGAAATATCTTACACATGTGACCCCCACCCAGACAGAGGGATGACCTTCAACCTCA
TTGGGGAGAGCACCATCCGCTGCACAAGTGACCCTCATGGGAATGGGGTTTGGAGCAGCCCTGCCCCTCGCTGTGAACTTTCTGTTCGTGCTGGTCAGTA
TCCRCTTCCACATATCCTAAATGGGTTCAGAATATGTGGACCCAATCCCTCATGTTTCTGTAATAAGACTATGGTATTTGTTTGTGAGCTTAACTTTGTC
ATAAGTGTAAATGTCAAAATTACATACCATAGCTAAAACAGATGGGTTTCAGCAGCGCCAAGGTATGTTTGAATCTATAAGATGAAAACTCTTCTTGCTG
GTGGAGTGGAAGAGGGTGGGAAAAAGGGACTGAGGGAGGGGTGGAGGGAAGGCAGTAAGGCACAGTTATGTAAATCAGGAAGAAAAATGTATTCACTGGA
GACGACATGAAAACAWCTGCCTCTGAACACTAACCAGTATCTGTATAATTGACAGTCTCCATAAGTTCATGAGGGGTACATGGGCATGCAAAGTTCAAAA
TTGGAAATGTGGATATTATTTAGCTAAGGTTTTAAACTAGTGTTCTGCTGCATGGGCTAAGTAACCAAAAAGACTCTCTTTGTCTTGACTTAAAGTTTGT
CCACTTGTCATCTTGCCTCCAGGCTGTCTTAATCTTTGTACTTGAACTGTTCCACTCAGGGGGTAAGAAGCAAGGAAAGAGTAGCSCAAAGAAAAGAGTA
GGAAAAGGAAGAGGCTATTTCTTCCTAAGGAGGGGAAGAAGTTGCCTGGTCCTTCAGGGCAAACATTAGGCCTTTTCCAGAGCAGAAACTGGAGTAGATT
AGGGATGTGGCACCAGCCTTGGAATATTCCATTATCCACAGGGAAGCCCTGAGAGACAAGAGCCAGCCAAGGTGAAAAGACTAAACCTGATGAAAGGCAT
TTAACCTTTCTTTGACCTTTACTCTCCAACTGAGTGGTACCCATCAGAATGCAGTAAATTTTTTTAATGTAAATGCCTAGACCCCAGTGCAGGCTTAATG
AACAGATGGAGGAAGCCTTCTCCAAAAAGGAGGTAATGGAGTTCAGACTCTATTTGAAAATATGCAGCACATGGCTGGGCACAGTAGCTCACACCTATAA
TCCCAGCACTTTGGAGGCCGAGGTGAGAGGATTGTTTGAGGCCAGGAGTTCAAGACCAACCTGGCCAACACAGCAAGCTCCTAACTCTACAAAAAATAAG
ACTGAAAAATTGTAAAAACTGTAAAACAAAAAAAGTAAAAATATGCAGCACACAATATACTCTCTCAGAAAGAAGACATAGCTTCTTACAGAAGGCTGAT
GGCTTAGTCTGTTTTGTTCTGGTTCTTTTTTTGTTTTGTTTTGTGTGTGTGTGTGTGTGTGTGTGCTTTTTTTGAGAGAGAGGGTCTTACTCTTTTGCCC
AGGTGGAGTAGAGTGGTGCAATCATAGTTTACTGCAGCCTTGACCTCCCTGGCTCAAGCAAGCCTCCCATCTCAGCCTGCCAAGTAGGTGGGACCACAGG
TGCATGCCACCACACCCAGCTAATTCTTGTATTTTATGTAGACCGGTTTTCATCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTAAAGCAATCCACC
TGCCTTGGCCTCCCAAAGTGCTGGGACTACAAGGCGTGAGCCACCATGCCCAGCCTATTTTGTTCTATCTTTAAATGCCTGGTTTAGCATCAGAAGAAAA
ACACTGTATTAGTTTCCTAGGGCTGCTGTAACAAATTACCACAAACTAGGTGGCTTAAAACAAAAGAAACTTATTATTTCACAGTTTTGTAGGCTGAAAT
TGAGATGTTGGCAGAGGTATTTTCCCATCTTCTAAGGCTCTGGAAAATAACCAATTCTTTACTTCTTCCATCTGCTGCTGGTTCCTGGGATTCCTTGGCA
TTCCTTGGTTTGTGGATGCATCATTCAAATCCCTGCCTCCATCATAGCCTTTTCCCCTGTGTCTCTATATGTCAAATCCCTCCACTTTTTCCCTGATAGG
GACACCAGTCATTGGATTTAGGGCCCACTCTAAATAAAAGATGATCTAATCTCAAGAACCTAATCTTAATTCTATCTGAAAAACCATTATTCCAAATAAG
TTTCTATTCTGAGGTTTTAGGTAGAGATATCTTTTGGGAGAACATCATTCAACTCACTACAAGGGGTACCTGCTATGAAAGGCCAGAGAGGCAGCTTATG
ATGGGCACCCTGAGAATGGAGTATGGAGAGAGATGATAAAATATGTCTTGCTACTCAKGAGTGAATTAGCACAAACACATGAAGATTTGAGTGGTTAACT
GAGGATATAGGCACTCCGATAGGAGGTCAGAATGTGAAACTACAAGCTGAAGTTCTTGCTTTGGTGAAATAAGGGAAGAAAGATCAGAAAGCTGAGTGGT
CTTCCAAATAGTAAAAAAAATCCTGCTGAGTAGATGCATTGAAGAGCTTCATCCCAAGGTAACATCAAGGAGAAGAAAATCTTTTGCTATTCTTGTAAGT
CTCTTTGTTTCTGTGATCCACCTATCAGCTTAATTGAAGAGAAAGAGGMGGTAGGGTGGAAGTCTCTCTGCTAACTTTGATATTCCTGTGGTTTTTCTCT
CCAGGTCACTGTAAAACCCCAGAGCAGTTTCCATTTGCCAGTCCTWYGATCCCAATTAATGACTTTGAGTTTCCAGTCGGGACATCTTTGAATTATGAAT
GCCGTCCTGGGTATTTTGGGAAAATGTTCTCTATCTCCTGCCTAGAAAACTTGGTCTGGTCAAGTGTTGAAGACAACTGYAGACGTGAGTAACCCCTCCC
TGGGAACTACTTCATGTCTGTTAAAGCATAGGTGGGACCGGGCTTGGTGGCTCACGCCTGTAATCCCATCACTTTGGGAGGCCAAGGCTGGCAGATAGCT
TGAACTCAGGAGTTCGCAACCAGCCTGGGCAACATGGCCAAACCCCACGTCTACAAACAACAACAACAAAAACAACGTAGGTGGGATTTGATTCAATTTG
CTCAAATTTTGGAAGCAAGATGTCTATATTTGCCCAAGATATTTTGATAAAGGAAAGGATGGTCTTGTACATCACCCCTTCTTCTTGCTTGTAGTTCCTG
AACCTTGACTAGATGCTCATTTCATGAGAATGGCTCTCACAAAAGAATTAGAGAGAAAATTTACATTCACTGTAGATCATCCTTGATGGCTGACACCATT
AAATGAATGAAACAGGGGTACAAAAGAAATTTATGTGAGTTGCAGTGAACTGTGCTTGGCTAACTAAAAATAGGGGAGACATCCCAAATTTTGAGGCCTT
TGATTTTGGCTGGCGGAATGAGAGTACAACACTTTAGCCATAAATGACTTGTTTTGTTTTTGTTTTGTTTCTGCTGTTGCTGTTGTGTTTTTTGTTTGTT
TGTTTGTTTGTTTCTGAGATGGAGCCTTACTCTGTCACCCAGGCCGGAGTGTAGTGGCGCGATCTTGGCTGCAACCTCCTGGGTTCGAGCAAGTCTCCCT
GCCTCAGCCTCTCGAGTAACTGGGATTACAGGCACCCACTCCCATGCCCAGCTAATTTTTGTATTTTTTAGTAGAGATGGGGTTTTGCCACGTTGGCCAG
GCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCGGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGAGAGCCCATACATAACCTTTATTAGGAGGT
GCAAGATAGTCTTTTTCAAAGTTGTGTTCGTAGCTACATGATTCTGAAGTTGTCTGCCAAGTTTCCTCAAAGCAGTCAATTCCATGAAACAATTGGAACT
GTATATGCTGTTTAGTATGCCACACTCCAGTCTGAACCTTACAAAGGTAAGTTGAACTCTATATTTAATCCCAAATTCTGCTTCTTCCCCTAGGAAAATC
ATGTGGACCTCCACCAGAACCCTTCAATGGAATGGTGCATATAAACACAGATACACAGTTTGGATCAACAGTTAATTATTCTTGTAATGAAGGGTGAGTT
GAGAATACCATCTCTTGAATATGAGTTCCAGAACAGCAGAGCCAACTTCTGACCCAGTCTCAGATAGACAAACTAAACTATTGCTCCCTTTACTTTAAAA
GCAAGCAATAGGACTTATAGATGGAGATGATACGTTGGACATAGCCATATGATCAAAGGAATACAAAAAAGAAGGTACAATATGTATTGTATTGTAAACC
AGAGGAGGGCAACATGTTCCTGTCAAAGGTGRTACATGTGAAACCTGGTCAGGCATTCATTGGATGAAAAGGAGCAGCTTACAAATAAGGAAAAGGAAAA
AAGGTAGTTGAACCATGTAAACCTCCTTAACTGAGATCAGTAGGTAATACAGTTGAGTTGGAGGACCCTGAAGCAGAGTTTGGGAGGGTAAACATTAATT
GTAACAGCAGCTCTGGAAGAGTATGCATCAAAGTGCACACAGAGAGGAGACATTATGGGGTTCTTGCTCTTGACTTCTCCTTGGGACAAGTAGCCACACC
AAAAGCCATTGCCTCAACTGAGAAGGGGCTTTTAAAAACTCTGGAGTRGACCTCCATCAAACTCCAGCAGACCTGCAGCAGAGGGGCCTGACTGTTAGAA
GATAAACTAACAAACATAAAGGAATAGCRTCAACATTAACAAAAAGGACGTCCACATGAAAACCCCATCCAAAGGTCACCAACATCAAAGACCAATGATA
GATAAATCCACGAAGATGAGGAAAAACCAGCACAAAAAGGCTGAAAATTCCCGAAACCAGAATGCCTCTTCTCCTCCAAAGGATCACAACTCCTTGCCAG
CAAGAGAACAAAACTGGGTGGAGAATGAGTGAGTTGGACAGATTGACAGAAGTAGGCTTCAGAAGGTGGGTAATAACAAACTCCTCTGAGCTAAAGGAGC
ATGTTCTAACCCAATGCAAGGAAGCGAAGAACCTTGAAAAACAGGTTAGAGGAATTACTAACTAGAATAACCAGTTTAGAAAAGAACATAAATGACCTGA
TGGAGCTGAAAAACACAGCACAAGAACTTCATGAAGCATACACAAGTATCAATAGCCGAATCGATCAAGTGAAACAAAGGWTATCAGAGATTGAAGATCA
ACTTAATGAAATAAAGCWTGAAGACAAAAAAAGAATGAAAAGGAATGAACAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAACCTACGTTTG
ATTGGTGTACCTGAAAGTGACGGGGAGAATRGAACCAAGTTGGAAAACACTCTTCAAGATATTATCCAGGAGAACTGCCCCAACCTAGCAAGACAGTCCA
GCATTCAAATTCAGGAAATACAGAGAACRCCACAAAGATACTCCTTGAGAAGAGCAACCCCAAGACACGTAATTGTCAGATTCACCAAGGTTGAAATGAA
GGAAAAAAATGTTAAGGGCAGCCAGAGAGAAAGGTCGGGTTACCTACAAAGGGAAGCCCATCAGACTAACAGTGAATCTCTCTGCAGAAACCCTACAAGC
CAGAAGAGAGTGGGGGCCAATATTCAACATTCTTAAAGAAAAGAATTTTCAACCCAGAATTTCATATCTAGCCAAACTAAGCTTCATAAGTGAAGGAGAA
ATAAAATCCTTTACAGACAAGCAAATGCTGAGGGATTTTGTCACCACCAGACTTGCCTTACAAGGGCTCCTGAAGGAAGCACTAAACATGGAAAGGAATA
ACTGGTACCAGCCACTGCAAAAACATACCAAATTGTRAAGACCATCAACAATATGAAGAAACCACATCAACTAATGGGCAAAATAACAAATCAGCATCAT
AATGACAGGATCAAATTTACACATAACAATTCTAACATTAAATGTAAATTGGCTAAATGCCCCCAGTTAAAAGACACTGACTGGCAAATTGGATAAAGAG
TCAAGACCCATTGGTGTGCTGTATTCAGGAGACCCATCTCATGTGCAAAGACACACATAGGCGCAAAATAAAGGGATGGAGGAATATTTWCCAAGCAAAT
GGAAAGCAAATAAAAGCAGGGGTTACAGTCCTAGTCTCTGATAAAACATACTTTAAACCAACGAAGATCAAAAGARACAAGAGCATTACATAATGGCAAA
GGATGCAACAAGAAGAGCTAACTATCCTAAATATATATGCACCCAATACAGGAGCACCCAGATTCATAAAGCAAGTTCTGAAAGATCTATAAAGAGACTT
AGATTCCCACACAATAATAGTGGGAGACTTTAACACCCCACTGTCAGTATTAGACAGGTCAACGAGACAGAAAATTAACAAGGATATTCAGGACCTGAAC
TCAGCTCTGGACCAAGCAGACCTAATAGACATCTATAGAACTCTCCACCCCAAATCAGCAGAATATACATTCTTCTCAGCACCACATAGCAATTATTCTA
AAATTGACCACATAATTGGAAGTAAAGCACTCCTCAAAATGCAAAAGAATGGAAATCATAACAAACAGTCTCTCAGACCACAGTACAATCAAATTAGAAC
TCAGGATTAAGAAACTCTCTCAAAACTGCACAACTACATGGAAACTGAACAGCCTGCTCTGAATGACTACTGGGTAAATAACGAAATGAAAGCAGAAATA
AGTAAGTTCTTTGAAACCGATGAAAACAAAGACACAATGTACCAGAATCTCTGGGACACAGCCAAAGAGTGTTTAGAGCACTAAATTTATAGCACTAAAT
GCCCACAGGAGAAAGCAGAAAAGATCTAAAATCGACGCCCTGACATCGCAATTAAAGAACTAGAGAAGCAAGAGCAAACAAATTCAAAAGCTAGCAGAAG
AGAAGAAATAACTAAGAWCAGAGCAGAACTGAAGGAGATAGAGAAACAAAAAACCCTTCAAAAAATCAATGAATCCAGGAGCTGGTTTTTTGAAAAGATT
AACAAAATAGACCACTAGCCAGACTAATAAAGAAAAAGAGAGAAGAATCAAATAGACACAATAAAAAATGATAAAGGGGATATCACCACTGATCCCACAG
AAATACAAACTACCATCAGAGAATACTATAAACACCTCTACGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTGGATACATACAACCTCCC
AAGACTAAAACAGGAAGAAGTCGAATCCCTGAATAGGCCAAAAACAAGTTCTGAAATTGAGGAAGTAATTAATAGCCTACCAACCAAAAAAAGCCCAGGA
ACAGATGGATTCATAGCTGAATCCTACCAGAGGTACAAAGAGGAGCTGGTACCATTCCTTCTAAACTATTCCAAACAATAGAAAAAGAGGGACTCCTCCC
TAACTCATTTTATGAGGCCAGCATCATCCTGATACCAAAACCTGGCAGAGACACAATAAAAAAGGAAAATTTCAGGCCAATATCCCTGATGAACATTGAT
GCAAAAATCCTCAATAAAATACTGGCAAACRAAATTCAGCAGCACATCAAAAAGCTTATCCACAACGATCAAGCTGGCTTCATCCCTGAGATACAAGGCT
GGTTCAACATACGCAAATCAATAAACGTAATCCATCACATTAACAGAACCAATGATAAAAACCACATGATTATCTCAATAGATGCAGACAAGGGCTTCGA
TAAAATTCAACAGCCCTTCATGCTAAAAACTCTCAATAAACTAGGTATTGATGGAATATGTCCCAAAATAATAGGAGCTATTTATAACAAACCCACCACT
AATATCATACTGAATGGGCAAAWGCTGGAAGCATGCGCTTTGAAAACCAGCACAAGACAAGGATGCCCTCTCTCACCACTCCTATTCAACATAGTATTGG
AAGCTCTGGCCAGGGCAATCAGGCAAGARAAAGGAATAAAGGGTATTCAAATAGGAAGAGAGGAAGTCAAATTGTCTCTGTTTGCATATGACATGACTGT
ATATTTAGAAAACCCCATTATCTCAGCTTAAAATATCCGTAATCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGCAAAAATCACAAGC
ATTCCTATACACCARTAATAGACAAACAGMGAGCCAAATCATGAGTGAACTCCCATTCTAAATTCCTGCAAAGTGAATAAACTACCTTGGAATACAACTT
ACAAGGGAAGTGAAGGACATCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAGTAAGCGAGGACACAAACAAATGAAAAAAACATTTCACGATTGTGG
ATAGGAAGAATCAATATCATGAAAATGGCCATACTGCCCAAGGTAATTTATACAGTCAATGCTATCCCCATCAAATTACCAATGGCTTTCTTCACAGAAT
TACAAAAAAAAAAAAAAAAAAAACTACTTTAAACTTCATATGGAACCAAAAAATAGCCCATATAGCCAAGACAATCCTAAGCAAAAAGAACAAAGCTGGA
GGCACCACGCTACATGACTTCAAACTATACTATAAGGCTACAGTAAGCAAAACAGCATCGTACTGGTACCAAAACAGATATATAGACCAATGGAACAGAA
CAGAGGCCTCAGAAATAATGCCACACATCTACAACCATCTGATCTTTGATGAACCTGACAAAAACAAGCAATGGGGAAAGGAKTCCCTATTTAATAAATG
GTGTTGGGAAAACTGGCTAGCCAGATGCAGAAAACTGAAGCTGGACCCCTTCCTTTACAYCTTATACAAAAACTAACTCAAGATGTATTAAAGACTTAAA
TGTAAGACCTAAAACTATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGCAAAGACTTCATTACTAAAACACCAAAAGCA
ATGGTAACAAAAACCAAAATTGACAAATGGGATCTAATGAAACTAAAGAGCTTCTGCACAGCAAGAGAAACTATCATCAGAGTGAACAGACAACCTACAG
AATGGGAGAAAATTTTTGCAATCCATCCATATGACAAAGGACTAATATCCAGAATCTACAAGGAACTTAAACAAATTTACAAGAAAAAACAACCCTATCG
AAAAGAGGGCAAAGGATATGAACAGACATTTCTCAAAAGAAGACATTTATGCAGCCAACAAACATGAAAAAAAGCTCATCATCACTGGTCATTAGAGAAA
TGCAAATCAAAACCACATTGAGATACCATCTTGGGCCAGTTAGAATGGCAATCACTAAAAAGTCAGGAAACAACAGATGCTGGAGAGGATGTGGAGAAAT
AGAAATGCTTTTACACTGTTGGTGGGAGTGTAAATTCGTTCAACCATTGTGGATGACAGTGTGGTGATTCCTCAAGGATCTAGAACCAGAAATACCATTT
GACCCAGCAATCCCATTACTGAGYATATACCCAAAGGATTATAAATCATCCTTCTATAAAGACACATGCACACGTATGTTTATTGCAGCACTGTTCACAA
TAGCAAAGACTTGGAACCAACCCAAATGCCCATCAATGATAGACTGGATAAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAA
GGATGAGTTCATGTCCTTTGCAGGGACATTTATGAAGCTAGAAACYATCATTCTCAGCAAACTAACACAAGAACAGAAAACCAACCACCGCATGTTCTCA
TTCCTAAGTGGGAGTTGAACAATGAGAACACATGGACACACCGAGGGGAACATCACACAGTGGGGCCCGTCAGAGGGTAGGAGTCCAGGGGAGGGATAGC
ATTAGGAGAAATAGCCAATGTAGATGATGGGTTGATGGTGCAGCAAACCACCATGACATGTGTATACCTATGTAACAAACCTGCACGTCCTGCACATGTA
TCCCAGAATTTAAAGTATGATAATAAAAAAAAGACTGTGTACTCATTTTTGGTTGCCATGATAAATTCAGAGAGGAAAAACATGATATATATTAAATTTT
ACTGCAACAACTAACTGCCCCTTGTCATCAGCCTATTCTGTCACTAGAGTGAGTCAGTATTCCTCTTTTCTGACTGTCTGAGCCTGGACGATTTAAACTG
CTTTTCACACAACCTCTTGCCCAACCTTTTCTCACCTCCCATTGTGAATGAACATAGATTTCCCTATGGTAAACAAAACAAAATATCACCAAATCTAAGG
CAAGATAAAGAAATTGAAGATAAAAGAAACCAACCCAAGAGATCAGAGAAATATTCATCTGCACAACAGCTTCCTCCAATAAACAGGGGACAATCTTTAA
AAATCTCTCATATGTGTTTGTAACATAGAATCGATGGAACTATATGAGGCATTTATAAGATTTAATGATCTGATATCAGAAAAGTTGAGATTTGAATGAA
ACACATGGGAGTCGGAAAAGGAGTGATGACTGGTAGATTGGAGCCTGCCCCCAACCCCCGGAAAAAAAAAAAAAAAACACCAAAGGGATAATGAAGACAA
GATTGAATTCTCCAGAATTCATCAAGGACCAGACTTGAAATGACACATATATACACACAAACACACTACACACAAACACACAGGGATATAATATAGAAAT
TCCAGAAAAAATAAAAGAAAGCAGAATGAATAGAAGCATTAATTAGCACATAATGGAAGACAATTTCTCAGGCTATAAAGAAAAATACTAAGTTGATCCT
TGAAGGCTTACTAGACAAATCAAGATTAACAACAATGGGCCCCGGCCCTACATGGAAGAAAATTATGCCATCCAAATATAAAAAAATACTGCCACTCTCC
AGAAATAACAAAAAAGAAGAAATTCATCTTAGCACCAAGCTTCCGTTCTGTAACACTAAGTAGTAGAAGTTAGTGTTTGAGAGGAAATATTGTACAATAA
AATTTCTGTACTCGGCCAAGCTGCCATTCATCTGCAAGGCACAGATGCATCGTCTTAAATAAGAAGGAACCCCAAACATACACCAGTTAGATATACTGCC
TACAAAAAGAAAAACTCCCACAAAGCTGTGGGAGTTTTTCTTTTTGAAGAAGAAATCAAAATTCCAAATGGTGTTGTATCAAAGAAATATTAATGAGGCA
CAAAACTAGTTAAATGGGGTCACTAAAACTGTTTTATTTAATATRGAAATAAAATATCAAAGCAGGACTAATTCTTGAAAGATAATTCATGTAATATGAA
AAGAAGAAGAAACTTGATATAAAAAATAGATTTTATCACTTCAGCTAGGAAGTTAGAGATGAAGTAAGAAAAACCATCATAAACTTATCATATGTAGGGG
ACACATATTCTTGACATAAAAAATAAGGAGAAAATGGTACTTCACACCAGTATAAAATCTATATATCTATATCTATATATATCTATATCTATATCTATAT
ATATATATAWAATCAAATTTTAAAAGATAATCAGAAGGGCGAAACCACTTGGTCCATAAAACAAAAGAGGGGTGAGAGAAACAAGAGCTAGCAAGCTTTC
TGTCTCTCTTTTGGGAAACTAGCATTATTACGTTAAAGTGAATTAATACATGTATTTTAATGCCTCAGTTTTTCTTTCTAATATAATAAATATTAACAGA
TATAAACTCCATTGGTAAAATCACTTTGAGGTCCTTAATACTTCTTAAAGTGGCCGGGCGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTG
AGGCGGGCAGAACACCTGAGGTCGGGAGTTCAAGACCAGCCTGGCCAACATGGAGAAACCCTGTCTCTACTAAAAAATACAAAATTAGCCAGGTGTGGTG
GCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCYGGGAGGCGGAGGTTGCAGTGAGCCGAGATGGTGCCACTGCAC
CCCAGCCTGGGCAACAAGAGCRAAACTCTGTCTCAAAAAATAATAATAATAATAATAACAATAACAATAACAAAAATGTTTAAGAGTGAAAAGAATTCTT
GAGACCAAAAAAGTTTAAGAACTAGGGCTTGATGATGTTCAAGCAAAGATAGGAAAAGGCTATTGCAAGTACGGTACAAAGCACAGGGGGAAGGTTTCAT
AAGTATATATATAATATATATATAATATAACATAAAATTCATATATATTATAAAAATAATAAATATGATATAAATTTGATATRAAATATTATATAAATCT
GATTTTTAACATATTTTGATTTTATACTGGTGTAAAGTACTATTTTCTCTTTATTTTTTACATCAAGAATATGTATCCCCTACATAGTATAAGTTTATCA
TAGTTTTTCTTACTTCATTCCTAACTTCCTAGTTGTAGTGATAAAATCTATTATTTTATATCAATAAAAATATTGATATAAATTTTATTTACATGATATA
CAATATTTAAATATAACATATTTTATATTACAAAATATACTACTATGTATTACAAAAAAAAAAACAAACTCCATTTAGCAGAGCAAGAATGGAGTTTGTT
TTGTACAGTGCTGAGTTCCAACCCATAGAATTGTTAAATAAATAAAAAGGAAAGAACACTATAAGATCAAACTCATCAGTTATAATAGTAAATGTGAATG
ATTCCAATCCCCCCTTTTGAAAGACAAAGGCTTCTAAATATGGTCAGAATCCTATTTACAGTARCAYCAAAAAGAATAAAATACTTAGGAATCAATTTAA
TCAAGGAGGCACAAGACCTGTGCACTRAAAACTCAGTAACTGAAAATGAGCAAATGATGTGATAGACATGTCTCCAAGGGAAATATACAAATGCCCAATA
AACACATCAAAAGATGTTCAACATCAYTAGTCATTAGGGAAGTGCAAGTCAACCTGACTTTGTACTAGGATGTTTTGTATTAGGATGGTTATAATATTTT
TAAAAAATAGGAAATAAAAGGTGTTGGCGAGGATGTGGAGAAATTAGAACGCTTATACATTGCTGGTGGAAATGTAAAATGGTGTAGCACTGTGGAAAAC
AGTTTGATGATTCCTGAAAAAGTTAAACATAGAATTACCATATAACCAGCAATTCTGCTCCTAGGCATATACCTAAAGAAATTGAAAACAAGGACTGAAG
CAGATGCTCAAATACCAATGTCCGTAGCAGCTTTGTTCAAAATAGCCAAAAGGTAGAAACAACCCAAGTATCTACGAGCAGATGAATGGATAAATGAAAT
GGAGCTTATCCATTCCATGGAATATTCTTCAGCTATACAAAGGAATAGAGTTCTGATACATGCTACAAGATGCATAAACTTTAAAAACATTATGCTAAGT
GAAATGAGCCAGACACAAAAGGATAAATACTGTATTCCACTTTTATGAGGTGCCAAAAATAAGAAAATTTATTGGACTAAAAATAGATTAGAGATAACCA
GTGGAAGGAGAGAATAGGGAGTTACAACTCAATACATCCAGTTTCTCATTGGGATGGTGAAAATTTTTGGAACTAAGCAGTGATAATGGTTGTATAATGT
TGTGAATGTCATTGATGCCACTGAATTATACCCTTAAAATGGTTTTAATGGCAAATTTTATGTTGTATCTCTTTTAAAACAATAAGAAAGAAAAAAATTT
TTAAATATATCATGTGATATTAGGAAAGAAAAAAACAGATAACAGTATAAGAAAAATAAGAATTTAAAACATATCAAATAAGATTTAAAAATTTTGTTTA
AGATATTGATACTTGGTCCAGTGCACAATAAAGACAAGAACTTTTTTTTTTTTTCTTTTGAGATGGAGTCTCGCTCTGTCACCAGGCTGGAGTGCAGTGG
CACTATCTCGGTTCACTGCAACCTCCGCCTCCAGGGTTCAAGCCATTATCCTGCCTCAGCCTGCCGAGTAGCTGGGACTACAGGCATGCGCCACCACGCT
GAGCTCATTTCTGTATTTATAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTTGATCTCTTGACCTCGTGATCTGCCTGCCTCGGCCTCCCAA
AGTGCTGGGATTACAGGTGGGAGCCACCGCGCCTGGCCTGAAGACAAGAACTTTTGAACAAGAGAGCGCTAACTAACGTATTGAAATACATAAAACAAAT
ACTGATATATAGAAGAGCTCATTCAGCTGYTTCAAAGACAGAGCTCTGTAACACATGTACTCTTACCTAAAGAACTGTCTCCCACCACTGGAAAGGAGGT
CTTCTCTGACCAAATACACAGCATCTTGGAGTTGGCCAGCATTAACTTGGATCATCTGGCTGGCCAGGAAAGGAGTGCTCAGGGAGAAAGAGGATGGTCA
CCATCCCAACCAGATTGGCCATTAGATCTATGTATCAACAGAGTGACATACGGGAGAATTAAAATTCTAGTATGCAAAAATACRCCGTATGTTAACAGAA
AATAGACTGCAGGGAAATTTGTATTAGGTAAAACCGAGAGAAAGTTAAGAGCATACAACAGTAGATAAGCAATAGACAACCCGATATAAAAATGAGGAAA
GAATATGCACAGGCAATTCACAAAAGGAAACATAAAAATGGCCTTAAAAATTGCTAAAATAAATATTTAAGCAAAAAAGCTCARCTTCACTATGGTTTGG
GGAAATGCAAATTAAAGCAACAATATGTCATGTTTTCACAGTCACATTAATAAAAGTTTAAAAGACGGAAGTAGAGGTAAATAGGAATTTGAGGAAAAGG
AGCCCTCTCATAGTGGTTCATTGGAATGTGAATTGCTGCAGCTTTCAAAAAAAAATCTTACACTATCCACAAACAATGAAAGCATAGATATCTTCTTAGC
TACTAATCCCACTCCTAGGAAAAGGAGTATTAATTACAATAGGTTCTTTATTGCAGTATTGTTTATATAAGCAAAAAGAGCAAACAACCTTGACATCCTT
CTATTAGCAGTAGGTTGAATAAATCATAAGACGTCTACTATGAACTATTTTGCAGCAATCAAGAAGACTTAATTAGATCTCTGTTTAGTGATTTGAATGG
GTGACCATGTTGTGATGTCAACAGAAAAAAATAATTTGCAGAAAAGCATATAGAGTTTGTTCTCAATTTGGAAAAATAATGACAAATTTGGAGGAGATAT
CCTATACACATATGTGTGTTTGATTGGGTTTGGAAAAATCAGGACCACCTGAGATGGAGGTGGGAGTGACAAAATATACATGGTATACTAAGTGAATATA
TAGGTTATACAATTACGTTGTTAAATTTCTGAAAACAAGTGCAACTTAAGCATATAACTAAGGAGTAGATGTTAACCTGGACAAATGAAACATAGATTGT
TTTGAGCAAGAGACRGCAAAATTTTTTGTCAAGAGCCAGATAGCAAAATTTTCAATTTTGCAGACCATGCAATCTCTATTGCAATTACTCAGTTCTGCCA
TTGCAGTGGAAAAATAGCCCTAGACAAATGAATGTGTGATTGTATTTTGATAAAACTTCATTTACAAATACGTGCTATAGAACAAATTTGGCCTGTGAGC
CATAGGGTGACAATCTCCGGTTAGATGAAGGGATTGAGAGCATTATTTTTCTTCAATTCTTGTCATTATGCAAAGTCAGAGAATTTTCTAAAATAAATAA
AAATACAAATTGGCAAAATAATAATAGTTGAAAACTTCAGATTGGGCAAATAAGTGAACAAATAATCACATGTTGAGGAATAAGGCTGCTTTGATTCTTG
TGTGTTCAACTTTGAAACCTTTATCACAGTTATAAAAACCATTTATAAAAGTGATATAACTCCACAGAGTATACCTCAATAAATTTGCACATAGAAGAAA
TCAAAATGGGTATATTTTCTCATCGCAATACACCAAAAACTAGGAATTAATAAGCAAATGATACATTAAAAATTCAAAGTTTTAGAAAACGGAGTACCTT
AGATCTTGATCAAAGAGAAATTTAAAAACAGCCATTGCAGATTACCTGGAGAATAACAATCGCTAAYGATCCTCAAGTGCATGTGCCTCAAGCATTCTTC
TAAGTCCTTTACTTGAATTGATTTACTTAGTCTTTAAAAGACCCTTTGAAATGGATATCATGCATATCCCTCATTGTATAGAAGAGAAAACTGAGACAGA
CAGGTTAACTAATTTGTCCAAATTCATGTGACAGGTTGAGGTTAGAATTAGAATATCGCCAGTCAGCTTCAACAACCTGTAATGGTAAGCCTTACATTAT
TTATCTTCTTAATTAGGAATGCTGAAACATATATTACTCATAAAAATTTCTGGGGTGCTGATGCCAAAACTGTCCTCAGAGAAATTTTTCAATCCTTTTT
GTTACTTGACAGGAAAAAATTCAAATAAATGAACAAAACATTTCTTAACAATTTTTAAATTATTAAAAACATATATAAAAGGCTGCTGGAGTAAGGAATT
AATAAAGTAATGAACAAAGAAAAAATCATAGAAATTATAAAGAAATCTAAAAGCAGATTCTTTAAAGTGACCAATTATAAAACAAACAGACTGGGTCAAT
TGTCATTTCACAAAATAACAATTCTATAAATATACAAGAATGAGAAAGAAGACATAAGCCTGTTGATATTGAAGAGATTTAATACTTGATAAAAATATTA
TATCTTCTCTATTCTAATAAAATTAAAACTATCCATGAAATGTACCATGTCAGAAGAAAAATACAATTTACCAGGTGTAGTTTAAAATAGGCAGAATTGC
TGATAAACCCATATCTGTTTGAGTCCATATTTTCAATTCTTTTAGGTATATACCCAGAAGTGGAATTCCTGGGGGATATGGTAATTCTGTTTAACTTTTC
AAAGAATTGCCAGACTATTTTCCACAGCTGCTGTACCATTTTACATCCCCATCAGCARTGCACAAATGTTCCAATTTCTCTACATCCTCACCAACACTTG
TCATTTTTCTGGTTTAAAAAAAATTATTATTATACCACCCTAAAAGGGGCTGAAGTCAGTTTGATTTACATTTTCCTAATGACTAATGATGTGGAGCATC
TTTTCTTGTGTTTATTGGCCATTTGTATGTCTTTTTTGGAAAAATGTCTATTCTCATCCTTTGTCCATTTCGTAATTGGGTTGTTTGTTTCATTGTTATT
GAGTTACAGGAGTCCTTTATATGTTCTAAGTATTAAATCCTTATCAGATAGGGTTTTCACATATTTTCTATCATTCTGTGGGTTGTCTTTTTAATCTCTT
GGTGGTATCTTTTGTTCTTGACTTGGACTGCAGGACACTTCAGTTCCTCACTACATGGGCTTCTCCAAAGGACAGCTGGCCTCTCCCAGAATGAGCATCT
CAAAAAGAGAAGAAAACATTGCAGTGCTTTTTGTGGTTAGCCTCTGAAGTTGCACACTATATCATTTCCACTTTATTCTAATCATTAGAATCAAGTCACA
AAGCACAGCCCACATTCAAAAAGAGAGGAATTGGGCTCCATCACTTGAAGGGACATGTATAAAATAATTTGTGGACATATTTAAAACCACCACAAAGAAG
CACCTTTAAAAAAAGACAATGGCCCAGTTTTGTAACTCTTTTTTAACTTCAAGAAATAGATAATCCAAGTATTAATATTATTTAAACTGTTATGGAACAT
AGAAATAAAATTATAGCCATAATTAAAGTTTGCCAAAGATTACAAATGAAAATAAAATAAAATATATCTCTGGCTCATTTGCTAATATAAATACTAAAAA
TCTTAAATTGACTATTAAATAAAACCAATATTAAAAGAATTATGCAAGGGGAACAAGTAAGGTTATTCCAGAAATGGTTCCAAATTAGGAAACCCACAAA
CTTACAATATTAAAGAGTACAACTTTTCTTAAATGTCATATAAATATACTCTCTAATGCCAAAAAACACAATGAATGGTTAAAATCTAAAAGCATGCTTG
AATATAATTAAAGTTCAAAGGAAAAGAACACTCGGCATCCTTCCTATTATTCAAAGTAGTTGTGGAAATTCAAACCAGTAAAATGACAGCCCCCTGTATT
TAGAGAGATATACATATAGATATAGATAGAGAGAGAGAGAAGGCAAATTTATTATTAACTGATGGTTGTTTACCTGAAAACCCGAAGGAATTATTTGAAA
GGTTATTAGAATAGGAAATGGTAGTGAGATATCGAGTAAAAAATAAATACTTATAAATTAATTACTTTCTTTATGTAGGTAACAACCAAATAGAATATAA
GGAGGAAAAATACCATTCACAACAGAAACAAAATCATCTAGAAAGAAATTTAACAGGAAATATATAGGACTTATAAGCAGAAGATTTAAAAGAGGGGGAC
ATAGAAAAATACTTCAAGAAATGGAAGATATAATATTTTATTTAAAAGATTTAATGTTGTGGTGATGTTAATTATCCCTGAATTAGTATGCAAATTTAAT
GTAATCAGTTTCAATGACATTCTTTTTTTTAATTTGACAAGATGTCTGTAAATGTCATGAGACCCACCAACAGAATATTCTGAGATAATAACAAGAAGGG
TGTTTGATACCAGATCAGAGGTGGGTTTGATACCCACCTCTCAGTGTCTGGTAACCACCTTTCTACTCTCTACTTCTACGAGTTCAACTATTTTAGATTT
CACATGTAAGAAAGATCATGCGGTATTAGTTCTTCTGTCCCTAGCTTATTTTGGAAGGTATTTTAAGGCACAAATATGTTGTAGTGTAATTATGTTGTAA
TTTTTCCTGACCTGATGTCCCACGTCTGTAAAATTCTTTTATTGAAGCCTAGGCTCTTTCCCTAGGACTCCCTGTCTGGAATCATAAATATCTTACTTCT
GTACTTAACAGAATTGTTCTGTCTGCATATAGTCCCCACTTTTTCTCCAAGTAGTTTCTCAAACAAATGCACTTCCTTTCCTGAAAAGATGAGTAAGATT
TTAACAGCTTTAAATCTTTATATATAGATATATTTTAAGCCAAACGACTACACTGTACATGGTTTTATAGCCCTCTTTAATACTTACGAACTATATTGTA
TAATTATTCTAATTATTATATATTACTCTACAACACCATTTTTAGTGGTTGCATTTTGGTTATTACTTGGATAGTCCATAACCTACCTAACAAAGTCCTT
AATGTCTGGAATTAAAGTGGTTTCGCATTTCAACTGTTAGCAAAAACACTACAATGCACGATCCTGCACACGTGAAAAGAAATGAGATGAGGACTTCACT
AACTTCAAAGACAGCTTAAGGATTCAGATCTTCACATGTACACAAGAGACAAGATTTGCAGATTTGAGTGAAAGGCTATGCACGATTTTAAGCCTTTCAG
TACATATTGCCAAAGTGCCCTCCACTAAACTTTGACCATGACCTACGGAGTGAGTCACAACAGTGACTCTTTCTTTGAGTTTATATTACTGCTAGGTTTT
GTCAATTTGCCAATCTAATGGGCAAAAACGGCATTTTATTTGCATTTTAAAGTGTATTTATCATGTTTATAAGGAAGCTAAACTTTTCATATGTTCATTT
GACTATTTCCATTTTTCGTTTGTAAATTATTTGTTCATAATTCTTTACCATTTTTCTACTTGGGTGTTTGCCTTTTTATAATTGATGTATAAGAGTTGTT
TTTATTATTTTTCCTCTGTGGTTTGTCTTCAAATTTGTATGTAGAAAGGTTTATTTGTAATTATTCAGTTTTATCAGTTTTGTTCATAGTAGAATTTTTC
CTCAATGTATGTCTATAGAAGCCTCAAATCAGAAACACGTTTGCCTAAATCACCTAGTTCTTTTATGGTTTTATTTTTGACATTTAATCTTTGATACACA
CGGATTTTGCTTTGATGAATGTCATGAGGCAGAGATCTAGCTTAGCTTTTCAGATATTTGCCCTATCAATGAATAATTCAGTTTTCCGTGTCTTGAAATG
CCATCTTTATCACTGCCAATTTCTTACAAAAACTTGTATCTATTTCTTGGGCTTTCCCCCATTTTGCTCTAGGGATCTGTGTCTCTATTCCTGCATCATT
TCAATTATTTTACATTTTAAATGCATTTTAACATCCCTTCTGTTTTTGTGCCTTAAAATACCTTCCAAAATAAGCTAGGCACAGAAAAACTAATGCCACA
TGATCTTACTTCCATGTGAAATCTAAAACAGTTGAACTCATAGAAGTAGAGAGTAGAAAGGTGGTTACCAGGCACTGAGAGGTGGGGAGCTGAGATTTGG
TCAAAGGGCGCAGGGTTTCAGTTAGACAGGAGGAGTAAGTTTCAGAGATCTATTCCACAGCATGGTGACTATAGTTAATAATAATGTGTATTTCMAAATT
GCTGGCCGGGCACAGTGTCTCATGCCTATAGCTCTTTGGGAGGCTGAGGCATACGAATTGCTTAAGCCTAGAAGTTAGAAACTAGGCTGGGCAAAATGGC
AAAACCCTGTCTCTACCAATAAATACAAAAATTAGCCAGGCATGGCAGCGCATACCTGTAGTCCCAGCTACTCGGGAGGCTAAGGTGGGAGAATGGTTTG
AACCTGGGAGGCAGAGGTTGCAGTAAGCCAAGATCACATCACTGCACTCCAGCCTGGGTGATAGATCCAGACCCTGTCAAAAAAAAAAAAAAGAAAGAAA
GAAAAGAAAAAGAAAGGGAAAAAAAATTGCTAGAAGAGTAGATTTTAAATATTCTCACCACACACACACACACACACACACACACACACACAAAACAAAT
ATGAGAGGTGACGGACATGTTAATTAGCTTAATTTAATCATTTGCAACAGAAACATATATCAAAACACCACATTTTACCCTATAAATATATACAATTATT
GTTTGTTCATAAAAATAAAATCAGATTTTAAAAAATATTCACTGTGTTTTTTTCAGCCATACATAGGCTGGAACCTTCTTCACATTTTGGCTCCAACAAT
CTAGCTTAGTCACAGCGAGCACATCTAAAACAACCTCTAGGAGGCCAAAAGTCAGAGGACTCCCATGATCCTGTGCTCTTAGACAACTTTTAAATGTATG
ATAGGAGACAGGCAGAGGAAAACACAGGTAATAATGGGATTATCCTTTTCTTTCCTTTCTCCAGTGGTTCTCAACTTGTTTAATTGCAGCAATTTTTAAG
ATTTTTTTTCTTGGCACACTTGAAAAGATTGTATACCATAGCCTAAACAGGCTAGCAATAAGTAAAATTCAATCAGTACCTAAAACGTAAAAGAGACTCA
CTGTGTCTACAAAAACATTGACGGTCATTGCCATAGTCACACAGTTCCCTTTAGCTTTCTGTCACTGTTTCGGGAAGAGCTGGTATATCAGTTAGGATTT
CCAGCTGTAAAAGACAGAAGAAATAAAATAACAGGATCTCAAACATAGATAGTAGTTTACTTCTGTCTCAGGTTAAAAATCACGAAAGTAGGCAGTCCAG
GGTTTATACGATGACTCCATAATCCACAGAAACCTGGGTTCCTTCCACTTTGCTACTCTGACCTCTTCAAAATGAGAGCCCATCTTATCTCATGGTCTAA
ACTCCAGCCAGTATAGAGGACACAGGGAAGAAGGGAAGGCCAATTCCTTTAAAGACACTTTCCAGAAGTTGCACAAGACACTCCACTTACATCCTCTGGC
CAGAAGTTAGTAACATGGCTATGCCCGGCTGTAAGGAAAGGTGAGAAGTGAAACCTTTATTGCAGGTGGCCAATGGCCCAGTTAAAAATAGAGGGTTCCA
TTACTAATGAAGGAGAGGAAAGTGGATACTAGGGATGGCACCAGTAGTCTTTGCTACAAATGGTTACTGCCCTGATCACATTTCTTACATAATCAAGAGG
AAAAGTTCTTAACTGTTGCAGTTACTGCCTCATCATTATATGGCATTCCATTTTACCCTTTAATTTTTACTTGGTCAAGTTTAGGCCTGCTGTACACCAG
AACACATGAATAGCTTTGCTCAGCATTCTTTGTGACGTTGCTCACAGTAACATTATGGATACCTAATAAATTTTTTAAAAGACAAAATGTTCTACGTTTT
GTGGCCTACTCTGGATGGCTTTAWGGTAAAGTGGGTGAGTATCCCTACCCTTTACATTTCAAGTGTAGGGGTGTTTAGCTGTCTCTTCTGGCTCTCATTT
ACTGACTCTTCTGGGTAAATCCATTGTTCTTTCTTTTATACAAGAGACTATCTGAGCACCCAAAACTTGAAAGTCTCTAAGCTAGGTGCTATAGTGTTAA
ATATTTCAGTAAGATATTTTCCCTGCTTAATCCAGGAGCTTGTCATTTCCTTGCTGGAAGTACACATGGATAAAATAACTGCAAGGTTTCTGAAAGACTT
AAGTACAAAAATGTCCTGCAAAGAAAAAGGGAAATATCTCATTCAGTTGTGAGGGATTAGGAATAAAAATGAATTGGAGAGGTCAAAATGTAAGCTTGTC
CTCAAAAAGAAAGGACTAATTTGCAGATGGAGATGGGGTTTCTTCCTTCCGAGGTCTGCCATGGTGTAATCTGTCCTGTAATGTCTAATGTCTACCTGCT
ATTATTTTCTAAATGGTGAGTTAAATGGGAAATATGTGTAGCGTATAACCATTTTCTATCMTTTGCTTTAGGTTTCGACTCATTGGTTCCCCATCTACTA
CTTGTCTCGTCTCAGGCAATAATGTCACATGGGATAAGAAGGCACCTATTTGTGAGAGTAAGTTGAAATACTTTTCTCCACAAATTCCTCTGTGTGATCC
TGACTTGCCCCTGGAGTACAAAGAATAAATTGAATCCTTCTTGCACAAAGTAGTCTCTCAGATATTTGAAAATAGGAGTCAGATGCTTCATGGTCTTCCT
GGCTTTTCTTTATCTTAAAAGGTGATTTATCTGAAACTGTGGGCTTGAACCTAGGCAAAATACCCTACTTTCCCATTATAATAGTAAATATTTCCAGTAT
AGAGAGTGTTGTCCTTAATGAGTACATTTTAAAGGCGTTAGACAAAATTAGATCTGTCTTTGCCAACTCTTACTATCTATCAGGTTACAATTCCACAAAG
TAGGCTACTCACTTTCTTGTTATTCTAATCCAAATAATAAAAAGAACTCTTCTTCCAGTTCTTAGCAATTTTCCTAAGCCTCTGATCATTTTGAGTTCTA
ATCCTCCTTCAATTCTTTTAGGCCCATGTCTTCAGTTGTATTTGTTCTCGATTAGCTGACCCTCCATTTTTCCCATAAGATATTTTTCAATGAATCTCCA
AAACTTTAAAACCATGGAAGAATGATTGCAAATTGGCAAAGTGTTATAGCTGTGAAGAAGTCGTCATCGCACACAGAGTTGATGGCAGCAAAAGTAGGCA
CAGACTTCCAGAAAGCTAATGACCAATATAAACAAAAGTAAAGTAAATACCCTCTGACTGACAATTCCATTTCCCAGAATTTAGCCCAAGAAAATAATCA
TGAAATAGTCCCATGATTTTGGTCCAGAGATACTCAATGCAATAATATTTGTGATAGTGGAAAATGTTAAACAACCTAAATGTTCAGCATGGTTTGAAAA
TAGCTAGTAGAAGAAATAAGGCATATTTTAATGGCTATCAGTTTTTCGGAAAGGTAAAAAAGTGCACCAGGAGGAATTAAAGGTTGAGATGCCTCATCCA
AGTGGAAAAAGTACATCTATGTAGCTACATGACTGATTATTATTCAGCCACCAAATATGGTAGTATAGAAAATATATCCATCCATACATATGCATGTATC
CACATATGTATCTAAGAGGATATAATTAAATTGTTACAAATAGTTATCTTTGAACCATTTTCACTTTCTTCTTTCTCTTTGTCCATATTTTATAAATTTC
CTACAATGAATGTGTTCATTGTAGTCACTAATATTCTTCCCCCCCAAATTAACATTGACTTTTAAACATTAAATGAATGAGAATGTATACAAGGTGCCTC
CCATATCTGCCAAGAACTTGAAATTCTATGAAATAATTCAAATTATCAAAGAATTATCAGTTTACTATACRAAGTTTTCAAGGCATGGCACCTTTTGTAG
GGGGTTATCTTTTATAAAAAAATTTCCACTTCTACATTTATAGGTCAGTGATCATTTAATTGAGTCAATACTGGTTATGTGTGTATATGTGTGTAGTCAC
TTAGCCAATATGTGAATATTATTATCTTAYGATAGAACACAGTATTCATTTATCATTTTATTGCCCTTAAATCTGCCATTATTTCATTTCTCATGCCTTA
TCTTTTGTGTTTCCTTTTCTCTCTTTTTCTTCATAAATAATGCCAGAAGTGGTATATTTAAACTGCAAAGAGGTTATTTTAATAACCTATAGGAAAAAAT
AGTCCAGCAATAGATAAGTACCTTAACAATCTGTGATAAAATCACATGTATTATCCACTTAAAATTATAAATATATAAACCCAAAAAAACATGGATTTTT
TTTGTGAAATATGAGCAGAACCCATATCATACACACCTAAATTTCAACTAGGTAAAAATGTCTGATTATTAGCAAATATTTTAAGAAAATAACAGTATTG
TAATTCCATTTAGAAAATCATTGGATTATTTGCATTTGGTATTTAAATTCATAGTAAAATAATTCATTATTAAAAAATAAGCTGTTTTACCATACTCTTC
CTTCTCTCAGTCATATCTTGTGAGCCACCTCCAACCATATCCAATGGAGACTTCTACAGCAACAATAGAACATCTTTTCACARTGGAACGGTGGTAACTT
ACCAGTGCCACACTGGACCAGATGGAGAACAGCTGTTTGAGCTTRTGGGAGAACGGTCAATATATTGCACCAGCAAAGATGATCAAGTTGGTGTTTGGAG
CAGCCCTCCCCCTCGGTGTATTTCTACTAATRAATGCACAGCTCCAGAAGTTGAAAATGCAATTRGAGTACCAGGAAACAGGAGTTTCTTTWCCCTCACT
GAGATCRTCAGATTTAGATGTCAGCCCGGGTTTGTCATGGTAGGGTCCCACACTGTGCAGTGCCAGACCAATGGCAGATGGGGGCCCAAGCTGCCACACT
GCTCCAGGGGTGAGTGTGACCCATCAAGACTTTGCTGGGTGTGAGGGTACGTATAGATGATAGGAGTTGTTGAAATTAAGGAAGAAGTGTATAAGGACTA
TGAAATTGGCATAAACATAATAGTAGCTTCACTGTCTGTTATCTCTGTTAATAATTGTCTCAAAGTAATGGCTTATTCTCTCATCTATAGTAGACATATT
TTAGATGCATTTTTGAATTTAACATTTACAGCAAATATATGAAGTAGCTACTATTGGTATCCCCATTTTACTTTGAGAGAACTGAGTCTTAGTGATATTA
AAGAACTTTTCCAAGGCTCTGACTCCAGAGCCTAATCATAATGTACAGTGGAATGTATCATGAACAATAATGTGTAATAGTGATGATCGTATCTCTATCC
CTGGAGTGGGGCAGTAGGCAAGTGAGCCATGAGGACCAAAATGAGAGCATCAAATCAAAAAGGCCTTGGACTTCAACTTCAACTTTTTCTCATTATAATT
GAAAAGACTGAAGCTCAGAAAAAGTGTTTTGCTCAAATCCAAACAAATATATATATATGTATATACACACACACACATATATACTTGATATATAATTATA
TATTGTTCAGATTGAGGCTCAAATTCATTCTTTGAGGTTTTTTGATTGTTTGTTTGTTTGTATGTTTGTTTGAGAGAAGGTCTCGCTCTGTTGCCCAGGC
TGGAGTACAGTTGTACAATCATAGTTCACTGAAGCCTCTAACTCCTGGGCTCAAGTAAGACCTCTGCCTCAGTCTCACAGGTAGCTGGAACTCCAGGTGC
TCACTACCACACCTGGCTAATTTTTATTTATTTTTAGAGACAGAGTCTTGCTATGTTGCCCAGGCTGATCTTGAGCTCCCGTCCTCAAGCAATCCTCCTG
CCTCAGCCTCCCAAAGTACTGGGATTTCAGGCCTGAGCCACCATGCCTAGTTTCAAATGCATTCTGATGCCCTGAGAACACACCAATTGTCCTGTGGATG
GAGGCAGCCAACATTTCGGTTAAAATACGGTCTAAGCAATATGTTCTATCACTAAAAAGTCTGTAGCTTTTTTTTCTTTGAGGGGGGGTTGTTCTTTTTG
TTTATTTTTAATTTATTAATCTTTAATTTTTGTGGGTACATAGTAGGTGTATATATTTATGGGTATATGAAATGTTTTGATACAGGCATGCAATGTAAAA
TAATCATGGAGAATGAGGTATCCATGCCCTTAAGCATTTATCCTTTGTGTTACAAATAATCCAATTACACTCTTTCATTTTTAAATGTACAATTAAGTTA
TTACTAACTATAGTCACCCTGTCATGCTATCAAATACTACATCTTATTCATTCTTTCTTTTTTTTTTTGTACCCATTAACTGTCCCCACCTCCCCTCCCT
ACCCTCACCCCCTATCCCCACGATTTTGTTCTTGATGCCTCCTCTTTTCTTAGCTGAAATGACTGGCTTAAAACATGGAGTGGGAAGAATTAGGACTGGT
CACAGGGACAGAAAGGAAGCTAACAGTTCAGCCCTGTGCTGACTGAAAGAGGGTCAGGGAGTGTGGAAAATGAAGAATACGTGAAGGTGTCTGTTAGATG
AGACCTTGGCAACAGTACTCCTTGCTGTTGCCTTACGCATGAGCTTGAGGGACTGCCTCTGTAGGAAGTGGAAGAGTGGCCAAACCACCCGCACTCACGA
CTCTGTGCTCCATAACCAGTAGTTGAAAGCAAGAGGAATATGCTGCCTTATAGTCTTTGGAACATGTTTCAGTAGAAAAAACACAGACAAGGTGTTGGAG
AGACTTTGATTCTAGTCACAGTTCTGCTTGGTTTCCTTAGCTTCCTTGTTAGTGAGATGTGGCTACTGAACTACCAATCTTCTCTTTTAATAGCTGCACT
CTGCAATGACGATTTTTAAGCCCTCTGGTAAGCATAAGATATARCAAAGGAAATTGCCCCATATCTAACAAGTGCTCTGGAACTGTCCTTTCCACAGTGT
GTCAGCCGCCTCCAGAAATCCTGCATGGTGAGCATACCCTAAGCCATCAGGACAACTTTTCACCTGGGCAGGAAGTGTTCTACAGCTGTGAGCCCAGCTA
TGACCTCAGAGGGGCTGCGTCTCTGCACTGCACGCCCCAGGGAGACTGGAGCCCTGAAGCCCCTAGATGTACAGGTGCCTTGACTCTCTGGCTTCCAGAT
TGCTCTGTTTTCCCCTTCACATGGAGGACTTACTCCTGTTGTTTTATTTTTTCTTCTAGTGAAATCCTGTGATGACTTCCTGGGCCAACTCCCTCATGGC
CGTGTGCTACTTCCACTTAATCTCCAGCTTGGGGCAAAGGTGTCCTTTGTTTGCGATGAAGGGTGAGTGTGACCCAMCGTTGAGACCAAGGACTCAGTGT
GGAGAATCACTCTCTTGAGATCAGGGGTTAATCCAATTAAGGAGCTGACCTAGTAGATAAGAAGTACCCAGAGAGATTAATTTATGGAAGGGTAGTTTTG
AAATAAGRGTAGGGACTAAGTGGCACCACTTTCAGAAGGCAATGAGAAAATGGCACATACAGCTCAATGTCAGGTACAAACCTAAATACAGTCACTGATC
TTGAGTACACAGTTGGAACTTGAAATGAATGGGTACGTATTTATTTGGAGGCAAAAGAACATAATTTTATAAGAGGTATGCTAGAAAATAAATGATGAAT
AAGACAAAAATTGTTTGCCCCATAAGAAGTAAGGTAGAGGTTGTCTTAAGAAACTTAAAACCAATCAATAGTGGAATCTGTAATAGTGCATGGATAAGTG
TGTTTTAACCCAATAATATATCTTCAGGTCAGGAATGGCCAGTGTAATTCTTTTAATGCAGGATTTTTCTCAGCCACTTTGCCAGCCAGTGACTTCTGGA
CAGCAATGCCCCTGCCCAGGCCTTGCTTGGGCCCAGGCTCACCGCAGGAAACACCCCAGATACTTAGCCCACTGGGCGGCGTCTGGCTGGTGCTCTGACT
GGGACCCTGGGGCCACCATGACTGCACACTCAGCCCCTGGTGGGAGGGGATGTGTGAGTGAGTGAGTGTGGGGTCCAGCTGGCCACTCCAAGCACCTGCA
CAGGAATGGGCTCTGAGCAGTGCTGGCGGCTGGACCAGGCATGTCACACTGAAGGGAACGTGGTGGTGCCCAAACAGGGGTGCCCATGACCCCAAAGCCC
AGAGGAGGTGTTACAGCACACTAATGGCTCTTAGCATTTGATAATGCCTGCAGCCCAACAGATGGCAGTGTGCTTAACAGCTCTGTCAATCCTGTCGCCC
CACATCTCCTGTCGCCCAGCTCTGGCTTGATCCGCTGCTGCTTCCTTTCGCGTGGTACAGCTGCCCTCCCACAGCAGAGGGCGGAGGGCCACAGTGTTAC
AGGCTTCTTTGTACCTGCGTTTGGTGGGTCCTGAGTTGTTGTCCCGCATCCAAGAAGAACAAGGTTATACTGACAATAGAAGGGTGAGGAGGGTGGAGAA
GAGTTTTATTGAGTGACRAAACAGCTTCTCAGCGGAGACGAGACACGAGGGTGGACCCCAGATGAAGTCAGGGGGTCATTCTCTCTCTCAGCGTGGCTGG
TTCTGGGGCTTTTATGGACACAGAATGGGGAGCCTGTGCTGATTGGTTTGTGACTATGCAAAAAAGACTAAAACAAAGACACCACTCAAAGGTGGGCACA
ACAGTGTAAAAAACCAATTAGGGAAGCTCAGGTATATGTAAACTAAATGAACAGTGAGGATCAATCAGAGGAAAGCACACCAAATGGGAAGAGAGGTTCT
CAARCCAGTCCATGGATTTACCTGGAACTTGTAGCTAGGCTTTAAACTGTCTTCAGCTTGAAGGTCGGGTTTCACCGGGATCTGCCCCATCTGCCTAGGA
TTTGTCTGCCTCCTGCTTCTATCAGTTTCAAGTGGTATTATTAGTTGTTTATGTGTATCCATTACTCTTGGTGGTGTGCACTATGAGTCTGGAGGGATAA
CTAGATTGGGCAATTAAGCAGTTATTTTTAATGATTTCCAAAGAATCTTCGGCATTTACAAAGTCCACCACCTAATAATGATTTCCAATTTCAGAATGAT
TTCAGATTTCAGAAGGCAAGCAGGATTCAATAAGTTGGGCATTTTGGGGTGCAAAGACTCTTCCCCCCTCCCTTCTTTTTTTCTTAGAGCACGTGGTTCA
GCATGCTTCTGTGAGCCTCCTCTGGCCTGTTACAGTTGTAGTAGCAAGAAGAACAGTGCCCGTTCTCTTTCTAGATGTTCCTGGCTTTGCTTACCAAATC
GAGAGCTGTTCTGCCTCATGACCCACTAATGAGAATAAGTGGGATGTCAGAGAGCCATCAGTGAAAGATGACACCTGAAGGTTATGGCTCTTGTGCCCAT
GGAGAAGTATGGTTCTGTGTTCATGCCTTCTGTAGGTGATGCTGGGCTATGAAGTTTATATGGCAATTATGCACATCAGCTCTAATTGCTTTGCCAGTCA
CAGGGTACCATGGTTCTTTAGAATAAATTGGCCTTTGAGTTTCTGTCAGCTACTGAAGAATTCAGATCCCTAATGAACTAAGACTTTTAGCTGGGCCTGA
ACCTAAGACCTAAATGATAGTCGAGGAGGAAATGGTAGTGAGGAAGCTGAGCATCTATTAGCGAAGAAATCAAGGGAGAGATGGGAATTGCTCACACATT
TGCTACCACTTTTTTTTTCTTTAGGTTCCGATTAAAAGGCAGGTCTGCTAGTCATTGTGTCTTGGCTGGAATGAAAGCCCTTTGGAATAGCAGTGTTCCA
GTGTGTGAACGTGAGTAGAAAGAACTATGTAGTTTGGATAGCTCTCCTTATTTTCGTTTTCCAGCATGTTTTTCCGCATGGCATCACCTGTTGTCTAGAT
CTTTACTTAACTAAATTATGGATAAAAATACTTCTTTGTTGGAAGAATTTCAAGAAGGGTCTTGTAGGTCTTCTCTGACATGTGTTTTTGTTACTAATCT
GCAAATCACTTAGTTTAATGACTGTTTAATTTTGTGGGGAATGTGTGGCAAGAAACTAGATGACATAAAGGTGCAGCACGTTTTAGTCAGTCATTTATTT
TTAGTTTTCTTATCAAGGAGGAATCTTTCTTAAATTTTTATTTTTATTTTTATTTTCTGAGACACTGTCACCCAGGACAGAGTGGAGTGGTGCAATCACA
GCTCACTGCAGCCTCAACCTCCTGGGCTCAAATGACCCTCGCACCTCAGCCTCCCAGTAGTTGGGACTACAGGTGCATGCCACCACACCTGGCTAATTTT
TGTACTTTTTGTAGAGATAGAATCTCGCCATATTGCCCCAGCTGGTCTCAAACTCCTGGGCTCAAGCTATCCTCCCACCTTGGCCTCCAAAAGTGTTAGG
ATTACAAGTGCGAGCCACCATGCCCAGCCAAATTTTTATGTTCTTTTATCCCCTCGCATATCATAAACAATTTAGTCAGCTTGTTTTTTAGCCTGCAGTA
TTTAATGACATAGGGCTTCCCATGTGCCAGGACTTTCCATGTGTAGAAAAAGCRATGAATAGTGAATGAATAGTGAAGACACCTCCCTACTTTCCTGGGA
TGTATTTTCTTGTTGGGAAGCAGACTATGAACAAGGAAATAAATAAGTAAACAAAATTCTAAAAATTATAACATATAAAATGGTAGTTAAATAGGGATGT
TATGGAGAAAATAAAACAGAGTTATATGATAAATTAGTACGATGGAAGGAGCTGGGATGATGAATCAGTGTCTGAAATGATGAGGTGTCCTAAGTTTCCA
AACCATCCGCTTAAATAAAATATGCCAAAATTCAGAAAAAATTCAGAAACTCTTAGATAAAAGTACATGTTTGACATACCAAGACATTACTGATTGATTC
TATTCTGTCTACTAAAGCAAGGCAAGAATTTTTTAAACCTTGTTTTCCTGATTATTAGAAAATGTTTATTTTAATTTGTATTGTGTTAAAATAACTTATA
GAAATCAATTTGGATACCTTATGGTGAGTATTATGGTGAAGAACATTCAATACCTGAGGAAACTCAAGTATTCAACAAACTCAACCTTACAGAGACACAT
AGAGCTGAAAATAAATATATAAATAAACTTAGGAAAACACAAACAGGTAAAATTCAAGCATGAGAAGTCAATCATTGTTTGATGTACTAGGTCTTTTATA
TACACATAATTCTGATAAATTTGGGTATCTCTTCCTAAATTCATRTCAAACTAGAAGCATCAATTGCTTTTAGGGAAGGAACTGTTCTAAGCAGACTAAA
AGGAGGAAGAAATGGTGGCTAATAATTGGAAGAAATCAAAAAAGGCTCTTTGGCACCATTTAATCTGAGTAAAAACAGCCTTACTGGTGTCTGATGACAC
CACTGGAAATTTGGTATTGGTCCTGATGGTAATGGTCTTGAATCACYAAGAAACATTTACATTGCTAAAGATGATAGCTCATGTTTATTAAAGTTCATAG
ATTTCCTTGAAACTTATGGTCTCTGATGACCAAAACTTTGTCTGTCTTGAACCTCATTGTCAACTCAGGAATCTTACTATGCCTGAGTTAAAGTAGACAA
CCAAATGGGTGTTTTTAAAAAAAATAAAAACAATTACTTTCCAAATTCATTGTGAACATAGGTACCTGAGTGGTCCAGGAACACTGTCTTTGGGCTTTTG
CAATAAACTGTAATTTAGGTCTCACTTCAGTTAGTTGCCTCTCAACAAAAGCCTTACAGATTTAAATTCCGTCTACCTTAGTTATATTCTTTCTAAAAGT
TATATTCTTTTTAAGCGCACAGTCACAGGTCACTATTGTTTCAGTCATCTTAAGTGAAATTCTAATAGAACTTAAAGCTCTTGTTTTCTTTCTAGAAATC
TTTTGTCCAAATCCTCCAGCTATCCTTAATGGGAGACACACAGGAACTCCCTTTGGAGATATTCCCTATGGAAAAGAAATATCTTACGCATGCGACACCC
ACCCAGACAGAGGGATGACCTTCAACCTCATTGGGGAGAGCTCCATCCGCTGCACAAGTGACCSTCAAGGGAATGGGGTTTGGAGCAGCCCTGCCCCTCG
CTGTGAACTTTCTGTTCCTGCTGGTTAGTACCTGCTTCCACATATCCTAAATGGGTTCAGAATATCTAGGTAAGAACCTCCATATTTCTATAGTGACAGT
CATTTTTGCTTGTGAAAATGGCTTTGCTGTAACTGTCAGAGACAGAACTACCTCCCAAGTGAATGACAAAYGGGTTATAGATAGGCACGCTGTCTCAATT
GTTGGTATTCTGATGGTCCTTCCTATGGGGTGAAGAGTGTGGGATGGTAAGGAGAGAAGGGGGTGGACAGTGAAGAGAATTGATGAGGTCCAGATTTAGT
AGGGAATGTTTTCAAAGTACTGAAAACAAATGCTAAAGAAAATACTCTTTTATTCCACCTCTACTACTACGAGTTATCTTTATCCTGGAGAGATGGATGT
GCTGTGCAAAAAGTACACATTGATGATGTAATTTACTTCAGAACTGATAACGCTATAAAAGTAATTTGAGAAACTCAGATGTAGGGATTTATACTTTTTA
TGTTGTTTCCAAGGGTTTGTTCAAGCCACTGACTATGTTTGTTTGATCCTTCACCTCAACATTAACAAAGGGAACTCAGGAGGCCCTGGAGAAGCAGAGT
TTAAAATTGTACTCTTAGCCTAATGGGTGCAGCAAACCAATATGGCACATGTATACCTATGTATCAAACCTGCACATTGTGCATATGTACCCTAGAACTT
AAAGTATATATATATATATATATATATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTATATATATATGTGTATATATATGTGTGTGTG
TGTATATATATATATATATATATAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGATTGTACTCTTAGCCTCCATAGCTCATTCCTTTGA
TATATTAGTCTGGCTTTAAACGACAGTACCTGACAACTGTAGGCACATGTGTGGCTGTGACTGCCCACACCAGTTCCATCTTCCAGTAAGGACAGAACAG
CACTGAATCGGTAGCTTGTCGATCCCTGTGGTACTCCCCCATCTGATCTAGTTTGAAGTTAGAGACTGTAGAGGATAGTGTTTAAATGTCAAGAGGTCTA
GGTTTAGAGAACCCGTCTTTCACTGATCAAATAGGAGGGAGTGGCTTATGACCTGGCTGGTTGAGGTCTTCATGTACCTCTAATAGCCAGAGATATTGGA
TGTGTTCATGTATTCATATGTCTATGTTTAACTGAGTGTCTTTTCTTGTGTTTGTGTGGGAACTTGTTCTTAGCCTGCCCACATCCACCCARGATCCAAA
ACGGGCATTACATTGGAGGACACGTATCTCTATATCTTCCTGGGATGACAATCAGCTACATTTGTGACCCCGGCTACCTGTTAGTGGGAAAGRGCTTCAT
TTTCTGTACAGACCAGGGAATCTGGAGCCAATTGGATCATTATTGCAAAGGTGACTTATTTCTTGGTATTCCTTATTCTTGCTGGGTTGTATGGAATGCA
TGAGGCTTGTAAGGCTGAGAGACATTGAAATGAGCTTAATGAAAGGGATAATATTTTTTTCTTCTCGGCAACTGCTTTCTTTTCATTTACATAAAATTAT
TTCATCTTATTAACTGTCCTCTTTGCATGGTCGATAGCAGTGCTTCTCCATCCAGAGCATTAACAAAATCACCTTGTTAAAAAGATTCTCAAACTCCATT
CCATGGCCTCYGATTCTGTTTTAAAGTGGGGTCAAAAGTCTATTTTTAACAAACTCATCAGAATGCTCTGATGCAGGAAGACCACAGACCACACTTCAAG
AAATACCACTTTGCCTTCTTGGTTTGTATCTAGGAAAAAAATATTGTAGGCTTAATTTTGAGACTATTACAACTGAAAAGAAGTCTGTGCTTGAAGATGA
AGGATGTACTGATGGCTGGGCAGAAAAAGAAAGTAAAACAAAGGATAAGTTAAACAAAATAAAGTAGTCTGGGTGCGGTGGCTCACACCTGTAATCCCAG
CACTTTGGGAGGCTGAGGCGGGAAGATCATGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCGTTTCTACTAAAAATACAAAAATTAGCT
GGGTGGTGGTGCGCGCCTATAGTCCCAGCTACTCGTGAGGCTGAGGCATGAGAATCACTTGAACCCAGAGGCAGAGGTTGCAGTGAGCTGAGATCACGCC
ACTGCACTCCAGCCTGGCAACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAGAAAAAGAAAAGAAAAGAAAGTAAATTAATTAGAAAGATGTATTA
AATTCAGGCTGGGCACGGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTCAGGTCAGGAGTTCGAGACCAGCCTGGC
CAACATGGTGAAACCCCGTCTCTACCAAAAATACAAAAATTAATCAGGCATGGTGGTACATGCCTGTCGTCCCACCTACCCGGGAGGCTGAAGCAGGAGA
ATTGCTTGAACCCAGGAGGTAGAGGTTGCTGTGAGCCCAGATCGCGCCACTGCACTCCTGCCTGGGTGACACAGTGAGACTCAAAAAAAAAAAAAAAAAG
AAAAAGAAAAAGAAAGAAAGATAAATTTTAAATTCACAATCATGATTTACTAACTTCTTTGTTCTATGTGCAGAAATTGGCCAGAATTATGCATTTAATA
AAGAGCAGAGTGCCAGTATTTGTTGTGAAGCCAGACAGAATTAACATGGTACTCCTGTTCCCTCACAGMGTGACCCCAGTGGCTCCAGGGCTAGATCACC
GTTAGCCTAATTCCTAATCTTTCCACAGCTTTCCAGTTGCAGAGCTGTTAATCAACAGTGAATGCACAGTACATTCCATATTCTATTACTTTACATTAAG
AAATGGGAGTCAGGAAATGTTAAATCATAAGGTTTTTGGAGGAGGAAGATTAGTAACATGTTTAAAAACATGCTTCCTCTTAGCCAAGGGCAAAATAGGT
TTTGGCTATTTTCTCCTATTCTCGCAGTTAAAACGGACAATCAACAATAAAATATCAATTTMTTTCTGATTKGTCTAATTTCAGAAGTAAATTGTAGCTT
CCCACTGTTTATGAATGGAATCTCGAAGGAGTTAGAAATGAAAAAAGTATATCACTATGGAGATTATGTGACTTTGAAGTGTGAAGATGGGTATACTCTG
GAAGGCAGTCCCTGGAGCCAGTGCCAGGCGGATGACAGATGGGACCCTCCTCTGGCCAAATGTACCTCTCGTAAGTGCAAGTGCAAGGAATGTGGGATCT
TCCCGGTCATGGTTATTGCTCATTCATTCATCCATATTGGCATCAAGTGTAGTGTGATGTTTATGGCATATGCTATGAGCTATAGAGTACAATATGAGCA
TCCACCTATTCCAAAACTCCCATAGTGAGAGTAAGGCCAGACTTCCTCTTCTCATACTTCTCACTGCAGCTCTGCACCTTTTTTGTCTATATCACTTTGT
GGTTGCATGAGCCACACAGTAATGATTTATTTACAGCCTACGAGCCTTACAAGAAATGTTTTCAGCATGAGTTAGGGAGCACCTTCCAAGCTGCAGAGAG
CAGCCGGCCTGTCTCCCTCACTACTGGAGGGGACAGGATTTTAAGCTAGCACAGCTGGATAGAGCAGATTTAGAAATTACGTATCATTGAGCTCTGTAGA
AGAGTAGCCCTCTGCTGGCAACTGGAAGGTACTGTAAGATAGAAAACTACCCACATCATGGAGCAGATGAGCAAAGTTAATAATGAACAGCCTTTCTTAA
TCCAAGTTAGTGCTACACTTTCCYTTCTCCCCATCTCTTATGACTCTTCTAATACATGGTTCTACACCAAGATTGTTCAAGATCCAGTTTTACAATTAAT
CCTGTAAATATGCTAATATGACTCGCAGATAATATTTCTAAATTATCAGCTTGACACTCCCTTAATATCAAATTATATTTGCTTTTTTGGCAAAAATCTC
ACTGGATAACTTACTAAATGCTTTTAGAGTATTCTGAAGATCTGGCTGGGACTGACAGAAAATTCAGGTCATTGGAGAACCAACCGTATCAAATATTAGA
ACAAAATATAAAGCAATAATACAAAAGTCACTTTGCACCAGGATAAGAAGAGACATACAAATAAGTGGAACAAAATTGATATTAATAAAATAAAGGGGCC
AGGTATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGATGGATCACCTGAGGTCAGGAGTTTAAGACCAGCCTGGCCAACATGGTG
AAACCCCATCTGTACTAAAAAATAAAAAAATTAGCTGGTCGTGGTGGCAGATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAGTCGCTTGA
ACACGGGAGGTGGAGGTTACAGTGAGCCGAGATCGCTCCATTGCACTCTGGTCTCGGTGACAAGAGCAAAACATTTTTTAAAAATTGTCCATTAAATTAA
CAATAAAAAGGTTGTTAGGTGAACACCCAATACAAAGCAAGGATGTGATGAAACTGATATTGTTGTGTGTTGAAGGTACTATTGTAAATTTGCAAAAACT
CTTATGAAAAACAATTATGAAATGTATGTGGAAAATAATACAACTATTCCTGCCAGTTAGCCCTCCTAGAAATTTAATCTAAGGAAATAATGTAAAATAT
TAAAATATTCTATGCATTTTATTAAGGGTTTCATGAGACAGAAACCTAGAAACAAGCTAAATGCACAATAGAAGTCATTGAATACACTATGATGCATCTA
CTAGATTATGTTAGTTTGCCTTTGTTGTAACTTATATTTCTAGTATATAATTATGTGAAAACACACATATAAGGAAATGTACCAGAACAGAATGTATCAA
AACATTTTTTGGGTATGAGGATTGGGGTGACTTTTTTCTTTAGTTCTGTATTATAAATTTTCTTCTGTAATTGTATTAATAATAATTTTTAAAAGTCTTC
TCTGAGTGCAGAAGGTAAAATGAGAGTATGTGAATGAAACCAATGGCTTTTTGCATTAGAAAAAATATTAGACTGAGTCCTGAAGAAAAATCAGGATGAC
TTGTCACTGGCTGAGAGGTCCTGTTCAATCATGTTGCATGCCAGAGTGATGTTTTGTGACTTTTGTCTTCCTTTTAGGTRCACATGATGCTCTCATAGTT
GGTAAGTTTTATGAAAGTTTTGCTGAGGAATTCTGGCATCTATAACAGTAAGTACCTACCTATAATGAATGAAATGTAAAAAGAGAGATCAAAATGTCTT
GAGGTGTAAAGAGATCAAAATATCTTCAGTTGTAAGTTCAACTAGAAAGAAAATAATGATAAGTTAGGCCACAATATGGTGAAACTGGCATCGTCATATG
CATACTAAATAACCTTCATCAAAGGCTCTTTACTATCTTTGAACCATTACAAATGAATAATCATTCATCAGTGTCAAAAATTCTTTATTTGAATGTGGTG
GGAGAATGCAACTTCTTCTTTCAGTTGTAACCTGGAGTATGCTTCCAGATGGTGATCCTGCTCATTTGCACAAATAGAAAGCCATAAGACCAGTCTTCTG
AGCCCATATCTGTGATTTGCCTAAATAAGAATAGTTTTGTAATAAAGTTTGCTTCCAAGGGAATACTGTGGCATATTACTCTTACATCCCTTTTTACGCA
TCTGGACACTGAGACACAGAGAGTTAACGTAACTTGTCCAAGACCACAGAATGGGGTAGCCTGGGTCTACTTATCTGTGGAGACTGTGCACTTTAACAAT
CAATAAATGGACAAAATGACCTAAATATGTAATTCAACAAGAGAGAGAATTCCAGTATTTTCACAATGAAATGCCTGTGTGTTAAGTCTTAGGCAAGAGA
CATGGGCAGGGCCATGGAGAGCTGGTGGCCAGCTGCCCCATCACGGTTCTCACTTACTTTTGGAAAAGCTGACATTGGACTAAACGTTACAAAACGGCTC
AGCTCACACCTTAACTTTAATAACCCTGTGGGAGTGAGACTAATGCTATAGAAACCCAGAGTAAAGCAGAATGTATAGTTACATCTTTAAAAAAAAAAAA
GCATTGGCAATCTGTAGTGGGACTGGATACTAAGATAGAATTTAAAACCTGTAAGTTATATTTTCCATGCATTTAATTACCTTGTTTTACTGCCTAGGCA
CTTTATCTGGTACGATCTTCTTTATTTTACTCATCATTTTCCTCTCTTGGATAATTCTAAAGCACAGAAAAGGGTAAGTATAGCCATATTATCCCAAGAA
ATGTAAACTGTACTTACCCCCTCTTGGAAGTCAAAAGAAAGTAAAAGACAAACAAACCCATTGCTACATAAACAGATGTGGTAATTCTTATAAAGAAAGT
CCTTGACACACAGTATAGACAAAGAGGTATTCACACTAAAGGAAGTATATAGGATACTAAGAACAATTAAAAAATAATAATAATAACAAAAAAAAGACCA
TTTGGCCAGGTATGGTGACTCATGCCTGTAATTTCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACTAGAGGCCAGGGGTTCGAGACCAACTTGGGCAA
CATGGTAAAACCCTGTCTCTACTAAACATACACAAAATTAGCTGGGCGAGGTGGGACACACAACTGTAATACCAGCTACTCGGGAGGTTGAAGCATGAGA
ATTGCTTGAACCCAGGAGGCAGAGGTTGTAGTGAGCCAAGACTGTGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTACATCTCAAAACACACACA
CAAACACACACACACACACACACACACACACACACACAGCATTTTAAGAAGGAATTGAGTTTTACAGAAAGAGAAAGTAGGCAGAAGGGGTTTTTAAATA
GTTGTTCATGAGGCTGTTTGATATCCTAGTTTTGCTAAGACATTGCAGACACTGACCTCTAAGCCCAGATCCTATCATAGCACTAGAAGTTAGATTGGGT
CACTTATGGCACACATATCATATGGCACACATAGGCTGCCAGTGGGGAAGAATTGAAACTTTCCATTGGGTATTTTAATATATAAACAAATATTTTGTAA
ACACCATTAACTTTTTTTTTTTTTTTTTTTTTTTTTTTAAGACCGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCA
ACCTCTGCCTCCCAGATTCAAGCGATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGACTACAGCCATACGCCACTACACCAGGCTATTTTTTGTATTTTT
AGTACAGAAAGGGTTTTGCCATCTTGGCCAGGCTGGTCTTGAATTCCTGACCTCAAGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGT
GTGAGCCACTGGGCCCAGCCATCATTAATTTTTTAAATTTGAAAGAAAAAAAACTTGCAAAGACTAAGATCTGAATAAAGAAACGTCTTTGACAGGGAAG
AGAACCTACACAGCTTTTGTACTGGTTGATTGAATTATAACAACCTCAATGAGGCCAGAATCAATAATATCAATGTTATATGGTTGATGAGCAAGTTCTA
TACCCATAGAAAAACTGAATTTGTAACTTTTAAGTGAACGGTTTTCTATAGCAAATATTCTAAACAAGTACAGTTTCCTACAACAAGCTTTACAGAAACT
GAAGTTTTGATATTTCACAAAGATGCCAATATACTTTTTAAAAAGTAGTTTGTCATAGTAGATCTTGCTGTAAAGAACCTAGACAGGAACTCAATTTCAT
GGAAAAATACTGAATTGGTAGATATTTAAATTTAAATATCCATCCTTCCTAACTAATGTTCTCTATATTTTACGGCTTGACATATATTCTTTGCTCTTTT
CCATTATAAAAAGAAAAGGTAAGTAGCTGGGCACTTTACCTTAACAAAGTACTTGTGTCAATACATTTTTCCTCTTAAAGTTTCTCATTAAGTACCATAT
AATTAGTGAGTTAATTTTTTAAAAAATTACTACTACGTCTGAATTAAAGGAGTTGGGGCTTCTAATTTTCTGTATCTATATCAGTCTGTAGTTAAAACCA
CACAGGGGAAATGATTATCCCTTCTTCTTGGAAGTATTCAAGATACTTTAATATCTTGAAGATATTTGATTATCTCCACCCTTCTAACTATGTCATTCTT
CATTACTTATGGTCCATTCCTTGTTAATCAACTAGAGGGTCACACTCCCAAGCCTAACTATTGATTTGTTTCACCTACATAATTTAAGATCATTTCCTCA
TATTAATCACCTTCAGGCATAAACATGACTCAATAACCATTTCATAAAATTATTTCTTTGGAAATGATTGTCTTGTAAAGTCTAAGCAACCTGAGACCAT
ATACCATTTCTTCATGTTTTCCATCTCGTAAAACCTGCCTCCTATTTTTTTCATATTCTTTAAAGTGTAATGTCCATGGCACAACCATTCTCTCTCTGAC
CAGTGGCTACCAGAAATGTGGCAGAAAGAAAGATCATGATCCTTGTTAGACTTAAAGGTCAGGGAGGTAAACCTCCCAAACATCTATGTAACCCACACTA
AAACCTATTCTATATGTGTAATCCAGGAAAGTTTTTAAACATTTTCTAAACTTTTACTTTTGACCTGTTTCACTTCTTGGGATTGTAACTGCCTGATGTG
TTCTTCCTGCCTGTCATACAGACAAAACCAGTTCCCTGAGATAATGGCATATTGCAGTAAAGAAAGAGATGAATTAATACAAGGCCAGTCACGTGGAAGA
ACTGGAGTTATCACTCAACTCAGTCTCCCCAAGAACACAGGGGCTAGGGTTTTTATAGATCATTTGGTAGGAAGGGAGCTAGGGAATGGGTACTACTGAT
TGGTTGGGGATGGGGGTGTGGGAAATGTTCCTCATGTGCTGTGTCCACCTCTGGTTGGGGGCCACAGGACCAGTTGAGTCATGAGTCACARGTCCAGGTA
GAGTCAGTCAGTTGCCAAATGCAAAAACCTGAAAAACATCTCAGAAGACCAATCTTATATTCTACATAGTGATGTTATCTATAGGAGCAATTAGGGAAGT
CACAAATCTCTGAGCAGTAATGGATTATAAAACCTATGCCTATATTTTAGCAGAGTTCAGGTCCCTCTCCTAATCCTAATCTCTTGGCCTTTCATTAGGT
TTCAGGTCCTGAGCAAGGAGAGAGCTAGTTTTAGGAAGAGACTGTTATTATCCTTGCTCCAAAGTTACATTATAAACTAAATTCCTTTCATGGTTAGCTT
GGCCTACACCCAGGAATGAGCAAAGCCGGCCCACCTGTGAGGCTAGAAGCAAGATGAAGTCAGCCATGTTAGATTTCTTTCACTCTCAGAATCTTTGCAA
AGGTGGTTTCAGCATAGTGAGTGCATTTATCTAACAAAACACCACTGATTTTCATGTTAGAAATAACACATAGCTAAAACTGGGAAAAAGAAGTAATAAA
CTTAAATAATCAGAAGGCAGAGGTCCCTTCTTTCGGAAGGAGTTGGGCTGATTAATCATGCAGTCATACCTCCTTGAGTGGGTGTGGCCAATAAGCTAAG
TCATTGTGGCTATGTGAGGAGGGCTGATTATTCCTTATCTGGAGCTCAAGCTTTCCTCACAGAAAGACAAGGGCATAAAGGGCCTCATGGCAAAGAAGAA
GGAAGCCATGTGGGAAACACAGACTATGAGTGGAGAGTATCGTAGTGGTCACCAAGTCAGAAGAGCCATTTATCCTGGAGCTAAAAAAGACTGACAGATA
TAGAATAGTGTAGAACAAGATGGCCTGCTCTATGGGAGAGCCACAGTCACACCAGGCCTAGAGAGGTGCAGGCTGACTTCTACCTCAAACACTGGAGACA
ATTCAGAAGCTGCATAAGCAGTCTGAAGACTTACTAAGAAACTAAAATGAGGCTGGGTGCGATGGCTCAGGCCTGTAATCCCTGCACTTTGGGAGGCTGA
GGCGGGTGGGTCACCTGAGGTCAGGAGTTGGAGATCAGCCTGGCCAAGATGGCAAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCTGGTGTAGTGG
CACATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGTTGAGATTGTGCCACTGCACT
CCAGCCTGGGCAACAAAGGCAAAACTCCATCTGAAAAAMATAAATAAATAAATTAAATWAAATAAAACAAGAAAAGAAACTAAAGTGATAGAGAAATAGA
AGGAATACACACACAGAAATGATCTCACCTTCTTTAAAATGCTCCTCAAGGAGGTCTACTTTAACTATCCTAGTAAAGATGACATGACCCCACCCCCACA
TTCCYAGTCTCTCTTATCCTGCTTTATTTTTTTCATAGCCTTATTCTCTTTTATTATAATTAATTAAATAATTACATTCCATGTTTATTCTCTCTCTCCC
TCCATGAAGTCGGGGATTTTTGTCCTATCTTCACCAATGGATACACAACAAATCTAAACTGTCCCTGGGACAAAGAGAGTCTCAATAAATATTTATCAAA
TGAATGAGTGAGCTACACACCACTAACAGTGTTACCACAAGGGGAAATTTCTGCCGTAATTCTCTACCAAGTTGAACAGTGCGTCTTTAACTTGTCCTAA
ACTTACTCCAGGTTTCAAGGCTGCTCCTTGTTCTAATATACCAACTGTCTCAGTCTGTTGGTATATATACTTGGGCAGTTATAACAGAAACTCCATAGAC
TGGGTGGATTCAATAAGCATTTAAGCTGGGTGCAGTGGTACCTGCCTATAGTCCCAGCTATCTGGGAGGCTGAGGCAGGAGTACTGCTTGAGCCAATGAG
TTTAAGGCCAGCCTGGGCAATATGGTAAGACCATGTCCCTAAAAAACATTATGTCATTTCTAAAAACCAAGCATTTTTTTCTCATAGTTCTAGTGGGTAG
AGAGTCCAAGGTCAAGGCAACTGCAAATTCAGTGTCTGGTGGGGATCGCTTTCTAGTTAATAGACTTCAATCTTTTCTCCGTGTTCTCAAATCAGAGAAA
AGGAGTAAAGGAGCTCTCCTGGTCTCTTTTCTAAGGGCACTAGTCCCATTCACAAGGGCTCTGCTCTCATGATCTAATTACTTCTCAAAGGTCTCACCTT
TGAGATCCTATAGTAATTAGATCCTATAAATTTTCAACATATAAATTTGGAAAGATACAAACATTCAGTCCATTGTACCAACACTGCATTTGGTAAGCAC
ATATGCTTAAACGATATCACACTTGATTTCATGTGCCTTCTCAATCCTCAGCTTTCCCTGATTAAGAATACCTAATTACTCTGCCCATTTCCTCYGCACC
CTCCACCTTGGCCTTTCCACTCACTATTACTACTATCTCCTGCCTTCTTGGTCTCTACTATTCTCCTCACCATCCCTGCTCCCTGGACTATGATCCCCTG
TGAGCAGGGACCACCTATATCCACCCAAAGCAATTTTTATTTAATGATTTTTTAATCTCTACTTGTACAGCAGTCAAAATTAATAATAAGAGTAGAAATG
GTTAATGTATCTACAAAAAGAGTTAACATGTTTATTTATAGGTTTATTTACCATTTATTATCTTCTTTGGTCCTCAAAGCAACTCTGTGAGGTAGGTAGG
CCCAATCATATTGTTATCCCAAAGCATAAAACACTCTAGGTTCAAAGAAATTCAGTGGCTTGTTTAAAGCCAGTAGGAAGTTGTTAGGAATTAGGCCTTT
AGTCCAGATTATTTAACTGGAAATCTTGAACTCTTTGTGCTAGTATTTTGACAATGTTAGTTGCCATTTCTGAATCTGACTCTATATTACTGAAATTCAG
TATCCAGAACTGTACATAGTACAAACCTAAAGTATTTTCCTTTTTTCTTTCAATATTCTTTTTCTCCCTATATTTTACTGAGTTTGTTTTAGCTACTTTG
GTATATTGAACCAGTATCTTTCTAGAGAACCGTATGCAATCTCTACTTTTTTTACTCTTTATTCTGAGTCATTAGGCTATAAAAAATTAAGGTATTTCTT
TAAGGGCATCTTTCCATATTGAGATTTCCTGGCGTTTCACACAGACTTGGCAAGTTCTTCCTGTGATTTAATCTCACTGCCTTGTTATTTCACTAGTTAA
AAATATGCGCCTGCACGTTTTGATATTTCACTGTGTATTTACAACAATAATTTGTGATAATGTTAAATAAGATAGGTCATAAGATAGGTCATGCACTCAT
CAGTGAGGAATAATACTGGTTAGACTTCTTCATTCAGAGCCCATTATTGCCTCTTGTTACTGCCTCGTACCCACTCCCATTTCTACACAAAACAGCCTTG
TMCACAGTCAAAATTTCAAAGTTTCCATTGTTGTGATGTTTAGAATGATAAAATACTTAAGGCCATCCTCTGTGAAGTCTCCCTGAATTTTCCTATGTTC
ACATTAACCACCAGTAACTAACCAAATAGCTCTTCATTCAACATATACTCACCGAGATCATATTCTCCAAAACCCCATGTACCACTCATCACCCAAGACC
ACCTTCAGAACACTACTCATCTTACCACTTAACCACCACTCCTTGGAAGGTCATACCACCTGGCTATATACCACTCCACTCTTCCTCATCCATGGATCTC
AAGTGTGCCTTCCCTGTCCTGTGAAAACTCTGCCCCCTGAAGCAGTCTGCCTCTTTTTCTCAAATGATGCTGTCATTCTAATTTCCATAAGATGGTAAAG
AATAACTGAGTGATGAGGAAACAGTGGTACATGTTGAAGTGAGTTAACTCTTCAAGCTTCCATTCTAAAAYCCCTAATACCAACTCATACATAAAATCTC
CAGGTACTGGTACTGTTTTATCATTTCATTGATAAAAGATGAAGTGTTTATTAACCCCCAAAGAGGCAGTGTACCATACCAAGTGAGGGTGAGGGCTTTG
CAACCGCTAAGGCCTGTGTTCACRGTCACTCACTCTCTATGAGACCCTGAGCAAGATACTTATCCTCAGTAAATTTCATTTTCCTTGCCTGTGAAATGGA
GATAATAATAGTTMCTACCTTACTTAACATAGTGCCTCATTTATGATGCATGTCAGAAAATGTTAGCTATTATTTACACATGATTGTTATTACTGATATT
AAAAAGTGAGTAAATATTTCTTTTTACTGTTAGTTCTTAAATACCTTCATGACAGCTACTGCTGCTCCCCTAACCGTGGATATTGCTTGTACAGAAAACA
GAACACATATCTTCACTATAGGAGAAAAAGGAAGCCTCGTGTAACACTGCAGTGCAAAGTCATTCATGTTGTGCAGCTTAAGTGTCAAAATCTCGATGTA
AATCCTATTTACTAATCAAAATTATGTCAGAAATAGTGAAATGTRTTAAGGCATGGACATCTGCCTATAAACAATTTAGAGTACTCTGACAGAAAATATA
GGATGATTTTAGTATTATTTTCTAATCTAAGTTTTTGCTTAGTATTAAAAGATGAGATTTGGTTATGATTTTCCTTTCAGACGTCTTGCAAAGATATCAG
GAACTTAAGGCAAATAATACCTTAAATTTCAAAATGCAAATTACTAATTTCTTTCAAAACAGATACTTAAATGATTAAGACAGTTTTTCTATTTTTTTCT
CTGCCAATTAGCAATAATGCACATGAAAACCCTAAAGAAGTGGCTATCCATTTACATTCTCAAGGAGGCAGCAGCGTTCATCCCCGAACTCTGCAAACAA
ATGAAGAAAATAGCAGGTACCTATATACATACTGAATTCAAAATGTTTTCAACAACTCAAATATCAAAAATGGAAACAGGACTTGAATATGATATTGCAC
TAGGTAGGTCATTGATACCAAAGAATTTAGAAAGTACTTCAGGAGTTGGAAACTTCTTTTTTTTTTATTGGATTATTATTGTCATTTCCAMTGTTTTGGG
GTGATGACTCTATAAGTTAGTACAGTCACAGTCACTACTTTTTCAAAGCATTCCTATAATTTCCTGTATTTATGCTATGAAACTTTGMGAAGTAGTATGC
TTTTTTCTTGTGGAACCCAAGAATTTGCTGCCTGCTTGTACCTCCAAGTCTTCCAGCTTCCCTTAAATGCACAGAGTCACTTTAATGTCCTCTAGAGACT
TTCACTTTACCTCCCCAGCCACCAACCCCCTTGATTTCTGACTTCCACTGAATTCTCTACTTCATTTGGCCTCTTTGACTGCTCCTTCTTTTGGTCCTCA
TTCCCTTGGGCTTATTAAATACCTAACCTTTCATTCTACCTATTCAAAGCAGGCTTACTGCAAGCTGTTGTGCAGTACACATTGCTAAAGATTTGGGGTG
AAAAGGGAAATTATACCATTATCAAAAGTGGTATGTATCAATATTAGAAATCACTGAACTGAAAAGTAACTAGTACACCAGGGACCTGAAAACTACCACC
TGTGAGCCAAATCCAGCTGGCCACTTGTTTTTGTGAATAAAGTTTTACTGGGGCACAGCCACACCCAATCGTTTGTCTACTGTCTCTGGCTCCCTTTTAT
ACTACAACAGCAGAGCTGAGTAGTTGCAACAGAGACCCCAAAAGCCAAAAGTATTTACTATCTGGCCCTTTAGTGGAAGACTTTGCTAACCCCTGAACTA
TATCATACTATGAGAAATTTCTCACTGGCTAGTTCCCCTTTTAACCTGGGCTTTCCATCCTCTTCCCAGGCCTCTCTCTCTCATTGGATACTCCTCTCTT
TTGTTCAAATCTTTACTGCATTCTCAGGGTATGCAGTAAATACAGGCATTCAGACTCTCGGGCTTCTTGCAAATTCAAAACTCCATTTTTCTTTAAAATT
CAGAGCAATTTATTTGGCTCTGGCTTACTTTGGCTATGCCCAAGAATCCTAAAATGTCCTACCCATAGGTGTTTGGAACATTTTCAGGAATAAGATCACC
ATATGCCCTAGAACAGAATTAGGCCAGTCCTGTAGAAAGCAGAAGCAAAAGCACCACAATCATTACTGAATTTCCTTTCTTTATGTCCTACCTCTTTCTC
ATATACCTGTGCATTAATCTAAATTTGGCATGTTACACCTACATACATCAGAAATCCTAAATTCAACAGAGGACAGTGGAAGGGGCCCCAGGAAAAGTAA
AGGAAGTGGAAAAGGTATTTTATAGTTAACCAAAACATAAGTAGAAGCAATTCAAACTTTTCTAAACAAAAAATTACAGATTATGTCCTATTTTCTCCTA
TAATAGAAATGAATTTGCAATGCCCTGTTTATTATCTGTCTTCCTAGTTGCTTTGCTTCTAGCTTATTTGTCATTACTGTTTATGAAAACAAATGAAATA
TGCATTGCTTTTTTAAAATTCAGAATTGATATTTTACTTTTTGAAGCTTTAATGTTTATCTGGCCTGATCCTTCTCAAATGGGCATATGTATACACTGGG
GGATACATGGCTAATGCTAATATACCAAGGGGATATAAAAATCATAAGATGAAAATGGCATGGTTTCCTAGAGAATATATTTTTCTAATATTACTCCAAT
AGTTCAAATAAAAATTGTATTATTTCAACATGAACACAAACACATTTATAAGGGAGGAAAAGACAAATAAATAATGCAGGAAGTTTAAGATAAAATAAGA
CGGCTGGGCGCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGCGGCCGAGGCGAGTGGATCATGAGTCAGGAGATCGAGGCCATTCTGGCTAACACGG
TGAAATCCCTTCTCTACTAAATACACACACACACACACAAAATTTAGCCAGGCGTGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAG
GAGAATGGCGTGAGCCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGTACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAAAAAAA
AAAAAAAAAAAAAAAAAAAAGATAAAATAAGACAGAAAATATTGTGCTTTCAGGGATGCTTTAGACTATGTCTCCAAAGTTCTTGCGTGAGGCATTCATT
TTCCTTTACTATCAGAGTGCTATGGGGGAAAAGTCAGGCAGAACTGATTCAGGGCCAGCTGTGTGGCCACTCATTTACAAACAGACGAAATAACAGCAGA
CTGGAAGAACAACAACCATTTTTACAAGAGTTCATTTTAAAAATATTCCACAATGATAAATTATTTGATTTAGCCTCATTCCTGTCAGATTACCTGCCTA
AAACACTTTTCCGCCTTTCTTTCTATCTAAATTCCCTGAACCCAGCTCCAGCTCTGAATTCAATCAACCAAGATGCTCTCCCAAACAACTCTAGTCCAAA
ATGATATCTCTCTTTGAAACTCACATTTCCTGACTACACCATTTAAAAAATAAACTAATTTATTTTAACAGTAATATCTCATCATTGTTAAAAACAAGAA
ATAGGGGAAAATATAAAAAATATAAAAATTACCTGCAATAATCTCTATCTAGTAGTATTCTTAAGCTTCTTTGCATATTRTTAGACATTTGCATATACAC
CTTGAGATTATATTGATTGCACAATATTGAATCCTGCTTTTTTTACCAAATGACAAACATTTCTCCCATCATTATAACAGTACATAACCTATAGTAATTG
ACATTTCCTGTGTTGTTTTTTGCCTGTTAACTCTATTGCATTCATGTAGTTGCTTATTTATTCTTCAAACATTCTTAGCCACTTACAATGTGCCATACAT
TGTGCTTATGTGTGTTTTCTTTTCCATGCTAAATTAACYTCTGATGAATAGAGACAATTTTTTAAAGATCTCCCCAATCTCTGAGTATAATCAAATGAGA
AATGTTCAGTAATCAACTGAGCACGTTAATCAATTGAGAAATTTTTCATGCACGTCCCTGTGAAGAGATCACCAAACAGGCTTTGTGTGAGCAACATGGC
TGTTTATTTCACCTGGGTGCAGGCGGGCTGAGTCTGAAAAGAGTCAGCGAAGGGAGATAGGGGTGGGGCCGTTTTATAAGATTTGGGCAGGTAAAGGAAA
ATTACAGTCAACGGGGCTTTGTTCTCTGGCGGGCAGAAGTGGGGGTCGCAAGGTGCTCAGTGGGGGAGCTTTTTGAGCCAGGATGAGCCAGGAAAAGGAC
TTTCACAAGGTAATGTCATCACTTAAGGCAAGGACCGGCCATTTACATTTCTTTTGTGGTGGAATGTCATCAGTAAAGGCGGGGCAGGGCATTTTCACTT
CTTTTGTGATTCTTCAGTTACTTCAGGCCATCTGGGTGTATACGTGCAAGTCACAGGGGATGCGATGGCTTGGCTTGGGTTCAGAGGCCTGACAAAATTA
ATTTATGAAAATTTCATTTATCCTCAACTTTTTGGAAATACTCTTACATCAAAGTACACCTCAAATTGTGTACACTGACTACTGATCACTTTTCGGTAGG
TATAAAGTCCTTAAAAATTTTGTTTCAACTTTCCCTTTTAAGATTAGAATTTTGACCACAGTGTTCCATGGGAACAAAGTGAATCATCTGTGGCAAAATA
TGCTAGTCAAGAAGTGAGTTAGAATCTGTGCCAAGCGTTAAGACCTTGTGCACCCAGGTTCTGGGGCGGAGTAAAGAGGCAGGCTCCAAAGACATAGCTG
TGTGTTGGACATGAGAGTATTTGGAGGAATACAGGTAACAGGTGATGCTGGGAAGTCYTGTGAAATGGAASGAGAACRAAGATGAGGAATCTGGTGGCMG
TAATAACCGGGGAACAGATGAGCTGGAGGCCTCATCAGGAGGGGTGTCCCTTGGTGGAAGGACACCATTCCCGGCCTTAAAAGGAGASGCTYCAGCACGG
CTGGGGAAGCACGTGGATACCTTGTACTAAATCCACTACTGCAGCTCATTCTTAACTGTAAGTAGAAGAGGAGGACATGCTTTCTGAAGCTGACCCCTCC
AAGATGACCAGTTCCTATTTCTGTCCCCTGCTACCACCATGGTGTAGAACAACAGAATCAAAAAAACATTTTTTCTGTTATGGGTGACCTGTACGTTTTC
TAGAATGGAAGGAGGCTGTTTAGTAGCTCAACTCTGAGAACACTTTTTCTTTGGACAAAATTAAAAAAGGAAAAGGTCAAGTTAATCATTAATCTCTCTG
TTTTCTACTAATGTCTCCATTTTCGCCATACTTTCTATGTCCTACATAGCAGCCATCACAGAGGGCAATAAACACTTCTAATGACCGTGTAATTTATATG
GAATGCTGAAGGGGTGGGTTGGCCCTCCACACCTGTGGATGTTTCTCATTAGGTGGAACTAGAGACTTGGAAAAGAAAGAGACACAGAGACAAAGTATAG
AGAAAGAAAAAAGGGGGCCCAGGGGACCGGTGTTCAGCATACGGAGGATCCACCGGCCTCTGAGTTCCCTTAGTATTTATTGATCATTAATGGGTGTTTC
TCGGAGAGGGGGATGTGGCAGGGTCATAGGATAATAGTGGAGAGAAGTTCAGCAGGTAAACACGTGAACAAAGGTCTCGGCATCATAAACAAGGTAAAGA
ATTAACTGCTGTGCTTTAGATATGTATACACATAAATATCTCAATGCCTTAAAGAGCAGTATTGCTGCCTGCATGTCCCACCTCCAGCCCTAAGGCGGTT
TTCCCCTAACTCAGTAGATGGAATATACAATCGGGTTTTACACCGAGACATTCCATTGCCCAGGGATGAGCAGGAGACAGATGCCTTCCTCTTGTCTCAA
CAGCAACGAGGCGTTCCTTCCTCTTTTACTAATCTTCCTCAGCGCAGACCCTTTACGGGTGTCAGGCTGGGGGAAGGTCAGGTCTTTCCCTTCCCATGAG
GCCATATCTCAGGCTATCACATGGGGAAAAACCTTGGACAATACCTGGATTTCCTAGACAGAGGTCCCTGCTGCCTTCTGCAGTGTTTTGTGTCCCTGGG
TACTTGAGATTAGGGAGTGGTGATGACTCTTAACAAGCATGCTGCCTTCAAGCATTTGTTTAACAAAGCACATCTGCACAGCCCTTAATCCATTTAACCC
TGAGTTGACACAGCACATGTTTCAGGAAGCACAGGGTTGGGGGTAGGGTTACAGATCAACAGCATCTCAAGGCAGAAGAATTTTTCTTAGTACAGAACAA
AATGGAGTCTCCTATGTCTACTTCTTTCTACACAGACACAGTAACAATCTGATCTTTCTTTTCCCCACATTTCCCCCTTTTCGACAAAACCGCCATCATC
ATCATGGCTGTTTCTCGATGGTTGCTGTCTCTTTGGAGCTGTTGGGTACACCTGCAGACTAACAACAGACAAAACAGGCACACAAGGATTAATATGAAAT
TTATAATCGTAGTACTTCCGATGGTCTTAACCCAAGTGACAGGGTTAAGATTTGCGAGGCCATCAGCAACTCCTGCGATTGCCTCAGTTCCTGGCACCAA
ATTTAAATGGGCTTTTGATGTTTCAAAAATTTGTTCCTTTAATTTGGAAATGTCTAAAGTGAGATTATCTTCTGTTCCCTGTAGATGGCATCTGACCATG
TCCCAGTGATGCTCAGACTCATTATAAACTTGGGGTGTAATACAAAAATCTGAGATATTCCAGTCACACTGTAACTGGAAACGATGGTCTAAGTTCATAA
GCCTGTCTCCCATCCAAATGACAGTTTGTCTAAGATCATTAATTTGGTTTGCCAATTTTTGATCAATACCAGATTGTGAATTCCACAATCTTGTAGAATT
TTTTTGCCAATCATTAACAAAGTTTACTGACTGAACAGAAGAGTGCAATGCAACTCCTGCCATAGCAGCCGTAGCTGTGACTGCAATTAATCCCATAATC
ACTGTAATTAAAGTAAAAATGAATCTTTTGGATCTATTTAAAATGGCTTTTAATACTTCAGTCAAAATATGGACGGATGGCAAGGCCTCCCACGGTTGGT
CCATGGACATAGAAATCCACACGGCTTCTCTTGCCCTCACCAGCAGAATACACTGTTGCCAATTAAAAGTTGAATAAATGCAAGTAAACAATCTGCAATT
TTCACAGCTTATAGTTTGAGAGTCTGGTTTAATAACTATATTTCCTACAACTAGCATATAAGGGGGCTTTACACAGGTTTGGAAAGGAACTGTTAGACTG
GAATTTAGGTTGATAGTATAAAATAGCTTACGATCTCGTTTCTAAAGTTTGATTTCTAGACCAAATTCTAATGCAGTATGAGGCCACAGTAAGCCTCCAT
AATTCTGGATGTTCAGGACCAGAAACAGGACTTATTATTTTTGGTCTTGGGGTAGAGATTCCTTTTTCTCCCTATTCCCAAGGGTAGAAAGACTGTAATT
TTTTAGCTTATGTTTGTCTAAACTTTCTGTTAAGTCGCTATCAACAGCTRGACTCACTTGTGCACTGGGACACGACTGAGTTTGTCCTGTGCAATTGTGG
TAGAATTGACCTCGAGGTGCCCAATCTATAATAGTTCCGAATTCACTGTTTTGTAATATCACCGCACTATTGGCCACACATTCTTCCCAAACTAAAACTT
CTGTATTTTTTGATCCTTTGGGAATTTCCTTGGGGCAAGGTTTCCCTTTAGGTCTAAATTTTAATGATCTTTGATAAGAAAAGTCTTGTAAATAATTTAC
CCGTGGCCTGAGTGACATCCCGCTTACCATGTGATAAGTGAATCTACTGATGGGACTGACAGTAGGTACTTCTACCAACCAATTTTGGACTGCAGGCATT
AAACATCCTGGTGCTCTCCCTAGGCAGATAGGAGGATAATGATACCCAATGGAAATATTTATCATCATCCCTTCTTCCTCAGGTTTGGCAGGGCAATGAT
CATCTGTGGGGCCAGGTACCCATACACTATCATTAACATATACTTCAATAGGATTATCCATCCATGTGACTGGTGTTTCCATCTCCGCGGTGGCGCTTTT
CTTTGCATCTCCGATGGGTTCATCGTAGATCTTCAAATGTCTAGTGGGTATCCAAACAGGAAGCTGATTTTCTCCTGGTGAAACACAAGCAAAACCTCTC
CCCCACGTCACCACCTTCCCTATTTCCCATGTCTTATTTTTATTATCTTTCCACCAAATCAGTTTTCCTTCATGTGGGCTGTTCTTTTTACCAGTAAAAT
GTTGTTCTGCAGAAGTAGTAGTCTGATTTCTATAAATGTTTAAAAAATTTAAAGTATAGAGTGCTAGATTAAGTTGCATCTGAGGAGTGGTACATTCCTT
ACTGTCTCCCCCTTCTTTTTGCTTAACTGAGTTTTGAGTGTTCTATTAGTTCTTTCAACTATGGCCTGTCTGTGGGAATTATAGGGAATTCCTGTTGTAT
GTGAAACTTTCCACTGATGTAAGAATTTTTGGAAAGCTTTACTACAGTATCCTGGTCCATTGTCAGTTTTGATCTTTTTCTGGAACTCCCATTACAGCAA
AACAAGATAATAAATGTTTTTTAACATGGGAAGTACTGTCTCGATTATCTGGCCCTAAACAATGTAAAATCACAGTACTTTGATACACTTCTGAGGCTGT
GCCTACGCTGACAAGCCCTGTAACAGCCTTTAGTTTAGGCCAATTTTTGGCCACTGATTTAAAGCAATGATAGAGACATCTGCTCCAGTGTCTACTAACC
CTTCAAACTGTTTTCCTTGAATAATGGCCTTACACGCAGGTCTGTTCTCTGAGACCCGACTTGCCCAATATGCAGCCTTTCCTGTTGGATCAGTGCTTCC
AAACCCTCCTGTTCTTTTTATCTCACTATTTCCAACCTTAATATAAGGCAGGAGTAATAATTGCGCAATCCTGTCTCCTGGACTGGCACTCCAAGGAATT
GAAGAGCTAATAACCAATTGAATTTCGCCATTATAGTCTGAATCAACCACATCAGTACGAATTTGAACTCCCTTCAGACTTAGACTTGATCTACCTAAGA
TTAGTCCTACAGTCCCCTCAGGCAGTGGGCCATATACCCCTGTGGAGATTTTTTGTGGGGGCTCCCCTGGAAGCAGAGAGACTGCCTTTATAGTACATAA
ATCCACAGCTGCACTGCCGCTTGTGGCGGGGGACAATTGTTGTACTGTGGTAACTGGCTCATTCCCTGAGGCACTTGGGACAGTGGGGGTTGTTGTCCCT
GAAAACCCTGAGGAACAAAGGGCTGAATTGGGAATGCCCCAGTTTGTTGCGGGGCCTGAGGCTGGCCCCTTTGCTCATTTTCCCGACAATGGTTGCCCAT
TTCTATCAAATTTAGAATGACATTGACTAGCCCAGTGTTTTCCTTGTTTACATCTTGGACATAAGTCAGGTGGCTCTTTTTTATTTGAGACTGGGCAATT
CTTTTTTAGATGACCAATTTGATCACAATTATAACATTTCCCTCCAAATGTTCTAACTTGTCCTCCTAAAGCAACTCCTGTTATTGTGGAATAAAGTTTA
GAAAATATCCAAAGCTTATCAGCCTGTAAATTCTGGGTAGTTCAGTTGTCTACCATGCTGTTAATTAAATGAAAACATCCTGTTATTTCAGGGTCCTTCC
TTGACAAAGTACTATACAGCTGAAGAACATCTCGAATAYARTTTTGGTGGGAAAGGAGCCAATTGATTTCAACAGAATCAGATCTGAGCTTCATAAAGTC
TTTGAAGTGACTTCACAGAGACGCAGACATGTGCACTTGAAGATGCTGCCCCTTCCCYGGTACCTAGCAAAGCTCCTGCCTCTTTGTGTGCGTCACTGTG
AAACCCCYACCCTTCTGCCTCGTGCTAAACGCACACAGTATCTAGTCAGGGGAAAAGACTGCATTTAGGAGATAGAAAATAGTTTGGATTACTTAAAGGA
ATAAGGTGTTGCCTGGAATTTCTGGTTTGTAAGGTGGTCACTGTTCTTTTTTAAAATATTTGTAATATGGAATGGGCTCAGTAAGAAGAGCTTGGAAAAT
GCAGAAAGTTATGAAAAATAAGTCACTTATAATTATGCTACCTACTGATAACCACTCCTAATATTTTGATTCATTTTCTGCCTATCTTCTTTCACATATG
TGTTTTTTTACATACGTACTTTTCCCCCTTAGTTTGTTTCCTTTTATTTTATAGAGCAGAACCCTAGTCTTTTAAACAGTTTAGAGTGAAATATATGCTA
TATCAGTTTTTACTTTCTCTAGGGAGAAAAATTAATTTACTAGAAAGGCATGAAATGATCATGGGAAGAGTGGTTAAGACTACTGAAGAGAAATATTTGG
AAAATAAGATTTCGATATCTTCTTTTTTTTTGAGATGGAGTCTGGCTCTGTCTCCCAGGCTGGAGTGCAGTGGCGTAATCTCGGCTCACTGCAAGCTCCG
CCTCCCGGGTTGACACCATTTTCCTGCCTCAGCCTCCTGAGTAGTTGGGAYTACCAGTAGATGGGACTACAGGCACCTGCCAACACGCCCGGCTAATTTT
TTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTGGATCTCCTGACCTCGTGATCCACCYGCCTCGGCCTCCCAAAGTGCTGCG
ATTACAGGCATGAGCCACCGCGCCTGGCCGCTTTCGATATTTTCTAAACTTTAATTCAAAAGCACTTTGTGCTGTGTTCTATATAAAAAACATAATAAAA
ATTGAAATGAAAGAATAATTGTTATTATAAAAGTACTAGCTTACTTTTGTATGGATTCAGAATATACTAAATTAACTTTTTAAAACACAACTTTTAAAAA
ATGTATCAAAATAATAAACGTGTTCTGATATTTTTAAAATAAGTGACCTTGTGTTCTTTAACCAGTCCACATCTTTAGAGAACAAAAATGTGTTATGATA
TTATGGGCCATGCTAATGACCTCTAGAAAACATCAGAATATTTCTGGATATTTAATAATAGCTTTATATATGACTAATGCTCATTTCTATGTAATTCTGT
TTAATAGTTGCTTTAAAGGTGAATTTTGCCACATTTACTTTGACAGCAGTATAAGGAGTGAGATAGACATGAACCTGAATTTCAATTTAAAATCATGGAA
GAGAGGGAAAAAAAACCAGCTTAAGAAAAATCAACTGATAAACTGCAAGAAAAAAATGCAACTTACATCACAAAAGCTAATTGCTTTATTATTTAGAGAG
TACTTAAAAATTAAAGACCAAACTTCTCTCCACCCAACAAAAATGGGCAAAGGACATACAGCTAGGTCACCAAGAAAGAAGGGCAAATAGGTGGTGAGTA
CATGTAAAGATACTTGATAGGACTTTTGCTTAGTTGAATCTTTAGCAAATCTCTTTTATTTCTTGGGATTTTGAAGAAGTAATTTTTAAAGGAGGACTAG
AAACTAAGTGATTGGGAATTGGCCTTTTTAGAATTAAAATTTCCCATTACAAGAAAAAAAAATCCTGTGTTCTTTTTTTTTTCCAGAATGGAGTAGGTCA
GTGAGCAATGTGATTAATAAATATTTCAATGTCTGTGACTTTTGATTTATTTTGGAGACAGGGTCTTGCTCTGTTACCCAGGCTGGAGTGCAGTGGTGCT
ATCTAGGCTTACTGCAACCTCACCTGTCACTTTTTAATTGCAAGAAAGCTGAAAGGTTTTTTTCTATTATATCAGTTATAATGAGAAATACTGTATATAC
TAACTATGAGTAAAATACTATATTGCCTAACTTGTATTATTAAGCAATTCTGCTAACCTGTGACCTTACATTTTCATCTGAAAAGCAGGGGCTGGACACC
AATTGCCCTATGAAGCTATTGCTAGTCCTAACATTCTTTGTTTTGTTTGCTTTTTTGGCACACTTAAGTGTGTACTATGAAGTTTATGATGCTTTAATGA
AATTTTCTGTCTCTACCATTGTAATGAGAAAGGAATAAAATACTTTATTTTGCAAATCTACTTATGGAATATAGTTCTGTACCTGATTGTTTTCATAATC
CCTGTGTTGATGTGTAATGCCACAGACATGCTCTTGATAGTAACAGGAAAGAAAATCAGACACAGCTAAACATAAAGGTCAGTTGGCTGGCAGGTGCTTA
GCAGGTGTAAATAGAGGCCCATTCATGCTGCTCCACTTGCTCCTGAAAAGCATAATGTAAATACAGTATACTAATTAGGAGGCAAAGAACCATCTAACAT
GGTTCTTTTTTTTTTTTTTTTTTTTTTTTGAGATAAAGTCTTGCTCTGTCACCAGGCTGGAGTGCAGTGGCGCGATCTTGACTCACTGCAACCTCCGCCT
CCCAGGTTCAAGCAATTCCCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTGCGCCACCACGCCCAGCTAATTTTTTGTATTTTAGTACAGACG
GGGTTTCACCATGTTGGCCAGGATGGTCTAGATCTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGC
GCCCAGCCCTAACATCAAATTTTAAAAGAGTTGGCCACAGTTTAATGACATCCCTGCACACCAGCCTCCACCCATACTGCCCTTCATAAGCCCCTTAAAG
GAGATCCCATAGTTCTAAACCGGGTCCACAAACACACATATCCTCATTCTCTCCTTTTCTTCTCTTTGGCAGTTTGACAAAATCTTTAGGGGGAATTGGA
GGAAACATTAATCTCCTAAATCAACTTCATTCAAAGCTTTGGCTTCAAGTTCTACCCGTTAAGGCCTCAGGAAGTTCATTGTCGACATTGAACTCAGTCA
CTAAAATGACCTCAAGGCTAAGGGATAGACCACAGCTCCACTTCACAAGTAAGCTTGCAACACCTGATTTAGGAAAGTTTGCTGTGCAGACAGTTGTAGC
TCATCCATTTTACAGACCGATCTCGATTTGTTTCCTAGGGTCTAAAATTATTTAAATCAAAATCTCTCAGAAATTTCTGGACATTTAATAAATTCATGCT
GGAGGAGAACTGGCAGAGATATGTTAAATGCACTTGACCACAAGAACCATTTATTTCATCCAATATTTACCAGCTATTCATTGTACACTTACTACAGATT
TTGGCACTGGAGATATTATAAGAAAGCTCTAACCCTGACTTATGGAACTTATCCCAAAAAATAGGAAACAAGGCTCAGAACCATTCAAATGAAGCTTCAG
TTAACTCAAATAAAAATTAGTTTTATAAATTTAATGTGAAAGTCTTCGAGTATATTAAGAATGGCTTGATTAACCCCAGGGATGGAAATTTTACTGATTG
AAAGAAAGTTTCAATAAAATACCGATCTTCGAATCTAATCTGACACCTGAAACTAGGAAATCAAACACTAGCCATATTTTTTCTTCTATTCTTTATAATA
ATTTTTCTCATGAGAAAAAGGTATCTTTCTTCCAAGCCTGAAAATAAATGGAGAATTTTTAATATCTATTGATGTGGAGAAAAATAAATAGACTATCTGC
TTTCACAAATAAGTGCTGGCATTGAGCCACAGAACATGTCTGTCATATTGCTCTTTCACACCATACATTAACAGGAATAATAATTTCTCCTCATTGAGTT
TCCTATTTACTATCCCCTTAATTATACCTCCTTTAATTACTGTCATAGAGTGTCTGAATTTTATAATCCAAGATACTAAGATGTTTATTTGATATACCAC
CAGACTCAATGTCTTGTATTCTATGCCAAAAATTTGAAAATGTTTGGGAAGAGGAAATTCCGTGGTTTGGTGAACCCAGAAAGTCTTCAGTACATCTCAG
TTATAGAACTGTATTAAATACATTTAAACTCTATAATTCCATAAGACCCATTTTAGGTTTATACACTAAGCATCCAATTCCTCACTATCCTCTCATACAA
ACCCTGTGTAATACAAGTTCTACTCCCATAATTCTATGAACAAAACAACAATTGATACATAGATTTGATTTTTAAAATACATTTTCTTTACCTTATTCTA
AGTGTAACATAGGGTCAACATAGAAAAAGAAAACTGAAAAGCACAAGGAAAGTGAAATATCTATAATCTTAACCATTGTTAATTTTGTTGTGTTCCAAAT
TAGTGTATGTATATATATATATATATATATATATAGCATTTTTGTTTTAATAAAAGGACTGCCAAAATGCACATGCCAATTTGGACTCTGCTTTTTCCAC
TTACAATGATATCATAGTTTCTCACATTTGGTATTCTTTTGCAATACTTGCTGCATAGAATTCCATCACACAAAGGTAACTGCCAGAAATTCCTTATTAC
TTTTGCTAGACACTTAGGGTTTACATTTTTTACAAAAATTATAAATCTTTGATCACAGCTCTGATGATTTCTCTGGGAACTGAGAGCCTAACACAAGTCA
TTTCCACTTTAAGACTTTTAACATTCTGAAAAGTTATGTTACAAACAGAGTGCTGGTCCCCCTGCAACATGCTCACTCACATTGGCTGACATTTTAATTC
TTTGCCAATCTGAGGGGAAGAGATGTCAACTTTTTTTGTTTGCTCTTTTAATGCCAGTCATGTTCCCTTTTTTTTCCCCCTTTTACCAGTCATACTGGCT
TACTCAGAACCCTACAAATCAATCCTGCTCATTCTTAATTTTCCAACATTGTTCCTGAGATTGTTTCACCAGAAAAGTTCTCCCCCTTATCCACTTCGCC
TAACAATTTCTACCCATCCCAATCCTCCTGCATTTATTGCTTCCAGGAATTTGGCACTTAGGACACCCTTGTCCTTACATTGTTCATGCATGTATATTTC
GTCTTCAATAAAACATTTAGTTGCTCAAGGGCAAGGGTCCCATAGAGTCTCAATATGCTAACGGCCTGGTGTTGCTTAATAATTTAGATTCTGACGGGTC
CTCTCCAGGGAGGGGAGCAAAGGGCAAATTATCTTAGGGGCTGGGAGTGCAGAAGCCAAACCTTTGAGACTGTGAAAAGAAGACGGCGCCGAGACGATTC
AGTAGCAGGCATTCAAGCAAGAAAAACTCAAATATTGTTCCCAATAATGCCTGACTAATGCCAAATACCAAGTAAGGGCCCAGGCAGTCCTGACAGCCTG
CAGTGCCCCAGGATAAAACTAACCCTGAGGGGTGCTAGCCCACGATAACCCCCTGCCAGGGCTCTGGACACGCCCTGTCTCCTCGAAGGCCAACGGGCTG
CCCCTGCGCGCCGAGGCCCCGCCCCGCGGCCCGCCGATTGGCCCCAGCCGCCCCGGCGCTAAGACTCAATTTCACACTACGCGCCCAGGCCACGCCCACC
TGTCATGCGGCCCTGGAAACTGTGAGTTTGGGGATTGTTGTGTCCACTAACCGGACTCAGAAGGGACTTCCCTGCTCGGCTGGCTTTCGGTTTCTCTGCT
CACCTCCGGATAAATCACGGGGTCTCCCGCGCCGCTCATGGCGCCTCCCGTCCGTCTCGAGCGTCCCTTTCCTTCCCGGCGCTTTCCTGGGTTGCTTCTG
GCGGCCCTGGTGTTGCTGCTGTCCTCCTTCTCCGGTAGGACCCCGGGGTGGATTCGCGCGTCCGCGGCGAGGCTAGAGCTCTGCTCAGTCAGTCGGGCAG
GAGGCGCGGGGCGAAGCTCACTGCACGTCGTGCCTGCTTGGGATAGAGAGCGAGGCCAGGGTTCTCCGAGGGGTGCCGTGCTCAGATCCCGGGGGTATGT
GGCGGGGGATGCGGGAACCACGCAGAAGCTTGTTTGGTGGCATCGTGTGCGCGGCCGACATTTACGCAGGATCTGGCTGCGTTCCCAAAAGAAGCGTGAA
TCGTGTTTTCGGGATTGAGCCCAGTCAGCAAGGGGAGGGCTTACTGGGCGCCCCAGGTGAGGGCTTGCTCTGGAGTGCACAGGTGCGTGGGATTGTTGCT
AGAGCCCGTGCTGTGCCCGTGGTGAGAGTTTGCCCTGTGTTCCCTTGGTGCCTTGGTGAGTAGGGTGTTCATTAGGGCTTGGACAGTACCCGCGGTAAGG
GTTGCAGTGCGTCTGCTGTGCCCCATGGGCTGGGCTGGCCTGGGCTGGGCTGGGCGAGCAGGGGCCTGGCCAGGTGTTGCTGGGAGCGTGCTGTGCGCAA
GTGGCCTGTGTGCGGAGTTCACTGTGGGCAAGACAGCTCACTGTTTGCTTTGAGTGGAGCGAGCGCGGACTCTGCGGCTAGGGAGGGCATGTTGAGTGAG
AGCAGGCTCTCAGTGCCTGGGGTTAGAGAGGTGGTAAGGGCGCACCATGCTTTTAGTGCCTTCTGTGAACAGTGTCCGTGTTGCCTGAGATCGTATTGGT
CTTGAATTTTAAGTGGCTGCTTTTTTGGGGGGTGGGTGGGCCATCGAGTCATCTTCCTGTTCCCAACCAATATAGACAGTATCTGATTCCATTGCCTAGT
GGCTTTTTGACATTGTTTTCCTTCTTTTCATTAGTTTGAGTCATATTTGAGAGATGTGAAGCAACCTAAAAAACACTGGTAGCCAAACCTAGTGAGAAAT
TAGTATCCTAACAAAGGAAGGCAGATAATGTTAATCTTGTTTTCCCCTACAGCTCATAAACTGAAGCTTAAGGCCTATCCCACTGTTTTGTATTTCATTG
AATGGAATCAATATTTTTAAAAATGCATGCTAGGCCAGGCCCAGTTGCTCACACCTGTGATCCCAGCACTTTGGGAGGCCCAAGTTGGGTGATTGCTTAA
GCCCAGGAGTTCAAGATCAGCCTGGACAACATGTCAAAACCCCATGTCTACAAAAAATAAAAAAATTAGATGGGCATGGTGGTGTATGCCCGTGGTCCCA
ACTACTCCAGAGGCTGAGGTGGGAGGATCGCTTGA


SNP Information

Context             (SEQ ID NO:32458):
GGGAGTGTAAATTCGTTCAACCATTGTGGATGACAGTGTGGTGATTCCTCAAGGATCTAGAACCAGAAATACCATTTGACCCAGCAATCCCATTACTGAG
Y
ATATACCCAAAGGATTATAAATCATCCTTCTATAAAGACACATGCACACGTATGTTTATTGCAGCACTGTTCACAATAGCAAAGACTTGGAACCAACCCA
Celera SNP ID:            hCV26971258
SNP Position Genomic:     85424
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32459):
CCTAATAACCTCAAAATATATAAAATAAAAGATGGACAACATTATAAAAAGAAATAGACAAATGTACAATAAATAAAATATTTTAACACAACTCATTTAG
T
ATCTAGTAAGACAAGTACTCCCCCCAAAATCAGTAAAGTATCTAGAAGATTTGAATAAATATTAACAGATTGGATTCACTGACCTTGTTACAAGAAAGAA
Celera SNP ID:            hCV26228492
SNP Position Genomic:     14365
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32460):
AAAAACAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGTTGGGAAAACTGGCTAGCCAGATGCAGAAAACTGAAGCTGGACCCCTTCCTTTACA
Y
CTTATACAAAAACTAACTCAAGATGTATTAAAGACTTAAATGTAAGACCTAAAACTATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGACAT
Celera SNP ID:            hCV26971259
SNP Position Genomic:     84760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32461):
TCCTAATAACCTCAAAATATATAAAATAAAAGATGGACAACATTATAAAAAGAAATAGACAAATGTACAATAAATAAAATATTTTAACACAACTCATTTA
G
TATCTAGTAAGACAAGTACTCCCCCCAAAATCAGTAAAGTATCTAGAAGATTTGAATAAATATTAACAGATTGGATTCACTGACCTTGTTACAAGAAAGA
Celera SNP ID:            hCV26228493
SNP Position Genomic:     14364
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32462):
ATCCTAATAACCTCAAAATATATAAAATAAAAGATGGACAACATTATAAAAAGAAATAGACAAATGTACAATAAATAAAATATTTTAACACAACTCATTT
A
GTATCTAGTAAGACAAGTACTCCCCCCAAAATCAGTAAAGTATCTAGAAGATTTGAATAAATATTAACAGATTGGATTCACTGACCTTGTTACAAGAAAG
Celera SNP ID:            hCV26228494
SNP Position Genomic:     14363
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32463):
AATCCTAATAACCTCAAAATATATAAAATAAAAGATGGACAACATTATAAAAAGAAATAGACAAATGTACAATAAATAAAATATTTTAACACAACTCATT
T
AGTATCTAGTAAGACAAGTACTCCCCCCAAAATCAGTAAAGTATCTAGAAGATTTGAATAAATATTAACAGATTGGATTCACTGACCTTGTTACAAGAAA
Celera SNP ID:            hCV26228495
SNP Position Genomic:     14362
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32464):
AGTTACAACCACAGTGCATGCTAAGTGCTTAGCTAAGAGGGGAAAGGCATTAAATTTGTGGGCGGAAGAGGTGAACAGAAATGTGTTCTAATTGACAGCT
R
TCAGGTTTGGTACTATCTGAGGTTTTGGGTATCGGCTAATGTCTTGGAACATGTCCCCCAAAGATAAGTGGGTGACTACTGTATATTCAAAATAAGCATT
Celera SNP ID:            hCV26228497
SNP Position Genomic:     13997
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32465):
GTCTAGGTAAGAATTTCTTTGTATTGCTTGGGTTTGCACATTTTTTTTTTTTTGGTTGTTTTTTTTTTTTTTTTTTTTTTTTGACAGAATTTCACTCTTA
Y
CACCTGGGCTGGAGTGCAGTGGTGGGATATCTCGGCTCACTGCAACCTCCGCCTCCGGGGTTCAAGTTATCCTCCCACTTCAGCCTTCCAAGTAGCTGCA
Celera SNP ID:            hCV26971903
SNP Position Genomic:     30899
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32466):
ATAACTTCCAAATGTGAAACAGCCTAAACTAAACTACCTAGAAATTTTGTTGCTGACATAATTTAAATTTTAAAATGCTGATGGATGCTTCCAGTGTGCA
Y
GGTCCTTTGGAATTTTAAAGAAGTATAAGAGCTCTGCACCCAAAGTGTATGCATATAGAAGTAGGTGGTGGAGTTTTATGAAATCTACTTATTAGGAAGC
Celera SNP ID:            hCV29039988
SNP Position Genomic:     7769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32467):
TTAGAGCTTTCATGTTTTTTCTAGAAATCTTTTGTCCAAGTCCTCCAGTTATTCCTAATGGGAGACACACAGGAAAACCTCTGGAAGTCTTTCCCTTTGG
R
AAAACAGTAAATTACACATGCGACCCCCACCCAGACAGAGGGACGAGCTTCGACCTCATTGGAGAGAGCACCATCCGCTGCACAAGTGACCCTCAAGGGA
Celera SNP ID:            hCV28027009
SNP Position Genomic:     42141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:32468):
GCCTCAGCATCCATTTAGAATATGTTTAGCTTTCTCATGCCAGAAGCAGGGCTTAGTCACCCTTAATGCCCTTTCTAGTTCTGTACCTCCTCCCAATTTT
K
CAACGTGGTCGAGCCAGATATCTGCCTTATACAACTGCCTCCTGGTGACCACCTCTCTATGGGACAGCTAGATAAAACCTACTTGACTAGCGTCCCTGAC
Celera SNP ID:            hCV26971904
SNP Position Genomic:     30106
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32469):
AAGCGCAGAGACTCCAGCCCAGCTGCAATGGGGGAAGAGGATTTACCGACAGAAAAAGGAAACTGACGTACAGAAAACAGAAGTGAGGTACAGAAACAGC
C
GATTGGTTATAGCTCAGCGTTTGCCTTATTTGAAAACAGTTCAAACAGTTGGCCACATTTGATTGGCCAAAACTCGGTGATTGGCGTAAGAGTAGTCTGC
Celera SNP ID:            hCV26971905
SNP Position Genomic:     29708
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,7)   total(C,3|-,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32470):
TTCAGAAAATTTGCATTTATATTCTCAAGAGATCTTGGGTTATAATTTGCTTTTATTTTAATGTCCTTATCAGGTTTGGGCATCAAGATTATGTTGGCCT
S
ATAAAATGTGTTAAAAATTATTTATTTTTTCTAGTGTCTGGAACAATTTGTGTAACATTATTTTTCCTTATATGTTTGGAAGAATTCAGCAGTGAAGCAA
Celera SNP ID:            hCV26971906
SNP Position Genomic:     27414
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32471):
AGGTATATACATATATATACGTATATATACATATACATATATAGGTATATACATATATATACGTATATATACATATACATATATAGGTATATACGTATAC
R
TATACATATATAGGTATATGTATACATATATACACACTATATATATATACACATATATATAGTGTGTATATATGCACACATCTTAATCATGCAGTTCAAT
Celera SNP ID:            hCV26971907
SNP Position Genomic:     25155
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32472):
GTATGTATATGTGTATATATGTACGTATATATACATACGTACGTATATATACGTGTATACGTATATATACATATACATATATAGGTATATACATATATAT
A
CGTATATATACATATACATATATAGGTATATACATATATATACGTATATATACATATACATATATAGGTATATACGTATACGTATACATATATAGGTATA
Celera SNP ID:            hCV26971908
SNP Position Genomic:     25073
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32473):
TGTATGTATATGTGTATATATGTACGTATATATACATACGTACGTATATATACGTGTATACGTATATATACATATACATATATAGGTATATACATATATA
T
ACGTATATATACATATACATATATAGGTATATACATATATATACGTATATATACATATACATATATAGGTATATACGTATACGTATACATATATAGGTAT
Celera SNP ID:            hCV26971909
SNP Position Genomic:     25072
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32474):
TGACTTAAAGTTTGTCCACTTGTCATCTTGCCTCCAGGCTGTCTTAATCTTTGTACTTGAACTGTTCCACTCAGGGGGTAAGAAGCAAGGAAAGAGTAGC
S
CAAAGAAAAGAGTAGGAAAAGGAAGAGGCTATTTCTTCCTAAGGAGGGGAAGAAGTTGCCTGGTCCTTCAGGGCAAACATTAGGCCTTTTCCAGAGCAGA
Celera SNP ID:            hCV927630
SNP Position Genomic:     76786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32475):
GTGGGAAAAAGGGACTGAGGGAGGGGTGGAGGGAAGGCAGTAAGGCACAGTTATGTAAATCAGGAAGAAAAATGTATTCACTGGAGACGACATGAAAACA
W
CTGCCTCTGAACACTAACCAGTATCTGTATAATTGACAGTCTCCATAAGTTCATGAGGGGTACATGGGCATGCAAAGTTCAAAATTGGAAATGTGGATAT
Celera SNP ID:            hCV8827423
SNP Position Genomic:     76516
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,3)      total(A,3|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32476):
GGGAGAGCACCATCCGCTGCACAAGTGACCCTCATGGGAATGGGGTTTGGAGCAGCCCTGCCCCTCGCTGTGAACTTTCTGTTCGTGCTGGTCAGTATCC
R
CTTCCACATATCCTAAATGGGTTCAGAATATGTGGACCCAATCCCTCATGTTTCTGTAATAAGACTATGGTATTTGTTTGTGAGCTTAACTTTGTCATAA
Celera SNP ID:            hCV8827424
SNP Position Genomic:     76204
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,24)   caucasian(A,17|G,15)   total(A,21|G,39)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32477):
TGAAGAAGAAATCAAAATTCCAAATGGTGTTGTATCAAAGAAATATTAATGAGGCACAAAACTAGTTAAATGGGGTCACTAAAACTGTTTTATTTAATAT
R
GAAATAAAATATCAAAGCAGGACTAATTCTTGAAAGATAATTCATGTAATATGAAAAGAAGAAGAAACTTGATATAAAAAATAGATTTTATCACTTCAGC
Celera SNP ID:            hCV927632
SNP Position Genomic:     87145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32478):
GGAATGGGGGAAATCAAAAGTTAAGCTTGGGACATAACTTTAGTGTTCCTCTTAGATATCCAGATGGATATGTTGGAGAGTCCCAGGCTGCCCATAGATA
K
GTAGAAGCCATCATTGTATCTGCTATGCTTGAAATCAGGACTGAAAGAGATCTTCACCTAGGGAGTGAGTGCTGCTAGAGAACAGATGCATGGACTGAGC
Celera SNP ID:            hCV8827425
SNP Position Genomic:     74311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32479):
CTTGACATAAAAAATAAGGAGAAAATGGTACTTCACACCAGTATAAAATCTATATATCTATATCTATATATATCTATATCTATATCTATATATATATATA
W
AATCAAATTTTAAAAGATAATCAGAAGGGCGAAACCACTTGGTCCATAAAACAAAAGAGGGGTGAGAGAAACAAGAGCTAGCAAGCTTTCTGTCTCTCTT
Celera SNP ID:            hCV927633
SNP Position Genomic:     87410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32480):
TCAAACTCATCAGTTATAATAGTAAATGTGAATGATTCCAATCCCCCCTTTTGAAAGACAAAGGCTTCTAAATATGGTCAGAATCCTATTTACAGTAGCA
Y
CAAAAAGAATAAAATACTTAGGAATCAATTTAATCAAGGAGGCACAAGACCTGTGCACTGAAAACTCAGTAACTGAAAATGAGCAAATGATGTGATAGAC
Celera SNP ID:            hCV927634
SNP Position Genomic:     88667
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32481):
TAAAAATTCAAAGTTTTAGAAAACGGAGTACCTTAGATCTTGATCAAAGAGAAATTTAAAAACAGCCATTGCAGATTACCTGGAGAATAACAATCGCTAA
Y
GATCCTCAAGTGCATGTGCCTCAAGCATTCTTCTAAGTCCTTTACTTGAATTGATTTACTTAGTCTTTAAAAGACCCTTTGAAATGGATATCATGCATAT
Celera SNP ID:            hCV927635
SNP Position Genomic:     91967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32482):
TTGGGAGGCTGAGGTGGGTGGATTACCTGAAGTCAGGAATTCAAGACCAGCCTGGTCAATGTGGTGAAGCCTGTTTCTACTAAAAATGCAAAAATCAGCC
R
AGTGTGGTGGCAGGCACCTGTAGTCCCAGCAGCTAAGGAGGCTGAGGCAGGAGAATCTCTTGAATCCGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCA
Celera SNP ID:            hCV26228425
SNP Position Genomic:     19924
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32483):
TACAAGGGGTACCTGCTATGAAAGGCCAGAGAGGCAGCTTATGATGGGCACCCTGAGAATGGAGTATGGAGAGAGATGATAAAATATGTCTTGCTACTCA
K
GAGTGAATTAGCACAAACACATGAAGATTTGAGTGGTTAACTGAGGATATAGGCACTCCGATAGGAGGTCAGAATGTGAAACTACAAGCTGAAGTTCTTG
Celera SNP ID:            hCV927638
SNP Position Genomic:     78358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32484):
TAGCAGAGGCCTAATACATTTATTTTGCAGTTTCTACTTTCCTTAAGAAGAAAAGTACGCTTAATTGGCAACACAGTCACAGTATGACAACTGTAGAATC
R
CCTTGGATTATACTTTAAAATTTTTTATGGAATTGAGAGCTCTTGTTTTCTTTCTAGATATCTTTTGTCCAAATCCTCCAGCTATCCTTAATGGGAGACA
Celera SNP ID:            hCV12080026
SNP Position Genomic:     75908
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;(G,-|A,-)   no_pop(A,-|G,-)   JBIC-allele(G,214|A,895)   total(G,214|A,895)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32485):
TTGTTGTCCCTTAACTTCATGAGAAAATCAAAAGTCTGTTCAGCCTCTCAGTTGCCCCGTCCTGATTCAGCTGCCCATTCCCAAACAATAAGCAGCCCAG
K
TGCCAAGCCCAAATACCCAGCTCTCAACTGGATTCTCATCTTCTCCTAGATCATGGCCCAGGAATGCTTCACTAGTTTGTTAGCTTTCTGATGCTTTAAC
Celera SNP ID:            hCV8827359
SNP Position Genomic:     32420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32486):
TCTTCAGGAAGCATAGGAAATTCCCCCATAACTAACAAGTACTCTGGAACTGTCCTTTCCACAGTGTGTCAGCCGCCTCCAGAAATCCTGCATGGTGAGC
R
TACCCCAAGCCATCAGGACAACTTTTCACCTGGGCAGGAAGTGTTCTACAGCTGTGAGCCTGGCTATGACCTCAGAGGGGCTGCGTCTCTGCACTGCACA
Celera SNP ID:            hCV12080027
SNP Position Genomic:     71593
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,7)   caucasian(A,26|G,14)   total(A,55|G,21)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32487):
GCCAATTGATTTCAACAGAATCAGATCTGAGCTTCATAAAGTCTTTGAAGTGACTTCACAGAGACGCAGACATGTGCACTTGAAGATGCTGCCCCTTCCC
Y
GGTACCTAGCAAAGCTCCTGCCTCTTTGTGTGCGTCACTGTGAAACCCCCACCCTTCTGCCTCGTGCTAAACGCACACAGTATCTAGTCAGGGGAAAAGA
Celera SNP ID:            hCV25598866
SNP Position Genomic:     130858
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(T,40)   total(C,5|T,73)
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:32488):
GCCTCAGAATAGACAAAGACCTTAGAGTTTGTCTATAATGGTCTGCCTCCTACATTTTATTTTGATTTTATTTTATTTAAAAACTATTTATTAGAGTTGA
Y
GTCCCACTCTGTTGCCCAGGCTGAAGTACAGTGATACAATCATGGCTCACTGCAGCCTCAGATTCCTAGGCTCAAGCCATCCACGTCCTACATTTTATCC
Celera SNP ID:            hCV927639
SNP Position Genomic:     70211
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(C,0|T,84)   TSC_42_C(C,29|T,54)   TSC_42_AA(T,33|C,50)   total(C,79|T,171)no_pop(C,-|T,-)   TSC_42_C(C,29|T,54)   TSC_42_AA(T,33|C,50)   total(C,79|T,87)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32489):
TAGACCAATGGAACAGAACAGAGGCCTCAGAAATAATGCCACACATCTACAACCATCTGATCTTTGATGAACCTGACAAAAACAAGCAATGGGGAAAGGA
K
TCCCTATTTAATAAATGGTGTTGGGAAAACTGGCTAGCCAGATGCAGAAAACTGAAGCTGGACCCCTTCCTTTACACCTTATACAAAAACTAACTCAAGA
Celera SNP ID:            hCV26971260
SNP Position Genomic:     84683
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32490):
CTTTAGTCATTGGTGTGCAATCAGAGAAATTGGGGGAAATCTGTAAAACAGATTTGGTCTCAGGTGACAGTCTCATTACCTGAATAACAATGGTACAAAT
Y
GGGATTACCTTCCTAGGAAATATGTAGATGGAGAATCCACCAATACTGATAACTTCACATTGGATAGCCAGAGCTAGGAGAAAATACCTCATGCCCTGTA
Celera SNP ID:            hCV12080028
SNP Position Genomic:     71317
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,23|T,17)   total(C,50|T,26)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,597|C,878)   total(C,878|T,597)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32491):
AAATGGCCATACTGCCCAAGGTAATTTATACAGTCAATGCTATCCCCATCAAATTACCAATGGCTTTCTTCACAGAATTACAAAAAAAAAAAAAAAAAAA
A
CTACTTTAAACTTCATATGGAACCAAAAAATAGCCCATATAGCCAAGACAATCCTAAGCAAAAAGAACAAAGCTGGAGGCACCACGCTACATGACTTCAA
Celera SNP ID:            hCV26971261
SNP Position Genomic:     84423
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32492):
ATGAGGCAAGAACCCTTCCAGAGTAAGCCCCAATTTAGGGGCATGCCTGTCCCGAAACAGTATGACTGTACTTTAGTCATTGGTGTGCAATCAGAGAAAT
Y
GGGGGAAATCTGTAAAACAGATTTGGTCTCAGGTGACAGTCTCATTACCTGAATAACAATGGTACAAATCGGGATTACCTTCCTAGGAAATATGTAGATG
Celera SNP ID:            hCV12080029
SNP Position Genomic:     71247
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,9)   caucasian(C,14|T,12)   total(C,37|T,21)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32493):
AAAATATCCGTAATCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGCAAAAATCACAAGCATTCCTATACACCAATAATAGACAAACAG
M
GAGCCAAATCATGAGTGAACTCCCATTCTAAATTCCTGCAAAGTGAATAAACTACCTTGGAATACAACTTACAAGGGAAGTGAAGGACATCTTCAAGGAG
Celera SNP ID:            hCV26971262
SNP Position Genomic:     84130
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,3)      total(A,3|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32494):
GGCCATAGGCAGGCTGGGGAAGGCTTCTATAAGAAAGTGACATTTTAGCAGATGCCTGAAGGAAGAATTGAAGTCAGAGTGAAGATAAAATTGCGTCACA
Y
AGAAGGAATGTCATAGACGGGAAAAATGTGTGTCTTTGGGAAACTGAAAAAGGGGAAAGGGCCACACCTTGGTGAGGGGACCAAGTGGCACAAGATGAGG
Celera SNP ID:            hCV26228286
SNP Position Genomic:     12374
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32495):
CCATTATCTCAGCTTAAAATATCCGTAATCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGCAAAAATCACAAGCATTCCTATACACCA
R
TAATAGACAAACAGAGAGCCAAATCATGAGTGAACTCCCATTCTAAATTCCTGCAAAGTGAATAAACTACCTTGGAATACAACTTACAAGGGAAGTGAAG
Celera SNP ID:            hCV26971263
SNP Position Genomic:     84115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32496):
ACAGTGTATAACATCTTTGTCTTACTCTTCTCTTTGGATAACTGGACTCCTTTACTTTTCTTCTTGGTATTTAAAAATGTTACTTTTACTAGAAAGTTTA
M
GAGCTTCAGAATCTAAGTTTACAAATGACATTGGTCACACATTTATTGCTGTTTATCCACTTTAAGAAACAGTTTTGCTATTTTGTAAAACAAATTGGGA
Celera SNP ID:            hCV26228287
SNP Position Genomic:     22481
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32497):
CTAAAAACTCTCAATAAACTAGGTATTGATGGAATATGTCCCAAAATAATAGGAGCTATTTATAACAAACCCACCACTAATATCATACTGAATGGGCAAA
W
GCTGGAAGCATGCGCTTTGAAAACCAGCACAAGACAAGGATGCCCTCTCTCACCACTCCTATTCAACATAGTATTGGAAGCTCTGGCCAGGGCAATCAGG
Celera SNP ID:            hCV26971264
SNP Position Genomic:     83823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32498):
CGCAGATGCTGAGCGGGTGCCGCACGAAATTCCTTGCCTTTGTGTATTCACAGCCTCGGCTGGCTATAGCCAAGACGTGGCGTTGATCCTAGTGAAAGGG
R
ACTTGGGGATCCGACAAACCTGAGTTCTGGTCCTAGAAACTTAACTGTGAGGCAACTTAGCACACCTGAGTCTGTTTGCTCTTCTGTAAAATGGGGACAC
Celera SNP ID:            hCV27524408
SNP Position Genomic:     6590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32499):
GATACCAAAACCTGGCAGAGACACAATAAAAAAGGAAAATTTCAGGCCAATATCCCTGATGAACATTGATGCAAAAATCCTCAATAAAATACTGGCAAAC
R
AAATTCAGCAGCACATCAAAAAGCTTATCCACAACGATCAAGCTGGCTTCATCCCTGAGATACAAGGCTGGTTCAACATACGCAAATCAATAAACGTAAT
Celera SNP ID:            hCV26971265
SNP Position Genomic:     83531
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32500):
TTGCACCAGCAAAGATGATCAAGTTGGTGTTTGGAGCAGCCCTCCCCCTCGGTGTATTTCTACTAATAAATGCACAGCTCCAGAAGTTGAAAATGCAATT
R
GAGTACCAGGAAACAGGAGTTTCTTTACCCTCACTGAGATCATCAGATTTAGATGTCAGCCCGGGTTTGTCATGGTAGGGTCCCACACTGTGCAGTGCCA
Celera SNP ID:            hCV25473166
SNP Position Genomic:     100865
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,20)   caucasian(A,39|G,1)   total(A,57|G,21)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,20)   caucasian(A,37|G,1)   total(A,55|G,21)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,19)   caucasian(A,39|G,1)   total(A,56|G,20)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32501):
GAAAAGATCTAAAATCGACGCCCTGACATCGCAATTAAAGAACTAGAGAAGCAAGAGCAAACAAATTCAAAAGCTAGCAGAAGAGAAGAAATAACTAAGA
W
CAGAGCAGAACTGAAGGAGATAGAGAAACAAAAAACCCTTCAAAAAATCAATGAATCCAGGAGCTGGTTTTTTGAAAAGATTAACAAAATAGACCACTAG
Celera SNP ID:            hCV26971266
SNP Position Genomic:     82918
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32502):
AGTGAGGAATAATACTGGTTAGACTTCTTCATTCAGAGCCCATTATTGCCTCTTGTTACTGCCTCGTACCCACTCCCATTTCTACACAAAACAGCCTTGT
M
CACAGTCAAAATTTCAAAGTTTCCATTGTTGTGATGTTTAGAATGATAAAATACTTAAGGCCATCCTCTGTGAAGTCTCCCTGAATTTTCCTATGTTCAC
Celera SNP ID:            hCV27978336
SNP Position Genomic:     120502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32503):
GAAAACAAAGACACAATGTACCAGAATCTCTGGGACACAGCCAAAGAGTGTTTAGAGCACTAAATTTATAGCACTAAATGCCCACAGGAGAAAGCAGAAA
A
GATCTAAAATCGACGCCCTGACATCGCAATTAAAGAACTAGAGAAGCAAGAGCAAACAAATTCAAAAGCTAGCAGAAGAGAAGAAATAACTAAGATCAGA
Celera SNP ID:            hCV26971267
SNP Position Genomic:     82822
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32504):
ATGGAGGAATATTTACCAAGCAAATGGAAAGCAAATAAAAGCAGGGGTTACAGTCCTAGTCTCTGATAAAACATACTTTAAACCAACGAAGATCAAAAGA
R
ACAAGAGCATTACATAATGGCAAAGGATGCAACAAGAAGAGCTAACTATCCTAAATATATATGCACCCAATACAGGAGCACCCAGATTCATAAAGCAAGT
Celera SNP ID:            hCV26971268
SNP Position Genomic:     82176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32505):
TTTGTCACCACCAGACTTGCCTTACAAGGGCTCCTGAAGGAAGCACTAAACATGGAAAGGAATAACTGGTACCAGCCACTGCAAAAACATACCAAATTGT
R
AAGACCATCAACAATATGAAGAAACCACATCAACTAATGGGCAAAATAACAAATCAGCATCATAATGACAGGATCAAATTTACACATAACAATTCTAACA
Celera SNP ID:            hCV26971269
SNP Position Genomic:     81837
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32506):
TGTGGCCTGGAGTTTACGTTCTTGGGAAGTTTTTTTTTTTCCAACCATTTTCCTGTACCATGTAGACTTTTGGCTGAAGTATAACATATATATATATATA
Y
ACACACACACACACACACACACACACACACATATATACATATATACTTATATGTATATATGTATATATACGTATATACGTATGCATACGTGTATGTATAT
Celera SNP ID:            hCV26971910
SNP Position Genomic:     24882
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32507):
ATGTGGCCTGGAGTTTACGTTCTTGGGAAGTTTTTTTTTTTCCAACCATTTTCCTGTACCATGTAGACTTTTGGCTGAAGTATAACATATATATATATAT
A
CACACACACACACACACACACACACACACACATATATACATATATACTTATATGTATATATGTATATATACGTATATACGTATGCATACGTGTATGTATA
Celera SNP ID:            hCV26971911
SNP Position Genomic:     24881
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32508):
TATGTGGCCTGGAGTTTACGTTCTTGGGAAGTTTTTTTTTTTCCAACCATTTTCCTGTACCATGTAGACTTTTGGCTGAAGTATAACATATATATATATA
T
ACACACACACACACACACACACACACACACACATATATACATATATACTTATATGTATATATGTATATATACGTATATACGTATGCATACGTGTATGTAT
Celera SNP ID:            hCV26971912
SNP Position Genomic:     24880
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32509):
GGTATGTGGCCTGGAGTTTACGTTCTTGGGAAGTTTTTTTTTTTCCAACCATTTTCCTGTACCATGTAGACTTTTGGCTGAAGTATAACATATATATATA
Y
ATACACACACACACACACACACACACACACACACATATATACATATATACTTATATGTATATATGTATATATACGTATATACGTATGCATACGTGTATGT
Celera SNP ID:            hCV26971913
SNP Position Genomic:     24878
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32510):
GAAGATAGTAGAGCAAAGCATTTAGGCATGAGGGAAAAGTGAGGAGCAACATTAGACAAGGCGAGCAGTTTGAGACTCCTTAAATTCTCAAAACATGTAC
Y
TAAATAATTTATGCTGAGAGATTCATAAATAATGTCATTTTTAAAAATTTATTATACTTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTTA
Celera SNP ID:            hCV26971914
SNP Position Genomic:     39415
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32511):
TAACACAGAATCTTGGCAGCCTCCAAATGCCAGCACCCAGTAAGAGTTAGGAGGGCATCGGGGTCCAGCAGACATTGAGAATTTTCGACAATTGCATGCA
R
AAAATAAGTCCTCTCTTCTTTCCTTTTTCCCCTAGAATATTCATGCTTACTCTTCAGCAGCCCAAATTGCCCTTTTGAGCCTTCTTCACGCCATCACAGA
Celera SNP ID:            hCV26971916
SNP Position Genomic:     38038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32512):
AAAATCAGCATTTTTTAAAAAAATCCAGCCATATATCATCTGGTTAATCATGGGCTCTGGGCTCTGAGCTGGGGTCCTGATGGCTGCTGTTAATATTTCC
R
GCAAGCTCATTACCTTGTTTATGTCCACCTAGTGCTCTTCGCAGGGTGCACATCTCTACACGGGAGCTGACCGGCATGGGCAACAAAGCACCTGATCCCA
Celera SNP ID:            hCV26971917
SNP Position Genomic:     37832
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32513):
ACAATTAGCTGTACTTTGTTTCTCTCTCCCCAGTATGTCAGCCACCTCCAGATGTCCTGCATGCTGAGCGTACCCAAAGGGACAAGGACAACTTTTCACC
Y
GGGCAGGAAGTGTTCTACAGCTGTGAGCCCGGCTACGACCTCAGAGGGGCTGCGTCTATGCGCTGCACACCCCAGGGAGACTGGAGCCCTGCAGCCCCCA
Celera SNP ID:            hCV26971918
SNP Position Genomic:     36705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:32514):
AGCTTTCATGTTTTTTCTAGAAATCTTTTGTCCAAGTCCTCCAGTTATTCCTAATGGGAGACACACAGGAAAACCTCTGGAAGTCTTTCCCTTTGGGAAA
R
CAGTAAATTACACATGCGACCCCCACCCAGACAGAGGGACGAGCTTCGACCTCATTGGAGAGAGCACCATCCGCTGCACAAGTGACCCTCAAGGGAATGG
Celera SNP ID:            hCV26971919
SNP Position Genomic:     42145
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:32515):
GGAGGTAGGGTGGAAGTCTCTCTGCTAACTTTGATATTCCTGTGGTTTTTCTCTCCAGGTCACTGTAAAACCCCAGAGCAGTTTCCATTTGCCAGTCCTA
Y
GATCCCAATTAATGACTTTGAGTTTCCAGTCGGGACATCTTTGAATTATGAATGCCGTCCTGGGTATTTTGGGAAAATGTTCTCTATCTCCTGCCTAGAA
Celera SNP ID:            hCV25472944
SNP Position Genomic:     78747
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,28|T,6)   total(C,63|T,9)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,2)   caucasian(T,2)   total(C,10|T,4)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   JBIC-allele(T,565|C,930)   total(C,930|T,565)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32516):
TACTCTCAGTACCTCATATAAGTGGAATCATACAGTACCTGTCCTTTTGTGACTTATTTCACTTAGCATAATGTCCTCAAGGTTCATTAATGTTGTAGCA
Y
GTGTCAGAATTTCTTTCCTTTTTAAGGAAAGGAAGAAATTCATTGTGTGTATATGCAATTTTGTTTACATTTTGTTTATCCATTTATCTGTCGATAGACA
Celera SNP ID:            hCV27964364
SNP Position Genomic:     437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:32517):
GTGTAAAAAACCAATTAGGGAAGCTCAGGTATATGTAAACTAAATGAACAGTGAGGATCAATCAGAGGAAAGCACACCAAATGGGAAGAGAGGTTCTCAA
R
CCAGTCCATGGATTTACCTGGAACTTGTAGCTAGGCTTTAAACTGTCTTCAGCTTGAAGGTCGGGTTTCACCGGGATCTGCCCCATCTGCCTAGGATTTG
Celera SNP ID:            hCV16127010
SNP Position Genomic:     104804
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32518):
CCCTAAGCATGAACGAACAGGACTATAAATAAAGGCAGATGTTGAGTCAAATACTCTCCAAATAATATGCCCTCTCGTGACAAAGGACTGTCTTATTTAA
K
GGCTTGTGTTTTTGATGGCTCATCTTGTCTACTGATGCCACAATAGCTGGCTTAGCAGCTGTGTAGGAGGTGTTATGGTTGATACATAGGGACAGAGAAG
Celera SNP ID:            hCV927640
SNP Position Genomic:     70522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   TSC_42_A(G,25|T,58)   TSC_42_C(G,12|T,71)   TSC_42_AA(T,25|G,58)   total(G,95|T,154)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32519):
TGCCATGGCAACGACCTAGAAGTTACCGCCCCTTTCCTGGAAAGTTCTAAATAACTCGCCCCTCAATCTGCATTGATCCACTCCTTAATTTACATGTAAC
Y
GAAATGGGTTTACAGCAGTATAAACACAGTTGCCTGCCAGGAACCCTTATGTTGCTGACTCTGGGTGTGCTGCCTGTGAGTTAGCCCTGCTCTGCAAGAA
Celera SNP ID:            hCV12080030
SNP Position Genomic:     70982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32520):
GCACCATGACAGTTTACAAATGCCATGGCAACGACCTAGAAGTTACCGCCCCTTTCCTGGAAAGTTCTAAATAACTCGCCCCTCAATCTGCATTGATCCA
Y
TCCTTAATTTACATGTAACTGAAATGGGTTTACAGCAGTATAAACACAGTTGCCTGCCAGGAACCCTTATGTTGCTGACTCTGGGTGTGCTGCCTGTGAG
Celera SNP ID:            hCV12080031
SNP Position Genomic:     70962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32521):
CCTTGTTAGTGAGATGTGGCTACTGAACTACCAATCTTCTCTTTTAATAGCTGCACTCTGCAATGACGATTTTTAAGCCCTCTGGTAAGCATAAGATATA
R
CAAAGGAAATTGCCCCATATCTAACAAGTGCTCTGGAACTGTCCTTTCCACAGTGTGTCAGCCGCCTCCAGAAATCCTGCATGGTGAGCATACCCTAAGC
Celera SNP ID:            hCV25598588
SNP Position Genomic:     102944
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,24)   caucasian(A,7|G,33)   total(A,15|G,57)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,584|G,917)   total(G,917|A,584) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32522):
TGTTTGGAGCAGCCCTCCCCCTCGGTGTATTTCTACTAATAAATGCACAGCTCCAGAAGTTGAAAATGCAATTAGAGTACCAGGAAACAGGAGTTTCTTT
W
CCCTCACTGAGATCATCAGATTTAGATGTCAGCCCGGGTTTGTCATGGTAGGGTCCCACACTGTGCAGTGCCAGACCAATGGCAGATGGGGGCCCAAGCT
Celera SNP ID:            hCV25598589
SNP Position Genomic:     100892
SNP Source:               Applera
Population(Allele,Count): african american(T,30)   caucasian(A,1|T,39)   total(A,1|T,69)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,1|T,39)   total(A,1|T,77)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,1|T,39)   total(A,1|T,77)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32523):
ATGGAACCAAGTTGGAAAACACTCTTCAAGATATTATCCAGGAGAACTGCCCCAACCTAGCAAGACAGTCCAGCATTCAAATTCAGGAAATACAGAGAAC
R
CCACAAAGATACTCCTTGAGAAGAGCAACCCCAAGACACGTAATTGTCAGATTCACCAAGGTTGAAATGAAGGAAAAAAATGTTAAGGGCAGCCAGAGAG
Celera SNP ID:            hCV26971270
SNP Position Genomic:     81429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32524):
CCACTGCCTGAGCCACTTCTAGAAGTAGAACAGATTCTGCCATCATCCTGCTTTTTAATTTGGTATATATGCCTCCAATTGGCAGAACCTAACCAGAGCC
Y
AGCTATCAAGGAAGATGAACGATTTATTTTTAAGGCCTCCATTGTTAGCTGTCAAAAGACAGTGCAGAAGTGTGAGGCTGGGGGCCAACAGAAATTTAAC
Celera SNP ID:            hCV27537809
SNP Position Genomic:     54177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32525):
AAGAATGAAAAGGAATGAACAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAACCTACGTTTGATTGGTGTACCTGAAAGTGACGGGGAGAAT
R
GAACCAAGTTGGAAAACACTCTTCAAGATATTATCCAGGAGAACTGCCCCAACCTAGCAAGACAGTCCAGCATTCAAATTCAGGAAATACAGAGAACACC
Celera SNP ID:            hCV26971271
SNP Position Genomic:     81331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32526):
GCACAAGAACTTCATGAAGCATACACAAGTATCAATAGCCGAATCGATCAAGTGAAACAAAGGATATCAGAGATTGAAGATCAACTTAATGAAATAAAGC
W
TGAAGACAAAAAAAGAATGAAAAGGAATGAACAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAACCTACGTTTGATTGGTGTACCTGAAAGT
Celera SNP ID:            hCV26971272
SNP Position Genomic:     81218
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,6)   total(A,4|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32527):
AAAGAACATAAATGACCTGATGGAGCTGAAAAACACAGCACAAGAACTTCATGAAGCATACACAAGTATCAATAGCCGAATCGATCAAGTGAAACAAAGG
W
TATCAGAGATTGAAGATCAACTTAATGAAATAAAGCATGAAGACAAAAAAAGAATGAAAAGGAATGAACAAAGCCTCCAAGAAATATGGGACTATGTGAA
Celera SNP ID:            hCV26971273
SNP Position Genomic:     81181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32528):
CTTTTAAAAACTCTGGAGTGGACCTCCATCAAACTCCAGCAGACCTGCAGCAGAGGGGCCTGACTGTTAGAAGATAAACTAACAAACATAAAGGAATAGC
R
TCAACATTAACAAAAAGGACGTCCACATGAAAACCCCATCCAAAGGTCACCAACATCAAAGACCAATGATAGATAAATCCACGAAGATGAGGAAAAACCA
Celera SNP ID:            hCV26971274
SNP Position Genomic:     80729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32529):
AGACATTATGGGGTTCTTGCTCTTGACTTCTCCTTGGGACAAGTAGCCACACCAAAAGCCATTGCCTCAACTGAGAAGGGGCTTTTAAAAACTCTGGAGT
R
GACCTCCATCAAACTCCAGCAGACCTGCAGCAGAGGGGCCTGACTGTTAGAAGATAAACTAACAAACATAAAGGAATAGCATCAACATTAACAAAAAGGA
Celera SNP ID:            hCV26971275
SNP Position Genomic:     80648
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32530):
AAAAAGAAAATACCCTCATGAACCCAACATATACCTGAAATCGCTTACTAGAGTGTAAACATTGGTTAAGCTATTTTAACCTTTGATTAGTTTATCTATA
R
TTCTTTTAAGCTGTAATATCCTCTTCCCAAATTCAAAGCAAATTAGAAAAGGGAAGGAGTGTCCCCAAATAGAGGCATTCCAAGGAATAAATGTGTTTCT
Celera SNP ID:            hCV26971277
SNP Position Genomic:     75207
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32531):
TAGTTTGCCCCATGGGATTATCTATTGTTTGTCCCGCTGTTTGTGCCCGCTTTTGATAGAAATTGTTCTTTGTTGGAATAGATACAAGCAATGTTTTGGG
R
AAAAATAAACATGAGAATCATGTGTTTTGGGTACCATCCTATAAATATTTATGAGGAGAGTCTGTGCTATAAATAGAGAGAAATGCTTCATAGAAATAAA
Celera SNP ID:            hCV26971278
SNP Position Genomic:     73474
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32532):
ATATGTAGACGTATACATATGGACACGTATATGTATACGTATACATATGGACACGTATATGTATACGTATACATGTACATGTGTATATGTATACGTATAC
R
TGTCCATATGTATACGTATATGTATACATATGTATATATACATATGTATATACATATATATGGAACATATGTATATATACATATGTATATACATATATAC
Celera SNP ID:            hCV26971279
SNP Position Genomic:     72671
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32533):
AACATTAGACAGGGTGAGCAGTTTGAGACTCCTTAAATTCTCAAAACATGTACCTAAATAATTTATGCTGAGAGATTCATAAATAATAAGTCATTTTTTT
W
AAATGAGCCTCATATGTTCAATAATCAGTAGACTACTGATTTCTCCTAGTCTACCCATGTATAATTTCCCCAATGGAAGATAGAACTTTGCTTCAATTCT
Celera SNP ID:            hCV26592872
SNP Position Genomic:     58100
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,5)      total(A,4|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32534):
GAGGAAACTGGAACATATATTAACTGGCAAGTTCAAAGGCAAGTATAACTAGTGGTTATGAATATATAGGTAACACATTAAGCAAAAAATATCAGCCAGA
M
ACGGTGGCTCACGTGTGTAATCCCAGCACCTTTGGGAGGTTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTGGAGACCAGCCTGGACAACATGGTGAAA
Celera SNP ID:            hCV26592873
SNP Position Genomic:     55921
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32535):
CACCTCAATATTACATCACCAGGCATTGATTAGTCCAGGGAAACACTGGGTGATGAGCCCTGAAAATGGACATTACAGCATCAGAGTATTTACAAACTCC
Y
TAAAGAAGTCATTTTTCTATTCCAATCCCCCATTTGATGCTTGAGAAAGCTGAAGTCCAGAAAAGGGAACTGATCTGCTCAAAGACAAACCGAAATTATT
Celera SNP ID:            hCV26971920
SNP Position Genomic:     35747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32536):
TGAAATTACACTCTCATTATGGTGACAGTAGGTCTTTCAGATTTTGTTCGACAGTTTCCCACCTTCTCACTGAAGTGAAATGAATGACTAGGCAGCACCT
T
GCTACATAGCATGAAGAGAGGAGACCCATAGTTCTTTACCACCCTATGTCAGGTGGCCGCTGAGAGAAGACTTGAAAGGAGATGAGCATAGATGTATGGA
Celera SNP ID:            hCV26592874
SNP Position Genomic:     54704
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32537):
CTGTCATCTCCTTAGCATATTTTCAGCAACACCAATCATAGCACCCTGTAATTGCAGAATACCTCTGGTGAAACTCCTGAATGAAACTTAGAGCTTTCAT
R
TTTTTTCTAGAAATCTTTTGTCCAAGTCCTCCAGTTATTCCTAATGGGAGACACACAGGAAAACCTCTGGAAGTCTTTCCCTTTGGGAAAACAGTAAATT
Celera SNP ID:            hCV26971921
SNP Position Genomic:     42054
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32538):
TCCTAAGAATGTAGGCTCCTTCCTCAGCGCTGTGTCCCCAGGATCCTGATGAAGGGCTGACACAGGATAAGTGCTCAATTAATATATATTGACTAAATGA
W
TAAATAACCCTTCAAAATGGTTATTTTTCTTCTTCAAATGTTTTGCTACTTCATTAAAGTTGTAAAGTTTCTACTGTCCAGGAACTGTTACTATCCGGAA
Celera SNP ID:            hCV26592875
SNP Position Genomic:     58919
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32539):
TACTGTCATCTCCTTAGCATATTTTCAGCAACACCAATCATAGCACCCTGTAATTGCAGAATACCTCTGGTGAAACTCCTGAATGAAACTTAGAGCTTTC
R
TGTTTTTTCTAGAAATCTTTTGTCCAAGTCCTCCAGTTATTCCTAATGGGAGACACACAGGAAAACCTCTGGAAGTCTTTCCCTTTGGGAAAACAGTAAA
Celera SNP ID:            hCV26971922
SNP Position Genomic:     42052
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32540):
CTCAAAGACAAACTGAAATTACTTTTTCCATTTTATAACAGTTTTATGTAATTTATTTGAGATCCAAATGTGTTTTGATTTCCCAAGATCAGATCAACTA
Y
ATTAAGAGAGAGCCTGAGATGCCGTTACAATATGTTGTGTGAAATTACACTCTCATTATGGTGACAGTAGGTCTTTCAGATTTTGTTCGACAGTTTCCCA
Celera SNP ID:            hCV27533814
SNP Position Genomic:     54564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32541):
AGATCTATCAATTACCTTTGAGTATAATAATGGTTGATACAAAATGAGTGATTCCTCTGCCCAGGCACTATAATACAGGCTACATGTGAATTTTAATCCT
K
AAAACAAAGTTATTAGGTAGTTCCCAGTTGTTCTATGTTTGTCTGTTTTGTTTTGCTTGAGATACTGTCTTGATCTGTCACTCAGGTTGGACTGCAGTGG
Celera SNP ID:            hCV26592876
SNP Position Genomic:     52880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32542):
CTACTGTCATCTCCTTAGCATATTTTCAGCAACACCAATCATAGCACCCTGTAATTGCAGAATACCTCTGGTGAAACTCCTGAATGAAACTTAGAGCTTT
Y
ATGTTTTTTCTAGAAATCTTTTGTCCAAGTCCTCCAGTTATTCCTAATGGGAGACACACAGGAAAACCTCTGGAAGTCTTTCCCTTTGGGAAAACAGTAA
Celera SNP ID:            hCV26971923
SNP Position Genomic:     42051
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32543):
TGAGATCCAAATGTGTTTTGATTTCCCAAGATCAGATCAACTACATTAAGAGAGAGCCTGAGATGCCGTTACAATATGTTGTGTGAAATTACACTCTCAT
Y
ATGGTGACAGTAGGTCTTTCAGATTTTGTTCGACAGTTTCCCACCTTCTCACTGAAGTGAAATGAATGACTAGGCAGCACCTTGCTACATAGCATGAAGA
Celera SNP ID:            hCV27533815
SNP Position Genomic:     54621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32544):
TGCTGAAATTGCGAAGCAAAGCTCAACCTGGGCAAGGGATATGATGTTTCTTTGGGGTTCTTATAAACAGATCTATCAATTACCTTTGAGTATAATAATG
K
TTGATACAAAATGAGTGATTCCTCTGCCCAGGCACTATAATACAGGCTACATGTGAATTTTAATCCTGAAAACAAAGTTATTAGGTAGTTCCCAGTTGTT
Celera SNP ID:            hCV26592877
SNP Position Genomic:     52812
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,6)   total(G,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32545):
AGAGAGAGAGAGCAAGGCAGAGGTGCTACACACTTTGGAACAAGCAGATCTCGAGAGAACTCTATCACAAGACAGCACTAGGGTGATGGTGCTCAACCAT
W
AGAAACCACCTCCATGATCCAGTCACTTCCCACCAGGCTCCTTCTCCAACACTGGGAATTACCATTTGACATGAGATTTGGGAGGGGACATAGAGCCAAA
Celera SNP ID:            hCV26971924
SNP Position Genomic:     35046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32546):
GGGAGAAAGGTGTTTGAGCTTGTGGGTGAGCCCTCCATATACTGCACCAGCAATGACGATCAAGTGGGCATCTGGAGCGGCCCGGCCCCTCAGTGCATTA
Y
ACCTAACAAATGCACGCCTCCAAATGTGGAAAATGGAATATTGGTATCTGACAACAGAAGCTTATTTTCCTTAAATGAAGTTGTGGAGTTTAGGTGTCAG
Celera SNP ID:            hCV26592878
SNP Position Genomic:     52364
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:32547):
GCTGGTCTCGAACTCCTCAGCTCAAGCAATTCACCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGTGCCCGGCCTCTATGTTTTA
Y
AGAGAATATGTGCCTTAGACACATCAGATAACATTCTGAGACAGTAACTTGCAGACAAAACTGGATTGCAAGTCCACCTCACTCCAGAGCCTTGGCTTTG
Celera SNP ID:            hCV26971925
SNP Position Genomic:     34584
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32548):
AGGATTGCTTGACCTGGGAAGTGGAGGTTGCAGTGAGCCATGATCGTGCCACTACACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCCCAAGGTTTTGT
Y
TTGGTTAACTTGCTGTCCCTTTTTCCAGGAATTCCTTGTGGGCTACCCCCCACCATCGCCAATGGAGATTTCATTAGCACCAACAGAGAGAATTTTCACT
Celera SNP ID:            hCV26592879
SNP Position Genomic:     52122
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32549):
GCTGTTTGAGCTTGTGGGAGAACGGTCAATATATTGCACCAGCAAAGATGATCAAGTTGGTGTTTGGAGCAGCCCTCCCCCTCGGTGTATTTCTACTAAT
R
AATGCACAGCTCCAGAAGTTGAAAATGCAATTAGAGTACCAGGAAACAGGAGTTTCTTTACCCTCACTGAGATCATCAGATTTAGATGTCAGCCCGGGTT
Celera SNP ID:            hCV25598593
SNP Position Genomic:     100832
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,40)   total(A,71|G,7)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,40)   total(A,71|G,7)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,38)   total(A,69|G,7)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32550):
TGGAGACTTCTACAGCAACAATAGAACATCTTTTCACAATGGAACGGTGGTAACTTACCAGTGCCACACTGGACCAGATGGAGAACAGCTGTTTGAGCTT
R
TGGGAGAACGGTCAATATATTGCACCAGCAAAGATGATCAAGTTGGTGTTTGGAGCAGCCCTCCCCCTCGGTGTATTTCTACTAATAAATGCACAGCTCC
Celera SNP ID:            hCV25598594
SNP Position Genomic:     100745
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,39)   total(A,2|G,76)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,39)   total(A,2|G,76)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32551):
TGTTTTACCATACTCTTCCTTCTCTCAGTCATATCTTGTGAGCCACCTCCAACCATATCCAATGGAGACTTCTACAGCAACAATAGAACATCTTTTCACA
R
TGGAACGGTGGTAACTTACCAGTGCCACACTGGACCAGATGGAGAACAGCTGTTTGAGCTTGTGGGAGAACGGTCAATATATTGCACCAGCAAAGATGAT
Celera SNP ID:            hCV25598595
SNP Position Genomic:     100683
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,37|G,3)   total(A,74|G,4)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,35|G,3)   total(A,64|G,4)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32552):
GGGTAGAGATTCCTTTTTCTCCCTATTCCCAAGGGTAGAAAGACTGTAATTTTTTAGCTTATGTTTGTCTAAACTTTCTGTTAAGTCGCTATCAACAGCT
R
GACTCACTTGTGCACTGGGACACGACTGAGTTTGTCCTGTGCAATTGTGGTAGAATTGACCTCGAGGTGCCCAATCTATAATAGTTCCGAATTCACTGTT
Celera SNP ID:            hCV26971207
SNP Position Genomic:     128550
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32553):
CACCTCAATATTACATCACCAGGCATTGATTAGTCCAGGGAAACACTGGGTGATGAGCCCTGAAAATGGACATTACAGCATCAGAGTATTTACAAACTCC
Y
TAAAGAAGTCATTTTTCTATTCCAATCCCCCATTTGATGCTTGAGAAAGCTGAAGTCCAGAAAAGGGAACTGATCTGCTCAAAGACAAACTGAAATTACT
Celera SNP ID:            hCV27537810
SNP Position Genomic:     54386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32554):
CATACACTGGCATGGTATTCAGCCATAAAAAATGACAGCATAAAGAAGCACTTAATGACTAGAAAGAGATGTATTTTACGTGGAAAAAGAATCAGATGAA
Y
GGCATATATGGCAAGATCTCACTTTATTAAAAAATAATACACCTATGTAGTGAGGGCCAGGCTGAGGCTGAGAGAAATACAGTGTATAACATCTTTGTCT
Celera SNP ID:            hCV27915417
SNP Position Genomic:     22302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32555):
TGGTGGCAGTAATAACCGGGGAACAGATGAGCTGGAGGCCTCATCAGGAGGGGTGTCCCTTGGTGGAAGGACACCATTCCCGGCCTTAAAAGGAGACGCT
Y
CAGCACGGCTGGGGAAGCACGTGGATACCTTGTACTAAATCCACTACTGCAGCTCATTCTTAACTGTAAGTAGAAGAGGAGGACATGCTTTCTGAAGCTG
Celera SNP ID:            hCV26971209
SNP Position Genomic:     125992
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32556):
TGTACATGTGTATACATATGTGTATACATGGACACGTATATGTAGACGTATACATATGGACACGTATATGTAGACGTATACATATGGACACGTATATGTA
K
ACGTATACATATGGACACGTATATGTATACGTATACATATGGACACGTATATGTATACGTATACATGTACATGTGTATATGTATACGTATACATGTCCAT
Celera SNP ID:            hCV26971280
SNP Position Genomic:     72578
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32557):
GTAACCTAAATATTTTAAACTATGGTTTGGAAATAATCTACTAGTAGGAAAAAGATGTGTTCAAATGACCATTATAAAGAATTCCCTAAGAAACATAAAA
Y
AGCTATGCAGAATGAAAATAAGTATATCCATACACTGGCATGGTATTCAGCCATAAAAAATGACAGCATAAAGAAGCACTTAATGACTAGAAAGAGATGT
Celera SNP ID:            hCV12082945
SNP Position Genomic:     22173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32558):
TATGGACACGTATATGTATACGTATACATGTACATGTGTATACATATGTGTATACATGGACACGTATATGTAGACGTATACATATGGACACGTATATGTA
K
ACGTATACATATGGACACGTATATGTAGACGTATACATATGGACACGTATATGTATACGTATACATATGGACACGTATATGTATACGTATACATGTACAT
Celera SNP ID:            hCV26971281
SNP Position Genomic:     72550
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32559):
TGTATATATATGTATACATACGTATACATATGGACACGTATATGTATACGTATACATGTACATGTGTATACATATGTGTATACATGGACACGTATATGTA
K
ACGTATACATATGGACACGTATATGTAGACGTATACATATGGACACGTATATGTAGACGTATACATATGGACACGTATATGTATACGTATACATATGGAC
Celera SNP ID:            hCV26971282
SNP Position Genomic:     72522
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32560):
TGAACCTGGGAGGCGGGGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCGTGGGGAACAGAGTGAGGATCTGTTAAAACAAACAAACAAACAAA
M
AAAAAACACATGGACTCTAATAATACATGGATACATTTAGTGAAATAAGGTTAACTGAGTAGAGCAGCACTCATAACATTTTAAAACTATAAGAACATGT
Celera SNP ID:            hCV26971285
SNP Position Genomic:     68586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32561):
CGATGGGTGGGCTGAGCGCGCGACCCGGCAGGGCGGCGGGTGTAGGATCCTTCTGCGCACTGGAGACCCTCGGTGCTTCTGGGTAAGCGTGGAGTTCCCA
S
GTGCAGGGGCTTAAGTCGTGACGAGCGCAGTGGAAGGCGCAGATGCTGAGCGGGTGCCGCACGAAATTCCTTGCCTTTGTGTATTCACAGCCTCGGCTGG
Celera SNP ID:            hCV27538690
SNP Position Genomic:     6452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32562):
TGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAAAATCGCTTGAACCTGGGAGGCGGGGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAG
Y
GTGGGGAACAGAGTGAGGATCTGTTAAAACAAACAAACAAACAAAAAAAAAACACATGGACTCTAATAATACATGGATACATTTAGTGAAATAAGGTTAA
Celera SNP ID:            hCV26971286
SNP Position Genomic:     68540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32563):
CGAGATTGGGCGCATTCAGGGTGGTATGGCTGTAAATCAGTATCCAGTTCTTTTTATTACTTCTGAATCTGTAAGTATCATGTTTATTATATGTAATATT
R
TATATTTGTGCTTTGTCTTTATTAGTTCTTCCAGAGCTTTTGTTCTTATTATTTAATAAAGATGTTATACTGAGCCACGTGTGGTGACTCAAACTTGTAA
Celera SNP ID:            hCV26971287
SNP Position Genomic:     67780
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   no_pop(A,-|G,-)   TSC_42_A(A,0|G,84)   TSC_42_C(A,0|G,84)   TSC_42_AA(A,16|G,67)   total(G,235|A,16)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32564):
TAGATGAGAATAGTATTTTCAATATTTACTTCTGGTAATTTGGAATTAAAAAAAAAACTTTTGGGAAAATTTACAATAAAGTATGATTTTAACAAACCAG
K
CTAGGCGTGGTGGCTCACGCTTATAATCCCAGCACTTTGAAAAGCAGAGGCATGCAGATTGCTTGAGGCCAGGAGTTCAAGACTAGCCTGCCCAACATGG
Celera SNP ID:            hCV26592880
SNP Position Genomic:     51832
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,6)   total(G,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32565):
TTACAAAGAATGGATCTCATCCCTCTTGGAAATGGTATCCTTCTGATATTTGAAGAATCTAGTCATATCCTTAAAATGGCTCACAGCATTCCAAACTTCC
R
CCTTCACCTAGAAATGCTTTTTTTTTTCTTATCTCAGTCTAATGTATTTTAAACTAGTCTTTAGCTCATTTAACCAGCCCCCAATGTCCTCTTCTGTTGG
Celera SNP ID:            hCV26971288
SNP Position Genomic:     67160
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32566):
ACTTTATAAAAATGTACCTATGTGTTAGCAAAGATTAAAAGCAAATAATGAATGTAAAAATAGCTATAGTTTAGTGACTCATGAGATTTCTGTCATTCAT
W
ATTTAAACTGACTGTTATTTATCCTGCTCTTCCTTTTTCCAGGAATTCCTTGTGGGCTACCCCCCACCATCACCAATGGAGATTTCATTAGCACCAACAG
Celera SNP ID:            hCV25652295
SNP Position Genomic:     33453
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,40)   total(A,1|T,77)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,40)   total(A,1|T,77)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32567):
AAAGTGGACTCTAATAATACATGGACACATTTAGTGAAATAAACTTAACTGAGTAGAGCAGAACTTATAATATTTTAAAACTGTAAGAACATGTCTGTAC
M
TTAGCAAATAGTAGATGAGAATAGTATTTTCAATATTTACTTCTGGTAATTTGGAATTAAAAAAAAAACTTTTGGGAAAATTTACAATAAAGTATGATTT
Celera SNP ID:            hCV26592881
SNP Position Genomic:     51720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32568):
TGAAATCTCTTTCCCCATTCACCCCACCATTGAATCCTAGAGTTGTCCTCCTAGAATTACAAAGAATGGATCTCATCCCTCTTGGAAATGGTATCCTTCT
S
ATATTTGAAGAATCTAGTCATATCCTTAAAATGGCTCACAGCATTCCAAACTTCCGCCTTCACCTAGAAATGCTTTTTTTTTTCTTATCTCAGTCTAATG
Celera SNP ID:            hCV26971289
SNP Position Genomic:     67104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32569):
CGCTTGAACCTGGGAGGCAAGGGCTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGGAACAGAGTGAGGATCTGTTAAAAAAAAAAAAAAAA
A
GTGGACTCTAATAATACATGGACACATTTAGTGAAATAAACTTAACTGAGTAGAGCAGAACTTATAATATTTTAAAACTGTAAGAACATGTCTGTACATT
Celera SNP ID:            hCV26592882
SNP Position Genomic:     51622
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,8)   total(A,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32570):
GTGGGCAGATCACTTGAGGTCAGTAGTTTGAGACCACCCTGGCCAACATAATGAAACCCCGCCTCTACTAAAAATACAAAAGTTAGCCGAGTTTGGTGGC
R
CATGCCTGAAATCCCAGCTACTCAGGAGGCTGAGGCAGGAAAATCGCTTGAACCTGGGAGGCAAGGGCTGCAGTGAGCCAAGATCACGCCACTGCACTCC
Celera SNP ID:            hCV26592883
SNP Position Genomic:     51477
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,9)   total(G,9|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32571):
GTAAAAAGAGAAAATAAATCATCAACAGACCTAGACATTTTCAAAAGCAAAGCCATCTGAATCCATTTGGAGTTTTTTTTTTTTTTTTATCATGGCCTGA
Y
TATGTTTCAATTCACTGTGACAGGGCTATTGTTATCACTGAGATTGATGATCAATATCAATAAGTAATCAGTGAAAGGTTTCACCTATTTAAGATGATTA
Celera SNP ID:            hCV26592884
SNP Position Genomic:     58690
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32572):
CCTGACCCAGAGAGTAAAAAGAGAAAATAAATCATCAACAGACCTAGACATTTTCAAAAGCAAAGCCATCTGAATCCATTTGGAGTTTTTTTTTTTTTTT
T
ATCATGGCCTGACTATGTTTCAATTCACTGTGACAGGGCTATTGTTATCACTGAGATTGATGATCAATATCAATAAGTAATCAGTGAAAGGTTTCACCTA
Celera SNP ID:            hCV26592885
SNP Position Genomic:     58677
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32573):
ATATACCATGCTAATGCTAGTCACAGAAAGCAGGAATAGCTGTGTTAATTTCAAACACAGCAGACTTCAGACCAAGAAAAATTATTAGGGATAAAGAGGG
R
CATCATATAATGATAAAGGGGCCAATTATCCAAGAAGACGTAACAATATCCCATATGTATGCACCTGATGGAGAGACAAAATACGTGAGGCAAAACCCAT
Celera SNP ID:            hCV26228303
SNP Position Genomic:     9123
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32574):
CGAGATTGGGCGCATTTAGGGTGGTATGGTTGTAGATCAGTATCCAGTTCTTTTTATTATTTCTGAATCTGTAAGTATCATGTTTATTATATGTAATATT
R
TATATTTGTACTTTGTCTTTGTTAGTTCTTCCAGAGCTTTTGTTCTTATTATTTAATAAAGATGTTATACTGAGCCACATGTGGTGACTCAAACGTGTAA
Celera SNP ID:            hCV26592886
SNP Position Genomic:     50824
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_AA(A,16|G,67)   total(G,67|A,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32575):
AATCTGGTGGCAGTAATAACCGGGGAACAGATGAGCTGGAGGCCTCATCAGGAGGGGTGTCCCTTGGTGGAAGGACACCATTCCCGGCCTTAAAAGGAGA
S
GCTTCAGCACGGCTGGGGAAGCACGTGGATACCTTGTACTAAATCCACTACTGCAGCTCATTCTTAACTGTAAGTAGAAGAGGAGGACATGCTTTCTGAA
Celera SNP ID:            hCV26971210
SNP Position Genomic:     125988
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32576):
TCTTGAAAGGCCCCATGCACTATAAACCTCAGAAGTGAACATATATTTTAACCTACTTCTTAAAATTTATACTTAGGAAATAATCACACACTTTTTAAAG
Y
AGTTTGGTATAAACTTTTCATTGCAGCATTATTTATATTAGTTAAAATGTTAGAGTAACCTAAATATTTTAAACTATGGTTTGGAAATAATCTACTAGTA
Celera SNP ID:            hCV26228307
SNP Position Genomic:     22018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32577):
ATACAGGTAACAGGTGATGCTGGGAAGTCCTGTGAAATGGAAGGAGAACGAAGATGAGGAATCTGGTGGCAGTAATAACCGGGGAACAGATGAGCTGGAG
G
CCTCATCAGGAGGGGTGTCCCTTGGTGGAAGGACACCATTCCCGGCCTTAAAAGGAGACGCTTCAGCACGGCTGGGGAAGCACGTGGATACCTTGTACTA
Celera SNP ID:            hCV26971211
SNP Position Genomic:     125929
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,4)   total(G,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32578):
TGTGTGTTGGACATGAGAGTATTTGGAGGAATACAGGTAACAGGTGATGCTGGGAAGTCCTGTGAAATGGAAGGAGAACGAAGATGAGGAATCTGGTGGC
M
GTAATAACCGGGGAACAGATGAGCTGGAGGCCTCATCAGGAGGGGTGTCCCTTGGTGGAAGGACACCATTCCCGGCCTTAAAAGGAGACGCTTCAGCACG
Celera SNP ID:            hCV26971212
SNP Position Genomic:     125899
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32579):
GGCAGGCTCCAAAGACATAGCTGTGTGTTGGACATGAGAGTATTTGGAGGAATACAGGTAACAGGTGATGCTGGGAAGTCCTGTGAAATGGAAGGAGAAC
R
AAGATGAGGAATCTGGTGGCAGTAATAACCGGGGAACAGATGAGCTGGAGGCCTCATCAGGAGGGGTGTCCCTTGGTGGAAGGACACCATTCCCGGCCTT
Celera SNP ID:            hCV26971213
SNP Position Genomic:     125878
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32580):
AGGGACCTATTAGATGGGACATGGGCAGGGGCACTCCTTTATTGCTTAAAATGCAAGACTAAATTGGTGATGCCTTTCTAGAAAGGAAGTATGAAGATAC
R
AAAATCCATCATTCCTCCCAATTTTGTACTGGGTGAACAGTAATTGGAAGCATTCTAGAAGGAACTGTCCATTGTGAAATCTTAGTTGCATACTTTAGAT
Celera SNP ID:            hCV27502723
SNP Position Genomic:     36299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32581):
GTTCTGGGGCGGAGTAAAGAGGCAGGCTCCAAAGACATAGCTGTGTGTTGGACATGAGAGTATTTGGAGGAATACAGGTAACAGGTGATGCTGGGAAGTC
Y
TGTGAAATGGAAGGAGAACGAAGATGAGGAATCTGGTGGCAGTAATAACCGGGGAACAGATGAGCTGGAGGCCTCATCAGGAGGGGTGTCCCTTGGTGGA
Celera SNP ID:            hCV26971214
SNP Position Genomic:     125858
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32582):
CATTCATGTAGTTGCTTATTTATTCTTCAAACATTCTTAGCCACTTACAATGTGCCATACATTGTGCTTATGTGTGTTTTCTTTTCCATGCTAAATTAAC
Y
TCTGATGAATAGAGACAATTTTTTAAAGATCTCCCCAATCTCTGAGTATAATCAAATGAGAAATGTTCAGTAATCAACTGAGCACGTTAATCAATTGAGA
Celera SNP ID:            hCV26971215
SNP Position Genomic:     124939
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32583):
CATCATTGTTAAAAACAAGAAATAGGGGAAAATATAAAAAATATAAAAATTACCTGCAATAATCTCTATCTAGTAGTATTCTTAAGCTTCTTTGCATATT
R
TTAGACATTTGCATATACACCTTGAGATTATATTGATTGCACAATATTGAATCCTGCTTTTTTTACCAAATGACAAACATTTCTCCCATCATTATAACAG
Celera SNP ID:            hCV26971216
SNP Position Genomic:     124680
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32584):
CCAGGAGATCCAAAAAGGTAGGGTAGGATGTAAAGGCTTCAATCTGTTCAAGTGGATATGAGACTCCCTGGCTCCCCTTACAATAAGTAGCATGGATTTT
S
TCTCTCTGCCTTACTTCCTCCAAACATTCTGAATGAGAAGTGTTCAAACCACTATTTGTTCAATTGCTTAATCTACTTTGGGACACAAGTTTAATAAATT
Celera SNP ID:            hCV26228452
SNP Position Genomic:     19291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32585):
CCACTGTTTTGGGGTGATGACTCTATAAGTTAGTACAGTCACAGTCACTACTTTTTCAAAGCATTCCTATAATTTCCTGTATTTATGCTATGAAACTTTG
M
GAAGTAGTATGCTTTTTTCTTGTGGAACCCAAGAATTTGCTGCCTGCTTGTACCTCCAAGTCTTCCAGCTTCCCTTAAATGCACAGAGTCACTTTAATGT
Celera SNP ID:            hCV26971219
SNP Position Genomic:     122188
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32586):
CATTCTTTGTGACGTTGCTCACAGTAACATTATGGATACCTAATAAATTTTTTAAAAGACAAAATGTTCTACGTTTTGTGGCCTACTCTGGATGGCTTTA
W
GGTAAAGTGGGTGAGTATCCCTACCCTTTACATTTCAAGTGTAGGGGTGTTTAGCTGTCTCTTCTGGCTCTCATTTACTGACTCTTCTGGGTAAATCCAT
Celera SNP ID:            hCV1896411
SNP Position Genomic:     98024
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|T,7)      total(A,6|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32587):
CATTCATTTGGAGTTGGTCTCTTCCAGGTGGCTACCCTTAACCTTTGTGCTCAAATAAACTCTATCCTTAAATATATTTTCTGAATCTCATTATTTAAGG
K
TGAAAATGTGCTAACCTAAATAATTCACAGGATTTGTTTTTTATTCTCATTTTTTCCTAACCTATCCACCTGGTTCAAGGCACATAGATTAAGAAGGAAA
Celera SNP ID:            hCV26228454
SNP Position Genomic:     18915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32588):
CTTCCTTGGAATGTAGCAATCTGTAACCAATCAAAATGCTGTAACTATGCATGGTCCCATATGGAAAATATAATCCTGCTAAAATTTCTCTGTCTCTGCC
Y
ATGTAAGTGATACCTTATGTCCTCCACTTTGGAGTGCTGACCCCATTCATTTGGAGTTGGTCTCTTCCAGGTGGCTACCCTTAACCTTTGTGCTCAAATA
Celera SNP ID:            hCV26228455
SNP Position Genomic:     18771
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32589):
CGAAGTCATATAGTGTACAATACCAAGAGTGGACCCTAACATAAACTATGGACTTGGGGTGGCCATGATGTGTCAGTGTAGGTTCCTCAATTGCGAAAAA
Y
GTACCACCCTGGTGAAAGATGTTTATAATAGGGGAGGTTATCCATGTATAGGGGCAGGGAGTACATAGGAAATCTCTGTATCTTCTGTTCATTATTGCTG
Celera SNP ID:            hCV26228458
SNP Position Genomic:     18200
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32590):
AACATATGATTCCAACTATATGCCATTCTGGAAAAGGCAAAACTATGGAGACAGTGAAAATATCAGTGGTTGTCAGGGGTTAGGGAAGAAGGGGATGAAT
S
GGAAGAGCACAGAGGATTTTGAGGGTAGTGAAACTACTCTGTATGATGCCATAACAGTAGGTACATGTCATAATAAATTTATCCGAAGTCATATAGTGTA
Celera SNP ID:            hCV26228459
SNP Position Genomic:     18016
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32591):
ATCTATTGAGAGAAATAGATACTTCTAAAAGCACACAAAGATAAAAAGCACAAATTGTAATAACAAACAATTATTGATATGAAAGGAAAAGCAAAGTGTC
R
GACTAGAAATTATTATAGGGTGGGGCAGAGGGAAGTAGTTTAGATTCCAAATCCCTAAGAGGGTCAGGGAAGGCTTCAGATGAGATTGGGTGTGTTCAGG
Celera SNP ID:            hCV12082954
SNP Position Genomic:     12166
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32592):
TTGCAGTCCACAGTGAAGCCAAGATATTAAGAAGCAATGTGGGCCAGGAGAAGTTAGAGCAGAAATATCTCTTTCAATAATGAAAGAATAAGAAAAAGAA
R
TAGAAGAGCTGGAAACAATAGGTAAAGTTTAGGCTAGGCCTTAGACTTCTCCTGCATTGTAATCCTTCTGGTTTGCCACATATGCATGCTGTCAGGAAGT
Celera SNP ID:            hCV26971290
SNP Position Genomic:     66765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32593):
AGACAAGATCAAAAGCAACAAATCTTGTATTTATAAAAAACATGTCTCAAGTAAAATGACATAGTATTATACACACACACACACACACACACACACACAC
M
CAAATTAAGTGAAAATGCAAACAAAAAAAGGCAAAAATAATATTTAGAGAAAGATAGAATTTAAGAAAAAAATTGTCAAACTGGTCTACAAAATAATTGT
Celera SNP ID:            hCV26971291
SNP Position Genomic:     66548
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1|C,1)   total(A,1|C,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32594):
ATGGTGTAATCTGTCCTGTAATGTCTAATGTCTACCTGCTATTATTTTCTAAATGGTGAGTTAAATGGGAAATATGTGTAGCGTATAACCATTTTCTATC
M
TTTGCTTTAGGTTTCGACTCATTGGTTCCCCATCTACTACTTGTCTCGTCTCAGGCAATAATGTCACATGGGATAAGAAGGCACCTATTTGTGAGAGTAA
Celera SNP ID:            hCV25598600
SNP Position Genomic:     98561
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,39)   total(A,1|C,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:32595):
ATTTGAGTGTTCCTTCTTCTCTAAAAGAGTAAATAAAATAAAATAAAGTAGAACCAAGTCCCGCAAGAGTTGTTATTAATATTTGATCTCCTTAGGCACC
R
GAAAGTAACCTGTCAGGTGCAGAGATGTGATAAAACGTACAATCTTATTTTTAGGAGAGAAGCATGCCCAGTAAGTTAAGCAATCTGTTGTCAACGCTTA
Celera SNP ID:            hCV8828478
SNP Position Genomic:     7428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32596):
TGTTATTATGAGTTACTCACAGTACCCGTAAAGTGGTATAGTGCTATTTGAAAGAGGACTTAGATTAGCTGCAAATAGATATTGCAAATGTAGGACAACC
M
CTGAAAAATGTGAAAAAAAGAACTATAATTTATATGTTAATAAGTAAGAGAGAATTGCATCATATAAAATGCTCAGTTAAAACAATAAAGATGGCTGGGG
Celera SNP ID:            hCV12082956
SNP Position Genomic:     8349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32597):
GGACATCTTTGAATTATGAATGCCGTCCTGGGTATTTTGGGAAAATGTTCTCTATCTCCTGCCTAGAAAACTTGGTCTGGTCAAGTGTTGAAGACAACTG
Y
AGACGTGAGTAACCCCTCCCTGGGAACTACTTCATGTCTGTTAAAGCATAGGTGGGACCGGGCTTGGTGGCTCACGCCTGTAATCCCATCACTTTGGGAG
Celera SNP ID:            hCV25598601
SNP Position Genomic:     78880
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,35)   total(C,1|T,71)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:32598):
AGAAAAGATGAGTAGACTGACTATATAGAGTTTGACTCTAAAATTGAGAAAATAGGTTTAAATATCTGTTGTGTGCATATCCATGTGTGTAATATACATG
Y
ACATATATAAAATGAAATTCCTCATTAGAAAAAATAATAAGTTTAATTTCCAAATTATTAGAATAACTAAAACAGCTGAATCTATCTCTTCCATATAGCA
Celera SNP ID:            hCV26971292
SNP Position Genomic:     66113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32599):
GGTGTAATGCATGTGACAGTGTTTTGTAATCTGAAAACCCCCATGCATGTCTGAAAAACCATGACTAAGAAGTCGTGCAAGACTGCAGGATCACCGAAAA
R
CGAGAAATCTCAACTCCTATGATCAGGAAAGGATGAGTGAAAGGTATATGGCTTTACTAGCACTTAAAGAGTGAATCTAGAAACAGATTGCATACGACAA
Celera SNP ID:            hCV12082957
SNP Position Genomic:     8121
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32600):
GAGACAGCAAGAAAAGGTAGGCTAAACTTACATTACAGAAAAGATGAGTAGACTGACTATATAGAGTTTGACTCTAAAATTGAGAAAATAGGTTTAAATA
K
CTGTTGTGTGCATATCCATGTGTGTAATATACATGCACATATATAAAATGAAATTCCTCATTAGAAAAAATAATAAGTTTAATTTCCAAATTATTAGAAT
Celera SNP ID:            hCV26971293
SNP Position Genomic:     66077
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32601):
GCAAATGTTTTTGTATTTTATTTTTCTAAAAAAGCTAACCTTGGTTAATAACAAAAATGGAAATTAAGAAAGCAAACGGAAAAGAGTAGGAGAAAACTGT
R
TAAATACTATAACACTATGATCAAAGAGCTATTTAAAATGAAAAGAATGTGGATTGAGTTAATACATGCATGCAAATACTATAGGAAATCATATCAGTAA
Celera SNP ID:            hCV27852727
SNP Position Genomic:     33212
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,37|G,1)   total(A,72|G,2)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,37|G,1)   total(A,70|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:32602):
TAGGATATTGGTAAAAAGAAAAAACAACAATAAAAAAATACACACAAAAACTCGGCAATGTAATCATAATTTACTAATAATCTCTCTAAACTCATAGAAC
R
TATCAATAAAACTAGAAAATGTGAGACAGCAAGAAAAGGTAGGCTAAACTTACATTACAGAAAAGATGAGTAGACTGACTATATAGAGTTTGACTCTAAA
Celera SNP ID:            hCV26971294
SNP Position Genomic:     65954
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32603):
GGCAAGCACAGTGGCTCACATATGTAATCCCAACACACTGAGAGGCTGAGGCAAGAGTATCACTTGAGCCCAGGAGCTCAAGACCAGCCTAGACAACATG
R
CAAAAACCCATCTCTACAAAAAAGTATAAAAATTAGCTGGGCATGGCAGCATATGCCTGTAGTCACAGCTAGGCAGGAGACTAAAGTGGGAGGATCACCT
Celera SNP ID:            hCV26971295
SNP Position Genomic:     65266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32604):
GATATTGCACTAGGTAGGTCATTGATACCAAAGAATTTAGAAAGTACTTCAGGAGTTGGAAACTTCTTTTTTTTTTATTGGATTATTATTGTCATTTCCA
M
TGTTTTGGGGTGATGACTCTATAAGTTAGTACAGTCACAGTCACTACTTTTTCAAAGCATTCCTATAATTTCCTGTATTTATGCTATGAAACTTTGAGAA
Celera SNP ID:            hCV8828838
SNP Position Genomic:     122091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   JBIC-allele(A,565|C,916)   total(A,565|C,916) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32605):
AGGAGGTAGGGTGGAAGTCTCTCTGCTAACTTTGATATTCCTGTGGTTTTTCTCTCCAGGTCACTGTAAAACCCCAGAGCAGTTTCCATTTGCCAGTCCT
W
CGATCCCAATTAATGACTTTGAGTTTCCAGTCGGGACATCTTTGAATTATGAATGCCGTCCTGGGTATTTTGGGAAAATGTTCTCTATCTCCTGCCTAGA
Celera SNP ID:            hCV25598605
SNP Position Genomic:     78746
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,34)   total(A,69|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32606):
AGACCAGTCTGAAAAATCAGGAGAAATTTTACAAAAGAGATTTACTGCCAAGAAACCAGGGAAACTTTCAGAACACTCTCCTTTTCATATTTGTAACAAG
W
TTCAATTGTACAAATACTTCTGTGAAACTAGCCATGAAGTGTGTACATGAATGAATATATGTATTCAGTGTGTTTATATATTTCATTTCATACATGTGAT
Celera SNP ID:            hCV26971296
SNP Position Genomic:     64952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32607):
AGCATTTTTAAATGCAATTGGTAAATTTCCTGACTGTACCCTCCTCATCTTGCATTGCTGAATAAGTGAGGAACCTCTCTATGGCATGAAGCAGAAAACC
M
TTGAGCTTATGAGAAGAAACAGGAAATACATGTAAAAGAGACCAGTCTGAAAAATCAGGAGAAATTTTACAAAAGAGATTTACTGCCAAGAAACCAGGGA
Celera SNP ID:            hCV26971297
SNP Position Genomic:     64813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32608):
TCATCCCAAGGTAACATCAAGGAGAAGAAAATCTTTTGCTATTCTTGTAAGTCTCTTTGTTTCTGTGATCCACCTATCAGCTTAATTGAAGAGAAAGAGG
M
GGTAGGGTGGAAGTCTCTCTGCTAACTTTGATATTCCTGTGGTTTTTCTCTCCAGGTCACTGTAAAACCCCAGAGCAGTTTCCATTTGCCAGTCCTACGA
Celera SNP ID:            hCV25598606
SNP Position Genomic:     78649
SNP Source:               Applera
Population(Allele,Count): african american(A,34|C,2)   caucasian(A,36)   total(A,70|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:32609):
GTGGAAAATGGAATATTGGTATCTGACAACAGAAGCTTATTTTCCTTAAATGAAGTTGTGGAGTTTAGGTGTCAGCCTGGCTTTGTCATGAAAGGACCCC
R
CCGTGTGAAGTGCCAGGCCCTGAACAAATGGGAGCCAGAGTTACCAAGCTGCTCCAGGGGTGAGTCTGACTGATGCCTAGAAGGGCCCTGCCAGTGACAT
Celera SNP ID:            hCV25598607
SNP Position Genomic:     69461
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32610):
CCTAGAATCTGACAAAAATTAGAATAAATCCGATGTCTCCTTTTCTCTCTTTTTTTTAAGCATTTTTAAATGCAATTGGTAAATTTCCTGACTGTACCCT
M
CTCATCTTGCATTGCTGAATAAGTGAGGAACCTCTCTATGGCATGAAGCAGAAAACCATTGAGCTTATGAGAAGAAACAGGAAATACATGTAAAAGAGAC
Celera SNP ID:            hCV26971298
SNP Position Genomic:     64755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32611):
CAGGTGGCCGCTGAGAGAAGACTTGAAAGGAGATGAGCATAGATGTATGGACGCTCTTTGTTGCACCAGTGTGATAGGTGATGGAGGGACCTATTAGATG
R
GACATGGGCAGGGGCACTCCTTTATTGCTTAAAATGCAAGACTAAATTGGTGATGCCTTTCTAGAAAGGAAGTATGAAGATACAAAAATCCATCATTCCT
Celera SNP ID:            hCV27508541
SNP Position Genomic:     36215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32612):
TGCCAGCATAGGCCTCACAGACCACAGCACCTAGAATCTGACAAAAATTAGAATAAATCCGATGTCTCCTTTTCTCTCTTTTTTTTAAGCATTTTTAAAT
R
CAATTGGTAAATTTCCTGACTGTACCCTCCTCATCTTGCATTGCTGAATAAGTGAGGAACCTCTCTATGGCATGAAGCAGAAAACCATTGAGCTTATGAG
Celera SNP ID:            hCV26971299
SNP Position Genomic:     64726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32613):
GTAAAGAGGCAGGCTCCAAAGACATAGCTGTGTGTTGGACATGAGAGTATTTGGAGGAATACAGGTAACAGGTGATGCTGGGAAGTCCTGTGAAATGGAA
S
GAGAACGAAGATGAGGAATCTGGTGGCAGTAATAACCGGGGAACAGATGAGCTGGAGGCCTCATCAGGAGGGGTGTCCCTTGGTGGAAGGACACCATTCC
Celera SNP ID:            hCV28021592
SNP Position Genomic:     125871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32614):
AAGCATGCGCTTTGAAAACCAGCACAAGACAAGGATGCCCTCTCTCACCACTCCTATTCAACATAGTATTGGAAGCTCTGGCCAGGGCAATCAGGCAAGA
R
AAAGGAATAAAGGGTATTCAAATAGGAAGAGAGGAAGTCAAATTGTCTCTGTTTGCATATGACATGACTGTATATTTAGAAAACCCCATTATCTCAGCTT
Celera SNP ID:            hCV28021593
SNP Position Genomic:     83929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32615):
ATAGGTAAACATCTTCAGTTAGAACCCTTCTATTATTATTTTTCGGCTCCCCAGAAGTCTTCTTGGTTGCCTAGACTCACTGGCAACATCTCATTTGAAG
Y
GACAGTCTTGGTTGTTTTTGTCCAGCCTATTCCTGACAACTCCGGGTTCGCCCTTCTCTGCCACTAGACATTTTACATTCATTATTTGAGTGTTCCTTCT
Celera SNP ID:            hCV26228311
SNP Position Genomic:     7244
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32616):
TACTTTTTCCATTTTATAACAGTTTTATGTAATTTATTTGAGATCCAAATGTGTTTTGATTTCCCAAGATCAGATCAACTACATTAAGAGAGAGCCTGAG
M
TGCCGTTACAATATGTTGTGTGAAATTACACTCTCATTATGGTGACAGTAGGTCTTTCAGATTTTGTTCGACAGTTTCCCACCTTCTCACTGAAGTGAAA
Celera SNP ID:            hCV27525814
SNP Position Genomic:     54583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32617):
GTGGAAGGCGCAGATGCTGAGCGGGTGCCGCACGAAATTCCTTGCCTTTGTGTATTCACAGCCTCGGCTGGCTATAGCCAAGACGTGGCGTTGATCCTAG
Y
GAAAGGGAACTTGGGGATCCGACAAACCTGAGTTCTGGTCCTAGAAACTTAACTGTGAGGCAACTTAGCACACCTGAGTCTGTTTGCTCTTCTGTAAAAT
Celera SNP ID:            hCV26228315
SNP Position Genomic:     6582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32618):
CACTGCAGTGCAAAGTCATTCATGTTGTGCAGCTTAAGTGTCAAAATCTCGATGTAAATCCTATTTACTAATCAAAATTATGTCAGAAATAGTGAAATGT
R
TTAAGGCATGGACATCTGCCTATAAACAATTTAGAGTACTCTGACAGAAAATATAGGATGATTTTAGTATTATTTTCTAATCTAAGTTTTTGCTTAGTAT
Celera SNP ID:            hCV26971220
SNP Position Genomic:     121545
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32619):
ACGAGCGCAGTGGAAGGCGCAGATGCTGAGCGGGTGCCGCACGAAATTCCTTGCCTTTGTGTATTCACAGCCTCGGCTGGCTATAGCCAAGACGTGGCGT
Y
GATCCTAGTGAAAGGGAACTTGGGGATCCGACAAACCTGAGTTCTGGTCCTAGAAACTTAACTGTGAGGCAACTTAGCACACCTGAGTCTGTTTGCTCTT
Celera SNP ID:            hCV26228316
SNP Position Genomic:     6573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32620):
CTGTGTTCACAGTCACTCACTCTCTATGAGACCCTGAGCAAGATACTTATCCTCAGTAAATTTCATTTTCCTTGCCTGTGAAATGGAGATAATAATAGTT
M
CTACCTTACTTAACATAGTGCCTCATTTATGATGCATGTCAGAAAATGTTAGCTATTATTTACACATGATTGTTATTACTGATATTAAAAAGTGAGTAAA
Celera SNP ID:            hCV26971221
SNP Position Genomic:     121214
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32621):
TTCCTGGGCCAACTCCCTCATGGCCGTGTGCTACTTCCACTTAATCTCCAGCTTGGGGCAAAGGTGTCCTTTGTTTGCGATGAAGGGTGAGTGTGACCCA
M
CGTTGAGACCAAGGACTCAGTGTGGAGAATCACTCTCTTGAGATCAGGGGTTAATCCAATTAAGGAGCTGACCTAGTAGATAAGAAGTACCCAGAGAGAT
Celera SNP ID:            hCV27880130
SNP Position Genomic:     103377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32622):
CTCTGCGCGCCCGGGTCCGAAGGCAGCGCGATGGGTGGGCTGAGCGCGCGACCCGGCAGGGCGGCGGGTGTAGGATCCTTCTGCGCACTGGAGACCCTCG
S
TGCTTCTGGGTAAGCGTGGAGTTCCCAGGTGCAGGGGCTTAAGTCGTGACGAGCGCAGTGGAAGGCGCAGATGCTGAGCGGGTGCCGCACGAAATTCCTT
Celera SNP ID:            hCV26228317
SNP Position Genomic:     6424
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32623):
CTATGGATCAGTGGTGACCTACCGCTGCAATCCTGGAAGCGGAGGGAGAAAGGTGTTTGAGCTTGTGGGTGAGCCCTCCATATACTGCACCAGCAATGAC
R
ATCAAGTGGGCATCTGGAGCGGCCCCGCCCCTCAGTGCATTATACCTAACAAATGCACGCCTCCAAATGTGGAAAATGGAATATTGGTATCTGACAACAG
Celera SNP ID:            hCV25652302
SNP Position Genomic:     33666
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:32624):
CCTATTTGTGACAGTGAGTTGAAATATCCCTTCCTATTTCTTTTACCGACACATTCTAATTTTTCTCTGGAATAATAAAAATCTTAACTGAATTCCTTCT
R
TGCAATCTGTCCTTCACACGGCTGAAGACTGCGGTAATGTTCTCGAATATTCCTATGGGGTTCCTGGCAACTCTTTCTTTAAGTTCTTCCTTATCCTGGG
Celera SNP ID:            hCV25595993
SNP Position Genomic:     21603
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,40)   total(A,1|G,67)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32625):
AGATCAAACTCATCAGTTATAATAGTAAATGTGAATGATTCCAATCCCCCCTTTTGAAAGACAAAGGCTTCTAAATATGGTCAGAATCCTATTTACAGTA
R
CATCAAAAAGAATAAAATACTTAGGAATCAATTTAATCAAGGAGGCACAAGACCTGTGCACTGAAAACTCAGTAACTGAAAATGAGCAAATGATGTGATA
Celera SNP ID:            hCV27880131
SNP Position Genomic:     88664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32626):
TTTCATTGATAAAAGATGAAGTGTTTATTAACCCCCAAAGAGGCAGTGTACCATACCAAGTGAGGGTGAGGGCTTTGCAACCGCTAAGGCCTGTGTTCAC
R
GTCACTCACTCTCTATGAGACCCTGAGCAAGATACTTATCCTCAGTAAATTTCATTTTCCTTGCCTGTGAAATGGAGATAATAATAGTTCCTACCTTACT
Celera SNP ID:            hCV26971222
SNP Position Genomic:     121124
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32627):
AAACACCTATTTGTGACAGTGAGTTGAAATATCCCTTCCTATTTCTTTTACCGACACATTCTAATTTTTCTCTGGAATAATAAAAATCTTAACTGAATTC
Y
TTCTGTGCAATCTGTCCTTCACACGGCTGAAGACTGCGGTAATGTTCTCGAATATTCCTATGGGGTTCCTGGCAACTCTTTCTTTAAGTTCTTCCTTATC
Celera SNP ID:            hCV25595994
SNP Position Genomic:     21598
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,40)   total(C,66|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:32628):
TGTCATTCTAATTTCCATAAGATGGTAAAGAATAACTGAGTGATGAGGAAACAGTGGTACATGTTGAAGTGAGTTAACTCTTCAAGCTTCCATTCTAAAA
Y
CCCTAATACCAACTCATACATAAAATCTCCAGGTACTGGTACTGTTTTATCATTTCATTGATAAAAGATGAAGTGTTTATTAACCCCCAAAGAGGCAGTG
Celera SNP ID:            hCV26971223
SNP Position Genomic:     120971
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32629):
AAGCACATATGCTTAAACGATATCACACTTGATTTCATGTGCCTTCTCAATCCTCAGCTTTCCCTGATTAAGAATACCTAATTACTCTGCCCATTTCCTC
Y
GCACCCTCCACCTTGGCCTTTCCACTCACTATTACTACTATCTCCTGCCTTCTTGGTCTCTACTATTCTCCTCACCATCCCTGCTCCCTGGACTATGATC
Celera SNP ID:            hCV26971224
SNP Position Genomic:     119495
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32630):
GGAGGTGGAGGTTGCAGTGAGTTGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAAAGGCAAAACTCCATCTGAAAAAAATAAATAAATAAATTAAAT
W
AAATAAAACAAGAAAAGAAACTAAAGTGATAGAGAAATAGAAGGAATACACACACAGAAATGATCTCACCTTCTTTAAAATGCTCCTCAAGGAGGTCTAC
Celera SNP ID:            hCV26971225
SNP Position Genomic:     118359
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,5)   total(A,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32631):
AGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGTTGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAAAGGCAAAACTCCATCTGAAAAA
M
ATAAATAAATAAATTAAATAAAATAAAACAAGAAAAGAAACTAAAGTGATAGAGAAATAGAAGGAATACACACACAGAAATGATCTCACCTTCTTTAAAA
Celera SNP ID:            hCV26971226
SNP Position Genomic:     118339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32632):
TACTACTGATTGGTTGGGGATGGGGGTGTGGGAAATGTTCCTCATGTGCTGTGTCCACCTCTGGTTGGGGGCCACAGGACCAGTTGAGTCATGAGTCACA
R
GTCCAGGTAGAGTCAGTCAGTTGCCAAATGCAAAAACCTGAAAAACATCTCAGAAGACCAATCTTATATTCTACATAGTGATGTTATCTATAGGAGCAAT
Celera SNP ID:            hCV26971227
SNP Position Genomic:     117091
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32633):
GGAAGGTACTGTAAGATAGAAAACTACCCACATCATGGAGCAGATGAGCAAAGTTAATAATGAACAGCCTTTCTTAATCCAAGTTAGTGCTACACTTTCC
Y
TTCTCCCCATCTCTTATGACTCTTCTAATACATGGTTCTACACCAAGATTGTTCAAGATCCAGTTTTACAATTAATCCTGTAAATATGCTAATATGACTC
Celera SNP ID:            hCV26971229
SNP Position Genomic:     111924
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32634):
GTAAGCTACAGGCAGGTTGAGACCTTATGTACTAAAAAAAGTTTTTAGTTTACTCTACTTGGCTCCAAAATTCTGTTTCTTTCCTGTAGGTAAATCATGT
Y
GTAATCCTCCAGATCCTGTGAATGGCATGGTGCATGTGATCAAAGGCATCCAGTTCGGATCCCAAATTAAATATTCTTGTACTAAAGGGTGAGTTGGCAT
Celera SNP ID:            hCV26228464
SNP Position Genomic:     16585
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:32635):
GGACAAGAAAGAGAAGTGGATTAAATAACTAAAAGATGTGACAATCTTGGGCTTTGAGATCTTTGGATTATACCAGTTGAATTGAATTACAGATAATAAC
R
AAGTTTACATTTTTCTGGGAGGCATAATATGGGGATGAAACAGATCTGAAAGGAAAGTTTTTTTTGAAAGGGAGCTGATCCTGAGGCAGTCTGGTGAGTT
Celera SNP ID:            hCV26228465
SNP Position Genomic:     16333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32636):
AGGGATGCAGGTGTTACCTGACAACTGCCCCGCATGGAACTGTCCTCGCCCCCCACACCAAGCCACCACGGCCATCATCACCATGCACTTAATTGACAGC
R
TACTTTAAGACAGATGCATGCCAGGCACTTGCGGATTAGAAGAGCAAGGGAAGCCCCAGAACATGCAATGTAACCGTTGCAGGTAGAAGGGACAGTAGAT
Celera SNP ID:            hCV12082961
SNP Position Genomic:     6938
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32637):
TCCCCCTCGGTGTATTTCTACTAATAAATGCACAGCTCCAGAAGTTGAAAATGCAATTAGAGTACCAGGAAACAGGAGTTTCTTTACCCTCACTGAGATC
R
TCAGATTTAGATGTCAGCCCGGGTTTGTCATGGTAGGGTCCCACACTGTGCAGTGCCAGACCAATGGCAGATGGGGGCCCAAGCTGCCACACTGCTCCAG
Celera SNP ID:            hCV25472615
SNP Position Genomic:     100907
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,3)   caucasian(A,1|G,3)   total(A,4|G,6)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,19)   caucasian(A,15|G,13)   total(A,22|G,32)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,27)   caucasian(A,23|G,15)   total(A,34|G,42)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,27)   caucasian(A,24|G,16)   total(A,35|G,43)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32638):
CCTGCCAACACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTGGATCTCCTGACCTCGTGATCCACC
Y
GCCTCGGCCTCCCAAAGTGCTGCGATTACAGGCATGAGCCACCGCGCCTGGCCGCTTTCGATATTTTCTAAACTTTAATTCAAAAGCACTTTGTGCTGTG
Celera SNP ID:            hCV29297892
SNP Position Genomic:     131676
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:32639):
TGATTCTCCCTGCAAACCTGGTAGGAAAATATTATTCCCTTTATGAAGATGAAACTGAGGCTCAGCAAGATTAAGCGGTTTGCCTAAGACCTCATAGCCA
Y
TAAGTAGAAGACATTGGGTTCAAGATTCAATCTATGAACCCAACATTTTTAATACTATATACCATTCTCTTTTTGTATTAATTTCCTATTGCTGCTGTAA
Celera SNP ID:            hCV28011832
SNP Position Genomic:     13115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32640):
TTTCTACTTCTGTAACCTCTCTGTATCCAAATCCTGGTAAATGGCCTCAAGTCTTCTTGGAAAAGGCTAGGGGAAGATTTACAATACATGCTTTTGATTG
Y
GTAGCATGGTGCTTCCTCAAGAGAATCCAGTCTCCCATCCGTTGGTGCTGCTCTGGGTCTATAAACTATTCAAGTCTAGGAATTGTTGATGAACAATGAA
Celera SNP ID:            hCV26228469
SNP Position Genomic:     22822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32641):
TCTCCCAGGCTGGAGTGCAGTGGCGTAATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTGACACCATTTTCCTGCCTCAGCCTCCTGAGTAGTTGGGA
Y
TACCAGTAGATGGGACTACAGGCACCTGCCAACACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTG
Celera SNP ID:            hCV29297893
SNP Position Genomic:     131551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:32642):
TGGATAAAGAGTCAAGACCCATTGGTGTGCTGTATTCAGGAGACCCATCTCATGTGCAAAGACACACATAGGCGCAAAATAAAGGGATGGAGGAATATTT
W
CCAAGCAAATGGAAAGCAAATAAAAGCAGGGGTTACAGTCCTAGTCTCTGATAAAACATACTTTAAACCAACGAAGATCAAAAGAGACAAGAGCATTACA
Celera SNP ID:            hCV29297894
SNP Position Genomic:     82090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32643):
TTCAGTTGTCTACCATGCTGTTAATTAAATGAAAACATCCTGTTATTTCAGGGTCCTTCCTTGACAAAGTACTATACAGCTGAAGAACATCTCGAATACA
R
TTTTGGTGGGAAAGGAGCCAATTGATTTCAACAGAATCAGATCTGAGCTTCATAAAGTCTTTGAAGTGACTTCACAGAGACGCAGACATGTGCACTTGAA
Celera SNP ID:            hCV25598612
SNP Position Genomic:     130741
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,35|G,3)   total(A,72|G,4)
SNP Type:                 UTR 3


Context             (SEQ ID NO:32644):
AGTTCAGTTGTCTACCATGCTGTTAATTAAATGAAAACATCCTGTTATTTCAGGGTCCTTCCTTGACAAAGTACTATACAGCTGAAGAACATCTCGAATA
Y
AATTTTGGTGGGAAAGGAGCCAATTGATTTCAACAGAATCAGATCTGAGCTTCATAAAGTCTTTGAAGTGACTTCACAGAGACGCAGACATGTGCACTTG
Celera SNP ID:            hCV25598613
SNP Position Genomic:     130739
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:32645):
TGACTTCACAGAGACGCAGACATGTGCACTTGAAGATGCTGCCCCTTCCCTGGTACCTAGCAAAGCTCCTGCCTCTTTGTGTGCGTCACTGTGAAACCCC
Y
ACCCTTCTGCCTCGTGCTAAACGCACACAGTATCTAGTCAGGGGAAAAGACTGCATTTAGGAGATAGAAAATAGTTTGGATTACTTAAAGGAATAAGGTG
Celera SNP ID:            hCV25598614
SNP Position Genomic:     130908
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|T,1)   total(C,71|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:32646):
ACATGTCAGAAAGGACAACTAAACTATTACCATCTGCTCTTTAACGGCTTCAACACAGATGTTTAGCTCCTGACTGAAATGAGCAAAGGTATGACAAGAT
Y
GGGGGAAAATCATCTGTATCCTTGCTGGAAACCAAGGCAGAGCATATATGAAAAGTGTGGCATTCATTGGGTGGGAAGGAAGAAAATGGGGGAAGAGTAT
Celera SNP ID:            hCV25596001
SNP Position Genomic:     16845
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,5)   caucasian(C,39|T,1)   total(C,66|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:32647):
ATACACACACAGAAATGATCTCACCTTCTTTAAAATGCTCCTCAAGGAGGTCTACTTTAACTATCCTAGTAAAGATGACATGACCCCACCCCCACATTCC
Y
AGTCTCTCTTATCCTGCTTTATTTTTTTCATAGCCTTATTCTCTTTTATTATAATTAATTAAATAATTACATTCCATGTTTATTCTCTCTCTCCCTCCAT
Celera SNP ID:            hCV8828848
SNP Position Genomic:     118505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32648):
TGTGGAAGAACCTGGACTCTCATGTACCACGAGATCAACACATCCTCTTGAAAGGCCCCATGCACTATAAACCTCAGAAGTGAACATATATTTTAACCTA
Y
TTCTTAAAATTTATACTTAGGAAATAATCACACACTTTTTAAAGTAGTTTGGTATAAACTTTTCATTGCAGCATTATTTATATTAGTTAAAATGTTAGAG
Celera SNP ID:            hCV27525535
SNP Position Genomic:     21973
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32649):
TTTCTATCATCTGCCTAAAAAACTCAGTCTGGACTGGTGCTAAGGACAGGTGCAGACGTAAGTAACTCTGGAGTGGGAACCCCCCTGTTAGTCAAACATC
Y
GTAAGATCTGATTCAATTTGTTCAAATTTTGTAACTGAGTTGCATATGACAATTAGTTTGCCAAGGTGCAATACATATGAGAATTATTCTTGTAGATCAT
Celera SNP ID:            hCV25596002
SNP Position Genomic:     15987
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,40)   total(C,1|T,73)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32650):
TCTGCTGCGGAGGATCCCTGCTGGCGGTTGTGGTGCTGCTTGCGCTGCCGGTGGCCTGGGGTGAGAGGCGGGCGGGCGTGGGGAGGCGCCCGGGCGGACG
R
GGAACCCGGGGCCCCGCAGAGAACTCGCGTGCAGCGCTGAGCTGCGCTGCTCTGCGCGCCCGGGTCCGAAGGCAGCGCGATGGGTGGGCTGAGCGCGCGA
Celera SNP ID:            hCV25596003
SNP Position Genomic:     6274
SNP Source:               Applera
Population(Allele,Count): african american(A,8)   caucasian(A,36|G,2)   total(A,44|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:32651):
TGGGGGCCTCTTCTCCAAGAAGCCCGGAGCCTGTCGGGCCGCCGGCGCCCGGTCTCCCCTTCTGCTGCGGAGGATCCCTGCTGGCGGTTGTGGTGCTGCT
Y
GCGCTGCCGGTGGCCTGGGGTGAGAGGCGGGCGGGCGTGGGGAGGCGCCCGGGCGGACGAGGAACCCGGGGCCCCGCAGAGAACTCGCGTGCAGCGCTGA
Celera SNP ID:            hCV26228320
SNP Position Genomic:     6214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:32652):
GCTTGGGGAGAATGGGGGCCTCTTCTCCAAGAAGCCCGGAGCCTGTCGGGCCGCCGGCGCCCGGTCTCCCCTTCTGCTGCGGAGGATCCCTGCTGGCGGT
Y
GTGGTGCTGCTTGCGCTGCCGGTGGCCTGGGGTGAGAGGCGGGCGGGCGTGGGGAGGCGCCCGGGCGGACGAGGAACCCGGGGCCCCGCAGAGAACTCGC
Celera SNP ID:            hCV26228321
SNP Position Genomic:     6202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:32653):
GGCTGTGATTTTTCCAGAATAAGGTAGCCTGTGCAACTCTGCCATCTGCTGGCCTCAGATCCTCAAAATCCTGAAATTGGGGCTGGGCCTTAGATTGTGA
R
CTAAGTGTCCTCTTGGCTGAAACAGCTCACTATTCACTCCTATTTTCTTCTTTAGATTTCAATTAAAAGGCAGCTCTGCTAGTTATTGTGTCTTGGCTGG
Celera SNP ID:            hCV9502359
SNP Position Genomic:     57178
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32654):
TTGGTAATTTGTATTTCCATTTATATCATTTAGATTTTCAAAATATTTAACCCCCTGTAGTCTACAGTTTTATAAATATTCTCATATACATAAAAATATG
Y
TTAAATTCTTTTTCCTACTGTGTATATTTGTGTTTTCTCTCATCCCTTATACTTTATCTTTTAGCAAATGTTTTTGTATTTTATTTTTCTAAAAAAGCTA
Celera SNP ID:            hCV27844793
SNP Position Genomic:     33048
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:32655):
TTCCCTTTTAATAAGGACACCAGTCACACTGGATTAGGGCCTACTTTCATGACCTCACCTTAACTTGATTGCGTCTGCAAAGATTGTATTTCCAAATAAG
R
TCACATCCACAGGGACTGGAGGTTAAGACTTCAGCATACTTGGGGGGAGACACAATTCAACCTATAACAGAGCCCCTTTGAAAATGTCAGGCATCAGGTG
Celera SNP ID:            hCV26971301
SNP Position Genomic:     64357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32656):
GTCTGTTTCCAAAGTTTTCCCTTTTAATAAGGACACCAGTCACACTGGATTAGGGCCTACTTTCATGACCTCACCTTAACTTGATTGCGTCTGCAAAGAT
Y
GTATTTCCAAATAAGATCACATCCACAGGGACTGGAGGTTAAGACTTCAGCATACTTGGGGGGAGACACAATTCAACCTATAACAGAGCCCCTTTGAAAA
Celera SNP ID:            hCV26971302
SNP Position Genomic:     64341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32657):
TGCAGAAATTGGCCAGAATTATGCATTTAATAAAGAGCAGAGTGCCAGTATTTGTTGTGAAGCCAGACAGAATTAACATGGTACTCCTGTTCCCTCACAG
M
GTGACCCCAGTGGCTCCAGGGCTAGATCACCGTTAGCCTAATTCCTAATCTTTCCACAGCTTTCCAGTTGCAGAGCTGTTAATCAACAGTGAATGCACAG
Celera SNP ID:            hCV26971230
SNP Position Genomic:     110869
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32658):
AGCCTTCAAACTTGATTTTACTTCAATAAACGTGAAATTATGTTGTTTCTACCACCTCCAGTATAATAATCATCTTGCTTGGCAAATCAGTAAAGATTTT
W
AAAATTGATACTCTTCAAGGTTAGCGAAGCTGTGGAAGAACCTGGACTCTCATGTACCACGAGATCAACACATCCTCTTGAAAGGCCCCATGCACTATAA
Celera SNP ID:            hCV26228326
SNP Position Genomic:     21842
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32659):
CTCTGGGTCTGTGTCCTCATATGCTGTTCTCTCTGTGCATGTCTGTTTCCAAAGTTTTCCCTTTTAATAAGGACACCAGTCACACTGGATTAGGGCCTAC
Y
TTCATGACCTCACCTTAACTTGATTGCGTCTGCAAAGATTGTATTTCCAAATAAGATCACATCCACAGGGACTGGAGGTTAAGACTTCAGCATACTTGGG
Celera SNP ID:            hCV26971303
SNP Position Genomic:     64301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32660):
TAACTGTCCTCTTTGCATGGTCGATAGCAGTGCTTCTCCATCCAGAGCATTAACAAAATCACCTTGTTAAAAAGATTCTCAAACTCCATTCCATGGCCTC
Y
GATTCTGTTTTAAAGTGGGGTCAAAAGTCTATTTTTAACAAACTCATCAGAATGCTCTGATGCAGGAAGACCACAGACCACACTTCAAGAAATACCACTT
Celera SNP ID:            hCV26971231
SNP Position Genomic:     109811
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32661):
TCTTTGGCACCATTTAATCTGAGTAAAAACAGCCTTACTGGTGTCTGATGACACCACTGGAAATTTGGTATTGGTCCTGATGGTAATGGTCTTGAATCAC
Y
AAGAAACATTTACATTGCTAAAGATGATAGCTCATGTTTATTAAAGTTCATAGATTTCCTTGAAACTTATGGTCTCTGATGACCAAAACTTTGTCTGTCT
Celera SNP ID:            hCV26971233
SNP Position Genomic:     107447
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,7)   total(C,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32662):
AGGTAAAATTCAAGCATGAGAAGTCAATCATTGTTTGATGTACTAGGTCTTTTATATACACATAATTCTGATAAATTTGGGTATCTCTTCCTAAATTCAT
R
TCAAACTAGAAGCATCAATTGCTTTTAGGGAAGGAACTGTTCTAAGCAGACTAAAAGGAGGAAGAAATGGTGGCTAATAATTGGAAGAAATCAAAAAAGG
Celera SNP ID:            hCV26971234
SNP Position Genomic:     107245
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32663):
TCGCATATCATAAACAATTTAGTCAGCTTGTTTTTTAGCCTGCAGTATTTAATGACATAGGGCTTCCCATGTGCCAGGACTTTCCATGTGTAGAAAAAGC
R
ATGAATAGTGAATGAATAGTGAAGACACCTCCCTACTTTCCTGGGATGTATTTTCTTGTTGGGAAGCAGACTATGAACAAGGAAATAAATAAGTAAACAA
Celera SNP ID:            hCV26971235
SNP Position Genomic:     106554
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32664):
CTGTTTCTACTTCTGTAACCTCTCTGTATCCAAATCCTGGTAAATGGCCTCAAGTCTTCTTGGAAAAGGCTAGGGGAAGATTTACAATACATGCTTTTGA
Y
TGTGTAGCATGGTGCTTCCTCAAGAGAATCCAGTCTCCCATCCGTTGGTGCTGCTCTGGGTCTATAAACTATTCAAGTCTAGGAATTGTTGATGAACAAT
Celera SNP ID:            hCV26228470
SNP Position Genomic:     22819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32665):
CGTTTGGTGGGTCCTGAGTTGTTGTCCCGCATCCAAGAAGAACAAGGTTATACTGACAATAGAAGGGTGAGGAGGGTGGAGAAGAGTTTTATTGAGTGAC
R
AAACAGCTTCTCAGCGGAGACGAGACACGAGGGTGGACCCCAGATGAAGTCAGGGGGTCATTCTCTCTCTCAGCGTGGCTGGTTCTGGGGCTTTTATGGA
Celera SNP ID:            hCV26971238
SNP Position Genomic:     104518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32666):
CAAGATAGCGCCACTGCACTCCAGCCTGGGTGATGGAGCCAGTCTCCGTCTCAAAAAAGAAAAAAAAAAGTATGGTAATTTCTCCATTAACTTTGATGCT
K
CTATGGTCTTGATCTCCAGGTCAATGCAATGCCCCAGAATGGCTTCCATTTGCCAGGCCTACCAACCTAACTGATGAGTTTGAGTTTCCCATTGGGACAT
Celera SNP ID:            hCV26228471
SNP Position Genomic:     15744
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,5)   total(G,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32667):
TTTCTCCATTAACTTTGATGCTTCTATGGTCTTGATCTCCAGGTCAATGCAATGCCCCAGAATGGCTTCCATTTGCCAGGCCTACCAACCTAACTGATGA
R
TTTGAGTTTCCCATTGGGACATATCTGAACTATGAATGCCGCCCTGGTTATTCCGGAAGACCGTTTTCTATCATCTGCCTAAAAAACTCAGTCTGGACTG
Celera SNP ID:            hCV25473642
SNP Position Genomic:     15822
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,8|G,32)   total(A,9|G,65)
SNP Type:                 UTR 5;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:32668):
GCTTCCTCTTAGCCAAGGGCAAAATAGGTTTTGGCTATTTTCTCCTATTCTCGCAGTTAAAACGGACAATCAACAATAAAATATCAATTTCTTTCTGATT
K
GTCTAATTTCAGAAGTAAATTGTAGCTTCCCACTGTTTATGAATGGAATCTCGAAGGAGTTAGAAATGAAAAAAGTATATCACTATGGAGATTATGTGAC
Celera SNP ID:            hCV25596010
SNP Position Genomic:     111172
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(G,1|T,39)   total(G,1|T,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32669):
TTAAAAACATGCTTCCTCTTAGCCAAGGGCAAAATAGGTTTTGGCTATTTTCTCCTATTCTCGCAGTTAAAACGGACAATCAACAATAAAATATCAATTT
M
TTTCTGATTTGTCTAATTTCAGAAGTAAATTGTAGCTTCCCACTGTTTATGAATGGAATCTCGAAGGAGTTAGAAATGAAAAAAGTATATCACTATGGAG
Celera SNP ID:            hCV25596011
SNP Position Genomic:     111162
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,39)   total(A,1|C,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32670):
GATCCAAAACGGGCATTACATTGGAGGACACGTATCTCTATATCTTCCTGGGATGACAATCAGCTACATTTGTGACCCCGGCTACCTGTTAGTGGGAAAG
R
GCTTCATTTTCTGTACAGACCAGGGAATCTGGAGCCAATTGGATCATTATTGCAAAGGTGACTTATTTCTTGGTATTCCTTATTCTTGCTGGGTTGTATG
Celera SNP ID:            hCV25596012
SNP Position Genomic:     109493
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,36)   total(A,3|G,71)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32671):
AAGGCTTCTAAATATGGTCAGAATCCTATTTACAGTAGCATCAAAAAGAATAAAATACTTAGGAATCAATTTAATCAAGGAGGCACAAGACCTGTGCACT
R
AAAACTCAGTAACTGAAAATGAGCAAATGATGTGATAGACATGTCTCCAAGGGAAATATACAAATGCCCAATAAACACATCAAAAGATGTTCAACATCAT
Celera SNP ID:            hCV8827403
SNP Position Genomic:     88727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32672):
ACGTTGGACATAGCCATATGATCAAAGGAATACAAAAAAGAAGGTACAATATGTATTGTATTGTAAACCAGAGGAGGGCAACATGTTCCTGTCAAAGGTG
R
TACATGTGAAACCTGGTCAGGCATTCATTGGATGAAAAGGAGCAGCTTACAAATAAGGAAAAGGAAAAAAGGTAGTTGAACCATGTAAACCTCCTTAACT
Celera SNP ID:            hCV27471447
SNP Position Genomic:     80332
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,300|G,1177)   total(G,1177|A,300) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32673):
TGAGTGTTCAATTCTTTTTGATCAGCCTGGATTTCCTTTGGTTCTAGTTATGTATCCCCTTCCTTCCTTCCTTCCTTCCTTTCCTTCCTTCCTTCCTTCC
T
CCCTCCCTTCCTTCCTTTCCTTCTTTCCTTCTTTGCTTTCTTTCTTTCCTTTTTACTTTCTTTTTTTTTTTTGATACAAGGTCTTGCTTTGTTGCCCAGG
Celera SNP ID:            hCV26228403
SNP Position Genomic:     20628
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32674):
TAAGAACCTCCATATTTCTATAGTGACAGTCATTTTTGCTTGTGAAAATGGCTTTGCTGTAACTGTCAGAGACAGAACTACCTCCCAAGTGAATGACAAA
Y
GGGTTATAGATAGGCACGCTGTCTCAATTGTTGGTATTCTGATGGTCCTTCCTATGGGGTGAAGAGTGTGGGATGGTAAGGAGAGAAGGGGGTGGACAGT
Celera SNP ID:            hCV27501375
SNP Position Genomic:     108271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32675):
ACAGGGGGAAGGTTTCATAAGTATATATATAATATATATATAATATAACATAAAATTCATATATATTATAAAAATAATAAATATGATATAAATTTGATAT
R
AAATATTATATAAATCTGATTTTTAACATATTTTGATTTTATACTGGTGTAAAGTACTATTTTCTCTTTATTTTTTACATCAAGAATATGTATCCCCTAC
Celera SNP ID:            hCV8827409
SNP Position Genomic:     88183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32676):
TAGTATTTTAAGTATAAAATGAGTGTTCAATTCTTTTTGATCAGCCTGGATTTCCTTTGGTTCTAGTTATGTATCCCCTTCCTTCCTTCCTTCCTTCCTT
T
CCTTCCTTCCTTCCTTCCTCCCTCCCTTCCTTCCTTTCCTTCTTTCCTTCTTTGCTTTCTTTCTTTCCTTTTTACTTTCTTTTTTTTTTTTGATACAAGG
Celera SNP ID:            hCV26228405
SNP Position Genomic:     20609
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32677):
GATATTGGATGTGTTCATGTATTCATATGTCTATGTTTAACTGAGTGTCTTTTCTTGTGTTTGTGTGGGAACTTGTTCTTAGCCTGCCCACATCCACCCA
R
GATCCAAAACGGGCATTACATTGGAGGACACGTATCTCTATATCTTCCTGGGATGACAATCAGCTACATTTGTGACCCCGGCTACCTGTTAGTGGGAAAG
Celera SNP ID:            hCV25596019
SNP Position Genomic:     109392
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,35|G,1)   total(A,72|G,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32678):
TAATTCCAGAAGTTTAAATACATAAAAGCCTTCAAACTTGATTTTACTTCAATAAACGTGAAATTATGTTGTTTCTACCACCTCCAGTATAATAATCATC
Y
TGCTTGGCAAATCAGTAAAGATTTTTAAAATTGATACTCTTCAAGGTTAGCGAAGCTGTGGAAGAACCTGGACTCTCATGTACCACGAGATCAACACATC
Celera SNP ID:            hCV26228333
SNP Position Genomic:     21816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32679):
CTTTAGTATTTTAAGTATAAAATGAGTGTTCAATTCTTTTTGATCAGCCTGGATTTCCTTTGGTTCTAGTTATGTATCCCCTTCCTTCCTTCCTTCCTTC
C
TTTCCTTCCTTCCTTCCTTCCTCCCTCCCTTCCTTCCTTTCCTTCTTTCCTTCTTTGCTTTCTTTCTTTCCTTTTTACTTTCTTTTTTTTTTTTGATACA
Celera SNP ID:            hCV26228406
SNP Position Genomic:     20606
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,1)   total(C,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32680):
TTCTACATTTATAGGTCAGTGATCATTTAATTGAGTCAATACTGGTTATGTGTGTATATGTGTGTAGTCACTTAGCCAATATGTGAATATTATTATCTTA
Y
GATAGAACACAGTATTCATTTATCATTTTATTGCCCTTAAATCTGCCATTATTTCATTTCTCATGCCTTATCTTTTGTGTTTCCTTTTCTCTCTTTTTCT
Celera SNP ID:            hCV26971241
SNP Position Genomic:     100130
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32681):
AAATGAATGAGAATGTATACAAGGTGCCTCCCATATCTGCCAAGAACTTGAAATTCTATGAAATAATTCAAATTATCAAAGAATTATCAGTTTACTATAC
R
AAGTTTTCAAGGCATGGCACCTTTTGTAGGGGGTTATCTTTTATAAAAAAATTTCCACTTCTACATTTATAGGTCAGTGATCATTTAATTGAGTCAATAC
Celera SNP ID:            hCV26971242
SNP Position Genomic:     99971
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32682):
ACATATATCAAAACACCACATTTTACCCTATAAATATATACAATTATTGTTTGTTCATAAAAATAAAATCAGATTTTAAAAAATATTCACTGTGTTTTTT
T
CAGCCATACATAGGCTGGAACCTTCTTCACATTTTGGCTCCAACAATCTAGCTTAGTCACAGCGAGCACATCTAAAACAACCTCTAGGAGGCCAAAAGTC
Celera SNP ID:            hCV26971243
SNP Position Genomic:     96853
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32683):
GAAAGAAAGAAAAGAAAAAGAAAGGGAAAAAAAATTGCTAGAAGAGTAGATTTTAAATATTCTCACCACACACACACACACACACACACACACACACACA
A
AACAAATATGAGAGGTGACGGACATGTTAATTAGCTTAATTTAATCATTTGCAACAGAAACATATATCAAAACACCACATTTTACCCTATAAATATATAC
Celera SNP ID:            hCV26971244
SNP Position Genomic:     96693
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32684):
AGAAAGAAAGAAAAGAAAAAGAAAGGGAAAAAAAATTGCTAGAAGAGTAGATTTTAAATATTCTCACCACACACACACACACACACACACACACACACAC
A
AAACAAATATGAGAGGTGACGGACATGTTAATTAGCTTAATTTAATCATTTGCAACAGAAACATATATCAAAACACCACATTTTACCCTATAAATATATA
Celera SNP ID:            hCV26971245
SNP Position Genomic:     96692
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32685):
AAGAAAGAAAGAAAAGAAAAAGAAAGGGAAAAAAAATTGCTAGAAGAGTAGATTTTAAATATTCTCACCACACACACACACACACACACACACACACACA
C
AAAACAAATATGAGAGGTGACGGACATGTTAATTAGCTTAATTTAATCATTTGCAACAGAAACATATATCAAAACACCACATTTTACCCTATAAATATAT
Celera SNP ID:            hCV26971246
SNP Position Genomic:     96691
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32686):
AAAAGAAAGAAAGAAAAGAAAAAGAAAGGGAAAAAAAATTGCTAGAAGAGTAGATTTTAAATATTCTCACCACACACACACACACACACACACACACACA
C
ACAAAACAAATATGAGAGGTGACGGACATGTTAATTAGCTTAATTTAATCATTTGCAACAGAAACATATATCAAAACACCACATTTTACCCTATAAATAT
Celera SNP ID:            hCV26971247
SNP Position Genomic:     96689
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32687):
ATTTGGTCAAAGGGCGCAGGGTTTCAGTTAGACAGGAGGAGTAAGTTTCAGAGATCTATTCCACAGCATGGTGACTATAGTTAATAATAATGTGTATTTC
M
AAATTGCTGGCCGGGCACAGTGTCTCATGCCTATAGCTCTTTGGGAGGCTGAGGCATACGAATTGCTTAAGCCTAGAAGTTAGAAACTAGGCTGGGCAAA
Celera SNP ID:            hCV26971248
SNP Position Genomic:     96295
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32688):
AAGTGGAATTCCTGGGGGATATGGTAATTCTGTTTAACTTTTCAAAGAATTGCCAGACTATTTTCCACAGCTGCTGTACCATTTTACATCCCCATCAGCA
R
TGCACAAATGTTCCAATTTCTCTACATCCTCACCAACACTTGTCATTTTTCTGGTTTAAAAAAAATTATTATTATACCACCCTAAAAGGGGCTGAAGTCA
Celera SNP ID:            hCV26971249
SNP Position Genomic:     92858
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32689):
GTAATAAACATGGAATTGGAATAGGAATTTTCCTGGAAATATGAAAAAGATTAGTAAAATAGAGAAAACAAAAAATATAATAATACACCTATACCTGTAT
Y
TATTTTTTATCTCTGTTTCTACTTCTGTAACCTCTCTGTATCCAAATCCTGGTAAATGGCCTCAAGTCTTCTTGGAAAAGGCTAGGGGAAGATTTACAAT
Celera SNP ID:            hCV26228485
SNP Position Genomic:     22706
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32690):
CCCTATGGAAAAGAAATATCTTACGCATGCGACACCCACCCAGACAGAGGGATGACCTTCAACCTCATTGGGGAGAGCTCCATCCGCTGCACAAGTGACC
S
TCAAGGGAATGGGGTTTGGAGCAGCCCTGCCCCTCGCTGTGAACTTTCTGTTCCTGCTGGTTAGTACCTGCTTCCACATATCCTAAATGGGTTCAGAATA
Celera SNP ID:            hCV25596020
SNP Position Genomic:     108064
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,5)   caucasian(C,21|G,15)   total(C,54|G,20)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32691):
TCTGCTTTTTCCAGCCTCTGCTACTTACCAGCTGGTGTCTTGGACCCAGTAAGTTAAGTCACATCACTGACCTTCAGTGTCCACATGTATAAAATGAGCA
Y
AACTGACATCCTGATCTCTGAGAGAGACGTTTTGAAAATCAGATGGTGTAATGCATGTGACAGTGTTTTGTAATCTGAAAACCCCCATGCATGTCTGAAA
Celera SNP ID:            hCV27903442
SNP Position Genomic:     7976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32692):
CACTCTCTTGAGATCAGGGGTTAATCCAATTAAGGAGCTGACCTAGTAGATAAGAAGTACCCAGAGAGATTAATTTATGGAAGGGTAGTTTTGAAATAAG
R
GTAGGGACTAAGTGGCACCACTTTCAGAAGGCAATGAGAAAATGGCACATACAGCTCAATGTCAGGTACAAACCTAAATACAGTCACTGATCTTGAGTAC
Celera SNP ID:            hCV25596021
SNP Position Genomic:     103508
SNP Source:               Applera
Population(Allele,Count): african american(G,22)   caucasian(A,1|G,33)   total(A,1|G,55)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32693):
ACGTTGTTAAATTTCTGAAAACAAGTGCAACTTAAGCATATAACTAAGGAGTAGATGTTAACCTGGACAAATGAAACATAGATTGTTTTGAGCAAGAGAC
R
GCAAAATTTTTTGTCAAGAGCCAGATAGCAAAATTTTCAATTTTGCAGACCATGCAATCTCTATTGCAATTACTCAGTTCTGCCATTGCAGTGGAAAAAT
Celera SNP ID:            hCV26971250
SNP Position Genomic:     91315
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32694):
ATATAAAAATGAGGAAAGAATATGCACAGGCAATTCACAAAAGGAAACATAAAAATGGCCTTAAAAATTGCTAAAATAAATATTTAAGCAAAAAAGCTCA
R
CTTCACTATGGTTTGGGGAAATGCAAATTAAAGCAACAATATGTCATGTTTTCACAGTCACATTAATAAAAGTTTAAAAGACGGAAGTAGAGGTAAATAG
Celera SNP ID:            hCV26971251
SNP Position Genomic:     90584
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32695):
GAGAAAGAGGATGGTCACCATCCCAACCAGATTGGCCATTAGATCTATGTATCAACAGAGTGACATACGGGAGAATTAAAATTCTAGTATGCAAAAATAC
R
CCGTATGTTAACAGAAAATAGACTGCAGGGAAATTTGTATTAGGTAAAACCGAGAGAAAGTTAAGAGCATACAACAGTAGATAAGCAATAGACAACCCGA
Celera SNP ID:            hCV26971252
SNP Position Genomic:     90384
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32696):
CGCCTGGCCTGAAGACAAGAACTTTTGAACAAGAGAGCGCTAACTAACGTATTGAAATACATAAAACAAATACTGATATATAGAAGAGCTCATTCAGCTG
Y
TTCAAAGACAGAGCTCTGTAACACATGTACTCTTACCTAAAGAACTGTCTCCCACCACTGGAAAGGAGGTCTTCTCTGACCAAATACACAGCATCTTGGA
Celera SNP ID:            hCV26971253
SNP Position Genomic:     90130
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32697):
GAAAACTCAGTAACTGAAAATGAGCAAATGATGTGATAGACATGTCTCCAAGGGAAATATACAAATGCCCAATAAACACATCAAAAGATGTTCAACATCA
Y
TAGTCATTAGGGAAGTGCAAGTCAACCTGACTTTGTACTAGGATGTTTTGTATTAGGATGGTTATAATATTTTTAAAAAATAGGAAATAAAAGGTGTTGG
Celera SNP ID:            hCV26971254
SNP Position Genomic:     88827
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32698):
TACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATGGTGCCACTGCACCCCAGCCTGGGCAACAAGAGC
R
AAACTCTGTCTCAAAAAATAATAATAATAATAATAACAATAACAATAACAAAAATGTTTAAGAGTGAAAAGAATTCTTGAGACCAAAAAAGTTTAAGAAC
Celera SNP ID:            hCV26971255
SNP Position Genomic:     87922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32699):
TATTTAGGGGTTTTTGTGGACTAATATATGATCACTTTTACACAGATATCATCTTATGATATCAAACTTAGATTTGATGAAATGAGTTGGTAAGCTTCAT
R
TCTTTTATATGTTGTGAAACCTTGAAATTACATTTGGAAGTATATTTTTGAATGAATTTTGGTAATTTGTATTTCCATTTATATCATTTAGATTTTCAAA
Celera SNP ID:            hCV27838973
SNP Position Genomic:     32889
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,36)   total(A,67|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:32700):
ACCCTGTCTCTACTAAAAAATACAAAATTAGCCAGGTGTGGTGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACC
Y
GGGAGGCGGAGGTTGCAGTGAGCCGAGATGGTGCCACTGCACCCCAGCCTGGGCAACAAGAGCGAAACTCTGTCTCAAAAAATAATAATAATAATAATAA
Celera SNP ID:            hCV26971256
SNP Position Genomic:     87858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32701):
CTGAAGAAAAATCAGGATGACTTGTCACTGGCTGAGAGGTCCTGTTCAATCATGTTGCATGCCAGAGTGATGTTTTGTGACTTTTGTCTTCCTTTTAGGT
R
CACATGATGCTCTCATAGTTGGTAAGTTTTATGAAAGTTTTGCTGAGGAATTCTGGCATCTATAACAGTAAGTACCTACCTATAATGAATGAAATGTAAA
Celera SNP ID:            hCV25474315
SNP Position Genomic:     113280
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,7|G,33)   total(A,15|G,63)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(A,574|G,919)   total(G,919|A,574) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32702):
TAAAAGATGGACAACATTATAAAAAGAAATAGACAAATGTACAATAAATAAAATATTTTAACACAACTCATTTAGTATCTAGTAAGACAAGTACTCCCCC
M
AAAATCAGTAAAGTATCTAGAAGATTTGAATAAATATTAACAGATTGGATTCACTGACCTTGTTACAAGAAAGAATTATACATGATGATAGGAGAGAGGA
Celera SNP ID:            hCV26228490
SNP Position Genomic:     14390
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32703):
GGATAAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGCAGGGACATTTATGAAGCTAGAAAC
Y
ATCATTCTCAGCAAACTAACACAAGAACAGAAAACCAACCACCGCATGTTCTCATTCCTAAGTGGGAGTTGAACAATGAGAACACATGGACACACCGAGG
Celera SNP ID:            hCV26971257
SNP Position Genomic:     85646
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Gene Number:                 135
Celera Gene:                 hCG2039466 - 208000027180700
Gene Symbol:                 FLJ35838
Protein Name:                hypothetical protein FLJ35838
Celera Genomic Axis:         GA_x5YUV32VTKB(237880..279389)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12295):
GCACTCCTCCCACCTCAGCCTGCTGAGTAGCTGGGGCTACAGGCACACGCCACCCCACCTGGAGACTTTTTTATATTTTTGGTAGAGATGGGGTCTCTCC
ATGTTGCCCAGGCTGCTCTCAAACGCCTAGGCTCAAGTGATCCACCTGCCTTGGCCTCCCAAAGTGTTGGGATTATGGGCATGAACCAATGCGCCTGGCC
ACCTCTCTCTATATCTTTCCGTTACATGTCTTAAATTCTGCCCTTGGCTGATCTACCTATGCACCAGATCACATTTATTTATTCATTCATTTGTGTGGTA
GACTGCCAATTGTTCCCCAATAGAGATTACTGGAATGTATCGTTAGTCTCTTTTATCTCCTCTCACTGAATTCTGCTGCTTAGAACTTTAATGTGATAGC
TGGAACTTTATCTTGGACCAAGAAGGAGGGCCTCCTCCTAGGGATGGCAGACTAAAGAGGAAAAAGGAGCCTGGGTCTCTCAAGACTCCGTGGAATAGAA
TTGCCACGCCACTCCTGGAGGCTTTGCCTCTACTATTTTATATCAGGAAGAAACTTCTGGTTAAGCCACTGTTATAGGTTTTCTGTCCACTCTCAGCAAA
ACCTAATCCCGACTAATCACAGTTCTGAGATCTGGAATTGCACACCAAGTAACATAAGCTAAAGTAGTGCGCATGAGCTTAGTGAAGGAGGGTGGGTGTC
AGGAAGCATCAACACAGGCATGTGTGGTCTGGAAAGTGGATGATTCTTGTGTGGAGCATCCTCACATTTTCTCCCTCTTCCGTTCCAGACTCTTATCTTT
ATCTTTTATTTTCAGTCCCTCTCCTGGCCTTTGCATTATTTACTAATCTTAAATTTGCTGATATTACCTTATTAGTACACTAATAATGTGTAAATAGACT
TACTCTTGTAGCTATTTCCCCTCTTGGTTGTCTTAGCTCCATTCCCTTCAGTATCAAAATTCATGCATTCACTGCTTTGCAGAATCTCATTCCTGAAGCG
AGAATTTCAGACAGCTGGTAAATTTAGTCATTCAAAGCTTTAAAGTAAATTCATATTACAAAAGCAACCGCTTTATTTGCATTGTTTCCCAATGGAACAG
TTCAGCGATAACACTCATTACCTATTTTGACAACCAAGAAGTTGACATTAGCCAGAGACGGTTGCTAACACAATAATTATCTTTCCTAACTCATTTCTTT
AAAATCATTGTACTTCCAGACCATTGTTTTTCTCTCTTTCCTGAATCCCCTAGGTCCTATAAAACACGTCATCAGATTACACCATCTACTGTCCCTCAGT
TGTCTATATCATCCATACCCAATAGATACTCCCCTAATATTTTAATAATTATAGAGTTTAATAGAGGCTCAATACCTCTTTCACCACTCTTGCCATAATT
CTTAGTGATTCCAATATCCATTGAACAATCTTTCCAATACTCAGACCTCTCAATTTTTTGACCTCCTGACCTCCAATGATTTTTTTCCTCCATCTGACCT
CAGCTGCCAGTTCCAATGGTTACATCATAGACCTGGCCATCATCAATAACTGGCACTTCTCCACGGTTTCCATTTCAATCAAGCATCCCATTCTCTAATC
ACCAACTCCTATATTTCCTGCTTACTTTCTCTAAGATCCTCTCCAACAATTCTTTAACTCCCTTGGGTCCTCCATTCTATTGCTCCTGCCAACTTTTCAT
TCCATTGCAGCCCCTTTAGCCTCCATTGCAGTGAGGTATTACAAGCCACAGTTCCTTGCTTACCCAGCTTAGTTTCCACTGTACAATATTATAAATCACA
TCCTTGAAAACACTCTTAACTCCCTTACTGCGGTCTCCATCACCCTTGTCTAGTAATACTCCAATCCAAGTTAGATACAACTCTCTGTCTACTCTGTGCA
CACAAGTGACTGAACATGACTGGTCCTGTTTGCCATCACTCCCAATGACCCACTTGAGGGGTTTGTGCTGCCCCCTTCTGGAACTCTGGGCTTCAGCGAA
CTGGAGAGTGGGTGTTCTTTAAATGTTGCACCCTAGGTGCCTCCGTTGCCCTGGTGGACACCATGGTGTACCATCCAGATCTCCCCTCCAGAGTTGTCCT
GAATCCGGGCCAGGAGCACTAACATTCCTTTATCCACCAATYACTGGATGTAGGTGGCCCAGGGAGCAGGTATGACTTTGAGCCAGGCAGCTCTCATGAG
CCAAGGGCAAGTCTGCAAGAGACTGAGCGGGAGCTGTCAACCACCAACACTCCCTGCTGCTGGGGGCGTAAGTGCACAGGCTGTTCTAACCAAGCTGCTC
CCTCCTCAGGGCTTTTGCACTTCCACTTCCTTCTGCCTGGATGTTCTTTTCCTAAGTTTCCAAAGGATGCACTCCTTCACTTCCCTTAGGCCTGTGCTCA
AGCATCTGGTTGCCAGAGAGGTCTTCCCTAACAGCTGTATTCTCTCCTATCACTCCACTTTTTCTTCATAAAATTTAGCAGCACTCAACATATTTTATTA
CTTTAGCTGCTTGGTTTGGCCTTCCTTTGCTAGAGTGCATGCTCCAAGAGGACAGGGTTCTGATTTGTTTGTATCTTCCATGTCCTGAATAGTTCCTGGT
CTTCATTAGGTCCTCAATATGTCAACATATATTTGATGGGTGCACAAATTGAAACGCCTTAAATTCATAGTAGTCAGCTCATAAGGCAGAGTGGTTTAGT
GGAAGGAGCTTAGGGTTTGGAGTTAGACTGATTTTTGAAAACACCTTTATTTAGGTATAAGTAGCATTTAATAAATTGCACATATTTAAGACATAAACTC
AATACATTTTGACATATGTATACACTCATAAATTCACCACCACAGTTCACATAATGAACATGTTCTTCACCCCCAAGAGTTTCCTCTTGCACTTTTGTAA
TCCCTCCTTCCTGCCATTCTCCATCCCCAGGCAGCCACTGATTTGCTTTCTGTTTTTAAGAGTAGTTTGCATTTTCTAGAAATTTATATGATTAGATCAA
ACCATCTGTATTCTTTTTTTAGGTCTGACTTTTTTTGAGATTCATCCATGTTTTTGTGTGTTCCTTTTTTTGCTGGGAAAAATTTCATTTGTTTATTACT
TATTTTGGCTGACAGACATTTGGTTTGCTTATAGTTTGAGGATTGTTAAAAATAATGCTACTGTGAATATTCCTGTATGTTTTTGTATGGACATATGCTT
TCATTTTTTTTGAGTCAATACCTAGGAGTGAAATGGTGAGGCATGTGTTTAACTTTTTAAGAAACAGCCAAATTATTTTCCAAAATGATCGTACCATTTT
TCATTCTTACCAGGTATGAGATTTCTGATTGTTCCACATCCTTGCCAACACTTAGTTTACTCAGTCTTTCTAATTTTATTATTTATTTATTTATTTATTT
ATTATTTGAGACAGGGTCTCATTCTATTGCTCAGGCTGGAGTGCAGTGGTGCGATCATGGCTCACTGCAGGCTTGACCTCCTGAGTTCAAGTGATCCTCC
CGCCTCAGCCTCCCAAGTAGCTGGCACTACAGGCGCATGTCACCACATCCAGCTAATTTTAAAAAATTTTTTGTACAGACAGGGTCCTACGATGTTGCCT
AGGCTGTTCTCAAAACTCCTGACCCCAAGTGATCCTGTTGCTTTGGTCTCTCAAAGTGCTGGGATTACAGGCACAGCCACAATGACCAGCTTCTAATTTT
AGACATCCAATAAGTATGTATCTCACTGTGGTTTTAATTTGCATTCTGTGGGCCCAGCGCAATGGCTCACGCTTATAATCCCAGCACTTTGGGAGGCCAA
GGTGGGCAGATGGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAACCCCATCTCTACAAATAATACAAAAATTAGCCAGGTGTAGTGC
TGCACACCTGTGGTCCCAGCTACTCAGGAGGCTGAAGTGGGAGGATCATTAGAGCCTGGGAGGTCAAGACTGCAGTGAGGTGTGATTGCGCCACTACATT
CCAGGTTGGATGACAGAATGAGACCCCGTCTCCAAAAAAAAAAAAAAAAACCTTTTCTGCATTCTGCTAATGACTAGTGATGCTGAGGATTTTTTCCATG
CCTTTATTTTCCACGAGTATGTCTTCTTTTGTAAAGTGTTTGTTCATATCTTTTGCCCATTTTGTATTGAGTTGTTTTCCTATTACTGGGTTTTGAGAAT
ACACACACACAGAATACAAGTCCTTTATAAGATATATATTTTCCCGCAGTCTGTGGCTTATCTTTTCATTCCCTTAATAGTGCAGATATTCTTCATTTTA
ATGAAGTCAAATTTATCAAATTTTAAAAATGGATTATACTTTTAGTGTTGTATATAAGAAATCTTTTCCTAACCCAAAGTCACAAAGATATTCTCTTGTG
TTTTTTTTTCTGGACATTTTATAGTTTCAGGTGCTACATTTAGATCTATGATCCATTTTGAGTTCATTTTTTAATGTGGTGTGAGGTATGAACCAAAGTT
TATGTTTTCTGCATATGGTTATCCAGTTGTTCCAGCACCATCTGTTGAAAAGTCTATTCTTTCTCCTTTGGATTGCCTTGTATCTTTGTTGAAAATCAAT
TATCTATATATGCGTGGGTTTATTTTTGGACTCTCTGTCCCATTGATCTATTTATCTATCTTCATGCCAATACCACCCGGTCTCTATTTTACTTTAGCTT
TATGGTAAATCTTAAAGTCAGGGACGGTAAATGCAGTTCTTTTCCCTTTTTTGTAATCCTATCTTGGTTGAAAGTAGAAATCAGACTGATGCGTTTTAAC
TCTAGTTTGATCATTTAATTCTTGTGTGATTTCAGATAAGCCAATTAATTATGTTTATTATTCATTTATGTATCTGTTCATTGTTAAAATTATACATTGT
AATTCTTAAATTAAATGCTAATTATTATTAAGAGTGTGAACTAGGAAGACAGCTCCGGAAATAAAAGGAACTAGCCAGGCGCAGTGGTGCATGCCTGTAG
TCTCAGCTACTCAGGAGGCAGAGGTGGGAGGATTGCTTGAGCCCAGGAGTTGGAGGCTGCTTGGCAAAATAGCAAGACCCTGTCTCTAAAAAAATGAAAA
AAAAAAAAAAAAAGGTACTGGAACTGCAGGGTGGTACGGGGCATGGATAAATTTAATGTGCTCACCAGGGACCTCTCACTATCTTTCTCAGTACAGGGAC
ATGCTCCTGCCCTTTCATATTCCATGTTGAAGTTTTGCAACAAATTCTTCCTGACAGTAGGACCAATCACTTACTTTGAACTAAAAGAACAACAACAAAT
AAAGGTGAAAAAGAAAAATAAAACTGGTCAGCATCCCCGAGTTCAAAATAATTATTCTACCACATCAACAACTTTCTGTGCAGCTTTCTAAAATTTTTAT
TTAGACAGAAATTGTTTTAAAAAGAAGGTTGCTTTGAAACCAAGGTTACAGTAGCTTTTTGGCCCGCTTGCCGTGGCTTTCTCCAACTCTCTTCTTCTTT
TCAGTCTTTGCAATACCTGTCCCTGCCGGTCTCCAAGTGCCCCTGGTTACAGGTCAGCTCCACACTGAAGGGGAGGAGCTACTTCCTAGGGTCTCTTCCC
AGCATCACAGCCCTACATCCCAGCGACCAACGGTGTTATACTCCTGGGGGCCAAAGAGGACCCTGATTGCTTTGTTTTGTGCCATGTGAGTACTATGTCC
AACAGGATGGCTGGTGGACGAGAGACATGTTTGCCTTTGATTGGATTCATTCTTATCTGTCTTAAAATGGTGAGTTCATCATTCCAACTACCCACAACTA
TTTAGGGGAAAAAAGAAAGACACATTATTTTTCTCTCCTTTTTTTTTTGAGGAGTTGGGGAATAGGGAGATAGAAATCAGAATACTTTGGTTTGTACCGA
GGTTGTATATGTTTGCGTGTTTGAAATTTAATGCCATATACTAGAGAAAGAAAACAAGATTATCATTATATTTTAAGAACAAAGATTTCTGAAAAATCTG
TCAGCAGCTACTGACTTAGTTCAATAGGCAGATTCAAAGGGGAAAAAAATGAAATAGTAATGGGATCTGCCTCCAGCCTCTAAATTCTATTTAGAGTTGT
TTTGTGGTAGATTTGGGTGCTGGGAAATGATTTGTGTGGAGAAATACTTGTATGGATTGAAAGACTGCTCACGTTAGATGTAAAAATGTTGTGATTAATT
TATTACCGCTTTTATTCATGTTTTACGTTTGTTCAAGTTGTGTTTTTCTGTGTGGTTCTAATTTTCCAAACTTTCCTTTTCAGGTTGCTTCAGCAAAATC
AGGTACAATTTTCTGACCTGCAAGTTTTTCCTTCTCGTATTTGATTTTAATTTCCATTGTTAATTCACGGGCTACCCTGAAATCTAAAGGCTATATGAGA
AAAAAAAATTCAATATTTTCTGAGCACTCACACTGGGTGCTAAGCACTCTATTGGGTCCTGGGGAGACAATAACTGGTAAGACAAATAAATGGATTGAAC
TCGAAAGACAAATCTTCATAAAGTGTTCTTGCTGAGGACTATAATGTACAGAGCCATGTAGGCATGCATTTTCTCATATACGGTTAGCCATGTGTGAAAT
ATTACAATGATCATCATTCCAGTTAAGATATTGTACAGAGTCTAATTTATACAAATGTTCTTGTTTATCTTCCGGGGAATTAGAGGGAAAATGAGAAATG
TTATATTTGATTAAATTGTCAATATTCCCTACTTTAAAAAGAACTTTATACTTCTAATATTGCATATTTGAAATATAGACAATAGTCACTCAGGGCTGAA
AGGGGACCCTCTTTTAAAAATAGTTGATCTCCATCTTTCTTGAGTAGATAACCGAAGGCAAAAATAATTTATCTAGAGGCCCCTCCTAGCTCATTTGTGC
TAGAAATCTAAGTACCTGGAATGGAAATTTATTTTTAGGAGGGTTAACTTATCTGTAGGAACCACATAATATCAACCATATCACCGATAAATTCTCATAG
TGATTCAACATAAATTAGAAAAATTTTTATTTATTATTTTGTCTACACCACAGAAAAGGAAGTGAAATTAAGACAGTTAAAAAATTTGATACAGATACAT
GTCTGAGCCATGAAATTTCATAAAATTCATGCATATACAGTAAGTTTTTAAAAATTTCTATTTCCTGGCCAGGTACCAAGGCTCACGCCTATAATCTCAG
CACTTTGGGAAGCCAAGATGGGAGGATTGCTTGAGCCCAGGATTTCAAGACCAGCCTGGGCAACATAGCAACACCCCACCTCTTGCTTTATTCTTATTTA
CTTGTCTTATTCTTGAGAGWTCTTTAGGATTAGCCAGGAAACTATAGGAGGGTCTGCTTGGCCATATACAAAGTGGCATTTTTTTTTTTTTTTTTTTTTT
TTGAGACAGAGTCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCGGTTCACTGCAAGCTCTGCCTCCCAGGTTCAGGCCATTCTCCTGCCTCAGC
CTCTCCGAGCAGCTGGGACTACAGGCACCCGCCACTACCCCYGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGGTCTCGATCACCTGA
CCTCATGATCCGCCCGCCTCRGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGCGCCCGGCCGGCTTCTTAAATAAGTCGACTTTGGGTGGACA
GAATCTAACTCTGCCGTCTCTTACAAGGTCCTAGCACACCCAGGACAGACCAAGCCCTCAGAACAGGCCCCTTTTTGGTGTTTATAGCATCTGCACTAAT
CTAGAGAAATGGTGGGTCAGGCTAAGCTACTGATGCTGCTGCTAATTGACTCAATTGCTAATTGAGTCCCGGCTTTTCAACAGATAGAATGTGTTTTAGC
TACACTGTATAGAAGGTTTCATTTTGGTTGTGTGTGTTTTGATTCTCTTTGGGCTCTGGTATTGCTGTGTATCTGTGTCTGGTCACTGGGGCCTCGTGGG
CTAATTTAGATCTCTTTGAGCTGGTGGAATGCACAGATGCTGAGAATCAAAGGGTTCATTTTTGACTGACCAGAGTGGTTGGTTGCACATCTAGGGAATA
AAGTTTTCTCTTTCATCAGTCCAGTCAGTGGGCTAAACATAGAAGTAAGAAAGAGTAAGGAACTGCTGCTATTTTATGGACTTTACACTCCAGCTTCTCA
TCTACTAAAGGGCAACATACTACATAGGTGTTGATCTCATTTCATTGTTGATGCTGGTCACAGCCTGCCCTAAAACCAGGTGTAAAACAGACAATCTCTC
TCTYCAGCCTGTGTTTGCCGCATACTCCTCAGAATCCCACTTTCACAGGACCCCTCCATGGCAGCGCCATATGGTCTGGCTTTTCCGAACCCATCAAAAT
TTACTTGTCTTGGCTCATACACAAACATGCRCGTGCRTGCGTGCACACACACACACACACACACACTTTCCAAGTGCCCTAACATACATTATTTCACTTA
TTCTTTACAACAATCCTAAAATGCAGGTATTTTAAATTTCAAAGTAAATCCTAATATGTAGGTATTAATAATCCGTATTTGTCAAGGAAGGTAACAAGTC
TAGAAGAGGTAAAATGACTTGCATGCCTTCACACACAAAAGTAAATAGCAGGGCCAGGGCTCAAACCCAGAGCTCCTGAATCCAAACCCTTTGCTATTTT
CCCACCACACAACCCCGAGTTTCATTCTGTGATACTGGCTTCCTGCATTATGACTTCCAAGCAAATGTGCCTCTCCTAGATCAATTCCATGAGGCCAGTT
TTGTGGAGCCCGCGGGCCCCATGACAGGCCTGTGGGGAGAGGGTCTGTGTCATGCTAGCCTTTTAGATGCCTTTCAAACTGCTCCGTGAATGCATGATCC
GGCCTCCTGKGTCTGTGGCCAGTTTGGCTGTCATTTTCCCAGGAAGTTAGTTCATTCCAATGAACAGAACTGGTAACATAGGAGATAAGATTAACTCTGG
GGACAGAGGAAACAGAAGGAGTTGAGAGACACCAGAAAATTAGAGGAAAGAAGGCATATAGCACAGGATMATTAGCTTGGGGAGCAGAAGAKRGGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGAAGAGGGAGCCCCTGCTGGGGCTTTCTATTCTGTAGGGGAGAGAGGGAGCGAAGC
CCTTTCCTATAGAATTGGCTTCCACTGGCAAGTGGCTATGATGAGCAGGCCTGAGATTTTCCTCCAGCATATAYAAGTGTCATAATTTTCTTTCAATGGC
AAAAGAGACTATCCTGGGTGATGTTCAAGGAATGTCTGGCCAGGGCACAGAGGAGACTTTGTTCATTTTTGCAGCATGGTTATTTCTGAGATGCTGCCAA
AGCTAACTCTCTGGGCTATTGGTACAGAAAGAGAAAGTTGTCTGTATCGTGCACATAGGGACTTGGCTCTGGGAGAAGGGGAGCTGATGCTGGAGAATCA
CCTGTCTGTCTTTACTCCTTCTCCCTCTTTGCCCTATAGTTCTGCTTGTTTGTCTTCCCTTTAGTTTTGAATTTGACATATAGTGATTTTACCCAGCAAG
TGGAGTACATTAAACCTGAAAGTCCAAGTGCCAGTTTCAAATAAAACTCAGCTATTTTTGTTTGACCTTTTCTTCCACTTAGATCTCCTATATCCAAGAC
ATTTTTGCATCTATGGAATTTTGTAAAGTAGTCAATCTGATTACTGTGCTGTATCTCCTACTCCATACTCCTGAGTGTAGGAATGCTTTGTGTAAGCCCA
TGACATAAGCATTCATATCTCCTGGCAAACCATAGCCCGGCCCATCACATTCTTATGCTGAGGCAGATATTGTGATAGAGAAAGGGAGAATAAAGTTTAC
TTTTATTTTGTATGGAAGAATCTGAGAATTATTCCACTCTGATAATATGAAAGAAAGTGCTATGGAGTAATTATAACAAAGAACTCAATCCTCCCTCCTT
GCTCCATTGGATTAAAGGTTATCTGGAAAACGTGCAAAGTGCATGAGAGAGTGACCGCAGCCACTGAGCGGAGGCAGGAGGAATGGAGATGGGTCCAGCT
GGAGGCAGTGGGATGGCTGTGGGACCAGGAGGGGAGATCAATGGCAAAGCAGCCTGCAAAAGTCACAGAATGCCCAAYTGGAGTAGAATACTCTGGAAGA
AAGCCTCTCAATTATTYTCTCTCTTCCCAGAGTTCTTTCCCGTAATTACTTCTCATTCTTATTTAGCTCTTTTAAAAGTACAAAAAGTGCAAATTACCCC
ACAGGCAATTGGGGAAAACTTTRAAATCCCATCCCTGAATGAGAGGTTTGAGCTTTCTGGATCTCTTCTGGAGAGTAGCTTTGTCTTTCTTTTTCTCTGT
TTTTCCTTGATCTGAATAATAAGGGCAAAACTTCTGTCTGAAGGAAGGCATGAGAATGATTTAGCTTGAAGAGTAAAATGATGAAAGAAGTCATCCTCRT
AGGTATCTTGGCTAATGTACAACTCTAAAACCTCTTTCAGCTCCTGAAATACCCACTATTGATCAGGCATATTCAAAACTCAGCAACAGTATCACTGTAG
AATGGGCTACAGTGCCGGGTGCCACCAGTTACCTCCTCACGGCTGAAGACGGGGACACAGTCATTGAAACCACGGTGGCCAATTCCCCAGGCACTGTGAC
GGGACTAAAGGCTGCAACCTGGTATGAAATCACCATCAGATCCATCAGCGCTGCTGGGAGAAGCCAGGCGTCACCTCCAAAGCAGGCAAAGACAGGTGGC
TGGATGGATGCTCATCCTCCGTTGAGTGTTTGCTTGTGACTTGGATCAGTTATCCTGGTGCTGCAAATGCAGAATGTGATTTGGTGTCACATGAGTGCCT
ACAATTCAAGGCCCAGAAGTGAAAGCTACCAAATGATGCTGTTTGAGAATTCAGCTATCTGCGGAGGAGGTGGCATTTAAATGCCAGCTGCTTTGCTTTG
GAAAATAAAGCCCATTTCTGGGCATCTTTAAAAGCATCCCAGCTTTTAAATCTCTGAAATAGGGATTTCTGGTTTTAACACGCCAAATGAAGAACACAGA
GAAGGGATTTTGCTGCACTCTGACCGTATGGCATATATGTTAACAAAACAAATAAAAGCATTTGGAGTTTGTCATCAGCATTACTGAAATTGATTTGATA
AAGTTGTACCTAGGCATATTTCTGAAAAGTTATGTGCACATTAAAATGGTGTAACCCCTAATTTTCCCATTGATTTATATTATGATTATAGGAATGTTTT
ATCTAATTTCTGACTAACTTCAGTTAAAAGTAGTGCCTGATATTTAGCGTTTCTCTGTTTCCCATTCCTCTGCCAAGTCATTTATGATTAGTATACACTT
AAATAGCAATTATTTAATGAAACTTTGTTGTGAATGCTCTTCTAAAGCAAATAATTATTGTATATTATGGATATCAATTTACTTGCTTCTAAATTTGAAT
TATCCTCTATTGGACTTTGGTAACACAAATGCATGTGTTTTTATTTTTTTAGTGTTGGCTGCACCAATTCTAGAAGTAAGCTCTCCAAGTTCAGACTCCA
TTCTTGTGCAGTGGGAAGCTGTATATATGGCAATTGCATTCTCYGTGTCCRTTATGCGAGCCAATGGCTTGGGGARTATATGGAAAGAGAATACTACAAA
CACCTCCTTGACATTCACCAGTTTAGAAGCCGGAACTCTCTACACCATAAAGGCCTATGCATGGAATGCCAACAGAATCCCTGGGGATGACTCCACCTGC
AATCAGAGAACAAGTAAGAACTTCTCAGCTCAGCCTCGAACAATTCTACTTTTGATTAATGAGGGGGGCTGTGTGTTGCAGCCATCAAGGGCAGTGTTAC
ATGACAAGTACAGAGCAGCTGGCAACAGCTATTTAAATTTATTATAAAGTTATTTATAGTGCCTTGTCTATTCCTCCTCGGTAGTTTAAACGCTTCCTGC
ATGGATAAAGAAATGCTACTCAGAATGCACACAGCATGGCTCCGCCCTCTAATATCCAACTCAATTTCAGCATTCACATTCGACCTCACACAAAAGAAGA
TGATTCTTGTTARGTTTACCCATCACCCCTTGTCCCTTTCTGGGTTCAGGCCAATTAGTATAAGAATTGGGCCAAATAGGAATTCATTTGTTCAGCAGAT
ACTGAGTGAGTGTGTGCCAACTTTGAGCTGGCATTGTTCTAGAGATACAGCAGCAAGCAAAGCAAGGTTTCTGCAGGCACAGTGCTTGATGCTGCAGTGG
AATTCATGTTTCAGATCTGTTTCCCAAAGGCCTCAGCTTGGGTCTGAAGTCAGCATGGGGCTTCCCACTATTGCTCCTCCAGCTGTGGGGAGAAGCTGAA
GCTTGGTGTGCATTTTCTCACCGTCCCACCTAGAGGTCCCCCGAGCAAAGGACTCTGCAGCATTACAACTGGAGGTCCAAATTGAGCTGCTGGAGTGAGC
CAAGCGAATGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAACGAGAGGGGGTGTTTTTTCTTTCCTTGAGGCAGAGTAAGCCATCCACTGGCAATGTAACC
TACATAGATAGGAGACTCTCACCAACCAGATTAGCTGTTTCTCCACTTGGGGAGGACACAGGAAAGGATGGAAAGAAACCAGAAATGTTCTCTCCAACTT
TCCCTAAGTTTGGAGGGGAATGGAAGCCCCATAGTGTATGGGCCAAGGCAGAATGTAGGGAGAAGAGAGGGGTTTGCCTTTTATACTATTTCCCTAGGGA
GGTAGTATAATCATAGCCCTGCGGTGATTCATGACAGTCTTGGTGAGTCAGGATGTCTGTGACAAGTCAGTCTCCCTGGGCCTTTTCCTAGGCTGGCTGG
CTTGCTTTCTTCCCTCCTTCCCTTATCTTCCCCTCCTGTCCTTCCCTTTCCTTTCCCTTTCACACTGCTTTTTTCTTTCCACATTTGTTGAGGGCCCACT
GTGTGCTGGGCATAAGTTAGCTGATGGAAATACAAAAGCAAATAAAGCATGATCCCTCCATTCAAAGAATGGACTATGTCAAAGGAGAGACCAATGGTGA
GTCAGCGTTTCCAGTTTCACCTGACCAGTGCTTTGGCAGAAGGCTGCCGACACAGCGAGGCACAGGAGGCAGCATCTTCATCAGGCTGGGGCACTGAGAC
AGCATCCCCTAGAATAACTTGTTTCTTAAAGACTTCCCCTACATAGGTTTCCCCATGTTTTACAAAGCTTTACAGAGTTTAGATTTCACCTCTGGATTAG
TTTCCTAGGGCTGCTGGAACCACAAACTGGGTGACTTGAACAATAGAAATGTTTGGTTTCATGGTTCTGGAGGCTACGAAGTCTGAAATCAAGGTGTTGG
CTAGGTTGGTTCCTTCTGAGGGATGTGAGGAAGAATCTGTTCCAGGCCTCTCTCCTTGGCTTGTAGATGGTTATCTTCACATTCACATGGAATTTTCCCT
ATATATGTGTATCTGTGTCCAAATTTATTCTTTTAATAAGGAAATCAGCCATATTGGATGAGGGCCCACCCTAATGATCTCATCTTACCTGATTACATCT
GCTATGACCCTATTTCCAAATAAGGCTACATTCTGAGAGTACTAGGGGCAAGAACTTCAACATATGAACTTGGAGGGAACTCAAGTCAACTCATAACAGG
CTCTCACTACTCTACCTATTTTTCCTAGTTCTCCCATGCTTCCTGTGGGAAAAGCAAGTTGCCCTAAAACACTGCAGGCTACCCCTACCAGCCCTGGGCC
CAGCACTTCCCTAAAGCAGAACTGCCTCTGCAGACTAGCTGACCATGCAGTGGGAAGGGGCCTGTCRAGATGGCCCACGGGAAAATCATGGCAGATGCCT
GCCTTACAGAGAATGAGTTAGGTCCTCATGTCCTCAAAGAGGCCTTCCCGGCCGGGCACGGTAGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAG
GCGGGTGGATCACGAGGTCAGGAGATCAAGAACATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCAGAGCATGGTGCCG
GGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCCCGGAGGCGGAGTTTGCAGTAAGCCAAGATTGCGACACTGCACTCC
AGCCTGGGTGACAGAGCGAGGCTCCGTCTCAAAAAAAAGAAAAAAAAGAGGCCTTCCCTGTTTGCCCCAGACATGTCCAGAGGATGCTGGTCTCTGCTCA
CAGACTGTTTAAGCAGTTTCCTAAGGCCTGCTGCGTGGGCGTTATTACAGTACAGATTCCAAAGAACGGAGGCCAATTTCTCCCCTCCCCAGGCCAGGAC
ACCTTCTTACGCTTTTTTAATGCGGTAACTCTTAAGAAAGGAAGGTATATTTACAAGAATGTAGGGTTAAGTGTTTTGGAGACACTAAAAGACTGCCTTA
ATATGTATGCATCACACTTGACACCTTCCTTCCTTCCTTTTGATAATGAATGGAAAGAAAATCTGCTCCTCTAGAAACAATTATGACCGAAAAGCTATTA
CAGTAAAAGTTGTAGCAGATGTCAAAAGTAACGAAGGGATATGTTTAGTTTCATTGATCAATAACAGAAAATATTTGACCTATCACTTAATAATAACGTA
CCCACGTGGCCCTTTTAGTTCTCCCCATTTATAATTTCATTTAACTATTTTAACTACTTATTAAATAATGCATTAATTCATTCAAAATATGTCTTTTGGC
ACCTATAGGTGTTAGGCATGGATCTTATTAGATCTATTTAGATATAAGAAAAAAATAAATAACAAAAAGGGTAAATAATATGGGGTCAAGGTCACACAGT
ATATTATGAGTTTGCATAGTAGCAGATGAATTACCAGTTCCCAGGCATCATCCTAAATCCCAATTTTATGCTTTGAACACTTGTAATTATCCAACTATTG
GGTACCTTATCCTCCAGGCTCTGCAACATTGTTATGCCAACTCTTACGTAGTTTGTAAGGCTACTACAAAATCTTAATTGTTTCTCTAAAATGTAGGTCC
TCGGGCCCCTGCCAACATTCAAGTCTCTTTCGATAGTGGAGCTCTGAAGGCATCTTTTTCCTGGGCACKGGCAGAAGGAGCTTTCAATTATACTGTGATG
GCTTTGAGCGACTCTTCAGAGCTGACCTGCAGTACAACTTTCAGTTCCTGCACCATCTCTTCCCTCCAGTGTGGAACTGAATACTTGATTTCAGTTTTAG
CAAGTAATGATGCTGGATCTAGCAAATCATCTTCAGCAATGACCCTGAAAACTGGTATGTAAACAAGAGTGAGACTGCTGTCGGGCTTGCAGCCCTGACT
GCTGTAAGGGAGACGTTCACTGACAATGTTTCTGAATACTCTGGAAAAAATGAAAATGAAAGCCTGGTCTAAATGAAAGCATAGAGTTGGACATTCTCAT
GAGTTTGAATAATATTGATAGTGAAGCGAGATATTGTGTATTGCAAAAAGCACTTTTTGGAAAATTAGGAGGCCTGGTTTCTATTCCAGATCTTTCATTA
ATTAGTTTTTTCTTTTTCCTTTGTAAAGCTGTGAAAATTCTAAGATGTGATTTGAGTTGTACACAGCTCTAACTGTGCATACAGATAACTGCGTCTTCTT
TGTGTCATGTCTCATGTCCTAGGCTTGGTGGGAGCCGCCATTTTTTTAAGAAAAAGATAGGATATTTCTAGTTCTGAACATGTGTTTAGATATTTTTCCA
TTTTCATTCTTATCAGAGAGATAACCACATACACATGTGGAAGTTGACTCCTCTATTTAGAAATATCTATGTGTCTTGGGGATGGAAACTAACACTTAAT
GAAACTAACACTTAATGAAGACCTACTATGTCTCTGGCACTATAAGTATGTTATTTCATTTAAATCTCATGACAACTCAGTGAGKTGGGTTCTATTTTCT
CTTTTTTTACATAAGAAAATTGAAGCTCAGAGAAGTTAAATAATTTTCCTAAGGGCACACCGATAATAAGTGGTAGAGCTGAGATTCAAGCTGCTCAAGT
TTGCCTAATTCCAATGCTTAAAGCCAAAGAAAATGTTGACAATTACAATAATATCTACTTTATCTAACAGTCAGTTATGTCATTCTAAGTTTAAAAAGCT
TCTGAACAGAAAGAAAAGGAGCTGTCATCAAGTTGATGCACTCCATTCCACAGGAAAAAAAAAATAAAGCTATTCTTTCAGGCCCGCACTCTCTTATAGT
TATGTTAAATTAAGGTCAATGATAACAAACTTGATGATTTGGCTTCTCTTTTGACAACTGTGATTTAATGTGAATGGTACATTAGAAGCGATTATGAGGA
CAAGATAGCTAAGAGTGGGAGAAGAGAGAAAAAATACTTTCAAAAGCATAGCAGTTCTGAGTTACGCAGTTAGGCATTTAATGCAGGGGAGAACCATGCA
GAGTTTTTAAATCTTGGACACACATTAAGAGCATCTGGGGAACTTTTACAAAATCCCAATACCCAGGTCCCACTTAAGACCAACTGGAGTTGCTGGGAAT
AGAATTTGGATATGAATAGTTTGTAAAAGCTCCCCAGTTGATTCTACTATGCAGTCAGGGTTARGTGCCATTGAAATAATCCTTCACACTTAACAGGTCC
AGGATGTTCTAAGGCAGTTTGTGTATAACACAGTCATGATCATAGGGATGACCTTGACTTATTARTAAAAGAACTATGTTTACAAACTACGGTGTGTCTC
CTGGGGCCCAGAAGTGTGTAATATATTTCGGGAAGATTTCCACTAGAGAAAACTAAAATTTTTAAAGCTTAGCACTTGAATGAACAAACTTTACTTGAAT
TCATTCTTTCAGAAGATTTTGTTCCATCAATAAATGAGGCATTATGTGGATAAATGAGGTATTGCCTTAACACAGAGAAACAGTCAATATTAATCAAATC
AATACATGCCTGCTTTTGACATAGTCTAGCACTTATTGTGTGAGATAAATTTTAGGACATCTGAGAATGTCTCCTGGGTTTGTACTGAGTTGTACATACT
ATTTGATTTGTTCCTTATTCGTAGCATCTAGTATCTTAACTCTATGCTTAAGATGCTCCCTGGAGGATGTAATGGGCATRAGAATGTATTCTGTCATTCA
GTGCATGAGAGGCTGCAGTTAGAAAAACTTTCCAGGTTGCACACGGGGGCTCATGCCTGTAATCTCAACACTTCAGGAGGCCGAGATGGGTGGATTGCTT
GAGTCCAGGAGTTCAAGACTAGCCTGGGCAACATGGCTAGACCCCGTCTCTACAAAAAATACAAAAATTAGCTGCTCATGGTGGCATGCACCTGTAGTTC
CAGCTACTCACGAGGCTGAGGTGGGAGGATCACCTTAGCCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGTGACAG
AGCGAGACCTTGTCTCCAAAAAAAAAAAATTAATTAATTAATTAATTAAAAAATAAATTTAGGCTGGGCGCATTGGCTCCTGCCTGTAATCCCAGCACTT
TGGGAGGCTGAGAGGGGAGGATCACTTGAAGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACTTTGTCTCTACTAAAAGTACAAAAATTAGTT
GGGCATGGTGGTGCACACCTGTAGTCCCAGATGCTTGGGAGGTTGAGGCAAGGGAATCACTTCAGCCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCAC
ATCACTGTGCTCCAGCCTGGGCAACCGAGTGAGACTCTGTCTCAAAAAAAATAATAAATAAAATAAAAAATAAATTTAAAAAAATAGTTTTTTTAATAAA
AGAATTTTCCATGCTATGGAGGCTTTACAGATAAACCCCCAGAAAGACCCAGCTCCATTCCTTCCTACTTATGTGATCTTAGACAACTTACCAACCTCTA
TAAGCCTCAGTTTCCTCAATTGTAAAATGATGATAGTTGCTGGAAGAATTAGAGAATATATTAATATAAAACACAATGAATGATGTCTGTATTTTAATCT
CTAAAACAGGTAACTTCTGGGATATTCATTATTCCACTCAAGCCAGACTAGCTTCATCTCTGGATGAAGTCAAATATTTCAACAAATAATCTAACGATGA
AAATTTGTATGTCTTAAGATGACTATGAATCTCTGATGGCTCATTATTTCAAACAATATTTCATATAACAAGAGAATGTGAGAGGTCATTAAAATTTGTT
GTAGTGGTTTGGGGCCTGTAACATAGCCTTTGGTCCTATAAAGAAAATCTTCTAATGCTTCCAGTGCACAGTTTTGCATTTTGTGCACCAAATTCAATCT
GTCACAAAGCTCAGAGTTGCTAATTTGGGTTGTATTGAAATCTTGGATAATTGCAAAGATGCGAAGAAAATCTCCTGCAGTAGTCTCATGTTTATTATTG
ATCATTTCCTAGTTGCTTGTGCACCCGGAAGAGTGACGATCCAAGAAGATCCCCCTGGCCACCTGTCTGTGGCTTGGTCCARTGTAGATCTGGGTGACTA
CTATGTGGTCTTTGTGAAGAGTGATGATGGCTTGGAAGTACACTGCAACACATCTCTCACTCAGTGCAACTTCTTATCTGAGTGTGGCTTCACTTATTTT
ATTAGTGTTTTTGYCTATAACAAGGCAGGGCAAAGTCCTTTGGGTGACATATTCARTTATACCACAGGTAAGTCCCATTTGATGTTTGTTAAGGGAGTTC
TGAGATCTCTAACCTCAGCAGCAGAATGGATCACCTATTCCACTTATTGACTTACCACCTGGGAGTCATTCTAGAGCCAAGAACAGAAAGTAATCTCTTA
TCTCACATTCTTTCCAGACTAGGGAATTTTGGCTTTGTGGACCTAAGCATAACTAGACTGCAAGGTTTGGGAGTGAAAAGAGGAGAAAGAATGTAGTTGT
TCAACCTTGCTCTGAAAGATTGAACTCGCCACAAAGATGTACTCAGTGAGTGTTCTAGCATGTGCTGCTGCCAGAGAGAAGGCAGTGCCTCYGTTTCAGG
AGGTCACTCTTTCCCTGAGACCAAGACAGACATACAATGGCCAAGACGCTACATGGTGTGGAGGGCTTTGGAGTAGGACACCTGGGTTTACACCCTAACT
TGACCACTAATTCATTCCTTCAGTGAGGATAATGATGCCCACCTTGCTAGTTCCTTAGTATCCTCCACTGCAAAATGGGACAAATCATGAAAACATGAAT
GTAAAAAGGTCTTGTGTGTGACAAAGCATGATGCACATATTTTTATTATTAGCATCACCGTTGCTGTTGCTATTATTCTCCTCTACTAGGCTTGCATCTT
GTACAAGGCAGGAATTATGTCTTATTTATCTCTTCATCCTCAGTGCTTATAATAGTGTGATCAGCATATGGGAGATGCTCAAGTTTTGAAGAATGAGTGG
AGTGATTTGAAATTAAATAACTACATTACAAATAAGAATACTCAAACATAATTATGTAAAAGTCTAGCTGAATTACAGTAAATTTTGACAGGATGAGGGA
TCTAAATCATTGGTGCCTTTGGAATGTGGAAAAAGAGGCTATCGATAAGGTCCCGACACGAGAGGGCCCTCCAGAGTGGCCTTGAACTGGATCTTGAAGG
ATGAATGGGAATGTAGGTGGGGCAAGAGCATCCCAGGGAAACTCCAAGCTGAGTCAGACATTTGCCAGTGGGGTTCTTTAGGGTCTCTTAAGACCTACCT
ATATACGGCCGGGCACAGTGGTTCACGCCTGTAATCCCAACACTTTGGGAAGCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTTGAGACCAGCCTGGGC
AACATGGAGAAACTCTGTCTCTGCTAAAAATGCAAAAATTAGCTGGACGTGGTGGCATGTGCCTGTAATTCCAGCTACTCCAGAGGCTAAGACCTGAAAA
TCACTTGAACCCAGGAAGCAGAGGTTGCTGTGAGCTGAGATCACACCACTGCACTCCAGCCTGRGTGGCAGAGCAAGACCCTGTCTCTKTGAAAAAACAA
AACAACAACAACAACAAAAAAACTACTTATATAACTGTGAGCCCTACCCCCCAGTTTTATTTGGTTTACTGTCTGGAAAGGCTGACAGGATCTGAGAAGT
TAGACTGCATATGATTTTACCAGGCAGAAGAGGGGAATGGCTTTCCAGTGGAGGGGTCAGCAATCTTCTCTGCATAGAGAACAAGGGCGCACGTGGCGTG
GGGGAATTGAGGAGTCTGGTGTGGMAGGGAGTGGGGGGAGTACAGCAGAACCTTATAGCTTGCAATGACCTTCAATGTCATGCTGAGGATTTACCCTCTA
TGCAGTGGCAATTAGGCCAAGATTGGACCTTGACAGACCCATAGGGAGTCACTGTAGTCATCAGGGAGGGCAGTGGCAGAGGCTCTGGGCATGGGAGGTC
AGGACACAGTGTACCCCCAGCTGCATTGCTCTTGATGGGACCRCCATTTTCCCTCTGCTCCTGCTTTCAGCTCCCTGTTGTCCTAGTGACATTAACCCCG
TGTTGGTGTCCAGTGACAGAGTTGAGATTGTCTGGTCTCCTGTCCGTGGTGCCGAACTGTATGAAACCAAGGCTGTAGATGGGTACAACATGGTTGAGTG
CAAYGACACTACTCCTGCGTGCACCCTTTCGGCTCTAGAGTGTGACACCAAGTACAACATCACAGTGTATTCATTCAATGAAGTCCGAGGCAGCAATATG
TCATGTACTCCSCAGTTCATAACCACAGGTAAGGCACAGCTATCATTCCACTCACTGGTGTCTGAATGATTCACCCCAGCTCTGAGCCTCAGGATGGGCA
TTCAGTGAGACCAATAAAAAGGTTAAATCCCATTAATCAATCTTTGTGGAGACCAAGAGAGCCCCCGTTGTACGAAGGAGAGGCAGAGGAGAAGGCAGAA
GAGGAAAGTGGAAAAAATGAAAACAAAAGGGGAGACCACGGGGAGAGTAGAAGGTTTTGCCCATGATGACTTCAGCCATTCGGTTCCTCCTATCTTTGAG
GGGCCTGCCTGTACTCACACCATGAAGGTGTATAAATATGTTTCTTACTTACTTTTGCTTTTGGAGTTCACAATGCTTTTAAACATTTTCCAGCTAGTCC
AGTACTCTATGAACCCAATGCCCTGTGTTAATGTCAACAGTTCCCCACGCATAGGCACTATGAATTTGGCCCGCATGCATGACGTGGTTGAAAACTGTGA
TGATCTCACTGGGGGCAAAATCAGTTTTAGACCAAATGRCACATGTGATATTTTTGACTCATGCTGGTTCAATTAATACTCTAAAATGTCTTAGCTCCTT
GCAGTCCTGAAATAAAAAATGTTTCAAGGGATGCATTCTCCATGATTAATGTGCACTGGCGATCCACTAATGATGATGCTACTTACACRGTGACTGCCCA
AGGGGAGAAAGGACTGTATCAGTGCAGCAGCACAGGAGAGTCCTGCACCATGCGGGGCTTGCCCTGTGGCTCAGTGTTCTCTGTCACTGCTGTGGCCGAA
ACACAGGCAGGACGGAGCCTGCCCAGCTACAGTGTGCCCCTGGAAACAGGTATGTAGCAACCACCAGCCTGAATGTTGACTTCAGTGGGGTCCTTATGGA
GTGTTTCAAGACATGAACTTCCTTATTTAATCTACCCTCAGTGCAACAGAAATACATTAAACTCAGAGACGTTTCAAAGAGTCCCGGTCATAGACAATAA
AATTTTCAATATTTTACAAGTTCTGTAAAAATATCCTCAAGACTAGTATATCCATTCACTGGCATCAGAGAAGGAATACTTACTCATTCTGCAAAACATT
TATTTGAATTCATATTCCCCTATGATATAATCTATCGAAACAGCTAACAAATGAGTAGCCAAATGAGCTGGGTTGTTACTTATTTCTTTGGCTCAGCCCT
TTCAAATTTTTCTCTTTAAAAAATGCTTTCTGGCCAGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTC
AGGAGGTCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTGAAAACACAAAAAATTAGCTAGGCGGGGTGGTGGGCACCTATAGTCCTGGCT
ACTCAGCAGGCTGAGGCAGGAGAATGGCGTGAACCCAGCAAGCGGAGCTTGCAGTGAGCAGAGATCATGCCACTGCACTTCAGCCTGGGCAATAGAGTGA
GATTCCGTCACAAAAAAAAAAAAAAATGCTTTCTGACTTTCAATTTCCTGATAGGTAAAAGGGAGATAATGGCCTCATAGGGTGGCTATGAGTATTAAGT
TGACTAATGCTGCAAAGCACTTAGCATAATGCCTGATGCACAGCAAGAGCTCCATAAAAGAAAACTATTATTACAGCGTAGCATTGTGTATGAATGAAAC
GTGGCAAATCACTTCAAGCCTGTGGACATTAGTTTTTCTTATATACAGTGATAGATGGCACTTTGGACTATAAAAGTTGAAATACCTAAAAAAAGAAGCC
AGCAGTAAGATAGAGACCATACAAAATACTGCATACGTGAAGATGTTAGGTATCCTATATTCGGGTAATGGGTCCCTGAAAAGTCAAGATGGCTGTGGTA
TTTTAGACAGCTAAGAAATCAAGCTTTTATATCAGTGATGTACTATGAAATTTTCAAGAAAGGCAAATTATACTTAATTGCTAATGCTATGAAATGTTCT
GTTGGGAGAAGTGAAAGCAACCGTTACTTTGAAATTTGCAGTTAGAATTGTTGAAGATGGGCCGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTG
GGAGGCTGAGGCAGGCAGATCATGAGGTCAAGAGATTGAGACCATCCTGGCCAACATGGTGAAACCCCATCTCTACTGAAAATACAAAAATTAGCTGGGC
ATGGTGGCACGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATCGCTTGAACCTGGGAGGTGGAGGTTGACTGCACTCCAGCCTGGCAAC
AGAGCGAGACTCCATCTCCTTCTCAAAAAAAAAAAAAAARTGTTGAAGATGGGGGCAACAAAGGATKTCTTTCTTATTCTGAAAAAAAAAAATGGTGGAA
ACCTGCAACAGCCAGTTGGTGCAGTGCATTCTTGGGGAAAGTACCCACTATATACAGTGAATGTTACATGACGCATCAGAGGGAATGAACAAAAGGAAAT
TTTTTATTAACAATGGAAAGTTGGGGAATGTAGGATATTGAGTGAAACACAGGCAAAATACCATTCTTTATCATTTTTCACAAATAATCTTCAGTGGAAA
TAAATCTCCRATTCTTTTTCTTTTATCCCATTTAAGTGCCATGCTGTCCAACCGGTCTGACAGTAACTCAAATCACCCAGTCAGTAATCAACGTGAGCTG
GACTATTGGGAGAGTGGCTCAAACCCATGTTGCAGTTCTGGAGTCACACACTGGACAGTCTAAGTGTCACACTCATCAAAACCACTGCCTCCTAGGRTGC
ATCACATGTGGCATCAATTACACAGTGACATTAAAAGCAATTAGTGCCACCGGGTTGACTGCAGATTGCTCCTACCAAAGTTATTTCTCTGGTAAGTGAA
CTCTAGCTCTAGAGTAGCAGTAAGGACTTGACTATTATCAATCCAGGCATRAGCCTTTCCTCCTCATTTAAAAAGATGCTGCATCTCCACCTAGTTTGCA
TTATAAACTCAGATTACTTTCTAAAATGGTTATAGTTTCCCTTTGACTTAGAACCTCAAAGCTTCAGAGGCTTCTGTTGGTAGTTGGTGAATTAACTCCC
CTAGTAACAATGTTCCTCTATGCTTTTTCTGAAGGGACCATGTATCTTTATATGACATAGCTACTTGCAACACAGAGTAACGTAGCCTGGCAGAGTTTTC
TGAAAGCTAGATCACACATTCTGTTTGGTTTGCATTTTTTTCTTCTCATTATTATTGTGCTACTACCTCTCTTTTCTAAGCTTCTTCAGCTGCTTCAATG
GTTTCTTATTTCAACAGGCTAAGAGAGCAAAGACATCTGTCTACTGACAGTATTGTACCTTGTTCTTCACAAAGACCAAACCATTAGGGAATAGCAGGGG
AAAGTAAAAGCAGTGCAAGGTTACCAAATCTCTTGCATGATTCTAATTCACTGAAGTGGCTGCTTGTAACACGGTTTTGATAAAACTCTTGAGGATGCTT
CCTAGGCTTAAGGAGAAAAAGTACAATGATAAGTTACCTCTGCCTGGGGCATGGGATGGAAGAGTTGGAATATAATTTTGGCATCCTAGAGGTAGTAGAA
AGAGTCTTAACTGGGAGTCAAAATTAGACATGGATTCTWATAAGCTGTGTTGCCTAATCTTCCCTGATTCTGTCTCCTCATTGAAAAAGACAGGAATAGT
AATATTTTCCTTCGAAGTTGTTTTGAGAATCAAAATAAATCATAATGTGAGAACATTCAGAACATGCTGCACGTATGTCAGCTGGTATGTACTTTCTTTT
GACCCATTATCTTGTATTAGATTTACTGCTTAAGTTCTCACCTTGATATCCAGTTCTCAGAATATGACCCATTGCTTATTCTTTTAAGAATAAATCAAGT
AAGCCTGATTATAATAACTTTTAAAAATTATACAGTAGGATCTTTAACTTAGTTACTAAGGAATCCATTTGATGCCCTTATTGGCACCTAATGTGTGGCT
TGCTCAAGGTATTTAGAAAAGGAAAAAAATACTAATCAGTGGCCTGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGA
TCACGAGGTCAGGAGATCAAGACCATCCTGGATAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATAGCCAGGCGTGGTGGCGGGCGCCTGT
AGTCCCAGCTACTCGGGAGGCTGAGGCCGGAGAATGGCGTGAACCCGGGAGGCGGAGTTTGCAGTGAGCCGACCAGCCTGGGCAACAGAGCGAGACTCCG
TCTCAAAAAAAAAAAAAAAAAAAAAATACTAATCAGCTACCATGGATGAAGCGTGGACCAGCAAACTTGGTCACTGGCATGTTGTATAAATGGCTGCACC
TAAAGTGTCATACTACTCATCTCGGCAAAATTGGTTCTTCAATTAAGGCTGAATGCAGTTAATTATATTTAAGTTTAATGCCACCAAAATCAAATAAAAC
TAGGGCATTATGAGGGATCTTGACAAGGATTCTGTGCCTTTGACTCACAGTTTGAATCATGTACAATATGTATCTGCCAATTTTTGGACCTTTCTGACTC
ACCATTGTTCTGTATTAAAAATTCATACTGCACACCACCTTCACACATGGATTTCTCTCTCTCTCTCTTTCTTTCTTTCCCTCCCTCCCTCTCTTTTCTC
TTTTTTCTYTCTTTCTTTCTGTCTGTCTTTCTTTCTTTTTCTTTCTTTTTTTTAGACAGGATCTYGCTCTGTCACCTAGGCTGGAGTGAGTGCTGTGGCA
CAATCATAGCTCACAGCAGCCTTGAACTCCTGGCCTTAAGCCATCCTCCTGCCTCATCCTCCCAAGGGGACCACAGGTGTGCACCACCACAACTGGCTAA
TTTTTTTTTTTTTTTTTTTGTAGAGTCAGGGTCTCCCTATGTTGCCTAGGCTGGTCTCAAACTCCTGGGCTTAAGCGATCCTCCTGCCTTGGCCTCCCAA
AGTACTCAGATTATAGGCATAAGCCATCATGCCCAGCCACCCATGGATTTCTGATTATGTGGCCCACCATGGAAATAACTCGAGTACCCCTTCAAATCTT
GCTCTGATCTAACCAGTAATTAATCCTGTTACTTAGACTAGTTTGCTTATATTTTTTCCCTGCAGTAATCAAGGCCATTTTTGGATGATGGTGGAATAAA
ACAAGTGATTTTGTGTTTGTTATTTTTATTGCCTAGGTGCCTGCTGCCCTTTGGGGGTGAAATTATATAGGCTGGGCCCTAATGGCATCCGGATCTACTG
GCAAGCCTCCAGGGGCTCTGCCAATTACAGCACTGACCTCTATGGCTCCAAAGGCATTTTCACGTGCACCCCGAGTGCTGGCCTCAGTTTCTGTGATGTC
ACTGAGATACYCTGTGGGGATGTATACACTGTGATGGTCTCACCAGTTGCTAAAACAGGATTGAAGCTTACTTTCTGTCCAAAAAAAATATATTCAGGTA
AAGCAAGTTATGACAGTTTATCTAAAACTAACCCTGAACTCATATCTGTGAATTAAGATGCAATCAAACTTATTTACTATGTATGAAGGGCACAGAGGGT
ATAAAATTTCTTTCTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTC
CACCTCCCAGGGTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGCGATTACAGGCACCTGGCATCATACCTGAGTAATTTTTGTATTTTTGTAGA
GACGGGGCTTCAGCATATTGGCCAGGCTGGTCATGAACTCCTGACCTCAGGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAAC
CACTGCACCCAGTCAAGGGTATAAAATTTCTACACAGCACAGGCAGATTCTGGCTGTGGAAGACCCCAAGATTCTTTGGAATTGTGATGCTTTATTTAAT
TTAGAGATTATCTTCTCTGTCCCACTCTTCCCCTTCCTAAAAAGGACTAGATGCTTGCTGCTTAATTAGTAAAGCAAATTTAAGATAATTTTCTGCTTTG
AGATTTAGGGATAGATTTTTTAACATAGTCTTGCTGATAATGATAGACATCCTGGGATGTTGGAAATTAGGAAACTTGAACTTTTATTTGCACAGACTGA
GAATTATGACTGAGGAAAAGTTAGAGGATCAGAAAARATAAATTTATAAATCACAAGCTAGGCTTGGCAATATGAGTGGGCAGACAATCTGTGATCACAA
AGCATGGCTGTCAGCAACTACCATCTCACCAGAGCTGGCAGGAAAACATTAGCAATTCTCCGCTCTGTGTTCCAGCACCTTCTGCTACCTTGCCCAGGGC
ACAGTCATATATTTTTCATGTATTCCTAGAAGAAAAGAGATGATGAAGCCCTAGAATTTTGCAGGTGAACACAGAAAAAAAGAATAAATATTGGCTCACA
AGCCCTTACTGATAGCCAGAATCTAAAATTTTGAATGATATGTAGGTGACAGGAGGTTCAGGATGGCCCTTGGTGATGGAAGGAGGACAGTTCCTCCCAA
GGGGCTGTTCTCRTTGTCCCTGGCTGTCATGCTCTGATTCCTTGTTTTTCCATTATTTGGTCCACAGGACAAGCTGGCCCAAAGCATAGCCCTATGGGAA
GGGACAGGAATAGGTTCCTGGTGTCAGGATGAGCTCTTAGGAAGATGAGTCTACAGCTCAATAACAATACTGCATCATAACTGCATAATATTTTATAATT
TATCCAGTGGTTTCATATCACAAATCTCATCAAATGCTCAAAATATGCTATGCTATAGGCTCAACATATTTCATTATCTCCACTTTGTAAATGAGAAAAC
TGAAGCTCAGAGGCTCCCAAATCTCTATCTACAACTCTTCTCTTCTCCTGACCCCTAAGTCCGTATTCAAATTTGATACCTCCACCTGGAGGTGCCCAGG
CATTTCAAACCCCTCAGGGGCAAAAGGAACTCCTGATCCTCTGCTGTTTCTGATCTTCCTCCCATCGTCCTTGTTTCAGGTACATTAGCTAAAAACCCTG
GAGTCAGCTTCTGTCTCCCTCACCCTCCATATCTAAGTAATCTCGAATTCTCGTCCTGGTCACCTTCATGATGGTTCCTAAATCCCGAGTCTTCTCTTCA
TTCCCACAGCTACTGCTATGCCTCAGGCCCTCACCACCTCTCCCCTAGACTACTGCACCAGTCCCATCTCCCTGTCCTCACTCCAGCCTCTGTAATGCTA
CCAGAGTTATCATTCCAGGACACTSGTCCAATTGTGTTACTTTTATGCTGCCACATCTTCAAAACTTTTCCATTTCCCCATAAGATAACATTCAATCCTC
TGGGCATGGTGTTCACAGTCCCTTATAATCTGTCCCCTGTCTACTTATACCTGCACTGTTCAATAGAAATTTAATATGCACCATGCATGAAAAATTAAAT
TTTCTAGTAGCCATATTAAAAAAGTAAAAAGAGGTGAAATTAATTTCATAATATATTTTAGTTAACCCAATATATCCAAAATATTATCATTTCAACATCT
AATCAATATAAAAATTATTAATAGATATTTTGTACATTTTTCATACTGTCTTTGAAATCTGGTGTGTCTTTTGTACTTATAGTACATTTAGTTCAAACTA
GCCAYATGTTCAATAGCTACTTCAGTGTCCACTGTACTGGACAGAGAAATTGTTTTTTTTTGTGGGGTTTTTTTGTTTGTTTTTTATTGAGAAAGGGTCT
TGCTTTTTCATCCAGGCTAGAGTTCAGTGGTGCAATCACTGCTCAATGCAGCCTTGACCTCCTGGGCTCAAGCAATCCTCCTGCCTCAGCCTCCCAAGTA
GCTGGGACTATAGGCATGCCCCACCATGCTTGGCTAATTTTTAAAATTTTTTTGTAGAGACAAGGTCTTGCTTTGTTGCCCAGGCTGGTCTTGAACTCCC
GGGCTCAAGCAATCCTCTCGCCGCAGCCTCCCAAAGAGCTGAGATTACAGGCATAAGCCACTGTGCCCAGCCTGAACAGAGAAATTCTAGGCTCATTCCA
CAACATCCGTCCTGAGAGGACTCTATTCTCTAGTCTAGGCATCTGGCATCATTAACGTGTGCCTGCTTCGGCCACACACACCTCCTATTCTATGTCATGT
TCTGGAGCTACTGCAGTGCTCTTCTCTTTGCCCGGAATTCCACCCCACTTCCACCAAGAGAACTCTACTGGCCCCAATTTTCCTTGTCTGTGAAGCCTTC
TCCAATTATCATAAGCAGAGTTAGCCCTCTCTCTCTCCCTCCTTTATGACCCCACAGCACCCTTATCTGTACTGCAACATATTACTGTGAATTGAATGTG
TGCTTTTCTCCTAATAAATGATTATCTATTTGACTCCCAGTAYGTAGCACGTAACTGTTGCCTGATATATTTKAAATTTAAAAAAGAATGAATCAATGAA
TATACAGCTAAGTGAGTGATGGAAGTCTTTTGTTCTTTCTCCTGCTCCATGCCCACAATTTCACCCTTAGAGAGTCATTCCTCTGAGGGCTGGTTAGCCA
CCAGAAGTCCTTGTGAGTTAGAACTCAAGTTCTTTGATGGGATGCCATCTCAAGCCTGTAGCCATTTCAGCTTAGTAACATTAGGTATCTAGACTCAAGT
TAGGAAATCCTCCTTTGCTCAGTGTCCCTGGTAAAAGCCATACATTTGGGAGATGTTTTTTGGTTTTGTTTGTTTGCAGTATCAGTGATGTCTTATTCTG
ATAATCAGGACAATATTGTAAATGACAATAACGACTAATGTTTATTGAATGCCATGTGCCAGGCACTGTTCTAAGGGGTTTACATATATTAACTCAGTCC
TTACAACAAACCTATCAGCTTGGCATTCTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGCCTTGCTCTGTCACCCAGGCTGGAGTGCAATGGCGCAATCT
CAGCTCACTGCAAACTCCGCTCCCCAGGTTCAAGTGATTCTCCTCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGCACAACTACCATGCCCGGCTA
ATTTTTGTATTTTTTGGTAGAGATGGGGGTTTCGCCATGTTGGCCAGGCCGGTCTTGAACTCCTGACCTCAGSTATCTGCCCACCTGGGCCTCCCAAAGT
GCTGGGATTACAGGTGTGAGTCACTGCGCCCAGCTGAGCTTGGTATGCTTATTCTTACTGCTTTTCAGATAAATTGAGGCACAGTAAAGTGACTTGCCCA
GGTCATACTGCTAGTAGTATCTCCTTCTCTTATCACCCAAGTTCGTTCTTGTTCGTTTTTTGGTTTACTTTCCTTTTATTCTTTCTTAAGTTAAATCTTC
ACTATCTTAAATACATAAATGAATAGATTTTATTTTAAATGCTTGTGTTTTTATTACAGTAACTTGCTCTGGAAGTACACTTGGAATGGGTAAGTCATTT
TTCTCATGGATAAAATAGAACAGGATTTTTGTTGCTCCATTTTGGGGTTAATGAAGTCAGCTGACTTTTCAATTAGAAAGCAAATGCTTTCTTTCTTTGA
TACAAGGGGCTCCTGCTCTCTTATCCCATGACTTTTTCTCCCCATTATAGTGCCTCCTCTGAGATTCCACCAGTTGAGATGAATTTCTTTGAATTCTGAA
GTCTTTTTAGTATTCTAGGATCCTACAGGAAAATGTAAATAGTTTTGGGAGGGGCAGCGGCTTCATCCCTCACACTTCAGAAAGTGATTCCCAGCTCAGC
TGTACACTGGAGTCACCTGGAGAGCTTAAAATTAACTGATGTCTGGTTCTGTCCCCAGAAAGTTTGATTTAATGGGTCTGGGGTGAGAGCTGGGCATCAG
GAGTTGTAAAAGCTCTTCAGGTGATTCTGAARTATAGCCAAGGCTAAGAACTGCTACTTTAGAGCCGTGCTTCTCAAACTTTATTGTGCACACACATCAC
CTGGGGCCTCGTTAAAGCCAGATTCTGATTTGGTCGGTGTAGGAAGTGTCTGAGACTCCGTATTTCCATAAGGTCCAGGTGATGCTGGCGATGCCGAGGC
TGCTGGTCTGACCACACATGGAGTAGCCAGGAGTTAGAGAGAATCTGTTAACRGCCTGCAGAGAGCTACGATGTTTGCTCCTGGTTTGCATGAGTGGGTA
TACCCCGTGGAGAGAGAGGGTGCTGAAAGGGCAGTTGGAATAAAGAGAACCCTCACTGCCTCCTTGGTTTTGCTCAGGGATGATCTTGTCTAGGCTATTT
TGGTTGCCCCCACAGAGATGACTCTTGGCAGGGCAGTGGAGATGAGCAAATGGAGCCATGAGTGTTGACCCAGTAAGCAGTGTATGCTGCCTCATGAGGA
GTCCTTGCCACAGCCTTTTAGGGGACAGCTTGGTCTGGGGCCTTAGGAAAAAATCCCCTGGGAATATTATCAACCCCAAACTACAGAACTTCTCTCCCGC
CCACCCCCACCCCACCCCTCCCCATTCAGACATGGCTGATTTTGAATGGTGTGAGTGTAAATGAAGCCTTCTTGCCCGTAAACCCCACTGGACAGCCTTC
CAGTCGGGGCTGGCTCCCCACCCACACCCCCTTCCACTGGCAGGAACTGGGTCTAGAGTCTCCACTCCCTGTTCTCTGCCTGGGCTCCCTTCCTCTCCCA
GTCTATTGCTTCTCTGAGCACAGCAGGTTACACACTTTTCAATTCCTGTCCCACCTGCAGGTCTGAAATAAGCACAATCCTTATTAATTTTTCAAGAGTT
TTTGTTTTCTATGACTACAAAAAGGAACAGACTTGGCTTACTGAAAACAAACTGTGAGGACACTTCTAATTATAAAAAAGTCTCCCAAAGTAGTAGAGAC
CATACACCCTGGTCTTCAGTGAAAGGTACATGGACCTAGGTCTGCATTCTTTAATCAGTATCTCCCTGAGACATAGAGGTGTGGTAGAAGTGTCCTAGGT
CCCCAGGGGAGAGGAGTGGTGTATGATATATTGGCCTTGCCTATGATTTTGTTCAAGGAAGGGTTTCAAATAAAAACAAAAAAAATAAAAATGTAAAAAT
GTAAAAAAAAAAATTTAAAAATGTTTGAAAAGAAAGAATGTCTATGTTTTAACAAAAAACACAAAAGGTGGGGTGGCAAGGAGAGCAGGCATGGTGGCTC
ACGCCTGTAATCTCAGCACTTTGGGAGACCAAAGCAGGATTGCTTGAGCCCTGGAGTTGGAGACCAGCCTGGCCAACAAAACGAGACCTTGTCTCTACAA
AGTGTAAATAAAGTAGCCAGGCATGGTGGCATGTGCCTGTAGTTCCCCTGTAGTCCCAGCTACTTGGGAGGGTGAGGTGAGAAGATTGCTTGAGSCTGGG
AATTCAAGGCTGCAGTGAGCTATGATAGCACCACTGCGCTCCAGCCTGGGTGACAGAGTGAGACACCAGCATCACCAGAGAGCTTTTTAGAAATGTACAG
TCTTGGGCCCCATCCTGACCTACTAAATCCCCAGGTGATTCGTGCATGTATTCAAGTTTGAGTAGCACTGCTTAGGTACTGCTCTTAAACTCTGCTGTGT
ATTAGAATCTCCTGGACAGTTAATAATGAATGCAGAGGCCCAGGTCCTGGCCTAGTGAAGTGCCTCTATATTTCCATCAGGTTCCCAGGTGATTTTGATA
CACATGAAGTTTGAGGAGCACTGCTTTAGATCACTAATGTCCTCTTTTCTGTCCTTCTAGGCTTCAGCTTATCTTCACCATTCCCTTCCTTAGCCAGGGC
TCAGTCTTTAGCCTGAAATCTGCTACTCTCTTGAAGTAGATATTTGTAGAAATCCTGTAGGAGCCAGACACAGTGTCACACACCTGTAGTCCCAACTATT
CAGGAGGCTGAGGTAGAGAATCACTTGAGCCCAGGGGTTTGAGGCCGACCTTGGCAACATAGTGAGAGCCCCCTGCCCTCAACGCCATCTCTCTAAAAAA
AAAAAAAAAAAAAAATCCCGCAAGGCCCTCCAAAAACAAGAGTAAGCCAGATTATTTGAGGGTTTCTAAGGTCATATGGAAGTCATTATATCTAGGGGGA
AATTCTAAATTGCTGTCTTCAATTTCAGCATTTCCCCTCCCCAAACACAGAGCAAGTCCAATCAGGTCCCTGGGCTGACATTGGAGCCTCTGGATATGCT
GAGGGGAGCCATGGGAATCTTGCTGGTCTAAGGTTTTCTTTGGGTTTTCTTTGACTCTTGGAGTATCCTAAAGCTTTTCAAACTTTTTTTTTTTTTTTTT
TTTTTTTTTTGAGATGGAGTTTTGCTCTGTCATCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCCACCTCTGGGATTCAAGCGATTC
TCGCGCCTCAGCCACTTTAGTAGCTGGGATTACAGATGTGCGCCACCACACTTGGCTAATTTTTGTATTTTTAGCAGAGATGGGGTTTCACTATGTTGGC
CAGGCTGGTCTTGAACTCCTAGACTCATGCGATCCACCTGCCTTGGCCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCGGCCATAAACAGA
CTTTTTAAGAGAGATCTGGATTCAAATCCTGCCACCATCACTTGCTCTTAGTCAAGTTGTGTAAATTCTCTCTGAGCCTAGGTTTCCTCATCTGAAAATT
AGAGTAAATAATAATCCCTCATAAAAGAAAATCAGGATTAAATGAGAATGTAAATTATTGGACACAATAATAGGCTCATAACAACTACTTAATAAATGGT
AGTTGTTAATTCATATTCAGTTTAAGCTCATATCACATTCTATTATGTACCAATTATTAACATTTTAATGTGCTACTTCTAACGAAGACATTTGCATTTT
AACCTTGGTCCTCATAATACACTTCCTCATTGATTCTCTAAGTGTGGTCCTGGTGCCAAAAGTATCAGCATCAGCTGGGAACCTCTTAGAAATGCAATTT
TTCAGACTCTTCCACAGACCTATTGAATCAGAAATTCTGGGGCTAGGGCCCAGCCTTCTTTGTTTCAACAAGCCCTCAAAGTGCTTCTGATGGATGCTAA
AGTACAAAAAGCATGGCTTTAATTCAAGAAAGCTATTTCAATGCTGGAAATTTGATGCAAGTTGGAAGGGAAAGGAAAAAAAAAACCTATTTGAGGTGAT
AGCGGCTCTAACAAGAGGTAGATAGATGGGAGGGGTTTGTGCCTGACATCACACCATGAGCAGGGGCTGGGGGTGTTCCTTCATCTTTAGGACCCAACAT
GTTTCAGTGTCACCTGTACATCCTGGGCAACTTTGAGGAAGCTTCCTCTCTGTGACATACTTAGCAGCTAAACAGGTTTATGTTTTCCATATAAAACTCC
CTGAGTCATTAAAATTTTGGAGTTCCCTGAGGAGCACAGCAAGTTGGCCTGGGGGTGAAAAGGAAAGTCCTTTTGTTTTGAACCAGTGGTCTGGGATTAA
AGAGACTCTGGGAGGGTTCATTTGGTGAAGCAGGAGAGAGACTGCTCTGGTTAGAAACTGCTGATCAGTTTGAACACTTTGTCAGTTGTCATAGTTTCAT
GTTTACTTGCCGTGAAGTGCTGCAAAAATAGCATTTCAAATCAACATACACATAAAATCTCAGACACTGGTGCTTTTTAAGAAAATGTCTGCATATTGAA
TGCATCTTTTACTGCTTCCCTTCCTTACCCTTTTCAGTGATTTATAGAGGGAAGAGAAATGAAGAATGACAAAGTGAGCCCCAGATAAAAACAAAAACTT
GACCAAGTGAGTAACGTAAATTGATTTTGTGTGATTTTATGGCAAAGTTTTTTGTCTTTGTTTAAAATGTTTTCCCATTTGTCTTGCAGAGTTGTCTCAT
TTGTTAGTGATTAGAGATGGAAAAGATCTACTAGAATGTAGAATAAAAATGCCTCTAGGATAGGAAAAGCTCCTTTGGCCTTTAGAAGAACAACTCTGAC
TCTGCTTCCTGAGGGCAAGGTCAGGTGTGTCCTCACCTGCACAGCAGTTGGAGATCTGCTATGTGAGGACTCTGGAGAGAAATGAATCCAGAAAGTCCCC
TGGACGGCTGCTAGCCTGAGTTGGCACACTGTGAGAACCCTGGAAACAAGAAAGTTCTGCTTAGCAGAAATTCTGAGATTTCACATCCACACACACCACA
GACTTCAACACATCCACTTCATGAGTGTTTTACAACAGCACTTGTCTGCAGCCCCCTCAGGGGCTGGAAATGTTCACTCCCAGAAAGTCAAGCCACCCAC
ATGCAGACAGCACTTATCCCAAGACAAACCTCCAGCAGGACTTCAGTATAGGTTGGAAAGCAGTAGCTGCCAGGGCAACCTGAGATAACAAACGCCCTCA
TCGCAAGTTAGGAGCAAAGCTGAGCTGCTTGCAGGGTTCGCTGAGCCAAAGCATCAGGTGGCGTGACATCTATGGGAGCATCTGGGAAAGCAGAGCTGCC
AGCCTGTTGCTAGAAGGGTTGCAGTTATGCTTTCTGCATGAGAGAAGATGTCAAATGGAGAGCCTCAAACTGTGGCCGACTGACATGCGTGCATCTTTTG
GGGGAGGACCATCCATCTTATTGGCCATATCCCCCACTCATATTGTAATTACTTTTTTCATCTTTGGAGGGGGAAGGCAATGAAATATAACATAAATCTC
TCATACCTAAAAAAGTTTGTCCTTCAAATATCAGTAACCTAATTTAAAACATGTGAGTAGACTTGTATAACACACACACGCACATGCACACACACAGTTA
TAGTGCTTGCTCCCCAAACACATGGCTATGGAGCCAAGCATGTCTCTAGTTAGGAACAACCATAAAACTCTGCCCAGGGGGAATTGGACCATGGAATTAG
GCTCGAACTAAGCATGGAAGAAAGAACAAACTTCCCTTTCTGTTCTCTCAACTTCCTATCAACGTGCGCTGCAAGAGAGAAGTGATATGCTTTCTCTATG
AGACTGATCAGAGATACGTAATGGGTCACTAATAAGAGATCTTCCCCAGAACATCTGTACATGAACAGAGACAAGCCAAAGGTATATATCTCTAAAAATG
GAATTGGAAGCATCAGAGAGCACACCTAATACCCTACAAATACCAAGGCACAGAAAGTGAAATAGCCATCTGCCTAGCTAGGCACCTAAGGCTGAATTGT
TTTGGTCAGAATGTCACAGAAGAAAATGTGATCCACAGTGGGTAAAGATAAAATTAGGTTATTTAACGTGTATATAGCACAAACTACCAGCTTGTAAGTG
CTCTCCATATGCTCGTTTTATTCTCATAACAACCCTACAAGCTAAGTAATAACATTATCTCCTTTATACAGGTAGGGAAAAACGGGCCCAGAAAGGTCAA
GTAGCCCACCCATGTTCACACGGCTAATCAGTTCAAACACAAAGTTTCAGGGAGAGAAGTAAGTAGCATTGGTTAGACCTGCTAATTCATGCTATCTTTC
AGTTAAAATTTTAATTTTAATTATTATGGGTACATAATAGTTGTATATATTTATGGGGTACATGTCACATTTTGATACAGGTATACAATGTATAATGATC
AAATCAGGGTAATTGGGGCATCCATTACCTCAAGCATTTATCATATCTTTATGTTAGGTACCCATGATATCTTTTGTTTTTTTTTGTTGTTGTTGTTGTT
TTTGTTTTTTTGAGATGGCGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAATGGCGTGATCCCAGCTCACTGCAACCACCACCTCCTGGGTTCAAGCGATT
CTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCGCCACCACGCCCAGCTAATTTTATACTTTCAATAGAGACGGGGTTTCACCATGTTGGC
CAGGATGGTCTCGATCTCTTGACCTTGTGATCCACCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTCCCATGATA
TCTTTATGGAAAATATTTCTCTAGATTATTATGAATAAGTGATCGCTTATTAGAGGAGATCTGGGAATAGGATAGTGAGTGAGTGATCTGCCCTAACTCA
AGTGCGTGTACATTCAACCCTCGGTTATTTTGGCCATTTACCTGCTCTGAATTATACAAAGCAGCTTTTCATCCCTGGCCAGTGTTAGCAGATTTTACCT
TCTACTTTGCTGTGTCACATTTAGGGAATCCAAGTTCATTTTTCAATTTGTTTAGGCAAGCAAACTAGAGGAGACGTAGAGAAACTGCTTAGGGAGCTTA
TGCAAATCTAGGGGAGCCTGGGAGGATAGGCAATTTGGTACACTAGAAAGAGCAATGGCCTTGGAGCCAGATGGATCCAGATCCTAGCTCATTTTGAGAT
TTTTCATGATTTATTTAACCTCCCTGAGACTCAGTTTTCTCATATGTAAAATGGCAATGGTCATCTTGCTGGGCTGTTGCGAGGTTTGAGATAATATATT
CATATTCAGCACACAGGTGCAATGAAACTGAGGTGTTTGAGGTCACACTGCTAGTAAGAGGCAGAGCCAGATTTTGTAGGATGTAAACCTATGCCTACGT
GCAGTTAAAGACCATGCTTGCTCCACTATTCCGCAGTGCCACCAAGGACTCTGGCCTTCAGGAGCATGAGCCAGAACTGCACCCCATGTGACCAGAGTCA
AACTTCCAACCCAGAGGGACCTGTATTATTCCCTGGCACCTGGTCATTCTCCTGAAGGGTAAGAGATGGAGGCACCTCACCCATCTCACTCTTCCCTCTT
GGTTTGGCTCTTCAGAGCAAGGGGCTTCACCTCAGAAGGGTGAATTTTCCCTGGCACATATTTTTCTTATGGATTGGGGCTTCACCCTGCTAAACTAAGC
AGAACCTAACTTAAAATGAAAAGGGAGAGGGAAATCATATGTGCACTTGTTTAAAACATTGAGCAACTGAATCAATTTAGAGTAGGTTTAAAGGAGGTCA
GGGCTCCAGCTTCTATTCTCATATAAGCCTTGAACAGAAAAACCACTCAGCCATAGGTTGTGCCAGAACCCATTTTATGGCCTTTTTTATTGTTAGATAC
AGGGTCTCATTCTGTTCCCCAAACTGGAGTACAGTTGCATGATCATAGCTCACTGCAGCCTGGAACTCCCAGGCTCAAGCAGTCGTCCTACGTCAGCCTC
GCAAGTAGCTACGACTCCTCAGCTTGCAGGTAGCATGCGCCATCATGCCCAGCTAACTTTTTTATTAATTTTTTTTTTTTTTGGTGGAGACAGCAGTCTT
GCTATGTTGCCCAGGCTGGTCTTAAACTCCTGGCCTCTATCAGTCCTCCTGCCTAGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCA
GCCTGTTCTTAATTCTTCATTTGCCTTTCCTCTCCTAAAAATTGCAGGTTACCCCACAGACTACTCTATTGCTTTCCATGTAGCCCAAGCCTGATCTTTG
TTCCCACTCCACCACTAAGTGCATCCTTGGCAAGTTACTTGACTTCATTAAGCCTCAGTTTCCTTGTTGTAAGTGTTGCTTTGAGGATCAGTGAGGTAAT
CTACTTAGCATGGTGCCTGGCATATGGTAAGTAAGCACTCAGTAAATATTAGACATTATTATTAGTAGTAGTATCTAACCACTTCTACTTCCCTGTGTGA
CCAATTTGAATCTTTACAGCCACTGGTTCTTTGCAAATCCTTCTAGGAAAGCCTACTTTCTGCCAATGTCACATGGTTATCTCACAGTTAGGGCTCTTAG
CAACTAAACTGATCTCACTTACGTTTGATTACTTTGATTTAAAGTCCCAAAGGAACCATCTCAGTAAACAGATCTCTACCTAAACTTTCTGAGCTCAGAT
CTCCTCCTCTGTGAATCAACTTTCAACAATAATTGTAGATTCTGAAGCATTAACAGGCCCTCCCTACATTTGTTGCATAAATTTGTTAATAAATGATTAT
TCTTTTGTTGGTTCATTTATGTATATCTTATCATTAAGGCATTCAATTTTTAAACTAAGTTTTAACTACCTGCAGCATTCCAGGAATTGTGCTCTTTAAT
TAGATTRTAAATTATTCAGGGGAAAGAGTTGATCTCTCATTTCTTTGAGTTTCCTAAAAGTCCAGCACAGTTCTTGGCACACTGGAGGGAACCTCACAGT
TCTACGCAATTACTGTGTCCTTGAAAAAATGAATGAAATAATCATTTGGGGACAGTACATTTTCCATTGGGTAGTTGGGCTGGCTACTGAGTGAAGTCTA
TTATGAATCGCCTTGCGAAGTGAAGGGTTCTTCTGTAATGGGGAGGATCCTCCAGTCTTCGTGTATGTGTGAACTCGGAATTTCATAGACGGCCTTGGCT
CACGATCGGTTTGGCACTTCGCGTTCCTAGGCCACAGGACGTCGAACCTCGGGCGACAGCAGCCTCCCGCTAGGGGGCTCCCGACTTCCCACGGAGGTTC
CACCTGTACTGCGCAGCCTCCGTCCGGGAGTGGGCGGAAATTCCCTTGCTGACGCGCGTGACGTCACCGGAGGGCGCGGTCTGCTAGAGGGGGTGGGGCA
TTCCCCTGCAGCAAGGGGCGGGGCCACCCCAACGCCGCTTCTGCGGCCAAAGTAGGTTGGGAGTGGAAGGTGGTGGCTGCTGCTCCGCAGTGTSGGGAAG
ATGGCGCCGCCGGTGGCAGAGAGGGGGCTAAAGAGCGTCGTGTGGCAGAGTGAGTGCGGTGGGGTAGGGGTTGAGAGAGGGAAGGCCGGGAGGCTGCCGT
GCCGGGCCTCGTTTTGCAGCCCCAACCCAGCGGTCTGTTGAGGAGCCGCCGCGAGCACTTGTTGCTTTGGGACCTGTGTGAGGACTTCTTCCTGCTTTCC
TGCCCTGCCTTATTCCTTGCCAGCACCAGGGATGGGCGGGGTGCGACGGGACGCGGCCTTCTCGTTGGCGTCGGGCACCCCCTCGCCTCGGCCGCGCTCT
GGCCGCGAAGCTCCGCCCCGGGTGAGCCGCCCGGCCCGGCTTTCCCTCCCGCGGAGCCCGTGCGTGCCCTCGGCCGCGCTCCCCACTCTTCTCCGCTCCC
GTCCGCGCTCCACCAGTTGGGGATGTCTCTCCATCCGAGACAATTCGGGCGCTGTTTATTCCGCCCCCATCTCCACCCCACACTGGAGTTTGCAAGGACT
GTTTATTCTGCTTATTCGTGTTAGTATCAACCCGTGCTTTTCAAAAAACCTCACTGTTTAACAGACTCATCTTCCCCTATTCCGAGAGGAGCCTACTTTC
TGAAAAGTTCTTGAGAAGAGACCATTGGAATGACCGGTGTCCAGCCGTGACATCTTCCTGCATAGCCTGGGCAAGAGCCGCTCCTTCCGTTTTCCCTACT
CTCGGGGGCCCCTCCCTGCTGTTAGGACCGGACTCCTTATTGGTTACTGATGTTCTGCGGTATCATCCACAACTTTCATAAACATCGCTCCAAACCTAGG
TCTGGCAGGTTAGAGAAAGAATGAAACCACCCAACAGGAATAACCATCATTSTTTGGTATCTCTGAGTTCAAGATAATTATGGCCTAGTAGTGGAAAGGG
AGTAGCATCTAATTAGTATTTCTTAGTCCAACTTGTTGAACAAAAAACAAATGATTTAGTCAGCAGAATTCTGGGAGTTAGAGTTCCTTGTCTAAAATTA
AAAATCCAAATCAGTAACTGGGATAGTGCTTAACATATAGCAGGCACTAAGCAAATGTATAAATAGGTGAAAAATATGAAATTATCTTTTAAAAGATTAG
ATAATTTTAAGGTTGGCATTTGCTTTTTCAAGATTTACATGGCTGACTTAAGATTTGAGATGTTTTAAAACAATGGTATTTAAATACATTTATGTGAAAA
TGGGTAACAAATTGTGTTGTATAATTTCCAAGATATATATGTGATTAACATCCGCATGTATGTATTTAAGCCAGTTCTTTACATATTGAATCATAAGCTT
TTCCCTTTTTCACATTTTCCTTCTGATCCTCATACAGATAAAGACATTGTTTTTATTATCTGTCATTCTGTGACTTCCTTTTTTTTAAACAACTGACATT
GACTCAACATTTTTCATGTTGCTTCACAATCTCGTAATTAACATTTTAAATTGCTTTTTAAATACCTTGAGGTGGCAAAAAATTTTGATAGCAGAAAAGA
AAAGAAAAAATTATGGCCAGGTGCAGTGGTTCACGCCTGTAATCCCAACACTTCGGGAGGCCGGGGCAAGATGATCACCTGAGCCTAGGAGTGGGCAACA
AAGTGAGACCCCATCTCTACAAAAAAATTTTAAAATTAACCATGTTTGGTGACATGCACCTGTGTTCCCASCTACATGGGAGGCTGAGGCAGGAGGATCC
CTTCAGCCCAGGAGGCTGAGGCTGCAGTGGACATTGATTGTGCCACCGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGAGTCTAAATAAATAAATAAA
TAGCTAGCGTAAGCCCGGGCACAGTGGCTCACGCCTGTAATTACAGCACTTTGGGAGGCCAAAGCAGGTGGATTGCTTGAGCTCAGGAGTTCGAGACCAG
CCTGAGCAACATGGTGAAACTCTCTCTCTATCAAAAATACAAAAATTAGCCAGGTGTGGTAACGCACACCTGTGGTCCCAGCTACTCGGGAGGCTGAAGT
GGGAGGATC


SNP Information

Context             (SEQ ID NO:32704):
GCTGGACTATTGGGAGAGTGGCTCAAACCCATGTTGCAGTTCTGGAGTCACACACTGGACAGTCTAAGTGTCACACTCATCAAAACCACTGCCTCCTAGG
R
TGCATCACATGTGGCATCAATTACACAGTGACATTAAAAGCAATTAGTGCCACCGGGTTGACTGCAGATTGCTCCTACCAAAGTTATTTCTCTGGTAAGT
Celera SNP ID:            hCV1757973
SNP Position Genomic:     23597
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32705):
AAATCTTAATTGTTTCTCTAAAATGTAGGTCCTCGGGCCCCTGCCAACATTCAAGTCTCTTTCGATAGTGGAGCTCTGAAGGCATCTTTTTCCTGGGCAC
K
GGCAGAAGGAGCTTTCAATTATACTGTGATGGCTTTGAGCGACTCTTCAGAGCTGACCTGCAGTACAACTTTCAGTTCCTGCACCATCTCTTCCCTCCAG
Celera SNP ID:            hCV26300004
SNP Position Genomic:     15169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32706):
CTACTTTATCTAACAGTCAGTTATGTCATTCTAAGTTTAAAAAGCTTCTGAACAGAAAGAAAAGGAGCTGTCATCAAGTTGATGCACTCCATTCCACAGG
A
AAAAAAAAATAAAGCTATTCTTTCAGGCCCGCACTCTCTTATAGTTATGTTAAATTAAGGTCAATGATAACAAACTTGATGATTTGGCTTCTCTTTTGAC
Celera SNP ID:            hCV26300005
SNP Position Genomic:     16255
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32707):
CGGGTTGACTGCAGATTGCTCCTACCAAAGTTATTTCTCTGGTAAGTGAACTCTAGCTCTAGAGTAGCAGTAAGGACTTGACTATTATCAATCCAGGCAT
R
AGCCTTTCCTCCTCATTTAAAAAGATGCTGCATCTCCACCTAGTTTGCATTATAAACTCAGATTACTTTCTAAAATGGTTATAGTTTCCCTTTGACTTAG
Celera SNP ID:            hCV1757974
SNP Position Genomic:     23751
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32708):
TCTGCCTGGGGCATGGGATGGAAGAGTTGGAATATAATTTTGGCATCCTAGAGGTAGTAGAAAGAGTCTTAACTGGGAGTCAAAATTAGACATGGATTCT
W
ATAAGCTGTGTTGCCTAATCTTCCCTGATTCTGTCTCCTCATTGAAAAAGACAGGAATAGTAATATTTTCCTTCGAAGTTGTTTTGAGAATCAAAATAAA
Celera SNP ID:            hCV1757975
SNP Position Genomic:     24439
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,6)      total(A,5|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32709):
AGACTCCGTATTTCCATAAGGTCCAGGTGATGCTGGCGATGCCGAGGCTGCTGGTCTGACCACACATGGAGTAGCCAGGAGTTAGAGAGAATCTGTTAAC
R
GCCTGCAGAGAGCTACGATGTTTGCTCCTGGTTTGCATGAGTGGGTATACCCCGTGGAGAGAGAGGGTGCTGAAAGGGCAGTTGGAATAAAGAGAACCCT
Celera SNP ID:            hCV8848185
SNP Position Genomic:     30953
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32710):
TGCACTCCAGCCTGGCAACAGAGCGAGACTCCATCTCCTTCTCAAAAAAAAAAAAAAAATGTTGAAGATGGGGGCAACAAAGGATTTCTTTCTTATTCTG
A
AAAAAAAAAATGGTGGAAACCTGCAACAGCCAGTTGGTGCAGTGCATTCTTGGGGAAAGTACCCACTATATACAGTGAATGTTACATGACGCATCAGAGG
Celera SNP ID:            hCV26300008
SNP Position Genomic:     23182
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32711):
ACAATGGAAAGTTGGGGAATGTAGGATATTGAGTGAAACACAGGCAAAATACCATTCTTTATCATTTTTCACAAATAATCTTCAGTGGAAATAAATCTCC
R
ATTCTTTTTCTTTTATCCCATTTAAGTGCCATGCTGTCCAACCGGTCTGACAGTAACTCAAATCACCCAGTCAGTAATCAACGTGAGCTGGACTATTGGG
Celera SNP ID:            hCV26300009
SNP Position Genomic:     23410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32712):
TAGCCAGAATCTAAAATTTTGAATGATATGTAGGTGACAGGAGGTTCAGGATGGCCCTTGGTGATGGAAGGAGGACAGTTCCTCCCAAGGGGCTGTTCTC
R
TTGTCCCTGGCTGTCATGCTCTGATTCCTTGTTTTTCCATTATTTGGTCCACAGGACAAGCTGGCCCAAAGCATAGCCCTATGGGAAGGGACAGGAATAG
Celera SNP ID:            hCV1757978
SNP Position Genomic:     27413
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   (A,-|G,-)   African-American(G,25|A,59)   Asians(A,84)   total(G,25|A,143) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32713):
AGGCCCTCACCACCTCTCCCCTAGACTACTGCACCAGTCCCATCTCCCTGTCCTCACTCCAGCCTCTGTAATGCTACCAGAGTTATCATTCCAGGACACT
S
GTCCAATTGTGTTACTTTTATGCTGCCACATCTTCAAAACTTTTCCATTTCCCCATAAGATAACATTCAATCCTCTGGGCATGGTGTTCACAGTCCCTTA
Celera SNP ID:            hCV1757979
SNP Position Genomic:     28125
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,12)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32714):
GAAACTAACACTTAATGAAACTAACACTTAATGAAGACCTACTATGTCTCTGGCACTATAAGTATGTTATTTCATTTAAATCTCATGACAACTCAGTGAG
K
TGGGTTCTATTTTCTCTTTTTTTACATAAGAAAATTGAAGCTCAGAGAAGTTAAATAATTTTCCTAAGGGCACACCGATAATAAGTGGTAGAGCTGAGAT
Celera SNP ID:            hCV15760110
SNP Position Genomic:     15985
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,10)      total(G,10|T,2) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32715):
GGGAGGATTGCTTGAGCCCAGGATTTCAAGACCAGCCTGGGCAACATAGCAACACCCCACCTCTTGCTTTATTCTTATTTACTTGTCTTATTCTTGAGAG
W
TCTTTAGGATTAGCCAGGAAACTATAGGAGGGTCTGCTTGGCCATATACAAAGTGGCATTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCTGTCA
Celera SNP ID:            hCV15967863
SNP Position Genomic:     7320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32716):
AGTGTTGGCTGCACCAATTCTAGAAGTAAGCTCTCCAAGTTCAGACTCCATTCTTGTGCAGTGGGAAGCTGTATATATGGCAATTGCATTCTCCGTGTCC
R
TTATGCGAGCCAATGGCTTGGGGAGTATATGGAAAGAGAATACTACAAACACCTCCTTGACATTCACCAGTTTAGAAGCCGGAACTCTCTACACCATAAA
Celera SNP ID:            hCV25997335
SNP Position Genomic:     11651
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,27|G,1)   total(A,62|G,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32717):
TCCGTTGCCCTGGTGGACACCATGGTGTACCATCCAGATCTCCCCTCCAGAGTTGTCCTGAATCCGGGCCAGGAGCACTAACATTCCTTTATCCACCAAT
Y
ACTGGATGTAGGTGGCCCAGGGAGCAGGTATGACTTTGAGCCAGGCAGCTCTCATGAGCCAAGGGCAAGTCTGCAAGAGACTGAGCGGGAGCTGTCAACC
Celera SNP ID:            hCV8848151
SNP Position Genomic:     2142
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:32718):
CCAGCTACTCGGGAGGCTGAGGCCGGAGAATGGCGTGAACCCGGGAGGCGGAGTTTGCAGTGAGCCGACCAGCCTGGGCAACAGAGCGAGACTCCGTCTC
A
AAAAAAAAAAAAAAAAAAAAATACTAATCAGCTACCATGGATGAAGCGTGGACCAGCAAACTTGGTCACTGGCATGTTGTATAAATGGCTGCACCTAAAG
Celera SNP ID:            hCV26300010
SNP Position Genomic:     25105
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32719):
CAGCTACTCGGGAGGCTGAGGCCGGAGAATGGCGTGAACCCGGGAGGCGGAGTTTGCAGTGAGCCGACCAGCCTGGGCAACAGAGCGAGACTCCGTCTCA
A
AAAAAAAAAAAAAAAAAAAATACTAATCAGCTACCATGGATGAAGCGTGGACCAGCAAACTTGGTCACTGGCATGTTGTATAAATGGCTGCACCTAAAGT
Celera SNP ID:            hCV26300011
SNP Position Genomic:     25106
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32720):
TCTGTATTAAAAATTCATACTGCACACCACCTTCACACATGGATTTCTCTCTCTCTCTCTTTCTTTCTTTCCCTCCCTCCCTCTCTTTTCTCTTTTTTCT
Y
TCTTTCTTTCTGTCTGTCTTTCTTTCTTTTTCTTTCTTTTTTTTAGACAGGATCTCGCTCTGTCACCTAGGCTGGAGTGAGTGCTGTGGCACAATCATAG
Celera SNP ID:            hCV26300012
SNP Position Genomic:     25509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32721):
CTCTTTCTTTCTTTCCCTCCCTCCCTCTCTTTTCTCTTTTTTCTTTCTTTCTTTCTGTCTGTCTTTCTTTCTTTTTCTTTCTTTTTTTTAGACAGGATCT
Y
GCTCTGTCACCTAGGCTGGAGTGAGTGCTGTGGCACAATCATAGCTCACAGCAGCCTTGAACTCCTGGCCTTAAGCCATCCTCCTGCCTCATCCTCCCAA
Celera SNP ID:            hCV26300013
SNP Position Genomic:     25565
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32722):
TGAAATCTGGTGTGTCTTTTGTACTTATAGTACATTTAGTTCAAACTAGCCATATGTTCAATAGCTACTTCAGTGTCCACTGTACTGGACAGAGAAATTG
T
TTTTTTTTGTGGGGTTTTTTTGTTTGTTTTTTATTGAGAAAGGGTCTTGCTTTTTCATCCAGGCTAGAGTTCAGTGGTGCAATCACTGCTCAATGCAGCC
Celera SNP ID:            hCV26300014
SNP Position Genomic:     28553
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32723):
GTTGGTTCATTTATGTATATCTTATCATTAAGGCATTCAATTTTTAAACTAAGTTTTAACTACCTGCAGCATTCCAGGAATTGTGCTCTTTAATTAGATT
R
TAAATTATTCAGGGGAAAGAGTTGATCTCTCATTTCTTTGAGTTTCCTAAAAGTCCAGCACAGTTCTTGGCACACTGGAGGGAACCTCACAGTTCTACGC
Celera SNP ID:            hCV1757983
SNP Position Genomic:     38907
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32724):
AGGTGTGCACAACTACCATGCCCGGCTAATTTTTGTATTTTTTGGTAGAGATGGGGGTTTCGCCATGTTGGCCAGGCCGGTCTTGAACTCCTGACCTCAG
S
TATCTGCCCACCTGGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACTGCGCCCAGCTGAGCTTGGTATGCTTATTCTTACTGCTTTTCAGATAAA
Celera SNP ID:            hCV26300015
SNP Position Genomic:     29973
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32725):
TGGGGCATTCCCCTGCAGCAAGGGGCGGGGCCACCCCAACGCCGCTTCTGCGGCCAAAGTAGGTTGGGAGTGGAAGGTGGTGGCTGCTGCTCCGCAGTGT
S
GGGAAGATGGCGCCGCCGGTGGCAGAGAGGGGGCTAAAGAGCGTCGTGTGGCAGAGTGAGTGCGGTGGGGTAGGGGTTGAGAGAGGGAAGGCCGGGAGGC
Celera SNP ID:            hCV1757984
SNP Position Genomic:     39494
SNP Source:               Applera
Population(Allele,Count): african american(C,13|G,23)   caucasian(C,7|G,31)   total(C,20|G,54)
SNP Type:                 UTR 5;INTRON;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,11)      total(G,3|C,11) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 5;INTRON;TFBS;hmCS


Context             (SEQ ID NO:32726):
CTACAAAGTGTAAATAAAGTAGCCAGGCATGGTGGCATGTGCCTGTAGTTCCCCTGTAGTCCCAGCTACTTGGGAGGGTGAGGTGAGAAGATTGCTTGAG
S
CTGGGAATTCAAGGCTGCAGTGAGCTATGATAGCACCACTGCGCTCCAGCCTGGGTGACAGAGTGAGACACCAGCATCACCAGAGAGCTTTTTAGAAATG
Celera SNP ID:            hCV26300016
SNP Position Genomic:     32195
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|G,6)      total(G,6|C,5) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32727):
ATGATCACCTGAGCCTAGGAGTGGGCAACAAAGTGAGACCCCATCTCTACAAAAAAATTTTAAAATTAACCATGTTTGGTGACATGCACCTGTGTTCCCA
S
CTACATGGGAGGCTGAGGCAGGAGGATCCCTTCAGCCCAGGAGGCTGAGGCTGCAGTGGACATTGATTGTGCCACCGCACTCCAGCCTGGGTGACAGAGC
Celera SNP ID:            hCV8848195
SNP Position Genomic:     41171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32728):
AGCCATGGGAATCTTGCTGGTCTAAGGTTTTCTTTGGGTTTTCTTTGACTCTTGGAGTATCCTAAAGCTTTTCAAACTTTTTTTTTTTTTTTTTTTTTTT
T
TTTGAGATGGAGTTTTGCTCTGTCATCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCCACCTCTGGGATTCAAGCGATTCTCGCGCC
Celera SNP ID:            hCV26300017
SNP Position Genomic:     33107
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,8)   total(-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32729):
GTTTTTCCTTGATCTGAATAATAAGGGCAAAACTTCTGTCTGAAGGAAGGCATGAGAATGATTTAGCTTGAAGAGTAAAATGATGAAAGAAGTCATCCTC
R
TAGGTATCTTGGCTAATGTACAACTCTAAAACCTCTTTCAGCTCCTGAAATACCCACTATTGATCAGGCATATTCAAAACTCAGCAACAGTATCACTGTA
Celera SNP ID:            hCV25993309
SNP Position Genomic:     10499
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(A,18|G,6)   total(A,31|G,31)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32730):
GTTCTGCGGTATCATCCACAACTTTCATAAACATCGCTCCAAACCTAGGTCTGGCAGGTTAGAGAAAGAATGAAACCACCCAACAGGAATAACCATCATT
S
TTTGGTATCTCTGAGTTCAAGATAATTATGGCCTAGTAGTGGAAAGGGAGTAGCATCTAATTAGTATTTCTTAGTCCAACTTGTTGAACAAAAAACAAAT
Celera SNP ID:            hCV1757986
SNP Position Genomic:     40352
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,12)   total(G,12|C,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:32731):
GCCATGGGAATCTTGCTGGTCTAAGGTTTTCTTTGGGTTTTCTTTGACTCTTGGAGTATCCTAAAGCTTTTCAAACTTTTTTTTTTTTTTTTTTTTTTTT
T
TTGAGATGGAGTTTTGCTCTGTCATCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCCACCTCTGGGATTCAAGCGATTCTCGCGCCT
Celera SNP ID:            hCV26300018
SNP Position Genomic:     33108
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32732):
TGGTGTCCAGTGACAGAGTTGAGATTGTCTGGTCTCCTGTCCGTGGTGCCGAACTGTATGAAACCAAGGCTGTAGATGGGTACAACATGGTTGAGTGCAA
Y
GACACTACTCCTGCGTGCACCCTTTCGGCTCTAGAGTGTGACACCAAGTACAACATCACAGTGTATTCATTCAATGAAGTCCGAGGCAGCAATATGTCAT
Celera SNP ID:            hCV25998646
SNP Position Genomic:     20704
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(T,32)   total(C,4|T,64)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32733):
CCACTTTCACAGGACCCCTCCATGGCAGCGCCATATGGTCTGGCTTTTCCGAACCCATCAAAATTTACTTGTCTTGGCTCATACACAAACATGCACGTGC
R
TGCGTGCACACACACACACACACACACACTTTCCAAGTGCCCTAACATACATTATTTCACTTATTCTTTACAACAATCCTAAAATGCAGGTATTTTAAAT
Celera SNP ID:            hCV15760120
SNP Position Genomic:     8437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32734):
AGAATCCCACTTTCACAGGACCCCTCCATGGCAGCGCCATATGGTCTGGCTTTTCCGAACCCATCAAAATTTACTTGTCTTGGCTCATACACAAACATGC
R
CGTGCATGCGTGCACACACACACACACACACACACTTTCCAAGTGCCCTAACATACATTATTTCACTTATTCTTTACAACAATCCTAAAATGCAGGTATT
Celera SNP ID:            hCV15760121
SNP Position Genomic:     8431
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32735):
ATGCTACTCAGAATGCACACAGCATGGCTCCGCCCTCTAATATCCAACTCAATTTCAGCATTCACATTCGACCTCACACAAAAGAAGATGATTCTTGTTA
R
GTTTACCCATCACCCCTTGTCCCTTTCTGGGTTCAGGCCAATTAGTATAAGAATTGGGCCAAATAGGAATTCATTTGTTCAGCAGATACTGAGTGAGTGT
Celera SNP ID:            hCV16150959
SNP Position Genomic:     12113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32736):
ACTAAAGGGCAACATACTACATAGGTGTTGATCTCATTTCATTGTTGATGCTGGTCACAGCCTGCCCTAAAACCAGGTGTAAAACAGACAATCTCTCTCT
Y
CAGCCTGTGTTTGCCGCATACTCCTCAGAATCCCACTTTCACAGGACCCCTCCATGGCAGCGCCATATGGTCTGGCTTTTCCGAACCCATCAAAATTTAC
Celera SNP ID:            hCV8848160
SNP Position Genomic:     8304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32737):
GAGGAATGGAGATGGGTCCAGCTGGAGGCAGTGGGATGGCTGTGGGACCAGGAGGGGAGATCAATGGCAAAGCAGCCTGCAAAAGTCACAGAATGCCCAA
Y
TGGAGTAGAATACTCTGGAAGAAAGCCTCTCAATTATTCTCTCTCTTCCCAGAGTTCTTTCCCGTAATTACTTCTCATTCTTATTTAGCTCTTTTAAAAG
Celera SNP ID:            hCV8848161
SNP Position Genomic:     10178
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   (C,-|T,-)   Caucasian(T,3|C,79)   African-American(T,23|C,45)   Asians(T,15|C,63)   total(C,187|T,41)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32738):
CTTCCCAGAGTTCTTTCCCGTAATTACTTCTCATTCTTATTTAGCTCTTTTAAAAGTACAAAAAGTGCAAATTACCCCACAGGCAATTGGGGAAAACTTT
R
AAATCCCATCCCTGAATGAGAGGTTTGAGCTTTCTGGATCTCTTCTGGAGAGTAGCTTTGTCTTTCTTTTTCTCTGTTTTTCCTTGATCTGAATAATAAG
Celera SNP ID:            hCV8848162
SNP Position Genomic:     10323
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(A,3|G,79)   African-American(A,34|G,48)   Asians(A,16|G,66)   total(G,193|A,53) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32739):
GTGCCATTGAAATAATCCTTCACACTTAACAGGTCCAGGATGTTCTAAGGCAGTTTGTGTATAACACAGTCATGATCATAGGGATGACCTTGACTTATTA
R
TAAAAGAACTATGTTTACAAACTACGGTGTGTCTCCTGGGGCCCAGAAGTGTGTAATATATTTCGGGAAGATTTCCACTAGAGAAAACTAAAATTTTTAA
Celera SNP ID:            hCV8848169
SNP Position Genomic:     16765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32740):
AGTCTCATGTTTATTATTGATCATTTCCTAGTTGCTTGTGCACCCGGAAGAGTGACGATCCAAGAAGATCCCCCTGGCCACCTGTCTGTGGCTTGGTCCA
R
TGTAGATCTGGGTGACTACTATGTGGTCTTTGTGAAGAGTGATGATGGCTTGGAAGTACACTGCAACACATCTCTCACTCAGTGCAACTTCTTATCTGAG
Celera SNP ID:            hCV25991715
SNP Position Genomic:     18582
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,24)   caucasian(A,6|G,24)   total(A,16|G,48)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32741):
TTCTGTAGGGGAGAGAGGGAGCGAAGCCCTTTCCTATAGAATTGGCTTCCACTGGCAAGTGGCTATGATGAGCAGGCCTGAGATTTTCCTCCAGCATATA
Y
AAGTGTCATAATTTTCTTTCAATGGCAAAAGAGACTATCCTGGGTGATGTTCAAGGAATGTCTGGCCAGGGCACAGAGGAGACTTTGTTCATTTTTGCAG
Celera SNP ID:            hCV27832209
SNP Position Genomic:     9274
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:32742):
TGTAATTCCAGCTACTCCAGAGGCTAAGACCTGAAAATCACTTGAACCCAGGAAGCAGAGGTTGCTGTGAGCTGAGATCACACCACTGCACTCCAGCCTG
R
GTGGCAGAGCAAGACCCTGTCTCTTTGAAAAAACAAAACAACAACAACAACAAAAAAACTACTTATATAACTGTGAGCCCTACCCCCCAGTTTTATTTGG
Celera SNP ID:            hCV11327090
SNP Position Genomic:     20064
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,10)   total(G,10|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32743):
AACTCTGGGGACAGAGGAAACAGAAGGAGTTGAGAGACACCAGAAAATTAGAGGAAAGAAGGCATATAGCACAGGATCATTAGCTTGGGGAGCAGAAGAG
R
GGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGAAGAGGGAGCCCCTGCTGGGGCTTTCTATTCTGTAGGGGAGAGAGGGA
Celera SNP ID:            hCV27837653
SNP Position Genomic:     9093
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,6)   caucasian(G,20)   total(A,2|G,26)
SNP Type:                 INTRON


Context             (SEQ ID NO:32744):
CTCACTCAGTGCAACTTCTTATCTGAGTGTGGCTTCACTTATTTTATTAGTGTTTTTGCCTATAACAAGGCAGGGCAAAGTCCTTTGGGTGACATATTCA
R
TTATACCACAGGTAAGTCCCATTTGATGTTTGTTAAGGGAGTTCTGAGATCTCTAACCTCAGCAGCAGAATGGATCACCTATTCCACTTATTGACTTACC
Celera SNP ID:            hCV15760205
SNP Position Genomic:     18756
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,34)   total(A,66|G,2)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32745):
CTCCTGCGTGCACCCTTTCGGCTCTAGAGTGTGACACCAAGTACAACATCACAGTGTATTCATTCAATGAAGTCCGAGGCAGCAATATGTCATGTACTCC
S
CAGTTCATAACCACAGGTAAGGCACAGCTATCATTCCACTCACTGGTGTCTGAATGATTCACCCCAGCTCTGAGCCTCAGGATGGGCATTCAGTGAGACC
Celera SNP ID:            hCV25997891
SNP Position Genomic:     20812
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,32)   total(C,69|G,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:32746):
AGTTCCCCACGCATAGGCACTATGAATTTGGCCCGCATGCATGACGTGGTTGAAAACTGTGATGATCTCACTGGGGGCAAAATCAGTTTTAGACCAAATG
R
CACATGTGATATTTTTGACTCATGCTGGTTCAATTAATACTCTAAAATGTCTTAGCTCCTTGCAGTCCTGAAATAAAAAATGTTTCAAGGGATGCATTCT
Celera SNP ID:            hCV176553
SNP Position Genomic:     21339
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|G,7)   total(G,7|A,7) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:32747):
CAGAAGAGGGGAATGGCTTTCCAGTGGAGGGGTCAGCAATCTTCTCTGCATAGAGAACAAGGGCGCACGTGGCGTGGGGGAATTGAGGAGTCTGGTGTGG
M
AGGGAGTGGGGGGAGTACAGCAGAACCTTATAGCTTGCAATGACCTTCAATGTCATGCTGAGGATTTACCCTCTATGCAGTGGCAATTAGGCCAAGATTG
Celera SNP ID:            hCV11975948
SNP Position Genomic:     20325
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   (A,-|C,-)   Caucasian(C,84)   African-American(A,8|C,76)   Asians(C,84)   total(A,8|C,244)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32748):
TGTAGTTGTTCAACCTTGCTCTGAAAGATTGAACTCGCCACAAAGATGTACTCAGTGAGTGTTCTAGCATGTGCTGCTGCCAGAGAGAAGGCAGTGCCTC
Y
GTTTCAGGAGGTCACTCTTTCCCTGAGACCAAGACAGACATACAATGGCCAAGACGCTACATGGTGTGGAGGGCTTTGGAGTAGGACACCTGGGTTTACA
Celera SNP ID:            hCV11975949
SNP Position Genomic:     19092
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32749):
TGAGGCAGAAGAATCGCTTGAACCTGGGAGGTGGAGGTTGACTGCACTCCAGCCTGGCAACAGAGCGAGACTCCATCTCCTTCTCAAAAAAAAAAAAAAA
R
TGTTGAAGATGGGGGCAACAAAGGATTTCTTTCTTATTCTGAAAAAAAAAAATGGTGGAAACCTGCAACAGCCAGTTGGTGCAGTGCATTCTTGGGGAAA
Celera SNP ID:            hCV8848170
SNP Position Genomic:     23140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32750):
AAACACTGCAGGCTACCCCTACCAGCCCTGGGCCCAGCACTTCCCTAAAGCAGAACTGCCTCTGCAGACTAGCTGACCATGCAGTGGGAAGGGGCCTGTC
R
AGATGGCCCACGGGAAAATCATGGCAGATGCCTGCCTTACAGAGAATGAGTTAGGTCCTCATGTCCTCAAAGAGGCCTTCCCGGCCGGGCACGGTAGCTC
Celera SNP ID:            hCV28012435
SNP Position Genomic:     13867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32751):
AGGGGCTCTGCCAATTACAGCACTGACCTCTATGGCTCCAAAGGCATTTTCACGTGCACCCCGAGTGCTGGCCTCAGTTTCTGTGATGTCACTGAGATAC
Y
CTGTGGGGATGTATACACTGTGATGGTCTCACCAGTTGCTAAAACAGGATTGAAGCTTACTTTCTGTCCAAAAAAAATATATTCAGGTAAAGCAAGTTAT
Celera SNP ID:            hCV8848171
SNP Position Genomic:     26211
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32752):
GCAATCTCGGTTCACTGCAAGCTCTGCCTCCCAGGTTCAGGCCATTCTCCTGCCTCAGCCTCTCCGAGCAGCTGGGACTACAGGCACCCGCCACTACCCC
Y
GGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGGTCTCGATCACCTGACCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATT
Celera SNP ID:            hCV1757962
SNP Position Genomic:     7542
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32753):
TTTTTTTAGTGTTGGCTGCACCAATTCTAGAAGTAAGCTCTCCAAGTTCAGACTCCATTCTTGTGCAGTGGGAAGCTGTATATATGGCAATTGCATTCTC
Y
GTGTCCATTATGCGAGCCAATGGCTTGGGGAGTATATGGAAAGAGAATACTACAAACACCTCCTTGACATTCACCAGTTTAGAAGCCGGAACTCTCTACA
Celera SNP ID:            hCV25997358
SNP Position Genomic:     11644
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,25|T,1)   total(C,61|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:32754):
ACAGGCACCCGCCACTACCCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGGTCTCGATCACCTGACCTCATGATCCGCCCGCCTC
R
GCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGCGCCCGGCCGGCTTCTTAAATAAGTCGACTTTGGGTGGACAGAATCTAACTCTGCCGTCTCT
Celera SNP ID:            hCV1757963
SNP Position Genomic:     7621
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32755):
CCGCGGGCCCCATGACAGGCCTGTGGGGAGAGGGTCTGTGTCATGCTAGCCTTTTAGATGCCTTTCAAACTGCTCCGTGAATGCATGATCCGGCCTCCTG
K
GTCTGTGGCCAGTTTGGCTGTCATTTTCCCAGGAAGTTAGTTCATTCCAATGAACAGAACTGGTAACATAGGAGATAAGATTAACTCTGGGGACAGAGGA
Celera SNP ID:            hCV1757964
SNP Position Genomic:     8910
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,20)   caucasian(G,12|T,22)   total(G,14|T,42)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32756):
CTGGTAACATAGGAGATAAGATTAACTCTGGGGACAGAGGAAACAGAAGGAGTTGAGAGACACCAGAAAATTAGAGGAAAGAAGGCATATAGCACAGGAT
M
ATTAGCTTGGGGAGCAGAAGAGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGAAGAGGGAGCCCCTGCTGGGGCTTT
Celera SNP ID:            hCV1757965
SNP Position Genomic:     9070
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,16)   caucasian(A,3|C,21)   total(A,5|C,37)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32757):
AATATAAAAATTATTAATAGATATTTTGTACATTTTTCATACTGTCTTTGAAATCTGGTGTGTCTTTTGTACTTATAGTACATTTAGTTCAAACTAGCCA
Y
ATGTTCAATAGCTACTTCAGTGTCCACTGTACTGGACAGAGAAATTGTTTTTTTTTGTGGGGTTTTTTTGTTTGTTTTTTATTGAGAAAGGGTCTTGCTT
Celera SNP ID:            hCV8848176
SNP Position Genomic:     28505
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32758):
GTGAAGAGTGATGATGGCTTGGAAGTACACTGCAACACATCTCTCACTCAGTGCAACTTCTTATCTGAGTGTGGCTTCACTTATTTTATTAGTGTTTTTG
Y
CTATAACAAGGCAGGGCAAAGTCCTTTGGGTGACATATTCAATTATACCACAGGTAAGTCCCATTTGATGTTTGTTAAGGGAGTTCTGAGATCTCTAACC
Celera SNP ID:            hCV1757967
SNP Position Genomic:     18714
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,22|T,4)   total(C,51|T,13)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32759):
GTAAGCTCTCCAAGTTCAGACTCCATTCTTGTGCAGTGGGAAGCTGTATATATGGCAATTGCATTCTCCGTGTCCATTATGCGAGCCAATGGCTTGGGGA
R
TATATGGAAAGAGAATACTACAAACACCTCCTTGACATTCACCAGTTTAGAAGCCGGAACTCTCTACACCATAAAGGCCTATGCATGGAATGCCAACAGA
Celera SNP ID:            hCV25997289
SNP Position Genomic:     11676
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,27)   total(A,1|G,63)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32760):
TTAACTGATGTCTGGTTCTGTCCCCAGAAAGTTTGATTTAATGGGTCTGGGGTGAGAGCTGGGCATCAGGAGTTGTAAAAGCTCTTCAGGTGATTCTGAA
R
TATAGCCAAGGCTAAGAACTGCTACTTTAGAGCCGTGCTTCTCAAACTTTATTGTGCACACACATCACCTGGGGCCTCGTTAAAGCCAGATTCTGATTTG
Celera SNP ID:            hCV8848178
SNP Position Genomic:     30732
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32761):
AAGACCTGAAAATCACTTGAACCCAGGAAGCAGAGGTTGCTGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGTGGCAGAGCAAGACCCTGTCTCT
K
TGAAAAAACAAAACAACAACAACAACAAAAAAACTACTTATATAACTGTGAGCCCTACCCCCCAGTTTTATTTGGTTTACTGTCTGGAAAGGCTGACAGG
Celera SNP ID:            hCV1757969
SNP Position Genomic:     20089
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,9)   total(G,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32762):
TTGTACTGAGTTGTACATACTATTTGATTTGTTCCTTATTCGTAGCATCTAGTATCTTAACTCTATGCTTAAGATGCTCCCTGGAGGATGTAATGGGCAT
R
AGAATGTATTCTGTCATTCAGTGCATGAGAGGCTGCAGTTAGAAAAACTTTCCAGGTTGCACACGGGGGCTCATGCCTGTAATCTCAACACTTCAGGAGG
Celera SNP ID:            hCV15968077
SNP Position Genomic:     17180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32763):
TGCAACATATTACTGTGAATTGAATGTGTGCTTTTCTCCTAATAAATGATTATCTATTTGACTCCCAGTACGTAGCACGTAACTGTTGCCTGATATATTT
K
AAATTTAAAAAAGAATGAATCAATGAATATACAGCTAAGTGAGTGATGGAAGTCTTTTGTTCTTTCTCCTGCTCCATGCCCACAATTTCACCCTTAGAGA
Celera SNP ID:            hCV15878627
SNP Position Genomic:     29273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   JBIC-allele(T,172|G,573)   total(G,573|T,172) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32764):
TTTATGACCCCACAGCACCCTTATCTGTACTGCAACATATTACTGTGAATTGAATGTGTGCTTTTCTCCTAATAAATGATTATCTATTTGACTCCCAGTA
Y
GTAGCACGTAACTGTTGCCTGATATATTTGAAATTTAAAAAAGAATGAATCAATGAATATACAGCTAAGTGAGTGATGGAAGTCTTTTGTTCTTTCTCCT
Celera SNP ID:            hCV15878628
SNP Position Genomic:     29243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32765):
ATAATGATAGACATCCTGGGATGTTGGAAATTAGGAAACTTGAACTTTTATTTGCACAGACTGAGAATTATGACTGAGGAAAAGTTAGAGGATCAGAAAA
R
ATAAATTTATAAATCACAAGCTAGGCTTGGCAATATGAGTGGGCAGACAATCTGTGATCACAAAGCATGGCTGTCAGCAACTACCATCTCACCAGAGCTG
Celera SNP ID:            hCV15878629
SNP Position Genomic:     27037
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,43|A,1438)   total(G,43|A,1438) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32766):
GAGGTGGAGGTTGACTGCACTCCAGCCTGGCAACAGAGCGAGACTCCATCTCCTTCTCAAAAAAAAAAAAAAAATGTTGAAGATGGGGGCAACAAAGGAT
K
TCTTTCTTATTCTGAAAAAAAAAAATGGTGGAAACCTGCAACAGCCAGTTGGTGCAGTGCATTCTTGGGGAAAGTACCCACTATATACAGTGAATGTTAC
Celera SNP ID:            hCV15967853
SNP Position Genomic:     23167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32767):
CAGGTCCCACTTAAGACCAACTGGAGTTGCTGGGAATAGAATTTGGATATGAATAGTTTGTAAAAGCTCCCCAGTTGATTCTACTATGCAGTCAGGGTTA
R
GTGCCATTGAAATAATCCTTCACACTTAACAGGTCCAGGATGTTCTAAGGCAGTTTGTGTATAACACAGTCATGATCATAGGGATGACCTTGACTTATTA
Celera SNP ID:            hCV11975953
SNP Position Genomic:     16664
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32768):
TAACTCTGGGGACAGAGGAAACAGAAGGAGTTGAGAGACACCAGAAAATTAGAGGAAAGAAGGCATATAGCACAGGATCATTAGCTTGGGGAGCAGAAGA
K
GGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGAAGAGGGAGCCCCTGCTGGGGCTTTCTATTCTGTAGGGGAGAGAGGG
Celera SNP ID:            hCV26300000
SNP Position Genomic:     9092
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3|-,5)   total(G,3|-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32769):
CTGTGGGACCAGGAGGGGAGATCAATGGCAAAGCAGCCTGCAAAAGTCACAGAATGCCCAACTGGAGTAGAATACTCTGGAAGAAAGCCTCTCAATTATT
Y
TCTCTCTTCCCAGAGTTCTTTCCCGTAATTACTTCTCATTCTTATTTAGCTCTTTTAAAAGTACAAAAAGTGCAAATTACCCCACAGGCAATTGGGGAAA
Celera SNP ID:            hCV26300001
SNP Position Genomic:     10217
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3|-,6)   total(C,3|-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32770):
AGGGAGTCACTGTAGTCATCAGGGAGGGCAGTGGCAGAGGCTCTGGGCATGGGAGGTCAGGACACAGTGTACCCCCAGCTGCATTGCTCTTGATGGGACC
R
CCATTTTCCCTCTGCTCCTGCTTTCAGCTCCCTGTTGTCCTAGTGACATTAACCCCGTGTTGGTGTCCAGTGACAGAGTTGAGATTGTCTGGTCTCCTGT
Celera SNP ID:            hCV1757970
SNP Position Genomic:     20543
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,20)   caucasian(A,18|G,12)   total(A,32|G,32)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32771):
TCTTAGCTCCTTGCAGTCCTGAAATAAAAAATGTTTCAAGGGATGCATTCTCCATGATTAATGTGCACTGGCGATCCACTAATGATGATGCTACTTACAC
R
GTGACTGCCCAAGGGGAGAAAGGACTGTATCAGTGCAGCAGCACAGGAGAGTCCTGCACCATGCGGGGCTTGCCCTGTGGCTCAGTGTTCTCTGTCACTG
Celera SNP ID:            hCV1757971
SNP Position Genomic:     21489
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Gene Number:                 136
Celera Gene:                 hCG2039590 - 208000027311694
Gene Symbol:                 C6orf136
Protein Name:                chromosome 6 open reading frame 136;Em:AB023049.8;MGC15854
Celera Genomic Axis:         GA_x5YUV32W6W6(3671646..3689309)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12296):
TGAGGTCTCAGGCCTGCAGGGGAGGGTGCTGTGGATAAAGCTTAAGTGAATTTGCTGAGAAGTCTTTCATTTGCCACACATACATGATGGAGAATCTCTT
GAGAGGGAAAGCCGGGAGCAAGTAGAGAAGTGAGGAGGGGGAGGCTGAACTTTGGACATTACATCAGCCTCCTGCTTACTCTGATAGCTCCCTTTCAGAT
GCCCATATTTATTTTCTTTTTTTTTTTTAACCTAATAAAACTTCAGTCTCTTCCCATTTTCGTATAGGAAGGAGAGATTGTGCCCTCCTTCCAAACCTCC
CCTGACCTCTCCAGAGCAATTCCTGATTAACCAAGGGCTTTGTCCATCTCATCCAGAGGAACCCAGGGTCCTCGTTGGCCCGGCTGGGACCATTCCACTG
CCCCAGAATACCAGGGGGCCRTGACAGCACCCACTGACAGTAAGAGCTCACTYCCCTTGGCTGCCCTTCTCCTGCATCTCCCAGGCCCCCAGAGTCTCCC
CTTCGATCTTTCTCCCTAGCTCTGTGTTTGGCCTACTCCTTCTGGCTTTCCTCAACAGTGTTCCACATTCCCCTCAAATTCCCTTTTGGTGTGCTGGCAT
TGCCATGGTGCTGCTCCTGCAAGTTCTCAGGAGGAACTGTGGTGTCAGGGAGCAGARGTTTGGGGTTGGGGTATAGTGGCTGGGAGGAGGGGTGCAAAGT
ATGTCTCCTAACGCTTACCCTGCCTATGTCCCCTCCACTGCCAGCTCCAGCAAGGAAGCTGCCACCCAAGAGAGCAGAGGGAGACATCAAGCCATACTCC
TCTAGTGACCGAGAATGTAAGAGGGGCAAGGGTSGGGTGTCTGGGCCTGGGGTACCTTAACACAAGGGAAGAGAATGCTCAGGGGACCCAGGGAAAGGAT
TCGTTCTCTCTAAAGACTCAGATTTCTTGGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGGCTAAGGCAGGCAGATCGCCTGAGTC
CAGGGGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCACGGTGGCACGTGCCTGTAATCCCAGCT
ACTTGGGAGGCTGAGGCAGGAGAATGGCTTGAACCCAGGAGGCGGAAGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCTTGGGTGACAGAGTGA
GACTCCGTCTCAAAAAAGAAAAAAAAAAAAAAGAAAGACTCAGATTTCTCTTTTTTTCTACCAAAACCTTTGCTGTCATGACTCTCTTCCTTTTTTCTTC
TTTTTCTGTCTTGCTCTTCATTCTCCCTGTCCCCAGTTCTGAAGGTAGCTGTGGAGCCTCCTTGGCCCCTAAACAGGGCCCCTCGCCGCGCCACACCTCC
AGCCCACCCACCCCCCCGCTCCAGCAGCCTGGGAAACTCACCAGAACGAGGTCCCCTCCGCCCCTTTGTGCCAGAGCAGGAGCTGCTGCGTTCCTTGCGC
CTCTGCCCCCCACACCCTACCGCCCGCCTTCTGTTGGCTGCTGACCCTGGGGGCAGCCCAGCTCAACGTCGTCGCACCAGGTAATAGGAGTTGAAGGGCT
AAGGAGCCTCACAGCTATAAAAGAGGATGTTAGAAATGGCAAAGGGCAATTTGAATCCATCAGAGAGATGGATCAATAAGATGGGTGGCTTGGGGGGGGT
CCTGAAACCTTTCAAGAAAAATATTTGTGCAAGTGATCTGGGAAAAAAATGCAGTGAAGGAGCAGAATAGGACCTTATATGGAGCCTAGGGACCCTGGCT
TTAATGTGAGAGTTATGTGGAATGGTAGGAAGAACACCGAGATCCATCGAGTTGGGGGAACAGAGCCTTCTAAGATTGGGAAAATCTTCGCTTAATACTT
GCTGGGGAAGGGGCAGTGTCTGACAGAGAGTGGGAAGCCACTGGCTTGTGTGCCAAGAGTCCATCGCAGCAGGCAGGGAGTGGGCATTTCCTTTATTTCT
CTCCCTTTCTCTTCACCTCTGACTTCTCTGTTTTTCTCTCCCCYGCCCCCCGCCATTTCCCATCTCCCTTCCTCCCATCCATAACATCCTTCCACAGCTC
CCTTCCCCGCTCTGAGGAGAGTCGATACTAACAGCTACCCTCTCCCTGCCCTGGGAGACCTGGGGTGGGCAGGGAACCCCTCCCTGAGAACCTCAGACCC
ACTCTTCCATTGCATCCTGTAGGACCCAGTGGAACCTGACAGAGCCCATAGGATTCCCTCTTCTACTTTCTTAGACAGCAGGGATGTCAGGGTCTCAAAC
TGCCTAACACTTTGTAGCTTTTCTTAACACAAAAGCACCCCTTCTCTCCTAACTTGGGCTCTGAATACTTTCCCAACAGGAAGTCTGATCTGTTGCCAGA
CTTCTTRGTTAGATGGCTCATACATTTATCTAGAGAAGCACACTCTTGCTTGCTGTCAAACTTTAGAMCACCATGGAAGGTCTAAGGGCATCCTGTGCCA
GGGAAACTTTTTAAGGAATTTTATCTATGGGATAAACCCCATATTCCCTCTAGTGTCTACTGGTGGCTCTAATACTGCTTTGTGCTGCCTGCCACACTTG
CCCTTTGAGCCTGCGAATGGCCGCTAGTGAGCAAGCTCTGCTTCAGAGCAGTCTAGTTAGGTAGAACAGGGACTTACCAGCTTCCCAAAGGGATCTACTC
ACCATTGCCAAACTCTTCATTTCCACATTTTGTGTAGGTGTCAGGGAACCCCAAACTGGTGTTGCTTTGGGGTCTCTAAAGGAGATTGGCTGACACCACC
ATTTCCCCCAGATCCAGATTCTCTGAGGGAGGTTGTTTCTTGAGAGTAGATCCAGAGTGTCAAGGATCTGTTAGATCCTGGAATCCCTTCTTGCATCCAT
CCCTCCCTGGTAGCTAGGTCCCGATATACTCCTGTCTTGTGAGATTGTCGAGATGAGATGGGGGACCACTCTTCCTCTGTCCTTCCTCTCTCCTTTCCTC
CATAGCAAGGACGACCTTCCCTGCTCCATGCCCAGAGTATAGCTAGATCCCTTCCCCTCCCTACCCTCTGAATGTGTGCTAGATCAGGTGCCCCACTGTG
TTTCCTGAAATCCTTGGGAGCCGGATCTCCCCATCTCCCCTACTCACTCTTCCCTTTTCTTCTCTCAGTGTTGTCTGAATAAAGTGTGAAATCTTTTGTG
TTTTCTAAATTGACATTTTCAATGAAAAAAAGAATCACAAAAAAAAAAGTTGTCAGCCTCATTTGTGCGTCATCCCTTATTTTCCTGGGATCTCAGGACC
TCTGTCCCTCTCATTTCTCACTTCTGAGATCTGCACATCTTTTACCCAGGAGCCTCAGAGCTCCTGAGTCTGGTGTCTGCCTATCCCCATCTTCACTGTT
AGTCCTCCTGCAGATTCTGTGTCTCCTTTCATGTAGGTGCTGGATCCCTGTGTGTGGGCTTCCGTATCTACTCCCTCATTCCCTCCAGGAACCTCCAGCT
CTCCCCAGTGACTTCTACCCTTTACTCTGGGCGTGCCTTTGCCAAGATGTCAAAGCTTACCAACATCTCTGGATCCACTAATTACCTCCTGCCTCCTGTA
TTCGTCTTCCCACTCTGATTACCTGACGTCTGCTCCACTAAACCGCTGGATCTCTCTCAAGACAAACCCTTACCTCCATTGAGAGTGCAACACAGTCTGT
CACCCTATTTACAGAGGCCCCCTTCCTTTTCCTCCTAAATTCAAAATTCAGCCTTGTCACTTCCTATTTCCCTCTGGTCTAAGGAATCTTTTTTTTTTTT
TTTGAGATGGAGTCTTGCTCTGTCGCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCCT
TAGCCTCCCAAGTAGCTGGGATTACAGAAGTGCACCACCGTGCCCAGCTAGTTTGTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGTTGG
TCTCGATCTCCTGATCACGTGATCTGCCCGTCTTGGCCTCCCAAAGTGCTGGGATTACAAGCCTGAGCCACCGCGCCCAGCCTGGTCTAAGGAATCTTAT
AGTTAAGGTAACCCTGTTTTCCAAACCAAACACCAGAGTACCCGATCCAACACATTTTTGACCACATGTGAGTCTGTTCTTCTGACATGATTTGGATCAC
ACCTAGCCATAGATTTAACACATTACCTCAACTAGAAAGAATAGAGCAATAAATCAGAAGCACTCCAGAAAATCTTGGGTATAAAATGAACTTCCCCCGC
CCTTTTCTGGGGCACAGCTTTGATTAAAACCTGTTAGGAATGATAATTACCCCCTTCTCTTTGTTCCTGTGCTATTCCTTTTACTCCTCTCCTCTGATTC
CTCCATACCCACCCATCTTTCATCCAGTAGCCTCCTCCCCATCATCTCCCATTTCTTCTACAGGGGGACTCCCCCAGGTCTGGTAGCCCAAAGCTGCTGC
TACAGCCGCCATGGGGGGGTGAATTCCTCATCCCCCAATACAGGTAAGTATTCACTCCTCCCTACCCTCAAATCAAGTAGGCCACATTCACTGTCTACTC
CTGCCTTCCCATTCACATGCCTGATATTTCCACAGGCAACCAAGACTCCAAGCAGGGAGAACAGGAAACAAAGAATAGGTGAGGTCTAAACCCCTCCCCT
AACAGCCTCCCACCACCATCTGACTCCCTTCCTAACATCATTCTCAGTCACTTCCTACTCTTAAATCTTATTGTATGAACTGGACACCAGCTCCTCCCAC
AATTCCTTCTACCTTACATCCTGCAAGCCCCTTTCCCCCACAGGTTCAACTCTGGTACTTCCCTTTGGAATACGGATTCTCTGAGAGGTTTTAAATTTGG
ACATAGCACTAATGGTTCCAGCTTCATACCCATCATGTGTCCTACATTAAAACCTGGCCCGAGACCTTGAAGAGTCTGTAATCTTAATTTCCTCTTTAGT
ATTCCTATAACCCACTCTCCATCTCCCCACCTACCAGGTCTGCCAGTGAGGAGCAGGCCTTGTCACAGGATGGGTCTGGGGAGAAGCCCATGCACACAGC
TCCTCCACAGGCCCCGGCCCCGCCAGCCCAGTCCTGGACAGTGGGTGGGGACATACTCAACGCCAGGTTCATTCGAAACCTGCAGGAACGTCGCAGCACC
AGGCCTTGGTGACCGCAGCCCCGTCAAACATCTTCAAAGTATTATTTCTCCCTCACTACAGGAAAGAGCCAAAGCCCAACCCTCATAATAGATGGATACA
TTCATTCATTCATTCATTCAGCAGGCTTATCAGATTCAAGTCATTTGTATCTTTTAACCAGACCAATAAAAGTATTTATTTTTATCACAAGAGCTGTTGA
AAAATTTGACTCATTATTTCAGCCGCCTCACCCCTCACTGTCGTTGCACCCATTCAGCCTTCAGCCCTGTTTTTGCTCAGCTTTTTGCTCAAAGGCCTCA
GCTGTGAATACAGCGCTTGGGGGGGCGGGGGAGGCTGTAACTTGCGCAAGCGCACTCAGGCAGTCTCCGAGCCCGCGGGCGCAGGCGCGCTTACAGCCGA
CAGAGCGCTTCAGCCGCTTCCCTCGAGCCTGCAGTGCGCAAGCGCGGGACATCTCCGTTTCCCTCCCTCAGCCCCTTCCCCCCCTACCCCCCCGCCCCGG
CCTCCTTTCCCCTTCACGAAGCCGGCTCTGGGGCGCGCTCACCCCTGTGAGGAGGCCGGAGGTCGGACTCAGGAGGCTCCTTCTCCACTCCCGGAAGATC
ATGTACCAGCCCAGCCGGGGTGCGGCCCGGCGTCTCGGCCCTTGCCTGCGCGCCTACCAGGCTCGACCCCAGGTGAGCGGAGGAGAAGAGGGAGGGAGGA
GAGGGGGCGGGGAGAGACCCTCCTCAAAGCCGGTGCGTGGGGCGGAGCGCGCGCTGGGTTCCGCGCAGGCGCAGAGACACCCGCCGCCCCTTCCCACCTG
TGCCCTGCAGCGCGTGGACAGGCTAGGGGTCGCGGGAGCGGGAGGGAGGCGCTGCCGGGCCTGTCGCGCAAGGACGTCGGTCCTCCCAGGTTTGAGGGCG
GTCAGGCGGGGTCAAGGCCAGGCAGCGGGGCGCGTCTGCGTTGCGCCCGACTCTCCGCGGTTACCTGTGCCTAGAGGTGATTTGAAGGGCAGGGGCCGAG
AGATTCGTAGCCCTGCTGCGGCGCCGTCCCGGAGTTCCCCGGCCCAGACCAGACCCGCGGGGCGCCCTCAGCAGCCCGCCCGTCTTGCACTCGGAGAGCG
GTCCTGGCAGGAAGGCCGGCCAGTGTGCACCCGGTTCGGGCCCCTGCGCCCGGGCTGGCAAGATGGCCACGCCCCCAGCAGAGACGGCGCCTCTAGGACA
CCATCGGGGACCGAGGTACCCGAGCGGTCCGCCCGCCTTCCCTGCAGTGAGACGATCCCCTGGGGGGTTCCTTGGGAGCGGAGGGACTCGGGTGAGGCCT
AACTTTGGGTGACCTCCCCTTGCAGTTTCAACGTCGGTAAACCCAGGAGAGTGAAGGCCAGCCTTTAACTGTCTCCTGAGGTTGTGTCTGTCATTAGAGG
GGCCCGAAATGATAATAGCTTCCATTTATGTACTGCTTTCTAGGTCGCTACGTTTTGTTTACATTCATTATTTCATATAGGCCTCATAACCCAGTGAGGC
TTTATTGTTCTCATTTATAGGACATTTGTAGGAAGCGGAGGCATAGGGAATGAGAATGCCTAAAGTTACATGATAGAATTCAGATTCCTAGCTTCAGCTG
GATATTCTTTTTTCTCTGTACATTTGCCTCGCACACTTAATCATGGAGATGTACAGGCCACAGCATTTAATCCACAGTACAATAAAACCTGTTATTCGTT
AACTCATCAAGTATGTATTACATGATTCTTGCGATAAGAGAGGTGAAACTGCCCCCAGTGTTGGAATCTTTTTTTTTTTTTTTTTGAAATGGAGTCTTGC
TCCGTCACCCAGGCTGAAGTGCATTGGCACCATCTCGGCTCACTGCAATCTCCGTCTCCTGGGTTCAAGCAATTCTCCTTCCTCAGCCTCCCGAGTAGCT
GGGACTACAGGCTCCCGCCACCACACCCGGCTAATTGTTTTGTATCTTTAGTAGAGATGGGGTGTCACCATATTGGCCAGGCTGGTCTCGAACTCCTAGA
CCTCGTGATCCGCCCGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCACATTTCTTTAAGATTCCAACACTGGGCCGGG
CACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATTACCTGAGGTCAGGAGTTCGAGAACAGCCTGGCCAACATGGTGAAA
CCCCATCTGTAACTAAAAATACAAAAATTAGCCGGGCGTGGTGAAGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCTTGAACC
CAGGAGGCGGCGGTTGCAGTGACCCGAGTTCGCGCCAATGCACTCCAGCCTGGGCGACGGTGAGACTTCGTCTCAAAAAAAGAAAAAAAAGTAAAATGTC
TGCTAGGTTTTGGGAGGTGCCGGTATTTATGTCACATAAAACAGTTTGCTCGGCTGGGCGCGGTGGCCCACGCCTGTAATCCCAGCACTTTAGGAGGCAG
AGGCGGGTGGATCACGAGGTCAAGAGATGAAAACCATCCTGGCTAACATGGTGAAATCCTGTCTCTACTAAAAATACAAAAACTAGCTGGGCATGGTGGC
GCGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAAAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCTACTGCACTC
CAGCCTGGCAACAGAGCGAGACTCCATCTCAAAATAAATAATAAAATAAAATGGTTTCCTCCTGTTTTCAGTAGAGATGGAGATGAATCCATCCCTTTTT
TCCTATAGTAATTCCATCCATTCTGTCAGGAGGAATAGGTATTGGAAGCCTGTTGAGCATCCAGGGGATCAAGGGGTGTTAGACAAGTGGATTCTTATCT
TTCTCCCTTCTGTTCTTTCTCCTTAGGACCAGCTTTATCCAGGGACTCTACCATTCCCACCCCTTTGGCCCCACTCCACGACAACCACTTCCCCATCTTC
TCCTCTATTCTGGTCTCCCCTGCCCCCACGCCTTCCCACCCAGCGTCTTCCCCAGGTTCCCCCACTACCTCTCCCTCAGATCCAGGCCCTCAGCTCAGCA
TGGGTGGTTCTCCCTCCAGGAAAGGGGGAGGAGGGACCAGGACCTGAGTTGCATAGCGGCTGCCTGGATGGGCTTAGAAGCCTTTTTGAGGGACCTCCCT
GCCCCTATCCTGGGGCTTGGATACCTTTCCAAGTCCCTGGAACTGCCCACCCTTCCCCTGCCACCCCGTCAGGAGATCCTAGTATGGAGGAACATCTGTC
TGTCATGTATGAGAGACTGAGACAAGAGGTAAGTCAGTGCAAAAGTGGCCTTCGTCTACAGTGGGAAGGATGTGSGTAATCCTTGGACGTACAGGGATAG
TCAACTGGATTCTTTTTTGGAACCATGAGGCAGGCATAGAAATATATTATAAACATTTTCCTGAGAAAATGATGTTCCAGCCAGGCACGGTGGCTCAAAG
TGCTGTAATCCCAGCACTTTGGGAGGCTTAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACT
AAAAACACAAAAATCAGCCAGGCATGGTGGCAGACGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGCAGTG
AAAGGAGATATCTCCATTGTACTCCAGCCTAGGCAACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAGAAAGAAAATGATGTTCCTCATTTTGGGTTA
AGGGAGGTTAATCATGGGATGAGATCTTTCACTCCAAGATGGGAGTAAGGAGGCCTTAAAAATAGAAAACTGGGCCTGGCACATGGCTCACGCTTATAAT
CCTAGCACTTTGGGAGGCCGAGGCAGGCGGATCACAAGGTCAGGAGTTCAAGACCAGCCTGGCCAACACAGTGAAACCCCGTCTCTACTAAAAATACAAA
AATTAGCTGGGCATGGTGGTGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCC
GAGATTGTACCTCTGCACTCCAGCCTGGGCGACAGAGCTAGACTCCATCTCAAGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTG
AACCTAGGAGGCGGAGGTTGCAGTGAGCTGAGATTGTACCTCTGTACTCCAGCCTGGGCGACAGAGCTAGACTCCGTCTCAAAAAAAAAAAAAAATTAGA
AAACTGAAAAATAGGATTATCTTTTCTTTCCCACTGGGTTGATGCCATCTTCTTCCACCTAGCTTCCCAAGCTCTTCCTTCAGTCCCACGACTACAGTCT
GTATTCCTTGGATGTGGAATTCATCAATGAGATCCTCAACATACGTACCAAGTGAGAAYTGGGGCACAGGTAGGGCACTGGGGAGGAAAAGCACCCARAG
GTATATACATGACCCTTTTCACTTCCCAGAGAAGTTCCTAGACTGCTTCTCACAGCTGTTCCCCATTCCTTAGAAGCCAGTTTGGTTTTCTAATTCTGCC
ATCATGAGATTTCTTTCCCATCCCTTCTTCACAGGGGCCGGACATGGTACATTCTTTCACTGACCCTCTGCCGTTTCCTGGCCTGGAATTATTTTGCACA
CCTTCGTTTGGAGGTTTTACAGCTGACCCGCCACCCKGAGAACTGGACCCTGCAAGCCCGGTGGCGGCTTGTGGGGCTGCCCGTCCACTTGCTCTTTTTG
CGGTTCTACAAGCGTGACAAAGACGAGCATTACCGGTAAGAGAGAAATGAGAAAGGACCCAAACTATAATCAGTTCCTTTTTTTTTTTTTTTTGAGACGG
AGTCTCACTCTGTCACCCAGGATGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAGCCTCTGCCTCCCGGCTTCCAGCAATTCTCCAGCCTCAGCCTCCT
GGGTAGCTGGAATTACAGGCACACCATCACACCCGGCTAATTTTTGTATTTTTAGTAGACAGAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCC
TCACCTTAGGTGATCCACCTGCCTTAGCTTCCCAAAGTGCTGAGATTACAGATGATCTAGTCTCCCAGACAACCCTTGACCTATCCTCACTTGACTGTTT
AAGGACAGGGATCCTGTTTAGTTTATGTTAATGTTAAAAAAAAAATAGAGACTGGGTATATTAGAAAAACCTCTGAGCTTCAGTTTCTTCCTATACAGTG
CCTAGCACATGGTAGGTACTCAAATACTTACTGAACAGACTGGGTGTGGTGGCTCATGCCTGTAATGCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCA
CTTGAGGTAAGGAGTTGGAGACCTGCCTGGCCAACATGGTAAAACCCAAAAAAATACAAAAATTAGCCCAGTGTGGTGGTACACACCTGTAGTTCCAGCT
ACTTGGGAGGCTGAGATGAGAGAATCACTTCAACCTGGGAGGTTGAGGTTGCAGTGAGCCGTGATCACATTACTGGACTCCAGCCTGGGTGACAGAGTGA
AACCCTGTCACACACACACACACACACACACACACACACACACAAAAGTACTGAACAAATGAAAAGTCCTGTCTCATATGTTGAGCCTTACAACCTGGTA
AATTTCCGCCTGGGAGTAGAATCCCAATAAATTGTTAGACTCAGCCACAAACATTGGATATAAGTTTTTAAACCAGCAGTTCCCAAACTGCTGCACAGTA
GAAATGCCCAAGGATYGTTAAAAAATATTGACGCCAAACACTCTGATTTAAYTGAGACAGGGCACAACYTAAGCACTGAGATGTTTGTAAGTTGCCCAGG
TGATCTAATATGTAGCAGAATTTAGGGACTACTCGTTTAAACAAATGCTTGAATTCAGCTTTGGGACCAGTCACCTTCTCCCTCAGTAAGCCTCCCTCTA
TTCCCCAGGACCTATGATGCCTACTCCACTTTCTACCTGAATTCCAGTGGCCTCATTTGTCGCCATCGTCTAGATAAAKTGAGTCCTAGGTAGGGCTGGG
TGGGGTAAAGGGTAGAACATTTGTGTGCCTCCCCCAACTGGCATTAACCTTTCTCCCTGCAGCTGATGCCTTCACACTCACCTCCAACGCCTGTGAAGAA
GCTGCTAGTGGGAGCCCTGGTGGCCCTGGGGCTGTCAGAGCCAGAACCTGACTTAAACCTGTGTTCCAAGCCCTGATCCTTGACCTTGGAGTGGAGGCAG
CACTGAAGACTGCTACGCCCAAGAGAAGGAGGTGGAGGCAGCCAAGAATCTCAGGAGCCAGCTTCCTCTCCTCGTTTCTCTCCTTCCTTCCTTTCCATCT
CATGCTGTGTAAAGCTGCTGTGTAATTTAACTTGTAAATAATAAAGTTTAACTGACTATATGAGATAGAATTTCACATATCACTTTCTCTAGATCCCAAA
TGTTCCCACAAGCTTTATTCCAAAAATAATTTTATTTAATAGGTATTAAATAATGTATAGAAGGAAAAGGAGCTGGTGTCAGGTTCTGTTTACGTCCTTC
TCTTACCCTAGCTCTTCTCGTGTTTTGCCTATTTTTTTGGGCATTTTCTTAGCATGGGGATCTTCTAGCTCCTTGGCCTTATAATAATGGGGAGCCACCT
CCAGAAGCCAACTGCTCTCAATCTCCAGTACCTAGGAGAGAGAAAAGATCAATGGAGTTCCCTTCTTTCCAACATAGATCTTTTGTTGTTGTTATTTTTT
TTTCTTAAATTGAAACAGAGTCTTGCTCTATTGCCCAGGCTGGACTGCAGTGGCGTATCATGGCTCAAAGCAGTCCTACTGCCTCAGCCTCCCAAGTAGC
TGAGACTACAGGCACACATCACAGTGCACCATTAATTTTTTGTATAGTTGGGGTCTCACTATGTTGCCTGGGCTGATCTTGGCCTCCCAAAGTGCTAGGA
TCCTGCCTTGGCCTCCCAAAGTGCTGGGATGGTTTACAAAAATGAGCCACTATGCCCAGCCCCAACCTAGATCCTTATGTGTATGGTCAAAAGTTATCTT
TCCTCTTTGACTGCAGGGCTAGGTGTAAAGGTGCCTGGCTCTATTATTATATACCCAAAGGGCAGATACACCTCTGTATGTTATTCAAGATACCAAATAA
GCTATTCCCAAGAAAAGTCTAGAACAACATGCCAGGCACAGTGGCTCACACCTGTAATCCCAACACTTTGGGAGGCCGTGGCAGGCGGATCATGAGGTCA
GGAGTTCGAGATCAGCCTGGCCAACATGGTGAAACCCAGTCTCTACTAAAAATATAAAATTAGCTGGGCGTGGTGGTGGGCACCTGTAATCCCAGCTACA
CTGGAGGCTGAGGCAGGGGAATCACTTGAAACCGAAGGCGGAGGTTGCATGAGCTGAGATGGTGCCACTGCACTCCAGCCTGGGCTACAACAGCACGGAA
CTCTCTCAAAAAAAAGAAAAGCCTAGAACATAAAGACTATACTCTGTGAGACCAGAGACTGCTTTGTTCATTATAGCCCCAGCACCTATACAGTAGCCAT
TCAAATATTTATTGAATAAGTGTCTAGTTCTCAGATCTTGGAAGATGCTGACACACCTGTTAGAAAGGATGTCTTTGGGCTGGGCATGGTGGCTCACACC
TGTAATCCCTGCACTTTGGGAGGCCGAGGCAGGCATTTGAGACCAGCCTGGCCAACATGGTGAAACCTCATCTCTACTAAAAATAACAAAAATTAGCCAG
GCCTGGAGGCTTGCGCCTGTAATCTCAGCTACTTGGGAGGCTGAGGCATGAGAATCTCTTGAACCCCAGAGGCAGAGGTTGCAGTGAGGCTAGATTGCGC
CACTGCACTCCAGCCTGGACAACAGAGTGAGACTCCGTCTCAAAAAAAACAAAAAAAAACAAAGGATGTCTTTCTATTTTACCCTACCTTCCTCTTTCTG
TACCAGTCCCAGCAACTTGAACCTGGGTTCTTAGCTTGCCAGGACACCATCTCTCTACATAGTCTCCACCTGCGTGGGCACAGGATGTTCTCCTCACCTG
TCTCATGAACTCTTTGGTGGTCAAGACAAGTTCGTGGTAGAGCAGCCAGCGTGGCTGTTGCTCAAAGAGGGAGGAGTTGGGATGAATGAAGACTGTCTGC
TGCTGTTTCACTGTGCGGTAGCCACTCCGAGTCAACCGTGCCGTGTGGTAAAAGTAACCAGCAGTGATGGCCTAAGGAGCGGGCAGGAAAGAAAATCAAT
GGAAAAGGCAGACATCTGGGGACCCTAAGAATGCACTACCTTTTTAGTTCAGGCTTCAGGAAAACTAGAGAGGTAAGGAATGCATGAAGAACTTCCCAGG
AATGAACCTTCAGTGGTCTGGGGAAGAAAGGGCCCTGGGAGGACACGTCATACACAAGGGGAAGAGGGCATGCTCTCACGCTGGAGGAAATGCTGCATGC
CCCCAGAGAAGCTTGCTCCTGGGAAGGTACTGGGGGTGGAAAGCAGGAGGCTGAAGAAATGCTGACCTTGCGTACACGGATATAGTCCCCCTGGCAGGAA
CTGAGACCAACTTCCACACGTTCCAAGAGCCCTTCCAGCTGTTCCCGCACATCCCGGGCTCGGCGCATCGATCTGAACTGTACAAAGTTCTCATAGCACC
ACTGGGAAGAGTAACCACTCTCAGCCCACTGGGAAGACAGTTAAAAAGAAAGGAGAGATAATTAAGTATACAGCAGGACTAAAGTCCCCCAGTGTCTCTC
ATTCCCACTCACCCAAGCCCAGTGACCTGTGTGTAAACATTTAGCAGAACCAGGTGGTCACCGCCAGGGAGAAAGAAGTTGACACGGGCATTGTCAGCAT
GGACGACCTTGTCCTTTGGTCGGTAGAAGATGGAGTTGTTGACAGAGAGCATGGCAGCCACTGTCAGGATCTCCTCTGAACAGCTGTACCTGGGACAGGA
AGGGGAAAGCATGAGTTCAAAGCAAGACACATAGGAACAGATATGGTGGAGTGGGGAGTGATCACTGTGTGATGGATGTTTCCTCATGTGGGGAAGGCTG
GTTGGCATAATGGCTACAAAGCAGCCAGCAGATAGATTCTGGCAGCAGCTTGGGGGTCAAGGAAGTAGGGGCCATAGATGAAACACAGTCACAAAGGAGG
GACATCCATGGAGGCAGGAGCAGGAAACACCGGGGAATTCTGAGGCTTCTGCAGAAAGTGTGCATTCACTATGTGCATTTGGAAAAGATCTCTGACAGCA
GAGGAATGGCATTTAAAGGTCATCCCTCCACAGCTACATCTAAATGTTCTAGTTGGAAACCTTAGGAACAAGTAAGTTCCTCAAGGGGCCGGGCGCAGTG
GAATCAAGGATAGGATCAAGTGTCTTACCCTTGTGGGCCTCAAAAGGGGGCAATCAGAGTTATCTAATACTTTATTATGTGTTAAGGGATAGTATGATGA
ACAGAAAAAGACAGACAAAGGGGACCCTGGAGACAGAGGAGGCCTGGCCTGTTTGTGTGCTGGGGGCCCAGGTGGAGGCGAGGGCTTACTTCTCAGAGGC
TAAGATCATTTTGGACAGCATGGGGTCCACCGGCAGCTCTGCCATCTTTCGACCAGACTAAGGAGAAGAGAGAGAGAGTTGAGCCCAGTCCTCCCTCAGG
TTTCCCGCTACTACTACAGGGGTCCCTGGAGCCATCCTGACCCCTATCATCCTGCCTCCACCCATGCTGTCCCCCGACTCACCGTGGTGAGCTCCCCAAG
GTGGTTGAGGGCTCCCAGAGCATACAGCTGCTCCAAAGCCAGCAGCAGTGTCTCATATGGTGGAGGGTCCAGGAAATCAAAGTGCATTAGGTCATGGATC
CCTAGAAAGAGGTGTGATGGATGGAACAGAGTCCCTTCAAAGGACAGTGACTCCAGCCCCTCCCTCCTCTCTCAGGTAGCCCAATCACCTAAGCTCTTGA
GCAGCAACACGACATTGCCCAAGCTGGTCCTCTGGATCTCAGGCACTGTGGTTTCCTCAAGCTCGTGCTGATAGGCCCAGGCGGTATACAGGCGGAAGCA
CTTCCCTGCAGCCACCCGACCTGCCCTGCCAGCTCGCTGATTGGCTGAGGCCTGGAAAGAAAGGGGAACAGGCTGGCTGACAATTTGGTCAGGGAAAAGA
AAAAGGCAGTATTTATGCAAGAAATCTGGAAGGATGCAAACTGCTCATCCCGGTTCCCTAGGAAGCCCCCACCCTGCTTCTGAGTTGGACCTTCTCTGTG
GGCCAACTCCACCTCCCCCACTCCCATGCATCCCCAGGCTGACCTTGCTGCAGGGTGTGACAGTGAGCGATTCCATGCCTGTGCGGGGGTTGTAGCTCTT
CTGCTTACAGAACCCTGGATCCAGCACATAAATGATGCCCTCAATGGTGAGTGATGTCTCAGCAATGTTCGTTGCCACAACCACCTGAGTGATAGGATAT
GGGGTCACCCAGTGACCCCACCTACCTAGTTACCCAGAAAAAGTAATCTTGGAAAGTTAGGAGTAGTGAAGCAGTTGCAGTAAGGGGCAGGAGCTGAGGG
AATTAGTAGTATCCAAGGTCAGGAGCAGGGGACAAGGCCAGAAGACAGGGGACAGGGAAGTGGGGGCTGGGAGTCAGCAGGGCCATAGGAGGAAAGGAAA
TGGAGAAGAGGATTTAGGGTTTTTTTTTTTTTTCAGAGATGGGAAATGGGGGTGTTCAAGTTCCTGCCCGATCCTCCCCATCACCGCTTTCGTCTTCACA
CAACACTTCCTGTAAGAGCCTCCTAACGTGTATCCCTGCTTCTGCTCCTAGCCTCTGTCACATGGCATCCAGGATGGTCCTTTTAAAATACAAACCTGTC
ACATCACTCCCCATCCTTCAGTGGCTTCCTATCCTACTCTAGAATTCAATCCAAGCCCCTTAAAAGCCTGGATCACCTACCCCAGCTGCCTTTCTGACCT
CATCTGCTAGCACTCCACCACCTCCCTCACTCCTCCCACACACTGCTTTGCTCTGCCCAAGTAAGTGCACTCCTCACTGGATCATTTGCATCAGCTATTC
CCTCTGTCTGGCATACTCTTCTCCCAGATATCAGCCTGGCTCCCTCCCTCACCTGGTTTGGGTCTCTATTCCACTTTCCCCTTACTGAAGAGGCCCTCCC
TACACCCCAAGGAAAATACCTTCATGCCAGTCCTCACTCCCACCCCACAGAGTCAAGTTCCATCCTACTATGCTGCCTTGTATCTCTTCATAGCACTGGC
CACAAATTGACAATATGTATTTATGCATCCACTGCTTCCCCGATAGACCACAAGTGCAAGTTTGTTAGGCTAAGGACTTTGTTTTGTTCATCACTGTATC
ATCAACCCCTGTGTACCTGACACACAGAAGGAACTCATTAAATATTTGTTGAATGAAAGTTATATCTCTGCTCAAAATCCTTTGACTGCTACTCAGCTGT
CTAAAGTCCAAACTTCGCCAAGCACAGTGGCTCATGCCTGTAACCCAGCACTTTGAGAGGCCAAGGCAGGCGGATCACTTGAGTCCAGGAGTTCAAGACC
AGCCTGGCCAACATGGCGAAACCCCATCTCTACTAAAAATTAGCTGGGTGTTGGCCAGGCATGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCC
AAGGTGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAACCTGGCCAAAATAGCGAAACCTCATCTCTACTAAAAATACAAAAAATTGGCCAGGCGTGG
TGGAGGGCACCTGTAATCCCAGCTACTGGGGGGCTGAGACAGGAGAATCGCTTGAACCTGTGAGGCAGAGGTTGCAGTGAGCAGAGTTGGTGCCACTGCA
CTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAATTAGCTTGGGGTGGTGGTACACACCTGTAATCCCAGCTACTTGGGAA
GCTGAGGCACAAGAATCACTTGAGCCTGGGAGGTGGAGGCTGCAGTGAGCCGAGATCTTGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCTGTC
TCAAAAAAGAAAAATAAATAAAGTCCAAACTTTCCTGTCATCAAAGGCCCTCCCTAATCTTAGCCCCAAATTGTTTTTAGCCTTGTCTCCTACTCCTTCA
CCACATGAACCTCCCACTAAGCCTACTAGCTCACACTCTGACCTCAAACATACCTTGGGCCTTCCTCTGATGACTTCTCAGCCATTTTTCTTTTTTGAGA
TGGAGTCTCGCACTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCTCCTCCTGGGTTCAAGCGATTCTCATGACTCAGCCT
CCTAAACAGGTGGGATTATAGGCGCACGCCACCATGCCCTGCTGATTTTTGTATTTTCAGTGG


SNP Information

Context             (SEQ ID NO:32772):
CTTTCCCAACAGGAAGTCTGATCTGTTGCCAGACTTCTTGGTTAGATGGCTCATACATTTATCTAGAGAAGCACACTCTTGCTTGCTGTCAAACTTTAGA
M
CACCATGGAAGGTCTAAGGGCATCCTGTGCCAGGGAAACTTTTTAAGGAATTTTATCTATGGGATAAACCCCATATTCCCTCTAGTGTCTACTGGTGGCT
Celera SNP ID:            hCV8942040
SNP Position Genomic:     2468
SNP Source:               Applera
Population(Allele,Count): african american(A,25|C,11)   caucasian(A,19|C,17)   total(A,44|C,28)
SNP Type:                 UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,675|A,820)   total(C,675|A,820)   no_pop(A,-|C,-)   (C,-|A,-)   no_pop(C,-|A,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:32773):
AGTGTTCCACATTCCCCTCAAATTCCCTTTTGGTGTGCTGGCATTGCCATGGTGCTGCTCCTGCAAGTTCTCAGGAGGAACTGTGGTGTCAGGGAGCAGA
R
GTTTGGGGTTGGGGTATAGTGGCTGGGAGGAGGGGTGCAAAGTATGTCTCCTAACGCTTACCCTGCCTATGTCCCCTCCACTGCCAGCTCCAGCAAGGAA
Celera SNP ID:            hCV25750356
SNP Position Genomic:     657
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32774):
CATTGGATATAAGTTTTTAAACCAGCAGTTCCCAAACTGCTGCACAGTAGAAATGCCCAAGGATCGTTAAAAAATATTGACGCCAAACACTCTGATTTAA
Y
TGAGACAGGGCACAACCTAAGCACTGAGATGTTTGTAAGTTGCCCAGGTGATCTAATATGTAGCAGAATTTAGGGACTACTCGTTTAAACAAATGCTTGA
Celera SNP ID:            hCV25933957
SNP Position Genomic:     11052
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,28)   caucasian(T,40)   total(C,2|T,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:32775):
CCAGAGGAACCCAGGGTCCTCGTTGGCCCGGCTGGGACCATTCCACTGCCCCAGAATACCAGGGGGCCATGACAGCACCCACTGACAGTAAGAGCTCACT
Y
CCCTTGGCTGCCCTTCTCCTGCATCTCCCAGGCCCCCAGAGTCTCCCCTTCGATCTTTCTCCCTAGCTCTGTGTTTGGCCTACTCCTTCTGGCTTTCCTC
Celera SNP ID:            hCV27464301
SNP Position Genomic:     453
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32776):
TCCACTGCCAGCTCCAGCAAGGAAGCTGCCACCCAAGAGAGCAGAGGGAGACATCAAGCCATACTCCTCTAGTGACCGAGAATGTAAGAGGGGCAAGGGT
S
GGGTGTCTGGGCCTGGGGTACCTTAACACAAGGGAAGAGAATGCTCAGGGGACCCAGGGAAAGGATTCGTTCTCTCTAAAGACTCAGATTTCTTGGGCTG
Celera SNP ID:            hCV25754226
SNP Position Genomic:     834
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|G,1)   total(C,73|G,1)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32777):
TCCTGATTAACCAAGGGCTTTGTCCATCTCATCCAGAGGAACCCAGGGTCCTCGTTGGCCCGGCTGGGACCATTCCACTGCCCCAGAATACCAGGGGGCC
R
TGACAGCACCCACTGACAGTAAGAGCTCACTTCCCTTGGCTGCCCTTCTCCTGCATCTCCCAGGCCCCCAGAGTCTCCCCTTCGATCTTTCTCCCTAGCT
Celera SNP ID:            hCV27452367
SNP Position Genomic:     421
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:32778):
GCTTGTGTGCCAAGAGTCCATCGCAGCAGGCAGGGAGTGGGCATTTCCTTTATTTCTCTCCCTTTCTCTTCACCTCTGACTTCTCTGTTTTTCTCTCCCC
Y
GCCCCCCGCCATTTCCCATCTCCCTTCCTCCCATCCATAACATCCTTCCACAGCTCCCTTCCCCGCTCTGAGGAGAGTCGATACTAACAGCTACCCTCTC
Celera SNP ID:            hCV25760660
SNP Position Genomic:     2044
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:32779):
TCCCTCAGTAAGCCTCCCTCTATTCCCCAGGACCTATGATGCCTACTCCACTTTCTACCTGAATTCCAGTGGCCTCATTTGTCGCCATCGTCTAGATAAA
K
TGAGTCCTAGGTAGGGCTGGGTGGGGTAAAGGGTAGAACATTTGTGTGCCTCCCCCAACTGGCATTAACCTTTCTCCCTGCAGCTGATGCCTTCACACTC
Celera SNP ID:            hCV8692893
SNP Position Genomic:     11279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;ACCEPTOR SPLICE SITE;DONOR SPLICE SITE;hmCS


Context             (SEQ ID NO:32780):
GATCCTAGTATGGAGGAACATCTGTCTGTCATGTATGAGAGACTGAGACAAGAGGTAAGTCAGTGCAAAAGTGGCCTTCGTCTACAGTGGGAAGGATGTG
S
GTAATCCTTGGACGTACAGGGATAGTCAACTGGATTCTTTTTTGGAACCATGAGGCAGGCATAGAAATATATTATAAACATTTTCCTGAGAAAATGATGT
Celera SNP ID:            hCV25956674
SNP Position Genomic:     8575
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,33)   caucasian(G,40)   total(C,3|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:32781):
TAAACCAGCAGTTCCCAAACTGCTGCACAGTAGAAATGCCCAAGGATCGTTAAAAAATATTGACGCCAAACACTCTGATTTAATTGAGACAGGGCACAAC
Y
TAAGCACTGAGATGTTTGTAAGTTGCCCAGGTGATCTAATATGTAGCAGAATTTAGGGACTACTCGTTTAAACAAATGCTTGAATTCAGCTTTGGGACCA
Celera SNP ID:            hCV11196668
SNP Position Genomic:     11069
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32782):
GCCGGACATGGTACATTCTTTCACTGACCCTCTGCCGTTTCCTGGCCTGGAATTATTTTGCACACCTTCGTTTGGAGGTTTTACAGCTGACCCGCCACCC
K
GAGAACTGGACCCTGCAAGCCCGGTGGCGGCTTGTGGGGCTGCCCGTCCACTTGCTCTTTTTGCGGTTCTACAAGCGTGACAAAGACGAGCATTACCGGT
Celera SNP ID:            hCV25967832
SNP Position Genomic:     9937
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,38)   total(G,1|T,75)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32783):
GGCTGAGATGAGAGAATCACTTCAACCTGGGAGGTTGAGGTTGCAGTGAGCCGTGATCACATTACTGGACTCCAGCCTGGGTGACAGAGTGAAACCCTGT
C
ACACACACACACACACACACACACACACACACACAAAAGTACTGAACAAATGAAAAGTCCTGTCTCATATGTTGAGCCTTACAACCTGGTAAATTTCCGC
Celera SNP ID:            hCV26546010
SNP Position Genomic:     10809
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32784):
GCTGAGATGAGAGAATCACTTCAACCTGGGAGGTTGAGGTTGCAGTGAGCCGTGATCACATTACTGGACTCCAGCCTGGGTGACAGAGTGAAACCCTGTC
A
CACACACACACACACACACACACACACACACACAAAAGTACTGAACAAATGAAAAGTCCTGTCTCATATGTTGAGCCTTACAACCTGGTAAATTTCCGCC
Celera SNP ID:            hCV26546011
SNP Position Genomic:     10810
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32785):
CTGAGATGAGAGAATCACTTCAACCTGGGAGGTTGAGGTTGCAGTGAGCCGTGATCACATTACTGGACTCCAGCCTGGGTGACAGAGTGAAACCCTGTCA
C
ACACACACACACACACACACACACACACACACAAAAGTACTGAACAAATGAAAAGTCCTGTCTCATATGTTGAGCCTTACAACCTGGTAAATTTCCGCCT
Celera SNP ID:            hCV26546012
SNP Position Genomic:     10811
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32786):
ACACTTTGTAGCTTTTCTTAACACAAAAGCACCCCTTCTCTCCTAACTTGGGCTCTGAATACTTTCCCAACAGGAAGTCTGATCTGTTGCCAGACTTCTT
R
GTTAGATGGCTCATACATTTATCTAGAGAAGCACACTCTTGCTTGCTGTCAAACTTTAGAACACCATGGAAGGTCTAAGGGCATCCTGTGCCAGGGAAAC
Celera SNP ID:            hCV11690694
SNP Position Genomic:     2407
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,35)   total(A,1|G,71)
SNP Type:                 UTR 3;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,39)   total(A,1|G,71)   
SNP Type:                 UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:32787):
TGAGATGAGAGAATCACTTCAACCTGGGAGGTTGAGGTTGCAGTGAGCCGTGATCACATTACTGGACTCCAGCCTGGGTGACAGAGTGAAACCCTGTCAC
A
CACACACACACACACACACACACACACACACAAAAGTACTGAACAAATGAAAAGTCCTGTCTCATATGTTGAGCCTTACAACCTGGTAAATTTCCGCCTG
Celera SNP ID:            hCV26546013
SNP Position Genomic:     10812
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32788):
GTAGAATCCCAATAAATTGTTAGACTCAGCCACAAACATTGGATATAAGTTTTTAAACCAGCAGTTCCCAAACTGCTGCACAGTAGAAATGCCCAAGGAT
Y
GTTAAAAAATATTGACGCCAAACACTCTGATTTAATTGAGACAGGGCACAACCTAAGCACTGAGATGTTTGTAAGTTGCCCAGGTGATCTAATATGTAGC
Celera SNP ID:            hCV25934011
SNP Position Genomic:     11016
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,37|T,3)   total(C,65|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:32789):
TCTGTATTCCTTGGATGTGGAATTCATCAATGAGATCCTCAACATACGTACCAAGTGAGAATTGGGGCACAGGTAGGGCACTGGGGAGGAAAAGCACCCA
R
AGGTATATACATGACCCTTTTCACTTCCCAGAGAAGTTCCTAGACTGCTTCTCACAGCTGTTCCCCATTCCTTAGAAGCCAGTTTGGTTTTCTAATTCTG
Celera SNP ID:            hCV25966128
SNP Position Genomic:     9698
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,36|G,4)   total(A,72|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:32790):
CTAGCTTCCCAAGCTCTTCCTTCAGTCCCACGACTACAGTCTGTATTCCTTGGATGTGGAATTCATCAATGAGATCCTCAACATACGTACCAAGTGAGAA
Y
TGGGGCACAGGTAGGGCACTGGGGAGGAAAAGCACCCAAAGGTATATACATGACCCTTTTCACTTCCCAGAGAAGTTCCTAGACTGCTTCTCACAGCTGT
Celera SNP ID:            hCV25966047
SNP Position Genomic:     9659
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(C,1|T,39)   total(C,3|T,75)
SNP Type:                 ACCEPTOR SPLICE SITE;INTRON;hmCS


Gene Number:                 137
Celera Gene:                 hCG2039659 - 209000071832044
Gene Symbol:                 ABCA6
Protein Name:                ATP-binding cassette, sub-family A (ABC1), member 6;EST155051
Celera Genomic Axis:         GA_x5YUV32W262(4146076..4220946)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12297):
AGTCACTATCCATCTGCTATCATTTGGATATTTGACCCTGTGAATCTCATGTTGAAACTTGATTCCCAGTGTTGGAGGTGGGGCCCAGTGGGAGGTGTTT
GGGTCATAGGGATGTATCCCTCATGGATTGCTTGGTGCTGTCCTTGCAATTATGAGTGAGTGCTCACTCTGTTAGTTCCCAGGGGAACTGGTAGTTAAAA
AGAGCCTGGCATCTTCTCCCTCTCTCTGCCTCTCTCACCATGTGATCTTTGCACATGCTGGCTCCACTTCACCTCTGCCAAGTAGAAGCAGTGTGAGGCC
TCACTGGATGCAGATATTGGCACCACGCTTCTTGTACAACCTGTGGTTTCAGAATCCCAACTGAAAAAGTCAGCCTAAAAGTGTCCTGTGAAACACCTGG
GAAGATAGGACGTCAGGCAAGCAACAACTTCAATGCAAAATGTGTCTTGTTCCAAAAGTGACAGGAGGACCACTGCCACAGAAACCACCCTAAAGTCAGA
AGCAGCGGTAAGAAGATAGGCCTGATGGAAGCAGAGCTGACATGCAGTTGCTGACTTTCACATGCTTCCAACAAGCAGATTTTGCAGCAGAGCAATATGA
AACATTGATTGGATGAATACAGAAGCAAATGAATCAGAAAATTTAGCAGGATTGTGTTAGATTGGGCAAAAAAAAAAAAAAAACAACTGTTGCAAATAAA
ATGAATATACAGTTATTGCCCATAAATTCTCAGTGTCTCAATCCATTTAATTTTTTTTATTGTGGCAAAAATATAATAAAACAAAATTTGCTTGAAATCA
GACACAGAAGGAAAAATATTGTATGCTTACATTCATATGGAATATCTATTAATAAATTAGGCACATTCCCTGAGGCAGAAAGAAATTAAAAATTACTAGC
GGCTAGGGGGAGGAGAGAGTGGGAGTTATCACTTAATGGTTACAGAATTCCTGTTTGGGTTGATGAAAAATTTGAGAACTAGACAGTGGTGCTGGTTGCA
CAATTTTGTGAATGCAATTAATGTCACTGAATTGTACACTTAAAAATTGTCAAAGTGGAGAATTCCATTCATTTAACTTTAAAAAATATAATTTTTAAAA
TCTTATATGTTTTGCCATAAAAATTATAGTATTTATACAATCTAAACTGGAAAATACTCTTTCTTAGCTAATACATTTTTCTATCATATACACACAGGAT
AATATTATATCTACTATTATATAATTACTTAACATCATACTACGAACATCACACCTTCCTTGTTTATTGTATACCTATGTCAGTTTAAGTCAGTTTTTTT
TTTTTGTAGTGTGTATGTAGTATTTCAGTGTTTGGATGTACCAAAACTTTTTAGTTGAGAATAAATTGAAAGATATACAGGTTGTTTCTCAGTTTTCCTG
TTAGAAACAATGCTGCAGAAGTTCTGTCCCTCTAGAGAACCCTGCCAAAGATACACATGCAACATTTTTCCATATATATATATATATTCCATATATATAT
ATTCCATATTATATATTCCATATATATATTCCATATTATATATTCCATATATATATTCCATATATATATTCCATATTATATATTCCATATATATATTCCA
TATATATATATTCCGTATATATATATTCCGTATATATATATTCTGTATATATATATATTCCGTATATATATATTCCGTATATATATATTCCGTATATATA
TTCCGTGTATTTATATTCCGTATATATATATTCCGTATATATATATTCCATGTATATATATTCCATGTATATATATTCCATATGTGTATATTCCATATGT
GTATATTCCATATGTGTATATACTCATATATATTATTATATATGGGAGTTTATATATATGGGAGATATATATATCTGGGATATATATATATATGGGAGTT
TATTTAGTAATATTAACTAATACAATCACAAGGTCCCACAATAGGCTGTCTGCAAGCTGAGGAGCAAGGAAGCCAGTCCGAGTCCCAAAGCTGAAGAAAC
TTGGAGTCCCATATTTGAGGGCAGGAAGCATCCAGCACAGGAGAAAGATGTAGGCTGTGAGGCTAAGCCAGTCTAGCTTTTTCACGTTTTTCTGCCTGCT
TTTTATTCTGGCCGAGCTGGCAGCTGATTAGATGGTGCCTACCCAGATTAGGAGTGGGTCTGCCCTTCCCAGCCCACTGACTCAAGTTTTAATCTCCTTT
GGCAACACCCTTACAGAGACACCCAGGATCAGTACTTTGTGTCTTTCAATCCAATCAAGTTGACACTGGGTATTAACCATTACAGCAATTATCTATGTAA
TCACTTCAAATATATTCCTAGAATGTCTGGGTCATTGTGTGGAGTTGTACCAATGCATTCCATCCCTAGCTGTCCAGAAATTTCCCCAGAGAGGAAGAAA
TTAGAGACTGTTGGCAGTAATGCCAAGTGAAGTGCCCATTTCTATAAACAAAAAAAAATGGCAGAAATATACAGCTAAAATGGAACTAAGAAAGGTCCCA
GGCTCTTATTATAACATTGTTAGCATCCCAAATAATTATTTAGTAGACTAAAGAAAGATGCCAGGAGCTAGCACATACTGCTCCAATCTGTGATTAGATT
GGGAAAGGTGGAAAGTGAAGAGAAATTTGAAAGCCCATATTGCATTCTTCGACCTTGGCTGGGGGACTTATGAAATCATGATCCAGCTAAGGGAAAGCCT
GTAATATCACTGAACAGAACAGAGAGTTTAGTCAAGGAAGAAAATGCTCAGCCTCATGATCATTCTACCATGTGGTTTCATTTTGTTGTTGTGTTTTTTT
CACTTGCAACCAGTCTAGGGGGTCACCCAGAAAGAAAAAAGTCCTACCAAGAACCCTGGCTACTCAGCCAAAACCATCTCCAGGCTGTGGTAGTAACTGA
AGTGAAGAGGACTTTTGTTTCTGGTGAACCTTGTATCTGTCTTACAAAGAGAAATGAAGGGGAAGGAAAAAAGGGGTTAGCCTGTCAGGAAAAAAAAAAA
GGAAAAAGAAGAAAGGGAAGGAAGGAAGGAAGGGAGGAGGGAGGAGGGAGAAAGAAAAGAAAAGAGAAAGAAAGGAAAGAAAGAAAAGAAAAAAGAGAAA
GAAAAAGAAGGAAGGAGAAATTATTACTGACCTAATCAATGGCCAACAGAGTCCAAGCACCATGCTGATGAATCTAGACTTCTTTAATATTGGTCATTAA
TGGGAAAAAATCATTGGCCAGATGAGAAAAATTAGACTACAGAATGATCAATCCAAGTGCGATAATCAGCAAAGTTCCCCAAAGAAACACACATAATTAT
TAAAAAAAAGGGAAGATCTTAAAAATACTACTACTTAGAATTTTGTATTAGTCACATTTGAGAGAGCTTGCTTAGCTCACAATAATTTCCCCCTTAGTTC
TTAAGTTTTCTAATAGTCTCATTTGTTTGTCCTACTGATTTGTTTTCATGTTAGACTTTTGATTATGAGTTTATCTTCTGGGAGGAATATTTCTTTTACC
TCTGTTGCTTTGTGTTCTGAAATTTGGATGTATCTTTATGGAATTTTTGTGTTTTCTCTGTGACACTCCAGGATAGTAAGAGGAGGAGGGAGGAAGAGGA
GGAAGGAGGAGGAGGAGGAGGGGAAGTAACAGCAAATAACATTTTTTGAGCTTTTACAATTTTCCCTCATTTTTCTATGTACTTACATAGATGAATTTAA
CCCCTACAATAACCTTATATATATATTAATACTGTTGTTTTTCCACTTTTGGGGGGTAAAAAACCTGAGGGCGTGAGAGTTAAATGGATTGTGCAAGGTC
ACACAGCTAGTACATGGCAGAGCCAGAATTTGGACACAAGTTTGGCTCCAGAGTGTTTACACTAACTCCTGTAATACATCTCTGGACAGGTTATTATACT
GGGAGAATAAATTCAGATCCTTCTCCTGTCTCTTGTACCTGATACATGCTCTACATACTTTGTGGTTTCATTTTCTATGGGCGATCTATCTATCTATCTA
TCTATCTATCTATCTATCTATCTATCTATCTATCTATCTACTATCTGTCTGTCTGTCTTCCAGAAATTGGGCAGAGAATACAGCTTTGCTCTCCCCTGAG
GTTGTAGGTGAAATTTTCCTAGTCTGTTTTTAGCACCGGACAGTCCTATAAACCCTCTGGATTCCTGCAGGAATATGAACTCCAGCTTACCAACCTTTCA
AGGACCAAGTTCAGGCCAGAGGGTCATTAAAACACCTGAGGCTTGGTTTTCAGTCCAGTATATCCTTGAACTGATGGAGTGTCTGAAATGCCACTCACAA
CTTAAGGGAAACTTTAAATTCCTTTTCAGTTTTAACACCTGGAAACATGTCTTTCTGTCTTTTTTTGTTTCTTCCATTGTTGTTTACATTCTTCATCTTT
TTTCTTCCTTTTTTGAATTTGACTATATATTGGAAATTCAATTTGGGGATATATTTTACCCACCACTTCCATGCCCTTCTAGCTGGAGGCTGGGCACTTT
AGTATATTAGATCACCATTTGTGGGGAAATTGTCACATTACGTAAGGAAAACAGCCTCCCAAAATGAAAATAAGTAAGAGGAAACAGGTCAAGAAAAAGG
AAAAGAAAGCATACACAAGAAACAATGGTAAGAAATGAAACTAATAAATATATTTAATCTAAATAATTATCATTGATATTGTAGCTGTGAATTTTAATAC
AATTATAAGAATGGCAGAATGAAAATGATTCCTAAAATAAAGTATAAAGGGTCTAAAACAATGATAACAACAAAAAAATTCATAAAAGCCTTAACTGTAT
TCCAGGTGGTTTAAAAGTAACTTTGAGTTTTGTTATATTACTATTACAAAATGTTAAGTGTTTATGACCTCCCTTCCCACACCCCATGAGAACTTTAGAA
CACCTTTATTAACGGTGTTTGTGCCAATTTTCAATGTAAAAAAAGTGGCATTTCACTGTTGACTATTTTTAAAAACAGAAGTAATTGCCAAGGAGAGAAA
TTTTATATATATATATATATACACACACACACACACACACACACATTATATATATACACATATGTATACATTATATATATATACATTTTATATATATACA
CACAGGCACACACATATACACATAATAGTATCATGGCTTTAGTTGTCATTGTTGTTTAAATTATCTGCTTTGCTCCAGAAAGTTTCTCAGCTTTATGATT
ATTAACATCTGTGGATTGGGAGCCGTGTCAAATATTTGAGATTTCCCAATTCATGGACTTTGATTTCCTGTTTTGCCATTCACTGTGGCAGGTCAAGAAA
AGTTTGCAACTCTTTACAGAGCAGAGAGAGACAGACTATGCTATATGAATTAAACATGTTTCAGTTTGTTGTAGTCTTCGTGCACAAAAATTTATCTGAA
TCTTTTTATATGTTTTGTAGACCTGGGCAAACCACTGGCTTATTTTGTTCATATGTATTATGAAATCCTGTATCCACTGTGAAGAGGGTGGGAGCAACAA
ATTTGTTAAAAATTCTTCATTTGTCTGTCCTAGGAGTTTCTCCAAGGCGTACTATGGATTGCTTAGCTTTATTAGGAAAAAAAATCAGCTCCAGAATACT
CTGCTAACTTAGTCTGAATTAGTTAAATATACAACTAACTGGCAGTTGTGTTTATTCATCAGTAGTGAAAAGAAAATAGATACAGATTTCTTATACAAAT
TTAACTGCTTTGTTTGGTTAGTTATTGTTTTTACTCTTTCTTGTTCCTGCCTCCATCTTGGTCTCATCATTTCTGAAGAACTAGTTCCATTTTCCTTGTT
TACCGTTTTCCCCCTTATCCCTGTAGTTGAAAGGCTAAGTGAACAAACACAGAGTTTATTTTATTCCCAACCAACCACGGAACAGTCATTTCCTTGCAGA
ATAATTGGCTTAGGGAGAAAGAGACACAGAAAACAAAACAAGTTCATCATGTACAGCTTGGTCTGGCTACACCCCTTTTCAGAAACCAGGCTGTGTAAGA
GCTGCTGGAGTAGGCACCCATTTAAAGAAAAAATGAAGAAGCAGCAATAAAGAAGTTGTAATCGTTACCTAGACAAACAGAGAACTGGTTTTGACAGTGT
TTCTAGAGTGCTTTTTATTATTTTCCTGACAGTAAGTAAAGCTCTATTTTGTTGTGCTGTGCCAAATATGTGGGTGGACACTGCTAAAATCAATCTATTT
TTCAGATGTTTCCCAATTCTTATGTGTTTTATGTTAAAGACCTAAGACTAAATTTTTCTGCTTTTTCCCAACCACTTTTTATTGTGTAGATTGTAACAGT
AAGACATAGAAAAATGGAAAAAATTTGCTTCTGTGCTAGCTGAGGGAGAATTATCTGAATATTTTGATGTAAAAATATGAAAGAATTTCATTTTGAGGTT
ACAGAAACGAAAAAAATTGTGTTTCTTGATTTGCAAATCTTTGGGCAAAATTACTTTCCCGTGTGATTTATTTTTGCTTCTTTTAAAGCTAATTTTGTAG
TTTCATTAGTTATTCAGGGACTTCTGAATTCAGAAAATTGAGAGAAATTGCTTTATTCTTCCTGTATCTCAGAATCAAGTTTCAAGTAGTTTGAGCCTGG
ATTATGATTTACAACCTATCTCTTTTCATAAAAGTTGATTCAATCTGAAGGTAAAATTACAAGAAAACACTTTWTTGAGGTTGTATCTAGTGGATGTAAT
TTATTATTCAGACAAATTTAAGTAATCAGACTTTTGATGTTAATTTGATTAGCTCTGAGATTTCTGTTTMAATGTAAAGAACAAGAAATGGCTATTAACA
GGATGAAATTAATTTAATCACTCTATTCATGTACTTAAAGTTCTCTCATACAAGGCCAAAAATGTGAAATTATAGGTTCTGAAGTTGAATTACAGCTTTT
CCATTTCAGTACTCCAAGTTATTGCAAAATTGTGATAATAATCACTCTGCCTTCCCACCATCACCCACTCCCCTAAAAAGCTTAAGGTGAAATATTTGAG
GTGAAATTTTACAGTCATAAATTATTGAAATAATATTTTAAATTCATGTTTACACTTTTTAAAGGTAGTAAATATTTTCCTCAACACTATGATCAAGGTT
TTTCTTATTACACTTATTTTTTTCTAGGTTGTGTTCCACCATGATTACTTTCTCCTTCAGCGAATAGGCTAAATGAATATGAAACAGAAAAGCGTGTATC
AGCAAACCAAAGCACTTCTGTGCAAGAATTTTCTTAAGAAATGGAGGATGAAAAGAGAGAGCTTATTGGTATGTTTAAAAATTTGTCTCTTTCCACGGTT
AGCACTCTTACAGTGTTTCATTACCTACTGATTCTCTTATGTTCTCTTTTAATTAGTAGATGGGATTTATTGATTTTACCAGTTCTCTCTAGTTGTATTT
GTTGAATTGAGAGACTGAAGAATAACATAAAATTATTAAAGACTAAAAGAATTCCTCATATAAAAAGAGATTAAGTGAACATTTAATTATATGGTAAATT
ACAGCAACTGCTAGAGCTACTACCAAATGTTATACACTTAGAGCCAAGAAGTACAAAAAAAATGTTGTCAGAAGAAATGGAGACATTTTAATTTTGTGGA
TTTATTTTCAAGGACATGAATTTTCTACACAAAAATTGTTTTTAAGAATTATGATCAACTAACACCACTGAAAGTCAGTTTGCATCAAGCAGGTGGGCTA
ATCACAGATGACTAGCCCAAATCTCAGTGGCTTAACACAGCAAATGTTTATTTTTTTATTTTTTATTTTTTTATTATTATTATACTTTAAGTTTTAGGGT
ACATGTGCACAATGTGCAGGTTAGTTACATACATATACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCGYCATTTAGCATTAGGTATATCTCCTAA
TGCTATCCCTCCCCCCTCCCCCCATCCCACAACAGGCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTGCCATCTATGA
GTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGCAATAGTTTACTGAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATC
ATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGTCACATTTTCTTAATCCAGTCTATCATTGTCGGACATTTGGGTTGGTTCCAAGTGTTTGCT
ATTGTGAATAGTGCCGCAGTAAACATACATGTGCATGTGTCTTTATAGCAGCATGATTTGTAGTCCTTTGGGTATATACCCAGTAATGAGATGGCTGGGT
CAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCACCACACTGACTTCCACAATGGTTGAACTAGTTTACAKTCCCACCAACAGTGTAAAAGTGTTCC
TATTTCTCCACATCCTCTCCAGCGCCTGTTGTTTCTTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGC
ATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTTTTCATATCCTTTGCCCACT
TTTTGATGGGGCTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTGGCCCTTTGTCAGATGAGTAGGTTGGGAAAATTTT
CTCCCGTTTTGTAGGTTGCCTGTTCACCCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCTCATTTGTCAATTTTAGCTTTT
GTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCCTGCTTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAG
GTCTAACGTTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACACATGGCTAGCCAGTTTTC
CCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGCRTTATTTCTGAG
GGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTGGCCTTGTAGTATAGTTTGAAGTCAGGTAGTG
TGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCGATGCGGGCTCTTTTTTGGTTCCGTATGAACTTTAAAGTAGTTTTTTCCAATTCTGT
GAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCATGAG
CATGGAATGTTCTGAGCCAAATCATGAGTGAATTCCCATTCACAATTGCTTCAAAGAGAATAAAATACTTAGGAATCCAACTTACAAGGGACGTGAAGGA
CCTCTTCAAGGAGAACTACAAAGCACTGCTCAATGAAATAAAAGAGGATACAAGCAAATGCTTATTTTTAACTCCTCATGGTCTAATGAAAGTTGAGAGT
GGAAGTAAAGTAGGTTGGGTGGGTGAAGAAATCTTCTCCACACAATCATTCAGGCACCTAGGCTTCATCCAGGACCTCTGCCACCATCTTGGACCTTGAA
GACCTCTAGAGGATCCTATGCATTCAGTCAAAAGATCAGGAAATAGTGGGACCAGGACAGTGAGAATATAGAAAGTTGTATATGTCCATGAACGAGGCCT
GGAAGTAGTGCATATCACTTCTGCCCATATCCTGTGGTCCAGGAAATCATTCGGTTCCACTTAATTTCAGTAGGCTGAGAATGCAGTCAAGCATGGTGCC
AAAGAGGTAATGATGATTGACATTGGTGAACAGCAATAGTAGTAGCCTCCACCAGCCAGTTCCTTTTCATTTTCTTTAGTTTACAATACAAGGATATGAC
AACTGGCAAAAATATTGCTATTTGCCACCATAAACTCTATCTAGGATACTCCATGTCTTATAAATTCTATAGTCAGCTGCCCATGCATATAGAGATTGTC
ATCCTGTTATTCACTCCATTAGTTTCTATGACGGCTTCTGCAGGAGTTCATGATTTAATGCAAAAGTTTTGTTCTAGTATTAGAGAATGATAAATGTGGC
TACTGTCTCAGTATTTATCTTTCATTTGATTCTCCATGCTCTGAGGCTTGGAGAGCAGAGAGAACATAACTGTATAGCACAATTGGAATTTGTTTTCAAC
AGTATTTTGTATTAACTGAGATCTTTAAGTGAATGCAACCTTAATTCATTATTTTTCTTTTTATATGCATTACAGGAATGGGGCCTCTCAATACTTCTAG
GACTGTGTATTGCTCTGTTTTCCAGTTCCATGAGAAATGTCCAGTTTCCTGGAATGGCTCCTCAGAATCTGGGAAGGGTAGATAAATTTAATAGCTCTTC
TTTAATGGTTGTGTATACACCAATATCTAATTTAACCCAGCAGATAATGAATAAAACAGCACTTGCTCCTCTTTTGAAAGGTAGGTGTACTCATGGCAAA
AAAAGAGTTACTGATAGATGTCTATATACTGTTGATAAGTTGTCTACACATTAATTTGAAGTTAMAGTCATATATTATGCTAATAACTTAAGTACTAAAA
TAGCATACAAATCTGGTTAGATTATTGCTTTCTCTCACAACAACTAGCCTTTGAAATATTTTCAGCTTGTTGGGAGTCCAGTTTAGGGAGGTCCATATTT
CTACTGGAATATAACTAAACCCAGATTTATACTTTTAGATTTGCAGGATAGTATCTAGAAGGAATATAGTAATTGAAAATTGTGTGTGTTTTTAACATGG
CATACAATGATTAAGATTTGTATCTCAGGAAAAAAACATCTAAATAAATAAAATAGGTCATGGTTATTGAACAATAATTTCATAACTTTGAAAAGYAGAA
ATGAATAATCTGATGATTATTCTGTTCTGAATATAGTACAATCAGTAAACATCTTTAAAAGTCTTTATTCTAAATGAGATCATTATGATGTAACCAAAAT
AAGCAAAATGCATATTTCATTCATGGGCAAATTGGGTGCAATTTGGCTATTTACTCTTTAATCCTCCATTCCTGACAAGTGAAATTCCTGGCTATTGAAA
ATAGAGTCACTTTTAAAAAATCTTGTTTTCTGCAGAAGGCAAAGGTCATATAAATTGTCTTTGCTTCAGTAAATCTGAAATAAGGAATCCCTGACTGTAT
AGTAACTACAACAATTAMTTCTGTTTTTGTACTCTCATTCTCTTATGCATACTTAATTTGGCACAATTTTTTCTTTATGTACCTAAAACTTGCCCTGATA
CTTGTCATTATGAAAATAAAACATGTAATTCTTATGCATGTCTTCTGACTGTAGAATCTAAACCATTAAATTTCCCCCCTTGCATTTGGGTTAAAATTGA
TTTAAATGGAAAATGATTTTAATTTAAGTCTAATGAAATTATATGGGGAAACAGTTGAATATCACATTATGTTGTGGCAAAACTCTTACAATTTTCTATG
TCTATTTTTACCTTGTAATTCACAGGAACAAGTGTCATTGGGGCACCAAATAAAACACACATGGACGAAATACTTCTGGAAAATTTACCATATGCTATGG
GAATCATCTTTAATGAAACTTTCTCTTATAAGTTAATATTTTTCCAGGGATATAACAGTCCACTTTGGAAAGAAGATTTCTCAGGTGACTTTCCATATCA
AATATCATTATGGAATTTTTCATGTTTTCAACATAAAGAACAGAGGAGGTTGGGCAACAGAGATGCTTTCAATGACACATGAGAAAACAGGGAAAGCCCA
TTTCATTGCTGAACTTATTTCAAGGTCAATCGTATGTTCCTACTACAGGATGACTGCAAAAATTGTAGAGTCATCCAACATATATGTGTTGAGCRTGCAG
ATGCATGTGTCAAAGGACACATGAGTAACCAAGACTGACAGGCCCCAGCCTCAGGTGAGATTCCAGGTTAGCAGCAAAGACAGACATTGAACAATTAATG
ACAAGTACAAGAAAAAGTGTTTCATGGGCACTTAGACCAGGGGTTCCTAATAGTGGGATTAGAGAAGTCCTACCTGGGGAAATGATGTTTAAAGGGAGAC
CAGAATGAATAGCAGGTGTGAGGTGCTAGAAGCATTGTGTTTCAGATAGAAGAAAGGTAATTGTGAAGACCCTGAGGTGAGAAAGGACATCTGTTCCTAG
ATCTGGAAGAAGAGCAGTATAGCTGAACAAGGAACATGAAAAGGAATGTAATGGGAGAGTGAAGCTGAAGTCACTCAAGTGCTACCTCCTGTGGCATCTT
GTAAACCTAGGCAAGGAATAGCCACTGAGTCACTTTAATCACGGCAAAAGTGTAATTCGGTTTCCAAAATTAGGGGAACACTCCAGATATAGCCCGGGGA
ATAGATTGCCAAGAGGCTATGGAGAATGTCAAGAAACAAGGAGTCCATTATGGCTGGAGCAGAGTGTTTGCTTTCATCTCCTTTTTATTTTCTAAGACTT
TCTAAGCATGCTGTGGTCTGCAAGAATAAAATTGCTTTATTAAAAACTTTCATTTATTTGCTTCCTTTTTCTATGTAGTTAAAAGTCTACTGGTGGGCCA
GCCATGGTGGCTCACACCTGTAATCCCAGCACTTTGAGAGGCCGAGGTGCACGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGA
AAGCCTGTCTCTACTAAAAATACAAAAATTAGCTAGACAACGTGGCCTGTGCCTATAATCCCAGCTTTGGGAGGCTGAGGTAGGAGAATCACTTGAACCC
AGGAGGTGGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTTCATCTCCAAAAAAAAAAAAAAAAAAAAAAGA
CAACCACAACAAAAACGAAACACCACCACCAAAAAAGTTTACTGGTAGAGTCTCCTCTAGATTGTTTTCTTTTCAATACTTGTTTCATATTCTCCAACTG
CCCTCGTCCCATAATGTTGGCTGTGCTTTTCTTTGTGCTTACAGCTCATTGCTGGGATGGATATGGTGAGTTTTCATGTACATTGACCAAATACTGGAAT
AGAGGATTTGTGGCTTTACAAACAGCTATTAATACTGCCATTATAGAAGTAAGTGCTTGATTGAAAAGTTCTACTAATTAATGTCAGCTACTTCCAGAGA
CCTCAAGATTTTTGATGAAAGATAATTGTCTTAGTCCGTTTGTACTGCTACAACAAAATACTTGAGATTGGGTAATTTGTAAAGGACAGAAATTTATTTC
TGGAGGCTGAGAAGTGCAAGATCAAGGTGTTGGCAGGCTCAAAGACTGGTAAAGGTCCATTCCTCATAGATAGCACCGTCTAAGTGTCCTCACGTGATGA
AAGAATGGAGAGCAAAAACTGCCTCAGCTAGTTCCCTCTAGCCTTTTACAAGGCACTAATCCATTCATGAGGGCTCCACCCTCATGACCCAACCACTACC
CCAAAGGCTCTCCCTCCTAATACCATCACAATGGGAATTAAGTTGCAACAAGAATTTAGGAGGGGCCACTTTCAAACCGTAGCAATGATATATAATCAGA
TTTTCCTGTGGTTATATAATGAAGCAGATATTCAGACCAAGGAACACATTGCATATCTATTTTAAAACTTTAAAACCAATTTTATTGGTTGTAAAACTAA
TTTTGAAGTGGTTGTAAAGACACAGGAGGCTGCAAATGTAATGTACAGAGAAGTCCATGTACCCTTCATCCAGTTGCCTTTACTGGGAACATCTTGCATA
ACTACAGTACAGTAAGAAAAATTGGAGAACCGACATAAGTAAAATACACAGAGCTTACTCATAGTTCACCAGTTTCTATCTTTTAAATAATAATTATGTT
TGTTTAAACTCTACTTTAGATCACAACCAATCACCCTGTGATGGAGGAGTTGATGTCAGTTACTGCTATAACTATGAAGACATTACCTTTCATAACTAAA
AATCTTCTTCACAATGAGATGTTTATTTTATTCTTCTTGCTTCATTTCTCCCCACTTGTATATTTTATATCACTCAATGTAACAAAAGAGAGAAAAAAGT
CTAAGAATTTGATGAAAATGATGGGTCTCCAAGATTCAGCATTCTGGTGAGTGACTAATTCAAGTAGTGCAAATTAATAAACAGGAAAATTAAGAAGCAG
TGAAAAAGTGTTATTGTTTCAGAGCATCATGGTTTAAACTTGATGCATTGGCTACTTTTTCTTTTGTTCTGAGTTTTTTACTTAGTCTGTTAAATTTTGC
CATGCAAAATAGTGCTTATAATGTGCTGAGCACTTTTTCTGTGCCGTGAATGTCTTAAGCCAACACTGATACAGGGGGACTGTCATTCATTTTATAAGCA
AGGAAAATGAAGTTCAAAGAGAATAAGAGAATTGCCCAATGTGAGATGGAGGGTGAGTGCCGGAGCTGAGACTCTAACCCAKGTGCCCTGACTGCAGCTT
GTTTTCTCGCCTGGTCTTCTTACAGTTAACAGTTGATTTCTCCAGACTTTCTCATGTTGAAGAGAGTATAATCCTGTAAAAGTTGACTTGTGTTCAGGGG
TTTGGCCACAAGGCATAGATTTTTTGGAGCAAGTAAATACTATATGTTGGAATAAAATGAGAGAGCCCACATAATATTCCTAGGACATACAACACAAAGG
CTGGCATGTAAGAAGACCTTAGCAAGGGCATTTGCTATATATATTGATATTTATATCTTGCCCCCCACTCCACATTCAATTTAAAGTGATTTTGAAATMA
TGAGTGCGTGTACACATACATATGTGCTATGTATACATATTTACATACATTACATATGTATGCATACATGAGCATGTGTACACATACATACACACATATA
TGTACACACACACACTCATGTATGTATATATGTATGTAGGTAGATAGATATGTATTTGTGTCATAATAAAGACAAATAATTAGGAGTAGAAATAAAGACC
TAGCAAATAGGCCAGGCACACTGGCTCACACCTGTAATCTTAGCACTTTGGAAGGCCCAGGCGGGTGGATCACCTGAGGTCGGGAGTTCGAGACCAGCAT
GACCAACATGGTGAAACCCCATCTCTACTACAAATACAAAAATTAGCCAGGTGTGGTGGCGCGTGCCTGTAATCCCAGCTACCTGGGAGCTGAAGCAGGA
GAATTGCTGGAACCTGGGAGGCAGAGGCTGCAGCGAACTGAGATCGTGCTACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATAAAAACAAACAAA
CATACAAACAAAACCAAACAAACAAAAACAAAAACAAAACACCTAGCAAATAATCAGTAAGTAAGATTAGCAGATAGGAATGCAAATCATACAAGCTCCA
AGCTTCCAAAAGGCTTTTGCAATACTATCAATGACAAAATCCATACTGTCTGTCTAGAAAAAGTAAAAAAGGAAAAATAATACCCCAAAAGAAATATAAC
ATTTGTTATATTAAATCCTGGGAGATGTTTTTCTATCTATGCCCCATATCAAGCAAATACTCTTTATGGTTTTGGAACTACCTGGAATGGATGAGAAATT
ATGTATTGAACAATTCCTTGGGAGCCACGTGTTACCTGAAATAAAACTATGGTACAGTAAATTTTTAATTTTCTATAAAATATATTTTATTAATGGAGAG
AATCTTAATTCTAATATACATAAATTGTAAGATAGAAAAAGAGGAACCTGTGTCTTCAAATAAAAAAGAGAGAAGAAGTTTTTGCAGTGGAACTTTGGGA
AATACAAAAGAATGGACTTAGAGCCTCCCATGGAGTCTGTTAGGAGGGAACCCCTGTAAAAGGGGCCTTCTTTCTGTCCAGGGCATGTCCTATGGGACAG
TGTCCCTGCAGTCACCTGAGACCAGGGAGGCATGAGTCAACTCTATATTAAAGTCAGAAAGGTATGGAACATTTGGGTGTGAATTCATTCTCAGGATAAG
TGATTCTTAGTATGTATGTGACCTAAAAACTTAGCAAAATAAATTCATATATACGTCCTTAAAACTAAGAAGAAAAAAGATTCTGAAATGTTTCTACTAA
GTGCAGGCTATCTAGTGGAAATAAACTTTATGACAATTTTTTTACCAATGTAATAAATGTGAAATTTAATCAGTATTTATTCTTTAAGTATAGTGTCTGA
ATTGCTTTGTTTTTAGCAAGATAGTTTTTATACACTTATTAACATCTGACTTTCCACTCCACCCCTGCAAGTGGTTCCTTTTTCTAAGTAGTGGCAATTT
CTAGGTAATTTCTTTCATTTGTAATTTTCATATCCTGTGTTTTTTCAATTCCTACCTAAAGTAGTTCCCTTCTGAATTCAGGAAGTAGGTTCTACAGAAT
GTGATATGTTTTTTAAAAGTGCTGATGTTTCTAACACAGGCTTAATTATTGTAATGGCATGAAATTTAAAAAGAAGTCAAATAACCAGTAAATCTGGTGT
GAACATGTTCTACTGGGACATATTGATGCAAAGTCCTGGTTTTAATACTTGTGCTATATGCTTCAGCTATTGAATTCTCATTTAATTAGTCAGTGTTAAG
TAGATGAACTTATCTCTGGACAGAGATAAGGCCTGCAACTTCATGAACTTTGTTACCGATTTATTCTGTGACCGTGGATAAACCCCTTAACAAATAATAG
GGATTGCAGTTTCCTTATTTGTAAAATGAGACACGTGGGCTAAAACACTCTATAGCCTTGTTAGATCTAAGATTGAATACTCTTTCTTAATAACCACTTC
ATAAAAATATCAACACTAGCACCTCTAAAGCAAAATCGTGCAAATATTTAAGGGTGCAGCATACTTTATACAAATGTAAGTGAAGAAATCATGAATAGGA
TTAGAGAGAATAGAATGGGCTTAGTAGAGTTGTGAAATTTCAATTTTCTACTACGAAAGAGACTGGAGGTGCTGCCTGCTGAGATCCCCATGGATAGTCA
AATTATCAACTGCCCCAGTGYTTATAGAGTTACTTGATTGATCAGAGGCTTTTAAGTTGCTTCCAATTCTACAATTAGGACGGTATGGCAATATCTAACA
AAGCTGAAGTTACAAAATGCTTAGAAACACTCTTGTACATTTTTCTCAAAAAAGACAAGTACGAGAATGTTCTTGGCATTGTAATAGAAAAAAATGGAAA
ACAACCTAAATTTCCATGGGCAGCAGAATTTTGGGTCATATTCTCATAATGAAATATTATACAGCAGTGTATAATATTGTTGATTGATAAAGACATCTTG
CAGAATAATACATACATATGATATTATTGATACTGTTTAATACAATAGTCATACTATTTACACARTACATGCACACAGAGCTGTTGCCTAACACGTAGGT
ACCAACGAGGCACAATGGCCCAGCTGTGCTTACAGTCACTTAATTAATTTTGGCATCCTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGAC
TGGAGCGCAGTGGCATGATCACAGCTCACTGAAACCTCTGCCTTCTAGGTTCAAGCGATTTTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGRCAT
GCACCACCATGCCTGGCTAATTTTTTTGCATTTTTAGTAGAGACGGGTTTCACCATGTTGGTCGGGCTGGTCTGGAACTCTTGACCTCAAATGATCTGCC
CACCTCAGCCTCCCAAAGTGCTGAAATTACAGGCATGAGCCACCGTGCCTGGCCTTGGCATCCTTTCTATTGGTTGGTGCCTATACCAGTGTTCAGCATC
TATCATCTCTGTATGCATATATGGTAAAGGTAACGAAGATGAATGGCAATTATAAAGAAGGAGAATTGCGATTGAAAAAGGATATGCAATGAGCTTCTGC
TGTAGGATTAACAGTATAGTTATTAATCTAGAAGGTACAAGGGTAGTCATTACATTGTTCTTTAGATGCTTTTGTATATATTAAATATTTTGTAAATAAG
TTAACATAATTTATATAACTTTTTGTCTTTATTTAGGCTCTCCTGGGGTCTAATCTATGCTGGCTTCATCTTTATTATTTCCATATTCRTTACAATTATC
ATAACATTCACCCAAATTATAGTCATGACTGGCTTCATGGTCATATTTATACTCTTTTTTTTATATGGCTTATCTTTGGTAAGTTGATACATTTATTACC
ACTTTCTCTGCTTTAGATCTTAGCTATATGTAGCTAATATTAATGCCCTAGTAGGTTACTGCAATCACTACTTTCATGTCCATTGTGTGTGTGCATGTGT
GTGTCCTTGTGTGTACTTGAAATAGTTTCTATGGAGTGAAAAAGTTATGTAATCCAAATAAAATTTGACTTGCCTTTTGCATAAAGGTCTGAACTAATGA
AATGATGTATCAAAAAGAAAAAACAATGCTGACTCTAAAATATCAAAGTCTTTTCTGTATAATTATTGAGGTTATTTTTGAGGGGTGGACCCAATTTTTT
TTCCCTTAAGGGTGCTCATCACATGGTAGCTGATCACAATATCTCTTCTCCCTCTAATATTCTGTCTCATACTTACTTCTCGTTTCACTCCGCTCTGCCT
TCTCTGAACAAGAACCTCTAATTTCCATCTTCCAGGTTGTTTTCTGCAGAAAGTATGTAGATGCTCCTTCTTACATTAATTTAGCTTCATTACATTAATT
TAGACCCAAGTCTGCATTTCTACCCTATCCTCAGCTCTCATTCCAGCTTTTCCCCCACCCTTTCCTAGCAACAAAAGCCTGGCATTTGAGTAGGACAAAC
AAGGATCCTTTTTCAAGAGAAGTTGAGGAAAGAACAGACTCATTATACCTTAATATTTTCACCACTTTCTCACTGATAAATATTTATGTTATGATATAAA
AATCCTTATTTGATTGGGCTGCCAATGATTCTCAGTGAGCTAAATATTTTTTATAACAGCTGAATGTCTTCTCTCTCTTGCAGGTAGCTTTGGTGTTCCT
GATGAGTGTGCTGTTAAAGAAAGCTGTCCTCACCAATTTGGTTGTGTTTCTCCTTACCCTCTTTTGGGGATGTCTGGGATTCACTGTATTTTATGAACAA
CTTCCTTCATCTCTGGAGTGGATTTTGAATATTTGTAGCCCTTTTGCCTTTACTACTGGAATGATTCAGGTAAGAGCCTAGTTAATTGGTTTATTACTGA
AATTTCAAAAGAAGTAGATACTTCATACGCTGTAGGATCAGCACTACTCAAACTAAGAGCTTTTATTCTAAACAATTTTTCTAAAGTTAAGCTTTAAAAT
GTTATTATTACATTGTAAAAAAAAAAGTCACCTCACAAAGAAACTTAAATTTAAAAAAATCCTTCAGATTTTACCGCTCAGATATATTTTCATTTTGAAG
TATTTTCTTCTAGGTTTTTTTCCTATATACAAATATTTACTTTTATTACTATTCATTTAACATAATGAAAATATCTGCTAGTTTATTAAAATTGTTATAT
ATGAACCCACTTTTATTGTATAAACTATGAATATGAAAAACTTTCCAAACACAAGTATAGTTTAACAGATAATTATAAAGTAAATTAAAGTATCTATGAA
CTAGATCAAGGAATAGGATGTTGCCACCAGTCACAAACCCCTCAGAACACTCCTCCTTCGTAAAGGTAAAAATTTTATGATATTCACTTATTTGCTTTTC
ATTACCACTTAAGTATGTGTTCCTAAAGAAAATTTTTGGTTTTGCATGTTTTAAACTTCATAGGAGTGATGTTGCACAAAGTGTATTTTTGAAAATCTCT
TTTTTCATTCAACATGACGTTTTTAGGTGGCAGCATAGTTTCTGTGTAGCTATAGTGTAGAGTTATGTAGCATCCTATTGTGTTAACATACTATCAATTT
TCTTATCAATAGATTATGATAATTTTTAGTTTTTGAGCATTTTTAATAAAGCTGCTACAAACATTCTAGTACACATTTCCTACTGAATATGGACATTTCA
TTCTGTTCATTACGTTARTATAACAAACAGAATAGTGGGGCTGAGAGTATACAAATATTAATCTTAGTAGCTACCACCAAATATTTTCCCAAAGTGGTTG
CATCAATTTAGTTTTACATCAACAGTGTTTCAGAATTCCAGTTTTTCTAACACTTCACCAGGATTTAGTATTGTCAATCTTTCAAATTTTAGTTATTCTG
ATGGTTATGCAATGATATATCATTGTAGTGTTAATTTGCATTTCCCCGATTATTGATGACGTTTAATGCCTTTGTATATGCTTAGTGGATTACGAATTTT
CTTTTTTATAAATTACCTATCCAGTTCTTTGGCCCATTTTTCCTCTGAGTTTTCTATCTTCTCCCAATTGCTTTATGATAATTCCTTATACATGTTGAAC
ATCCGACATTTTTCCATTATTTGTTGCTGGCTTTTTTCCTCTCTTAATGGTAACTGTGATGAACAGAGATACATAATTTTGATAAGGTCCAATTTTTCAA
GTTTCTCTTTTATGTAGAATGCTTTTTGTAAAAATCAATGTAAGGAATCATTGCCTACACCAAGTTTACAAAGATATTTTCTGGCTGTTTTTCTAGAATA
TTGACTGGTTCAGCTTTTACATTAAGATAAAAATCCACTTCAGTGTAACTTTTGTGTGTGTATAGGTAGAGGCAATATTAATTTTGCTACACAAATATCC
AATTTCTCCAGCTCAATTTATCAACTAGACTATCCTTTCCTTGAATGAATTGCAATCTTTCTTTTATCATAACTCAGCCAATCATGTATTGGCCAAAATG
CCTATCCTTGCACTGTGGCCTCATTGTCTTAATTGTTTTGCTTTATCATATGTCTTGATATCTGGCAGTAACAGTTTTACCTCTTTAATCTCTTTTTCAA
TAGAGTCTTGTCTATTCTAATTTCTTTGCAATTATGTAAATTTTAGAATTAGCTTATCAAGTTACATAATCACACACTTATGTGCCTGTGCAAAGCCATT
AAGAGTGTGATGCAGTTGAATTATTCGATCAGTTCGAAGAAAATAGTCATCTTTTTTTCAGCCATGAACATAATATATCTTTGCATTCATTTCAGTGATC
TTTGATTTTCTTTAATAATTATCTTTTTTTATTTTTATTTTATTTTGAGACAGGGTCTTGCCCTGTCACACAGGCTGGAGTATACAAACACAGCTCACTG
CAGCCTCAACCTCCTGGGCTTAAGTGATCTTCCCGCCTCGGCCTCGCAAGTAACTAGGACTATAGACATACACCACCACACCTGGCTAATTTTTAATTGT
TGTAGAGAGTTGGTCTCACCATGTCGCTCAAGCTAATCTCAACCTCCTGGGCTCAAAAAAGCGATCCTCCCAACTCAGCCTATCAAAGTGCTGGGATTAC
AGGTGTGATCCATGCACTTGGCCTGTTTTAGTTTTCACTGTAGAGGTCTTACACATTTTTATTTGATTCATTCTGATGCTTTTGATATTTTTCATGCTGT
TATAAATAGCATCTATGTTTAAATTCTTATTTTTAAACATTTGTTGTTAATGTAGAGAGATGCAACTGATTTCTGTACATTGGCGTTCTATCCAGCATTC
TTGCTATATTCTCTTACTAAACCCAATATTTTTCTGGGTTTTATACATATATAATCATGTTGTCTTCAAATAATGATGGCTTATATTTTTCCCATCGCAA
TCCTTATGCTTTTTATTTCTTTTTCCTACTTTCCTGCACAGGTCCGGACCTCTAGTACAATAATGAATAGAAATGCAGGCAAAATAAAAGCTTTCTACAT
TGTGCCATTAAGTATGATGCTTATTGTTGGTCTCAGTGCATGTAATTCACCAGATTAAGGAAGATTCATCTTAGTTTATGAAGATATTTTCTTTACTATG
AATAGATATTACATTTTACCAAATGGTTTTTCTGTGTCTATTATATTGATCACATTATTTTCCTATTTAATGTTTGATGTTGAATTACACTGATTGATTT
TCAAATGTTGACTCAATTTTGGATTCCTAGAATAAATTCAACTTTATCATGAAAATGTTAACATTTTAACATAGACTGAGAAGCTGTAGAGTGTGCAGGG
TAAGGAACTGGCCCTAAGAGTAAGACTTTCTTTGTTCTAATTTCACTTCGCCACTTTTGGCTACTCAACTTCGCTGTGCCTTAGTTTTATCATATGTAAA
GTGCAGATTAAAATCTTATTATTTTTATAAGCCTTATTGCTTATCTGATAGGGTTTTAAGGAAGATTAAATGGGATAATATACAAAACACTTAGGACAGT
GCCTAGAACATAGTCGCTGTTATTATGTGGCAAAATTCTAAATACAAACTTTTATTTGAAATAATAACTAGAAAAGGAGGTAAGTTCTCTTTTTATCTAA
TTAAAGGCGTCCAAGAATTTCTTATATTCTTTCCAAAATTTATATCTCCTTTGTTGCCCAGAATAGATATTTGTAATACTGCAATGATTTTCTGAAAACA
AACAAATGAATTATAATTTAAATTATTATACTTAGAACATTGTATTTATTAAATAAATATTTCTTTCTAATTATTTTTCATTGTAAAATAGAAATATTTT
GACCAATACCTTTATTTACTTATTTATATATTTGACTAGTAACTACTAAGTGCCTCTTGAAAAAGCTAGTTAATAAATTAATACTTTTTCCTGCTATGCC
AAGCTATTTATTTATTTATTTTAAACATTTATTTTTATTTTTTGAATCTTAGATTATCAAACTGGATTATAACTTGAATGGTGTAATTTTTCCTGACCCT
TCAGGAGACTCATATACAATGATAGCAACTTTTTCTATGTTGCTTTTGGATGGTCTCATCTACTTGCTATTGGCATTATACTTTGACAAAATTTTACCCT
GTAAGTAATAGTGAGTTTTTCTCTGTCCTCTACAGTTATTAATTACATTGAATATATTTTTTAAGATTATATAGACTTTTAAAATGAATATTAAATATTT
CCCATTTCAAACTAATAAGTTCATTATTTCTACTTCATAGTTCTAATGGTCTAATGAAATTTTTATGTAAAAACAATTCTTCTTATGACTTTACTATAGC
AATATATTATAATTATATGACAACAATAATTATAATACATCTTGTAATTGTGTGGTAATTAAATAATGTTAGGTTTTCATGGATCCCTGAAAGTGTTTTG
AAAGGGTCATATTAGGATTTATGTCAAAACAAGATAAAAGAAATTAGTTCTTATGGTGGTTTGGCTCTCGGGAGGCCATTATACTGTGGAAGAGCTTTCT
CATGAATATTTGTTCAGCATCATTCTCAAAATGTTTTATATATTGTTCATATTTACAGAAGTATATTGATCGCCCAGTTAAATTATCTTGCAAACAACCA
AAAATGTCACGTAAGCCCAGAATTTTTTCACACATTCTAGAATCAGAAAGCTTTTTTTCTGGCACAATCTTCTTGTTTATCCTCTTATTTTATATGTTCC
TTCCACTATTTAAGGTTGTCTTATAGGTTTTCTATGTATTTACTTGTATATATTCCTGTCTTTCTGTGACTTCTGGTTGATATGTGAAGGCCCTTAATAA
TAAATTCAACTTTGTTTTTTAAACTGGAAAAATATATTTAAAATATCACTATAAATTTATTCTAAACAAATACAGTTTCTCCATGTATTCATGCCTAAGC
AGGAATATATAGATTTCAATATTATGTTCAATTATGTTGCTGTGGTCAAATTATTTAAGTTGACAAACATGTCTACAATTATTTTTATGCACTGTATTAA
GGCTTTGTGTCTTCCCAAATATTTGGTTTCATTCATTCTCCTAAATACCTTTTAGATCACATTTTAAAAAAATTTAATAAATATGTTTATTGGGTGATAC
AAAYCTGTTTTTCATGAGCCTATTAAGGATAATGCAACCCATTGTTAAGACTGGAAAAAAAGGACATATAATGGTTTCCTTGTTGGGTGTCCTTTTCTAC
AGATGTAGACAACAGAGGCTCTAAGATCTGTACTAATGTCTTGATCAGGGAAAAGCTGGAGTCCAACTCAGCTGGTCATACACCTAATATTTTATTCGAA
CCTCACTTTCCTATTGACTTTCTTTTTTTTGATCACATTCTATTTATACTTTGTTGAAAGCTGTATTATATTGTTTAATTTTGCAATATGTTATTTCCTT
TGAGTTCCCATTGTTTACTTCATCATCAAGTTTTCTTCTTAATAATAAATTGAGTTTTAGAAGAAAAAATGTCTCTATGATGCTTAAAACTTCAAGGCAT
TCTGCATTGTTGTTAGCAAGGCTTCTTTGCGCATTSTTTTACTATTACTGATCATATTTTGTTGCCTCTTGGTTAATTAGATGGAGATGAGCGCCATTAT
TCTCCTTTATTTTTCTTGAATTCATCATCTTGTTTCCAACACCAAAGGACTAATGCTAAGGTTATTGAGAAAGAAATCGATGCTGAGCATCCCTCTGATG
ATTATTTTGAACCAGTAGCTCCTGAATTCCAAGGAAAAGAAGCCATCAGGTAATCACACTTATAAGTAATACTAATGCATGAGCACAAGGCTGAAGAATT
ATTATTATTTTTAATTTTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAACGTGCATGTTTGTTACATATGTATACATGTGCCATGTTGGTG
TGCTGCACCCATTAACTCGTCATTTAGCATTAGGTGTATCTCCTAATGCTATCCCTCCCCCCTCCCCCTACCCCAGAACAGWCCCTGGTGTGTGATGTTC
CCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATAAGGCTAAAGAATTATTAACCGAGAGCATCAGGGTGAGCTTGAG
GCAAAATATTGAAGGAGAAGATATTTGTTTTTGTCAATGTCACTTTGAACTGCTCCATTTCCATCACCACCAATTTCTTCTGTTACTTGAAAGGAAAATC
CTCCTTGTTTATCAGCTCTGTATCATATTATCCAGCCACACTTCATCTTGTCCCCCTTTCTGCCTCTTTCTCTTGTGCCCACCTCTCTTTTATACTTGCT
CCTTTCATTCTGTGAACCCCTCTCTCCATGGTTTCATCTGGYTTTATATGATAAGTTGGAAGAAGTAAGAAATTCTGAATCAGAAATTCTTAGATCCTAA
TACTCTCCTCTCTCATTTGATGTGTACTCTTGGAAAAATGAGTAAATTTTATGAGTCTCAGTGTCTTCTATGAAACAAGATTAATATTGACTTTGTAGGG
TTGTTATGAGAYTTGGTATATCACAGAATTGCATGAGGAGCATTTAGAATATCTGTTTTTAGCCAGGGATTCTAACTCAGCAGTTTTGGGATTGAACCCA
AGTATCRTGGATTTCAAAATAGCTTTGTAGATTTTTCTACAAAGTTTGGTACAAAGTTAATGGATCAGCGCTTTAAATAGCAATCGTTTATTTATTAACA
GATGTTTACTTAGTGCTGACTATGTACCTGACTTGCACATAATTCGCACAAAAAGCTTACGAGGTAGGTATCTTTATTTTCCCCATTTTGAGAATACAAA
AAGTGAAGCAATGAAAGCTTAAGCCTTTTACCCAATATCACACAACTCGCAAGTGGGGAACTGGAATTGTAATCCAGATAGTCTGGCTCTACAGTCTATG
CTCTTAACATACTATTGAGATGTCAGGAGGCAAAGAAAAATGAATAAATAGAGAACCATATCTAGGAAGTGAAATATTTCCAAGACAAAGAGGCCTAACC
CATATACCTAAGCTTCCTCCATCTAGTTCTTAACCAATTTTCCGTTTAAGTTTTCTGAGAGGGGCAACAGCGCTTCCTCTGCTCTAGCTAGGAGTATACC
AGCTCCATAGAAAATTTCTATCCAAACAAGAAAGGCCAAGTGAGGAATAATTCCATAAAACTCAGTTCCAGTGTCATCAATCCTTCTTTACCAGTTGAGG
GCACAAAATAATATTGTATTATATTATTATTCAAATTATAAWAATTTTCAGATCCAATCTTCTAACAAAATCTTTTACTTACAAAGACCTCAAAATTTTC
TTTGTTCTTCTACTGCTGCCTAGTGACCTAGGAAAGAAAGTAAAATGTGCTCCACCCCCACCTTCCCCCAACTTCTCCCTTCTTCTCCCACATCCCCACT
GTGCCTCCAAACCTAGCCAATGTATACAGTGTTGACTGGGYACACCTGTCACTTGGTCTGGATTCTTAGCTCAGGTGGAGACCTGAGGCTACTGACAAAC
CAGGGAAAGAAAGTCATTTGATGCAAGGACTATTCACTAAAGCTTTTGGCTCCATTGTGGGGCACCTCACCCCAGATCCACACCAAAGCAAGAAAGTAGG
CTYAGGCGGTCAATGTTGTAGCTCTTTAATGGCAAGGTGGTACACACTCACTGAGTGTTAAAGCAGGTCTGGGGCTGCAAGGCAGTCTAAAACTGCCTTT
YGACCATCCAACAGTATATGCAGTTTCTAATCCACAAGTTTTATCTCTTCTTTCTTCACAGTGATCATTTCTTAGTGGCATCATTACTCTTCCCCACCTG
TAGACAATGTCAAATCTTTTTCAATCAATTCCAACGTGTGAATTCTATTTTGTATGAATATAAAAGGCACTAAGCCATTGATTTTTTTCTTCCTATGTGG
TCTCTGCTTTATATAAAAATTGACTCTTCCTCTTTATATAGAAATGCTTTATATACAAAGGAACTCTTCCCCTAAGATACATAGAGCTTACAGGGTATGT
AATCTTTAAGCTCTATGTATCAGGGGTATGGATGAAAGTTTGTAGAATTCTAACCAGAATCATGATTCTGGGTTTGTAAAAATATACATTTTTTATTCAC
AACTGGCTCTTCCTCATTCATAACTCCCAAGTCACATTTTCTCTGGGGGCAATTGTGTACACATATGTGCATTCCTGTAACTATAGACCATTCAGGCAAT
ATTCCCAGAACACAGGTAGAATGTCTGCCTCAAATGTAAATGACTGATTTCATGTCTAAAATCCAGAAACAACAGCTCCTCCTAAATGGAATTTTCTTTA
TTAAAACAAAACATTAAAGTTTCACTTCAACAGGGATTCCATTTTACAAAGAAATGCTGAAATAAAATACCTGGTGAGACTCATCATCTTTTAACTTTGC
TTCATTCATTCATTCAACAAACATATTGTTGCTGGGTTCTTTACTAATCTTTAGGGCAGCAAATATGAACAATAAACTGTCTTTCAAGGAGCACACAACA
CAGGGAACAAAATAAATAGGTACATGAAATTCAATCTGATAAATGTAGGGATAGAGATATTAACTACTGTTATTTAGTCAATAGAAGTGTTAACTACCCT
AGTTTAGGGAAATCGAAGAGAACGTCTATTTTTGTTTTAAAAAGTTAAAAATTACTGAAGAAATTTAGGCTTTTAAAGCTGACATATTCACCATCCGGGT
TGAGCAGATATAAACATTATTGTCATATTTGCTTTGTATTTTTAATGGATATATTATATGTTTATTTAAAGTCCCTTTTGATCTCTTTAAAATATTTTCT
CCATCCTTCGTCAGAATTTACCTTTATAATGGATTTGGTGTTATCACTTTCCATTCATATATTTACATATTGCACCATACACTTATAGCCCTAATCAATA
TGTGATATAGATATATGTGATATAGCTCTGTGTGTTTTTGATATAATCTATAAATGGTATCAGACTGTACTTAAGTTTCTACATATTGCTTCTACACTCA
GCATTTTGCTTTTTGGGGTGTATTCATAGTGATAACTATGGGCTAATGCATTGATTTTAATTTTTATATAAAAGTATTCTAAGATATGAATCTACCACTT
TTATTTATCTTTTCTGACATTGAAAAATATTCTAGTTGTTTCTAATTTTTTGGTCTGACAAATGATGTTGCAATGAACATTCTAAGAATAAGACAGATAA
AAAGGTGTGTTTGTGCATATGTACATATGTGTGTGTGAGTGCATGTATATATGTATATGTGTATGACACACCCAGCAGAAAAGACAAAAAGCACTAAGCT
TTGTGCAGGATATAAATGGTGGTTTGGTGATCCTGACACATAAAACATGAGGCCGAGGATGCCAAAAGATGTCACTGGACAGACCATGAGTGGCTGCTTC
ATGTGGTACAAAGTAGCCTTGACTTTCCCTCTGAGGCTGATGAGGAACGTTGAGGAGTAAATAAAATGGATTTTAAAATAAATCACCCTGTTTCCTGTGT
GAAGCATGGATTCTAGGGGAATAAACTGAAAGTAGGGAAAGGAACTAGAGGCAGTGAACAAGAGAAGAATAGTTGAAGACTTAAAAGGGACCCAAGACTT
GAACTATTTTAGAGTTAAATTTTACAAAAATGATACCAGGTTGGATGGGTGATGAATCTGAGTGAGAATCAGGAAGAGAGTAGTTGAATGTCCATGCTGC
CAAATAAGATCCTGCGTGATGGGGAAATGGGTTTAGGTGACAATGCAGTGAAGTCTGTTCTGCATATGCAGTTTTAGAGCAGTTAATTCTCAAACCTGGC
TTCACATTAGACTCATTTGGAAGAACATTTAAAATATCCCAATCCTCAGCCTTCACTGCCAAGAAAAACTCATCACCCCAGATCAATTAATGTGAATCTT
TTTTCTGTGAACTCTGCAGAGAAGTAATTAATGTGAATATAATATGAATCTCAGATGTTGTTTGCAGGCATCAGTTCCCTTTGGAATTCTAATGTGTATT
CACAATTAACAACCACTGATTAAGAGCTGTGTGTCTGTGTGTGTGTGTGTGTGAGAGAGACAGAGAGAGAGACTATCTATGCAGCAAACCATTAGATGTG
TGAATCTAAAGATCAATGAAAAGGGTGGGGTCAGCATTAGGTTGATGCTAAAACAAAAAATCCAACGAGAAAACTTCTGGAGAGAGTCTCAAATGAGAAG
ATCCATCATATACATGGAGAACCCTGTGGAATATCAAGCTGATGTGTCTGATGAAGGAAGAGGACTTTATTAGGAAACAGAGAAGGAACATTTAGAAAAA
TAAGAAGCAAAGCAATTAAGTCACCATTAACAAAGAGAAAGTCATCAACAGTGACTCATAATCCACTGTAAGAATGGAAAAGTATTTGTTGTATTTTATA
ATTAGGAGGTCACTAATGATTTCATTATGAAGTGGTTCACTGGAGTGGTGAGTTCAGAAATCAGAGTGCAATTGAAGAGGAATTAAAGGTCAGGAAGTGA
AAATGGCAAGTTTACAATGGCAAGTTTATTTTGAGAATTTTGTACAATACAGGGAGGAGAGAAATTAAATTGTGTCCAAAGTAGAGGTGAGTTCAAAGAG
GAACTATTAGAGAGAACACTATAAAAGATGCAGGTGACAGAGTGTCTGACTCATAAACTAATAAGCAAGACTTGGAGACGATGCAGGATGCCAGTTCAAG
ACCCTAGGTAAATGAGCTGATCTTGAACAGGGGGAAGAACCAACTGTTCTAAAGCTAGAGGAAGAAAGTGAGGATAATTACACAGCATTCTACTTTTCTA
GGCAAAATACTAGTAGTTTAATTGTAACTTGAGAGAGACTCCTCTATTTTCTACCTCAGGGGAAATAAGTAATCAAAAATAGGGTTTTTTCTTTCTGAAT
AGACTGTTTATGCCATCCCTTATTTCACATAAAGTGGTTGGCTGCAGTTATCACTATGACTAGGGCTATAAATGGCCCGTGCTATTTTCACTTCTGTGTT
GGCTAAGTAAGCACCCTTTTTGTTATTTCAGAATCAGAAATGTTAAGAAGGAATATAAAGGAAAATCTGGAAAAGTGGAAGCATTGAAAGGTAAAGAAAA
ACATTGAAAAATTTCATTCTTTCACTTCTTTCTTTATTATAAAAAAGGGAAACATTCAATGTGAAAAAATTTGAAATATGTAGATAAGCAAAAGAAAAAA
GAATATAAATAACGCTATCACTTGGACATTAATCATGATTAAGAATATGCTGTAAAATTCTTCCAGATATTTCATGAATCTATTAATTTATAACAGTGGT
ATCATACAATGAAAGATGTAATTTCTCTTTGTTTTTAAAGATTAATCTGCTATGAACAATATTTTATATATTGTCACTGTGAGGAAAGAACATCTAGACT
GAAATCTGATAAAGGTTTTATACTAGCCGGTGAATTTACATAGTTTATATGTACTGGTGAGGTTAACTAAAGCAAGATGAGTAAAACCATTGACTATGAA
TTAAATTTCACAAGTCAATATCCTATAACAAACCTAAGTTATAATTTGAAATGAAAAAACACATTTTGATACAAAATATTCTAACATACAGTTTTCTATA
ACAGACATTTAAGCAAACATCAAAGTGAGTAGCTAGATTTCATGGAGGACTATTTACTTTTATTAAAAATAATTTTTAGGAGGGATAAAAATGATTTTTA
TAAAAGACAGAAGCCTTAAAAGCTGAAAAAGAAGAGCCATGAACCTTCCAGAAGTGTAGAGTTCTCCGACCATTGTGTTTATATTGCGTGTATTTTCTAA
TAAATACAGCATCCTCTAATTCAGTCTTATTCATTGCTTTTAGATTAGGTCTTTGAGAATTTAATGTATTTGTATGAGCAATTTTATTCTCTCTCTAGGT
TTCTCTCATCAAATACCATCTAGAGCTGTGATTTCTTTCTTTAATGTTAGCTCAGGAGATACTGAAATAATTTTAAATTGATTACTTAAAGTTTTGGAGC
ACATTTTGAACTACCTTTGTACTCATCAAGTCATGAACTTCTTTTTGTCTAAACAAAAAACTTCTTTAAGAATTTTGTTCATTTTAAAAATAGCAGCACC
TTAAAAAATTAAAAGCATTGGACATCAACACATTAAAAATATGATTATGAATTCAAACCAAGTATAGCTGCTCTTTGGGAAATCAGGGAAGAAGTTGCAA
TCCCTTAGCCTCCTCTTCCTTCCTCATGGAGTTAGTTTCTGGAGCACATCTGCAACACCTTTGGGACACACTTTTGAAATCTTTTATCTATGGCCTACTT
TTCAGAAGCTAAGTACCATTCCATTATATGGATACCACGACTAACTTATTAACACACCAATGTATGAGATTCAATTTGTTTCCAATTTTTAGTGTAATAA
AAAATACTAGAATGAACAGCCTTGTTCAATCTTTGTAAATGTCATAAATTGTTTCTTGAATATAAATTTCTAGAAGCAGAATTATTCAAAGGAAGCATAC
TTTCAAGATTCTTGATTCATATTTCAAATTATTTCCCTCTAAAATCATAAAAAGTCATACTCCCACAAGCAATACATAATGAATAATAATGACAACGACA
ACAATAGCAATAAACACTTAGATTTCATTGAGGATTTGGTGTGTGCGGGAAACTATGCTAAGTGATTTACATSTACCATTTTACATTTAGGCCTGTGAAA
GACATGTTAATATATCTCTCACTTTGCAGATGACGAAACTGAGGCTTCTATTTAATTTTTCCAGTTACTGTGGGTCAGTCCCAACAGCCAGTATCACTTC
CCTCTTACCCTGGAAAACACCGTATACTTTGCATTTAAAAATTACAGGCCAGGCATGGTGGCTCACATCTGTAAATCCCGAAGTGGGTGTATTGCTTAAA
CTCAGGAGTTTGAAACCAGCCTGGGCAACATGGCAAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAAGTGTGGTGGCGTGGGCCAATAGTCTCAG
CTACAGGGAGCTGACGTGGGAGAATTGCTTAAGCGTGGGAGATTGAGGCTGCAGTGAGCTGTGATTGCTCCACTGCACTCCAGTCTAGGTGGCAGAATGA
GATCCTGTAACAAAAAAAAAAAATTACAAACATAAAATTTGTTAATGTATTTGTTTAGTTGTCCCAATATTATTTATTAAATAAACCATCTTTCTAATAC
ATTTGAAAGGTCATTTTATTAATCTTTATTTTTATATTTTCTTTGGTCCATATTAGACTTCTGTTCTGTTCCATTGGTCACTATATCCTGCACCAGTAAC
ATATTATTTTAATTATTATAGTTCTGTCACATATTATTTTGGCAATTAGGAAAATATTGATCATTGTGTATTTTAAAGTATTGAAATGCTGAGAAATATG
CCACTAAACTAAATAGCCTTGTTCTATGTTGGGACCAGGCCTGTCTAATGCCTTTCTGTTTATACTGTTAATAATTTGTTAACAATTTGTTCTAAAAATA
GGCTTGCTCTTTGACATATATGAAGGTCAAATCACGGCAATCCTGGGTCACAGTGGAGCTGGCAAATCTTCACTGCTAAATATTCTTAATGGATTGTCTG
TTCCAACAGAAGGTGAGTAAAAAGAAATTTCTCAAAGGCAAGATGTCTTATAATAGAATGAGGTCAAGCATATGCCTCTCATTTTAAATTTTAAATTTGA
TGGCTTAAGAGAAATAATGTTTATCTAAAGTTGTTTCCAAGAGCTACATAATTTTGAATATACTTCATATTTCTGCAATTTTATAAAAATTATTATCTTT
ATTCCATTGTGTGATATTTCAGGGTAGATGTGCAGTTCTATAAGCATATGTTTGTAACAAGAATAATTAGTAGTTCACAAATTGTGTTCACATATATGCA
GTTCTATAAGCATATATTTATGTCAAGAATAGTAGTTCACAAATCATTTTAGACATTTGTGAACATATGCCAATATTTTCTTAAATGAGATCTATGAATA
TTAATAGAATGTATTATCTTGCCAATTTTATTTTTAACTTCTATTCTTAGGATCAGTTACCATCTATAATAAAAATCTCTCTGAAATGCAAGACTTGGAG
GAAATCAGAAAGATAACTGGCGTCTGTCCTCAATTCAATGTTCAATTTGACATACTCACCGTGAAGGAAAACCTCAGCCTGTTTGCTAAAATAAAAGGGA
TTCATCTAAAGGAAGTGGAACAAGAGGTAGGAGGGCATGCTTGGATTAACTGACCTGCCAACCACTTACCAAATTAAATCATGACCACAGAATTCTCTTC
AATGATTTATTTGCCCTGTTATGAATAAAATTTAGGCAAAGAGGTCCCATAACAAATATCGACTGCTTTAATGAGTGGTTAAAATTGCATAATATGAATC
ATTTTGGATTTTATTTTTATTTTTTATTATACTTTAAGTTAGGGTACATGTGCACAACGTGCAGGTTAGTTACATATGTATACATGTGCCATGTTGGTGT
GCTGCACCCAGTAACTCGTCATTTAACATTAGGTATATCTCCTAATGCTATCCCTCTCCCCTCCCCCCACCCCACAACAGGCCCCCATGTGTGATGTTCC
CCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGCGATAGTTTGCTGAGAATGAT
GGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGGCTGCATAGTATTCCATGGTATATATGTGCCACATTTTCTTAAT
CCAGTCTATCATTGTTGGACATTTGGGTTGTTTTCAAGTGTTGCTATTGTGAATAGTGCCACAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATG
ATTTATAATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAGTTGCCACACTGACTTGCACAA
TGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAARTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCGCC
ATACTAACTGGTGTGAGGTGATATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCAT
AAATGTCTTCTTCATTTTGGATTTTAAAAGTTGCRTATTTTCTCATATAGGTACAACGAATATTATTGGAATTGGACATGCAAAACATTCAAGATAACCT
TGCTAAACATTTAAGTGAAGGACAGAAAAGAAAGCTGACTTTTGGGATTACCATTTTAGGAGATCCTCAAGTAAGTGAGATTATGCATGGGGAAGGAAGC
AGGTCGAATGTCTGCAAAATGTCAAGTTCTTTTACCACTAAAAGTGGTAGAGCTTYCATTGTAATGYATCAAGAGAGAACCTGCTATGTTTAACTATAAA
TAGAAGTATATTGGAGAAAAATGGCTGGATGGTTATTATTTTATGGTATTTATTGTTTTTCATGCTATCTTCTGGATACAGTTAATGTGAAAGAGAGACA
TATTTTATATATCTTCATTCTCTGTAGATTTTGCTYTTAGATGAACCAACTACTGGATTGGATCCCTTTTCCAGAGATCAAGTGTGGAGCCTCCTGAGAG
AGCGTAGAGCAGATCATGTGATCCTTTTCAGTACCCAGTCCATGGATGAGGCTGACATCCTGGCTGGTAATTGTTGGTTTTATCTCAGTGTTACCATGAT
GCAATTGGGGAATTTAGAAGCGAGGTCTATTCCCAGGGTAAGAGCCCTGCTCTCATTATGGTGATGTTCCTACATTCTATAGCAGTCAGGAGGACGACAG
GAGTCTAGTTCCACTGTGGAATTCCTTTCTGGTTGTACATTTGCTAGGTAGTGACAACTAATGAAAAATTCTGATTACCTTTTTTTTTTAGATCAGCTGT
CAATTAATTTAAACATTCAAATCTTTTTTTATATATATTTAATTGAAAAATAGACACTTATTCTTTAGCATCAGAGTATACAGTATACCATGTAATTTAT
GTGTTTTTTTTTTCAGAAAGTATTGGAAGGTGCAGATAGACTGGTGTTCATGAGCTTATTTTATTTTAAATTTAATTTATTTGTATAAATTTAATGAGTA
CAAGTACCGTTTTGTTACATGGATATATTATGTAGTGGTGAAGTCCRGGCTTCTGGTGTATTCATCACCAAATAATATACATTGTACCCATTAAATAATT
TCTCATTCCCCATCCCCCTCTGACTCTCTCACCCTTCCGAGTCTTCAGTGTCTATTACTCCACACTGTATGTCCATGTGTACCCATTTTTTAGCTCTCAC
TGATAAATGAGAACATGCAGTATTTGACTTTCTGTTTCTGTGTTGTTTCACTTATGATAATAGACTCCAGTTCCATCCATGTTGCTGCAAAAGACATGGT
TTCATTCTCTTTTATGGCTGAATAATATCATGAGTTCATTTTAAATGCATCAATTTTAATATGTATTTCAAATGTTAAAATGCACACTAGATCTAGTTAT
ACCCTGTTGAATACTTCTCCTTTGCACTTCTGAGCCTTGGCTCCTCGTCTTTCTTTACTAGAGAAAGAAGAAATGACCCCCAATATCTTTTCTCCCTTGA
TTTCTTTCATTCAGATAGAAAAGTGATCATGTCCAATGGGAGACTGAAGTGTGCAGGTTCTTCTATSTTTTTGAAAAGAAGGTGGGGTCTTGGATATCAC
CTAAGGTAAAGACTTTGGGAATAGATTGGATTTATGTGTTTGCAATACTGGTATATGAAAAAGGTGGACAATTATGAAACAGAACTGGCCTCGTGCTTCA
TCTCTACCATACTGGATTGATCAGTGTTTCCTGAATACTTTTTTTTACTTTCCTTCCTCCTGTGTCTTTACAATGTTAATCATTGGCAACATTTCAACAT
GATAAACCAAGCCTGACTTTTCACAGCAAGACTACTTCATGTGCCACTTTTCTAGGTAGCTGTTCTGTGCAGCCTAAACCTCTACCTGCTTCCTACCCAC
ATTTTCCTCAGCTGATCCATAGAATTCTGAAATATGTTTTCATTCTTTCATAGGGCAAAAAGGCAAATAATTTCAGAAGCCAGTATCAACAAGGAGAGAA
TCTAGGGGCAGAAAGTAATGATAACTGTGGCTAACAAAAAAGTGTATATATTAGTCTGTTCTCATGCTGCTAATGACATACCCGAGACTGGGTAATATAT
AAAGGAAAGAGATCTAATTGACTCACAGTTCGGCGTGGCTGAGTAGGCCTCAGGAAACTTACAATCATGGCAGAAGGGAAAGCAAACACGCCCTTCTTCA
CATGGTGGCAGCAAGGACAGATGCAGACTGAAGGCAGGRAAAAGCCCCTTATAAAACCATCATATCTCATGAGAACTCACTATCATGAGAACAGCATGAG
GGTAACTGCCTATGATTCAGTTACCTCCCACTGGGTCCCTCCTATGACATGTGGGAATTATGGGAACTACAATTCAAGATGACATTTGGGTGGGGACACA
GCCAAACCATATTGGTGTATATCCAGGCTAAAATAATTGTTTAAAATAACCCTATGGCCAAACAAAGCATGCATGTGGGCCAGATTTTCTCTACTAGCTA
ATGATATGGTCTGGTATAATAATTATTTTCCCTAAGAAGTCTCTTCTTCCTAACATTCTCAGCTTCCTACATTTATCTATAACTATACATATAAAACTCT
ATATAGTTCCATTTACATTATATATTTGTTTGTATATTTTGTAATTGTTCTGAGCTTATACATTTTCCATATATAGATTATAAAATTTTCAAACTGATAG
ATTACTATCATGTTAGTATTTACTCATCTTTTTGTTCCATAAAGCCAAGTAAAGTTGTGCTCAACAGCTAGGTGTTCAATTAAAGCTCTTCTTTTGTGAT
AGTGGTGGAGAAAATGCAAATGACTTATCTTTTCTTTTAAATATTAGTTTACATAGGAATGAAATATGTAACCCAGAACAAATAACATCCTTCATTACTC
ATCACATCCCCGATGCTAAATTAAAAACAGAAAACAAAGAAAAGCTTGTATATACTTTGCCACTGGAAAGGACAAATACATTTCCAGGTAACTCAACTAT
GATTACAATGAAATGAAATATGGGAAAAAATGTTCACATTATTATTAAAATAATTTTCTTTGTCCAATGAATTTAGACTTTTTCTTAGTTTTGGCCACCT
GAGAAGCAGAACTCAAGAGGAAGGATTGAGTGCCACTGATTTATTGGGTAGTTGCTTCGTGGAAGCACCAGCAGATAATGGGGACAGGAGAGAGGGAAGG
GAAGGCAGCCAGGGAAGTCTGAATTCTGGAGCAGATTACTGTGGTAGGCAATTGAGGTGCAATGCCCACGGGAGGGAAATAAATGAAGTAAGTGGGCTCA
GCGTTTTGTCACCAGAGGGGTGAGTAAGCTGGGGTTCTTACCCACTGTTCCCTATCCATTGTTGATTAAGGGATGCCTACGAGAGCATTAACTTTCTCAT
CCTTCTGGCTTACTCTGAACATGAGCTTAGAATACTTCCAAGTACAGAAAAAGGACCTCAGGTAGGTGTTTTTAATAAGCAGATTTACCGTGTACAGGTG
AATGCAGAAGAGGTGTTGGTGGGGCATAAAGGTTTCTGCTACAGGTTTCTCTTTGTAAGGTAGCCCCCCATTATTCACAAGGAATAGATAGTTCCAAGAT
CTCCAGTTCATGTCTGAAACCGTGGATAGAACCAAACCTAATTGCCATCGATCGGAAAACATTTCTGTTCATGTCTTCCACCTACACACTGAATGCCTTT
TCCATCTTAACTAAGCACTTAACACGCATTGTGGCTGTAACTTTTGCAGTTTGAGGTGCAACAGCAAAAGTAGCATGAATTTCTTCTGCCTTCTTCACAA
TTTCACAGACAGAAGATTCATTCTTACGTTAGATCTTAGCATCAGCATAAGATTTTTTTTTTCCTTGTTGAGAACTTTCACCTTTTCACTTACAGGAAGC
ATTTTATGGCTTTTCTTTGGCATATCCAAATTGCCAGCATCATTACTCTTGCACTTTGGGAACCTTATTAGGTAAAATAGGGGTGCCTTGAACTGCAATA
CCGTGACAGTTGCTCTGATATCCCAGAGGGCTACTAAGTGACAGGTGGGTATAGCTCGGTTCTGCTGGACAGGGGATGATTCACGTCCTGAGCCTGAGCA
AGATGGAGTGTGATGGCGAAGGATTTCATCACACTGCTTACAAGGGCACACAACTGAAAACTTATGAATTATTTCTGGAATTTTCCATTTTATGTTTTTA
GACAGCAGTTGATGGTGGATAATTGAAACTGTGGAAAATGAAACTGTAGATAAGGCAGGATTACTCTATTTTAATTGTGCATGTACTATTTTGCAGAGAA
AAACAACTTACATAGTCTACAAAAGTGTTCAACCCTCGGTTCCCTGCCAACTGGGTAGCAGCACCCATTCAGACTTTGTTTGATAAGAAATCCTAAAGAT
TACTTGCTCTTTGTGTAATGTTTTCTACGTGTTAGGCACTGTTCTAATGGTTTCATATATATTAACTCCTTTAGTTCTCACAACTGTTCTTTCTATGAGA
TGGGTGCTATAACTTGCCCTATCTTACAAATGAGGAAATATATTTCAGTCTCTTGATTTAAACAGCTTCCCTTTGGTTTAAACATCTAGTTTGTTAAAGG
TATAACTCCCTATAGACCTACCTTAAATAAGCTCTTTTGCATAATTCGGTTTCATTAGGCAAATACTCAGGAATTCCCAGATTTTAGCTTCACTCCCCAA
TGTGGCAGCTCTCTATGTCCTTGTAGTAGCATAGAAGATGGTGTTCTTCTCAGATCAGTGGACTATGCCATGTTATTTTGTTCTTGGACTAAGGCCCTGT
GAGGTGCAACTGGTCCACTTTCATTTTTGGTCAGAGATGGAGAATAAGGAATTATATGTTGGTACTACCACTGGAATATGTTACTTTGCCAGAGTCTCTG
GTGTTGACCTCCTGGCCCATGGCAGCCTCTTTACACAGACCCAAGGCCTCTGCTGTCTAATGGCATGCTTATGTCCATTTCCGGACATGGGACTCCCAGG
TCCATTGCTGCCATGTGCGGGTCATAGGGAAACACAGTGTTTGCTACAGTCTCATCCACCTCTTTCCTCTCAATAATGTCATTGGCCCATCCTCCCACCC
AAACTAGAAAGTAGCATCTAAGAGTCTTCTAGAATCCTGCAGTCTCATGCAAGTATCTCCATAGAAGAGTTACCCAATAAATGTGTACTGGGAAACTATT
ATATAAATGGCACTGCTCCAGGAACTAGAAATACCACATTAAATAAGAGATATGTGTCTCTACTCTCATGGAGCCTACATCTAACTAGATAGGGAAAAGT
AGACACACAAAATACACAAAATTTTTCAACAATTGTACACTAAAATAATAAACAAGGCCAGTGAGTTAGAGTGATGACTGGTGTCTGGCTGAGGTTTATA
TAGAGTGGTCACTGAAGGCCACAAGAAGAAAATGGTCAAGGGCACTCCAAGTCAAGGGGAAAGGAGAATGGCTGGAGGGCAATGAGTGAGGGAGCAGAAT
GGCAAATGGAGGTGGGTAAGGCTGTGTGGATAGATGGAGACAGGCTCTTTTGGAGCCTCAGAGGTTGTGTTATTGACTTTAAATTTTATTTTAAATGCAT
TGAGAAAGCATTGAAAGACTTATACAGAGAGAAGACCCAGAATATAGGTAGAGATATACGTGGGTTTGTAGTGTGGAGGTGAGAAGATAATGGTCTTTCT
GATTGTTCAGATTTCTGCAGAGAAATCTGCAGGAAGCTCATAAACTGAGAATGGAAGATGAAGTGAGACAGTTTGAGGATGGAGGAAGAGGTCTTCCTTA
GTCATTTCAGAGAAGGAGAGCATTCTCATGAAATTTTGCTTTTGACTACTGTGATACTCCAAGGACATAATTTTCTTAACAATATTATGTATTGTCTTTT
AAATAAGTATTAATTTACTTGGTTTAGTTCTCAATGTGGTTTTCCAAAGTATCTATTCATATTTTTTTGCCTTAGATCTTTTCAGTGATCTGGATAAGTG
TTCTGACCAGGGAGTGACAGGTTATGACATTTCCATGTCAACTCTAAATGAAGTCTTTATGAAACTGGAAGGACAGTCAACTATCGAACAAGGTAAAGCC
ATTTGTATAATTCACAGAAAACCAATTCCCAAATGATCATGTGTCAATTTAGTATTTATAATTTCTTATGGGTGATTCACACTAAGAAATGTGATTTCAT
TCCAAATTTGGCTCTGCTGTTTGAGATGGGCTGTCATTATTTCTTAGCGTCATTACTAAGACTGATCACAGATCCCTTCATGGCATCTACCAAGTTTCCT
TTTGGAAACTATTTCCTATCCTCAGATGTTCCCTGCTTCTTAGATACCTTCAGGCTGTGAAAGGCTCTTAATTAGGGGAATGAGGTCTGAATATATTTTT
TAAAAATAAAAATTGCTKTTAGCTTGTTAATATACAAAATTCCACTAAAGTCTTAGTGGGGAGAATTCTCAGTATCCACTCTTGTATATTTTAATGGGTG
ATAATAATCATTGTCATTATGGAGCTCCTCTTATGCCAGACACTTAGATTAATGTATGGCTATACATTGATATATATGCCTTCAACATTATCTTTCCTAT
AATAACCTTTCCAAGAAGTGTCATTGGCACTGGTTTACAAATGAGAAAATCAGACCTATGAGCAGTTAAGTGATTTTCCCCAATCACAGATGTAAGATAC
ATGTACAGATCTGGTAGTTCAGAGCTGATGATCTTTCCCCTATACTACTAAATGATTGATACCTTAGTAGTAGATATTTAGGTGTAATGATTGGCTATTT
TTATGCAGAAGATTTTTWAAAAATCCCTCAGAGGAATGATACTCTTGGGAATTTCTTTGCTTTTCAAAGATTGGGCACAATGAGATCACCATTTTTGTGA
ATTATTCTTTTGGTATGAATTCAGTGTATTTTCTCACTGAGTATAGAATATGGACATCATAACATGTTTCTTATATTGTTTGCACTGTAACCACAAGCAA
TCTAAAACTTTGTTTTATTTAAAATTTTAATTTTTTATCACCATTGGCAATTATAAAACTTAACTATAGAAAGAAAATATAGATGGCAGTGGTGAAGTAT
AAACAATAAATATTGAAAAATATTGTCTAAATAATTCCTTTGAATTGGTTATAAAAATAAAAACAAATGTAAAACTTTTTTTTTTTTTTTTTTTTCGAGA
TGGAGTCTTGCTCTGTCTCCTAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACAGCAACCTCCCCCTCCCAGGTTCAAGCGATTCTCCTACCTCAGCCT
CCTGAGGAGCTCAGATTACAGGCACCTGCCACCACGCCCAGCTAAGTTTTGTATTTTTAGTAGAGACAGGGTTTAGCCATGTTGGCCAGGTTGGTCTTGA
AATCCTGACCTCAGGTGATCCACCCACCTTGGCCTCCCAGAGTACTGGGATTACAGGCATAAGCCACCATGCCTGGCCATGTAATACTATTTTTAATATT
ACTAAGGAAAATCTGTGATGCCTCCAGGATGGCATTAATATTATAATATGTGTGTTTGTGTATGTGTGTGTTTATAGATTTCGAACAAGTGGAGATGATA
AGAGACTCAGAAAGCCTCAATGAAATGGAGCTGGCTCACTCTTCCTTCTCTGAAATGCAGACAGCTGTGAGTGACATGGGCCTCTGGAGAATGCAAGTCT
TTGCCATGGCACGGCTCCGTTTCTTAAAGTTAAAACGTCAAACTAAAGTGTTATTGACCCTGTGAGTAGGAGAGTACTGTGGTTTTGTTAGATCATGAAT
TTCAAAAGAGGTTCAAACCAGAAGATAATTTAAAACTAGAACGCAATATCTGACATTCCTGCCACGGGGTGGATAAATTCAGCATTTAATTTTTCTGACA
GTGGGAATACCTGTATGTTCACACTCGATTAAGCTTATACGTGCAGGTGTGTTTTGTTTTCATGGTTTGATAACCTGGTGTTTATATAGTAATGCCTTCT
GGTACTGTGTAGCATGCTAGGGTATTATCTTCAGAATTTTAGCACCTAGAATCATGATTGGCATAAGGCAGGCTTGGCACTCAACAAATACTTGTGGAAT
GTCTTACTAAATAAATAAAATTCCTGGAGATTAATATGCTAATTTTTCTTTATTGTTTAGATTATTGGTATTTGGAATCGCAATATTCCCTTTGATTGTT
GAAAATATAATRTATGCTATGTTAAATGAAAAGATCGATTGGGAATTTAAAAACGAATTGTATTTTCTCTCTCCTGGACAACTTCCCCAGGAACCCCGTA
CCAGCCTGTTGATCATCAATAACACAGGTGAAAAGAAAAATAAAATTTAAATCCAGAAATAAGTTATTTTTATTGTTGAATAGCACAGGAGGTGGGGGGG
GGRAGTGAATCATAAGAGAAGAAAATGGGTATTTAAACTTCATTTATAGAAAACACCTTATGAGGAACAGTGCAGATTTACTCTGATTTTGGAGATGACA
GGGATGATGAGGACAAGAGAAAAAGAACTTGGGTCACTGTATAACCTGGAAGAGTAAAGACGTCTCTCTACCTGACTACCCTAAGCTATTACATGGCAAA
TAAACTTCTATATTGGCACACCCGTTCTATTTTGAGATCCCTTTGTTACACAGCAGCCTAACCTATACCACAAAGGCAATACACACTGGTTACCATGTGA
AGATGGCCTATCTATTCCCCATGCCCCTTCATTAAGTACAAGATACAGGAAGATGCCTTATTTTGTTATCCCAAACAATGGGTAATTGRTTTTGTTTTTG
TTTTGTTTTGAGACAGAGTCTYGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTTGGTTCAATGCAACCTCCACCTCCCACGTTCAAGCGATTCT
CCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACGTGCCATCACGTCTGACTAATTTTTTTTTTTTTTTTGTATTTTTAGTARAGATGGGGTTTTG
CCATGTTGGCCAGGCTGTGTTGAACTCCTGGCCTCAAGTGATCTGCCCTCCTTGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACTGCGCCCGGC
CAGTAATTGTTTTTTTTTTTTTTTTTTTTTCCTAACCGCTTAATTAACTTTGAAGAAGGAACTTTTATGTTAGTACCTCAGATGTTAAAACAAACAAACA
AACAAAGAAACAAAAAAAAAATCACAGTAAGAGTCTTCCCTTGCTGAGTTCCTCATTCATTTGATTTTCCCATGGATTTGCGATTCAGGCCTGCGGTGTA
TGCTCTTTAAACAAAGACAGTCTTTCCCTTTCCGTTTCTCATTCTTGTTTTCCATTTGGGTTTTGGAAAGTAAATTTTATTCACCTCACTACCTTAAATG
CTAATTGTATGTTTAATTTCTGAGATCTAGAAAGGTTTCTTTACCTATGAGCTCATAAGATAAGTAAATTAGGTCTCTCTTTTCCTCTTTGGTCACTCTT
GAGGGCAGTGGGCTTGTGTTAATATATTTATTTTGTCTCTGTACTTAGGTATTTTATGGTTTAAGTTTGAAGCTTCTGTGCCATTTTGTTCCTCTTTTCT
CAAAATCTGCCAATTATTGGTAACACGTTTATCTTTTAATGTGAGCATCCCTGTCTGCCTAGGTGAATGTGGGTCACCATATGGCATTGCACCTCAAGTG
ACTGTGGAGGTGGAGTGGGGTGTGTGGCTGCTCAAGGTGCATGGAAAGCTTATTTTCTATGTGCATGTTCCTGTATCACTTGGTTGGGGGATCCTAATTC
ATCTAAGGTTTGGCCTTATTTTTCCAATCCCAGAGCCCACTATAAACTCCCATTTCAAAGGCAAAAAAAAAAAAAAAAAAAAAAAGTCCTTCTTTTCCTC
TTATTCATTCCATCTTGCTCAAATTATTGTCTGCAGTTACTTCAGGTTTGCCCAGCTGTGCTCCTCAGATAAGGTCTCTYAGTAAGTAAATATGGGACTG
TTACCCTGGGGACAACTGCGGCTACTGTGTGTTCTGTGTGGAACGTGGGGAGGGGCCTGACGGGTCATCTTTTCCCAGGTATACGTCACGACCCTGACTA
TAGCTTCAGAGCATACCTTACCCCCTTGCATTCATCCACTCTGAGTTCAGGTATCCTGGAAATTGGTTTTACCTTCAGCTGCTTGCTCTGGTGTGCTCTA
GGCTGTGAATTTTTCTCAGCTCGTATTTCACGGTCAGACGTTCTCATCTGCTTTCTTCTTCAGGGTCATATCTAAAAGTYTGATCTGATGATGGCATCCT
TTTTCATTTCCTAAGAAAGATTATATTTATACAACATACATGTATGGAATATGTACGTAAATGTTTAGAATAAAGTAAAACATATGTATGTGTTATACAG
ACACATATATATTTACTTGTCCATTATTTGGAAGAACAAGGAAGAGAGAAGAGTGTTATCATTGGCTGTTTTAGGCTGGACAATCTGAAGTACTCCTCAT
AAAATTATTGTATCTCCACAGATTATTCAATTCAAATGTTGTTGTTGTTGTTGTTTACCAAAAGTCATACAATAGAATTAGCTTATTTTTATGATTACAT
GTTAATTTGCATTAAACAGATTTATAAAGCTAATTCATTGTGGTATAAGATTTGCTAAATAGAAGATGGTACAGTGTGGGTCAATATTATTATTGTGATA
CCCAAAGAAAGACATTTATACATAGTATTCCATAAATATTAACTTTAATTATGTATATGACTTATTTTAAAAGTTTGATATGTATTTTCTTACTTTTCTA
TGGCCTTCYCTTATTAACTTCATATTAGAATCAAATATTGAAGATTTTATAAAATCACTGAAGCATCAAAATATACTTTTGGAAGTAGATGACTTTGAAA
ACAGAAATGGTACTGATGGCCTCTCATACAATGGAGCTATCATAGTTTCTGGTAAACAAAAGGTATGTTTGCCTTTTTGCTTTTATGAAAAAAACAAAAA
GTACTACATTTTAGCTGTTTTAAAACTGCAGAAATTAAAGCTAGTATACAGAAACTTGACTCAGAAAAACATTCTGGGTTGTTATTTAATAAACTGTGAA
GTTTACCTAAGTTTTTGTAAAACATTTTCTATCTTAGTTTTGTTTTGAATTAGATAACTTTTACATTTGAAAGGATCTAAATTTAATTGTACTGTTTAAA
CTCAATAAAAATATTATAGCTTATAATTATCAACCAATATAATTATGGATTTAAGGAATTTTATTCAGTAGCTAACTACCTGAATAAAGTTTGTTTTTAT
ATATTGAGAAAATACATTAAATACTATAATATCTACACGAAATAACTGAGAAAAAAGTATTCTCAGTCTGCTACCTTAGCATATGTCGATTTGGGTAAAA
GAGTCAAGCCATAGAGATTCATTAGAGAACAAGACTATTGAAAATACTTTTTTTGAGGCAGAGTCTTGCTGTGTTACCCAGGCTGGAGCTCAGTGGCAGT
ATCTTGGYTCACTACACCTCTGCCTCCCATGTTCCAGTGACTCCTGCCTCAGCCTCCAGAGTAGCTGGAATTACAAGCAGGCACCACCATGCCCAGCTAA
TTTTTGAATATTTGGTAGAGAGTGGGTTTCATCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTTGGGTGATCCTCCCGCCTTGGCCTCCCAAAATGC
TGGGATTACAGGCATAAGCTACCGTGCTCGGTTTAAAAATACATCTTAATGTTAAGAACTCTTCAGTCTTATTTGCATTCTAATAAAAGCAAGGGGCCTA
ATTAAGTGAAGCTCCCTCTTTATTTCATGCTACAAAGTAAATTTTTAAAAAAGAAAAGCCTTTGAAGTTGTATTACTGAATTCCGTTCTACATAAACTAA
ATATGCTATAAAAAATGTAATCGCTTTGTGCCAGTTTTGGGAAATTACTTTGTCAGCTACTACGTTACATACCTCACATATTTACTACATGAACTAGTGG
TAAGATTTAAACAATAAACCTTCTAATAGATTAATGAACATTTTCCTAAACATGAAGTACATAAATATAAAGATTGCTTTAGGAAGTGGGGAAATGCTTC
TTTGGCAGGGTAAGGATGAATATTTAATGAACTCCATGCTTATCTCCTATCCAGAAGGCCAGCATTCCTTTGCTGCTGCTGCTGCTTTTTTTTTTTTTTT
TGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCGCAGCTCACTACAACCTCTGCCTTCTGAGTTTAAGTGATTCTTCTGCCTC
AGCCTTCCAAGTAGCTGGGATTACAGATGTGTGCCACCACACCTGGCTAATTTTTGTATTTTTTAGTAAACATAGGGTTTTGCTATGTTGGCCAGGCTAG
TCTCAAACTCCTAACCTCAAGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTAGAATTACAGGTGTGAGCCACCATGCCCAATCTTCCTTTGCTTCTTCA
TCATAAACTGACAGCATCTCCTTGTCAGGGAGACTTTTAAACTCTACTAAATGAAATTTCCCCATCAGCAAARTGGAGACAAAATTATCTAAAATTAGTA
ATACAAATAAAAATTCATATTGATTGTATGCTGACTCTGTGCTAGAGCTTAATGTACATGAATAGAGTGTCATTTAAGCCCTATAACAACCCATTTAGTA
TTTCCTTTTCATAGATGAGGAAGGTRAAGCTCAGAAAGTTTAGTTCACTTGAAGATGGACACACAACAAGCATGTGGCACTGTTAGGATCTTTTATACAT
AAACCTTGCCTTTGTTCTTTAAGAATTTAGCATTAACATTATTTATTTGTTTCTGTTTTAAGGATTATAGATTTTCAGTTGTGTGTAATACCAAGAGATT
GCACTGTTTTCCAATTCTTATGAATATTATCAGCAATGGGCTACTTCAAATGTTTAATCACACACAACATATTCGAATTGAGTCAAGCCCATTTCCTCTT
GTAAGTATTGGATTTACTGAGTCTAAACAATTAAGAATTGGACAAATAGCCTATGTTTTCTCTCTTTAGCTTTTAAATATCCATAAGTGATTGTTAAGCC
TGAAAATTATTATTTTATCCTAATATTTTCAATGGGTTATAGCAAACAAAACAGGATTTTTTTTCCTGCCAAGTTATCAGATAATTATCGTGAGGGAATA
CTTTTCAATATTTTGTCAGTCTTCTAGGCAATGTTTTGAAAAGTTRTACATACTTGATTGTGGAAGTGTATGAGAAAGAGAAACAGAAAAAAGAAAACAC
TGACTTGGAAATCAGGAGAACTTGTAACCCTGGTTACATATAAATCTATTATAATTAGTTAGTGGACCCTCCATTGACTAAATGTGTAGTAGACAGACTA
ATATGAAGGAGAATCTGCCAGTTCTGGGGCTATCTGTTGAATTTATTCACCTACTCATAGTTGCTCTATGTTGTGAGGGAGCCTAATACACACAGGCTGC
ATTGGATTCTGTGTCAGTTGGCTATAGTCTGGCTTCAGACAGTTTGGACACTAGAAAGCAGTGGTGGGAGACAGAAGAGCAGAGGACCCCCTACATTGGG
CTCCAGTCACATCACCTCCTTCTGCTGTTCCTGAAGCCCAGAAGCAACAATAGCTTGCTTCTCACTTCACCATCTTTGTGGGATGCTCATCACCCACCTA
ACCATGTCATAAGGAATTGCACTCTAAGAACTTAACGTAGTCATGGTTTTCTGGTTAGACCCTGCCTGATACCAACAGGGGTGTCTCAAAGCTGACTCCA
ACTGTTTCACACCAGAAGTCTGAAACATCAAGAAGCAGGATTAGGAAATGAAGCCMTCCAAAGGGAAGTCCATTTTGTGACAAAAGTGTGAAGCTCAGTT
TTGGCTTCACTGAATCAGTGGTGCTGGGAGTATATGCAAGCACAGGTTTTCTGTAAGCCATGGGAACAATGGGGATGAAATATACAGTACTTGAGATGTT
CGTGACAGACACATACCTCCGTGAGTTGAGTATGACCGACTGATCACGTAAACAGGTCTGCTGCACAGGATGACTCGAGGGAAGGGGTGTCTGAAGGGAA
TTCTCCAGAAAGTGGAACCAGAGGAGTAGCAGAAAGAGACAGTGATTACCCTTCCTCTTTGGAACGATAGCAGCATGAACCTGTCTCACTGCAGAATTAT
TTTGAGACAGGCTTATGCTGCTATCCTTCAAAAGAACACATCCACCCAGCTACTGAGGTTTCCATCTCTGGGTTTGCTCAGAAAGACATGCTGCTCAGGC
CTGAATTATGTGTTCATCAAAGGTCCTAACTTCTGAATTATTAGCTTCCTAATGCCATTGTGTTTGCTCAGGATCAAAATGGACTGAAGCCCATAGCTAC
TCTATTAGAAACCTGTTCCCCACTCCCACTTCCCCATGGCACACACCTTTCCTCCCTCATTCCTATGATGAAAAACAGAATTTATAGACATAGCCCTCAA
AGTCTTAAATAAAGTTAAATAATTGTGGAATTATTTTGAGACAGGCTCATGCTGTTATCCTGTAATTATATCCATGAGGTGGTCCTAGATGCTGCTAGAG
TGTCCACTTGGCCTAGCCTCAAGTGGATGCTGATTTGGGGGTAGTGATTTAAAGTTCCTTTCCCTGAAGTTAAGACAAGCAGCAACAAGTTTTCTTCTTG
GTTCTGTGCTTCAGAACACATCCACCCAGCTACTGAGGTTTCCATCTCTGGGTTTGCTCAGAAAGACGTGCTACTCAGGCCTGAATTATATGTTCATCAG
AGGTCCTAACTTCTGAATTATTGTTTTTTTGTTGTGGTAATAATACATGATATAAAATTGACCATTTTAGCTGTTTGCAAGTGTACAGTTGAGTAGTATT
AAGTATATTCACATTGTTGTGAAATGCATCTCCAGAACTTTGCCGTCTTGCGGAATTGAAACTCGATGCCAATTAGCTTTCCCCCTCCCCCATCCCCTGG
AAATAACCATCCTATTATGTTTCTATGAATATTACTAGTTTAGAAACCTTATATAAGTGGAATATTTGTCTTTTTGTAACTGGTTTATTTCACTTAGCAT
ATTTTCCAGGTTCGTCTATGTTGTAGCATGTGACAGGATTTCCTTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACCGAGTTTTGTTCTTGTTGCTCAGGC
TGCAGTGCAATGGGGCGATCTCTGCTCACTGCAACCTCTGCCTCCCAGATTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTTGCTGGGATTACAGACAT
TTACCACCACACCTGGCTGATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTTCAGACTCCTGACCTCAAGTGATCCTTTTTA
AGGTTGAATAGTATCCATTGTTTGTATATACATACACATTTTGTTAATCCATTAATTTGGACTTTTGGGTTGCTTCCACTTGTGAGTATTGTTGGTATGA
ATATGAATGTGAGGGTATCTCTTCGAGAGCTTGCTTTCAATTCTTTTGGAAATATCCCCAGAAGTAGGTCCTAAATGACTTTTGACTTCTCTTTGTTCTT
TGAGTTGAAGATCAGAGTCACTTTCCCTCCCACCTTCGTGCCTAGATGGTAATGAGCTACACCTTTACTTTGATTTTTCAACATTTCAAAAAGTGCATTT
TTGTGGCTATAATTATTTGTTTCATTTAACAAATATTCACTAGTTTAAGCTACCCTTTATATTTTCAGAGCCACATAGGACTCTGGACTGGGTTGCCGGA
TGGTTCCTTTTTCTTATTTTTGGTTCTATGTAGCATTTCTCCTTATATCACCATGGGCAGCATCAGTGATTACAAGGTAAGAAAAAGCAGGGAAAAGAAG
AAATTTCAGGAATTTCAATATCTGTATTTTGAATGCTATGTGTTCAAAATGTTTTCTTCTGACAAAAACATTTGAATGTATGTTTAATTTAGATATTGTA
GCTAAACCTTATTCTTGGCAAGTCAGATAATTTACTTCTAAAAACTCAAAATGCTTTTTATTCCAAAGTCACCTGAAAAGTACAGTGATTTTTCAGAGAC
TCCAATTAGTCTAAACCTTCAAAGGGAAATATTATAAATCTTTTGACCACATTATTTCCCAGCCACAAGAAGGAAATCATTGATGTTGAAATCAAAGGCC
AAATTTAAGACTTGAATTCCTTTTCCACTCTGGAAATTGCAATTTTATGTTATATTTGTATTCGATTATGCCCATTATTCAGACAAAGCAGTTAAATCTA
TCAACGTTCACCATCCTGAGCCAGAAACTCTCCAAGATGTTTAGGTAAAGGTAAATGTATTATGTCCTCCAGGTCACAAAATAATACTTTTTTTTTTTTT
TTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAATGGTGCAAAATCGGTTCACTGCAAACTCCGCCTCCCGGGTTCAAGCAGTTCTTCTG
CCTCAGCCTCCTGAGTAGATGGGATTACAGGCTTGCACCACCATGCCCAACTACTTTTTGTGTTTTTAGTCAAAATGGGCTTTCACCATGTTAGCCAGGA
TGGCCTCAATCCCCTGACCTTGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCTGGCCAATACTTATTTTTATA
GAGTTTAATGCCTTGAACATTATGAGGTCCACTTTTCATTATTCATGAGCTAAAGTTGTGTTATGAGTCAGGCCTATCACAGTATACATTTTATTTTTGA
TAGACACCTTGTAAACCATGGAACTGGCTCTATAAGCCTCATGTTACTAAGCAGTATATGCATAATTTTTTTTAATATTAGAAGATTAGATTATATTTAT
CTTAAAAATTCTTCCAATGTGTTTGTGTTTATTTTAGATTTGCATTTTAATTGAATCTATATACATTTCTTTCTTTCTTTTTTTTTTTAATCAGAAAAAT
GCTAAGTCCCAGCTATGGATTTCAGGCCTCTACACTTCTGCTTACTGGTGTGGGCAGGCACTAGTGGACGTCAGCTTCTTCATTTTAATTCTCCTTTTAA
TGTATTTAATTTTCTACATAGAAAACATGCAGTACCTTCTTATTACAAGCCAAATTGTGTTTGCTTTGGTAAGTAACACAGTACATAAACCAAATTTCAT
AAAGTAATTAATAATAAATTTTAACATTGTTATTTTAAGTAGTTAAGATGTTTTAATTCATATTTTGTAATAAACCAAAACAAAAAACATGCAAAGTGCA
TGTATGATAAATACTAATAGTTTCAGATACCAAAGATGTTTTATACTTATGCCAGGTTACTTGTTTTTTAAAAGTTGTAATCTAATTTTTCCCTCAGTAA
TATTTGATTTTTTGACTATGTTATTATTTCTTTTATGCTCAGGTTATAGTTACTCCTGGTTATGCAGCTTCTCTTGTCTTCTTCATATATATGATATCAT
TTATTTTTCGCAAAAGGAGAAAAAACAGTGGCCTTTGGTCATTTTACTTCTTTTTTGTAAGTATATAATACATACAAATAGAGAAATAGTGTTATTTTTT
AAACTTCTAATGTAATCTTAAATACAGATGTCTGCCTTAAGACAGTAGGGAAAATTAATACTTCAAAATTACACCATAGAAAAGAGAGGGAAGTGTAACA
CTGTTACTGAATCAATAATATTTCTAAAGAAATCAGGTGCTACCCATTGAACAGAATTTATGGAGAATCTTACAGAAGACCTGACGTCTGAAACGTCCTG
TTGAGTTTATGTCTCCAGAATACAGGGCTTCCTGCCAACACTAGAAAATTGGCTTCCTAACAGTTGACATTACAACCCATCTCTACAGTCTTCAAGAAGG
TCTCTCTTAACCTTAGCTGCTAATAGTTTCAGATACTAAAGATGTTTTATACTTATGCCAGGTTACTTGTTAGTATAAAAGTAAAGAGCTTGTCCAAAAT
CATGGAAAACTTTGCTGGAAATGTTTGCTGAAATTCTAGAGACACCAGAGTGCCCTGAGTCCTACACTTCAGGCCTCCTTTAACTGATATCCTCAACTGG
TGATTGAATGTCTGTCTGGAAAACAGCTCTCAACTCTTGGAATGGGAATCTTGAATCCATGAGAAGAACCCAACCAAAGATCATCTATAAGAAATGATAT
ATTTAATATTAGGTTGGTGCAAGAGCAATTGCGTTTTTTTTGCTATTTAAAGTAATGTCAAAACCGCAATTACTTTTGCACCAACCTATACGACCCACTG
ACTTCTACAAGAAATTAGTCTGGGACTCTTTTGGCCAGCAGGTAGCTGTTGTTCCTTCTCAGTGGACAGCACTTGGGTTTGACTTCTCTGGGCTATATTT
CTTTGTATTCAGCAAACAGTGTCTATAACTATATCTCTTACCACCATCAGCACAATCCAGTGGAAGTACAGAGGCTACAGAAAGAACATTAGGCTCACCT
TACTCGGAAAAACTGGCTTTGAGGCAGCCATGAGGATCTGGTGCACRAAAGGTCTTTCCATTTATCCTTTCCATGGAGACTATTTTTTGTTCAGTCAACA
GACTTACTGCCATTGTCCAGTGTAATCTCAGGTGCTAGATCAGATGTCTGTAGAAGAGAGTCTTACTGACACTTGGTTGGTTTCTTTTCAGTCAGCACTC
TTGTATCTGTCTAGCAAAGGTGAACAAAGAATTCACATTCATTCTTAGTGTTTGCCAGTAGTTTTAGCTCTGAACGAAGTCTACCTTGGAGGTGATAGCC
AAGAAATGTCAGGGTTATTGTCCAGCGTGGTTGCGCATGGGTCTGCTCCTGCCAGCCTGAGTGATGCTGCAGATGCCCTAGTGAGTGCCCCTCATAGATG
CTTTTTCAGCAGCTTGTCCTTCAGTCCTAAGTAAACAGCATGCTGGAATCAAGCTTCCTTTTGTGGCTTTTGCCACTCCTTGTGTTGACCCTTATTACAC
AGAAATCATTCCAAACTGGAACAAATGCACATCTAGATGGACACATTTTTTGCTATGTGCCTCATGAAATAGTTGCCCCTGGCTTACCGTATACTCACAA
CTTATCCCAGTTTGTATAGAGCTGGAAATTTCTCAGACAAGAGAGCATTCAGCATCAGTGATAGAAACATACCTCAGCCCTTGCCTTTTAGCTTTTAGTG
GAGAAGCTGAGCAGGTTTAATTTCCTCATGGCTGCAGGCTCCATAGTGATGCTTTGGGTTGGAAAACATTATAGACAAGATTTTCTCAGCCAAGTTCCAG
GATTTCAAATCTGTGCATCAATTCCATAGACTGTGACAGAACTTCTAGAACTTAATAGGCCAGAATCTTCCAAAACAATAAGTTTCATCTCTAGGCTTAG
AGAGCAGAAACCATTTTCCCATTGTGGAGTAAGGAGTGAGAGTCCAGTGAGAGGAACTTTCCTTCAAAAAATGGCAGAAGACAGAATCTGCATTATCATA
TTATGAATGCCCCTTGTATATACGGCAGCAAGTGAATAGAKGAACAAAAGAAGAAATTTGACTTTGTTCTTTCTAAGGAAAGATGATAATGCAGAACCAC
TTCTTAGGCTTGTGAACTAACATGGTGATTAAGGTGTTCTCACTGTGATTTGAAAAAATTATCACAAATAAAAGATCACAGCAGAAAATCAGACATGACA
CTGAGAAACACTGTATTTTTAAAATCAAAACACATAYACGTATGATTGCATGCCTTTTATCCTTTGCTGCCATTTATGCTTAAGTTGTTATGGATTCAAA
TAAGGCAAGACAATATTCCAGAGGCAAGGTACGTTTTGGAAAACAAAGACTGTTCAAAATATAAAAACAAAATTACACCGCAGTGTAATAGTAAAATATG
TATTTATATATTTGTAATTTCTGATTGTTTTTCCTTTGCCCTTCTTATGCTTATCTATTTCAGTATATTTATTTATTTCATTTTTCTATCACTGAAAGGA
ATCTACATATTTCTAGAATGGTGGAATGTCAGACTTGAAAGAAATTCAAAATTGTCTAGTATGATTTACCAAATTTTATAGTGTTGCAGGAAATTAAGGA
ACTAGAGAGACCGATCGGGATACAGGAGAGCTTTTATTTTAGGTGTATATCGGCTCAGCAGACATGTGTCCTGAAAGTCTGAGCCCCTAACAAAGAAAGC
GAGCAACTTTTAAGCATTTTGGGGCGGGAAAAACTTGAAGCAGGAAGCAGGTTTGCAGAAGTGAGAACAAAGGCTGTTTATCATTTATGCCATGACTTGC
ATCTTAGGAAAAATATGAGTTGCAATTTAACTTTCACTTACTTATCTTGTGACCTTGCAGCTGCACAGCAAGAAAAACAGGGACTTACAGAACTTACAGA
ATATGTGGGAAGTAGATATGGTTAATGTTTCTTGGGACAGTTAGTATTCTCTTTTAACTTTAACTTCGGCGGAGGTGGGGGTGCGCAACTTAAATTCTTT
TCAGCCTTGGTTAATACAGCAATTCATTCTATGAGCTATTGTTATTTTTCTGTTACTATAATTTTCACTATTATTACTTATGCCATTATTCTGTTATTTT
CTTAATTTCCTACTTCAATAGAGGAAAAAATTTAGTAACTTGCTCAGAAAAACACAAAAAGTAGTGACAGGCTCAGGAATAAACTTGAAGTCTCAGACCT
TATGTCATTCCTCATGTTAAAAAATATGAGACAGTAGCATGGTTGGCAATACTGATTCAGAACTTGTGCTGATGAACACATCTTGATTTCAGTAGGCTAA
AAAGTTTTAAAATTATACCTCTTCACAAAGACCTCAAGCAGTTTGCACTAAAATTTGCATTTGCATACAAATAACTTATAATTTATTTCTAAATATGTRT
TGAAAATATATGTTGTGAGAATTTATCATTGTACAGCTAGTATCAACTTAAACGATGCTAGTCCTAGGACTAAGGCAATTTGTTTACTCCTCACRGGATC
ATATGTCAGAAGGTATAGTATGTTGATATTCAATGCAGTTGTCCTTTGGTGATCTGGGATCCATTTGGAAGGACAGTGTAGGCAATGTTTCTCCATCATT
GAGTGAAGCCACAGTCAGTAGTTAATTTGTTTCTAGAGTCCAGTGGAATTCCATACCCCCAGGGTTGTGGTGCTTTACTGGTACCCTAGACCCCTGCCTG
ATAAGGAAGTATCTTTTCAGCCTATTATGCTGTGTGGTGGAGGTATAGTAGCACATCTTAGCACACGGAGTTCTGGAGTATCCTCTCACACTGTCAAAGT
TTAGACTCCTCTCTTGTTCCAGTGGATGAGAAGAGAGGAAAGAAACTGTAGAAATATGGAGGTCTGGTAGAATAAGAGGAGTCAGCTAAGTGAACTGAAG
GACTTAAGAGTGAACCCCAGATTTCTCATTTGTAAAGGGAGAGATAATAAAAGTACTACATTATGGAGTTGTGAGGATTAAATAATTCATGCTAGATTAT
TAAAACCTGGCATTTATGTAATATTCAGTGAATTTAGCAATTATGATTCTATTTTTATTATAATCAGTACATTAATAAGATCTGGGAAAGAAAGGGTAGT
GCTCAATACATACTTGGCTGATCAATTGATTCTTAAAACAAACAAACAAAATTATCCTTATTCCTTCCCATTTGCCAGTAAAAAAAATTGTAAAATAAAA
TAAGTCCATCACAATAAAAATACACAATCTCAGAAAAGTCATTTGTTTGGAATGGGGAAGAAATGGAGCAGGAAGGACAATGAGAAAGCTCCACAGTAGT
CTGGTTGAGAGACAGTATGGATTGTTTGGTTTTTTTTTATAATAGCCATGTAACTTTCAACATATACAGGTTTTTATTCATTAGCAATATTGTTACCTTA
GCCATAAAAAGGTAATCCCTCTATCCTCTTGTCTTGGATTAAATTTAATAATACACGTCAAGAAGTCTATTTGGTCATTTTAGCTTTCACCTTAGTCGCC
AGTCTTTATTAAGAATTTTCTATTGGGGATCATAATGTATTCTTGTTAACAAAAGCTTCTTCCCTATTGTCTCTAAAAGGAGAAACTATCATTGTCAAAT
GGGTATATCTGCATATGGGAACATTATGATATACATCATGAGAACACCTGCATCTTAAATGTTTTACAAAATATCAATGGGTTGAGTATGTCTGATACAA
TATATTTGAACTTGCCTTGTAGGCCTCCACCATCATGTTTTCCATCACTTTAATCAATCATTTTGACCTRAGTATATTGATTACCACCATGGTATTGGTT
CCTTCATATACCTTGCTTGGATTTAAAACTTTTTTGGAAGTGGTAAGAAATGTTACCAACTGTGTCATTAATTTTGAATATGTAGCTTATTAAAGTGCTT
TTCCCAGATCAAGAGAGACAGAAAGTAGTGGAACTGGGGAGTAACAGCAAATGGGCATAAGAGATTTTGGGGGGATGATGAAAATGTTCAAAAGGGGAAT
CGTGGTGATGCTTGCACAACTCTGTAAGCTTACTAAACATCCTTGAGTTCTACTCTTAAAATGAGTGAATTTTATCAGATGCAAAATTAAATCTCAATAA
AACATTTAAACTTTTGTCCTATTCACTTTGCAAAATATAGGCATTGTCAAATGCCATTCAAATATGGGTAATGCCAGATTGGGGGAAAAATGTGCTTGGT
TTGACAGGTAATTTGTTAGCCGCTGAGGATAAACTCATATGCGATTCCATTCAATCATTCAAAAATATATATCAAATACTATTCTCTGTTAGTCACTGTG
CTAGTAACTGGGGACACCTGATGAGCAAGATAGCACAGTCCTGACTTTCCCAAAGCTTAGTGGAGGCAAAGGCAGACCAAACTTACTCAAGTTAATACAA
GRAACTTAAATGTTACAAAGGACAAGGGCAAAGGGCCAAGGGAGGACACACAAGGCACAGCTGGTGTGTTCTAGCGAGTCAGACAATTCTTCTGGGGACG
TTATATTTAAATACATGGCTAAAGGATGAATAATAATTAGTTAATGGGACAGGAGGTAAGCATGTTCTGCAGAGGAAAGCAAAGGCCTTGAAGCAGGAAA
AGCCAGGAGGCATTAAAGAAACTGAATGTGGTTCAAGTGGAGAAAAGTATACGATGAGGCCAGGGCAAGAAAGTTAAGTGGAGAACACACTTTTTGGAGC
TCTGTACCACTCTGGATGAAATGGCTTTAAGGAAAGTAAAGAGGGCTTCTGTAATCAGGGGTGTCCTTGGCGAACTGGAAAAGCCTTCCATTTGCAAAAA
TACATCTCCATTGGCTGAGCAATGCCTGAAGTTCTCGATTAGAAACTAATCCCTTTGCTTAAAGCATTTTCCTCCTAAGTAGACCTGCAAGGTGAAATAC
ATTCATCTTGATCTGCCATGTATTATATAGGAGGAATGAGTAACTTTCTGAATGAACTGATTGATGAAGAAAGAATAACGTGCTGGAACTAGTTATCATT
ATGGGAAAATAGTCACCATTGGGATAAGAAGGGGCTCTGAAAAGGCTTGTCTGTGGCACTTAAGAAAAATATTGTCAACCCCCAGAAATTTTACCAGTGC
CAGCACCTCTCTCTGCTRTGCTTTCAGTAATAGCATATTACTGTTTCAGTAATAACATATGCTTCAGTAATAACATATGCTTTCTGCAAATGTTAAAACC
AAATTTTTTTAAACAAAGAATTGAAGAGAGGAACAGACATAGGTTACTTGCTTATTGAGAGACAGTAAGAGTTGAGTAGGAGGTTCTYTTTTCTGTGGGG
AATTACTTTGTCACTAGTGCACACAAAGAAATTGAGATCTATGAGGAAAATATTCAATATGTGAATTTTATATTATTTAAGTGCAAATCATAAAGCAGAT
GAATTATCATTAGTGTGTGTGTGTTTTGTTTTGTCTTTTCAGAGAGACCAGGAGCACTACAGAGAATTTCCAGAGGCAAATTTTGAATTGAGTGCCACTG
ATTTTCTAGTCTGCTTCATAGTAAGAAGGGCTTTCCACCTCAGCACACATTCTTTTGGATGACTGTCATTCACTATAACAATTTGATCTTGTCCAAAGTG
TGCCATTTTGAAAGTGTTTTTATATGATCTTAGATAAAGCACTTACCTTCAGACATGTTTCTAAACCTTAGAGTTACTTTTTACATGCTTGGATTGGCTA
TATGTGTCCAAAAGTTAATATTAAATTAATTTTTTGTTTGCTTATCCTGTTTACTGTCCCTCCTCTAAATTTGAGAGAGCTTGTAAAAAATAGAGATGCA
ATATAACTTACTTCCTTTGAATAATAGATTAAAAAGGCAAGAACTGAATAATAAAAGTGAAAGGGAAAATGATTATTTTGGTGTATTTAGGCTGAAGGGA
ACTACTGTCTTTGAATCCTATGTGTCAGTACTTTTCTAGGTACAGGAGAAAATAAAGACAGCGGTCCCTGCCCTCATGGAGCTTATATTCTGGTGGAAGG
ACATGGATAATAAACTAAATGGATAATATGTGTGGTGTCAGATGGGTGGTCAGGAAAGGCTTCRAGAAGAGCACTTCAGTAGGAAGTGGCAAGAGTGACC
CCGGCTCAATCCAGGGTCAGCCAGGCCAGTGTGGTTGTGACTGAATGMCCAAGGAAGAGAGTGATAAGAAAGATGGCCACAGAAGTCATGGGATAAAGCG
AGAGGTCAGGAGAAAGGGTCACACAGGGTAATCTAGATTACTCTAAAGGCTTTGACTCTACTCTGAGTGATGGAGGAGGAGTCATTGGAGGGTTTTAAGC
ACAGTGATAAGTTCAGGCTTATGTATTAAAAAAGTAGCTCAGGATACTGTATTGAGAACAGATGTTTAGARCAAGAGGGGCAGAGATAGCCCAAGTAGGA
AGGGGTTGCAACAATCCAGGTGAGACATTATAATGACCTAGGCCTGGGTGGGAGTATCATGAGTAGGGGTGAGAAATAATTGGGTTATGGATAATTTTGA
AGATAGAGTAGATAGAATTTACTTACAAACTGAATATGGGTGGCGAGAAGAAAGGAAACAGGTTTCACTAACCTGGATTGTGAATGTATAGCTACATTTC
TCCCCCAGCTTATGAGAATGATCCACAACTATTTACCCAAAGACAAAACACCACCAACTTAATTCAAATATTTAAATAATRTTTGTGAACTTATGCCTAA
ATATAACTGTATTTCTTTGCTCATAGCCCTACTTTCAGACTTTGCTATTCGTTTTTGTTCTAAGATGCATGGAACTAAAATGTGGAAAGAAAAGAATGCG
AAAAGATCCTGTTTTCAGGTTGGGGTGAAATTTAACTTTATACTTAATATCATATTTTAACATTCCTAGATGGTGTCTGTGCTATCATCTTGTTAATACA
GATTTACATTTACAGTGGAAGCACATGTTGATTGTCATTAGGGAATGTGGATTGCTGCCTTACTGCCAAGAGATAGAACTCCCAGGCAGAGTTCTGGCTG
TAAGCAGCTGTAAGAAACCTTCACTCCATCCAAAATTTAATAAGGACCCAAATATGCCATTCTCTCGTCTGAGATAATTGTGCATCCTTGAAAAGAAAAG
ATGGGAAGGAATCGATTTAGCAACATAGTTGAGTGTTTTAAAAATGGAGGGCTGTAGAAAGGGTGAGCAGTAAATGATGTTGAAAAAACATCTGGTGTGA
TGAAGATGAGCTCAGACTGAGTAGAGAAAATGAGAGTGACATGAATTTTAAAGAGAAAGGAGCAGTACCTGCTGACAGATTTGAAAGGGTCAAAGATTCT
TACCAGAAGAATGGCAACAACATYAAGAAAAGGATTCTGGCTAGTGGGACAGGAGTTCTTGGCAAAAGCAGAAGCAATATTGACAGTCATCATCACATCA
TCACCTGCACATTAGAGAAGAGGACAGTAGTAAAATCACAGGAATGCTGATTTTTGACACATCTTTTAACAGCTAGAATACCACATGTAACACATTTCAT
TTTCTCCATAGAATTTCCCCCCAAAGTAGAGATGCTAAGCCAAATCCAGAAGAACCCATAGATGAAGATGAAGATATTCAAACAGAAAGAATAAGAACAG
CCACTGCTCTGACCACTTCAATCTTAGATGAGGTAAAAAAGCAAGGGGCAAAATGGATATTAATGGAGATATTCAAGAACTGTCAAGAGCAGGATTTGAT
ACACTGGGTTTCATTTTGAGAGTTTGGAGTTTGGTGCATTTCTGTATTATGCGTCCAGGACACTCCAAAGAAGTATCTGCATAATCAAGGCACTCCGCTT
ATTCAGAGTGTCCTAGAAGCTAAAAAGAACACAAAACCTAATGGTTTTAATTTTTCTTTTGAGAAAAGTGGGCTTTCATAATTAGGGCTATAATTGCAAA
ACCAACAAGACCTCATGAGTTAAATAATTTAAGTTAGATTTGTCGAAGAATGCGAAGAATGCTAAATAGAGATTAAGATTTTAAGGKTTACTCTATTTGA
CTTAGATGTGATGGTTCCATGAGGTTAGCCACCCCTCTTCTGGCAAGACAATAAGCTGCTTCCATGAAACTCAGTCTATTTAGAAGCAAGAAATATTTTC
TACATTAATGAATGCATATTACATTTAGCAGCATGAATTACTCTCAACTCAAAATATGGTTTGSCTTATGACATAAGGCATGAAAGGTTCCAGCAGAGAC
CTAAAGTCTCTGAAATTTAAGAGGAAAATCATGCTGTCATCTCTTCTAGAAACCTGTTATAATTGCCAGCTGTCTACACAAAGAATATGCAGGCCAGAAG
AAAAGTTGCTTTTCAAAGAGGAAGAAGAAAATAGCAGCAAGAAATATCTCTTTCTGTGTTCAAGAAGGTCTGTAATAATCCCTTTTAAAACTTACCATTA
CTTTTAGAACTACCTACCGAACATCTATGTCATAGGCACAGTTTTACTCGCTGAAGCATTCATTCATTTATTCTATATATATATATATATATATTTAGTG
TGCCAGGGAGTGTTTTAGACTCTGGAAATACAATTATGAAGCCACTAGACAAAGAGCATCCAGGTAGAGGAAACAGTGAGGGCAGGGACTCAGACACATT
TGGAAACGTTGTGTCTCTAGCCAAGAGGCCAGTGAATGCATCCATAAATGGAAGGGATAAAGCTATAGAGCTGAGCAGCGCCAGATTAGGTACAGCTTTT
GAAAACAGCAATGAGTTTGTGTTTTATACAAGTTAGCATAATACCATTGGAGAGTTTTTAGCGGACTTGTGTCATATTTAATTTATATTTTGAAAAGATT
ACAGATTGGCTATTGTTTGTTTGTCAGTTTGGGTTGGGGGGGACAAGTTCAGAGGCTTTTATATCAGTTGGGATGAAAGATGATGGTAACTTGGACAGAG
GTGGTTGAATTTGGGATGAAGAAAATATCCCTAACTTCTCAAGTTTGAGAATCATTCATACATGTACTCAGTGCATCGGCCATCTATTACGGAAAACAGT
TGGACACATTTCCAACTGAAACAAGTAATCTGGGGGGAAAAGGACAGATGTATTGACATCAAATTCATTAGCTTTGCAGTAACATTTGGCATAATTACAG
AAAATAAAGAACATGCTTTGGTGACGTGGATTACATATATGTTATCAATCTCAAAATGGTACTAACTGAAGGGTGCAGAAATCTCAGAAGATTTCACTGG
AGCAAAAGGTTTATGTTGTTCAGTATTTCACTTCCAATATTGATAGTCTGATTCTTTCTTTCAGGTGAAATTTTGGGATTGCTAGGACCCARTGGTGCTG
GAAAAAGTTCATCTATTAGAATGATATCTGGGATCACAAAGCCAACTGCTGGAGAGGTAGTGAGGAAATGGTTTCCATTTCCAAAACAGRAATTTCATGA
TACGTATAGATTATATCTTTGTAAGACTATACTATTTTTCTTTTCTTTTTTTTTTTTTTTTTGCCTTTGGATAAATTTTATTTTTCCCCTCTTTAAATTT
TTACTGGGCATCAGGTGTTTATAACAGGACTTGGAATCTTACCAGAAACCAATTACCTTTTACTCATCAGTTTCTCAAGAACTACCTGAGCTTATTAGGT
CTCTTTTCTYCTCTGCATGTAAAACTATATTTTTATATTTGTACTTTAAATCATTTTCTGTAATAAATATATGAAGTAATTTCTATAGTATTTATTTGAT
GCTTAAACAATTTAGACGCTTATATATGTCAGTTTCTGGAGTAATTACGCTATTGGAATAAAGGCTGCATGCCTTTCTAAAGCTCTTTTATTTTTTTAGG
TGGAACTGAAAGGCTGCAGTTCAGTTTTGGGCCACCTGGGGTACTGCCCTCAAGAGAACGTGCTGTGGCCCATGCTGACGTTGAGGGAACACCTGGAGGT
GTATGCTGCCGTCAAGGGGCTCAGGAAAGCGGACGCGAGGCTCGCCATCGCAAGGTACAGAYGGGACCTGCGATTCCTTTGTGTCAGAATGCWGGGAGAC
TGTAGCACTGATGATGAATTCACTAATAAAGAACCGAGAGTCAATATGCTATCTCCACCTTTCCAGAGTGTCAGTGGCAGAGCAGGGATGAGGGACAAGA
CCTGACTTCCTGCATCCCTGAATGAGAGATCTTTAAAAMATGATTATATAAAATAATTGACAAGGAATAAGTGAACGAATCACCATGAATCGTCATCCAT
TTCAGTTTTCTAATTTAAAAAACCTGGAAATGAAATAATCATCCATTGTCAGTTTCTCATTCAGAATTCTAGTTTTTCCTAAAACTGTTTATGAGGCAAA
AAAAAAAAAAGTCTTTCATGTTCCAAAATAAACCAATCTCTTTTTTAAAATCATGAGTTAGGATTTTGACAATAATATTACTAAACTTCCCTCTAATGCT
GTTACTGTTCTGTGTGCTTGGATTTTCCAAAAACCTTGTCTTGACCAGATATTCTCATTCTGTTTTCTGTCAGATTAGTGAGTGCTTTCAAACTGCATGA
GCAGCTGAATGTTCCTGTGCAGAAATTAACAGCAGGAATCACGAGAAAGGTACGTGYGGTGTGTGATGCTCTATGGAGAGCTGGTGTGGTATGGCAGCAA
ACAGGGGTGTTTTTCTACATTGCAGTTGTGTTTTGTGCTGAGCCTCCTGGGAAACTCACCTGTCTTGCTCCTGGATGAACCATCTACGGGCATAGACCCC
ACAGGGCAGCAGCAAATGTGGTGAGCATCATTATACCCCAGAGCTGCGAGCATGCACATTAGGGAAGGTTGCATATTTTAACTGGTCTTGGAAAATCAGC
CCTCAAACCCACTAGTTCCTGATTCAGTGGAAATAATTTATATTATCAGGAAAACAAATATTTAACCAGTAGATGATCTAATCTGCATGATGTTCACGTG
GTATTCAGGTTAAAAAGACCCAACATTTTCTTGGGGTTTTAGGTTTTTAATGTGGACTGTTAAAATACAAAAATATTTTGCCTTTTAATTATTGAGATGT
CTATAACTGTTTCTTCTTTTTTCCCTTCTACTTTGTTTCCTGGGAGACTATTAACTTCCTGACACAATTTTCCTGTTTGTTTTTTTTCCTTTTTAATGTG
ACCTGTCAAATTTGTTCCTCCAGTTTTTCTCGGGTTTATTCTTTTACTTACTTTTCCCATCTAGGATTTACCCTTTGGAATAATAAAATCTTCAATCTAG
TTTCATATTGGTCACTGTCCGATACTTTTCCAACTTTAACAAAAACTTTGTTATGGTAATTTTATACAAATGTAGAGAATCGCTTATGAATCCATTATTC
CCATGGACAAGTTTCAGCAGGTATCAATAGAACCAATCTCCTTTGATCTATATCTCCACCCACTTCCTTTCTCCACCCTCCAATTATTTTGAAGGAAATA
CAAAGCAACATATTCTTTAATTTATAAATATTTCAGTTAGTATCTTCAGAAGATAACTCAACTACAATATGATTAGCACATCTAAAAATACTTAAAAATG
TTATTTATGTTATCAAAAACCTAGTCAGTACTTACATTGCACTATTTTTTTGCATTAGGATCTGAATATGATTCATATATTGTATTTTATCTTTTTTTTC
TTCTGCACTTAGTTATTTTAAATACTGTTAATTTTTTTGCTCACTGCAGGCAGGCAATCCAGGCAGTYGTTAAAAACACAGAGAGAGGTGTCCTCCTGAC
CACCCATAACCTGGCTGAGGCGGAAGCCTTGTGTGACCGTGTGGCCATCATGGTGTCTGGAAGGCTTAGGTGGGTGTCTCTCCGAAGCCTGCATTTGATG
CTCAAAATGAGATTTCCCATGGAAAGGGCAAAAATCCCTGTGTGTGGCTGGAGCCCTTCCGTTTGGCTTCCTTGGTGACACCTTTTCTTCTACATTTGAA
ATTTAAGAATAACATTAAAAAATTAAGGGCAATATTTTTTCCAACATATTCTCTTTCTTGCCCATAGATGCATTGGCTCCATCCAACACCTGAAAAACAA
ACTTGGCAAGGATTACATTCTAGAGCTAAAAGTGAAGGAAACGTCTCAAGTGACTTTGGTCCACACTGAGATTCTGAAGCTTTTCCCACAGGCTGCAGGG
CAGGAAAGGTGAGACGGGCTTTTGATTATGGAGAAATATGGAGGGTTTATCCACTCAGTGGTTTCCTTTTTGCTGTGTGAGAACTTCATAGTGATTTGGC
TTCATAATAAAAGTTAGGGACCTCAGAAAAGGATTTGTTCAGTATTCCAGATTATAAGAGATTGAGACCTACCCAGGAAGCTGTGTCCCCTGGGGCAGAC
CAGGCACACTCTCCTCGGCCATCCCAGGCTGATCCCCAGCTCCAGAGGGGTACTTGGAAAGACTTGGGAGAAGGAACTTCTAATGACTCAAACCCACACA
GGACCACAATGGTGTCCTTCCTGGGCCTCCTCATAAAYGCTTAACATATATAAATATTTAAAATTTAAAAGATGTAAATATTTAGGGTGAATTTTCCCCA
TAGGAAACAAATGGCAATTGAGATAATCAAAGAGTCTTTCTTTAATGGAATTTTCATACCTTAAAATAGAGAGTGGAAAGGGGTATGTGTGTATGTGTGT
GTGCATGCCCACATATCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGTGTATGTCTGTATGTTATTTGGGGGAGGGCAAGAAGGTGGAGCAGAAAC
TGAATTTGAAATTCCCGTGGAGAGATAAGTACATCAAAAAATAGGACATAAAAGCTACTATTTTATTTTAGCACAGTGTAAATGTAATTAAATTTTCTAA
GATAGATATCAGAACATGTAACTTTGTCCCATTCCCAGACGTTTGGTGTCACAAATCAGAGAAGTGGTTCTGATATAGGTGGGAAGATCAAAAATGATAA
AACAGAAAGAGCAGTGGCTGGTCTGAAAAGGGCCAATCTTGGACATCTGGTCAACCTTAGTGCCACCTGGGAGCACCAAACCCCTGTTTGGGAATAAGCT
GGGAATAGGGCATGAGGGTTTACAGCCAGAAGTAGCACACGGAAGCAAGATGCCCCAAATCAATTACGTCTCTTCCTTAGAGGTCAGGAAGTATTTTGTT
AAAGTGTTTTATGTCCTTCCTCTACTGCAATCTCCAACTCTCCCAACCTCATATTATTCTTTACAAGTTAGACTTCTGGGAGGAGGGGGAATCAAGGAGA
TTCCGAGGTTTTTTGGTTGGCAGCCCAAGCTCTATTGATTTCCTTACTTCTAGATTGCCCTAGGGCCTAGAAAAAGCCTTCAGAATAAATATGTCTTCCT
TACAGATCTTTCGCCAATATCAACCTCCATCTCCAAGATTTGCCACTATTTATGGTTTTACAAAATAGTCCTGAATTTACTTTTGTTTAAGTGTTTATAT
TTTCCATTGTAAATGTAAAGCAAATTGCTGGAAATGTAAGAAATAAAGAAAAAATTCATTCATTAAAAAAAACAAAACAATGAATTAGCTTTCTGATGAC
AAAGATGAACATTTATTTTGGGGTTAATTCCCAACCTAATTCGAACTAATCAAAGGGAATAGTTCAGAATACCTGATTTTCAACACGCAAAGGTTTTGCA
TAAGCTGAGCACATATATAATTATGCTGAGTTATTACCAGGAGARCTGTCTGCAACAGCCAGATACCAAAAAGCAATTCAAAACAATGCTGTGATTTCAT
ATTTAAGCCATACATTAATTTGCATTACTTTTATTTTAAGAAGAAAATTGTTGGTAATATCAATATTTATTCTGATGCTCATTTTCTCCCCTTGAAACTC
AGAGCTGAAAACGACATCTTCCTGTTTTCAGGTATTCCTCTTTGTTAACCTATAAGCTGCCCGTGGCAGACGTTTACCCTCTATCACAGACCTTTCACAA
ATTAGAAGCAGGTAAGAGTGACCACATTCAAATAAATCTTTTGAAGAATCAACTAATACTAAAATAATAATTTAATGGAAGCTAATTGTGTAACAATTTT
TTAAAATAGGGCTGTAGGGCATGATTTTTAAGAATTCTAACTGTAGGTAATGGTGAGATTTAATCCCAATTTAGGTTACTCTGACTCTGTGAAAAGAGGT
TAATCTCCAGTGCAGGGACCGAAGCTGCAGGAAACACACATGCTTAACTGTTCTTACTGTGAAACCATGGCATCCCCCTCTAAAAGCCCCTCTGTGTGGC
CTGCTTTGCCTACATGTATATAATCCATTCACACCAAGTGTCCCAAATTATTACTTTACTCCCTTTCTTTCCTTACATATCCACCTCCTTCCCACTTTTA
TCCCTCAGTTGATGCCCTTGCTTTATATTTCACTAATAAAATAGAAGCAACAGAGAAAGTTTCCATCCATCCATCAACCTCCTTGTGTCTGTGCAGGTGT
ATTTGGCCTTCCTATTTGAATGATAGCTTTGACCGTCCCCTGCATTGTGTGTAACTCCTTTTGCTGGTTGTAATTGTCCACACTCTCTCTCCTGTCATCA
TTTTCTCTGCTTTCAACCCCGTCATTCCCAACAGCAGACCATTGGGTGTAATTTCTCAGCACAGCATAATGGTGAAGAGCTCAAACTTTAGAGCCCATCT
TTCTGGGTTCTCAGCCCAGGCATGCTGCTTACTAGCTGGGTGACGTTGGGTGAGGTACTCAATCCCTGCATATCTAGATGGTTCGTCTCTGCAATGATGG
ATACTATTAGTGCCCACTTGGCCATGTTGTTAGGATTAAATGAGTAAATATTTTAAGTGCCTAGAACAGTGCCTAGCTCATTGTGTTTGACATAATATAT
ATCATAATATATATCTCTGCTTTGTTCCTTCCATGCTAGATAGATGACTTTCTAGTTCTTCCTAAATGCTGCCAGACATGTAAGCTCCTGCCTCAGGACT
TTGTACTTGCTAATCCTTCTTCCTGGAATTCTCCTTCCTAAACATCCAGGCTTCTTCCTCCCATTTTCAGATGTTGGTTCAATTATTACCTTATTAGTGT
GGCCTTCTCTGACCATCCGGTAAAAAAGAGTGCCTAGCGCTCCCTATTTATTTTTACCAACTTTATTTTTCTTTAAAGCCACTATCATCATTAACTTTAT
CATATATGCAGTGCTTGTGTATTTAATGTCACTAATTCCTCCCACTAAAATGCAAACTATATCAAGGCAGGAGTACTTGTCTATTTTCTTGACTGTTCTG
TTTCTGCCATCTAAGAGTGCCTCACAYGTAGCAGATTCTTAGCGTATAAATGGTGAAGTATGCACATGTGGATATGTGAATCTGGTGACAACTGTCATGC
AGACTTTTTGGTGGGGAAGTCCAGCAGAGAGGTGATATAACAGATGAACTGGCTGAAGGGAGTTTTGAGTTCTCTTAAAGAGGATGGGATAGGATCTTCC
TCATGTGTAAGAATATTTTGATCAATGATGTAGTTCTTCAAAGAACATATGTATCTTCCAAAGACATACGCACGCAATACCAAAACAAATATTATTGAAA
CATAATATGAGAAAATAACATCAATATTAACATAGTATATATTTATATTAATTCTGTATGGCTTTCATTATTTCATCCTTACATCAAGCATTGGCTTATT
CRGCTTTATTTATATTAATGATTTACATTTTTATTCTTTATGATTTTGAAAAAATTCTTGGTAATAAATTGTAAGCATCTACTATTAATACTAGTCTTTT
TTTTCCTCCAGTGAAGCATAACTTTAACCTGGAAGAATACAGCCTTTCTCAGTGCACACTGGAGAAGGTAAGTCAAGTGGTTTGACTTTGTATCATCTGG
TAAATTTCACATGAAAGCAACATRCATTTTCCTGTTCATTTGGAAGACCAACAACTTGATAATCTCTCTTCCTTCTTTCCTTCTTCTTTGTCTCCTAATT
AGGTATTCTTAGAGCTTTCTAAAGAACAGGAAGTAGGAAATTTTGATGAAGAAATTGATACAACAATGAGATGGAAACTCCTCCCTCATTCAGATGAACC
TTAAAACCTCAAACCTAGTAATTTTTTGTTGATCTCCTATAAACTYATGTTTTATGTAATAATTAATAGTATGTTTAATTTTAAAGATCATTTAAAATTA
ACATCAGGTATATTTTGTAAATTTAGTTAACAAATACATAAATTTTAAAATTATTCTTCCTCTCAAACATAGGGGTGATAGCAAACCTGTGATAAAGGCA
ATACAAAATATTAGTAAAGTCACCCAAAGAGTCAGGCACTGGGTATTGTGGAAATAAAACTATATAAACTTAGAATTTTTTAAAAATATGACTTTTTTAC
CTTTTACAAAACATTCTCTTGCTGAAATATGTGAAGGGTATATTCAGTAGCCAAGAGTTGCATGACTACTTCACACCAGTTCATGATACAACAGGTATAC
AGGTTTTCTTTTATAACCAACTACAACTCAAGAGTCTTCTGAAAGTGTTCCAGAAATTGCTTTAAAACTCAAAAGTAAGGGGCCAGGTGCAGTGGCTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCYGAGGCAGGTGGATCACAAGGTCAGGAGTTCGAGACTAGCCTGGCCAATATGGTGAAACTCCATCTCTAATAA
AAATACAAAAATTAGCCGGGCGTTGGCATTTGCCTGTAGTCCTAGCTATTCGGGAGGCTGAGGGAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCA
GTGAGCCATGTGCTAGTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCAAAAAAAAAAAAAAAACAACAAAAACAAAACCAAAAAACCTCACAAGT
ATTAGGAGGTCCTTGGACACACAAGTAGACAAGCACTCATGTTGAAAAGTAGTTCCATTATACCTTTTGAAAATAAAGGGAGTCACAGTAGTATTTGTTC
AGATTTTTTAAATTTTGCATACTCTTAACAACATTAACTTATTGTTTTCAGGGGGTGCTAATTTTCCTTGTCATCTTTGAATAGTTTTATGGGATTTTAT
ATTTTTTAAAATCATTTCTCCCTTATATAAGTGTATGTGCATGTAGGTGTATCTATATATTTTCCACATATCTTTTATATTATTTAATTTTTAAAATACC
TGTCAGTTTAACATATTACTTTATTCTTTCCCTTAAAAATAGCTATTTCATTCTGAATATCACCAAAAAAAAAAATTCAAAGACCAAGCAGTATTCCTTC
TGTGATTTTTTGGTGTTCACATATTGTACATAATAAGGGGTTCAATTCAACAAGAGGAGTTAACTATCCTAAATATATATGCACCCAACATTGGAGCACC
CAGATTCTTAAAACAATGATTTCTAGATGTATGAAAAGACTTAGAGAGCCAAACAATGGTAGTAGGAAACTTCAACAACCCATTGACACTGTTAAATTGA
CCACTGAGGTAGAAAACTAACAAGAAATTTTGGACTTCAATTTGACACTTGACCAATTGGACCTAACAGGCATCTAGAGAACACTTCACTGATCAGCACA
GAATATACATTCTTCTCATCTGCACACAGAACATACTCCAAGATTGGCCACATGCTCAGACATAAAGCAAGTCTCAATACATTTTAAAAAGTTGAAATCA
TACCAACCATACTCTCAGACCACAGAAGAATAAAAATAGCAATACCAAGAAGATCTCCCCAAATCATGGAATTACATGGAAATTTAAAAACTTTCTCCTG
AATGACTTTTGGGTATGATGAAATTAAGGCAGAAATTAAAAAAAATTTTTTGAAATAAATGAAAACAGAGATACAACATACCAAAATCTCTGGAATACAG
CAAAAGCAGTGGTAAGAGGGAAGTTTATAGCACTAAATACCTACTTCGAAAAGTTAGAAAGATGTAAAATTAACACTCTAACATAACACCTGGTGGAACT
AGAAGAACAAGAACAAAATCCCAAAACTAGCAGAAGAAAAGAAATAACTAAAATCAGTGCAGAACTAACAAAATTGAGGCCCAAAAATCCACATGAAGAA
TAAGTGAAACCAAAAATTGGTTTTTTGAACAGATAAACAAGATCGATAGACAACTAGCTAGACTAAAAAAGAAAAAAAAGAGAGAAAATCCAAATAAGCA
CAATCAGAAATGACAAAGGCGACATTACAACTGATCCCACAGAAATACAAAAGATCCTCTGAGACTATTATGAACACCTCTATGCACACAAACTAGAAAA
TCTAGAAGAAATGGATAAATTCCTGGAAACACACAATCTCCCAAGATCCAACCAGGAAGAAATTGAAACCCTAGCAGACCAATACCAAGTTCCAGAATTG
AACCAGTAATGAAAAATCTACCAACCAAGAAAAGACCCAGACCAGATGGATTCACAACTGAATTCTATCAGACTTACAAAAAAGAGCTGAGCAATTTTAC
TGAAACTATTCTAAAAATTCACAGATGAGGGACTACTCCGTAACTCATTTTATGAAGCCAGCATCACCCTAATACCAGAACCTGGCAAAGACACAACAAA
GAAAACTACAGAACAATATCCCTGGTGAATATAGATACAAATATCCTCAGCAAAATGTAAGCAAACTGAATTTAACAGCACATCAGAATTTAGTTTACCA
TGATCAACTTGCCTTAACTCCTGGGATACAAGGTTGGTTCAACATACACAAATCAATAAATGTGATTTACCACATAAAGAGAATTAAAAATAAAACCATA
TGAGTATATCACTAGATGTGGGAAAAGCCTATGATTAAATCCAACATCCCTTCATGATAAAAACCCTCAACAAAATAGGCATTGAAGGAACTTACCTAAA
AATAATAGGAAACATCAATGACAAACCCATAGCCAACATTATACTGAATGGGCAAAAGATGGAACCATTCCCCTTGAAAACTGCAACAAGACAAGGATGC
TCACTTTCACCACTCCTATTCAACATAGTACTGAATTTCTTGCCAGAGCAATGATGCAAGAAAAGGAAATAGAAAGTATCCAAATAGATGGCCACACAAA
AAATAAATTCCTAGGAATACATCTAACTTATCTAACCAAGGAGGTGAAAGATCTCTGTAAGAAGAATTACAAAACACTGCTGAAAGAAATCATAGATGAC
ACAGAAAAATATGACATGCTTATGGATTGAAATAATATAGTTAAAATGGCCATACTCCCCAAAGCAATCTACAGATTTGACACTATTTCTACCAAACTAT
TAATGTCATTTTTCATGGAATTAGAAAAAATATTTTAAAATTTATATTAAAAAGCCTGAATGGCCGAAACAACCATAAGCAAAAAGAACAAAGCTGGAGG
CATCACATTACTTGACTTCAAACTATACTATAAGGCTACAGTAACCAAAACAGCATGATACTTGTACAAAAAAGGCATATAGACCAATGGAACAGAATAG
AGAACACAGAAATAAAGCCACACACCAATAGCCATCTGTTCTTTGACAAACAGACAAAATAAGCAATCGGGAAAGGACTCCGTATTTAATAAATGGTCCT
AGGATAGTTAGCTAGCAATATGCAGAATAATCAAAGTGGACCCCCACCTTTCACCATATACAAAATTTAACTCAAGATGAATCAAAGATTTAAACATAAG
ACTTCAAACTGTAAGAATCCTATGAGAAAACCTAGGAAACACCATTCTGGACATCTGCCTTAGGAAAGAATTTATGACTAAGTCCTCAGAAGCAATTGCA
ACAAAACCAAAAATGGACAAGCGGGACCTAAGTAAACTAAAGAACTTCTGCACGGCAAAAGAAACTATCAACAGAGTAAATAGACAACCTAGAGAACAGG
AGAATATATTCATAACCTATTCATCTGACAAAGGTCAAATATCAAGTATCTATAAGGAACTTATTTCAACAAGCAAAAAACCAGTAATCCCATTAAAAAG
TGGTCAAAAAACATGAACAGACACTTCTCAAAGGAAGACATACAAGCAGTCAACAAACATGAAAAAATGCTCAACATTGCTAATCATCAGAGAAATGCAA
ATCAAATCCACAATGAGATACCTTATTATACCAGACAGAATTGTTATTATTAAGAAATTAAAAAACAGCAGATACCAGCAAGGCTGTGGAGAAAAGGGAA
CACTGCCACTGTGGAAAGCAGTTTGGAGATTTCTCAAAGAACTTAAAATAGAACTACCATTTGACCCAGCAATCCCATTATTGGGTATATAACCAAAGGA
AAATGCACACAAACTAGAAAACCTAGAGGAAATGGATAAATTTCCAAAAAAACATGACCTCATATGTTAATCACAGCAGTATTCACAATAGTAAAGACAT
GGAATCAACCGAGATGCCCGTCAGTGGTGGATTGGATAAAGGAAATGTAGTACATATATACCCTGGAATCAAAAGGAATACCCAGCCATAAAAAGGAACA
AAATCATGTCCTTTGCAACAACATGGACACAGCTAGAAGCCATTATTCTAATCGTAGTAATGCAGGAACAAAACCAAATACCACATGTTCTCACTTATAA
GTGGGAGCTAAATATTAAGTATTCATGGACATAAAGATGGCAACAATAGTCCCCCAGGGGACTAACAGACGAGGGAGGGAGGCAAGGAGAAACTAACCAT
TGTTTACTATACTCACTATCTGGGTGACTAGATCATTTGTATCCCAAACACAGCATCATGCAATATACTCATGTAAGAAACCTTCACATGTATCTCCTGA
ATCTAAAATAAAAGTTGAAATTATAAAAATAAAAATATTTTTATAGTCAATGAAGAAAATTTGTATAATAGAGAAAAATATAGAAATTAAATAAAATTGA
ATAAAAGAATCACCATGTCAAGGAGAGAATGGAGCAAGATGGTAGAATAGTTCTCACCAGTGATTGTCCTTCTATAAAAACATCTATTTGAATAACTATC
CACAAAAAGGTCTTCACAAGAGCTAAGAAAACCAGGTGATAAATCACAATACCTGGTTATAGCATAATAAGAAAAGAGGCCAGGCATGATGGCTCATACC
TGTAATCCTAATGCTTTGGGAGGATGAGGTGGGAAGATCACTTGGGACCACGAGTTCAAGACCATCCTGGGCAACATAGCAAGACCCTATCACTACAAAC
TACAAAAAAAAAAGTAAAAGTTAGCCGGGTGGTATGTGCTTGTGGTCCAAGCTACCCAGGAGGCTGAGGTGGGAGGACAGTTTAAGCCCAGGAGTTTAAG
GCTGTCTCTGTCTCCTTCAGTTTTACTCTGATCTTAGTTATTTCTTGTCTTCTGCTAGCTTTTGAATTTGTTTGCTCTTGCTTCTCTAGTTCTTTTAATT
GTAATGTTAGGGTGTCAATTTTAGATCTTTGCTGCTTTCTTGTGTGGGCATTTAGTGCTATAAGTTTCCCTCTAAACACTGCTGTAGCTGTCCCAGAGAT
TCTGGTATGTTGTTTCTTTGTTCTCACTGGTTTCAAAGAACTTATTTATTTCTGCCTTAATTTTGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTT
CAGTTTCCATGTAGTTGTGCAGTTTTGAGTGAATTTCTTAATCCTGAGTTCTAATTTGATTGCACTGTCTTCTGAGAGACTGTTTGTTATGATTTCCATT
CTTTTGCATTTGCTGAGGAGTGTTTTACTTCCAACTATGTGGTCGATTTTAGAGTAAGTGCTGTGTGGTGCTGAGAAGGATGTAATTTCTGTTGGATGGA
GGGTGGAGAGTTCTGTAGATGTCTATTAGATCTGCTTGGTCCAGAGCTGAGTTCACGTCCTGAATATCCTTGTTAATTTTCTGTCTTGTTGATCTGTCTA
ATATTGACAATGCAGTGTTAAAGTCTGCCACTATTATTGTGTGAAAGTCTAAGTCTCTTTGTAGGTCTCTAAGAACTTGCTTTATGAATCTGGGTGCTCC
TGTATTGGATGCATATATATTTAGGATAGTTATCTCTTCTTGTTGCATTGATCCCTTTACCATTATGTAATGCCCTTCTTTGTCTCTTTTGATCTTTGTT
GGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCTTTATTTGCTTTCCATTTGCTTGGTAAATATTCCTCCATCCCTTCATTTTGAGCAG
CCTATGTGTGTCTTTGCATGTGAGATGCATCCTGAATACAGCACACTGATAAGTCTTGACTCTTCATCCAATTTGCCAGTCTGTGTCTCTTAATTGGGGG
CATTTAGCCTGTTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGCTAGC


SNP Information

Context             (SEQ ID NO:32791):
CCATGCCCAATCTTCCTTTGCTTCTTCATCATAAACTGACAGCATCTCCTTGTCAGGGAGACTTTTAAACTCTACTAAATGAAATTTCCCCATCAGCAAA
R
TGGAGACAAAATTATCTAAAATTAGTAATACAAATAAAAATTCATATTGATTGTATGCTGACTCTGTGCTAGAGCTTAATGTACATGAATAGAGTGTCAT
Celera SNP ID:            hCV27845186
SNP Position Genomic:     46673
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,38)   total(A,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:32792):
AGTCAATATGCTATCTCCACCTTTCCAGAGTGTCAGTGGCAGAGCAGGGATGAGGGACAAGACCTGACTTCCTGCATCCCTGAATGAGAGATCTTTAAAA
M
ATGATTATATAAAATAATTGACAAGGAATAAGTGAACGAATCACCATGAATCGTCATCCATTTCAGTTTTCTAATTTAAAAAACCTGGAAATGAAATAAT
Celera SNP ID:            hCV11884661
SNP Position Genomic:     62739
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,7)   total(A,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32793):
GCTGTGGCCCATGCTGACGTTGAGGGAACACCTGGAGGTGTATGCTGCCGTCAAGGGGCTCAGGAAAGCGGACGCGAGGCTCGCCATCGCAAGGTACAGA
Y
GGGACCTGCGATTCCTTTGTGTCAGAATGCAGGGAGACTGTAGCACTGATGATGAATTCACTAATAAAGAACCGAGAGTCAATATGCTATCTCCACCTTT
Celera SNP ID:            hCV25997111
SNP Position Genomic:     62562
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,34)   total(C,63|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:32794):
TCAGCACAATCCAGTGGAAGTACAGAGGCTACAGAAAGAACATTAGGCTCACCTTACTCGGAAAAACTGGCTTTGAGGCAGCCATGAGGATCTGGTGCAC
R
AAAGGTCTTTCCATTTATCCTTTCCATGGAGACTATTTTTTGTTCAGTCAACAGACTTACTGCCATTGTCCAGTGTAATCTCAGGTGCTAGATCAGATGT
Celera SNP ID:            hCV29395710
SNP Position Genomic:     52647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32795):
TAGACCCTGCCTGATACCAACAGGGGTGTCTCAAAGCTGACTCCAACTGTTTCACACCAGAAGTCTGAAACATCAAGAAGCAGGATTAGGAAATGAAGCC
M
TCCAAAGGGAAGTCCATTTTGTGACAAAAGTGTGAAGCTCAGTTTTGGCTTCACTGAATCAGTGGTGCTGGGAGTATATGCAAGCACAGGTTTTCTGTAA
Celera SNP ID:            hCV29395711
SNP Position Genomic:     47956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32796):
AAATGTTAAAACCAAATTTTTTTAAACAAAGAATTGAAGAGAGGAACAGACATAGGTTACTTGCTTATTGAGAGACAGTAAGAGTTGAGTAGGAGGTTCT
Y
TTTTCTGTGGGGAATTACTTTGTCACTAGTGCACACAAAGAAATTGAGATCTATGAGGAAAATATTCAATATGTGAATTTTATATTATTTAAGTGCAAAT
Celera SNP ID:            hCV11884665
SNP Position Genomic:     57888
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,9)   caucasian(C,12|T,20)   total(C,37|T,29)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32797):
ACAAAACAGGATTTTTTTTCCTGCCAAGTTATCAGATAATTATCGTGAGGGAATACTTTTCAATATTTTGTCAGTCTTCTAGGCAATGTTTTGAAAAGTT
R
TACATACTTGATTGTGGAAGTGTATGAGAAAGAGAAACAGAAAAAAGAAAACACTGACTTGGAAATCAGGAGAACTTGTAACCCTGGTTACATATAAATC
Celera SNP ID:            hCV29395712
SNP Position Genomic:     47346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32798):
TTTTTTTTTTCCTAACCGCTTAATTAACTTTGAAGAAGGAACTTTTATGTTAGTACCTCAGATGTTAAAACAAACAAACAAACAAAGAAACAAAAAAAAA
A
TCACAGTAAGAGTCTTCCCTTGCTGAGTTCCTCATTCATTTGATTTTCCCATGGATTTGCGATTCAGGCCTGCGGTGTATGCTCTTTAAACAAAGACAGT
Celera SNP ID:            hCV11884667
SNP Position Genomic:     43321
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32799):
GCCATAGAGATTCATTAGAGAACAAGACTATTGAAAATACTTTTTTTGAGGCAGAGTCTTGCTGTGTTACCCAGGCTGGAGCTCAGTGGCAGTATCTTGG
Y
TCACTACACCTCTGCCTCCCATGTTCCAGTGACTCCTGCCTCAGCCTCCAGAGTAGCTGGAATTACAAGCAGGCACCACCATGCCCAGCTAATTTTTGAA
Celera SNP ID:            hCV29395713
SNP Position Genomic:     45608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32800):
TACAGGCGTGAGCCACCATGCTGGCCAATACTTATTTTTATAGAGTTTAATGCCTTGAACATTATGAGGTCCACTTTTCATTATTCATGAGCTAAAGTTG
T
GTTATGAGTCAGGCCTATCACAGTATACATTTTATTTTTGATAGACACCTTGTAAACCATGGAACTGGCTCTATAAGCCTCATGTTACTAAGCAGTATAT
Celera SNP ID:            hCV2588400
SNP Position Genomic:     50859
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32801):
AGCCTGTTGATCATCAATAACACAGGTGAAAAGAAAAATAAAATTTAAATCCAGAAATAAGTTATTTTTATTGTTGAATAGCACAGGAGGTGGGGGGGGG
R
AGTGAATCATAAGAGAAGAAAATGGGTATTTAAACTTCATTTATAGAAAACACCTTATGAGGAACAGTGCAGATTTACTCTGATTTTGGAGATGACAGGG
Celera SNP ID:            hCV29395714
SNP Position Genomic:     42503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32802):
TAAATAAAATTCCTGGAGATTAATATGCTAATTTTTCTTTATTGTTTAGATTATTGGTATTTGGAATCGCAATATTCCCTTTGATTGTTGAAAATATAAT
R
TATGCTATGTTAAATGAAAAGATCGATTGGGAATTTAAAAACGAATTGTATTTTCTCTCTCCTGGACAACTTCCCCAGGAACCCCGTACCAGCCTGTTGA
Celera SNP ID:            hCV29395715
SNP Position Genomic:     42312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32803):
ATGTATTGAAAATATATGTTGTGAGAATTTATCATTGTACAGCTAGTATCAACTTAAACGATGCTAGTCCTAGGACTAAGGCAATTTGTTTACTCCTCAC
R
GGATCATATGTCAGAAGGTATAGTATGTTGATATTCAATGCAGTTGTCCTTTGGTGATCTGGGATCCATTTGGAAGGACAGTGTAGGCAATGTTTCTCCA
Celera SNP ID:            hCV15838351
SNP Position Genomic:     55095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32804):
ATTACAGGCGTGAGCCACCATGCTGGCCAATACTTATTTTTATAGAGTTTAATGCCTTGAACATTATGAGGTCCACTTTTCATTATTCATGAGCTAAAGT
T
GTGTTATGAGTCAGGCCTATCACAGTATACATTTTATTTTTGATAGACACCTTGTAAACCATGGAACTGGCTCTATAAGCCTCATGTTACTAAGCAGTAT
Celera SNP ID:            hCV2588401
SNP Position Genomic:     50857
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32805):
ATCCTCAGATGTTCCCTGCTTCTTAGATACCTTCAGGCTGTGAAAGGCTCTTAATTAGGGGAATGAGGTCTGAATATATTTTTTAAAAATAAAAATTGCT
K
TTAGCTTGTTAATATACAAAATTCCACTAAAGTCTTAGTGGGGAGAATTCTCAGTATCCACTCTTGTATATTTTAATGGGTGATAATAATCATTGTCATT
Celera SNP ID:            hCV29395716
SNP Position Genomic:     40518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32806):
AAAAAAGTCCTTCTTTTCCTCTTATTCATTCCATCTTGCTCAAATTATTGTCTGCAGTTACTTCAGGTTTGCCCAGCTGTGCTCCTCAGATAAGGTCTCT
Y
AGTAAGTAAATATGGGACTGTTACCCTGGGGACAACTGCGGCTACTGTGTGTTCTGTGTGGAACGTGGGGAGGGGCCTGACGGGTCATCTTTTCCCAGGT
Celera SNP ID:            hCV16179662
SNP Position Genomic:     44080
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,170|T,1313)   total(C,170|T,1313) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32807):
TGCTTGCTCTGGTGTGCTCTAGGCTGTGAATTTTTCTCAGCTCGTATTTCACGGTCAGACGTTCTCATCTGCTTTCTTCTTCAGGGTCATATCTAAAAGT
Y
TGATCTGATGATGGCATCCTTTTTCATTTCCTAAGAAAGATTATATTTATACAACATACATGTATGGAATATGTACGTAAATGTTTAGAATAAAGTAAAA
Celera SNP ID:            hCV2588403
SNP Position Genomic:     44380
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32808):
CTGGAGGTGTATGCTGCCGTCAAGGGGCTCAGGAAAGCGGACGCGAGGCTCGCCATCGCAAGGTACAGACGGGACCTGCGATTCCTTTGTGTCAGAATGC
W
GGGAGACTGTAGCACTGATGATGAATTCACTAATAAAGAACCGAGAGTCAATATGCTATCTCCACCTTTCCAGAGTGTCAGTGGCAGAGCAGGGATGAGG
Celera SNP ID:            hCV25992753
SNP Position Genomic:     62593
SNP Source:               Applera
Population(Allele,Count): african american(A,29|T,1)   caucasian(A,30|T,4)   total(A,59|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:32809):
TGAGACTTGGTATATCACAGAATTGCATGAGGAGCATTTAGAATATCTGTTTTTAGCCAGGGATTCTAACTCAGCAGTTTTGGGATTGAACCCAAGTATC
R
TGGATTTCAAAATAGCTTTGTAGATTTTTCTACAAAGTTTGGTACAAAGTTAATGGATCAGCGCTTTAAATAGCAATCGTTTATTTATTAACAGATGTTT
Celera SNP ID:            hCV29395717
SNP Position Genomic:     25507
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32810):
ATGAAACTCAGTCTATTTAGAAGCAAGAAATATTTTCTACATTAATGAATGCATATTACATTTAGCAGCATGAATTACTCTCAACTCAAAATATGGTTTG
S
CTTATGACATAAGGCATGAAAGGTTCCAGCAGAGACCTAAAGTCTCTGAAATTTAAGAGGAAAATCATGCTGTCATCTCTTCTAGAAACCTGTTATAATT
Celera SNP ID:            hCV2273714
SNP Position Genomic:     60764
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,7)      total(G,7|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32811):
TTCAGAGCTGATGATCTTTCCCCTATACTACTAAATGATTGATACCTTAGTAGTAGATATTTAGGTGTAATGATTGGCTATTTTTATGCAGAAGATTTTT
W
AAAAATCCCTCAGAGGAATGATACTCTTGGGAATTTCTTTGCTTTTCAAAGATTGGGCACAATGAGATCACCATTTTTGTGAATTATTCTTTTGGTATGA
Celera SNP ID:            hCV2588404
SNP Position Genomic:     40918
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,5)   total(A,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32812):
CTCATTTGATGTGTACTCTTGGAAAAATGAGTAAATTTTATGAGTCTCAGTGTCTTCTATGAAACAAGATTAATATTGACTTTGTAGGGTTGTTATGAGA
Y
TTGGTATATCACAGAATTGCATGAGGAGCATTTAGAATATCTGTTTTTAGCCAGGGATTCTAACTCAGCAGTTTTGGGATTGAACCCAAGTATCGTGGAT
Celera SNP ID:            hCV29395718
SNP Position Genomic:     25412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32813):
GCTATAATTGCAAAACCAACAAGACCTCATGAGTTAAATAATTTAAGTTAGATTTGTCGAAGAATGCGAAGAATGCTAAATAGAGATTAAGATTTTAAGG
K
TTACTCTATTTGACTTAGATGTGATGGTTCCATGAGGTTAGCCACCCCTCTTCTGGCAAGACAATAAGCTGCTTCCATGAAACTCAGTCTATTTAGAAGC
Celera SNP ID:            hCV2273715
SNP Position Genomic:     60587
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,5)      total(G,5|T,5) ;(T,-|G,-)   JBIC-allele(G,257|T,644)   total(G,257|T,644)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32814):
GAAGAAATGACCCCCAATATCTTTTCTCCCTTGATTTCTTTCATTCAGATAGAAAAGTGATCATGTCCAATGGGAGACTGAAGTGTGCAGGTTCTTCTAT
S
TTTTTGAAAAGAAGGTGGGGTCTTGGATATCACCTAAGGTAAAGACTTTGGGAATAGATTGGATTTATGTGTTTGCAATACTGGTATATGAAAAAGGTGG
Celera SNP ID:            hCV2588405
SNP Position Genomic:     35667
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:32815):
TTCATCTTGTCCCCCTTTCTGCCTCTTTCTCTTGTGCCCACCTCTCTTTTATACTTGCTCCTTTCATTCTGTGAACCCCTCTCTCCATGGTTTCATCTGG
Y
TTTATATGATAAGTTGGAAGAAGTAAGAAATTCTGAATCAGAAATTCTTAGATCCTAATACTCTCCTCTCTCATTTGATGTGTACTCTTGGAAAAATGAG
Celera SNP ID:            hCV29395719
SNP Position Genomic:     25242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32816):
GAGAAAATGAGAGTGACATGAATTTTAAAGAGAAAGGAGCAGTACCTGCTGACAGATTTGAAAGGGTCAAAGATTCTTACCAGAAGAATGGCAACAACAT
Y
AAGAAAAGGATTCTGGCTAGTGGGACAGGAGTTCTTGGCAAAAGCAGAAGCAATATTGACAGTCATCATCACATCATCACCTGCACATTAGAGAAGAGGA
Celera SNP ID:            hCV2273716
SNP Position Genomic:     59924
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   no_pop(T,-|C,-)   (T,-|C,-)   Caucasian(T,3|C,79)   African-American(T,1|C,73)   Asians(T,1|C,83)   total(C,235|T,5)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32817):
TTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTCATTTTGGATTTTAAAAGTTGC
R
TATTTTCTCATATAGGTACAACGAATATTATTGGAATTGGACATGCAAAACATTCAAGATAACCTTGCTAAACATTTAAGTGAAGGACAGAAAAGAAAGC
Celera SNP ID:            hCV2588406
SNP Position Genomic:     34135
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32818):
TTCTCACTGTGATTTGAAAAAATTATCACAAATAAAAGATCACAGCAGAAAATCAGACATGACACTGAGAAACACTGTATTTTTAAAATCAAAACACATA
Y
ACGTATGATTGCATGCCTTTTATCCTTTGCTGCCATTTATGCTTAAGTTGTTATGGATTCAAATAAGGCAAGACAATATTCCAGAGGCAAGGTACGTTTT
Celera SNP ID:            hCV2273717
SNP Position Genomic:     53837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32819):
GATAATTTTTAGTTTTTGAGCATTTTTAATAAAGCTGCTACAAACATTCTAGTACACATTTCCTACTGAATATGGACATTTCATTCTGTTCATTACGTTA
R
TATAACAAACAGAATAGTGGGGCTGAGAGTATACAAATATTAATCTTAGTAGCTACCACCAAATATTTTCCCAAAGTGGTTGCATCAATTTAGTTTTACA
Celera SNP ID:            hCV2588407
SNP Position Genomic:     20118
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32820):
TTTGTAAATAAGTTAACATAATTTATATAACTTTTTGTCTTTATTTAGGCTCTCCTGGGGTCTAATCTATGCTGGCTTCATCTTTATTATTTCCATATTC
R
TTACAATTATCATAACATTCACCCAAATTATAGTCATGACTGGCTTCATGGTCATATTTATACTCTTTTTTTTATATGGCTTATCTTTGGTAAGTTGATA
Celera SNP ID:            hCV2588408
SNP Position Genomic:     18189
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32821):
TTCATGAGCTTATTTTATTTTAAATTTAATTTATTTGTATAAATTTAATGAGTACAAGTACCGTTTTGTTACATGGATATATTATGTAGTGGTGAAGTCC
R
GGCTTCTGGTGTATTCATCACCAAATAATATACATTGTACCCATTAAATAATTTCTCATTCCCCATCCCCCTCTGACTCTCTCACCCTTCCGAGTCTTCA
Celera SNP ID:            hCV2273718
SNP Position Genomic:     35147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32822):
TAGTAACTGGGGACACCTGATGAGCAAGATAGCACAGTCCTGACTTTCCCAAAGCTTAGTGGAGGCAAAGGCAGACCAAACTTACTCAAGTTAATACAAG
R
AACTTAAATGTTACAAAGGACAAGGGCAAAGGGCCAAGGGAGGACACACAAGGCACAGCTGGTGTGTTCTAGCGAGTCAGACAATTCTTCTGGGGACGTT
Celera SNP ID:            hCV11938155
SNP Position Genomic:     57002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32823):
CAGTGTATAATATTGTTGATTGATAAAGACATCTTGCAGAATAATACATACATATGATATTATTGATACTGTTTAATACAATAGTCATACTATTTACACA
R
TACATGCACACAGAGCTGTTGCCTAACACGTAGGTACCAACGAGGCACAATGGCCCAGCTGTGCTTACAGTCACTTAATTAATTTTGGCATCCTTTTTTT
Celera SNP ID:            hCV2588409
SNP Position Genomic:     17465
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32824):
CTGAGTAGGCCTCAGGAAACTTACAATCATGGCAGAAGGGAAAGCAAACACGCCCTTCTTCACATGGTGGCAGCAAGGACAGATGCAGACTGAAGGCAGG
R
AAAAGCCCCTTATAAAACCATCATATCTCATGAGAACTCACTATCATGAGAACAGCATGAGGGTAACTGCCTATGATTCAGTTACCTCCCACTGGGTCCC
Celera SNP ID:            hCV11938157
SNP Position Genomic:     36339
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32825):
TCAAGAGTCTTCTGAAAGTGTTCCAGAAATTGCTTTAAAACTCAAAAGTAAGGGGCCAGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGC
Y
GAGGCAGGTGGATCACAAGGTCAGGAGTTCGAGACTAGCCTGGCCAATATGGTGAAACTCCATCTCTAATAAAAATACAAAAATTAGCCGGGCGTTGGCA
Celera SNP ID:            hCV27230699
SNP Position Genomic:     69128
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:32826):
TACATAATGAATAATAATGACAACGACAACAATAGCAATAAACACTTAGATTTCATTGAGGATTTGGTGTGTGCGGGAAACTATGCTAAGTGATTTACAT
S
TACCATTTTACATTTAGGCCTGTGAAAGACATGTTAATATATCTCTCACTTTGCAGATGACGAAACTGAGGCTTCTATTTAATTTTTCCAGTTACTGTGG
Celera SNP ID:            hCV27928145
SNP Position Genomic:     31573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32827):
GTCATTCATTTTATAAGCAAGGAAAATGAAGTTCAAAGAGAATAAGAGAATTGCCCAATGTGAGATGGAGGGTGAGTGCCGGAGCTGAGACTCTAACCCA
K
GTGCCCTGACTGCAGCTTGTTTTCTCGCCTGGTCTTCTTACAGTTAACAGTTGATTTCTCCAGACTTTCTCATGTTGAAGAGAGTATAATCCTGTAAAAG
Celera SNP ID:            hCV27928146
SNP Position Genomic:     14582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32828):
ATCAGGTGTTTATAACAGGACTTGGAATCTTACCAGAAACCAATTACCTTTTACTCATCAGTTTCTCAAGAACTACCTGAGCTTATTAGGTCTCTTTTCT
Y
CTCTGCATGTAAAACTATATTTTTATATTTGTACTTTAAATCATTTTCTGTAATAAATATATGAAGTAATTTCTATAGTATTTATTTGATGCTTAAACAA
Celera SNP ID:            hCV15757220
SNP Position Genomic:     62210
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,18)   caucasian(C,17|T,5)   total(C,27|T,23)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,454|T,1039)   total(C,454|T,1039) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32829):
TTAACCTGGAAGAATACAGCCTTTCTCAGTGCACACTGGAGAAGGTAAGTCAAGTGGTTTGACTTTGTATCATCTGGTAAATTTCACATGAAAGCAACAT
R
CATTTTCCTGTTCATTTGGAAGACCAACAACTTGATAATCTCTCTTCCTTCTTTCCTTCTTCTTTGTCTCCTAATTAGGTATTCTTAGAGCTTTCTAAAG
Celera SNP ID:            hCV2600112
SNP Position Genomic:     68424
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,18)   caucasian(A,36|G,4)   total(A,48|G,22)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32830):
ATGAAGAAATTGATACAACAATGAGATGGAAACTCCTCCCTCATTCAGATGAACCTTAAAACCTCAAACCTAGTAATTTTTTGTTGATCTCCTATAAACT
Y
ATGTTTTATGTAATAATTAATAGTATGTTTAATTTTAAAGATCATTTAAAATTAACATCAGGTATATTTTGTAAATTTAGTTAACAAATACATAAATTTT
Celera SNP ID:            hCV2600113
SNP Position Genomic:     68646
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,27)   caucasian(C,8|T,16)   total(C,11|T,43)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:32831):
TGTCACTAATTCCTCCCACTAAAATGCAAACTATATCAAGGCAGGAGTACTTGTCTATTTTCTTGACTGTTCTGTTTCTGCCATCTAAGAGTGCCTCACA
Y
GTAGCAGATTCTTAGCGTATAAATGGTGAAGTATGCACATGTGGATATGTGAATCTGGTGACAACTGTCATGCAGACTTTTTGGTGGGGAAGTCCAGCAG
Celera SNP ID:            hCV28016058
SNP Position Genomic:     67827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32832):
TTCTTAATAATAAATTGAGTTTTAGAAGAAAAAATGTCTCTATGATGCTTAAAACTTCAAGGCATTCTGCATTGTTGTTAGCAAGGCTTCTTTGCGCATT
S
TTTTACTATTACTGATCATATTTTGTTGCCTCTTGGTTAATTAGATGGAGATGAGCGCCATTATTCTCCTTTATTTTTCTTGAATTCATCATCTTGTTTC
Celera SNP ID:            hCV28016059
SNP Position Genomic:     24436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32833):
TTTGTGTCTTCCCAAATATTTGGTTTCATTCATTCTCCTAAATACCTTTTAGATCACATTTTAAAAAAATTTAATAAATATGTTTATTGGGTGATACAAA
Y
CTGTTTTTCATGAGCCTATTAAGGATAATGCAACCCATTGTTAAGACTGGAAAAAAAGGACATATAATGGTTTCCTTGTTGGGTGTCCTTTTCTACAGAT
Celera SNP ID:            hCV29395720
SNP Position Genomic:     24004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32834):
CTTAGGCGGTCAATGTTGTAGCTCTTTAATGGCAAGGTGGTACACACTCACTGAGTGTTAAAGCAGGTCTGGGGCTGCAAGGCAGTCTAAAACTGCCTTT
Y
GACCATCCAACAGTATATGCAGTTTCTAATCCACAAGTTTTATCTCTTCTTTCTTCACAGTGATCATTTCTTAGTGGCATCATTACTCTTCCCCACCTGT
Celera SNP ID:            hCV11884675
SNP Position Genomic:     26601
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32835):
TTAGTAGAGTTGTGAAATTTCAATTTTCTACTACGAAAGAGACTGGAGGTGCTGCCTGCTGAGATCCCCATGGATAGTCAAATTATCAACTGCCCCAGTG
Y
TTATAGAGTTACTTGATTGATCAGAGGCTTTTAAGTTGCTTCCAATTCTACAATTAGGACGGTATGGCAATATCTAACAAAGCTGAAGTTACAAAATGCT
Celera SNP ID:            hCV29395721
SNP Position Genomic:     17121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32836):
GGGAAAGAAAGTCATTTGATGCAAGGACTATTCACTAAAGCTTTTGGCTCCATTGTGGGGCACCTCACCCCAGATCCACACCAAAGCAAGAAAGTAGGCT
Y
AGGCGGTCAATGTTGTAGCTCTTTAATGGCAAGGTGGTACACACTCACTGAGTGTTAAAGCAGGTCTGGGGCTGCAAGGCAGTCTAAAACTGCCTTTTGA
Celera SNP ID:            hCV11884676
SNP Position Genomic:     26503
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32837):
AGCCCATTTCATTGCTGAACTTATTTCAAGGTCAATCGTATGTTCCTACTACAGGATGACTGCAAAAATTGTAGAGTCATCCAACATATATGTGTTGAGC
R
TGCAGATGCATGTGTCAAAGGACACATGAGTAACCAAGACTGACAGGCCCCAGCCTCAGGTGAGATTCCAGGTTAGCAGCAAAGACAGACATTGAACAAT
Celera SNP ID:            hCV29395722
SNP Position Genomic:     11995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32838):
ATCAAGTTTCAAGTAGTTTGAGCCTGGATTATGATTTACAACCTATCTCTTTTCATAAAAGTTGATTCAATCTGAAGGTAAAATTACAAGAAAACACTTT
W
TTGAGGTTGTATCTAGTGGATGTAATTTATTATTCAGACAAATTTAAGTAATCAGACTTTTGATGTTAATTTGATTAGCTCTGAGATTTCTGTTTAAATG
Celera SNP ID:            hCV29395723
SNP Position Genomic:     6674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32839):
GGCTGGCATGTAAGAAGACCTTAGCAAGGGCATTTGCTATATATATTGATATTTATATCTTGCCCCCCACTCCACATTCAATTTAAAGTGATTTTGAAAT
M
ATGAGTGCGTGTACACATACATATGTGCTATGTATACATATTTACATACATTACATATGTATGCATACATGAGCATGTGTACACATACATACACACATAT
Celera SNP ID:            hCV2588410
SNP Position Genomic:     14899
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32840):
ATGATTCATATATTGTATTTTATCTTTTTTTTCTTCTGCACTTAGTTATTTTAAATACTGTTAATTTTTTTGCTCACTGCAGGCAGGCAATCCAGGCAGT
Y
GTTAAAAACACAGAGAGAGGTGTCCTCCTGACCACCCATAACCTGGCTGAGGCGGAAGCCTTGTGTGACCGTGTGGCCATCATGGTGTCTGGAAGGCTTA
Celera SNP ID:            hCV25996504
SNP Position Genomic:     64268
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,27|T,3)   total(C,56|T,6)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32841):
CATGGCATACAATGATTAAGATTTGTATCTCAGGAAAAAAACATCTAAATAAATAAAATAGGTCATGGTTATTGAACAATAATTTCATAACTTTGAAAAG
Y
AGAAATGAATAATCTGATGATTATTCTGTTCTGAATATAGTACAATCAGTAAACATCTTTAAAAGTCTTTATTCTAAATGAGATCATTATGATGTAACCA
Celera SNP ID:            hCV2588412
SNP Position Genomic:     10996
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32842):
GCTCCTCTTTTGAAAGGTAGGTGTACTCATGGCAAAAAAAGAGTTACTGATAGATGTCTATATACTGTTGATAAGTTGTCTACACATTAATTTGAAGTTA
M
AGTCATATATTATGCTAATAACTTAAGTACTAAAATAGCATACAAATCTGGTTAGATTATTGCTTTCTCTCACAACAACTAGCCTTTGAAATATTTTCAG
Celera SNP ID:            hCV2588413
SNP Position Genomic:     10665
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32843):
CTTTATTGAGGTTGTATCTAGTGGATGTAATTTATTATTCAGACAAATTTAAGTAATCAGACTTTTGATGTTAATTTGATTAGCTCTGAGATTTCTGTTT
M
AATGTAAAGAACAAGAAATGGCTATTAACAGGATGAAATTAATTTAATCACTCTATTCATGTACTTAAAGTTCTCTCATACAAGGCCAAAAATGTGAAAT
Celera SNP ID:            hCV2588415
SNP Position Genomic:     6770
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,4)      total(A,4|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32844):
TTATTTTATGGTATTTATTGTTTTTCATGCTATCTTCTGGATACAGTTAATGTGAAAGAGAGACATATTTTATATATCTTCATTCTCTGTAGATTTTGCT
Y
TTAGATGAACCAACTACTGGATTGGATCCCTTTTCCAGAGATCAAGTGTGGAGCCTCCTGAGAGAGCGTAGAGCAGATCATGTGATCCTTTTCAGTACCC
Celera SNP ID:            hCV11938162
SNP Position Genomic:     34536
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:32845):
GTATGCTGACTCTGTGCTAGAGCTTAATGTACATGAATAGAGTGTCATTTAAGCCCTATAACAACCCATTTAGTATTTCCTTTTCATAGATGAGGAAGGT
R
AAGCTCAGAAAGTTTAGTTCACTTGAAGATGGACACACAACAAGCATGTGGCACTGTTAGGATCTTTTATACATAAACCTTGCCTTTGTTCTTTAAGAAT
Celera SNP ID:            hCV7564335
SNP Position Genomic:     46826
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,13)   caucasian(A,4|G,34)   total(A,23|G,47)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32846):
AGCTCCAGAGGGGTACTTGGAAAGACTTGGGAGAAGGAACTTCTAATGACTCAAACCCACACAGGACCACAATGGTGTCCTTCCTGGGCCTCCTCATAAA
Y
GCTTAACATATATAAATATTTAAAATTTAAAAGATGTAAATATTTAGGGTGAATTTTCCCCATAGGAAACAAATGGCAATTGAGATAATCAAAGAGTCTT
Celera SNP ID:            hCV27230700
SNP Position Genomic:     65038
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32847):
GTCATTTGTTTGGAATGGGGAAGAAATGGAGCAGGAAGGACAATGAGAAAGCTCCACAGTAGTCTGGTTGAGAGACAGTATGGATTGTTTGGTTTTTTTT
T
ATAATAGCCATGTAACTTTCAACATATACAGGTTTTTATTCATTAGCAATATTGTTACCTTAGCCATAAAAAGGTAATCCCTCTATCCTCTTGTCTTGGA
Celera SNP ID:            hCV27230701
SNP Position Genomic:     55938
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32848):
GTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACGTGCCATCACGTCTGACTAATTTTTTTTTTTTTTTTGTATTTTTAGTA
R
AGATGGGGTTTTGCCATGTTGGCCAGGCTGTGTTGAACTCCTGGCCTCAAGTGATCTGCCCTCCTTGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGC
Celera SNP ID:            hCV27230702
SNP Position Genomic:     43087
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32849):
TAAAATGTGCTCCACCCCCACCTTCCCCCAACTTCTCCCTTCTTCTCCCACATCCCCACTGTGCCTCCAAACCTAGCCAATGTATACAGTGTTGACTGGG
Y
ACACCTGTCACTTGGTCTGGATTCTTAGCTCAGGTGGAGACCTGAGGCTACTGACAAACCAGGGAAAGAAAGTCATTTGATGCAAGGACTATTCACTAAA
Celera SNP ID:            hCV7564339
SNP Position Genomic:     26341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32850):
TGCCCCTTCATTAAGTACAAGATACAGGAAGATGCCTTATTTTGTTATCCCAAACAATGGGTAATTGGTTTTGTTTTTGTTTTGTTTTGAGACAGAGTCT
Y
GCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTTGGTTCAATGCAACCTCCACCTCCCACGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAG
Celera SNP ID:            hCV27230703
SNP Position Genomic:     42922
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32851):
TGAATGTATAGCTACATTTCTCCCCCAGCTTATGAGAATGATCCACAACTATTTACCCAAAGACAAAACACCACCAACTTAATTCAAATATTTAAATAAT
R
TTTGTGAACTTATGCCTAAATATAACTGTATTTCTTTGCTCATAGCCCTACTTTCAGACTTTGCTATTCGTTTTTGTTCTAAGATGCATGGAACTAAAAT
Celera SNP ID:            hCV25990627
SNP Position Genomic:     59281
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,33|G,1)   total(A,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:32852):
GTTACCATGTGAAGATGGCCTATCTATTCCCCATGCCCCTTCATTAAGTACAAGATACAGGAAGATGCCTTATTTTGTTATCCCAAACAATGGGTAATTG
R
TTTTGTTTTTGTTTTGTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTTGGTTCAATGCAACCTCCACCTCCCACGTT
Celera SNP ID:            hCV27230704
SNP Position Genomic:     42889
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:32853):
TACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTGTATCTCCTAATGCTATCCCTCCCCCCTCCCCCTACCCCAGAACAG
W
CCCTGGTGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATAAGGCTAAAGAATTATTAACCGAGAG
Celera SNP ID:            hCV11407350
SNP Position Genomic:     24882
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32854):
AAATCTTGTTTTCTGCAGAAGGCAAAGGTCATATAAATTGTCTTTGCTTCAGTAAATCTGAAATAAGGAATCCCTGACTGTATAGTAACTACAACAATTA
M
TTCTGTTTTTGTACTCTCATTCTCTTATGCATACTTAATTTGGCACAATTTTTTCTTTATGTACCTAAAACTTGCCCTGATACTTGTCATTATGAAAATA
Celera SNP ID:            hCV16152278
SNP Position Genomic:     11318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32855):
TCAAGTAAGTGAGATTATGCATGGGGAAGGAAGCAGGTCGAATGTCTGCAAAATGTCAAGTTCTTTTACCACTAAAAGTGGTAGAGCTTTCATTGTAATG
Y
ATCAAGAGAGAACCTGCTATGTTTAACTATAAATAGAAGTATATTGGAGAAAAATGGCTGGATGGTTATTATTTTATGGTATTTATTGTTTTTCATGCTA
Celera SNP ID:            hCV27230707
SNP Position Genomic:     34367
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32856):
AAGACATTTATACATAGTATTCCATAAATATTAACTTTAATTATGTATATGACTTATTTTAAAAGTTTGATATGTATTTTCTTACTTTTCTATGGCCTTC
Y
CTTATTAACTTCATATTAGAATCAAATATTGAAGATTTTATAAAATCACTGAAGCATCAAAATATACTTTTGGAAGTAGATGACTTTGAAAACAGAAATG
Celera SNP ID:            hCV349672
SNP Position Genomic:     44909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32857):
TTAGGAGATCCTCAAGTAAGTGAGATTATGCATGGGGAAGGAAGCAGGTCGAATGTCTGCAAAATGTCAAGTTCTTTTACCACTAAAAGTGGTAGAGCTT
Y
CATTGTAATGCATCAAGAGAGAACCTGCTATGTTTAACTATAAATAGAAGTATATTGGAGAAAAATGGCTGGATGGTTATTATTTTATGGTATTTATTGT
Celera SNP ID:            hCV27230708
SNP Position Genomic:     34356
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32858):
GCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAGTTGCCACACTGACTTGCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAA
R
TGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCGCCATACTAACTGGTGTGAGGTGATATCTCATTGTGGTTTTG
Celera SNP ID:            hCV27230709
SNP Position Genomic:     33939
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32859):
AATATCAATGGGTTGAGTATGTCTGATACAATATATTTGAACTTGCCTTGTAGGCCTCCACCATCATGTTTTCCATCACTTTAATCAATCATTTTGACCT
R
AGTATATTGATTACCACCATGGTATTGGTTCCTTCATATACCTTGCTTGGATTTAAAACTTTTTTGGAAGTGGTAAGAAATGTTACCAACTGTGTCATTA
Celera SNP ID:            hCV25994515
SNP Position Genomic:     56370
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,3)   caucasian(A,34)   total(A,61|G,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:32860):
AAAAAGTTTTAAAATTATACCTCTTCACAAAGACCTCAAGCAGTTTGCACTAAAATTTGCATTTGCATACAAATAACTTATAATTTATTTCTAAATATGT
R
TTGAAAATATATGTTGTGAGAATTTATCATTGTACAGCTAGTATCAACTTAAACGATGCTAGTCCTAGGACTAAGGCAATTTGTTTACTCCTCACGGGAT
Celera SNP ID:            hCV16115155
SNP Position Genomic:     54999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32861):
ATTCTGTTTTCTGTCAGATTAGTGAGTGCTTTCAAACTGCATGAGCAGCTGAATGTTCCTGTGCAGAAATTAACAGCAGGAATCACGAGAAAGGTACGTG
Y
GGTGTGTGATGCTCTATGGAGAGCTGGTGTGGTATGGCAGCAAACAGGGGTGTTTTTCTACATTGCAGTTGTGTTTTGTGCTGAGCCTCCTGGGAAACTC
Celera SNP ID:            hCV25992304
SNP Position Genomic:     63157
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,38)   total(C,69|T,3)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:32862):
GAGGAATAATTCCATAAAACTCAGTTCCAGTGTCATCAATCCTTCTTTACCAGTTGAGGGCACAAAATAATATTGTATTATATTATTATTCAAATTATAA
W
AATTTTCAGATCCAATCTTCTAACAAAATCTTTTACTTACAAAGACCTCAAAATTTTCTTTGTTCTTCTACTGCTGCCTAGTGACCTAGGAAAGAAAGTA
Celera SNP ID:            hCV7564340
SNP Position Genomic:     26142
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,3)      total(A,3|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32863):
AGACTGGAGCGCAGTGGCATGATCACAGCTCACTGAAACCTCTGCCTTCTAGGTTCAAGCGATTTTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAG
R
CATGCACCACCATGCCTGGCTAATTTTTTTGCATTTTTAGTAGAGACGGGTTTCACCATGTTGGTCGGGCTGGTCTGGAACTCTTGACCTCAAATGATCT
Celera SNP ID:            hCV27230710
SNP Position Genomic:     17697
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32864):
CAATGGTGCTGGAAAAAGTTCATCTATTAGAATGATATCTGGGATCACAAAGCCAACTGCTGGAGAGGTAGTGAGGAAATGGTTTCCATTTCCAAAACAG
R
AATTTCATGATACGTATAGATTATATCTTTGTAAGACTATACTATTTTTCTTTTCTTTTTTTTTTTTTTTTTGCCTTTGGATAAATTTTATTTTTCCCCT
Celera SNP ID:            hCV2588397
SNP Position Genomic:     61990
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,9)   caucasian(A,14|G,6)   total(A,21|G,15)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;JBIC-allele(A,445|G,1018)   total(G,1018|A,445)
SNP Type:                 INTRON


Context             (SEQ ID NO:32865):
TAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGC
R
TTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTGGCCTTGTAGTATAGTTTGAA
Celera SNP ID:            hCV27230712
SNP Position Genomic:     9089
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32866):
TTTCACTGGAGCAAAAGGTTTATGTTGTTCAGTATTTCACTTCCAATATTGATAGTCTGATTCTTTCTTTCAGGTGAAATTTTGGGATTGCTAGGACCCA
R
TGGTGCTGGAAAAAGTTCATCTATTAGAATGATATCTGGGATCACAAAGCCAACTGCTGGAGAGGTAGTGAGGAAATGGTTTCCATTTCCAAAACAGGAA
Celera SNP ID:            hCV2588398
SNP Position Genomic:     61892
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,6)   caucasian(A,6|G,16)   total(A,24|G,22)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:32867):
ATATACCCAGTAATGAGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCACCACACTGACTTCCACAATGGTTGAACTAGTTTACA
K
TCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCGCCTGTTGTTTCTTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGAT
Celera SNP ID:            hCV27230713
SNP Position Genomic:     8374
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32868):
GGTCAGGAAAGGCTTCGAGAAGAGCACTTCAGTAGGAAGTGGCAAGAGTGACCCCGGCTCAATCCAGGGTCAGCCAGGCCAGTGTGGTTGTGACTGAATG
M
CCAAGGAAGAGAGTGATAAGAAAGATGGCCACAGAAGTCATGGGATAAAGCGAGAGGTCAGGAGAAAGGGTCACACAGGGTAATCTAGATTACTCTAAAG
Celera SNP ID:            hCV2588399
SNP Position Genomic:     58748
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32869):
TTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATACATATACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCG
Y
CATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCCCCCTCCCCCCATCCCACAACAGGCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGT
Celera SNP ID:            hCV27230714
SNP Position Genomic:     7874
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32870):
ATAATATGAGAAAATAACATCAATATTAACATAGTATATATTTATATTAATTCTGTATGGCTTTCATTATTTCATCCTTACATCAAGCATTGGCTTATTC
R
GCTTTATTTATATTAATGATTTACATTTTTATTCTTTATGATTTTGAAAAAATTCTTGGTAATAAATTGTAAGCATCTACTATTAATACTAGTCTTTTTT
Celera SNP ID:            hCV26000484
SNP Position Genomic:     68202
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,16)   caucasian(A,40)   total(A,54|G,16)
SNP Type:                 INTRON


Context             (SEQ ID NO:32871):
ACTAATCAAAGGGAATAGTTCAGAATACCTGATTTTCAACACGCAAAGGTTTTGCATAAGCTGAGCACATATATAATTATGCTGAGTTATTACCAGGAGA
R
CTGTCTGCAACAGCCAGATACCAAAAAGCAATTCAAAACAATGCTGTGATTTCATATTTAAGCCATACATTAATTTGCATTACTTTTATTTTAAGAAGAA
Celera SNP ID:            hCV29395706
SNP Position Genomic:     66245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32872):
TGGAGGAGGAGTCATTGGAGGGTTTTAAGCACAGTGATAAGTTCAGGCTTATGTATTAAAAAAGTAGCTCAGGATACTGTATTGAGAACAGATGTTTAGA
R
CAAGAGGGGCAGAGATAGCCCAAGTAGGAAGGGGTTGCAACAATCCAGGTGAGACATTATAATGACCTAGGCCTGGGTGGGAGTATCATGAGTAGGGGTG
Celera SNP ID:            hCV29395707
SNP Position Genomic:     58971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32873):
GTCCCTGCCCTCATGGAGCTTATATTCTGGTGGAAGGACATGGATAATAAACTAAATGGATAATATGTGTGGTGTCAGATGGGTGGTCAGGAAAGGCTTC
R
AGAAGAGCACTTCAGTAGGAAGTGGCAAGAGTGACCCCGGCTCAATCCAGGGTCAGCCAGGCCAGTGTGGTTGTGACTGAATGACCAAGGAAGAGAGTGA
Celera SNP ID:            hCV29395708
SNP Position Genomic:     58664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32874):
AGTCCAGTGAGAGGAACTTTCCTTCAAAAAATGGCAGAAGACAGAATCTGCATTATCATATTATGAATGCCCCTTGTATATACGGCAGCAAGTGAATAGA
K
GAACAAAAGAAGAAATTTGACTTTGTTCTTTCTAAGGAAAGATGATAATGCAGAACCACTTCTTAGGCTTGTGAACTAACATGGTGATTAAGGTGTTCTC
Celera SNP ID:            hCV29395709
SNP Position Genomic:     53641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32875):
ATTGGGATAAGAAGGGGCTCTGAAAAGGCTTGTCTGTGGCACTTAAGAAAAATATTGTCAACCCCCAGAAATTTTACCAGTGCCAGCACCTCTCTCTGCT
R
TGCTTTCAGTAATAGCATATTACTGTTTCAGTAATAACATATGCTTCAGTAATAACATATGCTTTCTGCAAATGTTAAAACCAAATTTTTTTAAACAAAG
Celera SNP ID:            hCV25997798
SNP Position Genomic:     57718
SNP Source:               Applera
Population(Allele,Count): african american(A,10)   caucasian(A,21|G,1)   total(A,31|G,1)
SNP Type:                 INTRON


Gene Number:                 138
Celera Gene:                 hCG2039726 - 206000045182819
Gene Symbol:                 UGT1A1
Protein Name:                UDP glycosyltransferase 1 family, polypeptide A1;GNT1;UGT1;UGT1A;UGT1A5
Celera Genomic Axis:         GA_x5YUV32VWPT(39155436..39323112)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12298):
AAGAAAACCTGCAGAATATAATTCTGTCCAGTGCAACAAATATTACGGTTGATTTTCTTTGTGCAAGGCTGTATTTGTCTGTTTGGATTGCTGTAAAGGA
TACCTGAGGCTGGGTAATTTATAAAGAAAAAAGGTTTAATTGGCTCACAGTTTTGCAGCCTTTATACGAAACACAGTGCTAGCATCTGCTTCTGGTGAGG
CCTCAGGAAGCTTACAATCATGACAGAAGGTGATGGGGAGCTGGTGTGTCACATGGCAAGAGCAGGAGCAAGAGAGAGACAGGAGAGATGGCACATACTT
TCTTTTTAATTTTAATTTTTATTTCTGGGGTACATGTGGAAGATGTTCAGGTTTGTTACATAGGTAAACATATGCCCTGGTGCCACATGCATTTTTTTTT
TCCTGCTCTTACACTTTTCTTTCTTTTTAAATGCTTTAAGTTCTGGGATATATGTGCAGAACATTGTTACACAGGTATACACGTGCCATGGTGGTTTGCT
ACACCCATCAACCTGACATCTACATTAGGTGTTTCTCCTAAGCTATCCCTCCCCTAGACCCCCCCACCCCCCGACAGGCCCTGGTGTGCGATGTTCCCCT
CCCTGTGTCCATGCGTTCTCATTGTTCAACTCCAACTTATGTGTGAGAGCATGCGGTGTTTGGTTTTGTGTTCCTGTGTTAGTTTGCTGAGAATTATGGT
TTCCAGCTTCATCCATGTTTCTGCAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGTTGTATATGTGCCACATTTTCTTTATCCAG
TCTATCATTGATGGGCATTTGAGTTGGTTCCACATCCTTGCTGTTGCGAATAGTGTTGCAATAAACACACGTGTGCATGCGTCTTTATAGTAGAATAATT
TATAAGCCCTTTGGTATATACCCAGTAATGGGATTGCTGTGTCAAATGATATTTCTGGTTCTAGATCCTTGAGGAATCGCCACACTGTGTTCCACAATGG
TTGAACTAATTTACACTCCTACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCATCTGTTCTTTCCTGAGTTTTAATGATCGCCATTC
TAACTGGCATGAGATGGTATCTCATTGTGGATTTGATTTGCATTTCTCTAATGACCAGTGATGATGAGCTGTTTTTGATATGTTTGCTGGTCATATAAAT
GTCTTCTTTTGTGAAGTGTCTGTTCATATCCTTTGCGCACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTGGTTTAAGTTCCTTTTAGATTCTGGATA
TTAGCCCTTTGTCAGATGGATAGGTTGCAAAACTTTTCTCCAATTCTTTAAGTTGCCTGTTCCATCTGATGATAGTTTCTTTTGCTGTGCAGAAGCTCTT
TGGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGGTTGCCATTGCTTTTGGTGTTTTAGTTATGAAGTCTTTGCCCATGCCTATGTCCTGAATGGT
TATTGCCTAGGTTTTCTTCTAGGGTTTTCATGGTTTTAGGTCTTATGTTTAAGGCTTTAATCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGG
GTCCAGATTCAGTTTTCTACAAATGGCTAGCCAGTTTTCCCAACACCATTTATTAAATAGGGAATCGTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCA
AAGGTCAGATGGTTGTAGATGTGTGGCATAATTTCTGAGGCCTCTGTTCTGTTCCATTGGTCTATATATCTGTTTGGGTACAAGTACCATGCTGTTTTGG
TTACTGTAGTCTTGTAGTATAGTTTGAAGTCAAGTAGCGTGATGCCTCCAGCTTTGTTCTTTTTGCTTAGGATTGTCTTGGCTATACTGGCTCTTTTTTA
GTTCCATATGAACTTTAAAGTAGTTTTTTTCCAATTCTGTGAAGAAATTCAATGGTAGCTTGATGGGGATAGCATTGAATGTATAAATTACCTTGGACAG
TATGACCATTTTCACGATATTGATTCTTCCTATCCATGAGCGTGGAATGTTTTTCCATTTGTTTGTGTCCTCCCTTATTTACTTGAGCAGTGGTTTGTAG
TTTTCCTTGAAGAGGTCCTTCCCATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGCAATTGTGAATGGGAGTTTACTCATGATTTGGC
TCTGTTTTTCTGTTATTGGTGTATAGGAATGCCTGTGATTTTTGCACATTGATTTTTGTATCTTGAGACTTTTCTGAAGTTGCTTATCAGCTTAAGGAGA
TTTTGGGCTGAGATGATGGGGTTTTCTAAATATACAATCATGTCATCTGCAAACAGAGACAATTTGACTTCCTCTCTTCCTATTTGAATCCCTATATTGC
TTTCTCTTGCCTGATTACCTTGGCCAGAACTTCCAATACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCTTATCTTGTGCCAGTTTTCAAAGGGAAT
GCTTCCAGCTTTTGCCCATTCAGTATGATATTGGCTGTGTGTTTGTCATAAAATACTCCTATTATTTTGAGATATGTTCAATCAATACCTGGTTTATTGA
GAGGTTTTAGCATGAAGGGCTGTTGAATTTTGTTGAAGGTCTTTTCTGCATCTATGAGGATAATCATGTGTTTTTTGTCATTGGTTCTGTTTATGTAATG
GATTACGTTTATTGATTTGCATATGTTGGACTAGCCTTGCATTCCAGAGATGAAGCCAACTTCATCATGGTGGATAAGCTTGTTGATGTGTTGCTGGATT
TGGTTTGGCAGTATTTTATTGAGGATTTTCACCATTGATGTTCATCAGGGATAGTGGTCTGAACTTTTTTGTTGTTGTTGTTGTGTCTCTGCCAGGTTTT
GGTATCAAGATGATGCTGGCCTCATAAAATGAGTTATGGAGGAGTCTCTGTTTTTCTATTGTTGGGAATAGTTTCAGAAGGAATGGAACCAGCTCCTTTT
TGTACCTCTGGTAGAATTAGGCTGTGAATCCATCTGGTCCTGGGCTTTTTTTGGTTGGTAGGCTATTAATTACTGCCTCAATTTCAGAACCTGTTATTGG
TTTAGTCAGGGATTCGACTTCTTCCTGGTTTAGCCTTGGGAGGGTGTATGAGTCCGGGAATTTATCCATTTCTCCAAGATTTTTTAGTTTATTTGCATAG
AGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTCTCGGATCAGTGGTGATCTCCCTTTTATCATTTTTTATTGTGTCTATTTGATTCTTCTCTC
TTTTCTTCTGTATTAGTCTGGCTAGTGGTCTATCTATTTTGTTAATCTTTTCAAAAAACCAGCTCCTGGATTCATTGATTTTTTGAAAATATTTTGTGTC
TCTATCTTCTTCAGTTCTGCTCTGATCTTAGTTTTTTCTTGTCTTCTGCTAGCTTTTGAATTTGTTTGCTCTTGCTTCTCTAGTTCTTTTAATTGTGATG
TTAGGGTTTTGATTTTAGATCTTTCCTGCTTTCTCCTGTGGGCATTTAGTGCTATAAATTTCCCTCTAAACACTGCTTTAGCCATGTCCCAGAGATTCTG
GTACGTTGTGTCTTTGTTCTCATTGGTTTCAAAGAGCTTATTTATTTCTGCCTTAATTTCATTATTTACCCAGTAGTTATTCAGGAGCAAGTTGCTCAGT
TTCCATGCAGTTGTGTGGTTATGAGTGAGTTTCTTAATCCTGAGTTCTAATTTGATTGCTCTGTGGTCTGAGAGACTGTTTTACTTCCAATTATGTGGTC
AATTTTAGAATAAGTGCAGTGTGGTGATGAGAAGAATGTATATTCTGTTGATTTGGGGTGGAGAATTCTGTAGATGTCTAGTAGGTCTGCTTGATCCAGA
GCTGAGTTCAGGTCCTCAATATCCTTGCTACTTTTCTGTCTCATTGATCTATCTAATATTGACAGTGGGGTGTTAAAGTCTTCCACTGTTATTGTATGGG
AGTCTAAGTCTCTTTGTAGGTCTGTAAGAACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATGTACTTAGGATGGGTAGCACTTCTTGTTG
CATTGATCTCTTTACCATTATGTAATGCCCTTCTTTGTCTTTTTTGATCTTTGTTCATTTAAAGTCTATTTTATCAGAGACTAGGATTGCAACCCCTGCT
TTTTTTTTCTTTCCATTTGCTTGGTAAATATTCCTCCCTCCCTTTATTTTGAGCCTATGTGTGTCTTGCACGTGAGATGGGTCTCCTGAGTGCAGCACAC
CGATGGGTCTTGACTGTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGGGCATTTAGCCCATTTACATTTAGGGTTAATATTGTTATGTGTGAATTT
GATCCTGTCATTATGATGCTAGCTGGTTATATTGCCCACTAGTTGATGCAGTTTCTTTATAGTGTCAATTGTCCTTACAACTGGGTATGTTTTTGCAGTG
GCTGGTACTCATTTTTCCTTTCCATATTTAGTGCTTCCTTCAGGAGCTCTTGTTTAAGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTGGTCT
GTAAAGGATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCC
CCCACTGTCTTCTGGCTTGTGGGGTTTCTGCAGAGATATCTGCTTTTAGTCTGATGGGTTACCTTTGTGGGTAACCAGACCTTTCTCTCTGGTTGCCCTT
AACATTTTTTCCTTCATTTTAACCTTAATGAATCTGATGATTCTGTGTCTTGGGGTTGCTTTTCTCGAGGAGTGTCTTTGTGGTGTTCTCTGTTTTTCCT
GAATTTGAATGTTGGCCTGTCTTGCTAGCCTGGAGAAGTTCTCCTGGATAATATCCTAAAGAGTGTTTTTGGTACATACGTTTAAACAACCAGATCTCCT
GAGAAATCACTCACTATTGGGAGGACAGTGCCAAGCCATTCATGAGGGAACCATGCCCATGATCCAAACATCTCCCACCATGCTTCACCTTCAACTCTGG
GGATTATATTTGACCATGATATATGGAGGGGACAAACATACAAATTATATCAAAGGCATAGCATGGCTACTGTGAAAGGAGGGTAAAAACACAAAGATGA
CATCACCACTGACCTCAGGGAGTGCCCAGTAGACTGAGGGAGACAAGTACATATTTTCCTGAAGGAGGGCACTGGATTGATGGCATGTTTAGAATGTGGA
AGTAGAGCGGCCACAGAAAGGCAGCCCGGCAGAGTGCTCGCACAAAGACTGGGCTAGAGACTCCCCACTGCATGTGATGTATCTGAGGAAAGTCATTAAA
ATAGGTGATGGTCACTTTCCATCAAGTCCCTGGTATGGTCCATGGAGGCAGGGTTGTCAATGTCATTTCGGCATTTCAGAGGCCTCTCAGGGTTTGGATA
TGGCAGAAGACAACCAGCAATGATTATGCATTGCAGAGATGCAGGTGAGCCCCAATTTCTTGCCAGCTGGGAAGTCGGTGCTAAGGGGCCTTGCTGTCTT
TCCTTGGAACATAGGATACCAATTTCTTTCTGGACAGAGAGTATTTGGTTGGCTAAAGTTAAAATCTAAATTTTGCTTTGGGATGAATTCCAAAAATATT
AGCTTTATTCAAATTTACTTTCACTTTATCTTTCTGAATCTTCAAGGTCCTAAAGCATTGCTTAGTAATTTTGTTTCTAAACTCACGTTACAGCACTGGG
CATGATCTGTCCAAGGCAGAGACTATAAGCTACTCTTATAGTACTCTTATGAGATACATACAAGTAGGTATCTCAAAAAATGATACTCATGTATTCCTGT
TCTTATGAGTAAATCATTGGCAGTGAGTGTGATTTTTTTTTTTTTTATGACAGGATAAATACACGCCCTCTATTGGGGTCAGGTTTTGTGCCTGTAGTTC
TTCCGCCTACTGTATCATAGCAGCTTAGAATCCCAGCTGCTGGCTCGGGCTGCAGTTCTCTCATGGCTCGCACAGGGTGGACCAGCCCCATTCCCCTATG
TGTTTSTCTGCTGCTGACCTGTGGCTTTGCTGAGGCAGGGAAGCTGCTGGTAGTGCCCATGGATGGGAGTCACTGGTTCACCATGCAGTCGGTGGTGGAG
AAACTTATCCTCAGGGGGCATGAGGTGGTTGTAGTCATGCCAGAGGTGAGTTGGCAACTGGGAAAATCACTGAATTGCACAGTGAAGACTTACTCAACCT
CATACACTCTGGAGGATCTGGACCGGGAATTCATGGATTTCGCCSATGCTCAATGGAAAGCACAAGTACGAAGTWTRTTTTCTCTATTWMTGAGTTCATC
CAATGGTTTTTTTRACTTATTTTTTTCGCATTGCAGGAGTTTGTTTAATGACCGAAAATTAGTAGAATACTTAAAGGAGAGTTCTTTTGATGCRGTGTTT
CTKGATCCTTTTGATRCCTGTGGCTTAATTGTTGCYAAATATTTCTCCCTCCCCTCTGTGGTCTTCRCCAGGGGAATAGSTTGCCACTATCTTGAAGAAG
GTGCACAGTGCCCTGCTCCTCTTTCCTATGTCCCCAGAATTCTCTTAGGGTTCTCAGATGCCATGACTTTCAAGGAGAGAGTAYGGAACCACATCRTGCA
CTTGGAGGAMCATTTATTTTGCCAGTATTTTTCCAAAAATGCCCTAGAAATAGCCTCTGAAATTCTCCAAACMCCTGTCACRGCATATGATCTCTACAGC
CACACATCAATTTGGTTGTTGCGAACAGACTTTGTTTTGGACTATCCCAAACCCGTGATGCCCAATATGATCTTCATTGGTGGTATCAACTGCCATCAGG
GAAAGCCATTGCCTATGGTAAGTCACCTCTCCTTTAGCACATTAGGAATAATCTGGCTTTGGAAATTAAAAAAAGATTCCTTACTGAATTGTGATTTGAC
ATTTTCATTTGTTGCATTTCAAATTTCTTTCCAGTTTAACAGATTATTTTGTGCCAATTTATGTACTCATCAGTTATCAAATTTTATAAAACTGCCCTTC
TTGAAGGTGTGTGTATATAATTTAAAAATTGTAGATCGTATTCAGCTTACATTTTTGAGTACCATGTTTAGAAAAGTACCAAAAACCACAGTAAGAAATT
GAACTTTCCTTTTTTGCTAATTCTATGTGACCCCCTAGAGCAAATGCTCTTAGCAGTTTTGCATACATTCTTTTCATTAAAAAAAGTATTTTAGGTGTAT
ATATTTAATTTAAAAATTATAGATCATATTTAGCCCACGTTTTTGAGTACCGTGTTTAGAAAAGTACCAAAAACCACAGCAAGAAATGAAACTCCCCTTT
TTCCTAAGTTTTCTGACCCCTAGAGGAAATGCTCTTATCAGTTTTGTGTATATTCTTTTCAGTATAAAAAAAGTTTCATTTATATGCAATATCTAATGTA
AATTCTCATACCTATTTTGTTAAAATAAACTTTTATGCTGTGCTGGACATATTCTTCTTTACCTTGCATTTTTTATTTGCCAATAAATTGTAGATTCCTT
TATACACCAATACAGACAGATTTGACAAGTTCTTTTCATAATTGCATAAAAGTCTTTACTTTGGATGCTATGTAGTTTTTTAAACCAATTAATATTGATA
TATGTTTAGGCATTTTCCATTTTTGCTTTTATGAATAAGGCTGTGTAAACATTCTTTAATAATTTCCTTGTGTGAATATATTTCTATATTCTTGCTTTTA
TCTTAGTAGACTAGAGTCCTACATGTAGGGTTAGAGGGTTTTCCTGAATTGAGAAGATTGGCATCTTTTTGCTATTATATCTTCCTGTTCAGGAATATGT
GTGTCTCACTATTTATTCAGGTCTTGTTTTATATACATAAATAAAAATTTTCACTATATAAGCATTTATGTTTGTTATTAACATTTATTCCTTGGCATTT
TATGATTTTTGAAACTATTTTTTTACAGGGTAATTTTTCCATTTCTACAATTAACTGACTATTGGTAATTAAAGTTTTGGTTTTTGCGTATGTATCTTGT
ATCCAGCCACATTACTAACTTTTCTTATTATTTTGTAGTATGCATTAGATGTACAATATGCAATACCATCTGCAAGTAATTCCCTTCTCTGATATTTATA
CTGCTTCTTTTGCTTTGCTGGAGCATATACTTCCAAAACATTATTGAGTAATATTGTTAGAGTAGCCAGTTTAAATAGGGATTTGGTAGCTTGTGACTGA
AAAATCCTTGAAAAATACCAGAATAAGATTCTTGGCAAACGCATAGTTGCTAAATCCAGATGAAACACCTGGTGTCTCATCTCATTATATTATTTTATTA
GGGATGGAGTATACATTTTTGTCTATTGTTCTGGCTTCTTATAAGGTTCAGTAGACTTTGTAACAGTCATATCTGTCATTGGCAGATGGTTGGTGAAAGA
GTGACCGTTCAGCCATCTCACAGGAAAGTGAAATAATGCTCTTTCTAAAAAGCAGGAAGACTACAGTTGTAGGCCTTTCAAAATTAGGCATGACTTTCAG
CTCACGGCAAGATCAGGTGAAGAGATGCAAGTTGCAGGACTCTAAGAGGTTGGACGTATCAAAGCACTTTTCTCCTCATTATCCTCCATTAATTACAGTA
CCAAGCACCACCCATGTGTTGCCTGCACCCTACACCCTTTGGCCGAGTGTGAGGCTCTGCCACTTCCTGAACCCACACTGAGTTTATTGTGGCCCAAGGG
GTCACCCAGAGGCCTTTAGAGATATAAAAAMGTATATATGATTTTATATCACCTACGATAGGGAGATATCCATAAAAAAAGGAAACATTAAACTCTACAT
GGTTTCAGTTATTTTGATTATAAATCTTTTATGAGATATGAAATAAATGTGTTTCTATATCTATTAAAGAATATATATGTATGAAAGTTTTTATACTTGC
AGAAGGTTATGTGTATTAATGTATATATTTATGATTATATGCATAAAGCCAGCAGAATTCTCACAGAGGAATTCAGATCTGAAAGAGGGCTTTCTGTCAA
AGAGCCTTGGATATGGCCCAACCACAAAAGTAAAAGTCAACTGTCATCGAAAGAAGGATGGACACTGCGTATTGCTCCTTCCTTGTTTCAGATGCCAGGA
TATGTCTGGGAAAAGCATGCAGTTGGTTACATCTTGCTGGGAAACAAGATTCAGAGTGTGAGTCTCATCTGCCTGATGAGAAGGAAGCATTACTTAGTGA
TAGAGTATGTGTTTGCACATGTATGTGTTTGTGTATGTGCAGGTGTGTTTGYGTGCAGTGTCCCAGACCCTGCACAGGGGATTTCTTGAAGATCTCCTGT
AACAAAATCTCCTTGAGTCTATCCAGGAGAATTACATCCAGGGATGTAATTAAATACTTTAACAAAGATGGCAGATGGCCCCATCTCCAACGTCAGGGAT
CAAATTTCAACGTGAGATTTGGAGGGGATAAACTTTTAAACTTTATCTTTTGGTATGGTCATTGTTTTACATTTCAGTATTCCAATGTGTGTGTGTTGAT
TAAAGATGTGTAAATAATTCAGCAGAACAGCGAAATAGTTTTAATGAGAAAAAGAGGAAGTCACTCCTAGTCTCTTTGAATTTTTGGTGAGTTCCAACAG
AATTGATGACTGGTTTTAGGTGAAAAGAATTCGGGCTTCGTCTATACCATCCATGGTAGGTTCAGCTCTGCAGACCTGGGGATGGAATATGGTTACAGAG
CAAGAAAAGATCTGTGCTTCCCCCATTCCTCTAAGTTTCTGGCTCCAGTTTAAGATCCAAATTCAAAGKTAGCTTTTGGTGGACAAGACTAAGGCCTCCC
ACTAAAATTGTTTACTTCAAGTATTTATTTTCAAAGTTTTCCAACCTATACAAAGGAGAGACTTAGTGTCATGACCACCCATATATCAATCTTAGGTTAA
ATAATTTTCACTATTTTGCTGAACTGATTCATCTATCCCTTTTTTCTGTCTTTTTAAAGAAAACTTTTAAAGAGAAATTTGTGTCAATCTTTTTTTAAAT
TATACTTTAAGTTCTAGGGTACATGTGCACAACGTAAAGGTTTGTTACATAGGTACACATGTGTCATGTTGGTTTGCTGCACCCATCAACTGATCATTTA
CATTAGGTATTTCTCCTAATGCTATCCCTTCCTCAGCCCCCCACCCCATGACAGGCCCCAGTGTGCGATGTTCCCCTCCCTGTATCCATGAGTTCTCATT
GTTCAACTCCTACTTACGAGTGAGAATATGCACTGTTTGATTTTCTGTCCTTGTGATAGTTTGCTGAGAACGATAGTTTCCAACTTCATCTATGTCCCTG
CAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGATGAACATTTCGG
TTGGTTCCAAGTCTTTGCTGTTGTGAATAGTGCTGCAATAAACATACGTGTGCATGTGTCTTTATAGTACCATGATTTATAATTCTTTGGGTATATACCC
AGTAATGGGATCACTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATTGCCACACTGTCTTCCACAATGGTTGAACTAATTTACACTCCCACC
AACAGGGTAAAAGCGTTCCTATTTCTCCACATCCTCTCCAGCATCTGTTCTTTCCTGAGTTTTTAATGATCGCCATTCTAATTGGCATGAGATGATATCT
CATTGTGGTTTTGATTTGCATTTCTGTGATGACCAGTGATGATGAGCATTTTTTCATATGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGCCTG
TTCATATCCTTTGCCCACTTTTGATGGGGTTGTTTTATTCTTGTAAATTTTTTTGAGTTCTTTGTAGATTCTGGATATGAGCCCTTTGTCAGGTGGATAG
ATTGCAAAAATGTTCTCCCATTTCATAGGTTGCCTTTTCACTCTGATGATAGTTTCTTTTGCTGTGCAGAAGCTCTTTGGTTTAATTAGATCCCATTTGT
CAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGTCATGAAGTCTTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGT
TTTTATGGTTTTAGGTCTTACATTTAAATCTTTAATCCATCTTGAGTTAATTTTTCTATAAGGTGTAAGAAGGGATCCAGTTTCAGCTTTCTACATATGG
CTAGCCAGTTTTCCCAGCACCATTTATTAAATARGGAATATTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGAAGGTTGTAGATATGTGG
TGTTATTCCTGAGACCTCTGTTCTGTTCCATTGGTCTATATATCTGTCTGGGTACCAATACGATGCTGTTTTGGTTACTGTAGCCTTGTGATTTAGTTTG
AAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTTGCTTAGGATTGTCTTGGCTATATGGGCTCTTTTTTAGTTCCATATGAAATTTAAAGTAGTTT
TTTCCAATTCTGTGAAGAAAGTCAATGGTGGCTTGATGGGGATAGCATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTTGTGATATTGATTCT
TCCTATCCATGAGCATGGAATGTTCTTCCATTTCTTTGTGTCCTCTTTTATTTTGTTGAACAGTGGTTTGTAGTTCTCCTTGAAGAGGTCTTCGCATCCT
TTGTAAGTTGGATTCCTAGGTGTTTTATTCTCTTTGTAGTAATTGTGAATGCCATCTAGTCATTTTAAAAAGAAATTCTTGGCATGTCATTCCATCACCG
AATACTTAATTAAATATAAAAAATAAGAAACATTTGTTACATAGCCACAATATCATTATCATATCTATGACAGTAAAAATTTTTTAATATTATCTCATTT
CCAGTTCATAATTAAATTTCCCCCATTTTCTTGAACAACATCTTTCCATGTAGATCAATGGAATAGAATGGAGAATTCAGAAATAAACCCATWCGTTCTK
GGCCAATTGACARGATGTCAAATTTTGATAAGGGTGTCAAGAWCATTCAAATGGGAAAGAATAGTCTCTTCAACAGAAGACCCACCCTGGGGTCCTTAAT
CTCCAGCATCAGACTCCAAGACCATTTGCAGAGATCATCCAGACAGCTCCCATCATGCCTCTGATGAATCCTTCACCATGTGCATCCACAGGGGTCCTGC
AAATATTTTCTCACAGTCCGTTGAGTGACTTTTCTTACAAATACTTTATTTTAGAATAAATAGAGGTTTATAGCAAGGTTGCAACAAATAGTTCAGAGAA
TTCTTATCTACCCTGTACCCGGTTTCCCCCATTGTTAAATGTTATGTTTCTATGGCACATCCATCACAACTCATTCACCAATATGACACATTATGATGAG
CTAAAGTCTGTTTCCTTCAGATTTCATTGATTTTTACTTAATATCCCTGTTCTTTTATGGGATCCCATTGATACCACCTGAAATGTAGTCATCATGTCTC
CTTAGTCTCCTCCAGCCTGTGACAGTTTCTCAGACTTTCCTTGTTTTTGGTGACTTGGGCAGTTTTGAGCAGTCCTGGTCAGGTGTCCTGTAGAATGTTC
CTCTAGAATGTCAGTGTGTGTTTGCCTGACATTTTTATCATGGTTAAACTGGGGTTATAGGTTTTTAGTAGGAAGATGCGGAGGTCTTTTCTTGTTTTCT
TGCATGTGAATATTCAACTGTAGAAAAGAGTGGCCTTTCCTCCAATGCACTTCTTGTACCTTTGTAAAAACTTGGCTGTTCATACATCTGTGCATGTATT
TCTAGACTTTGTATTCTGCTCCATTGAAATATTTGTGAAATATTTGATTACTATAGCTGTGTAATAATCTTGAAATGAGGTAGTGTTACCTATTTTTTTC
AAATTGTTTTTGCTATTGTAGGTCTGCTACATTACCACATGGATTTTAGAATAAGTTTGTTAGTTTGATTTTGATTGGGATTGTATTGAATTTATAGATC
AACTGGGGAGAAACAACATCTTAGCAATTTTGAATTTTCCAATTCATTAACATATCTATGTTAAGTGCCTCATCAGTGTTCTGTAGTTTTCAGTGTACAG
TCTTTCATAATTTTTGTCAGATATATTCCTAAGTATTTCATGTTTTTGATGCTATTTAAGTGATATTTTTATTCCAATTTTTAATTGTTCATTGCTAGTA
TAGTTGACCCCTGAACAATGTGGGAATGAAGGGGACCAACCCGTGTGAAGTAGAAAATCCACACAGATCTTTTGATTCTCGAAAAACATAACTACTAACA
ACCATTTACCAAAAGCCTTACCAATAGTATAAACAGTCAATTAACACATATTTTGGATGTTATTAGTATTATATCCTGTATTATTACAATAAAGCAAACT
AGAGAAAGGAAAATGTTATTTAAAAACATAACATATGAAAAAATGCCCAACATCACTAATCATCAGAGAAATGAAAGTCAAAACCACAATGAGATATCAT
CTCACACCAGTTAGAATGGCTGTTATTAAAAAGTCAAGAAACAATAGATGCTTGTGAAGCTGCTGAGAAAAAGGACCACTTGTACACTGTTGGTGGTGGG
AACGCAAATTAGATCATCCCCTGTGGGAAGTAGTTTGGAGATTTGACAAAGAAGTTAAAACAGAACTGTCATTCGACCCAGCAATCTCATTACATTACTG
GATATATATATTAAAAAAATCATTTTACCAAGAAACACATGCACTGGTATGTTCATTGCAGCTCTATTCAGAATAGAAAAGGCATGAAATCAACCTAGGT
GCCTGTCAATAGTGGATTGGATGAAGAAAATGTGGTACATATACACCATGGAATATGCAGTCATAAAAAAAGAATGAAATCATGTCCTTTGTAACAACAT
GGATGCAGCTGGAGGTCATTATCCTAAGGGAATATATACAGGCACAGAACACCAAATACCATGTGTTCTCACTTAGAAGTGGGAGCTAAATAGTGGGTAC
TCATGGGCATAAAGATGGCAACAATAGACACTATGGACTACTAAAGGGGAGAGGAAGGGATGCAGGAGTTGAAAAACTATTGGGTAATATGCTCAGTACT
TGGGTGATGGGAGCAATCATGCCCCAAACATCAGCATCACACAATATACTCAGGTAACCTGCACATGTACTCCTGAATCTAAAATAAAAGTTGAGTATGT
ATAAGAGGAAGTCATTCATCATAAAGGTCTCCATCCTCATCATCTTCCATTGAGTGRGCTGTGGAGGAGGAGGAGTAGATGTTGGTCTTACTGTCTTAGG
GTGGCAGAAGCAGAAGAGGTAGAGGAGGTGGAAGTGGAGGCAGGAGAGGCAGGTGCACTTGGTGTAAATTTATGGAAATACATCATAATTACTGTCTGTT
TTTTTCTCTTTGATGTATTTAAAAATGCTTTTATACAGTACTAATCCTTCTTCCCCATTTGCTTTAGTTTCAGTGCCYATAAGGGTTCATGTTGTAATAG
AAGTCAATAGCAGTCTTAAATAACTGGAAGCCTTTCCATGAGGCTTGTATTGTGTAAGGCCATTTTTTTTTTCTGGCACTGCTTCTTCTACATCTTCTTT
CTCATCAAGTAGTGAWTGGAAAGCACTAATCTCTATCAGGTCATCTATTAATTCCTCGAGTGTGGTGTCTATTGACTCTTGAATTTCTCCAAGATTCATA
TTTTGAAACACTTTATCCCCCACCTTATGTTGCTGTATCCATAATCCCTTTCATGACTTCCTTGATTGGCTCTGTCTTAAATCCTGTGAAGTCATTCGCA
ACATCTGGTCACAGTTTTCTCCAGAAGAAATGAATTGTTTGGGGCTTGGTGGCTTTCACAGCTCTGTCTATAACAACAATGGCATCTTCAATGGTGTAAT
CCTTCTGGACTTTCATGACATTCTCTATCCAGATTCTCTTTCCTAGTATTGACAATCTTTTCCATAGAAAACTGTGTGTAATGAGTTCTAAAGTTCCTTA
TGACCCCTGATTGAGAGACTGAATTAGAGATGTTGGGTTTGGAAGCAGGTAGACCACTTTGACACCTTCAGTGTTGAACTCATGGATTCTGGGTGGCTAG
CATTGTCCAATATCAAAAGAATTTTAAAAGACAGTCCCTTACTGGCAATGCATTTTCTGCCTTCAGGGACAAAGCGTTGATGGAACCAATCCAGAAAAAG
TGTTCTTGTTGTCTAGGCCTTCTTGTTGTACAACCAAAAAACTGTCAGTGGGTGTTGATCTTGTCCCCTCAAGGCTTAAGGTTTGGCAGTTCTACACATG
AGGTCAGTCCTGAGTGTAAACTTGACTGCATTTACACAAAACAGTAGAGTTAGCCTATCCCTTCCTGCCTTGCATTCTGGTGCTTGGTTTACTTCCTTGC
TAATAAATGTCTTTTGTGTCATCTTGTTTTTGTTTTTGTTTTTTTCCAGAATAGGGCAYTGTCATCTGTATTAAAACCCTGTTCAGGCAGATATGCTTTC
CCCTCAATAATTATCTTCATGGCATCTGGGAACTCATTTGTCTCCTTTTGCTTGGCAGAGGCTGCTTCTCCTGTTATCTTGACAATTTTAAAGCTGAACC
CCTTTCTAAAACTAGCAAACCATCCTTTGCTGCCATTAAATTTTCCAGTTTTAGATTCTTCACCTCTCTTTTGCTTTAAGTTGTCATATAATGACTTTGC
ATTTTCTCAAATCACATTGGCATCTATAAATACGCCTTTCTTATAGCAATGCTACACCCAYGTTAAAGCTGCATTTTCAATATGAGACAAAAACGTATTT
CAGAAAAAAATGCAAGGTTTGGCTCCTGCTGGCATAGCTGCAGCAATGTCTTCATGAATCTCCCTTCCTTCCTTCCTTTCTTCCTTCCTTCCTTCCTTCC
TTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCTTTCTTTCTTTCTTTTCCACTGGTCCTTATCTAGCTTCATTTATTTTGAAATGGCAGGCAT
TCACCACGGTAGAGCTCAGCCTATGGTCCCAATCAAGCAATTCGACTTTTTTGGTTATGTCATGATTTCTTTTTGCTTCTTGGGAGTAATTCCAGCATCA
TTAGGGGCACTCTGTAGTCCCATGACTGTATTCAAGATTTACAATATTGCACCAAACATGATGAAAAATACAGTAGAGCCATGAGAGATCACTTTTTACT
CTGACATGCAATTTATTGGAGAGATGAAATGCTCAAACAGAGAGTATAARTGTTATATCACATGCACTTAAGCCACACTTCAGCTCACTGGAATAGCAAC
AGGAGGTAGCTACAAAATTATTACAGTAGTGTAGTATATACTATAGGTAATTTTATGCAGTTAAGATTTAATGCTGCCTCTATATGTTTGTATTTCTTTC
CTGTGCTAATGATGCAATGTACACTTTGGAAATGTTTGTGTGTGGTTTAATAAATTTTTTATTGATTTGTGCATATTTTAAAGTAATAAATAATAACATG
GTATCTGCACATGGTTTCTGCAGTCATGGCATAGCTTTAAAAATTTTTAGATATTTCTAGTTTATGTGGTTTATATATATATTTTTTCAAACTGTTAGAA
ATTTCTTAAAATTTTTGCAATATATTTATTTTTAAAAATCTGCATATAAGTGGATCCACACAGCTCAAAACCCTACTGTTCAATGTCAACTGTATATAGA
AAGAAGATTAGTTTTTAAGTATTGTATCTTGCAACCATGCTAAACTTACGTATTTGTTCTAGGAGATTTTTGTAGTTTGTTATTATTCCTACATAGATAA
ACTTATTGTCTGTGAATGAGACCTTTTTTATTTTTTCTTTACAATCTGGACACTTTTTACTTCTATTTCCTCCCTGACTGCACTGGCTGGAACCTGAAGA
ACAATGTTGAGTAGAAGTGGGGAGGGCCCCTGTCCTCGGCATGTGTTTGCCTTGAGGAGTGGAGCATTCAGTCTTTCACCATCAAGGATGATATTAACTG
TGGGTGCCTCCAAGATGTCCTTCATTAGTTTAAGATACTTCCCTTTATTTTCCGAGTTTKTTGAGAATTTTTTATCACAAATCGATTTTGGATTTTTGTC
AAACACTTTTTCCATACCTATTGAGATAATTATATGCTTATACTTTTTTAGTTTATTTATATGGTATGTTACTTTAATTGATTTATAAAATTATTTATTT
AATCATTAATTGTGGTGAAAACACATAGCATAAAATATATCATCTTCATCACTTTAGGTGCACAGTTCAGTATTGAGTACGTTCACATTGCTGTGCAACC
AACACCACCATTCATCTCTAGAACTCGCTTCATCTTCCCAAACTGAAACTTTGGACCCATTAAAAAAGAATACTCCATTCCCCCCTCCTCTCAGCCCTTG
CCAACCAGCATTCCACTCTTTTATTCTACGTATCTGACTATTTTAGATACTTCATATAAGTAGAATCATACAGCATTTGTCATTTTGTGATTAGCTTAGT
TCACTCTGCACAATGCCCTTAAGTTTCATTCATGTTAGCATATGTCAGAATTTTCTTCCTTTCTAAGGGTGAATAATATTTCATGCTGTATACATACACC
ACATTTTTGCTTGGGTTGTTTCCACTTCTTGTCTGTTGTGAGTTATGCTGCTATGAACATGGTGGCACAACCTTGATTAATTTTCTAATGTCAAACCAGC
CTTGCATTCCTAGGATAAACCCCACTTGGTTATGGTGTCTAATCTTTTTGTGTAGTACCTATTTTAAAATATTACAGACTTTGACTTGCCAATATTTTGT
TTAAAATTTTTGCATCTAAGCTCATGAGGGTCTGTAATTTTCCTATCTTTTAATGTCTTTTTCTGGTTTTGGTACTGTGATAATGCTGGTCTCATAAAAT
GAATTAGGAAATCCCCTAGGCTTCAGTTTTTGGGACTAGTTTGTGAATAATTGGTATTATTTATTCTTCAATGTTTGCTGGATTCATCAGTGTTGTCATC
TGAGCTTCACTTTGTTTTGTGTGGGAAGGTTTGAATTACAAATACAAATTCAATTTAAAAGATACAGGTTACTTCTATTGGGGTTATGCATTTATTCTTG
TGACAAGTCTGGCAGTTTGTGTCTTTAACAAAATGTGTCCATTCTATCTAAGTTGTAGACTTTTTTTTGGCATAAACTTGTTCATGTTATTCTCTTAACA
TTTTAACATCTGTAGAATCTATGGTGATACCACCTCTCTCATTCCTAATATTGATAATTTCTTTCTTCTCTCTTTTTTTTTCAGATCAAGGTGGCTAGAG
CTTTACCAAATTAATTGATCTCAACAAAYCAGCTTTGGTTTCATTAATTTTCTCAACAAACCAGCTTTGGTTTCATTAATTTTGCCTGTTTTTTAAATGC
ATTTTCCATTTCATTGATTTCTGTTCTGAAGTAAGCCTCCAGGGGAGGTAGATCACTGACCATCATGTTTATTTTTCAAGGACAGTCATCTGCAAGTGCC
CCAGTCACCAAAAGAAAAGGTGACTAAGCAAATGTCTAGTACCAGTTAGGGTGTCCCGAAAGGAGCCATCTTGTGCTCCTACAAGGATTATACCCCGAGG
TTGTCTGCAGAATCTCTCACTAAATGTTCCTTAAGGTGTTGCCTGACACACACTGCTTAGCTCRTCCATGAAGGTATCAAGAAAACCTGCAGAATATAAT
TCTGTCCAGTGCAACAAATATTCYGGTTGATTTTCTTTGTGCAGGGCTGCATTTGTCTGTTTGGATTGCTGTAAAGGATACCTGAGGCTGGGTAATTTAT
AAAGAAAAGAGGTTTAATTGGCTCACAGTTTGGCAGACTTTATATGAAACATGGTGCTAGCATCTGCTTCTGGTGAGGCCTCAGGAAGCTTACAATCATG
ACAGAAGGTGATGGAGAGCTGGCATGTCACATGGCAAGAGCAGGAGCAAGAGAGAGACAGGGGAGATGGCACATACTTTTTTATTTTAATTTTTATTTTT
ATTTCTGGGGTACATGTGGAAGATGTTCAGGTTTGTTACATAGGTAAACATATGCCATGGTAGCACATACTTTTTTTTTTTTCCTGCTCTAAAACTCTTT
TTTTTTTTTTATACTTTAAGTTCTAGGATACATGTGCAGAACATGCAGGTTTGTTACATAGGTATACACGTGCCATGGTGGTTTGCTGCACCCATCATTC
CTTCATCTACATTAGGTATTTCTCCTAATGCTTTCCCTCCCCTAGGCCCTCACCCCCCGACAGGCCCTGGTGTGTGATGTTCCCCTCCCTGTGTCCATGT
GTTCTCATTGTCCAACTCCTACTTGCAACTCCAACTCCAACATGCAGTGTTTTGTTCTCTGTTCTTGTGTTAGTTTGCTAAGAATGATAGTTTCCAGCTT
CATCCATGTCCCTGCAAAAGACATGAATGCATCCTTTTTAATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTTATCCAGGCTATCATT
GATGGGCATTTGAGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAATAAAATACATGTGCATGTGCTTTATAATAGAATGATTTATAATCCTTT
GGGTATATACCTAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGGTTCTAGATCCTTGATGAATCGCCACACTGTCTTCCACAATGGTTGAACTAATT
TACACTCCCACCAACAGCATAAAAGCGTTCCTATTTCTCCACATCCTCTCCAGCATACGTTCTTTCCTGAGTTTTAATGATTGCCATTCTAACTGGCATG
AGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTAATGACCAGTGATGATCGGCTTTTTTTGATATGCTTGTTGGTTGTATAAATGTCTTCTTTTG
TGAAGTGTCTGTTCATATCCTTCGACCGCTTTTTGATGGGGTTTTTTTTTCTTGTAAATTGGTTTAAGTTCCTTGTAGATTCAGGATATTAGCCCTTTGT
CAGATGGATAGATTGCAAAATTTTTCTCCCATTCTGTAAGTTGCCTGTTCAGTCTGATGATAGTTTCTTTTGCTGTGCAGAAGCTGTTTAGTTTAATTAG
ATCCCATTTCTCAATTTTGGCTTTTGGTTGTCATTGCTTTTGGTGTTTTAGTTATGAAGTCTTTGCCCATGCCTATKTCCTGAATGGTATTGCCTAGGTT
TTTTTCTAGAGTTTTCATGGTTTTAGGTCTTATGTTTAAGTCTTTAATCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGGGTCCAGATTCAGT
TTTCTACATATGGCTAGCCAGTTTTCCCAACACCATTTATTACATAGGAAATCCTTGCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGGTCAGATGGT
TGTAGATGTGTGGCATAATTTCTGAGGCCTCTGTTCAGTTCCATTGGTCTATATATCTGTTTGGGTACAAGTACCATGCTGTTTTTGTTACTGTAGCCTT
GTAGTATAATTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTTGCTTAGGATTGTCTTGGATATACAGGCTATTTTTTAGCTCCGTATGAAC
TTTAAAGTAGTTTTTTCCTATTCTGTGAAGAAAGTCAATGGTAGCTTGATGTGGATAGCATTCAATCTATAAATTACCTTCAGCAGTACGGCCATTTTCA
CAATATTGATTCTTCCTATCCATGAGCATGGAATGATTTTCCATTTGTTTGTGTCCTCTCTTATTTACTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAG
GTCTTTCCCATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTTTTTGTAGCAATTGTGAATGGGAGTTTACAATTTGGCTCTCTGTTTTTCCATTAT
TGGTGTATAGGAATGCTTGTGATTTTTGCATATTGATTTTGTAACCTGAGACTTTTCTGAAGTTGCTTATCAGCTTAAGGAGTTTTTGGACTGAGATGAT
GGGGTTTTCTAAATATACAATCATGTCATCTGCAAACAGAGACAATTTGACTTTCTCTCTTCCTATTTGAATACCCTGTATTTCTTTCTCTTGCTTGATT
GCCCTGGCCAGAACTTCCAATACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCTTATCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGCTTTTGCC
CATTCAGTATGATATTGGCTGTCGGTTTGTCATAAATAACTTTTATTATTTTGAGATACGTTCCATCAATAACTAGTTCATCAAGAATTTTTGGCATGAA
GTGCTGTTGAATTTTATTGATGTAATCATGTGGTTTTTGTCATTGGTTCTGTTTATGTGATGGATTATGTTTATTGATTTGTGTATGTTGGACCAGCCTT
GCATCCCAGGGATGAAGCCGACTTGATCATGGTGGATAAGCTTTTTGATGTACTACTGGACTCAGTTTGCCAGTACTTTATTGAGGATATTTGCCATCGA
TGTTCATCAGAGATATTGGCCTGAAATTTTTTTGGTTGTTGTGTCTCTGCCACATCCTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTTATGGAGG
AGTCCCTCTTTTTCTATTGTTTGGAATAGTTTCAGAAGGAATGATACCAGGCCCTCTTTGTACCTCTGGTAGAGTTCGGCTGTGAACTCATCTGGTCCTG
GGTGTTTTTGGTGGGTAGGCTATTAATTACTGCCTCAATTTCAAAACCTGTTATTGGTCTATTCAGGAATTCTGCTTCTTCCTGGTTTAGTCTTGGGAGG
ATATACGTGTCCAGGAATTTATCCATTTCTCCTAGAATGTCTAGTTTATTTGTGTAGAGGTGTTGATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGG
GCTCAGTGGTTATCTCCCCTTTATCATTTTTTATTGTGTCTATTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTGGCTAGTGGTCTATCTATTTTGTTA
ATCTTTTCAAAAAACCAGCTCCTGGATTCATTGATTTTTTGAAGGGTTTTTTGTGTCTCTATCTCCTTCAGTTCTGCTCTGATCTTAGTTTTTTCTTGTC
TTCTGCTAGCTTTTGAATTTGTTTGCTCTTGCTTCTCTAGTTCTTTTAATTGTGATGTTATGGTTTTGATTTTAGATCTTTCCTGCTTTCTCCTGTGGGC
ATTTAGTGCTATAAATTTCCCTCTGAACATAGATTTAGCTGTGTCCCAGAGATTCTGGTAGGTTGTGTCTTTGTTCTCATTGGTTTCAAAGAACTTATTT
ATTTCTGCCTTAATTTCATTATTTACCCAGTAGTAATGCATGAGCAGGTTGTTCAGTTTCCATGTAGTTGTGCAGTTTTGAGTGAGTTTCTTAATCCCGA
GTTCTAATTTGATTGCACTGTGATCTAAGAGACTGTTTGTTATGATTTCTGTTCTTTTGCATTTTCTGAGGAGTGTTTTGCTTCCAATTATGTGGTCAAT
TTTAGAATAAGTGCAATGTGGTGCTGAGAAGAATATATATTCTGTTGATTTGGGTTGGAGAGTTCTATACATGTGTATTAGGTTTGCTTGGTCCAGAACT
GAGTTCAAGTCCTGAATTTCCTTGTGAATTTTCTGTCTCGTTGATCTGTCTAATATTGACAATGGAGTGTTAAAGTCTCCCASTATTATTGTATGGGAGC
CTAAGTCTCTTTGTAGGTCTCTAAGAACTTGCTTTATGGGTGCTCCTGTATTGGGCGCATATATATTTAGGATGGTTAGCTCTTCTTGTTACATTGATCC
CTTTACCATTATATAATGCCCTTCTTTGTCTTTTTTGATCTCTGTTGATTTAAAGTCTGTTTTTATCAGAGACTAGATTGCAACCCCTGATTTTTTTTGC
TTTCCATATGCTTGGTAAATATTCCTCTATCCCTTTATTTTGAGCCTATATGTCTTTACACGTGAAATGGGTCTTCTGAATGCAGCACACTGATGGGTCT
TGACTGTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGGGCATTTAGCCCATTTACATTTAAGATTAATATTGTTATGTGTGAACTTGATCCTGTCA
TTATGATGCTAGCTGTTTATTTTGCCTACTAGTTGATGCAGTTTCTTTATAGTGTCAATTGTCCTGACAATTGGGTATGTTTGTGCAGTGGCTGGTACCG
GTTTTTTCTTTCCATATTTAGTGCTTCCTTCAGGAGCTCTTGTAAGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGATTTT
ATTTCTCTTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGATTGAAAATTCTTTCCTTTAGGAATGTTGAGTTTTGGTCCCCACTGTCTTC
TGGTTTGTTGGGTCTCTAAAGAGAGGTCTGCTGTTAGTCTGATGAACTTCTTTTCGTGTGTAACAGGACCTTTCTCTCTGGCTGCCCTTAACATTTTTCC
TTCATTTCAACSTTGGTGAATCTGATGATTATGTGTCTTGGAGTTGCTTTTCTCGAGGAGTATCTTTATGGTGTTCTCTGTGTTTCCTGAATTTGAATGT
TGGCCTGTCTTGCTAGGCTGGGGAAGTTCTCCTGAATAATATCCTGAAGAGGGTTTTTGGCATTTTTTAAAAAATTATACTTTAAGAGATCTGGGATACA
TGTACTGTCGTATACTTTTAAACAATCAAATCTCATGAGAAATCACTCACAATTGGGAGGGCAGTGCCAAGCCATTCATGAGGGATCCATGCCCATGACC
CAAACACCTCCCACCATGCTTCATCTCCAACACTGGGGATTATATTTGACCATGATATATGGAGGGGACAAACATACAAACTACGTCAAAGGCAAAGCAT
GGCTACTGTGAAAGAAGGGTAAAAACACAGAGATGGCATCACCTCTGACTTCCAGGAGTCCTCAGCAGACTGAGGGAGACAAGTACATATTTTCCTGAAA
GAGGTCACTGGAGTGATGGTGTGTTTAGAATATAGAAGTAGAGCAGTCACAGAGAGGCAGCCCAGCAGAGTGTTCGCACAAGGACTGGGCCAGCAACTCC
CCACTGCATGCAACGTATCTGAGGAAAGTCATTAAAATAGGTGATGGTCACTTTCCATCAAGTCCCTGGTATGGTCCATGGAGGCAGGGTTGTCAATCTC
ATTTTGGCATTTCAGAGGCCTCTCAGGGTTTGGATATGGAAGAAGACAACCAGCAATGATTATGCATTGCAGAGATGCAGGTGAGCCCCAGTTTCTTGCC
AGTTGGGAGGTCAGTGCTAAGAGCCTTGCTGTCTTTCCCTGGAACATGAGATGCCAATTTCTTTCTGGACAGAGAGTATTTGGTTGGCTAAAGTCAAAAT
CTAAATTTTGCTTTGGGATAAATTCCAAAAATATTAGCATTATTCAAATTTACTTTCACTTTATCTTTCCGAATCTTCAAGGTCCAAAAGCATTGCTGAA
TAATTCTGTTTCTAAACTCACTTGCAGCGTGCTCTCCCTCCAAGGCGAAGACCATAATCTACTCTTGTCTGGAAATCATACAAGTAGGTATCTCAGCAAA
TGATACTCGTGTGTTATCGTTCTTATGAGTAAATCATTGGCAGTGAGTGTGATTTTTTTTTTTTTTATGAAAGGATAAATACACGCCCTCTATTGGGGTC
AGGTTTTGTGCCTGTACTTCTTCCGCCTACTGTATCATAGCAGCTTAGAATCCCAGCTGCTGGCTCGGGCTGCAGTTCTCTCATGGCTCGCGCAGGGTGG
ACCAGCCCCGTTCCTTTATGTGTGTGTCTACTGCTGACCTGTGGCTTTGCCGAGGCAGGGAAGCTGCTGGTAGTGCCCATGGATGGGAGTCACTGGTTCA
CCATGCARTCGGTGGTGGAGAAACTTATCCTCAGGGGGCATGAGGTGGTTGTAGTCATGCCAGAGGTGAGTTGGCAACTGGAAAGATCACTGAATTGCAC
AGTGAAGACTTACTCAACCTCGTACACTCTGGAAGATCAGAACCGGGAATTCATGGTTTTCGCCCATGCTCAATGGAAAGCACAGGCACAAAGTATATTT
TCTCTATTAATGAGTTCATCCAGTGGTTTTCTTGACTTATTTTTTTCGCATTGCAGGAGTTTGTTTAATGACCGAAAATTAGTAGAATACTTAAAGGAGA
GTTCTTTTGATGCAGTGTTTCTGGATCCTTTTGATACCTGTGGCTTAATTGTTGCTAAATATTTCTCCCTCCCCTCTGTGGTCTTCACCAGGGGAATATT
TTGCCACCATCTTGAAGAAGGTGCACAGTGCCCTGCTCCTCTTTCCTATGTCCCCAATGATCTCTTAGGGTTCTCAGAYGCCATGACTTTCAAGGAGAGA
GTATGGAACCACATCGTGCACTTGGAGGACCATTTATTTTGCCAGTATCTTTTTAGAAATGCCCTAGAAATAGCYTCTGAAATTCTCCAAACCCCTGTCA
CGGCATATGATMTCTACAGTCACACATCAATTTGGTTGTTGYGAACGGACTTTGTTTTGGACTATCCCAAACCCGTGATGCCCAACATGATCTTCATTGG
TGGTATCAACTGTCATCAGGGAAAGCCATTGCCTATGGTAAGTCACCTCTCCTTTAGCACATTAAGAATAATCTGGCTTTGGAAATTAAAAAAGGATTCC
TTACTGAACTGTGATTTGACATTTTCGTTTGTTGCATTTCAAATTTCTTTCCAGTTTAACAAATTATTTTSTGCGAATTCATGTACTCATCAATTATCAA
ATTTTATAAAACTGCCCTTCTTGAAAGTATATGTAATAATTTRAAAATTATAGATCATATTCAGGCTACATTTTAAAATACGATGTTTAGAAAAGTACCA
AAAACCACAGCAAGAAATGAAACTTCCGTTTTTTGTTAATTCTATGTGACCCCGTAGTTGAAATGCTCTTAAGTTTTGTGTACATTCTTTTCATTGAAAA
AAAGTATTTTAGGCATATGCAATATCTCATGTAAGTTCCCATACCTATTTAGTAAAAATAAAATCTAGTATTGGGCTGAACATATTCTTCTTTATCTTGC
ATTTTTCACTTGCCAATAAATTATGGGTACCTTTATAGAGCAATACAGACAGATTTGACAAGTTCTTTTAATAATTGCATAAAATTCTTTACTTTGGATA
CAATGTAGTTTTTTAACCAATTAATATTGATATATATATAGCCATTTTCCACTCTTTCCTTTTGTGAATAAGGCTGTGTAAACACTCTTCAATACTTTCC
TTGCGTGAATATATTTCTATATTCTTGCTTTTATCTTAGTAGACTAGAGTCCTACACGTAGGGTTACAGGGTTTTCCTGAATTGAGAAGACTGGCATCTT
TTTGCTATTAAGTCTTCCTGTTCAGGAACATATATGTCTCACTATTTATTCAGATCTTGTTTTATATACATAAATAAAAATTTTCACTATATAAGCATTT
TATGTTTGTTTTTAACATTTATTCCTTGGCATTTTATTACTTTAGAAACTATTTTGTACAGGGCAATGTTTCCATTTCTACATTTAACTGATTACTGGTA
ATTAAAATTTTGGTTTTTGCATATGTATCTTGTATCCAGCCACATCACTAACTTTTCTTATTATTTTGTAGTATGCATTAGATGTACAATATACAATACC
ATCTGCAAGTAATTCCCTTGTCTGATATTTGTACTGCTTCTTTTGCTTTGCTGGAGCATATACTTCCAAAATATTATTGAGTAATATTGTTAGAGTAGCC
AGTTTAAATAGGGATTCGGTTGCTTGTGACTGAAAAATCCTTGAAAAATACCAGAATAAGATTCTTGGCAAACGCATAGTTGCTAAATCCAGATGAAACA
CCTGGTGTCTCATCTCATTATATTATTTTATTAGGGGTGGAGTACACATTTTTATGTATTGTTCTGGTTTCTTACAAGATTCAGTAGACTTTGTAACACA
GTTATATCTGTCATTGGCAGATGGTTGGTGAAAGAGTGACCGTTCAGCCATCTCATAGGAAAGTGAAATAATGCTCTTTCTAAAAAGCAGGAAGACTACA
GTTGTAGGCCTTTCAAAATTAGGCATGACTTTCAGCTCATGGCAAGACCAGGCGAGGAGATGCAAGTTGCAGGACTCTAAGAGGTTGGACTTATCAAAGC
ACTTTTCTCCTCGTTATCCTCCATTAATTACAGTACCAAGCACCACCCATGTGTTGCCTACACCCCACAGCCTTYGGCCGAGTTGAGGATCTGCCACTTC
CTGAACCCACGCTGAGTTTATTGTGGCTCACAGGGTCACCTAGAGGCCTTTAAAGATATAAAAACCTATATATGATTTTATATCACCTGTGATAGAGGGA
TATCTATAAAAAATGAAACATTAAACTATATATGGTTTCATTTATTTTGATTGTAAATATCTTTTATGAGATATGAAATAAATGTGTTTCTATATCTATT
AAAGAATATACACATGTATGAAAGTTTTTATAGTTTGCAGAGGGTTATGTATATTAATGTATATTTTTATGATTATACCTGTAAAGGCAGCAGAATTCTC
ACAGAGGAATTCGATCTCAAAGAGGGCTTTCTGTCAAAGAGCCTTGGATATGGCCCAACCACAAAAGTAAAAGTAAATTGTCATCAAAAGAACGATGAAC
ACTGCATATTGCTCTTTCCTTGTTTCAGATGCCAGGATGTGTCTGGGAAAAGCATGCAGTTGGTTACATCTTGCTGGGAAACAGGATTCAGAGTCTGAGT
CTCATCTGTCTGATGAGAAGGAARCATTACTTGATGATAGAGTATGTGTTTGCACATGTATGTGTTTGTGTATGTGCAGGTGTGTTTGCGTGCAGTGTCC
CAGACCCTGCACAGGGGATTTCTTGAAGATCTCCTGTAACAAAATCTYCTTGAGTCTATCCAGGAGAATTACAGCCAGGGATGTAATTAAATACTTTAAC
AATGATGGCAGATGGCCCCATCTCCAATTTCAACATGGGATTTGGAGGGGACAAACTTTTAAACTATATCAATTGGTATGGTCATTCTTTTACATTTCAG
TATTCTAATGTGTGTGTGTTGATTAGTGATGTGTAAATAATTCAGCAGAACATTGAAATAGTTTTAATGAGAAAAAGAGGAAGTCACTCYTAGTCTCTTT
GAATTTTTGGTGAGTTCCAACAGAATTGATGACTGGTTTTAGGGGAAAAGAATTCAGGCTTCATCTATACCATCCATGGTAGGTGCAGCTCTGCAGACCT
GGGGATAGGATGTGGTTACAGAGCAAGAAAAGATCTGTGCTTTCCCCATTGCTCTAAGATTCTGGCTATAGTCCAAGATCCAAATTCAAAGTTAACTTTT
GGTTGACAAGACTAAGGCCTCCCACTARAATTGTTTACTTCAAGTATTTATTTTCAAAGTTTTCAAACATACAAAATGAAAAGACTATAGTGTAATGTGC
AMCTGTATATCAATCCTTAGGCTAAATAATTTTCAGTGTTTTGCTGTATTAATTCATCTATCCCCTTATTCTGACCTTTTAAAGAAACTTTTTGGCTGTC
ATTTTTTTAGTGGAAATTCTTGGCTTGTCATTCCATCATTGAATATTTTATTAAATATAAAAAATAAGTAAAATTTGTTACACGGCCACAATATCGTTAT
CACACCTAACACAATAATAATACTTTAATATTATCTCATTTCTAGCCCATAATTAATTTACCTCCAATTGCCTCATACAACATCTTTTTATGTTGATCTA
TGGAACAGAGAATTCAGAAATAAACCCATACATCCTTGGTCAATTGAGTAAGTTCCAAATTTTATGAGGGTGTCAAGACCATTCAAATGGGAGAGAACAG
TCTCTTTTTTAGGCTGCAAATGCTGTTCTTCCATAGTCCAACAGTGACCCTCCCCAATTTAGGGGCCAACCCAGGGATCTAGGTCCATGTAACCTCCTGA
TAGGCCAACAATCTTAGGTAGGGCCAACTCTATACCCTTGGTCAGTAGGAAGCAGTTGGAAGATGAGACCTTCACTCACATGCCAAAGATTTGTCATTGT
TGCTATGTCAGGGGGGAAATGTGGAGCCCTAATTAGGGAAAAAGAGCTAGGCTGGCAGGACCAGGGGAAAGCAAAAAAGAAAAAGCAGATGAACTATAAG
TCTCCCTTTCTTCATGGTCTAGGACACATAGCCCTCCTGCAAAAATAACATAATCTTCCTGCACCCAGCGATCACCAGACCCTCAGCTGATAGAAAAATG
CAAGTTATCTCACTGCAACCTTGGCATTATCAATACTGCATCTAGCTCTCTGCAGCACAAGCACCATCCTATAAAATCCTCAGCAAGCCTTTGTCTCCTT
GCAGCCAGCTCTTCTCTTGCTGACTATCTTGCAACATATTTTCCTACTTTCTCTAATAAATCTGCCTTTCTTTACCTACAAGTATCTTGGTAAATTCTTT
TTACCTCCCATGCCACACCAGTCTCAGAGAGTTGCCACCCATGACAGTTACCATAAGGCTTGCAAATACTATCTTATAAACCTTATTTTAACCTGATAAC
AACTTAACACTATTTGCATAAACAAACACACAGCAAGAAGAAAACTAATAGAAACTAGTCTTAACTTTGCTCCCTACTTTTTAACTCTTTGTGATTTTCA
TTTATATCTTGTTGTACTGCCTATATCTTAAAAAGTTGTTTAGTTATTATTTTTGATTTGTTCATTGTTTAGTCTTTATATGTAGGATAACAGTAGTTTG
CACACACAGTTACAATGTTATAATATTCTGTGTATTTCTGTGTACTTACTATTACCAGTGAGTTTTGTACCTTCAGATGATTTCTTCTTGCTCATGAGCT
TCCTTTTCTTTCTGATTGAAGTACTCCCTGTAGCATTTCTTGTAGGATCGGTCTGGAATTGATAAAATTCCTCAACTTTTGTCTTGGAAAGTCTTTATTT
CTCCTTCCTGTTTGAAGGATATTTTCACCAGATATACTATTCTGGGGTAAAAGGTTTTTTTTTCTTCAGCACTTTAAATATGTCATGCCACTCTCTCCTG
GCCTGTAAGGGTTCCACTGAAAAGGCTGCTGCCAGATGTATTGGAACTCCATTGTTTGTTATTTATCTCTTCTCTTGCTGCTTTTAGAATCTTTTCTTTA
TCCTTGACCTTTGGGAGTTTGATTATTAAATGCCTTGAGGTAGTTTTCTTTGGGTTAAATGTGCTTGGTGTTCTCTAGCCTTCTCATACTTGAATATAGG
TATCTTTCTCTAGGTTTGGAAAGTTTTCTGTTATTATCCCTTTGAATAAACTTTCTACTCCTATCTCTTTCTCTACCTCCACTTTATGGGCAATAACTAT
TAGATTTGCCCCTTTGAGGCTATTTTCTAGATCCTATAAGCATGCTTCATTGTTGTTTATTCTTTTTTCTTTTGTCTCCTCTGACCATGTATTTTCAAAT
GGCCTGTCTTCAAGCTCAGTAATTATTTCTTGTGTTTGGTCCATTCTGCTATTAAAGGACTTTGATGCATTCTTCATTATGCCRATTGCATTTTTCAGCT
CCAGAATTTCTGCTTGATTCTTTCTAATGATTTCAATCTCTTTGTTAAATTTATATGCTGGAATTCTGAATTCCTCCTCTGTGTTATTTGGAATTTCTTT
GAGTTTCCTCAACACAGCTATTTTGAATTCTCTGTCTGAAAGGTCGCTTATATCTGTTTCTCCAGCGTTAGTCCCTGGCACCTTATTTAATTCATTTGAT
GAGGTCATGGTTTTCCTGAATGGCGTTGATGCTAGCAGACATTCTTCAGTGTCTGGGCATTGAAGAGTTAGGTGTTTATTGTAGTCTTCATTGTCTGGGC
TTATTTGTAGCCGTCCTTCTTGGAAAGGCTTTCCAGATATTTGAAAGGACTTAGGTGTTGTAATCTAAGCTGTTTCTGCTTTAGGGGGCACCCCAAGCCT
AGTAACGCTGTGGTTCTTGCAGACTTGTAGATGTATTGCCTTGATGGTCTTGGACAAGATCCAAGATACTTCTCTGGATTCCAGCACATACTCTTGCTTT
CTTCCCTTACTTCCTCCCAAAAATACAGAGTCTCTCTCTCTCTCTCACTCTCTCTCTCTCTCTCTGTCTCTCTCTCTGTTCTGAGCCACCTCAAGCTGGG
GGTGGAGTGACACAAGCATCCTTGTGGCCATCACCACTATGACTGTGCTGGATCAGACCTGAAACCAGCACAGCTCTGGGTCTCACCCAAGGCCTGCTGT
AACCACCTCCTGGCTACTGCCTATGTTTGCTCAACGCCCTTGGGCTTTACAATCAGCAGGTGATACAGCCAGCCAGACCTGCATCCCTCCCTTCAGAATG
GCAAGGTCCCCCAGGCCCTGGGTGGGTCCAGAAGTGCCATCTAGGAGTCAGGGACTAGAGTCAAAAACCTTAGCATTCCACCTGGTATTTTATTGTATTG
CAGCTGAGCTGGCACTCAAACCACAAGATGCAGTCCTTCCCATTCTTCCCTCTTATTTGCAAAGACAGAGGAGCCTCACCTTGTAGCCACTGCCACCCCT
GGCCATGGACAGTACTGCCAGACTTCTGCTGGTGTTCCCTTAAGGCCCAAGGTCTTAAGTCAACTTGTGGTGAATGCTGCCTGGCCTGAGACTTGCCCTT
CAAGGCAGTGGGCTCCCCTCTATCCCAGGGGAGCTCCAGAAATGCTGTCCGAGTCAAGTCCTGGAATCAGGGACCCCAAAAGCCCTCTTGATGCTCTATC
CCCCTGCAGCAGTGTTGGTACCTAAGTTATAAGGCAAAGTCCCCTTTACCTTTCCTTGTGCTTTCCTCAAGCAGAATGAGTTTTGCTCCATAGCCATCAC
AGCTGRGAATGTGCTGAATCTCACCTAGAGCCAGTAAGTCTCAGAGGCTCACCAAGGCCCTTGACGTAGTACGAGGTTTCACTGCTGGTATTCAGGTTCC
AAGGTCTCTTCAGTTAGCAGGCGATGAACGCTGGCAGGACTGGGCCCTTTCTTTTAAGGCAGCAGGTTCCCTTCTAGCCCAGGGTGTGTTCAGAAATGTC
ATCTGGAAGCTAGGGCCTGGCACAGGGGCCTCATGATTCTGACCAGTGCCCTATCCTGCTGTGGCTGAGCTGGTCTCCTAAATGCAAGACAAAGTCCTCC
CCACTTTTCCCTCTCCTCTCCTCAAGTAGAAGGAAAGGGTCTCTTTTGGAGCCGCAAGCTGTGCATCCTGGGATTAGGGGAGGAGTGATGTCGGTACTCC
CTTGGCTGCTTCAGCTAGTGTTTCAGTATGTCATACTCCCCTTTACCCAGTTCACTGTCTCTGGGCCTAGTACAGCCCTAGAACTCACCTAAGAGTTGCA
ATCTTTATGGACTAGACTGCCTTTCAAGTTTACTTGAGGCCAAGACCATTTTGGCCCTCGGTGGTGAGGTCTGTGGGCATTCAAGTTCAGACCTCTGAGA
TCAGCAATTTCCCTCAGCCTAGGGCTGGTTTAAATGCTCCCTCAATGCTGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTAGGGAGGCTGAGGTGG
GTGGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCAATCTGTACTGAAAATACAAAAATTAGCCAGGTGTGGTGGTGCAT
GCCGGTAATCCCAGCTACTCAGGAAGCAGAGATTCGCTTGAACCTCGGAGGCAGAGGCTGCAGTGAGCCAAGATCATACCACTGCACTCCAGCCTAGATG
ACAGAGTGAGACTCCATCTCAAAAAATAAGAATAAATAAATAAATAAATAAATAAACGCTCTCTCAGTGGGTGGGTGTCAGCTGAGTTTGGTCTGGGTTT
CCTTTCTGCTCTAACAGAATAGCACTGMTTTCAGTGCCTCCCAATTGTCTCCCACCAGGGCTCAGGGATTCTCTTTATGCCACACCGCCACTGTGGGTTC
AGGGGGTTGGGTGACATAGGAGATGCAGAACTTTTTTTTTTCTATTTCTTCAGTGTCTCTGAGTTATATAAAATGAAAACCAGGTACTATGAGTGCTCAC
CTGAGTTTTGGTTCTTATGAAGGTGGTTTTTCCTGTGTAGATAGTTGCTAACTTGGTGTCTTCTCTGTCCAGATTCTTTTCCAGTATTGACAATCCTTTA
CATAGAAAACTGTGTGTAATGAGTTCTAAAGGTTCTTATGACCCCTGATTGAGAAGCTGAATTAGAGATATTGGGTTTGGGAGCAGGTAGACCACTTTGA
CACCTTTAGGGTTCTGGGTGGCTAGGGACATTGTCCAATATCAAAAGAACTTTAAAAAACAATCCCTTACTGGCAATGCATTTTCTGCCTTCAGGGACAA
AGCATCGATGAAAGCAATCCAGAAAAATTGTTCTTGTTGACTAGGCTTCTTGAGAGACTTATTCACTATCAAGAGAACAGCATGGGAAAGACCTGCCCCC
ATGATTCAATTTTCCCACCAGGATCCTCCCACAACAGTGGGAATTGTGGGAGTTACAATTSAAGATGAGATTTAGGTGGGGACACAGCCAAACCATATGA
TTCCACCCTGGTCCCTCCCAAATCTCATGTCCTCACATTTCAAAACCAATCATGCCCTCCCAACAGTCCCGCAAAGTCTCAGCATTAACTCAAAAGTCCA
CAGTTCAACGTCTCATCTGAGACAAGGCAAGTCCCTTCCACCTATGGGCCTGTAAAATCAAAAGCAAGTTAGTTACTTCCTAGACACAATGAGGGTACAG
GTATTGGGTAAATACACCATTCCAACTGGGAAAAATTGGCCAATAAGGGGGCTACAGGCCCCATGCATGTCAGAAATCCGGCAGGGCAGTCAAATCTTAA
AGCTCCAAAATGATCTCCTTTGACTCCATGTCTCACATCCAGGTCTTGCTGATGTAAGAGGTGAGTTCCCATGGTCTTAGGCAGCTCCACCCCTGTGGCT
TTGCAGGGTACAGCCTCCCTTCCAGCTGCTTTCACAGAGTGGCATTGAGTGTCTGTGGCTTTTCCAGGTGCACAGTGCAAACTATTGGTGGACCTACCAT
TCTGAGGTGGAGGGATGGTGGCCCTCTTCTCACAGTTCCACTAGGCAGTCCCCCAGTTGTTGCTCTGTTTGGGGGCTTCAACCCCAAATTTCCCTTCTGC
ACTGTTCTAGCAGAGGTTCTCTGTGAGGGTCCTGCCCCTGCAGCAAACTTCTTTCTGGACATCCAGGCATATCCATACAGCCTCTGAAATCTAGGCAGAG
GTTCCCAAACCTCAATTCTTGACTTCTGTGCACCCACAGTCTCAACCCCACATGGAAGCTGCCAAGGCTCGGCACTTGCACCTTCTGAAGCCATGGTGTG
AGCTGTACTTTGGCTCCTTTTGGACACAGCTGGAGCAGTTGGGATGCAAGACACCAAGTCCCTAGGCTGCACACAGCAGGGGGCCCTGGGCCTGTCACAC
AAAACCATTGTTTCCTCCTAGGCCTCCAGGCCTGTGATGGGAGGGACTGCTGTGAAGACCTCTGACATGCCCTGGAGACATTTTCCCCATGGTTTTGGGG
ATTAACATTCGGCTCCTCATTACTTATGGAAATTTCTGCAGCCGGCTTAAATTTCTCCTCAGAAAATGGGATTTTCTTTTCTATCACATTTTCAGGCTGC
AAATTTTCCAAACCTTTATGCTCTGTTTCCCTTTTAAAACTGAATGCCTTTAACAGCACCCAAATCACCTCTTGAATGCTTTGCTTTTTAAAAATTTCTC
ACACCAGTTACCCTAAATCATCTTTCTAAGGTTCAAAGTTCCACAAATCACTAGGTCAGGGGCAAAATGCTGCCAGTCTCTTTGCTAAAACATAACAAGA
GTCACCTTTCCTCCAGTTCCCAACGAGTTCCTCATCTCCATTTGAAACCACCTCAGTCTGGACTTTATTGTCCATATTGCTATCAGCATTTTGGGCAAAG
CTATTCAACAAATCTCTAGGGAGTTCCAAACTTTCCTACATTTTCCTGTCTTCTTCTGAGCCCTCCAAACTTTGCCAACCTCTGCCTGTTACCCAGTTCT
AAAGTCCCTTCCACGTTTTCAGGTATCTTTTCAGTAGCAATCCACTCTACTGGTACCAATTGACTGTATTAGTCTGTTTTCATGCTGCTGATAAAGACAT
GCCTGAGACTAAGGAATTTACAAAAGACAGAGGTTTAATTGACTTAGAGTTCCACATGGCTGGGGAGGCCTCACAATCATGGCAAAAGTCAAGAAGGAGA
AAGTCACATCCTCCATGGATGGCAGCAGGCAAAGAAAGAGAGCTTGTGCAGGAAAACTTCCATTTTTAAAACCACCAGATCTCGTGAGACTTACTTACTA
CTATGAGAACATCACGGGAAACRCCCAGCCCCATGATTCAATTATCTCCCTCCAGGTTCCTTCCATGACACGTGGAAATTGTGGGAGTTCCAATTCAAGA
TGAGCTTTGGGTGGGGACACAGCCAAACCATATCATTATTGAATTTGATTTGCTGAAATATTGTTTTACATTTTCGTATCTAAGGTCATGAGGATCTGTA
GTTTTTGTATCTTGTCACATCTTTATCTGGTTTTGGTATTGTGGTAATGTTGGTCTCACAGAATGAATTAGGGCATTTCACATCCTTCTGTTTTCCGGAC
TAGATTGTGAGAAATTGGTATTATTTCTTCCTTCAGTGTTTGGTAGAATTTATCAGTGAAGTCATCAGAACTTTACCGTTTTGTTTGTGGGAACATTTGA
AGTCAAAATTCAATTTGAATTTAAAAGGTACAGATTATGTCATTTGTGTTATTAATTTCTTCTTGTGTAAAGTCTGACAGCTTGTGTCTTTTAAGAAATT
TGTCCATTCCATCTAAGTTGTAGATTTTATTGGCATGAASTTGTTCATGTTTCTTATTGTTTTAATACCTGTAGAATTTATGGTGATACTACTGCTCTCA
TTCCTGATATTGGTAATTTATATCTTCTGTCTTTTTTCCTAATCAGTCTGGGTAGAGATTTATCARGTTAATTGATTTGCCCCAAAAGCTAGCTTTGGTG
TCATTGGTTTTCTCCATTGTTTTTCTATTTCCTATTTCATTGATTTCTACACTGAAGTTAGCCTCCAGGGAAGGTAGATCACTCACTGCCCATGGATGGG
AGCCACTGGTTCACCATGTGGTCGGTGGTGGAGAAACTCATTCTCAGGGGGCATGAGGTGGTTGTAGTCAGGCCAGAGGTGAGTTGGCAACTGGGAAGAT
CACTGAATTGCACAGTGAAGACTTCTTCAACCTTATACACCCTGGAGGATCTGGAMCAGGAGTTCATGGCTTTTGCCAATGCTCAATGGGAAGCAGAAGT
ACGACGCTTATTTTCTCTATTAATGAGTTCATCCAAATGTTTAGAATTTAATTTTTCACATTGCAGGAGTTTGTTTAATGACTGAAAATTAGTAGAATAC
TTAAARGAGAGTTCTTTTGATGCGGTGTTTCTGGATCCTTTAGATATGTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCTCTCGGTGGTCTTCGCCA
GAGGAATACTTTGACATTACCTTGAAGAAGGTGCACAGTGCCCTGCTTCTCTTTCCTACAGTCCTAGATATGTCTCAGGGTTTTCGGATGCTGTGACTTT
TTATTATTATTATTATTTTTATTTATTTATTTATTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCA
AACTGCACCTCCCGGGTTCACGCCATTCCTCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCTGCCACCACGCCTGGCTAATTTTTTTTTGTAT
TTTTAGTGGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTAACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGAATTACAG
GGGTGAGCCACCACACCCAGCCTGGAYGCCATGACTTTTAAGGAGAGAGTAAGGAACCACATCTTCTACTTAGAGGAGCATTTATTTTGCCCATATTTTT
TCAAAAATGCCTTAAACATAGCCTCTGAAATTCTCCAAACACCTGTCATGGCATATGATCTCTACAGCCACACATCAATTTGGTTGCTGCGAATGGACTT
TGTTTTGGAGTATCCCAAACCTGTGATGCCCAATATGATCTTCATTGGTGGTATCAACTGCAATCAGGGAAAGCCAGTGCCTATGGTAAGTCATTGCTCC
TTTAGCACATTAAAAGTATTCTGGATTTGAATATTTAAAAAGATTCCTTACGGAACTGGGATTTGACATTTGTGTTTGTTGCATCTAAAATTTCTTTTCT
GTGTAAAAAATTATTTTGTGCCATCCACGTGTTTGTTGGTTAGCAACTTTTATATAATGGCCTCGTTAATATGTATGTGTATACGATTGGTTAATTGCTC
ATAATTTCCACTGCATTTTTAAAATTTTGAAACAGAGTATTGCTATGGTGCCCTGGCTAGACTCAAACTCCTGGGCTCAAGTGATCCTCCTATCTAAGCC
TTCCAAGCAATTATGACTTTTTTAGTATTTTTGGAAAAGTATTTAAAAGCACAATAAGAAATGAAAATTTCATTTTTAACTAACCTGTACTACCTGCTGC
AGTAAAATGTTCTTTGCAGTTTTGTATGCATGTGTTTCCATCTGTTGAAATTATATATAAGCATATATGTAAATATTTATACTTATTTTATGAAAATCAA
ATCAACTATCAGGCTGGACATGTTGTTCTTTACTATGCGTTTTTACTTGCCAGTAAACCAGAGACATCTTCACAGATTTGACATGTTCTTTTAATAATTG
CATAAAAGTCTTTACTTTGGATGCAACATAGACACAAGCTTTCCCAGGTGTTTTTCTGCTAAAGATTTGGCTAACTTCTTCAAAACAACAATGATAAGCA
GATGTTATCTTTCTTTGACCCTGAAGAAAGTATAAAGCAGAATGCCCTTAGCCACCCAAAAAACTGTTACCATGATGTTTGGTCTTGTCCAGTCTGCTTT
TGATTTGACTGGATCACTTTCATCTCTTGGTAGCCATTGCTTTGCTTGTGCTTTGTCTTCATTATCATACTGGTAAATCTATGTTTCATCTTCTGTTACA
ATCTTTGAAGAGATACTTCAAGGTTTTTTGTTTGTTTGTTTGTTTTGAGACAGAGTTTCACTCTTGTTGTCGAGGCTGGGGTGCAATGGTGCGATCTTGG
CTCACCACAACCTCTGCCTCCTGGGTTCAAGCGATTCACCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCACATGCCACCACACCCAGCTAATTTT
GTAATTTTAGTAGAAGCAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGA
TTACAGGTGTGAGCCACCGTACCTGGCCAAGGTCTGGATCCCACTTGTTTATAATTTCCATTGAAGGGTTTGTTCTTGTCTGCAGCTGATCTGGCTGCAA
TGATTTTGGCACCCAACAAGTAGAAAATTTGTTCAACTGAAATTTTTGTCAGAATTGTGTAAACTGTCCTGACTGAGATATCTATTGTGTTGGCTATTGT
TTCTGCTGTTAATTGTCAGTCTTCTTCAGTTAGAGCATGAGCAAGATGAATTGTTTCCTTGCAAATTGGTATGGATGGTCTGCTGGTGTAGGCTTTATTT
GCAACCTTGTCCTGTCCCTTCTTAAAAGGAATTACTCATTTGTAAACTGCAAATTTCTTTTGACCATTTTTCCCATTAACTTTTTTTTAAAGCATCAGTG
ATTTCACCATTCTTCCACTCATATCTCAGCATAAATTTTATGCTATTGCTTCAATTGCTGCAGAATTCATGTTGTTTTGATGGGGGCTTTTTTCCAACTG
ATGTCCTATCCTTCTTAGTGCCTCAAACTAGATCCTATTCAGACATGTTTTAACAAGTTAGTAAAAGTTTGTTTGGCACAAAGAAATTTGAAATCCATGC
TTAAGTTTTTCATAATATGAATTTTCATGAATTGTTTGATGATCCCTCATCTATTACTTTTTTAGCAATGGACCATGCAATTTTGGCTATGTTCTGGCTT
CTTACAAGGTTCAGTAGACTTTGTAACACAGTTGTATGTCTCACACATCGGCAGCTGTTTGGTAAAGGATTGACTTTTAGCCAACTCATGGGAAAATGAA
ATAATGTAAAAAACAGGAAGACTACAGTTTTAGACCTTTCAAGTGAGGCATGGCTTTCAGCTCTTGGCAAGAACAGGCGAGGAGATGCAAGCCTCTACAA
GGCTAGACTTTTCAAAGTGCTTCTCTCCCCTTTACCCTCCTTCAGTTACAGCACCAAGCACCACCCAGGTATTACCTGCAGCCTCACCCTCTACCCAGTT
GTGGGATCCTGCCACTTCCTGAACCCACACTGAGTTCCTTGTGGCTCACAGGGTCACCCAGAGGGCTTCCGAGATACGGAAAGCTATGTGTGATTTTATA
TCACCTATCATGTTAAGATATGTATAAAATAGGAAACATATTGGCCATATATCATTTTATATATTTTKGGTTTTACATGTCTAAAAAATACATGTTTTTT
TGTATGTATTAAAGGATAGGTATGTATAAGAGGTTTTATAGAAGTGGAAAGTTATATTTTTTGCATATCTTTATGAATTATAATAAAGGAAGGAAAATTC
TCAAAGAGGAATTCAGATATCAAAGAGTGCCCTTTGACAAARAGCCTTGGTTACAACATACCTACAAAAGTGAACTGTCATTGAAAGACCTATGGACACT
GGATTTCTCTTTCCTTATTTAGAAGGGCAGGCTGTGTCTTGGAAAAGCATACAGTTTGTTGTATCTTGCTGGACAACAGGAGTCATAGTCTGAAGTGTCT
GATGAGAAGGAAGCATCACTTGATGGAGTGTGCATCTGTGCCTGTGTGTGTCCACGCGTGTTTGTGTGTGTGCATGCACACATGTGTCAGCATGCAGTGT
CTCAGATCCTACATAGGGGTTTTTCCTGAAGGTCTYCAGTAGCAAAAACTCATTGAGTCTATCCAGGGGAATTACATCCAATGCTGTAATTAAATACTTT
AACMAAGATAGCAGATCATCATTCAAGAGAACATCAAGATAGTTTTAATTAAGAAAAAAAAAAGGAATCACTGCCAGGCTTTTTTAGTTTTTGGTGAGTT
CCAGCAGAATTGATGACTAGGTCCAGTAGGAAGGAATTCAGGATTACTCTTTACCATCCAGGGTGAGTGTAGCTCTGGAGAACTGGGGATGGGAGGTGAC
TGCACAGCAAGAAAAGATCTGGGCTTCCCCCATTGCTCTAAGATCTGGTTCCATTGTGAGATTCAAATTAAGAGTAAGCTGTTAATGGGCAAGTCCAAGG
CCTCTCACCAGGATTATTTATTTCAACTTTTTTTTGTCAAAGTTTTCAAATGTATAGCAAGGAGAGACTACAGTGTAATGAGCACCCATATATCCATCTT
TGTGTTACATAATTTTCAATATTTTATTATACTGATTCATGTATCTGCTCTTTTGTTCTTTTTTTAAAAATAAATTTTGGCTATAATTTTTTAATGGAAA
TGCTGGAGATATCATTCTATCCCCAAATACTTCACTAAATGTAAGAAATAAGGAAAAAAGGAAAATTTGTTACATAGCCACAATATCATTATCATTCCTC
ACAAAATCAATAACTCTTTAATATTGTCTCACTCATAATGCATAATGAAATTTCCCCTAATTGTCTCAAAAATGTCTTGTACATGCAGATCAGTAGAACG
GAGTTGAGAATCCAGATATAAACCCATACATCCTTGGCCAATTGATTTTTACTGTGGTGCCAAGACTGTTCAAATGGGAAAGAATAATCTCTTCAACAGA
GGTCGCTGAGACAGCTGCATATCCACATGCAAAAGAATGAAGATGCACCCTTATATGCAAAAACTAACTTGAAATGGATCAAATAGCTAAATAGAAAAGC
TAGAAGTGTAAAAGTTTAGAAGGAAACATTTGGGGAAGTATTTATGACCCAGATTTGGAAATGGTTTCTGTGATGTGACACACACATTGTTGTGTATGAG
AAACAACAACAACAAAAAACACAGACATCAAAATAAAACACTTTTGTGTGTCAAGGACACTATCGAGAGAGTGAAAAGTGAACCCACATGGCCTCTCTAA
GATGTGCAAGTAAACATGTACGTGCCTGACATGGAGGCTCCTGGGAGGCAACCACAGTCCCAAAAGACCTGAAATTTCAAAATCCTGAATGTTAAGAGCC
TGAGAGATCAACGTCCTACAAATGTAATTCCAGAAAAAATAACTTTAAAAATTATTTATTTGAAAGATAATCTGTTTACGTTTTAAAAGGGGATTTATTT
GAAAAACATATAAAAACACGACAGACCACTTCATAGGCCACTTTACACCATAAAATAGGTAATAAYAACATACAGGTATCTTTGCAAGCGTAAACCCTCA
GGTGTACTAATGACCTTCATATAGGTGTATCAATTGTGAGAAGATGAATCATATTCTTAAAGTAATAGGTTAAAAAAGGAAAAGTATCAATATTTATTAC
TGTGGTTGGTAATCTTGTGCACTCAGGTTTGCAGCTTTGATCATCTGAAATACCATGAAAAATGACCTGAGACTTATCATGAGGTCAGTCAGAAACCTCT
ATGGGTCACCACCGCATACACAGTTGCTTAAAGTGCCCAAGTCTTGAGAAATTTTGTTTTGTTTTGTTTTTTTGAGACAGAGTCTCGCTGTGTTGCCTAT
GCTGGAGTGCAGTGGTGCGATCTCAGCTTACTGCAACATCTGCTGCCCGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGGGTAGCTGGAATTACAGAT
GCCCACCACCACAGTCAGCAAATTTTTGTATTTTTAGTAGACATGGGGTTTTGCCATGTTGGCCAGGTTGGTCTTGAACTCCTGACTTCAGATGATCTGC
CCTYCTCAGCCTCCCAAAGTCCTGGGATTACAGGCATGGGCCACCACGCCCGGCCAAGAAATGTTATCTTTCACAGATGCAGATGTRCAAAAGGGACATC
TCTTCATTATTGAGGACATTTCAACATTTGTACGTACATGCCTAATGCTTACACACTTACTCTTGTGCTAATGCACTTCCATGGAGTCAAATTTGTGAGC
ATAAAATGAATTAGAATTCTCCATAAGTCTATACACAGTCTCTGCCTTCAGTATTGGRAATGATATGAAGATGAAATACATAGCATAGCAAATTGTAAAA
ATAATGCTGACAATTTAACCTTGTGAAAAAACCTAAAAAGAAGAAAAAGTAAAAGAAAAAAAGGAAAAAAACCTCCAAATTAACCTATTCTGTGATTGTG
ATTTTTGGGATTTTAGCTGTTAGAGAGTTTAGATTTCAGGGAGTTAGACCTTAGGGATTTGGATCCTTAGGGAATCAATATTTCAGAATTCAACCTTCAG
GATTATGTGTTTTGGGGTTATGTCTTTCAGGATTGTGATCCAAACCCTATAGCATCTTGTTTCTTAGCATAACCTGTACTAATCGTAGATATATCTCTGT
ACTCCAGCAGAGCATCATAAAATTAAGTAGTTTACAGCAGAGAGTCTCAACCTATCAGTGATTAAGGAATAGAAAAAAACGTTTTCTGCAGTTGATTATA
TATTCATAATTGTTTGTAATATATAACAAAAATGAAAAGCTAGAAAGTGAAATGAAATAAACCACAGCCCTATAAAATGCAAAACTACTGATGATTGCTT
GGCGACATAGCAACACCAATTGCTACAGGAATTTCTAAGCATTTCCTGCAGGGTCTGCACCCATGCTGAGGTGGTTAGGTAACACAACGAGCTGCAAACC
ACATCTTGAACAGACTGTTTTAGACCCAGTCCAGTGGCTCTATGTGAGTAGTGTTTAATCAGAAATAAGGCCCAGCACAGTGGCTCACGCCTGTAATCCC
TGCACTTAGGGAAACTGAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGATCAGTCTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAATACAAAA
ATTAGCACAGTGTATGGCGGGCATCTGTAATCATAGCTACTCGAGTCTGAGGCAGAAGAATCACTTGAACCTGGAAGATGGAGGTTGCAGTGAGCCGAGA
TCATACCACTGCACTCCAGCCTGGGCAACAGAGCAAGATTCTCTCTCAAAAAAAAGAAAGAAAGAAAGAAAAAGTAAACAGAATACTAAAGAAAGAAAGA
AAGAAAAAGTGAACAGAATACTTTCTGTTTTGTTAATGTGCTAATTACATGGTCACAAACAGTGACTAATTTGTGATCACCAGGGCAAAGTCTATTATCA
GCTACCTGTTTTCCTTGTAACCTTGTGTTTTGGGAACCTAGCAACTCTACTCCCCACTAAGTGACAACCCATGCAGGTTTGCCCAGATTATTCCCAGTTT
AACACTGGAARTCTCACGTCCTGGGAGACTCTTCATTCCCCAAGGAGCAGGGACAGCAGGTCACTGTCACTGGAGCACTGGAAGCTGGCCACATCATTAG
CAGATTCAGAAGGGGCACGACTTAAGGAGGCTCATGCTTCTCTTGTCTTCTGCCTTAGGCTGTCATTTCCAATGGGTGACAAGTTCCTTCCATGCAGAAG
CCAGGCCAGGAGATAAAGTCATCTTGTCCTAGAAAAACTGTTAGAAAGAAGGGAAACTGTCTAGTGTGTTTCGCCAAAAGAGTTTCACAGACTCTTCTCT
TGTAGGGGATATGGGGGTGGGTGATCACTGTCCTGGTCTCCCTGAAGCAAGGACGCCTCTCTGGCCTCAGGGTGCCTGTCAGGCAAGTCTCTCCTGTCCC
TGGAGGTTCACAGAGCMGCATCCCTGCAAGAGCAATGCTAAGTGGGGTTGGCTTTGAGCCCCAGCCATTCTCTTAACAATTCTTTTAGTTAAGTATCAGT
TCCCCCATCCCCTCACTCCAGCATTTTTTGCCTCTTGCTATGATCAGTTTTCTCACTTTCACTTTTACACCTCTGATCACTGAAAAATTACAGAATTATA
AGTTTGGAAAAGGAGTCTATATTTCTTGGAAAAGGTTACAACCTTCAAGGTGGCCATCTAGCTGGCTGGGAAGCATGACCTCTGGCAAATACCAGAGACA
GGCCCTTGAAAGGAGAAGGGATGGGGTAGGAGCTTTATGCTGAACAAACAGGGTAAACATACATATTCACCAGGTTACAGAAGGAGCTATGAATATTTAT
GAAGGCCATCCTGACTCATGCGTATTGAACACACATGCATGTTACATATGACCCGTGTTCACCCTGGGGTGGAGACATCATATTTAAATGGATTACAATT
AGGCCCTATACATCAAAAGGTCTCTTCAGGGCACAAAGGCACTCAAATTCACAGTCTCCGTAAACTGGCCAGAACCAGTCTGTGATCACCAGTCACTGGT
CTTCTTACCAGGAGAAAGTTACTGAAATCAGCCTCTTGTCCAATGAAAGCAGTATTTGTGGCTTATGGAACAAGGAATGGACGTCAGTTAGTCAGTGTCC
GGTGGAGGTGCACTTGTTTAACATTGTTTTTCTCTAGACCTGTGCTTATTTAGCTGCTAGAGAAAAAGAAAAACTCTGTGGCAGTTGGAACATAGTTTAT
TCTTTAAGTGTAGGCGCCCATGACTCAACTCTTGCCTGGCGTGGTTTGAGGTCTTGTGTGTAGTTTTGTATCTGATTGCCACAAAAAGTCCACTGAGTCC
ATCTCATCTCTATTTTAACACTAAAGTGGGTCAGTTGTGTTTAAACCACAAAAGGGAGGGAGTGTGACGAGGCGTGTCCAGCCTTCTGTCCCGTCGTGGC
TGTGACTCAGTTTTGAAGGTTTCTTTGGGGTCCCGCTGGCCAGGAGGGTTYGATTCACTTGTTGTGGGAGACGGGCGGCACTTAGTATTTTCTTTTCAGT
TTACACGTTCCTGGGCATCCCTATTAAGATGTGCAGATAAACASGCACATGCTTCATGTGGCATCTCCYTTAGTTAAACATCTTTTTTTTTTTTCCTTTC
CTGTGAGTCTTCCTGAAACAGGTGAGCCCAGGTGGAGCCTCCGCCTGCGTTAGGACCTAACCTTTCTACGTCTTTATGAAATCCCTGGTGTCAGTTACTG
CTGCTTCCCCTCACCAGCTTCTTTCCTTTGGTCTACCCTAAGAATGTGATACCCAACACAATACACCGTCTCTTTGGCCCACTCAAGACATTCTGGTGAT
GCCCTGTGGCCTGCTGGCCCCCACTAGCTATCAAGGTCCCCCATCATCTCACCTTTCCTGGCTCATGGGCTTTATTTTATGCCACTCTTCATGCTCAGAA
GCACCTGGCGGTTTAGTTTTTTTGTGTTGYTCTAAAGGAATACCTGGGGCTGGGTAATGTATAAGGAAGAGATAATATCTGGCCCTCAGTTCTGCAGGCT
GTATAAGAATCATGGTACCAACATCTGTTTCTGGCAAAAGACTTGGGCTACTTCCACTCATGGCAGAAGGTGAATGTGGAAGGTGCTGATCACAAGGTGA
GAAAGAAGCAAGAGAAAAAGGAGGGGTTGCCAGGATCTTTTTAACAATCAGTTCTTGCAGGAGCAATAGGACAGGAACTCACCCATTATCGGGAAAAACA
TACTAGGTCATTTGTGAGAGATCCATCCCTGTAACCCAGATACCTCCCACTAAGCCCCACCTCCAACATTAGGGATTAAATTTCAACACTTGACTTGAGG
GAGTCAGATATCTAAACTATATCATTTGATATGGTCAGTCTTTTTGATTGCAGCTATTCTAATGGGTATGTAAATTAAATTGCAATTTTAATTTGATTTT
CCTATTTAAATATGATGTTGAGCATCTTTATGTGTGACTGTTTGCCATCTGTATATGTTCTTTGGTAAATGTTCAGGTCTATGCCACTTTTTAAGAAATT
GGGTTTTCTCTTCATTATTGAGGTTTAAAAGTTATTTATATATTCTGGATATTTATACTTTATCAGTTTCTGGGCTTTTTTCCATGAAACTTTTTATTTT
AGAAGAAATTTAGATTTATGCAAGGTTGCAAGAACTAGCACAGAGAATTTTCATATCCTGTGCCTAGTTTCCTCCTCTTTTTTTTTTTTTTTTTTGAGAC
AAAGTGTCACTCTGTCACCCAGGCTGGAGTGCAGTGGGGCAATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAATGATTCTTGTGCCTCAGCCTC
CTGAGTAGCTGGGATTACAGGTGCACACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGACACAGGGTTTCACCATGTTGACCAGGCTGGCCTCAAA
CTCCTGACCTCAAGAGACCCACGGACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCAATGGCACCCATCCTCCCCTATGGTTAAATGTTACGT
TACTATAGCATATTATCACAACTCATTAACCAACATTTGATACATTATGATGAACTAAAGTCTRTGTTCTCTGCAGATGTCATTAATTTTTACCTAATGT
CCTTTTTCATTTCTAGGATCCCATCCTGGATACCAAATGACATTTAGCCCATCACGCCCCCTTCATCTCCTGTACCGTGTGACAGTTTTTCAGACTTTCC
TTGTTTTCGATGACTTTGACAGTTTTGAGCAGTTCTGGTCGGATGTTCTGTAGAATGTTTCTCAGTCTTGGTTTGTCTGATGTTTTGATCATGGTTAGAC
TGGGGTTATAGGTTTTAGGAAGTAAGACCACAAAGGTAATGTCTTTTCTTGCTTTCTTGACTATGGATAGCCAACTCTTGAAAAGAGTAGTCTTTTCTCC
ACTGAATTGTCTTTGCACTTTTGTAAAAACTTGGTTGTTCATACTGCTAAACATCTATTTCTGGACTTTCTACTCTGTTCCATTGATCCAGTTGTGAAAT
ATGTGATAATTATAGCTTTGTAATGTCTTGAAATGAGTAGTATTAGCTCTCTAATTTTTTTCAAAGTTGTTTTTGCTATTGTAGGTTTTCTACATTTCTG
TATGAATTTTAGARTCAGTTTGCCAATTTGCACAAAAAAAAGCCTGTTGGGATTTTGGTTGAAATCATATTTAAGTTACAGTTCAACTGGGGAGAAACAG
CATCCTAACAATTTTGAGTTTTCCAATTCTTGAACATATCTCTATATTCAGATCTCTCCTCAGTGTTTTAGTTTTCAGTGTAGTCTTTCACATCTTTGAT
CAGATTTATCCCTAAGTATTTCATGTTTTTGATGTTAAGTGGTATTTTCATTCAATTTGCAATTGTTCATTGCTAGTACAGTTGACCCTTGAACAATGTG
GAGATTAGGGATACCAACCTCGCAGGTAKTCTAAAATCCACATATCATTTTGACCCCCATAACTTAACTATTAATAGCCTACTGTATAGCAGAAGCCTTA
CCAATAACGTAAATAGCCAATGAACACATATTTGATATGCTTTATGTGTTATATACTGTATTATTGTAATAAAGTCAGCTAGATAAAAGAAAATGTTATT
AAGAAAATTTTAAGGTTTGAGAAAAAATTTTAGGGTTGAGAAAAAATGTATTAAGTATTCATTAAGTGGSAGTGGATCATCATAAAGATCTTCCTTTTGA
TTGTCCTCCACTGAGTAGGCTGAGGAGGAAGAGGAGGGGTTGGTCTTGCTTTTTCAGGGATGGCAGATGAGGAAGAGGTGGAGGAGGTGGAAAGGGAGGC
AGGAGAGGCAGGCGCACTCGATTTAACTTAATGGAAATACATCATAATTACTGTCTGACATTTTTGCTCTTTCAGTTCTTTAAAAATGCTTGATATAGTA
TGAATTCTTCTTCACCATTTGCTTTAGTTTCAGTGCCCATATCATAGAAGGGTACAATTTGCAAAAGAAGTCAAAAGCAGTCTTCAATAATCGGAATCCT
TCTGCGAGATTGTCTAATGTCAATTTATTTTCTGACACTGCTTCTTCTGTATCTTCTTCCTCATTGTCTGGTACTGATTCAAAAGCACTCATCTCATCAA
GTCATCTTCTGTTAATTCCTCAGGTGTGGTGTCTATTAGCTTTTAAGTATCTCCAAGATCTCTGTCTTCAAACTCTTTATGCCCACCTTGTTTTTCTTGC
CTGCCATATCCACAATTTCTTTCATGAGTCCCTTGATTGGCTCTGTTTTAAGTCCTGTGAAGTCACGCACAACATCTGGACACAGTTTTCTGCAGCGATA
ATGTATTGTTTAGGGCTTGATGGCTTTCACAGCTTTTTCTATACAACAAGGACATCTTCCACAGTGTAATCCTTCTAGATTTTCATGATGTTCGCCCCGC
TGACATTCTCTTCCATAGTGTTGACAATCCTTTCCATAGAAAACCATGTGTAATGAGCCTTAAAGTGCCTTGTAACYCCTTGTTCTAATGGCTGAATTAG
AGATGATGTTTGAGGACATGGAGACCACTTTGGCTCCTTTTGTGTTGAATTCATGGGGTTCTGGATGGCTAGAGGCATTGTCCAATATCAAAAGTAATTT
AAAAGACAGTCCTTTAGTGGCAAGGTATTTCTGATTTCAGAGACAAAGCRTTGGTTTTCATGGAACCAGTTTGGAAAAAGTGTTTCTGTTGTACTGGCCT
TCTTGTTCTACAACAAAAAGACTGGGAGCTGGCGTTTATTTTTTCCCTTAAAGGCTCAAGGATTAGCAGCTTTATAGATAAGGTTATTCTTAATCATAAA
TTGGACTGTATTTGCATAAGACGACAGAGTTAGTCTATCTCTTCCTGGCTTAAATCCTCGTGCCCGCTTCTCTTCCTTACTTATAAATGTCTTTTGTGGC
ATTTTTTTTCTCTAGAATAGGGCACTTTTGCATGAATTAAAAACTGGCTCAGGCAGATATTCATTCTCCTCAATGCTTCTCTTCATGGGGTCTGGGAAGT
CACCTGCTACCTCTTGTTTGGCAGAAGTTGCTTCTGTTATCTTGAGATTTTTAAAGTCAAACCTCTTTCTAAAACTAGCAAACCATCCTTTGCTGCCATT
AAATTCTCCAGCTTTATATCCTTCAGTTTTATTTAGCTTTATGTTGTCATATAATGACTTTGTTTTTCTCAGGTCATATTAGAGTATATAGGTATGCCTT
TCTTATAACCATCCTACACCCACATAAAAGCTGCATTTTTTATAATAAAATTTTATGTAGATAATCATGATACAGAATTACTCTTTGACAAATTATCTAT
GGATGTAATGACTCTAGTTTCAGACTTTTTTTTTCTGAAATATGTGAGCGTTCCCCAACAGTCTGGTCTATTTTCCTACCTTAATTTTCTACTTTTGGTC
TTGAATTTGTTGATAGGGCACAGAGGACTTCCCATGAGGCTGTAAAGAACTTATTTCTCTGTGTGGGCTGTGCACACCATGGTGCTGTCATTACCATTAC
CACCAGGAGACTCCTTAAACACTTAGGATATATGATAGTTTTCACTTGGTTAAAAAATCTGCCAGTTTCTCAGTAAGACCTTTCTCACTATTAATCTTTA
ACCCACAGATGGAATCCTAGTTCTTTTTATCCATTAACTCTTTGAATATCCTTCTTTCTACCTTGGCAGTGGAGTCCATTGAGATTGAAAAGCTGCATTT
TTAATATGAGATAAAAAGATATTTTGGAAAAAGTGCAAGGTTTGAAGCCTGCTGGCATCACTGCAGTGAAGACTTACTGAATTTTCTTTCTTTCTTTCTT
TCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTAAACAAAGGTCCTTATCTGGATTCTTTTTTTTTTTTTTAATGATC
GCCAACCACAGCTGCAGTCCTCAACCTATGGTACATATCAAGCAATTCAACTTTTCTTGTAATATCATGAATTTCTCTGCTTCATGGGAGCACTTGAGGC
ATCACTAGCGACACTTTGTATGGGTCCTATGGTATTATTTAGAGTTTCTGATATGCACCAAACATGACAAACAATGCATGAGAACTGTGAGATCAGTGTT
TACTGTGATACACAATTTACTGGAGGGATGAACTGTACACATGGAGATGATCAGCCTCACACGGCGTACTGAGTGGATACTTGCAACACTTGAACTCCCT
GCAATAGCAACAGGGGGTGGCTATGAAATTATCACAATAGTACAGTAGGCACAGTTAACTCTATGCAGTTATGACTTAATGCTGCAAACTTACCTTTGTT
ACTTTTCTCTTGACTACAAATGGTGTCATGTATAGTCTGTAAGTGTTTGTGTGYATAAGTTTTGATAAATTTTAACTATTTAAAATAGATTTGTGTCTAT
AATATGGTAGTAAATGATAAAATAGACTCGTTGCTATATATATTTTAGGCATTCCTGACATACTCAAGTTTTTCTTAATTTTTTCACTATTGTAGGCTAT
GTGGCTTATCTGCAAGTTTTTCAATTTGTTGCAAATCTCCATAACATTTTCTAATATATTTATTGCAACAAATCTGCCCATAAATGGACCAACACCGTTG
AAACTCTTAATGTTCATGAGTAACCATTTATATAAATGAAATTAACTTTTACTTATTGTATCCTGCAACCATGCTAAACTTACTTATTTGTTCTTGGAGG
TTGTTGTAGAGTTTGTTGGAATTTCCCCATAGATGATCATGTTGACTGTGAATGAGATCCTTTTACTTTTCAGATCTGGATATTTTAAATTTCTTTTTCT
TGTTTGACTGCATTGAATAGAACAATGTTGAATGGAAGTAGTAATTAGCCCCCATTCTTGGCATGTGTCTGATCTGAGGAGTGGAGCATTCAGTCTTTCA
CCATTAAGGATGATGTTAGCTGTGGGTTTTTCCAAGATGCCCTTCATTAGCTTTGGAAACTTCTCTTCTTTTCCTAGTTTGCTGAGAGTTTTTTTTTTTT
TTTGTCAGATATGAATTTTGGACTCTGTCAAACACTTTTTCTGTAACTATTAAGATTGCTACATGGTTATACAGTTTTAGTTTATTTATATGGTATGTTA
CTTAGATTTATTTTTAAAGCTTATTTATTTTATCATTAATTATGGKGAAATACACATAGCATAAACCTTGTCATCTTCACCACTTTAGGTGCACAGTTCA
GTATCCAGTGTATTCACATTGCTGTGCAACCAACACCACCATTCATCTGCAGAACTCTCTTCATCTTCCCAAACTGAAGCTTGGGACCCATTAAACAATA
ATTGCCCATTCCCCTCTCCTCCAAGCCCTGGTGTAACCRCCCGGGGGATTCACCTTGCCTGCTGCCTAGACAGAGTCAATATAACAAGACAGGGGAATTG
CAATAGAGAAAGAGTAATTAATGCAGAACTAGCCGTGTGGTAGACCGGAGTTTTATTATTACTCAAATCAGTCTCCCCAAGCAATTTGGGGAACAGTTTT
TAAGGAATACTTGGTGGGTTGGGGGAATCCAGTAATCCAGGAGTGCTGATTGGTCAGGGATGAAATCTTAGGCAGTTGAAGCTGTCTTCTTGCACTGAAT
CAGTTCCTGGGTGGGGGCCACAAGAGCAGATGAGCCAGTTTATTGATCTGGGTGGTGCCAGCTGATCCATCAAGGACAGGGTCTGCAAAATGTCTCAAGC
ACTGATCTTAGGAGTGGTTTAGGGAGGGTCAGAATCTCGTAACCTCCATCTGCATGAATCCTAAACCATAATTTCTAATCTTGTGGCTAATGCTAGTCCT
ACAAAGGGAATCTAGTCCCCTGGCAAGAAGGAGGTCTGCTTTGAGAAAGGGCTGTTATTGTCTTTGTTTTAAACAACTATAAAATAAGTTTCTCCCAAAG
TTGGTTCAGTCTATGTCCAGGAATGAACAAGGACAGCTTGGAGGTTAGAAGCAAGATGGAGTCAGTTAAGTTAGATCTTTTTCACTGTCTCAGGCATAAT
TTTGCAAAGGCGGTTTCATTTGCAACCACCATTCCTCTTTTTGATTCTATGAATTTCTCTATTTTAGATACCTCATACAAGTAGAATGATATAACTTCCA
ACTTTAAGTCATTTCTTTGTCCTTGCATCTAAGTGTAGGTAGTTACAAGCAGCCAGGCCACATCTGGAATACTTTACTGCTTAGAAATTTCTTCTGCCAG
ATACCCTAGGTCATCACTCTCAAGTTTAAAGTTCCACAGATTCCTAGAGCATGGACTCAATGCAGCCAAGTTCTTTGTTAAGGCATAGCAAGGGTGACCT
TTGCTCAMGTTCCAAATAACTTCCTCATTTTCACATGAGACCTCATTAGCCTGGCCCTCACTGCTGATTTTTCTATCAGTATTTTGGTCACAAGCATTTA
ACCAGTCTCTAAGAAGGTCCAAGCTTTCCTTCATCTTCCTGTCTTCTTCTGAGCCCTCCAAACTCTTCAAACGTCTGCCTGCTACCAAGTTCCAAAGTTG
CTTCCAAATTTTCAGTATCTTTATAGCAACATCTCAGTACCAATTTTCTATTAGTACTATTTTCTGTTGGTACCAATTTTCTACCCTTCATTACGTTGCC
ATAAAGGAATGCCTGAGACTGGGTAATTTATAAATAAAAGAGGTTTAATTGGCTCAAGATTTTGCAGGCTGTACAAGCATGGCGCTGCCATCTGTTCATA
TTCTGGGGAAGCCTCAGGGAGTGTTTACTCATGGTAGAAGATGAAGCAGGAGCATGTCACATGACAAAAGCAGGATCAAGAGAGAGTTGGTGGGGGAGGT
CCACACACTTGACCATATCTTGTGAATACTCACTGACTATTGCAAGGACAACACAAAGCCATGAGGGATCCACCCCCATGATCCAAACACCTCCCACCAG
GCCCCACCTCCAACATTGGGTATCATATTTCAACATGAGATTTGGGTGGGGACAAATATCCAAGCTATAACACTGAACTGTGATTTGACATTTTCATTTG
TCTCATTTGGAATTTTTTTCCAGTTTCATGAATCCTTTTGTGCCACTTCATGGACCTCTCAGTTAACAAATTTTATAATTGTAGATCATATCCAAGTTGC
ATTTAAAGATACTCTTTTTGGGAAAATACCAAAAACCACAGTGAGAARTGAAACTTCCCTTTTTTGCCAATTCTATAGAAAATGCTCTTAGTAGTTTTGT
GTGCATCATTTTCATTTTTTGAAATTATTTTATGCATATGCAGATATCTAATGCATATTCTCACACCTATTTTGTTAAAATGTAGTACCAGGCTGGACAT
ATTGTTCTTTACTTTGCATTTTTCATTTGCCAATAAATTATAGACATCTTTAGAGGCCAATACAGACTGATTTGACAAGTTCTTTCAGTAATGACATGAA
AGTCTTTACTTTGGATTTAATGTAGTTTTTTCAACCAATTAATATTGATATAGATTTAGGCATTTTCCAAATTTGTCTTTTTGCACATTAGTATGTAAAC
ACTCTTTAATACTTTCTTTACATTACTATATTTCCATATTCGTAGCCTCTGATGAATTCTTCATCATGTGSATCCCCAGCAGCTTTACTTCTCTCATTGA
ACCCTGACTGCTATAGAATGGAAGTAGTGGCTGTGGCAAAGTAGTGCCTTGTACACTTTTTGACTTGAAATACAGGAGGCAGAAGCAATAGGAATGAGGG
TAGAGGCTAGACCATAGCTCTACTGGAGTTTCTGCAGGAAAGGCAAGGTAGGGCAGGAGAAACAGTTTAGCATTGGTTGGTTTGAATAATTTCAGTGGGC
TCTGAGGTCTAAGGGCAGGCCCTTTGCTATCTGTAATAATTGGCTGACCCAGGGAGGTGCACTGCATCCCTACCAGATAGGGATTTTTAAGATGCAAAAA
TATAATAATATACAGAAAATTTAAAAATACACACAATACAGGAAGTATTTTATTCTTATGGATAAATACCCAACAGTGGAGTAGTTGTGATCTATGGTAG
GTGTATGGTTACCTTTTTAAGAATTTGCCAGACAATATTTACAAGCGGCCAGACCAAGGTGCCCTCCCACCACCTGCATATGAGAGGTCCAGCTGTTCAT
ACTCACCAACACTGGATGTCTTAGTCCGTTTGCATTGCGATAAAGGAATACCTGAGGTTGGTTAATTTATAAAGAAAACATGTTTATTTGGCTGGTGGTT
CATTCAGGCGATACAAGAAGCATGGCACCAGCATCCGCATCTGGCGAGAGACTCAGGCTACTTCCACTCATGGCAGAAGGTGAGGGTGGAGGGTGCTGAT
CACATGGCTAGAGAGAAGCAAGAGAAAAAGGAGGCAGGTGCCAGGCTTTTTTTTAATAATCAGTTCTTGCTGAAACTAATAGATGGGAAGTTCACTCATT
ACTGGGAGGGGGCACTAGGTCATTCATCAGGGATCCACTCAAACACCTCCTGCTAAGCCCCACTTTCAACATTAGAGATCAAATTTCAACACTTGATTTG
GGAGGGACAGATAATTCAGCTATATCATTTGATATGCTCAATCTTTTTCATTGCAGCTATTTTAACGGGATGTGGATTAAACCTCAGTTTTAGTTTGATT
ACCCTAATCATTAGTTATCTTGAACGTCTTTACATGTGCCTGTTTGCCATCTGTGTACCTTCTTGGGTTATTCTCTGTTCAAATCTTTGCTCATTAAAAA
ACATTTTTTAAAATTGAATTTTAAAGATTATTTATATTCTGGATATTTATCCTTTACCAGTCTGTAGATGTTTTTTTTAAAGTAAACTCTTTTTGTTTGT
TTGTTTWTATTTTTTTATTTWTATTTTTTATTATTGTACTTTAAGTTTTAGAGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCA
TGTTGGTGTGCTGCACCCATTAACTCGTCATTTAACCTTAGGTATCTCTCCTAATGCTATCCCTCCCCCCTCCCCCAATCCCACAACAGGCCCTGGTGTG
TGATGTTCACCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCTACCTATGAGTGAGAACATGCGGTGTTTGGTTTCTTGTCCTTGTGGTAGTTTGCT
GAGAATGATGGTTTCCAGCTTCATCAATGTCCCTACAATGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTGTATGTGCCACATT
TTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAATAAACATACGTGTGCATGTGTCTTTAT
AGCAGCATGTTTTACAATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATAGTATTTCTAGTTCTAGATCCCTGAGGAATAGCCACACTGA
CTTCCACAATGGTTGAACTAGTTTACAGTCCCACAAAAACAAGAAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATT
TGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATTAATTCAAGATGGATTAAAGACTTAAATGTTAGACCTTAAACCATAAAAACCC
TAGAAGAAAACCTAGGCATTACCATTCAGGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAGTGGCAACAAAAGCCAAAATTGACAA
ATGGGATCTCATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACTTACAGAATGGGAGAAAATTTTGGAATCTACT
CATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAGACAAATTTACAAGAAAAAATCAAACAGCCCCATCAAAAAGTGGGTGAAGGATATGAA
CAGACCCTTCTCAAAAGAAGACATTTATGCAGCCAAAAGACACATGAAAAAATGCTCATCATCACTGGCCATCTGAGAAATGCAAATCAAAACCACAATG
AGATACCATCTCACACAAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGTAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTT
GGTGGGACTGTAAACTTTTTATTTTACAATAAATTTAGATTTAAAGCAAGGGTGCAAAAWATTGCACTAAGAATTCCCATATATCTTTTGCCAGTTTCCC
CTATTGCTAAATGTTAGTTTACTGTGCACATTTTTTTTTATTATACTTTAAGTTCTAGGGTACATGTGCACAACATGCAGGTTTGTTACATATGTATACA
TGTGCCGTGTTGGTTTGCTGCACCCATTAACTCGTCATTTACATTAGGTATTTTTCCTAATGCTATCCCTCCCCCATACCCCCACCTCTCGACAGGCCCC
GGTGTGCGATATTCCCCGCCCTGTGTCCAAGTGTTCTCATTGTTTAAATCCCACCTATGAGTGAGAACATGCAATGTTTGGTTTTCCGTCCTTGCGATAG
TTTGCTCAGAATGATGGTTTCCAGCTTCATCCATGTCGCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGC
CACATTTTCTTAATCCAGTCTACCACTGATGGACATTTGGGTTGCTTCCAAGTCTTTGCTTTTGTGAATAGTGCCCCAATAAACATACGTGTGCATGTGT
CTTTATAGTACCATGATTTATAATCCTTTGGATACATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATTGCCA
CACTGTCTTCCACAATGGTTGAACTAGTTTACACTCCCACCAACAGGGTAAAAGCGTTCCTATTTCTCCACATCTTCTCTAGCACCTATGTACATTTATC
ACAACTCATTAATCAACACTGACACATTATGTTGAACCAAAGTCTATGTTTTCTTTAGATGTCATTAATTTTTACCTAATGTCCTTGTTCTTTTCTGGGA
TCCCATCCAGGATACCGCATGACATTTACTCATCACATTTGTTTCATCTCCTCTAGCCTGTGACAGTTTTTCAGAGTTTCCTTGGTTTTGATTACTTTGT
CAGTTTTGAGCAATTCTGGTGAGGTATTCTGTAGAATGTTCCTCAGTTTGAGTTTGTCTGATGTTTTGATTATGGTAACACAGGGGTTATAGGTTTTTAG
GAGGAAGACCACAAGGTAATGTGTTTTCCCGCTTTCTTGCGAATGGATACCCAACTGTTGAAGAGTCATCTTTTCCCCACAGAATTGCCTGTGCACCTTT
GAAAAAACTTGGTTGCTCATACTTCTATTTCTGGGTATTCTATTCTGTTCCAATGATCTTTTTGTGAAATATTTGATTACTATAGATTTGTAATAAGTCT
TGAAATTAGGTAATAATTGCTCTCCATTTTTTTTTCTATTTTTTAAAAGTTATTTTTGCTATTGTAGGTCTTTTACATTTCCCTATGAATTTTAGAATCA
GTTTGCCAATTTGTACAAAAAGATAGCCTGCTGGAATTTAGATTGGGGTTGTATTAAATTTATAGATCAACTAAGGAAAAATAACATTTTAACAATTTTG
AGTTTTCTGATTCATGAACATATCTATTTATTCAGGTCTCTCACCAATGTTTTGTTGTTTTCAGTGTACAATCTTTCACATCTTTTGTCAGATTTATCTG
TTAGTATTTTTTATTTTTGATGCTATTTAGGTGCTGTTTTCATTCCAATTTTCAATTGTTCATTGCTAGTACATTTGACCCTTGAAGAATGTGAGGATTG
AGGTACCAACCCCCGAGCAGTAAAAAATTAGCATAGAAAGGTTTTGTGGGTTTCTTTTTGTTTTTTATTTTTGAGACAGAGTCGTGCTGTTTTGCCCGGG
CTGGAGTATAATGGCGTGATCTCAGCTCAATGCAACCTCCGCTTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGCA
TGCACCACCACCTGCAGCTAATTTTTTGCATTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGCTGGTCTCCAACTCCTGGCCTCCCGTGATACGC
CCACCTTGACCTYCCAAAGTGCTGGGACTACAGGTGTGAGCCACCACGCCCAGCACACATAGAATTTTTGACTCCCTAAAAATTTAACTATTAATAGCCT
ACTGTGCACTAGAAGCCKTACCAATAACAGAAACAGTTGCTTAACACATATTTGGCATGTTATATGTGTTATATACTGTATTATCAYAATGAAGTCAGCT
AGAGAAAAGAAAATGTTATTAAGAAAATCTTAAGGAAGAGAAAATTAAGTATTCATTAAGTGGAAGTGGATCATGATAAAGGTCTTCCTCTTGATTGTCC
TCCATTGAGTAGGCTGAGAAGGAGGAAGAGGTGGGTTGGTTTTGCTGTTTCAGGGGTGGCAGAGGGGGAAGAAGTGGAGGAAGAAGGAGGAGAGACAGGT
ACACTTGGTGTAACTTTACAGAATTACATCATAATTATTATTTGACTTTTTTGCCTTTGCAATTCTTTGAAAATGCTTTTTTACAGTACTAGTCCTTCTT
CCCCATTTGCTTTAGTTTCAGTGCCCATTCATGGAAGGGTTTGTGTTGTAAAATAAGTCAAAAGTAGTCTTAATAATTGGAAGCCTTTGCCAAACTGTTT
AATAGGAATTTGTTTTCTGGCATGGCTTCTTCTATGTCTTCTTTAGTATCTGGTACTGATTCAAAAGCACTCATCTCCATCAAGTCATCTTCTGTTGATT
CCTCTGGTGTGGTGTCTATTCATTCTTGAATTTCTCACAGATTCATATCTTGAAAGACCATATCCCCCACCTTTTGTTGCTGAATTAGAGATRTTGGGTT
TGCAGGCAAGTAGACCACTTTGACACCTTCAGTGTTGAACTCATGGGTTCTGGGTGGCTAGGGGCATTGTCCAAAAATCAAAAGAACTTTGAAAGACCGT
CTCTTACTGGCAAGATATTACCTGACTTCAGGGACAAAGTAATGATAGAACCAATCCAGAAAAAGTGTTCTTGCCGAGGCCTTCTTGTACAACAAAAAAA
CTGGCAGTGGGTATTGATCTTTTCCCTTTAAGGCTTGGAGGCTAGCAGGCTTATGGATGGGGGCAGTCCTATTTGTAAACCCAAACATACAAACATACAA
ACTATGTCAAAGGCATAGCATGGGTACTGTGAAAGGAGGGTGAAAACACAAAGTTGACATCACCTCTGACCTCAAGGAGTGCTCAGCAGACTGAGAGAGA
CAAGTACATATTTTCCTGAAGGAGGGCACTGGAGTGATGGCGTGTTTAGAATGTGCAAGTTGAGCGGTCACTGAGAGGCAGCTCAGCAGAGTGCTCTCGC
AAGGATTGGGCGGGCAMCTTCCCACTGCGTGCGATGTATCTTAGGAAAGCCATTTAAAATAGGAGACGGTTACTTTCCATCAAGTCCCTGGTATGGTCCA
TGGAAGCAGGGTTGTCAGTCTCATTTCAGCATTTTAGAGGCTTCTCAGGGTTTGGAAATGGAAGAAGAGAAGCAGCAATATGTATGCATTGCAGAGACAC
AGGCGAGCCCCAATTTAGGAGGTTAGGAGGTCAGTGCTAAGGGCCTTGTTTTCTTTGCTTAGAGYATGAGTTGCCATCTTCTCTGGACAGAGAGTATTTG
GTTGCCTAAAGGTAAAATCTAAATTTTGCTCTGGGACAAATTCCAAAAAAAATTAGCTTTAATCAAATTTACTYTTACTTTATCTTTCTGAACCTTCAAG
GTCCAAAAGCATTGGTTAATAATTCTGCTWCTAAACTTAACATTGCAGCACAGGGCATGTTCTGCCCCCAAGGCAAAGACCATAAGCTACTGTTGTCTGG
AAAACATACAAATAGATATCTCAGCAAAAGCTACTCATATATTCTTGTTCTTTTGGGTAAATCATTGTCAGTGACTGATTTTTTTTTATGAAAGGATAAA
AACACGCCCTCTATTGGRGTCAGGTTTTGTGCTGGTATTTCTCCCACCTACTGTATCATAGGAGCTTAGATTCCCAGCTGCTTGCTCTCAGCTGCAGTTC
TCTGATGGCTTGCACAGGGTGGACCAGCCCCCTTCCTCTATGTGTGTGTCTGCTGCTGACCTGTGGCTTTGCCGAGGCAGGGAAGCTACTGGTAGTGCCC
AYGGATGGGAGCCACTGGTTCACCATGAGGTCGGTGGTGGAGAAACTCATTCTCAGGGGGCATGAGGTGGTTGTAGTCATGCCAGAGGTGAGTTGGCAAC
TGGGAAGATCACTGAATTGCACAGTGAAGACTTATTCAACTTCATATACCCTGGAGGATCTGGACCGGGAGTTCAAGGCTTTTGCCCATGCTCAATGGAA
AGCACAAGTACGAAGTATATATTCTCTATTAATGGGTTCATACAATGACATTTTTGACTTATTTTTTTCAAATTGCAGGAGTTTGTTTAAAGACAAAAAA
TTAGTAGAATACTTAAAGGAGAGTTCTTTTGATGCAGTGTTTCTCGATCCTTTTGATAACTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCCCTCCG
TGGTCTTCGCCAGGGGAATACTTTGCCACTATCTTGAAGAAGGTGCACAGTGCCCTGCTCCTCTTTCCTATGTCCCCAGAATTCTCTTAGGGTTCTCAGA
TGCCATGACTTTCAAGGAGAGAGTACGGAACCACATCATGCACTTGGAGGAACATTTATTATGCCACCGTTTTTTCAAAAATGCCCTAGAAATAGCCTCT
GAAATTCTCCAAACACCTGTTACGGAGTATGATCTCTACAGCCACACATCAATTTGGTTGTTGCGAACGGACTTTGTTTTGGACTATCCCAAACCCGWGA
TGCCCAACATGATCTTCATTGGTGGTATCAACTGCCATCAGGGAAAGCCGTTGCCTATGGTAAGTTATCTCTCCTTTAGCACCTTAAGAATACTTCACCT
TTGGAAATTAAAAAAGGATTCTTTACTGAACTGTGATTTGACATTTTCATTTGTTTCATTTCAAATTTCTTTCCAGTTTAACAAATTATTTTGTGCCAAT
GCGTGTACTCRTCAGTAGCAAATTTTATAAAACTGCCCTTCTTGAAGATATGTATTTATAACTTATAAAATTGTGGAWCATATTCAGCCTACATTTTTAA
GTACCATGTTTAGAAAAGTACCAAAAACCACAGTAAGAAATGAAACTTCCCTTTTTTGTTAATTCTATATGMCCGCCCCAGAGGAAATGGTCTTAGTTTT
GTGAACATTCTTTTAATGTTTTTAAAAAAGTACTTTAGGTATATACAATATCTAATGYAAATTCTCACACCTATTTTGTTAAAATAAAATCTAGTATTGG
GCTGGACATATTCTTCTTTTCTTTGCATTTTTCACTTGCCAATRAATTATAAATACCTTTATAGACCAATACAGACAGATTTGACAAGTTCTATTAATAA
TTGCATAAAATACTTTACTTTGGATGCAATGTAGTTTTTAACCAATTAATATTGATATAGATTTAGGCATTTTGYATTTTTTGTCTTTATGAATAGGGCC
GTGTAAACACTCTTTAATACTTTCCTTACATGAATATATTTCCATATTCTTGCTTTTATCTTAGTTGACTAGAGCCCTACATGTAGGGTTACAGGATTTC
CATGAATTGAGAAGGATTGGCATTTTTTTGCTATTRTGTCTTCCTGTTCAGGAATATGTATGTCTCACTATTTATTCAGATCTTGTTTTATATACATAAA
TAAAATTTTTCACTATATAAGCATTTTCTGTTTCTTATTAACATTTATTCCTCAGCATTTCATTATTTTTGAAACTATTGGGTACAGGACAATTTTTCCA
TTTCTACATGTAACTGACTATGGGTAATTAAGGTTTTGTTTTTTGCATATGTATCTTGTATCCAGCCACATTACTAACTTATCTTATTATTTTGTAGTAT
ACAGTAGATGTACAATATACAATGTCAWCTGCAAAGAATTCCCTTCTCTGATATTTATACCACTTATTTTGCTTTGCTGGAGCTTATACTTCCAAAGCAC
TATTGAGTAATATTGTGAGAGTAGCCAGTTTAAATTTTAAATAGGGATTCAATCACTTGTGATTGAAAAGTCCATGACAAATACCAGAATAACATTCTTA
GCAAATGTGTAGTTGGCTGAATCCAGATTAAACACCTAATGTCTAATCTCAGTATATTATTTTGGAGGGATGGAGTATACAATTTATCTATTGTTCTGGC
TCCTTACAAGGTTCAGTAGACTTGGTAACACAGTCATATTCTCTCACATATTGGCAGATGTTTGGTGAAAGAGTGACTGTTCAGCCAACTCATGGGAAAG
TGAAATAATGCTCTTTCTAAAAAGCAGGAGGACTACAGTTGTAGGCCTTTCAAAATTAGGCATGACTTTCGGATCTTCACAAGACTAGGCTAGGAGATGC
AAATGGCAGAAATCTAAGAGGTTAGACTTGTCTAAGCACTTTTCTCCCCTTTACCCTCCATAAATTATAGTATCCTCCATTAATTRTAGTAACAGGCACC
ACTTATGTGTTGCCTGCACCCCACAACCTTTGGCTGAGGGTAAGGCCCTGCCACTTCCTGAACCCACACTGAATTTATTGTGCCTCACAGCGTCACCCAG
AGGCCTWTAGAGATATAAAAACCTATATATGATTTTATATCACCTATGATAGAGGGTTATCTATAAAATATGAAACATCAAACTATATATGGTTTCATTT
ATTTTGATTATAAATATCTTTTATGAGATATGAAATAAATGTGTTTATGTGTCTATTAAAGAATATGGATGTATGAAAGTTTTTATACTTGTGGAAGATT
ACATATATTAATGTATGTATTTATGACTATACGTGTAAAGCCAGCGGAGTTCTCACAGAGGAATTCAGAACTCAAAGAAGGCTTTCCGGCAAAGAGCCTT
GGATATGGCCCAAYCACAGAAGTAAATTGTCATTGACAGAAGGATGGACACTTCATATTGCTCCTTCCTTGTTTCAGATGCCAGGATGTGTCTGGGAAAA
GCATGCAGTTGGTTACATCTTGCTGGGAAACAGGATTCAGAGTCTGTGTCTTATCTGTCTGATGAGAAGGAAGCATTACTTGATGATGGAGTATGTGTTT
GCACATGTATGTGTTTGTGTATGTGCAGGTGTGTTTGTGTGCAGTGTCCCAGACCCTGCATAGGGGATTTTCTTGAAGGTCTCCTGTAACAAAATCTCCT
TGAGGCTATCCAGGGGAATTACATCCAGGGATGTAATTAAATACTTTAACAAGGATGGCAGATGGCCCCGTCTTCAATGTCAGGGATCAAATTTCAACGT
GAGATTTGGAGGGGACAAACTTCTAAACTATATCATTCCGTGTGGTCATTCTTTTACATTCCAGCGTTCTAATGTGTGTGTGTTGATTAATGATGTGTAA
ATAATTCAGCAGAACATTGAAATAGTTTTAATGGCAAAAAGAGGAGGTCCCTAGTCTTTTTGAATTTTTGATGAGTTCCAACAGAATTAATGACTGGTTT
TAGGTGAAAAGAATTCAGGCTTTGTCTATACCATCCATGGCAGGTGCGGCTCTGGGGGTGGGATATGGTTACAGATAAATAAGAGATCTGTGCTTCCCCC
CTTGCTGTAAGATTCTGGCTATAGTCCAAGATCCAAATTCAAAGTTAGCTTTTGGTGGACAAGACTAAGGCCTCCCACTAAAATTATTTACTTCAAGTTT
TTATTTTCAAAGTTTTCAAACATACACAAYGGAGAGACTCAGTGTAAYGAGCACCCACTTATCCATTCTTAGGTTAAATAATTTTCACTATTTTGCTCTA
CTAATTCATCTATCCCTTTATTCTATCTTTTTAAAGAAAACTTTTAAAAATAAATTTGTATGTTTTTAAAAAGAAATTCTTGGCATGTCATTCCATCACT
GAACAATTCATTTAATATAAAAAATAAGAAAAATTTGTTACATAGCCACAATATCATTATCATATCTAAGACAATAAAAATTCTTTAATATTATCTCATT
TACAGTCCATAATAAAATTTCCCCGGATTGTCTCACACAACATCTTTCCATACAGATCAATGGAATAGAATGGAGAATTCAGAAATAAACCCATACATAT
ACATCCTTGGCCAATTGACTAGGTGCCAAAGTTTGACAAGTGTGTCAAGATCATTCAAATGGGAAAGAATAGTCTTTTCAACAGAAGACCCACCCTGGGG
TCCTTGAGCTCCAGCGTCAGACTCCAAAACCATTTGTGGAAATCATCCAGCCACCTCCCACCATGCCTCTGATGAATCCTTCACCGATGGATTCATCAGA
AGCATGGTTGATGATGAATTCACTGATGAATCACCCCTGTGTGCATCCACAGGGGTCCTGCAAATATTTTCTCACAGTCTGTTGAGTGACTTTTCTTACA
AATACTTCATTGTAGAATAAATATAGGATTATAGCAAGGTTACAACAAATAGTTTAGAGAATTTTCATCTACCCTGTGTCCAGTTTCCACCATTGTTAAA
TCTCATGTTTCTATGGCACATCCATCACAACTCATTCACCAATATTGAYGCATAATGATGAGCTAAAAGCTAAAGTCTGTTTCCTTCAGATTTCATTAAT
TTTTACTTAATTTCCCTGTTCTTTTATGGGATCCCAGTGATACCACCTGAAATGTAGTCATCATGTCTCCTTTGTCTCCTCCAGCCTGTGACGGTTTCTC
AGACTCTCCTTGTTTTTAGTGACTTGGGCAGTTTCGAGCAGTCCTAGTCAGGTGTCCTGTAGAATGTTCCTCTAGAATGTCAGTGTGTGTTTTGCCTGAT
GTTTTCATCGTGGTAAAACTGGGTTTATAGACTTTTGGTAGGAAGACACAGAGGTCTTTTCTTGTTTTCTTGCGTGTGAATATTCAACTGTAGAAAAACA
GAACCTTTTCTCCACTGCATTGCCTTTGTACCTTTGTAAAAACTTGGTTGTTCATACATCTGTGCACGTATTTCTAGACTTTGTATTCTGTTCTGTTGAT
CTATTTGTGAAATATTTGATTACTATAGCTGTGTAATAATCTATAAATGAGGTAGTGTTACCTCTAATTTTTTTTTTCAAATTGCTTTTGCTATTGGAGG
TCTTTTGCATTACCATATGCATTTTAAAATAAGTTCATTAATGTGTGCAAAAATCCTGCTAGGATTTTGATTGGGATTGTATTTTATTTATAGATCAACT
GGGGAGAAACAACATCTTAGCAATTTTGAGTTTTCCAATTCATTAACATATCTTTTTATTTAGGTCCGTCATCAGTGCTCTGTAGTTTTCAATGTACAGT
CTTTCACATCCTTTGTCAGATATATCCCTAAGTATATCATGTTTTTGATGCTATTTAAGTGGTATTTTTAATCCAGTTTTCAAGTGTTCATTGCTAGTAT
AGTTGACCCCTGAACAATGTGGGAATGAAGGGGACCAACCCGTGTGTAGTAGAAAATCCGCATAGAACTTTTGATTCTCCAAAAACTTAACTACTAATAG
CCAACTGTTTACCAAAAGCCTTGCCAATACCATAAACAGTCAATTAACACATAGTTTGTATGTTATTAGTATTATATCCTGTATTATGACAATGCAGCTA
GCTAGAGAAAAGAAAATGTTATTAAAAAACGTAACATATGAAAAAATGCTCAACATCACTAGTTACCAGAAAAATGAAGATGAAAACCACAATAAGATAT
CATCTCACACCAGTTAGAATGGCTGTTATTAAAAAGTCAAGAAATAATAGATGCTGGTGAGGCTGCTGAGAAAAGGGAACACTTGTACCCTCTTGGTGGG
AATGCAAATTAGTTCATCCCCTGTGGGAAGTAGTTTGGAGATTTTGCAAAGAACTTAAAACAGAACTGTCATTCGACCCAGCAATCCCATTACTAGATAT
ATGTAAAAAAAATCGTTTTACCAAGAAACACATGCACTGGTATGTTCATTGCAGCTCTATTCAGAATAGAAAAGACATGAAATCAACCTAGGTGCCCATC
AACAGTGGCTTAGATGAAGAAAATGTGGAACACATACTCCATGGAATATGCAGCCATAAAAAAAGAATGAAATCATGTCCTTTGTAACAACATGGATGCA
GCTGGAGGTCATTACCCTAAGGGAATATATACAGGCACAGAACACCAAATACCATTGTTTTCACTTAGAAATGGGAGCTAAATAGTGGGTACTTTTGGGC
ATAAAGATGGCAACAATAGACACTATGGACTCCTAAARGGGAGAGGAAAGGCTGCAAGAGTTGAAAAACTATTGGGTACTATGCTCAGTACTTGGGTGAT
GGGAGCAATCATGCCCCAAACATCAGCATCACACAATATACTCAGGTAACCTGCACATGTACTCCTGAATCTAAAATAAAAGTTGAGTATGTATAAGWGG
AAGTSAWTCATCATAAAGGTCTCCATCCTCATCATCTTCCATTGAGTGGGCTGTGGAGGAGGAGGAGTAGATGTTGATTTTGCTGTCTCAGGGTGGCAGA
GGCAGAAGAGGTAGAGGAGGTGGAAGTGGAGGCAGGAGAGGCAGGTGCACTTGGTGTAACCTTATGGAAATACATCATAATTACTGTCTGTTTTTTTCTC
TTTGATGTATTTAAAAATGCTTTTATACAGTRCTAATCCTTCTTCCCCATTTGCTTTAGTTTCAGTGCCCATAAGGGTTCATGTCTTAATAGAAGTCAAT
AGCAGTCTTAAATAATTGGAAGCATTTCTATGAGGCTTGTATTGTGTAAGGCCAATTTTTTTTCTGGCACTGCTTCTTCTACATCTTCTTTCTCATCAAG
TACTGATTGGAAAGCACTCATCTCTATCAGGTCATCTATTGATTCCCTGAGTGTGGCATCTATTGKCTCTTGAATTTCTCCAAGAGTCATATTTTGAAAT
ACCTTATCCCCAACATTTTGTTGCTGTATCCATAATCCCTTCATGACTTCCTTGATTGGCTCTGTCATAAATCCTGTGAAGTCATGTGCAACATCTGGTC
ACAGTTTTCTCCAGAAGAAATGTACTGTTTGGGGCTTGGTGGCTTTCAAAGCTCTTTCTATARTAACAGTGGCATCTTCAGTGGTGTAATCCTTCTGGAC
TTTCATGACATTCTCTATCCAGATTCTCTTTCCTAGTATTGACAACCTTTTCCATAGAAAACTGTGTGTAATGAGTTCTAAATTTCCTTAAGACACCTGA
TTGAGAGACTGAATTAGAGATGTTGGGTTTGGAAGCACGTAGACCATTTTGACACCTTCAGTGTTGAACTYRTGGRTTCTGGGTGGCTAGGGAATGGTCC
AATATCGAAAGAACTTTAAAAGACAGTCCCTTGCTGGCAATGCATTTTCTGCCTTCACGGACAAAGCCTTGATGGAACCAATCCAGAAAACGCGTTCTTA
TTGTTGAGTCCTTCTTTTTGTACAACAATAAAACTGTCAGTGAGTGTTGATCTTTTCCTTTCAAGGCTYGAGGTTTGGCAGTTCTACTGATGAGGGCAGT
CCTGACTGTAAACTTGACTGCATTTACACAAAACAGTAGAGTTAGCCTATCCCTTCCTGCCTTACATTCTGGTGCTTGGTTTTCTTCCTTGCCAATAAAT
GTCTTTTGTGTCATCTTTTTTTTTGTTTGTTTGTTTTTGTTTTTTCCAGAATAGGGCACTGTCATCTGTATTAAAACCCTGTTCAGGCAGATATCCTTTG
TCCTCAATGCTTTTCTTCATGGCATCTGGGAACTCATCTGCCTCCTTTTGCTTGGCAGAGGCTGGTTCTCCTGTTATCTGGACAATTTTAAAGCCAAACC
TCTTTGTAAAACTAGCAAACCATCCTTTGTTGCCATTAAATTCTCCAGTTTTAGATTCTTCACCTCTCTTTTGCTTTAAGTTGTCATAAAATGACTTTAA
TTTTTCTCAAATCACATTGGCATCTATAAATAAGCCTTTCTTATAGCAATCCTACACCCACATTAAAGTTGCATTTTCAATATGAGACAAAAATGTATTT
CACAAAAARATGCGAGGTTTGGCTCCTGCTGGCATAGCTGCAGCAATGTCTTCATGAATCTTTTCTTCTCTTTTCTTTCTTTCTCTCTCTCTCTTTTTTC
TTTTTCTCTTTCTTTCTTTTGCAATGGTCCTTATCTATCTTCATTGATTTTGAAATGGCAGGCAATCATAGCGGCAGAGCTCAATCTACGGTACCTATCA
AGTAATTCAAGTTTTTTTGGTAATGTCATGATTTTTCTTTGCTTCTTGGGAGTACTTGCAGCATCATTAGTTGCACTTTATAGTCCCATGGTGGTATTCA
AGGTTTAAAAAATTACACTAAACATGATGAAAAATACAGTAGAACCATAAGAGATCATTTTTTACTCTGACATGCAATTTACTAGAGAGAAGAAACGCGC
AGAGGGTATAAACGTCATATCACATGCATTTAGGCCACACTTTAGCTCCCTGCAATAGCAACAGGAGGTAGCAACAAAATTATTATAGTAGTGTAGTATG
TACTAGAGGAAAGTGACTAAGCAAATGTCTAGTACCAGTTAGGGTGTCCTGGAAGGAACCATCTTGTGCTTCTACAAGAATTATGCCCTGAGGTTGGCTG
TTGAATCCCTCACKAAATGCTCCTCAGTGTGTTGCCTAACACACACTGCTGAGCTCACCCATTAAAATCTGCATGATGGAATTCAGCCCAATGCAATGAG
AATTCCCATGGACTTCCTCTGTGCAAGGCAAAGCAYGGGTGCTGTGGAAGGAGGATGAAAACAGGTAGAAGATGTAATCTCATCCTCAAGGGGTGCTCGG
TAGAATGGAGGAAACAATACATAGATTCCTGAAGATGAGCACCAAAGTGATTGGGGTGGGCCCATAGCAAAGGCCTGCAGCTCTGTTCAGAATGCAGAAG
CAGAGTGGGCAGAGAGAGACAGCTCATCAGAGTGCTTGGGCAAGCATAGGGACGGCGACTCACCACTGCAGACAATGTATCTGWGGAAAGCCATTTAAAA
TAGGTGACAGTCACATTCCATCAAATTTCTGGAAGGGTCYATGGAGGCAGGGTTGTCAATCTCATTACAGCATTTCAGAGGCCTCAGAAGATTTGGAAAT
GAAAAAAGACAAGCAGCACTTGTGGCTCACCTGTGTCACAATTGTGGCTCACCTGTGTCTCTGCAATGCGCAAGTGAGCTGTGTATTGCAGAGACACAGG
TGAGCCGCAATTTCCTCCCAGTTAGGAGGTCAACGCTAAGACCCTTGCTCTCTTTCCGTCGAACATGAGATGCCAATTTCTTTCTGGGCAGAGGACAAAA
TAAAAATTGTCTATAAACTTTGGCCAGGTGTAGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCCGAGATGGGCAGATTGCCTGAGCTCAGGAGTT
CGAGACCAGCCTGGGCAACATGGTGAAACCCCGTCTCCACTAAAATACAAAAAGTTAGCTGGGCRTGGCAGCGTGCGCCTGTAATCCCAGCTACTGAGGC
TGAGGCAGGAGAATCGTTTGAACCCAGGAAGTGGAGGTTGCAGTGAGCCTAGATCTTACCACTGCACTCCAGCCTGGATGACACAGTGAGACTCCATCTC
AAAAAAAAAAAAAAAAAAAAAAAAATTGCAAATTTTTCTTTGTGACAAATTCCAAAATTATTAGCTTCGTTCAAATTTACTTTCCTTTTTATCTTTCAAT
GTCGTCAAGGCCAAAAGCATTGCTTAATAATTTTGTTTCTAAACTCATATTGCAGCACAGGGCATGATCTGTCCCCAAGGCAAAGATGATGAGTTACTCT
TTTCTTGAAAACATATAAGCAGGTATCTCAGCAAAGGCTACTCATGTATTATTATGAGTAAATCATTGGCAGTGAATGTGAATTTTTTTTTAAATGAATG
AATAAGTACACGCCTTCTTTTGAGGGCAGGTTCTATCTGTACTTCTTCCACKTACTATATTATAGGAGCTTAGAATCCCAGCTGCTGGCTCTGGGCTGAA
GTTCTCTGATGGCTCGTGCAGGGTGGACTGGCCTCCTTCCMCTATATGTGTGTCTACTGCTGACCTGTGGCTTTGCCAAGGCAGGGAAGCTGCTGGTAGT
GCCCATGGATGGGAGYCACTGGTTCACCATGCAGTCGGTGGTGGAGAAACTCATCCTCAGGGGGCATGAGGTGGTSGTAGTCATGCCAGAGGTGAGTTGG
CAACTGGGAAGATCACTGAATTGCACAGTGAAGACTTACTCAACCTCATACACTCTGGAGGATCAGGACCGGGARTTCATGGTTTTTGCCGATGCTCGCT
GGACGGCACCATTGCGAAGTGCATTTTCTCTATTAACAAGTTCATCCAATRGTATTTTTGACTTATTTTTTTCAAATTGCAGGAGTTTGTTTAAKGACMR
AAAATTAGTAGAATACTTAAAGGAGAGTTSTTTTGATGCAGTGTTTCTCGATCCTTTTGATGCCTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCCC
TCTGTGGTCTTCGCCAGGGGAATATTTTGCCACTATCTTGAAGAAGGTGCACAGTGCCCTGCTCCTCTTTCCTATGTCCCCAGACTTCTCTTAGGGTTCT
CAGACGCCATGACTTTCAAGGAGAGAGTAYGGAACCACATCATGCACTTGGAGGAACATTTATTTTGCCCCTATTTTTTCAAAAATGTCTTAGAAATAGC
CTCTGAAATTCTCCAAACCCCTGTCACGGCATATGATCTCTACAGCCACACATCAATTTGGTTRTTGCGAACTGACTTTGTTTTGGAGTATCCCAAACCC
GTGATGCCCAATATGATCTTCATTGGTGGTATCAACTGTCATCAGGGAAAGCCAGTGCCTATGGTAAGTTATCTCCCCTTTAGCACWTTAAGAATAATCT
GGCTTTGGAAATTAAAAGATTTCTTACAGAATCATAATTTATCATTTACATTTGTCCCATTTGGAATTTCTTTCTGGTTTAAGGAATTCTTTTGTACCAA
TTCACTTAATTGTTGGGTAGCAAATTGTATAAAGCAGCTCTTGTTGATATGTAAGTGTATACAATTGATATAATTGTAGATCATATCTAGGCTGCAATCT
AAATGCTATTTTTGGAAAAATACAAAAAAACCACAGTAAGAAATGAAACTTCCCTTTTTTTGCTAATTCTACACTACCCCCAGAGGAAAATATTCTTAGC
AGTTTTGTGTGAATTGTTTTCAATTTTTTTGAAATTATACTATGTATATGCATATATTTAGGGTAAATTGTCACTTCTATTTTATCAATATAAAATCTAC
TATCATGCTGGCTATGTTTTTTTATGTTAGATTTTTCTCTTGTCAATAAGTTAAAGATATCTTTACAGGTCAATGCATACAGATTTGACATGTTCTTTTA
ATAATTGCATGRTAGTCTTTACTTTGGATGCAATGTAGTTTTCCAACCAATTAAGATTGATAGAGATTTAAGTGTTTTCCACTTTTGGGGTTTATGAGCA
ATAATAAGAATTCTTGTATACTTTCTTTACATTATATATATTTTCATATTTTTGCTTTTATCTCAGTAGGGTATCATCCTATGAGTATGGTTGCTTGGTT
TTCACTAAATGAGTGAGATTGGCCTTCTTTTGCTATTACATCTTCCTACTCAAGAATATGAATCCCTCATTATTTATTCGGATTCTGTTTTATTTCCATA
AATAAAATTTTGCACTTTATAAAAGTATTTCATCTTTCTTATTAACCTTTATTCCTCTGCATTTCATTATTTTTGAAACCATTATGTGCAAGGCAATTTT
CCCATTTCTCTTTTGAATTCACTATGCATAATTAATGTACTGCTTTGAGTTTTACACATTTATCTTGTATGTAGTCATATTACTAAACTCTCGTATTAGT
ATGTAAGGTGTATTAAGTATGCAATATCATCTGCAAATTATTCCCTCCCCTGGTATTTATACCTCTTATTTTGGCGGAGCATATAGTTCCAAAATATTAT
TAATATTGTTGGTCTAGCCAGCTTAAATTAGGATTTGGTCACTTGCAATTGAAAAAGTCKTGACAAATACAAGAGTAAGATTCTTGGCAAATGCATAGTT
GCTAAATCCAGGTGAAACACCTGGTGTCTGATCTAAGTATATTATTTTGTTAGGGATGGAGTATACATTTTTATCTATTGTTCTGGCTTCTTACAAAGTT
CAGTAGACTTTGTAACACAGTCACATTCTCTCTCATATTGRCAGATGTTTGGTGAAAGAGTGACTGTTCAACCAACTCATGGGAAAATGCAACCAAGCGC
TTTCTAAAAATCAGGGAGACTACAGTTGTAGGCCTTTCAAATGAAACATGACTTTCAGCTCTTGGCAAGACCAGGCGAGGAGATGCAAGTTGTAGGACGC
TAAGAGGATAGACTTGTCAAAGTGTCTCTCCCCTGTTTACCCTCCATCAATTACAGCACCAGCCAYCACTCAGGTATTGCCTGCAGCCTCACCCTCTAGC
CAAGTGTGTGGCCTGCCACTTTCTGAACCCATGCTGAGTTTKTTGTGGCTCAAAGGGTCACCCAAAGGGATTTAGAGATGTAGAAATTATATATGATTCT
ATACCACCTATAATGGTATATGATAGAGAGATCTATAAAATATGAAACATTGAGCCATATATAGTTTTACATATTTTGGTTATTTGTATATCTTCAGTGG
TGTATAAAATATATGCATTTATATGCCTTTAAGGAATATACATATGATAGGATTTATAGATGTGGAAGGTTATGTATTAATGTATATATTTATAAATAKA
AAATAAATATAATTATCAAAGAAGAATTCAGATCATAAAGAGTGCCCTTTGGCAAAGAGCCCTGGATATGGCTCAACCACAAAAGTAAATTGTCATAGAA
AAATTTATGGACACTGTATAGTGTTCCTTTCTTGTTTCATATGGGCAGGGTGTGTCTTGGAAAAGTATACAGTTTTTTGTACCTTGTTAGACAACAGGAT
TCATAGTCTGCATTTCATCTGTCTGATGAAAGCATTGCTTGATGATGCAGTGTGTGTGTATGTGGTGTTTGTGCACGTATGTGTCTGTATGTGCAGGTGT
GTTTGTGTGCAATGTCTTAAGCTCTACACAGGAGATTTTTTTTCTGAAAGGTTTCCTATAACAAAATCTTATTGAGTCTATCCAGGTGAATTACATCCAG
GGATGTAATTAAATACTTTAACAAGGATGGTAGATCATCATTCAGGAGAACATTAAAACGGTTTTGTTTTGTATTTTTAATAGAGACGGGGTTTCACCAT
GTTGGCCAGGCTGGTCTCTGACTCCTGACCTCAAGTGATCCGCCCGCCTCSGCCTTTCAAAGTGTTGAGATTACAGGTGTGAACCACCACACCCGGACTT
AAAGTGGTTTTAATGAGAAAAAAAGAAAATCACTTCCACTTTTCTTGACTTGTTGGTGAATTACAGCAGAATTGATGGTTGAATCCAGTTATAAAGAATT
CGRGCTGAATCTACACCATCTAGGGCCAGTGCAGCTCTGGAGAACTGGGACTGGGATGTGGTTACAGCAAGAAAAGATCTATGCTTTCCCCATTGCTCTC
GCATTCTGTTTTTGATCCAAATTCAAATTTACCTGTTACTGGGCAAGCCCAAGGCCTCCCTCCAAGATTATTTATTTCAACTTTTTATYATCAAAGTTTT
CGAACATATACCAAGGAGAGGCTATGGCATAATGTGTACCCATATAGCCATTCTTAAGTTAAATAATTTTCAATATCTTGCTGTACTGCTTCGTCTTTCT
CCATTTTTTCTTCCATTTTAAAGAAAAATTTTGACTTTTTGTTTTAAAGAAAATCTTGGCATGTTGTCTCATCACGAAATACTTCACTAAATATAAAAAA
TAAGGAAAATTTGTTTCATAGACACAATACCTAAGACAATCAATAATTCTTTAATATTATCTCATTTTCAATCCATCATTAAATTTATCCTGATTGTCTC
AAAAAAGTCTTTTATATGTAGATCAATGGAATAGAATTTAAAGTCCAGAAATAATCCTGTACATCCTTTGCCTTGATTTTCATCATGGTGCCAAGAGCAT
TGAAATGGCAAAGAATAGTGTCTTCAGCAGAGGGTTCTGGGACAACTGCATATCCAAGTCCAAGAGAATGAAGTTGCACCCTTACCTTGTATCATATATA
AAAATTAACTTGAAATGGATCAAAGACCTAAATAGAAAATCTAAAACTGTAAAACTCTTAGAAGAAAAAATTAGAAAAATATTTGTGACCTTGGATTTGG
AAATGGTTTCTGAGATTTTTTTTTTTCTTGTACCAAAAGTACAAGAAACTAAAACAAGAAAAACAAGAGATAAATCTGACTTTATCAAAATGTTTTTATA
CAAAAGCTTTTGTATATCAAAGGATACTATCAAGAGAATGAAAAGACAACTCGTGTGGGCGCCCTTATTAAGGTGTGCAGATAAACACACGCATGCTTGA
CATGGAGGCTCTCCCATGAAACATCCTATTTTTTCCTTTCCTATGAAACTTTCTGAACAGGTGAGCCCAGGTGGAGCCTCCACCTGCGTTAGAACCTAAC
CTTTCCGTGGCTTTCTGAAATCCCTGGTTTCAGAAGTTAGTGTGGATTACTGCTGCTTTCTTTGACTGTCTCTCTCTCTCCTTCAATCTATCTTGATAAT
GTGATATCAAACATGATACACTACCTCTTTGGCCCACTCAGGATATTCTGGTGGTGCCCTCTGGCCTGCACCCTCCCACCGGCTATGAAGGTCAACCTCT
TGCCTTCCCTAGCCTCACTGGCTTTATTTTATGCAACACTCCAACTCTCCTCTTTCCACCTCCCCTGTTACTTTTCCCTACCTATTTTATTCCTCTTTTC
TATCTCCTTCCCCACCTATGTCTTTCCTTTCTGTCACTTTTTCTGCATGATTCCTGCCCCAGAGGGGTCAACAAGAAAGGGCATCCCACTGGCTGACTCA
TGCAGGGAAGCTGTCAGTAATTAATTAGCAAGGCMGGGAAGTTGTACCCCAAGTCTTGGTTTCAACACTAGAGGACTTTAGGAGGTGGTTCAATGTAGTG
TTTGAGCACGCGGACCCTGGAGTCCTCCAAGCCTGATTTCATAAGTACTTCAGCTGTGACACTTGCRTAAACTTGGGTAAAAACTCAGCGTTATCTAGAT
TAAATATGATAATACATGCAGATGACTGGCATGTGGMTATGAATCAGCAATACCCGTAATTGGGTGGGTGATATGCATTTTCCAGCACAATTATCTCCAA
CCTCCACAAGATTAATGATCTTAACCATGCATTCAGACTCTCTTCAGAACAACATGGTGAGATATCAATRTTGTCTTCTTGATGCAAGTTTCCCTTGAAT
GATTTAAACTTCAGATGGGTGGACTGTCTCCTTAGGGAGAATTTGCAAATTAAATATAATAAAAGCTAACATATATTGGAGGCTTACCGTGTACCAGGTG
CTACCCTAAGTATTTACATGGAAGCTGGCATTATTGGCAGACCTATTTTTCAGATGATGAAACTGAGGCACAGAGGGGTTGAGTGACTTGCCCAAGGTTA
TGCCTCAAGTAAGTGGGGGAGCCAGAATTCAAGMCCATACATTCTTTGTAAAAAAAAAAAAAAAAAAAAGGAAAGAAAAAAAGGCTGAGTGTGGTGGCTC
ACACATGTAATCACAGCACTTTAGGAGGCCAAGGCAGGAAGATCACTTAAGCCCAGGAGTTTGAGACCAGCCTGGACAACATASGGAGACACTGTCTCTA
CAAAAAATGTTTTAAAAATTAGCTGGGCCTGGTGGCATATGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCTCCTGTAAACCCAGGAGG
TTAAGGCTGCAGTAAGCCATGACTATTCCACTCCACTCCAGCCTGGGTGATAGACTAAGACCTTGTCTCAAAATAAATAAATCAATAAATACATGAATAA
ATAAAATTTAAAAATTGATATGTAATTCATGTATCGTAAAATTCAGTGGTTTTCTGTGTGCTCCCAGATACAATCAACCATCACCAATATCTAATTCCAG
ATCATTTTCCTCACTCCAAAAAGAAACCCCATGCCCACTGGCAGTCACTCCTTATTTCTCCCCCTTCTTCTACCCCTCAGCACTAATTTACTTTCTGTCT
GTATGGATTTGCCTATTCTGGGCATTTCATGGAAATGGAAGCCTTTATGACTGGCTTCTTTCACTTAGTTTTGTGGCTTAWCCATGTTGTAGCATGAATC
AGTATTTCATTCCTTTACATGGCCGAATATTCCATTGTATGGATTTACCGCATTTTTTTTATCCATTCATCAGTTGGTGGACATTTGGGTTGTTTCCCAT
TTTYAGCCATGAAAAATAATGTTGTTGTGAACATTTGTATACGATAAACCCTGATGTTCTAATTTTCGAGCCCATGTGCCTAACCTCTATACCTGACTGC
CTSCCTGTGTTGACAGGAAACTTCTTGGGAAATGTCCTATCTCCATCCTTTTGGGAATGTCACATGCAGTGAAATGCGCCTAGAGTGGGTTTGACTTACA
TCACATGGTCTCTAATCCCTCAGCAAACATGAGTTCATCTTGTTTTGGTTGGTGTTACAGAATAACACCCTCAGCAAACATGAGTTCGTCTTGTTTTTGT
TGGTGTTACAGAATAACATGCAGCTGGCTCTTTTTTWAAAAATTTAATATTAAACGTCCTTCATTGAACAAATATCTGTTGAGAGTCTTTGAGTGACTGG
GATATGGCCATAATCAAATGAACATGGCTTTGCCATTCTAATGGAGAGGAAGGCATTGATTAGCTACAAACTGTGAAACATACTTTGAAAGAAAAGGAYG
TAAAGAGAGCTGATCATAGGGGGCCTTGCAGGATAAGGAGTGGCAATCTTGGGAGAAGTTGGGGGGATGGTGTGCCAAGCARGGAAGATGGCAGGTGCAG
CATGAAGCCAAATGTTTGGAATCATAGCATGTTCTTTCCCTTCATCCCTATGTCCCAGGGTCTCTTTACTTCATAAACATGGSCAAGTGGAAATCCTACT
TTATGTCTCTTCTGTATAATCCCTTTGTCATGGCTTAACTTAGTGGCCTGTGCCCCTCCCCACTGCTCCTGGAACCACAACCCACATTGTTACAAGCCCC
TGAAGGAAGTTATAAACACCTTATCTTCTACTAGGACAGGWGCCCCTGGAACTGTCTGGCTGGGCAAGCCATACTTACCTGCACTTCCCTATTCCATCTG
TGAGTGATTCAGACTTGACTATTGTTATCAYACTAAACTAAACTGGGGTTCACTCACCCAGCACAGTAAGACCAAACATCTACACTGAGATTTGCAATGG
GAGAAAGGAAGGCATTTATGTGCAGGGCACAAAGCAAGGAGTGTTAGGAGGCTTATACTTGAGACCCAATCTCTCTAATGGCTTGCAAGTAAAGGTTTTT
AAGAGCAAGGATACATTTTAGGAAAACAGAAKTTACAAGAAGAAATCGCAAATCAATACGCAGAGGTTACACATTGGTTTGGTCATGAGAAGTGAGGGCT
TGCAGGTCATAGGTGAATTCAGAGATTTTCTGATTTGCAATTAGCTAAGGAAGAGAAGCTTGGTTTAAAATTCGGGGTTAGCAGAAAAGAATGTTTGCTC
TTGCTCATGAGTGTGACTTCCTCCAAGAACAAAGAATGGCTGTCAGAGTTCAGTCGTTATTTCCCCTTATCTGAGGTCTGCCTGCCAAAGAATCCATTTG
GTGGGAGTCCAGGTTTCTGAAAAACAACTCGGGGACATATGTTATGATGTGATCTGTAGTTTCTATAGGAAACCAAACATCTCTGGACTCTAACTTTCTT
GGATATTGTTTTAGGCTACTATTACCTTCTTGCTTATCAAGTGCCTTATTTATTTCTCAGGGCCAGGTAGGTGCCTGGAATTTCCTTCGAAAGAACCCAA
GATTTTCCTTTATTTCCATGCTTGGAGGAACCCACAGGCCCCTAAAAGGGATTCTCACTTCATCTCACCATTTTGGACCTTCCTCAAGATCTGGGCCCAG
AGCATTCTGACTTCTGCAGCCCCACCTCACAGCCTATCAAATAGATTAAATTGCTCCTGCATCTTATGTCACATATGTCTTTGTAACTTGGTGAGCTAAT
CTGTAGTGGATTCATTGACATGTAGTTATGTTTTTATAGCCATTTCATAAAATATTCATAAATTCAATGTTTGCCATTTTAGTATTCTAGATTCAGCAAA
TTTCTTATTTTAAGTCTCAAACATTTTGCAGGTCCTTTGAAATCTTGCAGGTGGGTCCTGGCTCCATTACTTATGGGTCGTAGGTCATACAAGGGTCTGA
AAGAGTKAGCACCTTAGAAGCAAACCTCTCCATAGGGTCCACGTTTCCAGACCTTCCTATTCCCAACATGAAATTACCTTCATGCACATCTTTGGGTCTC
TCCTSTATTCAAAATGCCAGCTATCCTCCATTTACTTTTTGGGAAATCTGCTCTTGCCAACAGAGATTTGTTTTATCTTAGGATCTACTTCTTTCACCCC
ACTGGAATATGTCCCAAGCCTGAGTCATTCAGCCTGCAGCAATCCCTGAGAAAAAAAAAAAATCGGCCTTTGCCTGGACACTCAAGTGATACCTGAGGAC
ACCTTGACTCCTACAGCACCAACCAGGGCAGGCCTGGGTCTCCAGCGGAGCTACTCTTTAGGGATCGTCATTATGACGAACAGACATGCCAGATTCCTCT
GGCTAGTGTCCAGTGCAGACATACACACACACACACATACACACACACACACACACACACACCATTCTTAGTACAGTCAAAGCTCACAGGAGAAAGAAAA
ATGTTTTCTAATACCTTCTTAATTTGCAAGAAGGTGTTAGGAATTCAAGGGATGGTATGCATAGTGATGTTAGTTTCATTTCTTCAGCTCCTTCCTCCAA
CTCATGTTCTGTAGGGACTTCTGGGACTAAGAACAGGACCCACATATGAGCAACAGGATTTTCAGAGCAAGGCTGTGGTTGGAAGGGCTCAGACCAACGT
CCACAGCAGAGTGGAGGTCTAGTATAAAGAATGTGAAGTTTGTAGCATCTCTTGATCCCGCTATTCCTACATGCTTGCTTAAGCCATTCTTCCTCTAGAT
GAACTGTTCTTTGAAGGAAACCTGCCTAATGTCTGCCTGCTCAAGAAGGTGGACCTGAGCTCTGTTCCCTTTGCAACCTTCCTGGAGTCTTATTGCTATC
TAGATGAACTCAAAGCAAGATGCTGCCGCCCCCATGACTTTGATCATTGTAAGCTGSCAATCCTCTTGGGAGGCTGCTCCCAGCTTGGACTGAGCTGAGT
CTTCGCATGCCTTGAACAATGAATTTGCATCCTGGTTATGTTCCCCATGGGGGCCAGCCCTGTCCTTGGAGTGGCCCCTCTAATCATGTTGCTCAGGCTT
CTTCTCCCTTCCTGGGCCCCAGAACACCTCCRGTGCCAAACTTGTGGGTGGGAACAGGAACTCGCGTGCCAGCCAGGTGTGCATGACTAGCTCTGGGCAA
GTCTGTTCTAGTAATTCAAGGTACCACCTCTCACTGGGACAGCCTAGTTTCTACACAGGTCTTGCTCTGGGACCGCCCTCAGCAGTGTGRTTAGCAGGCA
GGGCCAGTGTGACCCTCCCTTTCTGGGCCTCAGTTGAGAAACCTGAAGCTCAGGAGAGGAGTCACTCCCCTGGCAGATGGGTGGCTGGGCCAGAAGCAGA
TACCAGGCTTTCTGACTCCTGCTCTAGGATTCTCACCACGTACTGGCTAGACTTATACTTCTCAAATCTTAATTTCCTAAAGGCAAGTAACAGTTTGAAT
GTTGTTATATTGTGATGTATAATAAGAAATATATGTTTGTCTTTGTTTCCTGGACACAGCTCCTGAAACCATAAGTGGTGGGAGCGATAAACGTGAACAA
AGAATCTTTTGTTATTCAAAACAGATCCCTTTCGATCACACCTAAGTTTATGTAAAGGAGATGTAAAGTCTCTAAGGATGAGGGCTAGTTGCCAGGGAAC
AAAACCCTTGCGATTAGAGGGAAGAAAGGAGAGAGAGATTGAAGATTGATTTGATCACCGATGGGCAACAATCTAATCAATCATGCCTACTATGTATGGA
AGCCTACATAAAAACTCAGAAGGGCAGGGTTCAGAGAGCTTTCAGGTTGCTGAAGGTGTGGAGGGTGGGGCACCCAGAGATGGCAGATGGGGCTCCATGG
CCATACCCCCATATCTTGTTCTTTGTACTTTTTCCTCTGGCTATTCATCCGTATTGTTTGCAATATCCTTTGTAATAAACCAAACCTAGTAAATAAACTG
TTTTCTTCAGTTCTRTGAGCCATTCTAGCAAATGATTGACTCCAAGAAAGAGGGTGTGTGAACCTCTGATTTTTGCCAAGTCAGACAGAAGTTGTGGGTA
ACCTGGGGACCTACTACTTGCAATTGGTGTCTGAAGTGAGGGCAGTCTTGTAGGACTGAGCCCTTAACCTGTGGGGTCCGTGCTAACTCAGAATTCAGTT
CAGAATGGAATTGAATTGTAGGATACCCAGCTGGTGTTASAGAATAGGTCCGTGTGCAAGAAAAATTCCCGCACATCATGGACATAACAGACAACGTCAA
TGATGAGGAATCCAGCAAGTTCGGGATAGAGAATTGGCAGGGGGTCCTCAGGGGTCTCTCCAAGTCATCTTCAAAGTGTTGCTATAACTTTTCAGAGAGG
GAGAAGCAGACTTGTGGAGCTGAAGAGAAACACCCAGAAGCTCAGGTGAAAGCTGACACGGCCATAGTTGGTTCATATTAACCATGTGATTAAAATGGTT
AAATATTAATTTGGGTTCTTACATATCAAAGGGTAAAATTCAGAGCAAGGGAGAGGTAGACAGGACCTGTGAAAAGCAGTGGTTAGTTTAGGGAAAATAC
CTAGGAGCCCTGTGATTTGGAGAGTGAAAACTCTTTATTACCGTTGTTACTTTAACTCTTTCCAGGATGGCCTGCCTCCTTCGCKCATTTCAGAGAATTT
CTGCAGGGGTTTTCTTCTTAGCWCTTTGGKGCATGGTTGTAGGTGACAAGCTGCTGGTGGTCCCTCAGGACGGAAGCCACTGGCTTAGTATGAAGGATAT
AGTTGAGGTTCTCAGTGACCGGGGTCATGAGATTGTAGTGGTGGTGCCTGAAGTTAATTTGCTTTTGAAAGAATMCAAATACTACACAAGAAAAATCTAT
CCAGTGCCGTATGACCAAGAAGAGCTGAAGAACCGTTACCAATCATTTGGAAACAATCACTTTGCTGAGCGATCATTCCTRACTGCTCCTCAGACAGAGT
ACAGGAATAACATGATTGTTATTGGCCTGTACTTCATCAACTGCCAGAGCCTCCTGCAGGACAGGGACACCCTGAACTTCTTTAAGGAGAGCAAGTTTGA
TGCTCTTTTCACAGACCCAGCCTTACCCTGTGGGGTGATCCTGGCTGAGTATTTGGGCCTACCATCTGTGTACCTCTTCAGGGGTTTTCCGTGTTCCCTG
GAGCATRCATTCAGCAGMAGCCCAGACCCTGTGTCCTACATTCCCAGGTGCTACACAAAGTTTTCAGACCACATGACTTTTTCCCAACGAGTKGCCAACT
TCCTTGTTAATTTGTTGGAGCCCTATCTATTTTATTGTCTGTTTTCAAAGTATGAAGAACTCGCATCAGCTGTCCTCAAGAGAGATGTGGATATAATCAC
CTTATATCAGAAGGTCTCTGTTTGGCTGTTAAGATATGACTTTGTGCTTGAATATCCTAGGCCGGTCATGCCCAACATGGTCTTCATTGGAGGTATCAAC
TGTAAGAAGAGGAAAGACTTGTCTCAGGTTGGTGGGTTTATTTCTTTTGGACTGCCTTGTTTCTTCCAGGCTCTGTCCTCCCTCACTCATTTGGCTCCTT
GAGCCGACTGTCCCTTGGAGGATTTCCTGGAGAAACGGTGGGGGGAAGTGATACCCKGCTCGGAGCAGCRGGAACACATAGGAGACCTGAGGCTGAAGTG
ATACAGAGGCATTCGGATGAAGACAGGGCTCATGCTTGGCAAGAGTAGGAGATTTGCTTAGTTGGATAATCTGGGACAGTCACATACTCATTGAATGAGC
CTTAGAAATGTCCCAGTTCAAACAGAGGTGAAGGCTTGACTAAGGGAACAGGTCCAGGTTAAAATCCATTTTCCCAACTCTGTCCCATGCTTTGTCTCTG
GACCTTGAGCCAGGGACCAGCRAACTACAGCCTGTGAGCCCAATCTGCCCAAAGGCCTGTTTTTTGTTTTTTTTTTTCCTTTTATGTTGAGACCTGTTTT
TATATGGCCCAGAGCTAAGAATGGTTTTTGTAGTTTTAAAACAATTTAACAATGAAGAATATGTGCCACAGAAGTATTTGGTCTGCAAAGCCTACACATT
TACTGACTGGCCTTTTCAGCAAAAGGGGTATGGCCTCTGACCTAAGACAAGTGTTTACAGATGCCCTCCTGACATGTAGGAAAAGGGCCCAGAGTTACTT
TGGAAAATAAAAATCTGTGAGTTTTAAATTTCAATGTAAATATTTACAACTTTGAAGGGCTTCAGGCAACTCCCTCTATCTTTTATGCCTCAATTTTCTT
TTCCAGTTCCTTTTTTATCAGAGAGAAAGCCTCAAACAGGTCCCAAAGACCCTTACCTCTCTTCTTTACACCTGCTGATTTCTCTGTTAACAATTTGAAC
AGTTGGCAGTAGCCACTGTGAAAAGGCAAGGGTGAGGGGATGGGGATAACTGAAMTGGTTCCAGGGATTCTGGGGCATGAAATAAAAACATAGAATGTCA
GGATTCTTTTAATTGGGACATAATATAGTTGTACACATTTGGGGGGTTCATGTGATATTTTGATACACGTATACAATGTGCGATGATCAAATCAGGGTAA
TTGAGATATCCATCACCTTGAACATTTATTCCTTCCTTATGTTGGGAACATTCCCATTCTTCATTTCTAGCTATTTTGAACTGCAGTATACATTCTTGTT
AACCATAGTCACCCTACTGTGCTATCGCACTTTGGACTTACTCATTCTATCTAATGGTGTTTTTGTGCCCATTAACCAACCCTTTTCTTTTCTTTTTTTT
TTTTTTGAGACAGAGTCTCACTCTGTCATCAGGCTGGAGTGCAGTGGTGCGATCTCAGCCCACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCCTG
CCTCAGCCTCCTGAGTAGCTGGGACTATAGGCATGTGCCACCATTCCCAGCTAATTTTTGCATTTTTAGTAGAGGCGGGGTTTCACCACGTTGGCCAGGA
TGGTCTCAATCTCTTGACCTCGTGGTCCGCCCACCCCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTACCGCGCCCGGCCTTCTTCTTCTTCTTT
TTTTTTTGATCAACGTGCTTTATTGGCCCTTTAGATGTTTTTCTCTTTTCTATCAAAGTTTTTGGAGTATTACAAATTTTATTTCTTTTTTCTTTTTCTT
TTTTAAATTTTAACCAACCATTTTCACCCCCCCTTCCCTACTTACMCTTTCCACCTTCTGGTAATTACCAATGAACTCTCTACCTCCATGAGACCCACTT
TTTTAGCTCCACATATAAATGAGAACATGTGGTATTTGTCTTTCTGTGCCTAGATTATTTCACCTAACATAATGACTTCCAGTTACATTTATGTTGCTGC
ACATGACAGGTCTTCATCCTTTTTTATGGCTGAATAATTTTCCATTCTGTATATGTACTATCTGTGAGTGGAAAACAAAACCAACAAAAAACTCAAAGGG
TTTTTCCTGTTTTCTCACTCAACAACAAACAACGCAGAAAACTTCAGTGAACAAATGTGTGGGGTTTTTTTTCTCCACACACCAAGCAAGCAGGCAATTC
TGCCAGATACCAGCTGGGTGTCCTCTAATTCAGTTCTGAAGATGTCCACCTGAAGATAGCATCAGGTCCCACAGACATGGGGCTCAGTCCCTAATTTACA
TTTGAAGAATGTAAATTAGTACAGCCACTATGAAGAACAGTATGGAGAGTCTTCAAAACAAAACAAAACAAAAAGAACTAGAACTGCCCCAATATATCCC
ATTGCTGGGTATATATCCAAAAGAAAAAAATATATATTGAAGAGCTATCTGCACTCCCATGTTTATTATAGCACTATTCACAGTAGCCAAAATATGGAAT
CAACCTAAGCACACATCAGTGAATGAATGGATAAAGAAAACGTAGGACTGTAATATCGTGAAATATATATTTGGTCTTCATCCTCATTTCCTTATACAGA
TCTTTCACTTCCTTCCTTAAATTTATTCCTAGGTATTATATATTCTTTGTACGTTTTGTAAATGGGGTTGATTTCCTTTTCAGTTTTTTCTCTGTTGGCA
TTTATAAATGCTACTGATTTTTGTAAGTTGATCTTGTATACTGCAACTTTACCGAATTTGCTTGTCAGTTCTAACAGCTTTTGGGTGGAATGTTTAAATT
TTTCTGAATATATTATGTCATCTGAGAACAAGAATAATTTGACTTCTTCCTTTCCAACTTGGATGCCCTTTCTTTCTTTCTTTCTCTTGCTTAATTGCTT
TGGATAGGACTTCCAGTACTATGAAGAATAACAGTGCTGACAGTCAGCATCTTTGTCTTATTCCAGATTTTAGAGGAACAGTTTTCAGTTTTACCCTTTT
CAGTATGATGTTAGCTGTGGATTTATCATATATGGATTTTATTGTTTTGAGGTATGTTCCTTCTGTAGCCAGTTTATTGAGAGTGTGTATCATAAAGGGA
CGTTGAATTTTGTTGAATGTTTTTTCAGCATCTACAACATATGAGTTCTGTCCTAAATTCTGTCAATGTATTCATATCAATATATCAATAAATGCATCAG
GATTAATTATCTTTTTAACATATTATTGGATTTGGTTTGCTGGTGTTTCGTTGAGATTTTTGCATCTATGTTCGTCAGAGATATGGGCCCGCAGTTTTCT
TTTTTTTTGTTGTGTCCTTGTCTGGTTTTGGTATCAGGGTAACACTGGTCTCACAGGATGAGTTTGGAAGTATTCTCTCCTCTTCATTTTTCTGTAATAG
TTTGAGTGGAACTGGTATTAATTCTTTTAAAAATGGTTGGTAGAATTCAGYAGTGAATCCATCTGGTCCTGGGCTTTTCTTTGATGAGAGACTTTTTATT
ACTGCTTCAATCTTGTTACTTATATTGGTTTGTTGAGGTTTTCTATTTCTTCTTCATTCAATCTTGGTAGATTGTTTGTGTTTGGAAATGTATCCATTTC
CTCTAGGTTTTCTAATTTGTTGGCATATAGAGTTCACAATAATCGCTAATGATCCTTTGTATTTCTGTGGTGTCAGTTGCTGTGTTTCCTTTTTCATTTC
TGATTTTATCTGAGTGTTTTCTCTTTTTCTTAGTCTAGCTCAAGGTTTGCCAATTTTGTTTATCTTTTTTTTTTTTWWAAAAACTTTTTGTTTCATTGGT
CTTTGCATTGTTTATTTAGCCTCAATTTAATTTATTTTTTCCCTGATCTTTATTATTTCTTTCCTTCTACAAAGTTTGAGTTTGGTTTACTTTTGCTTTT
TTAGTTCCTTGAGGTGCATTCTTAGGTTGTTTATTCAAAATATTTCTGCTTTTTGGATGTAGGCATTTATTGTTAAAAACTTCTCTCTTAGTTCTGGTTT
TGCTATAGCCCATAGATTTTGATACATTGTGTTTCCATTTTCATTCGTTTCAAGTAATTTTTAAATTTTCTTTTTAATTTCAAGAAAATCTAATTAAGAA
GTTAGTAAGCAAAAGTTATGCATTTATTTAATGATTTCTTACCATTGATTGAATCAAATCTATTGACTCCTTCTCCTAGAAGTCTAGGGTATTGGAAAAA
AGTAAATGAAAGCTATTTATTCTTATTACAAAGAAATATTTGGTGTAAGAAGGAAAAAATATCATTTCTGCACATTGGTACCAATTATCTTATTTTTTCA
AAAAGTTGTACTCAGTTATATTGAGAAACTGGGCTCTAATGAATGTACTTTTTGAGCCCTGTGACCCTGTATCTGGTGCTTGACCTTGTTTGTGTCTCAA
CTSTATTCCCAGCATGTCGTCCTAGAGAACATTCTGTATTATGATATGTAATTATCAACATGCACTTTTAATTATTAGGAATTAAATTAAAGTGATCAAA
ATAGAATTTCTTTTGTCCAATAATCAAACCATTTCAACACTATGAAAAAAAATGTGTCTTTGGACAGATGGAAATGTCTGGAACCAGATAGAGGTGTCAG
TTGCAAAACATGAATGTGCTGAATGCCATGAAATTGTTCACTTTAGCGTGGTGAATTTTATGTGACTTCATCGCAATAAATTATTTAAGAAAAGAAGATA
TATCACAGATCATAGAAAATGAAGCCCTGATTTATAGCTTAAAAATGCAGTCCTCATTAGGCAAATCACATAATCGGCAATACATAAAGTAAACAGAACA
CGAGTGGCCAACAAAACTTTAAGAACATGTTTAATTTCAGAAATAATCCAAGAAATTCGGATTAATAAACAGTGGAATTCAATTTTGCCTAACAGGTTAG
TAAGCATGCTTTATAGGTAACTATTGGCCCAACTATAAAACAAATACATTTCTAAAAAAAATGTGCAAAGCCTTTTGAAAACCATAGCTTGGTGACCATT
TTTTACATAATGCTATGATTCAGAAAGAAAGAGTATCCTTTCTCATGGTAACCTCTGGGCTCCCAGCCTCGCCTTGTGGAAGAGTAAGGCAGGATCACTT
CCCTCTTATTCCCATGTTGGTGTGACTTTGCGACTTTGACCAAAGCCTTACCTGCCTCCTCTGCCCAAGGAGGGACGTGGCCGTCTCAGAGGGCTGCTTG
GTTTCTGTCCAAGCTGGCCCTTGGGGAAGCCCTTTGGCCACCCAGGTGGTGATTCCTGCTGTAAGAASATGAGAGGCTGAGCCACCAGGCAGTCCCAGAT
GTCCTGAAACAACTTATCCCAGCCCTGCCCAGGGCCTTCTCTCTAGCCCTGTGCACCTCATCACCTGCCCCAAAACAGTTCTACTTATGTCAGATTCTCA
TGGGTGCCTTGCAACCTTTCTGTCTGTCTCTCTGATCCTCACTTCTTCTTCAGAATCTCATGCTGTTGCATGAAAAAAAAACAAAAACGAACTTTTGTTT
TTAGGCCCCTTTCCTCTTCCTATAGGGGCTTGAATCCAGGCCAGATGCTGGGACACTCTTATGCTGTCCTTTTTGCTATTTTGTTGAGTTTCATCCACCC
TAGGGCTAACCTCTTTTCTTATTGGTATGGCTAGATTTCAAATATCTCAATTTTAGAAGAGAATTTAGCTTTGCATTTCATTATTAGAAGGGTCATTGGA
GTGTTTTCCTTAGAACAAAGGAGGTCAGAAGTAAATCCTAGTCTCTTCTACTTGTAATACAAAGAACTGTTCAAGCCTTCCGAAGGACAGGGCCATTCAC
ATCATAGAGCCAGGTCATGGCCAGAGCTCTGGCTCTAGGACATCCTTTCTTCCCAGCCTGGTCTATAGAAAGGAATAGAATGCAAGCTCAGGCCTAGAGC
CTAGCTAGGCCTGAATACAGGCTGAAACTTTCTCGCTGAGAGGTGATAAAAACAATGAATGTGGTTTTCTTGCAGCATTTTTTACGGAGCGTTTTCCCAG
AAAACTAGACCCCAGTTCCTCAGGACTAGTTCTGTTCCCAAGTTTCCTCCTCTCATATTCTGGAGTCATCTAAATAGTAGTTCTCAAATAGAACTAATTT
TTCCCCTAGGACAGATATGTCTGAAGACATTTTTGGTGTTGCAATTGGAGAGGCGAAATAGTCAGTAGGATATACGTAGAGGCCAAGGATGCTGTTGAAA
GTTGTACAATGTGTGAAAAATACCCGTCCCCCAACTCCCAACAAAGAATTACTCTGGCTCAAAATGTCACGAGTGCTGAAATTGAGAAACTCTGATCTAA
ATCAATTCCAAGTGAATCCAGTGGTGTCTACCCAGCAAGGCCCCCAGCCTGGAGGTGTGGAGGGCAGCAAGGATCCTGTGCCCACCCTCTGAGCTGTTTG
TCTCCCTATAGGGGTCTTTACAAGGAATGCTCATTCAGGCTGAAATCTCAGCCTTTGTTGGCTGAGCTGTGGGTTCATTCTAGGCAACTCAGTAGAACAA
AAGCCCCAAAATGCCAAGTCATTCTTAATAGGCACTTTTTAAAATACGTGACTTAGGCCAATGTCTACAATGCCTTTAAAATTCTGCCTCTCTTTCAAAA
CCCTGTGCTTATCTTTATGGCTGATTATCTGGGGCATTTCCAGGCATGTGGAACATTTTGGCAGCAGTGTTTCTGTTAATAGATAATTATCTAAAGAGTA
GCTGAATGCTAGAATGATTCAGCTAAAAAAAGTATTCAACATGAGTACATAAAAGCCTAGAAACTTGACTGTCTAGTAATTTAGATAACTCTAGGAGAAT
GAGAATAAGGGGTTATAAAAATATAACTTTATTATGATGCAATTTATTATGATACAATTCACTCTTTTTTTGGGGGGGTTCCAGTAAGATTTAATGACTT
TAAGTGTTTACATATTTCTACTTTTCAGCACAAATTCGTGATAATATATAAACTACACTTTGAATGTTTTTTTCTTTTTTTAAAAATTTTATTATTATTA
TACTTTAAGTTTTAGGGTACATGTGCACAACGTACAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTAGC
ATTAGGTATATCTCCTAATGCTATCCCTCCCTCCTCCCCCCACCCCACAACAGTCCCCGGTGTGTGACGTTCCTCTTCCTGTGTCTGTGTGTGATTGTTC
AATTCCCACCTATGAGTGAGAACATGCGGTGTTTGATTTTTTGTCCTTGCGATAGTTTGCTGAGAATGATGGTTTCCAGTTTCATCCATGTCCCTACAAA
GGACATGAACTCATAATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGAGGGACATTTAGGTTGG
TTCCAAGTCTTTGCTATTGTGAATAGTGCCGTTATAAACATACATGTGCATGTGTCTTTATAGCAGCATTATTTATAATCCTTTGGGTATATACCCAGTA
ATGAGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACA
GTGTAAAAGTTCTTAGAGATCTACAAAGAGACTTAGACTCCCACACAATAATAGTGGGAGACTTTAACACCCCACTGTCAACATTAGACAGATCAACGAG
ACAGAAAGTTAACAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAAGYGGACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATAT
ACATTCTTTTCAGCACCACACCACACCTACTCCAAAATTGACCACATAGTTGGAAGTAAAGCACTCCTCAGCAAACGTAAAAGAACAGAAATTATAGCAA
ACTGTCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGAATTAAGAAAATCACTCAAAACCGCTCAACTACATGGAAACTGAACAACCTGCTCCTGAA
TAACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGGTGTTCTTTGAAATCAACGAGAACAAAGACACAACATACCAGAATCTCTGGGACACATTC
AAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGRAAAGATCTAAAATTGACACCCTAACATCACAATTAAAAGAACTAG
AAAAGCAAGAGCAAACACATTCAAAAGCTAGTAAAAGGCAAGAAATAACTAAGATCAGAGCAGAACTGAAGGAAATAGAGACACAAAAAAAAACCCTTCA
AAAAATTAACAATTCACTAATTTTAATGGTTTTTGGTATAGTCACAGATTTGTACAACCATCACCATAGTCAACCTTAGAACATTTTCAGTCACTCCCAA
AGATACCTTATATCTATTATCAGTCACTCTTCTTTCTCTCCTTCCTCCAGCCCCTGGCAGCCATTAATCAACTTTCTGTCCTTATGAATTTGCCTATTTC
TATGGATTCCATTCACAAAATACATGARTAGCTTTTTCCCTTTAGCATAAAGAGTTTTGTATATTGATCTTGTACTTCAACATTTCTGAACTTGTTTATT
TGTTCTAATAGTTTTTTTTTAGTGGATTTCGTAGGATTTTCTACATTCCAGATCATGTTATCTACAAATAGAGATAGCGTTACTTCTTCCTTTCTAATAA
GGATAACATKTATTTCTTTTGCTTATCTAATTGCCCTGGCTTGAACCTCTAGTACCGTGTTGAATAGAAGTGGAAAGAGGAGATTCTTATCTTGTTCCTG
ATCTTAGGTGGGGAAGTATTCAGTCTTTTAGCAGATTAGGTCTTAACTGGAGATTTTTTGAGTAGATGCCCCCCACATTATGAGATTGAGGAAATTTTCA
TCTATTCCTAGCTYGTTGAGTATTCTTATCATACCTGAGGTGTTTGGTTTTGTCAAATGCTTTTTCTGTGTCTATTGAAATGAACATGGTTTTCTTTTTG
GTCCCCTATTCTAGTGATATGTGTTAATTGATTTGCAGGTGTAAACGAACCTTGTATTCCTAGAATAATCCCACTTGATTGTGTTGTATAATCCTTTTAC
ATGTTACTGAATTTGGTTTGACAGCATTTTATTGAGGASTTTTGCATCATATCCATAAGAGATATTGGAAGTCTTATTTTCTTGCGGAGCCTTGGTCTGT
GTTTGCTATCTGAATATTACTGGCCTTGTAGAAGAAACTGGGGAATGTTCTCTTCTATTTTTTGGGAACAGTCTGTCAAGAATTGGTATTCATTCTTTAC
ATATTTGATAGAATTCACTAGTGAAGCTGTCTGGGCCTAGGCTTTTCTTGCAGGAGGTTTTAAAATTACTAATTTAATCTTTTTACCTGTTATGGCTTTA
TTTAGATTTTGTATTTCTTCTTGATTCAATTTCAGTAGTTTGTTTCTTTCTAGGAATTTGTCAATTTTATCTAAGTTATCTAATTCCTTGGCATAAAATG
GCCCAGAGTGTTCCCTTATAATACTTTCTGTTTCTGTAAGGTTGGTAGTAACATTCCCTCTTTCATTTCATATTTTTAGCAATTTTGAGTCTTCTCTCTT
TTTTCTTTGTTAATCTAACTTTAGGTTTATCAATTTTGTCTATATTTTCAAATAAACAATTTTGGTTTTGTTTATTTTTCTCTATTGCTTCTCTATTTCT
ATGTCGTTAATTTCCCCTCTATTCTTTATTATTTTCTGCCTTCTTGCTTTGTGTTTAGTTTAGCTTCCTGGTGGAGTGACACTTATCATTACACAATTTC
CCACTTTATTGCTAGTAATATTTTTTGTTTTAAGGTCTATATTATCTTGCTTCATGATACTGTGTCATTAAAAAAGTCTATTTTATCTGATATTAGTATA
ACCAATCTGCATTTCTTTTGGTTGCTGTTTCATGATATATTTTTTTTCCACCATTTAACTTTGTAAAATTTAAGTTTTAAATATAAACTTTTTTTTGTTT
TTAAATCTCAAATGTATCTTCTGCAGACAAGATATTATTAGTCCTTGTTTTTAATGCAGTCTGATAATCTCTTTTAATTGAGTTGTTTAATCCATTCACA
TTTAATACTATTATTGATGTAGATGGATTTATGTCTACCATCATTTTTTTMTTTTCTTTTTTTTTTGAGACAAAATCTCATTCTGTTACCCAGACTGGAG
TGCAGTGGTGTGATCTTGGCCCACTGCAACCTCCGCCTCCTGGGTTCAAGCAGTTCTCCCACCTCAGCCGCCCGAGCAGCTGGAACTACAGGTGTGCACC
AMCATGCCTGGCTAATTTTTGTATTTTTTATAGAGACAGAGTTTTGCCATGTTGGTCAGTCTGGTCTCAAACTCCTTACCTCAAGTGATCCACCCGCCTC
AGCCTTTCAAAGTACTGGGATTACAGGTGTGAGCCACTGTGCCTGGCCCCATTTTACTTTTTATGCTCTATATCTCTCATGTATTTATTTGTTCCTCTGT
TCTGCCTTTATTGCTTTTTTTTTTTTTTTTGCATTGAGTGAATATTTTCTAGTGCAACATGTAAAATCCTTTAATGTTTTTCTTTCCACTATTTAAAAAG
TTGTGTTCTGAGYGGTTGTTCTAGGGCTTAGCACATCGATTTTAACTTACCAGTATCTACTTCAGATTTATACCAACTTAATTCCAGTTAAATATTGAAA
TGTCATTCCTATATAGCTCTATTTCCTTTCTCCCCTTTTTATGATATTATTGTTATACGTGGTACATCTATATATGTTACAAACTAAACAATACATGGTG
ATAATATTACTTTATATAAATACACATGCTTTCAAGAATCAGAGAGAAGAAAGAAGAGCAAGTATGTATTTATAGAGTTTGTTATATTAACCTTTTTGCT
TATCATTTTTGGTTCTTTTCCTTTGTTCTTATGGATCTGAGTTACCTTATGGTATCATTTCTTAGCCCAATTTGCCTTTGCTCCCAACTGCCTCCCTTGT
GCTATTATTGTCAAATATATTACGCTTCCATATGTTATAGTCCCAACAATATAATTATATATATGTATATTGCTTTTTAGGATTGCTTTTAAAATCAGTT
AAGAGAATAGGGCCGGGCACGGTGGCTCACTCCTGTAATCCCAGCACTTTGGAAGGCTGAGGCAGGTGGATCACCTGAGACCAGCCTAGATCAAGACCAG
CCTGGCCAACATGGTGAAACCCCATCTCTACTTAAAATACAGAAATTAGCCGGGTATGGTGGCAGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGC
AGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGAGAGCCAAGATCGTGCCATTGCACGCCAGCCTGGGGGACAAGAGCGAGACTTCGTCTGAAAAA
AAAAAAAAGAGAGAGAGAGAGAGAATAAAGGGGAAGTATGCATTGGTACTGCCTTTTATAACTACATGATTACTATTATCAGTGCTTTTTTTCTGTATGA
ATTCAGATTATTCTATGGGGTCACTTGCTTTCAACCTGAAGAACTTCCTTTAGTATTTCTTGTAAGTTGAGTTTTTCAGCAACACATTCTCTCAATTTTT
GTCTTATTACATGGGGTTTTGCTTTTATTTTGTTTGTGCCTTTAAAATGATACTCATCAGAGACTTGTCTTCAGAGGTGGCTCATAACTTATCCTTCAGA
ATTGCACATATTTTTTAGCAGACACACATGAGGCAAATTTAATGATAATAAATACCTTTTTAAGAATCAGGGTGGGGAGATTACCTTCAGCTGTGAAGAG
CAGCTGGTGATATTGCTTGTGGCAAGGGATAGAAATGGTTTATGGATCTGGGAAAGGCTCTGAAGAGAGAAGAAACTGAGTTGACAGTTCTAGGAAGTTG
AAGGTCTTCTCATAAATTATAGTTGTGAGATAATATTCACAACGACTGGTATAAAAATTCACCAGTATATTGTTATCTTTTAATACCCTGAGCAGGTAGG
TCGGTAACAGATCAGCTGCATACTTTGAGTGTCTTAGTGCAAAATGCCCCTTGTTCAAAAATTATTAAGAATTTCAGGCCGAGCACAGTGGCTGGAGCTG
AAGTGGGAAGCTGAGGCAGGCAGATCACTTGAGGCCAGGAGTTCAAGACTGCCCTGGCCAAAATAGTGAAACTCCTTCTCTACTAAAAAGACAAAAAATT
AGCTGGGTGTGGAGGTGCATGCCTGTGGTTCCRGCTACTCAGGAGGCTGAGGTGTGAGAATCACTTGCACTTGGACCTGGGAGGCAGAGGTTGCAGTGAG
CCGAGATCACGCCACTGCATGCCAGCCTGGGTGACAGAGCTAGATTCTGTCTTAAAAAAAAACCAAGAATTTCAGGACACTGACAGCAAAGTATTAAACA
AAGCATGAGAACCTTCTAAATGTGGAATGTGGTGTGTCTGCCCAGGCTGCTCCTCCACAAAGCTGGCCCAGGCAGGGGCAAATGTGCAGCTGGGAGAGTG
AGAGAACCAGGGCAGCTGGATTGCCCAACCTCAGGGGTGGGGCCCAGTGCCAGGTACTATGTAGATAGTGCCTTTTGGAACTATTCAAGCTGGTGACCCT
GAAAAAACATTCTTCCAATTTAGGCCATTGTACAAAAGCAGAGGCCAAGTACATTTACCACTCAAACTTCACGTGGTCTTTCAGCCACAGACTTGGTCAA
AGCAAATGACCATTGAGGTTTCACCATAGGCTGGGTACATGAGGGTGTCCAGGCTGGTGTGATGCTGAGGATTTTACAGCGGCTTAGAAACACAGCTTTT
TTTCTAGGTGTTTCTCAAACCTTAGGGTAAGAGTGGAGATGGGAGGTGGACCTAAGTATGTGATAAGAAGACTAGAGAAATGAGTGTTTCTACTGTGTCT
GTGCCCCATCACTGTAGGTCTGATTTCTACTCCCCACCCCACTCCTTCTTGTCACTGAAAAGTCATGGAATTCTGGAATCTCAGGGTTGACAGTGACTGT
GAAGCAGAGTGCYGTACACTGGTATCCATCTCTGGGAGAGAAATACCATGCACCAATTAGGTTGGGTTGCCAATCCCAGGGCAGGACTCTAAACACCTCA
GCAGTCTTTACTAAGATTCCTAGACCTGGCACTTCCCAGCTCTGGTTGGAGGCATTTTACAATCCTAGCTGCCAGAGTATGAGTCTGGTGAGATGGAATG
CTTGTGCAAGTCAGGCAAAGAAACTTGATTCTTCACAGATAGGCAGTAAGAATCAACAGGAACCTAGGATCCATGGTCAGCCAGCCCCCAAGGTAGAGGA
AGCTGCTCAGGTGGACAGAGTCCCATCTGCATGTGCTCCACTTTGCATGGCAGCTGAGGGACCCCCAAAATACTCTGCATTAGGCTTTCTATCCCGGAGG
TCACTGCAGTTTATCAGCACCCAGACATCCATCCTGGGTGCCTGCCCTCCGTTCTATTCCCTTTCCATCTTTTCTCTGACTTTTGTGATGATTATTTCTC
TTGTGTTTTTCTTCATCAGCATTTATTTTAAGTTCCAGGGCACACATGCAGGATGTGCAGGTTTGTTACATAGCTAAACATGTGCCATGGTGGTTTGCTG
CCCAGATCAACCCATCACCTAGGTATTAAGCTCAGCATCCATGAGCTATTCTTTTTGATGTTCTCTCTCCCTCGACTATTTCTTTGCTTTTCTTTACAAT
TTTGCCACCTAAATTTGCATCTGTAAATAATACAGATGATTTTACCTGTTTCGGTACTTAACATAAATAGAATTTTACTGTTTTTCTTTGTCTTGCCTTT
TTTTTTTTTTTGGTTCAACCTTATGTTTGAGAGATTCATGATGTGTGTTTTTACAAGTTGTAGTTTGTGGATTGTCAGTACTGAATATATCCCATTGTAT
GAATACACCACAATTTTATTTATCCATTCTACTGTTGATGGGCTTTGGGTTGTATCTAGCTTTTCACTAYTGTGAACAATGTTACAACGAACATTCTTTT
ACATTCTGAAACACATGTGAGTGGGTTTTTAGAGTATATACCTAGGGGTGGAGCTGCTGCGTTGGAGGGCGTGCATATCATTAATTTAATAAGATGTAAC
TATTTTTCAGAGTGGTTGTACATATCCCTGATTGCTAAGGCATTAGTTATGTACATGACTGATTATATTGAGGGTTTTAAAATRTACTTATCAGTCATTT
GGATTTCCTCTTTTGCCCATTCAAGTCTATTGCCCACTGGGTTGTCTACTCGAATTATGTATGCATTCTGGATACTAGTTCTTTGGCAGTTATAGATATT
GCAAATATCTTCCCCCACTCTGCATCTTGCTTTTTACTTTTATTCAAACGAATTAGAATAAACATCTTAGTATATGACTCACTGTGCTCCTGTGTGGGAG
TTTCCACAGGGGAGTTGCCGGAAAATGGACTTACTGTGTCGTGCACATTTTAAATGTCATTAGGCATTAACAATTTATTCTTCCCTTAGCAATGTATAAG
TGTACACTTTCCTTCATATCCTTGCCACATGTATTATCATCAAATGCTTTCAGTTTTTGACAATCCAATAGGTAAAAAATATCTCAAGGTTATTTGAATT
TTCATTTCCCTTATTAATTCTTCATTTAAACGTCTTTTGTGTGTGTGTGTTTACTTTCATCAAGTTGTTTCACCAGTGAAGATAAGAACTGGTATTTACC
TTCTGCATTTAATAGAATTGATGCAACTGGCTGAGCGTGGTGGCTCATGCTTATAATCCCAGCACTTTGCGGGGCCGAAGCAGGAGGATAGCTTGAGCCC
AGGAGTTTGAGACCAGCCTAGGCAGCATAGTGAGATTCCTTCACTACAGAAAGTAAAAACCTAGCTGGACATGGTAGCGTGTGCCTGTAGACCTAACTAC
TCGGAAGGCTGAGGTGGGAGGATTATTTGAGCCCAGGAGTTCAAGGTTCCAGTGAGCTATGTTTGCATCATTGCACCTCAGCCTGGGCAACAGAGCAAGA
CCCTGACCAACTCCCCACCYCCCCCCAAATCAATGCAACCTGTGATCACTTTATTTGGGCAACTTCCCCAAATTCTTGACTCAGTGAATTTGTTGCAGGG
CTTTTCTTTTTTAATCTCTTTTATTGGTTCACATACTAGAACAATCTCAGGGGCTATCTGGTTAGGTATTGCTTGCTACAGAGCCAAACTATGTCACCAG
AACCCATTTATATGTTTCCATTTCTTGTCTCTGTTTCCTCGGCCRTGGCATCCTTCTCAGTGTCATAATACCCAAGCAGCAGGGGCTTCAGCCTGAGTTC
TTTTCCCAGGATTCCTAGTTAAAGTTCTTCTGCCTCATTGGCTCTAATGAAGTCACATGCCCATCTCTGAACTAATCATGGTGGCCAAGGGGATGAGACG
TGCTGATTGGTTGAGGCCTAGGTCACATGTTCTATCCTGAGCTGGGAGTGGATCCTCACCAGAAGTACATTTGAGAGTTTGGGGGAGGGGTGGCCGCTGG
GATGAGATAGGAAATAACTTGTCCACGCTGTGAATTACCCTTCAATTAATGATATTTTCTATTTAGATGTCAGATTTTTTGTTACTAGTTTGTCATATAA
ACCTATTACTATATAGATTTTTCTGTGTCCTAATCTAAATTTCTTTTAATAATCTATGGGTGAACACTCAATAAGAATGTCCTCCAGAAAGGATGACCTG
CCGACTTTTAAAGCAATCATTTTGGGGCTTATAAGTATTTAGTATTTGAAGTCTCTGCCTCTTGCTCTCTTTTAGGAATTCTTTTTCCTACTGTGATATA
TGTAAGTACTTATAAATTTAAACTTAAAATTCAAAAAATATACCAGGATGTGAAAKAAACATTATTAAATATAGGTGTTTTGCTGTGAGTGTTTCTTGGA
ATAGGTAGGGCTTTGTATAGTAGGTTTTGGTCTTTTGGTCAGCTTGGGAAAATTTTGTTCTTTTTTAATTGAATGATATGTTTTCAATTGATACTACTAA
AATAAACATTATTGGAGTATTATTTACATGCAATAAAGTGCACCGTTTTAATGATACATTTCTGAGTTGTAATGATTTTATTTAGCTGTGCAGCCATCAC
CACATTCAAGACACGGAGCACTCCATTACCCAGTAACTTCCCTTCTGTCCTATCTCAGTCACCTAATACCTCCCCTCACCTTAGGCAACCCTGGATGGTT
TCTGTTGCTGGATAACAGAATTGTCTTTTCTAGAGTTTCATCTGAATGGAATCATACAATTATGAATGAAAAACACACAGGTATACTGTTTTGTGTCTGG
CCTCTTTGGCTCGGCATAATGTCTCTTCAGATCCTTTCACATTGTTGCATGTATCAATATTTCATTCGTTTCTATTTCCGAGTAGCATTTCATTGTATAG
ATATATCATCATTTGCTTATGCATTTATTTATTGATGGACATGTGGATAGTTTCCAGTTGTTGGCTATTATGAATAAAGCTGCTATGACTATTCGAGTAC
GAGTGTTTCTGAGATTTCATTTTTCTTGGGTAAATACTTAAAAGTGGGATTGTTGGGTTGCATGGTAGGTGTATGTATGACTTCATAAGAAACAGTCGAA
CTGTTTCCAAAGCAGTTATACAATTTTACATTCCTAACAGCAACGCATTAGAGTTCTGGCTGCTCTGTATTTGTGCTAAGACTTGCTATTTTTAGTCTTT
TACATTTTAGCCATCCTAATGGGTGTGTAGTAGAATTTCATTGGGTTTGAATTTGCATTCCTCTTATGACTGATGATAATCTTTTCATGTGCTTATTGAT
CATATGCCTGTTTTCTTTTAAAAGGTGCCCTTTCAAAATCTTCCGCACACCTTTATTGGTTTGTTTGTCTTCTTATATTTGAGTAGTGAGTTCTTTACAT
ATTCTGGATACAAGTGCTATGTCAGATAGTTGTGTTTCTGTTTACTTCTGGTGTGTGGTGTCCTTTGTTTCATTTTTTAAAAAACAACGTCTTTCAAGGA
GCAAAAGTTGCAAGTTTTGATTAAGTCAATTTTAGCAAACGTTTTGTGTTTTGTACCCCTCGTGCCCTATCTAAGGAATCTTTGTCTACCAAAAGGTGGG
AGGATTTGTTTCTATGTTTTTTAAAAAAGTTAAACAGTTTAAGTTTGTAGGTTTGGGTGGAAAGAGGTCTTTAGACCACTTAGTCTTTGTTTAGGTCTTT
GTTTATGTCTCTGAGATTGGCAGAGGGGAATATACAATCATTCAGATCAGGCTATTGGATGCCTTTTTCTATCTCTGAATTTTTCTGGGGTGACCTCACT
GACACCCATGGCTTCAATCACCACTTATGCTGATGGCTCCAAGTCTATCTGTGCAGCCCAGACCCCTCCTCATCTCCAGACCCTGGAAGCTGATGCCTTG
GGCTGCTCCTCCTATTTCCTGGGCACCAGGAATATGAGCTACTCCCTCCCCACAGTCCTGCTCTCCCCAGTGCTCCCAWGTCGCTGAAGGCACCACCATC
TTCCAAGATACATGGGCCTCCCCAGGGTCTAGGAGTCCTAGACGTGGGASTAGAAATTAGATGACATTGGTGTCTAAACAAAACACCACTGCATGGAGAT
AGAACAGGGGAGCCCCCTGAATGTGGTGAGAGCACCCTCCCAGGTGTGTTCCACCCTCACCCCGGGCTCATCAGGAGGGTGCTTAGGATGCATACAGTTT
TAAGGGGGTTGGAGGAATAGTTCAGAGGCTGAGATGTTGCACCCACAGCTGAGAATCCCTTTCTAGCGCTCTGTGTCCTCACAACTCCCCGGGAATCATC
CTCCCCTGGAGAGTTCCCAAAGCCCTTGCAGGCCTGCCTTCTCTGTGCCTTCCTGCCTGCGCCCTCTGGTGGACAGCTCCATTCRCTGCCTGTCCCATGG
GTTCTGTCCAAAGGTGGAATCTATTATCAATGTGGATTTCTAATGGGGGTAACTTCCTCCCTAAGGGAAGCCTCAGCTTCACCAGCAATGGCAGACACGG
CCAGGCATGTAGACACAGAGGAAGTGAGATAGAAAGTGTGCACAGCCCAGAGAGCCTGCCCACATCATCCTGGGGCGACCAGGACAAGGAGGCGTCAGCA
ATCTTGCCAAGCACAAGTATGAGTGACTTTCTGGAGCAGGACGAGTCTCATGGGCGTGAGACCATTGTGAGTGCTCAGGGTCTCTCCATTAGAAAGGCAC
ACGTTTAATTCTCCATTTTGAAATTTGAACTAGAGCCCCCACAAATTATTCTGTTCTGGAGGAACCATTCTTATCAGAACTTGGTGCTGGATTGACTTGG
AAAAAAGCCTGACCATAATCTTCAGGATGAAATAAAGGCCTGGATGAATGGACACTTCAGTCTCTAAGCAGACTTGCAGAAGACTGGAGCCTTCAGCATT
CAGAAGAGGAATTCAGACTGTGCAAGATCTGAGGCCAGGCTCCAGCTCCCCCGGTCCCTTGGTGAGCAGGAGCTCCCTGAACCCACCATGGGTCTTTGCT
AGGGTTGTCTTGCACATGTGTGCTTTAGAYAGCAGCACCTCTTCTTCCATGGTGTAGATGGAGAATCCTCAACAAAGCCTTTCCAAGAATCTGATCATCA
CATCTTGAGCTCAGCCTCCCTGCAGCTTTTTTTATATTGACAGCCACTTCAGRGAGAGTCCTCTTTGAGCTTTACAAGAAATATCCTGGTGTGAAAAAYG
ACCAAAACCAGATAGCCAGCCTCCCCACTCCCTGTTTAAAGAAAGCTGGCTTAGCAATGTTGTCTGCATYTTGGATGTGCTGTGTTACCCATATGTGGGA
AGAAAGAGTATTAAGAGTTAGCAAATAGGGTCACATCCAGCAGAGACCATATGGTTGGGGACTAGGGCAATGGTGACTCCTYAGACCTCAGCTGCAGCCT
GATAAACGTGGTTAAGAGAGAAGTAGGAGACAGTGACATGAAATGGGGGTTCACAGCCTTGTGTTGGGAATTGAATGAGAAACAAGAGCTTGAACTTGGA
TGTTCCCCAGAGCGAGYGCAAGGTCAGATGAGTTTTTCAAGATAGGAGTGATCGGTCTTTCCCAGGGTGGGGCCCATAATGCAAGACAATTATAGATTAA
YGGGTAATAAGTAACTGGAGGAGGGCACTCTGTCTTCAATTACATGTTGATTTGCTAGGTGTCTCAGTGACAAGGTAATTAAGACGAAGGAAACAATTCT
AGGAGGCACAACGTGGGGTGGACAGTCAGCTGTCGGTGGCTTCTGCTGAGATGGCCACAGGACTCCAGGTTCCCCTGCCGCAGCTGGCCACAGGACTGCT
GCTTCTCCTCAGTGTCCAGCCCTGGGCTGAGAGTGGGAAGGTGCTGGTGGTGCCCACTGATGGCAGCCACTGGCTCAGCATGCGGGAGGCCTYGCGGGAS
CTCCATGCGAGAGGCCACCAGGTGGTGGTCCTCACCCYGGAGGTGAATATGTACATCAAAGARGAGAACTTTTTCACCCTGACAACGTATGCCATTTCAT
GGACCCAGGACGAATTTGATCGCCTTTTGCTGGGTCACACTCAATCGTTCTTTGAAACAGAACATCTTCTGATGAAATTTTCTAGAAGAATGGCAATTAT
GAACAATATGTCTTTGATCATACATAGGTCTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGMATGCTACTTCCTTTGATGTGGTTCTA
ACAGACCCCTTTCACCTCTGCGCGGCGGTGCTGGCTAAGTACCTGTCGATTCCTGCTGTGTTTTTCTTGAGGAACATTCCATGTGATTTAGACTTTAAGG
GCACACAGTGTCCAAACCCTTCCTCCTATATTCCTAGATTACTAACGACCAATTCAGACCACATGACATTCCTGCAAAGGGTCAAGAACATGCTCTACCC
TCTGGCYCTGTCCTACCTTTGCYATGCTGTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATMTTSTCAGC
CATGCATCTGTGTGGCTGTTCCGASGGGACTTYGTGATGGAYTACCCCAGGCCGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGCCAACG
GGAAGCCACTATCTCAGGTCTGTATTGGTGCCTTTATCCAATCAATGTTCCAGGCAAAACACTTTTTAAAAAATGTATTTACTTACAAGTGCTTCCATAT
CTACTTATCTTTCCAAAGATTTCATTTCTGCTTCTCATTGTTGTAATAGTCTTCAGTGAGATAAACTTTTAAAGGGTCAATGGTAGTGCAGTTCAGGGTT
TCAATGGCCACTGAGAGGAAGGAGAGGCAGGGACGAGGATCTGTCAAAGGATGGGCAAGAGTGGTGTGACTCACSGAGACTGTTCGTTTGTAAAAGCACC
ATCTTCATGGCTGTGGATGTGCTTCAGCTGGGCAGGAGCAGGGACACTACACTGAGAACTGATCCATCCAATCTTGCTGGCAAGATTTTCAGTAGAAAGG
AGGAAGGAATAGAAATTTACAATTGTTGACGTGACAATTTTTAGTGGTCCCATCTTGCAAAAGATAGAGAGGTGACCACAGGAGACCTAAGCACTCAGAG
GAAGTAGAGGTTTCAAAGAAGTTGACTCAGTTCAGTGGAATTGGGCCAATGTAGGTGCAATGGATGTCTGTGATCAGAGAATGAAACACAGAGTTCAGTT
TCCAGAGAGGGAGTGTTGGATTGTAATAGGAGAATGTTTCTTGTGAAGACACTACTTAAAAAAAATTCTTACTAGGTTAACTTCATGGTCTAATACCGAA
GTGTCCAATAGAAATATCATGTAAACCACATACATAATTTAAACTTTTCTAGTGGGCATGTTAAACACCAGCAAAAAGAAACCACTAAAATTAATGTGAA
TAATGCATTTTATTTAACCAGATGTATCCCAAATATTATCCTTTCAACATGTGAACTGTTTAACGTAGCTTTTTTTGTTGTTAAGTCTTCAAAATCTAGC
ATATATTTGACACTTACAGTATATCTCAATTTGGAATAGCCACATTTCAAGTGCTCAATATTCATATGTAGTTAGTGACAACAATATGGTGAATGTTTAT
AAATATTCCATGGATAAAACTAAAATTCTATCTTTTAAATTTTTCTATCTTTTGAGATGGAGTCTTGCTCTGTCACCCAGTCTGGAGTGCAGTGGTGGGA
TCTTGGCTCATTGCAACCTCCACCTCCCAGGTTCAACTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAACTACAGGYGCATGGCACCACATCCAGCT
AATTTTCTTTTTTTTTGTATTTTTTATGGAGATGGAGTTTCATCATATTGGCCAGGCTGATCTCAAATGCCTGATCTCAAGTGATTCACTCACCTCAGCC
TGCCAAAGTGCTGGAATTACAGGCGCGAGCCACCACACCTAGGCAATTTTTCTATCTTTTAAAAGACCCTCTACTGAATCTGCCCAATTCTGTGAAGGAT
GTCTTTTAAAAAATCCCCTTACATAACAAATTCTCCTCCAGTTATATTTTGGCTCTTGAATAGGTTTTGCTTTATACATAGTGATTAGATTGGTGCATGT
AGGTTTGAGGTTTGAGACTTATATTTTCTTCACWGTTTGCTGTTATCATTAAATAATAATCCTTAAAATACATTTTATCTGATATCAGTAATGTGACTCC
TATGTTATTTTTTGAATTCCCCATCTCTTTTAATTTGAAAATGATTTGTGTGCAAGTGGGTAGCTCACACCTGTAATTTCAGCCCTTTGGGAGACCGAGG
GAGGAGGATTGCTTGAGCCCAGGAGTCTGAGAGCAGCCTGGGCAACATGCTGAGACTCCATCTCTACAAAAAATTAAAAAATTATCCAGGTGTGATGGYG
CACACCTGTGGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGGATCACTTGATCCCAGGAGGTGGAGGCTGCAGTGTGCCATGTTCACGCCACCTCACTCC
AGCCTGAGTGACAGAGCGAGGACCCATCTCAAAAAAATAAAAATTTATTTGGAATGTGAAAATCTTGTTTTAAAGTTAGAAAACATTTTTTTAAAACTCC
AATATGAAAAGCTGGGTGCAGTAGCTTGTGCCTGTGGCCCCAGCTACTTGGGAGGCTCAGGTGGGAGGATCATTGAGCTCAGGAGTTTCAGCTCTTGTGG
TTTGTTGACTGACTGACTGATTGACTGATTGATTGATTTAAAACACAACAAAACCCAAAATGACTTTAATCTGATAGTTTCTTTTGATGTCAGCATTCTG
ATTCTGTCCATTCTTAGTTGTATTCTTTCCACTGAGTGTAAGCTCATTCCTTTAACAGAAATTTAGTTTTTCCATCTTAGTTTTGGAATTCCATGGCCCT
TTTCCATTTCCATGGAGATGCAGTGCAGCATCTTCAAGTCTCTAATTCTTACATCTGTCTCTTTCACTTGCAAGAGCCCTTGTGATTACATTGTCCYGCC
CGGACATCCAGCATAATCTCCCCATGTCAAAACCCTTAATATAATCACATCTATAAAGTCTCTTCCACCTGTAATGGAATATATTCCCAGGTTTGMGCAA
CTACAATGTAGATACTTTGTGGGGCTGTGATTCTGCCTACCACAGACACTAAGCTTAAAGTGAAACCCACATCTTATTCAAAACTTGGAGGTTTTCCTTC
ATTTGGCCATTTAAATTTAATTTTTGTTTCTGTCCTCCGTAGTCTTCTATTCTCCAGGCTTCAGAGCTCTCAGCTTACCATTCAATTATCTCCTTTCTCT
CCTTATATTCCTTTTTTCATTTTTTAAAAACAATACTTTCAAAGAGCAAAAATTTTAGAATTTGATGAGGTTTATTCTAGTGAAGTTTTTATCGTTTGTA
CTTTTTGTAYCCTAAGGAAGCTTTGTTTACCCCAAGATATAGTTTCTACATTCTCTTAAAAACACTAAAGAGTTCCAGTTTATATGTTTAGCTCTGTGAG
ATTGGGAGAGGGGAGCTAGATCACTCAGGTCAGGCTTTCGGGATGCCTTTTTCTGTCTCTGGACGTTGCTGGGGTGACCTCACTGACACCCATGGCTTCA
GCTACCACATATGCTGATGGCTCCAAGTCTATCTGTGCAGCCCAGACCCCTCCTCATCTCCAGACCCTGGAAGCTGATGCCTTGGGCAGCTCCTCCTATT
TCCCAGGCACCAGGAATGTGAGCTTCTCCCTCCCYACAGTCCTGCTGTCCTCAGGGCCCCTATGTCTCTGAAGGCACCACCATCTTCCAAGATACATGGG
CCTCCGCAGGGTCTAGGAGTGCCAGACACGWAACCAGAAATCAGATGACATCACTATCTAAATAAAACACCACTACATGGAAATAGAACACCACTACATG
GAAATAGAACATGGGAGCCCCTTGAATGTGGCAAGAGCACCCTCCCAGGCATGTTCCACCCTCACCCCGGGCTCATCAGGAGGGTTCTTAAGATGCAGAC
AGYTTTAAGGGGGTTGGAGGAATAGTTGAGARGCTGAGATGTTGCACCYACAGCTGAGAATCCCTTTCTAGCACTCTGTGTCCTCACAAATCCCCAGAAA
TCGTCCTCCCCTGGGGAGTTCTCAAGCCCTTACAGACCTGCCCTCTCTGTGCCATCCTGCATATGCCTCCCTTGAGCTGGGTGTCCCTCTGATGGACGCA
TCCATTCACTGCCTGTCCCATGGGTTGTGTCCAAAGGTGGAATCTGTTATCAATGTGGATTTCTAATGGGAGTAACTTCCTCCATAAGGGAAGCCTCAGC
CTCACCAGCAAYGGCAGACATGGCCAGGCATGTAGACACAGAGGTAGTGAGATGGAAAGTGGGCACAGCCCAGAGAGCCTGCCCACCTCATCCTGGGGCR
ACCAGGACAAGGAAGCATCAGCAATCTTGCGAGCACATGTAGGAGTGACTTTCTGGAGCAGGACGAGCCTCATGGGCATGAGACCATTGTGAGTGCTCAG
GGTCTCCCCCTAGAAAGGCACACATTTAATTCTCCATTTTGAAATTTGAAGTAGTGCCCCCACAAATTATGCAGCCCGTTCTGTTCTGGAGGAACCATTC
TTATCAGAACTTGGTGCTGGATTGACTTGGAGAAAAGCCTGGCCATAATCTTCAGGATGAAATAAAGGCCTGGATGAATGGATACTTCAGTCTCTATGCA
GACTTGCAGAAGACTGGAGCCTTTGGCATTCAGAAGAGGAATTCAGACTGTGCAAGATCTGAGGCCAGGCTCCAGCTCCCCAGGTCCTTTGGTGAGCAGG
AGCTCCCTGAACCCACCGTGGGTCCTTGCTAGGGTTGTCTTGCCCATGTGTGCTTTAGACAGCAGCACCTCTTATTCCATGGTGTAGATGGAGAATCCTC
AATAAAGCCTTCCCAAGAATATGATCATCACATCTTGAGCTCAGCCTCCCCGGAGCTTTTTTTTATATTGACAGCCACTTCAGAGAGAGTCCTCTTTGAG
CTTTACAAGAAATATCCTGGTGTGAAAAAAGACCAAAACCAGATAGCCAGCCTGAACACTCTCTGTTTAGAGAAAGCTGGCTTAKCAATGTTGTATGTCT
TTTGGATGTGCTGTGTTATTCAYATATGAGAAGAAAGAGTTTCAAGGGTTAGCAAATAGCRTCACATTCAGCAGAGAACATGTGGTTGGGGACTAGGGCA
ATGGTGACTCCTCAGACCTCAGCTGCAGCCTGATAAATATGGTTAACAGAGTAGAAGGCAGTGACATGAAATGGGTGTCCACAGCCTTGTGTTGGGAATT
GAATGAGAAAGAAGAGCTTGAACTTGGATGTTCCCCAGAGGCAGCACAGGGTCAGATGAGYTTTTCAAGATAGGCGTGATTGGTCTTTCCCAGGGTTGGG
CCCATAACGAAAGGCARTTATAGATTAATGGGTAATAAGTAACTGGAGGAGGGCACTTTGTCTTCCAATTACATGCTGATTTGCTAGGTGGCTCAATGAC
AAGGTAATTAAGGCGAAGGAAACAAATGTAGCAGGCACAGCGTGGGGTGGACAGTCAGCTGTCGGTGGCTTCTGCTGAGATGGCCAGAGGACTCCAGGTT
CCCCTGCCGYGGCTGGCCACAGGACTGCTGCTCCTCCTCAGTGTCCAGMCCTGGGCTGAGAGTGGAAAGGTGTTGGTGGTGCCCACTGATGGCAGCCCCT
GGCTCAGCATGCGGGAGGCCKTGCGGGAGCTCCATGCCAGAGGCCACCAGGCGGTGGTCCTCACCCCAGAGGTGAATATGYACATCAAAGAAGAGAAATT
TTTCACCCTGACAGCCTATGCTGTTCCATGGACCCAGAAGGAATTTGATCGCGTTACGCTGGGCTACACTCAAGGGTTCTTTGAAACAGAACATCTTCTG
AAGAGATATTCTAGAAGYATGGCAATTATGAACAATGTATCTTTGGCCCTTCATAGGTGTTGTGTGGAGCTACYGCATAATGAGGCCCTGATCAGGCACC
TGAATGCTACTTCCTTTGATGTGGTTYTAACAGACCCCGTTAACCTCTGYGGGGCRGTGCTGGCTAAGTACCTGTCGATTCCTGCTGTGTTTTTTTGGAG
GTACWTTCCATGTGACTTAGACTTTAAGGGCACACAGTGTCCAAATCCTTCCTCCTATATTCCTAAGTTACTAACGACCAATTCAGACCACATGACATTC
CTGCAAAGGGTCAAGAACATGCTCTACCCTCTGGCCCTGTCCTACMTTTGCCATRCTKTTTCTGCCCCTTATGCAAGYCTTGCCTCTGAGCTTTTTCAGA
GAGAGGTGTCAGTGGTGGATCTTGTCAGCTATGCATCCGTGTGGCTGTTCCGAGGGGACTTTGTGATGGACTACCCCAGGCCGATCATGCCCAACATGGT
CTTCATTGGGGGCATCAACTGTGCCAACGGGAAGCCACTATCTCAGGTCTGTATTGGTGCCTTCATCCAATCAATGTTCCAGGCAAAAYACTTTTTAAAA
AATGTATTTACTTACAAGTGCTTCCATATCTACTTATCTTTCCAAAGATTTTATTTTGGCTTCTTTATAACAGATAAACTGTTGAGGGGCCTAGTGTATT
TCAAGTTTTCAGTGGTCACTGAGAGGAAGAAGAGGCACGGAYGAGGGTCTGTCAGAGGATGGACAAGGACTGCTGTGACTCACGGACASTGTTTGTAAAG
GCACCATCTTCATGGTTGTGCATGTCCTTCAGCTCGGCAGGATCAGGGACACTACATTCRGAACTGATCCATCCTGGGGTTTTTGCTTGCCTGATTTTCA
GCTGAACGGTGATGCAACAGTAAATTAGAATTGTGGACATGATAATTTTTAGTGGTCCCATCTTGCGAAAGATACAGAGGTGACCACAGGAGACCTAGGC
ACTCACAGGAAGTAGAAGTGTCAAAGAGGTTGACTCAGTTGAGTGGAAGTGGGGCTGTGAAGGTGGGATGGATGCATGTGATCAGAGAATGAAACATGGA
GTTCAGTTTCCAGAGAGGGATCTGTCCTGAGAAAAGTTTTTCTGACCAGGAGTTGGGGGTCTGGTGTATGATGTGGGGACATCGTAGAGTTTGGAAGGTA
TGGTGATGGTTGCATGTCAAAAGGGTCTTCTACTTGGAATGCTGAAATTATCAAGAGTGGGTGGAAGGGACTAGGGAGGAGATAAGACCGTGAATCTATA
AGCCCAGTGAAGCTGGGACCAGTGATGAATGGACATGTGTCCAAGAAGGGAAGTGTTTCTCAGGTGAAGCTGATCATATCACCAAACTCACCCTATCCCA
CTCCAAGTTTCTATAGTGGGATCTATTCTTTTTCCAAAAATTTCAGAGGTGACTTTCATTAATACAGAATATTTGGGTTTCATTGAAATAGTACTCTGGG
ATGTGAAAAACCAAATTCACACACCAATGAATTTGGTTTCTAAATCCATTAAGGGAGCCATCCTTTTTTTTTTTTTTTTCTTGAGACTGAGCCTCGTTCT
GTCRCCCAGGCTGGAGGGCAGTGGCCGGATCTCCGCTCACTGCAACCTTCACCTCCCGGGTTTAAGAAATTCTCCCACCTCAGTCTCCTGAGTAACTGGG
ACTGCAGGCATGTGCCACTGCTCCTGGCAATTTTTTTTTTTTTTTTTTTAGTAGAGATGAGGTTTCGCAATGTTAGCCAGGCTGGTCTTGAACTCCTGAC
CTCATGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCAAGAGCCACCAAGCCCAGTGAGGGAGCCATCTTTCTTGTGAGAGAATTGAG
CCCTTTTTTGTCATATTCACTGAATTTATATGAACTTCCATGAGTTTAGGTCCTTTGTATTCTTATTTCTGTACTTCTTTTTATTAGTGTAGGTATTATT
GCAAAGGACACTAAACTTTATTTTTGTTTTTGATCAAACCACAAGATATTTGTTCTACTGGTTTTCTTTTCCCCTTATGCAATGTAGTTACTGAATTGTA
AAAAATATATATGTTCTTTAGCTTTGTAAAAATGTGGAAAATTAGGAAGGCATTTGAATAGTGATTGTGGCTCTTTTCTTGTGGTTTTTCACTATGAATA
TATTCTTTAGACTGAACTGCACTGGCTCAAATCTTCACTCTCATTTTTCTAGCTATGTGACCTAGGACAGGTACCCTAAGCATTGTGGTTTTAATGTTGT
TATAGTGAGCACCCAATAAATATTATCTGTTATCATTCTTATTATTTTAGTTTAATTGCATTTATTTTATGCTGAATTTCTTCCAGAGCCATAGGTAAWT
TTTTTCTTCAGTTTCTTCTGGGATATCTTTTTCTTCTGTGCAACCTCATCCTCAGGTTTAGGAACAATTTGTTCCTTATCAGTAAAGATCATCTTGAATG
TGGCAGTGGGGGGTCATGTAAGGGTTAATCCAATAATGAGCTCTGCAAGACGCATGGCTCATCTTGGATGCTTTGTTTACTTGGATAAGCTTAATGATGA
GAGAATCTACATCTAAATTGTTATATTTAGCATTATTCTCTGCATTTTAAAGCACRTGCAGCAAAAATCCAGCACCCTATTTGGGCCACCGACCTTGTGT
CCAGCCCCACTGCTCGGCCCTGGGCACACTTGCCAGCCCCTCCATTGCAATATCGAAATGGTGCACACTGCTTCCATAAAGTGACATCCTTCAGACACTT
GGTGGCTCTTTGTATATGCATACATTGATGGCCTGGGTAGTTTCACGAATGTCCTTTAAGTGAACAGGAAAACTGAAACCTCTTGAATTGCATGATTTTG
TGGTGTTTCTGGGTCAAGTGAATAAAGAAGAATTTTCACAGATCACCTTAGGCCTCTTAGAGGAAGAGCTATCATCATCATTAGTAGAGTTTAAGACTCC
TGCAGGACAAGATGTGTCACCTGGAGACCTTTGCCATGTTCGTGCCAATTTACTGAGTGCATGAAAGATCATTTACACCAAAATCTTTATCATGTATTAT
CTGTGACAGACAYGCCATTATCATTTTTATTACATTGATTTCCTTTGTTATTTTGTCACCCTTACTTACTTGGTTTGGTTGACCCTTAGATTTGAAATTT
TTCTACAAATATACAAGACTAAAGTTGAAATCTTACGTTTCTTCTCCCTCTCTTTCTCCTTGATTTAAAGTTTATGGATAGGTTGAATTATTTGATTGGT
CTTCTCAAAGAAATAACTGTGGAATTTGTATATTCTTTTCACTGTTTCATTTTCCGTTTCGTTAATTGCAGCTTATTTTTGCCTTAATGATTTCATCCTA
GTTTCTTTTGGTTGATTTGTAGCTGCTTTTGCAACTTCGTTAGAGGACTATTACACTTCTTTACATTTGATTTTTCTTAATGAAGCATTGAGGGCTCGAG
TAAAAGATTTCTTTTACTTAGGTTTTGGTAAAAATTGCTGTTCTTTTCATTGCTTTTAGATAATTTAAATATCAGTTTTTAAATTTCTCCTTTGATGCAG
TGACTGTCTATAAGGCTGTTACCTAATTCTGATATTGTTAATAATTTTGTAGTCATCTCCCTCTTATTTTTTCAAGTTATTTTGTATTATAATAAGAATG
TTTCTTTTTTTTTTTTTTGAAGGAAAAAATAAATTTATTGCTCATTAAGTGGAAGTGGATCATCATAAAGGTCTTCATCCTCATTGTCTCCATGCTGAGT
GGGCTGAGGAGGAGGAGGAAGGGGAGGGATTGGTCCTGCTGTCTCAGCGTGGCAGAGGCAGAAGAGGATGAGAAGGTGGAAGGGCCAGCGGGAGAGGCAG
GCACACTCGGTGTAACTTTATGGAAATATATCATCATTTTTGTTTGACTTTTTTCCTTTCTCATTTCTCTGAAAATGTTTCTGTACAGTACCAATTCTTC
TTCCACCATTTGCTTTAGTTTCAGTGCCCAAACCATAGAAGGGTCCATGTGGTAAAAAAAGTCAAAACTGACTTTTTTTTTTTTTTTTGAGTTGGAGTCC
TGCTGTCACCCAGGCTGGAGTGCAATGGCACGATGTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGTCTCAGCCTCACAAGTAGC
TAGGACTACAGGCACACGTCACCACACCTGGCTAATTTTTGTACTTTTAGTAGAGATGGGGTTTCACCATACTGGTCAGGCTGGTCTCGAACTCCTGACC
TCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTAGGATTCCAGGTGTGAGCCACTGCACCTGGTCAACAATCTTTTTTTTTTTTTTTTTTTTAATTT
ATTTTTTTATTGATAATTCTTGGGTGTTTCTCACAGAGGGGGATTTGGCAGGGTCATGGGACAATAGTGGAGGGAAGGTCAGCAGATAAACAAGTGAACA
AAGGTCTCTGGTTTTCCCAGGCAGAGGACCCTGCGGCCTTCCGCAGTGTTTGTGTCCCTGATTACTTGAGATTAGGGATTGGTGATGACTCTTAACGAGC
ATGCTGCCTTCAAGCATCTGTTTAACAAAGCACATCTTGCACCGCCCTTAATCCATTTAACCCTGAGTGGACACAGCACATGTTTCAGAGAGCACAGGGT
TGGGGGTAAGGTCACAGATCAACAGGATCCCAAGGCAGAGGAATTTTTCTTAGTGCAGAACAAAATGAAAAGTCTCCCATGTCTACTTCTTTCTACACAG
ACACGGCAACCATCCGATTTCTCAATCTTTTCCCCACCTTTCCCGCCTTTCTATTCCACAAAGCCGCCATTGTCATCCTGGCCCGTTCTCAATGAGCTGT
TGGGCACACCTCCCAGACGGGGTGGTGGCCGGGCAGAGGGGCTCCTCACTTCCCAGTAGGGGCGGCCGGGCAGAGGCGCCCCTCACCTCCCGGACGGGGC
GGCTGGCCGGGTGGGGGGGCTGACCCCCCCATCTCCCTCCCGGACGGGGTGGCTGGCCGGGCTGAGGGGCTCCTCACTTCCCAGTAGGGGCGGCCGGGCA
GAGGCGCCCCTCACCTCCCGGACGGGGCGGCTGGCCGGGCGGGGGGCTGACCCCCCCACCTCCCTCCCGGACGGGGCGGCTGGCCAGGCGGGGGGCTGAC
CCCCCCCACCTCCCTCCCGGACGGGGTGGCTGCCGGGCGGAGACGCTCCTCACTTCCCAGATGGGGTGGCTGCCGGGCGGAGAGGCTCCTCACTTCTCAG
ACAGGGCAGCTGCCGGGCGGAGGGGCTCCTCACTTCTCAGACGGGGCGGCCGGGCAGAGACGCTCCTCACCTCCCAGATGGGGTCTCGCCGGGCAGAGGC
GCTCCTCACATCCCAGATGGGGCGGCGGGGCAGAGGCGCTCCCCACATCTCAGASGATGGGCGGCCGGGCAGAGACGCTCCTCACTTCCTAGATGTGATG
GCGGCTGGGAAGAGGCGCTCCTCACTTCCTAGATGGGATGGCGGCCGGGTGAAGACGCTCCTCGCTTTCCAGACTGGGCAGCCAGGCAGAGGGGCTCCTC
ACATCCCAGACGATGGGCGGCCAGGCAGAGACACTCCTCACTTCCCAGACGGGGTGGCGGCCGGGCAGAGGCTGCAATCTCGGCACTTTGGGAGGCCAAG
GCAGGCGGCTGGGAGGTGTAGGTTGTAGTGAGCSGAGATCACGCCACTGCACTCCAGCCTGGGCACCATTGAGCACTGAGTGAACGAGACTCCGTCTGCA
ATCCCGGCACCTCGGGAGGCCGAGGTTGGCGGATCACTCGCGGTTAGGGGCTGGAGACCGGCCCGGCCAAACAGCAAAACCCGGTCTCCACCAAAACCAG
TCAGGCGTGGCGGCGCGCGCCTGCAATCGCAGGCACTCGGCAGGCTGAGGCAGGAGAATCAGGCAGGGAGGTTGCAGTGAGCCGAGATGGCAGCAGTACA
GTCCAGCTTCGGCTCTGCATGAGAGGGAGACCGTGGGGAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGAGGCAGAGGCAGAGGAGGCAG
AGGCAGAGGAGGCAGAGGCAGAGGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCGCCTGGTCAACAATCTTAAGTCCA
ATAAGAATGTTTCTTATGAAGACACTACTTAAAAAATTCTTAATAGGTTACCTTGATGGTCTAATACAGAATTGTCCAATAGAAATATAATGTAAGCCAC
ATACATAATTTAAACTTTTCTAGTGGGCATGTTAGAAACCAGCAAAAAGAAACCACTGAAATTAATTTTACTAAGGCATTGTTTAACCAGACATATCACA
AATATTATCCTTTCAACATATATTCGATATAAGATTATGACTTAACTATTTGACATAGTTTTTTCTTGCTAAGTCTTCAAAATCTAGCATATATCTGACA
TTTACAGCATATCTCAATTTGGAATAGTCACATTTCAAGTGCTCAATAGTCATATGTAGTTAGTGACTACCATATGGTCAATGTTTACAAATGTAAACAT
TGTAAGAGACTTACATTTTCTTCACATAGTTTGTTGTTATCATTAAATAATAATCCTTAAAATCCATTTTATTGGATACCAGTATTGCTACTCCTATGTT
ATTTTTTCAATTCCCCATCTCTTTTAATTTGAAAATGATTTGTAGGCAGGTGGGTGGCTCACACCTGCAATTTCAGCCCTTTGGGAGACTGATGCAGGAG
GATTGTTTGAGCCCAGGAGTCTGAGAGCAGCCTGGGAAACGTGCTGAGACTGCATCTCTACAAAAAATCAAAAAATTATCCAGGTGTGATGGCGCACACC
TGTGGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGGATTACTTGATCCGAGGAGGTGGAGGCTGCAGTGTGCCATGTTCACACCACCTCACTCCAGCCCG
AGTGACAGAGTGAGGCCCCATTTCAAAAAAATAAAAATTTCTTTGGCATATGGAAATCTTGTTTAAAAAGTTTAGAAAACATTTTTTAAAACTCCAATAT
GAAAAGCTGGGTGCAGTGGCATGCGCCTRTGGTCCCAGGTACTTGGGAGGCTCAGGTGGGAGGATCATTGAGCTCAGGAGTTTCAGCACCTGTGGTTTTT
TGATTTATTTATTTAAAACACAACAAAAACCAAAATTGCTTCCATCTCATAGTCTTTTGATGTCAGCATTCTGATTCTGTCCACTCTTAATCTTATTCTT
TCCACTGAATGTAAGCTCATTTCTTTAACAGAAATTTCCTTTTTCCTTATTAATTTTGGAATTTCATGGTACTTTTCCACTTTTAGGGAGATGCAGTGCA
GCGTCTTCAAGTCTCCCACTCTTACGCCTGTCTCCTTCACTTGTAAGAGCCCTYGTGATTACACTGTCCTGCCCAGATACCCAGGACAATCTCCCCATCT
TAAAACTCTTAATTTAATCATATCTGTGAAGTCTCTTCCACCTGTAACGGAACATATTCCCAGGTTTGAGGAAGTACAATGTAGATACTTTTGTGGGGCT
GTGATTCTGCCTACCACAGACACTAAGCTTAAAGTGAAACCCACATCTTATTCAAGGCTTGGAGGTTTTCCTCTATTCGRCCATTTAAATTTAATTTTTG
TTCCTTTTCTCCATAGTCTTCTATTCTCCAGGCTTCAGAGCTATCAGCTTACCATTCAATTATCTCCTTTTTTCCTGATCTTCCTTTTTTCATTTTTAAA
AAACAATACCTTTCAAAGAGCAAAAGTTTTAGATTTTGATGAGGTTCTTTCTAGCAAAGTTTTATCATTTGTTGTTTTTGTACCCTAAGGAATCTTTACC
CCAAGATGTGAAGATTAGTTTCTGTGTTCTCTTACAAACATTAAAGAATTCCAGTTTGTGTGTTTAGGTCTGTGAGATTGGCAGAGGGGAACAAGACCAC
ACAGGTCAGTCTTTCAGGATGCTTTTTTCTGTCTCTGGACTTTGCTGGGGTGACCTCACTGACACCCATGGCTTCCACATATGCGGATGGCTCCAAGTCT
ATCTGTGCAGCCCAGACCCCTCCTCATCTCCAGACCCTGGAAGCTGATGACTTGGGCAGCTCCTTCTGTTTCCCAGGCACCAGGAGCTCCTCCCTCCCCA
TAGTTCTGCTATCCTTAGGGCCCCTAGGTCTCTGGAGTACCACCGTCTTCCAAGATACATGGGCCTCCTCAGGGTCTGGGAGTCCCAGACATGTGACAAG
AAATCAGATGACTTCACTGTCTAAATAAAACACTACTACTTGGAGGTAGAACATGGGAGCCCATGAATGTGGGAAGAGCACACTACCAGGCGTGTTCCAC
CCGTCACCTGGGCTCATCATGAGGGTGCTTAGGAAGCATATAGTTTTAAGGGGGTTGGAGGAATAGTTCAGAGGCTGAGAGGTTGCACCCACAGCTGAGA
ATCCCTTTCTAGTGCTCTATGTCCTTACAAATTCCCAGGAATCATCCTCTACTGGACAGTTCCCAAAGCCCTTGCAGACCTTCCTTTTCTGTGCCATCCT
GCGTGTGCTGCCCTTGAGCTGGGTGTCCCCCAGTAGACGCTTCCATTCACTGCCTGTCCCATGGGTTCTGTCCAAAGGTGGAATCTGTTATCAATGTGGA
GTAATTTCCTCCCTAAGGGAAGCCTCAGCCTCACCAGCAATGGCAGACACGGCCAGGCAAGAAGACACAGGGGCAGTGAGATAGAAAGTGCACACCCCAG
ACAGCCTGCCCACATCATCCTGAGGTGACCAGGACAAGGTGGCATCAGCAATCTTGTGAGCACAGCACATGTGGGAGTGACTTTCTGGAGTAGGATAAGC
CTCATTGGGCTTGAGGCCCTTGTGAGTGCTCAGGGTCTCTCCTTTAGAAAGGCACATATTTAATTCTCCATCTTGAAATTTGGACTAGGGCCCCCACAAA
TTGTGCAGCCCATTCTGTTCTGGAGGAACCATTCTTATCAGAACTTGGTGCTGGATTGACTTGGAGAAGAGCCTGACCATAATCTTCAGGATGAAATAAA
GGCCTGGATGACTGAAATAAAGACTGGAGCCTTCGGCATTCAGAAGAGGAATTCAGACTGTGCAAGATCTGAGGCCAGGCTCCAGCTCCCCCAGTCCCTT
GGTGAGCAGGAGCTCCCTGAACCCACCRTGGGTCYTTGCTAGGGTTGTCTTGCCCATGTGTGCTTTAGATAGCAGCACCTCTTCTTCCATGGTGTATATG
GAGAATCCTCAACAAAGTCTTCCCAAGAATCTGATCATCACATCTTGAGCTCAGCCTCCCTGCAGCTTTTTCTATATTGACAGCCACTTCAGAGAGAGTC
CTCTYTGATCCTTACAAGAAATATCCTGGTGCGAAAAACGACCAAAACCACATAGCCAGCCTCCACGCTGTTCAGAGAAAGCTGGCTTAGCAATGTTGTA
TGGTTTTTGGATGCGCTGCGTTACTCATACATGAGAAGAAAGTTTCAAGGGTTAGCAAATAGGGTCACATCCAGCAGAGAGCATATGACTGGGGGCTAGG
GCAATGGTGACTCCTCAGACCTCAGCTGCTGCCTGATAAACATGGTTAACAGAGAAGTAGGAGACAGTGACATGAAATGGGTGTTCACAGCCTTGTGTTG
GGAATTGGATGAGAAACAAGAGCTTGAACTTGGATGTTCCCCAGAGTGAGCACAGGGTCAGACGTGTTTTTCAAGATAGTCRTGATCGGTCTTTTCCAGG
GTGGGGCCCACAGTGAAAAACAGTGATAGATTAATGGTTAATAATTAACTAGAGGAGGGCACTCTGTCTTCCAATTACACGTTGATTTGCTAAGTGGCTC
AGTGACAAGGTAATTAAGAYGAAGAAAGCAAATGTAGCAGGCACAGCGTGGGGTGGACAGTCAGCTGTCCGTGTCTTCTGCTGAGATGGCCACAGGACTC
CAGGTTCCCCTGCCGYGGCTGGCCACAGGACTGCTGCTTCTCCTCAGTGTCCAGCCCTGGGCTGARAGTGGAAAGGTGTTGGTGGTGCCCATTGATGGCA
GCCACTGGCTCAGCATGCGGGAGGYCTTGCGGGAGCTCCATGCCAGAGGCCACCAGGCAGTGGTCCTCACCCCAGAGGTGAATATGCACATCAAAGAAGA
GAACTTTTTCACCCTGACAACCTATGCCATTTCGTGGACCCAGGATGAATTTGATCGCCATGTGCTGGGCCACACTCAACTGTACTTTGAAACAGAACAT
TTTCTGAAGAAATTTTTCAGAAGTATGGCAATGTTGAACAATATGTCTTTGGTCTATCATAGGTCTTGTGTGGAGCTACTACATAATGAGGCCCTGATCA
GGCACCTGAATGCTACTTCCTTTGATGTGGTTTTAACAGACCCCGTTAACCTCTGCGCGGCRGTGCTGGCTAAGTACCTGTCGATTCCTACTGTGTTTTT
TTTGAGGAACATTCCATGTGATTTAGACTTTAAGGGCACACAGTGTCCAAACCCTTCCTCCTATATTCCTAGATTACTAACAACCAATTCAGACCACATG
ACATTCATGCAAAGGGTCAAGAACATGCTCTACCCTCTGGCCCTGTCCTACATTTGCCATGCTKTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTT
TTCAGAGAGAGGTGTCAGTGGTGGATATTCTCAGTCATGCATCTGTGTGGCTGTTCCGAGGGGACTTTGTGATGGACTACCCCAGGCCAATCRTGCCCAA
CATGGTCTTCATTGGGGGCATCAACTGTGCCAACAGGAAGCCACTATCTCAGGTCTGTATTGGTGCCTTCATCCAATCAATGTTCCAGGCAAAACACTTT
TTWAAAAAATGTATTTATTTAAAATTGCTTCCATATTTACTTATCTTTCCAAATATTTCATTTCTGCTTCTCCTTGTCATAATAGCCTTCAGTGAGATAA
ACTGTTAAGGGGTCTCTAGTAGCGTATTTCAGGTTTTAAATGGTCACTGAGAGGAAGAGGAAGTAGACACGAATGTTTGTAAAAGGATGGACAAGGACTG
GTGTGACTCATAGAGACTGTTGGTTTGTAAAGGCACCATCTTCATGGTTGTGCATGTCCTTCAGCTTGGCAGGAACAGGGACACTACGTTTGGAACTGAT
CCATCCTGGATTTTTTGCTAGCATGATTTTCAGGGGAAAGATGATGCAACAGTAAATTACAATTGTTGACATGATAATTTTTAGTTGTCCCATCTTGCAA
ATGATAGACAGGTGACCACAGGAGACCTAGGCACTCACATGAAATAGAAGTGTCAGAGAGGTTGACTCAGTGGAAGTGGGGCAATGAAGTTGGGATGGAT
GTCTGTGATTAGAGAATGACACACGAAGTTCAGTTTCCAGACAGGGATCTGTGCTGTCAAGAGATTTTCTGGTCAGGATTTGGGGTCTGGTGCATGATGT
GGGGACATCTCAGAGTTCGGAAAGCAAAGTAATGGTTGCATCTCAAATGATTCTTCTACTTGGAATGCTGAAATTATCAAGAAATGGCGGAAGGGGCTAG
GGAGGAGATAAGACTGTGAATCTATAAGCCCAGTGAAGCTGGGGACAGTGATGAATGGACATGCGTCCAAGAAGGGAAGCATTTCTCAGGAGAGGCTCAT
CACATCACCAAACCCACCCTACTGCACTCCAGGTTTCTATAGTGGGATCTACTCCTTTACCAAAAATTTCAGAGGCAGCTTTCATTAATCCAGAATATTT
GGGTTTCGTTGAAATGGTACTCTGGGACCTGAATATTGTTTCTTATTCCTTGCTGTGCCATGTACATCGTGAGAGAATCAGCCTTTTTATGTCATATTCA
CCGAATGTGTATGAACTTCCATGATTTAGATCCTTTTGTATTCTTATTTCTGTGCCTTTTTTATAAATGTAGGTATTATTGCAAAAGACTCTAAGCTTCA
TTTTTCTTTTTGATCAAACGACATGATTTTTTTATGCAATGTAATTATTCAATTATAAAATACGTGTTTATTTAGATTTGTAAAAATGTTGAAAAGTGGG
ATGGCATTTAAATAGTGACTGTTGCCCTTCCAGTTTTTCTTTCTTTTTTTTTTTTTTATTATACTTTAAGTTCTAGGGTACATGTGCACAAATTGCAGGT
TTGATACATAGGTATACATGTGCCATGTTGGTTTCCTGCACCCACCAACTCGTCATTTACATTAGGTATTTTTCCTAATGCCATCCCTCCCCCAGTCCCC
CACCCCACAACAGGCCCTGGCGTGTGATGTTCCCTGGCCTGTGTCCAGTGTTCTTGCTGTTCAGTTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTT
TTCTGTCCATGTGATAGTTTGCTGAGAATGATGGTTTACAGCTTTGTCCATCTCCCTGCAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATT
CCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGATGGACATTTGGATTGGTTCCAGGTCTTTGCTATTGTGAATAGTGCCACAATAAA
CATACGTGTGCATGTGTCCTTAGAGTAGTATCATTTATAATCGTTTGGGTATATACCCAGTAATGGTATGGCTGTGTCAAATGGTATTTCTAGTTCTAGG
TCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAATTTACACTCCCACCAATGGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAAC
ATCTGTTGTTTCCTGACTTTTTAATGGTCACCATTCTAACTGGCGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGACCAGTGATGA
TGAGCATTTATTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCACTTTTTGATGAGGTTGTTTGTTTGT
TTTTTTTCTTGTAAATTTGTTTGAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGGGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTG
CCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGGAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCTATTTTGGCTTTTGTTGCCATTGCTTTTGGT
GTTTTAGTCATGAAGTCCTGGCCCATGCCTATGTCTTCTAGGCCATGCCTATGCCTAAATGATATTGCCTAGGTTTTCTTCTAGGATTTTTATGGTTTTA
GGTCTAACATTTGAGTCTTTAATCCATCTGGAATTAATTTTTGTATAAGGCGTAAGGAAGGGATCCTGTTCCAGCTTTCTACATATGGCCAGTTTTCCCA
GCACCATTTATTAAATAAGGAATCCTTTCCCCATTGCTTGTTTTTGTCAGGTTTGTCAAAGATCAAATGGTTGTAGATGTGTGGTGTTATTTCTGAGACC
ACTGTTCTGCTCCATTGGTCTATATATCTGTTTTGGTACCAGCACCCATGCTGTTTTGTTACTGTAGCCTTGTAGTACAGTTTGAAGTCAGGTAGCATGA
TGCCACCAGCTTTGTTTTTTTTTTTTTTTTGCTTAGGATTGTCTTGGCAATGCAGGCTCTTTTTTGATTCCATATGAACTTTAAAGTAGTTTTTTCCAAT
TTTGTGAAGTCATTGGTAGCTTGATGGGTTTGGCATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTATCCATGA
GCATGGAATGTTCTTCSATTTGTTTGTGTCTTCTTTTATTTCGTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTTTAAGTTGG
ATTCCTAGGTATTTTATTCTCTTTGTAGCAATTGTGAATGGGAGTTCACTCATGGTTTGGCTCTGTTTGTCTGTTATTGGTGTATAGGAATGCTTGTGAT
TTTTGCACATTGATTTTGTATCCTGGGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGACTTTGGGCTGAGACAATGGGGTTTTCTAAATATACAATCA
TGTCATCTGCAAACAGGGACWATTTGACTTCCTCTTTTCCTAATTGAATGCTCTTTATTTCTTTCTCTTGCCTGATTGCCCTGGCCAGAACTTCCAACAG
TATGTTGAGTAGGAGTGGTGAGAGAGGTCATCCTTGTTTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTCGCCTACTCAGTATGATATTGGCTGCG
GGTTTGTCATAAATAGCTCTTATTATTTTGAGATACTTCCATCAATACCTAGTTTATTGCCAGTTTTAGGCATGAAGGGATGTTTAATTTTGTTGAAGGC
CTTTTCTGCATCTGTTGAAATAATCATGTGGTTTGTCATTGGTTCTGTTTATGTGATGGATTACATTTATTGATTTGCATATGTTGAACCAGCCTTGCAT
CCCAAGGATGAAGCCGACTTGATCGATGTGGATAAACTTTTTGATGTGCTGCTGGATTTGGTTTGCAGAATTTTACTGAGGATTTTTGCATCGATGTTCA
TCAGGGATATTTGTCTAAAATTTTCTTTTTTTGTTGTGTCCCTGCCAACCTTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCC
CTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTGTTTGTACCTCTCTGGTAGAATTCGGCTGTGAGGAAGGGGAACATCACAT
ACTGGGGCCTGTTGTGGGGTAGGGGGAGCGGGGAGGGATAGCATTAGGAGATATACCTAATGTTAAATGACGAGTTAATGGGTGCAGCACACCAACATGG
CACATGTATACATATGTAACAAACCTGCACATTGTGCACATGCACCCTAAAACTTAAAGTATAATAATAATAATAATAATAAAAAGAATTTGGCTGTGAA
TCCATCTGGTCCTGGACTTTTTTTGGTTGGTAGGCTATTAATTATTGCCTCAATTTCAGAGCCTGTTGTTGGTCTATTCAGAGATTCAACTTCTTCCTGC
TTTAGTCTTGGGAGGGTGTATGTGTCCAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGTGTAGACGTATTTATAGTATTCTCTGATGGTAG
TTTGTATTTCTGTGGGATCGGTGGTGATATTGCCTTTACTATTTTTTATTGCGTCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCCAGAGG
TCTATCAATTTTCAAAATCCATCTCCTGGATTCATTGATTTTTTTGAAGGTTTTTTTGTGTCTCTATCTCTTTCAGTTCTGCTCTGATCTTAGTTATTTC
TTCCCTTCTGCTAGCTTTTGAATTTGTTTGCTCTTGCTTATCTAGTTCTTTTATTTGTGATGTTAGTGTGTTGATTTTAGATCTTTCCTGCTTTCTCCTG
TGGGGATTTAATGCTATAAATTTCCCTCTACACACTGATTTAAATGTGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCGTCGGTTTCAAAGAACA
TCTTTATTTCTGCCTTCACTTCGTTATTTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGTGCGATTTTGAGTGAGTTTCTTAAT
CCAGAGTTCTAATTTGACTGCACTATGGTCTGAGAGACAGTTTGTTGTGATTTCTATTCTTTTACATTTGCTAAGGAGTGCTTTACTTACAATCATATGG
TCAGTTTTAGAATAAGTGTGATGTGGTGCTGAGAAGAATGTATATTCTCTTGACTTAGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCA
GAGCTGAGTTCAGGTCCTGGATATCCTTGTTAACCTTTGGTCTTGTTGAWCTGTCTAATATYGACAGTGGGATGTTAAAGTCTCTCATTATTATTGTGTG
GGAGTCTAAGTCTCTGTGTAGGTCTCTAAGAACTTGCTTTATGAATCTAGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTGTTGT
TGAATTGCTCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATTTTTGTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCTTTT
TTTTTGCTTTCCATTTGTTTGGTAGATCTTCCTCCATCCCTTTATTTTGAGCCTATGTGTGTCTCTGCATGTGAGATAGGCCTCCTGAATACAGCATACC
GATGGGCCTTGACTCTTTATCCAATTTGCCAGTCTGTGTTTTTTAATTGCAGCATTTAGCCCATTTACATTTAAGGTAAATATTGTTATGAGTGAATTTG
ATCCTGTCATTATGGTGTTATCGGGTTATTTTGCCCGTTAATTGATGCAGTTTCTTCACAGCATCGATAGTCTTTACAATTTGGCATGTTTTTGCAGTGG
CTGGTACTGGTGTTTCTTTCCATGTTTAGTGCTTCCTTTAGGAGCTCTTGTAAGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTATAA
AGGATTTTATTTCTCCTTCACTTATGAAGCTTASTTTGGCTGCATATGAATTTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCA
CTCTCTTCTGTCTTGTAGGGTTTCTGCAGAGAGATCTGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCTGTGGCTGCCCTTAAC
ATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGTTCTTCTCGAGGAGTATCTTTGTGGTGTTCTCTGTATTTCCTGAA
TTTGAATGTTGGCCTGCCTTGCTAGGTTTGGGAAGTTCTCCTGGATAATATCCTGAAGAGTGTTTTCCAACTTGTTTCCATTCTCCGCATCACTTTCAGG
TACACCAGTCAAACGTAGATTTGGTCTTTCCACATAGTCCCATATTTCTTCAAGGCTTTCCTTGTTTCTTTTTACTCTTTTTTCTCTAACCTTGTCTTCT
CACTTTATTTCATTAATTTGATCTTCAGTCACTGATACCCTTTCTTCCAGTTGCTCTAATCAGCTATTGAATTTTGTGCATGTGTTATGAAGTTCTTGTG
CCATGGTTTTCAGCTCCATCAGGTCATTTAAGGTCTTCTCTACAGTGTTTATTCTAGTTAGGCATTCATCTAACCTTTTTTCAAGGTTCAACCTTCCTTG
CAATAGGTTCGAACATGCACTTTTAGCTTGGAGAGGTTTGTTACTACCAAACTTCTGAAGCCTACTTCTGTCAACTCGTCAAAGTCATTCTCTTTCCAKC
TTTGCTCCATTGCTAGCAAGGAGCTGTGATCCTTTGGAGGAGATGTGCTTATGCGCTATGGTTTTTAGAATTTTCAGCTTTTCTGCTCTAGTTTCCCCCC
ATCTTTGTGGTTTTATGTACCTTAGGTCTTTGATGTTGGTGACCTACAGATGGGGTTTTGGTGTAGATGTCCTTTTTGTTGATGTTTATGCTGTTCCTTT
CTGTTTGTTAGTTTTCCTTCTAACAGTCAGATCCCTCAGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCCACTCCAGATGCTCTTTGCTTTGGTATCACC
AGTGGAGGCTGCAGAACAGCAAATATTGCAGAACAGCAAATATTGCTGCCTGATCCTTCCTCTGGAAGCTTCATACCAGAGGCGCACCCACCTATATGAG
GTGTCTGTTGGCCCCTACTGGGAGGTGTTTCCCAGTCAAGATACACAGAGGTCAGGGACCCGCTTGAGGAGGCAGTCTGTCCATTCTCAGAGCTCAAATG
CCATACTAGGAGAACGAGTGCTCTCTTCAGAGCTGTCAGACAGGGATGTTTAAGTCTGCTGTTCCCCACATGTTCAGAAKTTGTCTGCTGCCTTTTGTTC
AGATATGCCCTGCCCACAGAGGTGGAGTCTATAGCGGCAGTAGCCCTTGCTGAGCTGCGGTGGACTCTGTTCAGTTCCAGCTTCCTGGATGCTTTGTTTA
CCTACTCAAGCCTCAGCAATGGCGGACACCCCTCACCCAGCCAGGCTGCCGCCTCACAGTTCAATCTCAGACTGCTGCACTAGCAGTGAGCAAGGCTCCG
TGGGCATGGGAGCTGCTAAGCCAGGCAGGGGAGAGAATCTCCTTGTCTGCCAGTTTATAAGACCTTGGGAAAAGCACAGTATTTGGGTGGGAGTGTCCCG
TTTTTCCAGGTACAGTCTGTCATGGCTCCCCTTGTCTAGGAAAGGGAAATCCCTCACCCTCTTGCACTTCCTAGGTGAGGCGACGCCCTGCCCTGCTTCG
GCTTGCCCTCAGTGGGATGCACCCACTATCCAACCAGTCCCAATGAGATGAACCAGGTACCTCAGTTGGAAATGCAGAAATCATCCATCTTCTGCGTCGA
TCATGCTGGGAGCTGCAGATCGGAGCTGTTCCTATTTGGCCATTGGTGCTGAAGCTTCCGTTCTCCTCTCCAACACCTCCTTTTTTTTTCCTTTTCTCTT
CCAGTTTTTCAATGTGAACATATTCTCTAGAGTTAACTACATTGGCTCAAATCTTCACTATCATCTCAGTGGAGCAGAACAAATTGGGAACTGTGGCACA
GGTCACTCTTGCTATGCCCCTTAAGAATTCCACATTAACAAAGCTAATTTTCGAGTGTGGTAAAGAACAGGCTAGTGTATTTAGTAGTGAGTCCATTGAC
TGTTTCCCAACATGAGGTCACACTAGATTTAATATGGTTTGGCTCTGTGYCCCCCACCAAATCTCATCTTGAATTGYAATCCCCATAATCCCCACGTGTT
GAGGACAGGACATGGTGGGAGGTCCCCACCTCCTMATCTCATCATAGTGAGTGAGTTCTTATGAGATCTGATGGTTTTATAAGGGGCCCTTATCCCTTCA
CTTGCAAGCTATTCCTCTTTCTCTCTTTCATGTAAGACGTGTCTTTGCCTCTCTCTCACTTTCTGCCAGGATTATAAGTTTCCTGAGGCCCCTCCAGCCA
CATGGAACTGGAGTCAATTAAAGCTCTTTCCTTTATAAATTACCCAGTCTTGGGTATGTCTTTATAGCAGTGTGTGAATGGACTAATACAGTAAATTGGT
GTCATGGAGAGTGGGGTACTGCTATAAAACTACTTGAAAATGTGGAAGTGACTTGGAACTGGGTAACAGGCAGAGGCTGGAACAGTTTGGAGAGCTCAGA
AGACAGGAAGATGTGGGAAAGTTTGGAACTTCCTGGAGACTTGTTGAACGGTTTTGACCAAAATGCTGATAATGTTGTGGACAATGAAGTCCAGGCTGAG
TCTCAGATAGAGATGAGGAATCTGTTGAGAACTGGAGCAAAGGTCACTCTTGCTAAGCTTTAGCAAAGAAACTCGTGGCATTTTTGCCCCTGCCCTAGAG
CTCTTTGGAACTACGAACTTGAGAGAGATRATCTGAAATTGGAACTTATGTTTAAAAGGGAAGCAGAGCATAAAAGTTTGGAAAATTTGCAGCCTGACCA
TGTGGTAGAAAAGAAAAACCCATTTTATGGGGAGAAATTCAAGCCAGATGCAGAAATACTAGCTAAAGAAATTTGAATAAATAAGGAGGARCCAAATGTT
AATCACCAAGACAATGGGGAAAATGGCTCCAGGGCATGTCAGAGACCTTTGCAGCAGACCCTCCCATCACAGGCCTGGAGGCCTAGGAAGGAAAAATGGT
GTTTTAGGCTGGGTCCAGGCCCCCACTGCTGTGTGCAGCCTCAGGACTTGGTGCCCTGTGTCCCAGTGGCTCCAGCCATGGCTAAAAGGGGCCAAGGTAG
AGCTCAGGCCATTGCTTCAGAGGGTGCAAACCTCAAGCCTTGGCAGCATCGATGTGGTGTTGGGCCTGCGGGTACACAGAAGATAAGAATTTAGGTTTGG
GAACCTCCACATAAATTTTAGAGGATGTAAGGAAATGCTTGGATGTCCAGGCAGACGTTTGCTGCATGGATAGAGTCCTTATAGAGAACCTCTGCTAGAG
AAGGGTGGTAAAGAAATGTGAGGTTGGAGCCCCCACASAGAGTCTCCACTGGGGCAYTGCCTAGTGGAGTTGTGAGAAGAAGGCCACAGTCCTTCAGAAC
CCAGAAGGGCAGATCCAATAGCTTGCACTGTGTGCCTGGAAGAGCCACAGACATCAATGCCACCCTCTGAAAGCAGCCAGGACGAGGGCTTTACCCTGCA
AAGCCACAGGGTTGGAGCTGCCTGAGACCGTGGGAGCCCATTTCTGGCATCACCTTGATCTAGATGTGAGACATGAAGTCAAGGGAGATTATTTTGGAGC
TTTAAGATTTAATGACTGCCCTGCCTGGTTTTGGACTTGCATGGGGCCTATAGCCCCTTTGTTTTGGCCAGTTTCTCCCATTTGAAATGGGAACATTTAC
CCAATTTCTGTACCCCCATTGTGTCTTGGAAGTTACTAACTTGTTTTTGATTTTACAGGCTCATGGGGGAAGGGACTTGACTTGTCTCAGATGAGACCTT
GGACTATGGACTTTTGAGCTAGTGCTGAAATGAGTTAAGACTTTGGAGGACAGTTGGGAAGGCAYGATTGGTTTTTAAATGTGAAAAGACATGAGATTTG
GGATGGGCCAGAGGGCAGAATGATATGATTTGACTGTGTGTTTCCACCCAAATCTCATCTCATATTGTAATTTCCATAATCCCCATGTGTTAAGGTTGGT
ACCTGGTGGGAGCTGATTGAATCATATCGGCAGTTTTCCCCATGCTGTTCTTGTCATACTAAGTGAGTTCTCATGAGAGCTGATGGTTTTATAAGGGACT
CTTTCTCCTTTACTCACAAGCTTTTCCTCTCTGTCTCTCGCCTGCTGCCATGTGAGACATGCCTTTGCTTATCTCTCACCTTCTGTCATGATTGTAAGTT
TCCTGAGGCCTCCCCAGTCATGTGGAACTGTGAGTCAATTAAACCTCTTTCTTTTATAAATTACCCAGTCTCRGCTGCGTCTTTATAGCAGGCTGAGAAT
AGACTAATACAAGATTGGTGGTGATTGAAGTTATACTGAAAGGGTTTAAAGGAGAGTCTGAGAAAAGGAAATGAATCTGCATTTATTGAGAAAGTTGATG
AGAAAGTGGAATTAGAAATTCCTAGAAAGGTAAGTTGTTGTGTGAATTATTTCCCAAAATGGGGAAGTCTCTCTACCTGTTTGGAGACAGAAAGTGGAAT
CAGAGGAGAAGAAGATGATGGACAGAAAGGATCATTCCCTCTTCCAGATGCTTTCCAGTGTGTGATGTAAGCTGAACTAAAATCAGCTGTGTTGAACTCC
AGCCAGAAAAAATGTCCGGCATTTTGTTTTTTGGGACCCTAATGAAATGGTTACAGGTCTCCAGGTCTCTTGGGGCTCACAGGGTCATGCCTTTCCTTGC
CCAGTGTACTTGGTRAGAAGGTACAGGTGTTTCCATGGAGGGTGTTCATTTTAGGGATTTCAAGAGGGTCATCTTTGCACCACAGGAAATGCCCCCTTTT
ACACTCTGAAAACCTTATCAAACCGTTGTATAAAAGATGAATACCCACATAACAGGCTCTAGCACTGTTCTGTTTTTGAGCTGAGACATTTTAAAAGGAG
ATTTTTCAATTCTAAAAATTCTTTAAATAAAATGCTCTTGCAGGGACAACATAGTAGGTCAACATTGTTCCCATCTCCACAAAAAGTTTTTTTTTTAATT
AGCTAGGTGTGGTAGCATTTCTGTAGTCCTAGCTACTGGGAATGCTGAGGAGGAAGGATCACTTGAGCCCAGGAATTCGTGGTTACAGTAAGCTATGATC
TTGCCTAGGTAACAGCTACAGAGCGAGACCCTGTCTTTAAAACAAACAAGCAAACAGACAATCAAGCTTTACACTTCTATAAAAGCAACACTTTCCATTT
ATGACAGCACTAATCCAGGATATATCAAAACTGAACTTGTGTTTGCTTTCAACTGTTAAAACTAGCCAGAGTTGTTACAGACCCACTACCTCTGAGTGAC
ACTGGTATGCCACTCTTTGCTGACCACTGAACAATGGGATTTATGTACCCAATTGTGTAGATACACACCAACTCATTCTACTCTACCCAGAGTAGTGATT
TCCAACACACAAAACCACAATGAAACTGCCCATGCCTTTCTACCACTTTGAAACTCCTTTCATCCCTGAACTGCTCCAAAAGCAAACCTACTCAGCAAAC
TACTCAGTGAGTATCTTCACACATGTAAGTTCCCTCGTCTGATGTACAAAAAACTGAACTCATTTTTCAAAAGCCTTAACAGTCTGTCTTATTCTGATAC
TTCTTKTATGGTTATTGTATGAGAATCAACTACCCAGGCACCTCGGAGYATGTTGATTTCAGAGTTCAGTGTCAGACCCCATGAGCCCCTGTGGGATGGT
GCCAGCTGACTGCCATGTTCCTGCTGTTTATTGCTTGGGTGCCATTACATGCAGAGTGGACTCTGAGGGTTCTAGAGCATATCCAAACCCATATCACACT
CTTTGTTGGTTAATGATGTGTTCAGGCCATGATTTTTCTGTAAAAAATTACCAGCATGCTGCTCTTAATTTTTTTCAGCCTATCCAGTTCAGTTGCCTTT
TGCTCTCATGCCTTATGCAAACCTTTCCTCAGAGGTGACCCTAGAAGAAGGGACCCTTTGTGATGGAAAAGGTCYTCATTTGGGGCATAACCTGTGCCAA
CAGAAAGGTACTTTCTYGTTGTGTTTATGGTGCCTCACCCAAAAAATATTACAGATACACTTGGCTTTCATCAACCTAATTTGATATGTCCCAAGCATAG
CAATAGGATAGTTCTGTGTGGCCTTATGGAGATCCTTTTTTTACATTTCCAGGACCCACTGCCAAGACCAGCTTGGTCGTGGAGACCCTAACCCAGCAGC
GCTAGACGAATTAAAGACACACACACAGAAATATAGAGTGTGGAGTGGGAAATCAGGGGACTCACAGCCTTCAGGGCTGAGAGCCCCAAACAGAGATTTA
CCCACATATTTATTGACAGCAAGCCTGTGATAAGCATCATTTCTATAGATTATAGATTAACTAAAAGTATTCCTTAYGGGAAACAAAGGGATGGGCTCTG
GCTAATTATCTGCAGCAGAAACATGTCCTTAAGGCACAGATGGCTCATGTTATTATTTGTAGTTTAGGAACACCTTAAGCGGTTTTCCTCCCTGGGTGGG
CCAGGTGTTCCTTGCCCTTATTCCAGTAAACTCACAACCTTCAGCATAGGCATCATGGCTATCATGAACACGTCACAGTGCTGCAGAGATTTTGTTTATG
GCCAGTTTAGGGGCCAGCTTCTGGCCGGAATTGGGGGCTTATCCCCAGCAACCTACCATAGTTGGAGAACCACGTTCAGGCTGAAGACAGTCCTAGTATA
CCACCGACCAACCATGTAACCCCAAGGTTTGTCCTCAGCCTTCAGAGGGAACATGCTTCCACCGATTTCAGCTCAGTGATATGGGATTCAAATGTCTGAC
CTCCAAAATATTAAGATAATAAATGCATGTTGTTTTGAACCATCATTAAATTAAGCCAGAAGTATTGATATTATTTGTAGATTTCACCACTACACACTAA
ACAATAAAGTCAAATGATTTAGAGCAAACCACCTGGCTCACACTTTCCCAACGGAAAAAGGTAATGCTCAAAGTGCTGAACTGAACATTCTGTCCTACCA
CTAGCAAATAATCATTGTCTGCCTCAGGCTTAAGTTTAATAAATAGCAAATTGCATACAGATATTTTACAAYGATYGAAAGACAAACAGAGGTCCTATCC
GTGYAGTCCCAACRATAAGAACAGGYRTTGGCATRAAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAA
GTCCGCTATTCCTCCAGATGTGCTTAAAGTCAAATGTGGACTGGAATTACTTGGTGTCAATGSGGAGYAACTGCTCTWTGCYRTTTATTATGAAGGACTT
TAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTGGTGGTGATTTTTTTACCATCAACTATTTCAGTGGAAG
TCGACATGGACTTGAAGCTGCCTGTCCCATCACTACCGTAGGACATGCAGAAGGAAGAAAGGCCCCCACTTCCCAGGGAGCCAAAGGAACGAAATCCTGT
ATCAAAAGAAGAAAAAMCACCCCCAAAAGCTGGAAATTCACTGAAGGCAGAGAAAAGGGGTGCAGACGCTCTGCTTCTGCTTCCCCAGCAGTTCCTCYGA
CCCCCCMAAAATATTCTCCAGCGGGTTTCCCAAGAGGTCAAAGGAGAATGGGTCCYGGCCGCCGAAGAAYTCCCTGAAGACSTCGGCTGGGTCGCGGAAG
CTGAAGACGTACTCGAAGGGKTCCTCGAAGGGCCTGCCGCCTGTGCAGCCGCCCTCCGCSCCCGCCTCGCCATAGCGGTCATAGATATCGCGTTTCTTGG
CGTCCGACAACACCTCGTAGGCCTCGGCCACCTGCTTGAATCTCCTCTCCGCTTCCTCCTTGTTCTCAGGGTTTTTGTCGGGGTGCCACTTGAGCGCCAG
CTTGCGGTACGCCTTCTTGATGGCCTCGGATGAGGCCTGCCGGGGCACGTCCAGCACCTCGTAGTAGTCCACCATGCTGGATGGCCAGAACGGCCCACCA
GGCACTGGCACAGCGAGCGGCAAGGCTGCCAGCACCCAGGYGCAGGCCCGAGTGCTCGGAGACCTGGGCCGCCTGGAGAGACGCCCCTTATGACGCAGCC
ACATCTCATTGGTCGAGGCCTATGAGCGCCTCGCATCCCAAGATGCAGTGCTTCTGGGACTGGCCCTGCTCTCTGTGAGGCTCTGTGAGGCCCTGTGATG
CTCCAAGACCAGGCCCCGCCCACTCCGGCCTCCAACCAGCCATGGTCTCCAAAAAGGATGGGAAAAAGAGGTTGGGGAAAAGAGAGGGCCTTGACTTTGG
CTGCCTGAAGAACTGTTTTTCTTAAAGTAGGCTTTATATCAGTCTTTTTCCTCGGCCACAGGAGGGAAGAGGGTGGTGGGAGTGAGTTTAGTCTGACTGG
GGCTGAAGACATCCTGTTGTTTAGGACTGCAGTTCTCCAACGTTCCAGCCCCGGTGCCCATTTGCTTTTGTTCATGTGGATTATATCTATCATACGTACT
GCATTAGAGATTAAAACAGAATTAAAAAGACATATTAATTGGGCAATTTAGTAAGAATAAACCCATGACACAATAGCAAATCTTATTTTTATGTAAMTTT
TATTAAGACAAAATGTAGTGAGAAGAGTGGCATCGTTTTACAGTTTTTGCATCTCTCTTTAGTACTTGGCTCTATAGAGAGGTGGATTCTCATGTCAGCT
TCTGTATTCAATCTACTGTGATATTACACATCACCCATGTAGCTTCTGGAAAACTCCACTGTACACTTGTGAGAGAATGACGGTGAAAAAATCAAGTAGC
ATTATTATGGAAATAGTTTTAACTTTGCAAAATTCTCCTGAAAAATTCTTGGGGATCCCTAGGATTTCCTGGCTCATACTTTGAGAATCGCTAGTCTAGC
AGAGTAGTCCTTGGTATTCTGAAGGGATTAGTTTAGGACAACCCTCCTCTCCATACCAAAATCTAGATGCTCAAGCTCCTTTTATAAAATGACACAGTAT
TTGTATATAACCTACCAATATCCTTCTTTAAGCCTCTAGTCATCTCTTGATTACTTTTACCTAATAAATGTAAATGCTATGTAAATAGTTGTTTTACAGT
ATTGGTTTTTTATTTGTATTATTTGTATTGTTTTTTCATTGCTCTTCCCCCCAAATATTTTTAATCTGCTGTTGGCTGAATCTGCAGATGTGAAGCCCAA
GTATATGGAGGGTCAAATGTGCATGTTATTCACTTTTCTTGACTGCTAAAACAACCAGGGAGATCCTCTCAGACAAAAGGAAATACAGCACTATTTACTG
TATCGAAACCATTAAGACTTGCAGGCCGTGTGTATAGCACTGGGGATAAACGTGGGATGCAGTGATTATTTCCACTAGAACTGCTATATCATGACCATGA
ATTTTGGGGGAATTTTTTTGAGATCTGAGTTCTCTTCACCTCCTTATTCTCTTTTTGACACTGGATTCTTTTCTTTGATAAATTGTGAGGCAATACACTA
GTAAAGGTCACTCAGTTCTAAGGGGAAAATGATTAACCAAAGAACATTCTAAGATTTCCTATAGGGTATTAGGTCTAATGGGGATGTGTTATGTCACCAG
AACAAACTTCTAAGTTTATATAGCCTCTAGTGACATAACCTGAGACCCGGACTTGGCACTTGGTAAGCACACAATGAACAGTCATAGAAAGCTGGCCGAG
GGTAGAGTTCAGTGTGAACAAAGCAATTTGGGAACATCAAAGCAAGTTTGGAGAACAACAAGTGATCCAGAATGGCTGGAGGGTAAGAGGCAGAGGGAGG
GGGCAAGCAGAAGGGGTGGAGAGGAGGAATGAGCTTAGACAGGGGGGCTGGGGTCTATCCCAGAGTTTTGAGAGCAAGGCAGAGGACTCTGAATTTTCTT
CTGTGCCCAGGAAGCTGCTGACCAAGGTTCCAGAAGTGTTGGTGGGGTGGCGTTTTTCAGGGAGCAGCTGAGGCAGTGATTCAGAAGGGACAGCTGGGGG
TTGGGCAACTGGGGGACAGGGGCCCTGAAATGGGACCATGACAGCTGGGTCTGAGAGACAGTGGTAGAAACATCCAGATTCAGCACTTACTTGCTGGCTT
GGATGCAGGGTCTAGAACGAAAAGAGAAGAGGAGTCACTTCTATACAGAAACATGTCCAGAGTGCTTACTGTCTGCAAAACTGTGGACTGGCACCTGAGT
GATAGCATGATTCCAAAGCCAAAATCTTGCCTGTAAGGAATATATGTATAGGATATAGCTATACTCTAATAGCAAGGACAGATATGCAAACTGCTAAAAG
ATACAAGGCAGAACAGAACAAAACGCTGTGGGGATTCAAGGAAGGTGGCTTTGTTTCCCTTGGAGGGCCCTGTAGATGATCTACAGGGCAATGGACATGT
TTATGTTGCTCCTTTAGTAACAAGTCCCTTCATTCTGATTTGATGAAAGGAGCTGGGAGTGTGTCCAATGGTGACCTATTAACTTATGTCTTCAGCTTAA
AAAGAAAGTACCTTCAAAAGGGTTCCAGAAACACTTTCCATGGACATGTCACTCTTYAGTAGCCCCCAAAGCAAGACCATCATATTGCTGCCCTGCTGTG
TGACTTCTTAGCCCCTAGAGCACCACACCCTGTAATTGCCTAGTTGTGAGTTTGTCTCTGTTCACCTGACCCCTCCTTTCAGGCAAGGACCATTTCTAAC
TTGGCTTTCTGTCCCKAGTTCCTAGMATAGTAGGTAGGGCTCACACATTCCATAAATATTTGGTGGATAAGGGAATTAGCAATGGATTCTGCTTTGGTTC
CAAAGCAGAGATTAATTGGATTGCTTAGTAGTGGTTTTCTGTTGTAATTCATGAGCGTGAATGTGGATTGCCTACTATTGCCTACCACTGTTGGGGACCT
CTCAGACCTCAGCTGCAGCCTGATAAACGTGGTTAACAGAGAAGTAGGAGGCTGTGACATGAAATGGGTTTCCACAGGCCTTTGTTGGGAATTGGATGAG
AAACAAGAGCTTGAACTTGGATGTTCCCCAGAGCGAGCGCAGGGTCAGATGAGTTTTTCAAGTAGGAGTGATCGGTCTTTCCCGAAGTGGGACCCATAAT
GAAAGACAATGATTGGTTAATCGGTAATAATTAACTAGGAGGAGAGCACTCTATCTTCCAATTACATGATGATTTGCTAAGTGGCTCAGTGACAAGGTAA
TTAAGATGAAGAAAACAAATGTAGGAGGCACAGCGTGGGGTGGACAGTCAGCTGTCCGTGTCTTCTGCTGAGATGGCCACAGGACCCCAGGTTCCCCTGC
TGTGGCTGGCCACAGGAGTGCTACTCCTTCTCAGTGCCCAGCCCTGGGCTGAGAGTGGGAAGGTGCTGGTGGTACCCATTGATGGCAGCCACTGGCTCGC
ATGCGGGAGGCCGTGCGGGAGCTCCATGCCAGAGGCCACCAGGCRGTGGTCCTCACCCCAGAGGTGAATATGCACATCAAACAAGAGAAATTTTTCACCC
TGACAACCTATGCCATTTCATGGACCCAGGATGAATTTGATCGCCTTGTGCTGGGCCACACTCAACTGTACTTTGAAACAGAACATTTTCTGAAGACATT
TTCTARAAGTATGGCAATTWTGAAAAATTCATCTTTGGTCTTTCATAGGTCTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATGYT
ACTTCCTTCGATGTGGTTTTAATAGACCCAATTTACCTCTGTGGGGCAGTGCTGGCTAAGTACCTATCAATTCCTGCTGTGTTTTTTTTGAGGAACATTC
CATGTGATTTAGACTTTAAGGGCACACAGTGTCCAAATCCTTCCTCCTATATTCCTAAGTTACTAACGACCAATTCAGACCACATGACATTCCTGCAAAG
GGTCAAGAACATGCTCTACCCTCTGGCCCYGTCCTACCTTTGCCATGCTCTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGGGAGGTG
TCAGTGGTGGATCTTSTCAGCCATGCATCTGTGTGGCTGTTCCGAGGGGACTYTGTGATGGATTACCCCAGGCCGATCATGCCCAACATGGTCTTCATTG
GGGGCATCAACTGTGCCAACAGGAAGCCACTATCTCAGGTCGGTGTTYGTGCCTTCATCCAATCAATGTTCCAGGCAAAACAGTTTTTAAAAATTGTATT
TACTTACAATTGCTTCCATATCTACTTATCTTTCTGGTGCTTTTATTTCTGCTTGTCGTAATAGCCTTCAGTGAGATAAACTGTTAAGGGGTCTCTAGTA
GCRTATTTCAGGTTTTAAATGGTCAATGAGAGGAAGAAGRGGCAGACATGAATGTTTATCAAAGGATGGACTAGGACTGATGTGACTCATGGAGACTGTT
CGTTTGTAAAGGCACCATCTTCATGGYTGTGCATGTCCTTCATTGGGAAGGAGCAGGGACACTACATTGAGACTTGACCCATCTGGATTTTTTGTTTGCA
CAATTTTCAGGGGAAAGATGATGCAACAGCAAATTACAATTGTTAATGTGATAATTTTTAGTGGTCCTGTCTTGCGAATGATAGAGAGGTGACCACAGGA
GACCTAAGCACTCGCAGGAAGTAGAAGTGTTAAAGAGGTTGACTCAGTTCAGTGGAAGTAGAGCAACGAACGTGGGATATATGTCTGTGATTATAGAATT
ACACACTGAGTTCAGTTTCCAGAGAGGGATCTGTGCTGACAAAAGATTTTTCTGGTCAGGATTTGGGGTCTGGTGCATGATGTGGGGACATCTCAGAGTT
CGGAAGGCATAGTTTTGGTTGCAGGTCAATTGGGTCTTCTACTTGGAATGCTGAAATTATCAAGAAATTGTGGAAGGGTCTAGGGAGGAGATAAAACTGT
GAGCGTATAAGCCCAGTTAAGCTGGGGACGGTGATGAATGGACATGTGTCCAAGAAGGGAAGTGTTTCTCAGGTGAAGCTGAACATATCACCAAACCCAC
CCTATCCCACTCCAAGTTTCTATAGTGGGATCTACTTCTTTACCAACAATTTCAAAGGCAGCTTTCTTTAATCCAGAATATTTGGGGTTCATTGATGTGG
TACTCTGGGACCTGAATATTGTTTCTTATTCCTTGGTGTGCCATGTATTTCATGAGAGAATTCAGCCTTTTTATGTCATATTCACTGAATGCATATGAAC
TTCCATGACTTGATCCTTTTGTATTTTTATTTCTGTACTTCTTTTTATTAACATAGGTATTATTGCCAAACACTCTAAGCTTCATTTTTTAAAATCAAAC
CACATGATTTTTTTATTGGTGATTTTCTCCCTTATGCAGTGTAGTTATTCAATTATAAAATATGTGTTTATTAGATTTGTAACAATGTTGAAAAGTGGGA
TGGAATTTAAATAGTGACTCTTGCCCTTTTCTTCCAGTTTTTCAATGTGAACATATTCTCTAGTGTTAACTACATTGCTCAAAACTTCACTGTCATCTCA
GTGGAGCAGAACGAATTGGGAACTGTGGYACAGATCACTCTTGCTATGCCCCTTAGAGAATTAGAGAACACTAGCAAGGCTAATTTTCGAGTGTGGTAAA
GAACAGGCTAATGTATTCAATAGTGAGGCCACTGACTCTGTCTCAACATGAAGTCACACTAGRTTTATCATGATTTGGCTCTGTATCCCCCACCAAATCT
CATCTTGAATTGTAATCCCCATAATCCCCACGTGTCAAGGACAGGATCTGGTGGGAGGTGMTTGGATCATGGGGGCAGTTTCGCACCTGCTGGTCTCATC
ATAGTGAGTGAGTTCTTATGAGATCTGATGGTTTTATAAGGGGCCATTGTCCCTTCACTTGCAAGCTCTTCCTCTTTCTCTCTTTCATGTAAGACGTGTC
TTTGCCTCTCTCTCACTTTCTGCCAGGATTATAAGTTTCCTGAGGCTCCCCCCTCCAGCCACCTGGAACTGTGAGTCAATTAAAGCTCTTTCCTTTATGA
ATTACCGAGTCTTGGGTATGTCTTTATAGCAGTGTRAGAATGGACTAATATATTAAATTGGTGCCATGGAGAGTGGAGTACTGCTATAAAGATACTTGAA
AATGTGGAAGTGACTTTGGAACTGRGTAACAGGCAGAGGTTGGAACAGTTTGGAGAGCTCAGAAGAAGACAGGAAGATGTGGGAAAGTTTGGAACTTCCT
AGAGACTTGTTGAATGGTTTTGACCAAAATGCTGATAATGTTGTGGACAATGAAGTCCAGGCTGAGTCTCAGATGGAGATGAGGAACTTATTGGGAACTG
GAACAAAGGTCACCCTTGCTATGCTTTAGCAAAGAGACTGGTGGCATTTTGCCCCTGCCCTAGAGATCTGTGGAACTTTGAACTTCAGAGAGATGATCTG
AAATTGGAACTTATGTTTAAAAGGGAAGCAGAGCATAAAAGTTTGGAAAATTTGCAGCCTGACCATGTGGTAGMAAAGAAAAACCCATTTTATGGGGAGA
AATTCAAACCAGCTACAGAAATACTGGCTATAGAAATTTGCATAAGTAAGGAGGAGCCAAATGTTAATTGCCAAGACAATGGGGAAAATGGCTTCAGTGC
ACATCAGAGACCTTTGCAGCAGACCCTCCCATCACAGGCCTGGAGGCCTAGGAAGGAAAAATTGTTTTGTGGGCTGGGTCCATGCTCCCCCTGCTGTGTG
CAGCCTCAGGACTTGGTGCCCTGTGTCCCAGTGGCTCCAGCCATGGCTAAAAGAGGCCAAGGTAGAGCTCAGGCCATTGCTTCAGAGGGTGCAAACCTCA
AGCCTTGGCAGCATCGATGTGGTGTTGGGCCTGTGGGTACACAGAAGATAAGAATTTAGGTTTGGGAACCTCCACATAAATTTGAGAGGATGTAAGGAAA
TGCTTGGATGTCCAGGCAGAAGTTTGCTGCATGGATGGAGCCCTTATAGAGAACCTCTGCTAGAGAAGGGTGGTAAAGAAATGTGAGGTTGGAGCCCCCA
CACAGAGTCTCCACTGGGGCACTGCCTAGTGGAGTTGTGAGAAGGCGGCCACCATCCTCCAGAATCCCAAATAGTAGATCCAATAGCTTGCACTGTGTGC
CTGGAAAAGACACAGACACTCAATGCCAGCCTCTGAAGGCAGCCAGGAGGAGGGCTTTGCCCTGCAAGCCACAGTGTCCAAGTTGCCTGAGACTGTGGGA
GCCCACTTCTGGCATCAGCATGACCTAGATATGAGACATGAAGTTAAAGGTGATAATTTTGGAGCTTTAAGATTTAATGACTGCCCTGCCTGGTTTTGGA
CTTGCATGGGGCCTGTAGCCCCCTTTTTTTGGCCAGTTTCTCCCATTTGGAATGGGAATATTTACCCAATTTCTGTACCCCCATTGTGTCTTGGAAGTTA
CTTTTGATTTTACAGGCTCATGGGGGAAGGGACTTGCCTTGTCTCAGATAAGACTTTGGACTATGGACTTTTGAGCTAGTGCTGAAATGAGTTAAGACTT
TGGAAGATTGTTGGGAAGGCACGATTGGTTTTGAAATGTGAAAAGACATGAGATTTGGGAGGGGCCAGAGGGCAGAATGATATGGTTTGACTCTGTGTTT
CCACCCAAATCTCATCTCAAATTGTAATCTCCATAATTCCCATGTGTTAAGGATGGGACCTGGTGGGAGGTGATTGGATCATGTGTGCAGTTTCCCCCTT
GCTGTTCTCATCCTACTGAGTGAGTTCTAATGAGAGCTGATGGTTTTATAAGGGGCTCTTCCTCCTTCACTCACAAGTGAACTCTTCCTCTCTGTTTCTC
TCTTGCTTGCTGCCATGTGAGACATGACTTTGCTTATCTCTCACCTTCTGTCATGATTGTAAGTTTCCTGAGGCCTCCCCAGCCATGTGGAACTGAGTCA
TTTAAACCTTTGTCTTTTATAAATTACCCCGTCTTGGGTATGTCTTTATAGCAGTGTGAGAACAGACTAATACAAGATTGGTGGTGATTGAAGTTATACT
GAAAGGGTTTAAAGGAGAGTCTGAGAAAAGGAAATGAATCTGCATTTATTGAGAAAGTTGATGAGAAAGTGGAATTAGAAATTCCTAGAAAGGTAAGCTG
TTGTGTGAATGATTTCCCGAGATGGGGAAGTCTCTCTACCTGTTTGGAGACAGAAAGTAGAATCAGAGGAGAAGAAGATGATGGACAGAAAGGATCATTC
CCTCTTCTAGATGCTTTCTAGTGTGTGATGTAAGCTGAATTAAAATCAGCTGTGTTGAACTCCAGCCAGAAAAAATATCTGGCATTTTGGTTTTTTGGAC
CCTACTGTGATGGTCACAGGACTCCAGGTCTCTTGGGGCTCACAGGGTCATGCCTTTCCTTGCCCGGTGTGCTTGGTGAGAAGGAACAAGTGTTTCCATG
GAGGAAATTCATTTTAGGGGTCTCAAGAGGGTCATCTTTGCAACAGAGGAAATGCCCCTTTTTCCATTCTGAAAACCTGATTTATCGAACCCTTTTATAA
AAGATGAATACCCACATATAGGCCTCTAGCAGTGTTATGTTTTTGAGATGAGACATTTTAAAAAGCGATTTTTCAATTCTAAAAATTCTTTAAATAAAAT
GCTCTTGCTGGGACAACATAGTGGGTCAACATCATTCCCATCTCTACAAGATTTTTTTTAAAAAAACATTAGCTAGGTGTGGTAGCTGTTGTCTTAGTTA
CTGGGAATGCTGAGGAGGAAGGATCACTTGAGCCCAGAAATTCATGTTTACTAGTGGGGTATGATCTTGCCTAGGCAACAGCTACAGAGAGAGACCCTGT
CTCTAAAACAAACAAACAAACAAACAAACAATAACCAAACAAGCTTTACACTTCTGTAGAAGGAACACTTCCCATTTATGACATCAGTAATCTAGGATAT
ATCAAAATTTGAACTTTGTGTTAGCTTTCAACTGTTAAAACTAGCCAGCGTTGTTACAGATCCACCTCTGAGTGACACTGGTATGCCACTCTTTGCTGAC
CACTGAACAATGGGATTTATGTAACCAATTGTGTAGATACAAACCCACTCATTCTATCCTACCCAGAGTGGTGATTTACAACACAAAAAACTACCATGAA
ACTGTTCCCATGCCTTCCTCCCACCTCAAAACTCCTTTTATTCCTGAACGGCTCCATAAGCAAACCCATCCCCAGCAAACTACTCAGTGAGTATCTTCAC
ACATGTAAGTTCCCTTATCCGGATCACTAAAAAATGAACTCATTTTTCAAAAGCCCTGACAGTCTGTCTTATTTTGATACTTCTTGTATAGTTATTATTT
AAGAAGCAACTACCCAGGCACCTTGGAGCATGTTGATTTCAGAGTTCAGTGTGAGACCCCGTGTGCCCCTGTGGGATGGTGCCAGCTGACTGCCATTTTC
CTGCTGTTTATTACTTGGGTGCCATTCCATGCAGATTGGACTCTGAGGGTACTAGAGCATATCCAAACCCATTGTCACAGTATTTGTTGGTTAATGATGT
GTTCAGGCCATGATTTTTCTGTAAAAAATTACCAGCATGCTGCTCTTAATTTTTTTCAGCCTGTCTAGTTGTTGCCCTTTTGCTCTCATGCAAACTTTTC
CTCAGAGGTGACCCTAGAAGATGGGACCCTTTGTGATGGACTACCCCAAGGCAATATGCCCCAAAAGGTCTTCATYTGGGGCATAACCCGTGCCAACACA
AAGGTACTTTCTCAATTGTGTGTATGGTGCCTCACCCAAACAATATTACAGATGCACTTGGCTTTCATCAACCTAATTTGATATGCCCCAAGCACAGCAA
TAGGACAGTTTTGCGTGGCCCTTTGGAAACGCTTTTCTTTACATTTCCAGGACCTACCATAGTTGGAGAACCACGTTAGGGCTGAAGACAGTCCTAGTAT
ATCATTGACCAACCACATAACCCCAAGGTCTGTCCTCAGCCTTCAGAAGGAACATGCTTCTTACACCGATTTCAGCTCAGTGATATGGGATTCAAATGTA
TGACCTCCAAAATATTAAGAGAATAACGTGTGTTGTTTTAAGCCACCAAGTTTGGGTAATTTGTTACAGCCATGATAGGAAACGAATGCATCCACTTTGC
CAGGTTTACCTGCTTTTATAAAGCCTGGGTTTAACCTTTTATCTAAATAATGGTCAACTCTTCCTACATCACGAGCATTTATGTGCAATTAAAAGCCATC
ATTAAATTAAGCCAGAGTATTAATATATTCATAGATTTCACCACCACACAGTAAAACATTGAAGTCAAATGATTTAGAGCAAACCACCTGGCTCACACTT
TCCCAACGGAAAAAGGTAAGGCTCAAAGTGCTGAGATGAACATTCTGTCCTAGCACTAGGAAATAATCATTGTCTGCCTCAGGCTTAAGTTTAATAAATA
GCAAATTGCATACAGATATTTACAATGATCGAAAGACAAACAGAGGTCCTATCCGTGYAGTCCCAACAATAAAGACAGGCATTGGCATAAAGTGTTTATA
AATTCTTGGGTACAGCTGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGKCAAATGTGGACTGGAA
TTACTTGGTGTCAATGSGGAGYAACTGCTCTWTGCYRTTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCAT
TCTCAATGATTCTCTTGGTGGTGATTTTTTTACCATCAACTATTTCAGTGGAAGTCGACATGGACTTGAAGCTGCCTGTCCCATCACTACCGTAGGACAT
GCAGAAGGAAGAAAGGCCCCCACTTCCCAGGGAGCCAAAGGAACGAAATCCTGTATCAAAAGAAGAAAAACCACCCTCAAAAGCTGGAAATTCACTGAAG
GCAGAGAAAAGGGGTGCAGACCCTCTGCTTCTGCTTCCCAGGGAGTTCCTCTGACCCCCCAAAATATTCTCCAGCGGGTTTCCCAAGAGGTCAAAGGAGA
ATGGGTCCYGGCCGCCAAAGAACTCCCTGAAGACCTCGGCGGGGTCACGGAAGCTGAAGACSTACTCGAAGGGGTCCTTGAAGGGCCTGCCGCCTGCGCA
GCCGCCCTCCGCCCTCGCCTCGCCATAGCGGTCATAGATATCGCGTTTCTACGCGTCCGACAACACCTCGTAGGCCTCAGCCACCTGCTTGAATCTTCTC
ACCGCTTCCTCCCTGTCCTCGGGGTTTTTGTCGGGGTGCCACTTGAGCGCCAGCTTGCGGTACGCCTTCTTGATACCCTCGGACGAGGCCTACCGGGGTA
CTCCCAGCACCTCGTAGTAGTCCACTATGCTGGACTGCCAAAGAGCCTGCGGGGCACTGGCACAGCGAGCGGCAAGGCTGCCRGCACCCGCGCACAGGTC
AGAGGCTTGGCGACCTGGGCCGCCTGGAGGGCCGCCCCTTATGACGCAGCCACATCTCATTGGCCGAGGCCTKTGAGCGCCTCGCATCCCAAGATGCAGT
GCTCCTGGGACTGGCCCTGCTCTCTGTGAGGCTCTGTGAGGCCCTGTGATGCTCCAAGACCAGGCCCSGCCCACTCCGGCCTCCAACCAGCCATGGTCTC
CAAAAAGGATGGGAAAAAGAGGTTGGGGAAAAGAGAGGGCCTTGACTTTGGCTGCCTGAAGAACTGTTTTTCTTAAAGTARGCTTTATATCAGTCTTTTT
CCTCGGCCACAGGAGGGAAGAGGGTGGTGGGAGTGAGTTTAGTCTGACCGGGGCTGAAGACATCCTRTTGTTTAGGACTGCGGTTCTCCAACGTTCCAGC
CCCGGTGCCCATTTGCTTTTGTTCATCTGGATTATGCCTATCATATGTACTGCATTAGAGATTAAAACAGAATTAAAAAGACATATTCATTGGGCAATTT
AAGAAGAATAAACCCATGACACACTAACAAACCTTTTTATGTAACTTTTTTTGAGACAAAATGTAGTGAGAAGAGTGGCATCGTTTTACAGTTTTTGCAY
CTCTCTTTAGTACTTGGCTCTATAGAGAGGTGGATTCTCATGTCAGCTTCTGCATTCTATCTATTGTGATATTACACATCCCCCATGTARCTTCTGGAAA
ACTCCACTGTACACTTGTGGGAGAATGACAATGAGAAAATCAAGTAACATTATTACGGAAATAGTTTTGACTTTGYAAAATTCTCCTGAAAAATTACTGG
GGATCCCTAGGATTTCCTGGCTCATACTTTGAGAATCGCTAGTCTAGCAGAGTAGTCCCTGGTATTCTGAAGGGATTAGTTTAGGACAACCCTCCTTCCC
CATACCAAAATCTAGATGCTCAAGCTCCTTTTATAAAATGACACAGTATTTGTATATAACCTACCCATATCCTCCTTTAAACCTCTAGTCATCTCTTGAT
TACTTTTACCTAATAAATGTAAATGCTATGTAAATAGTTGTTTTACAGTATTGGTTTTTTATTTGTATTATTTGTACTGTTTTTTTTTCATTGTTGTTCC
CCCCAAATATTTTCAATCTGCTGTTGGCTGAATCTGCAGATGTGAAGCCCAAGTATATGGAGGGTCAAATGTGCATGTTATTCACTTTTCTTGACTGCTA
AAACAACCAGGGAGATCCTCTCAGACAAAAGGAAATACAGCACTATTTACTGTATCGAAACCATTAAGACTTGCAGGCCGTGTGTATAGCACTGGGGATA
AACATGGGATGCAGTGATTATTTCCGCTAGAACTGCTATATAATGACGATGAATTTTGGGGGGACTTTTTTTGAGATCTGAGTTCTCTTCACCTCCTCCT
TATTCTCTTTTTGACACTGGATTCTTTGCTTTGATAAATTGTGGGGCAATACACTAGTAAAGGTCACTCAATTCCAAGGGGAAAATGATTAACCAAAGAA
CATTCTAACGGTTCATAAAGGGTATTAGGTGTAATGAGGATGTGTTATCTCACCAGAACAAACTTCTGAGTTTATATAACCTCTAGTTACATAACCTGAA
ACCCGGACTTGGCACTTGGTAAGCACGCAATGAACAGTCATAGTAAGCTGGCCAAGGGTAGAGTTCAGTKTGAACAAAGCAATTTGAGAACATCAAAGGA
AGTTTGGGGAACAGCAAGGGATCCAGAATGGCTAGAGGGTAAGAGGCAGAGGGAGGGGGCAAGCAGAAGGGCTAGAGAGGAGGAATGAGCTTRGACAGGT
GGGCTGGGGTCTATCCCAGAGTTTTGAGAGCAAGGCAGAGGACTCTGAATTTTCTGTGCCCAGGAAGCTGCTGACCAAGGTTCCAGAAGTGGTGGTGAGG
TGGGGTTATTCAGGTGGCAGCCGATGCAATGATTCAGAAGGGACAGCTGGGGGTTGGGGGACAGGGGGGCTGGGGCCCTGAAATGGGACCATGRCAGCTG
GGTCTGAGAGACAGTGGTAGAAACATCCAGATTCAGCACTTACTTGCTGGCTTGGATGCAGGGTCTAGAACGAAAAGAGAAGAAAAGTCACTTCTATACA
GAAACATGTCCAGAGCGCTTACTGTCTCCAAAACCATGGACTGGCACCTGAGTGATAGCATGATTCCAAAGCCAAAATCTTGCCTGTAAGGAATATATAT
ATATATATATATATATATATATATATATATATATGTATATATGATATAGCTATAGTCTAATAGCAAGGACAGATATGCAAACTGCTAAAAGATACAAGGC
AGAACAGAACAAAATGCTGTTTTTCTGGGATTTTGGAAATTCAAGGAATTCAAGGGATTCAAGGAAGGTGGCTTTGCTTCCCGGGAGGGTCCTGTAGATG
ATCTACAGGGCACTGGACATGTTTATGTTGCTCCTTTAGTAATAAGCCTGTCATTCTGATTTGATGAAAGGAGATGAAAGGAGCTGGKAGTGTGTCTGAT
GGTGGCCTACTAACTTATGTCTTCAGCTTAAAAAGAAAGTAGCTTCAAAAGGGTTCCAGAAACACTTTCCATGGACGTGTCACTCTTTAGCAGCCCCCAA
AGCAAGACCATCATATTGCTGCCCTGCTGTGTGATTTCTCAGCCCCTAGAGCACCATCCCCTGTAATTGCCTGGTCATGAGTTTGTCTCTGTCTACCTGA
CCCCTCCTTTCAGGCAAGGACCATTTCTAACTTGACTTTCTGGGCCTAGTTCCTAGCATAGTGACTGCCATCCAGTAGGGCTCACACGTTCCATAAATAT
TTGGCAGATGAGGGAATTAGCAATGGGTTCTGCTTTGGTTTCAGAGCAGATATTAATTGGATTGCTTAGTAGTGGTTCTCTGTTGTAATTCATGAGCATG
AATGTGGATTGCCCACTATTCAGATTAGTAAGTATTTCTTGGTCAAGGGCAGAGCTGTGGCCACAAACCATCCAGGTACACAGCAGAAGCAGCCTCAAAA
AGCTTGGAAGCTCTGCATGATGCAGGAAAGTCATAAAATCATTACAGTGGTGACTTATGTGTTTATAGCCCCTTTACTGTCTATAATCTGCAAATGAACT
CACACAGCATTGGGACTTTGGAAGAATTATCACCCTTAAGGTTTAAATTAAACTGTGAATTTCAGAATTTCTAATAAGGACACAACAAAGAGTGAAAGCA
TTGCTATGTCTATTCTGCTTGCCCAGAATCTTGGTCCTAAAAAATGAAGAGTGTTTGGGTGTGGGGAGGAGCTTCAGTGTGCATGTGCATGCAAAGTACC
TACTCTAAGGAGAAGAATGAGAGGGTACCCTAATTACCTGTTAATATGTCCCATAGGACACCAAAACTCTAGTTAGCTGTTTCTCTATGATCCTCTAAGC
ACATCCCCAAGTATGGCTGGCCAGTGATGTGTATGGTTCAAATGTTGGGATCTGTGCAGTTATCTTGGAATTGTATAGTACAGCAGTATATCCCCCCCAA
AAAGAGTGTAATACTTCCAATTCTGGCTGCACAATACTTGCCCCATAGTCCATGGTCAATAAATACAAATTTGAGTTGTTTTTGCTCATCTTTCCCTTTT
GACTTCAAMTCAGTCATCAGAATTTCCCCAAATGCCTTTCCCCTGGATCTTGGGCCAGTGGAATGAGTACAATTTAACTTAATTGAATTTGCTTATCTAT
TTGGTTTCCTGTTGTGAACAAAAGTTCTCTGAAAAGGAATTTGGAAGAAAGAGACTTTGTTCTAGTGAACAGTTTGCAAACCAGGGAGTTACAGCCTCTG
GTACGCAATGAAGGTGAGTTCCACAGAACACAAGGCAGGCAGGTTTCACGGCAAAAAGTTCCTTCCCAGGTTCCCAATCAGGTCCATTTATGCAAATGAA
GGATGGAAACTTGCTTAGTTCTTATTGGTCACTGCAGCTGCATTCTGATTGGTTGATGAAGCTRAGCCCTGAGTGGCTGAGGTGGGTGAGCTTTAATTGG
TTGGTTCAGGTGAGCGCTGAAAATCTCAACTATAAAAAGGTACAGGTTTTCAGGATACTCAGAGTAACCGTGTGACCTGTAGTAAGCAAAGGGCCAGTTG
GCTCTATTTTAAATCCAGGCCCAGTTAGCCACTCAAGATCTATCTTACAGGACTGGCTCTTTCAGGTTCACACTAATAAAGGCCTGTCCTTGGGGAAGAC
TTCTGTTCACATGCGCTCCAGTGAATTTCCCTTTCTGGTCATTCTCTACCCCAGCACGCCCCCCACCCCCGMCCCGCCCCACCCACCCACCTGTTCATTT
CCTTCTTAGCATGCTTCACGATTTCTAAGTTCCTGCTCATGTGTTTAAATTGTGAGTCTGGCTCACCTCATGGCGCGTGCTCGTGTGGTGGGCTCTGCTG
CAGCCTCAAGACCCCACACTGTGCTGGACTCAATAAATATTGTTGGACGAAGGAATGAAACACATGATACAAGTGAGCAGGCAGTACCGGGGGAGCTGTG
GAGTGGGCACTCTTACAGGTTTCCATGGCGAAAGCGGGGGTACAGTTGTGTTCTTTTCTTTCTAAAAGGCTTTCTAAAAAGCCTTCTGTTTAATTTYTGG
AAAAGAAGCCTAACTTGTTCACTACATAGTCGTCCTTCTTCCTCTCTGGTAACACTTGTTGGTCTGTGGAAATACTAATTTAATGGATCCTGAGGTTCTG
GAAGTACTTTGCTGTGTTCACTCAAGAATGTGATTTGAGTATGAAATTCCAGCCAGTTCAACTGTTGTTGCCTATTAAGAAACCTAATAAAGCTCCACCT
TCTTTATCTCTGAAAGTGAACTCCCTGCTACCTTTGTGGACTGACAGCTTTTTATAGTCACGTGACACAGTCAAACATTAACTTGGTGTATCGATTSGTT
TTTGCCATATATATATATATAAGTAGGAGAGGGCGAACCTCTGGCAGGAGCAAAGGCGCCATGGCTGTGGAGTCCCAGGGCGGACGCCCACTTGTCCTGG
GCCKGCTGCTGTGTGTGCTGGGCCCAGTGGTGTCCCATGCTGGGAAGATACTGTTGATCCCAGTGGATGGCAGCSACTGGCTGAGCATGCTTGGGGCCAT
YCAGYAGCTGCAGCAGAGGGGACATGAAATAGTTGTCCTAGCACCTGACGCCTCGTTGTACATCAGAGACRGAGCATTTTAMACCTTGAAGACGTACCCT
GTGCCAYTCCAAAGGGAGGATGTGAAAGAGTCTTTTGTTAGTCTCGGGCATAATGTTTTTGAGAATGATTCTTTCCTGCAGCGTGTGATCAAAACATACA
AGAAAATAAAAAAGGACTCTGCTATGCTTTTGTCTGGCTGTTCCCACTTACTGCACAACAAGGAGCTCATGGCCTCCCTGGCAGAAAGCAGCTTTGATGT
CATGCTGACGGACCCTTTCCTTCCTTGCAGCCCCATCGTGGCCCAGTACCTGTCTCTGCCCACTGTATTCTTCTTGCATGCACWGCCAYGCAGCCTGGAA
TTTGAGGCTACCCAGTGCCCCAACCCATTCTCCTACGTGCCCAGGCCTCTCTCCTCTCATTCAGATCACATGACCTTCCTGCAGYGGGTGAAGAACATGC
TCATTGCCTTTTCACAGAACTTTCTGTGCGACGKGGTTTATTCCCMGTATGCAACCCTTGCCTCAGAATTCCTTCAGAGAGAGGTGACTGTCCAGGACCT
ATTGAGCYCTGCATCTGTCTGGCTGTTTAGAAGTGACTTTGTGAAGGATTACCCTAGGCCCATCATGCCCAATATGGTTTTTGTTGGTGGAATCAACTGC
CTTCACCAAAATCCACTATCCCAGGTGTGTATTGGAGTGGGACTTTTACATGCGTATATTCTTTCAGATGTATTACTTTGGATCGATTAACTAGCCCCAG
ATATATGCTGAGYAAGCATTCTGAGATAATTTAAAATGCCCTCTTTTGTTAATTTTTGACTCCTAGGTTTGAGTCTGTCTTTGGCATCATCTTCTGGATG
ATTTCTTGGTATCTGAGATTTCGGGAAAGCATTCCTTGGACATTTTACTCTGTGTGCTCCAGTGGATAGTAATCAATTAGAAACAACAAGCTGTTAAATG
CCATAGGCACAGAATGCTGGGTTTGGGGCACCCTGCAGAAAACTCAGTTGAAGCCTGCACCTTGCCCTGGATTCAGTCAGGCAGGCAATGTTCAGGACTG
ATGAAATCATTCTTTGATGATGATAGATCCTGGAAATGAAAGTTGCCTTTGTGACCCTGGTTAAAGCTCCAGTTTCTAAATATTCTGATAAGAAGCTAAA
TCCTGCAGTCCGTTCTCTTCTAATGAGTGAATCACCAGACAGTCAGGTTCTGACATGATACAGAAAGGTTGTAGGTTTCATTCTCAAGCTATTAGGTTTA
TTTTTCCCCTACAGAGTTTGAAGTATGCAAAAAGTAGCATTCACATCCTCATCGAAATCTCAGCAGAGGATAGAAAAGAACAGGAGAGGCTCCTTCAGAT
GGAGCGTTAGGGAATTACTCTTTGAGGAGGTGACATTTCAGAGAGCGTTCATTCACTTATCCTGCAAAGATTGGCTGAGGATCTACTGGCAGCCCAGGCA
CTTCCCAGGTGCTGCGTCTGGCTCCCATTAAGGGGACTGATATCACCTTCGGAGGTGACCTTATTTCCACTATACCTCCAATGTGATTTGTATTTTATTT
TTTTTAATTTTCTGTGCATTTTCCTTCATAGCACATCAAATATGGCAGCCATTTCACTTAGATAGTTGTTGATTGTCCGCTTCACATCATGAGCCATGTG
GGGACCTGTGTGACTTTGCATTAATCACATCCACTGTATGCGGCGTCCTCAACACCTGCCAATGGGTCTGCATGTATTTGGCGCCCCATAAATCTCAGCA
CCTAAGGCACAGAATAGGCACCCACCGAATATGTGTTACATTAATGAATGAGAAGAAAGGTGCCAACCGAGGTCTAGTTAATGGGTCGAGAGTAATCCAC
AATAGCTCTTTTTAGTTCTTTGTACTCCAGCTATTACATACCAATATGTATATAGAAACATATGTAAAATTTTTTGGTTGCTTTTTCTACAAAATAGAGT
AACAGTGTATTCCCACTGCCCACTTACCGATAATGTCATGGATATCACTCCAGTTTTAAATGCTATTACTTTTTAAACTATGAAATAGTATTTCATGGTA
CTTGTGTACCACAGTGTATTCTGCTGGAGATCTAGTCTAGTTCCCCACAGAGGAACATTACAATTTGTATTCCAGGAGTTTTGTTGTTGTGACCTCAAAC
ACTTCCTTTAAAAAGATAAGCTATTTTGTAGTTTAAAAAACATTTGTTCTGTTTCTTTCTCATTCATCTTTTCTTAAGTATTTTACACGGTTTTTTTTTT
TTGGTCACTACTGTGAATGTGTTATTTTTTTGCATTTCTATCTCTAGCTGATTATCTACTCATTACTCAGCTATCTCATCAAAATATTGATTTTCATAAT
AAAAAATAATAGGCAGTCATTTGCTGATAAAGAAATTTTGGTTTCTTCTCTTATAAATTCCATGCCAAATATCAGGGCTATTGAATTTATTAGAATCTCT
AAAAACAGTTGAATAATTCTGGCAATAGGAAAGATGCCCGTCTTGCTGCTATTTTAGTGGAAATTGATTATCATTTCATTATTTTGCATTATGTTAGCCA
TTGTTTTCTGAACAGGCTTTATTGATTTAGATAATTTCCTTCTTTGCGTGAGGATGTTTGTAGGAGAGGCACCGAACTTTATCAGCTGCCTTTCTGGCAT
TTATTGATATAACCATAAAAGTCTAAGTGGTGAACTGTGTTGACTACATATTTGTTGTTGCCTTGTTTGGTGCAGTCAGGCTTAGGTGTGAAAATATGTT
TTTAAATTGTACCTTTTAGTAACCTGTTTTGTCTTGTTGCATGTTTTAATCTGAAATTCCACTTTTTGGATATTAATATTACCACTTCTGTATTATTTTT
GTTTACATTTCCCTAGCACATCTTTAGTACTCCTTTGTCTTCAAGCTTTCTTCCTTTTTAAACAACATGGCACTGGTATTTTTAATCCAGTCAGGCAGTT
GCTTTAATAAGTGCATTTTGCCTATTTGAATCTAACAATTAATAGATTTGATTGTAACTCTCTCAGTTTACTTTATGTTTAGTTGACTTTGCCATTCTCC
TTTTTCCGGATTTCTACTGGTTGGTCAAGTTACTGTTCTTATTTTCTCTTTCTTCCTTTGTTAACTAAAAATGCCACTCTGCACTACCATTCCTCTTGTG
TTGATGGTCCTATTCTCAATACTCTTGATAAAACTCCTGAACTTTAAGAATAAAGATAAAACTTTTATTGCACAAAGAAGTCCATAGAGAAAGCACAACC
TGGCATTGGCGTGTCTTTGGTGTGTCTGAAGGAAAAGAGATAGTGGAACAACATTGGGAGAAAAGGAATGAAACTCAAGAATTCCAAGATGTTCCTCCCC
TGCCAGGGTAAGATAGCAGTGGTTCACAGACAATCGCAATGCTGGGTCTGAGAAAAATAACTAAACAGAAGATTAGTGAGGACCAAGGCTTCGAGATGGC
CAGGAGAGGAAAGCTTGGGAGCAGGGAAGGTTGAGATATATGTGGGTTACTGGGAATGCGTGATGKTGAAGTCACAGATGACCCACATGKTGTCTAAGTG
CTAAAGAAGAATTCTGGGAAAATGAAATGCATTTGGGAAGGGAAAATCKAATTAAAAGCCTAAACTAAAAATACAAAATTCTTGGTAAAGTTTAGGAGTT
ATGTTAAATGTCTCATTTTGGCTGGTGAAGTCTCATCAGAACAGGGAAATTCTCTCATTCAGGGGCATCTCATCTTTTCTTTGAAGGGAATCAATGGTGG
GGGATTGGAGTGTTATTTTCAGTTAATATGTTGCTTCACTCTTTGGTCATTCCGGTAACTGTGAAGTCAGGGTGAAGTTTAAGGGAAGCTTTGCCAAGTA
GGGGATGGACTTCACCTTTATTGAGCCTCATAGTAGCTGGCTCAGGTAGGAGTTGGCCGTGATGACAACTTCTCTGCAGTTTGCCCTGCGTGAATCTCCA
GATGAACTTTTGTGCCATTTAAACTTTCGTGATCTCCTGCTATTTAACTTCGAATGTTTATGGACCTGTGGGTTCAATTTTGTGTGAATCACATCCTGCT
GATTGCTGAGTGGGCGTGTGGGAGGGTGTGCCTGGAGGAGAACTTAGACTCGGCCTTTTCCAGATRAGCTTCAGTGTAAGAGTGGGTTTCATGAAGAGCA
AAGGTCCTAGGAAATTTAAGTAAGCCATTTACCAAYGCTCAGAAGAAAGAACTTGAAGAGCACTTGGAAATGAGCTGTGTCTCCCCAAGAAAGAGGGAGA
GAAAGAGGGGAGAGATGTGGTGCAGACCCTAGGGAGGAAGGAGTTCAGAAAAACCATCCTCAGGGTGTTCTTGCTACAAACCAAAAAAYGCAGCATGGTG
GTGGGGAGGATGACTCTGTCCTCCCTGACTTTTAGATGAGSSMAAGGGAAAAGGCAAAGACAAAGCCCTTAAGAGCCAGAGGACTCACGAGGGCCTGGGG
CTGGTGAGAGTGGCSGGGAGAGAGGGCTCACCTTGGGAGAAGGATGGTCAGTGTCTGGGGCTTTCCTGGTCATGTTCCAAAWYAGGCTTGGCAGGAGTYC
TGCTGKGCAAATTGCGTTTGCTGAGCCCTGTCAGAGGTCTCCTGTGTCTCACATYTAGGGTGACCAGCATCCTGGCTTCCTCAGGACTGTTCAGGTTTTA
GCACTGAACATCACATGTCCTAGGGAACCCCTCAGTTTGGGCAAGCCCTGCCACATCACACAATCATATTAGTGCCCTCAGTATTCTTTGCAAACATAAA
ACCATAGACTCAGTAATCCCATTACTGGGTATATACCCAAAGAAATATAAATTATTCTACTATAAAGACACATGCACATATTTGTTTATTGCAGCACTAT
TCACAATAACAAAGTCATGGAACCAACCCAGATGCCCATCAATGGTAGATTGGATAAAGAAAATGTGGTACATATACACCATGGAATACTATGCAGCCAT
AACAAGGAATGAGATCATATTCTTTGCAAGGACATGGATGAAGCTGGAAGCCATCATCCTCCACAAACTAACACAGGAACAGAAAATCAAACACCGCATG
TTCTCACTCATAAGTGGGAGTTGAACAGTGAGAATGCGTAGACGCAGGGAGGGGAACAACACACACCAGGGCTTGTGGSGGGGTGAGGGGTGAGGGGAGG
AACTTAGAGGATAGGTCAATAGGTGCAGCAAACCACCATGGCATATGTATCCCAGAACTTCAAGTAAATAATAATAATAATAATTAATAATAATAATAAT
AATAAATAAACCCATAAAGCCATTTGAGAGATTCTTGGGGGATTCATTGGACCACTGAAAATCTACAGTGAGAAAAGAATTGCCATGTTGATGAAACAGG
AARACTTTCCTTGTCCCCCTCACAGAGCATGTGACAGCGGGAGGGGCTCACTTTCTCAGTGCGCCACTGCTCAAACCTCTAGGGGAGCATACAGACGGGC
AGGTTGTGGGGCTCTGACCTCACCGGCAGTGTYTAGAGGTGGATGTTTACAGCTCCTGAAGCTCCAGTGGGCGKGGGTTATGGCCTTCTTTTAGTTTTGC
CCTCTATAGTCAGCTTGTGTTAACCAGCTCAATTACACCCTCTACCTTGTCGCAAGGACAGAGGGCTTTCTGTATCCTGGGGGCTTGCCTTGGTGTACCA
GAAGAATCGAATCCCACCTGGGCTTGGAGAATGAGTGCAAGGATTTATTGAGTGGATGTAGCTCTCAGCAGATGGGGGAAGCCAGAAGGGGATGGAATGG
GAAGGGTTTCCCCTGGAGTCAGACCGCTCAGTGGCCCGGGCTCGGTGGCCYGGGCTCGGTGGCCTGGGCTCTCCTCCGACTGCCTCAGCCAAACTCCGCG
TTGTTCTGCTGGTCAGTGGCCTGCCGGTGCCTGTTGGTGAGTTCTTCTCAATGTCCAGCTGTYCTTGCGTCCCTCCGCTGATGTGCTCCTCCCGATGTCC
AGCTACCTGTGTGTCTGCCTGCTAGGGTCTTGGGGTTTTTATAGGCACATGATGGGGGCGTGGCAGGCCAGGGTGGTTTTGGGAAATGAAACATTTAGGC
AGGAAAACAAAAATGCCTGTCCTCACCTAGGTCCATGGGCACAGGTCTGGGGGTGGAGCCCTCGCCAGGGACCACACCCTCTTCTACCCAGCACTTCCCT
TCCCTACTTCCATATCATTTAAAGGGACCACGCCCTTCCCAGCTCTTCCCTTCTGTATCACTGATGCCTTGCTCTGTGTTCTCTAAGTGGAATTATCACT
GTGTGTATGTACAGGTGTGTGCATGTGTGTGCATGTACCTGTGCTTTTCTTTTGGAAAACTAGCACATTACCTGGATTTTGCATCTCAAGGATAATTCTG
TAAGCAGGAACCCTTCCTCCTTTAGAAGGAAGTAAAGGAGAGGAAAATGMTGTAAAACTTACATATTAATAATTTTTTACTCTATCTCAAACACGCATGC
CTTTAATCATAGTCTTAAGAGGAAGATATCTAATTCATAACTTACTGTATGTAGTCATCAAAGAATATGAGAAAAAATTAACTGAAAATTTTTCTTCTGG
CTCTAGGAATTTGAAGCCTACATTAATGCTTCTGGAGAACATGGAATTGTGGTTTTCTCTTTGGRATCAATGGTCTCAGAAATTCCAGAGAAGAAAGCTA
TGGCAATTGCTGATGCTTTGGGCAAAATCCCTYRGACAGTAAGAAGATTCTATACYATGGCCTCATATCTATTTTCACAGGAGCGCTAATCCCAGACTTC
CAGCTTCCAGATTAATTCTCTTAATTRGAACCTTAGATTTGGCTTTTCCCTGCCACTTCCCAACTATTAATCCAAAGGTTTTTTTTGTTGTTGTGGTTGT
TGTCATTGTTTTCAATTTGACTCTCAAATACTCTATTAAACTATGATCCACCACACTCAGAAGTATCATTTTCTCTAAGAGACTCAAAAGTGTATTAGGG
AGAATTTATTTAAAAATAAAATAAATGGGATATTGTTTCTTCATRTTAAATAGAAGTATTTCTCCAAAAAGCTGTTGGTTAGAACACTGAATTTATGTCT
TACATTTCTGCTCTTATAGTTCYGCATCCACTTGTTTCATTAAGCAAACTTTCCCTTAAAGTGCAGGAAAGTGAAAAAATCCTAAGTGCACAGCTTGATA
AATTATCACAAATTCACGTAGTGCATACACCCTTGTAACTAAACCTCCAAAACAAGATGCCGGAAGTTGCCAGTCCTCAGAAGCCTTCACAGTTACTGAT
CCTCCCACTCTGTTAAAGACTGTTCCTTCAGAGGACCCCYGTTTTCTAGTTAGTATAGCAGATTTGTTTTCTAATCATATTATGYTCTTTCTTTACGTTC
TGCTCTTTTTGCCCCTCCCAGGTCCTGTGRYGGTACACTGGAACCCGACCATCGAATCTTGCGAACAACACGATACTTGTTAAGTGGCTACCCYRAAACG
ATCTGCTTGGTATGTTGGGCGGATTGGATGTATAGGTCAAACCAGGGTCAAATTAAGAAAATGGCTTAAGCACAGCTATTCTAAAGGATTGTTGAGCTTG
AAAATATTATGGCCAACATATCCTACATTGCTTTTTATCTAGTGGGGTATCTCAACCCACATTTTCTTCTGCAAATTTCTGCAAGGGCATGTGAGTAACA
CTGAGTCTTTGGARTGTTTTCAGAACCTAGRTGTGTCCAGCTGTGAAACTCAGAGATGTAACTGCTGACATCCTCCCTATTTTGCATCTCAGGTCACCCG
ATGACCSGTRCCTTTATCACCCATGCTGGTTYCCRTGKTGTTTATGAAAGSATATGCAATGGCGTTCCCATGGTGATGATGCCCTTGTTTGGTGATCAGA
TGGACRATSCAAAGCGCATGGAGACTAAGGGAGCTGGAGTGACCCTGAATGTTCTGGAAATGACTTCTGAAGATTTAGAAAATGCTCTARAAGCAGTCAT
CAATGACAAAAGGTAAGAAAGAAGATACAGAAGAATACTTTGGTCATGGCATTCATGATAAAATTGTTTCAAATATGAAAACATTTACGTAGCATTTAAT
AGCGTTGTTTCAAATATAAAAACAAATACATAAAAATCTGGATTTTTATTTCTTCYTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACC
TAGGCTGGAGTGCAGTGGTGCAATCTTGGCTTACTGCAACCTCCACCTCCCACGTTCAAGCAGTTCTGCCTCAGCCTCCGTGTAGCTGGGATTACAGGTG
TCCACCACCACGCCCGGTTAATTTTTGTATTTTTTAGTAGAGAAAGGGTTTCACCATGTTTGTCAGGCTGGTCTTGAACTCCTGACTTCAGGTGATCCAC
CTGCCTCGGCCTGCCAAAGTGCTGAGATTACAGGCATGAGCCAGCGCGTCTGACCTGGATTTATAAATAAGATAATTTAGAGGTTATTATTCACTTTATA
AAAGGATTCTTTAGTTTCTATATAATTTATCATATAATTTATTTAGAATTTTATTTCCCCCATTAGATTTAAAACTCCAATTTAYATAAAAAGTTGCCAT
AATAGACATCTGATCCATAAGTTTCCTGCACAGAAAGAAATACTCCATTATAAGAAGCATAGTATCTTTAAGAGAAAAACAACTCAAATGCTTAGAAGTA
CAGCTTTTTGCAGCACTGGAACCTGTGAGAAATTTTGTCCATGGAGTTTATGAATGAAGGAGCTATAAGATATCACAGACAAAGTCTTAGAATAAGAGCA
AAGGAAAATTTGCTCAAATGTGGCCCTGAAAACGATTCAAAGGGCAAATGATTTCTGGATTAAAGTTAGTATATTACTGTCAAGCTCACTGGTAATAGGC
TTATTAGAACCTTATGGGAAGAAGTGGTGGCCAGTGGTAGATTTCATCCGACAATAGATACTGTGTGCATATGTGCGTGTGCGTTTGTGCATGTGGCTGT
GCTCATGTGTGGGTGCACACGTGTGCATTCATATGCGTGTGTGTGTGTGTGCGTGTGTTTATGAGAGTGTCCATTGCTTTCTCCCATGGTTACCTCCTTT
AGAAAGAAGCAGCAGTCAGGAAGACAGATGTGAAGAGCTGGAGCATGTTCAGATGAGAGGAGACGGAACACGGGGACACACCAGCTTGAGCAAGGGACAA
CAGGGGAGGACTGATGACTGACTTCCCACCTTTGAGGTGCTAATGTGTGTGTGGTGGCACTGGATAAAAGATCAATGTTGGCTAGGCACCATGGCACACG
CCTGTAGTCCCAGCCACTCTGGAGGCTAAGGCGGGAGGATTGCTTGAGCCCAGAAGTTGGAGGCTGCTATGAGCCGTGATCATGCCACTGCACTCCAGCA
ACCTGGGCAACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAATGAAAAGTCCACATAACCTGAGCATCATGTGCCCAGAGCGTTGGGTGGTGTGGT
CCCATTCCTTCCTTCCAGCGGCTTCTTCTGGCCACCTCAATGTCAGGATGTCCTGCTCACATATCAATACCATTAAAACCTGACTTCTTTCCCKGCACTG
TTGAAGCTCCTTCTTGAGGCTCACATTATGGATATAATTTTGATTCTTTCTTCAGTGGTATAGATAACTACTTGTAACCTAAGAACAACTTGGTGAAAGT
CCTCTAATACATTATTTTTTAAAAAAACACAAATCAATGAGCTCAACTTATTAACTAACTTTCATCTATTCATTTTTGAGCCATCCCTGTCTGATTGTGA
ATCTCCATGATTCCAACACTCTGAGCTGGGGATAGTGCCTACACAAAATAAAAAGAAGTGGAAAATTTTCAAACATCAGTTTATGCTGACAACCAGGCCA
TAATAGGTGCTCAATTACTATTGAATGAATGAATGAAAGTTCTGGCCAGGTACGGTGGCTCATGCCTGTAGTCCCAACACTTTGGGAGGCCGAGGCAGGT
GGATCACTTGAGGTTAGGAGTTCGAAACCAACCTGACCAACATGAAGAAACCTTATCTCTACCAAAAAAATATAAAAAAATTACCCAGGCATGGTGGTGT
ATGCCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGGAAAATCACTTGAACCTGAGAGGCGGAGGTTGCAGTGAGCTGAGATTGTGCCACTCCACTCCA
GCCTGGGCGACAGAGTGAGACTCCGTCTTACTTAAAAAAAAAAAAAAGAAGGTTCCAAGAAAATTCATCTTAAGGTTTATGTAAAAGGAAGATGATATTT
AACATGATTCATGGCCAAGTACTAATATTACATTATAATAATGTTTCCAAATAACATTATAGATATGTTTAAAGACAGTGTATTAGGCTGTTCTTGCATT
GCTGTAAAGAAATACCCAAGACTGGGTAATTTATAAAGAAAAGAGGTTTCATTGGCTCGTGTTTCTGCAGGCTGTACAGGAAGCTTAGTGCTGACATCAC
TTGGCTGCCGGGGGAACCTCAGGGAGCTTTTACTCATGGCAGAAGGCAATGCGGGAGCTTGCATGTCACATGGCAAAAGCAGGAGCGAGAGAGAGTTGGG
GGGGAAGGTGCCACACACTTTTTAATGACCGGCTCTCACAATAACTCATGAAAACTCACTATCAGGAAGACAGCACTAAAGCACAAGGGATCCGACCCCA
TGATCCAAACACCTCCCACCAGGCCCCATCTCCAGCACTGGGGATTACAATTCAACATGAGATCTGAGTGTGGACAAATATCCAAACTGTATCAGTCAAC
AGCGATCATAATTAGTCCTGAATAGGAGTGCCTTTTTTTTTCTTTCTTCTCCCTTTTCTTTTCTACTTCCTCCTCCTTTTCCCTCTCCTCTTCAATCTCC
TCTTCATTCCTGTAGCACCAAGGGTTGAAGCACCTAACCCGTTTTGGATTGAGATGTTCTGATTGGGCAATGAACACTGTCCAGAATAAACAGAAATCCA
TTTTGCACTAAGTGGCTGCACAGACCCTGCCTCATGCTAAATCTAGCACCCAGATAGTTTAATGTTTCAATGACTGAATTACAAATATATCATCACCTTG
GATTTGGCACTTACAAATGGCTGTTAATTTGGCCAGAGGTGGTTGTTTACAACTTCAAATAGGAGACTATTCATAATTTCTGACGTGACATTTTCCTTTC
TTTATTTTACTGTATGAAAATATAATGAAATTTCTCACAAAATATCACTAAAAAGAAAAGAAGAAGAGTAGGAAGCAAGGTTAAAATATTTCTAAAATAT
AATTTTGGTCTTTCTTTTTCTCCCTTCCTTCCTCCGTCCCTCTCTCCTTTCCTCTCTCCCTCCCTCCCTCCCTCCCTTCCTCCTTTCCTTGCTTCCTTCC
CTCCTTCTCTTCCTTCTTTTTCAAGAGATCAATAACATTTATTAAGAATAAGTTTCTTAATTATAACCTTTCAGGTGATAATAGTAACACAGCCTGGGCA
ACACAATAAGACCTTGTTTCTACAAAAAATTTAAAAATTGGCCAGACATAGTGGTGCATGACTAATTCCAGCTACTCTGGAGGCTGAGGCAGGAGGATGG
CTTGMGCCCAGGAGTTGGAGGCTGCAGTTAGCCATGCTTGTGCCACTACACTCCAGCCCGGGCAACAGGGCAAGACTCTGTATCTAAAAACAACAACAAC
AACAATAATAGAAACAGGTTTCCTTTCCCAAGTTTGGAAAATCTGGTAGTCTTCTTAAGCAGCCATGAGCATAAAGAGAGGATTGTTCATACCACAGGTG
TTCCAGGCATAACGAAACTGTCTTTGTGTTTAGTTACWAGGAGAACATCATGCGCCTCTCCAGCCTTCACAAGGACCGCCCGGTGGAGCCGCTGGACCTG
GCCGTGTTCTGGGTGGMGTTTGTGATGAGGCACAAGGGCGCGCCACACMTGCGCCCYGCAGCCCACGACCTCACCTRRTACCAGKACCATTYCTTGGACG
TGATTGGTTTCCTCTWGGCCGTCGTGCTGACAGTGGCCTTCATCACCTTTAAATGTTGTSCTTATGGCTACCGGAAATGCTTGGGGAAAAAAGGGCGAGT
TAAGAAAGCCCACAAATCCAAGACCCATTGAGARGTGGGTGGGAAATAAGGTAAAATTTTGAACCATTCCCTAGTCATTTCCAAACTTGAAAACAGAATC
AGTGTTAAATTCATTTTATTCTTATTAAGGAAATACTTTGCATAAATTAATCAGCCCCAGAGTGCTTTAAAAAATTCTCTTAAATAAAAATAATAGACTC
GCTAGTCAGTAAAGATATTTGAATATGTATCGTGCCCCCTCYGGTGTCTTTGATCAGGATGACATGTGCCATTTTTCAGAGGACGTGCAGACAGGCTGGC
ATTCTAGATTACTTTTCTTACTCTGAAACATGGCCTGTTTGGGAGTGCGGGATTCAAAGGTGGTCCCACSGCTGCCCCTACTGCAAATGGCAGTTTTAAT
CTTATCTTTTGGCTTCTGCAGATGGTTGCAATTGATCCTTAACCAATAATGGTCAGTCCTCATCTCTGTCSTGCTTCATAGGTGCCACCTTGTGTGTTTA
AAGAAGGGAAGCTTTGTACCTTTAGAGTGTAGGTGAAATGAATGAATGGCTTGGAGTGCACTGAGAACAGCATATGATTTCTTGCTTTGGGGAAAAAGAA
TGATGCTATGAAATTGGTGGGTGGTGTATTTGAGAAGATAATCATTGCTTATGTCAAATGGAGCTGAATTTGATAAAAACCCAAAATACAGCTATGAAGT
GCTGGGCAAGTTTACTTTTTTTCTGATGTTTCCTACAACTAAAAATAAATTAATAAATTTATATAAATTCTATTTAAGTGTTTTCACTGGTGTCGCATTT
ATTTCTTGTTAAGTTGCATTTTCTAATTACAAAAGTAATGCATGATTATGACAGAAAGTTTGGAAAATATAGAGGTTCACACACACACGCCTTCATTGCG
TGTGCATGCATAAATGCATGAGAAAAGAAAAATAACCAGTAATCACATCGCCCAGAAATAACCCCAGTTACAATTGTGGCAAATACACATACTTATAAAT
ATTGCAGATATATTAAGTATACCTAGTATTTGCTAACACTCTTTCTTCTACTCTGTCATGAAGATTCTCCCAAGGTGTTTTTGTATAATATTTAATTCAT
TTTCAGTGGCCAAGCAGTATTCTACTTCATGGATATACCAGGATTTATTTAACCATAACTTCTGGTTGGATTCACTCTTATTATTTTGTTTAATTAAAAA
AAAAAGACCTCGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTAAGATCGGGAGTTTGAGACCAGC
CTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAATACAGAAAATTAGCCGGGTGTGGTTGCCAGCACCTGTAATTCCAGCTAATTGGGAGGCTGAGGC
AGGAGAATTGCTTGAACCGGGGTCAGGGGGTTCGGAGGTCGGAGGTTGCAGTGAGTCCGGATCATGCCACTGCATTCCAGCCTGGGTGACACAGCCAGAC
TCTGTCTCAAAAACAACAACAACAACAAAACAACAACAACAACAACAACAAAAATCTCACTGGACATCCTAGTAGCTAAGGCTTTCCACATATTCATGAT
TACTTCTGTTGGAAAGTGCTTTACAACAAATTGCTAGTTGTCTCAGTCTGGGTTCCCCTGAGATGAGGATTCAAGGGCCAGGAGTTTATTTAGGAAGTAA
AGGAAACACTGATAGAGGAGTGGCAGAGTGAGAAGGGGTGATGGTCATCCACAGCTGGCTCTCTTGTGGTCAATCGGAGCTTAATCCTGCTGGGTGACTC
TGGGAGCCAGTGGAGAAAAGACACCCCAGACTTATCCCAATGAGGAACACGGCTGTTGGGTGCCTGAGTACTTGCCTCGTCAGGGATTGAAACGTACTCC
CAGGTAGTAGTAATTTCTCTGCCCTTCCATTAGGCCACAAAGGGGGCTCTGACAGAGAGAGCTGACGAGAAAAAACACACGCCCTTGTCACTGAAGAGGT
ACACAGGGGATCTGTGTGGGGCACCACCTGCACTGCTACCCTGGACAAATAGCTTAAGAAATCCCCACACTGCATCCCCAAACTTACTATCAGCGTGTGA
GGGAGACAGGTTCCCACACCCTCATTAGCACAAAGTACTATCTTGAAAAAGAAAGCCTGTCAGTTTGATAGGAGAAAAGCAGGATCTTGTTTACAATGTG
CTTTTATTATTGTTATTATTAGAGATTGTATTTCTTTTCAAGCTGATGAGCCGTCTGTGTTTATTTTTTGGAGGATACCCTTTGCCCACTTTCCTATTGG
AGTGTATTACCCTGAGGATTTGGTAAGAGTGCTTATTGCATTCACCAGAATGTCCTTTTTGTCATTTACTGTATTTTCTCTACTTTTTTTTTTTTGCCTT
GTTTTACTTTTTTTGTTTTGTATTACAAGCAGAAGTTTTAAATTTGTAAGCTTCAAATTGGAGCTGGGGTGGTGCAGAGCGAAGATTTCAGCTGGTTCCC
TGACCCCAGCTCCATCTCCTTCCCTAGGCAGTGGCTGGAACACATTCTGTCCACTATTTCCCTCTCTACATCCTTGAGGCTGTGCAGTCACCCCTCAACT
ACGTTCACCCTCCTTCAAAGCCCTTCCTGGTCCACCCGGGGACCATCTCCCGGCCTCACTGCCCCTAGCTCCTTGACGCCCCAACCTCTCTCAGGGACCC
CAAGTTGCCATGACCTCTAGCCAGCTCATGTTCATTTGCACCTTCGTGTCTGCAGCACTGAGGCACTCTTGTTTACAAGTGAGAGAACCCAACTCGGGAT
ACCTTAAGCATAAACAGTATTTTTGTAAGGAGACAGGCTTCTGACGACGCGAGGCTCATAGCCAGGCCTGCGCTGGGTGGAGCCTCCCCTTCTCACTCCT
GTCCCTGTTGGGTCAGAGTGCCAGCTTTCCTCTTCCCTCTCCTCCGGGTCTTTTCGGCCCCTCAGTCCCCATATTCCTCTGCCCTAGCTCCCAAGATCCC
ACAAGAGACAGACTGGATTCTCTCTGGCCTGGAGTGCCACCTTCCTGAAAGTCAGAATCTGATTGGTCCAGCTGGATCAGGTGTCCTCTCCCTGTCCAAT
CATCAATGCCGAGAGGGATTACGGAGAGAAAAACATGGCTCCCACCATCCCATTGCTGTGGCTGCTTGGGCCACGGGAGAGGGAACCTTGTGAGCCGGGC
AGAATCCACCCTGTAGAGACTGCCTCTGGGTGAGTCATATGGTTTGGCTGTGTCCCCACCCAAATCTCATCTTGAATTGTAATTCCCATTACCCCCATGT
GTCATTAGAGGGACCTGGTGGGAAGTGATTTGAATTATGGGGGCAGTTATCTCCATGCTATTTGTGTGATAGTGAGTTCTCACAAGATCTGATGGTTTTA
TAGGGGGCTTTTCCCCCTCTTGCTCATACTTCCTCTTGCCTGCCACCATGTAAGATGTGCCCTTGCTCCTCCTTCACCTTCTGCCATGATTGTGAGGCCT
CCCCAGCCATGTGGAACTGTGAGTCCATGAAACCTCTTTTTCTTTATAAATTACCCAGTCCTGGGTATTTCTTCATAGCAGTATGAAAATGGACTAATAC
AGTCAGCTTCTGCACAATATTTCCATTTTCCCACATTATGTCTTGGGCCTTTTGTGTATTTAAGCTCACAGGATGCTACGAATAAAGCGTTTTCTTATTT
CCTGGGTAGTTCCCATAGAAGTAGTGGTGCAACGTGCCATAGAGTGACAGCACCTAAGAGAAGCTGATTTTGTGAGTGGATTGTGAGTTCAATATTGTTG
TCATAATCAGAAAAAAATGTATTTACTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCT
CACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTTCCTACCTCACCCTCCTGAGTAGCTGGGATTACAGGCACATGCCACCCCACCACACCCGGCTAA
TTTTTGTATTTTTTAGTAGAGACAGCGTTTCCCCATGAAAAAAAGTATTTTCAATTTGGAAAGCCAAGCAGAGCCCCCTTCTTCCTCCTTGGTCTCACTG
TCTTCATGTCCTCTGTAGATAACATGCTCAGGGGCCTCTTACTTTTGGCCATGGCTTACACACTCGACCTGTGTGTAATTTAAAAATGACCCCTTTCTCC
ACTCCTCCTGATTGCCATATCCTTCACAATGTGACTTTGCAACTCTTCTCATGAAAAGGAGGAATCTATTTCTCCAGCCTGTGGGTCCTGGCTGGCCTGT
GACCTGCCCTGGCTGACAGAGTGTGGCAGGTGATGAGCACTGGTTTCAAGTCTAGGCCTCAAGAAGCCTTCATATTCCCGCTCACTGTCTCAGAACCCTG
TCCAGCTGCTATGAGAACAGCCTGGGTGAGCCCTGCTGCACAATGTCCCCATCACCCTAGTCATTTCAGCCAATAGCGAGCCAATGGCCAGCCCTCTAGC
TGTCTGAGATACATGGGTGAGACTCTAGTTGTGCTTGGCTGGACAGAGCACAGATCCACAGACCCACGCAGGTGACTCATACACTTGTGAACTATAATAA
TCGGTTGTTTTCAGTCATTAAGTTTTGAGGTGGTTTGTTACACAGCAATTGCTGACACATTCACTTCTGGCTCTAAATGTATCACTTTTCATGTGTTGAG
TCTGAAGACCTTCAGAGGACAGAGATGTGTTCCACCTACCCTATATCCACTGCAGCATGGAAAGCCATGCTTAGCTGCACACAGTAGGCGTGCAGTCTGG
GCCTGTGGAATGGACTTGGCAACCACATCACCTCAGTGATCTTTCAAACGGAAAAGAAGGCTCAGTGGGGAGTGGGAGGAGGTAGTGCAGAGGGGCAGTC
CTGTGAAAGAAGGGGCATGGGATAGCTGCTTGTGTCTATTTCATGTTGATCAATGTATCTCCAAGTGCAGAACAAGGAATAACGCAGGAATTTTATGAGG
AAGAAATGTTGGGCATGATAAGAAAGCTCATTTTCTAACCATCTGAATTCCATGAAGTAGAAAGAGGCTGGTCCTGAGAGTAATGAGCTCCCTCGTATTG
GAGGTGTCCAAGCACAGGCTGAGGAACTCCCATTTGGCTGGATGGGCAAACTTGGAGTGGAAATTCCACTTAAGCAACCTTGGCCCTAGATGTCTCTGAG
TTTTGTTCCTGTTGTCTTGCAGTGCATAGAAAGATTTCCCAAAGGCCAATATTTCATTGTTGTACCTATGATCTGGATCATCTCTCCTAGCTATAAATGA
CAGGGAAATCCTTTGGGCTCCACTTTTGGTTTAGGAAATCAGGGTGCCTCCTCTCCTACCTGTCTTTGATGTTCTTTATCTTGTAAGTATTGTGCTAGTG
GAAATCCAATTTCTTATCCTGCAAGTCATCCAGTCCCCGGGAAGGAGGAGTGCTCTCCCCAGGGCCTCTCAGTCTGCCCCTCCTCTCCTCTCCAACTGTC
CTGACCACACCTCCCCACCCAGGGCTCACATGACTGTGTTCCCCTGGGACTTGGTTGTAAGCCATCCCCACTTCTACCATCTCCCTTTCCCAAACAGGCC
CCTGTACTTCAGCACACACATGTGAATAACAGAAATGTTGAATGACAACATGATGTGGAGTTTTCACCCCAGAGCCCTGTGCACTCTTCAAAGACCTGGG
TTGATAGAGACTCAGGGAGGCAGTTGGATCTCAAAGTTCCGAGGGTCTGGGATCTAACGGTGATAGTTCTAGTGAAACCCTCCCACCCTTCCAGGAGACC
CATTCCTATAAGAAATATGACTGAAGAGCCCAGCTGTCTCACTTTGATAACCAATTCTTCCATTTGCATTTCCATTGATGTGTATTGGGCCAAGAGCAGA
GCTTTTTCTTGTGGTTAATATCTGTTTAATCCAGAAGAAGACCCTAAGGAAAGGTCAGTATTTAGGTCCCAGAGTAGCTCTTTAAAATCCTTTAAAGGAA
AAGAGAGTATGGGATAGTAAAGGGCCATGGGATGGATCTTTGAGGATCAAGGAACTTGGGACAGGAGGAGAAAGGATCTGAGAGCCTTTCTTCCACCATC
TCGACATCTATGTTGGTGTTTCTCAATTTTTAAGAAGCTGTGGATGTTGAGAGAACCCCTTAAAGGAGTTATGAGAGATACTGATATGAATTTCTCATTA
GCCATTAATTATCAGTGTGTAGAAGAGAGGGCGAGAGGGCTCTATTAAACTAAGGATATTATCTATTGCTGTGTAACAAATTATCATAAACTCAGTGGCT
TAAAAGAACATCCATTGATTATCTCACGGTTCCACTGGCCAGGAGTCTAGGCATGGCTTTCCTTGGTCCTTTGTTTAGGGTCTCAGAGACTGCAGTCCTT
TCTGGAGTTCAGCTTCCTCTTCCAAGCTCATGTGCTTATTGGAGAATTCAGTTTCTTATGGTTGTAGGACTGAGGCCCTCAGTTCCTTGCTACGTGGCCC
TCACCACAGGCAGTTTGCATCATGGCTGTTTACTTTTCAAGGCCAGTAGAATGTTTCTGTTCAATCTGATAAGAGGGAATCTCATGTGGCATAGTGTGAT
CATGGGAATGACATCCCACCATCTTTGCCATATGATGTAATCCACTCGAGAGAGGGTCACCCATCACCTTTGCCATATTCTGTTGATTAGAAGGAAGTCA
CAGGTTCCACCCACACACCCTCAAGGGGATGGCTTTATGGAAGGGTGTGGGTCGTTGGGGTCATCTTAAGGTGTGT


SNP Information

Context             (SEQ ID NO:32876):
GGCCAGGAGTTCAAGACTGCCCTGGCCAAAATAGTGAAACTCCTTCTCTACTAAAAAGACAAAAAATTAGCTGGGTGTGGAGGTGCATGCCTGTGGTTCC
R
GCTACTCAGGAGGCTGAGGTGTGAGAATCACTTGCACTTGGACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCACTGCATGCCAGCCTGGGTG
Celera SNP ID:            hCV29367989
SNP Position Genomic:     94333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32877):
CTTTTTATCTAGTGGGGTATCTCAACCCACATTTTCTTCTGCAAATTTCTGCAAGGGCATGTGAGTAACACTGAGTCTTTGGAGTGTTTTCAGAACCTAG
R
TGTGTCCAGCTGTGAAACTCAGAGATGTAACTGCTGACATCCTCCCTATTTTGCATCTCAGGTCACCCGATGACCCGTGCCTTTATCACCCATGCTGGTT
Celera SNP ID:            hCV25998740
SNP Position Genomic:     156531
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,36)   total(A,72|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:32878):
TGTATCAAAAGAAGAAAAAACACCCCCAAAAGCTGGAAATTCACTGAAGGCAGAGAAAAGGGGTGCAGACGCTCTGCTTCTGCTTCCCCAGCAGTTCCTC
Y
GACCCCCCCAAAATATTCTCCAGCGGGTTTCCCAAGAGGTCAAAGGAGAATGGGTCCTGGCCGCCGAAGAACTCCCTGAAGACGTCGGCTGGGTCGCGGA
Celera SNP ID:            hCV25754234
SNP Position Genomic:     131898
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:32879):
TTTCACAGACCCAGCCTTACCCTGTGGGGTGATCCTGGCTGAGTATTTGGGCCTACCATCTGTGTACCTCTTCAGGGGTTTTCCGTGTTCCCTGGAGCAT
R
CATTCAGCAGAAGCCCAGACCCTGTGTCCTACATTCCCAGGTGCTACACAAAGTTTTCAGACCACATGACTTTTTCCCAACGAGTGGCCAACTTCCTTGT
Celera SNP ID:            hCV15868110
SNP Position Genomic:     81907
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,5)   caucasian(A,27|G,13)   total(A,60|G,18)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   JBIC-allele(G,364|A,1117)   total(G,364|A,1117) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32880):
GGTCCTGTAGATGATCTACAGGGCACTGGACATGTTTATGTTGCTCCTTTAGTAATAAGCCTGTCATTCTGATTTGATGAAAGGAGATGAAAGGAGCTGG
K
AGTGTGTCTGATGGTGGCCTACTAACTTATGTCTTCAGCTTAAAAAGAAAGTAGCTTCAAAAGGGTTCCAGAAACACTTTCCATGGACGTGTCACTCTTT
Celera SNP ID:            hCV27960937
SNP Position Genomic:     146188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32881):
CTACCCTCTGGCCCTGTCCTACCTTTGCCATGCTGTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATCTT
S
TCAGCCATGCATCTGTGTGGCTGTTCCGAGGGGACTTTGTGATGGACTACCCCAGGCCGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGC
Celera SNP ID:            hCV25968801
SNP Position Genomic:     102095
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,27)   caucasian(C,3|G,35)   total(C,10|G,62)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32882):
TTCATAGGTGTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATGCTACTTCCTTTGATGTGGTTTTAACAGACCCCGTTAACCTCTG
Y
GGGGCGGTGCTGGCTAAGTACCTGTCGATTCCTGCTGTGTTTTTTTGGAGGTACATTCCATGTGACTTAGACTTTAAGGGCACACAGTGTCCAAATCCTT
Celera SNP ID:            hCV8739217
SNP Position Genomic:     107650
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,33|T,7)   total(C,64|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32883):
CGGGGCACGTCCAGCACCTCGTAGTAGTCCACCATGCTGGATGGCCAGAACGGCCCACCAGGCACTGGCACAGCGAGCGGCAAGGCTGCCAGCACCCAGG
Y
GCAGGCCCGAGTGCTCGGAGACCTGGGCCGCCTGGAGAGACGCCCCTTATGACGCAGCCACATCTCATTGGTCGAGGCCTATGAGCGCCTCGCATCCCAA
Celera SNP ID:            hCV29367991
SNP Position Genomic:     132341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32884):
TTTTCTAAAAGTATGGCAATTTTGAAAAATTCATCTTTGGTCTTTCATAGGTCTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATG
Y
TACTTCCTTCGATGTGGTTTTAATAGACCCAATTTACCTCTGTGGGGCAGTGCTGGCTAAGTACCTATCAATTCCTGCTGTGTTTTTTTTGAGGAACATT
Celera SNP ID:            hCV29367992
SNP Position Genomic:     135999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32885):
CTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATCTTGTCAGCCATGCATCTGTGTGGCTGTTCCGAGGGGACTT
Y
GTGATGGACTACCCCAGGCCGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGCCAACGGGAAGCCACTATCTCAGGTCTGTATTGGTGCCT
Celera SNP ID:            hCV25968738
SNP Position Genomic:     102133
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(C,2|T,32)   total(C,2|T,64)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:32886):
CCTTTTGCTCTCATGCAAACTTTTCCTCAGAGGTGACCCTAGAAGATGGGACCCTTTGTGATGGACTACCCCAAGGCAATATGCCCCAAAAGGTCTTCAT
Y
TGGGGCATAACCCGTGCCAACACAAAGGTACTTTCTCAATTGTGTGTATGGTGCCTCACCCAAACAATATTACAGATGCACTTGGCTTTCATCAACCTAA
Celera SNP ID:            hCV29367994
SNP Position Genomic:     141976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32887):
TATTCCTAGATTACTAACAACCAATTCAGACCACATGACATTCATGCAAAGGGTCAAGAACATGCTCTACCCTCTGGCCCTGTCCTACATTTGCCATGCT
K
TTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATATTCTCAGTCATGCATCTGTGTGGCTGTTCCGAGGGGA
Celera SNP ID:            hCV25956430
SNP Position Genomic:     118164
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(T,38)   total(G,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:32888):
ACCTGCACATGTACTCCTGAATCTAAAATAAAAGTTGAGTATGTATAAGAGGAAGTCATTCATCATAAAGGTCTCCATCCTCATCATCTTCCATTGAGTG
R
GCTGTGGAGGAGGAGGAGTAGATGTTGGTCTTACTGTCTTAGGGTGGCAGAAGCAGAAGAGGTAGAGGAGGTGGAAGTGGAGGCAGGAGAGGCAGGTGCA
Celera SNP ID:            hCV8742082
SNP Position Genomic:     14357
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32889):
CAGAAGATTAGTGAGGACCAAGGCTTCGAGATGGCCAGGAGAGGAAAGCTTGGGAGCAGGGAAGGTTGAGATATATGTGGGTTACTGGGAATGCGTGATG
K
TGAAGTCACAGATGACCCACATGGTGTCTAAGTGCTAAAGAAGAATTCTGGGAAAATGAAATGCATTTGGGAAGGGAAAATCTAATTAAAAGCCTAAACT
Celera SNP ID:            hCV29367995
SNP Position Genomic:     152366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32890):
CAACATATCCTACATTGCTTTTTATCTAGTGGGGTATCTCAACCCACATTTTCTTCTGCAAATTTCTGCAAGGGCATGTGAGTAACACTGAGTCTTTGGA
R
TGTTTTCAGAACCTAGATGTGTCCAGCTGTGAAACTCAGAGATGTAACTGCTGACATCCTCCCTATTTTGCATCTCAGGTCACCCGATGACCCGTGCCTT
Celera SNP ID:            hCV25993302
SNP Position Genomic:     156514
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,32)   total(A,1|G,67)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32891):
ATGTTCCTTAAGGTGTTGCCTGACACACACTGCTTAGCTCATCCATGAAGGTATCAAGAAAACCTGCAGAATATAATTCTGTCCAGTGCAACAAATATTC
Y
GGTTGATTTTCTTTGTGCAGGGCTGCATTTGTCTGTTTGGATTGCTGTAAAGGATACCTGAGGCTGGGTAATTTATAAAGAAAAGAGGTTTAATTGGCTC
Celera SNP ID:            hCV15883860
SNP Position Genomic:     18824
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32892):
GCTGCCTGTCCCATCACTACCGTAGGACATGCAGAAGGAAGAAAGGCCCCCACTTCCCAGGGAGCCAAAGGAACGAAATCCTGTATCAAAAGAAGAAAAA
M
CACCCCCAAAAGCTGGAAATTCACTGAAGGCAGAGAAAAGGGGTGCAGACGCTCTGCTTCTGCTTCCCCAGCAGTTCCTCTGACCCCCCCAAAATATTCT
Celera SNP ID:            hCV25760089
SNP Position Genomic:     131817
SNP Source:               Applera
Population(Allele,Count): african american(A,24|C,12)   caucasian(A,36|C,4)   total(A,60|C,16)
SNP Type:                 INTRON


Context             (SEQ ID NO:32893):
TCTCCAGCCTTCACAAGGACCGCCCGGTGGAGCCGCTGGACCTGGCCGTGTTCTGGGTGGAGTTTGTGATGAGGCACAAGGGCGCGCCACACCTGCGCCC
Y
GCAGCCCACGACCTCACCTGGTACCAGTACCATTCCTTGGACGTGATTGGTTTCCTCTTGGCCGTCGTGCTGACAGTGGCCTTCATCACCTTTAAATGTT
Celera SNP ID:            hCV25992439
SNP Position Genomic:     160757
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:32894):
GAAATTTTCTAGAAGAATGGCAATTATGAACAATATGTCTTTGATCATACATAGGTCTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTG
M
ATGCTACTTCCTTTGATGTGGTTCTAACAGACCCCTTTCACCTCTGCGCGGCGGTGCTGGCTAAGTACCTGTCGATTCCTGCTGTGTTTTTCTTGAGGAA
Celera SNP ID:            hCV27512039
SNP Position Genomic:     101774
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,178|C,1289)   total(A,178|C,1289) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32895):
CACTCTGGAGGATCAGGACCGGGAGTTCATGGTTTTTGCCGATGCTCGCTGGACGGCACCATTGCGAAGTGCATTTTCTCTATTAACAAGTTCATCCAAT
R
GTATTTTTGACTTATTTTTTTCAAATTGCAGGAGTTTGTTTAAGGACAAAAAATTAGTAGAATACTTAAAGGAGAGTTGTTTTGATGCAGTGTTTCTCGA
Celera SNP ID:            hCV25959349
SNP Position Genomic:     70651
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,34)   total(A,1|G,69)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,24)   total(A,1|G,61)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32896):
CATGCGCCTCTCCAGCCTTCACAAGGACCGCCCGGTGGAGCCGCTGGACCTGGCCGTGTTCTGGGTGGAGTTTGTGATGAGGCACAAGGGCGCGCCACAC
M
TGCGCCCCGCAGCCCACGACCTCACCTGGTACCAGTACCATTCCTTGGACGTGATTGGTTTCCTCTTGGCCGTCGTGCTGACAGTGGCCTTCATCACCTT
Celera SNP ID:            hCV8570123
SNP Position Genomic:     160749
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32897):
GTGCAGGGTGGACTGGCCTCCTTCCACTATATGTGTGTCTACTGCTGACCTGTGGCTTTGCCAAGGCAGGGAAGCTGCTGGTAGTGCCCATGGATGGGAG
Y
CACTGGTTCACCATGCAGTCGGTGGTGGAGAAACTCATCCTCAGGGGGCATGAGGTGGTCGTAGTCATGCCAGAGGTGAGTTGGCAACTGGGAAGATCAC
Celera SNP ID:            hCV25970519
SNP Position Genomic:     70416
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,3)   caucasian(C,6|T,2)   total(C,27|T,5)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:32898):
CCTGTCCCATGGGTTGTGTCCAAAGGTGGAATCTGTTATCAATGTGGATTTCTAATGGGAGTAACTTCCTCCATAAGGGAAGCCTCAGCCTCACCAGCAA
Y
GGCAGACATGGCCAGGCATGTAGACACAGAGGTAGTGAGATGGAAAGTGGGCACAGCCCAGAGAGCCTGCCCACCTCATCCTGGGGCGACCAGGACAAGG
Celera SNP ID:            hCV27491723
SNP Position Genomic:     105912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32899):
GTGCAGCCCAGACCCCTCCTCATCTCCAGACCCTGGAAGCTGATGCCTTGGGCAGCTCCTCCTATTTCCCAGGCACCAGGAATGTGAGCTTCTCCCTCCC
Y
ACAGTCCTGCTGTCCTCAGGGCCCCTATGTCTCTGAAGGCACCACCATCTTCCAAGATACATGGGCCTCCGCAGGGTCTAGGAGTGCCAGACACGTAACC
Celera SNP ID:            hCV11473182
SNP Position Genomic:     105335
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32900):
TTACATTTCAGTATTCTAATGTGTGTGTGTTGATTAGTGATGTGTAAATAATTCAGCAGAACATTGAAATAGTTTTAATGAGAAAAAGAGGAAGTCACTC
Y
TAGTCTCTTTGAATTTTTGGTGAGTTCCAACAGAATTGATGACTGGTTTTAGGGGAAAAGAATTCAGGCTTCATCTATACCATCCATGGTAGGTGCAGCT
Celera SNP ID:            hCV8742091
SNP Position Genomic:     28290
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32901):
AGTGCTGAACTGAACATTCTGTCCTACCACTAGCAAATAATCATTGTCTGCCTCAGGCTTAAGTTTAATAAATAGCAAATTGCATACAGATATTTTACAA
Y
GATTGAAAGACAAACAGAGGTCCTATCCGTGTAGTCCCAACGATAAGAACAGGTGTTGGCATGAAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAA
Celera SNP ID:            hCV8742093
SNP Position Genomic:     131372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32902):
GGAGAACATGGAATTGTGGTTTTCTCTTTGGGATCAATGGTCTCAGAAATTCCAGAGAAGAAAGCTATGGCAATTGCTGATGCTTTGGGCAAAATCCCTC
R
GACAGTAAGAAGATTCTATACCATGGCCTCATATCTATTTTCACAGGAGCGCTAATCCCAGACTTCCAGCTTCCAGATTAATTCTCTTAATTGGAACCTT
Celera SNP ID:            hCV27864147
SNP Position Genomic:     155534
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32903):
GCCCAACATGGTCTTCATTGGGGGCATCAACTGTGCCAACGGGAAGCCACTATCTCAGGTCTGTATTGGTGCCTTCATCCAATCAATGTTCCAGGCAAAA
Y
ACTTTTTAAAAAATGTATTTACTTACAAGTGCTTCCATATCTACTTATCTTTCCAAAGATTTTATTTTGGCTTCTTTATAACAGATAAACTGTTGAGGGG
Celera SNP ID:            hCV11473188
SNP Position Genomic:     108089
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,33|T,7)   total(C,67|T,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   (C,-|T,-)   Caucasian(T,9|C,73)   African-American(T,4|C,80)   total(C,153|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32904):
TGGAGAACATGGAATTGTGGTTTTCTCTTTGGGATCAATGGTCTCAGAAATTCCAGAGAAGAAAGCTATGGCAATTGCTGATGCTTTGGGCAAAATCCCT
Y
AGACAGTAAGAAGATTCTATACCATGGCCTCATATCTATTTTCACAGGAGCGCTAATCCCAGACTTCCAGCTTCCAGATTAATTCTCTTAATTGGAACCT
Celera SNP ID:            hCV27864148
SNP Position Genomic:     155533
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:32905):
AGAGGACCCCTGTTTTCTAGTTAGTATAGCAGATTTGTTTTCTAATCATATTATGTTCTTTCTTTACGTTCTGCTCTTTTTGCCCCTCCCAGGTCCTGTG
R
CGGTACACTGGAACCCGACCATCGAATCTTGCGAACAACACGATACTTGTTAAGTGGCTACCCCAAAACGATCTGCTTGGTATGTTGGGCGGATTGGATG
Celera SNP ID:            hCV27864149
SNP Position Genomic:     156230
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:32906):
CTCCAACCAGCCATGGTCTCCAAAAAGGATGGGAAAAAGAGGTTGGGGAAAAGAGAGGGCCTTGACTTTGGCTGCCTGAAGAACTGTTTTTCTTAAAGTA
R
GCTTTATATCAGTCTTTTTCCTCGGCCACAGGAGGGAAGAGGGTGGTGGGAGTGAGTTTAGTCTGACCGGGGCTGAAGACATCCTGTTGTTTAGGACTGC
Celera SNP ID:            hCV27839218
SNP Position Genomic:     143981
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,28)   caucasian(G,40)   total(A,6|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:32907):
AAAGGGAGGGAGTGTGACGAGGCGTGTCCAGCCTTCTGTCCCGTCGTGGCTGTGACTCAGTTTTGAAGGTTTCTTTGGGGTCCCGCTGGCCAGGAGGGTT
Y
GATTCACTTGTTGTGGGAGACGGGCGGCACTTAGTATTTTCTTTTCAGTTTACACGTTCCTGGGCATCCCTATTAAGATGTGCAGATAAACACGCACATG
Celera SNP ID:            hCV9078185
SNP Position Genomic:     45151
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32908):
ACCTCTCTTCTTTACACCTGCTGATTTCTCTGTTAACAATTTGAACAGTTGGCAGTAGCCACTGTGAAAAGGCAAGGGTGAGGGGATGGGGATAACTGAA
M
TGGTTCCAGGGATTCTGGGGCATGAAATAAAAACATAGAATGTCAGGATTCTTTTAATTGGGACATAATATAGTTGTACACATTTGGGGGGTTCATGTGA
Celera SNP ID:            hCV1432202
SNP Position Genomic:     83155
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32909):
AGTTTAGGGAAAATACCTAGGAGCCCTGTGATTTGGAGAGTGAAAACTCTTTATTACCGTTGTTACTTTAACTCTTTCCAGGATGGCCTGCCTCCTTCGC
K
CATTTCAGAGAATTTCTGCAGGGGTTTTCTTCTTAGCACTTTGGGGCATGGTTGTAGGTGACAAGCTGCTGGTGGTCCCTCAGGACGGAAGCCACTGGCT
Celera SNP ID:            hCV1432204
SNP Position Genomic:     81385
SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,29)   caucasian(G,14|T,26)   total(G,23|T,55)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,11)      total(G,4|T,11) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32910):
GGGCAGTCTTGTAGGACTGAGCCCTTAACCTGTGGGGTCCGTGCTAACTCAGAATTCAGTTCAGAATGGAATTGAATTGTAGGATACCCAGCTGGTGTTA
S
AGAATAGGTCCGTGTGCAAGAAAAATTCCCGCACATCATGGACATAACAGACAACGTCAATGATGAGGAATCCAGCAAGTTCGGGATAGAGAATTGGCAG
Celera SNP ID:            hCV1432205
SNP Position Genomic:     80940
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32911):
GGTGAGGTGGGGTTATTCAGGTGGCAGCCGATGCAATGATTCAGAAGGGACAGCTGGGGGTTGGGGGACAGGGGGGCTGGGGCCCTGAAATGGGACCATG
R
CAGCTGGGTCTGAGAGACAGTGGTAGAAACATCCAGATTCAGCACTTACTTGCTGGCTTGGATGCAGGGTCTAGAACGAAAAGAGAAGAAAAGTCACTTC
Celera SNP ID:            hCV1432132
SNP Position Genomic:     145694
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32912):
CTTGTTCTTTGTACTTTTTCCTCTGGCTATTCATCCGTATTGTTTGCAATATCCTTTGTAATAAACCAAACCTAGTAAATAAACTGTTTTCTTCAGTTCT
R
TGAGCCATTCTAGCAAATGATTGACTCCAAGAAAGAGGGTGTGTGAACCTCTGATTTTTGCCAAGTCAGACAGAAGTTGTGGGTAACCTGGGGACCTACT
Celera SNP ID:            hCV1432206
SNP Position Genomic:     80715
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32913):
TCAAAGGAAGTTTGGGGAACAGCAAGGGATCCAGAATGGCTAGAGGGTAAGAGGCAGAGGGAGGGGGCAAGCAGAAGGGCTAGAGAGGAGGAATGAGCTT
R
GACAGGTGGGCTGGGGTCTATCCCAGAGTTTTGAGAGCAAGGCAGAGGACTCTGAATTTTCTGTGCCCAGGAAGCTGCTGACCAAGGTTCCAGAAGTGGT
Celera SNP ID:            hCV1432133
SNP Position Genomic:     145493
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,9)   total(G,9|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32914):
CTGGTTATGTTCCCCATGGGGGCCAGCCCTGTCCTTGGAGTGGCCCCTCTAATCATGTTGCTCAGGCTTCTTCTCCCTTCCTGGGCCCCAGAACACCTCC
R
GTGCCAAACTTGTGGGTGGGAACAGGAACTCGCGTGCCAGCCAGGTGTGCATGACTAGCTCTGGGCAAGTCTGTTCTAGTAATTCAAGGTACCACCTCTC
Celera SNP ID:            hCV1432207
SNP Position Genomic:     79832
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32915):
GTTTATATAACCTCTAGTTACATAACCTGAAACCCGGACTTGGCACTTGGTAAGCACGCAATGAACAGTCATAGTAAGCTGGCCAAGGGTAGAGTTCAGT
K
TGAACAAAGCAATTTGAGAACATCAAAGGAAGTTTGGGGAACAGCAAGGGATCCAGAATGGCTAGAGGGTAAGAGGCAGAGGGAGGGGGCAAGCAGAAGG
Celera SNP ID:            hCV1432134
SNP Position Genomic:     145370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|G,8)      total(G,8|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32916):
AGTGAAAACTCTTTATTACCGTTGTTACTTTAACTCTTTCCAGGATGGCCTGCCTCCTTCGCTCATTTCAGAGAATTTCTGCAGGGGTTTTCTTCTTAGC
W
CTTTGGGGCATGGTTGTAGGTGACAAGCTGCTGGTGGTCCCTCAGGACGGAAGCCACTGGCTTAGTATGAAGGATATAGTTGAGGTTCTCAGTGACCGGG
Celera SNP ID:            hCV8739306
SNP Position Genomic:     81423
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32917):
ATTTTAAGTCTCAAACATTTTGCAGGTCCTTTGAAATCTTGCAGGTGGGTCCTGGCTCCATTACTTATGGGTCGTAGGTCATACAAGGGTCTGAAAGAGT
K
AGCACCTTAGAAGCAAACCTCTCCATAGGGTCCACGTTTCCAGACCTTCCTATTCCCAACATGAAATTACCTTCATGCACATCTTTGGGTCTCTCCTCTA
Celera SNP ID:            hCV1432208
SNP Position Genomic:     78707
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32918):
AACTTTGAACTTCAGAGAGATGATCTGAAATTGGAACTTATGTTTAAAAGGGAAGCAGAGCATAAAAGTTTGGAAAATTTGCAGCCTGACCATGTGGTAG
M
AAAGAAAAACCCATTTTATGGGGAGAAATTCAAACCAGCTACAGAAATACTGGCTATAGAAATTTGCATAAGTAAGGAGGAGCCAAATGTTAATTGCCAA
Celera SNP ID:            hCV1432135
SNP Position Genomic:     138774
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,3)      total(A,3|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32919):
TATAGCAGTGTGAGAATGGACTAATATATTAAATTGGTGCCATGGAGAGTGGAGTACTGCTATAAAGATACTTGAAAATGTGGAAGTGACTTTGGAACTG
R
GTAACAGGCAGAGGTTGGAACAGTTTGGAGAGCTCAGAAGAAGACAGGAAGATGTGGGAAAGTTTGGAACTTCCTAGAGACTTGTTGAATGGTTTTGACC
Celera SNP ID:            hCV1432136
SNP Position Genomic:     138425
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32920):
TTTCCTGAGGCTCCCCCCTCCAGCCACCTGGAACTGTGAGTCAATTAAAGCTCTTTCCTTTATGAATTACCGAGTCTTGGGTATGTCTTTATAGCAGTGT
R
AGAATGGACTAATATATTAAATTGGTGCCATGGAGAGTGGAGTACTGCTATAAAGATACTTGAAAATGTGGAAGTGACTTTGGAACTGGGTAACAGGCAG
Celera SNP ID:            hCV1432137
SNP Position Genomic:     138336
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32921):
AGACGGGCGGCACTTAGTATTTTCTTTTCAGTTTACACGTTCCTGGGCATCCCTATTAAGATGTGCAGATAAACACGCACATGCTTCATGTGGCATCTCC
Y
TTAGTTAAACATCTTTTTTTTTTTTCCTTTCCTGTGAGTCTTCCTGAAACAGGTGAGCCCAGGTGGAGCCTCCGCCTGCGTTAGGACCTAACCTTTCTAC
Celera SNP ID:            hCV16063300
SNP Position Genomic:     45269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32922):
AGATTTATCATGATTTGGCTCTGTATCCCCCACCAAATCTCATCTTGAATTGTAATCCCCATAATCCCCACGTGTCAAGGACAGGATCTGGTGGGAGGTG
M
TTGGATCATGGGGGCAGTTTCGCACCTGCTGGTCTCATCATAGTGAGTGAGTTCTTATGAGATCTGATGGTTTTATAAGGGGCCATTGTCCCTTCACTTG
Celera SNP ID:            hCV1432138
SNP Position Genomic:     138061
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32923):
TGAGAGGAAGAAGAGGCAGACATGAATGTTTATCAAAGGATGGACTAGGACTGATGTGACTCATGGAGACTGTTCGTTTGTAAAGGCACCATCTTCATGG
Y
TGTGCATGTCCTTCATTGGGAAGGAGCAGGGACACTACATTGAGACTTGACCCATCTGGATTTTTTGTTTGCACAATTTTCAGGGGAAAGATGATGCAAC
Celera SNP ID:            hCV25963090
SNP Position Genomic:     136727
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(C,1|T,33)   total(C,3|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:32924):
AGAGAACACTAGCAAGGCTAATTTTCGAGTGTGGTAAAGAACAGGCTAATGTATTCAATAGTGAGGCCACTGACTCTGTCTCAACATGAAGTCACACTAG
R
TTTATCATGATTTGGCTCTGTATCCCCCACCAAATCTCATCTTGAATTGTAATCCCCATAATCCCCACGTGTCAAGGACAGGATCTGGTGGGAGGTGATT
Celera SNP ID:            hCV1432139
SNP Position Genomic:     137963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32925):
GCATGTTCCACCCTCACCCCGGGCTCATCAGGAGGGTTCTTAAGATGCAGACAGTTTTAAGGGGGTTGGAGGAATAGTTGAGAAGCTGAGATGTTGCACC
Y
ACAGCTGAGAATCCCTTTCTAGCACTCTGTGTCCTCACAAATCCCCAGAAATCGTCCTCCCCTGGGGAGTTCTCAAGCCCTTACAGACCTGCCCTCTCTG
Celera SNP ID:            hCV27491734
SNP Position Genomic:     105649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32926):
AATAGAACATGGGAGCCCCTTGAATGTGGCAAGAGCACCCTCCCAGGCATGTTCCACCCTCACCCCGGGCTCATCAGGAGGGTTCTTAAGATGCAGACAG
Y
TTTAAGGGGGTTGGAGGAATAGTTGAGAAGCTGAGATGTTGCACCCACAGCTGAGAATCCCTTTCTAGCACTCTGTGTCCTCACAAATCCCCAGAAATCG
Celera SNP ID:            hCV27491735
SNP Position Genomic:     105603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32927):
GAGGACCCCTGTTTTCTAGTTAGTATAGCAGATTTGTTTTCTAATCATATTATGTTCTTTCTTTACGTTCTGCTCTTTTTGCCCCTCCCAGGTCCTGTGG
Y
GGTACACTGGAACCCGACCATCGAATCTTGCGAACAACACGATACTTGTTAAGTGGCTACCCCAAAACGATCTGCTTGGTATGTTGGGCGGATTGGATGT
Celera SNP ID:            hCV27864150
SNP Position Genomic:     156231
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32928):
ACGTTCTGCTCTTTTTGCCCCTCCCAGGTCCTGTGGCGGTACACTGGAACCCGACCATCGAATCTTGCGAACAACACGATACTTGTTAAGTGGCTACCCC
R
AAACGATCTGCTTGGTATGTTGGGCGGATTGGATGTATAGGTCAAACCAGGGTCAAATTAAGAAAATGGCTTAAGCACAGCTATTCTAAAGGATTGTTGA
Celera SNP ID:            hCV27864151
SNP Position Genomic:     156295
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32929):
TACGTTCTGCTCTTTTTGCCCCTCCCAGGTCCTGTGGCGGTACACTGGAACCCGACCATCGAATCTTGCGAACAACACGATACTTGTTAAGTGGCTACCC
Y
AAAACGATCTGCTTGGTATGTTGGGCGGATTGGATGTATAGGTCAAACCAGGGTCAAATTAAGAAAATGGCTTAAGCACAGCTATTCTAAAGGATTGTTG
Celera SNP ID:            hCV27864152
SNP Position Genomic:     156294
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:32930):
AGCCTTCGGCATTCAGAAGAGGAATTCAGACTGTGCAAGATCTGAGGCCAGGCTCCAGCTCCCCCAGTCCCTTGGTGAGCAGGAGCTCCCTGAACCCACC
R
TGGGTCTTTGCTAGGGTTGTCTTGCCCATGTGTGCTTTAGATAGCAGCACCTCTTCTTCCATGGTGTATATGGAGAATCCTCAACAAAGTCTTCCCAAGA
Celera SNP ID:            hCV11473194
SNP Position Genomic:     116728
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32931):
CTTTGGAGTGTTTTCAGAACCTAGATGTGTCCAGCTGTGAAACTCAGAGATGTAACTGCTGACATCCTCCCTATTTTGCATCTCAGGTCACCCGATGACC
S
GTGCCTTTATCACCCATGCTGGTTCCCATGGTGTTTATGAAAGCATATGCAATGGCGTTCCCATGGTGATGATGCCCTTGTTTGGTGATCAGATGGACAA
Celera SNP ID:            hCV27864153
SNP Position Genomic:     156607
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32932):
CCAGGGCGGACGCCCACTTGTCCTGGGCCTGCTGCTGTGTGTGCTGGGCCCAGTGGTGTCCCATGCTGGGAAGATACTGTTGATCCCAGTGGATGGCAGC
S
ACTGGCTGAGCATGCTTGGGGCCATCCAGCAGCTGCAGCAGAGGGGACATGAAATAGTTGTCCTAGCACCTGACGCCTCGTTGTACATCAGAGACGGAGC
Celera SNP ID:            hCV27530915
SNP Position Genomic:     148775
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32933):
TGGAGTGTTTTCAGAACCTAGATGTGTCCAGCTGTGAAACTCAGAGATGTAACTGCTGACATCCTCCCTATTTTGCATCTCAGGTCACCCGATGACCCGT
R
CCTTTATCACCCATGCTGGTTCCCATGGTGTTTATGAAAGCATATGCAATGGCGTTCCCATGGTGATGATGCCCTTGTTTGGTGATCAGATGGACAATGC
Celera SNP ID:            hCV27864154
SNP Position Genomic:     156610
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32934):
AAGTTGTACTCAGTTATATTGAGAAACTGGGCTCTAATGAATGTACTTTTTGAGCCCTGTGACCCTGTATCTGGTGCTTGACCTTGTTTGTGTCTCAACT
S
TATTCCCAGCATGTCGTCCTAGAGAACATTCTGTATTATGATATGTAATTATCAACATGCACTTTTAATTATTAGGAATTAAATTAAAGTGATCAAAATA
Celera SNP ID:            hCV1173630
SNP Position Genomic:     86503
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32935):
TGGTGATCAGATGGACAATGCAAAGCGCATGGAGACTAAGGGAGCTGGAGTGACCCTGAATGTTCTGGAAATGACTTCTGAAGATTTAGAAAATGCTCTA
R
AAGCAGTCATCAATGACAAAAGGTAAGAAAGAAGATACAGAAGAATACTTTGGTCATGGCATTCATGATAAAATTGTTTCAAATATGAAAACATTTACGT
Celera SNP ID:            hCV27864155
SNP Position Genomic:     156790
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32936):
AAAATCTGGTAGTCTTCTTAAGCAGCCATGAGCATAAAGAGAGGATTGTTCATACCACAGGTGTTCCAGGCATAACGAAACTGTCTTTGTGTTTAGTTAC
W
AGGAGAACATCATGCGCCTCTCCAGCCTTCACAAGGACCGCCCGGTGGAGCCGCTGGACCTGGCCGTGTTCTGGGTGGAGTTTGTGATGAGGCACAAGGG
Celera SNP ID:            hCV27864156
SNP Position Genomic:     160638
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:32937):
TCCGGCATTTTGTTTTTTGGGACCCTAATGAAATGGTTACAGGTCTCCAGGTCTCTTGGGGCTCACAGGGTCATGCCTTTCCTTGCCCAGTGTACTTGGT
R
AGAAGGTACAGGTGTTTCCATGGAGGGTGTTCATTTTAGGGATTTCAAGAGGGTCATCTTTGCACCACAGGAAATGCCCCCTTTTACACTCTGAAAACCT
Celera SNP ID:            hCV1173632
SNP Position Genomic:     129015
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32938):
AATGGCACCCATCCTCCCCTATGGTTAAATGTTACGTTACTATAGCATATTATCACAACTCATTAACCAACATTTGATACATTATGATGAACTAAAGTCT
R
TGTTCTCTGCAGATGTCATTAATTTTTACCTAATGTCCTTTTTCATTTCTAGGATCCCATCCTGGATACCAAATGACATTTAGCCCATCACGCCCCCTTC
Celera SNP ID:            hCV9078190
SNP Position Genomic:     46764
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32939):
CCGTTCCTTTATGTGTGTGTCTACTGCTGACCTGTGGCTTTGCCGAGGCAGGGAAGCTGCTGGTAGTGCCCATGGATGGGAGTCACTGGTTCACCATGCA
R
TCGGTGGTGGAGAAACTTATCCTCAGGGGGCATGAGGTGGTTGTAGTCATGCCAGAGGTGAGTTGGCAACTGGAAAGATCACTGAATTGCACAGTGAAGA
Celera SNP ID:            hCV25751284
SNP Position Genomic:     25008
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,35)   total(A,1|G,71)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32940):
AGGAGGGACGTGGCCGTCTCAGAGGGCTGCTTGGTTTCTGTCCAAGCTGGCCCTTGGGGAAGCCCTTTGGCCACCCAGGTGGTGATTCCTGCTGTAAGAA
S
ATGAGAGGCTGAGCCACCAGGCAGTCCCAGATGTCCTGAAACAACTTATCCCAGCCCTGCCCAGGGCCTTCTCTCTAGCCCTGTGCACCTCATCACCTGC
Celera SNP ID:            hCV1173634
SNP Position Genomic:     87368
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32941):
AAAAGCTGCATTTTTTATAATAAAATTTTATGTAGATAATCATGATACAGAATTACTCTTTGACAAATTATCTATGGATGTAATGACTCTAGTTTCAGAC
T
TTTTTTTTCTGAAATATGTGAGCGTTCCCCAACAGTCTGGTCTATTTTCCTACCTTAATTTTCTACTTTTGGTCTTGAATTTGTTGATAGGGCACAGAGG
Celera SNP ID:            hCV9078191
SNP Position Genomic:     49526
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32942):
AGGGGTGCAGACGCTCTGCTTCTGCTTCCCCAGCAGTTCCTCTGACCCCCCCAAAATATTCTCCAGCGGGTTTCCCAAGAGGTCAAAGGAGAATGGGTCC
Y
GGCCGCCGAAGAACTCCCTGAAGACGTCGGCTGGGTCGCGGAAGCTGAAGACGTACTCGAAGGGGTCCTCGAAGGGCCTGCCGCCTGTGCAGCCGCCCTC
Celera SNP ID:            hCV25758477
SNP Position Genomic:     131956
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,34)   total(C,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:32943):
GTTAACTCTATGCAGTTATGACTTAATGCTGCAAACTTACCTTTGTTACTTTTCTCTTGACTACAAATGGTGTCATGTATAGTCTGTAAGTGTTTGTGTG
Y
ATAAGTTTTGATAAATTTTAACTATTTAAAATAGATTTGTGTCTATAATATGGTAGTAAATGATAAAATAGACTCGTTGCTATATATATTTTAGGCATTC
Celera SNP ID:            hCV11742110
SNP Position Genomic:     50554
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32944):
GGACTTTGTGATGGATTACCCCAGGCCGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGCCAACAGGAAGCCACTATCTCAGGTCGGTGTT
Y
GTGCCTTCATCCAATCAATGTTCCAGGCAAAACAGTTTTTAAAAATTGTATTTACTTACAATTGCTTCCATATCTACTTATCTTTCTGGTGCTTTTATTT
Celera SNP ID:            hCV25961136
SNP Position Genomic:     136448
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,29|T,3)   total(C,64|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:32945):
TCCCTACAGTCCTGCTGTCCTCAGGGCCCCTATGTCTCTGAAGGCACCACCATCTTCCAAGATACATGGGCCTCCGCAGGGTCTAGGAGTGCCAGACACG
W
AACCAGAAATCAGATGACATCACTATCTAAATAAAACACCACTACATGGAAATAGAACACCACTACATGGAAATAGAACATGGGAGCCCCTTGAATGTGG
Celera SNP ID:            hCV27519172
SNP Position Genomic:     105431
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32946):
CTGATGGCTTGCACAGGGTGGACCAGCCCCCTTCCTCTATGTGTGTGTCTGCTGCTGACCTGTGGCTTTGCCGAGGCAGGGAAGCTACTGGTAGTGCCCA
Y
GGATGGGAGCCACTGGTTCACCATGAGGTCGGTGGTGGAGAAACTCATTCTCAGGGGGCATGAGGTGGTTGTAGTCATGCCAGAGGTGAGTTGGCAACTG
Celera SNP ID:            hCV25963310
SNP Position Genomic:     60402
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:32947):
TTCTTCCAGTTTTTCAATGTGAACATATTCTCTAGTGTTAACTACATTGCTCAAAACTTCACTGTCATCTCAGTGGAGCAGAACGAATTGGGAACTGTGG
Y
ACAGATCACTCTTGCTATGCCCCTTAGAGAATTAGAGAACACTAGCAAGGCTAATTTTCGAGTGTGGTAAAGAACAGGCTAATGTATTCAATAGTGAGGC
Celera SNP ID:            hCV1432140
SNP Position Genomic:     137829
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32948):
AAGAGAAGCAGCAATATGTATGCATTGCAGAGACACAGGCGAGCCCCAATTTAGGAGGTTAGGAGGTCAGTGCTAAGGGCCTTGTTTTCTTTGCTTAGAG
Y
ATGAGTTGCCATCTTCTCTGGACAGAGAGTATTTGGTTGCCTAAAGGTAAAATCTAAATTTTGCTCTGGGACAAATTCCAAAAAAAATTAGCTTTAATCA
Celera SNP ID:            hCV11742118
SNP Position Genomic:     59865
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,28|T,10)   total(C,63|T,13)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32949):
GCAAACCTTTCCTCAGAGGTGACCCTAGAAGAAGGGACCCTTTGTGATGGAAAAGGTCTTCATTTGGGGCATAACCTGTGCCAACAGAAAGGTACTTTCT
Y
GTTGTGTTTATGGTGCCTCACCCAAAAAATATTACAGATACACTTGGCTTTCATCAACCTAATTTGATATGTCCCAAGCATAGCAATAGGATAGTTCTGT
Celera SNP ID:            hCV1432144
SNP Position Genomic:     130317
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32950):
CCATCTTCTCTGGACAGAGAGTATTTGGTTGCCTAAAGGTAAAATCTAAATTTTGCTCTGGGACAAATTCCAAAAAAAATTAGCTTTAATCAAATTTACT
Y
TTACTTTATCTTTCTGAACCTTCAAGGTCCAAAAGCATTGGTTAATAATTCTGCTTCTAAACTTAACATTGCAGCACAGGGCATGTTCTGCCCCCAAGGC
Celera SNP ID:            hCV11742119
SNP Position Genomic:     59974
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,12|T,24)   total(C,15|T,59)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32951):
TCAGCCTATCCAGTTCAGTTGCCTTTTGCTCTCATGCCTTATGCAAACCTTTCCTCAGAGGTGACCCTAGAAGAAGGGACCCTTTGTGATGGAAAAGGTC
Y
TCATTTGGGGCATAACCTGTGCCAACAGAAAGGTACTTTCTTGTTGTGTTTATGGTGCCTCACCCAAAAAATATTACAGATACACTTGGCTTTCATCAAC
Celera SNP ID:            hCV1432145
SNP Position Genomic:     130275
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32952):
AGTGAGTATCTTCACACATGTAAGTTCCCTCGTCTGATGTACAAAAAACTGAACTCATTTTTCAAAAGCCTTAACAGTCTGTCTTATTCTGATACTTCTT
K
TATGGTTATTGTATGAGAATCAACTACCCAGGCACCTCGGAGCATGTTGATTTCAGAGTTCAGTGTCAGACCCCATGAGCCCCTGTGGGATGGTGCCAGC
Celera SNP ID:            hCV1432146
SNP Position Genomic:     129906
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32953):
TGAAGGAGGGCACTGGAGTGATGGCGTGTTTAGAATGTGCAAGTTGAGCGGTCACTGAGAGGCAGCTCAGCAGAGTGCTCTCGCAAGGATTGGGCGGGCA
M
CTTCCCACTGCGTGCGATGTATCTTAGGAAAGCCATTTAAAATAGGAGACGGTTACTTTCCATCAAGTCCCTGGTATGGTCCATGGAAGCAGGGTTGTCA
Celera SNP ID:            hCV9084250
SNP Position Genomic:     59617
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32954):
CTCTCACCTTCTGTCATGATTGTAAGTTTCCTGAGGCCTCCCCAGTCATGTGGAACTGTGAGTCAATTAAACCTCTTTCTTTTATAAATTACCCAGTCTC
R
GCTGCGTCTTTATAGCAGGCTGAGAATAGACTAATACAAGATTGGTGGTGATTGAAGTTATACTGAAAGGGTTTAAAGGAGAGTCTGAGAAAAGGAAATG
Celera SNP ID:            hCV1432147
SNP Position Genomic:     128573
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32955):
AGCCTGACCATGTGGTAGAAAAGAAAAACCCATTTTATGGGGAGAAATTCAAGCCAGATGCAGAAATACTAGCTAAAGAAATTTGAATAAATAAGGAGGA
R
CCAAATGTTAATCACCAAGACAATGGGGAAAATGGCTCCAGGGCATGTCAGAGACCTTTGCAGCAGACCCTCCCATCACAGGCCTGGAGGCCTAGGAAGG
Celera SNP ID:            hCV1432148
SNP Position Genomic:     127191
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32956):
ATCAAGGTCCCCCATCATCTCACCTTTCCTGGCTCATGGGCTTTATTTTATGCCACTCTTCATGCTCAGAAGCACCTGGCGGTTTAGTTTTTTTGTGTTG
Y
TCTAAAGGAATACCTGGGGCTGGGTAATGTATAAGGAAGAGATAATATCTGGCCCTCAGTTCTGCAGGCTGTATAAGAATCATGGTACCAACATCTGTTT
Celera SNP ID:            hCV16063310
SNP Position Genomic:     45630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32957):
AACTGGAGCAAAGGTCACTCTTGCTAAGCTTTAGCAAAGAAACTCGTGGCATTTTTGCCCCTGCCCTAGAGCTCTTTGGAACTACGAACTTGAGAGAGAT
R
ATCTGAAATTGGAACTTATGTTTAAAAGGGAAGCAGAGCATAAAAGTTTGGAAAATTTGCAGCCTGACCATGTGGTAGAAAAGAAAAACCCATTTTATGG
Celera SNP ID:            hCV1432149
SNP Position Genomic:     127030
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32958):
GACCTCAAACACTTCCTTTAAAAAGATAAGCTATTTTGTAGTTTAAAAAACATTTGTTCTGTTTCTTTCTCATTCATCTTTTCTTAAGTATTTTACACGG
T
TTTTTTTTTTTGGTCACTACTGTGAATGTGTTATTTTTTTGCATTTCTATCTCTAGCTGATTATCTACTCATTACTCAGCTATCTCATCAAAATATTGAT
Celera SNP ID:            hCV8570074
SNP Position Genomic:     151091
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32959):
ACTCACGAGGGCCTGGGGCTGGTGAGAGTGGCGGGGAGAGAGGGCTCACCTTGGGAGAAGGATGGTCAGTGTCTGGGGCTTTCCTGGTCATGTTCCAAAT
Y
AGGCTTGGCAGGAGTCCTGCTGTGCAAATTGCGTTTGCTGAGCCCTGTCAGAGGTCTCCTGTGTCTCACATCTAGGGTGACCAGCATCCTGGCTTCCTCA
Celera SNP ID:            hCV16063240
SNP Position Genomic:     153383
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32960):
ATGGACCCAGGATGAATTTGATCGCCTTGTGCTGGGCCACACTCAACTGTACTTTGAAACAGAACATTTTCTGAAGACATTTTCTAAAAGTATGGCAATT
W
TGAAAAATTCATCTTTGGTCTTTCATAGGTCTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATGCTACTTCCTTCGATGTGGTTTT
Celera SNP ID:            hCV25968835
SNP Position Genomic:     135920
SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,17)   caucasian(A,3|T,5)   total(A,10|T,22)
SNP Type:                 INTRON


Context             (SEQ ID NO:32961):
TTCGAGATGGCCAGGAGAGGAAAGCTTGGGAGCAGGGAAGGTTGAGATATATGTGGGTTACTGGGAATGCGTGATGGTGAAGTCACAGATGACCCACATG
K
TGTCTAAGTGCTAAAGAAGAATTCTGGGAAAATGAAATGCATTTGGGAAGGGAAAATCTAATTAAAAGCCTAAACTAAAAATACAAAATTCTTGGTAAAG
Celera SNP ID:            hCV27498862
SNP Position Genomic:     152390
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,185|G,1290)   total(G,1290|T,185) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32962):
CTCCCCGGGAATCATCCTCCCCTGGAGAGTTCCCAAAGCCCTTGCAGGCCTGCCTTCTCTGTGCCTTCCTGCCTGCGCCCTCTGGTGGACAGCTCCATTC
R
CTGCCTGTCCCATGGGTTCTGTCCAAAGGTGGAATCTATTATCAATGTGGATTTCTAATGGGGGTAACTTCCTCCCTAAGGGAAGCCTCAGCTTCACCAG
Celera SNP ID:            hCV9504011
SNP Position Genomic:     99985
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,10)      total(G,10|A,4) ;(A,-|G,-)   (A,-|G,-)   Caucasian(A,42|G,42)   African-American(G,18|A,62)   total(G,60|A,104)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32963):
TCTCTTTGGGATCAATGGTCTCAGAAATTCCAGAGAAGAAAGCTATGGCAATTGCTGATGCTTTGGGCAAAATCCCTCAGACAGTAAGAAGATTCTATAC
Y
ATGGCCTCATATCTATTTTCACAGGAGCGCTAATCCCAGACTTCCAGCTTCCAGATTAATTCTCTTAATTGGAACCTTAGATTTGGCTTTTCCCTGCCAC
Celera SNP ID:            hCV25957404
SNP Position Genomic:     155556
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,40)   total(C,67|T,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:32964):
CAAGGCTGCCAGCACCCGCGCACAGGTCAGAGGCTTGGCGACCTGGGCCGCCTGGAGGGCCGCCCCTTATGACGCAGCCACATCTCATTGGCCGAGGCCT
K
TGAGCGCCTCGCATCCCAAGATGCAGTGCTCCTGGGACTGGCCCTGCTCTCTGTGAGGCTCTGTGAGGCCCTGTGATGCTCCAAGACCAGGCCCCGCCCA
Celera SNP ID:            hCV249468
SNP Position Genomic:     143773
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,8)   caucasian(G,28|T,8)   total(G,56|T,16)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32965):
TGTAGATGGAGAATCCTCAACAAAGCCTTTCCAAGAATCTGATCATCACATCTTGAGCTCAGCCTCCCTGCAGCTTTTTTTATATTGACAGCCACTTCAG
R
GAGAGTCCTCTTTGAGCTTTACAAGAAATATCCTGGTGTGAAAAACGACCAAAACCAGATAGCCAGCCTCCCCACTCCCTGTTTAAAGAAAGCTGGCTTA
Celera SNP ID:            hCV9504016
SNP Position Genomic:     100753
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,13)      total(G,2|A,13) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32966):
CTTTACAAGAAATATCCTGGTGTGAAAAACGACCAAAACCAGATAGCCAGCCTCCCCACTCCCTGTTTAAAGAAAGCTGGCTTAGCAATGTTGTCTGCAT
Y
TTGGATGTGCTGTGTTACCCATATGTGGGAAGAAAGAGTATTAAGAGTTAGCAAATAGGGTCACATCCAGCAGAGACCATATGGTTGGGGACTAGGGCAA
Celera SNP ID:            hCV9504017
SNP Position Genomic:     100870
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,15)      total(C,2|T,15) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32967):
TCTCAGGGGCTATCTGGTTAGGTATTGCTTGCTACAGAGCCAAACTATGTCACCAGAACCCATTTATATGTTTCCATTTCTTGTCTCTGTTTCCTCGGCC
R
TGGCATCCTTCTCAGTGTCATAATACCCAAGCAGCAGGGGCTTCAGCCTGAGTTCTTTTCCCAGGATTCCTAGTTAAAGTTCTTCTGCCTCATTGGCTCT
Celera SNP ID:            hCV1173640
SNP Position Genomic:     97345
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32968):
ACTACACAAGAAAAATCTATCCAGTGCCGTATGACCAAGAAGAGCTGAAGAACCGTTACCAATCATTTGGAAACAATCACTTTGCTGAGCGATCATTCCT
R
ACTGCTCCTCAGACAGAGTACAGGAATAACATGATTGTTATTGGCCTGTACTTCATCAACTGCCAGAGCCTCCTGCAGGACAGGGACACCCTGAACTTCT
Celera SNP ID:            hCV1173641
SNP Position Genomic:     81681
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,7)   caucasian(A,1|G,3)   total(A,20|G,10)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,9)   caucasian(A,26|G,10)   total(A,55|G,19)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,9)      total(G,5|A,9) ;(A,-|G,-)   (A,-|G,-)   Caucasian(G,29|A,53)   African-American(G,25|A,49)   Asians(G,32|A,52)   total(G,86|A,154)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32969):
CAGCCTTACCCTGTGGGGTGATCCTGGCTGAGTATTTGGGCCTACCATCTGTGTACCTCTTCAGGGGTTTTCCGTGTTCCCTGGAGCATACATTCAGCAG
M
AGCCCAGACCCTGTGTCCTACATTCCCAGGTGCTACACAAAGTTTTCAGACCACATGACTTTTTCCCAACGAGTGGCCAACTTCCTTGTTAATTTGTTGG
Celera SNP ID:            hCV1173642
SNP Position Genomic:     81918
SNP Source:               Applera
Population(Allele,Count): african american(A,31|C,7)   caucasian(A,27|C,11)   total(A,58|C,18)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|A,7)      total(A,7|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32970):
GCCCGGTGGAGCCGCTGGACCTGGCCGTGTTCTGGGTGGAGTTTGTGATGAGGCACAAGGGCGCGCCACACCTGCGCCCCGCAGCCCACGACCTCACCTG
R
TACCAGTACCATTCCTTGGACGTGATTGGTTTCCTCTTGGCCGTCGTGCTGACAGTGGCCTTCATCACCTTTAAATGTTGTGCTTATGGCTACCGGAAAT
Celera SNP ID:            hCV27528142
SNP Position Genomic:     160778
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:32971):
GCAGTGGTGTGATCTTGGCCCACTGCAACCTCCGCCTCCTGGGTTCAAGCAGTTCTCCCACCTCAGCCGCCCGAGCAGCTGGAACTACAGGTGTGCACCA
M
CATGCCTGGCTAATTTTTGTATTTTTTATAGAGACAGAGTTTTGCCATGTTGGTCAGTCTGGTCTCAAACTCCTTACCTCAAGTGATCCACCCGCCTCAG
Celera SNP ID:            hCV1173644
SNP Position Genomic:     92402
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32972):
GCCCACTGATGGCAGCCCCTGGCTCAGCATGCGGGAGGCCTTGCGGGAGCTCCATGCCAGAGGCCACCAGGCGGTGGTCCTCACCCCAGAGGTGAATATG
Y
ACATCAAAGAAGAGAAATTTTTCACCCTGACAGCCTATGCTGTTCCATGGACCCAGAAGGAATTTGATCGCGTTACGCTGGGCTACACTCAAGGGTTCTT
Celera SNP ID:            hCV25956395
SNP Position Genomic:     107381
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,38|T,2)   total(C,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:32973):
ACCATAAGCTACTGTTGTCTGGAAAACATACAAATAGATATCTCAGCAAAAGCTACTCATATATTCTTGTTCTTTTGGGTAAATCATTGTCAGTGACTGA
T
TTTTTTTTATGAAAGGATAAAAACACGCCCTCTATTGGGGTCAGGTTTTGTGCTGGTATTTCTCCCACCTACTGTATCATAGGAGCTTAGATTCCCAGCT
Celera SNP ID:            hCV11742120
SNP Position Genomic:     60179
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32974):
TGGTTTGGCTCTGTGTCCCCCACCAAATCTCATCTTGAATTGTAATCCCCATAATCCCCACGTGTTGAGGACAGGACATGGTGGGAGGTCCCCACCTCCT
M
ATCTCATCATAGTGAGTGAGTTCTTATGAGATCTGATGGTTTTATAAGGGGCCCTTATCCCTTCACTTGCAAGCTATTCCTCTTTCTCTCTTTCATGTAA
Celera SNP ID:            hCV1432150
SNP Position Genomic:     126435
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32975):
GTATTTAGTAGTGAGTCCATTGACTGTTTCCCAACATGAGGTCACACTAGATTTAATATGGTTTGGCTCTGTGTCCCCCACCAAATCTCATCTTGAATTG
Y
AATCCCCATAATCCCCACGTGTTGAGGACAGGACATGGTGGGAGGTCCCCACCTCCTAATCTCATCATAGTGAGTGAGTTCTTATGAGATCTGATGGTTT
Celera SNP ID:            hCV1432151
SNP Position Genomic:     126377
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32976):
TTCGAGTGTGGTAAAGAACAGGCTAGTGTATTTAGTAGTGAGTCCATTGACTGTTTCCCAACATGAGGTCACACTAGATTTAATATGGTTTGGCTCTGTG
Y
CCCCCACCAAATCTCATCTTGAATTGTAATCCCCATAATCCCCACGTGTTGAGGACAGGACATGGTGGGAGGTCCCCACCTCCTAATCTCATCATAGTGA
Celera SNP ID:            hCV1432152
SNP Position Genomic:     126350
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32977):
TCCATTCTCAGAGCTCAAATGCCATACTAGGAGAACGAGTGCTCTCTTCAGAGCTGTCAGACAGGGATGTTTAAGTCTGCTGTTCCCCACATGTTCAGAA
K
TTGTCTGCTGCCTTTTGTTCAGATATGCCCTGCCCACAGAGGTGGAGTCTATAGCGGCAGTAGCCCTTGCTGAGCTGCGGTGGACTCTGTTCAGTTCCAG
Celera SNP ID:            hCV1432153
SNP Position Genomic:     125480
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,15)   total(G,15|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32978):
GCTCTACCCTCTGGCCCTGTCCTACCTTTGCCATGCTGTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGAT
M
TTGTCAGCCATGCATCTGTGTGGCTGTTCCGAGGGGACTTTGTGATGGACTACCCCAGGCCGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTG
Celera SNP ID:            hCV8738452
SNP Position Genomic:     102092
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,29)   caucasian(A,6|C,34)   total(A,13|C,63)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32979):
TGCTGTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATCTTGTCAGCCATGCATCTGTGTGGCTGTTCCGA
S
GGGACTTTGTGATGGACTACCCCAGGCCGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGCCAACGGGAAGCCACTATCTCAGGTCTGTAT
Celera SNP ID:            hCV8738453
SNP Position Genomic:     102125
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,25)   caucasian(C,3|G,33)   total(C,4|G,58)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:32980):
TGGTCTTCATTGGGGGCATCAACTGTGCCAACAGGAAGCCACTATCTCAGGTCTGTATTGGTGCCTTCATCCAATCAATGTTCCAGGCAAAACACTTTTT
W
AAAAAATGTATTTATTTAAAATTGCTTCCATATTTACTTATCTTTCCAAATATTTCATTTCTGCTTCTCCTTGTCATAATAGCCTTCAGTGAGATAAACT
Celera SNP ID:            hCV1432157
SNP Position Genomic:     118403
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,30)   caucasian(A,20|T,18)   total(A,26|T,48)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32981):
ACAGGACTGCTGCTTCTCCTCAGTGTCCAGCCCTGGGCTGAGAGTGGAAAGGTGTTGGTGGTGCCCATTGATGGCAGCCACTGGCTCAGCATGCGGGAGG
Y
CTTGCGGGAGCTCCATGCCAGAGGCCACCAGGCAGTGGTCCTCACCCCAGAGGTGAATATGCACATCAAAGAAGAGAACTTTTTCACCCTGACAACCTAT
Celera SNP ID:            hCV1432158
SNP Position Genomic:     117625
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32982):
TGTCCGTGTCTTCTGCTGAGATGGCCACAGGACTCCAGGTTCCCCTGCCGTGGCTGGCCACAGGACTGCTGCTTCTCCTCAGTGTCCAGCCCTGGGCTGA
R
AGTGGAAAGGTGTTGGTGGTGCCCATTGATGGCAGCCACTGGCTCAGCATGCGGGAGGTCTTGCGGGAGCTCCATGCCAGAGGCCACCAGGCAGTGGTCC
Celera SNP ID:            hCV1432159
SNP Position Genomic:     117566
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32983):
GGCTGGTGAGAGTGGCGGGGAGAGAGGGCTCACCTTGGGAGAAGGATGGTCAGTGTCTGGGGCTTTCCTGGTCATGTTCCAAATCAGGCTTGGCAGGAGT
Y
CTGCTGTGCAAATTGCGTTTGCTGAGCCCTGTCAGAGGTCTCCTGTGTCTCACATCTAGGGTGACCAGCATCCTGGCTTCCTCAGGACTGTTCAGGTTTT
Celera SNP ID:            hCV16063250
SNP Position Genomic:     153399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32984):
GAGAGTGGCGGGGAGAGAGGGCTCACCTTGGGAGAAGGATGGTCAGTGTCTGGGGCTTTCCTGGTCATGTTCCAAATCAGGCTTGGCAGGAGTCCTGCTG
K
GCAAATTGCGTTTGCTGAGCCCTGTCAGAGGTCTCCTGTGTCTCACATCTAGGGTGACCAGCATCCTGGCTTCCTCAGGACTGTTCAGGTTTTAGCACTG
Celera SNP ID:            hCV16063251
SNP Position Genomic:     153406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32985):
CTGGGGCTTTCCTGGTCATGTTCCAAATCAGGCTTGGCAGGAGTCCTGCTGTGCAAATTGCGTTTGCTGAGCCCTGTCAGAGGTCTCCTGTGTCTCACAT
Y
TAGGGTGACCAGCATCCTGGCTTCCTCAGGACTGTTCAGGTTTTAGCACTGAACATCACATGTCCTAGGGAACCCCTCAGTTTGGGCAAGCCCTGCCACA
Celera SNP ID:            hCV16063252
SNP Position Genomic:     153455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32986):
ATTTCTGGGTATTCTATTCTGTTCCAATGATCTTTTTGTGAAATATTTGATTACTATAGATTTGTAATAAGTCTTGAAATTAGGTAATAATTGCTCTCCA
T
TTTTTTTTCTATTTTTTAAAAGTTATTTTTGCTATTGTAGGTCTTTTACATTTCCCTATGAATTTTAGAATCAGTTTGCCAATTTGTACAAAAAGATAGC
Celera SNP ID:            hCV9084197
SNP Position Genomic:     57627
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32987):
CAGATGCCATGACTTTCAAGGAGAGAGTATGGAACCACATCGTGCACTTGGAGGACCATTTATTTTGCCAGTATCTTTTTAGAAATGCCCTAGAAATAGC
Y
TCTGAAATTCTCCAAACCCCTGTCACGGCATATGATCTCTACAGTCACACATCAATTTGGTTGTTGCGAACGGACTTTGTTTTGGACTATCCCAAACCCG
Celera SNP ID:            hCV25758491
SNP Position Genomic:     25575
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,31|T,5)   total(C,61|T,9)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,4)   caucasian(C,27|T,5)   total(C,41|T,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:32988):
GACTCACGAGGGCCTGGGGCTGGTGAGAGTGGCGGGGAGAGAGGGCTCACCTTGGGAGAAGGATGGTCAGTGTCTGGGGCTTTCCTGGTCATGTTCCAAA
W
CAGGCTTGGCAGGAGTCCTGCTGTGCAAATTGCGTTTGCTGAGCCCTGTCAGAGGTCTCCTGTGTCTCACATCTAGGGTGACCAGCATCCTGGCTTCCTC
Celera SNP ID:            hCV16029435
SNP Position Genomic:     153382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32989):
TGATAAAATTGTTTCAAATATGAAAACATTTACGTAGCATTTAATAGCGTTGTTTCAAATATAAAAACAAATACATAAAAATCTGGATTTTTATTTCTTC
Y
TTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCTAGGCTGGAGTGCAGTGGTGCAATCTTGGCTTACTGCAACCTCCACCTCCCACGTT
Celera SNP ID:            hCV16029436
SNP Position Genomic:     156956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32990):
ACTATTAAGATTGCTACATGGTTATACAGTTTTAGTTTATTTATATGGTATGTTACTTAGATTTATTTTTAAAGCTTATTTATTTTATCATTAATTATGG
K
GAAATACACATAGCATAAACCTTGTCATCTTCACCACTTTAGGTGCACAGTTCAGTATCCAGTGTATTCACATTGCTGTGCAACCAACACCACCATTCAT
Celera SNP ID:            hCV9082305
SNP Position Genomic:     51346
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32991):
AGGTCATCACTCTCAAGTTTAAAGTTCCACAGATTCCTAGAGCATGGACTCAATGCAGCCAAGTTCTTTGTTAAGGCATAGCAAGGGTGACCTTTGCTCA
M
GTTCCAAATAACTTCCTCATTTTCACATGAGACCTCATTAGCCTGGCCCTCACTGCTGATTTTTCTATCAGTATTTTGGTCACAAGCATTTAACCAGTCT
Celera SNP ID:            hCV9082306
SNP Position Genomic:     52508
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32992):
CACTAATTTACTTTCTGTCTGTATGGATTTGCCTATTCTGGGCATTTCATGGAAATGGAAGCCTTTATGACTGGCTTCTTTCACTTAGTTTTGTGGCTTA
W
CCATGTTGTAGCATGAATCAGTATTTCATTCCTTTACATGGCCGAATATTCCATTGTATGGATTTACCGCATTTTTTTTATCCATTCATCAGTTGGTGGA
Celera SNP ID:            hCV11742205
SNP Position Genomic:     76581
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32993):
TATGTATTTATGACTATACGTGTAAAGCCAGCGGAGTTCTCACAGAGGAATTCAGAACTCAAAGAAGGCTTTCCGGCAAAGAGCCTTGGATATGGCCCAA
Y
CACAGAAGTAAATTGTCATTGACAGAAGGATGGACACTTCATATTGCTCCTTCCTTGTTTCAGATGCCAGGATGTGTCTGGGAAAAGCATGCAGTTGGTT
Celera SNP ID:            hCV11742135
SNP Position Genomic:     63214
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32994):
AAGATGAAGAAAGCAAATGTAGCAGGCACAGCGTGGGGTGGACAGTCAGCTGTCCGTGTCTTCTGCTGAGATGGCCACAGGACTCCAGGTTCCCCTGCCG
Y
GGCTGGCCACAGGACTGCTGCTTCTCCTCAGTGTCCAGCCCTGGGCTGAGAGTGGAAAGGTGTTGGTGGTGCCCATTGATGGCAGCCACTGGCTCAGCAT
Celera SNP ID:            hCV1432160
SNP Position Genomic:     117516
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32995):
ACAGTGATAGATTAATGGTTAATAATTAACTAGAGGAGGGCACTCTGTCTTCCAATTACACGTTGATTTGCTAAGTGGCTCAGTGACAAGGTAATTAAGA
Y
GAAGAAAGCAAATGTAGCAGGCACAGCGTGGGGTGGACAGTCAGCTGTCCGTGTCTTCTGCTGAGATGGCCACAGGACTCCAGGTTCCCCTGCCGTGGCT
Celera SNP ID:            hCV1432161
SNP Position Genomic:     117420
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:32996):
TGTTCACAGCCTTGTGTTGGGAATTGGATGAGAAACAAGAGCTTGAACTTGGATGTTCCCCAGAGTGAGCACAGGGTCAGACGTGTTTTTCAAGATAGTC
R
TGATCGGTCTTTTCCAGGGTGGGGCCCACAGTGAAAAACAGTGATAGATTAATGGTTAATAATTAACTAGAGGAGGGCACTCTGTCTTCCAATTACACGT
Celera SNP ID:            hCV1432162
SNP Position Genomic:     117282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:32997):
CCAATTCAGACCACATGACATTCCTGCAAAGGGTCAAGAACATGCTCTACCCTCTGGCCCTGTCCTACATTTGCCATACTTTTTCTGCCCCTTATGCAAG
Y
CTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATCTTGTCAGCTATGCATCCGTGTGGCTGTTCCGAGGGGACTTTGTGATGGACTACCCCA
Celera SNP ID:            hCV25963406
SNP Position Genomic:     107878
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,39)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:32998):
TGTAGATACTTTTGTGGGGCTGTGATTCTGCCTACCACAGACACTAAGCTTAAAGTGAAACCCACATCTTATTCAAGGCTTGGAGGTTTTCCTCTATTCG
R
CCATTTAAATTTAATTTTTGTTCCTTTTCTCCATAGTCTTCTATTCTCCAGGCTTCAGAGCTATCAGCTTACCATTCAATTATCTCCTTTTTTCCTGATC
Celera SNP ID:            hCV1432163
SNP Position Genomic:     115180
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:32999):
CAGAACACCAAATACCATTGTTTTCACTTAGAAATGGGAGCTAAATAGTGGGTACTTTTGGGCATAAAGATGGCAACAATAGACACTATGGACTCCTAAA
R
GGGAGAGGAAAGGCTGCAAGAGTTGAAAAACTATTGGGTACTATGCTCAGTACTTGGGTGATGGGAGCAATCATGCCCCAAACATCAGCATCACACAATA
Celera SNP ID:            hCV11742139
SNP Position Genomic:     66538
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33000):
CTTTTCACAGAACTTTCTGTGCGACGTGGTTTATTCCCCGTATGCAACCCTTGCCTCAGAATTCCTTCAGAGAGAGGTGACTGTCCAGGACCTATTGAGC
Y
CTGCATCTGTCTGGCTGTTTAGAAGTGACTTTGTGAAGGATTACCCTAGGCCCATCATGCCCAATATGGTTTTTGTTGGTGGAATCAACTGCCTTCACCA
Celera SNP ID:            hCV26000796
SNP Position Genomic:     149408
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,39)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:33001):
ATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATCTTGTCAGCCATGCATCTGTGTGGCTGTTCCGAGGGGACTTTGTGATGGA
Y
TACCCCAGGCCGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGCCAACGGGAAGCCACTATCTCAGGTCTGTATTGGTGCCTTTATCCAAT
Celera SNP ID:            hCV8738460
SNP Position Genomic:     102142
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,18)   caucasian(C,14|T,24)   total(C,32|T,42)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33002):
TTTTGGAATTTCATGGTACTTTTCCACTTTTAGGGAGATGCAGTGCAGCGTCTTCAAGTCTCCCACTCTTACGCCTGTCTCCTTCACTTGTAAGAGCCCT
Y
GTGATTACACTGTCCTGCCCAGATACCCAGGACAATCTCCCCATCTTAAAACTCTTAATTTAATCATATCTGTGAAGTCTCTTCCACCTGTAACGGAACA
Celera SNP ID:            hCV1432164
SNP Position Genomic:     114954
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33003):
TGTGTCACCTGGAGACCTTTGCCATGTTCGTGCCAATTTACTGAGTGCATGAAAGATCATTTACACCAAAATCTTTATCATGTATTATCTGTGACAGACA
Y
GCCATTATCATTTTTATTACATTGATTTCCTTTGTTATTTTGTCACCCTTACTTACTTGGTTTGGTTGACCCTTAGATTTGAAATTTTTCTACAAATATA
Celera SNP ID:            hCV1432167
SNP Position Genomic:     110613
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33004):
GGCTCATCTTGGATGCTTTGTTTACTTGGATAAGCTTAATGATGAGAGAATCTACATCTAAATTGTTATATTTAGCATTATTCTCTGCATTTTAAAGCAC
R
TGCAGCAAAAATCCAGCACCCTATTTGGGCCACCGACCTTGTGTCCAGCCCCACTGCTCGGCCCTGGGCACACTTGCCAGCCCCTCCATTGCAATATCGA
Celera SNP ID:            hCV1432168
SNP Position Genomic:     110156
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33005):
GTTATAGTGAGCACCCAATAAATATTATCTGTTATCATTCTTATTATTTTAGTTTAATTGCATTTATTTTATGCTGAATTTCTTCCAGAGCCATAGGTAA
W
TTTTTTCTTCAGTTTCTTCTGGGATATCTTTTTCTTCTGTGCAACCTCATCCTCAGGTTTAGGAACAATTTGTTCCTTATCAGTAAAGATCATCTTGAAT
Celera SNP ID:            hCV1432169
SNP Position Genomic:     109899
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33006):
CAAGAGCACCCTCCCAGGCATGTTCCACCCTCACCCCGGGCTCATCAGGAGGGTTCTTAAGATGCAGACAGTTTTAAGGGGGTTGGAGGAATAGTTGAGA
R
GCTGAGATGTTGCACCCACAGCTGAGAATCCCTTTCTAGCACTCTGTGTCCTCACAAATCCCCAGAAATCGTCCTCCCCTGGGGAGTTCTCAAGCCCTTA
Celera SNP ID:            hCV27503905
SNP Position Genomic:     105632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33007):
GACAGCGGGAGGGGCTCACTTTCTCAGTGCGCCACTGCTCAAACCTCTAGGGGAGCATACAGACGGGCAGGTTGTGGGGCTCTGACCTCACCGGCAGTGT
Y
TAGAGGTGGATGTTTACAGCTCCTGAAGCTCCAGTGGGCGTGGGTTATGGCCTTCTTTTAGTTTTGCCCTCTATAGTCAGCTTGTGTTAACCAGCTCAAT
Celera SNP ID:            hCV16063262
SNP Position Genomic:     154333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33008):
CTTACAATTGCTTCCATATCTACTTATCTTTCTGGTGCTTTTATTTCTGCTTGTCGTAATAGCCTTCAGTGAGATAAACTGTTAAGGGGTCTCTAGTAGC
R
TATTTCAGGTTTTAAATGGTCAATGAGAGGAAGAAGAGGCAGACATGAATGTTTATCAAAGGATGGACTAGGACTGATGTGACTCATGGAGACTGTTCGT
Celera SNP ID:            hCV25962397
SNP Position Genomic:     136603
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:33009):
TGCAGACCTGGGGATGGAATATGGTTACAGAGCAAGAAAAGATCTGTGCTTCCCCCATTCCTCTAAGTTTCTGGCTCCAGTTTAAGATCCAAATTCAAAG
K
TAGCTTTTGGTGGACAAGACTAAGGCCTCCCACTAAAATTGTTTACTTCAAGTATTTATTTTCAAAGTTTTCCAACCTATACAAAGGAGAGACTTAGTGT
Celera SNP ID:            hCV9096218
SNP Position Genomic:     9869
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33010):
ACTGTCTTTGTGTTTAGTTACAAGGAGAACATCATGCGCCTCTCCAGCCTTCACAAGGACCGCCCGGTGGAGCCGCTGGACCTGGCCGTGTTCTGGGTGG
M
GTTTGTGATGAGGCACAAGGGCGCGCCACACCTGCGCCCCGCAGCCCACGACCTCACCTGGTACCAGTACCATTCCTTGGACGTGATTGGTTTCCTCTTG
Celera SNP ID:            hCV27531745
SNP Position Genomic:     160717
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33011):
TCCCCAGCAGTTCCTCTGACCCCCCCAAAATATTCTCCAGCGGGTTTCCCAAGAGGTCAAAGGAGAATGGGTCCTGGCCGCCGAAGAACTCCCTGAAGAC
S
TCGGCTGGGTCGCGGAAGCTGAAGACGTACTCGAAGGGGTCCTCGAAGGGCCTGCCGCCTGTGCAGCCGCCCTCCGCCCCCGCCTCGCCATAGCGGTCAT
Celera SNP ID:            hCV25758644
SNP Position Genomic:     131982
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,20)   caucasian(C,6|G,26)   total(C,12|G,46)
SNP Type:                 INTRON


Context             (SEQ ID NO:33012):
GTTCCCTGGAGCATACATTCAGCAGAAGCCCAGACCCTGTGTCCTACATTCCCAGGTGCTACACAAAGTTTTCAGACCACATGACTTTTTCCCAACGAGT
K
GCCAACTTCCTTGTTAATTTGTTGGAGCCCTATCTATTTTATTGTCTGTTTTCAAAGTATGAAGAACTCGCATCAGCTGTCCTCAAGAGAGATGTGGATA
Celera SNP ID:            hCV25972736
SNP Position Genomic:     81993
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,4)   caucasian(G,38)   total(G,72|T,4)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,40)   total(G,75|T,3)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33013):
TTGGGGCTTGGTGGCTTTCAAAGCTCTTTCTATAATAACAGTGGCATCTTCAGTGGTGTAATCCTTCTGGACTTTCATGACATTCTCTATCCAGATTCTC
T
TTCCTAGTATTGACAACCTTTTCCATAGAAAACTGTGTGTAATGAGTTCTAAATTTCCTTAAGACACCTGATTGAGAGACTGAATTAGAGATGTTGGGTT
Celera SNP ID:            hCV11742140
SNP Position Genomic:     67429
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33014):
ATTTCATTCCTTTACATGGCCGAATATTCCATTGTATGGATTTACCGCATTTTTTTTATCCATTCATCAGTTGGTGGACATTTGGGTTGTTTCCCATTTT
Y
AGCCATGAAAAATAATGTTGTTGTGAACATTTGTATACGATAAACCCTGATGTTCTAATTTTCGAGCCCATGTGCCTAACCTCTATACCTGACTGCCTGC
Celera SNP ID:            hCV11742214
SNP Position Genomic:     76704
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33015):
TTAGCCATGAAAAATAATGTTGTTGTGAACATTTGTATACGATAAACCCTGATGTTCTAATTTTCGAGCCCATGTGCCTAACCTCTATACCTGACTGCCT
S
CCTGTGTTGACAGGAAACTTCTTGGGAAATGTCCTATCTCCATCCTTTTGGGAATGTCACATGCAGTGAAATGCGCCTAGAGTGGGTTTGACTTACATCA
Celera SNP ID:            hCV11742215
SNP Position Genomic:     76803
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33016):
AATAAGACCTTGTTTCTACAAAAAATTTAAAAATTGGCCAGACATAGTGGTGCATGACTAATTCCAGCTACTCTGGAGGCTGAGGCAGGAGGATGGCTTG
M
GCCCAGGAGTTGGAGGCTGCAGTTAGCCATGCTTGTGCCACTACACTCCAGCCCGGGCAACAGGGCAAGACTCTGTATCTAAAAACAACAACAACAACAA
Celera SNP ID:            hCV2669340
SNP Position Genomic:     160405
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,7)   total(A,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33017):
GTGTGGTCCCATTCCTTCCTTCCAGCGGCTTCTTCTGGCCACCTCAATGTCAGGATGTCCTGCTCACATATCAATACCATTAAAACCTGACTTCTTTCCC
K
GCACTGTTGAAGCTCCTTCTTGAGGCTCACATTATGGATATAATTTTGATTCTTTCTTCAGTGGTATAGATAACTACTTGTAACCTAAGAACAACTTGGT
Celera SNP ID:            hCV2669341
SNP Position Genomic:     158394
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33018):
ATTCACTATCAAGAGAACAGCATGGGAAAGACCTGCCCCCATGATTCAATTTTCCCACCAGGATCCTCCCACAACAGTGGGAATTGTGGGAGTTACAATT
S
AAGATGAGATTTAGGTGGGGACACAGCCAAACCATATGATTCCACCCTGGTCCCTCCCAAATCTCATGTCCTCACATTTCAAAACCAATCATGCCCTCCC
Celera SNP ID:            hCV28026194
SNP Position Genomic:     33661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33019):
TGAAAAACCAAATTCACACACCAATGAATTTGGTTTCTAAATCCATTAAGGGAGCCATCCTTTTTTTTTTTTTTTTCTTGAGACTGAGCCTCGTTCTGTC
R
CCCAGGCTGGAGGGCAGTGGCCGGATCTCCGCTCACTGCAACCTTCACCTCCCGGGTTTAAGAAATTCTCCCACCTCAGTCTCCTGAGTAACTGGGACTG
Celera SNP ID:            hCV1432170
SNP Position Genomic:     109104
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33020):
TATTATTCACTTTATAAAAGGATTCTTTAGTTTCTATATAATTTATCATATAATTTATTTAGAATTTTATTTCCCCCATTAGATTTAAAACTCCAATTTA
Y
ATAAAAAGTTGCCATAATAGACATCTGATCCATAAGTTTCCTGCACAGAAAGAAATACTCCATTATAAGAAGCATAGTATCTTTAAGAGAAAAACAACTC
Celera SNP ID:            hCV2669342
SNP Position Genomic:     157385
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33021):
AGTTCTTTTGATGCGGTGTTTCTTGATCCTTTTGATGCCTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCCCTCTGTGGTCTTCGCCAGGGGAATAG
S
TTGCCACTATCTTGAAGAAGGTGCACAGTGCCCTGCTCCTCTTTCCTATGTCCCCAGAATTCTCTTAGGGTTCTCAGATGCCATGACTTTCAAGGAGAGA
Celera SNP ID:            hCV11742072
SNP Position Genomic:     6580
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33022):
ATTTGTCTTTTTGCACATTAGTATGTAAACACTCTTTAATACTTTCTTTACATTACTATATTTCCATATTCGTAGCCTCTGATGAATTCTTCATCATGTG
S
ATCCCCAGCAGCTTTACTTCTCTCATTGAACCCTGACTGCTATAGAATGGAAGTAGTGGCTGTGGCAAAGTAGTGCCTTGTACACTTTTTGACTTGAAAT
Celera SNP ID:            hCV28026195
SNP Position Genomic:     53771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33023):
CTTCACAGTTACTGATCCTCCCACTCTGTTAAAGACTGTTCCTTCAGAGGACCCCTGTTTTCTAGTTAGTATAGCAGATTTGTTTTCTAATCATATTATG
Y
TCTTTCTTTACGTTCTGCTCTTTTTGCCCCTCCCAGGTCCTGTGGCGGTACACTGGAACCCGACCATCGAATCTTGCGAACAACACGATACTTGTTAAGT
Celera SNP ID:            hCV2669343
SNP Position Genomic:     156185
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(C,1|T,37)   total(C,4|T,68)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33024):
ATACATCATAATTACTGTCTGTTTTTTTCTCTTTGATGTATTTAAAAATGCTTTTATACAGTACTAATCCTTCTTCCCCATTTGCTTTAGTTTCAGTGCC
Y
ATAAGGGTTCATGTTGTAATAGAAGTCAATAGCAGTCTTAAATAACTGGAAGCCTTTCCATGAGGCTTGTATTGTGTAAGGCCATTTTTTTTTTCTGGCA
Celera SNP ID:            hCV11742073
SNP Position Genomic:     14578
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33025):
ATGAGTTCTAAATTTCCTTAAGACACCTGATTGAGAGACTGAATTAGAGATGTTGGGTTTGGAAGCACGTAGACCATTTTGACACCTTCAGTGTTGAACT
Y
ATGGATTCTGGGTGGCTAGGGAATGGTCCAATATCGAAAGAACTTTAAAAGACAGTCCCTTGCTGGCAATGCATTTTCTGCCTTCACGGACAAAGCCTTG
Celera SNP ID:            hCV11742146
SNP Position Genomic:     67571
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33026):
TCTGAAATTCTCCAAACACCTGTTACGGAGTATGATCTCTACAGCCACACATCAATTTGGTTGTTGCGAACGGACTTTGTTTTGGACTATCCCAAACCCG
W
GATGCCCAACATGATCTTCATTGGTGGTATCAACTGCCATCAGGGAAAGCCGTTGCCTATGGTAAGTTATCTCTCCTTTAGCACCTTAAGAATACTTCAC
Celera SNP ID:            hCV28026196
SNP Position Genomic:     61098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33027):
CAGAGACGCTCCTCACCTCCCAGATGGGGTCTCGCCGGGCAGAGGCGCTCCTCACATCCCAGATGGGGCGGCGGGGCAGAGGCGCTCCCCACATCTCAGA
S
GATGGGCGGCCGGGCAGAGACGCTCCTCACTTCCTAGATGTGATGGCGGCTGGGAAGAGGCGCTCCTCACTTCCTAGATGGGATGGCGGCCGGGTGAAGA
Celera SNP ID:            hCV28026197
SNP Position Genomic:     112955
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33028):
CCTACTGTATCATAGCAGCTTAGAATCCCAGCTGCTGGCTCGGGCTGCAGTTCTCTCATGGCTCGCACAGGGTGGACCAGCCCCATTCCCCTATGTGTTT
S
TCTGCTGCTGACCTGTGGCTTTGCTGAGGCAGGGAAGCTGCTGGTAGTGCCCATGGATGGGAGTCACTGGTTCACCATGCAGTCGGTGGTGGAGAAACTT
Celera SNP ID:            hCV27155317
SNP Position Genomic:     6106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33029):
TGAGTTCTAAATTTCCTTAAGACACCTGATTGAGAGACTGAATTAGAGATGTTGGGTTTGGAAGCACGTAGACCATTTTGACACCTTCAGTGTTGAACTC
R
TGGATTCTGGGTGGCTAGGGAATGGTCCAATATCGAAAGAACTTTAAAAGACAGTCCCTTGCTGGCAATGCATTTTCTGCCTTCACGGACAAAGCCTTGA
Celera SNP ID:            hCV11742147
SNP Position Genomic:     67572
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33030):
TAAATAAACCCATAAAGCCATTTGAGAGATTCTTGGGGGATTCATTGGACCACTGAAAATCTACAGTGAGAAAAGAATTGCCATGTTGATGAAACAGGAA
R
ACTTTCCTTGTCCCCCTCACAGAGCATGTGACAGCGGGAGGGGCTCACTTTCTCAGTGCGCCACTGCTCAAACCTCTAGGGGAGCATACAGACGGGCAGG
Celera SNP ID:            hCV2669345
SNP Position Genomic:     154203
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33031):
CACCCTGTAATTGCCTAGTTGTGAGTTTGTCTCTGTTCACCTGACCCCTCCTTTCAGGCAAGGACCATTTCTAACTTGGCTTTCTGTCCCGAGTTCCTAG
M
ATAGTAGGTAGGGCTCACACATTCCATAAATATTTGGTGGATAAGGGAATTAGCAATGGATTCTGCTTTGGTTCCAAAGCAGAGATTAATTGGATTGCTT
Celera SNP ID:            hCV28026198
SNP Position Genomic:     135026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33032):
GTTCATCCAATGGTTTTTTTAACTTATTTTTTTCGCATTGCAGGAGTTTGTTTAATGACCGAAAATTAGTAGAATACTTAAAGGAGAGTTCTTTTGATGC
R
GTGTTTCTTGATCCTTTTGATGCCTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCCCTCTGTGGTCTTCGCCAGGGGAATAGCTTGCCACTATCTTG
Celera SNP ID:            hCV27155318
SNP Position Genomic:     6494
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33033):
ATGGTTTTTTTAACTTATTTTTTTCGCATTGCAGGAGTTTGTTTAATGACCGAAAATTAGTAGAATACTTAAAGGAGAGTTCTTTTGATGCGGTGTTTCT
K
GATCCTTTTGATGCCTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCCCTCTGTGGTCTTCGCCAGGGGAATAGCTTGCCACTATCTTGAAGAAGGTG
Celera SNP ID:            hCV27155319
SNP Position Genomic:     6503
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33034):
TTAAATAACTGGAAGCCTTTCCATGAGGCTTGTATTGTGTAAGGCCATTTTTTTTTTCTGGCACTGCTTCTTCTACATCTTCTTTCTCATCAAGTAGTGA
W
TGGAAAGCACTAATCTCTATCAGGTCATCTATTAATTCCTCGAGTGTGGTGTCTATTGACTCTTGAATTTCTCCAAGATTCATATTTTGAAACACTTTAT
Celera SNP ID:            hCV11742076
SNP Position Genomic:     14716
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,9)   total(A,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33035):
ACAGAAAATCAAACACCGCATGTTCTCACTCATAAGTGGGAGTTGAACAGTGAGAATGCGTAGACGCAGGGAGGGGAACAACACACACCAGGGCTTGTGG
S
GGGGTGAGGGGTGAGGGGAGGAACTTAGAGGATAGGTCAATAGGTGCAGCAAACCACCATGGCATATGTATCCCAGAACTTCAAGTAAATAATAATAATA
Celera SNP ID:            hCV2669347
SNP Position Genomic:     153979
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33036):
GTTTGCACATGTATGTGTTTGTGTATGTGCAGGTGTGTTTGCGTGCAGTGTCCCAGACCCTGCACAGGGGATTTCTTGAAGATCTCCTGTAACAAAATCT
Y
CTTGAGTCTATCCAGGAGAATTACAGCCAGGGATGTAATTAAATACTTTAACAATGATGGCAGATGGCCCCATCTCCAATTTCAACATGGGATTTGGAGG
Celera SNP ID:            hCV11742077
SNP Position Genomic:     28048
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33037):
CCAAAGATTTTATTTTGGCTTCTTTATAACAGATAAACTGTTGAGGGGCCTAGTGTATTTCAAGTTTTCAGTGGTCACTGAGAGGAAGAAGAGGCACGGA
Y
GAGGGTCTGTCAGAGGATGGACAAGGACTGCTGTGACTCACGGACAGTGTTTGTAAAGGCACCATCTTCATGGTTGTGCATGTCCTTCAGCTCGGCAGGA
Celera SNP ID:            hCV1432176
SNP Position Genomic:     108242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33038):
TGGAGCATTCAGTCTTTCACCATCAAGGATGATATTAACTGTGGGTGCCTCCAAGATGTCCTTCATTAGTTTAAGATACTTCCCTTTATTTTCCGAGTTT
K
TTGAGAATTTTTTATCACAAATCGATTTTGGATTTTTGTCAAACACTTTTTCCATACCTATTGAGATAATTATATGCTTATACTTTTTTAGTTTATTTAT
Celera SNP ID:            hCV9096220
SNP Position Genomic:     17160
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33039):
CTCTGTTTAGAGAAAGCTGGCTTAGCAATGTTGTATGTCTTTTGGATGTGCTGTGTTATTCACATATGAGAAGAAAGAGTTTCAAGGGTTAGCAAATAGC
R
TCACATTCAGCAGAGAACATGTGGTTGGGGACTAGGGCAATGGTGACTCCTCAGACCTCAGCTGCAGCCTGATAAATATGGTTAACAGAGTAGAAGGCAG
Celera SNP ID:            hCV1432178
SNP Position Genomic:     106761
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,14)      total(G,14|A,2) ;JBIC-allele(A,192|G,1283)   total(G,1283|A,192)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33040):
TGAAAAAAGACCAAAACCAGATAGCCAGCCTGAACACTCTCTGTTTAGAGAAAGCTGGCTTAGCAATGTTGTATGTCTTTTGGATGTGCTGTGTTATTCA
Y
ATATGAGAAGAAAGAGTTTCAAGGGTTAGCAAATAGCGTCACATTCAGCAGAGAACATGTGGTTGGGGACTAGGGCAATGGTGACTCCTCAGACCTCAGC
Celera SNP ID:            hCV1432179
SNP Position Genomic:     106723
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,15)      total(C,15|T,2) ;(T,-|C,-)   JBIC-allele(T,193|C,1298)   total(C,1298|T,193)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33041):
ACCTATGCCATTTCATGGACCCAGGATGAATTTGATCGCCTTGTGCTGGGCCACACTCAACTGTACTTTGAAACAGAACATTTTCTGAAGACATTTTCTA
R
AAGTATGGCAATTTTGAAAAATTCATCTTTGGTCTTTCATAGGTCTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATGCTACTTCC
Celera SNP ID:            hCV25968863
SNP Position Genomic:     135906
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,2)   caucasian(A,16|G,2)   total(A,44|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:33042):
GTCTCTAAAGAGAGGTCTGCTGTTAGTCTGATGAACTTCTTTTCGTGTGTAACAGGACCTTTCTCTCTGGCTGCCCTTAACATTTTTCCTTCATTTCAAC
S
TTGGTGAATCTGATGATTATGTGTCTTGGAGTTGCTTTTCTCGAGGAGTATCTTTATGGTGTTCTCTGTGTTTCCTGAATTTGAATGTTGGCCTGTCTTG
Celera SNP ID:            hCV9096227
SNP Position Genomic:     23612
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33043):
AAAAGATCTGTGCTTTCCCCATTGCTCTAAGATTCTGGCTATAGTCCAAGATCCAAATTCAAAGTTAACTTTTGGTTGACAAGACTAAGGCCTCCCACTA
R
AATTGTTTACTTCAAGTATTTATTTTCAAAGTTTTCAAACATACAAAATGAAAAGACTATAGTGTAATGTGCACCTGTATATCAATCCTTAGGCTAAATA
Celera SNP ID:            hCV9096228
SNP Position Genomic:     28528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33044):
ACCACCTCTCTCATTCCTAATATTGATAATTTCTTTCTTCTCTCTTTTTTTTTCAGATCAAGGTGGCTAGAGCTTTACCAAATTAATTGATCTCAACAAA
Y
CAGCTTTGGTTTCATTAATTTTCTCAACAAACCAGCTTTGGTTTCATTAATTTTGCCTGTTTTTTAAATGCATTTTCCATTTCATTGATTTCTGTTCTGA
Celera SNP ID:            hCV16063275
SNP Position Genomic:     18429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33045):
GCGGGTTTCCCAAGAGGTCAAAGGAGAATGGGTCCTGGCCGCCGAAGAACTCCCTGAAGACGTCGGCTGGGTCGCGGAAGCTGAAGACGTACTCGAAGGG
K
TCCTCGAAGGGCCTGCCGCCTGTGCAGCCGCCCTCCGCCCCCGCCTCGCCATAGCGGTCATAGATATCGCGTTTCTTGGCGTCCGACAACACCTCGTAGG
Celera SNP ID:            hCV25758580
SNP Position Genomic:     132021
SNP Source:               Applera
Population(Allele,Count): african american(G,32|T,2)   caucasian(G,37|T,1)   total(G,69|T,3)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,1)   caucasian(G,38)   total(G,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33046):
TCGTAGTCATGCCAGAGGTGAGTTGGCAACTGGGAAGATCACTGAATTGCACAGTGAAGACTTACTCAACCTCATACACTCTGGAGGATCAGGACCGGGA
R
TTCATGGTTTTTGCCGATGCTCGCTGGACGGCACCATTGCGAAGTGCATTTTCTCTATTAACAAGTTCATCCAATGGTATTTTTGACTTATTTTTTTCAA
Celera SNP ID:            hCV25969303
SNP Position Genomic:     70575
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,26)   caucasian(A,6|G,32)   total(A,12|G,58)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33047):
TCTGCTTCTGCTTCCCCAGCAGTTCCTCTGACCCCCCCAAAATATTCTCCAGCGGGTTTCCCAAGAGGTCAAAGGAGAATGGGTCCTGGCCGCCGAAGAA
Y
TCCCTGAAGACGTCGGCTGGGTCGCGGAAGCTGAAGACGTACTCGAAGGGGTCCTCGAAGGGCCTGCCGCCTGTGCAGCCGCCCTCCGCCCCCGCCTCGC
Celera SNP ID:            hCV25758657
SNP Position Genomic:     131970
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33048):
GCTGAGTGTGGTGGCTCACACATGTAATCACAGCACTTTAGGAGGCCAAGGCAGGAAGATCACTTAAGCCCAGGAGTTTGAGACCAGCCTGGACAACATA
S
GGAGACACTGTCTCTACAAAAAATGTTTTAAAAATTAGCTGGGCCTGGTGGCATATGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCTC
Celera SNP ID:            hCV9084861
SNP Position Genomic:     76084
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33049):
TGCTTTTTAAAAATTTCTCACACCAGTTACCCTAAATCATCTTTCTAAGGTTCAAAGTTCCACAAATCACTAGGTCAGGGGCAAAATGCTGCCAGTCTCT
T
TGCTAAAACATAACAAGAGTCACCTTTCCTCCAGTTCCCAACGAGTTCCTCATCTCCATTTGAAACCACCTCAGTCTGGACTTTATTGTCCATATTGCTA
Celera SNP ID:            hCV15824763
SNP Position Genomic:     34982
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33050):
TGGGCTGAGAGTGGGAAGGTGCTGGTGGTACCCATTGATGGCAGCCACTGGCTCGCATGCGGGAGGCCGTGCGGGAGCTCCATGCCAGAGGCCACCAGGC
R
GTGGTCCTCACCCCAGAGGTGAATATGCACATCAAACAAGAGAAATTTTTCACCCTGACAACCTATGCCATTTCATGGACCCAGGATGAATTTGATCGCC
Celera SNP ID:            hCV25970063
SNP Position Genomic:     135745
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,22)   caucasian(G,20)   total(A,10|G,42)
SNP Type:                 INTRON


Context             (SEQ ID NO:33051):
CTTGAACTTGGATGTTCCCCAGAGGCAGCACAGGGTCAGATGAGCTTTTCAAGATAGGCGTGATTGGTCTTTCCCAGGGTTGGGCCCATAACGAAAGGCA
R
TTATAGATTAATGGGTAATAAGTAACTGGAGGAGGGCACTTTGTCTTCCAATTACATGCTGATTTGCTAGGTGGCTCAATGACAAGGTAATTAAGGCGAA
Celera SNP ID:            hCV27470656
SNP Position Genomic:     107017
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,195|G,1305)   total(G,1305|A,195) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33052):
GGAAGATGGCAGGTGCAGCATGAAGCCAAATGTTTGGAATCATAGCATGTTCTTTCCCTTCATCCCTATGTCCCAGGGTCTCTTTACTTCATAAACATGG
S
CAAGTGGAAATCCTACTTTATGTCTCTTCTGTATAATCCCTTTGTCATGGCTTAACTTAGTGGCCTGTGCCCCTCCCCACTGCTCCTGGAACCACAACCC
Celera SNP ID:            hCV11742220
SNP Position Genomic:     77383
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,8)   total(G,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33053):
TAGTGGCCTGTGCCCCTCCCCACTGCTCCTGGAACCACAACCCACATTGTTACAAGCCCCTGAAGGAAGTTATAAACACCTTATCTTCTACTAGGACAGG
W
GCCCCTGGAACTGTCTGGCTGGGCAAGCCATACTTACCTGCACTTCCCTATTCCATCTGTGAGTGATTCAGACTTGACTATTGTTATCACACTAAACTAA
Celera SNP ID:            hCV11742221
SNP Position Genomic:     77541
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33054):
CTTATTTTTTTCGCATTGCAGGAGTTTGTTTAATGACCGAAAATTAGTAGAATACTTAAAGGAGAGTTCTTTTGATGCGGTGTTTCTTGATCCTTTTGAT
R
CCTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCCCTCTGTGGTCTTCGCCAGGGGAATAGCTTGCCACTATCTTGAAGAAGGTGCACAGTGCCCTGC
Celera SNP ID:            hCV27155320
SNP Position Genomic:     6516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33055):
GGAGTTTGTTTAATGACCGAAAATTAGTAGAATACTTAAAGGAGAGTTCTTTTGATGCGGTGTTTCTTGATCCTTTTGATGCCTGTGGCTTAATTGTTGC
Y
AAATATTTCTCCCTCCCCTCTGTGGTCTTCGCCAGGGGAATAGCTTGCCACTATCTTGAAGAAGGTGCACAGTGCCCTGCTCCTCTTTCCTATGTCCCCA
Celera SNP ID:            hCV27155321
SNP Position Genomic:     6536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33056):
ATACTTAAAGGAGAGTTCTTTTGATGCGGTGTTTCTTGATCCTTTTGATGCCTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCCCTCTGTGGTCTTC
R
CCAGGGGAATAGCTTGCCACTATCTTGAAGAAGGTGCACAGTGCCCTGCTCCTCTTTCCTATGTCCCCAGAATTCTCTTAGGGTTCTCAGATGCCATGAC
Celera SNP ID:            hCV27155322
SNP Position Genomic:     6567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33057):
GAGCTCTGTTCCCTTTGCAACCTTCCTGGAGTCTTATTGCTATCTAGATGAACTCAAAGCAAGATGCTGCCGCCCCCATGACTTTGATCATTGTAAGCTG
S
CAATCCTCTTGGGAGGCTGCTCCCAGCTTGGACTGAGCTGAGTCTTCGCATGCCTTGAACAATGAATTTGCATCCTGGTTATGTTCCCCATGGGGGCCAG
Celera SNP ID:            hCV11742225
SNP Position Genomic:     79657
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33058):
CCACTATCTTGAAGAAGGTGCACAGTGCCCTGCTCCTCTTTCCTATGTCCCCAGAATTCTCTTAGGGTTCTCAGATGCCATGACTTTCAAGGAGAGAGTA
Y
GGAACCACATCATGCACTTGGAGGAACATTTATTTTGCCAGTATTTTTCCAAAAATGCCCTAGAAATAGCCTCTGAAATTCTCCAAACACCTGTCACAGC
Celera SNP ID:            hCV27155323
SNP Position Genomic:     6684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33059):
AGAAGGTGCACAGTGCCCTGCTCCTCTTTCCTATGTCCCCAGAATTCTCTTAGGGTTCTCAGATGCCATGACTTTCAAGGAGAGAGTACGGAACCACATC
R
TGCACTTGGAGGAACATTTATTTTGCCAGTATTTTTCCAAAAATGCCCTAGAAATAGCCTCTGAAATTCTCCAAACACCTGTCACAGCATATGATCTCTA
Celera SNP ID:            hCV27155324
SNP Position Genomic:     6696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33060):
GCCCTGCTCCTCTTTCCTATGTCCCCAGAATTCTCTTAGGGTTCTCAGATGCCATGACTTTCAAGGAGAGAGTACGGAACCACATCATGCACTTGGAGGA
M
CATTTATTTTGCCAGTATTTTTCCAAAAATGCCCTAGAAATAGCCTCTGAAATTCTCCAAACACCTGTCACAGCATATGATCTCTACAGCCACACATCAA
Celera SNP ID:            hCV27155325
SNP Position Genomic:     6710
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33061):
TTCTAAATTTCCTTAAGACACCTGATTGAGAGACTGAATTAGAGATGTTGGGTTTGGAAGCACGTAGACCATTTTGACACCTTCAGTGTTGAACTCATGG
R
TTCTGGGTGGCTAGGGAATGGTCCAATATCGAAAGAACTTTAAAAGACAGTCCCTTGCTGGCAATGCATTTTCTGCCTTCACGGACAAAGCCTTGATGGA
Celera SNP ID:            hCV11742154
SNP Position Genomic:     67576
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33062):
GCTCTGGGCAAGTCTGTTCTAGTAATTCAAGGTACCACCTCTCACTGGGACAGCCTAGTTTCTACACAGGTCTTGCTCTGGGACCGCCCTCAGCAGTGTG
R
TTAGCAGGCAGGGCCAGTGTGACCCTCCCTTTCTGGGCCTCAGTTGAGAAACCTGAAGCTCAGGAGAGGAGTCACTCCCCTGGCAGATGGGTGGCTGGGC
Celera SNP ID:            hCV11742228
SNP Position Genomic:     79990
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33063):
TCCTTCCTCCTATATTCCTAAGTTACTAACGACCAATTCAGACCACATGACATTCCTGCAAAGGGTCAAGAACATGCTCTACCCTCTGGCCCTGTCCTAC
M
TTTGCCATACTTTTTCTGCCCCTTATGCAAGTCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATCTTGTCAGCTATGCATCCGTGTGGCT
Celera SNP ID:            hCV25963351
SNP Position Genomic:     107846
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,1)   caucasian(A,39|C,1)   total(A,72|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:33064):
AAATACCTAGGAGCCCTGTGATTTGGAGAGTGAAAACTCTTTATTACCGTTGTTACTTTAACTCTTTCCAGGATGGCCTGCCTCCTTCGCTCATTTCAGA
G
AATTTCTGCAGGGGTTTTCTTCTTAGCACTTTGGGGCATGGTTGTAGGTGACAAGCTGCTGGTGGTCCCTCAGGACGGAAGCCACTGGCTTAGTATGAAG
Celera SNP ID:            hCV11742229
SNP Position Genomic:     81395
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,14)   total(G,1|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33065):
AGGAGAGAGTACGGAACCACATCATGCACTTGGAGGAACATTTATTTTGCCAGTATTTTTCCAAAAATGCCCTAGAAATAGCCTCTGAAATTCTCCAAAC
M
CCTGTCACAGCATATGATCTCTACAGCCACACATCAATTTGGTTGTTGCGAACAGACTTTGTTTTGGACTATCCCAAACCCGTGATGCCCAATATGATCT
Celera SNP ID:            hCV27155326
SNP Position Genomic:     6773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33066):
GTTGACAAGACTAAGGCCTCCCACTAAAATTGTTTACTTCAAGTATTTATTTTCAAAGTTTTCAAACATACAAAATGAAAAGACTATAGTGTAATGTGCA
M
CTGTATATCAATCCTTAGGCTAAATAATTTTCAGTGTTTTGCTGTATTAATTCATCTATCCCCTTATTCTGACCTTTTAAAGAAACTTTTTGGCTGTCAT
Celera SNP ID:            hCV11742083
SNP Position Genomic:     28602
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,11)   total(A,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33067):
TCCTCCAGTTATATTTTGGCTCTTGAATAGGTTTTGCTTTATACATAGTGATTAGATTGGTGCATGTAGGTTTGAGGTTTGAGACTTATATTTTCTTCAC
W
GTTTGCTGTTATCATTAAATAATAATCCTTAAAATACATTTTATCTGATATCAGTAATGTGACTCCTATGTTATTTTTTGAATTCCCCATCTCTTTTAAT
Celera SNP ID:            hCV1432182
SNP Position Genomic:     103734
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,5)   total(A,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33068):
AGGAGAACTTAGACTCGGCCTTTTCCAGATGAGCTTCAGTGTAAGAGTGGGTTTCATGAAGAGCAAAGGTCCTAGGAAATTTAAGTAAGCCATTTACCAA
Y
GCTCAGAAGAAAGAACTTGAAGAGCACTTGGAAATGAGCTGTGTCTCCCCAAGAAAGAGGGAGAGAAAGAGGGGAGAGATGTGGTGCAGACCCTAGGGAG
Celera SNP ID:            hCV2669354
SNP Position Genomic:     153036
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33069):
TACGGAACCACATCATGCACTTGGAGGAACATTTATTTTGCCAGTATTTTTCCAAAAATGCCCTAGAAATAGCCTCTGAAATTCTCCAAACACCTGTCAC
R
GCATATGATCTCTACAGCCACACATCAATTTGGTTGTTGCGAACAGACTTTGTTTTGGACTATCCCAAACCCGTGATGCCCAATATGATCTTCATTGGTG
Celera SNP ID:            hCV27155327
SNP Position Genomic:     6782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33070):
ACCATGTATTTTCAAATGGCCTGTCTTCAAGCTCAGTAATTATTTCTTGTGTTTGGTCCATTCTGCTATTAAAGGACTTTGATGCATTCTTCATTATGCC
R
ATTGCATTTTTCAGCTCCAGAATTTCTGCTTGATTCTTTCTAATGATTTCAATCTCTTTGTTAAATTTATATGCTGGAATTCTGAATTCCTCCTCTGTGT
Celera SNP ID:            hCV11742084
SNP Position Genomic:     30684
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33071):
GTCTGGAGTGCAGTGGTGGGATCTTGGCTCATTGCAACCTCCACCTCCCAGGTTCAACTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAACTACAGG
Y
GCATGGCACCACATCCAGCTAATTTTCTTTTTTTTTGTATTTTTTATGGAGATGGAGTTTCATCATATTGGCCAGGCTGATCTCAAATGCCTGATCTCAA
Celera SNP ID:            hCV1432183
SNP Position Genomic:     103380
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33072):
ACTGGGAATGCGTGATGGTGAAGTCACAGATGACCCACATGGTGTCTAAGTGCTAAAGAAGAATTCTGGGAAAATGAAATGCATTTGGGAAGGGAAAATC
K
AATTAAAAGCCTAAACTAAAAATACAAAATTCTTGGTAAAGTTTAGGAGTTATGTTAAATGTCTCATTTTGGCTGGTGAAGTCTCATCAGAACAGGGAAA
Celera SNP ID:            hCV2669355
SNP Position Genomic:     152449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,5)      total(G,4|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33073):
TACACCCTTTGGCCGAGTGTGAGGCTCTGCCACTTCCTGAACCCACACTGAGTTTATTGTGGCCCAAGGGGTCACCCAGAGGCCTTTAGAGATATAAAAA
M
GTATATATGATTTTATATCACCTACGATAGGGAGATATCCATAAAAAAAGGAAACATTAAACTCTACATGGTTTCAGTTATTTTGATTATAAATCTTTTA
Celera SNP ID:            hCV27155328
SNP Position Genomic:     8831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33074):
ATCCTTGTGGCCATCACCACTATGACTGTGCTGGATCAGACCTGAAACCAGCACAGCTCTGGGTCTCACCCAAGGCCTGCTGTAACCACCTCCTGGCTAC
T
GCCTATGTTTGCTCAACGCCCTTGGGCTTTACAATCAGCAGGTGATACAGCCAGCCAGACCTGCATCCCTCCCTTCAGAATGGCAAGGTCCCCCAGGCCC
Celera SNP ID:            hCV11742085
SNP Position Genomic:     31418
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33075):
CAGAGTGTGAGTCTCATCTGCCTGATGAGAAGGAAGCATTACTTAGTGATAGAGTATGTGTTTGCACATGTATGTGTTTGTGTATGTGCAGGTGTGTTTG
Y
GTGCAGTGTCCCAGACCCTGCACAGGGGATTTCTTGAAGATCTCCTGTAACAAAATCTCCTTGAGTCTATCCAGGAGAATTACATCCAGGGATGTAATTA
Celera SNP ID:            hCV27155329
SNP Position Genomic:     9352
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33076):
TGTGGAGTGGGCACTCTTACAGGTTTCCATGGCGAAAGCGGGGGTACAGTTGTGTTCTTTTCTTTCTAAAAGGCTTTCTAAAAAGCCTTCTGTTTAATTT
Y
TGGAAAAGAAGCCTAACTTGTTCACTACATAGTCGTCCTTCTTCCTCTCTGGTAACACTTGTTGGTCTGTGGAAATACTAATTTAATGGATCCTGAGGTT
Celera SNP ID:            hCV2669357
SNP Position Genomic:     148297
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33077):
ATATGAGAAAAAATTAACTGAAAATTTTTCTTCTGGCTCTAGGAATTTGAAGCCTACATTAATGCTTCTGGAGAACATGGAATTGTGGTTTTCTCTTTGG
R
ATCAATGGTCTCAGAAATTCCAGAGAAGAAAGCTATGGCAATTGCTGATGCTTTGGGCAAAATCCCTCAGACAGTAAGAAGATTCTATACCATGGCCTCA
Celera SNP ID:            hCV27528681
SNP Position Genomic:     155465
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33078):
ACTAATAAAGGCCTGTCCTTGGGGAAGACTTCTGTTCACATGCGCTCCAGTGAATTTCCCTTTCTGGTCATTCTCTACCCCAGCACGCCCCCCACCCCCG
M
CCCGCCCCACCCACCCACCTGTTCATTTCCTTCTTAGCATGCTTCACGATTTCTAAGTTCCTGCTCATGTGTTTAAATTGTGAGTCTGGCTCACCTCATG
Celera SNP ID:            hCV2669358
SNP Position Genomic:     147972
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33079):
CAGAGATGTAACTGCTGACATCCTCCCTATTTTGCATCTCAGGTCACCCGATGACCCGTGCCTTTATCACCCATGCTGGTTCCCATGGTGTTTATGAAAG
S
ATATGCAATGGCGTTCCCATGGTGATGATGCCCTTGTTTGGTGATCAGATGGACAATGCAAAGCGCATGGAGACTAAGGGAGCTGGAGTGACCCTGAATG
Celera SNP ID:            hCV27528682
SNP Position Genomic:     156651
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33080):
TAATACTTCCAATTCTGGCTGCACAATACTTGCCCCATAGTCCATGGTCAATAAATACAAATTTGAGTTGTTTTTGCTCATCTTTCCCTTTTGACTTCAA
M
TCAGTCATCAGAATTTCCCCAAATGCCTTTCCCCTGGATCTTGGGCCAGTGGAATGAGTACAATTTAACTTAATTGAATTTGCTTATCTATTTGGTTTCC
Celera SNP ID:            hCV2669359
SNP Position Genomic:     147309
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,7)      total(A,7|C,2) ;(C,-|A,-)   JBIC-allele(C,381|A,1094)   total(A,1094|C,381)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33081):
CTATATTCCTAAGTTACTAACGACCAATTCAGACCACATGACATTCCTGCAAAGGGTCAAGAACATGCTCTACCCTCTGGCCCTGTCCTACATTTGCCAT
R
CTTTTTCTGCCCCTTATGCAAGTCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATCTTGTCAGCTATGCATCCGTGTGGCTGTTCCGAGG
Celera SNP ID:            hCV25963358
SNP Position Genomic:     107855
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,39|G,1)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33082):
TGTTCCCCAGAGCGAGCGCAAGGTCAGATGAGTTTTTCAAGATAGGAGTGATCGGTCTTTCCCAGGGTGGGGCCCATAATGCAAGACAATTATAGATTAA
Y
GGGTAATAAGTAACTGGAGGAGGGCACTCTGTCTTCAATTACATGTTGATTTGCTAGGTGTCTCAGTGACAAGGTAATTAAGACGAAGGAAACAATTCTA
Celera SNP ID:            hCV1432189
SNP Position Genomic:     101201
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33083):
CTGAACTGAACATTCTGTCCTACCACTAGCAAATAATCATTGTCTGCCTCAGGCTTAAGTTTAATAAATAGCAAATTGCATACAGATATTTTACAACGAT
Y
GAAAGACAAACAGAGGTCCTATCCGTGTAGTCCCAACGATAAGAACAGGTGTTGGCATGAAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAAGTAA
Celera SNP ID:            hCV27468525
SNP Position Genomic:     131376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33084):
TCATTTGTGTTATTAATTTCTTCTTGTGTAAAGTCTGACAGCTTGTGTCTTTTAAGAAATTTGTCCATTCCATCTAAGTTGTAGATTTTATTGGCATGAA
S
TTGTTCATGTTTCTTATTGTTTTAATACCTGTAGAATTTATGGTGATACTACTGCTCTCATTCCTGATATTGGTAATTTATATCTTCTGTCTTTTTTCCT
Celera SNP ID:            hCV9096237
SNP Position Genomic:     36040
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33085):
GTGACATGAAATGGGTGTCCACAGCCTTGTGTTGGGAATTGAATGAGAAAGAAGAGCTTGAACTTGGATGTTCCCCAGAGGCAGCACAGGGTCAGATGAG
Y
TTTTCAAGATAGGCGTGATTGGTCTTTCCCAGGGTTGGGCCCATAACGAAAGGCAGTTATAGATTAATGGGTAATAAGTAACTGGAGGAGGGCACTTTGT
Celera SNP ID:            hCV27509165
SNP Position Genomic:     106961
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,195|C,1302)   total(C,1302|T,195) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33086):
CTGGACCTGGCCGTGTTCTGGGTGGAGTTTGTGATGAGGCACAAGGGCGCGCCACACCTGCGCCCCGCAGCCCACGACCTCACCTGGTACCAGTACCATT
Y
CTTGGACGTGATTGGTTTCCTCTTGGCCGTCGTGCTGACAGTGGCCTTCATCACCTTTAAATGTTGTGCTTATGGCTACCGGAAATGCTTGGGGAAAAAA
Celera SNP ID:            hCV27536418
SNP Position Genomic:     160792
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33087):
GGGATATGGCCATAATCAAATGAACATGGCTTTGCCATTCTAATGGAGAGGAAGGCATTGATTAGCTACAAACTGTGAAACATACTTTGAAAGAAAAGGA
Y
GTAAAGAGAGCTGATCATAGGGGGCCTTGCAGGATAAGGAGTGGCAATCTTGGGAGAAGTTGGGGGGATGGTGTGCCAAGCAGGGAAGATGGCAGGTGCA
Celera SNP ID:            hCV27155400
SNP Position Genomic:     77199
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33088):
AGCCCACGACCTCACCTGGTACCAGTACCATTCCTTGGACGTGATTGGTTTCCTCTTGGCCGTCGTGCTGACAGTGGCCTTCATCACCTTTAAATGTTGT
S
CTTATGGCTACCGGAAATGCTTGGGGAAAAAAGGGCGAGTTAAGAAAGCCCACAAATCCAAGACCCATTGAGAAGTGGGTGGGAAATAAGGTAAAATTTT
Celera SNP ID:            hCV7607421
SNP Position Genomic:     160860
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33089):
ACTTTGAAAGAAAAGGACGTAAAGAGAGCTGATCATAGGGGGCCTTGCAGGATAAGGAGTGGCAATCTTGGGAGAAGTTGGGGGGATGGTGTGCCAAGCA
R
GGAAGATGGCAGGTGCAGCATGAAGCCAAATGTTTGGAATCATAGCATGTTCTTTCCCTTCATCCCTATGTCCCAGGGTCTCTTTACTTCATAAACATGG
Celera SNP ID:            hCV27155401
SNP Position Genomic:     77282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33090):
ACAGAGGTGAAGGCTTGACTAAGGGAACAGGTCCAGGTTAAAATCCATTTTCCCAACTCTGTCCCATGCTTTGTCTCTGGACCTTGAGCCAGGGACCAGC
R
AACTACAGCCTGTGAGCCCAATCTGCCCAAAGGCCTGTTTTTTGTTTTTTTTTTTCCTTTTATGTTGAGACCTGTTTTTATATGGCCCAGAGCTAAGAAT
Celera SNP ID:            hCV11742231
SNP Position Genomic:     82622
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33091):
TACACAGGTCTTGCTCTGGGACCGCCCTCAGCAGTGTGGTTAGCAGGCAGGGCCAGTGTGACCCTCCCTTTCTGGGCCTCAGTTGAGAAACCTGAAGCTC
A
GGAGAGGAGTCACTCCCCTGGCAGATGGGTGGCTGGGCCAGAAGCAGATACCAGGCTTTCTGACTCCTGCTCTAGGATTCTCACCACGTACTGGCTAGAC
Celera SNP ID:            hCV27155402
SNP Position Genomic:     80052
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33092):
TCTCATTTCCAGTTCATAATTAAATTTCCCCCATTTTCTTGAACAACATCTTTCCATGTAGATCAATGGAATAGAATGGAGAATTCAGAAATAAACCCAT
W
CGTTCTTGGCCAATTGACAAGATGTCAAATTTTGATAAGGGTGTCAAGATCATTCAAATGGGAAAGAATAGTCTCTTCAACAGAAGACCCACCCTGGGGT
Celera SNP ID:            hCV27155330
SNP Position Genomic:     12093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33093):
ACACAGGTCTTGCTCTGGGACCGCCCTCAGCAGTGTGGTTAGCAGGCAGGGCCAGTGTGACCCTCCCTTTCTGGGCCTCAGTTGAGAAACCTGAAGCTCA
G
GAGAGGAGTCACTCCCCTGGCAGATGGGTGGCTGGGCCAGAAGCAGATACCAGGCTTTCTGACTCCTGCTCTAGGATTCTCACCACGTACTGGCTAGACT
Celera SNP ID:            hCV27155403
SNP Position Genomic:     80053
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,3)   total(G,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33094):
TCCAGTTCATAATTAAATTTCCCCCATTTTCTTGAACAACATCTTTCCATGTAGATCAATGGAATAGAATGGAGAATTCAGAAATAAACCCATACGTTCT
K
GGCCAATTGACAAGATGTCAAATTTTGATAAGGGTGTCAAGATCATTCAAATGGGAAAGAATAGTCTCTTCAACAGAAGACCCACCCTGGGGTCCTTAAT
Celera SNP ID:            hCV27155331
SNP Position Genomic:     12100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33095):
CACAGGTCTTGCTCTGGGACCGCCCTCAGCAGTGTGGTTAGCAGGCAGGGCCAGTGTGACCCTCCCTTTCTGGGCCTCAGTTGAGAAACCTGAAGCTCAG
G
AGAGGAGTCACTCCCCTGGCAGATGGGTGGCTGGGCCAGAAGCAGATACCAGGCTTTCTGACTCCTGCTCTAGGATTCTCACCACGTACTGGCTAGACTT
Celera SNP ID:            hCV27155404
SNP Position Genomic:     80054
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,3)   total(G,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33096):
TAAATTTCCCCCATTTTCTTGAACAACATCTTTCCATGTAGATCAATGGAATAGAATGGAGAATTCAGAAATAAACCCATACGTTCTTGGCCAATTGACA
R
GATGTCAAATTTTGATAAGGGTGTCAAGATCATTCAAATGGGAAAGAATAGTCTCTTCAACAGAAGACCCACCCTGGGGTCCTTAATCTCCAGCATCAGA
Celera SNP ID:            hCV27155332
SNP Position Genomic:     12113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33097):
ACAGGTCTTGCTCTGGGACCGCCCTCAGCAGTGTGGTTAGCAGGCAGGGCCAGTGTGACCCTCCCTTTCTGGGCCTCAGTTGAGAAACCTGAAGCTCAGG
A
GAGGAGTCACTCCCCTGGCAGATGGGTGGCTGGGCCAGAAGCAGATACCAGGCTTTCTGACTCCTGCTCTAGGATTCTCACCACGTACTGGCTAGACTTA
Celera SNP ID:            hCV27155405
SNP Position Genomic:     80055
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33098):
TTTCCATGTAGATCAATGGAATAGAATGGAGAATTCAGAAATAAACCCATACGTTCTTGGCCAATTGACAAGATGTCAAATTTTGATAAGGGTGTCAAGA
W
CATTCAAATGGGAAAGAATAGTCTCTTCAACAGAAGACCCACCCTGGGGTCCTTAATCTCCAGCATCAGACTCCAAGACCATTTGCAGAGATCATCCAGA
Celera SNP ID:            hCV27155333
SNP Position Genomic:     12143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33099):
CAGGTCTTGCTCTGGGACCGCCCTCAGCAGTGTGGTTAGCAGGCAGGGCCAGTGTGACCCTCCCTTTCTGGGCCTCAGTTGAGAAACCTGAAGCTCAGGA
G
AGGAGTCACTCCCCTGGCAGATGGGTGGCTGGGCCAGAAGCAGATACCAGGCTTTCTGACTCCTGCTCTAGGATTCTCACCACGTACTGGCTAGACTTAT
Celera SNP ID:            hCV27155406
SNP Position Genomic:     80056
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,3)   total(G,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33100):
TGGCCTTCATCACCTTTAAATGTTGTGCTTATGGCTACCGGAAATGCTTGGGGAAAAAAGGGCGAGTTAAGAAAGCCCACAAATCCAAGACCCATTGAGA
R
GTGGGTGGGAAATAAGGTAAAATTTTGAACCATTCCCTAGTCATTTCCAAACTTGAAAACAGAATCAGTGTTAAATTCATTTTATTCTTATTAAGGAAAT
Celera SNP ID:            hCV7607427
SNP Position Genomic:     160934
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:33101):
CCCTTCCTGCCTTGCATTCTGGTGCTTGGTTTACTTCCTTGCTAATAAATGTCTTTTGTGTCATCTTGTTTTTGTTTTTGTTTTTTTCCAGAATAGGGCA
Y
TGTCATCTGTATTAAAACCCTGTTCAGGCAGATATGCTTTCCCCTCAATAATTATCTTCATGGCATCTGGGAACTCATTTGTCTCCTTTTGCTTGGCAGA
Celera SNP ID:            hCV27155334
SNP Position Genomic:     15559
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33102):
AAGTATTCAGTCTTTTAGCAGATTAGGTCTTAACTGGAGATTTTTTGAGTAGATGCCCCCCACATTATGAGATTGAGGAAATTTTCATCTATTCCTAGCT
Y
GTTGAGTATTCTTATCATACCTGAGGTGTTTGGTTTTGTCAAATGCTTTTTCTGTGTCTATTGAAATGAACATGGTTTTCTTTTTGGTCCCCTATTCTAG
Celera SNP ID:            hCV11742236
SNP Position Genomic:     91014
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33103):
CATTTTTCAGAGGACGTGCAGACAGGCTGGCATTCTAGATTACTTTTCTTACTCTGAAACATGGCCTGTTTGGGAGTGCGGGATTCAAAGGTGGTCCCAC
S
GCTGCCCCTACTGCAAATGGCAGTTTTAATCTTATCTTTTGGCTTCTGCAGATGGTTGCAATTGATCCTTAACCAATAATGGTCAGTCCTCATCTCTGTC
Celera SNP ID:            hCV7607428
SNP Position Genomic:     161270
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:33104):
AGGTGGTTGTAGTCAGGCCAGAGGTGAGTTGGCAACTGGGAAGATCACTGAATTGCACAGTGAAGACTTCTTCAACCTTATACACCCTGGAGGATCTGGA
M
CAGGAGTTCATGGCTTTTGCCAATGCTCAATGGGAAGCAGAAGTACGACGCTTATTTTCTCTATTAATGAGTTCATCCAAATGTTTAGAATTTAATTTTT
Celera SNP ID:            hCV11742091
SNP Position Genomic:     36456
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,34)   caucasian(A,4|C,34)   total(A,6|C,68)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(A,4|C,36)   total(A,6|C,72)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33105):
GCTTTTTTTTTTTTTTTTGCATTGAGTGAATATTTTCTAGTGCAACATGTAAAATCCTTTAATGTTTTTCTTTCCACTATTTAAAAAGTTGTGTTCTGAG
Y
GGTTGTTCTAGGGCTTAGCACATCGATTTTAACTTACCAGTATCTACTTCAGATTTATACCAACTTAATTCCAGTTAAATATTGAAATGTCATTCCTATA
Celera SNP ID:            hCV11742237
SNP Position Genomic:     92713
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33106):
TCACAGGATGAGTTTGGAAGTATTCTCTCCTCTTCATTTTTCTGTAATAGTTTGAGTGGAACTGGTATTAATTCTTTTAAAAATGGTTGGTAGAATTCAG
Y
AGTGAATCCATCTGGTCCTGGGCTTTTCTTTGATGAGAGACTTTTTATTACTGCTTCAATCTTGTTACTTATATTGGTTTGTTGAGGTTTTCTATTTCTT
Celera SNP ID:            hCV27155407
SNP Position Genomic:     85551
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33107):
GCTGCCCCTACTGCAAATGGCAGTTTTAATCTTATCTTTTGGCTTCTGCAGATGGTTGCAATTGATCCTTAACCAATAATGGTCAGTCCTCATCTCTGTC
S
TGCTTCATAGGTGCCACCTTGTGTGTTTAAAGAAGGGAAGCTTTGTACCTTTAGAGTGTAGGTGAAATGAATGAATGGCTTGGAGTGCACTGAGAACAGC
Celera SNP ID:            hCV7607429
SNP Position Genomic:     161371
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;POOLE|_CEPH(C,52|G,136)   total(G,136|C,52)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:33108):
TCTGGGACAAATTCCAAAAAAAATTAGCTTTAATCAAATTTACTTTTACTTTATCTTTCTGAACCTTCAAGGTCCAAAAGCATTGGTTAATAATTCTGCT
W
CTAAACTTAACATTGCAGCACAGGGCATGTTCTGCCCCCAAGGCAAAGACCATAAGCTACTGTTGTCTGGAAAACATACAAATAGATATCTCAGCAAAAG
Celera SNP ID:            hCV27843087
SNP Position Genomic:     60030
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,35)   caucasian(A,1|T,33)   total(A,4|T,68)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33109):
CACCTCTCTTTTGCTTTAAGTTGTCATATAATGACTTTGCATTTTCTCAAATCACATTGGCATCTATAAATACGCCTTTCTTATAGCAATGCTACACCCA
Y
GTTAAAGCTGCATTTTCAATATGAGACAAAAACGTATTTCAGAAAAAAATGCAAGGTTTGGCTCCTGCTGGCATAGCTGCAGCAATGTCTTCATGAATCT
Celera SNP ID:            hCV27155335
SNP Position Genomic:     15861
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33110):
TTGCTGTGTTTCCTTTTTCATTTCTGATTTTATCTGAGTGTTTTCTCTTTTTCTTAGTCTAGCTCAAGGTTTGCCAATTTTGTTTATCTTTTTTTTTTTT
W
AAAAAACTTTTTGTTTCATTGGTCTTTGCATTGTTTATTTAGCCTCAATTTAATTTATTTTTTCCCTGATCTTTATTATTTCTTTCCTTCTACAAAGTTT
Celera SNP ID:            hCV27155408
SNP Position Genomic:     85877
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,11)   total(A,3|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33111):
AGCCATCTTGTGCTCCTACAAGGATTATACCCCGAGGTTGTCTGCAGAATCTCTCACTAAATGTTCCTTAAGGTGTTGCCTGACACACACTGCTTAGCTC
R
TCCATGAAGGTATCAAGAAAACCTGCAGAATATAATTCTGTCCAGTGCAACAAATATTCTGGTTGATTTTCTTTGTGCAGGGCTGCATTTGTCTGTTTGG
Celera SNP ID:            hCV27155336
SNP Position Genomic:     18764
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33112):
GGATTATTTGAGCCCAGGAGTTCAAGGTTCCAGTGAGCTATGTTTGCATCATTGCACCTCAGCCTGGGCAACAGAGCAAGACCCTGACCAACTCCCCACC
Y
CCCCCCAAATCAATGCAACCTGTGATCACTTTATTTGGGCAACTTCCCCAAATTCTTGACTCAGTGAATTTGTTGCAGGGCTTTTCTTTTTTAATCTCTT
Celera SNP ID:            hCV1432191
SNP Position Genomic:     97120
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33113):
TGCTGTGTTTCCTTTTTCATTTCTGATTTTATCTGAGTGTTTTCTCTTTTTCTTAGTCTAGCTCAAGGTTTGCCAATTTTGTTTATCTTTTTTTTTTTTT
W
AAAAACTTTTTGTTTCATTGGTCTTTGCATTGTTTATTTAGCCTCAATTTAATTTATTTTTTCCCTGATCTTTATTATTTCTTTCCTTCTACAAAGTTTG
Celera SNP ID:            hCV27155409
SNP Position Genomic:     85878
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|T,7)   total(A,7|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33114):
GCAGAAGCTGTTTAGTTTAATTAGATCCCATTTCTCAATTTTGGCTTTTGGTTGTCATTGCTTTTGGTGTTTTAGTTATGAAGTCTTTGCCCATGCCTAT
K
TCCTGAATGGTATTGCCTAGGTTTTTTTCTAGAGTTTTCATGGTTTTAGGTCTTATGTTTAAGTCTTTAATCCATCTTGAGTTAATTTTTGTATAAGGTG
Celera SNP ID:            hCV27155337
SNP Position Genomic:     20277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33115):
GATTGTCAGTACTGAATATATCCCATTGTATGAATACACCACAATTTTATTTATCCATTCTACTGTTGATGGGCTTTGGGTTGTATCTAGCTTTTCACTA
Y
TGTGAACAATGTTACAACGAACATTCTTTTACATTCTGAAACACATGTGAGTGGGTTTTTAGAGTATATACCTAGGGGTGGAGCTGCTGCGTTGGAGGGC
Celera SNP ID:            hCV1432192
SNP Position Genomic:     96070
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33116):
TTTGCTTGGTCCAGAACTGAGTTCAAGTCCTGAATTTCCTTGTGAATTTTCTGTCTCGTTGATCTGTCTAATATTGACAATGGAGTGTTAAAGTCTCCCA
S
TATTATTGTATGGGAGCCTAAGTCTCTTTGTAGGTCTCTAAGAACTTGCTTTATGGGTGCTCCTGTATTGGGCGCATATATATTTAGGATGGTTAGCTCT
Celera SNP ID:            hCV27155338
SNP Position Genomic:     22783
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33117):
TGTAGGTCTGATTTCTACTCCCCACCCCACTCCTTCTTGTCACTGAAAAGTCATGGAATTCTGGAATCTCAGGGTTGACAGTGACTGTGAAGCAGAGTGC
Y
GTACACTGGTATCCATCTCTGGGAGAGAAATACCATGCACCAATTAGGTTGGGTTGCCAATCCCAGGGCAGGACTCTAAACACCTCAGCAGTCTTTACTA
Celera SNP ID:            hCV1432193
SNP Position Genomic:     95113
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33118):
AGTTTTTTTTTAGTGGATTTCGTAGGATTTTCTACATTCCAGATCATGTTATCTACAAATAGAGATAGCGTTACTTCTTCCTTTCTAATAAGGATAACAT
K
TATTTCTTTTGCTTATCTAATTGCCCTGGCTTGAACCTCTAGTACCGTGTTGAATAGAAGTGGAAAGAGGAGATTCTTATCTTGTTCCTGATCTTAGGTG
Celera SNP ID:            hCV1432195
SNP Position Genomic:     90810
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33119):
CTTTTATTTCTGCTTGTCGTAATAGCCTTCAGTGAGATAAACTGTTAAGGGGTCTCTAGTAGCGTATTTCAGGTTTTAAATGGTCAATGAGAGGAAGAAG
R
GGCAGACATGAATGTTTATCAAAGGATGGACTAGGACTGATGTGACTCATGGAGACTGTTCGTTTGTAAAGGCACCATCTTCATGGTTGTGCATGTCCTT
Celera SNP ID:            hCV25962490
SNP Position Genomic:     136640
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,34)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33120):
TCTTCTTTCTCTCCTTCCTCCAGCCCCTGGCAGCCATTAATCAACTTTCTGTCCTTATGAATTTGCCTATTTCTATGGATTCCATTCACAAAATACATGA
R
TAGCTTTTTCCCTTTAGCATAAAGAGTTTTGTATATTGATCTTGTACTTCAACATTTCTGAACTTGTTTATTTGTTCTAATAGTTTTTTTTTAGTGGATT
Celera SNP ID:            hCV1432196
SNP Position Genomic:     90628
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33121):
TAAAGTCAGCTAGATAAAAGAAAATGTTATTAAGAAAATTTTAAGGTTTGAGAAAAAATTTTAGGGTTGAGAAAAAATGTATTAAGTATTCATTAAGTGG
S
AGTGGATCATCATAAAGATCTTCCTTTTGATTGTCCTCCACTGAGTAGGCTGAGGAGGAAGAGGAGGGGTTGGTCTTGCTTTTTCAGGGATGGCAGATGA
Celera SNP ID:            hCV28004364
SNP Position Genomic:     47870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33122):
CTATGTTTTTTTATGTTAGATTTTTCTCTTGTCAATAAGTTAAAGATATCTTTACAGGTCAATGCATACAGATTTGACATGTTCTTTTAATAATTGCATG
R
TAGTCTTTACTTTGGATGCAATGTAGTTTTCCAACCAATTAAGATTGATAGAGATTTAAGTGTTTTCCACTTTTGGGGTTTATGAGCAATAATAAGAATT
Celera SNP ID:            hCV287256
SNP Position Genomic:     71712
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33123):
ATTTAATAAGATGTAACTATTTTTCAGAGTGGTTGTACATATCCCTGATTGCTAAGGCATTAGTTATGTACATGACTGATTATATTGAGGGTTTTAAAAT
R
TACTTATCAGTCATTTGGATTTCCTCTTTTGCCCATTCAAGTCTATTGCCCACTGGGTTGTCTACTCGAATTATGTATGCATTCTGGATACTAGTTCTTT
Celera SNP ID:            hCV28004365
SNP Position Genomic:     96284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33124):
TTTTCTATCAAAGTTTTTGGAGTATTACAAATTTTATTTCTTTTTTCTTTTTCTTTTTTAAATTTTAACCAACCATTTTCACCCCCCCTTCCCTACTTAC
M
CTTTCCACCTTCTGGTAATTACCAATGAACTCTCTACCTCCATGAGACCCACTTTTTTAGCTCCACATATAAATGAGAACATGTGGTATTTGTCTTTCTG
Celera SNP ID:            hCV1432199
SNP Position Genomic:     83946
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33125):
CCACAGTCCTGCTCTCCCCAGTGCTCCCATGTCGCTGAAGGCACCACCATCTTCCAAGATACATGGGCCTCCCCAGGGTCTAGGAGTCCTAGACGTGGGA
S
TAGAAATTAGATGACATTGGTGTCTAAACAAAACACCACTGCATGGAGATAGAACAGGGGAGCCCCCTGAATGTGGTGAGAGCACCCTCCCAGGTGTGTT
Celera SNP ID:            hCV28004366
SNP Position Genomic:     99650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33126):
TACCTCTTATTTTGGCGGAGCATATAGTTCCAAAATATTATTAATATTGTTGGTCTAGCCAGCTTAAATTAGGATTTGGTCACTTGCAATTGAAAAAGTC
K
TGACAAATACAAGAGTAAGATTCTTGGCAAATGCATAGTTGCTAAATCCAGGTGAAACACCTGGTGTCTGATCTAAGTATATTATTTTGTTAGGGATGGA
Celera SNP ID:            hCV287257
SNP Position Genomic:     72360
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33127):
AGAGAAGTAGGAGACAGTGACATGAAATGGGGGTTCACAGCCTTGTGTTGGGAATTGAATGAGAAACAAGAGCTTGAACTTGGATGTTCCCCAGAGCGAG
Y
GCAAGGTCAGATGAGTTTTTCAAGATAGGAGTGATCGGTCTTTCCCAGGGTGGGGCCCATAATGCAAGACAATTATAGATTAACGGGTAATAAGTAACTG
Celera SNP ID:            hCV28004367
SNP Position Genomic:     101117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33128):
ATTATTTTGTTAGGGATGGAGTATACATTTTTATCTATTGTTCTGGCTTCTTACAAAGTTCAGTAGACTTTGTAACACAGTCACATTCTCTCTCATATTG
R
CAGATGTTTGGTGAAAGAGTGACTGTTCAACCAACTCATGGGAAAATGCAACCAAGCGCTTTCTAAAAATCAGGGAGACTACAGTTGTAGGCCTTTCAAA
Celera SNP ID:            hCV287258
SNP Position Genomic:     72541
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33129):
AGCCACTGGCTTAGTATGAAGGATATAGTTGAGGTTCTCAGTGACCGGGGTCATGAGATTGTAGTGGTGGTGCCTGAAGTTAATTTGCTTTTGAAAGAAT
M
CAAATACTACACAAGAAAAATCTATCCAGTGCCGTATGACCAAGAAGAGCTGAAGAACCGTTACCAATCATTTGGAAACAATCACTTTGCTGAGCGATCA
Celera SNP ID:            hCV8739299
SNP Position Genomic:     81575
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33130):
AAAAACTGAACTCATTTTTCAAAAGCCTTAACAGTCTGTCTTATTCTGATACTTCTTTTATGGTTATTGTATGAGAATCAACTACCCAGGCACCTCGGAG
Y
ATGTTGATTTCAGAGTTCAGTGTCAGACCCCATGAGCCCCTGTGGGATGGTGCCAGCTGACTGCCATGTTCCTGCTGTTTATTGCTTGGGTGCCATTACA
Celera SNP ID:            hCV28004368
SNP Position Genomic:     129949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33131):
CTGAGAGCCCCAAACAGAGATTTACCCACATATTTATTGACAGCAAGCCTGTGATAAGCATCATTTCTATAGATTATAGATTAACTAAAAGTATTCCTTA
Y
GGGAAACAAAGGGATGGGCTCTGGCTAATTATCTGCAGCAGAAACATGTCCTTAAGGCACAGATGGCTCATGTTATTATTTGTAGTTTAGGAACACCTTA
Celera SNP ID:            hCV28004369
SNP Position Genomic:     130677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33132):
GAGGGTTCGATTCACTTGTTGTGGGAGACGGGCGGCACTTAGTATTTTCTTTTCAGTTTACACGTTCCTGGGCATCCCTATTAAGATGTGCAGATAAACA
S
GCACATGCTTCATGTGGCATCTCCCTTAGTTAAACATCTTTTTTTTTTTTCCTTTCCTGTGAGTCTTCCTGAAACAGGTGAGCCCAGGTGGAGCCTCCGC
Celera SNP ID:            hCV16063299
SNP Position Genomic:     45244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33133):
TGCCTTTATCACCCATGCTGGTTCCCATGGTGTTTATGAAAGCATATGCAATGGCGTTCCCATGGTGATGATGCCCTTGTTTGGTGATCAGATGGACAAT
S
CAAAGCGCATGGAGACTAAGGGAGCTGGAGTGACCCTGAATGTTCTGGAAATGACTTCTGAAGATTTAGAAAATGCTCTAAAAGCAGTCATCAATGACAA
Celera SNP ID:            hCV27531412
SNP Position Genomic:     156709
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33134):
GTGGAAGAGTAAGGCAGGATCACTTCCCTCTTATTCCCATGTTGGTGTGACTTTGCGACTTTGACCAAAGCCTTACCTGCCTCCTCTGCCCAAGGAGGGA
C
GTGGCCGTCTCAGAGGGCTGCTTGGTTTCTGTCCAAGCTGGCCCTTGGGGAAGCCCTTTGGCCACCCAGGTGGTGATTCCTGCTGTAAGAACATGAGAGG
Celera SNP ID:            hCV27155410
SNP Position Genomic:     87276
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33135):
GGACTGCTGCTTCTCCTCAGTGTCCAGCCCTGGGCTGAGAGTGGGAAGGTGCTGGTGGTGCCCACTGATGGCAGCCACTGGCTCAGCATGCGGGAGGCCT
Y
GCGGGACCTCCATGCGAGAGGCCACCAGGTGGTGGTCCTCACCCTGGAGGTGAATATGTACATCAAAGAAGAGAACTTTTTCACCCTGACAACGTATGCC
Celera SNP ID:            hCV11742240
SNP Position Genomic:     101493
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,29)   caucasian(C,3|T,31)   total(C,10|T,60)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33136):
CCACTATCCCAGGTGTGTATTGGAGTGGGACTTTTACATGCGTATATTCTTTCAGATGTATTACTTTGGATCGATTAACTAGCCCCAGATATATGCTGAG
Y
AAGCATTCTGAGATAATTTAAAATGCCCTCTTTTGTTAATTTTTGACTCCTAGGTTTGAGTCTGTCTTTGGCATCATCTTCTGGATGATTTCTTGGTATC
Celera SNP ID:            hCV25991784
SNP Position Genomic:     149613
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33137):
TGCTTCTCCTCAGTGTCCAGCCCTGGGCTGAGAGTGGGAAGGTGCTGGTGGTGCCCACTGATGGCAGCCACTGGCTCAGCATGCGGGAGGCCTTGCGGGA
S
CTCCATGCGAGAGGCCACCAGGTGGTGGTCCTCACCCTGGAGGTGAATATGTACATCAAAGAAGAGAACTTTTTCACCCTGACAACGTATGCCATTTCAT
Celera SNP ID:            hCV11742241
SNP Position Genomic:     101500
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,7)   caucasian(C,30|G,6)   total(C,59|G,13)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33138):
CTCTAAGAGGTTGGACTTATCAAAGCACTTTTCTCCTCGTTATCCTCCATTAATTACAGTACCAAGCACCACCCATGTGTTGCCTACACCCCACAGCCTT
Y
GGCCGAGTTGAGGATCTGCCACTTCCTGAACCCACGCTGAGTTTATTGTGGCTCACAGGGTCACCTAGAGGCCTTTAAAGATATAAAAACCTATATATGA
Celera SNP ID:            hCV27155340
SNP Position Genomic:     27375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33139):
AAGGTGCTGGTGGTGCCCACTGATGGCAGCCACTGGCTCAGCATGCGGGAGGCCTTGCGGGACCTCCATGCGAGAGGCCACCAGGTGGTGGTCCTCACCC
Y
GGAGGTGAATATGTACATCAAAGAAGAGAACTTTTTCACCCTGACAACGTATGCCATTTCATGGACCCAGGACGAATTTGATCGCCTTTTGCTGGGTCAC
Celera SNP ID:            hCV11742243
SNP Position Genomic:     101538
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,27)   caucasian(C,6|T,30)   total(C,13|T,57)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,124|T,979)   total(C,124|T,979) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33140):
GCAGCAGTGTTGGTACCTAAGTTATAAGGCAAAGTCCCCTTTACCTTTCCTTGTGCTTTCCTCAAGCAGAATGAGTTTTGCTCCATAGCCATCACAGCTG
R
GAATGTGCTGAATCTCACCTAGAGCCAGTAAGTCTCAGAGGCTCACCAAGGCCCTTGACGTAGTACGAGGTTTCACTGCTGGTATTCAGGTTCCAAGGTC
Celera SNP ID:            hCV27155341
SNP Position Genomic:     32006
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33141):
GAAAGCAGCTTTGATGTCATGCTGACGGACCCTTTCCTTCCTTGCAGCCCCATCGTGGCCCAGTACCTGTCTCTGCCCACTGTATTCTTCTTGCATGCAC
W
GCCATGCAGCCTGGAATTTGAGGCTACCCAGTGCCCCAACCCATTCTCCTACGTGCCCAGGCCTCTCTCCTCTCATTCAGATCACATGACCTTCCTGCAG
Celera SNP ID:            hCV27531417
SNP Position Genomic:     149184
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33142):
ATAGTGGGAGACTTTAACACCCCACTGTCAACATTAGACAGATCAACGAGACAGAAAGTTAACAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAAG
Y
GGACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTCTTTTCAGCACCACACCACACCTACTCCAAAATTGACCACATAGTT
Celera SNP ID:            hCV27155415
SNP Position Genomic:     89851
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33143):
AAGAATAAATAAATAAATAAATAAATAAACGCTCTCTCAGTGGGTGGGTGTCAGCTGAGTTTGGTCTGGGTTTCCTTTCTGCTCTAACAGAATAGCACTG
M
TTTCAGTGCCTCCCAATTGTCTCCCACCAGGGCTCAGGGATTCTCTTTATGCCACACCGCCACTGTGGGTTCAGGGGGTTGGGTGACATAGGAGATGCAG
Celera SNP ID:            hCV27155342
SNP Position Genomic:     33028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33144):
TTGCTTTTTAAAAATTTCTCACACCAGTTACCCTAAATCATCTTTCTAAGGTTCAAAGTTCCACAAATCACTAGGTCAGGGGCAAAATGCTGCCAGTCTC
T
TTGCTAAAACATAACAAGAGTCACCTTTCCTCCAGTTCCCAACGAGTTCCTCATCTCCATTTGAAACCACCTCAGTCTGGACTTTATTGTCCATATTGCT
Celera SNP ID:            hCV27155343
SNP Position Genomic:     34981
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33145):
CAACGAGAACAAAGACACAACATACCAGAATCTCTGGGACACATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAG
R
AAAGATCTAAAATTGACACCCTAACATCACAATTAAAAGAACTAGAAAAGCAAGAGCAAACACATTCAAAAGCTAGTAAAAGGCAAGAAATAACTAAGAT
Celera SNP ID:            hCV27155416
SNP Position Genomic:     90255
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33146):
TTTGCCCCTATTTTTTCAAAAATGTCTTAGAAATAGCCTCTGAAATTCTCCAAACCCCTGTCACGGCATATGATCTCTACAGCCACACATCAATTTGGTT
R
TTGCGAACTGACTTTGTTTTGGAGTATCCCAAACCCGTGATGCCCAATATGATCTTCATTGGTGGTATCAACTGTCATCAGGGAAAGCCAGTGCCTATGG
Celera SNP ID:            hCV25956225
SNP Position Genomic:     71064
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,8|G,32)   total(A,15|G,63)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,9|G,29)   total(A,16|G,60)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33147):
GTGTAAACGAACCTTGTATTCCTAGAATAATCCCACTTGATTGTGTTGTATAATCCTTTTACATGTTACTGAATTTGGTTTGACAGCATTTTATTGAGGA
S
TTTTGCATCATATCCATAAGAGATATTGGAAGTCTTATTTTCTTGCGGAGCCTTGGTCTGTGTTTGCTATCTGAATATTACTGGCCTTGTAGAAGAAACT
Celera SNP ID:            hCV27155417
SNP Position Genomic:     91239
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33148):
CAGCAGGCAAAGAAAGAGAGCTTGTGCAGGAAAACTTCCATTTTTAAAACCACCAGATCTCGTGAGACTTACTTACTACTATGAGAACATCACGGGAAAC
R
CCCAGCCCCATGATTCAATTATCTCCCTCCAGGTTCCTTCCATGACACGTGGAAATTGTGGGAGTTCCAATTCAAGATGAGCTTTGGGTGGGGACACAGC
Celera SNP ID:            hCV27155344
SNP Position Genomic:     35523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33149):
TTAATGCAGTCTGATAATCTCTTTTAATTGAGTTGTTTAATCCATTCACATTTAATACTATTATTGATGTAGATGGATTTATGTCTACCATCATTTTTTT
M
TTTTCTTTTTTTTTTGAGACAAAATCTCATTCTGTTACCCAGACTGGAGTGCAGTGGTGTGATCTTGGCCCACTGCAACCTCCGCCTCCTGGGTTCAAGC
Celera SNP ID:            hCV27155418
SNP Position Genomic:     92251
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33150):
GTTAGCCAGGATGGTCTCGATCTCCTAACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGAATTACAGGGGTGAGCCACCACACCCAGCCTGGA
Y
GCCATGACTTTTAAGGAGAGAGTAAGGAACCACATCTTCTACTTAGAGGAGCATTTATTTTGCCCATATTTTTTCAAAAATGCCTTAAACATAGCCTCTG
Celera SNP ID:            hCV27155345
SNP Position Genomic:     37127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33151):
TATTCCTAAGTTACTAACGACCAATTCAGACCACATGACATTCCTGCAAAGGGTCAAGAACATGCTCTACCCTCTGGCCCTGTCCTACATTTGCCATACT
K
TTTCTGCCCCTTATGCAAGTCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATCTTGTCAGCTATGCATCCGTGTGGCTGTTCCGAGGGGA
Celera SNP ID:            hCV25963371
SNP Position Genomic:     107858
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(G,1|T,39)   total(G,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:33152):
GGGAGGAGGATTGCTTGAGCCCAGGAGTCTGAGAGCAGCCTGGGCAACATGCTGAGACTCCATCTCTACAAAAAATTAAAAAATTATCCAGGTGTGATGG
Y
GCACACCTGTGGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGGATCACTTGATCCCAGGAGGTGGAGGCTGCAGTGTGCCATGTTCACGCCACCTCACTC
Celera SNP ID:            hCV11742249
SNP Position Genomic:     103999
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33153):
TGGGATTACAGGTGTGAGCCACTGTGCCTGGCCCCATTTTACTTTTTATGCTCTATATCTCTCATGTATTTATTTGTTCCTCTGTTCTGCCTTTATTGCT
T
TTTTTTTTTTTTTTGCATTGAGTGAATATTTTCTAGTGCAACATGTAAAATCCTTTAATGTTTTTCTTTCCACTATTTAAAAAGTTGTGTTCTGAGCGGT
Celera SNP ID:            hCV27155419
SNP Position Genomic:     92616
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33154):
TCCGAGATACGGAAAGCTATGTGTGATTTTATATCACCTATCATGTTAAGATATGTATAAAATAGGAAACATATTGGCCATATATCATTTTATATATTTT
K
GGTTTTACATGTCTAAAAAATACATGTTTTTTTGTATGTATTAAAGGATAGGTATGTATAAGAGGTTTTATAGAAGTGGAAAGTTATATTTTTTGCATAT
Celera SNP ID:            hCV27155346
SNP Position Genomic:     39768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33155):
CCACTATCTTGAAGAAGGTGCACAGTGCCCTGCTCCTCTTTCCTATGTCCCCAGACTTCTCTTAGGGTTCTCAGACGCCATGACTTTCAAGGAGAGAGTA
Y
GGAACCACATCATGCACTTGGAGGAACATTTATTTTGCCCCTATTTTTTCAAAAATGTCTTAGAAATAGCCTCTGAAATTCTCCAAACCCCTGTCACGGC
Celera SNP ID:            hCV287260
SNP Position Genomic:     70930
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(C,12|T,26)   total(C,17|T,59)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(C,12|T,26)   total(C,17|T,59)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33156):
AAATGGGATATTGTTTCTTCATATTAAATAGAAGTATTTCTCCAAAAAGCTGTTGGTTAGAACACTGAATTTATGTCTTACATTTCTGCTCTTATAGTTC
Y
GCATCCACTTGTTTCATTAAGCAAACTTTCCCTTAAAGTGCAGGAAAGTGAAAAAATCCTAAGTGCACAGCTTGATAAATTATCACAAATTCACGTAGTG
Celera SNP ID:            hCV2965186
SNP Position Genomic:     155923
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33157):
AAGTGGAAAGTTATATTTTTTGCATATCTTTATGAATTATAATAAAGGAAGGAAAATTCTCAAAGAGGAATTCAGATATCAAAGAGTGCCCTTTGACAAA
R
AGCCTTGGTTACAACATACCTACAAAAGTGAACTGTCATTGAAAGACCTATGGACACTGGATTTCTCTTTCCTTATTTAGAAGGGCAGGCTGTGTCTTGG
Celera SNP ID:            hCV27155347
SNP Position Genomic:     39942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33158):
TGGACGGCACCATTGCGAAGTGCATTTTCTCTATTAACAAGTTCATCCAATGGTATTTTTGACTTATTTTTTTCAAATTGCAGGAGTTTGTTTAAGGACA
R
AAAATTAGTAGAATACTTAAAGGAGAGTTGTTTTGATGCAGTGTTTCTCGATCCTTTTGATGCCTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCCC
Celera SNP ID:            hCV287261
SNP Position Genomic:     70700
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,9)   caucasian(G,8)   total(A,1|G,17)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,16)   caucasian(A,12|G,8)   total(A,30|G,24)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33159):
GATCCACCACACTCAGAAGTATCATTTTCTCTAAGAGACTCAAAAGTGTATTAGGGAGAATTTATTTAAAAATAAAATAAATGGGATATTGTTTCTTCAT
R
TTAAATAGAAGTATTTCTCCAAAAAGCTGTTGGTTAGAACACTGAATTTATGTCTTACATTTCTGCTCTTATAGTTCTGCATCCACTTGTTTCATTAAGC
Celera SNP ID:            hCV2965187
SNP Position Genomic:     155845
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33160):
CTGTGCCTGTGTGTGTCCACGCGTGTTTGTGTGTGTGCATGCACACATGTGTCAGCATGCAGTGTCTCAGATCCTACATAGGGGTTTTTCCTGAAGGTCT
Y
CAGTAGCAAAAACTCATTGAGTCTATCCAGGGGAATTACATCCAATGCTGTAATTAAATACTTTAACAAAGATAGCAGATCATCATTCAAGAGAACATCA
Celera SNP ID:            hCV27155348
SNP Position Genomic:     40236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33161):
CTGGACGGCACCATTGCGAAGTGCATTTTCTCTATTAACAAGTTCATCCAATGGTATTTTTGACTTATTTTTTTCAAATTGCAGGAGTTTGTTTAAGGAC
M
AAAAATTAGTAGAATACTTAAAGGAGAGTTGTTTTGATGCAGTGTTTCTCGATCCTTTTGATGCCTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCC
Celera SNP ID:            hCV287262
SNP Position Genomic:     70699
SNP Source:               Applera
Population(Allele,Count): african american(A,8|C,6)   caucasian(A,10|C,8)   total(A,18|C,14)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,20)   caucasian(C,14)   total(A,2|C,34)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33162):
AGATCCTACATAGGGGTTTTTCCTGAAGGTCTCCAGTAGCAAAAACTCATTGAGTCTATCCAGGGGAATTACATCCAATGCTGTAATTAAATACTTTAAC
M
AAGATAGCAGATCATCATTCAAGAGAACATCAAGATAGTTTTAATTAAGAAAAAAAAAAGGAATCACTGCCAGGCTTTTTTAGTTTTTGGTGAGTTCCAG
Celera SNP ID:            hCV27155349
SNP Position Genomic:     40304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33163):
CTCGCTGGACGGCACCATTGCGAAGTGCATTTTCTCTATTAACAAGTTCATCCAATGGTATTTTTGACTTATTTTTTTCAAATTGCAGGAGTTTGTTTAA
K
GACAAAAAATTAGTAGAATACTTAAAGGAGAGTTGTTTTGATGCAGTGTTTCTCGATCCTTTTGATGCCTGTGGCTTAATTGTTGCCAAATATTTCTCCC
Celera SNP ID:            hCV287263
SNP Position Genomic:     70695
SNP Source:               Applera
Population(Allele,Count): african american(G,20|T,18)   caucasian(G,18|T,14)   total(G,38|T,32)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,27)   caucasian(G,4|T,18)   total(G,7|T,45)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33164):
GCCATATATATATATATAAGTAGGAGAGGGCGAACCTCTGGCAGGAGCAAAGGCGCCATGGCTGTGGAGTCCCAGGGCGGACGCCCACTTGTCCTGGGCC
K
GCTGCTGTGTGTGCTGGGCCCAGTGGTGTCCCATGCTGGGAAGATACTGTTGATCCCAGTGGATGGCAGCCACTGGCTGAGCATGCTTGGGGCCATCCAG
Celera SNP ID:            hCV27527971
SNP Position Genomic:     148704
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33165):
CTGTGGGTTCAATTTTGTGTGAATCACATCCTGCTGATTGCTGAGTGGGCGTGTGGGAGGGTGTGCCTGGAGGAGAACTTAGACTCGGCCTTTTCCAGAT
R
AGCTTCAGTGTAAGAGTGGGTTTCATGAAGAGCAAAGGTCCTAGGAAATTTAAGTAAGCCATTTACCAACGCTCAGAAGAAAGAACTTGAAGAGCACTTG
Celera SNP ID:            hCV2965189
SNP Position Genomic:     152966
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;JBIC-allele(A,191|G,1278)   total(G,1278|A,191)   (A,-|G,-)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33166):
TTGGCAGACCTATTTTTCAGATGATGAAACTGAGGCACAGAGGGGTTGAGTGACTTGCCCAAGGTTATGCCTCAAGTAAGTGGGGGAGCCAGAATTCAAG
M
CCATACATTCTTTGTAAAAAAAAAAAAAAAAAAAAGGAAAGAAAAAAAGGCTGAGTGTGGTGGCTCACACATGTAATCACAGCACTTTAGGAGGCCAAGG
Celera SNP ID:            hCV104500
SNP Position Genomic:     75934
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33167):
ACTTCTTCCACGTACTATATTATAGGAGCTTAGAATCCCAGCTGCTGGCTCTGGGCTGAAGTTCTCTGATGGCTCGTGCAGGGTGGACTGGCCTCCTTCC
M
CTATATGTGTGTCTACTGCTGACCTGTGGCTTTGCCAAGGCAGGGAAGCTGCTGGTAGTGCCCATGGATGGGAGCCACTGGTTCACCATGCAGTCGGTGG
Celera SNP ID:            hCV287264
SNP Position Genomic:     70341
SNP Source:               Applera
Population(Allele,Count): african american(A,8|C,30)   caucasian(A,17|C,17)   total(A,25|C,47)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33168):
GATATGCATTTTCCAGCACAATTATCTCCAACCTCCACAAGATTAATGATCTTAACCATGCATTCAGACTCTCTTCAGAACAACATGGTGAGATATCAAT
R
TTGTCTTCTTGATGCAAGTTTCCCTTGAATGATTTAAACTTCAGATGGGTGGACTGTCTCCTTAGGGAGAATTTGCAAATTAAATATAATAAAAGCTAAC
Celera SNP ID:            hCV104501
SNP Position Genomic:     75670
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33169):
TTTCATAAGTACTTCAGCTGTGACACTTGCATAAACTTGGGTAAAAACTCAGCGTTATCTAGATTAAATATGATAATACATGCAGATGACTGGCATGTGG
M
TATGAATCAGCAATACCCGTAATTGGGTGGGTGATATGCATTTTCCAGCACAATTATCTCCAACCTCCACAAGATTAATGATCTTAACCATGCATTCAGA
Celera SNP ID:            hCV104502
SNP Position Genomic:     75537
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33170):
TTATGAGTAAATCATTGGCAGTGAATGTGAATTTTTTTTTAAATGAATGAATAAGTACACGCCTTCTTTTGAGGGCAGGTTCTATCTGTACTTCTTCCAC
K
TACTATATTATAGGAGCTTAGAATCCCAGCTGCTGGCTCTGGGCTGAAGTTCTCTGATGGCTCGTGCAGGGTGGACTGGCCTCCTTCCACTATATGTGTG
Celera SNP ID:            hCV287265
SNP Position Genomic:     70252
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,29)   caucasian(G,8|T,20)   total(G,15|T,49)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33171):
CACTTTTTCTGCATGATTCCTGCCCCAGAGGGGTCAACAAGAAAGGGCATCCCACTGGCTGACTCATGCAGGGAAGCTGTCAGTAATTAATTAGCAAGGC
M
GGGAAGTTGTACCCCAAGTCTTGGTTTCAACACTAGAGGACTTTAGGAGGTGGTTCAATGTAGTGTTTGAGCACGCGGACCCTGGAGTCCTCCAAGCCTG
Celera SNP ID:            hCV104503
SNP Position Genomic:     75335
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,6)      total(A,5|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33172):
ACGAGGCCTACCGGGGTACTCCCAGCACCTCGTAGTAGTCCACTATGCTGGACTGCCAAAGAGCCTGCGGGGCACTGGCACAGCGAGCGGCAAGGCTGCC
R
GCACCCGCGCACAGGTCAGAGGCTTGGCGACCTGGGCCGCCTGGAGGGCCGCCCCTTATGACGCAGCCACATCTCATTGGCCGAGGCCTGTGAGCGCCTC
Celera SNP ID:            hCV25926140
SNP Position Genomic:     143683
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,40)   total(A,71|G,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33173):
CATCGTGCACTTGGAGGACCATTTATTTTGCCAGTATCTTTTTAGAAATGCCCTAGAAATAGCCTCTGAAATTCTCCAAACCCCTGTCACGGCATATGAT
M
TCTACAGTCACACATCAATTTGGTTGTTGCGAACGGACTTTGTTTTGGACTATCCCAAACCCGTGATGCCCAACATGATCTTCATTGGTGGTATCAACTG
Celera SNP ID:            hCV25754039
SNP Position Genomic:     25612
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,34)   caucasian(C,38)   total(A,2|C,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:33174):
CTAGGACAGGAGCCCCTGGAACTGTCTGGCTGGGCAAGCCATACTTACCTGCACTTCCCTATTCCATCTGTGAGTGATTCAGACTTGACTATTGTTATCA
Y
ACTAAACTAAACTGGGGTTCACTCACCCAGCACAGTAAGACCAAACATCTACACTGAGATTTGCAATGGGAGAAAGGAAGGCATTTATGTGCAGGGCACA
Celera SNP ID:            hCV104508
SNP Position Genomic:     77631
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33175):
AGTGTCCAAACCCTTCCTCCTATATTCCTAGATTACTAACGACCAATTCAGACCACATGACATTCCTGCAAAGGGTCAAGAACATGCTCTACCCTCTGGC
Y
CTGTCCTACCTTTGCCATGCTGTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATCTTGTCAGCCATGCAT
Celera SNP ID:            hCV25969406
SNP Position Genomic:     102007
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,8)   caucasian(C,32|T,4)   total(C,56|T,12)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33176):
GGTGAGTTGGCAACTGGGAAAATCACTGAATTGCACAGTGAAGACTTACTCAACCTCATACACTCTGGAGGATCTGGACCGGGAATTCATGGATTTCGCC
S
ATGCTCAATGGAAAGCACAAGTACGAAGTTTGTTTTCTCTATTTCTGAGTTCATCCAATGGTTTTTTTAACTTATTTTTTTCGCATTGCAGGAGTTTGTT
Celera SNP ID:            hCV11473118
SNP Position Genomic:     6345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33177):
TGCCTCTTGCTCTCTTTTAGGAATTCTTTTTCCTACTGTGATATATGTAAGTACTTATAAATTTAAACTTAAAATTCAAAAAATATACCAGGATGTGAAA
K
AAACATTATTAAATATAGGTGTTTTGCTGTGAGTGTTTCTTGGAATAGGTAGGGCTTTGTATAGTAGGTTTTGGTCTTTTGGTCAGCTTGGGAAAATTTT
Celera SNP ID:            hCV27155420
SNP Position Genomic:     97956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,10)      total(G,10|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33178):
TTGCACAGTGAAGACTTACTCAACCTCATACACTCTGGAGGATCTGGACCGGGAATTCATGGATTTCGCCGATGCTCAATGGAAAGCACAAGTACGAAGT
W
TGTTTTCTCTATTTCTGAGTTCATCCAATGGTTTTTTTAACTTATTTTTTTCGCATTGCAGGAGTTTGTTTAATGACCGAAAATTAGTAGAATACTTAAA
Celera SNP ID:            hCV11473119
SNP Position Genomic:     6375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33179):
GCTGCTGTGTGTGCTGGGCCCAGTGGTGTCCCATGCTGGGAAGATACTGTTGATCCCAGTGGATGGCAGCCACTGGCTGAGCATGCTTGGGGCCATCCAG
Y
AGCTGCAGCAGAGGGGACATGAAATAGTTGTCCTAGCACCTGACGCCTCGTTGTACATCAGAGACGGAGCATTTTACACCTTGAAGACGTACCCTGTGCC
Celera SNP ID:            hCV27537098
SNP Position Genomic:     148805
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33180):
CCCTTTTCCATTTCCATGGAGATGCAGTGCAGCATCTTCAAGTCTCTAATTCTTACATCTGTCTCTTTCACTTGCAAGAGCCCTTGTGATTACATTGTCC
Y
GCCCGGACATCCAGCATAATCTCCCCATGTCAAAACCCTTAATATAATCACATCTATAAAGTCTCTTCCACCTGTAATGGAATATATTCCCAGGTTTGCG
Celera SNP ID:            hCV11742250
SNP Position Genomic:     104597
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33181):
GACCCTGGAAGCTGATGCCTTGGGCTGCTCCTCCTATTTCCTGGGCACCAGGAATATGAGCTACTCCCTCCCCACAGTCCTGCTCTCCCCAGTGCTCCCA
W
GTCGCTGAAGGCACCACCATCTTCCAAGATACATGGGCCTCCCCAGGGTCTAGGAGTCCTAGACGTGGGAGTAGAAATTAGATGACATTGGTGTCTAAAC
Celera SNP ID:            hCV27155421
SNP Position Genomic:     99579
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,10)      total(A,2|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33182):
CTGCCCGGACATCCAGCATAATCTCCCCATGTCAAAACCCTTAATATAATCACATCTATAAAGTCTCTTCCACCTGTAATGGAATATATTCCCAGGTTTG
M
GCAACTACAATGTAGATACTTTGTGGGGCTGTGATTCTGCCTACCACAGACACTAAGCTTAAAGTGAAACCCACATCTTATTCAAAACTTGGAGGTTTTC
Celera SNP ID:            hCV11742251
SNP Position Genomic:     104696
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,13)   total(A,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33183):
TGAGGCCAGGCTCCAGCTCCCCCGGTCCCTTGGTGAGCAGGAGCTCCCTGAACCCACCATGGGTCTTTGCTAGGGTTGTCTTGCACATGTGTGCTTTAGA
Y
AGCAGCACCTCTTCTTCCATGGTGTAGATGGAGAATCCTCAACAAAGCCTTTCCAAGAATCTGATCATCACATCTTGAGCTCAGCCTCCCTGCAGCTTTT
Celera SNP ID:            hCV27155422
SNP Position Genomic:     100630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33184):
GATAATCTGTTTACGTTTTAAAAGGGGATTTATTTGAAAAACATATAAAAACACGACAGACCACTTCATAGGCCACTTTACACCATAAAATAGGTAATAA
Y
AACATACAGGTATCTTTGCAAGCGTAAACCCTCAGGTGTACTAATGACCTTCATATAGGTGTATCAATTGTGAGAAGATGAATCATATTCTTAAAGTAAT
Celera SNP ID:            hCV27155350
SNP Position Genomic:     41666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33185):
GTGTTACCCATATGTGGGAAGAAAGAGTATTAAGAGTTAGCAAATAGGGTCACATCCAGCAGAGACCATATGGTTGGGGACTAGGGCAATGGTGACTCCT
Y
AGACCTCAGCTGCAGCCTGATAAACGTGGTTAAGAGAGAAGTAGGAGACAGTGACATGAAATGGGGGTTCACAGCCTTGTGTTGGGAATTGAATGAGAAA
Celera SNP ID:            hCV27155424
SNP Position Genomic:     100982
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33186):
TTCAGATGATCTGCCCTCCTCAGCCTCCCAAAGTCCTGGGATTACAGGCATGGGCCACCACGCCCGGCCAAGAAATGTTATCTTTCACAGATGCAGATGT
R
CAAAAGGGACATCTCTTCATTATTGAGGACATTTCAACATTTGTACGTACATGCCTAATGCTTACACACTTACTCTTGTGCTAATGCACTTCCATGGAGT
Celera SNP ID:            hCV27155351
SNP Position Genomic:     42287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33187):
ATTTCTTTCCAGTTTAACAAATTATTTTGTGCGAATTCATGTACTCATCAATTATCAAATTTTATAAAACTGCCCTTCTTGAAAGTATATGTAATAATTT
R
AAAATTATAGATCATATTCAGGCTACATTTTAAAATACGATGTTTAGAAAAGTACCAAAAACCACAGCAAGAAATGAAACTTCCGTTTTTTGTTAATTCT
Celera SNP ID:            hCV25751062
SNP Position Genomic:     25943
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,31|G,5)   total(A,65|G,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:33188):
CCTTTTTTCATTTTTTAAAAACAATACTTTCAAAGAGCAAAAATTTTAGAATTTGATGAGGTTTATTCTAGTGAAGTTTTTATCGTTTGTACTTTTTGTA
Y
CCTAAGGAAGCTTTGTTTACCCCAAGATATAGTTTCTACATTCTCTTAAAAACACTAAAGAGTTCCAGTTTATATGTTTAGCTCTGTGAGATTGGGAGAG
Celera SNP ID:            hCV11742254
SNP Position Genomic:     105010
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33189):
TACTCTTGTGCTAATGCACTTCCATGGAGTCAAATTTGTGAGCATAAAATGAATTAGAATTCTCCATAAGTCTATACACAGTCTCTGCCTTCAGTATTGG
R
AATGATATGAAGATGAAATACATAGCATAGCAAATTGTAAAAATAATGCTGACAATTTAACCTTGTGAAAAAACCTAAAAAGAAGAAAAAGTAAAAGAAA
Celera SNP ID:            hCV27155352
SNP Position Genomic:     42458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33190):
TATGAACAATGTATCTTTGGCCCTTCATAGGTGTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATGCTACTTCCTTTGATGTGGTT
Y
TAACAGACCCCGTTAACCTCTGCGGGGCGGTGCTGGCTAAGTACCTGTCGATTCCTGCTGTGTTTTTTTGGAGGTACATTCCATGTGACTTAGACTTTAA
Celera SNP ID:            hCV11742256
SNP Position Genomic:     107627
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(C,5|T,31)   total(C,8|T,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:33191):
TTCCTTGTAACCTTGTGTTTTGGGAACCTAGCAACTCTACTCCCCACTAAGTGACAACCCATGCAGGTTTGCCCAGATTATTCCCAGTTTAACACTGGAA
R
TCTCACGTCCTGGGAGACTCTTCATTCCCCAAGGAGCAGGGACAGCAGGTCACTGTCACTGGAGCACTGGAAGCTGGCCACATCATTAGCAGATTCAGAA
Celera SNP ID:            hCV27155353
SNP Position Genomic:     43711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33192):
TGAGCATGCTTGGGGCCATCCAGCAGCTGCAGCAGAGGGGACATGAAATAGTTGTCCTAGCACCTGACGCCTCGTTGTACATCAGAGACGGAGCATTTTA
M
ACCTTGAAGACGTACCCTGTGCCATTCCAAAGGGAGGATGTGAAAGAGTCTTTTGTTAGTCTCGGGCATAATGTTTTTGAGAATGATTCTTTCCTGCAGC
Celera SNP ID:            hCV27536006
SNP Position Genomic:     148882
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33193):
GTGGGTGATCACTGTCCTGGTCTCCCTGAAGCAAGGACGCCTCTCTGGCCTCAGGGTGCCTGTCAGGCAAGTCTCTCCTGTCCCTGGAGGTTCACAGAGC
M
GCATCCCTGCAAGAGCAATGCTAAGTGGGGTTGGCTTTGAGCCCCAGCCATTCTCTTAACAATTCTTTTAGTTAAGTATCAGTTCCCCCATCCCCTCACT
Celera SNP ID:            hCV27155354
SNP Position Genomic:     44117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33194):
GTCCAGCTGTGAAACTCAGAGATGTAACTGCTGACATCCTCCCTATTTTGCATCTCAGGTCACCCGATGACCCGTGCCTTTATCACCCATGCTGGTTCCC
R
TGGTGTTTATGAAAGCATATGCAATGGCGTTCCCATGGTGATGATGCCCTTGTTTGGTGATCAGATGGACAATGCAAAGCGCATGGAGACTAAGGGAGCT
Celera SNP ID:            hCV27536007
SNP Position Genomic:     156635
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33195):
GGTCAATGGTAGTGCAGTTCAGGGTTTCAATGGCCACTGAGAGGAAGGAGAGGCAGGGACGAGGATCTGTCAAAGGATGGGCAAGAGTGGTGTGACTCAC
S
GAGACTGTTCGTTTGTAAAAGCACCATCTTCATGGCTGTGGATGTGCTTCAGCTGGGCAGGAGCAGGGACACTACACTGAGAACTGATCCATCCAATCTT
Celera SNP ID:            hCV27155428
SNP Position Genomic:     102475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33196):
TTTTCCATGAAACTTTTTATTTTAGAAGAAATTTAGATTTATGCAAGGTTGCAAGAACTAGCACAGAGAATTTTCATATCCTGTGCCTAGTTTCCTCCTC
T
TTTTTTTTTTTTTTTTTGAGACAAAGTGTCACTCTGTCACCCAGGCTGGAGTGCAGTGGGGCAATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAA
Celera SNP ID:            hCV27155355
SNP Position Genomic:     46378
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33197):
GAGAGTCCTCTTTGAGCTTTACAAGAAATATCCTGGTGTGAAAAAAGACCAAAACCAGATAGCCAGCCTGAACACTCTCTGTTTAGAGAAAGCTGGCTTA
K
CAATGTTGTATGTCTTTTGGATGTGCTGTGTTATTCACATATGAGAAGAAAGAGTTTCAAGGGTTAGCAAATAGCGTCACATTCAGCAGAGAACATGTGG
Celera SNP ID:            hCV27155429
SNP Position Genomic:     106685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33198):
TTTCCATGAAACTTTTTATTTTAGAAGAAATTTAGATTTATGCAAGGTTGCAAGAACTAGCACAGAGAATTTTCATATCCTGTGCCTAGTTTCCTCCTCT
T
TTTTTTTTTTTTTTTTGAGACAAAGTGTCACTCTGTCACCCAGGCTGGAGTGCAGTGGGGCAATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAA
Celera SNP ID:            hCV27155356
SNP Position Genomic:     46379
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33199):
CAGCTGTGAAACTCAGAGATGTAACTGCTGACATCCTCCCTATTTTGCATCTCAGGTCACCCGATGACCCGTGCCTTTATCACCCATGCTGGTTCCCATG
K
TGTTTATGAAAGCATATGCAATGGCGTTCCCATGGTGATGATGCCCTTGTTTGGTGATCAGATGGACAATGCAAAGCGCATGGAGACTAAGGGAGCTGGA
Celera SNP ID:            hCV27536008
SNP Position Genomic:     156638
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33200):
CTCCGCTCACTGCAACCTTCACCTCCCGGGTTTAAGAAATTCTCCCACCTCAGTCTCCTGAGTAACTGGGACTGCAGGCATGTGCCACTGCTCCTGGCAA
T
TTTTTTTTTTTTTTTTTTAGTAGAGATGAGGTTTCGCAATGTTAGCCAGGCTGGTCTTGAACTCCTGACCTCATGTGATCTGCCCGCCTCGGCCTCCCAA
Celera SNP ID:            hCV11742259
SNP Position Genomic:     109231
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33201):
AGCTTTGTAATGTCTTGAAATGAGTAGTATTAGCTCTCTAATTTTTTTCAAAGTTGTTTTTGCTATTGTAGGTTTTCTACATTTCTGTATGAATTTTAGA
R
TCAGTTTGCCAATTTGCACAAAAAAAAGCCTGTTGGGATTTTGGTTGAAATCATATTTAAGTTACAGTTCAACTGGGGAGAAACAGCATCCTAACAATTT
Celera SNP ID:            hCV27155357
SNP Position Genomic:     47314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33202):
ATAGTTTAGAGAATTTTCATCTACCCTGTGTCCAGTTTCCACCATTGTTAAATCTCATGTTTCTATGGCACATCCATCACAACTCATTCACCAATATTGA
Y
GCATAATGATGAGCTAAAAGCTAAAGTCTGTTTCCTTCAGATTTCATTAATTTTTACTTAATTTCCCTGTTCTTTTATGGGATCCCAGTGATACCACCTG
Celera SNP ID:            hCV256960
SNP Position Genomic:     64849
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33203):
GGGTTCTTTGAAACAGAACATCTTCTGAAGAGATATTCTAGAAGTATGGCAATTATGAACAATGTATCTTTGGCCCTTCATAGGTGTTGTGTGGAGCTAC
Y
GCATAATGAGGCCCTGATCAGGCACCTGAATGCTACTTCCTTTGATGTGGTTTTAACAGACCCCGTTAACCTCTGCGGGGCGGTGCTGGCTAAGTACCTG
Celera SNP ID:            hCV27860808
SNP Position Genomic:     107574
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33204):
GAGTTTGTGATGAGGCACAAGGGCGCGCCACACCTGCGCCCCGCAGCCCACGACCTCACCTGGTACCAGTACCATTCCTTGGACGTGATTGGTTTCCTCT
W
GGCCGTCGTGCTGACAGTGGCCTTCATCACCTTTAAATGTTGTGCTTATGGCTACCGGAAATGCTTGGGGAAAAAAGGGCGAGTTAAGAAAGCCCACAAA
Celera SNP ID:            hCV27536009
SNP Position Genomic:     160816
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:33205):
AGATTTTCATGATGTTCGCCCCGCTGACATTCTCTTCCATAGTGTTGACAATCCTTTCCATAGAAAACCATGTGTAATGAGCCTTAAAGTGCCTTGTAAC
Y
CCTTGTTCTAATGGCTGAATTAGAGATGATGTTTGAGGACATGGAGACCACTTTGGCTCCTTTTGTGTTGAATTCATGGGGTTCTGGATGGCTAGAGGCA
Celera SNP ID:            hCV27155358
SNP Position Genomic:     48677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33206):
GGCACTGCTTCTTCTACATCTTCTTTCTCATCAAGTACTGATTGGAAAGCACTCATCTCTATCAGGTCATCTATTGATTCCCTGAGTGTGGCATCTATTG
K
CTCTTGAATTTCTCCAAGAGTCATATTTTGAAATACCTTATCCCCAACATTTTGTTGCTGTATCCATAATCCCTTCATGACTTCCTTGATTGGCTCTGTC
Celera SNP ID:            hCV256961
SNP Position Genomic:     67166
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,6)   total(G,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33207):
GCCATGCAGCCTGGAATTTGAGGCTACCCAGTGCCCCAACCCATTCTCCTACGTGCCCAGGCCTCTCTCCTCTCATTCAGATCACATGACCTTCCTGCAG
Y
GGGTGAAGAACATGCTCATTGCCTTTTCACAGAACTTTCTGTGCGACGTGGTTTATTCCCCGTATGCAACCCTTGCCTCAGAATTCCTTCAGAGAGAGGT
Celera SNP ID:            hCV27540750
SNP Position Genomic:     149285
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33208):
TGACTAAGCAAATGTCTAGTACCAGTTAGGGTGTCCTGGAAGGAACCATCTTGTGCTTCTACAAGAATTATGCCCTGAGGTTGGCTGTTGAATCCCTCAC
K
AAATGCTCCTCAGTGTGTTGCCTAACACACACTGCTGAGCTCACCCATTAAAATCTGCATGATGGAATTCAGCCCAATGCAATGAGAATTCCCATGGACT
Celera SNP ID:            hCV256964
SNP Position Genomic:     68914
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,5)   total(G,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33209):
CTAACACACACTGCTGAGCTCACCCATTAAAATCTGCATGATGGAATTCAGCCCAATGCAATGAGAATTCCCATGGACTTCCTCTGTGCAAGGCAAAGCA
Y
GGGTGCTGTGGAAGGAGGATGAAAACAGGTAGAAGATGTAATCTCATCCTCAAGGGGTGCTCGGTAGAATGGAGGAAACAATACATAGATTCCTGAAGAT
Celera SNP ID:            hCV256965
SNP Position Genomic:     69036
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33210):
TGTTCAGAATGCAGAAGCAGAGTGGGCAGAGAGAGACAGCTCATCAGAGTGCTTGGGCAAGCATAGGGACGGCGACTCACCACTGCAGACAATGTATCTG
W
GGAAAGCCATTTAAAATAGGTGACAGTCACATTCCATCAAATTTCTGGAAGGGTCCATGGAGGCAGGGTTGTCAATCTCATTACAGCATTTCAGAGGCCT
Celera SNP ID:            hCV256966
SNP Position Genomic:     69284
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33211):
GCAAGCATAGGGACGGCGACTCACCACTGCAGACAATGTATCTGAGGAAAGCCATTTAAAATAGGTGACAGTCACATTCCATCAAATTTCTGGAAGGGTC
Y
ATGGAGGCAGGGTTGTCAATCTCATTACAGCATTTCAGAGGCCTCAGAAGATTTGGAAATGAAAAAAGACAAGCAGCACTTGTGGCTCACCTGTGTCACA
Celera SNP ID:            hCV256967
SNP Position Genomic:     69340
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33212):
CAGCTTTGATGTCATGCTGACGGACCCTTTCCTTCCTTGCAGCCCCATCGTGGCCCAGTACCTGTCTCTGCCCACTGTATTCTTCTTGCATGCACTGCCA
Y
GCAGCCTGGAATTTGAGGCTACCCAGTGCCCCAACCCATTCTCCTACGTGCCCAGGCCTCTCTCCTCTCATTCAGATCACATGACCTTCCTGCAGCGGGT
Celera SNP ID:            hCV27540828
SNP Position Genomic:     149189
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33213):
GCACAGTGAAGACTTACTCAACCTCATACACTCTGGAGGATCTGGACCGGGAATTCATGGATTTCGCCGATGCTCAATGGAAAGCACAAGTACGAAGTTT
R
TTTTCTCTATTTCTGAGTTCATCCAATGGTTTTTTTAACTTATTTTTTTCGCATTGCAGGAGTTTGTTTAATGACCGAAAATTAGTAGAATACTTAAAGG
Celera SNP ID:            hCV11473120
SNP Position Genomic:     6377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33214):
CACCAAACATGATGAAAAATACAGTAGAGCCATGAGAGATCACTTTTTACTCTGACATGCAATTTATTGGAGAGATGAAATGCTCAAACAGAGAGTATAA
R
TGTTATATCACATGCACTTAAGCCACACTTCAGCTCACTGGAATAGCAACAGGAGGTAGCTACAAAATTATTACAGTAGTGTAGTATATACTATAGGTAA
Celera SNP ID:            hCV16257123
SNP Position Genomic:     16350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33215):
GCAGCCACTGGCTCAGCATGCGGGAGGCCTTGCGGGACCTCCATGCGAGAGGCCACCAGGTGGTGGTCCTCACCCTGGAGGTGAATATGTACATCAAAGA
R
GAGAACTTTTTCACCCTGACAACGTATGCCATTTCATGGACCCAGGACGAATTTGATCGCCTTTTGCTGGGTCACACTCAATCGTTCTTTGAAACAGAAC
Celera SNP ID:            hCV25967098
SNP Position Genomic:     101563
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,38)   total(A,71|G,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33216):
CTTACTCAACCTCATACACTCTGGAGGATCTGGACCGGGAATTCATGGATTTCGCCGATGCTCAATGGAAAGCACAAGTACGAAGTTTGTTTTCTCTATT
W
CTGAGTTCATCCAATGGTTTTTTTAACTTATTTTTTTCGCATTGCAGGAGTTTGTTTAATGACCGAAAATTAGTAGAATACTTAAAGGAGAGTTCTTTTG
Celera SNP ID:            hCV11473121
SNP Position Genomic:     6389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33217):
TTACTCAACCTCATACACTCTGGAGGATCTGGACCGGGAATTCATGGATTTCGCCGATGCTCAATGGAAAGCACAAGTACGAAGTTTGTTTTCTCTATTT
M
TGAGTTCATCCAATGGTTTTTTTAACTTATTTTTTTCGCATTGCAGGAGTTTGTTTAATGACCGAAAATTAGTAGAATACTTAAAGGAGAGTTCTTTTGA
Celera SNP ID:            hCV11473122
SNP Position Genomic:     6390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33218):
GCAAATAATCATTGTCTGCCTCAGGCTTAAGTTTAATAAATAGCAAATTGCATACAGATATTTTACAACGATTGAAAGACAAACAGAGGTCCTATCCGTG
Y
AGTCCCAACGATAAGAACAGGTGTTGGCATGAAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCC
Celera SNP ID:            hCV8742101
SNP Position Genomic:     131404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33219):
GGATCTGGACCGGGAATTCATGGATTTCGCCGATGCTCAATGGAAAGCACAAGTACGAAGTTTGTTTTCTCTATTTCTGAGTTCATCCAATGGTTTTTTT
R
ACTTATTTTTTTCGCATTGCAGGAGTTTGTTTAATGACCGAAAATTAGTAGAATACTTAAAGGAGAGTTCTTTTGATGCGGTGTTTCTTGATCCTTTTGA
Celera SNP ID:            hCV11473123
SNP Position Genomic:     6414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33220):
ATTGTCTGCCTCAGGCTTAAGTTTAATAAATAGCAAATTGCATACAGATATTTTACAACGATTGAAAGACAAACAGAGGTCCTATCCGTGTAGTCCCAAC
R
ATAAGAACAGGTGTTGGCATGAAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTC
Celera SNP ID:            hCV8742102
SNP Position Genomic:     131414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33221):
GCCTGCTGCTGTGTGTGCTGGGCCCAGTGGTGTCCCATGCTGGGAAGATACTGTTGATCCCAGTGGATGGCAGCCACTGGCTGAGCATGCTTGGGGCCAT
Y
CAGCAGCTGCAGCAGAGGGGACATGAAATAGTTGTCCTAGCACCTGACGCCTCGTTGTACATCAGAGACGGAGCATTTTACACCTTGAAGACGTACCCTG
Celera SNP ID:            hCV25965204
SNP Position Genomic:     148801
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,38|T,2)   total(C,70|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:33222):
AAGGCGAAGGAAACAAATGTAGCAGGCACAGCGTGGGGTGGACAGTCAGCTGTCGGTGGCTTCTGCTGAGATGGCCAGAGGACTCCAGGTTCCCCTGCCG
Y
GGCTGGCCACAGGACTGCTGCTCCTCCTCAGTGTCCAGCCCTGGGCTGAGAGTGGAAAGGTGTTGGTGGTGCCCACTGATGGCAGCCCCTGGCTCAGCAT
Celera SNP ID:            hCV27155430
SNP Position Genomic:     107210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33223):
AAATAAAAATTTCTTTGGCATATGGAAATCTTGTTTAAAAAGTTTAGAAAACATTTTTTAAAACTCCAATATGAAAAGCTGGGTGCAGTGGCATGCGCCT
R
TGGTCCCAGGTACTTGGGAGGCTCAGGTGGGAGGATCATTGAGCTCAGGAGTTTCAGCACCTGTGGTTTTTTGATTTATTTATTTAAAACACAACAAAAA
Celera SNP ID:            hCV11742261
SNP Position Genomic:     114629
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33224):
GCCTAGTGTATTTCAAGTTTTCAGTGGTCACTGAGAGGAAGAAGAGGCACGGACGAGGGTCTGTCAGAGGATGGACAAGGACTGCTGTGACTCACGGACA
S
TGTTTGTAAAGGCACCATCTTCATGGTTGTGCATGTCCTTCAGCTCGGCAGGATCAGGGACACTACATTCAGAACTGATCCATCCTGGGGTTTTTGCTTG
Celera SNP ID:            hCV27155433
SNP Position Genomic:     108289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33225):
TTCATGGGGTTCTGGATGGCTAGAGGCATTGTCCAATATCAAAAGTAATTTAAAAGACAGTCCTTTAGTGGCAAGGTATTTCTGATTTCAGAGACAAAGC
R
TTGGTTTTCATGGAACCAGTTTGGAAAAAGTGTTTCTGTTGTACTGGCCTTCTTGTTCTACAACAAAAAGACTGGGAGCTGGCGTTTATTTTTTCCCTTA
Celera SNP ID:            hCV27155360
SNP Position Genomic:     48850
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33226):
GGTCTTGTGTGGAGCTACTACATAATGAGGCCCTGATCAGGCACCTGAATGCTACTTCCTTTGATGTGGTTTTAACAGACCCCGTTAACCTCTGCGCGGC
R
GTGCTGGCTAAGTACCTGTCGATTCCTACTGTGTTTTTTTTGAGGAACATTCCATGTGATTTAGACTTTAAGGGCACACAGTGTCCAAACCCTTCCTCCT
Celera SNP ID:            hCV11742263
SNP Position Genomic:     117962
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33227):
CCATTCATCTGCAGAACTCTCTTCATCTTCCCAAACTGAAGCTTGGGACCCATTAAACAATAATTGCCCATTCCCCTCTCCTCCAAGCCCTGGTGTAACC
R
CCCGGGGGATTCACCTTGCCTGCTGCCTAGACAGAGTCAATATAACAAGACAGGGGAATTGCAATAGAGAAAGAGTAATTAATGCAGAACTAGCCGTGTG
Celera SNP ID:            hCV27155361
SNP Position Genomic:     51539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33228):
TGGACAAGGACTGCTGTGACTCACGGACAGTGTTTGTAAAGGCACCATCTTCATGGTTGTGCATGTCCTTCAGCTCGGCAGGATCAGGGACACTACATTC
R
GAACTGATCCATCCTGGGGTTTTTGCTTGCCTGATTTTCAGCTGAACGGTGATGCAACAGTAAATTAGAATTGTGGACATGATAATTTTTAGTGGTCCCA
Celera SNP ID:            hCV27155434
SNP Position Genomic:     108360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33229):
TTTAAAATTGAATTTTAAAGATTATTTATATTCTGGATATTTATCCTTTACCAGTCTGTAGATGTTTTTTTTAAAGTAAACTCTTTTTGTTTGTTTGTTT
W
TATTTTTTTATTTTTATTTTTTATTATTGTACTTTAAGTTTTAGAGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCATGTTGGT
Celera SNP ID:            hCV27155362
SNP Position Genomic:     55007
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33230):
TAGCTTGATGGGTTTGGCATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTC
S
ATTTGTTTGTGTCTTCTTTTATTTCGTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTTTAAGTTGGATTCCTAGGTATTTTAT
Celera SNP ID:            hCV27155436
SNP Position Genomic:     121317
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33231):
TTAAAGATTATTTATATTCTGGATATTTATCCTTTACCAGTCTGTAGATGTTTTTTTTAAAGTAAACTCTTTTTGTTTGTTTGTTTTTATTTTTTTATTT
W
TATTTTTTATTATTGTACTTTAAGTTTTAGAGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATT
Celera SNP ID:            hCV27155363
SNP Position Genomic:     55021
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33232):
TCCTGGGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGACTTTGGGCTGAGACAATGGGGTTTTCTAAATATACAATCATGTCATCTGCAAACAGGGAC
W
ATTTGACTTCCTCTTTTCCTAATTGAATGCTCTTTATTTCTTTCTCTTGCCTGATTGCCCTGGCCAGAACTTCCAACAGTATGTTGAGTAGGAGTGGTGA
Celera SNP ID:            hCV27155437
SNP Position Genomic:     121621
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33233):
CTGTAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTTTTTATTTTACAATAAATTTAGATTTAAAGCAAGGGTGCAAAA
W
ATTGCACTAAGAATTCCCATATATCTTTTGCCAGTTTCCCCTATTGCTAAATGTTAGTTTACTGTGCACATTTTTTTTTATTATACTTTAAGTTCTAGGG
Celera SNP ID:            hCV27155364
SNP Position Genomic:     56360
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33234):
TTGACTTAGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGAGTTCAGGTCCTGGATATCCTTGTTAACCTTTGGTCTTGTTGA
W
CTGTCTAATATCGACAGTGGGATGTTAAAGTCTCTCATTATTATTGTGTGGGAGTCTAAGTCTCTGTGTAGGTCTCTAAGAACTTGCTTTATGAATCTAG
Celera SNP ID:            hCV27155438
SNP Position Genomic:     123450
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33235):
TGCAGCTAATTTTTTGCATTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGCTGGTCTCCAACTCCTGGCCTCCCGTGATACGCCCACCTTGACCT
Y
CCAAAGTGCTGGGACTACAGGTGTGAGCCACCACGCCCAGCACACATAGAATTTTTGACTCCCTAAAAATTTAACTATTAATAGCCTACTGTGCACTAGA
Celera SNP ID:            hCV27155365
SNP Position Genomic:     58313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33236):
GGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGAGTTCAGGTCCTGGATATCCTTGTTAACCTTTGGTCTTGTTGAACTGTCTAATAT
Y
GACAGTGGGATGTTAAAGTCTCTCATTATTATTGTGTGGGAGTCTAAGTCTCTGTGTAGGTCTCTAAGAACTTGCTTTATGAATCTAGGTGCTCCTGTAT
Celera SNP ID:            hCV27155439
SNP Position Genomic:     123462
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33237):
AGTGCTGGGACTACAGGTGTGAGCCACCACGCCCAGCACACATAGAATTTTTGACTCCCTAAAAATTTAACTATTAATAGCCTACTGTGCACTAGAAGCC
K
TACCAATAACAGAAACAGTTGCTTAACACATATTTGGCATGTTATATGTGTTATATACTGTATTATCATAATGAAGTCAGCTAGAGAAAAGAAAATGTTA
Celera SNP ID:            hCV27155366
SNP Position Genomic:     58418
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33238):
ACTATTAATAGCCTACTGTGCACTAGAAGCCTTACCAATAACAGAAACAGTTGCTTAACACATATTTGGCATGTTATATGTGTTATATACTGTATTATCA
Y
AATGAAGTCAGCTAGAGAAAAGAAAATGTTATTAAGAAAATCTTAAGGAAGAGAAAATTAAGTATTCATTAAGTGGAAGTGGATCATGATAAAGGTCTTC
Celera SNP ID:            hCV27155367
SNP Position Genomic:     58487
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33239):
TGTTGATTCCTCTGGTGTGGTGTCTATTCATTCTTGAATTTCTCACAGATTCATATCTTGAAAGACCATATCCCCCACCTTTTGTTGCTGAATTAGAGAT
R
TTGGGTTTGCAGGCAAGTAGACCACTTTGACACCTTCAGTGTTGAACTCATGGGTTCTGGGTGGCTAGGGGCATTGTCCAAAAATCAAAAGAACTTTGAA
Celera SNP ID:            hCV27155368
SNP Position Genomic:     59093
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33240):
ACAGATTTGACAAGTTCTATTAATAATTGCATAAAATACTTTACTTTGGATGCAATGTAGTTTTTAACCAATTAATATTGATATAGATTTAGGCATTTTG
Y
ATTTTTTGTCTTTATGAATAGGGCCGTGTAAACACTCTTTAATACTTTCCTTACATGAATATATTTCCATATTCTTGCTTTTATCTTAGTTGACTAGAGC
Celera SNP ID:            hCV27155369
SNP Position Genomic:     61775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33241):
GGTGTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATGCTACTTCCTTTGATGTGGTTTTAACAGACCCCGTTAACCTCTGCGGGGC
R
GTGCTGGCTAAGTACCTGTCGATTCCTGCTGTGTTTTTTTGGAGGTACATTCCATGTGACTTAGACTTTAAGGGCACACAGTGTCCAAATCCTTCCTCCT
Celera SNP ID:            hCV25968984
SNP Position Genomic:     107656
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:33242):
AAAAAGGATTCTTTACTGAACTGTGATTTGACATTTTCATTTGTTTCATTTCAAATTTCTTTCCAGTTTAACAAATTATTTTGTGCCAATGCGTGTACTC
R
TCAGTAGCAAATTTTATAAAACTGCCCTTCTTGAAGATATGTATTTATAACTTATAAAATTGTGGATCATATTCAGCCTACATTTTTAAGTACCATGTTT
Celera SNP ID:            hCV9096272
SNP Position Genomic:     61311
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33243):
TAAACCTCCAAAACAAGATGCCGGAAGTTGCCAGTCCTCAGAAGCCTTCACAGTTACTGATCCTCCCACTCTGTTAAAGACTGTTCCTTCAGAGGACCCC
Y
GTTTTCTAGTTAGTATAGCAGATTTGTTTTCTAATCATATTATGTTCTTTCTTTACGTTCTGCTCTTTTTGCCCCTCCCAGGTCCTGTGGCGGTACACTG
Celera SNP ID:            hCV15757797
SNP Position Genomic:     156140
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,16)   caucasian(C,6|T,24)   total(C,20|T,40)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,57|T,1444)   total(C,57|T,1444) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33244):
TTAACAAATTATTTTGTGCCAATGCGTGTACTCGTCAGTAGCAAATTTTATAAAACTGCCCTTCTTGAAGATATGTATTTATAACTTATAAAATTGTGGA
W
CATATTCAGCCTACATTTTTAAGTACCATGTTTAGAAAAGTACCAAAAACCACAGTAAGAAATGAAACTTCCCTTTTTTGTTAATTCTATATGCCCGCCC
Celera SNP ID:            hCV9096273
SNP Position Genomic:     61378
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33245):
TGTGGATCATATTCAGCCTACATTTTTAAGTACCATGTTTAGAAAAGTACCAAAAACCACAGTAAGAAATGAAACTTCCCTTTTTTGTTAATTCTATATG
M
CCGCCCCAGAGGAAATGGTCTTAGTTTTGTGAACATTCTTTTAATGTTTTTAAAAAAGTACTTTAGGTATATACAATATCTAATGTAAATTCTCACACCT
Celera SNP ID:            hCV9096274
SNP Position Genomic:     61472
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33246):
GGCATTCAGAAGAGGAATTCAGACTGTGCAAGATCTGAGGCCAGGCTCCAGCTCCCCCAGTCCCTTGGTGAGCAGGAGCTCCCTGAACCCACCATGGGTC
Y
TTGCTAGGGTTGTCTTGCCCATGTGTGCTTTAGATAGCAGCACCTCTTCTTCCATGGTGTATATGGAGAATCCTCAACAAAGTCTTCCCAAGAATCTGAT
Celera SNP ID:            hCV11473200
SNP Position Genomic:     116735
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33247):
ATCCTCAACAAAGTCTTCCCAAGAATCTGATCATCACATCTTGAGCTCAGCCTCCCTGCAGCTTTTTCTATATTGACAGCCACTTCAGAGAGAGTCCTCT
Y
TGATCCTTACAAGAAATATCCTGGTGCGAAAAACGACCAAAACCACATAGCCAGCCTCCACGCTGTTCAGAGAAAGCTGGCTTAGCAATGTTGTATGGTT
Celera SNP ID:            hCV11473201
SNP Position Genomic:     116905
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33248):
CACCACCACAGTCAGCAAATTTTTGTATTTTTAGTAGACATGGGGTTTTGCCATGTTGGCCAGGTTGGTCTTGAACTCCTGACTTCAGATGATCTGCCCT
Y
CTCAGCCTCCCAAAGTCCTGGGATTACAGGCATGGGCCACCACGCCCGGCCAAGAAATGTTATCTTTCACAGATGCAGATGTACAAAAGGGACATCTCTT
Celera SNP ID:            hCV27893236
SNP Position Genomic:     42204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33249):
GGTGTATAAAATATATGCATTTATATGCCTTTAAGGAATATACATATGATAGGATTTATAGATGTGGAAGGTTATGTATTAATGTATATATTTATAAATA
K
AAAATAAATATAATTATCAAAGAAGAATTCAGATCATAAAGAGTGCCCTTTGGCAAAGAGCCCTGGATATGGCTCAACCACAAAAGTAAATTGTCATAGA
Celera SNP ID:            hCV27893237
SNP Position Genomic:     73099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33250):
CTCCTCACTTCCCAGACGGGGTGGCGGCCGGGCAGAGGCTGCAATCTCGGCACTTTGGGAGGCCAAGGCAGGCGGCTGGGAGGTGTAGGTTGTAGTGAGC
S
GAGATCACGCCACTGCACTCCAGCCTGGGCACCATTGAGCACTGAGTGAACGAGACTCCGTCTGCAATCCCGGCACCTCGGGAGGCCGAGGTTGGCGGAT
Celera SNP ID:            hCV27893238
SNP Position Genomic:     113234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33251):
TAGAGCACCACACCCTGTAATTGCCTAGTTGTGAGTTTGTCTCTGTTCACCTGACCCCTCCTTTCAGGCAAGGACCATTTCTAACTTGGCTTTCTGTCCC
K
AGTTCCTAGCATAGTAGGTAGGGCTCACACATTCCATAAATATTTGGTGGATAAGGGAATTAGCAATGGATTCTGCTTTGGTTCCAAAGCAGAGATTAAT
Celera SNP ID:            hCV27893239
SNP Position Genomic:     135016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33252):
AGGCTTAAGTTTAATAAATAGCAAATTGCATACAGATATTTTACAACGATTGAAAGACAAACAGAGGTCCTATCCGTGTAGTCCCAACGATAAGAACAGG
Y
GTTGGCATGAAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTA
Celera SNP ID:            hCV27466896
SNP Position Genomic:     131426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33253):
CCAGTATCTTTTTAGAAATGCCCTAGAAATAGCCTCTGAAATTCTCCAAACCCCTGTCACGGCATATGATCTCTACAGTCACACATCAATTTGGTTGTTG
Y
GAACGGACTTTGTTTTGGACTATCCCAAACCCGTGATGCCCAACATGATCTTCATTGGTGGTATCAACTGTCATCAGGGAAAGCCATTGCCTATGGTAAG
Celera SNP ID:            hCV25754635
SNP Position Genomic:     25642
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33254):
GGACAGTCAGCTGTCGGTGGCTTCTGCTGAGATGGCCAGAGGACTCCAGGTTCCCCTGCCGCGGCTGGCCACAGGACTGCTGCTCCTCCTCAGTGTCCAG
M
CCTGGGCTGAGAGTGGAAAGGTGTTGGTGGTGCCCACTGATGGCAGCCCCTGGCTCAGCATGCGGGAGGCCTTGCGGGAGCTCCATGCCAGAGGCCACCA
Celera SNP ID:            hCV25957120
SNP Position Genomic:     107249
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(A,1|C,39)   total(A,1|C,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:33255):
TCCTTTAGGAGCTCTTGTAAGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTATAAAGGATTTTATTTCTCCTTCACTTATGAAGCTTA
S
TTTGGCTGCATATGAATTTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGTCTTGTAGGGTTTCTGCAGAGAGA
Celera SNP ID:            hCV27155440
SNP Position Genomic:     124134
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,9)      total(G,4|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33256):
TGCAATAGGTTCGAACATGCACTTTTAGCTTGGAGAGGTTTGTTACTACCAAACTTCTGAAGCCTACTTCTGTCAACTCGTCAAAGTCATTCTCTTTCCA
K
CTTTGCTCCATTGCTAGCAAGGAGCTGTGATCCTTTGGAGGAGATGTGCTTATGCGCTATGGTTTTTAGAATTTTCAGCTTTTCTGCTCTAGTTTCCCCC
Celera SNP ID:            hCV27155441
SNP Position Genomic:     124899
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,6)      total(G,6|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33257):
CTTGGATGTCCAGGCAGACGTTTGCTGCATGGATAGAGTCCTTATAGAGAACCTCTGCTAGAGAAGGGTGGTAAAGAAATGTGAGGTTGGAGCCCCCACA
S
AGAGTCTCCACTGGGGCACTGCCTAGTGGAGTTGTGAGAAGAAGGCCACAGTCCTTCAGAACCCAGAAGGGCAGATCCAATAGCTTGCACTGTGTGCCTG
Celera SNP ID:            hCV27155442
SNP Position Genomic:     127638
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33258):
CATTTTAAAAGGAGATTTTTCAATTCTAAAAATTCTTTAAATAAAATGCTCTTGCAGGGACAACATAGTAGGTCAACATTGTTCCCATCTCCACAAAAAG
T
TTTTTTTTTAATTAGCTAGGTGTGGTAGCATTTCTGTAGTCCTAGCTACTGGGAATGCTGAGGAGGAAGGATCACTTGAGCCCAGGAATTCGTGGTTACA
Celera SNP ID:            hCV11742271
SNP Position Genomic:     129287
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33259):
GAGTGTGTCCAATGGTGACCTATTAACTTATGTCTTCAGCTTAAAAAGAAAGTACCTTCAAAAGGGTTCCAGAAACACTTTCCATGGACATGTCACTCTT
Y
AGTAGCCCCCAAAGCAAGACCATCATATTGCTGCCCTGCTGTGTGACTTCTTAGCCCCTAGAGCACCACACCCTGTAATTGCCTAGTTGTGAGTTTGTCT
Celera SNP ID:            hCV11742272
SNP Position Genomic:     134857
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33260):
ATATTTCCATATTCTTGCTTTTATCTTAGTTGACTAGAGCCCTACATGTAGGGTTACAGGATTTCCATGAATTGAGAAGGATTGGCATTTTTTTGCTATT
R
TGTCTTCCTGTTCAGGAATATGTATGTCTCACTATTTATTCAGATCTTGTTTTATATACATAAATAAAATTTTTCACTATATAAGCATTTTCTGTTTCTT
Celera SNP ID:            hCV27155370
SNP Position Genomic:     61936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33261):
GTTTGCTGCATGGATAGAGTCCTTATAGAGAACCTCTGCTAGAGAAGGGTGGTAAAGAAATGTGAGGTTGGAGCCCCCACACAGAGTCTCCACTGGGGCA
Y
TGCCTAGTGGAGTTGTGAGAAGAAGGCCACAGTCCTTCAGAACCCAGAAGGGCAGATCCAATAGCTTGCACTGTGTGCCTGGAAGAGCCACAGACATCAA
Celera SNP ID:            hCV27155443
SNP Position Genomic:     127657
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33262):
TGTCCAAATCCTTCCTCCTATATTCCTAAGTTACTAACGACCAATTCAGACCACATGACATTCCTGCAAAGGGTCAAGAACATGCTCTACCCTCTGGCCC
Y
GTCCTACCTTTGCCATGCTCTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGGGAGGTGTCAGTGGTGGATCTTCTCAGCCATGCATCT
Celera SNP ID:            hCV11742273
SNP Position Genomic:     136230
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,23)   caucasian(C,7|T,33)   total(C,22|T,56)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33263):
TGCTACTTCCTTTGATGTGGTTTTAACAGACCCCGTTAACCTCTGCGGGGCGGTGCTGGCTAAGTACCTGTCGATTCCTGCTGTGTTTTTTTGGAGGTAC
W
TTCCATGTGACTTAGACTTTAAGGGCACACAGTGTCCAAATCCTTCCTCCTATATTCCTAAGTTACTAACGACCAATTCAGACCACATGACATTCCTGCA
Celera SNP ID:            hCV25968489
SNP Position Genomic:     107705
SNP Source:               Applera
Population(Allele,Count): african american(A,29|T,5)   caucasian(A,40)   total(A,69|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:33264):
GGGGGAAGGGACTTGACTTGTCTCAGATGAGACCTTGGACTATGGACTTTTGAGCTAGTGCTGAAATGAGTTAAGACTTTGGAGGACAGTTGGGAAGGCA
Y
GATTGGTTTTTAAATGTGAAAAGACATGAGATTTGGGATGGGCCAGAGGGCAGAATGATATGATTTGACTGTGTGTTTCCACCCAAATCTCATCTCATAT
Celera SNP ID:            hCV27155444
SNP Position Genomic:     128165
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33265):
AAACCTATATATGATTTTATATCACCTATGATAGAGGGTTATCTATAAAATATGAAACATCAAACTATATATGGTTTCATTTATTTTGATTATAAATATC
T
TTTATGAGATATGAAATAAATGTGTTTATGTGTCTATTAAAGAATATGGATGTATGAAAGTTTTTATACTTGTGGAAGATTACATATATTAATGTATGTA
Celera SNP ID:            hCV27155371
SNP Position Genomic:     63019
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33266):
GGCTTAAGTTTAATAAATAGCAAATTGCATACAGATATTTTACAACGATTGAAAGACAAACAGAGGTCCTATCCGTGTAGTCCCAACGATAAGAACAGGT
R
TTGGCATGAAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAA
Celera SNP ID:            hCV27155445
SNP Position Genomic:     131427
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33267):
AACCTATATATGATTTTATATCACCTATGATAGAGGGTTATCTATAAAATATGAAACATCAAACTATATATGGTTTCATTTATTTTGATTATAAATATCT
T
TTATGAGATATGAAATAAATGTGTTTATGTGTCTATTAAAGAATATGGATGTATGAAAGTTTTTATACTTGTGGAAGATTACATATATTAATGTATGTAT
Celera SNP ID:            hCV27155372
SNP Position Genomic:     63020
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33268):
TTTAATAAATAGCAAATTGCATACAGATATTTTACAACGATTGAAAGACAAACAGAGGTCCTATCCGTGTAGTCCCAACGATAAGAACAGGTGTTGGCAT
R
AAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGTCAAAT
Celera SNP ID:            hCV27155446
SNP Position Genomic:     131435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33269):
GATCCAAATTCAAAGTTAGCTTTTGGTGGACAAGACTAAGGCCTCCCACTAAAATTATTTACTTCAAGTTTTTATTTTCAAAGTTTTCAAACATACACAA
Y
GGAGAGACTCAGTGTAATGAGCACCCACTTATCCATTCTTAGGTTAAATAATTTTCACTATTTTGCTCTACTAATTCATCTATCCCTTTATTCTATCTTT
Celera SNP ID:            hCV27155373
SNP Position Genomic:     64030
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33270):
AGAAGAAAAAACACCCCCAAAAGCTGGAAATTCACTGAAGGCAGAGAAAAGGGGTGCAGACGCTCTGCTTCTGCTTCCCCAGCAGTTCCTCTGACCCCCC
M
AAAATATTCTCCAGCGGGTTTCCCAAGAGGTCAAAGGAGAATGGGTCCTGGCCGCCGAAGAACTCCCTGAAGACGTCGGCTGGGTCGCGGAAGCTGAAGA
Celera SNP ID:            hCV25754204
SNP Position Genomic:     131907
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,39)   total(A,1|C,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:33271):
TGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGTCAAATGTGGACTGGAATTACTTGGTGTCAATG
S
GGAGTAACTGCTCTTTGCTATTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTG
Celera SNP ID:            hCV27155447
SNP Position Genomic:     131563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33272):
GCTTTTGGTGGACAAGACTAAGGCCTCCCACTAAAATTATTTACTTCAAGTTTTTATTTTCAAAGTTTTCAAACATACACAATGGAGAGACTCAGTGTAA
Y
GAGCACCCACTTATCCATTCTTAGGTTAAATAATTTTCACTATTTTGCTCTACTAATTCATCTATCCCTTTATTCTATCTTTTTAAAGAAAACTTTTAAA
Celera SNP ID:            hCV27155374
SNP Position Genomic:     64048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33273):
TGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGTCAAATGTGGACTGGAATTACTTGGTGTCAATGCGGAG
Y
AACTGCTCTTTGCTATTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTGGTGGT
Celera SNP ID:            hCV27155448
SNP Position Genomic:     131568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33274):
GTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGTCAAATGTGGACTGGAATTACTTGGTGTCAATGCGGAGTAACTGCTCT
W
TGCTATTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTGGTGGTGATTTTTTTA
Celera SNP ID:            hCV27155449
SNP Position Genomic:     131578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33275):
GATGGGAGCAATCATGCCCCAAACATCAGCATCACACAATATACTCAGGTAACCTGCACATGTACTCCTGAATCTAAAATAAAAGTTGAGTATGTATAAG
W
GGAAGTGAATCATCATAAAGGTCTCCATCCTCATCATCTTCCATTGAGTGGGCTGTGGAGGAGGAGGAGTAGATGTTGATTTTGCTGTCTCAGGGTGGCA
Celera SNP ID:            hCV27155376
SNP Position Genomic:     66698
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|T,9)   total(A,6|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33276):
GCAATCATGCCCCAAACATCAGCATCACACAATATACTCAGGTAACCTGCACATGTACTCCTGAATCTAAAATAAAAGTTGAGTATGTATAAGTGGAAGT
S
AATCATCATAAAGGTCTCCATCCTCATCATCTTCCATTGAGTGGGCTGTGGAGGAGGAGGAGTAGATGTTGATTTTGCTGTCTCAGGGTGGCAGAGGCAG
Celera SNP ID:            hCV27155377
SNP Position Genomic:     66705
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|G,9)   total(G,9|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33277):
AATCATGCCCCAAACATCAGCATCACACAATATACTCAGGTAACCTGCACATGTACTCCTGAATCTAAAATAAAAGTTGAGTATGTATAAGTGGAAGTGA
W
TCATCATAAAGGTCTCCATCCTCATCATCTTCCATTGAGTGGGCTGTGGAGGAGGAGGAGTAGATGTTGATTTTGCTGTCTCAGGGTGGCAGAGGCAGAA
Celera SNP ID:            hCV27155378
SNP Position Genomic:     66707
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|A,9)   total(A,9|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33278):
CCTCTCTCCTCTCATTCAGATCACATGACCTTCCTGCAGCGGGTGAAGAACATGCTCATTGCCTTTTCACAGAACTTTCTGTGCGACGTGGTTTATTCCC
M
GTATGCAACCCTTGCCTCAGAATTCCTTCAGAGAGAGGTGACTGTCCAGGACCTATTGAGCTCTGCATCTGTCTGGCTGTTTAGAAGTGACTTTGTGAAG
Celera SNP ID:            hCV27540914
SNP Position Genomic:     149346
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33279):
GCAGGAGAGGCAGGTGCACTTGGTGTAACCTTATGGAAATACATCATAATTACTGTCTGTTTTTTTCTCTTTGATGTATTTAAAAATGCTTTTATACAGT
R
CTAATCCTTCTTCCCCATTTGCTTTAGTTTCAGTGCCCATAAGGGTTCATGTCTTAATAGAAGTCAATAGCAGTCTTAAATAATTGGAAGCATTTCTATG
Celera SNP ID:            hCV27155379
SNP Position Genomic:     66932
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33280):
AGTATCCCAAACCCGTGATGCCCAATATGATCTTCATTGGTGGTATCAACTGTCATCAGGGAAAGCCAGTGCCTATGGTAAGTTATCTCCCCTTTAGCAC
W
TTAAGAATAATCTGGCTTTGGAAATTAAAAGATTTCTTACAGAATCATAATTTATCATTTACATTTGTCCCATTTGGAATTTCTTTCTGGTTTAAGGAAT
Celera SNP ID:            hCV25969795
SNP Position Genomic:     71187
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,38)   total(A,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33281):
AGTGGATGTAGCTCTCAGCAGATGGGGGAAGCCAGAAGGGGATGGAATGGGAAGGGTTTCCCCTGGAGTCAGACCGCTCAGTGGCCCGGGCTCGGTGGCC
Y
GGGCTCGGTGGCCTGGGCTCTCCTCCGACTGCCTCAGCCAAACTCCGCGTTGTTCTGCTGGTCAGTGGCCTGCCGGTGCCTGTTGGTGAGTTCTTCTCAA
Celera SNP ID:            hCV27893240
SNP Position Genomic:     154651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33282):
GTTAATTCTATATGCCCGCCCCAGAGGAAATGGTCTTAGTTTTGTGAACATTCTTTTAATGTTTTTAAAAAAGTACTTTAGGTATATACAATATCTAATG
Y
AAATTCTCACACCTATTTTGTTAAAATAAAATCTAGTATTGGGCTGGACATATTCTTCTTTTCTTTGCATTTTTCACTTGCCAATAAATTATAAATACCT
Celera SNP ID:            hCV9096281
SNP Position Genomic:     61558
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33283):
TTAAGGTTTTGTTTTTTGCATATGTATCTTGTATCCAGCCACATTACTAACTTATCTTATTATTTTGTAGTATACAGTAGATGTACAATATACAATGTCA
W
CTGCAAAGAATTCCCTTCTCTGATATTTATACCACTTATTTTGCTTTGCTGGAGCTTATACTTCCAAAGCACTATTGAGTAATATTGTGAGAGTAGCCAG
Celera SNP ID:            hCV9096282
SNP Position Genomic:     62228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,9)      total(A,4|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33284):
TAGGCTAGGAGATGCAAATGGCAGAAATCTAAGAGGTTAGACTTGTCTAAGCACTTTTCTCCCCTTTACCCTCCATAAATTATAGTATCCTCCATTAATT
R
TAGTAACAGGCACCACTTATGTGTTGCCTGCACCCCACAACCTTTGGCTGAGGGTAAGGCCCTGCCACTTCCTGAACCCACACTGAATTTATTGTGCCTC
Celera SNP ID:            hCV9096283
SNP Position Genomic:     62786
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33285):
ATAAATTAATCAGCCCCAGAGTGCTTTAAAAAATTCTCTTAAATAAAAATAATAGACTCGCTAGTCAGTAAAGATATTTGAATATGTATCGTGCCCCCTC
Y
GGTGTCTTTGATCAGGATGACATGTGCCATTTTTCAGAGGACGTGCAGACAGGCTGGCATTCTAGATTACTTTTCTTACTCTGAAACATGGCCTGTTTGG
Celera SNP ID:            hCV25971205
SNP Position Genomic:     161142
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,11)   caucasian(C,29|T,9)   total(C,56|T,20)
SNP Type:                 UTR 3


Context             (SEQ ID NO:33286):
TGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATATTCTCAGTCATGCATCTGTGTGGCTGTTCCGAGGGGACTTTGTGATGGACTACCCCAGGCCAATC
R
TGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGCCAACAGGAAGCCACTATCTCAGGTCTGTATTGGTGCCTTCATCCAATCAATGTTCCAGGCAAA
Celera SNP ID:            hCV25973676
SNP Position Genomic:     118293
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,37|G,1)   total(A,70|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:33287):
GCTCTGTCCTCCCTCACTCATTTGGCTCCTTGAGCCGACTGTCCCTTGGAGGATTTCCTGGAGAAACGGTGGGGGGAAGTGATACCCGGCTCGGAGCAGC
R
GGAACACATAGGAGACCTGAGGCTGAAGTGATACAGAGGCATTCGGATGAAGACAGGGCTCATGCTTGGCAAGAGTAGGAGATTTGCTTAGTTGGATAAT
Celera SNP ID:            hCV342588
SNP Position Genomic:     82370
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33288):
ACCTTCTTTATCTCTGAAAGTGAACTCCCTGCTACCTTTGTGGACTGACAGCTTTTTATAGTCACGTGACACAGTCAAACATTAACTTGGTGTATCGATT
S
GTTTTTGCCATATATATATATATAAGTAGGAGAGGGCGAACCTCTGGCAGGAGCAAAGGCGCCATGGCTGTGGAGTCCCAGGGCGGACGCCCACTTGTCC
Celera SNP ID:            hCV11473213
SNP Position Genomic:     148597
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33289):
ATCTGGCTTTGGAAATTAAAAAAGGATTCCTTACTGAACTGTGATTTGACATTTTCGTTTGTTGCATTTCAAATTTCTTTCCAGTTTAACAAATTATTTT
S
TGCGAATTCATGTACTCATCAATTATCAAATTTTATAAAACTGCCCTTCTTGAAAGTATATGTAATAATTTAAAAATTATAGATCATATTCAGGCTACAT
Celera SNP ID:            hCV11473141
SNP Position Genomic:     25871
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;(C,-|G,-)   SC_12_A(C,1|G,22)   total(G,22|C,1)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33290):
TTCAGATGCCAGGATGTGTCTGGGAAAAGCATGCAGTTGGTTACATCTTGCTGGGAAACAGGATTCAGAGTCTGAGTCTCATCTGTCTGATGAGAAGGAA
R
CATTACTTGATGATAGAGTATGTGTTTGCACATGTATGTGTTTGTGTATGTGCAGGTGTGTTTGCGTGCAGTGTCCCAGACCCTGCACAGGGGATTTCTT
Celera SNP ID:            hCV11473142
SNP Position Genomic:     27924
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33291):
ATGCTGTTCCATGGACCCAGAAGGAATTTGATCGCGTTACGCTGGGCTACACTCAAGGGTTCTTTGAAACAGAACATCTTCTGAAGAGATATTCTAGAAG
Y
ATGGCAATTATGAACAATGTATCTTTGGCCCTTCATAGGTGTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATGCTACTTCCTTTG
Celera SNP ID:            hCV25963987
SNP Position Genomic:     107518
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:33292):
CTCCTATATTCCTAGATTACTAACGACCAATTCAGACCACATGACATTCCTGCAAAGGGTCAAGAACATGCTCTACCCTCTGGCCCTGTCCTACCTTTGC
Y
ATGCTGTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGAGAGGTGTCAGTGGTGGATCTTGTCAGCCATGCATCTGTGTGGCTGTTCCG
Celera SNP ID:            hCV25969366
SNP Position Genomic:     102023
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,37|T,3)   total(C,68|T,8)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33293):
CTACCCTCTGGCCCTGTCCTACCTTTGCCATGCTCTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGGGAGGTGTCAGTGGTGGATCTT
S
TCAGCCATGCATCTGTGTGGCTGTTCCGAGGGGACTTTGTGATGGATTACCCCAGGCCGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGC
Celera SNP ID:            hCV25973314
SNP Position Genomic:     136316
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,40)   total(C,76|G,2)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,2)   caucasian(C,12)   total(C,42|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:33294):
CGCCCGGTGGAGCCGCTGGACCTGGCCGTGTTCTGGGTGGAGTTTGTGATGAGGCACAAGGGCGCGCCACACCTGCGCCCCGCAGCCCACGACCTCACCT
R
GTACCAGTACCATTCCTTGGACGTGATTGGTTTCCTCTTGGCCGTCGTGCTGACAGTGGCCTTCATCACCTTTAAATGTTGTGCTTATGGCTACCGGAAA
Celera SNP ID:            hCV27540344
SNP Position Genomic:     160777
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:33295):
ACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGTCAAATGTGGACTGGAATTACTTGGTGTCAATGCGGAGTAACTGCTCTTTGC
Y
ATTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTGGTGGTGATTTTTTTACCAT
Celera SNP ID:            hCV27155450
SNP Position Genomic:     131582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33296):
CTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGTCAAATGTGGACTGGAATTACTTGGTGTCAATGCGGAGTAACTGCTCTTTGCT
R
TTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTGGTGGTGATTTTTTTACCATC
Celera SNP ID:            hCV27155451
SNP Position Genomic:     131583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33297):
TACTGCATTAGAGATTAAAACAGAATTAAAAAGACATATTAATTGGGCAATTTAGTAAGAATAAACCCATGACACAATAGCAAATCTTATTTTTATGTAA
M
TTTTATTAAGACAAAATGTAGTGAGAAGAGTGGCATCGTTTTACAGTTTTTGCATCTCTCTTTAGTACTTGGCTCTATAGAGAGGTGGATTCTCATGTCA
Celera SNP ID:            hCV27155452
SNP Position Genomic:     132897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,5)      total(A,5|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33298):
TCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGGGAGGTGTCAGTGGTGGATCTTCTCAGCCATGCATCTGTGTGGCTGTTCCGAGGGGACT
Y
TGTGATGGATTACCCCAGGCCGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGCCAACAGGAAGCCACTATCTCAGGTCGGTGTTCGTGCC
Celera SNP ID:            hCV258660
SNP Position Genomic:     136353
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,28)   caucasian(C,10|T,28)   total(C,20|T,56)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,28)   caucasian(C,11|T,29)   total(C,21|T,57)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33299):
AGGAAATAATCATTGTCTGCCTCAGGCTTAAGTTTAATAAATAGCAAATTGCATACAGATATTTACAATGATCGAAAGACAAACAGAGGTCCTATCCGTG
Y
AGTCCCAACAATAAAGACAGGCATTGGCATAAAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCC
Celera SNP ID:            hCV11742283
SNP Position Genomic:     142758
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33300):
GGCATAAAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAG
K
CAAATGTGGACTGGAATTACTTGGTGTCAATGGGGAGCAACTGCTCTATGCCGTTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCC
Celera SNP ID:            hCV27155453
SNP Position Genomic:     142884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33301):
AGCATTTCTATGAGGCTTGTATTGTGTAAGGCCAATTTTTTTTCTGGCACTGCTTCTTCTACATCTTCTTTCTCATCAAGTACTGATTGGAAAGCACTCA
T
CTCTATCAGGTCATCTATTGATTCCCTGAGTGTGGCATCTATTGTCTCTTGAATTTCTCCAAGAGTCATATTTTGAAATACCTTATCCCCAACATTTTGT
Celera SNP ID:            hCV27155380
SNP Position Genomic:     67121
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33302):
TGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGGCAAATGTGGACTGGAATTACTTGGTGTCAATG
S
GGAGCAACTGCTCTATGCCGTTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTG
Celera SNP ID:            hCV27155454
SNP Position Genomic:     142917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33303):
AAATATTCTCCAGCGGGTTTCCCAAGAGGTCAAAGGAGAATGGGTCCCGGCCGCCAAAGAACTCCCTGAAGACCTCGGCGGGGTCACGGAAGCTGAAGAC
S
TACTCGAAGGGGTCCTTGAAGGGCCTGCCGCCTGCGCAGCCGCCCTCCGCCCTCGCCTCGCCATAGCGGTCATAGATATCGCGTTTCTACGCGTCCGACA
Celera SNP ID:            hCV11742284
SNP Position Genomic:     143362
SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,22)   caucasian(C,14|G,20)   total(C,28|G,42)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33304):
GCATTTCTATGAGGCTTGTATTGTGTAAGGCCAATTTTTTTTCTGGCACTGCTTCTTCTACATCTTCTTTCTCATCAAGTACTGATTGGAAAGCACTCAT
C
TCTATCAGGTCATCTATTGATTCCCTGAGTGTGGCATCTATTGTCTCTTGAATTTCTCCAAGAGTCATATTTTGAAATACCTTATCCCCAACATTTTGTT
Celera SNP ID:            hCV27155381
SNP Position Genomic:     67122
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33305):
TGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGGCAAATGTGGACTGGAATTACTTGGTGTCAATGGGGAG
Y
AACTGCTCTATGCCGTTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTGGTGGT
Celera SNP ID:            hCV27155455
SNP Position Genomic:     142922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33306):
TTTCTATGAGGCTTGTATTGTGTAAGGCCAATTTTTTTTCTGGCACTGCTTCTTCTACATCTTCTTTCTCATCAAGTACTGATTGGAAAGCACTCATCTC
T
ATCAGGTCATCTATTGATTCCCTGAGTGTGGCATCTATTGTCTCTTGAATTTCTCCAAGAGTCATATTTTGAAATACCTTATCCCCAACATTTTGTTGCT
Celera SNP ID:            hCV27155382
SNP Position Genomic:     67125
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33307):
GTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGGCAAATGTGGACTGGAATTACTTGGTGTCAATGGGGAGCAACTGCTCT
W
TGCCGTTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTGGTGGTGATTTTTTTA
Celera SNP ID:            hCV27155456
SNP Position Genomic:     142932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33308):
TTCTATGAGGCTTGTATTGTGTAAGGCCAATTTTTTTTCTGGCACTGCTTCTTCTACATCTTCTTTCTCATCAAGTACTGATTGGAAAGCACTCATCTCT
A
TCAGGTCATCTATTGATTCCCTGAGTGTGGCATCTATTGTCTCTTGAATTTCTCCAAGAGTCATATTTTGAAATACCTTATCCCCAACATTTTGTTGCTG
Celera SNP ID:            hCV27155383
SNP Position Genomic:     67126
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33309):
ACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGGCAAATGTGGACTGGAATTACTTGGTGTCAATGGGGAGCAACTGCTCTATGC
Y
GTTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTGGTGGTGATTTTTTTACCAT
Celera SNP ID:            hCV27155457
SNP Position Genomic:     142936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33310):
TATGAGGCTTGTATTGTGTAAGGCCAATTTTTTTTCTGGCACTGCTTCTTCTACATCTTCTTTCTCATCAAGTACTGATTGGAAAGCACTCATCTCTATC
A
GGTCATCTATTGATTCCCTGAGTGTGGCATCTATTGTCTCTTGAATTTCTCCAAGAGTCATATTTTGAAATACCTTATCCCCAACATTTTGTTGCTGTAT
Celera SNP ID:            hCV27155384
SNP Position Genomic:     67129
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33311):
CTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGGCAAATGTGGACTGGAATTACTTGGTGTCAATGGGGAGCAACTGCTCTATGCC
R
TTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTGGTGGTGATTTTTTTACCATC
Celera SNP ID:            hCV27155458
SNP Position Genomic:     142937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33312):
TTTTTCTTAAAGTAGGCTTTATATCAGTCTTTTTCCTCGGCCACAGGAGGGAAGAGGGTGGTGGGAGTGAGTTTAGTCTGACCGGGGCTGAAGACATCCT
R
TTGTTTAGGACTGCGGTTCTCCAACGTTCCAGCCCCGGTGCCCATTTGCTTTTGTTCATCTGGATTATGCCTATCATATGTACTGCATTAGAGATTAAAA
Celera SNP ID:            hCV11742287
SNP Position Genomic:     144067
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,11)   caucasian(A,4|G,16)   total(A,5|G,27)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33313):
ATGAGGCTTGTATTGTGTAAGGCCAATTTTTTTTCTGGCACTGCTTCTTCTACATCTTCTTTCTCATCAAGTACTGATTGGAAAGCACTCATCTCTATCA
G
GTCATCTATTGATTCCCTGAGTGTGGCATCTATTGTCTCTTGAATTTCTCCAAGAGTCATATTTTGAAATACCTTATCCCCAACATTTTGTTGCTGTATC
Celera SNP ID:            hCV27155385
SNP Position Genomic:     67130
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,10)   total(G,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33314):
ATCTCAGCAAAAGCTACTCATATATTCTTGTTCTTTTGGGTAAATCATTGTCAGTGACTGATTTTTTTTTATGAAAGGATAAAAACACGCCCTCTATTGG
R
GTCAGGTTTTGTGCTGGTATTTCTCCCACCTACTGTATCATAGGAGCTTAGATTCCCAGCTGCTTGCTCTCAGCTGCAGTTCTCTGATGGCTTGCACAGG
Celera SNP ID:            hCV27847057
SNP Position Genomic:     60218
SNP Source:               Applera
Population(Allele,Count): african american(G,20)   caucasian(A,1|G,31)   total(A,1|G,51)
SNP Type:                 INTRON


Context             (SEQ ID NO:33315):
GGCCTGTGAGCGCCTCGCATCCCAAGATGCAGTGCTCCTGGGACTGGCCCTGCTCTCTGTGAGGCTCTGTGAGGCCCTGTGATGCTCCAAGACCAGGCCC
S
GCCCACTCCGGCCTCCAACCAGCCATGGTCTCCAAAAAGGATGGGAAAAAGAGGTTGGGGAAAAGAGAGGGCCTTGACTTTGGCTGCCTGAAGAACTGTT
Celera SNP ID:            hCV27847058
SNP Position Genomic:     143868
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,38)   total(C,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33316):
TAAGAAGAATAAACCCATGACACACTAACAAACCTTTTTATGTAACTTTTTTTGAGACAAAATGTAGTGAGAAGAGTGGCATCGTTTTACAGTTTTTGCA
Y
CTCTCTTTAGTACTTGGCTCTATAGAGAGGTGGATTCTCATGTCAGCTTCTGCATTCTATCTATTGTGATATTACACATCCCCCATGTAGCTTCTGGAAA
Celera SNP ID:            hCV27155459
SNP Position Genomic:     144300
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4|-,6)   total(C,4|-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33317):
AGTTTTTGCATCTCTCTTTAGTACTTGGCTCTATAGAGAGGTGGATTCTCATGTCAGCTTCTGCATTCTATCTATTGTGATATTACACATCCCCCATGTA
R
CTTCTGGAAAACTCCACTGTACACTTGTGGGAGAATGACAATGAGAAAATCAAGTAACATTATTACGGAAATAGTTTTGACTTTGTAAAATTCTCCTGAA
Celera SNP ID:            hCV11742288
SNP Position Genomic:     144390
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33318):
TGAGGCTTGTATTGTGTAAGGCCAATTTTTTTTCTGGCACTGCTTCTTCTACATCTTCTTTCTCATCAAGTACTGATTGGAAAGCACTCATCTCTATCAG
G
TCATCTATTGATTCCCTGAGTGTGGCATCTATTGTCTCTTGAATTTCTCCAAGAGTCATATTTTGAAATACCTTATCCCCAACATTTTGTTGCTGTATCC
Celera SNP ID:            hCV27155386
SNP Position Genomic:     67131
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,10)   total(G,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33319):
AGGCTTGTATTGTGTAAGGCCAATTTTTTTTCTGGCACTGCTTCTTCTACATCTTCTTTCTCATCAAGTACTGATTGGAAAGCACTCATCTCTATCAGGT
C
ATCTATTGATTCCCTGAGTGTGGCATCTATTGTCTCTTGAATTTCTCCAAGAGTCATATTTTGAAATACCTTATCCCCAACATTTTGTTGCTGTATCCAT
Celera SNP ID:            hCV27155387
SNP Position Genomic:     67133
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,10)   total(C,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33320):
TGTCATAAATCCTGTGAAGTCATGTGCAACATCTGGTCACAGTTTTCTCCAGAAGAAATGTACTGTTTGGGGCTTGGTGGCTTTCAAAGCTCTTTCTATA
R
TAACAGTGGCATCTTCAGTGGTGTAATCCTTCTGGACTTTCATGACATTCTCTATCCAGATTCTCTTTCCTAGTATTGACAACCTTTTCCATAGAAAACT
Celera SNP ID:            hCV27155388
SNP Position Genomic:     67363
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33321):
TTGATGGAACCAATCCAGAAAACGCGTTCTTATTGTTGAGTCCTTCTTTTTGTACAACAATAAAACTGTCAGTGAGTGTTGATCTTTTCCTTTCAAGGCT
Y
GAGGTTTGGCAGTTCTACTGATGAGGGCAGTCCTGACTGTAAACTTGACTGCATTTACACAAAACAGTAGAGTTAGCCTATCCCTTCCTGCCTTACATTC
Celera SNP ID:            hCV27155389
SNP Position Genomic:     67769
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33322):
ACTCTTTATTACCGTTGTTACTTTAACTCTTTCCAGGATGGCCTGCCTCCTTCGCTCATTTCAGAGAATTTCTGCAGGGGTTTTCTTCTTAGCACTTTGG
K
GCATGGTTGTAGGTGACAAGCTGCTGGTGGTCCCTCAGGACGGAAGCCACTGGCTTAGTATGAAGGATATAGTTGAGGTTCTCAGTGACCGGGGTCATGA
Celera SNP ID:            hCV25965732
SNP Position Genomic:     81430
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33323):
GCTGCAGCAGAGGGGACATGAAATAGTTGTCCTAGCACCTGACGCCTCGTTGTACATCAGAGACGGAGCATTTTACACCTTGAAGACGTACCCTGTGCCA
Y
TCCAAAGGGAGGATGTGAAAGAGTCTTTTGTTAGTCTCGGGCATAATGTTTTTGAGAATGATTCTTTCCTGCAGCGTGTGATCAAAACATACAAGAAAAT
Celera SNP ID:            hCV27860696
SNP Position Genomic:     148907
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33324):
GTGTTGCCTGCACCCCACAACCTTTGGCTGAGGGTAAGGCCCTGCCACTTCCTGAACCCACACTGAATTTATTGTGCCTCACAGCGTCACCCAGAGGCCT
W
TAGAGATATAAAAACCTATATATGATTTTATATCACCTATGATAGAGGGTTATCTATAAAATATGAAACATCAAACTATATATGGTTTCATTTATTTTGA
Celera SNP ID:            hCV9096290
SNP Position Genomic:     62907
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,7)      total(A,7|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33325):
TACGTGCCCAGGCCTCTCTCCTCTCATTCAGATCACATGACCTTCCTGCAGCGGGTGAAGAACATGCTCATTGCCTTTTCACAGAACTTTCTGTGCGACG
K
GGTTTATTCCCCGTATGCAACCCTTGCCTCAGAATTCCTTCAGAGAGAGGTGACTGTCCAGGACCTATTGAGCTCTGCATCTGTCTGGCTGTTTAGAAGT
Celera SNP ID:            hCV27860697
SNP Position Genomic:     149334
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33326):
CCGTGCCTTTATCACCCATGCTGGTTCCCATGGTGTTTATGAAAGCATATGCAATGGCGTTCCCATGGTGATGATGCCCTTGTTTGGTGATCAGATGGAC
R
ATGCAAAGCGCATGGAGACTAAGGGAGCTGGAGTGACCCTGAATGTTCTGGAAATGACTTCTGAAGATTTAGAAAATGCTCTAAAAGCAGTCATCAATGA
Celera SNP ID:            hCV27860698
SNP Position Genomic:     156706
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33327):
TTGTTTCTTCCAGGCTCTGTCCTCCCTCACTCATTTGGCTCCTTGAGCCGACTGTCCCTTGGAGGATTTCCTGGAGAAACGGTGGGGGGAAGTGATACCC
K
GCTCGGAGCAGCGGGAACACATAGGAGACCTGAGGCTGAAGTGATACAGAGGCATTCGGATGAAGACAGGGCTCATGCTTGGCAAGAGTAGGAGATTTGC
Celera SNP ID:            hCV25957571
SNP Position Genomic:     82357
SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,2)   caucasian(G,23|T,1)   total(G,47|T,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33328):
CAGCCACTGGCTGAGCATGCTTGGGGCCATCCAGCAGCTGCAGCAGAGGGGACATGAAATAGTTGTCCTAGCACCTGACGCCTCGTTGTACATCAGAGAC
R
GAGCATTTTACACCTTGAAGACGTACCCTGTGCCATTCCAAAGGGAGGATGTGAAAGAGTCTTTTGTTAGTCTCGGGCATAATGTTTTTGAGAATGATTC
Celera SNP ID:            hCV27536472
SNP Position Genomic:     148871
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33329):
TTTTGGAAAACTAGCACATTACCTGGATTTTGCATCTCAAGGATAATTCTGTAAGCAGGAACCCTTCCTCCTTTAGAAGGAAGTAAAGGAGAGGAAAATG
M
TGTAAAACTTACATATTAATAATTTTTTACTCTATCTCAAACACGCATGCCTTTAATCATAGTCTTAAGAGGAAGATATCTAATTCATAACTTACTGTAT
Celera SNP ID:            hCV27472394
SNP Position Genomic:     155250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33330):
TTGATGTTAAGTGGTATTTTCATTCAATTTGCAATTGTTCATTGCTAGTACAGTTGACCCTTGAACAATGTGGAGATTAGGGATACCAACCTCGCAGGTA
K
TCTAAAATCCACATATCATTTTGACCCCCATAACTTAACTATTAATAGCCTACTGTATAGCAGAAGCCTTACCAATAACGTAAATAGCCAATGAACACAT
Celera SNP ID:            hCV8738182
SNP Position Genomic:     47629
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33331):
ATCCCTCAGACAGTAAGAAGATTCTATACCATGGCCTCATATCTATTTTCACAGGAGCGCTAATCCCAGACTTCCAGCTTCCAGATTAATTCTCTTAATT
R
GAACCTTAGATTTGGCTTTTCCCTGCCACTTCCCAACTATTAATCCAAAGGTTTTTTTTGTTGTTGTGGTTGTTGTCATTGTTTTCAATTTGACTCTCAA
Celera SNP ID:            hCV25958012
SNP Position Genomic:     155627
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:33332):
CACATCTTGAGCTCAGCCTCCCTGCAGCTTTTTTTATATTGACAGCCACTTCAGAGAGAGTCCTCTTTGAGCTTTACAAGAAATATCCTGGTGTGAAAAA
Y
GACCAAAACCAGATAGCCAGCCTCCCCACTCCCTGTTTAAAGAAAGCTGGCTTAGCAATGTTGTCTGCATTTTGGATGTGCTGTGTTACCCATATGTGGG
Celera SNP ID:            hCV11473157
SNP Position Genomic:     100799
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,14)      total(C,14|T,2) ;no_pop(C,-|T,-)   (T,-|C,-)   (C,-|T,-)   Caucasian(T,10|C,74)   African-American(T,7|C,75)   total(C,149|T,17)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33333):
TGGTCTTCACCAGGGGAATATTTTGCCACCATCTTGAAGAAGGTGCACAGTGCCCTGCTCCTCTTTCCTATGTCCCCAATGATCTCTTAGGGTTCTCAGA
Y
GCCATGACTTTCAAGGAGAGAGTATGGAACCACATCGTGCACTTGGAGGACCATTTATTTTGCCAGTATCTTTTTAGAAATGCCCTAGAAATAGCCTCTG
Celera SNP ID:            hCV25759233
SNP Position Genomic:     25479
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(T,38)   total(C,2|T,70)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,38)   total(C,2|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:33334):
ACATCCCCCATGTAGCTTCTGGAAAACTCCACTGTACACTTGTGGGAGAATGACAATGAGAAAATCAAGTAACATTATTACGGAAATAGTTTTGACTTTG
Y
AAAATTCTCCTGAAAAATTACTGGGGATCCCTAGGATTTCCTGGCTCATACTTTGAGAATCGCTAGTCTAGCAGAGTAGTCCCTGGTATTCTGAAGGGAT
Celera SNP ID:            hCV27155460
SNP Position Genomic:     144476
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33335):
TCCCAGGTTCCCAATCAGGTCCATTTATGCAAATGAAGGATGGAAACTTGCTTAGTTCTTATTGGTCACTGCAGCTGCATTCTGATTGGTTGATGAAGCT
R
AGCCCTGAGTGGCTGAGGTGGGTGAGCTTTAATTGGTTGGTTCAGGTGAGCGCTGAAAATCTCAACTATAAAAAGGTACAGGTTTTCAGGATACTCAGAG
Celera SNP ID:            hCV27155461
SNP Position Genomic:     147664
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33336):
GAAAGAGGGAGAGAAAGAGGGGAGAGATGTGGTGCAGACCCTAGGGAGGAAGGAGTTCAGAAAAACCATCCTCAGGGTGTTCTTGCTACAAACCAAAAAA
Y
GCAGCATGGTGGTGGGGAGGATGACTCTGTCCTCCCTGACTTTTAGATGAGCCCAAGGGAAAAGGCAAAGACAAAGCCCTTAAGAGCCAGAGGACTCACG
Celera SNP ID:            hCV27155462
SNP Position Genomic:     153189
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33337):
AACCTCTAGGGGAGCATACAGACGGGCAGGTTGTGGGGCTCTGACCTCACCGGCAGTGTCTAGAGGTGGATGTTTACAGCTCCTGAAGCTCCAGTGGGCG
K
GGGTTATGGCCTTCTTTTAGTTTTGCCCTCTATAGTCAGCTTGTGTTAACCAGCTCAATTACACCCTCTACCTTGTCGCAAGGACAGAGGGCTTTCTGTA
Celera SNP ID:            hCV27155463
SNP Position Genomic:     154374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33338):
GAGTTCAGAAAAACCATCCTCAGGGTGTTCTTGCTACAAACCAAAAAATGCAGCATGGTGGTGGGGAGGATGACTCTGTCCTCCCTGACTTTTAGATGAG
S
CCAAGGGAAAAGGCAAAGACAAAGCCCTTAAGAGCCAGAGGACTCACGAGGGCCTGGGGCTGGTGAGAGTGGCGGGGAGAGAGGGCTCACCTTGGGAGAA
Celera SNP ID:            hCV11742293
SNP Position Genomic:     153241
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33339):
AAATCACATTGGCATCTATAAATAAGCCTTTCTTATAGCAATCCTACACCCACATTAAAGTTGCATTTTCAATATGAGACAAAAATGTATTTCACAAAAA
R
ATGCGAGGTTTGGCTCCTGCTGGCATAGCTGCAGCAATGTCTTCATGAATCTTTTCTTCTCTTTTCTTTCTTTCTCTCTCTCTCTTTTTTCTTTTTCTCT
Celera SNP ID:            hCV27155390
SNP Position Genomic:     68309
SNP Source:               Celera
Population(Allele,Count): no_pop(G,7|A,11)   total(G,7|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33340):
GGATTTATTGAGTGGATGTAGCTCTCAGCAGATGGGGGAAGCCAGAAGGGGATGGAATGGGAAGGGTTTCCCCTGGAGTCAGACCGCTCAGTGGCCCGGG
C
TCGGTGGCCCGGGCTCGGTGGCCTGGGCTCTCCTCCGACTGCCTCAGCCAAACTCCGCGTTGTTCTGCTGGTCAGTGGCCTGCCGGTGCCTGTTGGTGAG
Celera SNP ID:            hCV27155464
SNP Position Genomic:     154641
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,6)   total(C,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33341):
AGTTCAGAAAAACCATCCTCAGGGTGTTCTTGCTACAAACCAAAAAATGCAGCATGGTGGTGGGGAGGATGACTCTGTCCTCCCTGACTTTTAGATGAGC
S
CAAGGGAAAAGGCAAAGACAAAGCCCTTAAGAGCCAGAGGACTCACGAGGGCCTGGGGCTGGTGAGAGTGGCGGGGAGAGAGGGCTCACCTTGGGAGAAG
Celera SNP ID:            hCV11742294
SNP Position Genomic:     153242
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33342):
AGGCCGAGATGGGCAGATTGCCTGAGCTCAGGAGTTCGAGACCAGCCTGGGCAACATGGTGAAACCCCGTCTCCACTAAAATACAAAAAGTTAGCTGGGC
R
TGGCAGCGTGCGCCTGTAATCCCAGCTACTGAGGCTGAGGCAGGAGAATCGTTTGAACCCAGGAAGTGGAGGTTGCAGTGAGCCTAGATCTTACCACTGC
Celera SNP ID:            hCV27155391
SNP Position Genomic:     69765
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33343):
GATTTATTGAGTGGATGTAGCTCTCAGCAGATGGGGGAAGCCAGAAGGGGATGGAATGGGAAGGGTTTCCCCTGGAGTCAGACCGCTCAGTGGCCCGGGC
T
CGGTGGCCCGGGCTCGGTGGCCTGGGCTCTCCTCCGACTGCCTCAGCCAAACTCCGCGTTGTTCTGCTGGTCAGTGGCCTGCCGGTGCCTGTTGGTGAGT
Celera SNP ID:            hCV27155465
SNP Position Genomic:     154642
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33344):
TTTATTGAGTGGATGTAGCTCTCAGCAGATGGGGGAAGCCAGAAGGGGATGGAATGGGAAGGGTTTCCCCTGGAGTCAGACCGCTCAGTGGCCCGGGCTC
G
GTGGCCCGGGCTCGGTGGCCTGGGCTCTCCTCCGACTGCCTCAGCCAAACTCCGCGTTGTTCTGCTGGTCAGTGGCCTGCCGGTGCCTGTTGGTGAGTTC
Celera SNP ID:            hCV27155466
SNP Position Genomic:     154644
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,6)   total(G,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33345):
GTTCAGAAAAACCATCCTCAGGGTGTTCTTGCTACAAACCAAAAAATGCAGCATGGTGGTGGGGAGGATGACTCTGTCCTCCCTGACTTTTAGATGAGCC
M
AAGGGAAAAGGCAAAGACAAAGCCCTTAAGAGCCAGAGGACTCACGAGGGCCTGGGGCTGGTGAGAGTGGCGGGGAGAGAGGGCTCACCTTGGGAGAAGG
Celera SNP ID:            hCV11742295
SNP Position Genomic:     153243
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33346):
CAAGACCAGGCGAGGAGATGCAAGTTGTAGGACGCTAAGAGGATAGACTTGTCAAAGTGTCTCTCCCCTGTTTACCCTCCATCAATTACAGCACCAGCCA
Y
CACTCAGGTATTGCCTGCAGCCTCACCCTCTAGCCAAGTGTGTGGCCTGCCACTTTCTGAACCCATGCTGAGTTTTTTGTGGCTCAAAGGGTCACCCAAA
Celera SNP ID:            hCV27155393
SNP Position Genomic:     72766
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33347):
TCTGTCCTCCCTGACTTTTAGATGAGCCCAAGGGAAAAGGCAAAGACAAAGCCCTTAAGAGCCAGAGGACTCACGAGGGCCTGGGGCTGGTGAGAGTGGC
S
GGGAGAGAGGGCTCACCTTGGGAGAAGGATGGTCAGTGTCTGGGGCTTTCCTGGTCATGTTCCAAATCAGGCTTGGCAGGAGTCCTGCTGTGCAAATTGC
Celera SNP ID:            hCV11742296
SNP Position Genomic:     153315
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33348):
CTCCATCAATTACAGCACCAGCCACCACTCAGGTATTGCCTGCAGCCTCACCCTCTAGCCAAGTGTGTGGCCTGCCACTTTCTGAACCCATGCTGAGTTT
K
TTGTGGCTCAAAGGGTCACCCAAAGGGATTTAGAGATGTAGAAATTATATATGATTCTATACCACCTATAATGGTATATGATAGAGAGATCTATAAAATA
Celera SNP ID:            hCV27155394
SNP Position Genomic:     72842
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,4)      total(G,1|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33349):
CCTGGGCTCTCCTCCGACTGCCTCAGCCAAACTCCGCGTTGTTCTGCTGGTCAGTGGCCTGCCGGTGCCTGTTGGTGAGTTCTTCTCAATGTCCAGCTGT
Y
CTTGCGTCCCTCCGCTGATGTGCTCCTCCCGATGTCCAGCTACCTGTGTGTCTGCCTGCTAGGGTCTTGGGGTTTTTATAGGCACATGATGGGGGCGTGG
Celera SNP ID:            hCV11742297
SNP Position Genomic:     154763
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33350):
CATTAAAACGGTTTTGTTTTGTATTTTTAATAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCTGACTCCTGACCTCAAGTGATCCGCCCGCCTC
S
GCCTTTCAAAGTGTTGAGATTACAGGTGTGAACCACCACACCCGGACTTAAAGTGGTTTTAATGAGAAAAAAAGAAAATCACTTCCACTTTTCTTGACTT
Celera SNP ID:            hCV27155395
SNP Position Genomic:     73651
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33351):
CCCATTGCTCTCGCATTCTGTTTTTGATCCAAATTCAAATTTACCTGTTACTGGGCAAGCCCAAGGCCTCCCTCCAAGATTATTTATTTCAACTTTTTAT
Y
ATCAAAGTTTTCGAACATATACCAAGGAGAGGCTATGGCATAATGTGTACCCATATAGCCATTCTTAAGTTAAATAATTTTCAATATCTTGCTGTACTGC
Celera SNP ID:            hCV27155396
SNP Position Genomic:     73989
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33352):
ACTAGAGGACTTTAGGAGGTGGTTCAATGTAGTGTTTGAGCACGCGGACCCTGGAGTCCTCCAAGCCTGATTTCATAAGTACTTCAGCTGTGACACTTGC
R
TAAACTTGGGTAAAAACTCAGCGTTATCTAGATTAAATATGATAATACATGCAGATGACTGGCATGTGGCTATGAATCAGCAATACCCGTAATTGGGTGG
Celera SNP ID:            hCV27155397
SNP Position Genomic:     75467
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33353):
TCAGATGATGAAACTGAGGCACAGAGGGGTTGAGTGACTTGCCCAAGGTTATGCCTCAAGTAAGTGGGGGAGCCAGAATTCAAGCCCATACATTCTTTGT
A
AAAAAAAAAAAAAAAAAAAGGAAAGAAAAAAAGGCTGAGTGTGGTGGCTCACACATGTAATCACAGCACTTTAGGAGGCCAAGGCAGGAAGATCACTTAA
Celera SNP ID:            hCV27155398
SNP Position Genomic:     75950
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,8)   total(A,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33354):
ATCTTGTTTTGGTTGGTGTTACAGAATAACACCCTCAGCAAACATGAGTTCGTCTTGTTTTTGTTGGTGTTACAGAATAACATGCAGCTGGCTCTTTTTT
W
AAAAATTTAATATTAAACGTCCTTCATTGAACAAATATCTGTTGAGAGTCTTTGAGTGACTGGGATATGGCCATAATCAAATGAACATGGCTTTGCCATT
Celera SNP ID:            hCV27155399
SNP Position Genomic:     77037
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,8)   total(A,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33355):
CCTCACCAGCAATGGCAGACATGGCCAGGCATGTAGACACAGAGGTAGTGAGATGGAAAGTGGGCACAGCCCAGAGAGCCTGCCCACCTCATCCTGGGGC
R
ACCAGGACAAGGAAGCATCAGCAATCTTGCGAGCACATGTAGGAGTGACTTTCTGGAGCAGGACGAGCCTCATGGGCATGAGACCATTGTGAGTGCTCAG
Celera SNP ID:            hCV8739205
SNP Position Genomic:     106000
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33356):
AGGACTGCTGCTCCTCCTCAGTGTCCAGCCCTGGGCTGAGAGTGGAAAGGTGTTGGTGGTGCCCACTGATGGCAGCCCCTGGCTCAGCATGCGGGAGGCC
K
TGCGGGAGCTCCATGCCAGAGGCCACCAGGCGGTGGTCCTCACCCCAGAGGTGAATATGCACATCAAAGAAGAGAAATTTTTCACCCTGACAGCCTATGC
Celera SNP ID:            hCV8739207
SNP Position Genomic:     107321
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,28)   caucasian(G,4|T,32)   total(G,10|T,60)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,9)      total(G,2|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33357):
TGTGTCCAGCTGTGAAACTCAGAGATGTAACTGCTGACATCCTCCCTATTTTGCATCTCAGGTCACCCGATGACCCGTGCCTTTATCACCCATGCTGGTT
Y
CCATGGTGTTTATGAAAGCATATGCAATGGCGTTCCCATGGTGATGATGCCCTTGTTTGGTGATCAGATGGACAATGCAAAGCGCATGGAGACTAAGGGA
Celera SNP ID:            hCV27536551
SNP Position Genomic:     156632
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33358):
GGAGCCGCTGGACCTGGCCGTGTTCTGGGTGGAGTTTGTGATGAGGCACAAGGGCGCGCCACACCTGCGCCCCGCAGCCCACGACCTCACCTGGTACCAG
K
ACCATTCCTTGGACGTGATTGGTTTCCTCTTGGCCGTCGTGCTGACAGTGGCCTTCATCACCTTTAAATGTTGTGCTTATGGCTACCGGAAATGCTTGGG
Celera SNP ID:            hCV27528606
SNP Position Genomic:     160785
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33359):
GCTTATTTTCTCTATTAATGAGTTCATCCAAATGTTTAGAATTTAATTTTTCACATTGCAGGAGTTTGTTTAATGACTGAAAATTAGTAGAATACTTAAA
R
GAGAGTTCTTTTGATGCGGTGTTTCTGGATCCTTTAGATATGTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCTCTCGGTGGTCTTCGCCAGAGGAA
Celera SNP ID:            hCV25987165
SNP Position Genomic:     36606
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:33360):
AAGGGGTGCAGACCCTCTGCTTCTGCTTCCCAGGGAGTTCCTCTGACCCCCCAAAATATTCTCCAGCGGGTTTCCCAAGAGGTCAAAGGAGAATGGGTCC
Y
GGCCGCCAAAGAACTCCCTGAAGACCTCGGCGGGGTCACGGAAGCTGAAGACGTACTCGAAGGGGTCCTTGAAGGGCCTGCCGCCTGCGCAGCCGCCCTC
Celera SNP ID:            hCV25924737
SNP Position Genomic:     143309
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33361):
CTATTAACAAGTTCATCCAATGGTATTTTTGACTTATTTTTTTCAAATTGCAGGAGTTTGTTTAAGGACAAAAAATTAGTAGAATACTTAAAGGAGAGTT
S
TTTTGATGCAGTGTTTCTCGATCCTTTTGATGCCTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCCCTCTGTGGTCTTCGCCAGGGGAATATTTTGC
Celera SNP ID:            hCV25974204
SNP Position Genomic:     70730
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,2|G,30)   total(C,2|G,64)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33362):
AATCCATCTTGAGTTAATTTTTCTATAAGGTGTAAGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATA
R
GGAATATTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGAAGGTTGTAGATATGTGGTGTTATTCCTGAGACCTCTGTTCTGTTCCATTGG
Celera SNP ID:            hCV29367981
SNP Position Genomic:     11334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33363):
TACCTGTAGAATTTATGGTGATACTACTGCTCTCATTCCTGATATTGGTAATTTATATCTTCTGTCTTTTTTCCTAATCAGTCTGGGTAGAGATTTATCA
R
GTTAATTGATTTGCCCCAAAAGCTAGCTTTGGTGTCATTGGTTTTCTCCATTGTTTTTCTATTTCCTATTTCATTGATTTCTACACTGAAGTTAGCCTCC
Celera SNP ID:            hCV29367982
SNP Position Genomic:     36166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33364):
TCATGGACCTCTCAGTTAACAAATTTTATAATTGTAGATCATATCCAAGTTGCATTTAAAGATACTCTTTTTGGGAAAATACCAAAAACCACAGTGAGAA
R
TGAAACTTCCCTTTTTTGCCAATTCTATAGAAAATGCTCTTAGTAGTTTTGTGTGCATCATTTTCATTTTTTGAAATTATTTTATGCATATGCAGATATC
Celera SNP ID:            hCV29367983
SNP Position Genomic:     53348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33365):
TACAATATCTAATGTAAATTCTCACACCTATTTTGTTAAAATAAAATCTAGTATTGGGCTGGACATATTCTTCTTTTCTTTGCATTTTTCACTTGCCAAT
R
AATTATAAATACCTTTATAGACCAATACAGACAGATTTGACAAGTTCTATTAATAATTGCATAAAATACTTTACTTTGGATGCAATGTAGTTTTTAACCA
Celera SNP ID:            hCV29367984
SNP Position Genomic:     61644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33366):
CCAAGGCAGGGAAGCTGCTGGTAGTGCCCATGGATGGGAGCCACTGGTTCACCATGCAGTCGGTGGTGGAGAAACTCATCCTCAGGGGGCATGAGGTGGT
S
GTAGTCATGCCAGAGGTGAGTTGGCAACTGGGAAGATCACTGAATTGCACAGTGAAGACTTACTCAACCTCATACACTCTGGAGGATCAGGACCGGGAGT
Celera SNP ID:            hCV29367985
SNP Position Genomic:     70476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33367):
CGCCGAAGAACTCCCTGAAGACGTCGGCTGGGTCGCGGAAGCTGAAGACGTACTCGAAGGGGTCCTCGAAGGGCCTGCCGCCTGTGCAGCCGCCCTCCGC
S
CCCGCCTCGCCATAGCGGTCATAGATATCGCGTTTCTTGGCGTCCGACAACACCTCGTAGGCCTCGGCCACCTGCTTGAATCTCCTCTCCGCTTCCTCCT
Celera SNP ID:            hCV25757712
SNP Position Genomic:     132060
SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,2)   caucasian(C,28|G,8)   total(C,58|G,10)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,2)   caucasian(C,32|G,6)   total(C,66|G,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:33368):
AGTGGTTTTAATGAGAAAAAAAGAAAATCACTTCCACTTTTCTTGACTTGTTGGTGAATTACAGCAGAATTGATGGTTGAATCCAGTTATAAAGAATTCG
R
GCTGAATCTACACCATCTAGGGCCAGTGCAGCTCTGGAGAACTGGGACTGGGATGTGGTTACAGCAAGAAAAGATCTATGCTTTCCCCATTGCTCTCGCA
Celera SNP ID:            hCV29367986
SNP Position Genomic:     73803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33369):
AAGCAAGGAGTGTTAGGAGGCTTATACTTGAGACCCAATCTCTCTAATGGCTTGCAAGTAAAGGTTTTTAAGAGCAAGGATACATTTTAGGAAAACAGAA
K
TTACAAGAAGAAATCGCAAATCAATACGCAGAGGTTACACATTGGTTTGGTCATGAGAAGTGAGGGCTTGCAGGTCATAGGTGAATTCAGAGATTTTCTG
Celera SNP ID:            hCV29367987
SNP Position Genomic:     77832
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33370):
GTTAGCACCTTAGAAGCAAACCTCTCCATAGGGTCCACGTTTCCAGACCTTCCTATTCCCAACATGAAATTACCTTCATGCACATCTTTGGGTCTCTCCT
S
TATTCAAAATGCCAGCTATCCTCCATTTACTTTTTGGGAAATCTGCTCTTGCCAACAGAGATTTGTTTTATCTTAGGATCTACTTCTTTCACCCCACTGG
Celera SNP ID:            hCV29367988
SNP Position Genomic:     78805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 139
Celera Gene:                 hCG2039817 - 208000027490716
Gene Symbol:                 CACNA1F
Protein Name:                calcium channel, voltage-dependent, alpha 1F subunit;CSNB2;CSNBX2
Celera Genomic Axis:         GA_x5YUV32VR6H(78780..119090)
Chromosome:                  ChrX
OMIM number:                 300110
OMIM Information:            CALCIUM CHANNEL, VOLTAGE-DEPENDENT, ALPHA-1F SUBUNIT;CACNA1F


Genomic Sequence (SEQ ID NO:12299):
TTTAATCCTCACAGCAACCCTATACAGTAGCTACAATTCTTATACCCATTTTACACATGTGGAAACTTAGCCTCAAAAAGGTTAAGAGAGCCAGACGCGG
TGGCTCACACCTGTAATCCCAACACTTTGGGAGGCTGAGGTGGGTGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAAGATGGTGAAACCCTGTC
TCCACTAAAAATACAAAAAAATTAGCCGGGCACAGTGGCAGACACCTGTAATCCCAGCCACTCGGCAGGCTGAGGCAGGAGAATTGCTGGAACCCAGGAG
GCGGAGGAGGTTGCAGTAAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCTTCAAAAAAAAAAAAGACTGGCCCAAAGTCACAGAGTGAGTGAGCCAG
GGGGAGTGGCATTACTTGCAGCTCTTGAATACAGGAACTGGACTCCTGGACTCAGCTCTATACTGGGAATGGGTGAGTGTTTCATCAGAATGGCTCTTTA
CCAGGCACAGTGGTGCACGCCTGTAGTCCCAACTACTCAGGAGGCCAAGGCRGGAAGATTGCTTGAGGCCAGGAGCTTAAGACCAGCCTGGGCAACATCT
CTACAAAAGCGAGACCCCRTCTCTACGAAAAATTTAAAAATTCTCGGGCAGGGTGGCATGTGCCTATAGTCCTAGCTACTAGTGAGGCAGAGGCAGGAGA
ATCTCTTGAGGCCAGGAGTTCAAGACCAGCCTGGGCAATATAGCAAGACACTTACCTCTAAAAAAATTAAAATATTTTTTAAAAGAAAAGCACTTTATTT
ATTCTGTCACAGAGACATTGTTGGAATTGCTCTTAGCAGAGGCAGGATATGTGGTTCCCACAGAGGTAATATAGCAGACACTCTTTTGGGTAACCAGCAT
GCCTTTCTTTGGGTAATCATCCTTATCCCAACTCCACAGGATCCTGAAGGAGTGGCTAATCACAGTGTCCTATAGGAATGACCGTGTCGGCCGGGCGCAG
TGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATAGTGAAACCCCGTC
TGTACTAAAAATACAAAAATTAACTGAGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGAC
GGAGGTTGCAGTGAGCCGTGAGCTGAGATCACGCCACTGCATTCCAGCTTGGGTGACAGAGAGAGACTTCACATCAAAAAAAAAAAAAAAAGAAAAAAAG
AAAAGAAAAGGCTGGGCACGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCATGAGGTCAAGAGATTAAAACCATCCTGG
CCAACATGGTGAAACCCCGTCTCTACTAAAAACATGAAAATTAGTTGGGTGTGGTGGCACACGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAG
AATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCTTGGGCGACAAAGTGAGACTCCATCTCAAAAAAAAAAA
AAAAAAAGGAATGACCATGTCATCCAGACTGGGCCAATCAGAGCACAGAGTGATTAGTTTAGGAGTATATGACCCAGACAGAGTATTTTCTGGAACTAGG
AAATGGATACTATGGGGTGGGGGTGGTATTTTGCAGCTAAATTTAAAACATAGAAGCCAGGAGCAGCCCAGGTGCAAACTGGATAAACTCATTTGCTCCT
CATAAAAGCACTACATTTATCATCTCCATTTCACAAATAGGAAAACTGGGGCCCAGAAGGGTTAGGGTCACACAGTTACCAAGTGGTGGGGCTAGGATCT
AAACTACTCAGGCAGTTTGGCAGTACAGTCAGCAGCCTTAACCACTAATGAAAACTAAGCCGCAGGAAAAATGACAGAGGAAAGGCAAGTGTTGCAGAGG
AAAGGCAAGTGTTGCAGAGGAAAGGCAAGTGTTGCAAAGGAACTTGGTTACTTTGTAAAAGAGGAAGAAAGAGGATGTGTGCATTARGAGGAGGGCCACT
CACCATGCAGGCCTGAGCCAGGCTCATGGCCAGGCGGAACCGGGCAGACATGGCAAGAGGCAGCAGAGGGCTGAGGCCAGAGCCCACCGCAGGGTTGATC
ACACGCAGGCAGCGGACCACAGCCTCTACAACCAGCTCAGTGGTGAAGGCGCGCAAGGTCTGCACATCTGGAGGAACTGCCCTGAAGAAGGGGACCAGCT
TGATCGCAGGAATAGTCAGGCAACAGGGATCAGGCTGAGCCCTGCAGCCTTTTGGAAACACTAGTACCAGGGTCGGGGCAGGGAGGATGCCTACAGTTCA
GACAGATCCTGGATGTTGGTGACTGTGACTTCCATTTGGAAAACCAGGAACTAGGGAAATCCTCAAGTCCTAAGATCTTGGAGTAGGAGAATGGTGGGTG
GAAGAGAACTCAGTTTAGAAAAATATCAAAATTTGGGAGTCTGGGAAGGTGAAAGGGTCCAGGTGGCACAATCTCTGGGTTTCTTGGTTCCCAGATAGTA
TGTTCTTTGCATACATATTGAGCTGCTAGAGTTTTGAGAAGACTAGATTTTAGGAGGCTGCTGTTTTCAGAAGTTCCAAATGTCAGGGTCCCTGGGTATC
AAGATCCCTGAATATCAAGACCACCTAGTTTCAAGCAATACAAAAATCAGACTCCCTAGATGTTGGCATCCTGGGTTTTTAGGGCCTCTGAACGGAGGAG
TCTTCGTGCGTCAGGGTGACCAAATGCTGATGTCAGATTTTAGAATTCTGGGTTTTTTTGGCTGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTG
GGAGGCGGAGGCGGGCAGATCACTTGAGGTCAGGAGTTGGAGACCAGCCTGACCAACATGGTGAAACCCTGTCTCTGCTAAAAATACAAAAATTAGCCGG
GCAAGGTGGCGCACGGCTGTAATACCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGAGGCTGCAGTGAGCTGAGATCACCC
CACTGCACTCCAGCCTAGGCGACAGAGCGAGACTCCATCTCGGAAAAGGAAAAAAAAAAAAAGAATCCTGGGTTTTTTTAAGCCCCAGGTGTTTGGGGAA
CTGGAGTTTGAAGGATCCCAAGTATCTGGTCCAGGGATTTTTTGGAGTCCCCGAGTGCCAGGGTCCTGGGGTTTTACGCTCCCTGGTTCTTAGGGCACAG
GTGTCTTAGGGTCTCCAGATAACAGGGTCTCAGGGAACTGATGTTAAGATTCCCCAGATTACAGGGTTCCGGGTCTTGAGGTTTCAAGGTTGTAACGTCT
CAAGGTGTCTGGGTCCCAGAGCTTTGGGTGTACCAAATATCATGGTTAAAGGATTTGGGAGGCCTCTGATGTCGGTGTCAGGGAGGGCGGTGTGTGTGTG
CGTGTGTGTGTGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAAGGGGGTGAGGGTCTTAGGATCCTGGAGTTGGAGCCCTGAATGTCAGGATCC
CGGGTTTTAAGGTTCCCGGGAAACGGGGTCCTGGGCTTTAGAGTCCCGGATGTGGGCTTCGGGGGTGGGCGGGGGCTCTGTCCTTACGTGCCGGCCTGGC
GCAGCGAATGGATGAGGATTCGGTCCGCCTCCTCCATGGTGGAGCCGTGTCGGAGTCGGGGGCTGGGTCCAGGACCGGGTCCGAGAAAGTGGGGAGCAGC
TGTAGAAACCCTGCTCCGTGCTCGCGGTCCACAGAGTGTCACGGGTCGTGTGGGGAGAGTTGGAAAGTGTAGTTCTGTGAGCGAGCACGGCGCATGCCGG
ATGTGAGGCCTGGGGTGAGTGTGCACGGAGGTTGAGCTTGCAATAGCTGCTGGGAACTGTAGTTCTTCCACCTGCAGTCCAGTGGGCTCTTCCAAGGGAA
AAAGGAACAACCCGTGTGGTGGGGAGTGGAGGGGCCGGACAGAAAGGGGCTTCCTGACTCATTCGTTTAAGGCGGCATTCATCTTCTAGGCTATAAAAGT
GTACACATTAAGGGCAGAATTTTAACACAAAGCGACTACTTCCCTGTGTCTTAGTCTCCTCATCTGTAAAATGGGACTATTGACAGTACCTGCTTTTTAG
GATTAAAACAGAATTAATTTATATAAAGCACGTTGTACTATGTGCCTGACACATAAGATAAGAAAGCACTATGTAAGTTATAGTTACTAGTGTCCATGCA
TTCAATAAATGCTTTAATATGATACACATTTGTACACTCCAAAGAATAATTACACAGCAAATATCTATGTAACCGGCTGGGTGCAGTGGCTCACGCCTGT
AATCCCAGCACTTTGGGAGGCCGAGTCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCCTCTCTACTAAAATG
AGAAAAATTAGCCAGGCATGGTGGCACATGCCTGTAGTCCCAGCTACTCGGGAGGCTTAGGCAGGAGAATCACTTGAACTGGGGAAGCGAAGGTGGCAGT
GAGCTGAGATTGCGCCATTACACTCCAGCCTGGGCAACAGAGCGAGACTCCGTCTCTAAATAAATAAATAAAGCAAAAGAAATCTATGTAACCATTTCTT
GAACAGCCGACGCGCACCTGCAATCCCAGCAGTTTTGGAGGCCAAGGCGGGAGGATCGCTTGAGGTCAGGAGTTTGAGACCGGCATGGGCAATACAGCAA
TACACCATCTCTTAAAAAAAAAAAAAAAATTGACACTTGTCCAAGCAGACGTCCCCAGCAGAGCCAGCCAGCATGACCGAGCGCCGCGTCCCCTTCTCGC
TCCTGCGGGACCCCAGCTGGGACCCCTTCCGCGACTGGTACCCGCACAGTCGCCTCTTTGACCAGGCCTTCGGGCTGGTCGCAGTGGTTGGGCACCAGCT
GCTGGCCCCGCTACGTGCGTCCCCTGCCCCCGCCGCGGTCGAGAGCCCCGCGGTGGCCGCGCCCGCCTACAGCTACGCGCTCAGCCGGCAGCTCAGCGGC
GGGGTCTCGGAGAATCGGCCCACAGCGGACCGCTGGCGCGTATCCCTGGACATCAACTACTTCGCCTCCGACGAGCTGACGGTCAAGACCAAGGATGGCA
TGGTGGAGATCACCAGCAAGCACGAGGAGCGGCAGGACGAGCATGGCTACATCTCCCGATGCTTCACCCGGAAATACACGCTGCCCCCCGGTGTGGACCC
CACCAAGGTCTCCTCCTCCCTGTCCCCTGAGGGCACACTGACCGTGGAGGCCCCCATGCCCAAGCTAGCCACGCAGTCCAACGAGATCACCTTGGAGTCA
CGGGCCCAGCTTGGGGGCCTAGGAGCTGCGAAATCCGACCAGTCTGCAGCCAAGTAAAAGCCTTAGCCCGGATGCCCCCGGCCGCCGCCACTAGCCGTGC
CCCCGCACCCACCTGTGTGTTCTTTTGATAGGTTTATCTTCTGTTGTTCTCAAATAAAGTTCGAAGCAACCCAAAATTTAAAAAAAAAATAGTTGGGCAT
GGTAGTGCACACCTGCAGTCCCAGCTACAGAGGCTGAGGTCAGAGGATCACTTGAGCACAGGAATTCAACGCTACTGTGAGCTATGATCACGCCACTGCA
CTCCAGCCTGGGTGACAGAGCAAGACCCTGTCTCTAAAAATAATAATAATTGATAATATTTGATCTTTTTTCCATAGAGATATTGCACATATATTAGGTT
TTTCCTAYATACTTCGAATTCCATATACTACTGGAAAATGACATCGTTTTTCTTATTTTAGTTTGACTGTTTGCTGCAGGTATATATTTGGTAAATATTT
CATCTGTTGCCAGGCTCTGGCCCACAAACGTCCCATTTGCACCCCCACCGCCACCCTCCCATACAACACTGTTATTGCCCCGCCCTGCGGCCTTAATCCC
TCCAAAGCTGGGGGAAGAGAGGGGGGTTGTGTGCAGATGGCCCTTCAATCTCGAAAGAAAGATGTCGGAATCTGAAGGCGGGAAAGGTGAGAGAATCCTT
CCATCCCTGCAGACCCTTGGAGCAAGGTAGAGCCCCTCTGACCCACCCATTGCCCACCCAGACCCCACCCCCAGAGAGCCTCTAGGGGACAAGAACCACA
TCACCCTGTTCCCCATCCCAGCCAGCCCCAAACAGCCTCTCTGCCACCAGAGCCCTAACGCTCAGCCTGACCCAGACACCACCCCCCATGGCCTCTCAGC
CTCATCCACAGCCTTAGTTCCCAAAGGAAACCCAACCTCAATCCTGGCTCTGACCCCTATCCAAACGCCCACCTGAAACCTAACACAAACTCTACCAGCC
AGAAGGCAAACCCCTGTTAGAGTCTAAACCCCACCCCAGATACAGACCTAAAGTGACCTAACCTCAACCTCAACCCCGGGATGTCAATACTGTTAGTGAT
TGCAGTCTCTGACTTTCCAGAAAGTGCACAGACCCTTTAAAAAAAAAAACAAAAACAAAAGAGAGAAAGAGAGAGAAGACATACTTGATGGTGGTAGTAA
GCCATGAGGGCTCTAGAGTTAGACTGAGTGTGACTCCCCATTCAGCCACTTCAGCAAGTCACTTAACTTTTTCTTCTCAATTTTCTCATCTGCAAAATGG
GAATAACTCTATGTGCCAGGCATTCTTTTGATTCTGAACTCATTTAATCCTCATAACACCGCTATATTTTAGGTACTGTTATTATCATCCTTATTATACA
GATAAGGAAACTGAGGCTCAAAGAGATTACATAATTTGCCCAAGGCAACACATAGCTACCAAGTGGTAAAGTCAGGATTTAAACTCAGGCAGCTTGTTTC
ATCCAAAGCTGGGAATCTTAACCAGGCCAATCTACCGCCCTCTGAGGCTGAAACGAGACCATGGGAACTGGGAGTGGCCTTAGCTGAAAACCCCAATGCA
AAATTCAAGTCCCACTCAAAACTCAACTTCGACCCTAACCTGTATCCTAATTCTAATTCCAATTCAAAATACCCAGTCCTAACCCTTAGACAAAACTCCA
CTCCTACCTATGTCTAAACCCATCCCCACCCTAACCCAAAACCCACCACTCAAATTTAACCTTAAATTCGCCCACCCCATGGCAATTTAAACTCTACCCC
CAACTTAAACACCAAACCSTACTTCACTTGGAAATGTAATCTCACCTTCACTCCCCTATAARCTCTCACTSTAATCTTAATTCGAACACTCTTACTTCCC
AGTCCTTAACCCAGCTACTCCCAGTTCTCCCTAATTTTCCATGCTCTTCTCTCCTTCCTTCAAACAGAGGGACAGGATCAGGTAGGAAGCAGCCACAATT
GCCCCAATACCCTGTCCCTCCCTGACACAGTTTCTCCATATAGACACCACCCCAGAGCYCAGTCCAGCCAATGGGGCAGGCCCTGGTCCCGAATGGGGGC
TGTGCCCCGGGCCCCCAGCTGTGGAAGGTGAAAGCAGTGGRGCATCAGGCCTAGGGACCCCTAAGYGAAGAAACCAGCACAGCAAGCACAAGACAGTGGC
AGTGGCCAGTGCCCAGCGGTCACCTCGGGCACTCTTCYGCCTCACCCTGGCCAATCCTCTGCGACGGTCCTGCATCAGCATCGTGGAGTGGAAGCATCCT
GGAAGGCAGGGGCAGGGCCCAGGGGTAAGGGTCATCAGGGTACCAGGAGTAAAGAATTGGGTCAGGGCTGGAACAGAGGAGGGCTGAGATCATCAAGGTC
AAGAGTCAAGAACTGGGTTGGGGGGCAGGTTCAGAAAGGCAAAGGTCACCAGGGTTCAAGAGTCAAGGACTGAATCACAGCAAGAGTTGGGGATGGTTAA
GGTTTCCAGGAGGGACAAAGTCAAGGCCTTGTCAGGGCAGGGGTCGAGAATGCCAGGACCTGTCACCTTGGGCGTCAAGGGTCAGCACTGGGTGGGAGGT
TCCCAAGGGAGTAGGGGGGTTCCAATGCCACTCTGCCAGGGTCCTTGACTGTGTCCACCTGAGGCCCTTCGACATCCTCATCCTGCTGACCATCTTTGCC
AACTGCGTGGCCCTGGGAGTTTACATCCCCTTCCCTGAGGACGACTCCAACACTGCCAACCACAACCTGGTAAGGCCCGCCCCGCCCCAGCCAGTTCCCA
GCCAAATAGAGCCCCAGTAGAGCTCACTCCTTCCAGCCAGACCCCGCCCCCTCTCTGACCCGGATGGCCCTGCCTGGCTCAGCCCCACCCTCGGTCCTGA
CTATGCTCCCCACGCCCCCGTCAAACCTCGCCTTCAAATAACTCCCCGACTTCCCGACCCGCCCCCCGGTCCCACCCCCAGGAGCAGGTGGAGTACGTAT
TCCTGGTGATTTTCACTGTGGAGACGGTGCTCAAGATCGTGGCCTACGGGCTGGTGCTCCACCCCAGCGCCTACATCCGCAATGGCTGGAACCTACTCGA
CTTCATCATCGTCGTGGTCGGGTGCGCGTCTGCGGGAGGCACCCCACCCTAGTCGCCTTYCTACCGTCAGGCCCGCTGAATTCTGGGCTCAGGAAAGCGA
CTCTTTCAGACCGCCCCCATTCGGCAGCCAGAATCAGGAATATTATTAAAACCCATTTCTATTTCTAGTTACAGGGACTTGTGCTTTTCTGAGAAGGTTA
GGGTGGAGGGGGGAATCCCAAGGCCTGACCTCCGCCTCCCTGCCCGGTGCTCCCCCATCAGGCTGTTCAGCGTTCTGCTGGAGCAGGGCCCCGGACGGCC
AGGCGACGCCCCGCACACCGGGGGAAAGCCAGGAGGCTTCGATGTGAAGGCATTGAGGGCGTTTCGGGTGCTGCGGCCACTGAGGCTGGTGTCTGGGGTC
CCGAGTGAGTGGCACATCCCCCGAGGTCGGAGGTGGAGGGTGGGGGTGGGGCTGAGCTGACCCCGCCCTTATTTCTGCCTCCCCCTCCCTCCCCGCAGGC
CTGCACATAGTGCTCAATYCCATCATGAAGGCTCTGGTGCCGCTGCTGCACATTGCACTGCTCGTGCTCTTCGTCATCATCATTTATGCCATCATTGGGC
TCGAGCTGTTCCTTGGACGAATGCACAAGACGTGCTACTTCCTGGGATCCGGTTAGTCTGCCCGCCCCTCCTAGGCAGAACATGCCCCCTCCTTCGGTTC
CTAGATCCAATGCTGCACTCAGGGAAACCCACTGAAATGCACAAGATTCGGCCCCCAGGCTCAGGTTCCATCCCCAGATAACCAAGTCCCACCCATATAT
TCAAGACTCTGCCCTAAATCAGACTACAACCCCACCTCGCTAATAGCTCCGCCCCATCACGAGACTGTACCCACAGGCTAAGGTCCTGCCCCGCACTTAA
GACTTAAGTGCAAGTGCCCCGCACTTAAGACAAGACTCTGCGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCG
AGACCATCCTGGCTAACACGGTGAAACCCTGCCTCTACTAAAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGG
AGGCTGAGGCAGGAGAATGGCGTGAACCTGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATGCGCCACTGCAC
TCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAACAAAACAAAACAAAACAAAAACTCTGCGCCTTGGCTTACACCTGTATTCCCGGCATTTGGGA
GGCCGAGGCGGGAGGATCACTTACGCCCAGGAGTTTGCTACCAGCCTGTGCAAAATAGTGAGATCCAGTCTCCAAAAAATAATAACAAAAACAATTTTAA
AAAACTTTATCCTCGGCTGGGCGCCGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGATGGATCACTTGAGGTCAGGAGTTCGAGACC
AGCCTGGCCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAGTTGAGCCGGGCGTGGTGGTGCATGTCTGTAATCCCAGCTACTCGGGAGGCTGCG
GCATGAGAATCACTTGAGCCTGGGAGATGGAGGTTGCAGTGAGCTGAGATCGGATCGCACCACTCACTGCGCTCCAGCCTGGGCGACAGAGTGAGACTCG
GTCTCAAAAACAAAACAAAAACAAACCAAAAAAAAGCTTTATTCTCCACGACTGTTCTCATACACTCAGACCATTTACCCAGACTCCCGCCCATGCCTTG
CCCCTCCCCTATTTTCAAGAGACGCGTCCAAATTCACAAGACTCCGCCCCCAGGCTCTTGCCTCATTGTTATTTACAAGACTCCACGCCAGGATTTAAAT
CCCGGTTGGTGGGATCCCTAGCTTCCCAGTGGTTCAGAATACGGAGCTCGCAGGGTTCTGCCCTAGAAGTGGAGCTAAGTGTTGCCTTAGAAAAATCTAG
GACTGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACAAGGTCAGGAGTTCGAGACCAACCTGACCAAT
ATGGTGAAACCCCCGTCTCTACTAAAAATACAAAAAAAATTAGCCGGGCGTTGTGGCACACGCCGGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGA
ATTGCTTGAACCCGGGAGGCGGAAGTTGTGGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGGGAGACCCCGTCTCAAAAAAAGAAAG
AAAGAAAGAGAGAAAGAGAAAAATCTAGGACCCAAGTCGAGCTTCCTAAGTGGGCGGGGCTTCAGGGTGGCAGCGACTGAGAGTGGGCCTGCTTCGAAGC
CCCAAGCTCCAGTCTTCCTGCAGACATGGAAGCGGAGGAGGACCCATCGCCCTGTGCGTCTTCGGGATCAGGGCGTGCGTGCACGCTGAACCAGACTGAG
TGCCGCGGGCGCTGGCCAGGGCCCAATGGAGGCATCACCAACTTTGACAACTTCTTCTTCGCCATGCTGACAGTCTTCCAGTGTGTCACCATGGAAGGCT
GGACCGATGTGCTCTACTGGGTGAGGTGGACTGTGGGCACAGAGCTCAAAGGCTGCACCTGCCTTTCCTCCCTGACACTCACGCAGGAGTGTCTGCCTAC
CCTGAGGGATGCATGCCTTTTCTCTCCCCAGATGCAAGATGCCATGGGGTATGAACTGCCCTGGGTGTACTTTGTGAGCCTTGTCATCTTTGGGTCCTTC
TTCGTCCTCAACCTTGTGCTTGRCGTCCTGAGTGGGTGAGRGACCTAGACACTCCYTGCTTCCCACCCCTCAGCCACTGCCCACTTCTTTGTGCCTGGCA
AACTCCTAGACATCCTTCAAAACCCATCTGAAATACTCCTTCATTCAATCATGAGCATCTATTGTATGTGAGGCACCATTTTAGGAGTGGAACAAAAGAC
AAAAATCTCTGCCTTCCTGGTTTTACATTCTGATGGGGAGAGACAGAAAGTAGCAACATATGCAATAAAATAAGTGTGTGCATTTATATATTGGCACACA
CATATATATAGTGTTTTATATGGAATATGTACTGTGGAAAGAAAGGAAAGATAAAAGATAAGAATGGAGAGATCTTGTGATTATAAATAGGGATGTCAGG
AAAGGCTGTCTTGACAAGGTGTTATTTGAGTAAAAATGTGAAAGAGGCCAGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTATGGGAGGCCAAGGCAG
GAGGATGGCTTGAGGTCAGGAGTTCGAGACCAGCCTGGGCAACATAGTGAGACTTCATCTTTACAAAAAATGAACAAAAATAGCTGGGCATGGTGGCGCA
CACCTGTAGTCCTAGCTACTCAGGAAGCTGAGGTGGAAGGATCGCTTGAGCCCAGGAGGTCGAGGCTGCGGTGAGCTATGATCACACCACTGCACTCCAC
CCTGAGTGATAGAGTGAGACCCTGTATCTGGGGAAAAGAAAAAAAAAGAGATGAGGTGGGTGCACCATGTGGTTATCTGAGGGAAAAGCATTCCAAGCAA
AGAGAATGGTCAGTGCAAAGGCCCTGAGGCTAGAATGTGCTTGGCATATTCAAAGAGTAGCTAGGAGGCTAGTGTGGCTGGAGTGATGAAAGCAAGGTGT
TCAGATTGGCTCCTCCCCCTAGCCCTCTATCCTCCTCCCTCAGGGAGTTCTCCAAGGAGAGAGAGAAAGCGAAAGCTCGCGGGGACTTCCAGAAGCAGCG
GGAGAAGCAGCAGATGGAGGAAGACCTGCGGGGCTACCTGGACTGGATCACTCAAGCCGAAGAGCTGGACATGGAGGACCCCTCCGCCGATGACAACCTT
GGTTCTATGGCTGAAGAGGGCCGGGCGGGCCATCGTAGGCAACTCCAATCTGGCCCATTCCCTGCATGCCTTAGATGTGGTCTGCCCTCCTGAGACCCAC
CCAGGCCTGATCTGCAACAACTCTAGCCCCAGCCCCCAAGTTATGGCTCAAAATGCAGAATCAAGACCAGCCTCAGCTATAAAGACTCCAAATGACACCC
CTACCCTAGACATGGCCCTAACCCTGCCCCCAGTATGTCCTCCCTAATTGTCCTTTCTCTCCCTGCAGGGCCAYAGCTGGCCGAGCTGACCAATAGGAGG
CGTGGACGTCTGCGCTGGTTCAGTCATTCTACTCGCTCCACACACTCCACCAGCAGCCATGGTGGGGGTCCAGCCAGGCTGGGGTGGGGGTGGGTAGGCA
GAGGTGAAAGCCAAAGATTGGACCTCGGGGTCTTCAGGTCCTGACCACTATCCCCACCTTGCCTACAGCCAGCCTCCCAGYCAGTGACACCGGTTCCATG
ACAGAGACCCAAGGCGATGAGGATGAGGAGGAGGGGGCTCTGGCCAGCTGTACACGCTGCCTGTGAGGGCCCCCAGCCCCTGACCCAGCCCAGAAGCCAG
TCCAAACCCTGACTCAAGTCCTTTCTTTAGCCTCAAGCCTCGATCTCAGTCCTTGACCTCTGGCCCCAGTCACTGACACCCCTTCTGCCCTTTAYGACAC
ACACCTCCCATCCCCCTTCTTTTTCAGAAACAAGATCATGAAAACCAGAGTCTGGTGAGTTGGGAAAGTTGTGCAAATCCTTGACTCCATAACTTTGAAA
CCCCCCACCTCCAAGCCCTCATGACCTTTGGATCCCCCACCTGAGCCCCCCAGGGCAGGCTTAGGTAGGTGATCTCAGCCTGTGGGCTCCCCTTCCCCCA
GCCGCCGCCTCCGCCGAGCCAACCGGGTCCTTCRGGCACGCTGCCGTCGGGCAGTGAAGTCCAATGCCTGCTACTGGGCTGTGCTGTTGCTCGTCTTCCT
CAACACGTTGACCATCGCCTCTGAGCACCACGGGCAGCCTGTGTGGCTCACCCAGATCCAGGGTACACCCCCAGCCTGCTAGTCGTCTCCCCCAGCCTCC
TATTCCTTCTACCCCAGAAGCTTAAATCCAAAACCTCTAGGGCGCCTCAGCCCCCAAGACACTGCCTTCCCCCCTACCCAAATAAATCCAGAGCCCTTAG
CCTGTCCCATCCCACCTTGTAGCTTACACAGGTAGCACTTGCTGTGTGCCTCAAGCTCCTTTCTCAGCACCTTTCTTTATGTGTACTGACAATTTCTTCA
CCACAACCTTATGCGAATTAAATACTAAGGCACAGAACACTGAGCATCAAGGCACTGAGGGGTTAAGCGACTAATCTCGGGACCCAGCTAGCGAGTGGCA
GAGCCAGAATTAGAACCCAGGCAGCCTGGCTCCAGAATCCAGGCTCTTATCATCACACTGTCTGGAAAAGTTCTCCACATCTACAAAATGGAGATGATAG
ATAGTAGTATCCACTTCATGAAGCAGCGAAGAGGAGTAAATGATGTAAAGTGAAAAGTGCTTAGGACATTGTATGGCCCACCATATAGCTAACACTTTAT
AAGTGTCAGCTCTTACTATTATTCATTATAATCTCAGCCCCAGCCTGAATACCGAGCACATTTCTAACCCATAACCCACAAACCAGCCCCAGTCCCGAAG
AAACCCTAGACTCTAACTCTACTTGTGAATTTGGGTCTTCTGGACTCATAGACACTGACTCTGGCCCCCACCCCGACTCTGCCCCTCATCCCCATCTCCA
AGCCCCTCAAAACTTCACCTACTCTGACCTACAAACTCACCCCAATCCCTAGCCCTAAGCCTTCCCTCAGCCAGCACCTGGCCTGATACCAGCTACCGTG
GGTCACCCCATGGTCCCTAGTTACCTCCCCACATGTCACCACAGAAACTGGCCAGCCCGATCATCCCTGCCTCTCTCCCCACAGAGTATGCCAACAAAGT
GTTGCTCTGTCTGTTCACGGTGGAGATGCTTCTCAAATTGTACGGTCTGGGCCCCTCTGCCTATGTGTCTTCCTTCTTCAACCGCTTTGACTGCTTTGTG
GTCTGTGGGGGCATCCTAGAGACCACCTTGGTGGAGGTGGGYGCCATGCAGCCCTTGGGCATCTCAGTGCTCCGATGTGTGCGCCTCCTCAGGATCTTTA
AGGTCACCAGGTTTGTATTAGGGGAGGGGGAAGACAAGGGCCTCAAACACAGCCTCAACACCCCCACCCAAGCTCCAATGATAACTTCATCTGCTTCACC
ATTCATTGAGCAGACATCCATTGAGTGCCTGCTGTGTGCCAGGCACCCTACCAAGCCCTAGGGAAACACCAGGAATCAAAGCAGACACAAGTTCCTGTCT
TCATCCACTGGGGAGAATGTCTACTCCATTTCCATTGCCTTCCTCAACCTCAACTCCTGCTCTAACGTTTTTCCCCAACCCTGTCTCCGATTTCAATGCC
ATACTATTCCCAGCCCAAACCCCATCCCAACCCCCAACCACAATACCATCTCTGATCCCAACCCCCAACCACAGGTCACCTATGAGCCCATTTACAACGC
TAACACCCATTCCCAAGCCCAACTCCATCTCCCACCTCATCCCTAACTCCCAGCCCCATCCCTGTCACTAACCACCAACCATAATACCATCCTCAATCCC
CAAAGAGAACTCCCACGTCCCTAACCCTTAACCATCACCCTATCTTCAACTGCAACTCCATTTCCAGCCTCAGCCCCAGTCTCATCCCATCCCCTCCTCT
ATCCCAGCCCTCAACCACAACTTACCCTTAACTCCATCTCCAACCCCAAATACATCACAACCCCATCCCCAACACCAGGCCCAGTCCCAAGCTGAAACCC
AATTCTAGCTTCACCAACTTCCATTAAACCTCCATCCTAGGCTGGACGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGAT
CACAAGGTCAGGAGTTCAAGACCAGCCTGGCCAATGTAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGAGTGGTGGCAAGTGACTGT
AGTCCCAGCTACTCGGGAGKCTGAGGCAGGAGAATCGCTTGAACCTGGAAGGTGGAGGTTGCAGTGAGACGAGATTGTGCCACTGCACTCCAGCTTGGGC
AACACAGTGAGACTTCATCTCAAAAAAAAAAAAAAGATAAGAAAAAAAAAAACTCCATCCTAACCTCATCTCCCAGTCTCCCATTATACCCCTACCACCA
ACCCTAACCCCAAACTCTCAACTTTCCCCTACCTCTTTACTTCTTCTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCTGTCTATCG
CCCAGGCTGGAGTGCAGTGCAATCCTGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAG
GCACCTGCCACCATGCCTGGCTAATTTTTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAGTCTCCTGACCTCATGACCCACACGC
CTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACAGGGCCCAGCTTCCCCCACTTCTTACTCTCATCTCACCCCAACTCCAAAATCATTTC
TAACCCTGACACCAAAGCCTATTTGAGCCCAACCTGCCGAGGTGCATCTCAAGCTGGAGCCCTGCCCTGGCTCCTGATGCTCCAGCCATGTCCAGTGGAC
ATGGCATCGACCCTGCCCCCTCCCATTTCTGCTGCAGACACTGGGCTTCTCTGAGCAATCTGGTGGCATCCCTGCTCAATTCAATGAAATCCATCGCATC
CTTGCTGCTTCTCCTCTTCCTCTTCATCATTATCTTCTCCCTGCTTGRCATGCAGCTGTTTGGGGGCAAGTTCAACTTTGACCAGACCCACACCAAGCGA
AGCACCTTTGACACGTTCCCCCAGGCCCTCCTCACTGTCTTTCAGGTAGGATCTGGAGACCATGGGATGGGTGGGTCGGGGAGACCCTGGAGTTGGAGGG
GGTCCAAGAGCTCCACAGTGACTTCCCACCCCCAGATCCTGACAGGTGAGGACTGGAACGTGGTCATGTATGATGGTATCATGGCATATGGTGGCCCCTT
CTTCCCAGGAATGTTGGTGTGCATCTATTTCATCATTCTCTTCATCTGTGGCAACTGTATCCTTGGAGCTTTGTGGGGCTGGATGATGGTGGAGTCGGGG
TGGGTAAGGGGAACTGGGTGGTCTATAGGCAGGGTGCTTCTCCATCCTTTGCAGCCTAAGCTCATCCCAGACATCCTGTTGAACGTGTKTCTTGCCATTG
CTGTGGACAACCTGGCCAGTGGAGATGCAGGCACTGCCAAGGACAAGGGCGGGTGAGATCTGGCTCCACCCCTAACACAGTCTCTCTCTGGGATCCCTGA
CTGGGAACCCCTCAGACACCCCCACCACCAGAGATGCCTCTAGTCACCCTGGTAATCCCCATCTCCAGATACCATCTGCCAGTCCTCATTCATTCAACAT
GCATCTATTGACTGCCTACTGTGTGCCAGGTCCTGTTCTAGATGCTGAGGAGACAACAGGGGTCAAGGCAGACAAGAGTCCTTGCCTTCATGGAACTAAC
ATTCTAGTTGAGGAAGGCAAGAAAAATAAAACAAATGAATATATAATATATGTTAATAATATGTAATAAAGAGAAAACAGAATGAAAGGATAGCAAGAAA
TGAAGATTGCTCTTTGGGGTTAAGGTCAGCAAGGAAGGTCTCTGTGAGGAAGTGACATTTCACCAGAGACCTGAATGAAGTGAGGGAGTGAGCCATGCAA
ATATCTGGGGGAAGAGTATTCAAGGAAGGGGAGTGGCAAGTGCAAAGCTTCTGGGGCGCTAATGTTCTTAGCACTTTTTTTTTTTATTCTGATATGGAGT
TTCACTCTTGTCATCCAGGCTGGAGTGCAGTGGTGCTATCTCAGCTCACTGCAACCTCCGCCACCCAGGTTCAAGCAATTCTCCTGCCTCAACCTCCTGA
GTAGCTGGGATTACAGACGTACACCACCATGCTCAGCTAAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCAAGGCTGGTCTTGAAC
TCCTAACCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGCACCTGACCACATTCTTAGCACTTTCAAAAAAT
ACCAGCGATGCCCGGGAGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGGTGGATCACCTGAGCTTAGGAGTTCGAGGCCAGCCT
GGCCAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAGAAAATTAGCTGGACAAGCTCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAATA
TCGCACCACTGCCCTCTAGCCTGAGCAATAGAGTGAGACTCCGTCTCAAAAAAATAAAAACAGTGAGGCTGGAATGGAGTGAGGAAGGAGGAGAGTGGTA
TGGAGTGAAGGTCAGTGGAGGAAATGGAGGGCCAGATTGAGGGCATTCTGGGCCAGGGTGAGGACTGTAGTTTTTCCTGAATTAAGGAGACRTGGGAGGG
TTGTGGGCAGAGTTGGGATATCCCAGACAGGGTTTAACAGGCTCCCTCTGGCTGCTTTGAGAACGGACTGTTGGGAGGGGCAGTGGGGAAGAGCGGAAGC
AAGAAAGTTCTATGGGACCCAAGAAAGGTCTGTTCTGACTGTAGTGATCYCCCTTAGCCCATCTGCAGCAATCACCCCTATTTCCTCGCACAGGGAGAAG
AGCAATGAGAAGGATCTCCCACAGGAGAATGAAGGCCTGGTGAGTTAGATGCCTGGGCACTGTCTACACCTCCCACTCCCACCACTACCTGTCTATGTGT
GCATATCTGTTTTTTTGTTGTTGTTGTTTTATTTTGAGATAGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTTGTGCCATCTCGGCTCACTGCAACC
TCTGCCTCCTGGGTCCAAGAGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTTACAGGCATGCGCCACCACACTCGGCTAATTTTTGTTATTTTTG
AAAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCA
TGAGCCACTGCGCCCAGCCATATGTGCATGTCTTTAACCTTCATCCTCTGCCTATTCTTTYCCCTATTATTACATTTCTTCCATGCCTCCCCTGTGTCCA
TTCCCTGTGTCTCCCTCACCATTGATGACTCCCGTCTTCCTGTCCTCAGGTGCCTGGTGTGGAGAAAGAGGAAGAGGAGGGTGCAAGGAGGGAAGGAGCA
GGCAAGTGGGCAGGGCCAGGTGGAGCAGGTGTGGGACCTTGGGGAAAGAGCTCAGGCAGACAGCTCCTGACCCCTGAGACCCTCCTCTCCAGAGATCAGC
CTTTTCCAAGATCATCCTGAAAATAACAGACTTGGTATGTGGTCAGCAACATTTGGGAACATTGAGGTTAAAGAAGGGAAATGCAGCCTGGGCAACATAG
CAAGACCCCATCTCTAAAAAAGAAATTAATTAGCCAAGCATGATGATGCAAGCCTGTAGTCCCAGCTACTCAGGAGGCTAAGGTAGGAGGATTGCTTGAG
CCCAGAAGTTCAAGGTTGCAGTGAGCCATGATGGCACCACTGAAGTCCAGCCTGGGGGAGCAGAGTAAGACCCTATCTTTAAAGAAAAACAAGAAGAAGA
GAAACACGTTTTGTTTACTGCTGAACTTCTCAGAGCCTTTATTATAAAATAGTCTGTATATACAACATTCTTTCAACACACATTTACTGAGCTCCTACTG
TGTCCCAGGCACTGTTCTAAGTGCTGTGGACATAGCAGCATACAAAACAGACTAAAATACCTTCCTGGAGGAGCTGACATTCTAGCAGGGAAATGGGAAG
AATTGACCACGTGGCAAACACTGTTCTGGGTGCTTTACATCAACTTGCTCAATTAATTTTTTTTTGCTTTTCTCTGGTGCCAGACATGGAGGAGGAGGAG
GAGGAGGAAGAAGAGGAAGAAGAGGAAGAAGAGGAAGAGGGTGCAGGGGGTGTGGAACTCCTGCAGGAAGTTGTACCCAAGGAGAAGGTGGTACCCATCC
CTGAGGGCAGCGCCTTCTTCTGCCTCAGCCAAACCAACCCGTGAGTGCCGGAAGTGGCAGGGGGTGAGGCAGGAGGGGCTAGGGCAGGTGGAGGAGCATG
GAGGAGCAGCCAAGGTGGGAGTGGGGGCATGGGTGTTGTGTCAGGGCCAGAACTGTATCCCTTGGAATCCCTGAACAATTCTGTGGTCCTGAGTTCTGAC
CATGGCCCACTCCCTCTCCACAGGCYGAGGAAGGGCTGCCACACCCTCATCCACCATCATGTCTTCACCAATCTTATCCTGGTGTTCATCATCCTCAGCA
GTGTGTCCCTGGCCGCTGAGGACCCCATCCGAGCCCACTCCTTCCGCAACCATGTRAGCCTTTGGCTGGGAGCTAGGAGCTGAGGGGACACTCCCAGGGG
TGTCCTAGTGGGCACAAGCTGGGTCAGGGTGGAGATAAGGAGAAGAGCCCTAGGTGAGCCGAGAGAGGGGCTCATTAACGCAGCTGATGCAATGCCAGCC
TTTACGGCATGTGCAACACACGGGGAAGCACCAGGGAGGAGATCAATATTTGACTGAGGAGGAAGCTGTGCTCAGAGAGGTTAAGCAGGCCAAAGGCGCC
CATGTAGCTGGGTAGAGGCAGAAGGGTCCAAATTTGAACCCTAATCTTTCTGATGGCCAAGCCTTTTGAGAAGTCACCTAGGATCCCCCTCAGCCRTGAC
TCAGTGGCTCCCCGCTCTTTCTCACACCCCAGATTCTGGGTTACTTCGATTATGCCTTCACCTCCATTTTCACTGTGGAGATTCTACTAAAGGTGACTAA
TGGGACCCCAGTCCTACCCTCAGTTGCCCTGGCACTCTCCCCACCGGTTCTTGCAGCCCACCTCTCCTGTCCCCATCCCCACCTCCCCCAACCCCCACCA
TCCCCAGGTCTGAGTCTAGCCTCTTGTCCTGTCCCCAGATGACAGTGTTTGGGGMCTTCCTGCACCGCGGCTCCTTCTGCCGTAGCTGGTTTAATATGTT
GGATCTGCTGGTGGTCAGTGTGTCCCTCATCTCCTTTGGCATCCAGTAAGTGACAGATCCCCAGCCCACCCCATTCCTCTCACAGCCAGGGCCCAGCCAG
GGCCAATGCCTGAGGATTGCCCCTTCCCCAGCTCCAGCGCCATCTCGGTGGTGAAGATTCTGCGAGTACTCCGAGTACTGCGGCCCCTCCGAGCCATCAA
CAGGGCCAAGGGACTCAAGGTAACCCCACCCCACCCAAACCCACAGGACCCAGGCCCTGCCCTGCCCCTGGGGCCAGGATCACTGATCAAACTGACCATT
TGCACGGATGCATGACCATACGGCCTGGACCYGACACATAAATACACATCTCTGACCACTAGCCATGTGGCCTGACCCATGTTCCTTCCAAGTGACCATA
TGTTTCTACCAGTGGCCACATTTCTCAGACCCAGCTCCCTGACAGGTGGCCACAGATCCCCACCCGGCAAACACTTATTCCTGGTGGATGCCCACAYGTC
TCTAGCCCATAACACTGCCTCTTGAACACATGTTGCTAACCATACATCCCTGACCCATCACCACATGTCCCCAGCCCAAGTCCCTCAGCTGCATCTATGA
CCAGAGTCCCTGCCCCATGACCACTGTGGCCTGTAGTGTTCAGTAGCCATATGCTTGGGTGCCCGCAGCATGTGGTGCAGTGTGTATTTGTGGCCATCCG
GACCATCGGAAACATCATGATTGTCACCACACTTCTGCAATTTATGTTCGCCTGCATCRGGGTGCAGCTCTTCAAGGTGGGGCAAACACTGGAGGGAATG
CCAGGCAGGGGTCTGGGCGGGAGTGTGATGAAGGGTGAACCTACTTGACAGACATCCTCTCTACAGGGGAAATTCTACACCTGCACGGACGAGGCCAAAC
ACACCCCTCAAGAATGCAAGTGAGTGCCCAAGACCCTGCCGTCCACGGAGCTCAGGACCCCTCCCAAAGACTTTAGAGCCTCTAGATCTCACCAAGGCCC
AAAGATATAGTCCCAGAATTGTCCCAAGAACTGCAGAGGCCCTCAGATCTCACCAAGTCTTCGGCGGCCCCCGATACCTCCCCCAAATCCCTCTCCGCAT
TCCCCAAGTGACCTACATTCCACTCCAGACCCATTAGCAATCACCATTCCCACCCTGAGCCCCCAGCTTCCATCTTGAGACTCCTGTAGAGGGTAGTAGC
TAAAAGCCTGGGCTGTGAAGTCAGACATTACGGTTCAAATCCACTTCATGAGACTTAGGTACATTTCTTAAACTTACTCAGTTCCATTTCACTCAACTGA
AAAACGGGGCTAAACAGTGCCTATCTCACAAGGCTGTTGTGAAGAGTAAATGAGCTACTACATGGAAAATGTACTTTGTACAATGTAAAGTTGCTACACA
GAAAACCTAGCTTGGGCCGGGCGCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTTGGGAGTTCGACACC
AGCCTAGTCAGCATGGTGAAACCCCGTCTCCACTAAAAATACAAAAATTAGCTGGGCTTGGTGTTGTGCACCTGTAATCCCAGCTACTCTGGAAGATGAG
GAGGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCAGAGTCTTTTTCAAGACTCCGTCTC
AAAAAAAAAGAGAGAATAGAAAAGAAGAGAAGAAAAAGAAAATCTAGYTCAGTGCCTGGCATATAGTTACTGCTAATAAACGTTGGCTATTATTCGTTTT
ACTTTTTCCTGGTGGGCGATGATGAGGATGATAATGGTGATGATGAAATGATGCCAACTATGTGCCAGACACTAGTCTCATTTATTGACTTGTGACATTT
ATTAATCCTTGTGACAAGCCAGGAAATCGATTCTGTTATTATCCTTATTTCTTAGAATGGGGAAACAGAAGCACAGAAAGGGTAAATGCGCAAGGTCACC
CAGCCAGGACATGGAGGGACAGGATTTGAACCTAGAACATATTGCTCCACCACTATGTCCTGCTGCCTCCATGCTGGAGACCCCAGACCCTTTCCCCAGT
TCCTCACCCCTCCTCACCCATCTAACCTGTTTGCACATCCACAGGGGCTCCTTCCTGGTATACCCAGATGGAGACGTGTCACGGCCCCTGGTCCGGGAGY
GGCTCTGGGTCAACAGTGATTTCAACTTTGACAATGTCCTTTCAGCCATGATGGCCCTGTTCACTGTCTCCACCTTTGAAGGCTGGCCTGCGTGAGGGAC
AGGGCCCTGGGTTTATCAGGGGATGAGGCAGGGGTCTCTGCAGGAYTGGGTTGGGATCTCCTGGGAATGGGTGGGAGTGTACCTTGGGGATGTGACGAAG
GTCTCTCGAGACTGGATAGGGTTTTCTGGAGAGTGGTGGGTGTATCAGAGGACTGTAGAGGTGGAGTTCCCAGAAGCTGGGTGGGGGTTCTTTGGGGACT
TGAGTGAGGGGTCTCCAGGAATTGGACAGCGGTTTCTAAGGGACTAGGTAGCTAGATAGAAGCCTGGAAAGGATTGGAGATGGTTTGGGGGGACAGAGTG
GAGGTCTGAGGGGACTGGGATTGGTCTCTGAAGAGATGAAGCAGGGATTCAGCGATTTCTAGAAAGCTGTGCAGGTCTTTGGGATACTCATTGTGGGGCT
CTGTGGGGAGATGGAGTGGGGATTCAAGTTGATGGGACAGGGATAAATTTACAGATCGTTGGGGGCTTGTGTGGAAGTTCTGGGGAGGCGCATGGGGGTC
TCCAAGTGGTTGGAGAAGGGGATTTGAAGGTCTGTGGAAACTTAGGGGATTTCTGGGTCTTTGAGGTTCTGAATGGAGATTCTCTGGAGGACTCTATGGG
GGTTTCTGAGGGCATGGGACAGAGGATTTGGACTCTTTGAGGGCCTGGTAGAGGTCTCTTAGAGTATGTATGGAGGTCCCAGGTGGTTAGGTCAGGAGAT
TTAGGGGTCTTTGGGGTGCCAGGCAGGAAACTCTGGGGTGTCTGTGATAAGTAGACTGGGGGCAGGTCTGAGGGGGCTGGGATATCCCCTCACCTGCCCC
CACCTCTACCCCCCCTCTGGCTCCCACAGACTGCTATACAAGGCCATCGATGCATATGCAGAGGACCAYGGCCCCATCTATAATTACCGTGTGGAGATCT
CAGTGTTCTTCATTGTCTACATCATCATCATTGCGTTCTTCATGATGAACATCTTCGTGGGCTTCGTCATCATCACTTTCCRTGCCCAGGGCGAGCAGGA
GTACCAAAACTGTGAGCTGGACAAGAACCAGGTGACCTCTGACCCCTGACCCCCTATGGATGGTCACCAACCCTTCCCTCCTTGCCTCAGGACCCCACTG
CTCACTCATGCCCTGCCCTGGTATGCAGCGTCAATGTGTGGAATATGCCCTCAAGGCCCAGCCACTCCGCCGTTACATCCCCAAGAACCCGCATCAGTAT
CGTGTGTGGGCCACTGTGAACTCTGCTGCCTTTGAGTACCTGATGTTCCTGCTCATCCTGCTCAACACAGTTGCCCTAGCCATGCAGGTCTGAGATCCCT
GCCTGACCCCCGCCAGACTCCTGACCCTATTATCTCCACATAATCCCTTGGGAACCATTGGGAACATTTAAGGCTGCAAATAACAAACCCCCTGCCAACT
AACAGCAACTTAAGCTATAAAGACATTTGCCACATTTCTTTAAGTCTATGGCCAGTACTTGTAAGTTGCATTCTGATTTCGGAGATGTAAGAATGTGGAA
AAAAAAAAAAAAGTAGCCAGTGGCCATTGTAAGTTGCCATTTGTTATAAAATGCGCCCCAATTTCAGAGATTCTAAAATGTAAAAAGATGTGCCTCCTGG
AGTCAATGAACTGTGGTAATTACCTCATGTATTGAGAAGTGCAGAGGTAGGCTGTTTGTTCATTGTTCATCCGGGACCCATGCTCTATCTTTCTGCTTCA
CCATTCTTAGCAAGTTGGCATTCATTTTCATGATTGTTGTTTCATGATCACAGCTCCAGGCATCAAAACCACACTCAAGGCAGGGAGAGCTGCACCTGGG
GCCTCTCCTTATTTGATCCTTTCATCGGAAAGCAAAATTTTTTTTACACAAGCTGCTAACCAACAGCAGATTTATGTTTATGTCTCACTAGTCAACCTGG
CCTTGCCTAACTACAAGAAAAGCTAGTAATCAAGAACTAAACTTTCCAGTATCCATAATGGGAGGCAGACAGTGCAAGAGGTTTGACCAATACACAGTGC
AATCAAGTCCCCAGACTCGYCTCAGCCCAGGCCAGGGAATATTTGGTTGGGTGTGGCGGCATCTCTGCCTCAGGCTCCATCTCAACCTGATTTTCTCCTG
CAGCACTATGAGCAGACTGCTCCCTTCAACTATGCCATGGACATCCTCAACATGGTCTTCACTGGCCTCTTCACTATTGWGATGGTGCTCAAAATCATCG
CCTTCAAGCCCAAGGTGGCCCCCCTTCTCTAGCCCCACCCACCAGTGGATGAATTCCTTGGGAGTGGAGCTCATTGCAGAGCTCTGGGGTTGGCGATGCG
GGCAGCAGCCAGGGAGTGTGAGTCTAGGGAGTGAGAGGGACTCAGGTGCAGGCCCATCGTGTGATCCAAGCGAAGCCCTGCCCCCCTCCGGCGCCCCCTA
CTACTACTGGCCCCCTACCCTGGCTTGCGAGCTTTGAGAAGACAGGGCACTGCTTTTCTCCTACTTGCAGCATTACTTCACTGATGCCTGGAACACGTTT
GACRCTCTTATTGTGGTGGGCAGCATAGTGGATATTGCCGTCACTGAAGTCAATGTGAGAACTGGCCTTTCCACTAATCCACTCTCGCCCTATACACCTT
CCCTCACCTCTATCCCGGGGTTCCCTTTCACGTGGGTGGGTGGCTCCCACGCACATCCTCCCTACTCCTGGAGACTCAGTCCTCATTCTAGCTCTATCTC
TTCTGAGTCCCTGTTGGGTTCAGCAAAAGTCCCCCTCTACTGGCTTTCTCATTCCATTTTGTAACCTATCTACTGGCTCCACYATCTCCTGAAATGCCTC
TCCTGTTATTTCTGTTATCTCTTTCATTGCCTCTACATCCCCCATCCATTGGCTCCGTCATGTTCACTGGCTCCTGCTTTGGCTCCATCTTTTCTGATGA
CTTCATTGGCTTCATTTCTCCACCAACTTCATCATCTCTGACACTGGCTCTTTCATGGCTCTGTCATCACCATTGACTATATCATTGGCTCCATCACCTC
CATTGGGTACTACATGGTTCTGTCACCTCAACTGACAACGCTGCTGGTTCCCTATCTCCATCACTGGCTTCTCCATTGGCTTCTCCATCGGTTCTCTCAT
CTCCATCATCTCTATGACACCACTGGTTCCATCATTTCCTCTATTGGCTCCAATGTCTCTGATCCATCACCTCCTTTACTCTCTCCTCTCCCTTCCATTC
CCATTACCCACTTTTTCCTAATCCTAATCCACTACCATATAAACTTTCCCATTGTCCCCTGTGTAATGACCCCACCATCACCCCCTATATCTGCTCCATC
ATATCTCACCTTGTTCATTTGGGCCTATGATGTCATCATCTCCTGTATCACCTTTTTCTTGGCCATATCTCCCTCCAGAATGGTGGCCACCTTGGCGAGG
TAGCCCACCCTAATAACAGGGACTCTCTGCTTCTTTTCCCATGTCCCTCTGTCCCTCCATCCCTCCRGATTACCCTAGGGCCTGAGTGATTTGGGTACTG
GGAGGGCCAAAGCATGAGATAGGGAGATAGCTGGAGTAAATGCAAACTGAGCATCCCTACTGCACCCCTCACCCCAGAGCTCTGAGGACAGCTCCCGCAT
TTCCATTACCTTCTTTCGCCTCTTCYGAGTTATGCGGCTGGTCAAGCTTCTCAGTAAGGGTGAAGGGATCCGCACATTGCTCTGGACATTCATCAAGTCC
TTCCAGGTAATCCCCTACCCCATCCCTTTGACCATACCTCGCCCCCATTTCACACTTCTCAGCCTGCCCCTTTACCACCCTCAGAACTACATCTCCCAAC
ATGCCATACCCATTTCCAAATTATTATTCCAATTTTCTCTTTTTTCTGGGCTCTCAGTTTCCAACACACCTCTGGTCTCACTGACCTTACTCTATCTACT
TAACACTATGTTCACATTTGAGAGACACCACAGTCCTTGGCACTTTGGAGATGGACTGCATCTCCCAGTAGGCCCAGGCCAGGGAAAGCAGTGCATTCTG
GGGCTTATAGYTCTTTGCCTGAGCCTGTGCATCTATTCTCTGCCCCCCTCCCCCATCCCTATAGGCCTTGCCCTATGTGGCTCTTCTCATCGCAATGATA
TTCTTCATCTATGCCGTCATTGGCATGCAGGCAAGTGGGGACCCTAGGAAGCATCCCTTAAGCACTCCTCTGCTGGCAGGGGATGGGTTAAGAATAGCCC
CAAAGTAGGGGTGGCAGGTAGACAGACAAGCTGGACGGCCCTGGGTCAATCTACACATCTGTGAAATGAGATCAGCAGTGATGCCCTGTTTGTCAGGGTT
ATGAGGCTCCTTTAGGTATTAGGAGGTGTGAAATGGGTGGGGCATGGGTTCACCCCACTGACACAGCCTTGATGTGTCCACAGATGTTCGGCAAGGTGGC
TCTTCAGGATGGCACACAGATAAACCGAAACAACAACTTCCAGACCTTTCCACAGGCTGTGCTGCWTCTGTTCAGGTGACATCTACTCACTCCCCTGCCA
CCTTATGCCCGTGGGTGCCCACCCACCCTCTCTGAGCCCCAGACTGCTTGAGCTATGGGAATAATATGGCAGCATGGGGCTCCATACAGCCCGAGATGTT
TCCTGSCTATGATGTGAGGAGTCTGTTAGAGTATTCTAGCCTCAGCCATTTTCTTTCTGACTGTAAGACGCCTCCCCTTCTCAGGTCTCAGTGCCTCATC
TGTAAGATGCAAACATGACTGTCGTCAACATGGCCACACTGGCTGTTAAAATATTGAAATGTTATCTGTGCCAGATGTAGCCCCTGGTGAGAAGTAGGTC
ATCTCCTCATTCCCCAGTCCTCCCCCAACTCCATTTACCATGACTTCATAGCCTCCCCTTCAGGATGCTACCCCTGTGTGACTCCCACCAGGTGTGCCAC
TGGTGAGGCATGGCAGGAGATAATGCTTGCCAGCCTTCCCGGAAATCGGTGTGATCCTGAGTCTGACTTCRGCCCTGGTGAAGAGTTTACCTGTGGTAGC
AATTTTGCCATCGCCTATTTCATCAGCTTCTTCATGCTCTGTGCCTTCCTGGTGAGAACCATTTCCTCACAACCACCACCACCGTCACGGGGGCTGGCCC
TGAGGGGCTCAGGGATGTGACGTGGGCAGCCCAGATCTTCATAGTGGGTGAGAGGGCTGGTCTGATGACAAGATCAACCCAGAGACTCATGACCATATAA
GCCCGCCCCAGCCTCCCACCATCCGTCCATGACAGTGTTCTGCCCTTCACCTAACTGCTCCCTTGCTCACTGGCCCACAGATCATAAATCTCTTTGTGGC
TGTGATCATGGACAACTTTGATTATCTCACCAGAGATTGRTCCATCCTGGGCCCCCATCACCTTGATGAATTCAAGAGRATCTGGTCTGAATATGACCCT
GGGGCCAAGTATGCCCTCTATACCCTTACCTAGAATCCAGGGGACAATGTATTGCCCTACACAGTCCCCTAGCCCCCAAACCTCCGACTGCTGCATCTCA
TTACCCAGTCAATAGATGCCCCAAAGTTTCCACTGCCCCATCCTCTGCCCTCTCTGACTGCCCTCCAGTTCTTCCCTGGCAAGCTCTGGGGTATTGGTAG
GAGGAGGTAGTGATGAGCTGGTGGGGCCTTGAGAAAGGGCTAGTGGGGGCATCGCCAATCCAGTGGTACCTCCCCAACTCCTCCAGGGGCCGCATCAAAC
ACTTGGATGTGGTTGCCCTGCTGAGACGTATCCAGCCCCCTCTGGGATTTGGGAAGCTGTGCCSACACCGAGTGGCCTGCAAGGTCTGTGCACCTGCCCA
CCCCCAGGCTCCTGAGAGAACTGTCTATCACATGGCAAGGGTGGGAAGGGATCTGCCTTGGGTGGGGAGGGGTGTTTGATCGCATCCTCAGAGGTTTCTG
CCCCTTGACATTCGTTCCTGCATACCCGGCATTTTCCCAGAGTGGGTTTCATGTCTCTCGTGTTTGCAGAGACYTGTGGCAATGAACATGCCCCTCAACT
CAGATGGGACGGTGACATTCAACGCCACACTCTTTGCCCTGGTCCGGACATCCCTGAAGATCAAAACAGAAGGTGTAGGGGAGGGGCAGGAGTGGGATCG
TTCCTGGGGAGGGTGCAAGGAGCAAACTCATTGAATCATGGGCCCCACTCCTAGCTCTGAACCCCAGAATGGGTGACAGGATTCTCCAGGCCTGTTTCCC
CCCACCCCGTCCAATGGGGGCGGTGTGCATCTGCGGTAGCAGCTTGTGAAGTTCCCCCCACCCAACAGTGAGGGGGCAGCTGTGGAGGTTCTTCCTATTG
GCTCATGCCCCACATCCTCCTCCAACGCAGGGAACCTGGAGCAAGCCAACCAGGAGCTGCGGATTGTCATCAAAAAGATCTGGAAGCGGATGAAACAGAA
GCTGCTAGATGAGGTCATCCCCCCACCAGACGGTGAGCTATCCCCGCCCCAGTTCCCCGCGCCAGCCCCTGAATGGCAGATGATCGCTCTCCACCACAAA
ACCAGCGCTGGGCAGAGGGCGAGGGGAAGTCCATGCTGGTGGGTAGAGAGGCGGCGAGGTGGGCTGGGTCAGAGGGCCCCTGTGTGATCTTGCCTTCTCT
CCCTTGCCCCTAGAGGAGGAGGTCACCGTGGGCAAATTCTACGCCACATTTCTGATCCAGGACTATTTCCGCAAATTCCGGCGGAGGAAAGAAWAAGGGC
TACTAGGCAACGACGCCGCCCCTAGCACCTCTTCCGCCCTTCAGGTCTTCGGGGCAGGGCCTAGTGTGGATGGGCACGTGTGGCAGTGCTGTGGCTGAGG
CTGACCCCCATTTTGATCTTGTGAAACCCATGTCACAGATAAGGAAACTGAGGCCCCAGGCCTCACGGAGGGCCAGGGTGGCTGAAGGACTCCTTCCCCC
ACCCTACCCGCCTGCAGGGGAAACAGAGGGAAAGTTCAGACCCTGAGCTGCCTGCTTACCTATTTCTCCACCCCCACAGGCTGGTCTGCGGAGCCTGCAG
GACTTGGGTCCTGAGATGCGGCAGGCCCTCACCTGTGACACAGAGGAGGAGGAAGAAGAGGGGCAGGAGGGAGTGGAGGAGGAAGATGAAAAGGACTTGG
AAACTAACAAAGTGGGGACAAGTTTTCACTCTCCCAGGAACTTGATTGTAAAATACTTCGTCAATCCCCTGAGTGATTTTGACACTGCTTCTGGGAAGAA
GCTCCCCCAGAGAAGCCCCCTCTGCAATAGAAAAATATTTATTTGAGGCTGGGAGTGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGTCCAGGGTG
GAAGGATCGCTTGAACCCTAGGGTTCAAGACCAGTCCTGGCAAAATAGTGAAACCGCCTCTCTACAAAAAAATTTAAAAATTAGCTAGGAGTGGTGGTGC
AAGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGGATTGCTTGAACCTGGGAGGATGAGGCCACAGTGAGCTGTGATCATGCCACTGCACTCCC
GCCTGGTGACAGGACAAGACCCTATCGCAAATATTTATTTATTTATTTACGTATTTATTTATTTGACATTTACCATTGCTGTTGGAGGGCAAGGCCCACA
TTCATGGACCTGTGGGGGAGACATGTTATATGACCAAATGACTTAGCCACAAAGTGCATGCAACACTCAGTCCTGTGACTCTCCACAGGCCACGATGGTC
TCCCAGCCCTCAGCTCGCCGGGGCTCCGGGATTTCTGTGTCTCTGCCTGTCGGGGACAGACTTCCAGATTCACTCTCCTTTGGGCCCAGTGATGATGACA
GGGGGACTCCCACCTCCAGTCAGCCCAGTGTGCCCCAGGCTGGATCCAACACCCACAGGTATTATCAAGTGTCTGGAAGTAGATTGTGAGGGAAGGCAAG
GACTAGACACTGGATAGAGGCAATTCAGGAGGCAGGAAGTTGAGGGGGGTGGGAGGGAGGGCCTAGAGGCCTTCAAGCAGAAATTTGGGAAGAATGGAGG
TGTTTCAAGGGCTCAGGTAAGAATAGAGGGTGATAAGAGATTCATATGAGAAAGGCAATACAAAGGTTTAATGCAAAAAGCACATTGTGTGAAACCAAGA
GTTTCAGTTCACATTCTGCCTCTGCCATTTGCTAAGTGACCTTGAGCTAATCACTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCCCGCTCTGTCTCCCA
GGCTGGAGTGCAGTGGCACAATTTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTGAGCCTCCCGAGTAGCTGGGATTACAGG
CGTGCGCCATAATGCCAGGCTAATTTTTTTTTTTTTTTTCAGTAGAGACGAGGTTTTGCCATGTTGGCCAGGCTGGTTTCGAACTCCTGACCTCAGGTGA
TCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAAGCTTGAGCCACCGTGCCCTGCCTAGTCACTTCGTTTCTATGAGCCTCAGTTTCCTCACCTGT
TTAAGGGGGATGACAAAGCACTTACTTCACAGGGATAAAGAAAGGATGAAATGAGGTAATGCATGTCAAACACTTAGCTGCTAGACAATACATAAGCAGA
TTAAAGAAAAATTTTAAAAAAAAATTTCAGAGTGTCTAGCTTGCCTAGGCACGGTGGCTCACACTCGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGAG
GATCGCTTGAGCCCAGGAGTACAAGACCAGCCTGCACAACATAATGAGACCCCGTCCATACAAAAAATAAAAAAATAGCCGAGCATGGTGGCGCATGCCT
GTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATAAATTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTGAGATCATGCTGCTGCACTCCAGCCTAA
GTGACAGAGTAAGACCTCGTCTCAGAAAATAAAAAATAGAAATAAAAAAATAAAGTGCCTAGCTTTTACAGGCTCCCCCCACTCCTAATACATGCCCAGT
TTTGTGTTCAAGGTGTCTCTCTACAGGTCAACTTTGATTTTTTTGAAACTTTCAGTCCTAATTAGATGAACATCTATTAAACAAAAGCCCATGGTCACTT
TAAAATGGTTAATGGTTAATTTTATGTGACTTGTCCTCAACAAAAAAATCCAAAAGCCCAGTGTTTCTGTAAGGGTTGGGGCATGGGATGAGAGGAACCA
GGGGTCCAGGGCCACATATTGAGGGATCTGGTCTGCCTAACGTGCCTCCCTTTCCCCAGGAGAGGCTCTGGGGCTCTCATTTTCACCATCCCAGAAGAAG
GAAATTCTCAGCCCAAGGGAACCAAAGGGCAAAACAAGCAAGATGAGGATGAGGAAGTCCCTGATCGGTACACTGGCCATGCCACATGGGATGAACCCAT
GAGCTGGGGTGGAGGAGGGGTGGGAACTGGGTCGGGGAGGACTGTTTGTGCCCCATCTCCCAGGCCCAGGTCCAGGCCCAGACCCAAGTTCACCCCTGGC
CCTCCCACCCACACAGGCTTTCCTACCTAGATGAGCAGGCAGGGACTCCCCCGTGCTCAGTCCTTTTGCCACCTCACAGAGCTCAGAGATACATGGATGG
GCACCTGGTACCACGCCGCCGTCTGCTGCCCCCCACACCTGCAGGTGAGAGCAGGGATGGATCCAAGGGGCCCCCACGGGCCTGCAGGACAGAGATCTGG
GGAAGCACTGACATTGCTATTTGCCCCTGGTGCCCCACCCACCCCCAGGTCGGAAGCCCTCCTTCACCATCCAGTGTCTGCAGCGCMAGGGCAGTTGTGA
GGATTTACCCATCCCAGGCACCTATCATCGTGGGYGAAATTCAGGGCCCAATAGGGCTCAGGTGAGGCTGTGGAGGTGGTGCTGGGGTCTGGGGTCTGGA
GAGATGGGGGCAGCCTAGGCTGAATTTCTCAAACACAGCACATATCAGGCCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTGC
TGCCCAGGCTGGAGTACAGTGTTGAGATCTTGGCTCACTGTAACCCCTGCCTCCCGGGTCCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAT
TACAGGTGCTCACCACCATGCCTGGCTAATTTTTGCATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCGGGCTGGTCTCAAACCCCTGACCTCAGGT
GATCCGCCTGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCGCGCCTGGCCTCAGAGCCTTCTGAAGAACAGGACACATATGAATGAAT
GCACACAATGCTCACTGTACTTGTGAGGAAACTGAGGTCCTGAGAGGTTTACCCCAGATCATGCAGCTAGTAAGTGGCAGAGCYGACATTTAAACCCAGG
CCTCCTGCACTCTTACATAAATAAACTCAAGCCTGACTTATACCCATTCAATTTCACTCCAGTTGTATACTGAGGGAAAGAAGTAGGCACAGCGGTGAGT
CCTAGACCCTCATACCCTRCTCATCCATCCCTGCCCCTCTGATGTTTATTCTGGCTCAGGGTTCCTGGGCAACACCACCTCAGCGGGGTCGGCTCCTGTA
TGCCCCGCTGTTGTTGGTGGAAGAGGGCGCAGSGGGGGAGGGGTACCTCGGCAGATCCAGTGGCCCACTGCGCACCTTCACCTGTCTGCACGTGCCTGGA
ACCCACTCGGACCCCAGCCATGGGAAGAGGGGCAGTGCCGACAGCTTGGTGGAGGCTGTGAGTCCAGAGGGCATATAGACAAGACGGATGGGGGAGAAGG
GGAGGAGGTGGGTACTGGAGGAGGAYGGAAAGGAGTCCCCAGGTCCTGTGTTGTGCATGTAGATATCCCTTTGCCCTACGACCTCTGCTCACCCCTGTCC
CCCACTGACTTCCCTACATGCCCTCATGGGCACGTCATTTATCCACACTGAACCTTCTGTGCACACTGTGCCGTCCGTCAACACTGATCCCACCTGTGCC
CCCAGGTGCTTATCTCAGAGGGTCTGGGCCTCTTTGCTCGAGACCCACGTTTCGTGGCCCTGGCCAAGCAGGAGATTGCAGATGCGTGTCRCCTGACGCT
GGATGAGATGGACAATGCTGCCAGTGACCTGCTGGCACAGGGAACCAGCTCTCTCTATAGCGACGAGGAGTCCATCCTCTCCCGCTTCGATGAGGAGGAC
TTGGGAGACGAGATGGCCTGCGTCCACGCCCTCTGAATTCCCACCCCTCCCCAACTGCTCAATAAACCTCCTGCCCTCCCCTCCCCAGCAGGAGGCAGGC
ATGGACCACATCCCTGGATTTTGTTGTCTTTGCACTGGGGGTCTGGGGCTGCCCAGGGGCCCCCATCCATCCATCCCCTGTTCTAGCCCTGAGCCACTGC
CCACACACGGGTATTTCCAGAAACCAGGACAGCCAGGCCTGATTATTCAGCGTCAGGGAAGGAGGGAGGAGGAGGAGGAGGAGGAAGAGACAGCAGCCAA
AAAAAGCTGGAGGCAGAGTGGAGGAGGGGGGAGGGGGAGGGCACTGGACAGAGATGGAGGAAAGGGGAGAGAGCGGGTGTGAGGGGTGCTTGGACCCAGA
GAGGAAGAGAGGCAGAGATTTCACCAGGGCTCAGCCAGGTCAAACTAGGAAGGGTAGACGGATGAGAAGGAAAGGACAAGGAAACCCAGAGAAGAATCCT
GCCAGGGGAGAGGCCTGGAGGTTGGAATCGGCCTGGTATGTGATGCATCTTAGGCAGAGGGGTCCTCTGACGGCAACAGGAATTTTAGGGTGGCTAAATT
GAGATCGCTCTGTCTCCCATCTCCCACTTTCTGCCTGAGAAAGAAAAGAAAACCTAAATCCATCAGTAGACAACATAGGTGACAGCAAAGGTCAGGGCTC
CCAGCCCTGGGGAACCCACTCAGGGCCCACCTGGCTTTCCTGAGACCACCTAACAGTAACCTACTCTTATCCCACACAGATCCCAGAGGTCCTCTCTGCT
TCTTGCCCCAGCTTTACTCTTCACCCAGCCTTTGGGGTTACATTCGCTCACTGAAGGCTTATCAGGCATTTACTATGTGCCAGGCACCGGCTCTGGGTTT
CTCTCGGGGCAAACTGAACTGGTTGAAACACGGGACAGGTCTCATCCAAAGTGGGAGTCAGCCCCACTCCAGAGGAATTGAAGGTAGCATTGGGAGTGGT
GCAGGATGAGACCACCAGTCGGGGAGGAACTCTTCCCAGCTCCCAGAACAGGGGTGTCTCATTTGTATAATCTGCGCCAATCAAGCCAGGACTGAAATTT
GAGGGAAGCCAGAATTGGAGACTAGGACTGAGAAGATTGAGTTACATTAGGCCTTGAAACAAAGGCTTAAAGTGGTTGGGCTGGAGTTAGGTGAGAACAG
CAAGTCATGGGCAGGGCACAGAGAGTGAAGGGAGACTGTTGAGGGATGAGGTGGGAGAAGCCACTGAGGCCAGATCAGGTGGAACCTTGAATGCCAGGTC
CCAAACTCTGGGATTTTTCCTATAAGCAGTGGGGAGCCATGGGAGGGATTTGAGTAGGGTAGTGACATAGTTAACATTGCATTTTAAATAGATGTTCTGA
CGGCTRTGCTGAAAACAGAAGGGAGGGGGAAGAGACTGGAGATGCTAAAATTGGCAGGAATGATGGTCGCCTTAGCCAGAGGAGGTGGCAGAGGAGATGG
TGAGAAGTGAGTGGATTCCAGAGATGTGTAGGAGGTAAAATGAACCATTTATTGGGCCCTGTGCTAACTGCATTACAGTGATCATCTCGTTGAATCAGTG
CAACAACCTTATAGGTATCATTTTAAACCATCTTACCTGTCCAGGGTCAAACAAGAAGTATCAGAGGTGGCATTCAAATTCAAGCAGTTTGATGCCAAGA
TCCATGCTTTTAACCCCTCCTGTGTACTGCTTCCCCAATAAGGCAACAACAGGGAAGTATCCATTACATATATGTGTGAATTTTCATGTTTAAAAAAACA
GGTATTGAGCTGGGCATGGTGACTCATGCCTGTCATCTCAGCACTTTGGGAGGCTGAGGCGGGAGGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGG
GCAACAAAGTGAGACCTCGTCTCTACAAAAATATTTAAAAATTAGCTGGGCRTGGTGTCTCACGCCTGTGGTCCCAGCTACATAGGAGGCTGAGGCAGGA
GGATCGCTTGAGCCCAGGAGGTCGAGGCTGCAGTGAGCCATATTCATGCCACTGGACTCCAGCCTGGGCAACACAGGGAAACCCTGTCTCAAAAAAAAGA
TATTCATTCAGATGGTTCAAAATTCAAAAGGTAGGCCAGATGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGTGGACAGTGGATCACT
TAAGGTCAGGAGTTCACAACCAGCCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAAAAAAAAAAAAAAAAAAAAAAAATAGCCGGACGTGGTGGTT
TGTGCTTGTAATCCCAGCTACTCAGGAGGCAGAGGTAGGAGAATCGTTTGAACCCAGGAGGCGGAGGTTGCAGTGAACTGAGATTGCACCACTGCACTCC
AGCCTGGGCAACAGAGTGAGACTCTGTCTCAAAAACAAAACAAAACAAAACTACTGAGATGCTGTTTTTCATCTTTCAGGGTGGTGAGTATCAAAAAGTT
TGATAATGTTCCATACTGGCAGGTTGGCCAGAAACAAGCGTTCTCATAAATCGCTTGTGGAAGTTTCATTGGTATAACCTGTGTAGAAGGCAACTGGGCA
AAATCTAGAAAAATAAATTCATTTACTGTTTTGTTCAGCTTCATACTTCTAGGAATTTCTTACAGGTAGACTCATATATGTGCTAAAAGGTGTATGTATA
AGATGATACACTACCAGGCTGTTTATTTTTTTATTTTATTTGAGATGGAGTCTCAAAAGGTACAAAGGGGTATAAAGTGAAAAGTTTCCCTACCCTCTGG
AAGCAAATAGTATTATCAGGTATCTTTCACAGACATACAAGATGGTGTGCTGAAAAAAAAAAGATGGTGTACTGATAAGTTAGCACAGTGGCTAAGAGTA
ACAGGTGCTGGAGCCAGACTTCCTGGGTTCATATCCTGGTTCTACCAATTTACCAGCTGTGTGAACTTAGGAAAATTCCTCTCCGCCTCTTAGTTTATTC
AGCTGTAAAACAAAGATAGTTGTCGTACCTGTCACATAGGGTTACAGTAAGAATTTAAGTGAGTAATACAGGCAAAGTTCTCTAAAGAGTACTTGACAGA
AAACAGCCACAATTTAAATGTTAGCTATTCTCTGTCTGATATAACCCTTCTCTTCTCTTTGTACACAATTACCACACAGTTTGACATCTTGCATTTTTTA
CTTAACTAAATATCTTGGCAATCATTCCATAGTTCCATGTTATTATAATGACAGCGGCATAGTATCAGAGTTTATTTAAACAGGCTACCAACAATGAGCA
CTTTGGGAGTGTCCATTCTTTATCCTATTATAAACAGCCCTGGCCTGGCCCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAG
ATCACATGAGGTCAGGAGTTCATGACCACCCTAGCCAATATGGCGAAACCCCATCTCTACTAAAACTACAAAAAAAAAAAAAAAAATTAGATGGGCGTGG
TGGTGAATGCCTGTAATCTCAGCTACTCAGGGAGGGTGAGGCAGGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTAAGCGGAGATCATGCCACT
GCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAAAAATAAAAAATAAACAGCCCAGTCATGTATTATCTTATACATATATCTTTTAGCACA
TGTATGAGTCTATCTGTAAGATGAATTCCTAGAAGTATGAAGGTGAACCAAACAGTAAATGAATTTGTTATTTTTTTTTTTTAGATTTTGCCCGATTGCC
TTCTACACGTTATACCAATGAAACTTCCACAGGCGATTTATGAGAACGCTTGTTTCTGGCCAACCTACCAATACGGAACGTTATCAAACTTTTTGATACT
CACCACCCTGAAAGATGAAAAACAGTATCTCAGTATTTTTGTTTGCTTGTTTGTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGG
TGCAATCTCGCCTCAGTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTGGCTGGGATTACAGGCGCCTGCCACCACAGC
CAGCTAATTTTTGTATTTTTAATAGAGATGGGGTTTCACTATGTTGGCCAGGCTAGTCTCAAACTCCTGACTTCAAGTGATCCACTGTCCACTTCGGCCT
CCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCCGAAGTTGAGCATCTTAAGCCCCAACTGTATTTTGGATTTTGCATCATAGCCATCACT
GTTGACCTTGATGGGCCTAGTTTTAGTCGCAGGAAGGAGGGTTATTCCAATTAAGAGAGAGCTAAGGAATAAATAGGTAAAGTGGTAGAGTTCGAGTAGG
CATTAATTTGACAAAGAGGAAGAAAGAAATAAGGGAGATGGCTAGATGGGGGCAGGAGTTTCAGGGTGTGCTTAAAATGCAGACTATGAAAAAGGAACCT
GGAAGGCCTTGAACCGTGTTTAAACTGCAGGGACTCTGGGCACTGCCAGCTAGTAGCTGGCTGACCTTGTGAGAGTCACTTAAGCTCTCTGGGGAATTAT
TTTCCTCGTCTGTAAAAACGGCCTAATAGTCCCTACAACGTAGGACTTCTGTAAGCATTAAATGAGTGAACATGTTTAACAAACTCAGAAAAGAGCCTGG
CAAAGTTGTCACACTGTAGGACCGAGCAGGGAGGTCTCCTCTCCCCGGCCCTCGACTTGTGTTTTCCCAACGCATATTCCCGCACGCTCTCACGGCTCCA
GCCTCCGGGCCGGAATGGCTGCCGGTGAGACTGTGGTACAACCCGCTGTGCGCAGGCGCGTGGCGGGCAAGGAGGGGGCGCGAGGGGCGGGGCTGCAGCC
GCCTGGGCTGTTCCAACGAGCGCGCGCCGCCCCCGCCGCGCCCCGCGCCGCCCTTGCTAGCCGAGCCTCCCGCCCCCTGCATTGCTGATGCTGCTGCTGG
CGGACATGGACGTGGTGAATCAGGTACGCGCTCCAGCACCGTGGACAGAGCCCGCCGCCGCCCGGCTGCCTAGGCCGGGTCGCTCAGGCCAGCCGACTCT
GGGAGGTGGTGGCCAGGGTCTGGCAGCGGAGACCCGGTCCCCGGCGCTGGGGATGGGGGTCTGCGGCAGGTGAAGGGGAGGAAGGGGGAGGTGGAGAAAA
GGAGTGCGCTCTTTGCCGCAGCGAGGGCCGTCCTCACTGCCGCAGCGGGGGCCCCCGGAGCCCCGTTTATTACTGGCGACCGCGAGGGGAGGAATAGGGG
CCTGGGGGCTGGAGTGAGGGCAAGGGACAAGGGGAGGGGAGAGTGGAAGGAAGATGGGGGGTGCTGCGGATAAGCTAGGAAATAGAGCGACAGAAGGTGT
GGGGGCGGGGATGGGGGAGAGGGCTGGCACCCGCCCCTCCCAAACAGAGACTGTACCCCCATAGGCGACCACCCCTTCCCCCAGAGCACACCTAGGGGAC
AATCCGGTTTTACTCCTTCCAAAACCCCCAGCCTCCTCACCCCCAACACATAGCGACTGAAGCCGTGTCCCAGCCCTCCCCCACCTTAATCAGTCCAGAC
CCTCTCCGCCATGTCTCTCGTCTTTGCCACCTCAGAAACTCACCCCCAATCAGTCCCAACCCTTCCCCATCCCCATCACCTCAAATATCTACCGCCACCG
CCGTCTAACACACCTTTACCCCTGCAGACCCTTCCCCCACCTGAGCCAAACCGACTCCTGCCCCGTTATGACTCACCTTCACCATCACAACCCCCCCACC
CGAATGCACCCCACTCCATCCCCATTCTCTACCCGAACCCCTTCCCCATCCGACTCGCCTTTACGTTTCAAACCTGCTCCCCCTCCTTAACTAGTCCTGA
CCTCATCCCCATCTCCCTCACCCCCGACTTCCTCTGCCATCTGACTCACCATCTCTTCAGACCTTCCCACCAGTCCTTGGACCCTGGGGCTCACACCATC
CCCAAGGTGTCACTTTCTCCTTCTCACCCTCTCCCCGAGGTCACATGCTCCATCCCCTGGGGTCATTGATGGGCAGCCTTGCCGCTCACCTCCCTGTACC
TCCAACAACC


SNP Information

Context             (SEQ ID NO:33371):
CCCCTGTGTGACTCCCACCAGGTGTGCCACTGGTGAGGCATGGCAGGAGATAATGCTTGCCAGCCTTCCCGGAAATCGGTGTGATCCTGAGTCTGACTTC
R
GCCCTGGTGAAGAGTTTACCTGTGGTAGCAATTTTGCCATCGCCTATTTCATCAGCTTCTTCATGCTCTGTGCCTTCCTGGTGAGAACCATTTCCTCACA
Celera SNP ID:            hCV25594574
SNP Position Genomic:     27971
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,30)   total(A,1|G,63)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33372):
TGCCCGTGGGTGCCCACCCACCCTCTCTGAGCCCCAGACTGCTTGAGCTATGGGAATAATATGGCAGCATGGGGCTCCATACAGCCCGAGATGTTTCCTG
S
CTATGATGTGAGGAGTCTGTTAGAGTATTCTAGCCTCAGCCATTTTCTTTCTGACTGTAAGACGCCTCCCCTTCTCAGGTCTCAGTGCCTCATCTGTAAG
Celera SNP ID:            hCV25594575
SNP Position Genomic:     27606
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,10)   caucasian(G,22)   total(C,8|G,32)
SNP Type:                 INTRON


Context             (SEQ ID NO:33373):
TTCACATTTGAGAGACACCACAGTCCTTGGCACTTTGGAGATGGACTGCATCTCCCAGTAGGCCCAGGCCAGGGAAAGCAGTGCATTCTGGGGCTTATAG
Y
TCTTTGCCTGAGCCTGTGCATCTATTCTCTGCCCCCCTCCCCCATCCCTATAGGCCTTGCCCTATGTGGCTCTTCTCATCGCAATGATATTCTTCATCTA
Celera SNP ID:            hCV25594576
SNP Position Genomic:     27011
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(T,38)   total(C,3|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:33374):
GCGCCCATGTAGCTGGGTAGAGGCAGAAGGGTCCAAATTTGAACCCTAATCTTTCTGATGGCCAAGCCTTTTGAGAAGTCACCTAGGATCCCCCTCAGCC
R
TGACTCAGTGGCTCCCCGCTCTTTCTCACACCCCAGATTCTGGGTTACTTCGATTATGCCTTCACCTCCATTTTCACTGTGGAGATTCTACTAAAGGTGA
Celera SNP ID:            hCV25594593
SNP Position Genomic:     20396
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33375):
ATCATGTCTTCACCAATCTTATCCTGGTGTTCATCATCCTCAGCAGTGTGTCCCTGGCCGCTGAGGACCCCATCCGAGCCCACTCCTTCCGCAACCATGT
R
AGCCTTTGGCTGGGAGCTAGGAGCTGAGGGGACACTCCCAGGGGTGTCCTAGTGGGCACAAGCTGGGTCAGGGTGGAGATAAGGAGAAGAGCCCTAGGTG
Celera SNP ID:            hCV25594594
SNP Position Genomic:     20056
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,4|G,36)   total(A,4|G,72)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:33376):
GATCATGCCACTGCACTCCAGCCTGGGCAGAGTCTTTTTCAAGACTCCGTCTCAAAAAAAAAGAGAGAATAGAAAAGAAGAGAAGAAAAAGAAAATCTAG
Y
TCAGTGCCTGGCATATAGTTACTGCTAATAAACGTTGGCTATTATTCGTTTTACTTTTTCCTGGTGGGCGATGATGAGGATGATAATGGTGATGATGAAA
Celera SNP ID:            hCV15959426
SNP Position Genomic:     22448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33377):
AAATAAACTCAAGCCTGACTTATACCCATTCAATTTCACTCCAGTTGTATACTGAGGGAAAGAAGTAGGCACAGCGGTGAGTCCTAGACCCTCATACCCT
R
CTCATCCATCCCTGCCCCTCTGATGTTTATTCTGGCTCAGGGTTCCTGGGCAACACCACCTCAGCGGGGTCGGCTCCTGTATGCCCCGCTGTTGTTGGTG
Celera SNP ID:            hCV25594595
SNP Position Genomic:     33519
SNP Source:               Applera
Population(Allele,Count): african american(A,28)   caucasian(A,33|G,1)   total(A,61|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33378):
AGAGGGGCAGTGCCGACAGCTTGGTGGAGGCTGTGAGTCCAGAGGGCATATAGACAAGACGGATGGGGGAGAAGGGGAGGAGGTGGGTACTGGAGGAGGA
Y
GGAAAGGAGTCCCCAGGTCCTGTGTTGTGCATGTAGATATCCCTTTGCCCTACGACCTCTGCTCACCCCTGTCCCCCACTGACTTCCCTACATGCCCTCA
Celera SNP ID:            hCV25594596
SNP Position Genomic:     33826
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,5)   caucasian(C,34)   total(C,59|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:33379):
TGAGGGGGCTGGGATATCCCCTCACCTGCCCCCACCTCTACCCCCCCTCTGGCTCCCACAGACTGCTATACAAGGCCATCGATGCATATGCAGAGGACCA
Y
GGCCCCATCTATAATTACCGTGTGGAGATCTCAGTGTTCTTCATTGTCTACATCATCATCATTGCGTTCTTCATGATGAACATCTTCGTGGGCTTCGTCA
Celera SNP ID:            hCV25474379
SNP Position Genomic:     23869
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,11|T,27)   total(C,43|T,31)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:33380):
AAGCTAGTAATCAAGAACTAAACTTTCCAGTATCCATAATGGGAGGCAGACAGTGCAAGAGGTTTGACCAATACACAGTGCAATCAAGTCCCCAGACTCG
Y
CTCAGCCCAGGCCAGGGAATATTTGGTTGGGTGTGGCGGCATCTCTGCCTCAGGCTCCATCTCAACCTGATTTTCTCCTGCAGCACTATGAGCAGACTGC
Celera SNP ID:            hCV11875794
SNP Position Genomic:     25020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:33381):
TCTCCCCAGATGCAAGATGCCATGGGGTATGAACTGCCCTGGGTGTACTTTGTGAGCCTTGTCATCTTTGGGTCCTTCTTCGTCCTCAACCTTGTGCTTG
R
CGTCCTGAGTGGGTGAGGGACCTAGACACTCCCTGCTTCCCACCCCTCAGCCACTGCCCACTTCTTTGTGCCTGGCAAACTCCTAGACATCCTTCAAAAC
Celera SNP ID:            hCV27861330
SNP Position Genomic:     11323
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:33382):
TAGACACCACCCCAGAGCCCAGTCCAGCCAATGGGGCAGGCCCTGGTCCCGAATGGGGGCTGTGCCCCGGGCCCCCAGCTGTGGAAGGTGAAAGCAGTGG
R
GCATCAGGCCTAGGGACCCCTAAGCGAAGAAACCAGCACAGCAAGCACAAGACAGTGGCAGTGGCCAGTGCCCAGCGGTCACCTCGGGCACTCTTCTGCC
Celera SNP ID:            hCV25594610
SNP Position Genomic:     7541
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,36)   total(A,1|G,65)
SNP Type:                 INTRON;SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:33383):
TCTCAACCTGATTTTCTCCTGCAGCACTATGAGCAGACTGCTCCCTTCAACTATGCCATGGACATCCTCAACATGGTCTTCACTGGCCTCTTCACTATTG
W
GATGGTGCTCAAAATCATCGCCTTCAAGCCCAAGGTGGCCCCCCTTCTCTAGCCCCACCCACCAGTGGATGAATTCCTTGGGAGTGGAGCTCATTGCAGA
Celera SNP ID:            hCV16075640
SNP Position Genomic:     25180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33384):
AGCCCACCTCTCCTGTCCCCATCCCCACCTCCCCCAACCCCCACCATCCCCAGGTCTGAGTCTAGCCTCTTGTCCTGTCCCCAGATGACAGTGTTTGGGG
M
CTTCCTGCACCGCGGCTCCTTCTGCCGTAGCTGGTTTAATATGTTGGATCTGCTGGTGGTCAGTGTGTCCCTCATCTCCTTTGGCATCCAGTAAGTGACA
Celera SNP ID:            hCV27861331
SNP Position Genomic:     20655
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33385):
GGACAGAGATCTGGGGAAGCACTGACATTGCTATTTGCCCCTGGTGCCCCACCCACCCCCAGGTCGGAAGCCCTCCTTCACCATCCAGTGTCTGCAGCGC
M
AGGGCAGTTGTGAGGATTTACCCATCCCAGGCACCTATCATCGTGGGCGAAATTCAGGGCCCAATAGGGCTCAGGTGAGGCTGTGGAGGTGGTGCTGGGG
Celera SNP ID:            hCV15868769
SNP Position Genomic:     32787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33386):
GCCCCTCTGATGTTTATTCTGGCTCAGGGTTCCTGGGCAACACCACCTCAGCGGGGTCGGCTCCTGTATGCCCCGCTGTTGTTGGTGGAAGAGGGCGCAG
S
GGGGGAGGGGTACCTCGGCAGATCCAGTGGCCCACTGCGCACCTTCACCTGTCTGCACGTGCCTGGAACCCACTCGGACCCCAGCCATGGGAAGAGGGGC
Celera SNP ID:            hCV16075641
SNP Position Genomic:     33633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:33387):
CCATGATGGCCCTGTTCACTGTCTCCACCTTTGAAGGCTGGCCTGCGTGAGGGACAGGGCCCTGGGTTTATCAGGGGATGAGGCAGGGGTCTCTGCAGGA
Y
TGGGTTGGGATCTCCTGGGAATGGGTGGGAGTGTACCTTGGGGATGTGACGAAGGTCTCTCGAGACTGGATAGGGTTTTCTGGAGAGTGGTGGGTGTATC
Celera SNP ID:            hCV25474668
SNP Position Genomic:     23046
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,14)   caucasian(T,8)   total(C,6|T,22)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33388):
GCCTTGATGTGTCCACAGATGTTCGGCAAGGTGGCTCTTCAGGATGGCACACAGATAAACCGAAACAACAACTTCCAGACCTTTCCACAGGCTGTGCTGC
W
TCTGTTCAGGTGACATCTACTCACTCCCCTGCCACCTTATGCCCGTGGGTGCCCACCCACCCTCTCTGAGCCCCAGACTGCTTGAGCTATGGGAATAATA
Celera SNP ID:            hCV27861332
SNP Position Genomic:     27466
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33389):
GGGGTGGGGGTGGGTAGGCAGAGGTGAAAGCCAAAGATTGGACCTCGGGGTCTTCAGGTCCTGACCACTATCCCCACCTTGCCTACAGCCAGCCTCCCAG
Y
CAGTGACACCGGTTCCATGACAGAGACCCAAGGCGATGAGGATGAGGAGGAGGGGGCTCTGGCCAGCTGTACACGCTGCCTGTGAGGGCCCCCAGCCCCT
Celera SNP ID:            hCV15963472
SNP Position Genomic:     12881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:33390):
TGGGGCATCAGGCCTAGGGACCCCTAAGCGAAGAAACCAGCACAGCAAGCACAAGACAGTGGCAGTGGCCAGTGCCCAGCGGTCACCTCGGGCACTCTTC
Y
GCCTCACCCTGGCCAATCCTCTGCGACGGTCCTGCATCAGCATCGTGGAGTGGAAGCATCCTGGAAGGCAGGGGCAGGGCCCAGGGGTAAGGGTCATCAG
Celera SNP ID:            hCV27859618
SNP Position Genomic:     7638
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:33391):
TCAGCTCTATACTGGGAATGGGTGAGTGTTTCATCAGAATGGCTCTTTACCAGGCACAGTGGTGCACGCCTGTAGTCCCAACTACTCAGGAGGCCAAGGC
R
GGAAGATTGCTTGAGGCCAGGAGCTTAAGACCAGCCTGGGCAACATCTCTACAAAAGCGAGACCCCATCTCTACGAAAAATTTAAAAATTCTCGGGCAGG
Celera SNP ID:            hCV29331337
SNP Position Genomic:     552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33392):
CCCCGAGGTCGGAGGTGGAGGGTGGGGGTGGGGCTGAGCTGACCCCGCCCTTATTTCTGCCTCCCCCTCCCTCCCCGCAGGCCTGCACATAGTGCTCAAT
Y
CCATCATGAAGGCTCTGGTGCCGCTGCTGCACATTGCACTGCTCGTGCTCTTCGTCATCATCATTTATGCCATCATTGGGCTCGAGCTGTTCCTTGGACG
Celera SNP ID:            hCV27859619
SNP Position Genomic:     9019
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:33393):
GCCTGTAGTCCCAACTACTCAGGAGGCCAAGGCGGGAAGATTGCTTGAGGCCAGGAGCTTAAGACCAGCCTGGGCAACATCTCTACAAAAGCGAGACCCC
R
TCTCTACGAAAAATTTAAAAATTCTCGGGCAGGGTGGCATGTGCCTATAGTCCTAGCTACTAGTGAGGCAGAGGCAGGAGAATCTCTTGAGGCCAGGAGT
Celera SNP ID:            hCV29331338
SNP Position Genomic:     619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33394):
CTGGGTGACAGAGCAAGACCCTGTCTCTAAAAATAATAATAATTGATAATATTTGATCTTTTTTCCATAGAGATATTGCACATATATTAGGTTTTTCCTA
Y
ATACTTCGAATTCCATATACTACTGGAAAATGACATCGTTTTTCTTATTTTAGTTTGACTGTTTGCTGCAGGTATATATTTGGTAAATATTTCATCTGTT
Celera SNP ID:            hCV29331339
SNP Position Genomic:     5808
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:33395):
GGCTGAGGCGGGAGGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACAAAGTGAGACCTCGTCTCTACAAAAATATTTAAAAATTAGCTGGGC
R
TGGTGTCTCACGCCTGTGGTCCCAGCTACATAGGAGGCTGAGGCAGGAGGATCGCTTGAGCCCAGGAGGTCGAGGCTGCAGTGAGCCATATTCATGCCAC
Celera SNP ID:            hCV2610439
SNP Position Genomic:     36152
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:33396):
TCATTCTAGCTCTATCTCTTCTGAGTCCCTGTTGGGTTCAGCAAAAGTCCCCCTCTACTGGCTTTCTCATTCCATTTTGTAACCTATCTACTGGCTCCAC
Y
ATCTCCTGAAATGCCTCTCCTGTTATTTCTGTTATCTCTTTCATTGCCTCTACATCCCCCATCCATTGGCTCCGTCATGTTCACTGGCTCCTGCTTTGGC
Celera SNP ID:            hCV25594583
SNP Position Genomic:     25783
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:33397):
AGATCATAAATCTCTTTGTGGCTGTGATCATGGACAACTTTGATTATCTCACCAGAGATTGGTCCATCCTGGGCCCCCATCACCTTGATGAATTCAAGAG
R
ATCTGGTCTGAATATGACCCTGGGGCCAAGTATGCCCTCTATACCCTTACCTAGAATCCAGGGGACAATGTATTGCCCTACACAGTCCCCTAGCCCCCAA
Celera SNP ID:            hCV25594567
SNP Position Genomic:     28379
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33398):
ACGGTCTGGGCCCCTCTGCCTATGTGTCTTCCTTCTTCAACCGCTTTGACTGCTTTGTGGTCTGTGGGGGCATCCTAGAGACCACCTTGGTGGAGGTGGG
Y
GCCATGCAGCCCTTGGGCATCTCAGTGCTCCGATGTGTGCGCCTCCTCAGGATCTTTAAGGTCACCAGGTTTGTATTAGGGGAGGGGGAAGACAAGGGCC
Celera SNP ID:            hCV15951602
SNP Position Genomic:     14542
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,16)   caucasian(C,27|T,7)   total(C,49|T,23)
SNP Type:                 SILENT MUTATION;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;UTR 5


Context             (SEQ ID NO:33399):
CTACTGGCCCCCTACCCTGGCTTGCGAGCTTTGAGAAGACAGGGCACTGCTTTTCTCCTACTTGCAGCATTACTTCACTGATGCCTGGAACACGTTTGAC
R
CTCTTATTGTGGTGGGCAGCATAGTGGATATTGCCGTCACTGAAGTCAATGTGAGAACTGGCCTTTCCACTAATCCACTCTCGCCCTATACACCTTCCCT
Celera SNP ID:            hCV25594584
SNP Position Genomic:     25504
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(G,40)   total(A,4|G,72)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33400):
AATTACCGTGTGGAGATCTCAGTGTTCTTCATTGTCTACATCATCATCATTGCGTTCTTCATGATGAACATCTTCGTGGGCTTCGTCATCATCACTTTCC
R
TGCCCAGGGCGAGCAGGAGTACCAAAACTGTGAGCTGGACAAGAACCAGGTGACCTCTGACCCCTGACCCCCTATGGATGGTCACCAACCCTTCCCTCCT
Celera SNP ID:            hCV25594585
SNP Position Genomic:     23982
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33401):
CCCATCCCCACCCTAACCCAAAACCCACCACTCAAATTTAACCTTAAATTCGCCCACCCCATGGCAATTTAAACTCTACCCCCAACTTAAACACCAAACC
S
TACTTCACTTGGAAATGTAATCTCACCTTCACTCCCCTATAAACTCTCACTCTAATCTTAATTCGAACACTCTTACTTCCCAGTCCTTAACCCAGCTACT
Celera SNP ID:            hCV2478063
SNP Position Genomic:     7219
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33402):
CCCCCACCTGAGCCCCCCAGGGCAGGCTTAGGTAGGTGATCTCAGCCTGTGGGCTCCCCTTCCCCCAGCCGCCGCCTCCGCCGAGCCAACCGGGTCCTTC
R
GGCACGCTGCCGTCGGGCAGTGAAGTCCAATGCCTGCTACTGGGCTGTGCTGTTGCTCGTCTTCCTCAACACGTTGACCATCGCCTCTGAGCACCACGGG
Celera SNP ID:            hCV2227631
SNP Position Genomic:     13334
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,36)   total(A,2|G,74)   
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,36)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:33403):
TTAAATTCGCCCACCCCATGGCAATTTAAACTCTACCCCCAACTTAAACACCAAACCCTACTTCACTTGGAAATGTAATCTCACCTTCACTCCCCTATAA
R
CTCTCACTCTAATCTTAATTCGAACACTCTTACTTCCCAGTCCTTAACCCAGCTACTCCCAGTTCTCCCTAATTTTCCATGCTCTTCTCTCCTTCCTTCA
Celera SNP ID:            hCV2478064
SNP Position Genomic:     7262
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33404):
GCCATGGGGTATGAACTGCCCTGGGTGTACTTTGTGAGCCTTGTCATCTTTGGGTCCTTCTTCGTCCTCAACCTTGTGCTTGGCGTCCTGAGTGGGTGAG
R
GACCTAGACACTCCCTGCTTCCCACCCCTCAGCCACTGCCCACTTCTTTGTGCCTGGCAAACTCCTAGACATCCTTCAAAACCCATCTGAAATACTCCTT
Celera SNP ID:            hCV2478065
SNP Position Genomic:     11341
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,9|G,29)   total(A,16|G,60)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33405):
ATCTCCCTCCAGAATGGTGGCCACCTTGGCGAGGTAGCCCACCCTAATAACAGGGACTCTCTGCTTCTTTTCCCATGTCCCTCTGTCCCTCCATCCCTCC
R
GATTACCCTAGGGCCTGAGTGATTTGGGTACTGGGAGGGCCAAAGCATGAGATAGGGAGATAGCTGGAGTAAATGCAAACTGAGCATCCCTACTGCACCC
Celera SNP ID:            hCV25474470
SNP Position Genomic:     26467
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,22)   caucasian(A,11|G,29)   total(A,25|G,51)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33406):
CCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCAGCCATATGTGCATGTCTTTAACCTTCATCCTCTGCCTATTCTTT
Y
CCCTATTATTACATTTCTTCCATGCCTCCCCTGTGTCCATTCCCTGTGTCTCCCTCACCATTGATGACTCCCGTCTTCCTGTCCTCAGGTGCCTGGTGTG
Celera SNP ID:            hCV2478066
SNP Position Genomic:     18761
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33407):
TTCCTCACCCCTCCTCACCCATCTAACCTGTTTGCACATCCACAGGGGCTCCTTCCTGGTATACCCAGATGGAGACGTGTCACGGCCCCTGGTCCGGGAG
Y
GGCTCTGGGTCAACAGTGATTTCAACTTTGACAATGTCCTTTCAGCCATGATGGCCCTGTTCACTGTCTCCACCTTTGAAGGCTGGCCTGCGTGAGGGAC
Celera SNP ID:            hCV2227634
SNP Position Genomic:     22900
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33408):
CACCCAAACCCACAGGACCCAGGCCCTGCCCTGCCCCTGGGGCCAGGATCACTGATCAAACTGACCATTTGCACGGATGCATGACCATACGGCCTGGACC
Y
GACACATAAATACACATCTCTGACCACTAGCCATGTGGCCTGACCCATGTTCCTTCCAAGTGACCATATGTTTCTACCAGTGGCCACATTTCTCAGACCC
Celera SNP ID:            hCV2478067
SNP Position Genomic:     21032
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33409):
GACACATATGAATGAATGCACACAATGCTCACTGTACTTGTGAGGAAACTGAGGTCCTGAGAGGTTTACCCCAGATCATGCAGCTAGTAAGTGGCAGAGC
Y
GACATTTAAACCCAGGCCTCCTGCACTCTTACATAAATAAACTCAAGCCTGACTTATACCCATTCAATTTCACTCCAGTTGTATACTGAGGGAAAGAAGT
Celera SNP ID:            hCV2478068
SNP Position Genomic:     33384
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33410):
GATAGCTGGAGTAAATGCAAACTGAGCATCCCTACTGCACCCCTCACCCCAGAGCTCTGAGGACAGCTCCCGCATTTCCATTACCTTCTTTCGCCTCTTC
Y
GAGTTATGCGGCTGGTCAAGCTTCTCAGTAAGGGTGAAGGGATCCGCACATTGCTCTGGACATTCATCAAGTCCTTCCAGGTAATCCCCTACCCCATCCC
Celera SNP ID:            hCV2227635
SNP Position Genomic:     26626
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33411):
AAGTGTTGCAGAGGAAAGGCAAGTGTTGCAGAGGAAAGGCAAGTGTTGCAAAGGAACTTGGTTACTTTGTAAAAGAGGAAGAAAGAGGATGTGTGCATTA
R
GAGGAGGGCCACTCACCATGCAGGCCTGAGCCAGGCTCATGGCCAGGCGGAACCGGGCAGACATGGCAAGAGGCAGCAGAGGGCTGAGGCCAGAGCCCAC
Celera SNP ID:            hCV16185781
SNP Position Genomic:     2087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:33412):
CACCTGTGCCCCCAGGTGCTTATCTCAGAGGGTCTGGGCCTCTTTGCTCGAGACCCACGTTTCGTGGCCCTGGCCAAGCAGGAGATTGCAGATGCGTGTC
R
CCTGACGCTGGATGAGATGGACAATGCTGCCAGTGACCTGCTGGCACAGGGAACCAGCTCTCTCTATAGCGACGAGGAGTCCATCCTCTCCCGCTTCGAT
Celera SNP ID:            hCV2478069
SNP Position Genomic:     34091
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,5|G,31)   total(A,5|G,61)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): (A,1|G,5)   total(G,5|A,1)Caucasian(A,23|G,287)   Chinese(A,7|G,51)   Japanese(A,4|G,16)   African(A,2|G,96)   total(G,450|A,36)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33413):
AGCCAATGGGGCAGGCCCTGGTCCCGAATGGGGGCTGTGCCCCGGGCCCCCAGCTGTGGAAGGTGAAAGCAGTGGGGCATCAGGCCTAGGGACCCCTAAG
Y
GAAGAAACCAGCACAGCAAGCACAAGACAGTGGCAGTGGCCAGTGCCCAGCGGTCACCTCGGGCACTCTTCTGCCTCACCCTGGCCAATCCTCTGCGACG
Celera SNP ID:            hCV27531019
SNP Position Genomic:     7566
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;NONSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:33414):
CTGCCCTTCACCTAACTGCTCCCTTGCTCACTGGCCCACAGATCATAAATCTCTTTGTGGCTGTGATCATGGACAACTTTGATTATCTCACCAGAGATTG
R
TCCATCCTGGGCCCCCATCACCTTGATGAATTCAAGAGGATCTGGTCTGAATATGACCCTGGGGCCAAGTATGCCCTCTATACCCTTACCTAGAATCCAG
Celera SNP ID:            hCV2227638
SNP Position Genomic:     28340
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33415):
CTTCTCTCCCTTGCCCCTAGAGGAGGAGGTCACCGTGGGCAAATTCTACGCCACATTTCTGATCCAGGACTATTTCCGCAAATTCCGGCGGAGGAAAGAA
W
AAGGGCTACTAGGCAACGACGCCGCCCCTAGCACCTCTTCCGCCCTTCAGGTCTTCGGGGCAGGGCCTAGTGTGGATGGGCACGTGTGGCAGTGCTGTGG
Celera SNP ID:            hCV2227639
SNP Position Genomic:     29694
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 NONSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33416):
GACCAGCCTGGCCAATGTAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGAGTGGTGGCAAGTGACTGTAGTCCCAGCTACTCGGGAG
K
CTGAGGCAGGAGAATCGCTTGAACCTGGAAGGTGGAGGTTGCAGTGAGACGAGATTGTGCCACTGCACTCCAGCTTGGGCAACACAGTGAGACTTCATCT
Celera SNP ID:            hCV27058748
SNP Position Genomic:     15520
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33417):
GGCTGCTTTGAGAACGGACTGTTGGGAGGGGCAGTGGGGAAGAGCGGAAGCAAGAAAGTTCTATGGGACCCAAGAAAGGTCTGTTCTGACTGTAGTGATC
Y
CCCTTAGCCCATCTGCAGCAATCACCCCTATTTCCTCGCACAGGGAGAAGAGCAATGAGAAGGATCTCCCACAGGAGAATGAAGGCCTGGTGAGTTAGAT
Celera SNP ID:            hCV16147802
SNP Position Genomic:     18250
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33418):
AGCCAGTCCAAACCCTGACTCAAGTCCTTTCTTTAGCCTCAAGCCTCGATCTCAGTCCTTGACCTCTGGCCCCAGTCACTGACACCCCTTCTGCCCTTTA
Y
GACACACACCTCCCATCCCCCTTCTTTTTCAGAAACAAGATCATGAAAACCAGAGTCTGGTGAGTTGGGAAAGTTGTGCAAATCCTTGACTCCATAACTT
Celera SNP ID:            hCV25594601
SNP Position Genomic:     13095
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33419):
CACCCCAGCGCCTACATCCGCAATGGCTGGAACCTACTCGACTTCATCATCGTCGTGGTCGGGTGCGCGTCTGCGGGAGGCACCCCACCCTAGTCGCCTT
Y
CTACCGTCAGGCCCGCTGAATTCTGGGCTCAGGAAAGCGACTCTTTCAGACCGCCCCCATTCGGCAGCCAGAATCAGGAATATTATTAAAACCCATTTCT
Celera SNP ID:            hCV25594602
SNP Position Genomic:     8560
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,10)   caucasian(C,36)   total(C,64|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:33420):
TTCAAACAGAGGGACAGGATCAGGTAGGAAGCAGCCACAATTGCCCCAATACCCTGTCCCTCCCTGACACAGTTTCTCCATATAGACACCACCCCAGAGC
Y
CAGTCCAGCCAATGGGGCAGGCCCTGGTCCCGAATGGGGGCTGTGCCCCGGGCCCCCAGCTGTGGAAGGTGAAAGCAGTGGGGCATCAGGCCTAGGGACC
Celera SNP ID:            hCV25594603
SNP Position Genomic:     7459
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,6)   caucasian(C,36)   total(C,60|T,6)
SNP Type:                 INTRON;MISSENSE MUTATION;UTR 5;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:33421):
CAGCTATAAAGACTCCAAATGACACCCCTACCCTAGACATGGCCCTAACCCTGCCCCCAGTATGTCCTCCCTAATTGTCCTTTCTCTCCCTGCAGGGCCA
Y
AGCTGGCCGAGCTGACCAATAGGAGGCGTGGACGTCTGCGCTGGTTCAGTCATTCTACTCGCTCCACACACTCCACCAGCAGCCATGGTGGGGGTCCAGC
Celera SNP ID:            hCV27859620
SNP Position Genomic:     12674
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:33422):
CCCACCCCATGGCAATTTAAACTCTACCCCCAACTTAAACACCAAACCCTACTTCACTTGGAAATGTAATCTCACCTTCACTCCCCTATAAACTCTCACT
S
TAATCTTAATTCGAACACTCTTACTTCCCAGTCCTTAACCCAGCTACTCCCAGTTCTCCCTAATTTTCCATGCTCTTCTCTCCTTCCTTCAAACAGAGGG
Celera SNP ID:            hCV29331340
SNP Position Genomic:     7271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33423):
GTGGAGTCGGGGTGGGTAAGGGGAACTGGGTGGTCTATAGGCAGGGTGCTTCTCCATCCTTTGCAGCCTAAGCTCATCCCAGACATCCTGTTGAACGTGT
K
TCTTGCCATTGCTGTGGACAACCTGGCCAGTGGAGATGCAGGCACTGCCAAGGACAAGGGCGGGTGAGATCTGGCTCCACCCCTAACACAGTCTCTCTCT
Celera SNP ID:            hCV27859621
SNP Position Genomic:     16789
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:33424):
AGAGTGGTATGGAGTGAAGGTCAGTGGAGGAAATGGAGGGCCAGATTGAGGGCATTCTGGGCCAGGGTGAGGACTGTAGTTTTTCCTGAATTAAGGAGAC
R
TGGGAGGGTTGTGGGCAGAGTTGGGATATCCCAGACAGGGTTTAACAGGCTCCCTCTGGCTGCTTTGAGAACGGACTGTTGGGAGGGGCAGTGGGGAAGA
Celera SNP ID:            hCV15942106
SNP Position Genomic:     18092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33425):
CATATGTTTCTACCAGTGGCCACATTTCTCAGACCCAGCTCCCTGACAGGTGGCCACAGATCCCCACCCGGCAAACACTTATTCCTGGTGGATGCCCACA
Y
GTCTCTAGCCCATAACACTGCCTCTTGAACACATGTTGCTAACCATACATCCCTGACCCATCACCACATGTCCCCAGCCCAAGTCCCTCAGCTGCATCTA
Celera SNP ID:            hCV25473222
SNP Position Genomic:     21197
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,10)   caucasian(C,40)   total(C,66|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:33426):
CTGCCCTGGGTGTACTTTGTGAGCCTTGTCATCTTTGGGTCCTTCTTCGTCCTCAACCTTGTGCTTGGCGTCCTGAGTGGGTGAGGGACCTAGACACTCC
Y
TGCTTCCCACCCCTCAGCCACTGCCCACTTCTTTGTGCCTGGCAAACTCCTAGACATCCTTCAAAACCCATCTGAAATACTCCTTCATTCAATCATGAGC
Celera SNP ID:            hCV29331341
SNP Position Genomic:     11356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33427):
GGCATGGGTGTTGTGTCAGGGCCAGAACTGTATCCCTTGGAATCCCTGAACAATTCTGTGGTCCTGAGTTCTGACCATGGCCCACTCCCTCTCCACAGGC
Y
GAGGAAGGGCTGCCACACCCTCATCCACCATCATGTCTTCACCAATCTTATCCTGGTGTTCATCATCCTCAGCAGTGTGTCCCTGGCCGCTGAGGACCCC
Celera SNP ID:            hCV27859622
SNP Position Genomic:     19926
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33428):
GTGCCCGCAGCATGTGGTGCAGTGTGTATTTGTGGCCATCCGGACCATCGGAAACATCATGATTGTCACCACACTTCTGCAATTTATGTTCGCCTGCATC
R
GGGTGCAGCTCTTCAAGGTGGGGCAAACACTGGAGGGAATGCCAGGCAGGGGTCTGGGCGGGAGTGTGATGAAGGGTGAACCTACTTGACAGACATCCTC
Celera SNP ID:            hCV27859623
SNP Position Genomic:     21459
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33429):
TGGTACCTCCCCAACTCCTCCAGGGGCCGCATCAAACACTTGGATGTGGTTGCCCTGCTGAGACGTATCCAGCCCCCTCTGGGATTTGGGAAGCTGTGCC
S
ACACCGAGTGGCCTGCAAGGTCTGTGCACCTGCCCACCCCCAGGCTCCTGAGAGAACTGTCTATCACATGGCAAGGGTGGGAAGGGATCTGCCTTGGGTG
Celera SNP ID:            hCV27859624
SNP Position Genomic:     28764
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33430):
CTCTGGGATTTTTCCTATAAGCAGTGGGGAGCCATGGGAGGGATTTGAGTAGGGTAGTGACATAGTTAACATTGCATTTTAAATAGATGTTCTGACGGCT
R
TGCTGAAAACAGAAGGGAGGGGGAAGAGACTGGAGATGCTAAAATTGGCAGGAATGATGGTCGCCTTAGCCAGAGGAGGTGGCAGAGGAGATGGTGAGAA
Celera SNP ID:            hCV2610440
SNP Position Genomic:     35606
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,28|G,12)   total(A,32|G,44)
SNP Type:                 hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:33431):
GTTTGATCGCATCCTCAGAGGTTTCTGCCCCTTGACATTCGTTCCTGCATACCCGGCATTTTCCCAGAGTGGGTTTCATGTCTCTCGTGTTTGCAGAGAC
Y
TGTGGCAATGAACATGCCCCTCAACTCAGATGGGACGGTGACATTCAACGCCACACTCTTTGCCCTGGTCCGGACATCCCTGAAGATCAAAACAGAAGGT
Celera SNP ID:            hCV27859625
SNP Position Genomic:     28974
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:33432):
CCACCCACCCCCAGGTCGGAAGCCCTCCTTCACCATCCAGTGTCTGCAGCGCCAGGGCAGTTGTGAGGATTTACCCATCCCAGGCACCTATCATCGTGGG
Y
GAAATTCAGGGCCCAATAGGGCTCAGGTGAGGCTGTGGAGGTGGTGCTGGGGTCTGGGGTCTGGAGAGATGGGGGCAGCCTAGGCTGAATTTCTCAAACA
Celera SNP ID:            hCV27859626
SNP Position Genomic:     32835
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:33433):
TCTCTGAGCAATCTGGTGGCATCCCTGCTCAATTCAATGAAATCCATCGCATCCTTGCTGCTTCTCCTCTTCCTCTTCATCATTATCTTCTCCCTGCTTG
R
CATGCAGCTGTTTGGGGGCAAGTTCAACTTTGACCAGACCCACACCAAGCGAAGCACCTTTGACACGTTCCCCCAGGCCCTCCTCACTGTCTTTCAGGTA
Celera SNP ID:            hCV27540436
SNP Position Genomic:     16348
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Gene Number:                 140
Celera Gene:                 hCG2040206 - 30000061205478
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W0QP(47234187..47247244)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12300):
TTACATGGCAAAGGGGAATTAAGGTTTCAGGTAGAATGAAGGTTGCTAATCGGATGACCTTAAAATAGGGTGATTATCATGGATCATTACACTGGCAGCC
ACTGGGGCCAATGTCATCACAAGGGTCCCTAACAGTGGAAGACAGAGGCACAGGAGGTCAGAGGGAGACACGACTGCCGACAAAAGGTCAGCGATGCCAT
GTGAGAGAGACTTAACCCCCGCGGCTGGCTTTGAAGAGGGCCCCATTCTAAGGGGCCACGAGCCCAAGAATATGGGCAGCCTCTGAGAGAAGGTGGAAGA
GGCAAATAAACTCACCCAGAGCCTCCAGAAGAATGCAGCCCTACTGGCACCTTGGCTTTAGCCCAGAGAGACTTTTGAGCTCTGGAACCGTAAGATAATA
AAAATGTGTGTTGTTTGAAGCCACTCTGCTGTTGGTAACTTATGTTAGCAATAGGAAACTGATATGATATGTGAAAAAGGGACTCCAACTGGTTACCAGG
TTTCTTTCTTTCTCTTTCTTCCTTTCTTTCTTGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAACTCCAC
CTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGCCACCCACCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAG
ACGGGGTTTCACCGTGTTAGTCAGGATGGTCTCGATCTCCTGACATTGTGATCCGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
CACGCCTGCCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTTCTTTCTTCCTTTCTTTCTTTTTTTCTTTCTTTCTCTCTTTCTTTCT
CTTTCTTTCTTTCCTTCTTTCTTCTTTCTTTCTTTTCTTTTTTTTTTAAGACAGGGTTTCGCTCTGTTGCCCAAGCTGGAGTGCAGTGGCTCAATCTTGG
CTCACTGCAGCTTCGACCTCCTGGACTCAAGCAATCCTCCTACCTTAGCCTCCCAAGTAGCTGGGACTACAGGCACCTGCCATCATGCCCAGCTGATTTT
TGTATTTTTTTGTAGAGACAGCATCTAGCCATGTTGCCCAGGCTGCTCTCAAACTCCTGGGCTCAAGTGATTCCCCTGCCTCAGCCTCCAAAAGTGTTGG
GATGATAGGCATGAGCCACTGTGCCCAGCCGACTACCAGATTTCTTATCTGCATTTGAAACTAGAAGTTTCTAGACCTGAGAAAAGGGGACTGCTAGCCT
AAAATCTCCTGGCTAAGATATCATTCACGTGGGAGGGCAAAATGAGGGCATTTCTACCAGAAGTGGTTCAGGTGTGTGTCTTTCTAAACTAATCCTCTCT
GATACCTCCTGAGCTGTTTTTTTTTTTAAAATAGCTTTATTGAGATATAATTTACAGGCCATAAAATTCCCCCACTTAAGGTGTGCCATTCAATGCTTTT
AGTACCTTCACAGAGTTGTGCAGCCATCACCACTATCTAATTTTAGAACATTTTCSCCACCCRCACCCCCTTGGCAGTGTATTCATTTGCTCGGGCTGCC
ATAACAAAATGCCGCAGACTGTGGTTAAACACCAGAAATCGATTTGCTCACAGTTCTGGAGGCTAGATGTCCAAGATCAAGGTGTCAGCAGGGTTGATCT
CTTTTTCTGAGACAGGATCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCGGTTCACTGCCACCTCTGCCTCCTGGGCTCAATCAG
TCCTCCCATCTAAGCCTCCCTGGTAGCTGGGACCATAGGCGTGTGCTACCACACTCAGCTAATGTTTGTATTTTTTGTGGAGATGCAGTTTTGCCATGTT
CCAGGCTGGTCTCGAACTCCTGAGCTCAAACGATCCACCCACTTCAGGTTCCCAAAGTGCTGCGATTACAGGCGTGAGCCACTGTGCCCAGACAGTTGGC
TTCTTCTGAAGCCTCTCTCCCCACCTTTCAGATGGCTGTCTCCTGGCACCCTTACGGGGTCCTTTCCTCTGTCTTGCTGTTTCTCTGTGTGTCTGAATCT
TCTCTTCTTGTAAGGACAACCATCAGATTTGGATTACGGCACCCTAATCGGCCTCATTTTAACTTAAGTATCTCTTTTTTAAAACTCCTCCTGAATCTCC
CTAGAAATATATTTTGAGGTACTATGGGGTACCTCAAAGGAGCTTCAACGTATGAATTTGGGGGAAGAAAATTCAGTCCATAAGAGGCAATTATTCCCCA
TTCCCCCGCTAGCTCCCAACCCAGACCCAAGCAACCGCAAATCACTTTCCATCTCAATGGATTTGATTTGCCTATTCTTGACATTTTATATAAATGGATG
AGACAATATATGGTCTTTTGTGACCGTCTTCTTTCACTTAACAATGTTTTCAAGGTTCATTAATATTGCAGCCTGTATCGGTACTTTCTTCCTTTTTACT
GCCAAATAATATTCCATCGTATGAATATACCAGTTTTGTTTATCCATTCATCTGTTGAGGGACATCTGATTTGTTTCCACTTTTTGACTACTATTAAAAA
TGCTTCTATGAATATTTGTGTACAAGCTTTTGTGTGGACTTGCTAGGTCATACTGTAACTTTATGTTGAAACTTTTTTTTTTTGAGACGGAGTCTCGCTC
TGTCGCCCAGGCTGGAGTGCAGTGGCGCAACCTCGGCTCACTGCAAGCTCCACTTCCCAGGTCCACGCCATTCTCCTGCTTCAGCCTCCCAAGTAGCTAG
GACTACAGGCACCCGCCACCACATCCAGATAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTC
GTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCACGCCCGGCCCCTATGTTGAACCTTTTGAAGAACTGCCAATCTGTT
TTTCTATGTGGCTGAACCACTTTACAATTTTACCAGAATGTATGAGGGGTTCCAATTTCTCTATAACCTCACTTGTTATTTTCTTTAAAAAAAAAAAAAT
TATAGCCATCCTAGTGGGTGTGAAGTTGTATCCCAATGTAGTTTTGATTTGTACTTTCCTAATATCTGATGATGTTCAGCTTCTTTTTAGGTACTTGTTG
GCCATTCATATTATATCTTCTAAGGAGAAATGTCTATTTAGACCCTTTGCTGACTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGTTCTGTCACC
CAGGCTGGAGTGCAGTGGTGCAATATCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCCACCTCAGCTTCCCGAGCAGCTGGGACTACA
AGCTCGCACCACCACGCCTGGTTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATGTTGGCCGGGCTGGTCTTGAACTCCTGACCTCAAGTGATC
CGCCGGCCTCGGCCTCCCAAAGTGCTGGGAGTACAGTTGTGAGCCACCGCGCCTGGCCTTTGCTGACTTTTTAATTGGGCTCTTTGTCTTTTATTTTTGA
GTTCTAAGAGTGCATTATATATTCCGGATACAAACCTCTTTGCTATACTTTGAATGTTTGTTTCCCCAAACTTCATGTTGAAATTTGACTCCTAGCGTTG
GAGGTGGGCTCGGTGGGAGGTATTTGGGTCGTGGGTTGGGAATCCCCATGAATACGTTAATGCCCTCCCTAGGGGAGGAGGACTGAGTTGGTTCCTGCTC
CATCAGTTCCAGAGAGAGCCCGTTGTCAAAAGGAGCCTGGCCCCTCCCCCTCTCTCTTGCTCCCTCTCTCGCCCTGTGATCTTTGCACCTGTGGGCTCCT
TTCACCTTCCACCATGAATGCAAGCAGCCTGAGGCTCTCACCAGGTCCCCAGTCTTCCAGCCAGCAGAGTCGTGAGCCACATTTATCCAGCCTCAGGTAT
TCCTTTATAGCAACAGTAAACAGACAAAACCAGATCTTATCAGATATATGATATTTGCAAATATTTTCTCTCATTCTGTGGGTTGTCTTTTCACTTTCTA
GATGGTATCATTTGCAGCAAAAGTGTTTAATACTAATGTGGTCCAATTTATTTATTTTTTCTTTGGTCACTTCTGCTTTTGGTGTCATATCTAAAAAGCC
TCCGCCAAACTCAAGGTTATGAAGATTGCATGTATGTTTTCTTCTAAGAGTTTTATAGTTTTAGCTCTTATATGAAGGTCTGTGATCCATTTTGAGATAA
AGTTTATGAATGATGTAAATAAGGTTTCAACTTTAGTCTTTTGCATGTGGGTATCTAGTTGTTTCAACACCATTTATTAAAGCCTGTTCTTTAACTTGGC
GCCCCTGTTGATAATCAATTGACTGTAAAGTTAAGGGTTTATTTCTCAACTCTCTATCCTATTTTTTTTTCTTTGAGATGGAGTCTTGCTCTGTGGCCCA
GGCTAGAGTGCAGTGGCGTGATCTTGACTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCCGCCCTCAGTCTCCCGAATAGCTGGGACTACAG
GCGCATGCCACCACACCCGGCTAATTTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATC
CACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACTCCCTGCCTGGACTGTCTATTTTATTCCATCAATGTATATACCTGTACTT
ATTCTTTTTCAAGACTCTTCTGGCTATTCTATGGTCCCTTGCATTTCCAGATGAATTTTAGGATCAGCTTTCTAATTTCTGCACAAAATAAAAGTGGAAG
CAGCTGGGATTTTGACAGGAATTGCATCGAATCTGTAGGTCAATTTGGGCTCTCTTGCCATTTTAATAATATTAGCTCTTTCAACCCATAAATGGATATC
TTTCCGTTTATAGGTTTTCTTTAATTTCTTTCGGAGTCGTTTCATAGTTTTCAGTGTACAAGTCTTACACTTTTTTTGTTAAATTCATTCATAAGTATTT
TATTGTTTTGATGTCATGTAAATAGAATTGTTTTCTTAACTTCATTTTCAGATTCTTCATAGCAAGTCTATCGAAATACAATTGATGTTTATATGTTTAT
CTTATATGCTTGGACCTTGCAGAACTTGTTTATTAGTTCTGATAGTTTTTGAGTGGGTTCCTTAGGAATTTCTATAGGTAAGATAATGTCATCTGAAAAT
AAAAATGGTTTTACCTGTTTTTGTCACTAAAGTTCTCTTGGAACACAGTGACATCCACTCACATATGGTCTATGGCTGTCTTCAAGTCAAAGGCCAAGGG
AAGTAGTTGTGTTCCCGGAAGCAAGTCAGGTCCAGCTGCCTCTTCTTGAGTCCCAATAATGAGAAGCAGACAAACTAGCGAAGAAGGGAATTGGCCAGGT
GCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCG
CGTCTCTACTAAAAATACAAAAAAAAAAAAAAAAAAAAAAAAAAAATTAGCCTAGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGG
CAGGAGAATGGCGTGAACTCTGGAGGCGGAGCTTGCAGCGAGCAGAGATTGCACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCCCAAAAA
AAAAAAAAAAAAGGGAATTTATTGCTGTAACCGGATACAGGCAGAAGGCCAGAGATAATTCCACCAGACCAACTCAAAGTGTTAGAATTGCTTATACAGG
TTGGAGTTATGTGCCTACGTGCAGCACAACATTCGCCTAAGTCTATTGGTAACTAATTTTGTTTCAACTAGAAGGTCAGAGGCAAAAAAAAGCTTGTGGG
AGACAGGCCCTTGGGGGTGGAGGTCTTTGATTTCATAAGAACCTGAGAAAGATTTTTCTAAGATATGTGTAACACACCAACTTACTGTGACCTGGGAAAG
GCTGCTGAGGATGTCTTCAACAAAGGATATGGCTTTGGCATGGGGAAGATAGACCTGAAAACCAAGTCCTGTAGTGCAGTGGAATTTTCTACTTCTGGTC
ATGCTTACACTGATACAGGGAAAGCATCAGGCAACCTAGAACCCGAAYGTAAGGTCTGTAACTATGGACTTACCTTCACTCAAAAACGGAACACAGACAA
TACTSTTGGGACAGAAATCTCTTTGGAGAATAAGTTGGCTAAAGGGTTGAAACTGAGTCTTGATACCATATTGGTACCAAACACAGGAAAGAAGAGTGGG
GAATTGAAGGYCTCCTATAAATGGGATTGTTTTAGTGTTGGCAGTAATGTTGATCTAGATTTTTCCGGACCAACCATCTATGGCTGGGCTGTGTTGGTCT
TTGAAGGGTGGCTTGCCGGCTATCAGATGAGTTTTGACACAGCCAAATCCAAATTGTCACAGAATAATTTYGCCCTGGGTTACGAGGCTRCAGACTTCCA
GCTGCACACACATGTGACYGATGGCACTGAATTTGGAGGTTCTATCTACCAGAARGTTAATGGGATTGAAATGTCAATAAACCTTGCTTGGACRGCTGGA
GTAACAACACCCATTTTGGCATTGCTACTAAGTACAAGCTGGATTGTAGAACTTCTCTCTCTGCTAAAGTAAATAATGCCAGCCTGATTGGACTGGGTTA
TACTCAGACCCTTCGACCCGGAGTCAAATTGACCCTTTATCAGCTTTAATCGATGGAAACAACTTCAGTGCAGGAGGTCACAAGGTTGGCTTGSCRTTTG
AACTGCAAGCTTAATGTGGTTTGAGGAAAGCATCAGATTTGTCCCTGGAAGTGAAGAGAAATGAACCCACCATGTTTTGGCCCTACAATCCTTCTGTGAA
ATTTCAAAAGTGTGAACTTTTTACTCTTCCAAAAAATTGTAATCCTCCCCACACTGAAGTCTAGGGGTTGTGAGTCCCTCCTGAGGGGAGGCGCTGGAAA
GCATGCCTGGAAGCTGTCCTGTTTGTGCCACGTTTCGGTTCAGTTCTGCAGTGTTATTAAATGTGTTCCTCGGCGACAGTGTGGTGTCATGTTAGAGGAG
ACGATCTGAACCTCCAGTTTGTACCTCGTGTCCTGCATGTTCACACCATTTTTTTCATGACTCTGTAATATATTGGTCTCTGTGCTATTGTGGAATCTTT
GATTTTGCATCAGAGTAAAATAAAATAAACCCATCACATTTGGAACATAAAAAAAAAAAAACAAGCTAAGTCTGATTAAGCTGTGTGGGCCCCAGTACCT
TCAAGGCCTGTCTCCTGTGGTACCAGAGTGATTATTTCTATCTTATCTCCTTTACAGCTTGGTCTGGAGTGCTGCCTTAGACTCTCTGATGAATCTATTC
AAACAGCTGCCTCTGTTACCTTGACTCGTCTCAGATTTTGTCGACCCGAGGCAGGTCCTGGCACTAGGAATGTTAGATTCTATTATTTTGACTTGCTCCA
GGTTAGGGAGAAGCCCATGCAAGGCTTCTACTGACCGTATGCTTTATTTGTAGCTTTGATGTCTGGGCACCGATTGCCCTAGGTTTAACTATTTGCTCAG
TGTTAAGGCAGCGCTGTGGAAATCTGTGTAACTGGGGTGCTGTGCAGGCCTGTCTGTCGACTGTCATACAGGCCCGTCTGTGTGATTGTCAGGGAGAATT
GGCCTGCCACAGTTGTGACAGACCACATGGCTTTGAAAAAGCCAAAACTATTTACCAGCTGGTCCTTTGCAGAAAGTGTACTGACCCTTGTTCTGCAGGA
GTGTCTTTTGTTTTTCACTGCCTCTAATTAATTTCTTAATTTTGAAATAATGTATTTTCTATTCTCAAGATTTTTTTGTTTGTTTTCCAATTGCTCTTAG
GCAAGATCTTCTTGACTCTCCTCATCACTTCTCTACGATTCCCTCCTTTAGACATGCCACATTCTGACTGCGCAGCCTGGCGGGAAGACCGTGCCTCCCT
GGGTGGGGAGGCTGCAGCCTTTAAACTTCCCAACACCCCGACCCCTGACACGTCTGCTCGCATTCGGATGCCCGGGCCTCCCGGCCTCCTTGCGAATGAA
GTGCCGGCGGCTCCCACAAAGGCCTGGCTGCCACAGTCCCCACGGTAATTGCGAGACAGCAGGCAGGAGAAGTGAGCGGGAAGTTTCTTCCCCAAAGCTG
ATGGTGAACGGGCCCCCAAGCTGGGACCCGATGACTAGCTGGGAGTGAGGAGAGATTTTGGCTTTCCTAGGTGTGAGCTGGATGGGGCTTCCCTTCCCAG
TGGCCTCAGGGCTCCTGGGAAGGGGCACGGGCTCCAGGGGGACCCTTAGGCCTCTCTAGGATGGCTGGCTGGTTGTCCCAGGCATGTACTTGGCTTAGTT
TTCTTCTTCAATTAAGTGGAGACATTAAGTTCCCATAAAGTGGGAACACTCAGACTTGGCTGCAGAACAGCAGGCCTGCTCCCGCCCAGCCCTGTGACAC
AGCCAGGTGGGAGCAGGTCCCTGGAGAAACTCCAGCCAGCCTGCCCACTGAGGGGGAGCCTCGGGAAGTTCACAAGGTTTGCAGCAGGGAGGAGCCTGGC
CCCTCCCCTTCCTGCGTGGAACCCGGGATTCCGACTGCCAGGCCGGGCGGGAAGCGCTCTAGCGGAGGGACTCTGGCCTTGCGAGAGGAAAACCAGAAAA
TTCTGTCATGGGGCTCTGGAACCCCCATGCTCACCCGCTCCCGCCCTGGGGAGTATACTTCTGCTGTCAATAAATCTCTGCTTTTATTGCTTCATTCTTT
CCTTGCTTTGTTTGTGTGTTTTGTCCAGTTCTTTGTTCAAGATGCGAAGAACCTGGACACCCTCCACCGGTAACACTAGGTCCTCCTTTCTCCTTGCAAA
CAGTGGCACTAAGAAGTTGCCCTCCACAAGACAGGTAGCAAAGATTTTCCCCCAGCCCCGTCTGGCCACGCTTCTTATTGATGGGTCCAGATCTCTAAGT
CACCCCAGCAGAAGGCTGGAGTGCTCCCCGGTATGACTATAGGGCCCTCATCCCAGAGTCACCCCTCCTGCCTTCAAAGCCAGTAAAACATGATCTTAGG
GAAATCACTTTTGAGTGGGGGAGCCCGAGAGAGGTGAAATTAAAATAAGCTCCAGGCCGGGCACGGTGGCGCACACCTGTAATCGCAGCACTGTGGGAGG
CCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAACCCCCATCTCTGCTAAAAATAAAAAAATTAAGCTGAGTGG
GCATGGTGGCGGGAGGCTGAGGCACCAGAATTGCTAGAACCAAAAAAAAAAAAGCTCCAGCTTTGACCCACAGGCCATCTTCAAGGTGTGGAAGCCAAAA
TGGACCAGAAGTAATTTCTATTTCCTGCCAGATAGAACACAAGCAGGAGCCGTAGTTGCCAAAAATGCCCGCGCACACAGGCTAGTGGTCTCTGACCCTC
CCAGGGCACTGCTTGGGTTGGAATGGCGGCGCTCACGCAGGATTCCTTCAATTCTGCACTGTCACAAGCCCACAGGGCTGGAGAGGCTGGCAGCACAAAG
AGGAATGAGACTCGCTTGCTGGTCTCATGAAGTTCACAGCCTAGTTGGGGAGCCTGCAAGTAAGAAGACAATCCCGATGCAGGAGGGCAGGCGTGTGACC
CCGAAACAGTGTAGAGAAGGAGCCTGCAGCCTGTGGTGGGGGAGGGTGGTGCTGAGCGGTCCAGGAGAGACCTGACACATAGCAGGATTGAAGATGATTT
GCCAGGCAGGCTGAGGCAGTGAGCAGGGCAGGAGAGGAGGCAGACACGTGCCGAGGAGCGCAAGGCACATTAAACGAATGGATGAATGAAGGAAAACTAG
CCATGCTGTGTTTAAGGAAAACAACTGCTGGTAATAACTGAGTTGGGCAATGAAATTAATGGTGTGAATGAAAAAGGGGTACAGGGTCACAGGTGGTCCC
CCAAACCCCTGAGACATCTGTGGTTGTCTAAGCGTGCTTTACTTTGGATTCTGGCATGCATTTGTAACTCACTTATGCTGGTTAATGTGAACCAGACATG
GTCTCATTGGTGAATCATCGAAAGCAACTGTGTTTCTTTCCATTATTTGTGGTGAGTTTCGTTTTGGCAAACACTAAGCAATGGAGAAGATGGTCCATGG
AGCTGGCTCCTCAGCAGTGACCCCAGGGCTGGAAAAACTTCAAGAACTGGGCAGGCAGTCCAAGGCCTTGGAGTCTGCAGAAATACATGCTCATTTGGCT
CTTATTCCAGTCACCTGTGTGACCTCCTGGGGCCTCAGTTTCATCACCCTCTGGACAAGTAGGTTGGATGAGATGCCCTTTGAAGACTTGCTAGCTCTGT
TATCTGTGACTCTGTGACTATCCTGAACCCAACAAACAGCCAAAATCATCTTTCCTGCCTCCCTTACAAATGGAAATTCCAGCCCAGGAGCGCTTGGAGG
CATGGGTCGTCAGCCTGGCTGAGTGTCCTGCACCCACACACATCAGATGTCATGAAATCACTGACTCTGGCAAGGAAACTTTCCAAATCCTAGGACTGGT
GACCTCCAGAAATAAGTCATTCGGGGGAGCCACATGTCCAAATGTTAATTTTCTTTTTATCAGAAGAATGGAAAACATGAATTCATGTACTTTTAAGGAA
TAAAGCCTTTGTTCAGAAAATGCAAAACGTGCCAAATAGACTGTGGTTTCAAATTATGTTTCGTTAAGGAAGAGGGGAGGGGAGGCGAGGGGGAGGGTAC
TGAAGAAGGGCAGAAAAGGCCTTTCTCGGGATCTACTTTGTGTGGACATCGGCATCTCATCTGAGCCTCAGCAGCACCTGCCAGATGGGCTTTAGGATTC
CCACCTGCCAGAGGAGGAATGGAGGTCAGAGAGGTGTGAGCTGGAGGATTAACACAAGGAGCCTCTGACTCCCCAAGCATCCCAGGGTCTGTCAGACAAA
GACCAATGCCCACTCAGGTGGAAGCAGGGCACAGGATAGGATGTGAGTGGTCCCAATCTGTCGTCTCTCAGCTCCTCCTGCAGCTCATGAAGCCCTCTGA
TGAACAAACATCAGCTGCAAGAAACAACCTCTCCAGGAGCAAGACGGTAACAACTTGTCAGACTTCAGGGCAGCAGGGAAAATACCTGATCTGGAGATCA
GAGTGGGCCACATGCTGAAAGAGCATCAATAAACCAGGCTGCAAACAAGCAGGCCTGTATCCCAAGGTCTCAGCACAGGACTTTGATAGGCAGTGACCAG
GGGTTAACCTTGCCTTTCCATAGCACAGCTGGAATGTCCCCAGGTGACCTGAGGCTTGTGCATTTTAGTAAATTTTAGGATGCAACAAGACTCTCCTGTA
GCAAAGAGACCACTCTTGAACTTGTGAAGAGAGGGACAAATGAGGTTATGAGAGGGTACCACCCTCAGGGGCTGCTACCAGGGCTGTAGGAGATCATGGT
ACCCTTTCAGGTTTGACAACTCTGGGCTTAAACAAATACAGGAAGGAAAGTGGAGGTGCTACAACCAATCGCTAGGGAACTCTAAATACCTGTACACGGT
GAGGGAGGTACAAGGAGACAGGGAGAGAGAGAAGCACATAGAGACCCAAACTGCAGCCCATGACACTGATGTTCAACCCCAGCAAACTAGAACGCATGGG
CACTGGGATTCCGAGTCAGAAAAACGCTGCTTGAGACTTGGCTCCACCATTTACTATATCTTGGACAAAACTGCTTAACACACACAGCCTCTCCTCAATC
CTGGACAGGAGGAAAATAGCGACCCTTCATTGCCCTCCTAACTGCCAGACGCTGACAAACGCCTTAAATGCTCTTGTTCAGACCGTTTTTCAAAAGGTAG
CTATTAACGTTCTGTGACACGGGGAAGGGAGGCAATAGTGCCCATACTGGTAATGCATGAGGAACTTTGTCTTCTTTTTTTTTTTTTTTTGAGACAGAGT
CTCACTCTGTCTCCCAGGCTGGAATGCAAGATCTCGGCTCGCTGCAACCCCTGCCTCCTGGGTTCAAGCGATTCTCCTTCTGCAGCCTCCCAAGTAGCTG
GGATTAAAAGTGCGTGCCACCACGCCGGGCTAACTTTTTGTATTTAGTAAAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTTCTGACCTCA
GGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGGCACTACGCCGGGCCGGAACTGTGTCTTCTTACACACGGGGAGTGAGACC
CTGGAGGATCTGGGGTTTCCAGCCACCAGTGAGATTCACTAACCTTTAGGAAAGATGGGGATTTAAAAACCAGAGACAACCTGGACGAACTACTTGACGC
TGTGTACGGTAAATGTGATTTTTCACAGGCTGTGGTTCTGGGGASCCGTGTGGGCTCTTGTTGAGCTGGGGGAGATACTTCGAATACTGATATCGCCCCA
AAGCTGCAACTCTCCGGCCCCGCCACGGCTCCTTATGTACAAAGAGAGGGAATCAGTCGCCGGTGACCTCGACGGCCCTCGGATCAGGGATGCCCCGAGT
CCGAGCGGGCAGGGTGCTCAGCAGGGCCAGGTGATGGGAATCATGGGGCCATCGAGCACGGACCCTGGCTCCCCCGGTGGCCTCTGTGAGCTCTGGGGTC
AGGCGGGGACTGGAGGAGCGTCCGCGCCGGGAGGGAGCGCACCGCGCCACGTGCCCGCCCGGCGCCCCGCCCCCACCCCGGCCACGCCCCTCGCGCTTCC
CTCAAAGCCCCGCCCCTCAGCCCCGCCACTCTCGTCCGCCCCGCCCCTCGCAGCCTCAAGCTCAGCGCTCCCGGAGGCGCGGACGGTGGGGCCCCGCGCC
TTTTGTGTCGGGCTTTGACCGCCGCGCGCGCTCATTCACCTCAGCGGCCGCGGGCGG


SNP Information

Context             (SEQ ID NO:33434):
AAAATTCCCCCACTTAAGGTGTGCCATTCAATGCTTTTAGTACCTTCACAGAGTTGTGCAGCCATCACCACTATCTAATTTTAGAACATTTTCCCCACCC
R
CACCCCCTTGGCAGTGTATTCATTTGCTCGGGCTGCCATAACAAAATGCCGCAGACTGTGGTTAAACACCAGAAATCGATTTGCTCACAGTTCTGGAGGC
Celera SNP ID:            hCV1292858
SNP Position Genomic:     1563
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:33435):
GATAGACCTGAAAACCAAGTCCTGTAGTGCAGTGGAATTTTCTACTTCTGGTCATGCTTACACTGATACAGGGAAAGCATCAGGCAACCTAGAACCCGAA
Y
GTAAGGTCTGTAACTATGGACTTACCTTCACTCAAAAACGGAACACAGACAATACTCTTGGGACAGAAATCTCTTTGGAGAATAAGTTGGCTAAAGGGTT
Celera SNP ID:            hCV25925607
SNP Position Genomic:     6248
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,23)   caucasian(C,7|T,27)   total(C,20|T,50)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,25)   caucasian(C,6|T,30)   total(C,19|T,55)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33436):
TTTAGGAAAGATGGGGATTTAAAAACCAGAGACAACCTGGACGAACTACTTGACGCTGTGTACGGTAAATGTGATTTTTCACAGGCTGTGGTTCTGGGGA
S
CCGTGTGGGCTCTTGTTGAGCTGGGGGAGATACTTCGAATACTGATATCGCCCCAAAGCTGCAACTCTCCGGCCCCGCCACGGCTCCTTATGTACAAAGA
Celera SNP ID:            hCV8900247
SNP Position Genomic:     12545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:33437):
AGGCCATAAAATTCCCCCACTTAAGGTGTGCCATTCAATGCTTTTAGTACCTTCACAGAGTTGTGCAGCCATCACCACTATCTAATTTTAGAACATTTTC
S
CCACCCACACCCCCTTGGCAGTGTATTCATTTGCTCGGGCTGCCATAACAAAATGCCGCAGACTGTGGTTAAACACCAGAAATCGATTTGCTCACAGTTC
Celera SNP ID:            hCV1292859
SNP Position Genomic:     1556
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:33438):
TTACACTGATACAGGGAAAGCATCAGGCAACCTAGAACCCGAATGTAAGGTCTGTAACTATGGACTTACCTTCACTCAAAAACGGAACACAGACAATACT
S
TTGGGACAGAAATCTCTTTGGAGAATAAGTTGGCTAAAGGGTTGAAACTGAGTCTTGATACCATATTGGTACCAAACACAGGAAAGAAGAGTGGGGAATT
Celera SNP ID:            hCV25925697
SNP Position Genomic:     6305
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,34)   total(C,69|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33439):
GGTTATACTCAGACCCTTCGACCCGGAGTCAAATTGACCCTTTATCAGCTTTAATCGATGGAAACAACTTCAGTGCAGGAGGTCACAAGGTTGGCTTGGC
R
TTTGAACTGCAAGCTTAATGTGGTTTGAGGAAAGCATCAGATTTGTCCCTGGAAGTGAAGAGAAATGAACCCACCATGTTTTGGCCCTACAATCCTTCTG
Celera SNP ID:            hCV1292852
SNP Position Genomic:     6896
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:33440):
ACAGAAATCTCTTTGGAGAATAAGTTGGCTAAAGGGTTGAAACTGAGTCTTGATACCATATTGGTACCAAACACAGGAAAGAAGAGTGGGGAATTGAAGG
Y
CTCCTATAAATGGGATTGTTTTAGTGTTGGCAGTAATGTTGATCTAGATTTTTCCGGACCAACCATCTATGGCTGGGCTGTGTTGGTCTTTGAAGGGTGG
Celera SNP ID:            hCV25929075
SNP Position Genomic:     6411
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,36)   total(C,62|T,2)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,40)   total(C,75|T,3)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33441):
TGGGTTATACTCAGACCCTTCGACCCGGAGTCAAATTGACCCTTTATCAGCTTTAATCGATGGAAACAACTTCAGTGCAGGAGGTCACAAGGTTGGCTTG
S
CGTTTGAACTGCAAGCTTAATGTGGTTTGAGGAAAGCATCAGATTTGTCCCTGGAAGTGAAGAGAAATGAACCCACCATGTTTTGGCCCTACAATCCTTC
Celera SNP ID:            hCV1292853
SNP Position Genomic:     6894
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:33442):
TGTGTTGGTCTTTGAAGGGTGGCTTGCCGGCTATCAGATGAGTTTTGACACAGCCAAATCCAAATTGTCACAGAATAATTTCGCCCTGGGTTACGAGGCT
R
CAGACTTCCAGCTGCACACACATGTGACCGATGGCACTGAATTTGGAGGTTCTATCTACCAGAAGGTTAATGGGATTGAAATGTCAATAAACCTTGCTTG
Celera SNP ID:            hCV1292854
SNP Position Genomic:     6590
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,40)   total(A,3|G,71)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33443):
ACTTCCAGCTGCACACACATGTGACCGATGGCACTGAATTTGGAGGTTCTATCTACCAGAAGGTTAATGGGATTGAAATGTCAATAAACCTTGCTTGGAC
R
GCTGGAGTAACAACACCCATTTTGGCATTGCTACTAAGTACAAGCTGGATTGTAGAACTTCTCTCTCTGCTAAAGTAAATAATGCCAGCCTGATTGGACT
Celera SNP ID:            hCV25926065
SNP Position Genomic:     6694
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(G,40)   total(A,3|G,69)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33444):
CAACCATCTATGGCTGGGCTGTGTTGGTCTTTGAAGGGTGGCTTGCCGGCTATCAGATGAGTTTTGACACAGCCAAATCCAAATTGTCACAGAATAATTT
Y
GCCCTGGGTTACGAGGCTGCAGACTTCCAGCTGCACACACATGTGACCGATGGCACTGAATTTGGAGGTTCTATCTACCAGAAGGTTAATGGGATTGAAA
Celera SNP ID:            hCV25925425
SNP Position Genomic:     6571
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,40)   total(C,73|T,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33445):
TGTCACAGAATAATTTCGCCCTGGGTTACGAGGCTGCAGACTTCCAGCTGCACACACATGTGACCGATGGCACTGAATTTGGAGGTTCTATCTACCAGAA
R
GTTAATGGGATTGAAATGTCAATAAACCTTGCTTGGACGGCTGGAGTAACAACACCCATTTTGGCATTGCTACTAAGTACAAGCTGGATTGTAGAACTTC
Celera SNP ID:            hCV25926020
SNP Position Genomic:     6655
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,16)   caucasian(G,38)   total(A,10|G,54)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33446):
GCTATCAGATGAGTTTTGACACAGCCAAATCCAAATTGTCACAGAATAATTTCGCCCTGGGTTACGAGGCTGCAGACTTCCAGCTGCACACACATGTGAC
Y
GATGGCACTGAATTTGGAGGTTCTATCTACCAGAAGGTTAATGGGATTGAAATGTCAATAAACCTTGCTTGGACGGCTGGAGTAACAACACCCATTTTGG
Celera SNP ID:            hCV25925524
SNP Position Genomic:     6619
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,11)   caucasian(C,40)   total(C,63|T,11)
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS


Gene Number:                 141
Celera Gene:                 hCG2040354 - 209000073575643
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(45550966..45563905)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12301):
GATTGATCCCAGGGATGAAAGAATGGTTCACCATACGCAAATTGGCACATGTAATACATCACATTAAAAGAACCAAGAAAAAAGACTGCGATCATATCAA
CAGATACTGAAAAAGCATTTGACAAAATTCAACATTTGTTTGTGATAAAAAACTGGGTTTAGAAGGAACATACCTCAAAATAATAAAGGCGATATATGAC
AAACCCACAGTTAACATCATATTGAATTGGGAAAATTTCAGAACCTTCCCTTTAAGGTTTGGAACTAAACAAGGATGCCCATTTTCACCACTTTTATTCA
AGCATAGTACTGGAAGTCCTAGCCAGAGCAATCAGGCAAGAGAAAGAAATAAAAGGCATCCAAATTGGGAAGGAGGAAGTTATATTAGTCTTGTTTGCAG
ACAACATGATCTGATAGTTAGAAAAACCTAAGAACTCCACCAAAAAAAAAAATGTTTAGAACTAATAAACGAATTCAGTAAAGTTGCAGGATACAAAATC
AACATGCAAAAGTCAGTACTATTTATATATGCCAACAGTGAACAATCTAAAAAAAAATTAAAAAGCAAACCCATGTATAATAGCTATGAAGAATATAAAA
TACCTAGGACTCAATTTATCTAAAGAAGTGAAAGATCTGTAAGATGAAAACTATGAAACACTAATGAAAAAAATTGAAGACGACACAGAAAATGGAAAGA
TACTTCATGCTTATTAGTTGGAAGGATTAATATTGTTAAAATGACAATACTTCCCAAAGGAATTTGCAGATTAAATGTAATCTCTATCAAAATACCAGTG
ATATTCTTCAAAGAAATAGAAAAAAAATCCTAAAATTTATATGGAATCACAAAAGACCCCTAATAACCAAAGCAATCCTGAACAAAAAGAACAAAGGTGG
AGGCCTCACACGACGTGACTTCAAGATATACTATAAAGCTACCGTAACCAAACCAGCATGTTACTAGCATAGAAACAGACACATAGACCAATGGAACAGG
ATAGAGAACCCAGATATAAATCCACACATTTACAGTGAACTCCTTTTCAACAAAGGTGCCAAAGACATATGATGAGGAAAGGATAGTCTCGTCAATAAAT
CGTGCTGGGAAAACTGGATATCCATATGCAGAAGAATGAAACTAGACCCCCATCTCTCACCACATACAAAAATTCAATCCAAATGGATTAAAGACTTAAA
TCTAAGACTCAAAACTATAAAACCACTAGAAGAAAACATTGCGGAAACACTCCAGGACATTGGTCTGGGCAAAGAATGATCTTGTGTAAGACCTGGAAAG
AACAGGCAACCAAAGCAAAAACAGAGAAATAAGATTACATCAAACTAAAAAGTTTCTACACAACAAAGGAAACAATCAACAGAGTGAAGAGACGACCCAC
AGAAAATGTTTACAAACTATCTATCTGACAAGGGATTAATAACCAGAATATATAAGGAGCTCAAACAACTCAGTGGCAAAAAAAAAGCAAAAAACCCAAA
TGATCTCATTTAAAAATGGGCAAAAGATCTGAATATATATTTCTCAAAAGAATACATACAAATGGCAAACAGGTTTGTAAAAAAATGCTCAACATCACTA
ATAATCACAGAAATGTGAATCAAAACCACAGTGAGATGCCATCTCATCCCATTTAAAATGGCTTTTATTTTAAAAAAGACAGGGAATAATAGTTTTTGGT
GAGAATGTAGAGAAAGCAGAACCCTCATTCATTGTTGATGAATATACATTATTTTTGGTGGAGTTCTTAGGTTTTTCAAACTATCAGATCATGTTGTCTG
CAAACAAGACTAATATAATTTCCTCCTTTCCAATTTGGATGCCTTTTATTTCTTTCTCTTGCCTGATTGCTCTGACTAGGACTTCCAGTACTACGATTGA
ACAAAAGTGGTGAAAGTGGGCATCAGTACAGCCACTATAGGCAACACAATGGCGGTTTCTCAAAAAAATAAACATAGAACTACCATAAAATCCAACCTTT
CCACTACTGTGTATATATCCAAAAGAAAGCAAATCAATACATTGAAGAAATATCTGCACTCCCATGTTTATTGCAGCCCTATTCACAATAGCCAAAATAT
GGAATCAATCTAAGTGTCCACCTCAATGGATGAATGGATTAAAAAAAGTGGTACTATATGCAGTGGAATATTATTCAGCCATAAAAAGAATGAAATCTTG
TTATTTGCAGCAACATGGATGGAACTGGAGGTCATTATGTTAAGTGAAATAAGCCAGGCACAAAGACAAATATCGCATGTTCTCACTCATATGTGGGAGC
TTAAAAAGTGGATCTCATGGAAATAGTAGATTGGTGGTTATGAGAGGCTGGGAAGGGTATAGGGGACTGCAGGATGAAGCGAGGTTGATTAATGGATACA
GATGTATAGTTTGATAGAAGAAATAAGACTGAGCATTAGAGATCAGTAAGGTGACTATAGTTTTCAGTAATCTATTGCATATTTCAAAATAGTCATAAGA
GAAATAATTTGAATGTTTCTGGTATAAAGAAAAGACAAATATTTCAGGTGATGAATAGCCCATTTACACTGATTTGATATTTACAAATTATAATTGCATT
CAATTATCATATGTACTCCAAAAACATATTCATCTATTATGCATAAATTTGAAAATAATAAACACTCATATAAGGAGACACACAGAAGAGATCTGACACA
CAGATCATGGGAGGTGACGTGACCTGAGATGCAGAGATCAAAGTGTTGGTGCCACAGACCCTGAAGCCAGGAGCCCCCAGAAGCTGGGAGAGGCCAGACA
GGGTTTCTCCCCTGGCAGCTGGGAGAGGCCAGAGAGGGTTTCTCCCTTTCCTCATCTGGCAGGGGAGGAAAAAGGAATGTCCTGGCTGGGTGTGGGATTG
TAGGAAGTGAGGGAGGGGGCGGGCTGATGCGGAAGGAGAACATTCCAGAGGGCACAGTGAGTCCCAAAGCCCCAAGCGGGGTGGCAGGAGCCAGCCTATC
TGAGGAGCACCTGGGGCCATGGAATTAGAGTGGCGAGAACAGGGGAGGTCGGAAAAATTGGACCAGAGAGGAAACAGAGGTCAGGTGGGACAAATTCTTC
CCTCAGAGGGTGCGGGCTGTGCAGGAACAAGGGTGGCCCATGGACAGCAGCTCCTCCAGTAGGGAGTGTGGGAGATAGATAGCCACTGAGGAGGGCGAAG
GGCCCAAACAGGGAGCCAGGAGCGGGCTCAACAGCCTCTGCTTGGGTGCCCTCAGCCAGGCAGGGGCCAGCCTGGCCCCAGAGGCACAGGCTCACCTAAT
TGGCAGTGTGGGCCTTTCCATCATCAGGGGGATAATTGGACCCTGGAGTCCCTATGCTCATCAGAAAAAGCCACAGTGGTTTCTCCCCAGTGCCTCAGGC
AGCCCACTTCTCAAGAGCATGTTCAAGGCTCGTCTGGTCACTGTGGCCAGACTGGGAGTTGCTGGACACAGGCAGAAGCCACTCTTCACTCCTGCAGGCA
GCTGCAGCCGTTTGCAGTGAGGCTTCCAGACGCCCCAGGTAGGATCCAGCACTTTCCATGTTGCCGATGGGCTCCTTTRGCTGTGATTTTAGGGTACGTT
GTATTCCTTGCATGGGGAGAGAGCTCTTCTTTTATGTGTGTGATTGACAATCCCCACTCCACATGCCCCCCACATACAGTCTGGAGCAGGGACTCCCCTC
TGCAGTCTCACGGCCAGCACCAAGCAGGATGGCTCATGGATGCTCCATAAATGGCCCTTGCATTTTTGAGTACTGTGCTGGGTACATATTCACAGGCATT
GGGTTATGCCCTGATGTCTAACATCATACCCAGAATCAGCCAGCAGCCTCAGGTGGCTGAATGGGGCAGACAGCATTTGCTCACTCATCATTGACGAGGA
CTGGTTCTGGGTGGCTCTGCCAGGCACCAGGGAAGGCATCAGAGTAAATGGCTGCAGGCTGATGGTAGGTGCAGCCGGGAGGAGCTACTGCAGTACCCGT
CTCACGGACCACCCCAAAATACATCTGTTCTGTGGTACGGAAAGCTTCACTTTCCTCTCTCAGATTGGAGACCTAGGTTTGAATTTGTGACTGGGCAAAA
ACAGTCTTTGTAACATATTGGAGAACCTTGTTTACGATGAGAGGATGCCAGCCTCCCTCGGCAGCGTCCGCTTGGACTTTCAGTCTGTCCACAGAAACCA
GGGAGGTACAGCCAAGTTAAAAAGGCAGCCATGCCCGCAGCGATGGGGTACCCTGGAACAGAAACGGGCATTCGAGGGAAAAAAAGATGAAAGCCAAAGT
CTGGAGTTTAGTCCACAGTAATACCAATATCAATCCCTTACTGTGACAAATATACCCTCTTCATGTAGGAAGTTAGCCTTGGAGGAAGCTGAATGGAAGA
TCTCCCAGAGCTCTCTGCACTCTCTTTGTAACTTTTCTGTAAATCTAAAATTATTCCAAAATAAAAAGTTTATTTAAAAGAAAATGCAGCCATTGTCTAA
CAAGTTCAGGGGATGGATAGAGTGTGCTGTAAAGGGCCCTGAATTTGTAAAGTAACACAGTTTCAATTTAATGAATCAATCCGGTATTAACTAGCCAACT
CACTAATGATCAGTTACCACTATCCAAATAATCAAGAGAAATCTATAGGTGCCTCTACTGTTCTGGGTTAAAAGCACAAGAACCAAAGCTCACTACCCCC
ACCGCCAGCTCTCCCCAGCAAACCCAGTCAACAGGTGGGGGCTGCTGGCCTTCCAAGGAGCTCCTGTGGACCCCAACTTTCCTCCTTGTGGACTTTAAAG
CCCCCTGTGGCCACTCAGCTGGGAAGAGGACACAGTCACCACCCTGGATGGTGTCTAGAGAGGCTACATTCAGACTCACATCTTGAGACCCCTTTAATGG
CAGGGGTTCTTATTGCTTTTGTTTTGGGGAGACAGTAGGCGGTGACTGGAGTGAGTAGTAAATGCTTGTGAAATTGATCCTAAACTCTGAACTGCACGCT
GGCATTTTAAGGCAGGGAATGGCCATGCCGCCCCAGTGGATGATCTTGGGTTCCCACAGAATGCTCACCCTAGACGGCAGGAGTACAGGTGCGTTTCCAA
GTGTAAACCTGTCCCTGGGCAATTCCCTTCTAGAAGTTTGTTTTTCAGCCTGCAACTCTTCCATGAACTCGACTTGTCTAGCCAACCCCCTACACGTCAC
CATGAGGCTCTCCAGTAAGTGCCGCGCACCACGCCTCCCCAGCACAGACTCCAGATTATTCGGCACCCACCTGGCCCTCTCCTAGTCTTCTCATCAATTT
TTAGCATCCTGGGCCAGAAACCTGGGGTCACCCTCCCCAGCTGTGAGCTGGTGGAAGTCTGCCATTCAACCCACCTAGACTGCCAATGAAAAGAACCACC
AGATGCCCTGTGGGGCAAGGGGCTGTGGCTACCCTCTCTCTCCCCCACCTGTGGACCAGGTCCCCGAGAGCCAGGCAGCCCTTTCCTGGGAGCCCTCCCT
GCATTCCTCCGGCTGGTTAGCCCAGTTTGGGGTTCTGCCCTGGTAGGCTGATAGCCCCTCACCTCATGCCGAGGCTGCTGCCCCGACTTGCAGGAACCCT
CAGATGAAGGACCCTAAGGAGGGCCAGCTCTGTGTCCATGCCCACTTGGATCTTGAGAGCTGCCCCAGGCACGTGTGGACTGGTAGTGCCCCTGGACTCA
GAGCTTTGGGTTTTGCCCACCCTGGAGCTGCCCGGCTCTGTTCCTCAGCATATACTCTCTTCCTCATTCCTACTTCATGGTTATATGTAAATGCAAGCAC
ACAGAAGTTTTCTACTTTAAAACTCAGAAGATCAGCAGATCACTGCTCTCTCCTGGTGCTCTGGGGAGCCACGTGGCCTCTCTTTGCACCAAAACTCCCC
ATCCAAGTCCAGCTCCACTCTCTCTCTGCCTCAGCTGCCCTGCAGCCCTTTCCTCTTGCTCTTTGATGTTTTGTAGGCCTGCAGCTCCCAAGCACAGAGG
CATGAGTGGGGAGAATGTCACCAAGGTCAGCACCTTCATCCTGGTGGGCCTCCCCACGGCCCCAGGGCTGCAGTACCTGCTCTTCCTCCTCTTCCTGCTC
ACCTACCTCTTTGTCCTGGTGGAGAACCTGGCCATCATCCTCATCGTCTGGAGCAGCACCTCCCTCCACAGGCCCATGTACTACTTTCTGAGCTCCATGT
CTTTCCTGGAGATCTGGTACGTGTCTGACATCACCCCCAAGATGCTGGAGGGCTTCCTCCTCCAGCAGAAACGCATCTCTTTCGTCGGGTGCATGACGCA
GCTCTACTTCTTCAGCTCCCTGGTGTGCACCGAGTGTGTGCTTCTGGCCTCCATGGCCTACGACYGCTACGTGGCCATCTGCCACCYGCTGCGCTACCAC
GTCCTTGTGACCCCGGGGCTGTGCCTCCAGCTGGTGGGCTTCTCCTTTGTGAGTGGCTTCACCATCTCCATGATCAAGGTSTGTTTTATCTCCAGCGTCA
CGTTCTGTGGCTCCAACGTCTTGAACCACTTCTTCYGTGACATTTCCCCCATCCTCAAGCTGGCCTGCACGGACTTCTCCACTGCAGAGCTGGTGGATTT
CATYCTGGCCTTCATCATCCTGGTGTTTCCGCTCCTGGCCACCATACTGYCATATTGGCACATCACCCYGGCTGTCCTGYGCATCCCCTCGGCCACCGGC
TGCTGGAGAGCCTTCTCTACCTGCGCCTCTCACCTCACCGTGGTCACCGTCTTCTATACAGCCTTGCTTTTCATGTATGTCCGGCCCCAAGCCATYGATT
CCCWGAGCTCCAACAAGCTCATCTCTGCCGTGTACRCTGTTGTCACGCCAATAATTAACCCTTTGATTTACTGCCTGAGGAACAAGGAATTTAAGGACGC
CTTGAAAAAGGCCTTGGGCTTGGGTCAARCTTCACACTAAGACAACTAAATGTCCTAGAGTAAAATCTGTAGTGATGAAACAACATTGTATGTGGCACTT
TGTGCTCTTTAAATTAATTTTTAAGTTAAATTTAACAAACCTACAGAACTAAGTGAAATTTAACAAACCTACACAACTGTGCACAAGTAACAAGCCTTCG
TCTGCATATGTTTTCACAAAAGGACTGTGCTCATGGAACCAGCTCCCAGATCAAGAACTAGAAGCTGCCTTCACGCCCTCTCCCAGTCATTAACCCTTCT
CCACAAAAAGCACTGTCCTGACTTCCAAAACCAGATGCTAGCATTGGTGTTTCTGAGGGGCTTACACATAAAGTATGTGCCCTGTTATGTTCAGCTTCTT
TCATTCACCGTGTTGCTTGAGTGAATCCTTGATGTTTTTGCATGTAACAATAATTCATGCATTCTCATTGCTATCCAATATTCATAATAAATAATACATT
TATACTGTATAATACACAATGCATAATACATTCATACTGGGATAATACATATACTGGGATAATGCATATACTGTATTGTGTATTATATATACATAATACA
TTATGCTGGGTGAAACCCTGTCCCACCTGTCCCAGCAGGTGTGAGCCACTGTGCTCATCCATAATTTATGCATCTAAACACAGATAAGGTAAGTCAAAAT
ATAATGTCATAATCTTATGGGACCACCATCTTATGTGCCGTTCAGTTCATCATTCACCAAATGTCATTGTGTGGTGCACTACTGCGTCAGTTGAGAATAT
TTGTGCTGGCTTATTTCTGGATCCTCTGTTCTGTTAAATTGATCTACGTATCTATCAATATCACACCCTCCATCCATACAACACAGTCTTGATTTATATG
ATTATGTAGTAAATCTTAACACTGGAAGAGTGACTCCTCCCACTTTATTCTTCTGCTTCAAAATTATTGTGGCTATTGTACAGCCTTTATATTTTTATAT
AAATTTTATAGTAAGCCTGTCAATGTCTACAAGAGAACCTCGCTGAGATTTTGCTAGAAATTCCATTAAACCTAAAAATCAATTTGGGAAGAACTGACTT
CATTACTCTGTTGAGTCTTTCAATCCATGAACATAGTAAACCCCTCCAATTATTGAGGTCTTCATTCTTTAAATCAGTGTTTTGTACTTTTTAATATGCA
GATTCTGTGTGTGTTTTGCTGGATTTAGACCTAAATATTATATTTTCTTTGAAGCAACTGTAAATGGTATTCCATCTTTTATTTCAGTTTCCTTCTGTTT
GTTGTTAGTACATAGGATGCAGCTGATTTTCATATGTTGACATTGCAGCCTGCAAACTTGCTGCGCTCACTCATTAGTTCCAGGAGGTTTTTGTAGATTC
CTTTGGGTTTTCTATGTGAACAGTCATGTCAACTAAAAATAGACAGTTTTATTTCTTCCTTTCTGATCTGTATGAATTTCATTTTTTATTTTTTGCCATA
CTGCATGGCCTATTACTAGAACTTCCAGTGCTCTGTTGAATAAGAGTGGGCAGAGCAGATATCCTTGCCTTGTTTCCTCCTTAGAAGGCAAGCATTCAGT
CTTTCATGATTAAGTACAATGATGCAGAGTTTTCACGCATGTGCTTTATCAAGCTGAAGCAGCTCCCCTTTAGTCCTTATTTGCTGAGAGCAGTTTTTGT
TTTTATCATAAATGAGTATTTAATTTTGTCAAGTGATGCAGAAAACTGCATCAGGCAATCTGGTCATAGATTTCGTCTTTCACCTGCTGGTAAGGTGTAT
TACATTGGTTGATTTTCAAATACCAGATTAGCCTTGCATCTTCTGAATAAACCACCTTGGGTTGTGGTGTATGATTCATTTCATATAGTGTTGGATTCAA
TTTGCTAACATTTCGTTAAGGATTTTTGTGTCTAAGTTCACGAGAGATATTGGTCTATTGGGGTCTGAAGTTATTTTCATGCTGTCTAATATAGTGTGGA
CGTCAAAGCGACCTCCTAGAGAACATTCCTAGCTCTCAGAACGTTCTAGCTGGGGAGGGAAAACGGAAAAAGGGGGGCGAGAAGCGGAGGGACGGGGAAG
TATATAGTAATACTTCCCTTGAACCAGTAAAACTGTAATGCCCAACCTGGTTTTTACTAACTGTTTTCAGACTCTCCCTTTTCCTTTAATCACCTAGCCC
TGTTTCCACCTGAATTGACTCTCCCTTAGCTAAGAGAGCCAGACAGACTCCATCTTGGCTCTTTCACTGGCAGCCCCTTTCTCAAGGACTTAACTTGTGC
AGGCTGACTCCCACCACATCCAAGAATGCAATTAACTGGTAAGATACTGTGGCAAGCTACATCCGCAGTTCCCAGGAATTTGTCCGATTGATAACGCCCA
AAGCCCCGGGTCTATCATCTTGTAATAGTCTTAAAGCCCCTGCACCTTGAACTGTTTACTTTCCTGTAACCATTTACCCTTTTAACTTTTTGACTACTTT
ACTTCTGTAAAATTGTTTTAACTAGACCCCCCCCCCTTCCTAAACCAAGGTATAAAAGTTAATCAAGCCCCTTCCTCGGGGCTGAGAGAATTTTGAGCGT
TAGCCGTCTCTCGGTCGCCAGCTAATAAAGGACTCTTAATTCGTCTCAAAGGTGGTGTTTTTCTAACTCGCTCAGGTACAACAAAACATCCACGCAAACA
GGTTGTGAGAAGTTACGTCTGCGTGCTGTGATACCTAGAGGAACCACTACGAAAACTATACATAATGATATTTCCCAAGACATTATCAGTAAATCAAGAT
GGAATTCTAAAAAAATGTACTGTATCCATTGGAAGGCACAAAAAAAAAAAAAAAAATGCAAAGGAAACAAGGCAAAAAACAGCAGACATGAACCCTAAAG
CTTGTTAAATGGATTTCAGGTGCCCTCCAGGATCTAAAAACCAGACCCTCCTGCGTTGGGGACCGGGAATCCGTATTTTTGACAAAAAGCAATTCTTCAA
TTATAGAAACATCCATAGAACCGGCCGTAGTTTACACAGCTGCATTCCCACTGTTTTACAATCGCATGATCATTTCTGAAAAGTTGAAAACAAAGTTAAA
GAATATTTAAGGGGTTAAGAACAAAAAGCCTGGGGAACACAAAAGATTATAAAAACCCTTCCCAACAGCAGGCATACTTGGAAGGAAACCTCACATGCAA
GGCTCCTTCGTGGAGCCCAGAGCCCAGGTCCTGACGGGAGCACATTTTAAGAGATGGACTTGCCGGCGCGGTGGCTCACGCCTGTAATCCTAGCACTTTG
GGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGG
TGTGGCGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCAGGGAGGCGGAGCTTGCAGTGAGCGCGATGGCGCCA
CCGCACTCCAGCCTGGGCGACAGAGCGGGACTCTGCCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGATGGACTTGGAGCGTGT
GCTTTTGTTTTCTATGCTATTCAATGTGTTCACAGCAGGTCCCCTGGATGAGACCACTTAGCCTTCAGCTCCGGAGGCGACCCAGGCCGGCCTTGCCAGG
TCCCTCTCCCTGACAGGCGCCCCGCGACAGGGGTCCCACCCCGTCCCTCCGCTCCTCGCCCCCTCTTTTTCCACTTTCCCTCCCCAGCGAGAACGTTCTG
AGAGCTAGGAATGTTCTCTAGGAGGTCGCTTTGACGTCCACACCGCGCCTGGGGGATTCTGCGGGGAGCACAGGACCCTGGGACGAGACGCAGAAGTCGC
TCCACGCCCTGGGCGGCCTCAGCTCCCGCGACACCGCAGCAACTCAGAACCCAGGCAGGGGCCGGGCAGCCAGCATGCTGCCCSCACGTTCACCTCCAAC
TCCCACCTCTCGGCCCTCGCCCCAACCCGCAGGACCCTGGCAGCGCACTGGCTGTCTCCGCGGAAGCCCCCGAGGGCCTCGGCGCGGCCCCGCCCCCTGG
AAGGTTCCCGACAGGCGCCGCGGGCACCCCGGCCGTGACGTCACGGCAGCGCGCCGGCCGCGAGAGAGGGCCCCGTCGCGACCGCGTCCCCTTGGGTCCT
TGATCCTGAGCTGACCGGGTAGCCATGGCCTTGCGGCTCCTGAAGCTGGCAGCGACGTCCGCGTCCGCCCGGGTCGTGGCGGCGGGCGCCCAGCGCGTGG
TGAGCGGGCGGCGGGGTGGCAGGGTGGCGGGGTGGCAGGGTGGCGGGGTGGCGGGGTGGGGAGCAGTTCCACATCTCCCCCGGCCTCTGGCGGCGGCTCC
CAGGTCGCTCTCCGGGTGGGTTTGGGGGACCCCTCCTGCCTCCGGAATTGTTTGGTCTTTGGTCGTGGACAGACCTCAGGGGGCCACGAGCTTCTCCAGG
CCATTTTATCTCAGCTTTAAGCAAAACGCTGGAGCGCGGAGGTGATCAGGGCCCCGAGGCTGCCCTGATGCGGGAGGCCCGTGTGCAGGTGGCAGGCCGG
GGGCACACGCGCTTGTCATTAGATAATTCACGTAGCAGCCCTGTCAAGAGCCGTTTAAAGGTCGGGCCCTGCTGGGTGCTTGGGTGATGCCATGTTGAGC
AGACACGGAGTTCAGTGCTTGTGTCCGCTTCCTTTTGCCTTTACTCTGACTGACTACTCTCATTTCTTAGCATTTTGCCCCCACCTTCTTCAGTGAAATC
GTTTCATACATTTGTAACACAGTTGGATTGCTTTGTCACATTCTGCCTTACATCTTGGGATCCTTCTACCTAATGCGTTTTTTAAAATGTGCATACATTG
AGCGCATTCTTTGTGCTATAAGGTTCTATGGATTTTTTCTTTGTGCTATAAGGTTCTATAGGTTTTGACACGTGTGTAATAGCATGTCTCCACCATTATA
GGTTCGTACAGAGTAGCTTCACTGCCTTAAAAAATTCCCCTCTGCTTTACCTATTAAACCCTTCTTTTTCTCCAACCCCTGACAACCACAGATCTCATTA
ACATTTCCATAGTTGCCTTTTCTGGAATGTCATATAATTAGAATCATACAATATATTGCCTTTTCAGACGCCTTGAATACTTGGAAATATCTATGTAAGA
TTCACTTATGTCTTCGTGGCTTGGTAACTCATTTCTTTTTAATCACTGAGTAATATCTCATTGCATGGATGTACTTCAATTCATTCAGCAATTGAAGGGC
ATCTTGGTTGCTTCAAGTTTTTGGCAATTATGAATAAAGCTGCTGTAATCGTGTACATGCAGATTTCTTTTTGGAAATACATTTTTATATCATTTGGGTA
ATACCTGGAAGAGTGATTACTCATGTAGTAAGACTAGTTTTCTAAGAAGCTGCCAAGCCATCTTCCAGAGTGACTGTGCCATTTGACTCCCACCAGAAGT
GAAGGCTCTCCTTGTTGCTCTGCGTGCTCGCCAGCATGCGGGGCTGTCGGTTACTTTGGATTGCTATCCATTCTGATAGCTGCGTAGTGGTATCTTGTTT
CAACTTTGGAATATCTCATGATATACAGTGTTCATCTTTTCATATACTTATTTGCTATCTGCGTTAATTTCATTTGCGAGAGGTGTTTACATCTTTTGCC
CATTTTTAAATTGGGTTGTCTGCTTTGCCTTGTTTTGTAACTTGTTTCTTCCTTACTCTTCAGTTATCAAATCAAGATCGAAAAATATCTTGATATTTCA
TATTCTCCTGTTTTATTTAAATTTCACTATAAAGTATTTTAATATTTTTGTGTTTTTCTGAGTACTTAGTATTCCATAATATGGATATGCCTTAATTTTG
TTTAACTATTCCTCCGTTGTTGGACATTTAAGGGTTTCTATTTGCATTTTTGGTGTTACATCATACTTCATTGAGCATCCTTATAGGTCAATCTTATGTA
TATACTCTTTGAATGGATTCCTAATGCTGTAGACCCAGC


SNP Information

Context             (SEQ ID NO:33447):
GGGCTTCTCCTTTGTGAGTGGCTTCACCATCTCCATGATCAAGGTCTGTTTTATCTCCAGCGTCACGTTCTGTGGCTCCAACGTCTTGAACCACTTCTTC
Y
GTGACATTTCCCCCATCCTCAAGCTGGCCTGCACGGACTTCTCCACTGCAGAGCTGGTGGATTTCATCCTGGCCTTCATCATCCTGGTGTTTCCGCTCCT
Celera SNP ID:            hCV25642732
SNP Position Genomic:     6536
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,23)   caucasian(C,13|T,27)   total(C,20|T,50)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33448):
GCCACCCGCTGCGCTACCACGTCCTTGTGACCCCGGGGCTGTGCCTCCAGCTGGTGGGCTTCTCCTTTGTGAGTGGCTTCACCATCTCCATGATCAAGGT
S
TGTTTTATCTCCAGCGTCACGTTCTGTGGCTCCAACGTCTTGAACCACTTCTTCTGTGACATTTCCCCCATCCTCAAGCTGGCCTGCACGGACTTCTCCA
Celera SNP ID:            hCV25642733
SNP Position Genomic:     6481
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:33449):
CACTGCAGAGCTGGTGGATTTCATCCTGGCCTTCATCATCCTGGTGTTTCCGCTCCTGGCCACCATACTGTCATATTGGCACATCACCCTGGCTGTCCTG
Y
GCATCCCCTCGGCCACCGGCTGCTGGAGAGCCTTCTCTACCTGCGCCTCTCACCTCACCGTGGTCACCGTCTTCTATACAGCCTTGCTTTTCATGTATGT
Celera SNP ID:            hCV25642717
SNP Position Genomic:     6680
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,40)   total(C,71|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33450):
ACGGACTTCTCCACTGCAGAGCTGGTGGATTTCATCCTGGCCTTCATCATCCTGGTGTTTCCGCTCCTGGCCACCATACTGTCATATTGGCACATCACCC
Y
GGCTGTCCTGCGCATCCCCTCGGCCACCGGCTGCTGGAGAGCCTTCTCTACCTGCGCCTCTCACCTCACCGTGGTCACCGTCTTCTATACAGCCTTGCTT
Celera SNP ID:            hCV25642718
SNP Position Genomic:     6669
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33451):
GCCCCTGCACCTTGAACTGTTTACTTTCCTGTAACCATTTACCCTTTTAACTTTTTGACTACTTTACTTCTGTAAAATTGTTTTAACTAGACCCCCCCCC
C
TTCCTAAACCAAGGTATAAAAGTTAATCAAGCCCCTTCCTCGGGGCTGAGAGAATTTTGAGCGTTAGCCGTCTCTCGGTCGCCAGCTAATAAAGGACTCT
Celera SNP ID:            hCV26482492
SNP Position Genomic:     9436
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,5)   total(C,2|-,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:33452):
TAACTTTTATACCTTGGTTTAGGAAGGGGGGGGGGTCTAGTTAAAACAATTTTACAGAAGTAAAGTAGTCAAAAAGTTAAAAGGGTAAATGGTTACAGGA
R
AGTAAACAGTTCAAGGTGCAGGGGCTTTAAGACTATTACAAGATGATAGACCCGGGGCTTTGGGCGTTATCAATCGGACAAATTCCTGGGAACTGCGGAT
Celera SNP ID:            hCV2125013
SNP Position Genomic:     3579
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:33453):
CATCCTCAAGCTGGCCTGCACGGACTTCTCCACTGCAGAGCTGGTGGATTTCATCCTGGCCTTCATCATCCTGGTGTTTCCGCTCCTGGCCACCATACTG
Y
CATATTGGCACATCACCCTGGCTGTCCTGCGCATCCCCTCGGCCACCGGCTGCTGGAGAGCCTTCTCTACCTGCGCCTCTCACCTCACCGTGGTCACCGT
Celera SNP ID:            hCV25642719
SNP Position Genomic:     6650
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,22)   caucasian(T,40)   total(C,2|T,62)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(T,40)   total(C,3|T,75)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33454):
GGGTGCATGACGCAGCTCTACTTCTTCAGCTCCCTGGTGTGCACCGAGTGTGTGCTTCTGGCCTCCATGGCCTACGACCGCTACGTGGCCATCTGCCACC
Y
GCTGCGCTACCACGTCCTTGTGACCCCGGGGCTGTGCCTCCAGCTGGTGGGCTTCTCCTTTGTGAGTGGCTTCACCATCTCCATGATCAAGGTCTGTTTT
Celera SNP ID:            hCV25642743
SNP Position Genomic:     6387
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,38)   total(C,69|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33455):
CGAGACGCAGAAGTCGCTCCACGCCCTGGGCGGCCTCAGCTCCCGCGACACCGCAGCAACTCAGAACCCAGGCAGGGGCCGGGCAGCCAGCATGCTGCCC
S
CACGTTCACCTCCAACTCCCACCTCTCGGCCCTCGCCCCAACCCGCAGGACCCTGGCAGCGCACTGGCTGTCTCCGCGGAAGCCCCCGAGGGCCTCGGCG
Celera SNP ID:            hCV27830521
SNP Position Genomic:     10884
SNP Source:               Applera
Population(Allele,Count): african american(C,26|G,2)   caucasian(C,2)   total(C,28|G,2)
SNP Type:                 TFBS


Context             (SEQ ID NO:33456):
GCAGAAACGCATCTCTTTCGTCGGGTGCATGACGCAGCTCTACTTCTTCAGCTCCCTGGTGTGCACCGAGTGTGTGCTTCTGGCCTCCATGGCCTACGAC
Y
GCTACGTGGCCATCTGCCACCCGCTGCGCTACCACGTCCTTGTGACCCCGGGGCTGTGCCTCCAGCTGGTGGGCTTCTCCTTTGTGAGTGGCTTCACCAT
Celera SNP ID:            hCV25642744
SNP Position Genomic:     6365
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,5)   caucasian(C,26|T,12)   total(C,53|T,17)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33457):
TGGAGAGCCTTCTCTACCTGCGCCTCTCACCTCACCGTGGTCACCGTCTTCTATACAGCCTTGCTTTTCATGTATGTCCGGCCCCAAGCCATTGATTCCC
W
GAGCTCCAACAAGCTCATCTCTGCCGTGTACACTGTTGTCACGCCAATAATTAACCCTTTGATTTACTGCCTGAGGAACAAGGAATTTAAGGACGCCTTG
Celera SNP ID:            hCV25642745
SNP Position Genomic:     6804
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,1)   caucasian(A,34)   total(A,67|T,1)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,40)   total(A,77|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33458):
AAGAGGTAGGTGAGCAGGAAGAGGAGGAAGAGCAGGTACTGCAGCCCTGGGGCCGTGGGGAGGCCCACCAGGATGAAGGTGCTGACCTTGGTGACATTCT
R
CCCACTCATGCCTCTGTGCTTGGGAGCTGCAGGCCTACAAAACATCAAAGAGCAAGAGGAAAGGGCTGCAGGGCAGCTGAGGCAGAGAGAGAGTGGAGCT
Celera SNP ID:            hCV25642704
SNP Position Genomic:     6929
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33459):
TCTGTGGCTCCAACGTCTTGAACCACTTCTTCTGTGACATTTCCCCCATCCTCAAGCTGGCCTGCACGGACTTCTCCACTGCAGAGCTGGTGGATTTCAT
Y
CTGGCCTTCATCATCCTGGTGTTTCCGCTCCTGGCCACCATACTGTCATATTGGCACATCACCCTGGCTGTCCTGCGCATCCCCTCGGCCACCGGCTGCT
Celera SNP ID:            hCV25642730
SNP Position Genomic:     6604
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:33460):
CATCTTGGGGGTGATGTCAGACACGTACCAGATCTCCAGGAAAGACATGGAGCTCAGAAAGTAGTACATGGGCCTGTGGAGGGAGGTGCTGCTCCAGACG
Y
TGAGGATGATGGCCAGGTTCTCCACCAGGACAAAGAGGTAGGTGAGCAGGAAGAGGAGGAAGAGCAGGTACTGCAGCCCTGGGGCCGTGGGGAGGCCCAC
Celera SNP ID:            hCV25642705
SNP Position Genomic:     6796
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,32)   caucasian(C,4|T,36)   total(C,10|T,68)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33461):
CACCGTGGTCACCGTCTTCTATACAGCCTTGCTTTTCATGTATGTCCGGCCCCAAGCCATTGATTCCCAGAGCTCCAACAAGCTCATCTCTGCCGTGTAC
R
CTGTTGTCACGCCAATAATTAACCCTTTGATTTACTGCCTGAGGAACAAGGAATTTAAGGACGCCTTGAAAAAGGCCTTGGGCTTGGGTCAAACTTCACA
Celera SNP ID:            hCV25642731
SNP Position Genomic:     6836
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,35|G,1)   total(A,73|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,28)   caucasian(A,39|G,1)   total(A,67|G,1)   
SNP Type:                 MISSENSE MUTATION;hmCS


Gene Number:                 142
Celera Gene:                 hCG2040644 - 209000073578058
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(39993668..40022901)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12302):
AGGTCTGTGATCCATTTTGGGTTACTTTTTGTATGTGGTTTAAGGTCCAACTTCATTCTTTTGCATGTAGATATCCAGTTTTCACACCACCATTTGCAGA
AAAGACTGTTCTTTTCCTATTTAATGGTACTGACACCCTTGTCAAACATCATTTGACCACATAGAGGTTTATTTTTGGGCTCTCCAGTCTATTCCATTGG
TCTTTATGTTTATCTTTATGCCAGTACCACACTGTTTTTATTACTGTGGCTTTATAGTAAGTTTTGAAATCAAGAGACCTCTGACTTTGTTTTTCTTTTT
CTTTTTTATTATACTTTAAGTTTTAGGGTACATGTGCACATTGTGCAGGTTAGTTACGTATGTATACATGTGCCATGCTGGTGTGCTGCACCCACTAACT
CGTCATCTAGCATTAGGTATATCTTCCAATGCTATCCCTCCCCCTCCCCCACCCCACAACAGTCCCCAGAGTGTGATATTCCCCTTCCTGTGTCCATGTG
ATCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCGGTGTTTGGTTTTTTGTTCTTGCGATAGTTTACTGAGAATGATGATTTCCAATTTCATCCA
TGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGA
CATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAATGCCACAATAAACATACGTGTGCATGTGCCTTTATAGCAGCATGATTTATAGTCCTTTGGGT
ATATACCCAGTAATGGGATGGCTGGGTCAAATGGTGTTTCTAGTTCTAGATCACTGACTTTCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGT
AAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTATTTCCTGACTTTTTAATGACTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGG
TTTTGATTTGCATTTCTCTGATGGCCAGTGAGGATGAGCATTTTTTCATGTGTTTTTTGGATGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTC
CTTCACCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTT
GTGAAAATTTTCTCCCATTTTTTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAA
TTTTGTCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTAATGCCTCGGTTTTCTTCTGGGGTTTT
TATGGTTTTAGGTCTAACGTTTAAGTCTTTAATCCATCTTGAATTGATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCT
AGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTTTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGCG
TTGTTTCTGAGGGCTCTGTTCTGTCCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAA
GTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGTAATGCGGGCTCTTTTTTGGTTCCATATGAATTTTAAAGTAGTTTTT
TCCAATTCTGTGAAGAAAGGCATTGGTAGCTTGATGGGGATGGCATTGAATCTGTAAATTACCTTGGGCAGTATGGCCATTTTCACAATATTGATTCTTC
CTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCTCATCCCT
TGTAGGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGATTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTGTTGGTGTATAAG
AATGCTTGTGATTTTTGTATATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTA
GATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGGCCAG
AACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATG
ATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAAATATGTCCCATCAATACCTAATTTATTGAGCGTTTTTAGCATGAAGGGTTGTTGAA
TTTTGTCAAAGGCTTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGCTCTGTTTATATGCTGGATTACACTTATTGATTTGCGTATATT
GAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGTTTTGCCAGTATTTTATTGAGGATT
TTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTGGTTGTGTCTCTGCCCAGCTTTGGTATCAGAATGATGCTGGCCTCATAAAATG
AGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCCTTTTACCTCTGGTAGAATTCAGCTGTGAATCC
ATCTGGTCCTGGACTCTTTTTGGTTGGTAAGCTATTGATTATTGCCACAATTTCAGATCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTT
AGTCTTGGGAGAGTGCATGTGTTGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGTGTAGAGGTGTTTGTAGTATTCTCTGATGGTAGTTT
GTATTTCTGTGGGATCGGTGGTGATATCCCCTTTATCATTTTTTATTGTGTCTATTTGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCGGTCT
ATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATTTTA
GTTAATTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCT
TTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGCGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCGTTGGTTTC
AAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGAGCGGTTTTGAGTGAGA
TTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGATAGTTTGTTATAATCTCTGTTCTTTTACGTTTGCTGAGGAGAGCTTTACTTCCAA
GTACGTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAGAAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTTCAC
TTGGTGCAGAGCTGAGTTCAATTCCTGGGTATCCTTGTTGACTTTCTGTCTCGTTGATCTGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATT
AATGTGTGGGAGTCTAAGTCTCTTTGTATGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATCGGGTGCATATATATTTAGGATAGTTAGCT
CTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGC
AACCCCTGCCTTTTTTGTTTTCCATTTGCTTGGTAGGTCTTCCTCCATCCTTTTATTTTGAGCCTATGTGTGTCTCTGCACGTGAGATGGGTTTCCTGAA
TATAGCACACCGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAACTGGAACATTTAGTCCATTTACATTTAAAGTTAATATTGTTAT
GTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTGATTTTGCTCGTTAGTTGATGCAGTTTATTCCTAGTCTCGATGGTCTTTACATTTTGGCATGA
TTTTGCAGCGGCTGGTACCGGTTGTTCCTTTCCATGTTTAGCGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTT
GCTTGTCTGTAAAGTATTTTATTTCTCCTTCGCTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAA
CATTGGCCTCCACTCTCTTCTGGCTTGTAGGGTTTCTGCCGAGAGATCCGCTGTTAGTCTGATGGACTTCCCTTTGAGGGTAACCCGACCTTTCTCTCTG
GCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCGAGGAGTATGTTTGTGGCATTCTCT
GTATTTCCTGAATCTGAACGTTGGCGTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCC
ATCACTTTCAGGTACACCAATCAGATGTAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTTTGCTCATTTCTTTTTCTTTTTTCTCTAAAC
TTCCCTTCTCACTTCATTTCATTCATTTCATCTTCCATTGCTGATATCCTTTCTTCCAGTTGATCACATCAGCTCCTGAGGCTTCTGCATTCTTCACATA
GTTCTCGAGCCTTGGTTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTGTATTGGTTATTCTAGGTATACATTCTTCTAAATTTTTTTCAATGTTTTC
AACTTCTTTGCCTTTGGTTTGAATGTCCTCCCGTAGCTCAGAGTAATTTGATCATCTGAAGCCTTCTTCTCTCAGCTCTCAAAGTCATTCTCCATCGAGC
TTTGTTCCCTTGCTGGTGAGGAACTGCGTTCCTTTGGAGGAGGAGAGGCGCTCTGCGTTTTAGAGTTTCCAGTTTTTCTGTTCTGTTTTTTCCCCATCTT
TGTGGTTTTATCAACTTTTGGTCTTTGATGATGGTGATGTACAGATGGGTTTTTGGTGTGGATGTCCTTTCTGTTTGTTAGTTTTCCATCTAACAGACAG
GACCCTCAGCTGCAAGTCTGTTGGAATACCCTGCTGTGTGAGGTGTCAGTGTGCCCCTGCTGGGGGGTGCCTCCCAGTTAGGCTGCTCAGGGGTCAGGGG
TCAGGGACCCACTTGAGGAGGCAGTCTGCCCGTTCCCAGATCTCCAGCTGCGTGCTGGAAGAACCACTACTCTCTTCAAAGCTGTCAGACAGGGACATTT
AAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCCCCAGAGGTGGAGCCTACAGAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGTT
CCACCCAGTTGGAGCTTCCCGGCTGCTTTGTTTACCTAAGCAAGCCTGGGCAATGGCGGGCGCCCCTCCCCCAGCCTCCCTGCCGCCTTGCAGTTTGATC
TCAGACTGCTGTGCTAGCAATCAGCGAGACTCCGTGGGCGTAGGACCCTCCGAGCCAGGTGCGGGATATCATCTCGTGGTGCGCCGTTTAAGCCAGTCGG
AAAAGCGCAGTATTCGGGTGGGAGTGACCCGATTTTCCAGGTGCGTCCGTCACCCCTTTCTTTGACTCGGAAAGGGAACTCCCTGACCCCTTGCGCTTTC
CAAGTGAGGCAGTGCCTTGCCCTGCTTCGGCTCGTGCACGGTGCGCGCACCCACTGACCTGCGCCCACTGTCTGGCACTCCCTAGTGAGATGAACCCGGT
ACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGCGTCGCTCACGCTGGGAGCTGTAGATTCGGCCATCTTGGCTCCTCCCCGACTTTGTTTTTCGAT
TGTTTTGTCCCTTGAGATTTTATCTTAGTTTGACGTGGATTTTTTTTCATAGAATCATTGCCCAGGTAATTTTTTAATTTCTAAAAAGAAATCATTGAGA
TTTTGATAGACATTATGTCAAATCTGTAGATCCCTTTTGGTAATATTGACTTCTTAACAATATTATATCTTCCAATCTATGAACATGGATTGGAAAGGAT
ATTCTACTTAAGGGTGTCTTCCTTAATTTCTTTCACCAAAATTTGTAGTTTGCAGTGAACAAGTCTTTTGCCTCTAAGGTTATTCCTAAGTATTTTATCC
CTTTGATGCTATTGTAAATAAAATTTTGTTCTTAATTTCCTTCTTGGATTGTTTGTTGTTAGTGCATAGAAAGACAACTGATATTTGCATGTTGATTTTA
TATCTTGTAACTTTGCTAAATTGGTTTATTAGTTTCAACACTGTTTTTGTTGGGATTTTTAGGGTTTTCTACCTATAAGACCAAGTTGTCTGTGAACAGA
GATAATTTTACTTCTTCCTTTCCAACTTGGATGCCTTTTATTTCTTTTCCTTGCCTAATTTCTCTGGCTAAGACTTCTAGTACTATGTTGAATAGAGTGA
TAAAAAGAGACATTCTTGCTTCTAATTTAGAGGGAAAGCTTTCAGTCTTTCACCATTGAGTATGACGTTAGTTGTGGGCTTTTCAAAGATATGCACAGCG
GCTTTTAAACGTCTTGATTTTCCTAAGACTTTCACCCCTGCTTCTTCTCAGGGTCTTAGATGTTCCATTGTAATTCTCTGCCTGTAATCTCCCGCTCCAA
GTGCCCTTGGGTCTACAGTTCTCCGGCAGTTTTCATGTGCCATGGCACCTGCCACTGCTTTCAGTGGGGTCCAACCTGCTATCCAACTATGCCACCGTTC
CCATCTAAGCTGAGTCAGATGAGATAAAAATCAGTTCCTCAGGCAGCCTCCAGACAAGACAGAACAGTGCAAACAAGTCCCAGTCTTTTCCCTCTGAAAG
GGGAATTGTGTGACTTCCTCCTGACTGTGTTGCACTGAGGAGAAGGTAGGCAAGGGCTCAAAAAAAAAAAAAAAAAAAAAAAAGCAACACAATTTCCTAC
TGTGTTAAGTGTTGCTTTGTCTTGATTGGGTGTTTAATTGATTGGTTGCTGCAGATCCTTGACTGGTTTCTACAGCTCCTACAACTGTAAGAGCCGAGAT
TTTTTTTTTTTAGACAGGGTCTTGCTGTTGTCACCCAGGCTGGAGTGCGGTGGTACAATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATT
CTCGTGCCTGAGCCTCCCGAGTAGCTGGGACTACAGGCATGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGACACAGGGTTTTGCCATGTTGG
CCAGGCTGGTCTTGAGCTCCTGACCTTGAGTGAGCTGCCTGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGTCGGCGCACCCGGCCTCTGATT
TTCAGTAAATACGTTGTCRTTTACTTGATGTTTCCATGGGAGAACAGGGACCTGGAGCTTCTGCCATCTTGCTGACATCACCATAACATAACTCTTTAGA
CTTCCAAGTCTTGTCTTTTTAAAAACGTTCACATTTAGTTCTATGATCCAATTTGAATTGGATTTTTGCATGAATACCTGGTTTTGAATTGTAACTCCAC
CATGTTATTTCAATGTGGCCTTAACCTCTCTGGGCCTCAGTTCCTTCATCAGTAAGATGAGGGGCAAAATAGCATTGGGAGGATTCTGCATTTACATCTG
AAGAACTTAGAAACACAACTGAAAAATACTRTCGTTTTTTTCCTTATCCACACTGGATACATTCCAAGRTCCCCAGTGGATGCCTGAAACCACAGATAGT
ACCATACCCTATATATACTATGTTTTTTCCTATAGATAGGTACCTATGATAAAGTTTAATTTATAAATTAGGCACAGTAAGAGATTAACAATAGCTAGCA
ATAAAATAGAACAATTATAAGAATAGACTGTAATAGGCTGGGCGCAGTGGCTTATGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCGGGCAGATCACT
TGAGGTCAGGAGTTTGAGACCAGCCTGTCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCGCACCTGTAATC
CCAGCTACTAAGGACGCTGAGGCAGGAGAATTGCTGGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATCATGSCACTGAACTCCAGCCTAGGAGACA
GAGAGAGACAGTCTCAAAAAATATACACACACACACACACACACACACACACACACACAYATATATACCATAATAAAAATTATGTGAATGTAGCCCCTTT
CTGTCTCAAAATATCTTATTGTGCTGTACTTACCTATTTTCAGACTGCAGTTGATCATGGGTAATTAAAACTATAAAAAGTGAAACCACAGATGAGGGGA
TACTGTAGTACATTTAATAAATGTTACTTGCCATTRATATTTCTGTAGATTTTTGATCAACTTTTGCTCTGGAAGATCAGAGGGGACTGACCTAATTAGG
TCTGATAAAAGGCTTAACTTTATCACTTAGCATTGCTTGAGTATTTTACTGGCCTGGTGGGTGTACTGAGAAAAGCAGGCTTATGTTTCAAYAGTGGACT
CTATTGTGCGAAATAAATATGAGTCTCCTCCCTCTTTGCTGTTGCCTTATTTGTACTAGCATGCCAGTTTGAATACACAGTGTTCATGTCAATATTTTTG
TTGATCAATTTATCAGCTCAATTTATAGAAACTTTCAGAGTCTTCCTTATTGATGTGTTTCCTGGGGCAAGGCCCATTGTTTTGCTTAACATTTCCTAGA
ACCTAGATGGGCCTCTGTACTCAGTTGCCCCAAGAATTTTGATCAAAACATGGACCAGGCTTTGGTATTAAATTTCCAAAGCCTGGAGGCTGAAAGCAGT
TTGGAAAAGAGTTGATTCACTTTAAGCAGTTCTTCCTCGTGGGTGTGTGTGTGTGTGTGTGTGCGTGTTTGATTTTAAAGATTTCTGGAATACTTTCTAA
ATACAGAAAAATATGCAAATGAATATAACAAAAATATAACAATCATCCTTGTATCCATCATCCAGGTTTAACACCTTTTAACTTTTTGCTATAATTGTAT
CAATCCATTCTTCCCCAGAAGTAGACACTATTCTGAAATTAGTGTATATTCTTCTGTTGATGTTTATAGTCTTTTATCAAATATGGATTTATTAAAAAAT
AATATTATATATAGTATTATTTTGTTCTCATATTTTAAATATAAAATAATGTATGTTTTACTTTTTCYGATTTGTTTTTTTCACTCAACATTCTTGTTAA
TGACTTATCTATGCTGATACATGGATCGTTGTAGTGGGTTCATTGTTAACTGTTGCATAGAATTTCATCCCCTAAATATTCCACAATTTATTTATTCACT
CACCTACTGAAGGACACACACACTGTATAGATAGTGTTTAATTTCCATTTACCTTTCTTCTTTAGTTTTATATTTATTTATTACTAATTCATCTTCATAC
TTTCCCCACTATTGTCTAAGTTTTCTCCCAAATTCAGATACACAAGATTTTCTTAAAACTTCATCTTGTTGAAGATCTCTTTTCTGGAGCCTTCTGAGTT
GCTTCAACCTGGTTTGGTTACTTTGTTATCATCCTGAAGTCTCACTTTTCTCTCATATTGGGGATGCCTTCTTGGCTTCTCTCCTGTGCTAGAGTCTCCG
TTCCTCTGCCCCTCATCTCTGCACCCATTCAATGGTGCTTCGTGTTTATGCAAGGAGCTGTGGTAGAGGGATTAGAAGCATAAGCTTCAGAAGGAGACAG
ATCTAGGTTGAATCTTTGTTTATCACAATTATGAGCAAATGTATTATCTTCACTTAGCTTCAATTTCTACATTTATAAGGTGGACATAAAACACCCATCT
CACAGRGTTGCCATGAAGATTAAGTGAAATGCTATTTCAGCTGATATTTGTGCTACACATATTTTCCCCCAGACTACACCGTAACTTTTCAATTTGTTTG
TTGTACCTTTAGATACATAGACACATTTTATTTGTAGTCAAATGTATTATCCTACATAATTTACATTTTATATGTTCTGTATCCTTCCCTACCCCAAGCT
CAKAAACAGATCATTATTATAATTTCTTTTAAAAGTTTAAAGTTTTGCTTTCACATCAAACTGATTATCTACCTGAAATGGATCTGTATATATGGTGTGA
TATATAAGGCTCTGTTTTTTTAAATATGGGTAACCAATTGTCCTAAGATCAAATATTGAATAGACCATTTTTTCTACTTTGATTTGTAGGGCTTACTTTT
GTCATATTACTGTCCCATRTATGAAGGTCTGTTTCTGGTCTCTTTATTCTGTTTCAGTGGTCAAAAACCACACAATTTTAATCACTATAATTTAAAAATA
AACACTAATATCTTTAAAACACTAATATCTTTCTGTTCTTTCATAAAATTGATAAACTCTTATGTAAACTTACATTGTACTTTGTATTTTCTCTGGTGTT
TCTATATACACAACCCAATTATTTATGAATGCTAGCAACTTTGTTTACTCATCAATTCTTAAACTCTATGTTTGTTTTTCTTGTCTTACTGCACTAGTCA
GGACATCTAGTGCAATGTGAAGAGAAGTGGTAATTATGGGCATCTTTGTCTTGTTTCTGACTTAAATTATATGTAGTATTTTACCATGAAGGTTGATGTT
TGCTATAGATTTTTAGAAGATATACTTTTTAGGTTTAAGAAAGTTGCTGCTGGTTTTTTGTTGCTGTTGTTGTTGGTTTTTTCTTTTTTCTTTTTTTTTT
TTTTTTTGAGATGGGTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCACAGTCATAGCTCACTGCAGCCTAGAACTCCTGGGCTCAAGTGATCTTCCC
TCCTCAGCTGCCTGGGCTTCYTAAAGCACTGGGATTACAGATGTGAGCCACTGCACCTGGCCAAGAAAGCTTCTTTTAATCCTTATTTGCTAAAAGATTT
TTTTTTTTGTACATATGAGATATGGTTTGCTAATGTATCGAGGCTCTTTACATCTCTCTTCGTAAATGAAACTGGTCTATGTATTTTCTTTCTTCAGCTT
TTTACTGGCTTTGGTATCAAATTAGATTGATTACCKTAAATGAATTTGAGAGCATTTCCCGCCCAGTGTCCCCCTTTTTGGATTATTTGGAACAACTTGT
GTAAAATTAGAATCATATGCCACTTGAATATTTGACGGAACTTGCCTTTAAAATTTCCAAGGTCCTTTTTTTAGTGGGGAGGGGGGCAGATTATTACAAA
CTATTAATTCTATCTATTTAAAGGTTATAGATCAATGTAGGTTTTAAGACTGTTTTTGGTAAATTATATCCTTACATAAGATTGTCCATTTCATCTAAAT
TATATTTTTATATAAAAGTGTCCTTTTCATCAGTTTAAAAGTTATCTATTTTCAAATTTATTAGCATAAAGCTATTCATAGTATTTTTCTTGTGATTTTA
CCAAGCCTTATCTGTGACCATACTTTGTTATTTATTTTCCTGGGACATGGTATAGTTCATCTCCAGTCACCTTCCTCTGGACTTACAGGTTATTCTTGTC
CAGAATTTTASTGCTATTTTAAAAATTTTAACACAAAATTTGGTCATAACTATTATTGTTGGCTGGGTGCAGTGGCTCACACCTGTAATCCCAACACTTT
GGTAGGCTGAGACAGGAGGAYTGCTTGAGCCCAGGAGTTCCAGACCAGCCTGGGCAACATAGGGAGACCCCATCTCTACAAAAAAATTTAAAAATTAGCT
GGGCATGGTGGTATGTGCCTATAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCACTTGTGCCCAGGAGGCTGAGGCTGCAGTGAGCCATGATTGT
GCCATTGCACTCCAAACTGGGTGACAGAGGGGGACTGTCTCAAACAATAATTATTATTATTACTTTACAYACTTGATATTTATTTGTCATTTTTGTTGCC
TGTAAATGTCTTTGTTTCACCCTTATTAGTGAAAGATCATTTTGCTGGATCTTGAACTCTRGGCTGACTATTGTTTTCTCTCAGCACTTTGCAGGTATTA
TTCCATTGTATTCTGACCTGTATTGCTGCTATGGAGTAGCCAGCTATCAATTTAACTGGCAGCCTTGCATAGGTAATCTCTCTTTTCTGGCTGCTTTTAA
GACCTTCTGTTTGTCTTTTGTATTCAGTGTTACCACAACACCAGGGGCTTGGTGTGGGTCCTGCTGCTTGCCCCAGAGAAAGCCCATCACTGAGACCAGG
ATTATTGCCAAGGAAGAAGGCTTTAGGCTTTAATTGGGTGCTGTAGCCAAGGAGATGGGAGATCAGTCTCAAATCTGTCTCCCCTGATGACTGGAATTAG
AGGTTTATATGGCAGGGAAGAAATATAACAATGTATAAGAAAACAGAAAATGTACCCCTCCCAAGGAACTAGGGAGGGGTAAGGAAGCAATAGTGATGAA
TGAGGKGTCTGGCATTTCATTGTCTGGATGCTGTGACCTGGTGAGTTTCAGCTCTTTGATACTTTTTTTGAGTGGCCTGAGGGTGTTGCTAAGAAGGAAC
TCAGATAAAACAAATGCAAGTTTCAAGCTTTAAGGGCCAGGCTTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGCAGCTGAGGTGGTTGGATCACGA
GGTCAGGAGATCGAGACCATCCTGGCTCACACGGTGAAACCCCRTCTCTACTAAAAATACAAAAAAAAAATTAGCTGGGCGTGGCGGTGGGTGCCTGTAG
TCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCAGGAGGTGGAGCTTTCAGTGAGCTGAGATCATGCTACTGCACTCTAGCCTGGGCGA
TACAGTGAGACTCCGCCTCAAAAAAAAAAARAAAAAAGAAATTGACCAGAAGGGTCCATTTCTATGTTTATCCAAAAACAAAAAGACAACAAAAAAAGTG
TCTATGGGACTATTGGGTTGATTTCATCCAGCAGTTGACCATGTTGTATCCAGATGTGAATTTCTTTTTACTTATCCAGCTTGAGAATTTGTCAGACTTC
TTTAATCTGTTGTTTTGTCTTTCATCAATTTGGGGGAATTTCTTCAAGTATTGTCTTTCTCCTATCTACTCTTTCSTGCTACATCAAATTTATACAACAT
GTTCTCTTCTATCTTATGTGGATGTGGCTTTTAAGTTCTTTTTCATGTTGTTCATCTCTTTGTCTTGAAGTAATTTCTTCAGTTTTTAATTCCAATTTAC
TAATTACCTTTTCTTTCTTTCTTTCTTTCTTTTTCTTTTTTTTTTTGAGATGGAGGTCTTACTTTGTTGCCCAGGCTAGAGTGCAGTGGTGCAATCTCGG
GTCACTGCAGCCTCAACCACCCGGGTTCAAGCAATCCTCCTGCCTCAGCCCCCCAATTAGTTGGGACTACAGGTGCGTGCCACCAGGACTGGCTAATTTT
TGTACATTTGTAGACACAGGGTTTTGCCATGTTGCCAAGGCTGGTCTCAAACTCCTGAGCTTAAGCAATCCACCTGCCTTGACCTCCCAAAATGTTAGGA
TTACAAGCATGATTTATAATCCTTTGGGTGTATACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATTGCCACACT
GTCTTCCACAATGGTTGAACTAATTTACAGTCCCACCAACAGTGTAAAGGCTTTCCTATTTCTCCACATCCTCTCCAGCATCTGTTGTTTCCTGACTATT
TAATGATTGCCATTCTAACTGGCAGGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTGTAATGACCATTCTTTTTTTTTTCTTTTTTTTTTTTTG
TTGAGACGGAGTCTCCCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTTCTGCCT
CAGCCTCCTGAGTAGCTGGGACTACAGGCACCCGCCACCACGCCCGGCTAAGTTTTTGTATTTTTGGTAGAGATGGAGTTGCACCGTTTTAGCCAGGCTG
GTCTCAATCTCCTGACCTCGTGATACTCCTGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAACCACCGTGCCTGGCCTCTAATGACCATTCTTG
ATGGGACTTTAAATTGAATAGTGCCCTTTTGGAAGCATCCATTAAAAGTTAGTGCATATATATACACACACACACACACACACACACACACACATATATA
TACACACACATATATATACACACATATATATATGTTTGGCCTAGCAATAAAAATTTGTATTATTGTTATGTTATGATGTCATTATATCCTCTACCTTAGA
AAAAAGACATTATATCCTCTACCTTAGAAAAAATCATATTTCTTTATATTCACACACGTAATGTTAAAGCATATTTTTTTAAAGTGTGGAAGCAGACTTA
ACCTCTGGTATGAGGACTGGTGCTGAAGAGAGGATCGAAGAGAACCTTTACTTATTTGTATTTGAACGTTTATAATGAGCATATTAATGGCTACTCGTGT
AATTAGAAAAAAAATAAAAGAAATCACAAATAATAGCAATTAAAACTTGAGAGGTTTCTGATGCAGCCAGGATGTACTAGCCCTTGCACTGTCACTTAAG
AACCAGCAAAGCCAACTTTGAAGGCTCCTAATAGCACTGATCTTCAGTGACTGGTTTGCATGTCAAGGATAGCTGAAGGTGGATTAAAAACTTCTCAGGC
AGACACATAATCACCTGAATTCAGGGACCTGCCTTAGAATTGTGTATGACACTTCGCAGTCATAATCACAGGCCCCCGGCTTTGAGCTGCTGAGAATCTC
GCACAAGCTCTGCATTAGGCTGACACTTCCCAGGAGGATATAAGAACTGCCAATTATACAGAGAGCTACGCTCTGTAATATCTTGACAGTCTCCACTCTC
TCTCTTTCCTCCTCCTGCTATGAGGCTCCAAGTTTATTCCCCAGTTACTGGGGGCCACTCCTGGGTCCCTCTGCCTCGGAAGTCTTCCCTCCTGGCTGTG
GCCCAATTAAGCCACAGTTGAGTTGCTCAGAAGTGAGAATTCCTGGGAGGCTTGTTAAGTTCAGTGCTTCAGGAAATGGAAGGAACATCATTAAGAACTT
CAGCTTAATAGGCAGCTGGGCCAACACCAGCTGCAAAGCAGAAAAAGTGTAAGTGACTCAGTGTCCCTCAGAGGCATCAAAAAAAACTTGTTTTAACTTT
TACCTAATTCTATCCCAAGTGTGTACACTAGCTACGAAGCACATACCCAAGACACCTTCACTTTCCCCACCACTATCACTCTGTTATTTTCATCATGTAT
CATTACAACCTCATCACCCATCAGTATTCTCATCATCGCTTTGATTCACCGTCATCCCAGAACTATCATCCTTTTCCTATTACACTATCATTCTCAGTAT
TATCACCAACTCATCATTTAACCATTATTATCACCATCAGTATTATAATCACCCCCATTATCATTGCAAACACCATCATTCAGCTGCACCATTTCACCAC
TCCCATGGCCACAACCATAATATACGTCTGTAGTTCATGAGAACAGAAAAACATCCTGAAGATTCTAAGAAAAAGCCCTTATTTGAAAGGCAGACAACAA
AAGTATTTTTAAATAAGTTTTTCTCTTATTTCAATCAGGTGCAAGAATAAGAAGGTAATAGACTGAGATAAGAAATTAAATGAAGAAATACAATAAAATA
AAATTTGACACAATGGTCAAAATATAACCTAAACTGGAGAGAATAAACAGAAAAATGGACCTTGCATAAACATTAAAATCTTCTCAGAATGCAAGAGAAA
AGAAGGAAAATTCTGATAATTACAGAATGGAGGATGAGTTACATAGATCCAACCTGTAAGTATTAAAGAATGTCTAAAGAAAACAGTAAATGGATCAGAG
GGTCAGAGTAAGTGGATCCAGGGGTATAATATATAGGAAAACACTTTCTGAATTTCCAGAGAAATACTCTGAAGATCGAAATGCCCCACTATATTCCAAG
CAAAATTAGTAAAAAGATCTACACCTGCATGCATTCTCTTCTGATAATCTCTTAACCACACTTCCGCTAGAATGATCCATTCAAATCACAAGTCTTAGAA
CATCATTCCCAGGTTCAAATGCTTTAATCTCTTTCCAGAGCTGTTAATATAAAGGACTAAATTCCAACATGGCCCACAAGGCCCATGGTTGGCCTTGCAC
TTCTGCACCTGCTCTCCCTTGCTTTCTGCCCGACTGGACCTTCTTTCTGTTCCTTGCACAGGCATGCTCCTTCTAGCACAGGAACTTGGCATATGTTGTT
GCCTCCCCCCAGGAATGCTCTCATCCTCCCCYACGAATTTCCTCTGGTTAACTCTTATTTTAGGATCTCATACAACACTTCCACAAGGAAACCCTCCCAG
ACCTCTCTAACGAGGCGAAGCATACCTACTATACRCTCGTGTAGCACCATGCACCTTTCTACTTTAGTACTTCCGACAAGTAGGTTTATGTTTATTTATA
GGACTCTTTGATTACTATCTGCCTCCSACTCAGAGTATAACCTCCACAAGGGTAGGGACCAAGGAGCCAAGTTAAGTTTCCAAGCAGGGCACACACTGCC
AGATCCCRTATTAAACACACACATCCTTGCAACACCAAATTGGGAAGTTCCACTGCTGGCTGTCCGCTGTTGCCCTTTCTCCTCTTTCTTCTTTCACGGG
CCTCTCCAGTCAGCCTTTGCCTTAAGAATTCTCCAGGTGTGCGGGAGACATCAGACTCATTTATCCCCAAAATTCCAAGGGACACATCAAAACGTCCCAA
GCCCTCCCAGTGAACTGTCCAACGTCATCATGGGGCAAAGGTGGGGAGGAGACCTAGAGGACAGCCCAGGAGGGAAAAAGCCACATTACTCTCCCCCTAC
AATAAAGACTACATTTTCCTGTTTAAAGAACCTCCCTTTCACATTTCAAGTCTTTTCTTGTAGTCTATAGGTATGTGATAATGGARTGATGGTCACAAGA
TTGGTTTGTGTCTAGCAACGTGTTGAGGCTCTTTTAAAAAGTAAAGATGTAAAGATCTCAAAGTCTTTTGAGAAAACAGGAAAAGTCCCAGTCAACATCC
TGTTGTGATCATATTCCTGAAAGACTGGAAGATAGGAATATGAAAAGGGGATCAACCACGATTCCACTTCCCTAAAACCAATGGCTTTTTCTTTTCAGTG
TATTTTCTTCCACTGTTTTATCAAGTACTGCTTTTCTCCACTTCATTTCACATCACATGCATTGCTCCAAATTACTCCATGCTGAWTACATGTATCTTAA
ATGGATGCATAATATGATGCATGGTTTCACAAAACTTTATTTTGTAATCAATACTGAAATGAACTTCTTCGCAGATGTAGGATTTTCCATTTTTGTACTA
ATTCCTAAGGGGTGATTTCTAAAACTGATGTTATAGACTATGTTTGGCAACTGATTTTGCTAGCCAACATCCATTCTCACTGCTTCTAGTAACAGGACTC
TGAAGCTTTCCTCTGCTGAAGCTTAAAAAAGCCCAGAAATTCCAGCACACTATTTTGTGTGGTTAAAATAAAAGGATGATCAAAGTATGAAGCACATAGT
TTATTGCCATACAAAAATTTCCTTTGTTCACAACGCTTAAAGATGGGGAGAATAATTAGAACAAATTTCACTGGGAATACACTTGACAGGTGAAGTACAT
TAACCACATAGTGAATGAGTTCYAATTTTGTTACAGTCGAATTATTAAAGTYTAGTTGGTCAATTAGGATGACAACAGGCTTCTGTGGAAAGAAAAGTCT
AATTGAAGTTTAGGGAGTGCCTTTATATGGCTTGAGCAACACAGTGGAAATCTGTGACAACATTTATATTCCCTAGACATGAGAGGGCAGTGCCAGTGTT
GACTGGTGAGGCTTCAGAGATTAACTCAAAGGCTAACATGGTTCGGCCCTGTTGCAGCCTGAGCTGTAGGTCTTTGCAGAAGCAGCCGACAGAGTGTAGC
CCTGCCACGGCCTAAATTCTCAAAGTGTCTGTCAAACTCTTAGGTTATATGTACTTTGGAACCCAGCAGTTGAAGTCTGTAACTCACCTACGAGGTGTCA
TAGGTGTGATGTGTTATGTAACATTCTCAGAGGGAAGAGAAGTACACTCCAAGTTCTTACCACATAAAACATATATCACTCATGTAGCAAATTATGTAAG
TGTTTGAAATCATTTCAAAGCTAYGTAACACACATCGAATACTTCCATCAAATGTCCATATAGACTATCATGTAATCAAAGAATAGACTCCTTTTTTCCC
CAACAGATGCCTCTTTTTTCTTTTTCTTGCCTTATAGAACTGRCTAGATTCTCCAGCACAACATTGAATAAAAATGCAGATATTCTTGTCTTGTTCTTGA
GCTTAGGACAAAATCATTCATGCCTTTCACCATTAAATGTAATTTTAGCTGTAGAGTTTTCATAGATACTCTTCATCAGGTTCAGGAAGTTCCTTCTATT
CCCTCTTAGCTGAGAGTTTTTATCAGGAATGGTTGTTGGATTTTGTCAATGCTTCTCCTTCATCTATTGAGATCAATCACATGGTTTTTAGTTTGTTWAT
ATGGTGAAATACAGTGATTGATTTTGGGATGTCAAATGAACTTTGTGTTCCTGCAATAAATCCTACTTGGTCATGATGTATTATTTTAAAAATATATTGT
TAGATTTGATTTGCTGATTTTTAAAGARTTTGTGCATCTATGTTCTTAAGGAACATTGGTCTATAGTTTTCTCGTAACGTCTGTTTGGTTTTGCTATCAG
GGTAATGCTAGCCTTGTAGAATGAGTAGAGAAGTATTCTCTTCAATATTCTGGAACAGTCTGTGTAGAACTGAAATTGTTTTCTCATTAAATGTTTGGTA
GAATTCACCAGTGAAGCTATCTGGGCTGGAGTTTTCTTTTAAAGAGAAGGTCTCTTTAAAAATTTAATTTATTTAATAAATAAAGAACTATTCAAGTTAT
CTATTTCTTCTTGAGTGAASACTGGTTCTTTGAGAACTATTCATTGATCTTTTTYCCTTGTTTACTGTTTACTGCTTTATTGATTTGCACTCTAATTTTC
ATTATTTCATTTCTTCTGCTTATTTTTCATTTCRTCTGCTCTTCTTTTTCCAGTTTCTTAAAGTGGTTAAGAATGTTACTTAAGTACTGCTTGAGCAACA
TTCCACAAATTTCGATATGTTTTCAATTTTTATTCAGCTCAAAATACTTTCTAATTTTCTACTTTTTAGAAGTCTGTTATTTAGTTTCCAAATATTTGGG
GATTCCTATTAGTCTTTGTTATTGATTCCCAATTTAATTTTCAGTCAGAGAACATACTCTTCTGAAAGGAAAATAAAATCTTGGCACTTCAAATTCACTA
TGCCAAAAGGGAAAAATTAACCTTGGAAGCTGAGTCATGAAAAAAAGCAAAACGCTTGCTTTTTCTTTTGTTCTTAAACTGATAGCTATAGCTAGAAGGC
CACATGTGGGAGCCTCCCTCACCCTGACAATGTAAATTAACAGCTTATCTTCACAGGCAAGGGACAAAAAGAAATCATCTCCCACCCACCCCAGGAATGC
ATGTTTGACTGCTTCCTCTACTCTATGTTTATTTTATGTAAAGTGCAGATTTACTGAGCAGAAGACAAATACATAATTGACTGTTCCCTCTACCCCTCCT
TTTGTAGTGCAACATGTGGATTCAGTGAGCCTAATCAAAACCTTGAAAGAATGTGACCATACCCTCCCTCTTTTTTTTCCTTTTTCCCCTTTCCCCTCCT
GCCCACTTTTCCACATTTAAATATTGAATACTTCAAAATCCTATTTGGAAAAAAGTACAGGTCACAGATCCTACAATCCTACTGTGGCTTGTGTCTCTTT
TTCCGAGGCMCATCCTCAACCTTGGAAAAATAAACTTTTAAATTGATTGAGACTTGCCTCAGTGATTTTCTTTGGTGTATACTCTGTATCACTTGAATAC
TTTCCAAKTGAAGACATGCTTTATAATCCAGAGTATGGACTGTTTTGGCCAGATGTTTTCTATATACTGGAAAGAAATGTGTATTCTGCTGTTGTTGAAT
GGCATGTTCTATAAATCTCAAWTACATCAAGTTGGTTGATAGTCTTGATGTCTTCTATATCTCTGTGGATTTTCCATTTGTTCTAGTGATTATTGAGAGA
AAGGTATTGATATATCTGCCTATAATTCTGGATTTATCTACTTCTCTTTGGAGATTTCTCCATTTTTGCTTCATGTATTTTGAAGCCCCTACTCACCAGC
ATGGTCTTCCTGAGCCCCTCCAAGAGTAATCTCACCACCAGCCCATCCACCCCTACCCCAAGGTCAACAACAGTGTCAGTAGTTGGCCTACAGGGGACCC
ATTGTGTGCATGTGATTAGGGAGACTCTGGGACCACCTGCCTAACTCCTTGTACACTTCCAACCACCCTTACTCCGTGTCTCCCAGACAACCAGACTGGG
GCAAGTGTTGGGAAGATGGAGACAYAGGAATGATCAGGATGGGAAAGAGGCTCCTCCCCCTCCTCCAACAGGCACTGCTTCCAGCCCAGACTGGTGTGTG
TGGTTGTAGGGCAGGAGGGGGTGTAGGGCCAGACCTGAATCCATCTATGAGGAAAAGTAAGCCTGTAGGCTCAAGTCTCCACTCCACCCTGAAGTTTGGC
AGGGTAAGGCAGATGGAACTCCTCTAGCTCCTCCAGTGCTATGAGCTGCTTCCTTTCTGAGAGAGAGGTAGGACTTGTGAGTCAGTGCTTCAGGTGTCCC
CATGTCACTACCAGACTGCTCATGGCCACCAAATTCTTCCAGCAGCCTTGGGCTGGGAGAGGAGGCAGTCAGGGTGACTATTGATGGCATTAAGTGTTGG
AGGGCTGTGCAACTCCCCGCCCCTTGACCCACTCTCTTCCCTTTGGCTTTGCAAAGGAAAACCTCCTTGTTTCTCACCTTTTCTTACCTTCTGGTGAGGT
AAGGTGAGGGAGAGAGGCCTTACGTTTCTTCTCACTGCMTCTCACAGGTTATCCAAGCCCAGAAGTGTTACCAGAAAGGGGACCGGATCCAGACCCCAAG
AGAGGGTTCTTGGATCTCATGCAAAAAAAGAATTCAGGGTGAGTCCATAGAGTAAAGTGAAAGTAAGTCTATAATGAAAGTGAAGGAATAGAAGGATGGC
TGCTCCTCCATAGACAGAGCAGCCCRGTGGATTGCTGATTGCCCATTTTTATGGTTATTTCTTGATTATATGCTAAACAAGGTGTAAATAATTCTGGCCT
GCCTTTTTTAGATCATATTGSGTAACTTCCTGTCGTTGCCATGGCATTTGTCAACTGTCATGGTACTGGYGGGAGTGTAGTAGTGAGGACGACCAGAGGT
CACTGTCATTGCCATCCTGGTGTTGGTGGGTTTTAGCCAGTTTCTTTACTGCAACCTGTTTTATCAGCAAGGTCTTTATGACCCATGCCTTGTGCCAACC
TCCTGTCTCATCTTGTGACTAAGAATGCYTTAACCTCCTGGGAATGCAGCCCAGCAGGTCTCAGCCTTATTTTACCCATCCCCTAGACAAGATGGAGTTG
CTCTGATTCAAACGTCTCTGACAAAAGCACTCTCAATATCTGAGCCCCCCATTAACAAGAACAAATAAATAAACGAAAACCATAATAAAACATCAATAAT
CTGGTGTCTAGGAGAAATTTAGCTGTTGTACACCATTTGTTATGATGAAACTCCTCCAGCTTCTCCAAATGCTGTGAGCCATCTCGTGTCTGAAGTTCAG
ATAGAACCTGTGACTCAGGTACCTCAGGTGTCCAAGCATCACTACCAGATTGCCCTTGACCACCAGATTCTTTCAGCAGCCTTGGGGTGGGGGAGTGGAC
AGTGAAGGTGACTGYTGCAAGCATTAAGTGTTGGAGTGCTATACTGCTTCCATCCTCTCCAGCCCCTCTGTTCCCCAWGATTTGTTTCTCCTGGAGTGAA
TACACGCRGAGGACCTTAAGAGCAAGGTCTTAAAATATGTGCAACACATACAAGCTTTTCAAAGAACAATTATTCAGAATACATACAGAACTCTTACAAA
TCAGCAAGACAGGCAAGCTAGTAGAAAATAATTTAGAGATAGAAACAGGCACTTAGTACAAAAGGATACGCAAATCACCAATAAATAGGCAATGGCCCTG
GGACTTCCTGCTCACCGTACCTGTACCAACAGCCTGACTGGGCCAGGCTTTCCACTGGTGCAGTTCTCATACCTGTCACTGCCAAGAATGGCTCTTTTTG
AAGTGAGGCTGCTGAGTCTGGGAGCATCAAGAGTGGGAGGGAAAGCATGGGCTTGCTATAGCCATGTTTCAGAGCAAAGAGCACAGACTGGGGTTTGGGC
ACTGATTAGTCTGTCAGTGTTTATTGTGGTTTTGCCAATTACTTTTCCCCTTGGGCTTTAGCGTCCCTATTTATCTGATGGAAGAGTGGGATGAAATCAG
AGTTGTTACCTGATATTCAACACATGAATTCTATTTAATTTGGCCAGCACAGTCACTGTCCTTCTCACTCTCACTCTYTCAAATAGGATTGGCTGTCAAC
ATTTAAATATCAAGAYTTYGGAGCGGGGCGCGATGGCTCACGCCTGTGATCCCAGCACTTTGGCAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGATCG
AAACACAGTGAAACCCCGTCTCTACTAAAMATACAAAAAAAAAAATTAAATTAAATATCAAGATTTCTGGCTTCTCTTGAAGAATTAGGTGATGGGCCCA
CATTTCCACACTAAAACAACTGTCCAGAACTGCGTAGGAGGCCGTGTCTATTAGGCTGGATCAGAAATCTTGCTCAAGCAACACCCCTGCTGCCTCCCTC
AGCATGAACCTCGGTATGAAGACAGAGACAATGTTATGTGTTCATCCCATAGGTTCTTCCCAGGCATTTCCCGGCCCCGTAGGGTTAGCATTGGTTGGCA
AAAACCATGTGACAGAGATTTGCTGATGGCAATGTGATGCAGTAAAGAGATGGTGTAAATTCTCCATGTATTCTTACATTGTGTGGTTGGAAGCTAGAAA
CCTCTGAGAGGACAGACTGGCAAGAAAGAACCAGCTGACATCCCCAAGTGATCACTATAGGACAGCTGCCAAGAAAAGCTCGCTGACTCCTCTGAGCCCC
AAATAGAAGCAAAAAACAAAGCTTGGTTGTGTTAAGCCACTGATATGCAGGGGTTATCTGCTACCATGGTAGAGCTTGTCCTCTGCTGACTGATGAAATG
GATCATAAGAATAGTAGCAAATATTCATTGAGTGCTTCCTGATTTGAATGCCTAGTCATTGGGCTAAATACTTTACATATAATACCTTAGTTAGTCTTAA
TAATTATTCTGTCTGATAGGTACTATTATTTTACCCTTTTTAGATAAGAGGTTTAGAGATGTTAAGTCATATACTTGAGTTCATAGTAAGTGAGAGAGTT
AGGCAGTCTGATGCCAAAACTTTCGCTACGCTCCTCTCTTTTTTCTATTCTATATTGTCTCGCTGAGTCTGTCTTTCTCTGTAAAAAAGGCAATGATAAC
CTCAACTTTAACAGTCAGATATTAGTTGTGCTAAGAGATAGTCTGGGTTAATTTTAAATTATTTGGATCAGTTTGAAGTTACGTGGAGAAATTGGCAATG
GTTTAATCTACTTGAACCAGTCTATACCAGATAAGTACAGTTAGAATTAATTTGAGCTGGATTCTGCTAGTATAGACATTCTGGAACACCCTTGGATTTT
TGCTAATCCTTTAACAGAGATATTATTGGCAGTTAGATAGTAATTATTATGTTAAGAAAATGTAATTATATTCTTAGGTTACTGAAGAGTTTAATCAGAA
ATAATTAAATGTTTCAAAAATCATGTGGGCATCTCTAACACTGCTAGCGTAGCAAAACCTCCTGTCCAAAACCTCCTTCCAGTCACTACCTCCTCCATCT
TTTCCAAAGAAAAGCCTTACCCTGACTTAACATGCCATAGTGTGGGCGAAGGATTACCCAGGTGCTGAGGCAAGAGACTGAAGGCACAAACTGTTGCAGT
ATAATAAGGAAAATAGTTAGAATAAGAATAGTTATAATACAAATTAGATATAGAGATAACCATAGACATTATCAATCATTAGTATAAATATTATTACTCA
TTAGCTTTTAATATTACTCTTTGTTGTATTACTAATATAACCAAGGAATAACCAGCGGGTATAGGGTCAGGTGCCAACGGGACATTGTGAGAAGTGACCT
AGAAAGCAAGAGGTGAGCCCTCTGTCACACCTGCATAAGGGCCACTTGAGGGTTCCTTGGTCAAGCAGTAATGCCAGTGCCTGGGAAGGCACCCGTTACT
TAGCAGACCGTGAAAGGGAGTCTCCCTTTCCTTGGAGGAGTCAGGGAACACTCTGCTCCACCACCTTCTTGTGGGAGGCTGGATATTATCCAGGCCTGCC
CGCAGTCATCCGGAGGCCTAAACCCCTGCCTGTGGTGCTGTGCTTCAGTAGTCATGCTCCTTGTCCACTTTCATGTTCCTCCCGCACTCCTGGTTCCTCT
TTGAAGTTCTTAGTAGATAGTGGTAGAAGAAATAGTGAAAGTCTTAAAATCTTTGATCTTTCTTATAAATGCATAGAAGAAAATGCTGACATATACTGCC
TTCCCTCTCTGCTTCGGCTACCTAAGAGCAAAGGGCCCCCTGTCCCATGATCACGTGACTTGCTTGACCTTATCAATCACCTGGACGACTCACCTGCCTT
ACCCTGCCTCCTTGTCTTGTATGCAATAAATATCAGCACACCCAGCTATTTGGGGCCACTACCGGTCTCCACGTCTTGGTGGTAGTGGTCCCCCGGGCCC
AGCTGTTTTCTCTTTATCTCTTTGTCTTGTGTCTTTATTTCTTACAATCTCTCGTCTCCGCACACGGGGAGAACACCCTCAAAGCCCCGTAGGGCTGGAC
CCTACACCATAGATTAGTTTTGCTTAGCTTTAAACGCTTTATAAATGGAATTACACAGGATGCATTATTGTGCCTGCATTCATTCAACACTATGTATGCC
AGATTTACCCATATTATTGTATGTAGCTGTATTGTTCATACATTTGTATTGCTGTATAATATTCCAGTGTATGAATATGCCATAATTTATTTATCCATTA
CACTGTCATTGAATATTGGGTTGTTTCCAGTTTGGGTTTATTACAAATAATGCTGCCATGAACCTCTTTCATATCTTTAATTATACTTGTGTAACCATTT
ATTTAATACATATAGATAGGCAGGAAGTTACTGGATTATACAATACATGCATACTCTTCTTTAGTACATAATGTCAAACATTTTCCAAAGTGGTTCTACC
AATCTACATACCCAGCATCAGGGTATAAGAGCTCCAGTTGCTCCATAATCTTGCCAGTATTTGGTATAGACCATCTTTTTAATTTTAGCCATTCTGATGG
GTCTGTAGTATTAACTCATTGTGGTTTTAATGTGTATTTTCCTGAACATCTATGAGGTTGAGCACCTTTTTATATATGATTGGTCATTTTGCTCTCCTCT
TTCATGAAGTACCTTTTCAAGTCTCTTACTATTTTTCTACTGGAGTGTGTATTTTTTTATTTATTTATAGGAGTTCTTTTATATATTACTGATAAGATCC
CTTTTTATATTTGTGGATTTTCTTTTTACATTGTATGGTGTGGCTCTATCATAATTTACCTATTTTTATTTATAATTATTTAGATTGCTTTCAATGTTTT
TATTCCAACAACTTCTATGAATTGAGGATTGTGGGTATTGTTTAGGATAGAGTATTTAGTATCAATCTCTTAGGTTTTTTTCAACAGCATTCAGCACCAT
ATGAAAGGCAAATGGCTGGGATCAGCCAGGTTGAGTTTTTCTTTCCAGGAAAGTGAGATTAAAAAATATAATACCACAAGATAATTGATAATATTGGTTT
TCAAAAAGTCATTGAAATTATAAAATTGATAAGGTCAATCACGTGACTTGCTTGACCTTATCAATCACCTGGGCTACTCACCCTCCTTACCCTACCCCTT
GTCTTGCATGCAATAAATATCAGCGCGCCTAGATATTCCAGGCTGCTACCAGAATAGCGCACCCAGCTATTCAGGGCCACTGTTGACTCTGAACTATGTA
AGGAGGGAAGTAAAGACAGCATGGGAATTAGAGTTACTAGATATAGAGAAAGAAAGGATGGTGGGCTGGAGGCCAAGTGAATTGGGAGGAATAGAGTGAC
TACACTGTAAGGACAGGAAGTCATGGTCAGAGAACAGTATATCTGAATATGTGGTTTCAGAAGTGGGACAATTCTTCAGTAATGAGAAGGACCAGATATG
CCCGTAAGTGGCTGAAGTAGAAGGCAAGTGGTGAATTTTGGTGAAAATTTGCAAACCATGCATCTGACAAGGGGTTATATCCAAAATATACAAGGAAATC
AAACAACTCAATAGCAACAAAACAAAACAAACACCAAATAATTTAAAAGTGGGCAAAAGACCAAAATAGACATTTCTCAAAAGAACACATATATATGGCC
AACAGGTATATGAAAAAAATGTTCAACATCACTAATCATCACGGAAATGCGAATCAAAACTACAGTGTGATATCACCTCACCCCAAATAGAATGAGTATT
ATCAAAAAGGCGAAAATGACAAATGCTTGTGTGGATATGGAGAAAACGGAACCCTTACGCACTGTTTTGGTGGGAGTGTAAACTAGTACAACCATTATGG
AAGACAGTATAGAGTTTCCACAAATGAATTAAAAGTAGAAGTATCATATGATTCAGAAATCCCACTACTGGGTACTGATCCAAAGAAAATCAATATGTCA
AAGGGAAATCTGCACTCCCATGTTTCCTGGAGCCTTATTCACAATAGCCAAGCTATGAAATTATCCTAAAAGTCCATCAATGCATGAATGAATAAAGAAA
AGGTAGTACATATGCACAATAGAATAAAATTTAGTCATAAAAAAAGCATGACACCTTGTTATTTGTAGCAATGTAGATGAACCTATAGGGCATTACGTTA
AGTGAACTTAGAGGACATCACATTAAGTGAAAAAGCCAGGAACAGAAAGACAAATACCACATGATCTCACTCATTTGTGGGCTCTAAAAAAAGTCAATCT
CATAAAAGTACAGAACAGAATAGTGGTTGCTAGAGGAGAAATGGGGAGAGATTGGTGAAAGAGTACAAAATTACAGATAGGAGAAATAAGTTGTGGTGTT
CTATTTCACGTTAGAGGGACTATTGTATATTTCAAGACACCTAAAAGAGTCTTTTCGATATTTGCACCAAGAAGAAATAAGTGAAGTGATGTATTTGTTA
CATATACTGATTTGATCATTACACAATGTACACAAGTATTAAAATATCACACTGTACCCCATAAATATGTGCAATTCTTATGTGTCAAAAATCAAACTTT
TACAAAATACAGAATGTGTTATAAGTAAAACACACACACACACACACACACACACACACACAAAGAGAGGCCAGAGAATTGAATCAGGCCATCTAAATGA
ACACTGAAGTCACTCAGTGTGATGAACTCAAGAATAGGACTTTGAGACAATTGTAACCATGTTAATAGGAAAAGAGAGAAAGAGAGTGTCCAGGAGATGT
TAGGGGACAGTGCAGGGAAATGGTGATGTATAGCACAAGCTTTAAGGAGCAAGAGGTTTTCTTTTTTTTTCTTTAAACATCCCTCCACTGGGAGTTCAGA
CCCACTGCCCATCTATCTCCCTAGCACCTGCTGCTCTGTGTTCCCCCACAGGCCCCTCAGGTCACTCAGCATCCTCAGCATTGGGCGGGTCACTGCTTGG
CTCAGCAGAGACATGAGGAAGGGTCCTGAGCTTTATAACCCTTGGGCACTGCAGTGGGGAAGTGGTCATGGGCTGGGGCACCATTGCTGGTTTTCAGTGT
TCGTGCTGAATTTATCAAAGTTTAACAACATACCTTATACCAGCAATTCAAGTCTATTTATATGTAAATATGCATATTATATTTATTCATCATATATAGT
TGCATCATTTATACAAATATCAATACAACTGACTCTAAAATATTATATATTTAATAAATAAAGTCTATATTACAAATACATATGTACATATACACATAAT
GTGTGTAATTTTTTTTTAACTTTTAGGCTCTGGAGTGCATGTGCAGGTTTGTTATATAGGTAAACTGCATGTCACAGGGGTTTAGTGTACTGATTATTTG
CCACCCAGCTAATAAGTATAGTACACCATAGGTAGTTTTTCAATCCTCTCTCTCCTCTCACGACCGTCAAGTACACATGTAGGAGCAAGAGATTTTTAGT
AAGAAGAGAGGAATAATGGTTTGAAAGGAATCAAAAGGAGCAAAGAGAACCTATACACCACATTCCCACACTGAAGTACTTAGAGTTTCAGAGAATAAGT
AGAGTCTCTACCTGAAATACACAGGAAGCAATGTCCTCAAGGGAAATCCAAATTACATTTAAAGCCAGGAGAAGCAAGGAACTGTCCGTAAAGAAGCAGT
CTAAGGAAATAGGGAAGTTTACTAATCATGCAGCTGAACTTCCATAGAGTACAACTGAAAGTAAGGGAGGAAAAGGGTGTTGGGTCAAGAAAGAACAATC
AGAATATTATGGTGATAAAAATACCAGAGAGAA


SNP Information

Context             (SEQ ID NO:33462):
GGTGTGGTGGTGCGCACCTGTAATCCCAGCTACTAAGGACGCTGAGGCAGGAGAATTGCTGGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATCATG
S
CACTGAACTCCAGCCTAGGAGACAGAGAGAGACAGTCTCAAAAAATATACACACACACACACACACACACACACACACACACATATATATACCATAATAA
Celera SNP ID:            hCV26468378
SNP Position Genomic:     8576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33463):
CCCTTTGGCTTTGCAAAGGAAAACCTCCTTGTTTCTCACCTTTTCTTACCTTCTGGTGAGGTAAGGTGAGGGAGAGAGGCCTTACGTTTCTTCTCACTGC
M
TCTCACAGGTTATCCAAGCCCAGAAGTGTTACCAGAAAGGGGACCGGATCCAGACCCCAAGAGAGGGTTCTTGGATCTCATGCAAAAAAAGAATTCAGGG
Celera SNP ID:            hCV25939156
SNP Position Genomic:     21539
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,24)   caucasian(C,22)   total(A,2|C,46)
SNP Type:                 INTRON


Context             (SEQ ID NO:33464):
ATAGCATTGGGAGGATTCTGCATTTACATCTGAAGAACTTAGAAACACAACTGAAAAATACTATCGTTTTTTTCCTTATCCACACTGGATACATTCCAAG
R
TCCCCAGTGGATGCCTGAAACCACAGATAGTACCATACCCTATATATACTATGTTTTTTCCTATAGATAGGTACCTATGATAAAGTTTAATTTATAAATT
Celera SNP ID:            hCV26468379
SNP Position Genomic:     8169
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33465):
AGCCCGGTGGATTGCTGATTGCCCATTTTTATGGTTATTTCTTGATTATATGCTAAACAAGGTGTAAATAATTCTGGCCTGCCTTTTTTAGATCATATTG
S
GTAACTTCCTGTCGTTGCCATGGCATTTGTCAACTGTCATGGTACTGGTGGGAGTGTAGTAGTGAGGACGACCAGAGGTCACTGTCATTGCCATCCTGGT
Celera SNP ID:            hCV25938266
SNP Position Genomic:     21821
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,3)   caucasian(C,30)   total(C,59|G,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33466):
ATGCTAAACAAGGTGTAAATAATTCTGGCCTGCCTTTTTTAGATCATATTGCGTAACTTCCTGTCGTTGCCATGGCATTTGTCAACTGTCATGGTACTGG
Y
GGGAGTGTAGTAGTGAGGACGACCAGAGGTCACTGTCATTGCCATCCTGGTGTTGGTGGGTTTTAGCCAGTTTCTTTACTGCAACCTGTTTTATCAGCAA
Celera SNP ID:            hCV25936010
SNP Position Genomic:     21870
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,7)   caucasian(T,34)   total(C,1|T,41)
SNP Type:                 INTRON


Context             (SEQ ID NO:33467):
TTCAACACATGAATTCTATTTAATTTGGCCAGCACAGTCACTGTCCTTCTCACTCTCACTCTCTCAAATAGGATTGGCTGTCAACATTTAAATATCAAGA
Y
TTCGGAGCGGGGCGCGATGGCTCACGCCTGTGATCCCAGCACTTTGGCAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGATCGAAACACAGTGAAACCC
Celera SNP ID:            hCV25940079
SNP Position Genomic:     23116
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,18)   caucasian(T,8)   total(C,2|T,26)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33468):
CTCTGTTGCCCAGGCTGGAATGCAGTGGCACAGTCATAGCTCACTGCAGCCTAGAACTCCTGGGCTCAAGTGATCTTCCCTCCTCAGCTGCCTGGGCTTC
Y
TAAAGCACTGGGATTACAGATGTGAGCCACTGCACCTGGCCAAGAAAGCTTCTTTTAATCCTTATTTGCTAAAAGATTTTTTTTTTTGTACATATGAGAT
Celera SNP ID:            hCV3138207
SNP Position Genomic:     11321
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33469):
GGAGGCTGAGGCTGCAGTGAGCCATGATTGTGCCATTGCACTCCAAACTGGGTGACAGAGGGGGACTGTCTCAAACAATAATTATTATTATTACTTTACA
Y
ACTTGATATTTATTTGTCATTTTTGTTGCCTGTAAATGTCTTTGTTTCACCCTTATTAGTGAAAGATCATTTTGCTGGATCTTGAACTCTAGGCTGACTA
Celera SNP ID:            hCV3138208
SNP Position Genomic:     12370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33470):
TATATGGCAGGGAAGAAATATAACAATGTATAAGAAAACAGAAAATGTACCCCTCCCAAGGAACTAGGGAGGGGTAAGGAAGCAATAGTGATGAATGAGG
K
GTCTGGCATTTCATTGTCTGGATGCTGTGACCTGGTGAGTTTCAGCTCTTTGATACTTTTTTTGAGTGGCCTGAGGGTGTTGCTAAGAAGGAACTCAGAT
Celera SNP ID:            hCV3138209
SNP Position Genomic:     12906
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33471):
TCAGGTACCTCAGGTGTCCAAGCATCACTACCAGATTGCCCTTGACCACCAGATTCTTTCAGCAGCCTTGGGGTGGGGGAGTGGACAGTGAAGGTGACTG
Y
TGCAAGCATTAAGTGTTGGAGTGCTATACTGCTTCCATCCTCTCCAGCCCCTCTGTTCCCCAAGATTTGTTTCTCCTGGAGTGAATACACGCGGAGGACC
Celera SNP ID:            hCV586058
SNP Position Genomic:     22415
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33472):
AGCCTTGGGGTGGGGGAGTGGACAGTGAAGGTGACTGTTGCAAGCATTAAGTGTTGGAGTGCTATACTGCTTCCATCCTCTCCAGCCCCTCTGTTCCCCA
W
GATTTGTTTCTCCTGGAGTGAATACACGCGGAGGACCTTAAGAGCAAGGTCTTAAAATATGTGCAACACATACAAGCTTTTCAAAGAACAATTATTCAGA
Celera SNP ID:            hCV586059
SNP Position Genomic:     22478
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33473):
CCTGACCTTGAGTGAGCTGCCTGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGTCGGCGCACCCGGCCTCTGATTTTCAGTAAATACGTTGTC
R
TTTACTTGATGTTTCCATGGGAGAACAGGGACCTGGAGCTTCTGCCATCTTGCTGACATCACCATAACATAACTCTTTAGACTTCCAAGTCTTGTCTTTT
Celera SNP ID:            hCV952472
SNP Position Genomic:     7819
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33474):
AACACATGAATTCTATTTAATTTGGCCAGCACAGTCACTGTCCTTCTCACTCTCACTCTCTCAAATAGGATTGGCTGTCAACATTTAAATATCAAGATTT
Y
GGAGCGGGGCGCGATGGCTCACGCCTGTGATCCCAGCACTTTGGCAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGATCGAAACACAGTGAAACCCCGT
Celera SNP ID:            hCV8362510
SNP Position Genomic:     23119
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,5)   caucasian(C,8)   total(C,19|T,5)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33475):
ATTCCCTCTTAGCTGAGAGTTTTTATCAGGAATGGTTGTTGGATTTTGTCAATGCTTCTCCTTCATCTATTGAGATCAATCACATGGTTTTTAGTTTGTT
W
ATATGGTGAAATACAGTGATTGATTTTGGGATGTCAAATGAACTTTGTGTTCCTGCAATAAATCCTACTTGGTCATGATGTATTATTTTAAAAATATATT
Celera SNP ID:            hCV952490
SNP Position Genomic:     19098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33476):
GCGATGGCTCACGCCTGTGATCCCAGCACTTTGGCAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGATCGAAACACAGTGAAACCCCGTCTCTACTAAA
M
ATACAAAAAAAAAAATTAAATTAAATATCAAGATTTCTGGCTTCTCTTGAAGAATTAGGTGATGGGCCCACATTTCCACACTAAAACAACTGTCCAGAAC
Celera SNP ID:            hCV8362512
SNP Position Genomic:     23230
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,13)   caucasian(C,8)   total(A,7|C,21)
SNP Type:                 UTR 3


Context             (SEQ ID NO:33477):
GATGTCAAATGAACTTTGTGTTCCTGCAATAAATCCTACTTGGTCATGATGTATTATTTTAAAAATATATTGTTAGATTTGATTTGCTGATTTTTAAAGA
R
TTTGTGCATCTATGTTCTTAAGGAACATTGGTCTATAGTTTTCTCGTAACGTCTGTTTGGTTTTGCTATCAGGGTAATGCTAGCCTTGTAGAATGAGTAG
Celera SNP ID:            hCV952491
SNP Position Genomic:     19228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33478):
GCACATCCTCAACCTTGGAAAAATAAACTTTTAAATTGATTGAGACTTGCCTCAGTGATTTTCTTTGGTGTATACTCTGTATCACTTGAATACTTTCCAA
K
TGAAGACATGCTTTATAATCCAGAGTATGGACTGTTTTGGCCAGATGTTTTCTATATACTGGAAAGAAATGTGTATTCTGCTGTTGTTGAATGGCATGTT
Celera SNP ID:            hCV952492
SNP Position Genomic:     20508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33479):
TATAATCCAGAGTATGGACTGTTTTGGCCAGATGTTTTCTATATACTGGAAAGAAATGTGTATTCTGCTGTTGTTGAATGGCATGTTCTATAAATCTCAA
W
TACATCAAGTTGGTTGATAGTCTTGATGTCTTCTATATCTCTGTGGATTTTCCATTTGTTCTAGTGATTATTGAGAGAAAGGTATTGATATATCTGCCTA
Celera SNP ID:            hCV952493
SNP Position Genomic:     20622
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33480):
CTCTGGGACCACCTGCCTAACTCCTTGTACACTTCCAACCACCCTTACTCCGTGTCTCCCAGACAACCAGACTGGGGCAAGTGTTGGGAAGATGGAGACA
Y
AGGAATGATCAGGATGGGAAAGAGGCTCCTCCCCCTCCTCCAACAGGCACTGCTTCCAGCCCAGACTGGTGTGTGTGGTTGTAGGGCAGGAGGGGGTGTA
Celera SNP ID:            hCV952494
SNP Position Genomic:     21025
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33481):
TCTGTGACCATACTTTGTTATTTATTTTCCTGGGACATGGTATAGTTCATCTCCAGTCACCTTCCTCTGGACTTACAGGTTATTCTTGTCCAGAATTTTA
S
TGCTATTTTAAAAATTTTAACACAAAATTTGGTCATAACTATTATTGTTGGCTGGGTGCAGTGGCTCACACCTGTAATCCCAACACTTTGGTAGGCTGAG
Celera SNP ID:            hCV952478
SNP Position Genomic:     12011
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33482):
AAAAATTTTAACACAAAATTTGGTCATAACTATTATTGTTGGCTGGGTGCAGTGGCTCACACCTGTAATCCCAACACTTTGGTAGGCTGAGACAGGAGGA
Y
TGCTTGAGCCCAGGAGTTCCAGACCAGCCTGGGCAACATAGGGAGACCCCATCTCTACAAAAAAATTTAAAAATTAGCTGGGCATGGTGGTATGTGCCTA
Celera SNP ID:            hCV952479
SNP Position Genomic:     12121
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33483):
ATGGAAGAGTGGGATGAAATCAGAGTTGTTACCTGATATTCAACACATGAATTCTATTTAATTTGGCCAGCACAGTCACTGTCCTTCTCACTCTCACTCT
Y
TCAAATAGGATTGGCTGTCAACATTTAAATATCAAGATTTCGGAGCGGGGCGCGATGGCTCACGCCTGTGATCCCAGCACTTTGGCAGGCCGAGGTGGGC
Celera SNP ID:            hCV25940115
SNP Position Genomic:     23078
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,1)   caucasian(C,8)   total(C,27|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:33484):
TTTGTTCACAACGCTTAAAGATGGGGAGAATAATTAGAACAAATTTCACTGGGAATACACTTGACAGGTGAAGTACATTAACCACATAGTGAATGAGTTC
Y
AATTTTGTTACAGTCGAATTATTAAAGTCTAGTTGGTCAATTAGGATGACAACAGGCTTCTGTGGAAAGAAAAGTCTAATTGAAGTTTAGGGAGTGCCTT
Celera SNP ID:            hCV8362482
SNP Position Genomic:     18223
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33485):
ATTTTCAGACTGCAGTTGATCATGGGTAATTAAAACTATAAAAAGTGAAACCACAGATGAGGGGATACTGTAGTACATTTAATAAATGTTACTTGCCATT
R
ATATTTCTGTAGATTTTTGATCAACTTTTGCTCTGGAAGATCAGAGGGGACTGACCTAATTAGGTCTGATAAAAGGCTTAACTTTATCACTTAGCATTGC
Celera SNP ID:            hCV12106363
SNP Position Genomic:     8836
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33486):
CTAATTAGGTCTGATAAAAGGCTTAACTTTATCACTTAGCATTGCTTGAGTATTTTACTGGCCTGGTGGGTGTACTGAGAAAAGCAGGCTTATGTTTCAA
Y
AGTGGACTCTATTGTGCGAAATAAATATGAGTCTCCTCCCTCTTTGCTGTTGCCTTATTTGTACTAGCATGCCAGTTTGAATACACAGTGTTCATGTCAA
Celera SNP ID:            hCV12106364
SNP Position Genomic:     8992
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33487):
AGTCTTTTATCAAATATGGATTTATTAAAAAATAATATTATATATAGTATTATTTTGTTCTCATATTTTAAATATAAAATAATGTATGTTTTACTTTTTC
Y
GATTTGTTTTTTTCACTCAACATTCTTGTTAATGACTTATCTATGCTGATACATGGATCGTTGTAGTGGGTTCATTGTTAACTGTTGCATAGAATTTCAT
Celera SNP ID:            hCV12106366
SNP Position Genomic:     9668
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33488):
GTGAGCTGAGATCATGCCACTGAACTCCAGCCTAGGAGACAGAGAGAGACAGTCTCAAAAAATATACACACACACACACACACACACACACACACACACA
Y
ATATATACCATAATAAAAATTATGTGAATGTAGCCCCTTTCTGTCTCAAAATATCTTATTGTGCTGTACTTACCTATTTTCAGACTGCAGTTGATCATGG
Celera SNP ID:            hCV16286138
SNP Position Genomic:     8660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33489):
GGTTGAATCTTTGTTTATCACAATTATGAGCAAATGTATTATCTTCACTTAGCTTCAATTTCTACATTTATAAGGTGGACATAAAACACCCATCTCACAG
R
GTTGCCATGAAGATTAAGTGAAATGCTATTTCAGCTGATATTTGTGCTACACATATTTTCCCCCAGACTACACCGTAACTTTTCAATTTGTTTGTTGTAC
Celera SNP ID:            hCV12106367
SNP Position Genomic:     10306
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33490):
GGTTTTAGCCAGTTTCTTTACTGCAACCTGTTTTATCAGCAAGGTCTTTATGACCCATGCCTTGTGCCAACCTCCTGTCTCATCTTGTGACTAAGAATGC
Y
TTAACCTCCTGGGAATGCAGCCCAGCAGGTCTCAGCCTTATTTTACCCATCCCCTAGACAAGATGGAGTTGCTCTGATTCAAACGTCTCTGACAAAAGCA
Celera SNP ID:            hCV29130214
SNP Position Genomic:     22029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33491):
GTACCTTTAGATACATAGACACATTTTATTTGTAGTCAAATGTATTATCCTACATAATTTACATTTTATATGTTCTGTATCCTTCCCTACCCCAAGCTCA
K
AAACAGATCATTATTATAATTTCTTTTAAAAGTTTAAAGTTTTGCTTTCACATCAAACTGATTATCTACCTGAAATGGATCTGTATATATGGTGTGATAT
Celera SNP ID:            hCV12106368
SNP Position Genomic:     10503
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33492):
TGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGCAGCTGAGGTGGTTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTCACACGGTGAAACCCC
R
TCTCTACTAAAAATACAAAAAAAAAATTAGCTGGGCGTGGCGGTGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCC
Celera SNP ID:            hCV3138211
SNP Position Genomic:     13144
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33493):
TGGGCCTCAGTTCCTTCATCAGTAAGATGAGGGGCAAAATAGCATTGGGAGGATTCTGCATTTACATCTGAAGAACTTAGAAACACAACTGAAAAATACT
R
TCGTTTTTTTCCTTATCCACACTGGATACATTCCAAGATCCCCAGTGGATGCCTGAAACCACAGATAGTACCATACCCTATATATACTATGTTTTTTCCT
Celera SNP ID:            hCV586025
SNP Position Genomic:     8131
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33494):
GACTGGACCTTCTTTCTGTTCCTTGCACAGGCATGCTCCTTCTAGCACAGGAACTTGGCATATGTTGTTGCCTCCCCCCAGGAATGCTCTCATCCTCCCC
Y
ACGAATTTCCTCTGGTTAACTCTTATTTTAGGATCTCATACAACACTTCCACAAGGAAACCCTCCCAGACCTCTCTAACGAGGCGAAGCATACCTACTAT
Celera SNP ID:            hCV3138212
SNP Position Genomic:     16832
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33495):
TCTGGGCTGGAGTTTTCTTTTAAAGAGAAGGTCTCTTTAAAAATTTAATTTATTTAATAAATAAAGAACTATTCAAGTTATCTATTTCTTCTTGAGTGAA
S
ACTGGTTCTTTGAGAACTATTCATTGATCTTTTTTCCTTGTTTACTGTTTACTGCTTTATTGATTTGCACTCTAATTTTCATTATTTCATTTCTTCTGCT
Celera SNP ID:            hCV3138213
SNP Position Genomic:     19520
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33496):
TTTAAAAATTTAATTTATTTAATAAATAAAGAACTATTCAAGTTATCTATTTCTTCTTGAGTGAAGACTGGTTCTTTGAGAACTATTCATTGATCTTTTT
Y
CCTTGTTTACTGTTTACTGCTTTATTGATTTGCACTCTAATTTTCATTATTTCATTTCTTCTGCTTATTTTTCATTTCATCTGCTCTTCTTTTTCCAGTT
Celera SNP ID:            hCV3138214
SNP Position Genomic:     19555
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33497):
GAACTATTCATTGATCTTTTTTCCTTGTTTACTGTTTACTGCTTTATTGATTTGCACTCTAATTTTCATTATTTCATTTCTTCTGCTTATTTTTCATTTC
R
TCTGCTCTTCTTTTTCCAGTTTCTTAAAGTGGTTAAGAATGTTACTTAAGTACTGCTTGAGCAACATTCCACAAATTTCGATATGTTTTCAATTTTTATT
Celera SNP ID:            hCV3138215
SNP Position Genomic:     19634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33498):
GTGACTGTTGCAAGCATTAAGTGTTGGAGTGCTATACTGCTTCCATCCTCTCCAGCCCCTCTGTTCCCCAAGATTTGTTTCTCCTGGAGTGAATACACGC
R
GAGGACCTTAAGAGCAAGGTCTTAAAATATGTGCAACACATACAAGCTTTTCAAAGAACAATTATTCAGAATACATACAGAACTCTTACAAATCAGCAAG
Celera SNP ID:            hCV586060
SNP Position Genomic:     22508
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33499):
AAAAGAATTCAGGGTGAGTCCATAGAGTAAAGTGAAAGTAAGTCTATAATGAAAGTGAAGGAATAGAAGGATGGCTGCTCCTCCATAGACAGAGCAGCCC
R
GTGGATTGCTGATTGCCCATTTTTATGGTTATTTCTTGATTATATGCTAAACAAGGTGTAAATAATTCTGGCCTGCCTTTTTTAGATCATATTGCGTAAC
Celera SNP ID:            hCV25938657
SNP Position Genomic:     21726
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,25)   caucasian(G,36)   total(A,3|G,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:33500):
TACTTTACACACTTGATATTTATTTGTCATTTTTGTTGCCTGTAAATGTCTTTGTTTCACCCTTATTAGTGAAAGATCATTTTGCTGGATCTTGAACTCT
R
GGCTGACTATTGTTTTCTCTCAGCACTTTGCAGGTATTATTCCATTGTATTCTGACCTGTATTGCTGCTATGGAGTAGCCAGCTATCAATTTAACTGGCA
Celera SNP ID:            hCV952480
SNP Position Genomic:     12461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33501):
GAATTTCCTCTGGTTAACTCTTATTTTAGGATCTCATACAACACTTCCACAAGGAAACCCTCCCAGACCTCTCTAACGAGGCGAAGCATACCTACTATAC
R
CTCGTGTAGCACCATGCACCTTTCTACTTTAGTACTTCCGACAAGTAGGTTTATGTTTATTTATAGGACTCTTTGATTACTATCTGCCTCCCACTCAGAG
Celera SNP ID:            hCV952483
SNP Position Genomic:     16935
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33502):
TACTATACGCTCGTGTAGCACCATGCACCTTTCTACTTTAGTACTTCCGACAAGTAGGTTTATGTTTATTTATAGGACTCTTTGATTACTATCTGCCTCC
S
ACTCAGAGTATAACCTCCACAAGGGTAGGGACCAAGGAGCCAAGTTAAGTTTCCAAGCAGGGCACACACTGCCAGATCCCGTATTAAACACACACATCCT
Celera SNP ID:            hCV952484
SNP Position Genomic:     17027
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33503):
TTGATTACTATCTGCCTCCCACTCAGAGTATAACCTCCACAAGGGTAGGGACCAAGGAGCCAAGTTAAGTTTCCAAGCAGGGCACACACTGCCAGATCCC
R
TATTAAACACACACATCCTTGCAACACCAAATTGGGAAGTTCCACTGCTGGCTGTCCGCTGTTGCCCTTTCTCCTCTTTCTTCTTTCACGGGCCTCTCCA
Celera SNP ID:            hCV952485
SNP Position Genomic:     17108
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33504):
TTACTCTCCCCCTACAATAAAGACTACATTTTCCTGTTTAAAGAACCTCCCTTTCACATTTCAAGTCTTTTCTTGTAGTCTATAGGTATGTGATAATGGA
R
TGATGGTCACAAGATTGGTTTGTGTCTAGCAACGTGTTGAGGCTCTTTTAAAAAGTAAAGATGTAAAGATCTCAAAGTCTTTTGAGAAAACAGGAAAAGT
Celera SNP ID:            hCV952486
SNP Position Genomic:     17486
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33505):
TTTTTCTTTTCAGTGTATTTTCTTCCACTGTTTTATCAAGTACTGCTTTTCTCCACTTCATTTCACATCACATGCATTGCTCCAAATTACTCCATGCTGA
W
TACATGTATCTTAAATGGATGCATAATATGATGCATGGTTTCACAAAACTTTATTTTGTAATCAATACTGAAATGAACTTCTTCGCAGATGTAGGATTTT
Celera SNP ID:            hCV952487
SNP Position Genomic:     17786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33506):
ATAATTAGAACAAATTTCACTGGGAATACACTTGACAGGTGAAGTACATTAACCACATAGTGAATGAGTTCCAATTTTGTTACAGTCGAATTATTAAAGT
Y
TAGTTGGTCAATTAGGATGACAACAGGCTTCTGTGGAAAGAAAAGTCTAATTGAAGTTTAGGGAGTGCCTTTATATGGCTTGAGCAACACAGTGGAAATC
Celera SNP ID:            hCV952488
SNP Position Genomic:     18252
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33507):
TTCTCAGAGGGAAGAGAAGTACACTCCAAGTTCTTACCACATAAAACATATATCACTCATGTAGCAAATTATGTAAGTGTTTGAAATCATTTCAAAGCTA
Y
GTAACACACATCGAATACTTCCATCAAATGTCCATATAGACTATCATGTAATCAAAGAATAGACTCCTTTTTTCCCCAACAGATGCCTCTTTTTTCTTTT
Celera SNP ID:            hCV952489
SNP Position Genomic:     18724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33508):
TTCCATCAAATGTCCATATAGACTATCATGTAATCAAAGAATAGACTCCTTTTTTCCCCAACAGATGCCTCTTTTTTCTTTTTCTTGCCTTATAGAACTG
R
CTAGATTCTCCAGCACAACATTGAATAAAAATGCAGATATTCTTGTCTTGTTCTTGAGCTTAGGACAAAATCATTCATGCCTTTCACCATTAAATGTAAT
Celera SNP ID:            hCV26468370
SNP Position Genomic:     18843
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33509):
CCAGCTTGAGAATTTGTCAGACTTCTTTAATCTGTTGTTTTGTCTTTCATCAATTTGGGGGAATTTCTTCAAGTATTGTCTTTCTCCTATCTACTCTTTC
S
TGCTACATCAAATTTATACAACATGTTCTCTTCTATCTTATGTGGATGTGGCTTTTAAGTTCTTTTTCATGTTGTTCATCTCTTTGTCTTGAAGTAATTT
Celera SNP ID:            hCV8362471
SNP Position Genomic:     13576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33510):
AATGGTGTGAACCCAGGAGGTGGAGCTTTCAGTGAGCTGAGATCATGCTACTGCACTCTAGCCTGGGCGATACAGTGAGACTCCGCCTCAAAAAAAAAAA
R
AAAAAAGAAATTGACCAGAAGGGTCCATTTCTATGTTTATCCAAAAACAAAAAGACAACAAAAAAAGTGTCTATGGGACTATTGGGTTGATTTCATCCAG
Celera SNP ID:            hCV26468372
SNP Position Genomic:     13331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33511):
TGGCATTTCATTGTCTGGATGCTGTGACCTGGTGAGTTTCAGCTCTTTGATACTTTTTTTGAGTGGCCTGAGGGTGTTGCTAAGAAGGAACTCAGATAAA
A
CAAATGCAAGTTTCAAGCTTTAAGGGCCAGGCTTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGCAGCTGAGGTGGTTGGATCACGAGGTCAGGAGA
Celera SNP ID:            hCV26468373
SNP Position Genomic:     13010
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,10)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33512):
TTTAAATATGGGTAACCAATTGTCCTAAGATCAAATATTGAATAGACCATTTTTTCTACTTTGATTTGTAGGGCTTACTTTTGTCATATTACTGTCCCAT
R
TATGAAGGTCTGTTTCTGGTCTCTTTATTCTGTTTCAGTGGTCAAAAACCACACAATTTTAATCACTATAATTTAAAAATAAACACTAATATCTTTAAAA
Celera SNP ID:            hCV12106370
SNP Position Genomic:     10719
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33513):
AGTGAGCTGAGATCATGCCACTGAACTCCAGCCTAGGAGACAGAGAGAGACAGTCTCAAAAAATATACACACACACACACACACACACACACACACACAC
A
TATATATACCATAATAAAAATTATGTGAATGTAGCCCCTTTCTGTCTCAAAATATCTTATTGTGCTGTACTTACCTATTTTCAGACTGCAGTTGATCATG
Celera SNP ID:            hCV26468374
SNP Position Genomic:     8659
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,6)   total(A,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33514):
TCCACATTTAAATATTGAATACTTCAAAATCCTATTTGGAAAAAAGTACAGGTCACAGATCCTACAATCCTACTGTGGCTTGTGTCTCTTTTTCCGAGGC
M
CATCCTCAACCTTGGAAAAATAAACTTTTAAATTGATTGAGACTTGCCTCAGTGATTTTCTTTGGTGTATACTCTGTATCACTTGAATACTTTCCAAGTG
Celera SNP ID:            hCV8362491
SNP Position Genomic:     20410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33515):
TATCGAGGCTCTTTACATCTCTCTTCGTAAATGAAACTGGTCTATGTATTTTCTTTCTTCAGCTTTTTACTGGCTTTGGTATCAAATTAGATTGATTACC
K
TAAATGAATTTGAGAGCATTTCCCGCCCAGTGTCCCCCTTTTTGGATTATTTGGAACAACTTGTGTAAAATTAGAATCATATGCCACTTGAATATTTGAC
Celera SNP ID:            hCV8362459
SNP Position Genomic:     11536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33516):
CAGTGAGCTGAGATCATGCCACTGAACTCCAGCCTAGGAGACAGAGAGAGACAGTCTCAAAAAATATACACACACACACACACACACACACACACACACA
C
ATATATATACCATAATAAAAATTATGTGAATGTAGCCCCTTTCTGTCTCAAAATATCTTATTGTGCTGTACTTACCTATTTTCAGACTGCAGTTGATCAT
Celera SNP ID:            hCV26468375
SNP Position Genomic:     8658
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,6)   total(C,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33517):
GGAGAATTGCTGGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATCATGCCACTGAACTCCAGCCTAGGAGACAGAGAGAGACAGTCTCAAAAAATAT
A
CACACACACACACACACACACACACACACACACATATATATACCATAATAAAAATTATGTGAATGTAGCCCCTTTCTGTCTCAAAATATCTTATTGTGCT
Celera SNP ID:            hCV26468376
SNP Position Genomic:     8625
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33518):
AGGAGAATTGCTGGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATCATGCCACTGAACTCCAGCCTAGGAGACAGAGAGAGACAGTCTCAAAAAATA
T
ACACACACACACACACACACACACACACACACACATATATATACCATAATAAAAATTATGTGAATGTAGCCCCTTTCTGTCTCAAAATATCTTATTGTGC
Celera SNP ID:            hCV26468377
SNP Position Genomic:     8624
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Gene Number:                 143
Celera Gene:                 hCG2041028 - 209000073581653
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VSLS(5545599..5581483)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12303):
GTGCAGTGGCACTATGATGGCTTACAGAAGGCTTGAACTCTTGGGCTCAAGGGATGTCCCACCTCAGCCTCCCAGGTAGCCAGGACTTCAGGTACACGCC
ACCATGCCTAGCTAAGTTTTTGACTTTTGTAGAGACAAGGTCTCCCTGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGCAATCCTCCTGCCCCAGC
CTCCCAAGGTGCTGGGATGACAGCTGTGAGCTACTGCATCTGGTTCCAGTTTTCTTTTTTTTTTTTTAAATGGAGTCTCGCTCTGTTGCCCAGGCTGGAG
TGCGGTGGCACAATCTCAGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGAACTACAGGTGCATGCC
ACCATGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACAGTGTTTCACCATGTTAGCCATGATAGTCTCGATCTCCTGACCTTGTGATCCGCCTGCCTC
GGACTCCCGAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCTGCTCCAGTTTTCTTATAATGTGCTTATATTAGTTTATAATTTGAAAATATTTTGT
AGTTCCTTCACTGAAACTTTTAAAGAGCAGGAATTGATTCTCCTTCCATTCTCTCTTCCTCTCACAGGGAGGATAAATTACACAGAACAGAAAATATGAA
AAGTGAATCACTCCAGACTTTAAGGCATGTAGAGAAATCCACAAAGAGCAGTTGCAAGGGTCATATTACCCCCAGTATATTACCCTAGAGTGTTGCATTT
TCCTGTGTTTCTTTTCTTTCTTTCTTTCTTTTTTTTTTTTGAGATGGAGTTTTGATCTTGTTGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACC
GCAACCTTTGCCTCCCAGGTACAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCACGCCCAGCTAATTTTGTATTT
CTAGTAGAGACAGGGTTTCTCCGTGTTGGTCAGGCTGGTCTCCAACTCCCAACCTCAGGTGATCCGCCCGCCTTGGCCTCCCAAAGTCCTGGGATTACAG
GAATGAGCCGCCGCACCCGGCCTGTGTTTCTTTTCTTTTAGAGCATTTCCTAATTTGTAATCATATATTTATTAGTGTAATTATTTGATTAATATTGTCC
TCTGCTACACTCTACAAGAACAGCACTCTTGTTCACCAATGTATTGTATCTGTAGTGCCTGGCACATAGTAGACACTCAAATAAATATTTGTTGACTAAT
AAATGAATGAGAGGCCATTATCCTAAGCACAGGAACAGAAAACCAAGTACTGCATGTTCTTACTAGTAAGAGGGAGCTAAACATTGAGTACTTATGGACA
CAGAAACGGCAACAATAGAGACTGGGGACTACCAGAAGGGGGAGGGTTTAAAAACTATCGGCCTACACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAG
GTCAGGAGTTCAAGACCAGAGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTAGTGGTGCGGGCCTGTAATCCCAGCTACTTGGGAGGCT
GAGGCAGGGAGAATTGCTTGAACCTGGAGGCGGAGGTTGCGGTGAGCCGAGATTGTGCCATTGCGCTCCAGCCTGGGAAACAATTGTGAAACTCCATCTC
AAAAAAAAAAAAAAAAAAAAATTAGCGGGGTGTGGTGATGCATGCCTGCAATCCCAGCTACTCAGGAGGCTGAGGCACAAGAATCACTTGAACCCAGGAG
GCGGAGGTTGCTGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCTGTCTCCCGGAAAAAAAAAAAAGACCAGCCTTCCCA
AGATAGTGAGGGCCACATCCCTACAAAACAAAATTTAAAAATTAGCCAGGTGGCCGGGCACAGTGGCTCAAGCCTGTAATCTCAGCACTTTGGGAGGCCG
AGGCAGGTGTGTCACCTGAGGTCAGGAGTTCAAGACCATCCTGGCCAATATGGTGAGACCCTCATCTCTACTAAAAATACAAAAATTAGCCGGGCAAGGT
GGTGCGTGCCTGTAATCCCAGCTACTCAGGAGGTTGAGGCACAAGAATTGCTTGAACCTGGGAGGCAGAGTTTATAGTGAGCCGAGATCGTGCCACTGCA
CTCCAGCCTGGGCAATAGAGTGAGACTCTGTCTCAAGAAAAAAAAAAAAAAAAATTAGCCAGGTATGGTGGTGTGCACCAGTCTCAGTTATGTGGGAGGC
TGAGGTAGGAGGATCAATTTAACTCAGGAGGTCGAGACTGTAGTGAGCCATGATTGCGCCACTCTATTCCAGCCTGGGCAATAGAGTGACTGTTTTAAAA
CAAACAAACGAACAACTGGGTACTATGCTAAGTATCTAGGTGACAGGATCATTAGGATCCCAAATCCCAGCATCACTCAATAAAGCCAGATAACAAAAAC
CTGCACATGTGTCCCCCCTGAATCTAAAATGAAAGTTGAAAAAAAAAATTATGGCTGGGTGTGGTGGCTCACACCTATAATCCCAACACTTTGGGAGGCT
GAGGCGGGTGGATCACGAAGTCAGGAGTTTGAGACCAGCCTGACCAACATGTTGAAATCCTGTCTCTACTAAAAATATAAAAATTAGCCGGGCATGGTGG
CGCCCTCCTGTAGTCCCAGCTACTCAGGAGGCTGATGCAGGAGAATCGCTTGAACCTGGAAGGTGGAGTTTGTAGTGAGCCGAGATCACGCCACTGCACT
CCAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAGAAAGAAAGAAAGAAAGAAAATTATTCAAGCCAAACATCAAACATTAACTTTTG
CCATTTAATGTTTCACTCAGAAATTAAACTTTCATAACCCAGTGCAAGCTGCATAAAGAAAAAGATAATTTGACTGGGCGCAGTGGCTCACGCCTATAAT
CCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACAAGGTCAGGAGATCAAGACCATCTTGGCTAACACAGTGAAACTCCGTCTCTACTAAAAATACAAA
ACATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGGGTGAACCCGGGAGGCAGAGCTTGCAGTGAGC
CAAGATTGCGCCACTGTACTCCAGCCTCGGCGACAAAGCCAGACTCCATCTCAAAAAAAAAAAAAAAAGAAAAGAAAAAGGTAATTTATTAAGCCTTGGA
ACTGAGAAGGCTCAGATCTGTCTGAAGACACGGCTTCATCTGAGGTCAAAGATGTCATGGAGTCTGATTTCTCTCTCCCCCTGTTTTAGCTGTACTTCTG
TGCAGGCTCCATTCTCAGGCTCTCTCCTCTCTGGGGCACAGTGACTACAGAAGCCTCAGCCCCACATCCTCCCATGTTCAGGTCTAGGGAGATCCTTCAT
AGCTCCTGACAGGCCTTGAGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTAAGGCAGAAGGATAACTTGAGGCCGGGAGTTTC
AGGCCAGCCTGGCCAATATGGTGAGACCCCCATCTCTACTAAAAATACAAATATTAGCCAAACTTGGTGGCACGCACCTGTAGTCCCAGCTGCTTGAGGT
CGCTGGAACCCAGGAGGCGGATGTTACAGTGAGCCGAGATTGAGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTGTCTAAAAAAAAAAAAAAAAA
AAAAAAAAAGTAAATGAATGAATGAGGGAACAGAATTGGCCTGTCTCAGGATTGCTTTTTGGGATAAATATTTCCAATTAAAGGGGCAGATTGATTCTCA
GCACTACGAACCATCATCTCTCCCTCTGGTAGTGATGGTCTCAGAAATTACATTTCAAGAGGAAAACAGAAAGACCAGAAGTCCTAACTACAGCAAGCAG
CAAACCAACTCACTTGTCAAATGAGAGTATCTAGGATGGGAGCCTGGAATCTGCATTTTTAAACAAGTGCCTCAGATGATTCTGAATCAAGTGGTCTGGG
GACCACAGTTTGGAAAACACACCCTAGAACATCCTTTTGGAGTCTGAGTGTTAACCTCACTGAGAGTCCTCCAGCTTTCCAGAGAATCAGGCTGACATCA
CTGTGCCTATGTAATGTGAATCAGTCTTTATTTTGCACTTGTGTGGKGCATTAACAAATTCAASATACAAGATAGCATTACATATTGTAGATTAGCATTA
CAGCATTATGCAATTTCACACAATTCATGTTAGCTTTTTCAGTTTTCTTTTTTTTTCAAAATTTGACACATTTATTTTATTTTTGAGTTTCATTTTTACA
AGAGAAGACACAAGGTAAARAAAGACAACCACTTTGGAGAGGGATCATGGTGAGGGCAATGTCACTGTCATGGCCATAGTACAAGCCTTCCAAGAAAAGG
GACCTGCGTTATTCCCTCTCCTGAGCAAGCTGCCCCTGTCCCACAAACCAGTTCTATCTGTTTTCACATCTAGAGCACTGTCCATAAACATGTCCATCTT
GGCTGTGCTCCAGTGAGATGAACTGAAAGAAGGAATAACTCATAAAGGGACCTTTGTTATTAAGAAAAATTCTTGTCTTCCCAAAGGAATCAAGATCTCT
TCAGAGAAGGAGCAACTGTTGGAAAATCAGAAGTGACCATTCCCTAACCTATTCCTGACCACGAATGCCTTGTGCAAAAGCTAAGATGTGACTCTCTTGT
CTTTCTTTCAACTGACTCTTAGGAGAAGGCATTCCTCCTCCACTCTTATCAGTTAGCTCTGGAAAGAACAAATGTGAAAGCCAAAGTCAGCTAAGAAACT
TTGAGACGGCAAAGTCAAGGGCACGATGGATCAGGCCTGAGGTAGGAGGGAGGAGCCCTGCACTGTCCGCCTCTTTGCCTTTTTCTGGCAAAGACACTGA
GGCAGTTCCTAGGCTACAGAACAACTGGTTCCTCCCCTGTCACCTCAGCACCCACTGCTCAGTAGACCCAAAGATGCAAGGAATAAAGCTACAAGGAAAT
GGGGAAGAGAGAGGAGAGTGGGGTGAGGCTGTTTTCCCAGACGTTTGTCAGGAGGAGCTACAGAGGCACACACAGCAGGGCAAAGACCAGACTATCTCCA
CCTGTTGTTTTGCATTGTTTCTGGGAAGGAAACAAAAGCGGGTTTGCTCAGCGATTTCTGATCTTTAGACATTAAGGCGATGAAGAGGAACCATTTAAAT
TTTTTCCTAATGGGGCTTCAGAATGCTCCTGTCAGATTTACATTAAACTATCTCAAAATGCATTTTTAGAAAACAAAAATTATTTTCTTCTACTTATGAT
ACAGTATTTACATTTCATGGGGTATAGGACAGAGACTAGTGGTATGACCCCAACTGATGGTGAAGTTGTGAGTCAGATTATGGGGGGTGGGGGTTGGCAG
GGACAAGAACAGAGAGTAGGCTTTGTGACTGCTCAGAATTGCTCTGCATTGTCAAGAACATGGGCTGAAATCAAACAAAAGGTTTAGGGGGAGCAGAATG
GTTTTAAATCCACAAAAGCTGAGGGAACACTGAAAGCAAGATCACCCCCCCGTCCATAGAGACTCAGCTTTCCGACTCCCTTCGCCAAAGCAAGGTTAAA
AGTGATGTTCTTCTATGGAAGTGAACACTTCAGTCTCAACTAACCTTTCACGCCCTGGATCAAGCTGTTAAGCAACAGCTTGACTGAGTTCCTCCTCAGG
TGGGCAAAAATATCTACTGCCTATCCAAGTTTACCTAGTTTATTTTAATTAATTAATTAATTAATTTTTGAGACAGGATCTCACTCTGTTACCCAGCCCA
GAGTGCAGTGGCATGATCATGGCTCACTGCAGCCTCTACCTCTGGGCTCAAATGATCCTCCCACCTCAGCCTCCTGAATAGCTGGGACCACAGGCGTGCA
GCACCACACCTAGTTAATTTTTTGTATTTTTGATAGAGATGGAGTTTCGTCATGTAGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGCGATCTTTCCAC
CTCGGCCTCCCAAAATACTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCCCAAGTTTACCTATTATCCATGGAGTCTGTGCCATCTGCAAAGTCTCAA
CGTTGGAGACACAGCTGCTGTAGGAGTAAAGAGACTTGAATTCTAATCCCAGAAAGATGCTGAATCTCTCTCAACCTCTATTGCCCATTGGTAGAAGAAG
AATTGCATCCTGTAGTTCCTCCATCCCTCCACCATGTGGTAAGACATAAATTCCAAGAATTATGCAGCTCGTTTTGAGGAAAAGAATGCTCTGAAAGAAT
CCAACTTATCTTCATTCACTCAGTCACACTGTTATTTTTTTAAGAGCTAAATTTTTATTGAAAAATTTAAGGAGAACTTCTGAGGGCCCCTGTTTTATGA
AGCAAAGCTAACCTCATTACAACATCTAAGCTATTTGAGAAGACTCTAAAGCATCTCCATGGTCGGCATTTCCAGAAAAACAAAGGCCAGTGTAATTCTT
CAAACCTCTGATGACTTCCAACCCATCAACCAAGAAATGGCTGTCACTACAGTAGATAGCTGCAAAGGGGAATGGCTGTCGTCACTTGTCTCCTCTCCTT
GTCCTTATACCTGAAAACAGCTTTTGGGATCAGCTGGATGTGTTCATTGGTACTATCCTATAGCTGAATTTGAAGTTTCCAAAGCTCCTTTTAGAGAAGT
CATCAAGTTTGATAAAATCCAAGTTCTGATGTCTTGGATGCATAAGTCTGATGTATTCTCTGTGCTTCAGTTAGGTCTGTCAGTTAATTATAGACTGCCT
TTTACTACTTCATAGCAGAAGAGCTGATAGCAAAAATACCCCATTTCTCAATTCCTCTTTCTCCTGCAAACCTTGCCTCATCCACCCCACCTTTGTTTCT
TGGCTTACTGCAGACCTCTAGACCTTGAGGTCAAAGAGCAGAGATATAAGAGGCAATAAAAAGAAAAGATRGGAATGATGAAAACATGAGGTTTTATAAG
AGCAAAATTTTCTTCTGCAGAGGTGGGGAGTGGGAGAAATTCTCCAGAGAAGCCCAATAAAAAGAAGCCAATTTCAGGTAATCAGMAAATACAATTCAGC
ACAAAACACAATTTCCATGGATTAAAATCTGCAACTTGATATTGGCAGTTAGGCTAATTTCTTCAGTTTGTATTAGACATGCAAGTATATGGTTACATTG
TTATATATAGATTTATAGGGGTCTTTCCCTCTCTTTTGTCCCCCATTAAAAAAAAAAAACAAAACAAAACCAGAGGCCGGGCACGGTGGCTCGCACCTGT
AATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCTGGAATTCGAGACCAGCCTGGCCAACATGGTGAAACCCATCTCTACTGAAAATA
CAAAAAATTAGCCGGGCATGCTCGTGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGGAGGAGAATCACTTGAACCTGGAGGGCAGAGGTTGCAGT
GAGTTGAGATCTCACCATTGCACTCCAGCCCGGGCAACAAGAGCGAAACTCCACCTCAAAAAAAATAAAGTAAAATAAAAGATTCTAGCGCCTTGCAAAG
CAGAAAAAAAAACATCATTGCTAAGAACTGATCTGCAGCTGTGGTCATATAGGGTGTTCTTTGTGGAATTTGTTTTGTAAGAAATTTTCTTCTACAACTA
AAATGAGGTTTGGAGTCCACTTCTCTGTCATCTTTTTCCCCTCCACATCCCTCCCCAGCTTGGCCCCCGGGGATTAGAGGAGAGAAGAACAGGATTAGTA
CTCGCTCAGACTGTGCCACTTGGCCACAGGCTTGCGGGGGCTCTCGCAGACCTCTCTCCAGTGTTCAGCACCACTGGCTGTGACACTGTGTGCCCCCAGG
ATCAGCCTCCCCACCACCTCATTCTTGGTGGTGCGATCGAAGTCGATAACGAGGAACTCGATGCTGATATCAGGCAGGAGGTCAGTGGGGATGTCGTAGA
TGAAAGATTCATTGAAGATGGGGTTCAAAGTGCACTTCTTCACATGGGTTTTCTTCTTGGCAATGCGCTTTCTGCCGTAGTAGACGTTCACCTTGACATA
AGGATCTGGGGCCCCCAAAGAGATAAGAAAAAGGGAGACAGACCTATGACACAGTCCTCTCCTATGTAATGGTAATTTCATGTTGGGAAAGGGGGGGCTC
TGTTGTTCGTATCTTTGATGGCCATCCCATGTGTTCTTTAGTGATTGCACAATAAACACACACTGACTATATGTSAGTCTGCYTGCCTGGATGAGGGGCC
AAGGAAACCAAGCAGGAATAGAACAGAACAACTTTCTCAGGTTAGGTCTGAAGAAATCCCATGATACCAAGAAGTATATTAAAGGGCACAGAGACAAATG
CCTGCAGCCTTTTTGAGAAGTCTCTCTTAGCACCTGGCATGAATATTATTTAGGATACCTTGCCAAATGTAAAGACCCCATTTGTTCAACTGAAGAATCT
TCCTAGCCAGGGAAATCTATTGGACGTAGATACTCRTCAGGAAGAGAATGTCTACAGAAAGAGGAGCAGATTAAAAGTGAAAGAGGCAAGGATCTTGAAG
TGTGGAGGTCTATCTGGGCCACAGGCAAGGAGTCGGGGATGGTTCAGACAGTAAGAAATAGGTTGAAGTAAATAGCTGCTACCTGAGAGACCGGTGATAT
CCATCTTCGGCAAGTGTCTGGCTTTGAGGACCACCACTGTCATTCTCTGTGCCACAGGCTGATATGACAGAGACACCTGGAGCTCCCCTCTGCTGATGCA
CTTCTGTGAGGAAAAAATGGCAGGTGAGAATCCTGGCAGAGGGTGCAGGGCAGAGCACAAAAAGTGTGCAGAGCAGTGGGAAGAGTCTGGGGGAGGACAA
GTGCAGGGATGATAAGTTTTTTGGAAAGATGCTCATCCCCTGGAAAGGTGTTATGATTTTATTTAACAAGGAGGGAGAAAGGAAACATTATAACCATAAT
TCTGATATTAAATAATTTGCATGGAGAGCCCACATAGCCTTGGATTTATGAGCATGACCTCTGGAGCCAGATTAGCCTGGATTCAAATCCTGACTATTTC
TCTTTTTTTTTGAGACAGGTTCTCACTCTGTTGCCCAGATTGGAATTCAGTGACGTGATCTTGGCTCACTGCAGCCTCCATCTCCTGGACTCTAGCAATC
CTCCCACCTCAGCCTCCTGAGTAGCTAGGACTACAGGTGTGTGCCACCACATCTGGCTAATTTTTCTTTTTTCTATACACAGAGTCTCACTGTGTAGCCC
AGGCTGGTCTTGAATTCCTGGTCTCAAGTGATCCTCCCGCCTCAGCCTCCCAAAATGCTGGGATTACAGGCATRAGCCACCATGCCCAGTTGCTATTTCT
TATCTGTGACCTTGGACAAGTTACTCAACATCTCTGTACTTCAGTTTCCTCACCTATAAAATGTGGGTGAAAGGTTGTACCTACCACATAGCATTATCAG
AAGGATTAAATAAGTTAAAATTTGTAAACTGCAATGGTGCCCAGCACATAGTGCGCACTATAGAAGTGCATCCTCTCATTTGGTTCTTATCCTTTAAAAA
GTTCTGAAGACTGTACAGTGGGAGGTAGGAGAACTGGGTTTGAATCTTAACCTTGCCACTTACTCACCACATGTCCTTGGGCAAGTCCCTGAACCTGTCC
CTGCATTTCACAGGGTGAATATCCACACCTGCTCTGCCCACCCCAATGTGCACTCCAGTGTATCTTCTCCAGCCAAGTCAGCTTCCTCCCCAGCACCCTG
ATCTTTGTTTCTCCATCTTTAAATGTGATGCTAGGCTCCATTTTGAGCTTGAAAAAACCTCTAGTCCTCCAATAACTTTTTTTTTGAGACAGAGGCTCGC
TCTTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGTCTCAGCCTCCAGAGTAGC
TGGGATTACAGGTGCCCGCCACCATGCCCGGCTAATTTTTGTATTCTTAGTAAAGACAGGATTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACC
TCAAGTGATCTGTCTACCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGTGCCTGGCCCCTCCAAGAACATTTTAAAGAACATTTTCATA
GGCACTGCATGCCAGGTTTTGAGGATCCAGAGCTGATGGGACTCAGTTGTTGCTCCCAAGGAGCTTACCACTTAGTAGAAGAGTCAGAGAAGTAAATAAA
CCTGTGCGGGACTTGTCAGAGAAATGAGAAGCCTGTCTAAGTGCTCTGGGCACCTAGAGCTGGGAGATTCAGGGGAGGCTTTTTTAATTAATTWATTWAT
TWATTTATTTATTTATTTTTTAATTTTATTTTTTGAGACAGAGTCTCTCGCTCTGTCACCCAGGCTGGAGTGTAGTGGCGAGACCTCGGCTCACTGCAAC
CTCCGCCTCCCAGGTTCATGCCATTCTCCTGCCTCATCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTTTGTATTTT
TAGTAGAGACGGGGCTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATGATCCGCCCGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCG
TGAGCCACCGCGCCCGGCCATGGAGATTCAGGGAAGGCTTTACCAGCTGATGCCTGGACTGAGTTGATGGGGGTACAAAACCATGAAGCAATGGGCAGAG
GGATGATCATATCAGGCAGATTGACAGAAATGGCTGGTACAAAGGAGTTGGGCCTGAAAAGGTAAGCTGTGTTCAGAGAATGGTTGAGAGGTGAATATGC
CTGAAGTGGGGGTGGCTGATAGGAGGGGTAGGTCAGGAACCTGGAAAGGTGGGCAAGGCTAGAGTAAAGGGCTGTTGGGACACTACCAAAGAGCAGAGTC
AGCAGCACCCATACAAGAGGAGGTTGGTGAGTATAGGAGTGGCAAAGCTGTCATTTTTTTGAGTCAGGGTCTCACTCTGTTGCCCAGGCTGAAGGACAGT
GGTGAGATCTCGGCTTTCTGCAACCTCCACCTCCTGGGCTCAGGAGATCCTCCCACCTCAGCATCCCAGGTAGCTGGGACTACAGGTGTGCACCAACATG
CCAGGCTACATTTTGTATTTTTTGTAAAGACAGGGTCTCACTATGTTGCCCAGGCTGATCTCAAATTCCTGGGGTCAAGCAATCCGCCCACCTTGGCCTC
CCAAACTGCTGGGATTGCAGGTGTAAGCCACCATGCCTGGCCAGTTGTCATCATTTTATTAAAATTATTATTATTTCAGAGAAAGGTGGAAAATGAGCTA
AAGTCGAGGAAGACCAACATCAGAAAGCTCAGTTAAGAGGCCGCTATAGCCGGGAGCAGTGGCTCATGCCTGTAATCCTAGCAYTTTGGGAGGCCGAGGC
AGGCGGATCACGAGTTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCTGGTATCTACTAAAAAAATACAAAAAAATTMGCCGGGCGTGGTGAC
TGGCGCCTGTAGTCCCAGCAACTGGGGAGGCTGCGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTC
CGGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAATTAGCTGGGCGCAGTGGCGTGTGCCTATAGAGCCAGCTACTTGGGAGGACT
GATTGAGCCCCGGAGATCGAAGCTGCAGTGAGCTGTGTTTGAGCCACTGCACTTCAGCCTTGGTGACAGAGTGAGACCCTGTCAAAAAGAAGCTGCTGTG
GCTGGGCGCAGTGGCTCACGACTCTATTCCCAGCACTTTGAGAGGTCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATG
GTGAAACCTCATCTCTACTAGAAATAGAAAAATTAGGCCGGGCGCAGTGGCTCACACCTGTAATCCCAGCAATTTGGGAGGCTGAGGTGGGCGGATCACG
AGGTCAGGAGATTGAGACCATCCTGGCTAACAAGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCAAGCATGGTGGCGGGTGCCTGTAGTC
CCAGCTACTTAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATTGYAGTCACTGCACTCCAGCTTGGGCAAC
AGAGCAAGACTCCGTCTCAGGAAAAAAAAAAAAAAAAGAAATAGAAAAATTAGCCGGGTGTGGTGGCGGGCGCCTGTAACCCCAGCTACTCAGGAGGCTG
AGGCAGGAGAATCGCTTGAACCAAGGAGGTGGAGGTTGAGGTGAACCTTGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAA
AAAAGCAGACTTCGTTGTTCTGTAGCAACGTGCTACAGAAGAAATGATTGGGACTGGAACTAGGRCTGTGGCAGAGGAGATGGACATGGAGGTAAAATAT
GTCTCAGGAAGAATTGTCAGGGGTTTTTAGGCTTGGGCAGTTAATTGGCTGTGAAGCGTAGGGAAGAGGGAGGAAAGGGTGGACTATTTCTTGTGTTTTT
AGCTTTAGAAAGTGGGGATGAGGCTGGGATAAAGAAAACAAAAGGAGGTGAGTTTTGGCCGGGTGCAGTGGCTCACGCCTGTAATCACAGCACTTTGGGA
GGCCGAGGCGGACGGATCACGAGGTCAGGAGATCGGGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCCGGGCG
TGGTGGCGGGCGCCTGTGGTCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCATTGAGCCGAGATCGCGCCAC
TGCACTCCAGCCTGGGAGACGGAGCGAGACTCCGTCTCAAAAGAAAAAAAAAAAAAAAAAAAAAAAAGGGAGGTGAGTTTTGAGGAATGTAGAACATAAT
AAGTTAAATTTGGGACAAAATCATACCCCCACAATCACCCTTATTCCTTGTATTCTTCAAAGCCCCAAAGAAATGTCATCTACTCCAGGAATTCTTAAAT
TGAGCAAAAATAGACTATGCTCATCACCAACCTTATATACACCACACACCCACAAAAATGACTTGTTAGGCACTTATTAAGTGCCAGGCACTCTCTGCTA
GAAGCTAGGGCTGAAAAGATGGATACTGAGGAATCCTACCCTTAAGAAGCTCCCAGGCTAGTTCACTATCTACTCAGGTATGTCTGGTGCAGGAAAGAAC
AGCGGCAGCAAATATGCCAATTAACTCATCAATAAAAAACAAGAAATAAGCCTAATAGTTTGTGCTTTGATTGTAGGCCTTAAGTCATCTCCAGGAATGA
AACTGTGATATTTCACATGATTTTAAAAATTTATTGAGTCTATGTTTCGTCCTAGGAGCATATGGAAATGTCTCTCACAGGGCATAAAAAATAACTAACT
AGGCTGGGTATGGTGGCTCACGCCTGTAATGCTAACACTTTGGAGGCCGAGGAGGGCGGATCACTTGAGGTCAGGAGTTCAAAACCAGCCTGGCCAACAC
GGTAAAACCCCGTCTACTAAAAATACAAAAAATTAGTGGGGCATGATGGTGCACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTT
GAACCCAGGAGGTGGAGTTTGCAGTGAGCTGAAATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTGTCTCAGAAAAAAAAAAAATCTAACC
AAGGTTTAAACCCACTCCTTAGCTTTTGAAATTGAAATACAAAAGGGGATCAACTTTAAAAATATTTTCATGTTTTTTCTCTGCTAGAGAGAAGCCCCAC
ATTTTGTCCTTACCCATAACATATGTATTGTCAGCTTTTTTTTTTTTTTTTTTGAGATGAAGTCTCGCTCTGTCACACAGGCTGGAGTGCAGTGGTGCGA
TGGCTTACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACATGTCACCATGCCCGGGTAAT
TTTTGTATTTTTAGTAAAGACGGGGTTTCGCTACATTGGCCAGGCTAGTCTCAAACTCCTGACCTCATGATCTGCCTGCCTCAGCCTCCCAAAGTGCGGG
GATTACAGGCGTGAGTCACCATGCCCGGCCTATTGTCAGCTCTTAATCGTATCCATGGAAAGTATCCTCAGCCAGTTTTATTTTATTTTTATTATTTTTA
TTTTTATTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAGGCCA
TTCTCCTGGCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGT
TAGCCAGGATGGTCTCTATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTCAGCCACCGCGCCCGGCCTTATTT
TTATTTTTGAGATAGGGTCTCACTCTCTTGCCCAGGCTGGAGTGCAGTGGTGTGCATTCACTGCAGCCTTGACATCCAGGGCTCAAGTGATCCTCCCAAC
TCAGCATCCTGAGTAGATGGGACTACAGGCATGTGCTACCAGGCTCAGCTAATTTTTGTATTCTTGGTAAAGATGGGGTTTTGCTATGTTGCCCAGGCTG
GTCTCAAACTCCTGGGCTCAAGTGATCTATCCGTCTCAGCCTCCCAAAGTGCTGGGAATACAGGTGTGAGCCACCATGCTTGGTCCCTCAGCCAATGTGT
TTTTGTTTGTTTTGTTTGTTTTTCCCCTYGAGACAGGGTCTTGCTCTGTCACCCAGGTTGGAGTGCAGTGGCACGATCTCAGCTCACGGTAACCCCCACC
TCCTGGGTTCAAGCGATTCTGGTGTCTCAGCCTCCTGAGTAGCTGGGATTACCGGCGTSAATCACCATGTCTGGGGTTTCCGCCACGTTGGCCAGGCTGG
TCTTGATCTCCTGAGTGGAAGCCATCCGCCCACCTCAGCCTCCTTAAGTGCTGGAATTATAGGCGTGAGCCACCATGCCTGGCCCTCAGCCAGTTTTGAA
TTACAGTCTGGTTGCYCTTGCCAACCAGTATACTTCTGGGCTTTTTCCTTTTGCCAGAAATCAGAATGTAATCAGTGAATATAAACTCATTTTTACTATT
AGCCACATCAAATGAAAAGTAATCCCATATGGAAAAGAAAATTGAATGGATTCCAAAACATTCAGAACTGAGCTATCCAATACAGTAGCCACTAGCTACA
CGTGCCTATTTACATTTTAATTTAAATTAAATAAAATTAAAATTATAGTTCCTCAGTTACACTAGCCACATTTCAAGTGCTCAATAGCGACATGTAGCTA
GTAGCTACCACACTGCATGGTGCAAATATAGAACATTTCTATCATCATTAGACGGCACTGATCTAGAAAGGACTTTTGCATTGTTTTGGCTACTGCTCCC
GTCTGTTTCCATGAATAATAATAAAATGTTAGCTAGGTTTGATATATCCATTTCTGGGGCCATCCTTCAATACTGAGTATCTAAATACTAAATATGCAGT
CTTTAAATATGATTCTAACTTTATATACAGAGGAAGGATAGGTGGGGGAAAAGCAACGTTTCATTATTTCTTTTTTTTGAGACGGAGTCTTGCTCTGTCG
CCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACCTCTGTCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTAC
AGGCACGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATGTTGGCCAGGATGGTCTCAATCTTTTGACCTTGTGATCC
GCCTGCCTCGGCCTCCCAAAGGGCTGGGATTACAGGCCTGAGACACCGCGCCTAGCCGACATCTGATTTTAAAAGCACAGTTTTATTTGCAAGAATAACA
CGAATGACAAGATTATAGCTTAGGTTTCCCGATTACTTATTTAAAATTCTGTATCCTAAATCATCCATTCTAGGAAAATCTTCCTAATCAAAATCCCCAT
GCCTCTTTCCTAGTTTTTTGGGAAAGTTGACAACTTCTGGTTACCCTTTTCATTTTTTTCTCCCTTAAAATCACTCCTCAGGCAACTGTCCTCCATCTGA
TCCCTCCTTCACCTTGTGCCATCTCACACGGGCAGCATGCCCATCCCCACTCAGCGCCGCTTTGTGATGCCCAAGTCTGTAGCCACAACACCACCTGAAT
GCCACTCCATTCTGCATTGAAGGCARTTTAATGTCATTCCCTCAAGCTCCCTCCCTTTCTCTTTCTACCCAATTCCCATTCCAAGTAGCTATGTCAATGG
CTCTTTCTTTTGAAAGAGCCATTGAAGGCTGTGAGCAAGCTCTGTTTCCCAGCCCCTTGGCCTAGTGAGGCAAAGGCCCTGTTGGGGGGCAGGCAAGCAG
AAGGACAAGGGGGAGAAAGGATTTTCTCATGCCTGACAGAGCTGCGGGGCTCGGCTCTCTGAGGGCAATCTCCTTGCTCCTTCAGTGGAACAGAGGAACA
GGAACAGTGGTCCTAAAGAATACACTCAGAAGAAATAATACTTAGGCAAGGGATAGTCTGTTTTCCTATAATTAGCAGAACCTCTTTCAGAGTGATTTTC
TAGCCAAGGAGCCCTTGTATTAGGTGGACCATCATAAGCTCAATAAACCCTTCTTGAGGCCAGATGTCCTGAGGGCCACCTCTAGCCTAAATCACAACCA
TGGGAAAACAAAACCTTAACATTCAATCCCATCCCCCTTTTCCTCCCTGCAATACACATACATGATCTGTTGCCCAGTCTGGAGTGCAGTTTGTGGTAAT
AGCTCACTGCAACCTCAAACTCCTGGGCTTCCCRCCTTGGCCTTCCAAAGTGCTAGTATTACAGGGGTGAGCCACTGTGCCTGGCCATATTTTCTTTTAT
TTTTTTATTTTTTATTTTTTATTTTTTATTTTGAGACAGGGTCTCCTTCTGTCATCCAGGCTAGAGTGCAGTAGCTTTTTCCTGGTCTATGTAATCCAGA
CCAGGAAAAAGCCCTTTACAGCCAGTGTGGCATGGTCCAGGGCAGCTCTAGCTGACGTTCACCAAGGRGAGATCCTACTTTGCTATGGTAGGGAGGATTT
GGGATAGACATTTGCAGCCTGCACTTCTAGGGAACCTAGTGGATGAGTGACTAGGGAGATGACAGCCATGGCTCAGATGGAACATAGTCCTGCCTACGGG
CACTGGTTGGGAAAATGGGTTTAGGAAGCCTGGGAGGCTGGAAGGCTCTAGGGTGGGGCTGCACAGGCTCTGGGTAWCCTATCTCGGGCCTTCTCCAGGG
CATGTGTTGCTCAGGATCCTAGCCCTGGCTTATCCCTCCTCAAGGGAGTTAATAAAGTGGAAAGAAATGTGGCTCTTGCCAAGAGCCCCTGGCAGCTTAG
CAAATGCCATTGTCTGTGCTGTGTCCAGTGCCCTTGATTTGAGGCTGTTTTGTTCCCAGCCCAAATCAGTCCCTTTCATTGCCAGTCTCTTCCCAGCTGC
AGCTTGGCACAGAGCCATGTTCTACTCCCAGCCTTGGGCTGCAAGTGTATAGCTGTCTGGAGGAGTCCAGCTGGTTGGTGACTTTACCAAGGTTGGAGTC
ACAGGGAAGGGTGTATTGGAAAGGCTCCTCCTTCAAGGAGAGGTAGACAAGGGAAGGAGTAGAGGATGGGAGCTGCTGTGAAGGGAATACGGAAACAGCA
GAATGGGTCGGCAGAGCCCTGAGGAAAAAAGATGGGACAGGGGAGGGGAGAGAAGGGGATGAAACAGGCCACTGCTTCCATTTCTATTCACACCTTCTGA
TTCCAGTCTCAGAGGATGCGAAAACCCCTTCAGGGCTGGACTCTGGGATGTCTCATTGTATCCTGGCATTGAGAACCACAAGATGTTGTGGCAGTGTCTT
GTTTATGCTCTGACGTTCACCAAGTTTTCCTATAATTAGCAGAACCTCTTTCAGAGTGATTTTCTAGCCAAGGAGCCCTTGTATTAGGTGGATGAACATA
ACCTCAATAAACCCTTCTTGGGGCCAGATGTCCTGAGGGCCACCTCTACCCTAAATCACAATCACAAATGTGTCTAATATTCTTCAARATTCTTGGACTT
CCCTGGCCCGTGACATGGATCTGAGTGTGCCAGGTGGCAGTAGCAGTTCCTTCAGGCAATGAAAGGCAGGACCGGGCTGGCTGCAGGGGGACAGGTGCCT
ACTACAGAGCAGAGAAGGCAAGAATACACACACACAAAGTGTGCTCCCTGCTGTCCCCCACCCAGACTTGGCACAGTACCCTTCTTCAGCAGGCAAACCT
TGTTCCTGGGTACTCACTGCACACTCTGCACCTGCTAACTTAGGAGCCTCTTCTATCCAGTCCTGAGCCTCCTGTCTACCCACTGAGTCCAGTGAGGACT
TGCAGGTAAAAAAGGTATCAAGAAATAAGTATGATCTGCCCACAGGCAGAGCTCTTTCTGGGAGATGTGCAGTTGTTTCTAGTGGCCTCGAAATTCTTTC
CTAACCTCCTTCACCAATTCCTCCCTTGTCTTCCTTCACTGTGTCAAAACAAAATATAAATATTTACAAACCACATGCATCACCCAGGTATCAAACTTGA
CTAATAATAGGAATAACAATAATAGTAACGGTCACAATTTATTGAAGGCTCACTGTGTCCTAGTAGCTATATAAAATCATCATCCTACTCTATTCCCATA
AGAAACTGAGACTTAGCGAAAGTGAAGCAGCTTGCCCAAGGTCATTTAGCTGGTGGAATTTGGATTTAAACTCAGGTCTGACTTCAAAGTCCTTGCTATT
TTAACCACTTATGTTATACCCTGAAAAAGACATGAAACTCTAAGTTTAAAATTTCAACAACTTCTTTCATAGCACCTACCATACTCACTATACAGTAATT
ACAAAAAATATTTGTCTTTCTCCTTCAATAAAGTGAAACCTCTTCAAGGGCAATCATATGCCAGGCATATTATCTCATTTGATTCTCTGTAAGGAAGRCA
ATATTATCAGCTCCATTTTACAAATGASAAAATAGAGGCTTAGAGGGGTCGAGTAACTCACCCGTGTCACACGGCTGGCAAGTGGTAAGCTGGAGAGTAA
AGTCGTGCAGTCCAATTCTGGAGCCCAAGTGTTTAACTGCAGCATTTCACTGCCTCCCCAGTTGTGGAAGAAATAAATGAACTAATGGGGTTGGGTGGGG
CTACACTTACTGTGCTCCTGAAATTACAACTCAAGAGCCAATGTCGGTCCAGTGGGAAGAGGGAGAGAGAAGGCAGGATGGAGGGCCCTCGTCCCTCTTC
TAATACAAAGAGGGAGGACAGGAGAAATGGAGAGAGGGGAAGTGTCTATGGCAAAGGTTTGGGCCTAGAAGGGTGAAGCAATTCATTGAATTGCATTGTA
AAATGGTCATAAGAAGACATGTGCATGACGGCTGGGTGCAGTGGCTCATGCCTGTAATCCCAGTACTTTTGGAGTCCGAGGCAGGTGGATCACCTGAGGA
TAGAAGTTCAAGACTAGCCAGGCTAACATGGTGAATCCCCGTTTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGATGGGTGCTTGCAATCCCAGC
TACTCGGGAGGCTGAGGCAGGAGAATAGCTTGAACCTGGGCGGTGGGGGTTGCAATGAGCTGAGATTGCGCCATTGCACTCCAGCCTGGGCGACAAGAGT
GAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGACATGTACATGGTATCATTTACACCCCTAGGTTAGGGTTGGGAAAGGGAAGCTGAGGGAAA
AATTACTGAATTATTGTCATAGCTTCTCAGCTGTGAAAAATAAATTCACTGGAGGAAGATCACATCATTTTGGAGAGGAAATTAGCTCCCATATCCCTGA
TATAATGAAGGATCTACAAATGGTAGGCCAGCCTGTTCCAAGTAAGCTGGACAGCATCAGGATGCCAACCACTAAGTGAAATGGTGAAAGCTATTGRACC
TTCTCTCACCAGGAAGTTGCTTCTTAGAGGAGACCTCATCTGCCAGGCCCTCTGTCTTACTCTGACCACTGCTTATCCTTGACATCCAAGAGCTTCCTCT
CTACAGCCCTTCTTTGCCACCCAACCCACTCCCCTCCCACTTCCATTTATCCCCTGAGATATTTTCTCCCCCAACCTACCATTGCTCCCCAACACACACT
TCCTACTCACCTGGATATTCCTTTTGATGATGTCCCTGGTCAGTTGTACCTTGCCTGTGCTGGGGTCCACCCCTGCCAGTGGCACCATGACCTCGCCAAT
GACATCATCCCGAGAGAAGCGGTCAAAGCTGAGGACAAGGAAGTGCAGCACCAGGTCCTGCAGCTGGCTGTAGGGGATGCCATAGAAGGTGAAGGTCTCG
TCAAACACAGGGTCCAGGGTCTTCCGCAGCACTCTGGTCTTCACCCGATGCCGTTTGTCAGGAAGGATGGTCATTTTGATGTAGGGGTCAGATCCCTGGG
TCTGGTCATCCATCACTGGCAGCCCRTGGGCCTCCTGGATTGTCACCACCAGGGCTTTTTTCGGGAAGTTATAGTCCACTGAGAAGGTGAGGGATCCTAG
CATGACATCCTCCTCTGGAGATGATGGAGAGGTGGTTTTGCTCTCCCCAGGGGTCAGGCTTGTAATAGGGCTCCTTAGTTCTTCCCCATAGTCCATTTTG
ATGGGTAATTGGTCTATACAAGATCCAGAGCTAGGCCCCCTGGGATCTTTGTCTCGGCTTAGCAGGCCAGCCTCTGCTGCGTCCACCAACAGGTTCCTAC
GTCCACCTTCCCTCCCAGGACCATCTTTGTCTCTCCGCACTTTGATGATTTTCTTCTTGTTGCTGAGGGTCTCTGGGTATATGCTGATGCCTTTGAGCAT
GTGAATAAACTTGTATGGTGGGTTCTTSTGCTTCTTCTCTGCCTGCTGGTGGCAGCATGACCAGACAAAGACGGTCACCGAGACACACACCACCAGCACA
GAGGCCCCGATGAGGCCGGCCACCACCGGTGACACATCTGAAGGCGGAGATCAGAGATGTGTCAGGGCGGGTGGACTTCACCTCCTGTCTAGATCTCCCC
TGCTCATTGCCACTGCTGGAGCCAAGCTAATCTTCAATCTAGCCTCTAAAGCAAAATGTGCTCATCTGGGCTTCAGAATTTTTCCCTTCTATTAGAGGCA
CCCTCTCCCAACCTCTCCAACCACTCCACGGCTTTTCCTCCCAGCCTTCTATAGAAAGCCTTCTCTGAAGCACCCCACTTGACTCTATGTTCTTTCCTAG
ACCTTCTCTCAGCACTTATAGACTTGGTTTGCTCATACTGATTTGTGCTTCACATAAAGCTGCTCTGTACGTGTTCTAAGATCACCTTTTTACATGAGCA
CCTGTTCACTTCAACTGTTACACAAGATGTTTGGTTTCAGGATATTCCATAGCATCCAGAACAGGGCCTGCACTGACTGACTCGCTGTCAGGCTAGGGTG
GAAGGGTGTGGAGATGAGTTTAGATGGTCTTGGTAGGGTGTTCAGGGTAGTAAAAATGGATGGGTGCCAAAAGGAAGAATTCTGGGTTTATGTACTTTTA
AAATATGTTCCAAAATTTTAGCTCCCAGGTATATAAAATACAAGGCTGGGTGCAGTGGCTCACACCTGTAATCCYGGCACTTTGGGAGGCTGAGGCAGGT
GGATCATTTGAGGTCAGGAGTTCAAGACCAGACTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATATAAAAAATTAGCTGGGCGTGGTGGCATGTG
CCTATAATCCCAGCTACTTGGGAGGCTGATGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCATTCCAGCC
TGGGTGATGGAGCAAGACTTCGTCTCAAAAAAAAAAAAGGTATTCCTCCAGGATGAATATATCCATTGTAGGCAAAAAAATAGGTGTGTGTATGTATGTA
TATATATATRTGTGTGTGTGTGTGTGTGTGTATGTGTATATATGTATATGTGTGTGTATATATGTATATATGTGTGTGTGTATATATATGTATTTATGTA
TACATATATTATTCTAAATAGGAAGAAATAGAGACTTTCTCTTTTCATTATTATTACCTTAATAAATCCTTCACTGGAAGAAATAGGGGTTTTCTTCCCT
ATTAGTGGAAAATGTCAGATCTCTGCTCAAATGTCACCTTCTTAGGCCTTTCCTGACTCACCTATTTAAAAGTGCAATCTTCTCCATCCTCACCACCCAC
TCTTCCTAGCCTTGCTTAATTTTTTTCAACATGCCGTCATTCTCGCTCTCTGATACACACACCCCTACACATGTAAGAAAAAAATATATAAAATACATAC
ACAAATATGTAAGAATAAACACCCACACGCATATTATTTTACAATTTATTATTTATCTTCACTAGAATATAAGTCTCATGAGGACAAAAATTTATGTCTG
TTTTGTTCACGGCTGTACCCTCAGCACTTAAAACACATAGCAGGCACTATGTGTTGGATGAACAAATAACTAAACAGAAATAGGCCGGGTGTGGCGGCTC
ACGCCTGTTATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATTACCTGARGTCAGGAGTTCAAAACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTG
CTAAAATAAAATACAAAAATTAGCCAGGTGTGGTGACACACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAAGCCGGGAGGT
GGAGGTTATAGTGAGCWGAGATCGTGCCACTGCACTCCAGCCTGGGCAAAAGACCGAGACCCCATCTCAAAAAAAAAAAAAAAGAAAAAAAAAAGAGAAA
GAGAAATAGATTTTTTTTTTGTTTCCCTTACCCTAGTCTTATCTTTTCCCACAAAAATTGGACCCTCAAGTTTCTTCGCTCCCTCAAGTTCATTGAGGCT
AAATTGGGTTTAGGCTTTAAAGGTCCAGATTAGGCCTATAGTTTTTTCCACTTTACTTTTTAGGGGACCACTTGGAAGGGAGGGAGAACTAAGGAAATAA
ATGTAGCCTGGGCAACATGGCAAAACCCCATCTCTACACAAAAAAATTACAAAAATTAGCAGGGCATGGTGGCACATGCCTGTAGTCCCAGCTATTTGGG
AGGCCAAGGTAAGAGGATCACTTGAGCCCAGGAGGTGGAGGTTGCAGTGAGTTAAAATCGTGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGGAAAAA
AAAGAAAAGGAAATAGACATAATTCCAGCATTTCCCCGATTCTTTCTGGAATATTCTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTTGCCCAGG
CTAAAGTACAATGGCACGATCACGGCTCACCGCAACCTCCGCCTCCAGAGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCA
TGCGCCACCATGTCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCTCCACGTTGGTCAGGCTGGTCTCGAACTCCTAACCGCAAGTGATCCAAT
TGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCTAAAGCATTCTTGTATCAGGCATCTGTGCAGCTCACTGCTTCACTT
ATCGTGAGCCCCGAACCTCACTGGATGAGGGAAATATTTCCTGTCTGCCCCAAGTAAGATAATGTCCCCATCACCCTTCCTTAATTTTCTTCATGGAGCT
TATTATCCTGACATATATTTATTATCTTTCTTTGATCACTAGACAAGCTTAATAAAACAGCAACTTTGTCTGTTTTGTTCACTGCTATAGTTCCACGTCC
TAGAACTATGCGGCATGTAGTAAGCGTTCAGTGAACAAAAGAGTCAGTGAATTCAAAACAGCCTCCACAGATTAGAAAGAGAGGATTGAGGCCTGGTGCG
GTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCT
GTCTCTACTAAAAATTCAAAACTTAGCCTGGCATGGTGGCAGGTGCCTGTAATCCCAGCTACCTGGGAGGCTGAGGCAGGAGAATAGCTTGAACCTCGGA
GGCGGAGGCTGCAGTGAGCTGAGATTGTGCTACTGCACTCCATTCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAGGATTGAGT
CAAGATGATTACATATATCAGGGATAAATGTAAATTTCTATTTGGACTCAAAAACCTATTTATAGTCAATAACCTCACTTGATGAGTCAAAAATGACTTA
GGAATTTAGGCAACCACAATCTTGGACTATAATTAGTATAATGCCTACTGTTTTCCCTTCTATTAGAGGTATCCTCTCCTATCCTCTCCAACCAATCCAT
GGCTTTTTCTTCCCTCCAAACCTAGATGAAGSGTTTATCTTCTCTAGAAAGCCTATGAGCATCATGAGCACAATACTATGAGCATAATGTCCAGATTACA
TGAGAGGCAGGTATAATTTCATCTGCACTGGTCATAATATACATGTAATATTGTGTATAGCAGTGACAATAATAAAATTGCTATTTTTTGTGTAAATTTA
TATGTCCCTGCCAGGCATTGTGGTAGAGCTTACTTTTTTTATTTCTTTTGAGACAGCGTCTCATTTTATTGCCTAGGCTGGAGTGCAGTGGCACAAGCTT
GGCCCACTGCAACCTCCACCACCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACATGCCATCACACCTGGCTAATT
TTCGTATTTTTTGCAGAGATGGAATTTCACCATGTCACTCAGGCTGGAGTGCAGTGGCATGCATGATCGCAGCTTACTGAAGCTTTGACCTCCCCAGTTC
AAATGATCTTCTTGCCTCAGCCTCCTGAGGAACTAGGACTACAGGCATGTGCCATCATGCCTGGTTAATTTTTTTTTTTTTTGAGATGGAGTCTTGCTTT
GCCCAGACTTGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCTGCCTCCCTGGTTCAAGTGATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGATT
ACCAGCACGTGCCACTACACCTGGCCAGTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCACGCTGGTCTCGAACTCCTGACCTCAAGTG
ATCTGCCAGCCTTGGCCCCCCAAAGTGCTAGGATTACAGGCATGAGCCACCATGCCCAGCTAATTTTTAAATTTTTTTTAGAGATGAGTCTTCACTATAT
TGCCCAGGTGGTCTTGAACTCCTGGGCTCAAGCAATTCTGCTTTAGTCTCCACCAAATTGCTGGGATTACAGGTGCAAGCCACCATGCCTAACCAAGGAA
GAGTTACATTTTATTTAAAATATATATTTATTGTTATTATTTTTTTAGAGACGTGGTCTCACTCTGTGGCCCAGGCTGGAGTGCAGTGGTGCAATCACAG
CTCACTGCAGCCTTGAACTCCTGGGCTCAAGCAATCTTACTACCCTAGACTCCTGAATAGCTGGGACTACAGGACCATGCCACTATGCCTGGCTAATTAA
AAAAAATTTTTTTTAGAGACAAGGTGCTATGTTGCCCAGTCTGGTTTTGAATTCCTGGCCTCAAGATCCTCTTGCCTCAGTCTCTTGAGTCGCTGGAATT
ATAAGCACGACCCACTGTACCCGGGTACATTTTAAAATAATATAGATAAGGAGCAAAACATTATTAACAAAATAAATCAAGGTGACCATGTCTATATCCA
TACCGAATAATAATAGTGTTTAGTCTCAAAGTATTAAATGAAATAGCTTTTAGGGAAAGTTTTCACAAAATGGAGACAGCCTTGGTAGTAAGCTACTTGA
AGGCAGGCAGGAACAATATCCTATGGATCTTTGAATCCCTCAAGAGTCTCTTGCTTCTAATAGGAGTTCAGTAAATATTTGGTTGAACAACTAATTGGAT
TCAGTTGCCATTAAGAATGGGCACAGCCTAAGGAAGTGGCTCTCCATTCATCAATCAGGTGCTTTCCTGCAAATTGTTTGCTACTCATTAGTGAAACTGA
ACACTGTCTCTATGAGAAGAGGAACACAGCAAACTACCAAGACAGGCATATTTTTTGGAATGATCATAAAGAGAGATCTGAAGGCTTAGATTAGGAGACA
CCTGGGCAATTCTTTTGGCTCTATCATAGATTTATTCCCTGCAGCAGTGCGGTGGAGGAGCGGGGGGCAACCCACTGCTGCTTACATATTTACAATGCAT
CAACTTTTATTGTTAGAAAATGGAGATAGGGTAGAAAAGAGAGAAGATGAAGAATTCTCATATTCCAGGAGGATAGAGAAGGAAAAGAAGAGAAACAGAT
GAACGCATCTTTGAATTATCTAGTTGTTCCCCCTGGCCTTGTTTCCTATTTTTGCTGTTCTTTCTTCATTTTAGTATTTGTTAACTYTTGCCTCTCTCCC
TGAAACCAAGACAATGAGCTAGAATCATCAAAGATATTAAAACCTAGAGCTCTCTGTCTTGCTTTAGTCCAAAGCTTGGTGGGAAATGGAAGTTGAAACT
AATGGCTGAAGTGAGTGTTTTAAAGTAGCTATAAATTGCAGTGACCTGTGCTTCTCGCTCCTTTTGTCCTTCATGGTCATGGATAATTGAGTGTTGGCTT
GGTGTATCACCCAAGTGCTGTGGCATTTGAAATGAAGTACTCTATGAGATGTGAAAAAGTTGGAAGTGGTAGTTCTCTATGTAGGAGATCCTCTGTAATG
GTTTAAAGACCTGCAAGACACATCTGGGCTATTGGCCAGCTCCTTCAGCTTCTGACCAGAACTGCTTTTATTGACACCCCCTTTCCTAAACATAGCTTTT
CGCAGTCAAGTAGACAAATATAATACAATGGAATGAGAATAAATTTTGGCTTCAGCCAGACATTGGTTTAAATCCTAGCATTGGCCAGGTGCAGTGGCTC
ACACCTGTAATCCCAGGACTTTGGGAGGCCAAGGTAGGCAGATCACCTGAGGTCGGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACCCCATCTCTA
CTAAAAATACAAAATTAGCTGGGTGTGGTGGCACTTGTCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGATAATCGCTTGAACCCAGGAGGCAGAGG
TTGTGGTGGGCCAAGATCACGCCATTGCACTCCAACCTGGGCAACAAGATCGAAACTCCGTCTCAAAAACAAAAACAAAAACAAACTAGTGCTACCTTTA
GTCATTTGTTTGGCTTTAGCCAAGTTATTTTATTTCTGAGCTTTGGTTTCCTTGTCTGGCAAGTATATATAATAATACATACACTCGAGGGTATTTGTTA
GGATTAAATAAAATGTAGTATGTAACAGGCTGATATAATTTATTTTCCCTTTCCCAATAATAGTCCCTCTAAGAGAAATCACTATATTATGTTCCACACC
ATCTCCTTTTTTCAAGGATTCTGGAACTGCAGTTAGAGAAAGGAATCTGTTGGAAGGGAATAAGAAGAAAAAGAACAGGAAGAAATCATGGATTGCTCAT
GTGATCATGAAAGGGACTTTTGTTTTGGAAACTTAGAACTCAAAGAATAAAGATGCGGAAGGTGAAGTGGAAGAAAAAATACCATCAAGATTTAGCCTTG
TGGAATAAGTGAGAACAAGTAGTTAATGAGTGTGAAGATCAGTTATCTGAACACATCTGATTTGATTTCTTCTTCCTTATTCTGAGGGGATAGAGCACAC
TGGATTCTGCTCATTTCACTGTACCTCTTATTCAGGAATGAGAAAAGCCATTTCCTAGCTGGATTGTGTCTCCACCCTAAAAACTGGAGTCCCGATGCTC
AAACCTACTGGATTGTCTGAGGGATAGAATCCCTGAAGGAATAAGAAGGTTCTTTGGCAGCAACTCTCACTGGCTTCCCCCATCTAAACTGAATCAAGGA
GAAGCAGGGCAATTATATTTTATTTATTTGATCAGGAAAGCATAACACAGGAAGTTTGCTCCTTTAGCATATACTGCAGGAGTCCCCAAAGAGGAAAAAA
CTTCCTTCTCAAGCTTGTCTTTGCCACCTTCTTCCCTATTTTCCACTCCACTTTCTGCTCCAGAGAGTGTAAAACTAATCTTGGAGCCCACAGGGCTGGG
TCGGGGACCAGCCGCTCTGAAATGACGTAATGCTTTCTGCGGTACACAAAGCGGCCTCCCCCGGGCTGGGCCTCTTTCGCCCCTCCCCCTCCGGCCTGGA
TCGCGCCCCCGCCAGCATCAACGCTGGTCAGTCCCCCTTTTTGAAAAGGCGGCCCAGGGAAACAGGGAACAAAGGCCCCGGAAGGAGAGCGTCGGCGCTG
CCAGGAGGCCCAGAAATAGACATCACGTCATCCCCCAGCCCAGCAGCGCCAAGCGCCATTTGGTAGCATCGGAGGGACCCCACCATTACGATGCGGAATG
GAGCTTGCAGGGCTCACGTTTCCTCCTAGCCCCAGCATCCAGCTGACCGGCTTAAGGAGTGGCTTCCTTTTTGCTCCCCACCCCGCACCCCTCTTTCCCC
AGAGGCCGCCGCCTCCCCTGGCTGCCAGCCACACGGCCCACAGTCTCCAAGCTGCCATCTTGATGCCCCATCCCCCTTGTCACTTCCCTCCCCCGCAGCC
CTTAGGAATGGGAGGGGGAGGAAGGGGCACCGCCCTGTGTGCCCCAAGGGGGAGGGCTTGGCCTACCCCACCTCTCCTCCCCCAGAAGGAGGGGTTCACA
TCCTCCGCACGCTTGCTGTTTCTCACCTCCAGCAGTGCTGACAGTGCACCATACAAGGTTTTAGCATCCTGGACTTCCCCACCCTCGGTGTGGCTCAGGC
CCTGCCAGTCCCTGCAGCCCATAGCTCAAGTTCATGCACTGTCAACTGCCCACTACCCACTACCCACCACCACAGGCCCGATTTTAGTGGGGCTGGCATT
TTGAAGGCTCTGGTCTGGGCTGCATTCTCTGCCCTGCCGCTGGGCCCCCTTGGCCTTGCAACCATTCTGACCACCTCAAGCTTAGTTTTCCCGAGTCTAC
TTACCAAAGCTAGGTCGGATATTGGTGATCTCAGCCATGTCGTAATCAGAGGCTGTTGCTATAACGTTTTTGCAATGGTRAGACAGCTCTGGGAACCCTC
GGTCAGTACCGASGCAGCAGCTGTAGAGCTCTAGGTCAGGGAAGGGGGAAGGTATCCAGCGGACGCCTCCTGCGACGGTCCGGCCCCTAGTTGTCAGCTG
CGCTCAGCTCTTAAGATGCTCCGGGGATGCKCTGAGCTAAGGATGCAGGTGCAGTCAGACTGGTCCTGATGAGAGGTAGGCTCCGCCTTCTTCCGAATGG
TCCTCGGAAGAAGACTCCGCCTCTTCCGAATGGTCCTCGGAAGAAGACTCCGCCTCTTCCGAAAGATTACGGAAGTCAGCCCTCGCCCCCTTCAGGAAGC
TCTCCCGGAGGGGACTCCTCCCACCGCCGAGTTTTCCCGAGAATGAGGCCSCGCCCACTGACGCGCTGTGGTTCCAAAACGAGAAAGTACTGAAGGGTAA
GAAGCATAGGTAGATTATTATATGAAATCCTCTGATTTCAGTTTTCTGGGCTTTAATACAGCAGCAAAATGTTCTCGGTCCTGAGTTCCAGAATTTTGGG
AAAATAAAATTCTGTACTGCCTGGATTTCAGTATCGACTGCCATCATTATGCATTTCTGAGACCGCTAAAGGTTATTACGGAACTTTTTTTTTTGGCTTA
TATTTCACAGTGGATGGAAACTGTCTTAAACCTCAGAAACTCTGATGAAAGACCAAACCTGGGGATGGTTGCACAACTCTGAACATTTACTAATTTTAAA
AAAACAGCCGGGCACGGTGGCTCATGCCTGTAATCCCAAACCTTTGGGAGGCCAAGGCGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCC
AGCATGGTGAAACCCCCATCTCTACTAAAAATACAAAGATTAGCCGGGCGTGGTGGCACACGCTACTTGGGAGGCTGAGACACGAGGATCGCTTGAGCCC
AGGAGGTGGAGGTTGCAGTGAACCGAGATCGCGCCACTGCACTCCAGCCTGGGCAACAGAACAAGACTCCGTTTGAAAAAAAAAAAAAAAAAAATTTGGT
TGTACACGTAAAACAGATGGATATTGTGGTATGCAAAGCTGTTCAAAAAAAAAAAAAAAAACAACTAATGAAAAGTGCCAAAGTTAATCAGTGTTGAATT
TTTTTCATGAACCTCAAGTGCTTAGGGTTTCGTATGAGAGAGGCCAAACCGAAAGATCTGTGTATTCTGTAGGTCAAAGAACAACACACATGAAACTCCG
AGCTTCTGGAGTCTTCCTTGGTATTTGGGAGAGTTGGTGTGATTCAGGTTAGTCAGACTACTGCCATGTTTGCATAAATTTCAACCTTCATTTTGGCTGT
GGATAATTTCATCCGTTGGATTCTGTTTACAGATAGGATTAGTTCAAATGTATAAATTTGTGTTGGTGGTTTACCTGTAAAATGAGGGGGTTGAAAGTAT
TTTTCCACCTTTTGACATTCTGTTTTTTATTATTTTTTTAATCTCCGTGGATTCCAGACATTGTTTTTCTAGAAAAGTGGAAATAACATCATTTTAGAAG
TCATTCATTCATTCGCTCATTCAAAAAGCACGTATTGAATTATTGAACATCTGTTACACCCCAGGCAGCCTCCTGGACACTGGGTCAATGCATTATTAGC
TAGAGTTAGGAGACTTAATACCTGATTCTCCTTGATAGCTGTCTGTGTACCGTTGTGAAATCACCTACTCAGATGAGCCAGAACTTTGTCCTGTGCAAAC
TGGAATATGATATAATAATCTTACAGTCTATTGTGGAGACCAAGTCACCTAAGAAAATGTGAGAGCATTTTGTAAAATGCAGAATATTGTACATATATGA
ATAATTACTATAGCCTGAGTCCAAGAGTGCCTTAGTTTTAATCAGGAGCCTGCACTATTTGTAATTTAGAGACTTCTTTTTCTGGCATTTTATGACTTCT
TCAGTCCCTTGGTCCTGTGTTCCAGGTGACTCGTAGTGAGAAAAATTAGTTGTTAATCTTTTTTTTTTTTGATACAGAGTCTCACTGTCGCTCAGGTTGG
AGTGCAGTGGCACGATGCCGGCTCACTGCAACCTCCGTCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGATTACAGGCGTGCG
CCACCACGCCCAGCTAATTTTGTATATTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGGTGATCTCGAACTCCCGACCTCAGGTAATCCGCCCGCCT
CCGTCTCCCAAGGTGCCGGGATTACAGGCGTGAGCCACCGCGCCTGGCCCCCAAATTAGCTGTTAATCTAAACCACTGAATCTTAACCTCAGTTTTGAGT
AGGATAACTCCATGGGCAGAGAAAGCTAAGTAGTGCCTTTAAATTTTTTTGCCAATAACTGACGCACTAACGTTGTGGCTTCACTCTGCCCTAAAATGGG
ATGGCGCATAGTGTTAGGCGCATGCTCCTTGATGCACTGCGGCGCGGCGCTCCGAGGCTCGGGGACGCGCACGCAATTCGCTGTTGTTGGCTGACTTCCG
GTGGTGCCAAAGCCGTTTCCGTGGAATCAGGCCGGCTGGTGAGGGTACAGGTTTGTGTGTGGTGGGGTGGGAAGAGGCAGGTGGGAGCTGGGACACCTGG
ACGAACGATGTCCAGGTTGAGAAGGTCGGGTCTGAGGGTGGGCGCTGGGTGCGTGGCGGAAGTTAAGGGCGTGAAGTCCAGTGTCTAGTTGGGAATGGGG
ACTGGAGCCAGCCCTGGGCACCGAGGTGGAAGCGCGGTTAGGACCCCTTTTGAAAATGTTTTCCTAGGAGAGGGCCGTGCCGGGGCTGCCTCCACATTGG
CATTCATTCACCCTGCTGGTCCGACTTGGGTTCCCAAAAAAGTGGATTCTGTCGAGCTACTGCTGTGTTTGAGGTGCCTGGAGCTGAAGTAGCTGTCTTT
CTTTCCTTCTTTTTCTTTCTTTCTTTTTCTTTTTTTCCCCTTTTTTTGATCTCAGTAATTATCTGTGAAATAAAAGAGCTGCCCTGGCTACTCCCATTCT
ATTTCTTATAAGGTCACCACCATCTCTCACAGGAATCAACGAAATCTTCATGTTTTATTGAGCTTTAGTTACTGAGTTTTAATTACATCAGTTGATTGAG
GGGATGGAGAATCTCCCCTAATGTCTTGGAGAAACAGAAGGGAGGTTTAAAACTAACTGTAGGTCGGGCGCGGTGGCTCACGCCTCTAATCCTAGCACTT
TGGGAGGCTGGGGCGGGAGGATCGCTTGAGGCCAGGAGTTTGAGACCAGCCTGGGTAACAAATCGAGACCCCGTCTCTACAAAAAAAAAAAAAGAAAAAA
AGTCGTTGAGGGTGGTGGCAAGTGCCTTGTAGTCCTAGCTACTCGGGAGGCCGAGGCCAGAGGGTCACTGGAGCCCAGGAGTCTGAGGCTGCAGTGAACT
AGGATCTTGCCACTGCACTCCGGTCTGGGCAACAGAGCGAGACCTTGTCTCTGGAAAGAAAGAGAGAGAGAGAGAAAGAAAGAAAAGAAGAAAGAGAAAT
CTAACCTTAGACGCTTAGAGTTACAAAGAACTTTTATTTTTCAGTTCTCTAGTTCAGGCTTTCATCTAGTACTCTGATAAGTGGACATTCAGGCTTCGCT
TGAACATTGCCAGTGATCTAACACAAGGCGGCCTATTCTATTATTGGATCTATTTATGACAGTAAAGTTTTCCTGGGTAATAAGATGCCTTTTTTTTTTT
TTTTTTTTTTTTTTTTTGACAGAGTCTCCCTCTGTTGCCCAGGGTGGAGTGCAGTGGCATGATCTTGGCCCACTGCAACCTCCACCTCCCAGGTTCAAGC
GATTCTCCTGCCTCAGCCTCCCAAGAAGCTGGGACTACAGGTGCCCACCACCATGCCCGGCTAATTTTTGTATTTTTTAGTAGAGACAGCGTTTCACCAT
ATTGACCAGGCTGGTCTCGAACTCCTGACCTTGTTATCCGCCCGCCTTGGCCTCCCAGAGTGTTGGGATTACAGGCGTGAGCCACTGCACCAAGCCACTA
TCAGTTTTTATATAATGCTTAACATTTGGCCCAAATGCTGCACAGAATAAGTTGTTTAACCTCTGTTTCATTTATTATTCAGGGAGCATTCATTGAGTAT
CTACAATATTCAGTGACACATTGAGTATCAATACTCAGTGATACATTGAGTATCTACAATACCCAAATACTGAACTGGTGCAGTGGCTTGGATGGGACCG
TAATCCCAATGACTTGGGAGGCTGAGGTGGGAGCATTGCTTGAGCCCAGGAGGTCGAGGCTGCAGCGAACTATGTTCGTGCCACTGCAGTGCAGCCTGGG
TGACAGAGCAAGACCTTGTTTCAAAAAAAAAAACCCAGATACTGCTGGATATTAGGGATATGAGTTGAAATAATCCCATTTCTCGAAAAGCTGATAGTTT
TGGAGGAAGGAGATGAGAAAGAGAAAGATGAGAGACCATTACAAAACTGATAAGTACCGTAAAAGAGGTTTACAAACAGATACTAAAAGAACATAGAGGA
TACCCTCTGGTTTAGGTCAGTAATGCCCTTAAAATGTGATAACTAGAATTGAAGCAAAAAGCCAAGAAGTAACATAGCGCAGAGGATAGTAGGACTCTTA
TCTTCCTTGTTTCGACACAAAGTTTGTTGTTAATGTAGCCTAACCTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAA
TGGCGAGTGATCTCGGCTCACTGCAACCTCTGTCTCCGGGTTCAAGTGATTGTCCTGCCTCAGCCTCTGGAGTAGCTGGGATCACAGGCGTGTGCCACCA
CGCCCGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGATCAGGCTGGTCTCGAACTCCTGACCTCAGGTAATCTGCCCACCTTGGCCT
CCCAAAGTGTTGGGATTACGGACGTGAGCCATCTCGTGCCCAGCCAACATAGCCTAACCTTTTAAACAATCACACTTTGCTTTTGATTTGTTTCTATTAA
TGGAAATACCTGTTTATGAAAACAGCAATAGCAAACATGTATTGATCATTTACCATCTAATGAAGTAGATGCTATTATATTCCATTTTATAGCTGAAGAC
ACTGAGATTCAGGTTGAGTAACTTCCACAAGGTCATAAAGCTGGAGAGAAGGTGACTTGGGAAACATCCAGACAGTCTGATTCCACAGTTTACTCTCAGC
ATCATGCTAGTCTACCACCCTGATGGTAATAATAACAATGTTTGCTGGACGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTG
GATCTCAAGGTCAGGAGTTCGAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGCGTAGGTGGTGCACG
CCTGTAGTCCCAGCTATTCAGGAGGCTGAGGCAGGAGAATGGCGTAAAACGCGAGAGGCGGAGGTTGCAGTGAACCGAGATTGCGCCACTGCACTCCAGC
CTGGGAGACAGAGTGAGACTCTGTCTCAAAAACAAAAACAAAAACAAAAAAACACAAAAATAAACCCACAGTGTTTATTAATCACTTACTCTTTAATTGT
AACAATTCTATGAAGTAAGAGCAATTATTTTTTACTGTTGAGGGTACTGAAGACTTGCGAGGTTAAATCACTTGGCCTAGGTAACAGTAGTCCATCAGTA
GTAATCAGTAGAGTTGAGATTTGAACTCAGTCACTTAACCACTGTCTCTCAACTTCCACCTAAAGGGAAATTGTGCATTTGGTGTGAAGTATTGTGTTCA
TGATCGAACATGAATAAATGAAAAGATAATTGAGTAAATGTTATTACTTTTAATTAATATGAAGGCAGTAAGAACTTTTTATTCTTTCAGAATGGAACAA
AAGTGGGACTTTTAAAATGTTGCCCTGTAAGAAGAGAAGAACTACAGTGACAGAGTCCCTACAGCATAAAGGCAATCAAGAGGAAAACAACGTAGACCTA
GAATCAGCCGTTAAACCAGAATCTGACCAGGTTAAGGACTTGAGTTCGGTGTCACTATCCTGGGATCCAAGTCATGGCAGAGTAGCTGGCTTCGAAGTAC
AGTCTTTGCAGGATGCAGGAAATCAGCTTGGTATGGAGGATACATCTCTGAGCTCTGGAATGCTCACCCAGAACACAAATGTAC


SNP Information

Context             (SEQ ID NO:33519):
GAAGAGAAACAGATGAACGCATCTTTGAATTATCTAGTTGTTCCCCCTGGCCTTGTTTCCTATTTTTGCTGTTCTTTCTTCATTTTAGTATTTGTTAACT
Y
TTGCCTCTCTCCCTGAAACCAAGACAATGAGCTAGAATCATCAAAGATATTAAAACCTAGAGCTCTCTGTCTTGCTTTAGTCCAAAGCTTGGTGGGAAAT
Celera SNP ID:            hCV27979146
SNP Position Genomic:     26987
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33520):
ACAATTCATGTTAGCTTTTTCAGTTTTCTTTTTTTTTCAAAATTTGACACATTTATTTTATTTTTGAGTTTCATTTTTACAAGAGAAGACACAAGGTAAA
R
AAAGACAACCACTTTGGAGAGGGATCATGGTGAGGGCAATGTCACTGTCATGGCCATAGTACAAGCCTTCCAAGAAAAGGGACCTGCGTTATTCCCTCTC
Celera SNP ID:            hCV11341169
SNP Position Genomic:     4420
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33521):
GCTTAGTTTTCCCGAGTCTACTTACCAAAGCTAGGTCGGATATTGGTGATCTCAGCCATGTCGTAATCAGAGGCTGTTGCTATAACGTTTTTGCAATGGT
R
AGACAGCTCTGGGAACCCTCGGTCAGTACCGAGGCAGCAGCTGTAGAGCTCTAGGTCAGGGAAGGGGGAAGGTATCCAGCGGACGCCTCCTGCGACGGTC
Celera SNP ID:            hCV9102201
SNP Position Genomic:     29680
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,17|G,21)   total(A,23|G,53)
SNP Type:                 UTR 5;SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;JBIC-allele(G,350|A,1125)   total(G,350|A,1125)
SNP Type:                 UTR 5;SILENT MUTATION;hmCS


Context             (SEQ ID NO:33522):
CGCCTCTTCCGAAAGATTACGGAAGTCAGCCCTCGCCCCCTTCAGGAAGCTCTCCCGGAGGGGACTCCTCCCACCGCCGAGTTTTCCCGAGAATGAGGCC
S
CGCCCACTGACGCGCTGTGGTTCCAAAACGAGAAAGTACTGAAGGGTAAGAAGCATAGGTAGATTATTATATGAAATCCTCTGATTTCAGTTTTCTGGGC
Celera SNP ID:            hCV9630762
SNP Position Genomic:     30051
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,5)   caucasian(C,40)   total(C,73|G,5)
SNP Type:                 TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:33523):
CTAGGTCAGGGAAGGGGGAAGGTATCCAGCGGACGCCTCCTGCGACGGTCCGGCCCCTAGTTGTCAGCTGCGCTCAGCTCTTAAGATGCTCCGGGGATGC
K
CTGAGCTAAGGATGCAGGTGCAGTCAGACTGGTCCTGATGAGAGGTAGGCTCCGCCTTCTTCCGAATGGTCCTCGGAAGAAGACTCCGCCTCTTCCGAAT
Celera SNP ID:            hCV9630763
SNP Position Genomic:     29831
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,26)   caucasian(T,32)   total(G,6|T,58)
SNP Type:                 UTR 5;UTR 3;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,27)   caucasian(T,38)   total(G,5|T,65)   
SNP Type:                 UTR 5;UTR 3;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 5;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33524):
GTGGATGAACATAACCTCAATAAACCCTTCTTGGGGCCAGATGTCCTGAGGGCCACCTCTACCCTAAATCACAATCACAAATGTGTCTAATATTCTTCAA
R
ATTCTTGGACTTCCCTGGCCCGTGACATGGATCTGAGTGTGCCAGGTGGCAGTAGCAGTTCCTTCAGGCAATGAAAGGCAGGACCGGGCTGGCTGCAGGG
Celera SNP ID:            hCV3138028
SNP Position Genomic:     18488
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33525):
CCCCTTTTCCTCCCTGCAATACACATACATGATCTGTTGCCCAGTCTGGAGTGCAGTTTGTGGTAATAGCTCACTGCAACCTCAAACTCCTGGGCTTCCC
R
CCTTGGCCTTCCAAAGTGCTAGTATTACAGGGGTGAGCCACTGTGCCTGGCCATATTTTCTTTTATTTTTTTATTTTTTATTTTTTATTTTTTATTTTGA
Celera SNP ID:            hCV3138029
SNP Position Genomic:     17234
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33526):
GCAGTAGCTTTTTCCTGGTCTATGTAATCCAGACCAGGAAAAAGCCCTTTACAGCCAGTGTGGCATGGTCCAGGGCAGCTCTAGCTGACGTTCACCAAGG
R
GAGATCCTACTTTGCTATGGTAGGGAGGATTTGGGATAGACATTTGCAGCCTGCACTTCTAGGGAACCTAGTGGATGAGTGACTAGGGAGATGACAGCCA
Celera SNP ID:            hCV9630780
SNP Position Genomic:     17468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33527):
GAGCAAGACTTCGTCTCAAAAAAAAAAAAGGTATTCCTCCAGGATGAATATATCCATTGTAGGCAAAAAAATAGGTGTGTGTATGTATGTATATATATAT
R
TGTGTGTGTGTGTGTGTGTGTATGTGTATATATGTATATGTGTGTGTATATATGTATATATGTGTGTGTGTATATATATGTATTTATGTATACATATATT
Celera SNP ID:            hCV27064950
SNP Position Genomic:     22410
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33528):
TGGAAGCCATCCGCCCACCTCAGCCTCCTTAAGTGCTGGAATTATAGGCGTGAGCCACCATGCCTGGCCCTCAGCCAGTTTTGAATTACAGTCTGGTTGC
Y
CTTGCCAACCAGTATACTTCTGGGCTTTTTCCTTTTGCCAGAAATCAGAATGTAATCAGTGAATATAAACTCATTTTTACTATTAGCCACATCAAATGAA
Celera SNP ID:            hCV9630781
SNP Position Genomic:     15416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33529):
GTGTTGGATGAACAAATAACTAAACAGAAATAGGCCGGGTGTGGCGGCTCACGCCTGTTATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATTACCTGA
R
GTCAGGAGTTCAAAACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTGCTAAAATAAAATACAAAAATTAGCCAGGTGTGGTGACACACACCTGTAATC
Celera SNP ID:            hCV27064951
SNP Position Genomic:     23051
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33530):
AAATTAGCCAGGTGTGGTGACACACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAAGCCGGGAGGTGGAGGTTATAGTGAGC
W
GAGATCGTGCCACTGCACTCCAGCCTGGGCAAAAGACCGAGACCCCATCTCAAAAAAAAAAAAAAAGAAAAAAAAAAGAGAAAGAGAAATAGATTTTTTT
Celera SNP ID:            hCV27064952
SNP Position Genomic:     23217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33531):
TGTCTCTCCGCACTTTGATGATTTTCTTCTTGTTGCTGAGGGTCTCTGGGTATATGCTGATGCCTTTGAGCATGTGAATAAACTTGTATGGTGGGTTCTT
S
TGCTTCTTCTCTGCCTGCTGGTGGCAGCATGACCAGACAAAGACGGTCACCGAGACACACACCACCAGCACAGAGGCCCCGATGAGGCCGGCCACCACCG
Celera SNP ID:            hCV9630769
SNP Position Genomic:     21328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:33532):
ATAAACCCTTCTTGGGGCCAGATGTCCTGAGGGCCACCTCTACCCTAAATCACAATCACAAATGTGTCTAATATTCTTCAAAATTCTTGGACTTCCCTGG
C
CCGTGACATGGATCTGAGTGTGCCAGGTGGCAGTAGCAGTTCCTTCAGGCAATGAAAGGCAGGACCGGGCTGGCTGCAGGGGGACAGGTGCCTACTACAG
Celera SNP ID:            hCV11258963
SNP Position Genomic:     18507
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,9)   total(C,1|-,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33533):
ATTAGTATAATGCCTACTGTTTTCCCTTCTATTAGAGGTATCCTCTCCTATCCTCTCCAACCAATCCATGGCTTTTTCTTCCCTCCAAACCTAGATGAAG
S
GTTTATCTTCTCTAGAAAGCCTATGAGCATCATGAGCACAATACTATGAGCATAATGTCCAGATTACATGAGAGGCAGGTATAATTTCATCTGCACTGGT
Celera SNP ID:            hCV27957600
SNP Position Genomic:     24932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33534):
ATGAGGTTTTATAAGAGCAAAATTTTCTTCTGCAGAGGTGGGGAGTGGGAGAAATTCTCCAGAGAAGCCCAATAAAAAGAAGCCAATTTCAGGTAATCAG
M
AAATACAATTCAGCACAAAACACAATTTCCATGGATTAAAATCTGCAACTTGATATTGGCAGTTAGGCTAATTTCTTCAGTTTGTATTAGACATGCAAGT
Celera SNP ID:            hCV27490623
SNP Position Genomic:     7186
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,85|C,1402)   total(A,85|C,1402) 
SNP Type:                 INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33535):
GAGTCCTCCAGCTTTCCAGAGAATCAGGCTGACATCACTGTGCCTATGTAATGTGAATCAGTCTTTATTTTGCACTTGTGTGGTGCATTAACAAATTCAA
S
ATACAAGATAGCATTACATATTGTAGATTAGCATTACAGCATTATGCAATTTCACACAATTCATGTTAGCTTTTTCAGTTTTCTTTTTTTTTCAAAATTT
Celera SNP ID:            hCV27470759
SNP Position Genomic:     4264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33536):
ACACGGGCAGCATGCCCATCCCCACTCAGCGCCGCTTTGTGATGCCCAAGTCTGTAGCCACAACACCACCTGAATGCCACTCCATTCTGCATTGAAGGCA
R
TTTAATGTCATTCCCTCAAGCTCCCTCCCTTTCTCTTTCTACCCAATTCCCATTCCAAGTAGCTATGTCAATGGCTCTTTCTTTTGAAAGAGCCATTGAA
Celera SNP ID:            hCV3138030
SNP Position Genomic:     16626
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33537):
GGCATGAATATTATTTAGGATACCTTGCCAAATGTAAAGACCCCATTTGTTCAACTGAAGAATCTTCCTAGCCAGGGAAATCTATTGGACGTAGATACTC
R
TCAGGAAGAGAATGTCTACAGAAAGAGGAGCAGATTAAAAGTGAAAGAGGCAAGGATCTTGAAGTGTGGAGGTCTATCTGGGCCACAGGCAAGGAGTCGG
Celera SNP ID:            hCV3138035
SNP Position Genomic:     8636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   JBIC-allele(G,192|A,721)   total(G,192|A,721) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33538):
GCAGCACTCTGGTCTTCACCCGATGCCGTTTGTCAGGAAGGATGGTCATTTTGATGTAGGGGTCAGATCCCTGGGTCTGGTCATCCATCACTGGCAGCCC
R
TGGGCCTCCTGGATTGTCACCACCAGGGCTTTTTTCGGGAAGTTATAGTCCACTGAGAAGGTGAGGGATCCTAGCATGACATCCTCCTCTGGAGATGATG
Celera SNP ID:            hCV9630770
SNP Position Genomic:     20926
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,29)   caucasian(G,40)   total(A,9|G,69)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:33539):
TTGGGAAAGGGGGGGCTCTGTTGTTCGTATCTTTGATGGCCATCCCATGTGTTCTTTAGTGATTGCACAATAAACACACACTGACTATATGTGAGTCTGC
Y
TGCCTGGATGAGGGGCCAAGGAAACCAAGCAGGAATAGAACAGAACAACTTTCTCAGGTTAGGTCTGAAGAAATCCCATGATACCAAGAAGTATATTAAA
Celera SNP ID:            hCV3138036
SNP Position Genomic:     8383
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:33540):
TATACACAGAGTCTCACTGTGTAGCCCAGGCTGGTCTTGAATTCCTGGTCTCAAGTGATCCTCCCGCCTCAGCCTCCCAAAATGCTGGGATTACAGGCAT
R
AGCCACCATGCCCAGTTGCTATTTCTTATCTGTGACCTTGGACAAGTTACTCAACATCTCTGTACTTCAGTTTCCTCACCTATAAAATGTGGGTGAAAGG
Celera SNP ID:            hCV27064941
SNP Position Genomic:     9474
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33541):
CCTTGCCTCATCCACCCCACCTTTGTTTCTTGGCTTACTGCAGACCTCTAGACCTTGAGGTCAAAGAGCAGAGATATAAGAGGCAATAAAAAGAAAAGAT
R
GGAATGATGAAAACATGAGGTTTTATAAGAGCAAAATTTTCTTCTGCAGAGGTGGGGAGTGGGAGAAATTCTCCAGAGAAGCCCAATAAAAAGAAGCCAA
Celera SNP ID:            hCV3138037
SNP Position Genomic:     7071
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,9)      total(G,9|A,7) ;JBIG-allele(A,301|G,1180)   total(G,1180|A,301)   no_pop(A,-|G,-)   (G,-|A,-)   Caucasian(G,20|A,60)   African-American(A,21|G,59)   total(G,79|A,81) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33542):
AAACCTGTGCGGGACTTGTCAGAGAAATGAGAAGCCTGTCTAAGTGCTCTGGGCACCTAGAGCTGGGAGATTCAGGGGAGGCTTTTTTAATTAATTAATT
W
ATTTATTTATTTATTTATTTTTTAATTTTATTTTTTGAGACAGAGTCTCTCGCTCTGTCACCCAGGCTGGAGTGTAGTGGCGAGACCTCGGCTCACTGCA
Celera SNP ID:            hCV27064942
SNP Position Genomic:     10498
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,6)      total(A,5|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33543):
CTGTGCGGGACTTGTCAGAGAAATGAGAAGCCTGTCTAAGTGCTCTGGGCACCTAGAGCTGGGAGATTCAGGGGAGGCTTTTTTAATTAATTAATTAATT
W
ATTTATTTATTTATTTTTTAATTTTATTTTTTGAGACAGAGTCTCTCGCTCTGTCACCCAGGCTGGAGTGTAGTGGCGAGACCTCGGCTCACTGCAACCT
Celera SNP ID:            hCV27064943
SNP Position Genomic:     10502
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,7)      total(A,4|T,7) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33544):
AGGTGGAAAATGAGCTAAAGTCGAGGAAGACCAACATCAGAAAGCTCAGTTAAGAGGCCGCTATAGCCGGGAGCAGTGGCTCATGCCTGTAATCCTAGCA
Y
TTTGGGAGGCCGAGGCAGGCGGATCACGAGTTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCTGGTATCTACTAAAAAAATACAAAAAAATT
Celera SNP ID:            hCV27064944
SNP Position Genomic:     11584
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33545):
CTGATATAATGAAGGATCTACAAATGGTAGGCCAGCCTGTTCCAAGTAAGCTGGACAGCATCAGGATGCCAACCACTAAGTGAAATGGTGAAAGCTATTG
R
ACCTTCTCTCACCAGGAAGTTGCTTCTTAGAGGAGACCTCATCTGCCAGGCCCTCTGTCTTACTCTGACCACTGCTTATCCTTGACATCCAAGAGCTTCC
Celera SNP ID:            hCV9630774
SNP Position Genomic:     20397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33546):
TTTGGGAGGCCGAGGCAGGCGGATCACGAGTTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCTGGTATCTACTAAAAAAATACAAAAAAATT
M
GCCGGGCGTGGTGACTGGCGCCTGTAGTCCCAGCAACTGGGGAGGCTGCGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGAT
Celera SNP ID:            hCV27064945
SNP Position Genomic:     11685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33547):
ATAAAGTGAAACCTCTTCAAGGGCAATCATATGCCAGGCATATTATCTCATTTGATTCTCTGTAAGGAAGACAATATTATCAGCTCCATTTTACAAATGA
S
AAAATAGAGGCTTAGAGGGGTCGAGTAACTCACCCGTGTCACACGGCTGGCAAGTGGTAAGCTGGAGAGTAAAGTCGTGCAGTCCAATTCTGGAGCCCAA
Celera SNP ID:            hCV9630775
SNP Position Genomic:     19428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33548):
ATTACAAAAAATATTTGTCTTTCTCCTTCAATAAAGTGAAACCTCTTCAAGGGCAATCATATGCCAGGCATATTATCTCATTTGATTCTCTGTAAGGAAG
R
CAATATTATCAGCTCCATTTTACAAATGAGAAAATAGAGGCTTAGAGGGGTCGAGTAACTCACCCGTGTCACACGGCTGGCAAGTGGTAAGCTGGAGAGT
Celera SNP ID:            hCV29332646
SNP Position Genomic:     19398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33549):
CAAGCATGGTGGCGGGTGCCTGTAGTCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATTG
Y
AGTCACTGCACTCCAGCTTGGGCAACAGAGCAAGACTCCGTCTCAGGAAAAAAAAAAAAAAAAGAAATAGAAAAATTAGCCGGGTGTGGTGGCGGGCGCC
Celera SNP ID:            hCV27064946
SNP Position Genomic:     12374
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33550):
ATGGAACATAGTCCTGCCTACGGGCACTGGTTGGGAAAATGGGTTTAGGAAGCCTGGGAGGCTGGAAGGCTCTAGGGTGGGGCTGCACAGGCTCTGGGTA
W
CCTATCTCGGGCCTTCTCCAGGGCATGTGTTGCTCAGGATCCTAGCCCTGGCTTATCCCTCCTCAAGGGAGTTAATAAAGTGGAAAGAAATGTGGCTCTT
Celera SNP ID:            hCV9630776
SNP Position Genomic:     17677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33551):
ATCCGTCTCAGCCTCCCAAAGTGCTGGGAATACAGGTGTGAGCCACCATGCTTGGTCCCTCAGCCAATGTGTTTTTGTTTGTTTTGTTTGTTTTTCCCCT
Y
GAGACAGGGTCTTGCTCTGTCACCCAGGTTGGAGTGCAGTGGCACGATCTCAGCTCACGGTAACCCCCACCTCCTGGGTTCAAGCGATTCTGGTGTCTCA
Celera SNP ID:            hCV27064947
SNP Position Genomic:     15129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33552):
TGGAGTGCAGTGGCACGATCTCAGCTCACGGTAACCCCCACCTCCTGGGTTCAAGCGATTCTGGTGTCTCAGCCTCCTGAGTAGCTGGGATTACCGGCGT
S
AATCACCATGTCTGGGGTTTCCGCCACGTTGGCCAGGCTGGTCTTGATCTCCTGAGTGGAAGCCATCCGCCCACCTCAGCCTCCTTAAGTGCTGGAATTA
Celera SNP ID:            hCV27064948
SNP Position Genomic:     15259
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,4)      total(G,4|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33553):
AAGAATTCTGGGTTTATGTACTTTTAAAATATGTTCCAAAATTTTAGCTCCCAGGTATATAAAATACAAGGCTGGGTGCAGTGGCTCACACCTGTAATCC
Y
GGCACTTTGGGAGGCTGAGGCAGGTGGATCATTTGAGGTCAGGAGTTCAAGACCAGACTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATATAAAA
Celera SNP ID:            hCV27064949
SNP Position Genomic:     22075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33554):
AAATAAACCTGTGCGGGACTTGTCAGAGAAATGAGAAGCCTGTCTAAGTGCTCTGGGCACCTAGAGCTGGGAGATTCAGGGGAGGCTTTTTTAATTAATT
W
ATTAATTTATTTATTTATTTATTTTTTAATTTTATTTTTTGAGACAGAGTCTCTCGCTCTGTCACCCAGGCTGGAGTGTAGTGGCGAGACCTCGGCTCAC
Celera SNP ID:            hCV15837167
SNP Position Genomic:     10494
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,10)      total(A,10|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33555):
AGTGTTAACCTCACTGAGAGTCCTCCAGCTTTCCAGAGAATCAGGCTGACATCACTGTGCCTATGTAATGTGAATCAGTCTTTATTTTGCACTTGTGTGG
K
GCATTAACAAATTCAACATACAAGATAGCATTACATATTGTAGATTAGCATTACAGCATTATGCAATTTCACACAATTCATGTTAGCTTTTTCAGTTTTC
Celera SNP ID:            hCV9632015
SNP Position Genomic:     4247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33556):
ATTTCATGTTGGGAAAGGGGGGGCTCTGTTGTTCGTATCTTTGATGGCCATCCCATGTGTTCTTTAGTGATTGCACAATAAACACACACTGACTATATGT
S
AGTCTGCTTGCCTGGATGAGGGGCCAAGGAAACCAAGCAGGAATAGAACAGAACAACTTTCTCAGGTTAGGTCTGAAGAAATCCCATGATACCAAGAAGT
Celera SNP ID:            hCV9632016
SNP Position Genomic:     8375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:33557):
CTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAGCAGACTTCGTTGTTCTGTAGCAACGTGCTACAGAAGAAATGATTGGGACTGGAACTAGG
R
CTGTGGCAGAGGAGATGGACATGGAGGTAAAATATGTCTCAGGAAGAATTGTCAGGGGTTTTTAGGCTTGGGCAGTTAATTGGCTGTGAAGCGTAGGGAA
Celera SNP ID:            hCV9632017
SNP Position Genomic:     12665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33558):
GGTCGGATATTGGTGATCTCAGCCATGTCGTAATCAGAGGCTGTTGCTATAACGTTTTTGCAATGGTGAGACAGCTCTGGGAACCCTCGGTCAGTACCGA
S
GCAGCAGCTGTAGAGCTCTAGGTCAGGGAAGGGGGAAGGTATCCAGCGGACGCCTCCTGCGACGGTCCGGCCCCTAGTTGTCAGCTGCGCTCAGCTCTTA
Celera SNP ID:            hCV25645839
SNP Position Genomic:     29713
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,36)   caucasian(G,38)   total(C,2|G,74)
SNP Type:                 UTR 5;MISSENSE MUTATION;hmCS


Gene Number:                 144
Celera Gene:                 hCG2041082 - 209000073582138
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY6P(2369587..2383305)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12304):
AATGTAACATGAAATCATTCCTTCCGCCTTAGCAGACAGATGGAGAGAGACATTCCAGTTTGTTTCCAGCCTTTTGTCTTTGGAGCATTTTTGGCATTTC
CTTCAGGAAACTGGAGGTTGTGACCTAAGGTTTCCTTAGTGAACACATTTCTGTTTCCCACAGTTAACCTTACCCAGAAATGACATCTACTCTATTAGGT
GAGGTTTATCTTCATGTCCCAACTGTGTCCTGTGCATATACAATGACACTTGAAAGCACAAATTCTGAAAGTAGCGAAAAGATTAGAGAGCCCAACATGC
CAAAACACTTTAATCCCCCAAAAGATGACAATAATCAAAAACAAGAATTAACTATTACAATAAGTCTGTGATGCTTGCAAAGTGCCTTCATTTTGTAGTT
GGAAAAATTAATGACTGAGAATATTAATGCTTTCAGATACTATGAATTGAAGGTTTTCAGATAAAAGTGTTATGCTACTCAGCCCACATTTTACAGCTAG
CTGCTTCACTGATACTGTATACTTCTATGTGGTTCAGAAGATAGGCTGGGAGAAGCCAAGACAGTGTCCTGAAAAAAAAAAAAAAAAAACACATGATTTA
ATACCCATATCCATATCCCCACTTCCCCAACATGTTGGTGAAAGGCCAAGAATGTATGCTTTTTTGATGGGTTTTGAATGATGATTGAGTCTCATCATTT
AAACTAGATTTACAACCACATTTTTGTGTATAATTTCTTTAAAAGCCCATATTTGATGACAGAATTATTGCATTTAATTTATTTGGCTTAAATGCAGTTT
AAAACTCAAACAATTCTACTTACTAGCCAATGTGGTATTCAGAAGGTTGGTGGTTTTTATCTCATTCTTTACTACTCTTCAGTGTTAACTTATTGAAGTT
TCTCTTCCTGAAAAAGATAGAGTGGTTTCTAAACAAACCACACTTTTTTCACACCCTAGTTAAGGTAAAAATCCTTTAAAGAATAATAGAAATTTGTCCT
TCACTTTGATTCCAAAGAGCTACACAATCCAGTAGATGACTCAATAATTATTTTTAAGAATGCTCTTCACAAAGGGATCTTTAAAAAAATCAGTTTATTA
ATGTTTAAAAGTTGATAAAGCTATGTGCAAAATGATCCACAAAAGTCAGAAACCTATTAAATACTATTCTTTTTAAAAAAACAAGACATCTCTCGGTTTA
ATTGCACTGAAAACCATACTAAAGAGACAGTAATATATTTTTATTCTTTGTAATATTTATACATATCTTCAATTACTATCTAATGAATAGCTGGACTGAA
AAGTTTCTGGCGTTCCCTACCAGTTAAAGTAATGCTTTTAAGGGCACAAGAGGGTGGTATTTTCTTAAGAAATACACATTCAATGGTGTTAACACGGGTT
AGAAAAATCCAATAAAATGACTTCTGCTGAAACAAATACATTCAAAAATCAAGAAAAGTACTTTTAACACAACAAAATACAACCATGTTGTTGCTTGAAA
TGAATCACACAACATTCTGAAATAAACATCAACAAAAGTGCCAAAGACAGATGTCATATTTGTTAGACTCATTTGCTAAGAAATCTCCCTTGGTTTGCAA
AAGTTAATCCATTCGGTTTTCACTTTGTTTTGCTTGTCTGTTTCTCCTAGGACACCAAGGATCCTGGCTAATATCATTTAGATAAAGTGGGCTTCCTTAT
GCAGATTTCGGCTTCAATGGATATGAAATGGTAACACATTTCATTGAAAAGATGTTTTTTAAAGAAATCAAAGTGACTTCAACCAAATTCCAAAAAACGG
ATCCCGCTTACATGGAAACTTTGGCCTCAGCGAAGGACATTGTTTTACACCTCCAAACCATCTTCATCTTCCCACAGCCTACGTACTCAACATAGCCTAT
TTGCTATAGATGATCGATCATTCCACAACCCCAGCTCTGATAACTCTCAGGTAGTTAAAGTATAAAGTAAAAGAACGTTGAGGAGGGGTATGAAGGGAAG
GGAGGGTGGGGTGTGGGATGTACAGGGCATCCCTAAAGAAGCAGAAGTGCACACACTCACTTGGGTTTGAAACTAAAGTGAAGGAAAACATCTCCTCAAA
GCTCCAGACAAAGAGACGCTTTCACATGGGGACATTAGTCTTTGAGGAGGGGCCAAATGAACCCTTTAGGAGCTTGACAATGCTAGACCTTTGGCTCAGT
GCAAAATCAAAGCTCCAGGGGGGTAGAAAATATATTCCAGGCCGGGACCTGATCTCCACCCTTCCCAGTGCATTGTTCACAGGAACTAACTCTACCCACC
AACACCCGACACCACCAGGCTGTTCGTATTCTCCCCCTTCCTCCCTCTGGCTTGCAGCAGCTCCTCCCTGGCAGCAGTCGAAGCCCAGAGATTTTTTTCC
AAACACTGGGGTGGCCAGCGACCAAGTAAAGAGCGCTTCCGGTGGGTGGACAGCTTCCAGTTCTAGGAAGAAGAGTTGACGTTTCCAGAAGACATAATGG
TCTCTGGGTTGTCCCCTTCGTCTTTCTGGGGGTGGGAGGAATTGTCCGATTTGCTGCGGCTGAATTCCATGCCGGCGATGATGGGTCGCTTGAATTTGCC
AGCAGAGTCTCCGCTCGGGCACTTGCAGCAGGACATGATCCGGATGAAGGCCCGACGCATCTCCTTGTTGGTCAGAGTGTAAATGATGGGGTTGGTGCCG
GAGTTGAGCACAGCTAACACCAGGAAGTACTCCGCTCTGAAGAGGATGTCACAGGTCTTCACCTTGCAGCCCACATCCAGCAGGAGCAGGATGAAGAGCG
GTGCCCAGCAGGCGATGAAGACGCTCAGGACGATAATTACGGTCTTGAGCAGCGCCAGCGACTTCTCAGAGCTGCGGCTGGCCTTGGAAATGTTCTTGCG
GAACGTCAGGCGGCGGCTCCGAGTCCTGACCAAGGAGTAGATTCTGCAGTACAGAATGACGATGGAGAGCAGAAGCAGAGTGAAGACCGTGGTGCAGAAG
AGGATATAGTGCTTGTGGTAGAGCGGCAGCACGGTGGAGCAGCTGGACAGCGCACTGATGCAGTTCCAGCCCATGATAGGCAGGCCACCCAGGATGAGGG
AGATGACCCAGCAGGCGCTGATTAGCAGGAAGAGGCGGAAGTTATTGCTCCCGTTGTGGAGTTTCATTTTCAGCATTGTGATATAGCGCTCAATGGCGAT
GGCGAGGAGACTGAACACGGAGGCTGACAGGGCCACAAACATACTCCCTTCCCGCAGAAACCACTGGGCGGGAGTGAGCTTGTAGGTGGTGGCCCCAGAC
AAGAGCAGGTTAGCTGTGTAGGCTACTCCTGCCAACAGGTCTGAGAGGGCCAGATTGCCAATAAAATAGTACATGGGTCGGTGGAATTTCTTGGTTTTCC
AAATGGTCAGCAAGACAAAGATGTTCTCCAGGATGATAAAGCAGCAGATGAGAATGAACACCACCGAGGTCAGTTTAATGCTGTTCTCCTTGTCCGCGCT
GATATTCAGCTTTCCCGTGTAGTTGTAATGCCGGACGATGATATCATAGTTGACGTAGTCAGAGACCGAGCTGCGGTGGGCCTTGACCAGCGGGACGCTG
GTGGGCCCCATGGTGCCAACCCTGTGTCCCCAGGAAGCCGGGGTGGCGCTACTCCGGACGAACGCTAGAGGGCGAGGCGAGAGAGCCTTCACTGGCTTCA
GGGGTGGTTCGATGAGTGATCCAGGCTTTTTGTGTAGCTTTTCCTTGGCTGGAGAGGGCCTCGGAAACCGCAGCCTTAAACAAGTCAGAGGAGAGAGTCA
GGGAAAGAGCCACAGCATACTGGCATAATTCATTCTAGCTAAGGCACTGCTCCAATTGTGTTGTTGTTGATTTGTTTTAAAGAAACTTGGGGAGAGCTCA
GGGAGAGAGATTTTTTTTAAAAATCAAATTATCTTTTTTCTTCCTTTTTTTTCTTTTTTCAAAAAAGGAAGAGGGGGAAGAAAAAGAGAGGGAGAAACTC
TATGGCCACATTCACTCAAAGGGAAATGGGAATTACGATGTTGGCTGTGGGTTGACAAAAAAAAAAAGATGATGAAAAGGAAAACAAGGAGTGGGAGGAA
TGGGAAACCTAGAGAACTACACCCCATTTTAACTCCACTCCTGCCCTCTCACCACCCCACACCCCCTCACCCCCGGATTTCCAGCCATGAGATTCTCTGA
AGCAGTCACCAGCTTAGCTGCACGCTCAATACCAGCCCACGTCTCTCCTCGGAAAAGACTCAACTGCCAGTCTGAGGGCGAAGACACACACCTCTGTCCC
CCATGCCCACCCCCAGCCCCCCAGTTCAAAGATACTAGCACCACCTCCTAATTGCCATGTGCCATGCAAGAAATCAGATTTGCAGGAAAATCATTTGAAA
GCGTAAGCCATTTGGGGGCTCTATTAATAACTCTCTAGGAGCAGGTGTGCTTAGGGTCCGAGGGCGCAGTGAGGTGTGGGCAGCCAGGCCCGCCCCGCCT
TGCTGTAAACAGGAAAGCTTAGCGCCTCCGTGAAGCGACTGCCTTTTCTTTCTTCTTCTTATTCTCCCCGCCTCCCCCCGCGCCCCCCCACCCCACCCCC
CACCCCAAGCCAGGGCAAGTAAATTTAAAGGTATTCAGTTAAAACCATTCATAACAGATTGCAGCAAATCCCAGAAGTTTCGTACATTAGTTGATTGCAT
AAATATTTTTTGCTTTGTTTAGTTTAGCCAAAACATACACAAAAGAGAGAAATCAAACTACTCATGACAGCCATAATACATGCTACCACATTTCTAATTT
CGATTGCAAAACTACTCTTCAGAAACTCACATTAAACTGCTCCCTGGTGCATTGCTAAATTTGCGTGGGCAGTTTTATTTACTGCAGTCCCCCAACACGT
TGACTCCTCTCCTAGGACTAGAAAGTTACAAAGAAACTTTCTAAGACGGCACTGGTCAGCAGAAGTCTACTTCTAAGTTGCTTAAATATTTCAAGGTAAT
GCAGCAATGCAATAAAATGAGGTAATAGAGATGAGAACAATCCCAGCAACTCCGCGAACAGCAGAGGCTGCTCAAGCCAAGAAGCTCCGCATTTTCCCCC
AACTAATGTTATACCCTGCTCCTGGGCAGTACTAATTTAAGCCATTACCCACGCTCCACACCACCCACCATATTCTTTGTCTATAGGATTTCCAAAATTT
AACGCCTTCCCTCCTATTCCTCCGACCAACTGCAATTTTCACTGCCCCTACACCCGTAGGTTCCACAGTTGGGAATTAACCTTTTTTCTGAACTCCATAA
ATCACAAGTGCCCAAGAACAATCTGATCGAGATGGGCTCCTTAGTAGCCCAGAGATGCAAATTTTCAGCGCCCGGAGATGCATGTTTTCTAAGTTTTTGT
TTGCCTCGTTCGACTTAAAAATTCGTTTCTGACACCTAAGCCCTACCACAACCGGGCTCCCCGCGCCCGCGACCCCCGCCATTCGCCGCCCCCTACCTCG
CTCAAGCAGGGCGAAGTTGCGTTCGGAGAGCCCGGGATCTGTACGGCTCGCTTCGCATCTTGCTGCTGCCCCCGACTGACTGCGTAGTGCTCTCGCAAAC
TTACTCGAGTCGGGGTCCCCTCCCTCCGCAGCGGAGCACTCCAATGGCCAGTCCCGCTCGCCGCGGCCAGTTCCCTGCCTGCTACGCGAAGTCACCCAGC
GCCGCGCCAAGGCTGGGTGGTTTCTTCAGGAAGAGGCTGGGAGGGGTTAATGCCTTAACCCCCCACGCCCTCTGTCAGCTGGGGGCCCCCGGATCTGAAC
TGCTGAGACGCACTGTCCAGGAAAGATCTGGGGCAGAAGCAAAAAAAAAAAAAAAAAAAAAAAAAAGAACCCCTCCTCCCCAAACAACAAATGAAAGAAA
AAAAGAGAGAGAGAGAAGGGGCGGAGCCCGGTAACCCCTGGATTCTACTGTATAAATCACTGCCCTCGCCCAGATAGACGCTGATCCCTGGCTGTGGAGA
GGATTCTCCCGAGCCCCTGAAAAAAAAAAAAGGTGGAGAGACTTTGAAAACTTTTCTCTCGAAAAGTCTGAGGAGGCAGAGGACGGCCCGGAGTCTCGTA
GCGCACCGCCCTGGTCCCACACCCCCCGCAGCCCTAGGAGGATCGGTGTGCTGAGCTTGTGGCCAGGAGCTCCCCGAGCCACTTTCGCGCGAGCAGCAGA
AAACCTGAGCCGCGGCCCGGCGAGTGTCGGCGGCGCTCTGGGGAGGAGAGGCTGGGAAGGGGCTGCGAGAGGTACGGAGGAGACAAGCAGCCCGGGAGGG
AGAATGAACCGGRAGGTTCCTGTACTCCCCCCGCCACCCCAGATCCTCGTGCTACTCGCAACTGCGGTCTGAGGGGCAGTGGCTTTCCCAGAGTGCACAG
AGAAATGAACCMGCGCCGGTTTTGGTGTTGGGCGAGGGGTTTCCCTCAGCTGAGCACAAAGTCAGGCTGTGTGTCCCAGATTCTGGCCAATGGAGAGGTC
GTTGAGGGGGTGGGCTGCTGCTGAGTCCTGAGAGATTCAAAACGCCTGGGCAGCTCAGGAATTTCCAAAGGGGGAGATTCTCGGCCAGGAGCTGCGGAGC
AACTGCAGCTGCCCAGCAGGAGCCGGCACCCTTCTCTCACATTCTGCTTGGGAGTCGACTCAGAGGCCTCRAATCTCATTACTAGCACTTTGCCCACCCT
TTTCTTTTGCTTAGATGCTRCTTAAGAACGTGAGGCTGAGAGGCGGACTTGGTCAGATCTGCCTGCGTGACAAGCTCAGGACAGGACGCTTCTGCCCTTG
CATTACTGTTGTAAAAGTTTCCACCCAGTCCCTGGTCGCACTGCGTTCCCATCCCGGCAGATGTGAACTCAAAAACTTCCTCCGCTGTGCAGTTTCAATT
GGCAGACACACCCTGTACCTGAATGACTCAGAAGGAGGCAGAATGAACAAACAACAGACCCCTGACTTCTGGGATTTTGTGAGTTTGCCAAAAAAAAAAA
AAAAAGAAGTGACAGTTAATTCACAGCTGTTTTAAAGCATTCATCGACAGCGACGCACCCAATACATACCCACAGCTTCAACAACAGTACAGTGCATATA
ATGTGGAAACCAAGATAACGGTCCTCTAAGACTCCAGAGTAGATCCTAATTGGATTTGAAGACTTATTTCACTTAAAGGGGAAGAGGTATATTGTGTCTA
CCCAGCAMAACAAAACGGGGGACTTGGCATTCCCCCCCTTCTCCCGCCTCCACMCACACTAATTTATGCATTCTTTAAAGCCAAAGGAATCAAAGTGAAA
TTTCACACCTAGTCTGTATCAAGCATGTGCTAGGTTAATTTAACCTTACTGCTCTGTGAAGTAAGTAAGCATTGCTGGCCATTTTATTGTTGAGAGAAGT
GTCATTCAGACAACTAAGGTGACTTGTAGATTTCCCAGCTAGTGAGTGGCAGAGCTGGGTTCCAAAACCTAAATATTGCAAATGCCTTGCCTTGTGGCTC
AAACGCTATCAGTCAATAAATAGTTAAGGAATTGAAATATATGTTCCTAGAGGGAAACAGACTTCTAGATTTAAAGTTTTACATTTGCTGCATTTCTGAC
TGTACAAGTCTACAAAATGCATATAAAAGTATGCTAATGAATGTCCTTTTAAAACCACTCATTTTCTACGTAAGCATACAAAGTGTATACATATGCATAT
TAATGAATGTTTTCTGAAACTTCTCATTGTCTGCCTATGATATCTCATGTAACATTGTACTTTTAGTATTTGCACATAGTGTTACACATATTAATCCATT
TAATCTGACAAGTTAGGCACTATAATTATTCTAATTTTACAAACAAGGAAATTGACTCCCAGACATATTAAGCAGCTTGCTTAATGTGGGACAGGCTGCA
GACTCTTAACCACTACTCCAGACCACCATGATAAACCTCAAACAGGTTCAAGAATTTCCTTGGGGATATCAGTTGTTTTCTTGTGAATACCACTGGTTTT
TAACATTCAATATTGATAAAGTGTTTTACAGAGTCCAAAAACCTTTCAGATTGTTATTTAATAATATTCATCTTTAGTACACACCTATGAGATGTAATTG
TAGATGATCAACTTAGGTAAAATTAGATAGTAGGCAAATGTTTCCAGCAATGGCGTCCTGGCCAATTCCAAGTCTCTAGTTCCCATATAAGTCTCTTCCC
ATTGCTCTCCAAGGAGGCCCTAAAAATTGCATTCTCAAGCTATCTCCTGACTGCCAGTACAACTCCCTGTCTGCTGCTGCCTAGAAGTCAAGCCCAACAT
TCCTACCTTAAGTTTGCTCCATTTCCAATTTTTGATTTCAAAGTGGCTTTGTTGTTCTTTACACATGCTTTAGTGTTTCTCTTTAAAAGTTTACAGATAA
AATACCACACAATCTTTGGAGCATACACTAAACAAAAATTTGTCATAAATGTGCCATTCAAATGTAACTGTGTGAGCTATCTTTTTTTTTTTTTTTTTTT
TTTGAGACAGAATCTCACTCTATTGCCCAGGCTGGAGTCCAGTGGCGTGATCTCAGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTACC
TCAGCCTCCTGAATAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAGTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGTCCAGGCTGG
TCTCGAACTCCTGACTTCAGGCGATCCACCTGCCTTGGCCTCCCAAGGTGCTGGGATTACAAGCATGAGCCACCGAGCCCAGCCATGAGCTATATTTTTT
ATCTGCTAAATATTGCAACTCTACTCTTTTCCCTTTCCTTTTTTTTTTTCTTTTTTTCAACTGAGACAGGGTCTGGCTCTGCTCTGTCATCCAGGCTGGA
GTGCAGTGGCGAAATCATAGCTCACTGCAGCCTTGATCTCCCGCCCTCAAAGGATCCGCCTACTTCAGCCTCCCAAGCAGCTGGGACTACAGGCACCAGT
CACCATGTCCTGATAATTATTATTTTTATTTTTTGTATAGACAGGAGTCTCACTTTGTTGCCCAGGGTGATCTTGAACTCCTGCGCTCAAGCAGTCCTCC
CACCTTGGACTCTCAAAGTGCTGGGATTACAAGCCTGAGCCTTACTCTCTTTCCTAATTGCTCCAGTCACTTTCCAACTCCCTTTTCTCCCCTCTTCCCT
CCCCTGACCCAGTCACTGGTAAAAATCCAGGCTTTCCCTTACTTGTCTATTCACAGGAGAATAACTAGCCTCTTATTTCAAGGAGGAAATAGTATGACCA
TCTCAATTTCCCTCCTCTCCAAGCTCCAGCTTAATAGCAACTTTACCCACCCTTACCTCCTTCCCACCTGTTTCAGAAATAAAAGCAACTTTACTCCTTT
CCAAGGCAAACTCTTGCCCAGGTCAGCATGCTGCTTCCTCCAAACTTTCTGAGACTTGGCTCAATTATTCTTATTCTCCCTTGTACTTTCAGTTCTTAGC
TTCTGAGGACTCTTTACTTTCAACTTACATAAATGTTTATGTGTTTTCTCTACCAAAAACTCTTTCTTCCCTTCATCCTAGGTCCCAATATCTCTCTCTC
CTCGTTTGCCAACATTCAAAATTAGTGGAACATGACTGAGCCTTGGAACAGACACTTAGGTTCAGCCTTGATATTGCCAGTTCTAAGCTATGTGACTTTA
GGCAAGTTCTTTTAACTTCCTTGAACCTCAGTGTCCTCATCTGTAAAATGAAATAATGATATTTGCCTCTTTCATTGTGAGGATTAAGGAGCTACATACC
TGTGAGAATTCCCTACACTACAGAGAAAATGCTTCACCCATCCACCACCTCCATCTTTTATTATTATTATTATTATTATTATTATTATTTTACTTTAAGT
TCTGGGGCACATGTGCAGAATGTGCAGGTTTGTTACATAGGTATACACGTGCCATGGTGGTTTGCTGCACCCGTCAATCCGTCACCTACATTAGGTATTT
CTCCTAATGCTATCTCTCCCCTAGCCCCCCACCCCCAACAGGCTCCAGTGTGTGATGTTCCCCTCCCTGTGTCCATGTGTTCTCATTGTTCAATACCCAC
TTATGAGTGAGAACATGCAGTGTTTGGTTTTCTGTTGTTGTGTTAGTTTGCTGAGAATGATGATTTCCAGCTTCATCCATGTCCCTGCAAAGGACATGAA
CTCATCCTTTATTATGCCTGCATAGTATTCCATGGTGTATATGTGCCACAGTTTCCTTTTCCAGTCCATCATTGGTGGACATTTGGGTTGGTTCCAAGTC
TTTGCTATTGTGAATAGTGCCACAATAAACATATGTGTGCATGTGTCTTTATAGTAGAATGATTTATAATCCTTTGGGTATATACCCAGTAAGGGAATTG
CTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGTTGAACTAATTTATACTCCCACCAACAGTGTAAAAGC
GTTCCTATTTCTCCACATCCTCTTCAGCATCTGTTGTTTCCTGACTTTTTAATGATCACCATTCTAACTGGCATGAGATGGTATCTCATTGCGGTTTTGA
TTTGCATTTCTCTAATGACCAGTGATTATGAGGTTTTTTCATATGTTTGTTGGCTGCATGAATGTTGTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCC
CACTTTTTGATAGGGTTGTTTGGTTTTTTCTTGTAAATTTGTTTAAGTTCTTTATAGATTCTGGATATTAACCCTTTGTCAGATGCATAGATTGCAAAAT
TTTTCTCCCCTTATATAGGTTGCCTGTTCACTCTGATGATAGTTTCTTTTGCTATGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGC
TTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGCATTTGCCCATGACTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGATTTTTCTTGTT
TTAGGTCTTACGTTTAGGTCTTTAATCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGGGTCCAGTTTCAGTGTTCTGCATATGGCTAGCCAGT
TTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCTCCCTTTCTTGTTTTTATCAGGTTTGTCAAAGATCAGATGGCTGTAGATGTGTGGTGTTATTTC
TGAGGCCTCTGTTCTGTTGCGTTGGTCTATATATCTGTTTTGGTACCAGTACTATACTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGT
AGCATGATGCCTCCAGCTTTGTTCTTTTTGCTTAGGATTGTCTTGGCTATGTGGGCTCTTTTTTGATTCCATATGAAATTTAAAGTAGTTTTTCGCAATT
CTGTGAAGAAAGTCAATGATAGCTTGATGGGGATAGCATTGAATCTACAAATTACTTTGGGCAGTATGGCTATTTTCATGATATTGATTCTTCCTATCCA
TGAGCATGGAATGCTTTTCCATTTGTTTGTGTCTTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGC
TGTATTCCTATATATTTTATTCTCTTTGTAGCAATTGTGAATGGGAGTTCACTCATGATTTGTCTCTCTGTCTGTTATTGGTGTATAGGAATGCTTGTGA
TTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGATGGTGGGATTTTCTAAATATACAATC
ATGTTATCTGCAAACAGAGACAATTTGATTTCCTCTTTTCCTGTTTGAATACCCTTTATTTCTTTCTCTTGCCTGACTGCCCTGGCCAGAACTTCTAATA
CTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCTTGTCTTGTGCTGGTTTTCAAAGGGAATGCTTCCAGCTTTTGCCCATTTAGTATGATATTGGCTGT
GGGTTTGTCACAAATATCTCTTATTAGTTTGAGATACATTCCATCAAAACCTAGTTTATTGAGAGTTTTCAGCATGAAGAGGTGTTGAATTTTGTTGAAG
GCCTTCTCTGCATCAATTGAGATAATCATGTGGTTTTTGTCATTGGTTCTGTCTATGTGATGGATTACGTTTATCTATTTGCATATGCTGAACCAGCCTT
GCATCCCAGGTATGAAGCTGACTTGACCGCACCACATTTGTCTTTAACTGTCTTTAAGTGCAATCATTGCTTTCACCATCCCACTTTCCATTTTTTTATT
CACTTTGCTTTTTAATTTTCCAATAAAATTTTAAAGTCAAAATAATATGTGCATATCATTTTAAAGAGATCAAATGGTACAAAACTTGAAAAGAAGAGCA
TTAGTCCTCCGAGGTTCCCTGGTTCACCAATTTTTCCAGTCACTGTGAAGTCTTGTTGATTTTCTTCTGGTAGCCATTTGCAAATCTTGAAATCCCATGT
TTTATACCTCCATTTCTTCATTATCAATCTTATAACAATATCTATAGGTTTTCTGCCATGTTGAAGGAGTATTAATTAACTTGAAGAAGGATGCTTATAT
TATAAACTTTCTGAATTCTTGCATGTCTGACATTTTAAATATTCTATTATTTACTTGAATAATATTTTGACTAGGTATCAAGTTAAAAGTTGTAAGTCAT
TTCCCCTGAGAATTTTGAAAGCATTACTCTTTTGTCTTTTAATTTCTAGGGCTACTGATAAAGAGCATAAAGCTATTCTGATTTCAAAACTTCACAGCTG
ACTATTTTTTGTCTCTGGATGTTTTTAGAAACTTCTCTGTCTCTTCAGTATTCCAGAGTGACATGATGATATACCTTGATTTTCTAAGTCCTTTGCAGTT
CTGAAAATTATCTGAAATTATTTCTTTAATGACTTCATCTTCTCTCCAGTTTTTCTATTTTCCCTTTTTGCAAATCCCACTATTCAGATTGTGGACCATC
TATCTAGCCTGATTTTTAAATTTCCTCCTATTTTATTTTCCTTTTTGTACTTTCAATCCTTCAGTTAATAGCTCTCTTTTCACTCTCATACTTTAATTTC
CAAGGGCTCTCTTTTTCTTTTCTGAATGTTACATTTTTACAGAACTCTGTTCTTATGTTAGGGATACCACATCTTTACTTATCTCTGAGGATATCAGAGT
GTTGTTGTTGTTTTTGTTGTTGACATTTTCTCCTATTTTCTTTGTTGTCACACTTTCCTATTTGTTTTGCTCTCAGTTCTTTGTGCCATTGGCTTTCCCA
ATTGTCAGATGATCTCTGGCCGTCCATTTATATTTCAAACAGAGGCTAAAATAGAGGCAAATCAGAAAGCTAATTTAAAACTTTGTGTGGGGGCTTGTCA
ATGGAGGGGTGGTAAATGATCAGGATAAACACTTTCGTTGAGTATGCCAAATGTCAATATCTGGAGTTCTCAAGTTTTGGGCAGGTCAGTTTTGCCAGAC
AGAAATTCTAAAATCTCTTGTCTGACTTCTAGCATTTTCCGGAGTGAACCAAGAAAGAAAAGTGGGAGAGTGAAGGAGGGAACACCTCACCATTTGATAT
TTAGATTTGAACTGAATCACCATGATGGGAACCCCCTCTACACACTCAGCTCCATCAGGTGTCTCTGACTCCAGTGACCCTCTGATTTAACCCATTCAGA
GAAGAAACCTCCAGTCTT


SNP Information

Context             (SEQ ID NO:33559):
GGCGGAGCCCGGTAACCCCTGGATTCTACTGTATAAATCACTGCCCTCGCCCAGATAGACGCTGATCCCTGGCTGTGGAGAGGATTCTCCCGAGCCCCTG
A
AAAAAAAAAAAGGTGGAGAGACTTTGAAAACTTTTCTCTCGAAAAGTCTGAGGAGGCAGAGGACGGCCCGGAGTCTCGTAGCGCACCGCCCTGGTCCCAC
Celera SNP ID:            hCV11619012
SNP Position Genomic:     6020
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 PUTATIVE UTR 5


Context             (SEQ ID NO:33560):
GAGCCGGCACCCTTCTCTCACATTCTGCTTGGGAGTCGACTCAGAGGCCTCAAATCTCATTACTAGCACTTTGCCCACCCTTTTCTTTTGCTTAGATGCT
R
CTTAAGAACGTGAGGCTGAGAGGCGGACTTGGTCAGATCTGCCTGCGTGACAAGCTCAGGACAGGACGCTTCTGCCCTTGCATTACTGTTGTAAAAGTTT
Celera SNP ID:            hCV1271372
SNP Position Genomic:     6720
SNP Source:               Applera
Population(Allele,Count): african american(A,10)   caucasian(A,8|G,2)   total(A,18|G,2)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,7)   caucasian(A,20|G,16)   total(A,43|G,23)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33561):
CGGCCCGGCGAGTGTCGGCGGCGCTCTGGGGAGGAGAGGCTGGGAAGGGGCTGCGAGAGGTACGGAGGAGACAAGCAGCCCGGGAGGGAGAATGAACCGG
R
AGGTTCCTGTACTCCCCCCGCCACCCCAGATCCTCGTGCTACTCGCAACTGCGGTCTGAGGGGCAGTGGCTTTCCCAGAGTGCACAGAGAAATGAACCAG
Celera SNP ID:            hCV27854097
SNP Position Genomic:     6313
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,30)   total(A,2|G,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:33562):
AACCAAGATAACGGTCCTCTAAGACTCCAGAGTAGATCCTAATTGGATTTGAAGACTTATTTCACTTAAAGGGGAAGAGGTATATTGTGTCTACCCAGCA
M
AACAAAACGGGGGACTTGGCATTCCCCCCCTTCTCCCGCCTCCACCCACACTAATTTATGCATTCTTTAAAGCCAAAGGAATCAAAGTGAAATTTCACAC
Celera SNP ID:            hCV25968061
SNP Position Genomic:     7208
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,38)   total(A,1|C,73)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33563):
ATTTGAAGACTTATTTCACTTAAAGGGGAAGAGGTATATTGTGTCTACCCAGCACAACAAAACGGGGGACTTGGCATTCCCCCCCTTCTCCCGCCTCCAC
M
CACACTAATTTATGCATTCTTTAAAGCCAAAGGAATCAAAGTGAAATTTCACACCTAGTCTGTATCAAGCATGTGCTAGGTTAATTTAACCTTACTGCTC
Celera SNP ID:            hCV11450563
SNP Position Genomic:     7254
SNP Source:               Applera
Population(Allele,Count): african american(A,14|C,22)   caucasian(A,16|C,22)   total(A,30|C,44)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33564):
GGAGGTTCCTGTACTCCCCCCGCCACCCCAGATCCTCGTGCTACTCGCAACTGCGGTCTGAGGGGCAGTGGCTTTCCCAGAGTGCACAGAGAAATGAACC
M
GCGCCGGTTTTGGTGTTGGGCGAGGGGTTTCCCTCAGCTGAGCACAAAGTCAGGCTGTGTGTCCCAGATTCTGGCCAATGGAGAGGTCGTTGAGGGGGTG
Celera SNP ID:            hCV27836578
SNP Position Genomic:     6412
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,1)   caucasian(A,36)   total(A,69|C,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:33565):
GGGGAGATTCTCGGCCAGGAGCTGCGGAGCAACTGCAGCTGCCCAGCAGGAGCCGGCACCCTTCTCTCACATTCTGCTTGGGAGTCGACTCAGAGGCCTC
R
AATCTCATTACTAGCACTTTGCCCACCCTTTTCTTTTGCTTAGATGCTACTTAAGAACGTGAGGCTGAGAGGCGGACTTGGTCAGATCTGCCTGCGTGAC
Celera SNP ID:            hCV27836579
SNP Position Genomic:     6671
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,13)   caucasian(A,26|G,10)   total(A,47|G,23)
SNP Type:                 INTRON


Gene Number:                 145
Celera Gene:                 hCG2041260 - 209000073583808
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VYHA(14903718..14972023)
Chromosome:                  Chr20
OMIM number:                 600397
OMIM Information:            POTASSIUM CHANNEL, VOLTAGE-GATED, SHAB-RELATED SUBFAMILY, MEMBER 1;KCNB1


Genomic Sequence (SEQ ID NO:12305):
GTAGAGGCAGGATCTCCCTATGTTGCTCAGGCAGGTCCCAAACTCTTGGCTTGAAGTGATCCTCCCATTTTGGCCTCCCAAAGTGCTGGAATCCCAGGCG
TGAGCCACCACACCCGGCTGAAAGGTGGCTTTGGCGCTGCTAACATCAAGGTCCCTGTGAGACATCCGAGCAGAGATGCCAAGTTGGCAGTTGGAGACTA
GAGTCTAGACTTCACGGGAGAGGTCCAGGCTGGGGATGTAAACTCAGAAGTTGTCAGTTTATTAGTGTTTAGAGCCATGAGTCTGGATGAGATGGGAGAG
AGAGAAGAGGCCCAAGCCTGAGCTTTGGGCACTTGATTAATTCAAAGCCACAAGATGAGGAAGAACCACCTGAAAAGACTAAGAAGTTGTGGACAGTGAG
GTAGGAAGAGAACTAAGAGAAGAAAGTGCTGAATGACAAGCAGCATCATGGTAGCTGGCCATGGGAAATGGCCCGCCAAAAACTGCACACTGCGGTTCAC
ACTCTTGCTCGGCCCCAGCCACTTTCCTCTGGGCTGTCACCATAGAACTAACAAAAAGCAGCAGAAGTGGCAGCCTGCCTTCTGAGGCCAGGTCACAGGA
AATCTTGCAGCTTCTACCTTAGTGTTTTTGAATGCTGCTCTGGGATAAGCCAGTTGCCATCAAAGAAGTTTGACTACTCTGAGCCACCACGATGTGAGGA
AGCCCAAGCTAAGCATGTGGGAAGCCCAGGATGGAGGGAAAAGATGGCCAACCAGGGCCATGGTTGTTCCAGCCATCTCAGCTGAGGCACCAGCCACAGG
AGTGAAGAATTTGTTTTAGACATCCAGTCCAATCAAACCTTGCCATGACTTTGGCTACAGCTGCACCAGCATGAGAAACCCTGAGGGAGAAACCCACAGG
ACTAGGAGAGACAGTGACACACTGTCATTTTAAGGCTCTATATTCTGGGATGGCTCATTCTACAGTGGATAATGGAGACAGGAGTTCATTGCAAAGGGAG
ACTGACCAGTCCCCTGCCCGCAACAGAGCACAGCCCTCTTCACCCAGACCCATGGAGAGGTGGCTGAGCAGACCTCAGCTGGGCAGCCCTCCACACTCTG
AAGGCTCCCCCTTTCCTGCCTTAGTGGCAAGAATAATAATTTTCTCTTTGTGCCCAGAGAGCTGGCAACTGCCAAGTGCCCTGCTGTCCCCAGGGCCCTT
ACAAAAGGACTGCAGGGGAGGTTTTTCTGAGAACTGGGTCACCGGTTACTTAGATGCTTCAAACCTGGCAGAACAGAGAAACATCAGATAAAGGAGACTG
GGAACTTCATAGGAAGCTGCTGGTCCTTGTCATGGGGACACACCATGACAAGCCACCAGAGAGTGGCTGCCTGCCCTCTCTGGACCCTTATGTCATAGGG
ACCTCCTCTCTTCTAGAGAGCTCTCTCTTTCTTTGTAAATGTTTGTAAATCTTTCTTTGTAAACATTTTGGAAAGTATGCATTAATCAGGCCAGACACGA
TGGCTCACGCATTTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACTCGAGGTCAGGAGTTCAAGACCAGCTTGGCCAACATGGTGAAACCCTA
TCTCTACTAAAAATAGAAAAATTAGCTGGGCATGGTGGTGGGCATCTGTAATCCCAGCTACTCGGGAGGGTGAGGCAGGAGAATCACTTGAACCCAGGAG
AAAGAGGTTGCAGTGAGCTGAGATCACATCTGTAATCCCAGCACTTTGGGAGTCTGAGGTGGGCAGATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGG
CAAACATGGTGAAACCCTATCTCTACAAAAAATACAAAAATTAGCTGGATGTGGTGGCACATGGCTGTAGTCCCAGCTACTGGAGAAGCTGAAGTGGGAG
GATCACCTGAGCCTGGGAGGTCCAGGCTGCAGTGAGCCGTGATTGTGCCACTACACTCCAGCCTGAGTGACAGAGTGAGACCTTGTCTTGAACAAAACAA
AACAAAACAAAACAAAACAAAACAGAAAAAAACCTGTCCTTTTCTCCCACTGCCTGTTCAGTTCCCCAGAGGCAATTGCTTAACATTTCTTTCACATTTA
TTGGAATAGGTAACACAAGGCGTGTGCTAAAAATTTCAAAAGGTACAAAAAAGGTAAAGAGATTAAGTCTCCCTCCTTCCTTCTCCCCACCCAGCTCCTC
TCCCTAAAGACAACCACTTCTACCAGTGTATTACATCTCCTTCCAGAGATATGCTATGCATATGTCAGCATATAATATAAACAGCCTTAAAAAATAAAAC
AGGGCTGGGAATGGTGGTTCATGCCTGTAATCCCAGCACTTTGGGAGGCCACGGTGGGTGCATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAAC
ATGGTGAAACGCTTGTCTCTACTAAAAATACAAAATTAGCTGGGCGTGGTGGCTCATGCCTGTAATCCCACCTACTTGGGAGGCTGAGGCAGGAGAATTG
CTTGAACTTGGGAGGCGGAGGTTGCAGTGAGCTGAGGTTGTGCCATTGCACTCTAGCCTGGGCAACAAGAGGAAAACACCGTCTCAAAAACAACCACCAC
CACCAACCCAGAAAGGGTAACTTGCTACAAATGCTGTTCTGCACCTTGCTTTTCCACTTAACCATATATTTTGAAGGTCTTCCATATCAGTAGGTAAATA
ACTGCTTTATTATTTTAGGGGACTGCACAATATTCCACTGTAGGGATGGACCGTAATTCATGTAACCAGCCCCTACTGAGGGACACTGAGGTTGATGCCA
ACCTTTTGATATTACAGTGAAACAGCAAATAATCTTGTACTCATGTTTTCTTGCACATGTATGCCTCTCTCAGTAAAGATTCCTGAATCAAAAGACGTGT
GCTTTTGTCATTTTTTAAAATTTTTATTTATTCATTTATTTTTGAGACAGGGTCTCGCTCTGTCACCCAGGCTGGATTGCAGTGGCACGATCATGGCTCA
CTGTAGCTTGACTTCCCGGGCTGAAGTGATCCTCCTGTCTCAGCCTCCTGAGTAGCTGGGACCACAGGTGTGTGCCCCCATGCCTGGCTAATATTTAAAT
TTTATTTTTAGTAGAGACAGGGTCTTCCTATGTTGCCCAGGCTGGTCTCAAACGTCTGGGCTCAAGCAATCCTCCCGCCTCAGCCTCCCAAAATACTGGA
ATCCCAGTATTATAGGCTGTGCTTTTGTACTTTTAATAGGTATTGACAAAATGAGACTGTATTGATGTTCTTGTTTGCAGACTTCATACTTAAGTGCCCC
TTTCCCTACACCTTCCCCAATTCTATTCAAATAAAAATCAACATCTTTAATCTGTGCTGTAGAATTGGTAAGAAATGTATCTCTGCACTTTTACATTTGA
AATATATTGTTAGAAGGTTGAGCATCTTCATATGCTTAATTGTCATGGCAACCACTTCTAGCCTGTGTAGCGATTTCTTCTAGTTGTTTATTTCCATAGA
GCTAAATAATGTTTGAATGTAGCCATTCATTGATTTATCAGCTTTAGGTGTTATCTATTGATTTTTGCTCCAATACATGAGGATTTAGCTCACTTACAGT
GTCATCCTTGCACCTCCTCTATCTTTCTACCCTTCCTTCCTTCTCTCTTTTTTATTTTTATTTTTTTTTTGAGACGGAGTCTTGCTTGTTGCCCAGGGTA
GAGTGCAGTGGCACAATCTTGGTTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTACCACAGCCTCCCAAGTAGTTGGGATTACAGGCGCCC
ACTGCCAAGCCCAGCTAATTTTTGTATTTTTAGTAAAGATGGGGTTTCACCACATTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATGCACCCAC
CTCGTCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGTCTCTTCTCTTTATGAAAAATATTGCTGGTTTTCCATTTATAGTAGTGATA
TATTTTTTTCCTTTCCTTTTCTTATTAAAATAGACTATTTTTTAGAGAAGTTTTTGGTTCACGGCAAAATTGAACAGAAAGTACAGAGTTCTCATATATT
CCCTGCTCCTCCCACCCCTCAGTTTTTCCCACTACCAAGGTCCTACACCAGTGGTACATTTGTTACAATCGATGAACCTGCACTGATACATCCTTATCAT
CCAAAGCCCATAGTTTGCCTTAGGGTTCACTCTTGGTGCTGCACATTCTATGGGTTTGGACAAATGTACAATGACATGTATCCACCATTATAGTATCATG
CAGAATAGTTTAACTGCCCTAAAAATCCTCTGTGCTCCACCTATTCATCCCTCCCTCCAGCCTAACCCCAGGAAACCACTGATAATTTTACTGTCTTCAT
GGTTTTGCTTTTTCCACAATGTCATGTAGTTGGAATCATACAGTATGTAGTCTTTTTCAGATTGTCTTCTTTCAGTTAATAAAATGCACTTAAGTTTCTT
CCACGTCTTTTTGTGGCTTGATAGCTTATTTCTTTTTAGTGCTGAATAATATTCCATTGCCTGGATTTACCACAGTATATTTATCCATTCACCTCCTGAA
GGAAATCATGGTTGCTCCCAAGTTTGGGGAATCATTAATAAAACTTCTAGGAACATCTGTGTGCAGGTCTTTGTGTGGACATAAATTTTCAGCTCATTTG
GGTAAATACCAAGGAGCATGAATATTGGATCATATGGTAAGTGTACATTTCATTTTGTAAGAAACTGCCAAACTGTCTCCCACAATGGCTATACCATTTT
GTTTTCCTACCAGAAATGAAAAAGAGTTCCCGTTGCTCCACGTCCTCACCAGCGTTTAGGATTTTAATCCTTTGAATAGGCATGTAGTGTTATCTCATTA
GTATTTTCATTTGCAATCTCCTAACGACAGGTGATGTTGAGCATCATTTCATATGTTTATTTGCCATCTGTATATCTTCTTTGGTTGAGGTATCTGCTTA
GTTCTTTTGCCTATTTTTTTTTTTTTTTTTTTGAGACGGCGTTTTGCTCTTGTTGCCCAGGCTGGAGCGCAATGGTGCAATCTTGGCTCACTGCTACCTC
CCCCTCCTGGGTTCAAGGGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTACCCGCCACCACACTTGGCTAATTTTTTGTATTTTTAGTA
GAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTTTACAGACCT
GAGCCATGGTGCCTGGCCTCTTTTGCCAATTTTTTAATGAGGTCTTTTGTCTTCTTGTTATTGAGTTCTAAAAGTTCTTTATATATTTTGGACAGCAGTT
CTTTATCAGGTGTGTCTTTTGCAAATAATTTTTCCCATTCTGTGGGTTTGGTGGGTTTGTCTTCTCATTCTCTTGAGTGATGTGGCATTTAAAAAAATAA
AATTACTTTAAGTTTAAAAAGCAAGTCCATTTAAAGAGAAACACCCAGGAAATAATAGCCAAGGTGGTAGAATATGGTGAAAAAATGAAAGGGCACCCAA
GAGCCTCAGGTTTGGGCAATACTGATGACACATAGAGCCTGGTTCCCTGGCAATTATTATGGCGGTTACTACTATTTTAATAATATTAGCAGTTACGGTT
GGTATTTTTGCTATTACAATTAATGGCATAGGGGCTGTATCGCCCCTGTCTTCCTGGAACCTGGAGGCAATGAGGAGCTCTGCAAAGTTGTTGAGATTAT
TATGACCATATCTGGGTATTTCACCACTACAAAGAGCTGCGCAAAGTTTGGACGGTAGGAATCGGGGTGGACATCAGCTCGGTGACAGGTAGGAGGTGGG
TCCGAGGAGGGGTCGGGTCTGGGAGCCTCCGCCCCCAACTCAAGGCAGGCTACACAAGATCTGTCTCCGTTGGCGTCCCGGTACCTAGCTTGAGCCCGAC
CATGGGCATGCGTGGCGTGGCGCGAATCCTGTCCCTGTCGCTCGTCCTGGCCGCGGTGGCCACGGGGGCCTGGGAGCGGGGGCCGCTGGGCGTGCTCTTG
CCCTGGCAGGGCTCCGCCGCGCTGGGCCGCTGCTGTCCTGGCCGTGACCCGATGTTTGTCGCCCGCGGGCCCCCGCGCTGCTTCTGCGACCAAGCGTGCG
GCGCGGCGCGGCGCGGGACTGCTGCGCAGACTATACGCGGGTCTGCCCAGGTGCACCCGGGGAAAGGCAAGGCACTAGCGGAACGCTCGGAGCGGAGGGG
AGCTGGGGCGGGGGATGAGCGGAGGAAGGGAGCCCAGCACCTAGGGGGCTCTGGGCTTGGAGGGGTCACACGAGCCGAGGGCGGGGCGCGGCGCTTGGGG
ACTGGAAGGGTGCGCCGCGGGGCAGACGGGACGTGCAGGGGGTCGCGCGGGCAAGGAGGGACGCAGACACTCAGGACCTAAAGGGGAAGCACTGGCTGTG
GAGCTGCGAGCCGAGAAAGACGCGCAGGTTATGAACCTGGGTGCGTTCATCTCGGGGGACCTGAAGGAGAGGGACTCGTGGAGAGTTGAGGGGTGTTTCG
GAGGAGGGGCGCAAGGACTGCTCACAGGACTTGAAGGGCGGCAGGAAGGTGGAGGATTCGGCCCAGGTGCGGGACGCAGGCGGTGGAAGGGAAATGAGCA
CAAGAGGCGCAGGCAGGAAGGAGAGCGCCTGGTGCGAGAGAGGAAGGAGCGCACCCRGTAAGCGGTGTCGGGGGGGTCGTGAAGCTTGGAGGGCYTCGAG
GGGAGGGAGGCGCTTGGGTTGAGGTAGGGCGCCAGATTTCGCAAATCAAAATACAGCACACCCAGTTAAACTCGAATTTCAGATAAACAAATCTTTCTAG
AGAAAAATATGTCCTAAATATCGCATGGGATATACTTATACTAAAAAATTATTTGTTGTTTTTCTGAAATTGAAATCTAACTCGGAGTCCTGTATTTTAT
CTGAGAGCCCCAGCTGGGGACGGGCGCGGGGCCAAGAGAGCTGCGAGGGAGGAGGGGTTGCAAGCTTCTTTCGGGCGGAGGGGTCACAAGGCGAATGGAG
AAGGTGACAAGGAGCATGGAGAAACCAAGAAAAGGGCTAACGCTTGGAGAGCAAGGATGGAAAGACGCTCAAAGCGGAGGCGGAACGGTCTGAGTGATTC
CAAAACTAGTGTGTCCAAGCTGGTTAGAACTCAGGCAGGCGGGTCCAGAAGCCGAGGGGCCTGACAGATACGCAGGTGAAGTCCATCTGTGGTCCGCGTG
CTGGGCGTGGCCACCGGGCTAGTCCAAGCATTCCTGGTAAAGGCTCCTCCAGAGTGGTACCCACAGCGCTCTATTAAGGGCTATTTTAGTTGAGTCATTA
GTGGGAAGGACGCTGCCTATCCCCTCCCCCCCCGCCACCCCACTCCCTTCTTCTAGAGATGGAGCCTTGCTCTGTCGCCCAGGCTGGAGTGCCGTGGTGC
GATCATCATTCACTGCAGCCTCGAACTCCTGGGCTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGATGACAGGCACGCACCACCATGTCTGGC
TCTCTATCCTTTTTAAATCCCAGAAGTAAAGTTTTCACACCCACTGGAGACAAAAAAAAATCTAAATTCTGTCACCCTGTAAAACGGTTATGACCCAACT
TTCCTATGTCAGGGAGGAAAGTGATTGATTGGGCCCCTCTACCGTGTGATATCACTAGAGCTTCCTTCAGAAATTTGTTTTAAAAGACAGAGAGGGCGCT
TTTAAAAAAATGCATAATGGGTCGGGCACAGTGGCTCATGCTTGTAATCCCAACACTTGGGGAGGCTGTGGGAGGATCATTTGAGGCCAGGAGTTCGAGA
CCAGCCTGGGCAATATTGGAAGACCCAGTCTCTACAAAAAATTAAAAAAAAATTAGCCTCAAATGGTGATGACTGCCTGTAGCACCAGCTACTCAGGAGA
CTGAGGTGGGAGAATCACTTGAGCCCAGGAGGTTGAGCCTGCAGTGAGCTATGATTATGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGATCATGTCT
CAAAAATAAATAAATAAATAAATAAATAAATAAAAATGTAAGGGACCTAACATCCATTAATCACCTATCCCTCTGTGCCCAGAAGCTGGGCTGGATGTCC
CCTGGAACCTGAATACATTCTCCCTGCCCTCTGGGGTTCAGGTATGGAATAACATCCCTGTTTAGCAGTCAAGAAAAGCAAGGCTCAGAGAGGAGAGGGC
TTTGGGCAGTCAAGAATTCCCAGCCAGTGGAGGAGCTGGGTCTGATTCTGAGTCTTCTAGCTCCTTGCTGCCAGGAGTGGCCAACGTTGGAAATTCAGGC
AGCAGTGAGATGAGAAAGTAATTTTGGATGTGGTGTCTTCTCAAGCCATAGGCAAAAGAGAACTCCTTCCAGATTAAATTTGGGGAAGGACTGCCTGGGG
GTGCTTTTGTACTGGTTGGTTTTCTGTGTAGAGAGTTCATGCAGCCGCGGGTCTGTACWGATTGGAGCTGAAGTCCCAGGTTAGCACCACCAACAGGGGC
TCCCCTGCCACAGCGCAGGAGTGGGGGCCCAGGATGGGTCCAGGCAAAGGCATCAGTGATACTTTCTCATGGTCTGACCGACACCCACAGAATCACACAA
TGTTAGCCCCTCCCAAGAGATGTCCTTTCTATACGGAGTGGGGGCTGGAGGAACCAGGAGCCTCAAAGCTTTGCTTTCACCTTTGTTTTGCTCTTTTGGG
ATCTGCCTCCTTATCTGGAGCAGGGTCTTGTGAAGAGACGCAGGGAAAAGTTCACTTTCCACCTCCCAGGGGAGCAGGCAGGAGGGGACTAGTTAGGAGG
CAAAAGATGTAGAGAAGTATTTGCTTTTTTCATGGGCTATTTTTAGGAGATAAAGTCAACTGCCTTAAGTGATCAATTGTAATAGAGGGAGATGTTGAAG
ATGACTTAAAAAACAAACAAAATCCGCAAACAACAAATCTAATATTTATGAAATACCAAATGTCAGGAAGGTACTATTTTAAGTGCTTGAAGTAAATTGT
CTCATTTAAGCCTCATAATAACGCTRTGGAACAGTGTTATCATGTCTGTTTTACAGATGAGGAACTAAGGCACAGAGAGGTTAAGTGACGTGTTCTGGGT
TGCACAGCTCTTAAACAGCAGATCTGGGATTTGCACTCCAGCAGTCTGACTCCAGATCTCAATATTGTATAGCAGCTCAAGGGTGGCAGAGACTCAAGAA
TGTTAGGAGAGGGAAGCTTGAGTCTACAGGTGTAAGGAGACCCCTTGACATCTTCCCCATTTAGTTCAATTAAAATTTTCTTTTTTTTTCTTTTTCTTTC
TTTCCTTCCTTCTCTCTTTTCTTTTCTTTTTCTCTCTCTCTTTCTTCCTTCCTTTCTTTTTATTTTTCAGGGTTTCACTGTGTCACCCAGGCTGGAGTGC
AGTGGTGCAATCATGGCTCACTGCAACCTCTGCCTCCCAGGCTCAAGTGATCCTCCTACCTCAGTCTCCTGAGTAGCTGGGACTACAGGTGTGGGCCACC
ACACCCAGCTTTTTTTTTTTTTTTTGTATTTTTTGTAGAGATGGAGTTTTACCATCTTTTCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCTATCCTCCA
GCCTTGGCCTCCCAAAGTGCTGGAATTACCAGTGTGAGCYTCCACACCCAGCCTCAATTACAATTGGTGGCCACCTTCTGTGTGCCCAATTCAGCTAGAA
GCACTGGGGGATGGAAGCAAGGCTGGAGTTCTGGTACCCCTCAAGCTTATTGTCTATTTTTGGGAGACAAGGTAGTTGGGAAAGGAATAAATAATTTCAG
TCTGAGCAAGGTGAAGCTTGGAAATGATTGGTGAGGATGGTGTGGARGCAGGGAGAGAGTGGGGCTGGAGTGATTAGTAAGGCCTTGAAAGATAGACACC
ACTGTATTTTCCAAGTTATTTACAGAATGTTTCCATGTATTCTATACTTCTTAAAKATCATCTCAACCCTGTATGGTTGATGTCCCTACATATACACTTA
TGTGTTTCCTGTAGACTTAGTACTCTTAGGGTTGTGACACAATTTAACTTAAGTTAACAAGGATATTTATTGGCTTAGGTAACTAAAGAACAACCCAGGG
ATTCCAGAGCTTCAGGCATGACTGGATCCAGGGGCTCCAAGGATGTCATCAGGACTCTATCTCTTTCCATTCTTCGGCTTTTCTTGTGTTAACTTCATTT
ACAGGCATGCTGTCACCAAGTGGTAGCAAAGCTAGTGGTCAAAGACAGTAGCTGTAAACTGCCATCCTTAATGGATTGAGAGCATTTTTCCCCAGTTCCA
GCCAAAATCCCAGGGCTGGTTCTCATGGGCTCAGTTTGGATTAAATGGTCATTGCTGACCCAATCAATCACTGAACCCAGGGAGAAGGAATATATCAACT
GGCCATGTGGGGGTCACCTGCCTCATACCAGGAACGAGAGGGTGCGATCAGCCCTGTCCAAACCATGTGGATTGAGAGTGGGGAGTTTTGGTTTCTCAGA
AGAAAACTGAGGTGGTATTCCCAGAAGATGGGGGAAAGGAGGCTGGGAGGGTACTACTCAGCTGTGGGAGACCACGTGCTTTGGGAAACTTTGGGTAAAG
TGTGCTGAGATGTTGAATAGGAGGAGGGCACGGTAAATGACTGTGGATGAGTTGCAGGAAAATGTAGATTTTTAGCCACTGAGCTTGGGGGTCTCCATCT
ATGATCCACTGTCAAAAAAGATCCTTCGTGAACCCCCTCAATAGGAGATGGGAACCACTGAGGGATTTCAGGGAACAGGCCAGAACTGTATTCTAGAAAA
TCCTTTTGGTAGACAATAAGGAGGGCAGATGGTAAGGAGGCTGGGCAGTGTGGTTCAGAGGAGAAAGCGGGGTTTGGATAATGCAGAAAGACATTCCTTG
GCTGGGCCCYGTGGCTCATGCCAGCATTTTGAGAGGCTGAGGTGGGTGGATCACAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATAGTGAAACCCTG
TCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACGTGCCTATAGTCCCAGCTACTCCGGAGGCTGAGGCAGGAGGATCGTTTGAACCTGGGAG
GCGGAGGTTGCAGGGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGGYGACAGAGAGAGACTCCATCTTAAAAAAAAAAAAAAAAAAAAAAAGGTGTTC
CTTCATGAGCCTGGGCCTGTAAGGGTGGGGTGAAGCGATTCTAAGGGGTCTGTGGGAAATGTGGTCTGGCCATGGCAGGCTCAGCTGGCACGATGTCATC
TGGGTATCCAGGACTCAGTGAGCAGCCTTACCACCGCCCTACCCCTTTCTGTAAGGCTGGGAAGCTAGAATTTCTTCTTTGGTCAGGAAAAGTGGGCTGG
GCTTTGCTTTGAGAAACACTGCTATCTGGTGTTGCCTTTTTGCAATGTCAGCCTGTGGTTATATTTCCTTTGTTGTTGCTAAGGCAAGATTTGCTCACTC
AKTGTTCAGTGGCACATCACTTCCTGAGTTGCTGTGTGCCAGGCCCTGTGCTTGGTGATGGGATACAGCAGGGAACATGACAAATGAGGACCCTATTGTT
GTGGAGCTGACACTCTAATGGAGGAGGCAGACACTACGAGAATAACCACAGATGTACTGAGTTTGTGATCCTGGGCCTATGCGAGGGGTGATGATGGTTC
CCTCTTGTGTGCGTGCTGCCAGTGAGACGGGTAGAACACGTGCAGGGTGGTGCCTGCCTAATTTTCYGCAAAATCTCTCACCTGCCTGGCAGGCAGGGCA
GGAGATCGTGGTGGACTTTGGGGATACCCCTTGGTCCAGCTGTCCAGCCAGTGCCTGAATCTGGTCTGCAGTCTTCCTGCCAGGTTTTTTAGCCACATTG
TGAACACTTTCAGTGACACAAAACTCATTCTTCTAGCAGCTTCTTCTACTGTAGATAATCCTTTCTCTCCTGGGAAACCGCAGGAGCCATCATGCTTCTG
CCCTCACCCCCACCCAGAGAGATGGGCAGTCATCCTTTTGAAACCTTTGGTATCACCACGTCACATCTCTGCTCAGAACTCGGCAATGGCTTTTCGTCAT
GCCTAGAATAAAATCTGAACTCCTTACAACAGTCCTCAAGGCCCTATATGCTATCTTTGTCCCCTCCCTCTCTGATGTCACCTCCTACCACTTTTCCTCT
GGCTTATTTTCCTGCAGCGACACTGGCCTCCTCACTGTCCCTCTGATATCCTACCTTTACCCTGCCTCAGCGACTTTGCACTGCCTGTTTTGTGCCTGGA
ATACAGTTCCCTTCCTACACAGTTCCCTTCATCACTTTCTTGGGGGCTCTGTTCAGATGTCCTTGTCTTGGAGGACTTCCTTGACTCCTGCCTAAAATAG
TTTCTTGTTACACCACCCTTGGCACTCTTTCTTTTTTTCCCTGCCTCTCYCTCAACCCTGGCCACTCTTGACCTGCTGTTTTTTCTCAAAGCACAGATCA
CTAGTTGAAATTACATGGTTGCATGTTATTGTTTATTGTCTGTTTCCCCCACTGAATGTCAGCTCCTTGAGGGCAGGGCTGTACCTGTTTTGGTCATCTG
TGTTCCCAGCACCCAGCCCAGTGCTCTGCACACAGTAGGTCCTAAATTGTTGTTGAACGAATGCATAAAGACCATTGAACTGGGCATTTACAGTATGGCC
AGTGCTTTGCATTCGCCATTGCAACAAACCCGAGACTGTGGTTCAAATCCAGGTTTGTCTGACTCTACATCCTTGGCTCAACTTAGGGATTCTGCCTCTT
AAGCCCCAGTGGCCTCATCTCTGAGCTGGGTTTGACAATAGTGCAAACACATTAGGAGTTGGGGACCTGGCAAGTGACAGATGGTACCCCCAGAAGGGTA
TAATAGAAAACAAGGGCTCTATTCACAGAGGTGGGGGCAGCAGTACAGGACAGGAGGAAATGGTGTTATTGGAGCCTGTGAGAGTAGGATCYGCAGCCAA
GGGCCCCCTTCCCCAAAATGGGGGACAATAAACACCTTGGGTGCACTCTCCTCCTGCCCTCTGCTCCTCTCATCCCCGCTGGTGTTCCCCACTGGTTCAA
CTCTACTGGCAGCCAGGGAGAGGCTGGGAGATGCACAGGCTTGCTGGGGGTTGAGTATGGAGAGGGAGTACAGAGTTTCAGGAGACTGTTGTGAGGATTA
AATGAAGTCATGTATGGGACTTGCTTGGTTTAGCATCCAAAGCACAATGAACGGGGTTATTAGATGGATGATGAAAGCACTTGATCAGTCTTAGGTTGCC
ACACTGGGTGTCTCCCCTCCCTCCTCCTTCTTGCCCTCCCTCTTTCTGTTTCCTTTCTTCTCTTGTTTACCTTCCTTTCTTTCTTTTTCCTTCCTTCCCT
CTGAGCTTTTCAACTCTGCTAAGATGGGCAGATTGAAGGATTGTTTGCTCCAAGAAAAAAATTTTAAACCTCTGAGATTTATGCAAAGAATATGTGACTT
CCTGACCTTCCAGAGGCACTGCTGCTTGTCTTTGGCACAATAACGCCATTCCTTCATCAAGGATGCACATGATTTTTTCCCTCTTCACATTTTCACGTTG
CTGAATTAGGACATGTCTCATAGCTGGGAGGGCTTTTCCTGAAGACAGACCTCATCTTTCTTGTTAAACGCTGTGTCTCCAGCACCCAAGACAGTTCTGG
GCTCGCTGCAGATGCTTGGTAAATATTTGGGGTATGAGTGAATTAATTCTGACAGTGGTGGCCGCCTTGCATGTGCAGCAAATGTGTGTGTGTGCCGCTG
ACAAAACTTGCTGGCACATCCGTAGAAAGTCTCTCGCTGGGGAAGTGCCCAGATTCCGTTTCTGCTAGACTGCCTTTCCCTGTCTGATTTGCTCTGGTCC
TGATCTGGGAGTGTGGACTTGGAATGAAGAAGTGTCGGTCCCAGCGGGGACATCATTAGAAATACCACCTGTGGTAGACATGTGAAGCACCTCAAGGATG
GGGGAACCCAGCACGTTCCTTWTGTGATGATGAAATATTTCCGACATACACCACCAATGTAGAGAGATAATACAACAAACCCTCGGGAAAAGCTAAGAAA
CAAACCTTGACAATTGCCACTGCAGTGTCTGTTTCCCTCCTGTAGTCACCTGCTGTCCCACTCTCCCCAGAGATTGTCACAATGCTGAATTTGACATTTA
AAATTCCCATGCATATATGGGGGTATGTGTGTGTTTATGTACATAAACATACACTGTACATTCTTTTTTTTTTTTTTGAAACAGAATCTCGATCCGTCGC
CCAGGCTGGAATGCAGTGGCACAGTCTTGGCTCACTGCAACCTCTACCTCCCAGGCTCAAGTGATCCTTCTGCCTCACTTTCCCTAGTAGCTGGGACTAC
AGGCGTGCACCACCATACCTGGCTAGTCTTTGTATTTTTCTTTTTTGGTAGAGATGGGATTTCACCATGTTGCCCAGGCTGGTCTGAAACTCCTGGGCTC
AAGCGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTAATAGCGCCTGGCTACAGGACTTTCTTGTGATTCACAGTAGTTATGTT
CTGTAAAGTTGCCACAAAGACTGAATTAACCAATACTGAATTAACCAATGGCCCCTAGGGGAAATATGTACACACATATCTCACTTAGTTTATACTTTAG
ATCCTAAAAACAACTCATCCTGGTCAATTCCATTTTCTTCATTTTACCAAAGAGTGTTAGGAAGTGTTAAGAGACTCGCCCGAGGCTGCCTCCCTAACAG
TTGCTGGAGTTGGGATTCAAACCCCATCCAACTGGCCCAGGGCTGGAGCTTCTTGCACTACATAGACCTGTCCCTACTGTCTCTGTCCTCTGGTAACATC
TGTATGAAGCTGGAACAAGAAGACAGAGTGGGGCCCTGTTTAACTTCAGCTTGGAACCTGCACATTGAGTTACTCAAATTTTTCACTAATCTTCGCTTGT
CTGTGAGTAACTATAAATGTGCTGCAAGTATTGATTTTAGGGTTAAAAATAATTTCAGCAAATAAGCAAAGTAGCAAATACAGAATCTGTAAATCATGAG
GACTGGCTGCATATATATGTATTTACTATGCCTGTATGAATGCCTAAATACTTTATAGTACCGTTTTGCAGTTTTAAAAAACTATATAGGCCAGGCGCAG
TGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACTTGAGGTGAGGAGTTTGAGATCAGTCTGGCTAGCATGGAGAAACGCTT
TCTCTGCTAAAAATACAAAAAATTAGCCAGGCATGGTGGTGGGTGCCTGTAATCCCAGCTYCTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGA
GGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACAAACAAACAAACA
AGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTGGCTCATTTTCA
CTGATGTAGAGGAATAGTTAGTGCTTATTAAACACCTGCTATGTGCTGGGAGCAAATGCTTTATATTTCATATTTGGTTGAACCCTTAAGGCCACCCTAT
CAGTTAGATACTATTCTTATTCCCATTTGACAAAAGAAGAAATTGAAGCATCAGTTGCCCTAAGTGCTTAGGAAATGTTTATTGAAGGAATGAGTGATGG
AGACGACCTAAGTGATCATCAATAAGATGATTGGATAAAGGTGGAATTCTAAGTTTAGGTGAACATATGAAGAGTTGTCATAGGGAAACTTTCAAGGAAG
GCATAGACTGAGGTTTGCAAGAGTTCTAGCACTTGGTGTGGTGTTTTGGGGGTTCAGATTGTGGGGAAGGTGGAGAAGACCTGGATGCTGGCTAGCTAAA
CCCCACAGAGGTCTCCCTTGCAGACACCACCTTCTCTTCCAGCAGTCTCCTGCACTGTGGCACAGTGGAGTGGCTGCAGTCGCTGTGTGAAACCTGCCAG
GTCTCCTACCATGTACACCGGAGGCGTGTCCTGCAGGAGCCGAGGAATGGGGGTGTCCCCTTCCCGCTGCTGGAAGAGCGGGCTGGCTGTGTGGAGTACT
GGAGCCACCAGGGAGTGGAGTGCCAGCAGTCATTGCATGAGTGGGGATGGGCCCCAGGGGTGGCTCTCAGTGGGAACAGTCAGGCTGGACTGCAGGGCCC
TCCATGAGTTCTTGGGTAGGGTCTGAGTTTGGAATGGGGCTTTGCCTTCCTTTGCCCTGATCCCCCTTCTCATCTTGTGAATGAGTTCAGAAGCTCTGAA
CTCCACTGGGCTTCTCAGTCTTCTTTCTGCTCCTCTCCCTGTGTGAATCAGTCAGGACTTTGTATGCAGGTGATAGGAGACCCAACTTAACCTGAACTGA
GCAAAACTGTGTGGCTCCTGTAACTAAAATTCCAGGGGCTGCATTCAGGCATGGCTGGATCCAGGAGCTCAAGCAATGTTGCCAGGAATCTCTCTCCATG
TCTCAGCTCTGTTTTCCTCTCAGTTGGCCTCATTCTCAGGCAGGCTTTTCCCTGTAATGGTCTTTGACAGCTTCAGGCTTCCCTCTAACCAGCCTAACAG
CTGAAGAGAAGGCCTCTTTCCCCATAGTTCCAGCAAATATCCTAGGATATTTGTGGTGGTGMGCACACCCGAAGTCCCAGCTGCTCGGGAAGCTGACGCA
GGAGGATCACTTGAGCCCAGAAGTTTGAGGTTGTAGTGAACTGATTGCACTACAAGACCCTGTCTCTAGAGATCAATCAATCAGTCAATCAATCAAAAGG
TCGTTCTGACTGTTATGTGGACAGCAGACTGAGAGGGGTCAGAGGGAATCAGGGAGCCTAGGGAAGAGGTGGCTGCAATGGTTCAGGCAAGAGACTATGG
TGGTTGAACCAGGGAGGTGGCAGTGGGGTGATGAAAAGTGGGAGTGTTGCTTCCTCTGCTTGAAATCCTTCTCCCTACCCCCAGCCACTCCCATCCAGCC
ATTCCTGGGTCATCACTTCCTGTAAAGATGTCAGTTTCCCTGAGGAAGATCGGGAAGATCATCCTGACTTGCTAATATGTGCCAAGTGCCTCACCACATG
ACCTGACTCTGTGAGGTCAGTGTTACTATTCTCTTCTTACAGACAGGGAAACCGAGGCTCAAGGAGGTGACAAAGCTTGTCCAAGTCACATGGCTATTGA
CTAGAGGACCAGGACCCTCCCATTCTGACCTTTGATATCACCCACCTACAATCTTTTCGTTGTACTGTTTTTTGTTGTTGTTGTTGTTTGTTTTTTGTTT
TTTTTTTTTTAAGACAAGGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTGCAACCTCCTCCTCCCGGGTCCAAGCCATT
CTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCCACCATGCCTGGCTAATTTTTTGTATTTTTTGTTGAGACGRGGTTTCACCATGTTG
GCCAGGCTGATCCCGAGCTCCTGACCTCAGGTGGTCCACCTGCCTCGGCCTCCCCAAGTGCTGTCAGAATGTAGTAAGGTGATATATGATGAGCACCTAC
TACATAAGTGCTCAATAAACAGCAGCTGAATTATTTTCTTTGCTCACCGTTACAGCCATGAGGCTCTGATCTTTATGACTGATCCCTTGAATCTTCTTTC
AAAACATCTCACCTCTGTATTTGAGGGCTTGTCCCTTCACCATAGCATGAGAGCAACAGCTGCATCACAGTAGCTAACAATGTCAAGCAAATTACAAAGG
GAAGAAACACTCACTGAGTACCTGCCTTGTGCCAGACCCTCGACCAATGTTACATTACATTCTGACAATAACACCAGGATGTAGATACTGATATTATCCC
CATTTTGCAGTTAAGAAGAATGAGGCTCAGACAGGTGCAGTAACTTGATCAAGGTCACTCAGCTATAACAAGGGGAGTTGGGACTAACCTGGGCTTAGCT
GGGGCTCTCCTTACTGCTCTAGGTGACACCAAAAGTACAACTACAGCTGTTGGAAGAGGGAAGGGAGGCTGTGTGTTAGGGATTCCTAAGGAATCACGAA
CCTCTTGTGAAATGATTATCAATTCTCTTCTATGTTCTCCTCTGTTTGATCTAGAAAGGAAGAAACTTGGAAGCTGGCCAAGTAAAATAATTTTATTCAT
TCATTTGTCTTTCTATCAATCCATCCCCCTATACCTCCTTTCTTCCATCCTTCCATTGTTACATTCACTCATTCATCTATTCTCCCATCCATCCATCCAT
CCATCCATCCATCCATCTACTCGTTCATCTAGCCATTTCCACTCATCTCTCTGCATTCTTCTATCTTCTTCCATTCTACCTTCTTCCATTCTTCTATCTT
CCCATCCATCCATCCATCCATCCATCCATCCATCCATCCAGCTATCCATCCATCTATCTACCCATCCATTTTTTATTCATTCACCTATCCATCCACTTGT
CAACTCTCCATCCATCCTTTCCATTCATCCTCTCTTCCACCCATCCATCTTTCTACTCATCTCTCTGTCTCTCCTTTTCTTCCAGCCTCTCATCTTCCCA
TTTATCTACCTATTATACATCCATTCTTCCTTTCTTCCATCATTTCAGCTATCTATCCATTTATTCATTTAGTCATTGACTTTAAACATTTTATTTTCTT
CTTTTAAAATTATTTAATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTTTGTTTGTTTKTTTTTCTGT
TTTTTTTTTKTTTKTTTGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCTCCCTGCAGCCTTGATCTTC
TGAGCTCAGGTGATCCTCCCCTTTTAGCTTCCCAGGTAGCTGAGACTACAGGTGCACGCCATCACATCTGGCTAATTTTTGCAGGATGAGGTTTCACCAT
GTTGCCTAGGCTGGTCTCAAATTTTTGGGCTCTAGCAATYCTCCTCCCTCGGCCTCCCAAAATGGTGGGATTACAGGCATGAGACATTGCTCCTGGCTGA
CTAACTCTTTTATCTACTCTATTAAAAAAATCATTCACTTATTCATTCAGCAAATCATTCATTCAAAAAGAATTTTTGAGACCACACCAGGCCCTGAAGT
CTCAGAGATAACTATGATCCTGCTTCCAGCACTATAAAGGGCACTGGTAGGGATTATCTACCCAGTTCAAAGATCCTACAGTCTCTTTAGGGCTGTCTTG
TAAGTGACTTGGATACCAGAGGTACCAAGCTCGGTGTCCCTATGGTGCCATARCCTGGGATGTGGTCCGCCCTAACTCTGTTTTCTCCTTGACCCACAGT
CCCTGCTTTGATAACCACASGCAGCTACGGGAAAGAGTGGGAAAAGTGAGATAGTCCCAAGAAACAGGCAACAGCAGGGTAAGTGAAAATCAATCAACCT
AAAGTCAAACTAAAATTTGTGAACATGTTTCCTTGAACTAAGTTTCTTTTTTTTCTTTTTCTTTTTTTTTTTCTGGAGATGGAGTCTTGCTCTRTTGCCC
AGGCTGGAGCTCAGTGGTGTGATCTCAGCTCACTGCAACATCCGCCACCCRGGTTCAAGCCATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGGATTACAG
GCACACACCACCACGCCAGGCTAATTTTTGTATTTTTAGTAGAGACRGGGTTTCATCATGTTGGCCAGACTGATCTCGAACTCCTGACCTCAGGTGATCT
GCCTGCCTCAGCCTCCCAAATTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCCAAAATTTCATTTATCACGTCTTTCTCTTACTTTGGCAACATC
CATATCTCCCCGTTTGTCACCTTGTTACACCTGCAAGCTCATTAACATGGATTTTAAAGTCCCCAATGATTGGTCTCCATTCAACTTCATTCATTCACCC
ATTCATTCAACTTTGATTGAGTGCCTACTATGTGACAGGTACTGTGCTAGTCCTTGGGTTATGGCAAGGAACAAAAAAGACAGAAATACTTGGTCCTCAT
TGAGTGGACAGTCTAGTGGGAGGAGAGAGACAAAAAACAAATAACATGTTGGAGCCTAAGTGCCATGGAGAAGATAAAGCAGGGAAGGGGGTAGGGGTGC
CCTGAGAAGGTGACATTTGAACTAAGATCTGGAGGAGGAGATCTGGGGGAAGAGTGTGCCTGGAAGAGGGAAACAGCAAGTGCAAAAGTTCTGGGGCAGG
GCATGCCTAGTGTGTTCAAGGATCAGCAAGAAGGCGGGTATAGTTTGAGTGCAGGGAGAGAGTAGGAAATGAGGTTGAAAAGATAACAAGGTAGGAGGTA
GATCCTGTGGGGCCTGTAGGCTGTGTTGAGGAGTTGCGCACTTTCTCTCATGAGGTGGGAGTCATGGTAGGGTTTTTAGCAGAGGAGTGACATGATCTGA
CTTAAGTCTTCACAGGATTCCTTGGGATCCTACTTGGACAATGGATAGAGGAGAAGCAAGGGGGTAACTCGGGAGACCAATGAGGAGGCAATTGCAGTGG
TCCAGGCGAGGGAAGAAGGTGGTTTGGACCAGGGTGGTTTCGTCGTACCTTGTGAAGGATGGATTGTGGGGACTGGCGACAGATCAGCGTGTTGTGGGAT
CGCGGAGCTGAGGTCAAATTTCCAGGACAGTGCCTGGCTCATGATAGGTACYCAGTAAATATCAGTTGAAAGAATAAGGTCTGAACTAAGTCAGTGGCAA
TGGAGATGGACAGGAGAACTAAAAGGGTTAGGATTCTTTTGATTGCAAGTGACAGAAACTTAGCTCAGACTGCGTCAAGTGAAAAGGTGAAGTATTGGTT
TAGATAACCGGGAGGGAAGTTCTGAAATAACATTACTTCAAGCAGGGCTGGCGCCAACGGTGTGTGTAAGGCCGTCAGGGCTGGCTCTCGTCCCCTCTCT
TTCTGTCACTCGCTCCATGGGTTGACTTTATTCTCAAGCAGGCTCTTTCCCTGTGGTGGTCAAGATGGGCATCTTGCAGAGATTGTGGGGATAAGCAGCC
CCACATCCTCCCAGATCAGTAACCCCAAAAGTGTCCTCTTGGAAGTCTCAGCGGATCATATCTGGAGGAGACCCCGATTGGGTCTGCTTGGATCCTGGGC
CCATCCCTGAACCAGTCGTCCTGGCCAGGAAGATGGGGAACTCTGGTCGGTCAACTCCAATCACATACCCGCCTTAGTGGCAGCTGTGGGAGCCACGGCC
AGGCCGGCTGAGTGATGGCCCCTCCAAGACCATAGGGCGAGGGCAAGAAGTTTCCAAACAAACTGCCAAAAGGGGAAGAGAAATTGTATGGGGAAGACGC
AATTTCTAGTTATCACAGACTTCTGGTAGGGGACAGATTCCCGAGGGGATATGGGGGCAGATCAGAGAGGGAAGGACTGGGGATGGGCTTTCGGCTGCAC
CTGGAAGAAAACCGTGGGCTCCTCTGGCCACCAGGGGGCAGCAGATTCACACAGAGTCATTCACGAGTCCTTGACACGCCGCGTCTCCTCCAGCAGGGGG
TGCTATTTACTGCTCCTTGTAGAAAAAGTTGGGTGGAAGTAAAATTTGGCAAATTCTGGGTCTTATTTCAGATACCCTTGAATGGGGGGGCTTTCCTTTT
AAAGAATTCTCATTGCAAATCTTTTTTTCTTCTGTTTTTTGAGACCGAGTCTCACTCTGTTGACCAGGCTGGAGTGCAGTGGCGCCATCTCAGCTCACTG
CAACCTCTGCCTCCGGGGTTCAAGCCGTTCTCCTGTCTCAGCCTACCAAGTAGCTGGGACTACAGGCGCGAGCCACCACGCCTGGCTAATTTTTGTATTT
TTAGTAGAGACAGGGTTTCATCAAGTTGGCCACTGCAGTGAGCCACCGCGCCTGGCCTTTTTTTTTTTTTTCCCTCTTTTTTTTTGAGGCAAATCTTTTT
CTTTTCTCTTCTTTTTCTTTCTTTCTTTTTTTTTTTTTTTGTGGCAAATCTTTTTAATAAAATAGGATCTTTTGAAAGAACGTGCCGGGCGCGGTGGCTC
ACGCCTGTAATTCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACTAACATGGAGAAACCCCGTCTCTA
CTAAAAATACAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAAATCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCACTTGAGTCAGGGAGGTGGAGT
TTGTTGCGGTGAACCGAGATTGYGCCATTGCACTCCAGCCCGGGCAACACCAGCAAAACTCCGTCTCAAACAAACAAACAAACAAACAAAGAAAAGAAAA
AACACAGTGGAGAGCTTAAGAGTATCTATTTAGGCTTATTTTCAGCAGAGATGGTTCCATTTTACATCCCACTGCTTATTAGGTATGTGGCCTTGGGCGA
GTTTTCTCTCTGATCCTCCGTTTCCTAATCTGTAAACTAGGGGAAACACCTACCTTGCAGGGGTTCCATATTCCATCGGCCCCAATGACTTATTTAACAT
TTTAAAAACTGAGCTGGATATAATTCTAGGAGTTGGACCCAACAGTAAACAAAACAAATGAACATTCCTGGCATTATGGAGCCAGCCTTCTAATGGGGAA
AACAGATGAGAAATAAAACACTCAGTCTTTTGGATAAAGTGCTTAGAATAGGGTCTGCCTGGTACATGGTAAACCCTGAATAATGTTAACTTGAAAAGCA
GAAGTTGAATCTTGTTGTATGCAACCTGTTGAGGCCAATTGGGTTGCACAAAAGATTCCTGTATCAGGGAGAAATTGTACCAACCTGGGCCTAAGATAGG
GCTGGATGTACAGTAGGTGCTTCATAAATGCTCATGGGTACTTGAGGTGGTATCTCCCTGTGTGGCTGCAGGTACTGTGTCCAGTTCCAGTTGGGGTCCA
TTCCAGGGAGCTGCGGGCAGGCGAGGGCACCCCATGCCCAGTGGACAAGGTATYTGAGTCAGGGCCACACGGTCTGTGTGAGGAGTGAATGGCCTGCCCA
GGACACCAGGAGCCGGCGCTGCTACGGGGACGGTGGTGGGGCCAAAGGGTGAGCGACAGGACTCGGGCATGGGCAGGTGTGGCTGTAGAGCCCAGGGCAT
CTCTGCTGCCTGAGATAGCACCCTGGGAGAGAGATGCTGCTCCCTGGCCAGGGCGGGGGCCAGCAGGGTCCCAATCCCAGGGTCCAAAGAGACCAGCCAG
TTAGGAGCCGGACTCCTGCCACTTCCGGTGGTGTAAACTTGGGCAAATCTCATCACCTCTCGGATCACTAAGTGCCTCATCTGAAGATACAGATAATGAG
AGGACTTCCCCATCGGTCAGGGGTGAGGGCTAAGTGAGATTGTGCAAGGTGAGGACCTAGGACAGTTTCTGACATCCAGAAAGTATCCAAGAAAAGGGAG
CTTGCATGGTCATTGAACCCTCACGAGTCCCTTAAAGGCCAGATTTGGTTACTCTCATTTTATAGATRGGCAAACCAACTCAGAGAGGCAGTGTGACTTA
GTCAAGGTCACACAGCAGGGTTTGACCCAGATTTGGCTTACATTATCCCTCTAGACTGCCTCCCGTGGGGTGAGGGTATCTTGGAAAGCACTTCACACAT
ACTAATTATAATACTGGCTTACATCGATTGAGCGCTTCCTATGAGTTGAGGATTATTCCAAGCTCTTTATATTCCTTCATTCATTCAGTGTTGAGCATGT
GCTAGGYACTGTTCTGGGCACTAGGGATTCTGCAGTGAAGAAAACAGCTGAGGTCCCTTCCCTTATGCAGACAGTAAGGTCCCTTCCCTTMTGCTGGGAG
GAGGCAGACATCGGGCAAATAAATCTATAATTTGTCAGATGGGAGATGAATGTTAGGAGAGAAAGCAGAGTAAGGATGATGTCCTGGGGGTTGTTAATTT
TTTTTTTCTTTTCTGGGTCTTGCCCTGTTGCCCAGGCTGAAGTGCAGTGGTGTAATCCCAGCTCACTGCAGCCTCAACCTCCTGGGCTCAGGTGATCCTC
TCACCTCAGCCTCCCGAGTAGCTGGGACTACAGGATGCRCCACCATGCTTGGCTAACTTTTGTATTTTTTGTAGAGACGGGGTTTCACCATGTTACCTAG
GCTGGTCTTGAACACCTTGGCTCAAGCGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTATGGGTGTGAGCCACCGTGCCCAGCCATTATTTTTAA
AAGCCTGATCAAGGAGGGTAACAGAAAGGAGGTGATATTTGGACGGAYACCCAAAGGAAATGAGGGAGGAGCCATGTGGATCTCTGGAGGAATAGCTTTC
CAGGCAGAGGGACGGCGAGTGCAAARGCCCTGAGGTAGAGCGTGCCTGCTGCACTGAGGAGCAAGAGAGGCCATTGGGCAGGAGCAGAGTGAGTGAGGGA
GAGCGTAGAAGGAGGTGAAGTCACACTAACACACCGTATGCCAATGAAACATTGCAAGAATCTAACATGGATACTTTTAGGATCTCTGCTTTCCAGATGA
GTTGACTGAGATACAAAGAGGTGCCCAAGGTCACATACCTAGCAAATGGCAGAAATGAGATTTGACCCTGAACTGCTCAGACCYCCAAGCCAAGCTCTAA
ACTCTAGTCTAGACTGTTTCTTACTGAACATGCTTTTCCGGTGCAGGGATTATCACACTGTTGGAATATGAGCTCTCTCTGGGGTCTGTACAGGGAGTTC
TACCATTTCCAAGGGTGTTAATTTCCTTCTTTTAAAAATTAAGCAGCCCTGATCACTGTAAACTTAGAACAGGGAATGCCAAGGCCAGTTAGGGTGTTAG
GGAGAAACGCATTTAGGCAGGAGGCATTGGATTACACAGATCTGGGTTCAGATTCCACCTCTGGCCCTGATTGGCTATGTGACTCTGGGCAAGGCCTGCA
CGTGACCCGGACAGTCACCACCACGTACGATTGTGGGGAGCACCCACAATTTTGCACAGCACCTGACCCCTTGTAGATACCCACTAGTGGGGGCTGCTGT
CATTATCTCTAATCTGCAGAATAGATATAATAAGACGTAGTTTGTGAAAATGAGATGTAATGGATGTGATGAACCTGGCACATAGTAGGTTCCCAGTAAA
TACACGTCCAACAATATTATCACACTATAGGGTGGCCCTTCCTGCCAGCCTCCCTTCCAACCTCCCTCCCGCTTACTTGTCCTAGACCTGAGATTCCACT
GTTAGAGTTTCATTCTTTGGGATAGGCGCTCACTTTTTAGAGCTTCAGTTTATTCATCAATTTTTGGAAACACTTTCTAGTCTTAAGACTCTGATTAATC
CCAAATTTCTCTTTTTGGACACAAATACTCTGGGATGTGAAACATGGCACTTTGGCAAGGCTGAGATGTGGGTCCCAGGGGCCACAGTACCCACCAGGAA
TGGGAAGGGACAGAAAGGAGAGCCAGGGCTGTGTCCGAGACAGGCATCTCTCCACACTCCCCACCTGGGGCCAGGCTGGCAGAGCAGGTGACGGAAGGTC
TCATGGGGGCATGAGCTCACCAGGAAGGACTGGCGGAGCAGGGGGATCCAAGAGAGGAGAGGCATGAGCCGTCAGCCGAATTCTTTCCACGGGCAGCTGT
GAGAGCGGGCGTGCCAAGGGCATGGGCCTGGAGAGGGATTAGCCTATCAGTTGGGAATTTTTGGAGGGTTTATTTAGCTTAAGAAGTATCCCTGAGTTTG
GGTCAAGCATAAGGAACATCTGCCATGAGCCACTCACCTACTGCGTGCTGGGCACGCACCAAGCAGGTGCTTCACACGTGTGTTCACAGTTAGGCCTTAG
GGGCACTTTTAGACAAGGGACATGAACTCCATTTTATATAATGATGATGGCAATAATAATAGTAACTTTAAAATGTTATCATTTGTAAAACACTTATTAT
CTGCCACGTACTGGGCTTACAGGCTTACAACGGTGCCTGGTACCAYGTGGGAGGCGCTTAATCAGTGTTTTTTTTTTTTTTTTCTATTTTTTTGATGGGG
GTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGACTCACTGCAACCTCCACCTCCTGGGTTCAAGCCATCCTCCTGCCTCAGCCTCCCA
AGTAGCTGGGACTACAGTGCATGCCACCATGCCGGGCTAATTTTTGTATTTTTGTAGCAACATGGTTCTGCCATGTTGCCCAGGCTGGTCTGGAATTCCT
GGGCTCAAGCGATCTGCCTGCCTTGGCTTAAAGTGTGGGGATTACAGGTGTGAGCCACTGCACCAGGCCCAGTGTTTGTCATTATTGATATTATTTTGCA
TTTTTACAAAAGATTTGGATTACACCTACAGAAAATTGGCTTTAAAATATATGAACAGGTTCACAAACATTTGGGAAGGTCACACACCTAGGTAGACACT
GCCCAGGCAAGGAACAGAGCCTGGCCAGCCCCCGAGACCTGCACACGCCCCCTCCCTCAGTCCCTCCCTCCCCATAAAGGAGGCCTCTGCCCTGACTTCT
CTGGTGATCCATTGTGCGACATCCTTGCCAGCTTTAGGAACTCGATGTGGAGCCCTCAACACTATAGTTCCATTTCATTTCGTTTTGTTTTGTTTCTTTC
CAACTTTGCATCAGTGAAACCACGCAGGATGTGCTCTTTGGAATTCGACTGCCTTTGTTCCACATGAGGTTTCCAACGTTCATCCACGTGGTTGCACTTG
YAGCATTAGCTGGTTCATTCTTGTTGCTGAAATAGTTAGCTATTACTATTATTATTTTGAGACAGAGTCTGGCTCTGTCGCCCAGGTTGGAGTGCAGTGG
CACGGATTCAGTTCACTGCAACCTCCACCTCCCAGATTCAAGAGATTCTTATGCCTCAGCCTCCTGAGTAACTGGGATTACAGGCAAGTGCCACTATGCC
CAGCTAATTTTTGTATTTTTAGTAGAGGTGAGGTTTCACTATGTTGGCCAGGATGGTCTTGAACTCCTGACCTCAAGCAATCTATCTGCCTCAGCCTCCC
AAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCAGTCAGTTAGCTATTATTATGATCATTTTTATTTTCTTTGCACACAGCATCTCAGATGACCTCC
CCACCAACACCTCAGAGGGGCAAAGATTATTGATATCTCCATCTTCCACTGAGGAGAGAGAGGCTCCTAGGAGCCAGGTCCCAAACGCCACCTGATTCCA
GAGCCTGTGCTCTTAGCCACTCCGTGGTGTGGCCCCTCAACAGAGGAGGAAAAGGGGGCACAGAGCAGTTAAGCAACTTGCCCAGCCTTGCCCAGCAGGG
ACGTGATCGAGCCACCTCCCCAGACCCTCAGAACTGACTCTGGAATGCCCTTGTGGCCTCTGAGGGTCGCTGGCTCTGTGGCCATCCCCAGGGTGACTTA
CAAGGGCCCAGTSCCCATACACTTTTAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATA
ATAATAATAATAATAATAATAATAWWAWTAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCACAAGCTAGAGGGAGGGTCC
CTGAAAGCAAACATCCCTGGAGCCCAGGAAAGCCATCATTCGACTGAGCCAGCCCCATCTCTTGCAGGAACAAGATGTGGCTGTGGCAAGCGGCCAGCCA
TCCCCGGTGCCGAGGGACCTGGGAGAAGCTAGGGCAGCTCCGGCATTGTTCCTGCCCTGTGGTCCACAGCCTCGTCTTCATCTAGCGTCTGCACCCCCTA
ACCGTCTTTCCAAAGCCTCGGGGATGGCAGGGAAACTGCAGGGCTTGGGATCCCGCAGAACCAAAGAGTTGGGAGAAATCTGCAATTTTGAGACTGAAGG
AACAAGCCTTGTCGTTATGTTGACACTGAAAATAGCTTTATGCTTCCACTCAGTGCCAGCTGAGTCACGGTCCTACTGACATCTCCTGCCCATTCAGGGC
TTCCCACATTTCATCTCCCAGACACACTCTCCTGGCCCTTGCCCTATTCTCCTTATTGTATACTTAATTTTTTAATGAACTCTCTCCCTTCCCTTCCCTT
TCCTTCCCTCTCTCTCTCTCTTTCTTTCTTTTCTCTTTTTTGGATGGAGTTTCACTCTTGTCACCCAGGTTGGAGTACAGTGGGGTGATCTTAGCTCACT
GCAACTTCCACCTCCCAGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGCACCACCATGCCTGGCTAATTTTTGTAT
TTTTAGTAGAGATGGGGTTTCACCATTTGACCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATGTGCCTAACTCGACCTCCCAAAGTGCTGGGATTACC
GGCATGAGCCACCGTGCGCAGCCCCTCCTTCCCTCCCTTGTCTCCCTCCCCCACTTCCCTCTCCCCCCCTTCTGTCTCCCCGTTCCCCCCTTTCCCTATC
CCCCTCCCCCCTCCCTCCCTCCCTCCCTCCCTTCCTCCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCCTCTTTCTTGACAGAAT
CTCCCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCTGCTTGCTACAACCTCGGCCTCCCAGGTTCAAGCGATTCTGTCACTTCAGCCTCCCTAG
TAGCTGGGACTACAGGTGCACACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAAATGGAGTTTCACCATGTTGGCTAGGCTGGTCTCGAACTCCT
GACCTCAAGTGATCCACCCATCTCGGCCTCCCAAAGTACTGGGATGACAGGTGTGAGTCACCATGCCCAGCCTTCTTTTCTTTACTCAAATAAATTTATT
TGAAAAGAAAACTACTTAAATATATGTTTAAAGAGGAAACATTTTATCACAATTATAAAATAAAATAAACAATAATAGCAAACATTTATTAAGCACCCGT
AAGAGTGCCAAGCACTGTCTCAGCCTTTTATACATACTCACTCATTGGATTCTGAGTTAGATGCAATGATTATCCCCATTTTACATGTGAGAAAACTGAG
GTTCAGAGAGGTTTGGCCACTTTGCTGGAAGTTGCAGTTAGTGAGTGGCAGAGTGGGGATTCGAACTCAGGAGCTGCACCTACTGCTTAGGTTCCCTGCA
CAGTATATCAGCCTCATGAGGGCAGGGGTTTTGGTTTCTGTGTCCCTGGGCCTAAAATAGTGCCTGACACACAATAATGCTCAATAAATACTTGTTGATA
AAAACAAATGAATAAATGAATGATCAGTTGCTATACTAAGAAGACAATCAGGCTGGGCATGGTGGCTCACGCCTATGATCCCAGCACTTTGGGAGGCCGA
GGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCTAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAATGAGCCAGGCATGGTCG
TGGGCACCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGAGAATTGCTTGAAACCCGGGAGATGGAGTTGCAGTGAGCCGAGATGGCACCACCACTGCG
CTCCAGCCTGGGTGACAGCATGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGACAATCAGAAAAATAAATACAATGGAAACCAGAGAAGTCCA
CTGTTGCCTGCTCAAGATGCTGAGCATGAAGCCTGTTCTCCTGATTCAGACAAGAAACCAGCCAGTGTGGAGTGATAGGAAGAACACACTCATAGCCAAT
GGAGACTTGCTCCTTGACAAATTAGAAAAATTATACTGGAATCTTGGCACTTTGGGAGGCCTAGGTGGGAGGATTGCTTAAGCCCAGGAGTTTGAGACCA
GCCTGGGCAAAATGGCAAAACCCCATCTCTAAAAAAAAAAAAAAAGATACAAAAATTAGCTGGGTGTGGTAGTGGGTGCCTGTAGTCTCAGCTACTCAGG
GGGTTGAGGTGGGAGGATCACCTGAGCCTGCGAGGCAGAGGTTGCAGTGAGCCGAGATCGGGCCACTGCACTCCAGCCTGAGCAACAGAGGGAAACCCTG
TCTCAAAATAAATTAAAAAAAAAAAAAAGGCTTAAAAGGAGGCTAATTTTTTTCCTTTAGGAGTCAGTTGTTATAAACATTTTTAACAGTGAATTCACAT
ACCATGCCATTCACCCATTTAAAGTGTACAGTTCAATTCTTTTCAGTATATAGAAAAAATTGTACAACCATCACCACAGTCCAATTTAGAGCATTTTTAT
CCTCCTCTGAAAGAAACCCTGTACTCGTTAGCAGCCTCTCCTTCCTCCGACCCCTCTAGCCCTCAGCAATCACTAATCTTTTTCTGTCTTTATGGATTTG
CCTATTCCGGACATTTCATATAAATGGAATCACACAATATGTGGTCTTTCGTGACTAGCTGCTTTCACTTGGCAGAATGTTTTCAAGGTTCTCCCATCTT
GTAGCCTGGATCAGTACTGGAGTCAGTTATTTAATGCTACATCCTGGGTTCGGGTAAAACGACCTAAAATGTGAGTCCCCCGCTTCAGGAAGYGCCGCTG
TAATGAATAAAGAACCTTTTGGGGGAATCATAGCTCAATCTCTTCCTGGTTCTAAGCGGGCAGGTTCAGGCTTCCCTGCGGTGGGGTTGGAGCAGGAGGT
TTATCTTTCAGCTGTCCTTGGGACTGGGCAGGAACTTGTTCAAATGTTACTGCTACTCTATCCTCCTTCCTAAATCAGGACTCTGGACGCTCCTGGGAAT
CACTGTCTGTTGCTGCTCTCTGGGAGTGTGAATGAATCACTGGGTGAGAATGTCAGTAGCACCTGTGTGTGCTGGTCTGGGGCGAGAATCCTGGGCCAAG
GGGCAGCGGAGGGGAGAAAGAAGCAGATGGCCACGAGGCCAGCAAGGGGCTGTCCGACTCRTACCCCACAGCCAGCATTCCCTGCCTCTACCCGTACACT
TGTTTTGGCTGCAGGAAGCTGTTTTAGGTGGAAATCATTTGATGTGTGTAGGTGCTGTCTTCCCAAACACACCGTGCTCGACAATTGCCCCAGCTCTGCA
GGATAGACTTTTTGTAGCTCTTGGTAGCTACCCATTTTTTCAGCCTCTAAATAGTGGTGGTGCCTGTTTTAATCCTCTCATGGATCGTGTAAAGTAGGTG
ATCTTTTCCCCATTCACAGATGGGAAACTGAGCTTCAGGATAGTCACATGACTTGTYCAAGTTCTCATGATTAGGAAACGTTGGAGCTGGGCTTTGAACT
GGACTGCAAAGCTTGTGCTCTTGACGAAATAGGAAGGCAGAGGCTGTGGTGGGGAGCAGCTTGGTTATGGGTACCCAGAAGGCAGAGCCGTTTCTTGCGT
ACCATAAAATGGGACATTTACCTTGGGTACTCCCTTTGGAGTGTGTTGCTGGAACTTGTGCAGGGACTTAGGGARTCTTCTGGGGAAGAGGCCAGCAATG
TGTTGGGGATGGAGACGAGGAGCACTCAGTGTTATGTTTTGGAGCCTTGTCCTACACCTGAGGACCTCCAAGTCTATCAGTCAAGGCCCTTTGGGAAATG
AGTGAAAGAACTCAACCAGCTCGAGCAAGGATAATTTATTGACTCATGTAAAGAAAATATCCAGGATAAGACTGCCTTCAGGTATGGCTGGATCCAGGGG
TTTAAAGGTTGAAGCCACTGCCTCACTTTCTTTTGGCCTTGCTCTCCTCTCTGTTGACTTTGTGCTTAGGTAGGCATCCTGTGGTGGCACTAATGGCTGC
CAGCAGCTCTAGGCTTTCTTCCTCCCCATTCTGCATCACAAAGCTGAAGACAGCATCTCACTTCCAATGGTCTCAGTCTCAGCTACAGGTCTGGGGTTGC
TGCTTATTGACCAGGCTCATCTCACACCCCTGGTTCATATTCCTGAATCAATGGGTSGGGGGAGGGTGGGGGAATGCACTGTTTTGATTGGCCGGTGCTG
GGTCAGGTGCATATCCTTGGAAGTGGAGGCATGGTCAGTCCTACTTGAACCACGTGAACCAAGAAGGAAAACTCGGGACCCTTGTATCAGAAGCAATGGG
AATGGATGCTGGGAATGTTTCAGGCCACAGACATCCTCCTCGTGGGTGGCAGAGAAGCCACCATTCATCTCTGTGGCTTTGCTGCCAACTTGCCATGGGA
CCTTGAGCAAGCCACTTCCCTTCTCTGAGCCTCAGTTTCCTCATCTGAACAGCGATGATCTTTAAGGGCCCATACAGCCCTGAACTTTTGAGGCCAACAG
GGTTTGTCTAGCCAACAGCCTGGCATCCTAGCTTGACAGGTCCAAGCTAAGGCTTAGGAATGCATGGCCTTCAGAAACCCTGGGGTCGAACCTGGGGCTG
GGCGCCTGGCCTCTTGTTCTTGCCCATCCTGGCAGGGTACAGCCTGTGATGTGGGAGGGAAGGGTTCTGAGGAGGTTTCTTTGCACATCCCCAGCATTCT
CCGTCTATAATTGGCTCCAAATGAAATGATCTCATCCCTGAACACTGAGGAAGAAAGGGTGGGGGTGAAGCTGCTCGCTGGCAGCATCTGACATAGTTTA
TGACTAACCCGCTTCCCTCCCGAGGCAGGGAGAGACGGTCCGCTCTCTCGAAGACAATGTACAATTTTGAAAAAAAAAATAAAAAAGTCTTGGTAAATAG
ATTGASGAGGCTCCAGCCTCCTGGGCTTTTGGGAGGCCCAAGGCATTTTTCCCCTCTGCCCAAACCAGGTATCTTTTGCCCATTGCTCACAAGTCAACGT
GACCCRTGCTATTACCATTCCCCAAACTTTTCACGTCAAACCCTGGCCGGGAAGGTGGTCAATGTAGCCAGTCCATCAAGCGATTTGTCCCATATGGATT
CTCAATTGAGTTTTGTGGCCGGCTGGAGCTTGTTTAAATGCCCATACATTAATTTTGAAAGATGAGCTCCTAATCAACTTTTAAAAAGCTTGTCACAGCA
CCATCTGTTTGGCGTTTGTCACTATTGCATTACATAAGAGGAAAGACATTTTTAAAGAATGCGGCTACATTTAGTAATTGGATCGCCGGAGAGAAGCCAA
ACCGGGGCGGATGGCACCGTGATTCAGAAATGCCACGGGCCCTTCTCCGGGGTGTGGCGGCCTCCCCAAATTCCACGCGGTCTTGGCAGAGACCTGAGTG
CAGCCCAGCTTGGGAGACAGGCTTGGGGTGGCTTCTTTTCCTCTTGCCTTGGTCTTCCTCTTATTTTTTCCATTTGTTCTCCCTCACCCCTTGCTACCCC
AGTATTAGCAGTGACCAAGTGGCTTTACTTCCCTGAGTCCCAATTTCCTCATCTGGAAAATGGGATTCACAAGAGCACCATCTTGTGAGGTTTAAATGCA
TTAATGCCTACGGTGCCTGGCACGTGGTGAGTGCTTTATAAAGTGTTGCTATTTTATAAAGCTATGTCTGATGCATAGTAGGTGCCAACACATGTTCATT
TTCCTTCCTTTTYCCCTTCCCTTTATTTATTTATTTATTTAGAGACAGGGTCTTGCTCTGTTGCCTAGGCTGGAGCACAGTGGTGCAATCTCAGCTCACT
GCGGCCTTCACCTCCCAGGTTCAAGCAATTCTCCCACTTCAGCTCCCTGAGTAGCTGGAACTACAGGCATGCACCACCACACCTGACTAATTTTTTGTAT
TTTTTTTGGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAAGTGATCCATCAGCCTTGGCTTCCCAAAGTGCTGGGAT
TACAGGCGTGGGCCACCGTGCCCGGCCCCTTCCTTCCATTTAATTCAACAAGTTCTTAGGAAGTGCCCACGTTTGAGGCAGAGCTGGCATCATGCACATG
CACAGCCATTTGCACAGGGCCCCACACTCACAAGAATGCTGAGCTTGGTTTAGCGTTCTGCTGTCGCTGGCTTGACATTCTTAATTTTTGAACAAGGGGC
CCTGCATTTTCATTTTGTACTGGACCCCACAAATTATGCAGCYGGTCTCATCTGGAGGTCTAGAATGATGCTATGTCTTATTTGACCGTCTGATATTTAA
AATAACAATAGAGTCAACGTTTTAAAATCAGGAGAGTTCACACAACAGTCTGGCTTATTTTAGAAAATTAGAACATCTTGCCACTGTGAGTCTGCATTCC
CACACACTGCCACATGGGCTGGAGCTGGAGTCCTCTATACAGGCCACATCCGCCACTGTCCCCACCACTCCTGGAGGCTTTGGACTGAGTCTCTTTGCTC
ATTTATAGAGCTTCCAGCATGGTAGCTGGGATCATGGGCTTTGCAGCCAGGTATGTGTTCAGCTTTTCTGTTAATCATCACAGTAACCTCTCTCTTAGGG
TAGTAAGGATTAAACTAGTTAATATAGGCAAAGCATCTGGAATATGTTGCACTGTTATTGCTACTGTTCTGCTTTATCCTGGTGCAGAAGCTCAGACCCC
CAGTCTGAGGGCTGCCCCTCCGGGAGCTGGAAGCTGCGCCTGTGGCAGCTGGCTATGAAAGCGTCTCTTTCTGCTGTCCCACACAGCAGCCGTTGTCAAT
GTCCACTTTCTCTCCCTCCACCTGCAGCACCAGAGTTCACACCTTGGGCCCGCCCTCCTAGCATTATTTTGAGAAAAGGGCCTTCTGTCCTGTAAATAGG
CTGAGTCATCCCTGCCTCAGGGCCTTTGCACACGCTGCACTTGCTTCCTAGAATACTTCTTTTCCCATCGCTTTGCTTGGCCATCTTCTCCTTTTGGTCT
AGCTCAAATGGTACTTCCTCAGGGAGGCTTTTCCTGATCGCCTAAGAAAAGTAGCCCTGTTTTCTTTCCCCTGTCATACACATTCGCCTATATTATTTTC
TTCCCAGAACTGGTTTGTTGTGTATCTYCCAGAGGACCAGGTCTGCCTTGGTCACTGTGATATCCCTAGCACTTAGGCCATTGCCTGGCACATGGTAGAT
GTTTGATAATTATTTATTGAATGAATGAAGGAAGGAAGAAAAGAATTCATCAACTCCTCATGACCACCCTGTAAAGCAGGGACAAGAGACCTGAGTCATG
GAGAAGAGAAGGGACTCCTCAAGGTYGCACAGCCCAGAAGGGGCAGAAAGGGTGATGAGGACCTAGGTTTTCTGCTTCTACACCCCCTGTCCCCTCAACC
CCCCAGGTGGGAAGCAGCAGAGACATTTGGATCTTTGGCTCGACCAGCCACCAAGAACGGGTCAAGTGTGCAGCAAGGCCCAGAGCACAGCGTCTGAGRG
TGGTGAGAGCGATTCACCCAGGCAGCCAGGAGGCGAGACTGTTTACAGGGGCTAGCGGCTGTCGCCATGACAACCGGACAGCCTACAGCTTCCTGCGTCA
CCAGGGACGCAGGTTTGCTCTTGGCTGGGAAGCAGTGGGGACAATGGAGTGGGGGCTGGGAAATGGGGGGACCCTAAACACTCAGTCTTGGGGGGAGGCA
GTTCTCATTTCTGGTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAAGCTGGAGTGCAGTGGTGCGATCTCGACTCACTGCAACCTCTGC
CTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGTGCTACCATGCCCGGCTAATTTTTGTAGTTGTAGTAGAGA
TGGGGTTTCACCATGTTGCCCAGGCTGGTCTGGAACTCTTGACCTCAAGTGATCTGACTAACTCAGCCTCCCAAAGTGCTGGGATTACAGGTATTAGCCA
CCATGCCCGGCTGGGAGTTCTCATTTCTGAGAGTTGCTTGAAGGCTGGGAGGGCCTGGTGATGCTACCTAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTAGTGTCTGGGCTGTGTGGAGCCAAGCTGCCTGGGTCTGAATCTCAGCTTTGCCTCTTCTGTGCCGTGGCATTTTGGGCAAGTG
AGTTAATCTCTCGGTGCCTTAGTTCCCTCTAATGTAAAATAAGGTGGACAGTAGTACCTCATAGGACTGTTATGAGGATTAAATGAGATAATAGTCTCAC
GGCACTTACAATGCACCTTGCATTGTGCCTTAATTCTTGACATCAATCTACATCTGACTCTAGGTTGTCTTCTTGCTGGGGTAGTGGGAAATTTGGTCTC
AATCATCCTCAGGGATCCCTACTTCCCTGGCTTTTGTCATTCATTCAACAAATACTTATTGAGCACCTACTGCATGCCACGTATTGTTCTAGAGGCTGAG
ACCACAGCAGTGAACAAAGCAAACAAAAATCCCTGGCAGAGTAGAGCTAACATTCTAGTAGGGATAGATAGACATTAAATATGACAAAAAGGAAAATAGA
TATTATATCAGATGACAATAAGAAGAAAAAGAAAGCAGGGCTGGAGGATTCCAACTGCAGGGGAGCTGTTGCAATTTTAGAAAAATTGATGCATGGGGAT
GTGAGTGTGTCAGGGAAGGCCTCACTGAGAGAGTAACCTTTGAGTACAACTTGAAGAAGGTAAAAGAGGGAGTCACAGGTTATTTGCAAGAGCATTCCAG
GCAGAGGGAACAGTAAGCGCAAAGGCCCTGAGGCAGGAGCATGAGCATGTATGTGACTGTATCATGTAGTCATATCTCTTGGCAAGTCTGTGTGTGTGAT
GTTATGTGGCACACATTGGTGGCATATAGGTGGTTATGCCTGTCCACATGGGTGGCAATGCACATACATGTTTGTTCATGTACAGAGCTGCTGTGTTCAG
TCACAGAGGCTGTGCCTGAACAATTCAGGGAGTGACATTCACACTGATTGCCATGAAATGGGACCCCCTGGTGTAGTGCAGCGCAGTGGCCCCGAGCATA
TATATAAGGAAATCAATGTAAAATGTCTGTGAAAATGTTCACACGTGTATGTGTCCGGATATTTAAATATAACGATATGCAAATATGTATATATGAATGT
CTTTAAGATGTTGATATTTCATTCCTCATGGACTTTTGCTTCAGTATTGATTTTTAAAAAATATTGCATTAAGATATTATTTCTCTTGATTACTCAGTTT
TTGGGTGCATCTTACATTTGCATCAGAGGCAAGTGCCTCACTCTCTTAATGCTGGTCCTCGCCCTGCCTTGGAGTTGGGCAATGAATGTGCGGGAGGCAG
GGATGAGGCAAGGGAAGCCTCTCCTTCTGGCTCCTTCCAGCATCTGGGCTCATCAGCACATGACTAGAATCCAAACCTAATCTGAACACATTTTGTTCCT
TTAAAACAAGATTTATTGAGTGCTGACTGTGCGCCAGGGACTCTGCATACATTATTTTATTTTATCCTTACCACCATCTCTGGGGGTAGATATTTGCTCA
TTCCATTGAACAGACATTTGCTTAGGGCCTACTATGTGCCAAGAGTATAAGCTGGCATTTGTGCTGGTCTGGCAGCCACTCCTGATTTTTCTGGTAAAAG
CACCCCAGTTTTCCTTTAGGGAACCTAGCCTCTTCCCTTTACTGTCCAAGTGGTTTCACCTGGGCTTTCTGTACCCCTCCCTCAGACTCCAGGGGTGGGG
GTGTGATCCAGGCGACCCAATCAGCATACTCCATCCCTTTTGCTCCAGAGATTAGTTATAGGACGAGTATCTAACCCAAGTTGGTTCAATCAGAGTGAAT
CCTGGGATTTTTGCTGCCCTGTTGGGAAAAAGAGCTCTCTTTTCATCAGGATTTCTAGCTGTGAGAATTCTGTAACCCTGGAATTCCCAGTGAGAGTCTA
CTACATGGAGAGAGAGAGAGAGAGGAAAAACTCATCCCTTATGACATCTTTAAAGCCCCTGGATCCAGCCACACCTGAAGTCAGTTACCCTAAGATTTTT
CAATTCTGTGAGTTTATACTTGTTTTTCTTTTTAAAAGCCAGTTTGAGAGGGAAGCTGAAATCCTGTGCTTGGCATCTTTGTACATTATCTCCTTTAATT
CAGAGATGAATCCCATGGGGAAGGGGCTCTGATTGTACAAGAACTGATCCTCAGGGAGGGAGGTGACTTATCCAAGGTCACAGCAGGTTGGTAGTTGGAG
CTTGAATTCAAGCCCAGGTCTCTACTCCTGAGCCGTTCTGCCATTCCACATGGTCTGACCTCTGGACAAGAGGGTTTGTGTGAGTATTAGTGACATAGAC
CCGAGTCCTGTTATGGCCACTGTTTTGCTCTGTGACCTTGATCAAGTCATTTCTCTAATATGAGCCTCAGTTTCCCATCTGGAAAAATGGTAGTGCTTAC
CCCATCATGCTGTCGTGAGATGATCCATGAAAGTAAAGTACTCAGAACAGGGCTAGACATGCAGCAATGAACATAAACTATTATTACCATGGCTCTCTTT
TTTTTTTTTTAGAAAATTTTTTTTTAAATTTCATAGGTTTTTGGGGAGTAGGTGGTATTTGGTTACATCTTTAGTGGTGATTTGTGAAATGTTGGTGCAC
CCATCACCCGAGTGGTATACACTTCACCAGAGCAGTATACACTGAACCCAATTTATAGCTTTCCATCCCTCACCCACTTCCCACCTTGCCCCGCAAGTTC
CCAAAGTTCATTGTATCATTCTTATGCCTTTGCATCCTCATAGCTTAGCTCCCACTTATGAGTGAGAACATAATGTTGGTTTTCCATTCCTACCATGGCT
CCCTCTTTGAGGGAAGAAAGGGGACCCAGGGGGCTCCCCGGCCACCCTGCTCCCATCCTCCCTGATGGCCACAGGCTCCCAGCAGCCCTTGATGGCACCT
TCATCCATCTTCTGCCAGACACACAGAACTGGCTCGCTTACCCGGGAAGCAGGCACTTAAGGAGGCGCTTCCCCGCTTTCTCTTTTAATTTTCGTTACAT
AAATTTCACATTTCCTGGAATAGAGAGCTTGAATGTCTGGACTCATTTGGAAATCGAGTCAGCAAAGGGCCTCATTTATATTAATGGGGACTCGAGCCTG
ACTTGAGACGTGGCAGAGACAAGGATGGATGGCAGCAGCTCCTAGGCCCAGCCATCCAGGCTGAGCTCAGACACTGCCTTGAGAAGCAGATGCCTCCAGA
TTTAGGCTGGGACTGTTCTCGTTGTGTGGGGAGCTCCTGGATGCAAGGGCGGTGTTGTCACCCCTCCCCCACTGAAACTTCCCAATGGCTGCTCACTCTC
TCAGAGGGAACTCCAGTCTGCTTATCCTGCTTGACAAGGGGCTGCGTGATGGACCCCTGCTAACCTCCCTGCTCCTGCCCACCACTCTCCTCCCTCATCC
TTCTTCAGTCTGGCTGGCCTCCTGAGAGCATTCCTGCCTCAGGGCCTTTGCACTTGCCGTGCTCTCTGCCTGAAAGGTTGTTCTCCTAGCTCATCCCGTG
GCTAGCTCCTTCCATGGCTTGTCTCACAGACAGCACCTCAGGGAGGCCTTCCTTGATTGCCCATCTGGAGAAACACTCTCCAGTTACTCTGTATCACACC
CATTTCATTTTCTCCATCACACTGAGCAATAGTTTGTATTTTCTTGTTTACTTATTTGCCTATTTATTTATTGGCTGTCTTTCCCATGAGAGTATAAACC
CCATTAGAGCACAGACTACGTGTCTCCTTCAGCTTTGTCCCCCTAGGATCTGGCTCAGAGAGACAGATTTCTTAAGCACCTTAATAAATATTTGTGGAAT
GAATGCCTGCACTCATTCAGCAAACCCTTTCTGAGTGCCTTCCTGGTGCCAGGCTCTATTCTGGGTGCTGGGAACACAGCTAAGAAAAAGACAAGAGGCA
GGGCACGGTGGCTCACGCCTGTAATCSCAGCAATTTGGGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTG
AAACCCTGTCTCTACTAAGGATGSAAAAATTAGCCAGGTGTGGTGGCATGTGCCTGTAATCCCAGCTACTGAGGAGGCTGAGGCACAAGAATTGCTTGAA
CCTGGGAGGTGAAGGTTACAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTAGGCAACACAGTGAGACTCTGTCTCAATTAAAAAAAAAACAAAAACA
AGACAAGATTGTTGGCTGCATGGAACTCGTGGTCTGGCGCAGAGAGGAAAACACCATAGTAACGAACATTTATTGAGTGTGACAAGGATTTTACAAAGAG
ACATCACATTTAATCCTAACTACAGCCCTTGGAACTATTATTTGTACCAGTTCATGAGGCACAGAGAGGTGAAATAGCTTGCTCAAGGCCATACAGTTAG
AAAACAGAGGAGCCAAGATTGTGGCCAGGCCATCCGGCTCCCCACTCTGCTGGTTTAACAAGCTCACTGAAGCCACTGGGAGTTAAAGCCTTGTGCTGTG
AAACCTGTGATGGGGGAGGCTCTGAAGGCTGTGGGAGCCCAGAAAAAGCACCTGACCTATTAGGCTGGTGCAAAAGTAATTGTGGTTCTTGCCATTGAAA
GTGATGGCAAGAACTGCAATTGCTTTTCACAACCTAATAGCTTTTGATAGGAGAAAAGATGAGCAAAGCCTCCTGAAAGATGCAGTACCTTAGTTGTGTC
TAGAATGTATTTATTTTTAACTTTACATTATAGCTTAAGAACTTTTAATATCTCCATGCTGTCCACAGTTAAAATTTTAAGTAATGCATATTATTCCAGT
GAGAGGCAGCACCATCCATCACTGTTGGGGAGTTTCATGCTTGCAATTTTGAGGTTCTCTTTAATGCTTTGAGGACCAACACCCTGGACTTACTGGAGTA
ATGTAGCGCTCAGGTTTCGGCTCCTCCCTTTACTTGGCTCTGAGGATTCTACATGCCTGGAACAAGGCACATCTCCAAAGTCACTAACGTGGCTAGATAA
TGGATAACTAGAAGTGCCTGCCCCCTCCACCATCCTTGTCTTGATGCCAGGTGAGATCCAGGCTCCTCTGCCCCAAGAAGGGCTGAGCTTACATTATCTC
CAGCTCAGCAGGTCCTTGGAAATTAGGTTGTTTTAAGGAAATAAAGAAATGTGATATTTCAACAAGACACTAGGRACAGCGGTTGCCTCTGCAGAGGGAA
ACTGGGTGGCCAAAGRATGGGGTAAGAGGGAAATTTTCGGGCCAGGCGCTGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGYGAGTGGAT
CCCTTGAACTGAGTCCAGGAATTCGAGACCAGCCTGGACAACATGGCCAAACCCTGTCTCTACAAAAAAGCCCTTCAAAATTAGCTGGGTCTGGTGGTGC
ATGCCTGTAGTCCCAGCTACCTAGGAGGCTGAGCTTGGAGGATCACCTAAGCCTGAGAATTTGAGGCTCCAATGAGCTGTAGTTGCACCACTGCACTCCA
GCCTGGGTGACAGAGACCCTGTCTCAAAGAAAAAAAAAAAAAGGAGATTTTCTTTGCAGATCCTTTTATATCTTTCCCATTGGGCACCACGTGAAATTAT
TACCGAGTTTAAAAAAAACTTTTTTTWAAAAAATGTAGAAGTTAATGTATTATTTCTGCATATCGGTCTGTGGACTAAGCTTTATACGATGCATTCATTC
TCTTTATTTACCTCAAATGTGGGAAGTAGCTATTATTGCCTCTTCCTGACAACAACAAAAAAAGCCTGAGGACTGGAGATGGGCTGTGCCTTGCCCAAGG
TCACATGGTGAATTAGTGCCAGAACTGAGACTCCACTGGGTGCAGTGGCCCACGCCTATAATCTCAGTACTTTGAGAGGCTGAGGCAGGTAGATCGCTTG
AGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAGACCCTGTTTCTACTAAAATAAAAAATACAACAGTTAGCTAGGCATGGTGGTGTGCAATGTA
GTCCCAGCTACTTGGGAAGCTGAGGCAGGAGAATCACATGAACCTGGGTGATGGAGGTTGCAGTGAGCCGAGATCGAGCCACTGCACTCCAGCCTGGGTG
ACACAGCGAGACTCTATCACAAACAAACAAACAAACAAACAAAGAATTGAGACTCTACTCCAGGCCTTCTAACCTGTCCAGGGGGTCTCCACTTCTCCAG
GTACCTCTTCCTTTACTGGCGGAAGCCATGCCGAGGTGTGGACAGAGGGGTGGTGATACCTCTGTAGTTATCACCTACAGTAGGGTGGTCACACGTCACA
CTGGTGTTACACAATCTGGGCTCAAATCCTGGGGCTGTCCCTGGCCTGCTGCATGACCTTAGGTAAATCACAAAACCTCTTGGGCCTTGGCTCTGTGATA
GCTGGGCTCCAAGATGGCTCCAATGACTCTCACCTTCCAGCGCTCACTCTTTTGTGTGGCCCTCTTTGGCAGTGAATAGGGCTGACCTGTGGGACCAACA
GGGTATTTTGGAAGTGACAGTGTGTGTGACTTCCACAGCTAGATAATAAAGGATATTCTAACAATGGAATATTATTCAGCTCCTGGGCTCAAGCTATCCT
CCCACCTCAGCCTTCCAAGTAGCTGGGACTCCGGGCGTGTACCACCATGCCTGTCTAGTTTTATTTTTATTTTTGTAGAGACAGGGTCTCACTATGTTGC
CCAGGTTGGTCTCAAACTCCTGGCCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCGCCGGCTG
ATGTCTGTCTTGACTGCAACTTCACAAGAGAGTCTGTACAGGAACCGTCCAGCTAAGCCACTCTCAAATACCTGAGCCACAGAAACTGTGTGAAATGTAA
GTGACGATTGTTGTTTTAAGCTGCTAAGTGTTGGGATAATTTGTTACACAGCAATAGGTAATGAATACAGTTTTTCATCTGTAAACTAAATATTGTGGTA
ATTTCACAGTGTCATTGATGATAATAATTTCATGATGACTCCTTTGATGATGACTTCATAGGTTGTATTTCATACGGTTGTTGCTAAGAAATTAGCAAAT
GCTAATTAGTGCTTGGAGCAGTGTCTGGCACCCAGTAGATTCTGAGTAAATGTTAACTGGTTTGATTATATGTTCTTTGTTATTTCTGGCACTGTGAGAT
GCTGAGCCTGAACAATAGATTCCCCGCCCCCCTTTTTTTTCTGAGACAGAGTCTTGCTYTTGTCACCCAGGCTGGAGTGCAATGGCACAAACTCGGCTCA
CTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACATGCATGTGCCACCATGCCTGGCTAATTTTTGTA
TTATTAGTAGAGACGGGTTTCACCATGTTGGCCAGTCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTAC
AGGTGTGAGCCACAGCACCTGGCATAGATACCCATTAAGGAACATAGCTAGGCCCCAGGCTGCAGTGGGATAATAGAGATGGTTAGGATGAGAGCTACCG
CTATTGAACACTCACTCAATGCCTGTTCATAAGCACTTCATATCCTTCCATCGAAGCCTCAGCAGCAGCCCTTTGAGGTAGATGCTATTATTTCCCCATT
TGACAGACTAGAAAATCAAGGTGCAGAGAGAGACAATGACTGGCCCTAAATCACACACCGAAGAAGTGGGGTAGCCAGGATCTGAACTCAGATGTTTCAG
ACCCCAAAGTTTCTATTCTGAACCACTAGGCTGAGCTGCAGCTTGGCTCCCCATCCCCCACGCCCACCCCTGACACAAAGCTTATCTTTTCCCTTTACCA
ATTTCCTGCTTATTAGTACAGAGTTAATTGCCCACACATCTGAGTGCAATCATTAGTTCATTCACCTCCTATCTGCAGAATGTCAAACTCCTTTGCACTC
GGGAGACTGGAGAGTAGATTCCTTTAGAAGTTTGTTCTTGTGATTCACGTTCCCTCTCCCAGGCTATCCCCTTCAATAGCTAGGATTGGGAATAAGAATG
CACACATGTACAGAAAAGCACAGAAACATCTGCCCTGCCTTAGTTCCCTACAGGGTCTCATCAGAGGTGGTTTCATTAGCCCCAACCCTTTGCAGCCTGG
CACCTTCAGACATGCCACCAGCTGGCTCTCCTAATATTTGCTGTGGGGCCATGTGATCATCAGGAGGGATAGGTCCTCAAACAGGCGATGAGCTCAGGAC
ATGGGCATTGCCACACCTGTTCCTCTCCCCAAGGAGGGGGGAAAGCTGTGCAGTCACAGACAACGTGGCCTTTTATAAGCTTGAATGTGATGTGCATACT
TGTGCATGGGCAGGAGAGCAGACAGGGACCAAGCCAAGGCTGACAGGGATCAGAGGGAAGGACAGGGGTGTTTGCGGGTGCCTGCAATGTGGCAGTGGCT
GAGCTGGGCCTGTGTGCCTGTACACCATTGTGTTTCAGATATTTTTGACTGTCAAGTTGCAGGAAGAAGTATATTTTGCAGCATGACCTGTAACACACAC
ACATGCACACACAATTGACATGAAAGTTTCATGAATCTGTACTTACCTTTTATGAGCAATSCATGCTGACTTTGATTCGATTCTAGTTTATTCTACTCCA
GTCTATTTTATTCTTTCATTACAAAATTGCTAGTCATGACCCATGAAATATGTCAAAACCCCCAAATGCAGGAGTTCATAATCTGGGTCTACAAACTTGT
ATAGAACAAAACGATATAATTTTATTTTCACTGACCTCTAGTTGAAATACAGCACTTCCTTTAGGTATGAATATAGGCAACAAATCATAGTAATATGTTT
CATAGTAATTATGTTTCACACACAKAAAAATCACAGGCTGGGAGTGGTGGCATGCACCTGCAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCGTT
TGAGCCCAGGAGTTCAAGGCTGCAGTGAACTATGATCACGCCATTGCACTTCAGCTGGAGCGACAGAGTAAGATCTTGTCTCTAGAAGAAAAATCACAGA
TTGTTTTGTATCTCGTTATGTTTGTTGCAGATGTCTCAAAATAACATTTATGATCTTCACTACCTCAAAATTGTGGTCGTTACTAATTGCTGGAACTTTT
TATTTATTTGAGACAGGGTCTCGCTGTGTCATCCAGGCTGGAGTTCAGTGGCTCAGTCATAGCTCATTGGAGCCTTGAATTCCTGGCCTCAAGTGATCCT
CCTGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCACCAGGCCTGGCCCGATCTTGTTATTTAATTTGTTAATAAAGAAGCACTTGTATTACT
ACATCACACATCTAAAATATTTTGAAAATTGCATTTCAGTAGGTTTCCTTTGTAAACCTATGTATTTGGCTAAGTGCAGTGGCTCACACCCATAATCCCA
GCACTTGGGAGGCCGAGGCAGGAAAATTGCTTGAGGCCAGGAGTTCGGAGAGCAGCTTGGGCAACATAGTGAGACCCTGTTTCTACAAAATTGATAAGAG
ACCCCGTCTTTTAAAAAATAACTGGGTGTGGTGGCAAGCCCCTGTAGTCCCTGCTACCTGGGAGGCTGAGGTGGGAGGATCACTTGACCAGAAAGACTGA
GACTGCAGTGAGCCGTGATCATGCCACTGCATTCCTGCCTAGGTGACAGAGTGAGACCCTGTCTCTTTAAAAAAAAAAAAAGAAAAAAAAAGGAGCGTGA
GGAAAAAAAACCCTTATGTATTGGCATTTAAATATTATTCTGAGTCTGAGAAGGGGGTCTGTGGGTTTCACTGGATTTGTGAGAGGGTCCATGGCACACA
GAGTTTGAGAGCTGCTGCCCCAGTGRGTCCTGATACACAGTTCATGAAACGCTACCCCATGCTGAAAGCTCTTGGGGGGCAGAGCTCCGGAGTCTTGAAC
CTCGAGCCCAGCATGGAAATCACATCGGTGGCCAATGTTTCCATAGCACATATGGTGCCAGCCTCTGTACGAGGCCCTTCACATGGATTATTTCTTTTAA
TCTTTACACCAACTCTTGTGTGAGGGGTACTATTCTTAGCCCCATGTCTCTGTCTCTTTACCCTACTTCATTTTTCTTCTTAGCACCAGAAGTGTCATAT
ATTTTTATCTGTTTATTGGCAGCCTCCCCCACTGGGATGTGTGTCTCTTGAAGGCAGGAATTTGCTTTGCTGAGTGCTTCATCTCCAAAATATCAAAATA
TGCAAGACTTAAGGGGGTACCAAAAACTCAGGAATCATGCCATGTCACATATCATGTTCACACACACACCCACAACCTCAGAAATCGAAATAAGGAACAT
TTTACTGCCTTTTTTTTTCTGGGACAGGGTCTCGATCTGTCACCCATGCTGAAGTGCAGTGGTGTGATCATGGCTCACTGCAGCCTTGAACTCCTAGGCT
CAAAAGATCCTCTTGCCTCAGCCTCCCAAGTAGCTGAGACTACAGGCACACGCCACCACACCTGGCTAATTTTTTTTTTTGAGACAACAGTCTCACTCTT
TCACCAGGCTGGAGTACAGTGGCGCGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGAC
TACAGGCGTGCACCACTACGTCCAGCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGATGGCCGCAATCTCTTGACCTCGTGA
TCTGCCCACCTCGGCCTCCCAAAGTGCTGGAATTACAGGCGTGAGACACTGCGCCCAGCCTAATTTTTGTATTTCTTATAGAGATGGGATTTCACCACGT
TGCCCAGGCTGGTCTTGGCAACTCCTGGGCTCAAGTGATCCCCTTGCTTTGGCCTCCAAAGTGTTGGGATTATAGGCATGAGCCACTGTACCCTGTCTGT
AATATTTAAAAAAATAAAAAATAATGCCCCAAACCCATAAACAAAATATCAACATTTCAAGTAAAGATAGGATCCAACCTCCTGCATGTGTACATTACTG
CCTGGATCTCCTTATCCTGTTACTGGTCCTGAGGGGCTTAAAACCTAACGGTTGCTAAAGTGAATTAGTCTCATTTTGCAGATGGGGACATTGAAGCAAG
GATGCTAAAGACCCCCTCGGTGCCAATAGCCAGTAAGTGGAGCAGTTAGGATTTTGAACTCAGGCAATTGAGTTCCAGCCCCATCTTTCTTAAACCCTGC
ACAGCCAGCCTCATGAATTATCATGCTTGATCTTTTTGGTAGAGGCAGTAAACTGGTAAAATCAGATAGGTTTGAGTTAAAACCCCAGTTTTGGCTGGGT
GCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTTGAGATTAGCCTGGCCAACATGGCGAAAT
CCCATCTCTACTAAAAGTACAAAAATTAGCTGGGCATGATGGCGCATGCCTGTAATCCCAGCTACTGAGGCAGGAGAATTGCTTGAATCCGGGAGGCGGA
GATTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCTTGGGCAACAGAGCGGGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAATTCAATTTTGCCCC
TTCCTAGCTGGGTGATCTTGGGCCAGTCATCTCAATGCTCTGTACACAGATTAAAGAGGGCAGAGGGGACTGGAAGGGGATCAGAATGTGGCTACTTCAT
TAGGTGGGTCCACTGTGGGTGTGTCTGAGAAAGAGTGGGGAGACCGGGATGTTAGAGCAGGCACCCTTGGGTGAGAGCTGTGGGAGATGAAATAGAGAAG
CATGCAGGAGCCAGTGGATGTAAGTATTTGCAGACCAAGCCAGGGACTTTGGACTTTATTTAACACGTAACAGAAAGCCTTTGGAAGGTTTTGATGGCAA
AGTGACATGATCAGACTGACAGCTTGACAGGACCCCTCTGGCCATTATGTTGAGAAGAACCTGAAAGATCAAGGGCAGAAATAGGGAAGCTGGTCTGGAC
GTGGTACAATATGAAGGCAATAAACAATGGTGGCCTGGCCCCAAGCTGCAGCAGTGGAGGAGCAAGAAATGCAGATCCCAGATCTATTTTGAAGGCAGAG
CCCAGAGGAACGGCTGACAAGCCATTCATTTCAGCACTGTTTGTTATAGCAAAAGTTGAAAGCAACTTGAACGTTCAGGAGTAGGAGACTGGCAATTACC
ATGTATAATAGAACACAACATAGGCTTATGAAAGAATGAGGAGGCTCTTCGTGTATTAATACAGAATGATTTCCAAGATACATTAAATGAAAAAAGCAAG
ATGCAGAGCAGTGTATATGGCACTCTTACTATTTGTATGGGGTAAAATAAAACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTA
TGTGTGTGTGTGTGTGTGTGTGTGTGTGCAAAAATGATCTCTGGAAGGATACGTGAGAAACTGGCGGCCTCTAGGGACAGGGGGACAGGGGTCCAGGGGT
ATAAGGGAAATTTCACTTTTCATTGCATCTTTTGGATTTGAGATTTTGTGCCTCTTCTCAACTGGAGGTGATGTCCCCCAGGGGACATCTAGCAATTTCT
GGAGACATTTTTGGTTGTTGCAACTGGGGGGAGGTATTACTGGCATCTGGTGAGTAGAGGTCAGAGATGTTGCTAAACACCCTGCAGTGCCCAGGGCAGA
CCCCACAACAGAGCAAGAGCTGGCCCTAAATGTCAGTAGTGCTGAATTTGAGAAGGTTTGATCTATTAAAAAACATAATAAGGCTGGGTGTGTTGGCTCA
TGCCTGTAATCCCAGCACTTTGGGAGAGCAAGGCGGGTGGATCACCTGAGGCCGGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCCTCTCTAC
CAAAAATACAAAAATTAGCCAGGTGTGGTGGCGGGTGCTTGTAATCCCAGCTACAGGAGGCAGGAGAATTGCTTGAACCTGGGAGACAGAGATTGCAGTG
AGCCGAGACCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAAACTCAGTCTCAAGAAAGAAAGAAGAAAGAAAGAAAGAGAGAGAGAGAGCAAGAGA
GAGAGAGAGAGAAAGAGAGAGAGAGAGAAAGAGAGAAAGAAAGAAAGAATAGAAGTTTTTTTTTTTTCAGGATGGTCTTTATTCTGAGGTTGTATATTTT
ATGGGTTTGATATATCCTTTGTTTTACTAAGATAATATATAGTACATGATAGTCATTTTTTCCACATCTTTACTTGGCAAAATAAAATGTCAGCAAGCCT
TATACACTTCTCTAAGCTGAATAAAAAATTATCCGGGCATGGTGGTAGGTACTTGTAGTCCCAGCTACTTGGAAGGCTGAGGCAAAAGGGTGGCTTGTGT
CCAGGATTTCGAGGCTGCAGTGAGCTAAGACTGCACCACTGTTCCCCAGCCTGGGTGTCAGAGTGAGACCACATCTCTAGACAAATAAGAATAAWTTTTT
TTTTTTTACTGGGCTATGAAATCCTAAAGTCTGGAAACTACCCTTTTCACTCAATGGGCTTTTGAAAGGTAATGATTTTAAAATATGTCCACAAAATATT
TGATCCTTTTTCCCCAAGAGGTAGAATTACCTCTCTCTAAGTGTGAACCAGATTTGGTGACTCACTGCTAACAAATAGAATTTGGTGCGAGTGATGGTTT
CTGATTTCTGAGACTAGGCCACAAGAYGCATTGTGCCTTTCTCCTTACCCCTCTCTCTTGGACCACTGCCCCTGGGGGATGCCAGCTTCCATGCTGTGAG
GATATTCAAGAGCCCTATGGAGAAGTCCACATGGTGAGCAACTGAGGCCTCCTGCCAACAGCCAGTAAGGAACTGAGGCCTCCTCAGCCAACTTAGAGGC
AGGTCTTCCATCCCAGTCAAGCAGAGGACTGCAGCTGGTGTCTTGATTGCAACCTTGTGAGAGACCCCTAGCCAGAACCACTCAGCTAAAGATGCTCCTG
AATTCCTGACCCACAAAAACCATGAGATAATAAATGGTTCAACTTGCTAGAGTTTGGGGGGTAATTTGTTACACAGCAGTAGATAAATACAGAAGGCTGG
GCACAGTGGCTCATGCCTGTAATCTCTGTACTTTGAGAGGCTGAGGTGGGTGTATCACTTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATGGCAAA
ACCCTGTCTCTATTAAAAAATACAAAAAATTAGCCAGGTGTGGTGGCACATGCCTGTAATCCTAGCTACTCTGGAGGCTGAGTCACGAGAATTGCTTGAA
CTCGGCAGGTGGAGGCTGCAGCGAGCAGAGATTGTGCCACTGCACTCCATCCTGGGCAACAGAGTGAGACTATGTTTCAAAAACAACAACAAAAAACCTC
CCAAAAACAAATATAGAAATCTTTGAGCCCTATCAGTAAGGCAGAGATCACAGAAAGGTAGCCTATGGGCTCTGGTCTGCCTACAGATATATTTCCTTTG
GCCAGTACAGGACTACAAAAAATGGAATTAATCACTAATGTTTATTTATTTTTATTTTTTATTTATTTTATCTTTTAGCAGAGACAGGATTTCATCATGC
TGGCCAGGTTGGTCTCGAACTCCGCCTTGGCCTCCCAAAGTCCTGGGATTTCAGTTGTGAGCCACATGCCCAGCCATAGTTGCTAACATTTAAAAGTTGG
GTATTTCCTTTAAAAATCCAGATTTCTGACTTCTCTTAGAAAGATCTAATATTGCTGGGCCCACATCCCTATGGGGTAACAACCAGCTGGAGATGAATGG
TGTTCACCCCTTTAGACAGGGTGTGTGTTCTGTTTTTTATCACACTCACCACCACCCCCTTAAGTCTCTTAGTTAAGTTGCTTTACTCATTTATGTTACC
TGCTCTGCCCCAGTAGTCATTTGAGCTTATGCCTTCTATTGTGAGACAGTTTTTAATGAGATGCCCAGGCATAGTTGACATGAGAACTAAATGACCAGAG
TTGGAACTTTGATTCATGAATATCATGTAGGATGGGTTACCACTGGGTTGCATAGTGGGGGTGAAAAGCCAGTTATATTTTCATGTCCTCCCTCTTCTGG
GGGGAAGAGAGAAAGCTGATGCCGCCTGGAGACAGGATTCCTGATTCAAGTCCCCTTACAGCGCTTCCCATCTCGCCTCCCTGTGCCCTCCAAAAAATAA
ACTCCTCCAGGCTTGTTTTTTCCATACCTTTTATTGAACTCTGCAGACTTCATTAAGGGACCATTTGCTTAGAAATTCTTAAACATTTGGACATATTTTA
CAAGACAAGACAGCAGCTGGAGGTCACACAAAGATCACAATTTCATCTCACCACATGCATAAAAAGACACTGGGATTTGTGTGTGTGTGTGTGTGTGTGT
GTGYGCGTGTGTGTTGCGCACATGCGCAATGCTTATTTTCACCTTTACAGGAAGGACTAGAGACATTAACTGACGAGAGATGAATAGGACCCACGAATGC
ACCCCCGAGAAAAGAGTGGCTGAGGACATTGGTCATTTATGGCTAATGTGATTGGCTTGGCCCCTGTCAAGGGTGAGGTGATCAGAATGGCTTTACTGGC
AGAAAAGCCCCAACCTCACACGACGGGTTCCTGGGAGAGACAGGGTCTTAGCTGATGGGATCTGGGGGCATACTATCATGACGGCTTTGGGGCTCAGAAA
AAAAGATCTTCGGCTCTAAAAGCTGGAGGGCAGGCTGGCCTTAATATCCAGCTGGACTCCCATGGCTCAGGGAAYGCAATCCAGTTTCCAGATGTTGGCT
CCTATGTTTCTGCCCCAGGAAGTCCCAGACCAAAGGAAGTCCCAACTTCGAACCCTTGGCTTAGTCCATTGGAAAACCACTTGGTGGTCCCCCCCATGGG
TCGTGTGTGAGCTAAAATAGAACATGAGGCTGAGAAATGCAGGGTAGGGGAAGAGGAAGGAGGGCAGAGCTGCTCTGTGGGCCCCCAGGAAGTGTGGCTC
TGAGAGRGCTGTGGCCCTTATCAGCTTGGGGCCTACAAGCATCAAATTGAGATGTCATCTTGAGTCAAAGAAAGATGACCTTGATGGGGCAGTTATGGGT
TTCAGTGGGAGAGGGGCTCCTCATTTTTCTTCTCTTCACAGTTAGGTAGGGATTCATTAACTCCCCCATTCACTCACACATTCACGCATCCAGTCATCCA
CTCAGAGGCCAACCAGTCACACATTCACTCACTCACAAAAACACAGGTTGGATGACCATCATGTGCCAGCGGCATAGGTTGGGGATAACCCTGAGTTCCT
GGTGCAGAAAATAAGATTCTCAGTTTTTGACCTTGGATTGAGAAGGACCTATGAAATCAAGATAGACCTGGAGAATCCTCCCTGTCCCCACCCACTCAGG
CACACTCAGCTCAACCAAGAGGGAGGCCCAAACCCCAGTGAAGCCCAAGGGGCAGAGCCAAGCTGTGGATATGTCAGAGTTTCTTGGGCATCTTCTCTGC
TGCCTGCCTCTTTCCAATCTTGGTTCAGATCAGGGAAGCAGGAAGTATGGGAAGATCCCTGCATGGCCCCTTGAGGGCATCCTAATGGGACGGAATTGGG
AGTTTCTTATATTTTCATGAAATATCCTATTTTTGTCTCCTTGTGTTGTTGCAACTTGAGTGATTCTGCAGGGCAGAGCCTCCAGTGAGGAGTTGGGAGG
AATCTTGAAAACTGGTTTTTATTTTATTTTGGTTTCAGAGGAAGGCGGCTGCTCATTCTACCCATCCAAACATATCATCCTGCCCAACCTCATACTAAAA
CAACCAAAGACAAACCAGTCTTCGGTTCACCCTGAGGTTGAAGTCTCACTTTCTCCCAATCCACCATACATAAACCCTCTCTTGTCAAATGCTTTCCTTA
GAGAATGCAGTATGCAGGATGATTTGRGATGGAGGCCACAGCTGCAGGAGAGTGGCATTCTGCTTGGAGGCAGCCAAGAGCCTGGTTTTGCTGTGAAACT
GGATTAAAAGCTGCCTTTCTCTTTTGACCCTTCTGGATTTTTTTCATTGACGGGGACTTTCAAAGGTCTTGAGTGGGGTCTCTTATTTGATTTACCAAAA
AAACAAGCCCTTTTGGAATGGAGCCATTTGCTATTGCCTGGGAAGTTGTTCATTGTGGGGATGGCTAGTGGGGAACAGATATCATTGCATCTTTTATACA
GAAAGCCCCAGGCTCATGAGGGCACAGGAGCTGGGCGGAGGGGCTGAAGCACCATAAGACAGCCAGCCAGGGATGGGGGACAGCGTGGATTGCTCCTTGG
CTGGCCTGGGGAAGGGTAGCATGAGTCTCATCCCAATGTGGTGCCTGGTAGGCCACTGGGGATGGGTTGGATTGGTGACTGACAGTCATTAAAATGTTCC
AAGACGGAGCCGGAAGGAAGCAGACTTGTCTCTTGGACACCCCCTCTGAGAGCTCCAAAGCCCAGAAGTTGCATTCCTGCTAATTGTGCTGCATGCCTTT
GCCTCAGTGGCTTGAGCTTATATCCAGAGTGTTGAAACCACCTACACACACACACACACACACACACACACACACACACACACACACTCCAAGAAACAAA
GAGGAATTTCTGTGGTTGTTCAGCCCAGTTTCCATGCAATGCTAGGGCCCCTCTGCAATGCCCATTTTTTACACCATCTAGCCAGCCTCTCTTTAAACAC
CTGTGATATAAGGGAGCTCACTGTCCACCATGGCATTGAGCTCCATGGTCAGACAACCCAGCCTGTTAGGAGGGCTTCCTTAATTTGAGCTGCAATTGAC
CCCATCCCTTTCATACAATAGAAATTTTCGGAGAACTTGCATACAGCCAGCTGGCAGCTAAGTTTTTTTCTTCAGGTGCACTGCCCCACTCCACCCCATC
CTGGCCAGCCTTTAGGAGATCTTTTCAGGATCTTTGGAGGGAGGAACAGAGAATTAGGTTTATAAGTGAAGATGAGGGTTCCCTCGATTAACAGAGCCCT
ACCCAAATTCAAGTTGGCATTTGGGGTAGTTCAGGAGAAATTCTAGGTTAAGATAAAATCAGGGAGAGTGGATGGAAATGCAAACTATATAACCTCTTTC
TTGATGAAAACAGCAACAGCCATAGGCAACAGTGTTTGCTTATCTGGGCATCAAACCCAGGAAACTACTGGCAGACTTTTTTTTGTTTTGTTTTTTTGCT
TTTGTGCAGAGGAAAAAAAAATCTTGTCTGTTTTATTTGACTCTGGTTCAAACCAGACTATCAGAGGTTTTCGGGGTGGGAGAACTCTGATCAGGGTCAT
AGTCCAGAATAATAAAATTCATATTTGAGTTGGCTTCCTCTTGGGAGTTATCTGATGGGATGGCTCACTGCCATCTGAGGGTCCCAGTTTGGCTCAAATT
TCTGATTCTAGGCAGAGCCCCAAGCCCTGCAGCTGACAGTGAGGTGGGTGGTATACCAAAACCTAAACGAATGCAAGTTGGAGATTATCTGGGCTTTCTT
CATCTTCCTGCATGAGTTGACGGATGGAGAATCACTTTCTGCTGAAGATCCTGCCTAGTGAGATGTCCTCCGCCCACCCAGGACTGAAAACTGCCTCTGG
AATTAATTATCAGGACAGTCCAAAAACTCCCCCAGGCGTGGATAGGTGGAAGCTGGAAAACTGCCCCTGTCCTTGCCACACACCTCCTGCTCTATGGAGC
CAGGCAGCTGGCAAGGGAAGGGGAGATGAGCTAGCAGATTCGGGGACATCTCTTCTCAGGGTTTGGCTGCAAGGGTGTCTGGCCACTGTTTTTTGGTGAA
GCTGTTAGAAATGGATTGAAATGGACTGGGTGCAGTGGTGGCTCACACCTGTAATCCTAGCACTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGA
GTTCAAGACCAGCCTGGCCAACATGGAGAAACTCTGCCTCTACTAAAAATACAAAAATTAGCTGGGCGTGATGGTGCGCTCTTGTAATCCCAGTTACTCA
GGAGGCTGAGACATGAGAATCACTTGAACCTGGGTGGAGGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTGCAGCCTGGGCAACAGAGCAAGACTT
TGTCTCAAAATAATAATAACAAAAAAATAAATAAATAAACAGATCGAAACAAGGAACTGATAAACAAGTTGGTGAGATCGGAGGCCCAGCATGTTCTTGT
GAGGTTCACGAGAACCTGAAAAACCTCTGACCTTCAGCTCTGATTGATGTTACAGGCCGACAGGGTGCTGGACATGTGGGAGCAGCCCAGCCAGGAGGGA
CTCACATGTGTTCTGGATCTCAGAAATGCCAGTGATGAGTTTGCTTGCATGAGATTTTTGGTTCCAAGATCTCTGGGGATGAGAAAACTCAGTCCCTTCA
GATCCCTAAAGGGGTGTGGGATATAAGTGAAACCAGCCCACATCCCATCCTGATTTTGAGGGCCATCTGTAGCTCTGCTTCCCTGGGTCTCATTCCTGCA
TTCATGCCCTGGATTCTTAAGAACAACGAATGGGAGAAACACACAGAAATGAATGAGGAAAGTCACAGCATTGACAGAGTCCAGGCCTAGTGTCAAGAAA
TGCCTACACAAGGAAGTCAAACCCCAAAGTCTTTCCCCACCCTCAAGAAATCAGAATCAAAAGGAAGAAAACCCAAACAGCCCAAGGGACAATGGTAGGA
ACTGCAAAAGACCAGAAAACATCAGCTACGATAATGACCAACAATGAAACTCCTAAGATATTGTTCTGTATTACAAAAGAAGAAATTAGACTCAATTGCC
CTATTATAAATTTGCTAAAAATACATATATATATATATTTTATCTGAACAGAAAAATAGACTACTCTGAGATGCGTGGACATTCTATGACATAGTCGCGC
ATCAGATACTTCTAGAGCCAGAAAAATGGCAACAGAAAATGCAGAGGTAACTCTTATTTCTGGGTGTAGCCAGGACTGGTTTGGGTTGCCTGGGCTGAGT
GACATGAAAGCATTTGGATGCTGTCCTATAAGCAGTGATAGGTGAGGAAACATCAGCTCGGGGCTGGAAGCTTTCCATTGTCCTGCCGGGGTCTCAGGGG
AGCCCCTTCTCCCTCCTGCCCACTCTGCAGCTACAGAAAAAGTCCTTTCCCAAAGAAGCATGTCCGGAGGCTTTTTGCCTTGCTCTCTTTTGATTCAAAG
TTACTTGAATTGAGGCTGAAAAAAAGCCTGGGGTATTGTTACTTGAGATTAGTTGGTAGAGAAATAAGAATAGGAGAGAGATTAGCGATAGAGACCTGGC
TTTAGTGGCTCTTGTCCGTGGTGAATTTTAAATATCCCCTTGTCCATGGAACTAGACACTCCAGCTGGGACTGGAGCAAGACAGAAATATACAATAGTTA
CAAATATCAACAATACATTACAGTTTTACAGAAGAGAATACTGTTTTGTTTTTCTCCTTAGAAACATGGATCTTATTAGGAGAAAGGGCAGAGACGAGGC
TACAGTTACCAAGACACATGGAGAAGCTGGAAGTCAGTTTGAAAAAGTTTGTATCACCAGCAGTTTTCAGGGGCAAGCTGGGTGGGTTAAAAGAAATGGC
CTCCTCAGGATTTTGTTGTTTTTCCTTCTTACTCTTCTTCCTTCTTGATCCCCAGTCCTTTGGAGAAAGGGACTTCACGGGAACAAATGTTCTCTCCTCC
TTTTTTCTTTCCCCTTGAAGTGTGCTTAAGATAGAATTCCTAAAGAAGGCACTGAGAAATCTACTGCACCAAAGTCCTGTTGGTTTCTTTTACCCAAAGA
TAAAAAGGTGAATATACTGTCTCCTCCAAAGCTTCCCCACCTCTCTCACCGCCGGTGGCAGACTCTCCCCCRTGTGATTGGGACACATGGCTACCTGGTC
CCTAGCCCTTTCAGATAATTGTGGAAGTTGGAATGCAAGTTCAGCTGGGTTCTTGATGAGTTTCAGTGAATTTGCCAAACTGACCAGCATCCATTCGCCG
CGTCCAGCCCCTAGTTTGCTTGTTTGGGTTGACTTGTTTCTTTCTGCTCTCATTGGTTCAGGAATGAATGGGAAATGGACCACCAAGTTAAAGCAGGATT
TGCCTTCAGACCATTGCTTTCCTCTTCTCTTCTCTATCAAGACCTTTCTATCGAGTGAACTTCTCAGTGAAGACTCTTAAGTAGATTTCCCAGTGCATGT
ATATTCACGTACATAGGTACAGGTTGGGTGTATACATATTAAAATTTGGATATGTTCTTTTTTAGCGGGTGGATGGGCTGGGAAAACTTATAATACTCTC
TTTCGAATTGAGCACAGAATAAAAGCTATACTCCCCCAGTACATACACACACAAGTAAAAGAAAAAAAAACCCAATCAAACCCAAACAAAATACTTTCTA
AGCATAGTATATGCTGAATTTCAATTATTCTGTTTCTATAAGAACTCTATAGGACTCTGGCTATGAAGCCTGAAAAGGTAGGTTCTTAATGATACTTCTG
AATTCGTCCTTCAAAAGTGACTCAATAAAATGCTACTTTACGGTTGGACAAAATACACAAGGAAGGAAGGGCCAGGTCCTACATGACCACAGAAGGCAGA
AAGGGCCTTTGGTTACAAGGAGAGTTGCACCAATTGGTTTTCGTTTTTTTTAAAAAAAAAAAAAAACAAATCATTTTCAATCTGTACAGTTCTCATCTGC
TTCAACCAACAAATGAAATGCCTCGATTGGAAGAAGGGGTGGTAAGTTCCTTCTCAATATATATGGCTATATTGAAACATGTTCACTTTCCTGATATGTA
AAATAGACTATATTATTATTATTATTATTTTTTACAGATAGCATCAGCTCTAAAAATATCTGAATTGGAAATCACAACTATTTACTTTTATCAAAAAGCA
TTTGTTTTTTTCCCTGAATTTTCACATTTGTGCTGATGGTGGACATTAATGGTGATGAAAACAAAGAAGAGACATGTGAGATGGTCGGCGGAGAACTGTC
CCACAGTCATTCCTCAAGAGGCCCCCAGCTCAGACTGCGTGTTCAGCAAAGTGTTTTGGGAGTGCTGCTTCCTCTGCCTGGCACGGGATGACCTCACACT
CTCCCTGCCCCTAAGTCCCTTTGCAGTTGCTGCGCGAATACTCTGAAGATACCTAGGAAGAGTGACGTTCTCGTTTTCTCTGTTAATGCGGCAAAGAACA
GGACTGCACCCTCTTGGGGGGATCTACAGTCTCTGGAGATGCTGAGAAGTGTTATGAATTGGGTTTGTATACAGCAGAGAAGACATATTTTTAAGGGTGG
TGGAATGATCCCATCTCATCATATGTGTGGCAGGTGGCTCAACCTTATGCCTTATGTATGAAGAGCAGGCAGAACAGCTCCATGATATTTGTGTACTGAG
AGGTGGATCATGCCATTGTACTAACAGGCAGACCAGCAACAGATGATATTGAGACTTAAGACTAGGTGAACCAATACCATATCTTTCTTCCACTGGGAAG
ACATATGCCTGTTACTGTATTGAGGATAGACAGAACTACACTATTGTACTTGGGACATCATCCATCAACATTACATTAAGAGAACAACATTGTTCCATTG
TACTACAGACAGGCAGACCAATAACATGTCATCTTTACTGACAGGTGAGCCAACACTATAGCATTGTATTCATCAGTGGTTCAACCTAATGCCACTGTAC
TGAGGAATGGCCAACAACACCATGCTGTTGGACTAAAAGCAGGCAGGACAATGCCAGGTCATCAAACGAGGACAGGAAAACCAACACCAAGAAATACACC
AGAACCACTCAGGATGCACACAAATACTTATTGCTTTTGTCTGTACTGGCTGCATCGATGGCTGCAGGAAGGAGAGTTGAGCTTTTAGTACAGACAGTGA
CACTGAAAAACCAATAGCTGGTTGACAAGAAAGAGAACAGAGTAAAACACCCAATGTCCAACTGTCACTGTGTCCTTTTGAGATGTGCATGTCTCCTGTA
TACTTGACTTCATGAGAGGCCCCACCCAAGGGGCAAGAACCCCTCCTGACCCATGAGGGTTAAGGGAAGGTTTCAGAGGGGCAGGGAAGGAGCCCACAGA
CTTTGATATGGCAGACAGTAATACCAGCACAATATTACCCATGCTGGCCAGAAATGGGCAGGTAGCAACAATCCAACTACAGTCCCAACAATTGGGCTAT
GGGAAATAGTGCTTATTTTAAAGTGCAAGATGTTGACACTGTCCCTGGCAGAACCTATTTTTGAAAAACATAAAGTGCTTTTTATTTTAACTTTTTTTTT
TTTAACTTGAAAACCACAGAAAACAAAACAGAATTTCTATTATAGTAGGTACTTTCCTTGCTGCAGCAGGAATTATTCAGTCTGAACTGGGCATTTCAAY
GCGTGGTATTTTTTTCCTTTCATTTTTGCAAGTAAAAAAATCATATTTTTATGCTGTTCTTCAGTAACACACAGTCTCTTTGAATAAACTATTTCTTTTG
CATATTTGACACTTGCATATCTTKTGAGTCTACACTAGTGATGTAAAGAAAGCGTGTTCCTCCTCCAACCCTAAAACAATGCTCTGAGTTCATGCTGTTG
GCTGGGTGCCCACCTTCTGAACCCTTCCCAGATTGCCAGGGGGCAATTAGAATTGAGTACAAGTGGTGCAACTCACCCTGATGGTATCTCAAAAWAAAAT
CTCRGGTACTATGAAATACCGAAGTCAATGAAGACATTTGAGTAAGGGTTTTGCGCTGKGATCGTGGCTTATGGCGCAGAGACTTCCCCATGACCAATCA
TTCCCTGTAGCTGTCTAACAGTGGAATCCATCCAGGAGGTGATGGACAGGTGTTCCTAGGGGTGGCTGGGCAACATTCAATACCAAATTGGTCAACCCAC
TCTTTCAACACCAGCCGCTTGTTCCAGCATCCTTCTCTAGCTGAAGCCAGGAGGACTGTCAATGTTGCCCTCCGAGGCTGAGATGGAAAGCCACGAGAGA
ATGGGGAGTATGTGGCCTCGGTCCTGTCTAAAGTGGTGGTAGTGGTGGCTGTGAGTTCCACTCATGTCATCTCCCAAAGAGGGCTATAGAGTTGTTACAA
GGAGGTGCTGTGCCCTATGGCTTGGCCAACTTCATGCTGATGGACCTGTCATGGCTCTCAAGGTCTTAGGGAGCCTTCTCTGGAGTCTCTCTTCTCTCTG
AGGGCTTTACAGGGCCTTTCTGTTCCAGAGTTCATGCAGAAAAGCTCTGTGGCAGGTAAGCTGAACAGCTCTCCTCTTTGGACCTCACCCAAAAGTCTCT
CCTCCAAGGCAGGGCAGTTCAGATGYTCTGATCTCGTGTGCTTCCATGGGCTCCTCCCCCTGGCAACACACGGACGTCAGGGGAGATGTGGTTCTCAAGT
TTGCACTTTTCCTGACCACTGGRGCCTTTTCCAGTCAATGCTTCTGTGGAGTAAATACAGTTCTGCCTTAAGAACTTAGGGGAGGTGGGTAAAGGGGAGC
TTTCAAAGTGGTTTTTCTCCGATCTTGTCCCCGTGCTGAACTTCGGACTGGTGCTCCCAGGGAGGCTTTTGGGGGGGCTGGAGTCCACACTGTAGAGCAG
CTGTCCCTCATCATCTGTGTCTGCGTCAATGTACTGGTGGACACCCGCCTCAAAGTTGAACGCTATTGCTGTGTGTTTCTCAGGAGACCGGGGGGGTGTC
TTAGCACTTGCTGTGGTGTAGATGGAGGACTCTGGGCTCAGCACAGCCTTGTCCAAAAGCGTGGCACACTCCAGTCCAGCGACAGCAGCCGCAGCACTCC
CCCGGTTCCTGAGAGGGTCATGGTACATCCCTAGAACGGGGAGGAGTGGACTGGGGTCACCCTCCATGAAGTTGACTTTAAGTGCTCGGAGCTTCAAAGG
GTTGTTAGTTTTCATGGAACTCTTGGGGCTCTCGATGAAGAAACTAGAGTGCTGGCTGGCATCAGGGCTGGGGTTGGCCTCCACAAACCTACCACCACTG
GCACCCAGAGCTCCCCGCCAGCCCACTTCTGGGGCTGTGCTGCCCCCAVTCTTGCTGGGGAGTGATGTCAAAGGGCTGTGGGAGAATCTGGTGGCCTCAG
GGAAGTCTGTGGCACAGCTAATGAAACTATCAATGCTTGACATACTTCGCATGTCAATGACCCCTTCTGTGCGAGTGGGCAGAGGGGCTACGGGGCTGGG
GATACTCTCCATTTCAAGTTCTTCCTTTGGTTTGCTCTGTGCTGCTGACTCCTTGGTATTGAGGATGGGTTGGGATTGGGTCTTGGCCATCTTATTGTAC
ATGTCTTCCAACTGCTGAACGTTCAGGTGCTGAGGACTAGAAGACGATCTGGCTTTTTCAGGGGATCCCTGTTCCTTGGTTTCAAAGGACTTACTTGAGC
TGGTTTCAGACAGTGTCCTCTTTGTCCATTTCCATTTGTTAGGAGACAAGTGGTTATCTTGTACTTTGTCTTTCTTACCCATATTCTCCCCATTTTTCTC
AACCACAATGTCCATCATCTCAATGCTCCGGGCAAAAGCATCCTTCATGTTCATGGATACGATGCTGCCATTCCTCTTGGCTCTCTCCAGAGCCTCTCGC
CGTTTGATTGCTTTCTCCTGTCTCTTCTGCTCCTTATAGAACTCAGAGAAGTTATTGACGATGATGGGGATGGGAAGAGCAATCACCAGGACTCCTGCAA
TGCAGCAGAGTCCCCCAACAATTTTCCCCAGGAGAGTCTTGGGGTAGATGTCTCCATACCCAACAGTAGTCATGGTGATGGTGGCCCACCAGAAAGAGGC
TGGGATGCTTTTGAACTTGGTGTCGTCCTCATCCTTCTCAGCAAAGAAGACAAGGCTGGAGAAGATCATAATGCCCATGGCAAGGAAGAGGATGAGCAAG
CCCAACTCATTGTAGCTCCTCCGCAAAGTGAAGCCCAGAGACTGGAGGCCAGTGGAGTGGCGTGCAAGCTTAAGGATGCGGAGAATTCGCATGATGCGGA
AGATCTGGACCACGCGGCGGACATTCTGGAATTGCAGCACGCTCTTGTTGGATTCGGTGAGGAAAATGGTGACATAGTATGGCAGAATGGCCAACAAGTC
AATGGCATTGAGTGGGCCCTTGAAGAACTTCCACTTCTTGGGCGAGGAGAGGAACCTCAGCAGGTACTCCATGGTGAACCATGCGATGCACACGGCCTCC
ACGTGGGCCAGCTGGGGGTTGTCTGTGGACTGGCCGAACTCATCGAGGCTCTGTAGCTCAGGCAGCGTGTTGAGGGACAGGGCAATGGTGGAGAGGACGA
TGAACATGATGGAAATTATGGCAAGGATCTGTGAGGAGAAGAGAGTGGGATTTAGTTATCAACCACCCCACAGGATGATCATCATAATATCCTGGATCTA
CAGGGCACTCCTCAATGTTCAAGAGCATTTTCACATTTCACTAGTCATTTAATGAGCCAAAAAGAGAATTTGTTGTAATCCATTTATTGTCTAGATGTGG
AAACCAAGGCCCAGAGAAATGAAATGTTTTAAAGCTATCAGCAAGCCCAGGGTTCAAGCATACTTTTTCAGATAGTAACCATTTTATAGGCCCTGAAACC
CTGCATTGTCTGTCACAACGACTCGACTCTGCAGCTGTAGCATAAAACCAACCTTGGATAATACATACATGAATGGGCATAGCTGTGTTTCAATAAAACT
TTATTTACAAAAATAGGCAGTGGACTGAATTTGGCCTGTGAACCATGATTTGCTGACTTCTGATCTAGACCAGTGGCTCACACTGGATGGGGAACTACCT
TCACAGAGATGATACTAATGATAATAACTATCCTTGATTGAGTGTTCATTGTGTGCTAGGCACTTTCCATGAAATAGCTCATTTCATTCTTATAATAACC
CCGTTCAGTGCTATTAGCTCCATTGAACAGATGCGGACACTTGGGTTTCCACAGCTAGTAAGTGGAAGAGCCAGCATTTTAACCCAGGTCTGTGTGACCC
AAGAACATGAGCTCTTAAGGCTGTGTTAAAAATCAGATTTGGCTGGGTATGGTGCCTCATGTCTGTAATCCCAGCACTTTGGGAGACCTAGGCAGGAGGA
TCGTTTGAGGCCAGGAGTTCGAGTCTAGCCTGGGCAACATAGTGAGACTCTGTCTCTATAGAAGAACAAAGGGGAAAAAAATCAGATGAAAGCTAACCTT
TTGCTAGAAAAATGCCTAGACACTCAAGATTTTGCAGGTAATTCCTAGGGAGGCACAGACATTCTGGGCCCATGTTAACTCCTGATTGGAACTATGTGCT
TTTGGGGGCTAAAGACCTTGGCTTAACTACCTTTGAGTCCCCTGGATCAAGAAGAGAGCTTGGCCCAGAGAAAGGGCTCAATGGATATATGTTGAAATTA
ATGGAATCTAGGCCAGTAGGCCAGTCTACAGACTATGCAGAAAAGCAAACAGATGTAATCAATTGCTCTGAGGGTCTTTTTTTTTTTTTTCAAAAATACA
AATCCAATCACATTACTCCTTTGTTTAATAAATCTCCAGGGCTCCTCATGAAAAAATCCAAACCCCTAAACCTGTCTATTGGGTCCCCTATACCTGTCTT
GCTTTTGTAGATTTTCCCTTTCTCTTCCTCTGCCCCTGCTAAGTGGGAAGGGGGGGGCCTGGTCACCATGGTTGTATCATTTGATCCTGCCTGCCAATGA
TCAGAGCATGAAGTTTGGATAAAAAAATCCAAGTTAAGCCAATCCGTACACTGGGGCTTAGCCAGCCTACCTTTGAGAAATTTGAGTTCAGGAACCCAGG
CGGTGAGTGGGTTACGGGAGGGTAAGTCCCTGAATTAAATGTTAAGTAGAATCTAGGCTTGAATCAGCTTCATGATAAGCCCAACCCTCAAGCAACTGTC
TCCCAAATGTAGGGGACAGAGATGCCATAAAAACATCAGAGAAAGCTGAGCCTTAGCCTAGACATGGTGGCTTACATTTGTAATCCCAACACTTTGGGAG
GCTAAGGTGGGGGGATTGCTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACACAGTGAGACCCCGTCTCTACAAAAAATAAAAAAATCTGCTGGGTGT
ATTGGCACATGTCTATAGTCCCAGCTACTTGGAAGGCTGAGGCGGGAGAATCTCTTGAGCCCAAGGAGGTTGAGGCTGTGGTGAGCCATGACCACACCAC
TGCACTCCAGCCTGGGTGACAGAGAGAGAAACCCTGTCTTGAAAGAAAACAAAAGAAAAGAAAAAGGAAAAAAAAAAAAGAAACGAAATTAGCCGGGCAT
AGTGGCGGCACCTGTATTCCCAGCTACTTGGCAGGTGAGGCAGGAGAATGGCTTGAACCCGGCAGGCAGAGGTTGCAGTGAGCCGAGATTGCACGACTGC
GCTCCAGCCTGGGCGACAGAGTGAGATTCCATCTCAAAAAACAAACAAACAAACAAACAAACAAACGAAAGAAAAAGACAAAGAAAGCTGAACCTTCAAG
AGAAGCCAGAGAATGAAGGGAAGGTGCAGATGAAGGAGGAGTGGGGACCGCAGGAGGGTCATAGCAGGGTGCCGAGGGCAGCAGTTAAGAGCTGAGGCTC
TGGTGTCAGCCTGTTTGAGGTTCAAGCCTCAGCTCTGCCATTTCCTTACATTGAGCATGTTATTTAACCTCTCTAAGCCCCAGTTTCCTCATCTAGAAAA
TGGGCTGATAATAACAGTATCTACCTCAGAGAACTGCTGTGAAGATGAAATGTGTTAGCACAGGCAAAGTGCTAGGACAGCTTCCAGCAGCACACGGTGA
GTGTCTAATAGATGCCAGCTGTCATCACAGGGGAAATCTCAGCCCACATCACCCCACCCACTCAGATCACCAGCCTCGGGGTGGCCCGGTCTCGGTCTTT
GCCTCCTGTCCTTGTTCTGAGACTGTCTGCTGTATCCTGTAAGTCAACCCAATTGCTACATGGGTGAGTGTGGGAGGTTTCTGGCCCTGCAATGAATCCC
CAGTAAGGACACTTGGTTGTCAAGTCCTTCTCATTTTGACTCTGACCTCTCTCTCTGGCCACTCCTGCCATCGGTTCTCAAAATTCACACTCCTCTAGCC
GCACACTATCATTGGTCAATTCTGCATGTCCGAGCTTCTTGCTTGCTGTCTGGTGAACTCCAATCCATCTTTTCAAATCCAGCCCATGTGACCCCTTCCC
TTTGGAGTTCTCCCTGCTTTCCCCAGGCAGGGTTGACTGCTCCATCCTTGGGTTTCCTCACCATTTTACCATACCTTGGGGATACTTACCACTCATATCC
CATCACAGGTGCGTGCGTGTGTGTGTGTGCATGCGTGTGTGTGTGTGCACGTGAGTGAGTGTGCTTATTGCTGCCCAGAATTGGTGAGTACTGGGAGGAT
GGGGATGGGTTCTGAGGTTTATCTATGTGCCCCCAGCACCTAACCCAGGGTGGGACACCTGACAGGTGCTCACCAAGTATTTGTTGGCCGTTGCTCAAGT
TCATGGAGTTAGAAGTAGAAGGGTCAGTACCAGAATTCAGGTTTTTTTTTTTTTTTTTTTAGAGACAGTATCTTTCTCTGTTGCCCAAGCTAGAGTGCAA
GGGTGTGATCATAGCTTACTGCAGCCTCAAACTCCCATGCTCAAGCAATTCTCCCACCTCAGCCTCCCAAGTAGCTAGGAATACAGGAGAGCACAACCAA
GCCCAACTAATTTTTAACCTTTTTTGTAACGATGGGATCTCACTTTGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGCTGTCCTCCTGCCTTGGCC
TCCCAAAGCACTGGGATTACAGGTGTGAGCCACTGCACTGGCCTGGGAAATATTTCTTGGTCATCTACTCTGCGTGAGGCACTAGGCCAGACATTGGGGA
TGCCACAGGGGGCAAGAGAGTGCCAGTGCCCTGATGGGCCAGCTCTGAAGATGAAAGGGAATGTTCCAAGGTGTGGTGCCTCCCCAGCCTCAGGGGTTCC
ATAACTTCTGATTTTTTTGCTATAGTTAAGTCTGACACATCCTATGTTTAAAAAAAAATAGGTTTGAGTTTCTTGATTTGCACCCATTGAAAAAGGAAGA
TTCTGTAATACTTTATAAATGAAATGTTTGAGGCAGGGTGCAGTAGCTCAAACCTGTAATCCCAGCACTTTGGGAGGCTGAGACAGGTGGATCACCTGAG
GTCAGGAGTGCAAGACCAGCCTGGCCAATGTGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCAGGTGTGGTGGCAGGCGCCTGTAATCCC
AACTACTCGGGAGGCTGAGGCTGGAAAATTGCTTGAACCCGGGAGGTGGGGGTGGCAGTGAGCTGAGATCATGCCATTGCACTCCAGCCTAGGCAACAAG
AGTGAAACTCTGTCTGAAAAATAAAATAAAGAAAATAAAATGTTTGATATATACAAAAATAGACCTAATTTATATATAATTTATGAACCATAATCAAATG
AACACCTAGAACCCGCCACCCAAATGGAGAGACAGAGCAGGCAGCAGTAACACTGACACTTCCTTTGTGTCTTTCCCACTCCAGAGATAACCTCTGTGTG
CAGTTTTTCGTCCCTTTGTTTCTCTGTATGATTTTCAATAAGAATATATGGGTCCCTAAATTGTCATTTTGTTGCGTTTTTTTTTTTTTTTTTTTTTTTT
TTTTTTAAGAGGTAGAGTCTCACTCTGTGGCCCAGGCTGGAGTGCAGTGGTGCAATCACAGCTCGAATACCTAGGTTCAAACGATCCTCCTGCTTTAGCC
TCCGAGGTAACTTGGACTACAGGTGCATGCTACCATGCCTGGCTATATTTTGTAGAGATGGGGTCTCACTATGTTGCCCAGGCTGGTCTTGAACTCCTGG
CCTCAAGCAATCCTCCCACCAGGGCCCCCAAAGTGCTAGGATTACAAGCGTGAGCCACCGCACCTGGACTTTGCTCAGTTTTGACGTTATACTGTATGTA
TTTTGCTACTTGTATCACTCTTTCCTTAATGGTAAAAACAAAAAATCAAAAAAGCCCACTCACCTTCTTTATTTTATTTTAGCTTTATTCTAAGAAATCA
TATGCAAAATTGCTGATTTTTCATGCCAGGGCTATATGTATTAAATATTCACCAAAATAAATATGTAATTGTTGGAATAACATCTTGGCAGCACACTTTT
TGGTGCTCCTGTGTTGAGCTGAGGAGTGTGGGTCCTGGAGTTGAAATTCTAGCTCTTGCCATTCATTGGTGGAATGGCCTTGGGCATCCAAATGTTCACT
GCCTCAGTTTCCTTATTTGTAAAATGAGGACATACTAGTGGTTTTTAAGGGGATGATTTTTACTCCTGGGGGACACTTGGCAATTTTGGCAGAAATTTTT
GGTCGTTACAACTGGTGGGAGGGGTGCTCCTGACATCTTGGGGGTGGAGGTCTGGGATGTCACTAAATGCCCTACAATGCACAGGACAGCTCCCACGGCA
AAGAATGATCTAGCCTGAAATGCCATCAGTACTGAGATTGAGAAACTCTGGGACATGCCAATAGTCAGCCCCTCACAATTGTGGAGTTGGGGACACAGAG
TGGGTCAGAGTGGGCAGCCAGTGGGCTTTGGGCTGAGCCCTACAGGAAGCTGCTCTCGTCTGGTGACTTCTGGCAGGAGGGCGCCTGCACAGGGAGGAAT
GGGTTCCCTGGGAGTCTGTTCCTTTAAGAGCTGGGCAGTCTTATTTTCCCCCAAAGGCTAGCAGGGGAAGCCTGCTTTGGTTTCTAACCCCCAGACAACT
CCAGGGAAGGCCCACATAATTGATGTTCTGGCGACAGATGCATGAATTATGCACCCAGCTATTGTACAGACCTAAAGCAGGCACCCCTTTTGTACTTGAG
ACTGTGCCCTCCCTCTCCCCTTCCCTCAGCCCAAGGAAGCCTAGGAAACGAGCAAAGCAGGGGGAGGGGCTCCACTGGACTCCAAGGTGGAGGGTGTGGG
GGAGT


SNP Information

Context             (SEQ ID NO:33566):
GCGTGGTGGCACATGCCTGTAAATCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCACTTGAGTCAGGGAGGTGGAGTTTGTTGCGGTGAACCGAGATTG
Y
GCCATTGCACTCCAGCCCGGGCAACACCAGCAAAACTCCGTCTCAAACAAACAAACAAACAAACAAAGAAAAGAAAAAACACAGTGGAGAGCTTAAGAGT
Celera SNP ID:            hCV26715139
SNP Position Genomic:     22523
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33567):
ATTTAAATATTATTCTGAGTCTGAGAAGGGGGTCTGTGGGTTTCACTGGATTTGTGAGAGGGTCCATGGCACACAGAGTTTGAGAGCTGCTGCCCCAGTG
R
GTCCTGATACACAGTTCATGAAACGCTACCCCATGCTGAAAGCTCTTGGGGGGCAGAGCTCCGGAGTCTTGAACCTCGAGCCCAGCATGGAAATCACATC
Celera SNP ID:            hCV11194555
SNP Position Genomic:     46126
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33568):
TTTTCTTTTTCTTTTTTTTTTTCTGGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGCTCAGTGGTGTGATCTCAGCTCACTGCAACATCCGCCACCC
R
GGTTCAAGCCATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACACACCACCACGCCAGGCTAATTTTTGTATTTTTAGTAGAGACGGGGT
Celera SNP ID:            hCV25988760
SNP Position Genomic:     19851
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,26)   caucasian(G,10)   total(A,4|G,36)
SNP Type:                 INTRON


Context             (SEQ ID NO:33569):
GTACAGAAAAGCACAGAAACATCTGCCCTGCCTTAGTTCCCTACAGGGTCTCATCAGAGGTGGTTTCATTAGCCCCAACCCTTTGCAGCCTGGCACCTTC
A
GACATGCCACCAGCTGGCTCTCCTAATATTTGCTGTGGGGCCATGTGATCATCAGGAGGGATAGGTCCTCAAACAGGCGATGAGCTCAGGACATGGGCAT
Celera SNP ID:            hCV11194558
SNP Position Genomic:     44408
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33570):
AAGTCCTGTTGGTTTCTTTTACCCAAAGATAAAAAGGTGAATATACTGTCTCCTCCAAAGCTTCCCCACCTCTCTCACCGCCGGTGGCAGACTCTCCCCC
R
TGTGATTGGGACACATGGCTACCTGGTCCCTAGCCCTTTCAGATAATTGTGGAAGTTGGAATGCAAGTTCAGCTGGGTTCTTGATGAGTTTCAGTGAATT
Celera SNP ID:            hCV27494005
SNP Position Genomic:     57172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33571):
AGAACTCCTTCCAGATTAAATTTGGGGAAGGACTGCCTGGGGGTGCTTTTGTACTGGTTGGTTTTCTGTGTAGAGAGTTCATGCAGCCGCGGGTCTGTAC
W
GATTGGAGCTGAAGTCCCAGGTTAGCACCACCAACAGGGGCTCCCCTGCCACAGCGCAGGAGTGGGGGCCCAGGATGGGTCCAGGCAAAGGCATCAGTGA
Celera SNP ID:            hCV2249150
SNP Position Genomic:     8559
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   SC_96_C(T,9|A,47)   total(A,47|T,9)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33572):
TTACCTCTCTCTAAGTGTGAACCAGATTTGGTGACTCACTGCTAACAAATAGAATTTGGTGCGAGTGATGGTTTCTGATTTCTGAGACTAGGCCACAAGA
Y
GCATTGTGCCTTTCTCCTTACCCCTCTCTCTTGGACCACTGCCCCTGGGGGATGCCAGCTTCCATGCTGTGAGGATATTCAAGAGCCCTATGGAGAAGTC
Celera SNP ID:            hCV16230164
SNP Position Genomic:     50027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33573):
AGGTACCAAGCTCGGTGTCCCTATGGTGCCATAGCCTGGGATGTGGTCCGCCCTAACTCTGTTTTCTCCTTGACCCACAGTCCCTGCTTTGATAACCACA
S
GCAGCTACGGGAAAGAGTGGGAAAAGTGAGATAGTCCCAAGAAACAGGCAACAGCAGGGTAAGTGAAAATCAATCAACCTAAAGTCAAACTAAAATTTGT
Celera SNP ID:            hCV25988879
SNP Position Genomic:     19620
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,17)   caucasian(C,3|G,21)   total(C,6|G,38)
SNP Type:                 MISSENSE MUTATION;ACCEPTOR SPLICE SITE


Context             (SEQ ID NO:33574):
AGGAAGAAGTATATTTTGCAGCATGACCTGTAACACACACACATGCACACACAATTGACATGAAAGTTTCATGAATCTGTACTTACCTTTTATGAGCAAT
S
CATGCTGACTTTGATTCGATTCTAGTTTATTCTACTCCAGTCTATTTTATTCTTTCATTACAAAATTGCTAGTCATGACCCATGAAATATGTCAAAACCC
Celera SNP ID:            hCV16230165
SNP Position Genomic:     44861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33575):
CTTTGCTTTGAGAAACACTGCTATCTGGTGTTGCCTTTTTGCAATGTCAGCCTGTGGTTATATTTCCTTTGTTGTTGCTAAGGCAAGATTTGCTCACTCA
K
TGTTCAGTGGCACATCACTTCCTGAGTTGCTGTGTGCCAGGCCCTGTGCTTGGTGATGGGATACAGCAGGGAACATGACAAATGAGGACCCTATTGTTGT
Celera SNP ID:            hCV2249156
SNP Position Genomic:     11602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33576):
GATCCTGGGCCTATGCGAGGGGTGATGATGGTTCCCTCTTGTGTGCGTGCTGCCAGTGAGACGGGTAGAACACGTGCAGGGTGGTGCCTGCCTAATTTTC
Y
GCAAAATCTCTCACCTGCCTGGCAGGCAGGGCAGGAGATCGTGGTGGACTTTGGGGATACCCCTTGGTCCAGCTGTCCAGCCAGTGCCTGAATCTGGTCT
Celera SNP ID:            hCV2249157
SNP Position Genomic:     11867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33577):
AAGAAAAAAAAAAAAAGGAGATTTTCTTTGCAGATCCTTTTATATCTTTCCCATTGGGCACCACGTGAAATTATTACCGAGTTTAAAAAAAACTTTTTTT
W
AAAAAATGTAGAAGTTAATGTATTATTTCTGCATATCGGTCTGTGGACTAAGCTTTATACGATGCATTCATTCTCTTTATTTACCTCAAATGTGGGAAGT
Celera SNP ID:            hCV7596155
SNP Position Genomic:     41827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33578):
TGTTCAGATGTCCTTGTCTTGGAGGACTTCCTTGACTCCTGCCTAAAATAGTTTCTTGTTACACCACCCTTGGCACTCTTTCTTTTTTTCCCTGCCTCTC
Y
CTCAACCCTGGCCACTCTTGACCTGCTGTTTTTTCTCAAAGCACAGATCACTAGTTGAAATTACATGGTTGCATGTTATTGTTTATTGTCTGTTTCCCCC
Celera SNP ID:            hCV2249158
SNP Position Genomic:     12550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33579):
AAGAAGGGCTGAGCTTACATTATCTCCAGCTCAGCAGGTCCTTGGAAATTAGGTTGTTTTAAGGAAATAAAGAAATGTGATATTTCAACAAGACACTAGG
R
ACAGCGGTTGCCTCTGCAGAGGGAAACTGGGTGGCCAAAGGATGGGGTAAGAGGGAAATTTTCGGGCCAGGCGCTGTGGCTCACACCTGTAATCCCAGCA
Celera SNP ID:            hCV16159414
SNP Position Genomic:     41375
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33580):
AATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTTTGTTTGTTTTTTTTTCTGTTTTTTTTTTTTTTTT
T
TGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCTCCCTGCAGCCTTGATCTTCTGAGCTCAGGTGATCC
Celera SNP ID:            hCV26715140
SNP Position Genomic:     19016
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33581):
TTATTTTCTTCTTTTAAAATTATTTAATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTTTGTTTGTTT
K
TTTTTCTGTTTTTTTTTTTTTTTTTTGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCTCCCTGCAGCC
Celera SNP ID:            hCV524950
SNP Position Genomic:     18991
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33582):
TAATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTTTGTTTGTTTTTTTTTCTGTTTTTTTTTTTTTTT
T
TTGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCTCCCTGCAGCCTTGATCTTCTGAGCTCAGGTGATC
Celera SNP ID:            hCV26715141
SNP Position Genomic:     19015
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33583):
TTATTTAATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTTTGTTTGTTTTTTTTTCTGTTTTTTTTTT
K
TTTTTTTGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCTCCCTGCAGCCTTGATCTTCTGAGCTCAGG
Celera SNP ID:            hCV26715142
SNP Position Genomic:     19010
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33584):
GTGAGCTAAAATAGAACATGAGGCTGAGAAATGCAGGGTAGGGGAAGAGGAAGGAGGGCAGAGCTGCTCTGTGGGCCCCCAGGAAGTGTGGCTCTGAGAG
R
GCTGTGGCCCTTATCAGCTTGGGGCCTACAAGCATCAAATTGAGATGTCATCTTGAGTCAAAGAAAGATGACCTTGATGGGGCAGTTATGGGTTTCAGTG
Celera SNP ID:            hCV717068
SNP Position Genomic:     52307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 PUTATIVE UTR 5;INTRON


Context             (SEQ ID NO:33585):
CCGGGTCCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCCACCATGCCTGGCTAATTTTTTGTATTTTTTGTTGAGACG
R
GGTTTCACCATGTTGGCCAGGCTGATCCCGAGCTCCTGACCTCAGGTGGTCCACCTGCCTCGGCCTCCCCAAGTGCTGTCAGAATGTAGTAAGGTGATAT
Celera SNP ID:            hCV26715143
SNP Position Genomic:     17685
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33586):
GGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACAAACAAACAAACA
A
GACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTGGCTCATTTTCAC
Celera SNP ID:            hCV26715144
SNP Position Genomic:     15601
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33587):
GCTTGGTTTAGCGTTCTGCTGTCGCTGGCTTGACATTCTTAATTTTTGAACAAGGGGCCCTGCATTTTCATTTTGTACTGGACCCCACAAATTATGCAGC
Y
GGTCTCATCTGGAGGTCTAGAATGATGCTATGTCTTATTTGACCGTCTGATATTTAAAATAACAATAGAGTCAACGTTTTAAAATCAGGAGAGTTCACAC
Celera SNP ID:            hCV11194560
SNP Position Genomic:     34343
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33588):
GTGCCTGGCACGTGGTGAGTGCTTTATAAAGTGTTGCTATTTTATAAAGCTATGTCTGATGCATAGTAGGTGCCAACACATGTTCATTTTCCTTCCTTTT
Y
CCCTTCCCTTTATTTATTTATTTATTTAGAGACAGGGTCTTGCTCTGTTGCCTAGGCTGGAGCACAGTGGTGCAATCTCAGCTCACTGCGGCCTTCACCT
Celera SNP ID:            hCV11194561
SNP Position Genomic:     33813
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33589):
AGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACAAACAAACAAAC
A
AGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTGGCTCATTTTCA
Celera SNP ID:            hCV26715145
SNP Position Genomic:     15600
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33590):
GAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACAAACAAACAAA
C
AAGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTGGCTCATTTTC
Celera SNP ID:            hCV26715146
SNP Position Genomic:     15599
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33591):
GGAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACAAACAAACAA
A
CAAGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTGGCTCATTTT
Celera SNP ID:            hCV26715147
SNP Position Genomic:     15598
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33592):
CAACTTTGCATCAGTGAAACCACGCAGGATGTGCTCTTTGGAATTCGACTGCCTTTGTTCCACATGAGGTTTCCAACGTTCATCCACGTGGTTGCACTTG
Y
AGCATTAGCTGGTTCATTCTTGTTGCTGAAATAGTTAGCTATTACTATTATTATTTTGAGACAGAGTCTGGCTCTGTCGCCCAGGTTGGAGTGCAGTGGC
Celera SNP ID:            hCV11194563
SNP Position Genomic:     27001
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33593):
CAGAGTTCATGCAGAAAAGCTCTGTGGCAGGTAAGCTGAACAGCTCTCCTCTTTGGACCTCACCCAAAAGTCTCTCCTCCAAGGCAGGGCAGTTCAGATG
Y
TCTGATCTCGTGTGCTTCCATGGGCTCCTCCCCCTGGCAACACACGGACGTCAGGGGAGATGTGGTTCTCAAGTTTGCACTTTTCCTGACCACTGGGGCC
Celera SNP ID:            hCV25973347
SNP Position Genomic:     60626
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,37|T,1)   total(C,69|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33594):
TGAACCTGGGAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACAA
A
CAAACAAACAAGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTGG
Celera SNP ID:            hCV26715148
SNP Position Genomic:     15590
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33595):
TTGAACCTGGGAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAACA
A
ACAAACAAACAAGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGTG
Celera SNP ID:            hCV26715149
SNP Position Genomic:     15589
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33596):
CCAAAGTGCTGGGATTATGGGTGTGAGCCACCGTGCCCAGCCATTATTTTTAAAAGCCTGATCAAGGAGGGTAACAGAAAGGAGGTGATATTTGGACGGA
Y
ACCCAAAGGAAATGAGGGAGGAGCCATGTGGATCTCTGGAGGAATAGCTTTCCAGGCAGAGGGACGGCGAGTGCAAAGGCCCTGAGGTAGAGCGTGCCTG
Celera SNP ID:            hCV11194565
SNP Position Genomic:     24548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33597):
GAAGTGCAGTGGTGTAATCCCAGCTCACTGCAGCCTCAACCTCCTGGGCTCAGGTGATCCTCTCACCTCAGCCTCCCGAGTAGCTGGGACTACAGGATGC
R
CCACCATGCTTGGCTAACTTTTGTATTTTTTGTAGAGACGGGGTTTCACCATGTTACCTAGGCTGGTCTTGAACACCTTGGCTCAAGCGATCTGCCCGCC
Celera SNP ID:            hCV11194566
SNP Position Genomic:     24339
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33598):
TTGAGCATGTGCTAGGTACTGTTCTGGGCACTAGGGATTCTGCAGTGAAGAAAACAGCTGAGGTCCCTTCCCTTATGCAGACAGTAAGGTCCCTTCCCTT
M
TGCTGGGAGGAGGCAGACATCGGGCAAATAAATCTATAATTTGTCAGATGGGAGATGAATGTTAGGAGAGAAAGCAGAGTAAGGATGATGTCCTGGGGGT
Celera SNP ID:            hCV11194567
SNP Position Genomic:     24091
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33599):
ACAAGTGGTGCAACTCACCCTGATGGTATCTCAAAATAAAATCTCAGGTACTATGAAATACCGAAGTCAATGAAGACATTTGAGTAAGGGTTTTGCGCTG
K
GATCGTGGCTTATGGCGCAGAGACTTCCCCATGACCAATCATTCCCTGTAGCTGTCTAACAGTGGAATCCATCCAGGAGGTGATGGACAGGTGTTCCTAG
Celera SNP ID:            hCV11660774
SNP Position Genomic:     60059
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33600):
CTGTTGGCTGGGTGCCCACCTTCTGAACCCTTCCCAGATTGCCAGGGGGCAATTAGAATTGAGTACAAGTGGTGCAACTCACCCTGATGGTATCTCAAAA
W
AAAATCTCAGGTACTATGAAATACCGAAGTCAATGAAGACATTTGAGTAAGGGTTTTGCGCTGGGATCGTGGCTTATGGCGCAGAGACTTCCCCATGACC
Celera SNP ID:            hCV11660775
SNP Position Genomic:     59995
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33601):
TTTTAACTTGAAAACCACAGAAAACAAAACAGAATTTCTATTATAGTAGGTACTTTCCTTGCTGCAGCAGGAATTATTCAGTCTGAACTGGGCATTTCAA
Y
GCGTGGTATTTTTTTCCTTTCATTTTTGCAAGTAAAAAAATCATATTTTTATGCTGTTCTTCAGTAACACACAGTCTCTTTGAATAAACTATTTCTTTTG
Celera SNP ID:            hCV11660776
SNP Position Genomic:     59700
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33602):
ATGCTCTGATCTCGTGTGCTTCCATGGGCTCCTCCCCCTGGCAACACACGGACGTCAGGGGAGATGTGGTTCTCAAGTTTGCACTTTTCCTGACCACTGG
R
GCCTTTTCCAGTCAATGCTTCTGTGGAGTAAATACAGTTCTGCCTTAAGAACTTAGGGGAGGTGGGTAAAGGGGAGCTTTCAAAGTGGTTTTTCTCCGAT
Celera SNP ID:            hCV25972768
SNP Position Genomic:     60723
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,2|G,38)   total(A,2|G,72)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33603):
GTGAAGGATGGATTGTGGGGACTGGCGACAGATCAGCGTGTTGTGGGATCGCGGAGCTGAGGTCAAATTTCCAGGACAGTGCCTGGCTCATGATAGGTAC
Y
CAGTAAATATCAGTTGAAAGAATAAGGTCTGAACTAAGTCAGTGGCAATGGAGATGGACAGGAGAACTAAAAGGGTTAGGATTCTTTTGATTGCAAGTGA
Celera SNP ID:            hCV2249162
SNP Position Genomic:     20952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33604):
TTTTGCAAGTAAAAAAATCATATTTTTATGCTGTTCTTCAGTAACACACAGTCTCTTTGAATAAACTATTTCTTTTGCATATTTGACACTTGCATATCTT
K
TGAGTCTACACTAGTGATGTAAAGAAAGCGTGTTCCTCCTCCAACCCTAAAACAATGCTCTGAGTTCATGCTGTTGGCTGGGTGCCCACCTTCTGAACCC
Celera SNP ID:            hCV16269915
SNP Position Genomic:     59824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33605):
TTGGAAATTAGGTTGTTTTAAGGAAATAAAGAAATGTGATATTTCAACAAGACACTAGGAACAGCGGTTGCCTCTGCAGAGGGAAACTGGGTGGCCAAAG
R
ATGGGGTAAGAGGGAAATTTTCGGGCCAGGCGCTGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGAGTGGATCCCTTGAACTGAGTCC
Celera SNP ID:            hCV7596166
SNP Position Genomic:     41416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33606):
CTTGAACCTGGGAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAGACACCGTCTCAAACAAACAAACAAAC
A
AACAAACAAACAAGACTGTATATAAAAAGCATCACATTAGACATGTGAATCCTTTTGCAAGTAATTTATTTCCCCTTCAGGTTACTGACAGTGTAGCTGT
Celera SNP ID:            hCV26715150
SNP Position Genomic:     15588
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33607):
AGGAGTTTGAGATCAGTCTGGCTAGCATGGAGAAACGCTTTCTCTGCTAAAAATACAAAAAATTAGCCAGGCATGGTGGTGGGTGCCTGTAATCCCAGCT
Y
CTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTAGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGCTAG
Celera SNP ID:            hCV26715151
SNP Position Genomic:     15461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33608):
TAGTCCCAGCTACTCCGGAGGCTGAGGCAGGAGGATCGTTTGAACCTGGGAGGCGGAGGTTGCAGGGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGG
Y
GACAGAGAGAGACTCCATCTTAAAAAAAAAAAAAAAAAAAAAAAGGTGTTCCTTCATGAGCCTGGGCCTGTAAGGGTGGGGTGAAGCGATTCTAAGGGGT
Celera SNP ID:            hCV26715152
SNP Position Genomic:     11249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33609):
CCAGAAGGCAGAGCCGTTTCTTGCGTACCATAAAATGGGACATTTACCTTGGGTACTCCCTTTGGAGTGTGTTGCTGGAACTTGTGCAGGGACTTAGGGA
R
TCTTCTGGGGAAGAGGCCAGCAATGTGTTGGGGATGGAGACGAGGAGCACTCAGTGTTATGTTTTGGAGCCTTGTCCTACACCTGAGGACCTCCAAGTCT
Celera SNP ID:            hCV524963
SNP Position Genomic:     31775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33610):
TAGACAATAAGGAGGGCAGATGGTAAGGAGGCTGGGCAGTGTGGTTCAGAGGAGAAAGCGGGGTTTGGATAATGCAGAAAGACATTCCTTGGCTGGGCCC
Y
GTGGCTCATGCCAGCATTTTGAGAGGCTGAGGTGGGTGGATCACAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATAGTGAAACCCTGTCTCTACTAA
Celera SNP ID:            hCV26715153
SNP Position Genomic:     11010
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33611):
AACCCGCTTCCCTCCCGAGGCAGGGAGAGACGGTCCGCTCTCTCGAAGACAATGTACAATTTTGAAAAAAAAAATAAAAAAGTCTTGGTAAATAGATTGA
S
GAGGCTCCAGCCTCCTGGGCTTTTGGGAGGCCCAAGGCATTTTTCCCCTCTGCCCAAACCAGGTATCTTTTGCCCATTGCTCACAAGTCAACGTGACCCG
Celera SNP ID:            hCV524964
SNP Position Genomic:     33006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33612):
TCAACCTAAAGTCAAACTAAAATTTGTGAACATGTTTCCTTGAACTAAGTTTCTTTTTTTTCTTTTTCTTTTTTTTTTTCTGGAGATGGAGTCTTGCTCT
R
TTGCCCAGGCTGGAGCTCAGTGGTGTGATCTCAGCTCACTGCAACATCCGCCACCCGGGTTCAAGCCATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGGA
Celera SNP ID:            hCV11194570
SNP Position Genomic:     19794
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,19)   caucasian(G,10)   total(A,11|G,29)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33613):
GGAGGCTCCAGCCTCCTGGGCTTTTGGGAGGCCCAAGGCATTTTTCCCCTCTGCCCAAACCAGGTATCTTTTGCCCATTGCTCACAAGTCAACGTGACCC
R
TGCTATTACCATTCCCCAAACTTTTCACGTCAAACCCTGGCCGGGAAGGTGGTCAATGTAGCCAGTCCATCAAGCGATTTGTCCCATATGGATTCTCAAT
Celera SNP ID:            hCV524965
SNP Position Genomic:     33106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33614):
ATTATCTACCCAGTTCAAAGATCCTACAGTCTCTTTAGGGCTGTCTTGTAAGTGACTTGGATACCAGAGGTACCAAGCTCGGTGTCCCTATGGTGCCATA
R
CCTGGGATGTGGTCCGCCCTAACTCTGTTTTCTCCTTGACCCACAGTCCCTGCTTTGATAACCACAGGCAGCTACGGGAAAGAGTGGGAAAAGTGAGATA
Celera SNP ID:            hCV11194571
SNP Position Genomic:     19553
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33615):
CTGAGACTACAGGTGCACGCCATCACATCTGGCTAATTTTTGCAGGATGAGGTTTCACCATGTTGCCTAGGCTGGTCTCAAATTTTTGGGCTCTAGCAAT
Y
CTCCTCCCTCGGCCTCCCAAAATGGTGGGATTACAGGCATGAGACATTGCTCCTGGCTGACTAACTCTTTTATCTACTCTATTAAAAAAATCATTCACTT
Celera SNP ID:            hCV11194572
SNP Position Genomic:     19240
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33616):
TCACCCTGAGGTTGAAGTCTCACTTTCTCCCAATCCACCATACATAAACCCTCTCTTGTCAAATGCTTTCCTTAGAGAATGCAGTATGCAGGATGATTTG
R
GATGGAGGCCACAGCTGCAGGAGAGTGGCATTCTGCTTGGAGGCAGCCAAGAGCCTGGTTTTGCTGTGAAACTGGATTAAAAGCTGCCTTTCTCTTTTGA
Celera SNP ID:            hCV524967
SNP Position Genomic:     53227
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIG-allele(A,245|G,1250)   total(G,1250|A,245)   no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 NONSENSE MUTATION;INTRON


Context             (SEQ ID NO:33617):
TCACAATGCTGAATTTGACATTTAAAATTCCCATGCATATATGGGGGTATGTGTGTGTTTATGTACATAAACATACACTGTACATTCTTTTTTTTTTTTT
T
GAAACAGAATCTCGATCCGTCGCCCAGGCTGGAATGCAGTGGCACAGTCTTGGCTCACTGCAACCTCTACCTCCCAGGCTCAAGTGATCCTTCTGCCTCA
Celera SNP ID:            hCV11194575
SNP Position Genomic:     14377
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33618):
AGAAGGGTATAATAGAAAACAAGGGCTCTATTCACAGAGGTGGGGGCAGCAGTACAGGACAGGAGGAAATGGTGTTATTGGAGCCTGTGAGAGTAGGATC
Y
GCAGCCAAGGGCCCCCTTCCCCAAAATGGGGGACAATAAACACCTTGGGTGCACTCTCCTCCTGCCCTCTGCTCCTCTCATCCCCGCTGGTGTTCCCCAC
Celera SNP ID:            hCV11194576
SNP Position Genomic:     13092
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33619):
GAATGAAGAAGTGTCGGTCCCAGCGGGGACATCATTAGAAATACCACCTGTGGTAGACATGTGAAGCACCTCAAGGATGGGGGAACCCAGCACGTTCCTT
W
TGTGATGATGAAATATTTCCGACATACACCACCAATGTAGAGAGATAATACAACAAACCCTCGGGAAAAGCTAAGAAACAAACCTTGACAATTGCCACTG
Celera SNP ID:            hCV7596201
SNP Position Genomic:     14122
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,9)      total(A,1|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33620):
CTTTTCCTGATCGCCTAAGAAAAGTAGCCCTGTTTTCTTTCCCCTGTCATACACATTCGCCTATATTATTTTCTTCCCAGAACTGGTTTGTTGTGTATCT
Y
CCAGAGGACCAGGTCTGCCTTGGTCACTGTGATATCCCTAGCACTTAGGCCATTGCCTGGCACATGGTAGATGTTTGATAATTATTTATTGAATGAATGA
Celera SNP ID:            hCV11660782
SNP Position Genomic:     35228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33621):
CTCACTTCCAATGGTCTCAGTCTCAGCTACAGGTCTGGGGTTGCTGCTTATTGACCAGGCTCATCTCACACCCCTGGTTCATATTCCTGAATCAATGGGT
S
GGGGGAGGGTGGGGGAATGCACTGTTTTGATTGGCCGGTGCTGGGTCAGGTGCATATCCTTGGAAGTGGAGGCATGGTCAGTCCTACTTGAACCACGTGA
Celera SNP ID:            hCV16230143
SNP Position Genomic:     32257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33622):
ACCTGTGTGTGCTGGTCTGGGGCGAGAATCCTGGGCCAAGGGGCAGCGGAGGGGAGAAAGAAGCAGATGGCCACGAGGCCAGCAAGGGGCTGTCCGACTC
R
TACCCCACAGCCAGCATTCCCTGCCTCTACCCGTACACTTGTTTTGGCTGCAGGAAGCTGTTTTAGGTGGAAATCATTTGATGTGTGTAGGTGCTGTCTT
Celera SNP ID:            hCV11660784
SNP Position Genomic:     31261
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33623):
TTAATTAATTTTTTGCCTTTCCTATGGTGCTGATAGTTATTGACTCTTTTTTCTTTGTTTTTTTTTTTTGTTTGTTTTTTTTTCTGTTTTTTTTTTTTTT
K
TTTGTTTTTTTGAGTCTAGGTCTTGCTGTATTGCCCAAGGCTGGAGGACAGTGATGCAATCATGGCTCCCTGCAGCCTTGATCTTCTGAGCTCAGGTGAT
Celera SNP ID:            hCV11660786
SNP Position Genomic:     19014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33624):
CTTTGACAGCTTCAGGCTTCCCTCTAACCAGCCTAACAGCTGAAGAGAAGGCCTCTTTCCCCATAGTTCCAGCAAATATCCTAGGATATTTGTGGTGGTG
M
GCACACCCGAAGTCCCAGCTGCTCGGGAAGCTGACGCAGGAGGATCACTTGAGCCCAGAAGTTTGAGGTTGTAGTGAACTGATTGCACTACAAGACCCTG
Celera SNP ID:            hCV11660788
SNP Position Genomic:     16862
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33625):
TGAGCACAAGAGGCGCAGGCAGGAAGGAGAGCGCCTGGTGCGAGAGAGGAAGGAGCGCACCCAGTAAGCGGTGTCGGGGGGGTCGTGAAGCTTGGAGGGC
Y
TCGAGGGGAGGGAGGCGCTTGGGTTGAGGTAGGGCGCCAGATTTCGCAAATCAAAATACAGCACACCCAGTTAAACTCGAATTTCAGATAAACAAATCTT
Celera SNP ID:            hCV7596208
SNP Position Genomic:     6795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33626):
GTGCTGGCTGGCATCAGGGCTGGGGTTGGCCTCCACAAACCTACCACCACTGGCACCCAGAGCTCCCCGCCAGCCCACTTCTGGGGCTGTGCTGCCCCCA
V
TCTTGCTGGGGAGTGATGTCAAAGGGCTGTGGGAGAATCTGGTGGCCTCAGGGAAGTCTGTGGCACAGCTAATGAAACTATCAATGCTTGACATACTTCG
Celera SNP ID:            hCV16171906
SNP Position Genomic:     61349
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,2|G,38)   total(C,2|G,76)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33627):
TGAAGGAAGGAAGAAAAGAATTCATCAACTCCTCATGACCACCCTGTAAAGCAGGGACAAGAGACCTGAGTCATGGAGAAGAGAAGGGACTCCTCAAGGT
Y
GCACAGCCCAGAAGGGGCAGAAAGGGTGATGAGGACCTAGGTTTTCTGCTTCTACACCCCCTGTCCCCTCAACCCCCCAGGTGGGAAGCAGCAGAGACAT
Celera SNP ID:            hCV7596170
SNP Position Genomic:     35426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33628):
TTGTGTCCAGGATTTCGAGGCTGCAGTGAGCTAAGACTGCACCACTGTTCCCCAGCCTGGGTGTCAGAGTGAGACCACATCTCTAGACAAATAAGAATAA
W
TTTTTTTTTTTTACTGGGCTATGAAATCCTAAAGTCTGGAAACTACCCTTTTCACTCAATGGGCTTTTGAAAGGTAATGATTTTAAAATATGTCCACAAA
Celera SNP ID:            hCV26715122
SNP Position Genomic:     49795
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33629):
TCTTACTATTTGTATGGGGTAAAATAAAACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGTGT
G
TGTGCAAAAATGATCTCTGGAAGGATACGTGAGAAACTGGCGGCCTCTAGGGACAGGGGGACAGGGGTCCAGGGGTATAAGGGAAATTTCACTTTTCATT
Celera SNP ID:            hCV26715123
SNP Position Genomic:     48724
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33630):
ACTCTTACTATTTGTATGGGGTAAAATAAAACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGT
G
TGTGTGCAAAAATGATCTCTGGAAGGATACGTGAGAAACTGGCGGCCTCTAGGGACAGGGGGACAGGGGTCCAGGGGTATAAGGGAAATTTCACTTTTCA
Celera SNP ID:            hCV26715124
SNP Position Genomic:     48722
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33631):
TGTATTAATACAGAATGATTTCCAAGATACATTAAATGAAAAAAGCAAGATGCAGAGCAGTGTATATGGCACTCTTACTATTTGTATGGGGTAAAATAAA
A
CAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGCAAAAATGATCTCTGGAAGGATAC
Celera SNP ID:            hCV26715125
SNP Position Genomic:     48652
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33632):
GTGGTGCCTGTTTTAATCCTCTCATGGATCGTGTAAAGTAGGTGATCTTTTCCCCATTCACAGATGGGAAACTGAGCTTCAGGATAGTCACATGACTTGT
Y
CAAGTTCTCATGATTAGGAAACGTTGGAGCTGGGCTTTGAACTGGACTGCAAAGCTTGTGCTCTTGACGAAATAGGAAGGCAGAGGCTGTGGTGGGGAGC
Celera SNP ID:            hCV7596177
SNP Position Genomic:     31557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33633):
GTGTATTAATACAGAATGATTTCCAAGATACATTAAATGAAAAAAGCAAGATGCAGAGCAGTGTATATGGCACTCTTACTATTTGTATGGGGTAAAATAA
A
ACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGCAAAAATGATCTCTGGAAGGATA
Celera SNP ID:            hCV26715126
SNP Position Genomic:     48651
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33634):
ACCCGGGTTCAAGCCATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACACACCACCACGCCAGGCTAATTTTTGTATTTTTAGTAGAGAC
R
GGGTTTCATCATGTTGGCCAGACTGATCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAATTGCTGGGATTACAGGCGTGAGCCACC
Celera SNP ID:            hCV25989335
SNP Position Genomic:     19947
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,10)   total(A,1|G,39)
SNP Type:                 INTRON


Context             (SEQ ID NO:33635):
ATCATGACGGCTTTGGGGCTCAGAAAAAAAGATCTTCGGCTCTAAAAGCTGGAGGGCAGGCTGGCCTTAATATCCAGCTGGACTCCCATGGCTCAGGGAA
Y
GCAATCCAGTTTCCAGATGTTGGCTCCTATGTTTCTGCCCCAGGAAGTCCCAGACCAAAGGAAGTCCCAACTTCGAACCCTTGGCTTAGTCCATTGGAAA
Celera SNP ID:            hCV525012
SNP Position Genomic:     52075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)   JBIC-allele(C,237|T,1263)   total(C,237|T,1263)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33636):
GACAAGACAGCAGCTGGAGGTCACACAAAGATCACAATTTCATCTCACCACATGCATAAAAAGACACTGGGATTTGTGTGTGTGTGTGTGTGTGTGTGTG
Y
GCGTGTGTGTTGCGCACATGCGCAATGCTTATTTTCACCTTTACAGGAAGGACTAGAGACATTAACTGACGAGAGATGAATAGGACCCACGAATGCACCC
Celera SNP ID:            hCV525013
SNP Position Genomic:     51704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 DONOR SPLICE SITE;INTRON


Context             (SEQ ID NO:33637):
CGTGTATTAATACAGAATGATTTCCAAGATACATTAAATGAAAAAAGCAAGATGCAGAGCAGTGTATATGGCACTCTTACTATTTGTATGGGGTAAAATA
A
AACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGCAAAAATGATCTCTGGAAGGAT
Celera SNP ID:            hCV26715127
SNP Position Genomic:     48650
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33638):
TCGTGTATTAATACAGAATGATTTCCAAGATACATTAAATGAAAAAAGCAAGATGCAGAGCAGTGTATATGGCACTCTTACTATTTGTATGGGGTAAAAT
A
AAACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGCAAAAATGATCTCTGGAAGGA
Celera SNP ID:            hCV26715128
SNP Position Genomic:     48649
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33639):
TTATTGTCTATTTTTGGGAGACAAGGTAGTTGGGAAAGGAATAAATAATTTCAGTCTGAGCAAGGTGAAGCTTGGAAATGATTGGTGAGGATGGTGTGGA
R
GCAGGGAGAGAGTGGGGCTGGAGTGATTAGTAAGGCCTTGAAAGATAGACACCACTGTATTTTCCAAGTTATTTACAGAATGTTTCCATGTATTCTATAC
Celera SNP ID:            hCV11194581
SNP Position Genomic:     9947
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33640):
GATGGAGTTTTACCATCTTTTCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCTATCCTCCAGCCTTGGCCTCCCAAAGTGCTGGAATTACCAGTGTGAGC
Y
TCCACACCCAGCCTCAATTACAATTGGTGGCCACCTTCTGTGTGCCCAATTCAGCTAGAAGCACTGGGGGATGGAAGCAAGGCTGGAGTTCTGGTACCCC
Celera SNP ID:            hCV11194582
SNP Position Genomic:     9740
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33641):
GGTTTGATTATATGTTCTTTGTTATTTCTGGCACTGTGAGATGCTGAGCCTGAACAATAGATTCCCCGCCCCCCTTTTTTTTCTGAGACAGAGTCTTGCT
Y
TTGTCACCCAGGCTGGAGTGCAATGGCACAAACTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTG
Celera SNP ID:            hCV29209077
SNP Position Genomic:     43459
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33642):
GATGAGAAAGTAATTTTGGATGTGGTGTCTTCTCAAGCCATAGGCAAAAGAGAACTCCTTCCAGATTAAATTTGGGGAAGGACTGCCTGGGGGTGCTTTT
G
TACTGGTTGGTTTTCTGTGTAGAGAGTTCATGCAGCCGCGGGTCTGTACAGATTGGAGCTGAAGTCCCAGGTTAGCACCACCAACAGGGGCTCCCCTGCC
Celera SNP ID:            hCV11194584
SNP Position Genomic:     8509
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,1)   total(G,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33643):
CTCTGCTTTCCAGATGAGTTGACTGAGATACAAAGAGGTGCCCAAGGTCACATACCTAGCAAATGGCAGAAATGAGATTTGACCCTGAACTGCTCAGACC
Y
CCAAGCCAAGCTCTAAACTCTAGTCTAGACTGTTTCTTACTGAACATGCTTTTCCGGTGCAGGGATTATCACACTGTTGGAATATGAGCTCTCTCTGGGG
Celera SNP ID:            hCV29209078
SNP Position Genomic:     24884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33644):
TTCGGCCCAGGTGCGGGACGCAGGCGGTGGAAGGGAAATGAGCACAAGAGGCGCAGGCAGGAAGGAGAGCGCCTGGTGCGAGAGAGGAAGGAGCGCACCC
R
GTAAGCGGTGTCGGGGGGGTCGTGAAGCTTGGAGGGCTTCGAGGGGAGGGAGGCGCTTGGGTTGAGGTAGGGCGCCAGATTTCGCAAATCAAAATACAGC
Celera SNP ID:            hCV11194585
SNP Position Genomic:     6757
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33645):
TCTGACATCCAGAAAGTATCCAAGAAAAGGGAGCTTGCATGGTCATTGAACCCTCACGAGTCCCTTAAAGGCCAGATTTGGTTACTCTCATTTTATAGAT
R
GGCAAACCAACTCAGAGAGGCAGTGTGACTTAGTCAAGGTCACACAGCAGGGTTTGACCCAGATTTGGCTTACATTATCCCTCTAGACTGCCTCCCGTGG
Celera SNP ID:            hCV29209079
SNP Position Genomic:     23768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33646):
GCAAACAACAAATCTAATATTTATGAAATACCAAATGTCAGGAAGGTACTATTTTAAGTGCTTGAAGTAAATTGTCTCATTTAAGCCTCATAATAACGCT
R
TGGAACAGTGTTATCATGTCTGTTTTACAGATGAGGAACTAAGGCACAGAGAGGTTAAGTGACGTGTTCTGGGTTGCACAGCTCTTAAACAGCAGATCTG
Celera SNP ID:            hCV1054795
SNP Position Genomic:     9126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33647):
TTAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAATAATAATAATA
W
TATTAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCACAAGCTAGAGGGAGGGTCCCTGAAAGCAAACATCCCTGGAGCCC
Celera SNP ID:            hCV15837254
SNP Position Genomic:     27825
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,4|A,4)      total(A,4|-,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33648):
CCCATCTTGTAGCCTGGATCAGTACTGGAGTCAGTTATTTAATGCTACATCCTGGGTTCGGGTAAAACGACCTAAAATGTGAGTCCCCCGCTTCAGGAAG
Y
GCCGCTGTAATGAATAAAGAACCTTTTGGGGGAATCATAGCTCAATCTCTTCCTGGTTCTAAGCGGGCAGGTTCAGGCTTCCCTGCGGTGGGGTTGGAGC
Celera SNP ID:            hCV16230153
SNP Position Genomic:     30893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33649):
CTTTCTGAGTGCCTTCCTGGTGCCAGGCTCTATTCTGGGTGCTGGGAACACAGCTAAGAAAAAGACAAGAGGCAGGGCACGGTGGCTCACGCCTGTAATC
S
CAGCAATTTGGGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAGGATGCAAA
Celera SNP ID:            hCV27997910
SNP Position Genomic:     40127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33650):
AAGGAGGTGATATTTGGACGGACACCCAAAGGAAATGAGGGAGGAGCCATGTGGATCTCTGGAGGAATAGCTTTCCAGGCAGAGGGACGGCGAGTGCAAA
R
GCCCTGAGGTAGAGCGTGCCTGCTGCACTGAGGAGCAAGAGAGGCCATTGGGCAGGAGCAGAGTGAGTGAGGGAGAGCGTAGAAGGAGGTGAAGTCACAC
Celera SNP ID:            hCV16230155
SNP Position Genomic:     24626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33651):
AGAGTGGGGCTGGAGTGATTAGTAAGGCCTTGAAAGATAGACACCACTGTATTTTCCAAGTTATTTACAGAATGTTTCCATGTATTCTATACTTCTTAAA
K
ATCATCTCAACCCTGTATGGTTGATGTCCCTACATATACACTTATGTGTTTCCTGTAGACTTAGTACTCTTAGGGTTGTGACACAATTTAACTTAAGTTA
Celera SNP ID:            hCV27997911
SNP Position Genomic:     10056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33652):
CACTTGACCAGAAAGACTGAGACTGCAGTGAGCCGTGATCATGCCACTGCATTCCTGCCTAGGTGACAGAGTGAGACCCTGTCTCTTTAAAAAAAAAAAA
A
GAAAAAAAAAGGAGCGTGAGGAAAAAAAACCCTTATGTATTGGCATTTAAATATTATTCTGAGTCTGAGAAGGGGGTCTGTGGGTTTCACTGGATTTGTG
Celera SNP ID:            hCV26715130
SNP Position Genomic:     45981
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33653):
CAGAGGGAAACTGGGTGGCCAAAGGATGGGGTAAGAGGGAAATTTTCGGGCCAGGCGCTGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGG
Y
GAGTGGATCCCTTGAACTGAGTCCAGGAATTCGAGACCAGCCTGGACAACATGGCCAAACCCTGTCTCTACAAAAAAGCCCTTCAAAATTAGCTGGGTCT
Celera SNP ID:            hCV26715131
SNP Position Genomic:     41492
SNP Source:               dbSNP
Population(Allele,Count): SC_12_T(T,9|C,15)   SC_12_C(T,1|C,20)   SC_12_TT(T,1|C,20)   SC_95_C(T,24|C,149)   total(C,204|T,35)   (T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33654):
ATCGCAGCAATTTGGGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAGGATG
S
AAAAATTAGCCAGGTGTGGTGGCATGTGCCTGTAATCCCAGCTACTGAGGAGGCTGAGGCACAAGAATTGCTTGAACCTGGGAGGTGAAGGTTACAGTGA
Celera SNP ID:            hCV26715132
SNP Position Genomic:     40224
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33655):
CACCTCCCCAGACCCTCAGAACTGACTCTGGAATGCCCTTGTGGCCTCTGAGGGTCGCTGGCTCTGTGGCCATCCCCAGGGTGACTTACAAGGGCCCAGT
S
CCCATACACTTTTAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAA
Celera SNP ID:            hCV7596184
SNP Position Genomic:     27713
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33656):
GATGGCAATAATAATAGTAACTTTAAAATGTTATCATTTGTAAAACACTTATTATCTGCCACGTACTGGGCTTACAGGCTTACAACGGTGCCTGGTACCA
Y
GTGGGAGGCGCTTAATCAGTGTTTTTTTTTTTTTTTTCTATTTTTTTGATGGGGGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGAC
Celera SNP ID:            hCV7596185
SNP Position Genomic:     26246
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33657):
TGGCAGCATCTGACATAGTTTATGACTAACCCGCTTCCCTCCCGAGGCAGGGAGAGACGGTCCGCTCTCTCGAAGACAATGTACAATTTTGAAAAAAAAA
A
TAAAAAAGTCTTGGTAAATAGATTGAGGAGGCTCCAGCCTCCTGGGCTTTTGGGAGGCCCAAGGCATTTTTCCCCTCTGCCCAAACCAGGTATCTTTTGC
Celera SNP ID:            hCV26715134
SNP Position Genomic:     32979
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33658):
CCCCCCAGGTGGGAAGCAGCAGAGACATTTGGATCTTTGGCTCGACCAGCCACCAAGAACGGGTCAAGTGTGCAGCAAGGCCCAGAGCACAGCGTCTGAG
R
GTGGTGAGAGCGATTCACCCAGGCAGCCAGGAGGCGAGACTGTTTACAGGGGCTAGCGGCTGTCGCCATGACAACCGGACAGCCTACAGCTTCCTGCGTC
Celera SNP ID:            hCV1086013
SNP Position Genomic:     35599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33659):
TATAATACTGGCTTACATCGATTGAGCGCTTCCTATGAGTTGAGGATTATTCCAAGCTCTTTATATTCCTTCATTCATTCAGTGTTGAGCATGTGCTAGG
Y
ACTGTTCTGGGCACTAGGGATTCTGCAGTGAAGAAAACAGCTGAGGTCCCTTCCCTTATGCAGACAGTAAGGTCCCTTCCCTTCTGCTGGGAGGAGGCAG
Celera SNP ID:            hCV7596186
SNP Position Genomic:     24007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33660):
GGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAATAATAATAATAATA
W
TAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCACAAGCTAGAGGGAGGGTCCCTGAAAGCAAACATCCCTGGAGCCCAGG
Celera SNP ID:            hCV26715135
SNP Position Genomic:     27828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33661):
GGGTGCCCACCTTCTGAACCCTTCCCAGATTGCCAGGGGGCAATTAGAATTGAGTACAAGTGGTGCAACTCACCCTGATGGTATCTCAAAATAAAATCTC
R
GGTACTATGAAATACCGAAGTCAATGAAGACATTTGAGTAAGGGTTTTGCGCTGGGATCGTGGCTTATGGCGCAGAGACTTCCCCATGACCAATCATTCC
Celera SNP ID:            hCV11194551
SNP Position Genomic:     60004
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;JBIC-allele(G,521|A,972)   total(G,521|A,972)   no_pop(A,-|G,-)   SG_12_GA(G,9|A,27)   SG_12_A(G,8|A,16)   SG_12_AA(G,5|A,37)   total(G,22|A,80) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33662):
TTTTCACTGACCTCTAGTTGAAATACAGCACTTCCTTTAGGTATGAATATAGGCAACAAATCATAGTAATATGTTTCATAGTAATTATGTTTCACACACA
K
AAAAATCACAGGCTGGGAGTGGTGGCATGCACCTGCAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCGTTTGAGCCCAGGAGTTCAAGGCTGCAG
Celera SNP ID:            hCV1086015
SNP Position Genomic:     45125
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33663):
TAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAATAATAATAATAA
W
ATTAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCACAAGCTAGAGGGAGGGTCCCTGAAAGCAAACATCCCTGGAGCCCA
Celera SNP ID:            hCV26715136
SNP Position Genomic:     27826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33664):
TTTAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAATAATAATAAT
A
ATATTAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCACAAGCTAGAGGGAGGGTCCCTGAAAGCAAACATCCCTGGAGCC
Celera SNP ID:            hCV26715137
SNP Position Genomic:     27824
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33665):
CTTTTAGGGCCCACAAAGACATTTTAATTTTAATTTCTTTTAAAACCAGAAGAAAAAAACTGATGCTATAATAATAATAATAATAATAATAATAATAATA
A
TAATATTAGTGGATCACAAATCCAGCCTGGATTTTACTTGTCTTTATACAGTGCAGTCACAAGCTAGAGGGAGGGTCCCTGAAAGCAAACATCCCTGGAG
Celera SNP ID:            hCV26715138
SNP Position Genomic:     27822
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33666):
CTCCCTGTGTGGCTGCAGGTACTGTGTCCAGTTCCAGTTGGGGTCCATTCCAGGGAGCTGCGGGCAGGCGAGGGCACCCCATGCCCAGTGGACAAGGTAT
Y
TGAGTCAGGGCCACACGGTCTGTGTGAGGAGTGAATGGCCTGCCCAGGACACCAGGAGCCGGCGCTGCTACGGGGACGGTGGTGGGGCCAAAGGGTGAGC
Celera SNP ID:            hCV29209080
SNP Position Genomic:     23254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 146
Celera Gene:                 hCG2041412 - 209000073585028
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY4T(1879684..1895215)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12306):
AGAAATAACAAAATATACTGATGGCTGACATTTCAATAATAGAATCCAGAAACGTATGGAATACAATCTTCAAAGTCCTAATTCTTGCAACAAAAAAGGC
CAATTTTGGAAGGCCATTTGGGATTAAAACACATGGCTAGCAGATGACTTGCTGTCTTACAACCATGATATCAAGGACCTGTTTGTCAACTAAACTGTCA
TTCTCCTGCTTCACAATAACTTTTCAGAGAACTGCAGAGTGTGAAGTAGAGGTAACTAAGATCCAAGGAAATACTGATAAGAGAATCTATGCTATATTAC
TGTGTGGGATGCTGCATAGTCAAGAAAGTAGACTCATGAGAGTGCGCAAGTGCTCAAGCCTGGTCAGTTTATCTCATTCCAAAATCTTTATGTGAGATGT
CTATCGACTGGGTAAGTGTAAAGTTAAATTTCTACCTCACTCCACAGTCCAAAAGAATTTATTACTGGATGGAAATCTTGCAGGCCAACTCTAAGGTGTC
CTCTGATAATCTCATTCTCTAGCTGCAGTGACTTCTGACATCAACTACCTGGGTTAGGCCAAACTTCCCAGGTTAAAAGCACAATCCTCCACAAGACTGC
CCTCACTTCAGACACAAGCTGCAAGCTTAAGGCTACACAGACCACCCTCAACTCCAGCGAGCTGGCTACAAATGTGTGGAGCTACCATGACTCCCTCAGG
TTTAATAACTTGATAGAACAACTCAGAGAACCCAAGAAAGTGCTGTGTTTACAATTAGCACTTTACTATTGCAAAATGACACAAATCAGAATCAGCTAAA
GGAAAATATGCACAGGGTGAGGTCTGGGAAGGTTCCAAACACAAAGCTGCTGACTGTCCTCTCCTCATGGAATCCTTGGTGGCATTACATCTTCCTGACT
ACATTGTGTAACAATATTCAAGAGTACTTGCCAGCCAGCGAGGCGCACCTAAACTTTGATGTCCAGAGATTTTATTGAGACTTCATGATGTAGGCACAGT
TTATTGAAGCATTGCCCATGTAGCTGAGTTCAGTCTCCAGTTCCCTCCCCTTCCTGACTGGTATTACATGGCTCAAAGCCACAACTCTCTAATCACTTAG
TGCGCTTTTTGGCATGGGCAGCCCCTATCCAGAGTCATGTCATTGCCATAAATTATCTAGGGATCTACTATGAGTCACCACTATACATATAGATATAAAC
TATCAAATATGAGTGGCCCACCATGAATGACAGAGACACTCATAACTTGGGTAATTACAAGGGTTTAGAGGTTACCTCCCAGGAACGAAAACAAAGGCTA
GCCAAATTCTTTATTACACTCTAGGTGTTCCTGCCCCTGTGCAGTACCATCCTCCTGAGTATGAAGTGGCCTAAAAGCTTGTTTCTAAAGAAAAGAATAC
AGCAAAAGTGACAAGATGCCACTTTAAGATTACACTCTATATGACTTCCATCTTGCTAGCAGAATCTGTCATTTTCTAGCTTTGATTAAACAATTTGGCA
CATAGGGGAGGTGCATGTGACAAAAAACTAAAAGTGGGCTTTGACAAACAGACAGGTAGAAACTGAGGACCTCAACTAAACTACCTCATTTCTCATTCTG
GAAATGAATCCTCCCAACAACCACATAAGTGAGCTTAGAACTGCATCTTTCCCCATTTCAGCCTTCAGATCAGATTCCAACCCAGCTAACACCTTGACGA
CAACCCCCATGAGAGACTGTGAATCAAAGTAGCCAGGTAAGCCATGCCCTTATTCCTGAGCCACAGAAAGTGTGAGATTTTTTTTTTTAAGTGTTGTTTC
AAGTCACTACCTTTTGGAGTAATTTCTTAGGTATTAATAGACAATGAATATAAGATGTAAACTTAAGAAGAACTTATGAGGCCAGGAGTGGGGCACACAT
CTGTAATTACAGTACTTCCAGAGGAGAGTTTGAGCCCAGGAGTTTGAGACCAACCTGAGCAACATAGTGAGACTCTGTCTCTATTCTCTACAAAGAACAA
AAAATTAGCTGGGTGTGGTAGTGGATGCCTGTGGTCTCAGCTATTCAGGAGGCTAAGGCAGGCAGATGGTGGTTGAGGCTGCAGTGAGCCATAATTGTGC
TACTGCACTCCATCCTGGGGAAGAGGGCGAGTCCCTGTCTCAAATAAAGAAAAAAAAAAAAGGAATAAATGAAAACATGTTCATGATATAAGTAAAAAGC
TTTAAAAAAAATGACTTCTGCATGGGAAAAAATATTTTGAACAAGCTAAAAGAGAAGTAAGACTCTAGAAAAATATTTGCAACATATAAAAGAATCAATA
TCCAGTCAAGATAAACAATTATAAATCAGTAAGACCACAAAAAAATTAAATGAACAAAGACTAAAGACACTTTATGACAGAATAAATAATCCAAAGAAAC
AACAAAGAGATGAGAAGGATCTGAACCTCACTGGTGAATGGGAAAATGCAAAATAAGGCAAAATAATACTGGATCATCTAGATCATGGAAAATACACAAT
TTGATAACATAGTAAGTGTTGGCAAGATTTGCAGCACTGAATGTTTTTGTGCAGTGTTTTCCAACACTAACAACCAATTCTCCAATTATCTAAACATAAA
CTAGATGTCCAACAATTCAATTCAATTCTGACACTATCTTTGTCAGAATCCACAGATTTAAGGGTTCAATCCTACAAGACTGCCTCCTCTTGAGTTCCTC
TGCCCGGCCGCCCCACTGTCTGGGAAGTGAGAAGCGCCTCTGCCTAGCCGCCCACCATCTGGGAAGTGAGGAGCACCTCTGCCCGGCCGCCCCACACCAC
CGCCGCCATCTGGGAAGTGAGGAGTGCCTCTGCCTGGCCCCCGCAACGTCTGGGAAGTGAGGAGCGCCTTTGCGCGGCTGCTGTGCGACCCTCCAAGTGT
GAAGTGACAGCCTTGTGTGTGATCTTTCTGCCCTCCCCAAGTTTGCATTTTCGACATTAAAGTTTACTTTTCAATTAAAATTTTTAAATTGGAGAATATA
TAATTTAAAAAAAAAAAAAAAAGACTGCCTCCTCTTAAGATGCCAGTCACAAGTCCTGGGCTACCAGTATTTCTGACTAACTGGCTATAAATTAGAGGCT
CCCACAAACCCCTCCTCAGGTTTGATAATTTACTAGAACAGCTCATAGAACTCAGGAAACACTTTACCTATGGTACCTAGTTAATAATAGAGGATATAAC
TGAGGAACAGCCAGACTGAAGAAATGCATAGGGCAAGATATGGAAGAGGGTGTGCCAAGCTTCCATTCCTCTCTGCGTGTGGCATCCTCCCAGCACCCTG
GTATGTTCACAAACCTGAAGCTTGTTCAAGAGTACAAAAAATTAGCCGGGTGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGA
GAATGGCATGAATCCGGAGGCGGAGCTTGCAGTGAGCCAAGATCATGCCAGTGCCCGCCAGCCTGGGCATCAGAGTGAGACGCCATCTCAAAAAAAAAAA
AAGAAAAAAAAAAAAAGAAAAAAACTCACAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAACAATAATAATAATAAATAAAATTTTTTTTTTTTTGAG
ATGGAGTATCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGTTCACTGCAACCTCCACCTCCCGGGTTCAAGGGATTCTCCTGCCTCAGCC
TCCTGAGTAGCTGGGACTATAGGCACGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGCTTTCACCATGTAGGCCAGGATGGTCTCG
ATCTCTTGACCTCATGATCCGCTCGGGATTACAGGCGCGAGCCCCCATGCCCAGCCTGTTCAAGAGTTTTTATAGAACTTACTCTCCAGTCCATTCCTCC
TTTCAGTTCCAATCCTCTAATTGCTTGGTCTTTCTGGGGACCAGTCTCATCCTGACACTATCTAGAGGTCTCATGAGTAGTCACCTCATGAGCAGAAATT
CAGGTGTATCACAGGGTTTCCTTATGAATAACAAAAGACACACCTATTTCTCAGGAAGAAATTCCAAGGGTTTTAAGCATACTGTGCCATGAACTGGGAA
CAATGACCAAATATACTTATCCGTGTCACTTTCTATATACCAGACTGTGAAAAATAAATATACATTTGGTCTCTGCCCTCCAAATCTTTGGAATTGCTGA
AGTGTCTTTTATATGCTATTGAGATGACTGGTGCCTGGGGCTCTTCCATGGCCTCAGGAAGGGAGCTGGTTGCCAGGGGAACCAACCTTGTGACAGACAG
TTGGAACTTTCAGTCTCACCTCTCCAACCAACCCCTGACCTCTGTGGAAGGGAGAGGTGATGGAAATTGAGCTTACCACCAATAGTTAATGAATTAATAA
ATTATGCCTATGTAATGAACCCACCAAAACAATAAAAGGATGAGGTTGAGAGCTTCCAGGCTGCTGAACATAGGGTAGTCCTGGGAGGGTAGAATACCCA
GAAAGGGCATGGAAGCCCTGAGGCCCTTCCCCATTACCTGACCTATGCATCTTTTCCAACTGGCCATTCCTGAGTTGTACCCTTTCATAATAAGCCAGTA
ATCTAGTAAGTAAACTGTCTTCCTGCATTTTTTGAGCCTTCTAGCAGATGAATAGATCTGAGAAGGGGGTTGTGGGGACATCCAATTGGTAGCCAAGTCC
AAAAGAACTTGTGAGTAACCTGGGGACCCAGCACTTTTCAGGGGGGCAGTATTGTGGGACTGAGCCCTCAACCTGTGGAGTCTGTCCTAAGTCTAGACAA
TTAGTGTCAGAATTGAGTAAATTTTAGAATACCTAATAGGTATGGAGAATTGAATTGATGTGTGGGAAAAACCCCACATATCTGGTGTCAGATGTGGGGA
AAAGAAAGAGAGATCAGACTGTTACTGTGTCTATGTAGAAAGAAGTAGACGTAAGAGACTTCATTTTGTTCTGTACTAAGAGAAATTCTTCTGCCTTGAG
ATGCTGTTAATCTGTAACCGTAGCCCTAACCCTGTGCTCGCAGAAATATGTGCTGTGTTGACTCAAGGTTTAATGGATTTAGGGCTATGCAGAATGTCCT
TTGTTAAAAAAGCACTTGAAGGCAGTATGCTTGTTAAAAGTCATCACCATTCTCTAATCTCAAGTACCCAGGGACACAACACACTGCAGAAGGCCACAGG
GGCCTCTGCCTAGGAAAGCCAGGTATTGTCCAAGGTTTCTTCCCAAGTGATAGCCTGAGATATGGCCTCGTGGGAAGGGAAAGACCTGACCGTCCCCCAG
CRTGACACCGGGGGATACCCGTAAAGGGTCTGTGCTGAGGAGGATTAGAAAAAGAGGAAGGCCTTTTTGCAGTTGAGATAAGAGGAAGGCATCTGTCTCC
TGCCAACTACTTGGGAGGCTGAGGCAAGAGAATGGCGTGAACCTGGGAGGCAGAGCTTGCAGTGAGCCAAGACTGCGCCACTGCACTCCAGCCTGGGCAA
CAGAGCAAGACTCTGTCTCAAAATAAATAAATAAATAAATTAGTAATTTTAAAAAAGTTGGTTGGCAGGCACCAGCATGCAAAGAATGCCAATATTCCAA
AAATGGTCTGGAGTATGTACATTAAAATGACAACCATAGTTCCTTCTTGAGTGGTGGGTGATTCATGTATCATTGTAATGGTCAAAAGTTGAACTACCAA
CAAAGCATGGATTCTTTCATATTGAGTCTACTTTTTTTTCCTTCTTTTTGAGACAGGGTCTTACTTTGTCACCCAGGTTGGAGTGCGGTGGTGCAAACAT
GGCTCACTGTAGCCTCGTCCTCCTGAGCTCTAGCAATTCTTCTCCCACCTTAGCCTCCCGAGTAGCTGGGATTACAGGTGTGCACCACCACACCCAGCTA
ATTTTTGTATTTTTTGTAGAGACGGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGCGATCCAGAATCTACTTCTTAAGGCAGAA
TGAACCCCCACCTCTACTCCCAAAAGCAATGTAAGTTAATTTCTCCCTAGAACACAATTATCCCAGTATATACTTCCTTAAGTTCAACTGACTTCTTCAG
GYCACCATAAATCTATCAAAAAATCAAAGGGAAAATATCACCTGGGTCTTGATCATTTTCTTCTGTGMTCAGAAAATAGTGGATAACATGGACTATACGT
CTTTGTCTCTTCTGCAYTTGCCATGAAGTTTYTGAAGTTTTCCTAGTCAGAAATATTAGTGTCCACTTAAAGTTGTCCCCAGAAATTATGATATCCAAGG
CCAGCAACCTCCTTCTTCTTCCTTCATTGCTTCACTTGAGTTATTTTGCTTCTGGGAGCCAGGACCTGAGGACTGATAAACAAAATGGCTTTCAGTGTAC
ATTAACCCTGGGTCCAGACATTGTCACTGCTGCTCTGCACTTACCTTAAATAAAAGACCCTAATATTTCTAACAGTTCCTTTATTTGCTGCCTCAGAGGT
TTTCATGGTTCTAAATGTGTGAAATCTATGCCTTTCTTTTGTGAAGTAGAAGTGGCATGACTATTATAGAGAAGGTGGGAAAGCAGAACCAGCACAGCAC
AATGCCTCAGAGGCAGGTGTCTGGGGAAAAGAAAGAGAGATCAGACTGTTACTGTGTCTATGCAGAAAGAAGTAGACATAAGAGGCTCCATTTTGTTCTG
TACTAAGAGAAATTCTTCTGCCTTGAGATGCTGTTAATCTGTAACCCTAGCTCCAACCCTATGCTAGCAGAGACATGTGCTGTGTTGACTCAAGGTTTAA
TGGATTTAGGGCTGTGCAGGATGTGCTTTGTTAAAAACGTGCTTGAAGGCAGTATGCTTGGTAAAAGTCATCACCATTCTCTAATCTCAACTACCCAGAG
ACACAATACACTGCGGAAGGCCGCGGGGACCTCTGCCTAGGAAAACCAGGTATTGTCCAAGGTTTCTCCCCATATGATAGCCTGAGATATGGCCTCGTGG
GAAGGGAAAGACCTGACCGTCCCCTACCCCGACACCTGTAAAGGGTCTCTGCTGAGGAGGATCAGTAAAAGAGGAAGGCCTCTTTGCGGTTGAGATAAGA
GAAAGGCATCTGTCTCCTCCTCGTCCCTGGGAATGGAATGTCTCCGTGTAAAACCCCATTGTCTGTTCTATTTACTGAGATAGGAGAAAACCGCCTTAGG
GCTGGAGGTGAGACATGCTGGTGGCAATACTGCTCTTTATTGTACCGAAATGTTTGTGTGCGTGCACATCAAGGCACAGCACGTTTCCTTAAACTTATTT
ATGACACAGAGACCTTTGTTCACATGTTTTCCTGCTGACCCTCTCCCCACTATTACCTTATTGTCCTGCCACATCCCCCTCTCCGAGGTGGTAGAGATAG
TGATCAATAAATACTGAGGGAACTCAGAGACCAGTGCCAGCGTGGGTCCTCCGTATGCTGAGTGCTGGTCTCCTGGGCCCACTTTTCTTTCTCTATACTT
TGTCTCTTATTTCTTTTCTCAGTCTCTCATCCCACCTGACAAGAAACACCCACAGGTTGTGGAGGGGTGGCCCCCTTCAAGGTGAATTCTCAGACAGATC
AATTTTAGGAAAGAGAACACATGGAAGGCTCCAAGAATGTCTTTAAAAACCACGTGTGCCCATGTACTGGTTCGAAAGTCTCTGTAAGCTCTTTGGGTAT
ACATACCTCGTGTCAAGACCAATGTACTAAGCAAATCACAAGAACTGTCTCATTTCACATTATGCGCTAAAGGAGTAACTTTACCCAAGAGAGCTTTGTC
CTTTGCCCACAGTTCCTATGAGGCAAACTCTAAGCCTTTGGAATACGCTGCTTGATAAAACTGTCTTTGGTTATCAGGGCAATTTAAGCCATGCCAAATT
GTCTATCCTAATAATGTGATTTACTGTGGGAGACCTTGGACCACGTGGTATTAGTTTGATATCTGGAGGAGCTGGAGATTGAAGTCAGCCTCATAGGCAG
TCAATTGTGTGTGTGTGTGTTAACTGATATCCAATAAAACTCTGGACACCAAGGCCTAGGTGAGTGGCAACAATGGTTACAATGGCTGGCAATAATAATA
TAAGGGTGTATATATAAGAATATGATAATTTAAAAACGTATGAAGCAAAACAGAATGAGAGAGGATTAGACAATTCAACAATAATAATTGAAGACTACAT
TACCCTACTTGCAATAATAAAGAAAACAAATAGAAACTCAGCAAGGATACCGAAAACTTGAACAACATTATCAACCAACTAGACTTAACGAACATTTAAC
ACTGCACTCAACAGCAGTAAAATAAACATTTTTTTCAAGAGCACATGTTATATTCTTCAGGAAAGATAATATCCCATGTGATAGCCTGAGATAGGGCCTC
ATGGGAAGGGAAAGACCTGACCGTCCCCCAGCCCAACACCCGTAAAGGGTGACTCACAAGGGCCCCAGACCCAGACAGAGTCGGACTCGTCGCTGATTTC
CTCAGACTCTTCATCCCTACAGCCAAAGGACCCGTCATTAACGCCCCGCTTCCTCAGCGACTGCGTTCAAATACAGCCCCAATCAGGACGCTCCACGCAC
CATCGGTACACAGACCCACAGGCCGCGAGTCCATGCCCAGAACTCGACTCACCCGAGCCCGAACCTCTCCAGACACCACTGGCAGCGACAAAACGCCGCA
TCCACGTCCGAAAACGCTTCCTATTCAGACGCGCTCCTGCGCGGACTCCGGGAAGCTGAGCGGTAAAGACCGTGAAGCGAGGCGAGGACCACGGAGCCTG
CCCGGRATCGCGAGTTCAGACTGCGGGCGCCGCTCTATGAGGTCACAGGGYTGCGCCCATCGCAGCGTTTCTGACAGGAGCGGCCATAATGGCTGTGGGA
ATCACTCTTAGTCACCTCAGTGCCTTTCTCTCTTCGTTGCAAGGGACACTCAAGAGTCGGGTGCCCAGCCAAGGCCAACACGGCGCAGTGGCATTCTATT
CAGCCTGCTGTGGAAAAAAGATGGCGGCGCCCTTTGTGCCCATTATAGCTGAGAGTGGAGCCTTAGCTGGAGCACCATGGGCACGGCCATCTTAGAGGAA
GGCAGCAGCCGTACGGCAGAGAAGATGCTCATATCCAGGACAATTTGGAAAAATAAACAAGGTTTGAAGAAGTCACGGTGCTGGCCAGGAAGCGGTCACA
GAGTTGCCAAAACCAGTGGTCACTGAAAGTGTTAGATTTGGGGATAGGGCGGGGGTTCTGGGCTGGGTAAGGCTTTTGTGGGTTAGATTAGACTCTGACT
GAATGGACGAAGCCGAGAACAGGAGTGATGCTCCATTAAATGCTAATACCCACATGGGGCTTGCTATTAAAACCACTGCCAGTGGGGAAGGGGATGAGGA
GGTGAAGGTGCAACTGTGTTAATATCTAYATGTTTCCTTCCAGAAGTAAAGGAAGATGACAGTGGGGCACTTAAGAATATGAAATTATTAGAATGCGATC
ATCCTACTTTGCAATGTTTCCAGATTTTTTAAAAAGTCACACTTAAAAAATATTAGTTCTATTTTTGCAGATGTTGGCGTTGTAACTGTAGAAGATTTAA
GTAAATATTGTATTTTTGGAAGGCAACCTAGAGCCAATTTAATTTTTTCGTTTTCTTTGACACAGCAATTCTAAAAGCTATCTAGGCAAATCTGTCTTAA
TATTAACCACAACTTTTGTAATTTACAAAAAAARGGAATTACAATGAGAGATGAATACTTTGGTAAATTATGGAACATCTGCTGAACTGTAAGAGTATAT
ATCAATTTAAAAGAATATGCTACAATTGTTTTATAAAAAAGAAAACTTTGTCAGAGGACAAAAAAATGATCTGCAGGATAGTATATATTTTATGGTCTTG
TTATTGGAAGAAATCATAAACATCTTTTGGAAAATTGTGATTGGTTAAACAAGACATTTAGTTTGAATTAATATTGTTTGTGTTCATAGGTAGAGAATGC
CATGTTTTTACTTGAAAAATATTCCCAATTTATACTTAATTTTACTATCTTTGTACCATAATCATGAATATATTATAAAACATGTTGATCTTAGAAAATA
GGTATGATGATGTATAATAAGTTCATGGCATGATAAATGCAAAATAGGCTGTTTTCTTTCAGAAAATAAATATGCTCATGCATTTGAAAAATTCTGGAGA
ATATACTAACAATATTTGACTGTTCCGTACAATTATGGTGACTTAAAATTTCTTCATTTTACTTACGTTTTGTAATTTCTAGAGAATAAGAATTTCATGT
TCGTATTTCTTGAGTGTTATAACATATTCCATCCAGGATTAAATTTCAGCCCCGTTCATCTGGAATGTTAATCTCTGGTAGGTAAGTTTAGCACCTGGTC
CACAGGACTATGAGCAGCCCATGATGGGACCTTCACTGATCATTTCCAGGAGTGGGCTGATAAAACTTTGCCGTGGCAGGCTGTGCTGATTCACGGGACA
AGGAAGGTGATTCAAGGGCCTGGTTGGTGGAGCACTTTTGTCTGATTCATTGCTGGAGACAATCTGCCCTGAATCCATCCTGTTACAGTGTGGGAATGGT
GATGGGAGCACCAATCCACAATTTAGGGCAGAGATGTTCAAATTTAAGAAGGCTCTTTTTATAAATGCAGAGTCCGAACCCCATCCCCAGAAATTCTAGC
TTGGAATGTCTGGGGAGTGACTCAAGAATTTGCCTTCTTTTACAAGCTTCTCAGAGAATGCTGAGGCAGGAACCCCAAAGAAAACACTTAGAAAGTTCTA
TAGTGTTCTGGACTTAAAAATATGATGGCTGTGTCCCCACAGTATATTTAGGCTTTGGTTCAAATTATATCTGCACAGAAAAGCCTATCCTGAAAACTCT
TCCTAAAATAACTCAGGTTACAATCTATGAACTTACCAGGCTTTATATTTCTTCCTAGCACTTAACTGAATTCGATTTTGTATTTATCTTACTCAGTCTC
CTTCACCAGACTGTATGTCATATCAAAGCCAGCACTTTGCCTGTTTTGTTCATTGATGTGTCTCCATTGCCTACAACATGCCTGCCATGGTGTAGAAGCT
CAAAAAATATTTTCAAAGAAGTAAATTACTCAATATGGAGTCAGGGATTGAATTCTGCCACAATACTATATGGCAAATGTCTATTACTTTTATAAAGAGA
ACTCACCATTTATAAACTGGATTAAATCTCATTAGATCAAGGGAAATAACTCTGGATAGAGAAAACAGGAACCCTGTTTCTAGGGAAACTAATAATTTTT
TGCCACCAGGCCTGCTCAAAGAGAAATGATTAAGGAAGTTCGCACAAAAAGGAAATAACTAAAGGAAATATTACATCAGGAATGAAGAAAAAGGAACAGA
AAGGGTAAATATATTATAAAATATAATATTCTTTTGAGTTTTAAACATTGGGTTTGCTGGTTGGAAGCAAAAGTTACAATTTTACTTGATATGGTTCTCA
GTGGATGTAGAGATGCTTAATATCATTTTGTGTTAGGGGTGTGTAAGTTGAGGCCATGATCATATACCACCACACACCTAATAGGAAAGCTAAAGCACAC
TGGCAATGCCAAGAGCTAGAAAGGGCATGGAATGCTTACACATTGGTGGTGGGAATGTAAACTAGTACAGCCACTCTGGGAAAGAGTTTGGCCATTTCTT
ATAAAGTTAAACACATTTACCATATTCGCCAGCAGTCATGCCCCCAGTGTCTATCCCAAATATATAAAAACTTAACGTTCGCACAATATCGGGTACACAA
ATAGTCACAGCATCTTTATTTATAACAGCAAAACACTGGAAACAACCCAAATGTCCATCAACAGTGAATGGATACACAAACCCTGGTGCATCCATTTAAA
AGAATACTAACTCAGTAACAAAAATTAAAACTATTTAGACACCTAACAACTTGGATAGATCTTAAGGGTAATTTGCTGAGTGAACAAAGCCCTATCTCAA
AGCTTGCGTACCTTACGATTCCATTTTAATAGCATTCTTGAAATAACAAAATTAGGGTAATGGGATCAGTGGCTACCATGGGTCATATTGGGAGGACAGT
GTGAGTATAAAGAGGTAGCAAGAGGAGGCCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGACCGCCCGGGGTCGA
GAGTTCAAGGCCAGCCTGGCCAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGTCGAGCGTGGTCGTGGGTGCCTGTAATCCCAGCTACT
TAGGAGGCTGAGGCAGGAAAATCTCTTGAACCTGGGAGGCGGGGTTGCAGTGAGCCAAGATCGTGCTATTACACTCCAACCTGGGCAACAAGAGCAGAAC
TCCGTGGTTTTTATTATTATGGTTATGTAAGATAACATTGATGATGCTAAGCAAAGAATACTCAGGAAACTTTTGTATATTTTGTAATCTCTTGTGAATC
TAGAATTATTTCAAAACAAATTTTAGAAAAATAACATTTAAGGCATTTTTGTAAACTACATAATGGTACCTAGTAACTTGGATAAACACATCCAAATATA
CTGAATTACATTTATCAGTAAATTGAAAAAAATAAATTTGGGGCCTATAATATGTAAGAACTAATAAATAACACCAGATTGGCACAGAAAACACCTGTGT
TATATATAGGATTAAAATTTAATCAGTGATAAGAACAGCCCGCTTTACAATTATGGAATCATTGATAATATGATGCAAGGTATGCTGTCACAGAATAGAT
ATCAAGTGTATCATGAGTTTAGATTTGTGACAGTCCTCAAATATGGTTTTTTTTTTTTTTTTTTGAGGCAGAGTTTCGCTCTTGTTGCCCAGGCTGGAAT
GCAATGGCGCAATCTTGGCTCACTGAAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCAGCTTAGCCTCCAGAGTAGCTGGGATTACAAGCGTGAGCCAC
CATGCTCGGCTAATTTTGTATTTTTAGTAGAGAGGGGGGCTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAAGTGATCCACCCACCTTGG
CCTCCCAAAGTGCTGGGATTACAGGTGCAAGCCACCATGCCCGGCATTATGTATCATTTTCATGAGACTTTTTTACTTCATGAATTTCCTGATCCTTTTT
AAAGTTACTCTTCATATAAGTTTTATTTCTGTATGAAGTAATGATGATGAGGCAGCATGTATCACTGAAATCCTCGTGTATTCACTGCCATCTGAAACTT
GTTCTCCAGTATGAAATATATCTGCCAACTGTTAAGGTTTTATTTCTGGGCAAAGGCTTTCCCATGATAATGCTGCTAGTATGTGTAAGTTCATTGATGA
TCTATTATGATCACTGAAGAGATAGGGTCTTTCTTCCCATAGAAGGCTTTCCTAGCCTACTCCTTTGTAAGATTTATCTCAGTAAATACTTTTCAAGACA
TAGTTACTTAGAAAATTTTCAAGACTTTTCTGCATTGGATGTATCAAGTTTATTTCCTACATGTTTATTGTGACATAAAATATGAGGTAATTAATCACCG
AAGGCACTAGTGCATTCTCTGCATTCATTAAAATTCGCTCCTGGAAATTGCATTGTCTTCCAAGGGTGAAAATCTAGCAACAGGCTGCTCTACACTGCCT
ATATGCATGTATGCTAGGAGCACACTGCTGTTTAATCAGTTCACATTACTAACGTGGTTTTCTCTCTGCATGAATTTGTTTGTATGTAATCAGTTCAGAT
TCTCTGCAAAAGGACTATGTACCTTACACATTTGTCATGTGGACGTTGTCATAGTTTTAATGAAGGTTGACAAATGAAAGGTTACCCCCAATCCACAGAC
TCTCTCTCAGATGAGTAATTTTCTATACATTGGTACATCAAAGAATTCAGAGCCTGAATTCATGTTGAAGCCTTTCTGACATTGATAGCATTCATCCTAG
TGAATAACACTGGATTTTGAAATATGATTTTTCATACTCAGTACACATGTAGAAAATCTATACTGTGAAATCTCTGATGTTGTACAAGGCAGATTTTCTT
CCCAAAGGCATGAACATGTCCACTGCATTGTCAGGGTTTGTTTCCATTATGAGTTCGCTGATGTACAATGAGATTTCTCTTTGAGGAGAAGGCTTTTCTA
CATTCACTGCATACAAAGGGTTTCTCTCCTGTATGAGTTCGTTGATGAACAATTAGACGGCTCTTCATAGTGAAGCCTTTACCACATTCATTACATCCAT
AAGGTTTTTCTCCAGTATGAACTTGCTTATGTAAAGCAAGCTCTGTTTCCTTGGCAAAGCCTCTTCCACATTCACTACATATACAAGATTTCTCTTCTGT
ATGAATTTGCTGATGTACAATGAGATAGCGTTTCATGGTGAAGCCTTTTCCACATTCACTGCACATAAAGGGTTTCTCTCCAGTATGAGTTCGCTGGTGT
ACAACAAGATTGCTCTTAAAGGCAAAACCTTTTCCACATTCATTGCATATGTACGGTTTCTCTCCAGTATGAGTTCGCTGATGTAACATCAGTCCGCTAT
TCACAATGAAACCTTTCCCACATTCACTGCACCTGTAAGGTTTCTCTCCAGTATGAGTTCGCTGATGTACAATCAGCCGACTCTTCAAGGGGAAGCCTTT
CCCACATTCACTGCATGTGTAGGGCTTCTCTCCTGTATGAGTTCGCTGATGTATGATGAGCATGCTTTTCACAGTAAAACCTTTTCCACATTCACTACAT
AGATATGACTTCTCTACTGTATGATTTCTCTGATGTACAATAAGATTACTCTTCCTGGGAAAGCCTTTTCCACATTCACTGCATATGTAGGGTTTCTCTC
CTGTATGAGTTCGTTGATGTTCGATCATACGGCTCTTCATGGTGAAGCCTTTCCCACATTCATTGCATATATATGGTTTCTCTCCTGTATGATTTCGTTG
ATGTATGATGACATAGTGTTTTGTGGTGAAGCCTTTCCCACATTCACTACAGATGTAGGGCTTCTCTCCTGTATGAGTTCGCTGATGTATAATAAGCATG
CTCTTCCCAGTGAAGCCTTTTCCACATTCACTACATATATAGGATTTCTCTCCAGTATGATTTCGCTGATGTACAATGAGATTACGCTTGCCTGGGAAGC
CTTTTCCACATTCATTGCATATGTAGGGTTTCTCTCCAGTATGAGTTCGCTGATGTTCAATCAGACGGCTCTTCATAGTGAAGACTTTTCCACATTCACT
GCATATAAAAGATTTCTCTCTTTTATGAATTCTTTGATGTTCATTTAGCCTGGACTTTCTGGAGAACACTTTTGCACACAAAGTACATCCATAAGGTTTT
TCTCCTGTATGAACTCTCTCATGATCAGTGAGCTGAGACTTCTTGACAAACGCTTTCCCACATTCACTGCATACGTGGTTTTTTTCTATTTCATGAGTTC
TCTGATGCTTACTGACTTGGGATTTAGTGCT


SNP Information

Context             (SEQ ID NO:33667):
GTCCGAAAACGCTTCCTATTCAGACGCGCTCCTGCGCGGACTCCGGGAAGCTGAGCGGTAAAGACCGTGAAGCGAGGCGAGGACCACGGAGCCTGCCCGG
R
ATCGCGAGTTCAGACTGCGGGCGCCGCTCTATGAGGTCACAGGGCTGCGCCCATCGCAGCGTTTCTGACAGGAGCGGCCATAATGGCTGTGGGAATCACT
Celera SNP ID:            hCV25988442
SNP Position Genomic:     8806
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(G,32)   total(A,2|G,62)
SNP Type:                 INTRON;UTR 5;SILENT MUTATION


Context             (SEQ ID NO:33668):
CCAATTTAATTTTTTCGTTTTCTTTGACACAGCAATTCTAAAAGCTATCTAGGCAAATCTGTCTTAATATTAACCACAACTTTTGTAATTTACAAAAAAA
R
GGAATTACAATGAGAGATGAATACTTTGGTAAATTATGGAACATCTGCTGAACTGTAAGAGTATATATCAATTTAAAAGAATATGCTACAATTGTTTTAT
Celera SNP ID:            hCV26638819
SNP Position Genomic:     9734
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:33669):
GGAAGCTGAGCGGTAAAGACCGTGAAGCGAGGCGAGGACCACGGAGCCTGCCCGGGATCGCGAGTTCAGACTGCGGGCGCCGCTCTATGAGGTCACAGGG
Y
TGCGCCCATCGCAGCGTTTCTGACAGGAGCGGCCATAATGGCTGTGGGAATCACTCTTAGTCACCTCAGTGCCTTTCTCTCTTCGTTGCAAGGGACACTC
Celera SNP ID:            hCV25988525
SNP Position Genomic:     8851
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,32)   total(C,62|T,2)
SNP Type:                 INTRON;UTR 5;SILENT MUTATION


Context             (SEQ ID NO:33670):
TGCTCCATTAAATGCTAATACCCACATGGGGCTTGCTATTAAAACCACTGCCAGTGGGGAAGGGGATGAGGAGGTGAAGGTGCAACTGTGTTAATATCTA
Y
ATGTTTCCTTCCAGAAGTAAAGGAAGATGACAGTGGGGCACTTAAGAATATGAAATTATTAGAATGCGATCATCCTACTTTGCAATGTTTCCAGATTTTT
Celera SNP ID:            hCV15879968
SNP Position Genomic:     9429
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,552|C,935)   total(C,935|T,552) 
SNP Type:                 INTRON;UTR 5;UTR 3


Context             (SEQ ID NO:33671):
ATATACTTCCTTAAGTTCAACTGACTTCTTCAGGCCACCATAAATCTATCAAAAAATCAAAGGGAAAATATCACCTGGGTCTTGATCATTTTCTTCTGTG
M
TCAGAAAATAGTGGATAACATGGACTATACGTCTTTGTCTCTTCTGCATTTGCCATGAAGTTTTTGAAGTTTTCCTAGTCAGAAATATTAGTGTCCACTT
Celera SNP ID:            hCV25987483
SNP Position Genomic:     6168
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,29)   caucasian(C,38)   total(A,1|C,67)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:33672):
CAAAAAATCAAAGGGAAAATATCACCTGGGTCTTGATCATTTTCTTCTGTGCTCAGAAAATAGTGGATAACATGGACTATACGTCTTTGTCTCTTCTGCA
Y
TTGCCATGAAGTTTTTGAAGTTTTCCTAGTCAGAAATATTAGTGTCCACTTAAAGTTGTCCCCAGAAATTATGATATCCAAGGCCAGCAACCTCCTTCTT
Celera SNP ID:            hCV29188621
SNP Position Genomic:     6217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:33673):
GCCTCTGCCTAGGAAAGCCAGGTATTGTCCAAGGTTTCTTCCCAAGTGATAGCCTGAGATATGGCCTCGTGGGAAGGGAAAGACCTGACCGTCCCCCAGC
R
TGACACCGGGGGATACCCGTAAAGGGTCTGTGCTGAGGAGGATTAGAAAAAGAGGAAGGCCTTTTTGCAGTTGAGATAAGAGGAAGGCATCTGTCTCCTG
Celera SNP ID:            hCV11526756
SNP Position Genomic:     5302
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33674):
GAACCCCCACCTCTACTCCCAAAAGCAATGTAAGTTAATTTCTCCCTAGAACACAATTATCCCAGTATATACTTCCTTAAGTTCAACTGACTTCTTCAGG
Y
CACCATAAATCTATCAAAAAATCAAAGGGAAAATATCACCTGGGTCTTGATCATTTTCTTCTGTGCTCAGAAAATAGTGGATAACATGGACTATACGTCT
Celera SNP ID:            hCV25986424
SNP Position Genomic:     6102
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,1)   caucasian(C,36)   total(C,53|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33675):
AAAATATCACCTGGGTCTTGATCATTTTCTTCTGTGCTCAGAAAATAGTGGATAACATGGACTATACGTCTTTGTCTCTTCTGCATTTGCCATGAAGTTT
Y
TGAAGTTTTCCTAGTCAGAAATATTAGTGTCCACTTAAAGTTGTCCCCAGAAATTATGATATCCAAGGCCAGCAACCTCCTTCTTCTTCCTTCATTGCTT
Celera SNP ID:            hCV25987606
SNP Position Genomic:     6232
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,23)   caucasian(C,4|T,34)   total(C,9|T,57)
SNP Type:                 UTR 5;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;INTRON


Gene Number:                 147
Celera Gene:                 hCG2042050 - 209000073590915
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VU2L(3046108..3059395)
Chromosome:                  Chr16
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12307):
GGAATTGAACAATGAGAACACATGGACACAGGAAGGGGAACGTCACACACTGGGGCCTGTTGTGGGGTGGGGGGAGTGGGGAGGGATAGCATTAGGAGAT
ATACCTAATGTTAAATGACGAGATAATGGGTGCAGCACACCARCATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAAAA
CTTAAAGTATAATTAAAAAAAAAGAAAATGTGCTTAAGAAGGCAGTAGCTGAAAATGGAAAGAAAGAAAAACACTATTTGCCGTCTTCAAAGAGTTTGAT
CAATGCTAAATTAAATAATGGAAAATCAAGTGCAAAATTTTTATCAAATACAACCAGTAGCATTTTTATAGAGTTTTTTTTTTGTAATGGGAAATTCAAA
AACATAGATTCTAAAAACTAAAAAAAAAAAAAAAAAAAAAAAAGACGGGATAAAAAATAAGATAGATTTCATTTCAGGGGCCAACTCCAACTGATTGGTG
GTGGCTGCCCAGAAAGCTCTGTTGAGACACATTGTGAAGCCACATCTGGACTCAGCAGGGAGGGCAATGATCAGCTAGGGAGGTGTATCAAGGGCAGAGT
GATAGAGTGGTATCCTATGTGTGTCCCATTGATATTTCACCTAATAGTTGTATAACCCTGGGCTAGGAAGACATCCCTCTCCCACCAGCTTGTATTGAGG
ATTACCAAATGAATGTAAAGTACTTAGAACAGATTATTGCACTTAGCCAGTATCTGATAAATGTTAGGCTCTGGAAAAATGTCTGTTCTTTTTTGGAAGA
TAGGGTGCTATAGTTCTAAAATCAACCAGGAACACATTCCTTGTTCTCCTTCTACCTCTCTCACTGCTCCTTCTCAGTCTCCCTTCCCTTAGCCCTTCTA
TCTTAGTGCTTTCCAGAATTCTTCCTCTTTGATTCTCTTTGATCTTTACTTGTGCCACACTAATCACTGACTGGTTTCATTCTCAACCATAGCAACCTCA
TATGCCAATGATTCCTTCCCAGCCCCATCCAAGCCAGGTAAAATGCCTCCCCTTCATCTGCATAGCATGCACGTAGCATTGGACTCTAAGTATTCCAACT
ATTTGTTTATCCATCTATCTCTGCTACTAGACCATGGGCTTTCAAAGGACAAGGCTAGATCTTATTGATCTCTGCACTCCCAGCTTCTGGCACATAGTAG
CAATCAATAAATGTTTGTGAAATGAAAGACTGATTTAATGAATGGTGTCCTTATTTTGCAGAAAAGGAAACAGACTCAGAAGTTGGATTTTTCTGAAGGT
TGCCTTTTCTCCAAAACCTTCCCATCTTTCCTATAGAACAGGGATTGACAAAAATTCTCTGTAAAGGGCCGATAGTAAAACTTCTGTCTTTGCAGATCAT
AAGGTCTCTGTCACAACCACTCAACTCTGATGTAACTGTAAGGCAGCCATAGACAATGTGTAAACAGGTGGGTGTGGCTGAATTGCAATCAAACTTTACC
GCAAAAACAGGCAGTGGGCTGGATTTGGCTGGTGGATCCTTATTTGTGGAAGCTTGCTGTAGAAGATGATAAATAGACACTCTTGCATGTCTAGTTTCTT
TTTCTTTGTTGAACATTCTCTTGTTACCTAGCAAAAGCAGCTCAATGCTCAGTGTGTTAGAAGCCAATACTATGATACTGGGTGTTTGAGAAGAGAATGG
CTTTTATTACAAGTTGACAAATGAGAAGAGAGGAGTCCAGCTCAAATCTGTCTTCCTGTGCTGGCTTCAAGGCAGTAATTGCATTAGAAACTGTTTGGGA
GTGGATTCTGGGATTAGCCGCTGGTGATTGGTGGAAGGAAAGGGGAGGTCTGGAAGGTCCTTGGGCATGCACAGTTAATGCTTTATACTTCCTGATGGGA
AAGTATGCAGCGGAAATTCAGGCTATGATGTCAGCAAGCTCAGTCCATTGCCATATTGGTTCCAACTGATTTCAGATAGTTTTATTATTTTATAAGTGGA
GGAAGTTTCAGAGTTCTTTCTCCCCTCCTCCCCTCCTCCCCTCCTTTTTCCTCCCCTGCCTTCCTCTCCCCACCCTTCCCTGCCTTCCTCTCCCCACTCT
CCCCTCTCTCCATCTCTCTTTTTCTCCTGGAAACCTTCCATCAACGTTTAGTCATGCATAGCTCTACCATCTTGAAAGTAAGTCTCTCCTCCTCCAATTG
TTGCCCTTTCTCTCGCTCTACCTCCTTCACAGTCAAAGTTCCTGATAGGGTTCTGTGTTCACTGTCTCCAGTTCATCATTCCAATAATTTCTCAACTAAT
GACAAATCTCCTTCTCTTCCATTATATTCCTGAAACGTTCTCCTTGAAGATCCCAAATAACTTCCTATGGTGCTACATCCAACTCAGAATTCTTTGCTCT
TTACTAAATCTCTGGCACTCATCAACCCTATTGAAATGAAACATTCTTTTCCGTGGTTCTTGTGACAACATGATCTCCTGATTTTACTCCTGTGGTCATT
CTCCTTTAGGCTTCTTTGTTGGCTTTGTAGACCTACAAAGAAGCCTACAGAAGAATGACCATAGGAGGAAACCATGCCCCCAACACTCTGAAGATACAGA
TTTTTAACAACTAACTCTGCCTATTTGTTAAAAAACTGTATCTTCAGGGTTCTCTGCTAGGCCCTTGACTCTTAGTCTACATACTCCCCTAGGACATATC
ATCTCATCTCTAGGCCTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTAGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCTCGATCTCACCTTATTGCAACC
TCCGCCTCCCAGGCTCAAGCGACCCCTCTTCAACCTCAGTCTTCCAAGTAGCTGAGACTACACGTGCACGCCACCATGCCCAGCTAATTTTTGTATTTTT
TGTAGAGACAGGGTTTCGCCATATTGCCCAGGCTGCTCTTGAACTCCTAAGCTCGATACCCCTGCCTTGGCCCCCCAAAGTGCTAGGATTACAGCATAAA
TCACCTCACTGGGCCATCTCTAGGCAATTTTAAATCTAATGATGATCCTCAAGTTTATTTTTCCAACCCAGAGCTCATTACTGAGGCTAGAATCAGCTGG
CCAATTGCCTAACAGAATTAGAAATCACCCCTCTTAACCTTACTCACCACATCCAGTTCCATCTTGAAAAAATAATTATCTTGGCCGGGCGCGGTGGCTC
ACACCTGTAATCTCAGCACTTTGGGAGGCCGAGGAGGGTGAATCATGAGGTCAGGAGATTGAGACCATCCTGGCTAACAGTGAAACCCGTCTCTACTGAA
AATACAAAAAATTAGCTGGGCGTGGTGGCAGGCACCTGTAGCCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGTGGAGCTTA
CAGTGAGCCAAGATAGTGCCACTGCACTCCAGCCTGGGCAACAGGGCAAGACTCCATCTCAAAAAAAAAAAAAAAAATTATCTCAACCTCACCACCCCAG
CCAGCTTTCACCTATTTATCTGCCCCATTTGCAGCAAAACTTCTTGAAAAACTTGTCTATATTTACTGCTCCAATTCCTCTCCAACTCTTTCTCTTAAAC
TCCCTCCAAGCCGGCTTTCAACTCGACAGCTCCAGCTCCACTGAAACACTCTTGTCAAAGTCGCCCATGACTTCTGCATTGCTAAAAACAGTGGATAATC
CTCAGATCTCATCTTACTTTGATCTTTCAGCCACAGTTGACACAGCTGATGGCATTTCTGCTTGATACCCGTCCTTCACTTGGCCTTCCAGATACCACCC
TCTTCTGGTTTTCTTCCTTCCTCACTGACTTTCCACCTCAGTCTTCTTTGCTCATTCCTCCTCCTCTTCCTGATTTCTTAATACTGGAGTGAACAAAGGC
TTATTCCTTGGCCTTCTTGTCTACACCCTTTGAGTGATCTCATCCACTCTCAAGCCTTAAATACCACCTGTATGTCTATGACTCCCAAATGTGTATCTTC
ATCCCAGACCTGTCTTCCAACTTCTAGTCTCTTAGATCCAACTGCCTATTCAACATCTCCACTGGGATGCCTTGTAAGCTTCTCAGATGGAGTTAAAATT
GAATTTCAGTTCCAAACACCTCTTCCACCCATAGCCTCCCACAGTCAACTGTTTGGGACTGGAATGAGATGGTAACTCATTCTCCAAGTTGTGCAAATGC
AAATCTTTTTATCATCATATATAAAAGTTGATTCCCTTTGAATCCTTTAGTAAGAGGACTCTATGGTTTTTCTATTTATGCTTTTTTCAAGAGGGTTCAT
AGATGCCAAGTTTAAATAGGGCAAGTTTAAAATGTCTCCTATTGGCCAGGCATGGTGGCTCACACCTACAATCCCAGCACTTTGGGAGGCCGTGGTGGGA
GGATAGCTTAAGCTCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACCTCATCTCTAGAAAAAATAAACAAAATTAAACAGGCATGGTGGTGCGTG
CCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGAGAATATTGCTTGAGCCCTGGAGGTCAAGGCTGCGATGAGCTATGAACATGCCACTGCATTCTAGCC
CGGATGACAGAGCGAGACTCTGCCTTAAAAAATAAAAATAAATGTCTTCTATTGCCTTTATCCCCAAAGGACATTTATACTTTCTTTCCCCCACAGGTTT
GCAGAAGTTGCTCCAAGATTGCCTGGGAATGAGTGTTGCATTCATTCTTCTTTCTTTGGCTTCTCCGTTTGTCTTTTGGTTTGTTGAATTTCATGACTGA
AGTATTTGGGTTTTGTTTGGTTTTGGTTTTGGCTCTTGTCTTATTGAATTCATGTTTTTAACAATTTCCTCTGCAGCTTGAAGCAATTGCAAGAAACTTT
TCCTAGGTTCCTTGGGTTATTGTTTCTTGCAGTCTTTCCTCTGTTTTATGCCTGCCATGCTTATTTAAGTCTTTGCTTTCATTGTATTCTTCTGCAAAAT
GCTTGCTTAGTAACCATATTGCTTCTTTTCATCTTGCTCATGCTTCAAGCAGACAGCTCTGTCCAGTTCTTCTTTTGGCTCTGACAAAAAGAAGAGTAAT
TATCAGTGAAACCCTCCCAACCTTACCTGGGGTCTTTTTTCCCTTCCAGATACTATTTTAATGCAAGGGGACAGGAACTTGGAAAAAGCTTGGCAAACTT
TCTGCAGCCTTTGGTATAGTACTGGGCTTACCCTCTCTTCTAAGGTTTTGGTAATGTCCAGTTTGGGGTACTCCCTTTCTCCCTCTTCTCATGGAGTGGG
AGTATTCTCAGACTTCAGATCAGTCCCCGGATTCAGCACGGGGTCCTGGGAGATGGTAACACTTTGGGGCTTTTCCTGGCTCAACTTGTATTGAGCCAGG
AAATATTGAAACCACACATAGGAGCCTCTGCACTTAAGAAGATTTCTTTGACTTTTTTCTAAGCCCCCTATTCCCAACTTTGTCTGCTTCTATCCAAATC
GGGGGTATTTGGTGAGAATTTTCAAGGTTTTGAGACTCACTTACTTTTGTATCATTCTGTAGGAAGAGGGGCTACATTAAGTCACACTAAAATCTCCTGC
TTTTCTTCTTGTTGGATACTTTTCAGTTTATAGCAAGAGGATCGCCTCTTTCCTTGTGTACTTGTTACTGGTAATTTTTTTAATTGGTTTATTTCATTGA
GGATTGGAGGAGGGTGATTCTGGAAGCAAAAACAAATATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGACAGACAGATAGATA
TACCGTCAATTTTTTTCTAGCATCCTTAGGGACAGGGTTGGCGTGAGGGAGATGAAATGCAGTGACCCCCACCAGACCCCAGAAGCACCCAGCTTCATGG
CAGAGACAGTCTGTCCTCAGGGGGCTTGGCATTTTTTTTGTAAAGGGTACCTGCCCACTATACTTCTCATTCAATCTTTCTGCTGCCCTTTGTTTTCTCA
GCAAGGAGTAATGCTGCTTTTCACACAGAAAGGGCTTCTACTGTGCCTGACCTTAAGACAGGAAAAGTAGGGGAGCTAAGGAAGCTACCTACACCRCCCT
CACCCCCAGTAGCCAGGCTCAGGAAGGAAGAGGCACAGCGGTGTGAATGGATGGAGAAGAGGAGGCYGGTAGGCTGAGCCCCTGGCTCCTGGAAYGAACA
CACAGCCATGGCAGGTAGGAAATCTGGGCTCCAACAGTGGCCCTGGGCTGGAGCAGTGAAAGGATGAAGGTGAGGTGTGGTTGGGGATCTGCAAATCTAG
CCTCTCTCACTACTAAACAAGGTTTACAGTTCCCAGTGGTAGAAAGACCACATCTCAAGGAGGAATGAAAACACAGGAMCTGAGCATTTGTGCTTGGAAT
TAATAAGCAAATCCCATCAAACCCTTGACATCATGGATTTTGGCCTCAGAAGGCAGAAACCTTGAAAGTTCCAGTGACAACCCCTGTGCCCCTCATCTTC
AGGCTCGTCTCTSTGGTGGATTGCCACCTGCACAGCGCCCTGGCATTTCCATGCACAAAATAATTGGCTGCAGAAAGTTGTCAGATGCCTTGCTGTGGGA
GGAAACTACAAAAACAAACTTTATTCCATCAACTCAAATTGTTTTTTTATATTTCAAATCTGAGAGCACTGGTTCAATTTCTRTTTGTCTTCTCCATGAT
ATGCAATTGTCCTTTGCTGTATGACCAAAATGAGTTAAATGAAAATAGTTCTGTATATTTAGTAGTTAAATAGCCATTTGCTTCAAGATTTTTGGATATT
TTATGTTTCTTTCCATATCATTTCTGTAAAGAGCATAAAATTCTCCAGATTTCTTTGAAGATGGCACTGAGGCACCAATGACCCAAATATGTAGGGTTAG
AAGAGCTGTGACAGCTCACTAACAATAGCTAAACTTTACTGATATTGCTAATATTCATTTTAATTAGTCAATATTAATATACCTAAACTAAGTGGAAGCA
CTGGGTTTATATTATCTCATTTAGTCCTCACAGCAACCATATTGTTATTATTATCTCTATTTTACAGAGGAGAATGTGGCTTGAATAGGTTCCATGACTT
GTACAAGACCACAGCTGGTACATGATGAAGCAAGGACAAGACACGGGCATCTGACCTCAAGAGTCTCTCCAATCATGAAATACCTGTATGAGTTATCTAT
TGCTGCATAACAAATTGCCCCAATATTTAGCAGCTTAGGAGCAGGATTGCTGGAATGGTGGGATAAAACTTAGTGGCTTAAAACAACATCTGTTATCTCA
CAGTTTCTGTGGGTCAGGAATCTGTGCATGGCTTAGCAGGGTGACTCTACCTCACCGTCTCTCATGAGGCTACTATCAAGGTGACAGGCAAGGCTGCAGC
CATCTCAAGGCTGGACTGGGGAAGGGTCCACTCCCATTCTCTCTCTTTGGTTGTTAGCAGGATTTAGTCCCTCACTGGCACTAGGCCAGAGGCCACCCTC
TGTCCCTTGCCACATGGACCACTCCCCAGGGCACACACAGCAGCTTGCTTTCTCAGAGCAAGTGAACAAGAAGAACCAGAGAGAAAGAGTGTGCAAAATG
GAAGTCATGGTCTTTTGTAACCTAATTTTGGAAGTGACAGCTCCTTACTATTGGCAGAGTTGATTCATTAGAAGTGAGCCACCAGGTCCAGCCCTTACTC
AAGGGGTAGTGATTACACAGAGGTGTCGATACCAGTAGGTCGGGATCATTGGGAGGCATTTCAGAAGCCGCCTACCACCGCGCCTTTCTCAGACAACTGC
CCACCCCATCACTCCCAGGGGCAGGCTAAATGGTGTGCTTGTGTTCTGTGACTGTGACCCCCCACCGCCCCCAGCCACAGCTGACTGGACCAGAGACGGA
CACCTGATCCAAACTAGGCCAATTAGATTCTCTCCCCCAGGAATTCTGAATTGCAATTCAGAGACCCTGGTTGGTTTCTGCTAGAGGTTTGAAATGAAAT
AATTGGGAGCTTTGGGACAGCCATTTTCTGCTGTGTTCAAAAATAAGTAGAGATGGCTGGATAGGAGTGTGAGAGAGAGAGAGAGGCATAGAGACAGAGA
GGATGGTTGTGGTTCCTCCCCTGGGTTTGGAAAGGTACAATAAAAACTAGGTTTCTGTCACATGCAACCAGCGGTGATATTTCCATTTTTTTTTTGAATC
AGTAATTTTGCCCCAGGAGAGATTTTGAATTGAAGTATATAGTATATGTTACTTTTTTAACTAAAGGAAAAACAGATATATATATATATATATATATATA
TATATATATATATATATATATATGCAATGATAATTCTTTTTTCAAAGCTTTAGATGAATTAATGTTAACATTTAACAACCAATAAGGTCCAAATACCAAC
CAATCCAGAAGGAGCTCACCATAAATAGCTGGTGTGGTCCCACTGCTGAATGCTGGGTACCCACCAGCTGTCTGCCATCTCAAGGCCACTGCAATCTGGC
CTCGACCACACTGCAGCCCGAAGGCAGGCAGGCTGGGGAAAGGTGGGGCCTGAGAACCTCAGATCACCAGCAGTGAGTCATGGTGGCGTAGCACAGAAAC
CTCTGTATGATTGCAGATTTGCTCTGTAACCCACTGGGGTGTCAGTATCTGTGGCAGACAACTCACAGTGGAGGCTTTTGAGACAATGTCCAGTGCTTTT
CTGGCTCACTCACTGTGATTCCCGGAAGAACACACACGAGTATCCTAGACAGGGATGAAAAGCCTACATCTGATATGAGTGAGAAGAGGCTGGAAAGAGC
CACCTCTGGGTGGTGGGATTTAAGAAACTTGCCACTTCCTCTAAAACAGGACCTGCAACCTGGGTCTGTGGATAGTAAAGCCCTTGATCTTTTTTTTTTT
TTAATTATACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGATTTGTTACATATGTGTACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTC
ATTTACATTAGGTACGTCTCCTAATGCTATGCCTCCCCACTCCCCCCACCCCACAACAGGCCCGGGTGTGTGATGTTCCCCTTCCTGTGTGAACAATGAG
TCCAAGTGTTCTCAATGTTCAATTCCCACCTATGAGTGAGAACATGTGGTGTTTGGTTTTTTGTCCTTGCGATAGTTTGCTGAGAATGATGGTTTCTAGC
CTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATATGCCATATTTACTTAATCCAGTCTATTG
CTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAGACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATC
CTTTGGGCATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGACCCTTGAGGAATCGCCACACTGTCTCCCACAATGGTTGAACT
AGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTG
GTGTGAGGTGGTATCTTATTGTGGTTTTGACTTGCATTTCTCTGATGGTCAGTGATGATGAGCATTTTTTCATGTGTCTGTTGGCTGCATAAATATCTCT
TTTGAGAAGTGTCTGTTCATATCCTTCGCCCACTTCTTGATGGGGTTGTTTTTTTCTTGTAAATTTGATTGAGTTCTTTGTAGATTCTGGATATTACCCT
TTCTCAGATGAGTAGATTGCAAAAATTTTCTTCCATTCTGTAGATTGCCTGTTAACTCTGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTA
GATACCATTTGTCAATTTTGACCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGT
TTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATGTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAG
CTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCAACGCTTGTTTTTGTCAGGTTTGTCAAAGATGAGATGG
TTGTAGATGTGTGGTATTATTTCTGAGGGCTCCGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTACCAGTGCCATGCTGTTTTGGTTACTGTAGCCT
TGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCGGCTTTGTTCTTTTGGCTTAGGATTGTCTTGGCAATGCAGGCTCTTTTTTGGTTCCATATGAA
CTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTCGTAGCTTGATGGGGATAGCACTGAATCTATAAATTACCTTGGACAGTATGGCCATTTTC
ACGATACTGATTATTCCTATCCATGAGCATGGAATGTTCTTCTCTTTGTTTGTGTCCTCTTTTATTTCGTTGAGCAGTGGTTTGAAGTTGTCCTTGAAGA
GGTCCTTCACATCCCTTGGAAGTTGGATTCCTAGGGATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCT
GTTATTGGTGTATAAGACTGCTTGTGATATTTGCACATTGATTTTGTATCCTGAGAGTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGCCTGAG
ACGATGGGGTTTTCTAAATATATAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATGTCCTTTATTTCTTTCTCCTGCC
TGATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGATGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTT
TTGCCCCTTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCTCTTATTATTTTGAGATATGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGC
ATGAAGGGCTGTTGAATTTTATCAAAGGCCTTTTCTGCACCTATTGAGATAATCATGTGGTTTTTGTCATTGGTTCTGTTTATATGCTGGATTACGTTTA
TTGATTTGCATATGCTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTTGGCTTGCCAG
TATTTTATTGAGGATTTTTGCATCAATGTTCATCAGGGATATTGGTCTAAAATTCTCTTTTTTTGTCGTGTCTCTGCCAGGCTTTGGTATCAGGATGATG
CTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCCTTGTACCTCTGATAGA
AATCGGCTGTGAATCCATCTGGTCTTGGACTTTTTTTGGTTGGTAGGCTCTTAATTATTGCCTCAATTTCAGAACCTGTTATTGGTCTATTCAGAGATTC
AACTTCTTCCTGGTTTAGTCTTGGGAGGGTGTAAGTGTCCAGGAATTTATCCGTTTCTTCTAGATTTTCTAGTTTATTTGCGTAGAAGTATTTATAGTAT
TCTCTGATGTTAGTTTGTAATTCTGTGGGATCGGTGGTGATATCCCCTTTATCATTTTTTATTGCGTCTATTTGATTCTTCTCTCTTTTCTTCTTTATTA
GTCTTGCTAGCAGTCTATCAATTTCATTGATCTTTTCAAAAAACCACCTCCTGTATTCATTGGTTTGTTGAAGGGTTTTTTGTGTCTCTATCTCCTTCAG
TTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGATAGCTTTTGAATGTGTTTGCTCTTGCTTCTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATT
TTAGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTAAATGTGTCCCAGAGATTCTGGTATGTTGTGTCTT
TGTTCTCATTGGTTTCAAAGAACATCTTTATTTCTACCTTCATTTCATTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGA
GCAGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGACAGTTTGTTATAACTTCTGTTCTTTACATTTGCTGAGGA
GTGCTTTACTTCCAACTATGTGGTCAATTTTGGAATAAGTGCAATGTGGTGCTGAGAAGAATGTATATTCTGTTGATTTGGGGTTGGAGAGTTCTGTAGA
TGTCTATTAGGTCTGCTTGGTGCAGAGGTGAGTTCAATCCATAATTATCAGATTCACCAAAGTTGAAATGAAGGAAAAAATGTTAAGGGCAGCCAGAGAG
AAAGGTCGGGTTACCCACAAAGGGAAGCCCATCAGACTAACAGCAGATCTCTTGGCAGAAACTCTGCAAGTCAGAAGAGAGTGGGGGCCAATATTCAACA
TTCTTAAAGAAAGGAATTTTCAACCCAGAATTTCATATCCAGCCAAACTAAGCTTCAAAAGTGAAGGAGAAATAAAATCCTTTACAGACAAGCAAATGCT
GAGAGATTTTGTCACCACCAGGCCCACCCTACAAGAGTTCCTGAAGRAAGCACTAAACATGGAGAGGAATAACTGGTACCAGCCACTGCAAAAACATGCC
AATTGTAAAGAGCATTGAGGCTAGGAAGAAACTGCATCAACTAATGAGCAAAATAACCAGCTAACATCATAATGACATGATCAAATTCACACATAACAAT
ATTAACCTTAAGTGTAAAAGGGCTAAATTCTCCAATTAAAAGATGCAGACTGGCAAATTGGATAAAGAGTCAAGACCCATCAGTGTGCTGTATTCAGGAA
ACCCATCTCATGTGCAGAGACACACATAGGCTCAAAATAAAGGGATGGAGGAAGATCTACCAAGCAAATGGAAAACAAAAAAAGGCAGGGGTTGCAATCC
TAGTCTCTGATAAAACAGACTTTAAACCAACAAACATCAAGAGAGACAAAGAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAAC
CATCCTAAATATATATGCACCCAATACAGGAGCACCCAGATTCATAAAGCAAGTCCTTAGATACTTACAAAGAGACTTAGACTCCCA


SNP Information

Context             (SEQ ID NO:33676):
AGATGCCTTGCTGTGGGAGGAAACTACAAAAACAAACTTTATTCCATCAACTCAAATTGTTTTTTTATATTTCAAATCTGAGAGCACTGGTTCAATTTCT
R
TTTGTCTTCTCCATGATATGCAATTGTCCTTTGCTGTATGACCAAAATGAGTTAAATGAAAATAGTTCTGTATATTTAGTAGTTAAATAGCCATTTGCTT
Celera SNP ID:            hCV2852083
SNP Position Genomic:     6683
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33677):
TCTCAGCAAGGAGTAATGCTGCTTTTCACACAGAAAGGGCTTCTACTGTGCCTGACCTTAAGACAGGAAAAGTAGGGGAGCTAAGGAAGCTACCTACACC
R
CCCTCACCCCCAGTAGCCAGGCTCAGGAAGGAAGAGGCACAGCGGTGTGAATGGATGGAGAAGAGGAGGCCGGTAGGCTGAGCCCCTGGCTCCTGGAACG
Celera SNP ID:            hCV27097540
SNP Position Genomic:     6096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33678):
TCACACACTGGGGCCTGTTGTGGGGTGGGGGGAGTGGGGAGGGATAGCATTAGGAGATATACCTAATGTTAAATGACGAGATAATGGGTGCAGCACACCA
R
CATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAGTATAATTAAAAAAAAAGAAAATGTGCTTAAGAAGGC
Celera SNP ID:            hCV27097544
SNP Position Genomic:     143
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:33679):
CGCCCTCACCCCCAGTAGCCAGGCTCAGGAAGGAAGAGGCACAGCGGTGTGAATGGATGGAGAAGAGGAGGCCGGTAGGCTGAGCCCCTGGCTCCTGGAA
Y
GAACACACAGCCATGGCAGGTAGGAAATCTGGGCTCCAACAGTGGCCCTGGGCTGGAGCAGTGAAAGGATGAAGGTGAGGTGTGGTTGGGGATCTGCAAA
Celera SNP ID:            hCV16183633
SNP Position Genomic:     6195
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,294|C,1191)   total(C,1191|T,294) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:33680):
GTAGGGGAGCTAAGGAAGCTACCTACACCGCCCTCACCCCCAGTAGCCAGGCTCAGGAAGGAAGAGGCACAGCGGTGTGAATGGATGGAGAAGAGGAGGC
Y
GGTAGGCTGAGCCCCTGGCTCCTGGAACGAACACACAGCCATGGCAGGTAGGAAATCTGGGCTCCAACAGTGGCCCTGGGCTGGAGCAGTGAAAGGATGA
Celera SNP ID:            hCV27097539
SNP Position Genomic:     6167
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,246|C,1239)   total(C,1239|T,246) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33681):
GGTGAAATATCAATGGGACACACATAGGATACCACTCTATCACTCTGCCCTTGATACACCTCCCTAGCTGATCATTGCCCTCCCTGCTGAGTCCAGATGT
R
GCTTCACAATGTGTCTCAACAGAGCTTTCTGGGCAGCCACCACCAATCAGTTGGAGTTGGCCCCTGAAATGAAATCTATCTTATTTTTTATCCCGTCTTT
Celera SNP ID:            hCV2852071
SNP Position Genomic:     12747
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:33682):
GGTTGGGGATCTGCAAATCTAGCCTCTCTCACTACTAAACAAGGTTTACAGTTCCCAGTGGTAGAAAGACCACATCTCAAGGAGGAATGAAAACACAGGA
M
CTGAGCATTTGTGCTTGGAATTAATAAGCAAATCCCATCAAACCCTTGACATCATGGATTTTGGCCTCAGAAGGCAGAAACCTTGAAAGTTCCAGTGACA
Celera SNP ID:            hCV2852081
SNP Position Genomic:     6379
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33683):
CCCATCAAACCCTTGACATCATGGATTTTGGCCTCAGAAGGCAGAAACCTTGAAAGTTCCAGTGACAACCCCTGTGCCCCTCATCTTCAGGCTCGTCTCT
S
TGGTGGATTGCCACCTGCACAGCGCCCTGGCATTTCCATGCACAAAATAATTGGCTGCAGAAAGTTGTCAGATGCCTTGCTGTGGGAGGAAACTACAAAA
Celera SNP ID:            hCV2852082
SNP Position Genomic:     6513
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Gene Number:                 148
Celera Gene:                 hCG2042176 - 209000073594729
Gene Symbol:                 PRO1770
Protein Name:                PRO1770 protein
Celera Genomic Axis:         GA_x5YUV32VT8U(2662959..2676408)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12308):
ATTCAAGTTTAAAGTCCCCCAACAACTTTAAAAATAGGGGAGTGTTTGGCAAAGCATTCCAAATAAATGACCCTCAGCTCTGGAATTTGCTCCTTCTAGC
AGGCTGCTCTCCTTAGTAGTCAGCCAAACCCCAAATCTGGCAGCTTTTAAAATAGGGTGCAAAAAAGATTCTTTTTAAACCTGAGAGTCACTAAAGATTT
ATTTTACTGGAAAGACATGATCGCAAAAATAACAAGCAATTATTGTTACTGCACCAAGTAGAATCAGATATCTGCAAGAGAGATTATGAAGTCAAGAGCC
ACCCTTCTTTGCTCATTCTGCAGATGAAGAAACCAACTCTCAAAAAGATGAAATTATTTCCTCAAGTCACACAACCTAGTGGCAGGGCCTGGTGTCATGA
GTCATGGGCCAGTTCTTACACCATATCCTCTGAGAATGACATGGATGATTTCTTCCTTGTATCATACTTGGTTATTCACAAATGCAATGTTCTTGCAAAT
GTTAATATTATAATCTTTGGTAACTGTAGCAAATAATCGTTGAATTATTTTGTAATTTTTGGTGTGCAACATCCTTTGCAAAGTCCTAAATTTCATACAR
ATGTGAAAGCTGGTTGCGCTACTTTATTGATCCTCACAATTAAAATTTCTAATTCATCCAGAAGAACATATGTGAATCTGTATGAAATACATATCTAAGA
ATTTTAAATTTACAATGAACCATTATAAAAAGGCCTTGACCTTCTCCACATTTCCTACCTACTTGCCCGTTTCCCATTATATTTTACTCTGACCTAGGGA
AAGTACAGGATCAGAGATAAAGGTGAAAATGATTCCCAGAAAGACAGGAAAAATTTGAACACTTATTAAGCTCTATTAAGTTTTAGATAAGGAGTTAGGC
CCAGAGTGAGAAATTTACTGTGGTGATAACAGACTCATTCTCTTGAAAACCTACTAGTGTATTTAATGAGGCAGATAGTGAATTTTGCATCAGTCTTCGC
ACTTTCCCACATTCCACATGCTATCCCATTTTCTTCCAGTTCAGGCTGAGAACACACTGACACACAAAGGGTCAGAGAACTATTCCCAGAGTTCATTCCT
CCTCATAAAATAGATTGTGGTTTTTTTCTCCCTTCTGCAGAAAATGTTCTTTCCTTCTACCATATCCAATCCATGTTGGCCATTTAGTAAAATGAACAAC
TTAAGAGAGAAGTTATTTTTGTTTGTTAAAGGTGTTTTCCTGAGTTTTACAACGAAAGATAAAATGTTGAATATAAAAATAGAAAAGACCCCGGTGGGTC
TTTCTAGTGTCCAGCCCCAGGGCCTTCCCCAGGCCCCAGCTAGCTCCTTGTCACTTCTTTATTCCTGACTTCAGTCCCCAGGGGTCAGTTTCCCTTTCCC
TGAGGTGGCTGTGCCACCAACCAGTTAATCCTGGACATTCTTTCTTCCAGGAATGGCTATGGAAAGGGACAGAATGTCTCAAACTCCCCTGTCACCATCC
CCATCTTTGCTGTCCTAAAAACGAAAGAAGCTAAGCTTCCTTTTCTGGTTTAACCAGTCAGTGCTTAGTCATGTAAGAAATGCAGAGGAGACAACAAAAA
CATGGATACTATTATACAAAGGTTCCACAATCTTTCAGAGTCCTTTCAGTCATGGTCCCTGGTCTGTATTTGATTTTCATTTTCTTATGAGGGTAGGAGG
TAATGGAATCTCCTTCTCCATGATGTCTCCTCTCAGGTTTGTTGACTCCACAGTAAATATTTAACATTTAGAGAGATCAGGGATTACAGAGACCACTCTG
TAGAAGAAAAATATTACCAAAGTGAAGTTGAGGCCAGGTGCAGTGACTCACGCCTGTAATCCCACTTGGGGAGGACAAGATGGGCAGATCACTTGAGGTC
AGGAGTTTGAGACCAACCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATATGACAATTAGCTGGGTGTGGTGGCACGCACCTGTAATCCCCAGCT
ACTGGGGAGGGTGAGGCACGAGAATTGCTTGAACCCAGGAGGCAGAGGGGCAGTGAGCCAAGATCAGGCCACTGCACTCCAGCCTGGGGTATAGAGCAAG
ACTCTTGTCTCCAAAAAAAAAAAAAAAAAAAGTAAAGTTGAGAGGCCTTAAAAGAGGAATGCTCTCAGGTCCCTTCACCTGATCTCTCTAGAAACTAATG
GAAGATCAGTGTGGGCTTCTGGAACTTGCCAGTTTAAACTCTGGGAATACCTCCTCACTAAAGCCAGGCTGAGTTAGCCCTCTGAGCTCCCATGTTCCTG
TGCCAGATTGCACTGCTATTACTACTGCTTTACCATTCGTTCCCCATTGTAGACTGTGTTTTTTTGCAAGGAAGAGACTGTGATCTTTCTTTACTTCTGA
TCACTGGGGGCTATTAGAGTCCCTGTCACATAGTAGGTACTTAGTACATGATTTTCAGAAAAATGAAATGGTTCTCAGAAGAAGAAAGGCAGGAAGAGTT
CCCTATAGGGAAATATAAATACTCCTCCAAGGAATGAACAAGACTTCAAAACTGAGTTTGAGTCTCAGCAATGCTGCTCAGAGAAAAACTGCCTTGCCAC
AAGATGATAATTTGATAAATAAGGAGGGTTTAAGGCATTTTTGAATCCTGCATTGTTCCTTGTTCCTCTACCCCAAATGACTCAATATGAATAGGTGACA
AAAAGTAGGTGACATTGGAATCAGATATATCAAACAGGAATGTGGACCCTGTGAAAAACTCCTATTGTGTTTGAGCAAGTTACCAACCCTCTCTGGGCTG
GCTTAAATCTGTAACATGAAGGAACTAGGTCCGATGATATATAAAGTTCCTTACAGCTTTAACCTCTTATGATTTTAAGTGATTCAGAGCCATGTACTGA
AATGTATTTTAAGCTTCCTCTTCAAACTCATCAAACAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAGAAAAAGAAAAAAAGAATTATACCATAGT
CAACAACACACTTGGGGAGGAAAAATAAACTATAAATTATGGTCATCAGATCAAATGAGCTGAAACACAAGATTAAAATGTTTTCTATCCACAGAGCAAT
TTTTCACAATGGTGTCAAACAAAAAGTTCTAGTCAATGTTTACACTAGGACTTGATGAAAAATTCCAGACATAAAACTTCTGGAACGTAGACTTGAACTC
AGAAGGACCTCCTATCTCTGAATAAATTGTACAACTAAAATCTATTGGGATTTTTTTCCTTAACAAAAATTCATCCTTCAACAATTATTTGAGTTTTATT
ACTGAGACTATTAAGGCATAGTAAAACTCTGGTTATCTGGAACAGTCATTCTAGGTATGACAGCTAAAGATTTTTTAAAGTACCACTATTTTTGGATGAA
AATCATTGAAAGACATTACATTTATTTGACTTCTTTAACAGAATACACTGAATGTAATTTAATCTTTTCCTCAGTGTGAATACCAGGTACTGGTATTGTC
CTCAGTAACATCCTCAAGTCCCAGTGAAATACTCTATAATACTCTAGGCTTTTTTTCTTTTGACAGTGTTTCAGAATCCACTCCCACTATCAGCTGTCAC
TTTTAACTGCTGTCAATTCTGTCAACTTGGCCACTTGTGGTCATCTCCTGCTGATATCTAATTTCTAGATTAAAGGCAGGGAAAACTGTCTTAATTCATC
CTTGCATACCCAGGGGTAGCATAGTTCTAGCTACTTAAGGTGAGTCATTAAAAAAAAGTTTATTGTAATAGTGCATGACTTAATTGTAGGTTTAAAATTA
AGCAACAAAAAAAGCTTGCTGAAACTAGGTGTGAAATAACAATAAATGAATGCTGGATAGTGCTTGAGGGGATTGCTTTAATACATAGATTTGCCACATT
TTCTCTGCTTTCTAATTCTCCACTATGATCCAGGTAGATTAGAGGACCACAGAATTGAGTTCCTGATTTTTCATAAGATGACAAAATAATAGAATAAAAA
CATTAAAAATGATTGCATAAACTTTGGCTGATTATATAAAATTTAGTGTCATCAAATAATTTATTTTTWTTTTTAGATACATGTTTGCCTACTCCAAACT
GAAAGCTGAGAAGAACTGGCATTCTTAGATTTTTTAGGGTGATAGCTGAGGGAGCACCTCATCACACCCACTAACTGTTATTTTGGATAAATTATTTAAT
CTTCTTTAATTTCATTTTTTTTGCATCAGAAAATAGTAATGACAAAACCCTTCTGACTGGGTTCTTGAAAGACTAATGCATTTTAAAGCACTTACCATAA
GACCTGACACTTAATAAGCACACAGTTACTTTTGTTATAACAGGTTGTCCATTCCTGGAGTGGGGACAGTGGTACCAACCCTGGGCAAAGCCAGGCAATA
TGACTGCCAAAACATTTTGCTCTTGTATTTGCTACTTGGCAAATACTGCTCTTGCCTCAGTATTGGGTGTTTTGAAAACAAATGTGGCACCCAAATAGAA
ATAAGCTTTAAATTCCTTAAATCTCTGACATTATAGAAAACAGGCACTTCCATTGAACTAACATTCTAAAGAATGGGGTTTTAATGTAGGCAATTTTAGG
AAATAAAGAAAGGAAATTTAAAAGAAGACTGATATCCAAGTCTCCACAATTTATCATAAATGTTATCATCCTTAGCACTGAAATCTGAAAATTTAAGACC
TTCCCATATCAATGTCAATTATTATAGAGTTAAAATATTCATTGTAAAAAGCAAACACTGTAGCCTCAAATTTGTATGCAACTATAATACTACACACAAA
GGTGTTTGTCCTTACAGAAACTCATTCATTTCTCAATTTAAATTAAAACATTCATAATATTCCAATTTATTAATCAGTGTTATTTATCTCAACACAATAT
AATAACATGTTACTGAAAATAGAGATATTAAATACTGCAAAATAGTTATTTTACAGATTATTCTTGGAAATTTAGAAATAATAGTGTAACATGTGGATGA
GAATACAGATGGTGATATATATCACACACTTCCTAAAAAGGACTAATTCTTACTATATAAAGAAAAACAATGAATGAGACTTTATCATCGCCACTGAAGA
AGGTATCTCCATTAATAAATACCTTCTCCCAATGTTTTTGAATGGTATTTTTAACCTAAATAAATATCTCTTTACTGAACTTGGTCAATTTTTTTATTTC
TACGTGAAGTTTACTACTTGATGACCATATTTAGCAACTCCTGATTGTTCTCCTTGTTAAATCCAAGACTACTAATACAGGTTTTATTTTCTAACAGCTT
CATTAGCTGCATTTTTAACTTCTAAATCTTTTCCTAAAAAGGCATAATTGATTCACAAAAATATTATAATTGCATCCTAGATCCTTTATAAATCATGTTG
GCTGTGTGTAACACTTTTACACTAAATTTCTAAATCAATTCAATTCATGAGAGATACATATAATACATTAGGAAAATCTTGAAGAGCACTTTTCTAAAAT
ACTGAATCTCTTAGAGTATATAAACTGAATCACACCACAAAGTTTAAATATGCTGACATCCATTGGAAGAAAATTATTTTACTGAGCATTTTACCAACTT
TATTGGAATTAATTGTTCTTTCTTAAGTTGCTCTTCAGCTCTTCACTTTAGTTGTGCTTCACTGCTGGAGAATTCATTTACTTAAACATGATATACCAGC
AAAATTGTGTGCTGGTCAAAATCAATTTTTGAAACAAATTATTTTCAAATCATTAAGAAAGATGTAAATCCAACTGCAAAATTGATGCCACAGTTCAGAC
TCTTGTGGTTCCTCACGGAATAAAAGGGGAAGTGTATCTCTGATTTGTCTGGTGAGACAAATCAGAGATACTATGTTAAGATGGGGAGCACAAGGCCATG
GGGTCCGCTAGCAGTAACTGATTGGCCTGAATGAGATATAGCTTGCTAATTCCTGCACTATGGGAATCCTGAAAAAATCTTTTAGTAAATTTAACCACCA
CTGCATAAAACATTTTTTTTTAATTACCATTTTTAAAGTTACATTTTGTGTCATCATCTCTCCCACCACTCAAGAAATCTGAGATTTACCTTTGGATTCT
ACTTTTTTCCATAACTCTAAACAGCAATCTGCAGTCATGTCCTTTTGATCCCATCTCTTAATATTTCCTGTTGACTTCTGTTCATTCCTATTGCAAGGAA
CATTATTGYTGCCTTTGATAAGGCCATTATCATTTTTCTCTCRTATCTTCCTAATATGCATTTTTTTAACCAGTCTTCCTGCCTCCAGTCTTGCCTCCTC
MAATCGATCCTTGATGCTGCCAAAGTGGTATTTGTGAAATGCAGTTTAGCATGCTGCTTCAGCTTTGTAATTGTTTCTCCTAATGGTCAAACCCAAACTC
CTTCTTGTAGCACGGAGGTTCTTAGGTGATTAGCACACTTCCCCTCCCCATCTTCCCACTTAATTTCTCCATATTTCTTCTTCCCCTTTTAGGTAAACTT
ACTGGTCCTTGCTCTATRAAGTTTCTCCTAAAAGTCACCCCTTTCACCACTGTGTCCTTTTACACACTTTGTACAAGTTACTTCTAACAGTGATTTGCTT
ACATGTTTGTCCTCCCCACATCTAGCCCAGTGAYTGGTTCAAAAAAGGCACTAAAAAAATGGATAAAATTAAATATATTACTCTTAATGATTAGTGTAAT
ATAAATATTTACACCCCATATCTAAGTTCTGGCTCTAAGCAAAAGGGTTCATCTCTCCTCAAGCCCTTAAAATCACTTTAGAAACTCTTCAACTTCTAAT
TCAACATATTCTGACACTAAACACAAATAGSCAGTCTTAACTTGCTTGGAAAACCACATGGTTTAAATGTACTATAACCCTTTCCCAAATAAGAGCTGCT
ATTATGAGGCATTAATGTACAGACCGTTTCATATGTATACTTGGTTGCTTAGGAACAMAGATAATTCCAGTTCCAGAATAYATGAATTGCAGAATTAGTA
ACTTCTGTTAAAGATAATTGGAGGTTAAGASAATTAGTCAGGGAAGCTGAAAAAGGAAACTAAAGTTAGAGACAGAAACTAAGTAAAGATAAGAAAAATG
AGCTTTACAAAGCTACTCTAGTGGCATCTGGGAGCAGAAAAATCCAATTTGTTTCTAAGACGGTAATGAAAGTGAAATCCAAGATCAACAATCTTGTCAT
AAAATTAACAAGGAATTTAACATACAAATGAGGGACCAGGAGTAGCTGTCATTTGATATGTATCGTAGCTATAGCAAAATGAAATAATGTGCAAGCTTCT
CACTTATTGAGTTTAGTGGCATAGGAAATCTTTGTTTGCAAGCACATGATAGGAAATGGAAATTTACAGTACATTAGAGAAGGTACATTGGAGTTATCGA
TAGAGTTTTTATCACATATCCAATACTTAATGAGTAGCAGTTGGAATTAGACTACTGTATATGCTTTCCAGAGATAATTATGTCTTCTAGAAAAGTCAAA
AATAATTATCTGAATTTTTAATTTGCTCCTATCATTATTGACATTTTCACCTATGATCTAGTAAGAATTGTATTCTTGATAACAGAAAATGTAATTTCTT
AAAAATGAGTTAAATTTTATTTAATAATTCATAGACATAAAAACAGAAATTTATAGAGGTTTTATAGACAGTTGAGTATGGCCAGTTAACTTTTTTGAAA
GACCTTAATACTCAAATCTTTTTCCTGACTGGGGACCCCTGCCAGAGATTTACCAGCACAGGAAGAATAACCTATTGCCTTTGTTTATCAGATTTTATTA
TGCACAGGAATCATCTAGAGATGTTGGTACAGGTAGCGCCTGTCTCAGTAGGTCTACAAAAGATCCCTGAATTCTAGTTTCCAACAAGCTCTCAGGGATG
CTGCTGGTTTACGGACCATACTTTTGAATAGCAAGGCCTGAATCAGTGGCTATTAGCCTTGACGCCTATTGGAATCATCTGGGTAGCTTTAAAAAAAACA
TTTCTAGGGATAAAACGTTATTTAACTAGTCTGGGCTGCAACCTGGACACTGAGGGTTTTAAGAGCTCTCAAGTTGAGGTGAACAGGTAGCTAAATTTAA
GAACCTATGGCCTAACATGTATTGGTTATATTTATTAGACCTCATTTCAGTACTGCATAGATTATGAGAGTAAAAATGTCCAAAAATCTCCAAATCCTTA
CTGAAAATATAATAACAATCAGGTTTCAACTTTAAGGATCTCAGTGGCTTCATTTCTATATTCTTATTAAATTATTTAGTAACATATTTGATAGTAATTT
AAAGATACTCACGGAATTATAATGAAATGACAATCTCAATTACTTTTGAATTAGGAGATAGATGTACAAAAATATAAATATGTGAGTTTTAAAGTATAGG
GAAGTGTCAGTTCCCAATAAGAAATAAAAAGGTTCAGACTAGTTAGGAAGTTTACAAGAAATCCCCAAGTCTGTCACACCAGGAGGAAGGCCCACAGACA
CAGGAAAGACCGGCGAAAGTTTAGTTAGTATCACTACTTGAAATAGGCGTCGCTGATCCAGCAGTTAAAAACTGTATCATCACTATTAGATCGTTCCTAA
TTATTTTGCTAAATTGAAGTTTGCAAAAGGTCAAGAAGCAATTCCATTACTGAGGCTCCTTCCTTAACTTTTAGGAATGTGCACCAAAAATAATAAAAAT
AATATTTTAAACTCGGAGGTATTTGCACAATTCCATAATTATAGTAAAGAGTATCAGAGTTTAAGTCAATGATAGTAAAGAGTATTGGAGTTTAAGTCAA
CTGCCACATACTAGTCATGTGACTTAAACTTTAGAACAGGCTTCTTCACAACTAAAATAGTCCAATAAAAATGTGCAAACCCAAATTAATGCCACATACA
AATATAAAACAGAATTAAGTATAACTTTGACAAGCAAAAAAATAAATAAATAATATAGCATGTTTTGGCGCAAAGAACTAAAGTCCAGACTGGGAATGAC
TTCCAGCTTTGCCACTAATTAGCCACATAACAAGCAAATCACATACTTTAATCTCATTTTAAAAATAAAGATGCCTCAAGGAGATTATTTTGACAATCCC
TAGCAGATCAAAGTTCTAAAAAGCTAAAAATAACTGATTTAAGTTACCCTCTAAATCAAATATGACTAATGCTAACAACAACAAACCAAAACCAAGAATT
TCCTTTTAACATGATTGGTTTAACAAGCCTTTGAAGAAAAATATTTAAAACTTGTCTTCAAGTCTACTAATTGTACGGCAATCATTTAAAATAGTAAAAC
TATTTAAATCTAAAAAAAATGTAGTGTGTGGAGGTGGGGAGAAAAGGGATCATTAAATGCAATGCAAGAACACCAAGCAGAATTAAAATAAAGAAATAAT
GTAAACAGGATAAGATAGCAAAAGCTTTTTCTAAGGAAAACTGTTTCAAAGCATGCAGTGTGAAATTTTGCAATCTATCCCAAACAATATACTGCATAGG
CATCGTCTTTAAATACACACATTTTCTGTTTCCAAGTACTACAGATAACTCATAATTCCTATAAAAAATTACACAATTTAATCAAGATGGTAGTACGTGG
AGATTATTTCCTTTTAGTTTATTGTTTAAATACATGTCTTGCCAATCACAAAATATCTAGTGTAGCCAAAGACATAAGAAATCCCTGTATGAATCAAAAA
GTGCCATTCTTGCAGCTTTCTGTCACAAGGATGCTGAGAAATGTACTGTAACAGTTTAGGAAACACAAGATTGTCTCAATTTTAAGTTTCAATCATTAAT
CCTCTTCAGAACTGGAATCACCCTCTTGGTCAGAAAGTTCGGGAACAGGGAAGCGGAGAATGGCAGCTACCCCAGTCAACTGGCTGAGCTGTTCCCCAGA
AACGTGAAGACTAGAGAATATCCTAACGGTGCCTGCATTCTCTTTCACACTGTCCACCAGCCTCACATACCGGCTCCGTGTGGCTACATCCTGATGCCTG
AAGAGCTCATCGCTGATGAGCAATGTGTCAATTGCCATGGCTTCATTGGCCTTCTCCACCTGCTTGAGTCCATAGAAAGCTCGATCCGGTTCATGCTGTA
ACATTTTATAGAAGTCATCCAAGGCTTTGACTTCCCCAGCAGCTTTAGTGTCTGAAAGGCGGCTAGCCACAGTAGGGTCACAAAGGGCCTCTTTCAGGGA
GTACTTGTGTCCGGAGGAGGCATGTACCTAGAATCACAATTACAAAAGTTAGGCAAAATAATCTCCTAGAACACCCATTAATCAGCCCACAAAGGCTTAA
AGCCAAAAGCGCTAGTAAGGCTTCATATGTTTCAGCGAAGTTTACTCCATAAATTTGCTAGACATTTAACATTCTCTTTTTATTTCATTATCTCATGAAA
ATCCCAGCTAAGTAAAGACTTTCTCTTCTTATTTTTCCCAGTTCTAAAACTTTAGGAGTAGTTTATACCAATCCCTCTGCCCATTCTTAATTATCCCTGG
GTAAGATTGTTTTACCTGAAGAAATTTGGACCGGTTTTCCAGGAGCAGTTTGTTGTCGGTCTTCACTGCTTGTTGAAACAKGTAGTCGCAGAACTGCTCC
CTCACAAATCCTGGGCTGGCCACCAGGATGCACTTTACAACATCAAAGTGTATGTGGCGCTGGATAGCCTGGACCACCTGTTCATAGAACCGCTCCAAGG
CCCGGTCATGCTGAGAGCAATTGCCTTTCCTTTTCCTAGGGATGTTCACCTCCACCTTGGCCCGAGTGAGGGTCATGCTGGGAGTGACTAAGCAGATATG
GGCGAGGCCTTCCTGCATGACCACAGCCGCCACATCAGCGCTCCAGGCTGGGTCACAGGCCTGCTCGATGCGCTCCAGTACCACACTATCCCACTGCTTC
TTGGCCAGGGTGAACTGGCGGTTGGGCTCCAGCTCGATGGTGTGGTAAGCCCCCATCTTGACATACTCATTCTCTTGGATGTTGGTCCCCTTAACCCGCA
GCTGGCAGGCTTGAGAGTCGAAGTCGATGGCCTCCACGCAGAGAGTGAGGGTAGTGCGGACCCGGTTGCTGCCCACGCTGCCCGTGGAGGACTCTGTCTG
TACCTTGCGGATGGTGGAGGCGCGCAGGCTGTCGCCCACCTGCACGAGGTTGTAAGTGTGCCACATGTCCTCAGGCTCCTCGGGGACCAGGGTCACCTGG
CCCGCATTGTCCTTCTCGATGTTCTTCCTCACGAGCTTCATGGCCAAGGAAGGGGCTCACTGACAGAACCAAAGGAACCAAGGAGGTCCTCACCTCCGCC
CCGGGAGAGGGGATGGGAATGCAGGCCAGGAAGGGGGCGGGGCCCGGTTTCTAAGGGCACTTGCCTGGCGGGAAGGAAACACGCTTGCTTCGACTCATGC
AGCCTAGGGCAGCACTTCCTCTATCCTTTCCTCTCTCAGTCTCCCGGCGCGCTGCGTCTAACAGGCTCGGGGAACACTGCAGCGAAAATCTACCCCTACA
CAGTTCCCGCTGGCAGCACGCAACAGYGGGCTGACKAAATGAAGGCGCATGCGCAGCCCCCGTCCCGCGACCCGACGCACGTCTCCCGTCCCCAAAGGAG
AGGCGGGGCCGCAGTTCGCGCGTGCGCAGGCGYACTAAGCTGTGAGGCGCTCCGGACGAATGAACTCCCTCAAGAAGGTGCACAGAGTGGTGGCGAGTCC
TTTATTTTAATGCCAAACTTCAACTTCCTAAGTTTTCTCTTCCATCCCTGTCTGTGAAGAATCCGGGGAGTGTGTGAGTGCAAATACTAGTTTTACCTGC
CTGCGGCTGCCACTGCAACGCTTCCCTCTGGGTAAATCCAATTTCAAAGCTTAGCAGTAAAAGTAGCTCTCAGAAGTGCAGATTTGGCCCCAACGGCCCA
AACTATGCTCGTTTTTGCTCTTGCCTTATCCGCACTCGGACGCTACAAGCCTGTTGGAGCTGGTATTTAGAAGCGGTTTCTGAGAACTACTGGTCACGTT
CTGTCTGGGCTCCCAGCAACGTGTCCAGCTGTTTTCTGCGCCTAGTTACCGTGTCTGCACGATCTGATTCACCCAGATGTTAAAGCGCTGGTCCCAAGAG
AGAAGAAACTATGTGTGGAATTTACCCCTGGGTGGACCTCTCAGTTGCTTGACCTGATGTCCTGGGAATCCTAGGCTCCAAAGTTGGCAGCCTCAGCTTT
CCGCAGCCCAGTAGCCTGTGAAATGTTTAGGTTGGGGGTTGGGTCGCAAGAGCTTAGGGCCAGATCTTCACTGCCAAAGCTAAGCTAAAAGCCGAGGCTA
TGGGAAGTGGGGAAAAACTATTAACTAGGACTGACCCTGATTGAATAGCTACATAATTTAAAGAAAATCCTTAAGTTACTTAGCATTCTTTATTAGGAAG
TGGAAATGGAGAAGTGGGATTGCCTCTTTAAGAGACCGATGAATAGAAAAAACAAAAGAATCTAAAAGTTTCTTGAGAGCTTAGATGGAGTGGAGGGCAG
AGAAGTCCTGCACACATAGCTTCTCACTGTCTTTTCTGTCTTTCTCTGTGTGGATTGGAAAGGGGAACTAACCAGCCTGAACAGATGAAACAGGGATGAA
AGGAAGGAATCTGAGTTTGGCATAGGCGTGTGGAAGGAAAATAAATCTCGGATCCCCAAACTCATTAAGCCAAAGGGAAAAGTTAAGCTGGGAACTGGGT
CACGCAAAACTGCCTTGCCTCTTGGTTTTTAAATGAGATGGCTACCAGATGAAAAGCTACACACCTCGCTCATATTTTGCCCACAAGGAAATTCTCAGTG
AGCGCCAAGATCTTTACCATAAAGTGTTTCTATTAAAATTTACCATGGCAATGTAAATAGATAGCTTCTGTTTTCAGGTACAGTCACCCCTCTGCCCTCC
TGACACAAATGCATATCTGATTGTTCCCCTGCCCCATTTGTCTATGTTATCTTACGTAAAAATGCAGATTCAGATTGACTAAGCCAGACAGAGGCATGAA
TGACTATTTTCCCCCTGCTACCCTCTCACATGAAAACTGTATTTCTCAGTATCCCACCCTTTCCCCTTTAAATTTGGAGCCCTCAAAATCATCTTCCCAG
AAAGGCATAGACCTGTCTTCCCCGCGCACGTCCTTAATTTTGGCAAATAAACGTCCTAAAATGATTGAGACTTGTCTCAACATTTTTCTCAACTGACAGG
CTTCACAATTTAAACTTAAGTGTCAATTATCTTCCTAAGAGATTATCAGGGGACGGAAAGGTCCCCTCCAAGGGGAAAGTCCAAATAAGAACCACTACTT
ATTAATATTTGTGGCCTCTTTTCTCTTTGTTTCTCGCTCTCTATGTCTCCCCTTACTTCCTCCTTCTTCCCACCTTCCTATCATACTGAGTACCCTCAAG
AAGTTCCTAATTCACATTGCCTTCTTCCAATTCCAGGAGAACCCAGCAA


SNP Information

Context             (SEQ ID NO:33684):
GGCTCTAAGCAAAAGGGTTCATCTCTCCTCAAGCCCTTAAAATCACTTTAGAAACTCTTCAACTTCTAATTCAACATATTCTGACACTAAACACAAATAG
S
CAGTCTTAACTTGCTTGGAAAACCACATGGTTTAAATGTACTATAACCCTTTCCCAAATAAGAGCTGCTATTATGAGGCATTAATGTACAGACCGTTTCA
Celera SNP ID:            hCV28984131
SNP Position Genomic:     6831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:33685):
TTTCCCAAATAAGAGCTGCTATTATGAGGCATTAATGTACAGACCGTTTCATATGTATACTTGGTTGCTTAGGAACAAAGATAATTCCAGTTCCAGAATA
Y
ATGAATTGCAGAATTAGTAACTTCTGTTAAAGATAATTGGAGGTTAAGAGAATTAGTCAGGGAAGCTGAAAAAGGAAACTAAAGTTAGAGACAGAAACTA
Celera SNP ID:            hCV27519890
SNP Position Genomic:     6981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:33686):
GACGAAATGAAGGCGCATGCGCAGCCCCCGTCCCGCGACCCGACGCACGTCTCCCGTCCCCAAAGGAGAGGCGGGGCCGCAGTTCGCGCGTGCGCAGGCG
Y
ACTAAGCTGTGAGGCGCTCCGGACGAATGAACTCCCTCAAGAAGGTGCACAGAGTGGTGGCGAGTCCTTTATTTTAATGCCAAACTTCAACTTCCTAAGT
Celera SNP ID:            hCV27835894
SNP Position Genomic:     11633
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,38)   total(C,64|T,2)
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:33687):
ATATGTATACTTGGTTGCTTAGGAACAAAGATAATTCCAGTTCCAGAATATATGAATTGCAGAATTAGTAACTTCTGTTAAAGATAATTGGAGGTTAAGA
S
AATTAGTCAGGGAAGCTGAAAAAGGAAACTAAAGTTAGAGACAGAAACTAAGTAAAGATAAGAAAAATGAGCTTTACAAAGCTACTCTAGTGGCATCTGG
Celera SNP ID:            hCV27492918
SNP Position Genomic:     7031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:33688):
TGTTAATATTATAATCTTTGGTAACTGTAGCAAATAATCGTTGAATTATTTTGTAATTTTTGGTGTGCAACATCCTTTGCAAAGTCCTAAATTTCATACA
R
ATGTGAAAGCTGGTTGCGCTACTTTATTGATCCTCACAATTAAAATTTCTAATTCATCCAGAAGAACATATGTGAATCTGTATGAAATACATATCTAAGA
Celera SNP ID:            hCV11480870
SNP Position Genomic:     600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33689):
GTTCTTAGGTGATTAGCACACTTCCCCTCCCCATCTTCCCACTTAATTTCTCCATATTTCTTCTTCCCCTTTTAGGTAAACTTACTGGTCCTTGCTCTAT
R
AAGTTTCTCCTAAAAGTCACCCCTTTCACCACTGTGTCCTTTTACACACTTTGTACAAGTTACTTCTAACAGTGATTTGCTTACATGTTTGTCCTCCCCA
Celera SNP ID:            hCV25750378
SNP Position Genomic:     6518
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,38)   total(A,74|G,2)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:33690):
TTTCCTCTCTCAGTCTCCCGGCGCGCTGCGTCTAACAGGCTCGGGGAACACTGCAGCGAAAATCTACCCCTACACAGTTCCCGCTGGCAGCACGCAACAG
Y
GGGCTGACGAAATGAAGGCGCATGCGCAGCCCCCGTCCCGCGACCCGACGCACGTCTCCCGTCCCCAAAGGAGAGGCGGGGCCGCAGTTCGCGCGTGCGC
Celera SNP ID:            hCV27831897
SNP Position Genomic:     11527
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,1)   caucasian(C,38|T,2)   total(C,57|T,3)
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:33691):
TTTCATAAGATGACAAAATAATAGAATAAAAACATTAAAAATGATTGCATAAACTTTGGCTGATTATATAAAATTTAGTGTCATCAAATAATTTATTTTT
W
TTTTTAGATACATGTTTGCCTACTCCAAACTGAAAGCTGAGAAGAACTGGCATTCTTAGATTTTTTAGGGTGATAGCTGAGGGAGCACCTCATCACACCC
Celera SNP ID:            hCV28984128
SNP Position Genomic:     4069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33692):
TCAGTCTCCCGGCGCGCTGCGTCTAACAGGCTCGGGGAACACTGCAGCGAAAATCTACCCCTACACAGTTCCCGCTGGCAGCACGCAACAGCGGGCTGAC
K
AAATGAAGGCGCATGCGCAGCCCCCGTCCCGCGACCCGACGCACGTCTCCCGTCCCCAAAGGAGAGGCGGGGCCGCAGTTCGCGCGTGCGCAGGCGCACT
Celera SNP ID:            hCV27841549
SNP Position Genomic:     11536
SNP Source:               Applera
Population(Allele,Count): african american(G,20)   caucasian(G,34|T,6)   total(G,54|T,6)
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:33693):
ATGGTTTAAATGTACTATAACCCTTTCCCAAATAAGAGCTGCTATTATGAGGCATTAATGTACAGACCGTTTCATATGTATACTTGGTTGCTTAGGAACA
M
AGATAATTCCAGTTCCAGAATATATGAATTGCAGAATTAGTAACTTCTGTTAAAGATAATTGGAGGTTAAGAGAATTAGTCAGGGAAGCTGAAAAAGGAA
Celera SNP ID:            hCV27504626
SNP Position Genomic:     6958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:33694):
TTTTGATCCCATCTCTTAATATTTCCTGTTGACTTCTGTTCATTCCTATTGCAAGGAACATTATTGCTGCCTTTGATAAGGCCATTATCATTTTTCTCTC
R
TATCTTCCTAATATGCATTTTTTTAACCAGTCTTCCTGCCTCCAGTCTTGCCTCCTCCAATCGATCCTTGATGCTGCCAAAGTGGTATTTGTGAAATGCA
Celera SNP ID:            hCV8884660
SNP Position Genomic:     6243
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,1|G,25)   total(A,4|G,60)
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;TFBS


Context             (SEQ ID NO:33695):
CATTATTGCTGCCTTTGATAAGGCCATTATCATTTTTCTCTCGTATCTTCCTAATATGCATTTTTTTAACCAGTCTTCCTGCCTCCAGTCTTGCCTCCTC
M
AATCGATCCTTGATGCTGCCAAAGTGGTATTTGTGAAATGCAGTTTAGCATGCTGCTTCAGCTTTGTAATTGTTTCTCCTAATGGTCAAACCCAAACTCC
Celera SNP ID:            hCV25759850
SNP Position Genomic:     6301
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,29)   caucasian(A,6|C,24)   total(A,13|C,53)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:33696):
CCATAACTCTAAACAGCAATCTGCAGTCATGTCCTTTTGATCCCATCTCTTAATATTTCCTGTTGACTTCTGTTCATTCCTATTGCAAGGAACATTATTG
Y
TGCCTTTGATAAGGCCATTATCATTTTTCTCTCGTATCTTCCTAATATGCATTTTTTTAACCAGTCTTCCTGCCTCCAGTCTTGCCTCCTCCAATCGATC
Celera SNP ID:            hCV8884661
SNP Position Genomic:     6209
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,26)   caucasian(C,13|T,15)   total(C,23|T,41)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:33697):
CCATTCTTAATTATCCCTGGGTAAGATTGTTTTACCTGAAGAAATTTGGACCGGTTTTCCAGGAGCAGTTTGTTGTCGGTCTTCACTGCTTGTTGAAACA
K
GTAGTCGCAGAACTGCTCCCTCACAAATCCTGGGCTGGCCACCAGGATGCACTTTACAACATCAAAGTGTATGTGGCGCTGGATAGCCTGGACCACCTGT
Celera SNP ID:            hCV8884653
SNP Position Genomic:     10581
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,25)   caucasian(G,1|T,11)   total(G,4|T,36)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,31)   caucasian(G,2|T,24)   total(G,3|T,55)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;(G,-|T,-)   JBIC-allele(G,240|T,1257)   total(G,240|T,1257)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:33698):
GTCACCCCTTTCACCACTGTGTCCTTTTACACACTTTGTACAAGTTACTTCTAACAGTGATTTGCTTACATGTTTGTCCTCCCCACATCTAGCCCAGTGA
Y
TGGTTCAAAAAAGGCACTAAAAAAATGGATAAAATTAAATATATTACTCTTAATGATTAGTGTAATATAAATATTTACACCCCATATCTAAGTTCTGGCT
Celera SNP ID:            hCV8884655
SNP Position Genomic:     6634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;INTRON;TFBS


Gene Number:                 149
Celera Gene:                 hCG2042533 - 209000073607702
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY6P(2369663..2382475)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12309):
TCTTTGGAGCATTTTTGGCATTTCCTTCAGGAAACTGGAGGTTGTGACCTAAGGTTTCCTTAGTGAACACATTTCTGTTTCCCACAGTTAACCTTACCCA
GAAATGACATCTACTCTATTAGGTGAGGTTTATCTTCATGTCCCAACTGTGTCCTGTGCATATACAATGACACTTGAAAGCACAAATTCTGAAAGTAGCG
AAAAGATTAGAGAGCCCAACATGCCAAAACACTTTAATCCCCCAAAAGATGACAATAATCAAAAACAAGAATTAACTATTACAATAAGTCTGTGATGCTT
GCAAAGTGCCTTCATTTTGTAGTTGGAAAAATTAATGACTGAGAATATTAATGCTTTCAGATACTATGAATTGAAGGTTTTCAGATAAAAGTGTTATGCT
ACTCAGCCCACATTTTACAGCTAGCTGCTTCACTGATACTGTATACTTCTATGTGGTTCAGAAGATAGGCTGGGAGAAGCCAAGACAGTGTCCTGAAAAA
AAAAAAAAAAAAACACATGATTTAATACCCATATCCATATCCCCACTTCCCCAACATGTTGGTGAAAGGCCAAGAATGTATGCTTTTTTGATGGGTTTTG
AATGATGATTGAGTCTCATCATTTAAACTAGATTTACAACCACATTTTTGTGTATAATTTCTTTAAAAGCCCATATTTGATGACAGAATTATTGCATTTA
ATTTATTTGGCTTAAATGCAGTTTAAAACTCAAACAATTCTACTTACTAGCCAATGTGGTATTCAGAAGGTTGGTGGTTTTTATCTCATTCTTTACTACT
CTTCAGTGTTAACTTATTGAAGTTTCTCTTCCTGAAAAAGATAGAGTGGTTTCTAAACAAACCACACTTTTTTCACACCCTAGTTAAGGTAAAAATCCTT
TAAAGAATAATAGAAATTTGTCCTTCACTTTGATTCCAAAGAGCTACACAATCCAGTAGATGACTCAATAATTATTTTTAAGAATGCTCTTCACAAAGGG
ATCTTTAAAAAAATCAGTTTATTAATGTTTAAAAGTTGATAAAGCTATGTGCAAAATGATCCACAAAAGTCAGAAACCTATTAAATACTATTCTTTTTAA
AAAAACAAGACATCTCTCGGTTTAATTGCACTGAAAACCATACTAAAGAGACAGTAATATATTTTTATTCTTTGTAATATTTATACATATCTTCAATTAC
TATCTAATGAATAGCTGGACTGAAAAGTTTCTGGCGTTCCCTACCAGTTAAAGTAATGCTTTTAAGGGCACAAGAGGGTGGTATTTTCTTAAGAAATACA
CATTCAATGGTGTTAACACGGGTTAGAAAAATCCAATAAAATGACTTCTGCTGAAACAAATACATTCAAAAATCAAGAAAAGTACTTTTAACACAACAAA
ATACAACCATGTTGTTGCTTGAAATGAATCACACAASATTCTGAAATAAACATCAACAAAAGTGCSAAAGACAGATGTCATATTTGTTAGACTCATTTGC
TAAGAAATCTCCCTTGGTTTGCAAAAGTTAATCCATTCGGTTTTCACTTTGTTTTGCTTGTCTGTTTCTCCTAGGACACCAAGGATCCTGGCTAATATCA
TTTAGATAAAGTGGGCTTCCTTATGCAGATTTCGGCTTCAATGGATATGAAATGGTAACACATTTCATTGAAAAGATGTTTTTTAAAGAAATCAAAGTGA
CTTCAACCAAATTCCAAAAAACGGATCCCGCTTACATGGAAACTTTGGCCTCAGCGAAGGACATTGTTTTACACCTCCAAACCATCTTCATCTTCCCACA
GCCTACGTACTCAACATAGCCTATTTGCTATAGATGATCGATCATTCCACAACCCCAGCTCTGATAACTCTCAGGTAGTTAAAGTATAAAGTAAAAGAAC
GTTGAGGAGGGGTATGAAGGGAAGGGAGGGTGGGGTGTGGGATGTACAGGGCATCCCTAAAGAAGCAGAAGTGCACACACTCACTTGGGTTTGAAACTAA
AGTGAAGGAAAACATCTCCTCAAAGCTCCAGACAAAGAGACGCTTTCACATGGGGACATTAGTCTTTGAGGAGGGGCCAAATGAACCCTTTAGGAGCTTG
ACAATGCTAGACCTTTGGCTCAGTGCAAAATCAAAGCTCCAGGGGGGTAGAAAATATATTCCAGGCCGGGACCTGATCTCCACCCTTCCCAGTGCATTGT
TCACAGGAACTAACTCTACCCACCAACACCCGACACCACCAGGCTGTTCGTATTCTCCCCCTTCCTCCCTCTGGCTTGCAGCAGCTCCTCCCTGGCAGCA
GTCGAAGCCCAGAGATTTTTTTCCAAACACTGGGGTGGCCAGCGACCAAGTAAAGAGCGCTTCCGGTGGGTGGACAGCTTCCAGTTCTAGGAAGAAGAGT
TGACGTTTCCAGAAGACATAATGGTCTCTGGGTTGTCCCCTTCGTCTTTCTGGGGGTGGGAGGAATTGTCCGATTTGCTGCGGCTGAATTCCATGCCGGC
GATGATGGGTCGCTTGAATTTGCCAGCAGAGTCTCCGCTCGGGCACTTGCAGCAGGACATGATCCGGATGAAGGCCCGACGCATCTCCTTGTTGGTCAGA
GTGTAAATGATGGGGTTGGTGCCGGAGTTGAGCACAGCTAACACCAGGAAGTACTCCGCTCTGAAGAGGATGTCACAGGTCTTCACCTTGCAGCCCACAT
CCAGCAGGAGCAGGATGAAGAGCGGTGCCCAGCAGGCGATGAAGACGCTCAGGACGATAATTACGGTCTTGAGCAGCGCCAGCGACTTCTCAGAGCTGCG
GCTGGCCTTGGAAATGTTCTTGCGGAACGTCAGGCGGCGGCTCCGAGTCCTGACCAAGGAGTAGATTCTGCAGTACAGAATGACGATGGAGAGCAGAAGC
AGAGTGAAGACCGTGGTGCAGAAGAGGATATAGTGCTTGTGGTAGAGCGGCAGCACGGTGGAGCAGCTGGACAGCGCACTGATGCAGTTCCAGCCCATGA
TAGGCAGGCCACCCAGGATGAGGGAGATGACCCAGCAGGCGCTGATTAGCAGGAAGAGGCGGAAGTTATTGCTCCCGTTGTGGAGTTTCATTTTCAGCAT
TGTGATATAGCGCTCAATGGCGATGGCGAGGAGACTGAACACGGAGGCTGACAGGGCCACAAACATACTCCCTTCCCGCAGAAACCACTGGGCGGGAGTG
AGCTTGTAGGTGGTGGCCCCAGACAAGAGCAGGTTAGCTGTGTAGGCTACTCCTGCCAACAGGTCTGAGAGGGCCAGATTGCCAATAAAATAGTACATGG
GTCGGTGGAATTTCTTGGTTTTCCAAATGGTCAGCAAGACAAAGATGTTCTCCAGGATGATAAAGCAGCAGATGAGAATGAACACCACCGAGGTCAGTTT
AATGCTGTTCTCCTTGTCCGCGCTGATATTCAGCTTTCCCGTGTAGTTGTAATGCCGGACGATGATATCATAGTTGACGTAGTCAGAGACCGAGCTGCSG
TGGKCCTTGACCAGCGGGACGCTGGTGGGCCCCATGGTGCCAAMCCTGTGTCCCCAGGAAGCCGGGGTGGCGCTACTCCRGACGAACGCTAGAGGGCGAG
GCGAGAGAGCCTTCACTGGCTTCAGGGGTGGTTCGATGAGTGATCCAGGCTTTTTGTGTAGCTTTTCCTTGGCTGGAGAGGGCCTCGGAAACCGCAGCCT
TAAACAAGTCAGAGGAGAGAGTCAGGGAAAGAGCCACAGCATACTGGCATAATTCATTCTAGCTAAGGCACTGCTCCAATTGTGTTGTTGTTGATTTGTT
TTAAAGAAACTTGGGGAGAGCTCAGGGAGAGAGATTTTTTTTAAAAATCAAATTATCTTTTTTCTTCCTTTTTTTTCTTTTTTCAAAAAAGGAAGAGGGG
GAAGAAAAAGAGAGGGAGAAACTCTATGGCCACATTCACTCAAAGGGAAATGGGAATTACGATGTTGGCTGTGGGTTGACAAAAAAAAAAAGATGATGAA
AAGGAAAACAAGGAGTGGGAGGAATGGGAAACCTAGAGAACTACACCCCATTTTAACTCCACTCCTGCCCTCTCACCACCCCACACCCCCTCACCCCCGG
ATTTCCAGCCATGAGATTCTCTGAAGCAGTCACCAGCTTAGCTGCACGCTCAATACCAGCCCACGTCTCTCCTCGGAAAAGACTCAACTGCCAGTCTGAG
GGCGAAGACACACACCTCTGTCCCCCATGCCCACCCCCAGCCCCCCAGTTCAAAGATACTAGCACCACCTCCTAATTGCCATGTGCCATGCAAGAAATCA
GATTTGCAGGAAAATCATTTGAAAGCGTAAGCCATTTGGGGGCTCTATTAATAACTCTCTAGGAGCAGGTGTGCTTAGGGTCCGAGGGCGCAGTGAGGTG
TGGGCAGCCAGGCCCGCCCCGCCTTGCTGTAAACAGGAAAGCTTAGCGCCTCCGTGAAGCGACTGCCTTTTCTTTCTTCTTCTTATTCTCCCCGCCTCCC
CCCGCGCCCCCCCACCCCACCCCCCACCCCAAGCCAGGGCAAGTAAATTTAAAGGTATTCAGTTAAAACCATTCATAACAGATTGCAGCAAATCCCAGAA
GTTTCGTACATTAGTTGATTGCATAAATATTTTTTGCTTTGTTTAGTTTAGCCAAAACATACACAAAAGAGAGAAATCAAACTACTCATGACAGCCATAA
TACATGCTACCACATTTCTAATTTCGATTGCAAAACTACTCTTCAGAAACTCACATTAAACTGCTCCCTGGTGCATTGCTAAATTTGCGTGGGCAGTTTT
ATTTACTGCAGTCCCCCAACACGTTGACTCCTCTCCTAGGACTAGAAAGTTACAAAGAAACTTTCTAAGACGGCACTGGTCAGCAGAAGTCTACTTCTAA
GTTGCTTAAATATTTCAAGGTAATGCAGCAATGCAATAAAATGAGGTAATAGAGATGAGAACAATCCCAGCAACTCCGCGAACAGCAGAGGCTGCTCAAG
CCAAGAAGCTCCGCATTTTCCCCCAACTAATGTTATACCCTGCTCCTGGGCAGTACTAATTTAAGCCATTACCCACGCTCCACACCACCCACCATATTCT
TTGTCTATAGGATTTCCAAAATTTAACGCCTTCCCTCCTATTCCTCCGACCAACTGCAATTTTCACTGCCCCTACACCCGTAGGTTCCACAGTTGGGAAT
TAACCTTTTTTCTGAACTCCATAAATCACAAGTGCCCAAGAACAATCTGATCGAGATGGGCTCCTTAGTAGCCCAGAGATGCAAATTTTCAGCGCCCGGA
GATGCATGTTTTCTAAGTTTTTGTTTGCCTCGTTCGACTTAAAAATTCGTTTCTGACACCTAAGCCCTACCACAACCGGGCTCCCCGCGCCCGCGACCCC
CGCCATTCGCCGCCCCCTACCTCGCTCAAGCAGGGCGAAGTTGCGTTCGGAGAGCCCGGGATCTGTACGGCTCGCTTCGCATCTTGCYGCTGCCCCCGAC
TGACTGCGTAGTGCTCTCGCAAACTTACTSGAGTCGGGGTCCCCTCCCTCCGCAGCGGAGCACTCCAATGGCCAGTCCCGCTCGCCGCGGCCAGTTCCCT
GCCTGCTACGCGAAGTCACCCAGCGCCGCGCCAAGGCTGGGTGGTTTCTTCAGGAAGAGGCTGGGAGGGGTTAATGCCTTAACCCCCCACGCCCTCTGTC
AGCTGGGGGCCCCCGGATCTGAACTGCTGAGACGCACTGTCCAGGAAAGATCTGGGGCAGAAGCAAAAAAAAAAAAAAAAAAAAAAAAAAGAACCCCTCC
TCCCCAAACAACAAATGAAAGAAAAAAAGAGAGAGAGAGAAGGGGCGGAGCCCGGTAACCCCTGGATTCTACTGTATAAATCACTGCCCTCGCCCAGATA
GACGCTGATCCCTGGCTGTGGAGAGGATTCTCCCGAGCCCCTGAAAAAAAAAAAAGGTGGAGAGACTTTGAAAACTTTTCTCTCGAAAAGTCTGAGGAGG
CAGAGGACGGCCCGGAGTCTCGTAGCGCACCGCCCTGGTCCCACACCCCCCGCAGCCCTAGGAGGATCGGTGTGCTGAGCTTGTGGCCAGGAGCTCCCCG
AGCCACTTTCGCGCGAGCAGCAGAAAACCTGAGCCGCGGCCCGGCGAGTGTCGGCGGCGCTCTGGGGAGGAGAGGCTGGGAAGGGGCTGCGAGAGGTACG
GAGGAGACAAGCAGCCCGGGAGGGAGAATGAACCGGRAGGTTCCTGTACTCCCCCCGCCACCCCAGATCCTCGTGCTACTCGCAACTGCGGTCTGAGGGG
CAGTGGCTTTCCCAGAGTGCACAGAGAAATGAACCMGCGCCGGTTTTGGTGTTGGGCGAGGGGTTTCCCTCAGCTGAGCACAAAGTCAGGCTGTGTGTCC
CAGATTCTGGCCAATGGAGAGGTCGTTGAGGGGGTGGGCTGCTGCTGAGTCCTGAGAGATTCAAAACGCCTGGGCAGCTCAGGAATTTCCAAAGGGGGAG
ATTCTCGGCCAGGAGCTGCGGAGCAACTGCAGCTGCCCAGCAGGAGCCGGCACCCTTCTCTCACATTCTGCTTGGGAGTCGACTCAGAGGCCTCRAATCT
CATTACTAGCACTTTGCCCACCCTTTTCTTTTGCTTAGATGCTRCTTAAGAACGTGAGGCTGAGAGGCGGACTTGGTCAGATCTGCCTGCGTGACAAGCT
CAGGACAGGACGCTTCTGCCCTTGCATTACTGTTGTAAAAGTTTCCACCCAGTCCCTGGTCGCACTGCGTTCCCATCCCGGCAGATGTGAACTCAAAAAC
TTCCTCCGCTGTGCAGTTTCAATTGGCAGACACACCCTGTACCTGAATGACTCAGAAGGAGGCAGAATGAACAAACAACAGACCCCTGACTTCTGGGATT
TTGTGAGTTTGCCAAAAAAAAAAAAAAAAGAAGTGACAGTTAATTCACAGCTGTTTTAAAGCATTCATCGACAGCGACGCACCCAATACATACCCACAGC
TTCAACAACAGTACAGTGCATATAATGTGGAAACCAAGATAACGGTCCTCTAAGACTCCAGAGTAGATCCTAATTGGATTTGAAGACTTATTTCACTTAA
AGGGGAAGAGGTATATTGTGTCTACCCAGCACAACAAAACGGGGGACTTGGCATTCCCCCCCTTCTCCCGCCTCCACCCACACTAATTTATGCATTCTTT
AAAGCCAAAGGAATCAAAGTGAAATTTCACACCTAGTCTGTATCAAGCATGTGCTAGGTTAATTTAACCTTACTGCTCTGTGAAGTAAGTAAGCATTGCT
GGCCATTTTATTGTTGAGAGAAGTGTCATTCAGACAACTAAGGTGACTTGTAGATTTCCCAGCTAGTGAGTGGCAGAGCTGGGTTCCAAAACCTAAATAT
TGCAAATGCCTTGCCTTGTGGCTCAAACGCTATCAGTCAATAAATAGTTAAGGAATTGAAATATATGTTCCTAGAGGGAAACAGACTTCTAGATTTAAAG
TTTTACATTTGCTGCATTTCTGACTGTACAAGTCTACAAAATGCATATAAAAGTATGCTAATGAATGTCCTTTTAAAACCACTCATTTTCTACGTAAGCA
TACAAAGTGTATACATATGCATATTAATGAATGTTTTCTGAAACTTCTCATTGTCTGCCTATGATATCTCATGTAACATTGTACTTTTAGTATTTGCACA
TAGTGTTACACATATTAATCCATTTAATCTGACAAGTTAGGCACTATAATTATTCTAATTTTACAAACAAGGAAATTGACTCCCAGACATATTAAGCAGC
TTGCTTAATGTGGGACAGGCTGCAGACTCTTAACCACTACTCCAGACCACCATGATAAACCTCAAACAGGTTCAAGAATTTCCTTGGGGATATCAGTTGT
TTTCTTGTGAATACCACTGGTTTTTAACATTCAATATTGATAAAGTGTTTTACAGAGTCCAAAAACCTTTCAGATTGTTATTTAATAATATTCATCTTTA
GTACACACCTATGAGATGTAATTGTAGATGATCAACTTAGGTAAAATTAGATAGTAGGCAAATGTTTCCAGCAATGGCGTCCTGGCCAATTCCAAGTCTC
TAGTTCCCATATAAGTCTCTTCCCATTGCTCTCCAAGGAGGCCCTAAAAATTGCATTCTCAAGCTATCTCCTGACTGCCAGTACAACTCCCTGTCTGCTG
CTGCCTAGAAGTCAAGCCCAACATTCCTACCTTAAGTTTGCTCCATTTCCAATTTTTGATTTCAAAGTGGCTTTGTTGTTCTTTACACATGCTTTAGTGT
TTCTCTTTAAAAGTTTACAGATAAAATACCACACAATCTTTGGAGCATACACTAAACAAAAATTTGTCATAAATGTGCCATTCAAATGTAACTGTGTGAG
CTATCTTTTTTTTTTTTTTTTTTTTTTGAGACAGAATCTCACTCTATTGCCCAGGCTGGAGTCCAGTGGCGTGATCTCAGCTCACCGCAACCTCCGCCTC
CCAGGTTCAAGCAATTCTCCTACCTCAGCCTCCTGAATAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAGTTTTGTATTTTTAGTAGAGATGGG
GTTTCACCATGTTGTCCAGGCTGGTCTCGAACTCCTGACTTCAGGCGATCCACCTGCCTTGGCCTCCCAAGGTGCTGGGATTACAAGCATGAGCCACCGA
GCCCAGCCATGAGCTATATTTTTTATCTGCTAAATATTGCAACTCTACTCTTTTCCCTTTCCTTTTTTTTTTTCTTTTTTTCAACTGAGACAGGGTCTGG
CTCTGCTCTGTCATCCAGGCTGGAGTGCAGTGGCGAAATCATAGCTCACTGCAGCCTTGATCTCCCGCCCTCAAAGGATCCGCCTACTTCAGCCTCCCAA
GCAGCTGGGACTACAGGCACCAGTCACCATGTCCTGATAATTATTATTTTTATTTTTTGTATAGACAGGAGTCTCACTTTGTTGCCCAGGGTGATCTTGA
ACTCCTGCGCTCAAGCAGTCCTCCCACCTTGGACTCTCAAAGTGCTGGGATTACAAGCCTGAGCCTTACTCTCTTTCCTAATTGCTCCAGTCACTTTCCA
ACTCCCTTTTCTCCCCTCTTCCCTCCCCTGACCCAGTCACTGGTAAAAATCCAGGCTTTCCCTTACTTGTCTATTCACAGGAGAATAACTAGCCTCTTAT
TTCAAGGAGGAAATAGTATGACCATCTCAATTTCCCTCCTCTCCAAGCTCCAGCTTAATAGCAACTTTACCCACCCTTACCTCCTTCCCACCTGTTTCAG
AAATAAAAGCAACTTTACTCCTTTCCAAGGCAAACTCTTGCCCAGGTCAGCATGCTGCTTCCTCCAAACTTTCTGAGACTTGGCTCAATTATTCTTATTC
TCCCTTGTACTTTCAGTTCTTAGCTTCTGAGGACTCTTTACTTTCAACTTACATAAATGTTTATGTGTTTTCTCTACCAAAAACTCTTTCTTCCCTTCAT
CCTAGGTCCCAATATCTCTCTCTCCTCGTTTGCCAACATTCAAAATTAGTGGAACATGACTGAGCCTTGGAACAGACACTTAGGTTCAGCCTTGATATTG
CCAGTTCTAAGCTATGTGACTTTAGGCAAGTTCTTTTAACTTCCTTGAACCTCAGTGTCCTCATCTGTAAAATGAAATAATGATATTTGCCTCTTTCATT
GTGAGGATTAAGGAGCTACATACCTGTGAGAATTCCCTACACTACAGAGAAAATGCTTCACCCATCCACCACCTCCATCTTTTATTATTATTATTATTAT
TATTATTATTATTTTACTTTAAGTTCTGGGGCACATGTGCAGAATGTGCAGGTTTGTTACATAGGTATACACGTGCCATGGTGGTTTGCTGCACCCGTCA
ATCCGTCACCTACATTAGGTATTTCTCCTAATGCTATCTCTCCCCTAGCCCCCCACCCCCAACAGGCTCCAGTGTGTGATGTTCCCCTCCCTGTGTCCAT
GTGTTCTCATTGTTCAATACCCACTTATGAGTGAGAACATGCAGTGTTTGGTTTTCTGTTGTTGTGTTAGTTTGCTGAGAATGATGATTTCCAGCTTCAT
CCATGTCCCTGCAAAGGACATGAACTCATCCTTTATTATGCCTGCATAGTATTCCATGGTGTATATGTGCCACAGTTTCCTTTTCCAGTCCATCATTGGT
GGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCACAATAAACATATGTGTGCATGTGTCTTTATAGTAGAATGATTTATAATCCTTTG
GGTATATACCCAGTAAGGGAATTGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGTTGAACTAATTTA
TACTCCCACCAACAGTGTAAAAGCGTTCCTATTTCTCCACATCCTCTTCAGCATCTGTTGTTTCCTGACTTTTTAATGATCACCATTCTAACTGGCATGA
GATGGTATCTCATTGCGGTTTTGATTTGCATTTCTCTAATGACCAGTGATTATGAGGTTTTTTCATATGTTTGTTGGCTGCATGAATGTTGTCTTTTGAG
AAGTGTCTGTTCATATCCTTTGCCCACTTTTTGATAGGGTTGTTTGGTTTTTTCTTGTAAATTTGTTTAAGTTCTTTATAGATTCTGGATATTAACCCTT
TGTCAGATGCATAGATTGCAAAATTTTTCTCCCCTTATATAGGTTGCCTGTTCACTCTGATGATAGTTTCTTTTGCTATGCAGAAGCTCTTTAGTTTAAT
TAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGCATTTGCCCATGACTATGTCCTGAATGGTATTGCCTAGG
TTTTCTTCTAGGATTTTTCTTGTTTTAGGTCTTACGTTTAGGTCTTTAATCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGGGTCCAGTTTCA
GTGTTCTGCATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCTCCCTTTCTTGTTTTTATCAGGTTTGTCAAAGATCAGATG
GCTGTAGATGTGTGGTGTTATTTCTGAGGCCTCTGTTCTGTTGCGTTGGTCTATATATCTGTTTTGGTACCAGTACTATACTGTTTTGGTTACTGTAGCC
TTGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTTGCTTAGGATTGTCTTGGCTATGTGGGCTCTTTTTTGATTCCATATGA
AATTTAAAGTAGTTTTTCGCAATTCTGTGAAGAAAGTCAATGATAGCTTGATGGGGATAGCATTGAATCTACAAATTACTTTGGGCAGTATGGCTATTTT
CATGATATTGATTCTTCCTATCCATGAGCATGGAATGCTTTTCCATTTGTTTGTGTCTTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAG
AGGTCCTTCACATCCCTTGTAAGCTGTATTCCTATATATTTTATTCTCTTTGTAGCAATTGTGAATGGGAGTTCACTCATGATTTGTCTCTCTGTCTGTT
ATTGGTGTATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGATG
GTGGGATTTTCTAAATATACAATCATGTTATCTGCAAACAGAGACAATTTGATTTCCTCTTTTCCTGTTTGAATACCCTTTATTTCTTTCTCTTGCCTGA
CTGCCCTGGCCAGAACTTCTAATACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCTTGTCTTGTGCTGGTTTTCAAAGGGAATGCTTCCAGCTTTTG
CCCATTTAGTATGATATTGGCTGTGGGTTTGTCACAAATATCTCTTATTAGTTTGAGATACATTCCATCAAAACCTAGTTTATTGAGAGTTTTCAGCATG
AAGAGGTGTTGAATTTTGTTGAAGGCCTTCTCTGCATCAATTGAGATAATCATGTGGTTTTTGTCATTGGTTCTGTCTATGTGATGGATTACGTTTATCT
ATTTGCATATGCTGAACCAGCCTTGCATCCCAGGTATGAAGCTGACTTGACCGCACCACATTTGTCTTTAACTGTCTTTAAGTGCAATCATTGCTTTCAC
CATCCCACTTTCCATTTTTTTATTCACTTTGCTTTTTAATTTTCCAATAAAATTTTAAAGTCAAAATAATATGTGCATATCATTTTAAAGAGATCAAATG
GTACAAAACTTGAAAAGAAGAGCATTAGTCCTCCGAGGTTCCCTGGTTCACCAATTTTTCCAGTCACTGTGAAGTCTTGTTGATTTTCTTCTGGTAGCCA
TTTGCAAATCTTGAAATCCCATGTTTTATACCTCCATTTCTTCATTATCAATCTTATAACAATATCTATAGGTTTTCTGCCATGTTGAAGGAGTATTAAT
TAACTTGAAGAAGGATGCTTATATTATAAACTTTCTGAATTCTTGCATGTCTGACATTTTAAATATTCTATTMTTTACTTGAATAATATTTTGACTAGGT
ATCAAGTTAAAAGTTGTAAGTCATTTCCCCTGAGAATTTTGAAAGCATTACTCTTTTGTCTTTTAATTTCTAGGGCTACTGATAAAGAGCATAAAGCTAT
TCTGATTTCAAAACTTCACAGCTGACTATTTTTTGTCTCTGGATGTTTTTAGAAACTTCTCTGTCTCTTCAGTATTCCAGAGTGACATGATGATATACCT
TGATTTTCTAAG


SNP Information

Context             (SEQ ID NO:33699):
CGCCCGCGACCCCCGCCATTCGCCGCCCCCTACCTCGCTCAAGCAGGGCGAAGTTGCGTTCGGAGAGCCCGGGATCTGTACGGCTCGCTTCGCATCTTGC
Y
GCTGCCCCCGACTGACTGCGTAGTGCTCTCGCAAACTTACTCGAGTCGGGGTCCCCTCCCTCCGCAGCGGAGCACTCCAATGGCCAGTCCCGCTCGCCGC
Celera SNP ID:            hCV27478253
SNP Position Genomic:     5488
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,30)   caucasian(C,2|T,32)   total(C,6|T,62)
SNP Type:                 UTR 5;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,401|T,1054)   total(C,401|T,1054) 
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:33700):
GAGCCGGCACCCTTCTCTCACATTCTGCTTGGGAGTCGACTCAGAGGCCTCAAATCTCATTACTAGCACTTTGCCCACCCTTTTCTTTTGCTTAGATGCT
R
CTTAAGAACGTGAGGCTGAGAGGCGGACTTGGTCAGATCTGCCTGCGTGACAAGCTCAGGACAGGACGCTTCTGCCCTTGCATTACTGTTGTAAAAGTTT
Celera SNP ID:            hCV1271372
SNP Position Genomic:     6644
SNP Source:               Applera
Population(Allele,Count): african american(A,10)   caucasian(A,8|G,2)   total(A,18|G,2)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,7)   caucasian(A,20|G,16)   total(A,43|G,23)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33701):
TTAATGCTGTTCTCCTTGTCCGCGCTGATATTCAGCTTTCCCGTGTAGTTGTAATGCCGGACGATGATATCATAGTTGACGTAGTCAGAGACCGAGCTGC
S
GTGGGCCTTGACCAGCGGGACGCTGGTGGGCCCCATGGTGCCAACCCTGTGTCCCCAGGAAGCCGGGGTGGCGCTACTCCGGACGAACGCTAGAGGGCGA
Celera SNP ID:            hCV25635775
SNP Position Genomic:     3499
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,1|G,35)   total(C,1|G,69)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33702):
GCTGTTCTCCTTGTCCGCGCTGATATTCAGCTTTCCCGTGTAGTTGTAATGCCGGACGATGATATCATAGTTGACGTAGTCAGAGACCGAGCTGCGGTGG
K
CCTTGACCAGCGGGACGCTGGTGGGCCCCATGGTGCCAACCCTGTGTCCCCAGGAAGCCGGGGTGGCGCTACTCCGGACGAACGCTAGAGGGCGAGGCGA
Celera SNP ID:            hCV25635767
SNP Position Genomic:     3504
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,1)   caucasian(G,36)   total(G,67|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33703):
TAGTCAGAGACCGAGCTGCGGTGGGCCTTGACCAGCGGGACGCTGGTGGGCCCCATGGTGCCAACCCTGTGTCCCCAGGAAGCCGGGGTGGCGCTACTCC
R
GACGAACGCTAGAGGGCGAGGCGAGAGAGCCTTCACTGGCTTCAGGGGTGGTTCGATGAGTGATCCAGGCTTTTTGTGTAGCTTTTCCTTGGCTGGAGAG
Celera SNP ID:            hCV25635776
SNP Position Genomic:     3580
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,1)   caucasian(A,23|G,1)   total(A,48|G,2)
SNP Type:                 UTR 5;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,223|A,1052)   total(G,223|A,1052) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:33704):
CGGCCCGGCGAGTGTCGGCGGCGCTCTGGGGAGGAGAGGCTGGGAAGGGGCTGCGAGAGGTACGGAGGAGACAAGCAGCCCGGGAGGGAGAATGAACCGG
R
AGGTTCCTGTACTCCCCCCGCCACCCCAGATCCTCGTGCTACTCGCAACTGCGGTCTGAGGGGCAGTGGCTTTCCCAGAGTGCACAGAGAAATGAACCAG
Celera SNP ID:            hCV27854097
SNP Position Genomic:     6237
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,30)   total(A,2|G,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:33705):
TAGTTGTAATGCCGGACGATGATATCATAGTTGACGTAGTCAGAGACCGAGCTGCGGTGGGCCTTGACCAGCGGGACGCTGGTGGGCCCCATGGTGCCAA
M
CCTGTGTCCCCAGGAAGCCGGGGTGGCGCTACTCCGGACGAACGCTAGAGGGCGAGGCGAGAGAGCCTTCACTGGCTTCAGGGGTGGTTCGATGAGTGAT
Celera SNP ID:            hCV25635777
SNP Position Genomic:     3544
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,24)   caucasian(A,11|C,23)   total(A,17|C,47)
SNP Type:                 UTR 5;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:33706):
TAAAATGACTTCTGCTGAAACAAATACATTCAAAAATCAAGAAAAGTACTTTTAACACAACAAAATACAACCATGTTGTTGCTTGAAATGAATCACACAA
S
ATTCTGAAATAAACATCAACAAAAGTGCCAAAGACAGATGTCATATTTGTTAGACTCATTTGCTAAGAAATCTCCCTTGGTTTGCAAAAGTTAATCCATT
Celera SNP ID:            hCV8395708
SNP Position Genomic:     1437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:33707):
TCAAAAATCAAGAAAAGTACTTTTAACACAACAAAATACAACCATGTTGTTGCTTGAAATGAATCACACAACATTCTGAAATAAACATCAACAAAAGTGC
S
AAAGACAGATGTCATATTTGTTAGACTCATTTGCTAAGAAATCTCCCTTGGTTTGCAAAAGTTAATCCATTCGGTTTTCACTTTGTTTTGCTTGTCTGTT
Celera SNP ID:            hCV8395709
SNP Position Genomic:     1466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33708):
TTTTCTGCCATGTTGAAGGAGTATTAATTAACTTGAAGAAGGATGCTTATATTATAAACTTTCTGAATTCTTGCATGTCTGACATTTTAAATATTCTATT
M
TTTACTTGAATAATATTTTGACTAGGTATCAAGTTAAAAGTTGTAAGTCATTTCCCCTGAGAATTTTGAAAGCATTACTCTTTTGTCTTTTAATTTCTAG
Celera SNP ID:            hCV1271378
SNP Position Genomic:     12573
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:33709):
GCAGGGCGAAGTTGCGTTCGGAGAGCCCGGGATCTGTACGGCTCGCTTCGCATCTTGCTGCTGCCCCCGACTGACTGCGTAGTGCTCTCGCAAACTTACT
S
GAGTCGGGGTCCCCTCCCTCCGCAGCGGAGCACTCCAATGGCCAGTCCCGCTCGCCGCGGCCAGTTCCCTGCCTGCTACGCGAAGTCACCCAGCGCCGCG
Celera SNP ID:            hCV27848191
SNP Position Genomic:     5530
SNP Source:               Applera
Population(Allele,Count): african american(C,16|G,2)   caucasian(C,22|G,2)   total(C,38|G,4)
SNP Type:                 UTR 5;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,21|G,5)   caucasian(C,24|G,4)   total(C,45|G,9)   
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:33710):
GGAGGTTCCTGTACTCCCCCCGCCACCCCAGATCCTCGTGCTACTCGCAACTGCGGTCTGAGGGGCAGTGGCTTTCCCAGAGTGCACAGAGAAATGAACC
M
GCGCCGGTTTTGGTGTTGGGCGAGGGGTTTCCCTCAGCTGAGCACAAAGTCAGGCTGTGTGTCCCAGATTCTGGCCAATGGAGAGGTCGTTGAGGGGGTG
Celera SNP ID:            hCV27836578
SNP Position Genomic:     6336
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,1)   caucasian(A,36)   total(A,69|C,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:33711):
GGGGAGATTCTCGGCCAGGAGCTGCGGAGCAACTGCAGCTGCCCAGCAGGAGCCGGCACCCTTCTCTCACATTCTGCTTGGGAGTCGACTCAGAGGCCTC
R
AATCTCATTACTAGCACTTTGCCCACCCTTTTCTTTTGCTTAGATGCTACTTAAGAACGTGAGGCTGAGAGGCGGACTTGGTCAGATCTGCCTGCGTGAC
Celera SNP ID:            hCV27836579
SNP Position Genomic:     6595
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,13)   caucasian(A,26|G,10)   total(A,47|G,23)
SNP Type:                 INTRON


Gene Number:                 150
Celera Gene:                 hCG2044043 - 30000063665119
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W1A1(8111603..8127192)
Chromosome:                  
OMIM number:                 192320
OMIM Information:            VASOACTIVE INTESTINAL PEPTIDE;VIP


Genomic Sequence (SEQ ID NO:12310):
AGTGAGCCGAGATCACGCTACTGCACTCCGGCCTGGGTGACAGAGCGAGAGTCTGTCTCAAAAAATAAAAGACACAAAGGGGCCTCAAATGCATCTAACT
AAGTGAAAGAAGCCAGCCTGGAAAGGCTGCACACTGCATGATTCCAACTATAGAACACTCTGGAAAAGGCAAAAGTATAGAGGCAGTGAAAAGATCTGTG
GTTGCCAGGGGGCAGATGGGAGGAAGTAATCCATAGGTGGAGGTGGGAGGATTTTTAGGGCAGTGACRCAACTGTGCGACACTATGGTCAATGGTGGACA
TATCATGACACATATGTCCAAACCCATGGAAGGTACAGTGCCAAAAGTGAACCCCCATGGAAACGCGGGGTTCCAGAAGACAGAGCCGTGTCCATGCAGC
TTTGTCCRTTGCAACAAAGGCACCGCTTTTGGTAAAGGACATAGATAGCGGGGGAGGCTTGCATGTGTGGGGTGGGGTTACATGGGGACTCTGTACCTTC
TGCTGAATTTCACTGTGAACCTAAAACTGCTCTAAAAAATAAAGTTTTTTTTAAAAAAGCAATTTGACCCAAAGTCAGTCTCAGGAGGCCAGGGGGTGGG
GGACAGAACAGGCCAGGGCAGGAACTTGCAGGGACGGGTGCAGGCAGGCTGAGGTCTCAGGAATGTGTCTGCACCTCTGTGGTTTCCCTTCTCTTCTTCC
CTTCTGGGGACCTTTGCAATCTGGGCTGGCTGCTGGGTCCCGCCTAGGTTTCAGATTCTGCCCCACCCTGAGGTTGGCCAGTCCCTTCTCTCTGTGGCTC
TGGGAGTGGAGCCTCAGCCCTTGGTACAGTGGAGCAAACAAACTCTGATTTGGGGCCCCAGAGAGGAAGCGCTGGGAATCCAGGGGTTGGACAGGCTGGA
CCCCAAGCCCTGCTTCCACCATGGCTGTCCGTGCGACCCTGGGAGTGACTGTCAGTCCTGGTGAGACAGGGTCACAGCACCTGCCTCTCATGGCCATTCA
ACTGGGTTAATGTCCCTGCCCAGCCAGGGAATGAGAGGAGGTGGCACCATGTTTGCTGCTGGAGTGTAATGGCGCGATCTTGGCTCACTGCAACCTCCAC
CTCCCGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCTGAGTAACTGGGATTACTGGCACGCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGA
CAGGGTTTCATCAAATTGGTCAAGCTGGTCTTGAACTCCCAACCTCAGGCGATCCGCCTGCCTCGGCCTCCCAAACTGCTGGGATTACAGGCATGAGCCA
CCGCACCCAGCCTGCCCATGTGGCTTCTAACTTGTTCCCTGACCCTGACCTTTTGCTGGAGGCAGTGAAGGCAGGAGAGAGTGGAGGCCACATCCAGGAG
CTTCCAGGGACCTGAGGGGTTGGAGGACAATGAAATCCAGGACACGCCACTGACTTGCGCCTGTCTGCCAATTTTTCCCCATTTAAAAAAGTTATTTAAA
GGGCCAGGTGCAGTGGCTTACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGCTCGCCTGAGGCCAGAAGTTCGAGGTGGTGAAACTCCACC
TCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGCATGCACCTGTAATCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGCACCCTGGAGGT
GGAGGTTGCAGTGAGCAGAGACTGTGTCACTGCACTCCAGCCTGAGCAACAGAGTGAGACTCTGTCTCCAAAAAAAAAAAAAAAAAAAAAAAAAGTTATT
TGAATTGTGGTCAAGTTTATCTTAATGATTTTTAAGTGTTCAGCTCAGTGGCAGTAAGTACATTCATATTGTCACCATCCATCTCCAGAACTTTTTTTTT
TTGGAGACAGAGTCTCGCTCTGTCACCAAGGCTAGAGGGCAGTGGCACAGTCTCTGCTCACTGCAACCTCTGCCTCCCAGGCGCAAGTGATCCTCCCACC
TCAGCCTCTCGAGTAGCAGGGACCACAGGTGTATACTACCACACTCGGCTAATTTTTGTATTTTTTTGTAGAGATGGTTGGGGGGGTGTCTCACTTTGTG
GCCCAGGCTGGCCTCGAACCCCTGACCTCAAGTGATCCACCTGCCTTGGCCTCCCAAAGTGCAGGGATTACAGGCGTGAACCACCTCACCCAGCCCAGAA
CTCTTCCATCTTGCAAAACTGAAACACTGTGGCCTTAAGCACTCACTCCCCAATCCCCCTCCCCCAGCCTCTGGCACCCCCCAACCCATTCTACTTCCTG
TCTCTATGGAGGTGACCACTCCAGGGACCTCCCATGAGTGGAATGACTCAGGATTTGTCTTTCCGTGACCGGCTTATTTCCCTCAGCATAATGTCCTCAA
GATTCATCCACAATGTAGCATATGTCAGAATTCCCTTACTTTTTAAGGCTGCCTTTTTTTTTTTTTTTTTTTTTTTTTGGCAGAGTTTCACTCTGTCACC
CGGGTGGGAGTGCAGTGGTGCAATCACAGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGCAATCTTCCCACCTCATTTTTTGATTTTTTGTAGAGACAA
GATTTCACTATGTTGCCCAGGCTGGTCTTGAACTCCTGAGCCCAAGCGATCCCTCTACCTCGGCCTCCCAAAGCACTGGGATTACAGGCATGAGCCACCA
CTCTGAAACAGCCCGGCCTGGCTGTCTGCCCTTTTTAAGAAAATAAGATTTTGGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTCGGGAGGCT
GAGGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCTGCCTGGCCAACATGATGAAACCTCGTTTCTACCAAAAATACAAAAATTAGCCAGGCATGGT
GGCGGGTGCCTATAATCCCAGCTGCTCGGGAGGCTGAAGCAGGAGAATCGCTTGAATCCAGGAAGCAGAGGTTGCAGTGAGCCGAAATGGCACCATTGCA
CCTTCAGCCTGGGCAACAAGAGCGAACCTCCATCTCTAAATAAAAAATATTTTGGCCAGGTGCAGTGGCTCATGCCTATAATCCTAGTGCTTTGGGAGGC
TGAGGCAGGTGGGTCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACACGACGAAACTCCGCCTCTACTAAAAATACACAAAATTAGCCGGGCATA
GTGGCAGGCGCCTGTAATCCCTGCTGCTGGGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAAGCAGAGGTTGCAGTGAGCTGAGATTGCGCCATTG
CACTCCAGCCTGGGCGACTGATCGAGACTCCATCTTAAAAAAAAAAAAAGTTTTTATGGAAAGTAACACAGTGCACAGAAAACTCCAACAGTACAAAACA
GACACATGGTTTCCTCTCCTCCAAAGCTGTCGCGCCCAGCGTCCTCCGGGAAGTACCTGGGCAGTGTCGCCTGGGTACAGCTTGTGCCTGACAGGGGCAA
TGTCATCGTCACCTCTGCTTGCTGGGGTTCCCCCGACAGCCTGTGCTGCCGTGTTGTTCCCGGGGAGGGGCTGTTGGCGGGCACCTCCCTGCTTTGTGCT
GCTGTGTGGATATCCTCCCAAGGACATCTTCCTGTGCGTGTGTCTGGCAGAAATTCCTAGACATGGAACCCTTGAGTATAAGGGCATGTGCGTCACTATG
TTTTTTTTTTTTTTTTGAGACGCGTTTCACTCTTGTTGCCCAGGCTGGAGTGAGGCTGGAGTGCAATGATGCAATCTCGGCTCACTGCAACCTTTGCCTC
CCATGTTCAAGTGATTCTCCTGCCTCGCCTCCCGAGCAGCTGGGATTACAGGCATATGTCACCATGCCTAGCTAATTTTGTATTTTTACTAGAGATGGGG
TTTCTCCATGTTAGTCAGGCTGGTCTCGAACTCCCAACCTCAGGTGATCCACCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTG
CCTGGCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGTCGGAGTCTCGCTCCGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGTAACCCCT
GCGTCCTGGGTTCAAGAGATTTTCCTGCCTCAGCCTCCTGAGGAGCTAGGACTACAGACGTGCGCCACCATGTCTGGCTAATTTTTGTATTTTTAGTAGA
GACGGGTTTTCACCATGTTGGCCAGGACGGTCTCGATCTCTTGACCTCGTGATCCACCCACCTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAT
TGCGCCCGGTCGTGCATCACTATTTTGATGCATCATCTTCAAACCACCCTGCCCCAGCATCACCGGACTGCCGGTGTGCCCAGCCTCCCCTGCACAGCTT
CCCACTCTGCTCACAGAGAAGACGGTGGAGGGGGGAGCCCAGGCGTGGGTTTTCCGTGTGCTGAGGGTGTCCTCAGCCACCTTTTTCCCCAAGTCATTGA
CGTGAAGCTGATTTTCTCATTGGTGGCCATGGAAACTGCCCAGAAATGGGAGCAGGGCCTCTGAGACCCTGCCCCAGCTAGACTCTCTCTCCAGGCTTCA
GTGTCTCCTCCTGGAGCTGGGTGTTGACTCTGTCCAAGACTCTGCTCAGTCACTTCCTGGCTGATCCCCGAGTGCTCAAGTGTGTGATGAGATTAGGGCT
CCCCCAGGCAGGAAACGGCCACATTGGACCCCTCCCTCCCCCATCCCTAGTTCATTTTATTTTCCCCAATCCTCATGGCTCCCAACTAGGCCCTCCTGCT
CCCAGACCCCCCCAAGCCCTGTCCCCCATCCCCTGTAGCCCAGCGCTGAGCACACTGGGGCCAGAACCACCCATACCAGACTCCCCCAGGGCACGACGGG
TTGAGGCCTCTCTGAGGCAGGGAGGGACAACACTGAGGGGCCTTGTGCAGAAGAGGGAAGGGGTACCCCCCCGAGCTTCAGTTTCTTCATCTGCCCGATG
AGCCCCCATCCAATGGTACCCAGGAGTGGGGATGTGCTGGGGCTAGAGGAGGGAGGCCCCCTGGAGGCTGGCTTGGGGACCCTTCAACCTGGCCACCTCA
CTCAGGGTCAGAGGTCAGAGCAGGCGAGCCACACACCCCGAAGTCCCCCCGGTCCTCGGCAGGTGCTGTCCCCAGCATCACTGTCTCCCCTACAGATGCC
CGTGTGTCCCCTGGGCAAGAGTGAAGTGAGGCACTCATACAGGGGTGCCTTGTGAGTATGGGGTCAGCCGAGGATGCTGAGGGGCTCTCGAGGTTCAGCC
AGAGTCCCTGACGCTGGGCTCGTGCTGCTCTGGGGGTCTGAAGGGACCCTCGCTATTACCCTCTGGGAGGCGCCCATCCTTGGTTTTTTTTTTTTTTTTT
GCCGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCAAGATCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCCACCTCAGCC
TCCTGAGTAGCTGGGACCACAGGCATCTGCCACCAAGCCCAGCTAATTTTTGTATTTTTATGAGAGATGGGGTTTCTCCATGTTGGTCAGGCCGGTCTCA
AACTCCCAACCTCAGGTGATTTGCCTGCCTTGGCCTCCCAAAATGTTGGGATTACAGCCGTGAGCCACCGTGCCTGGCCTAGCAGGGCTCTTCTTATCCT
GCTCACCAGAGATAGGAAGTCGGGGGGTGACTTCAGGAAAGGCCCAGAGCCCGTGATGGGCGTGGGGATTGGGGTGAGGACAGGGCTGTCGTGAGAACAG
TGGCTGCAGATGTGAGCGGCTGGCAGGAAGTGGCCACTTGAACCGCAGATGCTTCCTGGGCTGGTCAGGGACCGGGGGTGCTGGCTGCAGCTGGGACCCC
CCCCTGCATCTTGCTGGCCTGGCACCTGGGTCCCTGGGAGGCGCCACACTGGATATAGCCACGTGGGGCAGCCCGGTCTCCATAACCCACACTCCAGTCC
TCCCACGGGCTGGCTGGCAAGYGGCCCTGGTGGGTCTGYGGGGGCAGGGGCAGCCTTCCTGGTTTATCTCYACCGGCGCGATCTGCTCGTCCGCCTCGGC
TCCAGAAGCTGGGGCTCAGGGTCCRGCGAGGCAGGAAGCCTGAGGCCACAGCCCAGAGCAGCCTGAGTGCAGTCATGTGGGGGCGACTGCTCCTGTGGCC
CCTGGTGCTGGGGTTCAGCCTGTCTGGCGGCACCCAGACCCCCAGCGTCTACGACGAGAGCGGGAGCACCGGAGGTGGTGATGGTGAGTGGTCCTGGCTT
TGGGRTGCAGAGATGGGGTTACATCAGAGATGGAGCTGGGGGYCCGGAGCTGGGGAGGGGGAGGCCGGGAAGTTGCGGGCTTCAGCCCAGCCCACTCTGT
ATCCYGTCTCTGACCCCATARGGCTGGGCTATTCCCTTGAGTGTCATGTCCAGCTGTTTCCCACCAGGGCAGACCCCAGGCTCTGAGCACCTCCCTCCCT
GCTGCTTCTCGTCACCTGCCGAGGCRGGGGCTGACTGAGGTCCCCTCTCTCTCCCAGACAGCACGCCCTCAATCCTGCCTGCCCCCCGCGGCTACCCAGG
CCAAGTCTGTGCCAATGACAGTGACACCCTGGAGCTCCCGGACAGCTCACGGGCACTGCTTCTGGGCTGGGTGCCCACCAGGCTGGTGCCCGCCCTCTAT
GGGCTGGTCCTGGTGGTGGGGCTGCCGGCCAATGGGCTGGCGCTGTGGGTGCTGGCCACGCAGGCACCTCGGCTGCCCTCCACCATGCTGCTGATGAACC
TCGCGRCTGCTGACCTCCTGCTGGCCCTGGCGCTGCCCCCGCGGATCGCCTACCACCTGCGTGGCCAGCGCTGGCCCTTCGGGGAGGCCGCCTGCCGCCT
GGCCACGGCCGCACTCTATGGTCACATGTATGGCTCAGTGCTGCTGCTGGCCGCCGTCAGCCTGGATCGCTACCTGGCCCTGGTGCACCCGCTGCGGGCC
CGCGCCCTGCGTGGCCGGCGCCTGGCCCTTGGACTCTGCATGGCTGCTTGGCTCATGGCGGCCGCCCTGGCACTGCCCCTGACACTGCAGCRGCAGACCT
TCCGGCTGGCGCGCTCCGATCGCGTGCTCTGCCATGACGCGCTGCCCCTGGACGCACAGGCCTCCCACTGGCAACCGGCCTTCACCTGCCTGGCGCTGTT
GGGCTGTTTCCTGCCCCTKCTGGCCATGCTGCTGTGCTACGGGGCCACCCTGCACACGCTGGCGGCCAGCGGCCGGCGCTACGGCCACGCGCTGAGGCTG
ACCGCAGTGGTGCTGGCCTCCGCCGTGGCCTTCKTCGTGCCCAGCAACCTGCTGCTGCTGCTGCATTACTCGGACCYGAGCCCCAGCGCCTGGGGCAACC
TCTATGGTGCCTAYGTGCCCAGCCTGGCGCTGAGCACCCTCAACAGCTGCGTGGATCCCTTCATCTACTACTACGTGTCGGCCGAGTTCAGGGACAAGGT
GCGGGCAGGGCTCTTCCAACGGTCGCCRGGGGACACCGTGGCCTCCAAGGCCTCTGCGGAAGGGGGCAGCCGGGGCATGGGCACCCACTCCTCTTTGCTC
CAGTGACACAAAGTGGGGAAGGCTGTACTGGGTCGAACAGGGTCCCTTCCCCCACTTCACGTCCTTCCTGGGACCTCAGAATGTGACCTTATTTGGAAAT
AGGGTTGTTACAACTGTCACTAGCRGAGGTCACTTTGGAGAAGGGTGGGCCTTACATCCAGTGTGGGTGGTGTCCTCATAAGATAAGGAGAGGCCAGGCC
TGGTGGCTCACGCCTGTAATCCCAGCACTTTAAGAGGCCAAGGCGGATGGATCACTTGAGCCCAGGAGTTCAACACCAGCCTGAGCAACATGGTAAAACC
CCATCTCTACCAAAAATACAAAAATTAGCTGGGCTTGGTGGCTGGCGCCTGTAATCCCAGCTACTCAGGAGACTGAGGCAGAAGGATCGCTTGAACCTGG
GAGGCAGAGGTTGCAGTGAGCCGAGATTGCGCCACTGGACTCCAGCCTGCGTGACAGAGAGCCTGTCTCTAAATTAATTAATTAATTAATTTAATTCAAT
TTTAAAAAGACGAAAAGTGACGGCCAGGTGCAGTGGCTCACGCCTATAATCTCAGCACTCTGGGAGGCCAAGATGGAGGATTGCTTGAAGCCAGGAGTTT
GGGACCAGCCTGGGCAACATAGGGGGATCCCATCTCTACACACAAAAAAATTTTTTAATGAACCAGGCATTGTGGCATGCGCCTATAGTCCCAGCCACTC
AAGAGGCACAGGCGGGAGGATCACTTGAGCCTGGGAGGTTGTGGTTGCAGTGAGCTATGATTGTACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACC
TTGTCTCAAAAATAAACAAACTAAAATTAAAAAAAGAAGACGAGAGATAGTGGGTGTGGTGGCTCACACCTGCAATCCCAGCACTTTGGAAGGCCGAGGT
GGGCAGATCATCTGAGGCCAGGAGTTCAAGACCAGCCTGGCTAACATGGTGAAATCCTATCTCTACCAAAAATACAAAAATTAGCCAGGCGTGGTGGTGG
GCACCTGTACTGGGGAGGTGCCCACCCAGCTACTGGGGAGGCTGAGTCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCGGTCAGCTGAGATGGTG
CCACTGCACTCCAGCCTGGGCGAAAGAGCGACTCTGTCTCCAAAAAAAAGAGAAGAGGAGAGGACACAGAGACACACAGAGAAGAAAGCCATGTGGCGGC
AGAGGCAGAGATGGGAGTGATGCGGACGGACACAAACTAAGGGATGCCACGATGCCAAGCACAGCCAACAGCCACCAGCAGCCAGGAGACAGGCCTGGGA
CGGGCTCTCCCTCACAGCCTCCAGAGGGAACCAGCCCTGCCACCACCTTGACCCTGGACTTCTGGCCTGCAGAACTGTGAGACAATAAACTCTCATTGTT
TTAAGCTGCCTGGCATGTGGCACTTTGTCAGGGCAGCCCAGGAATCTGAAACAGGATCAAACTCTGCTTCCTGGGCCCTGCCAGCATCTCTGGCTCGGCT
TTCTGGGCTGGATGCAGCCCACGACGCACTGGTGTCTGAGATGGGGCTGGAGCTGGGGCTGGGGCTGCAKTCCCTGGAGACTCACTGCAAGTTCCTGCCC
AGGAGGCTGAGGGCACCCCATCCTCAGTGCCCAATGCTGTGGCCCCACCAGGCCCAGAGCCTGGTTGGCCATTCTCATGCCCACCAGCTTCTGGCTTTGG
GATGTCTCTTGAGCAACCAGAATAGCACCCCCAACTCTGCTCCCCAAAACCCATCACTAGCACGGCTCAGCCTCCTGCTATCCCCTGACTGCTGGGGACC
CTCGCCTTCCCTCCTCTCACCTGCAGGCTGATCCTTCTTTTCACTTTCTGTCAATGTCACCAGGGATAAGGTGGGACAATGGGGGGTGGGGGTGGACAGT
GTGTGCTGGGGGGTTCGGGTGCTGCAGACCTGGAACTCCCTTCTGCCAGGATGTYGGCAGCCGGTTGTAAGCCTTGCAYGGGACAGACCACAAGGGGCCA
TGCCAGTGGCTGTGGAGGACACAGCTGGTGTGTGGGGAAGGGGAGAAGCCTCAGCACCTGGTGCACAAACACACACACAGACACAGACACACACACACAC
AGAGACACCGCTGCTCACTCCAGGGARTGGCAYAGGGCAGTTTCAAAGACCACTGGGGCATGAACTATGGGGGCAAGGCAGAGGGTTGGAGGGCCACTGT
TGGGCTCCTCATTGGGTCTATGTCTCTGATCAGCCCAACTTTGGGCAGCCCTGGGCTGGGGGTGTCAGGTGCCCGGGACACACACATGCACACACACACA
CATGCACACACAAAGTTCATGTGCACCCCAGAACATGTGAGTAAGATCAGTAACGTGTATTCKTGTCAATATCCTGGAGTGATCATTTACCAGAGTTTTC
TGAGATGTTAACCACAGGCACAAGCTGGGTGTGTGGGTATGAATGGTCCCCAGGACCAAACTGCGGTCCCACAACTGCATGTGGTTGTAGGATTATCTCA
AGGTGCAGGTGTTTGACATCCATAAACCCTCCTCCCCACCACTCTGAAAGGCTGGGCTGTAGACGAAGACAGGGCTCAGAAGCCCTGGCCTGTGGGCCCC
CACCACCCGGCCACTATGTCTCYGAGGGGCCGGAGTCTGGCCCCATCTGTGGAACGGGCTGGCGCTCTGGGTGCTGCTTTCCAGGTTCCCGCTGCTCACA
GGAGGCCGAGGCCCGGCTGTGACCCTGGAGATGAGGTTTTATCTTACAACATCCTCTACAGCAAGTGGGCACGGGGCCTCGGGCTGAGGAAGGAGCCACA
GGGCCTGTCGCTTGTAGGGTGCCAGGGGTGGGGAACCCACCGGCCAGGGCAGCCTCAGACCTTGATCTCACAGGCAGCGAGGGGCCTCCRTGCTGGCAGA
GATCAGGGCTGAGCGGTGTTGGCTGAAATAAATACCACCCCGGAGAAGATGGGCAAATGCAGACATAAGCAGGTGCCAGGGGTCACAAAGGGGAATCAAA
GTCTGCTGGTACTGGTGGCAGGCAGCTGGTAGGGCCCCCCAAGGCAGGCAGGTTCTGGGCCTGGGGGCCCTGGGAGTGGGCTGGTCCTCTGGGCACGAGG
ACATCAGGAACTCACGGTGAGGAAGCACCGGGGTCACCCAGCCCCGGCAGCCGGAAGCTGAAAGTGCATTTGCTGAGAGCCATCTGCTTCCCCGCAGGGC
CTTGTGATGTGAGCCCGAGGTCCCCGGGGGGCGAAGGCAGAGGGTGCGAGAGCTGGGACAGTCTTAGGGCAATTTGGGGTCCTGGGTGCCCCAAAGGGAG
GCCGGGGCTTTGTGTTTCAGAGAAACGCAGCCTGTTCCGTTTTGAARTTGCCCACCGGCTGGATGTTTTGCTAATTTAGTCCACATCGTGTTTGCTCAGA
AAGAGGCTTTTGGCCACACGAGTGCTTTCTGGGAATGTTTCTTCTCCCGGGAACAGAATGTCAGGCTGTGGGAGCTGCCGTGGCCCCAGGAAAATGATGC
CCAGCTCCAAGGCTGGGGGGTTGGGGTGCTTGGAGCTCCAGCTGTAGCTAGGAAGGTGGGGGATCTCCCAAGGGACCTCCAGCTGTCCCCCCTGCACCAC
ACYGGTGACTGCTGAGCCCACACCTGGGTCCCAAGAGTCTCATCCTAGGGACGGGCAGATCTCTGTCATTCTGTTCCTTGGGTTCATTTAGAGGCAGGTG
TCACCTGGGCTGAGGTCTGCCCACCCACCATACAGAGTCACAGGCTGATAGGGACRGGATGCAGCCAGATGGTGTCGTCCTGCTCTCAGCAGGGCAGCCG
TTAGGAAGAGAAGCCGCTCTGACTGGCCAGGAGAGGAGAAAGATTCCTATGGGGCCGCCAGGACTTCGGGATGGGACCCCACACCCCTTTCCTGAACCCA
ACTCCACGGGGCTCAGGCCAGCTGCCACCTCCTCATTTAGATGGCAGAACCCCAACTGGAWGGGGGACACATGGCCCAGGCCTGGCACTGTACAACTCTG
CCTCCTTTCCCCTTCCAGTGGACCACAGTGATGGGCTCTGGGTGTCCATGTGCGGTAAGRGGGGAGTAGCTTGTGTCAGACCACCAACCAAATCGAAAAG
CTACCCATAGCACACTACCCAGCAATACAAAAGAACAAACTCCAGGCCGGGCACAGTGGCTCACGCCTGTAATCCCAAAGCTTTGGGAGACTGAGATGGG
AGGATCACTTGAGCCCAGGAATTTGAGGCTGCAGTGCACAATGATCATGTCTATGAACAGCCATGGCACTCCAGCTTGGRCAACATACAGAGACCCCATC
TCTACAACACACACACACACACACACACACACACACACACACACACACTAGCTGGGCGTGGTGGTAGTGTGTGCCTGTGGTCCCAGCTACTCAGGAGGCT
GAGGCAAGAGGATCACTTGAGCTCAGGAGGTCAAGGCTGCAGTGAGCCATGACCACGCCACTACACTCCAGCCTGGGCAACACAGTGAGACCTCGTTTGA
AAAATAAAAGAATAGGCCTGGCATGGTGGCTCATGCCTGCAATACCAGCGCTTTGGGAGGCCAACGCGGGTGGATCACCTGAGGTCAAGAGTTCAAGACC
AGCCTGGCCAACATGGTGAAACCCCACCTCTACTAAAAATACAAAAAAAATTAGCCGGGCATGGTGGCGGGCCCCTGTAATCCCARCTTCTGGGGAGGCT
GAGACAGGAGAATCGCTTGAACCCAGGAGGCGGAGATTGCAGTGAGCCCAGATTAAAAAAAGAATAAACTATGGATACACGAAACAACACAGGTGAATGC
AAGGGAATCATGCTCCAAAGATTATCCGCTCTGATTCCATTTACCTGGCATTCTCAAAATAACAAAATTACAGACGGGTAGGGGGAAAATGGCTTAGTGG
TTGCAGGTGTTGAGGGGAGAGATGAAGTTATGGAAGAGCAGCTGGAAGGATCCTGTGCAGATGGGCTGTTTGTTGACTATGGTTGAGATTACACAAATCT
GCCCATGAGGAAACCGCACACTGTTAACTACAGGCAAAACTTCCCTAGTCCAAAAATCCTAAATCTGAAATGTTCCAAAATCCAAGTCTTTTTGAGCAGC
GACTTGACGTGCTCAAAGGCAATGCTCATTGGGGCATTTCAGATTTTTAGATTAGGGATGCTGAACCTTAGCTAACTATATAATGCAAGCATTCTGAAAT
GTGAAAAAATCTGAAATCCGAAACACTGCTGGTCCCCCCAGCATTTCGGATAAGGGATCCTTGACCCGTATGMGCKCGCGCGCGCGCACGCRCACACACA
CACACACACACACRCGCGCGCGTGCGCCCGCGCACAGCTGTTCGCTGGTGGGTGTTGCGTGGRCCAGGGTGGAGGGAGGATGAATGTCCCACTTTGTCCC
CAGGAACTCTGAGCCTCTGACCCTGAGTCACTCCCACTGCCAGTGGGGGGTCGGGGCGGGGCGGAGGAGTCGGGGCAGGTCGTCGGGGGAGGTTGGTAGG
GGAGGGAGGTGGGGAGATATTGMGCCTATGTCTCTTATCTCTGGGGTGGGCCCAGCTGTTACCTGTCCTCCGCCTCCCCTTCAGGCTCAGGGTCTGAGTC
CTCCACCTCAAGGCCGGCTCCATTCAGCTTCACGTCCTGCTGTAAAGGCCCCGGGGCCACAGAAGCCAGGTCATCCCCGTAGGTGGAGGACGACGAGGCC
GGCAGCCGCTGCTCTGGAAGGAAGGGGGCCTCGGTCGGGAGGGCGTGGCGGGGAGGGGACCCAAGGGCCGAGGGGAGGAGATCCGTGGCCCAGAGCAGCA
GCGATGGTGTCCCCGAGGCTAGGCGGGGGGTAGGGTCCTCACCGAGGGCGCAGCAGCTGGGAGGCGCGGGCTCCAGGGGCGCGGCYKGGCGGCAGGCGGC
CTCCCGCAGGCGGCAGGCGCTGGCGTAGACCACCCCGTCGGAGCCGCACACCGGGTTCCCCTGGGCGCCGCAGTCGTGGTCGCAGCCGCATCGCGCGATC
GCCGCCCCCTCCTCAGGGGCCACGGCAGGGCCCGACTCGCCGGGGAACCAGCCTGGGGGACGAGGCAGGCTCGACAGACCCCCCACCCTGAACCTTGCCC
GCGCCCCCACAGAACCTGGGGGTGGGGAAGATGTCCCTGGGTCCCGGGCCCACTACCCCCTCGGTGGGTCTTGGGGCGCGACAGTTAATGGGAGGTCCTG
AGCCCTGGCCTTATGGAATTTCACGCAGGTATTTGCCTAATACTTACAAAAACAGAAACAGACTTTTAAAAAGCGGTTGTAGGAGAGAAAGGAGACAGGG
CGTCCTGTCTGGGCCRCCCTGCAACAACAGCCCCGTCCCCTGCCGCGCCTCCTCCGCACTGACCACACCCACCCCAACCCCACCCCCACCGCACTGACCG
CTCCTATCCTCAACCCCGCCCCCTCCGCSGTGACCACACCTACCCTCAACCCCGCCCCCTCCGTCCTGACCACTCTTAACCCCGCCCCCTCCGCACTGAC
CACACCCACCACAAATCCCGCCCCTCAGCGCTGACCGCACCCACCCTCGACCCCGCCCCCCGCACTGACCACACCCACCGCAACCTCATCCCCTCAGCAC
TAACCACATCCACTCTCAACCCCGTCCCCTTCGCACTGACCACACCCACCCCGTTCGGCCCCGCCCCCCGCACTGAACACWCCCGCCCTCAACCCCGCAC
CCTCCGCACTCACCTCCCCCTCGCCGCTCGACCCCGCCCTCACCACACTGACCACCCTCAACCCATTGCGCCCAGTCCCCACCACAGTGACCACACCCTC
ACTGGCTCGGCCCTGCCCCCAGTATACTGACCATTCCCCAGCCACTTCCCTTCCGCACTTACCACTCCCCCAGCCACGCCCCTCCCCGCTGACCGCTCCT
CCAGCCCCGCCTCCCCCGTACAGGCAGAGCGCCCGCCCACCTCTATGCTGCGTTCTCCTGACTTTACGTTGGCCCCTCCTCTGCCAAGCCCCCAGGGGAG
CCCTCCCTGGCGTCCGAGGGTGGGAGTCGGGGTGTGGCAGGCCGCGGTGGGGGGCGGCAGTGGCTCCGCGCACTCACCCGGGCCCCGGGCAGGGGCGCGC
TCCACTTCGTTGCACGCGGGTCCGGCGCACAGTTCCCGGGCGAGTGGGCTGTGSGTGCTGACGTTGTAGAAGCGAGTGGCCTCGAAGGCTACGGGACGAG
GGTGGCGGGTGACCAAGTGCAGGCGCGACGGGTCAGGGACCGGGCCGGGCCGGGGGTGCGGGCGCGCGGGCCTACCGGGTTCGTAGTAGTCGTACACGGA
GACTGGCAGCGCCGACGTCCTGCCCACCACGCACTCCCGGAGAGCACGGAACCGCACGCACGTCAGGCACCGGCTGGGGATCTGTGGGGCAGCGGCGGGC
GCAGGCTCGACCCGGGCCAGGAGGCCCGGGGCGCTGAGCTCAGGCCCAGAACTGGCTGATTTCAGGGATACCCAGGACGCGTGAAACACAGAAGAAACGT
GATCCCATTTTCTTTTTTTCTTTTACTTTTCTTTTTTTTTTTTTTTCCTGAGACAGAGTCTCGCGCTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTC
GGCTCACTGCAAGCTCGGCCTCCTGGGTTCAAATGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATAACAGGCGCCCACCACCGCACCCTGCTAATT
TTTTGTATTTTTGATCAAGACGGAGTTTCACCATGTTGGCCAGGCTGGTCTCCAACTCCTGCCCTCAAGTGATCCGCCTCGGTCCCATTTTTTATTCTTT
GGGTCCTTCCATCCCACTGGGAAAACGTCTCAGGTGGCCTCTGAAACACCACTCCTTTTTGTGTGTGTGCACGCATGGCTGAGCATGTGTGGGTGGGAGT
CAGCACATTCACGATACTGTGCAATCATCACCTCTGTCTAGTTACAGAACGGTTTCTTTCTCCCCCAAAGAAACCCCATCGCCATCAGC


SNP Information

Context             (SEQ ID NO:33712):
TGTCTATGAACAGCCATGGCACTCCAGCTTGGGCAACATACAGAGACCCCATCTCTACAACACACACACACACACACACACACACACACACACACACACA
C
TAGCTGGGCGTGGTGGTAGTGTGTGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAAGAGGATCACTTGAGCTCAGGAGGTCAAGGCTGCAGTGAGCC
Celera SNP ID:            hCV26209748
SNP Position Genomic:     11948
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,4)   total(C,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33713):
GCCCGGTCTCCATAACCCACACTCCAGTCCTCCCACGGGCTGGCTGGCAAGCGGCCCTGGTGGGTCTGCGGGGGCAGGGGCAGCCTTCCTGGTTTATCTC
Y
ACCGGCGCGATCTGCTCGTCCGCCTCGGCTCCAGAAGCTGGGGCTCAGGGTCCGGCGAGGCAGGAAGCCTGAGGCCACAGCCCAGAGCAGCCTGAGTGCA
Celera SNP ID:            hCV7493799
SNP Position Genomic:     6071
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,2)   caucasian(C,10|T,12)   total(C,34|T,14)   
SNP Type:                 INTRON;UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,17|T,19)   total(C,48|T,22)
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): PCT-TFRICTN-PTNEL(T,8|C,40)   PCT-EUR(ETN-PTNEL(C,21|T,25)   total(C,61|T,33)   no_pop(C,-|T,-)   (T,-|C,-)   JBIC-allele(C,424|T,1073)   total(C,424|T,1073)   SC_12_A(C,8|T,12)   SC_12_C(T,9|C,15)   SC_12_AA(T,4|C,19)   total(C,42|T,25) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:33714):
ATGTCTATGAACAGCCATGGCACTCCAGCTTGGGCAACATACAGAGACCCCATCTCTACAACACACACACACACACACACACACACACACACACACACAC
A
CTAGCTGGGCGTGGTGGTAGTGTGTGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAAGAGGATCACTTGAGCTCAGGAGGTCAAGGCTGCAGTGAGC
Celera SNP ID:            hCV26209749
SNP Position Genomic:     11947
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33715):
CAGCGTCTACGACGAGAGCGGGAGCACCGGAGGTGGTGATGGTGAGTGGTCCTGGCTTTGGGGTGCAGAGATGGGGTTACATCAGAGATGGAGCTGGGGG
Y
CCGGAGCTGGGGAGGGGGAGGCCGGGAAGTTGCGGGCTTCAGCCCAGCCCACTCTGTATCCCGTCTCTGACCCCATAGGGCTGGGCTATTCCCTTGAGTG
Celera SNP ID:            hCV15955320
SNP Position Genomic:     6343
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33716):
CCCTGGTGGGTCTGCGGGGGCAGGGGCAGCCTTCCTGGTTTATCTCCACCGGCGCGATCTGCTCGTCCGCCTCGGCTCCAGAAGCTGGGGCTCAGGGTCC
R
GCGAGGCAGGAAGCCTGAGGCCACAGCCCAGAGCAGCCTGAGTGCAGTCATGTGGGGGCGACTGCTCCTGTGGCCCCTGGTGCTGGGGTTCAGCCTGTCT
Celera SNP ID:            hCV15955321
SNP Position Genomic:     6125
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,22)   caucasian(G,36)   total(A,6|G,58)   
SNP Type:                 INTRON;UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,28)   caucasian(G,36)   total(A,6|G,64)
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,6|G,42)   total(G,42|A,6) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:33717):
AGGCGCCACACTGGATATAGCCACGTGGGGCAGCCCGGTCTCCATAACCCACACTCCAGTCCTCCCACGGGCTGGCTGGCAAGCGGCCCTGGTGGGTCTG
Y
GGGGGCAGGGGCAGCCTTCCTGGTTTATCTCCACCGGCGCGATCTGCTCGTCCGCCTCGGCTCCAGAAGCTGGGGCTCAGGGTCCGGCGAGGCAGGAAGC
Celera SNP ID:            hCV15955322
SNP Position Genomic:     6039
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,34)   total(C,61|T,1)   
SNP Type:                 INTRON;UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,36)   total(C,68|T,2)
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,46)   total(C,46|T,2) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:33718):
CAAGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCACCTCTACTAAAAATACAAAAAAAATTAGCCGGGCATGGTGGCGGGCCCCTGTAATCCCA
R
CTTCTGGGGAGGCTGAGACAGGAGAATCGCTTGAACCCAGGAGGCGGAGATTGCAGTGAGCCCAGATTAAAAAAAGAATAAACTATGGATACACGAAACA
Celera SNP ID:            hCV11699269
SNP Position Genomic:     12286
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,11)   total(G,11|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33719):
GGGCTATTCCCTTGAGTGTCATGTCCAGCTGTTTCCCACCAGGGCAGACCCCAGGCTCTGAGCACCTCCCTCCCTGCTGCTTCTCGTCACCTGCCGAGGC
R
GGGGCTGACTGAGGTCCCCTCTCTCTCCCAGACAGCACGCCCTCAATCCTGCCTGCCCCCCGCGGCTACCCAGGCCAAGTCTGTGCCAATGACAGTGACA
Celera SNP ID:            hCV27968116
SNP Position Genomic:     6526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33720):
CTGAGTCACTCCCACTGCCAGTGGGGGGTCGGGGCGGGGCGGAGGAGTCGGGGCAGGTCGTCGGGGGAGGTTGGTAGGGGAGGGAGGTGGGGAGATATTG
M
GCCTATGTCTCTTATCTCTGGGGTGGGCCCAGCTGTTACCTGTCCTCCGCCTCCCCTTCAGGCTCAGGGTCTGAGTCCTCCACCTCAAGGCCGGCTCCAT
Celera SNP ID:            hCV15955325
SNP Position Genomic:     13123
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,6|A,42)   total(A,42|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33721):
GACCCGTATGCGCGCGCGCGCGCGCACGCACACACACACACACACACACACACGCGCGCGTGCGCCCGCGCACAGCTGTTCGCTGGTGGGTGTTGCGTGG
R
CCAGGGTGGAGGGAGGATGAATGTCCCACTTTGTCCCCAGGAACTCTGAGCCTCTGACCCTGAGTCACTCCCACTGCCAGTGGGGGGTCGGGGCGGGGCG
Celera SNP ID:            hCV15955326
SNP Position Genomic:     12963
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,6|G,42)   PGA-EUR(EAN-PANEL(A,14|G,32)   total(G,74|A,20) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33722):
TGTCACCAGGGATAAGGTGGGACAATGGGGGGTGGGGGTGGACAGTGTGTGCTGGGGGGTTCGGGTGCTGCAGACCTGGAACTCCCTTCTGCCAGGATGT
Y
GGCAGCCGGTTGTAAGCCTTGCACGGGACAGACCACAAGGGGCCATGCCAGTGGCTGTGGAGGACACAGCTGGTGTGTGGGGAAGGGGAGAAGCCTCAGC
Celera SNP ID:            hCV15955343
SNP Position Genomic:     9555
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   total(C,1|T,47) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:33723):
CCTGGGCCCTGCCAGCATCTCTGGCTCGGCTTTCTGGGCTGGATGCAGCCCACGACGCACTGGTGTCTGAGATGGGGCTGGAGCTGGGGCTGGGGCTGCA
K
TCCCTGGAGACTCACTGCAAGTTCCTGCCCAGGAGGCTGAGGGCACCCCATCCTCAGTGCCCAATGCTGTGGCCCCACCAGGCCCAGAGCCTGGTTGGCC
Celera SNP ID:            hCV15955344
SNP Position Genomic:     9170
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|T,47)   total(G,1|T,47) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:33724):
TGGCCCAGAGCAGCAGCGATGGTGTCCCCGAGGCTAGGCGGGGGGTAGGGTCCTCACCGAGGGCGCAGCAGCTGGGAGGCGCGGGCTCCAGGGGCGCGGC
Y
TGGCGGCAGGCGGCCTCCCGCAGGCGGCAGGCGCTGGCGTAGACCACCCCGTCGGAGCCGCACACCGGGTTCCCCTGGGCGCCGCAGTCGTGGTCGCAGC
Celera SNP ID:            hCV15894787
SNP Position Genomic:     13486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:33725):
TGGCCTCCGCCGTGGCCTTCTTCGTGCCCAGCAACCTGCTGCTGCTGCTGCATTACTCGGACCCGAGCCCCAGCGCCTGGGGCAACCTCTATGGTGCCTA
Y
GTGCCCAGCCTGGCGCTGAGCACCCTCAACAGCTGCGTGGATCCCTTCATCTACTACTACGTGTCGGCCGAGTTCAGGGACAAGGTGCGGGCAGGGCTCT
Celera SNP ID:            hCV22271507
SNP Position Genomic:     7414
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,5)   caucasian(C,8)   total(C,31|T,5)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,2)   caucasian(C,34)   total(C,54|T,2)   
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,4|C,42)   total(C,42|T,4) 
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33726):
GCACCTGGGTCCCTGGGAGGCGCCACACTGGATATAGCCACGTGGGGCAGCCCGGTCTCCATAACCCACACTCCAGTCCTCCCACGGGCTGGCTGGCAAG
Y
GGCCCTGGTGGGTCTGCGGGGGCAGGGGCAGCCTTCCTGGTTTATCTCCACCGGCGCGATCTGCTCGTCCGCCTCGGCTCCAGAAGCTGGGGCTCAGGGT
Celera SNP ID:            hCV27839834
SNP Position Genomic:     6022
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,36)   total(C,69|T,1)
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:33727):
GGACTTCGGGATGGGACCCCACACCCCTTTCCTGAACCCAACTCCACGGGGCTCAGGCCAGCTGCCACCTCCTCATTTAGATGGCAGAACCCCAACTGGA
W
GGGGGACACATGGCCCAGGCCTGGCACTGTACAACTCTGCCTCCTTTCCCCTTCCAGTGGACCACAGTGATGGGCTCTGGGTGTCCATGTGCGGTAAGAG
Celera SNP ID:            hCV3065940
SNP Position Genomic:     11561
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;(A,-|T,-)   PGA-AFRICAN-PANEL(A,8|T,40)   PGA-EUR(EAN-PANEL(A,14|T,32)   total(A,22|T,72)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33728):
TAAACCCTCCTCCCCACCACTCTGAAAGGCTGGGCTGTAGACGAAGACAGGGCTCAGAAGCCCTGGCCTGTGGGCCCCCACCACCCGGCCACTATGTCTC
Y
GAGGGGCCGGAGTCTGGCCCCATCTGTGGAACGGGCTGGCGCTCTGGGTGCTGCTTTCCAGGTTCCCGCTGCTCACAGGAGGCCGAGGCCCGGCTGTGAC
Celera SNP ID:            hCV3065941
SNP Position Genomic:     10223
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;PGA-AFRICAN-PANEL(G,5|A,41)   PGA-EUR(EAN-PANEL(G,15|A,31)   total(G,20|A,72)   (A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;UTR 3


Context             (SEQ ID NO:33729):
CATGTCTATGAACAGCCATGGCACTCCAGCTTGGGCAACATACAGAGACCCCATCTCTACAACACACACACACACACACACACACACACACACACACACA
C
ACTAGCTGGGCGTGGTGGTAGTGTGTGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAAGAGGATCACTTGAGCTCAGGAGGTCAAGGCTGCAGTGAG
Celera SNP ID:            hCV26209750
SNP Position Genomic:     11946
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33730):
TGTCAGGTGCCCGGGACACACACATGCACACACACACACATGCACACACAAAGTTCATGTGCACCCCAGAACATGTGAGTAAGATCAGTAACGTGTATTC
K
TGTCAATATCCTGGAGTGATCATTTACCAGAGTTTTCTGAGATGTTAACCACAGGCACAAGCTGGGTGTGTGGGTATGAATGGTCCCCAGGACCAAACTG
Celera SNP ID:            hCV3065942
SNP Position Genomic:     9963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(C,3|A,6) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33731):
ATGGGGGGTGGGGGTGGACAGTGTGTGCTGGGGGGTTCGGGTGCTGCAGACCTGGAACTCCCTTCTGCCAGGATGTTGGCAGCCGGTTGTAAGCCTTGCA
Y
GGGACAGACCACAAGGGGCCATGCCAGTGGCTGTGGAGGACACAGCTGGTGTGTGGGGAAGGGGAGAAGCCTCAGCACCTGGTGCACAAACACACACACA
Celera SNP ID:            hCV3065943
SNP Position Genomic:     9579
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;PGA-AFRICAN-PANEL(T,5|C,43)   PGA-EUR(EAN-PANEL(T,15|C,31)   total(C,74|T,20)   JBIC-allele(T,96|C,1401)   total(C,1401|T,96) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:33732):
TCATGTCTATGAACAGCCATGGCACTCCAGCTTGGGCAACATACAGAGACCCCATCTCTACAACACACACACACACACACACACACACACACACACACAC
A
CACTAGCTGGGCGTGGTGGTAGTGTGTGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAAGAGGATCACTTGAGCTCAGGAGGTCAAGGCTGCAGTGA
Celera SNP ID:            hCV26209751
SNP Position Genomic:     11945
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33733):
CAACCTCATCCCCTCAGCACTAACCACATCCACTCTCAACCCCGTCCCCTTCGCACTGACCACACCCACCCCGTTCGGCCCCGCCCCCCGCACTGAACAC
W
CCCGCCCTCAACCCCGCACCCTCCGCACTCACCTCCCCCTCGCCGCTCGACCCCGCCCTCACCACACTGACCACCCTCAACCCATTGCGCCCAGTCCCCA
Celera SNP ID:            hCV15885173
SNP Position Genomic:     14281
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,11|A,35)   PGA-EUR(EAN-PANEL(T,8|A,38)   total(A,73|T,19)   (A,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:33734):
GTGCTGGGGTTCAGCCTGTCTGGCGGCACCCAGACCCCCAGCGTCTACGACGAGAGCGGGAGCACCGGAGGTGGTGATGGTGAGTGGTCCTGGCTTTGGG
R
TGCAGAGATGGGGTTACATCAGAGATGGAGCTGGGGGCCCGGAGCTGGGGAGGGGGAGGCCGGGAAGTTGCGGGCTTCAGCCCAGCCCACTCTGTATCCC
Celera SNP ID:            hCV3065944
SNP Position Genomic:     6305
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,8)   caucasian(A,9|G,27)   total(A,37|G,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   (G,-|A,-)   JBIC-allele(A,132|G,987)   total(G,987|A,132)   PGA-AFRIGAN-PANEL(G,13|A,35)   PGA-EUR(EAN-PANEL(A,6|G,40)   total(G,53|A,41)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33735):
TAACTATATAATGCAAGCATTCTGAAATGTGAAAAAATCTGAAATCCGAAACACTGCTGGTCCCCCCAGCATTTCGGATAAGGGATCCTTGACCCGTATG
M
GCGCGCGCGCGCGCACGCACACACACACACACACACACACACGCGCGCGTGCGCCCGCGCACAGCTGTTCGCTGGTGGGTGTTGCGTGGGCCAGGGTGGA
Celera SNP ID:            hCV15947708
SNP Position Genomic:     12873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33736):
CGCTACGGCCACGCGCTGAGGCTGACCGCAGTGGTGCTGGCCTCCGCCGTGGCCTTCTTCGTGCCCAGCAACCTGCTGCTGCTGCTGCATTACTCGGACC
Y
GAGCCCCAGCGCCTGGGGCAACCTCTATGGTGCCTACGTGCCCAGCCTGGCGCTGAGCACCCTCAACAGCTGCGTGGATCCCTTCATCTACTACTACGTG
Celera SNP ID:            hCV15955388
SNP Position Genomic:     7377
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,33|T,3)   total(C,67|T,3)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,9|T,1)   total(C,39|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33737):
GCGGCAGTGGCTCCGCGCACTCACCCGGGCCCCGGGCAGGGGCGCGCTCCACTTCGTTGCACGCGGGTCCGGCGCACAGTTCCCGGGCGAGTGGGCTGTG
S
GTGCTGACGTTGTAGAAGCGAGTGGCCTCGAAGGCTACGGGACGAGGGTGGCGGGTGACCAAGTGCAGGCGCGACGGGTCAGGGACCGGGCCGGGCCGGG
Celera SNP ID:            hCV15905376
SNP Position Genomic:     14754
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,2)   caucasian(C,15|G,17)   total(C,25|G,19)
SNP Type:                 UTR 3;SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;SILENT MUTATION


Context             (SEQ ID NO:33738):
GTGCAGAGATGGGGTTACATCAGAGATGGAGCTGGGGGCCCGGAGCTGGGGAGGGGGAGGCCGGGAAGTTGCGGGCTTCAGCCCAGCCCACTCTGTATCC
Y
GTCTCTGACCCCATAGGGCTGGGCTATTCCCTTGAGTGTCATGTCCAGCTGTTTCCCACCAGGGCAGACCCCAGGCTCTGAGCACCTCCCTCCCTGCTGC
Celera SNP ID:            hCV7493800
SNP Position Genomic:     6405
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,28)   caucasian(C,23|T,7)   total(C,31|T,35)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   (T,-|C,-)   PCT-TFRICTN-PTNEL(C,13|T,35)   PCT-EUR(ETN-PTNEL(T,7|C,39)   total(C,52|T,42)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33739):
GGTCCTGGTGGTGGGGCTGCCGGCCAATGGGCTGGCGCTGTGGGTGCTGGCCACGCAGGCACCTCGGCTGCCCTCCACCATGCTGCTGATGAACCTCGCG
R
CTGCTGACCTCCTGCTGGCCCTGGCGCTGCCCCCGCGGATCGCCTACCACCTGCGTGGCCAGCGCTGGCCCTTCGGGGAGGCCGCCTGCCGCCTGGCCAC
Celera SNP ID:            hCV7493801
SNP Position Genomic:     6806
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,10)   caucasian(A,9|G,25)   total(A,33|G,35)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,8)   caucasian(A,5|G,25)   total(A,27|G,33)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): SC_12_T(T,7|C,10)   SC_12_C(T,10|C,13)   SC_12_TT(C,5|T,12)   total(C,28|T,29)   (C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33740):
ATCGCGTGCTCTGCCATGACGCGCTGCCCCTGGACGCACAGGCCTCCCACTGGCAACCGGCCTTCACCTGCCTGGCGCTGTTGGGCTGTTTCCTGCCCCT
K
CTGGCCATGCTGCTGTGCTACGGGGCCACCCTGCACACGCTGGCGGCCAGCGGCCGGCGCTACGGCCACGCGCTGAGGCTGACCGCAGTGGTGCTGGCCT
Celera SNP ID:            hCV15853473
SNP Position Genomic:     7219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33741):
CTGCGGGCCCGCGCCCTGCGTGGCCGGCGCCTGGCCCTTGGACTCTGCATGGCTGCTTGGCTCATGGCGGCCGCCCTGGCACTGCCCCTGACACTGCAGC
R
GCAGACCTTCCGGCTGGCGCGCTCCGATCGCGTGCTCTGCCATGACGCGCTGCCCCTGGACGCACAGGCCTCCCACTGGCAACCGGCCTTCACCTGCCTG
Celera SNP ID:            hCV15853474
SNP Position Genomic:     7092
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,36)   total(A,1|G,65)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33742):
GTACTGGGTCGAACAGGGTCCCTTCCCCCACTTCACGTCCTTCCTGGGACCTCAGAATGTGACCTTATTTGGAAATAGGGTTGTTACAACTGTCACTAGC
R
GAGGTCACTTTGGAGAAGGGTGGGCCTTACATCCAGTGTGGGTGGTGTCCTCATAAGATAAGGAGAGGCCAGGCCTGGTGGCTCACGCCTGTAATCCCAG
Celera SNP ID:            hCV15955315
SNP Position Genomic:     7725
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|G,40)   PGA-EUR(EAN-PANEL(A,15|G,31)   total(G,71|A,19) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33743):
GCTTTGGGAGACTGAGATGGGAGGATCACTTGAGCCCAGGAATTTGAGGCTGCAGTGCACAATGATCATGTCTATGAACAGCCATGGCACTCCAGCTTGG
R
CAACATACAGAGACCCCATCTCTACAACACACACACACACACACACACACACACACACACACACACACTAGCTGGGCGTGGTGGTAGTGTGTGCCTGTGG
Celera SNP ID:            hCV15955332
SNP Position Genomic:     11880
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33744):
CGCTGAGCACCCTCAACAGCTGCGTGGATCCCTTCATCTACTACTACGTGTCGGCCGAGTTCAGGGACAAGGTGCGGGCAGGGCTCTTCCAACGGTCGCC
R
GGGGACACCGTGGCCTCCAAGGCCTCTGCGGAAGGGGGCAGCCGGGGCATGGGCACCCACTCCTCTTTGCTCCAGTGACACAAAGTGGGGAAGGCTGTAC
Celera SNP ID:            hCV15955316
SNP Position Genomic:     7528
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,41)   total(G,41|A,1) 
SNP Type:                 INTRON;SILENT MUTATION;TFBS


Context             (SEQ ID NO:33745):
ATGGGGGACACATGGCCCAGGCCTGGCACTGTACAACTCTGCCTCCTTTCCCCTTCCAGTGGACCACAGTGATGGGCTCTGGGTGTCCATGTGCGGTAAG
R
GGGGAGTAGCTTGTGTCAGACCACCAACCAAATCGAAAAGCTACCCATAGCACACTACCCAGCAATACAAAAGAACAAACTCCAGGCCGGGCACAGTGGC
Celera SNP ID:            hCV15955333
SNP Position Genomic:     11660
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33746):
GTGCTACGGGGCCACCCTGCACACGCTGGCGGCCAGCGGCCGGCGCTACGGCCACGCGCTGAGGCTGACCGCAGTGGTGCTGGCCTCCGCCGTGGCCTTC
K
TCGTGCCCAGCAACCTGCTGCTGCTGCTGCATTACTCGGACCCGAGCCCCAGCGCCTGGGGCAACCTCTATGGTGCCTACGTGCCCAGCCTGGCGCTGAG
Celera SNP ID:            hCV15955318
SNP Position Genomic:     7334
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,29)   caucasian(T,32)   total(G,3|T,61)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,25)   caucasian(T,4)   total(G,3|T,29)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   PGA-AFRICAN-PANEL(G,5|T,43)   total(G,5|T,43) 
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33747):
ACATCAGAGATGGAGCTGGGGGCCCGGAGCTGGGGAGGGGGAGGCCGGGAAGTTGCGGGCTTCAGCCCAGCCCACTCTGTATCCCGTCTCTGACCCCATA
R
GGCTGGGCTATTCCCTTGAGTGTCATGTCCAGCTGTTTCCCACCAGGGCAGACCCCAGGCTCTGAGCACCTCCCTCCCTGCTGCTTCTCGTCACCTGCCG
Celera SNP ID:            hCV15955319
SNP Position Genomic:     6421
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,27)   caucasian(G,30)   total(A,9|G,57)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,8|G,40)   total(G,40|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33748):
AGCTCCAAGGCTGGGGGGTTGGGGTGCTTGGAGCTCCAGCTGTAGCTAGGAAGGTGGGGGATCTCCCAAGGGACCTCCAGCTGTCCCCCCTGCACCACAC
Y
GGTGACTGCTGAGCCCACACCTGGGTCCCAAGAGTCTCATCCTAGGGACGGGCAGATCTCTGTCATTCTGTTCCTTGGGTTCATTTAGAGGCAGGTGTCA
Celera SNP ID:            hCV15955337
SNP Position Genomic:     11203
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,4|C,44)   total(C,44|T,4) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33749):
AGCCCCGTCCCCTGCCGCGCCTCCTCCGCACTGACCACACCCACCCCAACCCCACCCCCACCGCACTGACCGCTCCTATCCTCAACCCCGCCCCCTCCGC
S
GTGACCACACCTACCCTCAACCCCGCCCCCTCCGTCCTGACCACTCTTAACCCCGCCCCCTCCGCACTGACCACACCCACCACAAATCCCGCCCCTCAGC
Celera SNP ID:            hCV15955370
SNP Position Genomic:     14029
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,9|G,31)   total(G,31|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33750):
CGAGAGCTGGGACAGTCTTAGGGCAATTTGGGGTCCTGGGTGCCCCAAAGGGAGGCCGGGGCTTTGTGTTTCAGAGAAACGCAGCCTGTTCCGTTTTGAA
R
TTGCCCACCGGCTGGATGTTTTGCTAATTTAGTCCACATCGTGTTTGCTCAGAAAGAGGCTTTTGGCCACACGAGTGCTTTCTGGGAATGTTTCTTCTCC
Celera SNP ID:            hCV15955338
SNP Position Genomic:     10947
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|G,43)   total(G,43|A,3) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33751):
GAATTTCACGCAGGTATTTGCCTAATACTTACAAAAACAGAAACAGACTTTTAAAAAGCGGTTGTAGGAGAGAAAGGAGACAGGGCGTCCTGTCTGGGCC
R
CCCTGCAACAACAGCCCCGTCCCCTGCCGCGCCTCCTCCGCACTGACCACACCCACCCCAACCCCACCCCCACCGCACTGACCGCTCCTATCCTCAACCC
Celera SNP ID:            hCV15955371
SNP Position Genomic:     13916
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,42)   total(G,42|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33752):
GGTGTGTGGGGAAGGGGAGAAGCCTCAGCACCTGGTGCACAAACACACACACAGACACAGACACACACACACACAGAGACACCGCTGCTCACTCCAGGGA
R
TGGCACAGGGCAGTTTCAAAGACCACTGGGGCATGAACTATGGGGGCAAGGCAGAGGGTTGGAGGGCCACTGTTGGGCTCCTCATTGGGTCTATGTCTCT
Celera SNP ID:            hCV15955339
SNP Position Genomic:     9727
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   PGA-EUR(EAN-PANEL(A,3|G,43)   total(G,90|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33753):
CAGATCTCTGTCATTCTGTTCCTTGGGTTCATTTAGAGGCAGGTGTCACCTGGGCTGAGGTCTGCCCACCCACCATACAGAGTCACAGGCTGATAGGGAC
R
GGATGCAGCCAGATGGTGTCGTCCTGCTCTCAGCAGGGCAGCCGTTAGGAAGAGAAGCCGCTCTGACTGGCCAGGAGAGGAGAAAGATTCCTATGGGGCC
Celera SNP ID:            hCV15955372
SNP Position Genomic:     11356
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,1|A,43)   total(G,1|A,43) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33754):
AAGGAGCCACAGGGCCTGTCGCTTGTAGGGTGCCAGGGGTGGGGAACCCACCGGCCAGGGCAGCCTCAGACCTTGATCTCACAGGCAGCGAGGGGCCTCC
R
TGCTGGCAGAGATCAGGGCTGAGCGGTGTTGGCTGAAATAAATACCACCCCGGAGAAGATGGGCAAATGCAGACATAAGCAGGTGCCAGGGGTCACAAAG
Celera SNP ID:            hCV29031668
SNP Position Genomic:     10490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33755):
ACACATATGTCCAAACCCATGGAAGGTACAGTGCCAAAAGTGAACCCCCATGGAAACGCGGGGTTCCAGAAGACAGAGCCGTGTCCATGCAGCTTTGTCC
R
TTGCAACAAAGGCACCGCTTTTGGTAAAGGACATAGATAGCGGGGGAGGCTTGCATGTGTGGGGTGGGGTTACATGGGGACTCTGTACCTTCTGCTGAAT
Celera SNP ID:            hCV3065950
SNP Position Genomic:     408
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33756):
AAATCCGAAACACTGCTGGTCCCCCCAGCATTTCGGATAAGGGATCCTTGACCCGTATGCGCGCGCGCGCGCGCACGCACACACACACACACACACACAC
R
CGCGCGCGTGCGCCCGCGCACAGCTGTTCGCTGGTGGGTGTTGCGTGGGCCAGGGTGGAGGGAGGATGAATGTCCCACTTTGTCCCCAGGAACTCTGAGC
Celera SNP ID:            hCV15885180
SNP Position Genomic:     12914
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33757):
GGCAAAAGTATAGAGGCAGTGAAAAGATCTGTGGTTGCCAGGGGGCAGATGGGAGGAAGTAATCCATAGGTGGAGGTGGGAGGATTTTTAGGGCAGTGAC
R
CAACTGTGCGACACTATGGTCAATGGTGGACATATCATGACACATATGTCCAAACCCATGGAAGGTACAGTGCCAAAAGTGAACCCCCATGGAAACGCGG
Celera SNP ID:            hCV3065951
SNP Position Genomic:     268
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33758):
CTATATAATGCAAGCATTCTGAAATGTGAAAAAATCTGAAATCCGAAACACTGCTGGTCCCCCCAGCATTTCGGATAAGGGATCCTTGACCCGTATGCGC
K
CGCGCGCGCGCACGCACACACACACACACACACACACACGCGCGCGTGCGCCCGCGCACAGCTGTTCGCTGGTGGGTGTTGCGTGGGCCAGGGTGGAGGG
Celera SNP ID:            hCV15885181
SNP Position Genomic:     12876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33759):
TGGGGAAGGGGAGAAGCCTCAGCACCTGGTGCACAAACACACACACAGACACAGACACACACACACACAGAGACACCGCTGCTCACTCCAGGGAGTGGCA
Y
AGGGCAGTTTCAAAGACCACTGGGGCATGAACTATGGGGGCAAGGCAGAGGGTTGGAGGGCCACTGTTGGGCTCCTCATTGGGTCTATGTCTCTGATCAG
Celera SNP ID:            hCV15955376
SNP Position Genomic:     9733
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,7|C,39)   total(C,39|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33760):
GGCCCAGAGCAGCAGCGATGGTGTCCCCGAGGCTAGGCGGGGGGTAGGGTCCTCACCGAGGGCGCAGCAGCTGGGAGGCGCGGGCTCCAGGGGCGCGGCC
K
GGCGGCAGGCGGCCTCCCGCAGGCGGCAGGCGCTGGCGTAGACCACCCCGTCGGAGCCGCACACCGGGTTCCCCTGGGCGCCGCAGTCGTGGTCGCAGCC
Celera SNP ID:            hCV26209746
SNP Position Genomic:     13487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:33761):
TTCTGAAATGTGAAAAAATCTGAAATCCGAAACACTGCTGGTCCCCCCAGCATTTCGGATAAGGGATCCTTGACCCGTATGCGCGCGCGCGCGCGCACGC
R
CACACACACACACACACACACACGCGCGCGTGCGCCCGCGCACAGCTGTTCGCTGGTGGGTGTTGCGTGGGCCAGGGTGGAGGGAGGATGAATGTCCCAC
Celera SNP ID:            hCV26209747
SNP Position Genomic:     12892
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Gene Number:                 151
Celera Gene:                 hCG20655 - 30000053560375
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY4T(4470369..4502745)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12311):
GCAAATTAAAACTACAATGAGATACCCACACCACTCAGAATAGTTATTATTAAAAAGTCAAAAAATAACAGATGCTGGTAAGGCTGCAAAGAAAATGGAA
CAAGTGTTGGTGAGAACGTAAATTAGTTCATCCACTGTGGACAGCAGTTGGGAGATTTCTCAAAGAACTAAGAGTTGAACTACAATTCGGCCTAGCAAAC
CCATTGGTAGGTATATGCCCAAAGGAAAATAAATTATTCTACCAAAAAGGCAGATGCACCTATATGTTCATTGCAGCACCATTCCCAATAACAAAGATGT
GGAATAAACCCAGGTGTTCATCCAACAATGGATTGGATATATGGACCATAGAATACTACACAGCAATCAAAATGGAAATCATGTCCTTTGCAGCAGCATG
GATGGAGCTAGAGGTCATTAGCCTAAGTGATGCCATGTGGAAACAGAAAGCCAAACATAGCACATTCTCGTAAGCAGGAGCTAAACACTGGGCACATGTG
GACATAGATAAGTGTCTGTTCATGTCCTTTGCACACTTTCTAATGGGGCTGTTTGTTTGTTGCTTGCTGATTTGTGTAAGTTGCTTCTAGATTCTGAATA
TTAGGCCTTCACTGGATCTGTAGGTTAATGAGGTCCCACTCATCAGTTGTTATTTTTGTTTAATTGCGTTCAAGGACTTAGCTGTAAACACTTTGTCAAT
GCCTATAACAACAGGATGTTTCCTGTGATTTTTTTTTTCTTTGAGACAGAGTCTGGCCCTGGCACCGGAGACACTTAGAGTGGGGAGAGAGGGAGGAGGG
CAAGGGCTGAAAAAGTGCCTGTTGGGCGCTATGCTCACTACCTGGGTCAACGGATTCATTCGTTCTCCAAACCTCAGCATCACGCAATATACCTTTCTAG
CAAACTTGCGTTATGTGCCCCCGCATTCTAAAATAAAAGTTGAAAACAATAATAATAATATGGAACTAAAAATTAATAGGCATGCATCTTAGCAATATAA
ACTCAAGTACAAAATGGAAGAGGCCCACGTTTTAGAGATTTTGAAATTTAAAACACCTATAAATGTGATTGTATATATAGGCATGTAGGGACAACTGGGC
TTCATCTGTAAGAACTACAGGTGGAAAGTGGAGACTCCTTACTGGCCTGAGAGCAAGGAGACAGCCCTGAGTCTTGGTGTCTGAGGAGAAGAAGTATGTG
TTTCTGTTCGATTCTTGGTCAGAAAAAGGTGTTATAAAGAAGAATCTTGGTTCCCTGTCTCTTTTCTCATGCCAGATACTTATAATAGTAACTATACATG
TGTATATATATGTGTATATATATATTTGTCTTTATAAAAGCTCACATCTCCCAAGTATCACACAAAACCCTTTTTGTCTTTTTTTCTACACCCCATGGAG
AAGTACAAACAGGATGTGATACTCTAATATCACTCAGTTTTCTAAAATAAGTAGGTTGCAATTTCCTATGAAGTGAAACTATTCCTAGTTCACATTGAGA
AAGTACCAGATTCAGTTTCTCATAGGACCAACAATTGTCTGGACCAAGGGAAATTACAAATGGTCTGGTCTTACATTTTTCTCCAGCTACCTGTGATGAT
CTCTAAGAGTCTGTTGTTGCAGATAAAAAAGTATATCACTCAAGGCAGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCCGGC
AGATTATCTGAAGTCTGGAGTTTGAGTCCAGCCTGGCCAACATGATGAAACCCCGTTTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCAAGCAC
CTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTAGGAGGTCACAGTGAGCTGAGACTGCCCTACTGCACTCCCAGC
CTGGGCGACAGTGTTAGACTCTGTCTCAAAAAAAAAAAAATGTGTATCACTCAAACTGACACCTTCATGGATCTTAGAACCCTGATCATGTTCCCATGAG
AATTCCATTCATTCCATTCAAGAAGATCTAACTTTCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGAC
ATGGATGAAATTGGAAATCATCATTCTCAGTAAACTATCGCAAGAACAAAAAACCAAACACCGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGA
GCACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAGGGGGGAGGGATAGCATTGGGAGATATACCTAATGCTAGATG
ACGAGTTAGTGGGTGCAGCGCACCAGCATGGCACATGTATACATATGTAACTAACCTGCCCAATGTGCGCATGTACCCTAAAACTTAAAGTATAATTAAA
AATAAATAAATAAATAAATAAATAAATAAATAAAAAAGAAGATCTAACTTTCCTAAATATCTATGCATCCAACACAGCAGCACCCAGATTCATAAAAGAA
ATTTGTAAAGACCTTCAAAGAGACTTAGACTCCCACACAATAATAGTGGGAGACTTTAATACCCCACTTACAATAGTAGACAGATCATCAAGACAGAAAA
TTGACTAAGATAATCAGGACCTGAACTCAGCACGATAGATATCTACAGAACTCTCCACACCCCCAAACCAGAATTTACATTCATCTCATCACCACATGGC
ACATGCTCTAAATTCAATCACATAATTGGAAGCAAAAGACTCCTCAGCAAATTCAGTTTGTTACAACTGAAATTGGCACAAACCACTCTCTGACCACAGC
ATAATCAAATTAGAAATCGAGACTAAGAAACTCACTTAAACTCATACAATTACATGGAAATTAAACAACCTGCTCCTGAATGACATCAGGGTAAATAATG
AAATTAAGGCAGAAATTAAGAAGTTATTACAAGCTAATGGGAGCAAAGATACAACATGCCGGAATCTCCGGGACACAGCTAAGGGGGTATTAAGAGGAAA
ATATATAGCACTAAATGTCCACATCACATTAGTTGTGATGACCTAACATCACAACTAAAAGAACTAGAGAACGAAGAGCAAACAAACCCCGAAGCTAGCA
GAATACAAGAAAGAACCAAAATCTGAGCTGAACTGAAGGAGATTGGGTTCCTTCACACACAAAAAAATCATTCAAAAGATCAGCAAATCCAGGAGCTGGT
TTTTTGAAAAAAATAATAAAATAGACTGCTAGCTAGACTAATTGAAAAAAGAGAAGACTCGAATAAACACAATCACGAATGACACGGGGAATATTACCAT
TGACCCCAGAGAAATACAAACAACCATCAGAGAATATAATGAACCCGTGTATGCACATAAACTAGAAAATCTAAAAGAAATGGGTAAATTCTCAGACACG
TGCAGCCTCCCAAGACTGAACCAGGATGAAATTGAATTCCTCAACAGACCAATAATGAGCCTGAAATTGGTTCAACGTACACAAATCAATAAACAGATTC
ATCACATAAACAGAACTAAAACAAAAAACCACATGATTATATTAATGATGCAGAAAAGCCTTCTGATAAAATTTAACATCACTTCTTGTTAAAAACTCTA
ATTAAACTAGGTATTGAAGGAACATACTTCAAAATAATAAGAGCCATTTATGACAAGCCCACAGCCAACATCATGCTGAATGGGCAAAAGCTGAAAGCAA
TCCACTTGAAAACTGGCACAAGAATGCCCTCTCTCACCACTCCTATTCAACAGTATTGGAAATACTAGGCAGGGCAATTGGGCAAGAGAAAAAAATAAGG
CGTATTCAAATAGGAAGAGAGGAAGTCAAACTATCTTTGCTGCAGATGAAATGATCCTGTATCTAGAAAACATCAACCCAAACATCAACCTGAGATCTTC
TTAAGCTGATAAACAACATCAGCAAAGACTCAAGATACAAAATAAATGTGCAAAAATCACTAGCATTTATATACCAATAACAGTCAAGTTGAGAGCCAAA
TCAGGAATGCAATCTCATTTACAGTTTACACACACACACACAAACACACACACACAATACCTAGGAATACAGCTAACTAGGAGGGTGGACAATTTCTTCA
AGGAGAACTATAAAACACTGCTCAAAAAATTAGAGATGACACAAATAGATGGAAAAATATTCCATGATCATGAATAGGAAGAATCAATATCTTAAAAATG
GCCATAGTGCTCAAAGCCATTTATAGATTCAGTAATATTTGTATTAAGTTATCATTGAGATTCTTCACAGAACTAGAAGAATCATATGGAACCAAAAGTT
TTAAATTTAAAAATTCATATGGAACCCAAAAAGAGCTCAAATAGTCAAGGCAAGCCTAAGCAAAAACAAAAACCGAAAACCAAAGCTGGAGGCATTATGT
TACCTGACTTCAAACTATACTACAGGGCTACAGTAACCAAAACAGCATGGTACTGGTACAAAAACAAACACATAGACCAATGGAACAGAATAGAAAACCC
AGAAATAAAACCACACACCTACAACTATCTGATCTTTAGGAAACCTGACAAAAAAAAAGTGATGGGGAAAGGATTCCCTATTCAACAAACTGTGCTGGGA
TAACTGGCTATCCATATGCAGACAATTGAAACTGGACCCCTTCCTTACACCATATACAAAAAAACTAACTCAGGATGGATTGATTGATGGATGTAAAACC
TAAAACTATAAAAACCTGGAAGACAACCTAGACAATACATTCAGGACACAGGCACGGGCAAAGATTTTATGACTAAAATGCCAAAAGAAATTGCAACAAA
AGCAAAAATTGACAAATGAGATCTAATTAAACCAAAGGGTTTCTGCACTGCAAAAGAAACTGTAAACAGAGTAAACTGACAATCTACAGACTGGGAGAAA
GTTTTTGCAAACTGTGCATCTAACAAAGGTCTACTCTCCAGTATCTTTAAGGAACTTAAACCAATTTACAAGAAGAAAACAAACAACCACATTAAAATGT
GGGCAAACGACATGAACACACGCTTTTCAAAAGAAGACATACATGTGGCCAACAATCATATAAAAAAAGCTCAACATCACTGATCATGAGAGAAATGCAA
ATCAAAACCACAATGAGATACCATCTGATACCTGTCAGAATGGCTATTATTAAAAAGTCAAGGGACACATGTTCTCAGGACCTCCTGAGTGCTGATCACT
CATATTTGGCTCAGAAAAATCTCTTCTAATATATTACAGAGTTTGACTCTTTTTGTCCACAATAATTTGGTGYCTGAACACGTGAGGCCTCAGATAAGAC
TCAGGACCCCAAAGGAGTTGTCTCAACCTGGAGCTAAGGTACCAGCAGGGGCCCACTGAAAGCCTCCAGGATTTTGAGCTTCTTCTCTGCCAGAAGTGGT
AAGTCCTCCTGAGCCCCGACCTCCCTTTGGTTGACGGCCCTTTATTTATTCTGATCTACTATTTCTTTTTCTTTCTAGGAAGTTGTTGTTTAAGGATCCT
ACTTCTAGTTGGGAGATACATTCTAAAGGGTCTTCTCCATTGCTTTTCTCCCCAAATTAATCTCGATTTGGCTTGTCTGTTCACATTTGCATGAGGAACT
GAACTGTTGTTTTCATAGGGAAACGAGAGACTGTGTTTCCTCAGCTTAAAAAAGAAAGGGCATTTTGCTCCTCCCAGCCAAAATGTGGGAAGTGATGAGG
GGTGCTTGTGGGAATGTCTGGGGGTGGGTGGACCCCATCGTGATGTGAGTGGCCTACAGGGAACACCCAACAAAATGAGTTTTAAAAAGGCTTGTCCAGG
AAGCACATATGGGAGCTGGTCACTCTGCATTTTGGGCCCTCCTGGAGGTGTTTAGACCTTCCGAGAGAGAAACTGAGACACATGAGAGGGAAGAAATGAC
TCAGTGGTGAGACCCTGTGGAGTCCCACCCACAACCAGCACACTGTGACCCACTGCACAAACCTCTAGCCCACAGCTCACTTCCTCCTTTAAGAAGAGAA
GAGAAAAGAGGAGAGGAGAGGAGGAACAGAAAAGAAAAGAAAAGAAAAAGTGGGAAACAAATAATCTAAGAATGAGGAGAAAGCAAGAAGAGTGACCCCC
TTGTGGGCACTCCATTGGTTTTATGGCGCCTCTACTTTCTGGAGTTTGTGTAAAACAAAAATATTATGGTCTTTGTGCACATTTACATCAAGGTAAGAGA
GCCCTAATGGCRGCTTGCACGCTATAGAGTTCCTAAGTTCTCTCTTTCTCTATTTTCTTTTCTGCCTGCTTTACATCTGCTGTTACCTTTCTACTGAGAT
AAAAACCACTGTTTAGATCCAAATTTTTTTTGCAAGCTGGTAAATTTATATTAATATCTCATGGCTAGAGTTTTGAAGTAAAAGCTACAGGATGTCTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTGTGTGTGTGTTTAAAAGCCTTTATGATAGATTTCTATAATTTTATGTTTAATTGGCAGTG
AACCCATTTTAATTTCCCTCTAACACACCAGACTTCTTCCTCTGTACTTTGAGATGTAAGTTTTGCTGATTTTTTCTCCTAAAAAGTGTTTCCTGTAACA
TGGAAATTTAGGGTTATTTAGCTGACAACTGCCTGGGGTAAGGAAACAGGTTATGAAGAGTTTGAAAGGGTTGGGCGTGGTGGCTCACACTTGTATTCCC
AGCACTTTGGGAAGCTGAGGTAGGTGACTCATGTGAGATCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAATCCCTGTCTCTACTAAAAATGCAAAA
CTTAGCCAGGCAGTAGTGGCACACTCGTAATCCCAGCTACTTGGGAGACTGAGACAGGAGAATCRCTTCAGCATGGGAGATGTAGGTTGCAGTGAGCTGG
GATCATGCCACTGCATTCCAGTCTGGGTGACAGAGTGAGCCCCTGCCTCAAAAAAAAAAAAAAAGAAAAAAAGAAAAAAAGAAAAAAAAAGAGTTTGAAA
GTTTGAGATAGAAAAAAAGAGGTTTTTTGAATCTATAAGATGTACTWCTATCAGCATGCCTAATGCGTCCATGAATCTGTGTGTGGTGTACATAATGTTT
CACTACTAAAAATATACAAAAGAGCTCTAATTAATTGGCTTAAAGAGAATAAAAGTGCTTAAATCAAATACTTTATCAGGACAAGATGCTTCTTCAAGTT
CACTTAAGTAAAATCTTTAATAAATAAGCTGGCTTTAAAATTATTGGTAAAATAAGATTAGAAATGTCTTAAGAATTGTTAGCRTTTTTGTTTGCACTTA
TTGCACAAGTGGTTTTGTGCTTATCCCTGCAGAATAGTATAAGATTTTCCATAAGGGTTATAAAACTATAAACCTGGCCGGGCACGGTGGCTCACGCCTG
YAACCCCAGCACTTTGGGAGGCCGAGGCTGGTGGATCACCTGAGGTTGGGAGTTCAAGAGCAGCCTGACACACACAAAACAAAATTATAAACCCAGCCCA
AAACAGAATGATCTTTGCTTGTATAATTTTTAATAAATAAGCCATGTAATATTGTTGGTTAAATAAAAACAGCTAACTACTGAGATATTGGTTAAAAAAA
ATAACTTTATATTTAACCATAAGTTYCCTTACTTAGGTAAACACCTGAAATTCATAGTTTATAACATTGGTTAACAGGGAATTAACTTTAAGTGATGACT
GTCACAGTGTTCATAAATAATCTAGGTAAACTATTAAATAAGTTTATCAAGTAAATGCAATGGAATAAATGCCTATAAACAAACTTGTCACATAATTTAC
AATCTAAAGTTATATTAAATAATAGATATTAATTGAYTAGCTGGGTAATTTATAATTTAAAAATTACAGGAAAACATTTTTAAAAAACAATTCTTATTAA
AAGATAAATATCTGTGTTTAATTCAAAGCTTTTTTAAAAGTTATGTATAAAACAAGATAAATGGAAACAGGAAATAAGAGATGTAAAGACAGTTATAAAT
ATAAAGAGGAATTTTGGTAAAAAAGATGAAAAGGAAAGTAATTTTACACAAGAAAGTCTTATGTAGTGAATTTTTGTCCTGAAATAAAATAACTGATAGT
TCAAGAAAGAGGGATATTTAGGACAAAACAGGCAGTTTAAGCATGTTGTAAGTGGTCTCTGTAAGTCACAATAAGACTTTTTTTAAAAAAAGAAAGGTAG
TGTAATGTAGTTGGTTATGATTAAGAAATATAATAGTCATTCTACAGATGGGTCTTTGATATTTAAAAAACACACCCTAATCCAAAACTAAATAATTGGT
TAAAACAAGGTTTTAGTAAAATATTAACTTATTCTTAATGCAAAAAGTTTTTAATTTTTAAATTCTATAATCTGTCTTTTTGAAATTCTTCCAATGAATA
TATCAAAGTTCAGCTTTTTCTCTTTTGAAAGGCCTTGGATGATAGCTCTCTCCTTCACCTTGTGTTGGCTTCTGTAACTTTTATTAATTATCTAAAGTAA
GAGAGGAATTTTTATTTAAAAACAGAAAAATGAAATATCCTTTAGACCTGCTTTTTTTATTCTGTATGCCTGTTATATCTGTATCTTCATATGTGTTATC
TGGAAGTGATATTTCACTACCAAACTACATGAAACAGCTCATCAGTTGTCTTTTTTWAAAAAAAGTAAGTGCTTATCAGATTGGCAGACACTAGCTAAGA
TGCCTTTGAATTCACCTGATTTTAATATTTAGTAAAATTAATTTAGTAAATTTAATCTTAAAACTCTCTCCAGTAATTAGAGCTATGTTATGTTAAACCT
CGTTTTTTTTTTTTTCACTTGAAATTTGGGTTACTAAATTAAAATAGTAGGAGTATAAAATGTTTTTGGTGATGCATATAAAACACAAGGATATAGGTTT
TGCAAAAAAAAAAGTAGGTTTTTTTCTAGTTAAGAAACTATTTAAGAGTTGCTTTAAAATGAAGAAAAAATTACGGAGATAAAACTAAATAAAAAGAACA
ATTTAGCCAGGACAACAAAAGTTAACTCTGAGACCTGTGATTACCAAGAAGATAGTTGATATAGAGGAAGGGCAAAAACAAGTAACTATTAAAACCAGAG
GGTATAATGCAAAGGAATTGTTCTGCTTTTTAGATTGTTATAATCAGTTTCTTAAAAATAATCTATGTGGTAGATTGTAAAAAATAACCACTTTAAGGGC
CAAATTCTTAATTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGATGGAGTGCAGTGGCGTGATTTCGGCTCACTGCAAGCTCTGCCTCCC
AGGTTCACGCCCACATTCTTAATTTTAAATGCTTCAGAATTTAAGAGCTTGTTTGGATTGATGCAGGACCCGTAGCTCACTATTAAACAATCACTAATGA
GTATATGAGATCCAAATGCACAGGAGGTTATTCCAGAGAGAACAACCAGCTTAGTGGACCAGACAAACGCCACTGAAAGGTCTGTTGGCCCTGAGAAGGG
GACTAGCCAACTCTCCCTATAAAACACCAAGTGCAGCATCCCAGATGAAGCAGTGAATATGCTTTGTATGCGAGCCAGGTGGGGCTGGTGTATGAAGCAT
ATGAACCAAGTAACCATTAAAATCAATCAACCGTTGGTGGACACTTAGTTTGGTTTCATGTCTGTGCTGTTGTGAATAGTGCTGCAACAAACATAATGAG
TGCAGTTGTCTTATTTATTTATTTATTTTTTATTTTTTGAGATGGAGTTTCATTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCCATCTCTGCTCACTGC
AACCTCCGGCTCCTGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCCAAGTAGCTGGGATTACAGGTGCTCGCCACCATGCCTAGCTAATTTTTTGTATTT
TTAGTAGAGACAGGGTTTCACCATGTTGCCCAGGCTGGTCTCACACTCCCAACCTCAGGTGATCTGCCTGTCTTGGCCTCCCAAAGTGCTGGGATTACAG
GCGTGAGCCACCACACCTGACCCAATTGTCTTTTTAATATAATGACTTTTCCTTTGGCTGGATACCATGTAATGGGATTGCTAAGTGAAATGGTAGTTCT
ATTTTTAGTTCTTTGAGATAGCTCCATATTATTTTCCATAGAAGATAAACTCATTTACATTCCTACCAACCATGTATCTTGCTAACATCTGTTGGTTCTG
ACKTCTTAAAAGTAGCCATTTTGAYTGGTGTAAGTTGATACTCAGTGTGGTTTTAAGTTGAATTTCTCTGATGATTAATGATGTTGAGCATTTTTTAATG
TGTTTGTTGGCCACTTATATTTCTTGTTTTGAGAAATGTCTGTTGATGGTCTTTACTCAGTTTTCCATAAAGTTGTCTGTGTTTTTTGTTTTTTTTTTCA
TGTTGAATTCTTTGACTTCCTTGCAGATTCTGGACATTAGTCTTTTGTTGGAGGCATAATTTGCAAATATTTTCTTCCATTGTGTAGGTTGTCTGTTCAT
TCTGTTGATTGTTTCTTTTGCTGTGCAGTAGCTTTTAATTTTAATCATGTCTCATTTGTCTATTCGGGGGTTTGTTGCATTTTTAAGGGTCTTTACCATA
AGTTCTTTGCCTGGACTAATGTCCAGAAGGGTTTTTCCTAAATTTTGCTTTAGGAATTACATAGTTTCAGGTCTCACATTGAGGTCTTTAATTCATCTTG
AGTTGATTTTTGTACATGGTGGGAGATAAAGGTCCAGTTTTATTCTTTTGCATATGGCTACCCAGTTTTTCCAGCATCCTTTATTGAATAGGGTGTCCTT
TCCCCATTGTTTACTTTGTTGACTTTAGCAAAGCTCAGTATGTTGTAGGCATGTATCTTTATTTCTAGTTTCTCTATTCTGTTCCCTTGATGTCTGTGTA
TATTTTTGTACTAGTAAATGCTGTCTTAGTTACTATGGCCTTATAGTATAACTTGAAATCAGGCAATGTGATGYCTCCTGTTTTGTTCTTTTTGCATAGA
AGTGTTTTAGCTGTTCAGGCTGGTTTTTGGTTCCAAATGAATTTAAAAATTGCTTTTTCTCTAATTCTGTTAAAGAAATGACATTTGTAATTTAATAGGA
ATTGTGTTGAATCTGTAGTATGCTTTGGGCAATATGGTCATTTTAACAATATTGATTCTTCCCATTTGTGAGCAAGGAATATTTTTCTATTTGGTTGTGT
TGCCTACAGTTCCTTTCATCAGCCTTTTGTCACTCTCTGTGTAGAGGTCTTTCACCTCCTTGGTTAAATATACTCCTCAGTGTGTGTTTGTGTTTGTGTG
TTCTTAATTTGATTCTCAGCTTGAACGGTACTGATGTATAGAAAAGCTACTGATTTTTGTAGCTTGATTTTTTTATCCAGAGACTTTACTGAAGTCACTT
ACCAAGTCTACGAGTCTTCYGGAAGAATCTTCAGGGTTTTCTGGGTATATGATCGTGTCATCAGCACACACAGATAATTTCACTTTCTCTTTTCCAATGT
GGATGCACTTTCTTTCTTTCTGTTGCCTGATTGCTCTGGCTAGGACTTCCAGTACTGTGTTGAATAGGAGTGGTGAGAGTGGACATCCTTRTCCTGTTCC
ATTTCTTGGGGAAATGCTTTCACTTCTCCCCATTCAATTTTAAGGTTGGCTGTGCGTTTGTCWTATAAGGCTCTTATTTTGGGGTATGTTTCTTTCATGC
CTAGTCTGTTGAGGGATTTTATCATGAAGGGATATTGGACTTTCTCGAACGCTTTATCTGCATCTATTGAGATGACCATATGCTTTTTGTTCTTAGTTTA
TGTCATGAGTCACTTTTATTGRCTTGCATATATTGAACCATCCTTTCATCCCTGGAATCAAGCCAACTTGATCATGATGAATTATGTTTTTGATACACTG
TTAGATTCCGTTTAATAGCATTTTCTTGAGGATTTTTGCACCTGTGTTCCTCAGGTTTCTTGGCCTGTAGTTTTATTTTTCTGTTGGATCCCTGTCTGAT
TTTGCTATCAGGGTGATATTGGTTTCATAGAATGAGCTAGGAAAGAATCCCATCGCCTTGATTTTTTGGAATACTTTCATTATGATTGGCACCAGCTCTT
CGTTGTGTATATGGCAAATTTCGACTGTGAATCCATCTGTTCTTGGGCTTTTTTGCCGGAAGATTTTTAGTACTGATTCTTTTTGGTTACTTGTTATTGG
TCTGTTTAGGGTTTCTATTTTTTGCCTGTGCGATCTTAGGAAGTTGTATGTGTCTAGGAATTCATCCATTTCTCTAGGTTTTCTAGTTTAYGTGCATAAA
GGTGTTCATAGTAGTCTCTGATGGTCATTTGTATTTCTGTGGCGTTGGTTGTAATGTCAACTTTATCATTTCTGATTGTGCTTATTTAAATCTTCTCCTT
TTTTTGGTTAGTGTAGTCAGCCATCTCTCAATTTTATTTATACTTTCAAAAAACCAACGTTTTCTTTCATTGATTCTTTGTAATGTTTTTGTCTCAATCT
CATTCTTTATCTGTCCTTTCAGAGTTTCCATTGTTTTCAGCATCCATCACTAGCAAGCCAGTGCGATCCTTTGGTGGTGCCACAATATTCAGATTTTTCA
CAGCGTCAGAATCCTTACACTGATTCCTTCTCTTCTGGAGAGGCCTCCACTTACTCTCTTCGAATTTATTTTCATTTGGATGGGATTTGTTTTGCACATT
TTCCCCYGGCCCCGCAGGGAGGGTGACTGTAGAGCATGTTGGGAAGGGTCTTTTGGCTTTTCCCATGGCTTTGGGAGCTTCTGCAGCAGGGTTTGTGTTG
GGCTGTGCAGCTCAAATTGCAGGCCAGGAGCTGGTGCTTAAGGGTAAGAGCCACCCTCGGCACAAGCAGGTGGATATGGACCTGGTGTGTTTCCTGTGAG
GTGCTGACTGTTGTTTCAGGGGAAGGGCTGGACCGTGGAGTGTCAGGTGCCCTGAGCTTTGTGTTCCACAGGGGCGAGGGAACACCCCTGGGCAGAGCTG
GAACCCCCGGCTTGCCCACAGATATCCCAGTGATGAGTGCAGGCACTAGTCCTGATGGACATGGCTGGAGCAGCTCCTAGTGAAATGCCCTGAGGTCTCT
GCGGGGGGTGAAGGAGCTACACCGTTTCCAGTCCCATAGGGAGGAACGTTGTCTGTCTCCCTATCACACCCGTGCTCCAGGGCTCATGAGTCTCAGTTCA
GACACACACTCTTGTCTCTCCCCAGGCCACAGTGTGGCTGAGGGCMGTGGGAAACACCTGCCTTGCCACTCTCTGCAGGCGTGGTTCCAAGGCAGAGCCT
CCTCCCTCAGCCCAGTGCAGACCCTGAGCGGCTGTCTGTTGTCTGACGTGGTAGCTGCTTCATGTAGGTGGGATGTGGGGCTTCTGCCTCTCTGGATGGG
AGAGTGGACGTCAGTTGTGGTGGTGTTGCTGGCTGGGTGGGCCCGACCTCAGGCCCTGGGGTGAGTGGTCAGGTGCCAGCAGGGTAGGAAAGGGCAGGTA
GTTCCCGGATCACAGGCCCCTAGGTGGCCGGCTGGACAGCGTGTGTGAGTCCTGAAGGGGCTGGACTGGGTTTTGGCTGCTCCGGGGTTCAGATGCTGGC
TGTGATGGGGAGGGATGGGCTGGTCCCCAGGGCACAGGCAGAACCCTCAGGCGGGGCAGGCAGAAGGCTCAGGTGGTAGAGCCTGCGGCAGATCACAGRC
CTGTGGGGACTGGGCTCTCAGAAGGGCTGGGGGCTGCAGCTGAAATGTCCAGGTGGGGGCAGGGTGGCTGTGCTGTGGGCCTGTCACTAGGGAGGGCAGS
GCCCCTCKGCTGGGGCACTGGAGACTGGCAGCTGTGAGGCACAGGGCCCGCTCACACTTCCCTCCTGAAGTGTCACTCGGTTTTGCTCTGGGGACACGTG
AAAGTGCCAGGCCTCCCCACACCCTCCCTGGGCCTGGGGCAGCAGGGRCAGAGGCAGAGGTGGCAGTGACTGCAAAGGGCTTGTCAGGGGCCTCTGAGCA
TTGGRCTTTCAGAGGGCACYGAGCCAGGGCCACSGTGTTCGGGTGGGGGCAGGACGGGTGACTGGGGCCCTGCAGCTGGCAAGCCCCATTAGCAGGAAGG
AAGCCCCATTTCGCAGGAAGCAACAGAGGTGGGCAGCTGTGTGGTGCTCAGCTTGGCTGCTCCTGTGCCCCAGCTGTCATACTTATTCTGGGGCCCACAG
AGGTGCCTGGCCTCCTCCCTCCCTGCTAAGGCAGTGKCAGCTGGACCCAGGCTGCTCAGGGATCAGAAGCCTGTGGGATTCCACGTGGGCTCCAGAGGCG
CCTCTGCACCATCTCTGGGAACTCCCTGTGCCTCTGTAGGCCAAGGGGGGTCAGGGGCTCTCCTGTGACCAGGATTGTAAAGGGCCAAGACAGGGGTGTG
GATCCCAGGGGCCTCACACCCACTCAATCTTTCCCTTTGTTAAGGAGCCTCTCACTCACTCACCCCTTCCCCGTGTTAGGGAGCCTCGCACTCACTCACC
CCTTCCCCGTGTTAGGGACCCTCTCACTCACCCCTTCCCCGTGTTAGGGAGCCTCKCACTCACTCACCCCTTCCCCGGGTTAGGGAGCCTCGCACTCACT
CACCCCTTCCCCATGTTAGGRAATCTCTCACTCACTCACCCCTTCCCCGTGTTAGGGACCCTCTCACTCACTCACCCCTTCCCCGTGTTAGGGACTCTYT
CATTCACTCACCCCTTCCCCATGTTAGGAGCYTCTCACTCACTCACCCCTTCCCCGTGTTAGAGAATCTCTCACTCACTCACCCCTTCCCCGTGTTAGAG
AATCTCTCACWCACTCACCCCTTCCCYGTGTTAGGAGCCTCTCCTGGCTCCCACCTTTTCTCTTCTCTTCTTTCCATGTCCTCATGTTTCTCAGGTGAAC
CCCAGCATCCTCTTGGAAGATCCACTTGACCTGTTGGTATTTACTCACTATTTTGGGTCCTCTTAGTGAGTAGGCAGACTCCAGCCCTTTCCATTCAGCC
AACTTGAACCTCAGCCCACAATCATTTTCTTGRCACTTTTTYCTCTTGGRAAATCCGGTCCCAATGTGCTTGTCTTTCATTTGAGAATAATTTTCATTTT
CTCCAGTAGTTTTAAAATTACTTTGTATCTATTCTAGRTATCTTTTACTCTATCATAGTTAAGACATTGATGTTATTTATTAATTTGTTCACATTAAACT
CATGTTCTTTCTTCATTTCTGTAAAAATGTCAACCATTTTCTTTGCAATATTTACTGAATAACGTACTCCTTATTTCCTTCATTCTGAAAGTGTGATCCA
TAGAGAGATACCTGTTTCCTCTTCTCATTCCATTTCTTGTGTGCATTAATTATGTTTTCTACTTYATTCATTTCTAGTTTTTCTCTGATGACTAATGAAA
AATTTAATAGATATTCCACACCAATACTATGYTCATCATTTCAGCTGTGTCTTGTTCTTATGCAATTATTTCTAAATGTGTTGATATGATTTACTATTTT
TCACCTCACAGTAGCTTCCTAATTCATTTCTATAATTGCCTGTTTTTTCTGTAATGGACTTTTTGATTTTTATTTCTCTTGGGTGGGTTTTTCTCCCACA
CATGTGATCTTCCATACAGTTTCTCCCYGGGCTGACTCAGGAAGGAAAGCTGATGAGGAGCATTGCTGTGGTCACTCCTGCCCTGCGGTGTCCATGCTGC
CAAGCTTAGAATCAGCTCTGTGTTCTGTCCGGCATGGTGGGGCCCATGTGAGCCTCACACTCACRTGCTAGAGATGCCTGGTCCAGCAGTGATAAAGYGC
ATCTGTGTCATGCACACCCGGGAAGGTGGCTCAATGCTGAGTGTGGCCCGGGTCACTGAGGGGAGCTATCCCAGGGTCTGTCCACAAACACAGAAGAGGG
AGAACAACAGTCTCTCTAGGGTCCCACGGTTTCCTCCATTTTTTGCTTTGTTCTGAGAGAGAGACAAAGTGCCATGRCTGCTCTGTGGGTTGGACAGATG
CATGCTTTCACCTGCAGGCTGGAACCCAAGCTGAGGTCTTCAGCATCCCCAAGTACTGATAAAGCACTTTAGGTTGTTTTTAGAAAACACTGAAAAATTA
ACCCTTTTGCTAAAGAGGTAGAAACAAGCCCTCCCCTCAACGAAATTCCTGAAACTCTCAGGTTAAACTTCGTAACCCAATCCCTTCACTGCAGACACCC
AATAGGAAAGTCACATGTGCAAGGATGAGATGACTTTGGTCAAGCTCAGACCCCACAGGGCCAGGAAGGCCTGAAGGAGAGGAGGCCCATGCTTCCAGCT
CTCAGATAAGAGCTGCTTCTAAGGACTTTTTAAAAACCCCACAAGAAACCCTTCCATGTCCTTCACCCCCTCCTGCTTTGACRAGGTTTATCACTAGATA
TTCTTTAGGATGTCAGGAATTCAGATAAGATGCTCTCGAGAAAAAACTTGCCCAGCAACGGCATCTCCTCCAATGGACTGACAGCAACTCTGGCTTTGAA
CCTCTGGAATCAGGGAACTCTGTTTCTAAGCAGCTCTGTCAGCCTCTCTCTTGTTGCTGATAAGAACTTCCTTTACTTCTGTATGTCAGAGAGCTCTCTC
TATGGTGCTTTTCCTCTACTCTCACACCACAGGAATCATCCTCACAGAAGAAGACTTCTAGGACCAGATGTGTGGGATTTTTTTTCCTAGACCCAGTAGC
GGACGCCAGCTGAGTGTTTAAATGCTTCTTCCCCAGTGCCGTAAACAAATAGCACTTGAACATAAATTTAATTTACTCAGCAAGACCATTTTTATTTTCT
GCAGCAAGGGTACACTCACCAGCAGTTTTGCTTCGAGAGTACACAAAACAAAAGAGACAGGGTCATTTATAACCTGACACGTCCACCCTACTGCTCTGTC
CGGTTTCCACTGGCTGGAACAGGACCTCACACTCTGTATTTGTCCCGATTGGCTAGTAACTTAGAACTTCTGAAAAGAGGCAAAGGTAGAGCAGAACAAA
GGAAGGAGGAAGTAACTTGTGGAATGCTGAGAAAGGTGAAAACACCTTCAAATAAGGAAGAGGAACAGGCTATGACCTAATGCTTGCTTGGACCAGTATA
AGCATGCCAGGGCAAATATTTAGGCTAAATTGTGGGAGCTAATAACATAAAGTACATTGATTTATTTATCACGGCTAGCAGATATTTGAGAATGTTAGCA
TAGCTCTGACACTGTCTACCCAGAGACAGTCCCAGATCCCACAGATTGAATGGTTCAGTCCCCAACACTGCCCCCACACCATTCCCAAGTCCAGACCTCC
AGAACTTCTGACTGACTGGCTTCAAGTTGGGGACCCTATGACCACCTCTTTGGGTTTGATTAATTTGCTGTAGCAGCTCACAGAACTCAGAGAGACACTG
ACGTTTCCTGGTTGAATACAAAGCACACTGCAGAGGACACAGATGAAGAGACTCATAGGAGGAGGCATGGGGGAAGGGGCGCAGGGCTTCCATACCCTCC
CTGGGCATCACCCTCCAGGAGTCTCCACATGCTCAACCACCCAGAAACCCACGAAACCCAGTCTTCTTGGGTTTTTATGAAGCTTCATGATGTCAGTATT
TCCTCCCACAAGGAACAGGCTGAGACCATCTTCTGGGAGGGTCTTAAGAGCCACCATCAGAAAGGCAGGGACATTAGAGTCTTGCCTTGGGCAGGTGAAG
GAAGGGCAGGAGGAGGTCAGAGGCCTCCCCTAAGGCCTAACACAGCCAATGTTATAACAAAAGACTGTAACAAGGGCTATGGAGCTATGAGCCAGGAACC
GCAGGTGAAAACCAGTGTGTATCACAACATCACACTTCCCTCTCCGGACACACTGTGGCTTGCCATGCCATGCACTCCAGATTGTAATCCTTGCTTCTCA
CTCCCAAATAAACTCAAAATCCAGACAACCCTSGAGCAACGCAGCCTTGAATTCCTGGGGTCTCTTATATGCACACTTTTTTCAACCAAARGGGGGTCAA
AACTRTAGCATTTGTGGGATGCAAGACTTGTGTATATGAACGGCAGACTTTTCCTATATGCAGGCCCAGCAGAGACAATGTCGGGGCTGGAGTACGAGCA
GGTGTTGGTGCATGTAGGGGGTACTGAAACGAATTGCCTGTGTATCCCAAGAAACAACTCTACTGAGAGATCATATTCTCTAGGGGTTTATTTTTGTTTT
TATTTTTATTTTAAGTTAAAGCTTCGGGTAGAACACCCAGTGTCTCCTTGTCCATCTGAAGAAGATGCTGCTATGTGGAAGCACATCCTTGAGATCCACA
AGGAGACACTGGGCAAGGAGACGAGGGTGMCCCACTGTGCAGAAGTCTCCCTAAYAAATGMTCTATGAACACCCTGGTGTTTAGTGCTTCTTTCTTTGGA
ATCCCAGCAGCTCTRTCACTGGACGGTTTGGTGCACTCCCTTGAGGGAATTCCCCTGGGCTGCTTGGGGTCCACTCCAGCCTCAGGTGTAGSTGGAGGAC
GCAGCCTCCCACCTTGGTCTGGAGCCCTGAGCCCCTCACTGTCATTGCAGATCCCGAGGTTCCTCTCCTGGCTCCACTCAGTGGTGGAAACCTCCACCCT
AATGAGCCCTTGATGGTCCCAGGTCCCTGTGGCATCTCACCTGTGGCCTCTGTTCTTTCCTGTGGATCCATCTACACTTGGGAACTTCCACATCTCTTTT
TCTGCTCATGACATTGATGCTCTGGGTATTTCAGAAATGCCCAGATAGATGGACAAATACACGTCCATCTATCCATTAGGGTCAGATGTGAGATCCAGAG
TGGACACATCAATCACCTACGTAGACTGTGGAGTCCAACGCCAAGATCCTCTTATGTCCCAAACACCTCAGGTCTTACCCTGGTCTGGAAATCARGCACA
AATGAGCCCCTCCTAATGTTCCAGCACCACTGACCGTACAACCACTGTCACGAGTGGGATTTGTGACAACAGTCGGCAAAGGAAGAATCTGAGGCTCAGA
GATGGTTCATTACCGCCCGAGGTCACGTAGGCAGTGGATGATAACCAGTCGTTGAATAAATATAACTCCCCCCCAACTCCCCAAATCAAAGCTCAAATAT
AAGTCATTGTTCCCAAAGCGTTGAACAGGGATTGAGGTGCAGAGGGACGGCCAAGTAAGCAAAGGGCACCGAGGAGGCAGGAAAGACTCAGAGATTTGTT
CCCGGGGGGTGGGGTTGGACACTGTAGCAAAATATTTTAAAAAGGGGAAGTTAAGAGGGGACTATTTGGTTGAAAGAAAACCCACAATCCAGTGTCAAGA
AAGAAGTCAACTTTTCTTCCCWATTTCCCTGCATTTCTCTTCTGTGCTCRCTGCCACACGCAGCTCAGCCTGGGCGGCACAGCCAGATGCGAGATGCGTC
TCTGCTGATCTGAGTCTGCCTGCAGCATGGACCTGGGTCTTCCCTGAAGCATCTCCAGGGCTGGAGGGACGACTGCCATGGTAAGGACCCCACAACRCTG
AGCTGATGGACGGCTGAAGGAGGGAGGGTGACCATGTGGGAGGCTGTGAGAAGGAAGGAGATGCCTCCGCTACCCTCGTCAGGAAGGGCAGACACAGGAA
GGAACCAGTTTTATTTGCTGCTACATCCTGGCTCTCAGTGGGATGAAAACAAACCAGACAGACGGTGGCTGGGGGTCAGGAAAGGGCCCATTACCRTCTG
AAATGATGCAGAGGGCCTAGTGACTGCCCCCACCTCAGCCCTAATGGAATGAGAGCAAGGGTCCTGGGGAGGGCAGTTCCACTTCCTGTGTGGCTGCAGA
TGACAGCACCCCATGAGAAGAAGGACCCAGCCTCCGATTGGCCACACTCTGTGTGTCTCTCTATCCTGCCAGCACCGAGGGCTCATCCATCCACAGAGCA
GGGCAGTGGGAGGAGACGCCATGACCCCCATCCTCACGGTCCTGATCTGTCTCGGTGAGATTTGAAGAAGGAGGGGAGCTTCTAACCTAAGAGGGACCTC
ACCCCACAGCCAAACTCTKGTCCCTAAGGAGACCCCAGGGGCTCACAAAGATCCCAGGGAGGGGAGGACCTGCCCAGGCTTCAGGGGGCAAATCCCTCAC
CGGGAACTCTCTTCCAGGGCTGAGTCTGGGCCCCMGGACCCACGTGCAGGCAGGTGAGTCTGTCCCCAGCTCTTCCAGGTCCCTCCTCCTCACTGGGGAC
AAGGGGCCACCCCCGTGCCGCTGGGGATGGGGAATAGCAGTTCTGGGCTGACTGATSGGGGCRTCTGGAGGGTCCTGGGCTGAGAGCTGGAATCTGCTGG
GTTGGGTGGGAAATGAGTTAGAATCYGACTCCTGATTTCCTTCCAGGGCACCTCCCCAAGCCCACCCTCTGGGCTGAACCAGGCTCTGTGATCACCCAGG
GGAGTCCTGTGACCCTCAGGTGTCAGGGGGGCCAGGAGACCCAGGAGTACCGTCTATATAGAGAAAAGAAAACWGCACYCTGGATTACACGGATCCCACA
GGAGCTTGTGAAGAAGGGCCAGTTCCCCATCCCATCCATCACCTGGGAACAYRCAGGGCGGTATCGCTGTTACTATGGTAGCSACACTGCAGGCCGCTCA
GAGAGCAGTGACCCCCTGGAGCTGGTGGTGACAGGTGAGCTGACACTCAGGGGTCCCAGCCCCAGACTCTGCCCTCAGGAAGGGGGACGGCTCTCAGGGG
CTTCTCCCTCTCACAGCCCAGCCCTGGGGATGACGCGGGTGGTCTGAGCCACATTTAACACGGTGCCTCCTTCTCTCCTAGGAGCCTACATCAAACCCAC
CCTCTCAGCCCAGCCCAGCCCCGTGGTGAACTCAGGAGGGAATGTAAYCCTCCAGTGTGACTCACAGGTGGCATTTGATGGCTTCAKTCTGTGTAAGGAA
GGAGAAGAWGMACACCCACAATGCCTGAACTCCCAGCCCCATGCCCGTGGGTCGTCCCGCGCCATCTTCTCCGTGGGCCCCGTGAGCCCGAGTCGCAGGT
GGTGGTACAGGTGCTATGCTTATGACTCGAACTCTCCCTATGAGTGGTCTCTACCCAGTGATCTCCTGGAGCTCCTGGTCCTAGGTGAGAAATTCACAGC
ATTGCCTGGAGTTCCCTGAGTCTCCAGGCAGGTGGGGAGCAGCCRCGTCTCAGGGCAGYTCCAGGTGGGATGATGTTGGGGCGAGAGGGCTCAGGGCTCC
TGGGGCCAGAGACACAGGAAGATCAGCAGTGATGWGGCCCCGGGKGAAAGGGAAGATTTGTGGGGAAGCCTGAGGGTCGGCTCCTGGAAACCATGACCAC
CTTTTCCCAGGTGTTTCTAAGAAGCCATCACTCTCAGTGCAGCCAGGTCCTATSGTGGCCCCTGAGGAGACCCTGACYCTGCAGTGTGGCTCTGATGCTG
GCTACAACAGATTTGTTCTGTATAAGGACGGGGAACGTGACTTCCTTCAGCTCGCTGGCGCACAGCCCCAGGSTGGGCTCTCCCAGGCCAACTTCRCCCT
GGGCCCTGTGAGCCGCTCCTAYGGGGGCCAGTACAGRTGCTACGGTGCACACAACCTCTCCTCCGAGTGGTCGGYCCCCAGYGACCCCCTGGACATCCTG
ATSGCAGGTGAGGAGCCCAGCGGGTTCAGTCAGGGACCCAGGCTCCGCACAGGCCCTGCCGGGGGAGCTCAGGTAGTGATGGCCGGGATGAGGGATGGGG
GTCCCAAGGGAGGGAGAGACAGACAGAGACAGGGGATGGGCGGGGAGGGGGAGACTCAGAGAAAACAGAGACAGAGACACTGAGGGTCCCAGAGGGAGAC
CTGGGGAGGTGTCAGCTCAGAGCAAGGTGGGGCAGCCCCTCGCCCATCCTTCTTCTCTCCAGGACAGTTCTATGACAGAGTCTCCCTCTCGGTGCAGCCG
GGCCCCACGGTGGCCTCAGGAGAGAACGTGACCCTGCTGTGTCAGTCACAGRGATGGATGCAAACTTTCCTTCTGACCAAGGAGGGGGCAGCTGATGACC
CATGGCGTCTAAGATCAAYGTACCAATCTCAAAAATACCAGGCTGAATTCCCCATGGGTCCTGTGACCTCAGCCCATGCRGGGACCTACAGGTGCTACGG
CTCACWSAGCTCCAAMCCCTACCTGCTGACTCACCCCAGTGACCCCCTGGAGCTCGTGGTCTCAGGTGGGGGCCTTGACCCTGTCCTCTCTGAGCTCAAA
GTCTCAGCTCAGACCCTGCCCCAGGAGAGCTCTGGGCTGRGATGGAGTGAGCGGGGGTCTGAGAGGGGCTCAGCCAGTGGGAGACTCACCCTCAGAGGGA
AGGAGGAGAACAGGGCCCTCCCAGGCCTGCCCACCCTCAGTGGCATCGCCAGCATCATGGACAGGAGAGGCGGGTGGAGGGAGGGGCCTGGGGAGGCCAC
AGGTCCCATGTAGAGAAATTTGGTTTGAGGTGGAGACTTCAGGAAAGCCCCAGSTCCTCAGCCTCCTCTCATTCTTTTACCCAGGACCSTCTGGGGGCCC
CAGCTCCCCGACAACAGGCCCCACCTCCACATCTGGTGAGTCCCTGAGGCTTCTGAACTCAAGGGAGTGCGGCCTCCCCCAGGGCAGCCCTGGGTCTCCC
AGAGAATCCCATTCCCCTCAAAGACTCGAGCTTCCCTCCAGGGAGCCGGGCAGAGCCAGAGGAGGGGCCACAGGGTCCCCAGGGCTCTGAGGCTGGGCTG
GTGAGGGGTGGGGGGTCAAGGCAGAGAGAAATGTTGGGGCCCAGCCTGGGGGAGGAGCAGCCGGGCTGATGTGGGGAGCAGGGCAGCCCCAGCCCTCACC
TCCCCGTCCTGACCCAGCAGGCCCTGAGGACCAGCCCCTCACCCCCACCGGGTCGGATCCCCAGAGTGGTGAGTGASRGGCTCTGAGTGGGAGGTGGGCA
GGGTCCARGGGAGGCAGGGGTGGGTTCTGTCCTAGGTTCAGKCTCCTCTGGAGGTGGTGATATAGACAGGCTCCTCCCCTGCYTGGGCCTCAGTTTCTCC
AAATGTAAAGGTGAGAGGCCTGCGGGTGGGAAAGTTCCTTTCAGCTCTGACTCCCAGCTGTGACCTCCTGGGAGAGGAGGCCYCCCAGGGAACCTCCCAG
ACCCGATTCCGCGGGGGCCTGTCCCGTCCCACCTGCAGCAGWGACGGTGACCTGGGGCAGGGGAGGGGAGMAGAGTCRTGGTTCAGGACGGTMAGGCTCT
TTCCCTGCAGCTCCGGGGCTCGGCTCTGGTGCAGGAACAAGGGCTGCAGGTCAGACTCCTGGGCTTCCTTCCCAGCTCTGCCGCTTCCTGGCTGGGGGCC
CSGGGCAGGCGATTCCCCTCTCTGAGCGTCAGTTTTTCATCTGTACAGTGGGTGGGGTGGATGTTTSTGTGCTGCACGACTGTTGTGGGGGTTGGAGGTG
GTGAACAGAAGGTCCAGCAGTCACCTGCACACAGTAGGCGCTCATTTCAATGACATCACCCCCATCCCTGACATCATCGTGCTCAAGGTCTGGGAAGGCA
CCTGGGGGTTGTGATCGGCATCTTGGTGGCCGTCRTCCTACTGCTCCTCCTCCTCCTCCTCCTCTTCCTCATCCTCCGACATCGACGTCAGGGCAAACAC
TGGACATCGAGTGAGTAGGGAATGGGGGGACCCTGAGGGCTGACCGAGGGTGGGCTCAGGGCACAGCCAAAGAGAATCCAAACCACTGGGCAAATGCAGC
TTTGAGAAACTGTTCCAGCATTTCTCACCAGGCCAATCGACAGTCAGTCCCATCTACAAATGTAAAGTGTCCTTCGGGCTCAGTGCCATCTACAAATGTA
AAGTGTCCTTCGGGCTCTGTCCATCCTATGAGGCATTTGGAACATGGAGGCAGGAGTGTTTTTARGTTTCCTTCCTTACCTTCGAGCTGTGTGTGCAGGG
CAGGGGGCTCCAATGTTCCCAGGGCTGAGGCTCTGTCCTTCTTCCCCCAGCCCAGAGAAARGCTGATTTCCAACATCCTGCAGGGGCTGTGGGGCCAGAG
CCCACAGACAGAGGCCTGCAGTGGAGGTAATTCTGCCCGAAGACCCCAGACTCCCACCTGCTCGTGGCCCATACACTGCCCCTAAAGCTCCCATTCTTCC
CCCAGGTCCAGCCCAGCTGCCGATGCCCAGGAAGAAAACCTCTGTGAGTGAGAGGAAGAGGTGACCAGCCAGGAGGGAGATGGGGGCCCCGAAGTTTCYG
TAGCAATGGGGAAAGGGGCRCTGGCTGGAAAGGGTCTGGGGCTCAGGGYGAGATCATCTCACCCCACACTGTGGGGCCTCAGGGACATCGCAGCCCCTCC
CTGCATCTCAGTGGCCCCATCTGGGAGCTGAGCAGGGGCTGGCAGGACTCAGAGGTCCCAGGGAACCTTCCCAAGAGACAAACCCCTTGCTCTGCCCCAG
CAGATGCTGCCGTGAAGCACACACAGCCTGARGAYGGGGTGGARATGGACACTCGGGTGAGACCCCRCCYCTGTCCCAGGCACCAAAGGCCTCCTGGTGC
CAGATCTAATCCWGCAGRACTTCTCTGTCCTCCTTCCCCCGGCTCTCAGCATCGTCACGGTGGACCCCTCCTTGTCCAGCAYGCTGCCTCCYGCCTGCTG
CGACCTCACTCTCTCCTGCTGTCCTGGGACCTCGTGGGCCTCCTCCCRGGTCCCCTTCCTGCTCCTCATCCTCTGTTTGGCCGTCTGGTTGTTAGAGCTC
TCCCCAGGCCTCAGGAGGATGAGGAATAAATGAACCACCCCGGTCCCCCAGGCTCCCCTTCATTCATTCAACCAGCAAGTGTTCCCAGGGAGCTCACTGT
GGATGGGGCTCCCCATGGGAGCTGCAGACACAGCAGGGAGSAAAGCCGCCCCCGCCTCCTGAGCTCACCTCGTGGTGGGAGACAAAATGCAAATAAATGT
GCCGCGTCCAGGAGTGCAACGTGCTGTAAGGAACATAAACCAGRGAAAGGGCAGAGAGTGTGGGGCAGTGGGGCCAGTCTGAATGGAAGGGGAGGGCTGT
CTGCTCAGCTGTCATCTGAGAAGCCTGGACAGAGTGGGGCACACGATCCTCTGATGGACGAGCCCCTGCAGGCAGAGGAAACAACCCTGCAAAGGCCCCC
AGGCAGCAGCGAGCTCTTGCAGGAAGGCCCGTGAGGCTGCAGCCAAATGGGCAACGTCAGAGTGAGGAGCAGAGGCCAGAACCACAGCGAGGGAGCGGCC
AGACCCTCCACGGCCTTAGGGCGTCCCTGAGATTCCATCGGGAAAGGGATGTAATCGGATCACCCGGGGAACAGTGAGGAAAATTGACTCCAGGGGGTCA
GGAGGATTCAAGGACACCCCCCACCACTGTCTCTCTCCAGCAGAGCCCACACGATGAAGACCCCCAGGCAGTGACGTATGCCGAGGTGAAACACTCCAGA
CCTAGGAGAGAAATGGCCTCTCCTCCTTCCCCACTGTCTGGGGAATTCCTGGACACAAAGGACAGACAGGCGGAAGAGGACAGGCAGATGGACACTGAGG
TGAGTCCTTTCCTCTCCAGGCCCCCAGGCCTCCCCCACCCCCACCACGTTCCTTMCCTCTCACTCTCCCCCGCTGCAGGCTGCTGCATCTGAAGCCCCCC
AGGATGTGACCTACGCCCAGCTGCACAGCTTKACCCTYAGACGGRAGGCAACTGAGCCTCCTCCATCCCAGGAAGGGCCCTCTCCAGCTGTGCCCAGCAT
CTACGCCACTCTGGCCATCCACTAGCYCAGGGGGGGACGCAGACCCCACACTCCATGGAGTCTGGAATGCATGGGAGCTGCCCCCCCAGTGGACACCATT
GGACCCCACCCAGCCTGGATCTACCCCAGGAGACTCTGGGAACTTTTAGGGGTCACTCAATTCTGCAGTATAAATAACTAATGTCTCTACAATTTTGAAA
TAAAGCAACAGACTTCTCAATAATCAATGAAGTAGCTGAGAAAACTAAGTCAGAAAGTGCATTAAACTGAATCACAATGTAAATATTACACATCAAGCGA
TGAAACTGGAAAACTACAAGCCACGAATGAATGAATTAGGAAAGAAAAAAAGTAGGAAATGAATGATCTTGGCTTTCCTATAAGAAATTTAGGGCAGGGC
ACGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGTTCAGGAGATCGAGACCATCTTGGCCAACATGGTGAAACCC
TGTCTCTCCTAAAAATACAAAAATTAGCTGGATGTGGTGGCAGTGCCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCAGGGA
GTCAGAGGTTTCAGTGAGCCAAGATCGCACCACTGCTCTCYAGCCTGGCGACAGAGGGAGACTCCATCTCAAATTAAAAAAAAAAAAAAAAAAGAAAGAA
AAAGAGAAAAAAGAAATTTAGAAGAATAACAAGTTATTCCAAATGAAGGCGTAAGAAAGGGAATAATAACAATAATAAGAGGAGTTGTTCATGAGGAAAA
ACCAAAGCTTGAAAATTCAACAAAGCCAGTGAAGCTCATTCTTGAAAACATGAATCACACTCATGAATTCTAACTACAATGAAAAAGAGAAAGAAAGAGC
AGGCATGCATTTCCATATGGGAGTGAGCCAGCAGACAGCCCTACAGATCGTACACACGTTTTCCAAAACTAACAATGGAACAGGCGGCAAACCTATGCCA
ATATACTAGAAATTGCAGATTAAATAGATGAAATATTCTAAACTGGAGTTTACATAATGAACATAAGAGTAATCAGAGAATCTGACTCATTTTAGATGTG
TGTGTGTGTGTATATATATGTGTGTGTGTGTGAAAAACATTGACTATAATAAAAATAATCTCGAGTTCACGAAGCTTCATTGGTGATTTCTTACAAATAT
TGACACACTAATGAAACACACAAACACACCCAGAGCATCACAAATGTTTCTTGAGAATAGAAAAAGTGGCAATGTGCCCAGGTGCGGTGGCTCACGCCTG
TAATCTCAACACATAGGGTGGCAGAGGCGGCAGATTACTTGAGGCTGGGAGTTCAAGACCAGCCTGGCCAACACGGCAAAACCCCATCTCTACTAAAAAT
ACAAAAATTAGTCGGACATGGTGGCGCACACTGCAGTCCCAGCTACTTGGGAGGCAGAGGCAGGAGAATCACTTGATCCCAGGAGATGGAGGCTGCAGTG
AGCTGAGATCCCGCCCCTGCGCTCCAGCCTGGTCAACAGAGCCAGACTCTGTCTCAAAAAATTAAAAAAAAAAAAAAGTCATGACATATAAAATAGAATT
TTCCATTCTATAACAGGCATATTTTAAACTCTACAGTTTTTCTGTTTCAAAATAATATTTTTTTAAATTTTATTTTAATGTTTTACTTTATTTTATTTGG
CAGTTTAAAATTCTACATATTTAGGATGTGCAACATGGTATTTTAATATGCCTGTGAAATCGCTAGGTCAAGCTAATTAACATCTGTAACATCACGTAGT
TATCTTTCTGTTAAGAGAACATTTAAAATCCACTTTCTTACCAATTTTCGCGTATGCAATCCATTGTTAGCAACTGTAGTCACCATACTGTACAACAGAT
CTCCTAAACTTACTCCTCCTGTCCAACTGAAGTGCGGTATCCTTCGATGCAGCTCTCTGATTCCACCCCAGCCCAGCTCCCGGGGACCACCTTCTACTCT
CTACTTCCATGAGTTCAACTGGGGCAATCCGCACATAAGTGAGATCAGGCAGCAGGTGTCTTCCCGTGCCTTCTTTATTCCGCGTAGCGTGACGTCCTCT
AGGCTCGTCCATGTTGTCACAAATGAAACAATTTCCTTCTTCTAGAAGGCGGAATAGTTTTTCGCTGTGTTTATACTGAGCGCTTCATTTTCTGTATCCA
TTCGCCTGCTGATGGACGCTTGGCCGGGTTCCATGTCTTGGTTATGGTGGCTAAAGCTGTCATGAACATGGGAGGGCGGGCATCTCTTCAACGTACTGAT
TCCATTTCCTTTAGATACACACCCAGCAGTGAAATTGTTGAAACACAGGGTAGCTCTGATCATTAACTTCTGAAAAACATCTATAGTATTTTTGTGGTCA
TTGTACTCATTTACATTACCACTAGCGGAGGGCAGCGGTTCTATTTTTTCTACATTCTCGCTAACACTTGTTATTCTACTCTTTTTCATAGTAACCATCC
TAACAGATGTGAGGTTATAGCTTCTTAAAGTTTATATGTATGTAAGTATATGCCTATATGTATATATGCAAATGTATGTATTCATACATAAACATCCATA
CGTACATATGTGCAGATACGTATGTACATATATATGCATGTGTATTGTATGTATATATGTATACACAGGTATACACATATATGTGTAGAAAGTGAAATTT
TGCAGTGAGATATCACCTCACAGCTGTTAGATTGCCTATTATCAGAATGGTGAAAGATCAGTGTTGGTGAGCATGAGGAGAAAAAATCCTTACACACCAT
TGGTGGACATGTAAATTAACACAGCCATTTTAGAAAACAGTATGGAAGCTCCTCAAAAAACTAAACATGCCACCACCATATAATCCAGCAAGCCCACTGC
TGGGTGTATACCAGAAGAAATGAAATCGGCCACAGAAGAGACGTCCACACTCCTAAGCTCATTGCAGCACTATTCACAATTGCCAAGTTACAAAAACAAT
TCTATATTTTTGAAAAAGGATTCATTTCTCCTGTCCCTGTAGAGAAAACGGGCTCAAATTACACATTAGCTGAGCTCTGAGTACTCACTCATGTGTGTAT
CTATGAGGGTGCATGTTCGTGTGTGTTTCAGTATGTGGTTTTTCCATTCTGTGTACTCACCCATGTCTGTAACTATGAGGGTGCATGTTCACGTGTGTGT
GTGTGTGTTTCAGTGTGTGGTTTTTCCCATTTTTCCTCCCTTGAGGATATCGCATTGTATGTTTTGGATTCTTTGATCTTCCAATTAAATTACATCATTT
AGAATTGCTTTCACTAAGTGTGAAACAATAAAAATTTTTTTTAATTGTGGCTCTGGAAATACCTTCCTTTCCCTTTCACTCTGTATCAAGATTTGTAAAT
TTTTTAAAATTTTTGTTGTTATTTTAAGTTCTGGGGCACATGTGCAGGATCTGCAGGTTTGTTACACAGGTAAACATGTGCCATGGTGGTTTGCTGCACC
TGTCAACCCATCACCTAGGTATTAAGCCCAGCATGCATTGGCTGTTGTTCCTAATCCTCTCCCTGTCCCAACTCACCCTCCTCCAACAGGTCCCAGTGTG
TGCTGTCCCCCTCCCTGTGTTCATGTGATCTCACTGTTCAGCTCCCACTTATAAGTGAGAACATGCAGTGTTTGGTTTTCTGTTCCTGCATTGGTTTGCT
GAGGATAATGGCTTCCAGCTCCATCCATGTCCCTGCCAAGGACATGATATTGTTCCTTTTTATGGATGCATAGTATTCCATGGTGTATATGTATCACATT
TTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGATTCCAGGTCTTTGCTACTATGAATAGTGTTGCAAAAAACATATGCATGCATGTATCTTTGT
AATAGAATGATTTATATTCCTTTGGGTATATACCCAGGGATTGCTGAGTCAAATGGTATTTCTGGTTCTAGATCTTTGAGGAATCACCACACCATCTTCC
ACAATGGTTGAACTAATTACATTCCCACTAACAGTGTAAAAGCATTTCTATTTCTCTGCAACCTCACCGGCATCTGTTTCTCCTTGACTTTTTGATAATC
GCAATTCCAACTGGTGTGAGATGGTATCCCATTGAGGTTTTGACTTGCATTTCTCTAATGACCAGTGATGTTGAGCTTTGTTCCATGTTTCCTGGCCACA
TGAATGTCTTCTTTTGACAAGTGTCTGCTCATGCCTTTTGCCCACTTATTAATGTTTTATTCCTGTAAATTTGTTTAAGTTCCTTGTGGATTCTGGATGT
TAGACCTTTGTCAGATGGACAGATTGCAAAAATTGTCTCCCATTCTGTAGCTTGTCTGTTCGCTCTGATAATGGTTTCTCTTGCTGTGCAGACGCTCTTT
AGTTTAATTTGATCCCATTTGTCAATTTTAGCTTTTGTTGCAATTGCTTTTGGTGATTTCGTCATGAAGTCTTTGCCCATCTTTGTCCTGAATTATATTA
AATAAAGTCTTTGTCCTGAATTATATTAAATAAAGCATAAGGGAAAAGATGTAGAAGGGAAAGTACATGTAATGGTTAAGGCGTCTACTGCCAATCCCTC
CCCGTTCCTCAAGATGAAGCCTGACATGCTGGGTTTAATGTGTGAGACAAGCTGCCGACAGGTCGTTTGCCTTTGTCTTTAATAATTTAGATTAACACAG
AAATCTTCACCATGAATTTCTGAAGGCCTTTCTTTAGTATCTCCTGGTGTTGAATTTGCTGTTGGAAGGTCCAATCCCAGTGAGCATGAAAATCCATTGG
AAATAATTTGCATTTTTACAAATAAATAATTTTAGGATTTTTTTTTTGTTTCCAGGACAGACTTCCTTGTATTTTTTTAATGAGTTAAAAATTATATAAT
ATAAAAATAACATTTAAAAACCCACAATTCAGGCCGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCCGAGACGGGYGGATCACTTGAG
GTCAGGAGTTTGAGACCAGCCTGGTCAACATGGCAAAACCCCGTCTTTACTAAAAATACAAAAATTAGCCAGGCATGGTGTCAAGCACCTGTAATCCCAG
CTACTCGGGAGGCTGAGACAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCAGAGATTGTGCCACTACACTCCAGCCTGAGTGACAGAGC
AAGACTCTGTCTCACACAAAAACAAAAACAAAAGCAAAAACAACCCCTCACAATTCAGCCTAGGATATGTTTATTAAATTTACATTTGTCTTTTTGCTTA
AGATTGCTTTGGTATTCGTCCTCTTTTTGGTTCCATATGAATTTTAGGATTGTTTTTTCTAATTCTGTGAAAAAAATGATGTTGATATTTTGATGGGAAT
TGCATTGAATCTAAATATTGCTTTGGGAAGTGTGATCATTTTCACAATATTGATTCTTCCAATCCATGAGCATGGGATATATTTCTATTTTGCTGTGTCA
TCTACAATTTCTTTCAGCAGCATTTTGTTGTTCTTCTTGTAGAGATCTTTCACCTCCTCGGCTAGGTATATACTTAGATATTTTTAATTTTTGCAACTGA
TGTACAAGGGATTGAGTTTTGCAGCAACCTGGATGAGCTGGAGGCCATTATTCATGACACCACATCCAGCTAATTTTTGTATTTTTTGTAGAGATGCGGT
TTTGCCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCCCAAGTGACCCGCCCGCCTTGACCTCCCAAAGTGCTGGGACTGCAGGCATGAGCCACGGTGC
CCGGCCTATCATAGCACTTTTGATCATTGGGATAATTCCTCCTCCTTGTCATTTTTGGACACATGCTTCCCACATGCCTCATCTTCCAGAGAGGGTTTCC
ACCAGGGCTGTGCTGGGAGTTAAGGCTGGAAAAGGGGAGATGGTTCCAGCTGCCAGTGCCACATGAGTCTACTCAGGGCTGTAACCAGCAGGGAAGGTCC
AGTGTGAGCCTCAGACTCGCATGTGGGACAGACGCCCATGTGTGACAACGCTGCAGTGAATCTGTTTCACACACATGGAGGAGGCGGCTCAGGGCTGACC
ATGGACCTGAGTCAATGAGCAGAGATATCCCAGTGCCATCCACAAACACAGGGGAGAAGGAGCCACAACTTCTCACTTTCATCCAAAACCCCGACCCCTC
CCTGTCTGTGAGGGCCTGGGGTTCTCCTCTGTCTCATACAGAGGCAGAAACCTCCCCCTTAGTGACCCCCAGACTTTGCAAGTCACCAGCAGCCGCTCGG
CTCTGGCCTCTTCTGCTTCTTAAGGTTTCCTGCCTATGACAGGAAGTCTCATTTCTCATTTTCTTCATCGGACCATGGCTACATATTTCAGACACATTAT
AAGTAGGTTTTCCCAATGTTAGGAGCAGATGTGGGCTGTTGAGCATTTAAGTTGCTCACCGTGACTGTGCAGTCCAACACCAGGATCCACTCATGTTTCA
GCCCCTCAAGACTTAACCCGGTCTGGAAATGTACCATGACTGAGGCCCTCCCATGACCCAGGCACCACTGGCCCCCAAAACCACTCAGGAGGGGGGTTCA
TGACAACAGGCTCCAAATGAGGAAACCGAGGCTCAGAGATGGGACTTACTGCCCAAGGTCATGCACGCAGGGATGA


SNP Information

Context             (SEQ ID NO:33762):
AGTCTGTCCCCAGCTCTTCCAGGTCCCTCCTCCTCACTGGGGACAAGGGGCCACCCCCGTGCCGCTGGGGATGGGGAATAGCAGTTCTGGGCTGACTGAT
S
GGGGCGTCTGGAGGGTCCTGGGCTGAGAGCTGGAATCTGCTGGGTTGGGTGGGAAATGAGTTAGAATCCGACTCCTGATTTCCTTCCAGGGCACCTCCCC
Celera SNP ID:            hCV26235201
SNP Position Genomic:     20257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;(C,-|G,-)   no_pop(C,-|G,-)   (C,-|G,-)   Caucasian(G,36|C,46)   African-American(C,36|G,46)   Asians(C,22|G,52)   total(G,134|C,104)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33763):
CCAGGGGCTCACAAAGATCCCAGGGAGGGGAGGACCTGCCCAGGCTTCAGGGGGCAAATCCCTCACCGGGAACTCTCTTCCAGGGCTGAGTCTGGGCCCC
M
GGACCCACGTGCAGGCAGGTGAGTCTGTCCCCAGCTCTTCCAGGTCCCTCCTCCTCACTGGGGACAAGGGGCCACCCCCGTGCCGCTGGGGATGGGGAAT
Celera SNP ID:            hCV26235202
SNP Position Genomic:     20135
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(A,-|C,-)   JBIC-allele(A,574|C,919)   total(C,919|A,574)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:33764):
GCCCTGTGAGCCGCTCCTACGGGGGCCAGTACAGATGCTACGGTGCACACAACCTCTCCTCCGAGTGGTCGGCCCCCAGTGACCCCCTGGACATCCTGAT
S
GCAGGTGAGGAGCCCAGCGGGTTCAGTCAGGGACCCAGGCTCCGCACAGGCCCTGCCGGGGGAGCTCAGGTAGTGATGGCCGGGATGAGGGATGGGGGTC
Celera SNP ID:            hCV25943759
SNP Position Genomic:     21603
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,1)   caucasian(C,34)   total(C,63|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33765):
AGGAAGGAACCAGTTTTATTTGCTGCTACATCCTGGCTCTCAGTGGGATGAAAACAAACCAGACAGACGGTGGCTGGGGGTCAGGAAAGGGCCCATTACC
R
TCTGAAATGATGCAGAGGGCCTAGTGACTGCCCCCACCTCAGCCCTAATGGAATGAGAGCAAGGGTCCTGGGGAGGGCAGTTCCACTTCCTGTGTGGCTG
Celera SNP ID:            hCV26235203
SNP Position Genomic:     19696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33766):
TGCTGGCTACAACAGATTTGTTCTGTATAAGGACGGGGAACGTGACTTCCTTCAGCTCGCTGGCGCACAGCCCCAGGCTGGGCTCTCCCAGGCCAACTTC
R
CCCTGGGCCCTGTGAGCCGCTCCTACGGGGGCCAGTACAGATGCTACGGTGCACACAACCTCTCCTCCGAGTGGTCGGCCCCCAGTGACCCCCTGGACAT
Celera SNP ID:            hCV25943687
SNP Position Genomic:     21496
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,32)   total(A,63|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33767):
CCAGAGTGGACACATCAATCACCTACGTAGACTGTGGAGTCCAACGCCAAGATCCTCTTATGTCCCAAACACCTCAGGTCTTACCCTGGTCTGGAAATCA
R
GCACAAATGAGCCCCTCCTAATGTTCCAGCACCACTGACCGTACAACCACTGTCACGAGTGGGATTTGTGACAACAGTCGGCAAAGGAAGAATCTGAGGC
Celera SNP ID:            hCV26235204
SNP Position Genomic:     18895
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;JBIC-allele(A,590|G,891)   total(G,891|A,590)(A,-|G,-)   Caucasian(G,21|A,55)   African-American(A,36|G,38)   Asians(A,25|G,47)   total(G,106|A,116)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33768):
GAAGATGCTGCTATGTGGAAGCACATCCTTGAGATCCACAAGGAGACACTGGGCAAGGAGACGAGGGTGCCCCACTGTGCAGAAGTCTCCCTAATAAATG
M
TCTATGAACACCCTGGTGTTTAGTGCTTCTTTCTTTGGAATCCCAGCAGCTCTGTCACTGGACGGTTTGGTGCACTCCCTTGAGGGAATTCCCCTGGGCT
Celera SNP ID:            hCV26235205
SNP Position Genomic:     18361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33769):
TCTGAAGAAGATGCTGCTATGTGGAAGCACATCCTTGAGATCCACAAGGAGACACTGGGCAAGGAGACGAGGGTGCCCCACTGTGCAGAAGTCTCCCTAA
Y
AAATGATCTATGAACACCCTGGTGTTTAGTGCTTCTTTCTTTGGAATCCCAGCAGCTCTGTCACTGGACGGTTTGGTGCACTCCCTTGAGGGAATTCCCC
Celera SNP ID:            hCV26235206
SNP Position Genomic:     18355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33770):
CAAATAAACTCAAAATCCAGACAACCCTGGAGCAACGCAGCCTTGAATTCCTGGGGTCTCTTATATGCACACTTTTTTCAACCAAACGGGGGTCAAAACT
R
TAGCATTTGTGGGATGCAAGACTTGTGTATATGAACGGCAGACTTTTCCTATATGCAGGCCCAGCAGAGACAATGTCGGGGCTGGAGTACGAGCAGGTGT
Celera SNP ID:            hCV26235207
SNP Position Genomic:     18005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33771):
CACTTCCCTCTCCGGACACACTGTGGCTTGCCATGCCATGCACTCCAGATTGTAATCCTTGCTTCTCACTCCCAAATAAACTCAAAATCCAGACAACCCT
S
GAGCAACGCAGCCTTGAATTCCTGGGGTCTCTTATATGCACACTTTTTTCAACCAAACGGGGGTCAAAACTGTAGCATTTGTGGGATGCAAGACTTGTGT
Celera SNP ID:            hCV26235208
SNP Position Genomic:     17933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33772):
ATCATGGACAGGAGAGGCGGGTGGAGGGAGGGGCCTGGGGAGGCCACAGGTCCCATGTAGAGAAATTTGGTTTGAGGTGGAGACTTCAGGAAAGCCCCAG
S
TCCTCAGCCTCCTCTCATTCTTTTACCCAGGACCGTCTGGGGGCCCCAGCTCCCCGACAACAGGCCCCACCTCCACATCTGGTGAGTCCCTGAGGCTTCT
Celera SNP ID:            hCV15815951
SNP Position Genomic:     22454
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,8)      total(G,1|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33773):
GCTGTGATGGGGAGGGATGGGCTGGTCCCCAGGGCACAGGCAGAACCCTCAGGCGGGGCAGGCAGAAGGCTCAGGTGGTAGAGCCTGCGGCAGATCACAG
R
CCTGTGGGGACTGGGCTCTCAGAAGGGCTGGGGGCTGCAGCTGAAATGTCCAGGTGGGGGCAGGGTGGCTGTGCTGTGGGCCTGTCACTAGGGAGGGCAG
Celera SNP ID:            hCV16166053
SNP Position Genomic:     13699
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33774):
TTCTTTGGAATCCCAGCAGCTCTGTCACTGGACGGTTTGGTGCACTCCCTTGAGGGAATTCCCCTGGGCTGCTTGGGGTCCACTCCAGCCTCAGGTGTAG
S
TGGAGGACGCAGCCTCCCACCTTGGTCTGGAGCCCTGAGCCCCTCACTGTCATTGCAGATCCCGAGGTTCCTCTCCTGGCTCCACTCAGTGGTGGAAACC
Celera SNP ID:            hCV27476041
SNP Position Genomic:     18492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33775):
TGGGGAGGCCACAGGTCCCATGTAGAGAAATTTGGTTTGAGGTGGAGACTTCAGGAAAGCCCCAGCTCCTCAGCCTCCTCTCATTCTTTTACCCAGGACC
S
TCTGGGGGCCCCAGCTCCCCGACAACAGGCCCCACCTCCACATCTGGTGAGTCCCTGAGGCTTCTGAACTCAAGGGAGTGCGGCCTCCCCCAGGGCAGCC
Celera SNP ID:            hCV15815955
SNP Position Genomic:     22489
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:33776):
TAGGCGCTCATTTCAATGACATCACCCCCATCCCTGACATCATCGTGCTCAAGGTCTGGGAAGGCACCTGGGGGTTGTGATCGGCATCTTGGTGGCCGTC
R
TCCTACTGCTCCTCCTCCTCCTCCTCCTCTTCCTCATCCTCCGACATCGACGTCAGGGCAAACACTGGACATCGAGTGAGTAGGGAATGGGGGGACCCTG
Celera SNP ID:            hCV8703601
SNP Position Genomic:     23535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33777):
CACCCTCCCTGGGCCTGGGGCAGCAGGGGCAGAGGCAGAGGTGGCAGTGACTGCAAAGGGCTTGTCAGGGGCCTCTGAGCATTGGACTTTCAGAGGGCAC
Y
GAGCCAGGGCCACGGTGTTCGGGTGGGGGCAGGACGGGTGACTGGGGCCCTGCAGCTGGCAAGCCCCATTAGCAGGAAGGAAGCCCCATTTCGCAGGAAG
Celera SNP ID:            hCV16038864
SNP Position Genomic:     14020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33778):
AGCATCGTCACGGTGGACCCCTCCTTGTCCAGCACGCTGCCTCCCGCCTGCTGCGACCTCACTCTCTCCTGCTGTCCTGGGACCTCGTGGGCCTCCTCCC
R
GGTCCCCTTCCTGCTCCTCATCCTCTGTTTGGCCGTCTGGTTGTTAGAGCTCTCCCCAGGCCTCAGGAGGATGAGGAATAAATGAACCACCCCGGTCCCC
Celera SNP ID:            hCV25943479
SNP Position Genomic:     24648
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,27)   total(A,1|G,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:33779):
CGTCTAAGATCAACGTACCAATCTCAAAAATACCAGGCTGAATTCCCCATGGGTCCTGTGACCTCAGCCCATGCGGGGACCTACAGGTGCTACGGCTCAC
W
GAGCTCCAAACCCTACCTGCTGACTCACCCCAGTGACCCCCTGGAGCTCGTGGTCTCAGGTGGGGGCCTTGACCCTGTCCTCTCTGAGCTCAAAGTCTCA
Celera SNP ID:            hCV25943909
SNP Position Genomic:     22106
SNP Source:               Applera
Population(Allele,Count): african american(A,26)   caucasian(A,31|T,3)   total(A,57|T,3)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33780):
GTGACTTCCTTCAGCTCGCTGGCGCACAGCCCCAGGCTGGGCTCTCCCAGGCCAACTTCACCCTGGGCCCTGTGAGCCGCTCCTACGGGGGCCAGTACAG
R
TGCTACGGTGCACACAACCTCTCCTCCGAGTGGTCGGCCCCCAGTGACCCCCTGGACATCCTGATCGCAGGTGAGGAGCCCAGCGGGTTCAGTCAGGGAC
Celera SNP ID:            hCV25943764
SNP Position Genomic:     21537
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,11)   caucasian(A,34)   total(A,55|G,11)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33781):
ATTTTGGGTCCTCTTAGTGAGTAGGCAGACTCCAGCCCTTTCCATTCAGCCAACTTGAACCTCAGCCCACAATCATTTTCTTGTCACTTTTTACTCTTGG
R
AAATCCGGTCCCAATGTGCTTGTCTTTCATTTGAGAATAATTTTCATTTTCTCCAGTAGTTTTAAAATTACTTTGTATCTATTCTAGGTATCTTTTACTC
Celera SNP ID:            hCV26235210
SNP Position Genomic:     15050
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|G,10)   total(G,10|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33782):
GGAGCCTCTCACTCACTCACCCCTTCCCCGTGTTAGAGAATCTCTCACTCACTCACCCCTTCCCCGTGTTAGAGAATCTCTCACTCACTCACCCCTTCCC
Y
GTGTTAGGAGCCTCTCCTGGCTCCCACCTTTTCTCTTCTCTTCTTTCCATGTCCTCATGTTTCTCAGGTGAACCCCAGCATCCTCTTGGAAGATCCACTT
Celera SNP ID:            hCV26235211
SNP Position Genomic:     14827
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33783):
CCCCTTCCCCATGTTAGGAGCCTCTCACTCACTCACCCCTTCCCCGTGTTAGAGAATCTCTCACTCACTCACCCCTTCCCCGTGTTAGAGAATCTCTCAC
W
CACTCACCCCTTCCCTGTGTTAGGAGCCTCTCCTGGCTCCCACCTTTTCTCTTCTCTTCTTTCCATGTCCTCATGTTTCTCAGGTGAACCCCAGCATCCT
Celera SNP ID:            hCV26235212
SNP Position Genomic:     14811
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,6)   total(A,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33784):
TCACTCACCCCTTCCCCGTGTTAGGGACCCTCTCACTCACTCACCCCTTCCCCGTGTTAGGGACTCTCTCATTCACTCACCCCTTCCCCATGTTAGGAGC
Y
TCTCACTCACTCACCCCTTCCCCGTGTTAGAGAATCTCTCACTCACTCACCCCTTCCCCGTGTTAGAGAATCTCTCACTCACTCACCCCTTCCCTGTGTT
Celera SNP ID:            hCV26235213
SNP Position Genomic:     14732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33785):
CTCTCACTCACCCCTTCCCCGTGTTAGGGAGCCTCGCACTCACTCACCCCTTCCCCGGGTTAGGGAGCCTCGCACTCACTCACCCCTTCCCCATGTTAGG
R
AATCTCTCACTCACTCACCCCTTCCCCGTGTTAGGGACCCTCTCACTCACTCACCCCTTCCCCGTGTTAGGGACTCTCTCATTCACTCACCCCTTCCCCA
Celera SNP ID:            hCV26235214
SNP Position Genomic:     14621
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33786):
GGGCTCTCCCAGGCCAACTTCACCCTGGGCCCTGTGAGCCGCTCCTACGGGGGCCAGTACAGATGCTACGGTGCACACAACCTCTCCTCCGAGTGGTCGG
Y
CCCCAGTGACCCCCTGGACATCCTGATCGCAGGTGAGGAGCCCAGCGGGTTCAGTCAGGGACCCAGGCTCCGCACAGGCCCTGCCGGGGGAGCTCAGGTA
Celera SNP ID:            hCV25943697
SNP Position Genomic:     21575
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,33|T,1)   total(C,63|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:33787):
TCACTCACCCCTTCCCCGTGTTAGGGAGCCTCGCACTCACTCACCCCTTCCCCGTGTTAGGGACCCTCTCACTCACCCCTTCCCCGTGTTAGGGAGCCTC
K
CACTCACTCACCCCTTCCCCGGGTTAGGGAGCCTCGCACTCACTCACCCCTTCCCCATGTTAGGGAATCTCTCACTCACTCACCCCTTCCCCGTGTTAGG
Celera SNP ID:            hCV26235215
SNP Position Genomic:     14556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33788):
GACTGGGCTCTCAGAAGGGCTGGGGGCTGCAGCTGAAATGTCCAGGTGGGGGCAGGGTGGCTGTGCTGTGGGCCTGTCACTAGGGAGGGCAGGGCCCCTC
K
GCTGGGGCACTGGAGACTGGCAGCTGTGAGGCACAGGGCCCGCTCACACTTCCCTCCTGAAGTGTCACTCGGTTTTGCTCTGGGGACACGTGAAAGTGCC
Celera SNP ID:            hCV26235216
SNP Position Genomic:     13808
SNP Source:               dbSNP
Population(Allele,Count): (T,-|G,-)   no_pop(G,-|T,-)   SC_12_A(T,8|G,12)   SC_12_C(T,3|G,21)   SC_12_AA(T,6|G,7)   total(G,40|T,17)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33789):
CCTGTGGGGACTGGGCTCTCAGAAGGGCTGGGGGCTGCAGCTGAAATGTCCAGGTGGGGGCAGGGTGGCTGTGCTGTGGGCCTGTCACTAGGGAGGGCAG
S
GCCCCTCTGCTGGGGCACTGGAGACTGGCAGCTGTGAGGCACAGGGCCCGCTCACACTTCCCTCCTGAAGTGTCACTCGGTTTTGCTCTGGGGACACGTG
Celera SNP ID:            hCV26235217
SNP Position Genomic:     13800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33790):
CAGAATCCTTACACTGATTCCTTCTCTTCTGGAGAGGCCTCCACTTACTCTCTTCGAATTTATTTTCATTTGGATGGGATTTGTTTTGCACATTTTCCCC
Y
GGCCCCGCAGGGAGGGTGACTGTAGAGCATGTTGGGAAGGGTCTTTTGGCTTTTCCCATGGCTTTGGGAGCTTCTGCAGCAGGGTTTGTGTTGGGCTGTG
Celera SNP ID:            hCV26235218
SNP Position Genomic:     12707
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33791):
TCTCAGGACCTCCTGAGTGCTGATCACTCATATTTGGCTCAGAAAAATCTCTTCTAATATATTACAGAGTTTGACTCTTTTTGTCCACAATAATTTGGTG
Y
CTGAACACGTGAGGCCTCAGATAAGACTCAGGACCCCAAAGGAGTTGTCTCAACCTGGAGCTAAGGTACCAGCAGGGGCCCACTGAAAGCCTCCAGGATT
Celera SNP ID:            hCV3137458
SNP Position Genomic:     5273
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:33792):
CCATTGGTTTTATGGCGCCTCTACTTTCTGGAGTTTGTGTAAAACAAAAATATTATGGTCTTTGTGCACATTTACATCAAGGTAAGAGAGCCCTAATGGC
R
GCTTGCACGCTATAGAGTTCCTAAGTTCTCTCTTTCTCTATTTTCTTTTCTGCCTGCTTTACATCTGCTGTTACCTTTCTACTGAGATAAAAACCACTGT
Celera SNP ID:            hCV3137459
SNP Position Genomic:     6212
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33793):
GTCTAAGATCAACGTACCAATCTCAAAAATACCAGGCTGAATTCCCCATGGGTCCTGTGACCTCAGCCCATGCGGGGACCTACAGGTGCTACGGCTCACA
S
AGCTCCAAACCCTACCTGCTGACTCACCCCAGTGACCCCCTGGAGCTCGTGGTCTCAGGTGGGGGCCTTGACCCTGTCCTCTCTGAGCTCAAAGTCTCAG
Celera SNP ID:            hCV25943911
SNP Position Genomic:     22107
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,27)   caucasian(C,3|G,31)   total(C,4|G,58)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33794):
AAGGAGACGAGGGTGCCCCACTGTGCAGAAGTCTCCCTAATAAATGATCTATGAACACCCTGGTGTTTAGTGCTTCTTTCTTTGGAATCCCAGCAGCTCT
R
TCACTGGACGGTTTGGTGCACTCCCTTGAGGGAATTCCCCTGGGCTGCTTGGGGTCCACTCCAGCCTCAGGTGTAGCTGGAGGACGCAGCCTCCCACCTT
Celera SNP ID:            hCV27915621
SNP Position Genomic:     18415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33795):
TCTGTCCACAAACACAGAAGAGGGAGAACAACAGTCTCTCTAGGGTCCCACGGTTTCCTCCATTTTTTGCTTTGTTCTGAGAGAGAGACAAAGTGCCATG
R
CTGCTCTGTGGGTTGGACAGATGCATGCTTTCACCTGCAGGCTGGAACCCAAGCTGAGGTCTTCAGCATCCCCAAGTACTGATAAAGCACTTTAGGTTGT
Celera SNP ID:            hCV27915622
SNP Position Genomic:     15977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33796):
CAGCTCTGACTCCCAGCTGTGACCTCCTGGGAGAGGAGGCCTCCCAGGGAACCTCCCAGACCCGATTCCGCGGGGGCCTGTCCCGTCCCACCTGCAGCAG
W
GACGGTGACCTGGGGCAGGGGAGGGGAGAAGAGTCATGGTTCAGGACGGTCAGGCTCTTTCCCTGCAGCTCCGGGGCTCGGCTCTGGTGCAGGAACAAGG
Celera SNP ID:            hCV25943489
SNP Position Genomic:     23142
SNP Source:               Applera
Population(Allele,Count): african american(A,5|T,1)   caucasian(A,2)   total(A,7|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33797):
CTTGAACGGTACTGATGTATAGAAAAGCTACTGATTTTTGTAGCTTGATTTTTTTATCCAGAGACTTTACTGAAGTCACTTACCAAGTCTACGAGTCTTC
Y
GGAAGAATCTTCAGGGTTTTCTGGGTATATGATCGTGTCATCAGCACACACAGATAATTTCACTTTCTCTTTTCCAATGTGGATGCACTTTCTTTCTTTC
Celera SNP ID:            hCV26235220
SNP Position Genomic:     11420
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33798):
ATGTGTTTGTTGGCCACTTATATTTCTTGTTTTGAGAAATGTCTGTTGATGGTCTTTACTCAGTTTTCCATAAAGTTGTCTGTGTTTTTTGTTTTTTTTT
T
CATGTTGAATTCTTTGACTTCCTTGCAGATTCTGGACATTAGTCTTTTGTTGGAGGCATAATTTGCAAATATTTTCTTCCATTGTGTAGGTTGTCTGTTC
Celera SNP ID:            hCV26235221
SNP Position Genomic:     10398
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33799):
CATATTATTTTCCATAGAAGATAAACTCATTTACATTCCTACCAACCATGTATCTTGCTAACATCTGTTGGTTCTGACTTCTTAAAAGTAGCCATTTTGA
Y
TGGTGTAAGTTGATACTCAGTGTGGTTTTAAGTTGAATTTCTCTGATGATTAATGATGTTGAGCATTTTTTAATGTGTTTGTTGGCCACTTATATTTCTT
Celera SNP ID:            hCV26235222
SNP Position Genomic:     10225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33800):
TTTTAGTTCTTTGAGATAGCTCCATATTATTTTCCATAGAAGATAAACTCATTTACATTCCTACCAACCATGTATCTTGCTAACATCTGTTGGTTCTGAC
K
TCTTAAAAGTAGCCATTTTGACTGGTGTAAGTTGATACTCAGTGTGGTTTTAAGTTGAATTTCTCTGATGATTAATGATGTTGAGCATTTTTTAATGTGT
Celera SNP ID:            hCV26235223
SNP Position Genomic:     10203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33801):
CACCTGACCCAATTGTCTTTTTAATATAATGACTTTTCCTTTGGCTGGATACCATGTAATGGGATTGCTAAGTGAAATGGTAGTTCTATTTTTAGTTCTT
T
GAGATAGCTCCATATTATTTTCCATAGAAGATAAACTCATTTACATTCCTACCAACCATGTATCTTGCTAACATCTGTTGGTTCTGACTTCTTAAAAGTA
Celera SNP ID:            hCV26235224
SNP Position Genomic:     10114
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33802):
ACACCTGACCCAATTGTCTTTTTAATATAATGACTTTTCCTTTGGCTGGATACCATGTAATGGGATTGCTAAGTGAAATGGTAGTTCTATTTTTAGTTCT
T
TGAGATAGCTCCATATTATTTTCCATAGAAGATAAACTCATTTACATTCCTACCAACCATGTATCTTGCTAACATCTGTTGGTTCTGACTTCTTAAAAGT
Celera SNP ID:            hCV26235225
SNP Position Genomic:     10113
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33803):
CACACCTGACCCAATTGTCTTTTTAATATAATGACTTTTCCTTTGGCTGGATACCATGTAATGGGATTGCTAAGTGAAATGGTAGTTCTATTTTTAGTTC
T
TTGAGATAGCTCCATATTATTTTCCATAGAAGATAAACTCATTTACATTCCTACCAACCATGTATCTTGCTAACATCTGTTGGTTCTGACTTCTTAAAAG
Celera SNP ID:            hCV26235226
SNP Position Genomic:     10112
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33804):
CCACACCTGACCCAATTGTCTTTTTAATATAATGACTTTTCCTTTGGCTGGATACCATGTAATGGGATTGCTAAGTGAAATGGTAGTTCTATTTTTAGTT
C
TTTGAGATAGCTCCATATTATTTTCCATAGAAGATAAACTCATTTACATTCCTACCAACCATGTATCTTGCTAACATCTGTTGGTTCTGACTTCTTAAAA
Celera SNP ID:            hCV26235227
SNP Position Genomic:     10111
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33805):
AACAGAATGATCTTTGCTTGTATAATTTTTAATAAATAAGCCATGTAATATTGTTGGTTAAATAAAAACAGCTAACTACTGAGATATTGGTTAAAAAAAA
T
AACTTTATATTTAACCATAAGTTTCCTTACTTAGGTAAACACCTGAAATTCATAGTTTATAACATTGGTTAACAGGGAATTAACTTTAAGTGATGACTGT
Celera SNP ID:            hCV26235228
SNP Position Genomic:     7602
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33806):
AGATGCTTCTTCAAGTTCACTTAAGTAAAATCTTTAATAAATAAGCTGGCTTTAAAATTATTGGTAAAATAAGATTAGAAATGTCTTAAGAATTGTTAGC
R
TTTTTGTTTGCACTTATTGCACAAGTGGTTTTGTGCTTATCCCTGCAGAATAGTATAAGATTTTCCATAAGGGTTATAAAACTATAAACCTGGCCGGGCA
Celera SNP ID:            hCV3137461
SNP Position Genomic:     7284
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33807):
TTGCACAAGTGGTTTTGTGCTTATCCCTGCAGAATAGTATAAGATTTTCCATAAGGGTTATAAAACTATAAACCTGGCCGGGCACGGTGGCTCACGCCTG
Y
AACCCCAGCACTTTGGGAGGCCGAGGCTGGTGGATCACCTGAGGTTGGGAGTTCAAGAGCAGCCTGACACACACAAAACAAAATTATAAACCCAGCCCAA
Celera SNP ID:            hCV26235229
SNP Position Genomic:     7401
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33808):
ATTTTTAATAAATAAGCCATGTAATATTGTTGGTTAAATAAAAACAGCTAACTACTGAGATATTGGTTAAAAAAAATAACTTTATATTTAACCATAAGTT
Y
CCTTACTTAGGTAAACACCTGAAATTCATAGTTTATAACATTGGTTAACAGGGAATTAACTTTAAGTGATGACTGTCACAGTGTTCATAAATAATCTAGG
Celera SNP ID:            hCV3137462
SNP Position Genomic:     7626
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33809):
AGGAGGGGGCAGCTGATGACCCATGGCGTCTAAGATCAACGTACCAATCTCAAAAATACCAGGCTGAATTCCCCATGGGTCCTGTGACCTCAGCCCATGC
R
GGGACCTACAGGTGCTACGGCTCACAGAGCTCCAAACCCTACCTGCTGACTCACCCCAGTGACCCCCTGGAGCTCGTGGTCTCAGGTGGGGGCCTTGACC
Celera SNP ID:            hCV25943997
SNP Position Genomic:     22080
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(A,3|G,31)   total(A,4|G,58)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33810):
AATAAGTTTATCAAGTAAATGCAATGGAATAAATGCCTATAAACAAACTTGTCACATAATTTACAATCTAAAGTTATATTAAATAATAGATATTAATTGA
Y
TAGCTGGGTAATTTATAATTTAAAAATTACAGGAAAACATTTTTAAAAAACAATTCTTATTAAAAGATAAATATCTGTGTTTAATTCAAAGCTTTTTTAA
Celera SNP ID:            hCV3137463
SNP Position Genomic:     7837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33811):
AGGCCCATGCTTCCAGCTCTCAGATAAGAGCTGCTTCTAAGGACTTTTTAAAAACCCCACAAGAAACCCTTCCATGTCCTTCACCCCCTCCTGCTTTGAC
R
AGGTTTATCACTAGATATTCTTTAGGATGTCAGGAATTCAGATAAGATGCTCTCGAGAAAAAACTTGCCCAGCAACGGCATCTCCTCCAATGGACTGACA
Celera SNP ID:            hCV3137468
SNP Position Genomic:     16383
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33812):
GGGAGCAGCCGCGTCTCAGGGCAGTTCCAGGTGGGATGATGTTGGGGCGAGAGGGCTCAGGGCTCCTGGGGCCAGAGACACAGGAAGATCAGCAGTGATG
W
GGCCCCGGGGGAAAGGGAAGATTTGTGGGGAAGCCTGAGGGTCGGCTCCTGGAAACCATGACCACCTTTTCCCAGGTGTTTCTAAGAAGCCATCACTCTC
Celera SNP ID:            hCV25943496
SNP Position Genomic:     21235
SNP Source:               Applera
Population(Allele,Count): african american(A,16|T,18)   caucasian(A,18|T,20)   total(A,34|T,38)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,13|T,19)   caucasian(A,2|T,32)   total(A,15|T,51)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33813):
ACCAAAGGCCTCCTGGTGCCAGATCTAATCCTGCAGAACTTCTCTGTCCTCCTTCCCCCGGCTCTCAGCATCGTCACGGTGGACCCCTCCTTGTCCAGCA
Y
GCTGCCTCCCGCCTGCTGCGACCTCACTCTCTCCTGCTGTCCTGGGACCTCGTGGGCCTCCTCCCGGGTCCCCTTCCTGCTCCTCATCCTCTGTTTGGCC
Celera SNP ID:            hCV25943929
SNP Position Genomic:     24582
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,4)   caucasian(C,34)   total(C,62|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:33814):
CCCAGGCCAACTTCACCCTGGGCCCTGTGAGCCGCTCCTACGGGGGCCAGTACAGATGCTACGGTGCACACAACCTCTCCTCCGAGTGGTCGGCCCCCAG
Y
GACCCCCTGGACATCCTGATCGCAGGTGAGGAGCCCAGCGGGTTCAGTCAGGGACCCAGGCTCCGCACAGGCCCTGCCGGGGGAGCTCAGGTAGTGATGG
Celera SNP ID:            hCV9491133
SNP Position Genomic:     21582
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,21)   caucasian(C,9|T,25)   total(C,18|T,46)
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:33815):
CTCAAAAAAAAAAAAAAAGAAAAAAAGAAAAAAAGAAAAAAAAAGAGTTTGAAAGTTTGAGATAGAAAAAAAGAGGTTTTTTGAATCTATAAGATGTACT
W
CTATCAGCATGCCTAATGCGTCCATGAATCTGTGTGTGGTGTACATAATGTTTCACTACTAAAAATATACAAAAGAGCTCTAATTAATTGGCTTAAAGAG
Celera SNP ID:            hCV26235230
SNP Position Genomic:     7047
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33816):
ATTAATATCTCATGGCTAGAGTTTTGAAGTAAAAGCTACAGGATGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTGTGTGTGTG
T
TTAAAAGCCTTTATGATAGATTTCTATAATTTTATGTTTAATTGGCAGTGAACCCATTTTAATTTCCCTCTAACACACCAGACTTCTTCCTCTGTACTTT
Celera SNP ID:            hCV26235231
SNP Position Genomic:     6450
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33817):
TATTAATATCTCATGGCTAGAGTTTTGAAGTAAAAGCTACAGGATGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTGTGTGTGT
G
TTTAAAAGCCTTTATGATAGATTTCTATAATTTTATGTTTAATTGGCAGTGAACCCATTTTAATTTCCCTCTAACACACCAGACTTCTTCCTCTGTACTT
Celera SNP ID:            hCV26235232
SNP Position Genomic:     6449
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33818):
ATATTAATATCTCATGGCTAGAGTTTTGAAGTAAAAGCTACAGGATGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTGTGTGTG
T
GTTTAAAAGCCTTTATGATAGATTTCTATAATTTTATGTTTAATTGGCAGTGAACCCATTTTAATTTCCCTCTAACACACCAGACTTCTTCCTCTGTACT
Celera SNP ID:            hCV26235233
SNP Position Genomic:     6448
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33819):
TATATTAATATCTCATGGCTAGAGTTTTGAAGTAAAAGCTACAGGATGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTGTGTGT
G
TGTTTAAAAGCCTTTATGATAGATTTCTATAATTTTATGTTTAATTGGCAGTGAACCCATTTTAATTTCCCTCTAACACACCAGACTTCTTCCTCTGTAC
Celera SNP ID:            hCV26235234
SNP Position Genomic:     6447
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,3)   total(G,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33820):
GGTAAATTTATATTAATATCTCATGGCTAGAGTTTTGAAGTAAAAGCTACAGGATGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
G
TGTGTGTGTGTTTAAAAGCCTTTATGATAGATTTCTATAATTTTATGTTTAATTGGCAGTGAACCCATTTTAATTTCCCTCTAACACACCAGACTTCTTC
Celera SNP ID:            hCV26235235
SNP Position Genomic:     6439
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,3)   total(G,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33821):
TGGTAAATTTATATTAATATCTCATGGCTAGAGTTTTGAAGTAAAAGCTACAGGATGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
GTGTGTGTGTGTTTAAAAGCCTTTATGATAGATTTCTATAATTTTATGTTTAATTGGCAGTGAACCCATTTTAATTTCCCTCTAACACACCAGACTTCTT
Celera SNP ID:            hCV26235236
SNP Position Genomic:     6438
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,3)   total(G,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33822):
AAGTGTCCTTCGGGCTCAGTGCCATCTACAAATGTAAAGTGTCCTTCGGGCTCTGTCCATCCTATGAGGCATTTGGAACATGGAGGCAGGAGTGTTTTTA
R
GTTTCCTTCCTTACCTTCGAGCTGTGTGTGCAGGGCAGGGGGCTCCAATGTTCCCAGGGCTGAGGCTCTGTCCTTCTTCCCCCAGCCCAGAGAAAGGCTG
Celera SNP ID:            hCV7797713
SNP Position Genomic:     23865
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,16)   caucasian(G,20)   total(A,6|G,36)
SNP Type:                 INTRON


Context             (SEQ ID NO:33823):
CTGGTAAATTTATATTAATATCTCATGGCTAGAGTTTTGAAGTAAAAGCTACAGGATGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GGTGTGTGTGTGTTTAAAAGCCTTTATGATAGATTTCTATAATTTTATGTTTAATTGGCAGTGAACCCATTTTAATTTCCCTCTAACACACCAGACTTCT
Celera SNP ID:            hCV26235237
SNP Position Genomic:     6437
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33824):
TTTAGGTTTCCTTCCTTACCTTCGAGCTGTGTGTGCAGGGCAGGGGGCTCCAATGTTCCCAGGGCTGAGGCTCTGTCCTTCTTCCCCCAGCCCAGAGAAA
R
GCTGATTTCCAACATCCTGCAGGGGCTGTGGGGCCAGAGCCCACAGACAGAGGCCTGCAGTGGAGGTAATTCTGCCCGAAGACCCCAGACTCCCACCTGC
Celera SNP ID:            hCV7797714
SNP Position Genomic:     23961
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,18)   caucasian(G,18)   total(A,6|G,36)
SNP Type:                 SILENT MUTATION;INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:33825):
GTTAAGAGGGGACTATTTGGTTGAAAGAAAACCCACAATCCAGTGTCAAGAAAGAAGTCAACTTTTCTTCCCTATTTCCCTGCATTTCTCTTCTGTGCTC
R
CTGCCACACGCAGCTCAGCCTGGGCGGCACAGCCAGATGCGAGATGCGTCTCTGCTGATCTGAGTCTGCCTGCAGCATGGACCTGGGTCTTCCCTGAAGC
Celera SNP ID:            hCV3137470
SNP Position Genomic:     19350
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,14)   caucasian(A,10|G,28)   total(A,34|G,42)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;JBIC-allele(G,570|A,915)   total(G,570|A,915)
SNP Type:                 INTRON


Context             (SEQ ID NO:33826):
CAAGCTGGTAAATTTATATTAATATCTCATGGCTAGAGTTTTGAAGTAAAAGCTACAGGATGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GTGTGGTGTGTGTGTGTTTAAAAGCCTTTATGATAGATTTCTATAATTTTATGTTTAATTGGCAGTGAACCCATTTTAATTTCCCTCTAACACACCAGAC
Celera SNP ID:            hCV26235238
SNP Position Genomic:     6433
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33827):
TGCAAGCTGGTAAATTTATATTAATATCTCATGGCTAGAGTTTTGAAGTAAAAGCTACAGGATGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GTGTGTGGTGTGTGTGTGTTTAAAAGCCTTTATGATAGATTTCTATAATTTTATGTTTAATTGGCAGTGAACCCATTTTAATTTCCCTCTAACACACCAG
Celera SNP ID:            hCV26235239
SNP Position Genomic:     6431
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33828):
CACACACAGCCTGAGGATGGGGTGGAGATGGACACTCGGGTGAGACCCCACCCCTGTCCCAGGCACCAAAGGCCTCCTGGTGCCAGATCTAATCCTGCAG
R
ACTTCTCTGTCCTCCTTCCCCCGGCTCTCAGCATCGTCACGGTGGACCCCTCCTTGTCCAGCACGCTGCCTCCCGCCTGCTGCGACCTCACTCTCTCCTG
Celera SNP ID:            hCV25944081
SNP Position Genomic:     24518
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,5)   caucasian(A,24|G,10)   total(A,51|G,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:33829):
CCAGGCTCTGTGATCACCCAGGGGAGTCCTGTGACCCTCAGGTGTCAGGGGGGCCAGGAGACCCAGGAGTACCGTCTATATAGAGAAAAGAAAACAGCAC
Y
CTGGATTACACGGATCCCACAGGAGCTTGTGAAGAAGGGCCAGTTCCCCATCCCATCCATCACCTGGGAACATGCAGGGCGGTATCGCTGTTACTATGGT
Celera SNP ID:            hCV3137472
SNP Position Genomic:     20479
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,6)   caucasian(C,6|T,28)   total(C,18|T,34)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33830):
AGGACTCAGAGGTCCCAGGGAACCTTCCCAAGAGACAAACCCCTTGCTCTGCCCCAGCAGATGCTGCCGTGAAGCACACACAGCCTGAGGATGGGGTGGA
R
ATGGACACTCGGGTGAGACCCCACCCCTGTCCCAGGCACCAAAGGCCTCCTGGTGCCAGATCTAATCCTGCAGAACTTCTCTGTCCTCCTTCCCCCGGCT
Celera SNP ID:            hCV25944083
SNP Position Genomic:     24444
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(A,10|G,18)   total(A,13|G,47)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33831):
GTCTATATAGAGAAAAGAAAACAGCACTCTGGATTACACGGATCCCACAGGAGCTTGTGAAGAAGGGCCAGTTCCCCATCCCATCCATCACCTGGGAACA
Y
GCAGGGCGGTATCGCTGTTACTATGGTAGCGACACTGCAGGCCGCTCAGAGAGCAGTGACCCCCTGGAGCTGGTGGTGACAGGTGAGCTGACACTCAGGG
Celera SNP ID:            hCV3137473
SNP Position Genomic:     20552
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,19)   caucasian(C,3|T,33)   total(C,4|T,52)
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:33832):
TCTATATAGAGAAAAGAAAACAGCACTCTGGATTACACGGATCCCACAGGAGCTTGTGAAGAAGGGCCAGTTCCCCATCCCATCCATCACCTGGGAACAT
R
CAGGGCGGTATCGCTGTTACTATGGTAGCGACACTGCAGGCCGCTCAGAGAGCAGTGACCCCCTGGAGCTGGTGGTGACAGGTGAGCTGACACTCAGGGG
Celera SNP ID:            hCV3137474
SNP Position Genomic:     20553
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,19)   caucasian(A,3|G,33)   total(A,4|G,52)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33833):
TGAAGCACACACAGCCTGAGGATGGGGTGGAGATGGACACTCGGGTGAGACCCCACCCCTGTCCCAGGCACCAAAGGCCTCCTGGTGCCAGATCTAATCC
W
GCAGAACTTCTCTGTCCTCCTTCCCCCGGCTCTCAGCATCGTCACGGTGGACCCCTCCTTGTCCAGCACGCTGCCTCCCGCCTGCTGCGACCTCACTCTC
Celera SNP ID:            hCV25944085
SNP Position Genomic:     24513
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,31)   caucasian(A,2|T,32)   total(A,5|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:33834):
CTGACTCTGCAGTGTGGCTCTGATGCTGGCTACAACAGATTTGTTCTGTATAAGGACGGGGAACGTGACTTCCTTCAGCTCGCTGGCGCACAGCCCCAGG
S
TGGGCTCTCCCAGGCCAACTTCACCCTGGGCCCTGTGAGCCGCTCCTACGGGGGCCAGTACAGATGCTACGGTGCACACAACCTCTCCTCCGAGTGGTCG
Celera SNP ID:            hCV25943640
SNP Position Genomic:     21473
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,1)   caucasian(C,34)   total(C,65|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33835):
CTGTGTGGTGCTCAGCTTGGCTGCTCCTGTGCCCCAGCTGTCATACTTATTCTGGGGCCCACAGAGGTGCCTGGCCTCCTCCCTCCCTGCTAAGGCAGTG
K
CAGCTGGACCCAGGCTGCTCAGGGATCAGAAGCCTGTGGGATTCCACGTGGGCTCCAGAGGCGCCTCTGCACCATCTCTGGGAACTCCCTGTGCCTCTGT
Celera SNP ID:            hCV8704723
SNP Position Genomic:     14237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33836):
CAACGTACCAATCTCAAAAATACCAGGCTGAATTCCCCATGGGTCCTGTGACCTCAGCCCATGCGGGGACCTACAGGTGCTACGGCTCACAGAGCTCCAA
M
CCCTACCTGCTGACTCACCCCAGTGACCCCCTGGAGCTCGTGGTCTCAGGTGGGGGCCTTGACCCTGTCCTCTCTGAGCTCAAAGTCTCAGCTCAGACCC
Celera SNP ID:            hCV25943932
SNP Position Genomic:     22116
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,2)   caucasian(A,31|C,3)   total(A,57|C,5)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33837):
GGGGCTGGCAGGACTCAGAGGTCCCAGGGAACCTTCCCAAGAGACAAACCCCTTGCTCTGCCCCAGCAGATGCTGCCGTGAAGCACACACAGCCTGAGGA
Y
GGGGTGGAGATGGACACTCGGGTGAGACCCCACCCCTGTCCCAGGCACCAAAGGCCTCCTGGTGCCAGATCTAATCCTGCAGAACTTCTCTGTCCTCCTT
Celera SNP ID:            hCV25974244
SNP Position Genomic:     24435
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(C,10|T,22)   total(C,12|T,54)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:33838):
CTGGGGCAGCAGGGGCAGAGGCAGAGGTGGCAGTGACTGCAAAGGGCTTGTCAGGGGCCTCTGAGCATTGGACTTTCAGAGGGCACTGAGCCAGGGCCAC
S
GTGTTCGGGTGGGGGCAGGACGGGTGACTGGGGCCCTGCAGCTGGCAAGCCCCATTAGCAGGAAGGAAGCCCCATTTCGCAGGAAGCAACAGAGGTGGGC
Celera SNP ID:            hCV8704728
SNP Position Genomic:     14034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33839):
TGCCAGGCCTCCCCACACCCTCCCTGGGCCTGGGGCAGCAGGGGCAGAGGCAGAGGTGGCAGTGACTGCAAAGGGCTTGTCAGGGGCCTCTGAGCATTGG
R
CTTTCAGAGGGCACTGAGCCAGGGCCACGGTGTTCGGGTGGGGGCAGGACGGGTGACTGGGGCCCTGCAGCTGGCAAGCCCCATTAGCAGGAAGGAAGCC
Celera SNP ID:            hCV8704729
SNP Position Genomic:     14005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33840):
GCCACATTTAACACGGTGCCTCCTTCTCTCCTAGGAGCCTACATCAAACCCACCCTCTCAGCCCAGCCCAGCCCCGTGGTGAACTCAGGAGGGAATGTAA
Y
CCTCCAGTGTGACTCACAGGTGGCATTTGATGGCTTCAGTCTGTGTAAGGAAGGAGAAGATGAACACCCACAATGCCTGAACTCCCAGCCCCATGCCCGT
Celera SNP ID:            hCV9491145
SNP Position Genomic:     20848
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33841):
GCGTCTCAGGGCAGTTCCAGGTGGGATGATGTTGGGGCGAGAGGGCTCAGGGCTCCTGGGGCCAGAGACACAGGAAGATCAGCAGTGATGTGGCCCCGGG
K
GAAAGGGAAGATTTGTGGGGAAGCCTGAGGGTCGGCTCCTGGAAACCATGACCACCTTTTCCCAGGTGTTTCTAAGAAGCCATCACTCTCAGTGCAGCCA
Celera SNP ID:            hCV25943431
SNP Position Genomic:     21245
SNP Source:               Applera
Population(Allele,Count): african american(G,22|T,8)   caucasian(G,34)   total(G,56|T,8)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33842):
AAAATTATATAATATAAAAATAACATTTAAAAACCCACAATTCAGGCCGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCCGAGACGGG
Y
GGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGTCAACATGGCAAAACCCCGTCTTTACTAAAAATACAAAAATTAGCCAGGCATGGTGTCAAGCAC
Celera SNP ID:            hCV7799185
SNP Position Genomic:     30688
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:33843):
ATAAGGACGGGGAACGTGACTTCCTTCAGCTCGCTGGCGCACAGCCCCAGGCTGGGCTCTCCCAGGCCAACTTCACCCTGGGCCCTGTGAGCCGCTCCTA
Y
GGGGGCCAGTACAGATGCTACGGTGCACACAACCTCTCCTCCGAGTGGTCGGCCCCCAGTGACCCCCTGGACATCCTGATCGCAGGTGAGGAGCCCAGCG
Celera SNP ID:            hCV25943722
SNP Position Genomic:     21522
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,33|T,1)   total(C,65|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33844):
ACATGGTGAATCCCTGTCTCTACTAAAAATGCAAAACTTAGCCAGGCAGTAGTGGCACACTCGTAATCCCAGCTACTTGGGAGACTGAGACAGGAGAATC
R
CTTCAGCATGGGAGATGTAGGTTGCAGTGAGCTGGGATCATGCCACTGCATTCCAGTCTGGGTGACAGAGTGAGCCCCTGCCTCAAAAAAAAAAAAAAAG
Celera SNP ID:            hCV11714508
SNP Position Genomic:     6865
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33845):
TTTCCAATGTGGATGCACTTTCTTTCTTTCTGTTGCCTGATTGCTCTGGCTAGGACTTCCAGTACTGTGTTGAATAGGAGTGGTGAGAGTGGACATCCTT
R
TCCTGTTCCATTTCTTGGGGAAATGCTTTCACTTCTCCCCATTCAATTTTAAGGTTGGCTGTGCGTTTGTCATATAAGGCTCTTATTTTGGGGTATGTTT
Celera SNP ID:            hCV11714509
SNP Position Genomic:     11591
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33846):
CGGCTCCTGGAAACCATGACCACCTTTTCCCAGGTGTTTCTAAGAAGCCATCACTCTCAGTGCAGCCAGGTCCTATCGTGGCCCCTGAGGAGACCCTGAC
Y
CTGCAGTGTGGCTCTGATGCTGGCTACAACAGATTTGTTCTGTATAAGGACGGGGAACGTGACTTCCTTCAGCTCGCTGGCGCACAGCCCCAGGCTGGGC
Celera SNP ID:            hCV25943581
SNP Position Genomic:     21378
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,15)   caucasian(C,1|T,19)   total(C,12|T,34)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,21)   caucasian(C,2|T,32)   total(C,13|T,53)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33847):
CCGCTCACACTTCCCTCCTGAAGTGTCACTCGGTTTTGCTCTGGGGACACGTGAAAGTGCCAGGCCTCCCCACACCCTCCCTGGGCCTGGGGCAGCAGGG
R
CAGAGGCAGAGGTGGCAGTGACTGCAAAGGGCTTGTCAGGGGCCTCTGAGCATTGGACTTTCAGAGGGCACTGAGCCAGGGCCACGGTGTTCGGGTGGGG
Celera SNP ID:            hCV8704730
SNP Position Genomic:     13948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33848):
AGAACACCCAGTGTCTCCTTGTCCATCTGAAGAAGATGCTGCTATGTGGAAGCACATCCTTGAGATCCACAAGGAGACACTGGGCAAGGAGACGAGGGTG
M
CCCACTGTGCAGAAGTCTCCCTAATAAATGATCTATGAACACCCTGGTGTTTAGTGCTTCTTTCTTTGGAATCCCAGCAGCTCTGTCACTGGACGGTTTG
Celera SNP ID:            hCV15994974
SNP Position Genomic:     18330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33849):
GATTACACGGATCCCACAGGAGCTTGTGAAGAAGGGCCAGTTCCCCATCCCATCCATCACCTGGGAACATGCAGGGCGGTATCGCTGTTACTATGGTAGC
S
ACACTGCAGGCCGCTCAGAGAGCAGTGACCCCCTGGAGCTGGTGGTGACAGGTGAGCTGACACTCAGGGGTCCCAGCCCCAGACTCTGCCCTCAGGAAGG
Celera SNP ID:            hCV25974326
SNP Position Genomic:     20583
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,12)   caucasian(G,36)   total(C,2|G,48)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33850):
GATGGGGAATAGCAGTTCTGGGCTGACTGATCGGGGCGTCTGGAGGGTCCTGGGCTGAGAGCTGGAATCTGCTGGGTTGGGTGGGAAATGAGTTAGAATC
Y
GACTCCTGATTTCCTTCCAGGGCACCTCCCCAAGCCCACCCTCTGGGCTGAACCAGGCTCTGTGATCACCCAGGGGAGTCCTGTGACCCTCAGGTGTCAG
Celera SNP ID:            hCV25943870
SNP Position Genomic:     20326
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,8)   caucasian(C,26|T,2)   total(C,36|T,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33851):
GGAGAGAACGTGACCCTGCTGTGTCAGTCACAGGGATGGATGCAAACTTTCCTTCTGACCAAGGAGGGGGCAGCTGATGACCCATGGCGTCTAAGATCAA
Y
GTACCAATCTCAAAAATACCAGGCTGAATTCCCCATGGGTCCTGTGACCTCAGCCCATGCGGGGACCTACAGGTGCTACGGCTCACAGAGCTCCAAACCC
Celera SNP ID:            hCV25943871
SNP Position Genomic:     22019
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,31|T,3)   total(C,58|T,4)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33852):
TACATCAAACCCACCCTCTCAGCCCAGCCCAGCCCCGTGGTGAACTCAGGAGGGAATGTAATCCTCCAGTGTGACTCACAGGTGGCATTTGATGGCTTCA
K
TCTGTGTAAGGAAGGAGAAGATGAACACCCACAATGCCTGAACTCCCAGCCCCATGCCCGTGGGTCGTCCCGCGCCATCTTCTCCGTGGGCCCCGTGAGC
Celera SNP ID:            hCV9491153
SNP Position Genomic:     20887
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33853):
CAGTGCCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCAGGGAGTCAGAGGTTTCAGTGAGCCAAGATCGCACCACTGCTCTC
Y
AGCCTGGCGACAGAGGGAGACTCCATCTCAAATTAAAAAAAAAAAAAAAAAAGAAAGAAAAAGAGAAAAAAGAAATTTAGAAGAATAACAAGTTATTCCA
Celera SNP ID:            hCV26235180
SNP Position Genomic:     26341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:33854):
CACGTTCCTTCCCTCTCACTCTCCCCCGCTGCAGGCTGCTGCATCTGAAGCCCCCCAGGATGTGACCTACGCCCAGCTGCACAGCTTGACCCTCAGACGG
R
AGGCAACTGAGCCTCCTCCATCCCAGGAAGGGCCCTCTCCAGCTGTGCCCAGCATCTACGCCACTCTGGCCATCCACTAGCCCAGGGGGGGACGCAGACC
Celera SNP ID:            hCV26235181
SNP Position Genomic:     25645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33855):
CCCCCACCACGTTCCTTCCCTCTCACTCTCCCCCGCTGCAGGCTGCTGCATCTGAAGCCCCCCAGGATGTGACCTACGCCCAGCTGCACAGCTTGACCCT
Y
AGACGGGAGGCAACTGAGCCTCCTCCATCCCAGGAAGGGCCCTCTCCAGCTGTGCCCAGCATCTACGCCACTCTGGCCATCCACTAGCCCAGGGGGGGAC
Celera SNP ID:            hCV26235182
SNP Position Genomic:     25638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33856):
CCCCCACCCCCACCACGTTCCTTCCCTCTCACTCTCCCCCGCTGCAGGCTGCTGCATCTGAAGCCCCCCAGGATGTGACCTACGCCCAGCTGCACAGCTT
K
ACCCTCAGACGGGAGGCAACTGAGCCTCCTCCATCCCAGGAAGGGCCCTCTCCAGCTGTGCCCAGCATCTACGCCACTCTGGCCATCCACTAGCCCAGGG
Celera SNP ID:            hCV26235183
SNP Position Genomic:     25632
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(G,11|T,11)   total(G,11|T,11) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33857):
AATAGGAGTGGTGAGAGTGGACATCCTTATCCTGTTCCATTTCTTGGGGAAATGCTTTCACTTCTCCCCATTCAATTTTAAGGTTGGCTGTGCGTTTGTC
W
TATAAGGCTCTTATTTTGGGGTATGTTTCTTTCATGCCTAGTCTGTTGAGGGATTTTATCATGAAGGGATATTGGACTTTCTCGAACGCTTTATCTGCAT
Celera SNP ID:            hCV11714510
SNP Position Genomic:     11663
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33858):
ACAAAGGACAGACAGGCGGAAGAGGACAGGCAGATGGACACTGAGGTGAGTCCTTTCCTCTCCAGGCCCCCAGGCCTCCCCCACCCCCACCACGTTCCTT
M
CCTCTCACTCTCCCCCGCTGCAGGCTGCTGCATCTGAAGCCCCCCAGGATGTGACCTACGCCCAGCTGCACAGCTTGACCCTCAGACGGGAGGCAACTGA
Celera SNP ID:            hCV26235184
SNP Position Genomic:     25555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33859):
GGAGAGGAGGCCTCCCAGGGAACCTCCCAGACCCGATTCCGCGGGGGCCTGTCCCGTCCCACCTGCAGCAGAGACGGTGACCTGGGGCAGGGGAGGGGAG
M
AGAGTCATGGTTCAGGACGGTCAGGCTCTTTCCCTGCAGCTCCGGGGCTCGGCTCTGGTGCAGGAACAAGGGCTGCAGGTCAGACTCCTGGGCTTCCTTC
Celera SNP ID:            hCV15838078
SNP Position Genomic:     23171
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,1)   caucasian(A,18)   total(A,27|C,1)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33860):
TCATGAAGGGATATTGGACTTTCTCGAACGCTTTATCTGCATCTATTGAGATGACCATATGCTTTTTGTTCTTAGTTTATGTCATGAGTCACTTTTATTG
R
CTTGCATATATTGAACCATCCTTTCATCCCTGGAATCAAGCCAACTTGATCATGATGAATTATGTTTTTGATACACTGTTAGATTCCGTTTAATAGCATT
Celera SNP ID:            hCV11714512
SNP Position Genomic:     11822
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33861):
AGCCGCCCCCGCCTCCTGAGCTCACCTCGTGGTGGGAGACAAAATGCAAATAAATGTGCCGCGTCCAGGAGTGCAACGTGCTGTAAGGAACATAAACCAG
R
GAAAGGGCAGAGAGTGTGGGGCAGTGGGGCCAGTCTGAATGGAAGGGGAGGGCTGTCTGCTCAGCTGTCATCTGAGAAGCCTGGACAGAGTGGGGCACAC
Celera SNP ID:            hCV26235185
SNP Position Genomic:     24944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33862):
CTCACCCCTTCCCCATGTTAGGGAATCTCTCACTCACTCACCCCTTCCCCGTGTTAGGGACCCTCTCACTCACTCACCCCTTCCCCGTGTTAGGGACTCT
Y
TCATTCACTCACCCCTTCCCCATGTTAGGAGCCTCTCACTCACTCACCCCTTCCCCGTGTTAGAGAATCTCTCACTCACTCACCCCTTCCCCGTGTTAGA
Celera SNP ID:            hCV11467662
SNP Position Genomic:     14699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33863):
TTGTTATTGGTCTGTTTAGGGTTTCTATTTTTTGCCTGTGCGATCTTAGGAAGTTGTATGTGTCTAGGAATTCATCCATTTCTCTAGGTTTTCTAGTTTA
Y
GTGCATAAAGGTGTTCATAGTAGTCTCTGATGGTCATTTGTATTTCTGTGGCGTTGGTTGTAATGTCAACTTTATCATTTCTGATTGTGCTTATTTAAAT
Celera SNP ID:            hCV11714513
SNP Position Genomic:     12291
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33864):
CGGTCCCCCAGGCTCCCCTTCATTCATTCAACCAGCAAGTGTTCCCAGGGAGCTCACTGTGGATGGGGCTCCCCATGGGAGCTGCAGACACAGCAGGGAG
S
AAAGCCGCCCCCGCCTCCTGAGCTCACCTCGTGGTGGGAGACAAAATGCAAATAAATGTGCCGCGTCCAGGAGTGCAACGTGCTGTAAGGAACATAAACC
Celera SNP ID:            hCV26235186
SNP Position Genomic:     24841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33865):
TGAGAGGAAGAGGTGACCAGCCAGGAGGGAGATGGGGGCCCCGAAGTTTCCGTAGCAATGGGGAAAGGGGCGCTGGCTGGAAAGGGTCTGGGGCTCAGGG
Y
GAGATCATCTCACCCCACACTGTGGGGCCTCAGGGACATCGCAGCCCCTCCCTGCATCTCAGTGGCCCCATCTGGGAGCTGAGCAGGGGCTGGCAGGACT
Celera SNP ID:            hCV26235187
SNP Position Genomic:     24249
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33866):
CCGATGCCCAGGAAGAAAACCTCTGTGAGTGAGAGGAAGAGGTGACCAGCCAGGAGGGAGATGGGGGCCCCGAAGTTTCCGTAGCAATGGGGAAAGGGGC
R
CTGGCTGGAAAGGGTCTGGGGCTCAGGGTGAGATCATCTCACCCCACACTGTGGGGCCTCAGGGACATCGCAGCCCCTCCCTGCATCTCAGTGGCCCCAT
Celera SNP ID:            hCV26235188
SNP Position Genomic:     24220
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33867):
CCCCCAGGTCCAGCCCAGCTGCCGATGCCCAGGAAGAAAACCTCTGTGAGTGAGAGGAAGAGGTGACCAGCCAGGAGGGAGATGGGGGCCCCGAAGTTTC
Y
GTAGCAATGGGGAAAGGGGCGCTGGCTGGAAAGGGTCTGGGGCTCAGGGTGAGATCATCTCACCCCACACTGTGGGGCCTCAGGGACATCGCAGCCCCTC
Celera SNP ID:            hCV26235189
SNP Position Genomic:     24199
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33868):
CGTCTCTGCTGATCTGAGTCTGCCTGCAGCATGGACCTGGGTCTTCCCTGAAGCATCTCCAGGGCTGGAGGGACGACTGCCATGGTAAGGACCCCACAAC
R
CTGAGCTGATGGACGGCTGAAGGAGGGAGGGTGACCATGTGGGAGGCTGTGAGAAGGAAGGAGATGCCTCCGCTACCCTCGTCAGGAAGGGCAGACACAG
Celera SNP ID:            hCV11714518
SNP Position Genomic:     19497
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33869):
TTATTCTGTATGCCTGTTATATCTGTATCTTCATATGTGTTATCTGGAAGTGATATTTCACTACCAAACTACATGAAACAGCTCATCAGTTGTCTTTTTT
W
AAAAAAAGTAAGTGCTTATCAGATTGGCAGACACTAGCTAAGATGCCTTTGAATTCACCTGATTTTAATATTTAGTAAAATTAATTTAGTAAATTTAATC
Celera SNP ID:            hCV952102
SNP Position Genomic:     8657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33870):
ATTTCTTGTGTGCATTAATTATGTTTTCTACTTTATTCATTTCTAGTTTTTCTCTGATGACTAATGAAAAATTTAATAGATATTCCACACCAATACTATG
Y
TCATCATTTCAGCTGTGTCTTGTTCTTATGCAATTATTTCTAAATGTGTTGATATGATTTACTATTTTTCACCTCACAGTAGCTTCCTAATTCATTTCTA
Celera SNP ID:            hCV952103
SNP Position Genomic:     15432
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33871):
TTCTATAATTGCCTGTTTTTTCTGTAATGGACTTTTTGATTTTTATTTCTCTTGGGTGGGTTTTTCTCCCACACATGTGATCTTCCATACAGTTTCTCCC
Y
GGGCTGACTCAGGAAGGAAAGCTGATGAGGAGCATTGCTGTGGTCACTCCTGCCCTGCGGTGTCCATGCTGCCAAGCTTAGAATCAGCTCTGTGTTCTGT
Celera SNP ID:            hCV952104
SNP Position Genomic:     15628
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33872):
TGCCAAGCTTAGAATCAGCTCTGTGTTCTGTCCGGCATGGTGGGGCCCATGTGAGCCTCACACTCACGTGCTAGAGATGCCTGGTCCAGCAGTGATAAAG
Y
GCATCTGTGTCATGCACACCCGGGAAGGTGGCTCAATGCTGAGTGTGGCCCGGGTCACTGAGGGGAGCTATCCCAGGGTCTGTCCACAAACACAGAAGAG
Celera SNP ID:            hCV952105
SNP Position Genomic:     15798
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33873):
AGCAGGGCAGCCCCAGCCCTCACCTCCCCGTCCTGACCCAGCAGGCCCTGAGGACCAGCCCCTCACCCCCACCGGGTCGGATCCCCAGAGTGGTGAGTGA
S
GGGCTCTGAGTGGGAGGTGGGCAGGGTCCAGGGGAGGCAGGGGTGGGTTCTGTCCTAGGTTCAGTCTCCTCTGGAGGTGGTGATATAGACAGGCTCCTCC
Celera SNP ID:            hCV16116708
SNP Position Genomic:     22877
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,8)      total(G,2|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33874):
CCCAAGAGACAAACCCCTTGCTCTGCCCCAGCAGATGCTGCCGTGAAGCACACACAGCCTGAGGATGGGGTGGAGATGGACACTCGGGTGAGACCCCACC
Y
CTGTCCCAGGCACCAAAGGCCTCCTGGTGCCAGATCTAATCCTGCAGAACTTCTCTGTCCTCCTTCCCCCGGCTCTCAGCATCGTCACGGTGGACCCCTC
Celera SNP ID:            hCV25944030
SNP Position Genomic:     24470
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,3)   caucasian(C,30|T,4)   total(C,55|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:33875):
GCAGGGCAGCCCCAGCCCTCACCTCCCCGTCCTGACCCAGCAGGCCCTGAGGACCAGCCCCTCACCCCCACCGGGTCGGATCCCCAGAGTGGTGAGTGAC
R
GGCTCTGAGTGGGAGGTGGGCAGGGTCCAGGGGAGGCAGGGGTGGGTTCTGTCCTAGGTTCAGTCTCCTCTGGAGGTGGTGATATAGACAGGCTCCTCCC
Celera SNP ID:            hCV16116709
SNP Position Genomic:     22878
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33876):
AGCTTGACCCTCAGACGGGAGGCAACTGAGCCTCCTCCATCCCAGGAAGGGCCCTCTCCAGCTGTGCCCAGCATCTACGCCACTCTGGCCATCCACTAGC
Y
CAGGGGGGGACGCAGACCCCACACTCCATGGAGTCTGGAATGCATGGGAGCTGCCCCCCCAGTGGACACCATTGGACCCCACCCAGCCTGGATCTACCCC
Celera SNP ID:            hCV29042320
SNP Position Genomic:     25727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:33877):
CTTCCCAAGAGACAAACCCCTTGCTCTGCCCCAGCAGATGCTGCCGTGAAGCACACACAGCCTGAGGATGGGGTGGAGATGGACACTCGGGTGAGACCCC
R
CCCCTGTCCCAGGCACCAAAGGCCTCCTGGTGCCAGATCTAATCCTGCAGAACTTCTCTGTCCTCCTTCCCCCGGCTCTCAGCATCGTCACGGTGGACCC
Celera SNP ID:            hCV25944034
SNP Position Genomic:     24467
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,7)   caucasian(A,22|G,12)   total(A,39|G,19)
SNP Type:                 INTRON


Context             (SEQ ID NO:33878):
CCTGACCCAGCAGGCCCTGAGGACCAGCCCCTCACCCCCACCGGGTCGGATCCCCAGAGTGGTGAGTGACGGGCTCTGAGTGGGAGGTGGGCAGGGTCCA
R
GGGAGGCAGGGGTGGGTTCTGTCCTAGGTTCAGTCTCCTCTGGAGGTGGTGATATAGACAGGCTCCTCCCCTGCTTGGGCCTCAGTTTCTCCAAATGTAA
Celera SNP ID:            hCV29042321
SNP Position Genomic:     22908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33879):
GCTGTGGTCACTCCTGCCCTGCGGTGTCCATGCTGCCAAGCTTAGAATCAGCTCTGTGTTCTGTCCGGCATGGTGGGGCCCATGTGAGCCTCACACTCAC
R
TGCTAGAGATGCCTGGTCCAGCAGTGATAAAGCGCATCTGTGTCATGCACACCCGGGAAGGTGGCTCAATGCTGAGTGTGGCCCGGGTCACTGAGGGGAG
Celera SNP ID:            hCV29042322
SNP Position Genomic:     15765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33880):
TACTCCTTATTTCCTTCATTCTGAAAGTGTGATCCATAGAGAGATACCTGTTTCCTCTTCTCATTCCATTTCTTGTGTGCATTAATTATGTTTTCTACTT
Y
ATTCATTTCTAGTTTTTCTCTGATGACTAATGAAAAATTTAATAGATATTCCACACCAATACTATGCTCATCATTTCAGCTGTGTCTTGTTCTTATGCAA
Celera SNP ID:            hCV29042323
SNP Position Genomic:     15365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33881):
TTTTACTCTTGGGAAATCCGGTCCCAATGTGCTTGTCTTTCATTTGAGAATAATTTTCATTTTCTCCAGTAGTTTTAAAATTACTTTGTATCTATTCTAG
R
TATCTTTTACTCTATCATAGTTAAGACATTGATGTTATTTATTAATTTGTTCACATTAAACTCATGTTCTTTCTTCATTTCTGTAAAAATGTCAACCATT
Celera SNP ID:            hCV29042324
SNP Position Genomic:     15138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33882):
TACTCACTATTTTGGGTCCTCTTAGTGAGTAGGCAGACTCCAGCCCTTTCCATTCAGCCAACTTGAACCTCAGCCCACAATCATTTTCTTGTCACTTTTT
Y
CTCTTGGGAAATCCGGTCCCAATGTGCTTGTCTTTCATTTGAGAATAATTTTCATTTTCTCCAGTAGTTTTAAAATTACTTTGTATCTATTCTAGGTATC
Celera SNP ID:            hCV29042325
SNP Position Genomic:     15042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33883):
TGACCCCCTGGAGCTCGTGGTCTCAGGTGGGGGCCTTGACCCTGTCCTCTCTGAGCTCAAAGTCTCAGCTCAGACCCTGCCCCAGGAGAGCTCTGGGCTG
R
GATGGAGTGAGCGGGGGTCTGAGAGGGGCTCAGCCAGTGGGAGACTCACCCTCAGAGGGAAGGAGGAGAACAGGGCCCTCCCAGGCCTGCCCACCCTCAG
Celera SNP ID:            hCV25944039
SNP Position Genomic:     22240
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,23)   caucasian(G,34)   total(A,1|G,57)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33884):
ACGTTGTCTGTCTCCCTATCACACCCGTGCTCCAGGGCTCATGAGTCTCAGTTCAGACACACACTCTTGTCTCTCCCCAGGCCACAGTGTGGCTGAGGGC
M
GTGGGAAACACCTGCCTTGCCACTCTCTGCAGGCGTGGTTCCAAGGCAGAGCCTCCTCCCTCAGCCCAGTGCAGACCCTGAGCGGCTGTCTGTTGTCTGA
Celera SNP ID:            hCV29042326
SNP Position Genomic:     13246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33885):
CCTTCCCAGCTCTGCCGCTTCCTGGCTGGGGGCCCCGGGCAGGCGATTCCCCTCTCTGAGCGTCAGTTTTTCATCTGTACAGTGGGTGGGGTGGATGTTT
S
TGTGCTGCACGACTGTTGTGGGGGTTGGAGGTGGTGAACAGAAGGTCCAGCAGTCACCTGCACACAGTAGGCGCTCATTTCAATGACATCACCCCCATCC
Celera SNP ID:            hCV26235190
SNP Position Genomic:     23367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33886):
TCCCTGCAGCTCCGGGGCTCGGCTCTGGTGCAGGAACAAGGGCTGCAGGTCAGACTCCTGGGCTTCCTTCCCAGCTCTGCCGCTTCCTGGCTGGGGGCCC
S
GGGCAGGCGATTCCCCTCTCTGAGCGTCAGTTTTTCATCTGTACAGTGGGTGGGGTGGATGTTTCTGTGCTGCACGACTGTTGTGGGGGTTGGAGGTGGT
Celera SNP ID:            hCV26235191
SNP Position Genomic:     23302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33887):
CCTCCCAGACCCGATTCCGCGGGGGCCTGTCCCGTCCCACCTGCAGCAGAGACGGTGACCTGGGGCAGGGGAGGGGAGAAGAGTCATGGTTCAGGACGGT
M
AGGCTCTTTCCCTGCAGCTCCGGGGCTCGGCTCTGGTGCAGGAACAAGGGCTGCAGGTCAGACTCCTGGGCTTCCTTCCCAGCTCTGCCGCTTCCTGGCT
Celera SNP ID:            hCV26235192
SNP Position Genomic:     23193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33888):
GCAGGGGCTGGCAGGACTCAGAGGTCCCAGGGAACCTTCCCAAGAGACAAACCCCTTGCTCTGCCCCAGCAGATGCTGCCGTGAAGCACACACAGCCTGA
R
GATGGGGTGGAGATGGACACTCGGGTGAGACCCCACCCCTGTCCCAGGCACCAAAGGCCTCCTGGTGCCAGATCTAATCCTGCAGAACTTCTCTGTCCTC
Celera SNP ID:            hCV25943450
SNP Position Genomic:     24432
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,34)   total(A,2|G,66)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:33889):
AGGCCTCCCAGGGAACCTCCCAGACCCGATTCCGCGGGGGCCTGTCCCGTCCCACCTGCAGCAGAGACGGTGACCTGGGGCAGGGGAGGGGAGAAGAGTC
R
TGGTTCAGGACGGTCAGGCTCTTTCCCTGCAGCTCCGGGGCTCGGCTCTGGTGCAGGAACAAGGGCTGCAGGTCAGACTCCTGGGCTTCCTTCCCAGCTC
Celera SNP ID:            hCV26235193
SNP Position Genomic:     23178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33890):
TTGGGCCTCAGTTTCTCCAAATGTAAAGGTGAGAGGCCTGCGGGTGGGAAAGTTCCTTTCAGCTCTGACTCCCAGCTGTGACCTCCTGGGAGAGGAGGCC
Y
CCCAGGGAACCTCCCAGACCCGATTCCGCGGGGGCCTGTCCCGTCCCACCTGCAGCAGAGACGGTGACCTGGGGCAGGGGAGGGGAGAAGAGTCATGGTT
Celera SNP ID:            hCV26235194
SNP Position Genomic:     23083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33891):
AGATTTGTGGGGAAGCCTGAGGGTCGGCTCCTGGAAACCATGACCACCTTTTCCCAGGTGTTTCTAAGAAGCCATCACTCTCAGTGCAGCCAGGTCCTAT
S
GTGGCCCCTGAGGAGACCCTGACTCTGCAGTGTGGCTCTGATGCTGGCTACAACAGATTTGTTCTGTATAAGGACGGGGAACGTGACTTCCTTCAGCTCG
Celera SNP ID:            hCV25943528
SNP Position Genomic:     21354
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,3)   caucasian(C,34)   total(C,63|G,3)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,5)   caucasian(C,32)   total(C,61|G,5)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33892):
TGATCTCCTGGAGCTCCTGGTCCTAGGTGAGAAATTCACAGCATTGCCTGGAGTTCCCTGAGTCTCCAGGCAGGTGGGGAGCAGCCGCGTCTCAGGGCAG
Y
TCCAGGTGGGATGATGTTGGGGCGAGAGGGCTCAGGGCTCCTGGGGCCAGAGACACAGGAAGATCAGCAGTGATGTGGCCCCGGGGGAAAGGGAAGATTT
Celera SNP ID:            hCV26235196
SNP Position Genomic:     21159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33893):
TGGTCTCTACCCAGTGATCTCCTGGAGCTCCTGGTCCTAGGTGAGAAATTCACAGCATTGCCTGGAGTTCCCTGAGTCTCCAGGCAGGTGGGGAGCAGCC
R
CGTCTCAGGGCAGTTCCAGGTGGGATGATGTTGGGGCGAGAGGGCTCAGGGCTCCTGGGGCCAGAGACACAGGAAGATCAGCAGTGATGTGGCCCCGGGG
Celera SNP ID:            hCV26235197
SNP Position Genomic:     21145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33894):
CAGCCCAGCCCCGTGGTGAACTCAGGAGGGAATGTAATCCTCCAGTGTGACTCACAGGTGGCATTTGATGGCTTCAGTCTGTGTAAGGAAGGAGAAGATG
M
ACACCCACAATGCCTGAACTCCCAGCCCCATGCCCGTGGGTCGTCCCGCGCCATCTTCTCCGTGGGCCCCGTGAGCCCGAGTCGCAGGTGGTGGTACAGG
Celera SNP ID:            hCV26235198
SNP Position Genomic:     20911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33895):
CCCAGCCCAGCCCCGTGGTGAACTCAGGAGGGAATGTAATCCTCCAGTGTGACTCACAGGTGGCATTTGATGGCTTCAGTCTGTGTAAGGAAGGAGAAGA
W
GAACACCCACAATGCCTGAACTCCCAGCCCCATGCCCGTGGGTCGTCCCGCGCCATCTTCTCCGTGGGCCCCGTGAGCCCGAGTCGCAGGTGGTGGTACA
Celera SNP ID:            hCV26235199
SNP Position Genomic:     20909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33896):
CCCCCACCGGGTCGGATCCCCAGAGTGGTGAGTGACGGGCTCTGAGTGGGAGGTGGGCAGGGTCCAGGGGAGGCAGGGGTGGGTTCTGTCCTAGGTTCAG
K
CTCCTCTGGAGGTGGTGATATAGACAGGCTCCTCCCCTGCTTGGGCCTCAGTTTCTCCAAATGTAAAGGTGAGAGGCCTGCGGGTGGGAAAGTTCCTTTC
Celera SNP ID:            hCV16117153
SNP Position Genomic:     22942
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,6)      total(G,2|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33897):
TTGCTTCTCACTCCCAAATAAACTCAAAATCCAGACAACCCTGGAGCAACGCAGCCTTGAATTCCTGGGGTCTCTTATATGCACACTTTTTTCAACCAAA
R
GGGGGTCAAAACTGTAGCATTTGTGGGATGCAAGACTTGTGTATATGAACGGCAGACTTTTCCTATATGCAGGCCCAGCAGAGACAATGTCGGGGCTGGA
Celera SNP ID:            hCV27968407
SNP Position Genomic:     17991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33898):
CTATTCTGTTCCCTTGATGTCTGTGTATATTTTTGTACTAGTAAATGCTGTCTTAGTTACTATGGCCTTATAGTATAACTTGAAATCAGGCAATGTGATG
Y
CTCCTGTTTTGTTCTTTTTGCATAGAAGTGTTTTAGCTGTTCAGGCTGGTTTTTGGTTCCAAATGAATTTAAAAATTGCTTTTTCTCTAATTCTGTTAAA
Celera SNP ID:            hCV27968408
SNP Position Genomic:     10974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33899):
CTGTAGCAAAATATTTTAAAAAGGGGAAGTTAAGAGGGGACTATTTGGTTGAAAGAAAACCCACAATCCAGTGTCAAGAAAGAAGTCAACTTTTCTTCCC
W
ATTTCCCTGCATTTCTCTTCTGTGCTCGCTGCCACACGCAGCTCAGCCTGGGCGGCACAGCCAGATGCGAGATGCGTCTCTGCTGATCTGAGTCTGCCTG
Celera SNP ID:            hCV27836139
SNP Position Genomic:     19322
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,38)   total(A,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:33900):
CTGAACCAGGCTCTGTGATCACCCAGGGGAGTCCTGTGACCCTCAGGTGTCAGGGGGGCCAGGAGACCCAGGAGTACCGTCTATATAGAGAAAAGAAAAC
W
GCACTCTGGATTACACGGATCCCACAGGAGCTTGTGAAGAAGGGCCAGTTCCCCATCCCATCCATCACCTGGGAACATGCAGGGCGGTATCGCTGTTACT
Celera SNP ID:            hCV25974342
SNP Position Genomic:     20474
SNP Source:               Applera
Population(Allele,Count): african american(A,19|T,3)   caucasian(A,36)   total(A,55|T,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:33901):
CCATGACCCCCATCCTCACGGTCCTGATCTGTCTCGGTGAGATTTGAAGAAGGAGGGGAGCTTCTAACCTAAGAGGGACCTCACCCCACAGCCAAACTCT
K
GTCCCTAAGGAGACCCCAGGGGCTCACAAAGATCCCAGGGAGGGGAGGACCTGCCCAGGCTTCAGGGGGCAAATCCCTCACCGGGAACTCTCTTCCAGGG
Celera SNP ID:            hCV15752519
SNP Position Genomic:     20019
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,4)      total(G,4|T,4) ;JBIC-allele(G,565|T,916)   total(G,565|T,916)
SNP Type:                 INTRON


Context             (SEQ ID NO:33902):
GTTGGTATTTACTCACTATTTTGGGTCCTCTTAGTGAGTAGGCAGACTCCAGCCCTTTCCATTCAGCCAACTTGAACCTCAGCCCACAATCATTTTCTTG
R
CACTTTTTACTCTTGGGAAATCCGGTCCCAATGTGCTTGTCTTTCATTTGAGAATAATTTTCATTTTCTCCAGTAGTTTTAAAATTACTTTGTATCTATT
Celera SNP ID:            hCV751664
SNP Position Genomic:     15033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33903):
CTTCTCTCCAGGACAGTTCTATGACAGAGTCTCCCTCTCGGTGCAGCCGGGCCCCACGGTGGCCTCAGGAGAGAACGTGACCCTGCTGTGTCAGTCACAG
R
GATGGATGCAAACTTTCCTTCTGACCAAGGAGGGGGCAGCTGATGACCCATGGCGTCTAAGATCAACGTACCAATCTCAAAAATACCAGGCTGAATTCCC
Celera SNP ID:            hCV25943893
SNP Position Genomic:     21952
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,20)   caucasian(G,34)   total(A,8|G,54)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:33904):
TCCTGGTGCCAGATCTAATCCTGCAGAACTTCTCTGTCCTCCTTCCCCCGGCTCTCAGCATCGTCACGGTGGACCCCTCCTTGTCCAGCACGCTGCCTCC
Y
GCCTGCTGCGACCTCACTCTCTCCTGCTGTCCTGGGACCTCGTGGGCCTCCTCCCGGGTCCCCTTCCTGCTCCTCATCCTCTGTTTGGCCGTCTGGTTGT
Celera SNP ID:            hCV25943603
SNP Position Genomic:     24592
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,23|T,11)   total(C,54|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:33905):
CTGAGTGGGAGGTGGGCAGGGTCCAGGGGAGGCAGGGGTGGGTTCTGTCCTAGGTTCAGTCTCCTCTGGAGGTGGTGATATAGACAGGCTCCTCCCCTGC
Y
TGGGCCTCAGTTTCTCCAAATGTAAAGGTGAGAGGCCTGCGGGTGGGAAAGTTCCTTTCAGCTCTGACTCCCAGCTGTGACCTCCTGGGAGAGGAGGCCT
Celera SNP ID:            hCV16117163
SNP Position Genomic:     22983
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33906):
TCCCCAGCTCTTCCAGGTCCCTCCTCCTCACTGGGGACAAGGGGCCACCCCCGTGCCGCTGGGGATGGGGAATAGCAGTTCTGGGCTGACTGATCGGGGC
R
TCTGGAGGGTCCTGGGCTGAGAGCTGGAATCTGCTGGGTTGGGTGGGAAATGAGTTAGAATCCGACTCCTGATTTCCTTCCAGGGCACCTCCCCAAGCCC
Celera SNP ID:            hCV26235200
SNP Position Genomic:     20263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 152
Celera Gene:                 hCG20859 - 66000115840017
Gene Symbol:                 NHLH1
Protein Name:                nescient helix loop helix 1;HEN1;NSCL;NSCL1
Celera Genomic Axis:         GA_x5YUV32VSLS(1060301..1078082)
Chromosome:                  Chr1
OMIM number:                 162360
OMIM Information:            NESCIENT HELIX LOOP HELIX 1;NHLH1


Genomic Sequence (SEQ ID NO:12312):
TCCTGCCCCAAGACCCAGCCTGCCTCTGCCTATTGTGATATCTCGTCCCTCAAGACGAAGCCTTTCCTACCCACTGGTGTTTCTTTCCCAGCTTATTTGA
GTAAAGGGATTTTCTATTTTTTTCTTTTTCATCTCTGGGCCACTGCTCTCAAAGGTACATATTAGGATGAGATACTGTTTACCCAGAGTACTCTGTGTCA
CCATTATTCAGTAGGACTTTTGTTTCTTCAAGGGACCTTAGAAATCATTTGCATAGTCTAACTCATTTGACTGAAGAGAGAAACAGCCCAGAGGAGTGAT
GTGGCTTGCCCAAGGTCACACAGCAAATTAGAGACAGAACTAGGATTAGAACCTTCTGTACATCTGCACGGGCAGCCACAGCAGTAATAAGCATTTATTG
AGCATGGCTCTGGGCAGGGCATTCTGCCCAGCATGGACAAAGGGGAAGAGATAGAGCAACTTCCCTTGGAGATTTGGGACCTAGAGTCTAGATGGCAGGA
CGAGACATAAGATAAATAACAGGCAAGGCAGCATAGGCCCCATGCAAAATCAGTGCTATAAACAAGTTCTACAGAGAAGTTCAGAGGATGAAAGGTTTCC
TTCCCAGGCGAGGCCAGTATGGAGGAACGTCGTGGGAAAAGCTAAGGACCAGGATTCTGCCACTAATGCTCTTTGTGACCTTGGAAAGGGCATTTCCTCC
CTCTGTAAAGTGTAGTTAGACAAGGGACTGCTCTCAGGTCCCCCCTGGCTCTGTCAGTCTTGTTCTTTGAAGAGAGAGCTGGAATTGAAGCCTCTTCCTT
CTCCCTTCATCTGAAAACTCGGAACAGGGAACGTTTGAGAGGTTGATCAATTCCTGAACTTTCAAAGGTAGCCGGAGAATCAACTCTAGGGAGGAAAGCC
TGAGGGGCACTATTGCCCTATAACCCAGGGACAGCAGGAATATGGGGAAACTGTGGCATAACACCATAGAAAAGACCCTGTCACCCAGCATCCCATTCCC
AAAAAAAGTTTGGCAGGAATYGAAGTTAAACTGGGGAAGCAGGGACCCCTGGAAGGTTGGGGTCCCAATGGGCCTCAGATTGGATTTTTATTCCTTCCTG
AATTCAAACTCCAAAGCTAGAGGAGCTCTCCCACTCCTATTGTGGAAAAGGGCAGCTGTTGCCCCTGTCCCCAGTCAGGGGAAACTTGGAGCAGGAGTGG
AGGGGTCATCTCAGGAGGCCTAAGGAGAAGTCATTAGTCGGAGATGATGCAATTGTGAGTAAATGTTACAGCCTCTGGCTCAGGCTAGTTGGATGCTCAG
AAGCTGGGGGCTAGGACCCCTAGAGTCCCCACTATCTCCCCCAACTCACAACTGAGAAGGAGTTAGATAAACTGAGGGAAGAAAGAAAAAAAGTGAAATG
AGAGGGTATCCAGAAAAGGATAAGCTAGTGAAAGGAAACTAAGGAAGTAGGGGGTTCCTGGAAGGGCTGAAGGCGGAAAGGGAGGCTGAAAGCTGTGCTG
AGAGGGATCCGAGCCTGAGGGGAGAAAGGCCAGGCGGGCGTGGCCAGGAGGGGAGTAAGCCCAGAGCTGGTGGTGACAGATGGGTGGACACAAAGAAGAG
AGCTTCAGGGAAGACAGATGGATGGGGGAGGGAAGAGAAGAGGTTGGGGGGGTTAGGGGGGAGCCCAGTGGTTGGAGGCCATAATGAGATTGGAGATGGA
CTATGAGCTGAGGAGAGGTGAGTGAAGAGGAGAGAAGAAAGGGGAGGCCGCCTTAGGAGACAAAGGCAATACAGCCTAGAGGGCCGGGAGGAGAGGGCTC
AGTTGGGTGCTGAGAAGGGGGGCTTCCAGCCGGGCTGGCAGCAGAGAGAGTGACAGATTGTGTAGTGAGCCAGAGTGGAGACCCGCTGTCACCTTCCAGA
GGCACAGAGAGGTGGAGACAGAGAAAGACAGACTGACAGAGACCATGTGGAAAAACAAGGAAAGAAGCTAAGACAGAAGACATCCAAGACAGGCTGTCCC
TTCCCAGAAACAACAGCTCCTGCCCAGGAGGAGCAAGCTCTGCCTGTCTTGCTCCTGTGACCCAAAACACTGCCACTGTTACAAAATAACACCCTAGCCA
TAGGCCACTCCTGGGAAGGGTCAGGCGGTGTGGCACAGCGAGGGTTAATGTCGTCTGCTGTCCCTGCCAGCCGCTTGCCTGGTTGGGTCCCCAGGGCTCC
CCACATATGTCACCCCCTCTCCTGCCAAACCCACTGCTTCCCAGCTCCTCCAGGCCCTCCCCCCACCCTCAAGGACAAGGCCCAGGCCCCTGTGTCTTCC
CTACACACCAACCTCCCTCCCCTCCCTCAACGATCTACCTCTCAGGCTATGGGGAAAGATTTGTGAATCATGATCTGAAAAAGTGAATGCCTATAAAATG
TAAAATAGCAGGAACACTCATTCTATTGTATCAGGTTTTGCTTGATTATCGGATTATAGCAAATAAAAGCCAGTGGAGATTTTTAAACAACAAAAAGAAA
GTAAAATAACAACAAACTATAAAGCCATAATCATCCTCCTTATCCCCAGGCCCTGGTCTTCCTGTCCTCCTTGCAGCAAAGACCCACACACAACTCCAAG
GGTTCTCCCTTTCACTGGGGCCAGAGGCCAGACAACCTGGGTTGGCCTCAGAGCTCTCCCCTGCCTCCACAATCATAATGCTTCAGATATATGTGTGTAT
GAAACTTCTTGCCACTTTTAAATCACCATAGGAGGTTGGGATGAGCACTTTATACAGTTCACCTAGCACTTTCCCATGCATTATTTCACCTGGGTGTCAC
TACTATAACAAAATAAAACTCAGCCAAGGTTAAGTGACTTATCCAAGGTCACCAGGACTTAGACCCATGTGTAGCTGCCCCCAAATTTAGTAGATGTAGT
TCTTCCCACCATTTCATGCGTTTATGTCCTCTTTGTCACAACTATGTTCTTTTTTAGCTACTCCCCTAAGGAGCAAAAGCTGAAATCCTAAGTGAAAACT
GGGGCAGGAGGCCCCAGAGTCCAGGATCCTGGGATGCCAGATGCAGAGGAGGAGGAGCAGCCCCCAGAGCACTCTTTCACCCTCCTCTCCCGTGGAACCT
TAGCTTGAACTGCGACGGGTTCAGGCGGTGTGCTTCAGGGATGGAGGTTGCAGAGCTTAAGTATCTGAGCAAAATGGCCTGAAAGGAGGGAGCCCTGCAA
GGGGTTTGGCTTCTTCCTGCATGCTCTATGCCATCCTCAAGGTTCCTTTCTGCTTCGGGGGTCTCTCTAGATTCTGCTTCTTTTTTCCTCAATGTCTTAC
TTTTTGGGATCTGGCCTCCCTGTTTCAGTAATAGTTCCTCATCTCCATCGTTCAGTTTATCACCTTTCCCCACCTTGTTCTCTTTGTCTCTGGTATTTTT
TGTTTCCTCCCAACTGTCTGCTCTCTGCTTACCCCGTGCCTATGTGGCCCCACCTTGCCTTGGGGCCTCCCTCAGGACTCTGTCTCATGGTGTCAGTATT
TCCCTGCCGCTGAATAGCTGTTTCCTCCACATATGTATTCATCCAAGTCTGTGTCTCCCTAGCAGCCTCCTTTTTTTTTTTTTTGACGGAGTCTTGCTCT
TGTCACCCAGGCTGGAGTGCAATGGCACAATTTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGTCTCAGCCTCTCGAGTAGCTGG
GATTACAGGCGCCCACCACCACGCCCAACTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTTA
GGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGTGCCCGGCCACAGCATCCTCTTTTAAAGCCTCTCCCCAAGTCTC
TATCTCTCCCATAGCTTGGGTCTCCAAGTCTTCCACAAAGCCTTGGCAACCTGGCAATTCTGTTTCCATTCTTTTTTTTTTTTTTTTTTTTAAATCTTTT
TACCTCCTTTGTGTCTCAATCTCCCCATGAGACTGTGTCTTCCCATTTCCCTATGTCTTTCCCATGTCTGTTACCCAATGACTCTGGTTTCTCATTTTTT
TCTCTCCCTGAGTCTCGGTATCTTCCCGTGTCTTTCTCGTCGTTTCCCTCCGCTTCCCCTGTCTCTGTTCATCTCCCCTTCTTTCTGTATCTCTCATCTC
CCCCATGGCACTCTCTCCTGAGTCTCTTGGTCTCCCAATTTCTTGGATGGGGTGGAGGGCAGGAGAGTGGAGGAGGTAGAATTGTTGTTGCTGGGGGCTC
ATTAGGTGGAGATTGGTTTTTAATCAGCACCATGGCAATGATGATGCAAGAACTGAGATGCCACCTGATCCCCTGCCCCCCAGCCCCCCTCCTCAAGCCT
CCTTTCCCCTCCAGCTCAGCCCATCTGCTGGCGCCTGGGCACCTGTCTGGGCCTGCCCAGGTGGGAGTTGGCACCTCCCAGACTCAGGGATGGGGGCAGG
TGGGGGAGCTTGGGGAGGAATTATGGGACCCCCTTAGGGAATGCTTCACCCTGGAGAAAGCCCAGAAAAGGTTGACCAGCAACAGGGAAATGGCAAGTCC
CTCCAGCCTGAAGGTGGGATGTGCTCCTACTAAGCTCTAGGCCCACTACACATATTATCTCCCTTAATTTCCATGGCAACCTAAGAAGCAGCTATAATCA
ACCCCATTTTACAGGAAAAGAGGTCCAGGCTCAAAAGGTTGTTATTTGTCCAAGGTCACACAGCTGACAGAGCCTTTTTCACTGTACCACACTACCTCTG
GAGTCCTCTCCAGTCATGGTTCTTTTGAATACTCTCAAAGGTTCAGAGAAGACATCCAACAGCTGAGTGGGGAGAGAACTTCAGACACTGAAACCCTCTA
TGCACTGTCTCTCTATGCACTCTGGTCCCTGTGCTGCCCCTCCTCAATCCTGCCACTCGGCAACACACACATACACACACACACTCACACTTACATTCAC
ATTCACACACACTTGCATATACATGCTGGAGGCTGCTGAGCTATTGATGGGAGCTTAATCAGTGCCCATTTGCATATAATTTTGTGTCTGGTTTTCTTAT
TGCTGATTTGATGCCCTCAAAACACACTCAGAGCCTGCCTAGGCTGCCCTGCCCTCCTCTCCCAGTGTCCTTCCAATCCTGGTTCTTCCTGTCTTGGCAC
TCCTCCACTCCTCTCCTTTTAGCCCTTACCTCTTTCTTCCTAAGAGCCCTCTAATTCCCAGTGGGTCAGGTTGGGCTGGCCAGCCTAGAAAAACTCCTTG
TGGGGTCTGTGTCCCAAATTTGATCCTGCTCCTCCCCTTGGTGATGGGTTAGGTAGGAAGATAGCGGGTGGGGTAAGAGGGTATGGGGGTGATTGAGTCC
CAGGGTGATGAGGGTAGGGGCCTGAACAGTTGCTACAGGCAGGCTGGCAAGCAGTGGGTACCAGCTTTATGAAGGATAAGAGCTTGAGGGCCAGGACCCT
AGGGTCCTCTTCTGCATTTTAGTGCTACCCACTTGCTCTTTTCTCGGTTTCCCTGTTAGTACCTTGAAGAGTCTCCCTCTCAGGAAAAAAGAGACACCAG
GAAGGGGCTGTCCAAGTCACGCTGGGACTCCGAATGGGGCCATGGCACTTAACCATAGCTTGCTGGGAGCCTCTGCCCTGCTGCCTCTGGTGTGGGAGAC
TGAGGGGGTTCATCTGTGGTCCTGCCCTGGCTCTCGCCCCAGCCCCACCCCTTCCCCAGCTCTCCATTTCTTGCTTATGAAATATGCATGGAGAACAGAT
GTCCCTGCTCCCCCGCTCCCCGCCCCCACCCAGGGCCAGCCCCCGCCCCCAGCTCCCGAGGGGTTCCCAGATCCCTCTGCCAATGGCTGCCTGGCCTGGC
TGTTTAATATTGATGAGGGGGGGGTGGGCCTGGGCCAGCCAATGGAGAGCTGGGGGTGTGTGTGTGTATCTCCATATATATACATAGGGCTGGGCCAGCT
CAGGTGTGTGTGTCTGAGGGTGTGTGTGTGAGTGTGGCTGGCCCCAGTACCTGGCCAAGCCCACCACTTCCACCTGGGCCCTACACCCCCACAATGTGTA
CCCCTCTTATCTGCCCTGGAGCCTGTACAGCCATGCCACGCTACCCCTGAGAGTCTAGAAAGCTGGTCACTAACTTTGCAGACGGATGAGCCTTGAGCAC
CCAGAGGAGACTGGGGCTGTCAACGCTGCCCCTTGTCCTGCCGGCTTGGATCCCCTGACAGGGTCCTTCTAGGTAAAGGGGAAACCATGGGCGGGGAGGG
ATGGGCGTGTCCCTCCCATTCTCTGGCTCAAGCCCCTTCCTAGAGCCTCCCTCTAGTTCTCTCCCTTGTGCGCTGTGTCTCTCCCTGTCTCCGCGTGTCC
CTCTTCTCCACTCCTCCCCTTCGACTCTTTGTGCCTATCTATCCTCAGTTGGGTTAGGGCTGGCAGAAGTGGGGTGGGAAGTCCTGTCCTGCAGGCTTGG
AATTGCTGCTCCCCTGATCCTTGGACCCTGGAACTTTGAGACCAGAAGTGGATTTGGGGGTGAGGACTTGATGGGTAAATAGAAGCTGCTGCCGGGACTG
GAACTGGGGAGGACAATGGGGCCAGGTGGAGATGAGACTGGGGCCAGATGGGGAGCACGGAGAGGGGAAGGAAGGGCATGGCAAAGTGATGAGGGATGAA
GGAACATAGGGACCGGGCAGAGAGAATTAGCCTGTGATAGATGTGATAAATGTGTTGGGAACTCCGCAGCTGAACTCCTGCTCCCAGCCCCAGCATGGGG
GGTGGGGAGTTGGGGGCACTAAACATGTACTGGGAGGTGCTGACTTTGGGGCCTCCCACACTATTGCCATCCCCCCATAGTTCATTTGAACCCCAGAATA
TGGAATGTGTTCTCAATTTCAGCACTAACCACCTTCTGTTTCCTGTTAAGATTGTGTGTGTACTTGTCATCAGATGTGGATGACTTTGCATCCCTCCAGA
GCTTCATAGCTGTTTGTTGGCTTGACTTGAACCTATCTTCTGTGTGGTGGGGTGGGGCAAGGCTTGGGAGGATCCTAACCCCTTTGAGAGTATCTATCAG
ACAGGAAAGCCAGGGCTGGGGAGGAAGGGGAGATAGTGATGGTGCAGGCACCTTGGTGCTTCTGTTTCTAATCATTCTTAGTTGAGCTGATGGTGAGTGG
CCCACTGTTCCCCTTTAACACTGCACACAAGCAAAGCCCTTTCCCCAGCTTTTCCCAGGCCATGTTTGTGCTGCCTTGCCCTGATCTCCTCTGGTCCTAG
GACAAGCAAACCTTAGCTGAGTCCCATAAGGGTAGCTCCAAAAATCTGTCTGTGTCCTCTGCAGGCCGTGTCTGAACCTTCCTTGGGCTATGGGAGAGTA
TGGGGGTAGAAGGTTGATTATGTTCCCTTTCCCCAATCTTCCTTGCCCAGCCTCCAAAAGGGCCAGGGAATGGCAAGGGCTGAAAATTTCGAAGACAGAG
GTGGAGGAAGAGGCTGGTTGTGCACAGTGGGGTGGTGGTGAGAAGAGATATCTTCCCCTGGTTTTAGTGGACAGGATCTCATATCTACAATGGTTCTGCT
GGGAAGGTTTGGGGAACTGGGAGGGGAGCTGTGCAGAGCTGGGGCAGCTGCGCAGAGCTCCATATGTCCTAGTCTATTCTACAATGGGCAATCTGTGTGT
TTATCCGCTCCTCCACCTCAGGCAGCAAGGGTGGAGAGGGGCCCTGAGAGGGAGGGGACCACAGGGCCAAGGCTTGTATTCTCCCCTCACAACTGGGAAG
CATCTAGAGTCATAGCTAACTTCTCTTGGGGCTGTGGCTGCAGTCTTGCTCAGATTTTTTCCTCCTTTTATTTATTCATTTAGATAAAAAACAGCATACA
ATTTATAATCTTAACCATTTTTAAGTGTACAATTCAGTAGTGTTCAGTATATTCACATTGTTGTGAAACAGATCTCTAGCAATTTTTCATCCTGCAAATG
TATAATTCTATACCCACTAAACAACAACTCCCCTTTACCCCCTCCCTCCAGCCCCTGGCAACGGCCATTCTACTTTCTGTTTCTATGAATTAGACTACTT
TAAATACCTCATATAAGTGGAGCTATACAGTATTTGTGTTGTTACTGGTTTATTTCACTTATCATCATATCCTCAAGGTTCATTCATGCTGTAGCATGTG
ACAGAACTTCCTTTTTAGGGCTGAATAATATTCCACTGTATGTATATAATACATTTTGTTTATCTGTTGTCTATTGATGGACATTTGGGTTGCTTCTACC
TCTTGGCTATTGTGAATAGTGCTGCTATGAACATGAGTGTGCAAATATCTCTTTGACACCCTACTTTATTTGTATATATACCCAGAGGTAGGATTCCTGG
AGCATATGGTAGTTCYATTTTTTATTTTTTGAGGAACATTTATACTGTTTTCCATAGTGGTTGCATCATTTTGCAATCCCAACAAGGCATAAGGGTTCCA
ATTTCTCCACATCCTTGCCAAGACTTATTTTTTGTTTGTTTGGTTTTTGTTTTTATAGTAGCCATCCTAATGGGTATGAAGTGATATTTCATAGTGGGTT
TGATTTGCATTTTAATGATTAGTGATGTTGAACATTTTTTCATATGCTTGTTGGCCATTTGTATAAAATCTTTGGAGAAATGTGTATTCTAGTCCTTTAC
CCATTTTTTTCTTAAAAAATGTTTATTTATATAAATTTATGGGGTACAAGTGCAATTTTGTTACATGCATAGATTGCATAATGGTCAAGTCAGGGCTCTT
AGGATGTCCATCACCTGAATAACATACACGGTACCCATTCTGTAATTTCTCATTTCACSCCCCTCCCAATCCCTCCTTTGCCCATTTTTAAATTGGGTTA
TTTGATTTTTTGCTGTTGTTGAGTTGTAGGATTTATTTATATGTTCTGGATATTAACCCCTTATCAGATATATAATTTGCAAATATTTTCTCCCATTCCA
TAGATTGCCTTTTCACTCTGTTGATTATGTTCGTCAATAAATTAAAGTCTGATGTGGTCCCGTTTTTTCTATTTTTGCTTTTTGTTGCCTGYGCTTTTGG
TGTCATTTCCAAGAAATCACTGCTGAGTCCAACATCATGAAGGTCTCTCCCTATGTTTTCTTCTAGGAGTTTTATGGTTTTAAGTCTTTAATCCTCTTGC
TCAGTTTTAACCTGCCTGGTGTATCCTTCTCATCACTTCTGTTCCTTTCCTGTTACTCGTTTTCTCTTCCCTTCTTACTACCTTTCGTCCTCCTCTTCCT
TTCACCCTGTCCACCTGCCTCTCTGTCTCTCGGCCTCTCCCCACCCCCCGACCCCCACCAGTTTCTGCTGTTCTTCCCTCACATTCACAGTTCCTTACCC
CTCCCAGCCCATCTCAAACCTGCTTTCCCACCTCTGAGCTGAGCATTCCCTCCTCCCTCCGCTGCTATCACTTCTCTCTTCTCTTTTTCAGGCTTCAGAC
TGGCACCCTGACCATGGAACCCTGAAGTGGCAGTGACTTCTAGAGCTCAGTGGCAGACCCCACGACCCTTCCTCCCCCTTCCTCCCCCTCCCACCACCAG
CTTTCAAGCTCCCAGAGGGAGGGGTGGGGAGGGGATCCTGATCTCACAGGGCAGGGGGCTTCCATCATGATGCTCAACTCAGACACCATGGAGCTGGACC
TGCCGCCCACCCACTCAGAGACTGAGTCGGGCTTCAGTGACTGTGGGGGCGGGGCGGGCCCTGATGGTGCCGGGCCTGGGGGTCCGGGAGGGGGCCAGGC
CCGAGGCCCAGAGCCGGGAGAGCCTGGCCGGAAAGACCTGCAGCATCTGAGCCGCGAGGAGCGCCGGCGCCGGCGCCGCGCCACAGCCAAGTACCGCACG
GCCCACGCCACGCGAGAACGCATCCGCGTGGAAGCCTTCAACCTGGCCTTCGCCGAGCTGCGCAAGCTGCTGCCTACGCTGCCCCCCGACAAGAAGCTCT
CCAAGATTGAGATTCTGCGCCTGGCCATCTGCTATATCTCCTACCTGAACCACGTGCTGGACGTCTGAACTCAGCCTGTCTCCCACCTCCCGGGCCTCTC
TGGGGCCCCTTTCCACCGCTCACTGCTTAGAAAGGCCGCATCCTCCCCGAGCCCTTATACCTTGGCATGGAGTCCCAAAGGCCCTGGGCACAGGCAGAGA
GCCCACCGGCTGGTCATGAGGGCCTCTTCCTTTCTCTGACCCAGGCACCTCGAGGGCTATTCTCCTGGGTTCCTTCCGGGGTTTATYGCTGAGGCCCAGC
TGTGCAGAATTGTTTGCTAGTGTGGTTGGTATGGAATCCTTGCTGGCTTTACTAAGCCAGCCACACTTGGAGTCTGCCCCCAAGCTCTCTCACTGAATGC
TGCCTCTTCTACCCCTATGTCCAAATTTTCAGCCACCACAGACCTCAGCTGTGTATCCTATCTGTTCTAGCTTCTCCTGCCCCTGGTGGGGATGGGCTGT
CAGAATTGCAAGGGAGGAAGGCTGGGGTTAGAGTGGGGAGTGGGCTTCTTCCTCCAAGATCTCAGTCTCTCAGTGCTTGGCAGAGGGGTGAGGCCCTGGG
GAGGCAGGGGTTGGTGCCCTGACTCCTGTGAGGGGAATCTCAGTAGCTGGGAATTATGGAAAAACTCTTCCTGTTTCTGTCCATCTTGTTCCTGTGGCTT
AGCACATACAGACCTCAGATCTTACTTGGTAGTGAGTGCCTTGCCCTCTTTGAGCTATTTGGCTACTTCCCTGTCCCTCTGACTCCTACTGTCCCAATTT
TCTCCCTCCCTGTGTGTCACTAGAGAAAAAAAAAAACAAAAACCTAGATTCCGGATTAGGGGATGACATCCCAAACAGCCCGGAGTATTTGCAGAAGGCT
CAGGCAACGAGTGGGCCACATCTCACTTCTGCTTCCTCATCTCAGCCCACTCTGAAAATGTGCAGCACCCTCACTGGTTCCTCCCCCCAACGCAAGGAGG
ATGCCCAATTGTTGCCCTCTRAAAATGCACAGTTCTCCTGGCCCTAGGACTTACTTATTACATTTTTTTCTCTTTCCTTGAGCTGCCTTTGGCAAGGGAA
GAGACCCCCAACTCTGCGCCCCTACTCCATGCTGCTGATCCCCACCTGCGCACTATAGCKCAGGGTCAGCAGTGGAATGAAGGGCCTTAGAACCTGCATA
GAAGAAATGAACTCACTGCATTTCTGTGCTCCCTCCTCCCTCGCACCAAACTCCTAGCTCTACAAGTATATTTATTTATTTATTTATTTATTCATCTATT
TATTTACTTATTTATTTATTTAWAAATATTGCTATTTATTGCCGAGTTGTGCACTTTGGGGTAGAGTGAGGGGCTCCCAGCAGCTCTAGCTGGGTCTCTC
TTGCTTCCTCCCTGCTTACGCCTTTCCTTTTCTTGCTCCTTCTTCAACTCCTGGTGTGTGTGAGCATGCCCTTTGCTTGCCACACCATATCCTTTCCCCA
GATCCACCTGTCCTGACACTCTAGTCCTCCAGGATAGTGCTCCTCCCCCAGCTCCAGGGCTCCTGGATGTCCTTCCTCAACTCCCTCCACCCCTAGACAA
TCCTACCTGGTCCCATCTGCCTCTTTTCTCTCCCCAGCCTGCCCTGTGACCCTTGCCTCTTCCTGATACTCCCAAGAGCAGGCCCCAGGGGTCTGTGTCA
CATATCTCTGTGTGATTCCTTCTGGTTGCATCCCCAATTTCATACAAAAAGAAAAATAAAAGTGACCTCGTTCTAGCACCAGGTATGGTTGTGGCTCATT
CAATTGGGTTAGGAAGCTGGCCTGCAGGTTATGGTAGGGTGGGCATTGAGGGTCCTAGGCTTCGTAGGCTCTTCTGATGGGGTCAGGAGAGCTCAGTTTG
GGGAACAAATGAAGACAGAGAAAAGGGGCCACAGGGAAAAGAGGTGCAGGGGAGAGTATAACATACAGGTCCAAGATCTCCTCACCAAAATCTGGGTGCC
AGATACTCCCTTCTTGGCACTAATTTAGTGACACTATCTGACTTCTCTGATGTTGTGCTTCCGCTCCTGCTCTCTATGGCCTGAGAAGGAGGTGAATATT
TCGGTGGAACCCAAGTTAAACATGTGTCTGTGGGTCCATGCTGCTGGGAAAAGCTATGGTATGAAACTGAGACATTGCCTTCCCCTTTATTGTCTCTAGG
CTGGGTCAAAATTCCCTGCAATCTCAGTTCTTGGCCTATTTTGTGTTCCCCAGCCTTAGGATACTGGGGAAAACAGATGGCAGGCCTGGGACTCAGAGAA
GAATATGGACAGGGATAAAAAAAAAAAAAGAGTGCTGAAGGGACCCTCAAATGAATTTATAGATGGGGACACTAAAGCTCAGAGAAGGGTAGGGTCTTAC
CCAAGGCCACACAGCTAACTGGGGGCACAACTAAGGCCCAAATCCAGGTTCTTTCTACCATATGCTGCCAACTCCCCTCTGCCTCCCTAAAATGACCCAG
GCTGACAGTTAGCCCTCTTTTGGACCCCATATTTTCATAGGTGCATTGATAAACTAGAGAGGATTTAGGGTTGTGTGGCGAAGAAACCAAAAGGTCTGGA
GACCACTTTATAGAAGAAATAGTTGAAAAACTGAGGATATGTGTCTTGATAAGAGTAGACTTGGGGGTAATATGACACCCATCTTTAAATATTGAAAGAA
GAATCAAAAATGGATATTCTGTGGGGCCCCAGTAGGCCGAACAAAACCCGTGAGTAGAAGTTAGAAGAAAGCAGATTTTAATTTGAAGAAAAATTTTGCA
ACACCTGGAGCTGTCCAGCAATGGCACTGACTGCCTCAAGAGGAGAACTCCAAATAGAGAAGCTGGAGAGTCAACCACACGCAGAGAAATCATAGAGCAC
ATTGCTGCCTCAGATGGAACACTGGCTAGGTTCATTAGAAGATCCTCTCCAAACTTAAGGTCATACGAGAAGGCTGAAGGCAAACAGCAGGAGGGAAATG
CAGAGACAACTTTCAGTCCCTGAAATATTTTCTTTTTTCTTTTTATCTTTTTGAGACAGAGTCTTGCTCTATTGCCCAGGCTGGAGTGCAGTGGCGGGAT
CTTGGCCCACTGCAACATCCACCTCCCCATTCAAGCCATTCTCGTGGTTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCTGTCATGCCCGGCTAA
TTTTTGTGTTTTTAGTAGAGATGGGTTTTCGCCATGTTGGTCAGACTGGTCTCTAACTCCTGGCCTGAAGTGATCCTGCTGCCTTGGCCTCCTAAAATAC
TGGGATTACAGGCATGAATCACCATGCCCGGCTATGGGTTTTCATCTTTGATGAACAAAGAATGACATAAGCAGCATGAAGGGCTTGAGTTAGACCTAGG
GAGGAGCTTCCATACAGGAGGACTTGACATCTTCCCCTTCCCATGTGAGTTAAATGACATGTGCTCTGCCCAGAGCCTGGCAAAAGGGAAGGCTGAACTG
AGATCAGGGAGAACTTCAGGACTCCAAAGGGCCAGAGTTGGACGGGAACACAGAAATCACTGAATCCAACAACTTTATTTCAAAGGCAGGTAAACTACTG
TCCAGACAGGTGACGTGACTCACCCATGATGATGGCCTGGGATTAGAAGCCAAGTCTTCCATTCCTGGCCCTGAGAGCTTTGTGCTTCTCTGTGCTCAGC
AGCCACAGTCCTCTGGGCTCCCTGCCTCCCTCTCTTGTCTCTTTGCCTGGGCTGGAGAGCAGAAGGGCTTAGGGGGCCCCTCCCCTCAGGGATCCCTGAG
GGCCTGGAGGTGGTGAGAGGGGGAAGCTGCAGCTGTTCTACTGCTAGCTCCGAATTTCTTCAGATAATCAATTGGCCTCGCTGCCGCTGTCGCTCTTGTT
GCTCTTCTCACTCTGGGAAGGACAGGAGAAGGAGGTGGAGAGTGGGAAGAGGAGGGAGCAGGGGACCAGGCACTGGGGGAGGAGGGAGAGGGCAGGGAGA
TGGAAGTCCCTGGGCTGAGGGGAAAGTGAAAGCTTTGGGGCTAGCAGATAGGGAGGATGGGGAAAAGGGATTGTTAGAAGAGGATCTGCTCTGCATCCCT
CATTCCACATCCCTCTAAACCCAACTCGTGGGTGGTGGGGTGGGGGAGGGGCAGTTAGGAGGACCCCAGAATGGGACTCTTGCACTTCACCCCTGCTTCC
TTACTCCCCTTGCCAAGTATCCCATGCATGGCCATAGCTCCCCCAGCTGTCCATGCCCTCTTCCAGTCCTAGTGACCACAGGTGCCTGACCCTCCAGTCC
TGTCTTCATCAACGCCCTGTCCTGTAACTCAGCAAACCCATCACCAGTGACAGAGCAGAAGTCAAGGCCCCAGGGGCTGGGTGGGGGTTGCCTAAAATCT
CTCTCTCTCTCTCTCTCTCTCTCTCTCTCACACACACACACACACACACGCGCACACACACACACTGTCATAGGCTGCCAGGCATATGGCCTCTTTGTGC
CCACACAATGGAGGCCCTGTCTGTGCCCTTTCCCAAGTCTGGGCACAGTGTGGAGGGTGCTCCGCTTCCTCATTCCACCCACCTCCCTTCCCTCTCCACC
CCCAGTGCAGGCCCTGTCTTCTTTGCCTTTGCTTCTTCCTCTTTCTGGAAAGCCCTTTCTACCACCCAGTTCCTTTATCTTTCTGCTTTCTTCTTGTGTT
CTTTCCTGAGCTTTTGACCTCTCATTGGATGAGGATTATGGGCAGAAGAAAGAGGCTCACAGTGCTGGGATGTCAGCGCAGGGAGGAGAAGGGAGCAAGC
AGAGATGAGCCTGAAAGGCTGAGAGGGAGTGGAAGAAGGGAGGCAGTGGTGGCAGTGCAGCAACACTGTGCTAGAGGGGAGAAAGCCCACACCCGGCAGC
CAGAGGTCCCGTGTCCCTGCTCTGTCTCCACCTTTCCCCTTTGTGCCACAGTGAGCAAACCGCATGCCCTCCCTGAGCGACAGCTTTTTCATATGGAAAG
CAGGAAAGACAACAAGACCCACCGGGGTGTGATGAGGATTAAATGAGATCATCGTGAAAGTGTTCAACACCGGAAACGCTCATCAGATGCTATCTCAGGG
GCAGTAAGTAGCAGGGTCAACTGTACTGTCATACAGTTTGTGCACTTTACAAAGCACCAGGCTAAGGGCAGTGCAGGGGCCTGACACCCAACCCCACTTG
TACTAGACCAGCTGTGCACCAGGATGCAAGCATCCCCTGAGAGGTGGCCCTGGAACTGAGCCCCTCATGTGGGTTCCTGAGCATTGGTCAGGAGTCCAGA
TGAAAACTCCGAAGTCCTGACCACCTTGGGAACCAAGACAGAATGGAAAGGGACAAGAGGCTAAGGGGAATGTCTCTCCCTGAGGGGGAAATTCCTGAGC
TTAGTCTTCTCTGAGCAAATAGACAATCCATGAGATCTACTAAACTAAGGATGGAGAAACTGCAGCTGAGGAGAAGAAGGGGGCTGAAGAAGCAGAAAAA
AAAGAGGGAGACATGGATCGAGGGTGTGATCAGAGCAATGTGTTGGTCTGAGGACCCTTTTCTGGTTCCCTCGTCCTCCATTCCCTCCCTTCAGCAAGTT
GAAGGCTGATTTGATTATTGCTTGTTGAACACTGTCCCCTGCTGGCTACTAGCAGAAACATTTTCCCTCTTCCCTATCCCTAGCTAGGAGCTGCTGAGAG
CCTGAAAAAGAGAAGAAATGACCTGACTGGGGACAAAGGACGAAGGAATTGCAATTCTGCAATCTGGAATTCTCTACTTGTCAGAGATTTCTGGAAGGTG
AAGGAGGCTTGAAGGCTGACTAGGGGTAAACAGAGTTTAGAATTCATAGGTGGTTCATTTACATATATTATGGCCTATAATTTTCAGATTGATTTTTTTC
TGGTCTGTGTCTGTTTCATGTATTGTGTGTCTGTGTTATGTGTGTGTTCTGTATCTGGGCGTGCTTACCTGATTCTGTGGTTTTTGAACACGTGTATATC
TGTGTACTTTTTTGTGTGTGTGCTCTTTTTAATATAGGAGTCTGAGTGACAGCTGGCAGGTATGGAGCAAGGAGAGGGAGCTGTCGAATTTCCTCTTTCC
TAGAAGCCCGTTCTCCCCTTGAAGTTTTACCTTTGTCTCCCAGCTCCATGAGCTATAACCTATGGCTATTTATAGGTTACAGGTTTTGTTCTGGCTCCTG
CCCCTCTTTGGACATCCCAAGCTCAGAGCCTTGATTCGCTCTAACCTGGGACTCTTGGGCCTCCCAAGCAGGGTCTCCAGTGTGGTTCCCAAGTGAGAAT
CTCTACTGTCTATGTCCCTTTTATCCTTTCTAGCATTAAACTCCAGCCTCCTTCTTTTATAAGCTTGTAGCTACCTCTTTCATTGGTTGATTTCAATTTA
TTCAGTGCAGCATGCCTTTATGGAATAGCCAATGTATACCGGGCACTGTTCTGGATTCTGAAATACAGGATCAGGCCCTCCCCACCACCTACTTGGGAGG
GAGTATGGGAGACAGGCATGTAAACATATCAGTTTCCCAACAGTGAGAGGCATCTGCAAGGAAGCGAGTGATTACCTGAGAGAGGGTGTTGGTGAGGAAG
GCAGCCGGTAAACTCTGAGCTGGGTTTTGAAGACCATGAGATACGTACAGTGAATTCTGTGGTGTGCTCCACTCACTTCTCCAGCTGTGGAAGTGTTGAC
TCACAGCTGAGTCCCTCTCCAGGAATTGCCTTTGGAGGAAGAAAGCCGCCTTGCCTGAGGTGTTGCTCTTTCCCTAGGGCAATGACTGGTTGATGTGGGG
TTACAAAGTTATCCCAGCTTGAGAGCCCCCATGGGATGGACAGAAGCCTCTGTTGCCATTGCATTGCTTTTCAGTTTCTCTCTCGGCTTATTGCAGCTTC
CCTCACACCTCACAGGTGTTCTCAAGAACTCTCCTGCTGGCACTCTCCTGTATACGATCTCAGAGTTCAGGAATCCACTTCCCAGGGAACCCCACCTACA
AAGGAAAGGCACTGTAGGTATGAAGGCATGGAACCCTGAGAAGCTCTGGTGAGCAAGAGCACACTATTAGCAGTGTGGTATTGTTGGGACATTAAGTGCA
AGGGGCTGGTGGGACAGGAAAGTGACGGAATGGTCTGGAGAGGTAAGCAGGGGCCAGGTCAGGAGAAGCATAATAGGGAGTGTGTGCTTGGCCACACAGT
GATGGGAAACCAATGAACATTCTCTAGTGGGGTAGATAAACACTATCATCAGATGTACACTTTAGAAATATCACTTTCAGAACATTTCTTTCTTTCTTTC
TTTCTTTCTTTCTTTTTTTTTTTTTTAAGAGAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCGGTTCACTGTAACCTCTGCCTCT
GGGTTCAAGTCATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTATAGGTGTGCACCAACACACCCGGCTAATTTTTTATTTATTTATTTTTTGAGAT
GGAGTCTTGCTCTGTCGCCAGGCTGAAGTACAGTGGGGTGATCTTGGCTCACTGCAATCACCGTCTCCTGGGTTCAAGCAATTCCCCTGCCTCAGCCTCT
CAAGTAGCTGGGAGCACAGGCGGGCACCACCACGCCCGACTAATTTTTTGTACTTTAGTAGAGACGGGGTTTCACCCTGTTGGGCCAGGCTGGTCTCGAT
CTCCTGACCTCAAATGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTAGAGGTGAGAGCCACCACGCCTGGCCACTT


SNP Information

Context             (SEQ ID NO:33907):
TCTGTGCTCCCTCCTCCCTCGCACCAAACTCCTAGCTCTACAAGTATATTTATTTATTTATTTATTTATTCATCTATTTATTTACTTATTTATTTATTTA
W
AAATATTGCTATTTATTGCCGAGTTGTGCACTTTGGGGTAGAGTGAGGGGCTCCCAGCAGCTCTAGCTGGGTCTCTCTTGCTTCCTCCCTGCTTACGCCT
Celera SNP ID:            hCV27064774
SNP Position Genomic:     11323
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,5)   total(A,2|-,5|T,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:33908):
GGCACAGGCAGAGAGCCCACCGGCTGGTCATGAGGGCCTCTTCCTTTCTCTGACCCAGGCACCTCGAGGGCTATTCTCCTGGGTTCCTTCCGGGGTTTAT
Y
GCTGAGGCCCAGCTGTGCAGAATTGTTTGCTAGTGTGGTTGGTATGGAATCCTTGCTGGCTTTACTAAGCCAGCCACACTTGGAGTCTGCCCCCAAGCTC
Celera SNP ID:            hCV11628259
SNP Position Genomic:     10287
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:33909):
ATAGTGCTGCTATGAACATGAGTGTGCAAATATCTCTTTGACACCCTACTTTATTTGTATATATACCCAGAGGTAGGATTCCTGGAGCATATGGTAGTTC
Y
ATTTTTTATTTTTTGAGGAACATTTATACTGTTTTCCATAGTGGTTGCATCATTTTGCAATCCCAACAAGGCATAAGGGTTCCAATTTCTCCACATCCTT
Celera SNP ID:            hCV27064775
SNP Position Genomic:     8416
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33910):
TATAATTCTATACCCACTAAACAACAACTCCCCTTTACCCCCTCCCTCCAGCCCCTGGCAACGGCCATTCTACTTTCTGTTTCTATGAATTAGACTACTT
T
AAATACCTCATATAAGTGGAGCTATACAGTATTTGTGTTGTTACTGGTTTATTTCACTTATCATCATATCCTCAAGGTTCATTCATGCTGTAGCATGTGA
Celera SNP ID:            hCV27064776
SNP Position Genomic:     8101
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33911):
ACATTTTTTTCTCTTTCCTTGAGCTGCCTTTGGCAAGGGAAGAGACCCCCAACTCTGCGCCCCTACTCCATGCTGCTGATCCCCACCTGCGCACTATAGC
K
CAGGGTCAGCAGTGGAATGAAGGGCCTTAGAACCTGCATAGAAGAAATGAACTCACTGCATTTCTGTGCTCCCTCCTCCCTCGCACCAAACTCCTAGCTC
Celera SNP ID:            hCV1859711
SNP Position Genomic:     11160
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:33912):
CCCATTCCATAGATTGCCTTTTCACTCTGTTGATTATGTTCGTCAATAAATTAAAGTCTGATGTGGTCCCGTTTTTTCTATTTTTGCTTTTTGTTGCCTG
Y
GCTTTTGGTGTCATTTCCAAGAAATCACTGCTGAGTCCAACATCATGAAGGTCTCTCCCTATGTTTTCTTCTAGGAGTTTTATGGTTTTAAGTCTTTAAT
Celera SNP ID:            hCV297526
SNP Position Genomic:     9092
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33913):
TCTCACTTCTGCTTCCTCATCTCAGCCCACTCTGAAAATGTGCAGCACCCTCACTGGTTCCTCCCCCCAACGCAAGGAGGATGCCCAATTGTTGCCCTCT
R
AAAATGCACAGTTCTCCTGGCCCTAGGACTTACTTATTACATTTTTTTCTCTTTCCTTGAGCTGCCTTTGGCAAGGGAAGAGACCCCCAACTCTGCGCCC
Celera SNP ID:            hCV1859712
SNP Position Genomic:     11021
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:33914):
TGTTACATGCATAGATTGCATAATGGTCAAGTCAGGGCTCTTAGGATGTCCATCACCTGAATAACATACACGGTACCCATTCTGTAATTTCTCATTTCAC
S
CCCCTCCCAATCCCTCCTTTGCCCATTTTTAAATTGGGTTATTTGATTTTTTGCTGTTGTTGAGTTGTAGGATTTATTTATATGTTCTGGATATTAACCC
Celera SNP ID:            hCV1859713
SNP Position Genomic:     8859
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33915):
TAACCCAGGGACAGCAGGAATATGGGGAAACTGTGGCATAACACCATAGAAAAGACCCTGTCACCCAGCATCCCATTCCCAAAAAAAGTTTGGCAGGAAT
Y
GAAGTTAAACTGGGGAAGCAGGGACCCCTGGAAGGTTGGGGTCCCAATGGGCCTCAGATTGGATTTTTATTCCTTCCTGAATTCAAACTCCAAAGCTAGA
Celera SNP ID:            hCV1859716
SNP Position Genomic:     1021
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 TFBS


Gene Number:                 153
Celera Gene:                 hCG20905 - 84000313398873
Gene Symbol:                 F13A1
Protein Name:                coagulation factor XIII, A1 polypeptide;F13A
Celera Genomic Axis:         GA_x5YUV32VT9V(5761996..5951813)
Chromosome:                  Chr6
OMIM number:                 134570
OMIM Information:            FACTOR XIII, A1 SUBUNIT;F13A1


Genomic Sequence (SEQ ID NO:12313):
ACAGATGTGCACACACTCACAGACACATACACTCACATAGACAATGCATACACACAGAGGCATACATGCTCAGAAATACCCATACACACAGATACTCAGA
CACACTCAGTCGCTCACACAGATGTGTGCACAGTCACATGCAGACAGACATATACACTCACAAATATATAGCCAGACACACACAGACACACATATTCACA
GGGAGTTGTTTAATGGAAACAGAGTTTCAGTTTTGCAAGACAGAAACATTCTGGAGATGGGTCATACAATACCATGAATAGCCTTAACACTACTGAATTG
TAAACTGAAAAATGGTTAAGATTATAAATTTTATGTGTATTTTACCACAATTAAAATTTTTTTTAAGACAGAGATATTTACTGTAAGAAGGTGGGTACAT
TAGTTAAATCTTTCTTTCCTAAGGCGAGAACAGCTTTCTTCCATTTGCCTGCCATGAGGTGAGGCAGCCCCCAGCAATCCATCACTGCTCCTCGGGAAGG
TAGATTACAGGTGATCGTAGATCCCTGGCAAGAGTGGGCTATGCCCAGGGAAGCCAAAGCAAAGAGAAAACTCCTGCCATCTGCACCTGTCCCTGGCATG
GGTTTTCATCTTTCCTGAAAGAAGAAGGAAAAGAGGCTGTGGGAGACATGGTCCTGTCTTAGATCCCACGCCCTATTGTGGTGGCAACTGCGATGATGCT
TTATAAATTCCTTTTAAAATGTCATTGCCAGACTTTGTGAAAACGCTCGTGAGGCTTTGAAAAATATGTGAATGGATACAGAGGGCCGCTTGCCTTCCCC
CACTGCTCACTACTGTGGCTAGAACCTGACTACAAACTGCCCACCCAGCCTCCCTTCCATCCTCTCCCCCAGGACACTTCCATCTGGAGTGGAAAGTTTT
CTCCAGCTCCTACAGGATGAAGGGCAGTGCAGGAGAAAGACTCTCCCAAGAGACGAACTTGGGTCATTCATGTCAGAGGGTCTGGCATCTTTGAACAAGG
CCAGTTGTTATTTATGTATCTACTCACCTCCCTCTGGAATTACATCTATAACCAACAAAATCCAGGTCTTGTTCAGCTGGAAAAAACCAGCAGCGTCCAG
ACATGACTGGGTTTTTTGTTTGTTTGTTTGAGATGTGAAGTTTTGCATGTAAATCRAATAGAGTTTGCCAGAAAATTCATTGCCTGAACAAATATGGTCT
GCTCCTTGGGTATTGCCAAGTAGGAGAAAGATGGTTTGTCTGGAGAGACTGCAGAGAAAAGTGTCAATACCATAGAAATGAAAACTCAGAATTAAAGGAT
CAAGGTAAGGGGATCCGGAATCCCTCCTCCCACGTATTTTCTGTTTACTCACAACTCCCAAAGTTTACTACATATTTCTGAGAGACGCCAGGATCCCAGA
GTGATGTGTTTAGGAATTTTTACCCTGCTTCTTGGGGAGGCAATGGGGTGAGCCCTTCAGCTTCAGAAGAGTGAGAAGGTATGCCCAGGCCCGTGCAGCC
AGAGGGAGTTCACGTCTCCTTGGAGGTCTCATGCTGAGCTGGTAAGGCCAAGAAAGTAGGGGCAGAACTGGATTACCCTTGTGACGTTCTCATTGGAGTC
TCCTCGTGCTCCAGGCCTATTGACATCTCATGTGAGGGACTGGCCATGCCATGATGAAAGAGCACAGTGTGTTGTGGCAGTCCTGGAACTGTTTGCCCAG
AGAGCCTTTCCTCACCCTTTCCCTGTATGGATGCAGTAAAGAGTTAACATAGCAAACCTGAAACTGGCTTAGAAAGCCCTACTTGCAAGCTTGGCCCTTG
TCTGGCATCTGGGAACTTGGACTTCAGGAGTCTTCCCACTGTTCCCTAACTGACAAGTGGGGCTGGCTGGGCCTAAACTGTACAAAAATTGTGGCTCATG
CTTAACACCTGCTTCCTTCAGGGAGTCTGGAAAATGGCTATGAGCTAGGTAGAGGGTACCTATGTGACCAGCCCCCCATAAACACCCTGAGCACTGAGCC
TCTGGTGAGCATCCCTGGCAGATGACATTATATCAGTGTTGTCACAACTCATTGCCAGGGTTGGTAGGCACAGCCCATGTGCCTTGATTAGGACAGGACC
TTTGGGAACTTCTGCCTGGTCCTCCAGACTTTGCCCAAGTGCCTTTTCTCTGCTGATTTGGATTTGTATCTTTTCGTCATGATTTATCGTGTAGTATATA
TGATATATGTACATTTGTATCTGATCATAGCTACGTGGGTGGCCGAGTCTGGTGAGTCCTCCTAGTGAATCACAGAACCTGGGGGTAGCCTTGGGGCCCC
AGCACAGGAGTGGTGGGGCTAACTTTGCAGGCGGTATTTTCCAGAGTCCTTTGTCAACTGATTCTAGTGGAGTTCAGCAAAACGGCAGACAAGGGAGGGA
GAGGGAGCGGGAAGAAAGGGACAAGCTAGGATCATTCTTCCCTCCCTCTTGACCTCAGACAGTGTTTCTTGGAATTATGGGATCTAAAGCTCCCACCAGA
CAGGACCACACGGTTCCAGTGCCTGACCTACCCTCAGTCCTCCCGCTACAACGACACCAACTCCTCTCTGCTGTTGCTAATTGTGGAGTTGATTCACCTT
CTCGTGTTTGGTTTCTTGTCTCTTCTCTCACCTGTGTAACCAATCCCCTGCCTTAAATTCCTTCTTTTAGAAAGACCTAAAGTGGTTTTTGTTTTCCTGG
ATGAACCCCGTCTGTTACATGCCTTAAATATTTACATGGCTCCACTTCCATGCCAGGCAGGGGGCATTCAGAAATAAAAGACACCATCCCATCCTTAAGG
ACCTCAGAGCCTATGCACCTGTGGAAGTTGCATCCCTAGCACAGTTCAAGATTCACTGTGTGACCAGAAACCTTTGTTCTGATGTCTCAGCCATATAACC
ATGAGGAATACCCTGTAAAATGAATGGGCTTCAACCGCATTCTAGGGCTTGGTGGCTTAGACACATTTTTATCGACTTTGTTTAGCACAAGGAAAGCCAT
TGCATTTATGATGCTCTTGAGGTTAGTGGTTTGGGGGAGTCAGAAAGCCAACCACTGTGTGTGTATGTTCACAAAGCCAATAATTAGTCTAAGGCCAAAA
GTGACACCGTGGAGGTGGTTGTGAGGGTGACAATCCTGTTCTGAATGCACAACTCAACCCCAAGTCCCAGGGGTACCTGGCATCTGCGTAACCTCATCTG
AAGGGTGCAAGGGTGGCTGCTCATCCTCCAACCCCACATGGATGAGGGTATCTTGGAATTCTAGACACTCAGATTTGATGTTTGCCAGGAGAACTACCAG
AATATGATCGTTAAGGATTGGGGGAGGGTTTAAAAAATACTGAGGAGACCTGAAATTGTATGAATGCTGAGGGGAAGCAGTGCTAGACATCTTTAGGGTC
TTTCTCTAGCACTCAGCAAGGGATGTGGCAAAGACGGCCTTTGGATAGTTAAGTGGTCAGCAGCCTCTCTCCAGGGAACTCTGGCTGGAGTCCCTACCTT
TTTGTACTCTAGTGCAGGTACAGCCAAGGAAACAGAAAATGATCATGCAGTGTGAGGAGCACTACAACAAGGCAAACTCCTTGCAAGACAACTGGGGAGT
CAGTGGAGGGAGACTGGGCAGGGAAGAAAGATGGCAGAGGAAGATGATAGGGAAGAAAGATGGAAGCCAAATGGCAGAAGCTTAGTGATGAAGAGGAGGA
GAGGAGAAACAACAGTGGAAGGCAGGGAGGGTAGATTGGTGTTGGGGGAAGGTTTTTTAAAAATACTGGAGACCTCAAATTGTATGGATGCTGAGGGAAA
GAGCAGTGCTAGAGGCAGGGTCCAGCTTGTATAGGCCTTGTCAGTTTCAGCTTGCAATTTATCCAAAAAGCAAAGAGAAGTAGCCATATAAGGGCTTTGT
GCAAATAATTTGATTTCRGATTTTAGCCCTGAAATGCTCATTCTGACTGCACTGTAGAGAATGGACTGGAAAGGGGTACATACACGGGTAGATTCAAGGG
CTGTTTAAGAGGTAGGATAGAAAATATTTGCTCAAGGATCGGATTTGATGATTGAGGGAGAGAAACAAGGAAGCCTSAAGAATGATGCCCATGTGTCTGG
TGTACCACCTGCGTGCAAAGTGATGGTATTCATTGAGGTAGGGAACTCCTGAGATGCACCAGGTTTTCCAGGAAAGTGATACATCTCATGTTAGACATGA
TGAGCGTGTGTTGTCACTGGGATGTGACAAATGAGGATAGCCAGTAGGCACTTAGATACGGGAATCTGCAATTCTGGAAAAGATCTTGGCTAAAGACCCA
GATTTGGGAGGTGTCAGGATATAGATGGAATTTGAAAACTATGGGAGTTCCTCAGACAATCAAGGAATATTGCGCTGCACTGGAGGAAACCACAGAGTGT
TCAATGTCAAGGAGGCCTAGGAAAAATACCTTCAAAGACAGAGTTCAATGCTTCCAAAAGGTCAGGTAAATAAGAACTGAATCCTGTCTTTTGGCCTGAG
CACAGGCCTTGGAGACCGTGACCTCCACTTTCAGTAGAATGATGAGGCGGAAGCCAGATGGCAGATACTTAGTGATGAAGGGGAGGAGAGGAGGAGTAAC
AGCAGGAGTGGGGACATAGGTTGGGGGAGGTTTTTAAAAAAATACTGAAGAGACCTGAAATTGCATGAATGCTGAGAAGACCCACTATTAGCAAGCAGGA
GCTTGAAGCTGCAAGAGGAAGAGTACRTAAGAGTCACAGCAAAGCCCCGGAGAACAAGGCAACGCAGAAGCCTGGTTTGGAGATGCAGAGGGAGGAGGGA
CCTTTCCAACTTCAGTAACAAGAAGAAAGAGGAAAAGATAGATAAGGTTGCAGGCAGGTTCATAGATTGGTAGCAGAAAATTGAGAGAATTTCTAACCAA
TGGCATCTTTTTTTTTCTTCTTTATAACATTGGGAGATTGAGTGGCAGGGTCAGAAATTTGAAGACAGTAAAGAAGGTTAGAAATAGCCATGTTTGACTG
GGTGCGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAAGCCAAGGAGGGTGGATCACCTGAGGTCAGAAGTTCGAGACCAGCCTGGCCAACATGGTAA
AGCCCCATCTCTACTAAAAATACAAAAATTAGGCGGGCATGGTGGCATGCACCTGTAGTTCCAGCTACTTGGGAGGCTGAGGCAGAAGAAYCACTTGAAC
CCGGGAGGTGGAGGTTGCACTCCAGCCTTTGCAACAGAGCAAGACTTCATCTGAAAGATAGAAAGATGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAGTA
AAAGAAAAAAATTAAAATTTTAGGGGGAAAATTTTCTAATTTTTGAACATGCACTAAAATGATTTTCAGAGAAAACCAAGTGTTATTTTCTAATCTGCAT
GGCATTATTAAAGATGTTTACTCATCTTCCTTGGGGCTAGGCATCCCATTCCTGCAGGAAGTCTTGTGGTTAGGCGGTGGCTGTGGCTCTGGGATGATTC
AGGAATGCAGACCATGCCTTATTTGCACAGGAGGGACACGTTGCTCTCACTGCATGCATGGTCACAACTGTCTGTGTGACCTGTCTGTGGGAGGGCAGAC
CCCCCTCCTGCCAAGCCACAGTAGCAGCTGACCTGCCAGGCAAAAGCATTCCTTTGTAAAGGAAACCCTCCCAGACCCTCTGACCAAAGGGGACGGGTGG
GGACTTCCTGGCACTGCAGGGCCCCTTGCCTGGTACTCCCAGCAACTGGTTGCGGTGGGGAGGGCAGATCTAGGGRTGGGGATGGGGAGGAGAAGTGGGA
ATGGGAAATTGGGAGTCAGAGGGGCAAGTGGGAGAGAAGGGCGCACCTGCCGGGATAACAGGCCAGATGAAGTAAATAGAAAATCCTCTGAGCTCCCCTA
CTGGCTCCAGCTGTGGAGAAGGGGGAGGAGAAAACCCTGTGGGACAGGGGAGGAGGGTGAGGGCTCCTCTTAGGAAGTTATTTAAGAGCCAACTGTCTTG
TCTTTCCCGAGTCCGTTTGAGGAAGTCCCCGAGGCGCACAGAGCAAGCCCACGCGAGGGCACCTCTGGASGGGAGCGCCTGCAGGTAAGCCACCGMCCCT
GCACCCTATGAGCCAGGGMCCGCTGCGTCCACCTTCTGCACCTCGGTTTCCTGGTTGAACCAGCAAGCGGCTTGCTCTGGGCCCTGTGGCGCCGGTCACA
GGCAGCTCCACTTGCCCAATCCTGGCTTCCCGCCCCCAACTCCGCACCTGCCCAGCCCAGCTTCTAAGCGGGACTTCTCTCAGGCTCTCGAGGCAGCTCT
CCCGAAGCCGTTGCTTGCTTAGAATGCCACCAAATGGGGATGGGGGAGTTGGAGGTGCTTCCCCAAGGGACGAGCCCCCTTTCCTCAGGGAGCAGATTAT
GGAGCTGGAACACAAAAGGTGGAGGGAGTGGGGCCAAGTGAGAACAGCCTGCTAGACTGGAACCCCGCCGGCTTGGCTCCCCACTCCTGCGCGCCTCCCC
ACTCCTGCGCATCGCCTGCCTCCRTCCCAATTTGGAGCTGAACTCGAGCCACTTCTCCTCCTTAGACCCGCCCAGAAGCGAGGGCTCCTGCCCGCCGCAC
TCACCCAGCCAGGCGTGCACCTGGGGCTCCCCCCTTCTCCCCCTTAGCACTGTGTCTCCCGACAGCGYGCCACACTGTTCTGCACCCCTGGCAATGCCRC
AGCCTACCTTCGGTATTTCTCACTAGAGGATGGCTCTCGCAGCCTTCTCCCTATCATTAACCCTTTTTCGCTCTTCTCCCTCCCTTCCCCCSTCAGCTCA
CCAATGACTGTAAATATATTTATCTATACTTATGGATACCCATTCACACCTTATGCATCCAAACACTCCTGTCTCCTTCTCAGACCAGACACCTTAGGCG
TGGTTGTCTTTTCTCCAGCATGTTGTTAGTGCTCCACATGTCTCTGGAACCATCTCTCTACTCTGGTGGCCTCTATAATGGGGACTCTTCACCTCTTGKG
GGTGTGCMTGGTTTTTGAAAATAGCCAAGTCTCCAGGAGTCATGACTGGGTAATCCAGGGGATCAAGGGGGAACCTTCACTGGGCCCAGAAACAAAGTCC
CCCTTCATTTGGTCATTTGGTCAACAAGTACTTACTGGGCACTGACCGTCAGGTGTGTGTTGTTTAAACTGGCTCAGTGCCTGCACAAGCTCCAAGGGAA
GGGGAAGCAGGCTTGGGGAATGGGAAATGTTGGCAACCCTGACTTCTTAAGCCTATTGATAGCCCTATTGAAAATTGCATGCCCAACCTCTCCACCTCCT
TATCCTCYTCCATGTGGCTCAATTTCCAAAGCAGTTCCTACCTCCTCACCCCTAAGTGGATTTACTTAYGGCTCTTCTTGGGCTCCACCCTAACCCTATC
AGACTATAATCTATCAGAGCAAACATTCTGTTTTGTTCTCTGATGTATCCCATGTACCTAGATCACAGCCTGGCATGTCATAGGCCCTCAATAAATATTG
GTTGAATTAAATTGCAAATGTAAAYGCTTTAGAAGACAACATTTRTCTGGACATGSTTGTGTGCGTTTATTCTTAAAAGTGACTTATAATCTCATAAATC
TGTATGAAATGAACATAGATACAGCACATGCATATAACAGGAAACATTTCTTGCGAAGATGCTGCTGTAGGATTATGGAGGGTGGSGGAATCTGGGTCTC
CAAAAATCTTTTAATTTTTAAATTTCTTTGAATAAGCCCCTTTTCTTCTGCTTTCCATATGTTTTGACACATACAAAAATCTCCCCAAGATCCTTGGGGA
ACTGTATTCCATCATTAGACTAATCCTTGCTGCCACTTCTCAGTTTTTATTTATGCAAACGGCAAAATGTGTTGCTCAAGTGCTATCACACACAGATATA
TCTGTTTCTCTATTTTGGAATCCTTGTCTCAAATGTTACTCACTTTACATGCCTTTTCTGTTGTCTTCTTTTTTTTTTTTTTTCTGAAGGACCTTGTAAA
GTCAAAAATGTCAGAAACTTCCAGGACCGCCTTTGGAGGCAGAAGAGCAGTTCCACCCAATAACTCTAATGCAGCGGAAGATGACCTGCCCACAGTGGAG
CTTCAGGGCKTGGTGCCCCGGGGCRTCAACCTGCAAGGTATGAGCATACCCCCCTTCCCCACCACTCTGGGTCCAGGCACAGCCGGGCCCTGGCCCCTCT
TCCCTGCAGGTAAACATCCTCTGTCTCCACTGGGGTTCCCACAAAAGGAAGCCCCCTGCCAATCTCTGGTTTTATAAAGGAAGAAAGCAAAAGCTTTCTT
TTAAGTGGTGAAAGCACCGAAGACCCAGAGCCTTGTCCCAGTTCTGCCCCTTACTGACCTTGTAACCTCAGAGAAGTTGCTTTGTCTTTCTGCCTCTCAA
CTATTTCCTCTACAAAACCAGAGTGCTGGATTAGCTAGGGCCTCTTCCAGCCCTACTGCTCAATGCTTTAGAGAATTTTCTCTAGCTGGAATATTCCACT
TCCAAAATATTGTGGCTGTTTTGATTGTCTGGCTTGCACCTCCTTCCTTCTCCCTCCTCCCTCCTCCATCCATTGCTGTGAATTTCAGAGCCGGGGAGAA
GTGCCAGACTCTGACAGTAATAGAGATAGAAGCCCTCTATTTCTCTCCAGAGCAGCCTGGTGAGCTGGCAAGGCAAGCTGCTTCCCCAGCCTCTTGCCTC
TGCCTGATCCCTAGAAACCTGTTCCGGGTACAGCAGCCRGCAGCTGACCTCCTCTCAGCCCTGTCAGTGGTGACAAGGYCCAGGTGCCAGCACTGGTTTG
GTGATACAGACATCATTCCCCTGGGCCATGGSAGGGACATTCAGACTCATGTCCCCGAGTGGCATTGAGCAGGGAGTCTTTTTTGTCAATAACATTCATG
CACCAAAATCTAATTTTACTCCTAAGGGTGTTCTGTGCTGGGTTYCACTGGGGATAARCAMCYATTTGCTGGGATAGGTGAGCATGGTCATGCTGGAGCT
GTGTGGTCGATTCCCCTCATTAGAAGGAGACSAATGCCTGAAAGCCCAGATTGATGCAGCTCTCCATATAGCAAAGGGAAAGGGGAAGTGCAGTTTATCC
AGCAAGCCAGACACTTGCCCAGGTGTTGTGGACTGGTGTCATTGTGTTACTGTCACACTAGATGATWTGATATCAAATAGTGAAATCAGGGAGGTATCCA
GTACCATCCAAGTTTGGGAAAAGAAGTTCACAGAACAGAAGGGCATCTTCAGTCAGGTGGTAGAGTTTGAGGGGCTAAGACGAACTTGTAGTTCTGAAAT
CTGTCTCCCAGCTGGATGCCACTCTCTAAAACCCCACCTTGACAGCCACAGAACTGAGTTTAAGAGGACTTGCTAATCAATGAATCCTCATCCCCATGTT
ATATGTTAGGAAATAGAGGCTGAAGGTAAGCAGTTGATATTCACTGCTTACCCAGTCTACGAGTCTTTTTCTTTAAGAATGCAAATAAAATGCAAAAGCC
TACAGATATCAAATTATTAAGCAGGTTGCCTTTGTGTATTCCATCTTCTAGCAAAATTCCCCTGTGGCCCAAAAGACTCTGGGCCCCCGGAAAGGGGGTG
TAGGCACTGGAAGAAGTGGGCAGTAAGAACAGGAGGAGTAATGACACAACCGTCCTTGCCACGAGGAGTCAGGACACAGCCACCCTTGCCAGGATTGGGA
AAAACGGGAACCTCTACAAAGGCAGTGCAGGGAAGCAGGGAAGCAGAGAGCAGAGGCAGAAGACCTGGCTTCCTGTTCCACATCTGCCACTTCTTGCTCA
CTCTGGGAAAGTCATATTGGTGCCCAAGCCTCAGTTTCTCCATCAGCAAAATGGAAGCAATGCCTACTTCACAGATTGTCGTGAGCATCTAGTGAGCAGT
GTCTGTGATCAAGTCTGACCCACAGCACGTGACCAATAAGTGTTCATTGACTGGGAATGTGCAACTTATCATAYCCCAGCAAGGTCAGGAAAGCACTCCA
GGGAATACTTGTTCCTATGAGGAATATGTACGACCTGTAGCCCCCATAAATCTGACATCTGAACAAAATGCTGCTAGTAAGACATTAAAACTGTCAGAGA
ACATGTGCAGGTAGGCCAATTAAGAAAAATAAAATCTGGGATTACTGCTTTTGTTGATTTCTGGAGGCACAGGTGGGGAGCAGCATAACTGAATTACTCT
GAAAAAATCAGTCATTATTTACTTGGCAGACATATGTGTCCACAACCCAAGTGACATTCTGGGATATCCATTAGAGGCACTGGCATAGGAATATGAATGT
CCAGTGRCTGTAGAATGAATGAACGAACAGTCAATCACTTGTGAATTGAATGACTCATAGCTCTAGTGGCATTATAATTTATTATTAATAACAAGCTACA
GATTTCATACATATGCATTCATTTAATATTTTTCACAGACAAGATAAGTGTTACATGCTCTGGGGATACGGTTTCTGAAGCCCAGAATCATGACAGCAAG
TCCCAGATGAGAAGGACAGGAAAAAAACTATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATGCACACACA
CATAGCAGCACACAAACCATCTGAACAAGGAGGTCTATCTCCTGGTTACCTTTTGCATTTCAGATTTATATTTAATTGTTCTAAAAGCAGGTTTTCTGGC
ACTATATATCAAGTTTTCTCCAAGTCACTAAGGGAYGAAATTTGCTAAGCGACTAAACCTTGGAAAGMACACKCATTTTTAAAATGCCATCTTCATGCAG
TTCACCCAGTGGCCACTAGTGGCCTCTAAGAGGCCTTGTATCCGCGGTTACCAATCTGCGGATGATGACTTTGGCTCCAGGAACACCAGCMCCAAGTTAA
AYTCTTGTCTCCATTTTTTTCAGTGGCCACTCTTCCAGTTAGCAAGCTGCTCTTGTAATACTGACTGAGAAATGCAGAGAGGCAAGAAGAGGAAAAGGGG
GGAAATGGCGGSTTTTTCATTTCTAATAGTTCTGTAGCAGTGAGTCCTGCCCATYACTGYGTGTGATATAYACAGTGTTCTAAGGTATACTGAGTGTATA
TAACGCCCTTAAGTCATGGCTTTGGTAACATTTGGTTAAGAATTATTTTGGTAAAATCTRTATTTTAAAATGTATAAACTCATGTAAGTTTCCTCTCATA
CACACCATGATATTCAAGAAAAARAAATGAAATATTTGAGGTAGGCACGGAAATCCCAGAGGTGGGACCAGCCATTCAGTGGTAGCGTTTGACATCTTTG
CATGATTTTAGGCATCTTTAATGTCACCCTTTGAATTCAGTTGTAGCCAGGAAAGGTACTGAGACGATCTCCTCAGATTTGGATTTGTATCAATTTCTAA
TAGACTGTTCTGCAGGCTTAGTTGGTGTTTCTGAAAAATCTCTCCACTGCCTTCCTGGTCTGAAAGGTTATGTGTAGCTGGAAATGTAATATTCCAGAAG
AAACCTTATGTTGTTGGTCTGCTTTGGCTCTATATTGTTAACAATAGGCGACCATTTGTAGCAGTAATTGGAATCATTTAACAGTTCTATTGTATTGAAT
TAAAACTGGAAAGCAAGCCTGGCCCTATTTAAAAACTGGGTTCTAGTAGTTTTTCAGGCTAATGGGGTCTTATRCCTTTCTAAGAATCTCCTCCATCCCA
CCACTCCTTGTCAGAATTAAATCAACCAATTAATGATAAACCTCCTCTTTGTGCAGAGTAAACCTCTCTGGATTGAAGGTTACTGAGAGACTAAGAGGCA
TTCAGTGTATGACTGAGAAATGCTATTGTCCAGCAGCAGTTCCTCCTTTCATTCAGTTCCTGGAAAAATATACACTGGTTTTCACATATGTGTCAGGAGC
TGCTCCAGGCTGTCCCTTGGGACATGAAGTTGAGTAAGTTAGTCCCTGGCCTCAAGAAACTCTCAGTGTAGAAGACAAAATAAATAAAAGATCATTGCAA
TTCAGTGTRATAAAGACTGTGACTGTGATTTATGCAAATTGCAGTGAAATAACAGAAATCAATGTCTAGCRGTGTGGTGGAGTGGGGAAGAGGATGAGGA
GGGCTTCCTGATGCAAGGATATTGGAGCCGAGACTTAGAGGATGAGTATGAGTGTTCCTGACAGGCAAGCGCRTGGAAAAGTGTTTGCAGTAGAGGGAAC
AGTATATTGCAAGTGAGGAGGGACTAAAAGATGAAAGAGAAGATATAAGCCTGGGAAARGATGGCAGGCATCACACCATACCAGGCCTTGGGGATCTTGC
TTTCCTCCTGCAGATAATGSGGGACTTGAGAAGGATTCTAATTAGCAGAAATACATAATCAGAATTATGCTTTACAAAGTGGTAGGGAGGGCTGGGCACG
GTGGCTCATGCTTGTAACCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACCAGATCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGT
CTCTACTAAAAATACAAAAATTAGCCTGGKGTGGTGGTGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGG
TGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCGACAAGACCAAGACTCTGTTTCAAAAAAAAAAAAAAAAAAAAGTGTAAGGAG
AAAATGGAGAACAGGAGATATGTTTGGAAGCTGTAGAGATACTCCAGGCTAGAAGAGGAATAGACCAGAGGGRTTTTAGCCCCTGGAGGTATGGGGCTCA
TTTCTCTTGTTSCAGCTTCCTCTGAGCACCTGAGCAATCCTTCAACATTATAGGTTCCAGGATGTATTAATAACAACACTTTATAAATTAAGCCACTTAA
GAAAATGCTTTTAATCATTCTAATTAAGGACATGTTAAAATTCTGGGTACCCAAAAGAAATGTGAGAAAGAGTTATTTTTCCTGTTTTTTTTTAAATAAA
TAAACCAGTTTCTCATGGATAGCATTTATGCTTATAGTTCAATAAYAATATTACCAAAAATTGCATGGAGAATTCAGTTCACTAGGGAATTCCTAGTATA
TAAACCTAAACATTTAACTTATTTCAAGATCCCATCTGTGACAGGTATAATCATTCTCTGAAGAATATTTTACAACCTAGGGAGACAATAATTTACATTT
TGTTCATATTAGASAAAAAGYAGGAGGACAGGGAGGCAGTTGCTCCTCCGGAGATTTTTTTCTTTTCTTTAACAGTCCATTTTCCGATATGTTTGGAATT
AGGCTAAATTGTGTTAGGTAGACAGTTTGAAAGCTGTCACTTTGAAAGAGCGAGCTGCCAAGTTTCTAGCTACMGTATTTAAAAAAAAAAAAAAAAAAAA
GGCGGCTTAGCAATGARCTGTTCCATTTTGCCAGGAACTAGGCTTGGACAGGGGAAGCAAATTCATTTCCTGTTTGTGGCAAACGGAGTCTGGATGATGA
TAAGACTTTTTCCATCTAAACTGCCTTGTKAACCCAGTAAACAAAGCAAAAATCAATATGCTAGATTCATCAATGCTTGCTGGAACACACTCCATGGCAA
GGGACATTTCCTAGGCAAAATGGACAATGGAATGAACAATGATATTTTTATGTCTATGTTCATATTTTATACAGTCATCTTCAGAGTCTTTGATACTATC
AGCTGTTATAAGAACCAAATACTTGGTTGACCTGTGTGTGGCTGACTCATGGGCAATGAAATAAATTTTGTTGAATCAGTGGTATTGGGGACCTCACCTC
TATCCCCAATACTTTGGACAACCCATTAAGCTTSCTCATGTCTTTTCCATTTGACTACAGTCTGGAACATTATTTCTTTAAACTCTCAACCTCTCTGTGT
AGCTTTTAATCTTCCCCTTCTTAGCCAAGTTTTATTTTTTTTTTATGAAATGTCTTTCTTTGTTTAAATCATTTTAAGACAGACTTTTTTTGTTTTTGTT
TTGAGACGGAGTCCGGCTCTGTCGCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCACCTCCCRGGTTCAAGCGGTTCTCCTGCCTC
AGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACTCCCGGCTAATTTTTTKTWTTTTTAGTAGAGACWGGGTTTCACCGTGTTAGCCAGGATGG
TCTCGATCTCCTGATCTCGTGATCTGCCCCTCTCGCCTYCCAAAGTACTGGAATTACAGGCATGAGCCACCGCGCCCGGCCCCCAAGACGCACTTTTAAG
AGATTATACAGGAAAGTTTTACTTATCACTGCCTTAGTTTTTCCCCACTTATAGTACCACTGTGATTTTATGTTTTTCCTGAGGCATTGGCTTGTTGAAG
TKATATTGCAACAGAGAATCAAAAGATCACTTAGAAAAAGTAACATGTTAGAAAACATCATGCTTAGAATTAAATGTCTAAAGTATACCAGTATAGATGA
TATAATTTAAAACAAYTGATAYTATCAGCTGTCATAAGAACCAAATACTTGGTTGACCTGTGGGTGGCTGACTCATGGGCAATGAAATAAATTTTGTTTT
ATACGTATAACTTTATATATATGTAACTTTATATATATAWAAAAAGTTTGCTTATATATAATATATATACACATATCATATATAAATATATTGTTTATAA
TATGTAAACAATATATACATAAATAATATATAAAAASTATATATTATATATGTAAACAATATATTTTTAAAAMCCAAACTCATGGGTTTATAGTTTTTTC
ATAGTGAAAACAAACAAATATATAGTTTGCTTATATCTATTATATATAAACAGTATATAATATATAAAGATATAAATAATATATAATATATAAATATATA
TTTGTAATATATTATTTGTTTATATCCATCATATAATATAAACACATGTAATATATATAATTTATATGAACAATATATAATATATAAACAATATATGTTT
TTATATATTATATGTAAACAATATATGTTTTTATATATTATATATAAACATATATATTCATGATATATATGTATGTTTGTTTACACTATGGAAAAACTAT
AAACCCATGAGCTGGGGTTTTGTCTTTTTTTTTTTGACTTAGGTTTTCTATTCTCAAAGGCATTAATCAGCACCCTTTTTCTCACCCTTYGTTATCAACA
TATAAGCAGGCTAGRAAGACAGTATTTTATTCCRATGTGAAACAAAACTGCTGATCTGGAGKTCTTATGTTATAAATTCCCACATCATACCTTCAACTAT
ATATATGTCCTGAAACTAGCATATTTTGAGAATAAAATGGKAAATGACATTTAAAGGACACCTATGGTTAATCCTACAGTAAATGAGATAATTTATTTTG
AAATGAATGATCAACTCTACGCTCCAAATTTTCACGTAAAAGGTGTTCAGGTGAAAGGAGGCATATTTGCTGTGGCATTTCTGCACACTGCCCCAGGCAC
TATAGCAAGATAATTAAGACATGGTCCAGTCTTCAAGGGGATTACAATCCCATGGCTAAAAAATCACCTATATAAAGATAATACAAAGAGACRATGATAC
TTTTTTTTTTTTAAAAAGAAGACAGATGTTTCCTGCGAATCAAGAGGAGAAATGCTTTCTATTTACCTGTGGAAATTCAAAGCAAGCCTGTCTGCTCAGA
AGAYAAGGAGTATAAAATGGCATGCTTCCCTGGGAAGGCTGGAAGGCCACTGCTAAAAAGCTTCCCAGGGACMTTCTTTACCTTGTGACTTCCATTGCTC
AGATTCCAGCCTCRCACCATGCCTTCTCAGATACCTGACTACTTAATGATTGGTCCTAAGGGCCAATCCAAATGCTCAGTGCTATTATGATTATTATTGC
CATCAATTTCTGAGCATTTACCATGTACCAGGCCCTAGGATAGAGCACTCGGTGCATTTTCTCATTTAATCCTCACACCAACTTCATTTTGCAGATGAGA
AAACTGAGGCACAGGACATTTATGTAACTTGCCAAGGTCACAAAGACAGTACGTGAGAGTTGGGATTTGGGTTCAGGCAGCCTAGCTCCACAGTCTATGC
TCTTACTATGCTCTTCTACTTCTCTTAATAATAATAACAACAACAATAATAATAAACATTTATTAAGAATGTACTTGSTGTCAGCCACTCTATAAGATAG
GTACTTCATTCCCATATTAAAGATAAGAAAACTGAGGCTCAGAKAGATTAAATAACTTTTCTGAGGCTGCACAATWAGTAAGTAGTGAAGCATTTCCAAA
AACATATTCTGAAAAATGCAGATCTCCAAAGAAAAAAGTTTCCATAGTCATTTACRTTTGGAAACCATTGCCCCTCTGAGATATCTGTGGTATACATCAG
CATATTAAAGTCTCACATGAATGCTTCAGTAAAGAATCCTGATCAGCTTTGGTTAGGCYAGCATTTTCCACACTGGTTTAAACATGGAGCTCTAATTCTT
CCAATACCTGTCAATATCCCATAAAACTAGCACTATGCCATGATGGACTGACTCTAACCAGTCTCACTAGACATTAACCAGGTACACTAGGCTAGGAGGT
AAAGCTGGAAAGCCAGGTTTTCATTTGCAATGAGAACTAGGATGGATGAGACATACCAATGATACCAAAGAAATACTCGAATATTTCTCCGTCTCCAGCC
TTACTTTGCCTTGTAGGTAGAGCTGCTTGGGAAGCCAAGGCAGGACTCATTTCAGGGACACATTATCATGCAGGGAGGGAGGGTAGGAATAGAGAAGGCA
AATCCAGGAGTACCAGAGGAGCAGTGCCTTGAACCCCTACATGCAGGCTAAACTCACGTGGCCCCTCACCCAGAACACTGCAACAGCTTCTTAACTGGGT
TCAGCTTCCAGCTTTGCCCCTTCCAATCCCTTTTCCACTCTGCCACCAGAAGCAGTTTCAATATATATATAAATCTAATCATGTCAGTTTGCTGTTTCAG
ATTCTTCACTGGATCCACCATGCAATTAAAACCCAAACTCCTTCGCATGGTCTCCAAGGCTCGTGTGATGAGCAGGCTCCTCCTTACTCTTCCACCGTGG
CTCCCACTAGTACATTTCAGCCAACCATCATCTTTCAATTTCTTAAGCAACTATGCACTCTCTTGCCTCAGTCTTCACCTATCCTTCTTTCTCYGCCTGA
AGCATTCCTCTCCACCCCCCTTTCCACATGGACAACTGACTCCTCTTTTGCTCACTGCTTATGTCTCACTTCCTTCAGAGAAATTCCTTATTTTCTACCC
CCTAAATGTGGGTTAGGGGCTCCTCCCTGATACTCCCCTCAGTTCTCTTTACTTCCTTTGTCAGAGATGTCTGACACTGTGTCATAATTATCTGTCCACA
TTTTAGCATCTACTGCTGTGCGTTTACTTAGTTAGTAGTTATTAGACAGTTGCCTAATCAACATTTATACCCATGTCTTGAGTGGCAACATAAAATAGCA
CACTTATAACATTCCCAGAGGACAAGAAGCTAGGGAGAATATTAAATATATTAAATGCATACTTAGGGGTTAAAATGATCTTAAGAGCATGGGACAGTGA
GCCAAATTCAATAAGAAGAAATTTAACCCATGCAAAGTCTTAATATCGAACTAAACAGAAGAAAACAATTGCACAAATAAATATAGCCAAATAGCAACAT
GAGTGGGTGACTTGTAGGGGCCTCAACTGAATTTTGATCCATTGTTGCTAGAAATAACATTAGAATGTGTTTTAAGGGAGGCTGAGGCAGGGGGATTACC
TGAGGTCAGGAGTTCAAGACCAGCCTGACCAATATAGTGAAACCCCATCTCTACTAAAACAAAAACAAAAACAAAMAAATTAGCCAGGCATGGTGGTGTG
AGCCTGTAGTCTTAGCAACTTGAGAGGCTGAGACATGAGAATTGCTTGAACCCGGGAGGCAGAAGTTGCAGTGAGCTGAAATTGCACCACTGAACTCCAG
CCTGAGCAACAGAGCAGGACTCTGYCTCAAAAAAAAAAAAAAAAAAAAAAAAGAATGTGTTTTAAGGGTTTTGCTTTATCAGATGCATAATATAAATCAA
CAGTGAGTTAAGAGTATCCAAGACACTGACAATATCTTGATKTGAAATAATAGACTGTTTATTTTAAAAGATGTAATGGTCTCTTTTTTTTTTTTTTACA
GAAAAACCACAACTAGAGTAATGTACTTAATTCCAGAAAATAACACTTCAAAAGAGAAATTGACAAAGTGGAAAATATTCCAAAACAGAGCGTTGGATAA
AAGTTCTAGAAATAACTTCTTAAAAACAGTTAAATAGGCTGGATGTGATGGCTCACGCCTATAATCTTAGCACTTTGGAAAGCCAAGCCGGCGGATCACC
TGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTATTAAATTTTTTAAAAATACAAAAATTAGCGGGGYATGGTGGTGAGTG
CCTGCAATCCCAGCTACTCAGGAGGATGAGGTGGGGAGGATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGT
CTGGGTAACAGAGCAAGACTCTGTTTCAAACAAGCAAACAGTTAAATAAATGAAGAATGTTTTACTCAGAAAAAAAAAAAATCCTATGAGCAGTCTTTAA
ATACCTAGAGAGTGCCAGCTAAAATGAATAAGAGGACTTATTCTATATTTATCTAGAAGTCAGAACGAGGACCCATGGTTAGAAAAATTACAAGGAAGCA
GATGTCAGTTTATCTTAAGAGAAGTTTTCAAATAATTAGAGTTGTTTAAAAATGGACTGTTTGCCCTATGAAAAAATGAGTTCCCTGTTCAAATGGAAGC
TAGAAGCCCAAGTAGTAGGGCTCTCATGAAAATGTTTCATGCAGGGTATAGTAGTTCTACCAGATGGCTGAGAAAATGCTATTGCTGTTCTGTGAGATTC
TGTAAGGATGTAATATCAGTATATTCCTTCCATTGGTGCTGGTAAACGGAGAACTGATGAAACCCATTTCTAAGGACTTTGGTGTTTAGCTATTTTTAAA
AAAAAAAYTTTAAAGCCCCTGTGCTAAGAAAGAGGACCAGAGGAGTTGATTGCTAAGCTCCTTTTCAACAGGAACATTTGTGCTCCTCCAGCTCATTCTT
GGGCTGGTTTATCACGGRGATTGTGGTCTTAATAAGACCAGAGGACTTAGGAGAAAGGCAGCTTGGAATAGAGAGGTCTAGAGAATTAAACATCTTTAGC
TCACAGCATAATGSAAAGAAAGTGCCCTTCAGGGGAACATGTATACAACAGGGTTCTGAGAAGAGGTAAAAATAAAACTGCATCCTGCACTTTCTGCTTG
CCGTAATGCTGCAGTCAGGGTAACCCGGGGAGCACCACGCCCTGTGAAATGGCTGTCACAGTTTAGGGGCAGTGAGCCACAGTAAGCCTAGGACCCACTA
TGTGCCAGGCATAGTGCCAGACCCACTGCACCGTTATCTCATTGAGCCTTCATAGACCTTCTCAGGGTATTAGTATCCTCATTTTAAAATAAGAAAATTC
AGATTCTGAAAGGTAAAGTACCTTAACGCAGTAATTTTGACACCTGAGATTCAAACTCAGGATTGCCTGAACTTTGAATTGCTCAGCAGTGTTTCAGGAA
CTCCTGGACTTTAGGACCGAAGAGGATCTTAAAGAGCCCAACTTCTTGGTTTTGACTATGGAACACAATGGGGTCCAAAGGGACCAGGCATCCTGCACAG
GATTTATGTGTGGAGGTAAAGGAAGCCATTCGACTATGGCAGGAGATGCCCCGGCATGGGTACAAGCTCAGCAACTGTGCTTTCTGCGCACATGGTGCTT
ATAGCCATGAAGGCAAATCATGCATCAGGCAGGGGCAGGGAGGGGGAGGGCAAGAGGCCAGGGCACCCCTGCCGACCCTTCTACCCTCCCACCCCACCTT
CTCCCCAATAACTCTTTACAATGCCAAATGCACATGCAGAAACCAGTCTCTAGACTAGATCTTCTAAAGTACAGTGAGGACAGGGAGTTAGGATGACCCC
CACTTTCAGTCATCATTCATAGAGGGGAAGGGGAAAAGGGCAGGAAGAGAGCTGACTTTCATGTGTCAGACCCTTTGCTAAATGCTTGCATACGTGTCAT
CTCATGCCGTCTCCTGTCACATTCCTGTAAGAAGTGGAACATGTTAGGCTATGAAATGAATATTAGTGTCTCCATTCTATGATGAAGAAATGAATTTAAG
TCACACATACAAAGTTAGACAACTAAGAAACATGTGATTTACGTTTACACTCCTGATGCCACAAATCAAAAGAAAAACCTGTGAATGTTGGCATCAGACA
GTCCAGGTTTTGACTTTTGAACTGGCCCATTAGTAGCTAAGGAAAGCTGAGGATAGTTTCTGTGTCACTGAAAACAATCACACTTAYCTCATGGAAATCT
TAGTGTCCTTTCTCCAGACCTGCTCCCTCTCTTTCCTGCATTTGAGGGATGAGATCTACTTTTAGAATTACAGAGGGAGGAGGCATTTGACCCTTTTTGA
GGTAAAAGGAGAATTTTAGATTAATGGCTAACTTTGTCCTTCGAATGTCCCCTTGAGGCTTTGTCAGATTTGATTCCTTCCTTTGGAAAGATAAGAAAAT
TGAAGTGGCTATTCCCTGCTTCTGCCTGGTTAGTCACAGAGTGAGGCAGTGACATGATGGGAAGCTTCTAACATAACGAAAACTAGCGTGAGACTGAGAA
CCTGAAGACTTCAACTCTGGCCCTAGCTTCTCTGTATTTGGATCTCCCAGACAGGCATCCATCTATCCCACAGTGAGTGCCTTGTGGTCTGAAACGAGAT
CAAAGGTGGAAAAAGCTTTAAAAAGCTCTCTTCAAAAACAAGAATGTCACAAGAGGCTGACTCTCGAGACTGTGTTCCCCTACCCCTGCCTCCTACAGAG
TTTCATTCAGCAGACCTTGCTACCTGCCTTCTTCAGGGAAAATAATCTTGTTTTTGAGTTTATGTTTAAACTAAAGTTAGTTGATTATTTTCTTCAACCC
TTGTTTTTCTTGTTCATAGAGTTTCTTAATGTCACGAGCGTTCACCTGTTCAAGGAGAGATGGGACACTAAMAAGGTGGACCACCACACTGACAAGTATG
AAAACAACAAGCTGATTGTCYGCAGAGGGCAGTCTTTCTATGTGCAGATTGACYTCAGTCGTCCATATGACCCCAGAAGGGATCTCTTCAGGGTGGAATA
CGTCATTGGTGAGTGCCATGTGCAAGCTCCAGTCTTGACACCATGGGTTGCATTGTAGAGAGAGGTGGGTACAGGCACAGTTGTGTGATTTCCTAGTGTC
ATATGTCAACAGTGKCAGGAGCTGGAATGACATSCAGCCCCTGAATTACCCTGTGCTCTAAGACTGGTCTGTATAGTGCCAAATATTGATAACTTGGGCC
CACCCAAGGAGAAAATCTCATATAAATAAAAGTAAAACTGGTATAATGTGTTGCTTAACTAAATTATTCTTCCTCAAACAAATGGTTTTGGCATCCTATG
ATTCTAACTTTTATCTCCATGATTTAATTGGTCTCGTGCTGAAAATGTTTGTAAATCTTAGCATGCAATCCAAGTATGCATTCCGAAAGTTGATTCTGCT
CTGATCTAGTCCCATGGGATGGCCCGTGAAAAATATAGTCCAATAAACTTCACTAAACACTTTGTACTTTAATCACCCTTTTTTTTTTTTTTTTTTTTGA
GACAGAGTCTTGCTCTGTTGCCCAGGCTGGAACAGTGGTGTGATCTCAGCTCACTGCAACCTCTTCCTCCTAGGTTCAAGCGATTCTGGTGCCTCAGCCT
CCAGAGTAGCTGGGACCACAGTTGCACACCAYTACGCCCAGCTAATTTTATGTATTTTTGGTAGAGGCAGAGTTTCACCATGTTGTCCAGGCTGGTTTCG
CACTCCTAACCTCAAGTTATCCACCCACCTCAGCTTCCCAAAGTGCTGGGATTGCAGGCATGAGACACCATGCCCAGCCTTTAACCTCCTCTTGAAGATT
AACGATGCACATTAGCTTCAAAGGTCTGGGGAAGGACCATTTAACTTTGGTCTGGTGCTTCTTAAATTAATTTGATCATGGAACCCTTTTATTAAGTTAT
AGCTATTAACTTTTGACACATTTTGGTAAACATTTCTATAGGAATTTATAAGATTATCAAGGAAATACATGCACAGAGAAGCAGGGGTGGCACAACATAG
GAAATCTGCCCATATAATCCTATGCACAAATTAAAGGAAAAAATTAGGCAATCAAATCAGYAGTCACAGAAAGGTACATGGTAAAATTCAGCATCCAGTT
TTAGGAAGAGTTTAAGGGGAAAAATTTAGAAAAAAAACACCTCAATGATAATAAAGATTGCTTACATCAAAACAACAACTTTTGATATCTAAGTGGAAAA
AAGTTAACAAATTTCACTGTAATCAGAAATTAGAAAGAAATGCCTGCTATCATCATTCCCTTTTTAAAAAGAAGTACTTTAAAGGYTTTAGTAAATGAAC
AATGTAAGAGATACATCTGCTATAAATGCTGGAAACTAAGAAGTAAAACTATATATTTGCTAATACTATGATTGTGTATGTAGAAAACCCAACAGATTCA
AGGGAAAAAAGCACTGTATTAATAAAACTTTGTAAGTTGGCTAGATAGAAGATAAATATATAAAAATCAATAACTTTTATCTTCCCCAGCACTAAGCACC
CAGAAATAGACATAAAAAAATTTCACATGACCAAAACTATAAAATGTAGGACTAAAACCTGAACACGCAACCTATATAAACCAGCTATTAAATCTTAATA
AAAAACATGAGAAACCAATGAAAAGTCAAACATGTTCTTGAGTGGGAAGTCTTTCTGTATACATTTTTAGTCTCCCAAGGGGTTGGTCAAAGAATACAAA
ATTTCAGTTAGATGGAAGGAATGAGTTTTAGTGACCTATTCCACAGCATGGTGACTATAGTTAATAATAATGTATATTTCCAAATTACTAAAAGAGTAGA
TTTTAAATATTCTCACCACAAAGAAATGGTATGTGAAGGAATGAATATGTTAATTAGCTTGAATTAATCAATCCACAATGTATATTTTGATCAAAACATC
ACATATTGATCAAAACATCACATCCCAAAACCCCATAAACATATACAATTATGATTGTCAATTTTTAAAAGCCTCCCAAAATTAATATGTAAATTTAATG
CATTTCCAATTAGAATCCCAGTGGAGTTTTGAGTTGTCTTTGGCTTTGGTTTTGGTTTTTTGGACTTGTATAAAATAATCTTAAAGTTCATTTGAAATAA
TAATTACCTGGTGATAACCAAGGAAATCATACAAAGAAATAATAAGTAAGAGTATTTTCTTTCTGAAGCGGCTATCAGAACATACTATGAAAAATATTTA
GTAGGACATAATAGAGAATCCAGAAATGGATTTCAGTATATGAGTTAATATGATTGTTGGTTTCATGAAGTAAGAAGACCATATGAGATTTTAWCTGTTT
GCTTGTTTGTTTTTACATAAATGATGCAGAAATAACTGACTCTCCRACTGGAAGAAAGTTTAAAAATTGACCCTCATCTTRTCCCATATACAGTAGTAAA
TCTCAGATGGAATGAGTATTAATGTAAAAAAGACAATTTTTTGAGGAAATTTAACAGACTTAACTAAAAACTGGAAACTCTGACACTGTAGAAGAAAGCA
AGAACCATGTACAGTTATGTGCCACATAGCAACATTTCAGTCAATGACAGATYATGCATAGGTGATCTTATGAGATTCTGATGGAGCTGAAAAATTCCTG
TTACATAGTGATGTCATAGCTATCATAATAGAATAGTGAGATTACTTATTTTTTTAAATGTACTGTAGCCTAAGTTTATAGTGTTTATAAAGTCTACAGT
AGCATGCAGTAATGACCTAGGCCTTCGCATTCACTCACCACTCACCCAGGGCTACTTCTGGTCCTGCACGTTCCATTCATGGTAAGTGTCCTATGCAGGT
GTACCATTTTTTACTTTTYATATTGTATTTTTACTGTACTTTTTCTATGTTTATATATAAATGTTTCTATGTTTATATATAAATACTTACCATTGTGTTA
CAATTGCCTGCAGTGCTGTATTCAGTACAGTAAAACACACTATGAGTCTGTAACCTAACAGCAGTAGGCTCTGCCATATAGCCTAGGTGTGTAGTGGGCT
GTACCATCTTTGTTTCTATGATGTTCACACAATGACAAAATCACCTGCCTAACAACATATTACATCCCGTGCATGACAACAAATTCACGTTTGAAGCTCT
GGACCACAGTTCTGCTGCAATTATGAGGGAAGTTTTATCTCCATCTTTAAAGCCAAATATTTAGGGTGGGGAGAAGAGGAGAGGGAAGCTTCAATTCTGA
ATTGGACTTGTCTGAGGTTTGAAACACTCTCATAGGCCGTTCAGAAAATAATTATGATAATGGAAGTCTTAGAAAAACTGGTAAGATGAATGTCTTAGAT
CGGGTTACTAGGAAATAAACTCTGAGAAGAAGACTTGTGCGCAGAAAGTTTACTGGGGAGATCTCTCAGGATCAACATCTGCAAGGGAGTGGAGGAATCA
CTGTTGGACAGAGGGAGGAGTTGAACTGCAGTGCAGACAGGGCCCCCGTGGATCTCAAGGTGAACTCTAGCTATGGGTTGGATCTTCAGAGTTGTCTCGC
CTTGAGCCAAGGGCATGGGCCTGTTATACCTTTTATACCTTGACTGGGGTTACAGCCTTGGTGTAATTGGTTCTCTGTGGCTGAGGGTAACCCCTGAAAG
CAACTAAATGAATGAGAATTGTCAGCCACCAACACTCCCAACAATGGGAAAGGTCCAGGCAGCCCACCACAGCATCCATTACAGTGAACATTTTAAGTCC
TCTTTTCTTTTTTACACAAGAAATACTATTACTTTTGTTCCCTCAATAAAAGAGGGGGAAAAGCATAGCTAATTTGTTTTTGAGATAAAATCTGTATATT
TTTAAACCAACATGTATTCTAAACCTTTCAGAACCCATGATGTGTGCGTTCAGAGTTAAGCTGTATTCTAGTATGTGTGGGCCATTACAGGGCCACATGT
ATTTGAAGATTTTCTATTATAGGTCACACACATTTGAAGATGTTTCATTGCCCAACCTGTTGTAGATACAAGAAAGGCAAGTGACAAAATTCCACACTCT
ACTATTTAGTGTAGAAATTAAGCACACTTCGAGGGGCGTGGAAGGACCCATGGTAGAGGATTTATCTTGATCAGAGTCATTTCTGCATCTCACATCAYTC
AGGAAGTTACATGAGAGCCTCAACTTCATGGCTGCCATAGTTGTAAGACAGGAAGAAAAAAGAACATTGCTGGGGAAATAATTMTCTTAAAATTCAGTGC
CTGTTTCAATAGGACTGAATAAAGCCAAGGAAATTAGATTTTAAGGCTAATTGCTATAATGAGAAGAGACAAGTATAGAACGTGAACTAGAAATGAAATT
AAGTGCAAAGGTTTCTATATACAGGTGCACCTCAATTTCCAGAAACTCAGAAGGTAAAAGTGATGGTTTAAAAACGAAAAAGAATATAATTTCTATTCAT
TTTTAAAAATCTGGCAACACCATTTCAAGAGAAGATCCATTTTAGCTAACGTTTTACAATCAGCTAAATGTCTAAACATTTGAGATATCATTTACTATTA
AAAGTGAACCAAAATGTAACATAAATTAAAAAAAAAAACAGACGAGAATAAATACTTTGTTAAAAATAAAGGGCACTTAAAAGAATCTCGGGGGGAGGAG
CCAAGATGGCCGAATAGGAACAGCTCAGGTCTACAGCTCCCAGCCTGAGCGACCCAGAAGACAGTGATTTCTGCATTTCCATCTGAGGTATGGGGTTCAT
CTCACTAGGGAGTGCCGCACAGTGGGCACAAGTCAGTGGGTGCGTGCACTGTGCGCGAGCYGAAGCAGGGCGAGGCATTGCCTCACTCAGGAAGTGCAAG
GGGTCAGGGAGTTCCCTTTCCGAGTCAAAGAAAGGGGTGACGGACGGCACCTGGAAAATGGGGTCACTCCCACCCCAATACTGCACTTTTCCGACAGGCT
TAAAAAACGGCGCATCAGGAGATTATATCCCGCACCTGGATCAGAGGGTCCTACGCCCACGGAGTCTCGCTGATTGCTGGCACAGCAGTCTGAGATCAAA
CTGCAAGGCGGCAGAGAGGCTGGGGGAGGGGCGCCCGCCATTGCCCAGGCTTGCTTACTGAAACAAAGCAGCCTGGAAGCTCGAACTGGGTGGAGCCCAC
CACAGCTCAAGGAGGCCAGCCTGCCTCTGTAGGCTCCACCTCAGGGCACAGACAAACAAAAAGACAGCAGTAACCTCTGCASACTTAAATGTCCCTGTCT
GACAGCTTTGAAGAGAGCAGTGGTTCTCCCAGCACACAGCTGGAGATCTGAGAACAGGCAGACTGCCTCCTCAAGTGGGTCCCTGACCCCTGACCCCCAA
GCAGCCTAACTGGGAGGCACCCCCCAGCAGGGGCACACTGACACTTCACACGGCAGGGTACTCCAACAGACCTGCAGCTGAGTGTCCTGTCTGTTAGAAG
GAAAACTGACAAACAGAAAGGACATCCACACCAAAAACCCATCTGTACATCACCATCATCAAAGACCAAAAGTAGATAAAACCACAAAGATGGGGAAAAA
ACAGAACAGAAAAACTGGAAACTCTAAAAAGCAGACCGCCTCTCCTCCTCCAAAGAAATGAAGTTCCTCACCAGCAACGGAACAAAGCTGGATGGAGAAT
GACTTTGACGAGCTGAGAGAAGAAGGCTTCAGACGATCAAATTACTCTGAGCTACGGGAGGACATTCAAACCAAAGGCAAAGAAGTTGAAAACTTTGAAA
AAAATTTAGAAGAATGTATAACTAGAATAACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAAGCAAGGCTCGAGAACTACGTGAAGAATG
CAGAAGCCTCAGGAGCCGATGCGATCAACTGGAAGAAAGGGTATCAGCGATGGAAGATGAAATGAACGAAATGAAGTGAGAAGGGAAGTTTAGAGAAAAA
AGAATAAAAAGAAATGAGCAAAGCCTCTAAGAAATATGGGACTATGTGAAAAGACCAAATCTACGTCTGATTGGTGTACCTGAAAGTGATGGGGAGAATG
GAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATCTAGCAAGGCAGGCCAACGTTCAGATTCAGGAAATACAGAGAACGCC
ACAAAGATACTCCTCGAGAAGAGCAACTCCAAGACACATAATTGTCAGATTCACCAAAGTTGAAATGAAGGAAAAAATGTTAAGGGCAGCCAGAGAGAAA
GGTTGGGTTACCCTCAAAGGGAAGCCCATCAGACTAACAGCGGATCTCTCGGCAGAAACCCTACAAGCCAGAAGAGAGTGGGGGCCAATATTCAACATTC
TTAAAGAAAAGAATTTTCAACCCCGAATTTCATATCCAGCCAAACTAAGCTTCATAAGTGAAGGAGAAATAAAATACKTTACAGACAAGCAAATGCTAAG
AGATTTTGTCACCACCAGGCCTGCCCTAAAAGAGCTCCTGAAGGAAGCGCTAAACATGGAAAGGAACAACCRGTACCAGCCACTGCAAAATCATGCCAAA
ATGTAAAGACCATCAAGACTAGGAAGAAACTCCATCAACTAATGAGCAAAATCACCAGCTAACATCATAATGACAGGATCAAATTCACACATAACAATAT
TAACTTTGAATGTAAATGGACTAAATGCTCCAATTAAAAGACACAGACTGGCAAATTGGATAAAGAGTCAAGACCCATCAGTGTGCTGTATTCAGGAAAC
CCATCTCACATGCAGAGACACACATAGGCTCAAGATAAAAGGATGGAGGAAGATCTACCAAGCAAATGGAAAACAAAAAAAAGCAGGGGTTGCAATCCTA
GTCTCTGATAAAACAGACTTCAAACCAACAAAGATCAAAAGAGACAAAGAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAACTC
TCCTAAATTTATATGCACCCAATACAGGAGCACCAAGATTCATAAAGCAAGTCCTGAGTGACCTACAAAGAGACTTAGACTCCCACACATTAATAATGGG
AGGCTTTAACACCCCACTGTCAACATTAGACAGATCAACGAGACAGAAAGTCAACAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAAGCGGACCTA
ATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATACTGGGAAGTA
AAGCTCTCCTCAGCAAATGTAAAAGAACAGAAATTATAACAAACTATCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAATCTCACTCA
AAACGGCTCAACTACATGGAAACTGAACAACTTGCCCCTGAATGACTACTGGATACATAATGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAAC
GAGAACAAAGACACAACACACCAGAATCTCAGGGACGCATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAA
GATCCAAAATTGACACCCTAACATCACAATTAAAGGAACTAGAAAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAACTAAAATCAG
AGCAGAACTGAAGGAAATAGAGACACAAAAAACCCTTCAAAAAATTAATGAATCCAGGAGCTGGTTTTTTGAAAGGATCAACAAAATTGATAGACCGCTA
ACAAGACTAATAAAGAAAAAAAGAGAGAAGAATCAAATAGACACAATAAAAAATGATAAAGGGGATATCACCACCGATCCCACAGAAATACAAACTACCA
TCAGAGAATACTACAAACACCTCTATGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTTCTGGACACATACACTCTCCCAAGACTAAACCAGGA
AGAAGTTGAATCTCTGAATAGACCAATAACAGGATCTGAAATTGTGGCAATGATCAATAGCTTACCAACCAAAAAGAGTCCAGGACCAGATGGATTCACA
GCCAAATTCTACCAGAGGTACAAGGAGGAACTGGTACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAAGTCATTTCATG
AGGCCAGCATCATCCTGATACCAAAGCCGGGCAGAGACACAACCAAAAAAGAGAATTTTAGACCAATATCTTTGATGAACATTGATGCAAAAATCCTCAG
TAAAATACTGGCAAACCGAATCCAGCAGCACATCAAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAATATACGC
AAATCAATAAATGTAATCCAGCATATAAACAGAACCAAAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAAC
SCTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATGGGATGTATTTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAA
TGGGCCAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGG
GCAATTAGGCAGRAGAAGGAAATAAAGGGTATTCAATTAGGAGAAGAGGAAGTCAAATTGTCCCTGTTTGCAGACGACATGATTGTATATCTAGAAAACC
CCATTGTCTCAGCCCAAAAGCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAGCATTCTTATACAC
CAGCAACAGACAAACAGAGAGCCAAATCATGAGTGAATTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTG
AAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAATAAAAGAGGATACAAACAAATGGAAGAACATTCCATGCTCATGGGTAGGAAGAATCA
ATATCGTGAAAATGGCCATACTGCCCAAGGTAATTTACAGATTCAATGCCATCCCCATCAAGCTACCAGTGACTTTCTTCACAGAATTGGAAAAAACTAC
TTTAAAGTTCACATGGAACCAAAAAAGAGCCCGCATTGCCAAATCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTACCTGACTTCAAACTA
TACTACAAGGCTACAGTAACCAAAACAGCATAGTACTGGTACCAAAACAGAGATATAGATCAATGGAACAGAACAGAGCCCTCAGAAATAATGCCACATA
TCTACAACTATCTGATCTTTGACAAACCTGAGAAAAACAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATG
TAGAAAGCTGAAATTGGATCCCTTCCTTACAGCTTATACAAAAATCAATTCAAGATGGATTAAAGACTTAAACGTTAGACCTAAAACCATAAAAACCCTA
GAAGAAAACCTAGGCATTACCATTCAGGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAAT
GGGATCTAATTAAACTCAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCAACCTACTC
ATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCGAAGGATATGAAC
AGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAAACACATGAAAAAATGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGA
GATGCCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACAATTTTACACTGTTG
GTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCAATTCCTCAGAGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTG
GGTATATACCCAAAGGACTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCATTATTCACAATAGCAAAGACTTGGAACCAAC
CCAAATATCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGT
AGGGACATGGATGAAATTGGAAATCATCATTCTCAGTAAACTATCGCAAGAACAAAAAACCAAACACCGCATATTCTCACTCACAGGTGGGAATTGAACA
ATGAGAACACATGGACACAGGAAGGGGAACATCACACTCTGGGGCCTGTTGTGGGGTGGGGGGAGGGGGGAGGGATAGCATTGGGAGATATACCTAATGC
TGGATGACGAGTTAGTGGGTGCAGCGCACCACCATGGCACATGTATACACATGTAACTAACCTGCACATTGTGCACATGTACCCTAAAACTTAAAGTATT
ATAATAATAAATAAATAAATTTTTAAAAAAAGACTAAAAAAAAAAGAATCTCTACCAGTACATCTTTAAGAGTGTTTATAACAAGAGACTTACCAACAAA
GATTGACTTACTGTCACTCACTATATTAGTCAGTGTTCTCTTGAGGGACAGACCTAATAGGATATATATATGTGTGTGTGTGTGTTTGTACATATACGTG
TGTGTATATATATATATGTGTGTGTGTGTGTGTGAGTGTTGTGTGTATATACATATAAAGGGGAGTTTATTTAAGTATTAATTTATATGGTCACAAGGTC
CCACAATAGGCTGTCTGCAAGCTGAGGAGCAATGAGAGCCAGTCCAAGTCCCAAAACTGAAGAACTTGGAGTCTGATGTTCAAAGGCAGGAAGCATCCAG
CATGGGAGAAAGATGTAGGCTGGGAGGCTAGGCCCATCTCTCCTTTTCAAGTTTTKCTGCCTGCTTTATATTCACTGGAAGCTGATTAGCTTGTGCCCAC
CAGATTAAGGGTGGATCTGCCTTCCCCAGCCCACTGACTCAAATGTTAATCTCTTTTGGCAACACCTAGGATTAATACTTTGTATCCTTCCATCCAATCA
AGTTGACAGTATTAACCATCACACTCACTATATACTTAAAAAAACTTTTTTTTTAGGTTCGGGGGTAAATGTGCAGGTTTGTTATATAGGTAAAAACATA
GCTGTTTCATAAAGCAAGCTATTATTATATTTAAAATACAGAAAAAATAACTTTATACTTAGTTGCTTCCAATTTGCATTCAGTTTTTTTGTTGAGGTTG
CTCTCTCATTCCCTGTGCCTGTATAGATGAGCTGAGATATGTTAGTACACTGGAGTTTCCCTATGTTGCTGTTCTCAGAACCTAGGTCATGGGATTTATT
TATGTGATTCTGCCTTCTAACCAATTTCCTTCTCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCTCTCTCTCACTCCCTCCATTCCTT
CCTTCCTCCCTCCCTTCCTCCCTTCCTCCCTTCTTTCCTTCTTCCTTCTTTCTTTCTAAATATTTAAATAAATAGGGCTCTTGGATGGTGTGCTGGGCTC
TGAGTAGAGAAGGTGAGCAGGAGAGCTACTGCCTTACCTGGCCACGGCTTGATGAGCTGTGCTGCAGGGGTTCTTTGTGCTTTGATAACTGCGTTCATGA
GTTGCTGGCAGAGCACAGCTATCTCTGTGTTAGGTGGGAGGTGTTAATGAATCTGAGGAGGTGGGTGTGGCTGAAAAATGCCCTGGGAGTCTGCAGGGCC
TTCTCTCTCTCTCACCTCTGAGCCTGCAGCCTCGACAAATCATGAAAGGCAAGGAGGGGAGTGGTAATCACAGGTTTTACTAACCTGTGGCTGAGRCTGT
GAAAGCTTGGGAGCAGCTTCTGGTGTTAATTTGCTGTTACTTTGACATGGGCCCCTGCTTTTTTGATACCCAGTTGAGGGTGAAATCCCAAGCTGTATTT
CTTACCAGGTCTCCCCCTCAAAACGGCAGAGGTTTCACTCCCTGAGGAGCCCTCCGAAGTGACAGTAGGGTCCATGAGCAAGTTTCTTTCTCCCTGGAGT
TCAACCACAGGAACCTGGGGGTGTCCAGGTCAGCGCTTTGGAGATTCTCCTGACCTTTCCCTCAATTCTATGATGGCCCTCACAGATTCAAGCTTCACAT
TTCTGGTTACAGCAGAAAGATGAGGAGAAGGATGGCATTAGCATGCCCCACCCCACTTATCAGGAAAACAAAAGCTTTCCCAGGCACTTCTGGCAATCGT
TTATGTTTCATTTGCTACCCTTAGCTGTAAGGCAAGCTGTGAAAGTATTCCCTTTTTCCAGTCTCTTCAGAGGAGAGGGATGGGGCAGAGCTGAAAGTGG
GTGCTGGTGGACCCGCAGTCATGTGTGCTGGGCATCCCCCCTAGCTGGGCCATCCTGTGAGTATAAAAGTGCTGTCCTAATGCTGGCAGCCTTGAGGCAG
GTTGTTCATCACCCGCTCAAGCATTTCTAGGACTGGGTCAACTGCACATGTTCTGCATCACAAACCCTATAAAACATGGAAATGTCATCAGCAACACTTT
AATATCTTTCTTTCACTTATTTCTTGAGTAGCATTTATGGAAAGCCAGCGGCGGTGTTGGATGGTGTTTTCAGGGTGGGAGTGACATGGATGATTCTCAT
TTGAGATAGCTTGCTCTGGCCCACTTCAGGGAATCAGGGTAATTCAGGATAGGAGAGGAGATGATCAGAAGAGAGAGGATGAGAACCGGGGTTATGGCTG
CAGTTGTAGACATGGACAGGAGTGACAGGGTTTGAGAAATAYTTAGGAGGCAAAATCTGCAGGAYTTGTGTTGGGGAGTCTGTGAGGGGTGGAAGGGAGG
AGGGTCAAGGTCRACTTCCAGGTGGCTGGCTTATGTGACTATGATGACAGATGCTAGCACTTCCAAATGAGATAAAGAATGCCTGGAATTCCAGAGGRAA
AAAATCGAGTGTGGAAAATGCTAATGGAGGTAGTAGCTTCATTGATAACTCATTGGCACTGKTGCTGTGCAGAGGTGCTGTATGCCTCCCATTTAATTGT
TCAAGCAGCCCTCTGGGCATTGGACTATGGCCATCTCCATTTTTCCCATGAGATAATGGTTGAAAGGATTAAGTAATTTACCCAGGTCACACCTGGAAAG
TGCTGGGACCTCAATTTGGACCCAAGCAGCCTCTTCTACTTACAATGCTTACTACCTCCACCRAGGGAGCCTCCACCAAGGAGATGGTGGAGGTATGAAT
ATGCTTCTGTTTGAATTGATGAGTGTGAATTASTTGAGGGACTTTCAGGTAAACCTGTCCAATAGAYAATATGAGTCTGAAGCTTCRGGAGGAGGTTTGG
GTTGGACAGGAGATAATTTGGATATCATACACACGTGGGCAAGCTCACTCAGAAAAAGGTAAATCAAGTCAGCAGTGGACTGAGGCTTAAGCCCTGGGGA
AAACAACTTCTAAGGCATCAGTCCAGAAACTAGAGCCCCTGGAGGAGACAAAGACCAAATGAGCAGATAAACAGAAGGAAAATAAGGGGGTTGCAGTGTC
ACTCAATCCACGAGAGTTGTGTGTTTCAAGAGGAAAGCATGACCAATGTTATTAAATATAACTAGGAGATGCAGTGAGATAGGAACTTCCCACTGGAGTC
AACAGTTGGGGGACACTGGTTGAACTCGGGTAGATTCCAAATTTTAATGGTCTAAAAGTCAAGGAGATGTGAGGAAATGGGTGTAGTCAATTTGGATGAA
TCTTTAAAGAAATTTGAAGGAGAGGAAAAGAAAATTTGGGTGGTAACTAGAGAGGAATGTGGGTGAGAGGAGGGGTGTTTCAATTTCAGTATTTGTTTCA
GGATTGGAGGGACTGGAACATGTAGCAGGCAGAGAGGGAAGAATCAGTCAAGGAAGAATTCTGAAGATTCAGGAGGGACTGGAGGAGAAGCATAGAGGAC
AGGGGCACGGGTGAGGGGCTGAGTAGGAAGGAAAATTCCTCATCTTCCAAGGTTGTCGAGAAAGAGGTGAAGGAGGGTATGACTGCCGTAGGTGGAGAAG
TATGAACTAAGCCTCATGCCTGACAATCTCAAGTTATTTAAAGATGTAGGTGGTGAGCAGGTGCTATAGGGTCTTAGAGGGGCAGATGAGTACCCTTACA
TCTGAAAACATCATCCATATCCTTTAAGACTATGTCTTCCTATGGATTTTGTTTCAGAAAGTCCAGGTAAAATCATCATGCTGATGTGTGATTTTCACAT
ACATAACATACTTTCTCTATTGAGAAATGTCTTGCCCCAAACTGTGCAGCTTGTAACGTGTAGATAACTATTTCTTAGCCTRTACTCTTTCAACTATTTT
GTGCTGCATTTTGGTGAAAATAGACAGCCTATTTCATCATTTTGAAGCAACATTTATATAGAATGTCATTTCAGATTTTTGCTCCTATGGGTTTCTGCAT
TGATGATCAACGTGTTTATTTTTAAGCATCTCTGTGAAGTGACTAATAATGGCATCTAAGAAAGTAGGACAGTGTTTCCCAGAGTGTRTTCTCTATGAAC
ACCTGTCATGTGAGATTCTCCTTGGGGGAAAAAAGTTCCATCRTCAAATAYAGTTGGATCATGCTGTGTTTTGTGTCTCTTCTCATAGAGGCCCAAGGCA
CATTAATATATAAAAGGCTATGAGTAGACACGTAGTCAAAAAATGAATCTTGTTTAGCCCAATAATTCCCAAAATTGTTCTACTATAAACACTACCCTAC
CACATTTTTATTTTTATAATACCATTGAATAAGGTGCAGAACTCATTCCAGGAAATGCTGAACTATAGAGGCATATTACCTCTATTCCATACAACACTGA
GGCAGGTGGCTGACAGAACTTGAACAGATTTGTAGTCTATGTGTTGTGATAACTTTATATCCATTTTTTCTTTTTGACACTTAAGATTTTGTGCAAACAT
TGAAATAACTATTAATTTGGCATTCATATTTAGTAACTTTTCAAAAATAATTGTTAAGAGTATGTTTTTATATTTATTTTTCAGATATTTATTTGGCTTC
TTTCAACCATAAAGCCTATTTATTTTCTTTTTGAATGTGCTTATTGAACTCTTATTTAATACTTTGTATGTGCAAAGCACCATATTGGGATTAGAGTAGT
AAGATATGTTCATCCCTTGCCTCCAGAGGATTTGTTGTCCAGAGGGGACAGTCTGAGTAGGAAAGGCTGTGTTCAATGCCAACCTTTTGAACAAAATGCT
TAGAAGCTACTTTGGAGGGAGTGACTGATGGCAAGAATAGTTGAAAGAATCCTCCAGAAAGTGCTATTTGAGGCGGGTCTCAAAAAACGAATAGAAATTG
ACCCAGGGGRATGGAAATTGTATACATTCTAGAAAAAAAAAAATAGAAAAGTTCAGTGGAGCATGACATTTTGGAAGCACACTGATGTCTTTGTATGACT
TGATAAGAAGTTTAGATGTAATTCTATAAACAGCCAGAAGCCTCTGTAGTAGCATTTTAGGTAGAGTATTAAGATCTGATTTTTTTCTACTTTTTAGATT
ACTATAGCAGAAGTGTGGAAGATAAATTGGAGGAMCGAGATTTTGTTAGGGACATTAGTAAGAGACTCAAGGGGGAAAAAAATCTCACTAATAAATGATA
GGATAAATGGATGCTGCATGAGTTTGTATGATTTTTCCCCTCCTTTTTTTCCCCCAAAGGAACTTATGTTTACTTCTATAACTAGAAGTAGTAAAATGTG
TGTGTGCGTGTGTGTGTGTGTGTGTGTATTTGCATAGTAAAATGGGACTCACCTGTAGTGAAGTAACACACTGTGGTCTGAGGACTAACAATATGCCCCA
GTGGCTGGCCCTCTGCCATTTGTAGGCCATCTCAGGGATGACAGCTCACGTGATTAAAGGGCTAAATGAAGCCCTTTTTGGTGGGGAAAGAGGSGGCTTG
GACTCAAGGCAGTGCCCAGTCAGAACCCGAGCTCCACCATGGATAGCAGTGACAGAATCACTTTACCCCACCCCCCATCACATTACTGTTTCCTCACCTG
CAAATAAGGACTATACTATTTATTTTAAACAGCCATTTATGGGTTAAAGGAGATAATGTATAGGAAACCACTTTTTTATTCTCACAATAAACTGGGAGGC
AGGGAAGGTAGAAATAAAACTTATTAAAAACATGGAAACCAATGTTCACAGGGATTAAGTGATTTACCCCAGGTTGTGGGCAAAGGATCTGAGCAAACAT
TTCTCAAAAGAAGACACCAAAATGGCCAACTGGCTTATGGAAGAATGCTCAACACCTCTAATCATCAGGGAAACGCAAATTAAAACCACAATGAGGTGCC
ACCTCATACCTGTTAGAATGGTTACTACCAAAGAGAATGATAACAAGCCTTGGCAAGAATGCAGGGAATAGAGAACCCTATACACTATTAGTGGGAATGT
AAATTAAGGCAGCTGTTTTGGAAAGTCGTGTGGCAGTTCCTCACAAAACTAGCAATAGAACTAACGTGATTCAGCAATCCCACTTCTGGGTATGTATCTA
AAGAAAATTGAAATCAGGATGTTGAAAAGATGTATGTAGTCTCATGTTCATTTCAGCATCACTCACAATAACCAAGATATGAAAGCAACCTAACCAATGG
ATAAAGAAAATGTGGTATATAGACACAATGGAGTACTATACAGCCCTTAGAAGAAGGAAAATTCTGCCATTCTCAACAAGGGTAGAACTGGAGAGCACTA
TGCTAACTGAAATAAGCCAGRCACAGAAAGATGAATACTGTATGATCTCACTTATATGTGGAATCTGAAAAAGTCAATCTCAGAAACACAGTAGAAAGTT
GTTTACCAGAGGCTGGGGCTTGGGGGCAAGGAATGAGGAAAAAGAAGATGTTGATCAATGGGTACAAAGTCTCAGTTAGACTGAAAGAATAAGTTTTAGT
GATCTACTGCATGGCTTGGTGACCACAGTTTAAAATAATGTATTGTATATTTCAAAATTGCTAAAAGAATAGATTTTTAATGTCTTCACCACAGTTACCT
TTCTTTTTTCCATGTACATAGAAAAGAAAGGTAACTATGTAAGGTAATAAACATGTGAATTAGCTGATTGAATCTTTCTACAATGTATACATAGATCAAA
ACTTCACATTGTATCCCAATAGATTCCCCATAAGTGATTGTCTATTTTTTAAAAAACATCTACACACGCACAAAGAAAATGCTTCCAAAAGCAAATAGGA
GGGCATTGCTCTCATGTCTTTTGTCTCCTGGTGGCAAAGACAACCATCACTGAACCTCCCAACAGAAATACCCAGTCTCCTTGTTACATCCATTCTGACA
GCTTCATTAGTCACATAGGGGCTCTGACAATCCACAGGCCAAGTTCTGCCTGGAATTATTTGCCCATAGTTCTAGCTGAAGTGACAGAAACAGTTTAATC
TCAAAGTAGGTGGGATTGCCATCCATATTTTGGTGCCAGAGACCTTACCATGTGCTTCCTCAGCCCTGCCCTGTCACCCACATCATGTCTGCAGAGCTGG
AGTTTCCCAGTGAAGCTTATGGTCCCTAGGGTAATAGAGTCGCTGATGTCTTTGTCACATTAAGGGTGCCACACAGAGCACTTATGAAGGGCCATGGGTA
TCGGAATGAGAACACTCAGMACATCCACAAACGCTTCCTCCCTGACTGCCTCCTGTGCTTTCTCCCCTCTTTCCTATTCCCCTAATTTGCCTTCACCCTT
GCTCCTATGTCTGTTTCTCTCTGTCTTCACACTTGTATCTTATGATGACCTCTTTCACTTACAAGAATTCATAAAYGTGGCTCATTTGCACCCACATAAT
TGAAACTGTACTCCACCAGAAAGCGCTGGTCTGAACTCAGGGAGGACGGACTGTGGGCATTCCCTGGCTTTTCCACATAAATTCTAAGACATTCTTGCAG
CATATGAAGCAAGAGGTGAAAAAGGTGGGGGAAAATATTTAATGAAAACAAATGTGCCCACTGCGATAACTTGCTCTTGAGTCTCTAATCTAAAAAGAGA
GCATGCAAGTGGAATTACAGCCCACTAAAGAAAGGATCCAAATGGACTAAATATTCTTCATCTTTGCCCTCCAGTTACTCCAGAAGCATGTTGTAAGGAT
TAATGAGGGAATAACTGGAAGCTCTTTGAACTGCTTCGTGATAGTTCCTTCCTAATAAGATGACCCAATTACCAGSCTTATTTTCAATATTGCAACTATG
TAGGAAAGCTAAATTCTTATGGTATTCCTTAAGGAAGGATAACCTTCATAAAATGCTACTATAACAGCAGCCAGAGCCAGACAGGTATTACACAACCATA
AGACAGGCTATAAATAGCTGTACCTCTCTCTTGCTACCCTCTTCACCCTCTTTCTTCTCAGTATCTTGGCCTCTTTTCTGATCTTTTCTCTTCTTTCTTA
AGATTTCTATTACTTTCATCCCGGCCTGTCTGTTTCTGTCTTGCTCTTCCTCTCTGTCTGTCTCTCATGCATACATACACACTGTCCTGTGGATGCACGT
CTAGGTGTTAGTGGCAGCAAATGTACTGGAGTCCCACRGCACCAAAGTATGTTAGCAGCAGTGAATCCAYATGGATCTACAGCAGCCTCAATTCTTGCCT
CCTCATAAGGCAGGAGAGACTGGGGCAAGTTTTAGAGCAGGAGTGAAAGTTTATTCAAAAGCTTTAGAACAGGAATGAAAGGAAAGAAAATACACTTGGA
AAAGGGCCAAGTGGGTAACTTGAAAGACAAGTGTACAGTTTGACTTTGACTTAGGGTTTTTGTTCGTTTTTTTGAGACAGACTCTTGCTCTGTCACCCAG
GCTGGAGAGAAGTGGCGCGATCTCAGCTTACTGCAACCTCCACTTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCTCCAGTAGCTGGGATTACAGGC
ACTTGCCACAACACACGGCTAATTTTTGTATTTTTAATGGAGATGAGGTTTCACCATGTTGACCAGGCTGGTCTCAAACTCCTTACCTCAAATAATCCAT
CTGAAAGTGCTGAGATGACAGGCATGAGCCACCGCACCTGACTGACTTCAGGTTTTACCTGTTGGCATACTTCTGGGGTCTTGCGTCCCTACTYCTGTGA
TTCTTCCCTTAAGTGGTGTGTCTGCGTGTGCAGTGGCCTGCTAGCGCTTAGAAGCGGAGCATGCACAGTGCGTTTACTASTGTTGTACTCGTGACCACTT
GATGCATTTTTTCCTTACCAGTTGAGTGTCCCTGGAGGAAGGCCACATACTGGTTAAATTCCGCCATTTTGGCTCTTAGTGCGCATGCCTGAGCCCACTC
ACCCAACTGCTGAGGTTTTATTGGGAAGCTGCTGATCACCAGTTTCAGGTATTTCTGTTTATTGGGAGACTGCCCTTCCCTAGCACTGGCTGGGACCAAT
TATTATTTTAGAAGGACAGTTTAACAATGACCGTCACCTGATGGTCGCCTGCCATTCCTGGTGTGTGCGTAGTGGGGGAAGCCCTCTCCTCCCCTACTCA
TGCCTGACTAGGTACCTACTGTAGCATAGGTATTTACTCATTTGTTAGAGAAGTAATGGGAGTTACCCTTGGGAGGTGGGTCTGACCGTTTTTGTGTCTG
TTCATGAGCATTTCTTTAGCCTTCAGGAAGCTGGGGCTGGATGTGCTAAATGTGCTGCCCATCTCTGGCTAAAGCCTAGCTTAGCCATTGGGATGCTCCT
TCTCTGCACTGTTGGAGGTTTTGCTTTGGCTTCTTCAACTTCCTTGTCTATTTCCTTTCCAATTCTGTTTACAAATCTCTATAACATCTTGTCCCATGTC
TGGTTCAGTGAATTTGTGATGCAGAAACCTCTGCTGTGTCCAGCAGTTTGTGACACCCCAGAGGGGGTTTAAGAGGAATGAAAGACCCCATCTCTGTCTT
TTTTCTTTTTGAGTTGGAGTCTCGCTCTGGTGCCCATGCCGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAWGTGATTC
TCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGCCACCAGGCCTAGCTAATTTATTTTTTGTATTTTTAGTAGAAACGGGATTTCACCATG
TTGGCCAGGCTGGTTTCAAACTTTTGACCATCTCTGTCTTTAAAGAGCTTACTGTAGTTGGAGTGAGAGGAATTCCACAAACAATGAACACAGTCAGAGA
GTATATAATTGAGCTATACTGATACAGTTGCCTTCCAGAAATGTGTGACACGACTGGCCGAAGTGACTCTGGGCAGTCAAGAGCAAGAGGATCAGCTAGA
GTTGAAGGGTAAAATCTCAGAAAAGGGCAGGGAGGTCTTGAGATGACTCTTGAGGAACTGGGAGCATTCCAAGAGGGCTACGAAGTATGTACCCTCCATG
CAAGGAGGACGGCATTCTTGGTAGTCCAGGAGCTTATTGTTCTGCTGATGCAAACAAGCTTCTAGTGAGAAGGAAATATTTCCCTGAATCAAGTGTCTGG
CTGCATTTGGAGTTTGGACACCACTCAGTTTCAAGGCTCTGGAGTTGTAAGAAGCTTGCAGCGGCAGGAAAGGCCCATCAGGCAGGCCCATGAGGAATGT
GCTCCCCTCATGCAATCAGTCTGCTGTTATTGCTTGGTTAGTGCCCAGGGTGGACAGGGGCCTTTTGTATTAAAGCAATTAATTTTACAAAAAGAGGAAG
AAACCCTTATGTTTCTGTGACTAAAATGACGGAAATGAAGTAGTGGAGACAGCTGCAGTGGCATTTTCCATCAAACAGCTTTTCTATTTGTGCAACATAT
TTCTAAGTGATAGAAAATGACACACTCTCTCCATTACTTCACTTCCATCATTTCCATCATTTCAACCTTTTCTAACTTTCATATTTGTGAAACAAATTGC
TTTAAACATGTCAAAGACATTTGAGTGGAGTGTTAGCCAAATTTTAAAAATAAAGATGATTCATAAAGACAGTGCTTGTGTTTATAGCCATCAAGACAAA
ATTTCAGGAAAAAAAATCACAGTCCTAATTACTGAAGGCGCATGCATAAGGTAATCATATTTGGAAGTTAGAAACAAATCTCTTTTTGCTCTCTGCCTCT
TTTCCCTTAGATTTATATGGGTTGGTAAACCTGGCCTTGTGGTACTCAATCATCCTTGCTTCAGTGATTCACTAAGTAACCCCTTGCGAGTTGATTTCTC
CAGCCTCTGGATTTATTTGCATTGTTATGCAATGGGTGGAACACCTCACTGCTGTTCTGCTCCTCAGCAGTTAGTTCTATCTTCTCTTACAGCTGATGCT
TCTTGAGGGGAAAGGCCACCTTGTGTCTTTTGTTAGAGATAGGATGTTGCCAAGGGTAGGGCAACCAGGAGGGTATCCCTTAGCATGTAACTTTGAAGAA
TCAAGATTGGTGCTCCACACAAAGTTCGTTCAAAAATGTTTCTCTTAAGAAACTTAAAAACCTACATCGCTGATGGAAAAAAAAAAGGAAGGACATGAAT
ATACAGGATAATTGTACAAAAATTGGGTACATGTATTGTTGTTGTTTAAAAGTTTTTTTTAAATTTCGAAACAAACTCCACTTTACAGAAAATTTACAAG
ACAAACCATACAAAGAACTGTTTTTTCCCAGAACCGTTATTAGAGTTGTCAATCTGATGTCTCGTCATCCCTGAATACTTTAGTGTGTACTACCTATGAG
CAAAGACATTCTTCTGTGCAACCATMAAAATAAGGAAATTAACACTGATATTTGATGGTAGTCTAATCTTTAGAACACATTTGAGTTTTTCTACTTGTTC
AGTAATGTACCTTATAGCAACAGAAGCTAGTCCAGGATCACATGTTATATTTAGATGTCATGTCTCATGTCTTTAGTTTTCTTTAATTTGGAACAGATTC
ATAATCTTGCTTTGACTTTCATGATTTGACACTTTTGAACATTACAAGGCAGTAATTTTTAGAATGCCCCTCCATTTGGGTTTGACTGATGTTTCCTCAC
TTGATGTTAAAATCAAGTCACRTATCTTTCACAGGAAGATTGCAGAAATGATGCTGTGTTCTTCTTGGTGCCTCCTACCTGGTTGCACATAACTTTTACA
GATCCCATTACTGATGATGTTAACTTAACCACTCGATTAAGGTGGTGGCACAGGTTGAGTGCCCAGGAAGTAGACTGTGAAATTAGCATGCAAGCTGTTG
ATTAGGGAGTGCTGTTGGGATCAACTCCTGTGGAAGGAAGCAGTATTAGGTAGTGGGGGAGTCAGGCTGCAATGCACTCACACCAAAGGCCTCAGATGAC
CCTCTGTGAAACTCTGGAGCTGAGATAGCTCTTCATAGTGCTCCTGAGATGAGGACAAAGGGATGGGGCTTTGTTCCTCCATAGTGATCAGTCACTGGAT
GTGAGCCACCCCTGGAATGAGGTGTGACCCTGGATGAGGCAGTTTTCTYCTGCTAAGGCAACTCCCAAGGAGGCCTGAACCACCAAGGACTATTTTCTGT
CATCACTCCCAGCAGCTGAGGATAAGCCTGTCGGTCATTTCCGAAGGTGTCTTGGGCAGAACATCACAGAGCCCAACACAGAGGTGACTGTTGGGGTTAC
CCCTGCAAAGTTATTCTTTGTTCCTTTTATAGTTAATAAGTACTTTATAGGAAATTATCTTGAGACTATAAAATCCCATTTATTACCAAAATTATTATTG
ATAGAATGATTGATTAATACCTGGATGAATCCTGATTTTCTCTTTTAATTAAATAGGTTACTTAAATCTTTTATTATCATTAAATAACTTAATGTTCAAA
CAGCCTCGATTTTGCCAGTTGGACTGTTCCAACTAGTTTCAGTATCCTTACTTCCTCATAGTCTGTTACAGTAAGATGTTTCAGGCCCGTTTTGAGTTTT
CCCTGCACCTACCCTCAAAATAACCATTTATCTAAGGAGAAACATTTCTCCAAAGAACTCCACTTCATTTTAATAGAAAGTAGTATTTAGAAACCAAGGT
CTAGATCCTAGGTGTGCTCATTAGTATTTTACCTCCTTTCAGTATTTCCCAATTCAACCTAGGTATATCTCACTTACCATTCTTTTCACCTCTCTGTCAT
ACCTATGGTGACCCCTGATTCATGACTCTTGTCCTCCATACATTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGT
GCAGTGGCATGATCTCGGCTCACTGMAAGCTCTGCCTCCCGGGTTCATACCATTTTCCTGCCTCAGCCTCCTGGGTAGCTGGGGACTACAGGCGCCCGCC
ACCAGGCCTGGCTAATTTATTGTATTTTTAGTAGAGGYGGGGTTTCACCAAGTTCGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCTGCCTTG
GCCTCCCAAGGTGCTAGGATTACAGGCGTGAGCCACCRAGCCCGGCCGTCCTCCATACATTTTTTATCTTTGAGCTTGTCATTTACTGAGTCTTCACAAT
GTGCCAACAGTGTGCTCTGTGTTTGCATTAGTTTTATGTTGCTGTTGTAACAAAATATCATAATCTTAGTGGCTTAAAACAACAAACATTTATTATTTTG
ATATAAGGTATAATGATATATAAAAGGTGTAATGACATCTTAACTGAGCTCCTCCTACCTAGTGTCGTCCCTTAGGGAGGAATCAGTGGAATTCAGATCC
TGATTATTCTGGCTCTAAATGGTCCAGAATAATCAGGATCCGATGGCTGGTCCTGGTATACCTGGTCTGACACTGGGCCTGGGATCTGGAAAGGTCTTAG
AAGAAATTACATTGAGACTGTAAAATCCCCTGAGGAAGAAGACAAGGTCTTCAGAATGTGAAGTAAAGAGCATGCCCTCTCCCAATTTTATGCAATGAGT
GAAATTCTATTATGGCAATTTATTCATTTAAGATATGAAGGAATTATTTTCTACAAAGTGTAAATATGGAGGTAAGAAGAAGTATTAGCACTCTTCTTAG
ACATTAACATTTTAGCAAAATGAATTTATTAGACTCTTGCCATTAACTGTTAGCTGAGACCAGTTCCCTTAGAACGAGTTGCCAAATGACCGTTTTCATG
GGGAGCCATGCGATGTTCAATGACTAGGTGCTGCCAGGGAAGGCTGGCCCAGCTGAGTCCCAAAGTGAGGATTCTCCAGCCACTCCGCAAACAGTATGAA
ACTCCAGGGTACATGCTTAAAGCACTCTGGAATTTAAGTAGTGGCAGATGTTTTAGAAGAAATTCCACTGTGCCACTTTCCAAAGCACTGGAATTAGGTG
TTATTTACGGAAGGCAATATTGTACCCCTTCAAGCCCACAAATAAAGAGGTACTCAGCAGTGACCTTTATTAAAGGCAAATCAGTGGGGAACACATGACC
AGAGGAAATGAGAGAAGATTGGAATATATTCTAAGGCCTTAAAAAGATGTCAAGAACAATTGTGTTCCCCCACAAGGCATCMTTAGGCAAGGATGGTCCA
ACCTCAATACGGTTTCTTTACATCCCTGTGTTTCAGCTACATCCGTGGTCTCYTGTATTGTTTATCTATGTCACTTGCAAAAAACTAGGCTTGAATACAG
TTTTTTAAAAGTGATGCTTTTAAATATAAGCGGTAATCAACTTATGAAGGAACAATGAACATCTATAGTAAGCAAATAAACATCCACACATAAATATACA
TATGAATAAACAAAATGCAAATGTGTGTCATTCTTTCTGCCAGTCCTTTGAGTTCCATATTTGTTGTCATGTAGTTAATAAAGTCGTTGACTTCCCCCAC
GGTCTACTACTCTTGCTCTGTTATTCTCATGTGGCATTAGTATTATGAATTAAATTACAGTCTAAACTTGCGTATTTAATTATAAACCCATTGAGCACAG
GAAATGTATCATATCTCAGCACATTCACCACCCTGTCTCCTCCAGATTAAGTGGTATCACTCTGCTCATCATAAGCACTAGTAAACATCTGTTTAAATAA
ATGTTTATTGAGTATGTATTGTAAATATCCACTTGTAGGTTAATACTAGATGGACTGTACCATACTCCTTAGAATGTTTTCTATGTTGATTTTTGTTTCT
CCARTAATTGCTTTAATCTCTGGCAATGCAAACTCATTTAACACTTGCTTTTATATATTGCATTCATATATACTCCAAAGACAAACAAATGCTTTATCAG
AATTACCAGTGATTTATTCTCATTATTGTTGCCATTCAATTATTAACAGGAATTGACTGTTTTAGCAAAAATGTCATCAGTTGGCCTGTTTTGTTTGGAA
GACATTCAGCTAAACTTTTTCCTTTGTTGGCTAATGACACTTTATTTTTTAAGTCAGTTGCCATGATTTTAACGAAATGAGCCTTTCTTGTAAAACCTAG
AAGGCTCATTCTGCTCATATAATGGATGGAACACAAGCAAATGAGCAAATGGTGCTTTGGCTCCATAGACTTGCCATTTGCTGGGGGAAATTCAGTTGCT
GTAGGAGATTCTTTACGGCATGTGTTCTGAGCTGACTGAGAACATGAAAGAGATGGGTCTCGAAGATGCTAAATGCAGTGCATCTGGTCAGTGACCTTCA
TGTTCAGTGCAAAGTGTGCCTCCCCACCAAGTCCCTCTCCACCCCTTGGGCTTCCAGACCCCAGCACGAGGGGTCAGAAACCCAAGAAATATGGAAACAT
TCTTTGTCAGTTGAAAGAATTGCATAACAGTTGGGGTCAGATGGGGCAAAAAGCTGGGTATGCAGTTTGGTTTATAACTGTGAAATCTGGCAAACTACAA
TAAATTAGACATTGTGACACCAACATCCTATTTCTCTGTCTCACATCTCTAGATCTTAAAGAGTTTAGCCTTCATGGATTGATAGAATAACACAGTCTTG
TTTAAACTCATGCCAAGGAAGGGCTGGAAACTGCCCTAGAAACAATGGTCATGTAGATGAACTTTGTGCTTCTGGTGGCCACATTTTTTATACCATGTCC
CCTGAGCAAGTTTCCCTATTTCCAACCTCCACTTTCCTCCCTATTTCCAACACCCAGTTCCAGCTTTTAGGAAAGGTACATAGTGCAGTAAATTTAAGCA
AACACATTGCCTTTCCCAGGGATATAAACATTTCAGCATCATCTCTAATTTCTCTTCTGTTGGTAGGATTTTCATTACCAACAAGCAAAGGGGGAATATT
GAGAGGTCAAGAGATCTTCATAGCAATCCTGATTGCTCTCCTGCAGTCTTCACAGAACAACCAAAGTGATTTTTTAAAAGAACTTAAAGCAGACCATGCC
TCTTTTCTAGTGACTGCTTTTCTCAATCAGAATAAGATCCAAAGTCCTACAAAGCCCTGCTTGATCTGGCTGTCTCTGACATCATCTTCCATGGTTTCCC
CTGCTCCAGGAACTTTCTCGTCTCCCACAATTCCCCTGCTCAGGCACTGTCACCTCCCACAATTCCCTCTGCTCCAGGCGTCTAATCTCCCCCAATTCCC
TCTGTTCAGGCACCTCATCTCCCACAATTCCCTCTGTCCCAGGCATCTTATCTCCCACAGTTCCCTCTGCTCAGGCACCTAATCTCCCACAATTCCCTCT
GCCCCAGGCATCATACCTCCCCCAATTCCCCTGCTCAGATACCTCACCTCCCACAGTTTCTCTGCTTCAGGCACATTGGCCTCCTCAAGCATGCCAAGTA
CCACCTCCCACAGGGTCTTTGCACTGATGACACCTGTCCCCTGATATTTGCACTGCTCATTCCCTCACTTTTCTCAAGTCTCTTCTCAAATGTCTCCTCT
GGCCACTGTCTCTAAAATAGCACCCCCAGCTCTGACCCTCTCTGTCCTCTTAAGCTGCTCTAGTCATTTTTTCATAGCACTTGTCTCCGTTTGACGTATC
ATGTATTTATTTGTTTATTGTCCGTATACTCCCACTAGACTATACACTCCATTAATCTTTATGTGTTGACACTGCTGTATTCTCAGTACCTAGAACAGTG
CCTGGCACTTAAATGGTGCTTAATAAATAACCTGTTGACGAAAAAGATCCTGAATCGTGCCACAGCAACAATTACTTGTTAATTGAAAAATCACAAATCT
ATACATTTGGAAAGGAGTCTTTATTTCTTATAAAAGGTTACAGCCTGCAGAGTGACTATCCGGACAGGCTGAGAAGCACAGCCTCTGGCAGAGGCTGAAA
GGTGGGCACTTCAAGGGAAAGGAAGATGGAACAGGAATTTATGCTGAGCTGGTTGGCCAAATATACATATTCCACAGGTTACAGGAGGAGCTATGAACAT
TTATGAAGAGGGTCTTAATGTATGCATACTGAATAAACATGCATGTTATGTGTGACCCATGTTCGCTTTGGGGTGAGACTTAACATTTATATGTGCTTCA
GTTAGGCCCTATACATCAAAAGGTGAAGCAGGGACAGGAATGCATTGTAGTGTGCAGCTTCGGTAAATCGTCCAGAACCAGTCCATGGTTGATAGTCTCT
TACCAGGAGAAAGATGCTGAAATCAGTCTCTTACGCAATCAAAACTGTAGTTGTGGCTGGTGGAATGTGAGTTAGTTAGTCAGCATCTGGTGATGGATGA
ACTGTAGTTGTTCCAACATTGCTCATCTTGAGACCAGGGCTTGTTTAGCTGCTAGACAAAAAGAAAAACTTTGTGGCAGTTAGAACATAGTTTATTCTTT
AAATGCAGGGGTTCATGACTTAATCCTTGCCTGGTGTGGCCTTGGGTCTTGTTTATAATTATATATTTTATTGCCACAGTGTCAGTCTTATGATCTCTAT
TTTAACATTGATTCTGTTCAATTTTGTCTAAACAGCAAAAGGAAAGGGAATATAGTGAGGTGTGTACCACCTCCCATCCCATCATGGCTGCGGCTCAGTT
TTTAAGGTTTCTCTGGGGTCCCCTTAGCCAAGAAAGAGTCTGTACAGTTGGTTGGGAGTGGGGTGGGGATAAGATTTTACTTTTAGTTCTCACACCTTAT
TCACTACCTGTGTGGTTATGCTCAGAAATAAAAATAAAATAAGTTTAGTAAGATTTCTTTGCTATTATAGCCATCAGACACCATATAATACGGAGAATAA
TAATTTGTTCAGTTTATGAAATGCCCTTCACACACACTATTGTTTAATCCTCATCTTCTGGAATGCCAATTTTACAGATGGAAAATGCACTGAGAGGGTT
CATTAGCCTCCCCAGTCACAGCTCTGGACCAAGCCGACCTGGGTTCAAATGATTGTTCTGCATCCTGATAGCTATGTAGCCTAGAGCTAGTTACTTAAGT
TACCTGAGCCTCAGTTTTCCCATATATAAAATGGACATAACCCTTAAAGGTGATAGAGCAAATAGAAACTGCTCTAGATTTGTAAGCAGTGGGAGCTTAC
TGGAGGCAATTGGGTACACAAGCGAGTGAATGACTAAGAAGCCAAACAAACGACATGGTGAGGCAACCCAGGAATTAGGAACAGTAGAAAACTGCCACCA
CACCAGGAGCTGGAGGCACAYGGAGGAGGAGGTCCCATCAGAACCCAGAAGGCATCAGCAGGTGCTGGAGCCATGGAGGAGACTCAGACTCTCACCTCAA
GACAGAGAGAGCACAGGAGACACACCCTGACATCTCCCCTCCTCCTGCTTCCAATCCTCTCTTTGGCCGAACCTACCTCGAAGTCAGAGAGCAGAGGAGC
RTGGGAACATGGCTTCCTGTGGAACCTGACAGAAGATTCTAGGGGTGCAGGCAATAGGTCTGAGAACAGCCAGTCTGTCAATAGGTGGAGTTGCTGAGAC
AAACTATAAGTGGTTGTTATTCCCGAATGGACAACAGGAAACACAAGTCCAGATTCTTTGACTCCTGTTCCTCCTGGTCCTTCGGAATTGAATGGGCAAC
GTGAACAAATCTGCAGTGTAATGTTATGCTCTGTAACCAACTTTGTCTACATTGTAGAACATTTTCTGCTGGTTATTTTTTCTTAAAGACTAAAAATATC
CTGTCTTCTCTTAAATGAGGCAACACACATGTGGGTTAGGGAATTTCTAGAAAACTAGCTTCCTGGAGTAAATTTGTATCGCAGTTAACAACACCAGGTC
CTAACTTTTGGAGCAAACTCCTCATAAAGCAGCATGTTCTCCCATGCTTGAAGCTTAGTCTGGAATCTTTGGGTTAGAGGGAATGACTGTTTGGTTCRTG
GCTGTATCTCACTTAAAACAGTGCCTAGGGCCAGGCACAGTGGCTCACGCCTGTAATCCCAGCACATTGGGAGGCCAAGGCGGGTGGATCTCTTGAGGTC
AGGAGTTCAAGACCAGCCTGGCTAACATGGCAAAATTCCCTATCTACTAAAAGTACAAAAATTAGTGGGTGTGGTGGCCCACACCAGTAGTCCCAGCTAC
TTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGAAGGTGGAGGTTACAATGAGCTGAGATGGCACCCCTGCACTCCAGCCTGGGCAACAGAGCAAGA
CTCCGTCTCCAAACAAAACAAAACAAACAAAAAAAATAAAAAAAATGGTGCCTGGCACCTTGTAGGCACTGAAAAACTCTTTCAAGAATGAACAAAACCT
GGGGTCGCCTATGGCTCTGCCCCCCTACTTAATGCCAACATCAAATACCTGTTGCGTCTACTTCCTGCTTCCRCTGGCACCCCTCCACTTACCTTCCCCC
GAGAGTCAGTCAAAGACACCATCATGCCTCCCTTGAGCACTTCAGCACCCTCTGACTGGTTTCCTTGCTCCACTCTTGTCCCTCTCAAACCATTTTCCAT
CTTGCAGACAGACTGATCTTTCTAAAATGTAATCTCACCAGATCACTTAAGCTTTTCAATGGCTCCTGCCCCATCTCCATCCCCTCCCTAGGACACACTC
TACATACCTTTGCACAGCGTTGGAGGTCCCTTTGCTTTTTACCCTCCCTGGGTCAAATGCTTCTTCTGCCACAGGTATCCTGAGTTTCCTGCCATTCCCT
TTATGCACCATCCTTTCCTTATTCCCTCAGTTGGTTACTCCCCCAGCTGGGAAGACTTTTCTCTACCTTTTCCACCTTTAAGATTGTATCCCAAAACCAC
ATTCTCTGAGGAATCTTCTTCAACTTCCACAGACACTGTTAGCCACTTCCTCCTCTGGGTTTCCACACTGTGTTCCTCGTGACCAGTAGTCCCAGGAAGA
GGCTGGCATGCTGTAGGAATGTTTAAAATGCATGCACATTTCACTGAAGGGGCTTCACAGTCCTCTTTCTCAGAAATAAGCCATTCTTAGGGAGAAATTC
TCCTATCTCAATGCTGTTCGTATTTTCTCTGAAGTTCATGTTATGTTCTTACTTCCTGTGAATGCCACTGGCATCATCCTGAGACAGGGTGTCCTCATGT
TCACATTCCTGCCTTGGTTAGCCATCTAAGTGGTGCACTTCTTAAAGCCAGGGACCAGGTAGTCAGCATCAGGTGACAGCCTTATGATTTMTTTCTGATT
CACTCAAAAAACCTAGCACGATGCTGGTTTCATGTATATCCCACAAAATTACGCCTTACRTTTACTCCAAAAGAGGCTTTAAGTGATGTAGGAAGCACTG
AAAGAAAAGTAAAATAAAATCAAGGTAGAAAAGACACCTTAACAAGTACCTAGCTTCCATTTGCCAAATATTTATTGAGCACCTACTACGTTCCAAACAT
CATGCAAGCTGCTGGGTATACAAAGTTAAACAAAACTCCATCTCTGTCTTCACAAAGTTTCCCCCCAACCCTWCCTAAGTTTGCCTGAGCTAGAATAAAC
ATGGCCAGGAAGGTCTCTTTTCTTTAGGAAACATCTGGAAATATGTATGTAATCTGCCAATGGCAACTTAGCAATGGAAAGGGCGGATTTCTACAGTCCT
CAAAGAGATGATTTGCTTTTGAATACTTGTGTTTCTCTCCTCTTAGTTGCTATCATCCATGATTTCTGYGCCTTTTTGATTGTTTCTTTTTTGGTGGTGG
CATTTTGTTTTTGTAGCTGGTAACCTGGTATTTCTAAGAGTTATTYGGTGACTTATTCCCACTTGGTCTCAGCACACTCCCTTTCCATCCTAAGACTGTT
AGCACAAGTTTTGCTTCCTTTTCCAAAGCAACTGTATTCACACTTCCAGCGCTGCCACATACATCATGCTGTTACCTTCATACTTCAAGGGCCCATTTGG
AAATAGATTGATTATTTTGAACATGAAAGGTGCGCCTTGGGAAAAACAAATGAATCAAATGGAAAAATGAATTAACATCATGAAATTTACCTTCTCAGCT
GAAGACATGATAGATTCCTGTGTTCCTTAGAGACAGTCCTCTTATAAGAATGAACTCTTAAGGGAAGTCTGCAGGTAGATGGAGTCAGGGCTCAGCTTAA
AATGTGTTTATATAAGAATGGAAAACACCCTCTGAGGAAGAAGCTTAGAAATAAAAAAGTTTCTTTCTTGTGAGGGGTGCTTGGATTGAACACCCAGATT
GCTGTGGGCATCTCATTCCAGAGCTTCTAACATCTCTATGATGATCTTAGTGGGGCTTGCCATTTGCAGAGAGCTCAGTTCAGCCTCACTGACATTTATT
AGGTACCGACTGGGTACAAAACACTGTGACATTCTATGGGAGCTATACAGACATATTAGACAATGTCTTCAGTTCAGTTTAACAAGCGGAATAGATATCT
AAGTGAATAAGGAGAAAAATGTTTGTTTGGGCTTTTCTGGCAAATAATTGTTATAGGAAAAGGGGTCTCGATGCAGACCCCAAGAGAGTGTTCTTGGATC
TCATGCAGGAAGGAATTCAGGGTGAGTCACAGAGAGCAGTGAGAAGAGATAGTTTATTAAAAGCTGCTCCATTACAAAGTAGGGTATCCTCAGAAAGCAA
GTGGAGGAATGCGCTGTCATTGTTTTAAGCTTTTCTTACATAGGAGTCTTGTCTATGTAAAGACTAAACAAAGCTGTGCTTTTGTGTGGGTAGGATGACA
GCATGACAAAATTTATTATTCTATTGATTTAAAGAAAACTATCCTTGACATTTTAGTGTGTGAGTATATCAAAGCATAACTGTAATTCTCTTGAAAGTAT
ATATCATTATGGGTATTGGGACATCTGGACTTTCTGTTGTTGTAGGAGTTTGTCCTTGCAGGCATTACTAAGTTGTTTCCTTAGCTGTCAACATCTTAGG
ACCATGGGTTTTGACTGGCAAGGAAAGTGCCTTGCTAGTTTTCAGATGCAGTTGATTTAAAAAGGTTGTGACCCTGGCTCTCCTACGTTCGTTTCCCTAA
CGATATGGCCAGAAGTCTTCTTATTACTAAGTATAGCATATGAGGGGCACAGACTGCAGCCACTGGACTTACAGATGACATGCCCAAAAGAGGAGAGAAG
TGGGAGTGTCCTGAGTTATCAGCTTCTTTATTTTGGAGCACGAGAGGGAGCAGTGATTGATAGATGTGTCTACTCAGTCACTGATACCAACCCTCCTTGA
TGGCAAGTATGTTCTTCCAGGTCCTAGGCATGAGAGAGGTGGAGTCAGAACAGTTCTATTAGGAACAATATTCAACCATACTGACCATACCATGTGCTAT
TTGATGTCCTTTCTAGACTACCTGGGAACCTAATCACCACCTAGGACATTGTATTTTTAATGTAAAAATATTTCAAAGCCATCAACTAACCCAAAAGATT
AATTTTTTAAAAGGCAATGAATTCTTCTAGTGGGCACTACCAATGCAGGGCTTTGCGTGCAGTGGGCTCTCTGGTCTGTGGAATGCATTGAAAGGTTGAG
AGGACATTTTCCCCAGGGTCACATAGCACTGAATTTGAGCTGTGGCTAGATTTCTCTTTCCTATCTTGTGAAGAATACTAATATCAAGAAACTGTGCACA
AAGCTCAATCAAGCCTAGGTAGCTAAGGTTGGAAAAGAGTAACRTCACAAATGGAATTAAAGATTTTCATCTTCTTCCTCCTACATCCCAGCTGGGGGGA
TTAAGGTAGGTCTGTGTAAGGAGAGTGAGGCCCTCAGTAAAGGGACAATGAGACATTCGAATATAGGCATATGGTCCAAGCGGCTTTTGCCTTAAAAACA
TTAGTTTTGTGGCCTCAATAATAATTCACAAATGGAAGCAAGCACTGAAACTAAGAGCATATGTTAATTTCTAGATCACTTGGGAAGATGGCACTAGTTT
TTGATAAGTGTGAAAAAATGCAATTGGTAATTATAATATTTCCTCATGTTTAGTAGTCCAATTTCAAAGGCTGCAATTATTAAAAACAAAACGGGATTCC
TTTCTTGGATGCTGTCTTTCCCGATGTCTTTTTCTTGCCCTGATGTTTTTAACGCAAAGTTGCATGATTTGGGGGAGAAAAACACATCTATCCAGGCATT
ATATACTCTAGGCAAACACGTGCATGGAGGTTCCCTGTATGGAGCCATGTTTTCCATCCAGATTGGGCCAAGGATAGCTGATGGGCAGTCATGGATGTTG
ATGGATGGGTTTTCCMAGGGTAGCTGGATTGTGGTCTCGTAACCATGCCGACTCCTGGGGCTGAGAAGGGCTATTTAGTGAAATGAAATACTACTCTGTC
ACAACTTCCTCACTCACAATTCAATCATGGAGAGTACTTCCCCAGTGCTGTCACTGAAATCATTACATTCAGAATTAAACATGGGTGTAATAGAGCAGTC
CCTGAGGTTCTATTGGCACATCAGGTTCCACATTCCTAACCAGCTTTCCCATACAGGAATATGAAAAGCCTGCCAATCAGGATTCTTTTTCCTTCCTTTG
GAATTAATCTCACCACTCCCTGTCCCTGATAACGCTTCCATAACCTGTTCCCGGGCCACGTGGCATCAGCGTATCAGCAGGATTGCTCAGCCTTCACCCT
TTGGTGTCTGACATTACTTTGGAAGTCTTCCCAATGCAAATCACAAAAAAATGAGTTGGCCCAGAGAGACCCTCATGCAGGTTCTCTCCACCTGGTCTTC
CTTCTCTTCACTCACTCAGTTGTTACCTCCTTTGATCCACATTTCTGGCTCACACAACTCTTATCCAYGGCAGCATATTTTCTCAATGTCCCTTTTCCTC
ATATTCCTTTGGACTTTCCAGTTTTATTCTTCTCTTGTCTCCTTTCATCTCCCTAGATCCCTTTTGCCATTCTCCACCTTCCTCCACAGAGGAAGCATGA
CATGGAGCAAAGAGAACAGGCTTCCCTGTCCCCAGTTCTGTCTCCACTTCTGCCTAGCTATGTGATGTGCACACATGACGCCCTCACCAAGCCTCAGTTT
CCCRTCTGTAAAAATTTCCTCACAGAGGTTTTGTAAGGACCCCAAGAAATAAAACTTATTTCCTGTCACTTTATTTGCATCACTATGTGAACTGCCTTGG
CAACTCTAAACAACTTTTGCAATCTTAAAATTGAATATTTTAGCCATGAATCATAAAATCAATAAAAAGCTACAAACTTCCTATGTTTTCAACACCCCCT
GAGACTGTGGGGAATTTAGGCGACTTTAAGGAAACTAAAGGTTGACCTACTAGTAGTACAGATGTTTGCGAATAGTTTAGAAACATATTTCTCCTTGGAA
GGAGAAGCTAGGTGATGGTATTTTCTTCTTAGGCTCAAGTGTTAGACTTCAAGAGTCTGTAATAAATCGCTCCTTAAATAAATAAAATGTGAAATCCTCT
AAGGCAGATGTTGGCAATTGTTTACTGTAAGGGCCAGCTACTGTGTTAGGCGTTGCAGACCATAGGGACTCTGTCACAACTACTCAACTCTGCTCTTACA
AGAGTAGGGTTGTATTGTAGCACAATAATACACAAGCAAATCAACATAACTGTGTTCCAATTAAACTTTATATAAACAGTAGGTAGGCTGGGCGCAGTGG
CTCATGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGCAGATCATGAGGTCAGGAGATCAAGACCATCCTGGCTAACAAGGTGAAACCCCGTCTCT
ACTAAAAATACAAAAATTAGCCGGGCGTGATGGTGGGCGCCTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGCAGA
GCTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGCAACAGTGCAAGACTCCATCTCAAAACAAAACAAAATAAAACAAACAAAMAAAAAAA
CAGTAGGTAAGCTACATTTGGCCCGCAGACTATAGTTTTCTAACCATTGCTCTAAAGGATGAATGGAGATTACATTGATCATTAACAACTCAGAAAATCA
GAAATTATGATTGAATGGGAGGTTTCAGGTGACTCCATGATGATTCTGGAATTATTAAGGCTTTTGGTTACTAATAAATGGCAACCCTTTTTTTTTTCTT
TTTTTACTTCTACAAGTTCTCCTGATGGAAAAATCAGTCAGCTCAAGGTTTTTTAGTTTGGGATGAATTGGCCTTTGAAATAGATTTGGGCTTTGATAGG
TTTGTTGGCAATTGGTAAACCCATCCTAATTTCCCACAGATGGAGCAGAGAAGGATCACTTAGAGGAATCAGAAAGCCCAGGACAACAGGGAAGTAATGA
TAACTACCAATTATTAAGCTGCCCTCCCCATCACAAACTATGACCACCATGATCTCCATTTTGTAGAAGAAGCAAAGTTTTAGTTGACAGGGGATGAGTG
CTTTGCCCGAGATCACACAGAAGTGTTAGAGCCAGCTGAATTGCTTTCCCCTTAGCCACAATATCTCAATCAACACAAGTAACGTACTTTCCTTGGGACA
TTCACCTTTCTTCAGATTCAGAACCAGAGAGSAAAAAAGAAATCACCCCTTCTTCCTTCTGCCTTTACTTTCTAGTAGAAGTTATACTTAAAAAAAAAAA
ACAATTTGCCAGGCATGGTGGCTCACACCTGTAATCCCAGTACTTTGGGAGGCTGAGGCGGGGGGGAACACCTGAGGTCAGGAGTTTGAGACCAGCCTGC
CCTACATGGCAAAAACTTGTCTCTACTAAAAATACAAAAAGTTAGCCAGGCATGGTGGTGGGTGCCTGTAATCCCAGCTACYTGGGAGGCTGAGGCAGGA
AAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGACTATGCCACTGCACTCCAGCCTGGGTGGCAAGAGTGAAAGTCCTTCTCAAAAAAAAA
AAAAAAAAATGAGTGCCCCCTCAGCCAGCCCCTACTGTGTGCTAAGCATAAAGCTTTCATTATATTATAAAATCTATTGTCTTTTTATTTCCCAAACTAA
ACTGCAAAGAATCAAGAAAATGGAAGCTAAGACAAGTAAGTGATTTGCCTGAAGTTGCACCAGTAGTTAATAGTGGAGTCAGAATTTGACATGGTTCTCA
TCAACTCCAAAACATTTTCAACTCACACAGCTGCCATAGAGCTTAGAACAGGCCGACTCTCAAACCAGATGGTCTGGGTTCAAATCTGAACTCCACTATT
TGCTAGTTGTATCACCCTAGGTAAGTTGCTTAATGACTCTTAGTTTCCTGATTTGTCAAATTAGGATGATGATAATGGTTTCCTTCTCATCTTTTGTTAT
AGGGAATAAAGGGGTAATAAGAACATGGTAAGCCACATGCTTTGGCTTTTTCTGTGGAATATCAGCTCTATGAGCACAGAAGTTATTGTCTGTTTTCTTC
ACTGTTGTATCCTTAGCACTTAGGATAATGTCTAGCACATAGTAGGCAATATCAATATATGAATGAAAAATGTCAGAAGTAGTCTTTAAATTAGGTTATG
ACTGGATTCAAAGTCAGCATGAAAAAGCATAGCTTTCCTTTTGCTTTACTATTTTTGTATAACTTGGATTTGATAGGTGAAATTCAATATGAGTCTTTGA
AGTCTTAATTTAAAGTGTAACAGTGGAAACTAGTGATTGTCTTCATTCTTTCCATGTTCCCAACAAAAGTAGAAGTTAGTACAAAGGTGAAGCTTTTAAA
ACAAAAGTGGAAGTTAGCACAAAGGTGAAGCTGAGGTTGAGCACATAACAGGTACAAAGAGTGCTTTCAGATGTACTTCTCTAGTTTTTTGCTATTCCCC
AAAGTGCATCCTTACATAATTAGCTTTAAAATTCCTTTCATCCCTTATTTTTTTTTAAATCTATCATTAACACGTAGATTTTTATCTCTAAGTTTATTTT
TACTAAACTTGCATCTTTTTAAATACGACGTATTCTGAATCTAAATCAGTATTTAGTGACAACAGCTGCTGGGAACCACTGTAATAAATGAATTATGGGT
CCCATTTACCTGGCAAGATTGCCTTTGATGTCTACACGTCAACAGTGAAAGGGGTTCCAGAGAAAAACAAAGCCTCTGGTAAAAAGGGCAAGCTCATCCC
AAGATTGAGTATGCACGAAGAGGGAGCAGAAACAGGAGATGGGTGCCTCTGGAACAAACATGCTTATGCAGGTGGGTTTATGGAGGGGCTCCTGAGAGGS
TGAGTCCCATGAGTCTTCAAGAGCATTACTTAGATGCCATGGCACCTAGGCAGAAAACAATGTTTAAATTTGTGCTGGATTTACAAGTATATGTGATATT
CATTCTGAGTGGTATAACCTATATCCCTAATAGCAAAGTGTTGAAGTTCTAATCTTTCTCAGTGGTTTGCACTGTGTAAATTATTATTTTCATTAAGATT
AAGCATCCTCACAGAATTGCACAGCAGTAACTTATGTAACCACCTCCTTAGAATGTTCTCTCTCTGACAATATGCCTACCAAAGACTCTTTTAAAGATCT
TTGAAATTAGTAATTAGGGAGGTTAMAATGGAGCACTGTTTGCTTGTCTTAATGTGGAATCCTCTACATGCTTTATAGAAAACAAATGAAGTGAATAAGT
TTTGCTCTTGAAGGTTCTCCTGCTTACAATCAAAGTAATTTGCAGACTTGCCTGATTTGTATGTTTCTTCAAGTCAAGAATAATTCTAAKGGATTACTCC
TGTCCCTTCAGCTATAAGATAACAGAGTGAGAACAAAAATGGCTTGTGAAATCAACCTAACAGAGTATTTCTTCTCTCTTCTCATAGGTCGCTACCCACA
GGAGAACAAGGGAACCTACATCCCAGTGCCTATAGTCTCAGAGTTACAAAGTGGAAAGTGGGGGGCCAAGATTGTCATGAGAGAGGACAGGTCTGTGCGG
CTGTCCATCCAGTCTTCCCCCAAATGTATTGTGGGGAAATTCCGCATGTATGTTGCTGTCTGGACTCCCTATGGCGTACTTYGAACCAGTCGAAACCCAG
AAACAGACACGTACATTCTCTTCAATCCTTGGTGTGAAGGTAAGAGGCAGACATTTAGTTTTCTCATTTAAAAATTCACCTATTTGGCGGGGTGCCATGG
CACATGCCTATACTCCCAGCTCTTTGGGAGGCCAAGATGGGAGGATCGCTTGAGGCCAGGAGTTTGAGACCTAGTCTCTAAAAAATAAAAATTAAAAATT
AGATGGGTGTGGTGGTGCACACCTRTACTCCCAGCTACTTGGGAGGCTGAAGTGGGAGAATTGCTTGAGTTCGGGARTTGGAGGTTACAGTGAGCAATGA
TTGTGCCACTGTACTCCAGCCTGGGCAACAGAGCAAGACTCCGTCTTTGAAAAAAGAAAAAAAACAAGCTCATGTATTTCCAATACATCTCTTTTTGAAG
GGGTAGTAAGATTATTCTAAATACATATGCCTCTCCTACATATACCATCTTTAATGATTGAAAGAGAAAGATAGAAAAYTCATCCTCCATGTGTATGARG
ATAAAACCTCTATATGTGAAGTCAATGCTGCTATACATTTATTTCGGGATTAATTGGAGATTGTCTAAAGTTGCAGTTAGTTATTTGTGGAGCTATTAAT
TGCAGTTTTGTAATTAAAAGTAATTGCAAAAATCACAATTACTTTTGCACCAACCTCACCAACCTAATATATGTTGACAGTATAACCTCTGTACACTATT
ACTCTGTAAACAAATTGGGCTTATTAAGCTTGATTATCAAAACTATTAGAGTCTATAACTCTGACTTCAGAAAAATAAAATAAAGTCGACGCTGTTCATA
GTAGAACTAACCTCTCTATCCCCCTACTTTAAGAACAGAAAGTCTGTATATCTAAAGGATTCCACAAAGTTGTTTATGTGCATAGTGGGTGCAAATTTTG
CAAACCATAACTCTGGATGTGCAAAGATGTAGCTGTACTTTAATATAATATAACTTGATCTCTAGTGCTATTTTCAGTCTTCCTTTCTGTCTGCGGCAGA
AGCTTAATCTAGTTATATTCAAATAAAACTCAGTCAAGTTCAATGATTTCTCTATCAATTCTGTTTTGTGCCTCAGTCACACATAGCATTTTCTCCTCAT
CTTCATCTCTGCCCTTTCATACCTCTCCCCTGCTCCCACACTTTGTACGAAGCTGTTTTAAGTTCCAGAGGCAGATGCAGATGTTGCAGCAGCATCAATG
TGGGAGAGACCACTTCTAGGTCCTAGGAAATAAGGCAGTGAAAGATATGAAAGCTCACATGGGGCAGGAGACTTCCCATGGCACCCTACCCCATATGCAC
TGCTCTCTAACATCATCCAAAATGAGCCCATATTATTGCTGATTTTGAATGATCCTTGTATGTGAAAGTCACATTTGAATCAGGGTTAATCTGTCCTAGA
TATAGATAAGTGCACAACAATATTTGCTACTCATCTAGAACATACACCTTGGTCCTACTGATCTTTTCTTTGTTTTATATTTATATTTATTTACTTTTTG
TAGAGACGTGGTGTCACTATGTTGTCCAGGCTGGTCTCGAACTCTTGGGCTCAAGCAGTGCTCCTGCCTGAGCCTCCCAAAGTGTTGGGATTACAGTCAT
GAACCACCATGCCCAGCATGGCTTGGGAATTACCTGTTCCACTAGTGTTGGCAAAAGGCGCCAAGCTATTCCTACACTCCCTATACATCCATCCTCATCA
TATTGTACCCAACACTCCTATCTATGAGACAGATATTCAAGGTAAATGGTAACAGGAAATGTTAACTGGGCCATGTGCAGTTCAAAAAATGAACTCTTGA
TAGTAATCTTAAAACCAGATGTGAGGCATTTGCAACTGGTTGATGGGGTGATATTTACAGAGATGAAAAATACTGAGAGGATCAGAGTTACAGATATATA
AATTAAGATTTTGAATATGTTAAGTTGGAGATAACCATAGATAGACAGCAGAAATGACAAATAGGTATGTGAATCTGGAGAAGAAAATCAGAGATATATA
TTTGGGAGTTATCTGTACCTAGGGAGAAAATATAGATAAAGAAGGAAATAGGATATAGTATCTAGCCTTCAGGAACACCATCATTTAGGAGTCCAGTAGA
GAAGGAGTCAGCAAAAGAGAATGAGATGGAAGAGTATGTAGGAAGCAACCTATTCTAAGAAAATTGTATTTAAAAATTCATACTTATCAATCAAGAGTTT
GTTATTGACTTTCTTTTTATTACAAAAAGAAAATCCTAGGCTACATATAACTGTTCAGAACTCTAGGAAATTTCAGGAATGCTATAATTTACCCAGACTT
TGGTTTGTTTGCAACTTTTCTGGATTATATCATGTGTGTAAATGGGATATGTGTCTGCATTCATTTCAACTTATGTGACCACTCTTCTTGACGGGAAAAG
GGTTAGTTAAGTTGCTTGACATATTAACTTTCAGGATAACTACTCAGGAGGTGGACAATCTAATAACCTTCTAATTGCTGCCTTGATCTTCAGTTGTATC
CATGATGAGCAGCTTCCAGATACCTCTGTTCTGAAAAAGTCACTTAGGTCTGGAGGCGTTCTTGTTCTAGAGGCTGTACAGGGACCTCCCCTAGGTTTTC
AGTTCATGGAAAGGATTGGAGGAAGGTGGGACAAAAACCAGAGACCAATTTGGAAGCTGTGGTCTAGGACAAAGATGATGATAAACTAAACATGSTGGTA
CCAGTGGAGATGAGAAGGGGTTAGATTGGAGATCTATTTTGTATTTAGAACAAAAATTGCACAGGGATTCAAGATGAGAAGTAAAGAAATGGGAGGACTC
AAGAATAACTCTAGATTTCTTGTTAGACCAATTGGGTTGATGGCGGTGCCATTTTCAGAGCTGGGAAAACTGTGGGAAGTGGAGGGGAAGCACTGGGGGT
GAAGCTAAGAGTTACATTCAGAAATGTTAATTTGGTGATGTCTATGAGACATGCAAATGAAAACGTCAAGTAAGCACTTGAATAAAGTGAATCTAGAACT
CAAAGGAGATGGCTGAGCTAGACATGTAAACATGGGCACGGTTAGGAGCAATAACGGACACAAATGATTCAGGGTCATTAACAATTAAGAGTTGAGACAA
AGGAGAAGTCAACAAAGGAGGCTGAGCAGGAGCAGTCAGTGGAGCGCAAGGAGATCAAAAGAGCCCAGAGCCAGACACATTGATAGATTCAAGACAGCAG
TCAACTCTGTTTAATGCTATGATTAGTTGAATAGGATAGGGGAGGAAAGTGGCCATATAGTGTGGAAATATGGATGTCTTCGATGATCTTGAAAAGGACG
GTTTCACTAAAGTGATAGAGACAGAAGCCAGGGAGATGGTCATGGGCTGTGTTGTAAACAGGAGGCGAGAAAGTAGAGACGGCRGGAGATGGCACCTTTC
TCAAGACTTTCTGTAGCACCTAGATGTTGAAGCGAAGGTCAAAGGAGAATTTTTTAAAGACAAGAGAGAGTGGGTGTTATTTTATGGTGAYGGAGAGGAA
CCAGGAAAGAGAGTTTGCAGTCCAGAGAGAGGACGGTGGTTCACAGCCTTGGCTGCACGTTGCAATCATCTGGGAAGCTTTGAAACTATGGATGCTTCAG
TCCCCCATGCAGGCATTCTGATGTAATTGCTCTGGACTGCAGCCTGGGCTTTGGGGTTTTTTAAAGTTCTGCAGGTGATTCTTGGAGCTAAGGTTGAGAA
GTTTCAGGAGTGAAATCCTTGAGTGGTTGGAATCCAGGGAACAGGTGAAGAAGGGCCTGTGATGGGTGGGGCTATCTACTCTCTCCAGAGACAGGAGTAG
AGTAGAAGAAGAGGGGTGCAGATTTTCCAGTTTAATGGAAGAAGAATGAGGTGATTGCCATTTTGTGACTCCTTTTTTTTTTTTTTTGTCAGTGAAGTGT
AAAGCAAAGTCATGTGTTGAGAAGCAGCAGCAAGGAAGGGCATGAAACGCTTGATAGGGAAGATGTGAGCTAGTCATCTGGAGGGTAGAAGGTGAACTTA
TTACAGGGACATGCCGGGAGGGTGCTCCCTGCTTCCAGAACACAGGGCAAACTAGCACAATCTTCTTCATTACTTGGCCTGTGGAGGCCCAAACATCTCT
GCAAATTCTTTAGGGATTTCTGACTTCATGGCTGCCTCTGCCTCTAGGAGTCCTACTCACACTTGTGCTGCTGCAAGTGAGAAACTTGACCGTCACCTTC
AATTTCAATGTTGGCAACAACAACAAAAGCAGCCACACACAACAYCTGTGAATGCCCAGACCTTAACTGCAGTTTGGGATGGAGGGTGAGAGCAGGAAGG
ATGCACTCTGTGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGG
AGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTC
ACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCA
CCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCA
CATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCA
CGCTTGGAGCACATCAGAATCACCTGGAGGGCTTGTTCAGCCACTTCTGTGCAGCACCCTCAGGTTGAGTAGGTCTGAGGCCTGGCCTGAGAATTTGCAT
TTCTAACCAGTTCCTGGGAGATGCTGTTGCTGCTGGTCGGGGTCAACACTTAGCGGACCACTGNNNNNNNNNNNNNNNNNNNNAAAAGCAGCCACACACA
ACATCTGTGAATGCCCAGACCTTAACTGCAGTTTGGGATGGAGGGTGAGAGCAGGAAGGATGCACTCTGTGGTCACCACGCTTGGAGCACATCAGAATCA
CCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCA
CATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCA
CGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTG
GAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATC
AGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCT
TGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCAGCACGCTTGGAGCACATCAGAATCACCTGGAGG
GTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAA
TCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGA
GCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCA
CCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCASCCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCA
CCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCA
CATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCA
CGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTG
GAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGARCACATC
AGAATCACCTGGAGGGCTTGTTCAGCCACTTCTGTGCAGCACCCTCAGGTTGAGTAGGTCTGAGGCCTGGCCTGAGAATTTGCATTTCTAACCAGTTCCT
GGGAGATGCTGTTGCTGCTGGTCGGGGTCAACACTTAGCGGACCACTGGTTTCATAATAATCACGAAACAATAAAGCTGGGCATGGCCCCCAGAGCAGCC
TGCGGTCCCAGCTACTTGGGAAGCTGAGGCAGGAGGATTGCTTGGGCCCAGGAGTTCGAGGCAGCCCCGCCAGCCTGTCTCTAAGAAGAAAGARAGACAA
TAAGCAATAACTTTAAAACTCAAGAGGCAGGGCCGGGCCCAGTGGCTCACGCCTGTAATCCCAGCACTTCGGGAGACCAAGGCAGGCAGATCATGAGGTC
AGGAGTTCAAGATCAGCCTGATCAACATGGTGAAACCCCATCTCTACTAAACATACAAAAATTAGCTGGGCATGGTGGTGTGTGCCTGTAATCTCAGCTA
CTCAGGAGGCTGAGGCAGGAGAACTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGTACCACTGCACTCCAGCCTGGGCCACAGAGTGAG
ACTCCATCTCAAAAAACAAAAACAAAACAAACAAACAAAAAACCTCAGGAGATTATAATTTACTCTTCTTAAAATTTCACTGGCTCTACCCTGAACCTAA
TTCCAGTCTCTCTCCCTTACCACCCCTTCTCTCTCTCCTACTGTTCTCCTTTATTCTCTGAACTTTTCTCTCCCATTCTGTCCCAGGAGCAAATTCTCCT
TCCTTAATGCAGAGGGATCCAGTGAGCTTTATTATTTTTGTTGCTTGATCTCTTCCAACAACCATGCTTTTGGGCCCTGAACACCATTTTTTTAAATGAA
GTGAGAGAAAGAGTTCATCTCCCCACTTATTGTGTGGTTTCCCGGCCTAGCACGCAAAGCATAACCCAAAAAGGGGATGATATGATGAACCGCTCCCCCC
AACACACACACAAGCACATACACTGTAGCCCAGCAGTCCCCTGCAGTTTTATGCTTGTGTGTGTGTTAATGCATAACAAARGATTCAGCGCTATGGCCTG
GTAACTGGAAAGTAGGTCAAAAGAGAGGGGTGAGACTGTCRCCCAAGTGAAAAAGATAGCAGAAGATAAGAAGGAAAACTGTTTCCAGAAATTGTCAAAA
GACAGCCAGGTGAACAAGATTGTGGYCCGAKGTGGCACAGGATGCTGGGCTGAAAATTACAGCAGCATGCACAGCACTTATTGATAGGAGAATGCTCAGC
TGTGCTCCTGAGGGCCCTTCAGCCTGCTTTGCATTCATAGGCAATTTATCCTCCTTAATCACTAAATCATTAATGGGGATCAATAGCAATGCCACATCAG
WGAAGGCAGGGGTGCATGCGGGGAGAATAATTGCTTGCTTAGTTTTTAGTTTAGTGGTGCTAACCGGGCTTCGGGTCCATTCTGGGAGGAAACCCTTCTC
CTGGGTGTTAGAGAGAACTGTACCCACAAAGGCAGCAGGAGTGAGACGGGCAGTTATTATGAATTCATCATGTTTTTCTAACTACTCAGGAACTCTGAAC
TATTGAATGTATTTCACTATTTAAATATAGAATGTTCCAGTTTGGTAGTCTAGCACTAGTGCCAGATAGTGGGTCCTGAAAGATTTAGATTTCTGATATC
TGTGCCTAGTACTCTGGAGAAGCAGTGAGCAGTATTTTTGATTGGGCATCAGTTACCTTTAAGGGATCTTTCTCCTCTTGATAAGTTGTTCCCCCATTCC
ATTCTCCATCACTGCTTTTCCCTCACCTCATTCGACCTCATATCCTTAGCCTCTGGCACACTTGAGGTTTAATAAATGTTTGCTGTGTTGATTTAATAAT
CCCAAGTAAATACTCTAGGTTCGCCGCACCCTGTCATTACAGATAACTTGTAAATGTAATCTCAGACCTTACCATCTTGAGAAAAGTCAAAAACATATCT
GGTGTGCTGGGAGGAGTGTGTCTGTGGGTGATGTGTGTGTGGATTTCTCTATCTCTTAGCATCTGACACCAAATTAGCATCTAATATTTCCTTTTTATTC
AATGTGTTTTTTCACTTTTCTTTAAACAAATAAATCAATTTAATTTAATATGAAGAAATCAATATGTTCCCAATATCTTGGATGCTTTTAACAGCAAATA
AATAAATATGACCTGCTTGTATTTTATYATTAAATTCATCCTTAGCCWATTTGCTTTGTATTTATATAAGGTCTTTTTAGCCCCTTTCATACAGAATGGA
GTAAGTAACCAAGACTGGTGTCCTCAGAGTAACAATGACCCACATTCCTTCTCTTGGAGACTCTTGAGCCCAGACCAGCATTTACGCCCTCAGGCTAGAG
CCATTCATCCATCAATCCACAAATATTGATAGTATGTCGCATCCCATGCCCATGACAACACAATGACCTGTGCACAGTACGACAGTATTATGTATTCATT
CAGAAAAATTCAAAGTCAATACTGAATTAGGTACTGGGACTATGGCAGTGAAAAAGGCAGACACAATCTTCGTATAGCTTCTAGCAAGGATTTTACAAAT
GAGCTCCTAATAAAAAACTGATTACAATTGTAAAAAGTACTAAAATAAGTCAGTGCACAAGAAGAACACAAAACTGGGGACTCCGACCTATTTGGGGAAC
GAGGAGAGACTGGCCAGTGGCTTAGCTTTGCACCTTGGCTAGCACCCAGAACAGTATTTGCATAGGATAGTAATCAAATAGTTGGTTAATTGAATTTTTA
TGAAGTTTTAATAAAGCTTATGGAAAAATTTTAACCTTTATTTACTCAATATTCCTCTTAAATAAAATAGTATGCATCATTCTTCCTAGTATCTGAGTCA
TTAGAGACTTATTATGCTTTTTATGCCAAGCGAGGATCATTTAGTGTGGCCCTGTAATCAGAAAGGATCCCAGAGAGCTCACAGTAAACCTTCTTTTCAA
TGGCATGTAGGTGACCCCAGGATTGAGGTGCAAAGGTCTTTACAAGGTGTTTCTAGAAAGAGCATGGTTGGAAGTGTCTAATGCAGAGACACATTCACCC
ACCAATTCATGTGGTTTACAATTCCTTCCTTGTAGAGTCTCTTATATGCTTCAAAGTGTGCTCATAGTCAGTATCTCCCTAGATTGTGTGTTTGGAAGGT
GTAATCCTTATCTCATTCAGCCTTTYGTGGTGCCTGGAATTGAGTCAATGTTCAGTAAATGTTTGCTGAACTGAACTGATAATCACCATTCTGAGAGGCA
AGGAGACGATTATTAGACTCAGATTTCAAGAGAGAAAGCAGGTTCTGTGATGTTACGTGCATTTCTCAAAGTCCTATAGAAAATTAAGAAACAAACTGAG
GCTAACCCTGGAGCATCCTGACTCTGTCAAGGTAAGCACTTATATTTTTAAAACAAAAGCCATCAGTATCTGGCATTGTGTAACAAAAGAAAAAAAACCA
ATAGATGGCCAGCCGAGAAGATTCTGTAATGACCTAATCAACGTGGAAATTTCTGCCATAATAAATAAATACATAAATAAATAAATAAATTCAGGTTGAT
ATTTACAAGATCAAATGAAAGCTTTCTCTGGGAAAAAAAATTAAARCATACCAACAAGGGCACAGGCTCCCTTAGAGGATATGTGCTAAGTAAAGAAGCT
CTGACATTTTCTTTGTAGAATTGCTTCATGAATAATAGTCTATCTTCTGAAGATATCTCAGTACACTAAAAAGCCCTTAACCAGCAAAACAGGCAAATTA
GCACAAATCCAGTAACCTTCTCAAGCTGGTGTGAGCTGTAATGCAGCATGTTTGTAAGGAATGTAAACTATGTTGTACTATGCACGCACGGATGATTGTG
CTGTCGTGAGCACTGTGGGAGATATACTATCAATATCTGTGAATTGATGGATGAATGGCAGTAGCCTGAGGGTGCAAATTCTGGTCTAGGCTCAAGGGTC
TCCAAGAGAAGCGGTGTTAGTCATTGTTATTTCGAGGATACCAGTCCTGGCGAACTACTCTACTTTATACTGAAGGGGCTAAAAGGAAAGAAGCAAACTC
AACTGACTATTGAGGAAMCATTTGCTTGTGCTTCATAGATTGATTCCATTCCAGTGTTACTAGATAGGMAAGCAACGTCTCTGGAGTGGCTATATGAAAC
CATTTTAGGAAGGCAGTGCGTTTGGATCCTTCCAGAATAAAAAGCTCAGACTCTAAAAATGCCATTCCTTAATATGCTCACAATTGCCACCGACAGGAAG
TTACTCCTGGTATGCCACAGCACACACAGCCTGTTAGAATCTGCCACCCCTTTTGATGTACTTTGTGATGGAAAAACATATCATGGTGACACCAGTCCGG
AGTCACATTTGCTCTGCAGATCAAGCCACTCCCTCTAAGAGTGATTACACACTCCCAGCATGAATCTTTCCTCTTTTTAGTGGTGCTCAGCTTTTATATA
AAGGGGGAAGCAAGTGTAAGTGATTCCTAATCCCCTCGCTCTAAATTCCTTCCTTCCCTAAATGGTGACTCATTTTGCCTTTTGGAAGGGCCAAACCATT
ATTCCTTCTAAAGGATTAGAAACAACACCAAACTCTGGTTTAAACTGTTGAAAGAGACCATGTAGGTTAGCTGTTCTAGCACCATAGTTTTGTTTAATTC
CTGGGCTCCCTTTGCCAGACTTGAGCCTAATGACCAAGGAAATGGAACTTGCTCTGACTTTGAAATAGCATGTAAATAAGCAGAAGGAATGTATCAGCCC
ATGCAATGATGAATGATCTTCCTTCTCACAAAGAGGTTATACAGATACTAAAATCAGTAGGCTCAGCATTTGTTTTTACATGTTTGTTATAAATCCTTAC
CTTCTCTGGGTCGGGAGGACAGTGGGAATGTCAGAGGGTGACTGAAATCCACCSCAAATTTTCTTGGCCCACTCTTTTCTTTTTTAACTACCCTTCYATT
CCCACCAGAGGAACAGTAAAATAAATGAGGTCATTATTCTTCACTACATGCCTCTTGTAAATTGTTAGTCAGCCTGCAAGGGTGGTTATTTACGAGGCAT
TTTGAAGGTCTGTTCTGGTGACAGAGTTGCTCTGGGCAGTGGATGGAGGTGCTGTGTCACACTCACCAATGGTGCCATGTGTAATCTGTTTTTCTCAGAG
TTTTATCGTAATGGTGGTTGTCTGCCAGAGGTCACCTACGATCAAAGAGTTGTCAGTTGGTCCAAGGTGCAGCCGCTCCTACTCTGGGAGCTGTCTAGAC
CTTATTTCTCCCCTCAGTCCTCAGTTAAGTATAGTTTCCAGCTCCCACATTCCACACAAGCCTCATACACGTCTACCTTCTACCAGTCCAAATTGTTGGG
TTTCTAGAATAGTGAGTTGTTTGTTAGTTTGTTTTTCCTATTAGTCGAGCCTTCCATTTTACTAAGTGAAGAACTAGCTTCCCCTGAAACTTAGTGAAAC
CCCACCGCTCTGAAGCTAACCAAAAATTTAAAAACAAACGAAAACACTATCAAAAAGCCAACAGCAAAAATCTCCAAGGGCAAATGATTACATTTTTCTA
TTTTTGTTAGCCTTCCAAACATAGGGAGTTTTTTTGGAGTTTCCATCGTGATACAATTTTTTTTAACCTTGCTTTGGACAACTATATTTTAAAGTGACAG
ATCTGAATAAAAACGGGAAATAAAGCACTGCTTTCCACCCTCAATCTTCTTTTTAAAATCATAAATAAATTTAAAATTAAAATCGAGCCTTCCCATTTGA
CTTCCTTGCCATACTGTGGATTCATGATAATGTCTGCCTGTTTGAGGTGAGATTTAATTCAAGTGTTGGAAGGGAAAGGGTGGCCTAGTCTGGAGCTCCA
GAACTCCTCTCTATCATGCTTTGCCACTTAAATTTATCACTTCCCATCAATACTAACGCAAAGCCCAAAGGTAAATCCTTCATTTTCTTGGACTTCTTCC
TTACTCTCTAAGCTCCAGACATCTTCCCCATCTCTCATTCTTTCAGTACACATTGATTGATTTCCTACCGTGTTCCAAGGCACAGTGTTGGGGGCTGGGG
ACGCAGTCATCCGATCCTTTGGACCCAAGAGCCATGGACTACTTAGAAGGCAGCTTATTCAAATCCTAGCTTCACAACTCACTAGCTGCATGACCTTGGA
AAAGTTATGTTTCTCTCTGCCTCAGTTTCCTCATCAGTGAAATGGGGCTACTTTCCTCACAAGGATGTTATGAGTGTTGATGAGTTCATGTGTCTTGTTA
TAAAGCACTTAGAAAGTTCCTGGCCATAAATAAGCAGTATAACAATGCTTATTTACATGCTACTACTTAAAAAAAATTAAGAAGTAAATACTTAAACACA
TACTTATTCAATAAATATAATCATTAAACGGCAATGTCCATACAGTGGGATAAATGTTACCCCCGCCTCCATAGGGCACTAAGGGAACAAGGTTTAATTC
AATCTGTGCTGGAAAGGAAAGGGTTCAGGGAGACTTAAAGAAGGAGAAAAAAGTTGTGTTGAAGGACTCTGATAATAAAAAAGAGCACAACCCTATATTG
CTCTTAAAGAAAAACTAATGCACAAAAGTTGGACTTGTTAATCTCTTTTTAAATGGGTAGCTTCACTTAAATGGAAACACATTTTAGAAAATAACTTTAT
CTGATGGAAAAGTCTCATTATAGAAATAAAAAATAATAAAAGCATAAAAAGAGCTCAAAGATCTACAAATTAGAGACACTAACAATTAACATTTTSTTGT
AATGTCATCCATTTAAAGTATTTTCAGTGCTTTTCATTTTTAATTGGCAATTAATTGAATATATTGTTCTTTTCAAATAAACACACATGTACATTTACAT
GGCTAAAAGAAAACTTTCCTTTTCACCAATCTTCCAATCCTAGAGAATCCCCAGGGAAAACCAACTTTAACTGTGTATATCATTACAGATACTTTGCTAT
CATTTTATGTATTGATGGCATATATATACCTAGAGAATTTAGGTTTTTTAAAACCACAAAAGAGATTGTGTCAACCTGTTGCTCTGTACCTCATTTTCTC
ACTCAGTATATCTTGGAGCGTTTTCTATATCAGTACCTGCATCTTCTTTTTAATGGCTGCTTGGTATGGTCATATCATGTTGTTTTGGTGTTTTGTTTAC
AACTATTTGGATTGTTTCCCATTTTTACTATAGCACGTTATGCCATTTTGAAGGTTGCACATACATTTTGTACAAATGTTACTGTAGAATAGACATCTAG
AAATAGCATTGGGCAAAGTGAATTCACATTTTAAATTTGCATAGATATTGCCTAATTACCCTTCTAAAAGGCTGCAGTATTTTACACTACAGCCATAGTA
GATGAGAGTATCCATCTCTTCATACCCTCATTGGCACTGGTGGTTAATCATTTGTTTTAATATTTGCCGATATGGTAGGAGAATTATGGTATTTCATTGG
TATTTCATGGTTAATTTGGTTTTTATGTCTCTGATTGTTAGTGGAGTTGAGCATTTTTTCATATATTTATTGAACGTTATGTTTCTCTACCTGCTTATAT
CTGGAACATGTCAGGTGAAATAAAGATCGTCAGGGAGAGACACACATGTGCCTCTTAAATCTATGGATACAGTTTGTATATAGTAGGATAAAGAGATCTT
ACTGACACTTTTTTTCTTACATAGATAACCAGCTGTCAAAACACCACGTATTGATCAGATCTATTTTTACCTATTGATTTTAAGGGCCATCTTTATTATT
TACTAAGATTTAATACACATCTAGCTCCTTCCATATATTTGTCCATTACTGTGCTAATGTCAGTTTTAAGTGTAGCTTTGTTTCAGTTAGCTATAATCAC
ACTAATGCTACATTAAAAAGAACCAGAAAATCTTAGTGGCATACAACAATAAGCACTTACTCAGGGATCTGGGGCTTGGCTGGGATTGGGCTCATCCAGA
CTGGGCTTGACTAGCCAGCTCTGCTTCCGGTGGGAACAGCTGGAGAGGATCCGTCTCTCCCTGAGAGCTCCGGAGACCCTCTGCTCTGGTGCCTCTCATC
CTTCTTTGACCAGTGGGCTTGCTGGGTCATATTTTCCTCAGGGTAACAGCAGATTTGTATGATCACATGCTCAGCTGCGCAGTCATATTTTAGACCCCTA
CTTGCTTCTGCTAACATTGCTTCTGCTAACACCCCATTAGCCAAAATAAGCCTAAAGTTAAGAGAGGATATTCCACATTTAGAGGGAAGAACTGCTAGTT
ACATGGCAAAGGGCATAGATGCAGGAAACTATAAATTGGGGTCCAAAGTTTAATTTACCTTTGGGCAAGTCCTTCAATCTTTCTTCTTTTTCAACATATT
AGTTTTTGGCTATTTTCTCTCTCTCTCTCTCTYTTTTTTTTTTTTTTTTTTTTTGGGACAGATTCTAGCTCTGTTGCCCAGCCTGGAGTGCAGTAGTGCT
ATCTCRGCCTCCTGGGCTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGATTACAGGCACACACCACCATGCCTGGCTTATATTTTTATTTTT
AGTAGAGATGGGGTTTCACTGTATTGGCCAGGCTGGTCTCAAACTTCTGACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAAGC
ATGAGCCACCACGCCCTGCCTGGCTGTTTTCTTTCACATTGTTTTTTCCAGATAAGCTTTTGAATGAGCATGCAAAGTTCCAAAACTTCTGAGTAGAAGT
TTGGTTGGGTTCMCATTGGTCATATAGACTAATTTGGGTAGAATTTATATCTTTACATTASTGAATGTTCACATCCAATTGGAAACATTTTGTATGTGTT
CATTTTGTATTTCAGTTTTATATCTTTTGACAAAGTTAATTTTTCTTATAAATATTTTCAGATRAACTCAAAAGCAGAAAGAGTAGCACAATGAATATCT
ACTTATATGACTCTCAGAGTTAATGGTTATCAAGATTTTGCCACATTTGCTTTATCTATCCCTTTTTTCCTTATTTTTTGCCTTAGCATTTTCAAGTAAA
TTCTAGTAATCATATTATTTTACCTGTACATATTTTAGCGTGTAGCTTTTTAAAAATAGACATATATRCAGTATACATAGATACATATGTACATATGTGT
GTATGTATGTGTTTAWGTGTGTTTGTGTATAATTATTGCAGCTAATACAAATCAACAAGAGCTCCTTGGTATTATCTAATGAACCATCTTTAATCTAATT
TTCCCAATGTCYAAAAATTATCTTTTTAGTTAGTTTATTTGGATTAAGGTCTGTAGATTAAATTTGGTTGGTATGTCACTTAAATCTTTTCCTCTAGAGT
AATYCTCTTCATCTGTTTCTTCATGCCACAAACTTATGGCTGAAACTGAGTCATTTTTTATGTAGAACTTTCCATATTCTGAATTTTGCTGATTCCATCC
CCCGGTGTCATGAAATATTTTTCTCTAACCACTGTGGGATTTTTTTTTAACCACTGTGGCATTTTCTGTTAAGCAGCTGGTTAGATCTACAGACTCTGTC
AGATTCAGCTCCAAGTGGCATTTTTTTTTTGGAGGAAGGGGCAAAAATATTTCATAAGTCACRCCATTGCTTCCTAGGACATTCATCCTGGCAGAAGATA
CATATATTTAGGTTTGTCAATAGYATCTGGTTCACGTTTTATCAGTCTCATCCACCCGTTACGAAGTTCTCTTCTTAACGAATTATTTCTGCCTCAATTC
GTTACTTCATTAGGGATTGCAAGATCGTGACATTCTAATTCTACCATTCCTTTTGCATTTATTATAATCAATTATTTCGTTACCTTGAGGTAGAATTCGT
GTAAAAACGCTTAGATGCCTGTCCCAAACACACACATTTTCCTGAGTGCGATTTACACTTGTAGGGTCCTGTCTGTGTTAAAGATGCTTTGCTGCTCTCC
CACCAGGCCTGGGAATAAGTACCAGACTGATGATAGACGGGGAGGATGATCCTCCTGAAATTCTAGCCACAGGGAAGAAAAGTCCTTGCAATGAAAGACA
CTRGCCAGGGAAGCTGGTTGGACACACACACATACTTGCACATTCACAAGTATCTTTCATTAAAAGGAGATGACCTACTGSTTCCCTCCTGCCAGTGATG
GGCCACAAAACAGACATGACACGTGGGCCTTCTCACGTGTCCCAGATTTGTTTTAAAARTCATTTTCAATTCATCTAGTTTTCTRTTAATGTTAAAAGGT
TGGAAATTATATTTTAATTAGTGTTAGAGAYGTACATCAGCATCATAGAATTCTGAAACTACTGATGCAACAGAATCATAAAATGTTTAATGAGACATAT
CAATTTAATTCTGCTGCTTGGAACTTAAARAGCCAGAGTTCGTCAGCATTTTGCTAACAAATGTCATCATTTACAGACTGAATTTGGTGCTGATTATGTT
CACCATTACTAAAAATATTGGGAAATGAGCTATGCTTGGTGAAACAAAGGGCATTTTTTWAAAATTTGGCTGATTAAATGTAGTTTAGAAACAAAATAAA
CTTGCATAAACTTGCAAGTGTTTGGAAACAGTCTGGTTTGGTAATAGTCACTATGTTTAAACCCTGATGCAGATGATGCTGTGTATCTGGACAATGAGAA
AGAAAGAGAAGAGTWTGTCCTGAATGACATCGGGGTAATTTTTTATGGAGAGGTCAATGACATCAAGACCAGAAGCTGGAGCTATGGTCAGGTGAGCCAC
TTAAAATTTGTTATTGTCAAGGACATTTTTACTTCATATTTTTTGTCACATGTATCCCTRCAGGATCYCATATATCGATATTAGACAAGCAYAATTTCCT
GCTTTTTAGGATCTGAGACTCCWAGGCAGWGAGCATAGGAGTAGGGACTCATAAAGACAACTGCGTAATTTATCAGCTGAAACCACATATCTCTGGKTAT
TACAGTGTTACAGAAATGAGAGATTCCATGAATAATGTGGCATTCTATTGAGAAATGCTTTGGCCACTTAGAACAGTGAAATCTCATTAGTTCAACCTGG
CTTATAAAGAAAGGTATTTTCAAAGTGATGCAAAGAATACTGCAAGGGGTGTGCCCAATTCAAAGAAATAGCTTCTTTTTKTTTTTTTTTAAGTGTTAGC
STAGGGTACTGCTAATTAGAAAAGAGTGTTATCATTTCATCAAAGGAAGGGCCACTGAGCTTTTACATAGRAAGATTTTATCAGCTGCAAGTTGATTGTC
TAGACACAAAGTAGCAAATGGCATTTCTTTAAGRTGTTCAGTCATTCAAACTATTTCAGTTTGGTATCTTTAACAATGGAGCAAATGAATGATATTTTAC
CAATTTTCCATAAATGAATGCATGTCCTGTGATTTCAAAATGATTTTTAATTAGCGACACAAGCGGGGGCGAATGTCATTTCTCAGGAGTTTTGGCTGGG
ATGGCTGGAACTGTGCATCATTGCGCTGGGCATCCAGCAGGGAGTTTTCAYRGAATCTGGTGGTCACAGGGTACTTTCTTGGCTCCRGATGCCTTGCTTT
GACTTCCATATGGGATCTCCCTGTGTTCCTYACCCACTGCTCCAGTACCYGTGTTATCCTGCCTACCTGGCTTTGTGAACAGCTTCCCTGACTCCGGAGA
ATTACATGCCCAGTGCTCAGGCTYCCCYGCCTGCATTTCTAATGTCCTGCCAAGCTACAAGCTAGTTGGCACCCCCTGTTCTTGGATTCCTGCCTGACTC
CCTGGTTTCAAGCCATCCCCTCCTCAGTGACATGCAACCTTTGACTATACTGCCTACTGCCTGATGCCCTTGTCTTGGGTCCCCAATTTCTAGCCTTTAG
CCTGGTGATTCTATTTATGGYCCAAATATGACAATCTATAGATAGCTAAMAAGGGGAAAAGTCATCAAGGTGGGCAGCAAGGAGGTCTGGAAAAGTGTCC
CAAGCCCAGTCAGGKCACTCTTCGCCAGCTTGCCTTTGGGTAGGCACCCTGGAGCACAGTCACTTGATTGTATCTTCTGCCACTCAAAGAGGCTATTGGT
GTGTATCCTTTGGCCAGAATAACCAGCCAAGCRTGTTTACAGTGATGCAGGGAATCAATCCGTTCTATGACTATTTCCTTAACTCTCCARTTAGTTGCTA
TCCTGCCCAGCAAAYACAGCTGAGAGAAGCTGCTTAATAAGAACCAAAATACTGAGCTATTTGCATACCTGAAGAACTAGTGCAATTACCCATTACTGCA
TCCATCCTGTCAGTTTGGGATACACCCAGAGTGGGTATTCTAACTGGACTGAATAAAGAATTGTGTGGTAATTAGCCATTATGATTGTGGTTTCTGTCAC
AAGCACTTGGGTGGATAGCACACAAGGTTTCTCTATTCAGGAAAATCTCTTACTACAGTGAGGTACAGTATAGGTAAAATCTTCCTGTCTTGCTATTTGA
TCTTTATTCCTTTTTAAGAAAATTCTGGTATTGCYTGTGGCTAGCAGTTCTTTCTAAGRAGACTGAACTGGTACCAGACTCCTCCCTTGATAGYGTAATC
TACTTTCTGCAGCCTTCTGCCCTCTCCTTGATCCTGGGGTCCACCTTGTCTCAGAAGAGGGGAAACCTTAGAGGGACAGTCACTATATGAGGTCTCCTAC
TATTTTGGGTGCAAACTAAGTAGTGTGAAGCACCTTCCTGTGATACACCTGAGAGCTCTTTATTTTCKAAATGCACGAGGATTCACATTACTTTCGAGGT
CCTAAGACTCTGGCCTGACTTTGGTAAATGATTCATTCCTTCTTCTTGGGTACAGGAGCCAATATGTTGAAAAGACCTTCTAAATTGAATCATTTTCTGA
AGAACTTCAAGTCAGCTTATGATCCCTGAGTATATCAACTCTCTAGTATTTCTGTTTATGTTTCTGGCTTGCTTTTATATTCTTATTCACTTTAATGAAA
AACAAAAGAAGATGTCTCATTCCTTCTACTTTAATATTTCATACTAAAGATTATGGGAGATCACTATACAGGAAACACACATTTCTAAACATTAGGTTGT
GGTTTCATGTTATTTTTCATCAGAGAATATTTTGCTTGCAGAGTGAACACTAGTTTCTCTTTGTTTTTCTTTCTCCAAATAGTTTGAAGATGGCATCCTG
GACACTTGCCTGTATGTGATGGACAGAGCACAAATGGACCTCTCTGGAAKAGGGAATCCCATCAAAGTCAGCCGTGTGGGGTCTGCAATGGTAAGCAGCA
ATTACTGATACCTAAAATCTGTTACACCTGTCATTTGCCTCAGTATATATGCCAGTTCATTAAGAGCTGCTGAAATGATGACTTACACTTAATAAACTTT
CATTTGTAAGATTCTAGCTTCTGACACCCAGTTATAGCTCCTGGAATTTTCTGAGCTTATCATGTGCTATAAAACAAAATTATCGTCTCAATACTGTATG
TTTCTTTGGCTTTAGAAAACAATGATAGATATAATGATACTGTAGACCAGTTATTCTTAAGAACCCCTTGCCTAGAGACTGAGGAGTGATCATGACAAAA
ATGTCAATGMCTATAATCAAACAGTTGATCAACCAAACATCAAGGTGCACAGAAGATGTGCAAGGCACAGCTTTTCTCAATTTTCACACTGATAGTAAGA
GTGAAGAAATGAATGGCTACATCTCATCCTAACTCCTGTCACAAGGATGTGTCACTGTAGGGCTTTCTCACTTACGAAGTGGGTATTGATTCTTTGCAGG
ATCCTGTGTGGTAAGTAGGGCAGCCATTACTCATGSACTTTTACAAGTTAGGACACAGGGTAAGGACAGCTTTCAGTGACAAAGCCACAGCTAGAACTCC
GGTCTGCTGACTTCAAATCTAGACATTTTCTACTTTTCATGCCGCTCTCTGCAGGATATCCTAAAACAACTTTGAGAATGCAGAGATCTTGCAGTGGAAC
AACTTTCTGAGAAAGGAGATAGAACTCCCATGAGTGGGAAGGGTGGGCCAGGCATAGGACGTGGATTAAATGGGATGTCCAGGACCCATGCAGTCCTGGA
TTATATCAATGTACCCAACATGGAGAGCCAGATGTTGGTACAGAGAAGTAGACCCARTCTGGCTGAAGAGTAGATTATTTCTGAAGAAATGTTAAACTGG
GTGGTATTTCAAACAATCAAAGACTGAAAAAAAGAAATACTTATATTACCAATTTCCCTAAGTTTTCTAAGAAATCCTCTTTTTGAAAGAATGTTATGTT
TGAGTTTGGTTTGTATATTCTTTTGAGCTAAATGAAATCAATATTGTTAATATAAAAATATTAGACTGTGAATGATATGAAATATAATTTCTGGTTAGCT
TTTAAGAATGGTGGCTTTTATTTTATTAATAACTAAGCTACATGTGAATTTAAGAAACAGCAGAGCATAAAAAGTAAAAATAGAAACCAACATGTAAAGG
CAGTTTTGTTTCCTATGCATTTACATTCCATAATGGGAAGCCAATGAATTCCAAAGATTTGGGGGAATGTTGAATTTGGGAAATGTTTACCAAAGTGTCA
TGACCGTTTATAACAAATATATTAGACTTGCATCTGATCACTATTTTTACTGTTTCGCCCACAAGATTTCTCTTTTTCTTCTTTGAAGTTACCATAACAA
TTTTGCAGTAAGAAAGGAAGCAACAGCTAGCAGTGGTTAAATTTAAATTAATTCCTTCTTAAGCATTCTAAAATGGCACACTCATCAGCATAAGCTTACT
CACACACTGTGTGTACTTTTACGCACCCAGAAGTCAGAAATCACTGCCTARCAGAAGCCAGTGCAAAAGAGAAGCAGACAGGAAGCAGTTAACCTAATGT
GTCTGTGGTGGCAGCTGGCTAAGCGGAAGCTGTTAATTATTGAATAAGCACACATACTCCTAATGCAAATTGCCCTGAGATTTTATTAATCATGTAAAGC
CTATGAAGTTCTAAGTTTGAAAATTTATATCCCAATTAAAAGATTTAAAACTAGACAGAGAAAATCCATTTGGAAAACGGTTTGGTTTTATTTTTGGAGG
GGGAGAATTTGGGTGTTAAGGGGTAGAGGTCCTGACCTGAGACATTTTGAGCAATATTTCCATTTCCGTCATACCCTTGTTTATATACACAAAATRTTCA
ATGGTTTTCAAAAACACTTTCACCTCTATTAGCTCCTTTAAACCTTAGAATACCTCTGTGAATCTTTCCAAAATCTGTTCCGTTTTAATAATTTTAAAAG
CTAAAATACTGAGCCTCCAAAAATCAATTTAAAAAATGACACAGAGGAAAGATCAAGTGTTCTTTGGTCATTCAGGCAGATACTCTCCCGTTCACAAATC
CTGGAAATCTATCATGAAATTTCTGAATGCAGTTAAACAAAGAACAAAGACAAAAAAAATCTTTAAATTTCTCAATGAATGATTTGACTTTATTAGTATG
AAAAGATGTGCCTAGAGAGCCCACAAGAAAATGTTCTGAAGTTGTGGACTCTTAGCCAGAACCCTGTTGCAGGKCGACAGAGCTGTGTGTGTTTTCTCAG
GGGCTGGGCCCAGGCCTCACAGGTAAAACAGAGGCTGGTGCAGAGTTGTTCTGAATTCCTCTCAAACACCTCCCAGCCTGGTCATAGAGGCTAGAAATCC
CATTCGCAGGTTGCAAATGCCAGAGCAGCGGTATAGGTGGCATGTGGACTCTCCAGAAGAAATAGCACATAGATCTCAGTTCATCCCCAGGTGAGAGTGA
AGGAAGGCAGAACTTTCCTGAGGGCACTTGCTGCTGGGAAACAGTGAGGATGAGCAGACCAGTCTTTGCTGGGTATCTGGAGAGAGTGGAGCTGGGTGGG
GACAAGATGCAGAGCACACGACTGGGGCCCCAAAGACAAATTTGCTTACTGTGGTCCAGGACAAGTCTAGCACTGAAGGTTGGCAAGGAGTTTTCAGGCA
ACAGGTGGGTGCATGTTGAAAAAAGCACCGATAACCCAAATTGTGCAAACTTTCAATCATAATAAGAATCTGAATTTGGGCCAGGAACGGTGGCTCACGC
CTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACCCTATCTCTACTGA
AAATACAAAAAATTAGCCAGGCATGGTGATGCATGCCTGTAATTCCAGTTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTT
GTGGTGAGCTGTGATCACACCATTGCACTCAAGAGTAAAACTCCATCTCAAAAGGATTTTAAGTGCACAATCCCCAGATAAAAATATTTATTGTTCAGTA
TATTTATATTTATTGTATGTGACCTTGGGTAATTGTTTGTTGTAGAAGGTTGTCCTGTGTAGAATGTTTAACGACATCCCTATCTTCTACCTGGGGGATG
CAAGTTGTCATAACTGTTCCCTTACCAGTTGTGACAACTCAAACTGATTCCACATATTACCAAATGTCTACTGGGGGTAAAAATCACCCTTAGTGAGGAT
GACAGCACTAAACCCCTCTGTGACTCAGTTTCTCCACCTATGGAATGTAAGTAACACTCTCTTCTCACCTGCATAGCGAATCTGTCTTCCTAACTCACTC
AAAACCTGCTGGTTTTCATCCTTGACTGAAAAGAAAGTGAAGGCAGCATCATATGGGAAGCGACTCAGCTCGTGTCGAGGGATTGGACCTTGATTCTGGT
TGTGCTATTAACTTACTATGTGACCCAGGGTAAATAACTCACCTCTGCTGGCCTCGCATCTTTGTCTTTAAAGTGAAATTTTGTCTCTGTACTCAAACCA
CATTGGCAGCAAGAATACTCTTTTATTCTTCAAAATAGTGCTCTCCCTTCTTCTATTTTTTCCTTTATACATTCAGTAACTTCCCTTGTTCTTATATTGA
GTTGCTGTTATTTCACTTTGATGTAAAAGTAGGAAAAGTTATGACAATCTGGACAGCCTGGGGCTATTGGAGTTTCCCAGGAGAAAGCAAGTCCAAAATC
CTGTATTCTCATCATCTAGAGATTAGGCCTGAGATATTATAACCTTACATAAGCTAACTTTTGCTTAGGCTCCTTTAAATACTGAGTGGTGCATTTTACC
AAGCTATACTGCAGATTGATTTAAGAGAGAAAAGAAAAAAAAGAGAAGCAATTAGAAAAAATGAAGAAACTTGCCCACAGTTATACTTCTCCCTTTAAAT
TGCATTGCTTGATTGCTGCTTTCTTTYCAATGCATTTCTGATGTGACAGTTCCCACCAGGAAAATTGCCAGAGAAAGCTAAGGAGAATGCTTAACTTTGT
GCCATCCGAACACTTACTTCCCTCACATGGCATTAATAAAGCATTCTATTGCTAGCCCCAAGTTTCTGTGAATAAGCCAGACATGGACTCTGAGCCCTGA
GTCAGACTATCAAAGAAGGTGGGCCGTGACATATTGTGACAAGGGCAGCATGGTTCTGGGGAAAAGGGAAGGCTGTGCAACCACCTGGCATTACTGCGGC
GTGGTTACCTGTCTATGCCTGTTCCTGCCTCCCGACTGATAGGATCTGGCAGCAACTATGGGCAGAGAATTTCCCCCAAGGAGATGCAGCTGCTTCTGCA
AAGGCTGCCGYTACTGCAGATAAAGGCTCGTTATTCACTGTGACACACCTACATGTACCACCTCCATCCATATTTGCTCCAGTGGGTCAAGGCATTACCA
GTGGAGGATCTGTGTCGAAACACATGCTGAACCAGCGTGTGCAATGGGGAGGACTCTCCAAGAGTCTTCTGGGTGAGGAAGCAGAAGCCCTTGGAAGTGG
TGTCCCTCACTCAAAGTCACACAGCAAATAAGTGGCTGAGCTGAAACCAGATATGGTCCTTACTCTCAGATCATATTACCTTAGAGGGCCACTATCAACA
CGTTATTGCCAATAACACAATAATTATGTAAGATTGARTTGCCATTTCCTAGAAAAGAAGAGAGCCCCAAGGGAATGGAGCCCAGATGAGGCAAATTATT
GAAAATGGGGAATAAGTGAAGAAAGGTATCAATCAGAGGATTCTAAATAGCCATAGGCACTGGGGCCCTGGAGAATGAGCTTCCAAAGACGATCAGGTAC
CAAATATGATATGATAATGGTGGTGGTGTTTGGTGGTGGTGGTGATAGAGTTAGTGATGATGGTGGTGGTGACGGTGGTGGTGATAGTGATTGTGATAAT
AATGGTGGTGATGGTAGGGTGATTATGGTGGTGATAGTGATGATGATGGTGATGGTGGTGGTGGAGATGGTGACGGTGATGGTGGTGGTGATGGTAGGAG
TGATGGTGGTGGGAGTGATGGTGGTAGTGGTGGTGATGGCGTAATGTGGTGGTGGTGGTGATTTATGATGGTGGTGATAGTGGTAGTGGTGGTGGTGATG
GTGGTAAAACACTCAGTATTTACTCATTTGTTTGACAAATGTTTATGGCAATCTACCAGTCTGAACACTGGAGTACAATTGTGAACAAAATTAAGTTTCT
GCCTTCACAAAGCTTACAGTCTAACAGAGAACACAGACTAGTAAATAGAAAATTTTAGCTCAGCATGGCAAATTCTGTGATGGAAATAAGCATAGGGTTG
TATGGGAAAGCAAATCTCTCAAATGTAGCTCAAAGGTTTCCCAGGACTAAACATTGGATCAAAAGATAGAAGAATGTCTGAGGTCCCACAGTAATTAACC
ATGCTATTATTTGAAGAAACCCTTTCTCCATGGTGGAAATTATATACAAACAGCTAGTCACCAAAAGCACTGAAGAAAAATGTAGTAGRGGGTTATTTGC
TCTTCTGGGGGCTTGTTTGTTTTGCAATTCAGAAAACTAAGGTTGACACAACTGAAGTTTATTCCATAGGATCTCAACATTTACAGTTACTTGATCCATG
GTATTCTGATTCAGTTGTAGTAAGAAAAAAGGTAATATTAATGAGAAAATTAGGAAAGTAGGAGGAGAGAAAAAAACGTCAATATAGTTACATATTTTTA
AATTTCAGTGTTTGTACTGCTGCCATCCTGGACTATCCAGCTTCCCTTGAGATGTATGCATTTATTTTTAACCCTGGCCTTTTGCTAATATCGAACCACA
ATGCCATCATTAATCCCCATTAATACTTTGCTCTGACTATGMCTTTTGGGAACTAACTCATGACTAAACTTTTTTAACCAATCGATGTTCGATGTACTCT
TTAGCATTGTAAAAAAATCTTGAACTTCAGCTAGTAAATCAAACTGACCACAATTCGGAGTAGGTCCTGGATTTTTCTAGGACACAGTACAAGATGAATG
ACTGTAGACCTTTGAGATGAAATGGACTTTAGTGCTTCTGATCCTCATGCATCTGTGATCCTACAGATAAACAGAAAATAAAGTTATTTTCCCTTTGTCC
ATCTTTTCCTCCCCCTCTTTTTGTCCCAGTATTTAGAAAGATTTTTTTCTTTCCAYGCATGAAAAAGACAGTAATGACATAACTACTTTTATATCTTGCC
AAGCAGCTCCTCAAGGGGTTAACTATAAAACCATGTTTTGTTCATTTTCTTTCAATTGTTTACTTGGTCATCTTATAGGAAGCTTCACGTTGAGCAAACC
TCTTCATGCAACAAACCTTAATTATAAATATTCAGATTACATTTAAAAGTTCACTTTGATTAGAAATTTCACACCTGAGTCATCCCAAATGAACTGTAAA
GACAGAAATAAATATATAAAGTTTGTATTTATTTCTAAAGTTTATTCCTTGATCATACAGACCAGTCACAAGGTACTTTCGTAACAGTTTTATTAAGAAA
AATTTTAATTACAAAGCAATATCTAACCCATCCTTTGGTTTATAAAGCAGCTTAAACCTCTTTTTTTGGAGTGAACGGTCRTAGATACATCTGAGGACCC
AGGTGCTCAATGGGCATTGTCCTTGGCATTTCTAAATCACCAAGGAACTTTTTYRCATTTACCCATATGGATTTTAATTTTTGAAAAAGTTCATCTATCA
AAACAAATCATGATTATGTAATAATACCTTGTTACCCCATTCTTGTGTCAGATTTATATAACTGCCAATGGGAACTTCTAATGATGGTGGCGGTGGTGGT
AATCATCTCTACCAGATAATGAGTATGACCACACTGAATATGATTCGGTGTCACTTTGTGGGGGTAAAGATACAACTTCCATCTGGTCTTTTATAAAAGC
GACAACAGCCTACCTGCATTACTAACCCACAGATGCCTAGAGGTCAAAATTCCCCAGGTGGTGACCACTGCCAGATGTAGGTTCCATCATGGACTTGAGT
CTCCATCCAGAGCTTCTGGGTCTCCAACCCTATCAGCTTTTATTTAAAAGTGTTATTGTCTCTTTCTATGATTCATATCAGGAATGAAATTTCTCAGTTT
GGAACAGCAKAAAAAGGCAGAAGCCTCCGGTGTTCCTTGCAACCTTTCCAATTRTAACGCATATCAATTAGTARGAGCTCTCGGGGTGACAACTTTGGGA
GAATCCACTGATTTATATTAATGAAGAGTGTTACTGTAGTCCAACAGAGTAAAGTACTAAATTACCAACTCTAAAAAGATTTTTTAGAAAACCATTAAAG
TTAAAGTCAAGGTATTTCTAAGAATGAAAGTCATTTCTATGATTCTAAAATGACCCAGGGAATTCAATGATGAATGAGAGGTACAGACTCAAAGCAATTC
TCTAATGTATTCAAAGTAAACAATACYATAAGGTCACCTTATTCACCAGGGATTTTCATTTCTGTTCATTGAAGATTTTTWAAAAATTGACAGATATATT
GGAAGCCAGTGGGAAAATAGAATTTATCTAACAGAAAGTATCTTCATAGCCACTTTTGAGAAATTGCATAAATCCATTCCATAAATAACCAAAGTGCAGG
TGGAGAGACTGAGGCATCAGGAAGTTAAGTAACTTTATCCAAGGTTGCTGGTAGCACTGGGGGTGGGTCATGAGTTGCCTGGCCCCACTAATTCACACAC
AATGTTCTATTTCCCCTGGATTTGTCCTCTGTCTGTCCTCTCTCCMGGTCACATGAGCTCCTTGGATACAGATATAATGCCTTTTACATGTCCTGTCTGA
TTCAATCCTTCTCTTTCAGGTGGGGGCAGTGGGGGGACGATGAACTGCTCAGACATTATCTTTTTTCTCTTATGGTAAAAGCCAGCAGTGTAATGAAGTT
TCCATTTGTGGTCAAACAGCTTGGTTTCTCAATTATTAAGCTTACATTTCTTATGCCTCTTCACCCCATATTTTTGGAGAAAAACAGACATTTATTACAA
GGCATCTCTCGAATGTGATAATCATGGGCAATCTAAATGTCTGCTTTCCCTGAATTGCTTCCTGGAATGAGGTTTCAATGCTGCAGCTATTCTGTAATCA
CACAGGCTATTTCTGAAGCACAGGGATGCTTTACAGCACTCCCTCCAAGCTGAGCGGTTGGTGCTGCTCTGGTCTCCTGGGGCCAGCATCCCCAGGATAG
ATGGATAGCAAAGGAGCAAAGCAAAGCCAGCTCAGCCCTTTAGGATATGCACAGCTTCATGCACCTTGGGTTCCCTTCATACCCTCTTTCTTTCCCCTGT
CTCCTCCTGTTACATCCTTCCCTTTTTCCTCYTCCTGCTCTGCATTTTTCCCTCTCTCATACGTCCATTCCTTTAATTCAGATATTTTTGAGGCCTGTTC
TATACCAGCTCTACACCATGCAGCAGTGGTATGGCAATGAAAACAGCAGGCCACACTTGGAGACCTTGAAATCTCAGTTTTCTCTCTCAGTCCACATTTG
CTTATTTCTCTCATTATTGTCAATTAGTAAAATATGTTTTGGCCAAATGAGCATCCTCAGATACTGAGAGAGACAAGGTTAATAATTTCCTGTGGTCATA
GTTATCATGAAAAATGAGTCTAATTACCCACCCCTATCAGAGCTTGGGTCATATATATACCAAAGGACATTCATATATCGGTAGTTATATGCTTCATACT
ATTCATTACAGTTAGTTACAGGATTTTTTTTAATTGAAGTAAAATTTACATACAGTAAAAAATCATGGATATTAAATGCACAATTCAATGACTTTTGATT
GGGGTAATCACCACCCCAATCAAAATATAGACATTTCCACAAGCTCAGAAGTTTCCCTCGTGCTTCTTCCGGTCAATCCCCACCTCATTAGGTAGCTACT
ATTCTGATTTCTTGCAATGGGTTACATTTGTCTATTCTTCAACTTTACATAAATGGATTCACACAGTAGAAATAGGGCTGGCTTCTCTTACTCCATCAAC
TGTTACATGTGTTTTCAATGCTTTCCTTACCATTACTAAGAAGTATTTTATTGCATTGTATATCACAATTTGTCTATCCATTCACCTATTGATGCATGTT
TAAGATGTTTCCAATGTGAAGCTATTATGAATACAGTTACTATAAACATTCTTGTACAAGTGTTTTTGTGTATGTGTTTTCATATATCTGGAGTAAATAG
CTAAAGAGAGCATGCCTAGATCAGAAAGTATGTATATATTTAACTTTATAAGAATTGGCTAGTTTTCCAAAGCAGCTCTACTGTTTTACATTCCTGCCAG
CAACATATGAGAGTTCCAGTTTCTCCACAGCTTCACCTATTCTTGATGTCTTGAACCTTTTTAATTTTAACCAATCAAATGGGTATATAGTGGCATTTCA
TTGTAGTTTTAATTTTCATTTCCCTGATGGCTAATGATTTTGAGCATCTTTTAATACATTTATTGGCTATATATATATATATATATGCAGCATGTTTTCA
AGTCTACTGATTTTCTTATTCAGTCATTTGTACTTTTATTATTAAGTTATAGTTGCTCTGTGTATATACCTCTCATTTGTCAGATATGTATAGAACATAT
TTTCCCCAAACTATGGCTTGTAGTTATATTTTATAAATGGCATATTTTAAGTAACAAAAGTTTTTAAATTTTATAAAATCAAATTTTTTCATTGTTCTTT
AATAGTCATCCCCAGTAAATGTTCTTTCCACATGAAGACTTTCACATGAATCACTATTTGCCCATGTTTGCCACTATTTCTCCTATGTTTTATTTTTGAA
GCTTTATAATTTGAACTTTTACATTGTGGTCTATGATCCRTCTTGAGTTACCTTTTGGTGTTGTGTGAGGTAGGGATCAAATCTTATTTTTTCCAAATTT
ATCCATTTGTTCCACCAGCATTTGTTGAAAAGACTGTTGGAAAGGCTTTCATTCGTTGCAAAGAGTTTCTTTGTTGAAAAGACTGTCATTTTCTTCATTG
AATTGCTTTGGTGACTTTGTCAGAAATCAAATGTCTACATGAGTATGGATCTATTTCTAGACTCTCTTTTCTGTTTCATTAGTTTATATGTATGTCCTTA
TGACAATACCACACTGCCTTTTTTACTGCTTTCCTCTAGTAAACCTTCAAATCAGGTAGTCATTCATTTTTGTTCTTCTTTTTCAATATTATGTTTAATT
ATTCTAGATCCTTTGTATTGCTATGTAAATTTTGGAAACAACTTTCCAGCTTTAATGAAGTGCCTATTGGCATTCTAACTGTCCCGTTGTCTTGATCTAT
TAAAGAAGTATTAAAATGTAGCCTATAGCCATCTTCCAGTGATAGCACATCCATTCATTCAACAGAACTTATTGAGTTCCCACTCTGTGCTAGCCCTGGG
AATATAAAGTCAAAACAGCATAGTGCCTTCCTTCCTTCTGTGAACATAAAGTCTGGGAAAAGAACAAGGACAGTCTAACCAATGACACAATACAATGTGA
TAAATGGATAGTACTATGCAAAGAGTACTATGTGATCAAAGAGTAAGGACATCCAAATCAAGGTGATAAGTAAAGATTCCCAGGGTGAAACCAGCTGAGT
TTTAAAGGATCAATAGGGCACCAGGTAAAGAAGAGGTTTGAGTGTGGATGGACATTCCAGGGAGCGAGAATAACATTTCCAGCAACAACAAGGCAGAAAA
CAGCTTGTTATTAAGCAAACCACTATGAAAAACCAAAGACATGGTAGATGATTTTCCTTTCCTTTCGACCAAGTATGTGACCCTGGCTGTTGTAAGTGCC
ATAAAAGCCCAGAAGAAAATCAAGGATGAAGAGCCAGGCAAGGGAAGAAATAGAATTGCTGCTACCCTATTTCTTTTTTCTTGTGCATTTTCTGGGATGC
CTGCCCATGGAATAACCTGAGTACTTGACCTTCAGCTCATCTCCCTTCCTATCCTTACAACATAACTTGGCAAATGGCGGAGCAGGCACAAAAACAGATC
TCTACATTCCCAGAACTGTGACCTTTTAAATTTTATTTTTTAGAACAATTTTTTCAAACAGCAATTGAATCCAAATACATAAAAGAGAAAAAGCAGAGCA
GCTATTATTAAAGAAAGGTGGTGACTGCAGCCTTGACTATCAACATTCAATTCTCACCTGCCCCACCCCACAACACCGTAACTACTGAGTTTCTTTTGCA
AAACCCTAGCATGTCATGAAGCACAATYTGACATCCACCACACCACTTCCACCTGTGATTAAGTCTGGTCACCACCACACTGTAGCTGGGGATTTGTGGT
TCACAAAACCTGGAAACGATTTTCTACAGGAAATAATTCTTCTCCTTGCCAAACTTAACGCTAGGCCTTTGATGTTAGTTCGTGTTACCCAACATCAAAA
TTCATTTCCAATGGTCTTTGAGAAACCATTGTGGACAAAATTAGGTATAAGACTATTTTCTAAAAGAGTTATGGAAATCCTAGCCTTTATGAGGACATAA
CTTTTAACAATGAAATTTAACGGAATATGATAGGTTTATAACAGAGAAAAGTCATTTCATCATAGCCATATAAAATGCACACAGAGGAGAAAAGTACCCT
TGCATATTTTTTTAAAAAGCAGAAAGAAATAGTAACTATACAAAATGTAAAGGTCTGCGCTACAGGAAATTGAAGAATCAAGAAATGTCACATTTCTTTA
TTTTTCAGTATCAAGTTAGAATCTGCTCATATTCCAATGACCAAAATTAAACAGAAGTCCAGTACGGGTCATGTTTTAGGGCTATTTCTATTCTTTGAAT
TATACAGGAGAAATAATTTTAAAATCATAGATAATATTATACTATAGATGCTGGTTTAATTTAAAAGTCTTCATTGATTTTCACAGCTTTATTGAGATAT
AGTTGACAATAAAATGTGCATACTTAATGTACAATTGGATAATGTTGACATGTATATGTACCCATGAAACGAACACTAAAATCAAAATAATGAATATATC
CATTGCCCCCAGAAGTTTCCTTATTGTAATTTCTTCCTTAAACCACTCCCTGCTTTGTGTACCATCCCCCATCACTGCTCAGCCTTCTGTCATTATACAT
TGATTTGTGTTTTCTAGACTTTTACACAAATATAATCATGCAGTATGTACTCCTTGTGAGGCTTCTTTTATGCTTCCTTACTGTATTCTGAGCTTCATCC
ATGCTGTTTTTTGTTTCAGTAGTTCATWCCTCTTTATTGCTGAGTAGTAGTGTTTCATTGTATGGATGAATCACTATTTGCCCATGTATTTACTTGTGGA
TGGACATTTAGGCCATTTTCCGTTTTTGCCTCTTACAAATAAAGCCAGAAACTTTAGCTTGGAAGACTTTAGTAAAAGTCTTTGTATAGACGTAAGCTTT
TATTTCTCTTAGGTAAATACCTAGGAGTGAGGTGGCTGGGTCATAAGCTAAACATAGGTTTAATTTTTAAGAAACTACCAAACTGTTTCCTAAATTGGAT
GGGCATTTTACATTCCCACCAGCAGCATATGAGAGTCTAAAGTGTTGCATATCCTCCCGGACACTTCATATGATCAGTCTTTTTAATCTTAGACTTTTAA
ATAGATGTCCAATGTTACCTTGCTGTGGTTTTGATTTGCATTTCCTTAATGGCTGATGATACTGAGCATCTTTTGTTGTGATTGGCCACCCACGTATTTT
CTTTGATGGAATATCTGTTCCAATATTTTTCTCTTGTTTTAAGGTTGTGTTTGTTTTCTTACTATTGAGTTTCAAGGGTTCTTTACATATTCTGGATACA
AGTTTTTTCTTTTTAATCAGATAAAGGATTTACAAATATCTTCTTCCACTCTAGTTTTATTTTTTCATTCTCTTCACAGGGCCTTTCAAAGAGCAAAGGT
TCTTAATTTTTATGAAGTCTGATTTACAAATTTTTTTATGGATCATGCTTTTCATATTTTATCTAAGGAAACTGCCTAACCTAAGATCACACAATTTTCT
CCTTTGCTTCCTTTTAGAAGTTTTATAACCCTAGGTTTTATATTTAGGTCTAAGGTTCATTTTGAGTTCATTTTTACATATGGTGCAAGGTATGAATCAA
AGCTCGTATTTTTGCATATGAATATCCAATTGATGCCACCTCATTTTTTGAAATGATTATCCTTTATCCATAAAATTTCCTTTGCAACTTTATCACAAAT
TAGTTAACTGTATTTGTGTGAGTCTATTTCTGTGTTCTCTATTGTGTCACATTGATCTGTTTGTATTTATACCAAATGGTGTCATGCTACTTAATTTGAA
AGTATTACATGTAATTGTACCCAAATTCTATTTAATTTTAAGTTTTATTGAATTTTACTTTAATAGGAAAGAAATTAAATTGCAACAGAAGAAATTATTA
AACTTCAAATAAATATTTCTTCACTACAAGAGATATCATTTCTTAACAGGTTTTCCTAAGGTTATTAAAAATTATAAAAACCATTAAAAGAATAAAGTAA
TTATGTACTTTTAAATTATACTTTAATGTTAGATGGTATCAATTAACTGAGAGACCCACACACTAAAACATTACCATTTTCACTGTTCCTCTCCTCTTTC
TCCTATCTTTTTTCTTAGGATGATTATTGTTTTTATATTATCAAGTCTTAAAATTCATCTGTAACTGTAAATCCCAAAGATGCTTAACTTATATAGAGTT
TTCTCACCCCTGAATCTGTTATCACAGAGTCTCTGTTCCTGGGTTCTTTGTTTGACTYAGCCCCTAATTATTTTGATATCACTTTCAAGTATTAATAGTT
TGGTTATGATAGGTACCATATTCCCTGAAGTACTTCATGTTCGACAATGTGTGTAAAAGGGGGCTGAATGCTTGATTTGATGCTCCACTTGGTCACTGTT
GATGTAGAGAAGAGCTAATGATTTGTGTACATTAATCTTGTATCCAGAAACTTTGCTGAATTCTTTTATCAGTCCTAGGAGCTTTCTGGAGGAGTCCTTG
GGGTTTTCAAGGTAAACAATCATATCRTCAGCAAACAGTGACAGTTTGACTTCCTCTTTACCTATTTGGATGTCCTTTATTTCTTTCTCTTAWCTTATTG
CTCTGGCTAGGACTTCCAGTACTATGTTGAAGAGGAGTGGTGACAGTGGGACTCCTTGTCTTATTCCAGTTCTCAGAGGAAATGGCTTTCAACATTTCCT
CATTCAGTATTATGTTGGCTGTGGGTTTGTCATAGATGGCTTTTATTACATTAAGGTATGTCCCTTGTATGCTGATTTTGCTGAGAGTTTTAATGATAAA
GCAATGTTGGATTTTGTTGAATGCTTTTTCTGAATCTATTGAGATGATCATGTGATTTTTGTTTTTAATTCTGTTTATATGGTGCATCACATTTATTGAC
TTGTGTATGTTAAACCATGTCCACATTCCTGTTATGAAACCCACTTGATCATGGCGGATTATCTTTTTGATATGTTGTTGGATTCAGTTAGCTAGTATTT
TGTGAAAGATTTTAGCATCTGTGTTCATCAAGGATATTGGTCTGTAGTTTCCTTTTTTGGTTATATCCTTTCCTGGTTTTTGTATTAGGGTGATGCTGGC
TTCATAGAATGAATTTGGGAGGGTTCCTTCTTTCTCTATCTTGTGGAATAGTGTCAAAAGGATTGGTAGCAATTCTTCCTTGAATGTCTGGTAGAATTCT
CCTGTGAATCCGTCTGTTCCTGGACATTTTTTTGTTGATAAGTTTTTAATTACCATTTCAATCTCACTGCTTGTTATTGGTCTGTTCAGGATATCTAATT
CTTCCTGACTTAAGCTAGGAGGGTTGTATTTTTCCAGGAATTTATCTGTCTTTTCTAGATTTTATAGTTTATGTGCATTAAGGTGTTCATAGTAGCCTTG
AATGATCTTTTGTATTTCAGTGGTGTCAGTTGTAATATCTCCTGTTTCATTTCTTAGTGAGGTTATTTGGATTTTCTCTCTTTTTGGTTAATTTTGCTAA
TGATCTATCAATTTTATTTATCTTTTTAAATAACCAGCTTTTTGTTTCATTTATCTTTTRTATTTTTGTTTGTTTCAATTTTGTTTAGTTCTGCTCTGAT
CTTGGTTATTTCTTTTCTCCTGCTGGGTTAGGGTTTTGTTTGTTCTTGTTTCTCCAGTTCCTTGAGGTGTAACCTTAGAATGTCAGTTTGCGCTCCTTTG
GTCTTTTTTCTGTAGGCCTTTAGGTCTATGAACTTTCCTCCTAGCACTGCCTTTGCTGTATCCCAGAGGCTTTGATAAGTTGTGTCATTATTGTCATTCA
GTTCAAAGAATTTTTTAATTTTCATCTTGATTTTGTTTTTGACCCAATGCTCATTCAGGAGCAGGTTACTTAATTTCCATGTATTTGCATGGTTTTGAAG
GTTTCTTTTAGAGTTGCTTTCCAGTTTTATTTCTGTGTGGTCTGAGAGATGGCTTGATATAATTCCAATTTTCTTACATTTATTGAAGCACATTTTATGG
CTTATCATATGGTCTATCTTGGAGAAAGTTTTATGCACTGTTGATTAGAATGTGTGTTCTGTGGTTGTTGGATAAAATGTTCTGTATATATCTGTTAAGT
CCATTTGTTCCAAGGTATAGTTTAAATCTATTGTTTCTTTGTTGACTTTCTGTCTTGATGACCTGTCTAGTGCTGTCAGTGGAGTACTGAAGTCCTCCAC
TACTATTGTCTTACTGTCTATCTCATTTCTTAGGTCTATTTGTTATTGTTTTATAAATTTGGGAACTTGAGTGTTCAGTGCACATTTGTTTAGGATTGTG
ATATTTTCCTGTTGGACAAGGCCTTTTACCATTATATAATGTCCCTCTTTGTCTCTTTTAACTGCTGTTGCTTTAAAGTTTGTTTTGTCTGATATAAGAA
TAGCTACCCCTGCTCGCTTTTGGTGTCCATTTGCATGAAATACCTTTTTCCACACCTTTACTTTAAGTTTATGTGAGTCCTTATGTGTTAGGTGAGTTTC
CTGAAGGCAGCAGACAGTTGGTTGGTGAGTTCTTATCCATTCTTCAGTTCTGTATCTTTTAAATATAGCATTTAGGCCATTTACATTCAATGTTAGTGTT
GAAATGTGAGGTACCATTACATTCATCATGCTCTTTGTTGCCYGTGTACTTTGGTTTTTTTGTTTTTTGTTTTTGCTTTTTAACTTGTATTTTTGTTYCA
TAGGTCCTGTGTGATTTATGCTTTAAAGAAGTTCTGTTTTGATGTGTTTCCAGGATTTGCTTCAAGATTTAGAGCTCCTTTTAGCAGTTCTTGTAGTGGT
GGCTTGGTAATGGTGAATTATCTCAGCATTTGTTTGTCTGAAAAAGGCTGTATCTTTCTTTCATATATGATGCTTAGTTTYGCTGGATACAAAATTCTTG
GCYGATAATTGTTTTGTTTGAAGAGGCTGAAGATAGGGTTCCAATCCCTTCTAGATTGTAGGGTTTCTGCTGAGAAATTTGCTGTTCATCTGATAGGTTT
TCTTTTATAGGTTACCTGATSCTTCTGTCTCACAGCTCTTAAGATTCTTTTCTTTGTCTTAACTTTGGATAACCTAATGACAATGTGCCTAGGCAAAGAT
CTTTCTGCAATGAATTTCCTGGGTGTTGTTTGTGCTTCTTGTATTTGGATGTCTAGGTCTCTAGCAAGGCCGGGGAAGTATTCCTCAATTATTACCCCAA
ATACATTTTCCAAGCTTTCAGAATTCTCTTCTTCCTCAGGAACACCGATTATTCTTAGCTTTGGTCATTTAACATAATCCCAGACTTCTTGGTGGCTTTG
TTCATATTTTCTTATTCCTTTTCCTTTGTCTTTTTGGACTGGGTTAATTCAAAGAACTTGTCTTTGAGCTCTGAATTTTTTTCTTCTACATGTTCAATTC
TATTGCTGAGACTTTCCAGAGCATTTCGCATTCGTAAAAGTGTGTGCAAAGTTTCCTGAATTTTTGCTTGTTTTTTCTTTAAGCTATCTATTTCCTTGAA
TATTTCTCCCTTCACTTCTTGTATTATTCTTTGGATTTCCTTGCATTGGGCTTCACTTTTCTCTGGTCCCTCCCTGTTTGGCTTAATAACTAACCTCCTT
AATTCTTTTTCAGGTAAATCAGGGATTTCTTCTTTGTTTGGATCCATTGCTGGTGAACTAGTGTGATTTTTGGGGGGTGTTGAAGAGCCTTGTTTTGTCA
TATTACAGTTCCTTCTCATCTGGGTAGGCTCTGTCAGAGGGAAGGTCTAGGGCTGAAGGCTGTTGTTCAGATTATTTTGTCCCATGGGATGTTCCCTTGA
TGTAGTACTCTCCCCCTTTTCCTATGGATGTGGCTTCCTGTGAGCCAAATTGCAGTGATTGTCTCTCTTCTGGGTCTACCCACCCAGCAAGTCTACCCAG
CTCTGGAGTGACACTGGGCATTGTCTGCACAGAATCCTGTGATGTGAGCCATCTCTGGGTCCCTCTCAGCCACCGGAAYAGCGCCTATTCYGGTGGAGGT
GGCAGGGGGTACAATGGACACTGTTAGGGTTCTTAGCTTTGGTGTTTAATGCTCTATTTTTGTGCTGGTTGGCTCCCTGCCAGGAGGTGGTGCTTTCCAG
AGAGCAGTAGCTGTGGTAGTATGGGGAGGAACCAGTGGTGGGCAGGGCCCCAGAACTCCCAAGATTATATGCCCTTTGTCTTCCACTAGCAGGGTAGGTA
GGAAAGGACCATCAACTGGGGGCTGGGCTAGGCGTGTCTGAGGTCAGACTCTCCTTGGGCAGGTCTTGCTGCAGCTGCTGTGGGGGATGGGGGTGAGATT
TCTAGGTCACTGGAGCTGTGTACCTAAGAGGATTATGGCTGCCTCTGCTGAGTCATGCAGGTTGTCAGGGAAGTKGGGGGAAGCTGGCAGTCACAGGAGT
CACCCAGCTGCCATGCAAACCAAAGGGCCAGTCTCACTCCCACCGTGCCCCCCTCAACAGCCCTAAGTCCATTTCCAGGCAGAGGGCAAGATGGCCTTGA
AAACCTGACCCGGTCTACCCACCTCCCAGCTGCAAAAGAAAAGGGTTTGGTTCTTCCACACCTGTGGAGTCTGCACACCGGATTTGCACCCTCCCCCAAG
TTTTGGCCAGGAGGCTTCTCACCCCATTCAAATTGCTACAAAGTTSAGCTAGAGATTTCCTTCTCCATGTGGAGTTTTATCCTCTGCTCCTCTGTCCACC
TTTCTGATGGATCTCTGTGGTGCCAGGCAGGGATGGCCTGCTAGGGGACCTAGCAAGCTCCCAGGGCCTTTCTGCTGCTTCCTCTACCCCTGTATTTCCC
TCAGCTCTCCAAGTTGACCCAGCACCAGGTGAAGTCGGAAACTTCTCCCACAAACAGACCTTCAGCTTCTCCAGTGGAGGTTTGTGTTCGGGAGAGGAGG
GTCTCCCTTTCCCACTTGCATAGTTGGGACACTCACAGTATTTGGGGGGGTCTCTCGGGTCCTGCAGAAGCAGTCTGCTTCCTTCAGAGAGTCTGTGGTC
CTCTCAGGATTGCTGGTTTGTTCTTGCAGTCGACCTGGATCTAAAATTTACAGCACGAGCCTCCACATGCTGCTCTGTCCAGAGCTGCAATCCAGTCCTG
CCTCCCATCCACCATGATGATCCAAATCCTTGGGTTCTCTATTTTAAGGACACTAATCATCCTTATGTTGTATCATCTTTGTTTTCCATAACTATGGTAC
TATTAGAATCTCTCTAAATAATTCATCACTTTGGTTTTTTATTAGTATTTTCTTTGATATCTCAAGTTTTCTTCTATGTCATTAATTTTTATTTTTAATA
ATATGTATTCTGTTTCTTGCAGTTTATAATTTATTATTAGCTCTGTAATGGTATGATTTGGTCCTCAATTTGTTGCCTTGGTCTGTGATCTCCTAAAAGG
TTGTGAGAAAAATGACTTATGCTCCTTAATTTCGTTTTCTTCTATGTATATTTTTTCATGATCTCTCCCTCTCTCTCTTTCTGTCTCTTCCTCTGCATGC
AGTTTCTTTTCCCTATATTTATGCTCAAACTTGCATCATTCTTGTCTCTAGACGTTCTATTTGCTGTAATAAATGAAATTCTTCTCMATCTAAGGTTAGT
TTGATCTCACTTCTGAACTACAATTTGAGGCCAATGTACCACATTCTATCTACTCTTCAGTACTCTGCAAGAGATTGGAGTGAGGACTACAGTATTAGAA
GATGAACAATCTTTGGTAKCATGCTTAGGGTCTGCTCTTTCCCTTAAGATTCTCCTACATCTGTCACTCCAGAACCCACCCCCACAACTGGAGGCATATC
TCAGTTCCATTGGGGGATACGCTCAGCTTGTATTATTTCCCAATTGTGTTCCAGAATCTCTACCTCTTTTAAGGTGCAGATACTTTTTCACTCGTTTCTC
CACAGCAGGTGTTTCCACCATTCTGTTCAGAACAATAAAAAGAKCAGCTTTTTTTTTTTTTTTTTTTTTTGAGACAGGATCTCACTCTGTTGCCCAGGCT
GGAGTGCAGTGGTACAATCAGCTCACTGCAACCTCTGCCTCCCCGGTTCAAGCGATTCTCCTGCCTCAGCCTCCAGAGTAGCGGGGACTACAGGCATGTG
CCACTATGCCCAGCTAGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAATTCCTGACCTCAAGCAATCYATCTGCC
TCATCCTCTCAAAGGGCTGGGATTACATGCCTGGCCAAAAAGATCAGCATTTTGATTATATTTATTACTTTCTAGAWTTTAAAATATAAATTAGAAATCT
CAGGTTTTTGTTGACTAGCTGGTAAGATGGTTAAGGTTAGGAGCTGAKCCATGTTGCCTCTCTGCTTTACTCCATAGTCCTCATGTTTTGTTGGGACCAT
GTTTTGAAGTTTATTGCATTATGCTGATAATGACTTTTAGGGGTTTTTGAAATTTTTTTCTAATTTTGTAGGTATTATGGGAGGGCAATTTAGTGTAGCC
TTAATGAAGTTGAATAATGCCTCCTGTAYGTAGTCCTGGACTTGTATTGTCTACTTGACCACCAGTGACTCAAGACCAAGACACTTTATTCTGCCACTGG
TCAAACCCTGAGATCATGAGAGGGTGTTAAAACAGCCAACTGTGGCATGAAAAATGACAAACATGTCCTCCAAACATATCTTGTTGCTTATGAGGGGAGA
TATTATTTTAACCCTTTACATCTGTCACTAAAAACTTACCTCTTTCATGGCCTGAGCTCCCTAGAAATCAATGTTCTAATTAGAAAACAGTAGCTAATCT
GCCCAAATGCTAATAAATGAGGGTTGTGATTTATCTAGCAACAGGGGAACAGCTCAGCATTAACAATTAAAAGGTCTGTAGAGGACAGAGCTTTTTTTCC
TTACTCTTCYCCTTAGCTGATTGAGTTCAGCCCTATGCTATAAATAGCCCTTGTAATTAATGGCTATCTGTTTGAAAATCAGTTATCAGGACCACAGTTT
AGGAGCCTTTACCTCTGAAATTCATAGAGCCTATTTTATGTCTCAGTGATAAGGGAATGATAATGTGAGTTCAAAGCTAAACCTACCTACCCACAAAGAC
CAAACCACATCATAGCCTACCAAGGCATTCTTCAATCTTCACGATAATGGATACAGATTTTTAAATAATCAATCCAACTGCAAGGAGAAGTACTGATCTT
TAATATAGCCATAATGTTTGGCTAAAGCCTGCTGCACTCCAGTCATTTCATGACTCTATAAGCTAAAGTCAAAATTTATATCAAAGGCATGAGTTTGCAA
TTAGCTGAGCAAGGTCTTTTAGAGACCCCCAAAGAGTTCATTTTTTCCTACATTGAACAAATTAACTGTGTGGTTCATAAAGTTCTTCTTCACTTTAACC
TGACTGGACACAGAGTTAAAGGGGGAAGATAGCATGTCTAAACCAAATTGAATAGTGATCTTCTAGACAACACTCCCCAGAAGGGACCCTCCTTGGGAAA
TACCACTCAGTGCTAGAGTAAATCTCAAATTTCAGTGAAGGCTTTGTCATTCACAGTAAAAGATGCTTGCACATCTTGCATGTTTTCTTCTAGTATTTTT
TTTATTTCGTTCGGTATTGCCTACTTACATAATACCCATGCAGAGCTCCTAGAAGGTCCCAGAGCCTGCCATATTGTTTCATGACACTACACATTTATTA
AAACTGTTTCCACTATGTAGATGGCCTTTTCTGGCCAGTTTGCCTGTCATCTCCCTCTATTAGGCCCCCCAGCATCACCACCACCACCCTCCAATCTAAC
TGATAACTCCCTTCCTCAGGTTCCCACTCTACCTCTACATTTTTCTGTCTTAATACCAGTAATCTTTACATCCACTTGATTGGTTTCTTGACCATCTCTC
TCCAGGCATAAGGTCTTATTCTTACTCAAATATACATTTCCTATATGTTTGTTGACTATATAAGTGATTATTGAACAACTACAKAGCATCCAGTCTTTGC
TAACACTTGGTARAACTCAGAAAGACGGAGATTTTTTTTCTTTGTTCCCAATGAATTGATAAACCAGCGGGGAAGACAGACTTCTCTACAACTAGACACA
GCAAGTCAAAAAGAGGGGTCTAGGCAGGTGATGAGGCTGAGTTGTTAGTTGGTGAGGCAGCAAACACATAAAAGCTCACCATGTTTTAATGTCTCTTCTG
TGATTTTCATAATCAAAACACACATGCTTCAATCATATGTTTCACATTGCTTACTAATGTCTTTGCATTATAACTCAGACCTGTGCTTCTAAACGAATGT
GCACACAAATCACCCAGTGATCTTGTTAAAATGCAAATTCTTATTCAAGAGTTCTGGGAGGGGCCTSAGATTCTGAATTCCTAMCAAGCTCCCAGGGAAT
GCCAATATTGCTGATCCATGAATGCCTCAAGTAGCAAGGCTCCACACCATTGTAATGTCAATGTAAACATTGTTGAAATGGCACCAGTTTTTGGAAAAGC
TCCTGGACTCCCCACCTAAACTCTTCTGACTGTAATTAAACATGATCAACRTTACACCAAGAGAGGTAGATTCAGCAGTGCCCAGAAAAAAACTGGCAAG
ATGCCTTGAAACTGTTACCTCTTGGCCTTTGTTTTACTATGTAAACACAAAAGGTCTTTGCTCCTGCACTTTAGGTCTGCTGCTACAAGATGAATGTAGT
CTGAAGGTGTGGCAAGTTTTATCCAGATATTCAAGATTGCCTTTCTCTGCTAAAGTCTCTTCCATATTTAAACCATAACATCCCAGGTTCTTTATGGAAA
CAGAAATACCTTCTAAGAAAACTCTAAAACTTTAATCTGTTTAAACAATCATAAGAAAGAATACTTAAGTGAATTTTACAAAGGGAAAAAGAAGCTCTGG
GCCAGGCATGGTGACTTATGCCTGTAATTCCAACTCTTTGGAAGGCTGAGGCAGGAGAATCACTTGAGCCCAGGAGKTCAAGACTAGCCTGGGCAACATA
GGGAGACCCTGGCTCTACAAAAAAAATAAATTTAATTAGCCGAGCATACACCTGTAGTCCTAGCTACTCGGGAGCCTGAAGTGGGAGGATCACTTGAGCC
TAAGAGTTCGAGGCTACAGTGAACCATGATCGTGCCACTGCATTCCAGCCTGTGTGACAGATCGAGACCTTATCTTAGAAAGAAAGAGAGAGAGAGAGAG
AAAAGAAAAGAAAAAAGAAACAAAAACAAAAAACCTCTGTAAGCATCCCATGGGAATCTATTTTCTTAACTCTTAATGATTCCAAGACAACATCTGTTAA
CTTTTTCAATTCATTAGAGTCTACCACTCAAAATGACAACATCTGTTAACTTTTTCAAGTCGGTAGAGTCTACCACTCAAAATGAAAGTCAAAATCCATT
AGACCACTAATTTCTCATTTGTGAGTTTTGAGTTATCTTTCCACCAAGACAAGTTCCCTACTTGAGATTTTATCTTTTGTAGGTCTTCTTCCTCTCTTCC
CCACATCATTCTTGAGCACTAACCTAGCCCAAACCAAGTGTCCTATGTATGTCTTCTTCCAATCCGGTAGGTGTCACACTCCTCCTATCTGCCGTTCAAC
TTTGCCTTGCTATAATATGCGATTTAACAGGCAATCTTGGTTACTTGGTCTCCTCTTGCGTATTTAGTTTTTGCATCTTTTTTTTCTAACAATGTAATGG
TAAACCGAACAGAAGTGGAACTCTTTTCACTGGGCACAACATATAGAAGGCAATGGCAGCCATAGCTTGCGCCATGCATAGCCTGGAGTAGACAAACCTA
AATGAACTTTCTTCCTTCTCACTTCTCAYGGACTCATTTAGGTGAATGCCAAAGATGACGAAGGTGTCCTCGTTGGATCCTGGGACAATATCTRTGCCTA
TGGCGTCCCCCCATCGGCCTGGACTGGAAGSGTTGACATTCTATTGGAATACCGGAGCTCTGAGAATCCAGTCCGGTATGGCCAATGCTGGGTTTTTGCT
GGTGTCTTTAACACATGTAAGTATCCAACTGAGTAATTTCTTTTTAATATAAAGGAAACTTCACTCTAAGACATTTTTTCTATAACCTAACAAAGAGACA
TAGCAGCCCCTGTTGACACTATAGAATTTATGGGTGAGCCATTCTGGGATGTAGTCAATGCATAATTAAATTGTAGTGGGCCAAATATGCTCATAGTTTC
TCTTTGACTGCAGAATCTTTATAGAAAGAATGATAGACTATATCCTGTGTAATCCATCACTTAACACCCRAAGAAATAGAGGGTTACAGTAAAAATAYAG
AGAAAAAAGCCATTTTCTTTYCAGCCACCACATTTTAAAAAAACKAAAACAGTTAAAACTAAAATAATAAATAACAAAAGATATATATTGCTTATTTATC
ATTGAGAAGTTGTATAAATATGCRTATTTATTTATTATTGAGAATTTTATAAATATATMCACTTAATTTTTATCCCAGTTATGGAAGGTATTATAGCAGG
TGGTCTCATATTCRTTTTTCCACATTTCTCAATGCCCCTGAGCAATTAGAGATCAGAACATAATGAACAATCTTTCCCTCTCCAGTTTCCCCTCTGGTTT
TTAATCCACCCAACATCCAATCTGTAGAGGAAAGCATATGAGAACAGAATTATTCTCTTCAGTGTCAYGCATCATTTTTCAGAGGCATTTGCCTCTCTAG
ACCCAGACGATATTACAATTAATTCAGTGAATATTTTTAAAAATACATTTATTTCAGTATGTCTTCATCACTGGTAATGATTTTCATTCACAAGTCATTT
CTACAGCCTTGGAGAAACATTAAGCTCAAGTTGGGGTGTCCTTTCTGCCTGCTCATTAATAAAGAATTTTTACCTAGCTAACATTTTTTAAATCAAAAAC
AAAGGGAGGGGTTGGAGGCTGGAGGGAGGTCATTTAAAAAAATGATTACAAAWCCTATTTGTTTTAGCTCAAAGTCTCAACAGTCTAAGACTTGGTGATC
TAAATTTAAAAMAAAAAAGTCATGAGTTTTGTTTTGTTTTATTTTCCCATAGTATCAAACAGGATAAGATTATTTTYTTAGCCATTTAAATATAACCCAG
GGAAGAAGGAATACATATTTCTTGGGAGCAATGAAAATCAAAAGTATAGTCCCCTAGAAGCACTGGTCTCTGAAGTTCCAGATAGAAGCCGGAACTTCAT
GGTAGGTTAAAGGTTGGAGGTCATCCCATCCCTCGAGGCTCCCAAACCAAGACAAGGTAAAAGATGCCCAACAGAGGCAACCACTCTTGTGAAATGATTT
TAGAAGACAGAAAGGACCCAAGTTCTCCCCATGCCTACAATTTCACTATCCCAGTGTAATTCCTTCCGGCTCACAACAAGATAAAATAGTGAACACCTTA
CATCYGTTCGTGTCTTTGGCATAAAAAGGTTATCCAATCTATGCCTGAAAACAGGCTTTGGCGGTAAATCAAGAAAAGGCAGAAACACACAGTGGGGAAG
TCACAACGAGAGTAAACCTGAAGATGGAAATTGGGGGAAGGAGGAACAGGTGCCCTAAAGTCAAGCCTCACTTTCTTGAAATTATGAGTAAGGCAGAGTC
TTGACCAAGTCGTGTCTGGGATAATGTGAATTAGTGTTCAKCCAGAAACAGAATGAGAGTGGCAATCGTTTTATTGATAAGACCCTGGGTGAACAGGGCT
GAAAATCAAGAAAGGAARATGGGAACGGGAGGCCCGTGRCAGCTGCCACTGTTGTTTGGGGCATTAAGATCARGTCCTTTAAGGAGGRGGACCCTTGAAT
CTCTACCAGACTCCAGTTTGGACTTCCAAGGTTGTTCTGTTGAAGGAGGTGGGTAGTCTTTGGTTAAAAATGCTAAACTATTCTGAAGGAGAAAATAAAA
AGGCAAGCCAAGTCATTAATCTTAAAATTGTCAGCTGAATTATTTTCAATGAGCCCTGATGTCTGGTGTCCTGGGAGGCAKGGAGGGCATTTGGATTAAG
TTTAATCAGTAGGTACATATGGCAAGAAAGGTATTCAGATAATTTGTTATCTATTAAAAYGAACTAAAATGAATCTGTGGTGTCACCCACCAATGCATGT
CACAGGAGCAAATTCTGGCCAAGACAGCAAATTCCACCAAGGACCTACTCTGTAAATTCCTAACTTCCTATTAGTGGGTTTTTAAAATTGTATTTTCRGG
AACATAGTCCCATTCATGGGACTAAAATAATACTACGTTGATGATCAAACGCTTAGAAACGAAACAATTAGAACCCTGTTGGGATTCTACTCTAGTTGGC
TTCACCTGACACCAGCTGCAATTCTGAAGGATCACACAGCAAGATTTCTCTCTACCGCCCCCATGGGGTTGAATGACCACCCTTTTCCAGCATGGAACAT
TTGAGAATAACATGTCCAAAGGGCTTTTCATGTTGGGTCAGGAAGAAAGTCCCCTACAAGAAGGGTTTTTTCACTCTGTGTTTATTAAATGCTGGTGATG
TGTTTAGCTGTGGTCTGTCCTTTCCTGTAGTTTTACRATGCCTTGGAATACCMGCAAGAATTGTTACCAATTATTTCTCTGCCCATGATAATGATGCCAA
TTTGCAAATGGACATCTTCCYGGAAGAAGATGGGAACGTGAATTCCAAACTCACCAAGGATTCAGTGTGGTGAGTTTGATTGACARTGGCATTGGCTGAT
GTCACATTATAGTAATGTTACACATTTACCACAAGATAGACTCAATCTGATGTTTCTGTTCTATTTTGAGGACCATTCAACAGCACAGGCAGAAAACTCT
GATTGTCAAAGAATGTTCTAGCAAATGATTAGWAATGTTACTGAAGAGACAGTTTGGGTTCCTAGTGATAAAAATCAATCATTCCTTATAATAGCAACCA
CCAAAAAAAGGTCATAGTTTTAGCTGCTGCATATGCCTATACTAGTTCCTCTCTACYTTGATATATTAATATTACAGTTAATAGCAGAAGTATTGGAGCC
AAGCRTTCTCTGGGTCAGTGCCCTGGGACTAATAGAGCTAACATTTATTTAGTATTTACTATGCATCGGTCTTGGTGTATGCATGATCTTATCCAGTTCT
TTTTAGTTGTATCAGGTGGATGTTATTAATATCGCCATTTACAAATGAGGAAACTGAGGCCCAAAAAGGCTTGCTCACGGTCATACATCTGTTGAGCTGG
GAATAAACCCAAATGCTTCTGACCATTAACCACAACCTTTTAAATGACTTCAGCAGTATAGGTTTTCTTTTCGAATGTAAAGATGAGATTCTCCTTGATT
ATATTGTCACCTTTCATTGAGATATAGAAATGGGAGTAAAGCTGAAATTGTTCCCCAAAACCAGCTGTGGGGTTCTCTCACTGCCCTGAACAGCTTTGTT
ACAAGCTGGCTAGAGGGAACTTAAGATCCCAGGGAAATTCCATTTTTCCTTGAGACCCCCTAAGTCCAAATCAATACACTAAGAAGAAACGRAAAAAATC
CTAAGAGTTTAAGTAGGAAGAATTTTTATCAAGGTCTGTGTGGGAGGAAATTGGGGCATAAGTTCCTCTGTGGTCAGGCATTGAGCTAGGTAGAACTTCT
AAGCCAAAAATGAGTCTCATGCACAAATAATAAAGCTAAAACACTTTCTGTTATACAAGCATCCAAATGGGGATGGTAGGAAGTTACAAGTTCATTTTAA
GCAAAACTAAAAGTTAGAAGTGCCTGAACTTCATGTTACAGGAATGGATCACAGTTGTAGCAGCAGTATTAACTCACCAGTAGGGGCACACATTCATTGG
AGAATGTTGAAATGAAATTGCTGAATGAGTAGCAAAGTGCTACCATGAATTAAAAATAGTTCGGTTCATTGGAAGGGAATGAGCTGAGCCATAGTAAGCT
GGAGGGCACGTGTAAGACAAAACCTTGTCTCTGTAAATTGAACAGAAATTTAAAGAACACTTTAAGCCTGCAGAATTATAATATAGCAGCCCTGCATGTA
TATGGGATGACAAAACAGACCAAAATAGTCACCCCAAAAACTCATTGCAATTGTTAAAAATGACAAAAAGATAGTTATTTGGCATTCTCCATATCTCTTC
CTTAAAAACACACAGACACACACACACACACACMGACAGACACACAGACACACACACACAGCCTTTGTAGCTAAGTGCAGTTCAAAGTTATCTTTCCCAG
CTCCTTGATTCAGGTACCTCCCATCATCAAATAAGTCCCTATGAGGCACTCCTACAAATAACCCCACAGGCCCTAAACAGAGTTAATACAAAATAGCGAA
GGTAGATCTTGCCCTTGGTAACCCTGTCCTCWTTCAGGTCCCTGCTCCAAATTACTTCCCCTTTTCCTGACACCATTTGTTCCTTTGGTGCCTTACTCAA
ATATCCCATCACCCTGAGACTGTTCTTCCTGGCCTGGGACCCTCACCCACCCTCCACTGCAGACCACTGCCCGAGACTCCTCTTCCCTTCCTTTGCCTGG
CTTGTAGTAGGTTTTCAACGCATGATGCCTGATCAGATGCTCTGACTGACTGCGGGGCTGAGACCAGCACAACTCAGGACGTGCCCAGACCATGAAGCAC
AGGGATTAAAGGGCTCAGTGGGATCTGAGGCCAAGACTTGGCTCTGCTACTGCCCAAGCTGTGTGACTTTGGGCAAGGCACAACCTCTCTGTGCCTCTTT
TCTCCTCTAAAGTGGAGAGAACAATATTCCCTGCTTCACTCATCACAGAGCCGAGCATAACAGGTGCCTAATGAACGTTAGCTGCTATTATTGCCTTCAT
TATTAGTCACACAGCTGGAATTTCTTAGAGGCAATATGTTTCCATCAACCCAAGTACATCAAAGCGGTCAGAAAAAGAGGGATGCCCAGTGTCCTAAGAT
GACTGYGCTATTTCTGTTACTTTGGGGTATTTTTAAAGAAAAAGCAGACACTTGGCCTCACCAGTGCAAACACCCATGCACCTTAGAAGTTATAGGTGGT
CCAGGAAAACAAGAGTATGGCTAAGACTCTCCTGGATTGAGGAGGTTAGTGCGGGCTGTCCCCAGACAGATCAGCCAGTGCATGATCACCACAGCCACAC
TCCTATGTCAAGCTCTGGCTTGGGCAGCTACTTGCTGTGTGGCTTTGAGAAAATGACTTCACCTCTCTGAGCTTCATTTTCTTCATCAGTAGAATGAAAG
TAATCTTAGTAGTTACCATTTCCCGATGGAGTGRCTATAATGATTAAATCAGGTCATCCAGGTAGAGTGCTTACCATAGAGGTAGGCCTGATGCTGATTT
AATTATTATTGGTCACTGGTAAGAAGCAGGGGCTGCCTGAGCATAGGGCTGGTGAGGAAGGGTGAGGGTGAGGGTGARGGTGGAGGCTAAACAGGGGCTG
AGGTGGGGGTGGGAATGATTTGCTGGGCATCAGCTGACCTCTGTGAGGTCAGTGCGGTGTAGACTGGCGACACATGGCCTGATGGATTTCCTAGCAAGGA
TCTCAGGAGCTATTGGCCTCATACTTACCTCCCTCCACAGGCTCTGGTCAAACACACCCACCTCAACCTGTCTTCCCCGCTCCTGGTTGGTTTGTGGCTG
GGGCCCCTCTCCTCTCCAAGTAAAGGAGACCTGAGAACAATCTCTCATCCTCCACCATCTATTTCTTCTTCAACACTCAGGTCCCAATGGTCCACAGTTT
GTGATGAATCAGTTTGTCCAGTTAGGTCTCAGTGACTCAGGGTGTCCTCTTCTCCATGACTCAGCCAAATCCCAGCCTGCCGAAACCAGAAATCAGCCAG
CAGGGAGGCTCAGAGGAAAAGTACAAGAGGGTGTGAGAGGTGTATTCTGCTCGCCACACTCCAGAGCCAGGAGTGACAAGTTTGGCTCTGTCTCTTGCTG
TGACCCTTCTCGCCTTACTACTGCAGACCATCAAGGACAGACTGCTTCCTGGTTTGCCACCGTAGGTCCCCTGCATGAAGGATGTTTCCTTCCAAGAGGG
AGCCTCACCTCAGGGGGGCTACAGTTTTGCACAGAGCGGCCCCACTGTTGACGCCAACAGAGGCCATGGTCTGAGCTCCTTAGCTGTTCAGGAGAGGGMT
GGGGACTCAGGAACCTCAGAAGGGCAGAGCAGGGCAGAGTAATTAGATCCCAGGGTAGCAAATGAAACCCCAAGTGGGCAAATGCAAAGTAGCAGATCCC
AGAAGGAGCAATTTCGGCCGCCTGTCCCCAGYGTGCTGATGAGTTCTGAATTATGTGTAACCTCTGGGGGGAAGGCAGCTATGAATCACTGGACAGTTTA
ATGAAGACGCTTGCTCAATGTTTAGCTGCAGTCCAAACAGCAAATAGAATACGAGGGCTCAGTGAGGAGGGAGTSAGGGCTACTCAGAGGGGCAGGGGGA
CAGCAATGGTTTGGCCTCACCTTGGAAGAGCTCAGCTTGATCACCTCATTATACAAAGGTCACAGTCAAAATGGAAACAATTTTAAAAGACAGAGACGTT
GGCACTTACTAGGATCAAGAAAGATTTTTCAATGAAAGGCTTCGCTCCTTCTAAATGAAGAAGCCTCCCTGTGTTCTTTTGCTGGAGAGAGTGTGGTCTG
ATAGGATGATTCTGGGTGAGGGTTGGTGTCCTCCTCTCAGCTTTTCCCCACCGGAATGCACCCACCCACAGGGGGAGCAGTGTCTGATCTATTTTATTTT
TGTTGTTTTGTCAGCATGTAACAGTRTGCAGGGCATAGAGCAAGCACTGAATAAACAGAATTGCTTGGAAAAAATTTTTAATGCATAAAAACTCCATGCT
GCAATGGGTGGTCTTAATCTATAAACAAASCTTTTTCAAAGCACATTTTAGAGCAGAAATTAACCAGCTTTCACACCTGGGACACTGCCCTAATCAGTGT
ATAATCCTAATTCTCATTATGTCCTCAGTACTCATATGGTGTTTYACACATTGTAGGTGCATTTTTGAAATTGAGATTGTTCTTCTATACATTATTTTAT
TTTTATTTTTATTTATTTTTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTAGTAACATATGTATACATGTGCCATGCTGGTGC
GCTGCACCCACTAACTCGTCATCCAGCATTAGGTATATCTCCCAGTGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGGCCGCAGAGTGTTATGTTCC
CCTTCCTGTGTCCATATGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCGGTGTTTGGTTTTTTGTTCTTGTGATAGTWTACTGAGAATGAT
GATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATATTCTTAATC
CAGTCTATCATTTGTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATATGTGTGCATGTGTCTTTATAGCAGCATG
ATTTATAGTCCTTTGGGTATATACCAAGTAATGGGATGGCTGGGTCAAATGGTATTTCTGGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAA
TGGTTGAACTAGTTTACAGTGCCACCAATAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCC
ATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGTTTTGCATTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCATGTGTTTTTTGGCTGCAT
AAATGTCTTCTTTTGAGAAGTGCCTGTTCATGTCCTTTGCCCACTTTTCGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGAT
TCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAG
AAGCTCTTGAGTTTCATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTCCCCATGCCTATGTCCT
GAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAATGTTTAAGTCTTTAATCCATCTTGAATTGATTTTTGTATAAGCTGTAAG
GAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGT
TTGTCAAAGATCAGATAGTTGTAGATATGCGGCGTTATTTCTGAGAGCTCTGTTTTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTG
TTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCGATGCAGGCTCT
CTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCACTGGTAGCTTGATGGGGATGGCATTGAATCTGTAAATTACCTTG
GGCAGTATGGCCATTTTCACGATATTGATTCTTGCTACCCATGCGCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCCTTGAGCAGTGGTT
TGTAGTTCTCCCTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTTTAGCAATTGTGAATAGGAGTTCACTCATGAT
TTGGCTCTCTGTCTGTTGTTGGTGTATAAGAATGTTTGTGATTTTTGTACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGA
GCTTTTGGGCTGAGACAGTGGGGTTTTCTAGATATACAATCATGTCGTCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTAT
TTCCTTCTCCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTGTGCCAGTTTTCAAAGGGA
ATGCTTCCAGTTTTGGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAGATACGTCCCATCAATACCTAATTTATT
GAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGCTCTGTTTATATGC
TGGATTACATTTATTGATTTCCGTATATTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGA
TTTGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTCTCTACCCGGCTTTGG
TATCAGGATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAAGAATGGTACCAGTTCCTCCTTG
TACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTCTTTTTGGTTGGTAAGCTATTGATTATTGCCACAATTTCAGATCCTGTTATTGGTC
TATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGAGTGTATGTGTCGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCATAGAG
GTGTTTGTAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGATATCCCCTTTATCATTTTTTATTGCGTCTATTTGATTCTTCTCTCTT
TTTTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAAGGGTTTTTTGTGTCT
CTATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTATTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTTCTTTTAATTGTGATGT
TAGGGTGTCAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGCGTCCCTGAGATTCTGG
TATGTTGTGTCTTTGTTCTTGTTGGTTTCAAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTT
TCCACGTAGTTGAGCGGTTTTGAGTGAGATTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGACATAGTTTGTTATAATTTCTGTTCTTTT
ACATTTGCTGAGGAGGGCTTTTCTTCCAAGTATGTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAAAATGTATATTCTGTTGATTTGGGGTGG
AGAGTTCTGTAGATGTCTATTAGGTCCGCTTGGTGCAGAGCTGAGTTCAATTCCTGGGTATCCTTGTTGACTTTCTGTCTCGTTGATCTGTCTAATGTTG
ACAGTGGGGTGTTAAAGTCTCCCATTATTAATGTGTGGGAGTCTAAGTCTCTTTGTAGGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATT
GGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTA
AAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCTTTTRTTTTGAGCCTATGTG
TGTCTCTGCACGTGAGATGGGTTTCCTGAATACAGCACACTGAAGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAG
TCCATTTACCTTTAAAGTTAATATTGTCATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGATGCAGTTTCTTCCT
AGTCTCGATGGTCTTTACATTTTGGCATGATTTTGCAGCGGCTGGTACCGGTTGTTCCTTTCCATGTTTAGCGCTTCCTTCAGGAGCTCTTTTAGGGCAG
GCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCGGGG
TTGAAAATTCTTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTAGAGTTTCTGCCGAGAGATCCGCTGTTAGTCTGATGGGCTTCC
CTTTGAGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCG
TCTCGAGGAGTATCTTTGTGGTGTTCTCTGTATTTCCTGAATCTGAACGTTGGCCTGCCTTGCTAGATTGGGGAAATTCTCCTGGATAGTATCCTGCAGA
GTGTTTTCCAACTTGGTTCCATTCTCCCCGTCACTTTCAGGTACACCAATCAGACGTAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTTT
TCTGGTTTCTTTTTATTCTTTTTTCTCTAAACTTCCCTTCTCACTTCATTTCATTCATTTCATCTTCCATCGCTGATACCCTTTCTTCCAGTTGATCGCA
TCGGCTCCTGAGGCTTCTGCATTCTTCACTTAGTTCTCGAGCCTTGCTTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTGTATTGGTTATTCTAGTT
ATACATTCTTCTAAATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATGTCCTCCCGTAGCTCGGAGCAATTTGATTGTCTGAAGCCTTCTT
CTCTCAGCTCGTCAAAGTTATTCTCCATCCAGCTTTGTTCCTTTGCTGGTGAGGAACTGCATTCCTTTGGAGGAGGAGAGGCGCTCTGCTTTTTAGAGTT
TCCAGTTTTTCTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTTTGGTCTTTGATGATGGTGATGTACAGATGGGTTTTTGGTGTGGATGTCC
TTTCTGTTTGTCAGTTTTCCTTCTAACAGACAGGACCCTCAGCTGCAGATCTGTTGGAGTACCCGGCCGTGTGAGGTGTCAGTGTGCCCCTGCTGGGGGG
TGCCTCCCAGTTAGGCTGCTTGGGGGTCAGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGCCCCTTCTCAGATCTCCAGCTGTGTGCTGGGAGAACCAC
TGCTCTCTTCAAAGCTGTCAGACAGGGACATTTAAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCCCCAGAGGTGGAGCCTACAG
AGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTCGAGCTTCCTGGCCGCTTTGTTTACCTAAGCAAACCTGGGCAATGGCGGGCGCCCCT
CCGCCAGCCTTGCTGCTGCTTTGCTGTTTGATCTCAGACTGCTGTGCTAGCAATCAGCGAGACTCCGTGGGCATAGGACCCTCCGAGCCAGGTGCGGGAT
ATAATCTCCTGGTGTGCCGTTTTTTAAGCCCGTCAGAAAAGCGCAGTATTTGGGTGGGAGTGACCCGATTTTCCAGGTGCTGTCTGTCACCCCTTTCTTT
GACTCGGGAAGGGAACTCCCTGACCCCTTGCGCTTCCCGAGTGAGGCAATGCCTCACCCTGCTTTGGCTCGCGCATGGTGCGCGCACCCACTAACCTGCG
CCCACTGTCTGGCACTCCCTAGTGAGATGAACCCGGTACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGTGTCACTCACGCTGGGAGCTGTAGACT
GGAGCTGTTCCTATTCGGCCATCTTGGCTCCTCCCCCTAATTATTGTCACTTCTATACATTATTTTAGATGCTGTGTATGACTCATCTAGTTGGACTTTT
ATATTGTAAAATTATCTTCAATTTTAATCACTGTCTGCAAAGCAGAATGATCTAAAAACGAATTCCAAGTAAAATAGTAGAGAAGAAAAATTCAGAATGT
AGACCAAATTGCTTAAAGATGCTTAAGGGTTTGTAAAAATATCCCATGATGCATTGCAGTTGCCAATTCTGGACAGTTATCAGAGATKCTTATTTTCAAA
CATTTTCTTGTTAACCATATTTCTGGCCAAGTTGGTTTTAGGAAAATCACCTGGAGTTAGACCATGAGCCTTAGCATTAGAGGACTGAGAATATACACTG
AAGGYACACAATAGTGTTGGAAAAAACATTATTTGCCACCTTCAAAGAATAAGAGTAGCTCATGTTCACAAAAATACTTTTTTTTGCAATGCCCTGATTT
AAGTGCTGACATGTAYTAATTTACTTCTACCTCTTAACAGCATGTTAAGGTAATTACTGTTAGTGGCACGGTAACTTAACCAAGGTYCCAGCCAATAAGT
GGCAGAACCTGAATTACAAACCCAAGGGGGCTGACCCCAGAGCCCACTCTTTTTAAAATGACATCCTTATTGACTGGGCGTGGTGGCTCACACCTATAAT
CCCWGCACTTTGGGAGGCCGATGCAGGAGKATCACTTGAGATCAGGAGTTTGAGAACAGCCTGACCAACACGGTGATAACCTGTCTCTACTAAAAATASA
AAAAAATTAGCTGGGCGTGGTGGTGCATGCCTGTAATCCCYGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGACAGAGGTTGCAGTA
AGCCAAGATCATGCCACTGTATTCCTCTAGCCTGGGTGACAGAGTGAGACTTGGTCTCAAAAATAAATAAATAAAAATAATTAACATCCTTATTAAAATA
TGCTTCACGGCCTGGYGAGGTGGCTCACACCTGTAATCCCAGCAATTTAGGAGGCTGAGGCAGGTGGATCACAAGGTCAGGAGATCAAGACCATCCTGGC
TAACACAGTAAAAATCCCGTCTCTACTAAAAATACAGAAAAATTAGCCAGGCATTGCAGGCTAACTGTGGCAGGTGCCTGTAGTCCCACATTGCAGGCTA
ACTGTGGCAGGTGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGTGGAGCTTTCAGTGAGCCGAGATCGTGCCA
CTGCACTTCAGCCTGGGCGACAGAGCAAGACTGCCTCTAAAAAAAAAAAAGAAATATATATATATATATATATATATCACATGCTACAAAATTTACAAAA
TTCACTCCTTTAAAGTAAAGTACACAATTCAATAATTTTTAGTATATTTTTATTTATGTATTATTATTATTATTTTGAGACAGGTTGTCTCTCACCCAAG
CTGGATTGCAATGGCAAGATCATGACTCACTGCAGCCTTGACCTCCCAGGCTCAAGCAATCTTCCCATCTCAGCTTCCCTAGTAGCTGGGACTACAGGCA
CACCCACCACACCTGGCTAATTTTTAATTTTTTTTTTTTGTAGAGACAAGATCTCACTATGTTGCCCAGGCTGCTCTTGAACTCCTGGCCTCAAGAGATT
CTCCTGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCCACGGCACTAGGCCATTTTTAGTATATTTGTGGTCTTGTATAACCATCATTATCAT
CAGATTCCAGAACATTTTCTCTCCCCTCTGCCATACCTATTAGCAGTCACTCCCCATTTCTCCAACTCTGGCAACCTCGAATCTACTTTCTCTCTCTATG
GATTTGCCAGTTCTGATCATTTCCTATAAGTGGAGTCATGTAATATGTGACCTTTTGTGTCTGGCTTCCTTCACTTAGCGTAACGTGTTCAAGGTTCGTC
CGTGTTGTAGCATGTATCAGTACCTCATTCCCTTTCATTGATGAATGATATTTCATTGTGTGGATAAACCAGGTTTTATTTATCCATTCATCAGTTGTAC
ATTTGGGTTGTTTCCATTTTTGGCTTTCATGAATAATGTTGTWATGAACATTCAGGTAAAAGTTTTTATGTGAACATATGTTTTTTATTTCTCATGGGCA
TATATTTAGAGTGGAATTTCTGGGTTGTATGGTAACTCTATGTTTAATTTCTTTTGATGAAGTGCCAAACTGTTTTCCAAAGCAGCTACTCCATTCTGTA
TTCCCACTAGCAATACACAAAAGTTCCAACTTCATATTCTTGCAAATAACTTTTATTTTCTGTTTTTTTTTTTTTTTTAATTATTATTGTAGCCATCCTA
ATGGGTGTGAAGTGGTATTTCATGGTGGGATTAATTTTCATTTCTCTAATGACCAATGACGTTGAACATCTTTTTGTGTTTTTCTTGGCCCTGTGTATAT
CTTCTTTGGCAAAATGGTTATTCATATTTTTGTCCCATTTTAAAATTGACCTACTTTTGTATTGTTGAATTGTAACTATTCTTTATATGTTCTGCATATA
AGCTCTCTATCATATATGTGATTTGTAAATATTTTCTACCATCCATGGGCTCTCTTTTCACTTTCTTAATGGTGTTCTTTGAAGCACTAAAGAAATTAAT
TTTTATAAAATCCAACTTTTTAATTATTTCTTTGGATGCTTATACATTTGGTGTCATATCTAAGAAACCATAACTTGATCCAAGGTCACAAAGATTTGCT
CCTCTGTTTTGTTCTAAGTGTTTTACAATCATAGATCTTACATCTAGGTCTGGGATTCATTTTGAGTTAACTTTTTATGTATGTATGAAGTATAAATAGA
AATGGAGAAGAGAGAAAAATAAGAGAGCGAATAAGAGAGAAAACTAAAATCATCTTATTGATTATCTCTTGTACATGGTAAATTATTTTTTTAATGTTGT
CTTAAAGATTCTTTGTTTCACTCAGGTCTGAGATTTGAAAAAGAAAAAAAGTAAAAAAGAGATTCTCTATTTGTCTTCAGCTTTTGACAGTTTGAATATG
ATGTGTCTAAGTGTAGATATCTTAAGTTTATCCTACTTGGAGTTTTTGAACTTTTTCAATGTACATAATAATATCTTTCATTGAATTTGGGAAATTTTTG
GCTATCGTTTCTTCAAATATTCTTTCTGCTACTTGCTCTCTTTCCTCTTCTTCTGGGACTCCCATTAGGAAAATGTTAATATACTTCATCAACTGCATAA
GTAACATCTCACCTGTTTCTGGGGCTTTGATTTTGTTTTAGTTTTTTGCTTCTGTTATTCAAATTGGATAATTTCAATTGGCCTACCTTCAAGTTCATTG
ATTCTTCTTTCTGCCTGCTTAACTCTACTGTTGAAACTAGTGAATTTTTCATTTTGGTTATTGTACTTTTCAGTTCCAGAATTTCTATTTGGTTCCTTTT
CATAATTTCTATCTTTTCATTCGTATTCTCTATTTGATGAGATATAATTCTCATGGTTTCCCTTCAGTTCTTTGAACATATTTATAATGGCTAATTTAAG
ATCTTTGTCTTGTAAGTCCAATGTCTTAGCTTTCTTAATACCAATTTCTCTTGGCTGCTTCCTGTGTATGGGCTATACTTTTCTGATCCTTTCTGTGTCT
TATAATTTTTGTTGAAAACTGAACATTTAAAATAATATAATGTGGCAATTCTTAAAATCAGATTTCCTGTTCTCTAGCACCTATTGTTGATGTTTGCTGT
TGTTGTTGTTTTTGCTGCTGCTGCTCGTTTATTTAGTGACCTTCTTGGACTAATTCTATGAAGTCTGTTTTTCTTGTCATGTATGGCCACTGAAGTGAGC
TGAGTTAGCTTAGTGGTCATATAACAATTGGACAGAGATTTCCTTAAATACCTTGGGCCAAAAGCTCCCCAGCTTTAGCCAAGTAGCGTTGTGTGTGTGT
TGGGGAAAGTCTTTAATTAACCCGCAGGCAGTTTAAAATTCTTCATTAGCCTTCACTTCCTGTGTGGACAGAGCCTCAAGATCAACCAGAGATGAGAGAT
GAGGACCTTCCTGGGGCTTTTCTTTTGGGCATGCTCACAGCCCTGCACATGTTTGTGGCTATCTATGTCAGAGTTTTTCAAAGCCTCCTATGGACATCTT
ATTCCCTGTTTTTTCTTTCAAAGTGTTTTGGATAGCCCTTTTTTAGTCTCAAGTGGTATTGCCCCTTCAGGCATTATGATGTTAAACATTTGCTTCTATT
TTATTTTTATACATTATATGAATAGGGCTGATTCAGAATGAGCTGTGAATCAGATCAAATAAAAACAAGCCCTGAGAATGGAGCTTTTCAGAGAGCTGCC
AGGCAAGTTAAGCAGTGGCAATTTGGAGAGAAAGAGCTTTCGGAGTGTTCAAAACTCATTTTCTCTCCTTCATTGGTTTCTAGGCTGCAAGTTTGCAAAG
CTACTGAGGCTACTGGTTTTTAAGACTACTGTGGAGGTGGGGTGAGAATAAGGCAAATTAAAACTCCACAAAGTCACTCTTCTTACTGAGATTTATGTTT
GTTTGTTTTTTTCCTTGAATAAATGCCCCTCAGATTGTTGTTTGCTTCACTTCCAGAGTTCTGGAAAGGTCAGCTGTGATCATATTTGCAAGTGTTCTCA
TTGCTCTATGGAGGAGCAGATTTCCAGTAGTCCTTACTCTGCCACTCTGGAGGTGTTTCCCAGAGCCCACTCTTAACCACTACACAAGTGCTTCCTACCA
CACTGCTAAGGTGCTTTACATTTTGTAAGAATATTTTTGGCATCTAGTAGAGTCTTCCTGACATATATCTGCTGAAACACATATTATTGTATGTATATCC
TTTTATTTCTCCATTTCTCCCATACATTACGGGGCATGATATTGATCTTTTAGAAAATTATGTATGTAGAAAGCCATCTATGGATTTAGTTTCAGCCTAA
TGAAGGAATGTAAAAAATATTTGCTTAAAAACAAGAAGGGGGCATTGCTCTTTGAAGGTTGGAAATCACTGCCCTACACTCTCCTCCCGTTCCTCTCAGG
TACCCATCCATTCCTGCTGCTGGAATGTCTCCAAAGAGCGCCTGAAGCCCTCATTCCACTCAAGTCTCACTTGAGAGTAAACCAAGGGGAGTTTGGGGGT
AAAATGTCAGAGGTCATTGTAATAACTTCTTGGGAAATTAGGCAGAAAGGGAAAAAAAGTGGGAATCATTTAATAAACCACATAGAAAACACTCCATATG
GCAATGGAATCATGTTCTGGTTAATCATAATTTTTGCCTACAAGAGTCATCATATATACCGTTAGAAGGTTACTAGTTTTAAAGTAATTAGAAACTAATA
AAGTATGCACCGCCTAGGCTATACTGAATGTAATGTAATTCCTTTTGGTAATTAATAATACCTCTAGGAACACGTTACAAAAATAAGAGCCATCAGCTGT
AGAATATCATATTCATAAATAGTTTATAATGCAAAACAGTAACTTTGGTACCTACTGGGTCTATTGGTTGGAATTCTTTTAACCCTTTTCAATAATTATG
GAGACACTTGTCCAGAATTTATTATATAAACTTTTTTATACATTAGACTTTTACAAACAAATGCTCTCAAAATTCAATATTTTCTTCATGTTCAGTCAGG
ATATTAATTCCTAGCTTGCTATGCCAGAGTGGTAAAAGGGGGTAGGGCTTCATTTTCAAAATGAACCCAGCARAGGGAACCCAGAAGTGCTCAGAAAGGG
CTTTCTGCTAACTAATGATGGCAAACGTGGTCTGTGTGATGGGGTGGCATCTACTTTCTGAAAATTTTTAATTTTAATTTTTGTTGTTTTCGTTTTGTTT
TGTTTTATAACTTGTGTTTTATTTTTGCCAAATTTGGTTTCATTCCCTGCCTGTTCCATTTGGAGGTACTACACTAAAAAAAAAATAATAAAACACGTAA
TCACACCATGGGGAAAAATGAAAGGAGAAGAAAAAAAGAAAGCTGGATAATCAGCCCCTAATTTTCTAAAAATTGCTATTAACAAAGCTGCTKTACAATT
CTCTTGATAAATATCCAAGAAATCTGTTCTTGGAAGCTTAAGAAGAGAGTGGAAAGGCTGTACTCTCAGGACTAAGGAAGGACTCACTCCCTAAAGACTT
TGTGGATGGAAATTTGTTCAGTACTCCTGTAGTGTGTATGTGAGTGAGGACATCTGGACTGGTATCTAGCCAGGATGCCCTGGTAGAACTGCATTTAGCG
TTGATGTCCTTTCCGATGGGTTGCAACATCCATTTGGTTCATGCCTGTGTCTGAGCACTTATTAATGGTTTTGACTATCACTCCTACTACACATACACCT
CATAGTTTAATGGTGGAAGCTACAGCACCTGTCCAAGTGCACCCYGCCATCTGCAACCCCCTCCATTGAGGTCTCTTGTGCTATATCAGACTGTATTTAC
ACGTGACTTCTCAGTGAGACTTGCAAAACCCCTTGCCTTCACAGGACAAGTAAGAATAAACACATTCATTTCTTCTTTTTTCTTGGCGGTCAGTTGATTC
CTACAACAGCATCCTTTACTGAGCTGGGATGCCCATGGCGCCCTCCATTTATCTCCCATATAGCATTGCTATGCAAATGAGGCCATTCATGACTGGCTAC
CCAGGGCTTCCCCAGGTGGCTCCCAGCCAGAGGGATCTGAAGCAGCTGAGCCTCAGAGAGGACAGGGGCCCTGGCCTAGTCTCCACCTGACTGGACTGCT
GGCCTTTGACATGACGCCAGTTAACATCCAAATGCCCCTTGCTGGTTTCAGCACTCCAACAGGCTCAAACAATGAATAGCTGTATTCTGAAATAGTGTCA
TGCTCGCAGCTCCATCAAAGATTCCTGCAGCATGCCTCTTTCCTCTGAATAATTCCTTTCTGTCATCTTCCTTCATTATATTTCCTAACAAGTTTTTTTC
TAAGTCCAGGCTTTCATTTCCACTTTGAAATGTCTTGTTAGACAAGCCTCAGAGTCCACCAAATTGTTCCCACTTCTTTCCAACAACTCCCACCCCATCC
TATCCCCACTGCCCCTGAAATGGCCAGAGCTTAATAATCCAGGATGTCCTGTCATTATTGTCAACAATATTGTTGTCTGTATTCGGAATGTATTAGCAGA
ACCAGAGAGGTAGGGCTACACCCATCTGCTACAAATACACAAATGATTTGCAAGATAGACAGTGCCTTTCTTTCACCCCCTGCCAGTTTTGCTATGAAAG
AATTCAAACCCTTGGTTTACAGTTGAAGTTGGTCCAAGACATCTCCTCCAGGGCTTTCTCTTGATCTTATTTGTGCTCTCCCCTGAGCCCTAATAAAGCT
GCACAAACAAAATTACAAGCCCATATCTCTTTCTTCCCTTTTAAGAACTCCTTTTCTCTGAAACATTTCTGGACAGATAGATTGTAAATGAGATGACCCT
GTGGACTGTTTAAGCAGTTAGTTAGCCAAGTTAAGGTCAGTAAAGGACTCCTTGTTTAAATTAACCACTTTATTTTCTTCAAACACATAGCACCCTGAAG
CCCATGTTGGTCTCAGCTGTGTTCTCTGTCCAGCTCTTCACCACCCCATAGGCTCCTATACCTCTGGATATGACCTTAGCCAGAACCAAGACAGATTTTG
AACTACTGTGCTCTACTGGGTTTTGGTAAAATAAATACATAAATAAATAAATAGTCCTCAGTGTTTCGGAGGGAACCTAATACATGTTTATTATGCAGTA
TTTTAAATGTTGCAGAAAAAATACCAAAGTAAGAAGTATCYATTTTCTAACTACTCAGAACATCTGTAACATTTCCTTAACCCTTCTGTAATATGTCTCT
TTGTGTGTCGTATGCATGTTTTTAATGCTGCATACCAAAGTACCAAAGTACCACAACGTAACAGCTTAAAAAAACACAACTTATCATCAGACAATTCCTG
TGGGTCAGGAGTTTGGTCACTGGTTGACTGGGTCTCTCTGCTCAGGGTCTCAGATAACTGCAATCGATCAGTGTTGGCTGGGACTGTTGTCCCATCTAAT
GCTCAGAGTCCTCTTCCAAATTCATTGAGGTTCTTGAAAGAATTCAGTTCCTTGCAGCTGTAGAACTCATAGATGCTTCTATCTTCTTTGAAGCCAGCAG
GAGAATGTCTCTGCTGCTTTGAATCCCTGACTTGCTCTGTCTCTGATCTCTAGACCCAGACTTAAAAGGCTCATCTGATGAGGCCAGACCCACCTGATAA
TCTACCTTTTAATTAACTCAAAGTCAACAGATTAGTAAACTTAATTACTTCTGCAAAATCCTCCTTGACACATAAAGCAACATAGTCACAGGAGTACTAG
CCTGTTCTGTTTATAGATTTCACCTACACTCAGGGGAGAAAATTATACAAAATTATGCAAAAGGTAGTGGGAGTCATTTAAAATTCTGCTCTGCATGTGA
TTTTGAAACACTAATATGCCATGGATGTCTTTCYTGCCTAGTCAATATAGATCTGCATTTTTATGGCTGAATAGCATTCTATTCTGTTTCAAAATACTTG
ATCACATGTTGGACAGTTAGGCTGCTTCCATGCTTCCACTTTCCCTTTCTTACACCATGATGAACATTCTTACATAACACACTTGTCTTTGCATTTGTAT
GATTATTTCCCGTGTACAAATTCAAAGCACATGGATTTACTGAATCACAACATAAACTATGACGTCCCATGTAGGGTCCCCCAGCAGGGGATGGTGCTGC
TGTTCTAGTGAAGTACTGCCTTTGGTGAAGGTTCTCTGAGTCCTTTGTACCAATACTGCTGAATTATTAGCATCCTTGAAAGGAGTTCTAAAAATTACTA
GCTGTCACTGCACGGAACACACAGGAAGAAACATAAAGCAGAGATGTGTTCTTCACTTGTCATCTCCATCGTTATCCTCCCAAAGGTTGTTCTCATCTTG
ATTAAACAAGTCTCAATGAAATGAGGCCTTTATTTTGATTTCTATACTGCTTCTATAGAAAGAGGCAACAAGGAGATTTAGAATTTTTTTACTTTAAAGG
GACACGGTACCTTTTGACTGTATAGTGAGAACTTAAGTTTCAAATGAAGGCTCCGAGAACATAAAAAACCATGAATCTTAAAGAGAAACAAACAAGCAAA
RGTTTAATAAGAACTTCCTTGCTAGATGTCCTCATGATTTATTTAGCCAACACTTACTGAGCACCTCCTAATGACTGGGCCCTGCTCTAGTGCTGGAGAT
GTGTAGAAGAATAAGACCAACAGAGCTCCCAAAGKAGATTTATGCACTCTACAAATGCATGATGGAATTGCAAGATGAAAACAGAAAAACTCTTATGGAT
CTAGATAAAGAAGCTTTAGAATAAAAAGTAGCATTTCAGGAATCAGTTGGTATTTTCCAACCTGGAGAATCAGTAGATGAAATTAGGAAAAGTCTGTACG
GAAGGAATAAGTGTTTGAGATCAAATATACAACATGTTGKCTATAGTTAATTATACTATACTATATATTTCAAAATTGCCAGGAGAGTAAATTTCAAATG
TTTGCACCACAAAAATAAATATGGGAGGTAAKCGATATGTTATTAACTTAATTATCCTGCAATGTGATTTGATTTTATATATATATGTAAAATCATCACT
TTGTACCCTATAATATATACAATTATACAATTATTATGTGTCTATTTAAAAAATTAAAGATATGCTAAAGGAAGTTTTCCAACACAAAGGGAAATGACAC
TACTGTATATTGAAAATTAGATCCTCTGACACGTATGAATTGCAGCAAAAATGCTAAATATCTGAGAAAAATGCTCACGCCTGTAATCCCAGCACTTTAA
AAGACTGGGGCAGGAGGATGGCTTGAGGCCAGGAGTTCAATACCAGCCTGGGCAACATGAGACCCTGTCTCAAGAAAACAAAACAAAACAAAACAAAAAA
CAGGAAAATAAATGTCTGTAAACATTAGCCTCTTTCATGGAGGAACTTGGGATATAAAAAACTGAGCATGCTTAAATAGAATTGTGTAATGTCAGCCAAA
TGGAAACTCTTGAGGCACGGGTGGCTTAGGACACAATTCCCCTAGTCATTCCTGAGTAGAGAGGATTGCATGGTGAAAGAGATCCCCATGGCTGTGGAGG
TAGCACCCTCTCGTTCTCTTCATGGGCTGTCTGGGAGCTGAGCCATTAGCTTTCCACCCATTGATGGAGGCCCAGCCCTACTGGGAGCATTTGCTTCCTC
CCCACCTCACCCACTGCCTGCAAGTTCCTGACCCTGTTATGAAACTCCCACCCTAAATACACAGATAACGTCTCAGCCATGAGTGAAACTAGAAGAGATC
ATGTGTAACTAATTAGATGKCAGAGTGAGAGAAAAGAAACTTTTCCCCGGGTCCTGGTCATTTGAAAAGAAATATTATCCTCAAAGAAAAGTCTTTACTT
GAGATCTGAAGTGCAAAGCATATTTATCTTGTTCCAGGCTAACCTTGCCAAGGATATTTGAATTTAAATAAGGCTATTCTGGAGCCTATTAATCTAGGGT
GATGGTGTAGCAGTGAAAGCCAGGGGGTCACTAAACACTTCGGGTCGTATAGGAAGCAGGACGGCGTCCATTCAGGGTTGCAAATGTTTTATTGCTGTTT
TTCCCTGGGTCCTTCTGCCTGATGGGGCAACCTTCACTGCTCTGGAGAGAGGCTAGCAGAGTCATTGTCTAACATACACAGTGACCTCCCTTCCAGCTTC
CAAGCAAAGATGGAGGCTCTCAGGTGGGAACTGACCTCATGTTCCTGCTCAGAGACCTCCACACCTTCACCCTAATCCACATCTGTACCCTTCTCTCCCT
GCAGACCCTGCCTTGCTTCCCACATCTGTCCAGGGTGTTGCTCTCAGCCTCATCCTCTTGCAACCTTGGTATTTCAGCTCCCTTTTATATTCCCACTGTC
TCTACCTTCCTCCATTCCTCCATGAACATGCCTCAGTCTCTTTTAATTTGAAAATAACCGAAACAGACTTCCCTGCATTGCATTACATGCTAGCCCCTGC
CCTATCTTTTCTTCTGTCTTACAACCTAGATCACTTTTTTTTTTTTTTTTTTAGACAGGGTYTCACTCTGTCTTCCAGGATGGAGTGCAGTGGTGCAATC
ATGGCTCACTGCAGCCTTGATCTCCCGGGCTCAAGTGATCCTCCCACTCAGCCCCTCAAGTAGCTGAGACTACAGGTCAGCTAACTTCTTTAACTTTAAT
AGAGACAGGGTTTCGCCATGTTGCCCAGGATGGCCTCAAACTCCTGGGCTCAAGCAGTTCTCCTGCCTCGGCCTCCTAAAATGCTGGGATTACTGGTGTG
AGCCACTGTAGCCAGCCTCTAAGTCACTCTTAAGGAAGAAGCTACCTCTTTCTTCCCTCCTCATTCATTTGTCAGCTGGCTTTGCCCAGCCCTCCTCCAC
CACCCACCAATACTCCCGCAACCTCCTCCTCCGCTTCATCCAATCCAGAGCATCACAAGTGTAGACAAAAATGCCTCTTAGGCCTCACCTCCTGGGTTTC
CCACAGGCACTCAAGCTCATCCTGCCCAGAATTGGGCTGGTCATCCACCCATCACCACCAGTCCCAACACAGACTTTCTTCTCTTCCTTTTTTATTCACA
GTCTTGGTAAACAAAACCATCATACTACTTGGACAGGCAAAAGTCTTCCCCAACTCATCCGAGTCCCTCACATCTCCCTAAACCTGTGGGTTGTATCCCC
AATGGCTTCTCTCCCTCTCCATGGTGCTGGCCACCTGAATGCCTTTCTGGTCCACTATTGCAGTTCTTCAGGGGTGGGGGACAGCCGGGGAGGACTCAGC
TCAATCTCCAGCCTTGCCTCTCCATCCATCTTCCACGAACAGAGATTTGCAAATTTAGATCTTCTTCTTAAATTATTCCAATGGCTTTTTATAGCCTAAG
AATAAAGCATGAATGTTTARTTTGATATCAAAGGATTTCACAATCTTATCCTYACCTATATCATAGGTCAGTGTTGAAGAGTGTGGATTTCAGAGCTCTA
TCACTAACTAGCTGTGACCTCAGCAAGGTTCTTAACCTTCCTGGGTTTCAGCTTCCTCCCCTGTAAACTGGGGGTAATTATAATAGTACTGTTCTTTTTT
TTTTTTTCTGAGATGGAGTCTCGCTCTGTCGACCAGGCTGGAGTGCGGTGGGGTGATCTCAGCTCACTACTGCAAGCTCCGCCTCCCGGGTTCACGCCAT
TCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGT
TAACCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGACCAATAGT
ACTGTTCTTATAGGGTGCTAGGGACATCAGATGTGTTAACATCCATGAGGGTTTTAGAACACCACTTCGCACTAAGGAAGTGTTATATGTATTTGTTAGT
TTCGTGCATTGCCTGCCATCACCGTTCTCCTATGAACCTGAATGTTCAAACACGCTATGCTCCAGCCACAACACACAGCAGACAGTTCCACAAACAAACC
ATGATGGCTATTTCATGCCGCTGTAACTTTGTTCTTCCTCCTTTTCTTGACCTCCTAAATTCCCATTTATCTTTCGAGCCTCAGCTCAAACATCACTTCC
CAAATACCTGGAGACTTTGCTCCACTGAGACTCCATGGCACCCCAAATCAACACCCGTTTTACCAGGGATCATTTAAATTAATTATTTTTCAAAGCCTGA
GAGTTACCATTTTTGAGCACTTAACACATGCCAGTCTGTGTTCGAAATACATGTATTAGCTTATTTAAGTCTCACAGCAAACCTATGACAGTTTTGATAA
TTGGTTTACAGGTTTGTCATTTCTCCTAGAAGATTACCCTTTATGGGTAAGAATCTATGTTTTGATCATCTCTGAGTCTCCAGCACCTACCAAGGTGCCT
GGTGTGTAGTGGGTACATAGTGAAATTAATATCTCTTGAACCAATCAAAAATGGGCTGCACTCAGAGAAAGATGGGAGCATGGGCAAACAGCTGACATYG
AAGGGCGTCTAGGCACGGAACCCGTGGTAGTTGAACCTGAAATTCATCAGTGTCATAAACAAAGACTGCTGTAACTACCTCACCACATTATTAAAYCTTT
CTTTATTACTATATGAACATTTTCTATAGTGCTGAGGGGTTAATGTGCTCTCATTTGATTCTGTACTGTCATATAATTTCAGGTCTTTTCAAGGACATAA
TAATACAATTCATGATGGCATTTTATTCCATGCTCTTGCTTCCAGGGTCATATTCAAATTTCTGAGAAGTTTTCCATGACCCTTAGCACTTTTAATAAAG
GGTAAAGAGAGATTCACCCTGACAACGTATTCTTCTTGTTGGACACGAGATGGAAATTGTAGAGAATTATAGTCAGGCATAATTGTTGTAGTTTCTACAG
TAATAGTCTAAGACCACAAACACAAGTATTTTTTGCTTAATTGCTACAAAGGAATATGCTTTTTCTAAATAGGAACTATATTAAAAAGTTCAAAATAAAT
ATTTCAGTTTTGGTTAACTTTTCTTCCCCACCCTGTCGGYACCTAGTAAGTTCTGTTTCGTTAGTSAGCAGAAAATGGTTAAGATTAAAACTGTTCAATG
CACTGATTCMAATATCTTTGGGTGGCCTTGAAGCTGCTCTTAGCAGAGGGAAAGAGACATCCAGCCATKTGAGTGTCCTGAGGGATGCCAATGAGAATSA
ATCTGCCCAGAAAACCCAAGTCTAGAGCCCCAGGATATCTCCAGGAGCCCTCAGATTTGGCTTAATCCATTCTAATAATCTGTAGATAGCATATGCACAG
GATTTGGGGTCACTTTTTTTTTTTTTTGAGATGGAGTCTCCCTCTGTCACCAGGCTGAAGTGCAGTGGCACAATCTCAGCTCACTGTAACCTCCATATCC
CAGATTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGRACTACAGGCACCCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGG
GTTTCATCATGTTGGCAAGGCTGGTCTTGATGTCTTGACCTTGTGACTCACCTGCCTTGGCCTCCCAAATTGCTGGGATTACAGGCATGAGCCACTGTGC
CTGGCCGTCACTTCTTGATCTCTTGGAGCATTGGGTGTGATGGGAAGTTTAACCTTTCTGGGCTTGTGTTTTCTAAGGAACTACCACTGCTGGAATGAAG
CATGGATGACAAGGCCTGACCTTCCTGTTGGATTTGGAGGCTGGCAAGCTGTGGACAGCACCCCCYAGGAAAATAGCGATGGTAAAACTGTGTCCTCCCT
CTGGGAACTTGCTTCATTGCTGATYTTTGTTTTGCTTTTATGCTTGCATTTGATGTGTGGGAACCACGCCCATTGGGAGGCAACATCTGAAGTGTGCTTC
CTGGGCACATGTACAGTATTAGCTACCTTCCAATCAGGTTTAATTTCATTTCCATTGTCAGCTTTACCCTGATTATTTTACAGATTTTAGAGAAAGAATA
TAAAACAACGTATAATTCATCCATTCTTGCTTTGCTAAGCAGTTTTGAAGACAGGAGAGAAAATATCTGTAAGCATTTTTACTAGGCTATAAAATATACT
TCAGCCCTTTGTGGTATGCACTGGTAAGATATAAGGCAGGAGAGAAAATAGAGAACTCGAAAAATAATTATAGATCATCCTTTAAATTGTTTTTCCAGAA
CCTRGCCTCCTTTTATGTCATGTGATTTCCTCCAAAGCTTCAGTATGTGGGTATTTGTCTTCTAACTTGCCAACTATGCTAAGCAGCTGCAGCTCTGACC
TCCCCCAGATTTTTATAAAATCACATCATAAGCCTCCATCTCTCTTTAATATGATAATATAAAGAATCAGTAGACTGTGGATATTATGTTTATTTCCTCA
GGTGTTGATATATCGATGGGCACACACAGGAACATGCATAAACATTCAATGGATATTCATACTGAAACCATATTATAATCCTAGGCTTTAAGGAAGAAAG
TTTAGCACTTTCTGGTGTTCTGGTATATATATCATGGGGACATTTTACAGGTGACTAATAGCAGCTAATCTCTTATTAACTATATAGATAGGTGGTTAAA
ATTTAAAGCATTTTAGAAGAGTAACATAGGCCYTCTGACTTCCTAAATGCATGGTGGGCATGGCCAAAATGCACAGGCAATGTCCAAATTCTCCAGTTAA
ACTTGACATATGTTCATAATGTCCAAAAACAAAAGACAAAAAGCAAAACAAACAGCAACAGCAGCACAACCACAGAGCACACATCAACATTTCCAACATT
TCAGATACCACCTGAACAAGAGATAAATGCTGTGTAAGCCACCTGCTTGGCATCAACACATCTGGGTATGTGTCTGTAGGTGGCAGAGTAGATGCAGGAA
TAGTGTTGCCTTGTATTTATTTCCATGGCTTCAATTTTTGGCTTGAGGGGGCATAGCCAATGGAATTCTCTTCAGCCTTGGAAAGCATCTGGGCTAAATC
AGCAATGAAGTTGGGAACACTGGTCTTTACAGAGTCACCCTCAGTGCCATGAATCTTGCAGTATCTGGACAGAATTGGAGATGACAAACTCACAYYGCCC
TTCCTCTGTGCAATGCAGGCATGTATCRGTGTGGCCCCGCCTCGGTTCAAGCCATCAAGCACRGCCATGTCTGCTTCCAATTTGATGCACCTTTTGTTTT
TGCAGAGGTAAGCAGGAAGCTGGAGGAAAGTGCTGTTTTTYTCCCCAACCTCTTAACACATGAAAGAGTAAGCTAAAAGTTGTTGTTTCTAAGTTTTCCA
GGTACATAGCRTATGCTTCGTGTTGACAAAGGTAACTAGGCATTATTCCAACTTCCAGGCTATTAATGCTAAATGCAGTTCTTGTTTAACRTTTTTCTTT
CCTTGATGTTTTGGGATTCCCTACTCCCAAAAGTAAATGCTTTACTAACATTAGCTTAGTTCTCTGCACCCATTAAGTATCAACTGCTCCAGAGAAATTA
TATGACTAATGGATCTCTCAACTAACCTCATTGGAAGAGATGGGTCATGAATTGAAATTTCAGGACATGCCACTTCCCTCTGGGACTAGTCCAGCAATCC
AGGTAAGACAAAATCCACATACACACACCCAACCATGGTCTTACCCTGGCCTTTGCAATCTATGTCCTGCCATCCCACACCATCACCTGTGGCCAGGGAG
GGAGGGTTGAGTTGCCAAAGGAGGAAGGGGAGCCTGGAGGCTACTCTAAGAGAGGAATACAGCCCACCTACAGGGTTGATGGGAATGCCTGGGCAAAGGC
TCTGCCATTTCAGAAGAACTAGGCAGGGACTGGAAGCAGAACAGGCTGTTAAAGGATACTCAAGGAGAGCTCTGAAAATCAAATTAAATGTAAGAGATGT
TGGGTAAACGAGAAGGCTGGGCTGCCGGCCTAGGAAGACTTGAAAGACTGAGAGGCAGGACTTCCCCAGGGTATATTTGCACCAGTAAATACACTGAAAT
AATGTCTTTCACTTTGCCTACCATTGGATGCTCTTAGCAACCTTCTAAAATTGATAATTCTTCCCATTTTACAGAAAATAAAATCGAGGCAAAGAGTGAT
TAAGTGACTTTCTCACAACCATCTAGCTAATAAATAGCAGTGCTAAGATTTGAAGCCAGGCAGATACCTGAATGCAYACTGGTAACCATTGCACTCTAGT
ACTCCAGGAGGAACAAATAGTTATTATTAATGTACACCAGGCATTGTACTGGGGGGAATTCTAAGGTTCRAGTCTTTAAGAAACGTATTTCTAGATGCCA
GGTGACAGGGCACAAACACACTGAACATGAAATAACAACAATACTTGTCAGGTGGGCCATGTAGAGAGCACAGATCTGCATTCATATGATGCATGAGTTG
GGAAGTAGAGGCCAAGAACTGAAGCAGGATGGCAAAGACCACAAGACACCATCTAGGAAGGAAGGGCGACCTGGGAACAGACAGTGAGGATGCCTGTGGA
AGTGTCCCCAGGTAGTAAGAGCAGAGAACTGTGGGACCACATGGGAAGGAGGGATGATTAGGCAAAATGATTAGAAAGAAGCCAGAGGAAGGGAGGAGTG
CAAAGCAGGGGGATGAGTTGAGCATCTGAAAGCTTTGTGGGGGCAGTTGAAAGCTGTGCAGACTCACTAGAACGCCAAGGATGCATCAGGGGTGTTGGAA
GGTGGAGGCTGAAGGAACGCAGTGCAGAGGACCTCCCTGAGAGACTTGCTCCTTGTCCCTCCTGTAAGTGAGGGAGAGTTTTCACTGGGTGGGAACTTGG
GCAAGGTGCTGACAGCCTTGTGGAACACGGATTGGAGGGGTTGTTATGAAGTTGTGGGGAACATCTAGAGGGCTGGTCATCCCTCCAAGCCAGAGATGGA
AAGGGCATGAGCTAGACAAATGGCAATAATGAGGAAAAGAGGAGGCAGGACTGAGAAATGTTAATATTTAGAAAGCAAAACGAACATCAAAATTCAGACA
GCAAGATCAGGAATTTGAAACACACAAAAGACCAGTGTTCATCTCATCGTACCTGCYGTGGCAGTTTACAGAAGCCTTTGGAGACCAAGCTTACTGGACT
TGGAATTTTATCCCCTCGTTTTCACTTTGGGATTTGAAGATTTCCACAAACCTCCCAGCTGTCATTTGATAGTTTATGATGCTACGAGAGCCCCTAATSA
GGAGATCACTCTGAAATCCACAAAGCCTTGTTTTCAGCTTTTTATTACACTTTATTGCTGCAAAGAAGGAGAAGRAGGACCTCCCTCCACAAGCAAGCTG
CCTAATAGCTGTAAATGCAAACACTTTTTGCTATTATTAAATATAGATCGGGGTGTTATGAATGTCATCAGGATTTGCAGATTATAATTACTCCTTTCTC
ACCCACTGCAGAGGCGTGTCTGACAGAGGGTACAATTTGTTGCTTTGGCATGGGCTGCGCTCCAGGGGCTGAGCCATTTTKAAGAGATGTTTGAGTTGAT
GAAAAGTGTATGAGGAATCTTTTCTCAAGGGTGCCTGCAGTGGGACCCCATGGGGAGTGTCATATGAGTCGATATGACTCAGGTTCGAGTCTGTGGCTCT
CTCTGCTCTCCCTCGTCCTTGCTGCATCAGCTCGCCTTCTCTTCCCTCCCAGCATGCTGACTTTCTTGGTCATTCCTTACTCATTTCCAGGCTTGATCAA
GCATCATGTTCATTGACTGTTTTTTAGTGTTCCCAGGGCCTTAGTCTCCATGAGTGAAAGCAGAGCCTAAAAAGAAGAGGGGTATGCCTGGAAAATGTCT
TACCTTCTGTTCCTTTTTTCTCTCCTCCTCCACTTTGGAAGTTCACCCTCCACATTTCTGGGTTTCTGCCAGGGCTTGAAGCTTATTTCTCTTACCCCTC
CCTTCCCATGTCCTCCCTGCTGCAGTGGGTTCCTGTGGATCTGAAGCCCCATCTGCCTATCTCCCCAGCTTATGGTGGCCTAGGGCTTCCAAATAGGTGA
GAGGAGATGAGAGCTGTTCTAAGCGTCTGGAGTCGTATTCCAAGATTCCATGTTCACGAAGCCCTCAGGGGTTCTTAGTGAAGAACTCTCTCCTTCTTGC
CAAAGATAACTCTCTTCTGTCCTAACTTCTCATTAACTCTGCTGCCCTCTTTCACACCACTCCACCCCAAACTCACTCACATACACACACACATGCATGC
ACACACTCCTGCCTGCCCTCACTGGCGCTGAGATGATTTTGACAGGAGCAATAACTGGCTCCCTGGGACCACAGCAACCATCTCATCACTCAAGAAGCTA
AGCCCTCCTCTGCTGTGGGCCAGCAGTTCTCTTATACAACGTGTGGAGATGTTTTCCTGTAGATTATTCATTCTCAATTCAAACTTATTTATTTTGCTAC
TATCTTATCAGATGCAGCCTATTTTTTTGGCATCTCCTACTTGGCTATAAAATAATCCAGTCATTTATTCAAATAGCATACAAAACTYTGGAATTATTTT
AGCTTTCCTTCTTAACCTCCCTTATGCATCTTGCCAAAAATACCTTCCCAAAATTATCATAAATCCAGCCACTTCTACAATCTCTATCGTTACCCTCTGA
GCTCTGTACAACACTGAGCTCCATAAAGTTACCTCCTAACTCCTCCTAACTCATCTCCCTGATCCCCCTCTTGCTCCTTTTCTGTCTATTCCCCACAGAG
CAAGAGAATTATTCTTTAAATGTAAATACAAACATCACACTCCTGCCCCAACCCTTCTGGTGGAGTTCCACCACCCTTACAATAAAACTGAACATAAATT
CCTACAAGATTCCATGGCTTCCCTTCCACTTCATCCCTTGTTTATTTCCCTCCAGCCATACTGAGATTTTTCTCTTCRGAAAGCATCCACACATCCTCTT
GTGTCAGCACTTTTAGACATACTGCTCCTTTTGCTAGGAAAGCTCCCCTCACTATCTTTCACTCTGTGTAGGAAGAATGCTTTGCATGCTTTGTTCCCTC
TCTGCATTCAAGTCTCTGCTCTGGTCACCTCTTCAAAGAGGCCTTCGCTCACCCAACTSCACCTAAAATATCACCATCTGCCCTGTTGTTTTCATCCTCC
AACCTTAGTGTGTACTCCATTTCTCCCTTCTAGAATATGAGCTCCATGAAGGTAGAAGCTCTTGTAACCGCATTGCTGAGAGCAGGATCTAGGGTCCAGT
GCCAGGAAGGCATTCACTGCCTCCATATGCCCTCTGAGAAGCAGCATTTTCTCTGCAGAGCCTGCAGACAAGGTTATCTCCACTTGGAAACAAATAAACA
AACCAAAGCAAACTCTGTCCAGGGTCCTGAAAGCAAGAGCACGTCTCTAGCCTCAGTGGTGAAGAGCATATCTTCTGCCACCTGTGGACAAATGTTCACA
TTCTATGGGCCCAGGTGGACATTTGCAGAGAGCAGCCCCCAAGCCTGCTTTCCACCCCACCTTTACTGAGAAGCTAGGGCCCTGACCAATGGTAGAGGCT
ACTATGTAGGAAGTGCCTGTACTTAAGASGCAAGGGTGTGGTGTTGTGAAAAAAATATCCAATTTCATGCACCAATGCCCAGATTTTGTGTGATGATAAC
CCTTCAAGTGTAGGGATAGAAAAAGGGGATCACTAACATTACATTCAAAAGAAGGAAGAAAAATTAGCCGTAAATGTAGGGCTTTCACAAGTAGTACCAA
TCTATCCACCAGCCCGACAAGGAAGGTAGGCTCAGAGAGATTCAGTAACTCGGAGGGAGGAGCCAAGATGGCTGAATAGGAACAGCTCCAGTCTACAGCT
CCCAGCATGAGTGACGCAGAAGACTGGTGATTTCTGCATTTCCATCTGAGGTACCGGGTTCATCTCACTAGGGAGTGCCAGACAGTGGGCACAGGTCAGT
GGGTGCRCGCACCGTGCGCGAGCCAAAGCAGGGTGAGGCATTGCCTCACTCGGGAAGCACAAGGGGTCAGGGAGTTCCCTTTCCTAGTCAAAGAAAGGGG
TGACGGATGGCACCTGGAAAATCGGGTCACTCACACCCRAATACTGCGCTTTTCCGACGGGCTTAAAAAACGGCGCACCACGAGATTATATCCCGCACCT
GGCTCGGAGGGTCCTACGCCCACGGAGTCTCGCTGATTGCTAGCACAGCAGTCTGAGATCAAACTGCAAGGCGGCAGCGAGGCTGGGGGAGGGGCGCCCA
CCATTGCCCAGGCTTGCTTAGGTAAACAAAGCAGCCAGGAAGCTCGAACTGGGTGGAGCCCACCACAGCTCAAGGAGGCCTGCCTGCCTCTGTAGGCTCC
ACCTCTGGGGGCAGGGCACAGACAAACAAAAAGACAGCAGTAACCTCTGCAGACTTAAATGTCCCTGTCTGACAGCTTTGAAGAGAGCACTGGTTCTCCC
AGCATGCAGCTGGAGATCTGAGAAGGGGCAGACTGCCTCCTCAAGTGGGTCCCTGACCCCTGACCCCCGAGCAGCCTAACTGGGAGGCACCCCCCAGCAG
GGGMACACTGACACCTYACACRGCAGGGTATWCCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAAACAGAAAGGACATCCACA
CCAAAAACCCATCTGTACATCACCATCATCAAAGACCAAAAGTAGATAAAACCACAAGGATGGGGAAAAAACAGAGCAGAAAAACTGGAAACTCTAGAAA
GAAGAGCGCCTCTCCTCCTCCAAAGGAACGCAGTTCCTCACCAGCAAAGGAACAAAGCTGGAYGGAGAACGACTTTGACGAGCTGAGAGAMGAAGGCTTC
AGACGATCAAATTACTCTGAGCTACGGGAGGACATTCAAACCAAAGGCAAAGAAGTTGAAAACTTTGAAAAAAATTTAGAAGAATGTATAACTAGAATAA
CCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAAGCAAGGCTCAAGACCTACGTGAAGAATGCAGAAGCCTCAGGAGCCGATGCGATCAACT
GGAAGAAAGGGTATCAGCGATGGAAAATGAAATGAAWGMAATGAAGCAAGATGGGAAGTTTAGAGAAAAAAGAATAAAAAGAAACCAGAAAAGCCTCCAA
GAAATATGGGACTATGTGAAAAGACCAAATCTACGTCTCACTGGTGTACCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGATA
TTATCCAGGAGAACTTCCCCAATCTAGCAAGGCAGGCCAACATTCAGATTCAGGAAATACAGAGAACGCCACAAAGATACTCCTCGAGAAGAGCAACTCC
AAGACACATAATTGTCAGATTCACCAAAGTTGAAATGAAGGAAAAAATGTTAAGGGCAGCCAGAGAGAAAGGTCGGGTTACCCTGAAAGGGAAGCCCATC
AGACTAACAGCGGATCTCTCGGCAGAAACTCTACAAGCCAGAAGAGAGTGGGGGCCAATATTCAACATTCTTAAAGAAAAGAATTTTCAACCCAGAATTT
CATATYCAGCCAAACTAAGCTTCATAAGTGAAGGAGAAATAAAATACTTTAYAGACAAGCAAATGCTGAGAGATTTTGTCACCACCAGGCCTGCCCTAAA
AGAGCTCCTGAAGGAAGCGCTAAACATGGAAAGGAACAACCGGTACCAGCCGCTGCAAAATCATGCCAAAATGTAAAGACCATCGAGACTAGGAAGAAAC
TGCATCAACTAACGAGCAAAATAACCAGCTAACATCATAATGACAGGATCAAATTCACACATGACAATATTAACTTTAAAGGTAAATGGACTAAATGCTC
CAATTAAAAGACACAGACTGGCAAATTGGATAAAGAGTCAAGACCCTTCAGTGTGCTGTATTCAGGAAACCCATCTCACATGCAGAGACACACATAGGCT
CAAAATAAAAGGATGGAGGAAGATCTACCAAGCAAATGGAAAACAAAAAAAGGCAGGGGTTGCAATCCTAGTCTCTGATAAAACAGACTTTAAACCAACA
AAGATCAAAAGAGACAAAGAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAACTATCCTAAATATATATGCACCCAATACAGGAG
CACCCAGATTCATAAAGCAAGTTCTTAGAGACCTACAAAGAGACTTAGATTCCCACACATTAATAATGGGAGACTTTAACACCCCACTGTCAACATTAGA
CAGATCAACGAGACAGAAAGTCAACAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAAGCGGACCTAATAGACATCTACAGAACTCTCCACCCCAAA
TCAACAGAATATACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATACTTGGAAGTAAAGCTCTCCTCAGCAAATGTAAAAGAACAC
AAATTATAACAAACTATCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAATCTCACTCAAAACCGCTCAACTACGTGGAAACTGAACAA
CCTGCTCCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAACGAGAACAAAGACACAACATACCAGAATCTC
TGGGACACATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCCAAAATTGACACCCTAACATCACAAT
TAAAAGAACTAGAAAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAACTAAAATCAGAGCAGAACTGAAGGAATACAGACACAAAAA
ACCCTTCAAAAAATTAGTGAATCCAGGAGCTGGTTTTTTGAAAGAATCAACAAAACTGATAGACCGCAAGCAAGACCAATAAAGAAAAAAAGAGAGAAGA
ATCAAATAGACACAATAAAAAATGATAAAGGGGATATCACCACCGATCCCACAGAAATACAAAGTACCATCAGAGAGTACTACAAACACCTCTATGCAAA
TAAACTAGAAAATATAGAAGAAATGGATAAATTCCTCGACACATACACTCTCCCAAGACTAAACCAGGAAGAAGTTGAATCTCTGAATAGACCAATAACA
GGATCTGAAATTGTGGCAATAATCAATAGCTTACCAACCAAAAAGAGTCCAGGACCAGATGGATTCACAGCCGAATTCTACCAGAGGTACAAGGAGGAAC
TGGTACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATGAGGCCAGCATCATTCTGATACCAAAGCCAGG
CAGAGACACAACAAAAAAAAGAGAATTTTAGACCAATATCCTTGATGAACATTGATGCAAAAATCCTCAATAAAATACTGGCAAACCAAATCCAGCAGCA
CATCAAAAAGCTTATTCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAATATACGCAAATCAATAAATGTAATCCAGCATATAAAC
AGAGCCAAAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAAGCCTTTGACAAAATTCAACAACCCTTCATGCTAAAAACTCTCAATAAATTAG
GTATTGATGGGACGTATTTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAGCATTCCCTTTGAA
AACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAATTCTGGCCAGGGCAATTAGGCAGAAGGAAATAAAGGGTATT
CAATTAGGAAAAGAGGAAGTGAAATTGTCCCTGTTTGCAGATGACATGATTGTATATCTAGAAAACCCCATTGTCTCAGCCCAAAAGCTCCTTAAGCTGA
TAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAGCATTCTTATACACCAACAACAGACAAACAGAGAGCCAAATCATGAG
TGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTG
CTCAAGGAAATAAAAGAGGATACAAACAAATGGAAGAATATTCCATGCTCATGGGTAGGAAGAATCAATATCGTGAAAATGGCCATACTGCCCAAGGTAA
TTTACAGATTCAATGCCATCCCCATCAAGCTACCAGTGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAAGCAAAAAAAGAGCCT
GCATCACCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTACCTGACTTCAAACTATACTACAAGGCTACGGTCACCAAAACAGCATG
GTACTGGTACCAAAATAGAGATATAGATCAATGGAACAGAACAGAGTCCTCAGAAATAATGCCGCATATCTACAACTATCTGATCTTTGACAAACCTGAC
AAAAACAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATAGGTGGAAAGCTGAAACTGGATCCCTTCCTTACAC
CTTATACAAAAATCAATTCAAGATGGATTAAAGACTTAAACGTTAGACCTTATACCATAAAAACCCTAGAAGAAAACCTAGGCATTACCATTCAGGACAT
AGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATGGGATCTAATGAAACTCAAGAGCTTCTGCACA
GCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCAACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACA
ATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGTGAAGGACATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGC
CAAAAAACACATGAAAAAATGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATC
ATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGATGAGACTGTAAACTAGTTCAACCATTGTGGA
AGTCAGTGTGGTGATTCCTCAGGGATCTAGAACTGGAAATACCATTTGAACCAGCCATCCCATTACTGGGTATATACCCAAAGGACTATAAATCATGCTG
CTATAAAGACACATGCACACATATGTTTATTGCGGCATTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAG
AAAATGTGGCACATATACACCATGGAATACTACGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATTC
TCAGTAAACTATCTCAAGAACCAAAAACCAAACACCGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGATCACATCATCATTCTCAGTAAACTAT
CTCAAGAACCAAAAACCAAACACCGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGATCACATGGACACAGGAAGGGGAATATCATCACACTTTG
GGGACTGTTGTGGGGTGGGGGGAGGGGGGAGGGATAGCATAGGGAGATATACCTAATGCTAGATGACGAGTTAGTGGGTGCAGCGCACCAGCATGGCACA
TGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTAGAACTTAAAGTATAATAAAAAAAAAAAAAGAGAGAGATTCAGTAACTCATCCAGA
GCCACACAGCCTAAGTCCAATAATCCTTGCCATACACTCTGAACTTATCTATTGTTCTACCATAGAGCGTCAATTGATTTTGGGTGGGGCCAATCATTCC
ATGCTTTTTTAAGCTCCTAGATGATTCCCTAGTACAACCAGAATAGAGAACCATTCCACTACAGGCCGAAACCAAAAAGAAAGCTTGCTAATGTCGCTTG
GAAAGAATAATTTCCCTCCACATCCCACCCCAACACACATATACAAAAGCCACCCCATACAGGTGTTTCTCGTCTCCTCTCTCCGCAAAGGACAGTGCTG
TTGGTCTGTCCTGAGATTTYAGCCTACAGGAATTTCTGAAGCCATATTCAAGGTGGGGGGGCAGGAATCAGCCACTTTCATATTTTGCTTGTTTCCCTGG
AAAACCACAAGCTGTTATAAGGATTGTTATTAAGAAGTTATTTATCATTATTGTTGCTACGATTTGAAAGTAGAGGGGGTCGCTGTTTGTACTTACATGG
CTTCCTCCAGAGGGAATKCCCGAATTCTCAGACAGCTCATTTAAAGCTTCCAAAATGACAAATATTCCACAGGTATCTGCTGCGTCCTCTCCTGTCCTGA
TTCCTGACTTCACATTTCAGCCTTTCACAACATGTGGCTAGCACCCCTGAGTTCTGGCTGCTCTGCTGAGGGGCAGGGCCACCGTTTATCACCCTCAGAA
ATCTGAGCCGCAAGTGTGGAACCATCTCACCACTCAAGCTGGGGCTCATGCTCCCGCAGGGTGGTGTGGGAAAGGCGGTGTGCCGTGAAGGCCAAGGGCC
AGGTTATGGGCTGTCCCAGGGCTTGAGCTGCTTCTCCAGCAGCTCCTAGCCATGAAACCACAAACACTTTGCCTCCCCCTTCTGAGTCTTGGTGCCCTCA
TCCATAATACGGTTACAATATATACCTCACAGGCTTGTTGTTGTGAGGTTCAAACTAAATCCTTTATAAAATGTCCCTGAAACAYTGTAGGTATGCAACA
AATGTTGGCTATCTCCCCCTTAGTAGAAATCCGACTTCATGTGCACTCAGAACATTCTGTGAGAAAGTAAAATTGCTCTCTTTAACCTCAACTTTAAAAC
CTAGGGATATATCTTCAAGTTTCCCCATTACCTAATGATGACTATTATATTTTTACTCAATTTTGAAATTTACAAGTCATGTTCACATAGATCTTATCTC
ACTCTGGCCTAAAATGCTCCCATAAAATTGGCAGAACAAATTTAATCATTTTTATTTTATAGAATCAGGAACTGAAGTTCATAGAGATTAACATGCACTT
TCTACAAGGACACACCCACTATCGGAACCCAGGTTTCTTGCAGCAAATCTAGTATTCCTCTCAAATGCCATCTAGGTTTCACCTTGGCTGTTACTTTCTA
GCCAACCCTTGACTCCACTGCCCCATGTGCTCCCAAAGTATCTTGTACTTATTCTTTCATGGTACTTATCGCACTGTATTGCAGGGCTTCTCAAGCCTGA
CTATCTAACAGAATTATGTGAGACTTTTTGTAAAATATAATGGATTTAGGGCCTCACGTGATTTAGGTCCCACCTCCTTAATCAGGCGTCTATTTTTGTT
TAAAGTTCTCCAGGTGACTCTGATGCACAGAATCATGCTTACTAAAGCATAAACTCTCTAATGGCAGCAACCAAATCTATTTTGTTCATCATTAGGATTC
TGAATCCTTAAACAATATCTGGCAATACTATTCAATATTATTATCAATAACATTTACTGAGCATTTACTCTATGCCAGACACTATGATAAGTAATGTGTG
TGCATTTGTTTCTGTTAATTCTGCCAATCGTCCTATGAAGAAGGAGTTATTATCACCCTATTTAAAGAGTGGGTAACTGAGGCTTGGAGAGGAGCTTGGG
AAACATTTAGTAAATACATCAATGACTATTAGCAGTACAATTCATGCTTCCTACCTGCTTCCATGATAATAACTGGAACCTTCAAGAAAGTGATTATAAA
ATATGTAATAAAGGACTCTGGTACAGTCAGCTTTCAGGCACACATTAGTCATTGTCTCTAGAAAGTAGAATAGTAAAGCAGAGCCTTGGGAGAGCTTGGG
GGCAGACAGCATGGCCCCAAGACACTATTTCTGAGTCCCACAAATAGCACATTTTAGTTGCTGAACCAATAGAAAATAGCCTGAATTCCTCCTAGATCAT
CTAATATTATTGTTCAATTTAAATACTTTTGGCTTCAAGTAGCAGAACTAATGTGGCTGAAACAGATGGGGACTGATTTTCTCATATAAGAAATCCTGAA
ATAGGTGGTCCTGATGCGGGCTTAGCCATTTAACAGCATCATTAAGGCCCCCAAATCCCCAAACGCCTCTCAGCTTTCTACTCTGCCACCTTCTCATTGT
CAGCAGTGTTTCTGTTCACTGTCTCAYGATGGCCACAGCAGCTTCAAGCATCCCTTCACCTGAAAACACCTGAAAACAGCTGAAAGCAGAAGGGGAAGGA
CAAACTCATCCATGTACCTCTCTCCTTTTTCAAAGGGGAAAAATGTTTCCCAGAAGCCACCTAGCAGACTTCCTCTTCCTCCTGGCAGTAGGTCACATAG
CCACAGTTAGCCCAAAAGAAGTCCAGGGAAGCAAGCGATGGGCATGGTGGCATGGCATTGTCTTCTCTCCTRTGAGAGGTAGGACTTATCACAAGGACAG
AGGAGGGAGAAAAATGGTTGCTTCTTAGACARTTTATTATCTCAGCCTCAAATAATCTTTATTTAAAGTACTACTAAATCAACTAGATTCGCCTTTAGAA
TATTTTCAAAACCTGTTTGGCCCTATGATACGAATCCARTGTTGTTGAAGAAAGGGGCATGTCAGCTCCAGAGATCTCTAGACGACTGCTCTATGGACAG
TTAAAGACTTTGGCAACAGCAGACATGTGATGATGGCTAATGCTCTCCTCTCCTGTTTCCAGGTCAACAGCGACCTCATTTACATTACAGCTAAGAAAGA
TGGCACTCATGTGGTGGAAAATGTGGATGCCACCCACATTGGGAAATTAATTGTGACCAAACAAATTGGAGGAGAYGGCATGATGGATATTACTGATACT
TACAAATTCCAAGAAGGTAATTTACTACCACTGAATGAAGATTTATTTGCCCAAGTCCATTGAGTACTTATTCATTGTCACTCAGAGATGAGTTCCAGAG
AATGCACTGGCATTTGCAGCATTTGGTAGCAACAGCAGAAGTATAAACTTTCACRTGTGAAAGACACGTCACATATGCAATTTTTCATTGTAGTTTTCTT
TGCTAGCTTGCTTTGGGCAGAATTCTCATTCACSTGGCTTGTAAAATGATTTGGTTTAAAGTCATACCTAATTTAACAGAATATAGAATATGTTCTTGCT
CACAAGAACCTTAATTTTAAATAATCCTATTAGAAAACACTGTATAACTAATGTAATTTTAGTCCAATAATAGAAATTAAAATAACTACTTCACATTTGT
TTAGTACTTTACCAATTATTTCCACATACATTGTTCTATTACATTATCATGGAAGACTACAACGTAGAYAATACAATATTAATAGGACAATGCAATCTCT
CTAACTCAGGACAATTAGGTCGAAGGCCAGTTTCAATTCCAAAATAATGTCATGGTGGGTTTTTGTTAACTTTTATTGCATAGAATGTTTCAAATGGCAC
TACTGAGTTTAATTCTATCTCAATCAATGCTTAGTGTCCGSTCYATGCCTGCAATTGGTTTGGTGCTGGCGATTCCAGCAGTGAGCAGRACTCAGTTCCT
GTCCTGGTCCRAGTGACAGGATTATTGTGCAGAGGGGTCTTTGGAAACAATAAGTAGGGGCATTTAGTCCAACTGATTCAGAAAAAGACTTGAGAAGAGA
AGTCGTGGACCTCGGTTAAAGAAGCTGGACAGGGGTTTCCAGACAGTGTGAACATGACCAAAGTTACAGGGCGTGCAGCAGCCCGGTATGTTTAGGGGGA
TCCTGCAGGCTCAGAATGCCCAGTGACTGAAGACAAAGCTGCCCGAGGCCAGCAGTGGCCAGAACTGGAGGACCGTGAGTGTCCTGATGGGGAACATGCA
ACATATTTTGCAAATGATTCACTGCCAGAGGTTCTTAGGAGTATTTATTTTTAGTAAATGGATAAAAATGACAAGTAATTAGCATATACCTAAATATTCA
TTGGAATCCATGAAGTGCTAAGGAGTGCAGAATTTATTTTAAATAGTTTAGACAGTCTCCCTGCTCTTATTTACAAAAGTAATTTGCACTACAAAGAAGA
ARCTTGCTGAATTGAGAACACTTGTGCATAGTCTCAGAAAGTCAGAATTTTTGTTATCTGAACTAGTGAATTTTCACTGTATTTTTTAAATGCTTCATTT
TCCTCTTCTGTTGGTTATCATCCATTGCACAACACAGATACAAAGGTGGTATTTTTTTGTCATTTGGATTTTTCCTTAAAGGAAAATTTAAAACAATATA
AGTGCAAATAAAACAAAACAAACAAGCAATGCCCTCTTACTGTAGAGTTATAAGCAAAAAAAGGTTTGGAGAAACAAAAAAGCAAGTTCATAGAAAAGTT
AGCTGCAACATCCACTCATTCATACATACATCCACACGACAGCTGGCTCTTACCATCTGCCATCTTCCAGTGCTGTGTAGAGCTGGATACATGTACAGCC
CTGCCTTCCCATGCAGCTGGGGAGAAAAGCAGAAGGCAGCCCTCACTGTGCTGGGTGAGAATTGCTCTGGCACAGGGTGGACGGGTGCTGCCGGGCACAG
AGAAAGGCTCTCAGCCAAGAATCGGCAGTTGGGGAAGACCTCGTGGAGGAAGTTAGTGATGGGCTCACTAAGCCCAAAGGACACACAAGAATTGGCAGAT
GAAGCTGGGGAAAGAGGTCCCCAAGAAAAGGCAGTAAGGCAAGGACTGTGGTGAGAACTCTCGTATTTGGAAGAAGTCCTGACCAGACAGAGTAGTGAAG
AAAAGTTGCACCTACAGGCAGCTAGGGGCAGCAGGAAGCGAGCTGTCCACATGACAGATGTCTCTTGGAAACCATGGAGCCGAGCACAGYTGCCATTAGC
TGTCAGCATGGAGGTGACAGTGAAGGCCAACTCAGGAATGGGACAGAATCAGATGCCACGAGAGGAAAGACTAAAACCCAGTCCACGAAACAGGAGTCAG
GGGCTTGGCTGGGGGTGGATAACAAATTAAAACAAAATGTGTCCGCACTGCATGAGGAAGACATCTGAGGTCCAGGCCTCTAGAGTTTAGCAAGGAGGCA
AGGCTGAGGGAGAGGGACAGTGTGGAGGTCTGGTCCAACTAGAAGAATCCCTAAATCCACATAGATGGTTGTAAGCGACGACTCATCCTGCTTCGGGGCT
GGAGTTTGACCCCAAGTGGATAGTTTCTTAATCAAGGGTGGCATACACATTTCARACTGGAACTTTGGAAGTGACCAAGTAGAATGTTGTTTTGAGAAGA
ACACCAAGACTGCATCTGAATGTGGCGGGTAGAAGGATTGATGGCCGCCATTGGCCACTGGCATGCAGTGAGGACTCGTCATATCCGTGGCTCAGTACTT
ACCACCCTGATTCTCACCGTTGAATCTCTTATAATTTCTCTGATCCACAAATGCTGAGTGTAGATACCAAAATATGGAAATGAGTAGAATCACAGGAAAC
AAATTATTACTAGATTTAGGACTTAACTATTTTAATGAATTAAATCATGGAAAGATCAGGTTCACTTCAACTTACTAAAGCTTATTATTAACTTTATAAC
TTTTTTCAAGATATATAATTAAGAAACGATAAGACTTTGAAAATCAGAATTTCTGAAGACTTCTCCTGTGGCAATATATCTTCTTTGATAACAGTGTCTT
GATTCCATTCCCTCTTTGCTCCTTCAGTTACTTCCAGGGTCACTGTTATTTCCACCTCTCCCTCTCTATTTTCTCCTTCCAATCAGCATTTAAGCAGGCT
CAAATATCTGCTGTGTTAAAAACAAAAATTACAAAAATCTTTTTCACCACTGTCTCTTCCTCCTCGCCTCCTTGCCGTCCTGGAGYGCTGCCTGGACTTG
CGTCCTGCTGTGTTCCTTCTCCACTCCTTCCGCGCACACTCTGTCCTGATTTCTGCTACCAGCACTTCCTTGAAGTTGTTCTCAAGGTTGCCAAGACCAC
CCAATTGTCACAGGGAAGAAACATTTTGCAGACTTCAGCTTACTTGACCTTCCTATACTTCCTGGTGCTGTTGTTCACTCCCTTTGCTTGCAATTCTGTC
TTTTCTTTGTTTCTACAATGTTACTTTCTCCTGGTTCCACCCCCTCCTGCCTGACCCTCTTTTCCTACCTCTTTTTGACTATAAGCTTTTCCCCTTTCTT
CACCCTTTTCAAATTCCATTTCATTCTAGGCATCTATCCTTGGGCTCCATTCCCACCCACCTGATGTTCTTCCCACATAGCTGGTGTTAATGTTCACATA
TGTACCATCACCCCATGTCTGTGTCTCCACCGGGACTTTACCTAAATGTCCTACAGAAACCTGACACGGAACTTCCCAAATGACACCTCTCACTCTCTCC
CTCACCTCAGGTCCGTTTCTCCCACTCCCCCTACTCTGGTGAAGAGAACCACCATCCACTCAAATTTAGCTACTTAAGAATGAGTTAAGCAACAAATCCT
CTAAATGTCCCCTCTGAAATTGTTCTCGAATGCATCCCCTCCCCTCCAGCTCTGTAGCCTAAAAATTAAATATTATCTGGTGTGTACAACTCTTAATATA
GTGCCTGACACATAATAAGTGTCCAATAAAAGTTTCCCCTATTACTAGTAATTCTGTTATTCCTGCCATACTACTGCTATTAGTTTGGGCTATGAWTAGT
TTTCTCCTGGAAAAATACTTGCTCTAGCTTCCCAATTCCACCTCACCTCCTCAGGCCCTCCTTCCCTCAGTCTAGCCCCTGCCTTGCTGCCAAAGTAATA
TCTGAAATGTAAACCTGAGCCTCTCCCAGCACTGCTTAAAAGCCCCACCCCCCCCCCCCTCTCCCTGTGGCCTCCAGGGCATCCAGTCCTAACTCACAAA
GCCTCTTGCTAAGTGGCTTTTCGGCACCTGGTCACTGCACCTCCTGAGCATGCCCCCACAGGTATTGTATGCAGAGGCCAGGGACCTGCCAGCAGTTCCT
CCAACAAGCCAAGCCCCCCACCTGCATCCCTGGTCTTGCCCTCGCTCCAAAAACTCCGAGAGGCCTCCCATGCCCCTTCCTTTCCCCATGCACTGCAGGC
CAACCTCCGTCCCAGCATCTGTGGTGAGCACCTGTGTGCTGCCATTGCTCTTCACGTGTTCCTTCTGCACCAGTGAGGGAAAGACTGTTTCTCCTCTGTG
CCTAGTGCCTAGCACGGTGTTTGGAACATTATGGGGTTTCCAACAGCATGAGATGATTTGAATGAATGGTTACTGGGGAGGCACTTTCACAGCTAGGCTT
AGTTGAACATAAAATGTCCTAAACTGGACTATTATGAAGAGGAAAGTTTTGTCTCTGGCTGAAAGCAAAATGCTTCTCCAAACCTCAATCCTTCAGATCC
TCTGTGCCAGGCTGGGTTTCAGGGCCTGGGGATGCAGAGGTGGACAACATGTCTCTGTTCTCATGGAGCTTGCATTCCAGCAAGGAAGATAATGTCACAC
AGTAACTAGTACTGTGACAAGGAAGAGGAAATAAAACCAGGTATGTGTTAGGGAGAGCCGAGAACACTAGGGTTTGAGGACACATTACACAAGGTAAGAG
GGGGAGGACAGGGGAGGTGACAGTGGAGCTAAAGCCAGAAGAATGAGAGGCTTCGTCCAACATAAAAGGGCTCTCTTATTACATCCTAGTTAATGGAAAG
ATATTTTTGACTTTGCACCCAGAGGCTGCAGAAGAATCTCAGAAAATATAATCTGGCTTTGGATATGTCTCTCACTGCACTAAAATGTTGCCTGTGGCCC
TGAATTATGTAAGATGCCAGAGCACGCAGCATAACTGTAGAGAAACAGGAATTACTCTGCCAGGCTCTGGGAAAGCCGTGCAGTTGTTTTCTCCTCTCTG
GGCSTGCGCTTCCTGGAACAGCCCCAGCCTGCTTCTGTTTGGCGGTCTCCGCTCACAGAGGACAGTGCTTCCCCAGAAGGAAGCTCCAGGTTCCTGCACC
CATGGCAGGCTGTGAAGTTGCTTGTGGCTGGCTTCAAGGCTTCTTCTCCCATTCACCTCACCTTGGCCAGCTCAGCTCCTCTCTGATGTGTTMCTGATGC
TCGAATTTSCCTCCTGCATTTTGCCTCAATGCATCTCTGGCCCGCATCCAAAGTGATCATCATTAATGTTCTCTTCTCATGGATCTATTGGCCAGATGAT
TTCTGCTAAAAGATTTCACTGCACTTCCCTTGTCCTCACTCCTCCTTCCCTTTTTCTTACCTCCCTCCGAGTGCTCTAGCTGATGCTTGTCCTAGACCAA
CTGTTCCTGGCACATTCTTGCAGTCTTGACAATCAGGGAAATCGTTAATACACACACACACTACACATTCACATTCGTATGCAATGCCTTCTGGCATTTT
TTCTGTCTTTGCAGAGTAGCTTCCATTTATTATATATCTACTTCCTCTAATTCACCTAATAAACCTAGGATGTAGACACCCTTATTTTACAAACAAGGAA
AGTGATGGTAATAATAGTGTCTGTCTTATAGTGTTGTTATGAGGATTAAATGACACAATGCATCATAAGCACTTATGCCAGTGCTTGGCACAGAGCTAGC
CCTCAGTGAGGGTTCTGATGATTCATTGACCTCTCAGTCACCATTGCATTTTATTATTAACTAGATAAAGTAGAAGACAATACCTTTAAACTAGCATAAT
TATAAAAGCTAGGATTCTTATTTTAAAGTGATTTTTTTTTCACTAGCCATTCTCAAGCCTAGTTTTTACAAGCCAAGGAATTTGCCTTCATCTTCTCATC
TCTATCCTTAGGGATACACAAAGATAAACCCAAAGGTATTTAGGATGGAAAAGAGGATGATGACCATCCCTCACATCTGCATGAGCCCTGTTTCCAAGSC
RAAGCCTTTTGTCCAAGGCTCTGTAAGGACCGTTCTCCCACCTTCCCAGTGTCTGAGGCATAAGCTCCTTCTGAGGCCTGACTTGTATCTGTATTTTCTG
CCTCATCACTTAGACAAAGCTATGTTTTTCTTCTTCTGGAGGTTACCCTCCTCTTTTTCCTCCCTTCATCTCCACCACAACCACTTTGCAAACCCTGCAC
AAAACATTTTCCTAAAAGCAGCACACACACCTCGAACTGCATTAGAACTTAGGTGCACCACYGCCTGTCAACAGATGTCCCTCAAAAAACTGCCCTCCGT
GTCAGATGAGTTTGGGAAACCTTGTGTAAAGAAAGGCAAAGAGGTGTCCTTGCTGCTGGGCTTCACTTAGAACCTCTAATTTGCTAATTAAGGTGGAGAA
CATCTCCAGGAGGCGCTGGACAACTAGGGCATCTCCAAGGGATCTGACCGGAGCACCTTGGGCAGGGTCGCCTTTTTAATGTCTTGCCAGAGCCCAGCAT
CCTTGGGGACTGGGGGATGCAAGTTTTGGTAGAACCTTCTGCCATGGCATGGGTGTTGGGGRCAATGGCAATTGAGTGAGATAGGGAAGAACGGGGCAGG
AGCCCTCAAGGGTCAGCTCAGCAAACAGCAAGTGGGACAGGCCCARGTGGAAGGAGAGATGAGGAAGACAGGTCTTATTGGGGGGCAGGTATTCACAAAT
CAGAGAGAAAAGTTACATTGCAGGAGGTGGAATGGCAAGAGGCAATTATTTCCAATTATTAGAGGTCCCCAAATTCTAGCCACATGGCTGGGACTAAGAA
AAGCAAGCAAACTGACACCACAGTTTAAGAAAAGATAGACATTGCCAATTTTACCTCCCACCCCCTGAAATAGTGGCCCCGGAGAAACCCCTTTCTGGAT
AGATCCCAACACTGTCACCTCCTAACTTGCAGCCTAGGCTGGTCACTGACTGTCTGGCAATCTGACTTTGCAGAATTTATAACATAGGAATAATGACGGC
ACCCTCCTCCTGGGGAGGTCTGAAGCTTGTATTATAGAAACACCCCAACAAGTGCAGTACACRGTGCATCCATTAATGTGACTTTCTCTCTGGTGGATTG
TATTTTTGCCTGTCATTATCTCTGGATCTCCCCCAGGTCAAGAAGAAGAGAGATTGGCCCTAGAAACTGCCCTGATGTACRGAGCTAAAAAGCCCCTCAA
CACAGAAGGTGTCATGAAATCAAGGTCCAACGTTGACATGGACTTTGAAGTGGAAAATGCTGTGCTGGGAAAAGACTTCAAGCTCTCCATCACCTTCCGG
AAVAACAGCCACAACCGTTACACCATCAYAGCTTATCTCTCAGCCAACATCACCTTCTACACCRGGGTCCYGAAGGCAGARTTCAAGAAGGAGACGTTCG
ACRTGACGCTGGAGCCCTTGTCCTGTAAGCTAACAATGGTGTGGTTCTTTSTGAGACTCGCTGTCTGGCCCCTGTCTTGCTAGGTGTTAATGCCCGTTAT
AGCTTTATATCAAAGTTAAAGTTCCCTCCAAGATCTCAGAAGTGTGAGCCTCACAGGGAGAACCCACTCATTCTGCAAAAGCCTCCACTTTCTTTTTTTT
TATTTTTATTTTTTGAGATGGAATCTCGCTCTGACACCCAGGCTGGAGTGCAATGMGAYGATCTTGGTTCACTGCAACCTTTGCCTCCTGGGTTCAAGCA
ATCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACRTGCCACCACRCCAGGCAAATTTTTGTATTTTTAGTAGAGACGGGRTTTCACTATGT
TGGCCAGGCTGATCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTGCCAAAGTGCTGGAATTATAGGCGTCAGCCACCGCACTCGGCCCAAA
AGCCTCCACTTTCATCCTCACGTCTCATGCACAGAAGTGAACATTGAAAATTTCAAAGCCTAGAGCCCCATGAGTTGTGAGAATTAAATGTAACTTCTTG
CTACTCAAAGTGTGGTCCATGAGCCAGCTGCATCAGCATTCCCCAGGAGTTTGWAAAAAATGTAGAATCTCATGTCCCACCCCACACCCTCTGAATCAAA
ATCCATGTTTTGACAAGATCCCAAGCAGACTGGAGTGTACAGGAGAGTTTGTGGAGCATGGATCTAAATGATCCATCTCAGAAACAGGCCCTCTGCTGGT
GCCTCTCGCCCAAGTTAGGAAAGTCTTTTGGGGGCTGTCCAGAATGAATRGTGTGCTTTGCTTTCCCATTCAAAAAGATACACGCGCTGACATAGGCCGC
TTCTTAAAACGCTGTCTCCTGTAATCTCAGCACTTTGGGAGGCTGAGGTTAGCGGATCACCTGAGGTTAGGAGTTCGAGACCAGCCTGACTAACATGGTG
AAAACCCATCTCTACTAAAAATACAAAAATTAGCCCGGCGTGGTGGCAGGCACCTGTAGTCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTCGAA
CCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCCCTCCAGCCTGGGTGACTGAGCGATACTCCGTCTCAAAAAAAAAAAAAAAAGAAAAG
AATGGAGGCTGGAAACAAAGCTGTGTCATCTAGGAGGGGCCTAGGAAGAGGTTTTCTGCCTCTGCCATCTCTTGTGGGGCCTCTTTCTCGTCCTTGCATG
CACATCCTTCCAAGCATTTTCATCACTGTAAAAACTCAGAATATTTTAAGCAGATCAGGGTCCACGTGCTACAGCTTGCCTTGGGGATTACAATCTCAAA
AAATCACATTTCCTAGGATGTTCGTATTTGGTGGGCACAACAGTTGACCACACGATGGGCAACACAAGTCCATTGGAAGAAACTGGTCTCTAGGCAGAGA
ATGAGTTAGAGCAGGTTGCAAAGGACCTCGATACTTTGGGGCACCAATTTCTGTTGGCCTGACATGGGGCACTGAAGAGAAAAGTGTACAAATAATAATT
TTGACAAAGCAAAGGCAAGCAAAACTAATACGCTCCCCTGGGATGGTCAAGCCACAAGTCTGAATTGCTCTCAAGCTCTCTGGATTTTGTGGCTGTCACA
GATCATGGTCCCCTTACTGAGGTTTTGGAAAATATTCCCAGAAAAATGAGAAACTATTTTTTAAAATCCTAATTCCAAGGAACTTACTCAAATTTGAAGG
AAGCAAATCTCCCCAGCTTCAGTAATGGAGCTAACAATTAAGAAATCACTATAGTGGGGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCAGTTTGGG
AGGCTGAGGCGGGTGGATCAACTGAGGTCAGGAGCTCGAGACCAGCCTGGCCAACATGGTGAAAGCTCATCTCTACTAAAAATACAAAAAATTAGCCAGG
CGTTGTGGCAGGTGCCTGTAATCCCAGCTACTTGGGAGGCTAAGACAGGAGAATCACCTGAACTCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCC
ACTGCACTCCAGCCTGGGGGACAGAGCAAGACTTCATCTCAAAAAAAAAAAACACTRTAGTGTTTTCTTTGGAAACTAAAAGCTTTGGCACTTTTCCTAT
TCCTAGGGTAGTAAAGGTAATTTTCATGGAAAAGAATAGTCAGTGTAAAGGACTGAAGAGGACAACAGTCATGGGGATTGTTTAAAACAGGCAGCCACAT
TTGATTTCAGAGAGTTTTGCAAATAGACAATTCTGGATGTAAGCGATGACTGTGTCACCTACCAGCTGTGTTTCCTGAGCAAGGTACTTAAGCACTCTGA
GCTGTCTCTCCTCATCYGCAAAGGGGAAAAACAGCACACACACCCCGGGGTTCTTGATTCATTCCCCTAACCTTTATTTAGTGCTTGCAAGTCCAGGTTC
TGTTTTATGCTGGAGACACAGCAATGCCTATTCTKACTGAATTTCTGATCTCATGGGGGAACCAAACAAACAAGTGAATCTATAGTATAGTTATATGGGT
AATAGAAAAATACAAAGCAGGTTAAGGAAAACGGGGAGTACCTGTGGAGATGGTCAGAAAAAAAACCCTCTCTAATGGGGTGACATTTAACAGAGACCTG
AGTGAAGGTCAGAAGTGAGCATTCCAGCCAGAAGAAACTGTATGTGCAAAGGCCCTGGGGCCAGAGCATGTCTGATGTGTTCAATGAGCAGGAAGGAGCC
AGAATCAGGAACAAAGGTGGCAAGGGGGCAGTGCTGGGTGCAGACCATATAAAGAATTGTAGGCCTTTATAAGGCCTTTGGTTTTTATTTTGAGTGAGCT
GAGGAGCCTTTAGAGAGTTTTGAGCAGAAATGTGGCATAATCTAASTTAGGTTTTGAAAAGACCACTGGCTGCTGTGTTGAGAAGAGACTAAAGAGGAAG
TAGGGCGGAAGGTTAGAGACTGGTAGGATGCTTCTGCAATCACTCCACTGAAAGGGGTTGATAGCAGTGATGGAAGCAGCGAGAACCAGTCCGATCTGGG
CATGTGCTGAAGGTGGAGCCCGCCTGATTGGCTGAGAGACTGGATATGTGGTGTGAGAGAAGGARGGTATGGAGGAAGCCAAATGAGTGATGAATGTGAA
ATGTKTGCCACATGGTAGAATCTTAGTAAATGGTAACTTCCAACATGTTTACATTTGGGGAAACTGAAGCTCGAGAGATGAGTCGATGTGTTCAAGCCCC
CACACAGCAATGAGAGGCAAAGCAGATAATAGAGTAGACAGATAATAGCAGTGACAGTGAGCCAGTTCAGGGTAAACTTGGCCCCAAGTGGGCCAGGTCC
CTTCCTTGTGCTCCCATTACCTGGAGTCTAGCACAGATCCTTAGACAAAGAACCAAATGCCAGCCCTTTTCCCACCTCACAAGTGTCCTGTCTCATAATC
TCCTTCCCCTTCCCTCTTTAATCCAATTAAAGAATGAGCTTGTATGGGTGAGTAGAATGATATCATTCTCTCAGTCATCGACCTAGGGACAGCTGACCAA
ACCTATGCCTGAGTCCATAGGAACACATCTCCCATTCGCTTGGCCAGCCCCAGGTTGTCCTGAATAACTTGAAGGGAACTGGAGACTCTTTGTTCCTTTG
CCCTGCAGGCAGGTGGTATTAACTGTGACCAATAAATTGTATATTGAAATATAAATTAAATTGCAGTGTATTGCAAAAAGCCACATAACTTCAGGCCTTG
ATCAAGCATTCTTAGATGCCTCTGCTGCAAAGAAAGCTTTCCAAGTAGAATGGGAGGCATACTTTCCAGATTGATGATTAAAGGGAATGTGTGTGCTGGA
ATCAGCTTGGGAGATCTGAATAACTTAAACCTCTCCGTACCTTCAAAGGTGCTATCATTTCCACTTGGCTATATTTAGTTTTCTTTGCTTTTTGGAAAAG
AGATGAGGCAGCTCCAGTCTGTGTCTCCCTTGGCTTTCCCCAGACACCGTAAATGATATTGGCAGCATCCCAGCCCTACCRCTCATAGAGCGAAAACCTA
TTCCTCCTTCTCCTGCCACGTTTAATAAACTTTATCTAGAACAATTTCTTGTGCAGTGGCAAAACACAGCACTTACATAACATACTATTTCAGAAGCACT
GTTCTCTTGGGCTCTGAAGCACAGCCTGGTTTCTTTAGTGCTATGATTTAGGGAGTGTTCTACCTCAGAGAAGAAAGGGGTCCTGATACTGAGATTATAA
AGGTAGCAAGAGCCTCTGTAAAGAAATCATATCCCATTAGCCAAAAGAAATCCAGTGGTCAAACATAGTCCTCTAGAAATAGTCAGARGAAGTCATTTTA
TTATTGTTATTACTGGAAACAGCTAGAGGCAAAAGGCATCTTCTTCGAGGCCTTCCACCTTGCCACTTCATCCATTCTATCTAGAGACACGATAAACTGA
CCATTTGTGCTCATCTGAGGCTGTAACCAATAGAGGGCCAGAACCTCACTCATCTAAACAATTAWTTGCAAGGGGAGCCATGGAGGAAGCAGGGTCCAGG
CTTAGGTCCAAAGACAGCAATACGAGAGCGGGTCATTCCAAAAGGCAGGACCTGGGGGCCAAGGTCAAGGCAAGGTCATAGCTTTAAAGAGTCAGCTCTA
AATGGAATAGCTCTGCCCCAGGAATCAAGCCAACAAAGCTAGCTCTTTAGCGCTTGCCCAAAATAGGCCAATACATTCTAATAATCCACCTGCCCTATGC
GGGGTTTCTTGGTTTCAGCACCATTGACATTATGGGCTGGATACTTTGTTGTGGGACTATCCTGTGCATTGTAGGATGTTTAACTGCATTTTTGGCCCCT
ATCCACCAGATTCCAGTAGTAACCCACCCTCCACCCCAGTTGTGACMATCAAAAAGTTCTCCAGACATTGCCAAATGTCCCCTGGGGATAACATTGCCTC
CTATTGACAACTACTAGTCTAGGATGACCAACCTTTCTAGTTTTCCAGGGATTGATGGGGTTCTCAGGATGCAGGCCTTTCAATTTAAAACCCAGGTAGT
TCTCAGTCCACCCTAACTCTGCCCTAACTTACCCCTTCTGCTGTTAGAACCTCCTGTCTCTCAGAGTATCTCACACTTCARTAGGCATTGTCTGGGGTCT
TATTCAAATGCAGATCCTGACTTCACTGGTGCAGTAAGAAGTCAGAGAATCTGCATCTGTAACAAGCTCCCAGGTGATGATGGTGCTGCTGGTGTGCAGA
CCGCAGGAGGAACAGCAAAGACCTGGACTGGAAAGCCATCCCTTCCACTGGAACCCAGGCTGTCTGCAGGGCTGATTCTACAGGGATGCCCCTGGTTGTT
GGAGTGGCCCTTCTCAACCCTGGCTGCACATCAGAGTCAGCTGCAGAGCTGTTAAAAATACAGATGTCTAGGTCCTCCAAGGCTCTGATTTAATTGGCCT
GGAATGAGAGCCAGCTTGGTAGGTCTTTAAGGGTCCCCAGGTGATTGTGATATAGAGCCATGACTGAGAACTCTTCAATCAGAAGTCCTGGAAGCAAGGC
ACAGCACTTACGCATCTGYAAAGAGACTTCCAAATAGAAGTGCTGCCCAAGACAGAGGCTTTCCCAGCCTCTTGGTCTTCAAGGTCCAGAGCAAGCTGCT
GCAGATCCATCGCAGGTGTGAGAGTTCCTCCACAGATGATGGGCATGGCTCAATGCACCCACACCTTCGAGCCAGTGGGGAGTCAGGGGCCCTGCCCTCT
GCTCTGGTGCATGCCCATCCACAGGCACCCCACCCTGCTGCAAAACTGCTGTTCAGTACAGCAGGCTAAAATGAATTACCCTCTGTGCTCAAACTGTTGG
CCATGAAGCTGTTTCCTTCAATAACTTCCACAGGAAGGGGAAGTCTTTGGCAAAAGCCAGAAACTGAGAAGGAAAGCAGTAAAGACATTCAGTTCTGTGA
AGGTTCATAGAGTCTGTTCTCTGTGGCTGGGGATGGAGGAATGAGTCACCCATTCACCTGCGGAGTCTGCCAGCTGTCGGCACATACAGGCATCTGGCTC
CAACCAGGTAGCAGTGGGTGCACACCTGGGCTCAGCCTACAGAAAAACTGCCCATTGCTCTCTAGAATCCTGGACAGTGGGAAATGGGAGTTAGAGAGAA
AGTGAGCCAGAGCCACAAGATAGAACTCACCATCCTCAGCCCAGATGGTAATTGGAGGGGAGCCAGGACCACTCTCCATCTTCCAAATGCCATTCTCATT
GGCTTGTCCCCAGGACCTAGAAATCTGACATCAGTGACTGGTTTCCATTGAGAAAACAATTGTTTGGCACAGAGGTCTTCTAAATCACAAACAGAGGTTC
GGAGATAGTTGAATGCCTTTGGTAGAAACTGGTTTCAACAGCTTCCTTCTCTTAAATAGAAAAATCATATCAGATTGGAGAGAAAATGTGGAATGCTACA
GAGAAAATGTGTAGGTAGTTGACAATTTAGTCTGAGTGTGGCCCATGGCCTAGGTGAGACACTTCTTATTTGACAAGGGATCCTATGTGGAATGGGGGCC
TTGGACTTCAGCACCCCACATGTTCCATTTTGGGATGATCCCRGCCCAAATCAAAGCCACCATTAAAACCCATTGGTCCTTCTTTGCCATGAAAATCACA
TCTTTTCCATGGCATTTCTTTTACAACAGCAAAAGAACTGTTTGGAAGGTTTGACACATTTTCTCCAGTGAGACTTCAATGAATATTAAATTTCCAGCAC
ATTCTTTACCTAAGAAGCAGGACAGCTTATCCCCAATTGACTCTTTGTTCCACTTGCCCCTTACCTTTGCTGTGTTCCTGGTGGCTTCCAGGCTAATGTG
GGAGGGGTAGGGAAACTTGGAGAAAAGTAAAGCAGACCCTGTCTCAAGTCTTGATGCCAGGCCTGTGTGTGTTTTCTCCTACTAGTCAAGAAAGAGGCGG
TGCWGATCCAAGCCGGCGAGTACATGGGTCAGCTGCTGGAACAAGCGTCCCTGCACTTCTTTGTCACAGCTCGCATCAATGAGACCAGGGATGTTCTGGC
CAAGCAAAAGTCCACCGTGCTAACCATCCCTGAGATCATCATCAAGGTCAGTCTTAGCGTCTCATCCTGGAACAGAGACAAAGGCACGCAGACTTAGTGT
TCATGTGTGCATATGYGTGCTTGTATGTGTGTGTGTGTGTGAATGAATGTCCTGCTCAAAAAAAAAAAAAAAAAAAATACCAGTGCTAGGATCCTCTTGT
TCTTTGAAAGAAGTAAACTGCCCTATATATAGACACATACATATAACACTTTCCTCTCCTCTCCAGATTTAAATATATAGATGTGGCTGCAGATATAAAT
ATAACCTGTGGGTATAAACACACTTGTGGAGGAAGATAAAGATGTGTAATGGCTACAGATACTTAGAACTTTCAGTGTCTCCAGAATAAAGTGGGTCAGG
CATGCTATAAGAGGTAGATAAACTGCCTGCAACATTTTGGACAGTAATATTGTTTATGGAGGTATAATTGTGGATAGTAGATTGCACAGATCAAAATATA
CAGCTTGATGATGATTTTGTATGTGCGTGTGCCTTGCAACCACAAGCCAGATGAAGAAATGGAGGATTTCCAACACCCCTAGAAGGTTCCCTSTTGCCTT
TTACAGCCAATAACCCCCTAGACTATCACCAAGATAGTAACTTTTCTGACTTTTATCACCATAGGTTTGTTTTGCCCATTTGACCAGTAGTTTTCATGAT
GCCTCTCCAGTGATCACCAGAAATCTCTGCCCAAATGGCTCAAGAGACTTGGCAGAGGAAGGCCGAGGGTTGATGAKAGTGGAAGATAAATGTGGGAGCC
TCTGTGCTCCTACTTCTCAGGCCCACAGCTGTAGCTTCTGGGGGCATCTGTGGTTGCATCCATGAGACRCCTTYCTGCCCTGGAAGCAGGAACCCAGGCT
TCTGGCAGTGACCCTGAGGAGTGACATCTCATGCAGCCCTTATCCAGGTCTTAGAGCCCTTCCCTAGTCTCTGGAGAACAATCTTCTTGAAGTGATTAAG
AGCAATTAGCACAGATCCTGCTAAACTACATTGCTCTAAAGTGGTAGATAAATCAAAGCTTTATAAAGTTGATCACATTTTAATGGTCCTAGAGGTGGGC
AGGGTGAGGGTAGGTAGTCCTTGCTTCTCGTGAATCCTTTGCTGTGAGTCATTTGGAAAGCCAATGACTGCTGTGCAGCATTCAGAATGGCAGTGTTTCT
TGGRTAACTACTGGGCTCCAGACGCTGTTCTTAAAGCACTTTACATGGTTGCATTTTCAACCACCAACAACCCCACAAGGTAAAGAGTACTGGCATYACT
TTACAGATGAGAAAACTGAAGCACAGAGAGGTTCTATAACTCCTCCAAGGCCATACAGCCAGCAAATGGCGGAGCTGGGCTTCCAACCCCAGCAGGCTGG
CTGCAAAAGCAGGGCTGGGAACCAGCTCCTTCAACTGAACGTTCTTATGGTCTGGTCCTGTGTAATTGACACAGTGAGCCACCCCAAGGCAAGTCCCACC
CAAACTCACGGGCATGTAATGCCCATCAGGGAGCAGAACACCAGGCCCTTCTTTTCTACAAAGGCCTACATTGTCATGTCTCTTTGTTTCCTTCGCCTCT
GTCATGGCCCACAGGCCCACCATGGCGTTGTGTGCACAGGACGCCTGAAAAGAATGAAAACGAGGCTGTGCAGGGTTGGCAGGCAAAGGGAGAAACAAAT
GCAAAATGGAGAGGTGGGGATTAGGGTTGCTGCAGAGGTACCATCATCCATGAGAACGTGAAGTTAATAGCTTAAGGTGCAGGATGCCCTAACCCCGAAG
CTGTTCTTCACAGCTGGCTCTTCCTATAGACATGTGGGACCCCCTGCTGCAGGCCTGTCCCAGCTGCTTGGTGGAAGCAGCTTTTGCTACCCTTCTGGGC
TRTTGCGCAGGTTTCATTTATGAGCTCAACCCTGAACCTTCCCTGACAGCAGCRAGGCCTGTGTGCGTACCTAATTATGAAGTGACGGCCTGTCCCTGTG
AAGGTCTCAGGAGAGAGGCTTCCCAAGCTGTGAAGTGCTCAAACCACAGCAGAAAATAGAATTTAATTGCACCACTGATAATAAACCGGATGKATGAAGG
AAACTGATAACTTTCATCTTTTAGGCACTATTAATTTGCAGGATTATTTGTTAGTTATCTTCTGGGTTTACTTAAAGAGCAGTTTAATTCCCCAGGGCAC
AATCAGAATACCTTATCCCACAAGTTAGCAGACCTGGGCATGTAGAGAGTACTTTAAATGGAGAGTTRTATTGTTTTGTGTTTCCTTCCACAAAGSAACC
AGAGATGCTGTTCCTGGAGGAAACTTATTTAGAGGTAGGGACATTTGATAGGGAAGAGAGCATGAGAGAGATGGAGATTCTGGCTTCTGTCCATGCCAAG
TTTGTTCAAAAAGGTGGAATGGGGCATCATCCCATAAACTGTCCTTTAACCATTAGCCCAACTAACTCCAAGGATAACCTAAATCCAAATGGAGTAGAAG
TGCTCCTGGGTAAAGCACTCACACCCTAAGGACCACCCAGGAGTCACGGAGCTGTGAGAGGCCCTGAGTGCAGAAGCTCCGGCCTGTGGACTGGGGACCT
GCCTAGCCTCCTGGAGAGGTGAAATGCAGAGTCATAGCAGGGGAGGGAAGGAGGGAGGGGAAGGGAGGGAGAGGAGAGAAGAACAGAGGGGAGAGGAGAG
AACAGAGGAGAAAAGGATGGAGGGAGGGGAGGGGAGGGGAAGATGGAGAGGAGAAAAAGAGGAAAGAAAAGAGGAAGGCACAGGAGGGGAGAGGAGAGAA
CAGAAGAGAAGAGGAAGGGACAAGAGGGAAAAAGGAGCGAGAATGGGGGGGAGAAGAGAAAAACGGGGAGAGGAGAGTAATAAGAAAACTTCAAGTTGAA
ATATTCCAAAGGAGGCCTAGGGAGAGGGGTCAGATAAATTGTATAAAACACAACTCAATTAAGAGTTATTTTTTCTCCTTCCTTCCTTCCTTCCTTTCCT
GTCTTTCTATTTTTATTTTAGATTTGAGGGTACATATGAAGGTTTGTTATGTAGATAAACACGTGTCACAGGGGTTTGCTGTACATATTGTTACATCACC
CAGGTACTAAGCCCGGTACCCAGTAGTTATCTTTTCTGCTCCTCTCCCTCCTCCCATCCTCCCCACTCCAGTAGACCCCAGTGTCTGTTTGTTTCCTTCT
GTGTGTTCGTAAGTTCTCCTCATTTAGCTCCCACCTATAAGTGAGAACATGCGGTATTACGTTTTCTGTTCCTGCATTAGTTTCTTAAGAATTATAGCCT
CCATGGGCTTTTTTTTTCATATGCTTGTTGGCCATATCTATGTTCATGTCCCTTGCCCACTTTTTAATGGGGTTGTTTGGTTTTTTTCCTGTAAACATGT
TCAAGTTCCTTATAGATGCTGGTTATTGGCAACATCACCAATCATCAGAGAAATGCAAATCAAAGCCACCATGAGATACCATCTCATACCAGTCAGAATA
GCTATAATTAAAAAGTCAAAAAATAACTGGTACTCGTGGGGTTGTGGAGAAAAAGGAACACTTATATACGGTTGGTGGGAGTGTAAACTAGTTCAATCAT
TGTGGAAAACAGTGTGGCCATTCCTGAAAGAGCTAAACACAGAACTACCATTTGACCCAGCAATCCCATTACTGCGTAGATACCCAAAGGAATATAAATC
ATTCTATCATAAAGATACATGCACATATATGTTTATTGCAGCACTATTCACAATAGCACACACATGGAATCAACCTAAATGCCCATCAATGGTAGACTGG
ACACAATGCAGCCATAGCTGTAAAAAAGGATGAGGTCATGTCCTTCGCAGGAACACGAATGGAGCCAGAGACCATTATCTTAGCAAACTAACACAGGAAG
AGAAAACCGAATACTGCACGTTCTCACTTATAAGTGGGAGCTAAAAGATGGGAACATGTGGATATATAGAGGGAAACAACACACACAGGGTCCTATTGGA
GGGTGCAGGGTGCGGCGTGGGAGGAGGGAGAGGATCAGGAAAAATAACTAATGGCTACTAGGTTTAATATCTTTGTGACAAAATAATCTGTACAACCCTC
ATGACATGAGTTTACCTATATAACAAACCTGCACATGTACCCCTGAACTTAAAATAAAAGGTTTTTTAAAAATGAGGACTTGGAAAGGGAGCTAAATGCA
GTAAAAGTACGAAACCACAATGGCTCAGAGGTCCAGAATTACATAGGATATGTTTCTCTAAATTCTAAGAAAACGCTCACACCCTTTTTCAACCTCTTTG
AGCCTGGATGGACACACAACTGACTGAGCCTCAAGGTTGCTGTGGGCAAATGTGCCAGGCACAGGGTGAAATTATGTGAGAGACAGAGAGGAGACCACAG
CCCTTCCTGCTCAGCTCAGTCAAGATAAGGGTTGGGACCAGCCCCTGGTGATTATGATGACAGCAGCTATGATTTATTAAGCACTACATTATTAAACGCC
TCTCTTCTATGATCTTATTTAACCCTCTATACCATCCTACAAGGAGGACGTTACTATAACCCTATTTTACTGATTAGAAAACTGAGAGGACCAGAGAAGG
CAGTGCCTTGTAGCACAGTGGTCAGAACATGGGCTCTGGAACCAAATYATCTGAGTTTAAAGCTTGTTTTCTGAACATCATAACTGTGTAAACCTGGACA
GATCATTTCACCTCTGTTGGCTTCTGCATTCTCATCTGTAAGTCAAAAGCAATGGTAACTCTCCTCCTGGGGTCCTTGTGAGTTTTTTATGAGTCATTGG
ATGCCCGAGTCACAGTGCACACCTACATATGTTGGTTGCTGCTATTATTGCCATTATTGCTGTTTATTAGTAACTGGCCCGTGATCACGTGCCTGTTGAG
GGAAGGAGAGACACTTCTGGCCCAGGTCTTCCTGACTTGGAAGCCTGTGCTGGCAGCCGCTGGGCTACAATGGAACTATCACAAAAAGCAGAGGTGGTCA
TTGACTTTGCAGAGAGTTTTGTATTCAAGGGAGGAGAGATCACACACACTTGAGTGGTGTGGGACATCAAGAATTAAGACTGTAGAAAGATGAATGGTCT
CCAATGAACAGATAACGTTCAACCAGTAGAGATGGATGGAGAGACCCCTTCAGATACTAGGAAGAAAATGTTAGCAAGGGCTAGAGGGRAGGTGGACGGC
AGTATGTAGAGCAGTGAGAAGCGTGYCTTGGCTGGGGTGGAGGCTGGGAGCAGGGATGAGTAAGGGTAACCTGAAAAAGATAGCTTGAGGCTATGTGGAG
GGGAGTCTACAATTTTGGATGAGAGCTTTATCATCGACTCTCTGAACAAAGAGGCTTCAAGGGAGTTTCTAGAGTGGGAATGTAACATGATTGTCAACTC
TGCTCTCCCACAAGTCGGAGCCGCTTTTTCTTCCTCCCTTCTCTTCAAAGCCTTTGCCCAAAGCATTGTCTTCTCCAGGAAGTACCCAACTCAGCCTTGG
AACTGGAGTTTCCTAAAAGCTAGTTTCCAGCTGTTCTTACCTGATTCCCCTTTAGATCAAATCTAGGCCAATCTGGAACAATACTGGGCTCACATGTCTG
AATCCAAGTCACCGTCAACCAAAGCAGGCCAGTGGCTTCCTGTTTGTGCATCCCAGTGGACCCAGTCGTGGATTTYACTGGTCCCTGTGGTGATAAAGAT
GGGGCCTGGGCTCAATAGTGCTCCCAGTCAACCATTCCCAGCACCCACCATGTGTGAGTCAGAGTGTGTGATCCTCACATGGAAACAGGCAGAGAGAGAC
AGTCATTAAACTTTAATGAGCACACGTCTCTTTCCCCATGCTATCAAAATATTTTGATGAGAAAAGAAAATTTCATTACAATCAGACATAGAATTTTTCT
CTGCCTTCCCATGTGTTGCTTGTTCTCTCTCTCTCTCTCTCTCTCTCTCTCACACACACACACACACACACACACACATCCTCTCTCTGAACTTCAGTAT
CCCCTTTGCAAAGTGAATACACTATGATTATACTGCTCCTTCTATTAAGTACAGTCACATATAAAACACTGCACTGGGGGGATTGACATCTGTAGCAATG
TTTGTGAGAATGCATGGCCCACGTCCAGACCTAGTAGCTGTTGGTAAATGTTCTTTCTCCTCTGTAGTCCCATCAATGCATGGGGGTTGCTTAGGGCAGC
ATGTGGGCCACTGGCCTGAAGTGGGCCAGTGGCCTGAGTGTGGCCCTCACCTAGTGGCATGGAATCTCTTGAATCTCTGGTCACCAGGTGTTGAGTGTAT
GCAGCATTCCCTGTGGAATGGGGCCTTCCTCATGCAGGGAGGCCCGCCTTGGAGATCCTGGAGTAAGGCCTAGGGGAGAGAGGAGACACTCACATGTTCC
TCCAATGATCTCTACTCAGTACCTGCCATTCTAAAGCAGCTCAGGAGCCAGCACTTGTGTGGTATTATCATGTGGAAAAAGTCCTGCAGCCTTTGCAGGA
TGTCAGGAAGCACCAATAGAACTAATTTTCTCATGTGAACTAGGAACAATTTTGCTAGGAGAAAACATAACCATTTTTTATGTGTGTGATTTTTAAAGTT
ACAAGCATAAGCAAACAGATGTCTCCAAATTTTTCAAAAAAAAAAAAAGCTTTTAAAATGAGGACAATTGACTGTTTCCAAGAGTTTTTAAAAGTAAGCG
TTTGCTCTGTATTTATTTTGTCCATTAGCTGAAAGACTTTCTAGTTTTTATTTATCTCTTTATTTAGTCACTCTTGCATTCATCCATTCTTCATATAGTT
ATTTGGTGCCCACTCTGTAAATAAATTGTAGCAAATGCCTAGAGCTTTCAAAACCATTATCAGAGAGGCCGGGTGCAGTGGCTCACACCTGTAATCCCAG
CACTTTGGAAGGCCAAGGTGGSTGGATCACTTGAGGTCAGGAGTTTGGGATGAACCTGACCAACATGGTGAAACCCTGTTTCTACTAAAAATAAAAAATT
AGCCAGGCTGTAGTGGTGCGTGCCTGTAACCCCAGCTACTCAGGAAGTTGAGGCAGGAGAATCACTTGAATCCAGGAAGCAGAAGCTGCAGTGAGCCGAG
ATCCCGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCAAAAAACAAAACAAAACAAAAGCAAAACATTATCAGAGAAAAATTCAACAGTGAGAAC
ATTTTCTTTCTTTCCTTTTTTTTTTTTAGATGGAGTCTCACTCTGTCCCCCAGGCTAGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTTCGTCTCC
TGGGTTCAAGCAATTATCCTACCTCAGTCTCCCAAGTAGCTGGGATTACAGGCGCCCACCACCACGCCCAGATAATTTTTGCATTTTTAGTAGAGACAGG
GTTTCACCACGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGC
GCCCGGCCAACAGTGAGAACATTTTTGTTGCATTTTTCTGAAATGGGGAAAGGTTGCGCCACTTTCTTTCAGCACTGGCCCACCTGGAACAGCTCCAGGA
GTGCAGTTGCTCTGTTTTAACCTGAGCTAACCAGCACTTACACAGAGCCTGGGGTGCTCCTCTTGCAAAGACAGTGTACATGGGGCCTGTGAAAGAKGCT
TAACCCACAGAAATCGACTTCAACAAGCAGAATATCTGCATGACCAGCACTGATTGGTGGGGAATTGTATAGATAACACAAGATCCATGGGAAGTATCAC
TGTTGACCCYGGAGAGGAGGCAGGGACCTTCCTCTGGGCGGCTTCCCTCCAGGCCAGCACTCACCCCTGTGCAGATTGTGCCCATCTGCAGGTGGGAAGG
AGACAGTGAGGGGACCCAGTCCAGCCCACTCGCCAACCATCAAGCCCTGCAGCCTGGCATGGAGCCACATCCCCCCAAAAAAGGGGGTTCCCTTTTCCAC
TTTGCACAGTTGCATCCTGGCTCCAGCCCCATGTCCAGATCTCTTCCAACTTGGGACACTAGCTTGTTTTTTCTTAACAACCATCCTAATGTTGTGTTCT
AACTGGAGCTTTTCATGAGATGCCCACAATTTTTACCGAGGTTAACAGTAGAATCCTCTTCAGTCTCCCTACGGCTCACACCCTGGAAACCCACCGGGAT
GGACCAAGGAAGGGTGGGTGGCTGTGGTGGCTGCTGATCTCACTCCTCCCACATCCCATTCATACAACTTTATCCCAGAGGACACATTAAAATTGGGGAA
ACCACTGGGCACGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACAC
GGTGAAACCCCATCTCTACTAAAAGTACAAAAAATTAGGCAGGCATAGTGGCGGGCACCTGTAGTCCCTGCTACTCGGGAGGCTGAGGCAGGAGAATGGC
GTGAACCTGGGAGGCAGAGCTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCGTCTCGAAAAAAAAAAAAAGAA
AGAAAAAAAGGGGAAACCACTTGAGATATAATGAGTGCCCCAAACAAAGTACATGACAGTGACTGGCTACACTGTGAGACTTAACTGTAGTTTCATTTAG
TGCTGTAAATATCACAAACTTCATTAAGGTGGAAAATGGGAACAGACTATGTGTTCTAATTATTGCTGAACCCTGACCATTTTCCCCTCCATGTCCACAA
CCGAGCACGTTCTCTCTCCAGCCTCCTGYRCTCTCTGTGGCTCCATCGCACTCTCGTCACCAAGATTCACCCCTGCCCACACCCACACCCTTCATGGGGA
GGCCGGGGATGGGAACCAGGAGGTGGGCTTCTTCACCTCTCCCCTTTGTGGCTCTCTTCTCTAACCCCTGAGAAACCGAATCCACGTCATTCTCCATAGA
AGACCCTATAGGTGAGGAGGTTCTCAGGGTCACCCTGGCAACATGTTCTCCCTTTAAACCTCATATTTCATTAATGCTAGTATGTGTCAGATGCTCTGTT
GTATGATATTACATTGAGTCACCCCACTAACTGCATAAGAAGCTGAGGCCCAGAGAAGTCAAGCGACTTGTCTAAAAACTCAAAGTGGCAGCCCCGGTCT
TCAGCCCCTGCATCCAGCTTGCTCTCCCTTCAGCTTGGCCTGGAATAGCACCACTGTGTGCATCCCAGTCACCTCAGTTATGTCCGTGACACTGTTTCAG
GTTATTTGTGGAGTAAATCAGAGGTATCTACCTATGAGTCCTGAGGGACTCTGAGCAAGGAAAGCCTGCTTACCCCAGGGGACCCTAGGAGGGGACACCT
TCAGCCCTGCTCCCATAGCTGACTCTCSATCCCCTCGTGGCTACTTTCACAGAGGATTGTGGCCGTGGGACCAAACCGTGGGTGCCCTTAGCCAGGATAG
ATGATCGTAAACTATGTCTATGAGTGAGCCCTCCTCATCGAAGGTGTTCATTTCCATCTCTSTCTTCAGGACAGCTACAGAACAGTRCACATTTTAGAAT
GAAAATGAGGAGTCACTGGTAACTGCGGTACCTAAAACATAATTTGCTCTGTGCATTTCATGTTTGCTATTTTTTTGAATCTTAAAAAGAGACACACATG
AGAATAACSAATCTCACATTCCAGTCCTGTAATCCCAGTATGTTTGGGCTACTGATTCTCTTTTTAAAAGTGGCATCTYTCATTTTTAAAAGAGAAAATC
CTAGATAGTGACTCCTATTATCATCAAGTAATATATATCAAGGCCCCAAGGCTAMCTTGTCACATTTTACTCTGGCATAGAAATCTAATTCCTTCTCTAT
AAAGTCAAAAAGAGAGAGGTGAGTTATAGATGTTTTCTAATTTAGTTYAGGGTCAACTTATAATCCTCGTCCTCAACTGATGGTTTAGCGATAACTTAAA
AGGTGATGCTGCAAATGATTCTTTGCTGGATTTCAGAAAATAAAGAAGCTATTCCAGCAAAAAAAAAAGTTTCTATTTTTACCTSTATTCTGTCAGGGAT
CACAGTATAKGTAGTTTTGAAGATGAAWGTTTTAGAGTCAGAAAGACCTGGATTTATATCCAACTTCCGCCAGATTCCTAACTCTGTAGGCTTTTTATTT
ATCTTCTAAATTTCAATTTCACGTAAACAGAATGGGATTAATAATCATGTCTACCCCCAAGACCATAGGGCTGTAGAGAAGATTAAATAAGGTAGTGTAA
GTAAAYTGATGAACAGAATGCCTGCATTACTAAGTAAACACTAACTAAATAAATGTAAGTTACTTGTTATTATTGTTGTCATTAACCAGAGTCAGGATCA
CGTGTTGCTGAGCAACGGCTATGGCCCCAGACTGTCTACATTTGAATCTCTCCTACCCTACTTACTAATGGTGTGAACTTGAGCAAGTTACTTAACTCCT
CTGTGCCTCAGTTTCCTCATCTATAAAATGAAGACTCCTAATATTTACCTCTTAGTGTTGGGAGGATTAAGTGAGTTGATAGAACTTTCTAGGGTAATGG
GAACATTTTAAATCTGCTCCATCCAATGCAGTAGCCACGAGCCATATGAGGCTTTTGAGTCCTTGAAAGATGGCTCGTGCAACTGAGGAACTGAATTTTT
TACATTTCACTTAATTTTAATTAATTTAATTATAAATAGCCCTAGGTGGCTAGTGGCTACTATATTGGAAAAATATAGACTGAGAACATTTCCTAACCAC
CCTAGAACCATTAGCATTGGTCAGTAAGTGTTCATCTAAGTGTCAGCTAAAAGCAGGGGCAGTGCCTGTGGTGATGAGCAGAGTTTGCAAACAAGAAATT
GCCCATTATCAAAAATGATCACAGGCCAAGGGGGAGGGAAAAATACAGTTTCCAGAAATACGTGCAATACATGATTGAAAGTACTTGAAATAAGAGCTGT
TAGGTGTGCTAATAAATCATGTATTTCAAATTGCCAACCTCACTTATTGTTACTCTTTCTCAAACTTTTTCCTTCATTTCAGTTTCAATTTTGAATACAG
TTATGTATTTTTAAAGCATATGCTTAGTGGAAGATATCTTGTGATTTCTAAAAAAGTAATTTCTTTCCAAAAAGTTTATATAAGAGAAAGAGAGTATGTG
TGTGTTAGTAACTTTCYTGTTTACCAAAGAATCAGAGTAGCAGCTCATTATCATGAATTAGTATAAAGGACAGGAATGTCAATATCAGTAAGTGATATGT
AACTTGAAAAAGCATAYTACGGGTTGATTTTTTTAAAACAGAGAGAGATATTTTCAAYAGAATATTGAGAAAAACTTAAGGCCATCAAGTATATGCAAAA
GCATTTGACGTCACCAAGTAAGACATATGCTTTATTCTTTTCTCTGGCCCAAGTAATGAATACTCTTCTCTAAAGCAAATACACATAAAAGTTTCTTCTT
GAACTAACCTTCTCTAAATTGCCTGAAGGCTCCCTTTATTTAAGGTTTTATGAGAGCAAGAAAATGAAAAATATGACTGYGAAAATGAAATGAAAATATG
ACTATGCAGATATGGAATTATGCTTTCAGCAATAAGGAAAAGGGAGCTTTGCAGATTCCTAAAATAATGTGATGCAAACAGATATTTTCTCCCCAAATAG
TCATTGTTCTCAGCATTTTGTAGGTACCATARCATGGTGCATCACTGAAATCAACACATAACGTGAAAACACTATGTGTTGGCAGCATTTTCCTCAAAAG
AAGCAAGGAGAGGGAGACACCTYCAGTTACATTTCCCAAGCAGAACACASTGATGTCGAGCATTGGGTAGGTTTTTACATTTAGTTTGGTTTGAGTGTCT
AAGGCTCATTATCATCAGTAGTCAGGGACAGGAAGTTTACATTCTCGGTGCAGGAGACAAGTGTCAGAAAAGGGACACTGGTCTTTGTTAATTGCAAAAG
AAACACACTACAACCAGAGAAGGGCTTCTCCTCTCACCCCTCCCCATCCTTCTCCCTGCTCCCCACTCCAGCATCAGGGAAATCTGGGCAGAATTGATAC
ACCCATGCCAGCATCTAATTACAGAGACAATACTGGAAGCAAACTGATTAGGCATGACATATGAAATTACCTGAGAAGGTTTAATGTCCTGAACATATTC
AGATCTGAAGCCTATCTATGATGGCCCARTTGCATGGGCCAGTTTCTCAAATACTAAGCATTCCTTCTCACTGTCATCAGTGACCTGGAAGGGTGTATTT
CACTTTCCACAGCGTAGGAGGCTTCATGTAGAGCCAGTCTACTGGTATGGRAAGGGTTCTTAATCTAGGGTTCAYGGGCCCCTAGAAAACCATGTATGGA
CTTCATAGGTCTATAGTRCATCCCCTAAAAATACATGCCYATATTGTATATATCTTGTATTTGTCACTGTGTATGTCTGTGTAGAGGAAAGGTCAGTAGC
TACTATCAGATATACTTTTGAAGGGGCTTATGCCCATCCTTATATAGCATACCATGGAGAAGACAGATGGCTCCAAAATATTTTTTCCAGAAAGAATAWA
GTGATCATAGCAAACACTTTTGCCAATAATGTCTCTGTGGCAGCTCCATCTTCTTCAGTTTAGAGAGCTTTTGTAAATGCTATCTTTATTTTGTATTTTT
TAAATCCAAAGATGTTTTTGAAATGTTTCTTAATGCAGGAAAAAATATATTGGACACACTTGAGAATGAAATCAGGGACACCATGTAAAGTATTCTGAWG
TATTGCTACACCTTCAATATCTAAATTGATTGAGGCAGGGCCTCTGGGAAGAAAGTGAAAAATTCAGTCTGTCTTCCACATGTTTTGTCTATACCAGTGG
TTTCCAACTGGAGGGCAATTTTGCTTACTAAGGAATATTTGGCAATTGCTGGAGACACTTTTGGTTGTGATGGCTGGGGTGCGGGGCTGCTCCTGGCATG
CAGTGGGTAGACACCAGGGATGTTGCTTAACATCGTACMTGGCACAGGACAGCTCTGCAACAAAGATGCATCCAGCCCGATATGTCAGTAGTGTTGATGC
TGAGAAGCCCTGATCTAGATCATGATTASTGTTTTTGCCACAGCCTTCAAACCAGGCTTCTCTCTCCACACCCCATGTGCCAGCCAGCCTAAAAGTAACT
TCTGGTTCATGTTCTAGTTTGCCTGTCATTGAACCAGTCTCCTCCCCATTAGGCCTTATCCATTCTCAGTCTTGTCAGTGTGGCTTCAAATCCAATGTTG
CTCCCACCGGTTTGAAAATCTCCCTTACTTTCTGACTGCCGTTTTTTTTTTTTTTTTTTGGACGTCAGTACGAAACAGTTTTGGTTGTCTTGTTATTGCT
GAGTTGTTGGCTTTTCCAGCTCCTCTGACCTCAGAGTAGCACTCTATCTTAGAGTTCAAGATCTCCAGTTAGACAGACTTTAACTTCAATCCCACCTTGG
TCATTTGGCAGCTTCAAATCCTCATTCAAGTTACCTATTTTCCTGAACCACAGTTTTCTCTTTTATAAAATGAAATGCCTGGCACCAGTGATCCTGCCCT
AGAAAACCTCCTTCTTCTTAAGGGAATAACTATTATTATAGTCTGATCGAGCTGATACAAATATAGCCCTTGTGTTGYGAGGCTTATGTGAGAATATATG
TGAATTATGGTTGTCAGCTGGGGCTGGTTCTTTGTAATCAACAGGGGTGCCTCAAATAAATGAATTACAGGATCCACCCATTACCAGACTGAGGATTGCT
GGTTAAAGTGCTGGACTCCCTGCCTGGCACACGATCCATGCTGTCTAGGTGCACCTGCTGTTGTTGCTACCATGACCATCGTCTGCCYCTCTCCTAGTTC
CCCTGAAYCCAGCTCTCCACCACTGCCCTCCAGGAGATGCGGATTTAAATGTAACAAAGTTTAGGGAGTTGGCTGAAAGTTTCGTTTTTCTTATAGACTT
AAGAAATCCCATAGCCATAAATTTAGTCACAAAGCATGGCTTGATGAGTAAAGCCATAAGAGTGTATTCTTCTTTTAATCGATATATAATAATTGTACAT
ATTTATGGGGTACATGTGATTTTTCAATTCATGCATACAGTGTGTAATGATCAGATCAGGAAGATTTTATTCTTGACTGTAGCATAAGTAAGCAAGGGTC
CTCTTCTCTGGGCAATGTCCTTCCTCTTTACGTCCATTCTTAAAAACGSCTCATTTCCATATATTTTCTCCCATATTATATAGTGGCTAAAGRAACATGG
AATAGTAATGGCTGTGTTGTCATMTGGAAGATCCAGACATCCAGTAAATTCCATTTYTGAGCCATTGACTTAATTTAATAAATATTTACTGGACATTGGT
ATTGAAGTACTAAGTATTGGAGTTAAAAGTGGGCTGAAATATAAGGTGAATAAGACAAACTACCCAGAGCATTGCTACCCTAAAAAGCATCAACTGTAAT
GCATYGGGCCTTTGCCATGTGCCTTGCAATATGTTTGCCGTTTTATGAGCATTTTTCATTCCAAACCTTTCTTGCAAGGGAAGAACTATTATTCTTATCT
TATTCCCAAGTTACTTAGAGCTTATACAGATCCATYCATTTGGTATACATAGCTCCTAAACAAACAAACAAGTCTTATAGCCACCTGGCATTTTGCGGCA
CATTGCGTTTATGTTGGAAAAGCATATGGTTCTRAAGTGTGTGGCATACAGTAAACACAGCTTAAGGTATAGTAATAATAAGAGCATTCTACATAGATCG
CCCCATAAAAGTGTCAGCCCATTTTAAAGACAAGAAAACTGAGTCTCAGAAAGCCTAAATCACCTGAGTCCCCACTGTTAATAAGTGTTGAACCTGGCAC
TGAGCTCTGGCTGTCTCCTGTGGTGTTCTTCCAAATACCTGATACTTCTGAGAGTCATAATAGATCAACTCACCAACAAATAACCTTTTATTTTCCTGGA
CTCTGGTACTGTGGCTGTAGAAGAAAAATCTCCTTTCCTTATTTTAGTATCCAGGTTCCTCTTCATGTTCAACAGTAAGGACTCCATCCTTGGCATATTT
CTTGCGAATGTGTCTAAAACTAAGAAGGCACATGTGCCCTGAAGCATTTTCTACTTCTTAAACTCAGGAATCCCCTTTGTTCCAGCAGGAAACTTGATGC
CTATCCAGAAGCAAAGTTCACTTGGCCGCCCTCACCGTGGAAACGTGTTGCCACACCAAATGAACWTCCCCCTCCTGCTGTCAAAGAGCAGTCAGTGGCC
ACCGCTATTGACCTGAGCTCTAATTAGKCTGGTTTTATAATGAGGAAAAGAGTGYGATTCTAATTAGTAAATTTCCATCTCTTTCTCAATAGGTATCCTC
CAGTCAAAGCAATCAGCTATCCTCATCACACTGGTTCCATTGCCAAAAAAATAACTGTATCATAAAACTCTAGTAAAAGTGATGATGGTTAAGACAACAA
GAGAGCAGAACGAGGTTTTATTTGSTGCTAATGACCTGCATTCTCTCTCTTAGGTCCGTGGCACTCAGGTAGTTGGTTCTGACATGACTGTGACARTTSA
GTTTACCAATCCTTTAAAAGAAACCCYGYGAAATGTCTGGGTACACCYGGATGGTCCTGGAGTAACAAGACCAATGAAGAAGATGTTCCGGTAAACCTTG
GGTTGGGGAGACCGGGCAGGCAGTGCAGRGCTGTGGGAAGCTTTCTCTGTGTGTGTCTTTTCCAAACATAGATCTGCTCCCCARTGAAAATGTCTTGGAA
GCTGCCTCCTCCTTGCCGACCATTTCTGTAGGGCGTGGAGTAAAACTAGGGTTGGTTTGACCAGCACTTTCATCATTTAATCCTTAAAGACACCCTACGA
TGTAGATACTGCTATTRTCTCCCTTCTGTAGCTGAGGAATTTGAGGCTTTGAGAGGTTGACTGGTTACACAGGTTCAGTTACACAGTTTATGAAAACAGA
GCCAAGATTCAGACTCAGGCTGGTGAATTCCAGAACCCAAGTTTGAACCACTTTGCTGTACTACCTACTCACGTATGGTCTCTTCTCATCTTTATTGAGC
TCCTACCACGTGTCAGATATTATGCTGAGAGATACCCCCTTTTCATGGGTGCTTTGTCTCCAGCCTCACCTCACAGATTTTACCATCCCAATCAGTGTCT
ACAACTGTTGGATTCAGGTTTTTTTTTAGTTGAGCCTAAAGAGCTCTAGATGGTTCCCCATTCAGGGGACCAAAGACAACCCCAGGTTCTGTAATGATAT
GAATGAAACTCAGCCTCTTCCACACACAGGCCACTTCAAATTGTGCTTGACAGGTCTCAGTTTCTGTGACTTCTACTAACAAAGAGTGTGACCCAACAAG
ATAACCCATTCCATGGTCAGGTARCTCTAACAGTAAGGAAACAKGTTTTTCTACCATTTGATCCTGCCAATGATCCTAATTCTGCCATCTGGACTGACAG
AAAGTAAGGCCCATCTCTTTTCCATCTGATGGTTTGCAAATGTTTGCAAACAGCTGTCTCATCTTCCTTGAATCTTTTCTACCTGGGGACAAATATCTGT
CCTGACTTTATTTYCCTCTCCTCTAACATGGTTTCAGCTCTCTCTCTCTCTCTCCCACACATTCCAATTTGTCACTACTCCTCTTAAAGTGTGACACCCA
GAATGGATCCCAATCTTTGAGGTTTATTACTTTCATTTCTACCACAGATAAGTCCTTGTCAGCATCAATCAATCTAGCACATTTCCTGTGGAGTGACCTT
CTAAGGCATAGAAAGGGAGGTAGAGGACTTTGGAAACTGCCTCATGACCAGATATGTCAAGAATTTTCCCGACACCCTTTATGGAAGCGACCCCACTCTG
GAATCTGTGGGATAAATGCAAGGCCTCACTTATACCCTCTGGGGCAACTTTATTGCCCATAAAGGGCTCTCCGCATTTCTTTCAAATTACAATGCTCRTA
GCTTCTGCATCTCATCATTTAAGAGATGCCTTATTGCAGATGCAATAAACAACAGAGAAAATAATCTTAGTGCTTTTGAAACAACGCAAGCACAAAACAT
AGCAACCTTCCTGTGCTAACAGGAAAGTTACAGGAAAAAAAAATAAGTAAATTAGTAATCAACCCCAGCTACATAGAGAGGTCAGCAGCCATACCCCTGC
TTTCGTCAGAAACGACAGTCTCACTCACCCATTCTCGCACCTTCCCACTCAAATCAGATGCAAGAATCGTTCAGGCAAAGTGAAACACGTTTCCTCTTCC
ATACAGCCCCCTGCTGTATCCAACTTTTTCCTTCCCAGACAGTAAACCCACAARCTTTATCTGAGTGTACYGGAAACTTCTCTATCTTTACACCTTGGCT
ATCCCCCTAGAATTCCACCTTGGTCAAGGCCAACACATGAAAAAAGACACTGTGTGTCTTAGACAAAAGATGAATTATTACACAGTGAATTATTACACAG
TGCAATGACCCACTATTTGGGAGGCCTCAGGCTCAAAATAGGTTAAATCTCCAGATGGTTTGTTTATTGTTAATGTCTGACATTGGAGTGGAGCAAAGTG
GAGTGAATCGGGARAAAGGATGGATAAGGCCAGTCCCTTCTTGGACACAGATGTCCTGCCCACACACTGGCTTAAGGTACTRTTAGTAGTTACTGCAACA
CGTAAGTCTAGGCAGACAAGTAGATAGACAGAGAGCTAGCTGCTCTTAGTCAGTTTGAGCTGCTGTAACAGAAATGCCATAGACTGGGTGGCTTATACAA
CAAACATTTATATCTCACACTTCTGGAGTCTGGGAAGTCTGAGGACAAGGTGCCGACCAATTCGGTTCCTGATGAGGGCTCCCTTCCCAGCTTGCAGATG
GCTGTCTTTTCACTGTGTCCTCACATGGGGCAGAGAGAGGGAGGGCAAGTTCTCTGGCACCTCTTCTTCGAAGGGCACTAATCCCATCATGAGCCCCACC
CTCATGACCTATTCTAATTTAGTTACCTCCCCAAAGCTCCATCGCTAAATGGTATCACACTGGAGTTTGGGTTTCAACAAATGAATGTGTGAGGACCACA
AACATTTAGTCCGTAACAGTCCTCAATCTCTCTTTTTAAGTTTTTTTTACTGACACATTGTAATTSTACATATTTATGTGGGGCAATTTGATGTTTCGAT
ACATATATATGTTGTATAATGATCAAATCGGAGTATTTAGTGTATCCATCACCCCATGCATTTATCATTTCTTTGTGGTGAGAACATTCAAAAGCCTGTC
TTCTAGCTCTTTTGTAATATACAATACCTACTGTTAATCATAGTTACCTTATCATGCAATAGAACACCAGAACTTATTCCTCCTATTTAATTGTCACTTT
GTTCTCATTGGCCAACCTCTTCCCATCTTCCCCTTCATGTTCTCCTCCTCAGTCTCTGGTAACCACTGTTCTGCTCTTTGCTTCTATGGTATAATAATTT
TTTTTTTTTTAGTGTCTACATGTGAGTGAAATCATGTAGTATTTGTCTTTCCATGTCTGGTTTATTTCACTTACCATGATGCCCTTCCTCCAAGTCTAAT
TCATGTTGTTACAAATGGCAGGATTTTATTCTTTTTATGGCTGAATAGTTACAGAAACCCAGCTTCAGGGTGGAATATCTCCCAGACAAGAGAAGCTTTA
TTTCTCAGAGACAGTCAAAACTTGGGCTAAAAATCATGACATAGAAAACATTTGTTATCTAAGATGGGCTTACAACTTGGAGCAAGTGCCACTTTCTCTG
TTTACTCCTCACTCCAGCACACACCTTCACAACCAAGACCTGAGCCAGTCCGTGCCCACTTCCATATGGTCAGATAATTAGAAGCACTCCACTGTGCCCT
ATGTTGCCAAGATCTGATCTAGGAGCGCCAGATCCATGTAACAACTTGGACGCCTAGAAAGTGCAATTCCACAAAACCAAAATCCTTTGCAAGACCGTAT
TTCTTTCTAGAATACAGCTCTTAAATAGTTGGGGAATCACCACCCCCACTCATTCACCCACACCCTGCCAGATGTGGTGTCTAGAAGGCAGGGGTTATTG
AACCCAAAGCAGAGGGCCTGGAAGGTGAGGAGCTGGTAAACAGGGAATTGGAGCCAGGAACAAAGAAGGCGGTGCTGTGTCTCACCCCTCACTCGCAGTG
AGCCAACTCTACTCTGAAATGGTTTATCTTCCTGCTCTTCCCCCACTGCCTCCGGCCTGTCTCAGATGTGCAGAGGTTCCACCTCCACAGACTCTTAACT
TTCTGCACTTGATGCTTCCAGAGCGTCAAATAATTTATCTTCCAGATTTATTTTGCTCTTTAGAAAATGATCCAGTTCAATATGTTATTTCAAGAGAAAA
ACTCCCCCACTTTGTGATTTGGGCTTAAACTTTAAGTTTCTCAAATAGGACAGAAGCTAAGGTCTAGAMGCACAGAGGACAAACCATGGGCAGTTGCAGT
TTATTGTAATAATAATCTYATTTGCCTGCGTGCATTCAAGATGATAAATGGCCGGTATCTCCTGATGGCTCAGCACGTTACTGAGAATCGTTTATCACAA
CATCCATCCCCAGAAAATAGGATTACTCCAACATTGCTCCACTTATCAAAATACTTTTTTCTCTGTTATGAATTTATCTGTATGTAAAATAGCATGCATA
CGTATCTTCATGTATGAGTATTTTCATGTATGAGTTTTTTCGTATGTACACATCATTATGCCGGATGGTTTTATGAGTAAGAGAAAATGATAAGAGGGGG
CTAAATACTTAGCTTCTATTTGAGGTGGTTRTCTACAGTACATGGTCTCAGGTCGGGTCCTTAACCAGGGCCACTGTTTCACAAAGTGCTTCTGATTGAT
CACTTGGGGGAACCAGAGGAGAGAGAATGAATGGATACAGGTAACAATAGCACAGCTGTTGAGAAATAAATATCCCAAACTTATATTGGTATTGAATTGA
GCACTGAGAATTTTCTCTCTGCATACAGGCAGGAGAAACTTTCCTAAATTATCTTGCAAAGAGTTCAATGAATCCTCCATGAACACTTCCAGGACACTCT
TATTACTAAGTCAAAAAGTATCTTTCCTGCTTGAGAAATAAAACCTATGAAAAAGTAAGCACAATGGTCAGAAAAAGCCTTTTCTTCTTTTCTTTTTTTA
TTTCTATAGGTTTTTGGGGAACAGTTGGTGTTTGGTTACATGAATAAGTTCTTTGGTGGTGGTTTCTGAGACATTTGGTCACCCATCACCTAAGCAGTAT
ATACTGTAACCATTTTGTAGTCTTTTATCCCTCCCACCTTTCCCCTGAGTCCCCAAAGACCATTGCGTCATTGTTCATTGTTATGCCTTTGCATCCTCAT
AGCTTAGCTCCAGCTTATGAGTGAGAACATAGGATGTTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATACTGGTCTCCAGTTTCATCTAGGTCACT
GTGAATTCCATTGTTTCATTCCTTTTTATGGCTGAGTAGTATTCCATGGTATATGCATACCACAATTTCTTTATTCACTCATTGATGGGCATTTGGGCTG
GTTCCATATTTTTGCAATTGCACACTGTGCTGCTATAAATATGTGTGTGCAAATATCTTAGAAAAAGCCTTTTCTTATAGAACATATGGTGTACACTTTT
ATGAAGTGCAGTGAAGAGGAGCAGAAAGAGTATGAATATGGGACTCAGAAAAACCCGGGTTCAAATTTCATCTCTGCCCATTTACCAATTATGTGATCTT
GAAAAAGGGACTTCACTGGTTACCTTCCATTTTTCTTGATCATAAAATCTGCTGAATAGTATCTGCCTCAAAGAACTGTCATACATATAAAACCTGAATA
TAATCTCCCAAGGTTTATAGGGGAGGCTATATGTGAAGCACCCCAGAGAACACTAAATCTCACCAACCCTGATTAGTCTCAGTCTGCACTGATGTGGGCT
TGTTCGTGACACTCAGGAAGACTTCAGGGCAAAGGCTGGGAGGAAGAGGAGAACACTAGAACCATGAAAGGCTATGTCATTAGCCGCATACATTAGGGCA
TTGGCAACAAATGGTAGCAGAAAGTTGCATAGGTGGAGGGGCCCAATTTGGTGGTTGAAATAGGAATTTGAATTACAGAACATGAAGATTCTCAAAGTCA
AATGGCAGCAGGCAGGGCTATATTCCAGATGCTGAGCCTGGGMACAAGGTCTATCCCAAGGGAGTTGGCAAAAGCTAATTCGAGTGTCAGGGCCTCAGCA
AAGGCAGCTGGGGGATTCAYATAGGACTGTAATTCCAGGAGGAAACTAGTGGCAAAAACTGAGCTGAGGCTCAGAAGATCAGTCACATAGATAAGGCTAC
TATGGAGGGCTTGGRGACAAGCTAGAGTTCAGYTGATTAATGGTTGGATGGGAATCAGCCCAGCTCCTGATGGCCACTGGGAGGCTGGCGGATGCATCCC
AGTGGAAGGAACCATGACCCAATAAGACTGTCAGTGACAGGTTCTGCAGAGCTTTATGTGGGGGCCTCATTTGGGGCATAACTTGCTGAATCAGCCAGTG
AGAGTCTTCAGTGTCCTAAGCACCAACTGAGAGAAAGAAAGCAAGTGACTTAGGCAAGAGTTTTCATTGCTTCCTGATCAAAGTGGAAAGCTGGATCTTC
CAACCTCTCCTCTCTTTTCCATCCTTTCAGTGAAATCCGGCCCAACTCCACCGTGCAGTGGGAAGAAGTGTGCCGGCCCTGGGTCTCTGGGCATCGGAAG
CTGATAGCCAGCATGAGCAGTGACTCCCTGAGACATGTGTATGGCGAGCTGGAYGTGCAGATTCAAAGACGACCTTCCATGTGAATGCACAGGAAGCTGA
GATGAACCCTGGCATTTGGCCTCTTGTAGTCTTGGCTAAGGAAATTCTAACGCAAAAATAGCTCTTGCTTTGRCTTAGGTGTGAAGACCCAGACAKGACT
GCAGAGGGCYCCAGAGTGGAGATCCCACATATTTCAAAAACATRCTTTTCCAAACCCAGGCTATTCGGCAAGGAAGTTAGTTTTTAATCTCTCCACCTTC
CAAARAGTGCTAAGCATTAGCTTTAATTAAGCTCTCATAGCTCATAAGAGTAACAGTCATCATTTATCATCACAAATGGCTACATCTCCAAATATCAGTG
GGCTCTCTTACCAGGGAGATTTGCTCAATACCTGGCCTCATTTAAAACAAGACTTCAGATTCCCCACTCAGCCTTTTGGGAATAATAGCACATGATTTGG
GCTCTAGAATTCCAGTCCCCTTTCTCRGGGTCAGGTTCTACCCTCCATGTGAGAATATTTTTCCCAGGACTAGAGCACAACATAATTTTTATTTTTGGCA
AAGCCAGAAAAAGATCTTTCATTTTGCACCTGCAGCCAAGCAAATGCCTGCCAAATTTTAGATTTACCWTGTTAGAAGAGGTGGCCCCATATTAACAAAT
TGCATTTGTGGGAAACTTAACCACCTACAAGGAGATAAGAAAGCAGGTGCAACACTCAAGTCTATTGAATAATGTAGTTTTGTGATGCATTTTATAGAAT
GTGTCACACTGTGGCCTGATCAGCAGRAGCCAATATCCCTTACTTTAACCCTTTCTGGGATGCAATACTAGGAAGTAAAGTGAAGAATTTATCTCTTTAG
TTAGTGATTATATTTCACCCATCTCTCAGGAATCATCTCCTTTGCAGAATGATGCAGGTTCAGGTCCCCTTTCAGAGATATAATAAGCCCAACAAGTTGA
AGAAGCTGGCGGATCTAGTGACCAGATATATAGAAGGACTGCAGCCACTGATTCTCTCTTGTCCTTCACATCACCCATKTTGAGACCTCAGCTTGGCACT
CAGGTGCTGAAGGGTAATATGGACTCAGSCTTGCAAATAGCCAGTGCTAGYTCTGACCCAACCACAGAGGATGCTGACATCATTTGTATTATGTTCCAAG
GCTACTACAGAGAAGGCTGCCTGCTATGTATTTGCAAGGCTGATTTATGGTCAGAATTTCCCTCTGATATGTCTAGGGTGTGATTTAGGTCAGTAGACTG
TGATTCTTAGCAAAAAATGAACAGTGATAAGTATACWGGGGGCAAAATCAGAATGGAATGCTCTGGTCTATATAACCACATTTCTAAGCCTTTGAGACTG
TTCCTGAGCCTTCAGCACTAACCTATGAGGGTGAGCTGGTCCCCTCTATATATACATCATACTTAACTTTAYTAAGTAATCTCACAGCATTTGCCAAGTC
TCCCAATATCCAATTTTAAAATGAAATGCATTTTGCTAGACAGTTAAACTGGCTTAACTTAGTATATTATTATTAATTACAATGTAATAGAAGCTTAAAA
TAAAGTTAAACTGATTATATTTGCATCTGTGCAGAAGTGAATGCTTTTAATTTTCAATATAACACACTACTAATCACAACTTCTTGAGAAACCATCCTTC
CTCCGCAGTAGACAACCCACCCTGGATAGGAAAACAACAAGCATTTATCCTCTAAAGAAAATGACTCTAACAGGTGTTAATGTCACAGTTTTCTTCACCT
CTCTCTTTCTACATTTTATTAACTATATTCACTGAAGGATCAAGTTGCATATTAGTTCAAAAACCAGCTTCCAGAAACTATAAAATCTCTGTAGATATTT
TCTCATAAATAATCTTATGAACCATTATGGTGAATCAGTGGATAGCCAGCATGGAGACCTAGCATAACGAACACATGTTATGGTCTTATGATAATCACGT
ATAGGAGATCCTATATTCATGGCAGACATCACTGAACAATTGTAGCTCAGATAAGACCTCAGAATCTTTCTCATTTCCAGGTAGCAACTAGCAATTGATT
TTAAACTGGCACACAATCAATAGCTTACCAATGAAAAAGAGTCCAGGACCAGATGGATTCACAGCCGAATTCTACCAGAGGTACAAGGAGGAACTGGTAC
CATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATGAGGCCAGCATCATCCTGATACCAAAGCTGGGCAGAGA
CACAACCAAAAAAGAGAATTTTAGACCAATATCCTTGATGAACATTGATGCAAAAATCCTCAATAAAATACTGGCAAACCGAATCCAGCAGCACATCAAA
AAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAATATACACAAATCAATAAATGTAATCCAGCATATAAACAGAGCCA
AAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAACCCTTCATGCTAAAAACTCTCAATAAATTAGGTATTGA
TGGGACGTATCTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAATGGGCCAAAACTGGAAGCATTCCCTTTGAAAACTGGC
ACAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGGGTTGGAAGTTCTGGCCAGGGCAATTAGGCAGGAGAAGGAAATAAAGGGTATTCAATT
AGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGACGACATGATTGTATATCTAGAAAACCCCACTGTCTCAGCCCAAAAGCTCCTTAAGCTGATAAGC
AACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAACATTCTTATACACCAACAACAGACAGAGAGCCAAATCATGAGTGAACTCCT
ATTCACAATTGCTAAAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAGGGAGAACTACAAACCACTGCTCAAGGAA
ATAAAAGAGGATACAAACAAATGGAAGAACATTCCATGCGCATGGGTAGCAAGAATCAATATCGTGAAAATGGCCATACTGCCCAAGGTAATTTACAGAT
TCAATGCCATCCCCATCAAGCTACCAGTGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAACCAAAAGAGAGCCTGCATCGCCAA
GTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAACAGCATGGTACTGGTAC
CAAAACAGAGATATAGATCAATGGAACAAAACAGAGCTCTCAGAAATAACGCCGCATATCTACAACTATCTGATCTTTGACAAACCTGAGAAAAACAAGC
AATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACAGCTTATACAAA
AATCAATTCAAGATGGATTAAAGACTTAAACATTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGG
AAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATGGGATCTAATGAAACTCAAGAGCTTCTGCACAGCAAAAGAAA
CTACCATCAGAGTGAACAGGCAACCTACAAAATGGGAGAAAATTTTCGCAACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAA
ACAAATTTACAAGAAAAAAACAAACAACCCCATCGAAAAGTGGGCAAAGGACATGAACAGGCACTTCTCAAAAGAAGACATTTATGCAGCCAAAAAACAC
ATGAAAAAATGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCGATCATTAAAAAGT
CAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTATTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTG
GCGATTCCTCAGGGATCTAGAACCAGAAATACCATTTGACCCAGCCATCCCATTACTTGGTATATACCCAAAGGACTATAAATCATGCTGCTATAAAGAC
ACATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGC
ACATATACACCATGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATTCTCAGTAAACT
ATCGCAAGAACAAAAAACCAAACACTGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGGGCACATGGACACAGGAAGGGGAACATCACACTCCGG
GGACTGTTGTGGGGTGGGGGGATGGGGGAGGGATAGCATTGGGAGATATACCTAATGCTAGATGACGAGTTAGTGGGCGCAGCGCACCAGCATGGCACAT
GTATACATGTGTAACTAACCTGCACAATGCACACATGTACCCTAAAACTTATAAATAATAATAATAAAAACTGAGAAAAAAAAACATTAACAACTGGTGA
ATGTAAGTGAAGGATATGTGAGTACTTATTGCACTGCTCTTGCAAATCTATAGAACTAAAATTTTAAAAAATAAAAATTTGCAAAATAAAAGAAAGAAAA
AAAGAAACTGGCACGCAAGATGGAACCTGTTTGTCATGCTTACCCTTAGAGCCAGCCCATTCCCTTTGATAGCTAGGATTTCATACATATTAATGCTATG
GCTCTAAGAGTTATGATTTAGCAATGATAACAAGCAATGTGTCTCAGGTAGCAGCAGGACTGTGAGTTCTAACTCTCCCTGAGTCTCTACCTGTGCTAGT
CCTCAGTGTTTTTAAACAAATCCTTATTGGTGTTTGGGACTTCAAAGACAAAAGAGGGGAAACATAAGAAACATAAATATTTCTGTTTCTCCTGGGGGAT
ATCTCAAACAACCTCAACAACAACACATATAAGATGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATATAGATAGAT
ATAGATAGATTGTTTTGCAAATATTTCACCTCATCAGCCCTGTGACAGAAGTAAATATAACTATCTCCATAATTAAGAACCTAATTGAGCCTAGGAAGCC
ATCTATCATGGCAAATCAATCTCGGGGTGGCAGTGAGCAGTGAAACAACTCTGGTTTCAGAGTCACCATTTGCTGTACACTGTTTAAATCTTTTGTTGCC
TCCTTAGAGTTTTAAGAATGCTGGCTTAAGACCAACTTCAGGATGCTTTGAAGAGCTGCAGTAGAACAACAAATAAAAATATGTATAAATTTGTATTAGA
AATGTCATGGGAAATTGAGTTTGTGCTAGACTCATTGGCAATCAAAAGTCACAAAATCCCAGGGGGAAAGTCACTGCCTATGAACATTCGTCCAATGTTA
TTACAAAGTTAATCGTCAGCGAACCCAACCATCAATTAATTCACCTTTTCGACAATCCAGCCATCCCCTGACATCCAGACAACCATCTAGCCTTCCAAGC
CATCTATCCATCCTTTTTTTCCAACAATCCACCCGTGCACACATCAGGTATCACTTTAGAGAACAGGGATGCAAAGATAAAAATTCCATGGTTCCTGCCC
AGAAAGAGTTCATAAAGCAGAGGAGTAGCAAGATATTTAAACAGATAATCCACAACCAAATAATAGAGCTATGCCCAGGGTGCCATAGGAATGAAGACAG
AAAGATGTCTAAAGAAGCCTTCCTCAATGTGCCCAGGAATCAAGGAGGAAAGGTTCAGATTGAATCTTGAAAAAATAATAGGTAAGTTGGAGACCATTTA
ACAAAGAGGAGCTCGTGTAACAACATAGAGAGAAGACCATGAACATGGCCCCCAACTGGCTTGAGATGGAGAGATGGTAAGTGTCCAGTGAGAAGAGGTG
GGGCCGAAAACGCAGGAATGGGTCAGAGTTGGAGCACTTCCCGAAATGAGAATTTGTTTATTCTCGTCTGTATTGTAGAGTAGAACTAAGAGAGGCTGCT
AGGAACAAACTAGATACAAAACTAAAAGTTATGCGTGGCTCAAGGAGTGACAGGGCCAAGAAAGTAGGGGGTGGAATGCCCTAACTCAGGCCAGTGAAGA
AGGTGTCAGAATGGGGGTGTGGCCACAGTTGGATTCAAGGAAGGGAAATGAGACATACGAGGCTCAAGTGGATAAAGTGGGAGAGATAGCATGTAGAGAC
AGAGAGCTGTCTATGTCAGAAACTATAGAAGTGTAGACAGACAAGTTCCTTCTAGGGCAGCCAAGTAAAATCACCATGAGCAGGTAGCGCTGAAGACCCA
GAATCTTGCCCCTCAGGTCATGCTTATGTCTGTCTTTGAGGCAAAATTCTCTCCAACCCAGTATCGAAAAGAAATGAACTGCTTCTAGAGACATTCCTTC
ACACCTTAAGGCAAGTTCGTCCTTCTGTTCTCACCACCCCAACTCATTCAGACTCAAGTTTGCCTTCCCAAGCACCTTCCTTTCTACATAAGAATGAAAC
AAACAAAAAGCCTTTTAGTGTGTCTGTAAGAAATTACTTTGTCGAAACAAACAAATAAATGAGAAACAAAGCGCCTCAGTTGCATCGGGAAAAGGGACAG
GGAAACTGTGTTCACCTCAATTGCCAGGAATTATACACAGCATTTTCTAGCTCTAAAGACAATGAACATTTTTAAAAGATACTTGGTAAACTAGCTGTTG
ATACTACTCATGAACTCCCATTCATTTTCACACTAATCATTGTTCTAGGACTTACATAATTACCTAAGTAACGTTTCAATAGTCCCAAAACTAACATAAG
GGGTCCTAATGAGCATTTCCTATTAGTAAACAGCATGTACCTATAAACGAAGAGGATTCTTTCCTCTCTTTTCTGATTTGAGCAAGTTTAGACAGTGGGA
AGGTACAATATGAAAAATATGTTACCACCAGATTTAGGATTTGTTATAAAGGTGGCAGATTTTAAATGACCATAAAATGATTGTCACTCTTTCCATTGAG
AAATGGGGACCACATTCCCTCTCCTGCCCTTGATTTTAGGTGGGCCGTGACTGCTTTGAAAGAATGTGATAAAAGCAATGCTGCCAGTTCTCAGCTCCAA
GCCTTGGAAAACTGGCAGTTTCCACTTATTTTCTCTTGAAATCCTCTTCGTAGAAGCCCTGAGCTTCTGCCTAAAGGCTCAACTACTCTGAGACTCCCAT
GCTGGAGAAGCCACGGGTATACACACTTCAACCCTGCTCTGAGCTCAGCCTTCCAGCGACCTCCGCCAAGGCACCAGACCTGATAATGAGGCCATCCTGG
GCGCTCCAGATCAGCCC


SNP Information

Context             (SEQ ID NO:33916):
GCCGTGGGACCAAACCGTGGGTGCCCTTAGCCAGGATAGATGATCGTAAACTATGTCTATGAGTGAGCCCTCCTCATCGAAGGTGTTCATTTCCATCTCT
S
TCTTCAGGACAGCTACAGAACAGTACACATTTTAGAATGAAAATGAGGAGTCACTGGTAACTGCGGTACCTAAAACATAATTTGCTCTGTGCATTTCATG
Celera SNP ID:            hCV15983501
SNP Position Genomic:     169962
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,19|C,29)   PGA-EUR(EAN-PANEL(G,13|C,33)   total(G,32|C,62) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33917):
ATCTTAAAAAGAGACACACATGAGAATAACCAATCTCACATTCCAGTCCTGTAATCCCAGTATGTTTGGGCTACTGATTCTCTTTTTAAAAGTGGCATCT
Y
TCATTTTTAAAAGAGAAAATCCTAGATAGTGACTCCTATTATCATCAAGTAATATATATCAAGGCCCCAAGGCTACCTTGTCACATTTTACTCTGGCATA
Celera SNP ID:            hCV15983502
SNP Position Genomic:     170179
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   PCT-TFRICTN-PTNEL(T,19|C,29)   PCT-EUR(ETN-PTNEL(T,11|C,33)   total(C,62|T,30) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33918):
AGGAATCCCCTTTGTTCCAGCAGGAAACTTGATGCCTATCCAGAAGCAAAGTTCACTTGGCCGCCCTCACCGTGGAAACGTGTTGCCACACCAAATGAAC
W
TCCCCCTCCTGCTGTCAAAGAGCAGTCAGTGGCCACCGCTATTGACCTGAGCTCTAATTAGGCTGGTTTTATAATGAGGAAAAGAGTGCGATTCTAATTA
Celera SNP ID:            hCV15983503
SNP Position Genomic:     175666
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,7|T,37)   PGA-EUR(EAN-PANEL(A,12|T,28)   total(A,19|T,65) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:33919):
GCCCTCACCGTGGAAACGTGTTGCCACACCAAATGAACATCCCCCTCCTGCTGTCAAAGAGCAGTCAGTGGCCACCGCTATTGACCTGAGCTCTAATTAG
K
CTGGTTTTATAATGAGGAAAAGAGTGCGATTCTAATTAGTAAATTTCCATCTCTTTCTCAATAGGTATCCTCCAGTCAAAGCAATCAGCTATCCTCATCA
Celera SNP ID:            hCV15983507
SNP Position Genomic:     175728
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|G,43)   PGA-EUR(EAN-PANEL(T,9|G,37)   total(G,80|T,12) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:33920):
ATCACACTGGTTCCATTGCCAAAAAAATAACTGTATCATAAAACTCTAGTAAAAGTGATGATGGTTAAGACAACAAGAGAGCAGAACGAGGTTTTATTTG
S
TGCTAATGACCTGCATTCTCTCTCTTAGGTCCGTGGCACTCAGGTAGTTGGTTCTGACATGACTGTGACAATTCAGTTTACCAATCCTTTAAAAGAAACC
Celera SNP ID:            hCV15983508
SNP Position Genomic:     175925
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,26)   caucasian(C,5|G,29)   total(C,13|G,55)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,181|G,1318)   total(G,1318|C,181)   PGA-AFRICAN-PANEL(C,8|G,38)   PGA-EUR(EAN-PANEL(C,13|G,33)   total(G,71|C,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33921):
ACTGGGCACAACATATAGAAGGCAATGGCAGCCATAGCTTGCGCCATGCATAGCCTGGAGTAGACAAACCTAAATGAACTTTCTTCCTTCTCACTTCTCA
Y
GGACTCATTTAGGTGAATGCCAAAGATGACGAAGGTGTCCTCGTTGGATCCTGGGACAATATCTATGCCTATGGCGTCCCCCCATCGGCCTGGACTGGAA
Celera SNP ID:            hCV25943762
SNP Position Genomic:     103029
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:33922):
AGGCTATTGGTGTGTATCCTTTGGCCAGAATAACCAGCCAAGCATGTTTACAGTGATGCAGGGAATCAATCCGTTCTATGACTATTTCCTTAACTCTCCA
R
TTAGTTGCTATCCTGCCCAGCAAACACAGCTGAGAGAAGCTGCTTAATAAGAACCAAAATACTGAGCTATTTGCATACCTGAAGAACTAGTGCAATTACC
Celera SNP ID:            hCV15983363
SNP Position Genomic:     78490
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,12|G,36)   PGA-EUR(EAN-PANEL(A,10|G,36)   total(G,72|A,22) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33923):
ATTCAGGAAAATCTCTTACTACAGTGAGGTACAGTATAGGTAAAATCTTCCTGTCTTGCTATTTGATCTTTATTCCTTTTTAAGAAAATTCTGGTATTGC
Y
TGTGGCTAGCAGTTCTTTCTAAGAAGACTGAACTGGTACCAGACTCCTCCCTTGATAGTGTAATCTACTTTCTGCAGCCTTCTGCCCTCTCCTTGATCCT
Celera SNP ID:            hCV15983364
SNP Position Genomic:     78835
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,8|C,40)   PGA-EUR(EAN-PANEL(T,4|C,42)   total(C,82|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33924):
GTGGAGGTATGAATATGCTTCTGTTTGAATTGATGAGTGTGAATTACTTGAGGGACTTTCAGGTAAACCTGTCCAATAGATAATATGAGTCTGAAGCTTC
R
GGAGGAGGTTTGGGTTGGACAGGAGATAATTTGGATATCATACACACGTGGGCAAGCTCACTCAGAAAAAGGTAAATCAAGTCAGCAGTGGACTGAGGCT
Celera SNP ID:            hCV15983291
SNP Position Genomic:     34787
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33925):
TGGGAGGCCAAGATGGGAGGATCGCTTGAGGCCAGGAGTTTGAGACCTAGTCTCTAAAAAATAAAAATTAAAAATTAGATGGGTGTGGTGGTGCACACCT
R
TACTCCCAGCTACTTGGGAGGCTGAAGTGGGAGAATTGCTTGAGTTCGGGAGTTGGAGGTTACAGTGAGCAATGATTGTGCCACTGTACTCCAGCCTGGG
Celera SNP ID:            hCV15983292
SNP Position Genomic:     60025
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33926):
TATTTGATCTTTATTCCTTTTTAAGAAAATTCTGGTATTGCCTGTGGCTAGCAGTTCTTTCTAAGAAGACTGAACTGGTACCAGACTCCTCCCTTGATAG
Y
GTAATCTACTTTCTGCAGCCTTCTGCCCTCTCCTTGATCCTGGGGTCCACCTTGTCTCAGAAGAGGGGAAACCTTAGAGGGACAGTCACTATATGAGGTC
Celera SNP ID:            hCV15983365
SNP Position Genomic:     78894
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   total(C,1|T,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33927):
TCTAAAAAATAAAAATTAAAAATTAGATGGGTGTGGTGGTGCACACCTGTACTCCCAGCTACTTGGGAGGCTGAAGTGGGAGAATTGCTTGAGTTCGGGA
R
TTGGAGGTTACAGTGAGCAATGATTGTGCCACTGTACTCCAGCCTGGGCAACAGAGCAAGACTCCGTCTTTGAAAAAAGAAAAAAAACAAGCTCATGTAT
Celera SNP ID:            hCV15983293
SNP Position Genomic:     60077
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   PGA-EUR(EAN-PANEL(A,3|G,43)   total(G,90|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33928):
AGGGGTGAGACTGTCGCCCAAGTGAAAAAGATAGCAGAAGATAAGAAGGAAAACTGTTTCCAGAAATTGTCAAAAGACAGCCAGGTGAACAAGATTGTGG
Y
CCGAGGTGGCACAGGATGCTGGGCTGAAAATTACAGCAGCATGCACAGCACTTATTGATAGGAGAATGCTCAGCTGTGCTCCTGAGGGCCCTTCAGCCTG
Celera SNP ID:            hCV3249472
SNP Position Genomic:     67526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33929):
CAGAAAATGGTTAAGATTAAAACTGTTCAATGCACTGATTCAAATATCTTTGGGTGGCCTTGAAGCTGCTCTTAGCAGAGGGAAAGAGACATCCAGCCAT
K
TGAGTGTCCTGAGGGATGCCAATGAGAATGAATCTGCCCAGAAAACCCAAGTCTAGAGCCCCAGGATATCTCCAGGAGCCCTCAGATTTGGCTTAATCCA
Celera SNP ID:            hCV15983440
SNP Position Genomic:     130069
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|G,46)   total(G,46|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33930):
TGCACTGATTCAAATATCTTTGGGTGGCCTTGAAGCTGCTCTTAGCAGAGGGAAAGAGACATCCAGCCATGTGAGTGTCCTGAGGGATGCCAATGAGAAT
S
AATCTGCCCAGAAAACCCAAGTCTAGAGCCCCAGGATATCTCCAGGAGCCCTCAGATTTGGCTTAATCCATTCTAATAATCTGTAGATAGCATATGCACA
Celera SNP ID:            hCV15983441
SNP Position Genomic:     130099
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,3|G,45)   total(G,45|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33931):
TTAGAGGGACAGTCACTATATGAGGTCTCCTACTATTTTGGGTGCAAACTAAGTAGTGTGAAGCACCTTCCTGTGATACACCTGAGAGCTCTTTATTTTC
K
AAATGCACGAGGATTCACATTACTTTCGAGGTCCTAAGACTCTGGCCTGACTTTGGTAAATGATTCATTCCTTCTTCTTGGGTACAGGAGCCAATATGTT
Celera SNP ID:            hCV15983372
SNP Position Genomic:     79068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   JBIC-allele(T,612|G,875)   total(G,875|T,612)   PGT-TFRIGTN-PTNEL(T,6|G,42)   PGT-EUR(ETN-PTNEL(T,17|G,27)   total(T,23|G,69)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33932):
AAACCTCTTTTTTTGGAGTGAACGGTCGTAGATACATCTGAGGACCCAGGTGCTCAATGGGCATTGTCCTTGGCATTTCTAAATCACCAAGGAACTTTTT
Y
GCATTTACCCATATGGATTTTAATTTTTGAAAAAGTTCATCTATCAAAACAAATCATGATTATGTAATAATACCTTGTTACCCCATTCTTGTGTCAGATT
Celera SNP ID:            hCV15983373
SNP Position Genomic:     86354
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33933):
GAGCTTCTGGGTCTCCAACCCTATCAGCTTTTATTTAAAAGTGTTATTGTCTCTTTCTATGATTCATATCAGGAATGAAATTTCTCAGTTTGGAACAGCA
K
AAAAAGGCAGAAGCCTCCGGTGTTCCTTGCAACCTTTCCAATTGTAACGCATATCAATTAGTAGGAGCTCTCGGGGTGACAACTTTGGGAGAATCCACTG
Celera SNP ID:            hCV15983374
SNP Position Genomic:     86810
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|G,47)   total(G,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33934):
GCCCTTTGTGGTATGCACTGGTAAGATATAAGGCAGGAGAGAAAATAGAGAACTCGAAAAATAATTATAGATCATCCTTTAAATTGTTTTTCCAGAACCT
R
GCCTCCTTTTATGTCATGTGATTTCCTCCAAAGCTTCAGTATGTGGGTATTTGTCTTCTAACTTGCCAACTATGCTAAGCAGCTGCAGCTCTGACCTCCC
Celera SNP ID:            hCV15983448
SNP Position Genomic:     131104
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33935):
ATCTCAGCCTCAAATAATCTTTATTTAAAGTACTACTAAATCAACTAGATTCGCCTTTAGAATATTTTCAAAACCTGTTTGGCCCTATGATACGAATCCA
R
TGTTGTTGAAGAAAGGGGCATGTCAGCTCCAGAGATCTCTAGACGACTGCTCTATGGACAGTTAAAGACTTTGGCAACAGCAGACATGTGATGATGGCTA
Celera SNP ID:            hCV15983449
SNP Position Genomic:     145639
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,4|A,44)   total(G,4|A,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33936):
ACAGTGATTTCTGCATTTCCATCTGAGGTATGGGGTTCATCTCACTAGGGAGTGCCGCACAGTGGGCACAAGTCAGTGGGTGCGTGCACTGTGCGCGAGC
Y
GAAGCAGGGCGAGGCATTGCCTCACTCAGGAAGTGCAAGGGGTCAGGGAGTTCCCTTTCCGAGTCAAAGAAAGGGGTGACGGACGGCACCTGGAAAATGG
Celera SNP ID:            hCV7816498
SNP Position Genomic:     26061
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33937):
TCATTTACATTACAGCTAAGAAAGATGGCACTCATGTGGTGGAAAATGTGGATGCCACCCACATTGGGAAATTAATTGTGACCAAACAAATTGGAGGAGA
Y
GGCATGATGGATATTACTGATACTTACAAATTCCAAGAAGGTAATTTACTACCACTGAATGAAGATTTATTTGCCCAAGTCCATTGAGTACTTATTCATT
Celera SNP ID:            hCV15983450
SNP Position Genomic:     145876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33938):
TGAAAATTGCATGCCCAACCTCTCCACCTCCTTATCCTCCTCCATGTGGCTCAATTTCCAAAGCAGTTCCTACCTCCTCACCCCTAAGTGGATTTACTTA
Y
GGCTCTTCTTGGGCTCCACCCTAACCCTATCAGACTATAATCTATCAGAGCAAACATTCTGTTTTGTTCTCTGATGTATCCCATGTACCTAGATCACAGC
Celera SNP ID:            hCV15983525
SNP Position Genomic:     7369
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,5|T,41)   total(C,5|T,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33939):
CGACCATTTCTGTAGGGCGTGGAGTAAAACTAGGGTTGGTTTGACCAGCACTTTCATCATTTAATCCTTAAAGACACCCTACGATGTAGATACTGCTATT
R
TCTCCCTTCTGTAGCTGAGGAATTTGAGGCTTTGAGAGGTTGACTGGTTACACAGGTTCAGTTACACAGTTTATGAAAACAGAGCCAAGATTCAGACTCA
Celera SNP ID:            hCV15983526
SNP Position Genomic:     176317
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,8|A,36)   PGA-EUR(EAN-PANEL(G,8|A,34)   total(G,16|A,70) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33940):
ATTCATATAGGACTGTAATTCCAGGAGGAAACTAGTGGCAAAAACTGAGCTGAGGCTCAGAAGATCAGTCACATAGATAAGGCTACTATGGAGGGCTTGG
R
GACAAGCTAGAGTTCAGTTGATTAATGGTTGGATGGGAATCAGCCCAGCTCCTGATGGCCACTGGGAGGCTGGCGGATGCATCCCAGTGGAAGGAACCAT
Celera SNP ID:            hCV15983527
SNP Position Genomic:     181815
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,14|A,34)   PGA-EUR(EAN-PANEL(G,9|A,37)   total(G,23|A,71) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33941):
CATATCAGGAATGAAATTTCTCAGTTTGGAACAGCAGAAAAAGGCAGAAGCCTCCGGTGTTCCTTGCAACCTTTCCAATTGTAACGCATATCAATTAGTA
R
GAGCTCTCGGGGTGACAACTTTGGGAGAATCCACTGATTTATATTAATGAAGAGTGTTACTGTAGTCCAACAGAGTAAAGTACTAAATTACCAACTCTAA
Celera SNP ID:            hCV15983381
SNP Position Genomic:     86874
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33942):
ATTGTAGTGGGCCAAATATGCTCATAGTTTCTCTTTGACTGCAGAATCTTTATAGAAAGAATGATAGACTATATCCTGTGTAATCCATCACTTAACACCC
R
AAGAAATAGAGGGTTACAGTAAAAATATAGAGAAAAAAGCCATTTTCTTTTCAGCCACCACATTTTAAAAAAACTAAAACAGTTAAAACTAAAATAATAA
Celera SNP ID:            hCV15983382
SNP Position Genomic:     103470
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33943):
TTCTCTTTGACTGCAGAATCTTTATAGAAAGAATGATAGACTATATCCTGTGTAATCCATCACTTAACACCCGAAGAAATAGAGGGTTACAGTAAAAATA
Y
AGAGAAAAAAGCCATTTTCTTTTCAGCCACCACATTTTAAAAAAACTAAAACAGTTAAAACTAAAATAATAAATAACAAAAGATATATATTGCTTATTTA
Celera SNP ID:            hCV15983383
SNP Position Genomic:     103498
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,45)   total(C,1|T,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33944):
GTCCATTGAGTACTTATTCATTGTCACTCAGAGATGAGTTCCAGAGAATGCACTGGCATTTGCAGCATTTGGTAGCAACAGCAGAAGTATAAACTTTCAC
R
TGTGAAAGACACGTCACATATGCAATTTTTCATTGTAGTTTTCTTTGCTAGCTTGCTTTGGGCAGAATTCTCATTCACGTGGCTTGTAAAATGATTTGGT
Celera SNP ID:            hCV15983457
SNP Position Genomic:     146055
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,10|G,38)   PGA-EUR(EAN-PANEL(A,6|G,36)   total(G,74|A,16)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33945):
AGCAGAAGTATAAACTTTCACGTGTGAAAGACACGTCACATATGCAATTTTTCATTGTAGTTTTCTTTGCTAGCTTGCTTTGGGCAGAATTCTCATTCAC
S
TGGCTTGTAAAATGATTTGGTTTAAAGTCATACCTAATTTAACAGAATATAGAATATGTTCTTGCTCACAAGAACCTTAATTTTAAATAATCCTATTAGA
Celera SNP ID:            hCV15983458
SNP Position Genomic:     146134
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|G,47)   total(G,47|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33946):
CTGTGTCTGAGCACTTATTAATGGTTTTGACTATCACTCCTACTACACATACACCTCATAGTTTAATGGTGGAAGCTACAGCACCTGTCCAAGTGCACCC
Y
GCCATCTGCAACCCCCTCCATTGAGGTCTCTTGTGCTATATCAGACTGTATTTACACGTGACTTCTCAGTGAGACTTGCAAAACCCCTTGCCTTCACAGG
Celera SNP ID:            hCV27480236
SNP Position Genomic:     122645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33947):
TCAGATGCAAGAATCGTTCAGGCAAAGTGAAACACGTTTCCTCTTCCATACAGCCCCCTGCTGTATCCAACTTTTTCCTTCCCAGACAGTAAACCCACAA
R
CTTTATCTGAGTGTACCGGAAACTTCTCTATCTTTACACCTTGGCTATCCCCCTAGAATTCCACCTTGGTCAAGGCCAACACATGAAAAAAGACACTGTG
Celera SNP ID:            hCV27480237
SNP Position Genomic:     177754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33948):
AATAGAAATTAAAATAACTACTTCACATTTGTTTAGTACTTTACCAATTATTTCCACATACATTGTTCTATTACATTATCATGGAAGACTACAACGTAGA
Y
AATACAATATTAATAGGACAATGCAATCTCTCTAACTCAGGACAATTAGGTCGAAGGCCAGTTTCAATTCCAAAATAATGTCATGGTGGGTTTTTGTTAA
Celera SNP ID:            hCV15983459
SNP Position Genomic:     146369
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,6|T,42)   total(C,6|T,42) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33949):
GGCATCTAAGAAAGTAGGACAGTGTTTCCCAGAGTGTGTTCTCTATGAACACCTGTCATGTGAGATTCTCCTTGGGGGAAAAAAGTTCCATCATCAAATA
Y
AGTTGGATCATGCTGTGTTTTGTGTCTCTTCTCATAGAGGCCCAAGGCACATTAATATATAAAAGGCTATGAGTAGACACGTAGTCAAAAAATGAATCTT
Celera SNP ID:            hCV27072986
SNP Position Genomic:     36051
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:33950):
CTAATAATGGCATCTAAGAAAGTAGGACAGTGTTTCCCAGAGTGTGTTCTCTATGAACACCTGTCATGTGAGATTCTCCTTGGGGGAAAAAAGTTCCATC
R
TCAAATACAGTTGGATCATGCTGTGTTTTGTGTCTCTTCTCATAGAGGCCCAAGGCACATTAATATATAAAAGGCTATGAGTAGACACGTAGTCAAAAAA
Celera SNP ID:            hCV27072987
SNP Position Genomic:     36043
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:33951):
TTCTTGGGTAACTACTGGGCTCCAGACGCTGTTCTTAAAGCACTTTACATGGTTGCATTTTCAACCACCAACAACCCCACAAGGTAAAGAGTACTGGCAT
Y
ACTTTACAGATGAGAAAACTGAAGCACAGAGAGGTTCTATAACTCCTCCAAGGCCATACAGCCAGCAAATGGCGGAGCTGGGCTTCCAACCCCAGCAGGC
Celera SNP ID:            hCV15983600
SNP Position Genomic:     161697
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,2|C,40)   total(C,40|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33952):
GGAGTCACTGGTAACTGCGGTACCTAAAACATAATTTGCTCTGTGCATTTCATGTTTGCTATTTTTTTGAATCTTAAAAAGAGACACACATGAGAATAAC
S
AATCTCACATTCCAGTCCTGTAATCCCAGTATGTTTGGGCTACTGATTCTCTTTTTAAAAGTGGCATCTCTCATTTTTAAAAGAGAAAATCCTAGATAGT
Celera SNP ID:            hCV15983601
SNP Position Genomic:     170109
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,1|C,43)   total(G,1|C,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33953):
TTCCAGGAGGAAACTAGTGGCAAAAACTGAGCTGAGGCTCAGAAGATCAGTCACATAGATAAGGCTACTATGGAGGGCTTGGAGACAAGCTAGAGTTCAG
Y
TGATTAATGGTTGGATGGGAATCAGCCCAGCTCCTGATGGCCACTGGGAGGCTGGCGGATGCATCCCAGTGGAAGGAACCATGACCCAATAAGACTGTCA
Celera SNP ID:            hCV15983534
SNP Position Genomic:     181833
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,10|T,38)   total(C,10|T,38) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33954):
CCTTCCATGTGAATGCACAGGAAGCTGAGATGAACCCTGGCATTTGGCCTCTTGTAGTCTTGGCTAAGGAAATTCTAACGCAAAAATAGCTCTTGCTTTG
R
CTTAGGTGTGAAGACCCAGACAGGACTGCAGAGGGCCCCAGAGTGGAGATCCCACATATTTCAAAAACATGCTTTTCCAAACCCAGGCTATTCGGCAAGG
Celera SNP ID:            hCV15983535
SNP Position Genomic:     182373
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,10|A,38)   total(G,10|A,38) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:33955):
ATAGAAAGAATGATAGACTATATCCTGTGTAATCCATCACTTAACACCCGAAGAAATAGAGGGTTACAGTAAAAATATAGAGAAAAAAGCCATTTTCTTT
Y
CAGCCACCACATTTTAAAAAAACTAAAACAGTTAAAACTAAAATAATAAATAACAAAAGATATATATTGCTTATTTATCATTGAGAAGTTGTATAAATAT
Celera SNP ID:            hCV15983390
SNP Position Genomic:     103521
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,44)   total(C,2|T,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33956):
GCTGAGATGAACCCTGGCATTTGGCCTCTTGTAGTCTTGGCTAAGGAAATTCTAACGCAAAAATAGCTCTTGCTTTGACTTAGGTGTGAAGACCCAGACA
K
GACTGCAGAGGGCCCCAGAGTGGAGATCCCACATATTTCAAAAACATGCTTTTCCAAACCCAGGCTATTCGGCAAGGAAGTTAGTTTTTAATCTCTCCAC
Celera SNP ID:            hCV15983536
SNP Position Genomic:     182396
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,9|G,35)   total(G,35|T,9) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:33957):
CTGTGTAATCCATCACTTAACACCCGAAGAAATAGAGGGTTACAGTAAAAATATAGAGAAAAAAGCCATTTTCTTTTCAGCCACCACATTTTAAAAAAAC
K
AAAACAGTTAAAACTAAAATAATAAATAACAAAAGATATATATTGCTTATTTATCATTGAGAAGTTGTATAAATATGCGTATTTATTTATTATTGAGAAT
Celera SNP ID:            hCV15983392
SNP Position Genomic:     103545
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|T,45)   total(G,1|T,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33958):
AAAATAATGTCATGGTGGGTTTTTGTTAACTTTTATTGCATAGAATGTTTCAAATGGCACTACTGAGTTTAATTCTATCTCAATCAATGCTTAGTGTCCG
S
TCTATGCCTGCAATTGGTTTGGTGCTGGCGATTCCAGCAGTGAGCAGGACTCAGTTCCTGTCCTGGTCCGAGTGACAGGATTATTGTGCAGAGGGGTCTT
Celera SNP ID:            hCV15983466
SNP Position Genomic:     146541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   PGA-AFRICAN-PANEL(G,6|C,42)   total(G,6|C,42) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33959):
AATTCTATCTCAATCAATGCTTAGTGTCCGCTCTATGCCTGCAATTGGTTTGGTGCTGGCGATTCCAGCAGTGAGCAGGACTCAGTTCCTGTCCTGGTCC
R
AGTGACAGGATTATTGTGCAGAGGGGTCTTTGGAAACAATAAGTAGGGGCATTTAGTCCAACTGATTCAGAAAAAGACTTGAGAAGAGAAGTCGTGGACC
Celera SNP ID:            hCV15983467
SNP Position Genomic:     146611
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,10|G,38)   PGA-EUR(EAN-PANEL(A,6|G,40)   total(G,78|A,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33960):
TGACTTTGCAGAATTTATAACATAGGAATAATGACGGCACCCTCCTCCTGGGGAGGTCTGAAGCTTGTATTATAGAAACACCCCAACAAGTGCAGTACAC
R
GTGCATCCATTAATGTGACTTTCTCTCTGGTGGATTGTATTTTTGCCTGTCATTATCTCTGGATCTCCCCCAGGTCAAGAAGAAGAGAGATTGGCCCTAG
Celera SNP ID:            hCV15983468
SNP Position Genomic:     152963
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(A,3|G,37)   total(A,4|G,68)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,37)   PGA-EUR(EAN-PANEL(A,7|G,37)   total(G,74|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33961):
GATTATACAGGAAAGTTTTACTTATCACTGCCTTAGTTTTTCCCCACTTATAGTACCACTGTGATTTTATGTTTTTCCTGAGGCATTGGCTTGTTGAAGT
K
ATATTGCAACAGAGAATCAAAAGATCACTTAGAAAAAGTAACATGTTAGAAAACATCATGCTTAGAATTAAATGTCTAAAGTATACCAGTATAGATGATA
Celera SNP ID:            hCV16065423
SNP Position Genomic:     14402
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,7)      total(G,7|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:33962):
ATTAATCAGCACCCTTTTTCTCACCCTTTGTTATCAACATATAAGCAGGCTAGAAAGACAGTATTTTATTCCAATGTGAAACAAAACTGCTGATCTGGAG
K
TCTTATGTTATAAATTCCCACATCATACCTTCAACTATATATATGTCCTGAAACTAGCATATTTTGAGAATAAAATGGGAAATGACATTTAAAGGACACC
Celera SNP ID:            hCV16065424
SNP Position Genomic:     15262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33963):
GGAGCCTCACCTCAGGGGGGCTACAGTTTTGCACAGAGCGGCCCCACTGTTGACGCCAACAGAGGCCATGGTCTGAGCTCCTTAGCTGTTCAGGAGAGGG
M
TGGGGACTCAGGAACCTCAGAAGGGCAGAGCAGGGCAGAGTAATTAGATCCCAGGGTAGCAAATGAAACCCCAAGTGGGCAAATGCAAAGTAGCAGATCC
Celera SNP ID:            hCV16065425
SNP Position Genomic:     109299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:33964):
GCCACCACATTTTAAAAAAACTAAAACAGTTAAAACTAAAATAATAAATAACAAAAGATATATATTGCTTATTTATCATTGAGAAGTTGTATAAATATGC
R
TATTTATTTATTATTGAGAATTTTATAAATATATCCACTTAATTTTTATCCCAGTTATGGAAGGTATTATAGCAGGTGGTCTCATATTCATTTTTCCACA
Celera SNP ID:            hCV15983399
SNP Position Genomic:     103624
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33965):
CATATAAAGAATTGTAGGCCTTTATAAGGCCTTTGGTTTTTATTTTGAGTGAGCTGAGGAGCCTTTAGAGAGTTTTGAGCAGAAATGTGGCATAATCTAA
S
TTAGGTTTTGAAAAGACCACTGGCTGCTGTGTTGAGAAGAGACTAAAGAGGAAGTAGGGCGGAAGGTTAGAGACTGGTAGGATGCTTCTGCAATCACTCC
Celera SNP ID:            hCV16199153
SNP Position Genomic:     156246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33966):
AATACCTGGCCTCATTTAAAACAAGACTTCAGATTCCCCACTCAGCCTTTTGGGAATAATAGCACATGATTTGGGCTCTAGAATTCCAGTCCCCTTTCTC
R
GGGTCAGGTTCTACCCTCCATGTGAGAATATTTTTCCCAGGACTAGAGCACAACATAATTTTTATTTTTGGCAAAGCCAGAAAAAGATCTTTCATTTTGC
Celera SNP ID:            hCV15983611
SNP Position Genomic:     182727
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,3|G,43)   total(G,43|A,3) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:33967):
TATAGAAGGACTGCAGCCACTGATTCTCTCTTGTCCTTCACATCACCCATGTTGAGACCTCAGCTTGGCACTCAGGTGCTGAAGGGTAATATGGACTCAG
S
CTTGCAAATAGCCAGTGCTAGTTCTGACCCAACCACAGAGGATGCTGACATCATTTGTATTATGTTCCAAGGCTACTACAGAGAAGGCTGCCTGCTATGT
Celera SNP ID:            hCV15983612
SNP Position Genomic:     183329
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,2|C,44)   total(G,2|C,44) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:33968):
AGGGCCCCAGAGTGGAGATCCCACATATTTCAAAAACATGCTTTTCCAAACCCAGGCTATTCGGCAAGGAAGTTAGTTTTTAATCTCTCCACCTTCCAAA
R
AGTGCTAAGCATTAGCTTTAATTAAGCTCTCATAGCTCATAAGAGTAACAGTCATCATTTATCATCACAAATGGCTACATCTCCAAATATCAGTGGGCTC
Celera SNP ID:            hCV15983543
SNP Position Genomic:     182505
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,10|G,38)   total(G,38|A,10) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:33969):
ACTAGAGCACAACATAATTTTTATTTTTGGCAAAGCCAGAAAAAGATCTTTCATTTTGCACCTGCAGCCAAGCAAATGCCTGCCAAATTTTAGATTTACC
W
TGTTAGAAGAGGTGGCCCCATATTAACAAATTGCATTTGTGGGAAACTTAACCACCTACAAGGAGATAAGAAAGCAGGTGCAACACTCAAGTCTATTGAA
Celera SNP ID:            hCV15983544
SNP Position Genomic:     182869
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|T,47)   total(A,1|T,47) 
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:33970):
TATAATAAGCCCAACAAGTTGAAGAAGCTGGCGGATCTAGTGACCAGATATATAGAAGGACTGCAGCCACTGATTCTCTCTTGTCCTTCACATCACCCAT
K
TTGAGACCTCAGCTTGGCACTCAGGTGCTGAAGGGTAATATGGACTCAGCCTTGCAAATAGCCAGTGCTAGTTCTGACCCAACCACAGAGGATGCTGACA
Celera SNP ID:            hCV15983545
SNP Position Genomic:     183279
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,4|G,44)   PGA-EUR(EAN-PANEL(T,9|G,37)   total(G,81|T,13) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:33971):
TCTGTAACTGTAAATCCCAAAGATGCTTAACTTATATAGAGTTTTCTCACCCCTGAATCTGTTATCACAGAGTCTCTGTTCCTGGGTTCTTTGTTTGACT
Y
AGCCCCTAATTATTTTGATATCACTTTCAAGTATTAATAGTTTGGTTATGATAGGTACCATATTCCCTGAAGTACTTCATGTTCGACAATGTGTGTAAAA
Celera SNP ID:            hCV27535372
SNP Position Genomic:     93458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33972):
GGCCAACCTCTTCCCATCTTCCCCTTCATGTTCTCCTCCTCAGTCTCTGGTAACCACTGTTCTGCTCTTTGCTTCTATGGTATAATAATTTTTTTTTTTT
T
AGTGTCTACATGTGAGTGAAATCATGTAGTATTTGTCTTTCCATGTCTGGTTTATTTCACTTACCATGATGCCCTTCCTCCAAGTCTAATTCATGTTGTT
Celera SNP ID:            hCV26561945
SNP Position Genomic:     178910
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33973):
TCTCTTTTCCATCTGATGGTTTGCAAATGTTTGCAAACAGCTGTCTCATCTTCCTTGAATCTTTTCTACCTGGGGACAAATATCTGTCCTGACTTTATTT
Y
CCTCTCCTCTAACATGGTTTCAGCTCTCTCTCTCTCTCTCCCACACATTCCAATTTGTCACTACTCCTCTTAAAGTGTGACACCCAGAATGGATCCCAAT
Celera SNP ID:            hCV26561946
SNP Position Genomic:     177014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33974):
TCCATTCTCAGTCTTGTCAGTGTGGCTTCAAATCCAATGTTGCTCCCACCGGTTTGAAAATCTCCCTTACTTTCTGACTGCCGTTTTTTTTTTTTTTTTT
T
GGACGTCAGTACGAAACAGTTTTGGTTGTCTTGTTATTGCTGAGTTGTTGGCTTTTCCAGCTCCTCTGACCTCAGAGTAGCACTCTATCTTAGAGTTCAA
Celera SNP ID:            hCV26561947
SNP Position Genomic:     173759
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|-,9)   total(-,9|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33975):
ATCCATTCTCAGTCTTGTCAGTGTGGCTTCAAATCCAATGTTGCTCCCACCGGTTTGAAAATCTCCCTTACTTTCTGACTGCCGTTTTTTTTTTTTTTTT
T
TGGACGTCAGTACGAAACAGTTTTGGTTGTCTTGTTATTGCTGAGTTGTTGGCTTTTCCAGCTCCTCTGACCTCAGAGTAGCACTCTATCTTAGAGTTCA
Celera SNP ID:            hCV26561948
SNP Position Genomic:     173758
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33976):
TATCCATTCTCAGTCTTGTCAGTGTGGCTTCAAATCCAATGTTGCTCCCACCGGTTTGAAAATCTCCCTTACTTTCTGACTGCCGTTTTTTTTTTTTTTT
T
TTGGACGTCAGTACGAAACAGTTTTGGTTGTCTTGTTATTGCTGAGTTGTTGGCTTTTCCAGCTCCTCTGACCTCAGAGTAGCACTCTATCTTAGAGTTC
Celera SNP ID:            hCV26561949
SNP Position Genomic:     173757
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33977):
CAACAGCCACAACCGTTACACCATCACAGCTTATCTCTCAGCCAACATCACCTTCTACACCGGGGTCCCGAAGGCAGAATTCAAGAAGGAGACGTTCGAC
R
TGACGCTGGAGCCCTTGTCCTGTAAGCTAACAATGGTGTGGTTCTTTGTGAGACTCGCTGTCTGGCCCCTGTCTTGCTAGGTGTTAATGCCCGTTATAGC
Celera SNP ID:            hCV25598400
SNP Position Genomic:     153303
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:33978):
AATGTCATCATTTACAGACTGAATTTGGTGCTGATTATGTTCACCATTACTAAAAATATTGGGAAATGAGCTATGCTTGGTGAAACAAAGGGCATTTTTT
W
AAAATTTGGCTGATTAAATGTAGTTTAGAAACAAAATAAACTTGCATAAACTTGCAAGTGTTTGGAAACAGTCTGGTTTGGTAATAGTCACTATGTTTAA
Celera SNP ID:            hCV25598401
SNP Position Genomic:     76860
SNP Source:               Applera
Population(Allele,Count): african american(A,36|T,2)   caucasian(A,40)   total(A,76|T,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33979):
GACCGCCTTTGGAGGCAGAAGAGCAGTTCCACCCAATAACTCTAATGCAGCGGAAGATGACCTGCCCACAGTGGAGCTTCAGGGCGTGGTGCCCCGGGGC
R
TCAACCTGCAAGGTATGAGCATACCCCCCTTCCCCACCACTCTGGGTCCAGGCACAGCCGGGCCCTGGCCCCTCTTCCCTGCAGGTAAACATCCTCTGTC
Celera SNP ID:            hCV15983554
SNP Position Genomic:     8125
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:33980):
GTTGATGAGAGTGGAAGATAAATGTGGGAGCCTCTGTGCTCCTACTTCTCAGGCCCACAGCTGTAGCTTCTGGGGGCATCTGTGGTTGCATCCATGAGAC
R
CCTTCCTGCCCTGGAAGCAGGAACCCAGGCTTCTGGCAGTGACCCTGAGGAGTGACATCTCATGCAGCCCTTATCCAGGTCTTAGAGCCCTTCCCTAGTC
Celera SNP ID:            hCV15983486
SNP Position Genomic:     161269
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,39)   total(G,39|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33981):
CTGGAATCTGTGGGATAAATGCAAGGCCTCACTTATACCCTCTGGGGCAACTTTATTGCCCATAAAGGGCTCTCCGCATTTCTTTCAAATTACAATGCTC
R
TAGCTTCTGCATCTCATCATTTAAGAGATGCCTTATTGCAGATGCAATAAACAACAGAGAAAATAATCTTAGTGCTTTTGAAACAACGCAAGCACAAAAC
Celera SNP ID:            hCV27489701
SNP Position Genomic:     177398
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(A,482|G,1019)   total(G,1019|A,482)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33982):
TACACATAAAAGTTTCTTCTTGAACTAACCTTCTCTAAATTGCCTGAAGGCTCCCTTTATTTAAGGTTTTATGAGAGCAAGAAAATGAAAAATATGACTG
Y
GAAAATGAAATGAAAATATGACTATGCAGATATGGAATTATGCTTTCAGCAATAAGGAAAAGGGAGCTTTGCAGATTCCTAAAATAATGTGATGCAAACA
Celera SNP ID:            hCV26561950
SNP Position Genomic:     171980
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33983):
CGTCCTCAACTGATGGTTTAGCGATAACTTAAAAGGTGATGCTGCAAATGATTCTTTGCTGGATTTCAGAAAATAAAGAAGCTATTCCAGCAAAAAAAAA
A
GTTTCTATTTTTACCTGTATTCTGTCAGGGATCACAGTATATGTAGTTTTGAAGATGAATGTTTTAGAGTCAGAAAGACCTGGATTTATATCCAACTTCC
Celera SNP ID:            hCV26561951
SNP Position Genomic:     170468
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33984):
TTGAGATATAATGAGTGCCCCAAACAAAGTACATGACAGTGACTGGCTACACTGTGAGACTTAACTGTAGTTTCATTTAGTGCTGTAAATATCACAAACT
T
CATTAAGGTGGAAAATGGGAACAGACTATGTGTTCTAATTATTGCTGAACCCTGACCATTTTCCCCTCCATGTCCACAACCGAGCACGTTCTCTCTCCAG
Celera SNP ID:            hCV26561952
SNP Position Genomic:     169121
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33985):
TAAATTGTAGCAAATGCCTAGAGCTTTCAAAACCATTATCAGAGAGGCCGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGAAGGCCAAGGTGG
S
TGGATCACTTGAGGTCAGGAGTTTGGGATGAACCTGACCAACATGGTGAAACCCTGTTTCTACTAAAAATAAAAAATTAGCCAGGCTGTAGTGGTGCGTG
Celera SNP ID:            hCV26561953
SNP Position Genomic:     167322
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:33986):
CCTGAACTCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGGGACAGAGCAAGACTTCATCTCAAAAAAAAAAAACACT
R
TAGTGTTTTCTTTGGAAACTAAAAGCTTTGGCACTTTTCCTATTCCTAGGGTAGTAAAGGTAATTTTCATGGAAAAGAATAGTCAGTGTAAAGGACTGAA
Celera SNP ID:            hCV26561954
SNP Position Genomic:     155457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33987):
TGTGGAGCATGGATCTAAATGATCCATCTCAGAAACAGGCCCTCTGCTGGTGCCTCTCGCCCAAGTTAGGAAAGTCTTTTGGGGGCTGTCCAGAATGAAT
R
GTGTGCTTTGCTTTCCCATTCAAAAAGATACACGCGCTGACATAGGCCGCTTCTTAAAACGCTGTCTCCTGTAATCTCAGCACTTTGGGAGGCTGAGGTT
Celera SNP ID:            hCV26561956
SNP Position Genomic:     154150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33988):
TGCGATGATCTTGGTTCACTGCAACCTTTGCCTCCTGGGTTCAAGCAATCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACATGCCACCAC
R
CCAGGCAAATTTTTGTATTTTTAGTAGAGACGGGATTTCACTATGTTGGCCAGGCTGATCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTG
Celera SNP ID:            hCV26561957
SNP Position Genomic:     153654
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,44)   total(G,44|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33989):
TGGAGTGCAATGCGATGATCTTGGTTCACTGCAACCTTTGCCTCCTGGGTTCAAGCAATCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCAC
R
TGCCACCACGCCAGGCAAATTTTTGTATTTTTAGTAGAGACGGGATTTCACTATGTTGGCCAGGCTGATCTCAAACTCCTGACCTCAGGTGATCCACCCA
Celera SNP ID:            hCV26561958
SNP Position Genomic:     153644
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   PGA-AFRICAN-PANEL(G,7|A,39)   PGA-EUR(EAN-PANEL(G,11|A,33)   total(G,18|A,72)    
SNP Type:                 INTRON


Context             (SEQ ID NO:33990):
AGAACCCACTCATTCTGCAAAAGCCTCCACTTTCTTTTTTTTTATTTTTATTTTTTGAGATGGAATCTCGCTCTGACACCCAGGCTGGAGTGCAATGCGA
Y
GATCTTGGTTCACTGCAACCTTTGCCTCCTGGGTTCAAGCAATCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACATGCCACCACGCCAGG
Celera SNP ID:            hCV26561959
SNP Position Genomic:     153559
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,44)   total(C,2|T,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33991):
ACTTCATCCATTCTATCTAGAGACACGATAAACTGACCATTTGTGCTCATCTGAGGCTGTAACCAATAGAGGGCCAGAACCTCACTCATCTAAACAATTA
W
TTGCAAGGGGAGCCATGGAGGAAGCAGGGTCCAGGCTTAGGTCCAAAGACAGCAATACGAGAGCGGGTCATTCCAAAAGGCAGGACCTGGGGGCCAAGGT
Celera SNP ID:            hCV27502974
SNP Position Genomic:     157865
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,739|A,762)   total(A,762|T,739) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33992):
CAGGAGATATGTTTGGAAGCTGTAGAGATACTCCAGGCTAGAAGAGGAATAGACCAGAGGGATTTTAGCCCCTGGAGGTATGGGGCTCATTTCTCTTGTT
S
CAGCTTCCTCTGAGCACCTGAGCAATCCTTCAACATTATAGGTTCCAGGATGTATTAATAACAACACTTTATAAATTAAGCCACTTAAGAAAATGCTTTT
Celera SNP ID:            hCV15983565
SNP Position Genomic:     12812
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,1|C,41)   total(G,1|C,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33993):
TGAGAGTGGAAGATAAATGTGGGAGCCTCTGTGCTCCTACTTCTCAGGCCCACAGCTGTAGCTTCTGGGGGCATCTGTGGTTGCATCCATGAGACGCCTT
Y
CTGCCCTGGAAGCAGGAACCCAGGCTTCTGGCAGTGACCCTGAGGAGTGACATCTCATGCAGCCCTTATCCAGGTCTTAGAGCCCTTCCCTAGTCTCTGG
Celera SNP ID:            hCV15983492
SNP Position Genomic:     161274
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,39)   total(C,39|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33994):
GAGCCTCCACCAAGGAGATGGTGGAGGTATGAATATGCTTCTGTTTGAATTGATGAGTGTGAATTACTTGAGGGACTTTCAGGTAAACCTGTCCAATAGA
Y
AATATGAGTCTGAAGCTTCGGGAGGAGGTTTGGGTTGGACAGGAGATAATTTGGATATCATACACACGTGGGCAAGCTCACTCAGAAAAAGGTAAATCAA
Celera SNP ID:            hCV15983566
SNP Position Genomic:     34767
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,1|T,45)   total(C,1|T,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33995):
GTGAGGGTAGGTAGTCCTTGCTTCTCGTGAATCCTTTGCTGTGAGTCATTTGGAAAGCCAATGACTGCTGTGCAGCATTCAGAATGGCAGTGTTTCTTGG
R
TAACTACTGGGCTCCAGACGCTGTTCTTAAAGCACTTTACATGGTTGCATTTTCAACCACCAACAACCCCACAAGGTAAAGAGTACTGGCATCACTTTAC
Celera SNP ID:            hCV15983493
SNP Position Genomic:     161604
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|G,42)   total(G,42|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33996):
CTACCTATGAGTCCTGAGGGACTCTGAGCAAGGAAAGCCTGCTTACCCCAGGGGACCCTAGGAGGGGACACCTTCAGCCCTGCTCCCATAGCTGACTCTC
S
ATCCCCTCGTGGCTACTTTCACAGAGGATTGTGGCCGTGGGACCAAACCGTGGGTGCCCTTAGCCAGGATAGATGATCGTAAACTATGTCTATGAGTGAG
Celera SNP ID:            hCV15983494
SNP Position Genomic:     169828
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|C,39)   total(G,1|C,39) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33997):
GGGAGAACCCACTCATTCTGCAAAAGCCTCCACTTTCTTTTTTTTTATTTTTATTTTTTGAGATGGAATCTCGCTCTGACACCCAGGCTGGAGTGCAATG
M
GATGATCTTGGTTCACTGCAACCTTTGCCTCCTGGGTTCAAGCAATCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACATGCCACCACGCC
Celera SNP ID:            hCV26561960
SNP Position Genomic:     153556
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,7|C,39)   PGA-EUR(EAN-PANEL(A,3|C,41)   total(A,10|C,80) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33998):
GGGCCAATATTCAACATTCTTAAAGAAAAGAATTTTCAACCCAGAATTTCATATTCAGCCAAACTAAGCTTCATAAGTGAAGGAGAAATAAAATACTTTA
Y
AGACAAGCAAATGCTGAGAGATTTTGTCACCACCAGGCCTGCCCTAAAAGAGCTCCTGAAGGAAGCGCTAAACATGGAAAGGAACAACCGGTACCAGCCG
Celera SNP ID:            hCV26561967
SNP Position Genomic:     138452
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:33999):
AACAGCGGATCTCTCGGCAGAAACTCTACAAGCCAGAAGAGAGTGGGGGCCAATATTCAACATTCTTAAAGAAAAGAATTTTCAACCCAGAATTTCATAT
Y
CAGCCAAACTAAGCTTCATAAGTGAAGGAGAAATAAAATACTTTACAGACAAGCAAATGCTGAGAGATTTTGTCACCACCAGGCCTGCCCTAAAAGAGCT
Celera SNP ID:            hCV26561968
SNP Position Genomic:     138406
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34000):
AAAAGCAAGGCTCAAGACCTACGTGAAGAATGCAGAAGCCTCAGGAGCCGATGCGATCAACTGGAAGAAAGGGTATCAGCGATGGAAAATGAAATGAAAG
M
AATGAAGCAAGATGGGAAGTTTAGAGAAAAAAGAATAAAAAGAAACCAGAAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAATCTACGTCTC
Celera SNP ID:            hCV26561969
SNP Position Genomic:     137939
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34001):
GTAGGTCTTTAAGGGTCCCCAGGTGATTGTGATATAGAGCCATGACTGAGAACTCTTCAATCAGAAGTCCTGGAAGCAAGGCACAGCACTTACGCATCTG
Y
AAAGAGACTTCCAAATAGAAGTGCTGCCCAAGACAGAGGCTTTCCCAGCCTCTTGGTCTTCAAGGTCCAGAGCAAGCTGCTGCAGATCCATCGCAGGTGT
Celera SNP ID:            hCV27506257
SNP Position Genomic:     158919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34002):
AAAACTCTTTCAAGAATGAACAAAACCTGGGGTCGCCTATGGCTCTGCCCCCCTACTTAATGCCAACATCAAATACCTGTTGCGTCTACTTCCTGCTTCC
R
CTGGCACCCCTCCACTTACCTTCCCCCGAGAGTCAGTCAAAGACACCATCATGCCTCCCTTGAGCACTTCAGCACCCTCTGACTGGTTTCCTTGCTCCAC
Celera SNP ID:            hCV2952135
SNP Position Genomic:     51173
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34003):
AGTGAATAAGTTTTGCTCTTGAAGGTTCTCCTGCTTACAATCAAAGTAATTTGCAGACTTGCCTGATTTGTATGTTTCTTCAAGTCAAGAATAATTCTAA
K
GGATTACTCCTGTCCCTTCAGCTATAAGATAACAGAGTGAGAACAAAAATGGCTTGTGAAATCAACCTAACAGAGTATTTCTTCTCTCTTCTCATAGGTC
Celera SNP ID:            hCV15983576
SNP Position Genomic:     59490
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,1|T,45)   total(G,1|T,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34004):
CAAGTGTTTGGAAACAGTCTGGTTTGGTAATAGTCACTATGTTTAAACCCTGATGCAGATGATGCTGTGTATCTGGACAATGAGAAAGAAAGAGAAGAGT
W
TGTCCTGAATGACATCGGGGTAATTTTTTATGGAGAGGTCAATGACATCAAGACCAGAAGCTGGAGCTATGGTCAGGTGAGCCACTTAAAATTTGTTATT
Celera SNP ID:            hCV15983577
SNP Position Genomic:     77015
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34005):
ATGGAATCTGGTGGTCACAGGGTACTTTCTTGGCTCCGGATGCCTTGCTTTGACTTCCATATGGGATCTCCCTGTGTTCCTTACCCACTGCTCCAGTACC
Y
GTGTTATCCTGCCTACCTGGCTTTGTGAACAGCTTCCCTGACTCCGGAGAATTACATGCCCAGTGCTCAGGCTTCCCCGCCTGCATTTCTAATGTCCTGC
Celera SNP ID:            hCV15983578
SNP Position Genomic:     77950
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34006):
TGAAAAGCAAGGCTCAAGACCTACGTGAAGAATGCAGAAGCCTCAGGAGCCGATGCGATCAACTGGAAGAAAGGGTATCAGCGATGGAAAATGAAATGAA
W
GAAATGAAGCAAGATGGGAAGTTTAGAGAAAAAAGAATAAAAAGAAACCAGAAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAATCTACGTC
Celera SNP ID:            hCV26561970
SNP Position Genomic:     137937
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34007):
ACTCTAGAAAGAAGAGCGCCTCTCCTCCTCCAAAGGAACGCAGTTCCTCACCAGCAAAGGAACAAAGCTGGACGGAGAACGACTTTGACGAGCTGAGAGA
M
GAAGGCTTCAGACGATCAAATTACTCTGAGCTACGGGAGGACATTCAAACCAAAGGCAAAGAAGTTGAAAACTTTGAAAAAAATTTAGAAGAATGTATAA
Celera SNP ID:            hCV26561971
SNP Position Genomic:     137691
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,10)   total(A,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34008):
GGGAAAAAACAGAGCAGAAAAACTGGAAACTCTAGAAAGAAGAGCGCCTCTCCTCCTCCAAAGGAACGCAGTTCCTCACCAGCAAAGGAACAAAGCTGGA
Y
GGAGAACGACTTTGACGAGCTGAGAGAAGAAGGCTTCAGACGATCAAATTACTCTGAGCTACGGGAGGACATTCAAACCAAAGGCAAAGAAGTTGAAAAC
Celera SNP ID:            hCV26561972
SNP Position Genomic:     137663
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34009):
ACTGCCTCCTCAAGTGGGTCCCTGACCCCTGACCCCCGAGCAGCCTAACTGGGAGGCACCCCCCAGCAGGGGAACACTGACACCTTACACAGCAGGGTAT
W
CCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAAACAGAAAGGACATCCACACCAAAAACCCATCTGTACATCACCATCATCAA
Celera SNP ID:            hCV26561973
SNP Position Genomic:     137432
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34010):
GAAGGGGCAGACTGCCTCCTCAAGTGGGTCCCTGACCCCTGACCCCCGAGCAGCCTAACTGGGAGGCACCCCCCAGCAGGGGAACACTGACACCTTACAC
R
GCAGGGTATTCCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAAACAGAAAGGACATCCACACCAAAAACCCATCTGTACATCA
Celera SNP ID:            hCV26561974
SNP Position Genomic:     137422
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34011):
ATGCAGCTGGAGATCTGAGAAGGGGCAGACTGCCTCCTCAAGTGGGTCCCTGACCCCTGACCCCCGAGCAGCCTAACTGGGAGGCACCCCCCAGCAGGGG
M
ACACTGACACCTTACACAGCAGGGTATTCCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAAACAGAAAGGACATCCACACCAA
Celera SNP ID:            hCV26561975
SNP Position Genomic:     137404
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,10)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34012):
CATTGCCTCACTCGGGAAGCACAAGGGGTCAGGGAGTTCCCTTTCCTAGTCAAAGAAAGGGGTGACGGATGGCACCTGGAAAATCGGGTCACTCACACCC
R
AATACTGCGCTTTTCCGACGGGCTTAAAAAACGGCGCACCACGAGATTATATCCCGCACCTGGCTCGGAGGGTCCTACGCCCACGGAGTCTCGCTGATTG
Celera SNP ID:            hCV26561976
SNP Position Genomic:     136939
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34013):
ATGAGTGACGCAGAAGACTGGTGATTTCTGCATTTCCATCTGAGGTACCGGGTTCATCTCACTAGGGAGTGCCAGACAGTGGGCACAGGTCAGTGGGTGC
R
CGCACCGTGCGCGAGCCAAAGCAGGGTGAGGCATTGCCTCACTCGGGAAGCACAAGGGGTCAGGGAGTTCCCTTTCCTAGTCAAAGAAAGGGGTGACGGA
Celera SNP ID:            hCV26561977
SNP Position Genomic:     136807
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34014):
CAGCAATCCAGGTAAGACAAAATCCACATACACACACCCAACCATGGTCTTACCCTGGCCTTTGCAATCTATGTCCTGCCATCCCACACCATCACCTGTG
G
CCAGGGAGGGAGGGTTGAGTTGCCAAAGGAGGAAGGGGAGCCTGGAGGCTACTCTAAGAGAGGAATACAGCCCACCTACAGGGTTGATGGGAATGCCTGG
Celera SNP ID:            hCV26561978
SNP Position Genomic:     132592
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,9)   total(G,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34015):
CTGTTGGATTTGGAGGCTGGCAAGCTGTGGACAGCACCCCCCAGGAAAATAGCGATGGTAAAACTGTGTCCTCCCTCTGGGAACTTGCTTCATTGCTGAT
Y
TTTGTTTTGCTTTTATGCTTGCATTTGATGTGTGGGAACCACGCCCATTGGGAGGCAACATCTGAAGTGTGCTTCCTGGGCACATGTACAGTATTAGCTA
Celera SNP ID:            hCV26561979
SNP Position Genomic:     130725
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34016):
GTCAGGAAGAAAGTCCCCTACAAGAAGGGTTTTTTCACTCTGTGTTTATTAAATGCTGGTGATGTGTTTAGCTGTGGTCTGTCCTTTCCTGTAGTTTTAC
R
ATGCCTTGGAATACCAGCAAGAATTGTTACCAATTATTTCTCTGCCCATGATAATGATGCCAATTTGCAAATGGACATCTTCCTGGAAGAAGATGGGAAC
Celera SNP ID:            hCV27861950
SNP Position Genomic:     105737
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34017):
GTGTTTTCTAAGGAACTACCACTGCTGGAATGAAGCATGGATGACAAGGCCTGACCTTCCTGTTGGATTTGGAGGCTGGCAAGCTGTGGACAGCACCCCC
Y
AGGAAAATAGCGATGGTAAAACTGTGTCCTCCCTCTGGGAACTTGCTTCATTGCTGATCTTTGTTTTGCTTTTATGCTTGCATTTGATGTGTGGGAACCA
Celera SNP ID:            hCV27861951
SNP Position Genomic:     130666
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34018):
TACAGAGTCACCCTCAGTGCCATGAATCTTGCAGTATCTGGACAGAATTGGAGATGACAAACTCACACCGCCCTTCCTCTGTGCAATGCAGGCATGTATC
R
GTGTGGCCCCGCCTCGGTTCAAGCCATCAAGCACGGCCATGTCTGCTTCCAATTTGATGCACCTTTTGTTTTTGCAGAGGTAAGCAGGAAGCTGGAGGAA
Celera SNP ID:            hCV27861952
SNP Position Genomic:     132028
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34019):
CAGCCAGAAACAGAATGAGAGTGGCAATCGTTTTATTGATAAGACCCTGGGTGAACAGGGCTGAAAATCAAGAAAGGAAAATGGGAACGGGAGGCCCGTG
R
CAGCTGCCACTGTTGTTTGGGGCATTAAGATCAAGTCCTTTAAGGAGGGGGACCCTTGAATCTCTACCAGACTCCAGTTTGGACTTCCAAGGTTGTTCTG
Celera SNP ID:            hCV15983587
SNP Position Genomic:     104939
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,2|G,44)   total(G,44|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34020):
TGATAATGATGCCAATTTGCAAATGGACATCTTCCTGGAAGAAGATGGGAACGTGAATTCCAAACTCACCAAGGATTCAGTGTGGTGAGTTTGATTGACA
R
TGGCATTGGCTGATGTCACATTATAGTAATGTTACACATTTACCACAAGATAGACTCAATCTGATGTTTCTGTTCTATTTTGAGGACCATTCAACAGCAC
Celera SNP ID:            hCV15983588
SNP Position Genomic:     105886
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,1|A,45)   total(G,1|A,45) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34021):
CCTCTTCCTCCTGGCAGTAGGTCACATAGCCACAGTTAGCCCAAAAGAAGTCCAGGGAAGCAAGCGATGGGCATGGTGGCATGGCATTGTCTTCTCTCCT
R
TGAGAGGTAGGACTTATCACAAGGACAGAGGAGGGAGAAAAATGGTTGCTTCTTAGACAGTTTATTATCTCAGCCTCAAATAATCTTTATTTAAAGTACT
Celera SNP ID:            hCV15983589
SNP Position Genomic:     145472
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,2|G,44)   total(G,44|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34022):
GTGTCACTCAATCCACGAGAGTTGTGTGTTTCAAGAGGAAAGCATGACCAATGTTATTAAATATAACTAGGAGATGCAGTGAGATAGGAACTTCCCACTG
G
AGTCAACAGTTGGGGGACACTGGTTGAACTCGGGTAGATTCCAAATTTTAATGGTCTAAAAGTCAAGGAGATGTGAGGAAATGGGTGTAGTCAATTTGGA
Celera SNP ID:            hCV27073048
SNP Position Genomic:     35096
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|-,7)   total(G,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34023):
CGGGGTTTCACCAAGTTCGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCTGCCTTGGCCTCCCAAGGTGCTAGGATTACAGGCGTGAGCCACC
R
AGCCCGGCCGTCCTCCATACATTTTTTATCTTTGAGCTTGTCATTTACTGAGTCTTCACAATGTGCCAACAGTGTGCTCTGTGTTTGCATTAGTTTTATG
Celera SNP ID:            hCV27454495
SNP Position Genomic:     44938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34024):
CTGTCACCAGGCTGAAGTGCAGTGGCACAATCTCAGCTCACTGTAACCTCCATATCCCAGATTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGG
R
ACTACAGGCACCCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCATCATGTTGGCAAGGCTGGTCTTGATGTCTTGACCTTGT
Celera SNP ID:            hCV26561980
SNP Position Genomic:     130344
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;PGA-AFRICAN-PANEL(A,6|G,42)   PGA-EUR(EAN-PANEL(A,20|G,26)   total(G,68|A,26)
SNP Type:                 INTRON


Context             (SEQ ID NO:34025):
CTGGTGTGTAGTGGGTACATAGTGAAATTAATATCTCTTGAACCAATCAAAAATGGGCTGCACTCAGAGAAAGATGGGAGCATGGGCAAACAGCTGACAT
Y
GAAGGGCGTCTAGGCACGGAACCCGTGGTAGTTGAACCTGAAATTCATCAGTGTCATAAACAAAGACTGCTGTAACTACCTCACCACATTATTAAATCTT
Celera SNP ID:            hCV26561981
SNP Position Genomic:     129399
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34026):
AACAGACTTCCCTGCATTGCATTACATGCTAGCCCCTGCCCTATCTTTTCTTCTGTCTTACAACCTAGATCACTTTTTTTTTTTTTTTTTTAGACAGGGT
Y
TCACTCTGTCTTCCAGGATGGAGTGCAGTGGTGCAATCATGGCTCACTGCAGCCTTGATCTCCCGGGCTCAAGTGATCCTCCCACTCAGCCCCTCAAGTA
Celera SNP ID:            hCV26561982
SNP Position Genomic:     127362
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34027):
CAGAAGTGCTCAGAAAGGGCTTTCTGCTAACTAATGATGGCAAACGTGGTCTGTGTGATGGGGTGGCATCTACTTTCTGAAAATTTTTAATTTTAATTTT
T
GTTGTTTTCGTTTTGTTTTGTTTTATAACTTGTGTTTTATTTTTGCCAAATTTGGTTTCATTCCCTGCCTGTTCCATTTGGAGGTACTACACTAAAAAAA
Celera SNP ID:            hCV26561984
SNP Position Genomic:     122082
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34028):
CCAGAAGTGCTCAGAAAGGGCTTTCTGCTAACTAATGATGGCAAACGTGGTCTGTGTGATGGGGTGGCATCTACTTTCTGAAAATTTTTAATTTTAATTT
T
TGTTGTTTTCGTTTTGTTTTGTTTTATAACTTGTGTTTTATTTTTGCCAAATTTGGTTTCATTCCCTGCCTGTTCCATTTGGAGGTACTACACTAAAAAA
Celera SNP ID:            hCV26561985
SNP Position Genomic:     122081
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34029):
CCCAGAAGTGCTCAGAAAGGGCTTTCTGCTAACTAATGATGGCAAACGTGGTCTGTGTGATGGGGTGGCATCTACTTTCTGAAAATTTTTAATTTTAATT
T
TTGTTGTTTTCGTTTTGTTTTGTTTTATAACTTGTGTTTTATTTTTGCCAAATTTGGTTTCATTCCCTGCCTGTTCCATTTGGAGGTACTACACTAAAAA
Celera SNP ID:            hCV26561986
SNP Position Genomic:     122080
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34030):
ACCCAGAAGTGCTCAGAAAGGGCTTTCTGCTAACTAATGATGGCAAACGTGGTCTGTGTGATGGGGTGGCATCTACTTTCTGAAAATTTTTAATTTTAAT
T
TTTGTTGTTTTCGTTTTGTTTTGTTTTATAACTTGTGTTTTATTTTTGCCAAATTTGGTTTCATTCCCTGCCTGTTCCATTTGGAGGTACTACACTAAAA
Celera SNP ID:            hCV26561987
SNP Position Genomic:     122079
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34031):
GAACCCAGAAGTGCTCAGAAAGGGCTTTCTGCTAACTAATGATGGCAAACGTGGTCTGTGTGATGGGGTGGCATCTACTTTCTGAAAATTTTTAATTTTA
A
TTTTTGTTGTTTTCGTTTTGTTTTGTTTTATAACTTGTGTTTTATTTTTGCCAAATTTGGTTTCATTCCCTGCCTGTTCCATTTGGAGGTACTACACTAA
Celera SNP ID:            hCV26561988
SNP Position Genomic:     122077
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,12)   total(A,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34032):
GGAACCCAGAAGTGCTCAGAAAGGGCTTTCTGCTAACTAATGATGGCAAACGTGGTCTGTGTGATGGGGTGGCATCTACTTTCTGAAAATTTTTAATTTT
A
ATTTTTGTTGTTTTCGTTTTGTTTTGTTTTATAACTTGTGTTTTATTTTTGCCAAATTTGGTTTCATTCCCTGCCTGTTCCATTTGGAGGTACTACACTA
Celera SNP ID:            hCV26561989
SNP Position Genomic:     122076
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,12)   total(A,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34033):
TGCTTGACAGGTCTCAGTTTCTGTGACTTCTACTAACAAAGAGTGTGACCCAACAAGATAACCCATTCCATGGTCAGGTAGCTCTAACAGTAAGGAAACA
K
GTTTTTCTACCATTTGATCCTGCCAATGATCCTAATTCTGCCATCTGGACTGACAGAAAGTAAGGCCCATCTCTTTTCCATCTGATGGTTTGCAAATGTT
Celera SNP ID:            hCV27953512
SNP Position Genomic:     176844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34034):
GATGAATGGTCTCCAATGAACAGATAACGTTCAACCAGTAGAGATGGATGGAGAGACCCCTTCAGATACTAGGAAGAAAATGTTAGCAAGGGCTAGAGGG
R
AGGTGGACGGCAGTATGTAGAGCAGTGAGAAGCGTGCCTTGGCTGGGGTGGAGGCTGGGAGCAGGGATGAGTAAGGGTAACCTGAAAAAGATAGCTTGAG
Celera SNP ID:            hCV27953513
SNP Position Genomic:     165589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34035):
CTGTCACAAGGATGTGTCACTGTAGGGCTTTCTCACTTACGAAGTGGGTATTGATTCTTTGCAGGATCCTGTGTGGTAAGTAGGGCAGCCATTACTCATG
S
ACTTTTACAAGTTAGGACACAGGGTAAGGACAGCTTTCAGTGACAAAGCCACAGCTAGAACTCCGGTCTGCTGACTTCAAATCTAGACATTTTCTACTTT
Celera SNP ID:            hCV27953515
SNP Position Genomic:     80136
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34036):
AGAGGACAGGTCTGTGCGGCTGTCCATCCAGTCTTCCCCCAAATGTATTGTGGGGAAATTCCGCATGTATGTTGCTGTCTGGACTCCCTATGGCGTACTT
Y
GAACCAGTCGAAACCCAGAAACAGACACGTACATTCTCTTCAATCCTTGGTGTGAAGGTAAGAGGCAGACATTTAGTTTTCTCATTTAAAAATTCACCTA
Celera SNP ID:            hCV27536432
SNP Position Genomic:     59782
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:34037):
CATTTGACCAGTAGTTTTCATGATGCCTCTCCAGTGATCACCAGAAATCTCTGCCCAAATGGCTCAAGAGACTTGGCAGAGGAAGGCCGAGGGTTGATGA
K
AGTGGAAGATAAATGTGGGAGCCTCTGTGCTCCTACTTCTCAGGCCCACAGCTGTAGCTTCTGGGGGCATCTGTGGTTGCATCCATGAGACGCCTTCCTG
Celera SNP ID:            hCV15983599
SNP Position Genomic:     161177
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|G,43)   total(G,43|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34038):
CAAAGCAGCTACTCCATTCTGTATTCCCACTAGCAATACACAAAAGTTCCAACTTCATATTCTTGCAAATAACTTTTATTTTCTGTTTTTTTTTTTTTTT
T
AATTATTATTGTAGCCATCCTAATGGGTGTGAAGTGGTATTTCATGGTGGGATTAATTTTCATTTCTCTAATGACCAATGACGTTGAACATCTTTTTGTG
Celera SNP ID:            hCV26561990
SNP Position Genomic:     118578
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34039):
ACTGTATTCCTCTAGCCTGGGTGACAGAGTGAGACTTGGTCTCAAAAATAAATAAATAAAAATAATTAACATCCTTATTAAAATATGCTTCACGGCCTGG
Y
GAGGTGGCTCACACCTGTAATCCCAGCAATTTAGGAGGCTGAGGCAGGTGGATCACAAGGTCAGGAGATCAAGACCATCCTGGCTAACACAGTAAAAATC
Celera SNP ID:            hCV26561991
SNP Position Genomic:     117216
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   PGA-EUR(EAN-PANEL(T,7|C,39)   total(C,86|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34040):
ATCAGGAGTTTGAGAACAGCCTGACCAACACGGTGATAACCTGTCTCTACTAAAAATACAAAAAAATTAGCTGGGCGTGGTGGTGCATGCCTGTAATCCC
Y
GCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGACAGAGGTTGCAGTAAGCCAAGATCATGCCACTGTATTCCTCTAGCCTGGGTGACA
Celera SNP ID:            hCV26561992
SNP Position Genomic:     117041
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34041):
ATCCCAGCACTTTGGGAGGCCGATGCAGGAGGATCACTTGAGATCAGGAGTTTGAGAACAGCCTGACCAACACGGTGATAACCTGTCTCTACTAAAAATA
S
AAAAAAATTAGCTGGGCGTGGTGGTGCATGCCTGTAATCCCCGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGACAGAGGTTGCAGT
Celera SNP ID:            hCV26561993
SNP Position Genomic:     116999
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,5|C,41)   total(G,5|C,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34042):
AGAACCTGAATTACAAACCCAAGGGGGCTGACCCCAGAGCCCACTCTTTTTAAAATGACATCCTTATTGACTGGGCGTGGTGGCTCACACCTATAATCCC
W
GCACTTTGGGAGGCCGATGCAGGAGGATCACTTGAGATCAGGAGTTTGAGAACAGCCTGACCAACACGGTGATAACCTGTCTCTACTAAAAATACAAAAA
Celera SNP ID:            hCV26561994
SNP Position Genomic:     116904
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|A,45)   total(A,45|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34043):
CAATGCCCTGATTTAAGTGCTGACATGTATTAATTTACTTCTACCTCTTAACAGCATGTTAAGGTAATTACTGTTAGTGGCACGGTAACTTAACCAAGGT
Y
CCAGCCAATAAGTGGCAGAACCTGAATTACAAACCCAAGGGGGCTGACCCCAGAGCCCACTCTTTTTAAAATGACATCCTTATTGACTGGGCGTGGTGGC
Celera SNP ID:            hCV26561995
SNP Position Genomic:     116787
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,46)   total(C,46|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34044):
AAATTCAGAATGTAGACCAAATTGCTTAAAGATGCTTAAGGGTTTGTAAAAATATCCCATGATGCATTGCAGTTGCCAATTCTGGACAGTTATCAGAGAT
K
CTTATTTTCAAACATTTTCTTGTTAACCATATTTCTGGCCAAGTTGGTTTTAGGAAAATCACCTGGAGTTAGACCATGAGCCTTAGCATTAGAGGACTGA
Celera SNP ID:            hCV26561996
SNP Position Genomic:     116488
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|G,45)   total(G,45|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34045):
GATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCTTTT
R
TTTTGAGCCTATGTGTGTCTCTGCACGTGAGATGGGTTTCCTGAATACAGCACACTGAAGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTT
Celera SNP ID:            hCV26561997
SNP Position Genomic:     114085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34046):
ATATGCGGTGTTTGGTTTTTTGTTCTTGTGATAGTTTACTGAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTT
T
ATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATATTCTTAATCCAGTCTATCATTTGTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGA
Celera SNP ID:            hCV26561998
SNP Position Genomic:     110552
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34047):
GAGTGTTATGTTCCCCTTCCTGTGTCCATATGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCGGTGTTTGGTTTTTTGTTCTTGTGATAGT
W
TACTGAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCA
Celera SNP ID:            hCV26561999
SNP Position Genomic:     110487
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34048):
TGTGCTCCTGAGGGCCCTTCAGCCTGCTTTGCATTCATAGGCAATTTATCCTCCTTAATCACTAAATCATTAATGGGGATCAATAGCAATGCCACATCAG
W
GAAGGCAGGGGTGCATGCGGGGAGAATAATTGCTTGCTTAGTTTTTAGTTTAGTGGTGCTAACCGGGCTTCGGGTCCATTCTGGGAGGAAACCCTTCTCC
Celera SNP ID:            hCV15809703
SNP Position Genomic:     67701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34049):
CCAAAAACTCATTGCAATTGTTAAAAATGACAAAAAGATAGTTATTTGGCATTCTCCATATCTCTTCCTTAAAAACACACAGACACACACACACACACAC
M
GACAGACACACAGACACACACACACAGCCTTTGTAGCTAAGTGCAGTTCAAAGTTATCTTTCCCAGCTCCTTGATTCAGGTACCTCCCATCATCAAATAA
Celera SNP ID:            hCV26562000
SNP Position Genomic:     107334
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1|-,10)   total(A,1|C,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34050):
GGTTCCTAGTGATAAAAATCAATCATTCCTTATAATAGCAACCACCAAAAAAAGGTCATAGTTTTAGCTGCTGCATATGCCTATACTAGTTCCTCTCTAC
Y
TTGATATATTAATATTACAGTTAATAGCAGAAGTATTGGAGCCAAGCGTTCTCTGGGTCAGTGCCCTGGGACTAATAGAGCTAACATTTATTTAGTATTT
Celera SNP ID:            hCV26562001
SNP Position Genomic:     106157
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34051):
TGTCTGGTGTCCTGGGAGGCAGGGAGGGCATTTGGATTAAGTTTAATCAGTAGGTACATATGGCAAGAAAGGTATTCAGATAATTTGTTATCTATTAAAA
Y
GAACTAAAATGAATCTGTGGTGTCACCCACCAATGCATGTCACAGGAGCAAATTCTGGCCAAGACAGCAAATTCCACCAAGGACCTACTCTGTAAATTCC
Celera SNP ID:            hCV26562003
SNP Position Genomic:     105260
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   total(C,1|T,47) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34052):
TTCTGAAGGAGAAAATAAAAAGGCAAGCCAAGTCATTAATCTTAAAATTGTCAGCTGAATTATTTTCAATGAGCCCTGATGTCTGGTGTCCTGGGAGGCA
K
GGAGGGCATTTGGATTAAGTTTAATCAGTAGGTACATATGGCAAGAAAGGTATTCAGATAATTTGTTATCTATTAAAATGAACTAAAATGAATCTGTGGT
Celera SNP ID:            hCV26562004
SNP Position Genomic:     105181
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|G,44)   total(G,44|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34053):
GGTGAACAGGGCTGAAAATCAAGAAAGGAAAATGGGAACGGGAGGCCCGTGGCAGCTGCCACTGTTGTTTGGGGCATTAAGATCAAGTCCTTTAAGGAGG
R
GGACCCTTGAATCTCTACCAGACTCCAGTTTGGACTTCCAAGGTTGTTCTGTTGAAGGAGGTGGGTAGTCTTTGGTTAAAAATGCTAAACTATTCTGAAG
Celera SNP ID:            hCV26562005
SNP Position Genomic:     104988
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34054):
ATTGATAAGACCCTGGGTGAACAGGGCTGAAAATCAAGAAAGGAAAATGGGAACGGGAGGCCCGTGGCAGCTGCCACTGTTGTTTGGGGCATTAAGATCA
R
GTCCTTTAAGGAGGGGGACCCTTGAATCTCTACCAGACTCCAGTTTGGACTTCCAAGGTTGTTCTGTTGAAGGAGGTGGGTAGTCTTTGGTTAAAAATGC
Celera SNP ID:            hCV26562006
SNP Position Genomic:     104973
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34055):
GGGATAATGTGAATTAGTGTTCAGCCAGAAACAGAATGAGAGTGGCAATCGTTTTATTGATAAGACCCTGGGTGAACAGGGCTGAAAATCAAGAAAGGAA
R
ATGGGAACGGGAGGCCCGTGGCAGCTGCCACTGTTGTTTGGGGCATTAAGATCAAGTCCTTTAAGGAGGGGGACCCTTGAATCTCTACCAGACTCCAGTT
Celera SNP ID:            hCV26562007
SNP Position Genomic:     104918
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34056):
GAGGAACAGGTGCCCTAAAGTCAAGCCTCACTTTCTTGAAATTATGAGTAAGGCAGAGTCTTGACCAAGTCGTGTCTGGGATAATGTGAATTAGTGTTCA
K
CCAGAAACAGAATGAGAGTGGCAATCGTTTTATTGATAAGACCCTGGGTGAACAGGGCTGAAAATCAAGAAAGGAAAATGGGAACGGGAGGCCCGTGGCA
Celera SNP ID:            hCV26562008
SNP Position Genomic:     104841
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,10|G,38)   PGA-EUR(EAN-PANEL(T,12|G,34)   total(G,72|T,22)   (T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34057):
CTAAAATAATAAATAACAAAAGATATATATTGCTTATTTATCATTGAGAAGTTGTATAAATATGCGTATTTATTTATTATTGAGAATTTTATAAATATAT
M
CACTTAATTTTTATCCCAGTTATGGAAGGTATTATAGCAGGTGGTCTCATATTCATTTTTCCACATTTCTCAATGCCCCTGAGCAATTAGAGATCAGAAC
Celera SNP ID:            hCV26562009
SNP Position Genomic:     103659
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;PGA-AFRICAN-PANEL(A,10|C,36)   PGA-EUR(EAN-PANEL(A,21|C,25)   total(A,31|C,61)   (C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34058):
ATTCCCCTAATTTGCCTTCACCCTTGCTCCTATGTCTGTTTCTCTCTGTCTTCACACTTGTATCTTATGATGACCTCTTTCACTTACAAGAATTCATAAA
Y
GTGGCTCATTTGCACCCACATAATTGAAACTGTACTCCACCAGAAAGCGCTGGTCTGAACTCAGGGAGGACGGACTGTGGGCATTCCCTGGCTTTTCCAC
Celera SNP ID:            hCV29335183
SNP Position Genomic:     39276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34059):
TGGTCCCTAGGGTAATAGAGTCGCTGATGTCTTTGTCACATTAAGGGTGCCACACAGAGCACTTATGAAGGGCCATGGGTATCGGAATGAGAACACTCAG
M
ACATCCACAAACGCTTCCTCCCTGACTGCCTCCTGTGCTTTCTCCCCTCTTTCCTATTCCCCTAATTTGCCTTCACCCTTGCTCCTATGTCTGTTTCTCT
Celera SNP ID:            hCV29335188
SNP Position Genomic:     39120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34060):
GGCATGTGCCACTATGCCCAGCTAGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAATTCCTGACCTCAAGCAATC
Y
ATCTGCCTCATCCTCTCAAAGGGCTGGGATTACATGCCTGGCCAAAAAGATCAGCATTTTGATTATATTTATTACTTTCTAGAATTTAAAATATAAATTA
Celera SNP ID:            hCV26562010
SNP Position Genomic:     99393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34061):
GTCTACCCAGCTCTGGAGTGACACTGGGCATTGTCTGCACAGAATCCTGTGATGTGAGCCATCTCTGGGTCCCTCTCAGCCACCGGAATAGCGCCTATTC
Y
GGTGGAGGTGGCAGGGGGTACAATGGACACTGTTAGGGTTCTTAGCTTTGGTGTTTAATGCTCTATTTTTGTGCTGGTTGGCTCCCTGCCAGGAGGTGGT
Celera SNP ID:            hCV26562012
SNP Position Genomic:     97191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34062):
ACACAGGCCACTTCAAATTGTGCTTGACAGGTCTCAGTTTCTGTGACTTCTACTAACAAAGAGTGTGACCCAACAAGATAACCCATTCCATGGTCAGGTA
R
CTCTAACAGTAAGGAAACAGGTTTTTCTACCATTTGATCCTGCCAATGATCCTAATTCTGCCATCTGGACTGACAGAAAGTAAGGCCCATCTCTTTTCCA
Celera SNP ID:            hCV28018442
SNP Position Genomic:     176824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34063):
AAGAGGCTGAAGATAGGGTTCCAATCCCTTCTAGATTGTAGGGTTTCTGCTGAGAAATTTGCTGTTCATCTGATAGGTTTTCTTTTATAGGTTACCTGAT
S
CTTCTGTCTCACAGCTCTTAAGATTCTTTTCTTTGTCTTAACTTTGGATAACCTAATGACAATGTGCCTAGGCAAAGATCTTTCTGCAATGAATTTCCTG
Celera SNP ID:            hCV26562013
SNP Position Genomic:     96221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34064):
TTAGCAGTTCTTGTAGTGGTGGCTTGGTAATGGTGAATTATCTCAGCATTTGTTTGTCTGAAAAAGGCTGTATCTTTCTTTCATATATGATGCTTAGTTT
Y
GCTGGATACAAAATTCTTGGCTGATAATTGTTTTGTTTGAAGAGGCTGAAGATAGGGTTCCAATCCCTTCTAGATTGTAGGGTTTCTGCTGAGAAATTTG
Celera SNP ID:            hCV26562014
SNP Position Genomic:     96081
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34065):
GTTGAAATGTGAGGTACCATTACATTCATCATGCTCTTTGTTGCCTGTGTACTTTGGTTTTTTTGTTTTTTGTTTTTGCTTTTTAACTTGTATTTTTGTT
Y
CATAGGTCCTGTGTGATTTATGCTTTAAAGAAGTTCTGTTTTGATGTGTTTCCAGGATTTGCTTCAAGATTTAGAGCTCCTTTTAGCAGTTCTTGTAGTG
Celera SNP ID:            hCV26562015
SNP Position Genomic:     95898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34066):
TTCAGTTCTGTATCTTTTAAATATAGCATTTAGGCCATTTACATTCAATGTTAGTGTTGAAATGTGAGGTACCATTACATTCATCATGCTCTTTGTTGCC
Y
GTGTACTTTGGTTTTTTTGTTTTTTGTTTTTGCTTTTTAACTTGTATTTTTGTTTCATAGGTCCTGTGTGATTTATGCTTTAAAGAAGTTCTGTTTTGAT
Celera SNP ID:            hCV26562016
SNP Position Genomic:     95843
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34067):
AGGTTATTTGGATTTTCTCTCTTTTTGGTTAATTTTGCTAATGATCTATCAATTTTATTTATCTTTTTAAATAACCAGCTTTTTGTTTCATTTATCTTTT
R
TATTTTTGTTTGTTTCAATTTTGTTTAGTTCTGCTCTGATCTTGGTTATTTCTTTTCTCCTGCTGGGTTAGGGTTTTGTTTGTTCTTGTTTCTCCAGTTC
Celera SNP ID:            hCV26562018
SNP Position Genomic:     94760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34068):
AGTCCTTGGGGTTTTCAAGGTAAACAATCATATCGTCAGCAAACAGTGACAGTTTGACTTCCTCTTTACCTATTTGGATGTCCTTTATTTCTTTCTCTTA
W
CTTATTGCTCTGGCTAGGACTTCCAGTACTATGTTGAAGAGGAGTGGTGACAGTGGGACTCCTTGTCTTATTCCAGTTCTCAGAGGAAATGGCTTTCAAC
Celera SNP ID:            hCV26562019
SNP Position Genomic:     93793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34069):
CCCGGGTTCATACCATTTTCCTGCCTCAGCCTCCTGGGTAGCTGGGGACTACAGGCGCCCGCCACCAGGCCTGGCTAATTTATTGTATTTTTAGTAGAGG
Y
GGGGTTTCACCAAGTTCGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCTGCCTTGGCCTCCCAAGGTGCTAGGATTACAGGCGTGAGCCACCG
Celera SNP ID:            hCV27072351
SNP Position Genomic:     44838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34070):
GTAACAGTTTTATTAAGAAAAATTTTAATTACAAAGCAATATCTAACCCATCCTTTGGTTTATAAAGCAGCTTAAACCTCTTTTTTTGGAGTGAACGGTC
R
TAGATACATCTGAGGACCCAGGTGCTCAATGGGCATTGTCCTTGGCATTTCTAAATCACCAAGGAACTTTTTCGCATTTACCCATATGGATTTTAATTTT
Celera SNP ID:            hCV26562020
SNP Position Genomic:     86281
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34071):
GTTCAACCTGGCTTATAAAGAAAGGTATTTTCAAAGTGATGCAAAGAATACTGCAAGGGGTGTGCCCAATTCAAAGAAATAGCTTCTTTTTTTTTTTTTT
T
AAGTGTTAGCCTAGGGTACTGCTAATTAGAAAAGAGTGTTATCATTTCATCAAAGGAAGGGCCACTGAGCTTTTACATAGAAAGATTTTATCAGCTGCAA
Celera SNP ID:            hCV26562021
SNP Position Genomic:     77490
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34072):
ATCTCATTAGTTCAACCTGGCTTATAAAGAAAGGTATTTTCAAAGTGATGCAAAGAATACTGCAAGGGGTGTGCCCAATTCAAAGAAATAGCTTCTTTTT
K
TTTTTTTTTAAGTGTTAGCCTAGGGTACTGCTAATTAGAAAAGAGTGTTATCATTTCATCAAAGGAAGGGCCACTGAGCTTTTACATAGAAAGATTTTAT
Celera SNP ID:            hCV26562022
SNP Position Genomic:     77481
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34073):
GTGAGCCACTTAAAATTTGTTATTGTCAAGGACATTTTTACTTCATATTTTTTGTCACATGTATCCCTACAGGATCCCATATATCGATATTAGACAAGCA
Y
AATTTCCTGCTTTTTAGGATCTGAGACTCCAAGGCAGAGAGCATAGGAGTAGGGACTCATAAAGACAACTGCGTAATTTATCAGCTGAAACCACATATCT
Celera SNP ID:            hCV26562023
SNP Position Genomic:     77192
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34074):
AAATGTCATCATTTACAGACTGAATTTGGTGCTGATTATGTTCACCATTACTAAAAATATTGGGAAATGAGCTATGCTTGGTGAAACAAAGGGCATTTTT
T
AAAAATTTGGCTGATTAAATGTAGTTTAGAAACAAAATAAACTTGCATAAACTTGCAAGTGTTTGGAAACAGTCTGGTTTGGTAATAGTCACTATGTTTA
Celera SNP ID:            hCV26562024
SNP Position Genomic:     76859
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34075):
GACTCATTTAGGTGAATGCCAAAGATGACGAAGGTGTCCTCGTTGGATCCTGGGACAATATCTATGCCTATGGCGTCCCCCCATCGGCCTGGACTGGAAG
S
GTTGACATTCTATTGGAATACCGGAGCTCTGAGAATCCAGTCCGGTATGGCCAATGCTGGGTTTTTGCTGGTGTCTTTAACACATGTAAGTATCCAACTG
Celera SNP ID:            hCV27540342
SNP Position Genomic:     103131
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34076):
TTTTTTTGGAGGAAGGGGCAAAAATATTTCATAAGTCACGCCATTGCTTCCTAGGACATTCATCCTGGCAGAAGATACATATATTTAGGTTTGTCAATAG
Y
ATCTGGTTCACGTTTTATCAGTCTCATCCACCCGTTACGAAGTTCTCTTCTTAACGAATTATTTCTGCCTCAATTCGTTACTTCATTAGGGATTGCAAGA
Celera SNP ID:            hCV26562025
SNP Position Genomic:     76024
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34077):
TTGGCTATTTTCTCTCTCTCTCTCTCTCTTTTTTTTTTTTTTTTTTTTTGGGACAGATTCTAGCTCTGTTGCCCAGCCTGGAGTGCAGTAGTGCTATCTC
R
GCCTCCTGGGCTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGATTACAGGCACACACCACCATGCCTGGCTTATATTTTTATTTTTAGTAGA
Celera SNP ID:            hCV26562026
SNP Position Genomic:     74806
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34078):
ATTTACCTTTGGGCAAGTCCTTCAATCTTTCTTCTTTTTCAACATATTAGTTTTTGGCTATTTTCTCTCTCTCTCTCTCTCTTTTTTTTTTTTTTTTTTT
T
TGGGACAGATTCTAGCTCTGTTGCCCAGCCTGGAGTGCAGTAGTGCTATCTCGGCCTCCTGGGCTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCT
Celera SNP ID:            hCV26562027
SNP Position Genomic:     74753
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34079):
TGTTCTTCACAGCTGGCTCTTCCTATAGACATGTGGGACCCCCTGCTGCAGGCCTGTCCCAGCTGCTTGGTGGAAGCAGCTTTTGCTACCCTTCTGGGCT
R
TTGCGCAGGTTTCATTTATGAGCTCAACCCTGAACCTTCCCTGACAGCAGCAAGGCCTGTGTGCGTACCTAATTATGAAGTGACGGCCTGTCCCTGTGAA
Celera SNP ID:            hCV1860605
SNP Position Genomic:     162302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34080):
AATTTACCTTTGGGCAAGTCCTTCAATCTTTCTTCTTTTTCAACATATTAGTTTTTGGCTATTTTCTCTCTCTCTCTCTCTCTTTTTTTTTTTTTTTTTT
T
TTGGGACAGATTCTAGCTCTGTTGCCCAGCCTGGAGTGCAGTAGTGCTATCTCGGCCTCCTGGGCTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGC
Celera SNP ID:            hCV26562028
SNP Position Genomic:     74752
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34081):
GTCCTAACTTTTGGAGCAAACTCCTCATAAAGCAGCATGTTCTCCCATGCTTGAAGCTTAGTCTGGAATCTTTGGGTTAGAGGGAATGACTGTTTGGTTC
R
TGGCTGTATCTCACTTAAAACAGTGCCTAGGGCCAGGCACAGTGGCTCACGCCTGTAATCCCAGCACATTGGGAGGCCAAGGCGGGTGGATCTCTTGAGG
Celera SNP ID:            hCV1640055
SNP Position Genomic:     50698
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,14)   total(G,2|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34082):
AAATTGGGGTCCAAAGTTTAATTTACCTTTGGGCAAGTCCTTCAATCTTTCTTCTTTTTCAACATATTAGTTTTTGGCTATTTTCTCTCTCTCTCTCTCT
Y
TTTTTTTTTTTTTTTTTTTTTGGGACAGATTCTAGCTCTGTTGCCCAGCCTGGAGTGCAGTAGTGCTATCTCGGCCTCCTGGGCTCAAGCGATTCTCCTG
Celera SNP ID:            hCV26562029
SNP Position Genomic:     74733
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34083):
GACAGAGAGAGCACAGGAGACACACCCTGACATCTCCCCTCCTCCTGCTTCCAATCCTCTCTTTGGCCGAACCTACCTCGAAGTCAGAGAGCAGAGGAGC
R
TGGGAACATGGCTTCCTGTGGAACCTGACAGAAGATTCTAGGGGTGCAGGCAATAGGTCTGAGAACAGCCAGTCTGTCAATAGGTGGAGTTGCTGAGACA
Celera SNP ID:            hCV1640056
SNP Position Genomic:     50201
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34084):
TAAGGATTGTTATTAAGAAGTTATTTATCATTATTGTTGCTACGATTTGAAAGTAGAGGGGGTCGCTGTTTGTACTTACATGGCTTCCTCCAGAGGGAAT
K
CCCGAATTCTCAGACAGCTCATTTAAAGCTTCCAAAATGACAAATATTCCACAGGTATCTGCTGCGTCCTCTCCTGTCCTGATTCCTGACTTCACATTTC
Celera SNP ID:            hCV1639802
SNP Position Genomic:     143318
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,7)      total(G,5|T,7) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34085):
ACATCCCACCCCAACACACATATACAAAAGCCACCCCATACAGGTGTTTCTCGTCTCCTCTCTCCGCAAAGGACAGTGCTGTTGGTCTGTCCTGAGATTT
Y
AGCCTACAGGAATTTCTGAAGCCATATTCAAGGTGGGGGGGCAGGAATCAGCCACTTTCATATTTTGCTTGTTTCCCTGGAAAACCACAAGCTGTTATAA
Celera SNP ID:            hCV1639803
SNP Position Genomic:     143120
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34086):
TCACTCTGTGTAGGAAGAATGCTTTGCATGCTTTGTTCCCTCTCTGCATTCAAGTCTCTGCTCTGGTCACCTCTTCAAAGAGGCCTTCGCTCACCCAACT
S
CACCTAAAATATCACCATCTGCCCTGTTGTTTTCATCCTCCAACCTTAGTGTGTACTCCATTTCTCCCTTCTAGAATATGAGCTCCATGAAGGTAGAAGC
Celera SNP ID:            hCV1639804
SNP Position Genomic:     135959
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34087):
TACAATAAAACTGAACATAAATTCCTACAAGATTCCATGGCTTCCCTTCCACTTCATCCCTTGTTTATTTCCCTCCAGCCATACTGAGATTTTTCTCTTC
R
GAAAGCATCCACACATCCTCTTGTGTCAGCACTTTTAGACATACTGCTCCTTTTGCTAGGAAAGCTCCCCTCACTATCTTTCACTCTGTGTAGGAAGAAT
Celera SNP ID:            hCV1639805
SNP Position Genomic:     135778
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34088):
ATTATAATTACTCCTTTCTCACCCACTGCAGAGGCGTGTCTGACAGAGGGTACAATTTGTTGCTTTGGCATGGGCTGCGCTCCAGGGGCTGAGCCATTTT
K
AAGAGATGTTTGAGTTGATGAAAAGTGTATGAGGAATCTTTTCTCAAGGGTGCCTGCAGTGGGACCCCATGGGGAGTGTCATATGAGTCGATATGACTCA
Celera SNP ID:            hCV1639806
SNP Position Genomic:     134381
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(T,-|G,-)   JBIG-allele(G,537|T,962)   total(T,962|G,537) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34089):
AATGTTAATATTTAGAAAGCAAAACGAACATCAAAATTCAGACAGCAAGATCAGGAATTTGAAACACACAAAAGACCAGTGTTCATCTCATCGTACCTGC
Y
GTGGCAGTTTACAGAAGCCTTTGGAGACCAAGCTTACTGGACTTGGAATTTTATCCCCTCGTTTTCACTTTGGGATTTGAAGATTTCCACAAACCTCCCA
Celera SNP ID:            hCV1639807
SNP Position Genomic:     133957
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;(C,-|T,-)   JBIC-allele(T,477|C,820)   total(C,820|T,477)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34090):
GAATGCATACTGGTAACCATTGCACTCTAGTACTCCAGGAGGAACAAATAGTTATTATTAATGTACACCAGGCATTGTACTGGGGGGAATTCTAAGGTTC
R
AGTCTTTAAGAAACGTATTTCTAGATGCCAGGTGACAGGGCACAAACACACTGAACATGAAATAACAACAATACTTGTCAGGTGGGCCATGTAGAGAGCA
Celera SNP ID:            hCV1639808
SNP Position Genomic:     133170
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34091):
AATAAAATCGAGGCAAAGAGTGATTAAGTGACTTTCTCACAACCATCTAGCTAATAAATAGCAGTGCTAAGATTTGAAGCCAGGCAGATACCTGAATGCA
Y
ACTGGTAACCATTGCACTCTAGTACTCCAGGAGGAACAAATAGTTATTATTAATGTACACCAGGCATTGTACTGGGGGGAATTCTAAGGTTCAAGTCTTT
Celera SNP ID:            hCV1639809
SNP Position Genomic:     133077
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34092):
ATAAATTGGGGTCCAAAGTTTAATTTACCTTTGGGCAAGTCCTTCAATCTTTCTTCTTTTTCAACATATTAGTTTTTGGCTATTTTCTCTCTCTCTCTCT
C
TCTTTTTTTTTTTTTTTTTTTTTGGGACAGATTCTAGCTCTGTTGCCCAGCCTGGAGTGCAGTAGTGCTATCTCGGCCTCCTGGGCTCAAGCGATTCTCC
Celera SNP ID:            hCV26562030
SNP Position Genomic:     74731
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,10)   total(C,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34093):
TTTATCTGATGGAAAAGTCTCATTATAGAAATAAAAAATAATAAAAGCATAAAAAGAGCTCAAAGATCTACAAATTAGAGACACTAACAATTAACATTTT
S
TTGTAATGTCATCCATTTAAAGTATTTTCAGTGCTTTTCATTTTTAATTGGCAATTAATTGAATATATTGTTCTTTTCAAATAAACACACATGTACATTT
Celera SNP ID:            hCV26562031
SNP Position Genomic:     73096
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,9)   total(G,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34094):
TATGATGAACCGCTCCCCCCAACACACACACAAGCACATACACTGTAGCCCAGCAGTCCCCTGCAGTTTTATGCTTGTGTGTGTGTTAATGCATAACAAA
R
GATTCAGCGCTATGGCCTGGTAACTGGAAAGTAGGTCAAAAGAGAGGGGTGAGACTGTCGCCCAAGTGAAAAAGATAGCAGAAGATAAGAAGGAAAACTG
Celera SNP ID:            hCV26562033
SNP Position Genomic:     67381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34095):
ATATCTCACTTACCATTCTTTTCACCTCTCTGTCATACCTATGGTGACCCCTGATTCATGACTCTTGTCCTCCATACATTTTTTTTTTTTTTTTTTTTTT
T
GAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCATACCATTTTCCTGCCTCA
Celera SNP ID:            hCV27072366
SNP Position Genomic:     44665
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,10)   total(T,10|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34096):
TCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGA
R
CACATCAGAATCACCTGGAGGGCTTGTTCAGCCACTTCTGTGCAGCACCCTCAGGTTGAGTAGGTCTGAGGCCTGGCCTGAGAATTTGCATTTCTAACCA
Celera SNP ID:            hCV26562034
SNP Position Genomic:     66294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34097):
TATATCTCACTTACCATTCTTTTCACCTCTCTGTCATACCTATGGTGACCCCTGATTCATGACTCTTGTCCTCCATACATTTTTTTTTTTTTTTTTTTTT
T
TGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCATACCATTTTCCTGCCTC
Celera SNP ID:            hCV27072367
SNP Position Genomic:     44664
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,10)   total(T,10|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34098):
CAGTGATGGAAGCAGCGAGAACCAGTCCGATCTGGGCATGTGCTGAAGGTGGAGCCCGCCTGATTGGCTGAGAGACTGGATATGTGGTGTGAGAGAAGGA
R
GGTATGGAGGAAGCCAAATGAGTGATGAATGTGAAATGTGTGCCACATGGTAGAATCTTAGTAAATGGTAACTTCCAACATGTTTACATTTGGGGAAACT
Celera SNP ID:            hCV1860613
SNP Position Genomic:     156465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34099):
GTATATCTCACTTACCATTCTTTTCACCTCTCTGTCATACCTATGGTGACCCCTGATTCATGACTCTTGTCCTCCATACATTTTTTTTTTTTTTTTTTTT
T
TTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCATACCATTTTCCTGCCT
Celera SNP ID:            hCV27072369
SNP Position Genomic:     44663
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34100):
CACACACACCCCGGGGTTCTTGATTCATTCCCCTAACCTTTATTTAGTGCTTGCAAGTCCAGGTTCTGTTTTATGCTGGAGACACAGCAATGCCTATTCT
K
ACTGAATTTCTGATCTCATGGGGGAACCAAACAAACAAGTGAATCTATAGTATAGTTATATGGGTAATAGAAAAATACAAAGCAGGTTAAGGAAAACGGG
Celera SNP ID:            hCV1860614
SNP Position Genomic:     155835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34101):
TTGCAAATAGACAATTCTGGATGTAAGCGATGACTGTGTCACCTACCAGCTGTGTTTCCTGAGCAAGGTACTTAAGCACTCTGAGCTGTCTCTCCTCATC
Y
GCAAAGGGGAAAAACAGCACACACACCCCGGGGTTCTTGATTCATTCCCCTAACCTTTATTTAGTGCTTGCAAGTCCAGGTTCTGTTTTATGCTGGAGAC
Celera SNP ID:            hCV1860615
SNP Position Genomic:     155717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34102):
AGCTCTCCATCACCTTCCGGAACAACAGCCACAACCGTTACACCATCACAGCTTATCTCTCAGCCAACATCACCTTCTACACCGGGGTCCCGAAGGCAGA
R
TTCAAGAAGGAGACGTTCGACGTGACGCTGGAGCCCTTGTCCTGTAAGCTAACAATGGTGTGGTTCTTTGTGAGACTCGCTGTCTGGCCCCTGTCTTGCT
Celera SNP ID:            hCV1860618
SNP Position Genomic:     153281
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,36|G,4)   total(A,71|G,5)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,5|A,91)      total(G,5|A,91);WIAF-CSNP-P(1(G,11|A,97)   total(G,11|A,97)PGA-AFRICAN-PANEL(G,1|A,39)   PGA-EUR(EAN-PANEL(G,7|A,37)   total(G,8|A,76)   (A,-|G,-)   (G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34103):
GGCATGGGTGTTGGGGGCAATGGCAATTGAGTGAGATAGGGAAGAACGGGGCAGGAGCCCTCAAGGGTCAGCTCAGCAAACAGCAAGTGGGACAGGCCCA
R
GTGGAAGGAGAGATGAGGAAGACAGGTCTTATTGGGGGGCAGGTATTCACAAATCAGAGAGAAAAGTTACATTGCAGGAGGTGGAATGGCAAGAGGCAAT
Celera SNP ID:            hCV1860619
SNP Position Genomic:     152546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;(G,-|A,-)   no_pop(G,-|A,-)   JBIG-allele(G,483|A,1012)   total(G,483|A,1012)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34104):
GGAAGCATTCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATTAGGCAG
R
AGAAGGAAATAAAGGGTATTCAATTAGGAGAAGAGGAAGTCAAATTGTCCCTGTTTGCAGACGACATGATTGTATATCTAGAAAACCCCATTGTCTCAGC
Celera SNP ID:            hCV29335420
SNP Position Genomic:     29913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34105):
AAATCAATAAATGTAATCCAGCATATAAACAGAACCAAAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAAC
S
CTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATGGGATGTATTTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAAT
Celera SNP ID:            hCV29335422
SNP Position Genomic:     29701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34106):
AGCAGGAAGCTGGAGGAAAGTGCTGTTTTTCTCCCCAACCTCTTAACACATGAAAGAGTAAGCTAAAAGTTGTTGTTTCTAAGTTTTCCAGGTACATAGC
R
TATGCTTCGTGTTGACAAAGGTAACTAGGCATTATTCCAACTTCCAGGCTATTAATGCTAAATGCAGTTCTTGTTTAACATTTTTCTTTCCTTGATGTTT
Celera SNP ID:            hCV1639811
SNP Position Genomic:     132211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;PGA-AFRICAN-PANEL(A,2|G,40)   PGA-EUR(EAN-PANEL(A,16|G,30)   total(G,70|A,18)JBIC-allele(A,421|G,1074)   total(G,1074|A,421)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34107):
AAATCAGCAATGAAGTTGGGAACACTGGTCTTTACAGAGTCACCCTCAGTGCCATGAATCTTGCAGTATCTGGACAGAATTGGAGATGACAAACTCACAC
Y
GCCCTTCCTCTGTGCAATGCAGGCATGTATCGGTGTGGCCCCGCCTCGGTTCAAGCCATCAAGCACGGCCATGTCTGCTTCCAATTTGATGCACCTTTTG
Celera SNP ID:            hCV1639812
SNP Position Genomic:     131996
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,16|T,4)   total(C,44|T,4)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(T,-|C,-)   ;(T,-|C,-)   PGA-AFRICAN-PANEL(T,6|C,40)   PGA-EUR(EAN-PANEL(T,16|C,28)   total(C,68|T,22)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34108):
TAAATCAGCAATGAAGTTGGGAACACTGGTCTTTACAGAGTCACCCTCAGTGCCATGAATCTTGCAGTATCTGGACAGAATTGGAGATGACAAACTCACA
Y
CGCCCTTCCTCTGTGCAATGCAGGCATGTATCGGTGTGGCCCCGCCTCGGTTCAAGCCATCAAGCACGGCCATGTCTGCTTCCAATTTGATGCACCTTTT
Celera SNP ID:            hCV1639813
SNP Position Genomic:     131995
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(T,-|C,-)   ;(T,-|C,-)   PGA-AFRICAN-PANEL(T,1|C,45)   PGA-EUR(EAN-PANEL(T,6|C,38)   total(C,83|T,7)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34109):
CATGGGGACATTTTACAGGTGACTAATAGCAGCTAATCTCTTATTAACTATATAGATAGGTGGTTAAAATTTAAAGCATTTTAGAAGAGTAACATAGGCC
Y
TCTGACTTCCTAAATGCATGGTGGGCATGGCCAAAATGCACAGGCAATGTCCAAATTCTCCAGTTAAACTTGACATATGTTCATAATGTCCAAAAACAAA
Celera SNP ID:            hCV1639814
SNP Position Genomic:     131533
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;(T,-|C,-)   PGA-AFRICAN-PANEL(C,6|T,42)   PGA-EUR(EAN-PANEL(C,22|T,24)   total(C,28|T,66)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34110):
CATTGAAGGGCGTCTAGGCACGGAACCCGTGGTAGTTGAACCTGAAATTCATCAGTGTCATAAACAAAGACTGCTGTAACTACCTCACCACATTATTAAA
Y
CTTTCTTTATTACTATATGAACATTTTCTATAGTGCTGAGGGGTTAATGTGCTCTCATTTGATTCTGTACTGTCATATAATTTCAGGTCTTTTCAAGGAC
Celera SNP ID:            hCV1639816
SNP Position Genomic:     129496
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34111):
ATTTAGATCTTCTTCTTAAATTATTCCAATGGCTTTTTATAGCCTAAGAATAAAGCATGAATGTTTAATTTGATATCAAAGGATTTCACAATCTTATCCT
Y
ACCTATATCATAGGTCAGTGTTGAAGAGTGTGGATTTCAGAGCTCTATCACTAACTAGCTGTGACCTCAGCAAGGTTCTTAACCTTCCTGGGTTTCAGCT
Celera SNP ID:            hCV1639818
SNP Position Genomic:     128253
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34112):
GGTATATCTCACTTACCATTCTTTTCACCTCTCTGTCATACCTATGGTGACCCCTGATTCATGACTCTTGTCCTCCATACATTTTTTTTTTTTTTTTTTT
T
TTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCATACCATTTTCCTGCC
Celera SNP ID:            hCV27072370
SNP Position Genomic:     44662
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,10)   total(T,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34113):
GCAGGGTCGCCTTTTTAATGTCTTGCCAGAGCCCAGCATCCTTGGGGACTGGGGGATGCAAGTTTTGGTAGAACCTTCTGCCATGGCATGGGTGTTGGGG
R
CAATGGCAATTGAGTGAGATAGGGAAGAACGGGGCAGGAGCCCTCAAGGGTCAGCTCAGCAAACAGCAAGTGGGACAGGCCCAAGTGGAAGGAGAGATGA
Celera SNP ID:            hCV1860620
SNP Position Genomic:     152462
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;(G,-|A,-)   JBIC-allele(A,430|G,1069)   total(G,1069|A,430)   no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34114):
CCCTTCATCTCCACCACAACCACTTTGCAAACCCTGCACAAAACATTTTCCTAAAAGCAGCACACACACCTCGAACTGCATTAGAACTTAGGTGCACCAC
Y
GCCTGTCAACAGATGTCCCTCAAAAAACTGCCCTCCGTGTCAGATGAGTTTGGGAAACCTTGTGTAAAGAAAGGCAAAGAGGTGTCCTTGCTGCTGGGCT
Celera SNP ID:            hCV1860621
SNP Position Genomic:     152162
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34115):
GCTGTGAAGTTGCTTGTGGCTGGCTTCAAGGCTTCTTCTCCCATTCACCTCACCTTGGCCAGCTCAGCTCCTCTCTGATGTGTTCCTGATGCTCGAATTT
S
CCTCCTGCATTTTGCCTCAATGCATCTCTGGCCCGCATCCAAAGTGATCATCATTAATGTTCTCTTCTCATGGATCTATTGGCCAGATGATTTCTGCTAA
Celera SNP ID:            hCV1860622
SNP Position Genomic:     151109
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,7)      total(G,2|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34116):
CCTGCACCCATGGCAGGCTGTGAAGTTGCTTGTGGCTGGCTTCAAGGCTTCTTCTCCCATTCACCTCACCTTGGCCAGCTCAGCTCCTCTCTGATGTGTT
M
CTGATGCTCGAATTTCCCTCCTGCATTTTGCCTCAATGCATCTCTGGCCCGCATCCAAAGTGATCATCATTAATGTTCTCTTCTCATGGATCTATTGGCC
Celera SNP ID:            hCV1860623
SNP Position Genomic:     151093
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,7)      total(A,3|C,7) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34117):
ATATAGTGCCTGACACATAATAAGTGTCCAATAAAAGTTTCCCCTATTACTAGTAATTCTGTTATTCCTGCCATACTACTGCTATTAGTTTGGGCTATGA
W
TAGTTTTCTCCTGGAAAAATACTTGCTCTAGCTTCCCAATTCCACCTCACCTCCTCAGGCCCTCCTTCCCTCAGTCTAGCCCCTGCCTTGCTGCCAAAGT
Celera SNP ID:            hCV1860624
SNP Position Genomic:     149696
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,9)   total(A,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34118):
TTTCCTGTAGTTTTACGATGCCTTGGAATACCAGCAAGAATTGTTACCAATTATTTCTCTGCCCATGATAATGATGCCAATTTGCAAATGGACATCTTCC
Y
GGAAGAAGATGGGAACGTGAATTCCAAACTCACCAAGGATTCAGTGTGGTGAGTTTGATTGACAATGGCATTGGCTGATGTCACATTATAGTAATGTTAC
Celera SNP ID:            hCV27540438
SNP Position Genomic:     105821
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34119):
ATCCACATAGATGGTTGTAAGCGACGACTCATCCTGCTTCGGGGCTGGAGTTTGACCCCAAGTGGATAGTTTCTTAATCAAGGGTGGCATACACATTTCA
R
ACTGGAACTTTGGAAGTGACCAAGTAGAATGTTGTTTTGAGAAGAACACCAAGACTGCATCTGAATGTGGCGGGTAGAAGGATTGATGGCCGCCATTGGC
Celera SNP ID:            hCV1860625
SNP Position Genomic:     148255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;JBIC-allele(G,156|A,1333)   total(G,156|A,1333)
SNP Type:                 INTRON


Context             (SEQ ID NO:34120):
TGGAATCCATGAAGTGCTAAGGAGTGCAGAATTTATTTTAAATAGTTTAGACAGTCTCCCTGCTCTTATTTACAAAAGTAATTTGCACTACAAAGAAGAA
R
CTTGCTGAATTGAGAACACTTGTGCATAGTCTCAGAAAGTCAGAATTTTTGTTATCTGAACTAGTGAATTTTCACTGTATTTTTTAAATGCTTCATTTTC
Celera SNP ID:            hCV1860626
SNP Position Genomic:     147102
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;JBIC-allele(G,709|A,790)   total(G,709|A,790)
SNP Type:                 INTRON


Context             (SEQ ID NO:34121):
ATAATGTCATGGTGGGTTTTTGTTAACTTTTATTGCATAGAATGTTTCAAATGGCACTACTGAGTTTAATTCTATCTCAATCAATGCTTAGTGTCCGCTC
Y
ATGCCTGCAATTGGTTTGGTGCTGGCGATTCCAGCAGTGAGCAGGACTCAGTTCCTGTCCTGGTCCGAGTGACAGGATTATTGTGCAGAGGGGTCTTTGG
Celera SNP ID:            hCV1860627
SNP Position Genomic:     146544
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34122):
CAAGCGATGGGCATGGTGGCATGGCATTGTCTTCTCTCCTGTGAGAGGTAGGACTTATCACAAGGACAGAGGAGGGAGAAAAATGGTTGCTTCTTAGACA
R
TTTATTATCTCAGCCTCAAATAATCTTTATTTAAAGTACTACTAAATCAACTAGATTCGCCTTTAGAATATTTTCAAAACCTGTTTGGCCCTATGATACG
Celera SNP ID:            hCV1860628
SNP Position Genomic:     145532
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;PGA-AFRICAN-PANEL(A,15|G,31)   PGA-EUR(EAN-PANEL(A,13|G,33)   total(G,64|A,28)JBIC-allele(G,712|A,755)   total(G,712|A,755)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34123):
TGGGTTTCTGCATTGATGATCAACGTGTTTATTTTTAAGCATCTCTGTGAAGTGACTAATAATGGCATCTAAGAAAGTAGGACAGTGTTTCCCAGAGTGT
R
TTCTCTATGAACACCTGTCATGTGAGATTCTCCTTGGGGGAAAAAAGTTCCATCATCAAATACAGTTGGATCATGCTGTGTTTTGTGTCTCTTCTCATAG
Celera SNP ID:            hCV27982785
SNP Position Genomic:     35988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34124):
ATAATCTCATAAATCTGTATGAAATGAACATAGATACAGCACATGCATATAACAGGAAACATTTCTTGCGAAGATGCTGCTGTAGGATTATGGAGGGTGG
S
GGAATCTGGGTCTCCAAAAATCTTTTAATTTTTAAATTTCTTTGAATAAGCCCCTTTTCTTCTGCTTTCCATATGTTTTGACACATACAAAAATCTCCCC
Celera SNP ID:            hCV29335504
SNP Position Genomic:     7686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34125):
ACATGTTGGCTATAGTTAATTATACTATACTATATATTTCAAAATTGCCAGGAGAGTAAATTTCAAATGTTTGCACCACAAAAATAAATATGGGAGGTAA
K
CGATATGTTATTAACTTAATTATCCTGCAATGTGATTTGATTTTATATATATATGTAAAATCATCACTTTGTACCCTATAATATATACAATTATACAATT
Celera SNP ID:            hCV1639820
SNP Position Genomic:     125832
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,7)   total(G,3|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34126):
CAAGATTGAGTATGCACGAAGAGGGAGCAGAAACAGGAGATGGGTGCCTCTGGAACAAACATGCTTATGCAGGTGGGTTTATGGAGGGGCTCCTGAGAGG
S
TGAGTCCCATGAGTCTTCAAGAGCATTACTTAGATGCCATGGCACCTAGGCAGAAAACAATGTTTAAATTTGTGCTGGATTTACAAGTATATGTGATATT
Celera SNP ID:            hCV29335505
SNP Position Genomic:     59000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34127):
GAATCAGTTGGTATTTTCCAACCTGGAGAATCAGTAGATGAAATTAGGAAAAGTCTGTACGGAAGGAATAAGTGTTTGAGATCAAATATACAACATGTTG
K
CTATAGTTAATTATACTATACTATATATTTCAAAATTGCCAGGAGAGTAAATTTCAAATGTTTGCACCACAAAAATAAATATGGGAGGTAATCGATATGT
Celera SNP ID:            hCV1639821
SNP Position Genomic:     125740
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,10)   total(G,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34128):
GGGAGAAAATTATACAAAATTATGCAAAAGGTAGTGGGAGTCATTTAAAATTCTGCTCTGCATGTGATTTTGAAACACTAATATGCCATGGATGTCTTTC
Y
TGCCTAGTCAATATAGATCTGCATTTTTATGGCTGAATAGCATTCTATTCTGTTTCAAAATACTTGATCACATGTTGGACAGTTAGGCTGCTTCCATGCT
Celera SNP ID:            hCV1639822
SNP Position Genomic:     124734
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34129):
AAATAAATAAATAGTCCTCAGTGTTTCGGAGGGAACCTAATACATGTTTATTATGCAGTATTTTAAATGTTGCAGAAAAAATACCAAAGTAAGAAGTATC
Y
ATTTTCTAACTACTCAGAACATCTGTAACATTTCCTTAACCCTTCTGTAATATGTCTCTTTGTGTGTCGTATGCATGTTTTTAATGCTGCATACCAAAGT
Celera SNP ID:            hCV1639823
SNP Position Genomic:     124041
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34130):
ACACGTAATCACACCATGGGGAAAAATGAAAGGAGAAGAAAAAAAGAAAGCTGGATAATCAGCCCCTAATTTTCTAAAAATTGCTATTAACAAAGCTGCT
K
TACAATTCTCTTGATAAATATCCAAGAAATCTGTTCTTGGAAGCTTAAGAAGAGAGTGGAAAGGCTGTACTCTCAGGACTAAGGAAGGACTCACTCCCTA
Celera SNP ID:            hCV1639824
SNP Position Genomic:     122293
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|G,8)      total(G,8|T,6) ;JBIC-allele(T,259|G,490)   total(G,490|T,259)no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34131):
GAATGATATTTCATTGTGTGGATAAACCAGGTTTTATTTATCCATTCATCAGTTGTACATTTGGGTTGTTTCCATTTTTGGCTTTCATGAATAATGTTGT
W
ATGAACATTCAGGTAAAAGTTTTTATGTGAACATATGTTTTTTATTTCTCATGGGCATATATTTAGAGTGGAATTTCTGGGTTGTATGGTAACTCTATGT
Celera SNP ID:            hCV1639826
SNP Position Genomic:     118343
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|A,6)   total(A,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34132):
GCTGACCCCAGAGCCCACTCTTTTTAAAATGACATCCTTATTGACTGGGCGTGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCCGATGCAGGAG
K
ATCACTTGAGATCAGGAGTTTGAGAACAGCCTGACCAACACGGTGATAACCTGTCTCTACTAAAAATACAAAAAAATTAGCTGGGCGTGGTGGTGCATGC
Celera SNP ID:            hCV1639827
SNP Position Genomic:     116930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;PGA-AFRICAN-PANEL(T,9|G,39)   PGA-EUR(EAN-PANEL(T,12|G,34)   total(G,73|T,21)
SNP Type:                 INTRON


Context             (SEQ ID NO:34133):
GTTGGAAAAAACATTATTTGCCACCTTCAAAGAATAAGAGTAGCTCATGTTCACAAAAATACTTTTTTTTGCAATGCCCTGATTTAAGTGCTGACATGTA
Y
TAATTTACTTCTACCTCTTAACAGCATGTTAAGGTAATTACTGTTAGTGGCACGGTAACTTAACCAAGGTCCCAGCCAATAAGTGGCAGAACCTGAATTA
Celera SNP ID:            hCV1639828
SNP Position Genomic:     116716
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,12)      total(C,1|T,12) ;PGA-AFRICAN-PANEL(C,8|T,36)   PGA-EUR(EAN-PANEL(C,6|T,36)   total(C,14|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:34134):
TTCTTGTTAACCATATTTCTGGCCAAGTTGGTTTTAGGAAAATCACCTGGAGTTAGACCATGAGCCTTAGCATTAGAGGACTGAGAATATACACTGAAGG
Y
ACACAATAGTGTTGGAAAAAACATTATTTGCCACCTTCAAAGAATAAGAGTAGCTCATGTTCACAAAAATACTTTTTTTTGCAATGCCCTGATTTAAGTG
Celera SNP ID:            hCV1639829
SNP Position Genomic:     116605
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;PGA-AFRICAN-PANEL(T,8|C,38)   PGA-EUR(EAN-PANEL(T,2|C,42)   total(C,80|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:34135):
AGGCTGATTTATGGTCAGAATTTCCCTCTGATATGTCTAGGGTGTGATTTAGGTCAGTAGACTGTGATTCTTAGCAAAAAATGAACAGTGATAAGTATAC
W
GGGGGCAAAATCAGAATGGAATGCTCTGGTCTATATAACCACATTTCTAAGCCTTTGAGACTGTTCCTGAGCCTTCAGCACTAACCTATGAGGGTGAGCT
Celera SNP ID:            hCV8786649
SNP Position Genomic:     183537
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:34136):
ATATTCCAGATGCTGAGCCTGGGAACAAGGTCTATCCCAAGGGAGTTGGCAAAAGCTAATTCGAGTGTCAGGGCCTCAGCAAAGGCAGCTGGGGGATTCA
Y
ATAGGACTGTAATTCCAGGAGGAAACTAGTGGCAAAAACTGAGCTGAGGCTCAGAAGATCAGTCACATAGATAAGGCTACTATGGAGGGCTTGGAGACAA
Celera SNP ID:            hCV1860566
SNP Position Genomic:     181720
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34137):
CCAATTTGGTGGTTGAAATAGGAATTTGAATTACAGAACATGAAGATTCTCAAAGTCAAATGGCAGCAGGCAGGGCTATATTCCAGATGCTGAGCCTGGG
M
ACAAGGTCTATCCCAAGGGAGTTGGCAAAAGCTAATTCGAGTGTCAGGGCCTCAGCAAAGGCAGCTGGGGGATTCATATAGGACTGTAATTCCAGGAGGA
Celera SNP ID:            hCV1860567
SNP Position Genomic:     181643
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34138):
TTGGGCTTAAACTTTAAGTTTCTCAAATAGGACAGAAGCTAAGGTCTAGACGCACAGAGGACAAACCATGGGCAGTTGCAGTTTATTGTAATAATAATCT
Y
ATTTGCCTGCGTGCATTCAAGATGATAAATGGCCGGTATCTCCTGATGGCTCAGCACGTTACTGAGAATCGTTTATCACAACATCCATCCCCAGAAAATA
Celera SNP ID:            hCV1860568
SNP Position Genomic:     179919
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   (C,-|T,-)   JBIC-allele(C,492|T,975)   total(C,492|T,975)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34139):
TTTGGGTTTCAACAAATGAATGTGTGAGGACCACAAACATTTAGTCCGTAACAGTCCTCAATCTCTCTTTTTAAGTTTTTTTTACTGACACATTGTAATT
S
TACATATTTATGTGGGGCAATTTGATGTTTCGATACATATATATGTTGTATAATGATCAAATCGGAGTATTTAGTGTATCCATCACCCCATGCATTTATC
Celera SNP ID:            hCV1860569
SNP Position Genomic:     178566
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34140):
GGCTAGATTTCTCTTTCCTATCTTGTGAAGAATACTAATATCAAGAAACTGTGCACAAAGCTCAATCAAGCCTAGGTAGCTAAGGTTGGAAAAGAGTAAC
R
TCACAAATGGAATTAAAGATTTTCATCTTCTTCCTCCTACATCCCAGCTGGGGGGATTAAGGTAGGTCTGTGTAAGGAGAGTGAGGCCCTCAGTAAAGGG
Celera SNP ID:            hCV1639900
SNP Position Genomic:     54444
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34141):
TATTGAGCACCTACTACGTTCCAAACATCATGCAAGCTGCTGGGTATACAAAGTTAAACAAAACTCCATCTCTGTCTTCACAAAGTTTCCCCCCAACCCT
W
CCTAAGTTTGCCTGAGCTAGAATAAACATGGCCAGGAAGGTCTCTTTTCTTTAGGAAACATCTGGAAATATGTATGTAATCTGCCAATGGCAACTTAGCA
Celera SNP ID:            hCV1639901
SNP Position Genomic:     52273
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|T,10)   total(A,6|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34142):
AAAGACTTCAAGCTCTCCATCACCTTCCGGAACAACAGCCACAACCGTTACACCATCACAGCTTATCTCTCAGCCAACATCACCTTCTACACCGGGGTCC
Y
GAAGGCAGAATTCAAGAAGGAGACGTTCGACGTGACGCTGGAGCCCTTGTCCTGTAAGCTAACAATGGTGTGGTTCTTTGTGAGACTCGCTGTCTGGCCC
Celera SNP ID:            hCV8786720
SNP Position Genomic:     153271
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,26|T,8)   total(C,56|T,12)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,5|C,90)      total(C,90|T,5) ;(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34143):
TAGTCAGCATCAGGTGACAGCCTTATGATTTCTTTCTGATTCACTCAAAAAACCTAGCACGATGCTGGTTTCATGTATATCCCACAAAATTACGCCTTAC
R
TTTACTCCAAAAGAGGCTTTAAGTGATGTAGGAAGCACTGAAAGAAAAGTAAAATAAAATCAAGGTAGAAAAGACACCTTAACAAGTACCTAGCTTCCAT
Celera SNP ID:            hCV1639902
SNP Position Genomic:     52060
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,8)      total(G,7|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34144):
GCATTTAAGCAGGCTCAAATATCTGCTGTGTTAAAAACAAAAATTACAAAAATCTTTTTCACCACTGTCTCTTCCTCCTCGCCTCCTTGCCGTCCTGGAG
Y
GCTGCCTGGACTTGCGTCCTGCTGTGTTCCTTCTCCACTCCTTCCGCGCACACTCTGTCCTGATTTCTGCTACCAGCACTTCCTTGAAGTTGTTCTCAAG
Celera SNP ID:            hCV8786721
SNP Position Genomic:     148886
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34145):
GTCCTCATGTTCACATTCCTGCCTTGGTTAGCCATCTAAGTGGTGCACTTCTTAAAGCCAGGGACCAGGTAGTCAGCATCAGGTGACAGCCTTATGATTT
M
TTTCTGATTCACTCAAAAAACCTAGCACGATGCTGGTTTCATGTATATCCCACAAAATTACGCCTTACATTTACTCCAAAAGAGGCTTTAAGTGATGTAG
Celera SNP ID:            hCV1639903
SNP Position Genomic:     51991
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,13)   total(A,2|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34146):
TTTATTGAGTATGTATTGTAAATATCCACTTGTAGGTTAATACTAGATGGACTGTACCATACTCCTTAGAATGTTTTCTATGTTGATTTTTGTTTCTCCA
R
TAATTGCTTTAATCTCTGGCAATGCAAACTCATTTAACACTTGCTTTTATATATTGCATTCATATATACTCCAAAGACAAACAAATGCTTTATCAGAATT
Celera SNP ID:            hCV1639904
SNP Position Genomic:     46604
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,8)      total(G,8|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34147):
ACAAGGAGATAAGAAAGCAGGTGCAACACTCAAGTCTATTGAATAATGTAGTTTTGTGATGCATTTTATAGAATGTGTCACACTGTGGCCTGATCAGCAG
R
AGCCAATATCCCTTACTTTAACCCTTTCTGGGATGCAATACTAGGAAGTAAAGTGAAGAATTTATCTCTTTAGTTAGTGATTATATTTCACCCATCTCTC
Celera SNP ID:            hCV8786650
SNP Position Genomic:     183027
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   PGA-AFRICAN-PANEL(A,10|G,38)   total(G,38|A,10)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:34148):
AGAACAATTGTGTTCCCCCACAAGGCATCATTAGGCAAGGATGGTCCAACCTCAATACGGTTTCTTTACATCCCTGTGTTTCAGCTACATCCGTGGTCTC
Y
TGTATTGTTTATCTATGTCACTTGCAAAAAACTAGGCTTGAATACAGTTTTTTAAAAGTGATGCTTTTAAATATAAGCGGTAATCAACTTATGAAGGAAC
Celera SNP ID:            hCV1639905
SNP Position Genomic:     46053
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34149):
ATTCTAACGCAAAAATAGCTCTTGCTTTGACTTAGGTGTGAAGACCCAGACAGGACTGCAGAGGGCCCCAGAGTGGAGATCCCACATATTTCAAAAACAT
R
CTTTTCCAAACCCAGGCTATTCGGCAAGGAAGTTAGTTTTTAATCTCTCCACCTTCCAAAGAGTGCTAAGCATTAGCTTTAATTAAGCTCTCATAGCTCA
Celera SNP ID:            hCV8786651
SNP Position Genomic:     182444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   PGA-AFRICAN-PANEL(A,13|G,33)   PGA-EUR(EAN-PANEL(A,8|G,32)   total(G,65|A,21) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:34150):
CAGTGGGGAACACATGACCAGAGGAAATGAGAGAAGATTGGAATATATTCTAAGGCCTTAAAAAGATGTCAAGAACAATTGTGTTCCCCCACAAGGCATC
M
TTAGGCAAGGATGGTCCAACCTCAATACGGTTTCTTTACATCCCTGTGTTTCAGCTACATCCGTGGTCTCCTGTATTGTTTATCTATGTCACTTGCAAAA
Celera SNP ID:            hCV1639906
SNP Position Genomic:     45982
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|A,7)      total(A,7|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34151):
CTCTTGTCCTCCATACATTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTG
M
AAGCTCTGCCTCCCGGGTTCATACCATTTTCCTGCCTCAGCCTCCTGGGTAGCTGGGGACTACAGGCGCCCGCCACCAGGCCTGGCTAATTTATTGTATT
Celera SNP ID:            hCV1639907
SNP Position Genomic:     44726
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|C,8)   total(A,7|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34152):
ATTTTAGAGCAGAAATTAACCAGCTTTCACACCTGGGACACTGCCCTAATCAGTGTATAATCCTAATTCTCATTATGTCCTCAGTACTCATATGGTGTTT
Y
ACACATTGTAGGTGCATTTTTGAAATTGAGATTGTTCTTCTATACATTATTTTATTTTTATTTTTATTTATTTTTATTATTATACTTTAAGTTTTAGGGT
Celera SNP ID:            hCV1639835
SNP Position Genomic:     110145
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34153):
ATGAGGACAAAGGGATGGGGCTTTGTTCCTCCATAGTGATCAGTCACTGGATGTGAGCCACCCCTGGAATGAGGTGTGACCCTGGATGAGGCAGTTTTCT
Y
CTGCTAAGGCAACTCCCAAGGAGGCCTGAACCACCAAGGACTATTTTCTGTCATCACTCCCAGCAGCTGAGGATAAGCCTGTCGGTCATTTCCGAAGGTG
Celera SNP ID:            hCV1639908
SNP Position Genomic:     43949
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,13)   total(C,3|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34154):
GTGTCCTCCTCTCAGCTTTTCCCCACCGGAATGCACCCACCCACAGGGGGAGCAGTGTCTGATCTATTTTATTTTTGTTGTTTTGTCAGCATGTAACAGT
R
TGCAGGGCATAGAGCAAGCACTGAATAAACAGAATTGCTTGGAAAAAATTTTTAATGCATAAAAACTCCATGCTGCAATGGGTGGTCTTAATCTATAAAC
Celera SNP ID:            hCV1639836
SNP Position Genomic:     109926
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34155):
GGGCAGAGTAATTAGATCCCAGGGTAGCAAATGAAACCCCAAGTGGGCAAATGCAAAGTAGCAGATCCCAGAAGGAGCAATTTCGGCCGCCTGTCCCCAG
Y
GTGCTGATGAGTTCTGAATTATGTGTAACCTCTGGGGGGAAGGCAGCTATGAATCACTGGACAGTTTAATGAAGACGCTTGCTCAATGTTTAGCTGCAGT
Celera SNP ID:            hCV1639837
SNP Position Genomic:     109432
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;JBIC-allele(T,417|C,1066)   total(C,1066|T,417)
SNP Type:                 INTRON


Context             (SEQ ID NO:34156):
AGAGGTAGGCCTGATGCTGATTTAATTATTATTGGTCACTGGTAAGAAGCAGGGGCTGCCTGAGCATAGGGCTGGTGAGGAAGGGTGAGGGTGAGGGTGA
R
GGTGGAGGCTAAACAGGGGCTGAGGTGGGGGTGGGAATGATTTGCTGGGCATCAGCTGACCTCTGTGAGGTCAGTGCGGTGTAGACTGGCGACACATGGC
Celera SNP ID:            hCV1639838
SNP Position Genomic:     108578
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34157):
GCTGTGTGGCTTTGAGAAAATGACTTCACCTCTCTGAGCTTCATTTTCTTCATCAGTAGAATGAAAGTAATCTTAGTAGTTACCATTTCCCGATGGAGTG
R
CTATAATGATTAAATCAGGTCATCCAGGTAGAGTGCTTACCATAGAGGTAGGCCTGATGCTGATTTAATTATTATTGGTCACTGGTAAGAAGCAGGGGCT
Celera SNP ID:            hCV1639839
SNP Position Genomic:     108434
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34158):
TGGCATTTGGCCTCTTGTAGTCTTGGCTAAGGAAATTCTAACGCAAAAATAGCTCTTGCTTTGACTTAGGTGTGAAGACCCAGACAGGACTGCAGAGGGC
Y
CCAGAGTGGAGATCCCACATATTTCAAAAACATGCTTTTCCAAACCCAGGCTATTCGGCAAGGAAGTTAGTTTTTAATCTCTCCACCTTCCAAAGAGTGC
Celera SNP ID:            hCV8786659
SNP Position Genomic:     182410
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   JBIC-allele(C,496|T,953)   total(C,496|T,953)   PGA-AFRICAN-PANEL(T,14|C,30)   PGA-EUR(EAN-PANEL(C,18|T,22)   total(C,48|T,36)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:34159):
GCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCA
S
CCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCAC
Celera SNP ID:            hCV27073337
SNP Position Genomic:     65838
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34160):
AATCCATCTGAAAGTGCTGAGATGACAGGCATGAGCCACCGCACCTGACTGACTTCAGGTTTTACCTGTTGGCATACTTCTGGGGTCTTGCGTCCCTACT
Y
CTGTGATTCTTCCCTTAAGTGGTGTGTCTGCGTGTGCAGTGGCCTGCTAGCGCTTAGAAGCGGAGCATGCACAGTGCGTTTACTAGTGTTGTACTCGTGA
Celera SNP ID:            hCV16139464
SNP Position Genomic:     40594
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34161):
CTTGCGTCCCTACTCCTGTGATTCTTCCCTTAAGTGGTGTGTCTGCGTGTGCAGTGGCCTGCTAGCGCTTAGAAGCGGAGCATGCACAGTGCGTTTACTA
S
TGTTGTACTCGTGACCACTTGATGCATTTTTTCCTTACCAGTTGAGTGTCCCTGGAGGAAGGCCACATACTGGTTAAATTCCGCCATTTTGGCTCTTAGT
Celera SNP ID:            hCV16139465
SNP Position Genomic:     40680
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,12)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34162):
ATTGGAGTGGAGCAAAGTGGAGTGAATCGGGAGAAAGGATGGATAAGGCCAGTCCCTTCTTGGACACAGATGTCCTGCCCACACACTGGCTTAAGGTACT
R
TTAGTAGTTACTGCAACACGTAAGTCTAGGCAGACAAGTAGATAGACAGAGAGCTAGCTGCTCTTAGTCAGTTTGAGCTGCTGTAACAGAAATGCCATAG
Celera SNP ID:            hCV1860570
SNP Position Genomic:     178082
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34163):
TATTTGGGAGGCCTCAGGCTCAAAATAGGTTAAATCTCCAGATGGTTTGTTTATTGTTAATGTCTGACATTGGAGTGGAGCAAAGTGGAGTGAATCGGGA
R
AAAGGATGGATAAGGCCAGTCCCTTCTTGGACACAGATGTCCTGCCCACACACTGGCTTAAGGTACTGTTAGTAGTTACTGCAACACGTAAGTCTAGGCA
Celera SNP ID:            hCV1860571
SNP Position Genomic:     178014
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;JBIC-allele(A,178|G,1313)   total(G,1313|A,178)
SNP Type:                 INTRON


Context             (SEQ ID NO:34164):
TCAGGCAAAGTGAAACACGTTTCCTCTTCCATACAGCCCCCTGCTGTATCCAACTTTTTCCTTCCCAGACAGTAAACCCACAAGCTTTATCTGAGTGTAC
Y
GGAAACTTCTCTATCTTTACACCTTGGCTATCCCCCTAGAATTCCACCTTGGTCAAGGCCAACACATGAAAAAAGACACTGTGTGTCTTAGACAAAAGAT
Celera SNP ID:            hCV1860572
SNP Position Genomic:     177771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34165):
ATTCATTTGGTATACATAGCTCCTAAACAAACAAACAAGTCTTATAGCCACCTGGCATTTTGCGGCACATTGCGTTTATGTTGGAAAAGCATATGGTTCT
R
AAGTGTGTGGCATACAGTAAACACAGCTTAAGGTATAGTAATAATAAGAGCATTCTACATAGATCGCCCCATAAAAGTGTCAGCCCATTTTAAAGACAAG
Celera SNP ID:            hCV1860573
SNP Position Genomic:     175134
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34166):
TGCCGTTTTATGAGCATTTTTCATTCCAAACCTTTCTTGCAAGGGAAGAACTATTATTCTTATCTTATTCCCAAGTTACTTAGAGCTTATACAGATCCAT
Y
CATTTGGTATACATAGCTCCTAAACAAACAAACAAGTCTTATAGCCACCTGGCATTTTGCGGCACATTGCGTTTATGTTGGAAAAGCATATGGTTCTAAA
Celera SNP ID:            hCV1860574
SNP Position Genomic:     175036
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34167):
CCATATATTTTCTCCCATATTATATAGTGGCTAAAGGAACATGGAATAGTAATGGCTGTGTTGTCATCTGGAAGATCCAGACATCCAGTAAATTCCATTT
Y
TGAGCCATTGACTTAATTTAATAAATATTTACTGGACATTGGTATTGAAGTACTAAGTATTGGAGTTAAAAGTGGGCTGAAATATAAGGTGAATAAGACA
Celera SNP ID:            hCV1860575
SNP Position Genomic:     174757
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34168):
CAAGGGTCCTCTTCTCTGGGCAATGTCCTTCCTCTTTACGTCCATTCTTAAAAACGCCTCATTTCCATATATTTTCTCCCATATTATATAGTGGCTAAAG
R
AACATGGAATAGTAATGGCTGTGTTGTCATCTGGAAGATCCAGACATCCAGTAAATTCCATTTTTGAGCCATTGACTTAATTTAATAAATATTTACTGGA
Celera SNP ID:            hCV1860576
SNP Position Genomic:     174693
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34169):
GATCAGATCAGGAAGATTTTATTCTTGACTGTAGCATAAGTAAGCAAGGGTCCTCTTCTCTGGGCAATGTCCTTCCTCTTTACGTCCATTCTTAAAAACG
S
CTCATTTCCATATATTTTCTCCCATATTATATAGTGGCTAAAGGAACATGGAATAGTAATGGCTGTGTTGTCATCTGGAAGATCCAGACATCCAGTAAAT
Celera SNP ID:            hCV1860577
SNP Position Genomic:     174649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,7)      total(G,6|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34170):
GTGCTGGACTCCCTGCCTGGCACACGATCCATGCTGTCTAGGTGCACCTGCTGTTGTTGCTACCATGACCATCGTCTGCCCCTCTCCTAGTTCCCCTGAA
Y
CCAGCTCTCCACCACTGCCCTCCAGGAGATGCGGATTTAAATGTAACAAAGTTTAGGGAGTTGGCTGAAAGTTTCGTTTTTCTTATAGACTTAAGAAATC
Celera SNP ID:            hCV1860578
SNP Position Genomic:     174308
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,9)      total(C,7|T,9) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34171):
TTTAAGTGTGTTTGTGTATAATTATTGCAGCTAATACAAATCAACAAGAGCTCCTTGGTATTATCTAATGAACCATCTTTAATCTAATTTTCCCAATGTC
Y
AAAAATTATCTTTTTAGTTAGTTTATTTGGATTAAGGTCTGTAGATTAAATTTGGTTGGTATGTCACTTAAATCTTTTCCTCTAGAGTAATCCTCTTCAT
Celera SNP ID:            hCV8786800
SNP Position Genomic:     75612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34172):
ACTGAGGATTGCTGGTTAAAGTGCTGGACTCCCTGCCTGGCACACGATCCATGCTGTCTAGGTGCACCTGCTGTTGTTGCTACCATGACCATCGTCTGCC
Y
CTCTCCTAGTTCCCCTGAATCCAGCTCTCCACCACTGCCCTCCAGGAGATGCGGATTTAAATGTAACAAAGTTTAGGGAGTTGGCTGAAAGTTTCGTTTT
Celera SNP ID:            hCV1860579
SNP Position Genomic:     174288
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,14)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34173):
TATTTTACCTGTACATATTTTAGCGTGTAGCTTTTTAAAAATAGACATATATACAGTATACATAGATACATATGTACATATGTGTGTATGTATGTGTTTA
W
GTGTGTTTGTGTATAATTATTGCAGCTAATACAAATCAACAAGAGCTCCTTGGTATTATCTAATGAACCATCTTTAATCTAATTTTCCCAATGTCCAAAA
Celera SNP ID:            hCV8786801
SNP Position Genomic:     75516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34174):
TGCCCCAGTGGCTGGCCCTCTGCCATTTGTAGGCCATCTCAGGGATGACAGCTCACGTGATTAAAGGGCTAAATGAAGCCCTTTTTGGTGGGGAAAGAGG
S
GGCTTGGACTCAAGGCAGTGCCCAGTCAGAACCCGAGCTCCACCATGGATAGCAGTGACAGAATCACTTTACCCCACCCCCCATCACATTACTGTTTCCT
Celera SNP ID:            hCV1639910
SNP Position Genomic:     37394
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34175):
TGAGACTGTCGCCCAAGTGAAAAAGATAGCAGAAGATAAGAAGGAAAACTGTTTCCAGAAATTGTCAAAAGACAGCCAGGTGAACAAGATTGTGGCCCGA
K
GTGGCACAGGATGCTGGGCTGAAAATTACAGCAGCATGCACAGCACTTATTGATAGGAGAATGCTCAGCTGTGCTCCTGAGGGCCCTTCAGCCTGCTTTG
Celera SNP ID:            hCV8786802
SNP Position Genomic:     67531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34176):
CAGAAGCCTCTGTAGTAGCATTTTAGGTAGAGTATTAAGATCTGATTTTTTTCTACTTTTTAGATTACTATAGCAGAAGTGTGGAAGATAAATTGGAGGA
M
CGAGATTTTGTTAGGGACATTAGTAAGAGACTCAAGGGGGAAAAAAATCTCACTAATAAATGATAGGATAAATGGATGCTGCATGAGTTTGTATGATTTT
Celera SNP ID:            hCV1639911
SNP Position Genomic:     37035
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34177):
CTTTGGAGGGAGTGACTGATGGCAAGAATAGTTGAAAGAATCCTCCAGAAAGTGCTATTTGAGGCGGGTCTCAAAAAACGAATAGAAATTGACCCAGGGG
R
ATGGAAATTGTATACATTCTAGAAAAAAAAAAATAGAAAAGTTCAGTGGAGCATGACATTTTGGAAGCACACTGATGTCTTTGTATGACTTGATAAGAAG
Celera SNP ID:            hCV1639912
SNP Position Genomic:     36810
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34178):
GTCACACAGCTGGAATTTCTTAGAGGCAATATGTTTCCATCAACCCAAGTACATCAAAGCGGTCAGAAAAAGAGGGATGCCCAGTGTCCTAAGATGACTG
Y
GCTATTTCTGTTACTTTGGGGTATTTTTAAAGAAAAAGCAGACACTTGGCCTCACCAGTGCAAACACCCATGCACCTTAGAAGTTATAGGTGGTCCAGGA
Celera SNP ID:            hCV1639840
SNP Position Genomic:     108106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,11)      total(C,2|T,11) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34179):
GGGCCTTCTCTCTCTCTCACCTCTGAGCCTGCAGCCTCGACAAATCATGAAAGGCAAGGAGGGGAGTGGTAATCACAGGTTTTACTAACCTGTGGCTGAG
R
CTGTGAAAGCTTGGGAGCAGCTTCTGGTGTTAATTTGCTGTTACTTTGACATGGGCCCCTGCTTTTTTGATACCCAGTTGAGGGTGAAATCCCAAGCTGT
Celera SNP ID:            hCV1639913
SNP Position Genomic:     33296
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34180):
TGTCACAGGAGCAAATTCTGGCCAAGACAGCAAATTCCACCAAGGACCTACTCTGTAAATTCCTAACTTCCTATTAGTGGGTTTTTAAAATTGTATTTTC
R
GGAACATAGTCCCATTCATGGGACTAAAATAATACTACGTTGATGATCAAACGCTTAGAAACGAAACAATTAGAACCCTGTTGGGATTCTACTCTAGTTG
Celera SNP ID:            hCV1639841
SNP Position Genomic:     105398
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,10)      total(G,10|A,2) ;(A,-|G,-)   no_pop(A,-|G,-)   PGA-AFRICAN-PANEL(G,8|A,36)   PGA-EUR(EAN-PANEL(G,17|A,23)   total(G,25|A,59)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34181):
TTTAAATCCAAAGATGTTTTTGAAATGTTTCTTAATGCAGGAAAAAATATATTGGACACACTTGAGAATGAAATCAGGGACACCATGTAAAGTATTCTGA
W
GTATTGCTACACCTTCAATATCTAAATTGATTGAGGCAGGGCCTCTGGGAAGAAAGTGAAAAATTCAGTCTGTCTTCCACATGTTTTGTCTATACCAGTG
Celera SNP ID:            hCV8786660
SNP Position Genomic:     173199
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,8)      total(A,1|T,8) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34182):
TCATTAATAAAGAATTTTTACCTAGCTAACATTTTTTAAATCAAAAACAAAGGGAGGGGTTGGAGGCTGGAGGGAGGTCATTTAAAAAAATGATTACAAA
W
CCTATTTGTTTTAGCTCAAAGTCTCAACAGTCTAAGACTTGGTGATCTAAATTTAAAAAAAAAAAGTCATGAGTTTTGTTTTGTTTTATTTTCCCATAGT
Celera SNP ID:            hCV1639842
SNP Position Genomic:     104153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,8)      total(A,8|T,5) ;(T,-|A,-)   PGA-AFRICAN-PANEL(A,18|T,24)   PGA-EUR(EAN-PANEL(T,15|A,31)   total(A,49|T,39)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34183):
CTGCAGTTTTATGCTTGTGTGTGTGTTAATGCATAACAAAGGATTCAGCGCTATGGCCTGGTAACTGGAAAGTAGGTCAAAAGAGAGGGGTGAGACTGTC
R
CCCAAGTGAAAAAGATAGCAGAAGATAAGAAGGAAAACTGTTTCCAGAAATTGTCAAAAGACAGCCAGGTGAACAAGATTGTGGCCCGAGGTGGCACAGG
Celera SNP ID:            hCV8786806
SNP Position Genomic:     67441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34184):
ATATGAGATTTTATCTGTTTGCTTGTTTGTTTTTACATAAATGATGCAGAAATAACTGACTCTCCAACTGGAAGAAAGTTTAAAAATTGACCCTCATCTT
R
TCCCATATACAGTAGTAAATCTCAGATGGAATGAGTATTAATGTAAAAAAGACAATTTTTTGAGGAAATTTAACAGACTTAACTAAAAACTGGAAACTCT
Celera SNP ID:            hCV1639915
SNP Position Genomic:     23681
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,13)      total(G,13|A,2) ;PGA-AFRICAN-PANEL(G,11|A,35)   PGA-EUR(EAN-PANEL(A,5|G,39)   total(G,50|A,40)
SNP Type:                 INTRON


Context             (SEQ ID NO:34185):
ATATTTAGTAGGACATAATAGAGAATCCAGAAATGGATTTCAGTATATGAGTTAATATGATTGTTGGTTTCATGAAGTAAGAAGACCATATGAGATTTTA
W
CTGTTTGCTTGTTTGTTTTTACATAAATGATGCAGAAATAACTGACTCTCCAACTGGAAGAAAGTTTAAAAATTGACCCTCATCTTGTCCCATATACAGT
Celera SNP ID:            hCV1639916
SNP Position Genomic:     23594
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,13)      total(A,2|T,13) ;PGA-AFRICAN-PANEL(A,2|T,44)   PGA-EUR(EAN-PANEL(A,3|T,41)   total(A,5|T,85)
SNP Type:                 INTRON


Context             (SEQ ID NO:34186):
CTAAATTTCAATTTCACGTAAACAGAATGGGATTAATAATCATGTCTACCCCCAAGACCATAGGGCTGTAGAGAAGATTAAATAAGGTAGTGTAAGTAAA
Y
TGATGAACAGAATGCCTGCATTACTAAGTAAACACTAACTAAATAAATGTAAGTTACTTGTTATTATTGTTGTCATTAACCAGAGTCAGGATCACGTGTT
Celera SNP ID:            hCV27996851
SNP Position Genomic:     170706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34187):
TACAAAGGGAAAAAGAAGCTCTGGGCCAGGCATGGTGACTTATGCCTGTAATTCCAACTCTTTGGAAGGCTGAGGCAGGAGAATCACTTGAGCCCAGGAG
K
TCAAGACTAGCCTGGGCAACATAGGGAGACCCTGGCTCTACAAAAAAAATAAATTTAATTAGCCGAGCATACACCTGTAGTCCTAGCTACTCGGGAGCCT
Celera SNP ID:            hCV1639844
SNP Position Genomic:     102177
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34188):
TATCTAAGTGGAAAAAAGTTAACAAATTTCACTGTAATCAGAAATTAGAAAGAAATGCCTGCTATCATCATTCCCTTTTTAAAAAGAAGTACTTTAAAGG
Y
TTTAGTAAATGAACAATGTAAGAGATACATCTGCTATAAATGCTGGAAACTAAGAAGTAAAACTATATATTTGCTAATACTATGATTGTGTATGTAGAAA
Celera SNP ID:            hCV1639917
SNP Position Genomic:     22586
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34189):
TGTAATGTCAATGTAAACATTGTTGAAATGGCACCAGTTTTTGGAAAAGCTCCTGGACTCCCCACCTAAACTCTTCTGACTGTAATTAAACATGATCAAC
R
TTACACCAAGAGAGGTAGATTCAGCAGTGCCCAGAAAAAAACTGGCAAGATGCCTTGAAACTGTTACCTCTTGGCCTTTGTTTTACTATGTAAACACAAA
Celera SNP ID:            hCV1639845
SNP Position Genomic:     101751
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34190):
TGCTTCTAAACGAATGTGCACACAAATCACCCAGTGATCTTGTTAAAATGCAAATTCTTATTCAAGAGTTCTGGGAGGGGCCTGAGATTCTGAATTCCTA
M
CAAGCTCCCAGGGAATGCCAATATTGCTGATCCATGAATGCCTCAAGTAGCAAGGCTCCACACCATTGTAATGTCAATGTAAACATTGTTGAAATGGCAC
Celera SNP ID:            hCV1639846
SNP Position Genomic:     101584
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34191):
GTCTTATTCTTACTCAAATATACATTTCCTATATGTTTGTTGACTATATAAGTGATTATTGAACAACTACAGAGCATCCAGTCTTTGCTAACACTTGGTA
R
AACTCAGAAAGACGGAGATTTTTTTTCTTTGTTCCCAATGAATTGATAAACCAGCGGGGAAGACAGACTTCTCTACAACTAGACACAGCAAGTCAAAAAG
Celera SNP ID:            hCV1639847
SNP Position Genomic:     101213
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34192):
TTTCTTGACCATCTCTCTCCAGGCATAAGGTCTTATTCTTACTCAAATATACATTTCCTATATGTTTGTTGACTATATAAGTGATTATTGAACAACTACA
K
AGCATCCAGTCTTTGCTAACACTTGGTAAAACTCAGAAAGACGGAGATTTTTTTTCTTTGTTCCCAATGAATTGATAAACCAGCGGGGAAGACAGACTTC
Celera SNP ID:            hCV1639848
SNP Position Genomic:     101184
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|T,8)      total(G,7|T,8) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34193):
TCTGTCTTTTTTCTTTTTGAGTTGGAGTCTCGCTCTGGTGCCCATGCCGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCA
W
GTGATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGCCACCAGGCCTAGCTAATTTATTTTTTGTATTTTTAGTAGAAACGGGATTT
Celera SNP ID:            hCV27072614
SNP Position Genomic:     41493
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34194):
CTGACCTCAAGCAATCTATCTGCCTCATCCTCTCAAAGGGCTGGGATTACATGCCTGGCCAAAAAGATCAGCATTTTGATTATATTTATTACTTTCTAGA
W
TTTAAAATATAAATTAGAAATCTCAGGTTTTTGTTGACTAGCTGGTAAGATGGTTAAGGTTAGGAGCTGAGCCATGTTGCCTCTCTGCTTTACTCCATAG
Celera SNP ID:            hCV1639849
SNP Position Genomic:     99477
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,7)      total(A,7|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34195):
GTATCCCATGTACCTAGATCACAGCCTGGCATGTCATAGGCCCTCAATAAATATTGGTTGAATTAAATTGCAAATGTAAACGCTTTAGAAGACAACATTT
R
TCTGGACATGGTTGTGTGCGTTTATTCTTAAAAGTGACTTATAATCTCATAAATCTGTATGAAATGAACATAGATACAGCACATGCATATAACAGGAAAC
Celera SNP ID:            hCV11322622
SNP Position Genomic:     7545
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;PGA-AFRICAN-PANEL(G,19|A,29)   PGA-EUR(EAN-PANEL(A,16|G,30)   total(G,49|A,45)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34196):
ACTTTCTCTCTGGTGGATTGTATTTTTGCCTGTCATTATCTCTGGATCTCCCCCAGGTCAAGAAGAAGAGAGATTGGCCCTAGAAACTGCCCTGATGTAC
R
GAGCTAAAAAGCCCCTCAACACAGAAGGTGTCATGAAATCAAGGTCCAACGTTGACATGGACTTTGAAGTGGAAAATGCTGTGCTGGGAAAAGACTTCAA
Celera SNP ID:            hCV27528566
SNP Position Genomic:     153081
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34197):
ACCTAGATCACAGCCTGGCATGTCATAGGCCCTCAATAAATATTGGTTGAATTAAATTGCAAATGTAAACGCTTTAGAAGACAACATTTGTCTGGACATG
S
TTGTGTGCGTTTATTCTTAAAAGTGACTTATAATCTCATAAATCTGTATGAAATGAACATAGATACAGCACATGCATATAACAGGAAACATTTCTTGCGA
Celera SNP ID:            hCV11322623
SNP Position Genomic:     7556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(G,-|C,-)   PGA-AFRICAN-PANEL(G,19|C,29)   PGA-EUR(EAN-PANEL(C,16|G,30)   total(G,49|C,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34198):
ATTTCAAGATCCCATCTGTGACAGGTATAATCATTCTCTGAAGAATATTTTACAACCTAGGGAGACAATAATTTACATTTTGTTCATATTAGACAAAAAG
Y
AGGAGGACAGGGAGGCAGTTGCTCCTCCGGAGATTTTTTTCTTTTCTTTAACAGTCCATTTTCCGATATGTTTGGAATTAGGCTAAATTGTGTTAGGTAG
Celera SNP ID:            hCV11322626
SNP Position Genomic:     13221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34199):
CCTGGCACCAGTGATCCTGCCCTAGAAAACCTCCTTCTTCTTAAGGGAATAACTATTATTATAGTCTGATCGAGCTGATACAAATATAGCCCTTGTGTTG
Y
GAGGCTTATGTGAGAATATATGTGAATTATGGTTGTCAGCTGGGGCTGGTTCTTTGTAATCAACAGGGGTGCCTCAAATAAATGAATTACAGGATCCACC
Celera SNP ID:            hCV1860580
SNP Position Genomic:     174078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34200):
AACATCGTACCTGGCACAGGACAGCTCTGCAACAAAGATGCATCCAGCCCGATATGTCAGTAGTGTTGATGCTGAGAAGCCCTGATCTAGATCATGATTA
S
TGTTTTTGCCACAGCCTTCAAACCAGGCTTCTCTCTCCACACCCCATGTGCCAGCCAGCCTAAAAGTAACTTCTGGTTCATGTTCTAGTTTGCCTGTCAT
Celera SNP ID:            hCV1860581
SNP Position Genomic:     173529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,5)      total(G,5|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34201):
GCTACTATCAGATATACTTTTGAAGGGGCTTATGCCCATCCTTATATAGCATACCATGGAGAAGACAGATGGCTCCAAAATATTTTTTCCAGAAAGAATA
W
AGTGATCATAGCAAACACTTTTGCCAATAATGTCTCTGTGGCAGCTCCATCTTCTTCAGTTTAGAGAGCTTTTGTAAATGCTATCTTTATTTTGTATTTT
Celera SNP ID:            hCV1860582
SNP Position Genomic:     172999
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34202):
TACTGGTATGGGAAGGGTTCTTAATCTAGGGTTCATGGGCCCCTAGAAAACCATGTATGGACTTCATAGGTCTATAGTGCATCCCCTAAAAATACATGCC
Y
ATATTGTATATATCTTGTATTTGTCACTGTGTATGTCTGTGTAGAGGAAAGGTCAGTAGCTACTATCAGATATACTTTTGAAGGGGCTTATGCCCATCCT
Celera SNP ID:            hCV1860583
SNP Position Genomic:     172840
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34203):
GAGGCTTCATGTAGAGCCAGTCTACTGGTATGGGAAGGGTTCTTAATCTAGGGTTCATGGGCCCCTAGAAAACCATGTATGGACTTCATAGGTCTATAGT
R
CATCCCCTAAAAATACATGCCCATATTGTATATATCTTGTATTTGTCACTGTGTATGTCTGTGTAGAGGAAAGGTCAGTAGCTACTATCAGATATACTTT
Celera SNP ID:            hCV1860584
SNP Position Genomic:     172818
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34204):
CATCAGTGACCTGGAAGGGTGTATTTCACTTTCCACAGCGTAGGAGGCTTCATGTAGAGCCAGTCTACTGGTATGGGAAGGGTTCTTAATCTAGGGTTCA
Y
GGGCCCCTAGAAAACCATGTATGGACTTCATAGGTCTATAGTGCATCCCCTAAAAATACATGCCCATATTGTATATATCTTGTATTTGTCACTGTGTATG
Celera SNP ID:            hCV1860585
SNP Position Genomic:     172775
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34205):
ATACTAAGCATTCCTTCTCACTGTCATCAGTGACCTGGAAGGGTGTATTTCACTTTCCACAGCGTAGGAGGCTTCATGTAGAGCCAGTCTACTGGTATGG
R
AAGGGTTCTTAATCTAGGGTTCATGGGCCCCTAGAAAACCATGTATGGACTTCATAGGTCTATAGTGCATCCCCTAAAAATACATGCCCATATTGTATAT
Celera SNP ID:            hCV1860586
SNP Position Genomic:     172751
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34206):
AATACTGGAAGCAAACTGATTAGGCATGACATATGAAATTACCTGAGAAGGTTTAATGTCCTGAACATATTCAGATCTGAAGCCTATCTATGATGGCCCA
R
TTGCATGGGCCAGTTTCTCAAATACTAAGCATTCCTTCTCACTGTCATCAGTGACCTGGAAGGGTGTATTTCACTTTCCACAGCGTAGGAGGCTTCATGT
Celera SNP ID:            hCV1860587
SNP Position Genomic:     172629
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34207):
ATCAACACATAACGTGAAAACACTATGTGTTGGCAGCATTTTCCTCAAAAGAAGCAAGGAGAGGGAGACACCTCCAGTTACATTTCCCAAGCAGAACACA
S
TGATGTCGAGCATTGGGTAGGTTTTTACATTTAGTTTGGTTTGAGTGTCTAAGGCTCATTATCATCAGTAGTCAGGGACAGGAAGTTTACATTCTCGGTG
Celera SNP ID:            hCV1860588
SNP Position Genomic:     172250
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,4)      total(G,4|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34208):
GGTACCATAGCATGGTGCATCACTGAAATCAACACATAACGTGAAAACACTATGTGTTGGCAGCATTTTCCTCAAAAGAAGCAAGGAGAGGGAGACACCT
Y
CAGTTACATTTCCCAAGCAGAACACAGTGATGTCGAGCATTGGGTAGGTTTTTACATTTAGTTTGGTTTGAGTGTCTAAGGCTCATTATCATCAGTAGTC
Celera SNP ID:            hCV1860589
SNP Position Genomic:     172223
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34209):
CTTGACACCATGGGTTGCATTGTAGAGAGAGGTGGGTACAGGCACAGTTGTGTGATTTCCTAGTGTCATATGTCAACAGTGGCAGGAGCTGGAATGACAT
S
CAGCCCCTGAATTACCCTGTGCTCTAAGACTGGTCTGTATAGTGCCAAATATTGATAACTTGGGCCCACCCAAGGAGAAAATCTCATATAAATAAAAGTA
Celera SNP ID:            hCV1639920
SNP Position Genomic:     21434
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,7)   caucasian(C,31|G,3)   total(C,60|G,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,9)      total(G,1|C,9) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34210):
TAGCAATGGAAAGGGCGGATTTCTACAGTCCTCAAAGAGATGATTTGCTTTTGAATACTTGTGTTTCTCTCCTCTTAGTTGCTATCATCCATGATTTCTG
Y
GCCTTTTTGATTGTTTCTTTTTTGGTGGTGGCATTTTGTTTTTGTAGCTGGTAACCTGGTATTTCTAAGAGTTATTTGGTGACTTATTCCCACTTGGTCT
Celera SNP ID:            hCV8786812
SNP Position Genomic:     52469
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,16)      total(C,1|T,16) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34211):
GCCATGTGCAAGCTCCAGTCTTGACACCATGGGTTGCATTGTAGAGAGAGGTGGGTACAGGCACAGTTGTGTGATTTCCTAGTGTCATATGTCAACAGTG
K
CAGGAGCTGGAATGACATCCAGCCCCTGAATTACCCTGTGCTCTAAGACTGGTCTGTATAGTGCCAAATATTGATAACTTGGGCCCACCCAAGGAGAAAA
Celera SNP ID:            hCV1639921
SNP Position Genomic:     21415
SNP Source:               Applera
Population(Allele,Count): african american(G,21|T,11)   caucasian(G,33|T,3)   total(G,54|T,14)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;no_pop(T,-|G,-)   JBIC-allele(T,732|G,768)   total(G,768|T,732) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34212):
GTTGGCATCAGACAGTCCAGGTTTTGACTTTTGAACTGGCCCATTAGTAGCTAAGGAAAGCTGAGGATAGTTTCTGTGTCACTGAAAACAATCACACTTA
Y
CTCATGGAAATCTTAGTGTCCTTTCTCCAGACCTGCTCCCTCTCTTTCCTGCATTTGAGGGATGAGATCTACTTTTAGAATTACAGAGGGAGGAGGCATT
Celera SNP ID:            hCV1639922
SNP Position Genomic:     20487
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,9)      total(C,7|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34213):
TGATTTGACACTTTTGAACATTACAAGGCAGTAATTTTTAGAATGCCCCTCCATTTGGGTTTGACTGATGTTTCCTCACTTGATGTTAAAATCAAGTCAC
R
TATCTTTCACAGGAAGATTGCAGAAATGATGCTGTGTTCTTCTTGGTGCCTCCTACCTGGTTGCACATAACTTTTACAGATCCCATTACTGATGATGTTA
Celera SNP ID:            hCV8786814
SNP Position Genomic:     43522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34214):
ACGGGGATTGTGGTCTTAATAAGACCAGAGGACTTAGGAGAAAGGCAGCTTGGAATAGAGAGGTCTAGAGAATTAAACATCTTTAGCTCACAGCATAATG
S
AAAGAAAGTGCCCTTCAGGGGAACATGTATACAACAGGGTTCTGAGAAGAGGTAAAAATAAAACTGCATCCTGCACTTTCTGCTTGCCGTAATGCTGCAG
Celera SNP ID:            hCV1639923
SNP Position Genomic:     19314
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,12)      total(G,12|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34215):
CTTCCTCTGCATGCAGTTTCTTTTCCCTATATTTATGCTCAAACTTGCATCATTCTTGTCTCTAGACGTTCTATTTGCTGTAATAAATGAAATTCTTCTC
M
ATCTAAGGTTAGTTTGATCTCACTTCTGAACTACAATTTGAGGCCAATGTACCACATTCTATCTACTCTTCAGTACTCTGCAAGAGATTGGAGTGAGGAC
Celera SNP ID:            hCV1639851
SNP Position Genomic:     98787
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,8)   total(A,8|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34216):
CCTGTGCTAAGAAAGAGGACCAGAGGAGTTGATTGCTAAGCTCCTTTTCAACAGGAACATTTGTGCTCCTCCAGCTCATTCTTGGGCTGGTTTATCACGG
R
GATTGTGGTCTTAATAAGACCAGAGGACTTAGGAGAAAGGCAGCTTGGAATAGAGAGGTCTAGAGAATTAAACATCTTTAGCTCACAGCATAATGGAAAG
Celera SNP ID:            hCV1639924
SNP Position Genomic:     19218
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,17)   total(G,17|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34217):
CTGCTGTGGGGGATGGGGGTGAGATTTCTAGGTCACTGGAGCTGTGTACCTAAGAGGATTATGGCTGCCTCTGCTGAGTCATGCAGGTTGTCAGGGAAGT
K
GGGGGAAGCTGGCAGTCACAGGAGTCACCCAGCTGCCATGCAAACCAAAGGGCCAGTCTCACTCCCACCGTGCCCCCCTCAACAGCCCTAAGTCCATTTC
Celera SNP ID:            hCV1639852
SNP Position Genomic:     97575
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|G,6)   total(G,6|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34218):
AAAAAAAAAAAGAATGTGTTTTAAGGGTTTTGCTTTATCAGATGCATAATATAAATCAACAGTGAGTTAAGAGTATCCAAGACACTGACAATATCTTGAT
K
TGAAATAATAGACTGTTTATTTTAAAAGATGTAATGGTCTCTTTTTTTTTTTTTTACAGAAAAACCACAACTAGAGTAATGTACTTAATTCCAGAAAATA
Celera SNP ID:            hCV1639925
SNP Position Genomic:     18142
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34219):
CTTGGTAATGGTGAATTATCTCAGCATTTGTTTGTCTGAAAAAGGCTGTATCTTTCTTTCATATATGATGCTTAGTTTCGCTGGATACAAAATTCTTGGC
Y
GATAATTGTTTTGTTTGAAGAGGCTGAAGATAGGGTTCCAATCCCTTCTAGATTGTAGGGTTTCTGCTGAGAAATTTGCTGTTCATCTGATAGGTTTTCT
Celera SNP ID:            hCV1639854
SNP Position Genomic:     96103
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34220):
ACCGTGGCTCCCACTAGTACATTTCAGCCAACCATCATCTTTCAATTTCTTAAGCAACTATGCACTCTCTTGCCTCAGTCTTCACCTATCCTTCTTTCTC
Y
GCCTGAAGCATTCCTCTCCACCCCCCTTTCCACATGGACAACTGACTCCTCTTTTGCTCACTGCTTATGTCTCACTTCCTTCAGAGAAATTCCTTATTTT
Celera SNP ID:            hCV1639927
SNP Position Genomic:     17194
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,11)      total(C,11|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34221):
TCCCTGTGAAGGTCTCAGGAGAGAGGCTTCCCAAGCTGTGAAGTGCTCAAACCACAGCAGAAAATAGAATTTAATTGCACCACTGATAATAAACCGGATG
K
ATGAAGGAAACTGATAACTTTCATCTTTTAGGCACTATTAATTTGCAGGATTATTTGTTAGTTATCTTCTGGGTTTACTTAAAGAGCAGTTTAATTCCCC
Celera SNP ID:            hCV8786673
SNP Position Genomic:     162493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:34222):
TGATGTGTGATTTTCACATACATAACATACTTTCTCTATTGAGAAATGTCTTGCCCCAAACTGTGCAGCTTGTAACGTGTAGATAACTATTTCTTAGCCT
R
TACTCTTTCAACTATTTTGTGCTGCATTTTGGTGAAAATAGACAGCCTATTTCATCATTTTGAAGCAACATTTATATAGAATGTCATTTCAGATTTTTGC
Celera SNP ID:            hCV8786819
SNP Position Genomic:     35782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34223):
TATGATGCTACGAGAGCCCCTAATGAGGAGATCACTCTGAAATCCACAAAGCCTTGTTTTCAGCTTTTTATTACACTTTATTGCTGCAAAGAAGGAGAAG
R
AGGACCTCCCTCCACAAGCAAGCTGCCTAATAGCTGTAAATGCAAACACTTTTTGCTATTATTAAATATAGATCGGGGTGTTATGAATGTCATCAGGATT
Celera SNP ID:            hCV8786747
SNP Position Genomic:     134175
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   JBIG-allele(A,529|G,970)   total(G,970|A,529)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34224):
TTTCACATGAATCACTATTTGCCCATGTTTGCCACTATTTCTCCTATGTTTTATTTTTGAAGCTTTATAATTTGAACTTTTACATTGTGGTCTATGATCC
R
TCTTGAGTTACCTTTTGGTGTTGTGTGAGGTAGGGATCAAATCTTATTTTTTCCAAATTTATCCATTTGTTCCACCAGCATTTGTTGAAAAGACTGTTGG
Celera SNP ID:            hCV1639857
SNP Position Genomic:     89540
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34225):
TGCTGGTAGCACTGGGGGTGGGTCATGAGTTGCCTGGCCCCACTAATTCACACACAATGTTCTATTTCCCCTGGATTTGTCCTCTGTCTGTCCTCTCTCC
M
GGTCACATGAGCTCCTTGGATACAGATATAATGCCTTTTACATGTCCTGTCTGATTCAATCCTTCTCTTTCAGGTGGGGGCAGTGGGGGGACGATGAACT
Celera SNP ID:            hCV1639858
SNP Position Genomic:     87446
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34226):
TGATCCTACAGATAAACAGAAAATAAAGTTATTTTCCCTTTGTCCATCTTTTCCTCCCCCTCTTTTTGTCCCAGTATTTAGAAAGATTTTTTTCTTTCCA
Y
GCATGAAAAAGACAGTAATGACATAACTACTTTTATATCTTGCCAAGCAGCTCCTCAAGGGGTTAACTATAAAACCATGTTTTGTTCATTTTCTTTCAAT
Celera SNP ID:            hCV1639859
SNP Position Genomic:     85856
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34227):
TTCTTTGCTTTTTGGAAAAGAGATGAGGCAGCTCCAGTCTGTGTCTCCCTTGGCTTTCCCCAGACACCGTAAATGATATTGGCAGCATCCCAGCCCTACC
R
CTCATAGAGCGAAAACCTATTCCTCCTTCTCCTGCCACGTTTAATAAACTTTATCTAGAACAATTTCTTGTGCAGTGGCAAAACACAGCACTTACATAAC
Celera SNP ID:            hCV8786679
SNP Position Genomic:     157381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34228):
ACTGAAGAACTTGGAGTCTGATGTTCAAAGGCAGGAAGCATCCAGCATGGGAGAAAGATGTAGGCTGGGAGGCTAGGCCCATCTCTCCTTTTCAAGTTTT
K
CTGCCTGCTTTATATTCACTGGAAGCTGATTAGCTTGTGCCCACCAGATTAAGGGTGGATCTGCCTTCCCCAGCCCACTGACTCAAATGTTAATCTCTTT
Celera SNP ID:            hCV11322638
SNP Position Genomic:     32356
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34229):
ATAAGGAAAAGGGAGCTTTGCAGATTCCTAAAATAATGTGATGCAAACAGATATTTTCTCCCCAAATAGTCATTGTTCTCAGCATTTTGTAGGTACCATA
R
CATGGTGCATCACTGAAATCAACACATAACGTGAAAACACTATGTGTTGGCAGCATTTTCCTCAAAAGAAGCAAGGAGAGGGAGACACCTCCAGTTACAT
Celera SNP ID:            hCV1860590
SNP Position Genomic:     172132
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34230):
CATATGCTTAGTGGAAGATATCTTGTGATTTCTAAAAAAGTAATTTCTTTCCAAAAAGTTTATATAAGAGAAAGAGAGTATGTGTGTGTTAGTAACTTTC
Y
TGTTTACCAAAGAATCAGAGTAGCAGCTCATTATCATGAATTAGTATAAAGGACAGGAATGTCAATATCAGTAAGTGATATGTAACTTGAAAAAGCATAC
Celera SNP ID:            hCV1860592
SNP Position Genomic:     171617
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34231):
GGATTTCAGAAAATAAAGAAGCTATTCCAGCAAAAAAAAAAGTTTCTATTTTTACCTGTATTCTGTCAGGGATCACAGTATATGTAGTTTTGAAGATGAA
W
GTTTTAGAGTCAGAAAGACCTGGATTTATATCCAACTTCCGCCAGATTCCTAACTCTGTAGGCTTTTTATTTATCTTCTAAATTTCAATTTCACGTAAAC
Celera SNP ID:            hCV1860593
SNP Position Genomic:     170528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,9)      total(A,2|T,9) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34232):
CTTAGCCAGGATAGATGATCGTAAACTATGTCTATGAGTGAGCCCTCCTCATCGAAGGTGTTCATTTCCATCTCTCTCTTCAGGACAGCTACAGAACAGT
R
CACATTTTAGAATGAAAATGAGGAGTCACTGGTAACTGCGGTACCTAAAACATAATTTGCTCTGTGCATTTCATGTTTGCTATTTTTTTGAATCTTAAAA
Celera SNP ID:            hCV1860594
SNP Position Genomic:     169987
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;SC_12_A(G,9|A,15)   SC_12_C(A,4|G,16)   SC_12_AA(A,1|G,22)   total(G,47|A,20)   PGA-AFRICAN-PANEL(A,5|G,43)   PGA-EUR(EAN-PANEL(A,13|G,33)   total(G,76|A,18)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34233):
AGGAGTGCAGTTGCTCTGTTTTAACCTGAGCTAACCAGCACTTACACAGAGCCTGGGGTGCTCCTCTTGCAAAGACAGTGTACATGGGGCCTGTGAAAGA
K
GCTTAACCCACAGAAATCGACTTCAACAAGCAGAATATCTGCATGACCAGCACTGATTGGTGGGGAATTGTATAGATAACACAAGATCCATGGGAAGTAT
Celera SNP ID:            hCV1860595
SNP Position Genomic:     168097
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34234):
GAGTAGTGAAGAAAAGTTGCACCTACAGGCAGCTAGGGGCAGCAGGAAGCGAGCTGTCCACATGACAGATGTCTCTTGGAAACCATGGAGCCGAGCACAG
Y
TGCCATTAGCTGTCAGCATGGAGGTGACAGTGAAGGCCAACTCAGGAATGGGACAGAATCAGATGCCACGAGAGGAAAGACTAAAACCCAGTCCACGAAA
Celera SNP ID:            hCV27521896
SNP Position Genomic:     147890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34235):
AAGATAGACTCAATCTGATGTTTCTGTTCTATTTTGAGGACCATTCAACAGCACAGGCAGAAAACTCTGATTGTCAAAGAATGTTCTAGCAAATGATTAG
W
AATGTTACTGAAGAGACAGTTTGGGTTCCTAGTGATAAAAATCAATCATTCCTTATAATAGCAACCACCAAAAAAAGGTCATAGTTTTAGCTGCTGCATA
Celera SNP ID:            hCV25473844
SNP Position Genomic:     106033
SNP Source:               Applera
Population(Allele,Count): african american(A,18)   caucasian(A,30|T,8)   total(A,48|T,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,5|A,39)   PGA-EUR(EAN-PANEL(T,10|A,36)   total(A,75|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34236):
AGGGCATAGAGCAAGCACTGAATAAACAGAATTGCTTGGAAAAAATTTTTAATGCATAAAAACTCCATGCTGCAATGGGTGGTCTTAATCTATAAACAAA
S
CTTTTTCAAAGCACATTTTAGAGCAGAAATTAACCAGCTTTCACACCTGGGACACTGCCCTAATCAGTGTATAATCCTAATTCTCATTATGTCCTCAGTA
Celera SNP ID:            hCV8786751
SNP Position Genomic:     110030
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34237):
TTCCCTTGAGATGTATGCATTTATTTTTAACCCTGGCCTTTTGCTAATATCGAACCACAATGCCATCATTAATCCCCATTAATACTTTGCTCTGACTATG
M
CTTTTGGGAACTAACTCATGACTAAACTTTTTTAACCAATCGATGTTCGATGTACTCTTTAGCATTGTAAAAAAATCTTGAACTTCAGCTAGTAAATCAA
Celera SNP ID:            hCV1639860
SNP Position Genomic:     85542
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,7)   total(A,4|C,7) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:34238):
GAGGTTTTTAAAAAAATACTGAAGAGACCTGAAATTGCATGAATGCTGAGAAGACCCACTATTAGCAAGCAGGAGCTTGAAGCTGCAAGAGGAAGAGTAC
R
TAAGAGTCACAGCAAAGCCCCGGAGAACAAGGCAACGCAGAAGCCTGGTTTGGAGATGCAGAGGGAGGAGGGACCTTTCCAACTTCAGTAACAAGAAGAA
Celera SNP ID:            hCV15983108
SNP Position Genomic:     4727
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:34239):
ATTATAACTCAGACCTGTGCTTCTAAACGAATGTGCACACAAATCACCCAGTGATCTTGTTAAAATGCAAATTCTTATTCAAGAGTTCTGGGAGGGGCCT
S
AGATTCTGAATTCCTAACAAGCTCCCAGGGAATGCCAATATTGCTGATCCATGAATGCCTCAAGTAGCAAGGCTCCACACCATTGTAATGTCAATGTAAA
Celera SNP ID:            hCV8786752
SNP Position Genomic:     101567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34240):
GAGAAAAGAAAAAAAAGAGAAGCAATTAGAAAAAATGAAGAAACTTGCCCACAGTTATACTTCTCCCTTTAAATTGCATTGCTTGATTGCTGCTTTCTTT
Y
CAATGCATTTCTGATGTGACAGTTCCCACCAGGAAAATTGCCAGAGAAAGCTAAGGAGAATGCTTAACTTTGTGCCATCCGAACACTTACTTCCCTCACA
Celera SNP ID:            hCV1639861
SNP Position Genomic:     83627
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34241):
GCCAGGAACTAGGCTTGGACAGGGGAAGCAAATTCATTTCCTGTTTGTGGCAAACGGAGTCTGGATGATGATAAGACTTTTTCCATCTAAACTGCCTTGT
K
AACCCAGTAAACAAAGCAAAAATCAATATGCTAGATTCATCAATGCTTGCTGGAACACACTCCATGGCAAGGGACATTTCCTAGGCAAAATGGACAATGG
Celera SNP ID:            hCV1639934
SNP Position Genomic:     13530
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,7)      total(G,4|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34242):
TGCATCTCACATCATTCAGGAAGTTACATGAGAGCCTCAACTTCATGGCTGCCATAGTTGTAAGACAGGAAGAAAAAAGAACATTGCTGGGGAAATAATT
M
TCTTAAAATTCAGTGCCTGTTTCAATAGGACTGAATAAAGCCAAGGAAATTAGATTTTAAGGCTAATTGCTATAATGAGAAGAGACAAGTATAGAACGTG
Celera SNP ID:            hCV29335473
SNP Position Genomic:     25484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34243):
GGAGGGGGAGAATTTGGGTGTTAAGGGGTAGAGGTCCTGACCTGAGACATTTTGAGCAATATTTCCATTTCCGTCATACCCTTGTTTATATACACAAAAT
R
TTCAATGGTTTTCAAAAACACTTTCACCTCTATTAGCTCCTTTAAACCTTAGAATACCTCTGTGAATCTTTCCAAAATCTGTTCCGTTTTAATAATTTTA
Celera SNP ID:            hCV1639862
SNP Position Genomic:     81496
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34244):
AAATACGTTACAGACAAGCAAATGCTAAGAGATTTTGTCACCACCAGGCCTGCCCTAAAAGAGCTCCTGAAGGAAGCGCTAAACATGGAAAGGAACAACC
R
GTACCAGCCACTGCAAAATCATGCCAAAATGTAAAGACCATCAAGACTAGGAAGAAACTCCATCAACTAATGAGCAAAATCACCAGCTAACATCATAATG
Celera SNP ID:            hCV27073430
SNP Position Genomic:     27772
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34245):
AACAGACTTAACTAAAAACTGGAAACTCTGACACTGTAGAAGAAAGCAAGAACCATGTACAGTTATGTGCCACATAGCAACATTTCAGTCAATGACAGAT
Y
ATGCATAGGTGATCTTATGAGATTCTGATGGAGCTGAAAAATTCCTGTTACATAGTGATGTCATAGCTATCATAATAGAATAGTGAGATTACTTATTTTT
Celera SNP ID:            hCV11972227
SNP Position Genomic:     23853
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,16)      total(C,16|T,1) ;PCT-TFRICTN-PTNEL(T,8|C,40)   total(C,40|T,8)no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34246):
TCTACTATTTAGTGTAGAAATTAAGCACACTTCGAGGGGCGTGGAAGGACCCATGGTAGAGGATTTATCTTGATCAGAGTCATTTCTGCATCTCACATCA
Y
TCAGGAAGTTACATGAGAGCCTCAACTTCATGGCTGCCATAGTTGTAAGACAGGAAGAAAAAAGAACATTGCTGGGGAAATAATTCTCTTAAAATTCAGT
Celera SNP ID:            hCV29335474
SNP Position Genomic:     25398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34247):
CATTTTTTTCAGTGGCCACTCTTCCAGTTAGCAAGCTGCTCTTGTAATACTGACTGAGAAATGCAGAGAGGCAAGAAGAGGAAAAGGGGGGAAATGGCGG
S
TTTTTCATTTCTAATAGTTCTGTAGCAGTGAGTCCTGCCCATCACTGTGTGTGATATATACAGTGTTCTAAGGTATACTGAGTGTATATAACGCCCTTAA
Celera SNP ID:            hCV1639936
SNP Position Genomic:     11012
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,17|C,31)   PGA-EUR(EAN-PANEL(C,21|G,25)   total(G,42|C,52)no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34248):
GGACGTGGATTAAATGGGATGTCCAGGACCCATGCAGTCCTGGATTATATCAATGTACCCAACATGGAGAGCCAGATGTTGGTACAGAGAAGTAGACCCA
R
TCTGGCTGAAGAGTAGATTATTTCTGAAGAAATGTTAAACTGGGTGGTATTTCAAACAATCAAAGACTGAAAAAAAGAAATACTTATATTACCAATTTCC
Celera SNP ID:            hCV1639864
SNP Position Genomic:     80457
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34249):
GATTGTCGTGAGCATCTAGTGAGCAGTGTCTGTGATCAAGTCTGACCCACAGCACGTGACCAATAAGTGTTCATTGACTGGGAATGTGCAACTTATCATA
Y
CCCAGCAAGGTCAGGAAAGCACTCCAGGGAATACTTGTTCCTATGAGGAATATGTACGACCTGTAGCCCCCATAAATCTGACATCTGAACAAAATGCTGC
Celera SNP ID:            hCV1639937
SNP Position Genomic:     9974
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34250):
GTCAGAAACTTCCAGGACCGCCTTTGGAGGCAGAAGAGCAGTTCCACCCAATAACTCTAATGCAGCGGAAGATGACCTGCCCACAGTGGAGCTTCAGGGC
K
TGGTGCCCCGGGGCGTCAACCTGCAAGGTATGAGCATACCCCCCTTCCCCACCACTCTGGGTCCAGGCACAGCCGGGCCCTGGCCCCTCTTCCCTGCAGG
Celera SNP ID:            hCV1639938
SNP Position Genomic:     8110
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;Australian Caucasian(T,81|G,219)   Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|G,-)      total(G,219|T,81);WIAF-CSNP-P(1(T,3|G,105)   total(G,105|T,3)PGA-AFRICAN-PANEL(T,9|G,35)   PGA-EUR(EAN-PANEL(T,10|G,32)   total(G,67|T,19)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34251):
TGAGGTACAGTATAGGTAAAATCTTCCTGTCTTGCTATTTGATCTTTATTCCTTTTTAAGAAAATTCTGGTATTGCCTGTGGCTAGCAGTTCTTTCTAAG
R
AGACTGAACTGGTACCAGACTCCTCCCTTGATAGTGTAATCTACTTTCTGCAGCCTTCTGCCCTCTCCTTGATCCTGGGGTCCACCTTGTCTCAGAAGAG
Celera SNP ID:            hCV1639865
SNP Position Genomic:     78859
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;(A,-|G,-)   PGA-AFRICAN-PANEL(A,4|G,44)   PGA-EUR(EAN-PANEL(A,19|G,27)   total(G,71|A,23)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34252):
TAATGACCTGCATTCTCTCTCTTAGGTCCGTGGCACTCAGGTAGTTGGTTCTGACATGACTGTGACAATTCAGTTTACCAATCCTTTAAAAGAAACCCTG
Y
GAAATGTCTGGGTACACCTGGATGGTCCTGGAGTAACAAGACCAATGAAGAAGATGTTCCGGTAAACCTTGGGTTGGGGAGACCGGGCAGGCAGTGCAGG
Celera SNP ID:            hCV27528650
SNP Position Genomic:     176029
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:34253):
CAGAATAACCAGCCAAGCATGTTTACAGTGATGCAGGGAATCAATCCGTTCTATGACTATTTCCTTAACTCTCCAGTTAGTTGCTATCCTGCCCAGCAAA
Y
ACAGCTGAGAGAAGCTGCTTAATAAGAACCAAAATACTGAGCTATTTGCATACCTGAAGAACTAGTGCAATTACCCATTACTGCATCCATCCTGTCAGTT
Celera SNP ID:            hCV1639866
SNP Position Genomic:     78515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;PGA-AFRICAN-PANEL(C,22|T,26)   PGA-EUR(EAN-PANEL(T,17|C,29)   total(C,51|T,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:34254):
CCTTTGGGTAGGCACCCTGGAGCACAGTCACTTGATTGTATCTTCTGCCACTCAAAGAGGCTATTGGTGTGTATCCTTTGGCCAGAATAACCAGCCAAGC
R
TGTTTACAGTGATGCAGGGAATCAATCCGTTCTATGACTATTTCCTTAACTCTCCAGTTAGTTGCTATCCTGCCCAGCAAACACAGCTGAGAGAAGCTGC
Celera SNP ID:            hCV1639867
SNP Position Genomic:     78433
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;PGA-AFRICAN-PANEL(A,19|G,29)   PGA-EUR(EAN-PANEL(G,17|A,29)   total(G,46|A,48)
SNP Type:                 INTRON


Context             (SEQ ID NO:34255):
TCCTCAGTGACATGCAACCTTTGACTATACTGCCTACTGCCTGATGCCCTTGTCTTGGGTCCCCAATTTCTAGCCTTTAGCCTGGTGATTCTATTTATGG
Y
CCAAATATGACAATCTATAGATAGCTAACAAGGGGAAAAGTCATCAAGGTGGGCAGCAAGGAGGTCTGGAAAAGTGTCCCAAGCCCAGTCAGGGCACTCT
Celera SNP ID:            hCV1639868
SNP Position Genomic:     78221
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;PGA-AFRICAN-PANEL(T,5|C,37)   PGA-EUR(EAN-PANEL(T,6|C,40)   total(C,77|T,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:34256):
CTAATAAATGAGGGTTGTGATTTATCTAGCAACAGGGGAACAGCTCAGCATTAACAATTAAAAGGTCTGTAGAGGACAGAGCTTTTTTTCCTTACTCTTC
Y
CCTTAGCTGATTGAGTTCAGCCCTATGCTATAAATAGCCCTTGTAATTAATGGCTATCTGTTTGAAAATCAGTTATCAGGACCACAGTTTAGGAGCCTTT
Celera SNP ID:            hCV8786759
SNP Position Genomic:     100110
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34257):
GTGGGGGCCAATATTCAACATTCTTAAAGAAAAGAATTTTCAACCCCGAATTTCATATCCAGCCAAACTAAGCTTCATAAGTGAAGGAGAAATAAAATAC
K
TTACAGACAAGCAAATGCTAAGAGATTTTGTCACCACCAGGCCTGCCCTAAAAGAGCTCCTGAAGGAAGCGCTAAACATGGAAAGGAACAACCAGTACCA
Celera SNP ID:            hCV27073439
SNP Position Genomic:     27678
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34258):
GTTGCTATCATCCATGATTTCTGTGCCTTTTTGATTGTTTCTTTTTTGGTGGTGGCATTTTGTTTTTGTAGCTGGTAACCTGGTATTTCTAAGAGTTATT
Y
GGTGACTTATTCCCACTTGGTCTCAGCACACTCCCTTTCCATCCTAAGACTGTTAGCACAAGTTTTGCTTCCTTTTCCAAAGCAACTGTATTCACACTTC
Celera SNP ID:            hCV27071836
SNP Position Genomic:     52546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,9)      total(C,5|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34259):
TACTCCAGAAGCATGTTGTAAGGATTAATGAGGGAATAACTGGAAGCTCTTTGAACTGCTTCGTGATAGTTCCTTCCTAATAAGATGACCCAATTACCAG
S
CTTATTTTCAATATTGCAACTATGTAGGAAAGCTAAATTCTTATGGTATTCCTTAAGGAAGGATAACCTTCATAAAATGCTACTATAACAGCAGCCAGAG
Celera SNP ID:            hCV11322640
SNP Position Genomic:     39676
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,15)      total(G,2|C,15) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:34260):
GCTGGGAAAAGACTTCAAGCTCTCCATCACCTTCCGGAACAACAGCCACAACCGTTACACCATCACAGCTTATCTCTCAGCCAACATCACCTTCTACACC
R
GGGTCCCGAAGGCAGAATTCAAGAAGGAGACGTTCGACGTGACGCTGGAGCCCTTGTCCTGTAAGCTAACAATGGTGTGGTTCTTTGTGAGACTCGCTGT
Celera SNP ID:            hCV27529389
SNP Position Genomic:     153264
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34261):
TGATTTATTTAGCCAACACTTACTGAGCACCTCCTAATGACTGGGCCCTGCTCTAGTGCTGGAGATGTGTAGAAGAATAAGACCAACAGAGCTCCCAAAG
K
AGATTTATGCACTCTACAAATGCATGATGGAATTGCAAGATGAAAACAGAAAAACTCTTATGGATCTAGATAAAGAAGCTTTAGAATAAAAAGTAGCATT
Celera SNP ID:            hCV7816158
SNP Position Genomic:     125535
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,12)   total(G,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34262):
GACACGGTACCTTTTGACTGTATAGTGAGAACTTAAGTTTCAAATGAAGGCTCCGAGAACATAAAAAACCATGAATCTTAAAGAGAAACAAACAAGCAAA
R
GTTTAATAAGAACTTCCTTGCTAGATGTCCTCATGATTTATTTAGCCAACACTTACTGAGCACCTCCTAATGACTGGGCCCTGCTCTAGTGCTGGAGATG
Celera SNP ID:            hCV7816159
SNP Position Genomic:     125401
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,10)      total(G,10|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34263):
AAACCTAAATGAACTTTCTTCCTTCTCACTTCTCACGGACTCATTTAGGTGAATGCCAAAGATGACGAAGGTGTCCTCGTTGGATCCTGGGACAATATCT
R
TGCCTATGGCGTCCCCCCATCGGCCTGGACTGGAAGCGTTGACATTCTATTGGAATACCGGAGCTCTGAGAATCCAGTCCGGTATGGCCAATGCTGGGTT
Celera SNP ID:            hCV27540483
SNP Position Genomic:     103094
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34264):
GATCCAGTTCAATATGTTATTTCAAGAGAAAAACTCCCCCACTTTGTGATTTGGGCTTAAACTTTAAGTTTCTCAAATAGGACAGAAGCTAAGGTCTAGA
M
GCACAGAGGACAAACCATGGGCAGTTGCAGTTTATTGTAATAATAATCTTATTTGCCTGCGTGCATTCAAGATGATAAATGGCCGGTATCTCCTGATGGC
Celera SNP ID:            hCV911164
SNP Position Genomic:     179869
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   no_pop(C,-|A,-)   no_pop(A,-|C,-)   JBIC-allele(A,263|C,1230)   total(A,263|C,1230)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34265):
GGGGTAGGGAAACTTGGAGAAAAGTAAAGCAGACCCTGTCTCAAGTCTTGATGCCAGGCCTGTGTGTGTTTTCTCCTACTAGTCAAGAAAGAGGCGGTGC
W
GATCCAAGCCGGCGAGTACATGGGTCAGCTGCTGGAACAAGCGTCCCTGCACTTCTTTGTCACAGCTCGCATCAATGAGACCAGGGATGTTCTGGCCAAG
Celera SNP ID:            hCV11972305
SNP Position Genomic:     160304
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,35)   caucasian(T,40)   total(A,1|T,75)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|A,-)    ;(T,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34266):
ATTCTGTTTTGTTCTCTGATGTATCCCATGTACCTAGATCACAGCCTGGCATGTCATAGGCCCTCAATAAATATTGGTTGAATTAAATTGCAAATGTAAA
Y
GCTTTAGAAGACAACATTTGTCTGGACATGGTTGTGTGCGTTTATTCTTAAAAGTGACTTATAATCTCATAAATCTGTATGAAATGAACATAGATACAGC
Celera SNP ID:            hCV1639940
SNP Position Genomic:     7525
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;PGA-AFRICAN-PANEL(C,19|T,29)   PGA-EUR(EAN-PANEL(T,16|C,30)   total(C,49|T,45)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34267):
ACTCACCCAGCCAGGCGTGCACCTGGGGCTCCCCCCTTCTCCCCCTTAGCACTGTGTCTCCCGACAGCGCGCCACACTGTTCTGCACCCCTGGCAATGCC
R
CAGCCTACCTTCGGTATTTCTCACTAGAGGATGGCTCTCGCAGCCTTCTCCCTATCATTAACCCTTTTTCGCTCTTCTCCCTCCCTTCCCCCGTCAGCTC
Celera SNP ID:            hCV1639941
SNP Position Genomic:     6699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34268):
TACATACACGGGTAGATTCAAGGGCTGTTTAAGAGGTAGGATAGAAAATATTTGCTCAAGGATCGGATTTGATGATTGAGGGAGAGAAACAAGGAAGCCT
S
AAGAATGATGCCCATGTGTCTGGTGTACCACCTGCGTGCAAAGTGATGGTATTCATTGAGGTAGGGAACTCCTGAGATGCACCAGGTTTTCCAGGAAAGT
Celera SNP ID:            hCV1639942
SNP Position Genomic:     4077
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,6)      total(G,2|C,6) ;no_pop(G,-|C,-)   PGA-AFRICAN-PANEL(G,18|C,30)   PGA-EUR(EAN-PANEL(C,13|G,33)   total(G,51|C,43)    
SNP Type:                 TFBS


Context             (SEQ ID NO:34269):
AATGACTTTTAGGGGTTTTTGAAATTTTTTTCTAATTTTGTAGGTATTATGGGAGGGCAATTTAGTGTAGCCTTAATGAAGTTGAATAATGCCTCCTGTA
Y
GTAGTCCTGGACTTGTATTGTCTACTTGACCACCAGTGACTCAAGACCAAGACACTTTATTCTGCCACTGGTCAAACCCTGAGATCATGAGAGGGTGTTA
Celera SNP ID:            hCV8786760
SNP Position Genomic:     99729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34270):
GTGTGTGGCTGACTCATGGGCAATGAAATAAATTTTGTTGAATCAGTGGTATTGGGGACCTCACCTCTATCCCCAATACTTTGGACAACCCATTAAGCTT
S
CTCATGTCTTTTCCATTTGACTACAGTCTGGAACATTATTTCTTTAAACTCTCAACCTCTCTGTGTAGCTTTTAATCTTCCCCTTCTTAGCCAAGTTTTA
Celera SNP ID:            hCV8786906
SNP Position Genomic:     13834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34271):
CATTTTGATTATATTTATTACTTTCTAGAATTTAAAATATAAATTAGAAATCTCAGGTTTTTGTTGACTAGCTGGTAAGATGGTTAAGGTTAGGAGCTGA
K
CCATGTTGCCTCTCTGCTTTACTCCATAGTCCTCATGTTTTGTTGGGACCATGTTTTGAAGTTTATTGCATTATGCTGATAATGACTTTTAGGGGTTTTT
Celera SNP ID:            hCV8786761
SNP Position Genomic:     99548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34272):
GGTAGACAGTTTGAAAGCTGTCACTTTGAAAGAGCGAGCTGCCAAGTTTCTAGCTACCGTATTTAAAAAAAAAAAAAAAAAAAAGGCGGCTTAGCAATGA
R
CTGTTCCATTTTGCCAGGAACTAGGCTTGGACAGGGGAAGCAAATTCATTTCCTGTTTGTGGCAAACGGAGTCTGGATGATGATAAGACTTTTTCCATCT
Celera SNP ID:            hCV8786907
SNP Position Genomic:     13417
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34273):
GGGTCCAGCTTGTATAGGCCTTGTCAGTTTCAGCTTGCAATTTATCCAAAAAGCAAAGAGAAGTAGCCATATAAGGGCTTTGTGCAAATAATTTGATTTC
R
GATTTTAGCCCTGAAATGCTCATTCTGACTGCACTGTAGAGAATGGACTGGAAAGGGGTACATACACGGGTAGATTCAAGGGCTGTTTAAGAGGTAGGAT
Celera SNP ID:            hCV1639944
SNP Position Genomic:     3918
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:34274):
CATCCAGCAGGGAGTTTTCATGGAATCTGGTGGTCACAGGGTACTTTCTTGGCTCCGGATGCCTTGCTTTGACTTCCATATGGGATCTCCCTGTGTTCCT
Y
ACCCACTGCTCCAGTACCCGTGTTATCCTGCCTACCTGGCTTTGTGAACAGCTTCCCTGACTCCGGAGAATTACATGCCCAGTGCTCAGGCTTCCCCGCC
Celera SNP ID:            hCV1639871
SNP Position Genomic:     77931
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;PGA-AFRICAN-PANEL(T,18|C,26)   PGA-EUR(EAN-PANEL(C,15|T,29)   total(C,41|T,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:34275):
ATATCATATATAAATATATTGTTTATAATATGTAAACAATATATACATAAATAATATATAAAAACTATATATTATATATGTAAACAATATATTTTTAAAA
M
CCAAACTCATGGGTTTATAGTTTTTTCATAGTGAAAACAAACAAATATATAGTTTGCTTATATCTATTATATATAAACAGTATATAATATATAAAGATAT
Celera SNP ID:            hCV27073512
SNP Position Genomic:     14773
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,5)   total(A,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34276):
AGTCCATTTTCCGATATGTTTGGAATTAGGCTAAATTGTGTTAGGTAGACAGTTTGAAAGCTGTCACTTTGAAAGAGCGAGCTGCCAAGTTTCTAGCTAC
M
GTATTTAAAAAAAAAAAAAAAAAAAAGGCGGCTTAGCAATGAGCTGTTCCATTTTGCCAGGAACTAGGCTTGGACAGGGGAAGCAAATTCATTTCCTGTT
Celera SNP ID:            hCV8786908
SNP Position Genomic:     13374
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34277):
AACATGGTAAAGCCCCATCTCTACTAAAAATACAAAAATTAGGCGGGCATGGTGGCATGCACCTGTAGTTCCAGCTACTTGGGAGGCTGAGGCAGAAGAA
Y
CACTTGAACCCGGGAGGTGGAGGTTGCACTCCAGCCTTTGCAACAGAGCAAGACTTCATCTGAAAGATAGAAAGATGAAAGAAAGAAAGAAAGAAAGAAA
Celera SNP ID:            hCV15983119
SNP Position Genomic:     5191
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:34278):
CAAAATCCAGGTCTTGTTCAGCTGGAAAAAACCAGCAGCGTCCAGACATGACTGGGTTTTTTGTTTGTTTGTTTGAGATGTGAAGTTTTGCATGTAAATC
R
AATAGAGTTTGCCAGAAAATTCATTGCCTGAACAAATATGGTCTGCTCCTTGGGTATTGCCAAGTAGGAGAAAGATGGTTTGTCTGGAGAGACTGCAGAG
Celera SNP ID:            hCV1639945
SNP Position Genomic:     1156
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:34279):
GAGTTTTGGCTGGGATGGCTGGAACTGTGCATCATTGCGCTGGGCATCCAGCAGGGAGTTTTCATGGAATCTGGTGGTCACAGGGTACTTTCTTGGCTCC
R
GATGCCTTGCTTTGACTTCCATATGGGATCTCCCTGTGTTCCTTACCCACTGCTCCAGTACCCGTGTTATCCTGCCTACCTGGCTTTGTGAACAGCTTCC
Celera SNP ID:            hCV1639872
SNP Position Genomic:     77887
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;PGA-AFRICAN-PANEL(G,18|A,28)   PGA-EUR(EAN-PANEL(A,15|G,29)   total(G,47|A,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:34280):
TTAGCGACACAAGCGGGGGCGAATGTCATTTCTCAGGAGTTTTGGCTGGGATGGCTGGAACTGTGCATCATTGCGCTGGGCATCCAGCAGGGAGTTTTCA
Y
GGAATCTGGTGGTCACAGGGTACTTTCTTGGCTCCGGATGCCTTGCTTTGACTTCCATATGGGATCTCCCTGTGTTCCTTACCCACTGCTCCAGTACCCG
Celera SNP ID:            hCV1639873
SNP Position Genomic:     77851
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;PGA-AFRICAN-PANEL(T,17|C,25)   PGA-EUR(EAN-PANEL(C,15|T,29)   total(C,40|T,46)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34281):
ACCAAATACTTGGTTGACCTGTGGGTGGCTGACTCATGGGCAATGAAATAAATTTTGTTTTATACGTATAACTTTATATATATGTAACTTTATATATATA
W
AAAAAGTTTGCTTATATATAATATATATACACATATCATATATAAATATATTGTTTATAATATGTAAACAATATATACATAAATAATATATAAAAACTAT
Celera SNP ID:            hCV27073514
SNP Position Genomic:     14640
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,4)      total(A,4|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34282):
TTGTGTTCCAGAATCTCTACCTCTTTTAAGGTGCAGATACTTTTTCACTCGTTTCTCCACAGCAGGTGTTTCCACCATTCTGTTCAGAACAATAAAAAGA
K
CAGCTTTTTTTTTTTTTTTTTTTTTTGAGACAGGATCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTACAATCAGCTCACTGCAACCTCTGCCTCCCC
Celera SNP ID:            hCV8786765
SNP Position Genomic:     99144
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34283):
ATGTACATCAGCATCATAGAATTCTGAAACTACTGATGCAACAGAATCATAAAATGTTTAATGAGACATATCAATTTAATTCTGCTGCTTGGAACTTAAA
R
AGCCAGAGTTCGTCAGCATTTTGCTAACAAATGTCATCATTTACAGACTGAATTTGGTGCTGATTATGTTCACCATTACTAAAAATATTGGGAAATGAGC
Celera SNP ID:            hCV1639875
SNP Position Genomic:     76730
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,14)   total(G,14|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34284):
TCTCACGTGTCCCAGATTTGTTTTAAAAATCATTTTCAATTCATCTAGTTTTCTATTAATGTTAAAAGGTTGGAAATTATATTTTAATTAGTGTTAGAGA
Y
GTACATCAGCATCATAGAATTCTGAAACTACTGATGCAACAGAATCATAAAATGTTTAATGAGACATATCAATTTAATTCTGCTGCTTGGAACTTAAAGA
Celera SNP ID:            hCV1639876
SNP Position Genomic:     76631
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,8)      total(C,7|T,8) ;(C,-|T,-)   PGA-AFRICAN-PANEL(T,20|C,22)   PGA-EUR(EAN-PANEL(T,13|C,31)   total(C,53|T,33)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34285):
ATTAAAAGGAGATGACCTACTGCTTCCCTCCTGCCAGTGATGGGCCACAAAACAGACATGACACGTGGGCCTTCTCACGTGTCCCAGATTTGTTTTAAAA
R
TCATTTTCAATTCATCTAGTTTTCTATTAATGTTAAAAGGTTGGAAATTATATTTTAATTAGTGTTAGAGATGTACATCAGCATCATAGAATTCTGAAAC
Celera SNP ID:            hCV1639877
SNP Position Genomic:     76559
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,7)      total(G,7|A,7) ;(A,-|G,-)   PGA-AFRICAN-PANEL(G,14|A,28)   PGA-EUR(EAN-PANEL(A,15|G,29)   total(G,43|A,43)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34286):
ACTCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATCTCGTGATCTGCCCCTCTCGCCT
Y
CCAAAGTACTGGAATTACAGGCATGAGCCACCGCGCCCGGCCCCCAAGACGCACTTTTAAGAGATTATACAGGAAAGTTTTACTTATCACTGCCTTAGTT
Celera SNP ID:            hCV27073517
SNP Position Genomic:     14239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34287):
CCAATGTCCAAAAATTATCTTTTTAGTTAGTTTATTTGGATTAAGGTCTGTAGATTAAATTTGGTTGGTATGTCACTTAAATCTTTTCCTCTAGAGTAAT
Y
CTCTTCATCTGTTTCTTCATGCCACAAACTTATGGCTGAAACTGAGTCATTTTTTATGTAGAACTTTCCATATTCTGAATTTTGCTGATTCCATCCCCCG
Celera SNP ID:            hCV1639878
SNP Position Genomic:     75704
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,11)   total(C,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34288):
CCCGGGTTCAAGCGGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACTCCCGGCTAATTTTTTGTATTTTTAGTAGAGAC
W
GGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATCTCGTGATCTGCCCCTCTCGCCTCCCAAAGTACTGGAATTACAGGCATGAGCCACCGCG
Celera SNP ID:            hCV27073518
SNP Position Genomic:     14174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34289):
TCCTTATTTTTTGCCTTAGCATTTTCAAGTAAATTCTAGTAATCATATTATTTTACCTGTACATATTTTAGCGTGTAGCTTTTTAAAAATAGACATATAT
R
CAGTATACATAGATACATATGTACATATGTGTGTATGTATGTGTTTAAGTGTGTTTGTGTATAATTATTGCAGCTAATACAAATCAACAAGAGCTCCTTG
Celera SNP ID:            hCV1639879
SNP Position Genomic:     75468
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34290):
CTGCAAGCTCCACCTCCCGGGTTCAAGCGGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACTCCCGGCTAATTTTTTGT
W
TTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATCTCGTGATCTGCCCCTCTCGCCTCCCAAAGTACTGGAATTACAG
Celera SNP ID:            hCV27073519
SNP Position Genomic:     14159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34291):
CAGAAGGTGTCATGAAATCAAGGTCCAACGTTGACATGGACTTTGAAGTGGAAAATGCTGTGCTGGGAAAAGACTTCAAGCTCTCCATCACCTTCCGGAA
V
AACAGCCACAACCGTTACACCATCACAGCTTATCTCTCAGCCAACATCACCTTCTACACCGGGGTCCCGAAGGCAGAATTCAAGAAGGAGACGTTCGACG
Celera SNP ID:            hCV27541294
SNP Position Genomic:     153203
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34292):
GGCACAATCAGAATACCTTATCCCACAAGTTAGCAGACCTGGGCATGTAGAGAGTACTTTAAATGGAGAGTTATATTGTTTTGTGTTTCCTTCCACAAAG
S
AACCAGAGATGCTGTTCCTGGAGGAAACTTATTTAGAGGTAGGGACATTTGATAGGGAAGAGAGCATGAGAGAGATGGAGATTCTGGCTTCTGTCCATGC
Celera SNP ID:            hCV911172
SNP Position Genomic:     162696
SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   SC_12_A(C,1|G,22)   total(G,22|C,1)   no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34293):
TTACTTAAAGAGCAGTTTAATTCCCCAGGGCACAATCAGAATACCTTATCCCACAAGTTAGCAGACCTGGGCATGTAGAGAGTACTTTAAATGGAGAGTT
R
TATTGTTTTGTGTTTCCTTCCACAAAGGAACCAGAGATGCTGTTCCTGGAGGAAACTTATTTAGAGGTAGGGACATTTGATAGGGAAGAGAGCATGAGAG
Celera SNP ID:            hCV911173
SNP Position Genomic:     162668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34294):
CCTGTCCCAGCTGCTTGGTGGAAGCAGCTTTTGCTACCCTTCTGGGCTATTGCGCAGGTTTCATTTATGAGCTCAACCCTGAACCTTCCCTGACAGCAGC
R
AGGCCTGTGTGCGTACCTAATTATGAAGTGACGGCCTGTCCCTGTGAAGGTCTCAGGAGAGAGGCTTCCCAAGCTGTGAAGTGCTCAAACCACAGCAGAA
Celera SNP ID:            hCV911174
SNP Position Genomic:     162354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34295):
AAAATATACAGCTTGATGATGATTTTGTATGTGCGTGTGCCTTGCAACCACAAGCCAGATGAAGAAATGGAGGATTTCCAACACCCCTAGAAGGTTCCCT
S
TTGCCTTTTACAGCCAATAACCCCCTAGACTATCACCAAGATAGTAACTTTTCTGACTTTTATCACCATAGGTTTGTTTTGCCCATTTGACCAGTAGTTT
Celera SNP ID:            hCV911175
SNP Position Genomic:     160993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34296):
CGTGCTAACCATCCCTGAGATCATCATCAAGGTCAGTCTTAGCGTCTCATCCTGGAACAGAGACAAAGGCACGCAGACTTAGTGTTCATGTGTGCATATG
Y
GTGCTTGTATGTGTGTGTGTGTGTGAATGAATGTCCTGCTCAAAAAAAAAAAAAAAAAAAATACCAGTGCTAGGATCCTCTTGTTCTTTGAAAGAAGTAA
Celera SNP ID:            hCV911176
SNP Position Genomic:     160516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34297):
TTAACTTATTTCAAGATCCCATCTGTGACAGGTATAATCATTCTCTGAAGAATATTTTACAACCTAGGGAGACAATAATTTACATTTTGTTCATATTAGA
S
AAAAAGTAGGAGGACAGGGAGGCAGTTGCTCCTCCGGAGATTTTTTTCTTTTCTTTAACAGTCCATTTTCCGATATGTTTGGAATTAGGCTAAATTGTGT
Celera SNP ID:            hCV8786915
SNP Position Genomic:     13214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34298):
TGCTGAAGGTGGAGCCCGCCTGATTGGCTGAGAGACTGGATATGTGGTGTGAGAGAAGGAAGGTATGGAGGAAGCCAAATGAGTGATGAATGTGAAATGT
K
TGCCACATGGTAGAATCTTAGTAAATGGTAACTTCCAACATGTTTACATTTGGGGAAACTGAAGCTCGAGAGATGAGTCGATGTGTTCAAGCCCCCACAC
Celera SNP ID:            hCV911178
SNP Position Genomic:     156505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34299):
CACTGCAAGCTCCACCTCCCGGGTTCAAGCGGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACTCCCGGCTAATTTTTT
K
TATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATCTCGTGATCTGCCCCTCTCGCCTCCCAAAGTACTGGAATTAC
Celera SNP ID:            hCV27073520
SNP Position Genomic:     14157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34300):
GGTACCCAAAAGAAATGTGAGAAAGAGTTATTTTTCCTGTTTTTTTTTAAATAAATAAACCAGTTTCTCATGGATAGCATTTATGCTTATAGTTCAATAA
Y
AATATTACCAAAAATTGCATGGAGAATTCAGTTCACTAGGGAATTCCTAGTATATAAACCTAAACATTTAACTTATTTCAAGATCCCATCTGTGACAGGT
Celera SNP ID:            hCV8786916
SNP Position Genomic:     13046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34301):
AATGTTCACATCCAATTGGAAACATTTTGTATGTGTTCATTTTGTATTTCAGTTTTATATCTTTTGACAAAGTTAATTTTTCTTATAAATATTTTCAGAT
R
AACTCAAAAGCAGAAAGAGTAGCACAATGAATATCTACTTATATGACTCTCAGAGTTAATGGTTATCAAGATTTTGCCACATTTGCTTTATCTATCCCTT
Celera SNP ID:            hCV1639880
SNP Position Genomic:     75264
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34302):
AGACAGACTTTTTTTGTTTTTGTTTTGAGACGGAGTCCGGCTCTGTCGCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCACCTCCC
R
GGTTCAAGCGGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACTCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGG
Celera SNP ID:            hCV27073521
SNP Position Genomic:     14077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34303):
GGGACTAAAAGATGAAAGAGAAGATATAAGCCTGGGAAAAGATGGCAGGCATCACACCATACCAGGCCTTGGGGATCTTGCTTTCCTCCTGCAGATAATG
S
GGGACTTGAGAAGGATTCTAATTAGCAGAAATACATAATCAGAATTATGCTTTACAAAGTGGTAGGGAGGGCTGGGCACGGTGGCTCATGCTTGTAACCC
Celera SNP ID:            hCV8786917
SNP Position Genomic:     12320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   PGA-AFRICAN-PANEL(G,8|C,38)   PGA-EUR(EAN-PANEL(G,16|C,30)   total(G,24|C,68) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34304):
AAATATAATCATGCAGTATGTACTCCTTGTGAGGCTTCTTTTATGCTTCCTTACTGTATTCTGAGCTTCATCCATGCTGTTTTTTGTTTCAGTAGTTCAT
W
CCTCTTTATTGCTGAGTAGTAGTGTTTCATTGTATGGATGAATCACTATTTGCCCATGTATTTACTTGTGGATGGACATTTAGGCCATTTTCCGTTTTTG
Celera SNP ID:            hCV8786772
SNP Position Genomic:     91928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34305):
TGAATGAGCATGCAAAGTTCCAAAACTTCTGAGTAGAAGTTTGGTTGGGTTCACATTGGTCATATAGACTAATTTGGGTAGAATTTATATCTTTACATTA
S
TGAATGTTCACATCCAATTGGAAACATTTTGTATGTGTTCATTTTGTATTTCAGTTTTATATCTTTTGACAAAGTTAATTTTTCTTATAAATATTTTCAG
Celera SNP ID:            hCV1639881
SNP Position Genomic:     75161
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34306):
CAGCCTTGACTATCAACATTCAATTCTCACCTGCCCCACCCCACAACACCGTAACTACTGAGTTTCTTTTGCAAAACCCTAGCATGTCATGAAGCACAAT
Y
TGACATCCACCACACCACTTCCACCTGTGATTAAGTCTGGTCACCACCACACTGTAGCTGGGGATTTGTGGTTCACAAAACCTGGAAACGATTTTCTACA
Celera SNP ID:            hCV8786773
SNP Position Genomic:     90928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34307):
GCCCTGCCTGGCTGTTTTCTTTCACATTGTTTTTTCCAGATAAGCTTTTGAATGAGCATGCAAAGTTCCAAAACTTCTGAGTAGAAGTTTGGTTGGGTTC
M
CATTGGTCATATAGACTAATTTGGGTAGAATTTATATCTTTACATTACTGAATGTTCACATCCAATTGGAAACATTTTGTATGTGTTCATTTTGTATTTC
Celera SNP ID:            hCV1639882
SNP Position Genomic:     75113
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34308):
GGAAATACATGCACAGAGAAGCAGGGGTGGCACAACATAGGAAATCTGCCCATATAATCCTATGCACAAATTAAAGGAAAAAATTAGGCAATCAAATCAG
Y
AGTCACAGAAAGGTACATGGTAAAATTCAGCATCCAGTTTTAGGAAGAGTTTAAGGGGAAAAATTTAGAAAAAAAACACCTCAATGATAATAAAGATTGC
Celera SNP ID:            hCV8786847
SNP Position Genomic:     22361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34309):
GCTAATGACCTGCATTCTCTCTCTTAGGTCCGTGGCACTCAGGTAGTTGGTTCTGACATGACTGTGACAATTCAGTTTACCAATCCTTTAAAAGAAACCC
Y
GCGAAATGTCTGGGTACACCTGGATGGTCCTGGAGTAACAAGACCAATGAAGAAGATGTTCCGGTAAACCTTGGGTTGGGGAGACCGGGCAGGCAGTGCA
Celera SNP ID:            hCV27536835
SNP Position Genomic:     176027
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34310):
TTACCTTCTCTGGGTCGGGAGGACAGTGGGAATGTCAGAGGGTGACTGAAATCCACCCCAAATTTTCTTGGCCCACTCTTTTCTTTTTTAACTACCCTTC
Y
ATTCCCACCAGAGGAACAGTAAAATAAATGAGGTCATTATTCTTCACTACATGCCTCTTGTAAATTGTTAGTCAGCCTGCAAGGGTGGTTATTTACGAGG
Celera SNP ID:            hCV1639886
SNP Position Genomic:     71297
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34311):
TCAGTAGGCTCAGCATTTGTTTTTACATGTTTGTTATAAATCCTTACCTTCTCTGGGTCGGGAGGACAGTGGGAATGTCAGAGGGTGACTGAAATCCACC
S
CAAATTTTCTTGGCCCACTCTTTTCTTTTTTAACTACCCTTCCATTCCCACCAGAGGAACAGTAAAATAAATGAGGTCATTATTCTTCACTACATGCCTC
Celera SNP ID:            hCV1639887
SNP Position Genomic:     71254
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,12)   total(G,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34312):
TAGTCATTGTTATTTCGAGGATACCAGTCCTGGCGAACTACTCTACTTTATACTGAAGGGGCTAAAAGGAAAGAAGCAAACTCAACTGACTATTGAGGAA
M
CATTTGCTTGTGCTTCATAGATTGATTCCATTCCAGTGTTACTAGATAGGCAAGCAACGTCTCTGGAGTGGCTATATGAAACCATTTTAGGAAGGCAGTG
Celera SNP ID:            hCV1639888
SNP Position Genomic:     70418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,11)      total(A,2|C,11) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34313):
TCAGCCCTTTAGGATATGCACAGCTTCATGCACCTTGGGTTCCCTTCATACCCTCTTTCTTTCCCCTGTCTCCTCCTGTTACATCCTTCCCTTTTTCCTC
Y
TCCTGCTCTGCATTTTTCCCTCTCTCATACGTCCATTCCTTTAATTCAGATATTTTTGAGGCCTGTTCTATACCAGCTCTACACCATGCAGCAGTGGTAT
Celera SNP ID:            hCV8786779
SNP Position Genomic:     88032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34314):
TTCCTTGTAGAGTCTCTTATATGCTTCAAAGTGTGCTCATAGTCAGTATCTCCCTAGATTGTGTGTTTGGAAGGTGTAATCCTTATCTCATTCAGCCTTT
Y
GTGGTGCCTGGAATTGAGTCAATGTTCAGTAAATGTTTGCTGAACTGAACTGATAATCACCATTCTGAGAGGCAAGGAGACGATTATTAGACTCAGATTT
Celera SNP ID:            hCV1639889
SNP Position Genomic:     69526
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34315):
CTAGTTTCTCTTTGTTTTTCTTTCTCCAAATAGTTTGAAGATGGCATCCTGGACACTTGCCTGTATGTGATGGACAGAGCACAAATGGACCTCTCTGGAA
K
AGGGAATCCCATCAAAGTCAGCCGTGTGGGGTCTGCAATGGTAAGCAGCAATTACTGATACCTAAAATCTGTTACACCTGTCATTTGCCTCAGTATATAT
Celera SNP ID:            hCV27536695
SNP Position Genomic:     79550
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34316):
ATTCCTTCTTAAGCATTCTAAAATGGCACACTCATCAGCATAAGCTTACTCACACACTGTGTGTACTTTTACGCACCCAGAAGTCAGAAATCACTGCCTA
R
CAGAAGCCAGTGCAAAAGAGAAGCAGACAGGAAGCAGTTAACCTAATGTGTCTGTGGTGGCAGCTGGCTAAGCGGAAGCTGTTAATTATTGAATAAGCAC
Celera SNP ID:            hCV11322732
SNP Position Genomic:     81151
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,11)      total(G,11|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34317):
GAGTTTGAGACCAGCCTGCCCTACATGGCAAAAACTTGTCTCTACTAAAAATACAAAAAGTTAGCCAGGCATGGTGGTGGGTGCCTGTAATCCCAGCTAC
Y
TGGGAGGCTGAGGCAGGAAAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGACTATGCCACTGCACTCCAGCCTGGGTGGCAAGAGTGAAA
Celera SNP ID:            hCV11322664
SNP Position Genomic:     57582
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,11)   total(C,3|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34318):
TCACCCAGTGGCCACTAGTGGCCTCTAAGAGGCCTTGTATCCGCGGTTACCAATCTGCGGATGATGACTTTGGCTCCAGGAACACCAGCCCCAAGTTAAA
Y
TCTTGTCTCCATTTTTTTCAGTGGCCACTCTTCCAGTTAGCAAGCTGCTCTTGTAATACTGACTGAGAAATGCAGAGAGGCAAGAAGAGGAAAAGGGGGG
Celera SNP ID:            hCV15983200
SNP Position Genomic:     10902
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,46)   PGA-EUR(EAN-PANEL(T,1|C,45)   total(C,91|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34319):
GTAATACTGACTGAGAAATGCAGAGAGGCAAGAAGAGGAAAAGGGGGGAAATGGCGGGTTTTTCATTTCTAATAGTTCTGTAGCAGTGAGTCCTGCCCAT
Y
ACTGTGTGTGATATATACAGTGTTCTAAGGTATACTGAGTGTATATAACGCCCTTAAGTCATGGCTTTGGTAACATTTGGTTAAGAATTATTTTGGTAAA
Celera SNP ID:            hCV15983201
SNP Position Genomic:     11055
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|C,45)   total(C,45|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34320):
TTGGCAATTGCTGGAGACACTTTTGGTTGTGATGGCTGGGGTGCGGGGCTGCTCCTGGCATGCAGTGGGTAGACACCAGGGATGTTGCTTAACATCGTAC
M
TGGCACAGGACAGCTCTGCAACAAAGATGCATCCAGCCCGATATGTCAGTAGTGTTGATGCTGAGAAGCCCTGATCTAGATCATGATTACTGTTTTTGCC
Celera SNP ID:            hCV11972320
SNP Position Genomic:     173439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34321):
TTAGGAAGTTATTTAAGAGCCAACTGTCTTGTCTTTCCCGAGTCCGTTTGAGGAAGTCCCCGAGGCGCACAGAGCAAGCCCACGCGAGGGCACCTCTGGA
S
GGGAGCGCCTGCAGGTAAGCCACCGCCCCTGCACCCTATGAGCCAGGGCCCGCTGCGTCCACCTTCTGCACCTCGGTTTCCTGGTTGAACCAGCAAGCGG
Celera SNP ID:            hCV15983130
SNP Position Genomic:     6070
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|G,47)   total(G,47|C,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:34322):
AACAAGAGAGCAGAACGAGGTTTTATTTGCTGCTAATGACCTGCATTCTCTCTCTTAGGTCCGTGGCACTCAGGTAGTTGGTTCTGACATGACTGTGACA
R
TTCAGTTTACCAATCCTTTAAAAGAAACCCTGCGAAATGTCTGGGTACACCTGGATGGTCCTGGAGTAACAAGACCAATGAAGAAGATGTTCCGGTAAAC
Celera SNP ID:            hCV11972321
SNP Position Genomic:     175996
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,32)   total(A,1|G,67)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,5|G,91)      total(G,91|A,5) ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34323):
CACCTTCTACACCGGGGTCCCGAAGGCAGAATTCAAGAAGGAGACGTTCGACGTGACGCTGGAGCCCTTGTCCTGTAAGCTAACAATGGTGTGGTTCTTT
S
TGAGACTCGCTGTCTGGCCCCTGTCTTGCTAGGTGTTAATGCCCGTTATAGCTTTATATCAAAGTTAAAGTTCCCTCCAAGATCTCAGAAGTGTGAGCCT
Celera SNP ID:            hCV911181
SNP Position Genomic:     153351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34324):
TCTTGTCTTTCCCGAGTCCGTTTGAGGAAGTCCCCGAGGCGCACAGAGCAAGCCCACGCGAGGGCACCTCTGGAGGGGAGCGCCTGCAGGTAAGCCACCG
M
CCCTGCACCCTATGAGCCAGGGCCCGCTGCGTCCACCTTCTGCACCTCGGTTTCCTGGTTGAACCAGCAAGCGGCTTGCTCTGGGCCCTGTGGCGCCGGT
Celera SNP ID:            hCV15983131
SNP Position Genomic:     6096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   PCA-AFRICAN-PANEL(A,5|C,43)   PCA-EUR(EAN-PANEL(A,6|C,40)   total(C,83|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34325):
TTCAAATGGCACTACTGAGTTTAATTCTATCTCAATCAATGCTTAGTGTCCGCTCTATGCCTGCAATTGGTTTGGTGCTGGCGATTCCAGCAGTGAGCAG
R
ACTCAGTTCCTGTCCTGGTCCGAGTGACAGGATTATTGTGCAGAGGGGTCTTTGGAAACAATAAGTAGGGGCATTTAGTCCAACTGATTCAGAAAAAGAC
Celera SNP ID:            hCV911184
SNP Position Genomic:     146589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34326):
GTCTTGCTCTTCCTCTCTGTCTGTCTCTCATGCATACATACACACTGTCCTGTGGATGCACGTCTAGGTGTTAGTGGCAGCAAATGTACTGGAGTCCCAC
R
GCACCAAAGTATGTTAGCAGCAGTGAATCCACATGGATCTACAGCAGCCTCAATTCTTGCCTCCTCATAAGGCAGGAGAGACTGGGGCAAGTTTTAGAGC
Celera SNP ID:            hCV11972251
SNP Position Genomic:     40038
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,16)      total(G,2|A,16) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34327):
AAGAGAGCAGAACGAGGTTTTATTTGCTGCTAATGACCTGCATTCTCTCTCTTAGGTCCGTGGCACTCAGGTAGTTGGTTCTGACATGACTGTGACAATT
S
AGTTTACCAATCCTTTAAAAGAAACCCTGCGAAATGTCTGGGTACACCTGGATGGTCCTGGAGTAACAAGACCAATGAAGAAGATGTTCCGGTAAACCTT
Celera SNP ID:            hCV11972326
SNP Position Genomic:     175999
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,28)   caucasian(C,7|G,29)   total(C,15|G,57)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|C,-)    ;(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34328):
ACTGACTGAGAAATGCAGAGAGGCAAGAAGAGGAAAAGGGGGGAAATGGCGGGTTTTTCATTTCTAATAGTTCTGTAGCAGTGAGTCCTGCCCATCACTG
Y
GTGTGATATATACAGTGTTCTAAGGTATACTGAGTGTATATAACGCCCTTAAGTCATGGCTTTGGTAACATTTGGTTAAGAATTATTTTGGTAAAATCTG
Celera SNP ID:            hCV15983208
SNP Position Genomic:     11060
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   total(C,1|T,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34329):
CGAAATGTCTGGGTACACCTGGATGGTCCTGGAGTAACAAGACCAATGAAGAAGATGTTCCGGTAAACCTTGGGTTGGGGAGACCGGGCAGGCAGTGCAG
R
GCTGTGGGAAGCTTTCTCTGTGTGTGTCTTTTCCAAACATAGATCTGCTCCCCAGTGAAAATGTCTTGGAAGCTGCCTCCTCCTTGCCGACCATTTCTGT
Celera SNP ID:            hCV11972327
SNP Position Genomic:     176129
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,28)   caucasian(A,6|G,28)   total(A,14|G,56)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;(G,-|A,-)   JBIC-allele(A,181|G,1320)   total(G,1320|A,181)   PGA-AFRICAN-PANEL(A,8|G,38)   PGA-EUR(EAN-PANEL(A,13|G,33)   total(G,71|A,21)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34330):
AAAGTCATTTCTATGATTCTAAAATGACCCAGGGAATTCAATGATGAATGAGAGGTACAGACTCAAAGCAATTCTCTAATGTATTCAAAGTAAACAATAC
Y
ATAAGGTCACCTTATTCACCAGGGATTTTCATTTCTGTTCATTGAAGATTTTTAAAAAATTGACAGATATATTGGAAGCCAGTGGGAAAATAGAATTTAT
Celera SNP ID:            hCV8786780
SNP Position Genomic:     87127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34331):
AATGCAGAGAGGCAAGAAGAGGAAAAGGGGGGAAATGGCGGGTTTTTCATTTCTAATAGTTCTGTAGCAGTGAGTCCTGCCCATCACTGTGTGTGATATA
Y
ACAGTGTTCTAAGGTATACTGAGTGTATATAACGCCCTTAAGTCATGGCTTTGGTAACATTTGGTTAAGAATTATTTTGGTAAAATCTGTATTTTAAAAT
Celera SNP ID:            hCV15983209
SNP Position Genomic:     11071
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,3|T,45)   PGA-EUR(EAN-PANEL(C,7|T,39)   total(C,10|T,84) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34332):
GGAGAGATGGGACACTAACAAGGTGGACCACCACACTGACAAGTATGAAAACAACAAGCTGATTGTCCGCAGAGGGCAGTCTTTCTATGTGCAGATTGAC
Y
TCAGTCGTCCATATGACCCCAGAAGGGATCTCTTCAGGGTGGAATACGTCATTGGTGAGTGCCATGTGCAAGCTCCAGTCTTGACACCATGGGTTGCATT
Celera SNP ID:            hCV8786854
SNP Position Genomic:     21254
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34333):
TATTGTCTCTTTCTATGATTCATATCAGGAATGAAATTTCTCAGTTTGGAACAGCAGAAAAAGGCAGAAGCCTCCGGTGTTCCTTGCAACCTTTCCAATT
R
TAACGCATATCAATTAGTAGGAGCTCTCGGGGTGACAACTTTGGGAGAATCCACTGATTTATATTAATGAAGAGTGTTACTGTAGTCCAACAGAGTAAAG
Celera SNP ID:            hCV8786781
SNP Position Genomic:     86854
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   PGA-AFRICAN-PANEL(A,5|G,43)   PGA-EUR(EAN-PANEL(A,9|G,37)   total(G,80|A,14)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34334):
AAATAAATCAATTTAATTTAATATGAAGAAATCAATATGTTCCCAATATCTTGGATGCTTTTAACAGCAAATAAATAAATATGACCTGCTTGTATTTTAT
Y
ATTAAATTCATCCTTAGCCAATTTGCTTTGTATTTATATAAGGTCTTTTTAGCCCCTTTCATACAGAATGGAGTAAGTAACCAAGACTGGTGTCCTCAGA
Celera SNP ID:            hCV1639890
SNP Position Genomic:     68528
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34335):
TAGGCTAAATTGTGTTAGGTAGACAGTTTGAAAGCTGTCACTTTGAAAGAGCGAGCTGCCAAGTTTCTAGCTACCGTATTTAAAAAAAAAAAAAAAAAAA
A
GGCGGCTTAGCAATGAGCTGTTCCATTTTGCCAGGAACTAGGCTTGGACAGGGGAAGCAAATTCATTTCCTGTTTGTGGCAAACGGAGTCTGGATGATGA
Celera SNP ID:            hCV27073531
SNP Position Genomic:     13400
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34336):
AGCAGCCTGCGGTCCCAGCTACTTGGGAAGCTGAGGCAGGAGGATTGCTTGGGCCCAGGAGTTCGAGGCAGCCCCGCCAGCCTGTCTCTAAGAAGAAAGA
R
AGACAATAAGCAATAACTTTAAAACTCAAGAGGCAGGGCCGGGCCCAGTGGCTCACGCCTGTAATCCCAGCACTTCGGGAGACCAAGGCAGGCAGATCAT
Celera SNP ID:            hCV1639891
SNP Position Genomic:     66594
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34337):
GGCACCTTTCTCAAGACTTTCTGTAGCACCTAGATGTTGAAGCGAAGGTCAAAGGAGAATTTTTTAAAGACAAGAGAGAGTGGGTGTTATTTTATGGTGA
Y
GGAGAGGAACCAGGAAAGAGAGTTTGCAGTCCAGAGAGAGGACGGTGGTTCACAGCCTTGGCTGCACGTTGCAATCATCTGGGAAGCTTTGAAACTATGG
Celera SNP ID:            hCV1639892
SNP Position Genomic:     63291
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34338):
GAAGGTGGAGGTTACAATGAGCTGAGATGGCACCCCTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCGTCTCCAAACAAAACAAAACAAACAAAAAAA
A
TAAAAAAAATGGTGCCTGGCACCTTGTAGGCACTGAAAAACTCTTTCAAGAATGAACAAAACCTGGGGTCGCCTATGGCTCTGCCCCCCTACTTAATGCC
Celera SNP ID:            hCV27071930
SNP Position Genomic:     51036
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,10)   total(A,10|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34339):
TGATCTTGAAAAGGACGGTTTCACTAAAGTGATAGAGACAGAAGCCAGGGAGATGGTCATGGGCTGTGTTGTAAACAGGAGGCGAGAAAGTAGAGACGGC
R
GGAGATGGCACCTTTCTCAAGACTTTCTGTAGCACCTAGATGTTGAAGCGAAGGTCAAAGGAGAATTTTTTAAAGACAAGAGAGAGTGGGTGTTATTTTA
Celera SNP ID:            hCV1639893
SNP Position Genomic:     63184
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34340):
GTTTTCAGTTCATGGAAAGGATTGGAGGAAGGTGGGACAAAAACCAGAGACCAATTTGGAAGCTGTGGTCTAGGACAAAGATGATGATAAACTAAACATG
S
TGGTACCAGTGGAGATGAGAAGGGGTTAGATTGGAGATCTATTTTGTATTTAGAACAAAAATTGCACAGGGATTCAAGATGAGAAGTAAAGAAATGGGAG
Celera SNP ID:            hCV1639894
SNP Position Genomic:     62495
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,12)   total(G,12|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34341):
AGTAACTTATGTAACCACCTCCTTAGAATGTTCTCTCTCTGACAATATGCCTACCAAAGACTCTTTTAAAGATCTTTGAAATTAGTAATTAGGGAGGTTA
M
AATGGAGCACTGTTTGCTTGTCTTAATGTGGAATCCTCTACATGCTTTATAGAAAACAAATGAAGTGAATAAGTTTTGCTCTTGAAGGTTCTCCTGCTTA
Celera SNP ID:            hCV1639895
SNP Position Genomic:     59326
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,9)      total(A,2|C,9) ;no_pop(A,-|C,-)   PGA-AFRICAN-PANEL(A,8|C,40)   PGA-EUR(EAN-PANEL(A,8|C,38)   total(A,16|C,78) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34342):
AACCTCTTTTTTTGGAGTGAACGGTCGTAGATACATCTGAGGACCCAGGTGCTCAATGGGCATTGTCCTTGGCATTTCTAAATCACCAAGGAACTTTTTC
R
CATTTACCCATATGGATTTTAATTTTTGAAAAAGTTCATCTATCAAAACAAATCATGATTATGTAATAATACCTTGTTACCCCATTCTTGTGTCAGATTT
Celera SNP ID:            hCV8786786
SNP Position Genomic:     86355
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   PGA-AFRICAN-PANEL(A,9|G,37)   PGA-EUR(EAN-PANEL(A,20|G,26)   total(G,63|A,29)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34343):
GAGCTGAAACCAGATATGGTCCTTACTCTCAGATCATATTACCTTAGAGGGCCACTATCAACACGTTATTGCCAATAACACAATAATTATGTAAGATTGA
R
TTGCCATTTCCTAGAAAAGAAGAGAGCCCCAAGGGAATGGAGCCCAGATGAGGCAAATTATTGAAAATGGGGAATAAGTGAAGAAAGGTATCAATCAGAG
Celera SNP ID:            hCV8786787
SNP Position Genomic:     84338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34344):
GGAGCAAAGAGAACAGGCTTCCCTGTCCCCAGTTCTGTCTCCACTTCTGCCTAGCTATGTGATGTGCACACATGACGCCCTCACCAAGCCTCAGTTTCCC
R
TCTGTAAAAATTTCCTCACAGAGGTTTTGTAAGGACCCCAAGAAATAAAACTTATTTCCTGTCACTTTATTTGCATCACTATGTGAACTGCCTTGGCAAC
Celera SNP ID:            hCV1639898
SNP Position Genomic:     55804
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34345):
GTCTATGCCTGTTCCTGCCTCCCGACTGATAGGATCTGGCAGCAACTATGGGCAGAGAATTTCCCCCAAGGAGATGCAGCTGCTTCTGCAAAGGCTGCCG
Y
TACTGCAGATAAAGGCTCGTTATTCACTGTGACACACCTACATGTACCACCTCCATCCATATTTGCTCCAGTGGGTCAAGGCATTACCAGTGGAGGATCT
Celera SNP ID:            hCV8786788
SNP Position Genomic:     84011
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:34346):
GACCCTCATGCAGGTTCTCTCCACCTGGTCTTCCTTCTCTTCACTCACTCAGTTGTTACCTCCTTTGATCCACATTTCTGGCTCACACAACTCTTATCCA
Y
GGCAGCATATTTTCTCAATGTCCCTTTTCCTCATATTCCTTTGGACTTTCCAGTTTTATTCTTCTCTTGTCTCCTTTCATCTCCCTAGATCCCTTTTGCC
Celera SNP ID:            hCV1639899
SNP Position Genomic:     55568
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34347):
GCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCA
S
CCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCAC
Celera SNP ID:            hCV27073468
SNP Position Genomic:     65838
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34348):
ACAGTGGTGTGATCTCAGCTCACTGCAACCTCTTCCTCCTAGGTTCAAGCGATTCTGGTGCCTCAGCCTCCAGAGTAGCTGGGACCACAGTTGCACACCA
Y
TACGCCCAGCTAATTTTATGTATTTTTGGTAGAGGCAGAGTTTCACCATGTTGTCCAGGCTGGTTTCGCACTCCTAACCTCAAGTTATCCACCCACCTCA
Celera SNP ID:            hCV27073469
SNP Position Genomic:     21932
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34349):
GTACATTAATCTTGTATCCAGAAACTTTGCTGAATTCTTTTATCAGTCCTAGGAGCTTTCTGGAGGAGTCCTTGGGGTTTTCAAGGTAAACAATCATATC
R
TCAGCAAACAGTGACAGTTTGACTTCCTCTTTACCTATTTGGATGTCCTTTATTTCTTTCTCTTAACTTATTGCTCTGGCTAGGACTTCCAGTACTATGT
Celera SNP ID:            hCV11322748
SNP Position Genomic:     93727
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34350):
TGTGTGATATATACAGTGTTCTAAGGTATACTGAGTGTATATAACGCCCTTAAGTCATGGCTTTGGTAACATTTGGTTAAGAATTATTTTGGTAAAATCT
R
TATTTTAAAATGTATAAACTCATGTAAGTTTCCTCTCATACACACCATGATATTCAAGAAAAAAAAATGAAATATTTGAGGTAGGCACGGAAATCCCAGA
Celera SNP ID:            hCV15983210
SNP Position Genomic:     11160
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,7|G,41)   PGA-EUR(EAN-PANEL(A,5|G,41)   total(G,82|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34351):
CAAAGCCTAGAGCCCCATGAGTTGTGAGAATTAAATGTAACTTCTTGCTACTCAAAGTGTGGTCCATGAGCCAGCTGCATCAGCATTCCCCAGGAGTTTG
W
AAAAAATGTAGAATCTCATGTCCCACCCCACACCCTCTGAATCAAAATCCATGTTTTGACAAGATCCCAAGCAGACTGGAGTGTACAGGAGAGTTTGTGG
Celera SNP ID:            hCV7420974
SNP Position Genomic:     153954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34352):
AGCTTTGTTACAAGCTGGCTAGAGGGAACTTAAGATCCCAGGGAAATTCCATTTTTCCTTGAGACCCCCTAAGTCCAAATCAATACACTAAGAAGAAACG
R
AAAAAATCCTAAGAGTTTAAGTAGGAAGAATTTTTATCAAGGTCTGTGTGGGAGGAAATTGGGGCATAAGTTCCTCTGTGGTCAGGCATTGAGCTAGGTA
Celera SNP ID:            hCV3049092
SNP Position Genomic:     106692
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34353):
AAAAAGGTCATAGTTTTAGCTGCTGCATATGCCTATACTAGTTCCTCTCTACCTTGATATATTAATATTACAGTTAATAGCAGAAGTATTGGAGCCAAGC
R
TTCTCTGGGTCAGTGCCCTGGGACTAATAGAGCTAACATTTATTTAGTATTTACTATGCATCGGTCTTGGTGTATGCATGATCTTATCCAGTTCTTTTTA
Celera SNP ID:            hCV3049093
SNP Position Genomic:     106205
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,15)      total(G,15|A,2) ;PGA-AFRICAN-PANEL(A,5|G,39)   PGA-EUR(EAN-PANEL(A,2|G,44)   total(G,83|A,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:34354):
CCAGCTGAATTGCTTTCCCCTTAGCCACAATATCTCAATCAACACAAGTAACGTACTTTCCTTGGGACATTCACCTTTCTTCAGATTCAGAACCAGAGAG
S
AAAAAAGAAATCACCCCTTCTTCCTTCTGCCTTTACTTTCTAGTAGAAGTTATACTTAAAAAAAAAAAACAATTTGCCAGGCATGGTGGCTCACACCTGT
Celera SNP ID:            hCV3049094
SNP Position Genomic:     57332
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34355):
CCGCCCAGAAGCGAGGGCTCCTGCCCGCCGCACTCACCCAGCCAGGCGTGCACCTGGGGCTCCCCCCTTCTCCCCCTTAGCACTGTGTCTCCCGACAGCG
Y
GCCACACTGTTCTGCACCCCTGGCAATGCCGCAGCCTACCTTCGGTATTTCTCACTAGAGGATGGCTCTCGCAGCCTTCTCCCTATCATTAACCCTTTTT
Celera SNP ID:            hCV15983141
SNP Position Genomic:     6668
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,5|C,43)   total(C,43|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34356):
CTTCATGCAGTTCACCCAGTGGCCACTAGTGGCCTCTAAGAGGCCTTGTATCCGCGGTTACCAATCTGCGGATGATGACTTTGGCTCCAGGAACACCAGC
M
CCAAGTTAAACTCTTGTCTCCATTTTTTTCAGTGGCCACTCTTCCAGTTAGCAAGCTGCTCTTGTAATACTGACTGAGAAATGCAGAGAGGCAAGAAGAG
Celera SNP ID:            hCV8786931
SNP Position Genomic:     10891
SNP Source:               dbSNP
Population(Allele,Count): PCA-AFRICAN-PANEL(C,22|A,26)   PCA-EUR(EAN-PANEL(A,17|C,29)   total(C,51|A,43)no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34357):
GTTTCTTAATGTCACGAGCGTTCACCTGTTCAAGGAGAGATGGGACACTAACAAGGTGGACCACCACACTGACAAGTATGAAAACAACAAGCTGATTGTC
Y
GCAGAGGGCAGTCTTTCTATGTGCAGATTGACTTCAGTCGTCCATATGACCCCAGAAGGGATCTCTTCAGGGTGGAATACGTCATTGGTGAGTGCCATGT
Celera SNP ID:            hCV27864924
SNP Position Genomic:     21221
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34358):
TATCTCCTGGTTACCTTTTGCATTTCAGATTTATATTTAATTGTTCTAAAAGCAGGTTTTCTGGCACTATATATCAAGTTTTCTCCAAGTCACTAAGGGA
Y
GAAATTTGCTAAGCGACTAAACCTTGGAAAGAACACTCATTTTTAAAATGCCATCTTCATGCAGTTCACCCAGTGGCCACTAGTGGCCTCTAAGAGGCCT
Celera SNP ID:            hCV8786932
SNP Position Genomic:     10736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34359):
ATCAGTCATTATTTACTTGGCAGACATATGTGTCCACAACCCAAGTGACATTCTGGGATATCCATTAGAGGCACTGGCATAGGAATATGAATGTCCAGTG
R
CTGTAGAATGAATGAACGAACAGTCAATCACTTGTGAATTGAATGACTCATAGCTCTAGTGGCATTATAATTTATTATTAATAACAAGCTACAGATTTCA
Celera SNP ID:            hCV8786933
SNP Position Genomic:     10307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34360):
TGCAGTGGGAAGAAGTGTGCCGGCCCTGGGTCTCTGGGCATCGGAAGCTGATAGCCAGCATGAGCAGTGACTCCCTGAGACATGTGTATGGCGAGCTGGA
Y
GTGCAGATTCAAAGACGACCTTCCATGTGAATGCACAGGAAGCTGAGATGAACCCTGGCATTTGGCCTCTTGTAGTCTTGGCTAAGGAAATTCTAACGCA
Celera SNP ID:            hCV11972335
SNP Position Genomic:     182254
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)    ;(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:34361):
GGGAGGCCGAGGTGGGCAGATCACCAGATCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCTGG
K
GTGGTGGTGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGTGCCA
Celera SNP ID:            hCV27073542
SNP Position Genomic:     12530
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,11|T,35)   PGA-EUR(EAN-PANEL(G,18|T,28)   total(G,29|T,63) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34362):
CAGTAATTAACCATGCTATTATTTGAAGAAACCCTTTCTCCATGGTGGAAATTATATACAAACAGCTAGTCACCAAAAGCACTGAAGAAAAATGTAGTAG
R
GGGTTATTTGCTCTTCTGGGGGCTTGTTTGTTTTGCAATTCAGAAAACTAAGGTTGACACAACTGAAGTTTATTCCATAGGATCTCAACATTTACAGTTA
Celera SNP ID:            hCV11972267
SNP Position Genomic:     85189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34363):
AATGAATGATTTGACTTTATTAGTATGAAAAGATGTGCCTAGAGAGCCCACAAGAAAATGTTCTGAAGTTGTGGACTCTTAGCCAGAACCCTGTTGCAGG
K
CGACAGAGCTGTGTGTGTTTTCTCAGGGGCTGGGCCCAGGCCTCACAGGTAAAACAGAGGCTGGTGCAGAGTTGTTCTGAATTCCTCTCAAACACCTCCC
Celera SNP ID:            hCV8786792
SNP Position Genomic:     81874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34364):
TTTCTGTTAAGCAGCTGGTTAGATCTACAGACTCTGTCAGATTCAGCTCCAAGTGGCATTTTTTTTTTGGAGGAAGGGGCAAAAATATTTCATAAGTCAC
R
CCATTGCTTCCTAGGACATTCATCCTGGCAGAAGATACATATATTTAGGTTTGTCAATAGTATCTGGTTCACGTTTTATCAGTCTCATCCACCCGTTACG
Celera SNP ID:            hCV8786793
SNP Position Genomic:     75963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34365):
AAAAAAAAAAAAAAAAAAGTGTAAGGAGAAAATGGAGAACAGGAGATATGTTTGGAAGCTGTAGAGATACTCCAGGCTAGAAGAGGAATAGACCAGAGGG
R
TTTTAGCCCCTGGAGGTATGGGGCTCATTTCTCTTGTTCCAGCTTCCTCTGAGCACCTGAGCAATCCTTCAACATTATAGGTTCCAGGATGTATTAATAA
Celera SNP ID:            hCV11972197
SNP Position Genomic:     12773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34366):
GCCGGCGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTATTAAATTTTTTAAAAATACAAAAATTAGCGGGG
Y
ATGGTGGTGAGTGCCTGCAATCCCAGCTACTCAGGAGGATGAGGTGGGGAGGATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGCC
Celera SNP ID:            hCV27073479
SNP Position Genomic:     18487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34367):
CCCACCCAGCAAGTCTACCCAGCTCTGGAGTGACACTGGGCATTGTCTGCACAGAATCCTGTGATGTGAGCCATCTCTGGGTCCCTCTCAGCCACCGGAA
Y
AGCGCCTATTCCGGTGGAGGTGGCAGGGGGTACAATGGACACTGTTAGGGTTCTTAGCTTTGGTGTTTAATGCTCTATTTTTGTGCTGGTTGGCTCCCTG
Celera SNP ID:            hCV11322755
SNP Position Genomic:     97179
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34368):
ATATGAAGAAATCAATATGTTCCCAATATCTTGGATGCTTTTAACAGCAAATAAATAAATATGACCTGCTTGTATTTTATCATTAAATTCATCCTTAGCC
W
ATTTGCTTTGTATTTATATAAGGTCTTTTTAGCCCCTTTCATACAGAATGGAGTAAGTAACCAAGACTGGTGTCCTCAGAGTAACAATGACCCACATTCC
Celera SNP ID:            hCV11322685
SNP Position Genomic:     68548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,8)      total(A,8|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34369):
ACCAAATGAACATCCCCCTCCTGCTGTCAAAGAGCAGTCAGTGGCCACCGCTATTGACCTGAGCTCTAATTAGGCTGGTTTTATAATGAGGAAAAGAGTG
Y
GATTCTAATTAGTAAATTTCCATCTCTTTCTCAATAGGTATCCTCCAGTCAAAGCAATCAGCTATCCTCATCACACTGGTTCCATTGCCAAAAAAATAAC
Celera SNP ID:            hCV27521146
SNP Position Genomic:     175755
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,34|C,1459)   total(C,1459|T,34) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34370):
ACTGAAGGGGCTAAAAGGAAAGAAGCAAACTCAACTGACTATTGAGGAACCATTTGCTTGTGCTTCATAGATTGATTCCATTCCAGTGTTACTAGATAGG
M
AAGCAACGTCTCTGGAGTGGCTATATGAAACCATTTTAGGAAGGCAGTGCGTTTGGATCCTTCCAGAATAAAAAGCTCAGACTCTAAAAATGCCATTCCT
Celera SNP ID:            hCV11322688
SNP Position Genomic:     70469
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,11)      total(A,2|C,11) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34371):
GGTAACATTTGGTTAAGAATTATTTTGGTAAAATCTGTATTTTAAAATGTATAAACTCATGTAAGTTTCCTCTCATACACACCATGATATTCAAGAAAAA
R
AAATGAAATATTTGAGGTAGGCACGGAAATCCCAGAGGTGGGACCAGCCATTCAGTGGTAGCGTTTGACATCTTTGCATGATTTTAGGCATCTTTAATGT
Celera SNP ID:            hCV15983220
SNP Position Genomic:     11224
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34372):
TCATTTAACAGTTCTATTGTATTGAATTAAAACTGGAAAGCAAGCCTGGCCCTATTTAAAAACTGGGTTCTAGTAGTTTTTCAGGCTAATGGGGTCTTAT
R
CCTTTCTAAGAATCTCCTCCATCCCACCACTCCTTGTCAGAATTAAATCAACCAATTAATGATAAACCTCCTCTTTGTGCAGAGTAAACCTCTCTGGATT
Celera SNP ID:            hCV15983222
SNP Position Genomic:     11674
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34373):
ATTCTCTCTTGTCCTTCACATCACCCATGTTGAGACCTCAGCTTGGCACTCAGGTGCTGAAGGGTAATATGGACTCAGCCTTGCAAATAGCCAGTGCTAG
Y
TCTGACCCAACCACAGAGGATGCTGACATCATTTGTATTATGTTCCAAGGCTACTACAGAGAAGGCTGCCTGCTATGTATTTGCAAGGCTGATTTATGGT
Celera SNP ID:            hCV11972342
SNP Position Genomic:     183351
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:34374):
CGTGGTTGTCTTTTCTCCAGCATGTTGTTAGTGCTCCACATGTCTCTGGAACCATCTCTCTACTCTGGTGGCCTCTATAATGGGGACTCTTCACCTCTTG
K
GGGTGTGCCTGGTTTTTGAAAATAGCCAAGTCTCCAGGAGTCATGACTGGGTAATCCAGGGGATCAAGGGGGAACCTTCACTGGGCCCAGAAACAAAGTC
Celera SNP ID:            hCV8786941
SNP Position Genomic:     6999
SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,9)   caucasian(G,28|T,12)   total(G,55|T,21)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,6)      total(G,4|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34375):
ATAACCACATTTCTAAGCCTTTGAGACTGTTCCTGAGCCTTCAGCACTAACCTATGAGGGTGAGCTGGTCCCCTCTATATATACATCATACTTAACTTTA
Y
TAAGTAATCTCACAGCATTTGCCAAGTCTCCCAATATCCAATTTTAAAATGAAATGCATTTTGCTAGACAGTTAAACTGGCTTAACTTAGTATATTATTA
Celera SNP ID:            hCV11972343
SNP Position Genomic:     183672
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:34376):
GGGAGTGGGGCCAAGTGAGAACAGCCTGCTAGACTGGAACCCCGCCGGCTTGGCTCCCCACTCCTGCGCGCCTCCCCACTCCTGCGCATCGCCTGCCTCC
R
TCCCAATTTGGAGCTGAACTCGAGCCACTTCTCCTCCTTAGACCCGCCCAGAAGCGAGGGCTCCTGCCCGCCGCACTCACCCAGCCAGGCGTGCACCTGG
Celera SNP ID:            hCV8786942
SNP Position Genomic:     6524
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(G,-|A,-)   PGA-AFRIGAN-PANEL(A,21|G,27)   PGA-EUR(EAN-PANEL(A,14|G,30)   total(G,57|A,35) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34377):
CAGGCTTGGGGAATGGGAAATGTTGGCAACCCTGACTTCTTAAGCCTATTGATAGCCCTATTGAAAATTGCATGCCCAACCTCTCCACCTCCTTATCCTC
Y
TCCATGTGGCTCAATTTCCAAAGCAGTTCCTACCTCCTCACCCCTAAGTGGATTTACTTATGGCTCTTCTTGGGCTCCACCCTAACCCTATCAGACTATA
Celera SNP ID:            hCV15983153
SNP Position Genomic:     7308
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,46)   total(C,46|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34378):
ATTTCTCTCCAGAGCAGCCTGGTGAGCTGGCAAGGCAAGCTGCTTCCCCAGCCTCTTGCCTCTGCCTGATCCCTAGAAACCTGTTCCGGGTACAGCAGCC
R
GCAGCTGACCTCCTCTCAGCCCTGTCAGTGGTGACAAGGTCCAGGTGCCAGCACTGGTTTGGTGATACAGACATCATTCCCCTGGGCCATGGCAGGGACA
Celera SNP ID:            hCV15983154
SNP Position Genomic:     8739
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34379):
TGCTTCCCCAGCCTCTTGCCTCTGCCTGATCCCTAGAAACCTGTTCCGGGTACAGCAGCCGGCAGCTGACCTCCTCTCAGCCCTGTCAGTGGTGACAAGG
Y
CCAGGTGCCAGCACTGGTTTGGTGATACAGACATCATTCCCCTGGGCCATGGCAGGGACATTCAGACTCATGTCCCCGAGTGGCATTGAGCAGGGAGTCT
Celera SNP ID:            hCV15983155
SNP Position Genomic:     8779
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,11|T,37)   PGA-EUR(EAN-PANEL(C,12|T,34)   total(C,23|T,71) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:34380):
CCTACAAGAAGGGTTTTTTCACTCTGTGTTTATTAAATGCTGGTGATGTGTTTAGCTGTGGTCTGTCCTTTCCTGTAGTTTTACGATGCCTTGGAATACC
M
GCAAGAATTGTTACCAATTATTTCTCTGCCCATGATAATGATGCCAATTTGCAAATGGACATCTTCCTGGAAGAAGATGGGAACGTGAATTCCAAACTCA
Celera SNP ID:            hCV11972274
SNP Position Genomic:     105753
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,28|C,10)   total(A,65|C,11)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(C,5|A,91)      total(A,91|C,5) ;(C,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34381):
TTCAATATTTTCTTCATGTTCAGTCAGGATATTAATTCCTAGCTTGCTATGCCAGAGTGGTAAAAGGGGGTAGGGCTTCATTTTCAAAATGAACCCAGCA
R
AGGGAACCCAGAAGTGCTCAGAAAGGGCTTTCTGCTAACTAATGATGGCAAACGTGGTCTGTGTGATGGGGTGGCATCTACTTTCTGAAAATTTTTAATT
Celera SNP ID:            hCV11972275
SNP Position Genomic:     121973
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34382):
TGGAAACCATTGCCCCTCTGAGATATCTGTGGTATACATCAGCATATTAAAGTCTCACATGAATGCTTCAGTAAAGAATCCTGATCAGCTTTGGTTAGGC
Y
AGCATTTTCCACACTGGTTTAAACATGGAGCTCTAATTCTTCCAATACCTGTCAATATCCCATAAAACTAGCACTATGCCATGATGGACTGACTCTAACC
Celera SNP ID:            hCV8786873
SNP Position Genomic:     16459
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34383):
CTCGGTTCAAGCCATCAAGCACGGCCATGTCTGCTTCCAATTTGATGCACCTTTTGTTTTTGCAGAGGTAAGCAGGAAGCTGGAGGAAAGTGCTGTTTTT
Y
TCCCCAACCTCTTAACACATGAAAGAGTAAGCTAAAAGTTGTTGTTTCTAAGTTTTCCAGGTACATAGCGTATGCTTCGTGTTGACAAAGGTAACTAGGC
Celera SNP ID:            hCV11972276
SNP Position Genomic:     132141
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34384):
TGGTGTCAGCCACTCTATAAGATAGGTACTTCATTCCCATATTAAAGATAAGAAAACTGAGGCTCAGATAGATTAAATAACTTTTCTGAGGCTGCACAAT
W
AGTAAGTAGTGAAGCATTTCCAAAAACATATTCTGAAAAATGCAGATCTCCAAAGAAAAAAGTTTCCATAGTCATTTACATTTGGAAACCATTGCCCCTC
Celera SNP ID:            hCV8786874
SNP Position Genomic:     16276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34385):
CAATAATAATAAACATTTATTAAGAATGTACTTGGTGTCAGCCACTCTATAAGATAGGTACTTCATTCCCATATTAAAGATAAGAAAACTGAGGCTCAGA
K
AGATTAAATAACTTTTCTGAGGCTGCACAATAAGTAAGTAGTGAAGCATTTCCAAAAACATATTCTGAAAAATGCAGATCTCCAAAGAAAAAAGTTTCCA
Celera SNP ID:            hCV8786875
SNP Position Genomic:     16244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34386):
GCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCA
S
CCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCAC
Celera SNP ID:            hCV27073480
SNP Position Genomic:     65838
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,2)   total(G,2|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34387):
TTTATTTTGCTACTATCTTATCAGATGCAGCCTATTTTTTTGGCATCTCCTACTTGGCTATAAAATAATCCAGTCATTTATTCAAATAGCATACAAAACT
Y
TGGAATTATTTTAGCTTTCCTTCTTAACCTCCCTTATGCATCTTGCCAAAAATACCTTCCCAAAATTATCATAAATCCAGCCACTTCTACAATCTCTATC
Celera SNP ID:            hCV11972279
SNP Position Genomic:     135388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34388):
TGTTCCGGTAAACCTTGGGTTGGGGAGACCGGGCAGGCAGTGCAGGGCTGTGGGAAGCTTTCTCTGTGTGTGTCTTTTCCAAACATAGATCTGCTCCCCA
R
TGAAAATGTCTTGGAAGCTGCCTCCTCCTTGCCGACCATTTCTGTAGGGCGTGGAGTAAAACTAGGGTTGGTTTGACCAGCACTTTCATCATTTAATCCT
Celera SNP ID:            hCV11322900
SNP Position Genomic:     176184
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,13)   caucasian(A,3|G,11)   total(A,8|G,24)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   PGA-AFRICAN-PANEL(A,8|G,38)   PGA-EUR(EAN-PANEL(A,13|G,31)   total(G,69|A,21)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34389):
AGGCTGAGACATGAGAATTGCTTGAACCCGGGAGGCAGAAGTTGCAGTGAGCTGAAATTGCACCACTGAACTCCAGCCTGAGCAACAGAGCAGGACTCTG
Y
CTCAAAAAAAAAAAAAAAAAAAAAAAAGAATGTGTTTTAAGGGTTTTGCTTTATCAGATGCATAATATAAATCAACAGTGAGTTAAGAGTATCCAAGACA
Celera SNP ID:            hCV27073483
SNP Position Genomic:     18025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34390):
GGGAGGCTGAGGCAGGGGGATTACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAATATAGTGAAACCCCATCTCTACTAAAACAAAAACAAAAACAAA
M
AAATTAGCCAGGCATGGTGGTGTGAGCCTGTAGTCTTAGCAACTTGAGAGGCTGAGACATGAGAATTGCTTGAACCCGGGAGGCAGAAGTTGCAGTGAGC
Celera SNP ID:            hCV27073485
SNP Position Genomic:     17876
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34391):
ACTGAGATTATAAAGGTAGCAAGAGCCTCTGTAAAGAAATCATATCCCATTAGCCAAAAGAAATCCAGTGGTCAAACATAGTCCTCTAGAAATAGTCAGA
R
GAAGTCATTTTATTATTGTTATTACTGGAAACAGCTAGAGGCAAAAGGCATCTTCTTCGAGGCCTTCCACCTTGCCACTTCATCCATTCTATCTAGAGAC
Celera SNP ID:            hCV11322837
SNP Position Genomic:     157688
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34392):
AGTCTTGGTGCCCTCATCCATAATACGGTTACAATATATACCTCACAGGCTTGTTGTTGTGAGGTTCAAACTAAATCCTTTATAAAATGTCCCTGAAACA
Y
TGTAGGTATGCAACAAATGTTGGCTATCTCCCCCTTAGTAGAAATCCGACTTCATGTGCACTCAGAACATTCTGTGAGAAAGTAAAATTGCTCTCTTTAA
Celera SNP ID:            hCV787953
SNP Position Genomic:     143785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34393):
TCCAATACATCTCTTTTTGAAGGGGTAGTAAGATTATTCTAAATACATATGCCTCTCCTACATATACCATCTTTAATGATTGAAAGAGAAAGATAGAAAA
Y
TCATCCTCCATGTGTATGAAGATAAAACCTCTATATGTGAAGTCAATGCTGCTATACATTTATTTCGGGATTAATTGGAGATTGTCTAAAGTTGCAGTTA
Celera SNP ID:            hCV15983303
SNP Position Genomic:     60279
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,46)   total(C,2|T,46) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34394):
CATACATACACACTGTCCTGTGGATGCACGTCTAGGTGTTAGTGGCAGCAAATGTACTGGAGTCCCACAGCACCAAAGTATGTTAGCAGCAGTGAATCCA
Y
ATGGATCTACAGCAGCCTCAATTCTTGCCTCCTCATAAGGCAGGAGAGACTGGGGCAAGTTTTAGAGCAGGAGTGAAAGTTTATTCAAAAGCTTTAGAAC
Celera SNP ID:            hCV27882582
SNP Position Genomic:     40070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34395):
AGGGGTAGTAAGATTATTCTAAATACATATGCCTCTCCTACATATACCATCTTTAATGATTGAAAGAGAAAGATAGAAAATTCATCCTCCATGTGTATGA
R
GATAAAACCTCTATATGTGAAGTCAATGCTGCTATACATTTATTTCGGGATTAATTGGAGATTGTCTAAAGTTGCAGTTAGTTATTTGTGGAGCTATTAA
Celera SNP ID:            hCV15983304
SNP Position Genomic:     60299
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,6|A,40)   PGA-EUR(EAN-PANEL(G,7|A,37)   total(G,13|A,77) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34396):
GAAATTTCTGCCATAATAAATAAATACATAAATAAATAAATAAATTCAGGTTGATATTTACAAGATCAAATGAAAGCTTTCTCTGGGAAAAAAAATTAAA
R
CATACCAACAAGGGCACAGGCTCCCTTAGAGGATATGTGCTAAGTAAAGAAGCTCTGACATTTTCTTTGTAGAATTGCTTCATGAATAATAGTCTATCTT
Celera SNP ID:            hCV15983305
SNP Position Genomic:     69946
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,44)   PGA-EUR(EAN-PANEL(A,1|G,43)   total(G,87|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34397):
GCTGTCCCTTGGGACATGAAGTTGAGTAAGTTAGTCCCTGGCCTCAAGAAACTCTCAGTGTAGAAGACAAAATAAATAAAAGATCATTGCAATTCAGTGT
R
ATAAAGACTGTGACTGTGATTTATGCAAATTGCAGTGAAATAACAGAAATCAATGTCTAGCGGTGTGGTGGAGTGGGGAAGAGGATGAGGAGGGCTTCCT
Celera SNP ID:            hCV15983232
SNP Position Genomic:     12009
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,5|A,43)   PGA-EUR(EAN-PANEL(G,4|A,42)   total(G,9|A,85) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34398):
GAGGAAGTCCCCGAGGCGCACAGAGCAAGCCCACGCGAGGGCACCTCTGGAGGGGAGCGCCTGCAGGTAAGCCACCGCCCCTGCACCCTATGAGCCAGGG
M
CCGCTGCGTCCACCTTCTGCACCTCGGTTTCCTGGTTGAACCAGCAAGCGGCTTGCTCTGGGCCCTGTGGCGCCGGTCACAGGCAGCTCCACTTGCCCAA
Celera SNP ID:            hCV8786950
SNP Position Genomic:     6119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34399):
CTCCATCCATCTTCCACGAACAGAGATTTGCAAATTTAGATCTTCTTCTTAAATTATTCCAATGGCTTTTTATAGCCTAAGAATAAAGCATGAATGTTTA
R
TTTGATATCAAAGGATTTCACAATCTTATCCTTACCTATATCATAGGTCAGTGTTGAAGAGTGTGGATTTCAGAGCTCTATCACTAACTAGCTGTGACCT
Celera SNP ID:            hCV787956
SNP Position Genomic:     128220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34400):
GAAGACAAAATAAATAAAAGATCATTGCAATTCAGTGTAATAAAGACTGTGACTGTGATTTATGCAAATTGCAGTGAAATAACAGAAATCAATGTCTAGC
R
GTGTGGTGGAGTGGGGAAGAGGATGAGGAGGGCTTCCTGATGCAAGGATATTGGAGCCGAGACTTAGAGGATGAGTATGAGTGTTCCTGACAGGCAAGCG
Celera SNP ID:            hCV15983233
SNP Position Genomic:     12071
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34401):
CCCTCTGACCAAAGGGGACGGGTGGGGACTTCCTGGCACTGCAGGGCCCCTTGCCTGGTACTCCCAGCAACTGGTTGCGGTGGGGAGGGCAGATCTAGGG
R
TGGGGATGGGGAGGAGAAGTGGGAATGGGAAATTGGGAGTCAGAGGGGCAAGTGGGAGAGAAGGGCGCACCTGCCGGGATAACAGGCCAGATGAAGTAAA
Celera SNP ID:            hCV8786951
SNP Position Genomic:     5776
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,20)   caucasian(A,6|G,6)   total(A,16|G,26)
SNP Type:                 TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   ;PGA-AFRICAN-PANEL(A,6|G,36)   PGA-EUR(EAN-PANEL(A,4|G,42)   total(G,78|A,10)   
SNP Type:                 TFBS


Context             (SEQ ID NO:34402):
TGTGGTGGAGTGGGGAAGAGGATGAGGAGGGCTTCCTGATGCAAGGATATTGGAGCCGAGACTTAGAGGATGAGTATGAGTGTTCCTGACAGGCAAGCGC
R
TGGAAAAGTGTTTGCAGTAGAGGGAACAGTATATTGCAAGTGAGGAGGGACTAAAAGATGAAAGAGAAGATATAAGCCTGGGAAAAGATGGCAGGCATCA
Celera SNP ID:            hCV15983234
SNP Position Genomic:     12173
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,45)   total(G,1|A,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34403):
AGCAGCCGGCAGCTGACCTCCTCTCAGCCCTGTCAGTGGTGACAAGGTCCAGGTGCCAGCACTGGTTTGGTGATACAGACATCATTCCCCTGGGCCATGG
S
AGGGACATTCAGACTCATGTCCCCGAGTGGCATTGAGCAGGGAGTCTTTTTTGTCAATAACATTCATGCACCAAAATCTAATTTTACTCCTAAGGGTGTT
Celera SNP ID:            hCV15983165
SNP Position Genomic:     8832
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,9|C,37)   PGA-EUR(EAN-PANEL(G,12|C,34)   total(G,21|C,71) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34404):
ACTCATGTCCCCGAGTGGCATTGAGCAGGGAGTCTTTTTTGTCAATAACATTCATGCACCAAAATCTAATTTTACTCCTAAGGGTGTTCTGTGCTGGGTT
Y
CACTGGGGATAAACACCTATTTGCTGGGATAGGTGAGCATGGTCATGCTGGAGCTGTGTGGTCGATTCCCCTCATTAGAAGGAGACCAATGCCTGAAAGC
Celera SNP ID:            hCV15983166
SNP Position Genomic:     8945
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,11|T,37)   PGA-EUR(EAN-PANEL(C,12|T,34)   total(C,23|T,71) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34405):
AGACACAATGGAGTACTATACAGCCCTTAGAAGAAGGAAAATTCTGCCATTCTCAACAAGGGTAGAACTGGAGAGCACTATGCTAACTGAAATAAGCCAG
R
CACAGAAAGATGAATACTGTATGATCTCACTTATATGTGGAATCTGAAAAAGTCAATCTCAGAAACACAGTAGAAAGTTGTTTACCAGAGGCTGGGGCTT
Celera SNP ID:            hCV27072831
SNP Position Genomic:     38221
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,15)   total(G,15|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34406):
AGTGGCATTGAGCAGGGAGTCTTTTTTGTCAATAACATTCATGCACCAAAATCTAATTTTACTCCTAAGGGTGTTCTGTGCTGGGTTTCACTGGGGATAA
R
CACCTATTTGCTGGGATAGGTGAGCATGGTCATGCTGGAGCTGTGTGGTCGATTCCCCTCATTAGAAGGAGACCAATGCCTGAAAGCCCAGATTGATGCA
Celera SNP ID:            hCV15983167
SNP Position Genomic:     8958
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,5|A,43)   PGA-EUR(EAN-PANEL(G,3|A,43)   total(G,8|A,86) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34407):
CAGCCTAGCTCCACAGTCTATGCTCTTACTATGCTCTTCTACTTCTCTTAATAATAATAACAACAACAATAATAATAAACATTTATTAAGAATGTACTTG
S
TGTCAGCCACTCTATAAGATAGGTACTTCATTCCCATATTAAAGATAAGAAAACTGAGGCTCAGATAGATTAAATAACTTTTCTGAGGCTGCACAATAAG
Celera SNP ID:            hCV8786884
SNP Position Genomic:     16178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34408):
AAAATGGCATGCTTCCCTGGGAAGGCTGGAAGGCCACTGCTAAAAAGCTTCCCAGGGACATTCTTTACCTTGTGACTTCCATTGCTCAGATTCCAGCCTC
R
CACCATGCCTTCTCAGATACCTGACTACTTAATGATTGGTCCTAAGGGCCAATCCAAATGCTCAGTGCTATTATGATTATTATTGCCATCAATTTCTGAG
Celera SNP ID:            hCV8786885
SNP Position Genomic:     15814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34409):
AAATTCAAAGCAAGCCTGTCTGCTCAGAAGACAAGGAGTATAAAATGGCATGCTTCCCTGGGAAGGCTGGAAGGCCACTGCTAAAAAGCTTCCCAGGGAC
M
TTCTTTACCTTGTGACTTCCATTGCTCAGATTCCAGCCTCGCACCATGCCTTCTCAGATACCTGACTACTTAATGATTGGTCCTAAGGGCCAATCCAAAT
Celera SNP ID:            hCV8786886
SNP Position Genomic:     15773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34410):
GCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCA
S
CCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCACCTGGAGGGTCACCACGCTTGGAGCACATCAGAATCAC
Celera SNP ID:            hCV27072690
SNP Position Genomic:     65838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34411):
CCATGGCCTAGGTGAGACACTTCTTATTTGACAAGGGATCCTATGTGGAATGGGGGCCTTGGACTTCAGCACCCCACATGTTCCATTTTGGGATGATCCC
R
GCCCAAATCAAAGCCACCATTAAAACCCATTGGTCCTTCTTTGCCATGAAAATCACATCTTTTCCATGGCATTTCTTTTACAACAGCAAAAGAACTGTTT
Celera SNP ID:            hCV11322840
SNP Position Genomic:     159943
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,731|A,734)   total(G,731|A,734)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34412):
TAAGTCCCTATGAGGCACTCCTACAAATAACCCCACAGGCCCTAAACAGAGTTAATACAAAATAGCGAAGGTAGATCTTGCCCTTGGTAACCCTGTCCTC
W
TTCAGGTCCCTGCTCCAAATTACTTCCCCTTTTCCTGACACCATTTGTTCCTTTGGTGCCTTACTCAAATATCCCATCACCCTGAGACTGTTCTTCCTGG
Celera SNP ID:            hCV11322779
SNP Position Genomic:     107532
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,8)      total(A,8|T,1) ;JBIC-allele(A,476|T,1025)   total(A,476|T,1025)
SNP Type:                 INTRON


Context             (SEQ ID NO:34413):
ATCTGGACAGAATTGGAGATGACAAACTCACACCGCCCTTCCTCTGTGCAATGCAGGCATGTATCGGTGTGGCCCCGCCTCGGTTCAAGCCATCAAGCAC
R
GCCATGTCTGCTTCCAATTTGATGCACCTTTTGTTTTTGCAGAGGTAAGCAGGAAGCTGGAGGAAAGTGCTGTTTTTCTCCCCAACCTCTTAACACATGA
Celera SNP ID:            hCV27530998
SNP Position Genomic:     132063
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34414):
AGTCCTTGCAATGAAAGACACTGGCCAGGGAAGCTGGTTGGACACACACACATACTTGCACATTCACAAGTATCTTTCATTAAAAGGAGATGACCTACTG
S
TTCCCTCCTGCCAGTGATGGGCCACAAAACAGACATGACACGTGGGCCTTCTCACGTGTCCCAGATTTGTTTTAAAAATCATTTTCAATTCATCTAGTTT
Celera SNP ID:            hCV787964
SNP Position Genomic:     76481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34415):
CCAGGCCTGGGAATAAGTACCAGACTGATGATAGACGGGGAGGATGATCCTCCTGAAATTCTAGCCACAGGGAAGAAAAGTCCTTGCAATGAAAGACACT
R
GCCAGGGAAGCTGGTTGGACACACACACATACTTGCACATTCACAAGTATCTTTCATTAAAAGGAGATGACCTACTGCTTCCCTCCTGCCAGTGATGGGC
Celera SNP ID:            hCV15983315
SNP Position Genomic:     76403
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,42)   total(G,42|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34416):
CGAACTGGGTGGAGCCCACCACAGCTCAAGGAGGCCAGCCTGCCTCTGTAGGCTCCACCTCAGGGCACAGACAAACAAAAAGACAGCAGTAACCTCTGCA
S
ACTTAAATGTCCCTGTCTGACAGCTTTGAAGAGAGCAGTGGTTCTCCCAGCACACAGCTGGAGATCTGAGAACAGGCAGACTGCCTCCTCAAGTGGGTCC
Celera SNP ID:            hCV27882594
SNP Position Genomic:     26482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34417):
CCTCCTGCCAGTGATGGGCCACAAAACAGACATGACACGTGGGCCTTCTCACGTGTCCCAGATTTGTTTTAAAAATCATTTTCAATTCATCTAGTTTTCT
R
TTAATGTTAAAAGGTTGGAAATTATATTTTAATTAGTGTTAGAGATGTACATCAGCATCATAGAATTCTGAAACTACTGATGCAACAGAATCATAAAATG
Celera SNP ID:            hCV15983316
SNP Position Genomic:     76585
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,41)   total(G,1|A,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34418):
TGACAGGCAAGCGCATGGAAAAGTGTTTGCAGTAGAGGGAACAGTATATTGCAAGTGAGGAGGGACTAAAAGATGAAAGAGAAGATATAAGCCTGGGAAA
R
GATGGCAGGCATCACACCATACCAGGCCTTGGGGATCTTGCTTTCCTCCTGCAGATAATGGGGGACTTGAGAAGGATTCTAATTAGCAGAAATACATAAT
Celera SNP ID:            hCV15983244
SNP Position Genomic:     12259
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,5|A,41)   PGA-EUR(EAN-PANEL(G,7|A,39)   total(G,12|A,80) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34419):
AACGTTGACATGGACTTTGAAGTGGAAAATGCTGTGCTGGGAAAAGACTTCAAGCTCTCCATCACCTTCCGGAACAACAGCCACAACCGTTACACCATCA
Y
AGCTTATCTCTCAGCCAACATCACCTTCTACACCGGGGTCCCGAAGGCAGAATTCAAGAAGGAGACGTTCGACGTGACGCTGGAGCCCTTGTCCTGTAAG
Celera SNP ID:            hCV11972291
SNP Position Genomic:     153229
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)    ;(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34420):
TAATATGATTGTTGGTTTCATGAAGTAAGAAGACCATATGAGATTTTATCTGTTTGCTTGTTTGTTTTTACATAAATGATGCAGAAATAACTGACTCTCC
R
ACTGGAAGAAAGTTTAAAAATTGACCCTCATCTTGTCCCATATACAGTAGTAAATCTCAGATGGAATGAGTATTAATGTAAAAAAGACAATTTTTTGAGG
Celera SNP ID:            hCV15983246
SNP Position Genomic:     23646
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,3|A,43)   PGA-EUR(EAN-PANEL(G,2|A,42)   total(G,5|A,85) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34421):
GGCATTGAGCAGGGAGTCTTTTTTGTCAATAACATTCATGCACCAAAATCTAATTTTACTCCTAAGGGTGTTCTGTGCTGGGTTTCACTGGGGATAAACA
M
CTATTTGCTGGGATAGGTGAGCATGGTCATGCTGGAGCTGTGTGGTCGATTCCCCTCATTAGAAGGAGACCAATGCCTGAAAGCCCAGATTGATGCAGCT
Celera SNP ID:            hCV15983177
SNP Position Genomic:     8961
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|C,47)   total(A,1|C,47) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34422):
CATTGAGCAGGGAGTCTTTTTTGTCAATAACATTCATGCACCAAAATCTAATTTTACTCCTAAGGGTGTTCTGTGCTGGGTTTCACTGGGGATAAACACC
Y
ATTTGCTGGGATAGGTGAGCATGGTCATGCTGGAGCTGTGTGGTCGATTCCCCTCATTAGAAGGAGACCAATGCCTGAAAGCCCAGATTGATGCAGCTCT
Celera SNP ID:            hCV15983178
SNP Position Genomic:     8963
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,11|T,37)   PGA-EUR(EAN-PANEL(C,12|T,34)   total(C,23|T,71) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34423):
TCTGTGCTGGGTTTCACTGGGGATAAACACCTATTTGCTGGGATAGGTGAGCATGGTCATGCTGGAGCTGTGTGGTCGATTCCCCTCATTAGAAGGAGAC
S
AATGCCTGAAAGCCCAGATTGATGCAGCTCTCCATATAGCAAAGGGAAAGGGGAAGTGCAGTTTATCCAGCAAGCCAGACACTTGCCCAGGTGTTGTGGA
Celera SNP ID:            hCV15983179
SNP Position Genomic:     9032
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|C,47)   total(G,1|C,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34424):
TTTTTTTTTAAAAAGAAGACAGATGTTTCCTGCGAATCAAGAGGAGAAATGCTTTCTATTTACCTGTGGAAATTCAAAGCAAGCCTGTCTGCTCAGAAGA
Y
AAGGAGTATAAAATGGCATGCTTCCCTGGGAAGGCTGGAAGGCCACTGCTAAAAAGCTTCCCAGGGACATTCTTTACCTTGTGACTTCCATTGCTCAGAT
Celera SNP ID:            hCV8786896
SNP Position Genomic:     15704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34425):
CCAGGCACTATAGCAAGATAATTAAGACATGGTCCAGTCTTCAAGGGGATTACAATCCCATGGCTAAAAAATCACCTATATAAAGATAATACAAAGAGAC
R
ATGATACTTTTTTTTTTTTAAAAAGAAGACAGATGTTTCCTGCGAATCAAGAGGAGAAATGCTTTCTATTTACCTGTGGAAATTCAAAGCAAGCCTGTCT
Celera SNP ID:            hCV8786897
SNP Position Genomic:     15593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34426):
AGCGAGTGAATGACTAAGAAGCCAAACAAACGACATGGTGAGGCAACCCAGGAATTAGGAACAGTAGAAAACTGCCACCACACCAGGAGCTGGAGGCACA
Y
GGAGGAGGAGGTCCCATCAGAACCCAGAAGGCATCAGCAGGTGCTGGAGCCATGGAGGAGACTCAGACTCTCACCTCAAGACAGAGAGAGCACAGGAGAC
Celera SNP ID:            hCV27071971
SNP Position Genomic:     50021
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34427):
AACAAAACTGCTGATCTGGAGGTCTTATGTTATAAATTCCCACATCATACCTTCAACTATATATATGTCCTGAAACTAGCATATTTTGAGAATAAAATGG
K
AAATGACATTTAAAGGACACCTATGGTTAATCCTACAGTAAATGAGATAATTTATTTTGAAATGAATGATCAACTCTACGCTCCAAATTTTCACGTAAAA
Celera SNP ID:            hCV8786898
SNP Position Genomic:     15341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34428):
GAATCAAAAGATCACTTAGAAAAAGTAACATGTTAGAAAACATCATGCTTAGAATTAAATGTCTAAAGTATACCAGTATAGATGATATAATTTAAAACAA
Y
TGATACTATCAGCTGTCATAAGAACCAAATACTTGGTTGACCTGTGGGTGGCTGACTCATGGGCAATGAAATAAATTTTGTTTTATACGTATAACTTTAT
Celera SNP ID:            hCV16286271
SNP Position Genomic:     14516
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34429):
AAAGATCACTTAGAAAAAGTAACATGTTAGAAAACATCATGCTTAGAATTAAATGTCTAAAGTATACCAGTATAGATGATATAATTTAAAACAATTGATA
Y
TATCAGCTGTCATAAGAACCAAATACTTGGTTGACCTGTGGGTGGCTGACTCATGGGCAATGAAATAAATTTTGTTTTATACGTATAACTTTATATATAT
Celera SNP ID:            hCV16286272
SNP Position Genomic:     14522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34430):
ATATAAAAAGTTTGCTTATATATAATATATATACACATATCATATATAAATATATTGTTTATAATATGTAAACAATATATACATAAATAATATATAAAAA
S
TATATATTATATATGTAAACAATATATTTTTAAAACCCAAACTCATGGGTTTATAGTTTTTTCATAGTGAAAACAAACAAATATATAGTTTGCTTATATC
Celera SNP ID:            hCV16286273
SNP Position Genomic:     14737
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34431):
GGAAAAACTATAAACCCATGAGCTGGGGTTTTGTCTTTTTTTTTTTGACTTAGGTTTTCTATTCTCAAAGGCATTAATCAGCACCCTTTTTCTCACCCTT
Y
GTTATCAACATATAAGCAGGCTAGAAAGACAGTATTTTATTCCAATGTGAAACAAAACTGCTGATCTGGAGGTCTTATGTTATAAATTCCCACATCATAC
Celera SNP ID:            hCV16286274
SNP Position Genomic:     15190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34432):
GGGTTTTGTCTTTTTTTTTTTGACTTAGGTTTTCTATTCTCAAAGGCATTAATCAGCACCCTTTTTCTCACCCTTTGTTATCAACATATAAGCAGGCTAG
R
AAGACAGTATTTTATTCCAATGTGAAACAAAACTGCTGATCTGGAGGTCTTATGTTATAAATTCCCACATCATACCTTCAACTATATATATGTCCTGAAA
Celera SNP ID:            hCV16286275
SNP Position Genomic:     15215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34433):
TTGACTTAGGTTTTCTATTCTCAAAGGCATTAATCAGCACCCTTTTTCTCACCCTTTGTTATCAACATATAAGCAGGCTAGAAAGACAGTATTTTATTCC
R
ATGTGAAACAAAACTGCTGATCTGGAGGTCTTATGTTATAAATTCCCACATCATACCTTCAACTATATATATGTCCTGAAACTAGCATATTTTGAGAATA
Celera SNP ID:            hCV16286276
SNP Position Genomic:     15234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34434):
CTTTTCTGAGGCTGCACAATAAGTAAGTAGTGAAGCATTTCCAAAAACATATTCTGAAAAATGCAGATCTCCAAAGAAAAAAGTTTCCATAGTCATTTAC
R
TTTGGAAACCATTGCCCCTCTGAGATATCTGTGGTATACATCAGCATATTAAAGTCTCACATGAATGCTTCAGTAAAGAATCCTGATCAGCTTTGGTTAG
Celera SNP ID:            hCV16286277
SNP Position Genomic:     16356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34435):
TCCCAGAACCGTTATTAGAGTTGTCAATCTGATGTCTCGTCATCCCTGAATACTTTAGTGTGTACTACCTATGAGCAAAGACATTCTTCTGTGCAACCAT
M
AAAATAAGGAAATTAACACTGATATTTGATGGTAGTCTAATCTTTAGAACACATTTGAGTTTTTCTACTTGTTCAGTAATGTACCTTATAGCAACAGAAG
Celera SNP ID:            hCV787973
SNP Position Genomic:     43226
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,13)      total(A,1|C,13) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34436):
ATGTAATATCAGTATATTCCTTCCATTGGTGCTGGTAAACGGAGAACTGATGAAACCCATTTCTAAGGACTTTGGTGTTTAGCTATTTTTAAAAAAAAAA
Y
TTTAAAGCCCCTGTGCTAAGAAAGAGGACCAGAGGAGTTGATTGCTAAGCTCCTTTTCAACAGGAACATTTGTGCTCCTCCAGCTCATTCTTGGGCTGGT
Celera SNP ID:            hCV787974
SNP Position Genomic:     19108
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,11)      total(C,7|T,11) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34437):
AAGTTTTCCAGGTACATAGCGTATGCTTCGTGTTGACAAAGGTAACTAGGCATTATTCCAACTTCCAGGCTATTAATGCTAAATGCAGTTCTTGTTTAAC
R
TTTTTCTTTCCTTGATGTTTTGGGATTCCCTACTCCCAAAAGTAAATGCTTTACTAACATTAGCTTAGTTCTCTGCACCCATTAAGTATCAACTGCTCCA
Celera SNP ID:            hCV16181762
SNP Position Genomic:     132291
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,9|A,1491)   total(G,9|A,1491) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34438):
ACATCAAGACCAGAAGCTGGAGCTATGGTCAGGTGAGCCACTTAAAATTTGTTATTGTCAAGGACATTTTTACTTCATATTTTTTGTCACATGTATCCCT
R
CAGGATCCCATATATCGATATTAGACAAGCACAATTTCCTGCTTTTTAGGATCTGAGACTCCAAGGCAGAGAGCATAGGAGTAGGGACTCATAAAGACAA
Celera SNP ID:            hCV15983327
SNP Position Genomic:     77160
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,44)   total(G,2|A,44) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34439):
TACTTCATATTTTTTGTCACATGTATCCCTACAGGATCCCATATATCGATATTAGACAAGCACAATTTCCTGCTTTTTAGGATCTGAGACTCCAAGGCAG
W
GAGCATAGGAGTAGGGACTCATAAAGACAACTGCGTAATTTATCAGCTGAAACCACATATCTCTGGGTATTACAGTGTTACAGAAATGAGAGATTCCATG
Celera SNP ID:            hCV15983328
SNP Position Genomic:     77230
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|A,42)   total(A,42|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34440):
TGCATAGGTGATCTTATGAGATTCTGATGGAGCTGAAAAATTCCTGTTACATAGTGATGTCATAGCTATCATAATAGAATAGTGAGATTACTTATTTTTT
T
AAATGTACTGTAGCCTAAGTTTATAGTGTTTATAAAGTCTACAGTAGCATGCAGTAATGACCTAGGCCTTCGCATTCACTCACCACTCACCCAGGGCTAC
Celera SNP ID:            hCV15983256
SNP Position Genomic:     23955
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,15)   total(-,15|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34441):
TCCTGCTTTTTAGGATCTGAGACTCCAAGGCAGAGAGCATAGGAGTAGGGACTCATAAAGACAACTGCGTAATTTATCAGCTGAAACCACATATCTCTGG
K
TATTACAGTGTTACAGAAATGAGAGATTCCATGAATAATGTGGCATTCTATTGAGAAATGCTTTGGCCACTTAGAACAGTGAAATCTCATTAGTTCAACC
Celera SNP ID:            hCV15983329
SNP Position Genomic:     77297
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|G,42)   total(G,42|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34442):
AGGCCTTCGCATTCACTCACCACTCACCCAGGGCTACTTCTGGTCCTGCACGTTCCATTCATGGTAAGTGTCCTATGCAGGTGTACCATTTTTTACTTTT
Y
ATATTGTATTTTTACTGTACTTTTTCTATGTTTATATATAAATGTTTCTATGTTTATATATAAATACTTACCATTGTGTTACAATTGCCTGCAGTGCTGT
Celera SNP ID:            hCV15983257
SNP Position Genomic:     24119
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   total(C,1|T,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34443):
ATTCAGGATAGGAGAGGAGATGATCAGAAGAGAGAGGATGAGAACCGGGGTTATGGCTGCAGTTGTAGACATGGACAGGAGTGACAGGGTTTGAGAAATA
Y
TTAGGAGGCAAAATCTGCAGGACTTGTGTTGGGGAGTCTGTGAGGGGTGGAAGGGAGGAGGGTCAAGGTCGACTTCCAGGTGGCTGGCTTATGTGACTAT
Celera SNP ID:            hCV15983258
SNP Position Genomic:     34242
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,6|T,34)   total(C,6|T,34) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34444):
TATAGCAAAGGGAAAGGGGAAGTGCAGTTTATCCAGCAAGCCAGACACTTGCCCAGGTGTTGTGGACTGGTGTCATTGTGTTACTGTCACACTAGATGAT
W
TGATATCAAATAGTGAAATCAGGGAGGTATCCAGTACCATCCAAGTTTGGGAAAAGAAGTTCACAGAACAGAAGGGCATCTTCAGTCAGGTGGTAGAGTT
Celera SNP ID:            hCV15983188
SNP Position Genomic:     9167
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|T,47)   total(A,1|T,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34445):
ATATTTAATTGTTCTAAAAGCAGGTTTTCTGGCACTATATATCAAGTTTTCTCCAAGTCACTAAGGGACGAAATTTGCTAAGCGACTAAACCTTGGAAAG
M
ACACTCATTTTTAAAATGCCATCTTCATGCAGTTCACCCAGTGGCCACTAGTGGCCTCTAAGAGGCCTTGTATCCGCGGTTACCAATCTGCGGATGATGA
Celera SNP ID:            hCV15983189
SNP Position Genomic:     10768
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,9|A,39)   PGA-EUR(EAN-PANEL(C,4|A,42)   total(A,81|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34446):
AAAGAGTGCTTTCAGATGTACTTCTCTAGTTTTTTGCTATTCCCCAAAGTGCATCCTTACATAATTAGCTTTAAAATTCCTTTCATCCCTTATTTTTTTT
T
AAATCTATCATTAACACGTAGATTTTTATCTCTAAGTTTATTTTTACTAAACTTGCATCTTTTTAAATACGACGTATTCTGAATCTAAATCAGTATTTAG
Celera SNP ID:            hCV27073583
SNP Position Genomic:     58656
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34447):
TCTGAGAAGGGGCAGACTGCCTCCTCAAGTGGGTCCCTGACCCCTGACCCCCGAGCAGCCTAACTGGGAGGCACCCCCCAGCAGGGGAACACTGACACCT
Y
ACACAGCAGGGTATTCCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAAACAGAAAGGACATCCACACCAAAAACCCATCTGTA
Celera SNP ID:            hCV11943234
SNP Position Genomic:     137417
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34448):
GTGGAAAATGGGAACAGACTATGTGTTCTAATTATTGCTGAACCCTGACCATTTTCCCCTCCATGTCCACAACCGAGCACGTTCTCTCTCCAGCCTCCTG
Y
ACTCTCTGTGGCTCCATCGCACTCTCGTCACCAAGATTCACCCCTGCCCACACCCACACCCTTCATGGGGAGGCCGGGGATGGGAACCAGGAGGTGGGCT
Celera SNP ID:            hCV11322863
SNP Position Genomic:     169229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34449):
TGGAAAATGGGAACAGACTATGTGTTCTAATTATTGCTGAACCCTGACCATTTTCCCCTCCATGTCCACAACCGAGCACGTTCTCTCTCCAGCCTCCTGC
R
CTCTCTGTGGCTCCATCGCACTCTCGTCACCAAGATTCACCCCTGCCCACACCCACACCCTTCATGGGGAGGCCGGGGATGGGAACCAGGAGGTGGGCTT
Celera SNP ID:            hCV11322864
SNP Position Genomic:     169230
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34450):
TAAAGTTAGTTGATTATTTTCTTCAACCCTTGTTTTTCTTGTTCATAGAGTTTCTTAATGTCACGAGCGTTCACCTGTTCAAGGAGAGATGGGACACTAA
M
AAGGTGGACCACCACACTGACAAGTATGAAAACAACAAGCTGATTGTCCGCAGAGGGCAGTCTTTCTATGTGCAGATTGACTTCAGTCGTCCATATGACC
Celera SNP ID:            hCV27540847
SNP Position Genomic:     21172
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34451):
ATTCTCTTTTTAAAAGTGGCATCTCTCATTTTTAAAAGAGAAAATCCTAGATAGTGACTCCTATTATCATCAAGTAATATATATCAAGGCCCCAAGGCTA
M
CTTGTCACATTTTACTCTGGCATAGAAATCTAATTCCTTCTCTATAAAGTCAAAAAGAGAGAGGTGAGTTATAGATGTTTTCTAATTTAGTTTAGGGTCA
Celera SNP ID:            hCV11322865
SNP Position Genomic:     170255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;(A,-|C,-)   PGA-AFRICAN-PANEL(A,8|C,40)   PGA-EUR(EAN-PANEL(A,12|C,32)   total(A,20|C,72)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:34452):
TCTTAGGTCCGTGGCACTCAGGTAGTTGGTTCTGACATGACTGTGACAATTCAGTTTACCAATCCTTTAAAAGAAACCCTGCGAAATGTCTGGGTACACC
Y
GGATGGTCCTGGAGTAACAAGACCAATGAAGAAGATGTTCCGGTAAACCTTGGGTTGGGGAGACCGGGCAGGCAGTGCAGGGCTGTGGGAAGCTTTCTCT
Celera SNP ID:            hCV27540848
SNP Position Genomic:     176048
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34453):
AAGGCTACCTTGTCACATTTTACTCTGGCATAGAAATCTAATTCCTTCTCTATAAAGTCAAAAAGAGAGAGGTGAGTTATAGATGTTTTCTAATTTAGTT
Y
AGGGTCAACTTATAATCCTCGTCCTCAACTGATGGTTTAGCGATAACTTAAAAGGTGATGCTGCAAATGATTCTTTGCTGGATTTCAGAAAATAAAGAAG
Celera SNP ID:            hCV11322866
SNP Position Genomic:     170348
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;PCT-TFRICTN-PTNEL(C,20|T,26)   PCT-EUR(ETN-PTNEL(C,19|T,23)   total(C,39|T,49)   no_pop(T,-|C,-)   (C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34454):
ATAAATATGCGTATTTATTTATTATTGAGAATTTTATAAATATATCCACTTAATTTTTATCCCAGTTATGGAAGGTATTATAGCAGGTGGTCTCATATTC
R
TTTTTCCACATTTCTCAATGCCCCTGAGCAATTAGAGATCAGAACATAATGAACAATCTTTCCCTCTCCAGTTTCCCCTCTGGTTTTTAATCCACCCAAC
Celera SNP ID:            hCV15983400
SNP Position Genomic:     103714
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,44)   total(G,2|A,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34455):
CAATCTTTCCCTCTCCAGTTTCCCCTCTGGTTTTTAATCCACCCAACATCCAATCTGTAGAGGAAAGCATATGAGAACAGAATTATTCTCTTCAGTGTCA
Y
GCATCATTTTTCAGAGGCATTTGCCTCTCTAGACCCAGACGATATTACAATTAATTCAGTGAATATTTTTAAAAATACATTTATTTCAGTATGTCTTCAT
Celera SNP ID:            hCV15983401
SNP Position Genomic:     103868
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,40)   total(C,2|T,40) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34456):
GTACAGACTCAAAGCAATTCTCTAATGTATTCAAAGTAAACAATACCATAAGGTCACCTTATTCACCAGGGATTTTCATTTCTGTTCATTGAAGATTTTT
W
AAAAATTGACAGATATATTGGAAGCCAGTGGGAAAATAGAATTTATCTAACAGAAAGTATCTTCATAGCCACTTTTGAGAAATTGCATAAATCCATTCCA
Celera SNP ID:            hCV27516579
SNP Position Genomic:     87181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34457):
TGAGTTTTTTCGTATGTACACATCATTATGCCGGATGGTTTTATGAGTAAGAGAAAATGATAAGAGGGGGCTAAATACTTAGCTTCTATTTGAGGTGGTT
R
TCTACAGTACATGGTCTCAGGTCGGGTCCTTAACCAGGGCCACTGTTTCACAAAGTGCTTCTGATTGATCACTTGGGGGAACCAGAGGAGAGAGAATGAA
Celera SNP ID:            hCV29167514
SNP Position Genomic:     180231
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34458):
AAGTACTAAGTATTGGAGTTAAAAGTGGGCTGAAATATAAGGTGAATAAGACAAACTACCCAGAGCATTGCTACCCTAAAAAGCATCAACTGTAATGCAT
Y
GGGCCTTTGCCATGTGCCTTGCAATATGTTTGCCGTTTTATGAGCATTTTTCATTCCAAACCTTTCTTGCAAGGGAAGAACTATTATTCTTATCTTATTC
Celera SNP ID:            hCV29167515
SNP Position Genomic:     174905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34459):
CTCTTTACGTCCATTCTTAAAAACGCCTCATTTCCATATATTTTCTCCCATATTATATAGTGGCTAAAGGAACATGGAATAGTAATGGCTGTGTTGTCAT
M
TGGAAGATCCAGACATCCAGTAAATTCCATTTTTGAGCCATTGACTTAATTTAATAAATATTTACTGGACATTGGTATTGAAGTACTAAGTATTGGAGTT
Celera SNP ID:            hCV29167516
SNP Position Genomic:     174724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34460):
TTAGTATAAAGGACAGGAATGTCAATATCAGTAAGTGATATGTAACTTGAAAAAGCATACTACGGGTTGATTTTTTTAAAACAGAGAGAGATATTTTCAA
Y
AGAATATTGAGAAAAACTTAAGGCCATCAAGTATATGCAAAAGCATTTGACGTCACCAAGTAAGACATATGCTTTATTCTTTTCTCTGGCCCAAGTAATG
Celera SNP ID:            hCV29167517
SNP Position Genomic:     171758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34461):
TTGGAGGCTGGAGGGAGGTCATTTAAAAAAATGATTACAAAACCTATTTGTTTTAGCTCAAAGTCTCAACAGTCTAAGACTTGGTGATCTAAATTTAAAA
M
AAAAAAGTCATGAGTTTTGTTTTGTTTTATTTTCCCATAGTATCAAACAGGATAAGATTATTTTCTTAGCCATTTAAATATAACCCAGGGAAGAAGGAAT
Celera SNP ID:            hCV15983407
SNP Position Genomic:     104212
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|A,40)   total(A,40|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34462):
TTGTTTACCAAAGAATCAGAGTAGCAGCTCATTATCATGAATTAGTATAAAGGACAGGAATGTCAATATCAGTAAGTGATATGTAACTTGAAAAAGCATA
Y
TACGGGTTGATTTTTTTAAAACAGAGAGAGATATTTTCAATAGAATATTGAGAAAAACTTAAGGCCATCAAGTATATGCAAAAGCATTTGACGTCACCAA
Celera SNP ID:            hCV29167518
SNP Position Genomic:     171717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34463):
TCAACAGTCTAAGACTTGGTGATCTAAATTTAAAAAAAAAAAGTCATGAGTTTTGTTTTGTTTTATTTTCCCATAGTATCAAACAGGATAAGATTATTTT
Y
TTAGCCATTTAAATATAACCCAGGGAAGAAGGAATACATATTTCTTGGGAGCAATGAAAATCAAAAGTATAGTCCCCTAGAAGCACTGGTCTCTGAAGTT
Celera SNP ID:            hCV15983408
SNP Position Genomic:     104277
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,41)   total(C,41|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34464):
GAAATCGACTTCAACAAGCAGAATATCTGCATGACCAGCACTGATTGGTGGGGAATTGTATAGATAACACAAGATCCATGGGAAGTATCACTGTTGACCC
Y
GGAGAGGAGGCAGGGACCTTCCTCTGGGCGGCTTCCCTCCAGGCCAGCACTCACCCCTGTGCAGATTGTGCCCATCTGCAGGTGGGAAGGAGACAGTGAG
Celera SNP ID:            hCV29167519
SNP Position Genomic:     168210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34465):
TAATTGTTCTAAAAGCAGGTTTTCTGGCACTATATATCAAGTTTTCTCCAAGTCACTAAGGGACGAAATTTGCTAAGCGACTAAACCTTGGAAAGAACAC
K
CATTTTTAAAATGCCATCTTCATGCAGTTCACCCAGTGGCCACTAGTGGCCTCTAAGAGGCCTTGTATCCGCGGTTACCAATCTGCGGATGATGACTTTG
Celera SNP ID:            hCV15983190
SNP Position Genomic:     10773
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,7|T,41)   PGA-EUR(EAN-PANEL(G,4|T,42)   total(G,11|T,83) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34466):
CTTATAAAGAAAGGTATTTTCAAAGTGATGCAAAGAATACTGCAAGGGGTGTGCCCAATTCAAAGAAATAGCTTCTTTTTTTTTTTTTTTAAGTGTTAGC
S
TAGGGTACTGCTAATTAGAAAAGAGTGTTATCATTTCATCAAAGGAAGGGCCACTGAGCTTTTACATAGAAAGATTTTATCAGCTGCAAGTTGATTGTCT
Celera SNP ID:            hCV15983336
SNP Position Genomic:     77501
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|C,43)   total(G,1|C,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34467):
GCTTCTTTTTTTTTTTTTTTAAGTGTTAGCCTAGGGTACTGCTAATTAGAAAAGAGTGTTATCATTTCATCAAAGGAAGGGCCACTGAGCTTTTACATAG
R
AAGATTTTATCAGCTGCAAGTTGATTGTCTAGACACAAAGTAGCAAATGGCATTTCTTTAAGATGTTCAGTCATTCAAACTATTTCAGTTTGGTATCTTT
Celera SNP ID:            hCV15983338
SNP Position Genomic:     77571
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34468):
ACACGTGCATGGAGGTTCCCTGTATGGAGCCATGTTTTCCATCCAGATTGGGCCAAGGATAGCTGATGGGCAGTCATGGATGTTGATGGATGGGTTTTCC
M
AGGGTAGCTGGATTGTGGTCTCGTAACCATGCCGACTCCTGGGGCTGAGAAGGGCTATTTAGTGAAATGAAATACTACTCTGTCACAACTTCCTCACTCA
Celera SNP ID:            hCV27073805
SNP Position Genomic:     55016
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,8)   total(A,4|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34469):
TCAGAAGAGAGAGGATGAGAACCGGGGTTATGGCTGCAGTTGTAGACATGGACAGGAGTGACAGGGTTTGAGAAATATTTAGGAGGCAAAATCTGCAGGA
Y
TTGTGTTGGGGAGTCTGTGAGGGGTGGAAGGGAGGAGGGTCAAGGTCGACTTCCAGGTGGCTGGCTTATGTGACTATGATGACAGATGCTAGCACTTCCA
Celera SNP ID:            hCV15983268
SNP Position Genomic:     34265
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34470):
TGGACAGGAGTGACAGGGTTTGAGAAATATTTAGGAGGCAAAATCTGCAGGACTTGTGTTGGGGAGTCTGTGAGGGGTGGAAGGGAGGAGGGTCAAGGTC
R
ACTTCCAGGTGGCTGGCTTATGTGACTATGATGACAGATGCTAGCACTTCCAAATGAGATAAAGAATGCCTGGAATTCCAGAGGGAAAAAATCGAGTGTG
Celera SNP ID:            hCV15983269
SNP Position Genomic:     34313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   PGA-AFRICAN-PANEL(G,18|A,26)   PGA-EUR(EAN-PANEL(A,5|G,41)   total(G,59|A,31) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34471):
ACCAGAAGCTGGAGCTATGGTCAGGTGAGCCACTTAAAATTTGTTATTGTCAAGGACATTTTTACTTCATATTTTTTGTCACATGTATCCCTACAGGATC
Y
CATATATCGATATTAGACAAGCACAATTTCCTGCTTTTTAGGATCTGAGACTCCAAGGCAGAGAGCATAGGAGTAGGGACTCATAAAGACAACTGCGTAA
Celera SNP ID:            hCV2142941
SNP Position Genomic:     77168
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;PGA-AFRICAN-PANEL(T,18|C,28)   PGA-EUR(EAN-PANEL(T,13|C,33)   total(C,61|T,31)no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34472):
ACATTTTTACTTCATATTTTTTGTCACATGTATCCCTACAGGATCCCATATATCGATATTAGACAAGCACAATTTCCTGCTTTTTAGGATCTGAGACTCC
W
AGGCAGAGAGCATAGGAGTAGGGACTCATAAAGACAACTGCGTAATTTATCAGCTGAAACCACATATCTCTGGGTATTACAGTGTTACAGAAATGAGAGA
Celera SNP ID:            hCV2142942
SNP Position Genomic:     77223
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,11)      total(A,11|T,3) ;PGA-AFRICAN-PANEL(T,13|A,33)   PGA-EUR(EAN-PANEL(T,11|A,35)   total(A,68|T,24)no_pop(T,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34473):
TGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGACTATGCCACTGCACTCCAGCCTGGGTGGCAAGAGTGAAAGTCCTTCTCAAAAAAAAAAAAAAAAA
A
TGAGTGCCCCCTCAGCCAGCCCCTACTGTGTGCTAAGCATAAAGCTTTCATTATATTATAAAATCTATTGTCTTTTTATTTCCCAAACTAAACTGCAAAG
Celera SNP ID:            hCV27073665
SNP Position Genomic:     57709
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,11)   total(A,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34474):
TTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGACTATGCCACTGCACTCCAGCCTGGGTGGCAAGAGTGAAAGTCCTTCTCAAAAAAAAAAAAAAAA
A
ATGAGTGCCCCCTCAGCCAGCCCCTACTGTGTGCTAAGCATAAAGCTTTCATTATATTATAAAATCTATTGTCTTTTTATTTCCCAAACTAAACTGCAAA
Celera SNP ID:            hCV27073666
SNP Position Genomic:     57708
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,11)   total(A,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34475):
CTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGACTATGCCACTGCACTCCAGCCTGGGTGGCAAGAGTGAAAGTCCTTCTCAAAAAAAAAAAAAAA
A
AATGAGTGCCCCCTCAGCCAGCCCCTACTGTGTGCTAAGCATAAAGCTTTCATTATATTATAAAATCTATTGTCTTTTTATTTCCCAAACTAAACTGCAA
Celera SNP ID:            hCV27073667
SNP Position Genomic:     57707
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,11)   total(A,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34476):
TTAGCGATAACTTAAAAGGTGATGCTGCAAATGATTCTTTGCTGGATTTCAGAAAATAAAGAAGCTATTCCAGCAAAAAAAAAAGTTTCTATTTTTACCT
S
TATTCTGTCAGGGATCACAGTATATGTAGTTTTGAAGATGAATGTTTTAGAGTCAGAAAGACCTGGATTTATATCCAACTTCCGCCAGATTCCTAACTCT
Celera SNP ID:            hCV11322870
SNP Position Genomic:     170485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34477):
TGCAAATGATTCTTTGCTGGATTTCAGAAAATAAAGAAGCTATTCCAGCAAAAAAAAAAGTTTCTATTTTTACCTGTATTCTGTCAGGGATCACAGTATA
K
GTAGTTTTGAAGATGAATGTTTTAGAGTCAGAAAGACCTGGATTTATATCCAACTTCCGCCAGATTCCTAACTCTGTAGGCTTTTTATTTATCTTCTAAA
Celera SNP ID:            hCV11322871
SNP Position Genomic:     170510
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,6)      total(G,5|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34478):
GAACAATACTGGGCTCACATGTCTGAATCCAAGTCACCGTCAACCAAAGCAGGCCAGTGGCTTCCTGTTTGTGCATCCCAGTGGACCCAGTCGTGGATTT
Y
ACTGGTCCCTGTGGTGATAAAGATGGGGCCTGGGCTCAATAGTGCTCCCAGTCAACCATTCCCAGCACCCACCATGTGTGAGTCAGAGTGTGTGATCCTC
Celera SNP ID:            hCV29167520
SNP Position Genomic:     166076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34479):
AGACAGAAAGGACCCAAGTTCTCCCCATGCCTACAATTTCACTATCCCAGTGTAATTCCTTCCGGCTCACAACAAGATAAAATAGTGAACACCTTACATC
Y
GTTCGTGTCTTTGGCATAAAAAGGTTATCCAATCTATGCCTGAAAACAGGCTTTGGCGGTAAATCAAGAAAAGGCAGAAACACACAGTGGGGAAGTCACA
Celera SNP ID:            hCV27485062
SNP Position Genomic:     104605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34480):
GTAGAGATGGATGGAGAGACCCCTTCAGATACTAGGAAGAAAATGTTAGCAAGGGCTAGAGGGGAGGTGGACGGCAGTATGTAGAGCAGTGAGAAGCGTG
Y
CTTGGCTGGGGTGGAGGCTGGGAGCAGGGATGAGTAAGGGTAACCTGAAAAAGATAGCTTGAGGCTATGTGGAGGGGAGTCTACAATTTTGGATGAGAGC
Celera SNP ID:            hCV29167521
SNP Position Genomic:     165626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34481):
ACGTTACTATAACCCTATTTTACTGATTAGAAAACTGAGAGGACCAGAGAAGGCAGTGCCTTGTAGCACAGTGGTCAGAACATGGGCTCTGGAACCAAAT
Y
ATCTGAGTTTAAAGCTTGTTTTCTGAACATCATAACTGTGTAAACCTGGACAGATCATTTCACCTCTGTTGGCTTCTGCATTCTCATCTGTAAGTCAAAA
Celera SNP ID:            hCV29167522
SNP Position Genomic:     165048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34482):
CAATTTAAAACCCAGGTAGTTCTCAGTCCACCCTAACTCTGCCCTAACTTACCCCTTCTGCTGTTAGAACCTCCTGTCTCTCAGAGTATCTCACACTTCA
R
TAGGCATTGTCTGGGGTCTTATTCAAATGCAGATCCTGACTTCACTGGTGCAGTAAGAAGTCAGAGAATCTGCATCTGTAACAAGCTCCCAGGTGATGAT
Celera SNP ID:            hCV29167523
SNP Position Genomic:     158481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34483):
TGTTGTGGGACTATCCTGTGCATTGTAGGATGTTTAACTGCATTTTTGGCCCCTATCCACCAGATTCCAGTAGTAACCCACCCTCCACCCCAGTTGTGAC
M
ATCAAAAAGTTCTCCAGACATTGCCAAATGTCCCCTGGGGATAACATTGCCTCCTATTGACAACTACTAGTCTAGGATGACCAACCTTTCTAGTTTTCCA
Celera SNP ID:            hCV29167524
SNP Position Genomic:     158247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34484):
TCTATCCTTAGGGATACACAAAGATAAACCCAAAGGTATTTAGGATGGAAAAGAGGATGATGACCATCCCTCACATCTGCATGAGCCCTGTTTCCAAGCC
R
AAGCCTTTTGTCCAAGGCTCTGTAAGGACCGTTCTCCCACCTTCCCAGTGTCTGAGGCATAAGCTCCTTCTGAGGCCTGACTTGTATCTGTATTTTCTGC
Celera SNP ID:            hCV29167525
SNP Position Genomic:     151901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34485):
TCTCTATCCTTAGGGATACACAAAGATAAACCCAAAGGTATTTAGGATGGAAAAGAGGATGATGACCATCCCTCACATCTGCATGAGCCCTGTTTCCAAG
S
CAAAGCCTTTTGTCCAAGGCTCTGTAAGGACCGTTCTCCCACCTTCCCAGTGTCTGAGGCATAAGCTCCTTCTGAGGCCTGACTTGTATCTGTATTTTCT
Celera SNP ID:            hCV29167526
SNP Position Genomic:     151899
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34486):
AGGAGGGTCAAGGTCGACTTCCAGGTGGCTGGCTTATGTGACTATGATGACAGATGCTAGCACTTCCAAATGAGATAAAGAATGCCTGGAATTCCAGAGG
R
AAAAAATCGAGTGTGGAAAATGCTAATGGAGGTAGTAGCTTCATTGATAACTCATTGGCACTGTTGCTGTGCAGAGGTGCTGTATGCCTCCCATTTAATT
Celera SNP ID:            hCV15983270
SNP Position Genomic:     34398
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,42)   total(G,42|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34487):
ATTATGTAAGATGCCAGAGCACGCAGCATAACTGTAGAGAAACAGGAATTACTCTGCCAGGCTCTGGGAAAGCCGTGCAGTTGTTTTCTCCTCTCTGGGC
S
TGCGCTTCCTGGAACAGCCCCAGCCTGCTTCTGTTTGGCGGTCTCCGCTCACAGAGGACAGTGCTTCCCCAGAAGGAAGCTCCAGGTTCCTGCACCCATG
Celera SNP ID:            hCV29167528
SNP Position Genomic:     150904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34488):
ATTTCATCAAAGGAAGGGCCACTGAGCTTTTACATAGAAAGATTTTATCAGCTGCAAGTTGATTGTCTAGACACAAAGTAGCAAATGGCATTTCTTTAAG
R
TGTTCAGTCATTCAAACTATTTCAGTTTGGTATCTTTAACAATGGAGCAAATGAATGATATTTTACCAATTTTCCATAAATGAATGCATGTCCTGTGATT
Celera SNP ID:            hCV15983345
SNP Position Genomic:     77634
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,5|A,43)   PGA-EUR(EAN-PANEL(G,2|A,44)   total(G,7|A,87) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34489):
CATTTAACAGCATCATTAAGGCCCCCAAATCCCCAAACGCCTCTCAGCTTTCTACTCTGCCACCTTCTCATTGTCAGCAGTGTTTCTGTTCACTGTCTCA
Y
GATGGCCACAGCAGCTTCAAGCATCCCTTCACCTGAAAACACCTGAAAACAGCTGAAAGCAGAAGGGGAAGGACAAACTCATCCATGTACCTCTCTCCTT
Celera SNP ID:            hCV29167529
SNP Position Genomic:     145227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34490):
TAGCGACACAAGCGGGGGCGAATGTCATTTCTCAGGAGTTTTGGCTGGGATGGCTGGAACTGTGCATCATTGCGCTGGGCATCCAGCAGGGAGTTTTCAT
R
GAATCTGGTGGTCACAGGGTACTTTCTTGGCTCCGGATGCCTTGCTTTGACTTCCATATGGGATCTCCCTGTGTTCCTTACCCACTGCTCCAGTACCCGT
Celera SNP ID:            hCV15983346
SNP Position Genomic:     77852
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34491):
TGTTCCTTACCCACTGCTCCAGTACCCGTGTTATCCTGCCTACCTGGCTTTGTGAACAGCTTCCCTGACTCCGGAGAATTACATGCCCAGTGCTCAGGCT
Y
CCCCGCCTGCATTTCTAATGTCCTGCCAAGCTACAAGCTAGTTGGCACCCCCTGTTCTTGGATTCCTGCCTGACTCCCTGGTTTCAAGCCATCCCCTCCT
Celera SNP ID:            hCV15983347
SNP Position Genomic:     78024
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;PGA-AFRICAN-PANEL(T,18|C,30)   PGA-EUR(EAN-PANEL(C,15|T,29)   total(C,45|T,47)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34492):
TAGGAGTCCTACTCACACTTGTGCTGCTGCAAGTGAGAAACTTGACCGTCACCTTCAATTTCAATGTTGGCAACAACAACAAAAGCAGCCACACACAACA
Y
CTGTGAATGCCCAGACCTTAACTGCAGTTTGGGATGGAGGGTGAGAGCAGGAAGGATGCACTCTGTGGTCACCACGCTTGGAGCACATCAGAATCACCTG
Celera SNP ID:            hCV2170283
SNP Position Genomic:     64045
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:34493):
GAGGCAGAGCTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGCAACAGTGCAAGACTCCATCTCAAAACAAAACAAAATAAAACAAACAAA
M
AAAAAAACAGTAGGTAAGCTACATTTGGCCCGCAGACTATAGTTTTCTAACCATTGCTCTAAAGGATGAATGGAGATTACATTGATCATTAACAACTCAG
Celera SNP ID:            hCV27073741
SNP Position Genomic:     56693
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,9)   total(A,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34494):
CAATGCCGCAGCCTACCTTCGGTATTTCTCACTAGAGGATGGCTCTCGCAGCCTTCTCCCTATCATTAACCCTTTTTCGCTCTTCTCCCTCCCTTCCCCC
S
TCAGCTCACCAATGACTGTAAATATATTTATCTATACTTATGGATACCCATTCACACCTTATGCATCCAAACACTCCTGTCTCCTTCTCAGACCAGACAC
Celera SNP ID:            hCV27848875
SNP Position Genomic:     6792
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(C,3|G,37)   total(C,3|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:34495):
TGGGTTCAAGCAATCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACATGCCACCACGCCAGGCAAATTTTTGTATTTTTAGTAGAGACGGG
R
TTTCACTATGTTGGCCAGGCTGATCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTGCCAAAGTGCTGGAATTATAGGCGTCAGCCACCGCA
Celera SNP ID:            hCV2170288
SNP Position Genomic:     153689
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34496):
CTTTTCTCCAGCATGTTGTTAGTGCTCCACATGTCTCTGGAACCATCTCTCTACTCTGGTGGCCTCTATAATGGGGACTCTTCACCTCTTGTGGGTGTGC
M
TGGTTTTTGAAAATAGCCAAGTCTCCAGGAGTCATGACTGGGTAATCCAGGGGATCAAGGGGGAACCTTCACTGGGCCCAGAAACAAAGTCCCCCTTCAT
Celera SNP ID:            hCV27829429
SNP Position Genomic:     7008
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,40)   total(A,1|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:34497):
AGAGCAGCCCCCAAGCCTGCTTTCCACCCCACCTTTACTGAGAAGCTAGGGCCCTGACCAATGGTAGAGGCTACTATGTAGGAAGTGCCTGTACTTAAGA
S
GCAAGGGTGTGGTGTTGTGAAAAAAATATCCAATTTCATGCACCAATGCCCAGATTTTGTGTGATGATAACCCTTCAAGTGTAGGGATAGAAAAAGGGGA
Celera SNP ID:            hCV29167530
SNP Position Genomic:     136429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34498):
CTTGGAATTTTATCCCCTCGTTTTCACTTTGGGATTTGAAGATTTCCACAAACCTCCCAGCTGTCATTTGATAGTTTATGATGCTACGAGAGCCCCTAAT
S
AGGAGATCACTCTGAAATCCACAAAGCCTTGTTTTCAGCTTTTTATTACACTTTATTGCTGCAAAGAAGGAGAAGGAGGACCTCCCTCCACAAGCAAGCT
Celera SNP ID:            hCV29167531
SNP Position Genomic:     134099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34499):
TTGGTTAACTTTTCTTCCCCACCCTGTCGGTACCTAGTAAGTTCTGTTTCGTTAGTCAGCAGAAAATGGTTAAGATTAAAACTGTTCAATGCACTGATTC
M
AATATCTTTGGGTGGCCTTGAAGCTGCTCTTAGCAGAGGGAAAGAGACATCCAGCCATGTGAGTGTCCTGAGGGATGCCAATGAGAATGAATCTGCCCAG
Celera SNP ID:            hCV29167532
SNP Position Genomic:     130010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34500):
GCAAGTTCCTGACCCTGTTATGAAACTCCCACCCTAAATACACAGATAACGTCTCAGCCATGAGTGAAACTAGAAGAGATCATGTGTAACTAATTAGATG
K
CAGAGTGAGAGAAAAGAAACTTTTCCCCGGGTCCTGGTCATTTGAAAAGAAATATTATCCTCAAAGAAAAGTCTTTACTTGAGATCTGAAGTGCAAAGCA
Celera SNP ID:            hCV29167533
SNP Position Genomic:     126620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34501):
GCAGCTATGAATCACTGGACAGTTTAATGAAGACGCTTGCTCAATGTTTAGCTGCAGTCCAAACAGCAAATAGAATACGAGGGCTCAGTGAGGAGGGAGT
S
AGGGCTACTCAGAGGGGCAGGGGGACAGCAATGGTTTGGCCTCACCTTGGAAGAGCTCAGCTTGATCACCTCATTATACAAAGGTCACAGTCAAAATGGA
Celera SNP ID:            hCV29167534
SNP Position Genomic:     109575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34502):
TACAATTTGAGGCCAATGTACCACATTCTATCTACTCTTCAGTACTCTGCAAGAGATTGGAGTGAGGACTACAGTATTAGAAGATGAACAATCTTTGGTA
K
CATGCTTAGGGTCTGCTCTTTCCCTTAAGATTCTCCTACATCTGTCACTCCAGAACCCACCCCCACAACTGGAGGCATATCTCAGTTCCATTGGGGGATA
Celera SNP ID:            hCV29167535
SNP Position Genomic:     98919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34503):
ATTGCTACAAAGGAATATGCTTTTTCTAAATAGGAACTATATTAAAAAGTTCAAAATAAATATTTCAGTTTTGGTTAACTTTTCTTCCCCACCCTGTCGG
Y
ACCTAGTAAGTTCTGTTTCGTTAGTCAGCAGAAAATGGTTAAGATTAAAACTGTTCAATGCACTGATTCAAATATCTTTGGGTGGCCTTGAAGCTGCTCT
Celera SNP ID:            hCV15983425
SNP Position Genomic:     129940
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,6|T,42)   PGA-EUR(EAN-PANEL(C,2|T,42)   total(C,8|T,84) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34504):
TTTGGTTCTTCCACACCTGTGGAGTCTGCACACCGGATTTGCACCCTCCCCCAAGTTTTGGCCAGGAGGCTTCTCACCCCATTCAAATTGCTACAAAGTT
S
AGCTAGAGATTTCCTTCTCCATGTGGAGTTTTATCCTCTGCTCCTCTGTCCACCTTTCTGATGGATCTCTGTGGTGCCAGGCAGGGATGGCCTGCTAGGG
Celera SNP ID:            hCV29167536
SNP Position Genomic:     97846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34505):
TCCAAATGAGATAAAGAATGCCTGGAATTCCAGAGGGAAAAAATCGAGTGTGGAAAATGCTAATGGAGGTAGTAGCTTCATTGATAACTCATTGGCACTG
K
TGCTGTGCAGAGGTGCTGTATGCCTCCCATTTAATTGTTCAAGCAGCCCTCTGGGCATTGGACTATGGCCATCTCCATTTTTCCCATGAGATAATGGTTG
Celera SNP ID:            hCV15983280
SNP Position Genomic:     34462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   PGA-AFRICAN-PANEL(T,10|G,38)   PGA-EUR(EAN-PANEL(G,5|T,41)   total(G,43|T,51) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34506):
AAAGGATTAAGTAATTTACCCAGGTCACACCTGGAAAGTGCTGGGACCTCAATTTGGACCCAAGCAGCCTCTTCTACTTACAATGCTTACTACCTCCACC
R
AGGGAGCCTCCACCAAGGAGATGGTGGAGGTATGAATATGCTTCTGTTTGAATTGATGAGTGTGAATTACTTGAGGGACTTTCAGGTAAACCTGTCCAAT
Celera SNP ID:            hCV15983281
SNP Position Genomic:     34663
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,8|A,38)   total(G,8|A,38)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34507):
CCTTACCCACTGCTCCAGTACCCGTGTTATCCTGCCTACCTGGCTTTGTGAACAGCTTCCCTGACTCCGGAGAATTACATGCCCAGTGCTCAGGCTTCCC
Y
GCCTGCATTTCTAATGTCCTGCCAAGCTACAAGCTAGTTGGCACCCCCTGTTCTTGGATTCCTGCCTGACTCCCTGGTTTCAAGCCATCCCCTCCTCAGT
Celera SNP ID:            hCV15983354
SNP Position Genomic:     78028
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;PGA-AFRICAN-PANEL(T,11|C,37)   PGA-EUR(EAN-PANEL(T,9|C,35)   total(C,72|T,20)
SNP Type:                 INTRON


Context             (SEQ ID NO:34508):
TAAATAGGAACTATATTAAAAAGTTCAAAATAAATATTTCAGTTTTGGTTAACTTTTCTTCCCCACCCTGTCGGTACCTAGTAAGTTCTGTTTCGTTAGT
S
AGCAGAAAATGGTTAAGATTAAAACTGTTCAATGCACTGATTCAAATATCTTTGGGTGGCCTTGAAGCTGCTCTTAGCAGAGGGAAAGAGACATCCAGCC
Celera SNP ID:            hCV15983427
SNP Position Genomic:     129966
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|C,47)   total(G,1|C,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34509):
CTTTAGAAAACAATGATAGATATAATGATACTGTAGACCAGTTATTCTTAAGAACCCCTTGCCTAGAGACTGAGGAGTGATCATGACAAAAATGTCAATG
M
CTATAATCAAACAGTTGATCAACCAAACATCAAGGTGCACAGAAGATGTGCAAGGCACAGCTTTTCTCAATTTTCACACTGATAGTAAGAGTGAAGAAAT
Celera SNP ID:            hCV29167538
SNP Position Genomic:     79910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34510):
CTTCTACTTACAATGCTTACTACCTCCACCAAGGGAGCCTCCACCAAGGAGATGGTGGAGGTATGAATATGCTTCTGTTTGAATTGATGAGTGTGAATTA
S
TTGAGGGACTTTCAGGTAAACCTGTCCAATAGATAATATGAGTCTGAAGCTTCGGGAGGAGGTTTGGGTTGGACAGGAGATAATTTGGATATCATACACA
Celera SNP ID:            hCV15983282
SNP Position Genomic:     34733
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,3|C,41)   total(G,3|C,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34511):
CTGCCTACTGCCTGATGCCCTTGTCTTGGGTCCCCAATTTCTAGCCTTTAGCCTGGTGATTCTATTTATGGCCCAAATATGACAATCTATAGATAGCTAA
M
AAGGGGAAAAGTCATCAAGGTGGGCAGCAAGGAGGTCTGGAAAAGTGTCCCAAGCCCAGTCAGGGCACTCTTCGCCAGCTTGCCTTTGGGTAGGCACCCT
Celera SNP ID:            hCV15983355
SNP Position Genomic:     78250
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|C,43)   total(A,1|C,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34512):
TTATGGCCCAAATATGACAATCTATAGATAGCTAACAAGGGGAAAAGTCATCAAGGTGGGCAGCAAGGAGGTCTGGAAAAGTGTCCCAAGCCCAGTCAGG
K
CACTCTTCGCCAGCTTGCCTTTGGGTAGGCACCCTGGAGCACAGTCACTTGATTGTATCTTCTGCCACTCAAAGAGGCTATTGGTGTGTATCCTTTGGCC
Celera SNP ID:            hCV15983356
SNP Position Genomic:     78315
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|G,43)   total(G,43|T,1) 
SNP Type:                 INTRON;TFBS


Gene Number:                 154
Celera Gene:                 hCG20960 - 79000075510514
Gene Symbol:                 NID2
Protein Name:                nidogen 2 (osteonidogen)
Celera Genomic Axis:         GA_x5YUV32VVQK(699195..775754)
Chromosome:                  Chr14
OMIM number:                 605399
OMIM Information:            NIDOGEN 2;NID2


Genomic Sequence (SEQ ID NO:12314):
AGTGGGTGCTGCTGCATGCAACAGTGGACTCAGCTTATAGGGATCTGTTTGCTCACATGCCAAGGAATATGGTGATGGCAGGTACTGACTGGCTTAGATA
CTCAGCTCCCCTCTGTGTTTTTGCTTGGCCATGCTTTTGTCCTCATTGTTGTACCTCACAGTGAGAAGATGGCTGGCCAAGCTCAAAACATCACCTCCAT
GTTTAAGGTAGCAAGAATGGGGAAAGATACAACTATTCCCTTAAATCACCAACACAAAACCTTTCCAGAAACCCCCAGACTTTCATGAGATGTCTGGAAG
TTAGATCAGGACTATACCAAATGGCCACCTTTGGCTGCAAGAGAGACTGAGAAAGTAATAATCTTACTTCTATAGTGATGGGGGCCAGGGAGAAGGAGGT
TGGAAGTAAGGGTTGAAGAAATGAACCTATCATTTCTGCCACAAAAGCTAGCAGGTGACAGTTGGTGAGGACCTGAGATAGGCCAACGGTAATCGAGAAA
GGGCAAATATTGTTGCCATGGACTAAAATGGAAAACTCAGAAATACTGAGTATTGAATCTAGTTATGCTAGATGAAGACTTAGGTATTGTCTCGGGGAGA
TGTTCAGCAGGGAGCTGGATGTTAGTTCTAAACTTAAGTGAAGGCTCAGGCCTGGGGATATATTTGAGAGTCATTAGAATATAGGTGGGAAGCTGGGCCA
TCAGAGGAGTCAAGACACTCCAGGACAGCATGACATGAGAAGAGCAGTAGGCCATGGTCATGCCATACATTTAGACATCGGAAGCAGAGCATGAGAAATT
CACAGGAGATACTACAACAAAATGGCTGGAAAAGTCAAGGGAGTAGAGAATTTCTAGAAATGAGTGGTCAGTAGGATCAGAAACTAAAAGGCCCAGTAAG
ATAAAAACAAAAACTACCTATAGGGTTTGGTAATATGATTTTGCTGTTGGTCTTTCCCTGAGCAGTTCAGTGATGGGGTTGGGAAGATTATTTTTGCAGT
GGAAAGAAGGAGGCAGGAAGTATAAATTCCTTTCCAGTAGAGTTTTTGAAAGTAAGAGAAATAAAACTAAGGCAACAAATAAGTAGGGAAATTTGTTTTT
TATTTTTATGGGTAAGACTGGGCAGAGGGGATTTAGAGGCAGAGGGGAAGAGGCCAACAGGGAGGGAAGGGTTGAAGTTACAGGAGACTGTATCACTATA
AGGGTGAAAGGCTTAATCATGATTGGCTTCCACCAATCTTAGGGCATCTGCCAGGGCTGAGGAAGCAACCCATCATTCCCGGGCTTATTGCACCCTTTAC
CTGAACAATATGGGGTTTCTAAAACCAAAAAAAAAAAAAAAAAAAAAAAAAGAGGGGATGGCTGTTGGGARAGGTTCCAATAGTGTCTGCCACACCAACC
CTCTCTCTACTTAAAAATGTCACAGCAGAATTGCATCTGCAGTGATTCATATCAAAAGCTTGAACAGTCTTTTCATATTGCACATTTTAATTTAAATACT
TTCTCACTTCATGGTTCTCCTTAGGCCTAACCTACTTTCAATTAAGCCTGAGTCTGTGAAGACATACTAACTTGTTCGAGTCTATTTTCTCTACATGCTA
GCACACACACCCTGGAATTTAATGGATAGTAAAATTATGCAAAGAATCACTGTGTGCAACAAGAACTGGGACATTTCCTGCCAAGCCCACCTCCAATACA
AACATGTACACACACCCATCGGTGCTATACATAGAACTTGCTCTTAAATACCAACATCCATTTGCCACACTGTGGAGCAAATATGCTTCCATTCTCATGA
TTAAAATAACAGGAAGTATCATCATTCTTGAAGTCTTGGTATTTATAACAACAATATAACCACAAAAAATATGTAACTGTGGAGACTCTTGATAAGGTCT
ATTGGCAAGGCATCTGGTAGCATCCTTGGCTTGATGAAAAGCCCTGTATCTAAATAATCTTACTTTTCAAGCAATGCTGTGATGTACCCTGAGGATCCAA
TCCAAGAAGGGTAAAAACTGCTACAGACGTCCTCTATAACCTCCAGCCTGAAAGGGGCCTYTGCCTCTTCAGCCAGTCTGGCAGGTCATGGAAATTCTAC
TCTTGCAAAGAGAGCTGTGGATACAAGCAAAGTATTTCTTCAGTATTTACTTTGACTGGTGAAAGAGCCACGGCAGATTTTTTTCTTTTTCCCCAAGACA
CAAAATGACATTTTAAAGAAGAAACCACTCTTGGTGCCATAGCGTCTTTTAAAAATAATATCAGAATAAAAGCTCAAAGGCATGTTCTCTTAAGCACAGC
TGTCCAAAGCCTCCTATTTCAGGGAGAATTCAGCCACTTTATGCAGACAGGAAAACAAAACTGTTCGTTTTAGCATCTTCTCTATTGKAACTATTTTTTT
GTACTCAGATTGCATCAGATTCAAAACTAGTGACATCCTCTTATGCTCTGTTTCCCCAACCAGATCATGAGCTCTTTAAGGTTAGGGGCCACATTTTGTA
CTCCTTTATTTCTTGCAGAGTTGTGTTTGTCATGGTGTACTTTCAGGAAATTGTTGTTGAATGGATGAATGAATGAAAGAATGACAAAAATGGGAGAGCA
GTGGTAGGTGAGTTGCTAGGCAGCCTGGTAAAGAGGATTACAAGAGTCAGGTCAGATTAGCAGGAAAGGTGGTGTAGGGGAAAGAATGTTGCATTCTGAG
CCAGCAGACATGGGTCCTAGTCCCAGGCTGGCTTGCTTGTCTTCACTCATTCAACAAACATTTCTTACACTTCAAGTGAGCCAGGCAGGCATTGCGGCAG
ACACTGAAGAAGGCAAAATCCCTGCCCTCCAGGTGTGGTGGTGGTGGTGGTGGTGATGGTGGTAAGGGAAGCATGTGGAGATCAGGATTATGGGAGAGAT
GTGTGATAGGAGGTATGATCACGGCAAGCACAGGGCACATGGAAGCAAGGAGAAAGGGCTTCTAAATCAGACTGTGGATTCCAGGAAAGCTTCCTCCATC
TGAAAGGAAAAGACAGAGGCACAAAATATAACAAAACATTTACTTGAGCCAAAGTGAGGACAGTTGCCCGGAAGACTTAGACCCAAGTAACCCTGGATAT
GAGCTTCATGCCGCCTTTATTACAAGCAGGTTTTTTACAGGCAGAAAAGGGGGACAGGGAGTAGGCTGATATGAAATTGTTTGTAAGGAATTCACATTGG
TTTACAGAAACAACATTGCTCACTGATTGGCTATGCACTGTTAAGCTATAGGCTATGAGTGATAGTGTCCAGTGTGACATTATTAGGTTAATGTATAGTT
ACTTGTGGCAATAGCAAGCAGTTTCAAGGATGAATACATAGCTCAAAAGGGGGCAGTAGTGTTACTGGAAAGAGTTCCTGATCCAGACCCTAAGAGAGGG
CTCCTGGATCTGGTGCAAGAAAGAATTTGGAGTGAGTCTACAAAGTAAAGTGAAAGTGACTTTATTAGATARGTAAAGAAACAAAAGAATAGGCAGAGCA
GTGGCGTCGGCTGCTTGACTGATTATACTTATGGTTATTTATTGATTATAAGCTAAATGGGGTGGATTATTAATGAGATTTTTGCAAAAGATGTGGGGAA
TTCTTTTCTCTTCCCAGATTCCTGAAGGAGGAGGGTTTTGATTCAAGCCTTAAAGATGAGAAGGTGTTGGCTTGAAATTGACCAAGAAATTGACCTTTTA
CTGTAGGTAAAAGGACTTACCTGTGAGGATGTTGTATTGGAGAATTAAAGTCTCAGCTTCAGGTGAGACTTCAGGGTGGCTGTGACGGGAGATAAAGTTA
GAGACATAAACTAGAGCTACTTTCCAAAGGGCCTTGCTGCAATATAATTTAGTGGTTAGGAGTGGAGGTTTAGAGATCAGACAGAATTGGGTTCAAATCT
CAGCTTTGGTACTTACCAGCCATGTGATAATAACTGATTTTTTTAAAATCCCATCTGAGCTTTAGTTTCCTTAACACAACGACTACCTGTTATCAGTTGT
CTATTGCTGCATAACAAATTATCCCAAAATGTAATAGCTTAAAGCAACACACAGCTTCTTCAGCTTCTGAAGCTGAAGCTGTAATTCTCAGTTTTGGTTG
GTCTGGAATCCCACCAAAACTATAATTATAATCTAACCAAAACTATAATTCTCAGTTTTGGTGGGTCTGGAATCTGCACCTGGCTTAGCTGGGTCCTCTG
CTTCAGGGTCTCTTGCAAGGCTGCAATCAAATGTCAGCCAGTGCTGAGATACCATCTCAAGACCCAACTGGGGAAGGATCCGTTTCCAAGCTCACTGACA
TGGTTGTTGGCAGAATTCAGTTCCTTGCTGACTGTTGGCCAGAGGCTGCCCTCCTCAGTTCCTTGCTATGTGGGCCTCCCCGACATAACAGCTTGCTTCA
TCAAAATCAATGAGAGGGAAAGTCAACTAACAAGGAAGAAGCCACAATCTTATTTAGCCTTCTTCTCATCACTCTTGCCACACTATGTTTGTTAGAAATC
ACAAGGCCAGTCCACACTCCCAGGGCAGAGATTATACAGGGGAATGAACACCAGGAAATGGGGATCATTGGAGACCATCTCAGTGTTTGCTTGCCCCAAA
GCTCATAGCTTAGTACCACTAAATAAATGTTAGTTATTATTATTATGCTGAATCGAGAGATAAAGTAAAACTACAGAGGGCCAGTAGTTTTATATCAGGG
AGTAACTTCAGATGATGTTGGGCAAGTCAAGTCATCTGTCTTTGAACTTTCATTTCATCCTCAGTAAAATAAAAATACCTGACCCCAGAAAGAATGAGAA
AATATATGTGCAAGCATAAATATATTTTTGGAACATCAAATATACAACTCTCCACTCTGAGGAAGCAAACTGCTTTGGGCCAGTTTTCCATTTTGTGTCT
GCTCTATGAGTCTCACAGTCTGATGTCTTCACGTTTTTTAGCGTTTGGTCCAGTGGGCCCATAGGAATAAACACCTACAAAGAGCAGTGTGTCTCTGGAG
AGTCCTTTAAGGCATTTCCAAGGATTTGCTTTTTGGTTTTTTTCTTTCTTTCGTTCTTTTTAAATATCTTTGCTTTTAAGGACCTCATGGGGGGCCTGGG
AGAGAAAACAGACTGTCTGGGAAATTTTAAGCTCTTGATAATAAAAATGGTAATAAAATCTCCTCCAGCTCCTGAGGCTTCGCAGAGGGGATGTTTATGG
TGGATGGGGTTCCCYTTCTCCTGCGCAGCTGGTTTCGAGGTTGTGCGGTTTCCAGTCCTGCRGAGCAGCTCAGGTTACCGCCTCCGTGGCCGCGGGGGAG
GGCATCTCCGACGGCCGCAGCAATGGGCAAGAGATCAGGGTCTTCCCATCCCCGCGACTCGCCCCTTTCTGCCTGGTAACCAAGCGGGATGCCTCATCCT
ACTCCCCAAACGGAGCGGATCACACACAGTAGTGTTTCATGGTCTTTCCTGCTGCGGTTTTCCCGGGGGAAGGTACTTCCAGAGGGTGGCCAAGTCTTCC
CTAGCGGCCGGCCTTCGGGAGGGGGACAGAACTTAGGAGTCAGCCCTCTGCCTTCGTACAAAGGCTCGCTTCTCCTCAGGGCGTCTCTGGGTGGAGCGAA
GCGGCCGAGGGGACCACGACAATGTCCCTTTGCTTTTCGGACCGATGGCCAGGCCTCCAGAGCCAGGAGCGCCCGGGACCCCAGGGCAGGGAGCAAAGCT
CATACCGCAACCCCGCCACCCGCCCGCGCCCTGCCAGCCTGTTGGGGCCACAGCGCGCAGGCCAGCAGCCGCACTCGCCGCTGCGGGGTTCCCTTTGCGC
TGAGCTCATCTCCTGCAACGCCGCTGCCCCAGACCTTGCGGGCCATTTGGTCCCGGGGGTGGGGCTCCTTGGGGGCCGCGGGGCAGCCCGGATGAGAGGA
TGACCCGGGAGCTCCCTGGGGGCGGAGTGGAAGGGGCAGCTCCAGGCAGCCCTGGCCAGGAGCTTTTACCCCGCCAGCCCCGCTGCTCCAGCGGCCGCTG
CCTTAGAAAAGTTAACGAGAACCAGATGTGGTGGCCACTGCCGAACTTTCTCAGAGCCGGTGATTGGTCCCCAGCCGAGGGCCTCAGCCAATTAGCTTGC
TGGGTGGGCCTGGAGTCCCGCCCCGCCCAGGCGCCCGCGGAGATCCAGGTTCGAGGCTGGCGCGGCGCGGAGAGTGGGCTGGAGGCCGGGGCGGGACGCG
TTGTGCAGCGGGTAAGCGCACGGCCGAGCGAGCATGGAGGGGGACCGGGTGGCCGGGCGGCCGGTGCTGTCGTCGTTACCAGTGCTACTGCTGCTGCMGT
TGCTAATGTTGCGGGCCGCGGCGCTGCACCCAGACGAGCTCTTCCCACACGGGGAGTCGTGGKGGGACCAGCTCCTGCAGGAAGGCGACGACGAAAGCTC
AGCCGTGGTGAAGCTGGCGAATCCCCTGCACTTCTACGAAGCCCGATTCAGCAACCTCTACGTAAGTTCAGCCCCCTCCTGGCACTTTTCCCGCAGCTTC
TTCCCTGGGGTCGGTCTCACGGAAACCCTGYCTCCAGAGGGGAGGAAACAGACCCCACKCCTGGAGCCCCCCAGCACCCTTGCGGTGGTACCCGGCCAGA
GAGCGATGCCGCTGCCTGCCCCGCTGCTGTAGGGGAGCAAGAATGACCTGGAGGGGAGAGCAAGAATTGTTCGCAGCCACGTACGCGTCCCAGGCAGAAA
AGGTGGCGTTGCTAGGGCGGCCAGCGGGCTTTGCAGTTAGGACCGCGAGAAGGCTGTGCCCGTCTGCGGAGCTGGGGTGTTCCCTCTTCAGACCTGGAGG
CTTCCTCTCCGAGGACATGGGGCTCCGGGGTTGTGAGGGGAGTGAGAAGATAGGTGAACGAGTTTTAGGGCCCCTGGACCTACTGCAGCGCGGAGCTGGG
ACAGTCGCAAAAGTTGCGCTTGTTTCCCTGAATCCAGACTCCCTGGCCRGTGGGGAAGGAGAGAGAGGCTTTTTGCCTAAGTCAGTTCCCTTCCCTCCCT
GCGCGAAAGGGTAGCGTCCTTGGGCTTGAGCRACTGTCACCTTTTTGTCCCTCTCCTCTCCCAGGTGGGCACCAACGGCATCATCTCCACTCAGGACTTC
CCCAGGGAAACGCAGTATGTGGACTATGATTTCCCYACCGACTTCCCGGCCATCGCCCCTTTTCTGGCGGACATCGACACGAGCCACSGCAGAGGCCGAG
TCCTGTACCGAGAGGACACCTCCCCCGCAGTGCTGGGCCTGGCCGCCCGCTATGTGCGCGCTGGCTTCCCGCGCTCTGCGCGCTTTACCCCCACCCACGC
CTTCCTGGCCACCTGGGAGCAGGTAGGCGCTTACGAGGAGGTCAAGCGCGGGGCGCTGCCCTCGGGAGAGGTAAGTGACCAGGGATATTTGACTGCTGAG
GAAATTGAAGGATGRGCTTAAATTCTGGGGCAGCGACCCAGGGACTGGCTCGGAGTTGTTTCTGAGCCTACTCTTGCGCTGAACCTGACCTTGGAGGCAG
CAGGGCTGGAGTGGCTTGGGAGTGAGGAAAGACGTTGTCTCTAGGCATCTTCTGAGGCCCTRGCAGGTGGTCACTCCCTTGAGGAAAAAAATGCTTAGCG
GATATGAGAGCGGGAGTGCAGATGTGGGAGCCCCTTTGAACATAAGGCAATTTACTGTTTGGTTGCTTATTTTTAGAACCATCTCTAAGTATACAAGTAT
TTCTAATTATATGTTCATTGAAGGGGAAAAAATCAGAAAATACAGATAATTTTAAAAAAGAAAACAACCACTCATTTTCCCACCACTGATAAACATTTTT
CTGCGTACATTTTCAGAGTTTTTTCTTCTGCATATCTTTATTGCTGTCTATTAACAATGATGAGTTTACACTGCACATACTGTTTTATAACTTGCTTTTT
TCACAGAATAGTGTATTGTAAATATGTTTCAATGTCAATAAATGTATTTCTACATCATTTATAATGATGCATACTACTGTATCCTGCTATTATCCTGTAT
AATAGTGGGTGTACCACAGTATGCTCAACCAGTGTTGGGCCATTAAGGCTTTTTCTGGTTTTTCATTATTATAAATAATAGCGTGAATCACTTTTTAAAA
AGCTAAATCTTTGCACATGTTCTTAGTTGACATTCCAGGAAGTGCAATTGGTAGGTCAGAGAGGATGCACTTTTGRTAAAGTTCTTGATAACTTCTGCCT
AATTGCCTTCCAGGTACCAGTTTACAAGTTTCTTAGTTTATAGGAGTCTGCCGTCAATGTGCTTTACAGTCTCTACCTGCGGAAAGTAAAAAATTCCAGG
CTCCTGGTCTTTAGTCTTGTCATCAACATTTGAAGTCCTCCAAATGGATATGAGTGGGGCCAGCGTGCTTGGTAAATGGCAAACTGCCTCATTCCTGAAG
AAAGTAAGGGCTTCCTTCTATGGAATTAGACCTGAATCTAAAATACCATACTCTAGGGGCTGAAACCATATGATTCATCTCAATTTTAACTTACGGAAAT
GCYTCTTCACTATAGAAGGATGGTACATGCCCCCTGTAAGAGGTGAGGTTGCTTGCCCATGTCACTGATCTCTATCTTGTAAGGATGCTGTGACTTATAT
CTTTTGTATGGGGACTCTTTATTTTTTAATTTTTGAGGGTACATAGTAGGTGTATATATTTATGGGGTACATGGGATGTTTTGGTACAGGCATGCAATAC
GTAATAATCACATCTTGGAGAATGGGGTATCCATCCCCCCAAGCATTTATCCTTTGTATTACACACAATCTAATTACACTCTTAGTTATTTAAAAATGTA
CAATTAAGTTATTATTGACTATAATAACCTGTTATCACAGGTTATAGTCACCCTGTTGWGCTATCAAATGGTAGGTCTTATTCATTCCTTCTATTTTTTT
TTTTTTGGTACCCGTTAACTGTGTCCACCTTCCCCTGACCCCTACTACCCTTCCCAGCCTCTGGTAACCATCCTGTTACTCTCTATGTTGCATAAGGACT
CTTTAAATGCAAGGTTTTTGGAATTAAAACTTTTGTCTGGTCCTTTTCTGGGGTGGGGGAGGTTTAGGGTAGAAGAGATTTGTAAATTCCATCTCTCTTT
TACTTTTCTAATTAAAATCCMCCTGCAGACATTACCATTTGCTAGTTGGCTTCAGAATGTTTCATTAAGAAAACTAGAAATACCATTTGACCCAGCCATC
CCATTACTGGGTATATACCCAAAGGACTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTT
GGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCTTAAAAAATGATGAGTTCAT
GTCCTTTGTAGGGACATGGATGAAATTGGAAACCATCATTCTCAGTAAACTATCGCAAGAACAAAAAACCAAACACTGCATATTCTCACTCATAGGTGGG
AATTGAACAATGAGATCACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTGGTGGGGTTGGGGGAGGGGGGAAGGGATAGCATTGGGAGATA
TACCTAATGCTAGATGACACGTTAGTGGGTGCAGCGCACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTAAAAC
TTAGAGTATAATAAAAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAAAAGAAATGGGAAAAAAAAAAAAAAAAAAGAAAGGCAGGATTCTGT
TTGGATAGGGGATGTTCTTTCAATTACCCACATTGAAGTTTCTTCCAATATTTTAAAGAGCTCTGGGACTTGAGTTCTTGTTTTAATAGTTCTTTGGAGA
TAGACTTTGGCAAACAGTAATCTAATTTGCTTGAAGGACTGAGTTCTACATGGCGTTCTTAAAKTTTGGCTTACTAACTTTATATTGCAAAGTTACTGGA
AACTGGAAGATTCAAAGCAATGGCATCTTTGCCATTAAAAACAATTGCAGTTGGTGCCCTTTTTCTCCATGGATATTCCTGTCAGGTGTGACCAGATGTT
GCACCTGATATTGCAGGAATGTCAAGGTGTAATTGTATCTGAAAAAAAAATGTGAACAAATAGTGTTTGTCAATTCAGTTAATCTGAGATTTCTTGAACT
CTCATAGGTAGTTCACAGAGCAAAAAAGTTATGGTGTAGACCTTTGAAATACTTATTGATGGGAGACATAGAGGACTAATGTTTAGCTGTGCTTTTTGTG
GGGAAAGAGGAGTGTTTTGTTTTTGTCATTTTAGGGATGGGGTTAGAGACAGCTGAGTTATATAGATCTCTGTAATGTGGGGAATRTTTTGTTTATCTGG
AATTTAAGTCAGGTTGAAAGGGCTAAAAAGAATGGATATTGAGAATGAGGTATCAAGAGAGATTGTTCTGAGCAAAAACATGACCCAGGAGAAGGTTGAG
AGAGCAACCTATTAGCAAAGGGGCCAGAGAAATGGATGAAGGAGTCACAGGCAGTAACATAAGACAGATGAGTGCAAGGTTGCCCGCTATGGTTGAATAT
TTGTCCCCTCTGAAAATCATGTTGAAACTTAATCCTCAATGWGACAGTATTGAGAGGTGGGGCCTTTGAAAGGTGACTGGGTCATGAGGGCTCTGCCCTC
AKGAATGGATTAATTTATTCATTCATGGATTACTGGATTATCATGGAGTGGGCCTGGTTGCTTTATAAGAAGAGGAATTGAGACCTGAGCTAGCACATTA
GCACACTCAGCTTTGTCGCCATGTGATACCGTAAGTACCCTGGCACTCTGCAGTCACCACTAGCCAGAAGGCCCTCACCAGATGTGACCTCTCAACTTTG
GACTTCTCAGCCTCCATAATTGTAAGAAGTAAATTCCTTTTCTTTGTGAATTACCCAATTTCAAGTATTTTGTTGTAAACAACAGAAGACAAATTAAGAC
ACTGCCCAATGGAGGCCTCCATCTGGGTGGAGACTGAGACATGTTGACTTGGTTCAAAGGTTGATAGTCATTGATGGAGGTGGTTGGATTTCACAGAGAA
AATGAGAGGTAAAAGCAGGACTTTATTGTAGCTTTTTGACTTCTGGAGACAAGGTTTAGAAGAGGGGTGGTCTACAGCCCATCCAAGAGAGTTCAGACTG
AGTCTGAGATATCACTGTGAAGATGAAGAGAATAGAGACATATATGGAAATTGGTTAATGCTGAACCATATATGGAAATTAGAAATGCTGACGTTTTGCT
GAAGAGTATCAGGAAGGATATAGTATTAGGGATGTGATAGCACTCAGCATTTGTCTTTGAATTTTTGGCAGGATCTGTAGGATTTAGTGCAGTAAAATAA
ATGAGGGACAGTCCCCCATGTGACAGTGTCCTACAGGCAGTGGGAGATGAAGAACTACACTAAGGAATGGAGGTTAGTGTTCACAGCAAACACTGGAGGC
CAGACCCAATGATCCTAGAGCTCTAGAGGACATGTGGTCCTGAGGAAGATGACAAAGAGAACTTTGTGACCCCTATAAGAGTCACCCTAATTCTTCATTT
CCATTTTCATTTTCATTTTGATAAGCCTCTATAGGCAAGCCCCTTGAAGAAAAGGATGTCACTATTCTGATTTTTGKCCAGATAGCTGCAGTTAATTAAA
TGAATTGAAAAAATTAGAAACTCTTAGAGGGGTGTATGTTGCATGCATCAGCCTGGCTCTGATGAGTGTCACTTCAACATTGATTGGGATGTCCTGTACC
TGGGAGGGAGAGTCAGGCTCTGGTTTCTGCAGAGGGCTCTGGCTTTTCTCTCTTTCTGATAACAGGGCCTGCAGCCACTCACCCTGATCCTCTCTGTGCT
GCTCCTCTCCCTGTGGAGGCCCCTCTCTCCTCTCTGGGATCCTGGGGGAGCTGGGAACCAGTGACTCGTTTGTCRGGTTTGGCAGCCCATCTGAGGGCTT
CTCTTTGGAGACAGAGCCTGTGCGGCTCTTGCAAARGCTTGTATCTAGGAATGTGAGGACCTTTCCTGTTTGGAAGCCAGTCAAGGAGTTTTTTGRGAGG
GGGAGCCCTTCAAGACTTCATGAAGTGGGCTCTTTAGCAATTAGATGTAGAATTTTGTAGAACTGACCAAGAACTTTACAAGTGATCATTTAGTGTGTGG
GTGGCTTTTAAACAGCCAAACTCTTTTGGCGTGTACTTTGGGATCATAAATTCTACTTAAAAGGAAGTTGTTTCCTTCCTCTGATATTTGCCTATTTTGG
TGGAGACAARGAAATTAAATACTTGCCACCCATAATGAGTGCTCATCTCAAGAACAGTATATAGAAGATGTTGAATAAATTTTAATTGAAATGAATTTGT
TGGCTGGTTGAMTGAATGAATGAATAAAATAAAGTGSTAAATGCCCAGAGTTCACAGCAAAAAGTCAGACTCTCCTCTTCWCAGCTCTGTTTACTRCTCT
CTTCCCCCCTTCCCCATCCCCTTCAATTCTTCACAGTCTCTACAACCTCCTTATCTTATGGAATTTCTCTAAATTTAGAACCAGGATTCTCTCCTATCTC
ACATTTATTATGGCAGATCAATGCCAGGAGCTTTGAAAGCTTAGCTTTTTGAAATGGGGTTTTTTCTCCTTCCTCTAGTACTTTTCTTTCCCTAGTTGAT
TTTTCTTTATTCTGACTAATGTATAACTCTGAAGTTATTGAGTCCACATTAGTTGATGATGTCGACTATCTTATGGATAGACATGAGGCAGAACAGCCTT
TGTTTATATTTGGCAGTAGTTGTGGCTTCCTAGTATTGAGAAGCTCTAAAAACATTTCTTGCTTTTTGTTTTTGGRAAAGTCAAGCTTTGCTGATGAACA
ATCAACAACTGGAACAATAACAAATAAACTAGGCACCTGTTACTTTGTGAATTGAATGAATGAAAAAAGCAAAGCAAGATGTTGTTTTTTCTGGGTTAGA
GAACTAAAAGAACTGCTGATTGTATTTTATTTTCTCTTGAAAAGTGTGTTACATCTATATTTCTTTATCCTATTAGCAAAACCTCAAAACCTTACTTTGA
AATTAAACATTGAAAGGAAAAATTAACATTAGAAAAGAGCTRGAACAACTGTGGGAGTAGACTTAGAACAAAGGGAAGAGCCCATTCCTTCCTTGCTGTT
TCCTTCAGTGAAATGTGATGTTCTTCTCTGTGCCCGAGTTTGTCTGTCTAGCAGAATGGAAAGGTAATGATACTTACCAGTAAATAATATTTCTAAGAGT
CACATTATTTRTGAAGTAAGTTGTGTTTTAAAAATACCTTCCCAGTTCCTTACTAAATTGTAAAAGTAGTGTGATTTAGTGAGAGAGAGACAGTTTCAGA
AGCCTAAACATAACAGCTTTTTGAGAATCAAGCACTGTTCACAGATCTTTAGGAGGAGCGGTCGCTGAATGAAGGTAAAGGCAAAAATCTCATCTTGTTG
AAAATATGAGGGTAAACAGAATGTTAAGGAGTGATCCTATAAGGACCTGGGTGTTGAATTGGCAGCTGATTCAGGCTCCTGGTCCCTCTCTGGTCTGTGT
TGGCTCCTGCAGTGTTTATAACATTCACCAGCTGCCTCTGTGACACCTCCCAACCTCCACCCTGAGATCCTGGACACACACCCCGGCTCTTGGCCTCTAC
CACCTTCTCCAGTGACTCTCCTACCATTTCAACCATGGCTGTTTCCCAGTCCTACACCGTGAGACTCTCCTGGGCAAAGCCTGTCTTTTGCTCCTTCACA
TCCTCAGCATCAAGCATAACGTCTGGTGCTTAAGTAGACACTTGGCTGTTTGAATTAGTGTATGAATGAATAAATGAATGGTGTTTACAAACATATAAAC
AACTAACCAAGCATAATGAGGTGAATGCTCACTAGAGATGCCCATAAAGGTGTTACAGAGGTTCAGAGAACAGAAATTATTCTATRGGGAATCACAAACA
CCTCTGAGTGGCAGCATTTGAAGGTTAGGAGGCTTTCTAGGCACAGGGAACCACGAACAAAGTGTAGAAGCATCCAAGGACATGGTACAAATGGGGACTA
TTAAATAGTCTGACAAAGATGCAGTGGAACTGAGCCTGGGAGGGACGTATGCAGCCAGGTTACAACTCACCTTGAATGCCATGTTGAGGAGGGGTTAGGG
TGTCCTAGGGTGTGGGCTCTAGAGCTGGCTGGCCCACCACCACATACTTGCCACCTGACCTGAGGAAGACCTGTTAGCCCCTGTGTCTTTTTCTCATCTG
TGAAATGAGGATAACCCTGATGCTCGTATGAAAGGGTAGATGGAAGAGGAAAGAGAGTKATGCTGTGAGACAGTWAGGAGGCCTTTTGACCAACTAGTGC
CTAACACAGTGCCTGCCCATAGTGGTCATTTAATRAATGGATGAATGAATGAATGAATGAATGATGCAAATGAGAGATGCTGAGTGCCTAGGGTTATAAA
CTAGGGCAGTGACTGCAGGATGGACAAGTTAATTTTGCTGATTGCTCTTAGCTCTGAAAGAGTTTACATGAGAGAAGTTTGAAACCTTACAAAGTATATA
TTTTTTAACCTATGTTTTACCAATGCGTATTTCAACTATTAATCTAAATTGACAAATGGTATTTGCAATAATAAATAATATTGCTTATGAAATTATATTG
TTAACTTGAAGAGGAAATTTTAAAGAAGGTTATGTTTAAAAACAATTTGGAGGAATCCTGAAAAAGGGKAMRTTCTTTGCACGTTATGATGCTTTGCTTG
CATTCTGTTTCTTTYTTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTCTYTTTTTYTTTTTTTTTCCTCACAGCTGAACACTTTCCAGG
CAGTTTTGGCATCTGATGGGTCTGATAGCTACGCCCTCTTTCTTTATCCTGCCAACGGCCTGCAGTTCCTTGGAACCCGCCCCAAAGAGTCTTACAATGT
CCAGCTTCAGCTTCCAGCTCGGGTGGGCTTCTGCCGAGGGGAGGCTGATGATCTGAAGTCAGAAGGACCATATTTCAGCTTGACTAGCACTGAACAGTCT
GTGAAAAATCTCTATCAGTAAGTAACATTGAGCTGAAGCCCTTTCCTATTTGAATATAAGGACTTTTAGGAAGTACCTGAACACAAGTGACCATAAGACC
ATTACATAATATATTGGTGGCTTCTAAGTAAGGCATCAAGTCAAAACCAAGGAACTAGATTCAACCCTGGAAGGATCAAGTTCACCAAAACATAAAAGGT
CCTTTATTTTTCCTGCTCTATTGGGTATAGATACTGGAAACAGAACAGTATGTGTGTGTATTTGTAGAGCCACTGAGGCTTGCTATGAAAAACATTGCTC
TTGGAACCACATAAAAATATCCAGTCATAAACTGCCCAGTTTGAGGTTTTCCAGATTAATCATTTCACAGGAGGAAACATTGTGATTTAGTCTTTTGGAC
AGATACTGTTAAACATTAAATTGAGCAATGTAATTTGCAGGAAAAATAACTAAGATTTATAGGTTTCCAGAAGTCTGAGGATGTCTCTCTGGCTTCATTA
CCTAAAATGAATTGAACCCATTCCTTAGACTCATCAGTGTCTGCCCATAATGGGCATTTAATAAATAGATGGGTGAATGAATGAATGATCCAGAGGGCTT
ACTTAGCTAGTGCAATAATAAGCTCTTCTGCATTTTGCCAGTACAGATAGTGCCAGTAGGATATTTATTGACTTCAGGGTTTTTTGGGGGGTGTGTGAGG
GGAGGTAGGGGTGCCCTCGCTTTTATTCGTTTCCTGAATATAGAAGCCAGATAGAATACATTGGTTACTTCCTGGCCTCCTTTAACTGCTTCTTGACTTC
ATTAAATCAATCCTGGGTAGGTATAGAAACACCTTACACTTTTAGCATGCCATCCACTCTGCTCGGCTACCAGAAAGAGACCACTATAGCCAGGTTTGCT
TACTCAGAGCTGACATTTATTGAAAACTTACTACTTGCCAAGCATCATGCTAAACACTTTCCAGATGTTATCTTAATTAAAACTCACAAGAATTGTAGGT
TAGTACTACTATTTTCCCARTTTTACAGAGGAGCTTAGGGAAGTTAAGTAAATTGCCTATGATCTCAAAGTKAAGTGGCAAAGCCAAAATCCAAGCTCAA
GTCTGGAGTGCTGAACTACTTATTTTATCTTATGCTGAGTCCTTGTTTCCTTTCCCATCCTTATGATCCACATTGGGCATCTTTAGGGCTCCATCTAGGC
TGCCGCTTAGTCTGGACTCTGGAGCAAACTCAGTTCCTTACTCTCCCKCCTCTGGTTCCACCCTCTCTTCTACTTGGGAGCTCATAGATTTATTATYCCA
TAGATTTATTATTATAGAGAGGTCACAATGGCCAAGCACATGGAATACAAAGATTTCTAAGACACTGGTCCTGCACATCAGCAGCTTGTACCCTATTAGG
RTTGATAGACAAATAGATMAACAATTACAGAGCCCTGGGTAAGTGCTGGCRTCTACACAGGAGACAGGAGACAGTGGGGCCAAAAGACCTGTGGGAAAAA
GCAGTTGTGTTCCCTGAGCAGAGCCATAAAGGTCTCTTGGAACTAACATCCACAATCACGTGTGACACACAAACACACAGACAGCATTTCCACTTACCCC
CTTTCATGCCTTCCCTCATTTTTATCTTTGATACTTCCCAGAAATCTCTGAATTGCTTGGCGAAAGCAGAGTAAGATATGGGGCCAAATGACTCACGTAT
TTTTCTTTATTGTAATCCATGCTTAATACAAATAATAAAGTACAAGCAATGCAGAATAATGTGAAATAAAAGTAAAAGTTATCCATGATCACTACTTCAA
GTGATAACAAGTGTTAATGGTCCTTCTAGAATTTAGGTATATACAAAACTTTTAAAACCAAAATGGTTCTTTTGCTATGTAAGTGKTGTTTTCACATTAA
TCACTTCTTATAGGGGTCTTTTAGTCAGATGTCTGTCTATACTACCATTTTAAGGCTACAAAACGTTATGTCATATATGTATAAAGACAGCTTATTAATG
AACATTTCATGTATTTCTGATTTTTCTTGTTATAAATATCATTGCAGKAAACAGCATAATAAACATTGCTCACATTCTCGTTTCTCCCTAAAACAAATTC
TTAAAAGTGGAATTGCTGAGAAAGGGTGTATGATTTAAAAGTTGTACATTTCAGATTGTCAAAGTTACTGGTCTTTTCCTTTCTGATTTTGGATCTTGTT
GTTATTCTTAGGAAGAACTTCTGTACATCAAATTTATAGAAATGTCCTTCAATATAATCTTCTATTTCACTTTTCATTATTTAAAATTTCAAAAATATAC
AGAAAAGTGGAGAGAATAACTAGATGAACACCCAAATRCCCATCACCTAGATTTATACATTGTAAACATTTTGCCATATTCATTTTTTTGTTTGTTTACA
TTTTTTTCTTTTCTTTTTTTTTTTTTTTTTTTGAGACGGAGGTTCGCTCTTGTCGCCCAGGCTGGAGTGTAGTGGTGTGATCTTGTGCTCATTGCAACCT
CTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAGTAGCTGGGATWACAGGCGCCCACCACCACACCCGGSTAATTTTTGTATTTTTCGTAG
AGACTGGGTTTCATCATGTTGGCCAGGCTGGTCTAAAACTCCTGACCTCAGGTGATCCWCCTGCCTCAGCCTCCCAAAGTGCAGGGATTATGGGTGTAAG
CCACCATACCCGGCCTGTTTAAATGTTTTAAAGTAAGTCACAAACATCATGCCAGTTCATTGCTAAATGCCTTAGTATGCATCTCTTAAGGGTAAAGTTA
GGCTGGGCAAGGTGGTTCTAATCCCAGCGCTTTGGGAGGCCAAGGTGGGAGGATTGCTTGAGCTCAGGCATTCAAGGCCAGCCTGGGCAACATAGCGAGA
CCTAATCTCTACTAAAAATTTAAAAAATTAGCTGGGTGTGGTGGTGTGCACCCRTAGACCCAGCTAYTTGGGAGGCTGAAGTGGGAGGATCACTTGAGYC
CAGGGGGTTGAGGCTACAGTGAGCCATGATCAATCACACCACTATGCTCCAGCCTGGGTGACAGAGGGAGACCCTACCTCTAAATAAATAAGTAATTAAG
AGTAAAGTTATTTTCCTAGTCAATTGTTTTCTTCCTCAAATTTGTCTCACAACTGTGAGCTCAAAGGTCATAAATTATATAGTTCATAATGTTTGTCATA
CTCTTCCTCTGCAAATTTAAATACGAATTCRCACGTGTATATTTTGAAATCATACTTTTCTATCTTCTGGAAGACAAGACAGTAGTTAATAAGTATTTAT
GATGTTTAGGGCCAGTGATAGGCATTTTATTTATTTATTTTTTTGAGATGGAGTCTCRTTCTGTCATCCAGGCTGGAGTGCAGTGGCATGACCTCGGTTC
ACTGCAACCTCTGCCTCCTGGGTTCAAGCTTTTCTTCTGCCTTAGCCTCCMGAGTAGCTGGGATTACAGGCACACACCATCACACCTGRCTATTTTTTTT
GTATTTATAGTGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTAACCTCAGGTGATCCGCCCACCTTGATTTCCCAAAGTGCTGGGATTTCAG
GCATGAACCACCGTACCTGGTCAGTGCTAGGCATTTTAATGTGGTTTTCTCACTTAATTCTCCTAACAACCCAGGGAGGAAGGCATTGTCATCCCATTTT
GTAACCCAATTTTCCTTTGTAGAAATAAATTAAGTTCTTTCTATTACTAAGCTTTCCAAATGACCTTGGATTTTAAAATAAACTCAAATTGGTTACTTTT
CCATTATGCATAATGACAAAACCCAGATAGTGATTTATATATAATTAGAAGGTTATTTTATTTAGCTTTTATTGGCCATAATCTGTATTTTTCCACTGTT
TGAAGATTTTATAGTTTCTGTTTCTAACTTCAAGAAGAAATTTCATAGTTGCACCACCTCTAATGTGATAATAAACTCAATATCCTCAGAACTTCAGGAT
TTTCTCCTACTGTCTTTAGTTTTCCTTATTTGCTTGCCAATAAACACCAACATTAATTCTTATGAACTTAACAAATATGTATAGCATATTGCACACAAAA
TCAGTTTTTCTTTCTATGCTTTTTTCCCTAAATTTACCACAACAGTAACCACAGCATATACATATATGTACATGCATACACACACACACACACACACAAA
CACACACAAACACACACAAGAGAAAGACATTTTCAAATTGTACTGAAAAATATTGTTACTATAGAAATCCACATGAACATGATGAGTACCCACCCAAATG
AAGGAAAATCTTTTGTTCTTATACAATTYAGTGAAGTTTTTATTATCTTATTAGGCATGGACTGTTATTCCTCATTGACTGACTTTTGAGGAAATTCCAT
TGCTTGGGAGAATGTGAGCATAGTGTTTTGTACAAATATCAGAGGAGTATACAAACTGGCATATTCAACCTAACCAGACTCTTGTTCACTCAAGTTTTCC
CATATTTTTAGAAATCATATGTAGTTGTTCTCTTTAGGGTATACCATTGACTCTAAAATAATGGGTTATTGGGATATTTGGAAACTCAATGGAGTTCATG
TTCTTTTCTCATGGAGAAAACGAGAGAGCTGTTTCCAGAAGTCTTTAAAAGACTTCTAAGCTACTTTCTTATTTGCTCCTTAACTTTTTCAGTGCAAAAA
CAAATTTTTTAGGTTTTGGCATTTGTATTTATTTGAATTTTTTTACATTGACTCACCATTCTTTGTGGATTARGGAATTAATCAGTTCAAGTGAATAAAC
AATGAAATGTCTTTAATATTCTGTAGAGTAATGATAATTCAGATGCTTATTGACTGCAGTGTGTGGTATGGTTTTCTGTCATAATATAACATAGATGAGT
AGAGCATGGGCTTTGGTGTTAACTGAATTCGGATCCAATTGTTTGTTATGTGACCTTCAGAAGATCAGTTAGCCTTTTAAAGCCTATTTTCCCCTCTATA
AAATTGAATATGATCACCTCTATTTGCAGATTGTATTGAAGAATGTGAAACACTTGGCACAGGGAAGGGGCATCACCAATTCATGAAAGTATGTYGTAGT
CATTTGGGTGTCAGTATTTGGTAGAGTTTTAAGCATACATTTTTAAAATGTGTTATGTTTCCAGACAAGTAGAGGAAGGATGAAACATTCCTACATTCCT
TGTTTATTTTCAAATAGCCAGATTTTAGATAAACCATTTGGATTATGGRGCAGATTGATAATTTGATGATCTGGCATTCTGTGGCATACAGCTTTGAAAC
ATAATGTTAAATAAAAGGTAGTTCACATCAAAAGTCCAGTATGATCCCTTTAGTTACCATGTAAGTCTGCTTTTATTTGGTTTTATATACCAGTGAAAAC
TGAACCTGATCTTAATAGCCTTTCAGGKTTTYTGTTTTTTTGAGACAGGGTCTCACTCTGCCACACAGGCTGGGGTGCAKTGGTTGCAACCAAAGCCCAC
TGTAACCTGGAACTGCTGGGCTCAAGTGACCCTCCTGCCTCAGCCWACTGAGTAGCTAGAAGCACAGGCATGTGGCACCATGCCTGGCTAAGTTTTTTAG
RAAAGGGTTTTGTAGAGGCAGGGTSTCACTATGTTGCCTAGACTGGTCTCAAACTCCTGGGCTTAAGTCATCCTCCTACTWTGGCCTTGCAAAGTGCTGG
GATTATAAGTGTGAGCCACCATGCCCAGCTGTCTTTCCGTTTTAAAATAAGTTGTTCACCTTCTAGGAAGGTGGGTGAATGGACACKTTTGTTACATTTG
TTACAATGACTGTTTCCTTTTTATTTAGACTAAGCAACCTGGGGATCCCTGGAGTGTGGGCTTTCCATATCGGCAGCACTTCCCCGTTGGACAATGTCAG
GCCAGCTGCAGTTGGAGACCTTTCCGCTGCCCACTCTTCTGTTCCCCTGGGACGTTCCTTCAGCCATGCTACAGCCCTGGAAAGTGACTATAATGAGGRC
AATTTGGATTACTAYGATGTGAATGAGGAGGAAGCTGAATACCTTCCGGGTGAACCAGAGGAGGCATTGAATGGCCACAGCAGCATTGATGTTTCCTTCC
AATCCAAAGTGGATACAAAGCMTTTAGAGGGTAGGATCTCCCCTCCAGATTCTGATCTGTCCTCCCCCTTGCATCCAACACCTACTTATTGGCCATTCTA
TCCTGAAACAGAATCTTCCACCTTGGATCCTCACACCAAAGAAGGAACATCTCTGGGAGAGGTAGGGGGCCCAGATTTAAAAGGCCAAGTTGAGCCCTGG
GATGAGAGAGAGACCAGAAGCCCAGCTCCACCAGAGGTAGACAGAGATTCACTGGCTCCTTCCTGGGAAACCCCACCACCGTACCCCGAAAACGGAAGCA
TCCAGCCCTACCCAGATGGAGGGCCAGTGCCTTCGGAAATGGATGTTCCCCCAGCTCATCCTGAAGAAGAAATTGTTCTTCGAAGTTACCCTGCTTCAGR
TCACACTACACCCTTAAGTCGAGGGACGTATGAGGTGGGACTGGAAGACAACATAGGTTCCAACACCGAGGGTGAGTGCATTAGAAAACTGGGTGCTAAG
GTTTCATCTTAACCATGCTGGTTTTGCATAGCGTTGTGATTTTTCTCTTAAGTGGGTAGGTGAAAAGTTTAGCAAAAAGAAGATTGGATCTAATTTTTAA
TCCCTGTGTTTCAAGAGATAGWGTAAATTTCCTTTGCCAAATAAATCTTGGCAGGCAGATTCTGTTCGGAATCTCTTGATCATTAATAATGTTTTTTTAA
AATATGGGCCTCATGAAGTGAGTGGGGGAAAACTGGGTTTGTTATGCCAGCTACGCTCTCAAGTGTAATGAACTATTTCAGTTTGAAAGTTCAGCAAAGG
TAAAACATTTTGCGGCTTCATACACATTCCAGTGATGGACGGGTTTGTGCTTTTTAAAGTGGTGAGTTGTGCTGGCTCAGATGAACATGCCAGATTCATA
CTCTGTTGTGAGACAAGCCTAGCGCTTCYCTTGGTTGGGGAGATATGCTTGTGATGTGTGGGAGAGGAGAGCCCACAGGGAAAGAAAATGACTAAACACC
TGTGTCTGTTGTCATTTCTGGTTCATGGCTATGCAGCTGTGGCATGAACCTCCCTGGAGCCTTGTCCTCATTTCATGACCCACTGATCGGACTGAGAGGC
GAGGAGGGAGATGGCGAAAGCAGGCGGTGGTTAATTATCATGGACATGGGGTCTATGTCAGTCTTCTAGTCCTTGTTGAGACTTGTCATGCCAGCTGTTT
CTTCCCCATCAGRCATGGAAAGATGTGAATGGGAAACTGACTCCAGATTGTTTGTTCCAGGGACTGCTCATCTGACCTCTGATAGGAAGAAAGAGGTCAG
AGGTGACTGCTTTGTTCTGAATCTCCATGTTTTTCCACCTTTTCTGTTTCCTGTCACTGTTGTGGCAAAAACATGGCTGACCTAGCAGAGAGGGCCTTCT
GGGTTCTGCTCTGGTATTATCTGCAGGCTATTGCATGGAGAGGTACTAATTTCAGGAGGGAAGAAAATATTTTCTGACTAATGTGGCATTGTGTAAGGAT
TCGAGGGAGTACAYTGGTGTCGGCTTCGAGTTTGAATCCTGGCTGCCAAGCTTGCTGGGTGACCTGAAGTAACTTATGTAACCCATAAGCCTCTGATTTC
TCAGGAATTACTTGGGAGGATTCAATGAGACAGCGTATGTGAAGTTCTTGGCTTCGTGTCTGCACTCACTGGTTCTTAATAAATAGTGGCTGCTGTTACT
AATTTTAGAAGATTTAAAACAGTGGGAATGGGGTGGAGGATGGGTAGAGAATGAAGAATGTGCTTATTAAAGAGTTTCACATTAATTTGTGCCTAAGGGA
CCACATTTCCATGAAGTTGAAGATGTAAATTTTATTGGAAGTCTTTAGAACCTTCAGATCCTTCTGAGAATCTCCAGAATTTACAGTATGAGTTTCCTCT
AAATACATTTTAAGGCCAAGTATCAAAGATTTTCACAAAGGGATTTGAGGTAAAGAYGCATTCCTGAATGGCCTTCTCATTTGTGGGTTGTGATTTCCTT
CCCTGGGAAGAGCGTGGGAATATTAAAAAGCAGATCTATGGAGTCATGTATTAAAGGGTTAAGAAGGGACTGCACACCCTGCTTYGGGCTCTGAGAGCTT
GAGATCACTGGAGTAAAGTGCAGGAGGCTTCAGGAACCAGCCATAGAGTAGAACAGAGGCACAGCTATAACCCTTGTGGGGCATGAACTATGATATTTAT
CAGCTGCCGGATGCAGTCTACTATAGACATCCTGGTAATGGCAAAAAACGCCTGTGAAAAAGCTGGTTAATACGCATTTTGGRGGAAGAAATCTAGAAGT
GTTTGAAACTTAGACAAAAAAAATCCAGTTTTTGTTTTAAAAGAATTTACGGGGATGTATGAAGTATAGAAGCATGCAATTGTTAAATACTTTTGAGGGG
ATGCAGTGACTGTTTCTTTCACATAAAACATTGGAGGCTCAGAGGTCTGTCTGGTAAGTGTGGGCTTCCTCCGGGAAGCTGTGGGGTGGGAGTGGCAGAG
ACACAGAACATTGTCCGGTACTAAGTACCCAGCCATGTGGCATCTGCCTGGCTTTTTCTGCTGATGGAATAGAAAGCACATGGTTTTGGTGCTGGTTGGA
CTTGACCTTGACTCCCAGCTCTGCTATGTGGTTTGGGGCAAGACATGTAGTCTGTTTGACCCTTGGCTCTCCTCAGCTCTAAAACAGAGTTAATGAAGAC
CTCGTCATATACTTGCAAGAACTGAAATTGAGCTTGGGAAGCACCCTGCCCAATACATTTTAGTTTCCCTTTGAAGCTTTAGGGTAGTCATCTTGCTAAA
CCAAGAAATTAAGATTTAGTTAAAGGCCCAGAAAATATCACTCCTTTTTACATTTTTTTCCCCTTAGGGACTCATTTTACAGACCTTTCTTTTTGTTCAG
AAATTTAGATTTTCAGATCATATCTACACCAGGCAGGAATGTCCTGGCCACACTCGAGCTCTGTCTTCCTAGGCCACAGAACAGCAGTAGATGGATGTGC
AAGCATGCTTTCTCTGAGGAGTCTTGTTTCCAGGGAGCTCTGGTCGTTTTGTTGTCAAGTCAAAAAGTTACCCAAGCACCTGCCGTGTACCTGTCTCTGA
CTCGGTGCTAGTGGAAGTTTTGGCTGGCATTTGCTAAGYGCAGCCTGCTGCTCTAAAGTGAGAACTTGGCATTAGATTGCATTATCACAGTTAGTCCTCA
GAATTGCCCTGTGGGGAGTTCGAGACCAGCCTGGGCAACATAGGGAGACCTTGCCTCTATAAACAATTTTAAAAATTAGCCGGGTGTGGTGGTGCTCACC
TGTGGTCCTAGCTACTCGGGAGACTGAGGTGGGAGGATCACTTGAGCCCAAGAGTTCCAGGCTACAGTGAGCCATGATTGTACCACTGCATAGCCTGAGC
AACAGAGAGAAATATTGTCTGAAAAAAAAAGTTGTCCTGTAGGGTAGGTACAATCATCCTTCCCATTTTACAGAGATGGAAACTGAGCTTGGAAATACTT
AGTGACTTGTCTAGCAAGGGCAAAGACTGCAACAAAGTCATGAAGAAATTAGAGAAAGCTGTAGGGTGACAGAGAGTSAAAGGCACTGTCCAGGAGTGTC
ACTGCTGTTGGGGAAGTCTTTGTGAGGAAGGAGGGGCTTGAGCCAGGCCTGGGGTCAAAGTCTGAGAGGGAGAATGTGTGAAAACATTATGAACAGAGAA
GTGACAAGAGCGGAGTTGCAGAGATGGGAATGAGGAGGGAGGAAAGGAGGGAGAGAGACAGAGACAAAGGTTGATTAAGGCAGTGGGGTGAGAGAGTTGC
CAGTGAGGGCTTCAGCTGCCTGGGACCATGGGACTGCCTGTGTTGTGAGTAGAAAGGAATGAGGTTTACTGATAGGGGTCTTAGTTATTCTTAAGCCTGC
TGAGGCAGTGCTATACGCAGCTTAATTTAATCTCAATCTGCATGATGAGTTAGGAGGAAGGACACCTGGCTTTCAGAAACCTCATGTAGTCCCACTCCAC
TTTTGGCCTTGTGAAAGGCTGCAGGAGTGTGTTGCAAGCTCAACTTCCACCCTGAGAAGAATTTAAGCAGGTTCTGCTGCCAGTGCAACCCTCCAGGTGC
CAAAGACCATCCCCTGGGTGCACCTCCAGGTTGCAGAGGGTCTGTGACCAGGAGCCGCCGCCCCCCSATGCCTGTGAAGACACCTATATGAGGAGATTCC
VTGGTAGGGCCCCTCTCCCTTCACCAGAAGTGGAGAGAGCCTGTTAGTGTCATGCCAGCAGTTGTAAAAGGCCACCCCCAGGGTCGTGATCACTGCCACC
AGCATCATTACATGCCACACACATCAAAATTAAACAAACATGAAAACTGGACGAAAAAGCATTCCACTGTTTRTTATAAAGTTGGATATGGTTTTTCTAA
CTAGTCTGTCATTCTGAGAGATGGGAAAACTTAGAAGAATTTTTCCTGCGGTGAAAATGACTTTTTTTTTTTTTGAGGTAGCAGTAAAAATTGTTAGTAG
TTGCTCCAGCTGTCCTGAAGCAGCCCTGTGCACGAAGCCTCCTGTGTCCCTCTGTGTTGGCCCAGTGAACCCAGTCGACACCATGGAACCTCCCSTGTGT
CTGGSCCAGGGCCTTCTGTGAAGAAGGGCAGGCCGGCCAAGGGCTGCAGACAGGTGCTTAAGTGTTTCTGGGAAAATGAAGATTGAAAGATGGCTCAGAA
CAAGTGCAGAGGAGAATTTTCCATTTTTGTTACGAACTCCTAGTTAGGACAAGTCTCAAGTCCTTTGGCAGGGCATTTCTTTCTTTCCTCTGATATCTCC
CCACCCCATTTTTCTTTCTATTAAGGACATGAGAAAAGTTAAAAACAAACAAAAAAAACATTAAATAGAAAAAAAAGAGATTTAAAAAATCTTCATGTTA
AGAATCCTTTAGCAACTATCAAACCTCAGTTAACAAATCCATGACAAAATGAGTTCATTCAAACCTGGCCAGCCTCCACCCTCCTGCTGTGCCCTGAGGT
GTCAGCARACTTCTTTATGGTCTGACTCTCCGTGGCAGGAGCTTCCTGGCAKAGTGTGGGTCCCAGAGGAGGCCATGGACTAGAAACTGTATTTCTCAAA
GTGTGGGCACTCATCCACCTTCCTCTCACTCAGCTGGGAGCCTGGTTAAAAACACTGATTTCCAAGCGCCTCCTCTACCTTCTGAACCAGAAACTGCATT
TTTAAGCCACCTCACTCCTTCAACACCTCCAGGCCTCTGCCCAAATGTCTYYTTCTCCCGAGGTCTTCCCTGACCATACTATTTCAAAGAGCCAGGTGYG
CCTGCCCTCTCTCACCCTCTKGTCTGACCCTGCCATATTCCTCTGCACTTCAGTGATTCTGATGCCCCCTCAATTTGATGGGATTTAGAGCCAGAAGATT
GTTTCATCTCTGTAGGCCTCAATTTTCTCATTTATAAAATGGAGATATCTTCTAACTAGARTAGGAAGAAGTGCATGAAAATACACTCAAAGCCATGATA
GGGACATGMAAATGACCACCGAAAAGAAAAAGTGCCACTTTTCCTCGGGTGKGTTTATYGCACATCTCATCTAGCTGGGATCCAGATCTTGATTCCCAGC
CTTCAAGAAGTTCAGCCTCTTTGAATTTCACTGCAATTCCCATAGAAATTTGAGCAGTCACGTTGGCCGGAGGTCTGGCTTTTCTCGCCCTGGATAAATA
GCTGCACGTGGGCTCAGCACCGTTCTAGCTCCAGGTCTCCCCCTTCTTCAGGGAAGGGCTATCTGGCTGCTGTGCGTCTGTATTACYTTCACTAAAGAAT
CTTCACGTTGTATTCTTGTGGATGGATGCCCAAATGGGCCGTAAGCACTGAGCTCRGCTTCTCAGGTGGCCAGAAATGAGCACGAGAAATTTCCTAACAT
TCTGCCCACCCYAGGAGCTGCCAATTGGTCAGATTAAATTTGTTAACGACATTGATGAGCAACACCTAGCTCAGAAATCCAAGGCTTGTTGTATCCCAAG
CCTTCTATCAACACCAATTGGTGTGAGAATCACTKGCGGGGTGGCTAAAGTGTAGATTGCTAGGATGCACCCAGAGAGTGGAAYTGGTAGGTCTAAGGTG
GGCCCTCAGAATTTGCATTTTTAACAGAAATCTCAGGTGATCCTGATGCAGTGGTCTCTGGAATCCACCGGGAGAAATGCAGCTCTCCGTGYGAAGGACT
GCATGGTGCTGTGCTGAGGGTGTAAGTTGTTATTCACCCCTTGGTGAATTTCCTTGATGCCTCATGCTGTTGTCAGAACTGAACCCCACAAACCTGCTCC
TCCTCAGTCTCCCTATCTCAGTAACTGGCAGCTCCACCCTTTTGGTTTCCCACATCAGGACTGAACATCATCCCACATCCAGTCTACCAGCAAACCCTCT
CGGTTCCACCTTCAGAATATCCCAGACCTGGGCCCTTCTTATCCCCTGTACCAGCACTTCTTACCACCAAGGGACCAGCTCCTGTCTGATTTACTGTAGT
CGGAGCATGTTACTCTTCTGCTCGAAACCCTCTAGTGCTTCCCATCTCACTCAGATGAAAGCTCAAATCCTTCCTGTGATCTCTGAGACCCTGCATGAAT
GACCCAGGCCACCTCTTCTCTCACCATCCCTCCCACATGCCCACACACCCCTCCTGCCTGACACAGCACCACGCCTGCCCTCATCTGTGGGGTTCACTCC
CTCACCTCCTCCTGGCCTCTGCTCAGTCACCTTCTCCTGAGGTCTTCCCTGACCATGCTATTAAAAAGAGCCATGTACACCTGCCCCCTCCCACCCTCTT
GTCTTTCTCTGCTGTATTTCTTTGCACAGCTCTTACACATCCACCCCACTAAGTAATTTACTTGTTTATTGACTGCTGCTGGGGAGAATGTAAGCTTCAG
GATGTGAATTTTTGTCTCYTTTGCTCCCTGCCATGTCCTCAGTTTCTAGACTAGGTACAGGTCTATAGTGAATGCTCAGTAAATACTTGTTGAATTAGTG
AATGAATGAACAAAAATTGTAAGAAGCATTTACCTTTCACCTAACAAGCTGCCATTGTAAATGGTAAGTGTGCAAACCTGTGTGTGCACTTGGGTATGAA
GGCAGGCGTGGAAGAGGGATTATAAATGGAGGCTTGCCTTCCCCCGGATTAGGGGCTGATCCATCTTCTTTCCTTCATGTGGCTGTTATGAAGCTGAAAG
AGACAGTGTGTGTTCTTGGCTCAGTAAGTACCATCCTAAAAATACAATATTCCACAAAACTGTTTAAAAAGACTCCCAGGTTAGCTTAACAGTAACTAGT
TAGCCCATTGTAATTACAGTTTAAGTCTCATAATAGCCTTTCATGGGAGCCTGCTCATTGTTATAACTTCTTTTYCTGTAATAGAAAAATGTAGTACAGC
TTCCAATCTATTTATAAACCTTTGCACAGTTGCAMTTGTAAGTTGCTGGCTGCATYRCCCTGCCTCTTTTTACTTAGATAAAAGCTATGACTCCACCTAG
TTTAACTCTCCATATCTAGACTGTCTCTCCTCCATCTTCTCTCTCCTTGTTTCATAATTCAGCCTYAGAATAAGAATTGGGTTGCAGAATAAGGCTTCAC
AAAATAACTGAAATAAGATACAATCCAAGCCTGTTATTTCCTTAATTTGTGGGCAGAACAGCTTGTAAAGTTTGGATTGATTTTTATCTGAATATTATGA
AAACGGCTGCTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCTCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCCGC
CTGCCAGATTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAG
AYGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAGTCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTGC
CGGGCCCAGCCAAATGGCTGTTCTTTAGACCTATAGCAGATTGCCTTTTTACTTGGTGTTCAGAAGTACATTAAGAAGAAATGCGACTTCTGGCAATGCA
GGGGTGAGGAAGAGGTGTTCTACTTAWTTTAGAGATGAGGAAGCTGAAAGACACAGTTTGCAYAGTTTCCACAAAGCCCCCGAGGGAGGGCTGAGGTTGA
GTCCTAGAGCTTGGCGCTTTCTGCAGCCCCTCATTCCTTGAGCTCTGGGAGAAAGTCCTGATGGSCCYTAAGCCATGAGCAYACTGGTGAGTGTGTGAGT
CCCTCCTGTAGCTGCTTCCTTACACTTAGTTGTGAATTTCTGAGCTGGAGAAACCTGAGATTTTGACACATCCAAGTTACATTCATTTCCTTTTACTCTA
AATGTTTTTTTCCCTTTCTTAAACTAATAGACAGTGATACAGTTTTCTTCACAGCCATCTATTTTACCATGATCCATCCTGGGTTTTTTTTTTTTTWTTT
TTCTGCCTTGAGTTTTATATCACTTTTCTGTTTAAGTTAAGCTTGTCACTTTCTTGTTTAAATAAAGTTGAGTCATGCCTAATTTTCTATTTTTATCAAA
CTGGAATTTCTTAGCCAAGTCATCAAGGCCCTATACTAAATCTTGAGTCATAACTTCATTCCTACTATGTTCTAATCAGATTTTCCACTTGAACCTACAC
TGTCTGTCCTGCCAACCCTCAGCTTGCTGCTTTCCCAAGGATCTGCAGGCAGCACTCCAGTACTGTTCAAAAGCTAATGCCGCTGCTGCTACTCTCATTT
CTTACCTGTGCTGTTTTTCAACATGCTGTAATAGTCATCTCGATAATCTTCCCTGCTTGCTTCTACCATTAAACCCAGTTTATAAAGTATGACTCRAATT
ATACTTGAAGTCTGTGCTGATTAACCCCAGACATGTGRTGACCCCTAATCTAGTGCTCATGATCTCCGTACTTGGATCCCATTGAAGGGGTCGTGGAGAG
TAGCAGTTAAGATTCTCCAGCTAGATGTCCTAGGTTCGGTTCCCACCTTTGCCACTCACTGCCTRTGCGACTTCAGGTGCTTTAGTCTACTGTGCCTCAG
CTTTATCTGCAAACGGGTTAAAAAATTGTCCCTGGCCAGAGTGGTGGCTCATACCTGTAATCCCAGCATTTTGGGAGGCCTAGGTGGGAAGATCACTTGA
GCCCAGGAGTTCGAGACCGAGACCAACYTGGGCAACGCAGGGAGACCCCTCCCCCCAACCCACCCTACCAAAAAATAAAGTAGGCAGGTGTGATGCATGC
TTGTGGCTGCGGCTACTCAAAAGGCTGAAATAGGAGGATCACTTGAGCCTGGGAAGTCGAGCTTTCAGTGAGCCGAGATGGCACCACTGCTCTCCAGCTT
GGGTGACAGAGCAAAACCCTGTCTCAACAACAGCAACAAAAAAAGTCCCTGCTACCTAGGGTTGYTGTGCAAATTAAGAGTTGTTGGCCGGGCGGGGTGG
CTCACGCCTGTWATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGATCAGGACCATCCTGGCTAACATGGTGAAACCCTGTCTCT
ACTAAAAAATACAAAAAATTAGTCAGGCGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAAGAGAATGGCGTGAACCTGGGAGGTG
GAGCTTKCAGTGAGCTGTGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTTTCAAAAAAAAAAAAAAAAAAAGGTTGTTAAATGTA
AAGCTTGTATATGTTAAGCGCGATTGAAGTGTTAACTTTGTTATATTTTTATTTGCTGATGGAGGTCTTTATCTTGGTGACATTGTACCTATAATGCTAT
GTCTCATTAGCTCCTTTACTTTCTGTTCTCCCTGGGAATACTGGGTAAAGATTGATCTTTGGATTTCTTCCTCCCCTCCTGTCTCCTCGTTTCCAGATAG
ACCTGGAACACAACTACCACTTGGTTTTTCCTAAGAGTAGGGTGGGTGTCCTCCTTCATGCCAGCATCCGTGTCTCACACTAGAATTCCATGCCATCCCT
GCTCAACAGCATGCTCCTGGAGTCTCCAGCCAACTCCACCTCCTGGGGATGTGGAGGCAGAGGTGTGTGCAGCCGCTTGGCCTCCTGGTGGCCATGCTTG
GGATTGGCATATTTCCTAGTGCCCCGGAGAAAGCACCCTCCTGTCCATCCACAACCCCYGCCACACCCTACCCCCTTGGCTATTTCCTTTATGAACTATG
GCATTTGCTCYAGTTTCCCCATTTCTTTGCAGCACAGATGGCCCTCTTCTTTTAATGGGCAGAATAAGTAGGAAATGGAAGAAACAGCTGCCAGAGCACT
GAATTTATCCTAGTCCTCCATAATTTCTTGGAAGATCTGCGAGTGGGGCCCAAGCTGTCTGCTACTGCGTGGAAATCATGCTTGTACCATACCCATCATA
GTTAAACCCTGCCAAGGGCATAGGGCATTTTAATAGCTTGAATCCCTGTTGTTTTGCSMTCCTCTGTCCCCTTCTCCCCATGCCTTTTCTTTGAGGTAGG
TGCGTGTGTTCTTTAAGACCCTTCCCTCAAAACAATCTTGGTAGCGAGACCAGCTATTATCTTTTTTAAGTTCAGTGTTMCCTAAAAGAAGGATGGTTAG
ACATAAGACATTTGTTAGCTTCTCTATTATGTCTTCCTCTCAGGATGTGTTTAGGTTGAACCATATAAAAGTGCTGATATTTAGCCCTTTTKGACCCACA
AAAATAGTGGTTTCATGAAGTTCAACCTAACATGWACTTACTGGTTTGCTTTCATTTTACTGCACTCAAACCCACGGGTGCAGYCTCATCTTAGTTCACC
AACTCTGCAATGGGACCCAGCCGGGAGCAGTAAGCAATTCTTCTTGCCAGCAGACAAAGCAGATTAATTCCCTTGGGTTGAAYGTTATGCCGGTCTCTTA
AACATCAAAAACTGTTTGTTATGATCTAAACTGCTTCTATGGAGCAGATGTTGTGTCCCCGATGCAGCAGTGACATTGGAATCATTTAGTCCTTTTAAGG
CAAGTTTGTTTTATTTTTCAGTCTTCACGTATAATGCTGCCAACAAGGAAACCTGTGAACACAACCACAGACAATGCTCCCGGCATGCCTTCTGCACGGA
CTATGCCACTGGCTTCTGCTGCCACTGCCAATCCAAGTTTTATGGAAATGGGAAGCACTGTCTGCCTGARGGTAATTGACTGGGGCYRGGAACTCCTGTG
TGTCTATTCCTGCTGCTTACCTGTTTCCAGCTACCACTGTGAGCTCTGCTTTATGGACCAAACATCTCCACTACTTAAATCAGAGTGCTATCAACTTGCA
GGTGCTCAATAAATGTGTGAGGAATGAACTGGTTTGGGCTGATTCCCAATTTGAGGATTATCCAGAAATGCTTCCTTCTGCCAGCTCATTAGAGCCAAAG
TGTAGTGGAGAGAAGGAGGAGGGGAGAAAACAGACTGGAGGCAGGACTGTTTCATAGATGGATAATTGGTTGGTTAGGAAATCATTAAAGTGACTTGCTA
AAGAGTGAGTTTTGGAAGTTGTCAGTGGAATAATTATAYCTGGGTACACCCATCTCTAGCCAGGATGAYGTCCAAGCCTAACTGGATTTGCTGTCTTTTA
GGGGCACCTCACCGAGTGAATGGGAAAGTGAGTGGCCACCTCCACGTGGGCCATACACCCGTGCACTTCACTGATGTGGACCTGCATGCGTATATCGTGG
GCAATGATGGCAGAGCCTACACGGCCATCAGCCACATCCCACAGCCAGCAGCCCAGGCCCTCCTCCCCCTCACACCAATTGGAGGCCTGTTTGGCTGGCT
CTTTGCTTTAGAAAAACCTGGCTCTGAKAACGGCTTCAGCCTCGCAGGTGAGTAGGGCCTCTGAGAAGGCCGGTAGTCAGCATTGCTTTGGCAGTGGTGC
TCCTTGGGGCACTGTCTTTAGGCCTTTACGCAGTGACAGAGGAATCACTTGTTTAATGTACTAGAGCCACATGTGTGTAGTTTTCTGGCCASAGGTTGTT
GGGAATGGTTTGACCTCACATCACTGATTTTTGAAAGGCAGTGATTTCGTCTAAATGTTCTCCCAGCTGTTCTGAGAAACAGGATGATTCCATTCAGAAC
ATTTGTGTCCTCTTACCCCAATTTGTTGMAGCATATTTGTCAGGCTTTTTAAATTATGCACAGATCTGTCAAATGCAAAAATGGTACTTGGGGCACCTGG
GGATGATTTTACTTCATGGGGAAGGGGTGCTCTTCTCCTCCCAGCTCCACAACCTATAATAGTATAGGCCGGTGCACCCCAGACTTGAACCTGCACACAC
ATCACTTGGAGGTCTTGTCAAAATGTAAATTCTGGTTCAGCAGGCCTGGGGTGGGGTCCGTGATTTTGCTTTTCTACCAAGCTAGGAGGTGAGGTACCAG
TGTTGCTGGAAAGGCCACCCGTTGACAACAAGGATTTAGAAGATACTTTTTGGATTCTCACCTTCCAACCTGAAAACTTGTTTGCTAGAGGTTTTATCTT
TATTGCATTAAAAATAGTTTTGTGAGAAGTTCTTTCTCCATCTTTAACTGCAGAGCTCGGTAGCTGTTAATAGGTTCTTGCTTTAATCAAAATTTGAATA
AAGCCCTTGGGTCAAAAGTAGATAAAAAATGGCACACCTGGATAAATTTGTATTTCAGATAAACAATTTTCTAGTATAAGTATTACCCACATATTTCATG
AGACATACTTATCTGAAATTCAAACAAAACCCTGAATGTCTTAGGTGGTAGTTTATTTGTTTTTGTTTTTTTGTTGTTAGGTTTATTTGTTTGTTTGTTT
TTTGCTAAGTCTAGCAACCTTAGAGAAAAGTCAAGGACGTTCCCAAGAGTATTTCTCACAGAATACAAGCTTGTTCAAAGAGAAGCTGGGTGAGGTAAGG
CAGGATGAAACCATATTCTTCAATGGAAAAGTTTGGGAACTTATGGAATCAACAGCTGATAGTGCTTACTCTCAGATATCAGATAATCTCCTTAGGCACG
ATCTCCAACAGCAGTAGAAATTGGGAGCGGGCAGTATATACTGGTAACTGTTTAAGCAAGACCTCTTTTCATCCCTGTGCTGAATGTTTTTCATCTCCAG
GTGCTGCCTTTACCCATGACATGGAAGTTACATTCTACCCGGGAGAGGAGACGGTTCGTATCACTCAAACTGCTGAGGGACTTGACCCAGAGAACTACCT
GAGCATTAAGACCAACATTCAAGGCCAGGTGCCTTACGTCYCAGCAAATTTCACAGCCCACATCTCTCCCTACAAGGAGCTGTACCACTACTCCGACTCC
AGTATGTATAACCAGTCTTCACATCTGTAAAATGGGGATTATGCCCATCTCACAAGATAGATACAAGGCTTAAATGACTTACATGGCATGTCCTTAGAAC
AGTGCATGGAACATAAAATGAGCTCTATTATGTTATTACTCTTATTGTTACCATGAAATATATYRTGTAAGTGAGCAGAATGGCTGCTATACATAAGAAT
ATCTATATCCCTACATAGTATTTTCAAATAATAAAATCAATAGCAACATTGTCCATGGGGTGGGTAGGGATGGTATAATTATATACAGTTTTTAACCATC
CTACTTTCTGCAACATGGAAAAATAGTGATTATTGGAATTTATATTTATCTCAACCTTGTTTCAGCTGATGAGTTCAGGCTGCTTTAAAAAAAAAAAAAA
TCACAGAAAGAGGCCAGGTGCAATGGCTCATGCCTGTAATCCCACCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGC
CTGGCCAACATGGTGAAAACCTGTTTCTACTAAAAATACAAAAATTAGCAGGGTGTGGTGGCACGCTCCTGCGATCCCAGCTACTTGGGAGGCTGAGGCA
GGAGAATCATCTGAACCTGGGAAGTGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGTACTCCAGCCTGGGCGACAAAGCAAGACTCCATCTCAAAAACA
AAACCAAAAAACACAGAGATGCTATAATTTATTATAAAACTAATGCTAGATTTGGAGTCAAAAGATAAGAATTTATATCCTGGACTTGCCATTTAATATC
TATAGGGAAAGGCCTCTTAATATCTGAGAATGTATTTTCTCATCTTTCACATGGAACTAAAAATGCTTTTTCTATATTATGTGGTCAATGTGTGCGAAGC
GTGATGTGTTCTGTGAAAGTACTACCTGCGCACAGGATGCTGCCTCCATCACAGCTGCTGTTGTGCAGCACAGCAATCCGGATTGAGTTGTGCCTTTCCT
CTGACCCCTGCTGCTCCTATGCTGAGAGCTGGCAGCCTGGCAGGAGATGTAGGGAAGACAAGGGGAAGCAGAGACCTGGGCTGTGAACAAAATGGTCAGT
GTCCGGATCACTGACCTGAGCTTGACTCCTAGACTCAGATGGTGAGAGACAACCCTTTCCCTTCTCTGGAATCCTTCAGATTTACTGAAGTGMGAGGTGT
TGGAAGTCGTCACTTCTGTGAAATGTAGAAGATGGATTGGTTTAAAATTTAGGGTGTAGAGTCAAACCAATGTGAGTTTCAGTTCCAGCTCTACCATGTR
GCAGCATTGCATCTTAGGCTACTTAACCTTTGTGAGCCTCTGATCACATGATTTAGTGCCCACCTCACCAGGCTGTTGTGAGGAATAAATGAGGCAGTAT
GTAGAGAGCACTGTTGGCATGGCTGGCCCTTAGTAACACTTATTCTTTGTGTATAATAACATGGACAATTGTAGTGCCTTCTCCCTCTCAGCACTGTGGC
TTTGCATCCACTCAGGTTTTTGGGATTTCCTTASACATTTTTTCATATAAACTCAGGARGTTCCCAAGGGAACACACTCCAAGAATTAGATGAAAAAMWC
TGCAGAAAAATCCACCTCACATGAAAATCTCTGTATTTAATATTTTTAAAAARTTACCACTGTGTTTGTTGCAGCTGTGACCTCTACAAGTTCCAGAGAC
TACTCTCTGACTTTTGGTGCAATCAACCAAACATGGTCCTACCGCATCCACCAGAACATCACTTACCAGGTGTGCAGGCAYGCCCCCAGACACCCGTCCT
TCCCCACCACCCAGCAGCTGAACRTGGACCGGGTCTTTGCCTTGTATAATGAYGAAGAAAGAGTGCTTAGATTTGCTGTGACCAATCAAATTGGCCCGGT
CAAAGGTAAGGTTTCCTTTTTTGTTGTTGGGTAAAAATGACATCCTTTTAAGTAGAGTTAGAATGATTCACAGAGGTTACTAAGGGTTACCTAGYGCCAT
GCTGTGTTAYGTGCTAGGTATAAGGATGAATAGAGCAGATCCTTGCCCTTGAGTTGGAAACAGAGGCAGAAAAGAGTTTTAGGGCAGGGAACAGTGTCCC
TGCCAAAGTCAGGAAATAGAGCATAGTATGTGAAGCYGGTTTATAGCAATACCCAACTGTGCGTGCCAATCAGGAATATACCTGTGAACAAGGCAGACYG
GAATTAGGAGGGAGAGTGATGCTGACAAGTATTTGTTACAAGTGTGATGAGAGCAGGGCACTGTGAGTCTAGTTTGAAGATTCAGAAAAGATGTCCCCAA
GAAAGTGACATTTTAGCTAAAACAGATGAGAAGAATTTCATCCAAAACTAAGGTGGAGCAAAGAGCTAGTATCTGGAAAAACCAAACATCATAGAACTTG
ATGTATAACCTCCCCCTCCATGATTCCCAGAACATTATACTTAATGGTGAAAGACTGGATGCTTTTCCCTGAAGCTTAGGAACAAGACAAGGATGTCTGC
TGTTGCCACTTTTATTCAATTCAGTACTAGAATTTCTAGCCAGGGTGATTAGGCAAGAACACAAAATAAAAGCCATCTAAATTGGAAAAGGACAAAGTAA
AATTAGTCTCAGATGACATTYTGTGTAGAAAATCTCAGGAATTCACTAAAACACTATTAGAACTAAAGAACAAGTTCGCAATGTTATAAGATATGCAAGA
TCAGTACACCAAATYGTATTTCTCTATAGTAGCAATGAGCAAACTRAAGATTAAGAAATTGTTTCAAAAAGAGATAAATTTTTAAAAAGAAGTGCAGTAC
TTGTACAYTGCATCCCACAAAACATTTTTGGAAAAAAATTTAAGACCCAGTTAAATGGGAAGATGTTCCACATTCATGGATTGGAAGACTTAATACTGTT
AAGATGTGAATACTTCCCAAATTGATCTATTAATTCAACATAATCCCTATCAGAATCTCAGCTGGCTCTTTGMAGAAATTGGCAAGCTGATTCTAGAATT
TATATGGAAATTCAAAGAACACAGAATAGCCAAAACAATCTTGGAAAAGAATAAAGTCAGACTTGTATTTCTCAAACTCGAAATCTAGAGTAATCAAGAC
AGTGTGGTCCTGGCGTAAGGATACATGTAAAGATCAAAGGAACAGAAGTGGGAACCCAGAAATACTCACATTAAAAGTCAATTGCTTTTTCAACAACAGT
GCCGGGAGTGGGGAGGGATAGCATTAGGAGATATACCTAATGCTAAATGACGAGTTAATGGGTGCAGCTCACCAACATGGCACATGTACACATATGTAAC
AAACCTGCACGTTGTAAACATGTACCCTAAAACTTAAAGTATAATAATAATAGAATTCTGATGGTTAAAAGMCAAAACAAAACAAAAAACACAGTGCCAA
AACAATTCAATGGAGAAAGAATAGTCTYTTAAACTATTGTTAACTATGGTGCTGGGACCACTGAGTGACCACATACAAAAGAATGAAGTTGAACCTTTTA
CCTCACAGCATATCCAACTCAAAATGGGCCAACAGACCTAAGTGTAAGAGTTAAAACTTTTAGAAGAAAACATATGGGTAAATTTTTGTGACTTTGAATT
TGCTAATGGTTTCTTAGGTACGACACTAAAAGCACAAGCAACAGCAAAATAAACTGGGTGTCATCAAAATTTTAACAGTTTGTGCTTCAGAGGACATTAT
TAACAAAGTGAAAACACAGCCATAGAATGGGAGACAGTATTTTAAATCATGTGATATTTGTTCTAGAGTATACGAAGTACTCTTACAACTCAATAAAAAA
ACAAGCTAACTAAAAGATGGGCAAARGCTCTGCAAGGACCTCTCTCCAAAAAGATATACAGATACCCAATGGGCATGTGTAAAGATGCTCAGCATCATTA
GTCATCAGGGARATGCAAATCAAAACCACAATGAGATACTACTTTACATCATGTGGTCGAGTATAATCAAAAAAYGGGTAATAACAAGTGTTGGCGAGAA
CRTGGAAAATTCGGAACCCTCATACGTTGCTGGTGTGATTRTAAAATGATGTGGCTACTGTGAAAAACAAAATAGTGGTTTCTCAAAGTGAAACACAAAG
TTACCATTTAATGGAGCAATTCTACTCCTTTCTATATACCCAAAAGAAATGAAAACATAGATCCCCACAAAAACTTATTCGTGTATATTCATAGTGGCAG
TATTCATAATAGCCAAAAGGTGGAAGCAACATACATGCCCATCAGTTGATGGACACCAAAAAATATATTCATATACTGGAATAYTATTCAACCATAAAAA
GGAATGAAGTACRGATACATGCTGCAACATGGATGAACTCTGAAAACCTTAAGTGAAGGTAGTCAGTGACAAAGGACAGCATACTGAATGGTTACAATTA
TGTGAAATATCCAAAATAGGCAAATCCACATACATAGAARGCATATTCATGGTTGCCCAGGGCTAAGAGATAATGAGAGCATAGGGCGTTAATAGCTAAA
GGGTACAGGGTTAATTTTGGGGGTGATGAAAATGTTCTGAAATTGATTGTGGTGACGGTTGGATAACACTGAATAKACKAAATTGTTTAATTATGTACTT
TAAACGGATGAATTGTATGGTATGTGAATTACTTCTCAACTGAAGGCCAGGCATACTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGG
TGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACAAAATAAAACATATAAATATATATATATATATGTATA
TATATATACATATATATATACACAAAAAAATTTAGCCAGGTGTGGTGGCATGTGTCTGTAGTCCCAGCTACTCAGGAGGCTGAAACAGGAGAACTGATTG
AACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGTGCCATCGCATTCCAGCCTGTGCAACAGAGTGAGACTCCGTCTCAAAAAATAAAAATAAATGGA
AGCAAATASTAGTAGAAACAAAACTCTAAAACCATTCTCATCGGGTACARTGGCTTACACCTGTAATCCCAGCTACTCTGGAGGCTGAGGTGGGAGGATC
ACCTGAGCCCAGGAGTTTGAGGCCAGAGTTGGCCACATAACAAGACCCCGTCTCAAAGTAAGCAGTGGTTCTCAAATTTYAATGACCATTAGCCTCACCT
GTGAAGACTGATTTTAAAATGTTCTAGGCATATCATGTCACAGAAAGACATGCAGGAAACTTAAAAGCATGTTGCTCTGTGAAAGCAGCTAGTCTGAAAA
GGCTACATACAGAATCATTCTAACCATGACATTCTGGAAAAGGTTACACTATAGAGACAGTAAAAAGATCAGTGGTTGCCAGTGGTTCAGGAGGAAGAAG
GAGAAGGATGCATAGGTGGAACATGGGATTTTTAGGGCAGTGAAACTATTCTGTATGATATTGTAATGTTGGTTATAGGCCATTATGCGTTTGTCAGTCT
ATAGAACTGTCCAACACCAAGAGTGAGCCCTACTGCAGACTATGGGCATTAGTTAATAATGTGTCAGTATTGATTGGGGATAACAAATGCACCACACTAA
TGCACAATGTTGATAATAGGGGAAACTGCACATTTTGGGTGGGGGGATATGGGAGCTCTGTRCTTTCTGCTCCATTTTTCTCTAAATGTAAAACCATCCT
AAAAAGCAAGGTCTTAATTATTAAAAAATGTTTCAAGCAAGCCAGAGGATGAGCTTGTGAAGTCAGGGAACTCTACAGATGGGAAGTGGCTTTGTCAGAT
CAAGGGGACATTTTAATTCTGAAAACCAGGTCATGTTTTCCCCTAGAATGTAAGAGCCACACCAGGAGAAAAAAACCATCTTCCTCAATTCAGCCACTGT
ATTGAAACTGTTGAGCCCAGAGTTAGCTCCTCAGTGAGGTGAATCTGTAAGTGATAYGCGGTTCTGTGCTTTGTTATTGGAGCTRAGGGCTCCTTAAGCC
TCAGCAGGCTCAATAAAGAAGTGTTGCTTCAGCAATATGACAAGATTAAGGTACAAGGACTAGACTCTTTTCTAGGATGCGAAAGTGACTTGTAATGAGA
ATCCCGAGGTGCTTTGGTTTTAAGAAACTTGGTTGGGAATGTAGGCATTAGGTGCCCAGAKATTGGATTGTAAGGTAGCAARTGAACACATGAAAATGTG
AGTTGATTTTAGAGGAACATGTAAATTAGAAAGGGAAAGATTGCTGTAGTAGATTTCTCAAAGAGAGATTTAAACCTACTGGGGAGAATGGTCTTTACCT
TTAAATGTCCAGGTCAGCCCTGTGTTGGGTGTAGGCATCTGATCTGTAAAAGCAACTGTTAGTGAAATAATTTCCCAGGCTATGGAGTCCCATTCAGATT
CTGGAACCATTTAGGAAAAAGATGTGTCTCTGGGTATATTTTTCCYAGAGACATACCAAATGAGAGTAAGAAAGGATCAGAGAAAGCAAACTGGCAGGTA
CCAAGTTGCTTGTTTTCTTTAGAATTTTATGATTTTCCCTCCCACCCCAGTCAAATAATAATATCAAAGSATGGTTTACTTGGTGCCAAGTACTGTTCTA
AGCACCTTACAYGAATTAACTCATTTAATCCCCACAATGACCTCTACCCAATGGTGGGGTGGGGGTGGGGTTATTTGTTATCCCATTTTACAGAYGATGA
GACTGAGGTATAGAAATGAAGTAATTTGCCTGGTCATAGTAAGTGACCTGGGTGAGCTGGGACTCAAACTCAGGCACTGGCTCCAGTACGCACACCCTTA
CCCCTCATGGCTCTGCTGTTCCACAGTGGCCTCATGACTGCCTCATAATTTAGACCAAACTTTGAAAGAGGCAATGTGTGTCTTTTAAACCCTTTGTGTT
TGAACCCTACTTCATCCACACACAGCAGTACTGTTCATTCTACCTGAATAGGAGGGAAAAAAAGAAAAACAAAAAAGAAACACCCAAAAGTTTTTTCTTT
CCCCTCTTGGTACACAGCAGTATCTTCCTAAGAACTGCTCAGTTTTTCCAGAGGGAACTATCATCTTGTTGGRATTCATGTGAAACAGCGCAGCTGYCCA
CACCTGATGTGGGTGTGGTGCGACTTCCCAGGGCGAGGATGCAGAACTGGGGTGTCTTTYCCAGTGAGTAATTGGAGCCTCTGTCCCTCGGTGACTTCTC
AACCAGCAGTGCCACCCCCCACYAGTTGTTTGAGCTTTAAGCTTTAAGTGTGAGTCAGCTGTTTTTTGTTGTTGTTGGTTGGTTGGTTGTTTTGTGGGGT
CATAAAACACGATCCAAAAATGCTTCCTGTCCTTCCACTTCACGGGTCCTTTTGGCGAGTTGAGGAGGCTCTGGGCAGAGGGCTGTGCAGTGAAGCTGAA
GGGACTGTTCCTTTAAGGAAAACCGCTCTTCCCCTTGATTAAATGAGTAAATTAGTTCCAGATCCTCTGTTAAGAGAGTCAGGCAGTTTAAGAGGGTGAG
GGCGAAATAGAAAATGTCTTAAGAAGGATACTGTGTTCTTTACTTACTATAATAGGAGAAAAGCTTACAAGTCATAGAGAATGAGTCGTGAAATGGTTTT
AGAAATGTATTTTAAAAATGTTTTGGGAAGCCAAGTTCAGTGAATGGGGCCCTGTGCTCAGAAGAGCCCCATGCTTGGTTTAACGCTTTGCTTTGAMCCA
TGGGCTCCACATTTTCATTTTGCACTGGGGATTGCAAATTATGGAACTAATCCTGTCAGTGACATACATTTTAAATCAGTATTGAGTAATTAGGGACACT
TTCTTCTCAATTTTAGGTAGGATAATATATCCTGTCCAAGTTTGCAAGTCAACTTTTGAGCTGAGATTTTTTTTTTTTTTTTTTYTTTTAATGCCTAGCA
GGGTGGTAAGCTCTTGATGTCCATGTGAACACACTAATCTTTGCTGGAAYGTGCCATGGTGAAATTTTGATGCTGGAAAGTACTGAATAAGAAGGCTAAG
CATTAGTATTTATAAATCAAAACATGTTGACAATTACTTCCTGCTTTGGTGGGGTATGCCAGGCATTTTGTACAGAATCTTCCTAAAATGGAGAAATGAT
GGGGATGATCACGTTCTTGTCTTACATTGGGTCCTAATGGATGARGACATGACCTTGTCCTTAGTTATAACCTATTGAGGACTGACTCAGGAACCTGGTC
TAGGCTCAAGTTAACTCGGCAACCACAACCCCAGTGCRGTGCCTCTTTCCTGTCAGYSAAGAGATCCAGAGGAACGGACSTCCAAGGATGTCTGCATGCT
TCAGGGAGCTAGGCTTATGCTGACATAGTTCATCAGGTTTAAAAAGTGCTGGAATTATTTATTGGTCYTTTGTTTTGGCAAAGATTCTGTTACTCCAGCC
RACAACATTGTGGTGAACTGAGGATAAACCCATAGCCCTCCTTATTTTCAGCCAATAATACGGGAATCAATAATACGGGAATATTCCACTACAAGAATGC
ACTGTGGTGTTTCTTATAAAGTGGGATGGAAAGAGTTTACCAGAAAACAAGGCTGTCTCAGCCAAGGCATCCCAGCTCACAGCAGGCTATGACAGGGCAC
TGGAAGAGCCATAACGTGGGCAGTAGGGCAGGCACGGGGGAGAATGCCAGACACCCYGAAGGACTTGGGAGCGAGTCCAGTCTATGAGGTCAGCTGCAGC
AGTCAGCACTTGGGATCTAGATTAGGAGTCACTCTGGGCAAGTCTCCCCCCATAGCAGTGGGGTTGTGGTTGCCAAGTTAACTTGAGAGTATAGACCAGG
TTCCTGAGTCAGCATCTGTTACAATGGAGAACAACAGGGTCATGTCCTCATTGAAGGCTCAGTATAAGACAAGAACCTGATTCTCTCCTGTTGTTATTTC
TCCATTTTAATAGAAGATTCTGTACAAAGTGGGGTGGGAGACAYGGGTCAGAAAGAGTGAAATGATAGAGAATCCAGGAGGAGGTGGTAAAATGGGTGGT
ACTGCCAGTGTCTGCCTACAGATGCCATGATGCTGGTGTCTGTGAGTAGTGAGAACTGGTGAGCAGGATGGGACTCAGAGGATGCTAAGCTGGCTATCAA
GACAGGGCCTCAGGCACAGAAGTATGAGGCAGAAGCCTGAGTTATTACAACTTAGATGGATCTCCCTTTGTAGCAGAGATGGCTCAATGTAGAACCTGAC
AGGCTTAGCTGGGGCTCTGGAAATCTTTTGAGTCTAAGATTAGAGTTAATTCTAGGGACTGAGGTTGAGCTAGAACCTCAAATAATGATGAACAKTGGCC
CCACTGAGAAGGCAGAAGGAGTGCAGTCAGTAGAGACTGGGTAGACCTGCCAATGGGGAATTGCCTTTCAAATATGTTCTGTTGGGTTTTCTTAATTTTC
TTTAGCAGGATTGGCAGATGTACATGTTCCTATTTCCATTTTACATGGCAGACTCAGAAGTACACAGAAGTGCCAGAGKTGATAGATTCATTCTACCTGA
GCATCTGACACTCCTTCCAATACCTCTGTGCCATTGGCTTAGACTAGATAACTTCATGAAGTTCCTTCAGTGAGGGTTGCAGCAAAGCGGTGGAAAGCAT
GAGCTATGGAACCAGACTGCTAGACTTTTATTCCAGCTCCATCCACCTCTTCTGACTGTGTAACCCTGGGCAGGTTATTTGGCCTCTCTGTGATGCAGCA
GAAGTGGAGATAGTATTTTCCTCACCATGTAGTTAGAAGGATGTAATCAGGCATCCTCCTATCTGTTTAGAACAATGCCTCACACATAACTGCTCAATGA
GCATTGACTATTATGTAGAAATAAATATATATATTTTAAGACATGGTCCTGTTCTGTCACCTAGGCTGGAGTGCAGTGGCACAATCATGGCTCACTGCAA
GCTTAAGCTCCTGGGCTCAAGTCATCCTCCTGYCTCACCCTCTGGAGTAGCTGGGACTACAAGCATGGGCCACCATGCTCGGCTAATTTTCTTTCTTTTC
TTTTCCTTTTCTTTCTTTTCTTTTTCTTTCTTTCTTTCTCTTTTTCTTTCTTTCTCTTTCTTTCTTTCTTTCTCTTTCTTTCTCTTTCTTTCTTTTTCTC
TTTCTTTCTTTCTTTCTTTCCCTTCCTTCCGTTCTTTCTTTCTTTTCTTTCTTTCTCTTTCTTTCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCT
TTCTTTCTCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCGAGATAAGGTCTTGGC
ATATTGCCCAGGCTGGTCTTGAACTCCTGGCTTCAAACTATCCTCCTACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCTCAGCC
AAAATAGATTTCTCTAGGGRAGATTTCAGTYGTTAAGTAATCGCTACCTAGTGAGTAGATGGATCCTTGGTAAGGCTACTCCTGAAGAGTAAATACTGGG
AAAGTCATTCCTGTTTAGTCTTAGAAATCTTTAAAAARCAAGATTTTTAAAATTAATTGGATTTACCTATAAAAATTGGGAATTTTAGTAAGAGATCAAC
AGATTTAGAACCAGGAAGTTGGAGTCTGAGTCTTTGCTGTGCCACTTCCTGACTTTGTGAGCTTGGGCAATTTTTCCCATGTCTCACTYGATTTCCTTAT
CTGTGAAAATTACACATAATGGGGAMAACAACTCACCACATAGAATCATCCCAAGAATCACAGGAAATAATAGAGCAAAAGCACTTTTAAACAGATGTTT
TGGGCGTTTTTATTCCCTGGATGCAAACCTACTGAAAGCAAGTAAAGGTACTAGTTGTCTATAGKGTAGGCAATAGGAAGCCATGCTGGAGTTTAAAACT
GAAGTGCAGAAAATCCACCCTAGCTTCAGATATGGATAATTTAGTAAGGTCTTCMGGTGTGTCACAAAACACAGACATGCAGTCAGTTCCGAGGACTCCT
CTATCTCCGTGACATTTGCTTACCAATAGCCAGATTGTGCTTTTATTTCCCCTCTACTCATGCAGARGATTCAGACCCCACTCCGGKGAATCCTTGCTAT
GATGGGAGCCACATGTGTGACACAACAGCACGGTGCCATCCAGGGACAGGTGTAGATTACACCTGTGAGTGCGCATCTGGGTACCAGGGAGATGGACGKA
ACTGTGTGGGTAAGAGCCATGTTCTCGTGTCTCCTTCTTGTARCCCTTGTTTTTCCTCTGCCCTCCCCAGCCTTATGTCTGTAGAAGACAAGTATCTGTC
ACCTTTACAACCTCCATTGTCAATGATTTTAGCAGCTGTTAATCTGAATATAGTTATTTAAAAATTAAAGCATAGCTGTTTAKGTTTGAAAAGATGGTTT
GGAGTGGAGTGGATTTTGCACCGGGGCTGTGAAAAGAAAACATCTGTTGCAGTTCCTGGATGTTTTGAGTTAAGTTTTGTAATTTTGAGCTTTTGTAGTA
AGTAGTTCTTAGACTTACCAAAAAGCACATTTTCTGATTTTCTTTAAATTTTAGACAGACATTGTGTGTCTTATATCCCCAAAAGGCAACGGTAGAAATT
TCTTGATATTAAAAAAAATTGTTGGTTTTCTTCCAAGTATCCATTCTTTTTAAAACAGTTAAAGAATTCTTAGAATATTCACTTAAAAATTTATCTTCCT
GTGGTGTTTACTTGAATGGCATGAAATTTTTACTATTTCTGATTATSTGCAACATGCATTCATATCTGATTTTTAAAAATTCTACATCTGCCAACCATTT
GTCCCATTGAAGCATCATACTAGTGAGAAAACATTGARTTTTTAGACCCTCCACTTCTGGGACCCTTGAATTAAGCAGAATTTTTCTCTTCTCATTTCTT
CTTAGATGAAAATGAATGTGCAACTGGCTTTCATCGCTGTGGCCCCAACTCTGTATGTATCAACTTGCCTGGAAGCTACAGGTGTGAGTGCCRGAGTGGT
TATGAGTTTGCAGATGACCGGCATACTTGCATCTGTGAGTTCCAAAATCATTTTCCTGTGTGGCCAAAATGGTGCTCTTTAATCTTGCTCTTTAATCTAT
CAGTGTTTTGACTTCTGCTATTCAGAGGCTCTGCTATATGGTTTTCTTAAGAAGACAGTTTACATCAAAATAACCCAAAGCTGGCTGGATGTGGTGGCTC
ACGCCTGTAATCATCGCTTTGGAAGGCTGAGGCAGGTGGATCKCTTGAGTTCAGAAGTTCGAGACCAGCCTGGGCAACATAGCAAAACCCCGTCTCTACA
AACAATACAAAACATTAGCCAGGTGTGGTGGCACACGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGATAGGAGGATTGCTTGAGCGCAGGAGGCAGAGG
TTGCAGTGAACTGACAGCATGCTAGTGCATTCCAGCCTAGGTAATAGAGTGAGACTCTGTCTCAAAAAAAMAAAACAAAAAAAACAACAAAATCTCTCAA
AGCTATGGCTCAGTTTCAGCCCTGTTTATTTTCACTGTTTTTCCCTAAATAGATATTTTTGGTGTTGAGTTATTGAAGGATGCCCACCTCAGTTGGGATT
TCTGGCCCAGTCATGTAACAAGATGATGAACTTCACTAGTAAACAYCTCCAGCTCTTTAGATAGAGCCTAAAGTATTTTTCAAATTRGAAGAGATGGATT
TATAATTCACTGATGCATGTCCTACTTGACTGGCTAAAGAGCTCCTTCTGTAACAAATTACCTCTTCTRTATTTCCAGAAAATACTACAGACCTAAAAAT
GGATCAAAAGAACTATCCCAATTCATCCCATTGATAAAGATGGATGAGAGTAAAGAAAATGCACTCTTTAGCCAGGCATGGTGGCTCACGCCTGTAATCC
CAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCAGGGAGTTGGAGGTTGCAGTGAGCCGAGATCACGCCACTGTACTCCAGCCTGGCGACAGA
GTGASACTCCATCTCAAAAAAAAAAAAAAAAGAAAGAAAATGCACTCTTTAATTCAGTGGGATGAGGGTAAAAGTRATAGGAGAAACTGCKTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTAGCAATTGCTCTGGAGTGTTATAAACTTTAATTGAGGACTGCTTAGGTGATGGGTTTTTGTGCTTAGTATTTTA
ACAGCAAATTCATACCAGTACTTGAACTTTAATAGCATACAAACCATCTAGGAATCTTATTAAAATCCAGATTCTGAATCACTGGACCTTGGGTAGGGTC
TGAGAACCTGCATTCCCTGGTCTGTTGCTGTTGGTCTGTGGATCATGCCATGAGGAGTGAGGCTCATCCTTTGCAGGCCTAAACTSTGGATGCCCTTATC
TTCTTYTCTTTTCAGTGATCACCCCACCTGCCAACCCCTGTGAGGATGGCAGTCATACCTGTGCTCCTGCTGGGCAGGCCCRGTGTGTTCACCATGGAGG
CAGCACGTTCAGCTGTGCCTGCCTGCCTGGTTATGCCGGCGATGGGCACCAGTGCACTGGTGAGTAACTGCAGGTCAGCCTCAATGACTGGAAAGTTGCT
TTGGATGCACATCCCCACATAGATGGAGCTCTCCCAGAAAAGACAAAGGACTTCCTTTGACTCTAACAGCCTTGTGGCTGCCAAAATAGTGAGAAAAAAG
CGTCCTTTGAGTTAGAAAGGGGAGCCAAGGGTGATTTCCTCTGGACTAGATGGGSGAGCATATATGGCTTCCTTGGCGGAGACGTTCCTGTAGCACTCGG
GAGCTTCTAACCTTGGTTCCTTGGAGCCAGCGCAGGCTGGAGGAATTTAGGGAAAGTTGCATACCTTCCTGTTAGGCGGTCTCCACCTTAATTCAACACT
TATGGTTGTGCTCTTMTGCTTTAAGTGATATTTTAAGCAATCTCTAAACACATATGTAATTTCTAATTTTTCTCCTCTTTCAAAAGAGAGAACTCCACAT
ATATAAAAAGACACATATCAAAACTTTTCTCCCAGAAATCTATCTTTAAGACTTAATGCAGTATTTTATAAAAGCACCAAACCATTTGCAAGGCTAGCCA
TTGGAATTTAACTTAGAAAGAATGTGTGAGGTTGTTATTTAAAGGCTCGACATAACTCTCTGAGTATAAATGTCCATGAAACTAGGATTAGGAGTACTTT
AAAATAGAAATCATTAAATAAATCTTAAATCACAAAAGGTTTTCCAAACATACCCTGTGGTATGTGATCAGATTGAAACTCAGTTTCACGTGAGTCACAC
ACACACAGTTAGGGTAAAACGACACACTGGGGATGAGAGAATGGTGGGAAACGTGTTTAGAATGGGAAAGGGCCTGCTGGGGAACATGAACCTTAAAAGG
CAGACTTTCYCCTGCTCCTGGTGTTGCTGTGTGCATCTGCCTCCATCCRCCCAGGCCCACCGAGCTGATGTGCTAAGAACAGCTTTGCAATTCCTGGGAG
CTTTATACCAGATCCGAATAGCACGGGCCTCCCTCCTCCTCACCAGATGTTTGATTCTCATCCTTCTCCCATTCCTTTTTCCCCTTTGGTTTCAGCAGGA
TGGGCTGAGTGGACAGCAGGCTGAGGCCATGTGTTACTGACAGAACAAAGGTCACTGTGACAGCAGCTCAGCCCTCCACTTCTCTCTGGATGGGGCAAGT
GCACATGGTGGTTTCTGAGCCTCATTCTTACTCTTTCCACTTGTGCTGTACAGAAGCTCTGCTGCATGGTTTTCTCGAACAATTTATGCTGAACTAACCC
AAAGCCGTGGCTCAGTTCAGCCCTTTTATTTTTTTCTTTCACTAAATAGATAYTTTTGGTGGTGGTATTGAAAGTTGAAGCTATGGCTTGAATATTCGTC
TTCTTCAAAACTCATGTTGAAACTTACATTCCACTGTGGCAGTATTGAGAGGTAGGGCCTTTAAAAGGTGATTGGATCATGAGAGCTCTGCCCCTATCAA
TGGATTAATGGGTTATCTTGGGAATGGAACTAGAGGCTTGATAAGAAGGGAGGCCTGCCTAAAATAACATGTTAGCACACTCAGCCCCCTCACCATGTGA
TGTCCTGCACCACCTCAGSCCTCTACTGAGAGTCCCAACCAGCAGGAAGGCCATCACCAGATTTCAACCCTTGACCTTAGACTTCTCAGCCTTTAGAACT
ATAAGAAATAAATTCCTTTCCTTTAGAAATGACTCAGTTTCAGATATTCTATTATAAACAACAGGAAATTGACTAATACAGATGGTAACCCTCAGTTGGG
ATTCCTGTGTGTCTTGGTATTAGGCCCAGTAATGTAAGAAGACTATGGACCTCTTGAATAAACACCCCTAGCTCTAGATAAAGAGTATTTCCCAATTAGA
ATGAGGTAGATTTGTAATTCACAGATGTTTGTCCCACTTAACCAGCCAGGAGCTCCATCTGTCATAGATATACTGGTGAGAAAACATTGAGTATATCTAT
AATAGATACACTCTTTACAGATACCCTCTACAGGTATGGAGTTCAGGGTGAGGTGCCAAAGCCTGACAGTGGGAATGATGCTTTTCCTTCGTGTGGAACA
CATCGTTTGTTTGGTTTAACCCTAGTACCAGCTCTAAGAAATGTGAATCCACTGAGAAAAATCTTGTCTGTAGAATTTATTTAAACATCTGGCTGCTCAG
ATCAGCAGAGATGGTGCTTTTAARATATTTAGTTCCTTAGCTCTCTGGTTTAAAGCAAAGAAGTTGAAATTAATTTCAGCCTAGATATGATGAGTGTTAA
TCRGAATATTAATTTAGATTAGRTGCTGCATGCTTTGATCACTTCTACAATGATTCTCTCCCTCCTTTTTTCTTCTACTTGTCCTGCAAGACTTTGATTA
CCTTCTGGGGTCATGTTAGGGCTCTGAAATTGACTACTTTTCCATATTGGGAATTTAAGTATTGTCATTTTTTAATTTGCCCTATTTTTGTCATTTTCAA
TTGTCCCYATTTTATTTCTGGTTCTCTGCTTTTAGGATTCTTTCCAAAGCCTACAAACTAAAAATATGCCAAACCCATCAGGTGCTTCCCCCAGTGTATT
GGTTATCTATTGCTGTATAATAAATTACCCTAAAATGTAGCAGCTTCAAGCAATAGACATTTAATATCAGTGGTCCAGRGACCTGGGAATGGCTCAGCTG
GGTCCTGTGCTTTAGGATCTCTCACAAGGCCACAGTCAAAGTGTCTGGTGGGTCAGTGGTCTCATCTGAAGGCTTAACTGGGGAAAGATCCACTCGTGGT
TATGGGCAGGATTCGGTTCTTTGAGGACCATTGGATTGAAAGCCTTGGTTCCTTGCTGGTTGTTGGCTGCCTTCAGTTTCTTGCCACTTGGGCCTCTCTA
ACACTACAGCTTACTTTATTAATGCCAGAGAAAGTCTGCTAGCAAGATGGAAGTCATAATCACAAAAATGACATCCCTTCAATGTTGCTTTATTAATTAA
AAGCAAGTTACTGAAAGGGTGGGGATTACACAAGACCATGAATACCACTAGGTAGGGACTGTTGGGGGCCATCTTAGAGGCTGCCTACCACAGCCACTTA
CCATGTAGTTGTCTTCTAAACTTTCAGATTGTGGAGTAGTAGAGAATGAATGGTCATTTTCCTAAAGACCCATGCATAAATCAGGCTAGGCTAATCATGA
AAGTAACTTGAAGAATAAATATTGAAATATATGTGTATGTGTGCATAWTTAAAGGCATTCCATAGGGTACATGTGTCTCAGTGACCAMAGAACAGAGGCT
GTATTTTGTGGGTGCTATGCATTGTTAAAGCACATGCTCTTTTACTCYATCAAACTAACAATAAGGGGGTGTGGGAGTTTTTCTCCAGCCATAGTTTGTT
AAAAAAACYGGCTCCCTGGAGAGGCTGCACTTGGATTTGGGTTCTCAGTCTGGTCTGAGTCACTAGCCAGGAGGCTTTTATCCAAGTAGAGTTAAATCCT
CTGCAGCTTCCCTCAATCTGGAGTGATTTCAAACTTGTGTTGGTGTGAGCTGGATATTTCTCAGACATGTTTGTCCTTTTGGATTGTTGTGACTTGGCCA
GGTGCAAAAGCAGATTGTCTTGAGTTGGGACCTTCCCAGGAGGAGCAAGTGTGAGTKGAGGAAGCTGGGTTACAGATGGCCCATTACCCAGAGCCATCAT
TACTCAGGGGCCTGAGGGAAGATACTGACATTATTCTTTCTTGGGTTTCCTGGCGTTTTTTCTTTTCTTATTTTTTTTTAATTTTTATTTATTTATTTAT
TTTTTTAGGCAGGGTCTTACTTTATCACCCAGGCTGGAGGGCAGTGGTGTGATTACAGCTCACTGCAGCCTCARCCTTCCAGGCTCAAGTGATCCTCACA
TCTCAGCCCCCCCAAGTAGCATGCCCAGCTAATTTTGGTATCTCTTGTAGAGATGGGGTTTCATCATGTTGCCCAGGCTTGTCTCAAACTCCTGAGCTCA
ATCGATCTACCCCCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTCAGCCACCACACCCGGCCTAGCTTCTCTCTTCTTTGATAACGAAAGCATGATC
TCCATTATGTGCCTGGCCAGGTTTCCTGTTCCAAGAATGTAGGTAGATGTTGGGTATGGTATGGTAAAATCAGTGTGGTTATAGGAGGAGGCAAGGATGA
AGCTTGAAAGGAAGTAGTTTATTACACTTACAGGTCTGGAGTGGGTTCACCACATGCCAYACAGGGGTACAATCAGCAGGGTGCCCAATTGAACAGATTG
TGCAGTAGAGAGAGAGTGGGACCTGTGGGTTGAATCCTTTATTGGGATCTGGGATGGGTTTGAGGTTAATTGATGCCAAGAAATTTCACTGGGCTCAAAG
GCAAGTGGGCAGTGGTGAAGGGGCGGGAGCCTGGGGGAACTCGAGGCCAGGGGTTAGGTTTATCATCCAACAGTTCCTGCTGGTTTTGCTCAGTACTTGG
GCAGTGAGAAGGATGTTGAAGCACRAAAGCATGAACTCGAAGGATTTTTAACACATTTTCCAAAYAGGTTCTTTACTAGCTTAATAGAGTGTAGGATTGC
ACTGAGATTAAGCTACCTCTCATTACCTGAGTGATAAAGGGGCTCTACGACTTCTTGAACGTTTTTGTCTTTATAGCAGTCCCTACAGGCCCCTGCTAGT
AATGACTAAGCATAAGCAGTGGCCTCCTTCTCCTTCTCCAATAAAGTTCCTCCCTTGCCAGGGGGCTGAAAGTCTTTCCATGTTTTCTCTCTTGACATCT
GATGTCCTGTGCATGCCCAGGTCCCGGGACTCTAGTCTCTATCATGGTGTGAGAGGCCCTCCAAGGAGGAGTCAGGACTGCGAATTCAGGGAGTCTCAAT
CTTTGGGGCAGGAATTTCTCACTTGTGATATCTTCAGTCTCTTTGGGGACTTTCTCCTCCTTGTTGGTCATTTCTAATAGTTTCTGTCTACCCAGAACTT
TAGTATCTTTGATGATGCCAACAGTATCTGTGGGGAGGAAGGCTGGTCTTTCAGATTGAGTCAGAATTCTTAGGCTGAAGGTTCTAAGCACACCGTTGAT
TTATTTGGTAGCTCTGGGGAATCCCCTCTCTCTTGAGTTCAAAAGTAACAATAAGAAACTGCTCCATGGGCTCCAGAAATAGGCCCTGTGTCTCAGGAAT
TCCTGCTTCCTGTCATTGCTTGGGGTTCCTGTTACCATTAGAAGTACTTTTAGCATGCGTATTGTGAATAGCTTTAATTTCCTGCATTCRGCTGAATGTT
AATTTTTACAGGTTTAGTTTTACAGCCAGTTTTACAGCCTATTCCAGGTCCAAGGTATTGGATGGTCACCAGTTTTGCCCAGCTGGGCATTTGAATTGTC
CTGTTGAAGAGGCAGAGCCAAGCTCAGGGATAATTATGACAACATTGGTTGATTTCAGGGTAACTGAGGAGCCAATCTGGTTTGTTTCTACCCTTGCAGA
TGAATTGATATCTGCTTTCTTGCCTTTATAGGCGAAATGATGGTATCCAGGGAGGCCAACCACTCACCTGGGTGGAGACTCTATGGGTTGCAWTGAGTTC
AGAATTTTTGGGGGAGGACTCCTAGGAACTGATATATGCTGACTAAACTCCCCAGAGACAGAAGATAAGCAGAATACTTACCTTCTAATTATAACATAAG
AGATTCCTCTCTAGGGAACAGAACACCTACGCTTAATGCCCAGTGTGTGTACTTAATGGTATTCGAGAAAGCACATTAGTTATTAGAGGATGACCCAGTG
ACAGTGTGGTCTGGACAAAGGGTGGTGCAGGTAACTCTAGAAGAGGTTCCATGTGGGTCATGGGAGCCTGGGTGAGGAGCTAGCCCTGTTCCCAACCCAT
TCACATCAAATTTAGGGCTTCAAATATCTGTCTTCCCATGCTGATGTGTCTCTACCATGGGCTGCACCGTATTGATGCAACACATTCTCATTTTCTAGGT
TTCACACTGATCACACCATCCCACATTTTTTTTTTTTCTATTCACACATTTTAAAGAAACTTGGTTATTACTATGGATGGAACTACTGCTTTGTTTTATT
TTCAGCCAAGCCTTAATCGGACCTACACCCTTTGTTTATCCTCCTTTTACTCTGAAAGACTTCCTGTCTCTTAAAGTAGCTTATCTCATCCCTTGGGCGT
TAGTTTTAACCRTTCAATTCTCAGAGCTGCTTTTTTTCTGCTGGGGATGGGAGGGGTGGGTGACTTGCTATTGTCGGCATATGCGGATTTCATTAAATAA
AAGGAATGTAAGTTGGCTTTTGTTTGAAGTGTCAGGATTTTGTTGTTTTGAGAAATATGATGGTGAAAATTAATCCTCATGGTGCTATGTGGAGAGTGTA
GGGGCCTGAATTGTTTGTACTGATATGCCTGGCAAATTTAGATTTCCATTTTGTAAGTATTATTTCAAAACCCTAGATAATATTTTTTTCTTATTTCTTC
TAAAAGTGGAAAGTAAAGAAAATACCTGGTTAATGGGGGTGTGGTTCTAGATAGTAAGATTCTAATTAGTCAAGACAGAATGTGCTTCTTAGCTGAAAAA
TATTTGGGCCTCATCTGGCTCCTTTGCATCTACAGACGAATGTTACAGGGAGATGGTGCCAACAACGAAAGAAAAAAAAACCATTGTTGGATATATTTGT
CTTTATTGCAGCATTGCTGAAAGGAAGTTAATGACTTATAGTCTAAAGGTTAGTTCAAAGGTAATAACTTCCTTGAATTCACTGTCAATGAAACATGCTG
TAAGATGTGTTGTTTTTTTCTGTGAGCGACTACCCATTTGATTTCTACACTGAACACGTTTAGTCTAGTGTGTTAACTCACATGTTCCTTGATTTTTTTT
CTTCCTTTCTATTAAGCTTACCTTTAGGTGTCAGCATTTTTCTGCTCATGCTCAAAGGTCTTCTGAAGCTGACACCTCACTGGGTGTTGATCCACATATC
CAAAGCCCATGCAGTCGCACAGATTGTGTGAGTGAAGTCATAGTGTTCTTTGCTTCTTTCTTCTGTTTCTGACCTCTGCAGATGTAGATGAATGCTCAGA
AAACAGATGTCACCCTGCAGCTACCTGYTACAATACTCCTGGTTCCTTCTCCTGCCGTTGTCAACCCGGATATTATGGGGATGGATTTCAGTGCATACCT
GGTAAGTTTCAGAGGGCCAGATTAGGCACATGAATCTCTTAGCTCCTTCAAGGATATTTTTCTATGACAGCCCACTCTTGATTTAGCCTGGTCTGGAGCC
TTGGTGGATTTTCCAAGCTGTGGATTTTTTTCCTTGGTTACCTCCTGCTGCCTAGTTTACTGATAGTTCACTGATTCGTAACATTTCTGGAGGCCTGCGG
GAGACGACCCACCCATCGTCCTACCTCATAGCCCCTCTGGTTAACTGCCCTAGTGATCTGCTTGACCTTGATGAGTGCAATTTGGATGAAGTGTTGAGAT
CAAGCTTATTAAGCAGAGCCTTATGCGCCGGTAGCCAGGGTTAAGCCCGTGGCGACCGTGTTAGAGGAGCTTGGCTAGCTTGGTGCAGTCTCGTGAGTGG
TGAGTGCCGTTGGCTTGCAGCTTCTCAGACTTAACCTGTGGGCCTCAGGGCATGAATGAGCTTTGGCTTGTTTTCTCCAGAGTCTCTTGGGATGTTGGGC
AGATGCCACCGCTATCCCTCATTTTCCCCAGATGACAATAGGGAGGGGCCGGGCTGCTTTACACTTAGAGCCAGCTAGGGACCTATAGGATGAACTAGAA
GAACTGGAGAGAAATGAGGTAAATAGTGGCAAGGTATTATAAAATAAGAATCTCGGGCTCCAAAATCCCAGCGCTTTTCCATGCCACGCTGTGGGCTGGT
GAAGTGGATGGGTTGCAATGCCTTCTATTTCTCTTTTGTGTCTTCCTCTGCCTTGATCCTGGAAGACTCCACCTCAAGCCTGACACCCTGTGAACAACAG
CAGCGCCATGCCCAGGCCCAGTATGCCTACCCTGGGGCCCGGTTCCACATCCCCCAATGCGACGAGCAGGGCAACTTCCTGCCCCTACAGTGTCATGGCA
GCACTGGTTTCTGCTGGTGCGTGGACCCTGATGGTCATGAAGTTCCTGGTACCCAGACTCCACCTGGCTCCACCCCRCCTCACTGTGGACCATCACCAGG
TGAGCTTAGGCCTGGGGCTCAAGAAGCAGAATGGCACTGGTGGTAGGTAGATCATAATTCCTGCCCAGACCACGCAGGCASGGGGCCAGTCACCATCCTT
CATAGCCTCTTTCCTCCTGAGAAGACTTGAATAATAGTGCGTACAAATATGCATGTTTGTGTCATAAGGACATAGAGATATGCAATACATGACACATATG
ATCTGTTACACATTTGCCTCTTAGACCCTTGTCCAGTACAAACTGAAAGTTGAGATTGTGTATGTAGGTCAGACTGAGAACACTACCCTAGACCTGTTAT
AGAGCAGCTTAGGGAGATCTGACAGTTAGAAGATCTGGCCAGACTGGCGTTTTGACCAGAAGGAAAACTGCTTTCCTATGTAACTATCTCACTTACCTCT
GCCTTCTGAATGGCAGGAAACAGTATGAACGCTCTGTTAGTATCAATAGGAAAAATTAGAAAAATAACACCTGCTAGTGGAGCCAGTTAGTTTTCTCTAA
ACTGACAATCCCAGCCCTCTGTAACCCAGCCCAACATCTCAGAGGAGGCACAGACATCTGGTTTCTGTTAGCCCATACAAYCTGAGAACATGCCTGCTAC
CATCTAGAGCATTCCCCAGCTGGGTGGGGCATGGTGATCAAGTGCTCACAGTCGATTCCAACAGCAGGCAGATAAGGCAACTTTCTGTTCCTTGTTGAAT
TATTCAGGGATAGGTAAAACTTGTTTCTTTAATCATTACAGAAGAACTTTATTTAATGAAGAGCATAGGATTGGCTTGATACCGTTTTAGCCAAAATGAT
TCCGACACAGCTTGCTATCCAAAGATCCATTTTTACTATTGAGAAGGGTTCCATAAATACTAGTCTTGGCTTTTAATGTGTGAAAGTAAGAAGAACTGGA
GAATTACCAATAGTTTTTTTCCCTTTTAATGGTGTTAACTGTTGCCCGGGTATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGT
GGATCACGAGGTCAAGAGATTGAGACCATCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACGCACCT
GTAGTCCCAGCTCCTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTAGGCCAAGATCATGCCACTGCCCTCCAGCCTGG
CAACAGAGTGAGACTCTGTTTTTTTTGTTTTTTTAAAAAAAGGTCAGGTCTTGGCGGTTCTCAGATAGGTAAAAATTGGTAATGGTTTGATCCATAGTCG
CTCTTTGTTTCTATTTTTAGGAAAAGATTTTAAAGGTCCAAAAAAGGTACAGAGAAATTCTATTTCCCTCATGCCTTCTCTTTGAAAATGTCTTGGTTCT
AACTCCATCTGGGATTTGAAGAAATCAAATGGTTGGGAGGTGCCTTTGGGGAATGGTTCAGAATTCGATTAAATTTATTAAGACAGGCATGTGTTAAGGA
CAATGATTTTAAAGGGGGAACCAAGATTTTAAAGGGGGGGGAACCAAGAGACTGAGAAGTGAATGACGAAAATAGGGTCGTGTTCTCTTGTGCGGACTTT
TTCCTGCCCACACTCTCTCGGCGCTGGTTTGGCCCCAACTGCTATCTCTGACTGGTCTCATGTTTGATGGGGTCAGCTTGAGGGAGGGTAAGGACGCTCT
GTGCCCACAATTTCAAAATACTTAAACCCTTGCCAACCAGAAGCACAAGAGAAAGAAATTCATGGTTGGGTTGAAAAGTAGCAAATAGTAACGAATGAAA
GGGATGCCCATGTATGAGTGATTTGGGACACCCATTTCCCAGGAGTTAGGCATGTCTCTTTGTTTGGAATGCAGACACATAGCACAGGGTGGTCCCTTAA
AGCAAAAATGGATCCTTGGAGTTCTGAATGTGGAGCAGGGGTGGAATTGGGAACTTCTCCAGGAAATCCTGYAGTGTTTGAGGAAGTAGCATTTCCCTCT
CTGTGTTCCTTGAGACACATTTGGCTGAAGAAGTCAGAGTCTTACCTTCTCCACGGGGTCTTAAAAAGAGCTTTGTCTYCCATGGGTCATGAGCTACAGT
GACAACTTAACGGCATTCGCTTCCCCCAATTCTGGTGAGTCGTGCAGTTGAGCTAGAGCTAGTTGGGTTTGAGCTCTGACAACTTCATTCGCAGTCTTTT
GTGTTCCAAGAGGAATTGTAGGTGCTGGAACCTGATCATAATGCTCCCAGCTTTGTTCTTTAGAGTCACTGGAGGGTTTTGAACGGAGTGACATGAAATG
CCTTTATGTTTAAAATGGGCCAYTCTGGCTGCTGCTAATTGAATTTACACTGGTTTTGGAGAGAGTGAGGGCATRGAAGGGTGGAAGCAGGAAAACCAGT
GGGAAGGCTGTTGCAGAAATTGCAGGGAGAGGATGAGGCTTTTTGACCAGGGTGAGGGGGTGCAGTAGTGAGAAGTAAAGATATTCTAAGTGGATTCTGA
AGTTACCCCTAAAAAGAGTTTTTGACATATCAAATGTGGATGGTGAGAGAAAGGAGGGTCAAGGATAATTAGGTCTGAGCAGTGGAAAAATGGAGGTGCC
ATTTACTCATATGGGAAAGACCAGGGGAGCAGCTGGTTTGATGGTGAAGGCAGGGGCTCAGTTTCTATTAGTTTCTGATTTCTATTATACATCTAAATGG
TGGTAGCAAGTAGGGTTATTGGCTATGTGATTCTGCAGACCATGTGCTTTAAGTTGCAGGAATTAAAAAGGAAGGAGAAGCACCTCCTCTTGTTTAAGTT
CCTTTGGGTAGTCCTAACATAAATGAACAAGTTATCTCAATAACCTTCTGCAGCAGAGTCTTCTCAGAACAACCTGTATTTTGGACAAAGCCTCAATGGC
ACTGTGGAAGCAGCCTGGGAGGAAACTGCTTTGCAACCAAAGCCAGCAGGACTTCAACCATGGAGTGAGCTGTGAGGGAGGGGACAAGAGGAGAGGATGC
TGGAGAAAGRGGGGGAAAGGGCAACACGGCAGGAAGCTAGAGCCTGCAGGAAAAGATTCAGCTTTGAGATAATCCCAGGCGCAGGGTGGCTAAAGCAATT
CTGGAAACTGGGCTGTGGAAGAACCATTTTTAAGCTGTTTGCCACCACCTCTGCTATGCTTTACTACTAATTCCACTCAGTTTTACCTTTACTCCATGTA
GTTTTCCAGTGGGTAGACAGAGGGCACCGTGGCGCTGGGCTTTCAGTAATACTTTCTAAGACACACACTGGCCAGTCGCAAGATGGCCCTCTCCTCAGCA
GCTTCGAGCTTGAAGCTTGAAGCAAGTGGGGAATGAATACAAATTGGCTTTAAGCATCACCTCGGCTACTGAGTCCCCAAGGATCACCTGCACAAGTGCT
CTGTCAGCAGAGGCGCCCGAGGTACAGGCAGGATGGGCCTTGTGGGCCTCTCCTGGCCAGAAGGAGATCATGCCCCTTCCCAGGCTGAGTGAGCTGCACT
GCTGATCTTACCTCCTCTTGTTCTTTCTTGATGTGGCTGGGCCTTGATGACAGACCCTCCTGGCAAGAAAGAAGCATCACATGATCTATTTCTGATTCCC
ATGGTGGAGAAGTACTTAGAACACATTTGCTTCCCAAGTTTGGTGTCCACGGGCTTGGCTGAGACCTGGACAGTAGGAGAAGGAAGGCCAGGAGGCCAGG
CATGGGGTCTTGAGCTACATTTTGCATTCTGTCCTTGACTCACAATCAAAGGTTTTTCTTCTTCCCTCTTCCCCATCTGCTCAGAGCCCACCCAGAGGCC
CCCGACCATCTGTGAGCGCTGGAGRGAAAACCTGCTGGAGCACTACGGTGGCACCCCCCGRGATGACCAGTACGTGCCMCAGTGCGATGACCTGGGCCAC
TTCATCCCCCTGCAGTGCCACGGAAAGAGCGACTTCTGCTGGTGTGTGGACAAAGATGGCAGAGAGGTGCAGGGCACCCGCTCCCAGCCAGGCACCACCC
CTGCGTGTAAGCACCTGGCCGCCCCCGCTCCCCTCAGCTGTATCTAAGGCCTTTGCTAGGGATGGTGCCTGCTGTGGTGAAGTGGGGGGACATGTGGGGT
CACCAGGTCTAATGAAAGAAGTCACTATGTGCTATGTTGATTTATAATCTGGTCCACACAAGATCCCAATTTGCGTTTGGTGTCTGGTTTTTGTCATTAG
CAGCTTCCATAATTGGAACATCTGCAACTCGGTTCAGCAGGCAGTTACTCCCCCTCCCCAGCCCAGGGTGACAGGGGACACGTGTCACTCTGGAGTCCTA
AAAGGAAGCTGACACAATGCTGGCTCTGTTTTTTTTTTCTCTTGAAAAAAAAATCTGTTCTGCTTTGTTCTGAGGGAAGTGTTTTGCTGTCTTCTTCCCT
AGTAAATGGCAGATTTACATAATTGATCCTTAAAAAAACCCTAGAAATTAGAATTTCTTTTGAAGAACATCTGGAGCACATCTGCGTAGGGCGAAGAACT
TTTGATATTTTTGGAGGCTCTGGTATGTGGTAAAGTAACTTTTCTTCCCATCTCCCTGCCTGCCCTTGTTCCCCTTCCTGCTCTCCCACCCTCTCTCCCA
CAGGTATACCCACCGTCGCTCCACCCATGGTCCGGCCCACGCCCCGGCCAGATGTGACCCCTCCATCTGTGGGCACCTTCCTGCTCTATACTCAGGGCCA
GCAGATTGGCTACTTACCCCTCAATGGCACCAGGCTTCAGAAGGATGCAGCTAAGACCCTGCTGTCTCTGCATGTAAAGYGGATTTCTCCTGTAGGGGGC
AGGGCTGYGTGGYTTTCCCAGTGGGAGCCACCTCACAGGCCCTGTTGCAGTGAGGTGGACTGGTGCAGGGAAGTCCTGGAGGGTTTCTGAGCTGCAGCCC
ATYGGCATGGGCCCGATGCCACCACCATAGGACCAGGGCTCTCTCTTGCTGGGAGTCACCTGTCACTGACCAAGGCTGTGCTCTCTGGTTCGTTCATGGA
GTTTCAGATAATATGGAAAGGGAACTTTAGAGTTGTCAGCACATGGAGGCTGTATGGTGATCCAAGGGAAAATGGACCGACTCTTACCCTAAGTCCCCAG
GGTTGTATGTCATAACATCTCCATGGAAATCCTGGAAATCAAAGTGACAGGACAACYAGTCACAAGGTGTGATCTCTGCGRTTTGTTGGGGACTCCAAGT
GGAAGTCAGTTAATGACTGTCTCACCGTTGCAGCCCTTCCCTTTCACTTTGGTTCTGTCCCTTTGACCCACTTCTTTCCTAACCTTCCCTGACTCCATAG
ATGAAAACTTGAGGAGTGTGTGATGCTGGGAGAGGAGTGGATGGAGCCTTCCCCAGGGGATGTTTGATGCTTCCTGAGCCAGCAGCCTCCCTAATGCAAG
GCACCCCATTTTGGGGAGCGGGTTTTCTCAAAAATGGAGGAAAAAAAAGGGTGGCTGTCTCGAATGGCATCGACACAGTGGAAAATCATCTGATTCCATT
GTTGAACTTCACACTCCAGGCACTTGCTCATCCCTRAGAAAGAATAGTACGGCATTCAAGTTTACATTTACTTCTGTTAATGAACGACACTTATTTGGTT
CCAGAAAAGCTTAGAGGCAGCCAGTGTTTAGGAAGAGATGTGTTCTTTTTAAGATTCGAGTTTGTTGGGTCCTGTCCCCTCCCCCAAGAAAACTCTCACA
TTGTTTTGTAAAACTTTCTCTGGAAGAGGTAGAGACTAAGAAGTTGACATCACTTTAAGCTAACCCTCTTTTATTCAAGTCATAGAGCTTGATTGCCTTT
CTGAACATGCCCCTGACCAGGACAGGGTGGTGATGGTAGTGGTAGTGGAACTGAAAGAAATGGGACGTGGGTTATTTGCACATTTTAAGGAAATTTACTT
AAACTGGGACTTTTTCTCTAACCTGAGGTTATGACATGGGTTTATGAATCCCATGATTCCCGGGTTAATGGAAGCTCATTTGAATGTGTACTCTTGCCTG
GGACAAACGACTTTTCAATTTTCAAATAAAAGTGTAGTTGACCTTAGGCCCGCCCCCCATATAAGCTGCCTGTTTTTCCACTGAAGCCAAATCCCGTTTT
GTACAATCTTTCTTGGCTGACTACGCTCCCAGGGGGCGTAAGTGAAGCCAAGCCCCAGGAGGCTGTTAGGCAAGGCAGGAACTTGTATGACCTCAGGGAC
AGCCAGCTAACCCCTGAATGTTGGCTTTGCACATCTGCTGGGCTTCTCAGAGCAGGAGCCTGGATTGGAAACTGAATGAAGCAAGTTCTGCATGGAGTTG
AGGAAAAATATCAGACTCAGCATTTTTTTTATTTTTATTATTTTTTTAAAAGACTTGTCATTTATTTAGCAATGAGGAGGAGAGACCTCACTAGCCAGAG
GTTGGATAACCACTACTCCCTAGTTCCTTAACCCAATAAATTAGATTTTTTCCTTCTTTTGAGACAGGGTGTAGCTCTGTGTTGCCCAGGCTGCAGTGCA
GTGGCACCATCTCGGCTTGGTGCAGCCTTGACTTCCTGGGCTCAAGCGATCCTCCCAACTCGGTCTCCTGAGTAGCTGGGACTACAGGTGCGTGCCACCA
TGCCCAGTTCATTTATTTTTTGTTTTTTAGACGGGGTCTCACTATGTTGCTCAGTCTCGAACTCCTGGGCTCAAGCAATCCTCCTGCTTTGGCCTCCCAA
CGGACAGGGATTACAGGCGTGAGTCACTGTGCCTGACTACACTTTCTTTAGTACAGGATATAACCAACATCTTGCCTCCTAAGAGTCAGGGGCAGGAGTA
TAGGTGATTGTACTTCAGGTAGAGGAAAGATCTCATTCACAGAGGAGGGGAGAGTAGATTTTGTTGGCATATAGTGGCAAATTTTATTAAGGCTCTGGGA
AAAGTGCTGATGACATTGGGAAAAGATTCAGTTTTTACCCAGTAAAATATTAAAAACTTATTTTGCTTAAGGCCATGTCCTCTAATTACTGAAGGGGCTG
ATTTTTTTTTTTTTTTAAATCATCAGTCATAATAGCACCTATTGAAGGGCTTACTGTATGCCAATTACTGATTAGGACACTTTACAAGCACTTATAGTAT
TAATTTTTATAGCAACCATRTGAGGCAGGTACACTATTGGCCTCATTTTGCAAATGAGACAAACGCATAGAGGTTAAATGCCCAAAGCCACATGGCTACT
AAGTGGCTGAGCCTAGATTTCACCCGAGTGCCCACATGTCCAGCTACTCTGCTCTGTTGCCTGCAGGATCACAGTGCAGTGTTGCTCACTGCAGCTGTGC
ATGAGCAAGGCAGCTGAGTGTGAACAAAGGGGAAATGTAACCTAATTCTTCTAATTCTATGATTTGATGCACAAAGGGCTCCATAATCGTGGGAATTGAT
TACGACTGCCGGGAGAGGATGGTGTACTGGACAGATGTTGCTGGACGGACAATCAGCCGTGCYGGTCTGGAACTGGGAGCAGAGCCTGAGACGATCGTGA
ATTCAGGTCAGCAGCTTCACTCAGCAGTCTGCATTTCATTTGATTCTACAAAGTCACTTGTCTACTTTACGCCGAAGTCTCCCCTCGATTTTTCTCCATT
AGGGGAGGTTAAGTTCTAGGCAAGTCATTTTATTGAGCTGTATAAGACTAGCCCCCTCTGTAAGCAAACACCTTCATACATACGGAATGAAATAGGTGAT
TCCTACTGTGCGCACTTCTTAAAAGAATTCATGGTAAGAATTCAGGGTGACGCCTTCGTTTATTCAGCCTGGCTCTGGCACTGTGGATGCCGGTTGTCAT
CAAACTGGTAGGTCTGCTGGTCTAGAAGCTAGAGGTAGTGGAATATGTAACAAAAGTACTTGTTTCTCTATTAACCTGGTTCTTGGGGACTTGGAGACAC
TTGGGCTTTGYTTTCCCCTGCTGACCCCCCTGCCCACCCGACYGTTGGAGGGCTTCAGGTTTGCCCTCCATATCCTGCAAACACTCCAGTCCTGAMTTTG
CTTTATTTCCAGGTCTGATAAGCCCTGAAGGACTTGCCATAGACCACATCCGCAGAACAATGTACTGGACGGACAGTGTCCTGGATAAGATAGAGAGCGC
CCTGCTGGATGGCTCTGAGCGCAAGGTCCTCTTCTACACAGATCTGGTGAATCCCCGTGCCATCGCTGTGGATCCAATCCGAGGGTCAGCTGGGCTTCCC
TAATTCTTCTCTTACCTGTAGATCCTGATGTGAAGCCCTTGGGTTTTAAATACAATGTGGGGAAGGTCAGAACAAGAGAGTGAAAGCTCAAATGCATTCA
KGTAACAAAGATTTACTGAGGATCTAAGAGGTGTCAGGACCTGTTCTAGGAAAAGACAAGGTCTGTTCTTTCATGGCACTTATATTTTATTAGGAGGAAA
CAAGACTGGTATAAACAATATTAGTCTGTGATGTGATATGTAGAAAATTCAGATAGTGTTGTGAGAACTAGGGCTRCTCTGAATCAAATGATCAGGCGAG
GCCTCAGCTGACACTTAAACTGGAAGTGAAGTGGGATTCCTCCAGCAGCACATTTAGAAACCAGGGTTGACRCTCACAGTAGGGCTGACCTACATCAAGT
GACATTAGCCAAAGCTCAGACACCTCTGGCTTCAGTGTTGCTGTAGCAGAAATCAAGATAAACATTTTCCCTGTCTGTATAATTGCTAAGGTCATCAAAT
GTGACATACAGGATTTGTYCACTGTCTCAGTACTTGTTACAATCAGGGAGAATTTTTATATCTTGAGAAACTCTTGCCATGTTTAAGTGGAGTTTCTACG
AAATGAAATTCCCAGATGCCCTTCAAATCAGTAAAGAAAACCTTCAGCTTTAATTTTCAGGTAAGTGCTTTTTGACTATGAAATACTTAGTGCAGTGCCT
CAAAGGTGGTTTCAAACTTTGGGTTCTACACACAGGAAAAGTACCTGTATCCTTCTCTATTCCAGTTGACTTAACAGGAATTAATAGCCCTCTTAAAAAC
TCTTTGCATAGGCTTGCCTTTCTGACATTTGGACATTTGGAAGGTCCTTTTTTCTTTTTTTTTTCTTTTTTTTGAGACAAGGTCTTGCTTTGTTGCCGAG
GCTGGGGTGCAGTGGCACAGTCTCGGCTGACTACAACCTCCATCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGC
ATGTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTCGAGACAGGGTTTCGCCATTTTGGTCTCCAACTCCTGACCCTGGGTGATCCACCTGCCTTGG
CCTCCCAAAGTGCTGGGATTATAGGTATGAGRCACTGCGCCCGGCCCCTTATTCCTTCTTGGTGCTTGACCTGAAAACTGGGGAGAGCTGCCATCTTGTA
GGCAATGAAACTTTGGCCATGTCTCTGGAGTCTGGGGAAAAAGCATACTTTTAAGCTGAAATCCACATCACAGCCATGAGTTTAAATATGAAAGTAGAAC
TTTCTTATCCAGACAGCAAATATAAATGCTAAAGGACTTGAATTTTTAATAAAAAGAAAACCCACCTTGAACCAGGTTGCAATATAACACATGTAATTAC
ATCTCCTTCAACTGCGTAACAGAATGGTTGTCAAGCCTTCCTGCATATTTCTCATTTGCTTTCTATAGATTTCACCTTTACAACTTTCTTCCTCTGGCAA
TCCCCAAATAATTTACACCAAATATCTGTGTGAGCTTGTTTCAGACTTATTGTTGTTGATGATATTAAATCATTTTGGGGAGGAGACTGATCAGAAGCGA
TGAAGCAATGATATGCATGCTGTACCCTCTGGCCACCTCCACCTTAGCGCAAAGTGGAAACTGCTTTCTAGCTTTTGCTCTCAGCTTCTCTCTGCTTCAT
CTGTTGGGCATAAGGGATGAAATTCGCAACAGGGGAAACCTATGGTTTCTTCCTCTCCTCTCACTGAGGTTCTCTGTAGCCCAACTGATTTATTCAAAGC
TTCTATAGCTTTTATAAAATAGTATTTTATAAAAAGTGCTTTCAACATTATTTCTGCTCTAACGATAAACCTGTTTGTTTCCTTATAACCTATTTCCACT
TAATAGGACCATATTTCCTCGTTAGTATCTGTTATGAATATATTTCATTTTTAACGTGGCATTTAAAAGGTAAAGTGCTTAACTTAAAATGTTTCCATCC
CTGGGTGCCAGGTACCCCTTCAAGTACCAAATTGTATTTTTGGCAGAAGAAAGAACAGTTTCCTTCTCAAATCCCTGGTCCACATCTCTTCAAGTTCCAT
AGTTTGTATCGAAGCCATTCCTAACAGCTGTATTTGTTTCTATTCTAAAACCCAAGATCCAATTCAAGACTTCAACAAACGGAGGGTTTTGGGGCAGTTG
AGTCAAGGGGTATCTTGGAGGCAGGGATTCTGATAGTAACTTAGTAATGACTTCTCCCACATAGTGACAATAATCAGAAAACCTTGTGATACAGGTAAAA
GTGGAATATGGCTGTGTATTAGTTACCTACTGCTGTGTAAGAAATTGCCCAAACCCTCAGCAGTGTAAGATAACATTTAGTCTCACAGTTTCTGTGAGTC
AGGAATCCAAGTGTGTCTTCACCGAGCTCCCTCAGGCATGGAGTCTCTCACAAGGCTGCAATCAGGTAATGGCCAAACTGCAGTGATCACAAGGCTCAGC
TCGGGGAAGACACAGCCCAAGCATGCTCACATGGGCTACAGGCAAGACTAATGTCTCTGGCCAACAGCCCTCAAGGACATCAGTTCCTTGGCACATGTTC
CCCTTTACAGGGTAGCTTGCAACATGGCATCCAGCTTCCCTCAAAGGGAGCAAGAGAGAGCCCCTAAGGCAGAAACCAGTTTTTTGAGACCGAATATCGG
CAGTGATAGCCTATCACTTCTGCTATACTCTATGCACTAGMAGAAGCAAGACACTACTAATGCAGCCCAAACTCAAGGGGATTGCTTAAGGCTATAATAC
ATGAGGAGATGGAGATCACTGGGGGCTGCTTAGATGCTGCCTACCACAGGCTACATRGCTATTCTTTTACAATCTTGATTTTTAACTTACAGCAACTTGT
ACTGGACAGACTGGAATAGAGAAGCTCCTAAAATTGAAACGTCATCTTTAGATGGAGAAAACAGAAGAATTCTGATCAATACAGACATTGGATTGCCCAA
TGGCTTAACCTTTGACCCTTTCTCTAAACTGCTCTGCTGGGCAGATGCAGGTAATACTACTGATGGAATGCAAATAGATAACCTCTCATCACAGTGAATG
TGAGCACTAACAGATTTTACTACAAAATGAAATCCCATMACTTAGATCTCCTTTCTTTGGTCTGTAAACTTTTAAGTACTAGTAAATTTAAGTACTAGTA
AATGAGTCTTAAAATGAACTTTCTGGGGTTTGGGTGGAGGGAAGGATATATCAAGCAGTAAGTTTGTACTGCTTGCCTGACCATGAGTGCCTGGCATATT
TTTAACAGTTAAAAGAATTAGCCATTGTTGAATTGACAAACTTAAGTGAAGTTATTCTTATGYGGGGAGAGGGTCACTATAACTTACCTATAAACATCTG
TTATAATGCTAAGGACATTCTTTGGAAAGCATTGTAGCAGGGTAGCTTCCTTCAGTAATAACATGGGTATTAGCAACCTACATTTGTTTGCTTTTATCAG
CACAACTGAAAAAATGCTGTGTGTCTAGTTCTATACTAAAGAATATGAAAAAGACTGTTCTTGAATTTGTAATCTAATAAAAGGGCCTAATGTACATAGG
TCACTTTTATAACCCAGTTGTTTAAAACAAGTTACATTTCTTAAAAGGATTTGAAATTTAAATCGGCTCCATGAGAAATGTGAAACTTGGAAATTCTTGA
ATGGTTTAGCTATTGTAAAAATTTTTAAGACTGATTCCTTTACATTGAAATATRAGTTATGTTACCATTTTAGTCACTTTTTTCCTCCTACCTAGAAAAT
ATTTTAAAAATACTAAGGATTTTGGTTAAAAGGTTGCCTCAGTAATTAYAGACATAGCTTACAAAGGGCAAGTATTTACCCAGATGTTATAATTTATAAG
CTAAGGCTTGAAATCACACAAATTATAAAAATAATTATGTTTAATGCCCTACTTTGGCAGAAACTTACCAGATTTCAGTAAATGCAATCCTGTCTTCCAA
AAAAGGATTGAAAGTTTGAATCTCTACTAAAAACTGGAGACTAGTAATAGGACAGGTAATTTTACAGTTGCTAATCTATGACTGTAATGGAAGTAAAATA
TCCTATTTCCCCATTCTATCACTGTGTCACTATCACTATGTCACYATCATTTTTGGCAAAGCAGCTGAAGGACCTCATTTTCCCCCTTTGTTTTAAAAGG
AACCAAAAAACTGGAGTGTACACTACCTGATGGAACTGGACGGCGTGTCATTCAAAACAACCTCAAGTACCCCTTCAGCATCGTAAGCTATGCAGATCAC
TTCTACCACACAGACTGGAGGAGGTGAGCCCCACAAATTCTGGACAAGCCTGAAAAGGCCAACTGTTCCAGAGGACACACCACTTGTTTTAMCAAAAGTC
AGTACCTGACTTGACTCATTAAGCCCTCTGAGGCTTTTGTTTCATCACCTCCTCATTGGCAGATAAGATCCTTCAAGGATGTTTTTCATCCTTTCATGTT
TTTGAAATCATCCTTTTACTTCACCCAGAAATCGAATGGTATTGCTCACATATAGCTTAAAAAGTAGCAAAGCTATTGGATAATGTCTCAAAAGGGAGCA
TATTAATCTAAATATGTTCTTTAGAGAATAAGACTACCCTTGATACCATGAGCTATATTACAGGGCTTAAGTTGGCTTTTGACACTGTGGACATATTGTC
TGAGGGACCGAAAAATACTATTTAGACTAGTTCTCAAATGAGGAACTGTGGAACATTAAAGTCTAAGCCCTTTACACCATGCCCTACAACTCTGATTTGA
TAGCTCATCATGTGATTCTAACATGCAGCTAGAGATGAGCAATGGATTTAGAGCAATGGTCTTCAAACTTCAGTATGGCTTTAGCACCAGCCCTGGGACA
GAGAAGGCTGCCAGAAATTTTCCTCTATTGCAACTGATTTTCTGTGGCTGACTGACTTCTTTATCTAGTAAATGACTGTCCCTGAATTCACTCTTCCTTT
CTGTTACCAGGGATGGTGTTGTATCAGTAAATAAACATAGTGGCCAGTTTACTGATGAGTATCTCCCAGAACAACGATCTCACCTCTACGGGATAACTGC
AGTCTACCCCTACTGCCCAACAGGTAAAAAGTATGCTTTAGGATGCTCCTTTAAATTAGCAGGGTAGAGAAGGGATATATATGGTATTTGATTACCCCTG
CTGCCTGTGACACTGCCACCATTGCCTTCTTCCTGCCCTGAGGGCCAGTCTTTACTACCTTAAATCTACCTAGTTTATACACAAAATGCAAAGACTTGCT
GTTGCAACTTGGTTACAATATACTCACCCACCACCCTGTCCCACCCCTGCTCTTCTCTCACAGGAAGAAAGTAAGTACAGTAATGTAAAGGAAGACTTGG
AGTTTACAATCAGAACCTGGACCCTAAAGAACAGTGACTGCAAAGGCAAAGAAAGTAAAAAAGGAATTGGCCATTAGACGTTCCTGAGCATCCAAGATGA
ACATTTTGTAGTGCAAAAAGACTTTTGTGAAAAGCTGATACCTCAATCTTTACTACTGTATTTTTAAAAATGAAGGTTGTTATTGCAAGTTTAAAAAGGT
AACAGAATTTTAACTGTTGCTTATTAAAGCAACWTCTTGTWAACATTTATCATTAATATTTAAAAGATCAAATTCATTCAACTAAGAATTAGAGTTTAAG
ACTCTAAACCTGATTTTTGCCATGGATTCCTTCTGGCCAAGAAATTWAAGCACATGTGATCAATATAACAWTATAATCCTAAACCTTGACAGTTGGAGAA
GCCAATGCAGAACTGATGGGAAAGGACCAATTATTTATAGTTTCCCAACAAAAGTTCTAAGATTTTTTACCTCTGCATCAGTGCATTTCTATTTATATCA
AAAGGTGCTAAAATGATTCAATTTGCATTTTCTGATYCTGTAGTGCCTCTATAGAAGTACCCACAGAAAGTAAAGTATCACATTTATAAATACCAAAGAT
GTAACAATTTTAAAATTTTCTAGATTACTCCAATAAAGTGTTTTAAGTTTTCCTATGACTTAAGGATCTATATTGTCTCTAGGACAAAGCTGGGGGTTGG
CATATATGCCTTAACCACAAAGGAGAAAGGTGATTTATGCAAACATACAGTACATAATAAAAATTCTACTTTCCTAAACTTTATTAAAGAAAAAAGCAAT
AAGCAATGGTGGTAAATCTCTAGAACATACCCAATTTTCTGGGCTTCCTCCCCCGAGAATGTGACATTTTGATTTCCAAACATGCCAGAAGTGTATGGTT
CCCAACTGTACTAAGTAGGTGAGAAGCTGAAGTCCTCAAGTGTTCATCTTCCAACTTTTCCCAGTCTGTGGTCTGTCTTTGGATCAGCAATAATTGCCTG
AACAGCTACTATGGCTTCGTTGATTTTTGTCTGTAGCTCTCTGAGCTCCTCTATGTGCAGCAATCGCAGAATTTGAGCAGCTTCATTAAGAACTGCATCT
GTTTTATGAGAAAAGAACACTGCTTCAATACATAATTTTTACATTTAAGGCCATTTATTTATTTCCTCCCAAGTATTCAGTCTGTAAAAAAAATAGTTTG
AATTTAAACAAAATCACTTACCTCCTGTGTCAAAACCAAGAATATGTTTGTCTAAAGCAACAGGTAAGCCCTTTAAAAAAAGAAAGACAAAATGAGAGTA
TTTATGGTTAAGAATAGCATCCTTTCCTCAACTGAAACTGAAAAGCACCTAGCTATTCTGGTGTCTTAACTCTTTTAGCTGCATGGGCAAGGGAACTAGG
AATTTTGTTTATATTTGCTTTGTGATGATTGTGATTAGCGAGTTTTCCCTATTTCAACCGGTTAGGGGGAAAAGTTAACCTTTAAATGTACCAGGAAGCT
CTATAGCTCATCCAATCCTTTAGCCCAGGCATACAAAACAATATATCCTTATTGCAGCAGTGCCTTGTCATTACTGCTATGGAAGGCAAGTTGAGCCAGG
CTGTTACTGTCTTATTTTGGCGACAGTAAGCAACAGTATAAACGGCAAAAATAGTACCTTATATTCCATTTCTGAGCACATTAATTTGTCTTTACAAATT
GTACGAACCTTTCAGCCAGCATGGTGTTTGCCAAGATTATGTATAATTATGTATAATTTAACTTTCAAGACTTGACTTGGAAGTTACTTTGAAACAAACA
GTCTAGGAAAATGAAAAACTAAACCACTCAGCACCTATGGACATACTAAAGATGGTGACTATGGTGATGCCAAACTTCACAGAAACAAATTCTAAAATGA
GGACAGTCTGTACTTCCTGCTGATTATATAAAATCACTGCCAAGAAAAACACACTACCCGTACTTTCAATCTTTCAATGTTACAACCTGTTACTATTCAA
ATGCTTTAGTCACTGCTCAATTCTTGCCTTATCTAGTAATGTAAATCTACGTAGGCTCTGTCTGCTTTAAAACAGCTAACACATGTAAGTCTGAAGAAAC
CAATGGGTACGAAAGCACAAGTGAGCAAAATTAAAGAGCAGAATTGTACTGAGTGGCTTTATATGTTCATCTAGTACCAGAGGCTCCACTTTTTTTTCCT
TTGCCAACAGGCCACCAAGCTACCCCTGAAAACTACCATATGCCTCAAATAGTAGTTATAAATGCTTATAAGTACACTAGACTGTAAGAACTCCACTAAA
TTGTTATAGGCTGGTATCTTTTGAGATGACACCAAAATTAAAATTTGGAGCATTAAAAATAAAACTAAATTTTACTTTACAAACAAGAGCAAAGAGATTT
GGCTAAGCCTTTACTTACACTGCCTTCCAAAGCATAGTTTTGCTGAAGGAATGAATGAATGAATGAATGACTTTATTACACCAGAACAATTTACTGTCTG
TTCTATAGTGTGGGTGAAATAAGCTGATCTTTAACCCAACTTCCAGTGGCTCGATTCATATACAACGAGCCAGTAAGAACCTTTAAAAGAAAACAGTGTC
TTTCAGAGATACTGCCCTGGCATTAGTAACCTTTTAACACTGCTTGGCCTGCCTAAAGGGGCTGGAGGACAAAAGGCATTGGGAGATGGGGGAAGGGCGC
AGGGAGGACAAACAACATAGTTGTGCCCAAGGCATTCACTACAACATCATTGCTGCAGGAGGCAGGTGTTATCAGACACTGCTGCTGCTGACCTGAGGAC
AGTCTCTCCACCGCTGCACAGCCAGTGAAACTTTAGGCATCTTTGGATTTCTGATATAATCTAAAAATGTTCCATATTTTCTCTTTAAGGGGAAGGTAGT
CATGGGATATAGCTTTTCTCAGCCTACAAGGTAGGACTGAAAGATACCATTTCAGTCACCTGTACCTTGAACCTTACACTCCAACAGAACCCCCTGTCCC
TTCACCTGGGCAGACTGACAAGCTCATGCAGACATCCACGCATGGACCCTTCTCCCCACCTACCGTAAGAGCACAGGCTCTCAAGTCAGACTGCCTGAGC
TCAGTCACTTACCAACTAGGTGACCTTAGCCAAATTACTTTCTCATGTTTTATGCCAGGAAATTGAATAAAACAAGAATTTACTCTGAAGAAATAAGAGC
AAGGATAGAATTTAGATAGAAAAAGAAAACTAATTTGTAGTGAGGTGTGTTCCTTCTTCTCCAGCATGAGTCAAAATAATCCAGTAAGTTTCATATGGGT
AACTCATTTTAAATAAACTTCAACGGGCCACAAGCATGATTTGTGGACTGTGCATGAGCTATTTGTGGCTTTTTTAAGGTACAAAGTGAGAGGAACATGA
AGTTTTTCACTCAAAAATGACCCCCTAGCCACTGAATACATTCAATTTGCTTTAGGAAGCACTGAAGTAAGCTATCCTTTCTCTAAGTTGTAGAACGTAG
AATGGATATCTTAAACAGATACATGCAAAGTTTAAAATCACGGCCATACCAGAAGAAATGTTCATTAACAACTTATTTAGGATTTATAGAAACGTACCTC
TTTTGTTTGATTTGCCTTAGCAACTGCATCCTGTGTCAGGCGCTCCTGAACCAAAATCCGAATTGCCTAAGAAACCCAAAAATATTTTTACTTTTTATAG
GCTGTGTACCTGTCATCCTTTCTTCTATGAGCCCAGAGAATAAGGATGCTCATTTTGATGAAGTCAGAATTACCTAAGTTCATTAATAAACTCCCCATTA
AATTAAAAATAAAAAAAACCCACTAATATAACGTAACCTTTCACACTTCTAGTATTTTAATAATGTTGAATGGTGCTTGCAACAATTAAAACCATTTTTT
GAATAGGTAATGCACGTGACTGGTAAAAAACAACTTTAAATACAGCAAGACACATGGTAAAAAGTAGGTCTCCTTCCTACCTGAGCCTTGCGATCCCCTA
CAGATTCCTTACCCTCACTAAAACTGCGAAATGACGAGCATGCTTAGCACGAATACACATTTTTGACACAAAGGGTAGCAGATCATACATACTGTCTTAC
ACTTTGCTTTTATCACTTCACTCTAGTAAAATATTTTCAAACCTTTCAAAGGACACCGTTGGTGGTTTTAATCACCAAGGCATTTCATTATGGTAGGCAT
GCATGCAAGTATCCATACACACTTAAAAATCAAATTTTAAAAAAATGGAATTTTAATTAGGAAGATGACAATTACAACTCAAAAATAAGTGTGAAAACTT
AAACTATAATTTTTAAATAAAAAACCAAATGCTATCTTTGAAAAACCGAATTCAAACAATGTTTAACAGTTATTGCAGATGTTATTAAATAGTCTGGTTG
CCAAACAGTTAATATACTGATGCTTGTACTTGGCAAACGTACTAAGATGTTTTCCATATTATGTTATTGTTTGAATGCCTCTTAAAATAACTCAAAAGGG
ACAAATGTGCAGCAGGACTAGAATTTTATAGCATTTTGTTGTAGTTGATTTATACTTTATCCCCTTGGGTTTTGAAGTCTAACAAAAGCATCCCAAATAC
GCTATGCATTGTCTGACTCTCCTCTCACTTACTTTATGATTAAAGCTGACATGATCACTATAGAACAGTTCCAAGGCAATTTACATAATTGTCGGAATAA
AGAACAAGCCTTTGAAATAGCTAAATTTCACTAAAAACATTTTTGTCTTTTGGCATGCAATCTGGATTGAGAAAATCCAAGTTAACATTCAGATTCAGTA
TAGAAAATTTTAATAACTTAGGAATACAACAGTCTTGTTAAAACTGACATTTAATAATAAAAATCTAAAAAGCATGGTAAGTTATGGCTTAATCTCTTCT
GGGTAGAGTGATATTTATCACAAAGTAGTTTACATGCACAAGGTCTAGTTAAAAGCTTTTAATCTCTTATAAAATTTCCAAGTCTGGTATCTTAAGTACC
ACTCCCCTGATCCACACCACTGTACTTTCACGATTACTAGGAATAAATCTTCTGAAGTTTATGATTTCTCTCAGAAACAAGAGACCTCTTTCAGATTACT
GGGATTCCTGAAGTATAGTTATGAACTGAGTGGCCTATCTAGCATCGGGGACAGAAAGATTCATTTCTCAAAGAGATTTTGGGGTTATATATTTTTGACC
AAATTCACCATTACTCATTTGGCATTTTCGACCATCTTAACAAATGCAGACTATGAATCATTAAAAAGACTCACTAAACAGAAGTAGGGTAATGTGGGAA
AAACAATGGACCACAGGGTTATAGTGCTTAAAATCCTGGCTTTGTCATTTTCTGTGTCATCTTAGACATTATCCTCATTGAGTCTCAGTTTCTTCATATG
ATATATATTTTTAAAAAGATATTAGCAGCTGTCTCTAGGATTGTTGGCAGGATTGAATGAGAACATCTTTGCAAAGGATTTAGCATAGTGCAGGCAGAAA
ACAGAATCCAAATCAGATAAAACCATGAAATCTACTTTATGTTTCATATTCTTCTGTGTATTTTAGTCATTCAACCATAATTTTAATATCAATAGTTAAT
ATTTAGAAAATAAAGACATTTTTCTATGTGCACAGTTTCTGTCAAGAATCAAGAACATGAAGCTGACCTTAAGCATTACCAGGTAATCATCATGACGCTG
AATCTGAAGCAGGTTAGCCAAAGCCATCACACCAGCCTTAAAATCAGGATTATTTACTATAAAAGATTAAAAACAAACAAAAACTTACAACCCTGCAAAC
GTATAATTACAAACATATTTGTGAACATACAAAAACATTTTTAACTTTTCGGTAGCAACAAATCTCTTAGTTTTTAAAACTGCTACTCACAAGAGAAAAA
AGAAAGCCCTGTAGACTATCAACAATTAAATAAATTGGTAAGATAAAATGGTTTTCCTATTACTGTATGAGACGGTCCCCAACTTAGGATGGTTAGACTT
GTAATTTTTTGACCTTACAATGAGTTCAGTGGGATGTAACCCTAGTGCAAGATGAGGAAAATCTGAACTTACAGTGGTTCCAACTACAATTTTTCAGCTT
TACAATGGGTCTTCCGGGGTATTAAATGCATTTTTGACTTATGATATTTTCGACTTTGGGACATGATCTCATCCTAAGTCAAGGAGTATCTGTATTTCAT
CAGCCAAACTGAATAATCCAATAAATGACTAATTTAACTCACATTATATTTGTCCTGTAACTTTTTCTGCAAGGCTAAATTATACAGCACTTTTAATTAA
CATTTCTTCCCAAGGCCATTAATTTTAGTACATAGATCCCCTCCATGGATAGTTTTCCCAAAACCTTCTCTCTAAGCAGCAGCTCTGGAGTGTCCAAGAG
GCTCACTCATTCAAAAGGGTTAACTCCTAAATTATAGGTCACAATGAATTAGCCAGTGAACAAATATTTTACACATCATAATTTAGGTAATTAGATTCTT
CATATTTTTAAAAAGGGAAATTACTAAAAGATATCCAGGACTTAAAATAATGGAAAATTTTACCACTTGTCTGATAGAGTCATTGGATTAAAAGAAATTT
ACACATTCAAAAAGGCAAACAATGACCCCCATGATTAAATACAAATCAAAACTCCAAAT


SNP Information

Context             (SEQ ID NO:34513):
TACAAACATATAAACAACTAACCAAGCATAATGAGGTGAATGCTCACTAGAGATGCCCATAAAGGTGTTACAGAGGTTCAGAGAACAGAAATTATTCTAT
R
GGGAATCACAAACACCTCTGAGTGGCAGCATTTGAAGGTTAGGAGGCTTTCTAGGCACAGGGAACCACGAACAAAGTGTAGAAGCATCCAAGGACATGGT
Celera SNP ID:            hCV594849
SNP Position Genomic:     13986
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34514):
TCAAAGGGAGCAAGAGAGAGCCCCTAAGGCAGAAACCAGTTTTTTGAGACCGAATATCGGCAGTGATAGCCTATCACTTCTGCTATACTCTATGCACTAG
M
AGAAGCAAGACACTACTAATGCAGCCCAAACTCAAGGGGATTGCTTAAGGCTATAATACATGAGGAGATGGAGATCACTGGGGGCTGCTTAGATGCTGCC
Celera SNP ID:            hCV29157412
SNP Position Genomic:     67241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34515):
CTTAATTAAAACTCACAAGAATTGTAGGTTAGTACTACTATTTTCCCAGTTTTACAGAGGAGCTTAGGGAAGTTAAGTAAATTGCCTATGATCTCAAAGT
K
AAGTGGCAAAGCCAAAATCCAAGCTCAAGTCTGGAGTGCTGAACTACTTATTTTATCTTATGCTGAGTCCTTGTTTCCTTTCCCATCCTTATGATCCACA
Celera SNP ID:            hCV29157340
SNP Position Genomic:     16172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34516):
TAGATTTATTATTATAGAGAGGTCACAATGGCCAAGCACATGGAATACAAAGATTTCTAAGACACTGGTCCTGCACATCAGCAGCTTGTACCCTATTAGG
R
TTGATAGACAAATAGATCAACAATTACAGAGCCCTGGGTAAGTGCTGGCGTCTACACAGGAGACAGGAGACAGTGGGGCCAAAAGACCTGTGGGAAAAAG
Celera SNP ID:            hCV29157344
SNP Position Genomic:     16501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34517):
TAACACTTATTCTTTGTGTATAATAACATGGACAATTGTAGTGCCTTCTCCCTCTCAGCACTGTGGCTTTGCATCCACTCAGGTTTTTGGGATTTCCTTA
S
ACATTTTTTCATATAAACTCAGGAAGTTCCCAAGGGAACACACTCCAAGAATTAGATGAAAAACTCTGCAGAAAAATCCACCTCACATGAAAATCTCTGT
Celera SNP ID:            hCV25598574
SNP Position Genomic:     36134
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,1)   caucasian(C,37|G,1)   total(C,66|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:34518):
GAGGTCACAATGGCCAAGCACATGGAATACAAAGATTTCTAAGACACTGGTCCTGCACATCAGCAGCTTGTACCCTATTAGGGTTGATAGACAAATAGAT
M
AACAATTACAGAGCCCTGGGTAAGTGCTGGCGTCTACACAGGAGACAGGAGACAGTGGGGCCAAAAGACCTGTGGGAAAAAGCAGTTGTGTTCCCTGAGC
Celera SNP ID:            hCV29157345
SNP Position Genomic:     16519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34519):
CACCCCCAGGGTCGTGATCACTGCCACCAGCATCATTACATGCCACACACATCAAAATTAAACAAACATGAAAACTGGACGAAAAAGCATTCCACTGTTT
R
TTATAAAGTTGGATATGGTTTTTCTAACTAGTCTGTCATTCTGAGAGATGGGAAAACTTAGAAGAATTTTTCCTGCGGTGAAAATGACTTTTTTTTTTTT
Celera SNP ID:            hCV1261240
SNP Position Genomic:     25573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34520):
GGCATTCAAGGCCAGCCTGGGCAACATAGCGAGACCTAATCTCTACTAAAAATTTAAAAAATTAGCTGGGTGTGGTGGTGTGCACCCGTAGACCCAGCTA
Y
TTGGGAGGCTGAAGTGGGAGGATCACTTGAGCCCAGGGGGTTGAGGCTACAGTGAGCCATGATCAATCACACCACTATGCTCCAGCCTGGGTGACAGAGG
Celera SNP ID:            hCV7591932
SNP Position Genomic:     18067
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34521):
CCTCTACAAGTTCCAGAGACTACTCTCTGACTTTTGGTGCAATCAACCAAACATGGTCCTACCGCATCCACCAGAACATCACTTACCAGGTGTGCAGGCA
Y
GCCCCCAGACACCCGTCCTTCCCCACCACCCAGCAGCTGAACGTGGACCGGGTCTTTGCCTTGTATAATGACGAAGAAAGAGTGCTTAGATTTGCTGTGA
Celera SNP ID:            hCV25598575
SNP Position Genomic:     36381
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34522):
CAGACACATAGCACAGGGTGGTCCCTTAAAGCAAAAATGGATCCTTGGAGTTCTGAATGTGGAGCAGGGGTGGAATTGGGAACTTCTCCAGGAAATCCTG
Y
AGTGTTTGAGGAAGTAGCATTTCCCTCTCTGTGTTCCTTGAGACACATTTGGCTGAAGAAGTCAGAGTCTTACCTTCTCCACGGGGTCTTAAAAAGAGCT
Celera SNP ID:            hCV7591860
SNP Position Genomic:     58272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34523):
GCAGGTTCTGCTGCCAGTGCAACCCTCCAGGTGCCAAAGACCATCCCCTGGGTGCACCTCCAGGTTGCAGAGGGTCTGTGACCAGGAGCCGCCGCCCCCC
S
ATGCCTGTGAAGACACCTATATGAGGAGATTCCATGGTAGGGCCCCTCTCCCTTCACCAGAAGTGGAGAGAGCCTGTTAGTGTCATGCCAGCAGTTGTAA
Celera SNP ID:            hCV1261241
SNP Position Genomic:     25367
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34524):
TTGCTTGAGCTCAGGCATTCAAGGCCAGCCTGGGCAACATAGCGAGACCTAATCTCTACTAAAAATTTAAAAAATTAGCTGGGTGTGGTGGTGTGCACCC
R
TAGACCCAGCTATTTGGGAGGCTGAAGTGGGAGGATCACTTGAGCCCAGGGGGTTGAGGCTACAGTGAGCCATGATCAATCACACCACTATGCTCCAGCC
Celera SNP ID:            hCV7591933
SNP Position Genomic:     18054
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34525):
CAACCAAACATGGTCCTACCGCATCCACCAGAACATCACTTACCAGGTGTGCAGGCACGCCCCCAGACACCCGTCCTTCCCCACCACCCAGCAGCTGAAC
R
TGGACCGGGTCTTTGCCTTGTATAATGACGAAGAAAGAGTGCTTAGATTTGCTGTGACCAATCAAATTGGCCCGGTCAAAGGTAAGGTTTCCTTTTTTGT
Celera SNP ID:            hCV25598576
SNP Position Genomic:     36424
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,2|G,38)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34526):
AGATTTCTAAGACACTGGTCCTGCACATCAGCAGCTTGTACCCTATTAGGGTTGATAGACAAATAGATCAACAATTACAGAGCCCTGGGTAAGTGCTGGC
R
TCTACACAGGAGACAGGAGACAGTGGGGCCAAAAGACCTGTGGGAAAAAGCAGTTGTGTTCCCTGAGCAGAGCCATAAAGGTCTCTTGGAACTAACATCC
Celera SNP ID:            hCV7591934
SNP Position Genomic:     16551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34527):
TCTGGTCGTTTTGTTGTCAAGTCAAAAAGTTACCCAAGCACCTGCCGTGTACCTGTCTCTGACTCGGTGCTAGTGGAAGTTTTGGCTGGCATTTGCTAAG
Y
GCAGCCTGCTGCTCTAAAGTGAGAACTTGGCATTAGATTGCATTATCACAGTTAGTCCTCAGAATTGCCCTGTGGGGAGTTCGAGACCAGCCTGGGCAAC
Celera SNP ID:            hCV1261243
SNP Position Genomic:     24339
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34528):
GGGACAGGTGTAGATTACACCTGTGAGTGCGCATCTGGGTACCAGGGAGATGGACGGAACTGTGTGGGTAAGAGCCATGTTCTCGTGTCTCCTTCTTGTA
R
CCCTTGTTTTTCCTCTGCCCTCCCCAGCCTTATGTCTGTAGAAGACAAGTATCTGTCACCTTTACAACCTCCATTGTCAATGATTTTAGCAGCTGTTAAT
Celera SNP ID:            hCV1261171
SNP Position Genomic:     45843
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34529):
ATGATGGGAGCCACATGTGTGACACAACAGCACGGTGCCATCCAGGGACAGGTGTAGATTACACCTGTGAGTGCGCATCTGGGTACCAGGGAGATGGACG
K
AACTGTGTGGGTAAGAGCCATGTTCTCGTGTCTCCTTCTTGTAGCCCTTGTTTTTCCTCTGCCCTCCCCAGCCTTATGTCTGTAGAAGACAAGTATCTGT
Celera SNP ID:            hCV1261172
SNP Position Genomic:     45799
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,1)   caucasian(G,2)   total(G,31|T,1)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,6)   total(G,6|T,5) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:34530):
GGGTTGTGATTTCCTTCCCTGGGAAGAGCGTGGGAATATTAAAAAGCAGATCTATGGAGTCATGTATTAAAGGGTTAAGAAGGGACTGCACACCCTGCTT
Y
GGGCTCTGAGAGCTTGAGATCACTGGAGTAAAGTGCAGGAGGCTTCAGGAACCAGCCATAGAGTAGAACAGAGGCACAGCTATAACCCTTGTGGGGCATG
Celera SNP ID:            hCV1261245
SNP Position Genomic:     23285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,10)      total(C,10|T,4) ;(T,-|C,-)   JBIC-allele(C,734|T,749)   total(C,734|T,749)   (C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34531):
AAACACAGACATGCAGTCAGTTCCGAGGACTCCTCTATCTCCGTGACATTTGCTTACCAATAGCCAGATTGTGCTTTTATTTCCCCTCTACTCATGCAGA
R
GATTCAGACCCCACTCCGGTGAATCCTTGCTATGATGGGAGCCACATGTGTGACACAACAGCACGGTGCCATCCAGGGACAGGTGTAGATTACACCTGTG
Celera SNP ID:            hCV1261173
SNP Position Genomic:     45667
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,5)   caucasian(A,2)   total(A,27|G,5)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|A,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:34532):
GATCCTTCTGAGAATCTCCAGAATTTACAGTATGAGTTTCCTCTAAATACATTTTAAGGCCAAGTATCAAAGATTTTCACAAAGGGATTTGAGGTAAAGA
Y
GCATTCCTGAATGGCCTTCTCATTTGTGGGTTGTGATTTCCTTCCCTGGGAAGAGCGTGGGAATATTAAAAAGCAGATCTATGGAGTCATGTATTAAAGG
Celera SNP ID:            hCV1261246
SNP Position Genomic:     23157
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,11)      total(C,4|T,11) ;(T,-|C,-)   Caucasian(C,20|T,64)   African-American(C,37|T,45)   total(C,57|T,109)no_pop(T,-|C,-)   no_pop(C,-|T,-)   JBIC-allele(T,728|C,747)   total(C,747|T,728)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34533):
GTATTATCTGCAGGCTATTGCATGGAGAGGTACTAATTTCAGGAGGGAAGAAAATATTTTCTGACTAATGTGGCATTGTGTAAGGATTCGAGGGAGTACA
Y
TGGTGTCGGCTTCGAGTTTGAATCCTGGCTGCCAAGCTTGCTGGGTGACCTGAAGTAACTTATGTAACCCATAAGCCTCTGATTTCTCAGGAATTACTTG
Celera SNP ID:            hCV1261247
SNP Position Genomic:     22714
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34534):
TTGTCTATAGGGTAGGCAATAGGAAGCCATGCTGGAGTTTAAAACTGAAGTGCAGAAAATCCACCCTAGCTTCAGATATGGATAATTTAGTAAGGTCTTC
M
GGTGTGTCACAAAACACAGACATGCAGTCAGTTCCGAGGACTCCTCTATCTCCGTGACATTTGCTTACCAATAGCCAGATTGTGCTTTTATTTCCCCTCT
Celera SNP ID:            hCV1261174
SNP Position Genomic:     45555
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,9)   total(A,4|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34535):
TTTCTCAGACATGTTTGTCCTTTTGGATTGTTGTGACTTGGCCAGGTGCAAAAGCAGATTGTCTTGAGTTGGGACCTTCCCAGGAGGAGCAAGTGTGAGT
K
GAGGAAGCTGGGTTACAGATGGCCCATTACCCAGAGCCATCATTACTCAGGGGCCTGAGGGAAGATACTGACATTATTCTTTCTTGGGTTTCCTGGCGTT
Celera SNP ID:            hCV7591866
SNP Position Genomic:     51757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34536):
GGCGAAAGCAGGCGGTGGTTAATTATCATGGACATGGGGTCTATGTCAGTCTTCTAGTCCTTGTTGAGACTTGTCATGCCAGCTGTTTCTTCCCCATCAG
R
CATGGAAAGATGTGAATGGGAAACTGACTCCAGATTGTTTGTTCCAGGGACTGCTCATCTGACCTCTGATAGGAAGAAAGAGGTCAGAGGTGACTGCTTT
Celera SNP ID:            hCV1261248
SNP Position Genomic:     22413
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34537):
GGGTCATGTTAGGGCTCTGAAATTGACTACTTTTCCATATTGGGAATTTAAGTATTGTCATTTTTTAATTTGCCCTATTTTTGTCATTTTCAATTGTCCC
Y
ATTTTATTTCTGGTTCTCTGCTTTTAGGATTCTTTCCAAAGCCTACAAACTAAAAATATGCCAAACCCATCAGGTGCTTCCCCCAGTGTATTGGTTATCT
Celera SNP ID:            hCV7591867
SNP Position Genomic:     50608
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;(T,-|C,-)   Caucasian(G,7|G,13|A,71|A,73)   African-American(G,1|A,81|A,84)   Asians(A,80)   total(G,21|A,389)
SNP Type:                 INTRON


Context             (SEQ ID NO:34538):
AGTGACCCTCCTGCCTCAGCCTACTGAGTAGCTAGAAGCACAGGCATGTGGCACCATGCCTGGCTAAGTTTTTTAGAAAAGGGTTTTGTAGAGGCAGGGT
S
TCACTATGTTGCCTAGACTGGTCTCAAACTCCTGGGCTTAAGTCATCCTCCTACTTTGGCCTTGCAAAGTGCTGGGATTATAAGTGTGAGCCACCATGCC
Celera SNP ID:            hCV1261249
SNP Position Genomic:     20725
SNP Source:               Applera
Population(Allele,Count): african american(C,21|G,13)   caucasian(C,11|G,29)   total(C,32|G,42)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,9|C,10)      total(G,9|C,10) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34539):
AAATAATAGAGCAAAAGCACTTTTAAACAGATGTTTTGGGCGTTTTTATTCCCTGGATGCAAACCTACTGAAAGCAAGTAAAGGTACTAGTTGTCTATAG
K
GTAGGCAATAGGAAGCCATGCTGGAGTTTAAAACTGAAGTGCAGAAAATCCACCCTAGCTTCAGATATGGATAATTTAGTAAGGTCTTCCGGTGTGTCAC
Celera SNP ID:            hCV1261176
SNP Position Genomic:     45465
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34540):
CAGCAGAGATGGTGCTTTTAAAATATTTAGTTCCTTAGCTCTCTGGTTTAAAGCAAAGAAGTTGAAATTAATTTCAGCCTAGATATGATGAGTGTTAATC
R
GAATATTAATTTAGATTAGGTGCTGCATGCTTTGATCACTTCTACAATGATTCTCTCCCTCCTTTTTTCTTCTACTTGTCCTGCAAGACTTTGATTACCT
Celera SNP ID:            hCV7591868
SNP Position Genomic:     50403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34541):
GGGAGAGGAGACGGTTCGTATCACTCAAACTGCTGAGGGACTTGACCCAGAGAACTACCTGAGCATTAAGACCAACATTCAAGGCCAGGTGCCTTACGTC
Y
CAGCAAATTTCACAGCCCACATCTCTCCCTACAAGGAGCTGTACCACTACTCCGACTCCAGTATGTATAACCAGTCTTCACATCTGTAAAATGGGGATTA
Celera SNP ID:            hCV27510430
SNP Position Genomic:     34541
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,286|C,1205)   total(C,1205|T,286)   (C,-|T,-)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34542):
TAGCCCCTGTGTCTTTTTCTCATCTGTGAAATGAGGATAACCCTGATGCTCGTATGAAAGGGTAGATGGAAGAGGAAAGAGAGTGATGCTGTGAGACAGT
W
AGGAGGCCTTTTGACCAACTAGTGCCTAACACAGTGCCTGCCCATAGTGGTCATTTAATAAATGGATGAATGAATGAATGAATGAATGATGCAAATGAGA
Celera SNP ID:            hCV7591942
SNP Position Genomic:     14375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34543):
AAGTCCAGTATGATCCCTTTAGTTACCATGTAAGTCTGCTTTTATTTGGTTTTATATACCAGTGAAAACTGAACCTGATCTTAATAGCCTTTCAGGTTTT
Y
TGTTTTTTTGAGACAGGGTCTCACTCTGCCACACAGGCTGGGGTGCAGTGGTTGCAACCAAAGCCCACTGTAACCTGGAACTGCTGGGCTCAAGTGACCC
Celera SNP ID:            hCV1261251
SNP Position Genomic:     20532
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,21)   caucasian(C,25|T,9)   total(C,36|T,30)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,8)      total(C,7|T,8) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34544):
ATTTCCTAGTGCCCCGGAGAAAGCACCCTCCTGTCCATCCACAACCCCCGCCACACCCTACCCCCTTGGCTATTTCCTTTATGAACTATGGCATTTGCTC
Y
AGTTTCCCCATTTCTTTGCAGCACAGATGGCCCTCTTCTTTTAATGGGCAGAATAAGTAGGAAATGGAAGAAACAGCTGCCAGAGCACTGAATTTATCCT
Celera SNP ID:            hCV29157357
SNP Position Genomic:     31511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34545):
TCTATAAAATTGAATATGATCACCTCTATTTGCAGATTGTATTGAAGAATGTGAAACACTTGGCACAGGGAAGGGGCATCACCAATTCATGAAAGTATGT
Y
GTAGTCATTTGGGTGTCAGTATTTGGTAGAGTTTTAAGCATACATTTTTAAAATGTGTTATGTTTCCAGACAAGTAGAGGAAGGATGAAACATTCCTACA
Celera SNP ID:            hCV1261252
SNP Position Genomic:     20195
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,10)      total(C,4|T,10) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34546):
TCTGCTACTGCGTGGAAATCATGCTTGTACCATACCCATCATAGTTAAACCCTGCCAAGGGCATAGGGCATTTTAATAGCTTGAATCCCTGTTGTTTTGC
S
CTCCTCTGTCCCCTTCTCCCCATGCCTTTTCTTTGAGGTAGGTGCGTGTGTTCTTTAAGACCCTTCCCTCAAAACAATCTTGGTAGCGAGACCAGCTATT
Celera SNP ID:            hCV29157358
SNP Position Genomic:     31758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34547):
GTCCTCATTGAAGGCTCAGTATAAGACAAGAACCTGATTCTCTCCTGTTGTTATTTCTCCATTTTAATAGAAGATTCTGTACAAAGTGGGGTGGGAGACA
Y
GGGTCAGAAAGAGTGAAATGATAGAGAATCCAGGAGGAGGTGGTAAAATGGGTGGTACTGCCAGTGTCTGCCTACAGATGCCATGATGCTGGTGTCTGTG
Celera SNP ID:            hCV1261180
SNP Position Genomic:     43544
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34548):
TTGCTCCTTAACTTTTTCAGTGCAAAAACAAATTTTTTAGGTTTTGGCATTTGTATTTATTTGAATTTTTTTACATTGACTCACCATTCTTTGTGGATTA
R
GGAATTAATCAGTTCAAGTGAATAAACAATGAAATGTCTTTAATATTCTGTAGAGTAATGATAATTCAGATGCTTATTGACTGCAGTGTGTGGTATGGTT
Celera SNP ID:            hCV1261253
SNP Position Genomic:     19873
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,12)      total(G,4|A,12) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34549):
CTGCTACTGCGTGGAAATCATGCTTGTACCATACCCATCATAGTTAAACCCTGCCAAGGGCATAGGGCATTTTAATAGCTTGAATCCCTGTTGTTTTGCC
M
TCCTCTGTCCCCTTCTCCCCATGCCTTTTCTTTGAGGTAGGTGCGTGTGTTCTTTAAGACCCTTCCCTCAAAACAATCTTGGTAGCGAGACCAGCTATTA
Celera SNP ID:            hCV29157359
SNP Position Genomic:     31759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34550):
GAAGCTCTGCTGCATGGTTTTCTCGAACAATTTATGCTGAACTAACCCAAAGCCGTGGCTCAGTTCAGCCCTTTTATTTTTTTCTTTCACTAAATAGATA
Y
TTTTGGTGGTGGTATTGAAAGTTGAAGCTATGGCTTGAATATTCGTCTTCTTCAAAACTCATGTTGAAACTTACATTCCACTGTGGCAGTATTGAGAGGT
Celera SNP ID:            hCV7591873
SNP Position Genomic:     49453
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34551):
CTCAGCCAAGGCATCCCAGCTCACAGCAGGCTATGACAGGGCACTGGAAGAGCCATAACGTGGGCAGTAGGGCAGGCACGGGGGAGAATGCCAGACACCC
Y
GAAGGACTTGGGAGCGAGTCCAGTCTATGAGGTCAGCTGCAGCAGTCAGCACTTGGGATCTAGATTAGGAGTCACTCTGGGCAAGTCTCCCCCCATAGCA
Celera SNP ID:            hCV1261181
SNP Position Genomic:     43257
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34552):
ATTTTCAAATTGTACTGAAAAATATTGTTACTATAGAAATCCACATGAACATGATGAGTACCCACCCAAATGAAGGAAAATCTTTTGTTCTTATACAATT
Y
AGTGAAGTTTTTATTATCTTATTAGGCATGGACTGTTATTCCTCATTGACTGACTTTTGAGGAAATTCCATTGCTTGGGAGAATGTGAGCATAGTGTTTT
Celera SNP ID:            hCV1261254
SNP Position Genomic:     19429
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34553):
CACTGTACTCCAGCCTGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAGAAAGAAAATGCACTCTTTAATTCAGTGGGATGAGGGTAAAAGT
R
ATAGGAGAAACTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGCAATTGCTCTGGAGTGTTATAAACTTTAATTGAGGACTGCTTAGGTGA
Celera SNP ID:            hCV7591874
SNP Position Genomic:     47676
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34554):
TGACCTCGGTTCACTGCAACCTCTGCCTCCTGGGTTCAAGCTTTTCTTCTGCCTTAGCCTCCAGAGTAGCTGGGATTACAGGCACACACCATCACACCTG
R
CTATTTTTTTTGTATTTATAGTGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTAACCTCAGGTGATCCGCCCACCTTGATTTCCCAAAGTGC
Celera SNP ID:            hCV1261256
SNP Position Genomic:     18589
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34555):
CTTCCTCAAATTTGTCTCACAACTGTGAGCTCAAAGGTCATAAATTATATAGTTCATAATGTTTGTCATACTCTTCCTCTGCAAATTTAAATACGAATTC
R
CACGTGTATATTTTGAAATCATACTTTTCTATCTTCTGGAAGACAAGACAGTAGTTAATAAGTATTTATGATGTTTAGGGCCAGTGATAGGCATTTTATT
Celera SNP ID:            hCV1261259
SNP Position Genomic:     18331
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,9)      total(G,6|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34556):
TACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCAGGGAGTTGGAGGTTGCAGTGAGCCGAGATCACGCCACTGTACTCCAGCCTGGCGACAGAGTGA
S
ACTCCATCTCAAAAAAAAAAAAAAAAGAAAGAAAATGCACTCTTTAATTCAGTGGGATGAGGGTAAAAGTGATAGGAGAAACTGCGTGTGTGTGTGTGTG
Celera SNP ID:            hCV7591878
SNP Position Genomic:     47605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34557):
ACTTCCCAGGGCGAGGATGCAGAACTGGGGTGTCTTTCCCAGTGAGTAATTGGAGCCTCTGTCCCTCGGTGACTTCTCAACCAGCAGTGCCACCCCCCAC
Y
AGTTGTTTGAGCTTTAAGCTTTAAGTGTGAGTCAGCTGTTTTTTGTTGTTGTTGGTTGGTTGGTTGTTTTGTGGGGTCATAAAACACGATCCAAAAATGC
Celera SNP ID:            hCV1261187
SNP Position Genomic:     41823
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;JBIC-allele(C,459|T,850)   total(C,459|T,850)
SNP Type:                 INTRON


Context             (SEQ ID NO:34558):
TTTTTAAAACAGTTAAAGAATTCTTAGAATATTCACTTAAAAATTTATCTTCCTGTGGTGTTTACTTGAATGGCATGAAATTTTTACTATTTCTGATTAT
S
TGCAACATGCATTCATATCTGATTTTTAAAAATTCTACATCTGCCAACCATTTGTCCCATTGAAGCATCATACTAGTGAGAAAACATTGAGTTTTTAGAC
Celera SNP ID:            hCV7591879
SNP Position Genomic:     46347
SNP Source:               Applera
Population(Allele,Count): african american(C,24|G,6)   caucasian(C,2)   total(C,26|G,6)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34559):
ATCATCTTGTTGGAATTCATGTGAAACAGCGCAGCTGTCCACACCTGATGTGGGTGTGGTGCGACTTCCCAGGGCGAGGATGCAGAACTGGGGTGTCTTT
Y
CCAGTGAGTAATTGGAGCCTCTGTCCCTCGGTGACTTCTCAACCAGCAGTGCCACCCCCCACCAGTTGTTTGAGCTTTAAGCTTTAAGTGTGAGTCAGCT
Celera SNP ID:            hCV1261188
SNP Position Genomic:     41760
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;JBIC-allele(T,371|C,1108)   total(C,1108|T,371)
SNP Type:                 INTRON


Context             (SEQ ID NO:34560):
GTTTTCTTTAGAATTTTATGATTTTCCCTCCCACCCCAGTCAAATAATAATATCAAAGCATGGTTTACTTGGTGCCAAGTACTGTTCTAAGCACCTTACA
Y
GAATTAACTCATTTAATCCCCACAATGACCTCTACCCAATGGTGGGGTGGGGGTGGGGTTATTTGTTATCCCATTTTACAGATGATGAGACTGAGGTATA
Celera SNP ID:            hCV1261189
SNP Position Genomic:     41212
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34561):
GCTCAGAGCCCACCCAGAGGCCCCCGACCATCTGTGAGCGCTGGAGGGAAAACCTGCTGGAGCACTACGGTGGCACCCCCCGGGATGACCAGTACGTGCC
M
CAGTGCGATGACCTGGGCCACTTCATCCCCCTGCAGTGCCACGGAAAGAGCGACTTCTGCTGGTGTGTGGACAAAGATGGCAGAGAGGTGCAGGGCACCC
Celera SNP ID:            hCV25922720
SNP Position Genomic:     60179
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,27)   caucasian(C,2)   total(A,1|C,29)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34562):
AAAAGAAACACCCAAAAGTTTTTTCTTTCCCCTCTTGGTACACAGCAGTATCTTCCTAAGAACTGCTCAGTTTTTCCAGAGGGAACTATCATCTTGTTGG
R
ATTCATGTGAAACAGCGCAGCTGTCCACACCTGATGTGGGTGTGGTGCGACTTCCCAGGGCGAGGATGCAGAACTGGGGTGTCTTTCCCAGTGAGTAATT
Celera SNP ID:            hCV15949486
SNP Position Genomic:     41673
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(G,222|A,905)   total(G,222|A,905)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34563):
GACACCTCTGGCTTCAGTGTTGCTGTAGCAGAAATCAAGATAAACATTTTCCCTGTCTGTATAATTGCTAAGGTCATCAAATGTGACATACAGGATTTGT
Y
CACTGTCTCAGTACTTGTTACAATCAGGGAGAATTTTTATATCTTGAGAAACTCTTGCCATGTTTAAGTGGAGTTTCTACGAAATGAAATTCCCAGATGC
Celera SNP ID:            hCV27870130
SNP Position Genomic:     65019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34564):
TCCTCTCAGGATGTGTTTAGGTTGAACCATATAAAAGTGCTGATATTTAGCCCTTTTTGACCCACAAAAATAGTGGTTTCATGAAGTTCAACCTAACATG
W
ACTTACTGGTTTGCTTTCATTTTACTGCACTCAAACCCACGGGTGCAGTCTCATCTTAGTTCACCAACTCTGCAATGGGACCCAGCCGGGAGCAGTAAGC
Celera SNP ID:            hCV29157360
SNP Position Genomic:     32035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34565):
TCTTAAGCACAGCTGTCCAAAGCCTCCTATTTCAGGGAGAATTCAGCCACTTTATGCAGACAGGAAAACAAAACTGTTCGTTTTAGCATCTTCTCTATTG
K
AACTATTTTTTTGTACTCAGATTGCATCAGATTCAAAACTAGTGACATCCTCTTATGCTCTGTTTCCCCAACCAGATCATGAGCTCTTTAAGGTTAGGGG
Celera SNP ID:            hCV16208664
SNP Position Genomic:     2388
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,4)   caucasian(G,40)   total(G,74|T,4)
SNP Type:                 hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,8)      total(G,8|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:34566):
AAGGCTTAAATGACTTACATGGCATGTCCTTAGAACAGTGCATGGAACATAAAATGAGCTCTATTATGTTATTACTCTTATTGTTACCATGAAATATATC
R
TGTAAGTGAGCAGAATGGCTGCTATACATAAGAATATCTATATCCCTACATAGTATTTTCAAATAATAAAATCAATAGCAACATTGTCCATGGGGTGGGT
Celera SNP ID:            hCV29157362
SNP Position Genomic:     34765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34567):
CTGTTGGGTTTTCTTAATTTTCTTTAGCAGGATTGGCAGATGTACATGTTCCTATTTCCATTTTACATGGCAGACTCAGAAGTACACAGAAGTGCCAGAG
K
TGATAGATTCATTCTACCTGAGCATCTGACACTCCTTCCAATACCTCTGTGCCATTGGCTTAGACTAGATAACTTCATGAAGTTCCTTCAGTGAGGGTTG
Celera SNP ID:            hCV27522173
SNP Position Genomic:     44079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34568):
CCTGAGGAAGACCTGTTAGCCCCTGTGTCTTTTTCTCATCTGTGAAATGAGGATAACCCTGATGCTCGTATGAAAGGGTAGATGGAAGAGGAAAGAGAGT
K
ATGCTGTGAGACAGTAAGGAGGCCTTTTGACCAACTAGTGCCTAACACAGTGCCTGCCCATAGTGGTCATTTAATAAATGGATGAATGAATGAATGAATG
Celera SNP ID:            hCV7591952
SNP Position Genomic:     14359
SNP Source:               dbSNP
Population(Allele,Count): (T,-|G,-)   Caucasian(T,1|G,79)   African-American(G,76)   Asians(G,78)   total(G,233|T,1)no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34569):
AGAAGACAAGTATCTGTCACCTTTACAACCTCCATTGTCAATGATTTTAGCAGCTGTTAATCTGAATATAGTTATTTAAAAATTAAAGCATAGCTGTTTA
K
GTTTGAAAAGATGGTTTGGAGTGGAGTGGATTTTGCACCGGGGCTGTGAAAAGAAAACATCTGTTGCAGTTCCTGGATGTTTTGAGTTAAGTTTTGTAAT
Celera SNP ID:            hCV7591880
SNP Position Genomic:     45983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34570):
AGTAATTAGGGACACTTTCTTCTCAATTTTAGGTAGGATAATATATCCTGTCCAAGTTTGCAAGTCAACTTTTGAGCTGAGATTTTTTTTTTTTTTTTTT
Y
TTTTAATGCCTAGCAGGGTGGTAAGCTCTTGATGTCCATGTGAACACACTAATCTTTGCTGGAATGTGCCATGGTGAAATTTTGATGCTGGAAAGTACTG
Celera SNP ID:            hCV16208669
SNP Position Genomic:     42485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34571):
AGAAATGTCCTTCAATATAATCTTCTATTTCACTTTTCATTATTTAAAATTTCAAAAATATACAGAAAAGTGGAGAGAATAACTAGATGAACACCCAAAT
R
CCCATCACCTAGATTTATACATTGTAAACATTTTGCCATATTCATTTTTTTGTTTGTTTACATTTTTTTCTTTTCTTTTTTTTTTTTTTTTTTTGAGACG
Celera SNP ID:            hCV1261261
SNP Position Genomic:     17438
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34572):
AAATGTGATGTTCTTCTCTGTGCCCGAGTTTGTCTGTCTAGCAGAATGGAAAGGTAATGATACTTACCAGTAAATAATATTTCTAAGAGTCACATTATTT
R
TGAAGTAAGTTGTGTTTTAAAAATACCTTCCCAGTTCCTTACTAAATTGTAAAAGTAGTGTGATTTAGTGAGAGAGAGACAGTTTCAGAAGCCTAAACAT
Celera SNP ID:            hCV7591953
SNP Position Genomic:     13311
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34573):
ATGAACTATGATATTTATCAGCTGCCGGATGCAGTCTACTATAGACATCCTGGTAATGGCAAAAAACGCCTGTGAAAAAGCTGGTTAATACGCATTTTGG
R
GGAAGAAATCTAGAAGTGTTTGAAACTTAGACAAAAAAAATCCAGTTTTTGTTTTAAAAGAATTTACGGGGATGTATGAAGTATAGAAGCATGCAATTGT
Celera SNP ID:            hCV16049731
SNP Position Genomic:     23483
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34574):
TTTTAAGGCTACAAAACGTTATGTCATATATGTATAAAGACAGCTTATTAATGAACATTTCATGTATTTCTGATTTTTCTTGTTATAAATATCATTGCAG
K
AAACAGCATAATAAACATTGCTCACATTCTCGTTTCTCCCTAAAACAAATTCTTAAAAGTGGAATTGCTGAGAAAGGGTGTATGATTTAAAAGTTGTACA
Celera SNP ID:            hCV1261262
SNP Position Genomic:     17148
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,9)      total(G,9|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34575):
GAAAGGATCAGAGAAAGCAAACTGGCAGGTACCAAGTTGCTTGTTTTCTTTAGAATTTTATGATTTTCCCTCCCACCCCAGTCAAATAATAATATCAAAG
S
ATGGTTTACTTGGTGCCAAGTACTGTTCTAAGCACCTTACACGAATTAACTCATTTAATCCCCACAATGACCTCTACCCAATGGTGGGGTGGGGGTGGGG
Celera SNP ID:            hCV1261190
SNP Position Genomic:     41170
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,7)      total(G,4|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34576):
TGATCACTACTTCAAGTGATAACAAGTGTTAATGGTCCTTCTAGAATTTAGGTATATACAAAACTTTTAAAACCAAAATGGTTCTTTTGCTATGTAAGTG
K
TGTTTTCACATTAATCACTTCTTATAGGGGTCTTTTAGTCAGATGTCTGTCTATACTACCATTTTAAGGCTACAAAACGTTATGTCATATATGTATAAAG
Celera SNP ID:            hCV1261263
SNP Position Genomic:     16986
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,8)   total(G,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34577):
GTAAAAGCAACTGTTAGTGAAATAATTTCCCAGGCTATGGAGTCCCATTCAGATTCTGGAACCATTTAGGAAAAAGATGTGTCTCTGGGTATATTTTTCC
Y
AGAGACATACCAAATGAGAGTAAGAAAGGATCAGAGAAAGCAAACTGGCAGGTACCAAGTTGCTTGTTTTCTTTAGAATTTTATGATTTTCCCTCCCACC
Celera SNP ID:            hCV1261191
SNP Position Genomic:     41046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34578):
AGGCTGCCGCTTAGTCTGGACTCTGGAGCAAACTCAGTTCCTTACTCTCCCTCCTCTGGTTCCACCCTCTCTTCTACTTGGGAGCTCATAGATTTATTAT
Y
CCATAGATTTATTATTATAGAGAGGTCACAATGGCCAAGCACATGGAATACAAAGATTTCTAAGACACTGGTCCTGCACATCAGCAGCTTGTACCCTATT
Celera SNP ID:            hCV1261264
SNP Position Genomic:     16397
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34579):
TCCTTTCCCATCCTTATGATCCACATTGGGCATCTTTAGGGCTCCATCTAGGCTGCCGCTTAGTCTGGACTCTGGAGCAAACTCAGTTCCTTACTCTCCC
K
CCTCTGGTTCCACCCTCTCTTCTACTTGGGAGCTCATAGATTTATTATTCCATAGATTTATTATTATAGAGAGGTCACAATGGCCAAGCACATGGAATAC
Celera SNP ID:            hCV1261265
SNP Position Genomic:     16348
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34580):
AAAGTGACTTGTAATGAGAATCCCGAGGTGCTTTGGTTTTAAGAAACTTGGTTGGGAATGTAGGCATTAGGTGCCCAGAGATTGGATTGTAAGGTAGCAA
R
TGAACACATGAAAATGTGAGTTGATTTTAGAGGAACATGTAAATTAGAAAGGGAAAGATTGCTGTAGTAGATTTCTCAAAGAGAGATTTAAACCTACTGG
Celera SNP ID:            hCV1261193
SNP Position Genomic:     40782
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34581):
TAGACTCTTTTCTAGGATGCGAAAGTGACTTGTAATGAGAATCCCGAGGTGCTTTGGTTTTAAGAAACTTGGTTGGGAATGTAGGCATTAGGTGCCCAGA
K
ATTGGATTGTAAGGTAGCAAGTGAACACATGAAAATGTGAGTTGATTTTAGAGGAACATGTAAATTAGAAAGGGAAAGATTGCTGTAGTAGATTTCTCAA
Celera SNP ID:            hCV1261194
SNP Position Genomic:     40761
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,6)      total(G,6|T,5) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34582):
TAAATAATATTGCTTATGAAATTATATTGTTAACTTGAAGAGGAAATTTTAAAGAAGGTTATGTTTAAAAACAATTTGGAGGAATCCTGAAAAAGGGGAA
R
TTCTTTGCACGTTATGATGCTTTGCTTGCATTCTGTTTCTTTCTTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTCTCTTTTTTTTTTT
Celera SNP ID:            hCV1261268
SNP Position Genomic:     14772
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34583):
TGTCAGTATTGATTGGGGATAACAAATGCACCACACTAATGCACAATGTTGATAATAGGGGAAACTGCACATTTTGGGTGGGGGGATATGGGAGCTCTGT
R
CTTTCTGCTCCATTTTTCTCTAAATGTAAAACCATCCTAAAAAGCAAGGTCTTAATTATTAAAAAATGTTTCAAGCAAGCCAGAGGATGAGCTTGTGAAG
Celera SNP ID:            hCV1261195
SNP Position Genomic:     40262
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34584):
TCAGGGAGCTAGGCTTATGCTGACATAGTTCATCAGGTTTAAAAAGTGCTGGAATTATTTATTGGTCCTTTGTTTTGGCAAAGATTCTGTTACTCCAGCC
R
ACAACATTGTGGTGAACTGAGGATAAACCCATAGCCCTCCTTATTTTCAGCCAATAATACGGGAATCAATAATACGGGAATATTCCACTACAAGAATGCA
Celera SNP ID:            hCV7591887
SNP Position Genomic:     43001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34585):
ATAAATAATATTGCTTATGAAATTATATTGTTAACTTGAAGAGGAAATTTTAAAGAAGGTTATGTTTAAAAACAATTTGGAGGAATCCTGAAAAAGGGGA
M
ATTCTTTGCACGTTATGATGCTTTGCTTGCATTCTGTTTCTTTCTTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTCTCTTTTTTTTTT
Celera SNP ID:            hCV1261269
SNP Position Genomic:     14771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34586):
AGAGGAACGGACCTCCAAGGATGTCTGCATGCTTCAGGGAGCTAGGCTTATGCTGACATAGTTCATCAGGTTTAAAAAGTGCTGGAATTATTTATTGGTC
Y
TTTGTTTTGGCAAAGATTCTGTTACTCCAGCCAACAACATTGTGGTGAACTGAGGATAAACCCATAGCCCTCCTTATTTTCAGCCAATAATACGGGAATC
Celera SNP ID:            hCV7591888
SNP Position Genomic:     42968
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34587):
CCAAAAGGTGGAAGCAACATACATGCCCATCAGTTGATGGACACCAAAAAATATATTCATATACTGGAATATTATTCAACCATAAAAAGGAATGAAGTAC
R
GATACATGCTGCAACATGGATGAACTCTGAAAACCTTAAGTGAAGGTAGTCAGTGACAAAGGACAGCATACTGAATGGTTACAATTATGTGAAATATCCA
Celera SNP ID:            hCV1261198
SNP Position Genomic:     38913
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34588):
GACTGACTCAGGAACCTGGTCTAGGCTCAAGTTAACTCGGCAACCACAACCCCAGTGCGGTGCCTCTTTCCTGTCAGCCAAGAGATCCAGAGGAACGGAC
S
TCCAAGGATGTCTGCATGCTTCAGGGAGCTAGGCTTATGCTGACATAGTTCATCAGGTTTAAAAAGTGCTGGAATTATTTATTGGTCCTTTGTTTTGGCA
Celera SNP ID:            hCV7591889
SNP Position Genomic:     42880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34589):
TATATTCATAGTGGCAGTATTCATAATAGCCAAAAGGTGGAAGCAACATACATGCCCATCAGTTGATGGACACCAAAAAATATATTCATATACTGGAATA
Y
TATTCAACCATAAAAAGGAATGAAGTACGGATACATGCTGCAACATGGATGAACTCTGAAAACCTTAAGTGAAGGTAGTCAGTGACAAAGGACAGCATAC
Celera SNP ID:            hCV1261199
SNP Position Genomic:     38884
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34590):
GGTAGATGGAAGAGGAAAGAGAGTGATGCTGTGAGACAGTAAGGAGGCCTTTTGACCAACTAGTGCCTAACACAGTGCCTGCCCATAGTGGTCATTTAAT
R
AATGGATGAATGAATGAATGAATGAATGATGCAAATGAGAGATGCTGAGTGCCTAGGGTTATAAACTAGGGCAGTGACTGCAGGATGGACAAGTTAATTT
Celera SNP ID:            hCV11161010
SNP Position Genomic:     14435
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34591):
GAAAAAGGGGAAATTCTTTGCACGTTATGATGCTTTGCTTGCATTCTGTTTCTTTCTTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTC
T
CTTTTTTTTTTTTTTTCCTCACAGCTGAACACTTTCCAGGCAGTTTTGGCATCTGATGGGTCTGATAGCTACGCCCTCTTTCTTTATCCTGCCAACGGCC
Celera SNP ID:            hCV11161011
SNP Position Genomic:     14860
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34592):
AAAAAGGGGAAATTCTTTGCACGTTATGATGCTTTGCTTGCATTCTGTTTCTTTCTTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTCT
Y
TTTTTTTTTTTTTTTCCTCACAGCTGAACACTTTCCAGGCAGTTTTGGCATCTGATGGGTCTGATAGCTACGCCCTCTTTCTTTATCCTGCCAACGGCCT
Celera SNP ID:            hCV11161012
SNP Position Genomic:     14861
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34593):
AGGCCAGCTGCAGTTGGAGACCTTTCCGCTGCCCACTCTTCTGTTCCCCTGGGACGTTCCTTCAGCCATGCTACAGCCCTGGAAAGTGACTATAATGAGG
R
CAATTTGGATTACTACGATGTGAATGAGGAGGAAGCTGAATACCTTCCGGGTGAACCAGAGGAGGCATTGAATGGCCACAGCAGCATTGATGTTTCCTTC
Celera SNP ID:            hCV25922735
SNP Position Genomic:     21099
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,2)   total(A,31|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34594):
CCTCAGTTGGGATTTCTGGCCCAGTCATGTAACAAGATGATGAACTTCACTAGTAAACACCTCCAGCTCTTTAGATAGAGCCTAAAGTATTTTTCAAATT
R
GAAGAGATGGATTTATAATTCACTGATGCATGTCCTACTTGACTGGCTAAAGAGCTCCTTCTGTAACAAATTACCTCTTCTATATTTCCAGAAAATACTA
Celera SNP ID:            hCV16208670
SNP Position Genomic:     47287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34595):
ATCCAACAGTTCCTGCTGGTTTTGCTCAGTACTTGGGCAGTGAGAAGGATGTTGAAGCACGAAAGCATGAACTCGAAGGATTTTTAACACATTTTCCAAA
Y
AGGTTCTTTACTAGCTTAATAGAGTGTAGGATTGCACTGAGATTAAGCTACCTCTCATTACCTGAGTGATAAAGGGGCTCTACGACTTCTTGAACGTTTT
Celera SNP ID:            hCV15949496
SNP Position Genomic:     52665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34596):
TGGAGTCTCGTTCTGTCATCCAGGCTGGAGTGCAGTGGCATGACCTCGGTTCACTGCAACCTCTGCCTCCTGGGTTCAAGCTTTTCTTCTGCCTTAGCCT
C
CAGAGTAGCTGGGATTACAGGCACACACCATCACACCTGGCTATTTTTTTTGTATTTATAGTGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCC
Celera SNP ID:            hCV11161016
SNP Position Genomic:     18549
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|-,7)   total(C,5|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34597):
GTCTCAGGAATTCCTGCTTCCTGTCATTGCTTGGGGTTCCTGTTACCATTAGAAGTACTTTTAGCATGCGTATTGTGAATAGCTTTAATTTCCTGCATTC
R
GCTGAATGTTAATTTTTACAGGTTTAGTTTTACAGCCAGTTTTACAGCCTATTCCAGGTCCAAGGTATTGGATGGTCACCAGTTTTGCCCAGCTGGGCAT
Celera SNP ID:            hCV15949497
SNP Position Genomic:     53390
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,299|G,1176)   total(G,1176|A,299) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34598):
AGTCTCGTTCTGTCATCCAGGCTGGAGTGCAGTGGCATGACCTCGGTTCACTGCAACCTCTGCCTCCTGGGTTCAAGCTTTTCTTCTGCCTTAGCCTCCA
G
AGTAGCTGGGATTACAGGCACACACCATCACACCTGGCTATTTTTTTTGTATTTATAGTGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTAA
Celera SNP ID:            hCV11161017
SNP Position Genomic:     18552
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,7)   total(G,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34599):
CTTGCAGATGAATTGATATCTGCTTTCTTGCCTTTATAGGCGAAATGATGGTATCCAGGGAGGCCAACCACTCACCTGGGTGGAGACTCTATGGGTTGCA
W
TGAGTTCAGAATTTTTGGGGGAGGACTCCTAGGAACTGATATATGCTGACTAAACTCCCCAGAGACAGAAGATAAGCAGAATACTTACCTTCTAATTATA
Celera SNP ID:            hCV15949498
SNP Position Genomic:     53693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34600):
TAAAGTATTTTTCAAATTGGAAGAGATGGATTTATAATTCACTGATGCATGTCCTACTTGACTGGCTAAAGAGCTCCTTCTGTAACAAATTACCTCTTCT
R
TATTTCCAGAAAATACTACAGACCTAAAAATGGATCAAAAGAACTATCCCAATTCATCCCATTGATAAAGATGGATGAGAGTAAAGAAAATGCACTCTTT
Celera SNP ID:            hCV16208674
SNP Position Genomic:     47369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34601):
TGTCATGCCAGCAGTTGTAAAAGGCCACCCCCAGGGTCGTGATCACTGCCACCAGCATCATTACATGCCACACACATCAAAATTAAACAAACATGAAAAC
T
GGACGAAAAAGCATTCCACTGTTTGTTATAAAGTTGGATATGGTTTTTCTAACTAGTCTGTCATTCTGAGAGATGGGAAAACTTAGAAGAATTTTTCCTG
Celera SNP ID:            hCV26535041
SNP Position Genomic:     25548
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34602):
CCAACATGGCACATGTACACATATGTAACAAACCTGCACGTTGTAAACATGTACCCTAAAACTTAAAGTATAATAATAATAGAATTCTGATGGTTAAAAG
M
CAAAACAAAACAAAAAACACAGTGCCAAAACAATTCAATGGAGAAAGAATAGTCTTTTAAACTATTGTTAACTATGGTGCTGGGACCACTGAGTGACCAC
Celera SNP ID:            hCV26535114
SNP Position Genomic:     37972
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,4|-,7)   total(A,4|C,4|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34603):
GTCATGCCAGCAGTTGTAAAAGGCCACCCCCAGGGTCGTGATCACTGCCACCAGCATCATTACATGCCACACACATCAAAATTAAACAAACATGAAAACT
G
GACGAAAAAGCATTCCACTGTTTGTTATAAAGTTGGATATGGTTTTTCTAACTAGTCTGTCATTCTGAGAGATGGGAAAACTTAGAAGAATTTTTCCTGC
Celera SNP ID:            hCV26535042
SNP Position Genomic:     25549
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34604):
GGGATCCTGGGGGAGCTGGGAACCAGTGACTCGTTTGTCAGGTTTGGCAGCCCATCTGAGGGCTTCTCTTTGGAGACAGAGCCTGTGCGGCTCTTGCAAA
R
GCTTGTATCTAGGAATGTGAGGACCTTTCCTGTTTGGAAGCCAGTCAAGGAGTTTTTTGAGAGGGGGAGCCCTTCAAGACTTCATGAAGTGGGCTCTTTA
Celera SNP ID:            hCV7591961
SNP Position Genomic:     12036
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34605):
CCACTCACCCTGATCCTCTCTGTGCTGCTCCTCTCCCTGTGGAGGCCCCTCTCTCCTCTCTGGGATCCTGGGGGAGCTGGGAACCAGTGACTCGTTTGTC
R
GGTTTGGCAGCCCATCTGAGGGCTTCTCTTTGGAGACAGAGCCTGTGCGGCTCTTGCAAAAGCTTGTATCTAGGAATGTGAGGACCTTTCCTGTTTGGAA
Celera SNP ID:            hCV7591962
SNP Position Genomic:     11975
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34606):
GGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACAAAATAAAACATATAAATATATATATATATA
T
GTATATATATATACATATATATATACACAAAAAAATTTAGCCAGGTGTGGTGGCATGTGTCTGTAGTCCCAGCTACTCAGGAGGCTGAAACAGGAGAACT
Celera SNP ID:            hCV26535117
SNP Position Genomic:     39395
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34607):
TTTAATTGAAATGAATTTGTTGGCTGGTTGAATGAATGAATGAATAAAATAAAGTGCTAAATGCCCAGAGTTCACAGCAAAAAGTCAGACTCTCCTCTTC
W
CAGCTCTGTTTACTACTCTCTTCCCCCCTTCCCCATCCCCTTCAATTCTTCACAGTCTCTACAACCTCCTTATCTTATGGAATTTCTCTAAATTTAGAAC
Celera SNP ID:            hCV1261271
SNP Position Genomic:     12481
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|A,5)   total(A,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34608):
AAGAGTCACCCTAATTCTTCATTTCCATTTTCATTTTCATTTTGATAAGCCTCTATAGGCAAGCCCCTTGAAGAAAAGGATGTCACTATTCTGATTTTTG
K
CCAGATAGCTGCAGTTAATTAAATGAATTGAAAAAATTAGAAACTCTTAGAGGGGTGTATGTTGCATGCATCAGCCTGGCTCTGATGAGTGTCACTTCAA
Celera SNP ID:            hCV7591963
SNP Position Genomic:     11677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34609):
AAATTAAATACTTGCCACCCATAATGAGTGCTCATCTCAAGAACAGTATATAGAAGATGTTGAATAAATTTTAATTGAAATGAATTTGTTGGCTGGTTGA
M
TGAATGAATGAATAAAATAAAGTGCTAAATGCCCAGAGTTCACAGCAAAAAGTCAGACTCTCCTCTTCACAGCTCTGTTTACTACTCTCTTCCCCCCTTC
Celera SNP ID:            hCV1261272
SNP Position Genomic:     12412
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,4)      total(A,4|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34610):
CAACACCTCCAGGCCTCTGCCCAAATGTCTTTTTCTCCCGAGGTCTTCCCTGACCATACTATTTCAAAGAGCCAGGTGCGCCTGCCCTCTCTCACCCTCT
K
GTCTGACCCTGCCATATTCCTCTGCACTTCAGTGATTCTGATGCCCCCTCAATTTGATGGGATTTAGAGCCAGAAGATTGTTTCATCTCTGTAGGCCTCA
Celera SNP ID:            hCV16049741
SNP Position Genomic:     26521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34611):
GTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACAAAATAAAACATATAAATATATATATATATAT
G
TATATATATATACATATATATATACACAAAAAAATTTAGCCAGGTGTGGTGGCATGTGTCTGTAGTCCCAGCTACTCAGGAGGCTGAAACAGGAGAACTG
Celera SNP ID:            hCV26535118
SNP Position Genomic:     39396
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,6)   total(G,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34612):
GGCTTCTCTTTGGAGACAGAGCCTGTGCGGCTCTTGCAAAAGCTTGTATCTAGGAATGTGAGGACCTTTCCTGTTTGGAAGCCAGTCAAGGAGTTTTTTG
R
GAGGGGGAGCCCTTCAAGACTTCATGAAGTGGGCTCTTTAGCAATTAGATGTAGAATTTTGTAGAACTGACCAAGAACTTTACAAGTGATCATTTAGTGT
Celera SNP ID:            hCV1261273
SNP Position Genomic:     12096
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34613):
TCTAAGGTGGGCCCTCAGAATTTGCATTTTTAACAGAAATCTCAGGTGATCCTGATGCAGTGGTCTCTGGAATCCACCGGGAGAAATGCAGCTCTCCGTG
Y
GAAGGACTGCATGGTGCTGTGCTGAGGGTGTAAGTTGTTATTCACCCCTTGGTGAATTTCCTTGATGCCTCATGCTGTTGTCAGAACTGAACCCCACAAA
Celera SNP ID:            hCV16049742
SNP Position Genomic:     27392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34614):
CCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACAAAATAAAACATATAAATATATATATATATATGTATATATATAT
A
CATATATATATACACAAAAAAATTTAGCCAGGTGTGGTGGCATGTGTCTGTAGTCCCAGCTACTCAGGAGGCTGAAACAGGAGAACTGATTGAACCCAGG
Celera SNP ID:            hCV26535119
SNP Position Genomic:     39408
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34615):
TGTCCCCTCTGAAAATCATGTTGAAACTTAATCCTCAATGTGACAGTATTGAGAGGTGGGGCCTTTGAAAGGTGACTGGGTCATGAGGGCTCTGCCCTCA
K
GAATGGATTAATTTATTCATTCATGGATTACTGGATTATCATGGAGTGGGCCTGGTTGCTTTATAAGAAGAGGAATTGAGACCTGAGCTAGCACATTAGC
Celera SNP ID:            hCV1261274
SNP Position Genomic:     10702
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,7)      total(G,7|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34616):
CCCAGGTTAGCTTAACAGTAACTAGTTAGCCCATTGTAATTACAGTTTAAGTCTCATAATAGCCTTTCATGGGAGCCTGCTCATTGTTATAACTTCTTTT
Y
CTGTAATAGAAAAATGTAGTACAGCTTCCAATCTATTTATAAACCTTTGCACAGTTGCACTTGTAAGTTGCTGGCTGCATCGCCCTGCCTCTTTTTACTT
Celera SNP ID:            hCV16049743
SNP Position Genomic:     28575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34617):
TGGGACTTGAGTTCTTGTTTTAATAGTTCTTTGGAGATAGACTTTGGCAAACAGTAATCTAATTTGCTTGAAGGACTGAGTTCTACATGGCGTTCTTAAA
K
TTTGGCTTACTAACTTTATATTGCAAAGTTACTGGAAACTGGAAGATTCAAAGCAATGGCATCTTTGCCATTAAAAACAATTGCAGTTGGTGCCCTTTTT
Celera SNP ID:            hCV1261275
SNP Position Genomic:     9964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34618):
CTAAAACACTATTAGAACTAAAGAACAAGTTCGCAATGTTATAAGATATGCAAGATCAGTACACCAAATTGTATTTCTCTATAGTAGCAATGAGCAAACT
R
AAGATTAAGAAATTGTTTCAAAAAGAGATAAATTTTTAAAAAGAAGTGCAGTACTTGTACATTGCATCCCACAAAACATTTTTGGAAAAAAATTTAAGAC
Celera SNP ID:            hCV7591896
SNP Position Genomic:     37346
SNP Source:               Celera;dbSNP
Population(Allele,Count): Gaucasian(A,7|G,45)   Ghinese(A,3|G,11)   Japanese(A,5|G,31)   African(A,7|G,53)      total(G,140|A,22) ;(G,-|A,-)   Caucasian(A,7|G,45)   African-American(A,7|G,53)   Asians(A,8|G,42)   total(G,140|A,22)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34619):
TGAGGAAGTAGCATTTCCCTCTCTGTGTTCCTTGAGACACATTTGGCTGAAGAAGTCAGAGTCTTACCTTCTCCACGGGGTCTTAAAAAGAGCTTTGTCT
Y
CCATGGGTCATGAGCTACAGTGACAACTTAACGGCATTCGCTTCCCCCAATTCTGGTGAGTCGTGCAGTTGAGCTAGAGCTAGTTGGGTTTGAGCTCTGA
Celera SNP ID:            hCV27974947
SNP Position Genomic:     58379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34620):
CCTGCTCTATACTCAGGGCCAGCAGATTGGCTACTTACCCCTCAATGGCACCAGGCTTCAGAAGGATGCAGCTAAGACCCTGCTGTCTCTGCATGTAAAG
Y
GGATTTCTCCTGTAGGGGGCAGGGCTGCGTGGCTTTCCCAGTGGGAGCCACCTCACAGGCCCTGTTGCAGTGAGGTGGACTGGTGCAGGGAAGTCCTGGA
Celera SNP ID:            hCV27974948
SNP Position Genomic:     61080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34621):
TAATAGGACAGGTAATTTTACAGTTGCTAATCTATGACTGTAATGGAAGTAAAATATCCTATTTCCCCATTCTATCACTGTGTCACTATCACTATGTCAC
Y
ATCATTTTTGGCAAAGCAGCTGAAGGACCTCATTTTCCCCCTTTGTTTTAAAAGGAACCAAAAAACTGGAGTGTACACTACCTGATGGAACTGGACGGCG
Celera SNP ID:            hCV25922740
SNP Position Genomic:     68645
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,28)   caucasian(T,2)   total(C,2|T,30)
SNP Type:                 INTRON


Context             (SEQ ID NO:34622):
CAGGGTCTCACTCTGCCACACAGGCTGGGGTGCAGTGGTTGCAACCAAAGCCCACTGTAACCTGGAACTGCTGGGCTCAAGTGACCCTCCTGCCTCAGCC
W
ACTGAGTAGCTAGAAGCACAGGCATGTGGCACCATGCCTGGCTAAGTTTTTTAGAAAAGGGTTTTGTAGAGGCAGGGTCTCACTATGTTGCCTAGACTGG
Celera SNP ID:            hCV11161020
SNP Position Genomic:     20646
SNP Source:               Applera
Population(Allele,Count): african american(A,15|T,23)   caucasian(A,28|T,10)   total(A,43|T,33)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,8|T,9)      total(A,8|T,9) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34623):
CTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACAAAATAAAACATATAAATATATATATATATATGTATATATATATA
C
ATATATATATACACAAAAAAATTTAGCCAGGTGTGGTGGCATGTGTCTGTAGTCCCAGCTACTCAGGAGGCTGAAACAGGAGAACTGATTGAACCCAGGA
Celera SNP ID:            hCV26535120
SNP Position Genomic:     39409
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,6)   total(C,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34624):
AGGCGGAGGTTGCAGTGAGCCAAGATTGTGCCATCGCATTCCAGCCTGTGCAACAGAGTGAGACTCCGTCTCAAAAAATAAAAATAAATGGAAGCAAATA
S
TAGTAGAAACAAAACTCTAAAACCATTCTCATCGGGTACAATGGCTTACACCTGTAATCCCAGCTACTCTGGAGGCTGAGGTGGGAGGATCACCTGAGCC
Celera SNP ID:            hCV26535121
SNP Position Genomic:     39609
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34625):
AGTAAGGGCTTCCTTCTATGGAATTAGACCTGAATCTAAAATACCATACTCTAGGGGCTGAAACCATATGATTCATCTCAATTTTAACTTACGGAAATGC
Y
TCTTCACTATAGAAGGATGGTACATGCCCCCTGTAAGAGGTGAGGTTGCTTGCCCATGTCACTGATCTCTATCTTGTAAGGATGCTGTGACTTATATCTT
Celera SNP ID:            hCV1261280
SNP Position Genomic:     8503
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34626):
ATCCAGACTCCCTGGCCAGTGGGGAAGGAGAGAGAGGCTTTTTGCCTAAGTCAGTTCCCTTCCCTCCCTGCGCGAAAGGGTAGCGTCCTTGGGCTTGAGC
R
ACTGTCACCTTTTTGTCCCTCTCCTCTCCCAGGTGGGCACCAACGGCATCATCTCCACTCAGGACTTCCCCAGGGAAACGCAGTATGTGGACTATGATTT
Celera SNP ID:            hCV7591973
SNP Position Genomic:     7032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34627):
GGGAGCAGGTAGGCGCTTACGAGGAGGTCAAGCGCGGGGCGCTGCCCTCGGGAGAGGTAAGTGACCAGGGATATTTGACTGCTGAGGAAATTGAAGGATG
R
GCTTAAATTCTGGGGCAGCGACCCAGGGACTGGCTCGGAGTTGTTTCTGAGCCTACTCTTGCGCTGAACCTGACCTTGGAGGCAGCAGGGCTGGAGTGGC
Celera SNP ID:            hCV1261281
SNP Position Genomic:     7415
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,2|G,38)   total(A,12|G,66)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34628):
GCGTTGTGCAGCGGGTAAGCGCACGGCCGAGCGAGCATGGAGGGGGACCGGGTGGCCGGGCGGCCGGTGCTGTCGTCGTTACCAGTGCTACTGCTGCTGC
M
GTTGCTAATGTTGCGGGCCGCGGCGCTGCACCCAGACGAGCTCTTCCCACACGGGGAGTCGTGGGGGGACCAGCTCCTGCAGGAAGGCGACGACGAAAGC
Celera SNP ID:            hCV1261282
SNP Position Genomic:     6298
SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,17)   caucasian(A,32|C,4)   total(A,49|C,21)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,15)   caucasian(A,28|C,4)   total(A,45|C,19)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(G,43|A,259)   Chinese(C,0|A,58)   Japanese(C,0|A,20)   African(A,38|G,52)   (C,5|A,5)      total(A,5|C,5) ;(A,-|C,-)   (C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34629):
TACGTAAGTTCAGCCCCCTCCTGGCACTTTTCCCGCAGCTTCTTCCCTGGGGTCGGTCTCACGGAAACCCTGCCTCCAGAGGGGAGGAAACAGACCCCAC
K
CCTGGAGCCCCCCAGCACCCTTGCGGTGGTACCCGGCCAGAGAGCGATGCCGCTGCCTGCCCCGCTGCTGTAGGGGAGCAAGAATGACCTGGAGGGGAGA
Celera SNP ID:            hCV7591974
SNP Position Genomic:     6559
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34630):
CTTCTACGAAGCCCGATTCAGCAACCTCTACGTAAGTTCAGCCCCCTCCTGGCACTTTTCCCGCAGCTTCTTCCCTGGGGTCGGTCTCACGGAAACCCTG
Y
CTCCAGAGGGGAGGAAACAGACCCCACGCCTGGAGCCCCCCAGCACCCTTGCGGTGGTACCCGGCCAGAGAGCGATGCCGCTGCCTGCCCCGCTGCTGTA
Celera SNP ID:            hCV7591975
SNP Position Genomic:     6531
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34631):
AGCCTTTCATGGGAGCCTGCTCATTGTTATAACTTCTTTTTCTGTAATAGAAAAATGTAGTACAGCTTCCAATCTATTTATAAACCTTTGCACAGTTGCA
M
TTGTAAGTTGCTGGCTGCATCGCCCTGCCTCTTTTTACTTAGATAAAAGCTATGACTCCACCTAGTTTAACTCTCCATATCTAGACTGTCTCTCCTCCAT
Celera SNP ID:            hCV16049753
SNP Position Genomic:     28635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34632):
AAACGTGTTTAGAATGGGAAAGGGCCTGCTGGGGAACATGAACCTTAAAAGGCAGACTTTCCCCTGCTCCTGGTGTTGCTGTGTGCATCTGCCTCCATCC
R
CCCAGGCCCACCGAGCTGATGTGCTAAGAACAGCTTTGCAATTCCTGGGAGCTTTATACCAGATCCGAATAGCACGGGCCTCCCTCCTCCTCACCAGATG
Celera SNP ID:            hCV16049754
SNP Position Genomic:     49049
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34633):
TATGGTAAAATCAGTGTGGTTATAGGAGGAGGCAAGGATGAAGCTTGAAAGGAAGTAGTTTATTACACTTACAGGTCTGGAGTGGGTTCACCACATGCCA
Y
ACAGGGGTACAATCAGCAGGGTGCCCAATTGAACAGATTGTGCAGTAGAGAGAGAGTGGGACCTGTGGGTTGAATCCTTTATTGGGATCTGGGATGGGTT
Celera SNP ID:            hCV16049755
SNP Position Genomic:     52360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34634):
ACCTTGGGTAGGGTCTGAGAACCTGCATTCCCTGGTCTGTTGCTGTTGGTCTGTGGATCATGCCATGAGGAGTGAGGCTCATCCTTTGCAGGCCTAAACT
S
TGGATGCCCTTATCTTCTTCTCTTTTCAGTGATCACCCCACCTGCCAACCCCTGTGAGGATGGCAGTCATACCTGTGCTCCTGCTGGGCAGGCCCGGTGT
Celera SNP ID:            hCV25473929
SNP Position Genomic:     47986
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,5)   caucasian(C,34|G,4)   total(C,61|G,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:34635):
ATACATTTTAGTTTCCCTTTGAAGCTTTAGGGTAGTCATCTTGCTAAACCAAGAAATTAAGATTTAGTTAAAGGCCCAGAAAATATCACTCCTTTTTACA
T
TTTTTTCCCCTTAGGGACTCATTTTACAGACCTTTCTTTTTGTTCAGAAATTTAGATTTTCAGATCATATCTACACCAGGCAGGAATGTCCTGGCCACAC
Celera SNP ID:            hCV11161036
SNP Position Genomic:     24053
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34636):
TTGAGCCCAAGAGTTCCAGGCTACAGTGAGCCATGATTGTACCACTGCATAGCCTGAGCAACAGAGAGAAATATTGTCTGAAAAAAAAAGTTGTCCTGTA
G
GGTAGGTACAATCATCCTTCCCATTTTACAGAGATGGAAACTGAGCTTGGAAATACTTAGTGACTTGTCTAGCAAGGGCAAAGACTGCAACAAAGTCATG
Celera SNP ID:            hCV11161037
SNP Position Genomic:     24642
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34637):
AGATTTAAACCTACTGGGGAGAATGGTCTTTACCTTTAAATGTCCAGGTCAGCCCTGTGTTGGGTGTAGGCATCTGATCTGTAAAAGCAACTGTTAGTGA
A
ATAATTTCCCAGGCTATGGAGTCCCATTCAGATTCTGGAACCATTTAGGAAAAAGATGTGTCTCTGGGTATATTTTTCCCAGAGACATACCAAATGAGAG
Celera SNP ID:            hCV26535131
SNP Position Genomic:     40966
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34638):
TCCACTGTTTGTTATAAAGTTGGATATGGTTTTTCTAACTAGTCTGTCATTCTGAGAGATGGGAAAACTTAGAAGAATTTTTCCTGCGGTGAAAATGACT
T
TTTTTTTTTTTGAGGTAGCAGTAAAAATTGTTAGTAGTTGCTCCAGCTGTCCTGAAGCAGCCCTGTGCACGAAGCCTCCTGTGTCCCTCTGTGTTGGCCC
Celera SNP ID:            hCV11161038
SNP Position Genomic:     25663
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34639):
TTTTAGTCGAGACAGGGTTTCGCCATTTTGGTCTCCAACTCCTGACCCTGGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTATAGGTATGAG
R
CACTGCGCCCGGCCCCTTATTCCTTCTTGGTGCTTGACCTGAAAACTGGGGAGAGCTGCCATCTTGTAGGCAATGAAACTTTGGCCATGTCTCTGGAGTC
Celera SNP ID:            hCV26535205
SNP Position Genomic:     65632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34640):
GATTTAAACCTACTGGGGAGAATGGTCTTTACCTTTAAATGTCCAGGTCAGCCCTGTGTTGGGTGTAGGCATCTGATCTGTAAAAGCAACTGTTAGTGAA
A
TAATTTCCCAGGCTATGGAGTCCCATTCAGATTCTGGAACCATTTAGGAAAAAGATGTGTCTCTGGGTATATTTTTCCCAGAGACATACCAAATGAGAGT
Celera SNP ID:            hCV26535132
SNP Position Genomic:     40967
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34641):
TGTTAGTAGTTGCTCCAGCTGTCCTGAAGCAGCCCTGTGCACGAAGCCTCCTGTGTCCCTCTGTGTTGGCCCAGTGAACCCAGTCGACACCATGGAACCT
C
CCCTGTGTCTGGCCCAGGGCCTTCTGTGAAGAAGGGCAGGCCGGCCAAGGGCTGCAGACAGGTGCTTAAGTGTTTCTGGGAAAATGAAGATTGAAAGATG
Celera SNP ID:            hCV11161039
SNP Position Genomic:     25792
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,5)   total(C,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34642):
GAATGGTCATTTTCCTAAAGACCCATGCATAAATCAGGCTAGGCTAATCATGAAAGTAACTTGAAGAATAAATATTGAAATATATGTGTATGTGTGCATA
W
TTAAAGGCATTCCATAGGGTACATGTGTCTCAGTGACCAAAGAACAGAGGCTGTATTTTGTGGGTGCTATGCATTGTTAAAGCACATGCTCTTTTACTCC
Celera SNP ID:            hCV29157391
SNP Position Genomic:     51348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34643):
ATTTAAACCTACTGGGGAGAATGGTCTTTACCTTTAAATGTCCAGGTCAGCCCTGTGTTGGGTGTAGGCATCTGATCTGTAAAAGCAACTGTTAGTGAAA
T
AATTTCCCAGGCTATGGAGTCCCATTCAGATTCTGGAACCATTTAGGAAAAAGATGTGTCTCTGGGTATATTTTTCCCAGAGACATACCAAATGAGAGTA
Celera SNP ID:            hCV26535133
SNP Position Genomic:     40968
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34644):
AGGCTAATCATGAAAGTAACTTGAAGAATAAATATTGAAATATATGTGTATGTGTGCATATTTAAAGGCATTCCATAGGGTACATGTGTCTCAGTGACCA
M
AGAACAGAGGCTGTATTTTGTGGGTGCTATGCATTGTTAAAGCACATGCTCTTTTACTCCATCAAACTAACAATAAGGGGGTGTGGGAGTTTTTCTCCAG
Celera SNP ID:            hCV29157392
SNP Position Genomic:     51388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34645):
TGGGTGCTATGCATTGTTAAAGCACATGCTCTTTTACTCCATCAAACTAACAATAAGGGGGTGTGGGAGTTTTTCTCCAGCCATAGTTTGTTAAAAAAAC
Y
GGCTCCCTGGAGAGGCTGCACTTGGATTTGGGTTCTCAGTCTGGTCTGAGTCACTAGCCAGGAGGCTTTTATCCAAGTAGAGTTAAATCCTCTGCAGCTT
Celera SNP ID:            hCV29157393
SNP Position Genomic:     51509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:34646):
GGTGCTGTCGTCGTTACCAGTGCTACTGCTGCTGCCGTTGCTAATGTTGCGGGCCGCGGCGCTGCACCCAGACGAGCTCTTCCCACACGGGGAGTCGTGG
K
GGGACCAGCTCCTGCAGGAAGGCGACGACGAAAGCTCAGCCGTGGTGAAGCTGGCGAATCCCCTGCACTTCTACGAAGCCCGATTCAGCAACCTCTACGT
Celera SNP ID:            hCV7591984
SNP Position Genomic:     6363
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34647):
TTTTAGAAATGTATTTTAAAAATGTTTTGGGAAGCCAAGTTCAGTGAATGGGGCCCTGTGCTCAGAAGAGCCCCATGCTTGGTTTAACGCTTTGCTTTGA
M
CCATGGGCTCCACATTTTCATTTTGCACTGGGGATTGCAAATTATGGAACTAATCCTGTCAGTGACATACATTTTAAATCAGTATTGAGTAATTAGGGAC
Celera SNP ID:            hCV26535139
SNP Position Genomic:     42297
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,8)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34648):
CTTTCCCCTCTTGGTACACAGCAGTATCTTCCTAAGAACTGCTCAGTTTTTCCAGAGGGAACTATCATCTTGTTGGAATTCATGTGAAACAGCGCAGCTG
Y
CCACACCTGATGTGGGTGTGGTGCGACTTCCCAGGGCGAGGATGCAGAACTGGGGTGTCTTTCCCAGTGAGTAATTGGAGCCTCTGTCCCTCGGTGACTT
Celera SNP ID:            hCV16049835
SNP Position Genomic:     41697
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34649):
AGACCTATAGCAGATTGCCTTTTTACTTGGTGTTCAGAAGTACATTAAGAAGAAATGCGACTTCTGGCAATGCAGGGGTGAGGAAGAGGTGTTCTACTTA
W
TTTAGAGATGAGGAAGCTGAAAGACACAGTTTGCACAGTTTCCACAAAGCCCCCGAGGGAGGGCTGAGGTTGAGTCCTAGAGCTTGGCGCTTTCTGCAGC
Celera SNP ID:            hCV16049765
SNP Position Genomic:     29327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34650):
GTTTCCACAAAGCCCCCGAGGGAGGGCTGAGGTTGAGTCCTAGAGCTTGGCGCTTTCTGCAGCCCCTCATTCCTTGAGCTCTGGGAGAAAGTCCTGATGG
S
CCTTAAGCCATGAGCACACTGGTGAGTGTGTGAGTCCCTCCTGTAGCTGCTTCCTTACACTTAGTTGTGAATTTCTGAGCTGGAGAAACCTGAGATTTTG
Celera SNP ID:            hCV16049766
SNP Position Genomic:     29465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34651):
TCTAAATGTTTTTTTCCCTTTCTTAAACTAATAGACAGTGATACAGTTTTCTTCACAGCCATCTATTTTACCATGATCCATCCTGGGTTTTTTTTTTTTT
W
TTTTTCTGCCTTGAGTTTTATATCACTTTTCTGTTTAAGTTAAGCTTGTCACTTTCTTGTTTAAATAAAGTTGAGTCATGCCTAATTTTCTATTTTTATC
Celera SNP ID:            hCV16049767
SNP Position Genomic:     29697
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34652):
GTTGGTTAGGAAATCATTAAAGTGACTTGCTAAAGAGTGAGTTTTGGAAGTTGTCAGTGGAATAATTATACCTGGGTACACCCATCTCTAGCCAGGATGA
Y
GTCCAAGCCTAACTGGATTTGCTGTCTTTTAGGGGCACCTCACCGAGTGAATGGGAAAGTGAGTGGCCACCTCCACGTGGGCCATACACCCGTGCACTTC
Celera SNP ID:            hCV11604604
SNP Position Genomic:     32869
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,28)   caucasian(T,2)   total(C,2|T,30)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34653):
AGTAGTTGCTCCAGCTGTCCTGAAGCAGCCCTGTGCACGAAGCCTCCTGTGTCCCTCTGTGTTGGCCCAGTGAACCCAGTCGACACCATGGAACCTCCCC
T
GTGTCTGGCCCAGGGCCTTCTGTGAAGAAGGGCAGGCCGGCCAAGGGCTGCAGACAGGTGCTTAAGTGTTTCTGGGAAAATGAAGATTGAAAGATGGCTC
Celera SNP ID:            hCV11161040
SNP Position Genomic:     25796
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34654):
ACCTGCATTCCCTGGTCTGTTGCTGTTGGTCTGTGGATCATGCCATGAGGAGTGAGGCTCATCCTTTGCAGGCCTAAACTCTGGATGCCCTTATCTTCTT
Y
TCTTTTCAGTGATCACCCCACCTGCCAACCCCTGTGAGGATGGCAGTCATACCTGTGCTCCTGCTGGGCAGGCCCGGTGTGTTCACCATGGAGGCAGCAC
Celera SNP ID:            hCV25473934
SNP Position Genomic:     48006
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,6)   caucasian(C,29|T,9)   total(C,53|T,15)
SNP Type:                 INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(C,542|T,545)   total(C,542|T,545)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34655):
GAGGGAGGGCTGAGGTTGAGTCCTAGAGCTTGGCGCTTTCTGCAGCCCCTCATTCCTTGAGCTCTGGGAGAAAGTCCTGATGGCCCTTAAGCCATGAGCA
Y
ACTGGTGAGTGTGTGAGTCCCTCCTGTAGCTGCTTCCTTACACTTAGTTGTGAATTTCTGAGCTGGAGAAACCTGAGATTTTGACACATCCAAGTTACAT
Celera SNP ID:            hCV11161042
SNP Position Genomic:     29482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34656):
CATTTCCTTTTACTCTAAATGTTTTTTTCCCTTTCTTAAACTAATAGACAGTGATACAGTTTTCTTCACAGCCATCTATTTTACCATGATCCATCCTGGG
T
TTTTTTTTTTTTATTTTTCTGCCTTGAGTTTTATATCACTTTTCTGTTTAAGTTAAGCTTGTCACTTTCTTGTTTAAATAAAGTTGAGTCATGCCTAATT
Celera SNP ID:            hCV11161043
SNP Position Genomic:     29684
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|-,8)   total(-,8|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34657):
CTTTGACTCTAACAGCCTTGTGGCTGCCAAAATAGTGAGAAAAAAGCGTCCTTTGAGTTAGAAAGGGGAGCCAAGGGTGATTTCCTCTGGACTAGATGGG
S
GAGCATATATGGCTTCCTTGGCGGAGACGTTCCTGTAGCACTCGGGAGCTTCTAACCTTGGTTCCTTGGAGCCAGCGCAGGCTGGAGGAATTTAGGGAAA
Celera SNP ID:            hCV25473936
SNP Position Genomic:     48355
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,3)   caucasian(C,40)   total(C,75|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:34658):
GGCTAAGCATTAGTATTTATAAATCAAAACATGTTGACAATTACTTCCTGCTTTGGTGGGGTATGCCAGGCATTTTGTACAGAATCTTCCTAAAATGGAG
A
AATGATGGGGATGATCACGTTCTTGTCTTACATTGGGTCCTAATGGATGAGGACATGACCTTGTCCTTAGTTATAACCTATTGAGGACTGACTCAGGAAC
Celera SNP ID:            hCV26535141
SNP Position Genomic:     42694
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,8)   total(A,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34659):
GCTAAGCATTAGTATTTATAAATCAAAACATGTTGACAATTACTTCCTGCTTTGGTGGGGTATGCCAGGCATTTTGTACAGAATCTTCCTAAAATGGAGA
A
ATGATGGGGATGATCACGTTCTTGTCTTACATTGGGTCCTAATGGATGAGGACATGACCTTGTCCTTAGTTATAACCTATTGAGGACTGACTCAGGAACC
Celera SNP ID:            hCV26535142
SNP Position Genomic:     42695
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,8)   total(A,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34660):
TAAGCATTAGTATTTATAAATCAAAACATGTTGACAATTACTTCCTGCTTTGGTGGGGTATGCCAGGCATTTTGTACAGAATCTTCCTAAAATGGAGAAA
T
GATGGGGATGATCACGTTCTTGTCTTACATTGGGTCCTAATGGATGAGGACATGACCTTGTCCTTAGTTATAACCTATTGAGGACTGACTCAGGAACCTG
Celera SNP ID:            hCV26535143
SNP Position Genomic:     42697
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,8)   total(T,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34661):
TTTTGCATAGCGTTGTGATTTTTCTCTTAAGTGGGTAGGTGAAAAGTTTAGCAAAAAGAAGATTGGATCTAATTTTTAATCCCTGTGTTTCAAGAGATAG
W
GTAAATTTCCTTTGCCAAATAAATCTTGGCAGGCAGATTCTGTTCGGAATCTCTTGATCATTAATAATGTTTTTTTAAAATATGGGCCTCATGAAGTGAG
Celera SNP ID:            hCV25922699
SNP Position Genomic:     21822
SNP Source:               Applera
Population(Allele,Count): african american(A,27|T,3)   caucasian(A,1|T,1)   total(A,28|T,4)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34662):
AAGCATTAGTATTTATAAATCAAAACATGTTGACAATTACTTCCTGCTTTGGTGGGGTATGCCAGGCATTTTGTACAGAATCTTCCTAAAATGGAGAAAT
G
ATGGGGATGATCACGTTCTTGTCTTACATTGGGTCCTAATGGATGAGGACATGACCTTGTCCTTAGTTATAACCTATTGAGGACTGACTCAGGAACCTGG
Celera SNP ID:            hCV26535144
SNP Position Genomic:     42698
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,8)   total(G,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34663):
TGGATGAGGACATGACCTTGTCCTTAGTTATAACCTATTGAGGACTGACTCAGGAACCTGGTCTAGGCTCAAGTTAACTCGGCAACCACAACCCCAGTGC
R
GTGCCTCTTTCCTGTCAGCCAAGAGATCCAGAGGAACGGACCTCCAAGGATGTCTGCATGCTTCAGGGAGCTAGGCTTATGCTGACATAGTTCATCAGGT
Celera SNP ID:            hCV26535145
SNP Position Genomic:     42838
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34664):
GTCCTTAGTTATAACCTATTGAGGACTGACTCAGGAACCTGGTCTAGGCTCAAGTTAACTCGGCAACCACAACCCCAGTGCGGTGCCTCTTTCCTGTCAG
Y
CAAGAGATCCAGAGGAACGGACCTCCAAGGATGTCTGCATGCTTCAGGGAGCTAGGCTTATGCTGACATAGTTCATCAGGTTTAAAAAGTGCTGGAATTA
Celera SNP ID:            hCV26535146
SNP Position Genomic:     42857
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34665):
TCCTTAGTTATAACCTATTGAGGACTGACTCAGGAACCTGGTCTAGGCTCAAGTTAACTCGGCAACCACAACCCCAGTGCGGTGCCTCTTTCCTGTCAGC
S
AAGAGATCCAGAGGAACGGACCTCCAAGGATGTCTGCATGCTTCAGGGAGCTAGGCTTATGCTGACATAGTTCATCAGGTTTAAAAAGTGCTGGAATTAT
Celera SNP ID:            hCV26535147
SNP Position Genomic:     42858
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,8)   total(G,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34666):
GAGTCTCGTTCTGTCATCCAGGCTGGAGTGCAGTGGCATGACCTCGGTTCACTGCAACCTCTGCCTCCTGGGTTCAAGCTTTTCTTCTGCCTTAGCCTCC
M
GAGTAGCTGGGATTACAGGCACACACCATCACACCTGGCTATTTTTTTTGTATTTATAGTGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTA
Celera SNP ID:            hCV16135515
SNP Position Genomic:     18551
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34667):
CAAAACCCTGTCTCAACAACAGCAACAAAAAAAGTCCCTGCTACCTAGGGTTGTTGTGCAAATTAAGAGTTGTTGGCCGGGCGGGGTGGCTCACGCCTGT
W
ATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGATCAGGACCATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAAATAC
Celera SNP ID:            hCV26535079
SNP Position Genomic:     30712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34668):
CATTTCTTACCTGTGCTGTTTTTCAACATGCTGTAATAGTCATCTCGATAATCTTCCCTGCTTGCTTCTACCATTAAACCCAGTTTATAAAGTATGACTC
R
AATTATACTTGAAGTCTGTGCTGATTAACCCCAGACATGTGATGACCCCTAATCTAGTGCTCATGATCTCCGTACTTGGATCCCATTGAAGGGGTCGTGG
Celera SNP ID:            hCV16049777
SNP Position Genomic:     30096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34669):
GTCCCTGGCCAGAGTGGTGGCTCATACCTGTAATCCCAGCATTTTGGGAGGCCTAGGTGGGAAGATCACTTGAGCCCAGGAGTTCGAGACCGAGACCAAC
Y
TGGGCAACGCAGGGAGACCCCTCCCCCCAACCCACCCTACCAAAAAATAAAGTAGGCAGGTGTGATGCATGCTTGTGGCTGCGGCTACTCAAAAGGCTGA
Celera SNP ID:            hCV16049778
SNP Position Genomic:     30428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34670):
TTGGAAGTCGTCACTTCTGTGAAATGTAGAAGATGGATTGGTTTAAAATTTAGGGTGTAGAGTCAAACCAATGTGAGTTTCAGTTCCAGCTCTACCATGT
R
GCAGCATTGCATCTTAGGCTACTTAACCTTTGTGAGCCTCTGATCACATGATTTAGTGCCCACCTCACCAGGCTGTTGTGAGGAATAAATGAGGCAGTAT
Celera SNP ID:            hCV11604610
SNP Position Genomic:     35900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34671):
AGAGCATAGGGCGTTAATAGCTAAAGGGTACAGGGTTAATTTTGGGGGTGATGAAAATGTTCTGAAATTGATTGTGGTGACGGTTGGATAACACTGAATA
K
ACTAAATTGTTTAATTATGTACTTTAAACGGATGAATTGTATGGTATGTGAATTACTTCTCAACTGAAGGCCAGGCATACTGGCTTATGCCTGTAATCCC
Celera SNP ID:            hCV16049779
SNP Position Genomic:     39176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34672):
GTTTTATATACCAGTGAAAACTGAACCTGATCTTAATAGCCTTTCAGGTTTTTTGTTTTTTTGAGACAGGGTCTCACTCTGCCACACAGGCTGGGGTGCA
K
TGGTTGCAACCAAAGCCCACTGTAACCTGGAACTGCTGGGCTCAAGTGACCCTCCTGCCTCAGCCTACTGAGTAGCTAGAAGCACAGGCATGTGGCACCA
Celera SNP ID:            hCV25471909
SNP Position Genomic:     20580
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,2)   caucasian(G,38)   total(G,72|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:34673):
ACATGGACAATTGTAGTGCCTTCTCCCTCTCAGCACTGTGGCTTTGCATCCACTCAGGTTTTTGGGATTTCCTTACACATTTTTTCATATAAACTCAGGA
R
GTTCCCAAGGGAACACACTCCAAGAATTAGATGAAAAACTCTGCAGAAAAATCCACCTCACATGAAAATCTCTGTATTTAATATTTTTAAAAAATTACCA
Celera SNP ID:            hCV11604611
SNP Position Genomic:     36159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34674):
GGCTTTGCATCCACTCAGGTTTTTGGGATTTCCTTACACATTTTTTCATATAAACTCAGGAAGTTCCCAAGGGAACACACTCCAAGAATTAGATGAAAAA
M
TCTGCAGAAAAATCCACCTCACATGAAAATCTCTGTATTTAATATTTTTAAAAAATTACCACTGTGTTTGTTGCAGCTGTGACCTCTACAAGTTCCAGAG
Celera SNP ID:            hCV11604612
SNP Position Genomic:     36198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34675):
GCTTTGCATCCACTCAGGTTTTTGGGATTTCCTTACACATTTTTTCATATAAACTCAGGAAGTTCCCAAGGGAACACACTCCAAGAATTAGATGAAAAAC
W
CTGCAGAAAAATCCACCTCACATGAAAATCTCTGTATTTAATATTTTTAAAAAATTACCACTGTGTTTGTTGCAGCTGTGACCTCTACAAGTTCCAGAGA
Celera SNP ID:            hCV11604618
SNP Position Genomic:     36199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34676):
AATAGAGCAAAAGCACTTTTAAACAGATGTTTTGGGCGTTTTTATTCCCTGGATGCAAACCTACTGAAAGCAAGTAAAGGTACTAGTTGTCTATAGGGTA
G
GCAATAGGAAGCCATGCTGGAGTTTAAAACTGAAGTGCAGAAAATCCACCCTAGCTTCAGATATGGATAATTTAGTAAGGTCTTCCGGTGTGTCACAAAA
Celera SNP ID:            hCV11161051
SNP Position Genomic:     45469
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,8)   total(G,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34677):
TTTCTTAAGAAGACAGTTTACATCAAAATAACCCAAAGCTGGCTGGATGTGGTGGCTCACGCCTGTAATCATCGCTTTGGAAGGCTGAGGCAGGTGGATC
K
CTTGAGTTCAGAAGTTCGAGACCAGCCTGGGCAACATAGCAAAACCCCGTCTCTACAAACAATACAAAACATTAGCCAGGTGTGGTGGCACACGCCTGTA
Celera SNP ID:            hCV11161053
SNP Position Genomic:     46843
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34678):
AGAGAGAGCCCCTAAGGCAGAAACCAGTTTTTTGAGACCGAATATCGGCAGTGATAGCCTATCACTTCTGCTATACTCTATGCACTAGAAGAAGCAAGAC
A
CTACTAATGCAGCCCAAACTCAAGGGGATTGCTTAAGGCTATAATACATGAGGAGATGGAGATCACTGGGGGCTGCTTAGATGCTGCCTACCACAGGCTA
Celera SNP ID:            hCV26535221
SNP Position Genomic:     67253
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34679):
GAGAGAGCCCCTAAGGCAGAAACCAGTTTTTTGAGACCGAATATCGGCAGTGATAGCCTATCACTTCTGCTATACTCTATGCACTAGAAGAAGCAAGACA
C
TACTAATGCAGCCCAAACTCAAGGGGATTGCTTAAGGCTATAATACATGAGGAGATGGAGATCACTGGGGGCTGCTTAGATGCTGCCTACCACAGGCTAC
Celera SNP ID:            hCV26535222
SNP Position Genomic:     67254
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34680):
AGAGAGCCCCTAAGGCAGAAACCAGTTTTTTGAGACCGAATATCGGCAGTGATAGCCTATCACTTCTGCTATACTCTATGCACTAGAAGAAGCAAGACAC
T
ACTAATGCAGCCCAAACTCAAGGGGATTGCTTAAGGCTATAATACATGAGGAGATGGAGATCACTGGGGGCTGCTTAGATGCTGCCTACCACAGGCTACA
Celera SNP ID:            hCV26535223
SNP Position Genomic:     67255
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34681):
ATCCAGCCCTACCCAGATGGAGGGCCAGTGCCTTCGGAAATGGATGTTCCCCCAGCTCATCCTGAAGAAGAAATTGTTCTTCGAAGTTACCCTGCTTCAG
R
TCACACTACACCCTTAAGTCGAGGGACGTATGAGGTGGGACTGGAAGACAACATAGGTTCCAACACCGAGGGTGAGTGCATTAGAAAACTGGGTGCTAAG
Celera SNP ID:            hCV25474313
SNP Position Genomic:     21600
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,17)   caucasian(A,1|G,1)   total(A,14|G,18)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,20)   caucasian(A,30|G,10)   total(A,44|G,30)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIG-allele(A,685|G,808)   total(G,808|A,685)   no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:34682):
AAACAGCCAAACTCTTTTGGCGTGTACTTTGGGATCATAAATTCTACTTAAAAGGAAGTTGTTTCCTTCCTCTGATATTTGCCTATTTTGGTGGAGACAA
R
GAAATTAAATACTTGCCACCCATAATGAGTGCTCATCTCAAGAACAGTATATAGAAGATGTTGAATAAATTTTAATTGAAATGAATTTGTTGGCTGGTTG
Celera SNP ID:            hCV16026550
SNP Position Genomic:     12310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34683):
GAGTGCTCATCTCAAGAACAGTATATAGAAGATGTTGAATAAATTTTAATTGAAATGAATTTGTTGGCTGGTTGAATGAATGAATGAATAAAATAAAGTG
S
TAAATGCCCAGAGTTCACAGCAAAAAGTCAGACTCTCCTCTTCACAGCTCTGTTTACTACTCTCTTCCCCCCTTCCCCATCCCCTTCAATTCTTCACAGT
Celera SNP ID:            hCV16026551
SNP Position Genomic:     12437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34684):
TCAGCCACATCCCACAGCCAGCAGCCCAGGCCCTCCTCCCCCTCACACCAATTGGAGGCCTGTTTGGCTGGCTCTTTGCTTTAGAAAAACCTGGCTCTGA
K
AACGGCTTCAGCCTCGCAGGTGAGTAGGGCCTCTGAGAAGGCCGGTAGTCAGCATTGCTTTGGCAGTGGTGCTCCTTGGGGCACTGTCTTTAGGCCTTTA
Celera SNP ID:            hCV25922343
SNP Position Genomic:     33128
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,3)   total(G,25|T,3)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34685):
GATAGACATGAGGCAGAACAGCCTTTGTTTATATTTGGCAGTAGTTGTGGCTTCCTAGTATTGAGAAGCTCTAAAAACATTTCTTGCTTTTTGTTTTTGG
R
AAAGTCAAGCTTTGCTGATGAACAATCAACAACTGGAACAATAACAAATAAACTAGGCACCTGTTACTTTGTGAATTGAATGAATGAAAAAAGCAAAGCA
Celera SNP ID:            hCV16026552
SNP Position Genomic:     12876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34686):
AAGTGTGTTACATCTATATTTCTTTATCCTATTAGCAAAACCTCAAAACCTTACTTTGAAATTAAACATTGAAAGGAAAAATTAACATTAGAAAAGAGCT
R
GAACAACTGTGGGAGTAGACTTAGAACAAAGGGAAGAGCCCATTCCTTCCTTGCTGTTTCCTTCAGTGAAATGTGATGTTCTTCTCTGTGCCCGAGTTTG
Celera SNP ID:            hCV16026553
SNP Position Genomic:     13142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34687):
AAATACAAAAAATTAGTCAGGCGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAAGAGAATGGCGTGAACCTGGGAGGTGGAGCTT
K
CAGTGAGCTGTGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTTTCAAAAAAAAAAAAAAAAAAAGGTTGTTAAATGTAAAGCTTG
Celera SNP ID:            hCV26535085
SNP Position Genomic:     30907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34688):
TCTTTGCACAGCTCTTACACATCCACCCCACTAAGTAATTTACTTGTTTATTGACTGCTGCTGGGGAGAATGTAAGCTTCAGGATGTGAATTTTTGTCTC
Y
TTTGCTCCCTGCCATGTCCTCAGTTTCTAGACTAGGTACAGGTCTATAGTGAATGCTCAGTAAATACTTGTTGAATTAGTGAATGAATGAACAAAAATTG
Celera SNP ID:            hCV16026558
SNP Position Genomic:     28119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34689):
GAAGTACATTAAGAAGAAATGCGACTTCTGGCAATGCAGGGGTGAGGAAGAGGTGTTCTACTTATTTTAGAGATGAGGAAGCTGAAAGACACAGTTTGCA
Y
AGTTTCCACAAAGCCCCCGAGGGAGGGCTGAGGTTGAGTCCTAGAGCTTGGCGCTTTCTGCAGCCCCTCATTCCTTGAGCTCTGGGAGAAAGTCCTGATG
Celera SNP ID:            hCV16026559
SNP Position Genomic:     29363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34690):
GCATAGGGCGTTAATAGCTAAAGGGTACAGGGTTAATTTTGGGGGTGATGAAAATGTTCTGAAATTGATTGTGGTGACGGTTGGATAACACTGAATATAC
K
AAATTGTTTAATTATGTACTTTAAACGGATGAATTGTATGGTATGTGAATTACTTCTCAACTGAAGGCCAGGCATACTGGCTTATGCCTGTAATCCCAGC
Celera SNP ID:            hCV16049788
SNP Position Genomic:     39179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34691):
CAGCCTGTGCAACAGAGTGAGACTCCGTCTCAAAAAATAAAAATAAATGGAAGCAAATAGTAGTAGAAACAAAACTCTAAAACCATTCTCATCGGGTACA
R
TGGCTTACACCTGTAATCCCAGCTACTCTGGAGGCTGAGGTGGGAGGATCACCTGAGCCCAGGAGTTTGAGGCCAGAGTTGGCCACATAACAAGACCCCG
Celera SNP ID:            hCV16049789
SNP Position Genomic:     39650
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34692):
CATCATTCCCGGGCTTATTGCACCCTTTACCTGAACAATATGGGGTTTCTAAAACCAAAAAAAAAAAAAAAAAAAAAAAAAGAGGGGATGGCTGTTGGGA
R
AGGTTCCAATAGTGTCTGCCACACCAACCCTCTCTCTACTTAAAAATGTCACAGCAGAATTGCATCTGCAGTGATTCATATCAAAAGCTTGAACAGTCTT
Celera SNP ID:            hCV11604553
SNP Position Genomic:     1371
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   Caucasian(G,84)   African-American(G,84)   Asians(A,4|G,80)   total(G,248|A,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:34693):
TCAATTCAGCCACTGTATTGAAACTGTTGAGCCCAGAGTTAGCTCCTCAGTGAGGTGAATCTGTAAGTGATACGCGGTTCTGTGCTTTGTTATTGGAGCT
R
AGGGCTCCTTAAGCCTCAGCAGGCTCAATAAAGAAGTGTTGCTTCAGCAATATGACAAGATTAAGGTACAAGGACTAGACTCTTTTCTAGGATGCGAAAG
Celera SNP ID:            hCV11604628
SNP Position Genomic:     40585
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34694):
AAATGTACAATTAAGTTATTATTGACTATAATAACCTGTTATCACAGGTTATAGTCACCCTGTTGTGCTATCAAATGGTAGGTCTTATTCATTCCTTCTA
T
TTTTTTTTTTTTGGTACCCGTTAACTGTGTCCACCTTCCCCTGACCCCTACTACCCTTCCCAGCCTCTGGTAACCATCCTGTTACTCTCTATGTTGCATA
Celera SNP ID:            hCV26534939
SNP Position Genomic:     8894
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,6)   total(-,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34695):
TACTTTTCAAGCAATGCTGTGATGTACCCTGAGGATCCAATCCAAGAAGGGTAAAAACTGCTACAGACGTCCTCTATAACCTCCAGCCTGAAAGGGGCCT
Y
TGCCTCTTCAGCCAGTCTGGCAGGTCATGGAAATTCTACTCTTGCAAAGAGAGCTGTGGATACAAGCAAAGTATTTCTTCAGTATTTACTTTGACTGGTG
Celera SNP ID:            hCV11604557
SNP Position Genomic:     2061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:34696):
ATCTGTCTTCCCATGCTGATGTGTCTCTACCATGGGCTGCACCGTATTGATGCAACACATTCTCATTTTCTAGGTTTCACACTGATCACACCATCCCACA
T
TTTTTTTTTTTCTATTCACACATTTTAAAGAAACTTGGTTATTACTATGGATGGAACTACTGCTTTGTTTTATTTTCAGCCAAGCCTTAATCGGACCTAC
Celera SNP ID:            hCV11161061
SNP Position Genomic:     54126
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34697):
TGCCTGGCTAAGTTTTTTAGAAAAGGGTTTTGTAGAGGCAGGGTCTCACTATGTTGCCTAGACTGGTCTCAAACTCCTGGGCTTAAGTCATCCTCCTACT
W
TGGCCTTGCAAAGTGCTGGGATTATAAGTGTGAGCCACCATGCCCAGCTGTCTTTCCGTTTTAAAATAAGTTGTTCACCTTCTAGGAAGGTGGGTGAATG
Celera SNP ID:            hCV25472218
SNP Position Genomic:     20781
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,35)   caucasian(T,38)   total(A,3|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:34698):
TGAACTCCTGGCTTCAAACTATCCTCCTACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCTCAGCCAAAATAGATTTCTCTAGGG
R
AGATTTCAGTCGTTAAGTAATCGCTACCTAGTGAGTAGATGGATCCTTGGTAAGGCTACTCCTGAAGAGTAAATACTGGGAAAGTCATTCCTGTTTAGTC
Celera SNP ID:            hCV16016364
SNP Position Genomic:     45020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34699):
AAGTGCTGATGACATTGGGAAAAGATTCAGTTTTTACCCAGTAAAATATTAAAAACTTATTTTGCTTAAGGCCATGTCCTCTAATTACTGAAGGGGCTGA
T
TTTTTTTTTTTTTTAAATCATCAGTCATAATAGCACCTATTGAAGGGCTTACTGTATGCCAATTACTGATTAGGACACTTTACAAGCACTTATAGTATTA
Celera SNP ID:            hCV11161067
SNP Position Genomic:     63302
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,8)   total(T,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34700):
TGAGATAGGAGGATTGCTTGAGCGCAGGAGGCAGAGGTTGCAGTGAACTGACAGCATGCTAGTGCATTCCAGCCTAGGTAATAGAGTGAGACTCTGTCTC
A
AAAAAAAAAAACAAAAAAAACAACAAAATCTCTCAAAGCTATGGCTCAGTTTCAGCCCTGTTTATTTTCACTGTTTTTCCCTAAATAGATATTTTTGGTG
Celera SNP ID:            hCV26535160
SNP Position Genomic:     47064
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34701):
ATTTAGAGCAATGGTCTTCAAACTTCAGTATGGCTTTAGCACCAGCCCTGGGACAGAGAAGGCTGCCAGAAATTTTCCTCTATTGCAACTGATTTTCTGT
G
GCTGACTGACTTCTTTATCTAGTAAATGACTGTCCCTGAATTCACTCTTCCTTTCTGTTACCAGGGATGGTGTTGTATCAGTAAATAAACATAGTGGCCA
Celera SNP ID:            hCV26535234
SNP Position Genomic:     69446
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,9)   total(G,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34702):
TTAGAGCAATGGTCTTCAAACTTCAGTATGGCTTTAGCACCAGCCCTGGGACAGAGAAGGCTGCCAGAAATTTTCCTCTATTGCAACTGATTTTCTGTGG
C
TGACTGACTTCTTTATCTAGTAAATGACTGTCCCTGAATTCACTCTTCCTTTCTGTTACCAGGGATGGTGTTGTATCAGTAAATAAACATAGTGGCCAGT
Celera SNP ID:            hCV26535235
SNP Position Genomic:     69448
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,9)   total(C,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34703):
CTTCAAACTATCCTCCTACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCTCAGCCAAAATAGATTTCTCTAGGGGAGATTTCAGT
Y
GTTAAGTAATCGCTACCTAGTGAGTAGATGGATCCTTGGTAAGGCTACTCCTGAAGAGTAAATACTGGGAAAGTCATTCCTGTTTAGTCTTAGAAATCTT
Celera SNP ID:            hCV16016368
SNP Position Genomic:     45031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34704):
TAGAGCAATGGTCTTCAAACTTCAGTATGGCTTTAGCACCAGCCCTGGGACAGAGAAGGCTGCCAGAAATTTTCCTCTATTGCAACTGATTTTCTGTGGC
T
GACTGACTTCTTTATCTAGTAAATGACTGTCCCTGAATTCACTCTTCCTTTCTGTTACCAGGGATGGTGTTGTATCAGTAAATAAACATAGTGGCCAGTT
Celera SNP ID:            hCV26535236
SNP Position Genomic:     69449
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34705):
GAGCAATGGTCTTCAAACTTCAGTATGGCTTTAGCACCAGCCCTGGGACAGAGAAGGCTGCCAGAAATTTTCCTCTATTGCAACTGATTTTCTGTGGCTG
A
CTGACTTCTTTATCTAGTAAATGACTGTCCCTGAATTCACTCTTCCTTTCTGTTACCAGGGATGGTGTTGTATCAGTAAATAAACATAGTGGCCAGTTTA
Celera SNP ID:            hCV26535237
SNP Position Genomic:     69451
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,9)   total(A,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34706):
TCCACAAAGCCCCCGAGGGAGGGCTGAGGTTGAGTCCTAGAGCTTGGCGCTTTCTGCAGCCCCTCATTCCTTGAGCTCTGGGAGAAAGTCCTGATGGCCC
Y
TAAGCCATGAGCACACTGGTGAGTGTGTGAGTCCCTCCTGTAGCTGCTTCCTTACACTTAGTTGTGAATTTCTGAGCTGGAGAAACCTGAGATTTTGACA
Celera SNP ID:            hCV16026560
SNP Position Genomic:     29468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34707):
TGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAGAAAGAAAATGCACTCTTTAATTCAGTGGGATGAGGGTAAAAGTGATAGGAGAAACTGC
K
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGCAATTGCTCTGGAGTGTTATAAACTTTAATTGAGGACTGCTTAGGTGATGGGTTTTTGTGCTT
Celera SNP ID:            hCV26535164
SNP Position Genomic:     47691
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3|-,4)   total(G,3|-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34708):
TCAGTGAGCCGAGATGGCACCACTGCTCTCCAGCTTGGGTGACAGAGCAAAACCCTGTCTCAACAACAGCAACAAAAAAAGTCCCTGCTACCTAGGGTTG
Y
TGTGCAAATTAAGAGTTGTTGGCCGGGCGGGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGATCAG
Celera SNP ID:            hCV16026561
SNP Position Genomic:     30665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34709):
CAAAAAAAAAAAAAAAAGAAAGAAAATGCACTCTTTAATTCAGTGGGATGAGGGTAAAAGTGATAGGAGAAACTGCGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTGTGTGTGTAGCAATTGCTCTGGAGTGTTATAAACTTTAATTGAGGACTGCTTAGGTGATGGGTTTTTGTGCTTAGTATTTTAACAGCAAATTCATAC
Celera SNP ID:            hCV26535165
SNP Position Genomic:     47715
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34710):
GATGGTTAGACATAAGACATTTGTTAGCTTCTCTATTATGTCTTCCTCTCAGGATGTGTTTAGGTTGAACCATATAAAAGTGCTGATATTTAGCCCTTTT
K
GACCCACAAAAATAGTGGTTTCATGAAGTTCAACCTAACATGTACTTACTGGTTTGCTTTCATTTTACTGCACTCAAACCCACGGGTGCAGTCTCATCTT
Celera SNP ID:            hCV16026562
SNP Position Genomic:     31992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34711):
AATGGGAGACAGTATTTTAAATCATGTGATATTTGTTCTAGAGTATACGAAGTACTCTTACAACTCAATAAAAAAACAAGCTAACTAAAAGATGGGCAAA
R
GCTCTGCAAGGACCTCTCTCCAAAAAGATATACAGATACCCAATGGGCATGTGTAAAGATGCTCAGCATCATTAGTCATCAGGGAAATGCAAATCAAAAC
Celera SNP ID:            hCV16026563
SNP Position Genomic:     38426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34712):
GGAGGCTGAGGTGGGAGGATCACCTGAGCCCAGGAGTTTGAGGCCAGAGTTGGCCACATAACAAGACCCCGTCTCAAAGTAAGCAGTGGTTCTCAAATTT
Y
AATGACCATTAGCCTCACCTGTGAAGACTGATTTTAAAATGTTCTAGGCATATCATGTCACAGAAAGACATGCAGGAAACTTAAAAGCATGTTGCTCTGT
Celera SNP ID:            hCV16049790
SNP Position Genomic:     39780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34713):
CTGAAAACCTTAAGTGAAGGTAGTCAGTGACAAAGGACAGCATACTGAATGGTTACAATTATGTGAAATATCCAAAATAGGCAAATCCACATACATAGAA
R
GCATATTCATGGTTGCCCAGGGCTAAGAGATAATGAGAGCATAGGGCGTTAATAGCTAAAGGGTACAGGGTTAATTTTGGGGGTGATGAAAATGTTCTGA
Celera SNP ID:            hCV16026564
SNP Position Genomic:     39040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34714):
TGGGAATGGAACTAGAGGCTTGATAAGAAGGGAGGCCTGCCTAAAATAACATGTTAGCACACTCAGCCCCCTCACCATGTGATGTCCTGCACCACCTCAG
S
CCTCTACTGAGAGTCCCAACCAGCAGGAAGGCCATCACCAGATTTCAACCCTTGACCTTAGACTTCTCAGCCTTTAGAACTATAAGAAATAAATTCCTTT
Celera SNP ID:            hCV26535169
SNP Position Genomic:     49719
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34715):
TTTGGTGGGGTATGCCAGGCATTTTGTACAGAATCTTCCTAAAATGGAGAAATGATGGGGATGATCACGTTCTTGTCTTACATTGGGTCCTAATGGATGA
R
GACATGACCTTGTCCTTAGTTATAACCTATTGAGGACTGACTCAGGAACCTGGTCTAGGCTCAAGTTAACTCGGCAACCACAACCCCAGTGCGGTGCCTC
Celera SNP ID:            hCV16026565
SNP Position Genomic:     42745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34716):
TAATCGCTACCTAGTGAGTAGATGGATCCTTGGTAAGGCTACTCCTGAAGAGTAAATACTGGGAAAGTCATTCCTGTTTAGTCTTAGAAATCTTTAAAAA
R
CAAGATTTTTAAAATTAATTGGATTTACCTATAAAAATTGGGAATTTTAGTAAGAGATCAACAGATTTAGAACCAGGAAGTTGGAGTCTGAGTCTTTGCT
Celera SNP ID:            hCV16026566
SNP Position Genomic:     45138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34717):
CTGAGTCTTTGCTGTGCCACTTCCTGACTTTGTGAGCTTGGGCAATTTTTCCCATGTCTCACTCGATTTCCTTATCTGTGAAAATTACACATAATGGGGA
M
AACAACTCACCACATAGAATCATCCCAAGAATCACAGGAAATAATAGAGCAAAAGCACTTTTAAACAGATGTTTTGGGCGTTTTTATTCCCTGGATGCAA
Celera SNP ID:            hCV16026567
SNP Position Genomic:     45326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34718):
GCTGATACCTCAATCTTTACTACTGTATTTTTAAAAATGAAGGTTGTTATTGCAAGTTTAAAAAGGTAACAGAATTTTAACTGTTGCTTATTAAAGCAAC
W
TCTTGTAAACATTTATCATTAATATTTAAAAGATCAAATTCATTCAACTAAGAATTAGAGTTTAAGACTCTAAACCTGATTTTTGCCATGGATTCCTTCT
Celera SNP ID:            hCV15804965
SNP Position Genomic:     70134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:34719):
TAAGAGATCAACAGATTTAGAACCAGGAAGTTGGAGTCTGAGTCTTTGCTGTGCCACTTCCTGACTTTGTGAGCTTGGGCAATTTTTCCCATGTCTCACT
Y
GATTTCCTTATCTGTGAAAATTACACATAATGGGGACAACAACTCACCACATAGAATCATCCCAAGAATCACAGGAAATAATAGAGCAAAAGCACTTTTA
Celera SNP ID:            hCV16049799
SNP Position Genomic:     45289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34720):
GGAGGATTGCTTGAGCGCAGGAGGCAGAGGTTGCAGTGAACTGACAGCATGCTAGTGCATTCCAGCCTAGGTAATAGAGTGAGACTCTGTCTCAAAAAAA
M
AAAACAAAAAAAACAACAAAATCTCTCAAAGCTATGGCTCAGTTTCAGCCCTGTTTATTTTCACTGTTTTTCCCTAAATAGATATTTTTGGTGTTGAGTT
Celera SNP ID:            hCV11604636
SNP Position Genomic:     47071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34721):
CAGGTGCTTCCCCCAGTGTATTGGTTATCTATTGCTGTATAATAAATTACCCTAAAATGTAGCAGCTTCAAGCAATAGACATTTAATATCAGTGGTCCAG
R
GACCTGGGAATGGCTCAGCTGGGTCCTGTGCTTTAGGATCTCTCACAAGGCCACAGTCAAAGTGTCTGGTGGGTCAGTGGTCTCATCTGAAGGCTTAACT
Celera SNP ID:            hCV26535171
SNP Position Genomic:     50779
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34722):
GTCTGGGAAATTTTAAGCTCTTGATAATAAAAATGGTAATAAAATCTCCTCCAGCTCCTGAGGCTTCGCAGAGGGGATGTTTATGGTGGATGGGGTTCCC
Y
TTCTCCTGCGCAGCTGGTTTCGAGGTTGTGCGGTTTCCAGTCCTGCGGAGCAGCTCAGGTTACCGCCTCCGTGGCCGCGGGGGAGGGCATCTCCGACGGC
Celera SNP ID:            hCV27478090
SNP Position Genomic:     5215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:34723):
AGAATGGAAAGGTAATGATACTTACCAGTAAATAATATTTCTAAGAGTCACATTATTTGTGAAGTAAGTTGTGTTTTAAAAATACCTTCCCAGTTCCTTA
C
TAAATTGTAAAAGTAGTGTGATTTAGTGAGAGAGAGACAGTTTCAGAAGCCTAAACATAACAGCTTTTTGAGAATCAAGCACTGTTCACAGATCTTTAGG
Celera SNP ID:            hCV26534957
SNP Position Genomic:     13353
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34724):
GAGTTCCTGATCCAGACCCTAAGAGAGGGCTCCTGGATCTGGTGCAAGAAAGAATTTGGAGTGAGTCTACAAAGTAAAGTGAAAGTGACTTTATTAGATA
R
GTAAAGAAACAAAAGAATAGGCAGAGCAGTGGCGTCGGCTGCTTGACTGATTATACTTATGGTTATTTATTGATTATAAGCTAAATGGGGTGGATTATTA
Celera SNP ID:            hCV11604576
SNP Position Genomic:     3472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:34725):
GAATTAAAACTTTTGTCTGGTCCTTTTCTGGGGTGGGGGAGGTTTAGGGTAGAAGAGATTTGTAAATTCCATCTCTCTTTTACTTTTCTAATTAAAATCC
M
CCTGCAGACATTACCATTTGCTAGTTGGCTTCAGAATGTTTCATTAAGAAAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCA
Celera SNP ID:            hCV11604579
SNP Position Genomic:     9121
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,10)      total(A,10|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34726):
CAAGGCTTAAATGACTTACATGGCATGTCCTTAGAACAGTGCATGGAACATAAAATGAGCTCTATTATGTTATTACTCTTATTGTTACCATGAAATATAT
Y
GTGTAAGTGAGCAGAATGGCTGCTATACATAAGAATATCTATATCCCTACATAGTATTTTCAAATAATAAAATCAATAGCAACATTGTCCATGGGGTGGG
Celera SNP ID:            hCV27491888
SNP Position Genomic:     34764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34727):
GAGTCACAGGCAGTAACATAAGACAGATGAGTGCAAGGTTGCCCGCTATGGTTGAATATTTGTCCCCTCTGAAAATCATGTTGAAACTTAATCCTCAATG
W
GACAGTATTGAGAGGTGGGGCCTTTGAAAGGTGACTGGGTCATGAGGGCTCTGCCCTCAGGAATGGATTAATTTATTCATTCATGGATTACTGGATTATC
Celera SNP ID:            hCV27515827
SNP Position Genomic:     10642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34728):
AGAACATCACTTACCAGGTGTGCAGGCACGCCCCCAGACACCCGTCCTTCCCCACCACCCAGCAGCTGAACGTGGACCGGGTCTTTGCCTTGTATAATGA
Y
GAAGAAAGAGTGCTTAGATTTGCTGTGACCAATCAAATTGGCCCGGTCAAAGGTAAGGTTTCCTTTTTTGTTGTTGGGTAAAAATGACATCCTTTTAAGT
Celera SNP ID:            hCV16178746
SNP Position Genomic:     36453
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,39|T,1)   total(C,74|T,2)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:34729):
TTCCGAGGACTCCTCTATCTCCGTGACATTTGCTTACCAATAGCCAGATTGTGCTTTTATTTCCCCTCTACTCATGCAGAGGATTCAGACCCCACTCCGG
K
GAATCCTTGCTATGATGGGAGCCACATGTGTGACACAACAGCACGGTGCCATCCAGGGACAGGTGTAGATTACACCTGTGAGTGCGCATCTGGGTACCAG
Celera SNP ID:            hCV16178747
SNP Position Genomic:     45687
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,22)   caucasian(T,2)   total(G,4|T,24)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34730):
AAAAGGGGAAATTCTTTGCACGTTATGATGCTTTGCTTGCATTCTGTTTCTTTCTTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTCTC
T
TTTTTTTTTTTTTTCCTCACAGCTGAACACTTTCCAGGCAGTTTTGGCATCTGATGGGTCTGATAGCTACGCCCTCTTTCTTTATCCTGCCAACGGCCTG
Celera SNP ID:            hCV26534961
SNP Position Genomic:     14862
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34731):
ATAGTTTCCCAACAAAAGTTCTAAGATTTTTTACCTCTGCATCAGTGCATTTCTATTTATATCAAAAGGTGCTAAAATGATTCAATTTGCATTTTCTGAT
Y
CTGTAGTGCCTCTATAGAAGTACCCACAGAAAGTAAAGTATCACATTTATAAATACCAAAGATGTAACAATTTTAAAATTTTCTAGATTACTCCAATAAA
Celera SNP ID:            hCV7591819
SNP Position Genomic:     70437
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:34732):
AAAGGGGAAATTCTTTGCACGTTATGATGCTTTGCTTGCATTCTGTTTCTTTCTTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTCTCT
T
TTTTTTTTTTTTTCCTCACAGCTGAACACTTTCCAGGCAGTTTTGGCATCTGATGGGTCTGATAGCTACGCCCTCTTTCTTTATCCTGCCAACGGCCTGC
Celera SNP ID:            hCV26534962
SNP Position Genomic:     14863
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34733):
GCTGTGCTTTTTGTGGGGAAAGAGGAGTGTTTTGTTTTTGTCATTTTAGGGATGGGGTTAGAGACAGCTGAGTTATATAGATCTCTGTAATGTGGGGAAT
R
TTTTGTTTATCTGGAATTTAAGTCAGGTTGAAAGGGCTAAAAAGAATGGATATTGAGAATGAGGTATCAAGAGAGATTGTTCTGAGCAAAAACATGACCC
Celera SNP ID:            hCV11604580
SNP Position Genomic:     10386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34734):
TCCTGCCCCTACAGTGTCATGGCAGCACTGGTTTCTGCTGGTGCGTGGACCCTGATGGTCATGAAGTTCCTGGTACCCAGACTCCACCTGGCTCCACCCC
R
CCTCACTGTGGACCATCACCAGGTGAGCTTAGGCCTGGGGCTCAAGAAGCAGAATGGCACTGGTGGTAGGTAGATCATAATTCCTGCCCAGACCACGCAG
Celera SNP ID:            hCV11604653
SNP Position Genomic:     56277
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34735):
AAGGGGAAATTCTTTGCACGTTATGATGCTTTGCTTGCATTCTGTTTCTTTCTTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTCTCTT
T
TTTTTTTTTTTTCCTCACAGCTGAACACTTTCCAGGCAGTTTTGGCATCTGATGGGTCTGATAGCTACGCCCTCTTTCTTTATCCTGCCAACGGCCTGCA
Celera SNP ID:            hCV26534963
SNP Position Genomic:     14864
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34736):
AGGGGAAATTCTTTGCACGTTATGATGCTTTGCTTGCATTCTGTTTCTTTCTTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTCTCTTT
T
TTTTTTTTTTTCCTCACAGCTGAACACTTTCCAGGCAGTTTTGGCATCTGATGGGTCTGATAGCTACGCCCTCTTTCTTTATCCTGCCAACGGCCTGCAG
Celera SNP ID:            hCV26534964
SNP Position Genomic:     14865
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34737):
GGGAAATTCTTTGCACGTTATGATGCTTTGCTTGCATTCTGTTTCTTTCTTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTCTCTTTTT
Y
TTTTTTTTTCCTCACAGCTGAACACTTTCCAGGCAGTTTTGGCATCTGATGGGTCTGATAGCTACGCCCTCTTTCTTTATCCTGCCAACGGCCTGCAGTT
Celera SNP ID:            hCV26534965
SNP Position Genomic:     14867
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34738):
CGCCCAGGCTGGAGTGTAGTGGTGTGATCTTGTGCTCATTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAGTAGCTGGGAT
W
ACAGGCGCCCACCACCACACCCGGCTAATTTTTGTATTTTTCGTAGAGACTGGGTTTCATCATGTTGGCCAGGCTGGTCTAAAACTCCTGACCTCAGGTG
Celera SNP ID:            hCV26534967
SNP Position Genomic:     17654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34739):
GATCTTGTGCTCATTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAGTAGCTGGGATTACAGGCGCCCACCACCACACCCGG
S
TAATTTTTGTATTTTTCGTAGAGACTGGGTTTCATCATGTTGGCCAGGCTGGTCTAAAACTCCTGACCTCAGGTGATCCTCCTGCCTCAGCCTCCCAAAG
Celera SNP ID:            hCV26534968
SNP Position Genomic:     17679
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,12)      total(G,1|C,12) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34740):
GCGCCCACCACCACACCCGGCTAATTTTTGTATTTTTCGTAGAGACTGGGTTTCATCATGTTGGCCAGGCTGGTCTAAAACTCCTGACCTCAGGTGATCC
W
CCTGCCTCAGCCTCCCAAAGTGCAGGGATTATGGGTGTAAGCCACCATACCCGGCCTGTTTAAATGTTTTAAAGTAAGTCACAAACATCATGCCAGTTCA
Celera SNP ID:            hCV26534969
SNP Position Genomic:     17759
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,9)      total(A,5|T,9) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34741):
TAATTCTTCTCTTACCTGTAGATCCTGATGTGAAGCCCTTGGGTTTTAAATACAATGTGGGGAAGGTCAGAACAAGAGAGTGAAAGCTCAAATGCATTCA
K
GTAACAAAGATTTACTGAGGATCTAAGAGGTGTCAGGACCTGTTCTAGGAAAAGACAAGGTCTGTTCTTTCATGGCACTTATATTTTATTAGGAGGAAAC
Celera SNP ID:            hCV15878056
SNP Position Genomic:     64601
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34742):
TTCATGGATTGGAAGACTTAATACTGTTAAGATGTGAATACTTCCCAAATTGATCTATTAATTCAACATAATCCCTATCAGAATCTCAGCTGGCTCTTTG
M
AGAAATTGGCAAGCTGATTCTAGAATTTATATGGAAATTCAAAGAACACAGAATAGCCAAAACAATCTTGGAAAAGAATAAAGTCAGACTTGTATTTCTC
Celera SNP ID:            hCV16068040
SNP Position Genomic:     37573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34743):
ACTTTACATCATGTGGTCGAGTATAATCAAAAAACGGGTAATAACAAGTGTTGGCGAGAACATGGAAAATTCGGAACCCTCATACGTTGCTGGTGTGATT
R
TAAAATGATGTGGCTACTGTGAAAAACAAAATAGTGGTTTCTCAAAGTGAAACACAAAGTTACCATTTAATGGAGCAATTCTACTCCTTTCTATATACCC
Celera SNP ID:            hCV1261200
SNP Position Genomic:     38641
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34744):
TCATCAGGGAAATGCAAATCAAAACCACAATGAGATACTACTTTACATCATGTGGTCGAGTATAATCAAAAAACGGGTAATAACAAGTGTTGGCGAGAAC
R
TGGAAAATTCGGAACCCTCATACGTTGCTGGTGTGATTATAAAATGATGTGGCTACTGTGAAAAACAAAATAGTGGTTTCTCAAAGTGAAACACAAAGTT
Celera SNP ID:            hCV1261201
SNP Position Genomic:     38602
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34745):
CCACACCAGGAGAAAAAAACCATCTTCCTCAATTCAGCCACTGTATTGAAACTGTTGAGCCCAGAGTTAGCTCCTCAGTGAGGTGAATCTGTAAGTGATA
Y
GCGGTTCTGTGCTTTGTTATTGGAGCTGAGGGCTCCTTAAGCCTCAGCAGGCTCAATAAAGAAGTGTTGCTTCAGCAATATGACAAGATTAAGGTACAAG
Celera SNP ID:            hCV16068041
SNP Position Genomic:     40557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34746):
AATTCATTCAACTAAGAATTAGAGTTTAAGACTCTAAACCTGATTTTTGCCATGGATTCCTTCTGGCCAAGAAATTAAAGCACATGTGATCAATATAACA
W
TATAATCCTAAACCTTGACAGTTGGAGAAGCCAATGCAGAACTGATGGGAAAGGACCAATTATTTATAGTTTCCCAACAAAAGTTCTAAGATTTTTTACC
Celera SNP ID:            hCV7591820
SNP Position Genomic:     70271
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:34747):
ATGTGTAAAGATGCTCAGCATCATTAGTCATCAGGGAAATGCAAATCAAAACCACAATGAGATACTACTTTACATCATGTGGTCGAGTATAATCAAAAAA
Y
GGGTAATAACAAGTGTTGGCGAGAACATGGAAAATTCGGAACCCTCATACGTTGCTGGTGTGATTATAAAATGATGTGGCTACTGTGAAAAACAAAATAG
Celera SNP ID:            hCV1261202
SNP Position Genomic:     38575
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34748):
GTTCTAAGCACCTTACACGAATTAACTCATTTAATCCCCACAATGACCTCTACCCAATGGTGGGGTGGGGGTGGGGTTATTTGTTATCCCATTTTACAGA
Y
GATGAGACTGAGGTATAGAAATGAAGTAATTTGCCTGGTCATAGTAAGTGACCTGGGTGAGCTGGGACTCAAACTCAGGCACTGGCTCCAGTACGCACAC
Celera SNP ID:            hCV16068042
SNP Position Genomic:     41295
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34749):
CCTGACAGGCTTAGCTGGGGCTCTGGAAATCTTTTGAGTCTAAGATTAGAGTTAATTCTAGGGACTGAGGTTGAGCTAGAACCTCAAATAATGATGAACA
K
TGGCCCCACTGAGAAGGCAGAAGGAGTGCAGTCAGTAGAGACTGGGTAGACCTGCCAATGGGGAATTGCCTTTCAAATATGTTCTGTTGGGTTTTCTTAA
Celera SNP ID:            hCV27515834
SNP Position Genomic:     43895
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,300|G,1195)   total(G,1195|T,300) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34750):
AAAAGATGGGCAAAGGCTCTGCAAGGACCTCTCTCCAAAAAGATATACAGATACCCAATGGGCATGTGTAAAGATGCTCAGCATCATTAGTCATCAGGGA
R
ATGCAAATCAAAACCACAATGAGATACTACTTTACATCATGTGGTCGAGTATAATCAAAAAACGGGTAATAACAAGTGTTGGCGAGAACATGGAAAATTC
Celera SNP ID:            hCV1261203
SNP Position Genomic:     38512
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34751):
TAAAACTTAAAGTATAATAATAATAGAATTCTGATGGTTAAAAGACAAAACAAAACAAAAAACACAGTGCCAAAACAATTCAATGGAGAAAGAATAGTCT
Y
TTAAACTATTGTTAACTATGGTGCTGGGACCACTGAGTGACCACATACAAAAGAATGAAGTTGAACCTTTTACCTCACAGCATATCCAACTCAAAATGGG
Celera SNP ID:            hCV1261204
SNP Position Genomic:     38028
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34752):
CAACTTTTGAGCTGAGATTTTTTTTTTTTTTTTTTCTTTTAATGCCTAGCAGGGTGGTAAGCTCTTGATGTCCATGTGAACACACTAATCTTTGCTGGAA
Y
GTGCCATGGTGAAATTTTGATGCTGGAAAGTACTGAATAAGAAGGCTAAGCATTAGTATTTATAAATCAAAACATGTTGACAATTACTTCCTGCTTTGGT
Celera SNP ID:            hCV16068046
SNP Position Genomic:     42550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34753):
ACCAAATTGTATTTCTCTATAGTAGCAATGAGCAAACTGAAGATTAAGAAATTGTTTCAAAAAGAGATAAATTTTTAAAAAGAAGTGCAGTACTTGTACA
Y
TGCATCCCACAAAACATTTTTGGAAAAAAATTTAAGACCCAGTTAAATGGGAAGATGTTCCACATTCATGGATTGGAAGACTTAATACTGTTAAGATGTG
Celera SNP ID:            hCV1261207
SNP Position Genomic:     37408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34754):
ATTTTAAGACATGGTCCTGTTCTGTCACCTAGGCTGGAGTGCAGTGGCACAATCATGGCTCACTGCAAGCTTAAGCTCCTGGGCTCAAGTCATCCTCCTG
Y
CTCACCCTCTGGAGTAGCTGGGACTACAAGCATGGGCCACCATGCTCGGCTAATTTTCTTTCTTTTCTTTTCCTTTTCTTTCTTTTCTTTTTCTTTCTTT
Celera SNP ID:            hCV16068047
SNP Position Genomic:     44533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34755):
TCAGGAAGTTCCCAAGGGAACACACTCCAAGAATTAGATGAAAAACTCTGCAGAAAAATCCACCTCACATGAAAATCTCTGTATTTAATATTTTTAAAAA
R
TTACCACTGTGTTTGTTGCAGCTGTGACCTCTACAAGTTCCAGAGACTACTCTCTGACTTTTGGTGCAATCAACCAAACATGGTCCTACCGCATCCACCA
Celera SNP ID:            hCV1261208
SNP Position Genomic:     36253
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38|G,2)   total(A,73|G,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34756):
TTATCATTAATATTTAAAAGATCAAATTCATTCAACTAAGAATTAGAGTTTAAGACTCTAAACCTGATTTTTGCCATGGATTCCTTCTGGCCAAGAAATT
W
AAGCACATGTGATCAATATAACAATATAATCCTAAACCTTGACAGTTGGAGAAGCCAATGCAGAACTGATGGGAAAGGACCAATTATTTATAGTTTCCCA
Celera SNP ID:            hCV7591828
SNP Position Genomic:     70247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:34757):
CCTCCAGCTCCTGAGGCTTCGCAGAGGGGATGTTTATGGTGGATGGGGTTCCCCTTCTCCTGCGCAGCTGGTTTCGAGGTTGTGCGGTTTCCAGTCCTGC
R
GAGCAGCTCAGGTTACCGCCTCCGTGGCCGCGGGGGAGGGCATCTCCGACGGCCGCAGCAATGGGCAAGAGATCAGGGTCTTCCCATCCCCGCGACTCGC
Celera SNP ID:            hCV27830591
SNP Position Genomic:     5262
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 hmCS


Context             (SEQ ID NO:34758):
GCAGATCACTTCTACCACACAGACTGGAGGAGGTGAGCCCCACAAATTCTGGACAAGCCTGAAAAGGCCAACTGTTCCAGAGGACACACCACTTGTTTTA
M
CAAAAGTCAGTACCTGACTTGACTCATTAAGCCCTCTGAGGCTTTTGTTTCATCACCTCCTCATTGGCAGATAAGATCCTTCAAGGATGTTTTTCATCCT
Celera SNP ID:            hCV7591829
SNP Position Genomic:     68892
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,29)   caucasian(C,2)   total(A,1|C,31)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34759):
GACCTAATCTCTACTAAAAATTTAAAAAATTAGCTGGGTGTGGTGGTGTGCACCCGTAGACCCAGCTATTTGGGAGGCTGAAGTGGGAGGATCACTTGAG
Y
CCAGGGGGTTGAGGCTACAGTGAGCCATGATCAATCACACCACTATGCTCCAGCCTGGGTGACAGAGGGAGACCCTACCTCTAAATAAATAAGTAATTAA
Celera SNP ID:            hCV11604593
SNP Position Genomic:     18099
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34760):
GGCTACTCTGAATCAAATGATCAGGCGAGGCCTCAGCTGACACTTAAACTGGAAGTGAAGTGGGATTCCTCCAGCAGCACATTTAGAAACCAGGGTTGAC
R
CTCACAGTAGGGCTGACCTACATCAAGTGACATTAGCCAAAGCTCAGACACCTCTGGCTTCAGTGTTGCTGTAGCAGAAATCAAGATAAACATTTTCCCT
Celera SNP ID:            hCV15878063
SNP Position Genomic:     64872
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(T,748|C,749)   total(C,749|T,748)no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34761):
TTACACACAATCTAATTACACTCTTAGTTATTTAAAAATGTACAATTAAGTTATTATTGACTATAATAACCTGTTATCACAGGTTATAGTCACCCTGTTG
W
GCTATCAAATGGTAGGTCTTATTCATTCCTTCTATTTTTTTTTTTTTGGTACCCGTTAACTGTGTCCACCTTCCCCTGACCCCTACTACCCTTCCCAGCC
Celera SNP ID:            hCV9863560
SNP Position Genomic:     8859
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34762):
CATTTCTTCTTAGATGAAAATGAATGTGCAACTGGCTTTCATCGCTGTGGCCCCAACTCTGTATGTATCAACTTGCCTGGAAGCTACAGGTGTGAGTGCC
R
GAGTGGTTATGAGTTTGCAGATGACCGGCATACTTGCATCTGTGAGTTCCAAAATCATTTTCCTGTGTGGCCAAAATGGTGCTCTTTAATCTTGCTCTTT
Celera SNP ID:            hCV25922532
SNP Position Genomic:     46593
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34763):
TGGTCAGTGTCCGGATCACTGACCTGAGCTTGACTCCTAGACTCAGATGGTGAGAGACAACCCTTTCCCTTCTCTGGAATCCTTCAGATTTACTGAAGTG
M
GAGGTGTTGGAAGTCGTCACTTCTGTGAAATGTAGAAGATGGATTGGTTTAAAATTTAGGGTGTAGAGTCAAACCAATGTGAGTTTCAGTTCCAGCTCTA
Celera SNP ID:            hCV1261210
SNP Position Genomic:     35793
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34764):
TTTTGAAAGGCAGTGATTTCGTCTAAATGTTCTCCCAGCTGTTCTGAGAAACAGGATGATTCCATTCAGAACATTTGTGTCCTCTTACCCCAATTTGTTG
M
AGCATATTTGTCAGGCTTTTTAAATTATGCACAGATCTGTCAAATGCAAAAATGGTACTTGGGGCACCTGGGGATGATTTTACTTCATGGGGAAGGGGTG
Celera SNP ID:            hCV1261211
SNP Position Genomic:     33429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,7)      total(A,4|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34765):
GGGCAGATGCAGGTAATACTACTGATGGAATGCAAATAGATAACCTCTCATCACAGTGAATGTGAGCACTAACAGATTTTACTACAAAATGAAATCCCAT
M
ACTTAGATCTCCTTTCTTTGGTCTGTAAACTTTTAAGTACTAGTAAATTTAAGTACTAGTAAATGAGTCTTAAAATGAACTTTCTGGGGTTTGGGTGGAG
Celera SNP ID:            hCV7591830
SNP Position Genomic:     67639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34766):
CAGTGGTGCTCCTTGGGGCACTGTCTTTAGGCCTTTACGCAGTGACAGAGGAATCACTTGTTTAATGTACTAGAGCCACATGTGTGTAGTTTTCTGGCCA
S
AGGTTGTTGGGAATGGTTTGACCTCACATCACTGATTTTTGAAAGGCAGTGATTTCGTCTAAATGTTCTCCCAGCTGTTCTGAGAAACAGGATGATTCCA
Celera SNP ID:            hCV1261212
SNP Position Genomic:     33292
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34767):
TAATAGCGTGAATCACTTTTTAAAAAGCTAAATCTTTGCACATGTTCTTAGTTGACATTCCAGGAAGTGCAATTGGTAGGTCAGAGAGGATGCACTTTTG
R
TAAAGTTCTTGATAACTTCTGCCTAATTGCCTTCCAGGTACCAGTTTACAAGTTTCTTAGTTTATAGGAGTCTGCCGTCAATGTGCTTTACAGTCTCTAC
Celera SNP ID:            hCV16068054
SNP Position Genomic:     8176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34768):
GACAATGCTCCCGGCATGCCTTCTGCACGGACTATGCCACTGGCTTCTGCTGCCACTGCCAATCCAAGTTTTATGGAAATGGGAAGCACTGTCTGCCTGA
R
GGTAATTGACTGGGGCCAGGAACTCCTGTGTGTCTATTCCTGCTGCTTACCTGTTTCCAGCTACCACTGTGAGCTCTGCTTTATGGACCAAACATCTCCA
Celera SNP ID:            hCV1261213
SNP Position Genomic:     32470
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,17)   caucasian(A,29|G,11)   total(A,48|G,28)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:34769):
GCCCTTTTTGACCCACAAAAATAGTGGTTTCATGAAGTTCAACCTAACATGTACTTACTGGTTTGCTTTCATTTTACTGCACTCAAACCCACGGGTGCAG
Y
CTCATCTTAGTTCACCAACTCTGCAATGGGACCCAGCCGGGAGCAGTAAGCAATTCTTCTTGCCAGCAGACAAAGCAGATTAATTCCCTTGGGTTGAATG
Celera SNP ID:            hCV1261214
SNP Position Genomic:     32084
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34770):
AACTCTGGATGCCCTTATCTTCTTCTCTTTTCAGTGATCACCCCACCTGCCAACCCCTGTGAGGATGGCAGTCATACCTGTGCTCCTGCTGGGCAGGCCC
R
GTGTGTTCACCATGGAGGCAGCACGTTCAGCTGTGCCTGCCTGCCTGGTTATGCCGGCGATGGGCACCAGTGCACTGGTGAGTAACTGCAGGTCAGCCTC
Celera SNP ID:            hCV25598549
SNP Position Genomic:     48082
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34771):
ATGCCTTTTCTTTGAGGTAGGTGCGTGTGTTCTTTAAGACCCTTCCCTCAAAACAATCTTGGTAGCGAGACCAGCTATTATCTTTTTTAAGTTCAGTGTT
M
CCTAAAAGAAGGATGGTTAGACATAAGACATTTGTTAGCTTCTCTATTATGTCTTCCTCTCAGGATGTGTTTAGGTTGAACCATATAAAAGTGCTGATAT
Celera SNP ID:            hCV1261215
SNP Position Genomic:     31880
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34772):
CTTTTTACTTAGATAAAAGCTATGACTCCACCTAGTTTAACTCTCCATATCTAGACTGTCTCTCCTCCATCTTCTCTCTCCTTGTTTCATAATTCAGCCT
Y
AGAATAAGAATTGGGTTGCAGAATAAGGCTTCACAAAATAACTGAAATAAGATACAATCCAAGCCTGTTATTTCCTTAATTTGTGGGCAGAACAGCTTGT
Celera SNP ID:            hCV16145913
SNP Position Genomic:     28766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34773):
TCTGATTATCTGCAACATGCATTCATATCTGATTTTTAAAAATTCTACATCTGCCAACCATTTGTCCCATTGAAGCATCATACTAGTGAGAAAACATTGA
R
TTTTTAGACCCTCCACTTCTGGGACCCTTGAATTAAGCAGAATTTTTCTCTTCTCATTTCTTCTTAGATGAAAATGAATGTGCAACTGGCTTTCATCGCT
Celera SNP ID:            hCV25922399
SNP Position Genomic:     46438
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,2)   total(A,2|G,30)
SNP Type:                 INTRON


Context             (SEQ ID NO:34774):
AGAGGTGTGTGCAGCCGCTTGGCCTCCTGGTGGCCATGCTTGGGATTGGCATATTTCCTAGTGCCCCGGAGAAAGCACCCTCCTGTCCATCCACAACCCC
Y
GCCACACCCTACCCCCTTGGCTATTTCCTTTATGAACTATGGCATTTGCTCCAGTTTCCCCATTTCTTTGCAGCACAGATGGCCCTCTTCTTTTAATGGG
Celera SNP ID:            hCV1261216
SNP Position Genomic:     31459
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34775):
TCCGTACTTGGATCCCATTGAAGGGGTCGTGGAGAGTAGCAGTTAAGATTCTCCAGCTAGATGTCCTAGGTTCGGTTCCCACCTTTGCCACTCACTGCCT
R
TGCGACTTCAGGTGCTTTAGTCTACTGTGCCTCAGCTTTATCTGCAAACGGGTTAAAAAATTGTCCCTGGCCAGAGTGGTGGCTCATACCTGTAATCCCA
Celera SNP ID:            hCV1261217
SNP Position Genomic:     30265
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34776):
CCTCAATCTTTACTACTGTATTTTTAAAAATGAAGGTTGTTATTGCAAGTTTAAAAAGGTAACAGAATTTTAACTGTTGCTTATTAAAGCAACTTCTTGT
W
AACATTTATCATTAATATTTAAAAGATCAAATTCATTCAACTAAGAATTAGAGTTTAAGACTCTAAACCTGATTTTTGCCATGGATTCCTTCTGGCCAAG
Celera SNP ID:            hCV1261144
SNP Position Genomic:     70141
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:34777):
TTTGTTGGCTGGTTGAATGAATGAATGAATAAAATAAAGTGCTAAATGCCCAGAGTTCACAGCAAAAAGTCAGACTCTCCTCTTCACAGCTCTGTTTACT
R
CTCTCTTCCCCCCTTCCCCATCCCCTTCAATTCTTCACAGTCTCTACAACCTCCTTATCTTATGGAATTTCTCTAAATTTAGAACCAGGATTCTCTCCTA
Celera SNP ID:            hCV16068058
SNP Position Genomic:     12496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34778):
AATATGAGTTATGTTACCATTTTAGTCACTTTTTTCCTCCTACCTAGAAAATATTTTAAAAATACTAAGGATTTTGGTTAAAAGGTTGCCTCAGTAATTA
Y
AGACATAGCTTACAAAGGGCAAGTATTTACCCAGATGTTATAATTTATAAGCTAAGGCTTGAAATCACACAAATTATAAAAATAATTATGTTTAATGCCC
Celera SNP ID:            hCV1261145
SNP Position Genomic:     68349
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,11)      total(C,3|T,11) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34779):
TGCCAGATTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGA
Y
GGGGTTTCACCGTGTTAGCCAGGATGGTCTCAGTCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTGCCG
Celera SNP ID:            hCV1261219
SNP Position Genomic:     29102
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34780):
CAAAGACCATCCCCTGGGTGCACCTCCAGGTTGCAGAGGGTCTGTGACCAGGAGCCGCCGCCCCCCGATGCCTGTGAAGACACCTATATGAGGAGATTCC
V
TGGTAGGGCCCCTCTCCCTTCACCAGAAGTGGAGAGAGCCTGTTAGTGTCATGCCAGCAGTTGTAAAAGGCCACCCCCAGGGTCGTGATCACTGCCACCA
Celera SNP ID:            hCV16068059
SNP Position Genomic:     25401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34781):
AAATTTAAATCGGCTCCATGAGAAATGTGAAACTTGGAAATTCTTGAATGGTTTAGCTATTGTAAAAATTTTTAAGACTGATTCCTTTACATTGAAATAT
R
AGTTATGTTACCATTTTAGTCACTTTTTTCCTCCTACCTAGAAAATATTTTAAAAATACTAAGGATTTTGGTTAAAAGGTTGCCTCAGTAATTATAGACA
Celera SNP ID:            hCV1261146
SNP Position Genomic:     68254
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34782):
TTTGTACTGCTTGCCTGACCATGAGTGCCTGGCATATTTTTAACAGTTAAAAGAATTAGCCATTGTTGAATTGACAAACTTAAGTGAAGTTATTCTTATG
Y
GGGGAGAGGGTCACTATAACTTACCTATAAACATCTGTTATAATGCTAAGGACATTCTTTGGAAAGCATTGTAGCAGGGTAGCTTCCTTCAGTAATAACA
Celera SNP ID:            hCV1261147
SNP Position Genomic:     67863
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34783):
TGTATAGCATATTGCACACAAAATCAGTTTTTCTTTCTATGCTTTTTTCCCTAAATTTACCACAACAGTAACCACAGCATATACATATATGTACATGCAT
A
CACACACACACACACACACAAACACACACAAACACACACAAGAGAAAGACATTTTCAAATTGTACTGAAAAATATTGTTACTATAGAAATCCACATGAAC
Celera SNP ID:            hCV26534983
SNP Position Genomic:     19278
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34784):
CTAATGCAGCCCAAACTCAAGGGGATTGCTTAAGGCTATAATACATGAGGAGATGGAGATCACTGGGGGCTGCTTAGATGCTGCCTACCACAGGCTACAT
R
GCTATTCTTTTACAATCTTGATTTTTAACTTACAGCAACTTGTACTGGACAGACTGGAATAGAGAAGCTCCTAAAATTGAAACGTCATCTTTAGATGGAG
Celera SNP ID:            hCV1261148
SNP Position Genomic:     67357
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34785):
GTATAGCATATTGCACACAAAATCAGTTTTTCTTTCTATGCTTTTTTCCCTAAATTTACCACAACAGTAACCACAGCATATACATATATGTACATGCATA
C
ACACACACACACACACACAAACACACACAAACACACACAAGAGAAAGACATTTTCAAATTGTACTGAAAAATATTGTTACTATAGAAATCCACATGAACA
Celera SNP ID:            hCV26534984
SNP Position Genomic:     19279
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,7)   total(C,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34786):
ATATGTAACAAAAGTACTTGTTTCTCTATTAACCTGGTTCTTGGGGACTTGGAGACACTTGGGCTTTGCTTTCCCCTGCTGACCCCCCTGCCCACCCGAC
Y
GTTGGAGGGCTTCAGGTTTGCCCTCCATATCCTGCAAACACTCCAGTCCTGACTTTGCTTTATTTCCAGGTCTGATAAGCCCTGAAGGACTTGCCATAGA
Celera SNP ID:            hCV1261149
SNP Position Genomic:     64243
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34787):
TATAGCATATTGCACACAAAATCAGTTTTTCTTTCTATGCTTTTTTCCCTAAATTTACCACAACAGTAACCACAGCATATACATATATGTACATGCATAC
A
CACACACACACACACACAAACACACACAAACACACACAAGAGAAAGACATTTTCAAATTGTACTGAAAAATATTGTTACTATAGAAATCCACATGAACAT
Celera SNP ID:            hCV26534985
SNP Position Genomic:     19280
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34788):
ATAGCATATTGCACACAAAATCAGTTTTTCTTTCTATGCTTTTTTCCCTAAATTTACCACAACAGTAACCACAGCATATACATATATGTACATGCATACA
C
ACACACACACACACACAAACACACACAAACACACACAAGAGAAAGACATTTTCAAATTGTACTGAAAAATATTGTTACTATAGAAATCCACATGAACATG
Celera SNP ID:            hCV26534986
SNP Position Genomic:     19281
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,7)   total(C,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34789):
GATAGGTGAACGAGTTTTAGGGCCCCTGGACCTACTGCAGCGCGGAGCTGGGACAGTCGCAAAAGTTGCGCTTGTTTCCCTGAATCCAGACTCCCTGGCC
R
GTGGGGAAGGAGAGAGAGGCTTTTTGCCTAAGTCAGTTCCCTTCCCTCCCTGCGCGAAAGGGTAGCGTCCTTGGGCTTGAGCGACTGTCACCTTTTTGTC
Celera SNP ID:            hCV29157320
SNP Position Genomic:     6949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34790):
CACTGTGGACCATCACCAGGTGAGCTTAGGCCTGGGGCTCAAGAAGCAGAATGGCACTGGTGGTAGGTAGATCATAATTCCTGCCCAGACCACGCAGGCA
S
GGGGCCAGTCACCATCCTTCATAGCCTCTTTCCTCCTGAGAAGACTTGAATAATAGTGCGTACAAATATGCATGTTTGTGTCATAAGGACATAGAGATAT
Celera SNP ID:            hCV25598550
SNP Position Genomic:     56381
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,5)   caucasian(C,33|G,3)   total(C,62|G,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:34791):
CTGAGCCTACTCTTGCGCTGAACCTGACCTTGGAGGCAGCAGGGCTGGAGTGGCTTGGGAGTGAGGAAAGACGTTGTCTCTAGGCATCTTCTGAGGCCCT
R
GCAGGTGGTCACTCCCTTGAGGAAAAAAATGCTTAGCGGATATGAGAGCGGGAGTGCAGATGTGGGAGCCCCTTTGAACATAAGGCAATTTACTGTTTGG
Celera SNP ID:            hCV29157322
SNP Position Genomic:     7562
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34792):
TCTCGATAATCTTCCCTGCTTGCTTCTACCATTAAACCCAGTTTATAAAGTATGACTCGAATTATACTTGAAGTCTGTGCTGATTAACCCCAGACATGTG
R
TGACCCCTAATCTAGTGCTCATGATCTCCGTACTTGGATCCCATTGAAGGGGTCGTGGAGAGTAGCAGTTAAGATTCTCCAGCTAGATGTCCTAGGTTCG
Celera SNP ID:            hCV7591910
SNP Position Genomic:     30138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34793):
TAGTAGTTGCTCCAGCTGTCCTGAAGCAGCCCTGTGCACGAAGCCTCCTGTGTCCCTCTGTGTTGGCCCAGTGAACCCAGTCGACACCATGGAACCTCCC
S
TGTGTCTGGCCCAGGGCCTTCTGTGAAGAAGGGCAGGCCGGCCAAGGGCTGCAGACAGGTGCTTAAGTGTTTCTGGGAAAATGAAGATTGAAAGATGGCT
Celera SNP ID:            hCV16068060
SNP Position Genomic:     25795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34794):
GGCTACTTACCCCTCAATGGCACCAGGCTTCAGAAGGATGCAGCTAAGACCCTGCTGTCTCTGCATGTAAAGTGGATTTCTCCTGTAGGGGGCAGGGCTG
Y
GTGGCTTTCCCAGTGGGAGCCACCTCACAGGCCCTGTTGCAGTGAGGTGGACTGGTGCAGGGAAGTCCTGGAGGGTTTCTGAGCTGCAGCCCATCGGCAT
Celera SNP ID:            hCV25598554
SNP Position Genomic:     61108
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:34795):
GTCACCTTTTTGTCCCTCTCCTCTCCCAGGTGGGCACCAACGGCATCATCTCCACTCAGGACTTCCCCAGGGAAACGCAGTATGTGGACTATGATTTCCC
Y
ACCGACTTCCCGGCCATCGCCCCTTTTCTGGCGGACATCGACACGAGCCACGGCAGAGGCCGAGTCCTGTACCGAGAGGACACCTCCCCCGCAGTGCTGG
Celera SNP ID:            hCV25598555
SNP Position Genomic:     7136
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34796):
ATTGTTATAACTTCTTTTTCTGTAATAGAAAAATGTAGTACAGCTTCCAATCTATTTATAAACCTTTGCACAGTTGCACTTGTAAGTTGCTGGCTGCATC
R
CCCTGCCTCTTTTTACTTAGATAAAAGCTATGACTCCACCTAGTTTAACTCTCCATATCTAGACTGTCTCTCCTCCATCTTCTCTCTCCTTGTTTCATAA
Celera SNP ID:            hCV1261221
SNP Position Genomic:     28657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34797):
CACTCAGGACTTCCCCAGGGAAACGCAGTATGTGGACTATGATTTCCCCACCGACTTCCCGGCCATCGCCCCTTTTCTGGCGGACATCGACACGAGCCAC
S
GCAGAGGCCGAGTCCTGTACCGAGAGGACACCTCCCCCGCAGTGCTGGGCCTGGCCGCCCGCTATGTGCGCGCTGGCTTCCCGCGCTCTGCGCGCTTTAC
Celera SNP ID:            hCV25598556
SNP Position Genomic:     7188
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,2|G,38)   total(C,2|G,76)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:34798):
CATTGTTATAACTTCTTTTTCTGTAATAGAAAAATGTAGTACAGCTTCCAATCTATTTATAAACCTTTGCACAGTTGCACTTGTAAGTTGCTGGCTGCAT
Y
GCCCTGCCTCTTTTTACTTAGATAAAAGCTATGACTCCACCTAGTTTAACTCTCCATATCTAGACTGTCTCTCCTCCATCTTCTCTCTCCTTGTTTCATA
Celera SNP ID:            hCV1261222
SNP Position Genomic:     28656
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34799):
GCACTTATATTTTATTAGGAGGAAACAAGACTGGTATAAACAATATTAGTCTGTGATGTGATATGTAGAAAATTCAGATAGTGTTGTGAGAACTAGGGCT
R
CTCTGAATCAAATGATCAGGCGAGGCCTCAGCTGACACTTAAACTGGAAGTGAAGTGGGATTCCTCCAGCAGCACATTTAGAAACCAGGGTTGACGCTCA
Celera SNP ID:            hCV7591841
SNP Position Genomic:     64776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34800):
TGTAACCTGGAACTGCTGGGCTCAAGTGACCCTCCTGCCTCAGCCTACTGAGTAGCTAGAAGCACAGGCATGTGGCACCATGCCTGGCTAAGTTTTTTAG
R
AAAGGGTTTTGTAGAGGCAGGGTCTCACTATGTTGCCTAGACTGGTCTCAAACTCCTGGGCTTAAGTCATCCTCCTACTTTGGCCTTGCAAAGTGCTGGG
Celera SNP ID:            hCV25598557
SNP Position Genomic:     20701
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:34801):
GGTCTGCTGGTCTAGAAGCTAGAGGTAGTGGAATATGTAACAAAAGTACTTGTTTCTCTATTAACCTGGTTCTTGGGGACTTGGAGACACTTGGGCTTTG
Y
TTTCCCCTGCTGACCCCCCTGCCCACCCGACTGTTGGAGGGCTTCAGGTTTGCCCTCCATATCCTGCAAACACTCCAGTCCTGACTTTGCTTTATTTCCA
Celera SNP ID:            hCV1261150
SNP Position Genomic:     64211
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34802):
GACACTTGGGCTTTGCTTTCCCCTGCTGACCCCCCTGCCCACCCGACTGTTGGAGGGCTTCAGGTTTGCCCTCCATATCCTGCAAACACTCCAGTCCTGA
M
TTTGCTTTATTTCCAGGTCTGATAAGCCCTGAAGGACTTGCCATAGACCACATCCGCAGAACAATGTACTGGACGGACAGTGTCCTGGATAAGATAGAGA
Celera SNP ID:            hCV7591842
SNP Position Genomic:     64296
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,25)   caucasian(C,2)   total(A,5|C,27)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34803):
GCTTGTTGTATCCCAAGCCTTCTATCAACACCAATTGGTGTGAGAATCACTGGCGGGGTGGCTAAAGTGTAGATTGCTAGGATGCACCCAGAGAGTGGAA
Y
TGGTAGGTCTAAGGTGGGCCCTCAGAATTTGCATTTTTAACAGAAATCTCAGGTGATCCTGATGCAGTGGTCTCTGGAATCCACCGGGAGAAATGCAGCT
Celera SNP ID:            hCV7591916
SNP Position Genomic:     27284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34804):
TAAATTTGTTAACGACATTGATGAGCAACACCTAGCTCAGAAATCCAAGGCTTGTTGTATCCCAAGCCTTCTATCAACACCAATTGGTGTGAGAATCACT
K
GCGGGGTGGCTAAAGTGTAGATTGCTAGGATGCACCCAGAGAGTGGAATTGGTAGGTCTAAGGTGGGCCCTCAGAATTTGCATTTTTAACAGAAATCTCA
Celera SNP ID:            hCV1261224
SNP Position Genomic:     27235
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|G,7)      total(G,7|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34805):
TTTGATGCACAAAGGGCTCCATAATCGTGGGAATTGATTACGACTGCCGGGAGAGGATGGTGTACTGGACAGATGTTGCTGGACGGACAATCAGCCGTGC
Y
GGTCTGGAACTGGGAGCAGAGCCTGAGACGATCGTGAATTCAGGTCAGCAGCTTCACTCAGCAGTCTGCATTTCATTTGATTCTACAAAGTCACTTGTCT
Celera SNP ID:            hCV1261151
SNP Position Genomic:     63763
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,10)   caucasian(C,2)   total(C,22|T,10)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   JBIC-allele(T,302|C,1143)   total(C,1143|T,302)no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34806):
ATTCTTGTGGATGGATGCCCAAATGGGCCGTAAGCACTGAGCTCAGCTTCTCAGGTGGCCAGAAATGAGCACGAGAAATTTCCTAACATTCTGCCCACCC
Y
AGGAGCTGCCAATTGGTCAGATTAAATTTGTTAACGACATTGATGAGCAACACCTAGCTCAGAAATCCAAGGCTTGTTGTATCCCAAGCCTTCTATCAAC
Celera SNP ID:            hCV1261225
SNP Position Genomic:     27112
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34807):
GGAAACTGAGCTTGGAAATACTTAGTGACTTGTCTAGCAAGGGCAAAGACTGCAACAAAGTCATGAAGAAATTAGAGAAAGCTGTAGGGTGACAGAGAGT
S
AAAGGCACTGTCCAGGAGTGTCACTGCTGTTGGGGAAGTCTTTGTGAGGAAGGAGGGGCTTGAGCCAGGCCTGGGGTCAAAGTCTGAGAGGGAGAATGTG
Celera SNP ID:            hCV7591917
SNP Position Genomic:     24778
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,11)      total(G,1|C,11) ;(G,-|C,-)   Caucasian(G,84)   African-American(C,16|G,68)   Asians(G,39|C,45)   total(G,191|C,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:34808):
GGGCTATCTGGCTGCTGTGCGTCTGTATTACCTTCACTAAAGAATCTTCACGTTGTATTCTTGTGGATGGATGCCCAAATGGGCCGTAAGCACTGAGCTC
R
GCTTCTCAGGTGGCCAGAAATGAGCACGAGAAATTTCCTAACATTCTGCCCACCCCAGGAGCTGCCAATTGGTCAGATTAAATTTGTTAACGACATTGAT
Celera SNP ID:            hCV1261226
SNP Position Genomic:     27056
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34809):
CTCTTACCCTAAGTCCCCAGGGTTGTATGTCATAACATCTCCATGGAAATCCTGGAAATCAAAGTGACAGGACAACTAGTCACAAGGTGTGATCTCTGCG
R
TTTGTTGGGGACTCCAAGTGGAAGTCAGTTAATGACTGTCTCACCGTTGCAGCCCTTCCCTTTCACTTTGGTTCTGTCCCTTTGACCCACTTCTTTCCTA
Celera SNP ID:            hCV1261153
SNP Position Genomic:     61481
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,11)      total(G,11|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34810):
GCCCTGGATAAATAGCTGCACGTGGGCTCAGCACCGTTCTAGCTCCAGGTCTCCCCCTTCTTCAGGGAAGGGCTATCTGGCTGCTGTGCGTCTGTATTAC
Y
TTCACTAAAGAATCTTCACGTTGTATTCTTGTGGATGGATGCCCAAATGGGCCGTAAGCACTGAGCTCAGCTTCTCAGGTGGCCAGAAATGAGCACGAGA
Celera SNP ID:            hCV1261227
SNP Position Genomic:     26987
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34811):
GGCTGCGTGGCTTTCCCAGTGGGAGCCACCTCACAGGCCCTGTTGCAGTGAGGTGGACTGGTGCAGGGAAGTCCTGGAGGGTTTCTGAGCTGCAGCCCAT
Y
GGCATGGGCCCGATGCCACCACCATAGGACCAGGGCTCTCTCTTGCTGGGAGTCACCTGTCACTGACCAAGGCTGTGCTCTCTGGTTCGTTCATGGAGTT
Celera SNP ID:            hCV1261154
SNP Position Genomic:     61203
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34812):
GAGTAGGAAGAAGTGCATGAAAATACACTCAAAGCCATGATAGGGACATGCAAATGACCACCGAAAAGAAAAAGTGCCACTTTTCCTCGGGTGTGTTTAT
Y
GCACATCTCATCTAGCTGGGATCCAGATCTTGATTCCCAGCCTTCAAGAAGTTCAGCCTCTTTGAATTTCACTGCAATTCCCATAGAAATTTGAGCAGTC
Celera SNP ID:            hCV1261228
SNP Position Genomic:     26759
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34813):
CTTACCCCTCAATGGCACCAGGCTTCAGAAGGATGCAGCTAAGACCCTGCTGTCTCTGCATGTAAAGTGGATTTCTCCTGTAGGGGGCAGGGCTGCGTGG
Y
TTTCCCAGTGGGAGCCACCTCACAGGCCCTGTTGCAGTGAGGTGGACTGGTGCAGGGAAGTCCTGGAGGGTTTCTGAGCTGCAGCCCATCGGCATGGGCC
Celera SNP ID:            hCV1261155
SNP Position Genomic:     61113
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,37|T,3)   total(C,74|T,4)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34814):
CTAACTAGAGTAGGAAGAAGTGCATGAAAATACACTCAAAGCCATGATAGGGACATGCAAATGACCACCGAAAAGAAAAAGTGCCACTTTTCCTCGGGTG
K
GTTTATCGCACATCTCATCTAGCTGGGATCCAGATCTTGATTCCCAGCCTTCAAGAAGTTCAGCCTCTTTGAATTTCACTGCAATTCCCATAGAAATTTG
Celera SNP ID:            hCV1261229
SNP Position Genomic:     26752
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,7)      total(G,4|T,7) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34815):
GCAGCCTGGGAGGAAACTGCTTTGCAACCAAAGCCAGCAGGACTTCAACCATGGAGTGAGCTGTGAGGGAGGGGACAAGAGGAGAGGATGCTGGAGAAAG
R
GGGGGAAAGGGCAACACGGCAGGAAGCTAGAGCCTGCAGGAAAAGATTCAGCTTTGAGATAATCCCAGGCGCAGGGTGGCTAAAGCAATTCTGGAAACTG
Celera SNP ID:            hCV1261156
SNP Position Genomic:     59310
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34816):
TGCTGGAACCTGATCATAATGCTCCCAGCTTTGTTCTTTAGAGTCACTGGAGGGTTTTGAACGGAGTGACATGAAATGCCTTTATGTTTAAAATGGGCCA
Y
TCTGGCTGCTGCTAATTGAATTTACACTGGTTTTGGAGAGAGTGAGGGCATAGAAGGGTGGAAGCAGGAAAACCAGTGGGAAGGCTGTTGCAGAAATTGC
Celera SNP ID:            hCV1261157
SNP Position Genomic:     58623
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34817):
TCATCAGTCATAATAGCACCTATTGAAGGGCTTACTGTATGCCAATTACTGATTAGGACACTTTACAAGCACTTATAGTATTAATTTTTATAGCAACCAT
R
TGAGGCAGGTACACTATTGGCCTCATTTTGCAAATGAGACAAACGCATAGAGGTTAAATGCCCAAAGCCACATGGCTACTAAGTGGCTGAGCCTAGATTT
Celera SNP ID:            hCV7591849
SNP Position Genomic:     63420
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34818):
AGCCAGTTAGTTTTCTCTAAACTGACAATCCCAGCCCTCTGTAACCCAGCCCAACATCTCAGAGGAGGCACAGACATCTGGTTTCTGTTAGCCCATACAA
Y
CTGAGAACATGCCTGCTACCATCTAGAGCATTCCCCAGCTGGGTGGGGCATGGTGATCAAGTGCTCACAGTCGATTCCAACAGCAGGCAGATAAGGCAAC
Celera SNP ID:            hCV1261158
SNP Position Genomic:     56881
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34819):
CTTAATCGGACCTACACCCTTTGTTTATCCTCCTTTTACTCTGAAAGACTTCCTGTCTCTTAAAGTAGCTTATCTCATCCCTTGGGCGTTAGTTTTAACC
R
TTCAATTCTCAGAGCTGCTTTTTTTCTGCTGGGGATGGGAGGGGTGGGTGACTTGCTATTGTCGGCATATGCGGATTTCATTAAATAAAAGGAATGTAAG
Celera SNP ID:            hCV1261159
SNP Position Genomic:     54312
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34820):
GTGAGTGAAGTCATAGTGTTCTTTGCTTCTTTCTTCTGTTTCTGACCTCTGCAGATGTAGATGAATGCTCAGAAAACAGATGTCACCCTGCAGCTACCTG
Y
TACAATACTCCTGGTTCCTTCTCCTGCCGTTGTCAACCCGGATATTATGGGGATGGATTTCAGTGCATACCTGGTAAGTTTCAGAGGGCCAGATTAGGCA
Celera SNP ID:            hCV25922556
SNP Position Genomic:     55228
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,38)   total(C,74|T,2)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:34821):
TTGCAAAGTGCTGGGATTATAAGTGTGAGCCACCATGCCCAGCTGTCTTTCCGTTTTAAAATAAGTTGTTCACCTTCTAGGAAGGTGGGTGAATGGACAC
K
TTTGTTACATTTGTTACAATGACTGTTTCCTTTTTATTTAGACTAAGCAACCTGGGGATCCCTGGAGTGTGGGCTTTCCATATCGGCAGCACTTCCCCGT
Celera SNP ID:            hCV25598561
SNP Position Genomic:     20887
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:34822):
GTGATCCAAGGGAAAATGGACCGACTCTTACCCTAAGTCCCCAGGGTTGTATGTCATAACATCTCCATGGAAATCCTGGAAATCAAAGTGACAGGACAAC
Y
AGTCACAAGGTGTGATCTCTGCGGTTTGTTGGGGACTCCAAGTGGAAGTCAGTTAATGACTGTCTCACCGTTGCAGCCCTTCCCTTTCACTTTGGTTCTG
Celera SNP ID:            hCV29157404
SNP Position Genomic:     61457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34823):
TCAAAAGTCCAGTATGATCCCTTTAGTTACCATGTAAGTCTGCTTTTATTTGGTTTTATATACCAGTGAAAACTGAACCTGATCTTAATAGCCTTTCAGG
K
TTTTTGTTTTTTTGAGACAGGGTCTCACTCTGCCACACAGGCTGGGGTGCAGTGGTTGCAACCAAAGCCCACTGTAACCTGGAACTGCTGGGCTCAAGTG
Celera SNP ID:            hCV25598562
SNP Position Genomic:     20528
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,25)   caucasian(T,18)   total(G,1|T,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:34824):
AATGAGGAGGAAGCTGAATACCTTCCGGGTGAACCAGAGGAGGCATTGAATGGCCACAGCAGCATTGATGTTTCCTTCCAATCCAAAGTGGATACAAAGC
M
TTTAGAGGGTAGGATCTCCCCTCCAGATTCTGATCTGTCCTCCCCCTTGCATCCAACACCTACTTATTGGCCATTCTATCCTGAAACAGAATCTTCCACC
Celera SNP ID:            hCV25598563
SNP Position Genomic:     21222
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,2|C,36)   total(A,2|C,74)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:34825):
GAGACCTTTCCGCTGCCCACTCTTCTGTTCCCCTGGGACGTTCCTTCAGCCATGCTACAGCCCTGGAAAGTGACTATAATGAGGACAATTTGGATTACTA
Y
GATGTGAATGAGGAGGAAGCTGAATACCTTCCGGGTGAACCAGAGGAGGCATTGAATGGCCACAGCAGCATTGATGTTTCCTTCCAATCCAAAGTGGATA
Celera SNP ID:            hCV7591921
SNP Position Genomic:     21115
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,2)   total(C,31|T,1)
SNP Type:                 NONSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:34826):
TGTGTTATGTTTCCAGACAAGTAGAGGAAGGATGAAACATTCCTACATTCCTTGTTTATTTTCAAATAGCCAGATTTTAGATAAACCATTTGGATTATGG
R
GCAGATTGATAATTTGATGATCTGGCATTCTGTGGCATACAGCTTTGAAACATAATGTTAAATAAAAGGTAGTTCACATCAAAAGTCCAGTATGATCCCT
Celera SNP ID:            hCV7591922
SNP Position Genomic:     20349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34827):
TCTGTAGGCCTCAATTTTCTCATTTATAAAATGGAGATATCTTCTAACTAGAGTAGGAAGAAGTGCATGAAAATACACTCAAAGCCATGATAGGGACATG
M
AAATGACCACCGAAAAGAAAAAGTGCCACTTTTCCTCGGGTGTGTTTATCGCACATCTCATCTAGCTGGGATCCAGATCTTGATTCCCAGCCTTCAAGAA
Celera SNP ID:            hCV1261230
SNP Position Genomic:     26709
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,7)      total(A,4|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34828):
TTCTATCTTCTGGAAGACAAGACAGTAGTTAATAAGTATTTATGATGTTTAGGGCCAGTGATAGGCATTTTATTTATTTATTTTTTTGAGATGGAGTCTC
R
TTCTGTCATCCAGGCTGGAGTGCAGTGGCATGACCTCGGTTCACTGCAACCTCTGCCTCCTGGGTTCAAGCTTTTCTTCTGCCTTAGCCTCCAGAGTAGC
Celera SNP ID:            hCV7591923
SNP Position Genomic:     18458
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,13)      total(G,13|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34829):
GATGCCCCCTCAATTTGATGGGATTTAGAGCCAGAAGATTGTTTCATCTCTGTAGGCCTCAATTTTCTCATTTATAAAATGGAGATATCTTCTAACTAGA
R
TAGGAAGAAGTGCATGAAAATACACTCAAAGCCATGATAGGGACATGCAAATGACCACCGAAAAGAAAAAGTGCCACTTTTCCTCGGGTGTGTTTATCGC
Celera SNP ID:            hCV1261231
SNP Position Genomic:     26661
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34830):
GGAGGAAAAAAAAGGGTGGCTGTCTCGAATGGCATCGACACAGTGGAAAATCATCTGATTCCATTGTTGAACTTCACACTCCAGGCACTTGCTCATCCCT
R
AGAAAGAATAGTACGGCATTCAAGTTTACATTTACTTCTGTTAATGAACGACACTTATTTGGTTCCAGAAAAGCTTAGAGGCAGCCAGTGTTTAGGAAGA
Celera SNP ID:            hCV7591850
SNP Position Genomic:     61836
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34831):
CTTCCCTCTTCCCCATCTGCTCAGAGCCCACCCAGAGGCCCCCGACCATCTGTGAGCGCTGGAGGGAAAACCTGCTGGAGCACTACGGTGGCACCCCCCG
R
GATGACCAGTACGTGCCCCAGTGCGATGACCTGGGCCACTTCATCCCCCTGCAGTGCCACGGAAAGAGCGACTTCTGCTGGTGTGTGGACAAAGATGGCA
Celera SNP ID:            hCV7591851
SNP Position Genomic:     60161
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,18)   caucasian(G,2)   total(A,12|G,20)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): (A,3|G,11)      total(G,11|A,3)Gaucasian(A,9|G,41)   Ghinese(G,3|A,15)   Japanese(G,5|A,33)   African(G,29|A,31)    ;(G,-|A,-)   ;(A,-|G,-)   (G,-|A,-)   Caucasian(A,9|G,41)   African-American(G,29|A,31)   Asians(G,8|A,48)   total(G,78|A,88)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:34832):
TTTTTAAGCCACCTCACTCCTTCAACACCTCCAGGCCTCTGCCCAAATGTCTTTTTCTCCCGAGGTCTTCCCTGACCATACTATTTCAAAGAGCCAGGTG
Y
GCCTGCCCTCTCTCACCCTCTTGTCTGACCCTGCCATATTCCTCTGCACTTCAGTGATTCTGATGCCCCCTCAATTTGATGGGATTTAGAGCCAGAAGAT
Celera SNP ID:            hCV1261232
SNP Position Genomic:     26499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34833):
GTCTCATCTTAGTTCACCAACTCTGCAATGGGACCCAGCCGGGAGCAGTAAGCAATTCTTCTTGCCAGCAGACAAAGCAGATTAATTCCCTTGGGTTGAA
Y
GTTATGCCGGTCTCTTAAACATCAAAAACTGTTTGTTATGATCTAAACTGCTTCTATGGAGCAGATGTTGTGTCCCCGATGCAGCAGTGACATTGGAATC
Celera SNP ID:            hCV25598567
SNP Position Genomic:     32183
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,7|T,33)   total(C,7|T,69)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34834):
ACACTGATTTCCAAGCGCCTCCTCTACCTTCTGAACCAGAAACTGCATTTTTAAGCCACCTCACTCCTTCAACACCTCCAGGCCTCTGCCCAAATGTCTT
Y
TTCTCCCGAGGTCTTCCCTGACCATACTATTTCAAAGAGCCAGGTGCGCCTGCCCTCTCTCACCCTCTTGTCTGACCCTGCCATATTCCTCTGCACTTCA
Celera SNP ID:            hCV1261233
SNP Position Genomic:     26452
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34835):
GGGAGCCTGGGGGAACTCGAGGCCAGGGGTTAGGTTTATCATCCAACAGTTCCTGCTGGTTTTGCTCAGTACTTGGGCAGTGAGAAGGATGTTGAAGCAC
R
AAAGCATGAACTCGAAGGATTTTTAACACATTTTCCAAACAGGTTCTTTACTAGCTTAATAGAGTGTAGGATTGCACTGAGATTAAGCTACCTCTCATTA
Celera SNP ID:            hCV1261160
SNP Position Genomic:     52625
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;JBIC-allele(A,673|G,760)   total(G,760|A,673)
SNP Type:                 INTRON


Context             (SEQ ID NO:34836):
GCCTTCTGCACGGACTATGCCACTGGCTTCTGCTGCCACTGCCAATCCAAGTTTTATGGAAATGGGAAGCACTGTCTGCCTGAAGGTAATTGACTGGGGC
Y
AGGAACTCCTGTGTGTCTATTCCTGCTGCTTACCTGTTTCCAGCTACCACTGTGAGCTCTGCTTTATGGACCAAACATCTCCACTACTTAAATCAGAGTG
Celera SNP ID:            hCV25598568
SNP Position Genomic:     32487
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(C,7|T,31)   total(C,9|T,65)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34837):
AACACTGATTTCCAAGCGCCTCCTCTACCTTCTGAACCAGAAACTGCATTTTTAAGCCACCTCACTCCTTCAACACCTCCAGGCCTCTGCCCAAATGTCT
Y
TTTCTCCCGAGGTCTTCCCTGACCATACTATTTCAAAGAGCCAGGTGCGCCTGCCCTCTCTCACCCTCTTGTCTGACCCTGCCATATTCCTCTGCACTTC
Celera SNP ID:            hCV1261234
SNP Position Genomic:     26451
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34838):
TTTTTTAATTTTTATTTATTTATTTATTTTTTTAGGCAGGGTCTTACTTTATCACCCAGGCTGGAGGGCAGTGGTGTGATTACAGCTCACTGCAGCCTCA
R
CCTTCCAGGCTCAAGTGATCCTCACATCTCAGCCCCCCCAAGTAGCATGCCCAGCTAATTTTGGTATCTCTTGTAGAGATGGGGTTTCATCATGTTGCCC
Celera SNP ID:            hCV1261161
SNP Position Genomic:     51974
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34839):
CCTTCTGCACGGACTATGCCACTGGCTTCTGCTGCCACTGCCAATCCAAGTTTTATGGAAATGGGAAGCACTGTCTGCCTGAAGGTAATTGACTGGGGCC
R
GGAACTCCTGTGTGTCTATTCCTGCTGCTTACCTGTTTCCAGCTACCACTGTGAGCTCTGCTTTATGGACCAAACATCTCCACTACTTAAATCAGAGTGC
Celera SNP ID:            hCV25598569
SNP Position Genomic:     32488
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,7|G,31)   total(A,10|G,66)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34840):
TTGAAAACTTACTACTTGCCAAGCATCATGCTAAACACTTTCCAGATGTTATCTTAATTAAAACTCACAAGAATTGTAGGTTAGTACTACTATTTTCCCA
R
TTTTACAGAGGAGCTTAGGGAAGTTAAGTAAATTGCCTATGATCTCAAAGTTAAGTGGCAAAGCCAAAATCCAAGCTCAAGTCTGGAGTGCTGAACTACT
Celera SNP ID:            hCV29157339
SNP Position Genomic:     16120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34841):
AGGCAGGACTGTTTCATAGATGGATAATTGGTTGGTTAGGAAATCATTAAAGTGACTTGCTAAAGAGTGAGTTTTGGAAGTTGTCAGTGGAATAATTATA
Y
CTGGGTACACCCATCTCTAGCCAGGATGATGTCCAAGCCTAACTGGATTTGCTGTCTTTTAGGGGCACCTCACCGAGTGAATGGGAAAGTGAGTGGCCAC
Celera SNP ID:            hCV16178783
SNP Position Genomic:     32839
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,7)   caucasian(C,1|T,1)   total(C,22|T,8)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34842):
AGTTCATTCAAACCTGGCCAGCCTCCACCCTCCTGCTGTGCCCTGAGGTGTCAGCAAACTTCTTTATGGTCTGACTCTCCGTGGCAGGAGCTTCCTGGCA
K
AGTGTGGGTCCCAGAGGAGGCCATGGACTAGAAACTGTATTTCTCAAAGTGTGGGCACTCATCCACCTTCCTCTCACTCAGCTGGGAGCCTGGTTAAAAA
Celera SNP ID:            hCV1261235
SNP Position Genomic:     26252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,6)      total(G,5|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34843):
TTTAAAGGCATTCCATAGGGTACATGTGTCTCAGTGACCAAAGAACAGAGGCTGTATTTTGTGGGTGCTATGCATTGTTAAAGCACATGCTCTTTTACTC
Y
ATCAAACTAACAATAAGGGGGTGTGGGAGTTTTTCTCCAGCCATAGTTTGTTAAAAAAACCGGCTCCCTGGAGAGGCTGCACTTGGATTTGGGTTCTCAG
Celera SNP ID:            hCV1261162
SNP Position Genomic:     51448
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34844):
TTTAGCAACTATCAAACCTCAGTTAACAAATCCATGACAAAATGAGTTCATTCAAACCTGGCCAGCCTCCACCCTCCTGCTGTGCCCTGAGGTGTCAGCA
R
ACTTCTTTATGGTCTGACTCTCCGTGGCAGGAGCTTCCTGGCATAGTGTGGGTCCCAGAGGAGGCCATGGACTAGAAACTGTATTTCTCAAAGTGTGGGC
Celera SNP ID:            hCV1261236
SNP Position Genomic:     26208
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34845):
AAATATTTAGTTCCTTAGCTCTCTGGTTTAAAGCAAAGAAGTTGAAATTAATTTCAGCCTAGATATGATGAGTGTTAATCGGAATATTAATTTAGATTAG
R
TGCTGCATGCTTTGATCACTTCTACAATGATTCTCTCCCTCCTTTTTTCTTCTACTTGTCCTGCAAGACTTTGATTACCTTCTGGGGTCATGTTAGGGCT
Celera SNP ID:            hCV1261163
SNP Position Genomic:     50423
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,8)      total(G,8|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34846):
GACATTTTGTGTAGAAAATCTCAGGAATTCACTAAAACACTATTAGAACTAAAGAACAAGTTCGCAATGTTATAAGATATGCAAGATCAGTACACCAAAT
Y
GTATTTCTCTATAGTAGCAATGAGCAAACTGAAGATTAAGAAATTGTTTCAAAAAGAGATAAATTTTTAAAAAGAAGTGCAGTACTTGTACATTGCATCC
Celera SNP ID:            hCV594840
SNP Position Genomic:     37315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34847):
TCCAGCTGTCCTGAAGCAGCCCTGTGCACGAAGCCTCCTGTGTCCCTCTGTGTTGGCCCAGTGAACCCAGTCGACACCATGGAACCTCCCCTGTGTCTGG
S
CCAGGGCCTTCTGTGAAGAAGGGCAGGCCGGCCAAGGGCTGCAGACAGGTGCTTAAGTGTTTCTGGGAAAATGAAGATTGAAAGATGGCTCAGAACAAGT
Celera SNP ID:            hCV1261237
SNP Position Genomic:     25805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,5)      total(G,4|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34848):
AGTACCAGCTCTAAGAAATGTGAATCCACTGAGAAAAATCTTGTCTGTAGAATTTATTTAAACATCTGGCTGCTCAGATCAGCAGAGATGGTGCTTTTAA
R
ATATTTAGTTCCTTAGCTCTCTGGTTTAAAGCAAAGAAGTTGAAATTAATTTCAGCCTAGATATGATGAGTGTTAATCGGAATATTAATTTAGATTAGGT
Celera SNP ID:            hCV1261164
SNP Position Genomic:     50324
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,8)      total(G,8|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34849):
TAGGGTAAAACGACACACTGGGGATGAGAGAATGGTGGGAAACGTGTTTAGAATGGGAAAGGGCCTGCTGGGGAACATGAACCTTAAAAGGCAGACTTTC
Y
CCTGCTCCTGGTGTTGCTGTGTGCATCTGCCTCCATCCGCCCAGGCCCACCGAGCTGATGTGCTAAGAACAGCTTTGCAATTCCTGGGAGCTTTATACCA
Celera SNP ID:            hCV1261165
SNP Position Genomic:     49010
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34850):
GTTCCTTGGAGCCAGCGCAGGCTGGAGGAATTTAGGGAAAGTTGCATACCTTCCTGTTAGGCGGTCTCCACCTTAATTCAACACTTATGGTTGTGCTCTT
M
TGCTTTAAGTGATATTTTAAGCAATCTCTAAACACATATGTAATTTCTAATTTTTCTCCTCTTTCAAAAGAGAGAACTCCACATATATAAAAAGACACAT
Celera SNP ID:            hCV1261166
SNP Position Genomic:     48516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,9)   total(A,3|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34851):
TCAGTACTAGAATTTCTAGCCAGGGTGATTAGGCAAGAACACAAAATAAAAGCCATCTAAATTGGAAAAGGACAAAGTAAAATTAGTCTCAGATGACATT
Y
TGTGTAGAAAATCTCAGGAATTCACTAAAACACTATTAGAACTAAAGAACAAGTTCGCAATGTTATAAGATATGCAAGATCAGTACACCAAATTGTATTT
Celera SNP ID:            hCV594841
SNP Position Genomic:     37221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34852):
CATTCTGTCCTTGACTCACAATCAAAGGTTTTTCTTCTTCCCTCTTCCCCATCTGCTCAGAGCCCACCCAGAGGCCCCCGACCATCTGTGAGCGCTGGAG
R
GAAAACCTGCTGGAGCACTACGGTGGCACCCCCCGGGATGACCAGTACGTGCCCCAGTGCGATGACCTGGGCCACTTCATCCCCCTGCAGTGCCACGGAA
Celera SNP ID:            hCV7591858
SNP Position Genomic:     60125
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,13)      total(G,13|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:34853):
CCTGCCAAAGTCAGGAAATAGAGCATAGTATGTGAAGCTGGTTTATAGCAATACCCAACTGTGCGTGCCAATCAGGAATATACCTGTGAACAAGGCAGAC
Y
GGAATTAGGAGGGAGAGTGATGCTGACAAGTATTTGTTACAAGTGTGATGAGAGCAGGGCACTGTGAGTCTAGTTTGAAGATTCAGAAAAGATGTCCCCA
Celera SNP ID:            hCV594842
SNP Position Genomic:     36799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34854):
GGTTTTGAACGGAGTGACATGAAATGCCTTTATGTTTAAAATGGGCCATTCTGGCTGCTGCTAATTGAATTTACACTGGTTTTGGAGAGAGTGAGGGCAT
R
GAAGGGTGGAAGCAGGAAAACCAGTGGGAAGGCTGTTGCAGAAATTGCAGGGAGAGGATGAGGCTTTTTGACCAGGGTGAGGGGGTGCAGTAGTGAGAAG
Celera SNP ID:            hCV7591859
SNP Position Genomic:     58675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34855):
TAAATAGATATTTTTGGTGTTGAGTTATTGAAGGATGCCCACCTCAGTTGGGATTTCTGGCCCAGTCATGTAACAAGATGATGAACTTCACTAGTAAACA
Y
CTCCAGCTCTTTAGATAGAGCCTAAAGTATTTTTCAAATTGGAAGAGATGGATTTATAATTCACTGATGCATGTCCTACTTGACTGGCTAAAGAGCTCCT
Celera SNP ID:            hCV1261168
SNP Position Genomic:     47246
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34856):
AGATCCTTGCCCTTGAGTTGGAAACAGAGGCAGAAAAGAGTTTTAGGGCAGGGAACAGTGTCCCTGCCAAAGTCAGGAAATAGAGCATAGTATGTGAAGC
Y
GGTTTATAGCAATACCCAACTGTGCGTGCCAATCAGGAATATACCTGTGAACAAGGCAGACTGGAATTAGGAGGGAGAGTGATGCTGACAAGTATTTGTT
Celera SNP ID:            hCV594843
SNP Position Genomic:     36737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34857):
GGTTTCCTTTTTTGTTGTTGGGTAAAAATGACATCCTTTTAAGTAGAGTTAGAATGATTCACAGAGGTTACTAAGGGTTACCTAGCGCCATGCTGTGTTA
Y
GTGCTAGGTATAAGGATGAATAGAGCAGATCCTTGCCCTTGAGTTGGAAACAGAGGCAGAAAAGAGTTTTAGGGCAGGGAACAGTGTCCCTGCCAAAGTC
Celera SNP ID:            hCV594844
SNP Position Genomic:     36610
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   (T,-|C,-)   Caucasian(T,11|C,71)   African-American(T,11|C,69)   Asians(T,8|C,64)   total(C,204|T,30)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34858):
CCCGGTCAAAGGTAAGGTTTCCTTTTTTGTTGTTGGGTAAAAATGACATCCTTTTAAGTAGAGTTAGAATGATTCACAGAGGTTACTAAGGGTTACCTAG
Y
GCCATGCTGTGTTACGTGCTAGGTATAAGGATGAATAGAGCAGATCCTTGCCCTTGAGTTGGAAACAGAGGCAGAAAAGAGTTTTAGGGCAGGGAACAGT
Celera SNP ID:            hCV594845
SNP Position Genomic:     36595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34859):
CCAGTGATGGACGGGTTTGTGCTTTTTAAAGTGGTGAGTTGTGCTGGCTCAGATGAACATGCCAGATTCATACTCTGTTGTGAGACAAGCCTAGCGCTTC
Y
CTTGGTTGGGGAGATATGCTTGTGATGTGTGGGAGAGGAGAGCCCACAGGGAAAGAAAATGACTAAACACCTGTGTCTGTTGTCATTTCTGGTTCATGGC
Celera SNP ID:            hCV594846
SNP Position Genomic:     22129
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,10)      total(C,7|T,10) ;(T,-|C,-)   Caucasian(T,38|C,38)   African-American(T,34|C,38)   Asians(T,24|C,54)   total(C,130|T,96)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34860):
AAATTTTAAAGAAGGTTATGTTTAAAAACAATTTGGAGGAATCCTGAAAAAGGGGAAATTCTTTGCACGTTATGATGCTTTGCTTGCATTCTGTTTCTTT
Y
TTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTCTCTTTTTTTTTTTTTTTCCTCACAGCTGAACACTTTCCAGGCAGTTTTGGCATCTG
Celera SNP ID:            hCV594847
SNP Position Genomic:     14815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34861):
TAATAAATAATATTGCTTATGAAATTATATTGTTAACTTGAAGAGGAAATTTTAAAGAAGGTTATGTTTAAAAACAATTTGGAGGAATCCTGAAAAAGGG
K
AAATTCTTTGCACGTTATGATGCTTTGCTTGCATTCTGTTTCTTTCTTCTTTTATTTGTTTTTTACAGGATGTTTCTCTCTCTCTCTCTCTCTTTTTTTT
Celera SNP ID:            hCV594848
SNP Position Genomic:     14769
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,8)      total(G,8|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Gene Number:                 155
Celera Gene:                 hCG21012 - 30000063677099
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRFTF0F9(20758098..20784828)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12315):
GCAGTCTGATTTGGGCCTGCACTTGGCCTGCCATGGCCCCAGCCTGCTGCCCTGCCACAGCCAGGAGCCATTTCAACCGTTTTCAAATGTACAGGCATCT
ATTTAAAATGGCAGTATCTGTGCCTGCTCAGGCAATCCTGAACCTTCTTAACCTGAACTTTTTCCTCCTAAAGCAATGACCACTTTAAAACAGACAGTGT
TAGCTTTTGATTGCTATTGTAAGAAATTACAAATTTAGTGGCTTAAAATAACACAAATTTGTTCTCTTACCATTCTAGAGATCTGAAGTTGGAATGGATC
TCAATGGGCTAACATCACTGTGTTGTCAGGGCTGTTATTTCAGGAGACTCTCGGGGAGAACCTGTCTCCTTCTCCCCTTTTCCAGCTTCTCCAACTGCCC
ACATCCATGGCTCAGGGCCCATTTCCCCATCTTCAAAGGCAGTTCCATCAGATTAAGTCCTCACTGTGCCCCTCATCTGGTTCTCCCTCTTCCGTCTGCC
TCTTCCTCTATAAAGATCCTGTGATTACATTGGAACCCCAGGGAAATCCAGAAAATCACCCCGTTTCCGGGGCAGATGATGAGCAACCTCAACTCCATCT
GTAGCCTTCACTCCCTTTTCCATATAACCCAGTGGGGGGTTCCAGGGATTCACACCGGCATCCTCTGGGATTGGCGGGAGTGGGTGGGGGTGGCAGGTGA
TTATTCTTTGCAAAACACATGCCATATAATTTATGTATATATCATTTTTATACCACAAAGATGGGGGAAGAAGCAGAGCAATATTGGAGCAGAGATTTTG
CATCCTGTTAAAATTAAGTTGGTTTTAATATGATCTAGGTTGTGGTAAATTAAGATATTAATTGGAATCCCCTGAAATGACTAACAAAATAACTTTTTTA
AATAAAAAATGAAAAAGAGACAATAAAGGAAGTAAAATGATGCAGTAGAAAATATCTGTTTAACACAAAACAAAGCAATAGTGGTGGAAAAGATGAAGAA
AATGACATAGTGCATATGGAAAACTAAGAAAAAGGTGGCAGACGTAAATTCTGTTCCACCTTAGCAGTAATTCCCTTACATGTCAAAGTGATAAACATTC
AAAAGAAAAAGCAAAGATTCTCAGAATGCATTTAAAAAATGATCTAAAGATACAATGTAGATCCCAAGATACAAGTAGTTTAAAAGTAGACATATGGAAA
AGATAAAACACATCCATAGTAAACAAAGACAACTGAAATTGCTATTAATAATATCAGGCAGAATCATCTTTAAGACAAACAATTTTATAAACATTCTAAG
AACCAATCAACGAAAGGGAAACTCACAAGGAAAATTAGAAAATACTTTGAGATGAATGGAAACAAATACACAGCATACTATGATTTATAAGAAGCAGATA
AAGCAGCACTTAAAGGAAAACTTACTGCTGTAAATGCCAGTATACTGAGAAAGAACAGGACAAAGAAAGGATTATGTCAAATTAATAACTTGATATTTCA
CTTTAAGAAACTCAAAGAGCAAAGCGACCTAAGCCCCAAATAACAAATGGAAGGAAATAAAAATTGGAGTGTAAATAAATGAAATAAAGAATAGAAAAAC
ATTGGCAAACTCAATAAAACCAAAAGTTGGTTCTTTGAAAAGATCAACCAAATTGTCAAACCTTAACCTAGAATGACTAGGTAAATGGTGGAGGGATAAA
ACTCAAATGACTAATACCAGGAATGAAAGAAGAAACATCCCTACCAACTTTACAGAAACAAAAAGGATTATAAGGGAATACTATGTACAACCGTATGTCA
ATGAATTCAAGAACCTGGATGAAATGAACATCTTTCTTTTCCATTTATTTTCCAGTTATTATTGAGCCACTTTTGATTGTATCCTCCCTTCTCTACCAGA
AAGGACAAAGGTTGATCACCAAAGACAATTTCAGACTCTTGTCAGGCCTAGGGACAGCAGCAGAGGCACCACAAGCTTCTCTGATGCCATAGATTGGCCT
TCCCATGATCTGCCACTTCTCTAGACGTTTATTGTTTTCTGTTGAAGATGCTGGAGCTCTAAGCCAGCACTTTAAGGATTACTTGTTTTCTCCAGGTGTT
TCCTGTGTATATACAAGAGACGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAATAAACTCCTGTTTG
TTTGTTTTTTTCATGAAAATCATTTTTCCTCCCCGCCGTACAAAGGCTTGTCAAAGGCACACTAATGAGCAGCTGATTGGGCTCCTCCAACCGATGAACT
CTGTGTTTGGCTCTGTTTGGAAACACACTGAGGAGTCCAGCCTCTTTGGCTGCCACAGGATACATTTCCAGAAACACCTGTTAGGCGTCTGTGGATGAGG
AAGGCATCAGGCCTTCCTACCTGAAGCCTTATTGACTCCTGCAAGTGCTAAAGAAACCCCTGGGGACAGGCTAGGCTGCCTGTTCCTACTGGATTTTAGG
CCTGGAGACTTCTGGTGGGGGCAGCCCAGGCAGGGAAATCAGGAGCTGTGGACAGGGAGTGGAGGAGATCAGGAGGGGATGGCAAGACCCCCAGCCTGAC
CCCAGTCCCCAGTGCCCTCTAGCAGCAGAAATAGGAAAAGGAGGTTGAGGGCAGGCAATACTGCAACCTCCTGTGCTGAGCATACAGATAGGTCCAGCCT
GGTGGCCCCGCACCTGCAGATTCAAGGCAGCCCTGCCCTGCACTAACCCTGCACCTCCCAGGCCCACTGCTCTCCCACTGTGACCCCATCCGGAGACTGG
TCTATCTAAAGACCAGGACATTGACCAGCAGCCCAGTGCTCTGCTCCACGGCCTCTGTCAGGCAGGACGGAGCTGGAKCCCAGGCAGAGATAAGGACAGG
GGAAGATGGCCCTTGTCAGCCAGGGATGTTCTGTCCTGCTGGGCATGCGGCCTCTCTCACAGAGAACCTACGTGATCTTGCTTCCCCCACTTTCTTATCT
CATAGGCCCTACATATTTGCCAGAAACACCTGCATTCCTAACTCTTTGCCAGATGTCAGGGGCCAGCCGCCAGGGGAACTGCGTGGCAGAGCCCCTGTGC
CAATGGCCAGAGAAATTCAGGAGTTCCCAGAAAACAGAGGGTGCTGGAAATCCAGGTGGGAGAGCTGCTCCTTGTGCCAAGATTTTCCTCAGAGGCTCCT
TCTCCGGTGCCCTGAGCAGGGCCAAGCCTGGCGAATATTAGAATTTCTGCTGGGCTGAGAAAAAACAGCAAAAGGAGAAGCAGTCTGGGGGGTGACTTGG
AGGTGGAAACTGGGTGCGGTCAGAAAAGTGAGTGGAGCCTGGAGGCCAATGAGCACCCCACCCTGGCAAGTCACAGCAGGACAGGGCAGGGGACCAGGCA
TAGAATTGGGCCAGTTGTAACCTGCACAACCTGGAAAAGGATTTGTATTTGTATTTCATGTACCCATTGGGTAAGGTGGCATTTATCTCCAGCTTCCTTG
AGGTGAGCTCAGTTTAGGAAGTTTCTTTTCGACTGAACTGTGTCAGGAATCTCGCCAATGCCTGATGCTGCCCACCACATCTCTTTTGCTGCTGCTGTGG
CTGGAACCTGCCTGGGAGGCACCGGCTGTGAAGGCTGGAGACCCAGGGAGGCTGCCCTGACACCTCTCCTTGTTCCCTGAGCCAGGGGGCCCATCTGAGC
CCCTTCACCCCTGGGGAGCTGTTTTCTGTGCCTTGTATGAGGTTTTTGTCTTCACAGAAATGGCATTCTAGTAAGAGATAGAAATTTTAAATGGATAGAT
ATGTAAATTATATGGTATGTGTGTTGGGCAGAAGAATTCCCTCTCCAATCCTCAGGATGGCAGATCCAGTCCCTGGAACCTCTGTGTTGGGGTACATGGA
AAGGGCGGTGAAAGCTGTGGATGGAGCTGAGGTGGCTAATCAGCTGCCCTGGGAAAACCAGCCATGGAGGGGTAGTGTTCTCATGTAAACCAGGACTCAG
CCTGGTGGAGCTGCCTTTGAAGATGAGGAAATGGGGTCCTGAGCCATGGACGTGGGCAGTTGAGCAGCTGGAAAAGGCAAGGAGGAGACAGGTTCTCCCC
GAGAGCCTCCCAAAGGAACACAGCCCTGACAGCACAGTGATGATAGCTCCGTGAGACTATTCAGACTTCTGAGCTCCAGAATGGTAAAAGAATGAATGTA
TGTTGTTTTAAGGCACTAAATTTGCAGTAATTTGTTGCAACCACAATTAAAAGTTAATAAGGTTTGTTTGATTGTTTGTTTATAGGGATAGAGTCTCATT
CTGTTGCCCAGGCTGCAAAGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCGCCTCCTGGCTTCAAGTGATTCTCCTGACTCAATAAGCTGAGTAGATG
GGATTACAGGCACTGGCCACCACACCCGGCTAATTCTCTTATTTTTAGTAGAGACAGGGTTTCAACATGTTGGCCAGGCTGGTCTCAAACTCAACCTCAG
GTGATCCAGCCTCCCTGACCTCCCAAAATGCTGGGATTACAGGTGTAAGCCACTGTGCGCGGCTTACTAAGGTATGTTTTAAAGTGGTCATTGCTTTAGG
GGAACAAGTTCAGGTGAAGAAGGTCCAGGATGGCCTGGGCAGGCAGAGGTCTCCCATTATGAAATAGAGGCCTTTACATTTAACAGTGGTTAAGATGAAA
AATCACGTTACATGAATCATACCACAATTTTAAAAAAAGAAAGAAAGAAAGAAATACAAGGGTTCCAAATGCGAGGGGCAGGGAGAACCAGGCGTGGAAG
GGTGTGCCACCTGGGAGCAGGAGTGGGAGTGAGCCGGGCAGATGCCTGAAGGGCAGTCCATGCTGAAGGGAGGGCAATGCAAAGTCCCAAGGCACGGGGA
CATCTGCAGGGCTCTGAAGACCAGCAAGGAGGCCGAGGGTGGAGGTCGGAACTGAGCGAGTGAGGGGGCATAATGGACAGCTGGCCAGACTGTGCAGGGC
TCTCTAGGCATCTGTAGTGACTTTGGTTTTACTGAGAGAAAAAGGGCACTTTTGGAGAATTGGAGCAGAGGGGGGCGTGAGTGATGAGGTTCTGAAGATC
ACTCTGGCTGCGCTGTAGCCATTTGGGAGGTGGGGACAGGCACGGAGAACCAAGTAGGGCAGCACTGCAATCACCCTGGCCAGGAGGACGGTGGCCTAGA
ACCAGGGTCGAGTACTAGATGACAGTGTGGTCAAATCATAGATATTTTATTTCTAGTCCAAAGAAGAGATAAGAAAGAGGTCGAGCAAATAGGTGATTTT
TTTTTTAAATTATTCACAGCCTTATAACATAACCTCTAAATCTTCAGTAAAGTTGGCTACATTCACAAGTAGCTGGTGTCACTTTGGTGGGGGCTTTGTA
AGGAAGTGGGCAGGGTGTCTTTTAAGGAAGACTCAGGAGAAGTGCTGGTCTTCCAGTTGCAGAGGGGAATGGAGTTGCAAGAAGAAAACAGCGAGGTTCA
GTGACACACAGTGCGAACACGAGCTCAGGGGGCAGGAGCTCCAGGTCTCAAGAGGGCAGGACGATAATGCAGTGTTTGCACAGAAACCAAGCAATAGAGG
GAGCCAGCACCCACCAGAAATGAGGTAGGGCCGCTGTCACAGCTATGCCAGGACCTGCAGAAGCCTAAACCCTGAAAAAAGGTGGGGGCCCCCACCTACA
TATCAAGGAAAACATATGTATGCCATCACATGCTGGTCTCCAACAACTGCTAAAATTACATTAAATCCTTTCTAGAATTTCGTGGCTGGGACTTGAGTCT
GGTCTTGGTCCTTCTACTGATGGTGAATCCAGTACTGAATTGGATCCAATTCTGGACGAGTTACCCTGTCCTAGAATCACTCACACGTGACAGTTGACAG
GTGGCCCCACCBGGTTTGCATGGTGGACGGGTGTTCTGCTAGGCCGGCCTCTCCACRCCCAGAGAGACTGAACTGGTTTCTGCTCCTCAGAGAGTTTGCA
CAGAGACTCTGAGGAAGCAGTCACCTCAGGCCTCTCCATCCTAGAGACRGCAGAAGGACAAACATCTCCTGCTGGCACAAGGTAGGGGGTGGGGGATGGC
TGGTGTTCCAAACACCMGTGCAGAGGGAACGTGTGCATGTTTGGGAGTGAAGGAGGAAAGCAGGGGCTCGAGTGGTGAGAGAACCAGGGGCAGATAATGA
AGTAAAAGTGGGGTTGGGGGAGATGCTGGGGGTGTGGCGGCGGGGACGCTGGATAAGGCAGGGAGGACGGGGTGGCTCTGCGGGTCCTCTGCCTCCACAC
CAAGCACTCAGGGATCCGTGCCTCCTTCCAGTCTGGAGTCCCAATCGCCCYTCTCTCCAATTTGGGGGACAGGGATTTCTCCTTGTTCTCCTGCCCTAAC
TCCTTCTTTCCGACTTCTCTTGTCCCATTCTCCCTCAGATCCTCCCTTCCGCTTATGCCAAGGCTTCCACAGCCTCGCTCTGCCKGGCCTTGGCATTCCT
AGCCTGAGTGTTGAAACCATTGGCCGGGACCTCAAGGCAGCTGGGGCAGGGAGAGGACGGTTAGAAGCCCAGGGCACACTGCCACAAAAAGGCTGTGACT
CATTTTCAGGGATTGAAAACTGCAGTCCAATTCATTTTAAAATTTTCGTCTCTCTTTGGACTTCAGGCTGAAAGTTCTTTATAGCAACGGGCTTCCAGGG
ACTATGTGAAATTATTGGTTTCACTTTCCTTATCACCCGCTTCTTACTTCAATTAAAATTCCATTTCAGCCGGGTGTGGTGGCTCACTCCTGTAATCCCA
ACACTTTGGGAGGCTGAGGGGGGAGGATTGTTTGAGCCCAGGAGTTCGAGATCAGCCTGGGCAACGTGATGAGACCCCATCTCCACACCAAAAATTTAAA
AATTAGCTGGGTGTGGTGGCTCATGCCTGTAGTGCCAGCTATTCTGGAGGCTGAAGTGGAAGGACTGATTGAGCCTGGGAGTTCAAGGCTGCAGTGAGCC
GTGCTCATGCCACTGCACTCCACCTGGATGACAGAGCAAGACCTGGTCTCAAAAAACAAAACAAACAAAAATCTACTTCATATGTAACCATTACTTCAGT
TTTGAAACCATTGCCTGAAGCTGACATTTTGCAGTTGGAAAATGGCTATTCCTTCCCATCTTCAGGTTGGCTCAGGCCAAGCTGAGATTCAGGACCACAG
AGGGCAACAAAGGTGGAAGGGCCCCTTTCCCCTTTCTGTATATTTTTCCCAGCCTGTCTGCAGCTCTTTCTTTTTCTTCAGTGTTAGGTTGGCATCCCAG
ATGTCAGGACCCAAGTATAGGCCTGGTGTGCTCCTTCCTGTGAGTCATCAGACTTGTAGAAAATATTGGCCCTGCTAAGGAGCTACTCAGTGGTCATATC
ACACATATGCACGCACACACACACAARCACCCATGCACACACACACACACACACACAAACACACACATACACTCTGTTCTTGGCCCACCCCCGCTGGTGT
CCCCACAGCAGCAGTATTGGCAGGGCGGTAGCAGTGAGTTCCTCTCTGTGTACTCTCAGGGCCTGGATGTGTACAGAACAGGCTCCACTCAGGACAGATT
TGAGACCCCTTCTCCAGACCAAGAGGTGGAAGTGCACCCTCAAAATTGAGGTTCTTTAACCTTAGCAGACAGAGAACCACATAGGGGACATGTAAAAAAT
GTGCATTCCTCGGCTCCTTCAAACGCTTGACCCACTGTCCTCTGAGCAGACAACCCCTTATCCCCCAGCCCCAGAGATAGAGCCCTGCCGATAGTCCATG
GTTACTTTCTTTGAAGTCTGTTCCATCTAGTTAAGAAAGGACAGTGGTAAAGACCCACTTACCTTACCAGGCATCATAAGGGCCCTAGCATCTGAGTCAC
AGGATGTCACCCTCTGGGTCTGACATGCACTTGAATTAACTGGCATACTGCCCGGCACACAGAGGGAACCTAGATGTGGAACGGATATGGGTGGTGTTAC
AGGCCGCATGTTTGCCTGCCTTCCAAATTCATATGCAGAAATCCTAATTCTCAAGGTGATGCTATTTAGGAAGTCATAACTCATGTGAGTGGAGCCATGT
GGGATTAAGAAGTGATAGGAGAGCTTGCTGTCTGTCTCTGCTCTCCACTGTGTGAGGATACAACAGGAAGACAGCCATCTGGTGAGGAAGAGAGGGCCCT
CGCCAGATACCGGACCTGCTGACACCTTGATCTTGGACTTCCCATCTTCCAGGAAGGTAAGAAATAAATGCTTGGTGTTTCAGCCACCTTGTCTATTCTG
TTGTAGCAGCCTGAACTGGCTAAGGTAGCAGGGTCTGATGATCAAATGGGACAGCTGTAAAAGTGAGGTGGGAAGGGGGTCTACAGATACTAAGTTTTAT
GAGGAAAACTTGTGCTTTATTTGAAAATGACACAAAATTTTGTTCTAAGAAAAATTTTCAGAATTCAAAACTTAGAGCCCTAAGACTTTTCCCAATGATA
GACTTGGCTTTCCTTGAGGTCTTGGCCCCAGTAGGACTGCTGGAGTCTATTAYAAAACTCATCTGGAAGGACCTCTGCCGTTGCTGAGGCTTGAGGAAAT
GGTTTTAAGGTCACAGTGTAAACAAAACTGCTGGGAAGTTGGAACTGGGCGGAGCCCACTGCAGCTCAGCAAGGCTGCTATGGCCAGACTGCCAGATTTC
TCCTCTCTGGTCAGGGCATGTTGGTAAACARGGCAGCAGCCCCAATCAGGGGCTTATAGCAGACTTAAATGTCCCCGCCTGATGGCTCTGAAGAGGGCAG
CAGACCTCCCAGCACAGCATTCGAGCTCTGCTAAGGGTCAGACTGCCTCCTCAAGTGGGTGCCTGACACCCACGTATACTGACTGGGAGACACCTCCCAG
TAGGGGCCGACAGACACCTCATACAGGAGAGCTCTGGCTGGCATCTGGCAGGTGCCCCACTGGGTCAAAGCTTCCAGAGGAAGGAACAGGCAGCAATCTT
AGCTGCTCTGCAGCCTCCGCTGGTGATACCCAGGTAAACAGGGTTGGGAGTGGACCACCGGCAAACTCCAGCAGACTGGCAGCAGAGGGGCCTGATGGTT
AGAAGGAAAAGAAACAAACAGAAAGGATTAGCACGTCCCCTCAAAGACCCCATCTGAAGGTCACCAACATTAAAGACCAAAGGTGGATAAATCCACAAAG
ATAGGAAAAAACCAGTGCGCAAAGCCTGAAAATTCCAAAAACAAGAACGCCTCTCCTCCTCCAAATGATCACAACTCCTCGCCAGCAATGGAACAAAACT
GGACAGAAAATGAGTTTCACGAACTAACAGAAGTAGCCTTCAGAAGGTGAATAATAACAAACAACTCCAAGCTAAAGGAGCATGTTCTAACAAATGCTAG
GAAGATAAGAACCTTGAAAAAAGGTTAGTCGAATTGCTAATTAGAATAACCAATGTAGAGAGGAACATAAATGACCTGATGGAGCTAAAAAACAGCATGA
GAACTTTGTGAAGAATACTCAAGTATCAATAGCCAAATCAATCAAGCGGAAGAAAGGATATCAGTGATTGAAGATCAACTTAATGAAATAAAGAGAGAAG
ACAAGATTAGAGAAAAAAGAATAAAAAGGAATGAACAAAGCCTCCAAGAAATGTGGTACTATGTGAAAAGACCAAATCTACATTTGATTGGTGTACCTGA
AAGTGACAGTGAGAATAGAACCAAGTTGGAAAACACTCTTCAGGTTATTATCCAGGAAAACTTCCCCAACCTAGCAAGGCAGGCCAACATTCAAATTCAG
GAAATACAGAGAACATCACAAAGATACTCCTCAAGAAGAGGAGTTCTGAAACTATTCCAAACAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATG
AGGCCAGCATCATCCTGATACCAAAACCTGGCAGAGACACAAYAAAAAAATAAAATTTCAGGCCAATATCCCTAATGAACATTGATGCAAAAATCCTGGC
AAACCGAACCCAGCATTACATCAAAAAGCTTATCCACCACGATCAAGTTGGCTTCATACCTGGGATGCAAGGCTGGTTCAACATACACAAGTCAATAAAC
GTAATCCATCACATAAACAGAACCGATGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAGAACTTTGATAAAATTCAACACCACTTCATGCTAA
AAACTCTCAATAAACTAGGTATTGATGGAACATATCCGAAAATAATGAGAGCTATTTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACT
GGAAGCGTTCCCTTTGAAAATCAGCACAAGACAAGGATGCCCTCTCTCACCACTCCTATTCAACATAGTATTGGAACTTCTGGCCAGGGCAATCAGGCAA
GAGAAAGCAATAAAGTACATTCAAACAAGAGRAGAGGAAGTCAAATTGTCTCTRTTTGCAGATGACATGATTGTATATTTAGAAAACTCCATCATCTCAG
CCCAAAATCTCCTTAAGCTGACAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCCTATGCAACAATAACAGACA
AACAGACAGCCAAATCATGAGTGAAGTMCCATTCAMAATTGCTACAAAGAGAATAAAATACCTAGGAATACAACTTACAAGGGATGTAAAGGACCTCTTC
AAGGAGATCTACAAACCACTGCTCAAGGAAATAAGAGAGGACATAAACAAATGGAAAAACATTCCATGCTCATGGATAGGAAGCACTAATATCGTGAAAA
TGGCCATACTGCCCAAAGTAATTTATAGATTCAATGCTATCCCCATTAAGCTACCACTGACTTTCTTCACAGAACTGGAAAAAACTACTTTAAACTTCAT
ATGGAACCAAAAAGGAGGCTGCATATCCAAGACAATCCTGGGCAAGAAGAGCAAAGCTGGAGGCACCGTGCTACCTGACTTCAAGCTATACTACAAGTCT
ACAGTAACCAAAATAGCATGGTGCTGGTACCAAATATATAGACCAATGGAACAGAATGGAGGCCTCAGAAATAACACCACACAGCTACAACCATCTGATC
TTTGACAAACCTGACACACACAAGCAATGGGGAAAAGATCCCCTGTTTAATAAATGGTGTTGGGAAAACTGGCTAGCCATATGCAGAAAACTGAAACTGG
ACCCCTTCCTTACACCTTATACAAAAATCAACTCAAGATGGATCAAAGACTTAAACATAAGACATAGGACCATAAAAATCCTAGAAGAAAACCCGGGCAA
TACCATTCGGGATATAGGCATGGGCAAAGACTTCCTTTCTAAAACACCAAAAGCACTGGCAACAAAAGCCAAAATTGGCAAATGGGATCTAATTAAACTA
AAGAGCTTCTGCACAGCAAAAGAAACTATCATCAGAGTGAACAGGCCACCTACAGAATGGGAGAAGATTTTTGCAATCTATCCATCTGACAAGGGGCTAA
TATCCAGAATCTACAAAGAACTTAAACAAATTTACTAGAAAAAAAACAACCCCATCAAAAAATGGGCAAAGTATATGAACAGACCCTTCTCCAAAGAAGA
TATTTATGCAGCCAACAGACATATGAAAAAATGCTCATCATCACTGGTCGTTAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACGCCAGTT
AGAATGACGTTCATTAAAAAGTCAGGAAATAACAGWTGYTGGAGAGGTTGTGGAAAAATAGAAACRCTTTTACACTGTTGGTGGGAGTGTAGATTAGTTC
AAACATTGTGGAAGACAGTGTGGCAATTCCTTACGGATCTAGAACGAGAAATACCATTTGACTCAGTGATCCCATTACTGGGTATATACCCAAAGGATTA
TAAATCATGCTGCTATAAAGACACAYGCACACGTATGTTTATTGTGGCACTATTCACAATAGCAAAACTTGTCCATCAATGATAGATTAAGAAAATGTGG
CACGTATACACCATGGAACACTATGCAGCCATAAAAAGGGATGAGTTTATGCCCTTTGCAGGGACGTGGATAAAGCTGGAAACCAACATTCTCAGCAAGC
TATCACAAGATCAGAAAACCAAATACCACATGTTCTCACTCATAGGTGAGAGTTGACCAATGAGAACACATGGACACAGGGAGGGGAACATCACACACCA
GGGCCTGTCACGGGGTGGGGGGCTAGGAGAGGGGTAACATTAGGAGAAATACCTAATGTAGGTGATGGGTTGATGGGTGCAGCAAACTACCAGGGCACGT
ATATACCTATGTAACAAAACTACACGTTCTGCACATGTAACCCAAAACTTAAAGTATAATAAAAAAAAWTTTTTTTTTGTAGAGATGGAGTCTTACTATG
TTGCCCAGGCTGGTCTTGAACTCCCGGCCTCAAGTGATCCTCCTGCCTCATCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACTGTGAGGGCCTGGC
CATTTCAGTTTCGTTAATTAGCATCTATGATAGTGCCTGATACATGTAGTAGACACTCTGTGTTTATTGAGTGACTCAATATGTTTTATTACAATTACAC
ACACACACACACACACAAAACCCATCTGTCATGGTAGACCASTTGCTGCCTGTTTGCAGCTAGTTTAATTAATACTGGGGTGTGCTTGGTGAGAGAAAAT
CTCAACCATTTAAGAGGAAAGAGTTTGAACGGGTTAGGGACAGTGGGAGAGGGGAGAATGGCGATGGGAGAAAATACAGGAATGGGCAGGGGGTACCAGG
AAGAAAGGGAAAAGCAAAAGAGGCAGGGAGGAGAAGGGAAGAGGAAACTGGAGGAAAGGAGAAGGAGCTCACATAACCTCCAACCATCCTGCTCACACCA
GAGGGGGKTTTTTTTGCAGGGGCAGCAGGGACAGGAGAGGAGAGAGAGTTTATTCAAAGTTAATTTTGTTTTTAAATGTCTTCTTTTATTTTTCAATAAA
TGATTATATTCTGAATACTTGGAAAACACTCTCKTCACAAAATTGTTCTTTAATTGGGTCTCTACAGGCCTGACCTCAGTTGTTCCARGGTAAAGAATTT
GGGCAGTGCCCACACCCAYGCTGTTGGATAACATTTCTTCACCATACCAGTGAGGGTGAATGTGTACACGCCCAGCTTCCTGCCTGTTACTCTCCACAGT
ATGYGAAGAATATCCCTGACTTCTAGCCCTGTGCRCCTTCTTTTGTTTCTGCTGTTGCTACTAATAGCCTTGGAGATCATGGTTGGTGAGTGTCCTGAGC
ACAAGAACTGGCTGAGGACAAGGAGGAGRGAGAAAGGTAGGGGGTAGGCGAATGGGGCTTCATGCAGGCTTCAGACAAGTGGGTGCCTGCTCTTAAGGAT
GACGTGAGGRAGAGGATCCCTGGGATGTTACACCCAGTTCATGGGAGACCACAGCCTGAGGCCCTAGGCAAGGCACTGGCTCACAGAGGGCAGTTCTACA
ATGCTACCCCCCRCCTTCTACTCCAGGTCACTTTCCTGAACATCTGGGACCCCRCAGGAATTCAGCGTGTGTCCTGTGATAAATGCCTCTTTTTCCTTTC
TATTGAATGTCATGTGTGTTCAGCTAGAGTTTAAGTCTCAGGAGGTCATACACTGGCTTGTCTGTTTTGTGCCTCAGAACTTGGTAGATGTTGCTAAAAG
TACTTGTGACATGAATCCTCCTGTTAACACCATTAACACTAAGTGCACCCCAGGGGTCCCTGGTACCATCAAGTATCTCATCCCAGACAGTCAGGGAGAG
ATGGGAACAGGGATCCAGAAGGTTGAGGGAGTCTGGGATGGAGCTGCCCCGCCTCTGCTAGCCTGGCCCAGTCCAGGGAGTCTTGGGTCACAGAAGCGCA
GGTTCTAATGGGCCTCTTCCCCTGTCCTGGACCTCACCTGCATCTTTGTCTCACAGGTGGTCACTCTCTTTGCTTCAACTTCACTATAAAATCATTGTCC
AGACCTGGACAGCCCTGGTGTGAAGCGCAGGTCTTCTTGAATAAAAATCTTTTCCTTCAGTACAACAGTGACAACAACATGGTCAAACCTCTGGGCCTCC
TGGGGAAGAAGGTAWATGCCACCAGCACTTGGGGAGARTTGACCCAAACGCTGGGAGAAGTGGGGCRAGACCTCAGGATGCTCCTTTGTGACATCAAACC
CCAGATAAAGACCAGTGGTAAGTGTGGAATGGGGTGGGSAAACRGAGGCAGGCAGTAAGAGAGGGGAGGGAAGAACACAGATGGGGAGGGGCTTTAGGTA
TATCTGTGTATTGATCATTGGCCCAACCATAGAGGCACATGGGACCCAATGGGCAGGAAAGGGCAAGTCTGGGCAGAAAGAATACAGACCCCTAAATGTG
CAGAGAAACACTTGACCTATTGGAGGATGATGGACYTCTCAAAGAGTGGAGGATGATGGCTTTGTGTTTGGATTGCAGATCCTTCCACTCTGCAAGTCGA
GATGTTTTGTCAACRTGAAGCAGAACGGTGCACTGGTGCATCCTGGCAGTTCRCCAYCAATGGAGAGAAATCCCTCCTCTTTGACGCAATGAACATGACC
TGGACAGTAATTAATCATGAAGCCAGTAAGATCAAGGAGACATGGAAGAAAGACAGAGGGCTGGAAAAGTATTTCAGGAAGCTCTCAAAGGGAGACTGCG
ATCACTGGCTCAGGGAATTCTTAGGGCACTGGGAGGCAATGCCAGAACCGACAGGTAACTGAGCTGGGTGGGAGAATGTGGCAGCTCCCTTTAAAGGTCA
AAAGCCTTCCCTGTGTGGGTGTCAGTGTGTGTGTGCGATAGAAAATTTGATTGACTTCTCCGTGGGCTTCCTGTCTGGAGAGTCAGTGATGGCYATAAGG
ATTTCCCACCATCCTCCCTTTCCCATCCCACCTCCCACTGTTTCTTCCTCAGTGTAGAAACCCCTTCCCATTAACCAATGATCCAGTCACAATGACCCAC
TGCTAAATGGTCCCAAGTCTATCTGTGTCATTGCAAACATCCAGGCCTTCTCTTCCTCTATTATAATTACCCTTCCACCAGCTCTAATGCCACTTCTTAG
GAAGCCTTCCCCACCTTCCCCACACAGAATTAAGCACCACCCATTGTGTCATCCTCCAAACAGTTCTAACCACAGTAATCGTGAAACTGTGTGGTAATCA
GATGGATATTTGCTACCTCTCTCAGTAGAAATCTGAGCTCCATAAGGACAAGGCACAACCCCTATTCATCTTCATGGCCCAGGGCCTGGTAGAGTGGCTG
TCACATGAGCCAGTGATTATGTGGGGCACCATGTGTTCCTGGGGAAAGCAGGGGCTAAGGAAAGCATATTTTTATGCTTTTTTTTTTTATGTGACAGGGC
TTGTGCTTTTTYTTCTTTTTTTTTTTTTTTTTTTAGTGTCACCAGTAAATGCTTCAGATATCCACTGGTCTTCTTCTAGTCTACCAGATAGATGGATCAT
CCTGGGGGCATTCATCCTGTTASTTTTAATGGGAATTGTTCTCATCTGTGTCTGGTGGCAAAATGGTGAGTGGCAGGCTGGTCTCTGGCCCTTGAGGACG
TCTTAGTCTGGTAAGGACTCAAGAGAGGTGAATCATGGGTCTCATCCAAGCCCCCGCTCCCTGATCCATCTCTCTCCACAGAAATGGTGCACTGCCTTAG
TCTTGAGCCCCCACACTACACAGCAGGGCTGGCAGCACAATGTGCAGTGAGAGGAGGGATGAAGCAATCATCTCCTCTCGAGGAGGGGCAAGGTCAAAGA
TCTGGAAYGCCTGCCTGGGGTGTTGTCTCCTTGCCATCCGGCCCAGGTTTCATCCAGCTCTTTGACGGAAAGTTTGTTTGCTGTCTGCGTTTACCGTGAT
TTAGCTCAGCAGGTCCCATCCCCTTTTCCCGTTCACCCTGAGAAGACTTGCTGGTGGCGCTTGTGGCTGCAGCATTTACTCCCAGATAACATACAAGATG
TGGTATAAGAAATCCTTTCACCACCCTCTAAACATTACAGTGCCGAACTACATCCTACATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTCG
TCTTGAACTCCCGACCTCAGGTGATGCTCCCGCCTCGGCCTCCCAAAGCGCTGGGATTACAGGGGGAGCCAACACACCTGGCTGAGAGAACTATTATATG
CCAGACACATTGCCAGACATCTTCTGCTCTTTGGTCCTGTTTCTCCGCCACTGCTCTGACATGAAGAATTCATTTCTTTCTTCCATTGCTGTCTTTGTCC
TCATAGTGTCTTCTCTAAATTGACCCAGGCAGACCTCAACATTTTCAAGTACAGCAATTTGGAAAAGTTAAGTAGAGCTCTAGGGTTCAAGTCACAGTTC
CTGGGGCTCTCTCTGTGGAGTTCAAAGTTAGGATTCCCTCTAATGAGAAAAATAGGCTACTCCATCTGACTCACTGAGGATCAATGTTTCTGATGTAAGA
AATGATTCTACCCTTTTCATTGCTTAAACGAATACCATGACTCAGATATGTGTCTGTTTTGCAGGGGCCCTGACATGAAAAGTGAGTTYGCCAAGATCGG
TGTCACAACAGGCTTGGCAAGATATGGCTTGAGTCAGATAAGGGCCACTGGTCCAGAAGGGGCTCGTGTGGTGGGTGGTGTGATGGCAGCAGGAACCCAG
GGAGTGAATATGCTGAGATAGGAAGGGGTCCCACCCACAGAGCTGCAGGCAAAGGGGTCCCACCTTAATCCCTGGTGGAAGGTGACTGAGAAGGACTTAA
CTGCCCCAACCAAGCAGGCTGGGACTTCAGTGCCATTGACAATAGTGAAGGGGATTGGTGAGTAGGAAGGGAGGCAAAAGAACAGTTTTAGAAGCTGGGT
CTGAACAGTAGGGATTTAAAGGAGGTGGGACCTCCATAGACACCTGGGAGTTCCTGGCCTCTAGCYTCATCCTGGYAACCGAGTCGGCTGCTGAAGGGCT
TCCTGTCTGGGCAGGAGCAGGCAGGGATCAAGCGCCGGTGGAGGTCAGTGCCCACAGCTGAGCTGAACAGAAGTGGGAGGCAGAGTGGGCCTGGGGAAAG
GTGTRTTACAATTCAAGGGGAAAAAAATRTATCTGCCACCCTTTGGGGAGGGCCTCCCCACTGTGTCGCATGGATTTCTCTGTCACGGGGAAGAGCAGCA
CCCAGGGAAAAAGAGYTTTGTGTGCCCATGACACATTCCTATTTTGTTGTCTCTGGCATTTCTGGGCATTGTTTCTGMTGAAGTGACAGAAGAGAGAAAA
AGCTGATCAAAGCTAAATGACAGAGCAAAGGGGTTGACAGGGAGTGTCTTTTCAAATACACAGGGACATTCACCAAGAAGGGCCATTTTTGGATCATAAA
ATAAATCTCATCTGGGCGTGATAGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCAAGTTGGGTGGATCATTTGAGGTCAGGAGTTCGAGACCAGCCT
GGCCAACATGGCGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGCATGGGCCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGG
AGAATCGCTTGAACTCAGGAGGCGGAGTTTGCAGTGAGCTGATATTGCGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGATTCCATCTCAATAAATAA
ATAAATAAATAAATCTCAACATATGTAAAGGGTTAAAATCATGCGAAGCATCTTGTCCAAGCACAATGGAAATAAACTAGAAATCAACAGCAGGAAGCTA
TCTGGAAAAATCCTCAAATGTTTGGATATCAAATAATATGCTTCCAAATAACTATATATCAAATTAAAAAGTACAAGGAAAACTAGAAAGTATTTTGAAA
TGAATGAAAATGATAATACAAAATATCAAAATCTATCAGACACAGATAAGAAAATGTCTAGAGGCATCCACACTGAACTTTTTGATCTCTGAATCACCGT
GCATCATTGCTGCCAAATTTTTTGCTCATGCTCATCTCTGCCTGGAATTTTCTTTCTTACCTGACCGAATTCCAGACAGCTATCCAAGTCCAGTTTAACT
GTCACCTCCTCTAAGAAGTCACCATTCTTCCTGGATAGAATTAACTACCCCCACTCGTAGCTCAGAAACTCTGACCACAGAAAAATTATCACATTGTTTT
ATGATTGGGTGTATGTCAGTAAATTGATGCGCTTACTTGAGGACATTACTTTTGTAACCTGAGAATCTATCATGGCTGCTATATAGTAGACGCTCAGGAC
ATGTGAGGACTTGAGTGGCAGCGGAGGTAAGGGTCATCTCCTGGGTATGGAGCTTGGACAAGAACCTGCACTCTTCTGTTCCATTTCACCTCAACCATCC
ATGTCCCCAACCACATCTCCACCATCCTACCTGTACCAAGTGCTAATCCTTTGAATCATGTCAGTGACTATCTTCAGCTCAATCCCAATCACAGGTCAGG
AGGGAGGGCATCAGGTATACTGTGAGCAAAACAGAGTATGAGATGGGGCCAACTGGCCTCTGGATTAGGGGCAGGGCTTGTCCTGTATGAGGACAGGGAG
AAATGAGGTTGCTAAGTCTCCCCAAGACCCCTGCCAAATCTCACCATAGACATAAGATGAGGTGAATTTCATTTATCGCCTGGGCATTCACGACCTGAGA
GGCTTAGCTCTGGGTCAAGTTGAGCCCTCTCTGTCCCTGGCCAACAGGAGAAAGGCAAAGGCTGAATGAGTCTCGGGGACTGTCTCTGCTTTGCAAGTGG
GCCCTGAGGTGAACAGGGACCTTTCCAAATTAATGCATCCACAGCGGTTTGGCAAAGTCRGGCTTTAAACCAGGGTCACTCTCCAGGGGTTGCCTATGTG
ATGGGTGGTCTGATGGACAGAAACACAGAGGGTGGGCAAGACACAATTTTGGGTGGGGCAGCAGCTTGATGATCTGACCATCTGACCATGGGAAAGTATA
TCACATGCCAAAGGTTGAGGGGTCTCTAGGTTTAATTCCTAGGAGGACATAATGAAGAAGGCTGCCTGGGCTCCAACAAAGCAGGCTGGAGGCAGGGCCA
CACAGACCGTGGGAGAGGGGATTGTGAGCAGAAGGGAAGGCTGAAAGTGAACCCTAGACACTCTGTGAGGACAGCAAGGACTAGAAGGTGGGATTCCTTT
GACACCTGGGTTTCTGGTTCACCCCTGACACAGGAATCCTGGCAAATGGCGTCGTGCCAAGCCCCACCCTCAGTGCTCTGGACCTGCCGCAGGGATACCC
TTGCCCACAGCTGGAAGACTCTTGCCCCCGCTGTGGGCCTTCCCACTGTGTTCCCACTGATACTTTGCCTTCCTTGGCTCTGAACCCCTAAAATCTCTGC
TGGGGTCTGGGTCTAACTAATGATGAAGTAACGGAAAGTGAACAATCATAAACTAGATGACAGAGAGGCAGAATGTGAACAATAGCGGCTGATCTCTCCC
TGAGAGAGAGGTGGGATCTGAGTCCTGAGAGATCACGGAGGGGTCAATCCTGAGCTGATCTGACCCAGGGTTCTGCACTCTTTTGTCTCCTTCCTAAAGG
CAGAAGATCCACCTAGAGGTGATACCACGGCGGCGCAGAGTTGTTCACCTGTGGTCCTCGATCGCTGACAGCCTTGGCTCCCACTGCTGTGTGTTCCCTG
AGTCAAGTGGAGGCGGAGCCTGCAATGAGCGGAGATCGCGCCTCTGCATTCCAGTCTTGGCAACAGAGCAAGACTCCGTCTCAAAAAAAAAAAATTTTTT
TTCAGTACATATTTTTTAAAAGATAGGGCTGGGCACAGCAGCTCACATCTATAATCCCAACACTTTGGGAGGCCTAGGCAGGAGGATCACTTGAGCCCAG
GAATCTGAAGCTGCAGTGAGCCTTTGCTCGTGAGATTGTGGACCTATGATCCTACCACCAGCCCACCTGGTTCTAACACCCCCTCCTCTATGTGTGAGAG
GGAGAGAAGAAAAGTGAGGGAGAAAAGAGAGATAAGCAAAGAACAGAGAGGAAAAATGGAAAATAAGAGGAAATTGGGGGAATTAAACAGAGGGGAGGGC
ATGGATCCCCGGGAGTTAGAAGAGTAGCAGCTTGTGGATTACTACGCAGTGGAGGAAGAAGAGTTGTTGGAAATTATTTGAGAGGTAGTATAATCATTTG
TGAGGCAGTTTTCTGCATTCACCATTTCTCACAGACTAAGTTACTCATAAGCAAACGTGCAATTCACATTACACTGAAATTCTTCCCTAATACATCATTT
GCATTGGAATAAAGTACGGTTTTCAAACAACCTGATATAGCAGAACTGACTGTATAAATTATGTGAGCACAGTGCAAGTAATTCTTTGTTTGTTTGTTTG
TTTKTTTGAGACAGAGTCTCACTCTATCTCCCAGGCTGGAGTGTAGTGGTGCGATCCCGGCTCACTGCAACCTCGATCTCCCAGGCTCAAGCGATTCCCC
TGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGAGCCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCCTGTTGGCCAG
GCTGGTCTCGAACTACGGACCTCAGGTGATCTGCCCCCCTCAGCCTCTCAAAGTGCTGGGATTATAGCATGAGCCACTGAGCCCAGACACAAGTAGTTCT
TTCTGATAAACACTTTAACACTGAATGCAAAAAAAAAAAAAAAATTGTGTGTGTACTTTTTTTAATTTTACTTTAAAATAGACACACCAAACATGTTTCT
AAATAAATGTAATATGGAAATCTTTCTTTTTCTCCTCCATTCTCAGTGATGATATGGTTGTAAATTCTTATCATCTGATAATTTTTATCAGATCTTTACA
AATTATAAACTTATTTGCAACTCTGTTTTCAGACTATCCCTTCTATTATGATCATGAAACTGAATTAAATAGGTAGCTATTTTTTTGACTTTTACTCCTT
TATTTTTATTTTCATAGTTTTACAAGAATATAATATATGTAATCTGTCTTCCATTTTAAACCTAAAGTCTTCCTAATCTCTTCTTCATAGTTTCAACAAA
CATAAAGGTAACAATTCAAAGCACCTGTCGCTTCGACAAGAAGATATTTTACATATTTAAAAAAACAGATAACAATTTTAAAATACTTGCTATAAGAATA
AAATTGTATTTAATAAGTAGAACTAAAATTTTGACTGATGTTGCAATAGATTTGGTGGGGGCTTTTTTTGTGGGTCTTTTTTTTTTTGAGTCAGGGTCTT
GCTCTGTTGTCCAGGCTGGAGTACAGAGGTGTGAACGCAGCCCACTACAGCCTTGAACTCCTAAGCTGAAACGATCCTCCTGCTTCAGCCTCCCATACTG
CTGGGACCACAGGCATGAGCCATCCCACCCAGCTAATTTTCAGATTTTTTTTATAGATATGGGCGTTTCACTATGTTGCCTAGGCTGGTCTCAAACACCT
GGGCTCAGGTGATCCCCTGCCTCAGCCTCCCAAATCGCTAGGATTACAGGCATAAGCCTCTGTGCCTGGCCTCTTTATTATCATTATTATTTTATATTTT
CAAACTAGGAAAAAAGCTATGCAGTAACAGAAAATTCTAGTTATATTTAAAACAGGATTGTAAGAGAAACATGTTAATGTAATTTTGGTTTTCTCTTTTT
TATAATTTTAACATTTTAGATTCAGGGAGTACATGTGCAGTTTTGTTACATGGATATATTGTGTGACACTGAGGTTTGAGATATGAATGATCTCATGTAG
TGAGCAGCAGCACAGTACTCAATGGCAGTTTTTAGTCCTCGCCCCTCCATCTCTCCCCTCCTCATAGTCCCCAGTGTCTACTCTTCCCATCTTTATGTCC
ATGTGTACCCAAAGCTTAGCTCCCACTTAAGAATGAGAACATGCAGTATTTGGTTTTCTGTTCCTATATTAATTCACTTAGGATAATGGCCTCCAGTTGC
ATCCATGTTGATCCAAAGGACACAATTTTGTTCTTTTTTATGGCTGCATGGTATTCCATGGTGTATATGTGCCACATTTCCCTTATCCAATCCACAATTG
ATGGGCACCTAGGTTGATTCTACGTCTGCTGTTGTGAATAGTGCTGCAATGAACATGTGAGCATGTGTGTCTTTTCGCTAGAATGATTTCTTTTCCTTTG
GGTATATGCCCAGTAGTGAAATTGCTGGTCAAATGGCAGTTCTGTTTTAAGTTCTTTGAGAAACCTCTGAACTGCTTTCTGCAGTGGCTAAACTATTTCA
CATTTTCACCAGCAGTGTAAAGTGTTCCCTTTTCTCTATAGCCTCATCACCCATATGCTATTTTTTTACTTTTTCCCCCCAAAGTCTCAAGTTTTATTTA
AATAGCCTCCAGTGAGAACAGAGTGGGCCAGTGACTACCCCTTCCTTGTAAAGTCTATTAACCAAACCAAGGAGAGTAAGCACACCCTGCAGCCAGCCTG
CCAGCCAGTCATGTGATAGGCGGGGTGCCTCTCAATGGGGGCGGCCACGACCACGGCCCCAGCTAGCTGCTGGGGGAGCATCCACAGTCAATCGGATTCT
TGATGGTTTCATCCACAGACACAATCAGGCACACAGCCTAAGAGGCCACTGCCAGGGCATTGATCCATACCAAAGCTGGCTCCCACACGAAGGCCTCAAA
GTTGTCAGCAATGTCCTCGTTGTTGATGTCCACCTCATATCACGTGCCCCTGGGAATGCCATGCCTGCAGCTTGTTGAGAATCTCTGTGGCCCCAAAGCC
AGCATTATTGTACAGCTGGAATGAGACAATCTCCAAGGCCTTGGCATATGCCCCAATCAACAGCTGTTGTTTTCCTGGAATAGTCTTTGAGGAATCCTGG
AGGTACTTGGAGAACTCCCTCTCAATGGCCCTGCCACCAGCCACCACTGACTCATTCCCGATGGCCCTCCTGATGATCATGATGGCATCACACAGGGACC
GCTCTGTCTCCTCAATAAACTGCTCACTACCACCATGGAGGATGAAGGTGCCTGTCTTGGCTTTGAGGCAGCCAGTAAAAAAGTTGTACCTCTCACCTTT
AATCAGGGTCTCTTCAAACACCTGGCGTCGACCCAGCACATCTGCTAAGAAAGCATTCGTACTGGTCTGGATTGAGCCTCCACAGGCCATCATTGTCCTC
TTCAGAKTCTCCTCAGGTACTTGGCCAGCACAGAACATGTTCCTGTCAGCAAAGTACTGGGCGGCCACATCTCCAGTGGGGAGTTCAGACAAGACAACTT
TGGCTCCAAAATGATAGATCCTCTCTAACTTGTCATAGAGAATGTTCCACTCGGCATCAACAATCGCCTGATAATCCTCAACCGTGTGGACTTTTATCTA
AGCATTATCTTTCTCAGCTTTCAACTCGAGCTCAACATTCAAAAGGGCAATCTAGGGATTTTGGTATTTTTGGGAGGGTTGCATTTTAAACCCAGCATAA
GAGAAAGTCTTCTTAAATGCAACACCAGCTGGGCTCCATCCTGTACCTTCTTGATTCCAATCATTTTAAGCTGCAGCAAATCATCACACGTCATCACTGC
ATCCACCACCATCTTAGCAAAGAAAGCTTTCTGCTGTGAGATCAGTTGGAGCTCAGAGTGGTCCTGGCACACTACTCCAGCAGCTTCCTCTACTCCACTT
TATCTGCCTTCTTCACAGTCACAGCAATCTCTTTGATCGTGTTAACTACCAACTGGGTGGCTGTGCAGACAGCTCGAATGTTGAGCTGAGGGTGTAAACC
ATCCTTCACCTGCAGTTTCACCTGCTTCAGAAACTCTGCAGCCAGCAAGGTCACTGAGATGGTGCCATCACCGACCTCAGTGTCTTGGGATTTGGCAATG
TCTACTAACGTCTTTGCTGCAAGATGGACAACATGAAGAAGTTTCAGAATTGTGGCCACATCGTTAGATATTGTTGCTTTGCCTCCGCCATCCACAATAA
GCTTGTCCATGCCACAGGCACCCAGGGTGGCTCTTACAGCCTTGGCAATCACCTGGCAGGTACTGAGGTTATTCACAAGCTGGGGGATGCCTTGGGAGCT
ATCAGTCCCCTCTTTCAACAGGATAACTAGTGTGGGCATCATTTTGGAAGCTTATTCAGTGGCCCGCGACTCTCCTCTCTTCTCCGTGACGGGTCCGCCC
AGCAATCCACCTAATTTTTGACTTTTTAATAATCACCATTCAGGCTGGTGTGAGATGGTATCTCACTGTAGTTTTGTTTTGCATTTCTCTGATGATTAGT
GATGCTGAGAATTTTTTCATGTTTGTTGGACACTTAGTATGTCTTCTTTTGAGAAGTGTCTGTTCCTGTTCTTTGCCCACTTTTTCATGGGGTTATTTGG
TTTTTGCTTGTTGAATTGTTTAAGTTTCTTACAGATTCTGGATATTAGACCTTTGTTGGCTGCATAGTTTGCAAATATTTTCTCCCATTCTGTAGGCTGC
CTGTTTACTCTGTTGATAGTTTTTTTTTTTTTTTTTTTTTTTCCCCTGCAGAAGCTCTTTAGTTTAATTAGGTCTCACTTTTCAACTTTTGGTTTTGTCG
CAATTGCTTTTGAGGACTTGTTATAAATTGTTTCCCAAGGCCAATGTCCAGAATGGTATTTCTGAAAATTTCTTTTAGGATTCTTATAGTTTGAGGTCAT
ATATTTAAATCTTCAATCTGGCTGGGTGTGGTGACCCTCAACTGCAATCCCAGTACTTTAGGAGGCTGAGGCAGGTGGATCCCCTGAGGTCAGGTGTTCG
AGACCAGCCTGGGCAACATGGTGAAACCCAGTCTCTACTAAAAATACAAAAATTAGTTGGGTGTGGTGGCAGGTAACTGTAATCCCAGCTACTCGAGAGA
CTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTGACAAGAGCGAGACTCCTTC
TCAAAAAATAAAAAATAAATAAATATTCAATCCATCTTGAGTTGATTTTTGTATATAGTGAAAGTTAAGGGTCCAGTTTCATTTTTCTGCATATAAATAG
CCAGCTATCCCAGCACCATTTATTGAATAGGGAATACCTTTTCCCATTGCTTATTTGTGTCAGTTTTGTCAAAGATCAGATGGCTGCAGATGTGCAGCTT
TATTTCTGGGTTTTCTGTTCCAGCCATTATCCTAAGTGAATTATGCAGGAACAGAAAACCAAATACTTCATGTTCTCACTATGTACTAGTACCATGTTGT
TTTGGTTACTGTAGCCTTATAGGATAGCTTGAAGTCAGGTGATGTGATTGAAGTCAGGTGATGTGATGCCTCTCCCTTTTTTTTTTTTTTTTTTTTTTTT
GGCTTAGGATTGCTTTGGCTAATGGGGCTGTTTTTCAGTTCCATATGAATTTTAGAATAGTTTTTTCTAATTGTGTGAAAAATAACATTGGAAGTTTGAT
AGGAATAGCATTGAATCTGTAGATTGCTTCGGGCAGTATGGCCATTTTAATGGTACTGATTCTTCCAACCTGTGAGCATGGAACGTTCTTCCATTTGCTT
GTGTCATCTATGATTTCTTTCAGCAGGATTTTGTAGTTATCCCTGTAGAGATCTTTCATCTCCTTGGTTAGATATACTTCTAGGGGTGTGTGTGTGCGTG
TGTCTGTGTGTGTGTGTTGTAAATGGGACTGCATTCTTGATTTGGCTCTCAGCTTGGACATTATTGGTGTATGGAATAACTAATTTGTATACATTGATTT
TGTATCCTGAAACTTTACTGAAATCATTTACCAGTTCTAGGAGCCTCGTGGCAGAGTCTTTAAGGTTTTCTAGTTACTATCATGTCGACAGTGAAGAGTG
ACAGCTTGACTTCTTTTCCTATTTGGATGTCTTTTCTTTGTTTCTCTTGCCTGACTGCTGTGGCTGGGACTGCCAGTACTATGTTGAATAGAAGTGGTGA
GAGTGGGCATCCTTGTCTTGTTGCTGTTCTTAAGGGGAATGTTTCCAGCTTTTGCCCATTCAGTATGATGTTGGCTGTGGGTTTGTCACAGACAGCTCTT
ATTATTTTGAGGTATGTTCCTTCAGTGACTAGTTTGTTGAGAGTTTTTGCCATGAAGGTATGTTGGATTTTATTGAAAGCTTTTTCTGCATCTACTGAGA
TGATCATATGGTTTTTGCTTTCAATTCTGCTGATGTGGTGAATCATATTTATTACTTTGCATATGTTAAACCACCTTGCATCCCAGGAATAAAGAAAATA
GGCAGCTATTGTCAGGCAGTGGACAACAGACAGTGCAAGACTGCTATCCTTGAGAGAGGGGACATTCCCATGGTGAGCCCTACAACTGTCTGCCGGGGAC
AGTTCCCCATGGTGCTATGAGCTGAAGTCCAAACACAGCACAGGGGCCTCACTAGCATAGAAGGCAGAGATCAGAGATTGGGGCAGCTAAAGTGACTGGA
ATTTGCAGGACAGGTCACCAAAGAGGGGATTGCCAAGTGGAGAGGAGGGGCAGAAGTCTGTGGGGGGAGTCCTTGGCCGAGTAGTGCTTGCTCAGAGTGA
GACCTCCTGAAGTTTGCCAGAGAACCACTGCTATGGGGTTGAAACAGAGATAGTAGAGGCAGAGACATGTTGCAGGACATTGGGGGCCAGCCCAGCCAGA
GAGGAGAGATGTTGTTAATACTTTATTAAC


SNP Information

Context             (SEQ ID NO:34862):
CAGCCCAAAATCTCCTTAAGCTGACAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCCTATGCAACAATAACAG
A
CAAACAGACAGCCAAATCATGAGTGAAGTCCCATTCACAATTGCTACAAAGAGAATAAAATACCTAGGAATACAACTTACAAGGGATGTAAAGGACCTCT
Celera SNP ID:            hCV27394289
SNP Position Genomic:     10598
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34863):
GTTCTGAAACTATTCCAAACAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATGAGGCCAGCATCATCCTGATACCAAAACCTGGCAGAGACACAA
Y
AAAAAAATAAAATTTCAGGCCAATATCCCTAATGAACATTGATGCAAAAATCCTGGCAAACCGAACCCAGCATTACATCAAAAAGCTTATCCACCACGAT
Celera SNP ID:            hCV29018196
SNP Position Genomic:     9943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34864):
GTTCTCCTGCCCTAACTCCTTCTTTCCGACTTCTCTTGTCCCATTCTCCCTCAGATCCTCCCTTCCGCTTATGCCAAGGCTTCCACAGCCTCGCTCTGCC
K
GGCCTTGGCATTCCTAGCCTGAGTGTTGAAACCATTGGCCGGGACCTCAAGGCAGCTGGGGCAGGGAGAGGACGGTTAGAAGCCCAGGGCACACTGCCAC
Celera SNP ID:            hCV27512496
SNP Position Genomic:     6485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34865):
CACATGGGACCCAATGGGCAGGAAAGGGCAAGTCTGGGCAGAAAGAATACAGACCCCTAAATGTGCAGAGAAACACTTGACCTATTGGAGGATGATGGAC
Y
TCTCAAAGAGTGGAGGATGATGGCTTTGTGTTTGGATTGCAGATCCTTCCACTCTGCAAGTCGAGATGTTTTGTCAACGTGAAGCAGAACGGTGCACTGG
Celera SNP ID:            hCV29018197
SNP Position Genomic:     14436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34866):
AAGGTCAAAAGCCTTCCCTGTGTGGGTGTCAGTGTGTGTGTGCGATAGAAAATTTGATTGACTTCTCCGTGGGCTTCCTGTCTGGAGAGTCAGTGATGGC
Y
ATAAGGATTTCCCACCATCCTCCCTTTCCCATCCCACCTCCCACTGTTTCTTCCTCAGTGTAGAAACCCCTTCCCATTAACCAATGATCCAGTCACAATG
Celera SNP ID:            hCV3082500
SNP Position Genomic:     14894
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34867):
CCCCCACACTACACAGCAGGGCTGGCAGCACAATGTGCAGTGAGAGGAGGGATGAAGCAATCATCTCCTCTCGAGGAGGGGCAAGGTCAAAGATCTGGAA
Y
GCCTGCCTGGGGTGTTGTCTCCTTGCCATCCGGCCCAGGTTTCATCCAGCTCTTTGACGGAAAGTTTGTTTGCTGTCTGCGTTTACCGTGATTTAGCTCA
Celera SNP ID:            hCV29018198
SNP Position Genomic:     15808
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34868):
TCTGATGTAAGAAATGATTCTACCCTTTTCATTGCTTAAACGAATACCATGACTCAGATATGTGTCTGTTTTGCAGGGGCCCTGACATGAAAAGTGAGTT
Y
GCCAAGATCGGTGTCACAACAGGCTTGGCAAGATATGGCTTGAGTCAGATAAGGGCCACTGGTCCAGAAGGGGCTCGTGTGGTGGGTGGTGTGATGGCAG
Celera SNP ID:            hCV29018199
SNP Position Genomic:     16589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34869):
GGTCTCTTCAAACACCTGGCGTCGACCCAGCACATCTGCTAAGAAAGCATTCGTACTGGTCTGGATTGAGCCTCCACAGGCCATCATTGTCCTCTTCAGA
K
TCTCCTCAGGTACTTGGCCAGCACAGAACATGTTCCTGTCAGCAAAGTACTGGGCGGCCACATCTCCAGTGGGGAGTTCAGACAAGACAACTTTGGCTCC
Celera SNP ID:            hCV3082501
SNP Position Genomic:     23207
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS


Context             (SEQ ID NO:34870):
TCAAAACCACAATGAGATACCATCTCACGCCAGTTAGAATGACGTTCATTAAAAAGTCAGGAAATAACAGATGTTGGAGAGGTTGTGGAAAAATAGAAAC
R
CTTTTACACTGTTGGTGGGAGTGTAGATTAGTTCAAACATTGTGGAAGACAGTGTGGCAATTCCTTACGGATCTAGAACGAGAAATACCATTTGACTCAG
Celera SNP ID:            hCV7825632
SNP Position Genomic:     11766
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34871):
AGTGACAACAACATGGTCAAACCTCTGGGCCTCCTGGGGAAGAAGGTAAATGCCACCAGCACTTGGGGAGAATTGACCCAAACGCTGGGAGAAGTGGGGC
R
AGACCTCAGGATGCTCCTTTGTGACATCAAACCCCAGATAAAGACCAGTGGTAAGTGTGGAATGGGGTGGGCAAACAGAGGCAGGCAGTAAGAGAGGGGA
Celera SNP ID:            hCV25933504
SNP Position Genomic:     14167
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,35)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:34872):
AATTTTCAGAATTCAAAACTTAGAGCCCTAAGACTTTTCCCAATGATAGACTTGGCTTTCCTTGAGGTCTTGGCCCCAGTAGGACTGCTGGAGTCTATTA
Y
AAAACTCATCTGGAAGGACCTCTGCCGTTGCTGAGGCTTGAGGAAATGGTTTTAAGGTCACAGTGTAAACAAAACTGCTGGGAAGTTGGAACTGGGCGGA
Celera SNP ID:            hCV1803630
SNP Position Genomic:     8553
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34873):
CATCATCACTGGTCGTTAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACGCCAGTTAGAATGACGTTCATTAAAAAGTCAGGAAATAACAG
W
TGTTGGAGAGGTTGTGGAAAAATAGAAACACTTTTACACTGTTGGTGGGAGTGTAGATTAGTTCAAACATTGTGGAAGACAGTGTGGCAATTCCTTACGG
Celera SNP ID:            hCV7825634
SNP Position Genomic:     11736
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34874):
CAAGCGCCGGTGGAGGTCAGTGCCCACAGCTGAGCTGAACAGAAGTGGGAGGCAGAGTGGGCCTGGGGAAAGGTGTATTACAATTCAAGGGGAAAAAAAT
R
TATCTGCCACCCTTTGGGGAGGGCCTCCCCACTGTGTCGCATGGATTTCTCTGTCACGGGGAAGAGCAGCACCCAGGGAAAAAGAGCTTTGTGTGCCCAT
Celera SNP ID:            hCV27394300
SNP Position Genomic:     17129
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34875):
CTGTGCGCCTTCTTTTGTTTCTGCTGTTGCTACTAATAGCCTTGGAGATCATGGTTGGTGAGTGTCCTGAGCACAAGAACTGGCTGAGGACAAGGAGGAG
R
GAGAAAGGTAGGGGGTAGGCGAATGGGGCTTCATGCAGGCTTCAGACAAGTGGGTGCCTGCTCTTAAGGATGACGTGAGGAAGAGGATCCCTGGGATGTT
Celera SNP ID:            hCV25935884
SNP Position Genomic:     13329
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:34876):
CTGGGAAGTTGGAACTGGGCGGAGCCCACTGCAGCTCAGCAAGGCTGCTATGGCCAGACTGCCAGATTTCTCCTCTCTGGTCAGGGCATGTTGGTAAACA
R
GGCAGCAGCCCCAATCAGGGGCTTATAGCAGACTTAAATGTCCCCGCCTGATGGCTCTGAAGAGGGCAGCAGACCTCCCAGCACAGCATTCGAGCTCTGC
Celera SNP ID:            hCV1803631
SNP Position Genomic:     8731
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34877):
TCCTAATCTCTTCTTCATAGTTTCAACAAACATAAAGGTAACAATTCAAAGCACCTGTCGCTTCGACAAGAAGATATTTTACATATTTAAAAAAACAGAT
A
ACAATTTTAAAATACTTGCTATAAGAATAAAATTGTATTTAATAAGTAGAACTAAAATTTTGACTGATGTTGCAATAGATTTGGTGGGGGCTTTTTTTGT
Celera SNP ID:            hCV27394302
SNP Position Genomic:     21171
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34878):
ACATGTAGTAGACACTCTGTGTTTATTGAGTGACTCAATATGTTTTATTACAATTACACACACACACACACACACAAAACCCATCTGTCATGGTAGACCA
S
TTGCTGCCTGTTTGCAGCTAGTTTAATTAATACTGGGGTGTGCTTGGTGAGAGAAAATCTCAACCATTTAAGAGGAAAGAGTTTGAACGGGTTAGGGACA
Celera SNP ID:            hCV1803633
SNP Position Genomic:     12642
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34879):
GTCTGGGCAGGAGCAGGCAGGGATCAAGCGCCGGTGGAGGTCAGTGCCCACAGCTGAGCTGAACAGAAGTGGGAGGCAGAGTGGGCCTGGGGAAAGGTGT
R
TTACAATTCAAGGGGAAAAAAATATATCTGCCACCCTTTGGGGAGGGCCTCCCCACTGTGTCGCATGGATTTCTCTGTCACGGGGAAGAGCAGCACCCAG
Celera SNP ID:            hCV1803634
SNP Position Genomic:     17105
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34880):
CCTAATCTCTTCTTCATAGTTTCAACAAACATAAAGGTAACAATTCAAAGCACCTGTCGCTTCGACAAGAAGATATTTTACATATTTAAAAAAACAGATA
A
CAATTTTAAAATACTTGCTATAAGAATAAAATTGTATTTAATAAGTAGAACTAAAATTTTGACTGATGTTGCAATAGATTTGGTGGGGGCTTTTTTTGTG
Celera SNP ID:            hCV27394303
SNP Position Genomic:     21172
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34881):
CTAATCTCTTCTTCATAGTTTCAACAAACATAAAGGTAACAATTCAAAGCACCTGTCGCTTCGACAAGAAGATATTTTACATATTTAAAAAAACAGATAA
C
AATTTTAAAATACTTGCTATAAGAATAAAATTGTATTTAATAAGTAGAACTAAAATTTTGACTGATGTTGCAATAGATTTGGTGGGGGCTTTTTTTGTGG
Celera SNP ID:            hCV27394304
SNP Position Genomic:     21173
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,2)   total(C,2|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34882):
CAAGGATGCCCTCTCTCACCACTCCTATTCAACATAGTATTGGAACTTCTGGCCAGGGCAATCAGGCAAGAGAAAGCAATAAAGTACATTCAAACAAGAG
R
AGAGGAAGTCAAATTGTCTCTGTTTGCAGATGACATGATTGTATATTTAGAAAACTCCATCATCTCAGCCCAAAATCTCCTTAAGCTGACAAGCAACTTC
Celera SNP ID:            hCV11415807
SNP Position Genomic:     10432
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34883):
AGGGGAAAAAAATATATCTGCCACCCTTTGGGGAGGGCCTCCCCACTGTGTCGCATGGATTTCTCTGTCACGGGGAAGAGCAGCACCCAGGGAAAAAGAG
Y
TTTGTGTGCCCATGACACATTCCTATTTTGTTGTCTCTGGCATTTCTGGGCATTGTTTCTGCTGAAGTGACAGAAGAGAGAAAAAGCTGATCAAAGCTAA
Celera SNP ID:            hCV1803636
SNP Position Genomic:     17216
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34884):
CTCTGTCACGGGGAAGAGCAGCACCCAGGGAAAAAGAGCTTTGTGTGCCCATGACACATTCCTATTTTGTTGTCTCTGGCATTTCTGGGCATTGTTTCTG
M
TGAAGTGACAGAAGAGAGAAAAAGCTGATCAAAGCTAAATGACAGAGCAAAGGGGTTGACAGGGAGTGTCTTTTCAAATACACAGGGACATTCACCAAGA
Celera SNP ID:            hCV1803637
SNP Position Genomic:     17278
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34885):
ATTTTTCAATAAATGATTATATTCTGAATACTTGGAAAACACTCTCTTCACAAAATTGTTCTTTAATTGGGTCTCTACAGGCCTGACCTCAGTTGTTCCA
R
GGTAAAGAATTTGGGCAGTGCCCACACCCACGCTGTTGGATAACATTTCTTCACCATACCAGTGAGGGTGAATGTGTACACGCCCAGCTTCCTGCCTGTT
Celera SNP ID:            hCV3082492
SNP Position Genomic:     13088
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(A,2|G,30)   total(A,6|G,60)
SNP Type:                 UTR 5;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,3|G,29)   total(A,7|G,61)   
SNP Type:                 UTR 5;INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:34886):
CTCTCCACACCCAGAGAGACTGAACTGGTTTCTGCTCCTCAGAGAGTTTGCACAGAGACTCTGAGGAAGCAGTCACCTCAGGCCTCTCCATCCTAGAGAC
R
GCAGAAGGACAAACATCTCCTGCTGGCACAAGGTAGGGGGTGGGGGATGGCTGGTGTTCCAAACACCCGTGCAGAGGGAACGTGTGCATGTTTGGGAGTG
Celera SNP ID:            hCV16209590
SNP Position Genomic:     6049
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:34887):
TTCTTCACCATACCAGTGAGGGTGAATGTGTACACGCCCAGCTTCCTGCCTGTTACTCTCCACAGTATGCGAAGAATATCCCTGACTTCTAGCCCTGTGC
R
CCTTCTTTTGTTTCTGCTGTTGCTACTAATAGCCTTGGAGATCATGGTTGGTGAGTGTCCTGAGCACAAGAACTGGCTGAGGACAAGGAGGAGGGAGAAA
Celera SNP ID:            hCV3082493
SNP Position Genomic:     13235
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,5|G,33)   total(A,13|G,63)   
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,5|G,35)   total(A,13|G,65)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:34888):
GCAGTCACCTCAGGCCTCTCCATCCTAGAGACGGCAGAAGGACAAACATCTCCTGCTGGCACAAGGTAGGGGGTGGGGGATGGCTGGTGTTCCAAACACC
M
GTGCAGAGGGAACGTGTGCATGTTTGGGAGTGAAGGAGGAAAGCAGGGGCTCGAGTGGTGAGAGAACCAGGGGCAGATAATGAAGTAAAAGTGGGGTTGG
Celera SNP ID:            hCV16209591
SNP Position Genomic:     6117
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,13)      total(A,1|C,13) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34889):
GGCTGAGGACAAGGAGGAGGGAGAAAGGTAGGGGGTAGGCGAATGGGGCTTCATGCAGGCTTCAGACAAGTGGGTGCCTGCTCTTAAGGATGACGTGAGG
R
AGAGGATCCCTGGGATGTTACACCCAGTTCATGGGAGACCACAGCCTGAGGCCCTAGGCAAGGCACTGGCTCACAGAGGGCAGTTCTACAATGCTACCCC
Celera SNP ID:            hCV3082494
SNP Position Genomic:     13410
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,2)   caucasian(A,4|G,6)   total(A,8|G,8)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,15)   caucasian(A,19|G,17)   total(A,42|G,32)   
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34890):
AGGATCCCTGGGATGTTACACCCAGTTCATGGGAGACCACAGCCTGAGGCCCTAGGCAAGGCACTGGCTCACAGAGGGCAGTTCTACAATGCTACCCCCC
R
CCTTCTACTCCAGGTCACTTTCCTGAACATCTGGGACCCCACAGGAATTCAGCGTGTGTCCTGTGATAAATGCCTCTTTTTCCTTTCTATTGAATGTCAT
Celera SNP ID:            hCV3082495
SNP Position Genomic:     13513
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34891):
GCCTGAGGCCCTAGGCAAGGCACTGGCTCACAGAGGGCAGTTCTACAATGCTACCCCCCGCCTTCTACTCCAGGTCACTTTCCTGAACATCTGGGACCCC
R
CAGGAATTCAGCGTGTGTCCTGTGATAAATGCCTCTTTTTCCTTTCTATTGAATGTCATGTGTGTTCAGCTAGAGTTTAAGTCTCAGGAGGTCATACACT
Celera SNP ID:            hCV3082496
SNP Position Genomic:     13554
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34892):
ACCTATTGGAGGATGATGGACTTCTCAAAGAGTGGAGGATGATGGCTTTGTGTTTGGATTGCAGATCCTTCCACTCTGCAAGTCGAGATGTTTTGTCAAC
R
TGAAGCAGAACGGTGCACTGGTGCATCCTGGCAGTTCGCCACCAATGGAGAGAAATCCCTCCTCTTTGACGCAATGAACATGACCTGGACAGTAATTAAT
Celera SNP ID:            hCV3082497
SNP Position Genomic:     14515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:34893):
GGAAAAGCAAAAGAGGCAGGGAGGAGAAGGGAAGAGGAAACTGGAGGAAAGGAGAAGGAGCTCACATAACCTCCAACCATCCTGCTCACACCAGAGGGGG
K
TTTTTTTGCAGGGGCAGCAGGGACAGGAGAGGAGAGAGAGTTTATTCAAAGTTAATTTTGTTTTTAAATGTCTTCTTTTATTTTTCAATAAATGATTATA
Celera SNP ID:            hCV27851550
SNP Position Genomic:     12908
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(G,2|T,20)   total(G,2|T,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:34894):
ATGATGGCTTTGTGTTTGGATTGCAGATCCTTCCACTCTGCAAGTCGAGATGTTTTGTCAACGTGAAGCAGAACGGTGCACTGGTGCATCCTGGCAGTTC
R
CCACCAATGGAGAGAAATCCCTCCTCTTTGACGCAATGAACATGACCTGGACAGTAATTAATCATGAAGCCAGTAAGATCAAGGAGACATGGAAGAAAGA
Celera SNP ID:            hCV3082498
SNP Position Genomic:     14553
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS


Context             (SEQ ID NO:34895):
AGCCCAAAATCTCCTTAAGCTGACAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCCTATGCAACAATAACAGA
C
AAACAGACAGCCAAATCATGAGTGAAGTCCCATTCACAATTGCTACAAAGAGAATAAAATACCTAGGAATACAACTTACAAGGGATGTAAAGGACCTCTT
Celera SNP ID:            hCV27394290
SNP Position Genomic:     10599
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34896):
TGGCTTTGTGTTTGGATTGCAGATCCTTCCACTCTGCAAGTCGAGATGTTTTGTCAACGTGAAGCAGAACGGTGCACTGGTGCATCCTGGCAGTTCGCCA
Y
CAATGGAGAGAAATCCCTCCTCTTTGACGCAATGAACATGACCTGGACAGTAATTAATCATGAAGCCAGTAAGATCAAGGAGACATGGAAGAAAGACAGA
Celera SNP ID:            hCV3082499
SNP Position Genomic:     14557
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS


Context             (SEQ ID NO:34897):
GCCCAAAATCTCCTTAAGCTGACAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCCTATGCAACAATAACAGAC
A
AACAGACAGCCAAATCATGAGTGAAGTCCCATTCACAATTGCTACAAAGAGAATAAAATACCTAGGAATACAACTTACAAGGGATGTAAAGGACCTCTTC
Celera SNP ID:            hCV27394291
SNP Position Genomic:     10600
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34898):
CCCAAAATCTCCTTAAGCTGACAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCCTATGCAACAATAACAGACA
A
ACAGACAGCCAAATCATGAGTGAAGTCCCATTCACAATTGCTACAAAGAGAATAAAATACCTAGGAATACAACTTACAAGGGATGTAAAGGACCTCTTCA
Celera SNP ID:            hCV27394292
SNP Position Genomic:     10601
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34899):
TTCTACTGATGGTGAATCCAGTACTGAATTGGATCCAATTCTGGACGAGTTACCCTGTCCTAGAATCACTCACACGTGACAGTTGACAGGTGGCCCCACC
B
GGTTTGCATGGTGGACGGGTGTTCTGCTAGGCCGGCCTCTCCACACCCAGAGAGACTGAACTGGTTTCTGCTCCTCAGAGAGTTTGCACAGAGACTCTGA
Celera SNP ID:            hCV1781226
SNP Position Genomic:     5912
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34900):
AGTGATTATGTGGGGCACCATGTGTTCCTGGGGAAAGCAGGGGCTAAGGAAAGCATATTTTTATGCTTTTTTTTTTTATGTGACAGGGCTTGTGCTTTTT
Y
TTCTTTTTTTTTTTTTTTTTTTAGTGTCACCAGTAAATGCTTCAGATATCCACTGGTCTTCTTCTAGTCTACCAGATAGATGGATCATCCTGGGGGCATT
Celera SNP ID:            hCV16209598
SNP Position Genomic:     15412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34901):
ACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCCTATGCAACAATAACAGACAAACAGACAGCCAAATCATGAGTGAAGT
M
CCATTCACAATTGCTACAAAGAGAATAAAATACCTAGGAATACAACTTACAAGGGATGTAAAGGACCTCTTCAAGGAGATCTACAAACCACTGCTCAAGG
Celera SNP ID:            hCV27394293
SNP Position Genomic:     10628
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34902):
AAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCCTATGCAACAATAACAGACAAACAGACAGCCAAATCATGAGTGAAGTCCCATTCA
M
AATTGCTACAAAGAGAATAAAATACCTAGGAATACAACTTACAAGGGATGTAAAGGACCTCTTCAAGGAGATCTACAAACCACTGCTCAAGGAAATAAGA
Celera SNP ID:            hCV27394294
SNP Position Genomic:     10636
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34903):
CATCACTGGTCGTTAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACGCCAGTTAGAATGACGTTCATTAAAAAGTCAGGAAATAACAGATG
Y
TGGAGAGGTTGTGGAAAAATAGAAACACTTTTACACTGTTGGTGGGAGTGTAGATTAGTTCAAACATTGTGGAAGACAGTGTGGCAATTCCTTACGGATC
Celera SNP ID:            hCV27394296
SNP Position Genomic:     11739
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34904):
GTTGATGGGTGCAGCAAACTACCAGGGCACGTATATACCTATGTAACAAAACTACACGTTCTGCACATGTAACCCAAAACTTAAAGTATAATAAAAAAAA
W
TTTTTTTTTGTAGAGATGGAGTCTTACTATGTTGCCCAGGCTGGTCTTGAACTCCCGGCCTCAAGTGATCCTCCTGCCTCATCCTCCCAAAGTGCTGGGA
Celera SNP ID:            hCV27394297
SNP Position Genomic:     12369
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34905):
CCCAGGGCCTGGTAGAGTGGCTGTCACATGAGCCAGTGATTATGTGGGGCACCATGTGTTCCTGGGGAAAGCAGGGGCTAAGGAAAGCATATTTTTATGC
T
TTTTTTTTTTATGTGACAGGGCTTGTGCTTTTTTTTCTTTTTTTTTTTTTTTTTTTAGTGTCACCAGTAAATGCTTCAGATATCCACTGGTCTTCTTCTA
Celera SNP ID:            hCV27394299
SNP Position Genomic:     15378
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34906):
CTGGTGTGAAGCGCAGGTCTTCTTGAATAAAAATCTTTTCCTTCAGTACAACAGTGACAACAACATGGTCAAACCTCTGGGCCTCCTGGGGAAGAAGGTA
W
ATGCCACCAGCACTTGGGGAGAATTGACCCAAACGCTGGGAGAAGTGGGGCGAGACCTCAGGATGCTCCTTTGTGACATCAAACCCCAGATAAAGACCAG
Celera SNP ID:            hCV25933139
SNP Position Genomic:     14115
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,31|T,5)   total(A,66|T,6)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:34907):
TGAATAAAAATCTTTTCCTTCAGTACAACAGTGACAACAACATGGTCAAACCTCTGGGCCTCCTGGGGAAGAAGGTAAATGCCACCAGCACTTGGGGAGA
R
TTGACCCAAACGCTGGGAGAAGTGGGGCGAGACCTCAGGATGCTCCTTTGTGACATCAAACCCCAGATAAAGACCAGTGGTAAGTGTGGAATGGGGTGGG
Celera SNP ID:            hCV25933172
SNP Position Genomic:     14138
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,3)   caucasian(A,23|G,13)   total(A,54|G,16)
SNP Type:                 SILENT MUTATION;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:34908):
ATTCCTTACGGATCTAGAACGAGAAATACCATTTGACTCAGTGATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACA
Y
GCACACGTATGTTTATTGTGGCACTATTCACAATAGCAAAACTTGTCCATCAATGATAGATTAAGAAAATGTGGCACGTATACACCATGGAACACTATGC
Celera SNP ID:            hCV11415810
SNP Position Genomic:     11926
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34909):
GAAGGGAGGCAAAAGAACAGTTTTAGAAGCTGGGTCTGAACAGTAGGGATTTAAAGGAGGTGGGACCTCCATAGACACCTGGGAGTTCCTGGCCTCTAGC
Y
TCATCCTGGTAACCGAGTCGGCTGCTGAAGGGCTTCCTGTCTGGGCAGGAGCAGGCAGGGATCAAGCGCCGGTGGAGGTCAGTGCCCACAGCTGAGCTGA
Celera SNP ID:            hCV29018200
SNP Position Genomic:     16966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34910):
AAAAGAACAGTTTTAGAAGCTGGGTCTGAACAGTAGGGATTTAAAGGAGGTGGGACCTCCATAGACACCTGGGAGTTCCTGGCCTCTAGCCTCATCCTGG
Y
AACCGAGTCGGCTGCTGAAGGGCTTCCTGTCTGGGCAGGAGCAGGCAGGGATCAAGCGCCGGTGGAGGTCAGTGCCCACAGCTGAGCTGAACAGAAGTGG
Celera SNP ID:            hCV29018201
SNP Position Genomic:     16976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34911):
CTGTGACCCCATCCGGAGACTGGTCTATCTAAAGACCAGGACATTGACCAGCAGCCCAGTGCTCTGCTCCACGGCCTCTGTCAGGCAGGACGGAGCTGGA
K
CCCAGGCAGAGATAAGGACAGGGGAAGATGGCCCTTGTCAGCCAGGGATGTTCTGTCCTGCTGGGCATGCGGCCTCTCTCACAGAGAACCTACGTGATCT
Celera SNP ID:            hCV28011115
SNP Position Genomic:     2878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34912):
TTGGAATAAAGTACGGTTTTCAAACAACCTGATATAGCAGAACTGACTGTATAAATTATGTGAGCACAGTGCAAGTAATTCTTTGTTTGTTTGTTTGTTT
K
TTTGAGACAGAGTCTCACTCTATCTCCCAGGCTGGAGTGTAGTGGTGCGATCCCGGCTCACTGCAACCTCGATCTCCCAGGCTCAAGCGATTCCCCTGCC
Celera SNP ID:            hCV1803640
SNP Position Genomic:     20404
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34913):
GGCTGAATGAGTCTCGGGGACTGTCTCTGCTTTGCAAGTGGGCCCTGAGGTGAACAGGGACCTTTCCAAATTAATGCATCCACAGCGGTTTGGCAAAGTC
R
GGCTTTAAACCAGGGTCACTCTCCAGGGGTTGCCTATGTGATGGGTGGTCTGATGGACAGAAACACAGAGGGTGGGCAAGACACAATTTTGGGTGGGGCA
Celera SNP ID:            hCV29018202
SNP Position Genomic:     18860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34914):
CCAAACGCTGGGAGAAGTGGGGCGAGACCTCAGGATGCTCCTTTGTGACATCAAACCCCAGATAAAGACCAGTGGTAAGTGTGGAATGGGGTGGGCAAAC
R
GAGGCAGGCAGTAAGAGAGGGGAGGGAAGAACACAGATGGGGAGGGGCTTTAGGTATATCTGTGTATTGATCATTGGCCCAACCATAGAGGCACATGGGA
Celera SNP ID:            hCV25933606
SNP Position Genomic:     14244
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,10)   caucasian(A,19|G,15)   total(A,41|G,25)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34915):
TTGGAAAACACTCTCTTCACAAAATTGTTCTTTAATTGGGTCTCTACAGGCCTGACCTCAGTTGTTCCAGGGTAAAGAATTTGGGCAGTGCCCACACCCA
Y
GCTGTTGGATAACATTTCTTCACCATACCAGTGAGGGTGAATGTGTACACGCCCAGCTTCCTGCCTGTTACTCTCCACAGTATGCGAAGAATATCCCTGA
Celera SNP ID:            hCV27847642
SNP Position Genomic:     13119
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 UTR 5;INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)   
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:34916):
TTTTTTTTTTTTAGTGTCACCAGTAAATGCTTCAGATATCCACTGGTCTTCTTCTAGTCTACCAGATAGATGGATCATCCTGGGGGCATTCATCCTGTTA
S
TTTTAATGGGAATTGTTCTCATCTGTGTCTGGTGGCAAAATGGTGAGTGGCAGGCTGGTCTCTGGCCCTTGAGGACGTCTTAGTCTGGTAAGGACTCAAG
Celera SNP ID:            hCV11415814
SNP Position Genomic:     15523
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:34917):
CAGTGCCCACACCCACGCTGTTGGATAACATTTCTTCACCATACCAGTGAGGGTGAATGTGTACACGCCCAGCTTCCTGCCTGTTACTCTCCACAGTATG
Y
GAAGAATATCCCTGACTTCTAGCCCTGTGCGCCTTCTTTTGTTTCTGCTGTTGCTACTAATAGCCTTGGAGATCATGGTTGGTGAGTGTCCTGAGCACAA
Celera SNP ID:            hCV25931972
SNP Position Genomic:     13204
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 NONSENSE MUTATION;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,38)   total(C,74|T,2)   
SNP Type:                 NONSENSE MUTATION;INTRON


Context             (SEQ ID NO:34918):
TGTGCTCCTTCCTGTGAGTCATCAGACTTGTAGAAAATATTGGCCCTGCTAAGGAGCTACTCAGTGGTCATATCACACATATGCACGCACACACACACAA
R
CACCCATGCACACACACACACACACACACAAACACACACATACACTCTGTTCTTGGCCCACCCCCGCTGGTGTCCCCACAGCAGCAGTATTGGCAGGGCG
Celera SNP ID:            hCV27394285
SNP Position Genomic:     7427
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34919):
GGAGAGGAGAGAGAGTTTATTCAAAGTTAATTTTGTTTTTAAATGTCTTCTTTTATTTTTCAATAAATGATTATATTCTGAATACTTGGAAAACACTCTC
K
TCACAAAATTGTTCTTTAATTGGGTCTCTACAGGCCTGACCTCAGTTGTTCCAGGGTAAAGAATTTGGGCAGTGCCCACACCCACGCTGTTGGATAACAT
Celera SNP ID:            hCV27832004
SNP Position Genomic:     13034
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,26)   caucasian(T,22)   total(G,2|T,48)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,36)   caucasian(T,40)   total(G,2|T,76)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34920):
TTGACCCAAACGCTGGGAGAAGTGGGGCGAGACCTCAGGATGCTCCTTTGTGACATCAAACCCCAGATAAAGACCAGTGGTAAGTGTGGAATGGGGTGGG
S
AAACAGAGGCAGGCAGTAAGAGAGGGGAGGGAAGAACACAGATGGGGAGGGGCTTTAGGTATATCTGTGTATTGATCATTGGCCCAACCATAGAGGCACA
Celera SNP ID:            hCV25933597
SNP Position Genomic:     14239
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,12)   caucasian(C,19|G,17)   total(C,39|G,29)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34921):
CGAGTTACCCTGTCCTAGAATCACTCACACGTGACAGTTGACAGGTGGCCCCACCCGGTTTGCATGGTGGACGGGTGTTCTGCTAGGCCGGCCTCTCCAC
R
CCCAGAGAGACTGAACTGGTTTCTGCTCCTCAGAGAGTTTGCACAGAGACTCTGAGGAAGCAGTCACCTCAGGCCTCTCCATCCTAGAGACGGCAGAAGG
Celera SNP ID:            hCV29018194
SNP Position Genomic:     5957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34922):
TCCTATTCAACATAGTATTGGAACTTCTGGCCAGGGCAATCAGGCAAGAGAAAGCAATAAAGTACATTCAAACAAGAGAAGAGGAAGTCAAATTGTCTCT
R
TTTGCAGATGACATGATTGTATATTTAGAAAACTCCATCATCTCAGCCCAAAATCTCCTTAAGCTGACAAGCAACTTCAGCAAAGTCTCAGGATACAAAA
Celera SNP ID:            hCV27394288
SNP Position Genomic:     10454
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34923):
GGATAAGGCAGGGAGGACGGGGTGGCTCTGCGGGTCCTCTGCCTCCACACCAAGCACTCAGGGATCCGTGCCTCCTTCCAGTCTGGAGTCCCAATCGCCC
Y
TCTCTCCAATTTGGGGGACAGGGATTTCTCCTTGTTCTCCTGCCCTAACTCCTTCTTTCCGACTTCTCTTGTCCCATTCTCCCTCAGATCCTCCCTTCCG
Celera SNP ID:            hCV29018195
SNP Position Genomic:     6351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 156
Celera Gene:                 hCG21749 - 145000147690836
Gene Symbol:                 CALM1
Protein Name:                calmodulin 1 (phosphorylase kinase, delta);CALML2;CAMI;DD132;PHKD
Celera Genomic Axis:         GA_x5YUV32W0QP(37659047..37682289)
Chromosome:                  Chr14
OMIM number:                 114180
OMIM Information:            CALMODULIN 1;CALM1


Genomic Sequence (SEQ ID NO:12316):
ATCTCTAAAAATAGTAATAATAATAATAAATTAATTAATTAAATTTAAAAAAAGAATCTCCAGGCCAGGCATGGTGGCTCACTCCTGTAATCCCAGCACT
TTGGGAGTCCAAGGCAAGAAGATTATTTGAGCCCGGGAGTTTGAGATTACAGTCAGCTATGATCATGCCATTGTACTCCAGCCTGGGGGACAGAGCGAGA
CCCTATCTCAGAAAACAAAAAAAGAAAGAAAAAACCCAGCTTGAAGTTAGTGTAAACAACTAAAGCACAAAACTATGATCTTATCCCACTGGACATTTTA
CTATCTGAATTCACTCACAGTACTTGGTCCCTAAGTCTGTGTAACCATTGCTGGCTGCCTTTGACTTAAGGGCTCAGTTGGTTAAAGCCCAAAGCTGAGG
CTCAAGTCATGGGTCCAGTCTCATTAATGGCCAGTTATTTTGCTCTGTTCTTATTCTATATCCCGGACCCCACTTTCTGTGTTGCATATTTATGACGTTG
GTCACGAGGGTGGCTTGACCAGAGAGGGAACAGAGGAAGGCAAATCCATCACCACAGCTACTAGCAAAACAAGCACAAATCCTGTGAATGGAGGATAAGA
TATGTTTTCTCCTATAAAAAGCAAAGTGTTTCAAAATAAAAAAAAAAAACAAGAATGAGGCACTCAAAGCTAGTGAATGGTGCTGTTTGGAAATACTGCA
CTTCAGACTACTGAGTATACTGGTGACCATCACAAGCTGGAACATACAACAGGACAGTTAGTCTGGCTATGAGTCATTTGAAATCATGGGACACTAGCCG
GGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCGGAGGCAGGCGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAA
CCCCATCTCTACTGAAAATACAAAAAAATTAGCCAGGCATGGTGGCGGGTGCCTGTTGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAAC
CCGGCAGGCGGAGCTTGCAGTGAGGCCAAGATCGTGCCACTGTGCTCCAGCCTGGGCTACACAGCAAGACTCCGTCTCCAAAAAAAAAAAAAAAAAATCA
TGGGACACTAAACAGACGCCTTATATGCTAAAATGGATAATATTTTTCTCATGGTAAGTTGTCATGGCCTAACACTTGCTTATTATGTTCTGATGGTAAC
ATATTTTCAAATTTAAATGTAATGTAAGAATGTTCCCTCTGCTCATTACCTATATGAGTCATTCATAAACATTATAACAACAAAAAAGATAATCACAAAA
TTTTAAATGGAAAAATAATGGAGTATTTTATTTATTGATAGAGATAACAAAACTTTTTGTAATAATCCTGAATAGAATTTAATGAAATGTAAATCCAAAC
ACAAACAGCAAGAATCTGTTCTGGCAATTGGAGATGATTAGTGAAGCAGAGAATCCTGAATGGTGGATATTCATCTAAGTACTATTGGACCACGGGGTGG
AGAAGGAGGGAGTCGAGGATGGTGAAGAGGTATTACTGACTCTCAAACCAACCAACCAACCAACCATATGTGTCTCTACCTCTCTCTCACACACACAATT
GGATGTTTGACAGTGAGCAAGCCTCTTGACCTCTCTAGACCTCAGAGGCAAAATGAGAAGTGTCCTCCAGCTAGAAAGCATCACAAATTAAATGTTTTGC
TTTAGGTTTTCTTCCCCAAACACTCCATATTCCTTATGTAAAAATAGAGCCATTACTACATTCCTATGATCGTATTTTAAATTATTGGGTAAGAAGTATC
TCTTTATAAACCAAATTTTCATCTTAATCTTTGCCACTTCTGCCTCCTACCCCAAATTAAAATAAAAATAAATTCTACTAAATTGCAGGAGATAGTTATA
ATGTAATGCTTAAGTGCTTGGGCTCTCAGCTAGATTTTTGGGTTCCACTTAAATTAGGCAAGTCACTGACTCGTTCAGTGCCTCAGTTCCTTTGTAAGAA
TAATGATACCTGTTTCACAGGATGGGTAGGAGGATGAAATAATACATTTAGCACAAGGCCTGGCCATAGTCAATGCTGAGTAATTATTTTTTATTTTTAT
TTTTTGAGACAGAGTCTTGTACTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCTGCTGACTGCAACATCTGCCTCCCAGGTTCAAGCGATTCTCCTG
CCTTAGTCTCCTGAATAGCTGGGATTACAGGTGCCTGCCACCACGCCCAGCTTATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGG
CTGGTCTTGAACTCCTGACCTCATGATCCACATGCCTCAGCCTCCCAAGGTGCTGGGATTACAGGTGTCAGCCACCATGCCGAGCAAGTAATTGTTATTT
TTAAACTATTTCCATTTCTCCATTTGCATTCTCCATTTCTCCATCTTCAATATATGTATATGTGTGTATACATATATATGACAGAGGTTATATATGTATA
TGTTATAATCATATAACCTCAGACACAGGGTTTCACAGCTAGAAGGAATTTCTACATCAAGTACAAAACTCTTGTTACATCTGTGTCCTTTCTGTCAGAT
TCAGAGGGTTAGAGTGATTTGGTTAGTGACGGAAATGATACTTAAACATGAGATTCCTGGCTTGAGGCTGCATCGTTTTTACTTTTCTTCCATTTACTTT
TATCTTATTTAAATAACTTCCTATAGAACAATTTCCTTTAAATATGAAATGTTCCATAGGTTTTTGGTTCTCAGTAAATTATGATATTACAATAATGCGG
TTTATTCTCCTGATTGCTGATCTCTTCATAAATTAGGACGTGTATTCACTTAAAGCAGTCTATTTGATAATGAAAACCCAGTGATTTCTAAATAGGCAGT
CAGAAGAATCTGCTTTATGAAACAGACAAACCCCTAACATTGGGCCTTTAAAATGTTCGGATATCAAGACCACGAATATATTATCTAAATTAGAGCCCCT
GAGCAAGGACTCAAGCTCTATTTTATGCCCCATCCCTGACTCACAGTAAGATCCTGGGCAAGTCACTTGACCTTYTTATATTTCAGAGTGTCAAACTGTG
AAAAGCATGTCCATAAAACTGTGCAAGCATGACCTCATTATAAACCCGATGAACTTGAAAGCAAAGATGTGCTTTGATACATTAAAGAATTACCAAAATA
GAACTCTAGTTTGTAAAATATGAAGAATCAGGAAAATAAATTTTACTATACTAAGTAAAAGGATTCTGAAATGTACAGTTTTTAGCAAGTAAAGTCATAA
AAAGTTTCAAAATGTTATATTTAGGTGAAATAAGGTTAATGACAGAGGAAAAATATTATTTTAGAGAATGCTTGGCTTTCAAAACCATAGATTGTAGCAA
CTTAACCAAAATAATCACAAGGAATGGAAGACTATCAGAAACGAGTAGATCCTTAATAATTAAACACATTTCTAGGCCATTATTTCCCCCTACTTATACA
ATGCATATCATGTTTTAAAATGTATTTCACTGGCTGGGAGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACTTGAA
GTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGAGGCAGGCACCTGTACCTGTAA
TCCCAGCTACTCAGGGGGCTGAGGCAGGAGAATCGCTTGAACCCACAAGGCGAAGGTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCCTGGGCAA
CAGAGTGAGGCTCTGTCTCAAAAAAAAAAGAAAAAATGTATTTCACTAACTACTATATGAAAAGCCCCAGAGAAAGAATACCAATACCCTTAGGAAAGAA
GCAGTTTTAGTATTATTATTATTATTGGATGGAGTCTCGCTCTGTCACCAGGCTGGAATGCGATGGCGCTATCTTGGCTCACTGCAACCTCCGATGCCCT
GGTTCAAGGGATTCTCCTGCCTCAGCCTACTGAAAGTAGCTGAGATTACAGGCACGCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAAG
GTTTCACTATGTTGGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCTGCTTCGGCCTCCCCAAGTGCTGGGATTACAGGTGTGAGCCACCGCGC
CCGGCCAAGATGCAGTTTTAATAAGGAGTTTGGCCATTTAGGCTTGTAACTGACTGGATTATTGCATATTCTTTAAAATTAATTTGTATTAGTCCCTTTT
CTTCTATTTCCTTATCTCCAACTCTCGCATTAGTATGCACGCTTTATTCCTACTCAGGTTTTCCCCTATGAGCCCAGGAGTATTATTATTATTTTTTTGC
AGGGATTAGGATCAGGTTTGTGAAGTGAATAGTGTCTTTCTAATCTGCAGAGGGAAGGCAGCATCCCCTGGCTTGCTGCTGCAGCCTCTCTTTAAATTAA
ACAGCAGGTTCACTCTTTCTGCGGCATTCCAGAAGGAACATCAGTAGGAACAGCTCCACAGATGCTGACGTCTTGTCTAAGGTTATCCCAAGAAGTCCTG
TGGCATTTGCAATGTGCCTGTACATTTTTCCTTTTTTAAAAAACATATTCCTGCAGACTTTGTTGAAACCAGAAACAAACACAAGCAAGCAAAGCCCTTT
CTAGCACAGCATGTTAATCACACACTTTGCCATATTCTGTGAAACAGTAAGCAAATGATAACCTCCAACTGTTGCCCGGGCCCTGTAAAACAGAAGATCA
AATTCTGTGTTCTGCCTTGGCAAGAAAAGAAACTGCAGCATTTTGTCTAGATTTTTACAAGTCCTGGGGTTCACATTACTGGCTGAAATTGTTCTTTCTC
TACTTTACAGAAAAATGGAAAACACTAGTAAACTTAAAGATTTAAATATTATTTTAAAAGGAATATAATAAAAAATGGAAAACACTAGTATATTTAAAGA
TTTAAATAGTCTTTTAAAAGGAATATAATCAAAACTGTAGTTTAAAATACAATCTAGCTCCATAAGAGAGGCAATTGGCTGTGTGTTCCACTTGTAATGC
AGAGGATTTGAAGCATCTATTTTTTCCCTTGTTTCTATGGATTTATGAATAAAGACTCTGACCCTTCTCAGGATCAGGAAAATTACGAAAAATTTAAAGC
CTGGGTTTAAGGTCTGTAGAAGCTGCACAGGTACACTAATTTTAGTAAGACGGGCGCCAGGAAAAAGAACAAAATAGTAGGGGAGAAATATTCAGGCATC
CTAAAAAATATTCAGTGGAAACGTAAAAACATTAAAGACTGATTAAACATCGCAGCATGACACAGATTTAGCAACTGAGCATAAATAATTTGACTCGGAT
ACTGCTCCAAAATCCGAAGAGGACCAATTTCTTCCAGGAGGACAACTACCTCGTCCTCTGCAGACCCCTCTCCTCGGCAGCTGAAGGAGTGTGGCCAATC
TGCCTCCACCTCCCCGCGGACCCCCTACTCTCAGGACCTCCTGCAGCACCCCAAACTGGAAGTGGCCGCTGCAGACCCAAGGACGAGGGGCACGCGGGAG
CCGGCAGCCCTAGTGGAGCGGTTGGAGATGTTGAGGTGGGAGGGTCACCCAGGTGGGGTGAGGCTGGGGTAGGTAGCGGAGTGAACGGCTTCCGAAGCTC
TGGGCCGCCCCCAGGTTGGACTAAGCAGGCGCTCTGTCTTCGCCCCCGCCCAGGGTGGGCGTCTCCTGAGGACTCCCCGCCACACCTGACCCGAGACCGC
GCGCCCAGCCTAGAACGCTTCCCCGACCCAGCGTAGGGCCGCCGCGACTGGCGCGCAGGGGGCGGCGGGAGGCCTGGCGAACCCGGGGGCGGGACCAGGC
GGGCAAGGCCCGGCTGCCGCAGCGCCGCTCTGCGCGAGGCGGCTCCGCCGCGGCGGAGGGATACGGCGCACCATATATATATCGCGGGGCGCAGACTCGC
GCTCCGGCAGTGGTGCTGGGAGTGTCGTGGACGCCGTGCYGTTACTCGTAGTCAGGCGGCGGCGCAGGCGGCGGCGGCGGCATAKCGCACAGCGCGCCTT
AGCAGCAGCAGCAGCAGCAGCRGCATCGGAGGTACCCCCGCCGTCGCAGCCCCCGCGCTGGTGCAGCCACCCTCGYTCCCTCTGCTCTTCCTCCCTTCGC
TCGCACCATGGTAGGTCGGGAGTGGCAAATGCCGGCGTAGCAGCTGCCCGAGATTTCTTCCCAGATTTCTAGTTGTTTTGTTTGTTTTTTGTTTGTTTTT
GGTTCTTGGAGGTTTTTCTTTTCTGAGTGTTACGCAGCAGCTGCGCTTAAAGGAGGTTGCATTTTGGATTTGCATCTCGGCGACCTCTGCCAGGGAGCTT
CATTTATTGGTTCCCCTTGGAGCTGGACTTGGTCGTAGGCCGTCCACGGGCAGGGGCTCCGGCCGCAACTGCAGCGGGGGTTTCTGCATCCAATCCCCCT
GCCCCCCGCCCAGCCCCGCACCCACTGCATCCACTAGCGCCGCACCCGGGCTGCCTGCAGCGCAGCGTTTCGGCCTGGGAGCCGGGCGGGGCCGGGCACT
AGACCCCCCCCCCCGGCCCGCCCCTCCCCACCCCGCTTCTCCGCCGGCGCGAAGGTGGCAGGTCGGGCGGGCAGTGGAGAATGAATGGGCTGGAGCTGGC
CGGTGGCGCACATTGTTCCGGCCGGGTGTTGAGGGGCGCAGTCAGCGCCCGCCACCTCCCCACTTTGGCCGGCCCTGCTGGGCGCCCTCCCTCGGTCGCT
CTCCCCTCCTTCTTCCCGGGGGGCGCGGCGCGGGCGTGGGCTGGGAAGGAAGGAGCCGGGGAAGGGTGGGGTTGGGGGCAGGAAGGCGAGGGGTTGGGGG
CGGAGAGGGCGGAAGCGGCGGCCGGGCCGCCCTGCGCCCGGGCGGGGCCCTGCGGTGTGGCCGTGGCTTGTTCCTGCCGCTTTCGCACCCTGCGGCCCCC
CACCCAGTGCAGCAGTGCGGGCGGGCGTGAGCCTCGGTGCACCAGGAGGCACTTCCCGCGGGAGGCGCTGGGCTCGCGCTAATTGGGGCGGGGGGGGGGG
GCGGCGGGGGAGGAGGGAACTGGCGCGCGGCTTGGTTTCCATTAGAGACGCAAAGTTTCTGCTCCGGGAGGAGGCGGCGRCGCCGCGGGCTCGTCGCCTG
GGGGAGCAGAAGCGGGTGGGAGGTGCGGGTGGCCTTGGCCKCAGCCCTGGTGCGCGGGGGCCGGGGGTGGTGACCCTCCTGGCCGAGGAGGGGCGGCGTC
CAGACGCCCGCTCGGGGGCCGCCTTCCCCCCCACGCCTGCCCCCGGGCACGCGCCCTGCCCGGTCCCTCGCCCCGCGCCACTTCCAGTCCGCAGAGAGAT
GCCCTCCACGTTTCTGCTTTCTCTGCAGCCTCTAGATTGCCAGATGCGACTGTGCGCCTCGCTGGGTGTGTTTTCCACAGMCCCTTCCTCCTCGGCGTGC
AGGGCTGACATCACCGACTGCGTTTCTGGTTTGGCGGGTGGGGAGATGGTTCCCCGCAGGGTTCTGGTACACCTTTGCCCCCAGGGCTAGCGCCATTTGG
GGGAGGAGGTTTTCGTTGTCGAGAAAGTTGGATGCTCCTGGTAACCCCTCTAACAAGAGAGTTCTGTAGCGAGGTGGGACTGTTCTCCCCATAAGGTGAC
AGTTTCTCTTGCGAGGTGTGGCAGCGCTTCCTGTTGTACAAGACAGATGTTGCCTTGGCGTTACGTAAATCATCGTGTCTCCGTCATTTAAAGAAAGCCA
ATTTTTAGTGATTGAGGTAGAAAGAAAGATCCGTTTATAATTTGTAAAAACAAATTTTCACCCAGAATCAATATATTGGAACACCATTCCTACTGTTAAA
GTTTTCACTTAAGAGYATAAACTTCATCAGCTTTCTATTAGGACTTATTTTGTAATTGGCTTCTTAGGCATCCTTCTTTAAAAGAGAAATCCACGTTAGC
TCTCCTTGAGGTCTCGAGTTCCCTCGGCTGGAGGCACAGGTTCAGTGGAGACCAAATAATGCAGGTGAATTACCTTCGTGGCCATTACTGCCTCSAACGA
AGTGTGTTTATTAAGAACAGTTCTTATGTCATTCTTAAGGTAGGTAGGGTTAATACTCTCCAGCAAATTTAGTAGATACTSTTTGCCAGAAAAGAGAGGA
GTATATATAGTTTGATAATTATTGTGTAGTTTTCTGTGTACTTAATTTTTGCAGTTTTGTAACACTTCATTTGTAAGATGGTACCATTTTTTCCTGGCTT
CTGAATCATAGGATAGTTTGACCCAGGGCATTAGCCATTGTAATGGTAGSCTTTTAACAAATAACTGCCTAATTTAAAGGATTGGAAAGCATTTGTTACA
TGGAAATGAAGTTGGTGGCGTACCCAGTTGCTGTATCTTTATTTTTTSTACTTAATTATTTCTCATAAAATGGATATAAAAGCCTGTTAATCCAACCCAA
TGCCATTATGTAACGCCAGTTTGGAGATTTCGAGGGCCTGGAGCAGTGCGCAAGGTGCGCTGAAAGCCTGCCCCTGGATGAGATCCTTATCCTGGCTGTG
ATGGCAGTGGCAGTGGGCTGGGTCCCTTGTTGAGTGGAAAGGGGGACTGCGGTGTCCATGGTGCAGTAGGTGGCGCTCTTCTGTCTTAGAGCCTGCCGCC
ACTGCAGCTGGTGCCAAGGGGCCTTCTGCCACTAGAGGTGCCATTTTTCACATGATGAACTTAGCCTAGTTAGATCGCAGAGCAAGCTGTAAGCCATGGG
CCCAGAAAAGAAAACTTGAAGTGAGCAGATGTTGTCACTTCCTTGTAATCCTTTGTTAAAATAGCATAAGGAGTTTTCTTTATTCTATTTACTTTCATTA
AATGACCGTGCTRCAGGTTTCAAAGGATTTTAAGATTGATTTTTGAAAGATCACAATATTAAAAGTATAACTGGAAAAYCTATGTTGAAATCAACCAAAC
ATGTCGTGGACTGAATGATAACCTTTTCTTTCTTCATATAGGCTGATCAGCTGACCGAAGAACAGATTGCTGGTAAGTTGACAACTCCAAGGAGTCCCCA
RAAGGCCAGAACTAGGCACTGACTCAGTTTTGGTGACTCCTCTGTTCCTCCCCGCTACAGTCTGGGCAGTTTTCTAAGAATTTATTTAAATAAGAACAGT
AAGCAGAAACACTGAGGTCAGATGTTATTCTTGCCAGTACTTTATAGATGAGGTGAAAGGAAGTAAAACTAAGGATGCCCACATGTTAAACTCTGGAGAA
TTTGACCATGTTTCACAATGTGCAAAGTTTGCRTATGATTAATTGTACTGAGCCTGCTACTCAGCGGTTTAGTTTACAATTCTTATGCCATGGGTCTTTC
AGTAATCTGCCACGAAAGCTTGTGCTCGCTATCCTAAAATAAATGGAAATGGGTGAATATGAGTGTTAGGACCACTGTAGTAATTGGGAAGAAAGTTACA
TTAGTTAAACTCTGTTGCCCAGGCTGGTCTCTAACTCCTGGGCTCAAGCAATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGTGCCAC
CACGTCTGGCAGATTTTAGCTTTTTAATATTCCTGGAGGACTTGTTTTGAGACTGTTTCTCGTTAGGAAACCAGGAATGCTTCTGAAATATTCTAAAAGT
CATGTGGAGAGAGTTTACCTGGGAATGTACATTTCTAGTAACCATTTTATTTGTTATGAAACAAGGGATTCTTATGGCTTTAGAAATGTAACAGGAAGGG
ATTTGAAGGGGGCACATGGACCAATCTTGTCAGATTGGATTTAGTCCCTTGAACCTGGGAGGCAGGGGTTGTAGTGAGCTGAGATTGCACCACTGCACTC
CAATCTCGGTGACAGAGCGAGACTCCATTGTTTAAAAAAAAAAAAAGATTGGATTTAGGACTAATTTAAGCATGTTCCAGCTTAGCCGCCTTGAAACCTT
TGGGAATATTGTGGTGTGTGGCACTGTTTATTGGGAGCAGTGTTTGCTTTATGGGCTGCTGTATGAAGGCCAGTCCAACAGGACTATTGTGGTCATTATT
TCAGTAGATAAAGACCAGACTTCTGATACGTTGCACAACTTGAATGGCTGGCTTTGGCAAGCCCCCGGCAAGTGTGTATTGTGACTGGGTTGGATAAAGA
CATTGATTCTAACGGGTCAACTTTTGTTTTCAGAATTCAAGGAAGCCTTCTCCCTATTTGATAAAGATGGCGATGGCACCATCACAACAAAGGAACTTGG
AACTGTCATGAGGTCACTGGGTCAGAACCCAACAGAAGCTGAATTGCAGGATATGATCAATGAAGTGGATGCTGATGGTAAGAGCTTTAAAACCATGAAT
GAGGGCCATTGTTGTGTAATTCAAGTTCAGACATGTTACAGGATTGTCTTTCAGGTCCCCAGAGCAAAGCAAATGTGCAAAGATCCTTTCTGTGGTTGCC
CCAGGGCCATTGACAATTAAAATAGAAGATGATGGGCCTTGCGTCCATCCTGCTTAGTGTCTAGAATGTTTTCTGCATGGGATCACTATTGTTTTCTTCC
TGCTTGGTGCGACCTAGAGCTCAAATCTATTTTTTTTTTTTTTTTTGGAGACGGAGTCTCGCCCTGTCGCCCAGGCTGGAGTGGCACTGGCGCGATCTCG
GCTCACTGCAACCTCTGCCTCTTGGGTTCCAGCGATTCTCCTGCGTCAGCCTTCTGAGTAGCTGGAATTACAGGCGTGTGTCGCCACGCCCAGTTAGTGT
TTTGTATCTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGTGATCCGCCCTCCCCGGCCTCCCAAAGTGCTGGG
ATTACAGGCGTGAACCACTGCTCCTGGCCGAGCTCAAAGCTTTTATCAACTGGCCCATGAGTCTGCACTGAGTCTTGAGGGGGGAGGTGAAATTAAATAG
CCATAGAAAGTGCTTTTTAACAAACTTACTGTGTTTAAAGAGGAGGAGGAACCCCCAGATGAAGTAGGTGACRAGCACTCTTAGAAGTTACCATAAAAGT
GAGTACAGTGTGAGCTGTAGATGTGTTTGCTGCAGAGGAGCATGTGAGGTTTGGAGGCGGATGTGTGGTGACTCCAGGGGATAGATTTGCAGAACCTAAC
GGAAAGGGAAGCTGTAAGGTGCAGGGCCAGAGGGAACCAGCAGTAACCCTGATAGCGGTCTGTCATCTGTTCCTCTCGACTCTACAGCAGCGGACAACAG
AACTTTGATTGCTGATTTCCATCAGTAAGCAGGCTTTGAAGCACACTTCCCCACCCCTAAAAAAAAACCACGTATTTTGGTAAATCCTATATATATTCTA
ATGTACTGTATGACAGTATAGAACATGATTTTTAAAAGATGAGTTGGGAGGAGAAAAGGATAAAAGAAAAAATAAAAGAAGCATTAAGAATAAACAATTC
GGATCTAGATTTTACTTTCTAGATGATTGACTCGAGGGTGGTGTAGTAAAATCGCTTGTCTGGTCACAAACATTTGGCAGCAGAGCTTTTGATTAGGTTC
TTTGACAAAGCCTTCAGCACGTTAGAGTGGTTTTCACTAATAGTGTTTTGGAAAGAAAAGGTTGTCCATAGTTCTCTAGTTTGCTAAGATGATCAGCTAC
CCAGGAACGTGGAGTAACTTCCTCTTGTTTGTGGGAGCCCYGGGAATCTGTGCCTGGGGAGGGGAGAAGTCTGTTAGGCTCTTGGATTGTGTGGAAGAAG
GAGAAGTTGTGCCAGGCTACAGAATCCTGTGTTTGCACTGAGAAAACAGGATGGTACCTGACCTTCTCTGCATGGCTGTGAGATAGCTTAAAATAATTTC
TTTTGTTTTTGATGAATATGAACAATATCTTAAAATTTTTGAGGCTAAAAAAGTCTTGAAGGGATCCCTGAGGTATTTTCTTTGAAAGGTACTGGTGAAA
ATGAGTAACTTAACCTAAGGGTTTTTCTTTCTAATTTTATTTCCATTTAGTTCAATGACACTGTTAGTCTGGAGTGCTTGTCTTTGGGGGTATTCATCTC
TTAGTTTTAAAGAGGAGTTGTTTGGAGTACTGGCCGTAGAACAGATTGTTCTGACAGTTCCCTAAGTGTTACTAGTCTGAGCTGTGAGAATGCTCCTGAG
CTTTTCCCTTAATGGGAAATAAAGATACTGAGTTGGAAGAAAACAGGTGGCTAACCATCATAGCGTGGCCAAGAAATGATCCTGGAGAAGACTTGGTAAG
ACTTCATGGCCCATGCATGGCATAACAGAATCAATGTTCCTCTCTCATAATCTTTTCTCCTCTGAAACACTTTATACACTTAACCTGCAGCTCAGTTCTA
GGCCTTTTTTGTGTTACTGCTGTCACTAACCAAGGCAGAGTGAGACCTGAGTGATTTCCCTAACTCAGGGATGGCAGTCGGGGGCGCTTTCTTCCCTCGG
AGTGGAAAGATTCAGCCTGCGGAGTGGTGTATGCTATTTTTCTYTTGAACTGTACAGCCCTTCATGACCCTTCCATGGGCTTGAATCCAGATGTGCAGTT
TCCTTTGTATAATTAAATACTATCCTGGGCACTGATGATGAGTTTGAAATTATGTGAAATTGCCCTGTGAAGTGTTTGAACGTTTTAGACCTGCAGATGA
TTGAACCTAGTAAGATAGTCTGCCCCTTYGTCCTAGTACATGTTTACCGTTCCGTACAGTGGTTCTGAAATGATTACTGCAGAGCAGCGTTAATGGAGTG
CTTACTTTACATGAGCTTTTTGTTTTTTAATTCGAGGTAATGGCACCATTGACTTCCCCGAATTTTTGACTATGATGGCTAGAAAAATGAAAGATACAGA
TAGTGAAGAAGAAATCCGTGAGGCATTCCGAGTCTTTGACAAGGTAATCCAGCATCTACATAGCAGATGGTACTTAAGTATGGCTTCTTCCGCTTTCACT
TCTAAAAGCTATAATAATGTTATAGACAGAAGACTTAAATCTAACTGCCTGAGCCTCTGATCTCACTTTCAAAAATCCTCCTTATGGTAACCGTATCAGG
GGAGGGTAGGCATAATAAATAGGAATTTTGGACCATGTTTCTTGACTGTTACTTTGAATTGTTGTGAGCTTTTGCAAATCCTGTTTTCTGCATTAGCTGT
TTGCATGTATTTAGTAGGTTAGAGGTGGGAACTAGAGATCAGAGAATTGTTTATGGCAGCAGAGTTAGCAGTAACTTGAGAGGGCATAGCTAAGTCAAAG
ACCTACTTCCCCACACTACATCATTAGCAATAACAATTGCTGAATGTTCACAGGATGGCAATGGTTATATCAGTGCAGCAGAACTACGTCACGTCATGAC
AAACTTAGGAGAAAAACTAACAGATGAAGAAGTAGATGAAATGATCAGAGAAGCAGATATTGATGGAGACGGACAAGTCAACTATGAAGGTAAAACTAAA
TTCTCTGAGCTCAGTGTTTCATAGTCTTACCTTTAGATCTGTAAGCAAGCCAACTGCTTCACTAGACAGCCTTTGACTTTATTTTATGTACAGTAAAGAT
GTTGTGTTCATTAAAGCTGTTTTCAAAGATAACCAAAAGTTACTATTATATTTGTCTTTTCAGAATTCGTACAGATGATGACTGCAAAATGAAGACCTAC
TTTCAACTCCTTTTTCCCCCCTCTAGAAGAATCAAATTGAATCTTTTACTTACCTCTTGCAAAAAAAAGAAAAAAGAAAAAAGTTCATTTATTCATTCTG
TTTCTATATAGCAAAACTGAATGTCAAAAGTACCTTCTGTCCACACACACAAAATCTGCATGTATTGGTTGGTGGTCCTGTCCCCTAAAGATCAAGCTAC
ACATCAGTTTTACAATATAAATACTTGTACTACCTTAATGATAAGGACTCCTTAAAGTTCCATTTGCTAATGATTAATACACTGTTTGGGCTGGCCAGTT
TTTCATGCATGCAGCTTGACGATTGAGCACAGTCAGGCCTTTGTATTAAAAATGAAAAATGAAAAAACAAATTCAAAACCTATTCAAATGGGTTCTAGTT
CAATTTGTYTAGTATAAATTGTCATAGCTGGTTTACTGAAAACAAACACATTTAAAATTGGTTTACCTCAGGATGACGTGCAGAAAAATGGGTGAAGGAT
AAACCGTTGAGACGTGGCCCCACTGGTAGGATGGTCCTCTTGTACTTCGTGTGCTCCGACCCATGGTGACGATGACACACCCTGGTGGCATGCCCGTGTA
TGTTGGTTTAGCGTTGTCTGCATTGTTCTAGAGTGAAACAGGTGTCAGGCTGTCACTGTTCACACAAATTTTTAATAAGAAACATTTACCAAGGGAGCAT
CTTTGGACTCTCTGTTTTTAAAACCTTYTGAACCATGACTTGGAGCCGGCAGAGTAGGCTGTGGCTGTGGACTTCAGCACAACCATCAACATTGCTGTTC
AAAGAAATTACAGTTTACGTCCATTCCAAGTTGTAAATGCTAGTCTTTTTTTTTTTTTTTTCCAATAAAAAGACCATTAACTTAAAGTGGTGTTAAATGC
TTTGTAAAGCTGAGATCTAAATGGGGACAAGGCAGGTGGAGGGGAGGCCAGTGTACATGTAAATGCCCACAGCCCAGCATTGGGTTTCCCTCCCAAGGCC
CCAGCACCAACCTCTGAGCCCAAGACCTTGCCTGAAAACAAGCAGATACCGATTGCTTCATCCTATTTATGGACRTGTAGGTCTAGTTGCATTTTCACTG
GGGGGAGGGGGGAAGGTGAATTATGGTAACTTTTAATGATCTATTCAGGCAGTAGAGCTCTTAAGGAAAAAAAAAACCCACTTTCTCTCAAGCATGTATT
TAGGGGTTGTTCTCAATTGTGCTGCTGATTACCTGTCTTATGTAACTACTTGAGACCATCTGCAAGAGACATGATTTAGTGTGTCTGTAATTCAATCTTC
GCTGTGTGTGGTAGAAGCAGTAGTCACTTTTGTAAGCCAGTCTCTTCATGCCTAAAAGACACTACCAGTCACCTTTGATTCGCGACTTTTAATTTATGAT
TATACTTAGCCTCCTCCTCCTTTTTTTTTTTTTCCCAAGTTGACTTGACTTTGCTTTTTTCCCCCCAAGTAGAACTAATGCTAGCTTCCAGCTTGAAAGT
AAAACTCCAGTGTGGAGTGAATTTTGTGTCTAATTATAAACCTGTAACCAAAACTCAGACATCTGGTACTGGTCTTTGCATTGAGATTGGTCCCTGTAAA
ACCCCCTTTAAAAGCATATTGCATTTAGTACAGAGCTCTTTTTTGAAATGAAGGCTGGAGATGTGCATTTTTCACGGTGTTAACTGGTTRTATCTTATTA
GCAAGGAGATTGGGGTTTTGAGTGTTTGCGTGGGTGGTTTCAATTTGCCAGGGAACAGTGGCAGGCTGCTAGCAAGGCAGTGAGAAGCTCTTGGCAGCCA
AATGGGTGCATTCAGGGCTGATTTATAGAGACCCTTGGCTTCTCCTTCTCCTACTCCCTGTYTTTCTGGCATTTTGTAGCTTGTTAGATTTTCTGCCAGA
GGGGTGGGTCAGAGCAGTGGAGGGGAGACATCGCCCATGTGCTKCTGCTACTGGTCCTTGGGCTGGGTGGTTGGTAGAGGAGATGTTGACACTATGAGCT
AAGGGTTGGCTTTTGTAATTACCTGAATCTGAAAGGAATGCCTAAGGTTACCTTGGGGTTTCTCTTCTGGTGAGATAGGGTTCCTGGTTTGAGTAAGTTA
ATGTCCTGGATATTTCTTGTGGCAGGGGGTGGTCAAAGAGCCTGATTGCTGACCCAGTCTCAGGCCTGTGGTCGATGACCTCTCGGTAGTTTCAAAGGGG
GCTGGAGGGGGATATTTGACTTGTTTTTTCGAAATGTAGCCTTCTAACCCTCAAGTCTTTAGAAGCTGGGTGGACTCTTAGTGGTCCTGCAGCGTATCCT
AAAAGACTACCTTTGAAACAGGATTCTTGTATGGCCAGGATCSTGTCTGGGAACCAGAAACCCTACACCCTCCCCCTCCAGGGAATGCTGAGTTCCAGTT
TTGAGCAGAGGTGAGGCAGAATCCACTGTAGCCTTCCGCCCTGGTATTTGGGGGGATGACCAGCCCAGGCGTTGGGTGTTAGTCTGCATGAGTTTGTGAG
AGGAAATAGCTGGGTGTCCTGGCAGTGCCCTTGAAGTTGGTTAGGACCTTCCTGTAAACTCTTGCCCCTACTTCTAACTACTCTATAAATATATACATAT
ATTTATATATAAAGTGATTAGTTGAACTGGCATCCTGCTTTAGCCTGAGACTTGCCATAAGAAACTGCTGAGTACTTGGCAAACCCTTTCATAGTTTTGT
TCTCCATCTGTTTGGGGTAGGTGTTGAGYGAGGCAAATGGATCTCGATATTTCAGATGGGCTTTTGATGCACTGTTGCCAAGGAAGGCTTTTTCTGATTT
TTTGACAAATGAATTTTTGCACACTTTCATTGGTGTCTTTCGGCAACTTACACACATTGAAAATGAGCTATTGTACATATTTTTATATTCTCTTTATAAA
TGCATGTCTGATTGTACTTGTAACAATATTGTAATGAACGGCTGTGCAGTAGGCCCAGCGCTGCTGTGTCTCGTCAGAGGAATAGCTTACCACGAACCCC
TCAGCATACTGGGAATCTCTTCCTGAACAACGAATGTAAATTTGGTCAAGTCTACTCTTCCGTTCATTCAATTATTTTAAGCATTTGAATTATTTATTGT
ATATCCTAAATATATTTCTCCTTTGGCAGTGACTAGATTTCCACTAATGTGTCTTAATCTATCCCTCCAGCTGGCAGTTACTGTTTTTTTAATCCCCTGA
AGTTGTCCTGTAGGAGACAGAAATTCTTTGCTGTCTGTATCCCTTGGAGTAAGAAGGTAGTGGCATGGGTGGAGTGTGTGTTCTTTCTCCAAATCTATTA
TGATGTTTATTAAACACTTCTGTAGCAAAGATGGTGGTAGTTCTTTTGTTACTGAAGTTGCCCTTCACCATGGCTATTTGAAAAGGAGATGTACTTGGAC
GTTTCTGTAAATCTTGAGATAAACTGTTTGGAGATTTAACCACCTCTCTGATGGRGGACCAACTCTATGGAAATTGTAAATACGTTTTATTTATAAACCT
GGCACTGTATTCAATAAACATTTCTGCAGCCTTTCATCTCTAACTGCGAACTGTGTAGGTTTCTAGCTTGCATAGCTTTCAATTCCTTTTGCTCTCAACA
AGATAGACCTGCCCTCAGATGTAATTTCACTGGGTCTCTAGTACTGTGAGAGTGAGGGGCCAGAAATAACCGTAGACACATCCCACAACCGTCTTACCCT
AGTTTTAAGTAGTTTGAGTGTTAATAGCTGACATTTTAACCTATTCTCTTAGCCTATTAACTTGTCCATGCTTGCTTTTTATGCGGAAAATTTACACCAT
AAGGATTAGTTTCCTTTTAACCCCAATCCAAGCCTCTTTAGGACTTGTATAAAGAAATACATTTTTTTCAATAAGATGGGAATTTTAGATGACAACCAAG
ATGATACCTTGGTTCATGTCAAGAGCGGGACAGCTGAGGAAAGTGGGGTGGGATGCAAGTACAATTTARGACCTTGGCATTGAAGCCTTCCCCTTAGTCA
ACACTGGCCCAGACCCTGGTTCTTAGATGTAGCAGGAGAGGCTGCCTGCTTCTGCCCCCTTTGCTTCCAGAAAGGCCTTTTCCAGCTGCCTCGTGTGTTT
CCCACTCTGCCCAGAAGGAGTGAGAGGGCTGAAAAGCGGGGCGGGATAAGGCCCTGCTTTCGACAGAAGGCTTGAGACACATCTCCAGAAAGCATTTAAA
GAGCCCCTCCTGCACATAGGAGCTGGGACTATAAGGACATGGTCATCACCGTGGAGACGGCCCTCTGCTCTGAGGCTTTAGACCTGGCTTCTGGATTTGG
TTCTGTCCCTCCAGCCTCAGGCAGGTTCTTTACCTTTCCCAGGCCTTGGTATCCTCCTTGGTAAGATCATATTGGACTTGGTACCTTCTGCCTGTGGCTT
TCTAGGATTATGACCGACCTGGTTTGGCATCACTTTGTGTTTAGATAGATGAAATTGCAGCCTAAAGGATGGGAGGCAAAATTGTGTAGGAGTGCTGTGT
CCTTTGAGATGACAAATGGGATTTAAAAATTCTCACCAGCTTCATGTTGGAGGTGGAGTGGAGGTTAAGCTTGCTATTAAGACGTGATGTAATATTGGAA
CCTGGGTCAGAGAAACTGATTGTTAAGTGACTTCCATTCTCCCAGGACGGAAATAGGAGGCTACCACTGGGCCTGTAAGGGATTCAGTCCAAGTGACATC
ATCTGGTTTTCAGCAGCTCCGGTTTAGAAAAACACACACACATTTCCGATTCAAGCTGAACTTTCCCGGGCACTGGGGGGCTGGAGCACCCAATGACTCA
GGATGCCTTAGAAGGAAATAAAACATAAAGCTTTTTATAGCTTGGTGCTTCTCTCCCACTGCCCTCAACTCTCTGCCAAGGAGTGGGAGGAGTTAGCTCA
TGGACCAGAACTCCCATTAAAGCCCCTGAACTCTGATTAAATCAAGTGGCAGTTTTCCTCATGAGAATTATGTTCTTTGTGTCAGGAACCTTAGGAATGA
GTGTGAATTGACACATTCAGATTGTGGGGTTTTTTTTTTCTCTTTTGAGGTGGGGTCTCATTCTCACTCAGGCTGGAGTGCAGTGGCACAATCACAGCTC
ACTGCAGCCTCCACCTCCCAGGTTCAAATGATCCTCCCACCTCAGCCCCCCCAGTAGCTGGGACTACAGGGATGTGCTGCTGTGCTCAGCTAATTTTTAA
ATTTTTTTATGCAGACGCGGTTTCACATGTTGCTTAGGCTGGTCTCAAACTCCTGGGCTCAACAAATCCTCCCACCTTGGCCTCCCAAAGTGTTGGGATT
ACAAGTGTGAGCCACTGTGCCTTGGCTCAGATAATTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGTGTG
ATCTTGGCTCACTGCAACCTTCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCACACCACCACGTCTGGC
TAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACTATGTTGGCGAGGCTGGTTTTGAACTCCTGACCTCAGGTCATCTGTCCGCCTTGGCCTCCCAAAG
TGCTGGGATTATAGGCATGAGTCACTGTACCCAGCCCCAGATAGTCTTTTCAATATCATATCTTAGTTTTATTTTCAGTTTTACAAAGGCTAAAAGGAAA
ATCCAGAGTTTCCTCTAGCAATATAATTATTTGAACATTTTGTTACAACATGATCTTTAGATCCTGGCTGTATGTAAGCATGTTTGCTTTTAAACTGATT
TTTCATTTTGAGTCTTTGTATACCCTTCAAGTTGTGATTTTTTTTAAGTTACTGCATTTTTTAGCAAAAGATAGATTTTTTCCTGCATAGACATATCAGA
ATCAAGATTTGAGATAGATTGTTTTAAAAATGGAAAATAAGTAAAAAAGTAATTATAAAATCATATCTTAGTTAAAAGGAACAGGTCATATAGGTAAAAC
TTCCTCTGAGTGCAGGTATCCATATCTGGTGATTCTCAAACTTGGAATACTTCTAACACTGGACATCTAATCCTGTTTCCACAAGGCAGAACTTGGGCTT
TCTCCCTTTCAATGACAAGAAGTTAATTAACAGCCCATTCCCATTTTTATTTTTATTTTTTTGAGATGGAGTCTTGCTCTGTCGCTCAGGCTGGAGTGCA
GTGGCCTGATCTCCACTCACTGCAAGCTCCGCCTCCCAGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCTCACCACCA
CACCCTGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCCACCCGCCTCAGCCT
CCCCAAGTGCTGAGATTACAGGCATCAGCCACCGTGCCTGGCCAACCCATTCCCATTTTTACAAAAGCATTTTTCTGAATTTAATAGAAATGCTGTTGAT
TATTTAAAATTTGTGATGTCAAATGACCCATAACCTATAAACTATAGCTGAGACTCTGTATTTCCTTTTGGAATTTTTTTCTCACCATATGGATGCAGAG
ATAGGGTTTACAACATGGGGTCCCACTGTATGTGTAAGTTTTTTTTTTAATAAGCATACTATTCTTTAGTATGTACAATTACATGTTGTATATATACGAA
TATATTACAATCTTCTTACTCCTTATAACTTTTTCTCCTCACGATATAAYTTATGTACCATAAAATTCACCTTTTAAAAATACACAATTTGGTGGTTTTT
AGTATATTGACAGGGTTGTACAACCATCACCACTATATAATTTTAGAACACTTTCATCACCCTGAAAAACCCTGTACCCATTGGCAGTGATTCCCATCTT
CCTTTCTGCCTCCTTCCCCCCATCCCCTAATCCCCGGAAACTACTATATTTTCTGTCTCCATGGATATGCCTATTCTAGACCCATATAAGTGAAATCATG
TATTCATACTTTTTAAATCCTCTTTTTCCCTTTTTTTTTTTTTTTTTTTTTTCTGAGACGGAGTCTCTCTCTGTTACCCAGGCTAGAGTGCAGTAGCCCA
ATCTTGGCTCACTGCAACCTCCCCCTCCCCGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCACACCACCACACCCGGC
TAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTAGCCAGGCTGGTCTTGAACTCTTACCTCAGGTGATCCACCTGTCTCGGTCTCCCAAAGT
GCTGGGATTACAGGCACGAGCCACTGCACCCAGCTTCTTTTTTACTTTTTCTACTGAACATTTCTCCATCGCTTTACATTCTTGAATATAATTTTTAAGA
TCTGGCTGTATTAATACAGCATCATTTAGCTAACCAATACCCTAATAAAGGCCATTTGGCACATTCCCATTATTCTTTTCTTATTTCTCCAAGAAACATT
CCATTTTAAGCTGCTTTAACTGTGAGCACATTCTTACTAGGCTGGAATCTGCTTCCTTTTAACCCCACCCATTGGTGCTATTGCAGCTTGTGGAGCTAAC
TCTAGACATCTAATCCTGTTTCCACAAGGCAGACCTTGGTCTTCCTCACTGTCATGGACCCCTCCCGACTTGTCAGGCTTAACATTTTGCTCCTTTTTTA
TTTTTTATTTTATTTTAATTAATTAATTAATTAATTAATTAGAGACAGAGTCTCACTCTGTCGCCCAGGTTGGAGTGCAGTGGCGCAATCGCCACTCACT
GCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAAGCGCCCGCCACCACGCCTGGCTAATTTTTTGTAT
TTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTAC
AGGCGTGAGCCACTGCGCCTGGCTGGTTGTGTTTTCGTTAAGTGCACTGGTTTTGAGTTGGTTGCTCCTTCTTTTTTAAAACCACTCTTTGAGAGAAATC
AACAAGATGTAGTGAAATTTACCCAGGCTGTGTATTCAAACATCTGTGTTCAAATCCTGGAATTACTGGCATGTGCCACCACACCCAGCTAATTTTTGTA
TTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCGGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCTGCCTGCCTCTGCCTTCCAAAGTGTTGGGATTA
CAGGTATGAGCCACCATGCCTGGCCTACAACATATACCAACTTTAATATGTAAGAACTGATGCAGGCATAGCATGAAAATGCATCAAGTAAGAATTAACA
ATGGTAAGAATAAGAAATCCATTATTATAGAGATTTTAATATACTTCTGGTAATTGAGAAATCAACCAGACAATAGAAGATTTGAACCACAGAATTAACA
AGTTTGATCTCTTGTATATACATAGAACATTAGACCCAGCAAGTAGAGAATGCACATTTGAAATATTAAATATTAATCAGCACTATTATTAATCACAAAT
TAATAAACAATATAACTATGTGGTTATAATATATAATTGTAAATACAAATATATAATTATATAAACAACAAATTAATGATATTAGTGTAATAAAGTTACT
AACAAATATCAATTAAGAAGATATTAATTAAATAGATAATTAGGATTGACTACCTGTTAGATCATAGGGTAAATCTCAACAACTACTTTAAAAATCCTAT
CATATTGACCTAGAAAATAATTCCAAAAATACAACTTTAAAAATAACTGTTTAGAAAATTAAAATCCACTTCTAATAACACATGGGTAAGAAGAAATCAT
AACGAAAATCTAGAAAATATTTAGGATTGAATGAAAGAAAATTCTACATTTCAAAATGAGGTACAACTTAAGCAGTACTTAGAAATGTATAGCCTTGGCC
GGGTGTGGCGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACAAGGTG
AAACCTTGTTTCTACTCAAAACACAAAAATTAGCTGGGTGTGGTGGCAGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCATGAGAATCGCTTGAA
CCTGGGCAGTGGAGGTTGCAGTGATCTGAGATTGTGCCGCTGCTCTCCAGCCTGGGCAACAGAGCAAGACTCCATCTAAAAAAAAAAATTTATAGCCTTA
AAATGCTTATAATGGAAAAGTAGAAAGGCTAAAAATAAATAAGCTAAGCATCCAACTTAGGCTAGCAAAAGAATAGAATAAGCTCAAAGAAAGTAGAAGG
AAAGTATCAAGGATAACCACAGAAATTAATGAGAAACAAAACAAAGAAGATCGACACAGACAAAAAGTGGGCTCTTTTACAAAAAGCATGGCAGTTTGTC
AAAAAAATTAAACATGGAATTACCATATGATCCAGCAATTCC


SNP Information

Context             (SEQ ID NO:34924):
CAGGCTGCTAGCAAGGCAGTGAGAAGCTCTTGGCAGCCAAATGGGTGCATTCAGGGCTGATTTATAGAGACCCTTGGCTTCTCCTTCTCCTACTCCCTGT
Y
TTTCTGGCATTTTGTAGCTTGTTAGATTTTCTGCCAGAGGGGTGGGTCAGAGCAGTGGAGGGGAGACATCGCCCATGTGCTTCTGCTACTGGTCCTTGGG
Celera SNP ID:            hCV11474612
SNP Position Genomic:     15562
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:34925):
TAATTGGGGCGGGGGGGGGGGGCGGCGGGGGAGGAGGGAACTGGCGCGCGGCTTGGTTTCCATTAGAGACGCAAAGTTTCTGCTCCGGGAGGAGGCGGCG
R
CGCCGCGGGCTCGTCGCCTGGGGGAGCAGAAGCGGGTGGGAGGTGCGGGTGGCCTTGGCCTCAGCCCTGGTGCGCGGGGGCCGGGGGTGGTGACCCTCCT
Celera SNP ID:            hCV29386225
SNP Position Genomic:     7180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34926):
GGCGGCATAGCGCACAGCGCGCCTTAGCAGCAGCAGCAGCAGCAGCAGCATCGGAGGTACCCCCGCCGTCGCAGCCCCCGCGCTGGTGCAGCCACCCTCG
Y
TCCCTCTGCTCTTCCTCCCTTCGCTCGCACCATGGTAGGTCGGGAGTGGCAAATGCCGGCGTAGCAGCTGCCCGAGATTTCTTCCCAGATTTCTAGTTGT
Celera SNP ID:            hCV2663630
SNP Position Genomic:     6176
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:34927):
ATTAGAGACGCAAAGTTTCTGCTCCGGGAGGAGGCGGCGGCGCCGCGGGCTCGTCGCCTGGGGGAGCAGAAGCGGGTGGGAGGTGCGGGTGGCCTTGGCC
K
CAGCCCTGGTGCGCGGGGGCCGGGGGTGGTGACCCTCCTGGCCGAGGAGGGGCGGCGTCCAGACGCCCGCTCGGGGGCCGCCTTCCCCCCCACGCCTGCC
Celera SNP ID:            hCV29386226
SNP Position Genomic:     7241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34928):
GCCATTACTGCCTCGAACGAAGTGTGTTTATTAAGAACAGTTCTTATGTCATTCTTAAGGTAGGTAGGGTTAATACTCTCCAGCAAATTTAGTAGATACT
S
TTTGCCAGAAAAGAGAGGAGTATATATAGTTTGATAATTATTGTGTAGTTTTCTGTGTACTTAATTTTTGCAGTTTTGTAACACTTCATTTGTAAGATGG
Celera SNP ID:            hCV2663631
SNP Position Genomic:     8181
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,8)      total(G,1|C,8) ;JBIC-allele(G,710|C,775)   total(G,710|C,775)
SNP Type:                 INTRON


Context             (SEQ ID NO:34929):
GCCAGTACTTTATAGATGAGGTGAAAGGAAGTAAAACTAAGGATGCCCACATGTTAAACTCTGGAGAATTTGACCATGTTTCACAATGTGCAAAGTTTGC
R
TATGATTAATTGTACTGAGCCTGCTACTCAGCGGTTTAGTTTACAATTCTTATGCCATGGGTCTTTCAGTAATCTGCCACGAAAGCTTGTGCTCGCTATC
Celera SNP ID:            hCV2663632
SNP Position Genomic:     9333
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,12)   total(G,12|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34930):
TAGTGTTTTGGAAAGAAAAGGTTGTCCATAGTTCTCTAGTTTGCTAAGATGATCAGCTACCCAGGAACGTGGAGTAACTTCCTCTTGTTTGTGGGAGCCC
Y
GGGAATCTGTGCCTGGGGAGGGGAGAAGTCTGTTAGGCTCTTGGATTGTGTGGAAGAAGGAGAAGTTGTGCCAGGCTACAGAATCCTGTGTTTGCACTGA
Celera SNP ID:            hCV2663634
SNP Position Genomic:     11741
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34931):
TTTATTCTATTTACTTTCATTAAATGACCGTGCTACAGGTTTCAAAGGATTTTAAGATTGATTTTTGAAAGATCACAATATTAAAAGTATAACTGGAAAA
Y
CTATGTTGAAATCAACCAAACATGTCGTGGACTGAATGATAACCTTTTCTTTCTTCATATAGGCTGATCAGCTGACCGAAGAACAGATTGCTGGTAAGTT
Celera SNP ID:            hCV25472576
SNP Position Genomic:     8979
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,14|T,20)   total(C,46|T,24)
SNP Type:                 INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;(C,-|T,-)   JBIC-allele(C,274|T,1025)   total(C,274|T,1025)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34932):
GGTAGAAAGAAAGATCCGTTTATAATTTGTAAAAACAAATTTTCACCCAGAATCAATATATTGGAACACCATTCCTACTGTTAAAGTTTTCACTTAAGAG
Y
ATAAACTTCATCAGCTTTCTATTAGGACTTATTTTGTAATTGGCTTCTTAGGCATCCTTCTTTAAAAGAGAAATCCACGTTAGCTCTCCTTGAGGTCTCG
Celera SNP ID:            hCV15754761
SNP Position Genomic:     7916
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,300|C,1183)   total(C,1183|T,300) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34933):
CTTCCAGTCCGCAGAGAGATGCCCTCCACGTTTCTGCTTTCTCTGCAGCCTCTAGATTGCCAGATGCGACTGTGCGCCTCGCTGGGTGTGTTTTCCACAG
M
CCCTTCCTCCTCGGCGTGCAGGGCTGACATCACCGACTGCGTTTCTGGTTTGGCGGGTGGGGAGATGGTTCCCCGCAGGGTTCTGGTACACCTTTGCCCC
Celera SNP ID:            hCV15754762
SNP Position Genomic:     7481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34934):
GACCTGAGTGATTTCCCTAACTCAGGGATGGCAGTCGGGGGCGCTTTCTTCCCTCGGAGTGGAAAGATTCAGCCTGCGGAGTGGTGTATGCTATTTTTCT
Y
TTGAACTGTACAGCCCTTCATGACCCTTCCATGGGCTTGAATCCAGATGTGCAGTTTCCTTTGTATAATTAAATACTATCCTGGGCACTGATGATGAGTT
Celera SNP ID:            hCV27472393
SNP Position Genomic:     12544
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,473|C,1024)   total(C,1024|T,473) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34935):
ATGCAGCTTGACGATTGAGCACAGTCAGGCCTTTGTATTAAAAATGAAAAATGAAAAAACAAATTCAAAACCTATTCAAATGGGTTCTAGTTCAATTTGT
Y
TAGTATAAATTGTCATAGCTGGTTTACTGAAAACAAACACATTTAAAATTGGTTTACCTCAGGATGACGTGCAGAAAAATGGGTGAAGGATAAACCGTTG
Celera SNP ID:            hCV27203401
SNP Position Genomic:     14109
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:34936):
CCGGCAGAGTAGGCTGTGGCTGTGGACTTCAGCACAACCATCAACATTGCTGTTCAAAGAAATTACAGTTTACGTCCATTCCAAGTTGTAAATGCTAGTC
T
TTTTTTTTTTTTTTTCCAATAAAAAGACCATTAACTTAAAGTGGTGTTAAATGCTTTGTAAAGCTGAGATCTAAATGGGGACAAGGCAGGTGGAGGGGAG
Celera SNP ID:            hCV27203402
SNP Position Genomic:     14546
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:34937):
GGTAGAAGCAGTAGTCACTTTTGTAAGCCAGTCTCTTCATGCCTAAAAGACACTACCAGTCACCTTTGATTCGCGACTTTTAATTTATGATTATACTTAG
C
CTCCTCCTCCTTTTTTTTTTTTTCCCAAGTTGACTTGACTTTGCTTTTTTCCCCCCAAGTAGAACTAATGCTAGCTTCCAGCTTGAAAGTAAAACTCCAG
Celera SNP ID:            hCV27203403
SNP Position Genomic:     15110
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:34938):
GTAGAAGCAGTAGTCACTTTTGTAAGCCAGTCTCTTCATGCCTAAAAGACACTACCAGTCACCTTTGATTCGCGACTTTTAATTTATGATTATACTTAGC
C
TCCTCCTCCTTTTTTTTTTTTTCCCAAGTTGACTTGACTTTGCTTTTTTCCCCCCAAGTAGAACTAATGCTAGCTTCCAGCTTGAAAGTAAAACTCCAGT
Celera SNP ID:            hCV27203404
SNP Position Genomic:     15111
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:34939):
AAGTTGCCCTTCACCATGGCTATTTGAAAAGGAGATGTACTTGGACGTTTCTGTAAATCTTGAGATAAACTGTTTGGAGATTTAACCACCTCTCTGATGG
R
GGACCAACTCTATGGAAATTGTAAATACGTTTTATTTATAAACCTGGCACTGTATTCAATAAACATTTCTGCAGCCTTTCATCTCTAACTGCGAACTGTG
Celera SNP ID:            hCV11666670
SNP Position Genomic:     17155
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:34940):
TAGAAGCAGTAGTCACTTTTGTAAGCCAGTCTCTTCATGCCTAAAAGACACTACCAGTCACCTTTGATTCGCGACTTTTAATTTATGATTATACTTAGCC
T
CCTCCTCCTTTTTTTTTTTTTCCCAAGTTGACTTGACTTTGCTTTTTTCCCCCCAAGTAGAACTAATGCTAGCTTCCAGCTTGAAAGTAAAACTCCAGTG
Celera SNP ID:            hCV27203405
SNP Position Genomic:     15112
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:34941):
GCACTGATGATGAGTTTGAAATTATGTGAAATTGCCCTGTGAAGTGTTTGAACGTTTTAGACCTGCAGATGATTGAACCTAGTAAGATAGTCTGCCCCTT
Y
GTCCTAGTACATGTTTACCGTTCCGTACAGTGGTTCTGAAATGATTACTGCAGAGCAGCGTTAATGGAGTGCTTACTTTACATGAGCTTTTTGTTTTTTA
Celera SNP ID:            hCV25599774
SNP Position Genomic:     12729
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,30)   caucasian(T,40)   total(C,8|T,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:34942):
ATGTCGTGGACTGAATGATAACCTTTTCTTTCTTCATATAGGCTGATCAGCTGACCGAAGAACAGATTGCTGGTAAGTTGACAACTCCAAGGAGTCCCCA
R
AAGGCCAGAACTAGGCACTGACTCAGTTTTGGTGACTCCTCTGTTCCTCCCCGCTACAGTCTGGGCAGTTTTCTAAGAATTTATTTAAATAAGAACAGTA
Celera SNP ID:            hCV25599775
SNP Position Genomic:     9101
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(G,36)   total(A,6|G,66)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34943):
TAGTCACTTTTGTAAGCCAGTCTCTTCATGCCTAAAAGACACTACCAGTCACCTTTGATTCGCGACTTTTAATTTATGATTATACTTAGCCTCCTCCTCC
T
TTTTTTTTTTTTCCCAAGTTGACTTGACTTTGCTTTTTTCCCCCCAAGTAGAACTAATGCTAGCTTCCAGCTTGAAAGTAAAACTCCAGTGTGGAGTGAA
Celera SNP ID:            hCV27203406
SNP Position Genomic:     15121
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:34944):
GTCCCTGTAAAACCCCCTTTAAAAGCATATTGCATTTAGTACAGAGCTCTTTTTTGAAATGAAGGCTGGAGATGTGCATTTTTCACGGTGTTAACTGGTT
R
TATCTTATTAGCAAGGAGATTGGGGTTTTGAGTGTTTGCGTGGGTGGTTTCAATTTGCCAGGGAACAGTGGCAGGCTGCTAGCAAGGCAGTGAGAAGCTC
Celera SNP ID:            hCV27520558
SNP Position Genomic:     15390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:34945):
AACTTGAAGTGAGCAGATGTTGTCACTTCCTTGTAATCCTTTGTTAAAATAGCATAAGGAGTTTTCTTTATTCTATTTACTTTCATTAAATGACCGTGCT
R
CAGGTTTCAAAGGATTTTAAGATTGATTTTTGAAAGATCACAATATTAAAAGTATAACTGGAAAATCTATGTTGAAATCAACCAAACATGTCGTGGACTG
Celera SNP ID:            hCV25599776
SNP Position Genomic:     8913
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,6)   caucasian(A,36)   total(A,64|G,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34946):
CAATAAGATGGGAATTTTAGATGACAACCAAGATGATACCTTGGTTCATGTCAAGAGCGGGACAGCTGAGGAAAGTGGGGTGGGATGCAAGTACAATTTA
R
GACCTTGGCATTGAAGCCTTCCCCTTAGTCAACACTGGCCCAGACCCTGGTTCTTAGATGTAGCAGGAGAGGCTGCCTGCTTCTGCCCCCTTTGCTTCCA
Celera SNP ID:            hCV27203407
SNP Position Genomic:     17669
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:34947):
ATAAGCATACTATTCTTTAGTATGTACAATTACATGTTGTATATATACGAATATATTACAATCTTCTTACTCCTTATAACTTTTTCTCCTCACGATATAA
Y
TTATGTACCATAAAATTCACCTTTTAAAAATACACAATTTGGTGGTTTTTAGTATATTGACAGGGTTGTACAACCATCACCACTATATAATTTTAGAACA
Celera SNP ID:            hCV11474606
SNP Position Genomic:     20450
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,7)   total(C,5|T,7) 
SNP Type:                 TFBS


Context             (SEQ ID NO:34948):
GTGTCGTGGACGCCGTGCCGTTACTCGTAGTCAGGCGGCGGCGCAGGCGGCGGCGGCGGCATAGCGCACAGCGCGCCTTAGCAGCAGCAGCAGCAGCAGC
R
GCATCGGAGGTACCCCCGCCGTCGCAGCCCCCGCGCTGGTGCAGCCACCCTCGCTCCCTCTGCTCTTCCTCCCTTCGCTCGCACCATGGTAGGTCGGGAG
Celera SNP ID:            hCV25474256
SNP Position Genomic:     6122
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,21)   caucasian(A,31|G,7)   total(A,48|G,28)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:34949):
AATATATTATCTAAATTAGAGCCCCTGAGCAAGGACTCAAGCTCTATTTTATGCCCCATCCCTGACTCACAGTAAGATCCTGGGCAAGTCACTTGACCTT
Y
TTATATTTCAGAGTGTCAAACTGTGAAAAGCATGTCCATAAAACTGTGCAAGCATGACCTCATTATAAACCCGATGAACTTGAAAGCAAAGATGTGCTTT
Celera SNP ID:            hCV2663628
SNP Position Genomic:     3075
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,7)   caucasian(C,38)   total(C,65|T,7)
SNP Type:                 TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:34950):
ATTGGATTTAGTCCCTTGAACCTGGGAGGCAGGGGTTGTAGTGAGCTGAGATTGCACCACTGCACTCCAATCTCGGTGACAGAGCGAGACTCCATTGTTT
A
AAAAAAAAAAAAGATTGGATTTAGGACTAATTTAAGCATGTTCCAGCTTAGCCGCCTTGAAACCTTTGGGAATATTGTGGTGTGTGGCACTGTTTATTGG
Celera SNP ID:            hCV27203398
SNP Position Genomic:     9934
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34951):
TGATGGGCCTTGCGTCCATCCTGCTTAGTGTCTAGAATGTTTTCTGCATGGGATCACTATTGTTTTCTTCCTGCTTGGTGCGACCTAGAGCTCAAATCTA
T
TTTTTTTTTTTTTTTTGGAGACGGAGTCTCGCCCTGTCGCCCAGGCTGGAGTGGCACTGGCGCGATCTCGGCTCACTGCAACCTCTGCCTCTTGGGTTCC
Celera SNP ID:            hCV27203399
SNP Position Genomic:     10630
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,12)   total(-,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34952):
TGCAGTTTTGTAACACTTCATTTGTAAGATGGTACCATTTTTTCCTGGCTTCTGAATCATAGGATAGTTTGACCCAGGGCATTAGCCATTGTAATGGTAG
S
CTTTTAACAAATAACTGCCTAATTTAAAGGATTGGAAAGCATTTGTTACATGGAAATGAAGTTGGTGGCGTACCCAGTTGCTGTATCTTTATTTTTTCTA
Celera SNP ID:            hCV15754753
SNP Position Genomic:     8350
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,444|G,1037)   total(G,1037|C,444) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34953):
GTTAGCTCTCCTTGAGGTCTCGAGTTCCCTCGGCTGGAGGCACAGGTTCAGTGGAGACCAAATAATGCAGGTGAATTACCTTCGTGGCCATTACTGCCTC
S
AACGAAGTGTGTTTATTAAGAACAGTTCTTATGTCATTCTTAAGGTAGGTAGGGTTAATACTCTCCAGCAAATTTAGTAGATACTCTTTGCCAGAAAAGA
Celera SNP ID:            hCV15754754
SNP Position Genomic:     8095
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,301|G,1172)   total(G,1172|C,301)no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34954):
TCTTGAGGGGGGAGGTGAAATTAAATAGCCATAGAAAGTGCTTTTTAACAAACTTACTGTGTTTAAAGAGGAGGAGGAACCCCCAGATGAAGTAGGTGAC
R
AGCACTCTTAGAAGTTACCATAAAAGTGAGTACAGTGTGAGCTGTAGATGTGTTTGCTGCAGAGGAGCATGTGAGGTTTGGAGGCGGATGTGTGGTGACT
Celera SNP ID:            hCV15754771
SNP Position Genomic:     11073
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,302|G,1179)   total(G,1179|A,302) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34955):
AGCCTTTTAACAAATAACTGCCTAATTTAAAGGATTGGAAAGCATTTGTTACATGGAAATGAAGTTGGTGGCGTACCCAGTTGCTGTATCTTTATTTTTT
S
TACTTAATTATTTCTCATAAAATGGATATAAAAGCCTGTTAATCCAACCCAATGCCATTATGTAACGCCAGTTTGGAGATTTCGAGGGCCTGGAGCAGTG
Celera SNP ID:            hCV15754772
SNP Position Genomic:     8448
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,619|C,694)   total(G,619|C,694) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34956):
CTAGAGTGAAACAGGTGTCAGGCTGTCACTGTTCACACAAATTTTTAATAAGAAACATTTACCAAGGGAGCATCTTTGGACTCTCTGTTTTTAAAACCTT
Y
TGAACCATGACTTGGAGCCGGCAGAGTAGGCTGTGGCTGTGGACTTCAGCACAACCATCAACATTGCTGTTCAAAGAAATTACAGTTTACGTCCATTCCA
Celera SNP ID:            hCV7583853
SNP Position Genomic:     14428
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:34957):
CAGCATTGGGTTTCCCTCCCAAGGCCCCAGCACCAACCTCTGAGCCCAAGACCTTGCCTGAAAACAAGCAGATACCGATTGCTTCATCCTATTTATGGAC
R
TGTAGGTCTAGTTGCATTTTCACTGGGGGGAGGGGGGAAGGTGAATTATGGTAACTTTTAATGATCTATTCAGGCAGTAGAGCTCTTAAGGAAAAAAAAA
Celera SNP ID:            hCV7583854
SNP Position Genomic:     14775
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:34958):
TCTAACCCTCAAGTCTTTAGAAGCTGGGTGGACTCTTAGTGGTCCTGCAGCGTATCCTAAAAGACTACCTTTGAAACAGGATTCTTGTATGGCCAGGATC
S
TGTCTGGGAACCAGAAACCCTACACCCTCCCCCTCCAGGGAATGCTGAGTTCCAGTTTTGAGCAGAGGTGAGGCAGAATCCACTGTAGCCTTCCGCCCTG
Celera SNP ID:            hCV27465813
SNP Position Genomic:     16043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:34959):
CGGGGCGCAGACTCGCGCTCCGGCAGTGGTGCTGGGAGTGTCGTGGACGCCGTGCCGTTACTCGTAGTCAGGCGGCGGCGCAGGCGGCGGCGGCGGCATA
K
CGCACAGCGCGCCTTAGCAGCAGCAGCAGCAGCAGCAGCATCGGAGGTACCCCCGCCGTCGCAGCCCCCGCGCTGGTGCAGCCACCCTCGCTCCCTCTGC
Celera SNP ID:            hCV25599783
SNP Position Genomic:     6085
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,2)   caucasian(G,38)   total(G,72|T,2)
SNP Type:                 UTR 5


Context             (SEQ ID NO:34960):
GGCATCCTGCTTTAGCCTGAGACTTGCCATAAGAAACTGCTGAGTACTTGGCAAACCCTTTCATAGTTTTGTTCTCCATCTGTTTGGGGTAGGTGTTGAG
Y
GAGGCAAATGGATCTCGATATTTCAGATGGGCTTTTGATGCACTGTTGCCAAGGAAGGCTTTTTCTGATTTTTTGACAAATGAATTTTTGCACACTTTCA
Celera SNP ID:            hCV7583858
SNP Position Genomic:     16429
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:34961):
CGGCTCCGCCGCGGCGGAGGGATACGGCGCACCATATATATATCGCGGGGCGCAGACTCGCGCTCCGGCAGTGGTGCTGGGAGTGTCGTGGACGCCGTGC
Y
GTTACTCGTAGTCAGGCGGCGGCGCAGGCGGCGGCGGCGGCATAGCGCACAGCGCGCCTTAGCAGCAGCAGCAGCAGCAGCAGCATCGGAGGTACCCCCG
Celera SNP ID:            hCV25599784
SNP Position Genomic:     6040
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,30)   total(C,60|T,2)
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:34962):
CCTTCTCCTACTCCCTGTCTTTCTGGCATTTTGTAGCTTGTTAGATTTTCTGCCAGAGGGGTGGGTCAGAGCAGTGGAGGGGAGACATCGCCCATGTGCT
K
CTGCTACTGGTCCTTGGGCTGGGTGGTTGGTAGAGGAGATGTTGACACTATGAGCTAAGGGTTGGCTTTTGTAATTACCTGAATCTGAAAGGAATGCCTA
Celera SNP ID:            hCV11474611
SNP Position Genomic:     15644
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Gene Number:                 157
Celera Gene:                 hCG21784 - 104000117760833
Gene Symbol:                 LAMA2
Protein Name:                laminin, alpha 2 (merosin, congenital muscular dystrophy);LAMM
Celera Genomic Axis:         GA_x54KRFTF0F9(41128211..41773390)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12317):
CATGTTTATTTAAACAGATGCAGAAAAAGCATTTACCAAAATTTAATATTATTTTGTCACAGAAACTCTCAACAAAAGAAGAGAATTCCCTCCACTTTGT
ACTGAGCATCTATTGAAAACCTGGAGCCATCATCATAACGGTGAACGAATGTTTTTTCCCTCTGATAAGAAATTAGGCAAAAATGTCCACTCTTACCATT
TCTATTCAACTTTTTAACTGGAAGTCACAGCCAGAACCAAATAGCAAGAAAAAGTGTAAAAAGCATACAGATTGGAAAGATAGAAATAAAACTGCCTTTA
TTTTTGGATAGCATAATCCTATATATAATAATCCTAAAGAATCAACATATAAACTACTTACAAGTGATTTCAACAACTTTTTAGGATCCGATGTATATAA
CCTATATCACTTATATTACTATGAAACTAAATTTATGAAAAATTAAATTGAAAAATATTTACAATAGCACTCAAAAACTTGAAACACAAGTTAAATTTTA
GAAATTATGTTGACATGTACATGAATGGGAAGCCAAGTTGGGAGGATTGCTTGAGCCCAGGAGTTTGAGACTGGCCTTGGCAACATAGTAAGACCTTGTC
TCTCAAAAAAAAAAAAAAAAAAAATTAATTAGCTGGGTATGGTGGCATATGCCTATAGTTACAGATACTCAGAAGGCTGAAGTGGGAGGATTGATTGAAC
CCAGGAGGTTGACGCTGCAGTGAGCCATGACTGTGCCACTGCACTAGAGTCTGGGTCATATAGCGAGACTCATCTCAAGAAGAAGCGCGGTGGCTCACAT
CTGTAATCCCAGCACTTTGGGAGACCGAGGTGGGTGGATCACTTGAGGTCAGAAGTTCAAGACCAGCCTGGCCAACATGCTGAAAACCTGTCTCTACTAA
AAATACAAAAATTAGGTAAGCCTGGTGGCACACATTTGTAATCCCAGCTACTTGGGAGGCTGAGACAAGAGGATAGCTTGAACCTAGGCCAGAGTGAGAC
TCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAAACCCAAAAGACATGTACATTCAAAACTATAAGGCACTGCTTAGAATATTAAACATGTAAATAAAT
GAAGACGGGCTATATTTGTGAATGGAAGTCTAAATATTGCTAAGATATCAATTATCCCACAATTTATCTGTAGGTCCAACCTCATTACAATCATGTTCCC
TACTCTCCTTTTTTGGGTAGAAATTAATAAGCTGATATTTAAAATTATATGGACTTAAGAAAACTAAACATATTCTTACCATATGATCCAGGCAATTGTG
CTTCTGGGTATTTACTCAAAGGAGTTGGAAACTTGTGTCCACACAAAAACCTTCACATGTGAAATATGAGAATAGTTATAATCTATAGTGACAAAATTAG
ATCAGCAGTTGCCTTTTTCTGGGAATGGAGGTTGGRGGATTTATTGCAAAAGGTCAGATGCTGATAGCAGTTGTATCAATAATTGTCAAAACTTGGAACC
AACCAAGGTGTTTTTCATTAGATGAATGGATGAGTAAACTGTGGTACTTCAAGATAACGAAATATTTTTTCAGTGCTAAAAAGAAATGAGCTATCAAGCC
ATGAAAAGAGGAAACTTAAATGCATATTACTAAGTGAAAGAAACTTATCTGAAAGGCTATATATTGTATGATTCCAAATATATGACCTTTTGGAAAAGGT
AAAACTAAGGGGACAGTAAAAAGATCAGTGGTTGCCAGTGTTTGGAGGTGGGGACAGGGAGGAGGCATGAATACGTGGAGCACAGAGGAATCTCAGGGCA
GTAAAATTACTCTATATGATAGTGTAATGTTGGATACATGTCATTATAAATTTAATGTAATTATAAATTACATTAAAACCTAATGTAAACTATGAAATCG
GAGTGATAATGATATGTCAATGTAGGTTTTCAGTTGTGACAAATATATCACTCTGATGGGGCATGTTGATAAAGGGGGAGGCTATGAATGTGTTGGGTCA
GAGGTATATGGAAAATCTCTGTACCTTCTGCTCAACTTTGTTGTGAATCTAAAACAGCTCTAAACAATAGTCTATTAAAATTAAAAAATAAAATATTCAA
CTTCACCAATGAATAGATTTTTACCTAAATATTACATAATATGTGAAGAACCTAAAATAGTAAAGATAATTTTGTTTTGTAAAACAACATTATAGGATTT
ACCTTACCTAACTTTGAGGCTCACTGTAAAGCTACAGTAATAGAGACTGTGATAGTGGAATAAGGAGATATATATATATATATATATATATATATGCCAT
TTTATATATATATATATGCCATTATATATATATATATGCCATTATATATATATATGCCATTTTATATATATATATATATATATATATATATGCCAATGAA
AAGAGAGTCCAAAAATAGACCCACACGTGGTCAATTGACTTTTGAAAAAAGATCCAAGGTAATTAGACGAGGAAATTATATCTTTCTCAACAAATGATGA
TGAAGTGAATGGATATCTACATGGAAAAAGAAAGCCCTTACCTAAGCCTCTACTTCACAGCAAACACCAAAATTTGCTGGAAATAAATCATAGACCCAAC
TGTAGAAGCTAAGACTATAAAATCTCTAGAAAAAAAATAAAGAAGATAATGTTCACAACTTTGGTGTAGGCAATGATTTCTGAAAGGGACAAAAAATATT
AAGCATAATGAATGATTTAATAAATTGTATTTAATCAGAATTAAACACTTCTGCTCTTTGAAAGCACTCCAAATGCAAAGTCAAGCCACAGATTGAGAAC
AATACATATTATAGTAAATGTACTTGACAAAGGTCTTTTCTCTAGAATATGTATTTAAATCTTATTAATAATCTGGCAAACAAAGCAAAATGAGCAAAGA
TTTCAAGAAGAATTTCACAAAATAAGATATACAAATGACGATTAAGCACATGAAAATATGTTCAGCATCATCAAAGAAGTGCAAATGACACCACCAATGA
GGTATCACCACACAAGCACTAGAATGGCTAAAATGTAACAATATTAGATGTTAATAAAGCCATAGAGCATCTGGAACTCCTATATATTGCTGTGGGAGGA
ATGTAAAATTATAAAACAACATTGGAAAAGAGGTTCACAGTTTTGTATAGCGCTAATTACATACCTGATAATATAACTCCTAAGACTTGATAGGAATAGA
GAAATATAAACATGTCCATGCGAACACTGTGTTTAAATAATCATAGCAATTTTATTCTTCATAGCCCCAAACTGGAACAACCCAAATGTACTTTAATAGT
TGAATGTATTAAAAAATTGTGATATATCCATACGATATAGAATGATAGATACTATTAGAATGATAGAATATTATTCAGAGATGAAAAGGAATGTATTACT
GATATAAGCAACATGACTATACCTCCAAAACATGTTGCAAAGTGAAAGAAGCCAGACACAAAAGATTACTATTTTATTATTGTATTTACATGAAATATGA
GAATAGTTATAATCTATAGTGACAAAATTAGATCAGCAGTTGCCTTTTTCTGGGAATGGAGGTTGGGGGATTTATTGCAAAAGGTCAGAAAGAAAACTTT
TTGAGATTATAGAAATAGACTATGTATTGGGTACTTTGTCAGATGAGTATTTACATCTAAAAAATGTTTCAAATGAGCATATTTATTGTGTGTAAATTGT
ACCTTATTTAGGTTTATTTGGAAAAAATATAGCTCTAAATATACTGGTTCATTTTAATTTGGGTTAAATATTTAAGAATTTTTTCCATGTGCTGAATCAA
ACAAGTAGAGTTGACAGTGGAGATCATAGTCTTATTCTCAAGGCATTTTCATGTAAAATAGGAACTCAGGTAACTGCAGTAACTGCAGAAAAGCAGGTAC
AAATATTGATTATAAAATCCTGGGAAAATGTAAAGAGGAAGGGGATAGAGGGAACATGGTATATTTTCATTCCACAATTAGAGTTAGCAGCTGCATCATT
CTGATTTTCCTTTTTATAAATATTTTTTATTATTTATTAGATTAACTAATTTGAGTTGAGGCCACAACATGGTTGAGTAAAAATAATCATTTTCCTTTTT
ATAAATATTCAATAAAACTTTTCCTTTTTATAAATATTTTTTATTATTTATTAGATTAACTAATTTGAGTTGAGGCCACAACGTGGTTGAGTAAAAATAA
TCATTCTGAGAATAGCAATAGGTTTAGAAGGTTAATTTAGGGTGCCTCTCTGCTATTAGATGTACCTGAAAAACACTTCTAGGCAAAATTAGACCAAATT
AAAAACACTGGGGCTTCAATTATAATAAACTCTCAAATATAAGTTTTATTATTGTTTATTATAATAATAAATAATGTATAAGTGTGCAGACATGGGCAGA
CTACATTTTGCAAATTTCCACAGTAAGGTAAAAGGATTACAAAGCTTTCTGGTATAATATTAACAGAACTAAAAGACATGAATAATATTAAAGAATGGGC
TTTGGCTAGTGATTTTCAATCAATTCTCTTCAAAGCAATACTCTCTTAATTTTACTGAAAGAAAATTCAACTTTAATATAATATTTAGATAAATCAATAC
ATCTTAACTATAAAAAAGAAAACTATCTATATAAGACAATATGTATTTCAACATATAAATGCTTGGGTAAAACTTCCTTAGGAGGCAAAATAAAATAAAA
GTTTGCACCTATTCTTAGATGACCCCAGTGTAATCGATGGGATGTTGATATTGTGCTGGTGACTCAAGTACCATGGGCAAGGTTGTTATCAGTGATGTGC
TTCTCTGAAAGTACATCTTTACACCCATTGACAAATGGGTGTAAAATCCAAAAACACAAAGTAAATTATCTTCTCAATGTATATAGTAGATGCATCCTAG
AAAAAARCAAACAAACAAACAAAAAACACACACAAAAATTTGATGTGGAAACAAACTTAAATTAGGTTTCAAATATAAGGCAAGGTTTTGTTGTTTTGTT
TGTTTGTTTACTCACTACATAAATGACCAGTGGCCCATTCAGAAGTCTAAGGACAAAATATGTTGTAGGACTGTCCTGACCACTGAGGGACAGCTCACAC
CCTGACCCAACAGTACACTAATGCCTGCAGTACCCACCGTTCCCGGAGTAAACCAAAAGACATCCTGCGACTCACAAAATCCATTATGGAGTTGTTTTAA
ACCTTATGAGAACCACTGACCTAGGCCATAAAAAACAAATGAAAAAACAACAAAAACTAGGAATGGCAGTAGTTCTGTTGAGTTAAAGAGGAGAAAGAGG
AGAAACCAGGACTGGAAGAGATGAAATTGTGAGTCTGGAAGGAAACTATTGCAAAGGCCTTTATTACCTTTAAGTAAATGTCTCCTAACTGAACTGAAAG
CCTTCATTCTAACCATTAGTTTGGTCAGGAACATTTCAGGGACGCCAGGGTGGCTGTTTTATTTTGCACTTCCTTTACTGCCCTCCCAGCAGCCTACCTA
GCAGTAAGTTCCCCAGCCTGCAGTGTCCCCAGAGGGCACCTTCCCTCGGCTAGTAACTTCTCAGACACTCTGGCCTTGGGGATGTCTTGGATCTTCTAGG
TACACAGTGGCTGCACACAGTTTTGCCAGGCCTTTCTCAAGAGGTAAAAGTTCCTAGCTGTTTGCATTTCCCAGAAATAATGTTTTCCATGTGTAGGGAT
TTTACAGATTTCAAAGTGCTTTCATGTCAATTACTTTCTTTAATTTAAAAGAAGTTCAGATACCAGGTCAAGCTAGGAATGATCCGGTCTCAGAGGGAAG
GAGCGCTCTAGGAAAGGAGGATCCTTTAATAGAGGGCCGTCCTGGGGCCGCGTGCCCATGGAAGGCGAGAGTGGAGGAGTGTCCTCTTTCTCCCCCACCC
TCAGGCGGCGGCCCGGCCAAAGCCAGAGGGGGCTGTCTCCTCCTCTTCCCCAGCAGCTGCTGCTCGCTCAGCTCACAAGCCAAGGCCAGGGGACAGGGCG
GCAGCGACTCCTCTGGCTCCCGAGAAGTGGATCCGGTCGCGGCCACTACGAYGCCGGGAGCCGCCGGGGTCCTCCTCCTTCTGCTGCTCTCCGGAGGCCT
CGGGGGCGTACAGGCGCAGCGGCCGCAGCAGCAGCGGCAGTCACAGGCACATCAGCAAAGAGGTACAGTCGAGGCATGGGCTTGGGTTGCATCCTTTGCC
GGGACCGAGATTCCTCACTTCTTCCACTCTTCCGAGAGTTGCTGTCTGTGGACTGCCGTCTTGCTTCGCCTTCAGAGAGTGCGCTCTGGGGCAAGAGGAA
CTTGAAGCAAGTTCAAGTTCAATGCCATGAGAGCRTAGTGTAGGGGGAATTACCTAAGTCCTGCAAAAGGAACGGGGAGTGCTTTTCATTGTTCTTTAGT
TTCGAAGAGGTCTTGCTATCACGATACATCCCGTAAATTGATTTCTGAAATCTTTCCAAGAGGAAAACTTTTTCCAATTGGAAAAAAAAGAATTTCTTCA
AATCAGAGCCCATCCTGCAGAGAAAGGCTTCCCAAGCTGTGTGGTTCATCCTGGGACTTTATGGAGGGTAGCTGATGCATCAAAAAAAAATTATATATAT
ATATATACACACACACACACACACACACACACACACAYACATATATATATATATAAAGTTTTACAGAACTTTGTTTTCAACTTTTAAAACAGGATTTCTA
AAGAAGTTATGTGGTTTTTTTTCTTTCATGGCAATGGCGCCTCCAGCCTCACCTTTTTCAAACCCACATCTTATCTTCATATCCTATTTTATTGTAGTGA
AATCGTGAAATTTCTCCTTTTGCTTAAATACAGAGGAGACTTCTATGTCATGTGTACTTTAAGGCCACAGTGACTAGATATACACTTTGGAGGACTTTGG
AAGATGGCTGTATTTAATGTAACTTAAATAACTTATTCTCCTCAGAGMCTCTTAGTGTTTATGTATATATAGCTCTCATTTCTGAAACTTTGGGGAGTCT
TTGAAGAGTTATTTTATTATCATGAATTTTACAGGAAGCACATGTGCAGCATTGTAAGACATACTTTGTAACACATTATTTCAGCAAACAATTCTTTAAG
TTGGAAAACCTGTATCAAAGTAAAAAAAAAAGAAATATTTATTATTCGGTTTTAAATATGAAAATGTTTAACCTAAGAGTACAAAATCTGTAGGTTAGAA
GCTTTTAAAAGTTTTAATGAGGCTGAATCTGCTTAAGTTTTGAAGTATACTTATCCTTCTTCCAGTTAACTTCTAGCCAAGTCAATAGTTCTGATATTTG
TTCTTATAATCTAGCATTTTTAGCAGTACTATTTTTTAAGGAGTAAAGAGATATCCCAAGCTCTTTCTATAATAATAACTCCCTGATTAAAATTCTTGGA
ATAAAAATGACCTTGCATTCACTATATAACTTTTTTCCTTCTATTTTTGCTTTTGCTTCTCTGAGAGGTAAAATGGGGCCAATATGACTTAATTAATATA
ATTTACGAGAGTGATTTTAAGAGTATCTCTGGCCACTTATTTTTAAAAATTCTACTTTTAACTATTAAACTTTGCTCAATTACAAGGTGTGTTTAAACAA
GACATAATACTTTAATAATGTTAGGCAGCTGGGAGAAATGAGGGGCCAGGGGCACCAATCCTTATGTCCACTTGGAATGGGGCAGAAACTCAAAGCATGC
AGAGTAAGGATCAAGTAAATTGTTGCTAAGAATTATCCTGAACACACACAGGATTTCTCTTTTTTCCTCTCCCTTCTTATTTACTCTCTTTTCAAATAAG
GTAATATTAACTCTGATTTCTATGACCCAGGCACAAGATGAAGTGAATTCAGGAGGAAGGGTTTATACTACCATTCTGTCAAGATACCACTTAAATGCTA
CATACAATAAGGAATTTTATTCAAAATAGCTACAACATACAATCTACTATAGGCTGCTATAATCTGCATTCTAGTATATATTATTGTCTTTGTCATAGAC
CATTTACAATATATCTGGAGGTTGGCTCAAGGATAAATGACTTAAACCTGTTAATGTTGAAAGTATGTAAAATTCATGAAACTTTAAAATTGGATAGTGA
TTTATGATTTAAAAATGCCTTATGTACACGATCTTTATTCACCTTCAGATATTATTATTCTCAAAGGACAAATTTAGAACTTAGGCTTCCAGTAGTTGTA
ATTTAAGTTTACATAATAATAACTTTATTTCAACAACTAAAACACTTCCGGTATTGTTTGTGCTGAATTCCCTTTTTTATGGTTCCAAGGTTTCTTTCCA
TTAATTGTTTAGGCCATGTTTTCTTTTTAGTGTTGTTCCATTGAAGCAAGCCCTCTGTGAAAATCACGGGATATGAGTTTGACTGGAGAAGGGTTTTCCT
GGCTATGATCAACTTTTCTGTTTTCGATTATACTAGCACTGACCTTTCTAGGCAAGCGCTAATTGTGTAGAAGTTCTATTTCCCCTTATAATTCGATACC
ACTTTATTAAGAATTTTTGACATGAATCAACCATTTTTAGATGTTGCAGTTGAGTTAGAAACATAACCAGACTTTTTGTTTTTTACTTTTTCTTTGAAAT
CTTATGTGGTTTCTATAGCATACTCGATTGTAGTATGAATAGCATTGATTCAGCAAGAATGATATTCCAAGGAAATTCTTTAGCTATATTTAAAATTGAC
GAAATAGAATGATGCAATCAAAATGATTCTGCATTTCAGCAAGGCAGTGTCTAAAATGTTTTCTGATATTCTTGTGAATAATATGTGGAAACTGAAGCAT
AATGGYAGGTAAATTGCAACTGATTGAAAAATAGTTCACAAAGAATATTGCATAGTGGATTAAGGTCAATCCGGAAAGAAGTCTCTAGCAGTGCAACAGA
GGTTTTCTTATACTCAACTATCTTGGTAATGGCTTGATGGAAAATGTAAAATCCAAGCTTATCAGAACTGCATGTGGTCCAAAATTGATAGAGGTGGCTA
AGCTGGTTACTAACAAGTTCAGAAATTTTAAAGGTCTCTATAGCCTTGACCATGAATGGCACCTACATGAAGTTGCTTTTATTATTCATATCCACATGTT
AAAAAAAAAAAGTCCATTTGTGCTCTTCTGGAAATTAGTTACATTGTTTATATGTTTAGGAATGAATATGAAGACAGGAAGAGAAAGGCCACTCTGAATT
GCAGCAAGTTCGATATGAACATATAGTGTAATATGGTGACAAAAAAGGTTGGCTCACTTTTACACAAAACTCATAGAAGCACATAGGTCTGTTGCTTAAC
ACACATTTGGGTATTTCATTGACAAATGGGTGTAGATGCAGAGAAGGGAGAGCAGAATGGTTAAGAGTCTGAGAAGATTTTCAGAAGAGGAATGTCCCAA
GTAAAATCTTTCCATCTGAACAAGGAAAGATTTAGGGAAGGCAATCATAAGGACTGTCCTCAAATTTTCAGAAGAGTCGTTATGTTAAAGAGGGACTATT
CTAAAGGCTGAAGGTGGATCCAYAGAAGAACATGACAAACAACCAGGTTTGAATTTTATAATATGGAGAAAATAGCTCCTCTCCTCACTTCCTCCCCATG
CCATTTTGAGTTGYTCAGAAATAGCTGAATTGTGTTTGAGCAACTTGCTTCTGGAAATGACCATGCAGTGATCAGATGTACAGTTAGTGAGGGATGCTTT
ATGAGGGAATGCCTCTACTGAGAGGAAGTTAAGACTCATCAACTGTCTAGCCATTTGTCAGTTCTAAGATTCTAATATTATAGTCTATTGCTTTTAGAGT
GCATACTTGYATTTAAATTTCTGAATTCTTAAAATGTCAAGAAAATGTTAAATATATAAAAATGTGTTTTTAAATCCCTTCTGGGATTTAAAATAAAAAC
ATGTTTGAGACAATCCTCACACATTTTTGGCAAGAATACTTAGATATTTAGCATGGATTTTCCACATCATCGTCAATTGCACAGTTCTAAAACATCTTGT
GTTATAACACGCAAGAATACTTTATAAATTACCTGAGAAATTTTCAGGGGATTCATAGTGGCCATAAACCTGGAATTAATTTTTTTAAATATTTTTCTTT
GCTGCATATGTTAACTTTTTGGCTTGTTTGCCATATACTGACCTAATCATTTAGTAAAAATGATTCATAACAGATAAAATGCATGGCATTTCAACATATT
CAAAATATTTATATGAACATATTCAACACTGAATATTATAGATGTGATAGAATTAATAAAATTTATATAAATTTTATATTATGTTATATTTCACATATCA
ATGTGTACAGATTTCTGGTCTATCTTAAGATTTTTCTACCCTAGGATTTCATGCAAACTAATGAACTGAATCTATATCAAGGGATGCTGGGGGCTGGGCA
AGGTGGCTCACTCCTGTAATCGCAGCACTTTGGGAGGCCTAGGTGGGTGGATCACCTTAGGTCAGGAGTTCAAGACCAGCCTGACCAACATAACGGAAAC
CGTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCATGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCT
GGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGTCATTGCACTCCAGCCTGGGCAACAGAGGGAGACTCTATCTCAAACAAAACAAAACAAAACAAAACAA
AAATTTAAAAAGATTTGCAACTTATCATCTATCCAGTTTGCAGTAGGGCCTTATTTAGCATCTAGAAACCATGTGAAAAAGATCAGGAAGAAATTATTGT
AAATAATTATTGTAAATGGTTGCACAAGTGGTTTAACTTCTAATCTAGAAGATTCGGGTTTAGGATTTGTTTACAGTTGCAACTTGAGCCTCGATAGCTA
AACAGGAATTTAGGCAGAAGCTCCGTTTCAGTAAATGAGAAAACAAGACAGAGTTTAGAGAAAGATAAAAGTAGATTTTCCAGGCTTAGTATATACCAAG
CAGATAGAAATAAAACTAATTCTAGGCTTTCCCCATTGGTAAGACTGAATTTAGAGGTCAGAAGTTGTGAAGGAAATTGGTGGGGTTGGGCCTATATGCA
TTGGAATGTGGTAAATGAATGAATGTTTACAGTGAGTAAAGAAGATAAAAAAATTCCTGCTCTTGTGGAACTAATATTTAGTTGGGRTGGAGATGAGCAG
ACAGGACTATGATGAATATATGATGAAGCAACAAAAGAACACCTATATTGTATAAAATGTAGTTGATGAAAAATGTCCTGGACAAACAAATACAACGGGG
TAAGGACAGTCAGGAGTTCTAGGAATGGAGGGAGGTTGATGGCTATTTTGTTGGTAAAGGTTGGTAAAGGTTGACCTCTTTGAGAGGATCTCACTTTGGC
AAACACTTGAAGATGACGTGGGAGTGATTTGTGCAGTTATCAGGGGGAAGAGTACTCTCTGTACAGGGAGCAGGCYTATGAGGATCTAAGCTTGGAGCAT
GGTGAGAAGGCTCAGAGGAGAAATGGGAAACTGGAACACATAGCATTGTTGACCTTAATTTTAAAGATTTTGCCTTTTTGTCTGAGTGAGATGAGGAGGC
ATCGGTGAGTTTTAACAGAGTTAAATAAATGAATAAAATCACAGGTTTTTTTGTCTCAAATACGCACTAATCCATGGGACTAGACCAACAGTCCAAGCAT
AGAATTATTTTAGATTTATCTCTTGTCCCAAACACTCCACTGATAGAACACATTTAAGTGATTCTACATTCAAGAGCATTCCACTTCAACCATCTTATCA
TGGTGAAGCTCAGATGTGTCTTTGTAACACTCTTTTCTTCCCTTTGGCAACTCAGTGCTATTCCATTATTCAAAATATATCAGTACCTCAGAAACAATTT
GTGTGCAGGGAACTTCCGCAGCTTTTAAAAATTTTGCTCCAGTGTAGTTAGAAATATGACAGATTTTTAAGGGTAATTTTAAATAGTATGCACTTTAAAA
CAAAAATGAATTATTCACAATCCCACATGGACATATAGGTACTTTGGAGTTCCCTTTTTTATTATCTATTTCAATCTCAGACGCTAAAGTTTAGACACAA
TTGTTGAAAATGACATAGTGATGTATTGATCTGATGATTTCTTTTATGATATGAAATTTGAAATGCTACCTGTTTTACATTCAGAAACTTATTCTATGTT
CTGTTTCCATTTTTGTTACTGTTTTAAGAATCACTTGTAAGCTTTAACAATAACGTTTTGGACTATAGTAATGCAATTTTGGCCTAATTTAATTCTGTCA
TTTAGAACAAAAAAGGTAAAAAAATTGGATAGCTTTTCCTTCTCTCTCCCTCTCTTCTCTTTCTCCCTTCCTTTCTTCCTTCCTCCCTTTCTTTATTTTC
CTTTTCCCTTAGTATTCTTCCTGTGAATAAAATAAGGTAATTAAAATAGATAATTCTAACAAATATAACATTTAGGAAGATAGTAAGGCAAAACTTTACT
TAAATCTTCCTTATTAAAAGCCACAGGTAATTACTATCTAAAGATAGTTTGAGACATATTTTCAGGGTGAGTTAAAGCTAAAGACATTTGCTTGTCAAAG
ATGTATAATATGGGTTTAAAAATGTTTTTCTCCTAAGTAATCTTGAGTGTGGATCTTAATATGGGAACTTTATGCTATTTGGATTTTATTTGGACACGTG
ACATTTACAAAAGATCATTGAGGATTGCCTATTAATGGGTTATTATTCATAATATCGGCCTCTGTGACATGCCTAATCTAGTTCAAACAACAAGTTAATC
TATGCAAATTCCTGATGATGAAAACCTCAGGAGCTATTTAGTGCCTGGCACTTAGGAAATGTACCTTGTGCAATGTTAAGTATGTCTCTGTATGTGTAGT
CCACTCAACTGACCCCCGAACTGTGTACCTCCCCAAGGCTCTTCATTTAGCTGCGTCTTGAGTGCCAGATGGTTTAGATTGGTATAATAATATGTAGTGC
ATTGTGAGCATTAACACATTTACTTACGTAGCAGAGCTGTTTAGTAGATTAATATAATTATCCTCAGTTTGTAGAAGGAAAATATGCCCAGCAACTTGTC
AAGGACAAACAAAAATTCCARTGCTTATTTTAGAATTAGAAATTAAATTACGGTCCTGCTCTTGACTTTGTAGATGCTAACTATCACCTCTTTTGGACTT
TTATATATTTATCTTTCATAAAATACCCTGAGGAAAAAAAAATCCATTTCTAAGTTATGTTAGTCTATCATATCCAGAGATTCATTTGGTATTATGGAAG
AACAAAAAATAAAATGTGTAGTCTTGAAGGGTCTTTTTCATTTAAATACACACACACACACACACACACACACATGCTGCTTATTACTATGTAGACATAT
ACACACATGTATTACTTAAAACTATGCATTAATTCAAATGCATTCATCAAATTTTAGTGTTTACATTCTTGGAACTTTGATTACTGGACACTAGGCTATA
AGAAAATATTAATTGATTCTTTATTGGCTTTTCTGAAGTAACTTTACAGAAGTTACTTCAGCAAGCTAGAAACAACGGTATTTATTATACTGTATAATGA
ACCCTTTAAGAATAGTCAATGTGTAAATGTCAGTGAATGAAAAGAACAAGAACCAAACAGATATACCTAAGAATCAGAGCAAGATTAATCTCAAAATTCC
TTCTGAAAAGATGAAAAACCTTGACATCTTCATAAAAACATTTAAAGACTTTCATTTGAAGTTGAACTCAGTTAAGACAAAAGTCTTCCAATCTCCCAGA
TTTTGAGAGGGTGTATTTGTGTATGTATGTGATTGCAGCACCAGTGCACATGTACCATTTACAGCCTAGCACTCACAGGACCTAATTTGTATATTTAGTA
TGTTTTCTGTTTGATTTTTGTTGTCTTAAGGTATTAGATTTTGTTTATCAAAATCTTTGAATAAGAAAATCTAAAAATTGAATTTCTAGAAAACTCTAGT
TGCCTTGACAAATGATTATGGACCAAAGAATAAATTATAAATGAGACAATTATAATATTCCATCCAGTAGCTATACTGTTAAAATTCCAAGGTATAATCC
CTTTCGAGTTGCTTGTAACTTAGAAGGTCCTATTCTATAGAAGAAATAGAGTTAGTAGAGTTTGCTGCATCAAATATATTTTTTCAAATGCCTACATATT
ATAGTTGACACAATTTCCTGGCTTTATTGCCTTCTGTGCAATTTTCAATTATTGGATGAGGCTGAAAGTTTGAAAGAGAATATGAAGCAGTGCAATTGTC
ATTTCAGTGAGCTACCTCATCTCATTGGTTTGTCGTGGTACATATGTAAAACACTGAATATAAAACATGAAACATCTAGTAAGGCCTCAATAAATGTTCA
TTTTCAAAATGCCTCAAAAAATGAATTAAACCTAACAACCTAACATGACWTTCTCTGGCTGAAAGAAACACTCTTCTCCAACATCATGTGGTATACCAAA
TTCAGTTGAGACTGTTTGTGAAGGAAGGAATTTGCTTATATACTTAAACACACAAGTATTTGAATTCTAATTAGAATTTGTGCTGCAGTATTTCTTTATT
CTCAACTTTATAGCTTAGCCTACAATAAAAACTCTTATCAATACGTACCTCTTTATACCTTTAGTTTCCACATACAGTACTCTTCTTTGGAGGTAACTGA
ATCGTAGAAAACGTATGGACTTAGGAGAAGGCTAGACTCGGATCCATAGCCAAGTCACCACTTTACTAAGATCAAAAGCCTGAGTCAACGGAGTTAAATT
TTCTATTCGTAAGATAGGTTTAGGTTAGATAATAAATGTGAAAATACTTGCCAGCTAATCAGTAAATACTAGYTCTTTTCTTCTTTATTTTATGAGCATA
AAACTAAAAAAAAAGATTTGCTTTGCATATAGCATATCCTTTTTGCTTAAGAACAGCAAAATATTCTAAAAATTTCTTTGAGGAGACCCTAAGAGACTAT
AGATGGCAAACTATTTATCTCATTGCCAAGAGATTGAATAATTCTGTCGAGGTTACACAGCAAGTCAGTAACAGAGATAAGAAGAAACACAAGTTCCTAT
AATTAGCTAACAGTTATGTTAGTAGCTCTGTGTGAGAAGTGATTTAAAACAGGCAACATGATGGAAATTTTTGCAATAATTTGTAGTTATTCATACTTCA
AATGTGGTACAATAAACGTTTTTTCTAGGAATCTCATTGTTGAATATGTATTTATTTTGTTGATAAACTATTTTTTAAAAACTTCTTTAATACTTATAAT
ATGTTTAGATAAATATATGGCATATAGTAAGCACTTCATAAAGGTTAGTTATTATTCTTAGTCTATGAAGTATATGTTTTCATTGACATCTGCTTGGGTA
GAGATGACAATGTGGCGTGTTTGACACACAATGTAAGTTAATTTCAGCATGGCCTTCAGTGGAAAGTCTAATTGGATTGCAGAAAATCTCTCAATATAGA
TTGTCTTTATTTGGACTCTCCCTAATTACTATAGTAAAAAAAATTCTTGGAATACATTATTTAATACAACTCTGGATAGGGAGGATTCTTAGTGTGTCTA
CTTGTGTATTAAATTTTTAGTGTGTCTATTTTGTATTAAATCTACTATTAAAAAAACCACCAAAAAACAAAACCAAAAAACCTACTTCAGAAAATCATAT
AGTACTCTAACAAATCTCTAGAGAAAACTGCTTTTCTAAACTTGGGAACGCTGGATTTTGAAAATATTTCAGACAAAACACTTCTTAAAGGCCCGTTTAC
CATCAAAAAGTTTCAATCTTGCCTAACACATAATGTGCAAATATTCATTTTTTCATTCTGATACATTAGAAAAGTCACTGGATTTGTAATTGGAATTCCA
AAATATAAATTTTCCCTCTAGCTCTTCCTAAAGAGATTACCTTAAACATGGATAAGTCACTTAACTATTCTGAAATTCAATTTTCCATCTAAAAAATGAC
AATGTAATGTTCGAATCTATTTCATGGGGTTGTTATAAGGGTTAAATAAGGCAGACCATACAAATACCATTATTAATACTATTTGTTATTATAATAAATG
ACAGAGTTGGTCTTAGGCATCATTGGTTATGAAGTTTTGCTCCACCCCCTTTCTTTGTTTTTTTTCCCCAGTGGCTCCTAACCATTTGTTATTAATTAAT
AATGTTATGTATTAATATACATATATGTATTAATAATGTTGTTAATAATGTTATGTATTAATATACTTAGTTCTCCTGTTTTCAAGGACCCATGACACAT
AGCTTTCAAACATGGCACAAATTATTTGTTTAGTAAACATATACATACTACTGCATAAGAAGAAAATATGGTATCTGAAAGTGTACATCAGCTTCCTACA
AACAAGTAGCAAAGAGTAAGTATTCAGTGAAATTATAAAACTATCATAAAAATAGCCTAAGGGCTCTGAAACATTCTATGTCAAGATTCCTTTTTATCCT
CTTAAAAATAATTGAAACTTTGATTTATGGTATATCTACTATTTGATTGTATTAAAATTAAAATTGGGAAATTTAAAAATGTTTACTAATTAATTTAAAA
TACCAGTAATAAAACAATTACATGTTGACAAAAAGAACATAACTTTATGAAAAATAATTTTATATCCAAAATAAAACTCTTCAATGTCTGGCTTAATAGA
AGAGAACTGGATTCTCATTTCTGCCTCTGCGTTCAAATTATTACATGTTATTTTAGTTTAAATTATTTTGGTTTAAGCATATTAAGAAATATATAACAAC
AAACATAGATAAGCTATTGGAAAAAAGAGGAGTCTGTCAGTGCCTTTTAAGATAGCTGTAAATATTCTTTGATTCTATACCAAAACTCAGTAAGTGGTAG
TTTTCAAAAGATTGGCTGCAGTGTGGTATCTGAAACTGCATCAACGATATTTTTGTACGCTTTTATATTAAAATCTACGGATCTATCTTRCACCTGGAAA
GAATTTTACCCATGTGTGATGTTATAGTATCATTCATAGATCATTTGGAAGATACTGATTTACTAGTTATGCAGATCAGCCACAACTTGACAGATTTTCT
TATAAAATATTTTAATTACATTTTTTATGACTATTGATCTCACCAGAAAAGTCCCTAAATATTAGAAGCTGTTAATCTCACAATGGTAGAGACAAATTTT
TCAGAATTTTTATTTTCATTTGTAAGTTYCTGTAGTTATTGACAAATTTTGTTATTTTTCTTGAAATAGTTACTTTATTCATTCTTAAGAAAATGTTTAT
CAAACAAATGAGTCTTAAAAACCATAGTTAGATCCTTTTTGTAGTACATAGGGTATTCCACRAAAAAAGTGGCTAGTTTAGCTTGCAGCTGAAAACAACT
GTACAAATGCTTTTCCTCAAATCAACCATCATGCTTCAGTATACAGTTGATGTTAAAAAGATGTACCCAAGATTTAATAAATTTAATCATTGTTACTACT
TCATCAAGTACATTCATCTGTGAAACTAGTTGTTTTTTTCTTCTGGGAGTGTGTGGTGGTGAAAACTAAACTGACCACTAGCATGGTTTAGTACCCCTGC
CTTGATTTGTGCTAATGTACCATCAGTGTTTCCCACCACTATTGCTTTTGCACCATCAGTGCACATGTCAACACAATGAAAAGGCAGATAATAATTAAAT
CTTGTTACTAAAAGGATTTTTGAACTTGTGTACCTATGGATAATGTATTGTGGACTCCCAGGGATTCACAGATCTTTCTTTGAGCTCTACAGGGTTGGAC
TACAGTTAAGTTCCTCACTGCCTGCCTCTTCACCAATTCTACAAAATCTATAGCCATATGAAGGTAAATTTTGCWATCAGAAAAAGCCAAAACCACTTCA
GTTTTTACCTCAGGTCTAGTCTAGGAGAGTGATACCATTTCTTTTTAAGGGGGAAGAAATCCAGAAAAGCTTCTTCTGTGGAAAAAGCAGGAAGTGTTAA
AACCAGCCAGACATACATATAGAAATCAAAATCTCTGCCATATCATCTGCCCTTCTTAATTTCCTTTCACTTGCCCAAACTATAGTAGAGATAGTGTACT
TACCCACAGTTGGACATATGATGTTATTCCTAATAGACTTAAAAAGTGAACTCATGGCGGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAG
GCCGGGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAAAAAAAAAAAAAAAAAAAGCAAA
AATTAGCCGGGCGTGGTGGCGGGCGCTTGTAGTGCCAGGTACTCTGGAGGCTGAGGCAGGAGAATGGCGTGAATCCGGGAGGAGGAGCTTGCAGTGAGCC
GAGATTGCGCCACTGCACTCCAGCTTGGGCAACAGAGCGAGACTCCGTGAACTCATGAGCAAGGTTTAGTACAAAGGAAACATACTAATATCTGTAATTC
TGAATATTAGCAGAAGAGATTTTTATTCCTTGCTGAGCTCCTGAACTCACATCAGGAGGGGTCCTTTGTTCTTTTCATAGAAAGAATTCCTGTTGGAAGC
ACTGGATATCGTATTTCTCAAAATATGGAATTTCCTTCATTTATTTCTAGCCTTTGAAGTTTTGTGATTTCTAAAGCATTTAAAAGGTTTTGTAATGTTG
AGAACCTAAAACGTGATTCTTTTCTCTGTGCCCATCTCATACCATTGTATGTGTGTCATATGATGGATCTGGTTTCTTTTTCTTATTTGTTGGGAGATGT
CCAGAGACTCAAGGATSTATCCTTTGACCAAATTTTTCACTCTTCAAGGGCCTCATACTGCTCTGATTTCAGATGTATAGATATATTGCTTATCAAACAC
TGATGGGTCTGARCATGAGTGGTAGTAAGATATTTCCAGATTAAGTAGACAAATTGTGCAGAAYTTTTTAGTATCACTATTTAAATGACTAAATTTTTGA
GGTTTATGTGTATCCAGCCCAATATGTCCTCTCCTTATCTAGTATAATTTATCTTTAAAAATTAGACTGGCTTGGCATATGTCAGATTTTGTATTTAACA
GACTTTTTATATATTTCTTTGTTAGGAGGTGTTCAATGTTAGACAAAGTGAACAGATTACTTTGGAATCCATGTCCTGGTCCTGCTGAATAACATGTCCT
CACCCTCCTTCCATTTTTTTTTTTTTCTGCCATACACATTCCAGTAACACTGAAAGAGTTAATTGATGTGTCCCATCTTTATTGCTTTTGTAAATAGCTA
TAGATACACTTTATATGTAGATAATGGTATGTTTTAAAATTCTGCAAAAATAGCTTTTCAATTCTCTTTATTCTCTTTCTCAAGCTTTGATAAAATATTT
TTCATTCAACTTTTAGGGACTGATTTTCTCCATAGAGTTCCTGATGTGGTGCTACTGGAGTGATGCTGAGAAAACATTATTCTAAATGTTTTTTAGAAAC
ATTTTTTAGAAAACATCATTCACCCAGAATCTGAAATTTTATCTTTATTTATTTATTCCTTTGGATAAAACATTGCCCTCACAGGCTATTCTTTTCTAAA
ATGTTTGCTGTGCTGTTATTATTCACTTTAATGGAAATTAATTTATCTGCTGACCTCCTTTTTGACAGTTTAGGACTGTATTAAGTTTTCAGATCTGCTC
GGTGAGAAATAGTGAAATAAAACTAGTTAACATCTATGGAATACCTAACTATGGGCCAGCACTGCTGTAAGCATGTCTCATGCCTTAATTTATCAAAGGT
AGATGCTATTAATCTCATTTAACAGAAGAGAAAACTGAAATGCAAAATGTTAAGTAACTTTCCAAAAGTAAAACAACCAGTGAACTGGTAGAGACCAAGA
TTTGGACCTAGGTAGTTCTACTTTGTGGCCCATTCACCTACCCATGGCAGCGTGTGACCTCAACCCTGAAAGAGTACAAATTAGTAAGTAAAGGGCTTCC
TTTAGTGACATACTTCAGAGGTGATTTTATTTCCCTTTTTTGTGAGATTTCCTATGAAAAGATTAACAATTTAAACAATATTTGCCATTTAGATTCAGCA
CTATGTCCTGATATATCAGAAGAGTCTATGAACTTTTTTTTTTTAAAGACTCCTTGGAGATAGCAATGAATGAATTCTTAACTGTGTCAGGCATGCCTGA
ATTTTTTGAGTCATATAAGAGTTTGTAGCACTCCTAGAATTGTTAACTTAATTGGTAAGAATGTGCTTTTTTTCTCTTTGTTGTTGTATGAAGTGTTAAA
CCAAAAATAATCAAGGCCCAGGGCTTTTCCTGGTCCATTAATGGATATATGACAAGTGATGGCAAAAGGATAGTTACAGTTATTAACTTAATCATTAATT
GGCTCAGGGTATCCCCAAAACCGYAGTTGGAACTGAAGTGCTACAAAAATGACCATTTTGTTGTTATAGCTTTTCTTCACATAAGGAAATAAATAAGCAA
AAAGAGGGAGTGTCTTATCTATTTGTTGATCAAAGATCTTGTAATTCTGCTTATGGTAACTCCCAGAGTAGAGAATATCATCCAGTTGGCCCCCTTTATG
AACTTGGATTGCAATGGAAGTCCTATCGGCCAGTTTACTAGTTAACAGGAGCTGTAGTACTAGAGCTATGACTGCATCAGAAGTCCAGCAGTGTGGGCAC
AAAGCAGCRCAGCACTTTTGAAGTTAGACATCGAGAGTTTGAGTCCTAGATTCACACCTTGCTGGCTGAGTGCTGTTGCAATAGTGCTGTTGAGTGAGTT
ATTTAACTTCTTTAAACCTGATCATCCTCACCTTTAAGAGAATGAAAATAGTAGTGCCTTTTTAAGGATTAAATGGAATTAAGTATTTAATTTGTATTCA
GAAGAGGATGGAATCATCATTCAAAGACTTTACAATCAGTGGTGTTTTCAGCATGGACAACTGGAGCTTTAACTTAAAAGATCTAGAAACTGGGCTTGTT
GGCCACAGTTTTAGTGTGATTAGAGGTGGTCATAGGKTAGTCAARGTTGCCACTATCCTGGTTATGGATGGTAATAGAACTGCCTATTTATTTGATGTCT
TCACTTAGTTGTCTCCTAGGTCCTTCACAGCGAACATTTGCCAGGATTGAACATAGGTACTCTGCATTTCCTCAACTCTTTTCCCATCAGCTTTTCCCAA
CTCAGAAAATGGTACCATCATTCACCCCTTGAATCAAATTTGACATCTAGAAGTTACTATTAACTTCTCTCTTTCCTTCACCTCCCAGATTGAAATAATC
AGCATGTCTGTCATCCACACCACCAGAGTTTATTCCATAAATATCCACATCTTTTTGTCCCTATTGCCTTCTAGACCACAGCACTCTTTTTTTGCCTATG
CAACTTCAGCAGCCTCCCAGCTGCTCTCCCTTCTTTTCTCTTTTCCATTTTACAATCAATTTTCCATGCAATAGGCAAAGTGAACTCTGAAAATAGTAAA
TCAGATTAGATCTTTCCTCTGCTTAAAACCTTTCAATGCATTTCTATTATAAGAATAAATTCTAAATTCATTAGATTTTAAGTCTATTCATGACAGCTCT
TGTATTTTTCTCTGATTTCAAATTATTCTCTTTTTCTGTTATTTACCAGCAACAGTAAAGACTTTTTTTCCGTCTCAAGGCCTTTGTCCTTGCTGTTCCT
CTGTCCAGAGCATTGTTCCATTAGATCCCTGATGGCTGTCTCCTTCTCAATATTCCAATCTCATGTCAAATGTCACCTCTTACAGAGGCCTTTCCAGAGG
ACCACTTTAAATTAGCTTCTGTCAGGCACTCATCTCCCTGTTGTAATTTCTTTGAACAATTAAATGTTTATCTTGAATACCCTTGTTTATTTACTTTTCT
TCTTTGTTGTTTGTCTCCCCAGACTGTTGGAATATAAATTTTGTTATAAAATGGCCTTCATCTCCAGAGCTGAGGAGATACATAAATATTTTTTATTTTG
AATTAACACATGGCTGTGTTCAGGCTCTTCTGAATGTAATTCCATGGAGGAGGTCAAAATTGGATTCCTGTATGTAGTGAATCTGTCCCGTTTATGATTT
TCAGTTATATAATTAGTTAGAAGACCAATCCAATCATATTTCAGATAAACCTCAAGAGCAATTGCTATGGCAGAGAACTAGAAGGGTATTTAATCAACTA
GTTCCTTTTCCAAGATCTTTAGCTCTTTAACAGTTATAAATTAATAAAGTATGTTATATAATGCTAGGACTTTTTGTCTTTCATTGTTTCTGTTGCTTTA
TCTCCAGCTTCTAGTCTGACATATGGTAGGCACTCAAAAATTGGATGAAGAAGCAGCTCTTTTTGGACAGACCAAGAGTGTTGCCTTTTAAAACATTTTA
TGTGTACTTTTTCCCCCTGATCCTTTTATAGTATGAATGAATGTTTGTATAAGACATAAATTTCTACAAATACTGAAACACAGTATGGACAGATATGAGT
TATTATTATTAATATCACCTAGATAATAGATAAAATATTTTAGAAAGTGAGGCTACCTTAAATTATCTTGCTTCTTGAGTTTTTTTTTTCCCCTCTAAGG
ATATTCCAGTAAGAGTTGAGCAGTATTTAAGCTTTGGATAAGGAATGCATATTTCTTGGCTTAGTCAGAACTTTTCTGGATGGAAGGTCTTTTTGGATGA
GAATTATACTACATAAGATTAAAATGCCCATTTAAGATGTAAATTATAGGGATAAAATATAGATAACTCACATGGGGTGATTTGATTGGCATCTGTTTTC
ATTTTTCTTTGTTTCTTTTTAGATACCACCAAAGTCCTTCCTATTTCAGGCAAAAAGATATGTTTTAAAAACCACTCACAAGGCCTCTACAATATGTCAG
ATAATGCATGTGCGTGAATGTCCTTGGATGTGTATGGTCTCTTGCTTGAAGTTATCAGCCAGCAAAATGGTGAAATACTTAGAATTAATCAAACATCTGG
AGGTCAAGAAACRCAGTACCTATATTCTTCTCCTTACTTTAAGAATGAAACTAATAAAAAATAAGGCGGAGCTGGCCCTTCAGCAAAGGAGGGATTTTTA
TTATATGAGTGAATTTGAGAGAAAGGGGGACAAGAAAAGACCTTTGAGATCAGGGCCCAGGTCTGTTTTGTTACTACTGTATCCTTACTGCATAGCACAG
TGCCTGGCACCTAGCATGGTCACAGTAAAGATTGAATGATAGAAAAATAGAAAAGGAAGAGCTAACTTTTAGGAAGGAACACTTACTTCCCACTTACAGT
TATTGAAAAAACTATGAAGATGGTTAACATCATGATACTGTCGGATGTAGGCAGTTACAATTTCTACTCAACGATAGAAAAAAGAACTAAAGAGAATTTA
CCAGGACATGAAAGAAAGGTGTAAGATCATGGATTCCTGAAACAGGATGTTCCAATTAAATATTTAAATTTAAGTGAGGATTGTAGGAGTTTAACAGCTA
TTTAAAATACGCCCTGCTGCTTTCCTTCCTAGGTTCTCCACACCTTCAAAGCTCATCACTTGGAYAAGATTGCCTCTTTACTTTTTCCAAATCAATCTGG
TTCATCCATTTTTTGCAAAAATGAAAACTCCCCTCTTTCACTAAGGTATTTGAGCCATCAAGAACACCCTCCTGTCTAGGCATGGTGGCTCACAGCTATA
ATCCCAGCTCTTTGGAAGGCCAAGGCAGGAGGATGGCTTGAGGCCAGGAGTTCAAGACCAGCTTAGGCAAAATAGTGAGATCCCTGCCTCYACAAAAATA
AAATGAAAAAATTAGCTGCGTGTGGTGGCACATGCCAGTGGTCCCAGCTACTCAGGAGGCTGAGATGGGAAGATTACTTGAACCCGGGAGGTCGAGGCTG
CAGTGACCCATGATCACACCACTGCACTTTAGCCTGGGCAACAGAGCAAGACCYTATCTAGGAACAATAAAAAATTCATTATTCATTATTTGATCCAAAA
CAAAAACATGTTATAGACTATCTATAGATTCAATTTTCAAAAATCCTATGCTTCTCATCTCTAAATATTGTTATAATACTGCAATTTTCAAATTAGCTTT
CACCTTTAAGAAATGCTACTTTCCATATTGGAATGAATAATTAATATAGAACCAAAATGCATGTCTGGGATTTAGAAAATCTTGGGATTCTGTTTCCATC
CTTGCTTATTTTTTATTAAGCTAAGTCATTCATTTTAAGAAATGATCCCCTTTACCCCAACTATAGAGGTATATACTACCTTATATACTACCATACTTAA
AAGGTTAGTGAAGAGGCATAGAAAGAGTAGTGAAACAGTGAAACCTTCTAGATGCCAGATGCTATACAAATGTGAAGCATATGACACCAGCATGGTGAAA
AAGGAAGCTAATTAAGACCATCAGATAGTATTTGATTTTATCTCTCCATAGAAATCATGATAACTATGTTACATAGTTACTGAAATTTAGACATTAAGTT
TGTGGAATCTCTCTGACAGTTATATTAGCTAATCACTAAACAGAAATTTTAAAAGAAGTATTTAATATTAATTCTCAAGTCTTAGGAGAATATTTAGCTA
ATAATTCTACAGTTGACTGSAGAGTTTATTCATTATTTAATTCATAATGTCTTTTCAATCACTTTACTGTTTCTTGATTCATGAAGAATACATGCCAAGT
GTATTAGTCTGTTCTCACACTGCTGTAAAGAACTGGCCAAGACTGGGCAATTTACAAAGAGGTTTAATTGACTCAGTTCCACCTGGCTGGGGAGGCCTCA
GGAAACTTACAATCATGACAGAAGGGAAAGCAAACACATTCTTCTTCATGATGTCAGGAAGGAGAAGTGCAGAGCGAAGTGGGGGAAAAGCCCCTTATAA
AACCATCAGACCTCATGAGACTACTCACTATCCTGAGAACAGCATGGGGGAATCACTCTCATGATCTAATCACCTTCCAGGAGGTCCCTCCCCCAACACA
TGGGGATTACAATTTGGATTACAATTCAAGATGAGATTTTGTGAGGACACTGAGCCAGACCATATCACTAAGAGAATAAAAATGGACACAGAATGCCACT
TTCCTATTCCCTTTAAATATTTCCASTTGAAAGTATTTCCATGACCTAGTGAGTTCTTAGAGAATTCAATCACTATTGATGTCCCAACTGGTATAATAAA
AGAAGAAAACACATAATTTTGAGACAAATTCCACCTTTCTCACACTCTCAGCATATAAACACATAATCGAAGCAAGAAAAATGAGAAAAAATCAAATATA
TAATATGATGAAGAATTTTACACTATTCATTATGACATGTGGGGCCAAAGTGACAAAAGTAATTGGACAAAGGTAGACTCAGCAATGAGGACTTGGAAGA
AATGAGCTTTCAGTCCCATTTTAAAGTAGAAGAGAAGGTAGGGTATCAAAAGTAGGGTGCGCTACGCAAAGTGGAGGGTGTTTTTGTTGTTGTTGTTTTT
AGAGACAGGGTCTCCCTCTGTCACCCATCTTTGCCCACTGCAGCCTTGAACTACTGGGCTCAAGTGATCCTCCTGCCTCAGTCTCCCTCAGTGCTGGGAT
TACAAATGTGAGCTACCCAACACCCAATGTTTTCTTGATTGTAAAAGAAAATTGATGGTTTCTCATGTTCACCAGAGGGAAACATCCATTCATTTTATCA
ATGTGTTTAAAATAATTCTTACTCCTTCTTTCACTTTAAAGTGTTTAACTCATTTTTGCATTCTATTCATAAATATGACCAGTCACAACTTAGAATATGT
ATACTGTATTATTTCATATTAACACACACATTTTGTTCTTCTATAATAGATTTGTGTATGGTTTCATATATTAGAGTGTTAAATATTGAATTTATTGTAA
TTTACTTAGTGAAATACTGATGTTAACATCTAGTATGTTTATTTGAGGGATATAGGAGGCTTACAGTGAAATCATCCTTTCACCAAGATTTCTTTGTAAG
ACACTGTTACTGGAATTGTGCTTTGTGCATTACATTTCATTGACGTAATTTTAAACTTCCATTCTACTTCACTACAAATGGAATTTCATTATATCTGACT
CCACAATAAGTGGGTTCCAGAATCGTTGACATTTAGTAGAATTACAGATCTTAGTGTCTTTGTACATTCTGTATTAAAATGCATTATGTGTGCTTTCAAT
TCTGTTTTAAAGAAATTGCCATTGATTTACATGGTTGTATGGAAGAGTTTTGTTTAAATGCCATTGCCTGATTTCCTGGTGGCTTTTATTTTCCTTCTGA
AATCAYTTACAAATATTTCTTAGGGTATTGGCTACTGTTGGTTTGAAATGAGATAMAACTTATGGATTATAAATATGTTTGTGCAAATTTTCTCTAGCAG
TAATTCTAAAACCTTTGTGGACATTAAGCTGTAATTGTAGCTTTCTCTTGCAAGCTTYTTTATCCTCTGCTTTATTATTCCCTTGTAGGAAATTAAGTAT
TTTATATAATAATGCTTAGAACATCTTTCTCTTTTAAAGAGGGAAATTAAGATAAAGAGCTTGGCAAATATAGGATCTTTCCTGGATTGTATGTTTCTGA
GATTTGGTGACAGAGCGTCTGCTGTGGAGGATGGGGAAGGACGGATCTGGGCTGAAGAAGTAGACAGAGACAGTGGACTTTGGTTTTAAGAGGCCTGCTG
CTGGGATCTTCTCACCCATCCCTAGCAGAGCTCAGAAGTAGGCATCCAGCTGCAGGTAATTGTGTTTTGGGCTCAAAGGAGCCCTTAGAGTGCCAGACCT
AAAGAGGCAACTCCCGATAAGAGTTTCAATAGTTTTATCCATTCTAGAACCGCCATTTCCTTAAGAGTCTGAGGCCCAGGGACCAACGCCCAGGACATAT
ATACACTTTGATAGGAGGAACATTTCAAATTCATCCAGGTCAAGATCACTCACTAGGTCTTGTGCACCTCCTCCGCCTCTTTTCTGTCTGGAGTTAGTAA
CCACCTCAAAAGACAGCTTTCTGACTCGTCATTATACCACCTACAGTCTTACTTTTAGCTTGGTTTGAGGGTGTCCTGTTCATTACTTACAGAAACAGAT
TTGGAGTGTGAATGCCCTTAACACCAGTTTTAATAAGCATTTTTAATTCTACAATAATGTGATTCAGAGAATTTTTTTTTCCTTTGTCTCTATCTCCCTA
GATAGAAATATGTGGAGGTTGGATTTCCTGCTGAGTTTCTTTATTTTTTTCCTTTCTTTTTTTTTTTTTTTTTTTTAAGATGGAGTCTCMCCCTGTTGCC
CAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACA
GGCGAGCGCCACCATGCCTGGCTAATTTATTCTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCATGACCTTGTGA
TCTGCCTGCCTTGGCCTCCCAAAGTTCTGGGATTACAGGTGTGAACCACAGTGCCCAGCCTTCCTGCTGAGTTTCTTAGCATTATTGCCAGGTCGGAACT
TAGGCATAGTAACATGAAACATGTTCTGCATCTGAAGGCCAGAATATAATAAGCATTGTTAATTTAGTTAAAGGAAAAGGCTGCTGTTGAAGGTTAGACT
TCTTGTGTATGTGTGGGAGATAACAGAATAAYGTCTCTTTTCCAAGATGCATATGGTTTTCTTTTGCTTATGTGCCAATTTTAATCAATGGAGAAATTAA
TATGTTAAATGAAATAATTAACCATTTTATAATTTTAGTCGGATATTGGTTGACCAGTACTTATATGATGGTATAAAGTTCTAGAAACTGGATAACTTTA
AAAATCTTTCCATATAATGCATTATATTCTGGGTCATAGTTTCCTATATTATAACTGCTAAACAACATAAACCAATTTTATTTTCAAAATCAATCTTTGG
GGTAACTTCTACTTAGAGCCCTGACCTAATAAATGATGTACGTGTTTATTTCTGACACGTATTTTGATAATCATTTAGATTAGTCTTATTTATGTGGATA
TGTGTAATAAAATTTCTTTGGAAAATATGGTTTATTGAGTTTAAACCTCTTACCTCCATTTCACTTTCCTAAATTTTAACTATTTTTTTCTGTTCCATTG
CAGGCATAGTACCAATTCTGTGTCAGGCATTTTATTCACTTTGTTTCAACTGTTCTTGAGATCCCGGAGGATTAGGACTATTGCAGTTATAAGTCTATAA
CTGAGGAAAGGAAGCTTATCTGGACAGGAAGATATTTAGAGTATGATATAAAGACAGTCTCTTTTTAAAAACAGCATTTTAAAGGTATAATTTCTTTTTT
GTTTGTTTTTTTCGTTTTTTTATTTTTTATTTTTATTTTTTTCTTTTATTATTATACTTTAAGTTTTAGGGTACRTGTGCACATTGTGCAGGTTAGTTAC
ATATGTATACATGTGCCATGCTGGTGCGCTGCACCCACTAACTCGTCATCTAGCATTAGGTATATCTCCCAATGCTATCCCTCCCCACTCCCCCCACCCC
ACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGATCTCATTGTTCAATTCCCACCTATGATTGAGAACATGCGGTGTTTGGTTTTTTA
TTCTTGTGATAGTTTGCTGAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATG
GTGTATATGTGCCACATTTTCTTAATCCAGTCTATCGTTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATAT
GTGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCT
GAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTG
TTGTTTCCTGACTTTTTAATGACTGCCATTCTRACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGC
ATTTTTTCATSTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTT
GTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACT
CTGATGGTAGTTTCTTTTGCTGCACAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCCATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACA
TGAAGTCCTTACCCATGCCTATGTCCTGAATGGTACTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACGTTTAAGTCTTTAATCCATCT
TGAATTGATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTCCCCAGCACCATTTATTAAATAGGGAATCC
TTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCAGTGTTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATAT
CTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGACTTGTAGTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCT
TAGGATTGACTTGGCGATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGGCATTGGTAGCTTGATGGGG
ATGGCATTGAATCTGTAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTAT
CCTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGC
AATTGTGAATGGGAGTTCACTCATGATTTGGCTCTGTTTGTCTGTTGTTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGAC
TTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGACTGAGACAATGGGGTTTTCTAGATATACAATCATGTCGTCTGCAAAGAGGGACAATTTGACT
TCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATATTGAATAGGAGTGGTGAGAGAGGGC
ATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCAATTCAGTATGATATTYGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTT
GAAATATGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGTGTGGTTGAATTTTGTCAACGGCCTTTTCTGCATCTATTGAGATAATCATG
TGGTTTTTGTCTTTGGCCCTGTTTATATGCTGGATTACATTTACTGATTTGCGTATATTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCAT
GGTGGATAAGCTTTTTGATGTGCTGCTGGATTTGTTTTGCCAGTATTTTATTGAKGATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTC
TTTTTTGGTTGTGTCTCTGCCTGGCTTTGGTATCAGAATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGT
TTCAGAAGGAATGGTACCAGTTCCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTCTTTTTGGTTGGTAAGCTATTGATTA
TTGTCACAATTTCAGATCCTGTTATTTMTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGAGTGTATGTGTCGAGGAATTTATCCATTTC
TTCTAGATTTTCTAGTTTATTTGYGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGATATCCCCTTTATCATTT
TTTATTGCGTCTATTTGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATT
CATTAATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTRTTTGCTC
TTGCTTTTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCTGTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACAC
ACTGCTTTGAATGTGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTTGTYGGTTTCAAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCC
AGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGAGCAGTTTTGAGTGAGATTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGA
GAGATAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCAWGTATGTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAA
AAAAATGTRTATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATCAGGTCCGCTTGGTGCMGAGCTGAGTTCAATTCCTGGGTATCCTTGTTGA
CTTTCTGTCTCGTTGATCTGTCTAGTGTTGACAGTGGGGTATTAAAGTCTCCCATTATTAATGTGTGGGAGTCTAAGTCTCTTTGTAGGTCACTCAGGAC
TTGCTTTATGAATCTGGGTGCTCCTGTGTTGGGTGCGTATATATTTAGGWTAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCT
TCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAATCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCT
TCCTCCATCCTTTTATTTTGAGCCTATGTGTGTCTCTGCACGTGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTGC
CAGTCTGTGTCTTTTAATTGGAGCATTTAGTCCATTTACATTTAAAGTTAATATTGTTATGTGTGAATTTGATCCTGTCATGATGATGTTAGCTGGTTAT
TTTGCTCGTTAGTTGATGCAGTTTCTTCCTAGTCTCGATGGTCTTTACATTTTGGCATGATTTTGCAGTGGCTTGTACTGGTTGTTCCTTTCCRTGTTTA
GTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCGCTTATGAA
GCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTAGGGTTTCTGCC
GAGAGATCTGCTGTTAGTCTGATGGGCTTCCCTTCCAGGGTAACCCGTGCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTRGTGA
ATCTGACAATTATGTGTCTTGGAGTTGCTTTTCTCGAGAAGTATCTTTGTGGCSTTCTCTGTATTTCCTGAATCTGAACGTTGGCCTGCCTTGCTAGATT
GGGGAAGTTCTCCTGGATAATATCCTGCMRWGTGTTTTCCAACTTGGTTTCATTCTCCCCGTCACTTTCAGGTACACCAATCAGACGTGGATTTGGTCTT
TTCACATAGTCCCATATTTCTTGGAGGCTTTGCTCATTTCTTTTTATTCTTTTTTCTCTAAACTTCCCTTCTTGCTTCATTTCATTCATTTCGTCTTCCA
TTGCTGATACCCTTTCTTCCAGTTGATCGCATCGGCTCCTGAGGCTTCTGCATTCTTCACGTAGTTCTCGAGCCTTGGTTTTCAGCTCCATCAGCTCCTT
TAAGCATTTCTCTGTATTGGTTATTCTAGTTATACATTCTTCTAAATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATGTCCTCCCGTAGC
TCAGAGTAATTTGATCATCTGAAGCCTTCTTCTCTCAGCTCGTCAAAGTCGTTCTCCGTCTAGCTTCGTTCTGTTGTTGGTGAGGAACTGCGTTCCTTTG
GAGGAGGAGAGGCGCTCTGCTTTTTAGAGTTTCCAGTTTTTCTGTTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTTTGGTCTTTGATGATGGTG
ATGTACAGATGGGTTCTTGGTGTGGATGTCCTTTCTGTTTATTAGTTTTCCTTCTAACAGACAGGACCCTCAACTGCAGGTCTGTTGGAGTACCCTGCCA
TGTGAGGTGTCAGTGTGCCCCTGCTGGGGGGTGCCTCCCAGTTAGGCTGCTCGGGGGTCAGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGCCCGTTCT
TAGATCTCCAGCTGCGTACTGGGAGAACCACTGCTCTCTTCAAAGCTGTCAGACAGGGACATTTAAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTC
TGTGCCCTGCCCCCAGAGGTGGAGCCTACAAAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTACACCCAGTTCGAGCTTCCCGGCTGCTTTGTTTACC
TAATCAAGCCTGGGCAATGGCAGACGCCCCTCCCCCAGCCTCGCTGCCGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATCAGTGAGACTCCGTG
GGCGTAGTACCTTCCCAGCCAGGTGCAGGATATAATCTCGTGGTTCGCCGTTTTTTAAGCCCGTCGGAAAGGCGCAGTATTCGGGTGGGAGTGACCAGAT
TTTCCAGGTGCCGCCCATCACCCCTTTCTTTGACTAGGAAAGGGAACTCCCTGACCCCTTGCGCTTCCCGAGTGAGGCAATGCCTCACCCTGCTTCGGCT
CACGCACGGTGCGTGCACCCACTGACCTGCGCCCACTGTCTGGCATTCCTTAGTGAGATGAACCCGGTACCTCAGATGGAAAAGCAGAAATCACCTGTCT
TCTGCGTCGCTCACGCTGGGAGCTGTAGACCGGAGCTGTTCCTATTCGGCCATCTTGGCTCCTCCCCTAAAGGTATAATTTCTATAAAATAAAGTTTTTT
TACACATAAGAAATGTATGTGACATTTGACAAATATATATATACCCATATAACCGTCAGCCCAACAACAACAAAAAATAGAACATTTCTCCTTTCCCAGA
AGGCCCTCACTGTTTTTTTGCTGTCTTCTTCCACAGCCCTGAAACTCTTATCTGATTAGTTTCATCTGTCTTAGAATTTCCTTTATATGAAACACCAACT
AAGTACTTTTTTCTGTCTGCCTTCTTTCACCCAGTCTACTGTCTGTAAAAATCATTCATGTTTTTGCATCCATCAATATTTTGCTCCTTTTAATCGCTAA
CATTTTCCGTTGAATGAATGTACCTCCATTTTTATTTTATTGGCCTGTTGATGACATTAAGACTGTTTCCAGTTTTTAATTATCATGAATAAAGTTGCTA
TATACAAGTCATGTACAAGCTTTTTTATGGACATATGTTTTCATTTGTCATGTTTATCTGGGAGTAAAATTCCTGGGTTGCATGGAAAAAATGTTCGTTT
AATTTTATAATAGACAAATTGTTTTCTAAATGAAGGCATGATCTTAGTCTAGTAATGTTTATTTACTTCTATCAACATATGTGTTTGGTAAGTTAATTTT
TTGGATAATGAATGATACCGTAATGGATATTTTTTTCTCACTACTTCTTCCTTTCTCCCTCTTTTTACACAATTAAAAAACTAAAGATAAAAGTTGGCTC
TATAGGGAAAGRTTTTATTTTTTACRTTTCTGGCAAATTTGAGATTTCTATAAAATTCTTCATAGGTATATAAAACAGAGTAAGTATATTTTGTTTAACT
TTTAAAGCAGGGTATTATTCATTTGTTAGTTGTTTAAAATCTACTATAATTATGGGTAAGGCAGTGATACAAAAGGAAGAAAAGAAAAATCCCAATTTAT
TCATTAAATAAGAATGTGTCAATGCATTTTGAATGAGAAGTCATTTTAAACTCCAAATACAAAGATGAGCAAGACGATTTTTTAACCTCAGGAATGGCAT
AGTAGGGAAAAAAGTAAGTGTATGTATATCATTAGATTCATACAGTCAGGCTGAATGTGGAAAGGGCTTTAAGAAAGTTATTAAAATTGTTTTTACATTC
TGGGGAAGTAGAAACATTTCCATCTAACAGGAACAGGGCAGTTTCACAGAGGAGTTGGAATTTGGACTGAGTTTTGAACAGAAGAGAATTTCGATGGGCA
GATCAGGAAAAGAGCAGTTCAGGAGGAGGGAATGGTGGACTGTGGAGCATGGGCGACCAGAAAGGCAGATTAAGTTAAAACAGGGTTGACAAATTGGGAG
AACACAGGATTAAGGGACTGGAATTTAAGTTTAGATTTGCTTTAATAAAGAAAAATGTTACTTTGTGATGAGAGAAAATAAGCTAAAAATTAAAAATTTA
AAAACCAATCCACTCTGAGAGATTAATTAAAGTGAAGATGGGGTCTGCTAATGTGTTACTGAAGTGAACTGCAGAGTACAGTCACTGGCATTGATGAGTC
TAGATGCTGTGAGAAAGATCATTAGCGCATTGACAATTCTAAGTAGCTGGAGACCTTTTAAACTTTCAACTTCCATATTTTTAGTAATTTTTCAAATGTG
ATTAATTTAGCCCATGAAAACACACCCCATCATTGATATAACCAATCATTATAATTATTTATTCGACTGGTGTACTTTGTCTCTAAATGACACATTTCTA
TGAAAAAAAGATCAGTTTCACTAACTCCTCAGGCTTCTGGCTGTGACTTTTCATAAATGTCTGTATGAACGTAAGCTATAACTTTGCTTCATTGTTGTTT
AGATGACATTAATAATTGGTTTTACTTACTGACTATGGGCATTTTAATACAAGATTCCATTTTAAAAGTGTGTACTTGTAGCTTATTGCAACACAGTGAC
CAAAGACACCATATTCTTACTTCTGGAATCAATTTGTGGGCATTGTTAACAGTATCTTCACAACTGCACTAGTCAAGCAATCAGAGCTAAGCTTTCAAAG
CAGATTAGAGGAAGCTTATTAGCAATAAAATATAGTCAAAATATACCAGGCATAATCATATTTTTATGTAGTGGAATTACCTCAGCACATGGAGAATCTA
AATTAAATGAGTTTATAATTGAGGTTTGTGTGCAAGGGAAAAGAAAATTCGTCTGTTATGGAAACGCTCTATATTTTTTACATTATAGCCAAAGTCTTAG
TTACCTTTTGAGGGTATCTGTAGGTGCCATTAAATTCAGCTATCCTCTTCTGCTGTGGGTATAAGCACATGGCAAACCCAGGCAAAAATTAGAAAAATAA
AAAGGATTGTAGAGAAATGGAGATATAAAAAATTAATAAGAGAAGAGGCAAGCTAACTCCCTTATCCATTTTTTTCCTCAAGGTTATTAACAGAAATTAT
TTCCAACATAAATGTCCATAAATAATTTTGAAAATCTAGAAAGAAATTGCATTTCTACTTTAAAAATAGCTTTCTATGGCTGAAGGTTTGCTTCAGTTGT
TTTACTGTCACAACTCCCAAAAACCAGCTGGTTCTGGGATGTCGTAACAATTTGATACTTCAAACCAATGGTTTGTGCTCATTGGCTCCCTGGTGCAAAC
AGGGAGATAAATGCTACTTAAATAGTAGGTGAATGTAATTTTGCACTTTAGAAAATGTCTGCATGTTTATTAGAGAAGTGAATGCTGAAATCAGCGAACA
AAATGTAAAGTGAGCAACTAAGAAATACTTATAAGRGCTCACTTGTATTATTTAACTGTGTAATCCTCTATCTCATATATATGTAATACTTTCTTCAAGT
TCATTATAGCTCCCGGGCCCAGTACATCCTAGTCCAGTTCCAACCATGTCTAATTTTAAAATAGCTATGCTCACTTCAAACGAAGATGTTGCTATAGCTT
TATTTTATTTTATAGGCTTCAATTTTAAAGTTGTATCACCTATAGATAACAAAGACAGCTTTCATGGACACCTCAATTTAGAAGAGTCTTATAGGCACTT
TGTGAGATAAACTGTAAGTGTATGTGCTAATCAGATAATTCTTTTACTAGAGACTTTAGGTGAAGATAGCAAATCTTCTAAAACAGACTGATAATTAAAC
TGGGTTGATCATTATTGGGTTCATTATTATCAAATTGAAATATGCTTTATTTTGTAATGTTTAAAATGTGTTCTTAAATTCAGTAGAATATTAATATTAT
ATTATACTTTTCCATTTTTAAATCATATTAAAAATAGCAAAAATATTACTTCTTCAAAAATGCTTTATACTTCATGTATATTACTGATTTTAAGTAAAAG
TACAATTAAGACAATTAGCCAGWCCTATTTATGAGTAGCTCTAATTGGAGCAGCTTGTTGCTGGACCCTATTCAGTGGTAGAGATAAGGTTGAGATGGCT
GAATAGTTCATCTAATTTGAAATACTTTGGTGTCACATGGACCTTTTCCTGAATACCATGGCTATGTACTCACTATTTGGCCAAATGCTGAAAATGAACA
TATATTTGCCTCCGTCAAAATGTTTTGTAAATGTTCACTCAGACATTGACATAAACAAGGCAGAAAGGTTAATGGATAAAAAATTCTTTTTCTTTAAAAA
AATACATACACATACGAATTTTCTCTCTTTTAGTTGCTAACCTGCTTTTTAGATTAGTCCATGGTTATCTTGGAAGAGGTGTGGGAGAACAAGGTGAGAG
CTAAGGAAGGAATTCTATGCAAAGCGTTTCTGATTCTCTTAGTATTTTGTGGAACAGCATGAGACATGTCTTCCAGTTGTGTAGGATAAGTACAGCCCAC
TGAACACTGCTTACCAGCAGTTTACCACAAGCCAGTTATAACATCAAAAACATCGGAACCCTTTCTTTTCTTCTATATTTGAATAATGATAAATGCCTTC
ATGCTGTGTGAGCACTATTGAAGTGTGTTTCTCTGCAGGTAAACTTGGCAGTGTCTTATATAACTACACTCGATGGGAGTATTACTTAAACAGTGTGAAA
TACATTGTCTGATAAAAATTGTATCACAATTTGGAATGACGTTTATGCAAGTGGATAGTCTGCCAGTTATTTTATAGTCTAAAAAAATGAACCTGTAAGG
CTACAGTATAAAATCCAAGTCTTTATAGTTGTATATTTGTAGTGAAAACAACCGTGGGGGAATAATATAAGCTTAATCATTTGGTGATTAGTCTACCAAC
TATTAATGATGAGAGATAACCTATCTGTTCTTTATTTCTAAAATAAGATGTGTAATACAGCTAATTAGTCACTATTTTAAAAGGAATTTAAATATAGTTT
TCATTGAAATTCAAATATTTAATTGCATGTGTACCTAATGCCTAATTATTTACATGTTGGCTGATGTTCTCTATTATCTAACTGCTGTGCTGTTCTTAAT
TGCTGCTAGTTCATCTCCGCCCATCTCCCTTGGTGATGATAGTCCTGCATTTCATGGCAATTTTCAATAGCAGTTTAATGGTCTTAAGTGGGTAGCATAA
TAGCCAGGTGAACAACAAAAAAAACAAAAACAAAAMCAAAAAAACTATTTGGCAAATTGGGATATGAGAATTGAGGCCAAAACTTTTAGTCCTTGCCAAT
TTTTTTTAAAACTTCAATTATCTTGATTCATATTCCCATTTGTTGGGTTGGTAGGCACTCCAAAATAAATATAATAATCAGAGAGAACACCAACTGTAGG
TACTAGTTTTAGCAACTGAAACAACTGGCGTTAAAATCACTGAGCTTCTGTTACATGAATACCTGAGTATTATGTGGCTACTTCTGAAATGGAGTATGCA
GTGCTCTTATAATTGGGCATTTCAGTTGAACACTGCTTCAGTAAAGTAACTGGCATTTCAAGTCTTCCTTCTGTAGTGATTGCTTTGTCTTTATTCAATG
ATTGCTTTTTTAAGTTAGAATCTGGTTGCATAGTGCTCCATGGTTCTTTCCTATGCAGTGGTGTTTCTCAGTGTTGATGTGGAGAAGCCAGGAGACATCC
TACAACTCTGAGAAGCATTTGATGTTGGCAGCAGTGGCTGTGAGGTTAGCCCATGAACTTAGGGCTAGAGGTGAGTCTTAACCTTCCAATTCAGCATCTT
TTCCATCTGAACATTCAAGTCAAATGGGAAACCTGTTGGCCCTCCAGCTGGATCTTTCCACTGTTTTAACTGGAATGAATTGGATAAGTTATAAGGCAGA
TGGTAAGATTGGATCTGATGGGATGGAGTTTGGTGAAGTGGAAACTTTTAAGCATTAGGTTTGAGATAGCTAGGGAGTGTTGACCTCTCTTTCCCCCTGA
CATTATCCTCACATTTGTTTTTATTCCACCATATCTACCTTGATCCACCTGATTCTTTTCATTTTTTTCTTTCATTCTCTTTGTGCTGGCTTTCTTTCCT
TTTTTAAAATCCCATGGTATCTCATCATCTCTTCTTGTCCTCCCATTCTACAAATAGAACATGAAATTGAAGCCTTTTTTWAAAAAAAAAAAACTAATTA
CAGAATTAATATATGTTTACTATGTACTTACTACAATTAGAAACTATATATAAACAAAAAAGAGAGCTTGCCCATCAATCCACATGCAAAATTGGTTGAG
TACCTTGAAGATTTGTAATAGTATATAGAGAAGAACATTATTTTTCTTAACTATTTAAAAGTGTATTCTGCATTCTCAATTAAAAGTCATTTTATCTTTT
ACTTTTTCTTTTATTCCTTTTTAAGCAACAAATGAATTAAATTTCCTTTGTTTTATATATGRCCTATTAACCTCAATGGAGAAAGAGGCTCCCTTTGTTT
GCTTCAGGACTTACATATTGTTACAGTTAGTCCTTAGGTAAATGAAATGAGAAGAGCTTCACATCAGCACTAGTTCTTCCCCATGGAATTTTAGTTTCTC
CACAACCACTTTACTGAATGTGTATAATTATAAGAATTATTTCATTTTCTTACAACTTTTTCTCTTTATTTTATACTCTCACCCTATTATCTGTCCTTTT
TCTTTTTTTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTGAGACAGGCTCTTACTCCGTTGCCCAGGCTGAAGTGCAGTGG
CAGGATCATGGCTTATTGTGCCCTTGACATCTCAGTTTCAAGTGATMCTCCCACTTCAGCCTCTTCACTAGCTGGGACTACAGGCTCTTGCCACCCCACC
TGGCTAATTTTTCTATTTTTTTTGTAAAGATGGTAYTTTGCCATGTTGCTCAGACTGAACTCCTGGGCTCAAACAATCCTCCCCACCTCGGCCTCCCATA
GTGCTAGGATTATAGGCATGAGCCACTGCACCTGGYTTTTATATTCTTAATATTTCTTGTTTCTTCTATTTATTTTCTTTACTTTAAACTCGTTGTTATA
AAGTGGTATGGGTTAATCAAGAGTGATGGAAAGATTAGCTCTGTTTTTCTGTGTGTGAGTGAAAGATTTAGAAGTAAGAAAATATAATTATTCTTCTTCC
CAAAGTAATGATGTTTACCAAAACACTGGTAACATTACTTTAAATTTCCTAAATTTATAATTCAATTTAGTAAAGTAGGACTTCTGAAATGGATTTTTAG
ATATATTGGGGAAAAACAATTCAGGATCTAAGGTAAACTTTTTAGGATGTATATATATTTGCATGCCATTCATGGTTGTGTTTATCTGAAAACCTAATAC
ATTTTTATCATAAAAATCTACATAATTCTAAATCATCTCAAGTGAAATTAGAATTAATATAAAGAAATAAACAAATATTGGAAGTTAAAATTTTCAGATT
TATTAGGTGTTAAACTGAATTTTTCGTCTTCTACTCCTATCCTCCCGTAAACACTATCTAGAAAATTGTCACCCAACCTATTGTAGAACTAAAAACCTAG
TGGTCTTCCTCATCTTCATTGTCTTCATTATYTCCACTACACGAAACATTCCCTTGTAACAAATATAATATTCACAGCATTGTGCAAAAAATGTACATTT
TAAATTTCTAGTATAAAATTTGATTTGTGACTCTGAGCCCCCAGTTTCCTTAGGGCAAACAATATGGGTGCTTTCAGTTAATTTTAGTCCAATCCAGTAA
TTTTTCAGTTACTTTTCCATTTAAAACAAGTAGTTCGAGGTTCAGCCTTCTGATCATTTTCCTGATATGGAATCTGGGAGCAGCAGGGAACATAAGTAAT
GTCACGGTGTCAGGATTGGGAGGTGTGCATTTTGGATCCTGATTAAATGTATCAACGTAGGTAATATATTGTGATTGTTTCAAATAGTGGAGATCAGGAA
TCCTTCCTGGTACAAATTCAGTTCCCCACAGTAACCTCAAAATTGACTTCAAACCTACTGACTTCAAATCTGACTCATGATGTTTCTCCTCTCCCATCAC
TTTTCACTGTGTTCTGCTGATCTCCATACTGTTTCCTCAATGATGGGCCCAAAAAATGCTGGAAGKTTTCTTCTATTTCTCTCTTTGAGAATCATGAGGC
ACTCATTGGGATTGTGGTTCTTGGATTGTTTCCCTCTTTGTATGTATTTATGTATGAGCCATATACAATCAACTGTTCTCTCAATATCAAGAGGTAGCAA
TTTTAAATGTTCTGTGTTTTAAACTTTAATGTATAACTTACGTCAGTCAATCCTGATAATACCACTATTCTYACTAGTCATCAACATCATTATCATCATT
GTCATCATCATGTAACAATTATATAATGGTTAATATTGGCCACAAATCAATCCTAGTTCCTTAAAATCTATTAGTTGAGCCTTATGAAACTGCCCTTTTT
GTCGGTTCAAATGGTGAGTAGAAGCAATTTCATATGGTTCAACTTATTATTACTTCAATTTCCTTACAGGCTTACAGCCAACACAGTGATTCAGGCCACC
ATCATCTCACAACTAGAAATCATCACTGTGGCCTTCTAATGGATATTCTTGCTTGCAATTTAGCCCTCCCCCATTTGTTTGTTGTACTTCAGCTAGGTTA
AGCTTTATAAAACACAATAGTATTGAGCTATTCCTCTCTCTAAAATGCTGTCATGGCATCTGATTGACCTTAGTATAAAATCCAAGCTCTGTTAATGTGA
TTTATAAGTCATGTAGCCGTACATCCCAGTTAGTCTCTGACAGCCCTGGTTTACAACTGCTGCCCCAGCCTAATTAATAGTGGTGTTCCCTTTATTCTCA
GAAGTGGACTGGTTTAGATGATGAATTACATGACCACCTTATTTATAATGTACCTCATGCTCTGCCCTGTGCAGTTCTCTCCAGCCTCATCTCTCACCAC
TTTTTAAATCATAAAAATGAGCTGTATCCATTCTGAATTCCTTTGGATTTATGGAATATATCACTGTCTCTTTCAGTTCAAAGCCTGTGCCCATAATGTT
GTCACTGCCTAAAATATCTCTCTGTTAACCTGACTAATGCATACCAATTTTCATGCTCATTTTTCTTTTCTTTTTTTTTTTTTTGACGGAGTCCTGCTCT
GTCACCCAGGCTGGAGTGCAGTGCTGCGATCTCAGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTTCCTCAGCCTCTAGAGTAGCTGGG
ACTACAGGCGTGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGATTTCACCATGTTGGCCATGTTGGTCTCGATCTCTCGACCTCGC
AATTCGCCCGCCTCRGGCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCGGTCCCTCATGCTCCATTTTTATAGTTTCTCCAAGAAGCACTT
TCTGACCTCTAGACTAGTTTGAATTTTCCTATTTCTGTACCCATATTGGCTCTATTCTTCCCCTAATCAAACCCTTTTCCCAATTAACCATGTTTATATC
CTAGTTTATGTGCTTCCTTTTAGCATGTACCATTGTTTCTCTAGGGCCTTATAAGTATTTGTTATACAGACATTACATATATATATATATTATATATACA
TGTGTGTATATATATGCATATATATGCACACATGTATATGAGAGTATGTGTGTGCACATGTTGAACAAATTCATGAGACAAAATACAACTTTAGGTTGCT
TTTGGACTTTGACATCTGCTCTTGACTTTTTATGTTGAGAAAGGGATGTTGAGAGTATGAAGCACTATAGCAAGGGAGAAGAAAAGAAAGAGAGACCAGA
AAAGGGCTGATTATTGAATATCAAGAAAGGAACACATAGAAAACAAGTAAGAGGCTTTGAACTGACAATTTGGATGGACAACTACATTCCATTTCTGATC
ATCGATCCTGTCTTTGCACTATTGCTTGCACTTATCTTAGCAGGGGCACTTAAAAAGCCTGAAACGCGTATCTTGCCTGCAATGTACAAACTTATCAGAA
CATCTCATATAGTAACATAATTTTCAGTATAAGTATAGATAGGAATTACGTTTAAATTTGAGTAAGTATTGGACTAAGATTATCTCTCCTTTTTTAAAAG
TTGGTAAGTTATGTTAAACAAAAACAAAACAATTTCTAAAATGATGACTAAAAGTAAGGGTTGTTTAAATCCATTTTATAAGATTTACTTCCAGAAGATG
AAAGTGGGAAGCTGAAGTGGCATATCATTTCTAAGCTATTTTTGTAGGTTGAATTGCATCCTTCAAAAAGAAATGTTGAAGTCTTAACCCCAGGTAACTA
TGAATGTGACCTTATTTGCAAATAGGGTCTTTGCAAATATAATTAAGTTAAGGTGATGTCATACTGGTTTAGGGTGGACCCTGATCCAATATGACTGGTA
TCATAGAAGAGGGGAGGAGATACAGAAATACAGGGAGAAAGCTGTGTAAAGATGGAGGCAGAGATGGGAGTGGTGCATCCACAAGCCAAGCAATGCCAAG
GAAAGAAGCATGGACATTTTTTCTTACTGTGTCTAGAAGGAACCAACTAGGCTGACATTTTGGTTTCAGAGTTACAGCCTCCTGAACTGTGAAATGAATG
TCTGTTTTTTTTTTTTTTTTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCCGATTAGTTACATATGTATACATGTGTCATGCTTG
TGCGCTGCACCCACTAACTCGTCATCTAGCATTAGGTATATCTCCCAATGCTATCCCTTCCCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATGT
TCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCGGTGTTTGGTTTTTTGTCCTTGTGATAGTTTACTGAGAAT
GATGATTTCCAGTTTCATCCATGGCCCTACAAAGCACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTA
ATCTAGTCTATCTTTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAAAAATGCCACAATAAACATACGTGTGTATGTGTCTTTATAGCAGC
ATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCA
CAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCCCCTGTTGTTTCCTGACTTTTTAATGATT
GCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCATGTGTCTTTTGGCTG
CATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCGCCCACTTKTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTA
GATTCTGGATATTAGCCCTTTGTCAGATGAGCAGGTTGCGAAAATTTTCTCCCATTTTGTCGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTG
CAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCCATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCTTTGCCCATGCCTATGT
CCTGAATGGTAATGCCTAGGTTTTCTTCTAGTGTTTTTATGGTTTTAGGTCTAACGTTTAATTCTTTAATCCATCTTGAATTGATTTTTGTATAAGGTGT
AAGGAAGGGATCCAGTTTTAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCGCATTGCTTGTTTTTCTCA
GGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGCATTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATG
CTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCGATGCGGGC
TCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAACTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGAATGGCATTGAATCTGTAAATTACC
TTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCCTTGAGCAGTG
GTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTAGAATGTCTGTTGTTTTAAGTCACCTAGTTTGTGGTCA
TTTATTATGGCAGTCCTAGAAAACTAAGATACCTAAATTAGGAAACAAATATAACTATATTAAAAGGGGATAGTATATCCAATATATTTAATACAGAAAG
GATGAAGATATAGATAGTAGAATGATCAGAGGAATAATAATTTTTTTCCCACTGTTCTCAATATCACTGCTAATTCCTATAAGAACACAATTACTCAATC
ACTAATCTGCTGTAGTAGTCTGATTGATGCTAAGCCATGCTGCAGGAATGAATAAACCCCCAAATCTTAAAATCTTAGCATTATAGAGGTTTATTTCTCA
ATGATGCAATGACAAATACAGGTCCATCTGGTGACTCAGGGTCCCAGTTGTCCTYCGCTTATGATGTTTCCAACTCAGGAAATGCCTTTTATGGTTGCTA
TGGCAGAGGAAGAGAGGAGTGGGGAGCTGGCACCTAGGTCTTCAGTGCTTCAGCTAGGAAGTCATAGTCATGACTCTGCTCCACATTTTTACAATCTAAG
AATAGTCAGATGCCCCTCTTAACTGCAAGGGGCTGAGAAGTGTAGGGAACACAAGAATATTTTTTGAGAGCTMCTATCTCTGCTTACATATAATGGCAGA
AGAAATATCCTCCTAAATCTATTAAAATCATACTATGCTCTCAAAGATTCTAGCTGCTCCCTTAATTTGATATTTTATCCCTGCTATAATTTTTACAAGC
TTCTTTTCATATATATATACACACACACACATATGTATTTATGTGTGATGTATGTATACATAGCTATTACCCAAGTCTTTCCATTAACATGGTGTTATAT
TTGTCCTTACCAGAACTACTGACTGCTAACAACATAAAACTCTTTTCCATCCAAAATCATTCCTATTTAAACATTTATTAGTGTTCAATTCTAATACCAT
TCAACTGCTCATAAAGGAGAAAGAGGAAGAGAAGGAAGAGGAGGAGAAATTTTCCAGGTAAGTTTATAGAGTAAAGGAAACAACCTGCCATTTTGATTGT
TTTGAGTATCAATTAAATTATCAGTTAATAATTCAAGAAAATATATCCCAGGAAAAAAAAATCCCCTGTATAATAAACTAAAGCTTTTTTAACATCCTTC
TTAATCCCTCATATGAAAAATTTATACTCCCCTCTTAGATATTAATAAAAGCTCAATGTACAGGTAGCTAGGGTGCCCCCCGTCTTCCCTGCTGGATTTG
TAGGTCCTGCTCATGCAGAGGGGTTATTTCCCAGCATGTGGATGCTCTATTTGACTCCACTGTAGGCCAACCACCCCTTCTCATCAATCATGTTGCAATT
ATTTTTTACACAATTACGTCTTCTTTTAGAGAAGAGAATTATTTAACCAGAAATAACATCAACAAGCCTTTTACAGAATATACATGCTTAAGTTTCACAC
CATATTGTTGAGATATTTTAAGTGTTTAAAAAATAGTATGTGAATATATTTCGGTTGTAAAAAATTCAAAGGAAGCTTTATACCCATTAGGATGGCTGCC
ATAATTTTAAAAATGGAAGGTAGAAATTGGTGAGGATGTGAAGGAATTAGAAGCCTTATGCATTGTTGATGGGAATATAAAATGGTGTGACAATCATGGA
AAACAGTATGGAGGGTCCTCAAAACATTACAAATAGAATTACAATAGGATCCAACAATTCCACTTCTGGGAATATGCCCCAAATAATTAAAAGCAGGGTC
CTGAAAAGATATTTATACATCTCTGTCATAGTAGCATTATTTACAATGGCCAAAAGGTGGGAGAAACCTGGCTGTTGACAGACGAATAGATAAATAAAAT
GTTGTGCATGTATACGATGGAACATTATTCCGTCTGTAAAAGAGAGGAAATTCTGACACATGCTACCATATGAATGGACCTTGAGGACATTCTGCTAAGT
GAAATATACCAGTCACAAAAAGACAAATGCTGTTATGATTCTACTTACCTAGAGTAGTCAGAATCATAGAGACAGAAAGTATAATGGTGATTACTAGCGG
CTGCAGGGAGAGAGGAATAGGGAGTTATTATTTAATGAGTACCGAGTTTCAGTTTTGCAAGATGAAAAGCATTCTGGATGTGAATGGTGTTGATGGTTGC
ACAACAATGTGAAGGTACTAATACTACTGAACTGTATACTTAAAAATGGTTACAATGATGAATTTTATGTTATGTGTATTTTACAATACTTTAAAATAAT
TCAAAAGTAACATCCTCACTCCCAGTGCTCTATACAGAGAAAACCAATGTCTTTATTCTTTAGTTCTGCGTTTACATAGACACAAATTCTCACATAGCAA
TATATGGTTTATTCTTTGATTCATTTTTTTTTCACATAAATGCTATCTTAATGCATATCTTGTTCTGCATGTTCAACAATGTCTCAGTCTTGCCATGAGA
AACGGAGCAGGGAAACTTCCTGGGCCTAAACTGAATAGGCCATTTTATTCTCTTCTCTGCCACATTCTTTGTGGTTCTGTCTCCACTGGACTGGGACTCT
CCATTGGTCCTTTACCAATGAGCCATTCTATTCTCATGAAATATTCATGAGAATGTTTCACCAGATCTAGGATTTCTACATATTACTTCTAACATTTCCA
TATTTCTTTGCCTAAAATTTTCCATTCTATTTGAAAGTTGTGTGCCTTTTTTCTTTTTCTTTTTATCACCTACATGGGGAGGTAGAGTGTTGGCTTTCAA
AGGTGAAATTGCATCTTTCCACAACTCTGAGTTTTCTGAGTTTTGAGTCTGTTCTTGACTTCTTTTAAAAAAAAACTCTTTGGTCATGGTGGCAATAGAG
GTTAGAGTATGAATACCAACTCCTCTCGTTTAGGCCTCTGTTCTTTAGATATGGTCATTTTACCGCTTCAAGGATCAGAACATATCATATCCCAAATTTA
TAATCCCCAGAGGTAACTCAGATATGTATAATTCTTTAATAACAATCTGATTTGTTCTCAATATTTAAAGTGAACCCAAGATGAAGAGTTGGAAAGGAAA
TTTTTAAAACTCTAATGCTTTAGTAGGCTCTCAAACTGCTGACAGCTCAAGTGTTCTGTCTCTTTGGCAACATATAAAAATCCAGAATAACAGTTAAATA
TTCCACAGCTAACTATTATTTAATACTAATATTATGTCTTGGTTAATGGAAGACACCATAGACCACATTTTGAATATTTGTGCTYCTTTTTAATATTGGT
AATCCTCCTTCTGAGATAAATTCAGGAAATCTGACCTTTCTCCTCAGCCCTTTTGAAATAAAGACCACTTTTCCAATTAGGAATATCTAATGTAGTGTTA
AAGCTCAGAGTTGAAAAGATGTTTTAGTATTCATCAGATATAACGTTGTAGTATTATTGGTAACATTGTGAAACAAATTCCAGTACACTTCAGCTCTGCT
AACAAAGATGAAATAGAGAATAAAGTAGGTGTATGCTGAATCTTATTAAGGTTGACATCCAGTTTGAATACATTCATCCTCTAAGGTATAGTTTTGGGTA
TAAACCATYGAGCAAGCACAAAACAGTGAAGCTGAGAGCTGCAGAACATAGAGATCTGGTGGATTCTAAAGGACTGAGAATGATCGATGGCTACTGAAAT
GAAGTGTGAAATGGTATCCATAGCTGATATTTGTCTTTAACTGATAAAATGGCTAAAGCATTTCCTGGTCAACACACCACTCTCCCTCCTCTCTTCTCAT
TCCTCTAGAACAGTGGCCTTCAAACTCTTTTCTTGATAACAAATGCACTTAAATTGGAGAATATCTCTCTTTCTAACACACACATAACAAAAATGTCATG
AGATGTCTTAAATACTTAGACATTTTACATTCAGTGTACTCCAATATTTCTATTTTATATTCTTTTTTAAATACTGGTTTTGACCTATTAAATGGACTTC
AAGAAATTTTTCAGTCTCATCTAGGCACACAGATTTAAATATTACTTCTATGTTAGTGACCTCTTCTGTGAGTAAGCTCCGTCTCTAACTTTCTATCTCC
TTTGGATATCCTTATTCGCATATTCCTTCCAGAACGTACAACTTAACGTGGCTTAAACTTAACAGCTAAACATTCTCCCTCTGAAGTATCCCATTCTTTC
CACAGTCCTCACCCACCTCCATCAAGTTATTTTCCTCCTGTTTCCAAATTTCTGCTGAGGGTCCCATCAGTCTTCCAGGTGTAAACCATTAGATTCCTAC
TAGATCCCTATCTTTCTTCCCGTTACTATATCAGTGAGCAAGGTCTTGATTCTATTTCRTTTTTTGTCACAATTAATTATTATTAATAGAAAATAAACAC
TTATTCCAGTTTCAAAGTTGTTATAATTGAAGTTGCTAATTTTAAAAAATGAATTTTAAATAATCACTTAATAATCCTTCTTTGACTAAGACAATGAAAT
GTGGCTTTAAAAAAAGTAATCAGCACCATTTGCTTATAGGTCTTTCAGAATTTGTTCTTAAAGTTTCTGGAACTTTCCTCTCTGTAAAGTACAGGAAATA
CTGAGCTACACTGGAAAGCCTCTCTGGGACAGGCAATGGGGAGTTAAGCAGTCATCATAAAGGAATCAATGTACATTCAGCATAGTGACTTGGACTACAC
AACAATTCCTTCTCCTCTACGGTAGCTCAAGAGAGACATGCTTCTAAGCACAGAGGTATGAGAAGTCTCAGACTGTTATTTGCTGTTAGAATTGGTCTCC
CCATCTAATAACAGTAAATCTCTGGCACAGATGCTATTGGTCCTTAATGTCCTGTGATTTTAGGAAATAGTTTGGATTTAGTTTAATTTATTCAGAAATC
AAACATGTTTAATTAGGTTCACTGCTCTGGCAGAGTAAGGGTATGCTGGTTTAGTATCTTTATAATATATATATAATGAGTAGGTAAATCATAGTCTTAA
ATCATACTTAGAATACTATATTATTTAAACCAATATCTATTTCAACAAAATGTTTATAAATAAAAACAGCTGATGAAACTAAATCCAAAGGTATGACAAA
GACGACTCAGCTCTATGTTGCTTAAAGAACTTTAAAAAGCATGTGCCCATAAAGCCGTTCAAGGAGAGGGAAGGAGGTCCCCTTCTCCTTATTCTTACGA
TAGAATTCCTATTGGGGCTGTGCCAGAAATGAGCACTTCTAAGTATTTCAGAGAAGTCCAAAGTGTTAAAAAGTCTTTTATGCAAAAGAACGTCTTTCTG
AATCAGTGAATAGTAATGCTCATCAGAATTTTCTAATAACACAAAAACAAAGCCAAGTCCATACATTTGATCAGTTGTCAAAGTAATGGGAGGTGGACTA
TTATGTCAACCTTAGTCAGAGCTCCTGCTGGCTTCTTTGTATACACTGTTCACCAATTTGAGTAAAGTGGACTTTGTGAGAGAATAGTGTTTGATGGCCA
GGACCTCTTTTGGGCATTTCTTCCTAAGTGGAATACACAACAGATAAGGGAGTAGAGGAGGTAATACAGGGAAGCTACTCATTCCAGCTCAGAAGGAGCA
GAAGGAGTTAGATGAAGCCCATATATGCATTCAAGAAGCCAATGGTATCCTCTAGCTGTGGATAGTGGCTAATGTGGTCATCCAGAATCCACACTGTGGA
CCGCAGCAGCGTTTTCCCGTACAGATCCAAAAACTCTGGATAGGGATTTACAGGATCCAATGGCCGGTAGATAAAATGAATGGGGATAGTTACAGAGGCA
AGAGCTCCCACCCAGCGCCTTCTGAGCTTCTTCCTCTGATTGATGTACTGTAAGAGACCGTCAATGGCTAAGTTCCCGTCAYTGATGCGGATCCCTGCCC
ACATGTCCCACAGCTCACTCTCACAGAGCCAAGTACACGGCCCAAAGACTGGGGTGAGACCTCGAGAGAATACAAAGAAGTTCATCAGTCATGTGAGGAT
GAGTGATAGCACACCTCCATCTTTGAGTAGCTTTTGGAGAAGGAGTGGACGGTGAGTCTCAGGAAAGATACCTCCATTTGACAGACAGACTCTTTATGGT
ATGCCGACCAGATCGATTCTGCTTGTACCTGTAGAGAAACTCCTGAGCGACAATTATCTCCATAGTCATGAGACTTGATCCTGCAGTTCTGGAGCCCCAG
ATGCCGCAAAAGCGCTTCCACGATGCTGACCTGCTCAAATATGGAATAGTGATGCGGTCTCGGTTTGTCACTGAAGCCAACGCCAAGAAATCAAGGGCAA
TCACCCGATGAAACCTCAAGGTCAGACCTTCCCAATTCTTGTACCAATCGTAGCTGGATATTGGAAAACGTGTAAAACCACAACTGTCTCCTGACTTCCA
ACCACACCCACAGAGTCTTGGTAGAAGATACGCAGTCCCTTGTAAGTGAAAAACTTGCCTGAAGACTTCCACGAGTGAAGATCAGGTGACAGCTGAGTGT
ATGGGATGTGCAGGTACGCAGCAAGCAGGAGCGCGGCCCACAGCCCCACCTGGACCCACCACTCCCTCATCCTGCGGAGGCGATCTTTGCGCACGGCGGC
GTTATCCCACGCTGCCAGCCTCGGCGTTGCAGAGCACGGGGCGCCGTGGCGCCCGCAGCCCTGCAGGGCCGGCCGGCAGCGGGGTCTCAATCAGCAGCCC
ACAGCCCGCACAGGGCGGCGCCGCGCCCGGCAGCTACAGCCACTCTGACGTGCACGGCGGCACTGCGTTTGCTAGGCGCGACTGCCACAAGGGAAGTGCC
CGGGTGTGCTGGTTGCCGTGGCCTCTATTTCTAAAGTATTTCTTATATTTTCCTATTTCTTTTCATTCCTACTGCTTACACCCTCATTGACTGAACTATT
GCAACCGCCTCTTGAGGTGACTGAAATATTCATAGATATTGCAGTTATTCTCCTTTTGGGCATATAGTAGGATTACATTTGCTCACCCCTGAAATTAGGC
ATAGACACCGTCAATGAAATGTGAACAGAACTGACWTGCTTTACTCTTAGATTGAATACGAGTTTTACAAGCCAGTGCATAATTCGCCATGCTATAGAGA
CAGATGATCTTCCAGATGGATGCCTGAGTGTAGAATATATAGATCAGTTCCCCCCACCCTTCACACATGGGCCCAAAATGTACACGGAGCAGGAGCAAGA
AATACACGTCCTTGCTATCTTTGTTAGTTTAATCCACAGAGACTTTGGAGTCTGCAGTTATACAGCATCCTAGCCTGTCCTGACTGATATGATCCCTTAA
CTGATTTTTCTACTCAAAGTCTCTTCTCCCTCCGATTATTCTACATCACTATCATATTAATCTTTCTGAAATAGAACTCTAATTATATAAATTCCTTATG
AAAATCTTTGAATATTTCCCTGTTATCTTCACTGGCTTTCAAGACCATCACAGTGTGCATCTCAACTTCCTTTTAAAACACCCACGGTTTCCCTACGTGT
ACACACACACTTTCTAACACGTTCGCTTTTCTGTTCCTATGATTCTAAGATGCTCTCTGCTAGTCCTGTCTAAGTGCTACCTATTCTTAAGTAACAGTTC
AAATGCCAGTATCTCTATGAGGCTTTTTCTGGATCTCTGCAAAAAAAAAGGGACAAGAAACACCTTCCTCCCAAAGGAACAAAGAATGGCAATTACTTAT
AAGTAAGCCAGATTTTAGCAATTGGACCATTTTTGTCTTAAATATAACTAACCTGTCTCTATAGCTTACAAGGTATTCATAAATTCTTCAAACAAAAGAA
ATTTATCATAAAGGATACAGGTAAAAGTTCTGTGAAATTGTTTAAAAAATAACTAAATAAATGAATTCCCAAATGATTTTGAGTCTTTATTGTAGTTCTT
ATCACTCTTTGCAGTGGCCATTTCTAGCACTTTTCAGGCAATAAATGGTCTTCTTTCACTTCCATATTATTGAAAATTCTTTTGCATAATGCCTAGCAAA
TATCTTAATGTTGAATATCTGAATGAATGAATGAATGAATGAACGAATGAAATTAAGGTTGCATTTTATTTTAAAACTACCGTTTTTTTCTTCAGAAATC
ACAACGAGGCAAATGTTGCCAATAAAATAGTTATTAAGTTAAAAAACATAAATATCTGAGAAATGAACTGAGAAAAGGAGAAATCCTTACAGGACATGAA
TGGTACAGGAGAATAGTACATATCAAAGGGTGAACTCTGGGTCACAGCTTGTGGGATCAGGCAAGAACATGTCTAGTCATAGTCTTTCAAATAATCTTAT
TAAAAATTATTTTTTCTAAGATCCACTTTTACTCTTTTCTCTGACTAATTTTATTTAGCTTTCAAGCATTTCTTTGTGGCTTCAGTTTTGACTTCAGTTT
TTAAACAATTTAAACAAATAAAAATTACATTACAGRATTGTTACTTTTAAACTCTTACTTTCCACGGGGACTGTTATTGTAAAATCTGTTCTTATTCTTT
TAATTTAACTCCATTATTTTGTTTTAAATGTAATGATTGTTCATTATATTTTTYTCCAACTGCTTTAAAAGCACCAATCCTTCTTTGCTGTATATGTATC
AAAGTCCATAAATATTCTTTGACATTATCCTAGCCTTGAATAATAAAAGGAAAAAAACCTCTCACAACTTTTTATTCTACAAAATAATATTAAAATATGC
CCCTATTTTTACTGTAAATGTAATCTTCACAGCAACAGTCAAGAGAACAAGACTGAGTCATTCTTCATCACACATTGCAAGGGCTATGTCTCCTCTGTTG
TGAGGAGAATATTGCCCTGCAGCAATATTCTCACAAGTGGAGCTCTGGGTCATTGACTGCACTTTTGCTAATAAGAAATCTTCAGTAGGAGTGACTGGGC
CTTGTGCAAATCTCTCCAGTAGTTTCTTCCACTAGTGACGCATTAGAGCCTCAGAATCAATCACTCAACAAGTGTTTACTGAAAGCTTACTGATACCCAG
ACCTTAAACTGTTACCAAACAGAATGCCAGATATGGGATATAATTCCAGCCTGAAGAGTTTATGCTCAAGACAAGACTTACATATATTACAGAGAAGCGT
AACAGAGCAAATGATTAAGTTCTAARTTTCACTGTACACCCTAAAAAAAAGGAGAAATTGATATGGAACATGARTAGTATAGGAAAATGGTCCTTAGGAA
GGCCAGACATGAGAGGGTGAGCTCTAGGTGACCACCTGTAGGATCAGGAAAGAACATATCTAGTCCTGGAGTTAAGATTTCTATTTTTTCTAGATTTATA
GAGGTATAATTGACAATTAAAAATTGTGTATATTCTAGATATGCATGAYGATTTAATATACATATACATTGTGAAATGATTACCACAACCAAATTAATTA
RTATGTGTATCACCTCACATAGTTATCACTTTGTGTGTGCGTGTTTGTTTATGCATGGAGGACATTTAAGATCTGTGTTTGGAAAATTCCAAATAAACAG
TACAATATTATTAACTATAGTTACTATTCTGTACATTAGATCCCTAGAACTTATTCATCTTATAACTGAAACTGTGTACCCTTTGACCCAAACCTCTCAT
TTACCCCAATTCCTGGCAACCACCATTCATTCCACCATTCTACTCTCTGCTTCTATGAGTTCAACTTTTTAGATTCCACATGTGAGTGAGATCATACTGT
RTTTGTTTTTCTATGTGTGGCTTATCTCACCTAGCACAATGCCCTTCAGGCTTATCCATGTCATTGCAAATAGCAGGATTTCCTTCTCTTTTATGGCTGA
ATAATATTCCTCTATCTCCCTCTCTCCCTCTCTTTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGKCTGTGTGTCTGTGTATGTGTGTATACTAT
ATTTACTTTATCCATTCATTCACTGATGGATACTTAGGCCATTTATTTATCTTGACTGTTGTGAATGATGCTGCTATGAACATGTGGATGCAGATATCTC
CTTGAGATACTGATATCACCTTTTAAAATATATAGCTAGAAATGGGATTGCTGGGTCATATTGTAGTACTATTTTCATTTTTKGAAGAATCTCTATGCTT
AATGCTGTTTTCCATAGYGGCTATGCCTATTTACATTCCCACCAAAAGTGTAGAAGGGTTTCTTTTTCTCTGTTTCCTCACCAACATGTGTTATCTTTTG
TCTTTTATATAATAGCCATGCTAATAGGTATGAGGTGATATCTCACTGTGGTTTTGATTTGTATTTCCCTGATGATTAATGATGTTGAACACTTTTTAAT
ATACCTGTTGGCCATTTGTATGTCTCTTTTTGGAAACATGTCTATTTTTTAGATATGTTTAGGTCCTTTGTCCATTTTGAAATTGGCTTATTTTGTGTTT
TCTTGCTATTGAGTTGTATGAATTCCTTATATATTTTGAATATTAACTCCTGATCATATATATGGTTTGCCAATATATTATCCCATACCACAACTTGCCT
TTTTATTTTGTTGATTGTATCCTCTGCTGTAGAAGTTTTTAGTTTGCTGCAGTTACACTTCTTTGTTTTTGCTTTCATTGCCTGTGCTTCGGGTGTCGTA
CCCCAAAAATCATGACCAAGACTGATGGCAAGGAGCCTTTTCTTTATATTTATTTTAGAAGCTTTATGGTTTCAGGTCATACATTTCAGTCTTGAATCCA
TTTTCAGTTGATTTTTGTATATGGAATAAGATAAACATCCAAAATCATTCTTTTGCATGTGGATATCTAGTTTCCCCAATACAGTTTATTGAAAAGACTA
TTTGTTCCCCATTGTGTAGTTTTAATGGCCTAGTCAAAGATTAGTTGGCCATATATTTGTGGGTTTATTTCTGGGCTATTCCGTTTCATTGGTCTATATG
TCTGTTTTTATAGCACTATCACACTGTTTTGATTACCATGGCTTTGTATATAGTTTGAAATCAGGACCCATGGTGCTTCTGGCTTTGTCCTTCTTTCTTA
AGATTGCTTTGGATATTTTGGGTCATTTGTGATTTCATATGAATTTTAATTATTAAAATTCTYATTCTTTTTTTTAGAACTGTTTTTTCTACATTTTCTT
TCTTTTTTTCTTTCTTTTTTTTCTGAGGTGGAATTTCCCTCTTTTCGCTCAAGGTGGAGTGCAATGGTGCAATCTCAGCTCACTGCAACCTCCGTCTCCT
GGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGTGCACACCACCATGCCCAGCCAATTTTATTTTTTGTATTTCTTAGTAGA
GATGGGGTTTTGCTATGTTGGACAGGCTGGTCTCAAACTCCTGACCTCAGGTAATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATAAGC
CACTACACCCGGCCATTTTTTCTACATTTTCTAAAAAATTGCCATTGAAATGTTGAGTGACTGCATTGACTCTGTAGATCATTTTGGGTAATGTGGACAT
TTTAACAATATTAGTTCTTCCAATTCATGAACACAGAAAGTCTTTCCATTTATTTGTGTTGTCTTCCATTTCTTTCTTCAATGTCTTATAGTTTTCAGTG
TACAGATCTTTCACCTCCTTGGTTAAATTTATTCGTATATATTTCATTATTTTTGACGCTATTGCTTTGGTTTCTTATTATTATTATACTTTGAGTTCTA
GGGTACTTGTGCACAATGTGCAGGTTTGTTACATAGGTATACATGTGCCATGTTGGTTTGCCGCACCCGTCAACTCATCATTTACATTAGGTATTTATCC
TAATGCTATCCCTCCCCCAGCCCCACACCCCCCCCAACAGACCCCAATGTGTAATGTTCCCCTCCCTGTGTCCATGTGTTCTCATTGTTCAACTCCCACT
TATGAGTGAGAACACACACTGTTTGGTTTTCTGTCCTTGTGATATTTTGCTGAGAATGTTGGTTTCCAGCTTCATCCATGTCCCTGCAAAGGACATAAAC
TCATCTTTTTTATGACTCTGTAGTATTCCATGGTGTATATGTGCCACATTTTCTTTATCCAGTCTATTATTGATGGACATTTGGGTTGGTTCCAAGTCTT
TGCTATTGTGAATAGTGCTGCAGTAAACATACATGTACATGTGTCTTTATAGTAGCATGATTTATAATCCTTTGGGTACTTAATTCTTTTTTGGATAATT
TGTTGTTAATATAGATGCACGACTGATTTTCATATGTTGATTTCATATCCTGCAACTTTATTGAATTTCTTTATTAGCTTCTAATAGCACTTTAGATGGA
GTTTAGGGTTTCCTTCATATAAGATCATGTCATCTGCAAACAGAGACAATTTACCTTCTTCCTTTCCAATTTAGATGAATGTTATATCTTTTTCTTGCCG
AATTGCTCTGACTAGGACTCATAGTACTATGTTGATTGGGAGTGGTAAGACTGGGCACCTGATAAGGTTAGGCTTTATGTCCCCACCCAAATCTCATCTT
CAGTTGTAACCCTCATCATCCCCATAATCCCCAAATGTCAAAGGAAACCAGATGAAGGTAATTGAATCATGGAGGCCAGTTTCCCCGATGCTTTTCTTGT
GATAGTGAGTGAGTTCTCATGAGCTCTGATAGTTTTATAAGGGGCTCTTCCCCCTTCGCTTGGCACTTCTTCTTCCTGCTGCCTTGTGARGAAGGTACCT
TGCTTCCCCTTGGCCTTCTGCCACGGTTGTAAGCTTCCTGAGGTCTCCSCAGCCGTGCTGAACTGTGATTCAATTAAAACTTTTTCCTTTATAAATCACC
CAGTTTCGGGCAGTTCTTTATAGCCTTGTGAAAACGACTAATACAGCACCCTTATCTTATTCCTAATCTCAGAAAAGCTTTCAACTTTTCACTATTCAGT
ATGACATCAGCTGTAGACTTGTCATATATGTCCTTTATTATGTTCAGATACATTTTTCTATACCTAATTTGTTGGGAGCTTTTATCATGACAGGATGTTG
AATTTTTTCAAATGCTTTTTCTACATCTGAGATGATAATATGATTTTTATTCTTTATTCTGTGAAAGTGGTATACAGTAGTCCCCCTTTATGCATGGGGG
ATACATTCCAGGACCCCCAGAGTATGTCTGAAACTGCAGATTGTACTGACACCTACATATAGTATGCTTTTTATTCTATGTATATACCTATGAAAAAGTT
TARTTTATGTTAGGCACAGCAAGAGWTTAACAACAATAGAGCAATTATAACAATWTACTATAATAAGAGTTATGTGAATGTTGTCTCTCTCACTCCCCCT
CAAAATATCTTATTGTATTATACTCATCTTTCTCCTTGTGATGATGTGAGATGATAAAAGGCCACCATGATTAGATGAAATATGGTGAACGACATAGGCA
TTGTAACATAAAGTTAGGTTATTATTGATTTTCTGATGATGCATCAGAAGGAAGACCATCTGCTTTGAGCGACCCTTGATTATTGAGCTATGACAATGTT
GATGGTTGGATGCCAGGTGCATATGATATCAATGTCCAACAGGTCGGTTGTGATACAGTTTGGATACCCTAGAAAAAGGAATGGTTCATCTCCTGGGTGG
GAGGAAACAGGACAGTGTAAGATTTAATCCTGCTACTCAAAATGCACAATTCAAAACTTATGAATTGTTTTTCTGAAATTTTCCACTTAATATTTTCAGA
CCATGATTGAGTACAGGTAACTGAAACCATGGAAAGTGAAACAAAGCATAAGTGAGAATACTATATCACATTTATCGACTCATGTATGTTGAATTATCCA
TTTATTCCAAGGATAAATCCCTCTTAATCATGGTGAATGTTCCTTTTGATATGCCGTTGAATTTGATTTGCTAGTATTTTTTTGAGGATTTTTATATCTG
TGTTCTTCAGAGATATTGGCCTGTAATTTTCTTTATTTGTAGTGTCCTTATCTGGGTTAGCATTGTATAATAGTTACCTCATATAATGAGATTGGAAGTG
TTCCCTCCAAGTGTCTGGTCTTGAACTTTTCTTTATTGGGAGATTTTTTTTTCTGATTTATTCTCCTTACTCATTATCAGGTACTCATTACCCAAATTTG
TTCAGATTTTCTATTTCTTCATCATTCAGTCTTGGTCGATTCTATGTGTCTAGCCTTTATCAACTTCTTGTAGGTTATTGTATTTATTGGTGTATAATTG
TTCATAGCAGTSTCTATGATCCTTTTTTATTTCTGTTGCAATGTCTCCTCTTTARTTTATAATTTTATTTAGTTGAATCCTCATTCCTTTTTTCTTAGTT
TGGCTGAAGGTTTGTCAATTTTGTTTATCTTTAAAAAAACAATTCTTACTTATATTGATCTTTTCTATTCTCTTTCTAGTCACAATTTCATTTATTTATG
CTCTAATATGTATTATTCCCTTCCCTTTTCTATCTTTGTCTTAGTTTTTTTTTTCCTATTTCCTTGAGGTATAAAGTTAAGTTGTTCATTTTAGATCTTT
TTTTTTAATATAGGCATTTATCAATGTAAACTTCTCTCTTAGAACGTCTTTTGCTGCATCCCAGAAGTTTTGGTGTGTTGTATTGTTATTTTCATTTGTC
TCAAGATACTTTTGATTTCTCTTTGGATTTCTTCTTTGACCCATTGGTCATTTTGGAGTGTGTTGCTTACTTTCCATATATCTGTGCTGGGATTAATATT
TCTGACTTTTTAGCCAGGCTGCCTGTATTCTAATTACAACTTCACCACTTACAAGGTATTTAGCTTTAGGTAAGCCATTTAAACTCTCAGTGCCTCAGTC
CCCTTATCTGTAAAAATGAGTAATACAGTGATATTAATAATAATAATGAGAGTATCTACCTCCCTGACTGATTGTGAAGATGAAATGAAATAGTCAGTAG
AAAGTAGTTAGAATAGTTCACAGCATACAGTATTTATTATTTTTATGATTAACTAATGTTTTATGAGGTCCTTAGAGTGCTAGACACTGTTTGCATGAAT
TATTTTATATGAYCTCACCACAACCTTATAAAAAAGTTTTTATTGTCCGATGTTTTAGACRGCGTAGTTATAGGAGTTAGTTTCAGCCACCAGTTGTATA
TAGAGAAGCTGCTAGGCAAACATAAGATTTTTTTAAATCTAGCACAAGGACCTGAACTTTACCACATCTGTCTCCCCTGTTGACTATCAATTCAATGCCT
AGGTCCCATGAGGGAAGGGTCAAAGCATTTGATGTTAAAATGTACTTCTCAGAGGATGTCCTTCGGAGAAGTATTCTTTCTCTTACTTATGTTTTGTTAA
TTTTTGCTTGGTTTTGATTGTAGACATCAGTTTGTAATCAGAAATGAAGGGAAGGTCCTGGGAGTACCAACATTTAAGAGTGACCAAAAGAATGGAAGCC
AGCAAAAGGGATAGAATTCTATCATCTTGACTCCCAAACCTACTCCATGTTGATAGTCTTAATCTTAGTTAATGATCCCTGCTGCTTGATCCAAAAACCT
AACAATGACTTCACTCATTTCCCTCCTTCTGCACTGTTGTTACCTCTTCAGGGACAAAATTTCAATACTTTCCACTTAGACTTTCACTACTGACTTCTAA
CTCATCTTTTTGCTTTCTCTTATTTGGAACAGTTATTCAGCTTACCCTAAGTCCAGAGTGAATTTCCAAAAAATCAAAGGTTCTSCAACTTTTCATTTCT
CTTCAATTCCAACTCAGKTTCACACGTTTATCACCTAGTGTAGAAGGGCTTTCCTCCACAGTTTTGCTTGGCAAACTCCTTTTCATCCTTCAAGACTCAA
CAAAATTGTTGCCTTTTCATGAAAAAGGATACTCTTCCATCCTTCTGATATTAATAATTTTTTGTTCTTGTGTCCATGATAGACTTTGTCATAATGTATT
ACAGTTTATCCTGGAGGAAAGCACCACAAGACCAAGAGTTTCCTTTTTTTTTTTCATCCCAATGCTTGATACATAGTAGCCATTTGATAAGTACATGTTG
AATGAAAGCATGAATTTATAACATATATACCTTCACYTGACTTGGAGTTTCATAAGGAATGCAACAGCTTCCAATTCATTTACTTTCTTTTTGCTTAACA
AAGTATCTGACACRTAGTACAAAAGTTAAATATTATAAATAAAAGATTAATTGCACAGATATTTTTAAAGGAGACAGAAAAGATTTGAATATCCAGGAAT
TCCACCCAACGATGAAAGACCTATAGGCGGTTACAAGTAGGTAAGCAGAGTCCAAAATGTAGGGTCATTTTCAATGGCAGAGAGGAATAGGAGAGTCAAT
AAGAAGCAAATGCTCAAGGAGCTTGAGTAGAGACKGGAATAGGCATCTCTTTATTATCTTATTGGCTGATTTATACTTCTTGTAAAATAATTAGCTTAAG
CTAATTATCTAAGAAACAAGAATCTCTCCTAGGCAGATTCAGTTGCCTTTCCTGGTTCTCCCTGAGTGCTCTGAGTAAGCCCCACCATTGCCTTCTAGAA
AAACTTTCTTTCTTCTTTCTTGCCCACTCCCATCTGATCCCTTCACGGCATCCAGAATGATGATCCAAAAGTTTGGGTCCAAATGTGATGCAAAAGTTTA
CAGTGGTCTACCATGGTTCCTTTACAAAAAAAGACCAAAAATGTTCTGCCATTCTTGCTCATCATGATTTTGCCTCAGTTTTTCAAGTTATGTTTTGTTC
ATAATGGATTTTTTTTTGTTTGTTTTCTGAATGTGTTCTGTTCCTTCTACTGCCTTAAAAAGCCCTCATCACTGAGTCTTCCTACTACTTCCCTCACCTC
CACTTACCCTACTGAATTTTCAAACTGCAAGTCAAATATTACTTCCTTAGGGGAATCTCATCAGACTGTCTCCCTAGACCACCACACCCCACCCAACAAC
TAGATCACATCCCTTTATTAGGGGTACTATGTTTTCAGTATAATTGCAATTATAATTATTGACCCATTGAATGAGTTGATTCATGTCCCTTCCTTCTTTA
TTATAAGCTTTAAGAGGGCAAAAACTATTTCTGTTTTTCTTACCATCTTTCCCTCTTTAGTGCTTCCACATTGTCTGGTACATTGCAGACATCTAATAAA
TATTTGTCGGAAGGAATAAATATTAGTGAGAGAATAAATGGGTAATGCATTCATGAGTGAATAAAGATTATATCATATTTTTGTGGTAAATATTTTGTTT
ACCTTCAATGACTGAAACAAAGAGTTCCATATCCTGAAATATGACCTGAAAGCCATGGAATGAAAGGTTTGATAAAGCTGGACGTGGTAGCTCACACCTG
TGATCCCAGCATTTCTAGAGACCAGGGTGAGAGAATCGCTTGAGCTCAGAAGTTCAAGGCCAGCCTGGGTAGCACAATACCTTGTCTCTACAAAAAAAGA
AACAAAATTAGTTGAGCATGGTAGTACACACCTGTAGTCCCACCTACTCCAAAGGCTGAAGTGGGAGGATTGCATGAGCCCAGGAGTTCCAGGCTGCAGC
GTGCTGAGATCATGCCACTGTGCTCCAGGCTGGGTGACAGAGCAAGAGCCTGTCCCCCCCAAAATTTTTTTAAATAAGAAAGTTTTAATAAGCAGAATAT
TAGTTTAATTATGAATGAGAAGAGATGTATAGCATTTGTAGGGGTACAGAACCATGYATTCCATAAAGGAAGAAGTTAAGAGCAATGATGTGGAATAAGC
ATGGGGCTTTTAAGAACTTGTCTGAAAAGAGGATATTCTTTGGTCAATAGTTGAAAAAATAAAATAAGGCTTGCTGGAGTGGAGCAAGTCAATGGAAAGC
CTTCACAGTTAGGTGGAGCATTTACACTAAATGACTTTATTTCGAACATTCAACAAACACTGACTGATTGTCTATTGGTTACCCGCCATATAATGTTAGG
TGCTGGGGAAATAGAAGTAAGTAGAATGAGGTGGGGGAGGTTCACTGTGGCTCTTGGAAAGGAAAATACATAATCAAAGTTTGTGTTAGAAGGGTCAATC
TGAAGGCTTTTGAAAAATGGATCTGGGATAGGGAGGATGTTTGTTGAATGAATGAATCAATCAATCCAATTAATTCAATAAACTAATCATGATTTTAGTG
AGTATTCTATGAACCCTCACTTAGTTTGATTACCTTGACTGTGACATTTAACTTTGTATTTCACTACTTCTTTGCTTCTCTTACATTCAGTTAAAAATAT
TTTTAAAATACAATTTTCAAGGTTCAGAAACAAAAAAAATAAATGACATTCTGGAAAAAATAGATGTGCTCAGAACTAAAAAATAAAAATAATGGAGATG
GTAAATATATAAGTGAGAAATATGATGATGATTTTCATTAACAAGATACACCATTAAATATATTCTCACGTGATCCAAAGTAATTTCGTTCTCTGTGCCC
AGCGAGTTGGTATCTACTGATGGTGGTTTTTCAAATGCACCGTGCAGTTAGACGTCATCACTGAGACCTCAATAATAGACCTCCATCACTGAGAAGTTCA
GAGGTAGAAGATGCAGGGGGACAATGTTGGCCTGCATTAATCTTAGCTTGAAAAGAGGATCTTTAGATAACACTATCTAAATTTAGCTGTGTTCAAAATG
CTCCACCACAGAAGAGCAGCAAAAAGCAATCTCATTAAAACAAGCTCAGAAAACAATTCCAAGATATATGAGTAAAAGCAAACTAAACAACGGAAGCACA
AATAGTATGACCTTCTCTTGACTTCTACTTGCACAGCTCTACTTATTCAAGCTCTGTTTCGGACATTAAGCTTTTTTCATAGCCATAACTTTCGTGTTTT
TTCCATCATCCTGTCTATTATATTTCCCCTTTTATCTTTTATTGAGTTCTTTTAGGAGAAACTTGAAAAAAAAATCTCTATAAATGGAGGTTTTTTACTC
AAGAGCTTTTAAAATAACAGTACATCACCAGATCATTTTTAAAAAGTGTTCTATTGTAGTTAAGTGAATATTTATTGAAATTTTTCTCGTCTTCCCATTG
AAGACTACAGAAATCTCTTTCTTCCAGTTGAGCTCAAAAGGAAAAGCAAAAAAAGATGGACAGAAGCCAGAAATGCTGAATAAATTAGTATCCTTTTTAT
TTACTTTTTAAAAACTATGAATTGGCTCATTTAAATAGATTCTAAAAGTATTTGTATGTGGGTCTGAACACTGTTGTCATGGAGATTAAAACATTTTTGT
TGTTGTTGTGTACAGTGGAGATGGCAGTTTTCTTCTAGTTGATGCTTCTGTAGAATAAAAAAAAAAGTTTAGCTGAGAAAGGTAGGTCTTAATGGAATTG
TTAATATGTAGTCTTATTTTGGATGACATTTTAAAATCACTTACGTATTTAATCTGTGGATTGTAGAGCATGCTGGGAAGTTATCAATTCCATTGGTACC
TGCCTCAGTTGCAGTTCAGCCTTAAGTACTTACCAAAGGGAGCTCATTTGGGGTGGCAGGGGTAACCGAAAAGTGTGGGAGCTGAGGTATTGTTTGAGAG
CCTGTGGGCAGTGTGACTGCTCCAATCGTAGTYTCAGTGAGGAAGAGCACCATCTGTGCAAGATTTTCTCAGATGTCCTCTATAAGACTTTCATTGTCAT
CAGTTCTATGTGCTCTCAAATCATTGCTTTTTCTTCTTTATTTTGCACATAAGCTATAAGCTATTTTTTAAGACATATAGGTTTTATTTCTGTGTGATCA
AAAACTATGTCTCGGGCAACTTCTACTTTTTGGAATTAACAATTATTTTCTTTGTGGTCTTGTGTGTGTGTGTATATATATAAACACATACGCACAAGAA
GACTGTCTCTCTGTTTGTATATATACATACACGCACATATAAATACACAGAGAGAGTGTGTGTGTATATATACACMGAGAGAGAGAGAGAGAGAGAGAGA
GAGAGTCAGTCTTGCTCTGTTAACCAGCTGGGGTGCTGTGGTGCAATTATGGCTCACTGGAGCCTCCACCTCCCAGACTCAAGCAATTCTCATGCCTCAG
CCTTCTGAGTGGCTGGGACTCCCAGCATTCACCACCACACCCAGTTAGTTATTGTACTTTTTTTTTTTTTGAAGAGACAGGGTTTTGCTGTGTTGCCCAA
GCTGATCTTGAACTCCTGGACCTCCAGCAATTCTCCTGGCTTGGCTTCTCAATATGCTGAAATTATAGGCGTAAGCCACCTTGCCTGACCATCGTCCATA
TATTTTTGAAAATGACCTAGGAACAATGAGACTTTTTGAAGTTTTTTCCGTTTGCTAACTTATCAGAGAAAACTAGTGGAAATAATATCAAAAAGAAATC
ATCAAATGCTACCCATGGATAATGTACAAGAAAACTCAGCAAAATTATTTGGCACAGATGAAGAAGACAAGAAAAATGTCTGCTTTGTGAGAATACCATA
GTAGGTCCTTCAGACAGGAGGTACTTTATTAAGAAGGAGCAATTCTCATTAATAAAGATTTAGAGAGATCACTTATAAGATGTATTTATGGCAGCAAGCT
CATTTGGTACATGTATGTATGAGGGAATCAAGATCTGAAAAGATTTTCATCGGTTAGAGTGATACGTCTGTTATGATRCAATTAATTGTGATATACTGTC
TACTGGAGATTTGTTCTCCAAAACCTGACAATCTARTACTTTGTAGGAACTAATGTGTATAATCTTAGGGGGCTTAGTGGACAGAAAGTTCATTAGCCRT
TGGTACTGTGATAGGGGAAAAAGCAAATGGGACCTTAAACAATATGAATAGACATGGTTTCTCAAAGAATAGTCTATGGTTCACCTGAGCACACATCACA
AAGGATGCTGACAATGCACAGTTAAGGTACCCCACCTAGATTAAATGAATTAATTTTGGACTTGGGTTTAGATATTTACATTTTTATCAGGACTTCTTAT
GTTCACCCCAAAGTTTGCAAAATGCTCATCTAAAATAAGAAAGATGATAGGCCTGATCCATCTTCTGTTTACTAGGTTAAATCTGGAAAATATAAACCTC
AGGTGCCAGACTTCAGAGGSATATAGAAAAACAATTACTTTTTGCATTAGTCCATTCTTGCATTGCTAAAATCCTAAAGACTGGATAATTTCTAAAGAAA
AGATGATTAAGGCGGGATGCAGTGGCTCACGCCTGTAATCCCAGGATTTTGGGAGGCCGAGGTGAGCAGACCACGATGTCAGGAGTTCAAGACCAGCCTG
GCCAACATGGTGAAACCTCGTCTCTGCTAAAAGTAGAAAAAAAAAAAAAAGAAGAAAGAAAGAAAAGACGATTAAGTGGTTCTAGATTCTACAGGCTGTA
CAGGAAGCACAACAGCATCTGCCTCTGGGGAGGCCTCAGGAAGCTTCCAATCATGGCAGAAGGTTAAGGAGGAGCAGGCATGCCACACTGCATAAACAGG
AGCAAGAGAGAGTGGGAAGGTGCTACATACTTTAAAATGACCTCATGAGAACTCACTGTCATGAGGACAGTTCCAAGGGGGATGGTGCTAAACCACTTAT
GAGAAATCAGCCCCTATTCTCCAATCATCTCCCACCAGGCCCYTCCCCTAACATTGGAGATTACATTTCAATACGAGATTTGGGTAGGATCACACATCCT
ATATCACTTTTGGAGAAAGARTGGAGGTAGCTCTGAAGGTTTGTTACATCACAGCATTTGAGGAATGGCTGGGGTGATGGCAAATATCATACAGAAGAGC
AGGCGTAGACAAGATATACCAGTTGTTTTCAAATATCTGAGAAAATATCAGTAAGAAGAAGTATAGTCATGAGTGTGCCTCACTTGCCTAAACATTTTGA
TTAAAAATGCATTTTAGTAGATTTAATTATGCCTTTTTCCTCTGGTGACCATCTGTTAAAAATTTTTAAAACCTTGACCTATGAAAAAATTTGTCAGTAA
GATGCATTTGTTGTACCAAACTTCTCAGTTCTGGACTTTTTAATCAGTGTAGTTGCCATCGGACTCACCCACCAGCTTGCCTGCTAATCCATCTGATCTG
TGTCACTCAAATACAGCAGGCAGTGAAGAACAGCTGCTTTTTCTTATTTCATTCTCCTTCTATCTGTCATAAAATCCAGGTACCAATAACTAGGGATAAG
TGTTTTACCAAGAGCAGTTATTTCAATAGCTTGAACTTAAATACCAGATTAATTTTCACAGAATAAAAATAATGTTTAGTATAAGTTTTAATAATGGCAT
GTAGATGAAATATTTGGACTTGGTGACTTTTAAGTTGTGGTTGCTTTTTAAATGACTTCTCTGTTTGAGGACTTTGTGTATACACATTTCCTATCACATT
TGTGGTAGGAAGATTCTAAGATGACCCTCAAGATTCACAACCTCTGGGGTACACATCCTATATGATCCCCTCCTGTTGAGTGTGATTGGAGCCTGTGAAT
ATGATGGGACATCATTCCCATGATTAGGTAACATTTTACAACAAAGTAGAAGATATAATTCGGATATAACTCAGGTGGCTAAATTAGTTTTCTTCAAGCT
ACTCAAAAGGAAGATTATTCTGAGGGCACCCAACTTAATCAAGTGAACTCCTAAAAGAGTGTCTAGTTCTCAGAGAGCTTTTCCTGCTCTTGAAGAAGCA
AATAATCATGTGAGAAGGCCACACAGCAAGAGGCTTAGGAGGCCTCTAGAAGCTGAGAGCAGCACTGGATTGATAATCAGCAAGAAAGCACAGCTGAGCT
AACATGGAGACTGCAGCCTCTCTAGGTCGACAGGAACTKATTATCAATGAATGTTGTTTTAAGTCACTACGTTTGTGATAATTTATTATACAGTAATAAA
AACCAAATACAAAAGATTAAAAAGAAATCTAAGTTGAAGATATCTTAAACCGAATTGCATTTAATACACCTAACCTACTGAACATCATAGTTTAGCCTAG
CCTACCTTTAACATACTCAGAACACTCACATTAGCCCACAGTTGGACAAAATTACCTGGCAACACAGTACACTGTGGAATATTGTTGGTTCACCCTCATG
AACATGTGGTGGACTGGGATCCTCAGCTTGCTGCCCCTGCCCAGCATCACAGAGAGAAATGTGCTTCATATCACTAGCCTGGAAAAATATCAAAATTCAA
AATTTGAAGTATGATTTATATTGACTATGTATTGCTTTGGCACTATCACAAAATCGAAAAATACSAAGTTCAACCRTCATAAATTGATGACTATCTGTAC
CACCAAATAGCCCATTACTCAAATCCTCAACTTTTTCTCTTCAATGTATGTGACCTCTATTTATATAGTCAATACTTCTTGATTTGAAAAAGGATTGGAT
GATAATAGAAGTGAAAAGTTTGAATGATTATACTCATTTTTCTTTTTCTTTATCTATAAACCAGCGCCCAGTTGGAACATTTCCATATTTTAGTTCTAAG
GTTGTAAATTGCTGAAAGTTTAGGTTTTCTTATTGATGATTCTCTGCTAACATTTGATAAGTAGGTCCCATTGAATATCACAATTAATCTATTTAAGAAG
GTTGAGAGATATACTGTTAAACCAAAGGGAAAATGGTAAATGAAATTACAATTTATATTTTTCCCCTAATTCATGGGCATTGAATATTAACTTAGTGGTC
TGCACTTGTAGCTTGTTAATTGTTTGACATCTAGCTGAAAAGTAAAGTGTTATATCACAGATAGCTTTTCTAATTGCAAACACATCACCCTGTTTATTCA
TTGGTTCACTAAGCCTTAATTAGGTATCTATCCTGTACCAAATGGTATGCCAGGGGTGAGGATACAAAGATAGAATAGAACTTTTTAGTACAATGTGAAG
AAAGAAACATAAAGAAATAAGACTGCTGRAGTATTTTAACTACCAGGTTTGCACGTTGACTTCTTTATGCTTCATTTGGATTTTCTGAGGCTTTAACGTT
TTCCGTTTTTAAGACTAAGCTCAAGGGTCAACTCTTYCATGAAAATTAATTGCTATTTATGTTTCCATCTATAAGAAGAGTGAAATAAACAATGAAATCT
AATGACACTGAAAAGTGCTTTCAATGTACTGTTGAGTGGGAAAAGCCACATTTTTAACTTGTATATTCAGTGTGATCCCAATTTTATAATTTTACTCTCA
ATCCATATATGTGAATATAATACATAGGAAAGAGGTTGGAAGTAATTCAATCATGAGGTTAACAAGTTTTATCTCAGATGAGATTGTGTGTGATTTTTAA
AAATTATATTTATTCTACCTAATAAGCATTTATTACTTTTATAACCTGAGAGATAAACATTATTGAAAAAGAAGAKCATGGATTTAAAGCGAGGATGTGA
GACTGTGGCTGTTACATATTTTTTTGGTTTGGACCTTGGTTAAGAAGGCAAAGAGGGATAGAGATTGTGGGACATAGAGGGAGACGCAGGCCTGAGGACA
GTTACAGTGTTATAAAGGGAGAGGCTTAAGTATCATTATAATATGAGCAGAAATTGCAAAGAGTGAGAAGCTAAAATGGAAGGGAGACGATAAATAGCTC
AGCAAGGTTTTTAGGGAAGCAGAAATGACTCAGATTTGAAATATAGGTGACAGAATTAGCCYTAAGGAGGAGAAAGAAAAGATCTTTTGAGACTATAAGA
AAGGAGGTGAGAGTTGATGTAGCCATAAAAAATACAGAGATGAAAGGGTGGGGAGTTAAAAGAGCCTGTGTATGTAGCCTAAATTCTTGCTATGAACTAG
AAAGCCAGGTCATTAGCCGAAATTGACAATGGGATAGGGGTGGTCTTGGGGAGGTTAAGGCTAGAAAAATCCAAGCAAAGCAGGTAACAAGAGGACTTGA
TTCCAGACTGTGAACAGATTTGAGGCAGGGTCAGAAAGCCACCCTGAAATTTCAGTGCTATAAAMCTGTAGTGGGAACTCTATAGGAATACTAATTTCTC
CCTTCATCAACAAAGATATTATACTGGTCCTGTGAAGAGGCTTAGTCACTTCCCAGTTTATGTATTTCAAGATTATATTCCTAAAACACAGAAGTTTTTC
AGTTTGTTCCCTAACCTGACCCCAGTCTACCTGTTTCCATCCAAGACTATCACTACCACTTCTAAACCACCTCCAGCCACACAAAAAACACACACTATGC
TTGAGTCATTCCAAATTACACACCTTCCTCTAAAYATTAGTGTGAAATTAGGACATTTGGGAAATGTGATTGATATGATTTGCATGTTTGCCCCCTTCAA
ATCGCATGTTGAAATGGTATTCCCAGTATTGGACGTGGGGACTGGTGGGAGGTGATTGGATCATGGGGACAGATCCCTCATGAATGGTGTAGCACCATYC
CCTTGGTGATAAGTGAGTTCTCCCTTAGTTCCCATGAGATCTGGTTGTTTAAAAGAAATTGGGATCTCCCCCTGCTCTCTCTTGCTCCCACTCCCTCCAT
GTGACATGTGTGCTCCAGCTTTATCTTCTGCCATGACTGGAAGCTTCCTGAGGCCCTCACCAGAATCAGATGTCTGCACCATGGTTCCTGTACAGCCTGC
AGAACAGAGAACCAATTAAATATCTTTTCTTTATAAATTACCCAGCCTCAGATGTTTCTTAAAARCAGTGCAAAAAATGGCTTAACACTGTGATATTTGG
TATTTTCTAGTCCATTAGTGCACATCCCCCCGATGTAGGATAAATATGGTATGAATATTTGAATATTTTTATGAGTAATAATTAAGCTTATTGAATTATC
ACAACTCCAGTGAGATAAGTCTAATTTTAATATCATTAGAAAGGTGAAGAAGACAAGACCAGCGAGGGCTACTAATTTCTCAAGGACACGCTCATCCTCA
TGTGAGAGCTGGAACTCAAAACCAGACCTTGACTTTGTCAAAATGCACTTTTGGTTCCCAATCTGATATTAGGTGCAGATTCTTCTCTTCTTTAACCAAG
GGCCAAATAATACAGCCACCCACCCCACCCTGCCCCAGCTCTCCTTTTAGAACCAAACTGTTGCTCTCTCACTTTAGTGAGGTGGAAGGAAGACTATTTC
AAATTGACTGATGAATTAACCCTATCGAAGGTCAGAAAAATGTTAGATAACTTAAGGGGGAAAAAAAGAAAATAAATATCAAAATGTGGAAATGTTTGAA
AAAGAAAGACAAGAAGGATAGGGGAAAATAGAGAAGAATAGAGAGAGAAAGGAAGAAAGAAAGGAGGAGAGAAGGGAAGGAAGGAGAATGTTTGATGAGC
TTATGAAGGATGTCTCTTTGCAACTGAGTGTGAATTTAGATGGGATTACATAACATGAAACAAAATGAAAAGAAGAAAAAACAGATACATTCAGTGATTT
AAAAATGGGGTAATTCTTTCTGTTTTTATTTCACAAGTCTTTTGTAACTTATTTTAGAGTTTTAAAACTTTGTAKACATATTTAAAATGTTCAATTTTCA
CTAAAACAATCACATTTTTAAACATAAGGGCATATATTTGGTGTGACAACCTAACATTTGCCACCAAGTGTTAAAGATGAACCAGTTTTAATTTTAACTA
GACGATTTGAAACTTTTTTGATATACTTGAGAATTTGGGACTACCAAAAAACCCCTAAATATGATCCTTTATATTTTTTATTACTTCTAAAATATTTTGA
TTCTAAACAAATATATGTAAATACTATGTGGAGAATTTAGATACTAAAAATTTAAGTCAAATATTGTTTAAGTACTTACAATATGCCCGGGACTGTACAT
GATGCTAAAAGTAGCCAGATGCAATGGTTACTGACTTCGAGTGGCATCTTTTTGAAACAGAGGGCAGAAATGAATAAATCTGAGATAACATGATGTGAGC
TTGTTCCATACTGGAGAATGGGGCACTCAGAGAAAAGAGTGTGTGCAACTGCAGGTGGGGAGAAGCTTTGGGTTTGGCACTCCAGGAAGATATGTTCAAA
GCAGAAGGGTAAAGGGCACTGATTGTTCAAGAAAAGTGAGTAGTCTGGAAAGGGTCATTATTTCAGAAGCAACATACCAAGAAGGAGGCAGGAAAAGAGA
AGACAAAACAGCAGCATGGAAGATGGGTGAGGAGCCAGGCCACGTGGGTAGAACTTGAGTATCATAATATTTCTCCATCTAAATTCTACTAGGACTAGAA
GTCTTATGGACATTTTATTTACTCTACAAAGTGCCCACGTCAGTGACAGATAAAGAGTCAACATCTGGGAGTAGCTTAGGTGGGTTCCACATGGCCCAGG
ATTGAACCTCTTTCTCTCCCTTCTTAGCTGTTTGACCTCAGTCAAGTTATGTCACCTCTCATGCCTCTGTTTTCTTGTCTGTAAATTGGGAATAATAAGG
TAATAATAAGTATTGTGAGGATTATATATACATGTATATAATAATACATCATATATAACATTAATATTTATTAACACACATATATAATCTGCACATATGT
TTATTATGTATGCCCATATATATATTACATTATATATTCATGTATACATATACATGTAAGGTGCTTAACAGAGTCCCTGGTACCAAATAAGCACTGAATC
AACATTAACTATTATTATTTGGTTTATCTGAAACATTCAAATGGTATAGCACTAAGGCCATGTAAAAATATCATGTATTTCAATTATTGAAACTTTTTCA
CATTTTTGGGTATCCAGGATAGAGAAGGGGAGGAAGGATCTAGTCACATAATATTTGAGAGTCAGCAAATTCTTTCAACAATAATGTGATTGTATTTGTC
TGTGTGAGGTTTCTATGATGGTCATTTTCATGGAGCCAGTCAAGCATTGACTTTGAAATTAGGCAGATATGAATTTGAAAAGTAGTTTTCCCTCCACTAG
CCGTTTGACCTTGTACAAGTGACTTTAACTCATTTTTTATTATTAAAAAAATAGGGATTTTTTCTTTGTAAGATTTTTCAAGAGGATTCAATGTGGTAAC
AGGTATAAGTGCCTGTTAGAGGGCCTGTCATAGATAAATCCTCAATGAAGGGTAACTGTTACTAAAAGGAAGATATAAGGAGAGATATGACACTACTTCC
AAATAAAAACCCTGGTTCAATATTGGAGCATGGGGACCCCCTTTAAGAGAAGCATCCTCCCAGCATAATGTCCAAAATGAAAATATTTCATTTGTAAGCA
TAAGAAAGGGGTCATTTTAAGTGAAATGACCGACTTATCAAGCCAGTCCACTGAACTGTAGCTTGGAGTCTGAGTTACAAAGTAATCTATAGTGATCTGA
GGGAGTAATACAAACTCCAAGTTAATGACTGTAGAATAAATTCTACTGATATTTGCAGTCTAGTGTCATCAAGGCTAATTCTCCTTTAAAGAGGCAAAAG
CTTCTTATTGTCCCCAAAACTGTTGATATAGTATGTAACTCAGCATGTCACAGAAATGTTGTTTATCCACTTTGGCTATTTTGTTTAAAAAAAACTTTTC
TACCCTTTTTATTTATTTATTTTTAAATTTCTATATTTCATAAGTAAACCAAGCCTCAACACTCGGCATTTCAGGCCAGGTATGGTGGCTCACACAGGTG
TGTGGTAATCACAGCACTTTGGGAGGCTTGTGCAGGAGGATCGCTTGAGGCCAGGAGTTCGAGGCTAACCTGTGCAACATGGGGAGACCCTGCCTCTAGA
GAAAATGAAAAATAATTAGGCAGGCATAGTGGCACATGTCTGTAGTCCCTGATACTCGAGAGGCTGAGGTGGGAGAATTGCTTGAGTCCAGGAGTTTGAG
GCTGCAGTGAGCCATGATCTTGCCACTGTGCTCCAGCCTGGGCAATGGAGCAAGACCCTGTCTTGAAAAAAGAAAACAAAAACAAACCATTTCAAATTCA
AACATATTTTTCTGAATTAAAAAAGAAAAAATACTCTCTTTAAGTATATGAAAAAGCAAATATCTTTCCTAGAGTATATTACATTTTAACAGCTCTTGAA
AATTCAGTTAAGTGGTCTAGTGCTTGTGGTAATCTGGATGTTAGCTAACAAGAATAAAAATTAATTCCATACGTTATCAACAGCAAAGAATTTTGGAGCA
GCTACCATAAATAAGAAACTGCTTTAGATGCTGGAGATCTAAATTTGGTAAGATATAATTTCAGCCCTCAAGGATCTAGTTTGTTAAGAAACATAGGCAT
CATAACAAATAAATGTTCTTGAATTCAAAAAAAATTAAAGCTTGATTGTTCAGAAAGCAATTTCATCTAYATTTAGGAGATGTTTACAGGTGTTATATTT
TATAATGCAGATCTGAGTTCACTTTTTGTACAAGTAGAAGAGTCACACTTTTATATTAATAGTGATAATATTATTAACACTGTTGGATTTCTTCCATGTA
CTGTCCTAGATATTTTACTTATTCCTAGAATTTTATAGAATAGGTCATTTTGCTTATGTTAGCCTTCAGTTGCAGGTGATAGAAATCCAAATTGAGCATC
TATTGACACCTCTATTGATCTGTCCAGGGAAGTACAGAGGAGACCTGCCTTAGCCATCTGTTGACCAGAGGACCAATCACATCAACAGGACTCTCCCCTC
TCTCTTCTAAGCTTTCCTCTTTGTTGTCTTTATTTTCACTAGGGTTTTCTCTGTAAGGTGCCTAAAATGGCTACTAGTAGCTACAGGTTTAGGACCTGGT
CYTTAGCAGTTTAAATCGGAGGAGGAAAAATACCTCCTGTTCTTAAAGTCCCTATTAATCTCTGTTGGCCTTGCATGGGTGATGGGCCCAACCATGTAGG
AACACAGGGCAGCTTAGGTCACATTTCCATAAATATCAGAGAAGTGGTATTGCCTGATATGTATTTCATAGCTAGCAAATGACAACTGGAATTGAAGTCC
ATGCTTCTTCCGAGTGATCACTGTCCCTCTAATTGAGTACCTTTCAATTGAACCTGTTTCCTGGCGTTACTTTAATTTTGTGTGAAAAACTATCTTCTTG
ATTTTAAGTAAAAGCAATGAAAAAAGGCCCTCTAACATTTTCTGCTCACAAAAAAATTAGCTTTACAGATAGTAGACTTCATCAGTAGATACAGTCTTTA
AGGAAGAAAAACATAGTTTGTATAAAATATTACTATACCCTTTACTATGTAATGTCTCCTGGATTCTATAATAATTGGTGGGCTGTGTGGTCTGCTTGCC
ATCTTCCAAGATGTGCCCCTTATTGAAAAAACAAAAACAAAACCTATGTCTGTAGTATGTATATTTGTGCATTTAAATGTTTGTGCCCATGGACTTGTGT
GTGTGTGTGTGTGTGTGTGTGTKAATGTATGTCTATATATATATGTATGGTGTTTGTGTGAGAGGCAAAGAGAAGAGAAAAAAGAATGACGTTAGCTTAT
CAATATATTATAATAAAATTGTGTTGACTAGTTTCTTTATCGTTCTCTTCCAAACTGATAAAAGGACAATTTTTGGTGTGCGGTTTAAAAGAAATGAACT
TTTCCCCCTATACTGAGGGCAATTTTAAAAGAAGGTAGTTTCTCAGGTGTTTCTAGTCAAAATGACAAACCTACAAAGTACATTTGCATTATTTTATGTA
TACTTTAYTGATAGWGTCCTTTAAATGTTGAGTTCAAGCTAATTTTTCTTAATCTTCAAAAAGTTTAGGGATCAAATTGTATCCTGCAGATTTTTGTTAT
GCTAAATTTCATTTCATCTCTTCTTCTTTAGTTCTACAGAGAAGTTAGGTCAAGATTGTTTGAAAGTAGACTTGAGTCCAGAAACTTGTCTCTTCGACCA
GTGGATTATCTACCAATTTGAAAAAATATAGCATGCATGTGGAAGAAAATGTTACTTTTGCATGTCAGCATGTTGTCATTATTATTAGAAGAACACATCT
TTCAAAGAAAGGAAACATAAACTCCATAATGCTGTCTGATATTATTCTTGAAGATGGCTATCATTTTAGCTGTTATAAAACAGGAAGGAACATCATGGAG
CATTAGATTATAATATCTATAGTCCCACTAGCACACCATTAAATAAAGTGAAGGTATGAATATTTAAATTAGAATTTGTTTTTTATACTATATTATGTCA
GGAAGAAATTGCAAGCTCTGGAAATTCTTTGTGTCTTAGGAAAATGAGATTCTATTTTTTATAGCTCTTTAAAAAAAATACCTGCATCAGCAGACAATTG
GTAACAGTCATCATATTTGGTGTTATTTAGCATTTCTCAAAAACATGGCAGTTGTTTTTATGTGGGTGTGGCATGTTGGCATTTTTACATTATCGATTCC
TTGATTCAATTTCTACTCTGTGCTGACCTGTCATATGGGATAAATCTAACTACAGCAAAGCTCTGTTATTCTTCAGTATAGTACAACAGATAAGTAAGCC
AGATATAATACATTTGGGTGAAAAAACTACAAAATCATAGAGGGGGATCTTTTTAAGAGCTTTTAAAACAATCTTTTGGTTTAAGGCAGAGAAGTATTCT
ACAATGAAACACTAGATTGCATAAGATAAGCCTGTGCCTGTTCCAACTTAATTTTCTTTGTTACTCTAAGAACTCCCCATATATATGTAAATTTCAGCAG
TGTTAATGGGCTTTCTTTGGTATGTCAGAAGAAGAATGTAATTTGTGAACTAGATAAATCTATAAGGCACAGGTGTGAGCAAAAAAAAAAATAATAAGAA
TCACTCCTCACAAGGAAATACTAAATAACAATTATTATTGAGATGTTTCATGCATTTTTTTTATCCATAGTAGTAAGTACTACTATCTCTATAAAGAGGA
AAAATTCAATCCAACAGTCATTAAAGTTGTTCTATTAAATGTAGTGATAAATCTTCAGTTTGTATTTTTAATATAAGATCTGAGGGATAATCAAAGCAAA
GGCTTATGTGGATAGGGCATTTATTACATACCAGGAAATGTCCTGAACTCTTTACACATGATTCATTAATTTTCTGAATTACACTTGTAGATAGGAACTA
TTGTTATCCTCATTTTATAGACAAAGACACAGAGATAGAGGTTAAGTATCTTTACTGGGGCCACACAGCTAGGAATTGGCAGAACCAGGATTTAGGCACT
AAAATCTGTTTATTTAACCACTAGCCTACATGGCCATTGGAAATGAATTATACAGAGATGAAAAGTTTTCGTTATAGATTCCCTCGTTGAAACTCAAAAA
CAGAAGGCAAAATATGTAAAAGAACTCAAAACTGAGAATATTTTTAAAAATAGAATAAAATGTCATAGAAAAAAATCACATTTAAGAGTTTCTTTCTTCT
ATTACTTTTACCATTGCAGTTATGGGCGTTTGGATACAGTTTGGGTTTAATAAAACCCCCAAGTTTGGTTTTTATTAAAATAAGTCAATCTATCATTGGT
CAATACATCACATTTATCTCTCTTTTCTAGTAGTGTCAAATCTGAGGAGCAAATATATAGCTACTATACAAAAATCAAAGATTTAAAAGTTTTAGCATTG
CATTGAGCTATTAATCATTGTAAAAACATTTTAAATGCCTCCATTTTTTAGATGATAGCTACACATTAAAGATGGGGTGTAGGTAGGGTGGTTGATCAGT
GTATCTAAATAGACTATAGTATGCAAAAACATTCAGTAAAAAATGTTCCTTGAGCAAGAAGAAAAAATAAAGACAGCTGATCAAAACACATGAATTTATA
TGACTCAGTAATTCTTACATTATCATAAATTTCGCTACCACTTTTATGAAAGCAATTCACACAATTCACAATGTGAGGAGCAATTACCATCAAAGATACA
TAATAATATGCCATGTGGTATATGGAGCCACAGGATGAAGATGGCAGGTTTTCTTGGGCCATCAATTTTACTCAAGGGCATTTTAAAATAATATTTTAAT
ATTAAAGGAAGCATATGATACTGTAGAATAAAATTTATTTGAATTTTTAAAATCTCCAACCTGACTCTTCTGTGAAATTTCAGAGCTGTGGCTGTTAAAT
TGGAACTATGCCACCAGACCCTGGGGTATGTCTATTTATTCTTCTCTGCCTTTAGGGAATTTTTTTAAAAAGTTCAAGAAGCCGTGAGATAATGCAGCCT
TCATAGTTATTCTGTTTGTAGATTGGTAGTAAATTTTTGATACTTATTATGAATCCAAGAGTGGAGGTGAAACATAGCACTGGATATTTTTATATGTGTT
GGTCTATGTCAATCAAATAGGAGAGATAAAATGATAGTCTTGTTAGTGAAAGAAAATAGGGACAATTAATGTATAATAAACTTAAAGTTACATGATATGA
CAGCATAGAATTAAAAATATGTCTGTCTAGTAATTTTTTTCTCCTTCGCAATTATTGCTTTCTTCATAGGCTTTTCCTATTGTTCTCTGTCAAGACACTG
CAGTCTGTTTTAATCATTATCATCTACTGCTTCTATTTTACTTGTTATGTCATACAAATTCATGTTTGGTTCTCCACTAATACTGTTTCAAGAGGTCACG
AAGAAGGTATTTTTTTTTTAAAGGAACACCAAAATCGAATGATGGTATGATGGATTTTATGTGTGACTGAGCTTGTGTGGAGTGAAGAAAAATTCAAAAT
AAATTCCTCTCTGAGACACACTGCATGGAAATATCAAAGCAGTGCAATTCTTTCATAAATTAAAGGTTATACTCTCATTCTGTTTTGGGTCCATCCAGAA
GATGATAATGTTTCGAGAGCAGCAGTTTCTCAGGACACTCTTCTGTGTTTCACTATGGTACCAAGAAATTTGCCAGGGAAAGAAATGATTTGCCTTTATT
CTGTCAATATTATCAAATTAAGAATGTTTTTCCAAAAATTCTTTTAAATTATTGAGTGTTTATTATGAGTATTTATGATGTGCAAGGTGCTAGGCTAATT
GCTGGTTGTATATAAAGGTATTTGGACTCCAGTACTATTCTATTTTTATTTTGTAGTCTGTGTGAATTTATAAACCACTAAATCTTACAGGTTTAATACT
CAAAACTCCTCTTGTCTTCAATATACCTACCATAGACTGTAAGGGATTATTTCGAGTAGTCAGTTGGGGTTTGATATGGTGTTAATTCTTTATGCATTTA
CATCATTCTATCAATTTCAAGTGTGTTCTTTTATTCTTTTTCTTTTTTCTTTAATTTTTCCAGGCTGAAATAGTTATCTTTTAAAGTCTGTTCTACAGCA
GCTGCTCCACCCCAGTCATTGCCTTTAGCTTTCTCTAGATTGCCATTAGGCCTTCTTGAAGTCGTGCTTATTACAGATATGTGAGGAGTGCTTTTTTTAG
GGGGGGAAGGGGAGAAACAGATGTAGAATAATCCTTTTTTGTTGTTGTTTTTAACACCCTTTTCTATGATGGCCAGTGTTTCACTGATCTTGTTGGCTGT
CTCCGTGGCTGGATGAGTTGTCTCGAAGAGCAGTTTACACTCAGTAGTGACCAGGTCCTTGAGAGCTCTTAGCTCATCATCCTTTAAGTATAGTTTGGAG
TATTCTTCCCAGGCTGTACTACTTCATGCATTTTTTTTTTTTTTTTTTTTTTTGCCTATTGTATTTAGAGTTTTTCCTGAAATGAATTTCTCACTATGTA
TTTGACTATCAAGAAGAGTTGTATCATCTGCAAGTTTGAGGTTTCACTTGAAAATCCTATTAGCCCATACAGGGAATAATTCATTCCAGTAGGTTCTTAA
TAGCCCTTCCCTGTTCCCTGTTTCTAATCCATTTATTGCTCTTTAAAGATTACCATGTACTCCTTTTTCTTATTATAAAATATTGCATATTCATATTAAA
ATCTGGAAAATTCATAGAAGCAGMAATAAGTAATCTAATGAATCAAAAACAATGTCAAGTAGTGTTTCTTAATCATTACAATTATTTATGAATTTTGGTT
TTAATTTTTCAACATTTGGTCTACTTGATGTGTGGCACACATTGTTCTATGAAATCCAAACAGTGTTATTGTAAAGTCTCTGGGCTTCTTAGAGCAAAAG
TTTTAAAACCATCATTTATATGTTTAATATATTTTTATCTATTTCTAGATTTRTTTTAAAGGCAGTAAAATAATMTAACAGGCTCCTGGGTACCCATGGT
GTTTATTATATTATGAAGAAATAAAATATTACTCATACAGTCGAAACCCTACAATTAAATTCCTTTCCCTCCCTTCAGAGGGAACCTATTATAATGTGTG
ATTTGTGATCATGAATGATTTCAACTAGTTTTTCTGATATTTATATTTATTCTGCACCTTCACCCTCATCATCATCCTTACAATAGGCTTTATCTTTTGG
AAATACATATAATATTGATGTGCTCTGGTTTTAATCATCACCTGCCTCTTGCCTCAGCAAGCTCTAGGTTRTATTTTAAAGGAGATTAAATATATTTTCA
CTGAATTTAATTGTATCTAAGTAATACCTTTCGAAGAGTCAAATRATACAGAAAAGCTCATAACAAAAAGTTGCAATTCTTCCATCCCTCCTTCACTCTC
AGAGACATGACTGATCTATCTCAGCTGTTTCTTCTAGCATTTACCCCCGGATTTAAAAATAATATATTTAAACAACTATAACTTAATTTAAACATTTTAG
ACATTATCTCTTCCTTTCCTAGTATGGAAGACAAAGATTGAGCACTCTCATCTRACCCTCACACATTTCTGCCTACATCCTGCAACATATACTTAAAATA
AATATWTAATGCTAACATTGTTAAAACCATATAAATATTACTCACAGCTGAGCTCTGTGGTGCACTGTGTCTCTCTTTTCTTTTTTGTACATCGTTGCCT
GGCATTAATAATTGCTTTGTTTTGAAAAATTAGTCTTAGTTTACTACATACATTTTACTAATTTTAAACTACACTTTCTGACAGAATTATTAAACTCCCT
TCAGTATGTTTCATCACATTTGGAAATCTATTAATTGATGATTTTTGTTATTATTTGTGTTTCATTGTTAAGAAAACCATCCTGATGCTTTTCTCTCCCA
CATTTTTGTAGCTTCCTTAGAAAGAGTGAAGAAAAGGTAAATGTTTTTAATAAATTATGTGTCTGAAGATGCCTTAATTCCCCCCTCTTTTAGATATCAG
CTGGCTCTAGAATTCTAGGTAGAAAGCATCTCTTCTCAGAATTTTGAAGATATTGCTTCATGGCTCTCAATTCTTCACTCACCTTACTCTATGAACCCCA
GGGTCTTTACATCCCTTGAGGACTGAAGTGTGTTTCCACTTCAGGTGCTTTGCACTGGCTGGTCTTCTATCTGGAATGCTTCTCCCCAAGATATCTTCTG
GCTAACTCTCTTTTCTTCTTAGAAAACTGCTAAGATTTACCATTCCCAATGAGCCGCCTCTTGTCCTTTTATTTATTTTTGCAAACTGCCCCTGCCCACT
GCCATTCCTGGTCTCCCTAAACAAGTCTTAGTATTTCTTCCCTTTCTCTTTTCATGTTGAAATACACTATATAGTTTACTTATGTATTAGGTAAACTTTT
TATTGCCTCTCTCTGTACTCCCCAAGCTACTTCTTGACCCTTGAAAAAATGTAGATTCCATGATCGTATAAAATTTTTATTACTTTAAAAACTTTTCTAA
ATTAATAAATTATAAAAAATTAATATATTCAAAGCAACTAGATGTATGCCTAAACACCTAGAAAAGTGCCTGGCGCATGTTAGAAATTAGAAAGTATTTC
TTATGAACAGTTTTATGATTTTTCACATTGAAGTTGAAGAGTCTTGCCAATTTCCCCTATCTTATATATGTGATCAGATTTTTGCCTCTGTAAACTTTTA
GGATTTTATCTTGACCCCAAATGTTCTGTAGTTTGATCACAATATGACCTGTGCTATGAATTTTTTGACCCGGGAAATTCATACACCTAACTTAAGGATT
TTAATTTTTCATTATTAATTATTTAACAATGTGTTATTTATCTATGGAACTCTTCTTTGTTAGATATTGAATTTCATGGATTAATCCCCTAGCTTTTTGT
CTTTGGTTTATTTTGATTACTCTTTTTTTTTTTTTCCTTTTTTTTTTTTGAGACAAAGTCTCGCTCTTGTCCCCCAGGCTGGAGTGCAATGGCATGATCT
TGGCTCACTGCAGCCTCTGCCTCCCAGGTTCCAGCGATTCTCCGGCCTTGGCCCCACCCCSCCCCCGCCGACCCCCATGAGTAGCTGGGATTTCAGGTGC
CTGCCACCAAACCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTGGGCCAGGCTGGTCTGGAACGCCTGACCTCGGGTGATCCACCC
GCCTGGTCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCAGCCGATTTCTCTTTTCTTTTATTTCCTTTTCTTTATATTCTATTGTTTCC
CCTGGGGAGACCTCCTCACCTTTATCTTACAACATTTTAAATATTACCATAATTTAATAATTCTTTTGTGCTTTGAGTAGTCTTTTAAAAATTAATATCT
CATCCTGTTCTTGTTTTGTGCATGCCATATGTTTTGCTAGTTCTCCGAGAATATTGACTCATTTTTGAAGTTTTTAATATTATTTTTGCCTTTGTTTCCT
CTGTTTTGTTTTCTTTCATGGGAGATACAAAATTTCTGGGAAAATTTTGCTGTCCAATAATGTTTAGCTGAGACACTAAAATTGTTAAATCTCTGTATGT
CACGAAAGCATGTTAACTCAAATATGAACAAGGTATCATTTCATTGGAAGACTCCCAAATATCCTCTCGGTAGGCTATTTTTATGGACAGGTATTTTCCA
ATCTTTGTCTGCTAGCATTTTTGTTGAGAACGGAGTATGAGCTAAGGATGAGAATAATCACACTCTACAATATGTAGATTTTCACTTTTTCATTTTTAGT
ATGAATTCTTATCCTCACCCCTCATCCTTCACTGCATGGTAATTGGACACTTTCTTATTAAATTTCCCTAGAGAATTGTATTAGGGTTCTGTAGAGGGAC
AGAACTAATATGATATATATATATATATATATATATATATATATATATATATATATATATATTAGTTTATTAAGTATTAACTTATACGACTGCATATATA
TACATATATATATGTATATATCATGGGAGTTTATTAAGTGTTAACTTACTCGATCACAAGGTCCCACAATAGGCTGTCTGCAAGCTGAGGAGCAAGGAGA
GCCAGTCTGGGTCCCAAAACTGAAGAACTTGGAGTCTGATGTTTGAGGACAGGAAGCATCCAGCAAGGGAGAAAGATGTAGACTGGGAGGCTATGCCAGT
CTCTCCTTTTCACATTTTCTGCCTGCTTTATATTTGCTGGCGGCTGATTAGATTGTGCCCACCAGATTAAGGGTGGGTCTGCCTTTCCCAGCCCACTGAC
TCAAATGTTAATTTCCTTTGGCAACACCCTCACAGATACACCCACGATCAATACTTTGTATTCTTCAATCCAATCAAGTTGACACTTGTATTAACCATCA
CAAGAATAAATTCCCAGTGGTCTCTTGCCAGGTCAGCAATGGGATAGTAACGAGGTTTATAGGGTTGGCAGGGGGATCTGGATACCTAACTAAGATTTTG
CAGCCTCAACACTTACTCTAGCCTTGTAAATTATTTGGTACTTAAAATTTCAGAGACATTCTGGGGATCAGCAGCTCAAATAACACTTCTTGCTGTGGTT
TGCTCCTCCCCTTGGCAGACACATCCTATCCCCAGCTTCCTCTGCTCTGGGCTAGTACCACTCACTCCATCCACTTTCCTTCCATCCTATATTAATTTGT
TGACACTTCTTTTCTGATGTCATCCTCTGGACCATATATATATATATATATATATATATATATATATATATATATATATATATATACACACATACACACA
CACATACACATATTTATGACTTAACTCTTATTTTAGAAGATTTGTAGGTTATAATAGCATTTAAGTGTGTGTGTTCATGGTCAGGTTTAACCAAAGTCCT
AGGCCTGAGTATTTCAATGTGAAGAACAAACAGAATATGATATTACTTTCATACCTCTATTTTTGATAGTCTGTGATTCTGAGCCCTATCTATGCTTTCA
GTCAAATTACCAATGGTATGAAACTCTTTAATTTTGTGTGTCTCACGTTTAGAGGGTRGCTTAAGAGGTTCTTTAACTGCATGACTATTGTGAGGAGGAT
ACTTATGAGTTGTTCTTCATTTCCATGGGGACAAGGACAATGAAAATACAGTATAATACATTCAGAGTGTTATTAGAAGTTAGGTAGTACCTTTTAATTG
TTAAACAATAAAGTAATAACATTGCTCATTAGGCATGTGCTTATGAAGACAAAAAGGCCTGATTTACTGATTTAGTGATTTAGTCCAAGGCTTTGACATC
CATATGATGTGGACCTCTGGGTACTAAAGAAGTCTATAAATCCCAATCACAACTGTGATTAATTACAAATATCTTATGCATGTATTTCTTTAGCTAAAGA
CAGAGGTAGAATCAAATAAAAATTACTCCAAGTTTACTGGCTCTATTTCTCTTCATTTGAAAACAGAATTTTCTCAAAAGGCAAAGGAAAAGTTTGTCAT
CCACATCTCTTATTAATGAAAGTGTAACAATCATATACTCACATTTCTCCTTCTGAATAAAACAAACTACTGATGAGAGATAAAGATAATTATTTTTAGT
ACCTCTGTTGTCTTTTAAATATTCCTTTTTTGGAAAAGCAAAACAAGACATGATTATATTGGGAGAAGAATGGTGACCCAAGAACTAGATGGCCTTCTTC
TGGTACGGTTCTTTCACTATCTGGTGTATCTCTGAAGTGTGATCAAAGGTAACTGATCATAACTAGATAATCGTTAAAGCCCCTATCCTCCCTCCCTTTC
TGTATTTTTACCTTTCTTCCCTTATTGATACTAAGACCTTGATACTAAGTTGTTCACAACTGGCCCACATTCTAGGTTGAAATGATGGTGCATGTTGGAG
ACAAATGTACAAATAAATACCATATGGTTATATTACTACTGTGAAAATGTATGTAGAAAATGCTGGGGTAATATGGACTATTTTCTTAATAATCTAATTT
CTTACCTAGTAGACAGTCAACATTTCCAATCATGGAAATGAACTAGTGTCCACATAACTGAAATCCTTCACATCTGGCTATCTTTAGGCCCTAAATTATG
TGAAATTCACTGAGTATTTTCCACAGABTTGTTTACTGTTGTAAAATCTTAAATCAAAATGTTACATCAAAGGAAGAGTTGCATCAAAAGAACCTCAGCA
AAACCTCAAAACAACCAAACACTCCACTTGTCTGTTTAAATTATTAGCAAAAGCAGCTCTGTTATCCCAGCTTCTAAGCTAACCAGACTCATCATTTTGG
CCTTTCATGTATGCTTTTCCTATGGCCAAAACGTCCACAAATTACTAATAAATGCTGRCAAGGAGAGAGGTTAAAACCAGGAAGCCATGCCTTTTAGCTG
ACAAAACATTCATTGAAATGCTATCTGGGTGAAGCACTGAGAAATTAATCRTCTGAATAGTCTAAATTATAGTACATGAAGAATGCAACTTGCTAGGGAG
ACATACCTTCAGCATTATTCGAGGTTAATTTAAACCAACATGTAAATGTTTGTATGCTTCATGTGTGGTATCCCAAAAGGTTGTGTTTTCTCTTTTGATC
TTTGAATATGCTGATCGCCTTTCATGAACAGTGGCATTCAATGCACTTTGAAAAAAACACAGTCTTTTTCTTTGAAGGTAAGTTGTAAGAAAGAGAAATC
ATTAAAGCCTGGAGTGCAGAATTGTTGTCGACTGAAATGGTATCAAGTGAGTTGAATGCCTCATATTTTAAAAATGGGCATGATCTCTATTATTACTAAC
AAAAAAATCTGCATTTTATGTGATATCTGACATGGGAAAGGGATGCTTGATGAGTAGCCAATGATGTTGAACTGGCTGTATTTTCCGACTGACTTGTTTT
TCTTATGAAGGCAGCATTTTAGTAAAATTGTGTTTGTCTTTCTTTCTGATAGGCTCTAATTGAAGTTTGAAGGTTCATTACACAATGCCTGGGAATATGT
TGTCAAATACAATTCACCTCTCCCACAGTGAATATTGGCATGATTTTATAGGACAGGGTACTCTAGAGCTCAGCTGTCATAATATTTGGCTCCAATTTCA
TTCATAATGGACAGAATATCTACAATGTTTTGAATCCCTACTTTCAAATGTCAGCACACTGGAACAWATATTAAAGAATGGGTTTGAATCTAAGTAGATG
AGTATTTCCTTGAAGCAACATGTTATAGCCTAAATGTTGTTTCCTTCAATTATGTTTAAACAATGTAACCTTAAATGTTTCACAGATGTATCACTTGAAA
TCCAAAACACATACTACTCATCAAAGTCATCTTTATTTAAGCTTAGGAAGAAAAATAGAAATCTGAAATGTTTGCTCTTAGTCCACACACACTTCTCATC
TGGCAGGACATTTCTGAATTTATTTGGGAAATTGAATATATGTCAGGTAGGTTTGGGTTGCTGGGTAAATGAGTGTACTTCAGTGTCAGGACTGTTTTTA
TTAACAGATTTTATAAACTGGCTTGGTAGTTTCCAGTTCTGTGGCAAGAACAATCTATCATAATAAACCTGTAACATAAAAGTACAGAATACATTCCTGT
TTCAAGAGTCTGTAAGAGGAGTCCCCTCATGAACAGTTTATATGAGAGGATTATAAAATGAAGTTCAGCAGTAGCACAAGCAACTGCAGTGAATGGTGTG
TTGTTAAGGTTCTTTAAATCATGAAAAAAATATACTTTCAAGGATTTATTAATCTTACTCCAAATATATATATTTTGGTAAATAGCAATTGGAAAGAAGG
GTTTGTATTTCTTAGAAGCACTGAGCTGACCAATATATTGGAAAACTAAGTAAAGCAGGCCAGTGATCTCTATTCTGAGTGAAATATTTTGCTCTGTTTG
ACATCTGGGTGCAATGATGGCTATGTCAGTGTCACTTTATTTTTCTCTTGTGCAAGTTTGATAAAACTCTTTAAATACTAATGTGTATTTTAGAAAACAC
AAATTCTGTTATATTCCAGGAGGAAGGAAATTGCCTTAGGATATGAATCAGATTTGATAACATGAACTATCTTATTTAATTATTCTAAATTGAAAACATC
ATGAAAGATAATTGGGATTTTTCCATTTTTATTTTMCTCTTGTTTCTTGCTTATTTGAATCATTCGTTTTATTCTTCTTTCTACTTAGGCTAAGCTCTCA
AAAGGAAAGGAGATGTAATTCAATGTATGTAAGTTTCTAAGTGTAGGTATTTTTCAACAAACACATAAACAATCATCGATGACATTATTACTTATGTCAC
ATAAAAACTGTGTTTAAACAGATTAAAAATATTTTCTGGAGAGTTTTATTTATTTTACAATGTTTACAAGTGAATTGTCAAGATGTCTCCCAATATTATT
TCCTTTCCAGACAGCAATCTTTAAATCCTGCTTGAGTCATCTTTTATTCCAGTTTTCCTTTTTTTGAGTGTAAAGGCAATAAATTATAACAATAAAAGAC
TTATACTCTTTGTCCCATAGTTTCTCTTTTCTGTTGAAATATAGCTTGCTCTTTGGAATATTAACATGTAAACCAGAGGTTTTTTTTTTTTTTTTTTTTT
TGAACAATCTGACTATTCTAAAACACTTTTTAGGATATCACTAATTGTCAATAAGGAATTGAGATCCACAGATAAACTTATCAGGAACAGAAAATTGTTT
TGAATACATTTTTAATATTTAAATAGTCACAGATCAAAACTAAATTTTTTTTTAAAGATTCTGTTGAATAGGTAGGACTTCACATTGGATTCAACCTGGT
ATTTAAAATGCAAATACTTTTTGATTTCTCTTTTTGCTAAGTAATATTCTAAGAGATTAGCCATACATTTTAAAATGTTGTGACTGTTTTTGTGTTTCAT
GTTTGTATAAATGTAGAGATTAGACACTTGTTTAAGATCCTTAAAGATCTGAGGTAAATTATTTTTGGGAAATACAAATTTCTTTCTGTAATTTCTACCT
TCTGTGAACAACTTCTTGAAGACTGTTCTGTTGCTCTTGGTTTATACGCAGGTCCCTTAAAATAACAAAATAAAAAATAAGAAACAATACATAAGGACAA
AGACTGGAAATAAAAGAAAAATAATTTAAACTCAAGGGATTTTCTTGGGTAAGGCCTCAGAGAATGTTCCAGCTGTTCTTAAGAAAGACATTGTATATAA
AGGCCACATTTAGCTGAATAGACTGAAAAATTCTTATTATTTTGAGAAATGATTCAATTGTTGTCTCAATGCTAAATATTCATAAAAACTATCCATTCAT
TAATCCTTTTTAAACTGAAGTAATTAGAAAAAGCAGGTCAATGTGCAAAGAAATGGGCTTTTCTTCATCAAATGGTTAATTCTTTATTAAATGGTTATTC
TTTAAAATGAGCAAAGATGAGCTCAGCAAATAAGGTACTTGTAATAATGAAAGTACTATATGCAGGAATACTGGCTTTTTGTTTTTAATCTGYAATTRGT
TAATTAAATTTCATTGTAGATGTATTGCATAAAATACATTTGAAAGGCACCATTCTTCCTCATAATACAGCTAGTGAAGGTCCAAATTTCAGTGACTCAA
GTGTAGGTGGGAAAAAGTCCTCACAAACTTTACGCAAATTGTTAGAAAAGCTTATGTAAACATGACTACTATGAATACAGACCAGGGATGTGCCCCAGAG
TCAATGAGTTCAATTCACTTGCTGCCACAATGCTTTCAGGCCTAGGCTCTTTGCAGACAGAGAGCAGCATCAGGGAATGATTATTACCTGTGCCCAGCAG
GGTTTGTTCAACTGCTAATGGTCAAGGTAGATTCAAGCCCTCTATCATTCCCAGAGACATACAAAATCAAATACTGACTTAAAGAGAAATATAAATGAAA
TAAGTTCTAAAAGGAAAAGAAAACAAAGAAATGTCTTTTACAAGGCACTAAAGAAAGACACAAGGGAACATTCATATAGATTATTTTATTAAATATTTAT
TGAGCAAAATATTTGTGCCAGGCACTGTTAGATTGGCCTCATGAGCTTTGCATGGGCACCCACTTGCTATACATCAGGCTTGGAAACATACTCCTGACCA
GCATTTATGCTAGACATGATTTATGTCTCATACTGTGCTAAGGGGGTGACTAAAATCTATATTGACCAATACTTGATGAGTATATTTGACAGATGTTTAA
AAGTTAACCCTGCTCAAAAATGTAACGGGATCTTTRCTAATCAGGATCATAGGTTTGCATGGGTTCCTAGGAGGAAAAGAATGAGTGGGACCAGTTTATA
CACCAAGCATCAAAGGACTCCATTCTCACCCTAGGGAAACACGGATTTTACTGCTCAGGGGATGATGAAAATTGGATTCCGACTTTTACACCTCAGATTA
TTTCTATTAATTACAYCTCAGATTATTTCTATTACACCTCAGATTATTATCTCAGATTATTATCTATTACACCTCAGATTATTTCTATTATTCAGTCTTA
GCCGAAGATTCCCAGCCCCAGGTCCATCGTTGCTCAAGGGTAAGATCACAGACCTAGTGCCTGCATTATTTCCCTTCTGTGCAAATCGTGAGGGCCAATT
TTGCTCTCTAAAAATTTGCATTAAACAGACCAATCACTAGATTCCTTCTACAGATCAAAATGCATTTATTCAATCAAACAAAAGGGAATCCATGTGAGGC
AACTAAGGAAGGGCTTTCCCTCCAGTCTGGTGAGCAGTGGCTGTGGCTCTGCTGGCTCTATTTTGTGAGGTCTTTATAAATGACCACAATTAAGCTGTAG
ATGTACTCATGCCCTAGATGTAACCATCCGTTCTGGGGAATATGGCTTGATAAACCCATTGGTGTCTAACACTTATTCATGTCACTCATTCATTCATTCA
TTTATTCAAACAAATATTTTTGAGCTCTTATGAGGTGCCAGGCACTGTTCTAAGCAATGGGAAAACAGGAGTAAACAAGTCCCCATTCTTATGATGTTTT
TATTTTAGAGGGGATAGGAAGAAGGAGAAAAAGCCAATGAATAAGGAAAGAAATAAATCAACAAGATAATTTCATATAATGCTAAGGATGGGAAGAAATG
AAAACAGGTGTTGGAATAGATCATGGGGTGGGAGTTAATTGAAGGGGTAGTCAAGAAAGGCCCTGCTAAAGAAGTGTTGGGTTGGTTAGAGCCCAGCAAG
GGACTTTTCAKCTCTGGAGATGCTTGTAGAGAAATGCAGAGGTCCTAATATGGGAATGAACATCTCATGTAGGGTATAGCTTCTCATGTTTGAGGAACAG
AAACAAGGCCCTAAAGGCTCTAATATTGTGAGCCAGGATAAGGGCAGCCAGGGTAAGGGCAGATGACATCTGGAGACAGGTAGGGGCCAGGTAGGACCTT
GTACTGTGTACGTAGGACCTTGTACATGTAGGAGTCAGATCACGTGGGACCTTGTGCTTCGTTTGAATTTTATTCTAAATGTTGGGAATTGATTAGATGA
TTTTAAAAATAATACTTTCTTAATACTGTGTCACTCTGCCTACTCTCTGAGAAACAGATCATAAGGAGACAAGGGTTGGAGGCAAGCAATGCTTCTACAG
AAGACTTTGGTAGGTTCGGTTTCTATAATTTCCAAGCTCTGCAGGAGACCACTACAGCTTCCTCCTCAGTTACTCTTATTTACTTATGGGCCCAAACCCC
TGAGCAGTTAAAATCTGGCATCAATAACACTATCAATTCTGGCTAACACCTTGGCCAGTGAGAAGGGTTAATATAACAGGAGGGAAGATGACAGACGGAA
AACCATTTCTTTTACCTCTTTTTTGGTCTCCACAGGTTGACAATAACATGTTGTAATAATCACATGTATGCAATTTACCAGAAGTTTTGAAATCTTAGAT
TACCACTAACATTCCAATTTCTAAAGACAGTGGACATGAATTCCTGCAGCTCTCTGAGAATAGATTTTAGCTGTTAATATTATATTACAACTTCCTACAT
AGTTGTAAAAATTTAGGTTAATGATTCCTGTGAATTTATTTTTATTTTTTTGAAATGGGGTCTCACTCTGTTGCCCAGGCTGGAGTGTAGTGGTGTGATC
TCAGCTCATTGCAACTTTGCCTCCCAGGCTCAAGCGATCCTCCTGCCTCAGCCACGAGAGTAGCTGGGATTACAGATTCACGCCACTACACCCAGCAAAC
TTTTGTATTTTTAGTAGATATGAGGTTTCACCATGTTGTCCAGGCTGTTCTCAAACTCCTGAGCTCAAGTGATCCACCCACCTAGACCTCCCAAAGTGCT
GGGACTACAGGCATGAGCCACCTGTGAATTTAAAGTAAATTAATATTATGTACACAGAAGTTACAATAAAAATGCTTCTATTTGGATAAAACAAAAAAAT
TAAAACTACTGTAAAAGTGAAAGATACTACATACTTTAGGAACAACTGGTATTTGTATGCAAGTGGGCCTAAATCTAATGTTGTGTGAAGATCAAAGCCA
AGTACAATTGTAGCTCATGTTGCAGTTATTTCGAGGTCTCAAAAGGGATAACAACAAAAATCTATAATAGAAAACAGAATCTGGGTTAAAATCAGTGGAA
ATAATTTTTATTTCAGAATTAAATAAATTGAGTGAAATGAAGTATCTGGCTCTTGGAGGAAAATATGGTATCTTATTCTTTAAATGTCTTTAAATTTATA
AGTCATAAGCTGCAAGTCAGTAGCATCATTATGTTGATGAATTACCCAGTTTAATTCTTATAAAAATTGAAATTATCTTCTGAACTCTAAGTCATATTTT
AGCCACAGGTATTTTTTTGTTTTGTTTAATCAATAATTCCTGAAAGAATGAAACTTATTCGACTTTTATTACGTGACAAGGTTTAAAAAAATTTGCTTGA
ATAAAACATTATGGAGTCTGAATTCAAAGCATAAAGGCAGAAAGTAAAGTATGAAGATCTTTCAAACGTCTGTCACTTTTAATAATTTTGTTCTATGTTA
TATGACCTACGAATGTTAAGAGTCTGTAAGAGTTTCTTCAGCTGCATTTGATTTTACCAACACCTTGTGGGTACAGTTAAGAAGATGACTTATTTGAGGC
TTTATAACTGAAATTGGATATGGTTCAAACGTTCAACAGATATAAACATATTTTAATTAAGAATAAATATTTTTATAAGATTGCTGAAATGACTTCTCTC
AAAAATTTATGCCGGAACATCAACAAATAAATTTGCATTACAAAATAGAAAATTCAATTGTGGAAAATCATATTCTAACTTATTCTGATGAAGTAGTTCC
CTTGTCAGGAAGCTTTTTCTTAAAGTGTGTTTTATGATTTGTGATAGAATTACCATCACTAAGTCGATCATTGCCCATTGGTTAGTCTACATGTACTGCC
TTTTAGTGACATGAGTTCAATTCTAATTAAGAATGAGAATAGCCTATAACTATGAACACAGATAGCTACATGTGTCTCTAGTGAGAGGTACTAGTCCTCT
TTGACATTTCTCTTAAAGCGGAATTTATTTGGGGTAGTGATGGTTTTACTGGTAGCCATAGGGGAAGATAAGAAAAGGGGGCCAAGATATTCATTTCTAC
TGCTGGCATGTGGAATGCTCTTTTCCTGCTCCATGCCAGTCTCTCACTTGATTTAGAAAGATTTGTGCGTCCTTAGCTTTGACCATCAAGAAGAGTCCAT
CTCCTTTGCCTTCCTGTGCCTGGTACCTGAAAGACCTAGTGAAGACTGAAAGAAAAGTTTTTATTTTCTTACATAGTGAAAGCACTTTGAAGCATTTTGT
TACACATATCTATAATTTAACATGATAATTATATTGATCATTTACAATTCTACACATTATTTTAGCAAGTAATGAACGTTCTTAAGTGCCTAGTGTTGTC
ATAGGTATAAATCAAGTAGGATACCTGCCCTCAAGAAAGTGTATAATTTTATGCGTAGAGATAAGAGATGAGTACTTTCGCAGAAACAAATGAATAATTA
TATACCAACATGGAGAACTTAAGCTCATAGGTGAATGTGRGAATATGGAGGAGAATGAAAATCATTGCCAGGTGAGTGATCAAAGAGTGCATTCTAGAAA
AGGTGGTACCTGTACAGGGGTTTGGAGGATGCATTGGTATTAAATAAGAGAGAAATTAGAGGGAAGACACATCTTCCAGGCAGAGTGTCTAGAAGCAGAG
CCAGCAGCAGATTTTAGTGTAAGCAATTTATTGAAAAAGTCCTCTCAGAAGATATCTATGAGATGGTAAGAAAAGCTGAAAAAGGTAGGGGAGAAAGTGG
ACAAAGATGTGATCTCTAAAGTTGAGCCTCAGACTGATACATGGCATGGTCTGGAGGGAAAATTGCACCACAGAAAGAGGTACCCCTTAAGGAACAGGAT
GCCAGGATTTTACCCCTCATATCTGTCAGTTATCGGCTACAAGTCCAAGGGGCAGGGGGAAGTGCAAGTGATGTATCTTGCTGGAAGTCTCAGGGTCAGR
AGGCTCTCATTCAAAGAGGCAGGTCTCTGGAATGATGCAGCTGCAAGCCATTAGCAGCCAACCCTTGCCTCAGCTGAGAGATGGGTACCAGGATGAAAGG
CCTGGTAAAGGGTTATGGCTGTGCCACCAGTGGAATTTCCTACACTGGGAATATACATGCTAGGTGCATAGAATGTTAGGTGTGAGAGGGGAGACCAGCC
TGTTGGAAAGTATTCATTAATGCATATTTGTCAAGAATTCTAGCTGGTAACACTTTATTAAACATTAGATATTGCTATTTTATGTGCTTTGAAGCAATTA
CACTGTTTGAAAAACCTTATTTTGTAAAAAAAAATCTGTTCTATTCACTGTCTCACAGATTTAGGACARTTTATTAATTAAGAACACTAGATTTCAAGTY
AAACAGACCTGACCTTAAACCTTGACCTTGTTCTTTGCTGTATAAATGGTTTTGTATGAGTTACTTAACCACACTGAGCCTCAAATTCCCATCAGTTATA
TGTGGATTATAATGTCTGCCTCATGCTTRTTGTGAACATTCAATGTAATCATTCATATGAAGAAGCAATGAACACAGGGTCTGGTGCACATAAATGTTCA
ACAAATGATAGACATTACTTCCTTCTGGATGAGCAAAACCTTGATGCTTTCAGTAGAAGGTATTTGGAACTATGGTTGAATCTTTTCTGGGGGTATTGAY
GGGACTAGAGTCAGGATGAGGTGGATGAAATGCCAGGTACTTTCATCTGTATGACTTGAGAGTGTATGCATCAAATTTTGCACCCTCGAGCACCTCTCTC
ACCTCCACATTGAAAAAAATACATGCCAGATTAAAAAAAATGAAATTGGAAAGGATGGTTTGTAGAACTGTTAGAGCATCCATAAAACTCATTACAAAGT
AAAATATATTAGTAATAAAATGATTTTAGTAATACCTCGGGAACCACTCTAATTCCAAATCATCTCTCTGTCTCTTGTAATGGCTTTCCAATATTCTTTG
AAAAATATTGAGGTTATTTTAGTTATGATATTGGTACTTTGATTTGGTTTAAATATCCTTTTATTCTTGAGATATACAATTTCAACTGAATGGCAACTAT
GACAGAGTTGAAAATGTACAGAAAAATAAATTATAGATTAGACAACGTATTAATTTAAAAGCAGTTGCAAGCAAGTTACTATATTGCAATGAAAAAAAAG
TTCCTAAAATTGGTAATTCAACTATTGCTGTCCTAATAGCTGAAGTCATTTTTATGTATGGCAATCCTAAATCAAAGCCATCATAAGATGCTGCAGACCT
CTTAATAGCTTGGCTCCAGTGATAATGAGCCCAGGACATTAGAGCTCATTTGAGAGCAGGATTCATAATTTTTTTTACTGTGCAATTTTCCTACCTCTGG
CTTTGTCTCAAAGACATAGCCACACATGGAGAAGGACACTGATAATAAGAGAGTTTGACATTCTTTATAATTTTTCTTTTGCCAGGATCCTTATAATCCT
TGAATCAAAATGATTGAAGCAGTTATTTTTAAAAATAGAAGCTAGATTTAAAATGTATTATTTTGTGCCTCTTTTGACATTATTTTGTTTAGAGCACCTT
TAAAAACTCTACTGGTGATTAAAATATTGAAACTATAACAGTATTTTTGGCATGATTTTTAAATACTTCTTTCAGCTATATACTTCTCTAACTTATTGGC
TTATTATTTGATTTAATTGTCCTTAGGCAGTGTTAATTATGAGAGTTTGCCGAGTTTCTTCTTGGGAATTTGAGAATAAAGGATGCGGGAAAGAGGAGGT
GGGTGGAGGATGGATATAAACTGTTTTTTCAATGTACTGAAGGCATTTCAGATTACCAGAAGAATCACAGAGACAAGGGACCATTTAGCCATAGGGTTAA
ACCTGTCACTTTACCTACCCCACAAATAAGTAACTATGGCAACTCACTGAAAGTGCTTAGCTACCATGGGAGTGGATGGAGTTCGTGCTTTGTGGGGACA
ATGCTGTGGGACCTCTATGCCCCCATCCATAAGGGACCCTGGGAATTGCCTTCTAGCAGAGAGGCCAACTCACATTTCAAATAAGTATTTTTCCCTCCTC
AACTGCTTTTCTAAGCTTTGCACATTAACAYTGACCTAGTGCACCATTTAAAAGTCCTAAATATATCACACAGTCGCCAGCCCAATCAAGGTGAGTGGTC
AGACACCAGCATGCTGTGCACAGTATGCTAGTTGGCCTTAGAGTAATACAGGGTACACCATTTATGTCCAGTTAACCAGGTGACCCTCTAGTTGCTTTAT
TAAGCACAGGCTTGACTGTCAAACAGGTCACAAGGAGGACAAAAAGTGTCCTTGCATCGTATGAAAAGAGTTGCTTGAAATCACAGAATACCCTCTATTA
ATTGCTAAAATCCAATTTCCACCTGAAGACATGCCTCCATGACTCGTGAGAAAAATCAATTATTTAGGTAAATAGGATCTGCAACTCAAACACTCAGACC
TATTAGAGTATCTAGCAGCATGCCAGGAGATAGACTGAGCTGCAAGATAAATATGGAACCATCTTGTGGAATATAAATTTCAGTTAAAGGTTTTAAGGAG
TATATAATAAGGAAAGCATTGTTTTATATTAAAATGTATTCAATTATATTATGGGATGGAACTGAAAGTTCACATGCAGTTTTCAGATGTGTCCCCCAAA
GTTAATATATTTCCTGGGTACTCATTCACACTCTTCTGCCAATAGTATTAATGCTTTGGGAAATGTTTGAGAAGTGTTGTTCCAGTGGAAATGAGCCTGT
GGGTTCACTGATTCATTTATCCATTCATTCATTTATTCCTTCATACAGTATATAGCTTTCAAGCCACTTTTATGGACTATTTTATTAACTTTGAATATCA
AAACCAATAAAATAGACTTTGTGTCTGCTTTGTGACACAATTTAATGAGTAACAATTTTTTTTTTTTTTTTGAGAAGGAGTCTCACTCTGTTGCCCAGGC
TGGAGTGCAGTGGCACGATCTTGGTTCACTGCAAGCTCCGCCTCACGGGTTCACGCCATTCTCCTGCCTCGGCCTCCGGAGTAGCTGGGACTACAGGCGC
CCACCACCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACGAGGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCT
GCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGCCATCGCGCCTGGCCATGAGTAACAATTTTTAAAATAAAAATAAATAGCAAATGATGAGTAA
AGTACAACAATAAATCAAACAAAATGCTATTAGGACCATATGGCAGAAAAACAACAGAATCTTAGAAGAGTTAGGGAAGACTTCCCAAAGGAAGTGGCAA
TTAACCTGAGATTTTTAAAGATGAGCAGGAGAATTTCAGGCAAATAAAACTTGCAGTGGGGTTGGGAGTAGGTGGATGGACCATGATATTCCAGGTGAAT
AATTGAGCACTTTAGCTTGGGAGGAGGGCCCTAAATGAGAAAGTATATGACCTATTTCAGGAACTGAAAGAAATTTGGAATGCTTGGAATATAAAGTGTG
GGGCAAATGATGGAGGACAAAGAGGCAGCAGGGATAATATAGTTTGGCTGTGTCTCCACCCAGATCTCATCTTGAATTGCAGTTCCCACAATTCCCAAGG
GTCATGGGAGGGACCTGGAGGGAGGCAATTCAATCATAGGGGCAGGTCTTTCCCATGCTTTTCTCRTGATAGTGAATAAGTCTCACGAGATCTGATGATT
TTATAAAGGAGAGTTCCCCTGCACATGCCCTCTTGCCTGCCACCATGTAAGACGTGACTTTGCTCTTCAAGTACTTTCTGCCATGATTGTGAGGCCTCCC
CAGCCATGTGGAATTGTGAGTCAATTAAACCTCTTTCCTTTATAAATTACCCTGTCTTGGGTATTTCTTTATTAGCAGCATGAGAATGGATTAATACAAG
GCATTAGAGGGAAAGAGTGGGGAGAGGTAAAGTTGAAAGACAAGCAAGAAGCAGATCATGAAACGCTTTGTGAGCCTTGTTAGTGAGTTTCAGGGAAATC
CCTCTAACTGCAATGTGGAAAATGAATTGGAAAAGTCAGAAGAGGAAAATTCATTAAAAGGATGTGAAGTAATTAAAGGGATTTAGGATAATGGCCTGAA
CTAAGAAAGTGGCAGTGGGAATGAATAATATGAATGGACTGACAGGATTTTTTTTGTATTTTGACTCAGCAGGTGTTGGTAGCATTAGATATAGAGAGTG
GGGAGGAAGAAGGCTCTAGGCATGATGCTCAGATTGCTGATTTGGTTAAAGGAAGCAGAGAAAGATACATCTGGAGAGGAAACAAGAATCCCCACTTTTT
GTTTTGTTTTTTCCAGTTCCTGATAGATAGCCATGCTCAAGTGTCCCAGTGGCAGTTGAGTATTTAGAGTCAAAGCTCAGGGGAGAACTCTAGCTGGTGA
TAATGATTTGGGAATTTTGGCATAAAAATACTCATTTGAACCCAGGGAAATGGGAGGTAACATCCAGGATAAGCTTGTAGAAGGAAGAGACTGTGTAGTA
GGAACACAGGGAAAGATATCAACACCAGAGAGGAAGAGATGCTTTGCTTGAGGGTGTACTCTACATTTAAATTTTTCTCTTTGAGAGAAGAATCATGACA
ATAAGAAATTTGATTTATTCCATATTTCAGATTGTTTTGAAAGTGGTATGTCACTAATGAAAGGAGTGTGAAGTGAATACTGTTGACATTCCTGAGAAAT
GTATCTGGGGGGCCTTAAAATCTGTAAATATCATAAATATCATACGAATCCTAAGAARTTCTGGGATTTAAGGATGAGTGGGAGACTTAGGTTCTTGGTT
CTGTGTTGTAAGTCATTCTCCAAGTGTAGCAGGACCATAGCACTGATGAAAATGATTTATACAGTAGTCTTATGATCCAATGCCCATGTATGAACAAAGG
TTACTGTTCCTGTCTTCTAAATTGGGGTTCCCAGTGTAATACAGGAAGACTACYGTGTGCTAGTAAACAGAAAGCACAATCCACATTTGACCATATTTTC
CTCGTTGGATGTGTTTATGGATATATTTTATTCTGCTTTTATCTTTCTGAGATTAATGCCTTATCTGGCCTTTTTTCCTATGAGTACCTTTGGTTATAAA
GAACTTCGCATTGCTACATTATCAATTTTCAGCCTCTCTTCTTTTTTATTTTTAATTTCTTTGCCACCTCTTCTTAATACATAATGCTCTTTCTTCCTTC
GTTCCTCCCCCTCTCTSTTTCTTCCTTCCTCCTTTCTTTCTTGCTTTCTTCTTTCTTTTCTTTATTCTTTCTTTTTTTTTTTTTTTCAAGGTCTTGACGT
GTTGCCCAGGCTGGAGTGCAGTAGTGAAATCATGGCTCACTGCAGCCTCAACCTCCTGGGCTCAAGCAATCCTTCCACCTCCGCACCCCCAAGCAGCTGG
GACTACAGGCAAGGGCCACCATGCCCAACTAATTTATTTTTGTTTTTCATAGAGATGAGGTCTCACTATGTTGCCCAGGCTGCTCTCAAACTCCTGGGCC
AAGTGATCCTTCTGCCTCAGCCTTTCAAAGTGCTGGGATTACAGACATGAGCCACCTCACCCAAACTTTTCTTTTTTTTTGAGAGATTCTTAAACTAGAT
TGTACTTACGATAAATGTTGACTGATTCATTACCTTCAACAGTGCTTTCAGCCTCTGATGGTTCAGAGAAATGATTGTGTATACTTTATATTTCACCTGA
ATCAGGTTTCGGTTGAGACAATAATTTTCTGAGTATGTCTCCACTTCACAAAATTAATTTATTTTCAACTTTTCTCTAGTTTTACCACTCTTTTGATAAA
TAATCTTACAGTGGAGGAAGACTTATTGAAACAATTTCATCACTTTTTTTTCTCTTGTTTGCCTCAGAGTATGGTTGATTCATTCTCTCCCTAGGTTGGA
GCCATTGCAGAATCAATATTTTACTTTTAACTGACTCCAAAATATATACATTCTAGCTAAGTACTTTCAGCACTATGAGTTGTCCTTCTTTTAAAGAGAA
ATTTTTTTAAAATGATATCATTAAAAACAAGCCATTCCATGATTTATTGTATAAGAGAAGATAAGTACGGAGTTGTAAACCTGCAATAGAATAATACCCT
GGATATCCACCTTCACTGATGAGTTTAACTGACTCATTCTTACCTGTTAACCAAATGCTTTTGAGAGTCAAAGGCAGGGTCTGAGAGGAATTATCAATGA
ATATTTGTAATGAATCATTGAGGTCGCTTGTGAATAGTTGAAACTTCCAATATTAAGGCTGTGTAGGCCAAGAATCTAGTTATCCTTTCAGAAATTTTTT
TTTCTGACCACCTACTCTGTGCCTTAAGCAAAAGTACCTGCCCTTCTTTCTTTCTTTYTTTTTTTTTTTTTTGAGAGCATGGTGTGGTCTCGGCTCACTG
CAACATTCGCCTCCCGGGTTCAAGCGATTCACTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCTGCCACCAAGCYGGGCTAATTTTTGTATTT
TTAGTAGAGACAAGGTTTCACCATGTTGGCCAGACTGGTCTTGAACTCTTGACCTCATGATCTGCATGCCTGAGCCTCCCAAAGTGCTGGGATTACAAGC
GTGAGCCACCATGCCCGGTCAGTACCTGCCCTTCTCTAAAGGCACTTGCTTGCAGTCTTTGGAGGAGATAAGCTTTGATCAACTCATCAACCTAATGGCA
AGTATCATTTGACTTGAGAAAAGATAAGAAACAGGGTTCTCAATAGTGTGATCTACAAGATAGACAGCAGTCAGTAGACGCTTGCTTCTCTGAGGAAGTG
ACTCTTGGAAGAATTAGTAAGAGCTAGGTGGGCAAATTCGGGTAAGACAGAAGGTTGAGAAAGATGTTTTCAGAGAAGGCTCCACAGGAACATAGTTCCT
CTCCTGCTGTATTATGGAGAGAACATGGAGCCTTCAGAGATATAAAAATGTCATTGTGGCTGGAATGCAAAGATGAAGGGAAAGAGTTTGAATTGAGGAA
GGGATCAGAGCATGCAAGGATTTAAAGATTACTTTAAGAATTTGGTGCATTATACTCATTAAATGATGTTTGCCACTTGGGTCAACAAACATTCTGTAAA
GGCTTAGATAGTAAGTATTATAAATATTGCAGGTGATATGGTCTCTGTTGCAATTACTCAACTCTGCTGTTGTAAGGGAGAAGCAGATATAAACAATATG
TATGTGTGAGTAGATGTTTCCATAAAGCTTTATTTACAGAAACAAGCCATGACAGTATCTGGCATATCTCCTGATCAGATAAATCCTCATGTTGCTGCCT
TATTTCCCAATGTCTCCGTTTGAACTAGTGCAGGGATATTTTGGAGACTTTAGCAATGCCTAGTCAGCAAGCATCAGTGTACTTTAGACATTGAAAATCG
GGTTAGGAAAAAAAAAATATGGACTGCTTTGATTTTCCTTTGAAGTAATGTCACAAGAAGAAAACAGCAAGCTGGTTCATTTGCCAAGGAAGGAAGAGCA
TGAAAGACAARATGAAATGCCAGTAACTAGGTACTAGAGGAAAGGAGTGCTAAGAAAATGTTCAAAAGGGATCTTGAAAAGCAAAGATCACTTGGTAGAT
GAACTTGTTCAAAGTGTTCGCTAACTCACCTCTTGCAAGAACAAACTATCTTGCAAGGCTCTACTGCAACATGTCTGATACACAGCACCTGCAGTCAACA
GACTCTGTAGTTGCAAAGTATTGAGTTTTGTGCTCAAGCTATAGAAGTTAATGGACTGTCATAACATTGTTCAGATGAAACCCAGCAAAGCTTAACAGAC
TAAGGTGGATTTTGCCTCCCCTTTTAATCCAGTGCTAATTTCTTTGAGTAATCTCAGAAAACTTTTTTATGCTAAAGTGATTCATTTATAAAGTTCTTGT
CAAAACAACCAGTGTATTTAAAATATTTTGGAATTATAATACAGGACACAAATGAAAGAAGATATTTATACTAGGCAGATGGGCTAGGTTATGCTGCAAT
AATGAACAACCCCAAAATCTTAGTGGTTGCAAACAACAAACTTTTTTCTCCCACTCACAATACAGGTTCATCATAGTCAGCAGGGGGCTCCAGGAATCAT
AATTGCTGATATAGCCACCTGACAGATCAGTAACCTCAGTGTAGCTGGTGGCCATGAGAAAAGGCGATAATCATCTTTCATATCAAATATTAGAACAATG
CAAGAGAAATATGGTGATTTTACTCTCTATATCAATATCACACACACTAACAYTTGGTGTGCATTTTAGAATATCTTGCTGGTTCCCAGTAAATATGTCA
ACTTTTTGCACTATATRCCGCTTGAAATGTCAATACTGCACAAATACGCGTAGTCTGCTGACAGTAACCTGCCAGGTTCTAGACTTCCATATTGATTACT
GTTAGCAAAATGTGTAGGTGAAATTTTTGTAGGGTAYGCACGTGACCATTCACAGAAGGCAAGAGGTTCTCTTTGGAATTTAATTTTCTGTGTGAAAAAT
AAATCACTTTTTTGTGTGTGTGGAACATTTCTCATGGAATAATGGGTCATATTAGGTTAAGTTTAGGAAACTGATGTTTATTGAGCTGTGCACATATCTG
CTAAAGGAATTTCACATCTATAAATAAATAAGCTTATTTTTCCATGGTGTCAGAGAGATAATGAGACTTTCATATAAAACTATTTTTGCCAGCTGAAATA
TCATGATTGTTATTCTAATATTTCCTCCACAAAGACTTAGTGAACTGCATGTCCATTTTAGAAAGTTGGAGTAGATATTTTAATTTTTTCTTGCTTCTTG
AGAACTACTATCAACAATAAAAAAAGCTTTGATTTTAACGTGTATATCTTAAGATTTCTTTTGATCAATACTAATGAAAATAAACCTGAAAMGCGAATCA
TTGGACAAATGTGAGATTTTTCCTTTAATTTATACATTAATTGATGTAAGATAGTATTTAGAAAGTTTCAATCCTTTCCAGTTACAATTGTAATTGTCAC
TTACCTCAAACTAAACAAACGGACTCTTTCCCATATTTTTCTACTTGGTGAAGGACATTCTAATCATCTAGATGCCTAAGTCAGAAACCTAGGCATCATC
CCTTCATTCTTTCTGTTCCTCACAGTCACACTTAATTAATTGAACGATTTTCGGTCCCTACATACTTCCTGATTTCCTCCCCTGTGCCCTACTGCTTCTC
TCCCTAACTCAGATAATGATTTCTCGACTATCCTATTTTAAGATCAGGCTATTTTGTCTCCTTGCAATGATCTCTCTATAACCTAGTAATATCAAGCCCT
AATGAAAAGTCTTTGGTCGGCTTCTGTCACCCAGGATAAACGTGAAACTCCTGAGAGTTGGATCTACTTCCTTTCAGCATCTCACCCTTGCCTGCACTTC
TAGCCTCCACTCTCAAAACTCTTTCACACACCATTTGAACCTGAGACATTAAAAATGCCTTCCAGGGCTTGGTGCAGTGGCACACACCTGTAATCCCAGC
ACTTTGGGAGGCCAAGGCCAGCAGATCACTTGAGCTCAGGAGTTCGAGACCAGCCTGGGCAATATGCGAAACCCCATCTCTACCAAAAAAAAAAAAAAAA
AAAAATTGCTGGGCTTGGTGGTTGAGCCTGTCGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCCCTTGAGTTCAGAAGTTCAAGGCTGCAGTGAGC
AGAGATTGAGCCACTGCACTCCAGCATAGGTGACAGAGCCAGAGCCTGTCTCAAAAAGAAAATAATAATAATAATACTGCCTTCCAGTTCCTCCAAAATA
ACATGTCTTTCCTTGGTAAATACTCTTCTTACTGCTTTCAGCAGACATTCAACCCACAGGTCCCAGGTCGTTGACTCATTCTCATCTCTTAATTGCTAGC
CAGGCCTTTGGGAAGCCGTTCTCTAGTTCCTACTCAGTTAGGCACCCAACCTCTCTGCTCTCATAGCACATAGGCTGTCCCTCTAACATAGCATGAGTCA
CACGCTTTCCAAACTGGTGTTTACCTGCTTGTCTTCTTTACTGCATTGCTCCTTGAGGTAGCAAGGATGTCTTCTTTATTAGCTTTTTTATACTGAGAAA
ATTTTAAAATACAGGAAAAGAAACATGATAAAATATATACCCACATTCCTAACTCATAGAAATAACTGTTGACATTTTGTCATGTTTTCTTTTCTTACTA
GAGAAAGAAAATGAGATAAAACTAACCTGCATTTCTATCCTACTTTTCTGCCTGTCTTAGAGGCAAACACCAACACAGGTTTGTTGTCAATTTCCTTCCC
ATTAAAAATACTTTTACATACCTACTGTGTATCTATAGCCAACAGATCTTATATTTATGTGGTGTTTGCGTTTTTCCAATTTTAGAAATGGTTTCCTACC
TTTCTTAACCTACGACTTCTGACAATTTTATTTCAAAATTATGCCAATATGTATAGATCTCAAAAACATAACATTGAGTGAATATGCCAATAGGTAGAAT
GTCATGTAAAGTTTAATTTTTGTCAATTTTATGAGTGAAAATTGTATATCACTGTTGTTTTTATTTACCTTTTTTTACCAGTTTTTTTCCAGTTTTGTTT
TATTATTATTTTATTTTATTTTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCTGCTGGTGTGC
TGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCCCCCTCCCCCCACCCCACCCCACAACAGTCCCCAGAGTGTGATGT
TCCCCTTCTTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGTGATAGTTTACTGAGAAT
GATGATTTCCAGTATCGTCCATGTCCCTACAAAGGACAGGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTA
ATCCAGTCTATCATTGTTGTACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGC
ATGATTTATAGTCCTTTGGGTACATACCCAGTAATGGGATGGCTGGGTCAAAGGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCA
CAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCATATCCTCTCCAGCCCCTGTTGTTTCCTGACTTTTTAATGATT
GCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGGTTTGCATTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCATGTGTTTTTTGGCTG
CATAAATGTCTTCTTTGATGAATAATGAGATTTAACTTTTTCCCATTGACCATTCACATGTTCCCAACTCTGAATTTCTAGTAAATTCATGTTTTTCCAG
AGAATGAAAGAGTGAATGGCCACTGTCTTGAGGAAATGGGAGTATTCTAGATGCATAGTCAGGCAGTGTGATTAGTATAGTGCAAGAATGGTAGGAAAGG
ATGGAGAGGACAATGGGAAAACACCTTGCTAAAAAGTTTGGATTTTGTCTTCTAGTGATAGAAATGTACTGATGGTCCCTGACATGGGTAACAGCTGCTT
TAGAGCTGAATTTCAAGAATCAGCTTGTGAACAATGCTTTGGAGATTAAGACAGTAGGAAGGAGAAGATTTGAAGCAGTAAAGTGATTTAGAAAACTATT
TCAATGGACCAGACAAGAAATGGTAATGGCCTGAAATGAGTGGAGGGAGTGGAAATGAAGTCACATGGCTGCAGTTGCCATTTATTGGAGAAACTGAATT
TCAGGGATTTGGATCAGGTCAAGGTATGTTATGCACATAAACCAAATATTAATGRTATTTATTTAGTGTGCACCAGTGATATTTGTTTTTTCCTTCGCTA
AACTGAAGATTAAGGCAATCAGAACCTAGTAAACATTGCTGAATTCACCATTGTATCCCCCAGTGCTAATACACAAAAAGTATACAATGAATTCTACTAC
CTACCTTTCGCAGTGTGGCTATCCTTGCAAATTTCACCCTTTCCCTTCCTTTCAGTCATTCTTGTTTCCCCATGCTCCATAGATCATTTAGCCACCACAT
CTTTTTGTGTTATTTTGTTTTCTGCAATGATGCTGGTATAATTCAGAACTACTAGCAAAATCTCATCTCTAGCTTCATGTGATATTTTCCTGCTTATAAA
CTACCCATATTCTTGCTGTGCTATAGTCAATATGTGTAACTCTTCTGAGGCCTCCTCATTCATTGCAGATGTTTGCAAACTTACCTCTCTTCTTAAGGGC
CCATTCGTATGTACTTAAATAGGAAGATCATCAGAGACAAGTATCCACATGTGAACTCCCTTAGCTACTGTTCTTTTCTCTAAATTTCTCTTTTTCTCTG
TTCAAAAAATTTCCAACTTTCAACTTTGTGGACACTTCTGGAAAAAAAGAAAGTCGTGTCTTACCAATTTTGCAGAATTGAATTACAAGTTTCTCATACT
AAGACATTTTTCTATGGAAGAAACAAGGTTCTTTTGTAGAGATGAGAATTTAAATGATTTTTTTTTTTTTTGCAATGGGAAGAGAGATTTCTCACTAGTC
TTACTGGTTTTCATCTGACTTTATAGTTTAAAATTGATAGCCATTTTGATGGCAACACACATGGTTTAGTTAAATTTTACTCCGTCCTCAGTTTTCCTGA
GGGAGTATCAGCTACTGTGTTTTCTTTACAAAACAACATAAATTCCATGTATCCACCCTGGGAATCACTTCACTGCGTTGAATCTGGATAGGAAATAAAG
ATTCATGAATATTTCACAATTTACTAGGAACCATCACTTTCTTGCTCTTCCGTGTGGATTTTCTACTAATTAGTTACTTGGTATGTCTAAGATACGTTAT
TTTTATTATACAAAGACTGTATCACTTTTTATTCCTTTGATATAAATCATAATACAGTGTCTGATAAGTACAGCTTTTTAAAAACTCTTTTCATAGACTG
TCTTATTCTTTTTAGATTTATGCCCATGATGTGCATGGTCCTGAATGTGGAATGGGTCTCTCTGAAGAAAAGTGGGTCAGATGGTTGCTTGTGCATATTG
GAAAGAAACTGATAGCTTCCTGGTCTCTTTTGAAGGGTGCTGTTGTAAAATACAGATTAGTCAAGGTTTACAGTGCTGTTACTAGCCTGAACACTTCAAA
CCACCATGCAGTTTAAAACTATTCAGTGCTTATGGCAAAATTCAGGTCTTTTGATGTTGGGGCAGGAGTAGACATTTTATTGGAATGTAAGGCAAAAATA
GAGATGAAAACATTGAATCATTTTTGGTGGGGGGATTGACTTACCTTAATAATAATTTTTTATACCTTTAAATCCAGAAATGTCAAGAAAATGACACACA
AGAACAAAACAAAAGAAAAATTCAGTTTAGAGCCTGCTTAAAAATCTGACATTGATCTTCCAATGCCTTAAAAATGTTTTTATTATGAAAAAATTTGAAC
ATATAAAAAATGGAAGATATGGTATAAGGAACCCTCAAGTACACATTACTTGCTTCAATAATTATCACCCATCAACTAATTTTTTTTTTCATCTGTAACC
CTACCAACTGTTCTCCTTTCCCACTGGAATATTTTGAAGCAAATCATCATATCATATAATCTGTAATCTGCAAATATTTAAGTATGCATATCTAAAAGTT
AGAATTCTTTTTAAAATCATAATCTCAGTATAATGACACACTAAAAAATGAACAATAATTATTTCATCCCATCAAATATTGACAAGCTATTATTCTTTTA
CTATATATTGGCTAGAATTTTATGTAAAGAAAAGCTTTTCACCATTGACTCTTATTTACCTACAGGTAGAATTCAAACAGGAAAGCAGATCAAATACTTG
ATTCTTTCTTTTTATTTCCCAGTTTTTAGAAAAAATGAGTTGGTTTACTAGTATCCTTTAATGATAACCAGTTTGCTTTTTGTATCTCTATGAACTCATA
GATTTTAAATATATTTGATATGTTTCGATTCATTGCAGTTATGATTCTTTTCAATAATCAAATTGTCTCATCTTTGGTTGGTAAGAGTGTCTTCAACTTG
GCTTTCTAGTCCTTTAAACTCAGTTTTCCTTAATGATTCTCATGCTTTTCAGTGTTAAGATGTGGTAGGATTGTTTTGCATATTTCCTGTCCTGGTTTTA
GAAACAGTCATTTCTTGGAGGAGCCCTGGTTCCTTATAGTGAAAAAGGGTATTTCAAGACCACAGGTCGGTAGGGCTGTTCACTGTTAATATGTAGGTTG
TTTCTAGGTCTTTTCAGTGGATCAGGTGGGAAATATATATTTCAAATAGAGAAAATACATTATAGTTTATTCTGACATGCCCATTTAGGAATATGAGGCT
TATAGTTAAATTCATTAATTTCATATTTGTATCTTTTTTCTCATCCACTGAAAGTTTTGATTCCTAATAACTTATTTGCTCTATCATAGCTCTCTATATA
TCATTTCATAATAATAATAGAAATATTATCATATACAACATAGTGGCTGAAATGACTTTGAAAGATTTCTTAGCCACGATTTTATATTTATAAAGCATCC
CACTAGGCATCTACAATCAAATTACCTTTTTTTAAAAAAAAATCACTTGAAAAAATTATTTTATGGTTAAGCCACCAAACAACTTCATTTGCTTCATTTG
ACTTTTTGCCTGAAAGTATTTTAAATATTTGTTTTATAATGATGTAAAAACTTTTACATAGTTTCAAGGTCAAATTTGCAAAATAAGTTATATTCAGAGA
CTAGACTCTCTAGATCCATTCATCCTGTTTTCTTCCTCACTAATGTGTAACCATTTTATTTAGGGTTATCTTTCCATTTGTTAGAAATATTATATATATA
AATAGTTTGTTTAAACAGTCCGCTTAAGAATATTTTTCTAGTCTTTTGCTGCTACAAATAATCTTGCAATCAGTTGTTTTGTGCACGTGTCTTTTGCTTT
TTGTCATTGCATCTTTAGGATAGTTTGTTTTTTTTTTTTTGTTTTTTTTTTTTTTTTGAGGCAGAGTCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGC
AGGATCTCAGCTCACTGTAAACTCTTGCTTCCCAGGTTCAAGTGAGTCTTCTGCTTCAGCCTCCCTAGTAGCTAAGACTACAGGCGTGTGCCCCACACCT
GGCTTTTCTTTTTTTCGCATTTTTGGTAGAGACGGGTTTCACCATTTTGGCGAGGCTGGTCTCAAAGTCCTGACCTTGGGATCCAACCGCCTCGGCCTCC
CAAACTGCTGGGATTACAGTTGTGAGCTACCGTGCCCTGCCAGGATAGATTTCTAAAAGTGTGATTACTCAGTCAAAAGGTAAAAGTAGATAAATTTATT
AGATGTTGTCAAATTCTTCTTTGGGAGTAATGCCATTTTCCAATCCTAAGATCAGCATGTGAGAATGTGTTCTGTTTCCATAGGTTCTCCAACAAATTAT
ATTGCCAAACTTTATGTTCCAAAGCTTTGTGGGGATATGTCTGGTAGTTGATTGGGGCAGAGAAAATGAGAAAAACTTAGTATGAAGAAAAGAGTCTTAG
GCTTGAAATTAAGACACAGGTTTAATTCTTGACCATTGCTGATCACTTGTTTCACCTTAGACAAGTCAGCCAACTTTTTTCATCTGCTCCACAGATCTGT
GGTAAGGATTAAATGAGATGACATCCATGAAACATATGACAGAATACCTTGCCATAGTGGCTACTCAGCATGTAAGTTTTTTGTTTGTTTCTTTGAGACA
GAGTCTCCCTCTGTCRCCAGGCTGGAGTGCAGTGGCGAGATCTCTGCTCACTGCAACCTCTGCCTGCTGGATTCAAGTGATTCTCCTCCCAAATAGCTGG
GATTACAGGCATCCGGCACCAGGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTC
GGGTAATCTGCTCGTCTTGGCCTCCCAAAGTGCTGGGATTATAGGCATGAACCACTGTGCCCGGCCTAGCATGTAGTTTTTAAAAGGCAAAGCAATTGAA
ATTTGTAAAGCATTTGGATATCTACAAAAGTTATTTGACGAGAACATACAAGGGGACATCTCTTATGGACTGGTAATTTTAGGATTGTCCACTTGATGTT
AACTAAATATCCTTCCTAATGCCAAACCAACACATGGGGTAAGAATAAGTGATGCTGGACTAAAAAAAAAATTTGATTTCTCTATCAAATGTACTTTTAG
GTAAAAAAAAATATGCAAAGTATAAAATATTTGTATGGGCAAATGTTTTACTAAGGGTGTTTGGGTTATTTTCTATTGAACAAAACCTGCTAAACCAGCA
TAAGATGCACTGAACTAAAGTGCAGCAGAGATGCTACTGTCAGCAAGAGAAGGATTCAAAGAGAGGAAGCCCAATCCGAGCATTACCTGGACAATTAAAC
AGTCAGTTATTGGGATTTTCACAATTCTTAGCTTTTTTAACTTTCACAATTCTTAGCTTTTTTAACTTTGAGTTTTAAAAATCATGATGGAGAGAAATTT
AGTTCTTAACTTTTATTTTCTGGGCTTGATGAAGATTGAATTTCATCAGAGATGAGCTAAACAAATTAAAACTGAAGCATTTAATTTAGAAAACTCAAAT
TTCTTCAGCCTAAAATTGTTCATTTAAACAAGTTTGTTAGATTCTCAAATTAATAGGATACTGAATAAATATGAAATTATTCTTTCCTGGAAAGTTAAAT
GGAAAAACAGGACAGAATCGCTATTTTATAACTAATACATATTAAGTCAAGAAATAGTAAAGGATTATTTGTCTTCAAGAAAACATCCTGTAAAGAATGG
CAATGTTGGTGGTATATAGATGTAAAATGCTTAAAAAGAATGATTATCTAGAAGATGTTATACATGTTATAATTATCTTTAAGTCTGCCTTCTCTAATTC
TGTAAGTTAAACACAAATATTGATACTTTAATTTTTAAAATATTTTTAAAAGTAGCTGAAAATGGGGCTCCATCCTTCAAAGTTCTAACAATACAATTTA
TAGTAAAGAATATGTATGAGAAACATTTGTTCTTAGAAGTTCAGAAAAATCAAATATATAATATGAAGATAGAATAATGTAGAGAAGTTAAAGAGGAGAA
AGGGGTGACTGATTCTGAATCAAGTGAGTTTTAGCTTCTTTTAAGTGAAATCATGCATGCTCCTCACATATGCTAATGTATAAAACATCAATTTATAGAA
TAGTATTTGAATTACCTGCCTAGGCTTTGCAAGCCTAGACCTTTGAATTTGCATTCAAATTCTTGATGTACATTTTCTAGCTGGGGGACTAGAAAGCAAG
ACACTTTCCTTTCAGTACCTTGGGCTCCCCATCTATTAAGTGGAGATCATTAAAATCTGCCTTGCACCGCTGTCCTAAGGATTTGAGATAAAGCATACAA
AGGGCTTGGCACATAGTAGGTGCTCCTAAATGGTAACTTTATTCTTCACATCAGGCTTTGCTTATACTTATAAAAGCCAGTTTTGTAGATAATTTGCTGA
ATAGAACTAAGAATAGTTATAAATATTGGGTTAGTTTATTTGAGCTGCTATGATAACATACCATAAACTGGATGGATTATAAGCAAAGATAATTTATTTC
TCACAGTCTGGAGGCTGGGAAGTCCAAGACCACAGCAGTGGCAAATTCAGTGTCCAGTGAGTACCTGCTTTCCTGTTTATAGACAGCACGTTTTTTTTCT
GTAGCCTCGCATGATGAAAGGGAGCAAGAGGGACCTCTTTCAGACGCTGGTCACCTCCCTAAAGCCCCACCTCCTGATATCCTCACATTGGAGATTAGGT
TTCAACATATGAATTTTAGGGGGACACAAACATTCATAACATAGAAAATACATATTATTTTAAAATGCTTTCTTATTCTTTATTATGACCACTATTAAAA
CCAAACAGAAAACTGTAGAACTAGCCAAGGTATCTTACAGAGATATGTTTCAGAGGAGTGTTTATTAGATTCTGTTGTATACACTATTTGTTTAGCTTTT
TCTGTTTTTTAGGTCCTCGGCCTATGCTATTACAGAAAGAATATTACTCTCTTTTGTATTTACTATTGGTTTCCTGAGGGAAGCAATTATTTTAATTATT
GATTATTTATGGTTTAATGGGGAACCATTGTATTCTAACTCACAGGAATAAAACAATAACAAATAGGATGCATGCAAAATATCTCATAAATGTGTACCTA
ACAAATAAAACATACATCTTCAAATACGAATATGCATTTAGAGCCTGGCTTGCTGTCTGAGGTCTTAACTTGTTCTGTGCTTCAACTCCCTATTATAATG
GATGCTACACATGGAAGCTCTTGGGTCACCATTGGAGGTAATAGCGCCCTATAGAGTTTTGTGTCTGGGAAGAAGTGGACTTTGTAGTTAGGCGATTAAA
TATTTACCAGCTTGCCTTAAGCCAAGTACATGTTAAAGGACTATTTTGTATTATTATTTTGTTTTTAAATAGGCCCCTTTCTCTCATATTTATCTTGCCT
TAATTAGGGAGTTTATTGTTTATTAAAAAGCTTTAATCTGAACTACTTTCATTGTGTGGGTGTGTGTGTGTGCTGTTTGAAACAAATGAACTAAAAATGT
TTTTAATTGAGCTGCAAGTGAAGACTTGTCAATACATAAATTATACAGTATTATATATCTCTATATATGCATAAAGAGGATATTTTAATCAGCACATGTC
CCTGTATTTAAAAGTTAAAAGAACCGCTCTACAGAGCTAAGAATACAGGTATTTTAATTTTTTAAATGATTATAACGGGGGAAATTCCACTGTTGTTTCT
TTAGTGTTTGATGAGGGATTGTAATCTAATCAGTTTAAACGACTATAAACACAGCGATGATCATTTAAGTTGGATTTTTATTCGAAAAGTAAGTTCTTGG
AATTTAGGGTATTGCACAATCTGTCCCATACAGGGGAAAAAAAAATCACCTACTTGTGATTTTTACTAATTTTTTTCCGTGAGAATAGAATCCTGCTGGG
AAGCTTATTTTATTCTCTTAGATTTGCTTCCTCCTTTTTTTCCCCCTCCGGAGAACGATGACTGGTTTACAAATAGCAATTTATATCAACTGACACAGTC
CTTTTTCCTTATACTGTTGATCTCAGAACTGTTCTGCAGTCCTGAAGTATGAAACACTATTGCCATTTTTTGGTACAGCCAGTGCTCTAAAAAATGTRAA
TGGATGAAAGCGATTCAATCTATTATGGAAGCAGAAACATCTTCCTATTTGCTTTACAAATTTTTCCGAGTAAAATGCAGTCAGGTTTGTAACATTGCAT
AAAAACTTGTTTTAGAATTCTTTACACTAAATTAAAGATGATAAAGCAATCTGCTTTTCATACTAAACAGTGAAGTGAAAAGCATTATTTTAAAGAAATA
TTTCTGTTTTGTTRGTGTACGAAATTCTGTAATAGTGGCTAACTTCTTTAGGAACCTTTTTAGGTGAAACTTATGATTGACTATGAAATCTATTCTAGGA
CAAAATAAAATGAGAATAGAATTATATGTCTAATTAAATGATATATCTAGGCAAACTAACCATTCAAGTTTTAATTTTTATGAAAACTTTCTATGTGCCC
CTGACATCTGTACATGTGTTTAATTTCCAGTGAGCTCAAAATACTTCAAGTGATCTCATTTGAGTATTAACTAGGGAAATACATTCACAGTCYAGCAATT
TTCTTTTATGTCTACATTATTTTAAATCATAGCATAGATTTTCCACTGTGCTTTATGACCAGAACACATTTATTTGCAAAGTATTTTCACTTACCTTATA
TTGTAGTATGTAGTATAGGACAATTGATACGGTCAACTGTTTAAAACGTCAGATGCAATGATAGAGCCTTAGCATTTATAGATGTAGCATTCACAGTTGC
AACTCTTTCAGTTTCAGACATTTGTGAGGAATCTCATAGGTGTGTAATATGGTTTGAAATTTGTGAGGACAGCAATTCGTGCTCTGACTCTAGTCATTGG
CGGCCAGTGAGCAAGCGCAACTGATCACCCAGTATCAACTTCACAATGTGGTTTCCACTAATCGGCACCTTATATTAATTTTTATGAAATAATAAAAACC
TTATTTCATAGCAGGAGCGGGTACCCAAAAAGTAGTTAAATGGCTAATCCTTTATAGTTTTTATGTTTTTGGAAATTTGTGATCTCAAGACTATCCCTCA
AGAATGTCAAGGTTTTGCTGAAGTTAAAGACATTTGTTATTCTGTGGTCAGATTATTTCAGTAGTTGAGATGTAGTCTCACATTAAGGGAGAAATCTGCA
AACTAGAAATGGTTTGCAAATGGCAAGGCAAAGCATTCAAATAACTGTTACATGTGATAAAAATCTCTTTTGGGTTTCAGGATGACAAGGTACAGGGCCC
AGGGACTGGCATTTAAAGAGAACTCCTATACACACACTTAAATTCAACAAAAAAGTCTGTATTCTATAATATCCAATTACCTTAATTGTGTAGTGGGGAA
AATGAAGAGTTGAATTTCTGGTTAGCTAGACTAGGGTAGGAAGACACCAGCTCTTTGTTTGTTTTGTGCTTTGACATTTCAATTTTCCCGCTTGGCTTTG
TCCTTCTGTCTTCCCTTGACATTGATGATTTTGTTGTAGGTACGTCACCTCCTTGAATCTACTGATATGAAGAGAAAGCTATAACTAAAGTTAAGACAAT
GTTAAAGTAAGGTCCAATTCTCAGTTATCTACAGGGCTATCCAAAAGAAAAATGGAAATTTCATTTAAAATAGCTGCATCTTTTAAGTAGGAATATTTTG
GGCTATTATATGCCAGACTCATCACTGGTGCTATTTAATTTCTCCTCCCATCAATGAGAGCTCTCCCTGAGACACATTGTGAGATCTTTCTGAGGATGAA
ATCACTTAACCCCAGCAACGCCACTGATTATTTTCAGCTACAACAACCACACTTCTATGCACACACATCAATCACGCCAAAAAACATTCTGACTAAAAAG
CTCAAAAGAAAATAATTAAGCATTCTCTTTTCCATATGAAGATATTACTGACCAGCAGAAAGTGGAAAAATGTATACATAATGTTTATAGATACTGACTT
AACAATGAGTGAACAGTTGCGTCTCACAAATTTCAGCAGCGTTGTCTTGACAGTGGATCATGGTGCTTCTGTGTTGCTAGGCAACCCGAGGGGATGGAAA
ATTTAAACTCAAATTTACTTATGTATGTTAGATTTTAGACATATTATATTGAGAGTGTATTACACATGTCATTACAGGCTAGTTGTACATTTCTATTCTG
TCTTTTATGTGAGTTTCTCAGTATATACATGAAAGACACTCTGCCTGTATCCTTGCTCCTCTATTTTTGAAAATTAACATAGTCCTAATATGCATTTTTA
TGGTYGACAGTCGTGGTATATGAGAGAAAATATGTAGCCTTTGATGTAARAAGATTGTTTTTAAAAAAACATAAACTKTACAATATATGCTTGTGTGTGT
CAGTCAGAGGGGGAGGTGGAGAGAGGCAGTGTTTCTGAAACAAGAGATCTATGAAAGAAGGGAACAGTCTGTTAGTTCCACCTGGTTCTTCTCATTTAAT
TACTATAATTAATATATGCAGAAGAAAAATTAATAGGGTTCTTAAATCCAGGGAGATATTAAATGTCAAAAATGTGGATATTTGAATTAAAGACTAATCA
ACTTGAACAATACATTATAATGTTAAAGAACTGGTAGCATATTAATTTCAAGTGAGAGTTTTAAACTTGATAACTGCAGTGGTTTTGTGAATCCAATTTT
AAGAGTTAAATGTTGTGTCAATGCCATGAATCAGAGAATAGATATTTATAACAAAAGATCTGTATGAAATGATGCATAATAGATGGTGATGGCTGAAGCT
GCTGAAAATTGATGGTCTAAATCAAAAGGATGGATTAGGAATCTTTGCGGAATTATTACAGACCTGTAGTTTTGTGAGAAAAGCAGAGAATGTCAAGGTC
TTTTACTTCAAGGAGGATTTGAAGTATTTGGGGGTATACATTATTGCATTAGCTTAGTCAGTTTACAGCTAGCTAGACAGTGCAAACTTGTGAAGGAGGA
TGTTTTCAGTATATCACACTAGGATCATGGCACCAGTCCTGAAGAAATAGGGGGAACTTTTGATCTCCATCATACCATATACACACCTATGTGTGGGAAT
GCTAATGGGATAGAATCTGATACAGTTAGGGTCTGAAACACTACGAGTTCTTATGGTACTTTGATTCAATATTTAGTTGAGTAATTCTTGTTCACTTATT
TGTATTATCCTCATTAGATTGAACCTGTATAGGTTTATCTTTGAAACTAAAGATTAAATTGAATTTAAGTTCTACTGTATTTTTTATCAAGATTATTTTT
AAAATAGCTTGTATCACAGGAATCCTGAGTACATACCTAATACTATCCTCTACTGTATAGAAATTTAGTAATAATGAAAAAGTATACTCCTGGATTTGGT
TTTCTGGGCAGAGAAAATTAAAAACTTTAAGCAGGTATCATGTAGAATAACATACTCAACAGATATTATTTTGTGGGTGACAATTTTTATAGACATTATA
TGTCAGATGAAATAGCTAATTAACATTAATTCTATTATATTTAACATAACACCCTATATACCTCGGTGAATAAAGAAGATTTCTAAAGGATGAGTTTAAG
AGGTATTGATAAGGACCAGATATTTAGTAAAGAAATCCCATGATTCCCTAGATTTGTGACTCTTCAGTGACACATTTAATTAGTTAATGCTTTGTGAATC
CCAGAATTCTTTGTATATACTGTGATATACCATATTTTTGTCATAGTAACAACAATTTAATTCTGATTCTCCTATAGATGAATCTCTGCGTTCTATCTTT
CATGCTACTTTGAATTCGGTTTTTAAAACTGAATTTAAATATCACAGTACTTATCATATGATATTCAACAACCTGACTGTTTTCCATTTTATTTTATTTT
ATCAACTTTTATTTTAGAATCAGGGAGTACATGTGCAGGTATATATCACACAAGATATATTGTGTGATGCTGAGGTTTGGAGTACAAATGAATCTGTCAT
TCAGGTAGTGGGTATAGTACCTGATAGGCAGTTTTGTTTTGAGACAAAGTCTCACTCTGTAACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTG
CAACCTCCACCTCCTGGGTTCAAGCACTTCTCCTGCTTCAGCCTCCATAGTAGCTGGGATTACAGGTGCCTGCCACCACGCCTGGATAACTTTTTTGTAT
TTTTAGTAGAGACAGGGTTTCGCCGTGTTGGCCGGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCTGCCTTGGCCTTCCAAAGTGCTGGGATTAC
AGGCATGAACCACCGCACCTGGCCCCAGTAGGTGGTTTAAACCCTTTCTCCTTCTCTCTCTCCCCTCTGTTGTATTGCCCAGTGTCTGTTGTTCCCACTT
TTATGACCTTATATTTTTCTTCTTTAAATCAGTAATTTTTTATGTTGTTAAAATCAATTTTTGCAGAGATTAGAATGTATTTGGCCTAATTTCTCATTCT
TAAGTAAAACAAAATAAGGACATAATTTATAGACTTGACATATACTGATTTTTTGGTATAGATCACTAAATAAGTACTGAACTTTTTTCTTTAGGACGTT
TAGAGTTTTTGACAGGTATATAGTCAAGCCCTGCTCTCTTTTACTTCCTTTTTATTCTCTCTGATGATTTGTATATGAATTCATTCTTTATTGATAGTAT
CAACATGACAAAACATACAAGGCCTTTGTCCTAATGGATCTTATAAATCTAATGCAGGAGGCAGACAGTAACTAAACAATATAATTGTATATGCGGTAAG
TGCTATGAAGGAATTAAACAAGGTGACACAACAGAAAGTAGTTGTGTCGGGCAATTTTAGATAAAATGGCGAGTGAATGCTGTGCATGGAGGTGACATCT
TGCCAGAGACAGGAGAATGAGAAAGAGTTTGGCATGTGAAGATCGGGGAAATGAGCACATGGGGCAGAGGGAGGGAAATGTGAAAAGGCATGATGGTGGG
GAGTGTTTGAGGGGTGAGAGAAACTATCATCAGAGTAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCAATCTATCCATCTGACAAAGGGCTAATAC
CCAGAATCTACAAGGAACATAAACAAATTCACAAGAAAAAGCAACCCCATCGAAAAGTGGGCAAAGGATATGAACAGACACTTCTCAAAAGAAGACATTT
ATGTGGCCAACAAACATATGAAAAAAAGCTCACCATCACTGGTAATTAGAGAAATGCAAATCAAAACGACAATGAGATACCAACTCATGCCAGTTAGAAT
GGCGATCATTAAAATGTCAGGAAACAACAGATGCTGGAGAGGATGTGGAGAAATAGGAATGCTTTTACACTGTTAGTGTGAATGTAAATTAGTTCAGACA
TTCTGGAAGACAGTGTGGTGATTCCTCAAGGATCTAGAACCGGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATTTATCCAAAGGATTATAAAT
CATTCTACTATAAAGACACATGCACACGTATGTTTACTGCAGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGCCTATCAATGATAGACTG
GATAAAGAAAATGTGGCACATATACACCATGGAACACTAGGCAGCCGTGAAAAAGGATGAGTTCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAACC
ATCATTCTCAGCAAACTAACAGAGGAACAGAAAACCAAACACTGCATGTTCTCACTCATAAGTGGGTGTTGAACAGTGAGAACATATGGACGGACACAGG
GAGGAGAACATCACACACTGGGGCCTGTTGGGGGAGGGGTGGGAGGCAAGGGGAGGGATAGCATTAGGAGAAATACCTAATGTAGATGATGGGTTGATGG
CTGCAGCAAACCACCATGGCACATGTATTCCTATGTAACAAACCTGCACATTTTGCACATGTATCCCAGAACTTAAAGTAGAAAGAAAGAAAGAGAAAAG
AAGAAAGAAAGAAACAAAGAGAGAGAGAGAAAGAAAGAGAAAGAAAGAAAGAAAGAACGAAAGAAAGAAAGAAAGAGAGAGAGAGAAAGGAAGAGAGGGA
GGGAGGGAGGGGATGGCCAATGTGACTAGAGTGAAGTAAGAGAGGGGAAGAATAGTATTAGTCAAAGTTGAAATTGAAGACACAAACTGGCTATTCAAGA
CTTTATGCCTGTGATGTGGCCAGGCATGGTGGCTCACACCTGTAATTCCAGCACTTTCGGAGGCTGAGGCAGGTGGATCACTTGAGGTCAGGGGTTCCAG
ACCAGCCTGGCAAACATGGTGAAACCCTGTCTCTACCAAAAATGCAAAAATTGGCCAGGCATGGTGGCACATGCCTATACTCCCAGCTACTCGGGAGGCT
GAGGTAGGAGAATCACTTGAACCTGGAAGGCAGAGGCTGCAGTGAGCCAAGATTGCACCATTGCACTCCAGCCTGGCCAACAGAGCGAGACTCTGTCTCA
AAAGAAAAAAAAAGTTTATACCTGTAATGAGATGAGAAGTTCAGATTTTCCAGTGTGTGTTGTATAAATGAAGGACCCAATTTTCTCAGACAGAAGATAA
AAGGAGTTGAGGTTCGTAACGAGGTGATTTTAAGGATGGATCATAGAATCATCAAGCCAGGAAGGAGAGAGTGAAATCAAGGAGAAGGTGATGGATAGGA
GAAAGGACCCTGAGTTATTATAACAGAGTCCAAGAGTCAGAGAGCTGCACAGATGGKGTGGGATATGCCAGGTCAAGGAAAGGGCCATGGGAGTGGGTGC
CTGATGCGGAGAGGAGGAAAAGAGGTCAGCGAGGAGGTAAAGAGCCTGGGCACAGKCATGTTGGTAGATTTTACAGTTACATAAGGAGAGGTAGGAAGGA
AGATGGCGAACCAGAAAGTAAGTCATTAATAATGGCTGGAAGGTGGTTTTATGAGGGATGTGGATTTTCAGAGAGAAAGAGAAAACTGATTAAGAAGTAG
CATCAAAGAGGAGCAAAGTTGATGCACAACCTATCTCTAGATCTTGAAGGTCTTATAGAATATTGTTTCTAAGTCAGAAGTATGATGACAGGGGGAGGAG
CCAAGATGGCCGAATAGGAACAGCTCCGCTCTACAGCTCCCAGTGTGAGCGACGCAGAAGACGGTGATTTCTGCATTTCCATCTGAGGTACCGGGTTCAT
CTCACTAGGGAGTGCCAGACAGTGGGCGCAGGCCAGTGTGTGTGCGCACCGTGCGCGAGCCGAAGCAGGGCGAGGCATTGCCTCACCTGGGAAGCGCAAG
GGGTCAGGGAGTTCCCTTTCCGAGTCAAAGAAAGGGGTGACGGACGCACCTGGAAAATCGGGTCACTCCCACCCGAATATTGCGCTTTTCAGACCGGCTT
AAGAAACGGCGCACCACGAGACTATATCCCACACCTGGCTCGGAGGGTCCTACGCCCACGGAATCTCGCTGATTGCTAGCACAGCAGTCTGAGATCAAAC
TGCAAGGYGGCAACGAGGCTGGGGGAGGGGCGCCCGCCATTGCCCAGGCTTGCTTAGGTAAACAAAGCAGCCGGGAAGCTCGAACTGGGTGGAGCCCACC
ACAGCTCAAGGAGGCCTGCCTGCCTCTGTAGGCTCCACCTCTGGGGGCAGGGCACAGACAAACAAAAAGACRGCAGTAACCTCTGCAGACTTAAGTGTCC
CTGTCTGACAGCTTTGAAGAGAGCAGTGGTTCTCCCAGTACGCAGCTGGAGATCTGAGAATGGGCAGACTGCCTCCTCAAGTGGGTCCCTGACTCCTGAC
CCCCGAGCAGCCTAACTGGGAGGCACCCCCCAGCAGGGGCACACTGACAYCTCACACGGCAGGGTATTCCAACAGACCTGCAGCTGAGGGTCCTGTCTGT
TAGAAGGAAAACTAACAACCAGAAAGGACATMTACACCGAAAACCCATCTGTACATCACCATCATCAAAGACCAAAAGTAGATAAAACCACAAAGATGGG
GAAAAAACAGAACAGAAAAACTGGAAACTCTAAAACGCAGAGCGCCTCTCCTCCTCCAAAGGAACGCAGTTCCTCACCAGCAACAGAACAAAGCTGGATG
GAGAATGATTTTGACGAGCTGAGAGAAGAAGGCTTCAGACGATCAAATTACTCTGAGCTACGGGAGGACATTCAAACCAAAGGCAAAGAAGTTGAAAACT
TTGAAAAAAATTTAGAAGAATGTATAACTAGAATAACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAACCAAGGCTCGAGAACTACGTGA
AGAATGCAGAAGCCTCAGGAGCCGATGCGATCAACTGGAAGAAAGGGTATCAGCAATGGAAGATGAAATGAATGAAATGAAGCGAGAAGGGAAGTTTAGA
GAAAAAAGAATAAAAAGAAATGAGCAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAATCTACGTCTGATTGGTGTACCTGAAAGTGATGTGG
AGAATGAAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATCTAGCAAGGCAGGCCAACGTTCAGATTCAGGAAATACAGAK
AACGCCACAAAGATACTCCTCGAGAAGAGCAACTCCAAGACACATAATTGTCAGATTCACCAAAGTTGAAATGAAGGAAAAAATGTTAAGGGCAGCCAGA
GAGAAAGGTCGGGTTACCCTCAAAGGAAAGCCCATCAGACTAACAGCGGATCTCTCGGCAGAAACCCTACAAGCCAGAAGAGAGTGGGGGCCAATATTCA
ACATTCTTAAAGAAAAGAATTTTCAACCCAGAATTTCATATCCAGCCAAACTAAGCTTCATAAGTGAAGGAGAAATAAAATACTTTATAGACAAGCAAAT
GTTGAGAGATTTTGTCACCACCAGGCCTGCCCTAAAAGAGCTCCTGAAGGAAGCGCTAAACATGGAAAGGAACAACCGGTACCAGCCGCTGCAAAATCAT
GCCAAAATGTAAAGACCATCGAGACTAGGAAGAAACTGCATCAACTAATGAGCAAAATCACCAGCTAACATCATCATGACAGGATCAAATTCACACATAA
CAATATTAACTTTAAATATAAATGGACTAAATTCTGCAATTAAAAGACACAAACTGGCAAGTTGGATAAAGAGTCAAGACCCATCAGTGTGCTGTATTCA
GGAAACCCATCTCACGTGCAGAGACACACATAGGCTCAAAATAAAAGGATGGAGGAAGATCTACCAAGCCAATGGAAAACAAAAAAAGGCAGGGGTTGCA
ATCCTAGTCTCTGACAAAACAGACTTTAAACCAACAAAGATCAAAAGAGACAAAGAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAGGAGC
TAACTATCCTAAATATTTATGCACCCAATACAGGAGCACCCAGATTCATAAAGCAAGTCCTCAGTGACCTACAAAGAGACTTAGACTCCCACACATTAAT
AATGGGAGACTTTAACACCCCACTGTCAACATTAGACAGATCAACGAGACAGAAAGTCAACAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAAGCA
GACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATAGTTG
GAAGTAAAGCTCTCCTCAGCAAATGTAAAAGAACAGARATTATAACAAACTATCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAATCT
CACTCAAAGCCGCTCAACTACATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAA
ACCAACGAGAACAAAGACACSACATACCAGAATCTCTGGGACGCATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCTACAAGAGAAAGC
AGGAAAGATCCAAAATTGACACCCTAACWTCACAATTAAAAGAACTAGAAAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAACTAA
AATCAGAGCAGAACTGAAGGAAATAGAGACACAAAAAACCCTTCAAAAAATCAATGAATCCAGGAGCTGGTTTTTTGAAAGGATCAACAAAATTGATAGA
CCGCTAGCAAGACTAATAAAGAAAAAAAGAGAGAAGAATCAAATAGACACAATAAAAAATGATAAAGGGGATATCACCACCGATCCCACAGAAATACAAA
CTACCATCAGAGAATACTACAAACACCTCTACGCAAATAAACTAGAAAATCTAGAAGAAATGGATACATTCCTCGACACATACACTCTCCCAAGACTAAA
CCAGGAAGAAGTTGAATCTCTGAATCGACCAATAACAGGCTCTGAAATTGTGGCAATAATCAATAGTTTACCAACCAAAAAGAGTCCAGGACCAGATGGA
TTCACAGCCGAATTCTACCAGAGGTACAAGGAGGAACTGGTACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCAT
TTTATGAGGCCAGCATCATTCTGATACCAAAGCCGGGCAGAGACACAACCAAAAAAGAGAATTTTAGACCAATATCCTTGATGAACATTGATGCAAAAAT
CCTCAATAAAATACTGGCAAACCGAATCCAGCAGCACATCAAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAAT
ATACGCAAATCAATAAATGTAATCCAGCATATAAACAGAGCCAAAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAAGCCTTTGACAAAATTC
AACAACCCTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATGGGATGTATTTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCAT
ACTGAATGGGCAAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAGGGATRCCCTCTCTCACCGCTCCTATTCAACATAGTGTTGGAAGTTCTG
GCCAGGGCAATCAGGCAGGAGAAGGAAATAAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGACGACATGATTGTTTATCTAR
AAAACCCCATCGTCTCAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAACATTCTT
ATACACCAACAACAGACAAACAGAGAGCCAAATCATGGGTGAACTCCCATTCAYAATTGCTTCAAAGAGAATAAAATACCTARGAATCCAACTTACAAGG
GATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAATAAAAGAGGAGACAAATAAATGGAAGAACATTCCATGCTCATGGGTAGGAA
GAATCAATATCGTGAAAATGGCCATACTGCCCAAGGTAATTTACAGATTCAATGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAA
AACTASTTTAAAGTTCATATGGAACCAAAAAAGAGCCTGCATTGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTACCTGACTTC
AAACTATACTACAAGGCTACAGTAACCAAAACAGCATGGTACTGGTACAAAAACAGAGATATAGATCAATGGAACAGAACAGAGCCCTCAGAAATAATGC
CGCATATCTACAACTATCTGATCTTTGACAAACCTGAGAAAAACAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGC
CATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATCAATTCAAGATGGATTAAAGATTTAAACGTTAAACCTAAAACCATAAAA
ACCCTAGAAGAAAACCTAGGCATTACCATTCAGGACATAGGCGTGGGCAAGGACTTCATGTCCAAAACACCAAAAGCAATGGCAACAAAAGACAAAATTG
ACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAACATGGGAGAAAATTTTTGCAAC
CTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCRAAGGAC
ATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAAACACATGAAGAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCA
CTATGAGATATCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACA
CTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCA
TTACTGGGTATATACCCAAATGAGTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGA
ACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATATC
CTTTGTAGGGACATGGATGAAATTGGAAACCATCATTCTCAGTAAACTATCGCAAGAACAAAAAACCAAACACCGCATATTCTCACTCATAGGTGGGAAT
TGAACAATGAGATCACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTGGTGGGGTCGGGGGAGGGGGGAGGGATAGCATTGGGAGATATACC
TAATGCTAGATGACACATTAGTGGGTGCAGCGCACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTAAAACTTAG
AGTATAATAATAAAAAAAAAAAAAAAAAAAAAGAAGTATGATGACAAATGGTCATTTTCCTTAAAATAAAATCATATATCACTACTTACTGACTTGCACC
TATATGTACTTCTGGGAAATTTAGCCAGCATGTATTTCCACAATACAGGGATAGTTTTTGTTCTGTGGACTGCTAAATGATCACAGCCTAATGTATTGCC
TTCTCAGTAAACACACGTTGACTTAAATCAGTTGGGTAAATTGTAAACTCAATTCCTTACTTTGACTTTAGTTTGCAAATTAAGAATAGTGTACTTTTCT
TATTTTCAGGCCTTATTTATAATTCCTAATGCTATACACTATTATGTTACAGCTTGCACTTGTATTTTGACACTTTCTAATTATTGTCAAATTATAAATA
CTACTAATTAATATATCCTTGATTCTTCATAATATTCTATTAACCAGCACTTAACACCTTTTTCATAAAACACTTTTCAGGATATATATATAGTTAGGGC
TTGTTGACACTATTTCATCTTGATTTCAATTTATGCAATCCGAATTTTCAAGTAAAACCTCATGGAATTATCAGATTCATCACTAACTTTCAAAACTTTT
ATAACACATCTGCTGAGTTTTCAGACATTCATTCTGGAAAGAAAAAACATGCTGGAAAGAAAAATTTTACTTACTCTAATGTGTTTTATTTTAAATAAAA
AGTCCTATAGGTTATGATTTTACTGTCCTCTTTTTTTTTCTGAAAAACATTAAGGTTTCTTTCCCAAAGCTTATTAGTTAATTGTCAGTTTTTATGTAAG
CCCATGAGGTTAGACCTATATAAGGCAGTAATTTTTAATTCTCCCTCTCTTCCCACCCTTCCTTTTCTTCCCTATCTCCTTTATTTTCTTCCTTCTTCTT
TATTAGTTTTTAAATATGCATATCTCTTTTTATAGGAGAAAGGATGGATAATGATTGCAGCATTCTCTGACCACTCTAATATCTCACCCTAGAAATTTTA
ATAAATGATTTACTAACATTCTCATCAGGGTTTTTATTATAAAATAATATCAAAGAAAACCTGCTTTTTAAAAAAATATCTTGATACTTGTATTTTACCA
AATTCATGGGTATAGATAACTTTTTGATTTCTCATTACTTTCAAGTATCTTCTTCATGTAAAATTTTAATCAAATTTCAGATCCCATGCTTAACACATAA
AAATTAATAAATTGATGTTGAGGGACTATCACATTATTTTATACTGAAAAGTTGTTCAATTATTCTAAAGTTCTATATATTAATCCAAAGCCGTCTCTAC
TTGGGGGAAAAATGTGTGTGTGTGTGTGTATGTGTGTGTATAATTTTTTGGATCTATCTATCTATGAGGATGACTGCCTTATTACAAGTTTCAGTACAAT
TTATATATATGGATTATATCTACATATATATTTTTTGGTTATATATATTTTTATATATATAAACGCTTGGCCATTTTGTCTATTTACCTATCTACCTATA
AACTTCAGCATTTTTTGTTTGGGTAATTAATATTTTGAAGTTTTCTCTCTTGTTTTCCTTCTTGTTTGGAATGATCTGTTTGAGACTGTGTTTTTAACAA
AAGTATATGTAAGTTTGATATACTTAACCTTATTTTTCGCTAAACAACAACAAGAAAGACCCCCTAATTTTGAAAAGTGTCCATCAATATCACTGTTTGG
CAGTTTATCATAAAGATTCAATCAGTATACAGTAAATCTATAATTGAATAAATAATGTTAGAAGCAAATATCACAGGCTAGGATCAGCTTAAGAAATCTC
CAAAATGTGAGCCTACATAATTGAGACCAAGTGACATTTCATTTGGTGTTAACATATACTATGTAAAAATGGTATTATATTTTCAGTGTTTTAATGGAAA
TTTTAACATGCTTTCTGATAGTTTAATATCTTTTAACTTGTGCCAATAGATTGTTTTAGCAAGAAATGAGTGATAATCTTAATTTTATTTTCTTTTACCC
GATTCAAACATTCTTGCCTTGATCTTAGAGGCTGGAGAATAGGCAGCATGACCTCTCATCTCTTCCGTTCTTTCCTCAGCCTTAGTGAAGGGTGTCCCAT
TCACCCATTTATCCACACCATGAGCCATACTGTGGATCATCCACTCAGCCACCAACTCCTGCAGGTGCTGCCTCTTTCCAATTTTACAGCCACTGCCTTC
ATTCAGAATCTAAATATTTCTGCCCTTGATTTCTGAACTGCCTCTGCAGTTAGTCTTCTGCTGCCCTCTCCTCATTCCTTTCATCTGTCATTCCTGCTTA
ATACTCTCCTAGGGCTCTCCATCGTGTCCAGTATAAAATCGTACTGAAACTTGTAATCAGGAAGACATCCCCTTTGTAATCAGATCTCCATCACCAGTCC
AACTTGGTCTTTGACCTCTTCTCACTGACATTTTATGCTCCTGTCATGCTGGACTCTGCAGTTGCTGGGCAGTGTACCCGCATGCTTTCCTGCAGGCTAT
CCCATCTGACTCTCTTCTCCTAAACCTCACCATATTTGCATGGGTAACATGTCCTCACCTTTTAAGAATTTCCTGAAGCTCTCCCTGACATCCTGATTCC
TGAACAACCACCCCTTTGTGCTCACAAAGGTCTTTGTAGTTACATTATTTATCATACAGTGTTTCCACTGAAAGTTTAAGTGCCTGTTCCCCATCGTGGC
TCCTGAGTAGCTATGCAGAGGGCGTAGGGGAAGCAATCTGGTGAAACTGGGCCAAGGAGACTTGTCTCTAAGCTACATTGGCAGAGCAATGTTTTACTTA
GATTATATCTATTTAAGATGGATTTAGGGAGGCTCAGGGAGATTATTGGAGAGAGGGGAAATATGAGAGACCCTAAGCACCTCTTGGCAGCACTGCTGTG
TTTCCTCTACTGTGGAGTGAGCTCCTGGAAAACAGGGACTCTGTCTGTCATCTGTGTGTTTCCTGAGCACCACATAGTGTGTGCCAGATAGATTGTATGC
CTGCTACATAGTAGGCTCTTAATAAATAAGAAGTGAATTGAGGATTCTAGATGCTATTCATCTTCCCATATTAAATTGCTTTCAAAATGTAAATCCTCTG
TGGCACTGAAGTCTATTTAAAATATGCTCTTCTGCCAAATAAAATGTCTCCTCCAGGTGATTTGAGGAAGACATGTGGGCTCAAATAAGATTAAACCAAA
CCATTGTCATGTACATGTAAATATTGCATGAGTAACTAGTCTTACATTTTCTTCACTAATGGGGATTTATTCTAAGGAACTTTTTTGTTCAGTATTTTCT
GATGAAGGAATAGTCAGAAATATCAAAATCCTTCTTACTCCATTTTAGGCTGCCATTTTTTTCCTAAGAGCTGTTATACATTGAGCATACCTAAATTGCC
TTTCTGAAATACAGGAACACACTGTATTGTCAGTAAAATGGTCTGTGTTGATTAGTTTGTCTTTGGGGTGTACTTGATTCATCAGATGATGGAGATCCTG
CTGGCGTTTCATGCAACCTGCTATGGTATGTGGGCTTTATTGGCTTCCCAGCAGCGACACTGACACAAATTGTCAGATTTTATGGGCAGTTTTAAACCTA
ATGAAATACATCCTTGAGAAGCTTCCTTCACCATTTTAGTAGCTGTACAATTTGAAAGAAAAAAGTCAATGTACACCACACAGGGTAGTTCACTATTGAA
ATCATGGAGGACAATGACAACACGCTTATTTTGCTCTTGAACATGCTGTCATTAACTGCACAATGGGATACTGATGCTGCCTCAGAGGCTGGTATTAATC
TTTGTGCCAAACCTTGCAGAAACTCTGTGTGCATTTACTGACGTAAGCATTGCTCTCCATCTCTTTGATCTTAAGATTACTCCTTTGGGGATAGAAGGTA
ATATAAGGCTGCTGAACTTAAAAAAAAAATGCTCAAAGTGAGTGAAGGTAAGAGATGTTCATTTTCTTCCAGTACTGAAAATTAAGAGTACAGACCCACA
TGYTATTATACAAGAGAAAGTAGTCCTATGACTGCTGGATAATTTACATACATTATCTAATTTATCATAACCCTGGGAGAGTGGAAATATTGCTATTCTT
ATTTTACTAGTGAGAGACTAAGTGATTTGCTGGTTTTTGATCCCGGGTCTACATGAATACAAAGCTACATCTTTAATTAGTTCTCTATAGGGTCTCAAAG
CAGTCATTTTACTAAATTTTTGATCTTTATTAAACATAGATGCAAAAGTAATAATAATATTTCCACAAATAAAGGGATGTTAACCAAAATTAAYGTTCAA
GAATCCTTTCAGTGTTTCTCTACCTCTTTAAATATTCCAGAAATGGTGATACAGTCAGGAGCAATATATTGCCAGGAACTTTGGCAGGACGAGAGATTAC
TTTTTGGATAGAATCAGTTGCAGGAATTTTCCAAACGATTCACACAGCATCAACTTAATCTTCTGGAAAACATTTTAGGGACCACAAATACATATTGTAC
CCAGGATGTAGTGTACTTACTGCAGYGTGGTCTATGATTTTTCTTGGCATGCATAATTCAAAGACCCAGATAGAAATGACTGATTTTAGCACTTCTAACA
ATAAAACAAAAGCTCTTCTACAAGAGAATATCTTCATTCATGTTAAACATATCAATATCTCAAGTAAGTATGATGAATTTTGAGATAGGGATCATGCCAT
TGGGGTCTCATCTGGTGGTCATGGGGAAATGGTCCTCTTTCTTGGATATCTTTGGAGAGTATACTATTTGACTCTTTAGTCAAACTGAGGATCAGTATTT
TAAAAGTCTATAAAATACTTAAGCCATCTTGTAGAAATAAATAGTCTTCCCACCCAGACCATAATCTCYGAAATAATTATTAGGAATTTTCTTTTTCTTT
CAAACACTTTGGAATTATAATTTAGATTCTTTAAAAACTGAGTTTTATGACTGTTTTTTCAAAAAAGCTTCAAAATTTTGGCAAATGTTGCATTTTTTTT
TCCAATTAGGATAAGTAATTCAAAAAGTCACAACATGCTTCAGCCAAAAATCCATTGTGAAAATAGAAATTAGAAATGATCTTTCAAAAAATTAAGAAAT
CATTTTTTGAAAAAGTGTGGAGTCATTAATTAAGTGTTTGACCTTTTGTGCCTTCTCAAATGTCCATTTTCAAAAAGACAGATGCAGTTAGAAGGAAAAG
ACTATGAATGTAGGTTCAGGGCCAGAGGACAAAAACTGTTGAAATTGCCTTGATATAGATTCATAGATTGCAAATGAGCACTTTTTAAAATTTAAACCCT
TGAATATGRTATCTCAGGCACAGAGTGAGTTCTTTATATATACAAAATGTGATTCTTACCGCCTACCAGCTGTCTTCCGATTTCACCAGATGACCTTCCC
TATAAGTTTGACACGTAACTCATAAAATGCATGGCTCTGGAGAACAATTATCATGACGGGAGTATGCTTTCTTGATTATATGGCAGGATCCTCTTTCCCA
CCTCTGCTTTTGAAGGATATTAAAGGTGAGATTAAAAATGCTCCAGTTGTTCTGCTTGTCTGATTGTAACAGTGAAGGAGACAAAATTGATTCTAGCTTA
TGGCTCAGTGTTTCAATGTTATTCTGCAGCACTTGTTTGCCAGCAGCTGTTAGGGATTATTGCAGGTTTCTTTGTCAGGAACAGTGTGGCAACAATAATA
AATCAGATTTAGWCTGGCTACTGAAGGGGTTTGTTTAAAAGATTTAAAAATCTCTTCAGAGTCAAAKATGTTAATTCTACCTGGTGAACCAGAATGATCC
TGCATATATCTTGGGACAGACTTATATTTTCTAAATCTGGGTAATGATCATACATGCACTGAAAAGAAGACCATCTTCTCCCAGAAATATACAACACTGA
AAGATTCTCTACCAAACATGCATGAAAAGATAGCAAAGGTACAATATTTCTTTAATTTGTTTCTTTCCTCTTTCGTTTAGGTGAAATAGAGGATACAGCT
CTGATCATTAGAATTTCATATGGCAAACGCTCACACACATAGTGGATTTGAGGAAATCAATTTTCACTAATCTAGAAAATTCTCTCCTCAAGAGAAAAGG
GATTTAAAAACTTTCATGATGTATTTAAATTCAACATATCTTTTGCCTACTTTAAATAGGGAAAAGGTGACTCTAAGGTCATAACGTGAAATTGACTTTA
CCCTTCCTGGTATAGAATGGCATTTCACATTGAGAAAAACTAGGGAGAAGCACTGAAGAATTAATGGGCAGTGGGGAGAGAAATGTAGTTCATTACTTTA
TTATTTGTCGTGGTAACACATACTTTATACAATCTATCACTCCTACTTGTCCAAATATGTGTTTCTCCTGAGGTAAAATTTCAAAAATTCTAGATGATGT
TTTGGAGGTTCTGTAGAGAAGGTGAATGGTATAGAGCTAAAGCAAATCTTGTATGATTTTTTTATTTAATATGTTTACTTCCTATACCTATGTCTTTACT
GTGTATACATATACACCCATATCCCTATATATTCGCGTGTTCACTTTTGATTTCAAATTTTATTTGTGAAAAAAGCAGATTTATTYTTTTTTTTCTTTGA
GATGGAGTCTCGCTCTGTCACCCCCTGGCTGGAGTGCAGTGGCTTGATCTTGGCTCACTGCAACCTCAGCCTCCCAGGTTCAAGTAATTCTCCTGCCTCA
GCCTCCCGAGTAGCTGGGACTAGATTTATTCTTAATCCCATTTATCCATGTGGAGAATATGTCACCCTGCTCATTTCACTTTGCAAACCGACTTACTATT
CTTTGTACCTCTCTCCTTCTCTTTTTGCTCTGTCACTAATAGAGCTTTCAGCTACTAAGACACACAGGAGTSCTTTCTAGAGAGTAACTGAAATTAACCA
CATACATCATTTTGGTGGCAAACCTCACAGCCACCAGTCATTTATAGTACCAAGTCCCTGCTCTTTGGGTAACAGTGGATAAGAAATGCTACACAAGCTC
CTTATGTGGAGAAAAGACTGTTCTCCTATTTGGAAGCCTTGTGCCCATATCCATGCCCTTTGCACATTTATCAAATAACCGTGACTTGTCCTTTATGTTT
TTTCAAGCATTTGTATCATTAGGCAAGGCTCTGCCTAATGGAAGAGATTTACTCTTACTCTGTGCCCAGGTGGCTCGTCCATCTCTGGGTATTTTCAAGC
ATTGGAGGTGGCAATAGTGTGCTTAGCCTCAAGACTGAGCAAAGAAATGAACTTTCCAGAGATTACTCTTAAAATATCCCATTCTGAGAGCACATGTTTC
TCTTAGTACTGTTTACTCCGGACTTTCAGGGTCAGTAGGCAAGCTTTTCAACAAATTTGGTTTCTTTTAAAAACTATTTTTGGTAGTTTTGTTAAATGTG
TCTGGTAATTCATTTTAAGTGGAAAAGGGATGGAGATAAAGGGTAGGTAGAATTGTAAATGTCCTAAGCCTCTTTTATCATCCTATGTTTTTGATAAGTT
TTATCTGGTAACAGACAAACATTGTAGAAGCAAGAAGGGGTTTAATGTTGTTAAATAAAGAAAATGTATTAAAAGAGAAAAACGAGGCACTGGGCTCTTC
TACTCTTGTTTATATTCTTCACCCTTGTGTTCCTTCTACTCAGGACTCCATTGTAAATGCTCAGGATTAATTTTTTTGTCATTTGATGCAGTTCTATACT
GTACCTTGTCTTTCTGCAAAGCAAAGATAATATTGTAGTTTAAAACTTGGCTATCCACCACCATGAGGGAATATGCTTCTCTTATTTTTCTGCAGAAACA
TTTAAAATTTCTTCAGCTATATTTTGTACTTACCTGAATTTTAAAAATAGAATATAGATAATACATTTCCCTATTTTTGTGACTCACTCACTGTTATTAA
TAGTTATTTTTCTAATTTGAATATTATGCTTTGTTAAGTTATTTAGAACCACTTACCCCATCTGTAAATAACCCCGAACTCCTATACTGTCATCACCTTT
GTTTCTTCTAACATGTTGTAATGTAAAATCAAAATTATTAAGTTATAATTATTTATGATATAAGAAGTATTCTGTGGATAAAGTATACATTTATTTTGGA
TATTTAGAATAATTTTTGTTTGTTTTTGGCATAATTCCTTTTTCTTGACTATTTACAGGAAATAGCTAGTTATAGGTTTTACCTAAGTCTCATTCAAGCT
AATGGATTATGCAAATAAAGTTTGCTCACTGAAGGACAAGAATATTCTGTATCTTTTTTCTGGTTCTTCAAGGTGATAGTTCATAAAGAATATGTTCCAT
TGACAAAGTTAGTTATGTTTTTTAGCTTATTAAACTAATTTAAGGACAAAGAAGAGAAAATAATTTTCAAACCCACTGTGCTTGGCCCTCACTAATTATG
TTTTTGCCTGTGAGATACGGATTTTGGAGGCTGTATTTGCAATAAGTGACACATACACAATTTATAAATGATAAAATATAAAATATTTGTCTTAAATAGG
GAGATGCTGTAATGTCTCTTTCCCCTCTTCAACGTATCRTATTACAGTGATTCCTCAATGAGCAGCTGAATTTCCACCTGTTCTTGACGTATTACCTATC
ACCATCAGGCTATGTTATGAAACTCACTTTTAGAGATAAAGCAAATTRTCCAAATGTCACCAATTATTGAATCTAAATGTGGGCATACAGGTTTTATTTG
AAGCAGTCTTTCAGCTTTTCTATATGATTACATTTTTATTTAAAAATTTTGAATAGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAG
GCTGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTACCACGGTGAAACCCCGTCTCTACTAAAAATCCAAAAAAAATTAGCCCGGCG
TGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGGGAACCCGGGAGGCGGAGCCTGCAGGGAGCCGAGATCGCGCCAC
TGCAGTCCGGCCTGGGCGAAAGAGAGAGACTCCATCTCAAAAAAAAAAAAATTTTTTTTGAATAAATAGAATAATGTGATAGCAAATGGCTAGACAGCTA
TTAAGGTGGTCAAGGAAAACCCACTAAAAGAAACCAGCATAGTATTTTGTATGAGCATAGAAGGTGTGGGTTAGAGAAATCCAATGTCTCTATTTTAGAA
AGAAATGTCATCAAGGTGGACAGGGACCAGAACATGTAGCACTTTGTAAGCCACGAAAGGCATTTTCATTTTATTCTTGTAGATTTTAAGTAGAGATGCA
GCTTTCTTCTCACATATTTTAGAAATATTTATTTGGTTACCATATAGAGCCAGTTCTCATATAGAGAATTTATTCTCTATATGAGAATAGAGAATAAATT
TGGTGCAAGAAATAAATATCGGGTGCAAGATCTAAAATAGGAAGACAGGTTATGAGGCTGTTGGATCCCCATTATAATGGCAGCTTGGATGAGATAGGTT
TCATGAAAATGGGAAAAAGCAGACATGTGTGGGATGTTTTAGGCAGCTGGAATCAATAGTACTTATTAATGGCCCAGAGGTCTGGGTAGTAAAGGAAAGA
GGAGAAACTTTAGATAAGGCAGTTAGAGAAGGAAAATCAAGGATAGATTCTAGATTTTTGTCTTGAGCAACTGCATGGATGGTGATGTCATTGAATGTGA
TGGAATAGATCGGGARGGGTGCAAGATTTTTCATGGAGGGAAGGCCAGAGAAGAAACAGTTCTGCTATAGCCATACTGAATTTTAGGCACCTTTTAGACA
TCTAAATAGAACTATTGATTTAATATTTGGATATGTAAGTCTCATCTGTATGCCATCTGTTCTGGCTATCTTACATTCGGATCCTGTGTATTTTTTACAC
TGGCCTGGAAAAGCTGGCAAAACCTAGAACTGCATTTGTCCCCTCTGCGTTTATACCATTTCAGTTGACAGGTCTAATTTTAAGTTCCACCTTTTCATAA
TTGATTATTCATTTGTACACAAGTATTTGTTGAGTACCAGAAATAGCATTTAGTYATTTCAAGCTTTAGTTTTTCATCATCCTATTCTCCAGATTTCAGC
AGCATCAGAAGCCATATAAACACTGCCTTCGGATGGCCCTTAGATGGCCACCAAGATCCCCTAGTTACATTTTCTGTGTACAAAGCAGAAGAAAGATGTC
CTTCATTCTGTACACAGTGTGCTACACTGTGGTTTAGTTTATTATTAAAGAGCATAATTAAAAGAAAAAATATGCTATTTAGGTTTGGATTACTAATTTT
AAGTTTAAATGCCTTTATATCATATTTCTTTGAAGCTAGACATGTATTCAAACCTCAGCTCCCCCAATAATTAGATATTTGAACATGGTGGAAATAGTGA
ACCTATCATCTTTAAAACAAAGGATATAAAATCTAATAGAGTGGATAACATGATTATAATAAAGATATAAAGATTATAAAATATTAAAAGTTCAATATTG
TCATTAGACTCTAATCAATAATGAGTATATCACGTATTATATTTTGACATGAAGAACTATCTAGCCTTAGAGCTTTGAAATATAACTAAGAAATCTATTA
AAATAAATTAAATAGAATATATTCCAAAGTAACTAATGTTTTCCCATATTAACTCAGAATAACTTTGTCTGAAATTAAACTGAATATATATCATTTATAA
ATACAAGCATAGAGTTTAAATTCAGGTAATCTTATTTGGATGTACAAACCGTGAATAGAGACATTAAGGAAAAGTAGTCATAATTAATTATATCGAATCT
TCAGAGTTCACACCATTCCTCTTCCTAAAAACACATACAGGTTTAGGCTGATCAAGATATCAATGTCTGCTCTGAGATCATCAAAGTAATGCGTCCATTC
TAAGAAGCACTAGTGGCATATATGATCACGGTAGAAGAGCAAGAAAAGGAGCCCTCACTTAGAACCCCATAAGACAGGAAAGATACAGCATCAACCTGTC
CTCTCCAGTTTATCTGTGTTATGGATTGTAAGAGTGTTTTGAAATAATATTTTACTTAGTAAAGTAATATCCACAAGCATTTCACCATGAAAAACATTAA
ACATTTTAAGTATATAATATGAAATATACCATCTCTGATGATTATTTTTATTGACCATATTCTTGCCAACTCTAAGGTACTCTAACACTAGAATTTTAAA
CTTGTTATATTTGTTACTTTGGTACGAATGTCAAAGAAAGGTATTACCTGTAAGTATTAGAGCATTCCTCATTGTTCCTAAACAAAGAATTTCTTTTTAT
GTAGTCTGCACTAGGAATTGGAAATGATGCACATAAAATACAGCTTTTTAATCTGTGAGATTGTTTATGCATCTTAGGTTTGCTTAGTTTTGCAAATGCG
TGCATTTAAAATCACCATTTGTATTTTGAACTCTTCTGGCTTTTAACTGTAGTGGAAATTTGGATTGAAGACAATGGAAACCGTGAGGTACAATATATAA
ACTTGCATCCAACCGAGAAAAACCACTACTCTTATCTGCACTTCAATCAGCAGGAGGTTCTTTTTCAGTTTGTTTAGAAAAAGTAGGGCCTGTCATCTGC
ATGGCATACAATCTTTACAAAGAAATTTTCTTTTGCCCTTTGTGTTTTAACTACTGAGTGCTGCAGAAACTTCTGTCTAACTGCAAAACAGTTTAAGGTA
TCATCTATGACAATGTTAAAAGTAAAACCCAATCAAAGTTTATATTATCATGCATAATAGACCAAGCACCATTATCTGAATACCAAACGGGGCCAAATAA
TTCTCTATGATTCAGATGAGACATAAAAGTGCTTTAAAAACAAGTATGTGGTAAAAATCACTTTGGAAAACCTTTGGCATTATCTAATGAAATTAATATG
TGCCTACTCTATGATGTTGCAATTCAACTTGTAAGCATATACTCAAGAGAAATAGGTGCACATGTGTACAAAGACATATTCAAGAATGCTCATAACAGCA
CTATTAATAATATCTAAAGCTGGAAATAACCAAATGACATCGCTATTGGCATGAATAAATATTTCATAGTATCATAATAATAGGAATACTATAAAGCAGT
AAAAATGAACAAACAACTGTTATACCCAACAGCACGGGTGAACCCTTAAACATAATCTTAAGGAAAAGAAATTAGACATAAAAGAGTATACAGTGCCTGA
TTCCATTCATATAACATTCAAAAATAGATGCAATTCAACTTTCATGCTAGATAGAAGTCAGGATACTAGTTATCTTTGGAAAGGGTAGAGATAGGGAGGA
TTCTTAGTATGGGCAATATTCTCTTTAGATCTATATGATGGTTACATAGGTTTTTATATGTAGGTTATTAAAATAATATACTGATAATATGATCATACAT
TGAGGTTTTTATTTATTACAATAAGTTGAGATTATTCAAAGGTACATTTGTTCATTTTTCTATACATATATACATTATATATTACATATACATATATATA
CCAATTTTTAAAATGTTCTAAGAGAAAGAAAAGCTCAATAAATAAAAACACCCCATTTCCTTGTCACTAGAGATGAATTACTATTATGTTCAAATCGTAT
ATACAGCATATTTTTTATATATGTATCTAAAATATGCTGAATAAGCAAATCAACAACTACATCTAGACTTCTGCATCGCAAACCAGAACTACATTTAAAT
GCATTTTATCTCACACTTAAAGAATTAAAATAAAACTCTTTTCTGAACAATCTTCCAATATATTGACCATAAGTAAATGTAATATGAGTCAATTATTTTA
ACCGTTTTGTAACTCAATGTCTGTTGGATTTATCTTGATTTTTATAAAGTTCAGCAATTCAATTTCCACATTTTCTTTTGTTTCTATTTTTGTGAGGCAC
TATAGTTTTTATGTAATAAATGTTACTGATATGGCCTCCTACTTAGAAAATGTTATTCATGAGAGTATATTGATTTTAGCAAAATTTACATATTTACATA
TGTACATCCACAGGTTTGCATATGTAAAAATATAGATTATTTACTTACTATTGAAAAAGTGTATTATGGAAGATAAAAGGTTTTCATCTCTGTCATACGA
CAGGTGAACTTTGGTAACATAAGGCCTAGCAAAGTTTTATTGATCTTACATATATATATATATAAAATGGTTTTTCATAATTTCATGGGATGCATCATCC
AAGAGAATGATCACAGTGATACTAATTACTGCCATTGACTAGCCACCTGCCACATGCCAGACACATGGTGACATGGCTGATGATAACATGTGATAGGTGT
TTCCCAAGAGAGTCCCTTTAAACAAGGTTTTTTTCCTGTCTTCATATTGATGAAGTGTTTTTTCTAAAGCCATTATTTCATTTATTCTATGAAAGACAAA
ATTGGCATTTTAAAAGTAGAACACRGTCTTTTGATACCTGTCATCTGAGATACCTAAAGGATTTTTTTTTTAAGTTAGCATCAAGGGTAAATAATAACAA
ATGAAGTTATTTTATGTTAGATCTTGTAGGTCTAAATATATGCACAGCAATATTTAACATCCTGAAATCAGAAATTTTGTTTCTGATGGCATCTCTTTCC
ATTATGTGATTTGAAACATTTTAGGGATATTTTCCTGTCTACTTTGCATGGAAAAAACTACAGACTTTGTCAAATCTAGTTGCCTTGGAAGAAGAATGAA
TAAGAGGAGATGTGTTAAACAATACAAAATATTTTTGCTATTTCAAGTTTGAATTGATTTTGAAATAATAGTTTCAGGCTAAATAATAAACTGTCTTTTT
AGGAAACAAAAGAAGTATTTTAGAAAAAGACATTAAAAAGACTTTATTAAAATAGAGGACATGATGATCTTGTTTGTTGCTTTAAGCAGTTTATGTAGTA
ACTTTAAGGTGGTAGAAAGTGTCAGGAAATCAATTTGAAGGCAAATCTTCACATATGAAAAGAATCAGAAATGTTAACTCAGGTCTTAAATAAAAAGGAA
GAATTAATATGATATATTAAAAGTGATACGAAAGTCAAAGGAAAGATTGATGAGACTTATTAATATGAAATGAGGTTTCTTCAATAAATATGTAAGTACA
AAAAAGTTAAATTGTATTAAGAAACTTGAGATTTAAAAAAAAAAAAAAGCGAAGTATTTAAACTACCCCTCTTGAGCTCCCAGCCACATTCCTCTTAGTT
GTCTAATAATAACACTTCTTGGCTATTTCACTGGATATTTCTAAATGATAGGGTCCTATTCATATATCTCAACTTGTCAATTTTTAATATCATCAATTGA
CATTCCTTTTTTAGAAATCATGACTTAGCTACTTATACTCCATCTTCAGTGCTTATCCTTCTAATGTAATACTATCATAATTTTATTTAAATACTATATG
TCTTTTATGACGTAAATATTGTCTAATACTAAAACATCTACTATTCCATGTTTCTGTGTTTTATCTTAAGAGGTTAATTTTATTTGTTTATTTTTCCTGG
GTCTTTAGCTTTTCTTGTATTCTTGTCCTATTTGCCATTATTATATTATTTTCCCACTAACATTTCAAAATATTAGTTATTCTAAATAGTCTGACTTTTC
TTTAGAGTTCTTCACTCAAAGTCCTCTATGTTCTGCCTGAATTAGGATTGATTATTCCCTATGCCCACTGTACTGTTTTTCTACATTGGATCTACCTTGT
CAGGGATCCACACCTTCCTCTTTCTTGGTTTACTTTCTCATTTTGCTGGAGCACATCCTCAAATGGCTTCTTAAGAAATATTACATGGGCAGTGAATTTT
CTGAGTCCTTCCAGTTTAACTCATTGCAATATACAAAATGGCAGGCCCATTCAATTTATATACTTATTCCTTCAAGTTTTGGTAATTTATCTGCATTATT
ATTAAATAATATATTAATATATTACTTAAAATATAAATTAAAACATAAATTCCTTCTAATTTCTCCAGTCTACTTTTTTGAAACTCCCATGAGTCAAATT
TTTACCTTGTTGTATTGGTGATTGATATTATCATTTCTCTCATATTTTCAGTATTTTTTTGTTTCTCTTTTGTGGGTGATGCCTTCAACTTTTTTGTCCA
AGAGTCATATTAAAACTTTATTTTAAAAGATTTGTATTTTTCCCTTTTTAATATTATTCTATTTTTCTTCTTGAATCTCTTCAAAAATATTAATTAGCAG
TTTGCTTTTAAAAATATTATCAGTTTTTTAAATAAGCATTTGTCCTCCAGATTTTTTCCCCTGTTTAATGTTGATTCTTCTTTTCCATGAGGGACTATTT
ACGCAACAATCTACATAATCTTTATTCCCTACTAACATTTAACTGTGATATCCTAAAATGGCCTGATTGAGGAACTGATTGAGATGATTAAGAGCTCTGT
AGCAGGGCGCAGTGGCTCACGCCTGTAATCCTAGCACTTCTGTGAGGCTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACA
TGGCGAAACCCTGGTCTCTACTAAAAGTACCAAAATCAGCCAGGTGTGGTGGCAGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTG
CTAAAAACTTGGGAGGCAAGAGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCGACAAGAGCAAGACTCCATCTCAAAAAGAAAAAAAA
AGAAAAAAAAAAAAAAAGAAGTCTGTGTATAGGGCAGGACGAAAGGTGATTTGGTAGAAAGCTAGCTGTTTTGCCAGGCAGCATTAAATGTAAGAATGTG
CAGATTTTTTCCTCTGGGATCCTGTCATTTCTCCAGAATGGTAATCTCCATACTTATTCCTGGAGGAGAGGTGGTTACAAGTATTCTGGGGCCACAACTA
TTCTTGGCCTTTTGTCTACCCCTGAAGTTTCCATCACTGGAATAAACTGGACAGTTAGACAGATTAACATGAGAAAAGGCATACACATTCATTACACGCA
CATGTACCTGGAAGGCAACAAAGTATGAGACTTAAAGAGGGGCCAGATGGTTGAAATTTAGATAGCATCTGGAGATACGGAAGGAAGGAAATAAGGACTT
AAAGTCTCTTAGTAGGTGGTGGCAACAAGCTGTGGGAGTGTGAGGAGAGGAACTGCATGGCAAGCAAAGGTTGTCATATCATGAAGATAAAGTCTCTAAG
GTAGCAATCCTCAGAAGAACACGTGAAAAGGTGTCCCAGGCGTGGTGTCCCGGGAGTTTCCTCTCCTGAGATAGGATTTAATCTTCTCTAGTTCATGTAG
ATTCCAGGGAAGGGGTTCATGACAATTACATTCCTTCTGGAGGAACTTCCCTTAGATAAGGGGGAACTTCAGAGAAAGCCTCTCCCTGTGCTTGAGGAGA
GGCAGAGGGGCGAGAGATGGGAGTGGAAGGCAAGTCAGAGAGAACTTGGTTCTAAGGCGGCTTCTTTAGTCCAAAGTGCTCAGCTCCTCAAAGCGCCATA
CTTTGGAGTACTATTTTCTGAGCCCTAACAGCCACAAATGGAAGAAGTATTCCCCTGTACAGAAAAGTTTGCATTACTTTTGTCAGATTATGTCTCTTAA
TATAATCACATTTTATGAATAAGTTTTATTTCACTTAACAGATTTATTTATTTTTTAAAACCACAACTTTAATTCCCAAGTAACTCTTAGAAGTTTCTCC
YTTTTGGATTTTCATTTTGATGTTTAGTAGGCTTAAATTCCAGTGTTTAACACAACCCCCAGCTTTTGAGTCACAGTTTATTTCATTATAGTAGACCCCT
GATTGCCAAATTACAATATCTTATGAACCGGGCAAAATGTTGACTTATTTAGGACATTATGTTACCTATTTATTCCAAAATATTTCATTTGAAAATCAGC
TACATTCCCATGTAGACTTTTCTTTATACAAAAATTAAAATAATTACAGAAAGGTAAATTATTCTGATGCTAAAATTAGCCTTTCATTGATTTCAAGTAG
ATTGTAATTGGCTAGGATCAAATACATGCTTTATGTAATACAGTTTATTTCTTAAACTGATACAGAAAGTGCACATAATTCTGGAAGTAAAAATGTTCAA
AAGCTAAGAAGCTCTCATGTTATTTTTCTTCAATTTGCTACAAACATATATAGAGTGTAGTTATTTTCTAGCCATAAGAATTAGCAGAAGCTTTGGAGAG
AAAAGGTAGGAGACTGAATGCCCTGAGCATCCCTTTGAATAGCTCAGGCAAGAAGAGGTGCTATTATCCCAGGAGGAGACTGTAAGTGACGTTTGTGTAA
TTCAAGTATGTCCTGCCTGGATAAGGACTTGTGGGTAAGGAAACAGAGTAGTAAATAGCCAAAGGGAAGAAAGTCAGAAAAGCTTGCTGTGTTCCTCCAC
TTAAATATATGTTATTTCTTTAGGGACTGCAGGTTTTACAAAGAGATGAAGACTAATTCGGAATGCTACTTACCTCTGTTTCCAAAAGAAAAAGACTCCT
CCAGAATGTGGTTTTAAGTAGGCCATGGACCAAAAGTAGGCCACAAGGCATGGCAGGCAGCTTTATGAACTTCAAGGTTCTAGGAAATTTCATCCATTGG
AGAGTTCTCCAGTGCTTTAAACAATATTAGAAAGAAAACAGCGGTACAAATCAACCATGCTAGTAAAAATCTCTCCTGCAAGACATTACTGAGTGGTGAA
GACTAAGTGGTTTTGCCATTGTTGTTGTATTGTTGGTTGGATGGTTTGCCTTGGATATTTGCTTGCTTCTTTTTTGTTGATTTTTAGCATATAAATAAAA
TTTATAAGCCCAACAAAAGAAAAGAAAGCAATCTTTCAAGAGGCTTTAAGATAACATCATACATTTTCGAGGTTTTTAAGGCTGAGATTCTATTTTGTTT
TACTTAAAAGGAATGTTACAATGCTGTTAACGTTTTTGCTTATTCTACATTTTTGCTTATTCATGAAACTCGGGAGAAATTCTGTCTATTGGCAGGCTCT
CATTGTGTATTCATCACCACACTAACCACTCATTTACTCCGAAATTAAGTGCTCAGTGATATGCATGTTATAAATTCATTCTCAGTTGCAAAATTTTCTT
GGTGCTTAAGAAATTGTACTTTAATCGCTTTTAGCCAAAAAGTTTAGCAAAAATAGTACTTTGACATAGTACTGACAGCCTGTGCTTAGATTTTGATAAA
TGTGGACAAAATCAATAGATAGATGCATAAGGAGTGCCCAGATAAAATCATCATACTTCAAAAGCTTTTTCTAACATAACTCACAGCTGTAGACTTTTCC
TTTCAATAATAAGCAAAAACAATTTTCATAGCTACAAACCGCCGACACAACTTTCTATTYAAAGAGGACTTCTTTGCAGGAGGCAGAATAATAACTCAAC
AAAATAAATAGAATCTCTAATTTCAAAATACTATTATCCCCAAAAGTAATGGGAATTTTAAAAATTATTTAGTGTYTCCAGTTTAGATATTTAAGAACAC
CACTCACATCTACATGCCAAATAAATTGACTCCACCCTCCACCCGTTATATCAGGGCCCCACTCCATCCATTGTCTTTTTTCTTAGTTATATCTTGATAT
GTCACCCTATTAGTTTTTTCCTTGCAGCATTTCACTTGCTTCTTGCYTTTTTTAAACAAAAATTTATGCACTACCCTCCCTGCATCCATGTTCCTGCTGC
CTCATATTCATTCATTCTTCAGCTGGTGGCAATCAGCATTCAGTTTCTCTCCATAAAACTGTTATTAAATCCAATAAGCCTTTCATTTCTGAATCAAGTG
AAGATTTTTCTCTATCTTTGCTGAATTCTTTATGGCATTTAACATGTCTTTTCACTCCATCTTTCTTTGGGGACTCTCTTCCATGACTTCTAAGACAACA
CTTTTTAATTCTCTTCCACCATTTTAGGTTTGTCTTTGTAGGTAACCTTTATAGATTCTTCTGTGTAATCCTTACATACCAATGTTCTGAATTCCATTCT
GCTCCTCTTTTTCCATTCCATAGAGTCTGATTGTGTACTTGCAAACACTTCCATGGTATCTATTTCAAGTGTATTTTGAAAAGTCTAACATCTAGGCTTT
CAACTTGATCTGTTGTACTTTCTRTATTCTATACCTGAGTGTCAGCAAAGACGCCTGGGAGCTGTCTTTGAGTCTTCCTTCTCTCTTACCTCCATATTTA
ATGGATTACCATTCTCATTGATTTTACCTTCTTAATTTCTCTTAAATTGATTTTCTTTCTCTATACCTAATGTTAGTACCTTTCYGCCATGTTTCTATCT
GGTTTACATTGCTGGAACAGCACCTGATTTGCTATCTTGTTCTTAGTCTTGCCATCCCAACTTAGTCCATTCCTCTGATGTCTTTTCCTTTATACAGTTA
TCATACCATTTATCAATTTGCATTATATATCTGATTTTATTTACTTATAAGTCATGTTCTTTGTTAGCTCATTAGGTACCAATTTTATATCAATATTATT
TTTCTGTTTGTCATTCAGTCCATTTTTGTTGTTGTTGTTTTGTTTTGGTTTTAGAGACGAGGCAGGTGAATAGGTATAGACTGAATGCTCCTAAGCTAGA
TGATAATGACCAAATGATTACTGAGACAGGGATGAGCGATGGTCAGTGAAATTGAAAGGATATTTTAGCAGCTGCTTTAACAAGTATCTGGGAAAAGTCC
GGTCTCTTCCTTGCATTTCTGAACGTTAATTTGTATTAAAAGCAGCATGACTCAGAAATTTTATATAAAACTCAAATAAACCTTAGAATTGGATCTTATC
GAGTATTGTGTTATACAGAGAATATGGAGAATATGTGGGATAAATGAGTCAAATGGTATGTTAAAAAAAAAAGTAGGAAGCATGATAGACTCAATTCTTA
ATTCCTAGAGGAAACAGAGTTATGTCCAAGGAACATATTCAACCCAATCACTGTACAGCTGTAGCTTTTTCTTTTCTTTCTTTTTTTTTTTTTTTTTTGA
GACAGTCTCAGTCCATTGCCCAGGCTGGTGTGCAATGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTAAAACAATTCTCCTGCCTCAGCCT
CCCAAGTAGCTGGGATTACAGGCACCTGCCACCATGCCAGCTAATTTTTATTTTATTTTTTTGTATTTTTAGTAGAGACGGGACTTCACCATGTTGGCCA
GCCTGGTCTCAAACCCCTGACCTCAGGTGATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCAATTTTTCTA
AATAAATTAATATGATGATGATAATGGTATATCCAAATAGCTACCCAGTTTTTGATTAGGCAGAAGTATGCTTATGGTCAGTCAGAGTAAAAAGTGAGAC
CAGCATGGTGGCATGCACATGTAATCCCAGCTACTTGGGAGGCGGAGACAGGAGGACCCTTTGAGCTTAGGAGTCTGAGGTTATAGCACACTATGCTTAT
GCCTATGAATAGCCACTGCACTCCAGCCTGGGCAGTGTAGCAAGACCCTATCTCTGAAAAAAGAATCAAAGGCCTTAAGAAATATTTTATTTTTACCTCA
GAAAATTTAAAAATTAACTTAGAGCTAAATAGTTTGGGTTTCATTATGTGTAGAAATGAATCTTGCAACAGTAACAGTTTCCCATTACACATTATAAGTG
TCTGTTTTGAGTAAATTTGTTGAGGAGTCTAATTTAGTTTGAATCACTGGGAAAAGACACAATTGAGGTTTTATAAAATGTAAAAAATCAAATGAACTCT
GTACTTTCACTTTTTTACATAAAGTACATCTTCCACTTCTAGTTACAAAAAATTTTTTTTTTCTCACTTGAGTCGTTTATCTGTAGTAAGTAAATTTGGG
AAAAGTGCAAGTATTCATATACATTGTTTTGCATTTAAAAGAAAAGTGATAATGTTCAAACCCATGCTATTTACAAAAATCAAAAGCTCAAATCATGAAT
TCTGTTTGTGTTAAGGATTTAAAAAAATAGTGGCGTGAGAATGGTTATTGCTCTTCAATAAAGATAGAGATACCACGTTTTGCTTTAACATATCTAGAGG
CACCTTTTTCATCGATAGCTTTATTAGTAGGTCAAGGAGAAATCATACCTAAGTAGAAAGGTCCGTGGAGAAAAGAGACAAACCATATCAGAGTTAAAAT
TAAATTGAAAAAATTTAAATCAAGGAAACCATTTTCACTTCTTTCGATATGATGTGCAAAATCATGCATTTTAAATGGGAAATGGGAAATTTCATAGCTT
CTTAGCAATGATGTGAGCTCTGTGGTTTGGGTGGATGCAGGGCATGTGGGTGCTTTTGCTCATTTAAGGAAATTGCATTTGAAACATTCTCAATACATTA
TGTAGCCACAAGAAAATTTATAGTGATTTCTTTTTGGTGGAACAAAGTATATGCTCTTTTCCAGCTCAGGATCCTTTTCCAGTCTTCCTACACTTAACAG
CCAGTACAAACTTAGTCCATAGAACGTATTTGTTGTGCACAGACCTGCACAAACACACACACATGCAAGGTTGCACGAATCAGGTATGTATTTTGTGTAT
GTGTCAAACTTAGCCATCAACTGGAATTTGTGTTTTAGTTTGGATGCTGATTTACCTCATCAGTAAAATGCCCTTCACTTACTCTCCCTAGACATAGACT
ATTTTCCGTAAAATATGTTAGTGATTTCATATTTAATGTGATATGGAATAGAATGAGAGGTTGTGTGAAATTAAAATCATGATATCAATTATCTTTCTGT
CATGCAGAATAAAATAAGTGTTTTGACAGATATAAAAAATATTTATGGTAATTAAGTACATTCATACTGTATCAGCTAAATTTGTAGAATATTGATTTCT
GTATTAAATTATGTAACATTTTAATTAAAATAAATATATTGTCGAGTTGTGAGCAGCACAGTGGTAAGAATATTTTGCATGAAGATGGTTACATAAATAT
GCACTAAAATTGAGTCTAACTGCAAAAAAATGAATGCAGTAGCTACACATTTAGAAAGAAGTTCTAAGAATAAAGCAGTTTACAAACAAATAGTATATAT
ACATGTATATGCTTTGTTAGAAGAAAGAGAATTTATTGTGAGTGGGATACTTTAAATCTTTCAGATGTTAAGGATTCTATTTCCCAAATAACTTCATTCA
TGTAAGAAGTATACTTCATGTGAGTCAGGTTTTATTCTCTAGGTGTTTTCTAATGTGGGAAAGTGAAATACAAGGGTTTGAAATGGTTCTGGGGATGCAG
TCTTTCCTGTCAGATTCCAGCAGATGCTGATATAATTTAATATTCGTGGAAGACAGGGCAAATATAGAATAGCATCAAATTGATTTTGCAGAGTTTTCAA
GCCAGATGTCCCTTGGCATTTACATGGAAGAAGTCTACTGTGTACCAAGTTGCATATTTTTGTGTGTAAGTTCTCAGCCATGGTATGTAGTCATTGGTGT
TTTGACAGCCATCTGCTCAGACCTTTATTTCTCTGTTCAGCCATAACTAAAATTGAACATTTTTCAAATGTTCCAGGTAGTTTCAATTTTAAGATAACAG
AAAACTAGTATTCAATGGTTAAAAAGAAAAAAAGCAATACCTATCTTTGGCTTAGTAATAACCCCTAAATTGAAAGTTAATTTCTTATAAATAGCAGTGC
AAAATGAACAAACTTTGAGAACAGAGGCCTCACCTTATTATCAAATGAGTTTGTTTTAATCATGTGGAAGGCTCTCAGCTAGACACTGAGGAAGTTATAG
AAATGGGTAATTCCAAGGTGAATGTTCCAAGGATAGCTATGTCTTATACATAACAAGCACTTCATCATTATTTGCTGAATGAATGCATATGTTAGAATCC
ATATGTAATAGCTTGTCCATTTGCACATATTTTCACCCCACTGATAGTTTTTAATATGTGGAGGTACACATACATATCTCTGTGTTTTTTGTGGGTGAGA
TATGTAGGCTAACATGTCGTAAGTGAATGAAACTGTGTTTGATAAGAACTGTCAAGTGTTGACTATGCACCTATTGGTGTGCTAGACATTCTGAAGATTC
AGAAGAAGTATACAACATTATTTCTAATGTTATGATTACATCTACAGACAAAGAATCAAACAATGATTCTTTTTAATGGTAACTTGTGTTTTTTAATGTT
AAAGATATGGGCCAAATGATAAAGAACAGGAAAAGATGAGTTTTTTTCTCTATCAGAAGGATAGATTTTGAGCTAATCTTGAAAGAAATACTAAATTTAG
ACTTATGGAGAATAATTTAGGAAAGCAATTGAACACTACCCAGGGGAGGTGGGAAGTGAGATGCTGTGTTCAGAGTGAGATAAGGAAATAATTTGACCAG
AGCATGGGATTTTAATTGAGAATATTAAGAGATAAAATTATAATAAATGTAGGGAAGGTGTATCAGAGTGAGATTATGRTATACTATACTTGAAATATCT
AAATGAAGTATTTATGTTTACTCTAAAAGTCAAGTGAGAGAGATTCTGGAGTGAGACAAGAATGTGAGGAATGGGGACTTCTGTGGAGTTTAATCTATAG
TAATGCACATGAATCTGATAAATTATTATAATCTTTGCTTTTAGTAGAAATGGGGATTTAGAGTAYATCAGTACAGGTGGCGAAAAATGTGAATTTAAAA
CATATTTTGAAAAACAAGGATAAGAATTAGTGTTTAAAAGCTAAAAGAGAAGAATTTGTGTCAGCTGCAAAATAAAGTAAATACACATACACATACACTA
CATACATGCTCATAATTTAAATTATGAACTATTTTATCACACTCTGCTGTGTAAGTTTTTCTAACTCATATTGTATATCAGCCATGTTGTATTCTTGCAT
TAATTAATGTATTCATTAAATATGTCTTCAGTACTTTTTTTGGGTCCAGCATTACATTAGGCAGATATATTATTCAGCAAGTTTTCAAYTTAGTTCAGGG
AAAGAGGGATGATAAATATTATTATGAGTGTTTAGAAATATTAAGAACCCGAATCCATTTATCAGTTTCATAACAATGATTTTCAAGCTTGTTTCATTTC
TCACAGGGTAGACAAAGACAAAATATATATCTCATAAAAGTAATAATCTACCAGKCATGTTTGTTGTAGCCAAGCAAATATATAGAATTCTAAAAATATT
GTTTATAGCTCTTGTTTCAACATGCTTGGGACAAGTTAATGTTTACAGTTTTGTGAGTGAATGAATCTATATACTGAAAACATTTCATTCAATAAGTTGA
CCTTCTTGAGGTTTGAATAAATTTTGGAGCCTGAGGGAATCAATATGGTTTTTAAGTTGATCTCCTAGGTATGTCTAAGTTTAAGTTCTTAATATAATTA
TCAACCCTTTATTATTTTAATATTTCATTACATTAATTATCTTTTGGAATATTTTCACTGATCAGTAACTTCTAGTCATAAGCCGTTCTGGTACCAATCA
TCAAATTTCATATTTGTAAGAAAAAATGACTAGCCTTTGGCTGTCTTGACATGCCCAAATCCACCAAGTATATATCTCACTTCCAAAATAGTCTCAGGAT
ATGTTTTCTAGATATGATCTTAGATGATGGAGTGTATTGTTAAATTAACAAGTAGTATAAAAATAGACAAAATATTATTAAAAATACAAGGAGAAAGGAA
TATGTTAGAAACAAGTAAGAAGTTCCATATGGAAAACTGATAAGCAATTTTTTAGAAGCAAAAATCTCATGACGCTAAAACAAGATGATGAAGAAATTAC
TCTGTGTGCAAGTGTGGAGAAAAATAGCTTGTGATACCATAGTGATCTTAGAGCTCATTATACATCAGCAATGAAGAGCTTTAACWACCATGCAATTAAA
ATACTAGAGAGTATAAATAAGATTGTACCATGTGTATGTGGCAGCATATAAAAACTCAGAAGTGGAAGGAATTTTAGTCAAGTGTTACTCTTGAAAAAGC
AAACGGATTAGGAATATTTAATTGGAGAACAACATAGACACCTTCTGTAATATTATTCAAGTAAGAATGTCTCATTTTGGACATCTTACTTATAGTCAGA
TTGATTCTCAAAACACTTTTTAAATGTCTAGAAATATTTACAATGGTATTTATCCTGAGAAATGCTAAAAAAAATTAGAAAATGTAAAGGTGACTGAAGT
TAGGAAATAACATAAAATTGGTAATGATGAGCAATTTTCTTAATGGCTGTTCATAACTGGAAAAAAACAGATATGCTCCGAAATATATGAATTGTGAGAT
AAACTGCAGTAAAAGACCCCAAGAAATTGAGGGAAACTATGGAAATGATTGTAGCAAGTGGTAGCAAGCTATTTTTGTTTGCATTTTGAAAGCAGTTTTT
AGAAATTTCTAATTTTGAAAATCTTAAATTGATTTTTAGGAATTCTGGGGCTACTTTTTTCTCAGACCTCTAGGGCAACCAATTGTAGAGACTTCCCCCT
TCTGTTAATTGACTCAGATCTGCTTACATATTAAAGGCCACCTCTGGTTCTCAGCTGGAAAAAAGAGTTCCTCCCTTTTGAAACAGTTGACTCAGAATCA
GTTCCTTCCTTTCAGATCCTTATCTTTAATTACTTTGTCTTCTAACCTGGGGTCCTAATCTTTGCCTAGGAATTTAAAGTAAAGRTTGGCCGAATCTTAT
TTCTCTTGACTTGTATCTACCTTTACTTTAGCTCACCCTCTGGGCGTGGCCTCTAGCCAGTCTCACTTTGAGTATCTTTGAAACTCTCTCCTTATTGTCA
ACCCCTTACTTTGATTATTTTTTTTAATTTAATGTTTCCAATGTAGAAATACATCTCAAAAATTATGCAGAAGTTCTATCATATAATGTTCTTGCATGGG
TCTGAAGCTCTTTGAAGGCAAGGGTCCTTGACTRTGTTGTTCATTGTTGTGTAATTACTGCCTAGATGAGTACTTGGAAAGGTGGAGTGATTCAATGAAT
ATGTGTTGCATATAGTTTAAGAAGAACTGGGACTGGAATTAGAAACACATGTTCCGTCTTTAGCAAATCACCCATCATTACTAATCTTCCATTATTTTAT
CTATGATATTGAGCAAGTAATGCCTATCCCATCTATATTATAGCTTTGTTGGAAGACTCAAGGGATAAAGTGAAAATGCTTTGTAGAGTTCAGTGCTACA
CATTTATTATGGTCAATGAACTGCATTACCCAAACCAACATTAATTGTACATAACATGTGACAAAGAAAGGCTTATGGTTTTGGAGTTTGTTTATTTTAG
AAGACCAGATAAACTAGAACAAATATTTTCCATGAAGAAGTTTTTTTTCGTGTTAGAACTCATGTGATTAAATTGATTCACAAAATTTGAGGTCATTTAT
TAATTTTATGAATATTTTACTGAGCACCTATATGATGTCAGTGACTCTAATTGTCTCTGAAAATAAAAAGATTAATAAATCATGGCTTCTGCCTTCAAGG
AACTTAGAGTTTAGTGGTTATAGAATGTTGGTTTAAAAAAAATGGCAAAAATAAAATTCTGACAAAAACTCATAATATCTGAGAGTTTATATGTGCTTGC
TAAATGAAAAGAATTATTAGCAATACTATGCTGAATGACTGTAAAATGCTGACTTTTTACTTGAAATATTTACAAGAGGAAACAGAATATTTGTGGGTTT
CCCTGCATATTTATGTGTGTGTTCAAACAGCTGCTAGAGAACAAAGTGTTTTGCTATAAACACTGTCAAATCTCACTGTGAAAAAAATTTGTCTATAAAA
CAAGTATTTTCATAGATACACTAAAGCTGCATAGAATTTGCTTTTATAGCATAAAACAGAATTAGATGCTTGAGTCAGCTATGAAATACTTTTTCATGCA
ACACTCATTCTAATTCTTTACACTATGCATTAGGCTGAGGCCTGGTGTAATTTGAAAGTGATAATGCAATAGAGAAATTCCAGAAGCTGGGGGTGGGGGG
AATAGACTGGATATTGCAAAATGCATCAGTTAGTCAATCAAACTCCTAATTTATCAACCAAACCAACCTAATCCCATAGAGAATTCAAAGTGACTCACGA
AAAGACACACAAAAGAAGAAATGTTTTGTTTATTTTCCAAGATGGAAAATGTAAACTATCCAGAGGACAGTGGTATGGGTTTAGAAAGACAATTCACACA
ATAAATTTTAAGGAAATAATGGTTTTAGTCTTTGATGCTAACATTATTTCTGGGCTTCCAAGTCACTAAAACAATACATACATCTTTTTAAAATGTTATT
TTTGTTGTGTTGTTTGGTTTTGTGTTTTAGTCTTTTTATTTTCTGACAAAAGAAAGTTTGCCATGTCTCCAGAACAGGCACACAATTTATGTACTAAATC
CTGATATGAATTTCTTTTCTTTTCTTTTCTTTTCTTTTTTTTTGAAATGGAGTCTTACTCTGTTGCCCAGGCTGGAGTACAGTGGCACGATCTCTGCAAC
CTCTACCTCCTGGGTTCAAAATGATTCTCCTGCCTTATCCTCCCGAGTAGCTGGGATTACAGGCATACACTACCATGCCTGGCCAATTTTTGTATTTTTA
GTAGAGACAGGGTTTGGCCATGTTGGCCAGGCTGGTCTTGAACTCCTACTCAGGTGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATG
AGCCACCAGGCCCATCCTCTGATATGAATTTCTTATTGGAGAATCCCTTTATGTGTCCAGCCCTGTGGTAGGCTCTGAGAATATAGTAATGAACAAGGTA
AACAAAACATACATAGTCTCTCCCATCATGAAGCTTACGTTCCAGCAAGGAAGCTAGACCTTCAATAGATAATTATCATTTAAAATTATACCTTGTAATC
AGTGCTATGCAAGAAAAATAAGGCAGAATTAGGGGCTGTAATGAAGGACCTGTTTACAAAGCATTAGGAAAGCCCTCATGGAGGAAATAAGACAAGGAAG
AAACACTTGTGAACAATAGGAAGGTATGTGAAGTGAAGGAGCGTTAAGGAACAGAGATTTCTAGACAAGCCCTAAGCAAGGAAAAAGCAGAGCTTTATTC
TAGAATCGGACTAAAGGCAGTATTCTTTGAATGTGATCAGAGGACATTGTAAGCCAGGATAATCATTTTGAATTTTAACCTAGGTACAATTATGATCTAT
TTTTAAGAAGACTGACTTGATCAGATTTGAATCTTAAGAAAACTCATTATGTAAAAAAAGGGCTAAAGAAAGGATAAGGGTAGTCAGCAGGCCATTCAGG
AGGCTATTGCAGATGTCCAGATGTTACAAATGCTTGTGACTTGGCCCCAAGTATTGGCAATGACCCTGGAGAGAAGCAGATGGATCTGATATTTATTTCG
GAGTTAGCATAATATGAAATGATGCAATGGCATCAATAACGACTCCCGGTTTTCTCTATGAGACACTGGGTGGGTAAACTAAGATGTGTTGAGCTTGAGA
GAATTCAGGAGTAGCTAAATCTGGGTGTCCCTTCGGGTGGGGATTAGAACGCTGAAAACCACGAACTCTACTTTGGAGAGTAATATTAAATTTGTGATGT
TCCTGAGACGTCTAAAAAAATGGAGATTTAACCAGGCATTTGGATATATAGCTCTATACTTTCAGAAAGATACCTGGTCTGGAGATATAACTTGGGAGTT
ATTGACTCTACAGATGGTGTGTAAATGGGTTGGAAGTGGGTAAGATTTGGGGAAGAGAAGAATGAAATAAGAAAATGATCCAGGATTAAGCCCTGAGGAA
CGATAATAGTTACTGATAAAAAAAAAAAAAGAAAAGAATGAAGTAAATGAATGTGACTTTTCTGTTTCATTTTGTCTAAGTCTTTTAAGCCAGAGAAAAC
ATAATGTGRAACAGTGTTTTTATGTGTGTTTTATCACTAGAGATAAGAAATTGTCAAGCTGTCCTTAAGGACCAGGGAGGGCCCATGGGGAACAGCATCT
TTCCTGATGCTGTTGTATTCATCAAAGCATAGATGAGTCTCTTCTGATATTTTTGTTTGAGGAACATGAATATAAGCTCATGCTCCTAGCATAGCAATTA
GTTTAGAGATTTATCATTGTTTTATTTTTATTTTTTGAATTATTAACTGCAGACAAAGCCCTAAATTTTTTTTGTTTTCTATATCACAAGTACCTTTTTT
TGGTTTAAGGTTCTAAATTTCATTTTCCGTGACTTGAAACTGTTTTGCACTTCCTCTCCTTGCTTTATATTTTGAGTTTACACACTAACCTGCCAAAGAG
ACATCTAGTTTATAGGCTTGATTTTGGAAGAAAGACAGAAGAGAGCAGATACTGAACATATGTTCCGCTGATATTGATGAAGTGAGGTTGGAAGAAGCTT
GGAAGCAGTCTATTTCTCTCCAACTGCCACCCCCTCTATGAATATTTTGGGTACCCTTATGCTGGAACATTCCAAATAAGTGCCCCAGCTATGGGTTTTT
TTTTTTTTTCTCATAATGATTCTGAAAGCCTTTGGGATGATTTAGGATTGTTCTACAAGTGGAACATAAACCAAAACAAAGCAGTTCGTGGACTCTAATT
TTAAATGGGTGATGGATGAGATTTCAATGCAAATTGTAAAGACTGAAAATGATGTGACCAGAGAAGGGACCCCTAGATAGTAAGTACTCAATAAATGACA
GAAGCAGAGTATAGTATGAACCTGTTTCTTGGGAAAATAGACTTGAAGTTAGACAAGAATCTATTTAATCAAACTCTAGATATGATGTTTTGCTAACTTT
TGTTTTTTGTTGCTTTGGTTTTTTGGAGTTTTTTTGCACTTCAAGAAGTCTTTTTGATCTGAGGTAGGGTAGTCAACTCTAATTTATTAAGCATGAAGTG
ATTGGTTACAGGTATTTTAACAAGTATTTGGAGGAGTTTGGGGAAGTTGAAGTACGAACACATTATTTGAAGTCACTGTTACAGAGGTGCACTATTTTGT
CCTTCCTGATGTAGCCATTAGTGTTCCTACAAGAAATCTGGATTATCATGACAGTTTTTTTTTCTTTTTTCCTTTTTCTTTTTTTAATTTTAGATTTAGG
GGATACATGTGTGGGTTTGTGACATGGGTATATTGTGTAATGGTGAGGTTTGGGCTTCTACTGAACCCATCACCCAAATGGTGAACATTGTATTCAGTCA
GTAATTTTTCAGTCCTCATTCCTCTCCCAGCCTCTTCCCTTTTGTATTCCTGGGTGTCTATTATTTCCATCTTTGTTTCCATGTGTATCCATTGTTTAGC
TCCCACTTAGAAGTGAAAATGTCATATTCAATTTTCTGCTTCTGAGTTATTTCACTTAGGATAATGGCCTCCAGCTCCATCCATGTTGCTGCAAAGGACA
TGATTTCATTATTTTTTATGGCTGCACAGTATTCCATGGTGTTCATATACCACACCACATTTTCTTTGTCCAACCAACACATAGATTGTTGAGCACATAG
ATTGAGTCCATGACTTTGCTATTGTGAATAGTGCTGCAACAAACACACAAATGTAGGTGTCTTTTTGATATAGTTAGTTCTTTTCCTTTGGGTAGATACC
CAGTAATGGGATTGCTATATCAAATAGTAGTTCTCTTTTTTGTTCTTTAAGAACTCTCCATATTGATTTCCATAGGGGTTGAACTAATTTACATTCCCAC
CAGCAGCGTATAAGCATTCCCTTTTCTCTGCAACCTCACCGATATCTAATATTTTTTGACTTTTTAATACTAGCTATTCTAATTTGTATGACTTGGTATC
TCATTGTGGTTTTAATTTGCATCTCCCTGATGATTAGTGATACTGAGCATTTTTTCATTTGCTTTTTGGCCACTTRTATGTCTTTTTCTTTTCTTTTCTT
TTCTTTTTTTTTTTTTTAGAAGTGTCTGTTAATTTCCTTTGCCCACTTTTAATGGAGCTATTTGTTTTTTTCTTGTTGATTTAAGTTTCTTATAGTTTCT
GGATATTAGTCATTTGTCAGATGCACAGTTAGCAAATATTTTCTGTCATTCTGCAGTTGTCTGTTTATTTTGTTAATTGTTTATTTTGCTGTGCAAACGC
CGTTTAGTTTAATTAAGTCCCATTTGTTCATTTTTTTTTTTTTTTTTGCATTTGCTTTTGCAATTAGTCTTAGTCATTAATTCTTTACCTAGGCCAATGT
CGAGAATAATTTTTCCTAGGTTTTCTTTTTATGGTTTCAGGTCTTGCATTTAAGTCTTTAATTGATCTTGAGTTAATTTTTGTATATGGTGACACATAGG
GTCCAGTTTCATTCTTCCGCTAGCCAGTTATTAAATAGGGTGTCCTTTCCCCATTGCTTATTTTTATTGACTTTGTCGAAGATTAGTTGTAGGAATATGG
ATTTATTTTTGCATTCTCTATTTTGTCTCATTGCCTTATGTGCCATTTTTATACCATTACCATGCTGTTTTAGTTACTATAGCCTCATAGTCTCAGAGCA
TAGTGTGAAGTCAGGTGATGTGATGCCCCCAGCGTTGATCTTTTTGCTTAGAATTGCTTTGGTTATTTGGGCTCCTTTTTGTTTCCATATTAATTTTAGA
ATTGTTTTTTCTAATTCTGTGAAAAATGACATTGGTAATTTGATAGGGATTGCACTGAATCTGTAGATTGTTTTGGGTAGCATAGTCATTTTAATGATAT
TGATTCTTTCTATCCATGAGCATGGAATGTTTTTCCATTTGTCCATGTCATTTATGATTTCTTTCCTCAGTGTTTTGAAGAAATCATAATCAATTCCTGG
TAGAGATCTTTTACCTCCTTGGTTAAATGTATTCCTAGGTATTTCACTTTTAATAGTTATTTTCTTATGTATGTCTAAATTTTAATCACAGCAAATTTAT
GGTGTAATCCTATCTTAATTAGATGGATGATGTCCTTTGTTGGGAATTTAATAAAATCTAATACTGCTTAGCTGGACCAAGTGGATAAGATGACATTTGA
ATCCATAGTGGACCTTGTAGCCCTTCTTTTATTTGGGTATCTACTATATAGAGAAAACATTGGTATTCTATAAACATGCCTAAGATCCATTGGAGTATGT
ATGGTTAGCTCTGTTTATTTTCTTTTTGGTTACAATAAAAATACTTAACATTTTCACTGTAACCTGTTTGGAAGGAAGAGAGTAAGCAATTTTAAAAATT
AATTCAACAGAGAAACATGTACTACTTTTTCTGATTAAAAAAAAAAAGAAGAAGAAGAAAAGAGCCCACAGCAGCTCAGAAGCCTCCAAAAATACTCTTT
TATTTTAGAAGCTGAAAAGGGCAGATCTAACTAATGGTACAAGACAAATTGAAAGTCCTATAAACAGGAATAGAATACTTACTCTCTTTGGTTTTGTTTG
CTTCTGAACAACTGGATTCAACCTTCTTTCTTTCCCCCCAGCTCTTAGGCATTGTTGTGTCAGGACAGCTATGGTTCAAATTGGGCTGATTTTCCAGTTC
TATTAAACCCTTCATCTGCATCGTGGATCAAATACATTAACTAGCTGTCTGCAGTGCACAGCTGGAAATCATTCTCTTCCACATTTTGCTTTGTGCCATT
TTTGTTTTATACCAATATGCTCTGACACACCCACATAGCTCAGGATTTCAGCAGTCAATTATCTCCTTTTCTTCCTTGATAGGTCTTAGAACATTTTAAA
TTGGTGTATTCTCTTTTGTCTTTTAAATATTGAATCACTTGCAAACATCTCTGCTTGCATGAATATTTTTCAAAATGCTCCATAGACCTAGAAGCTGAAA
TGGAAAGTTAGAATCATTCAAACACAAATTTTGATTTTATTCCTTTGAGAGATGGTAGGTGATTGGCATGAAATAGCAGGATAAATATTGTCTACCAAAA
GTAAGATGAGAGAGAGAGGAAGACAGAGAGACAGAGACAGAAAGGATAAGGATCAGCCATGTATTATTGTAAACAGTATATGATATCTTAGAGATTATTT
TAAAATGAATATATTGAAGTGAATTGTTGCATTGACTGAATGGCTTTTCCATAGAAAGACTCCAGCTATCATCAGTTATCAATTACATTATTGGTGGTCT
TTACAAACTTGACTATAAATGTTGAGACATTTTTCGAGAAATACATACACATGTGTGTGTATGTGTGTGTATAAGTATCTATTGGTATCTCCGYATGTTA
GTTAAAAATATAATAATATGCCAAGTACGGACAATGAAGACAGCTACTCCACAATATTCATTTAATTTAATTTTTTTTTTTTTTTTTGAGACGGAGTCTC
GCTCTGTCGCCCAGGCTGGATGGAGTGCAGTGGCGCGATCTCTGCTCACTGCAAGCTCCGCCTCCCAGGTTCAYGCCATTCTCCCGCCTCAGCCTCCCGA
GTAGCTGCAACTACAGGTGCTTGCCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTC
CTGACCTCGTGATCTGCCCACCTTGGCCTCCCAAAGTGTAGTTTAATATTTAAGCTGATAAAACAAGAAAATATATTTAAAAAATTTTTGCTAGACTACA
TTAGAAAGATTTTCTTTAAAGATGTGAGCTAGATAGAGGTCATTTTAAAATGATGATTTATCAAATTTTACACAGTTAAAGATAGTGAAAATAAAGAGCA
CATTAAAAAATAACTAGATGGAAATTTTCACTGTGAAACAGAATTTCTGAAGTGACACTGTGTTCACTTCTGATCATGGTCATTGTACAACCATTGAGTC
TTTGTATAATTGCTGTGAGTAGTGTCACTACCATTTTCCCTTCACTTTTTTTCTATAGATATTTAAATGAAGCAACTGTATACATATTTATTCATTTTGT
CAGTTATAATCAAGTTATTCTATCCTAATCTTTCTATCTTCACTCTGTGTGTGAGTCTGTGTGTACATAACATGTGATATTTATATCCATCTTCCTTCTT
GATCATGAGCAACAGGAACCACCAATACTATTTTACTTAAGCTGAAATACATTTGAAATATACCATATAACTTGCAGAGTTGATGGGAAAATTTGAAAAC
CAGGGTGAGAAGATGGCAGGCATCAAGGTCATCCCTAGGTTTTGATACCTGTACAGAATAGTCATTGCTTACTGCTGCCGCCATCACTACTTTCTCTTTC
ATTCCTCTGATATGACTATCTCTACTCCTATCATTATCTGATTTTCCTTATCTCTCTAGTCTGTGCTTCACATGCTTAATATTCAAATTCCTAGGCCAAA
GTCACATGTACATGCCCTAACTGCTATAGGGTAGGGAGAAGAAAGGTCTCCTCTATTTACATTTCCTTGGCAGGAGGTAGGACACTGCATACCCTCAATA
GTAGACACAATGCCAATTACTCAAGAAAAGAAATGGAGGATGAATGTTGGACAGCCAAGAAATGATGAAGGTCTGCCACATTTTTCATATAGGTTGGCTT
TTTCTTTGAATGTTTTCACTTAGCTAGTGTACCAAAACAGTTCTACATTTCCACCAAATTAAAGGTCTGATTAGTTTAATGYCCTTCATTTGCCATATTT
TTCTCAAGAAAGATTATACAGTGCATGAACTCATTCTTATTCAGTAAATTTAAATTTGAGTGGCATTATATTCCAACTAGTGCTATCCATGCCCTCAGTA
ATTTTATAGACTTGAGAGCCACCGTAAAAAATACTAAAGTTACAGTATGATGAGGGTTCTACTAAATATCAACTAAGTAATATACGGACACCAAGAAAGA
AACAGAAAATTCTGTGTGGCAAAGTCAGAAAACACTTTCACAGAGCAGGGAATATTTGAGCTATGAAAGATGAACATGCAACAAAAAGGGAGAACATTCT
TTGTTGAAGGGACAAGATAATGTCATCACAAAGCATTTTCAAAATGCCTGCTATATTTGTAAATAGGAAGAGATCAGTTCACTAGATGTATAAGAAGGCA
TGAAGGAGGATAGCAACAGWTGAGTTCAGACAGGTAGAAAGCAGGCCTGATTATAAATGTTTAGATCACCAAGGAGTTTGTCTACGACACTACAGGTGAC
AGGCAACTCACAAAAGTCTTTAAAAAAGAAAGTGAGTTTTAGGGAAGATAATTTCAACAACAATGGGGAAGATTAATGGGAGTAGAGTCACGCAGGAAGA
CTAGGAAGGGCWGTGGTGCTCAACCTGTTTGGCACCAGGGACCAGTTTTGTGGAAGACAATTTTTCCATTGACAGGGATAGGGGTGGATGGTTTCAGGAT
GAAACTGTTCCACCTCAGATCATCAGCCATTAGATTCTTATAAGTAGCTCACAACCTAGATCCCTCGCATGCACAGTTCACAATATGGTTCACATTCCTG
TGAGAGTCTAATGCTGTTGCTTATCTGACAGGAGGCAGAGCTCAGGTGGTAATGCTTGTTTGCCAGCCACTCACTTCCTGCTGTGCAGCCCTGTTCCTAA
CAGGCCACAGGCTGGTACTGGTCTGCAGCCCTGGGGTTGGGGACCCCGGGTTAGGATGCTACTGTAATAAATGTAAAGTAAGGTTAGGATATCTGAATAT
AAATGTTGATGTGTKTGTGTGGCGGGGAGCGGTGTGTGTAGCTGAATTTGAGRTAGAGACAAAAAGTAATTAAACTGGAAGCAGAAATCTTAGAATGGGG
AAAAGTMAGRCATATTTGTTCACAAAGTATCTTTTAACATTTTCTGGTTTCTGTGGAGTCACATTTTATTAATGCTGGTTGACATTTATCTACCTAGAAA
AAAATGACAGAAATTTCAGGAACAAAGGTGACTATGAATTAGGTACCAATATTTTTGTGGATGATCTTCATGAAGTCAGCCAATAATGGAGATGAGTATG
TGGAAAGGATGGATTATTTGGACTTTTTGAAAAGAAGTTATTGGGTGAACATGATGGCTCATGCCTGTAATCTCAACAGTTTGGGAGGTTGAGGTGGGAG
GATCACTTGAGGCCAGGAGTTTGAGATMAACTTGGGCAACAGAGCAAGATCCATCTTTACAATAATTAAAAAAAAAATAGAAATTAGCTGTATGTGATGG
CTTGCACCTGTAGTTCTAGCTACTCAGGATGCTCAGGCAAGAGGATCACTTGAGCCTAGGAGGCAGAGGCTTCAGTGTGCCATGATCATGCCACTGCACT
CCAGCCTGGGCAACAAGAGTGAGACCCTGTCTTAAAAAAATTAAACAAATTAAAAAGAAATGAAGTTATTGAGTGACAGTTAAAGAAACTGATTTGCAAG
TGGCCTTCAGGAGGCAGAAGRAGGCTACTTGTCTTTCCCCAGTGATTTTATGAATCCATTGAGGAGATCTGCAGAAGTGTTGTCACTGCTGGAGAAAACC
AAGGCTTCACTTGCAAAAAGGAGTACTTTCTTAYAAYTGAGAAATTTGGAAATATATCATAGGACTTGTAAAGCTATGATGGAAGTTAGCCCATGAGTGT
GTTTACAGAAGGCAGAGCTAGATGGCATAAGACTCAGGGATGATGCAGGAGGTGATAAATRTTTTTGTTTAGAGTAGTGAGAAGAGTGAAACACAGTAGA
TCTTTAATAATAAAATTTTCACTCATTTGGAATTATGAAAATTGTGTTTGAAAACCAGCTGTGCCATTTAAATTCTGGGTATATGTTTCTTCATTTGTAA
AATTCAAGTTTGAACTAGGCTTCTTTGAACTAAATTCTTCTTGCCACCAGACAACAACCTTCTTCTTCATCACCTAGAGGAACATTGCCTGAAGCCTAAG
GAAGCAGCCTTCCCTGTGCCACACAGAAGACCCCTTAATTGTTCAATGAATTTCTCATTGACTTGTGTAGTGCTTCAAAAGAAAACACTTACACATCAAA
CATGATTCTAAGTCAAAGTTCTTCATTTATATGAGATTAAAGAACTGGAAAACTGTACAAGAGAAATAGTCACCTGCTGATTGCAGGCCTGTGGGTTTCT
TGGAAAAACTCAGCAATTTTGCTTATCCAGGACTATCTTTTTGCCCAGTTCCTCTGATTCTGAAGGAAGTTGAAAAGATAGTTTTCCTTTGCTGTATCCA
ACATCCTTTTCTACATTTGATTTAAGAAATGTCAATTTAACTTTTTATTGATACTGATATTGAAAATACATAAAATCCAAAGAATGAGATAAATCTTACA
TATGTGTCATATTTCTATAGATTTTTTTGACCAACATTTTATTTTGAAAATTTTCATGCACTTGGTAAGGTTGAAAGAATCATACAGTGAACACTATGTA
CTCGAAATCTAGATTCTAAAATTAGGCCAAGCATAGTGGCTGATGCCTGTAATCCCAGGGATTTGGGAGGCTGAGGTGGGAGCATTGCCTGAGGGCAGGA
TTTTAAGACCAGCATGGGCAACATAGTGAGACCATGTCTCTACCAAAAAAAAGTAAGGCCAGCACGGTGCTGCATGCCTGTAGTTACAGCTACTCAGGAA
GCTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTCAAGGTTACAGTGAAGTATTATAATCATGCTATTGCACTCCAACCTGGGCAACAGAATGAGACCCT
GTCTCAAAAAAAAAAAAAAATAGTTAATGCCAGGCGTGGTGACTCATGCCTGTAATCCTAACACTTTCAGAGGCTGAGGCAGGTGGATCAGTTGAGGTCA
GGAGTTCAAAACCAGCCTGGCTGATATGGCAAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCAGGCTCCTGTAATCCCAGCTAC
TCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGAGAGGCGGAGGTTGCAGTGAGTTGGGATCATACTACTGCACTCCATCCTGGGCAACAGAGCGAGA
CTCCATGTCAATAATAGTAATAATAATAATGATAAATTAATTTAACATGTTTGAGTAGGGAGGAGATATGTGCTTTATCACATATCTATCCATCTGAACA
TATCTACCCATAAATCCATTTTATCTTTTAATATACTGCAAACCTCATTCCTATACACATGATCATGAATATCATTAACTGGAGTTAAATACTGCTAATT
TTTTTCAAGCTCAAATTTATCTACATTGAAATGCATAAATTATCACCCCGTGTAACATTCACTCACTGAATGTAATATTTAATTAACAAATACATACACC
ATTATAATACAAACTGCTATCAAGAATATTATCATCATCCCAGAAATTTTCTTTATGCCTCTTCCCAGTCAGTCTCTGCCCCCAAGCTCCCAAAGGCAAC
CATTTTTCCTGTTTTATTTTCCTAAAAGATTAGGTATGTTTAAAAAGATCATATAAATGAATAATAGAGTATCCACTCTTTGGTGTAAACTTATATTATG
TGGCATAATCCTTTTTGGAGTCATCAGCATTGTTGTGTGTATCAGTAATTTGTTCCATTTTTATGTTGAATAGTATTTCATTGTTTAAATACACCACAGT
TTTTGTATCATTTCCCCCATTCATGGAAACCTAAGGTGTTTCCAGGTTTGGCTATTATGATAAAAACTTCTATGAACATTTTTGTTTAGGTCTTTTTAAG
GACATGTAATGTCATTTATCTTGGATATGTACCTAACAGGGGAAAATTTGAAGGACTTTTATATTTATTAAAAACTACCTGTTTTCTAAAAGGGTTGTGC
TAATTTACATTCCCAACAGCAATGCAGCAGACTTTTGATTGTTTTACAAACTTTTTAATATTTGATGTTGTCAATCTTTTTAATATAATGCCATTTAATC
TAAAACATGAGAACTTTGTCAATATATAGGTCCAGTTACTGTGATCTCTCACCCACCATTTCTTTATTATAGTTGTCATATATATTCTATTTACAAACAT
ATGCAATGATGTGATTTTTTGCCTTAAATATTAATATGCATTTAAAAGAATTTAACAGGGAAAAAGTCTATTGACATCAAATGTACTTATACTGTCTTTT
ATCATCTCCAATTTTCTATTAATCACATGTAGTGGATTTTTTTTTCATTCTAGATACTGTGTTACATTTTTCAGTCACAGAATTTATATTCAATATTTTT
TGTTGTTACCATTTCTTTTTTGCTACAAGAATTTTCGTATGTGTGTATGTCCTTGAGTATAGTTTAAAAGCTGCTTGAAGATGCTTGTTTGCTTATTCCA
ACATCTGGTTGATCTCAGTACAATCTCCGTTGATTGCTTTTTCTCATAAGTATGAGTTACTTTTTATTGCTTCCTTGTATGTCTAGTATTTTTTTTTAAT
TGCAACCTGGATGTCATGAATAATAGCACATTGTAGAAACTCTGGGTTTTGTTATGTTCCTCTGAAGAGCACTCACCCATTCTTTTTTGTTGTCGCATCA
GTTGGTTAACTTGACTGGGCTCAAAGTCCCAACTTTTTTCTTTCCTGTAGAGTGCAGAACCTAAAATCTCTGTTCAGTTTTTCAGCCCTAGCTGGGCTAC
TTGGAATCTGACTAGGGCAGGTGTAGGTCTGGCATCAGTGAGCAATTTGGACAGAGTTTATGCACAGATTGAGGCTCCCTTTCTGTGGACCTCTCTTTAC
ACCTGCTGTGGCTATTTTTAGTTTTGTTCACTAGTTCTTCAAGCCAGTAAAACTGTGGGTTTCTATTTGAGTTTTAGCCATTCTGGAGCTCATCCAGTGC
CTTTTCCTTCTAAGTATTCATAGTCTTCCTGGCTTACCTGTTCTTAGGTGCACTCCAGATATCTGGTGTTTGCTGTGTGTATATATATATATATACACAC
ACATATACATACACACACCAAATATATACACAGAATTTATAGCTGTTATCTCTGGGAGCTTTGCTCCAATAAAAGCTACTTCACAATTATTAAAAATAGA
ACCTCCATAAGTAGATTTTAAAATGTTTCTGCCATTTGAAACCAAAAAGTGGGATTTTGAGAATGTAGATCATCAAAATCATGCCAACATGTGTGAACAT
ACTACATTATTTGAGAAAGCAAATATGGTATAAACACATCCAAATAAAAACAGTGGAAGTTAGGTGATTTTTTTCAAATGTTTGCCATATTGTAGCAGAA
TTTCAGTTTTTCAAATTTTCACATGATATACACTTAGCCTTTTTCTAGATATCCTATTACCATATATATATATATACACTATAGAACAGAATATATTATT
CTATATATAATATGAATATTCTAATCTCTAATAAAATACATAGTATAAACAGAATATTGTTTGATTTTTGTTCAGACATTGTTCCTTATAACCAGAACTC
CAACTAAACTTATTTAGTCTAGTGCTATTCAGAAAAAAAATGTCAATCATAGTTGTATGGATAATGATCACTGGCTTTTATGTCATTAACATTACAGGAC
CTTAAGTTGAGTTAAGAAGATGTAAGTCAATACTCTCTAAAGGTTCATCAGCTATTTATAGTTAATTTACACTCCTAATGTTTACATAATCTTAACCAAG
TAACACATATTGAATATGGAAATAAATATTGCCCTGGTGCTTTTGAATGGGAATAAGTAGGCACAGCATAATAGATTTAACATATAATGAAAATGGGTTG
CAATCTATAATAAGACATGCTGAAGATTCAATAAAAGCTCAGATATTGATTCATTCTTCAAATTGGTCATTCATTAGCAACTAATTGGAGACCTTTGCTG
ACCAATATGCTTAACYGATTTTTAAAAATAAACAGCAAAATAGCAATGAAATTTCATAWAGCAACTATTCCCTGACCATAAAACAAGGCAATTAAATTGT
GCAAAGGTTAATTTTGAGCACATAATCAGTAACTGTAATAGAAACAAATCAAAGAAAAGAATTGAAAGATCCTAAATGTAAATTTTATTAGTGTCTTTAG
TTTTATGGTTAGAAAACTCTATGAAGCAACAATGGCATGGTGAGGGATAAGTTATTTGTTTTATTAAAGATTTAAATAAGCTTTACCAAGGACCAGATTT
TGGTTCTACTTTAGGCCCTGACAAGAAGTCTTGTAAGCTTTTTAAAGAGCTCACTTCAAATCATAGTTATCAATCTTACTAATTCATAACTTTGTACATA
TCATTTATCTTCTCTGAGCTGCACTTCCTTCATTTTTATAAAGTGGAAAGAATTAATAAAATTTATACAATGGGTTATATGGGAATTAAATAATATGAAG
AATATAGAATAGCTTCAGAATCAATGTTTCTTGTACTCTGTAATCCCTTTGTAGCTGTATGCTTTTGCTCTCTTTATTTATTTAATTATGTGGGATAATT
GGTACATAATCCAATTCTATATTTTCTGAACATACAACATAAAGAAAATACTTTATCCCTSGTCTCTTTTCTTGGCTTCCTCCCATGATTGCTGAGGCCT
GGGAAAGTACAGGCCTGGCCTGCTCCAATCAGGTCTTTCAGGGCAGACCAAAGCAGGGCACAGGGAGTCTTACCCATACCTGCAAAACAGGAATGAGGCC
ATGGTCAGGGTCAGAACTAGTCAGTGCTGAGGGAGGAGGCAAAAATCCGAGAGAAAAAGTGACAATGCCCTGGTGAAGTTTTAGAAATGTTAGCACCTGC
CTGAGATGGCTTTTGTGTAAGTAAGCTGGCTGTCTTTGAAGGGGGCAGATGGAGCTAGACTGCTTAAACTCATCATATAAGCGAGCAAGAGAAGTATAAT
TTTGCTCTCCTTTAAACAGAATTCCCAGCATGTCTCTTTGTTCTTACTACTTATTTTTCTATACTGTAAATTAAATTTTTAAAGAACTGGAGAAAAGTCC
ACTAAAACAAATTACTAACAGTGACAAATAAGCAGTGCTTTATGTTAATATGTAAGTGCACCATTGTATTAGTCCATTCTCATGCTACTAATAAAGACAT
ACCCAAGACTGGATAATTTATAGAGAAAAATAGGTTTAATAGACTCACAGTTCCACATGGCTGGGGAGGTCTCACAATCATGGTGGAAGGCAAAGAAGTA
ACAAAGGCAGGTCTTACATGGTGGCAGGCAAGAGAGCATGTGCAGGGGAACTGCACTTTATAAAATCGCCAGATATTATGAGACTTATTTACTATCACGA
GAACAGCATGAGAAAAACCTGCCCTCATGATTCAAATACCTCCCAACGTGTCCCTCCCACAACACATGGGGATTACAGGCGCTACAATTCAAGATGAGAT
TTGGGTAGGGACACAGCCAAACCATATCCACCATTATGTTTATTCAATGTGTAACCTATATGTATCTGTATCTATAGCCACATCTATATCCAGACAATTA
CATAATCTTATATGTTGAAACAATTACAGATTCAAGTACTCTGACTCACTCATCATTTACATAAGCTTTCAGCAGAGAGACCATACTTATATGCCATTCC
CTCTGCCTGATACGTTTGTTTTTTCTTTCTTCATTTTCCCTAACAGATAAACTTCTATTTCTCCTTGAAAATTCAGCWCAAGATTACTTCCCATGATAAG
CCCATCTTAGTAATATTTTTATTCTCAGATCCTTTACTGTCTGGCATAATATGTGCTCAAAACATATTTGATGAAGGAATAGTTGTACCRTTAAATGCAA
AATGGTGATGAATGACAAAATAGAAAGATATACAGACAAACTTTATTTAATCGCATATCATTTATTAACCTAGAAAATAAAATGTCTAAGATAGATAATG
GCGTGGAGACCATCTAATTATTTTTAAATTTGTAACCTGACAAACGTCACAAAATTGTTAGGAAGTTTTCACTAAGGCTTATATCATGGAAAAGATAAAA
AAAAATAAGGTAAAAACTTTTAAATGGTACTCTACTTTTTATAAAACATTACATTTTCTAATGAAATAAATAATACTTTATGAATGTTTAATATTTCTCT
AACCAACAATTACATTAGCTTTCCTTATGTCACATTGACAGAATGTCTCATTGTGTTGGGGCCAGAGAGCACAGAGATGAGGGGGGAATAAATGTATCAG
GAACAATAAATGAGATAGTGATTAAGTGAAAAAGTAAGTACCATTGGCAAATCAGGAAAAATTGGGAACCTCAACTTTCAGCTGAAGAAAAACACAAGGC
AGGAGGCCAGATGAGAGTTGGGGGTCACTATTTTGGAGGAACAGGATTAAGGGATTTTTAAAGACATATGTATAAGGAGGGAGAAAAGAAAGAAAAGATT
CTTTGGGGGCAGCTCTTTGGGAGATCTTAAGAATGACTGAGACAAGAACTGAGTTGTCACTTGATCTTTTGAATTCATTTACCTGTGGAATTTTTTGGAG
TGATTACAACAAAGATTTAAACTATTTATAATTGCAATTTTTACTGTACTATTATCTTTTTTTAACAGAAAAGAAAACTTAATAGTCAATACATACTCTA
ATAATCAAATATTATAAAAATCTTCCTAATTTACTTTCTTTTTTAATTTTTTGTTTCTTTCAATGCAATTCTAAGGCCAACCAGGTCCGCAAGGTAGCAC
TAGATCTATGCTGGTTTCATAAAACATTGTAGATGCCATTCAGTAGAGTGATTAAGAGGATAGACTCTGGAGCCAGATTGCTTTGGTTCAAATCATAGCT
CTGCTACTTGCTAGCTGTAATCAGGRGCGAGTTACTTAACACCTCTCTGCCTTCTTAATAAAATAGAGATAATAGTGGTATGAAGCTCRTGTGGATGTTT
TGTGTAGCAAATCATTGTAGGAACAGTGTCTGACAATAGTGCTTGGCACATTGCAAACATTCAACGATGCTGGCTATTATGATTATAATTATTATTATTA
TATGCAGATGATACAGACAAACATTTATGAGTCCAATATTTATAATCTAATTATTCGTTTATTTTACAAATACATTGAGTGCCTACTCTGTCCCTACTAT
GTGCCAAGCTTTGAGGATAAGGCAGAAAATACAAATTCAAGATCTAGAGATCTTGGTAAAAAAGGCAGAAAACACAAACTCAAGATCTAGGGATCTCAGT
AAAATATCAAGCCATGAGATTTAGTCAGGAAGGTTTCTTTTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCTT
CCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTTCTTTCTTTCTCTCTCTCTCTCTCTTTCTTTCTCCTTCCTTCTTTGCTTCCTTCCTTCCTTTCT
CTCTCTCTCTCTCTCTCTCTTTCTTGACAGAGTCTTCCTCTGTCTCCCAGGCTGGAGTGCAGTGATGTGATCTCAGCTCACTGCAACCTCCACCTCCCGG
GCTCAAGCAATTCTCCTGCCTCAGGTTTCCAAGTAGCTGGGATTACAGATGCCCACCACCACGCCCTGCTAATTTTTGTATTTTTAGTAGAGACAGGGTT
TCACCATGTTGGCCAGACTGGTCTTGAACTCCTGACCTCAAGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCACCACACC
CGGCGAGGAATGACTTTCTATCAGAAGTTGAATTGATATAGACCTACTTGGCACATATATAGAGCTGAAACAACCTAGATGGTCGGCATATTTTCTCCAT
AAATAGAGTCAAATTATCTGTAATTTCAAATGTACTTTCTCCAAGAACAGATTTTTCAGTTAAAGAGTGGCTTTTGATGAGTGACTTTGCTATACTGTTA
TTGAAAAAGGGTCTATAATATGCAAATGCTAGACATGTATGAAGCACAATTGACATTAACTTACAGGAAGAAAAGAGACTGAATTTGGTTCTCAGAGGGA
ATAAAAAAATCTCCCCAGCCCTACACTTAGATGGACCTCTGAGATCGTATCTATGAAAGTTAAAAACTTCTATTATATCTAAGACATAATTACTGGTGTA
TGATCATGGACCACTATAATGGCTTGTTTCTGGCAATATATTGCTTTATTATATTGCTGGATGGCATGGAAAGCAGTAAAAATTGGTATTCCAAAGTAAA
CATTATCTATCTTCTCTAGTCTGGGATAAAGAAGTTTTAATAATTATTTACACTGAAGGATAATTAGAGCATGAAATGACCATGAAAAAATATATTTGCA
TAGTTGTGCAGAAACATTAACATGCAATTATGTCTTGATACTAGATACAAAATATCTGAAATGGAAGATGGAAGATTTAGTGGGATCTTTTACCAATAAC
TTCAACAGAAGATTTGTGTTTTAGAATGTGTCCTAGAGACAGGACCTTCTTCCTAGCTAAATATTAGAGATAAAAAATTAAAAAGAGGCTTAAAGTCCAT
ACTTAAGACCCAGAAAGAAAAATAGTATTCTTTTGATAACACATAGTATTTATGTAGTATACTGAATTGTCAGGTATTTATCATTAATTATCTCATGTTG
GGTTACTTTAATGCTCCGAARAATATTTTATCTCAATTGCTTTTAAAATGTATCAAAATCCTAACTTTGTTTCTGGTCTACACACCTTCATTTGTCCATC
TTTTTCAGGTTTATTCCCTGCTGTCCTGAATCTTGCTTCTAATGCTCTTATYACGACCAATGCAACATGTGGAGAAAAAGGACCTGAAATGTACTGCAAA
TTGGTAGAACATGTCCCTGGGCAGCCTGTGAGGAACCCGCAGTGTCGAATCTGCAATCAAAACAGCAGCAATCCAAACCGTATGTATTTTAGTGTGTAGG
TGTGTGGCGCTGGGTAGGATCTATAATTGTGAGATGTTGAGGCCAAGTTGCATTAAATTCAAGGGTTTGTAATACTAAGAATTCCTAGAATTCTTTTTAC
CATTAAGAGCTTCTTCCTGGCCCCTCTCTGTCATTCAGCAAACATTATTGGAGTTCCTGCTATGTGCTAAGTACAGTGATTGGAGATGATTCGCCAGCTG
AAGGCCTGTGGCAGTCATTGGGTTTACTAACTCCAGATACCAAAGTGGTTTCTGAGGGTGTGGTTATTAACTCAGGCTATCATCATTCATTGGTAATTTA
TGTGCCAGATATTGTGCCTGAGATCCAGGAGGAATAAGGTAGGATATCGTCTTTGAGCTACTGATATATAGTGTGGTAAGTACAAAGGAAAGAATGAGCA
CAGCGTTCTGCAGAAGAGAGAGGATGGCCACAAAGGCTTGGTGTAAGTAAAGGCTTGCCAGAAGGAGCGATATCCAAGCTGATGACCAAGGACATGAGCT
AAACAAGGGTATGAGATAAACAGGTAAAGAGGTGAGGGAGGGGAAGAGGAGAAGTCATGCCAGGAAGAGAAATCAGAATTAGACAGAAAATCCTAGTTAC
TCGGGGAGCTACAAGTAGGAATGACTAGAACTGAMAGTGCCAAAGGGCAGAGAGTAGAGATGAGACTAGAGCAAAAGGCTGGAGCCAGATTATGAAGGCA
TTTAACAACCACAGGAGAAGTGATTTAGGGAGAGGCACCATGTAAAGCCCTCTTTCCAGCCTCTATGAACCACAGTGATACCTCAGACTCATTGATGTAT
TTATTCAACAGGCCTTTGAACACCTCCTACTAGCAAAGCATTGTATTGGAGCATAATGTTAAATTACACATAACCCCTGATTCAGAGGACCTAGAGGGGA
AATAGAGGCAAAAGAAAAGTAAATTCAGTGCTAAAATAACATGAATGCTCCATGTAGATGCTAAAGTCATCTAAAGATTTCTGGCTAAGAAATCTTTATA
TCTATATATCTCTATCTGTATCTATCTTTCTGACATGCCTTCTTCTCTTCTCCTCGCTTACCTCTCTCTCTCTGTATATATATAATATATATATAAAATA
TATATAGCAGGTAGATATATACTTATATGTAATCTACATAAAGGTAAAAATATATATTATTTATATTTATTTATATTATTTTTAATGAACAGATATATTA
TTTTATTTTTATTTTGTTTTTGAGGCAGAATCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCGCCATCTCCCGGGT
TCAAGCRATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACGTGACACCATGCCTGGCTATTTTTTGTATTTCAAGTAGAAATGGGGTTTT
ACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCGCTTCAGCCTCCCAATAGATATATTTTTTGTTAATATTATTTCATATATA
ATATATTAAAAGGTAGATATATATTATATGTAGAGAGAKATATTTTACATATCTATAGATCGATCTATAGATATCTATATCTATAGATCGATCTATAGAT
ATCTATATCTATAGATAGATATATAGAGGCCAGAAAGTAAATGAATTGATGGATTATTAGTTTCAGGTTCATTAGGCAAGATGATAAAGCCTGATGGAGG
GAAACCACCATTGGTTCAGAGACTGGTGGCCTTGAAAATTTCATGAAGAATATGAGAAAGCCCAGGGGCATGAACGGAGTTGTGGGGAGGAGGTGCGAGT
GTGTAGATGTGTGTTTAGGATGGGCTGTGCAGACGGGGAGAATTAGAGAGATAAAATATGTAAAACCATAAGTGTGTGTATATGTATACAGGTATATATA
TATATGTAGAGAGAGAGAGAGAAAGGAGGTAATAACGTGAATACTTAATGCCAAGTGAGGTGAACTATGATGGGGGTAAAGCTTCACAATTATATTATTT
TAAAATTTGCTTAGTATTTCTTCTCCTTTTTTTTTTTTTTTTTTTAGGCAGAGTTTCGCTCTGTCGCCCAGGCTGCAGTGCAGTGGCGCGATCTCGGCTC
ACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCTTGCCTCAGCCTCCCCAGCAGCTGGGACTGCAGGCGCACGTTGCCACGCCCGGCTAATTCTTTT
TTTTTTTTTTTTGTATTTTTAGTTGAGACGGGGTTTCACCGTGTTAGCTAGCACGGTCTCAATCTCCTGATCTCGTGATATGCCCGCCTCGGCCTCCCAA
AGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTTTTCTCTGTCTTTTTAAATAGACCTTATTTTTAGAGCAGTTTGAGGTTCACAGCAAAATTA
AGAGGAAAGTACAGAAATTCCCCATATTTCCCCCRCCCCAACACATGCGTGGACTTCTCCATTACCAAAATCCCCCTCCAGAGTGCTACATTTGTTACAG
TCCATGAACCTACATTGACAACAGCATCACCCAAACTTCATAGACTGCATTAGGGTTTACTTTTGGTGGTGTACCTTTTATGGGTTTGGACAAACTTATA
ATGATATATATCTACCATTAGAGTATCACGCAAAGTAGTTTCATTGCTCTTTTTTTTTTAAATTATAAAATGTATAAAATGAGAGCTTTTTCTCACAATT
TACATTTTTTATCCCAAAAAGAAAATTGAAAGGCGTTGTGCCTTTTTTCTTGGAGCTGGTTAAAGAGAGGCATGCATAGTCCCCTCATTATATAATTTAG
GAATGCAGAAAACATTAGTATATTTCAGCAATTGACACTTGTTTGATTAAAATTAGTGGTCGTGTGTATCACAGAATATCAGAAAACATGTTAAGACACC
AAAGAAGGCAACCACCAGAAACCTTTCCTATTAATGACTCTGGTTAATTTCTTTCTTTTTTGTTTTGTTTTGTTTTGTTTTATTTTGAGACGGAGTTTTG
CTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGACCTCGGCTCACCGCAACCTCCGCCTCCCGGGTTCAAGAGATTCTTCTGCCTCAGCCTCCTGAGAGG
CATGCGCCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGACGAGGTTTCTCCATGTTGGTTAGGCTGGTCCCGAACTCCAGACCTCAGTTGATCCAA
CTGCCTCGGCCTCCCARAGTGCTGGGATTACAGACATGAGCCACTGCGCCCGGCCGACTCTGGTGAATTTCTCGGATGTAAGTTGTTATGGTATGTGTGT
AGGAGTGGGGAGTATAGTTGCATACCCATGTGTTTGCTAGCTCTTGTATAGAATGTAAGAGGAAAGGACATATGTCAGAGCCCTTTGCTTTTATGTAAAA
GCCAAGGGAGTTCAGGTAAATGGAGTCAAGRCAATAAAGGGAAACAGATTTCAAGGGAAAAAAATCAGGAAAATGAGGCATTAGGTATGTGATGAAGGAA
AGAATTTTTAGGAAGAAAAAGTAACAGTTTTAAATGCTTCGAAGATAATTGAGTAAGAAAAGCATAAAATAGGTTTCCCTTGCTTTTGACAACATGGCCA
TCCATTGAACACCTTTSTAAAGTACTCAGCAGATTCATAGTGGCAAGAGGCACACTGAAGAGGTAATAAATGARTGATGAAGAAGAAGAGGGGACTATAG
AAATATTCTGTCAAGTATCCTTGATGTGAAAGAGAATGAAGGACAGAGGAGGTTGTGGAGTTGCAAAGGTTTTCAAAGAYAAGAGACATTTGAGTTGGTT
TAGATGCTTGKGGGGAAAGGCAGGGAAGTTGAAGACCAAGTGGTGGTGGGCATGGTGTCTCTCTAGAAGTAAAAACATATGGGTCATTAAGCATAGGCAA
AAACCTTATATTAGAAGATACATACTTTTAACTCACCAAATCAGAAAGAAGAAAGAATGAATAGCAGCAGTCAGCAGAAAGTGTTGGGAGAAATTTCTTA
TTTGATGATCTTGATTTCTTCATTAAGATGTAAATCTGGGTTACCTGCTGAGGAAAGAAGCAAACATTTAGATTATGAGCCTCTCAGGGGAATAGGAGGG
GATCACTGAGCCGTAATCAGAATAAAGYGGCAATTCCATATGGAGTAAAATAAAGAATCAAACGTGTGGACTGATACTCTTGGAGCATTACAGGGAAAGT
AGAATGGAAAGAGAAGATGGCAAGAAAATTGAAGAAAAGGTCAGAAAGTAAATGAATTGATGGATTATTAGTTTCAGGTTCATTAGGCAAGATGACAAAG
CCTGATGGAGGGAAACTACCATTGGTTCAGGGACTGGTGGCCTTGAAAATTTCATAGAGAATGTGAGAAAGCCCAGGGGCATGAACGGAGTTGTGGGGAG
GAGGTGCGAGTGTGTAGACGTGTATTTAGGATGGACTGTGCAGACAGGGAGAATTAGAGAGATAAAATATGTAAAACCATAAGTGTGTGTATATGTATGC
AGGTATATACATATACTTATGTATTTATTAAATATTTAAATTAAACATGAAATATATGATATGTAATATAATATACTTATATAATATTAAATAAATTTAT
ATAAATAATATACACATATAAGTATAAATATTATGTATATATAATAATATGTACCTATGTGTATATAATATTTACACTAGAAAGGCAAGAAATAAGAAAA
TGTATCCAATCATAAAAATGGGATGGAGGAATGATACAAAGATTGGGGTAGAAAATAATTTAGTTCTCCACTCAATTATTTTTATTCTTGGCTGGAAAAA
TGGATGAGATGCATTGTCAGATTGAGTCCAAAAGCTATTCTGTCTTTCACCCTCTTGAAAGTTCTACATTCAGAGTATCTTTTGTCTCGTGGAAGATAAA
TATATTCAGCCAATACTATCCATGTTTTCACATTGAAACCAAAAATGAATCAATTATTTCAGTAAAGCAAGGTGTATATAAGTTATGATTTGTATTTCCC
CATTTTTATTTACCTGTAGTGTTTTCTAAACCAGTCACAGTCTGGATTTACTTTACATTATTATTATTTATTATTATTTWTTATTATTATTATTATTATT
ATTATTATTTGAGATGGAGTCTCACTCTGTCACCCGGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTTCGCCTCCCAGGTTCAAGCGATTC
TCAAGCCTCAGCCTCCTGAGTAGCTGGGACTACACGCGTGTGCCACTGCGTCTGGCTAATTTTTTTGTATTTTTAGTAGAGATGGAGTTTCACCGTGTTG
GCCAGGCTGGTCTTGAACTCTCGACTTCACATGATCTACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCTGGCCTGCATG
ATTATTTTTAAATGACCAGATTCATTCCACATTTCCAGATTATGCTTTGATACTAGAAATTTAGAAAGAATAAAACCCCACAAGAATAAAAATCTAGCAA
TCAACTGCATGAATATATTTTAGTAAAAGTTGGAGCAACAGATGATAAAATTCCACAAATTCAGTGAACTCTGAGAATAAATATGGAAGGTCCGCAGTTA
ATTAYCCTGCAAAGAAAACGAACCTTGAACTTTCTGTTAATAGACTTTGCTTCCCAATTAAAAGCTAGCAGTTTGAAAGGTTTACCTCATCAGCGATTCC
CTATCCAGTTTTCAGATGCAGTTAGCCCTTGGATTGACTTGCATATTTATCCCTGTTGAGGATGTTATACGTTTCTATCTCCTTTTAAATAAGGGAACTT
TGCCAACAATTCGTCAGTATTTGCAAATTAATTATGATTAAACTTTCATAATAGGGATTATGGTTAATTGTTGATTCATCTCCCAGTCCTCCTTTTTGTG
ACTAATTCTCTTATCAGTTTGACCTGAGGTGGCAGATACCACAATTTCCTATTAGACAACTTCTCTCACAATTACYTAAGAGCCATGAATTTGATTTAGA
AATGGGGTTGTATGTGTGTKTTTTTCTATCACATATTAAACGCACAATCTGTAAAAAAGATTCAGGAGGATGTTTGGGAAATGTTTTCTGTGATATTTAT
TTTTCTTCAGAAGAAGTGCCAACAATATTTCATTTATGGTTTTGATTCCCCATATGCCAATTTCAGCACCCTCTTATTTCACCAGGGTCATTTATTTGGT
ATTTAGTTATGCTTCTGATATTTGCTGTCATCATAAAGACCTGACATCTTCCCTAGCTTCAAAAGAACAATTTGACTAATGCTAACATTTAAATATATTC
AGAAATTTTACTTTTCATTAATGAGACAGGAAGCCTCATCTCTATGGACTGCTAACATGATGATTTGGTGGAAAATAAAGTCCAGCCAGCTGTTAAGTTG
AATTAAAAAATTTACCAATAATAATGGAATATTTTTGCCCTGTCTTGTACAGTCATATTAAGATTTGCAATATGAATATCCATATCTGGAATAGGACTAT
AATACCATAAATAGCTTAAAACATAGTCTTCATGTTTTCAGTAAATGTTATGACAGTGTATTATATATTAATTATAAATTAATATGTAATACAAATCTTC
ACAAATCTGAAAATGCCAAATTTAGTGAATATTCAGCTTTTTAAATTTTGAAATGGAGTCTCACTCTGTCACCTAGGCTGGAGTGCAATGGCGTGATCTT
GGCTCACTGCAACCTCTACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAATACAGGCACCYGCCACCATGCCTGTGCTATT
TTTTTTTTTTTTCATAGAGATGGGGTTTCACTGTGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCT
GGGATTACAGGTGTGAGCCACTGCACCTGGCCAATATTCAGCTTTTAATAAAATTTTTCTTTTAAAGATGATTTTACTTTCTATCAGATTCCTATTGCAT
TGAGGACTTAGTTTTGCTTTATTTTTATTGKTTTTTCAAATGTTTTACCAAGTACAACTTGTCTCTAAGATTCAAAACAGTGTACATTTTGAATAGATGT
ATCATTTATTTTATGTATATGCATAATAATGGTTAGAATGCTCACAGTTATACTGTTCATCAGTAACCCTGTGAATACAGGGTTCACATCCAAGATGTTC
TCACTGGTCCGTGGCAAAGTAAGAAAATGAGAACAACTTTCCACATTTTTCATAAAAATAGAAAGGATACAATTTAAATAATTGTCCKCCAWTTTGATAT
TATGGGTTTTAAAAACTAATGATGGTTTTTAAATGCCCTTTGTTTCATGAAATAATAATGATGCTTTATTAAATGATAGAAATATATTGGAGGTTATTAT
TACTTGGAAAAACTAAGAGCTAGAACTCCTATATCAATTTCACAAATCGATCACACATTTATTTTTAATTTCATATTTTTTCTCTGAAAATTATGAATCT
GGAAACCACTGCTGTGAGCGGAATTTTGTTATTCCTAGATCAGAGATGACACATAATGTTGAATGATTTGTCTGTGGTCAGTTACGTACTAAGTGGTGGA
GCCAGGAGGAATATCAGCTACCCGTGTGCCAGCACCTCATGGTCCCCCTCTCATCACCATTATTATTAGAATACATGGCTAGATTGCAATATTAGGTAGG
CAAATTGAGAGTCCATGTTTGTTCCTCATAGCAATGTGATTTGTTCMTTATGTGAGGTATTCCTTCAAATTTAAAAAGGATTGTGTTCTAATCTAAAAGG
TCATTCATAAGCCACTCATTCGAAACATCTTCCCAGATACTTAGTTTTATGAAATTCTCAAGACTGACACCCCAAAGCATCCTTAATCTATAATAAACAC
MGGAGTACAGGGAAGCTCACCTCCACTTTGTTTACATTTCTATGGGCAAATGTGCCGWCTTTCTAGTGAGATGTGAGGAATTTAAGTGCCCTTACTGCAG
CCTTGGGAATAGAAACAGGATCATCAACAGCCTCCACTCCTGCCATCCTCACCCATGCATGAGCAAGGCCTGTTTAGAGAGGGAGAAAGAAAAAGACCTT
ATATTACTTGGAAAATGAGAAGCAAAGATTTTAGACAAGAACCAATGACTGGGAACCAAAATGCAATGAGGGCTTGGCAGCCCAGGAGTAGTGGCTGCTG
TTGTGAGACACATGGAGCTAAAATGGGAGAGATGAGAAACTGTGAGCTTTGAGGATTGTAAGAAGGAAGGGAGCTGCAACAAAGGTCACAGGTCTGTGGG
GTTGCCACGCCTCCTATTTTCTATCTCTAATCTCCCTTTTGATTTTCACAATTGGTCCTGTTCTTATATGTCTGGGTGAAAGTAAGGGAAGATCTGTGGT
TTTTGGTAGGATAGAGTTTCATGTGCCATCATCTCCTTCCTTGCCATTATTGTAAAGATTCCTCCACTAGAGTTAGTGATGATGGCAACAGACAAATGCC
GGATGAGAGGTTTGGGTTATCTCTCATATTATTAAATAGTGATAGAAAATTGGCAAGTTAAAGACTGGCCGCAAAAAGCTTCTGTAAGGGCCAAGGGAAA
ACTTCTCTTTTGCCCTCTGAAGGTTTGCTGAAAAATCAACTGAAAAAAGTTAGCTTGGTAGGTGAAAGGCATACAAAATGTATTTTAACATGCATAGCAT
GGAAGAATCACAGGAGGATGATTACCCAATAACCCAATAGGAGCATAGATGTAGATATACCCTTCTTCAYGGGGGAGGGAAGATGGGGAAAATATGGCAA
TTTGGAAAATAGTAAATGATTTTTTAGGGGAATTCAAGAACCTACAATGGCCTGGGACAAAGTCTGTTGGGCCCACAGAGCAGATAGTGGTTTGTAACAA
AAGTCTGTTCAGGTGTGCCGACAGACTTCAGTCTCTCTTCATGTGAAATGAGTTAAATTAATGAAAACTTAAGCAAGAGGGCCAGAGGAAACTTTTCCTC
CTGGTGGGATCAGACTGTAAGTAGATACGGGAGTATCAGAGTAAAACTTATTTCAGCATTTGCTGGTCTCCAAGAGCCTTTAATTTAAAATAATCAGCAT
ACCAGCATGCTATATTTTCGGGTATTGGTTTCTGAGCCTCAATATCTCATAGAATGAATTTAACAGCATTTTATGTTAAAACCAGATATATATTGGACTC
CCTACGTCTTAATAATAATGAATGTGTCAGAAGGGCAAGTGTTCAAGTGTATTTCAACCACAAGTCAGGATTTTATGTTTCTGTTAACAAGGTTGATGGC
ATACTAGAGCTGTCTCAATAGTTAGTTGTTGCTTTTTTGAATGATTGACAAGTCAATTAGATTTTAACATTATATCTTTACACTTAATTTCTGTAGTTAC
CTTTAAAATTGCCCATTTTGGTTAATGGCCAGAGTGCTGACCAGCTCATTCCCCTGCAGCCTAAGCATTTAAACATTTCCTGCTACCTTGTATGGTGCTA
TGAGACAGCTGTCATTGAAGAAATTCTGTTGAGAATCTGAATTACTCTCCTTYTGTATTATTTTAATGTTTGATATTCACATGATGGTTGTTTTAACCRT
TTTTTTTTACTTTAAAGAAAAAGCTATAAACTAGTTATATGATCTTTTCTTCTTCCTTTCATATGATGCTGCTAACTCAATAGAGAGMCACCCGATTACA
AATGCTATTGATGGAAAGAACACTTGGTGGCAGAGTCCCAGTATTAAGAATGGAATCGAATACCATTATGTGACAATTACMCTGGATTTACAGCAGGTAT
AGTTCCTCTTTTTTTGTCATTTCCACTTTTGAAATTGCATTTTACATTTGCTATTTGTTTAGTTAGTGGTTTGTGGGTGAAAGGATACTCTTTCTTATCA
CTCTCCATTGTTTTCTTGATAAGATGAACAAAGGGTCCTATTCATATAGCGTATTGTTATTTACGAGTATTCAGCATTTAATTATAAAGCACAATTCAAA
TGGAAGCACGTGAAGAGCTTAGAAATGAATTAGGTGCTAACTCTGTTTTAGCTAGCTGGACTTAATGATGAAAATATGGATCAATAAAATTTTACATAAC
AAAAATATAATAGTATCATTTTTAACTTTTAAAATAATACATTGCTCCCACTGTGCTGATGGTGTGTGCACTTAAAGGTTCTTGGATAACAAGGCTCTTG
AGCAAATTGCCTCTCATTACTGAGAGCTGAGAAAGTTTTGACAGTTGCTTTCAAGTTAAACTTGGGTGACTAAATGAAGTAACAAGCTTTGTAGTTATAC
AAAATTGATGCCGGAAGTTGTTCAAGTTTGTCTTGCATAGGCCTGGGTGCCTTCTATGCTTAATCTCTTTCTTCCTTCTCTTCACAATATTCAGGTCAGG
CTGAAGTTATTAATCAGGAATCGCCAGCACCTCAAATTATTTAGGCTTGCAATTAGGATGGAAAGTGGACAAATGCCACATTCCATCCTATTTGTATGCC
TAAATAATGTGCAGGGGTGATGGTCAGGATAGTTAATGACAGACACYATACACTGTAAAGGTCATGGTTTTTATAAGTTATCACTGTGTGGGGAAGCCCC
CAGCCAGTGGGCCAGATCAGCACAAGACATTTTCCTAATGGATGCCATTTGCCACCAGCATGAGTACAATCTCCCTCCTCCAGTGTCTAGGTTCATTTTG
GTGAGGGCTGCATATATTCAAGAGCCACAGAAAGCTGGCTGGAGCAAACAAGCTGGYGGATTGCACGGTAGACCTGCCTTCCACCCATATGGGCCTCCTC
GGGATATGAGGAACTGGTGGCGGCAGGGGCTCAGTGCTGCAGCTTATATCACCAAATGGCATGGACTTATTTCTACCCTCACTAATATACAGCAGCTGAA
TGTCAGTCCTGAGTTAATAATATTTCTCAGGAAGTCTCAGAGCACTATCAGAGAATGGCAGGGCAAGCTACCACACTGATCAATCATGCTTTAGGAAAAT
TAATCCTGTGCATGAATCCCCTGGGGATCTTAGCCTCAAAATGGACTGCATACCACTCCTGATAAAGACAACTTTGTCCTTTATTGGTCACAAGAGTTCT
CCCCCTTCATGTGATCATTGAAAGTCTAGTCTCCCAATCAAGAGTGAGTCTGCTGTGCATTGACTCAGGTCATCTCCAGGGACAGGCAATCAATAAATAA
TGATGCTTTATTGTTCTGGTTTATTCTCCATTTATTCTTTTAGATTGCACATAGAACAATGGGGTCAATTATTAATATAATTTGCACAAATCACTTATAG
TACTCTTTGAGCTGAACAGCAATATTATTTACCTGTTATCAAACATGGCAGCAATTTTCCCCTCCTAATTTACAACTGGATGGCGCAACCACAAGTTTTT
ACTAAATCATTTCTAACTTGCCTGTTTTTATCAATTCAGCAAGTCAAAGAGTTTACCTGAAAGCCTATTTTTCAGTGATGTCATTGATATTTTCCTAAAT
TTACTTTGCATACTCACTCATCCATTCCCACACAGTATCTTAAGAATTATGTGGATTTGTCGTTCTGTTTTCTCTTCCTCCCATTTAGTTTAATGGAGGT
AAGATGAGTGAATATGCCAAGACATATTTTATGCTTCATTCATCATAACAAAGTGCCAGAATTCTGTATATAACCCAGGTCTACCTGACTCCAAAGTCTG
AAATTCACCAAGTGGAATTGGTACAGAGCATATGTGTTCAAATTGTCCCATATTCCAGGATGGTGTCCATCCATATCCTTATTTATTCCAGCTTTCTATT
TCCTGAAAATCAACCTACTGTGTGTGTAGAAGAAGGGGAATTCAAGTAATCTCTAAAAATGTAATAAATCCTTATTTCTACTTGACTCAAGATTTTAATT
TAGTCAGTTATTTAGTGATGTGAAAAGTTAAACAGGTTTTGTAATCAAGTTTCGTGATGGAACTTCTCAGACAAGAAAGAGCTTCAGACTTCCAATTTGG
CCTCAGGCTTTGGAATAACAAACTGTGAGACATGTTTATAATACTTATTCAGCTATGGATGGTATATTGTACTGCACTGGCAACAGAGAAAATGTGGACA
TTCTTATTATGTAACTCCTCACAATAATCCTGAATAAACCAGCTAATATTAATATTCCTATTGCATAGTTGAAGAACACTGTGCTTTAGAAAAGTTCAGT
GACTTGGCCTTCTTTCTAAAGCTTATTATGGGCAGGGCTGGGGCAACATGAATAGTCTGAATCCAGACCCAAATACACTATCTTTTCTAATGGGTATCTG
AAGACATAATCCTAGGGAGCTCAGGATAATTTTTATTATATATTTTCAAGGGCTCCAAATGTAGTTCAGGTTCAAGAAATATTGCACTATCTTCTCCTGG
CTTCTATGGGATAATATAGCCAACAACCTGTTTCGTTATAAAGCAGGGGACTAGAACCCTCATTTTCTAGTATACTCTAGTGTGCCTCTAAAATGGCAAA
GCTTCTGTCTTTTCTACCTACCGCATGAAGGATTAATAGGTTATTCAAAATAAGATGAGCTATTATCCAACTGGGATTAAAAGGCAGTAAAATTATAATG
AATAGGTAAATATCACTAAATGTTTGTTTGTCATTTATTCAGCAAGAGACTTGACCATTTATTAGTTCTTCTTTTGTATAAATTTCAACAAGTGCCAGTA
TTGTTGTTGATAAATGCTTGGCTCCTCTGTGACACATTTTCATAAATTAGTATCTTAAACATAACAGAAACGATTGCATTTATTTGATTAAATCACTATA
GATTACAGTGGGTTTTTTTTTTTTTTTTTTTACATTTTAACATTCAAGATAAGCACTAGAAAAAATACCAATTTGTTTGGAAGAAAGTAGCTACTTATTT
TATAAGTAGATTGTTCTTAGATACGTATTACTAAGGGATTATTAACTTTTCTCATTCTATTTACTCATAGCATATTTTGAGCAAGTGATTTAATCATGCT
GTGCCTCAACTTCTAGATTAGCAGACTAAATATTACAATATCTTGGCAAGAAAATTAAAGTAATGATAATGGCAATATAGCAACTAAATTCCATCTCACA
ATTACAGCTATTAAAAGGATCYAGAGTCAGCATGAACTTAAAGAAAAGCTTAACTGTTCCAGTGACGTGTATATAAAAACTCAATATAATTGCGAACAAA
AATATACAACAATTTAAAGGAGACAGTAATAGGGACTCAAACGTTAATAAGATGTCTAAAACATTCTATTTTAGTCTTTTTCCTACCAGATTTCACCAGA
ATATGTCATTATGTCTGATTTTATTTATTTCTTTTAAAATCTAGCCATTATCTCCGTCATGCCCTTTGATTTGTTTCAGAAGAAAGCTGATTGGCAGGCG
GGGTAAAACAGAGGGRGGCAGCTTTTCAGTAGACTTTTCAAACACATATTGAGGTGATACTCACTCCTGGCTAATCCAGGAATGCCATTAATTAGTTAAG
CTCATGTCTTAACTAGGAGTCTTCTCCTCAATAAGCAATTCACTTCTCTTCCTGGTCTATCCCTCAAAACTAAGAATGCGTTTACCAAACAAGATTATCT
TACAGCTACAGAGATCACACTCCACATATTCTTAACCTAAATATTTTATTCACTGATCTTGCAGAGAAAAATTTGTTTGGACAAGTTAACAGTTTTAACT
GGAATTTATGTTTTAGGAGGAGGATAAACTACTATTTCTATGCAAATATTACTATACTTTTAGAATCCATGTGAATAGTATAAAATGATTTTTCTCTAAA
GCCTAGAATCATTAATGTAATGGTTAAACATTTCTGCAATAATAAAACATAAAATACGTGGAAATACTTTATATATTCAAGTTTTAACAATCATTTAAAC
ATATTAAAGGTGATCCAATTTTCAGTCTTGAAGGAAGGTCATTATTCTTTCATGTCAATTCTTTCCTCATGCTCTTCTTACTGATTCCTGATTACTGATT
AAAGGATGTGTTGTACAAGGAGGGAATTTTGGAAAATTCACAAATACATGGAAATTAAACAACATACTCCCAAACAACCAATGGATAAAGAAAAAATTAA
AAGAGAAATTTAAAAATAACTTGAGACAAATGAGAATGGACACACTAACACTGATAAGAAGAAGCAAAAGCAGTTCTAAGAAGAAAGGCTATAGTAATAA
ATACCTACGTCAAAAAGAAGAAAGATCTAAAATTAACAACCTAAGGTTACATTTCAAGAAAGCAAAAAAAAAAAAAATGAAGAAAAGATAAAAGAAAGAA
CAAACTAGGCCTAGAAGTAGCAGAAAGAAGGAAATAATAAAGGTCTGGGTAGAAATAAATGAAATAGAGACTAGGGAAACAATGGAAGAGATTAGCAAAA
CTGTCACTTGGGTTTTGGAAAATATAAGCTAAATTGACAAAAGTTTAGCTAAACTTTCTAAGAAAAAAGATCAGAATTGAAAGAGGAGACATTACTACTG
ATACTTCAGAAATACAAAGGATCATAAGTGACTACTCTCAACAATTATATGCCAACAAACTGGATAACCTAGAAAAAATGGAAAAATTCCTAGACCTACT
AACACTGAATCATGAAGAAATAGATAACATGAGCAGATCAATGAAGAGTAAGGAGATTGAATCAGGAATAAGAAATACCCTATCAAAGAAAAGCCCAGAA
CCTGATGGTTTTACTGCTGAATTCTACCAAACATTTAAGGAACTAATACCAATCCTTCTCAAAATCCTCCAAATAACTGAAGATGAGGGAGTACTTCCAA
ACTTATTTTATGAGGCCAGCCATTAGCCTGATACCAAAGCCAAAGRCACTGCAAGAAAAGTACATTACAGATCAATATTTTTGATGAACATAGATGCAAA
ACTCCTCAAGAAAATACTAACAAACCAAATTCAGCAGCACATTAAAAGGATCATTCACTGTGATCAAGTGGGATCACTACCAGGGATGCCATGGTTTAAC
CTTTGCAAATCTATAAATGTGATACCTTACATTAGTAGAATGAAGGACAAAAATCATATGATCATCTCAATAGATGCAGAAAAAGCATTTGACAAAATTC
AACATTGTTTAATGATAAAAGCTGTCAACAAATTAGCTATAGAAGGAATGTACGTCAACATAATAAAGACTGTATATGACACATCCTCAGCTAACATCAT
ACTCAATAGTGAAAAGCTGAAAGGTTTTTCTCTAAGATCAGGAATAAGACAAGGATACCCACTTGCACCACTTCTATTTGGCATAATACTGGAAGACCTA
GCCAGAGAAATCAGGCAAAAAAAGAAATAAAATTGTCATCAAAATTGAAAAAGAAAAAGGTAAAGTGTCTCTTTTTGCAGATGACATAATCTTACATATA
GAAAACCCTGACTCCACCAAAATAACTGTTAGAACTAATAAACAAATTCTGTAAATTAGCAGGATACAAAATCAATATACTAAAATTAGCAACATTTCCA
TAAACTAACGAGGAACTATCTTTAAAAAAATCAATAAAATAATCCCATTCACCATAGCTAAAAGAAAAATAAAAAATTTGGTAATAAATTTAACCAAGAG
GATTGCTATGATTTGGCTCTGTGTCCCCACCCAAATTTCATCTTGAATTGTACTCCAATAATTCCCATGTGTTGTGGGAGGGACCTGGTGGGAGATGGTT
GAATCATGGGAGTGTTTTCCCCCATGCTGTTGTCGTGGTAGTGAAAAGTCTCATGAGATCTGGTAGTTTTATCAGGGGTTTCCGCTTTTGCATTTTCCTC
ATTCTCTCCTTGCCTGCTGCCATCCATGTAAGACAGGACTCCTCCTTACCTTCCACCATGATTGTGAGGCTTCCCCAGCCACATGGAACTATAAGTCCAA
TTAAACCTCTTTCTTTTGTAAATTGCCCAGTCTCAGGTATGTCTTTTTTTTTTTTTTTTTTTTTCTTTTTTTTTTTTTTTTGAGACGCAGTCTCGCTCTG
TCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGA
CTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTCCTGACCTCGT
GATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTCAGGTATGTCTTTATCAGCAGTGTAAAAACAGACTAA
TACAGAGATGAAAGACTGGTACACTGAAAACTGTAAAACAGTGATGAAATAAATTGAAGACACAAATAAATGGGAAAACATCCTGTGTTTTGTGGAATAA
CTAATATTATTAAAATGTCCATACTACTCAATGTGATCCACAGATTCAGTGCAATTCTTGTCAAAATTCCAATGACGTTTTTCACAGAAATAAAAATAAA
TCCTAAATATTTTATGGAACCACAAAAGGTGCTGAATAGCTAAAGCAATCTTGAGCAAAAAGAACAAAGCTGGAAGCATCACACTATCTGACTTTAAAAT
ATACTACAAAGCTGTAGTAATCAAAACAGTATGCTGCTAACTTAAAAACAGATACGTAGACCAACAGAATAGAATAGGAGCCCAGAAATAAATCTAAGCA
TTTATGGTCAATTGATTTTTGACAAAGATGCCAAGAACACACAATGGGATTGAACTGTCTGTCCAGTGAAGGGTGTTTGGAGCAGTAGATGTCCACATGC
AGAAGAATGAGTATAGACCCTTATCTCAYGCCATATAAAAAATCCATTCAAATTCTAAATGAATTAAAGACTGAAACTGTAAAACTACTGAAAGAAAACA
CAGGGGAAAAGTTCCATGACATTGGTCTGGGCAATGATTTTTTAAAGATATAAACCCCAAAGCACAGGAAACACAATAAAACATAGACAAATGAGATTAC
ATTAAACTGAAACACATCTGGATAACCAGGGAAACAATCAACATGGCTGCTCTTCAAATCACTGAATTTATTTTGTTGGTACTATTTGGGTCACTGCTAA
ATTGGTGAATACCAAACTAACACAGAAGAGATTATAATATACATGTTCCAAATGTAGATTATACCTTACCTGAGTATACCTTGTTTAAGTACAACAGAAT
ATAGTTAAAATCACAGTTCTTTACCTGYTTTAGTTGTATATARATTTTTAAGATCATTTGTTCAGTATCACAAGTAGAATCTGTGGTTAATTAGAAAATA
TATTTTCCCTTTAAAWGAATTTGTGCTGACTTTTAAAATTATTAATAAAGGTGACAGCTAGCTTTGGTGTCTATATTGAAGAAAATGTTCATCCTAATTG
GTTTCCGTTTGTCTACCCTTTGGTCTGCTTTCAACACAGCAGTCACAGCAATCTCATTAGTACAGATCACATAACACTTTCCACTAAAAGTGGAAATCTT
ATTAGTACAGATCACACAACACTTTCCACTAAAAGTCTCTACTGGTTTTCCATCACATTCAGTGGGAAAAGCACAATGACCCACAAGGCCTTAAGGACCT
TTTCCTCACCTCTTTTCATCTCTGGCCTCATCTGATCTCTCTTCCTCAGTTGCCCAGCTGGTCATCCCGCTATGTCTTGAACACTCACACCTGCCTCAGG
GCCTTTGCACTTGATATTTCTTATGTCTAGAATTATTTTCTTCAATTTCAATGTAGCTTGTTTCCTCACCTCCTTTTGGTTTTTATTCAAGTGTTACCTT
CTCAACAAGGGCCTCCTTGACAACTCTATTTAAAATTGCAGCTCCCAGCCTGTCCACTTCCTAAACCACTTTCCTGCTTTATTTTTCTCCATAAAATATA
TCACCATCTAACTTACTATGTACATGTTACTGTTCAGTTGAATATTTATCTTTCTAAATGCAATTTTTTTGTGCGTGGAGCTATTTGTTGTTGTAATCAT
TGCTTTCTAAGCACTTAGAATAGTGCMCAACATATAGGAAGCATTCAATGYGTTTGTATTAAGTTAATAAATGACTGAATGAATAACTAGTACAAACCAC
CAATCCATAATTTAAGAATCTTATTGAATCTGAGAATTAAAGGATTAAGTGATTTCACTGTGCTTCTTATGATAAAACACACTGCACTTTTTCTAATTAT
GAAATTTCCTTTAAGGTTGAATGGCATTGTTTTAGTCTATTTGGGCTATTATAACAAAGTACCAGATGAGGTGGCTTATAAACTGCAGCAATTTATTTCT
CATAGTTCTGGAGGCTTGACGTCCAAGATCAAAGCACTGGCAGATTCAATGTCTGGTGAGGGTCTGCTTCCTGGTTCATAGATGGCCTTCTTCTTGCTGT
AGCCTCACATGGCAGAAGGGGCAAATAAGCTTTCTGGGGTTTCATTTATAAGGGTACTAATTCCATTCTTGGGGGCTCTGTCCTCATGACCTAATTACCT
CCCCAATCCCCATCACCTAATACCATCACATTAGGGGTTAGGATTTCAACATATGAATTTTAGGGGAACAGAAACATTCAGTCTATAGAAAGCGTGAAGT
AAATTTTCTTCCAGTTCCTATGCATGTTCTTACTCTGCTTTTAAGCGTATTCTAAATTTCAGTTGTATCTGTCACTATGTGACTTTACCACACTTACAGC
TTTATTTAGGAAAAGAGATGTTAATTATTTTAACTCTTCTTTTGTAACAGAGAAGTCTGGGACTGTCATTTTTTGTTTTTTGCTTGACATTGTATTTTTT
CCTCATAGAACAAAAGTTAGTATAAAAGAAAGGGAAAAAAGGCCATACAATGATGCTGTTTAAACAAGAGTGTAAATGTAGGATATGTATTTTGATCTAA
AATGTTGATAAACCAAATTCTAGCAATATCATGAAAATGTAAACATTTTGGAGACCCAGATCCTATTTCAAATAGAGTCAAGATGACTGCCCTAGAAAAT
GCTTCTTGAAGTCATGGAATAAATTAKATGATTGTTTATTTAAAAAAAAAGAACAATAATACATAGGAGATCTGTTAAAAAATCTGTGAGGAAAGAGCTG
TTAAAATGTTGAAACCACATGAATTCTGTTATGGAAAGTCTGAACAAGACTTTCTAAAATAGATTGAATGTGGGCAGTTTTCACAGCTGCCTGATGACTT
CCACACACAAAACATCCACATTTCATCCTTTTGGTGGAATACTGTGTATTTTCCAATTTTATTCTTAGAGTTTAATTTTTTACTTACATATTATGCTTAT
GTATATCATATTTGTTATATATATTATATATAACTAATATACAATTATATTATTTATTTAAAAATAAGGAATTAAAAACAATTATATTATTTGTTTTTAA
ATAAGGAATTACAAAATAATGAAGAGACCGTATTTATTATAGATCTTGAAACTGTGACTAAAAACCCCATGCACAGAGAAAATTCTTGAGTCAAATGGCT
TCATTGATGAATAGAAGTTAGAATACTGGTTATTGTTACAAGGAGAGGGAAGATAATGACTGGGAGAGGGTATGTGGAAAGTTTCATTTCTTATTTTTGA
TTATATAATTGTACAATAATAATGTGTTAGTACATAGAACTAATATAATTGTAAATAAGTGTGTTTATATATAATAAAATATACAAAATATAGATAATAT
ATTGTATAATGTATAATTATATACAATATAATAAAAATGTGATAAATAATATTGTATAATATATAATTATATACAATTATATTATATGTACTAATGTATT
AGCTATATGTATTTATATGTACCTATATATAAGACTTTTTCTAGAAATTGACTACATATTTGAATTGTGAGACAGCATGTATGTTTTGATTCATAGATAA
GATATGTTTCCAATATTACCCATATCTCTAAAATACAAACATGGCAAAAAAAGGCTGGAGTGAGACTAAGGAGAAAGGAGGAGCTATAAGTGTGCCCAGA
TTCCATTTCTTTACCTATGACTTATGCGTTGGTACATTTACCTTAGGTAACTTGTCCCACTTTTATGCTCTTCAATTTGGTCTAGTGTAAAATGGAGCAA
ATAGGCCCACTTCCTTATTACGAAGCATATTATAAGGATAAAGTGATGTGTTATAGGCAAAGAGCATAGCACACTGCTGCACTTTAGGTGATACTCAGAA
AATATTACTTTTGGTCTTCCACATTGAAAATAATGGTGAATGGAGAATAAATGGGCTAAGTTGTAATGTGAAAAATGGAAAATAACAAAACAAAAGCTCA
AAAATGCTTTAATTACTGGATATTGAAATGATACCTATGAGGTTCACTTTGTATATCACCTAAGAATATTATTTTACTCAATATATTTTTAGCACTTTAT
GGACATTAATATTTCTATGGAGAAAGCTTAAAAAGTGTCACTTGTGCATTGAAACTCTTTTGTAACAGCTTCTTTACTCTTCTGTTGTTGTYATGATATC
CTCCAGATTACTTAAATTTTTAACCAAGAAGTAACCTTACTTATTACTAGTATGCTCTTTCCTTAAAAGCTTTTCTGATTTATGTTATTTTAATTATATC
AATCTTGTTATTATKTACAGTTTTTAATTATTTTAATAATTTCAACCTTTCTGCAACTTTCCATTTTAGATATGTCTCATTAATGGCATATAGTGAAGTT
TTGACGTTTTGTCTAGTTTGGCAGTGTTGGTCTTTTAATGAAACATGCATTTTCAGTGGATCTGTGTGTATCTAAGTGAAGCATGTACACAGAAAAGGTG
ACAAATAAAAGTCTGAGAGAATTTTTGCTAAATGAACCTTCCCAAGTAACTACTACTGAGACAAAAATAACCAGCAACCCAGAAACTTCCCTCATGCCTT
TTCCAATCACTATCTTGCCTTCTCCCCTAATAGTAACCAGTATTCTAACTTGTATTCACCAGTGAAGCCATTTGATCTAGGAGTTTTCTCTGTGCATGGG
TTTTAGTCACAGATTCCATATCTATAATAAATGTGGGACTCACTGGAGTTTTCATTTCTTATATTTTCAGTTTAGTTGAGTTGGGCTTTTCAAGAAATTG
ATCCACTTACCTAATTTTTCAAATATATCGACATGAGTTGTTAGTGATATTATCATCTTTTAATTTACAATGATCTGTAGTGATGCCCTTTTTTTATTCC
AGATATTGTTGTGTAACCTTTGTTTTTCCTTTACAGCTTTAATAGGTCTTCATAATTTCATTAGTCTTTTTCAAATAGCCAGTTTTGGGCTTGATTGATT
TTCTCTATCGTGAAATTGTTATATTGTATTGAATCCTGCTCTTATATGTCTTGTTTTTTACTTCTCGTTATTTTTTATTTTAGTTTACTACATTTTCTTA
GCTTCTTGAAATSGATACCTATGTTATTAATATTTCAGTTCTTTTTTCCTAATATATTTATTAACGCCTACAATTTGCCTCTACATAGGGCTTTAGTTGC
CTCCTACAAGTTTGATATATTGTATTTTTCATTATCATTTATTTTAAAATATATTCTAATTTTCATAGTAAATTTTTCTGTGGCCTCTGAGTTATATAGA
AGTGAARTGCTTAATTTCTGAACAATTGAGTATTTTTCTAATCGTTTTGTTTTTGTTGTTATTCCTTTCCTCACTAATTCCACTATGGTCAGTGTATTTT
CAATTCTTTGAGACTAAACTTTTTGAGACTTGTTTTTATCCAACATATGGCAGTGACTTGAAAACAATGTGGACCAGTTGCCCTGGCTCACTCCTGTAAT
CCCAGCACTTTGGGAGGCCAAGGCAGGCGGATGGCTTGAGCCCAGAAGTTCAAGACCAGTGTGGGCAACGTGGTGAAACCTCATCTCTACCAAACAAAAC
AAAACAAAACAAAACAAAACCCCAAAACAAATTAGCTGGGTGTGTGCCTGTAGTCCCAGCTATTCTGGAGTCTGAGGTGGGAGAATCACTTCAACCCAGG
AGGTAGAGGTTGTGGTGAGCCGAGATTACACCACTGCACTCCAGCCTGGGTGACAGAGCTGGACATCAGACCCTGTCTAAAAAAAAGCAAAGAAAAGAAT
GCAGATTCTATAGTTGTTGGTTGCAGTACTACAAATATATCAGTGAGTTATATTTATATATATTGATACTTTTAAATTAGAGACATACAAATTTAGGATT
ATTAAATTTAATAATTTAAATTTTGTATTAACTCTTTTGTATTAACCACCTTTTTAATACTACTGCCAGCAGTACTTCTATCTTTAGAGTGTACTTTTGT
ATGTAGATTCACTAGCTTCCTTTTTTCTCTGTGTTTGCGTGATATAGGTTTTCTCATATGTTGAGTGTACTTATATTTAAGGTGTATCTTCTGTGAGCAG
CATAAATTTGAATTGTTTATTTAACTAATCTGATAATCTTTTCCTTTAAATTGGATACTTAATTCATTTACATTTAGTGTTACTATACTGATATATGGGT
TCAAATTACCATATTCTCATCTGTTTTCTGTTTGTCTTATCTTTTGCTAATTTTTCTTCCTCATAACTTTCTTACTTTTGGAATACTGAAGGTTTTTCCC
TATTTAATTATTCCATTTCTTCTTTCATTAGCTTGTCTTCTGTGAAGTCTTTTATTACTCATACTAATTACCATAAATATGGTAACTTGCGTCCTTCATT
TATCAGAACTTTGTAATATTTTACCTCAGTCCCACCTCCCCATCAGATTTAATTCTATAGTTCTCATATGTTTAATTCTATGTATATATTAAACTCCATA
GGAAGTAATTGTTACCATCATAAACATGCAGTTTTCATCTAATTTTAAACACCTTTAACTTTTTTGTTTATTTTTTGTTAGTATACTTTGTTTATTTATT
TATTTCTGTTAGTAAACTTCCATCAAGAAAGTATCCYATTTCTTTTCTGCCTTTTTTAAATGAAAGCCTGCTAGTGATAAATCTCTCATCTTTTGTTTGT
TTTTTCACTTTTCTTTACTTTTGAGACTTATTTTCCACCAAGTATAAAGTAGAATTTCTTGCCTGGTTGGAATTTTGTTTTGTTTTGTTTTTTTCCAGCA
CTCTAAATATATCCTATCATTATTACTTGTTTTTCATTATTTCTATCATGAAGTAAGCGGAAAGTCTTATTGTTGGTTCTTGGAAACAAGATCATTTTTC
CTTTCACTCCATTGAAGGCTATTTTTTTTAATTTTGCTTTTGGTGTTCAGGGGTTTACCACAATGTACTTAGGAATGATTTTATTGGTATTAATACTATT
TGGGATTCAAAAGCTTCTAGATTCTGTGGATCAATGTCTTTCACCAATTTGGTAAAATTCTTAGCCGATATTTTCTCGAATGTTGTTACTGTCCATTCTT
TCTCTCCACTCTCCCTGAGACTTCAGTCACATCCCTGCTAGACTGTTTGCCGTGCTCATTATGTATTCTATGGCTTCTTTTCATTTGTCTTCTCTTCTTT
TGAGGTTTCTCAGTCTGTACATTTTCTGGGTGACCTGTTGTTTGGTATAAATAATCCCTTTTTTCTGCTGGATTCAATCTTTTATTACATACATTTACTG
GATTTTTAATTTTTGTATTTTTATTTTTTAGTTTTAGAATATCCAATTGATACTTTAAAAAAATTAGACTCCAAATATCTCTCCACTTAGTCATCTGGAA
CATATTAATAACAGTTATTTTAAATTATATGTCTGATAACTCTGACGTTGGAAACAACTGGGAGTCTGTTTCTATTGTCTTTTCATGCATTCCTGTTTTA
TGACAAGCTTGGTCGTTTTTGATTAAATAATGTATGTGTCTGAAAATGTATAAAAATTCTGGAAGATGTTATTTTTCTCTTAAAATGATTTATTTTCATT
CTGTCAAGAGTTAGTGTAGAGGCAAGTTGCTTTGCTTCAGTCAGCAACTCAAATGTTTTGTAGCTTAGTTAGAGATTCTGATGGTTGTTTCTAGTTTACT
CTTAGTTCTAGGGATAGACTTTCAGGACTCCAGTGGAAACCCCGACTTGTTTACCACACTCTTTCCTTCTTGGCTGACTCTTAACTCCAAAGTTTGTCTT
CCCAACTCTGGGAGACTTCCCAAGGATCTTCTTAGTTTTTCACTTCTCATGAGTTCATTTTTGCATGATGTTTATCTTCTGGCTCCTTCACCACTTAGAA
ATTGGCAAATCTCTTGAAGGCAAAAGCTGTGAAGAATGTAGGTCTCATTTCTCTATGAATTATGGTCCCTCACATCCTAGCTGACTTCATAGCCCTGAAT
TCTAATGTTTATCTTCTTATCCTGTGAGATTGCTGAACACACTAAGATGTAGCTTTCTCTATAACCTCCTATTCAACTGTCAGCAAATCARTAAAAGTAC
CCTGAGAGGAAAATGGCTAGCTTACCTTAWTTTGCTTCCCTTTACTTAAGTCTGGCTGCCTTGGTTGCTTGCTGATGCCTTCAAACTGCTGTTTTTAGTA
TTTTATCCAGCTTTTATGGTTGTTGTCTTTGAGAGAAAATGGAAAGGGAAAAAATATTTATTTTATTTACAGTTTTAAAAACAAAAATCAGCATATTATC
TGATAAAATTATTATTGCTTTTTGTGAATTTAAGGAATGTTCTGAATTATTGCTTCAATATTAAAACAGTAATTATTGGAACATTTTGATGGATTATGAA
GAAAGAATATGTAAAATTGGGATCGTGTGGAAAATCTGGTATGCATGAAATTGGCATATAAAGTAGGCCTAAACAAAGCAGGTGCTATTCTTAGTAAGAA
GCTTCATGCCCCTTATGGCATATCTGCCCTGAATAATACATAAAGAAAATAATTTAACAATATGCGTTTGAAAAATATTTGTTGAGCAACTACTGTTTTT
TAAGCAGTGTTCTAAGCCTGTAGGTCTGTCCATGAAGGAGACAGGAGTCCTTGCATTCCAGGGTTTTCAAGTAAACAATTTAGAATAGTGCAAGTTCATG
AAAAAAAAAGCATAAGATTATAATAAGATTATAGACGGTGATGAAAGAGCTAATTTACATGTATGTTCTATGTATGCATTTTTCAGGAAGTGATATTTGA
GCTGAGAATTAAAAACCAGAAAATACCAGTCATAGAAAAATCTGGGTAGAGTTTATTACCAGCAGGAATAAATGTGGGGTGCTGAGGAAAGGAAAGAAGG
CCAATGTGGCTGGAACCTAGTGATCAAGAGCAAAGGTGGCATGAGATGCTGTCACGGAGGTCTCCAGGTCTTCTTAGCTCCTGAAGGGAGTAGTCAGTCA
TGATAAACAGTTTATATTGAATTCTGGGTATAATGAGAAACCCGCAGTGGTATTTAAGCAGGTGTAACATGATTTCCTTTATCTCATTAGAAGTAACATT
CTGCTAAATGGAGAATGATTATAGTGAGATAAGTGTGAAAACTAGGTGGCAGTCAGGAAACCATAGTACTTTTTTAGCAAAGAGATGATGGTAACTTGGA
ATAGAGTGGTAGTAGCAGAGAGAAGTGGCAGGCTGAGATTTATCTGGAGTTCGGCATCACCCGAATTGATGGTGGAACAAATGTGGAGAGTGGGGCCAAA
ATGTTGACTCCTAGGAGTTTGGCCTGAAGAAATTTTCCTGAAATAGTATGGATTAAAGGAGGAGCAGAATGGAGATACTGGGTGGCAATTAAGGGTCTGT
TTTAACATGTTATCTTTGAAGCATTCGAGTGGTGCCAGGCATGGTGGCTCACTCCTGTAAGCCCAGCACTTTGGGAGGTTGAGGTGGGAGGATTGCTTAA
GCCCAGGTATTCGAGACCAGCAACCAGCCCGGGCAACAAAGTGAGACCCCTATCTCTACAAAAAGAAGCAAAAAATTAGCCAGGCATAGTAGTCCCAGCT
ACTCAGGAGGTTGAGGCAGGAGAATCACTTGGGTCCAGGAGGTCAAGGCTGCAGTGAGCCATATTCATGTCTCTGCACTCCAGCCTGGGAGACAGAGCAA
GACGCTGTCTCAAAACAAAACAAAAAAATTATTCAAGTGGAAATATTAAAGGGACAATTGGATTTATGAGTCTGGAGTTGAGTGATGTGCACTGGGAAAG
AGACTGTACTTAACAGTAAAGGCCTGTTTAAGATCATTTAGAAAGCAGGTATAGAGATAAAAAGAGGGCCTATAATTGAATCCTAGGCACTTCAAATTTA
AAGGTGGTAAGATCAAATACATCAAGAAAGAGGGAATCTTCAGCTATGGCAATGCAGATGCTGTGAGGTACAAATTAAACCACTCAGGTCTTGGAAATAC
CTAAACATAGGGGGAAAAAACACCTAAATTGTAATGAGTATATGTGTGTATATATATATAAATATATATAATATATTATATATAATATATAATACATATA
TAATATATCTTATATATATTATATATATATATTATATATATAATATATATAAAATTAGAGAATCTTTAATAAGAGGTGAATGGCTCCAAACACAGATTTA
ATTTGGAAGCTCCCACCCTAGCAATACCTACTGGTGTTCATTTTATTTATGTAAACACACAAATGTTGACTATGTAATTTTTCAATTAAGGAAATAGCCA
ATAAAATTGTGTGGAAAAAAGATAGCGGTAGCAGATAATAACATCTTTTACTTACTAAAGAGATTGTGTCTAAATATTAAAAGTAATACATTCCCTTGTC
AAAACACTTCATTTTTGTTTGTTTTCACAAATATTTTAATGTGGATTTTGAGTCAAATTTTCTGTAGGAAGGTCATGGTAGATTAATGTCAAATTAGCTG
AAACAATAAACACRATGAAAAGAAAAATCAGCCTTGTAAGACAGTACAACTAAGGAGATCAGTTTAAAACACTAATGAGGAGTTGCCTCTCAGCACTGGG
TCATTATGATTATACTAATATAATAAGTTAGGTTCAGGTTAGAAAGCAAAGATGAATAATCTTCAAAAGGCACAGTAAATAGTCAATTTAGTTGTCTACC
TTCATAATATTTACTATTTCCATACTAAAAGCTTACAGTTGTGGGCTAGAATATATGATATTCACGTAATAATATTTAAATTGAATTTCATTTTTTTGCT
TCTTCATTATCCTTACCTCTACCCTCCTCAATAAATTCATCTCAAATGATAAGATTTTCCATCCATCATTGTGAAGAATAATTTATTTACTTAATGATTC
TGGAAATATGGGAATGTTTATAAAACGAAATACAAAAATTAAGAAATGGAGTGGGCAAGTAAAAAGACATTTTCCCACTGATTTTAGAATATACTCAAGA
AAATTAAACTAGTGACAAAATAGATTTATTTAACTTATAAGCTAATTCATAAATTAATGGCAAAATTTATCACAGTATACATAACTGAGAYTTTGCAGAT
TTTTTTGTAAATAGATAACATTCTGATACAATTAACAGATCTCCATCAGCTGCATTAGATTTCAAGTTGCCCTGCTACCACTGTATATATGCACATAGAT
AAATATGTATATGTAGTGCAACACAGATGAGAAGATATAAAGTTGTTTTATTTTGTTCGAATATGTATTACAGAGAACCCTATGTGCTGTATAGCACCTT
ATATATCTTTCTTTTAAGAGAACCTCATAGGACTTCCAAATTCTTCACTGAAATAGCTCCTACTTCTTATATTACCTTTCGATATGTCAGAAAGATTCTT
TTTCTGGAAGCTGTTGTTCTCATCCACATCATTGCACAGGCTGACAATCAAGACACTATTTCTCACTTTCTTTAAAACTAAATCAGGATTTGAGGGAGTG
GAGGGATGACTAGGCAGAGCAAAAGGATTTTTAAGGCAGTGAAAATACTCTGTAGGATAGTATAATGATGGGTACATGTCCAAACCCGCAGGACGTGCAA
GGCCAAGAGTGAAGCCGAATGTAAACTATAGGCTTTGGGTAATTTTGACGTGTCAATGTCATTTCATCAGTCATTACAAATGTACTACTCTACTGGGGGA
TAGTGATAATAGGGGAGGTTATACGTTTATGGGGGCAGTGAGCGTATGGGAAATCTCTGTATTTTTTTTTTTTCTTTTTTGAGACAAAGTCTTGCTGTGT
CGCTCAGACTGGAGTGCAGTGGCACAATGTCGGCTCACTGCAGCCTCCGCCTCTAGCATTCAAGCGATTCTCCTGCCTCGGCTTCCTGAGTACCTGGAAC
TACAGGTGCGCGCCACTATACCCCGCTAATTTTTGTGTTTTTAGTAGAGACAAGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGACCTTAAGT
GGTCTGCCCATGTCAGCCTCCCAAAGTGCTAGGATTACAGGTATGAGCCACTGCACCTGGCCAAAATCTCTGTATCTTCCTTTCAATTTTGCTTTGAACC
TAAAATTCTCCCTAAAAAATAAAATATTAAAAAATAAAAGAAACTCTATGTACCCTACTGACTCTTTGTCAAAGATTATCTATTTTTTTTCTCAACTCAT
GCAATGTTTAACACTTTGGACCATATTATCACTTATGGTTAGCCTCTTATAATATGGTATGGCTATTTTTTTAAAAAGTCATGGTAAAATGACATAACAA
ACAATTTTTTATCTTAGCCACTTTTAAGTGTACATTGTTGTGCAACCATCATCACCATTCAGCTCTACAATGCTTTTCATCTTGTAAAATTTGAAATACT
GCACCCATTAAATAATAACTCCCCATTCTCTCTCCCCCAGTCCCTGGCAAACACTATTCTACCTTCTGTCTCTATAAATTTGATCATTCTGGGCACGTCA
TATAAGTGGAACCACACAGTATTTGTCCTTTTGTAACTGGCTTATTTCATTCAACATAGTGTCTTCGAGATTCTTCCACGTTGTAGCATATATCAGAGTT
TCCTTCATTTTTAAGGCTGAATAATATTCCAATGTCTATGTATAAGTAGACTCACACACACGTACATATATGGCACATTTTTTGTCCATTAATCCATTGA
TGAACACAGGTTAATTCCACCTTCTGGCTATTGTTCTTAATGCTATGAACATGGGCATATGGGCTTCAATCTTTAAGGTTTCAGTTACTCATGGTAAACT
GAAGTCTGAAAATATTACATACAAAAACATTTTAAGAGAGAGAGAGGGAGAAGCTACATTCACATAACTTTTATTATATTATATTGTTCTATTTTTTATT
AGTTATTGTTGTTAAATCTCTTACTGTGCCTATTTTATAAATTAAACTTCATCAAAGATGTGTGTGTATAGAAAAATACATTGTATATATGGGCTTCATG
CATTGAATGAGGGTCTTAGGATGTATCCCCCTGAGGATAAGGAGGGACTACTATAATTCTACTGTTAATTCTTTGAGGAACCACTATATTGTTTTCCATA
GTGGCTGCACCATTTTACATTCCCATCGGCCATACACAAGGATTCTAATTTCTCCACACCCTTGCCAACACTTCTTTTTCTGTTTTTTTTTTTTTCTTTT
TAAATAGTTAGCATCAAATGCGTATGAAGTGGTGGCGGTTCATATTTTCAGTCATCGTTTCCCAGTATTTCTTGAGACAATTTTGAAATATTGTAAGAGA
TATAAAATAACTTTGATGTTGGAAAGAATAGCAGTGAAGAATGCCCATGTAAAATTTGAGAATCTTGAAACATGACAGATACAACATTGCATTAAAGGAA
ATTAAATCCTGGACAATTTTGCTTAGCTTGTAAGTACATATACAACACATATACAAATACATGTACCTATAAGTACATATAAAATATATCCTTTCTAAAT
TTGGCTATATTGTCAGATACCTGAGAAAATTATTATCTTTATAGCCTCTGTGATATGTCGCCAATGCAAGGCCCATGAAAACTCAAAAAGAGTCAGTTAG
TAAATGAACTCTTTTATTATTTGTATAAATTATAGTTTTTATAATATAAATGTAACATATGAATACTTGTGTCTGGAATTACAATAGACACATTTTTATC
TCCAGGGAGTTACTACTGGCACTTTTTGAAATCCTGTTTTGTCCTAGACACTGGACAAAATATTTTACATAAATTATCTTATAGAACTTTTCAACTCCGT
AAGAAAGATACTATTATAATTAGTACATTTTGTATCACAGAAATTAAACAACTTCCTCAAAATGACACAGTTAGAAAACAATAGAGCACAAGATGAATCC
AGTTCTTTCTGATGTCAAAGCCTGCCGTGTATACTCCAGATGACCTGAACCTTAGAGTAACTAAAAGCATCAGGGCTTCTCTGATATATAATTGTGAGAA
TCTCACTAAAAACAAGATTAAATTACTACAGAGGAGTCTTAGAATTTAAAACTCTAAAAAGTGAAACTTAGGATTTACCAAAAATGTTTCTAACTTCTCA
TATACATGTATGGATGTAACCTGAAATGCTGGGTTGATTATTGAAATGTCCATATGAACTTACAAATTTACCAGAAAAAAATCAAACTACCCCATCAAAA
AGTGGGCAAAGGATATGAAGAGACACTTCTCAAAAGAAGACATTTATGCAGCCAACAGACACATGAAAAAATGCTCGTCATCACTGGCCTTCAGAGAAAT
GCAAATCAAAACCACAAAGAGATACCATCCCACACCAGTTAGAATGGCGATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATA
GGAATGCTTTTACACCGTTGGCGGGACTGTAAACTAGTTAAACCATTGTGGAAGACAGTGTGGCGATTCCTCAAGGATCTAGAACTAGAAATACCATTTG
ACCCAGCCATCCCATTACTGGGTGTATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACATATGTTTATTGTGGCACTATTCACAAT
AGCAAAGACTTGGAACCAACCCAAATGTCCATCAATGATAGACTGGTTTAAGAAAATGTGGCACATATATACCATGGAATACTATGTAGCCATAAAAAAT
GAAGAGTTCATGTCCTTTGTAGGGATATGGATGAAGCTGGAAACCATCATTCTCAGCAAACTATAGCAAGGACAGGAAACCAAACACCGCATGTTCTCAC
TCATAGGWGGGAAACGAACAATGAGAACACTTGGACACAGGGTGGGTAACATCACACACCGGGGCCTGTTGTGGGGTGGGGTGAGGGGGGAGGGATAGCA
TTAGGAGATACACCTAATGTAAATGACGAGTTAATGGATGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACATTGTGCACATGTA
TCCTATAACTTAAAGCATAMCAATAAAAAAAGAAACTTAAAAAAAATGAAATGTCCGTATATTTTCTTGATTTTTTCCAAATGTTTTGAAGAAAGTTTTT
GTATTATTAAATGCTATTCATTGGTCAATTTAAGTAATCTTCTTTTAAGAAATCATTCAGARATTGTAGGTCCTTGATCGTAATTCTTTTTGGGTAATTT
CAATTTCAATAGGTTAAACACTGTGCTGGAAGATTTGAGAAAGATTATCATTGGTCCATTTTGTCAAAATCATTTCCAGAAGTTTAAGTCCTTTTTTCTT
CATTTTTAGTGTGATTCATTGATTTTCCTAAGGAAGAACATTTAACTTCTCTCAGTATTCACAAGGAATACCTGCTTGAATGTTTAAGTACCAACAGAGG
ATTTAAAGTTCTTATTACTTATGAGCATTAAATGAATTCAATACTCCAAATTTTATAGAAGAAGCATTTCTGAAGATAGAAAATAAGGATAATTTTTAAA
CACAAGAAATCACATGCTTTTCATATCATTATCAATGTGGAAAATGCTRAAACAACTTGCTATTAAAAACCATTTATCAGAAACTTGTTTAATTAATATG
TCAAATATCTGGGTTTTTAAATCATGTATAACAATGAAAATATTCCTAAAAACATATTGAGAACTTTAACAAAACATTTTACAGTTGGAATGAAATTAGT
ACTGGATGATTGGATTAAAAGCCAGTAGAAATTATATATTATCCTATTTAAATGTAGGACTATATAAGTTATTGGTAATCCTTTTTCRTAATTTTATTAC
TTTTTCCAGTACCTAAGTGGATACTGGTGACTGGTATATAATAAGTAACCAATGAATAGATATTGAATAATGCATTGCTTTGCTCAATTTTCTCATCTCT
GAGCTTTCCTGTCTGTGCTACTGCAACATTACTTTCTTAATTATATTCTCTCACTCCACTGCAATAATATTACAGATGTTATTCCCTGATTAAGAATAGT
ATAAATTGACAATCCAACCCCTCAAATGAAATTTTTTGGTGATCCAAACGTTTTAAACATCCAATAAAGATATAACATGCTAGTTCTCTAGTAGGCACCC
ATTTCCAGGTTTCCAAACGTTTCAACAAAAACATTTATATATTTCTCTATTGATTGCATAATGTGGAGATTCTGTTTTGAGAATGCACATAAAGTATATT
ATATTCTGAACTGTAACAAAATGAGACTCTAATTTATTCACAGTCCTTTTTAAATTTGTCTGTATTTTTGTTTTCCTGAGAAAAATCTTATCTTTATAGC
CTCTCTGGATATTGAATATCTTGAGACTAGCTTTAATTCTCTTGATTTTTATTAAAACTTCTAATTCCAACTTTATTCGTGAACTACATGCTTATATAAA
AGTACGTTTCATCAAACAGCTTTCTCTTTATCTCTTTAAAATCATTACCTTTTATTATTTTCAGTATGCTTTAATGCTTTAAAATTTTATTCTTGAAACA
TTTGGTTTTTCCATTGCTACTTTCCTATTGATTGTTTTCCTCATATGTATCTTGAGATTTTAGTCTAGGTTTTATAACAAGCATAGCTATATTTACAGAT
ATTTTTTCTATAAAGTTTTCAATATAGATTCTGATTTTTTTATCTTATAAAAAATAGTTAACACCATTAACATTTGGATTTATTTCTGTCTAGTTCTCCT
CTGCTCACACACACACACACACACACACGTGTACACACAAATACATATATATAAAATGGGCAGCACACTAATAAAGATAAAAATAAACTTTATAAAGTTT
TACATTTTGTAACTGGATATTATATTGTGAACATCCCCATGTAACTGTGTAGTATTTGAAACTTAGTTATTTAAAAATTAAATTGCAAATGTATGATCTT
ATAGACTATTTTCCTGCTTCCAAGACTTCTTTGGAACTGTGGACTCCCTGAAATGCCAGGGTAACATAAGCGAGACAGAACAGCTAGCAGAACCTCAGGG
AATACCACTGACTTTATGGTGTCAGCCAGTATCATGAGAGCCCACAATGTTGCCTTTCAAACCAAGTGATACATTTCTATCAATAATTAAATAAATTTGA
AAGTACACTGCCATTGCATTTGCAATCTTCTTTCTTTGTTCTTTATTCATTGCAATAATAAAAACAAACAAACAAAAAACAACACCAAATCAAATGACTG
TTGATGGGGGAATTATAAGAATAGATGGGAGTGAAGACCCAAGCTGACTTTACCTCCAACTCAAAGATTTTTGTCCACTAATCTAATTTCTCTTTCTCTC
TGTGTTTGTTAAAAGTTTCAAAGTAGATGTAGGTTCTCTTGCCAAGTTGATACTCGTGTTCTTTCCTTTTCAAGATTACATAAAAAGTATAGCTTAGATC
CAACGTATCAACCTGGAATAGGTGAAAATATCACTATTGATTATAACTAGTATTTAACGAGGCTTAATATGGACCAAACACTGATCTAGGTATTTCACAT
GTATTATGTTTTGTAATCCTCACAACTTTATGAAGGAAGTATATGTGTGAGAAAAGATACACACGATTAGATTTTGAGAGCCAGTGCAAACTGCACCGCA
GGTGTATTGCCTGTKCAAATTTTTCTTTACCACTCTATATTAACACCTAAGTTAAAGGCCGGCACAATAARCAATGTGTTGCTTGATAATATTTGTAAAA
CAAATGGATTAGTGAACAAGTTAATATGTCACTCTGTGGTCTTTAAAATATATATGGAAATGCAGAATATTAAAATCTGCAATACATATTTTGAAAAACA
AAGGTGAGAGTAATGCTAGCCAAAGCAGGTTTGACTGCAGGCACAACTGTCCTTCCCACTCTTCTTAATTGAAGAGTCACCTCAATCCCCATTTGAATGT
TCTCTTTTCAACCTCCTAAAAAGATTACTGAGAATGTAGATATTTAAATGTATTCTGTTCATCTTTAAATAATTTCATTTATGTTTAAGCTGCAAAAATT
GATCTGAAGTTAGTCTGGTATATTGTGTACTTTAAGCATGTGATACRTTTCTAAAATGTTCATGTCAAGAATATCTACAATTCAAATCATGACCTTCTTT
TGGCTTGTATTCTAATTTTGAAGTTTCTGACCTAGACACAAAAATGATTAACTGAAGAATTTTAATAGTTGTACTGTTGTTCTTCACTTCTATCAGTGAT
GATATTTGATAGTGTAATATGCTGAGCAGGCAAACAATGAAAAAGTCCCCTCCATGCAAAATGTATGTAAAATCAGCTTTCAATAAGTGAACAGTATTTA
CTACCTGCTGTTCCTTTTCACYATTTGCAGTACCATTCTTAGACTCACTGCAGGCATAAACCCTGGGATAAGGAAAAGTTAAGCCTCCRTTCTTCATACC
TCTAATAAGGCTTTGCCAATGGCTGCAATCATTTTACAACCATCCACTTATGTTTAGGTTTAACAGAGTCTTGGCTTCATAATGAAATACTTCATTAAAG
TATTTTTATGATATCTGTTTACACATATGTTCATAGTAGAATTGCATGGTGTTCTGTTATCCAGTCTTTGCCATTCACATGGACTCAGTTTATAGTGTCT
GGTTATGCTACTGAAGATCTTCCCGCTTTACCATTTGCTGTTAAGTAATTGTAGTCAGACAGACTGCCCAGGAAGCCCCATGGACTCAGTTTTATCCCTT
GGGTATCACAAATGAGGAAGAGTTTGATTCCATATTGGTGAAATACTACTTCTGTTTCCTAAAGATATGTTGTTTTCTAAGATTTGCTTCTAGATTTTGT
GATTAAATGTTTTATTGGACAGGGATTTAAGAATCAGAATTTCATGACATTTTGTCCTACTTTAAATGGAAATGTCTATAGACTTTTCTAGTGAAGGCTT
TTACAAATGTTAAGGGATGATTGAATGCTCACAGCAGGACACATGGCATTACAGAAAGTCTCCAAAATTATTCATCCTTTTGGGGACAACTATAACCATG
ATTTTTTGTGACACTCATAACCTGTTGAATTGGAAAAATATTAATGTTAGAAATCYGTTCTCATGTCACTTTTAAAATTCTTCTCCTTTTTTGCCTCCTG
TAGCATGAGTCCTAGTTTGATTAAACTAGACACTTGATTTTCTCCAATGGTAACATGTTTTTAAAAAAGGACTTTTACTCTGTTGGAACCAATTAGGCCA
ATGTGAGGAACTTTGGAAGGAMCATGAGCAGCCAAACTTGCTAACAGCAAAACRTATTTTTCTGAAGGCAGCATGAAAAGGACGGAGGAGTTCTCTAAGG
ACTGTGAGTTCCACGGGTCCTTTTGAGCTTCAGAAATCCAGCTCTCAGCACTTCATAAATCATTTCTGACCTGATGTCACTGAAGTTGTATTATTATGTG
GTTAGTATMAAATTCAGAAAAATTGGGAGAAAATACAAGGAGAAGAATTTGCAGGGTGATTGTTGTAAGATTTTTATCATGTCCTCTTAAAAATGGTAGC
TTTTCAGAAACTTKTGTTAACTGCTTTGCATTCCATCTTGAGAAAATGTCTGTATAGTTAGATGAGCATCATCTCCTCTCCTTGTTTTTAAATCACATCC
AAAATGACATCAGGCTTGCAGCCGTCTCATTTTTTCCTTTTATTTACACTCTTCACACTTCATTGGCAATTGAGGTCACCACTTTAAAATTTAGGGTGAA
GGCTAAAGACCAGCTTGACAAACTGTTGGCGGAATGCTCTCTTTTGCAAGTCTTCGTTTTGAAGAAAGAATGTGTGATTTAGAAATATTTAAGATTGTCA
TTTTGGTAGAACTTCTCATCTATCAATGCAGGGTGCAGCATCCCTATTTATTAATGTTGTGTTGGTTAGATATGTTCACCCATTAGGTACGTGCAGAGGT
ACCTGAAACCATCTGAGAGGTGGTATCCCATTTTTCATAATCTATTCAATTGAACTTTAAAAATAACTGAGCATCTTTTATATACAAGACATTAACAGAC
ATTTATATTCTATGGTATCTACTGCTAGCAACTTATAACAGTTTTGGTGGTAAAATAAAGGCAAACTTGCTTCATAACAAAACAAAATTAAATTATCAAA
AAGAAATGCTCAGTTGTTAATTTAAAATATAAAATGAGACATGAGAATAACCTTAGGTTAGAAATTCAGATGTAGAAAATATCTGTATAAAGAAGTTAGT
TGAAATACTCATAGGCATGAAAGGTATTTTGCAAAAAGCAAAAGTAGGCAAAACTGGATCTATGAAGTTGCTCCATAATGTACTAGTCAGGTGAAGTAGC
ACAAATTACCTAGTGTATCAGTTTTCTTTTGTTAACACAACATATTACCACAAACTTAATGGCTTAAAACCTCACAAATTTATCTCACAGTTTAATAGGT
TAGTAGTCTGACACAAGTCTCACTGAGCTAAAGTCCAGGTGTGGGTAGTATTGCATTTCTTTCTGGAGGCTCTAAGGTAGAATTCATTTTCTAAAATTCA
TTCATTTAGGATAGAAGCTGAAAGAATCAGTTTCTACAGGCTACCTGCATCCTTTGGCTCATGACCCCTTCCTCCATCTTCAAAGCCAGGAACAGGTTGA
ATCCTTCGTTGTACCACCCTAACCTCTTCTTTTGCCTCCCTCTTATACTTTTCAGGACCCTTATGATTACATTGAGCCCAGTGGATTATCCAGGGTGATC
CTTTCATCTCAAGGTCTTTAACTGAATCATATCTACAAAGTTCCCTTTGCCATAAAAAGGGTCATATTCACAGGTTCCAAGAATTAAATATAGACGTCTT
TGAGGGACCACTGTTTACTCTACCATAACTAGCCTATCTCATTTCAATTTTCTAATCAGTTACTACCTGTCTCTTAGAGTTCTTGTTAGCAGAAACAAAT
TTCTGTGTAATAAAGTGCCTGGCAAAAAGTAGGTCCTAAATAAAATGTTATTTTCCCCAAGGRAAAGATTATTAGGAATTATAACATTGGGACACACCTT
TGTTTAAAAAGCTCTAATTAACAAGAACCACAGCAGGGGCGCRCATACAGGGGTTGGAGAGAAATTCAGTTAGTGCTGTCTTCTGGACACTCCTTCTATC
TTCATTCTCTCCTCTGCCATTGTTAACCTTCCATTTTAGGCAAGGAGCTGTATTAGGAAAATGTGGTTTCCTTTTATTAAAAGAAAATCTCTAAATTATT
AATAGATATTACTTTTCCAAAGAAAATTTCAGAAAGGAGAAGAACAACATAATCAAAATCTGTGGACACTTTAAAGATAAGGATGATGGAGAAAGACTGA
ATTTTGCAAGCAGGTTATAATAACTCCTGAGAGTGATTGTAATAGGGTGATTAGGTCATGCATGGACTACAAGGGATCAARTAGAAAAGGAGTGGTAAAG
TAGTAAACAGCAGAGGGTACAGGCTACTCTTAAGAAAGTCCCTAGAGAAGGATAAGAAAATGGGGCAATACATAAGCTTGGAAATAGATGATGATATTTC
TTTTTTTTTTAATTTAATTTTATTTATTTATTTWTTTTATTAATCATTCTTGGGTGTTTCTCACAGAGGGGGATTTGGCAGGGTCACAGGACAATAGTGG
AGGGAAGGTCAGCAGATAAACATGTGAACAAAGGYCTCTGGTTTTCCTAGGCAGAGGACCCTGCGGCCTTCCGCAGTGTTTGTGTCCCTGGGTACTTGAG
ATCAGGGAGTGGTGATGACTCTTAACGAGCATGCTGCCTTCAAGCATCTGTTTAACAAAGCACATCTTGCACGGCCCTTAATCCATTCAACCCTGAGTGG
ACACAGCACATGTTTCAGAGAGCACGGGGTTGGGAGTAAGGTCATAGATCAACAGCATCCCAAGGCAGAAGAATCTTTCTTAGTACAGAACAAAATGGAG
TCTCCTATGTCTACTTCTTTCTACACAGACACAGCAACAATCTGATTTCTCTATCTTTTCCCCACATTTCCCCCTTTTCTATTCCACAAAACCACCATCA
TCATCATGGCCCGTTCTCAATGAGCTGCTGGGTACACCTCCCAGATGGGGTGGCGGCTGGGCAGAGGGGCTCCTCACTTCCCAGAAGGGGTGGCCGGTAG
AGGCGCCCCCCACCTCCCTCCCAGACGGGGCGGCTGGCCAGGCGGGGGCTGCCCCCTACCTCCCTCCTGGACGGGGCGGCTGGCAGGGTGGGGGCTGCCC
CCACCTCCCTCCCGGACGGGGTGGCTGCCGGGCGGAGACGCTCCTCACTTCCCAGATGGGGTAGCTGCCGGGCGGAGGGGCTCCTCACTTCTCAGACGGG
GCGGCTGCCGGGCGGAGGGGTTCCTCACTTCTCAGATGGGGCGGCTGCCGGGCAGAGGGGCTCCTCACTTCTCAGACGCAGCGGCCGGGCAGAGACGCTC
CTCACTTCCTAGACGGGATGGCGGTCCGGAAGAGGCACTCCTCACTTCCCAGACTGGGTAGCCAGGCAGAGGGGCTCCTTACATCCCAGACGATGGGCGG
CCAGGCAGAGACGCTCCTCACTTCCCAGACGGGGTGGCGGCCGGGCAGAGGCTGCAAACTCGGCACTTTGGGAGGCCAAGGCAGGCGGCTGGGAGGTGGA
GGTTGTAGCTAGCCGAGATCACACACTGCACTCCAGCCTGGGCAACATTGAGCACTGAGTGAACGAGACTCCATCTGCAATCTCGGCACCTCGGGAGGCC
GAGGCTGGCAGATCACTCGCGGTTAGGAGCTGGAGACCAGCCCGGTAGATGATGATATTTCATTTGCAATAGCTAAAATTGACTAAGTGTTAAGTGACTC
TGATCTGTTGAAAGAATTCATGAACCAAGATCAGAAACTTTCTTCTGTCTTTGATTTGTTATTCTACTCTGTTAACATTATACTTCTAACACTTCCCATC
ACTACAAATCTTTGCTATTAGTCCCCAAATGCTTTGAACTAGAGTGATTCATTTATGTGTGTAATGTCATAAATTGGAGAATGTGTAGGTTCATCTTACC
TTGGTAAATACAGAAGCACAAAAAACAAAGGCAATGCCAGGTATTTCTCCAGGGTGAATAAATTTTAGAAGGCAAATTTAAACTGTCATATTTCTGATTG
CCTGTGATTCACACCATTGTTGTACTCTGTGACAGTTTCMTTGAAAGGACTGTCATGTTCCATGAGGAACTCAGCCTACCTGCTCTTTTACCAGTAGCTG
GTGGGAAAGCCATRCTGTGCCAATGACTTATTCACAGGAGGCAGGTCAATCTTTTGAAACCACAGATTGTTTCAAATGAGAGAAAAATATGTGAGAAGAG
AATAGATGTCAAGGGTAGTGCTAAAGACAAGGAAAATGCTTGCCTGGGTTTTCCCTGCAGCTGACGTTGTTAAAAATGATAGCAACTTAATGAAGCATGG
CGTACTAAATGCATTAATAAGCTGAGGGAGGACCTTATTCATTCCAATTTGGACTCTGCTCACTCGTGTTACTCGTTTTCTTAAGACTGGACTAAAATTG
TGAGACCTTATGGGCCAACGATACCCTTTAGAGCTGATAATTAATTTGAAAGAATTATTAAAGCATATTTCTTGAGCTAAGAATGCAGTGTATTCACAGT
AAGAGGCAGAGTTAACCATTTATCAAGATAATTAAGAAAATGCATTAAATGTTTGCTCCGTAAGAGCAAGCACTAAATTACCAGTAGTAGTAATATTATT
ATGTGAAAGGGAATCAATAGTTTGTTTACTAAAATGAGATGCATTAGCAAGCTTTTTTATTCTGATATAAAAATTTTCAAATATACACAAAAGTATAGAG
AATACCGTGGACTCAAATGTACCCAACACCCATCCATAAGTATTAACTCAGGACCCCTCTTGTATCAGTTTTCAACCCATCCACATCCTACTCCACCCCT
CCAGATTATTGGGAAGCAAATTCCATATGTATTACTCGCTTYGTAACTACTTCATTATGTATCTCTGAAGGATAAGACTCTTTTATAAAGGAAACCATTG
TCACATCTAAAAATTAATACTATTATACTGATTCTTTAATATTAACAAATATTTACTCAGTATTCAAATTCATCACACCTGCTTCCAAGTTTTTTAAAAA
CAGTTGAATCAGGATTCACAAGAAGTCACATACTGCATTTGTTCGATATATCTAGGTCTCTCAATCAATAACATTTTAACTTCCTTGCAACTTATTTTTT
TGAAGAAACCACGTTGTGTGTCCAGTAGTGTTTCTTACATCCTGCATTTTGCTACTTAGGGTTCCTGTAGTACTGTTTGCATATTTCTCTACTACTATAT
TTCCTGAAAACTGATAGATAAATTTAGAGAGTTACTCTGATTCAGGGTTCATATTTTTGGCACAACCACTTTATAGATTGTGCTATGTGCTTCCATCACA
CTGCAGAAAATATCTGGGTGTCTCTTTTTTGGGGATGTTTCTGGTCATTGATCAGCATTAATGGCCACAGGTCCATCATTTTATGGGGGCTCCCTTCATA
GTAAACTGCACAGTAAACTATACACAGTGAACCTTGTGGTAAACTGTAGCATCCTGTGTACTATAGCAATTTACTCCATGTTGCTTTTTTCATTTAACAA
TAAATCCCGCCATTCATTGCTCTTCCATCTCAGGGTTTTCTTGCTTATTATTGCTTGTTAAAATTCTTCCAAATCACATTTATAATCAAGTCGTTCAGCA
CTAAGGAAAAAAAATAACATTTTCATGAAAAAATGAAATTGCATTACATTTATATATTCTCTTAGGGACATTGAAAATAAGTCTTGCTATTTTTCAGAGC
TAGACTTTGAGATTTGCTTTTTTGCAGAGTGAGATAGAGAAGTCCTTCAAATACTGTCCCTTGAAGAGTTAGGCATTGATTTAAACCCTTTTGAAAAACA
ATTTCAACAAATAATTGAAAATGTTCTCTTCAAAGTATTATCATTAGTCATCCAGTTAGATTATTATTATTAGGAATTCTGAGGTGGTGGAATAATTCAT
TTTCCAATGTGTTAACTTCTCATGAGTTTAATGTGAGTATAAAAAGTCTGTTTTAACTGAGRGCAGAGTATTCCTTTTTCTCTTATAATACAGGAGCCAG
TTACAACACAGGAGGTGAAATGGCCTGTTTGCTTACCTGCAACTTCAGGAATTTCATGCTTAGCAATTAATTGCAGTACACACTTGTGGGGGTAGGGGTA
GGAGGTTGGATAAGTGGGTTGCACTTAATAATTCAGTGACAATTACAAATCGTTTCACTATATGTGAAAGTATTTGAAGTAAATTTACCTGAAGATAGAA
AATATGGGTGGGCAAGCTCCTCCTGAACTCCCCACCACATTATTCTAGGTTTATTGAAGTAAATGTAAACTTATAAGGGGACATAAAACTCACACAGAAA
ATAATAATTAGACATATTTCCACATTAATGTTTTTAAGTTTAAAACATCATTTAAAAATTTTATCACTGATGCTTGACTTAAACAAGTCCACTTATAGCA
TTGTCAGAATCTGTATAAGTATCTCTTCAGGGAATTTTTAAGATGAGAGTGAACAATTTTCTGAGATTGCCTACACATTTTTGTTACACAGTAAGAGCCA
GGTTCTATGTGGCTTAGGTGGGGATGGGGCTTTGAGTGAATCCTCTGTTGTACACAGACTTAATACATTCTCCATTTCAGCCCACTTTTCACCTCTGTTT
TCATCAGACCTACCTCGGTGAGGTTCTAGACTTCTGCCCTGCTGCAGCTACTCAGTACTTTAGGCCATGACCTCCGCTCTCCTTCCTCAGCAACTCACCA
CAGACCTTCCRGAAAAATGTTAAACCCTTCTCATCCTTTTCTTGTTATTGGTTTCTATTTTCTTTCTTTCTTTTTTCTTTAGCGTCACAGGGGAAGAGCT
GATAATTGTATTGGCTATATGTATCAACTCAAACAGAGAGACATTACCTGCAGTTCTATAAAGATTCCCAGATTATTCCAATGGGTATTAAGCTTGAAAA
CATGATGTCTATGATCCTTTCTGGTTCTGATATTGTATAACTCTCATCACTTAATGAAAGCCACCGTTCCTATTTGGATAAATAAGAGAATTGAAAAACG
YACTATTAGAACTGAGAGTACAGATGAGCTTTCCAAATATATTAGAGATGGCATCACAGTACATGGAAATGTTAAAATCCATAACATGGGCAAGAGCACA
TACTAGAAAAGTGCAGAACCTCTTTAGAAGTGAAGCATTTTCGTTCCATGCACATCAATTTGCTATAGGAGTTCAGGGACAAATAGCAATATGGGAAGGA
GGCGGAGCTCAACATTGAGCAGAAATTAGACACATGCTGTTCTCTTGAGAGATTAAGAAAGAATAAATAGAAGAGAGTAAGTCAGGTCCTATGAGAAGGA
TAAAGCATTGTCTTCCATAGAGAGTGACCTTCATTAATATTTTTTACGGCTTTTGTGGAGATCAGCCTAAGGAAACAGAAGTCCTATGGCCTTATTACAT
CATTACAGAATCACACTTTGGCTGGGTCTCTTAACTGTGTAACAGTGGTGCTCAAAAGTCTCTGTAAATCTCCAAAACACAATACTCTTTAGTAGCATTT
CTTAGATTTGTGATTCTTCTGGGGACAAAGGATCTGGGATACAATGGGTTCCCGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTTCCGAT
TTTCAAGCGATTCTCCTGCCTCAGCTTCYGGAGTAGCTGGGATTACAGGCGCCCACCACCACCCCCGACTAATTTTTTTTTTTTGTATTTTTTAGTAGAG
ACGGAGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACATCGTGATCCGCCTGCCCCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
CGTGCCCGGCCGAGGATTTTTTTTTTTTTTAAATCAAGACTTAGCAATGCATGTTCTAGAAACTGATTCTGGTTTTCAGACTTAACTAACATGGGTATAG
GTGAGCTAAGATATTAAGCTGCAGGGAAGGGTCTAGAGTAGCTAGAGTTCCTGGGCTGCTCACTTCAAGCTATGAGGTCTCCTGAACACTGGTAAAAACC
CCAGTGCTGTACAAATATCATTTTATCTTAGCCATGATGTTCAAGATTGGAAAGCATAACTCTATGTGATGATCATTGTCCGTTGCTTATTATTTTGAGA
CTAAAGGATTCTTAAGAAAGACCCTATTCTCCATTTCCACACTAAATGAGATCAAGTTCTTAATACTCTTCTTATTATAGGAGGAACATCTAATTCAATG
CTACATCAGTAATTAAATGATATTTTGTTAGGTGACATGCAAATGAGTAACAAATGGAATATGAAATAGAAAGTTCCCTTTGTTATGTAAATTGTCAAAC
ACTTGATATTGTTTTTAAAGTTATTTGGGATTTTTTTAAGACACCAAGTTTGTAACAAGTGCCCTTCAACAGAAAAGACACTTGGATATCATGAGATGTT
CTCTTAGGTTCCTCAAAGCCTAGCAGTCATAGCATTTTAATACTTACTAGTGGGGAGTCTGCCTTCCCTGCTGCACACCAGAACAGACTGGGGTGGGGGT
TAATCATCTGGAAATGAGGTATTATAACTACTGATTTTGAAGAGTCTTTATAATGAAAACAAGACACAGTTAATAAAAGTAGCATAGAAAACATTAGAGA
GTTATTTTATTAGGGCCATTAAATATTTGGAGTACAGTACTTAGAAAATCACTGTTAAAATTGTTACAGTTACTCTCTGAAGCCTGCTAAGAATACTGCT
ATTTATTACATTTTTAATAATGCTATTCACTACATTTTAAAAGTTTACTCAAAAACTACATGACTTTCAAGTCATTTAAGAAGTCCAAAAGAAATTCCAT
GCCAACAAATTTAATTAATTTTGCATGGAATGTGAAAGAACCCATAGAAAATAAATGAAAGAGGGATATTGTTTTGAAATGGGACTCATTCAGTCTTCTG
TAAGGCGGTGACTGCTTTTCCGTGTCACTGCTGGCAGTTATGTTGAATTATAGAAAGAGTCTGTGGGGTCTCTAGTAGAACTTCTCTTCGTGGATTATTT
TTATCTATTATTCCAGAGCCAACACAGGAGCTATGAAGTCATAAATCCACATTGTAGCTGCATGAGAACTTGGCCTTATCACATATTTGCATACTCAGTG
CTTTCTAAGCAAAGTTCTTTATCCATAACCTTAGTGTAGTCTTATTTTTCTTAGTGGGTACCTGTGATCTCTAATATGCTTTGCTATCTCTCTTTTTGTT
TTATATCTTTAAAAAAATCTCTATGTTTTTATTTTTTCTGGAAGGAAACAGGCTCACTTGGAATATTTACCTAGATTCTCTCTTTCACAAGAACACGCAG
TATTTTGTATTCATTATCTCATTATCTCTTCCCTGGTTGTGTCTTTAGAAAAGAAACAATGGATAACAGAGGGTAAAAGAGTTTCAGTAATTTTCTCAGC
TCACAGAGACCTAATAGGACAAATACTCCAGGAACGTATGCCTTAGTTCCTGCAGATGACAATATATGCTAACTGGGATTCAAGCTCTAACAAACAGGCA
AGACCAATGTCAAACTAATAACCATAACGTGGAAGCACATTACAGTGATTTTGGCTATCCAACTAAATGTAATAAATATCAAATGCCCACCATTTCAGAA
GAATTATAATAAGGAATATAGCATCTTTAACCCATTTCTCATTTGCCTGAAGAATACTTGCAGACAGCATTTGTGGCTTAATGTTTACCCYGAGATAACT
TGTGGCTTACTGTCCTAACCTTATCCCCAAAGTTTGCCATGAAATATCTCACTTTTATTATTATTTTTGCATAGGTCTAGCATATTGACTTTGGAAACAA
AAGACATCATTCTATTTGTAGCATTCTGTGTTTGATAGTAGTATTTCCATATACAAAATATAGTAATTATTGATTGCTGAAATCAAATCCTAGAAAATAC
AGCATTCCTATATAAAAAATTATTAAATTCTGATCATCATATACATTTCTGTTACATTAGGATTAGAGATAAGTTTTATTTAGAAATAACTCTAAGAAAC
GTTTTTATATTTTATTTTCACATTGAAAATAAGTCAGATTTGCTTCAGCCTCAAAAAATGTGTTTATGTAAAATTAAATGAGAGCTGGCAGTGAGCTGTA
CATTTTTTTTCCTAATGGGACATGGGTTATGGGTTAAAGATGTACAAGCTGGCCGGGCACGGTGGCTCATGCCTGTAATCCCAACACTTTGTGAGGCTGA
GGCAAGTGGATCACCTGAGGTTAGGAGTTTGAGACCAGCCTTACCAATATGGTGAAACTCCATCTCTACTAAATACAAAAAAAAAAAAAAAAAAAATTAG
CCAGGCGCAGTGGCACCTGCCTGTAATCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGCTTG
CGCCATTGCACTCCATCCTGGACAACAGAGCAGGACGCAGTCTGGAAAAAAAAAAAAAGTGTAAAAGCTAGAGGCCCTGGCCTCCACAAGCCCACAATTT
AGTTATTCTTCTTCTTTATGATTTTAAGACCTTGTCAGGAATACTTTGGGATTATCAGTAGTTAGGACCAAGATATTTCATATTTTATAGCAGAGACAAC
TCTATCTGTGCATTTTATAAGATTAATCCATTGGTATGTTTCTTGTTGAATTTCTATATAAAGACATTCTACGTGATGAGTTGTTCAATATGAACTGTCT
AAAAAACAATTCCTTATGAATAATACCTAAAAATGCATAAGTAGCAAATATCTTTTATAGTGGTTGATGTAACATATTCTATGTTGTTCCTACTTTTGCC
CTTTCTCTGTTACTTATTTTACTTTGTCTTTATTTTAAAGATAATTTTATTTAAAAGTAAAACATTTATGTTCATACAAAAAATATAGCAGAATACGGGA
TGGAAAATAAAAGTCCTCCTCTTTTCTTGACTCCTAAAGGTGGCAGCTTTAATATGTTCACATAATTCCTCTCCCAAAATGTCTTGGCATATTCAAGCAG
TTACAGGCACATACATAGATATGTGTGTCTATCTGCAGTTATACCTATCTATATGCCTTTGTAAATATAAATTCATCAGTATTTCTCACCTGCAGTGATA
CTCAATAAAACAGAATGCTCAAAGCCCAGACCCCTCAGGACAAATATCTTGGCTGTCCTTGCTATGCTGGGGTCAATCAGATGGTCTCAGGGGAGAGGAG
GCATTTGGGAGGTTGGGCAGCAGTGATTTGTCAACAAGTACAGAAGCATTTCAGTATTTTATCCACTAGTTGTTCCACAACTGTGCCTAAAAGGCTAATA
CTAACCCTACTTTGACTCATTCGATGGGTGATTTCCCCTCCATGGCTCTCAAGCATGCATGCATTCAAGTAAACATCTTGAAGGAATAGCATCAGAGCCA
CCTGTATTACCGCATTCCATACCAAATTTTTATATTTTTAAATCTAGTCCCTTAGGGTATACCATAGATCCTATACACGTATGCATGAGTTACCATGTCA
AAACTATGAAGCAGATAAAATTTGTTTCTAGAGCATCCCTTTCAGGATTCCCTCTGTAGCTCAGCAGTCCTGTTAATCACATTGTAGTGAGCCTGTCCTC
CCAATTGTGCCCCACCAGTGACCTCATCCACTTAGAGCTTAGAGCTGCCAAGCTCTCATACCTCATAGCATTTACTAGTCAAGAACATATCATACTGTTT
TATTATTATAGCACTTTTCATTTGTCTCATTATTACAATATATTAACAACACATTGATGGTGGAATAGTAATTTAAACTAATTCATATCTGTCTTTCTAC
CTAGAACATTGTACATAAATGTCATTCCATAATGTTTCTTCACTATTCTTTTGGACTACATTGGTAAAGACACAGATATGCACTACCACAAAACATCTAG
AATATTTCTTTTTTTACGTCTTCAAATTCTATATAAATTTGTAAATAGAGCATTGCCACATTCCTCTCCATTGTCACTCTGTTAACAGTAACAATACCTC
TTTATTTCACCCCTTTTCTTGCATGTTTACCTTTTGTAAAGAGAAGGTACAGAAACCCTTCATTTAATGTGTTTCAGGTTCAATCCRTTGTCTTCATAAC
ACTGGAATTTCTCCTCCATTATTTTCTATTTGGGGATGTAAAGGAATGGACATTTATTGAGGATTTACTGCCACAATGCTAGAACCACAATCTGAACATA
GGAATGTGTTTATGTTGTTTTTGCTGTACCATACTAACTGCCTCTAAATGGCACTTTTTTGAGGATTATGTGATATAAGTAAACAAGTTTTCTAAACTAT
CAAGCACTATTCACACTGGGAATTTCTAGCTTGTATTTTACAGTCTTTAACACAGTAAGGTGAGTAAATTGGTATGTACTATTAATAAATGTTTTAGGTG
GTAATAATTATAATGGAACTTTAAACATCAGGTGAAATGTTGCCAATGAGTTGTTACTAAAATCCAGTCTTAATCCATTTCTTTTAAAGCCATGGTTGTC
AAAACAAAACATCACTTCTTAGCAAAAAATTATTAGATATGAACCTGTAATAGTAAAATCATTTCAGAGAACATTATAAGATTATAGAATAAAATCTGAA
ATAAAATCTACTGTAGCATTTAGACTTATATTTGACATAAAATGATGAGAATATTTGGGAATTCAATGTTATTGTTGTTGTTATACTTCCCTAGGTGTTC
CAGATCGCGTATGTGATTGTGAAGGCAGCTAACTCCCCCCGGCCTGGAAACTGGATTTTGGAACGCTCTCTTGATGATGTTGAATACAAGCCCTGRCAGT
ATCATGCTGTGACAGACACGGAGTGCCTAACGCTTTACAATATTTATCCCCGCACTGGGCCACCGTCATATGCCAAAGATGATGAGGTCATCTGCACTTC
ATTTTACTCCAAGATACACCCCTTAGAAAATGGAGAGGTAAGATGAGAAAACTCACCATTTAAGCACATTTGATACGGTGAAATAGGCCTGTCAGAAAGA
CCTGAATATATCAGTAATTAATGTCAGGGAGATTTTAAAATAGGATTTAGCAAAAGTACATTTAAATGAGTTATTAAATAAAAAAGAAAAACCTGAGGTG
ATTAGAATTTTAACTACCTTCATGTGTCTCCCATCTCCAGTAAAGATCAGAGAAGAGGAAATAGGTTTAATCTGGAAAGTCAATGATTAATTTTACATAT
AAAGAGACTTTCTCAACAATGAGGATTGCTAATGATTAGAGAAGGATTGGAGACCTTAAAGGTGGCCTTACATTTGAGGGTACTTTGGTCTGAAGATGGA
GACAAAAGAAATGAATTTGTGAAGAAATGTAATCCACATGAAAGACCCAAATGAAAAGTAATTCTTTCAATCTTTTGATGTTTTTCTGCTGTCACCACAT
AGGGCTACAGTGGGGTTTCTTCCCTGGGTCAGGCTTTGTGGAACAGTAATGTGCAGGAAGTCTTAGGTTCTCAGTGATGTGCAAGCTAGGTTACGTGCTT
AGTTCAAATATGTTCTTCTCCAGTGTCTGTCATCCTGTGGTTAAGATTTTAGATTCATTCATTGATTTTAAGCCACATATTCTAACCATGGCTTCAGTTG
TTATTAGTTTATTAGTTGTATGTGGGGGCGGGGAGGTTTTTTTTTTGTTTTTTTTTTTTTTTGTTTTCTGGCTTAGTTGTGTGTTCTTGATCCAGTTACT
TAAATTCTCTGCACCTCAGTTTCATCGCCCATAAATCAGGAATAATAATAGTTCTTACCTCATATAATTGTCAAGAGGATTAAATGCATTATTGTATTTA
AAGCATTAGAACAATGCTGAAATGCACACTAAGTACTCTGTGCTATTTTTATTGTTTTGTTGCCATTAAGGAAATAATAACCATTACTACTATTATTTTT
ATTATTATCCTTAGTCTTCTCTCAAATACCCAAACTTTGACTTAGTGACTCTCTTGAATTATTCAATATTTCTTTAGTATGTTTCCCTGACTTGTCTCCC
TTTAGTATATGTGACCCACCTCCTTTCATGCTACCTAATTATGTATATCTCCATTGATACTCATGTCTGATATTCTCTCCCACATAGTCCACACATCTGA
AGCTAGTATCATCATTTATATTTACATTTTCAGAAAACCCATATTCACATTCTATCATGCCCACCCCAGCCAATCTAGGGTTATCTCTCAACACTTCTAG
GGAAAATTAGGGTTTTGGCATAAATCTGTCAGACCCTCATTAGGCACTATTTTTATATTAATGTATACCAGTGCTTCACTATATTTTAAATTCCATGTTC
AAAAATACCAGTTTTGGGGAAAAACATTCCAAATGGTACTCTCAGCAGAAATCTCAATCTGCCAAATGACAAGGACTCAAATGCAGTGAGTCAAACAGCT
GTTCAACCTGCTTTGTGCCTAGAGGCATCCAATTCCTGGCCAGTTTGGCCTGAGGATATGGGAGTAGGGAGTGCAGAAAGAGTTTTGAGTTGAATTTTTA
TTATTTTTTATCCTAGATTCAGTTTACATAAGACTAATAATTCTCAAACAATTTAAGACTATTCTATACCTTTAAAAATGATTCAATTCAGAAATTTATT
AAGCAATATAAAATACACTTCGGCAGGTATGTAACATGCGTGTCACAAGCATATACCCTACCCATTCTCTCCCTTCATTAATAATGGTTCTCCATTCCTT
AAACCAAGTCAGCCTGCCAATATGAAACAAAAGACATGTTTATTAGTTAATTAGTTAGTTTCTTTAATTGGCTATATTGTTTTCACTCCTAAACAACACT
TACTAAAAACTGCTTATTGATGGTAACTATTAGGAGCAACTGACTGAACTGTCTCTGTGACATGTTTCCTTACGTCTATTTGTCACTCATGGGGAAGTGA
ATGAAATAAGGAACAGAAAGTAATTCAAAATATTTGCCATAGAATGATAAGACTGAAGAATAAGAATTAAATTCAGACCTCTCCTAGGCTATCTATTCAT
TTTATATAGCTTACTTTGTGGAATATGTTACTTTTTTGAATAGACAGGTGATATCCTCCAAGACTCTCAGCTCAATGATAATATAACTGAAATAATAATT
GAGGTCTCTGATTCTCAGGTAAATATTTCATCCATAATCTGGTAAGGATTAAAAGTTGACTTTTAAAAGTTGACAATCGCTAAACTTAAAAATGGTTCAG
AGGAGATACAATATTGCTGGATCTAATGTAAGTAGAAAGAATCCTAATTCTGAKATATCATGGCATAGAAAAAGACACAAGGAATTAGAAGACCTGGATT
CTGGTACTGGTTCCAGTTATTTGTGGGACCTTGGTCAAATGATTTAATCTCTCTGGGATTAAATTTCTTTAATAGATGAATTAGTTCAATGCCCAGATTG
TTCTAAGGCAGCATGGTATTTTCTAAAATAATATAGCTTTGGCTATCATACAACATTTGAGGATATTCTAAAAGTTTTGGATACTTTTCTCTAACATTAT
CCAGACAAAGTAGCTGTGGAATAAATCTCACTCGTCAGCTTTAGTTTTAAAATTATGTACTTTCACATAATCCCTGGAATACAATTATTAATTGTTTATG
TTCAAAACTTTACAGAGAAGTGACAGTCAAATAAGAGAAACAAACATATAAACCAGTAAATAAAACATGATTGCATAAGTACTGTAACAGTAGTGTATAC
AGAGAGCAATAAATCTCCCCCTGCTTGAGTGGAAGGAGGCACATTGAGAAGATAACTTCTCAGAATATGGGAAAACCAGCAACAACTCTTATCTCAAAAG
TCTCAAAGCCAATATGCAAATTCATCTCCAATAATGCCTATGTGTTAAACTCGGTACATACAGAATTTACCTCCATTGTTGAGGGATATTGTTATCAGAT
GTAGAATTCTAGGTTTGCAGTTATTTTCTTTTGGCACATTTTATTGTTTTCTGATTTCCATTGCTTATGTAGAGAATGCAGCTATCCGATTACTATCTTT
TGGAGTGACTTTTCTCTGATTTATTTAAATATTTTTTTCTTTGTTCTTCAGTAGTTTTACTATGATGCTTCAGATCTTCACTGCCCACTACAATAGCCAC
TAGCCATATGTGGTAATTCAAATTTAAATTTCAGTTAATCAAAATTAAATTAAAATTCCATTTCCCCATTACACTAGCCACATTTCAAGTACTCAGTAGC
CACATGGGACTAGCAGCCACCACACTGGATTGGGCAGAAAGCAACACTGCCATTATTGCACAAAGTTCTGTTGGGCAATGCTACTTTAGATTGTACCTTT
TTATTTTCTACATATCTGCAAAGTGATGTCTTTCATCAGTTCAGAAAACTGTTCAGTCATTACCTCTCTAAATATTGCTTCTTCCGCATTCCCTCTGCTC
TATGATTCTAATTAAAAATGACTTGGAACTTTTTACTGTATACACTATGTATTTTAAACTCTCTTCTTTAGTTTTCATCCTTTTGTCTTTCTGTATCTTC
ATTCTAGGTATTTTCTTCTGGATTACTTCTAGTTCATTAATTCTCTTCTCAGCTATGTAAATATTGCTATTAAAGTTATTCATAGGATTCTTAATTTCAT
ATATTTTTCAGTTTCTAAATTTCTCTGGTTCATTTTCTTTTTTTCTTTCTTTCTTTTTTTTTTTTTTTTGAGACCGAGTCTCGCTCTGTCACCCAGGCTG
GAGTGCAGTGGCGCCATCTCAGCTCACTGTAACCTCCGCCTCCCGGGTTCCCGGGTTCAAGTGGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAC
AGGCGCGTGCCACCATGTCCACTTGATTTTTGTGTTTTCAGTACAGACAGGGTTTCACCATGTTGGTCAGGATGGTCTCGATCTCTTGACCTCATGATCT
GCCCACCTTGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACTGTGCCCAGCCTGGTTCATTTTCAAATAGAAGTTGTTTCTCATTTTACATTGAA
ATTTTATATTTATAGTAAAATTTTAATTTAATAATATGATTTATTCTAAAATTTTCAATATTCTATTTTTAATCTCCTTGAGCATAAAGTAAAAATTATC
TTTAAAAGTTTTTGTCTGATAATTCTAATATATGGCCTTTTTGGATATATTTTATTTTCTGTTTCATCTGCTGATTCTTTTTATGCTGTCTTACATTCTT
GTGTGCCTGATTATCTTTGTATAACAGAAGTTGTATTTGAAAGAGAATGTGTAGAAATAATTTGAGAGCTAGTATATTGTCTTCATCCTGTGTGAACTTT
CTGATGCTACTGCCAGGCAATGGAAATCTGGATCATCTTAATTCAATTTTAGGGATTCAAATTTCTGGGACATTCAGATGATTCAAAGCATTGCTATAAC
CCAGTGACAGCTGCTTTAATTCCAGTATACGCTCATTCCCATGCTGCTTATCTTTGGAGTCCAAGCCAGCGTGTGTGGGAATTACGAAAGTCCCACCCAT
GCAGTCCTGGAATCCAACTTTTGTCCTCCTAATACAGCAGGGCTGTCAAAAGAGCTGCTCAGTCTCTCAGCCATGTGTCTGGACAGGAAAATGCTCACAG
GACAAAAGCTGTCACAACGTACCAATCACCTGTCTAGACATCTCTTTTGTCCTTGATGTTGAGAAGGTTATCTTCACTCTCTTGATAGCTCTCACATGGC
TTTAAACATATGTTTTTGTATATTTATCCAGTTTGTCTAGTTGTTGTCATTGAGAGTGTTGACTCTTACTGTATAATCTACCATAAATAGAAGCGAAGTT
GCACATGCATTTAATTTTTTTTATTTTGGAATTATGTTAAGTTTACACACATGTRTGAAGATTATAGAGAATCCTCACATTCCCTCATCCAGCTATCCCT
AGGAATAATATCTTAAATAATGACAATGCACATGTTAAAACTAAGAAGTTAGCATTGATACATTATTGTTATCTAAACCACAGACCTTATTCAGGTTTCA
TTCATTTTACCAATTTCATTTTTTCTCTTCTGGGATCCAATTCAGGTACTATTTTGCATTTAGTCACTGATCTGTGACAGTTTTAAGAGATATTTTAAGA
AATATTTTAAGAGATATTTAGAGATATTTTATAGACTATTATTCAGTTTGGGTTTGCCTGATGTTTTTTCATGGTTAAACTGGGCTTCTGGATTTTGGGA
ACCAATACTACAGAGGAAACAGTTTCTCATTGCATCAATCATTTTTTATTAATATATGCATATTTTTTTCTTTTTTATTGGTTTATGGGGCTTGTGCTTC
TATTAATAGGTAGATTTTTAAAATGTTTTTAATTTTTATGGTTACATAGTAGGTATATATATTTTAGATAGATTTTTAACGTGGACAGCAGTATCTAAAT
ATTTACTGTGATTTGTAATGTATATTTTTTACTAAGCATTGAATGGTCATTTTCTTCCAGACCTTCAAAATATTCCTTAAATATGTCAGAAATAAGAAAA
ACAAGTCCCTCCCTCTCTGCCTTCCTCCCTTCCTTCCTTCCTTCCTTTTTTTTCTTTCTTCTTTACAAACAGGTTCTCATTGTGTTGATCAGGCTAGAGT
CCAGTGGCATGATTATAGCTCACTGCAGGCTCAAACTCCTAGGCTCAAGAAATCTTCCTACCTAAAAAATCAGCCTCCAGCTAATTTTTTAAAATTTTTT
TGTAGAGACAGGGTCTTGCTATGTTGCCCAGGCCGTTCTCAAACTCCTGGCCTCAAGTGATCTTTCCACCTTAGTCTTCTAAAGTTACAGTCTTCTGAGA
TTACAGACATGAACCACCATGCCTGGCCCAGAGGAATTTTTAAGGCCCACCCATGTAACAAGGCATTATGAAATAAACATGTCTCAATTGTTACACACTA
GTTAGACAACAATGTTCATGTTTTAGGCTTAGAACATTAATCGGAAATAGTTTTCTTGTGACTAATGCCAAATCCACTGAGTCTAAAGTTTATTACATTT
CCACTTGTCTAAAGAATTTTTGAGACATGTGCCAAAATCTTTAGAACATTAGAGCTGAAAGATACCTTAGGTAAATTTCTCATCAATCTATTAAAGGATA
TTCAAGCCCCCAATTTCAGCCTCTGTATCCAAACTTCAATACTGCCCTATGTTCATATCATCACTGGAGAGGTCTGGCCTTTCCTTATGGCCTCTTTAAT
CTTAATTGCATCATCTCTGATGTTTTATTTGGCTTTGTTTGTTACTCCAGTTACTCCCACCTGTTTCCCTTCATGGTTTGGTTTGGCCCCTTCTCTGCCC
TCCACTCCACATTGATTTCAAGAGATCAACAAATGTTAGAGAACTGGGTTCAACTACTACCAAGAAAGAGCTTAACCCTGAAACCTAGCATCCTAGGCCT
GCACCCAAAGGGAGAAGAGAAGCTYATTCTGAGCTATGAGATAATCGTAAGGTATCAAGTCTCAGGGCCTGGCAAAGGAGGGATAATGGAGGATATAGGC
AAGATAATAATATGACTGGGTATGTCGTTATCCAGGCTGCAAATAGAAGGAGGCTTTGAGCAAAAGCCTTAAAACAGTTTTATTTTAGAAGGGCAATTTT
CTATCATCAATGCCAAGAGAAGGCTCAGCAGGGACCCTACTTTGTCCTGCTTTGAGCAAATGATACTGAGCTCCCTAATAGGAGTTGCAGGGTATGAAGC
AACAGACTGCAGGGGCCTCCATTACTTTGAGGCCAACCACAGGGTAGAGCTCTTGTGGGAACAGCTACATAACATGCATGTCCAGCAGTGCCCCAGGGAA
CCAAGCCATCGAGAGCTACTATCACAGCCCAAGTGCTGCCTCTGCAGAAAGCAGTAGCCCAGATGCTATTGAGAACTGCTTACAAGAACTGCCACTTGGA
AGCACCCTGAGAACTTGGCTTTACTTGGAAATCACCTAGGAGCATTTGAAAAATAGCTACTCCTGAGACCAGAACTTTTAATTCATTATATTTGTCAGAG
GCTCATTAAGCCCTATGTATATTTTAAACAAGTACTCTTGGTGATTCTTATGTCTGTATTCCTGGCTTAATGTTCAGCTATTTCCAGCCTTTTAAACCCT
GTAGGAGAACAGGGCACCAGTTATTTAGGGAAAGAATATTGGTCATTCTAACTACTTCCAACTGAAGAAAGAGACTAACTTTTTCTGTCAACAAATGTGA
TAGGTTTTGGTGGACTGAGTCTCTTGGCAGGTTTGAGTTGAGCAAATAAACTTCGAACTAAAACTAGGTTATTGATGGTCAAAGGGGTATCTGAGAGAAG
AATCACAGTAATAATATTGAGGAGGACGAACTTTCTAGATGGCACTGCTTTAGAGATCCTAGAATTAAAATTATAATATTTTTCTGTTGTATGAGACTTT
TCCCTTTCTTTGACTCACATTATTGCTTTTAATTTATTTGGATTGTCACTAGACTGCTAGCTAAATATTCGTGGTTACCATAGTGATTTTGCTTCCATTT
CCTCATACAGAGGCCTTTAAGTTATTTACATATGATTTCCTTTCCTTCTTACCACCACCTTCTCACTCTCCTGGACTGCAGCTCAATGGAACTTAGATTC
ACTTTGATTCTGCTTTGAAACATGGCAGGCTTGTATAAAAATCCCTGGAGAAACCATCATTAAATCTTGAAGACACTTTTTTTTTTTTTTGTAAACTGTA
TGTAGAGCTTTGATATTATTTTGATTTCCTATGTGACAGAATTTTATATATACAGACAGAATATTTTTCTTCCTCTTTTCATCATCTGACATTATGGTGG
TCCTTAGAATTGCAAATACAGGAGAAGGAAGACACAAACCCAAGACTGTATTAAAAAATGTTTCAGAAATTCTCCTTTGATATAACATTGTTAAGGTTAT
AACATGATTTTGCATGTGAGTTTGTATGGAAATGAGGGAATGGAAATGAAGACCTAGCCTTTCTCAATTACCCTTGCAATTGTTCCTTTAGGGAGAAACA
GCGGAGTATTACTAATTTGTATTGGTTTTCAATAGAAATTTAGGTAAATAATTATTTGGGGTTTCAGGCTTCCTTTCTCTAAAAATAATTCTTTTTAGAC
CAATGTGGGGCCAATCAGTACCTGGAGCAACAATATTAAAGTACCTCCTTACAGTGAGGTTTATATGGAGTCCTCTAAAAAATGAAATGTTTCAACTCTG
GTTGGAATACACAGAGCAGCTGAAATATTTTGAAATGACACACACATAAAATACATAATTTATTTAAGGTAATTTATTGTTATATTTTAAAAATACATCT
TTTTAATAAAATAAAGATAAAATTAAGAGGATTATATTCCTCCTTTTTCTTTGTTGATCAGTTACTAGACTCCCTTACTCCTCCAAAAAAAAAAAAAAAT
ATATATATATATACAATGCCCAGAAAGTATCCACAAATCCCTGTTAAATTAATGCAGTATTGTTGAAAAACAAAGATGGCCAGAGAAACTGAATGAGAAT
GGAATCCTGAGGAGAAAACACCAATATTTAAGAGACCTGGTTCTCTCAGTGTTGTGGAACAGGATCCACTGATATGGAACAGAAGGGTAAGCTTCTGTTA
AGCTAGGTAAGGAAGCTTAGGGTTGTGAAAGAAGGTACAAAGACACTGCACACTGACTTYTGGGGAATTACCTGGATTTGGCTTTCAGGTAGCTCTGCCA
AGGATTAACAATAGGGTTCAGAAAGAAGAGTAAACCATCTAATATGTGCCCCAGCCAGTTTACGTGGTTATAATAACGATCAAATTAGATTTTTATGGCA
AAACTCTCTTTAACCTCTACGATATGATAGTATTTCCAGCCTTTTTATTCTCAAGGTTCAGTAGCTAACATTGGCTTAAGCCCACTCCTAACTATGAAAT
GACTGAGCTGGCTCAGCCTGGAATGAGAGTGGGGAGCATGAGAGGGACACAGCCATACCACATGAGGCCATGGCTAGGGAAGGCAGAGGCTACTGAACAA
GACTGAAGGAATAAGCAAAGCAAAAAACCACAAGCTTGCTGAAGTTGGAGGACCAGAAGGAATAGGTGAGGGTCTCAGTGCTAATGTAGGGTTAATCCAG
GGCCARGTAGACAAAAATAATAATAAAACCACAACAATAATAATAATAAYAAATGATGGCTAGCATTTGTTGCACATTTATTTTATGGAGGGTGTTAATC
TAAGAAATTTCCCATGTATAAATTCATATATACTAATACTTGTCGCATTTTACAGTTGAGAAACAGGTATTACAGAGAGGTCAAATAACTTTCCCAGGGT
TCCACAGCTAGTAATTTTTGGAGCTGTGATTTGAATTCAGTGTATTCTCAGAGCACCAGAAAGGTACAAAGCTAAAAGTTTCCTTCTGTGTCTGGGGTTT
CCTGGAAAATCTGCTCTGCCCTATAAGCTCAGGAGTCCCCCCTCCTAGCAGTTCCTGCTGAAGCTCTATGTGAGATTGCACAGACCTGAGTTTGAGCTGC
TGCTTATTTTTTATTTTGGGGTTTTAGTATTTTCATGTTTTAGGTTAAAAAAATTCTTTACCTTTTAGCTTTGATGAATTACTTCATTTTTATATCTAAT
AGGTTTTTTTAACCTTCACTTTAATTGATTTCTTAAMCTCTTTATCTTGCTCATTTTTTAATCTTTTTAATGATTTTAAAATGCTGATTTTAATAATTTT
ATCTTGGCATATTTATATTTATCAGTTTTTCTGCTTCAAGCTTTATTCTGGCAAATGATGTATATTTATATTTCTTTTGTGTTGTTTTTTAAATATTTTT
TATTTTTGTTTCTGGAATTTAATGTATGTCAGTTGTGCAATAGACTTGTTAGAATTTTGTTTGCTTTAATAATTTTTAAAGTGACTTTTTGCATTACTTT
TGATCATTTTACTCTTAGCTTATTTTGAGCTTTTGATGTCTAAATATAACTTTGTTTGTCTAGTGTTTTAGTGTCTTTAGTCATTGCTTCTACATGGCAA
TAGGAAATATGACCATAAAAACCTCAGTGAAAGTAACCCACATTTAGAGAAGGCTTGTATTCCTTAATCCCRCCCCTCTACACACCCCACCCATTCRACC
CATCTGTAGCCTCCCTTTCAGCTGTTCTTAAAAGACCTTCCCTTTTAAGGGAACTTACATTTTCCCTTCAATACTAAATCCCAAAAGCTAATAGCAATAC
AGAAGATCCACTGACCAACATTTCTTCCCAAGACAATAATAGTAACTTATATGCATAATTGTTAAAGCAATTTTAAGATTTTGTTTTGTTTTTTGCTATC
CAAGTTCCTAAGACATGTTATTCCTCTAAAAGTTTACTATATGAAATGATTGACTAATGGTTGAACAAATACTATAAACACATAAGGAAGGTGATATGGG
TTTTACTCACAGAAGATTCCTCAAAACGCATACCTGATTTGGTTTTAATAAGGATCACATTACAGGAGATCCAATAGAAGCTACTTAAAAAGTGTTTTAG
AAAATGTTTTTAAATATTAATTTGCATCCATTATAACATTACTATTTGAATTTAACTTCCTTCCAATATACCTGTAGAATGAGCTATTGAGTTTAACTTC
TTTCCAGGCATGGTTATGGAGCCTGCTAGTGTGTGGGTGTCCCGGGGCCACACCGTATTAAATAGGCTAGTGATAAAATGGATAGGACAAGATTTCTCAT
CAGGAACATTTTTAAACACAGAATCTGTTGATTCTGTGTTGGGGGCAGAGGCTGGGAGAAATAGGGAGATATTAGTCAATGCATTACTTTTATAAGTGGG
CAACAGAACCCATGTTGTGTGGTCAAAGTACTGCAGAACTTCTCAAGCATTGTACACGTTTCAGTTTTTGACTACGACTTTAATGGTCCACAAGAAAGGC
CTCTAAGAATCTTTTTCGTGTCCATTTCTATAAGAGAGAACATAATGCTGTGTTAGACATAGTTGAGATCCATTATAATAATGTCACTACATTTTGAAAT
AAAATTCTGAAATGCCTTAATACATAAATCCTTTTATGAAGTCTTTAAAATTGGCTGCTAAAACCAATAAAATTATATTTTTGGAACATAGTTAACCACT
TTGTGCACATAAGTGAGGCTGTAGAAACTAGGGTTTTAAATGACTTAAAAGATATATATTTCTCCAAACTATAGGTAATTATATCAATATTACTTTGACA
GAGATATAGTAATTCTCCATCTTATAGTAAAATTTATGAAAACATTAAGTAAACCAACAGGTAAATACATTTTTGGTCAAACAAAACTTTAAAAATTATG
TTTTTCTTTTATTTGGCTCAAGCTAATTCTTTCTGTTATTTTTATTATTAATTGACTACTCAGGTAAAATTCTATCTGAATTGAATTGACATCATTGATC
CCATTGTCAGAAAAGACAGCCCTCTATCCCATTCAATTTATTAAACTGCTAATCTTCTGGACTTTTCTTCAAAGCTTGTCAGTTTTGATCCAAAAAAACT
TCAGATTTCATTGTGTGGACCTGTTACTTCTTGTGTGAAAAACAGTATGGTTTCATGGAATCCACTCTTGGCCATTGTTAATATTGTACAGATAGGCACA
CAAGCATTTAAATATGCTAGCACCTTATTGCAAAAAAAAAAAAGTTCTACTTATATTCATTGCAATTTATTATAGAAAATGTTTTCTGAACTGAAAATTA
TAAACTGTTGTCAATAATTCAGGTCCCAATTCTGAAGTGTATTGAGATTACCAAACTGTGAAGCAGGAACAATATTTATTCTCTACATAAAGAAAGAAAA
GAACTATTAAATGAACTTGATATTATAAGAAGCACTTCAGGTTGTCAAAACTCATATTATGACATCTATAATCTGGCCTAAAATCACAAGCAAACATTCC
ATGATGGAATGGCAGATCATGCTAGATTTGCTGGTTATTATCAGTTTTATTTTACGTTACCTAAGTAGARTTTAAGCCTTTCAGTTAAAATATGACTCCC
AAGCAAAAGGAAGAGGATTAATGGATTAACTRTTGTTTGTGTTATCAATAATATTGGCAATAACTATTTGTCTATGGTGCTGTGTCAGTTACAAGGCACT
CTGCCATGCATTCTTCCATCTGATCCTCACCAAAGCCTTGGAGATGCTTCAAGCCAAAATTGTTATTATTCTCATTTTACAGATGGAGGTGAAGGAACTG
ATTTGAGGTCACACTGTGGTAAATGTTCAACACTAATCTCTGGTCCAGGTCCAGTCCAGATCTTCTGATGGCAAACCTTATAATCATTCCACTTCATAAA
TGGAACACTTAGGTCCAATCAGTCATTTTCTAAATGTGTATTTACTGTTGGTCACAAGAGTTTGTGTGACACTGTGTGGATAATTAAATGCCATCCACCA
TCTCTACTCGGAAAAACCCAAGGGTGTGTCAGTTAATCAGTCTTAACAGGAAAGATAATGTACTATTATCATTATGGCAAAAGTACACTTGAAAATACAA
CAAAGGATATTGAAGCTATTAAAATAAGCTTCTTATCCTTAGGGAAACTATTTCAACACTAGAGCTATCATCAAAAGTCCTTGAGACAAGTAACCCAGGA
GTGGAATGGTTRTGATTACACTTTATAAGCAAACTTAAAAAGATATCAGGAGCTGCTTTACTAGGCCCCTGCTATGAAGTGAAAACTGGAGAAAAATCTA
CAGCAAAGCATTCTAGCCTGAGGATGTGTACTATTTTGCAACACAGCAGACTGACTACAGCCAAATATTTTCATTGGAAAAATGTAAATGAAAAATGTTG
CTCAATTCTGCTACCTGGGTAGTACATAAGACATGTAATTTAAATTCTAATCAGGGATAACAAAAATCCTATGATACTTATTTTGCAAAGGAAAATGGCA
GTCCTGGCAAGGTTATAAGTTAGAAAATTATATTTTCTTTGTGTAAATTTGTTCTTTAGCTTCATTCAGTAATCAGAATTATTTATTTCCTTATTCAAAT
TGTAAGTGCCTTCTAAACCCGAGCCTACTACTATTATGTTGAGCCATGGGAAATTGCCAATATTTGACTATTTTAGTCCATTAAAATGCAGTTTCATATG
GTTTAAACTAATATGTGCCAAAGCATGAATAGAAATACTTGCAGGAATACTGTCCTAAGTATAACCTCAGATGCACACAGTATTTTAGCAAAAGTATCAA
TGGGAAATCAGGCAAGTCCTTTCACTGAAACAATTTATAAGTATAATAATTTATTTTGTGAAGGCCTTTTCTTTACCAAATTAGTAATATGGTGAATATT
AAACTAAACCTGAGTCATACTACATTTGTTTTTAAATTTTGTAGGGAAGGGGGRAATAGCAAATAATATTTTATGCTAGTAATCAGGCATTATATCAGTT
GTTGTAAGGAACTACATGAAAGTTGGTGGTATACAGGTTACCAGTAGTAAGTTTGGGAACTGTGTTGTTTTGGCTCACAGAATATAAAGCGTGTATGTAT
ATACCTGTGTTTCCACATAGACACACTCTGTTACCCTTATATGTATTGTATAATCACATGTGTAGATGTTCATTGTATCTGGAGTGACAGTTGACACCTT
TTAGGGGCATTTTACATGTTTTAAAACCTGACATCCACTTACAGCACTTATCTACTACTCTCTTCAGGATAAACTACCTTTATTGCAAGACTTTTGCTAA
AAATTCTTAGATTATGTCAAGGGAAAAAAATCCTCTATTGCTTTTTAAAGAAAAAATTATCAGAATGATTTAATTTTGTGTTATTTTTTATCTCCACATT
AGTTTGTTATTTCAGTGGTTATTTCAGTTAAAGACATTTTTCTCTTCCATTATTTCAATTTGTTACATTGTATCCATTTATCTCATAGAAAGATAAACTT
TTGTGTTGAATTAGCTGTGGAAGACCAGCTCACACATTAATCACTACTAAGCAAATGCGTTACAAAAAAGAGAGGACAACAAAAATGAGCTGGAATACAG
TTTCAGTTCAACCACCAAACGATTTGATATCATGAATAAATTTCTTGGGTATATGTAGCCAGTAAGTAGACCTCAACATTTAGCTATTTTTTTCAATAAA
TAAATATTGAGCACTGTCTTTATGGCAAACACTGTCTTAGGTGCAGGGGATAATGGACATTATGCTTTTGGGGGATTAGATAAGAGAGGAAATAAGTCAG
AGAAAAGATCTCTAGCACAGAAAAGTCTGGTTACAAGATTACAGAGAGAGAGAGAAAAAAAAAACTGTAGTGACTTGTCTAGGGAACTGTGTGGTTGCCA
CATARAAAATGTGGAAGGGAGTGATGGGAGACAGGCTATGTTCCTAGCAATTGCCTTGACTCACCATAATTATTTCACCTACTGAATAACTGAATAAATT
GAGTAGAGAGGCTGCTTGTACCAAACTGTAAAACAGTTTCAGGATGAGAAAATTACATTTTAAACATACACTTAGGGAAAACAAAAACAAAAACAAAACA
CCTGCCTTGCAGAAACATGTCATAGAAACAGATTTTAGGCAGAATTATTTCCCTGTACAACAATTGTGATTAAGTAAATGTTAAAATAAAAAGAAGGATG
TTTAGCAGCATAAGGAATAGAAACATTTGGAGTTTTAGCTTTAGCTTATACAATGCATCCTGTTTTATAATTGTTTTCCAACAATGTTTACATAATGKGA
GGGTCACTCTTTAACATGAGGGGCTCTGTCACTAGAATTGCAGTGTGTTAGCCCCTCATTTTCTCCAGTGTTTTTGTAAATCTTTCCATTGACAATCTTT
TAATAATTTCCAAAACAATCGGGGGTAATGTTCGAATTCTAAGTTCTTGTCATAAATGAATCAATCCAGTTGGCAGGAGATGGATGTAGTCTTTTTGCTG
GTGTTCCGTGCTAAGAAAAGCACACACATTTTTCTTGAGAGTATGGCTAGCCGAAAAGCATCTGAGAATTGATGGAATCCTAAGGCAGACAGAAACGCCA
AAAGTCAAGTAACTGGTTTTGTCTCCAGCACTTACAGTTTGTTGTCTGGGTGCCATGACATACCCTCTACTAGTTAATTCCATTAAGCAACATGGGCCAT
TTAAATATAGGCAAAACAACAACAAAACAAAGCAAACAAGTAAAAACTCTGTGACCACAGAAAGAGCCTGTAACATAGACAGAAGACTACAAATAGTGTT
CTTAGAAGATAAATCATTAAGACAGTAGCAAAATGAGAAGGAATAGTGTCCTGGGCAACATAAAGTGTGTGTACCCTTCTACCTGCACAAACACTCAACT
GAAATTTGCCAAGGCTCACTAGTGTCTTTGAGGCACCCTAGAGAGGGGAGGCTAGAAATAACCATCATCCTCAGCTGTTCCATGGTAAGGCCCTACACTA
GGACTCAGAGGAGAGATAGTTTGGAACATTTTATCCCTATCAGTGGAAAATAGCACAGTTGGTGCCTAACTTCCTTTCGTTGAAAATAACACAGGTAATT
TTTTAGCCAAATGAGATTTTTATCAAAAAAGCAAGCAAAGGCAGAATGTGAAAAGGAGCTGATATCAGTAATTCCAAGGATACTAAAATTTGTTTTAAAT
AATAAAGAAATAGCATCTTCAGGCCCTTTAGACTTTGGACTCCAAAATTGGATGCAGATCAAATAGGATATTTATATATTAAAAAATCCCAAGAGAACTT
GTACAGCATAAGGTAAATACAAATCAAGGTTGAACAGGTATAAAATAATTAGGTCAAGAGCAATCAGCAAAATATATGCAGAACCAAACAATACTTTGAT
ATTCTGGTCTGGAAAGAGAATTTGGGGTTATTCTGAAAAATACTGTCACTACAACTCTGTCCAGAACCCACAGCTGCAGAAATGAGTAAACAAGTCATCT
TATTAGAAGACTGCAAGGTTAAAGAACAGCTAAAGATTCAAAACTAAATGACATTCTTGTTAGTTCCCATTGATACGATTATAACTCACACAATTCCCTA
AAGGAAAACTACAAAAAGGATGTTTCTTGAGATAGGAATACAAATAAACTTTTGCTTGTTTGTTTGTTTTGTTTTAAATCCAGTRATAAGAATGAATGTT
TTCTGTATTTGCTTTTTTTAAAAAAACTCTATATTTTATGTGCAGACATTTAACATAAAATCTTTTCCCAATGTCTTTCTTAGATGATTAGGTAGTTGAA
AGACGCTACTGTTTACGAGGCATTGCTAAAAGCTTTTGGGTTCCATGAGGGAGAGGGCCATGACMTACTCCTTTGTACATTTCCCCACTCCTCCGTTTAC
ATCACATAAACATATATGTATGGTCTTCCATGCAGTCAGCCAAATCAGACAAATCATGCCTAGGAGTTGAAAGTGGGAACTGATTTGTCTAGTTTGAATA
TTCTGATTAGTGAACTAGCTAGCTTAGAATTTTGTGGTATTTGCATATGTCATTCATTTATGTACTACAGCTACACCTAAATCCCAGAAAAATCGGTAAC
AAAATAACCTATTATTCTAGATTTAAATTTTAAAATCCACATAAGAATATTAATAACACAAATTATTTGTATGACAATGACTTCTATTTTTTTCATTTCA
CCCTCAGAGATCTATATACTTCCTCTATCCAAAAACAACACAGAAGCAAAATGTTACAGAGACACCAGAATGTTGCCCAGAAAACCATGCATTAATTACT
CAAGCCAGGAAATTCCCAATTTTGCAACTCTATTTTATCATTTAAGAGAGATCTTTCCACATGTGTGTTCTAAAAAAGAACAGAGAAATAACCAGTCCTC
TGTAACTTAGCAAAAATACAAATTGGTGTTTCCACTTTGATTTCTCTTTTTGAAATAAATTTTCAGCTTGACTTTCTTTTGCCTCGGGTATTCTGGATKA
TCATTTTGTAGCATCTGGATAATTTTACATTAACATCTGGAGTTGAGGGTCTTTTTATTTGTCGGATGCATATAGAATACTTCTGTAAGAAATGTATTTT
CCCAGCTGCTGTTTATTCATTTTAAAGAGACATGGTTAAGTAAGTCTAACAGCCTCCTTAGGAAATTCAATTCCTAAATTCCTTAGGAAACACAAACCAT
GTTTAATCTGAAGTCCTGCCAGTCTGTTTTCTCTCCTACCAGCTTTTCCCATGGCAGAAATGGTTGAGATCTGTACAGAAGGAGGACTTTAGTCTGGTAA
CAGGTGGTGTTGCTGAGTGCAAGGGCCTTTGAAATCAGGCCTGGTTTGGAATCTTGGTCCAGCAATCAATAGCTGTGTAATCTTAGGTAACTCTTTGAAG
TTTAGTTTCCGCATCYAAGAATGAGGAAGTATAAATACATATCTGCCCACGTTGGTTGTATTAAATGAGATAMTTTACATAACACATCCGACTAAGGTGC
AGATGTAATAAATGACAGCTGTTATTATCATTTATTTCAGCACGTTGCAGAAAGCAACTTACAATTTCTTCTTTTCCTGACCTCCTAGGGCTTTTATGCA
TGCAATTAGCAATTTGGGATTTGCACAAGGTTTTTCCAGAGTACAAGATTTTTGAGAGCTGTGACTGAATCTTATTCTTTAGAAACTTGCTCTTTGAGTG
GAGGAAAAGGAAGAAACTAAGTTGACTAATGACATTATAAAAGCAGGTAGAGAATCATTTCTTTCTGAGCTTCTGTAGCACAGGCTATGAAGTGTGCTAG
TAAAGTAAATACAATTTTAAGCAAAGTTTCAGAAATCACCATAATAAAATAAAGTCTGTAAGTCCCAGCTATTAAACTGGCAGGGACCTACATTCATTAA
ATTAAATGCAATGTGCAATGTTGTTCGAAAGTTGTTCAAAATGTTTTTAGAATTTTTCTTGGAGTTGATTGCTTTTATAATGATGACTTCACGTCTTGAC
TCTCAGTGATTTTGTTTGTCTCCTTAGCCCCAAAATTATTCACCTTAAAAGATGAAATTTGGTAATATTAAGACAGTCAAAGGAATGTCCTGAAGTTCTG
ATCACAGCTATGAATAGTTCTAAAATCTTCTAAATATTTTTGGGATATGTATAGAACCAAGATGATTTGTGTGAAGGGTTTTTCCATTCACTTAGTTGTA
TTATATTTTAATATAATTGTTTAAAAAAGATTCATGTTATAGTCACAGATTAAAAGGCAGTTTTTAAAGGAGATGAATTAACAGTTTCAGAGAAACAATT
TTAATAACATGCATTTTATACATTTATTTATTCTGAAAACAGTAATTTTCAATATACTATTTTCTTATAACCACTTTAAAGAAATTAAGGACTTGCAGGT
TGTCTGGTTTTTTACTATTTTTCTTATSCATAGCAAGGTTGGTGCTCAATAATACTAGATGAGCAACTGAATGAAGAGATGAYAAAAATAAATGAATTTA
TTACCACTGCATGTTAAAGAAGTGTACTTTTTTATGCTTGTCTTTGAGAAAAGTGTCAAGGTGGCATACATGACAAAACACAACTTTAAAATGACAACAA
AAAATTAAAATTTCACTGAACAAAATAAAATAAAAGAAAAATGCATACTAGCTGCTCATCTGGGATGAGTTAGTTATTGCAATTCAACTTGTAATTTAAT
GCAGAATTTTCAGACAATTAGGGCCAAAAAAGAAAATGTTAAATTAGCTAGTGTCTGACAAAGAAGAAAGCTTTCAAACTTTCAAGACGAACATTTTATT
AGCAATGAATTCTCAGAGCAAATTTAATGCAGTCCTTATGTAAGGATGTCAGATAGAAAAAAGTAAAAGGATTTCAAGCATCACTAGTGCAAAGGACAAT
ATTACTTGCTTATTTCTGCAGTGTAACAAAGATGAAGATATTCTCTTAAATTTTTTACTCAATGATGATTCATGTGTCTCTGAGAAACTAAGATAATATG
ATTTAATTCTGTGCTTTTGGGATAGTCTAACTTAATTCATGAAGGAGTACAGGGGATGGGCGCTTTGTGTGTCCACTTTGTTTGTCACTCTCAAATGTCA
GATGTGCAGGCAAATTCTCAGAGTTAAATTACTTGACAGGAACTTAAGCATCCGTATTTGTTGCCAGGTAGTCTTCTGTGTGGTTAAAGTACAGAATGTA
CTCCTACAAAAGCAGAGAGGCGGCCCGTTGCCACACAAAAGTGTTTTTTCAGATGGCTTATGGTTAGAACCAATATATTTTTCTAGCATACAGTTTGAGT
GATAATAGCTCACATTCCCCGATCACATGCCTTGTGCCAAGTACCATTCTAAATGCCTTGCATCTTGTAACTCATTAAACCTTTACAGTAACCTCATGCA
ATGTACACTCTTGTTGTTCCCATTTTGCAAATAAGAAAACTGATGGGCAATATTACCTTGCCCAAGTTTATACAGCTGGTAAGTGGCAGAGTCAGGATTT
GAACCCAGGCTGATGGTATAGTCTGCGTGCTCAGCCACAATCATGAACTTACCCTCAAACTGCCTGTGTTTGCATAATCATGTGGATACTACAGGATAGA
TTCTTTAGACTCATCTTATGTAGGAGGAATAGTGACATGAACCATCAWAAGAGGAGCATTAACTAAACTTTGCTTGTCTTACCCATGAAAGAACATCAGT
GTGACTCCCTGCCAAATATCTGATAATGAAAAGAAATGCATTGTGATCAGCAAGATAAAATGAAGAAAATAAAAATGTACACTGAAATAGCTGAACGAAT
GAATTAACAACCTATTTTATAGCATTGTGCTGGAGAAGAATGCTCATCTTACAGAGGTGATTGTGTCTAATAAAAACTGCACTGGATTTGAAGTAAAAAA
TAAAAAACAAAAACTGGATCTAATTTCCAATTCTATCACTCGTAGTCTCTGTAACCTCCTAGTCTCTTTCACTGGGATCTTAGATGTGCCTTCTTAGAAG
CTAAATTTTCTTATCTGTGAGTTGGTTTACGATTCCTTCTTCCTCTATCCACTCACTTTATTGTGATATCAAAATAAGATAGCATATGTGCATATCCTTG
GAGATTTTAAAGCTATCTGAAAATGTGCCATATTTAAACATACTGWACATAGTTAAAAGACATGCATCTGATTAATGTAAAAACTATACCAATTTATTGT
AGTCCACTTGGAAAGACAAGTAGCTTACTTAAAGATCTATTTTGTTGCATTTAAAGTTGGAAATGAACCTGATATAAATCTCTTCCCAACTACTGTGATC
CTGTCTTTAATACAACTTTAATAGACTGGAACATATGCCAAGAGTATACAGTCAGAATCTCTCTAAGAATCAAAGACTGATGAGAAACCTCTGAAAGCTG
TGAAAAGTGTGTTATTGTTTTTAATTGCTTCCCTAAAGAATGAGAGAAGGCRAAGCTGGGACCCTAGTGGTATTGATGGGCTGTTGCTCCTTATCCATGA
TGYGTAAGAGTGAGGAACTAAGTCTGAAAACTTTTTAAGGGGAAAATAGCAGTATAGCATACTGAAAGTTTTGTTGTAATATTTAAAAATGCCAATTAAA
AAATAGTGCAAAATTGTATAACGCAATTATATGAGAATTGTTTTGGGATCAGCGGTCCAAAGACAAAGAAAGTCCCCTCTTCTCTCCATGTTCTTTTCAC
TGCTAGCAGCAATTAACATTTGGCATATATCCTCCTAGATTTCATTTTTTATGCATAAGTGAAGACATATCAATAAAATGTGTTCTTGTTATATTACATA
GTTCTTGTTTTAACACAAGTGGAATTATCCTCTACATGGTGTTTATGATTTGTTTTTGCACTTATGAGGTTGTGTTTAAAATGTTGTACATTTTTTTAAT
TTTAGCATTGGTAAATTTACTTTGTTTTTATTTTAACATAGTATTCCACTGAAATGTAATTATACTGCAAATTATTTATCATATCTCCACTGACGGTCCT
TCAGGTTATTTCTAACTTTTCTTGATTATAAGCAATGTTGTAATGACTATCTTGTACAAGTATGTTTATACTCTTCCATTAATACTTATGTAAATAAATC
TGATAAGGGAAATTGTAGGCTAAAGCATATATTATACATTTTATTTTATTTTTTATTAATTAATTAATTAATTATTTATTTATTTTTGAGACGGAGTCTC
GATCTGTCGCCCAGGCTGGACTGCAGTGGCTCGATCTTGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAG
CTGGAACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTTGTATTTTTAGTACAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTTCTG
ACCTCGTGATCTGCCCACCTCGGCCTCTTAAAGTGCTGAGATTACAGGCGTGAGCCACTGCTCCCGGCCCACATTTTATTTTTGATATGCACTGGCACAA
AATTGTGTGAAGAACCAATTAATAAATATGTCTAAGGAATATAGTTTCCATTGTTTTAATTATCAAAAAATTATCACTTACATGGGCTCTAGTTATACCC
ATGATATGACCAATTTAAGAAACTTGAAAATATAATTTCTAGCACGTGTATACTAATGCGAGATAGAGAAGTTTTATTTACAACCAGAAATTGTTGGGTC
CATAAAAGAAACAAATATGTCTAGAACATTTTAAAGTTGCCAGAGCAGATTTCAAGATATTCCAGCCTGAGTCCCTCAGATATGTATTTTGGTGATTGTA
AAAATATCAAAAGAAATTATTTGTGTCCGAAAGTCACAATATGCGTGAGTCATCAACACAATAAGATAAGGCTAAAATTGAGTTTCAGATATTTTGGGAT
TTCTGAAAAAAATTTATAAAAATCCATAATGTAATCATTTGTAAAATTTTAAAGTTTATCATTACGAAAAGGAAAGTCAAAATCAAATGAAATAAAACAA
GCTTTGTTCCATGGGATAGTGTCAGTCATAAAGACTTACTAGTTAGGTGCTAATTCATTTTGAGCTTACAGGGTTTTATCAGGATCAGACTAAGTAAAAA
TGTATAATTATTTTATAAATAAAAATGTTTTGGGGTTTCAGATTTAAAAATCAAGAGTAASAAGTTTTACAATATTTACTAAAGATTACGATTAGTATAC
CACAAAACATCTGAACTTTAGATATTATTTATRTGACCTTAAAAGTCAGACCTTTCCCTGCCAATGACTTAACTTCTGTCTTTAGTGCTATTTTGTTTGA
AGGCTTATTTATCTGCTATGAAGTGATTTTTCTACGACTTTCTACATGTCTCTTCACATTGGGTTAGGAAATCTTCAAGGAAATTAATATCCTCGGGTAT
ACACAACCTTTTGCTGTGGTATTTGCTCTGACATGGAACAAAGGCAAAAGATACGGGAAAATGTAGAAGTGGGCATTATAGAAGAATCCAAATGTGTCTA
ATGTCTTCTTCATACTAATTCCTTCTAGCCTTTATTTAAAAAATAGCTTCTGAATTGCAAGGATATTTTTAAGCCACATGAATCAGTATGCCCCTTCAGC
TGGACTTTTCAAGGAGCCTGTGAATGCTGAAATGATTAACATTATGTGAAGCTAAATTGCACTGAACCGTGGAACCATGTGGTGTGGCAATAGTGGGTGG
GGAGACATATTAGTCTAGAGGTCCCTGCTGAGCAAAAGACAAAGACCTCCTTCTCCATTGTCCCGCACTGATGGTGGGCTTGGGATGTATTTTCAGAAAT
AATTATTTGCAGGGAACTTAYAAAAACAAATGAATCACCCTCATCACTGTGCTTGTTCCGTTTTGGGATGTTTGTCTACTAGACTTTCTAAATTGGGAGA
TTTAGAAATTCAGTAAGAAAGATATTTAAAAAAATTTTTTGAGGTCCTCAGTGTCTTCTGCAAGTACACTTTCAATTTTTATTACAGACAGACTCTCTTG
ATGCTGTTGTTTACCATTGCATTTTTATTTAACTTGAATATTTTAATTTAGCATGAGTCATTCCCATGGATTAGCAACTTTGTATGCTAGCATATCTAGT
TGTATCTTCTGTGTGTTTTCAATGGTGTGTCTGCTACTCCAAAGATCTTCCTGAATTTTACATATTAGAAGTGGCATAGCCTCATGACACTTTATATCAA
GCAGGAAGTTCTGGAAGATGATGCTAACAAATACCTCAAATCTGGAAATTGTAGGCTTTAGAAAAATAAAGTCATCTTGTTAGTGAATCTCTATATTAGA
CTTTCTAATACCTTATAAACAGGTTTTCAGAAATTAATTATATTTATAGCCTCGAGAAACTAGGGAAAAAGCTGGATCTCAAAGACATTATTACAAAGCA
GTAGTAAATTATAAACAATATATTTTGAATTCATAATTAAAATTAACGAGTCAATTTTCTGAGGCATTGACCTATTAAAGATTTATGAGTTACCTAAAAY
CCCAAATCTTCCCTGAGGTAATAGCTTCAGTTGAGATAAAGGGAAGGTATCTTATTTGTCGCTTCACTGCAGGAAAAAATAAAATTTGTGATTATGACTC
ATTATCATGATGCCTATTGCAAAATTACAGCTCACTCTTAAAATTATGTGAAAAAAGATCATTAAATGTTTTAGACATTTCTTAAAACTTATAAGCAAAA
CTTTCAAGTTTTTTAAACTGATTTACTGGTTGTATATGTAGCTAATTGACTATGAAAACTTGAAGCTTAACTCTTTGTAGACCTTCCATCATACCATTGC
TTTATAAATTATTACCAGAATATTGAAGGAAATAAACTTTTTTCTAACCATATTTATGCAATCAATATTTATTAGGTAGTTTTTGAGAAAATCTTATATG
AGAACTTATTCCTTGTATACMAAATGTTTCATGGAACACCACCAGCATAGACATTTTTGTTTACTCTGTGCAACTGGATTTCGTTCTGGGGAGCTTCAAT
TTGTACATGAGCTCATTTTCACAAACCATCTTACCGATACTTAGAGTCCAAAGTGAAATTCAGGAACTATGGCCCAGCAAGCTTTCATGTGCTATTCTTT
GCTTCATGACTTTGGAAATCTATGGGAGACCCTGTATCACTAGACAGAATACTGAAAAGCAGGATTACATATGAAGTTTACCATCTGATTTTTTTCCTAA
GGGTTTTTACATGAACGTTTATTCCTTGTCTTTTTGTGTGGATTCAGCAATCTCCAGGTTTACTGAACAGGGGTTGTGAAGGGCAGTTGTTCACAACTGA
GCTCATTCCCACTGTGTTGATATACTCCGGTTCCCCCACATAGCTCCACCCCGCTAACTCCCAACCTCATGCATAGCTCCACCACACTATTGGGCTTGAA
TCTAGGCTCTGCCACTTTCTAGCTGGTTCCTGAGCAAGTTCTTTAACCTCTCTGAGCCTGTTTCCTCATCCACAAAAAGGATGAAGAACAAAAAGGACGA
GGCAATACCTTCTTAACACTGATAATTAAATAAGATAAGCTTAAATTATAAAATCAGCACAGAGGGAATGTAAATTGGTTCAACCRTTATGGAAGGAAAA
AAGTAGGAAGGTTCCTCAAAAAATTCAAAATGGGACTGCGAGGCCGGGTGTGGTGGCTCAAGCCTGTAATCTCAGCACTTTGGGAGGCTGAGGCAGGCAG
AGCATTTTGAGGTCAGGAGTTCGAGAGCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAAACATCCAAAAATTAGCCAGGCATAGTGGTGCAC
GTCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGAAGAATTGTGTGAACCGGGCAGGCAGAGGTTGCAGTGAACTGAGATGGTGCCACTGCACTTCAGC
CTGAGCGATAGAGTAAGACTCTGTCTCAAAAAAAAAAAAAAAGGAACTACCATATGATCCAGCCTTCTCACACATATATATATGTGTGTGAGATATATAT
ATATATATATTCAAAGCAATTGAAATCAGGATCTCAAAGAGATATCTGCATTTCCGTATTCATTTTAGCATTATTCACAATAGTCAAGATATGGAAGCAA
CCTAAATATCTGTTGACAGATGAATAAATAAGGAAAATGTGGTATATACATACAATAGGATATTACTTAGCCTTAGAAAAAGAAGGAAATCCTGCCATTT
CAGGCAATGTGGACAACATGAAGGACATTATGTTAAGTGAAGTAAGCCAGGAGTGGAAGGACAAATATTACATGATATCATTTATATAAGGAAACTAAAA
TAGTCAAAACTCAGAAACATGAGAGTAGAATGGTAGTTACCAGGGTCTGGGTTGGAGGGGGAAACAGGAAAGTATTAGTGAAAGGATAAAAAGTTTTATT
TATACAAGATGAATTAAGTCCTCGAGATCTACTGTACCGCATAGTGCCTAGACTTAACATTACTGTATCGTATGCTTGAAATTTTCCTAACAAAGTCAAT
CTTACAAATGTTCTTATCACAAAATAATAATAATAAAGAGAGTGAGAGAAAACTTTTGGAGGTTATTGATATATATGTGGCAGAGACGGTGGTGATGGTT
TCGCTGGTGCATACTTATCTCCAAACTCATTAGGTTGTATACATCAAATACGTAAGGCTTTTTGTATGTCAATCAACCTCAACATGTTTTTTTTAAAGCA
GTATAGAAATACCTATTTTTTAAAATTATTACAACTGAAAGCCTTCTAACTTGTGGTGTTTTCTTGAAATAATAATCGTATCTTGGTTAATAGTTGAGAT
CTAAAAGCTTAGGCCTAAATTCAGATAGAAAGCTTGGCACATCTGTTGTAAGTTTTGAAACCAGGTGCACAGACCATCTTTGTTCCAGACGATCTTCTCA
GGGATGTTTGTAAAGTGAACAGCCTTGGAAGGTAGAGATGATGTCCCCCTGGGAAGCAAAGGGTAGGTTTACTCATAGCTTGGGAAGAGAGAGATGGTGT
CTCCCTCCAGATGAGGGGAATATATTTACCACCCATAAGAAAAGATTTGAACCCATTAAGCTGAGGGTTCCTCTTCTGTAACACCACCCACTGTGAGTGG
AGGCATCAGCTGGCCTGCTTTCTATCTCTCTGCAGGAAGTAGAGCCCAGGCAACTGGCACCAAATATGCCAAAGCTTATGCTGCTTCCTGGGCTGTGAGT
AATAAAGTCCCTTTTCCCTCTTTTAGAAGTCTCATATGTTCTGTCAGCAGCCACCAAGCTGTGTCAGGCTAAATTGCTGTCTTGCAAGTAGAATAAAATC
CCAGACCCTTTGCAATCTTTTTCATAAAAAAAATTTTAAATACCATATATTTACCGCATACAGTTCAGAATTATTTATTAATAGTATATTCACAGAGTTG
TGCAACCACCACCACAATCCAATTTTAGATCATTTCAACAACTCAAAAAGAAACCTTGTACACGTTAAGTGTCATTCCTGTACCCACTCCCTGAAAATCT
GCTTGCTCTAGCTGTGTTGGATTGATGTCAGAACACAGGAGGGAAGGGCAAATGCAAGGGAGCAGGTAAGAGGCTTTCACAGCAACTCGGGACAAATGAT
AGTGGCTTGGAGCAGGGTAGCAGCATGAAAGTAGTGAGAAGTGGCGGAATAGAAGATACATTTTCAAAGTGGAACCAATAGTATTTCCTGACCAATTGGC
TCTGCCAAGAGGATGTGCTGATCAATTTTCCGTGAGGTGTGAGAATGAGATGGCTGAGGGATGAGTCCATGGTTTTGGCATGAGCAAAGGGAAGGATTGA
GTTGCTTTGAAATGAGTTGGGGAAGACTGTGGGCATAGCAGGTTTTGACAGAGAAGAATAGGAGTTCAGCATTGCATATGTTAACTGAAAATGTCTATTA
GACATTTTGGTGAAGCTGAATAGATAGTGTATAGTATTCTGGAATTCAGATGAGAAATGCTGCTTAAAGATACGAATTAGAGAATTTAAAATCATGAGAC
TGCATAATATCACCCAGGAAGTACAAGAAGACCTAGAAAAGTAACAGTCTGAGAACTGAGCTCTAAGGAACATCTACCTTTAGAGGTCAGAGAGATGAAG
TAGAGCTTGTAAAACCAAGGAGCAAGCACACACAGTTTTGGACACAGAGATTTCCCATAAGAGCATTGCAAACGTTACATATTCTCTTTGTTGGATGTGA
AAATAATCTTTTGGGAAATGTGTGCTTAGACCTTGATGTGATGCATAGGGACAAATTTCTAATTCTATTTGCTTCCTAAGAAAATGAAATGTTACTAAAT
AAACAGCGTCAGGGCAAGGAGTCCAGGTCCATAAAGAAAAACTTGCACAGCATGGTGAATAAAATTAATAATGGTGTATTGCAGATTTTAAAATTGCTAA
AAGAGTAAATTTCAAATGCTCTCATCATAAAAAATATTAGTATTTGAGGGAATGGGTATGTTACTAGCTTAATTGAATTATTCCACATTGCATTCATATA
TTATAACATCACTTTGTACCCCATAAATTTACATAATTAGAAATTGTCAATTTACAATAAAAAATAAAAAGCCATCAAAAAACGCCAGGCAAAAATATGT
GATATACTTATACCCATATTTAAACCTACACCATAAATTATATTTAAATTTATAATTCTGCCTGCTGCTGTTTTCAGTAATTAATATCATTAAGAAAGCA
CAGGTTAAATCAAATTTCAACACAGTATCATTTCAGTATAAAATCTCATATTTTGAATAAAACAAACATATCTTTACACATTATTAAATGAACTACGCTG
ACAAATTTTGTTTCTTYTTTTGAGAACCAGAAAAACAATTATACTTAGATGGGCCATCTAAAATGTCCTTCCAGCTTGTGGAGTAGGTTGTGTTTGTTTT
TCAATGAACATCTGTTTGACAAATTGAAATGCTARTTATGATTTATCATTTCCATGACATCAAATATCCAGATAGTAATAAACGTTGATGACTAACTATA
TTTTTCAGTTTCASCCAGATGTTTGGCATCACGTAAGATACCACCTTAGTTTTACATAAAAATAAAATGTTTCTTGAGTCTGGCTTATCATAATGGGGAG
GAAACTAATATGAATGAAGCAGAATGGTTCATTTTTTTTCTCAATGTGTACAATTCTACTGGTAAGACTTTTACAATATCATAAATAAAATTGTACTTTA
AAATAAGTGTCTTTCAAACTTTTACAAATACAAAGAAAGCCAGAATCAAAACCCAATTTTGAATATCAAGTGTTAAATATGAATATCAGAAACTGAATAT
ATCATCAATACAAATTTTAAAAAAAATAAGTTTGTAAATTCAGAGTTTATCCCTCAGATGTTATTTCAAGCATATATCATAGTGACATATCCTTGAATAT
ATATTTAAGATCCGATAGGGACTGGGCACAGTTGCTCACACCAGCATTTTGGGAGGCTGAGGCAGATGGATTGCTTGAGCTCAGGAGTTTGAGACCAGAA
TGGGCAACATGGTGAAACGCCACCAGAAAAAATGCAAAATTAGCAAAGTGCGGTGGTGTGCACCTGTAGTCCCAGCGACTTCGGAGGTTGAGCTGGGAGG
ATTGCTTGAGCCTGGTAGGCAGAGGTTGCAGTAAGCTGAGACTGTGCTACTGCACTTCAGCCTGGATGACACAGGCAGACCCTGTCTCAAAAGAAAAAAA
GAAAAATCTGATATGATAATTTAGAATATGGGTCCTCAGGGCCATAAAACAGCATATGCTAGTTTGTTGGCTTTTACTCACCATGCTGTGCACTAAAAGT
AAAAAAATATAAAGTAAAGCCCATTCTTTTAACTGAGATTTTGTGCCCTTTGACATAATCTCTCCATTCCCACAGCCCTCAGCCTCTGTAACTTCTATTT
CACTCACTCCTTCTAAGAATTTGATTGTTTTACATTTCACATGCAAGGGAGAACATGTAATCTTTCCAAATGACAGAATTTTCTTTTTTAAAGCTAAATA
GTATTTCATCGTGTATGTGTACGACGTTTTCTTTATCCATTCATCTGTTGATGGACAGGTTGATTTCAAAATGTGGCTAATGTGAAGTGCTGCAGTGAAC
ATGGGAGTGCAGATATCTTTTCGGCAAAACTGATTTCACATCTTTTGGGTAAATACCTGGAAGTGAGATTGCTAGATCGCATCGTGATTCTACTTTTAGT
TGTTTTGGAAAACTCCATGTAGTTTTCCATAATGGCTGTACTAATTTACATTCCCACCAACAGTGTACAAGGATTCTGTTTTTTCCATATTCTCGCCAAC
ATTTGTTATCTTCTTTTTGATATTACCTATTCTGACAGGTGTGAGATGATATCTCATTGTAATTTTAATTTGCATTTCCCTAATGATTAGTGATTTTTTC
ATTTATCTCTTGGCCATTTGTTAGTCTTCTTTTGAGCAATGTCTATTCAGCTTCCTTGCTCATTTTTAATTTTTTTTTCTTCCTCTTAAGTTGATGGAAC
TCTTTATATATTTGTGGATATTAACTTTTTATTGAATATATGGCTTACAAATATTTTCTCCACATTCATAGTTTGTCTCTTCACATTGTTGCTTCCTTTG
TTGTGCAGAAGCTTTTTAGTTTGATATGACCCAATTTGTTTGTTTTTACTTTTGTGGCCTATACTTTGGGGGTCAAATTCAAAACATTATTACCCAGATC
AATGTCATATACTTTCTCCCCTGTGTTTTCTTCTAGCAATTTGGAGTTGCTGGCCTTATACTTAAGGCTTTAATTCATTTCGAATTGAGTTTTGTATATG
ATGTGAAATAAGGGGCCAATTTTATTCTTCTGCATGTGGATACCTAGTTTCCCCAACACCATTCATTGAACAGACTATCCTTTTCTCATTGTGTATTCTT
AGCATCTTTGTCAAAAATAAATTGGTTGTACATGCATAAGTTGATTTCTGGGCTATTATGCTGCATTGACCTATATTTCTTTTTTGCCAGTACCATGCTA
TTTTAATTAATACTACAATAGCTTTGTAGTATTGTTTGAAGTCAAGTAGTGTGATATCTTTATTTTTGTTTTGTTTGCTCATGATGATTTTGACTGTTCT
TGGTTTGTTGTGGTTCCGTGCGATTTTAAAATTGTTTTTTCTATATCTGAAAAATGACATCAAAATCTTGATAGTGGTTGCACTGAAATCTGTAGATTGC
TTTGGGTATTATGAACATTTTAACAATATTAAATTCTTCCAATCCATGAACACAGGATATCTTTCCATTTATTCATGCCTTCTTCAATTTCTTTCATCAA
CATTTTACAGTTTGCAGTGTATGCAGATCTTTTCAACTCCTTGGTTAAATTTATTCCTAAGCATTTAATCTTTTTTATAGCTATTGTAAATGGGATTTTT
TAACTCCAAGTATATTTCATAGATGGCATTGATACAGTAAAATCCTTTATTCTGTAAATGGCATTTATATAGTAAAATCTTTTCCATGGTGAATGATTAT
TAGTCTTAAGTGAAATACAAAGATTTGATTTTATAAGTGAAATATTTCTTAAGTAAACTATCCTTGGCTGCCAGTTTCTTTCTTAAAAGTTTAATATTTC
CCAGCAACTTCCTGTGGTTGACTCTTAAGGATACTGAAGCTGAAAGGAGCCCAGCAATTCTGGGTGATGGAGGAAATACGTGGCCAGGCTCTGCTGTCCG
TATCTTCCTCAATTTTCAACTTGAATTTTATACTTCTACTCTGACCTTTAATTTTTGTGATCTAATTTCCTTTTCCCCAATAATATTTGTTTTTGAACTA
GTCTTCCTCATGCCATTTAAAGAAAAATTTCAGGAATAAGGAAAAACACAGGAGTATTAAAATGGAGAAACATCAATATTGTTATAAACAGAGCACCCCA
AAATAATTATTTTGAAAGAGATGCACTCATTTGAATTTATAAACTCTGGAATGCTTATTTTAAAATTAACTAATGTGTTAACCTACATACAAATTTGTAT
TTTTACTTGAAGGAAAAGCAGCATTGCTGGTAGTGCACATGTGCTTCTGTACATACAGATTGTACACATTGAGGATGATGTTTATGCCATAAGAGAATCA
TTTCCTCTCTTTTTATCAGGGCCATTACATCATTTCTCAAATAGACCACTGTTAGGAAGTAGGGATATATAAGTATAAGGGAGGAGACTCAAGTAAAACC
AGAGTGGTGCATATCCTACAAATTGAGAATAAGGCATATTTTATCTTTTAAAATAACATATTTTGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCA
CTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAG
CCAGGCGTAGTGGCGGGCRCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATC
CCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGATTCCGTCTCAAAAAAAAAAAAAAAAAAAATAACATATTTTAGAGACTCAGTAAAATAATTTTAA
AGGGGCAGAAGTACAGATGTAGCTGTTAGGAGGAAGCATTATTTCAGCTACAGCACATTATTGGAGGATAGGAAGAGCATATGGTATTCCAGTGAAAGAG
CTTAATTATAATAGAGCAGAAAGGATTAGAAACAGAAAAGAAGGTGGATTATCAGGAATAAAGTCAAAGAAGGGACTGAATATTGATCAGATTTTCAGAA
AAACCTGCAAACAAACCCCACCACATACTAGCACTAGTCATAGGACTGAGATTTGTCAAAGCTAGCTCTCTTCTGGTGCACTCTGGTTCACTGTGAATAT
AAGTGGGCCATAGAGTGTGACCATTGTGGTCTCTGGCCCTAGGCCATGGAGTGAGATAATTGAGACAAGAGAAGTCTGTATATCATCTCTCCACATAAGC
AATAGAGCTGATTGGGCTGCCTGTAAACAAGATTTTAGAGACTCACTTTTCTTTTTCTTAAAAGACTGCCACACTTAGCCATCTGATATGGAATGGCATC
TCCTCTTAATGAGCCTGTGTCTTTATTTGCACCTTATCAAACTGGGAGATACTGAAGATGGCAGTGATGCTGATAGTGGTGAGACATGGAAGATGTAGAG
GAAACCTACAAAGAAGCCTGAGATAGGAGAGAAAGGGTAATTTTTAGAAGTAGATTGGGAGAACTGCATTCTGGGCAATAAATATTCACTGGACTTACAG
CGTATTCCTTTTTTTAAGGAACCAAGTTCACAGTTGTTAGAACTACAAGAGCACAACATTACATAATCATGACATCAAATAAGCATAAAAATAATGCTTA
TTTTTAATTTTTACAGGTGCCATTTTATAAACTATCTCTATAAAGAGATTAATGTTAGCTTCTTGTTTTGGAAATAAGATAATGGGAGGGAAGGATAAAT
GAAACAGTTTTGTTGCCATCTCTCATTGTGAGCCAGTTTAGAAATGAAAACAAACAAACAAAACAACTCTTAAGCCCAACAGCAACATTCATTATAATTT
TCCTAATTACACTCCCTTTTCTTTTTGCTAAGAAAGAACGGTTGTATTTTTGTCCTTAATAGAAAAGGGAACAGTGCCTAAACAACCTATTATAAATTCT
TCTGGGAAAGCATATTACAAATAATTGAAAACAACCCTGATTCTGTGAACTTGGCAGCAAATGTATAAAAGAAAGCAATTCAGCCCTGGCCCCTGGATGA
TTGATTAAATGTTTTATTCTTTTTACCTTTCATTCATGCTGTGTTTGTCAAGAGGAAAGAGAAAAGGAATGTTGTGAAATGAAGTCCACTTTAGACAAAT
AACTTACAATAATGATCAGTGACTTCTCATCAGCTGTTTATTCATTTTTCTTGAGTTGTAATATTTCTTAATATTAGCTATCCTGCATGGACCCGACAGA
AAATAAGGTCCTGAGTTTTAGCTTGTCCCCAACTCCCTGCCAGCTAACCATCAACACAAGCTGTATCTGAGCTTCTTTGAGGGCATGGCCCTGCAGCTCC
CTGTGGTCAGTTATTAGTCTGAGTCCAGCAAAGGAACAAGAACACTGTGTGCTTGCTAAATCTACAGAAAACTTCATCTTCTGGTTGTGTGGGAGGAGAG
GTCCCTTTGTGTACTCTGTTTCTTTGAAGGAACTAGGGATCTGTTGGTGCTGTACAGATGTCGAGGTGCACAGAGCCAACATCCTACAAAACTAGTAAAT
AGATGATTAGGATCCAACTCTGTACAGAATAATGGTAGGAACCTAAACCTTGGGGTACTGTTTACTTGTATCAAAATTGTTGTTGTCCTATAAGCCATGT
AAAATTAACTACAAATCTCCTCAATGAAACACTTTCTTAGAACTTTGATATTTTTAAATGATATCTCACCATCTGTGTACATCACAATGTTGAGCTACAA
ATGTGGTGGCTCTAACAAAATTTTAAGTATGAAGTCAGATGTATAGWGGATCCCTTCTCCATCACGTTCTTCTGTTTTTCATTTCCCGCTTCTCACAAAC
TACTCCCCAGATGTCAATAATTCTACAATCTCCTCTTCCTACAACCTTCGTGTTGGTCCTTAGTCGTCTACTCTGATCTCAACCGCAAAAGTCAGGGGAT
GAGACTATAGGCCATCCCCAGAGCAACAGCCTCAGCACCTCAGCACAGATCTGGAGGGGATTTGAGCTAGAAAGAACTCTGACCTTACTCTTTTTTTTTT
TTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAAGCTCCACCTCCCGGGTTCATGCCATTCTCCC
ACCTCAGCCTCCTGAGTAGCTAGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTARAGACGGGGTTTCACTGTGTTAGCCAG
GATGGTCTCGATCTCCTGACCTCGTGATCGGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCAGCCTCTGACCTTACTCT
TAATTGCTTGCATGAAAATTGGATATGGATAAGAATGCAAACCCAAGAACATGTCCTGCTTTCCTTGATGCACATTCTCCTATTGATGTTCAGTGACCTT
AGCATTTCCAGAAGCACCTCTTTATTGTGGATGGAAACTTACTTATTCATGTTGTCTCAGGCTGTCCAGGTTGGTAACAGGTAACTGCTATAAAGGGTGG
AGCACATCCTGCTAAATGGAGAGATCCAGTGTCATTTACATTTTTTTTAACTCTTTCAAGGGTAATGGCAACTAACAATAGTTTCTCCTGTGTGCTAGAT
ATTGTTCTAATCATTTTACATAAATTATTTCTTTTAATCCACCAAACAGCACTATAAGATAGATATTATTTTTATTTACCTTTGTTAGAGAAAACTGAGG
TATAGAGAGATTAAGTAAATTGTCTAAATTCACACAGATAGTAAGTGGAGGAGCCAGAATTTGAACACAAGCAATTTGTCTCCAACAAATTTGATCTTAA
ACTATGGTTAACTCTCTGAACACACACACAAACACACATACGTACATGCAATCACACAAAGTATCAGGCACATGGGGATAGACAATATTAGAAAAGCATA
TACATACAAACATCCTTACAGTTGTACACATAGACTCAGGTTTATAAACCCACTGAAGTGAAGACTCATCATTTATGAAAATATACAATTTTGTTCTGCA
AAATAATTTAATTTTTTAAAATTCCTTGTGCAATGAGAAAAGATCAGAGAGGCCTACAGTTTSCTTTTACAGAGCTAGGCCAGGGGCTGTATTTAGAGTA
ATTGAACACATGATTTTACTTGAATGCGGAGAAACTTGACCAACTGTGAATATGCAATTTCACTCTACAGATGAAATAAAATTAAAYGGGGCAAAAGTAA
AGAAGAATGGAGACTAGGTAAAGTGATGGAAAGAGACACCAAAAAATTAGTCATGTGAAAGCAAAACTAAGAGGAGAGGGAAAGGTGGCAAAAGAAGGGA
ACATTCAGAGAATGTTGATATATTGAGAGGTGAGAATAGGGAGTTGGTAGGCAAGTGTCAGAGTGTGGGAGGATGGTGACAGTCACTAGGAACTCCAGTT
TGCATACACACAATGTTAAGAACATTAGAAATTAGCTAGCCAATGGAATGCTCAGTCTTGAAGAGCTTGTGTCTCTGCTTAAACTCCTGTATGCATTAGT
ATGATTCCATAAATTTAAAGTCTCTGACATCTTGAGTTTTAAGCTTTCTGAACATTAAATCAGTGGAGGCTGCTAGTAGCTATCCTGAAATGCTGCTTCT
ATACATATGAGTAAAAATCCAAATTAATGTATTTATACAGCTTTTCATTTGTGTACTCGTAAAATACACACACACACAGAGACAATTCAACACACACACA
CACACGCGCACACACAATTCAACTTTTCTCTGAAGAACCTTTGAGTCAGAGAATGAGAATGAAGGAGACTGAATTTCTCTTTTAAGTTCCTGTCTAGGTT
TTGTTCCAATCTAATGACACAGGATCTGGCACTGTATTTAGACCTCCTGCTCCAAGATTTTATTTTTATTTTAAACAAGTGTTCCCACACGGGGACTGAA
AACAAAACAGGAAAATGTTGCTTAAGTTTTCCTTTGAGCTGCTGTTATCTGACTTTCAAGTGTACTGATTGTTCCGTCTCACCAATGTAGGTCATTGTAC
TCTCAGTTACTTTGTTTTCTATCGGAACTTTCTCTAGCAGCTCTCCACATTAAGGGAGATCATGTTATTTCACATATTTATTTTTGTTATTAACATATTT
TCTTCATCTCCCTATAATTTGAGGTTTTAGCACTTTCTTCTTTGTAGAATTTACCATAAAGCATACGTATTTTTGAAAACTAGGGAATAGCTTTTACTTA
CTAAAGTACTTAAGTACTAAACCTATCATAACCAATTTCATTTATTAAGATGTTAGTAAGACTTTAGGAGTTGTTGGTTCTTTTCCGGAGAATAATGCTT
TAGCCCAGCAGTCCCCAACCTTTTTGGTACCAGGGATTGGTTTTGTGGAAGACAGTTTTTCCATGGAATTGACAGGGGGGATGGGGAGTGGGGATGGGTT
TCCAGATGAAACTGTTTTACCTCATATCATCAAGCATTAGTTAGAGTCTCATAAGGAGCCTGCAAGCTAGGTCCCTCACATGCACAGTTTACAATAGGGC
TTGTGCTCCTTTGAGAACCTAATGCCACAGCTGCTGATCTGACAGGAGGTGGAGCTCAGACACCTCCTTCTGTGCAGCCTGGTTCCTAACAGGCCACAGA
TAGTACTGGTCCATGGCCCAGCAGTTGGGGACCCCTGCTTTAGCCCTCAACTCTTAGGCATGTTTCAGTTCTGATTTTGGTCAGCATAGAGCTTTCCTTC
TATTTACCAGGAGGGTCTCTACTGATATGGATCAATGGCAGGAGGTGATATTGGGTCTGGAACTATCCTTTGGCTTAGTGACATTTGTACTCTAATCTGC
CTCACTCCTGCCCCTTCTCAGGGGACCTGGGCACCGTCGGATCCCATGACAGGTCCTACATGGTGACCTAGGGCACGGTAAAAAGTCTACCCCAGGAAGC
CTAGAATGGATAGAATACAAATTCATCCAACACAAATTCATGAAGAAAAGCCAAGATCTGCAGAAAATCAAACAGTAAAGACTATTCCAGAAGAGCAACA
GGAGGACGATAAAGAGGAGATGGAGTTAAAATACTGGGTCTGTCATAGACAGGATTGGAATGGAATCCCAAATCAGATGATAGAATGAAGGGAAGGTACA
TGGAATAGACTCTCACTAGTGGTGAGCTTTCGGTCACTACAAGTCTTCAAAAGGGGCCTAGATGACCAGTTCTTTTTCATCCAACAAATGCTTATTGAAC
CCTTCCTCTGTGGGTAGTGATGGGCACATTCAGTGAATTCAGACTGGAATCGAACACATTGTAACCATTAAATGAGTTAATCTTATATGAGTTCATACAT
ACAGATCACATGCAAGAGTGTCTCATATCCAGTAAGTTTGCAAGAATAACTACTATTGTTTTTGTGTACAAGATCTTGTGTATTGTAATTTCTGAAATAG
CAATGAGGTTGGAATACATGACTAATGATTTTATCCTCTTATGATATCTCTGGTTGGGGCACACCCAAAACAAAATTTGGAGCAATGCAAATGTTCGAGG
AGAGTGAGAGAACTTCCTTCTGGTGTTTTTCTCTAATGACTTGCTCTGAAGCTACTCCTCTTAGATTCTTTCCTAGCTGTGTATTCCTATATAGTCTTAG
CTTAACAGCACAAAGATTTAACAGTGGTGTCTGCATTTGATAAAATGTAAATGAGAAGCTCCCAAAAGAGATTGAGAAGCTCTATTTTGACAACTCTTCT
TTTATCTGTGTWATTATTATATACTTTAACTGAAGAAAGAAAAACACAAAGATAAATACAATATTTCAACTTCGAGTACTTTTTAAAAATTATTTGAAAG
CATTTAAAAATAGATGTAAAATGAACTCCTGTATGTCAAATTCCTTTCAGAGAAAAAAAAAAGTGAGAGGGAAGGGGGAAATTTGCATTTAGTAATTTTT
TTTGTTTTTTTGAAAATTTCAGGCACTTAGTAATCACTGTTCCTTTTGTACGTCATGCCCAATGGGAACGATACCAGGATCTTTCACTCAATTCTGTGGA
TTACAGGTCACCCACCTGGGCATGTTTCAGATGAAACTAACCTAAGCTCATCTTGAGTAAGGGGCTTAGAAGTAAATGCTTTGTTGGTTGCTTTGAGTTG
TACAAAGCAGGACGACCACCAGAGGCTTTCTAAGAAAAAGAATCATAGAGACTTTGATAAAATTGGAACTCCTAAAGCAGCTAAGGCTTTGCTTCTATTT
TTGATCATTTTTAAAAAGTTAGTTCTTCTGGTGTTTGGTAGTTCCATAGTAGTTAGAAAGCACTGCCACATGAAATCTGCTATTGGTAGAAAAAGAAAAT
GTTACAGCCAACTCTGATACAACATGAGAGAGAGACAGAGAGAGAGAGAGAAGGGAGAGAAGAGACATGTTCTTCTTTGACCAGCAGGAAAAAAAAAAAA
GCTGCACAAACCTTTTAACTAGTTTCACTAGCAGAAAAGAAAAATAAAAATATAAAATAGCAAATAATCTTTAAAGAAAACTGATTTTCTTATTATGCTG
AAATTTATTAAAGACTRTTGTGTTGACTGAAGAATATGTTTAAATATTTTGTGGAAGGCAAAGCTTTCATTCAGGAATGACAAGTGCAAGGACTGTAATT
CTAAAGAAATTAAAGAAAAGAAGAATGGCAATTTAAGTTCAGGGACAATTGGAATCAAGCAGTAATGATTTACAGCTTTTTAAAATTTTCAGGCACTTAG
TGGTCAGTGTTCCTTTTATGCGTTATGACCAGTGGGAAGGATACCAGGATCTTCCATTCAGTTATTATGGGTTACAGGTCACCCATCCGTGACCTGTGGT
CACAGTGTTAGGTATCGAAAGCATAATACCTTCTTATCTAAGAAGGAAAGACCTGTTAAGTCTAAGCTTAGGGGTAGAGTTGTCAACGATACAGTCATAT
TTGTTGAACAGTTCAAGTTGCCATTTCTTGTATTCTTGGAAGAGGTAAGTTAAAGAAGGTTGTGCACAGTTCTTGACATTTTATTATTACAGCACTACCT
TTCAAGCCACTCAGTAGTCATCGGACATGTAAGAGTGGTTGTTCTATTTGGTCGTGTAAATTTCTAGTGACAGTAGGAAAAAAAAAAAAGACCTTTATTA
AAGACCTTCCAAACTAATTCAGTGCCCTACATGCTGCATGAAAATGAGGACTTTCCAGTTCTGAGTAGAAGGAATATTAAGGCACCTGAAGGGACAAATC
CATTTATAAAATTATTTTTCTTTTTGTGATAAAAATATAAATGGCTCTGCTAGTATACTAAAAAATATAAATGGCTCTACTAGTATATTTAATAATCCTT
CATTGATTTACCTAAACGTATGAAGATACCCATATAATATTTTTAAAAATAAGTTATTGTAGCTCTAAAATAATTTATTAGACTAGAATAAATAAATTTA
TACTAGAATTTATGATGAACAGTCAATAAATGGAATTAAAAATATAGGTAAAATACAGTTAAAATATATACAAATTTTAAGTGATACATGCAATGCACAA
ATTGTAAATGTTTGATTGAGGAAAGAGCTAATTCATTGGAAGCTCTAGTCCAGTCTATAGTATTTGGGGACTGCTATTGATATGTTCATTCAACAAATAA
TTACTGATAATATAGTATGTACTGAAATCATTATGCTAAACACTGAGGGTTTACAATAAATAAGAAAATGTATAACCTCATTGAACTTAAATCTAGTAGC
AGACACAAGCAAGTAAATTGGCAATAAAAATAGGGGGAGTCAAGGGAGTTTGGATAAATTATAGAAGAAGCTCCTAGACAGTCCATGGAGGTATTTGTGG
GAGGATGGAATTGGCAACACAGCTGAGATTTTAAAGATATATAAAGTACATCTGTGTAAATGGCAAGCAGTGAGAACACAGAAAAGGTGTTTGAGGAAAG
GGCCTAAAGATAAGATAGACCATGACACAGAAAGGAAAGTAAAAATGATTCAGTGACCATCTAGTAGATATCCAATACATATATTTGAGTGAATGAGTGA
TAGACTGACTATATGAATGGGAAATATTGAAATATAAAGAGGAAGGCCAGAGATAAAGCTCTGAAAGGTAAGCATATATTTTAAGACTTCAGAGTACCTA
ATTTTCTGAATATGCAAATGAGCAGTATTAGAATTAATAAAAATAACCCTAAAAATGAGAACTCTTGGTTGGAGAAAATAACAAAATATGAAGTAAAGGA
AAATTGACAGAATACTTCAAAAACTGTGCCTGATATAATTGGAAATAATGCCTGGAAACAGATTGAGTCCATAATCCTGTATGTGTTCATTAAGGCCAGG
AAGATTCTTGGTAAGGAAATGTCTAGTCTGAAAGGTCTAAAGATTTTATTAATCTGTATAATAAATTATATCTTATGAAACTCTTGTCATTTATCCAGTA
TATTTGAATTACCCGTGCATTACTGTTTCATATATTCATGGTACTTTCATATTTTATAACATTTAAAAATATTTCAATATTCCATTGATTTGAATAAGAT
TYTTTAAATTACAGTGAAAGCTTTCTGATAAGGTATGGTAAGATTATTTTTCAGTAATTATGCTGATACATATAATAAAGCTACTGACAATTCATAAAGA
TGATAATACACTTAGTACAAACTGAGCTTCAATGGGATTACTARATGAGTATGTGAGGACAGAGCAGAGGAAAAGGCCAAGGGTTGAGCACTGTGGTGCT
CTATTATGAGAAAGTTAGGAAGGATTAAAGTTGGCASTGAAGGGGATTGAGAAGGAGTAGCTGAAGCGGTAGAAGGAAAACAAGAACAGTGTGTCCTGGA
AGTCAGTGGAGTAATCACTTGTCTCAAATGCTGCTAATAGGTCAAATATGGTGAGAACTGAGAACTGGACATTTCATTTAGTAATGTGAAGGACGTTGGT
GACTTTCCCAAGAGCAGTTTCAGTGGAATGGAGGAAGACCAATGGAATAATAGGAGCATTGTGGAGGAATAAACCAAAATGTACCTATTTACCATCCAGA
GCCAGACTCAGAGYCTTTACTCTGTGCTAGAAACACAATGACCAATTGTTGCATTGTTCCCTTTCCTTGAGCTTTCTACAGCTCACCTCGCTTCTTCAAA
CATGTACAATCAGACCTCTGAATCTGTGGATTCCACATCCATGGATTCAACTGACTGCAGAAGAAAAATGTTAGAAAAAAATCTGCATCTGTACCGAACA
TGTGCAGACTTTTTTCTTGTCATTATTCCCTAAATAATATGGTATAACAACTATTTACATAGCCTTTACATTGTATTGGGTATTTAAAGTAATGTAGATG
TGATTTAAATAATTTTGAAATATGTGTATAGGTTATATGCACATACTATGCCATTTCATTTCAAGGACTTGAGCATCCTCAGATTTTGATATCCACAGGA
GGTCCTGGAACCAATCCCCACAAATCCCCTGAAACTATAACTGATGAGGGGTGATGGTACTTCTTTTTTTACACAGTCAAAATAAAAGAGATTAGGCTTG
TTTTTGTTATTTCTCCCCAAATAATGCCATATTGAGCATGACTGGATTTAAGAGGTCCCCAGATGTCTCAGCCACTCATTTACATAAAAATTCTTTGTCC
ATATCTGTACATCCTTAATCTCAAGCTACACATATGGATTTACTGTTCTGTCTCCTGGTGTCAGCTTACTTTCAATTTGTTTTACCTGTTTCATTGGCAC
ACTTGTAGAGATTGATAATACAAAAATGTTTTAGGAGAGAGCATACCACACATCAAGTTGTCAACTTCATCCACTTCTGCTACTTATTTCAAAGTTTCTG
ATACTTATTCATGATCTTTCAGTAGCCTTCATTCTCCCATCCATCCATTCACTCAAGAAACTTGTATTGTTAGGGAATGTATTAGAATTATAGCTCTTCA
AGCTTTCCAAAACAAATGTAGCAACATAAATAGACAAGCATAATAATGGAAAATCGTCTATACGAGAAATCTAATTATTTTAGGCACAAATCATTTTTTA
AAATGTATTCTAAAATAAAAATGCCATTGAGGCACAGAGGTCTTACTAATCTGTAAAGCAAACATGATTTATATAGTATGCTTACATTAGTAAATCAGGA
TTATTTGGGTGAACAGAGTATAATATTGATATAGTTATTTGGTTATAAAAAGAGATGTTTCTGATAAGGTTTCCCCCCCTTTATTTGCCTTGGAAAACAA
ATTTCAAAGAAGAGTGTCATTTTAAACTCTAAAAAACCAGTTGATAACCATAGTCTGATATTTGCAGTTGGAATGAATTCCTGTGACAGCATGAACATAC
ACCCACCAACATGTCTGTAATAGAAACCACTTTGGAAGACACTAGAGGCTGCCACAGATTTCTCAGGTCCTCACAGCAAGACAGTGGTGGTCTTGGGGAT
GGATACATTTCATCTTCCTTGAAGACAGATACCACCCTCTGGCTGTCACCCCATAGGAAATCAGGAAGTATGCTAAGCTATCCAGTGGACTTGGAATTAC
ACTGTGCTGTGCTAGTGGAAATATCCTATCCAACATTATGATTTATTTTGAAGGAGAAAGGAAAAAAAAATACACACAAAACGGTGGAAGGAAGCTGCAC
ACAACATCGCCAAACAGCTGGCTTGTTTTATATCCCAGAAACAGCTTGGGACTAACTATATTCACAAGATCTCTTGGCAGAGTAGCTTGATGAAAATACC
AAAGCTGTGAGAAGTGTTCTTTTGCTGAATCCTTCATGTAGCTATCACACGGTTTATTAACCTAAATGAGAATATGTACACCTTTTTTCCAAAAAGGTCC
TTTGTATGTTTAAGTGAGAAACTTACTGATTCTTCATACGGCACAAACATGATTCACCACAGCATTCACACCAAATAAACTCTAATAATGTTCAGAAACT
ATAATCCTAGACATGTAGCGATTTCCTCCTTTCTTTCAAGTAGTATTTTTGGGGACAGTCAAGAGAGAATTTGATAGAAATGTAAGCCTGAGTTCAATGG
CACTGGTGACTTTTTTAGGTGCCAAGGTTAATCTCAGAGGGAAATTAGTTTTAATGGCTTCATCCATATATTTATCCATTCTTTTAACATTTAACTCTAA
CCTCCTTAAGCCAAAAATATAACTCAATTCTAAACACATTTCTGGCTCACCTGCTAGGTGCCAGAAATGCGGATCTTGAGGAATATACAAGATCTGCTTC
ACTCTTTTAGAATCCCTGCATTAGAGAGGATTCAGTATTTTCAGATTCATATTTTAGAAGACATTGCATTCTATTCCTTACTAAGCATCCCAGGTAGATT
CAATTAGGTGGAACATATTCATATTTTTATCATGAGGCATTTTGAGTCTATTCTTTGTGACACCAGAATTAGTTTCTCATCTCAGAGTTTGCTGTATTTG
TCTGGTGACTCAAGTAGTTTATTGGCAGTCAGTTTGTAAAAGGCTCCCTGGGATTATCTAAATGCAGGACGTTAGGAATGGAAATATGTATCATTGCCTC
TCCTGTCAAAAAATGTAATTAACACACATGATATATCATCTTACAAAGTGGATGAAAATTCCAGTGGGTGACCTTGAGTCACAGCTCCTCAGTGCACACA
CTGTCCTGTACCCAAGCATCTCCCAGATAGCACAGAACTCCCACTTCCTGCATCCCTGTACCTTTAGCACTGTGTGCATGTTTGTGTGTGTATGTGTGTG
TGAGTGTGAGTGTGTATGTGTATTTTCAGTTCAAAATCTACCACTCAATTTCACTTTCTTTAACAATTTTGGTTTGGTTCAATTTGTTGCATAGGTAATA
ATAATCCATTTACAGAATACAAAAATAGTGTAAGTATGTGCTTCTTCCTATCTGTATGTYGAGAGATTCCTCATTCTTTTTTATGGTTGCAGATAATTCA
TTATGCAGWTATACAATTTATTTAACCAGTCCCATATTGATGGATATTAGGTTATTTCCAGTCCTTTGATGTGACCAAAAAAGATTATAATAAAAAATGC
TGAAAGAATAATATTGTCTTTGTCAGTTTGGGCGGCCATAAGAAAGTTCCATAGACTAGGTGGGTTGTAAACAAGAGAAATTTATTTCCCCACAGTACTG
GAGGCTGAAAATCTGAGATCAGGGTGTCCGCATGGTTATGCTTTGGTGAGGACTGTTTCGGGGCTTGCAGACTGCTGACTTCTTGTAGCCTCACATGGTT
GAAAGAGAGCTAGCTAGCTCTCTGGCCTCTTTTTATTAGGTCACTAATCTCATTCAGGAGGGCTCCACCCTCAGGATCTAATTACCTACCAAACGCCTTG
CCCCCAAATATCATCACATTTGGGATTAGGGTTTCAACATATGAATTTTAGTAGGGGGGAGGCAAACATTCAGTCCATTAGCCATATTCAGTTCACCTGT
AATATAGTATCTGTATTATTTTATGTCTGTAGAATAATTCCTAGAAGTGGAATTGCTAGCTCAGAATTACTGTGTGTTTCTAATTTTGATAGTTACTGCT
CAATTGACTTTCTTGAAATTTGTATCATTTTACAGTTATACCTGTAAATGTAAGAGGTATGTATCTACTCTCTTAGTCTAACCATCAGAGAGTATTACCA
ATATTTGTGGGGTTTGCCAACCTGAAAAAATGGGAAGTTTATCAGTGTGTTTTTAATTAACATTTATCCTATTATGAGGGAGGATCAGTATCTTATAAAC
TTTTAACAGTCATTTTAATTTTCTTTTCTTTGAATAGGGCCCTCATATATTTGTGCATTTTGTTATGGTGTTGGTGCATTTCTTTATTGATTTACAAGAG
TTCTTTGAGTATTAGGAACATCCTTCCTTTATCCGTGCCAACAGTACCTTTTATTTTGTCACACAGTTTATTCTTCATCAGAATTCTTTGCTCTTGAGAA
GTCCCTGTGAGAGCCTGCCAGCCTTCTACACCTTTGGAGGGCAGTTTGTTGGCAATTTCTCAATTTTTCTTTCACATAGAAAATGATCTGACTGAATTTT
ATTTCTCTTGATGTCAACTGTGCTGAATTATTGTCTTAAAAAATTCACCATTCCATTCAGGTTTAACATATTTTTTAGAGTGTGATTTTCATAGGGTATG
TTACATTCTTGATGAATTTTTATCTTCTTGACCTATTAATTACTAAAAAAAAAAATACAGATAACGACAACCTAAAACAACCTATTGAAATATCTCACTG
TGATGATAGATTTGTCTAGTTTTCCTTGTAATTTTTGTTCTCCATATTTTAAGGCTATATAATGTGATGTTTTCAAGTACAGAATTATTTTAAGTTCCTA
ATGGGTTCCTTTTTTAATCTGATATTTTATAACTTTTTCCCCAAGTTTTCTGGTTTCCCACCATACCCCAGATTCTTAAGTAATTTAGGGCACAATAATT
TTCAGAGAAAGAATGATTAAGAATTTATGGAAATCTTAGGAAGGTCGAATTGACGCAGTGCCTTGGAAGAGAGAAATATAGGTAGTTGAAGTATAAGGAG
AAATGCCTATGATATAAACAAACAAATTGCATGTACATGTATTAAGAAGACTATAACATATATCAGTTACTTCACTAGATGCCAGTGCATAGGCATGTAC
CTGAATCTGCGTAACTAATTGGGAGAATGGGAAGTTAACTTTATTTTTCCAAGAAAAAGAAACAAAATCAATATTTAAATTTTGGAAAACATAATTRTTA
AATTATTTTTCATATTGTGTAGATTCACATCTCTTTAATCAATGGGAGACCAAGTGCCGATGATCCTTCTCCAGAACTGCTAGAATTTACCTCCGCTCGC
YATATTCGCCTGAGATTTCAGAGGATCCGCACACTGAATGCTGACTTGATGATGTTTGCTCACAAAGACCCAAGAGAAATTGACCCCATTGTCACCAGAA
GAGTAAGTTATGATGAATCATATTAGAGCCTACAAATGATATCCCACTTATCTTTTTGTCTGTTAAATACTTTAAAAATGTTTTCAGTGATTTGTAGGAG
TGGTTATTATCAAAYTTTTATTTTAGAATTGTAGATTATTATTATTATTATTATTTGAAATTTGACAGACTTTCCTTTGTTCAGATCCAAGCTGTGCCRC
TTATTAYATGTGTAACATTTATCAAACATTTTAGCCTTCTCAAACTTTAATTTCTTCTTTTGTAAAATGAGAATCACAATGTCTACTTAATAATCTTATT
TTTCAGAATAAAATTAGCCTTTGTCACCTTAGGGGATCTATACTACTATTATAATTGGCTTTGGCGAGTTACTACTGGAAGTGCAGGGGCTTTGAAACAT
TTTTTTGCCACCACTGAGCCAGTATACACACATGCACACATACAGAGAGCAGTATGTCTTAAACCTTAATGTGTATGGGATTAGCCAGTGATCTTGTGGA
AATATAGGTTATGATTCAGTAGGGCAGAGCTGAGACGCTGCACTTCAAAAACTTTCCAGGTGATGCTGATGTTGCCGGTTTGTGGGCCATCAAATAATTT
GGTTTTATGCTTGATTAATGAATCACAAGCCATAGTTTTAAAAATGCAGTGCTATAGGAGAAAACTGATTCTACATACTGTTTTATTTTCCTTTACAAAT
AAAATATTAGGGGAAAAAGTTTAAAGCATCTTTTCAAAAGCTTTTTGAACACAAGAGCTAACAGAAGTGCTGTCTTCCAGTGTTAAACAGGAATTTGTGG
GATTACAAGATAGATGATCAACCCAGATTGCTATGAGTGATAACCGTGCTTCCTCCTGTCTACCTTCTMCCATATTCACTGGTTTATGGCACCTCCCACA
TATGCTGCTACACAACCAAGGCATTATTACCAGGGAAGTCAATTCAGCCATAACTCTATAAAGTAAACTCCTGTGAATAGAGTATCTACTGTATGACTAG
AGGTATAGCTAAGAAAAAAGACTATAGGGAGAAATTAATATTGTAGGACAAAGCATTTAATTCTAGAATGATCCYACTAAGGTAAGACCACYGTCATCGG
TTGCAAAATTGCTGAATCACTAGGGTTAATAGTTACAGATCCTAAATACTCCTCACATGTTTTCTTTCCTCGTTACTTAACTTCCCACACCCAACCTCTC
CATCATCACAAGATAACTTTTAAGGCTTTAGTTAGTCCCATGCAACATATGTCAGATGTTTTAGTGCCCTGTATTTTCCAAACTTGAAATAATTTCCCCT
TGTATTATACCTCAACATATTGTAAATTGTCTCATGCAAAACTAATCATTATTTTATAGCAATGTTTGGATTTTTCACTTGTTTAAGAAAACATTTTCAA
TTCTAATTTTGGCGGGACTTAAAAATATACACCAAGGAAGACTGGTGTGAAATTGGAGTGAAATTTAATCTTTCTTGACAGTATGTCTATCAGAGAAAAA
AAATCAATGAAAATAAATTAGTGTTCTTTCTATCATCTCTTGCAGGAGGTAGAGTGGGGGTTGGGGTACACATCTATTATTTATAACTTTATCGTACATG
AGTCTTTAAAATAATGCAGTATAAGTCAACATATAAATATGTTTTTTGAAAGTACTCAAGTTCAATAAACACTCATTTAAATATATAAAAATAAGATAGC
AAATTTCAGCTCTTCTTCATGACTCAAAAGCAAAGCATTATACATTTATATTTAAAATAGATTTCCCAGTTTTAAAAGCATTTACAAATACTACTGTATC
AGCTTTTTAAGCAAATATCTCTATTTGTGTCTATATTATTAAGTGATGAGGTTAAATGGAAAAAATATTTTTATACTATCCAAACTCCCTAGCCAGTTCC
ATTAGTTCAAGGTCTAGGTATATCAAATAAGATAACATAACAAAAATATTTTCAAAGACACTATATGTATGTAACAAAAACAAATAGAAGGAAAAAGAAA
CAAAGAAGTAAATTGGAAAAAGGGGATTCTTAGTCAAGGAACTCAGATATGTGTCCACCTACATATTCTAGCTAAATCTGTTTTTTTTGTGTGTGTGTAT
AATTGGAATAATAGAACTATCTAACGCTAAGATGATTATTTGAATATGATAATGTAAAGTGCTCTGACAATTATAAAATGTTATATACACATTAATTAAA
ATTTTAAAAATAGTCTAGCCTCCATAATTATCCTTAAAAAATAGCTGGGTAGATTAAAATAATTAGTAACATAGCTCTATGTTAACTTCATATACAAAGG
TAATTGTATGGACTATATTACATAGTAATATAAAAATGCAAATGTTCTGCACAATAAACTTACAGTTAATGACTTTTTAATTTTCTTCTTAATATGGTTA
AGGAATATATTGTTATGAGCACAATTTCTACCCAGATTTTGTTGGTTCTTTTCAAATCCATCAAGTAAAACAGTGTGCGTATGATTTGTGAATACTGCAG
TTGCTRTARTCACAATAAAAGAGGGTTTCTTGCAAGAAACTATGTAAAACAACTTTTATGAAGAATAGCTGTCCTTAGCCCCAGATAAAAACTACTGTCA
GCCACAGGTACTCTAGCATGGACTTGGTGCTGACTGGGAAAAAGATATTTCTAAAATGCCCAACTAGCTTAAATTAAAGGCCACTCTTCCTTTGGGCTAA
GATCACAGTGCTAAGAGTTACTTTGTCAGTTTTGTGAGTCCTCACTTGTCCTCAAGAAACACAAATGTCCTTCAAACTAAGGATAAAAGCAGAAAATAAA
GTTTTTACTGAATGTCCCCTTTTGTTACTTTGACCTTGCAGTCATCTTAACAGGATTTCTCTCTGGATTGCTTTTTGCAGTATTACTACTCGGTCAAGGA
TATTTCAGTTGGAGGGATGTGCATCTGCTATGGTCATGCCAGGGCTTGTCCACTTGATCCAGCGACAAATGTATGTATATTTATAGGATGCTTAGGCAAA
ATGAAGCCCTGAGCTGTAAAATGTTTCATGACAGTCTTTGCTGACAGAGAACGCTGTAAATGGGWGTCAGGTCCCCACTTAGACAGTGTAACAGAAATCC
ATGCCAGGGTGAAATAAGAGCTGGCAGTTAGGATGATAGACTTTGAAATCAGCCATCACAGTATAAGAAAACAGATTAGTTTTTCCTTTTTTTTTTTTTT
TTTCAAAAAGGCTCCAAACTGGTCTATTTTGAAATCTCTCTAGCTATGACAGCCTGCCTCATGATATAGCTTTAGAGAACGCCTGCCATCAATCAACCTG
ACCATTTCTTTTAAAGTTTCTAATCAAAAAATTAATGCAAATGAGTAAAAAAATGTGCAGGGAAGTAAATATATAAGTGACAATGGAACAGGAGGATAAA
ATAGGGCAGGGGCAATAAGGGGGTGGAGGGGGTGGAGTGGGTGAGAGAGTCAAGAGAGTACTGATAGTGGCAAGCCGGAAAATGCCAGAATGCTTTTTGA
TAGAATTTTTTCATTAATGACAATGAATTAAGTGAACATAACCTAAAGGAGAAGATGAATGAGCATCTATTTTTCCTGTCATAGACAAACTGGTGAAATT
CAAACTCATCTCCTGTATAGTATATGGAAAAATACATTGAATAGTAAGATCAGTGAATGTAAATCGGGCCACAGATTTTTTTTCTCAAATATTGTAATGC
AAATGACATTATACTCAAAGCTAGTTTTCTGATGATTGGATTATAATGTTATCTCCTAGGAAGATTAAAGTACACTAACATATTTTTATGGGCAAAGCTG
CAGTGCTGCTTTCTGCCTGGTATGGGTGCTTTCTTCTTTTTTTTGTTTTCCATTTTTTAAAATTTTACTTTAAATCCTGGATACTCGTGCACAACATGCA
GGTTTGTTACATAGGTAAATGTGTGTCATGGTCATTTGCTGCCCCTATCAACCCATCACCTAGGCATAATTTTCCACAGGCTTTACAGAGTCCCTTTGTC
TCACTGGCTTTCTGCATTTTAAAAATCCCTTTACTGTTATTTTATTTGGAGGAAGTGAAAAAATGCATATGCCACCATAGAATACTACGCTGCCATAAAA
AGGAATGAGATCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAACCATGGTCCTCAGGAAACTAACACAGGAACAGAAAACCAAACACTATATGTTCT
CACTCATAAATGAGAGCTAAACAATGAGAACACATGGACTCAAGGAGGGGAACAACACACACCAGGGCCTATCAGATGGAGGGAGGCAAAGGGAGGGAGA
ACATCAGGACAGACAGCTAATGCATGCAGGGTGCTTTCTATCAGGTGTACAGATGATCAGTGTTTCCCAGGCTTTAAAAGTCCACAAGACAGGCTTGGAA
GGCCAATTCCAGGTGGTAAATTGAGACTGTATTCAGAGCATGCACAGACAGGAGATTTAGTCCTAGAGACATTAGATTTCTGGTTTACCTGCACCCCTAG
AGGCCTAGGAATCAACTCCCTCCTTCTTGCCATATCCAAAAATATTAACAACATTTTGAGGGGAGCCTTAAAACAAGCTAATCGACCCCMAAAAAACACA
TAGATCCCAGGCATCAGAGAAGGAGAATTCAGTCTTCAAGACCACTCCCAGCTGGGCCTTCCTGCTTTCTTCTGAGCCTAAACCCAGTGATTAAAGAACC
AGCCTGGACTTCCTTAAGGTGATGTTGATCAAATATACCCACTTCAAGCCTGGCACCACTTTCTTCCCAGGCTGGCTAGTTTTACATTTTAGTACACAGT
CCAGATGTTTTCTCTTTTCTTCATAGTACCTTTAGAGAGAGGCTTCCTTTATGGTTCTAAATGAGGCTAAAATTTGTGCTTCCTCCCTCTTTTTGACTAG
AAATCTCGCTGTGAGTGTGAGCATAACACATGTGGCGATAGCTGTGATCAGTGCTGTCCAGGATTCCATCAGAAACCCTGGAGAGCTGGAACTTTTCTAA
CTAAAACTGAATGTGAAGGTATGTTCTTTAGAAGCCAACAAAATATGTCATTCTTCCTTTCCAAGAAAAAAAGCCAGTAATGAAAAATAGTGAAATGGCT
GGTTATGCAAATGTGTCAACAAATACTCATTTATATTATCACTTCGAAGACAACCCATATGTCTAGCTTTTCCTAAAGGGAAATATCTAAGAAATGTAGC
AGATGACTTTATAGCCTAATAGTGACAACTGGTCTTTTTAGGTGACAGGTATCATGGAGAAACCTGTGTTTCTGGAGATTTTCTCAACCCAAGAAAAGAC
CTAAAAATAGTCTTGGGCTGAACTGCAAACCTAAACTAGTATGAAGTCCAATTCAACTGAATGCAAATATTAATATTACAGTAAATCAGCCCTAACCACA
TTTTTTTCAGCTCACTAAGTATATATGGCCTTCAAAAACAGCTTGATAGACATTTTAAATTAATACCAACACTATATATCCTTTGAATAACAAATTAACT
CAACTCACATTTATCATGTACAATGTGTCAGACATGACAGGTCTTTAAAACTATTGAATCATAACACACCTTAATCACAAAATGTTCCCCACCTATAAGA
TATAAAGTCGGCCTTCCATATCCATGGTTTCTCCATCCATGGGTCTAACCAACTGCAGATCAAAAATGTTTGAAAAAAAGTTGCATCTGTACTGAACTTG
TAAAGACCTTTTTCTTATTATTATTTCCTAAGCAATATAACAACTATTTATATAGCATTTACATTTTGTTAGGTATTATAAGTAATCTAGAGATGATCTA
AAGTGTACAGGAGGATGTGCATAGGCTGTATGCAAGTACTATGCCACTGTATAACAGGAACTTGAGTATCCTTGAATCTTGGTGTTTGAGGGAGGTCCTG
GAACCATTCCCATGGATATTGAGGGATGGCTGTATTTTCTTTTTAGTTTGAGATTCTGCATATATGCTATTAGCTCTCCTTATTTTCTGCACTCACTTCA
TTTGCTTTTGGATTTGTGTCTGCCTGTTTATAAAGATATTATGGATTAGAAATCTCCCATTATTACAAAAGCATATCTGGAGGCATGAGCCACCATTGGA
TCATCACTCACCATGCATGGTAGGGGACCATTGGAAGCCCAGCCTTTTGTTTCCTTCAACTACTTCCAGCCATGTTCTGGCTAATCCCTTAGTTCTCCAC
AGCTTCTCCATAGAGAACAGACATTTGTTCTTAATAGTGACTTTAAATGTAATGCCACCCAGGGATGTTTGCTCTCGAGCTCCTTTAAATTTTAATTAAA
TTTCTCTTCTGTTTGTAGAATATCAGTAATCATAAGTGGGAGCAGCACTTGAAGGTAGGGGTCTTCCTGTTGCCACTGACATGCCTTCACACAGTGATAA
TTGTGTAATGTTAAGTGGCTCTGCAAAATCCTTTACCACTCTTTACTTGTGTTTCTACGTTTAAATACAAAACAAAAACAATCGAGCAACTTGTTAGCAA
TAGAGGTAGACTAAGCAAGGCAAGACATTTCAAACTGCTACTGTACACATTTTTAAAATAGTGGAATTGTGAAACACTTTTTTTCTTTCCCTGTAGGGAA
GAGGGGAGGTCGTATTTCCAAACTGAAAAACAAACATTTTAAAAACGCAGAAATTCAAGATGGGGATCTTAGCCATAAAGCCATACATAAAAATCACACT
TTCAGCAATGAGTACATTCCTGAAAGCTTAAGTAAAAATTTTCTTTTCCAAGTTGAATCATATTCCAATCACCTTAATATTTAGAAAAATCCTTCCATGA
CATGACAAATCCCTCCATAAAATGAATAATCACATTCTAATTCATTTGAGTTTAATTTGGATTTTCATCAATCTAGCTTACATAAGGCAAGATAATATCT
CTAAAAAGCATAGAATATTCATTCAGTTGCTGAGCCTTTACTAAACAACAGTTTCATATGATATATCTTGGACATTCTGTGAAATAGTAAGTTGCTGATG
ATAGAGAAAAAACATGGCTTTGTGATCAGTTACTAGCCRTATTCTTGAAGGTTACAGACAGAGCGGGGTAGGCTGCAGCCTRCAGACAGAAAGTGGGGCT
GTAGGTGTAGGGTCCTGGCTGCACAGAGTGTGTGATGGACCGTTTATTTGGCATCAGGGTTTTACATATAGTAGCTCATAGTTCTAAACACTCTTGACAA
CACGAATTCTAAATAGTGTGAGAATAAGTCTATGTTACTTTATGTTTTCCTCTGCTTATACTGGCAGCAGAAGTTTTGACTGTTTTTTGAAATACACTAT
TACAACAAAGCTTTTAAGAATTCATAGCCAGGTCCAGTGGCATGCTCCTATAATCCCAGCTACTGGAAAGAAGCTATGGTGGGAGGATCTCTTGAGCCCA
GGAGTTTGAGGCCAGCCTGGGCCACATAGTGAGACCCTGTSTGTATCACTCCGTTTTCACACTGCTGTAAAGATACTACCCGAGACTGGGTAATTTATAA
AGGAAAGAGGTTTAGTTGACTCACCCTTBTGCATGGCTAGGAGGCCTCAGGAAACTTATGATCAAAGGGGAAGAGGGAGCAGGCACATCTTACATGGTAC
AGGAGAGAGAGGAGAAAGTGAATGGGGAAGAGCCCCTTATAAAACCATCAGATCTTGTAMGAACTCACTCACTATCATGAGGACAGCATGGGGGAGCTGC
CCCCTTGATCCAGTCTCCTCCCTCCCTCCATACGTGGAGATTACAATTTCAAATGAGATTTGGGTGGGGACACAGAGCCAAACCATATCACTGTCTTTCW
GAAGAAAAAAAAGGAATTCTTGTATGTTGCCCTAAAGATATAAAACTGCTTACARTGCCTAGTGATTTGTATTGATTACTATGTGTTCCCTAAAGTTTGA
AACTCTCCATTAACATAGCAAAACTACTATATTCTAAATCAAATGTCAGCAGGTTGGGAAAGGTATTTACAACAAACATGACAAGGGGATAATAACCTTT
CTATATTAAGAGATCTTACATATCAATAAGAAAAAAGTTAACCTGTTAGAAAGATCAAAACAGGTATTCCTCAGAAATGACATATAACTTTGTAAAAAGA
TAATGACACTCATAATGAAGGAAGTATCAATTAAAACAATGACATATTATTTTTCACCTATCAAAGTGTTTATTCTTCTACTCAACAAATATTTGAATGC
TTATTATGTCCAGGAATTGTATTCAAGGGTTGATAACACACAAGGTTGGTGGCTATGGAGAAAGTGTTTTATCATATCTACTAGAGGAAAAGTCATTTGT
CATAGCGTTCCTGGAGGGGAATTTTTTAAGCGATTAAAATTTAAATTTTACATATCCTTTGACTAGAAATTATGCTTCCAGGAATTTACCCTATAGATAT
ATTCATATAGATGTACAGGCATATTATCATGATCCTCGTCATTATTATACAAGTGCTACCACTACTGCTACTAACATTTATTGAGCTCAGTATTTAGTAT
GTTTCAGGCATTCTGCTAAGCATTCTCAAAACATGTATGAGACAAGTACTAAAGTGATGCTAGGACTCGAGTTTTTGCCTCAAAGTCACTCAACTGGCAA
ATAGGAAACTTTTCTAACATTAGAGCGCCTCCCTCCACCCGGCATCCTTGTCCTCCCAGTATGTGTGTGGTGTTATTTGTAAAGGGAGAAACATGGAAAC
TGTGTAACTGTTCATTAATAGGGACCTGATAAATACCTTCATTCAAGTAGTACCCTGTGTACCCTTAGGGGATACACATGCTAATATGGAAAGGGCTCCA
TGATTTACTGTTAGTAAAAAGAACCGGTTCTAAACAGTATACAAATGCCCCTTCCCTTTTGTAGAATAAATAAAAAGATTGAGCTGTATGCATACAAGCA
CACCTACACACACACACACACACGTGGAAATAAATGTAAGTACTCCTAAGAAACTCAACATGTCAGGTAGGAAGGAGACTGCATCGATATATTTCCCTGG
TTCTATCCTAATATAAATTCTTCATATTTAGAAGAGTCTTACCCAATCCTTTCTGGAGAAAGTGATTTTTCACTTCTTGGAATTCTTCTAATGTAACATG
AAAAAGACAAGGAGGAAGAAAAGAAGAAAAATCAATTGCTAACTTCTTTATAAGACATTACGCTAATGATTTCACATGCATTATCTCACTTGTGCTTTTA
AATATCCCAATCTAGTAATTACTATTGACCACTCCATGTATTATATGGAAACTGAGCCTTCGTGAAATTAAGAAGTTTCCAATGTCATATGACTGCTAAG
TAGAGGAGAGCACACCCACATCCAAGACAGTTGGTTGCAAAATAGCATGATCTTAGCCACCAGTAAACTAGCTCTCGGTTTGTCTTAATTCCTTGGCACC
TGCCATGTATCTTATTTCATTCACCGGGTAGGATGTGAAGAGATTCTGGCAGTCTTTAGCAGTGCAGACTCTGGAGTCTGGCTTCAGAGGTTGGTTTCCA
ATACTGATTAGAATATCTTTTACACGTTATTTCACTTCTCTGGACTCAGGTTTCTAGTATACAAAAATAGGTTAATAATAATAATACCTAATTCCTAAAA
GCATTTTTGAGGATTAAAATCAGTAGCAACAAATATGGAGCATTTAGAACAGTGTCTGGCATTGAGAAAACCTATGTTTTAGTTGTTATTAGTATTAAAA
GAAAGGAATTATATTATACATAYTTTTCTTTACCCACAGGCTCTAATACAGAAATTTCCATATGGTAGTAATTCATTACAGATTACCTAGCTGTTAATCA
TTCAGTGCCATCATTGAATAATTTATTATTTGTTATAATAGGAAATTGTAAGTTGAACCATATAAAATTGCACGTTAGTCAAAACCAAATATTGGCAATT
GCATATGATTGAGCTTAATTTATATGTTTTAATCATTTCAAATTCTATTAAAATGTGTGAATTTATTAATACCTCCAATACATCCAGATACTTTCTGGAT
ATGTTTGTGTGTGTGTACGCTAAATGTAATTTCCCGTATGGTATAAAAGTCTAGGCCGGGGGCAGTGGCTCACGCCTGTAATTCCAGCACTTTGAGAGGC
TGAGGCGGGTGGATCATGGGTCAAGAGTTCAAGACCAGCCTGGCCAACATGGTGAAGCCCCATCTCTACTAAAAATACAGAAATTAGCTGGGTGTGGTGG
TGCATGCCTGTTGTCCCCAGCTACTCGGGAGGCTGAGACAGGAGGATTGCTTGAACCTGGAAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTCTGC
ACTCCAGCCTGGGCGACAGAGTGAGACTCTGTCTCAAAAAAAAAATCTATTATGTATAACAGAAATGATTTTTAAATGTATCTGAAATCAAATTGATGTT
TATTAATTTATTTTTCCTTAATGCAGCATGCAATTGTCATGGAAAAGCTGAAGAATGCTATTATGATGAAAATGTTGCCAGAAGAAATCTGAGTTTGAAT
ATACGTGGAAAGTACATTGGAGGGGGTGTCTGCATTAATTGTACCCAAAACACTGCTGGTATAAACTGCGAGACATGTACTGATGGCTTCTTCAGACCCA
AAGGGGTAAAGTATGCTTTTTCTTTCATAAAGAGTTATTTTTTTGCTTTTTCATACAAAAATGTTTTATACAAAAAAATAAKAATTTTGAAAGCTTCTGT
AAACAGTTGAACTTCAAATTAAAAGGTAAGTAGGAACATTTCGTAGTTGAAACTGACCTAAATCTTTGAGGATGTAAGATAAAACTTTTCCATCACTCCA
GAAAGTTTTATCATGGCTCCTTCCAGTCAAGGAGTGGACCCCTAGGCAAACTCTGTTCTGATTTTTAGAACGTAAATTAGTTGTGCCTCTTAGAGAATTT
CATAAAAATGAAATCATACAGTACATACTAGTGAGTCTTTTTTCACTCGACATAATATGTTAAGATTTATCCATGTTGTTTGTGCATCAGTAGTTCTTTT
TCTTTTGAAAGAAATTGCTGAGTAGTATTTCTCTGCACGAACATATCAAAATTTTAAATCCATTCTCCTGTTGATAGAAATTAGGATCATTTCCAGTTTT
AGCTTAGCTCCTACAAATAATTTTATACTAGTTATTTTATAGTCATATTTTTATTTACCTTGTGTAAATACTTAGGAATAGAAAGCTTTTTTCATAGGAT
AGGTAGATGCTTAACTTTATAAGAAACCGTCAACATTTTGCCAAATTAGTAATAATGTATAAAATGTTCACCAAAAAGTTATATGAGTTTCAGTCATTCT
ATATCATCTCTAATATTTGATGTTGACTATCTTTTTGGATTTTAGTCATCTAGTGGGTGTGAAATGGCATCTGATTATGGATTTAATTTTAATCGTAAGG
GCTTATTGACCATTCCTGTATCTTCTCTTATGAAGTAGATGTTCAAAGTCTAAATATTTTTTTATCCTAAAAACCAAAATTTTAACTTATAGAGCTATTA
CCCATATCAAGTAAATGTTTGTGTGTGGTGTGAATAAGTAACCAGATTTATATGGTTAACCTGAAGTTCTAGCACCATTTGTTGAAAAATCAATTGATCA
TATTACATGGATCAATTTCTAGAACCTCAGTTATCTATTTTTCCTAGCATCTATTTTTCCCTCTGCGTGCTAATACCATACTATCTTCATTGCTTTAGTA
AGTCTAGAATTTAGGTAATATAATGTACCAACTTTATTTTTTATTTTCAAGATTGTCTATAGTAGGGGCTTTTTTGTGTGTGTTTCTATACAATTTTAGA
ATCAACTTGTCAATTACAGAAAATATTAGGATTATTGCTTAGACTCTATATACAAATATGGAAAATGGAKCTTGAGGAGATGTTGGTCAAAGAATATAAA
ATTTCAGTTAGATAGTAGGAATACATTGAAGATATTTATTGTACAGCATGGTGACTGTAGTTAATAACAATGTATTTACTCTTAAAAAATGCTGAGAGTA
GATTTTAAGTGTTCTCACCAAAAAAATTGATAATTATGTTAGGTAATATGTTAATTAGCTTGATATAACCATTTCACAATTTGTATATATATAATATATA
TATACAATGATATTCAAAATATCATGTCACACATGATAAATATATACAATTTTGTCAAAAAGGAAATTAAACTTTAAAAGCAAACAAGTATTGAGGAAAA
TAACATCATAATAATATTGAATCATTTAACCAATGAACATAGCATATCTCTCCATTTATTTCTATCTTCTTTATTCATGTCAGTGTTCCAGTACAGAGAT
CTTGCATGTCTTTTGTTAAATTAATCTTTAGAATTTTGCTTTGCATGACTGTAAAAAAAATTTTTAAATAATTTTCCAATTATTTAATGTAATTGTTAAA
GAATTTTGAATATTGACTTTATGCCCTATAGCCATCCTTAATTTCTTTTTTTTTTTTTAAATAACTTCCCTTTTAAAAGTTACTGAGAATAAAGAATACA
GAACATGGTTATAGGCACTTACATTGCTATCAAATGCAGGAATTCACTTCAATAAGAAGTGCTTTCTCTGTAAGCATGGTTCATGGCAATAGAAGCTCCA
ACTTAGGAGAGGATGTTTTCCGTGACAAAAATAATAACAACAAAAAAAATGGTGGTTGAAGGAAAACAGTCCAAATTTACAGATGCTTTAAACTTCTTTT
GGCCTTGGCATCAGCTTTCATGTTAAAAAATAAAGCTGGTGGGGAAGCTATCTCACTTGCAAAGTAAATGGCTTGTATGAGATTGGCGAATCTTGGTCAG
ATATTGCATTTTTAAAGCACAAAACCACCGGCCACCAATATCTTCCTGTGCATGCATATAAATTATTTTCTTCTAATTCAAATGGCAACAGAGGAATCCT
GGCGTGCATGTGCATGGAGACACACACACATCACTAAGGAGACAGGACAAACTATCATAAACTAAGCAGTATCCCAAACACATCATCATCTATAGGCTGT
TTTACAAAGGTGGAATACAAACGAACTGAATGTCTCAGGTAAAAGGCAAAGTCTATTTCTCCAACTCTGCTGCACTCATTTATCTTCTTAAGGCTTTCAC
AGAAAGCACCGTTTTATGAACAGGCAATTCAGTACCCAGAGCTTGACTGGAGACACTAATCAGGATTGAAGTCTTGATGCAGTTCATAAAAACCCATTTA
AAAAAAGGCATCAAAAACCACATTTAAAATAAAGTTGTCCATATATAAAGAATGAAGTGTTTAGAAGTTCCCAGCTTGTATCCTAATAAGAGTACTGAAA
GGTTTAATATTAGCAGCCTGTGAACACGTAGTGAAGAGAGAGTCTGAGAACCAAGTTAACATCCTTATTCCACTCTAATTCCACCCATGCCATGGGTAAA
AACAGTTCTTGCAGTCTAGAGTTTCTCCTCCGATGGTTTAACCGTCAGATTTTTACATCTTGGGATTCAACCATCTTGGCAAGCGTCTTCTTAATTCTCA
ACGCTGTGAGTCTGGGGGCTGGATTGTGGGCCCAGCATTCTGACATTAGCTTCAAAACTGCTCGTAGACATTCATCACTGTTCCACCGATTAGACACAAT
TGGCCGCAAACGTTTGACACACACAACCTCACGCATATCTTCGTATGACGGATCACTCGGTACCATGTTATAATATGGCAATTGGTAGTCTTCCACGATC
CCTCCTGTGATACAACGACGAGCCATCTCCCAAATGATTAGGCCGAAGCTGTAGATATCAGCCATGATGTAGGGCTGGAAGTGGTTTTTGTTCAGGCTTT
CGTCCAGCACTTCTGGAGCCAGGTAGCGTTTGGTGCCCACCCTGGTATTCAAGGGCACATCAACTTCATTTGTGTCACTGTTGAATTTAACAGCAAGGCC
CAGRTCAGCAATGCAGCAACTCCCATTTTTCTTGATGAGGATGTTTTTGCTCTTTAGGTCTCGATGAGCAATTGCGGGCTTTCCTTGGGTGCCATAMRTT
TCTGTGTGCAGGTGGCACAGACCACAGGCAGCTGAATAAGCCAATTTAAGCAGGGCTCTGGTGTCCAGCGTAGCACATTTCAGGAAGTCATAGAGAGATC
CATTTTCATGGTAATCAGTAATCAAATAGAGCTGAGTCCAGGAACCTGTACCTTTAATATCTGCCGCTATGAAACCAAGTATGTTTTCATGGCGCATTAG
CACAGTTTGGTAGATTTCTGTTTCTCGAAACCAGCTGGCTTCTTCAGTGGTAAAGAATACTTTCACCGCCACTCTTTCGCCATGCCATTTGCCCATCCGT
ACTTCTCCATATCGGCCTTTACCAACTTGCCGGACCATCTGAATCTGTTTGGCAATAGTTCGCTGAACCAATAAAGGTAGTCCAGACCCACTACCAGAAC
TTTGTGACTGGTCAATAAGGTCTTTTAGTGATTTTCCAACTGGAATAAATGCTTCATCCTGTTCCAAATCACGATTGTAACGACGTCTGCTTGAGATGCT
CTTGCAATAATGTTTGTAACAAAAGCAGCTGGAGAAGATGATCATAGCAATTATGCAGACAGCCATAGAAATGAGCAAAACCAGCCATCGAATGCTGCCA
TCAAAAAAYGGACCTATGACAACAGGGGGCATGTGGGTTGCAAATACTGGTTACATAAATTGGTCCGACAACATTCTATTGTCCGGCGTAGCTGGGCTTT
TGGAGAATCTTTGCACTGAAAATCAGATCCTTCATATTTCATACACCCTGAAGCTAATGTGGTTTCTCCCTGGTCATCTTCTTCTATGATGGCAAAGCAA
CGTCCATTAGTTATGCATGTGTTATTAATAGCATCATCTGGGCAGTGCCCTCAGCAATAGCACTTGAAAAAAGGCAAGGTATCCTCTGGTGCTAAGGTTA
CTCCATTTTCTGACTTTTTCTGGTCGGAGTCTGATTTCATCCCAGTGCCGTGGAGCATACTATCCAGATTCTGTCCTTGAACACGAGAAATGATGAACAA
ATAGGCTCCCAATAATCTGATGTAAATGTATAGCTGAGTCATTGTTCAATTGTAATGTTTCCTGTGTACTGTCACCTTTAGTAATTGGTCTTGCTACTTC
ACCAATTTAAATGACTGTCATTCAGTGAGATTTTCTTGTAAAAGATCGCAAGCACTTGACAATGACTTCAACTCCCACTGCTTTCTTACGACTCCTCCAA
GATGTGGCTAGATAAAACTGTACTTCCGATTTTCTCCAAACAGCTTTGACCTATGCTTCCATCTCATGAATTCCAAGACAGTATTAAACTGATGCATATT
TTCATAAGTCGCTCCCGGCGTCTCTTCCCGGGCTCCTTGCCAGCGTGCCGAGGCGCAGGCAGGGTGATGGAGGCGCCCCGGCCGGGAGGATCTGCCGGGG
AGAGCGGCTTTCCTCATCGATTCGGGAGCACCCACCATGCTTAATTTCTTTATTAATTCTAGTAGTTTTAAACTACATGCTTTAGAAACGTACACATAAA
CAATCATTTTACCTGCAAGTACATTCAGGCTTACTTCTTCCTTTGCAATCTTTATGCCAAGGTTAACTAAAAATGGCGAGAGCTGACATCTTCACTTTGT
TCTGAATTTTAAAGGGAAACCTAATATTTCACTATGGAGTATGATGTGAACTGCATATTTTTTTATGGACACCCTTTATCAGATTCAGTAGGTCCCCTAC
TATTCCTAAGTTGCAGAGAGTTTTTATAACAAAATGGTTTTGCATTTTGTCATATGCTTTTCGAAACCTACTGAAATGAACATAAGGATTTTCTCCTTTA
TTCTGTTAACGGGGACAATTTATGCAAATTGAATTTTAAAATATGAAGGCAGCTTTGCATTTGTGAATTAATCTCCATTTGGTTATGATATATTATCATT
TTTATATATTGGATGATTCAATTGACTAATGTTTGGTTAAGAATTTTGACATCCTCTCATAAAATATATTGGTCTATAATTTTATTTTCTTATAATGTTT
TTGTCAGGTTTTTTATTGGGGTATACTGGCATCAACAAATGATCGGGGAAATGCACTTCCTCTTCTGTTTTCTAAAGTAACTTCAGATTAAAATTAATTC
TCTTTAAAATGCTTGATAAAATTTCCTAGTGAAACTATCTGAGTCTCTAGTTTTCTTCGTGCATTGTATTGGCTATTTTTTATTAGACATAGGGTTAGAT
AGGTTTTGTATTAATATCTTTAGGGAGGGTCAATTTTTGATATATTGTATTTTTCAAGTAATTTGTTCAATTCATCTAAATTGTCAAATCATTGGCAATT
GGCAGTTTTAAAAATTGCCTTATTATCTTCTTGAAGTCTATAGCATCTATATAGATATCCCCTGTGTAATTTTTAAAATGATTAAGTTGTGCTTTTCTCC
TTTTATTGATCACTTATGTTAGGGGTTTATCAATTTTCCTAATCTTTTCCAAAAAAACTTCTGCCTTTTTATTTTTTGTGTTTTTATTGATTCTGTTCTA
TTTATTATATTATTCATTTGACCTGTTTTGGTTTTAAATTTCATTTTCTTTTTCTACCTATCAATTTGGAAAGTTAAATTATGATTTTACACCTTTCTTC
TTTTATCATATAAACTTTTAAATATAGATTTCCTTCTAGCAGTTCTTTAGCTGTTTCTCATGAATTCAGGAATGCTTTATGTTCATTGTCATTTATTTAA
CATAATTTCTAATTTCTCTTGTGATTTATTTTTTGTTAATTTCCAAATATTTGAGCTTTATTAAATATTATATTTTTGATTTCTACACTGGATGTTTATG
ATCTGAGAACATACTCTCTAAGATGTCAAACTTTAGAAGTTTATTGAAATTTAACTTATGGCTCAGTGCATGGTCTCTCTTGGCAAACAAATAAATGTGG
ATTTTTCCAATCTGCGATTATGGATTCCTACCTTTCTTTCATTTTTTTCAGTATTTCTTCCTGTTCTTTGAAGCACTGTTATGAGGCACATACATATTTA
GAATATTTTGAATCTTTAGATTTTTATATCTTATAAATTAATATTTTGATAACTGTGAAGATCTCCACTTAATCTCAGATATCACTTTTTGTCCTAAAGT
CTACTTTATTTTTTATTAACATTGCCACAGCAGTTTTCATATGCTTACTCTGTATGGTATGTTTTTTCTGATTTTGTTTAACTTTCAACCTATCTTTATT
TTCATTTAAAAGATTTCTTATAAAGAGTAAAATAGATGGATTTTTTATCCTGACAATTACTGTGTGTTTAGTCCCTAAATTTAATATAGTTAATAATATG
ATTGGGTTTTGCTATTTGTTTCCCATTTGTGTCACAAAATTTTTGTTCCCATTCTTCCTTTTCTGTCTACTTTTATGTTAAACAAATATTTTTCAGTATT
CCATTTTATTTCCTTTATTATCTTTTTAGCAGTACCTCTTTGTATAATTTTCCATTCCAACTTTTATTTTAGGTTCAGGTAGTACATGGGTAAATTATGT
GTCATGGGATTTGGTGTACAGATTATTTTGTCACCCAGATAATAAGCATAATAAAATTTTCAATCTTCACCCCCCTCCCACCCTTTTCAAGCAGGCCCTG
GTGTCTATTGTTGCCTTCTTTGTGTCCATGTGTACTCAATGTTTAGCTCCACTCATAAGAGAGAACATGCAGTATCTGGTTTTCTATTCTTGCATTAATT
CACTTAGGATAATGGCCTTCTGCTCCATCCATGTTGCTTCAAAGGACATGATTTTATTCTTTTTTATGGCTGTGTAGTATTCCATGGTGTATATGTACTA
CATTTTCTTTATTCAGTCCACCAATGATGGTACCTAGGTTGATTCCATGTCTTTGTTATTGTGAATAGGGCTGCAATGAACATAGGCATGCATGTGGCTT
TATGATAGAATGATATATATTCCTTTGGGCATATACGCAGTAATGGGATTGCTGAGTTGAGTGCTAGTTCTGTTTTAAGTTTTTTGAGAAATCTCCCAAC
GGCTTCCCACAGTGTCTGAACTAATTTACTTTCCCACCAGCAGTGTATAAGTGTTCCCTTTCTCTGCAACCTCACCAGTATCTGTTATTTTTGACTTTCA
GTAATAGCCGTTCTGACCAGTGTGAGATGGTAGTATTTTAAGCTCATGATATAGTGATATAGTCCTATCTTTTGGACTATTGTTTTCATATATTGCACAT
AATTTGTAAGCCAGCAATACAATGTTGTCATTTTTGTTTGAAGTCACAAAACTATGAAAACAATCTTAAAGAAATGAAAAGAAGGAAAAAAATTTACATT
AACCATACCTTTCCCATTTTCCATACTCTGTGGTTCTAGCTTATATATATTGCCCTCCTGCTTGAAAAATTTCCTTTAACATTTTTTTTTTGGTAGTGCA
GAGCTGCTGGTGACAAATTTTCTCAACTTCCCTTTATCTGAAAATGTCTTTAATCTACTTTCATTATTGAAGGATATTTTCCACATAGTTACAGAGGTGT
GTGTTTTCTTCTTTGTTTAGCACTTTAAAGATGTGGCACCATTATTTTCTGGATTTCATTCATCCTTATGACAACATAGCCATTATTTGTTTCTTTGTTC
TATATATATATATCTTTAATTCACTAGATGATTTCAAAAATTTTTTTATATCTGCCTTTTGACACTTATACCATGTATGATAAAACTTTGGCCCGTAGAC
CAAATCTGACTCATGGCCTATATTTGTATGATCTGTAAGCAAAGGATGTTTTTACATTTGTAAAGGTTTGTTAAAAGGAGAAGTAGAAGAAGGGGAGAAT
GAAGAGAACTAGGAGGGGGGGGAAGAAGAGGAGGAAGAATGAAGAGAGTCTTTATATGGCTTATTTTACTATCTGGCCCTTTACAGAAAAGTTTTCCAAC
CTCAGAGTTAAATAAACTATGATGTGTCTATGTTTGGCTTTCAAGCTTACCTTGCTTGATTCACAAAGCTTCTAGGAACTATAAATTGAGATTTTATTCC
ACATTTAGGAAATTTTAGGCTATTTTTTTTATTTTTACTTATTTTTTTTAGGCTTTTGTTTAAAACCTGTTTTTTGACCAGTGTTTTTCCTTCTCTTTCT
AGGACTCCAGCTGCATGTGTGCTAGGGCGTTCATTGTATCTGAGGCAGTGCTAAGTAATTTTTTTTCTTTCTCCGTTCTTTAGATTGGATCATTTCCATT
CATCTGTCATTATACTTTGGTCTACATATAATGTATCTTTAATTTACTAGCTGATTTTAAAATATTCTCATTAGGCCGGGCACAGTGGTTCACCCCAGGA
ATCCCAGTACTTTGGAAGGCCGAAGCAGGCAAGTCGCTTGCGGTCAGGAGTTTAAGACCAACCTGGCCAACATGGTGAAACCCTGTCTCTATTAAAAATA
CAAAATTTAGCCAGGCATGGTGGCAGGCACCTGTAATATCACCTACTCAGGAGACTGAGGCAGGAGAATAGCTTGAACCCAGGAAGTGAGGTTGCAGTGG
GTCAAGCTTGCACCAGTGCACTTCAGCCTGGGCAAGAGAGCGAGACCCTATCTCAAAAATAAATACAAATAAATAAATAAATAAATTCTCATTATATTTA
CTTTTAACAATAGTATCATGTTTGAGAAAACTTTGGCCTGTAGACCAAATCCTGGCCTATGGCCAGATGACTACAAAAGTAGTCATTAGGTTGACTACTC
TTCCTCCTATCATCTCTACCTGATGTTAAGCATATCCAGTGAATTATTAAATTGAGGTATTTTACTTTTCAGCTTTCTGGAGTTCTTATGTTCCTTACAG
CTTCCATTTCTCTGAAATACTCCATACCTTCACTCATTATAAACATTGTTTCCTTTATATTCTCGGACATATTTACAGAACTTACGTTGACTTCCTTGTA
TGCTAATTTCAATATCTGGGTCACCTCAGGATCTGCTTTTATCAACTTCTTTTTTTAATAAGGTCAACATTTTCCTGTTTCTTTCCTGTATATCTAATAC
AGTAGTCCTCCTTTATTCACAGAGGATATGTTCCAGGAACCCCAGTTGATACCTGAAATCACAGATAGTACCAAACCTATATATACTATGTTTTTTCTAT
CTGATACCTGTGATGGGACTAAGTGACTAACAGGAGGGTAGTGTCTATACAGCATAGATATGCTGGACAAGGGGATGATTCATATCCCTGGTGCGACAGA
GCAAGATGGCCCGAGATTTCACCACACTATTCAAAATGACATGCAAATTAAAACTTTTCAATTATTTATTTCTGGAGTTTTCCATTTAATATTTTCGAAC
TGTGGTTAACCATGATAACTGAAACCTCAGACAGCAAAACTACAGATGAGGTGAGGACTACTGTAATTTATCATCTCTACAGGACATTTCGGAGAATACA
ATGCAGACACTGGTTTCTGTTATGTTCCTCTGAAGAGTTTGAATTGGTTCTAATTAGTAATAAACTTGCTGAGTGATCACCATGAAGTCATGAAAGTTTA
CTTTCATACTTTGTTAGGACAGATTAGTGGAAAACTCCAGGTATTCATCAAACATTTCTAATGTAGTTAACTTAAAGTCTGAATTCTCTTTACTTTATGG
TTGGTAGCACCTGAAAACTCTTCTCACCTTGTTCAGTTTCCAGCGGTTGCTTTCCACTGAATTTCCTAGAATCTCCTGAGTGAATATACAATAAAGGGAT
CAGTTAAGGCTGGGAAGGGTATTGTTATGCAAATTTTGTGAATTGCAGTTTAACAGCTAAAGAATTTATCTCTATGATGTTCATAAAATTATTGTCTTAA
AATTTGATTTTAGATTTTTCCACTTAATGACATTTAATTTATATGTGTATATAAAATATGCCTTACCTATTCTGTGCACAGTCCCAACTTCATAATGGGG
GAATGAATGAATGTATCTTAAACAAATGATGATTTTGAAACTGACCTGTGAACTTAGTTAATTGAGATTCAGTGAGGTATATAAATAAGTCTAATTTTAA
CACTCTGATTTATAGTAGCAAACAAGTTTTCATTTGTAAATTAAGCCTAGATATATATACATATGAACTATATTGAATAGGTGGGCATTTCTTGGGCAAA
TAATTTAGTTTTTTTTTTTTTTCCTATTACATCTGGAAAATAAATCTTGTATATACAGTATATGAACACAGTGTAGTTTTGTTTAAGTAAACTAGCTTTG
TTGATATACTATGTATACAAGATAAAAAGGAATAAAACATGAAAATATCAATAAGTATTGAATCTAAGTAACAAATATATAGGAATTTATTATTCTATTA
TCTTTACTTTTGTGTAAGCATGTAAAAGAACTGGATTTTAGAAATTATAAACATGTATTAAAGRTAATTCTTATAGTTTTCTCAATAATTTGCTGCTCTG
TATTATTAAAACTACTTTGTCTATAAAAGTTTGCTGAAGTGAAAAATATTGCTGTTTCTATTACACTTCGTTAAATTCATTTTAATATTTTTGTTAGGTA
TCTCCAAATTATCCAAGGCCATGCCAGCCATGTCATTGCGATCCAATTGGTTCCTTAAATGAAGTCTGTGTCAAGGATGAGAAACATGCTCGACGAGGTG
AGAGCTGCAGCAGAATGTCACTGCTCTGATAAAAGGACAACTAAAAGCCAAATATGATTATTTTCAGAAGAATATTTTGCAGTAAATGTYATTCATGTAA
TAAATTTATTCTTTAATCTATCAGTGTATTAGCGTTCCCTCCAGGAAGTAGTTTTTAAACTCATCTCAATAATTACTTTCATGTTTAATTATAATGTTTT
CATAGCAAGAAGAGTTGAATTATGTATTTTGAGATACACACACACACATACACAGAGATAAAGAAAGAGAGAGAGTCAATCACAAATCTGTGGTATATGT
AATTTTTTCATATCGTGTTATTTATTAGATTGTTTGTAGCTTCTATGAGTTCTAGCATGAAATGCCAGCGTTCACTGAGGAATGTGTGTGCTGTAGTGGG
AAAAGCAAATAGAAGAACTCACACACTGAGATGTAGGCAATAATATAGAAAGCAAGAAGTGTTCATAAAGGACTAAGAAGGTAGTAGTCATGAATTAATG
AACAGAAAGAGGCTGACACTAATTTAAGCTAAAGCCTTCCTTTGAGGAATGAAATTCATGAACTCCAAACATTAAGAAATCAAATGCCAACATAACTCCT
TGATATAAAAGCGTTTGGGAGCTACTTCCAGGGCAGTTGCTCGCCAAGTTTAAGTAGGAAATTCATAGAATGCACTGGGACGCTTCTTCTCTAGAAAGAC
TAAAATTAATCAAGGCTACAATGTAGTGTTTTTTTCCCTAATGACTTTAGCGTTAAAAGACCAGCAATGTTTCTTARGTACAATTCTTGTTACCTGCTTT
CTTTATAAAACTGTAGGATTATCAATCTGAGCATTACATGTAGACTAAATTTTGAAATATTAAAAAACGGATACGTTWTGATAGTCGAATGATGAATTAC
TGAGCTCACTTTTCGTTTTAAGCCTTTTCTCTTTGTGTTTACAAGTAAATCACAATGTTGTTTTCATTAATATCATTTAACTCTTCCCTACCCCTTTTTG
AGTAATGAGTATATGATCACAGAATAAAAATGGAAAAGTAGAAAAATAAATATACAATTCAGTGGTAATTCAGGAGAGATACCACTATTAACATTTTCAT
ATATTTCTGTCATAATGCATACAAAAATTTCTGATATTGCTCCTCTTAACTTTATGTGATGAGTTTCCCCAAAAATCTATGAAAACTTTCTCTGAAGTCT
GGCTTCAGCACCTAAATAACACATTATTATATGGTCGTGCCATAATTATTTACCCTCTCAACTTTATATGGACATTAAGATTGTTTCAAATTTTTGTTTA
TTTTAACCAATCCTTTAATAATACTTATTCCATATAATTACTTTTCAATTATTGTAAAAACAATACATAGTAAAATAAATTCTTAATAGTAAAGAAATAA
AATAATAAGTGTCCTCTTCAACCTATTTATCCCAGTCTTACTTCCAAATTTAAAAATATTGAGCCTTTTTTCCGATTCAGTTTTTATTTTTTTTAATTAT
ACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGCACTGCACCCACTAACTCGTCATCTAGCA
TTAGGTATATCTCCCAATGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATATTCCCCTTCCTGTGTCCATGTGATAGCATTGT
TCAATTCCCACCTATGAGTGAGAATATGTGGTGTTTGGTTTTTTGTTCTTGCAATCGTTTACTGAGAATGATGTTTTCCAATTTCATCCATGTCCCTACA
AAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATAAGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTT
GGTTCCAAGTCTTTGCTATTGTGGATAATGCCGCAATAAACATACGTGTGCATGTGTCTTCATAGCAGCATGATTTACAGTCCTTTGGGTATATACCCAG
TAATGGGATGGCTGGGTCAAAGGGTATTTCCAGTTCTAGATCCCTGAGGAATGGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAA
CAGTGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCT
CATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTG
TTCATGTCCTTCGCCCACTTGTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATG
AGTAGGTTGCAAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCA
TTTGTCAATTTTGTCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTACTGCCTAGGTTTTCTTCT
AGGGTTTTTATGGTTTTAGGTCTAACGTTTAAGTCTTTAATCCATCTTGAATTGATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTAC
ATATGGCTAGCCAGTTCTCCCAGCACCATTTATTAAACAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGGTAGTTGTACAT
ATGCGGCGTTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGACTTGTAGTAT
AGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCGATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAG
TAGTTTTTTCCAATTCTGTGAAGAAAGGCATTGGTAGCTTGATGGGGATGGCATTGAATCTGTAAATTACCTTGGGCAGTATGGCCATTTTCACGATATT
GATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTC
ACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTTGTTGTTGTA
TAAGAATGCTTGTGACTTTTGTACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGACTGAGACAATGGGGTTT
TCTAGATATACAATCATGTCGTCTGCAAACGGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGG
CCAGAACTTCCAACACTATGTTGAATAGGAGCGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCWG
TATGATAYTGGCTGTGGGTTTGTCATAGATAGCTCTTAATATTTTGAATTACGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGT
TGAATTTTGTCAAAGGCTTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGCTCTGTTTATATGCTGGATTACATTTATTGATTTGTGTA
TATTGAACCAGCCTTGCATCCCAGGGATGAAGCCTACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGTTTTGCCAGTATTTTACTGAG
GATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTGGTTGTGTCTCTGCCTGGCTTTGGTATCAGAATGATGCTGGCCTCATAA
AATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGTTCCTCCTTGTACCTCTGGTAGAATTCGGCTGTGA
ATCCATCTGGTCCTGGACTCTTTTTGGTTGGTAAGCTATTGATTATTGCCACAATTTCAGATCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTG
GTTTAGTCTTGGGAGAGTGTATGTGTCGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCATAGAGGTGTTTGTAGTATTCTCTGATKTTA
GTTTGTATTTCTGTGGGATCCGTGGTGATATCCCCTTTATCATTTTTTATTGCWTCTATTAGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCG
GTCTATCAATTTTGTTGACCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGAT
TTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCCTGCTTTTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCC
TGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGCGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCATGGG
TTTCAAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGAGCAGTTTTGAGT
GAGATTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGATAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTT
CCAAGTATGTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAAAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTTTATTAGGT
CCGCTTGGTGCAGAGCTGTGTTCAATTCCTGGGTATCCTTGTTGACTTCTTGTTGACTTTCTGTCTCGTTGATCTGTCTAATGTTGACAGTGGGGTGTTA
AAGTCTCCCATTATTAATGTGTGGGAGTCTAAGTCTCTTTGTAGGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATAT
TTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATGTTTGTTGGTTTAAAGTCTGTTTTATC
AGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCTTTTATTTTGAGCCTATGTGTGTCTCTGCACATG
AGATGGGTTTCCTGAATACGGAACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGTCCATTTACATTTA
AAGTTAATATTGTTATGTGTGAATTTGATCCTGTCATGATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGATGCAGTTTCTTCCTAGCATCGATGGTCT
TTACAATTTGGCATGCTTTTGCAGTGGCTGGTACTGGTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGACTGGTGGTGACA
AAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCGCTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTT
CTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCCGGCTTGTAGAGTTTCTGCCGAGCGATCTGCTGTTAGTCTGATGGGCTTCCCTTTGAGGGTAAC
CCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAGCTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCGAGGAGTAT
CTTTGTGGCRTTCTCTGTATTTCCTGAATCTGAACGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACT
TGGTTCCATTCTCCCCATCACTTTCAGGTACACCAATCAGACGTAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTTTGCTCATTTCTTTT
TATTCTTTTTTCTCTAAACTTCCCTTCTCACTTCATTTCATTCATTTCATCTTCCATTGCTGATACCCTTTCTTCCAGTTGATCGCATCGGCTCCTGAGG
CTTCTGCATTCTTCACGTAGTTCTCGAGCCTTGGTTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTGTATTGGTTATTCTAGTTATACATTCTTCTA
CATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATGTCCTCCCGTAGCTCAGAGTAATTTGATCGTCTGAAGCCTTCTTCTCTCAGCTCGTC
AAAGTCGTTCTCCATCCAGCTTTGTTCCGTTGCTGGTGAGGAACTGCGTTCCTTTGGAGGAGGAGAGGCACTCTGCTTTTTAGAGTTTCCAGTTTTTCTG
TTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTTTGGTCTTTGATGATGGTGATGTACAGATGGGTTTTTCGTGTGGATGTCCTTTCTGTTTGTTA
GTTTTCCTTCTAACAGACAGGAACCTCAGCTGCAGGTCTGTTGCAATACCCTGCCGTGTGAGGTGTCAGTGTGCCCCTGCTGGGGGGTGCCTCCCAGTTA
CGCTGCTCAGGGGTCAGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGCCCGTTCTTAGATCTCCAGCTGCGTGCTGGGAGAACCACTGCTCTCTTCAAA
GCTGTCAGAGGGACATTTAAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCCCCAGAGGTGGAGCCTACAGAGGCAGGCAGGCCTC
CTTGAGCTGTGGTGGGCTCCACCCAGTTGGAGCTTCCCAGCTGCTTTGTTTACCTAATCAAGCCTGGGCAATGGCGGCGCCCCTCCCCCAGCCTCGCTGC
TGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATCAGCGAGACTCCATGGGCGTAGGACCCTCCAAGCCAGGTGCAGGATATAATCTCATGGTTCA
CCGTTTTTTAAGCCCGTCGGAAAAGCGCAGTATTCCGGTGGGAGTGACCCGATTTTCCAGGTGCCGTCCGTCACCCCTTTCTGTGACTCGGAAAGGGAAC
TCCCTGACCCCTTGCGCTTCCCAAGTGAGGCAATGCCTCGCCCTGCTTCGGCTCGCGCAGGGTGCGCGCACCCACTGACCTGCGCCCACTGTCTGGCATT
CCCTAGTGAGATGAACCCGGTACCTCAGATGGAAATGCAGAAATCACCGTCTTCTGCGTCGCTCACGCTGGGAGCTGTAGACCGGAGCTGTTCCTATTGG
GCCATGTTGGCTCCTCTCCCCGATTCAGTTTTTTAGTGAGTTACCTTTAGTATCTAAATAATATTCTTATCAGTACTTTTATCACCATTACATATTGCCT
ATTGACTCTCCGTCTTGAAAGGTGAAGAAATGTATCATTCACAACACCTCCCTCCTTCATTCCACCATCCATACATTTTTATTATGTGTTTCTTCTACGA
TATCTTTATCATGTTCAAGAGAGCTTACATGTCTATTTCATCAATGACTACATTTAGACTTTCTCTTGAGGTCCTACTATATAAGATGTGATAAAGACTA
TCATCCCTACATTCTTCACCACTTGTCAGTGTCTGTCAATTACATATCTTTGAAATCTTTTCAAAGATTTTCACAGTTACATTCAGCTCTGGACCAATAA
TTAATGCTTATAATTCAAAAATAGAAATATAATAATCAAGATTGTAATACTGTAATTAGATACATATTATTTGATACAGGCTCGAATTGCAAAATTGGAC
ACATATTTGTAGGTCATTTTTATCTTCATGCTTGCTCTGATAACTTATTTAGGAAAGAGTGTAAGAKGTGGTCTCATGGTTTGCACTTCTTCATCAGATT
ACATAACCAGATAGTAGAAAAGGATATTTTAGTGTATTACTGGCATTCATTTGATTACGAGGGAAATACGATGTATTTCTTCTCTGATTTTTCTTTTAGT
TTTCTTCATTTTCTTTTAGTAGAAGGAAGTTTTCTCCCTTGTAGATTTGTAAGAGCACTTTAAATATTAAAAACAGTGATAGTATATCATTTTTTAATAA
TCAGTTTTCAGATTTGCTTTGTGTCTCACTACTGTTGATAATTTCTAGTGCACAAACTTCAAAAATTTTATGTAATCAGCTGTCAAAGTTCAGGTAAAAT
TCTTTACTTATAATAATGATACCAACCCATGATTATTATATATTTTGATTTTTTTGTGTATTTCTTACATGCTTTATAATCCTAGAACTCTCATCTATCC
CAAGATTAGAAAAATGTATTTGTTTTCTTCATTTGTATGATTTCATTTTATAATACTTAATTTTTTATTCCATCTAGAATTTATTTTGTTATATTTCATA
AGGAAATTTTCAAACTACATTTTGTTTTCCAATACTCTTTTTTACTCATCTACATTTAATATTACTTTCAGCTCTTTAGACATATTAAATATATTTATTT
TATTTTCGGAATCTGTTAGAAGCACTCTGTTATTGAGTCTGAGTCTGCATTTTTATTTCTCTTCTAACTCTTATTCATATGGACTTCATTTTCTTATGTT
TCGTAAGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTTTTGTGGATGTATGCGTGCATATGTATTTCTTAGTTTATTCTTTCAGAAGCCTTGAATTTAC
ATGAAGTTATGTGWTAATGACCTACCTTATATAGGACCTAGAATTTTTTGTTGTTCTTCTGTAAAACCATGCTYCCTGAACTGTAGTCTAGTCATCAGAA
TTTGCCAGTCAACTCCAGGAAAGACATTGTTTTAAAGAATGACGTAAGCTTTCTAGAAGTCAATTTTGTAGTTTCTCATCTCCAAGGGGTTTCTTTATTT
CTTGCCAGCGCAACGATTCTGTTATCTGCCATCTGTCTTTCGATCTATCTACCTACCTACCTACCTACCTACCTATCTATTTTTCTACGTTTAATTTTAT
TCTGTATCTTCAACTGTTCTGAACAGGAGGGGTTTTTTGGACATCTAGTCTACAATACTTCCAGAAATAAAAGTTAAGATAGACATTGTTTAATACATGA
AGTACTTCTACATTTAGCCTCAATTTCTGGAAATTTTAACATCAGAAATAATGTTAAACTATTTAATGCCTTTGCAAACTTTATTAAAATTATCAGATTT
ATTTCCCATTTGGTCTATTGGGTAATCTATTAGAAACGAACTTACTAATATCAAACAATATTTATTTTACCAGAGTATGTTCTACTTGGACATCATAGAG
GATCCTTTTAATGTACTTTAGGATTCAGTTTGGTGTTTTGCTCATCTGGATTCATAAGTTAATTGCCTGTGACTCAGACACCCACCAGTTGTGCTCCTTT
GGCAAATCACTTAATTTCTCCATGCCTTAGTTACCTCATCTGTGAAACAGGAAAAATAATAGTGTCTATCTCATATAGATGTTTTGAGTACTAACTGAAT
TAACCCCTGTGTTTTGTGTAATGCTAAGTATAATGACTACCATAAGATAAGTGCTATTTGAGTCTTAGAAGTTTTGTTTATTTGGGGTTATCATTTGCAT
TTGGGTATCAAGTTAGAATTTGCTTCATAAATTGAATTACATAGCTCTCCATTTTTATATGACCATAAGAGTTTCAAGTTTTGAAAACAGTCTGTAAAAA
TTAACTAGCATTACAGAAAACCAAACACCGCATGTTCTTACTCGTAAGTGGGAGTTGAACAATGAGAACACATGAACACAGACAGGGGAACATCACATGC
CRGGGCCTGTCAGTGGGTGGGGGTCTAGGGGAGGAACAGCATTAGGAGAAATACCTAATGTAGATGACAGGTCGATGGCTGCAGCAAACCACCATGGCAC
GTGCATACCTATGTGACAAACCTGGATGTTCTGCACATGTATTCCAGAACTTAAAGTATAATAATAAAAAAAATTAACTATCATTAAAACATGTTTGTGG
TAGTTCTTTGATAATTTGTCCTCTTTTGATACCCTTGATTAGCTTTGTTTACCGTTTCCTTTTGCTTGCTTTTCTTTTTTTCAAATCTCTTTACTTCCTG
TGGTGTTTATATTTTCTCTTTTTTATACTTAAATGAATTAAATTTTAATTTATCTATTTTTAAAATAATGGACTATTTAAGCCTATAAGTTTACTTTTGG
GTACAGTTTTTCCATACTCAACAAAAATTAAGTTCCTTTTTTACTGCTATTATATTCTACCTAGATAGCTATTTATTTTTAATTGAAGTCTTGATTTTCT
CTTTAACCCAAGAGTTATTAAAGAGAAATATTTAGGCATTAATTTTTAGAACAGTTGAATTTTGCATAAAATTCTCTCATCATGTTTGATATTCAGAACT
AATTTAATCTTAATTTTTGTGGCATTTGATACACATCTAAAAGTAGTAATTTATGTTAAGAAAATAAGCCTTAGATAATTTCTGCTTTGATAATTGAGTA
TTTTTTATAGTCAATCACAAACTATGGTAAATATTTAGTTATATACCACATAATATGTAATTTGATATTATTAGATTATTCAAATTTTCTGTTTTTTCTT
ACTTCATCTGTAAATACTTAAGATGAGTAAGTTAGCATCATTTTCAGCCATTGACTTTTAAAGTTTTTATTTCCAATATATTTTGTTGTCCACATATTTT
TGTACTGATAATTAGTGCTTATTTGAAGCATAAACATAATAATTTAAATCATGTTTTTATTATATTTTTATCAATGTAAAATGAGAGCTTGCCTTACTGA
ACCTAGTTTATTTGAGTTCTACTTTGGCCCTATTTAATATTTCACAACTTTTTTTTCTTTTCCATACGCTTTCTTGACACACATTCATTTTCTTTTACTT
GTAATATTTTATTTGCAATATTCCTGTTCATTTTGTTTATCTCTTGTGCACATTACATGTTTATGTTTTTAATAAGAACAGTAAGACTGCTTAACTCATT
AGTATGTATTTAGTATGCATTTCTGACACTAATTCTGTCATTCTGCTTTTTGCTTTCTCTCCCTAATGTTTCCTTGCCTTTTTTTCCCTCCTCCTTTCTT
CTTTCTGATGGACTATATATATTACTGATTTGCTTTTATCTTTCTCCAGATTTTGAAGGTCTGTTAGTTGTATTCATTCATCCTGTATTATTTCTATTTT
TTAATCAAAGACATGAATAAACATTGTGTTTTGTATTTCTGTATGTTAAAAAAGTAAATTTAAACTTTTCATTCCCCTCATCTATTGCTTCTTATCCCCA
AAATATCAATTCCAATGAACACCTTTATTTTCTTTAGTAATACTGCCAGTGGCATGTTCTTAGAGTATCATTGTTAAACTGTTATTTTAAGTAATATGTC
TTTATTCCCAAGGCTACTTTGCACCTGTAATAGTCTGGTGGAGCAGGCTTGTTCCGTGAGCCACTAGTTTTGCATTTGTTACTGCTTATTCTTCTCAATG
TAGCATCATCAGCATTAGCGTTTGTGGAAATTTCTCCTTGGTCATTGTTTTCTATAGCCATAGTTTGGTAGATGCTTTGAGATTTCATCTTTCTTGTTTA
CATTTTTAATATTTCTATTGACACTTAGAAGATGCTATGTTCACGTAATCATAGAAAGCTTTTAATTAAACCCTCTACTCTTTGGTTTTAACTTTYCTTT
ATTGATATATATMAAAAATCTATTTTTGTGTCAAAATAGCATTTTAAAGGTTACTGTCATTAAAACTTTAACAACTAAATTATGTACTTGTTTTAGAAAT
GTTGATATGTGGCTCATCTTTCTTTAGGTTTGGCACCTGGATCCTGTCATTGCAAAACTGGTTTTGGAGGTGTGAGCTGTGATCGGTGTGCCAGGGGCTA
CACTGGCTACCCGGACTGCAAAGCCTGTAACTGCAGTGGGTTAGGGAGCAAAAATGAGGATCCTTGTTTTGGCCCCTGTATCTGCAAGGTACATTGTTTA
TTCCAGTAATGTCCCACTGTCAAGACAGAAGGTTATTTTTCTTGGCTTCTCTGTTGATTTCCTTGGCATTAAGCAATTTTAATGACTTCTGGAAGTATCC
ATAATCTATTCTACGTGTGGTGACCCACCAGGTTCACTGTAGCAGGATGTTTATAAGGCACTTATCTAAAAGCCTACAAATGCACGGAGGATAAACCACG
TTTAAAGGCTTGTTATTTTATAACAAAAACACTTTCACCCCATTGCCCAACTAGTGTGTTAATTTAAAAATATACGGCACTAGAAATAGCAACCCTTTAA
AACTAAAGTGCATTCAAATCTACCTTTGCATCTAATTCAGTAATGAATTCTGTCWAGGGTTTTATTCTGAATTTTTAAATAATCTTCTAAAGTTTGAACC
CAGATAAGCCTTAAAATACTCATTATATTCAAATTTTTCTGTTCAATTATAAAAAAGTACAAAGCCCTAATGGAATTAATTAAAGGCTCAATATTTTCTT
CCAAGATTACTTTTAGAAATGCAACTTTATTTGTTGTACATGCTCACCTAATAACAAATCATGTTAACACCAAGGGATGCATTACCTCTGCAGCTTATAA
ACATTATGAAGCATACAGGCATGCACAAGTGAAAAATGAAAAGACTGATTTACTTTACCTATAGTAATGAGTTCTATAACATTCTGACCAGACGGTGTAT
AACTACATTAGCTGAGAGAATGAACCATTCTTTGAAAAAGTTAGCATACCATACTTATGTAAAAATGAAAGTTACTACTTTTTTCTTTATTTTCAATTAA
AGAGGGACCCTTATTAAAAATATTTTTATTAACCTGTTAGTCTTATCTTGGCAGCTATAAAATATTATATAGTTATATTTGRTACATGTGAGCATATGTG
TACATATACAACCATTAAGCCATAATATAAGTAGTAAATATTAGTTTTAATGAAGTGTTTATGAATTGGGACAAGAATGTCTGGAAATATCAAGCTAAAT
ATAATAATAATAGTTACATAATAGGTATATGTTACATCAGGGGCAATTTAGGTTCCTATTTTGAACTACTGAAATAATAAAACTCCTGTGGACACAGTAA
GCAGAAAAGTCCACAAGCCCATAGTAAAAAGTTGCCATGTCCTGGAATGTAGTAAATTTTCTAATCTATTACATTTCATTCCAATATTATCTGAAATGAA
AAATTGCTTGAGTTGACCAAGATTGTGTAGCAGTGTGTGAGTGATTGCTTGCTTAAGGACACCTCCCCTCTCCATCTTGTATGTCTCTGTGGGCAATCCT
GCAGGCTCTTAGTGCATCTTCTCTAGTATTTATCAAAACATGTCTTGTGTGTGCTTTATTCTCTTTTCAAAACTCCACAGAAATCTCTAACCTTTACCAC
TTGCTCAAATAAAGGACAGTCAAAACTAAGCTTAAAATGGAAAAGAAACCTCCTGAGTTTCTAGAATATATAAAATCAAACAGGGAAGAAAAACAAGTGC
TTTTCTACACCTACCACTCATACAGTGGTGATGTCTGGTATTTGCAAGGAAAGGGAGTAATAAGCGAGTTAATTTTCTTTGGTAAATATAGCGAGAAAGG
CTGGAGCAAGAGAGCTGTAGTGATTAGCAGGGCTCCAAGGGAAAGCCCCTTGAGCTACTTACTGCCTGCTCTCAGCCGAACTCAATATTGTACTGAGAAT
TATTATAATCCTAATAAGAAAGATGCCTCCTGTGTAGACACTTGAAGCTCTACACAGACAATTAAAATGCAACAATAAACAGCAATTAAGAAATCATAAA
AGAGAATGAAAATTAAGTAAATAGCATTATTAAAATAAATGCCTTTCTACCATGTGATATCTTAAATAGAAAACTGTAAGTTCTTATAAACTAAATTGTT
TCAGGATTAAAAACTTGCAGAAAGCAAGTTTCATAAAACATCTACATAATTATAAAAATCACAAATTATATGCATATAACATGAATTACATCACAGAATT
ATATATCACAATAATATCACAATATGCCACGATGAGTTATATCAAAATGTGCATGCAATGTACTACAATTAAGTGCCTACAGTCTCTTGTTTAAAAAATA
ATTAATAACCTAGCATTTCAACAAAATATGCATACAATTTAAATACTGAAAAGACACTTAGTGTAGTGTATTTAAATACTGAAAAGACACTTARTGTAGT
GTATTTAAATACTGAAAAGACACTTAATGTAACAGTTCATACTGTTTCACAAAAACATGATTTGACATAGATATGTCAACTGATTGTAAAAACAGCATGG
ATCAAAATGCTGCTTAAGAAGCAAAATTTTATTGAAAGACTAAAATATTGGAGATATAAATTCAAATTAAATGACAGGTTTTTAGCAGAAGGGGAAGAAT
ATATACATAAGTGTCCATATATTTCTATCCAAGTTAGTAACTTTAAATAAGTATTTATCTGTAAATAGAAATAATATAAATCACATATGAAATAATGTGT
ATATAAGTATTCATCTCCAAAATGCTTATTAACCTTAAACATTTGTACCTTTATTCTCTTATACTATAACATATGAGTTTTTAAATAGTTTTTTTTTATC
AGAAAGAAATATCTTACTGAAGTGTGAAGACATTTTTAAAAAGAGCTTCATTAGGAAGTCTTGGGCCTAATTGTTTTTTGTTTTATAAATTTTAAATGAC
TGCTCTGTGATGAGCCCATTTCAGTTGAGGCTGTATTAYTTTTCCTGTGGGTAAAATGACATACTGAGCTGATATGGACATCACTTCTCCCACTTTTGCT
ATTTTAAAAATACAGATATGCTGCATAAACATAGCAAATAGATTTATAAACATTTAGATTCAAGAAAGAAAGGGAAATTCCTAGATGTCAGACCAAAGAG
GGAAATCTAAGTTAAGCATAAGCAAAAGCTCAAGCTAAACTGAGCAACTGGGGTCATGGGGTGGAGGGTGGGAGACAAGTCTTAGTTCTAAGATCAGGGC
TAAAGTTTGGAGTTTTAATGCCCTCACTAGGACTTGACACTAGGATTTGGACCCACAGACGGAAATTGCAGCTGAACTCMCTGAAGCAGGGACACTAGAA
ATGCTTTCAGACAGTGAAATGGGGGCTAGAAAATTCTTCCTGCAAGCCTACAGAGGCAGCTAGAAAATTTTTCTCTTAGGGGCTCTGGGTGGGTAAAAGT
TACTACCTTGTGTAGGACCGAATCCCCAAACCTGTGTGCCACGTGGGAATGGGATACATTTTTATTCTCCCCTTATGTGCTGGCATTCTTCAACAAGTCA
AGGAAATGATATTCCCATAGGAAAAATAATACAGCCTCAACTGAAAATGATCTCATCACAAAGCAAGTAAAGTACACAAAAGGAAAATAACTACAAAAGG
AAACCAGTAGCCACAAAAATGAGGATATTTGTACACAAAGAACTAGAAAGGGTAGTCTGAAATAAATTTGTATTCATAAAAATCTGTGATCATATTCTTA
TCACATAAATCATAAAAATATGTTTAAAATGTACAATTATAAAAGCATGATTAGAAGATTGAAGAATAAACAAAGAAGGAATAGAAAAAAGTAATATAAA
ATAGACGCTATATTAAAATTCAAAAGTAACCAGGTTTGGAAAAGAAACATGTATAATTTACTTCCAGAAATGAAAAAAATATGCAGTCATTGAAATTAAA
AATTCAATGATTGGGTTAAACAAGAGATGAGAAACTGCAGGATAGAAAATCAGAAATATAGGCCTGAAAAAATTACCTATAAATTGACATAGGGAAGTAA
ATAAATRTGATGCTAACTGACTCACAGAATTGTAAAATTGAACAGAAGTTTAGCAGAAGTTGCCAAAGAAGAGATTAGAAGAAGTTGAGGGAAACAATAT
TCAAAAAAATAATGAAGGAGAGAAGAATGATCATGAGTTAAAAACTATTATAAATCCTCAGTTTGAGGATGATAAAAAATAAGTCTACCCCTAGTAGAAA
ACCTGTCAACCAGCAAGACAAAGAGAAAAATATTAAAACTGGGGGCAAATATCTTTATTGTGAGTGTTTACCACTCACAGTCCAACTTCATGGAAAGAAT
ATTAAATAATATATGTCCTTTAGTAAGAATATTGAACCCATAAGACAGTTTCACTAGATTATAGTCCAGAAGAATCAATCTATAAAAAGCAGTAGTATTT
CTATATGTCAGTGACAAGCAAATAAAAAATGTAATAAAAATACTTAGAATAGCAAGAAAAACTTCATGATACCTAAAAATAAGTGTTTGTAAAATTGAGA
TAATTTTTAAAGGTTATTGAAGAACATAAAATTCTAAATGAGGAGACAGCTGAGGATCACCAAGTACCAGTGAAAATCTGTGAAATTTGAAATGTTTACC
ATTTCTATTAATAGAGTTAATTAGTACCACAATTTAGGAGGGCAATATGGTATTATCTASTATCTTTGAAGGTGATAAAACCCTGTCAACCAGCAATTCC
ACATCCAAACATTTACCCCAAAAAACTCTTACAATGTATAGAGAAAAACCATCTAAAATGTGCTCAACGTAAATGTACTTACTATGATGAAAATGAGAAA
AATAAATAGCAAAAATAAATTGTAGTGTTTCCTTTAATCTGATAAAAGAAACAGTTAAAGTGGTTGAAATAGWTCTTCATGTATAAACCATGATAAATTT
CAGAAACTTCAGGTGGAAAAAACAATGTCATTATGGTATTATTTATATCAAGTTGTAAAACATAAAACAATGCTACATTGTTTGTGAATACATATATTAT
AATTAAAAAATTTAAATACACTTGTAGGGTAAGTACTAATTTCAGAATAGTAGTTACCTCTAGAGAAACAGGAAAGGGAATAAAACAGAAGTGAAATGAG
ATTCATTTGTATCTAAGTATCATTGCTTTAAAAATATATCTGAGGCAAATATRAAATATAAATATTTTGTTACCTCTAGGTTGCATGGGTAATGCATGTT
ATRTGTGCTTTTTGAATGTCTTAATATAATTTCTAATTTAAAATTTCTTTAATTGAATGTAAAAAAGAATTCCAGATTTAAAAAGAGGAGAATGAAATTT
TTAATACAATGTCAACTACATTATTACATTTTACACATAAGATTTTCTCTTCAACAATGATGTTAATGAATATTATCATCATTATATTTCAAAATGTGAA
AGCAGTGCTAGCTCAAGACACTCAAATGTTTATAATATTTTTGCATTGTTAAAAATGTTGAAATTTCTCTCACGAATTACAAGAGGCAAGTCAATCTCAG
ATATATGACAAGTCATTGACTATAAGTGCTGTCTGACTCTCAGTATTTGTTTATTTCAAGTACCATATGCTAGAAATTGGCTCTTTTGCAGTTTGGTGTC
ATATTATTTATGCAAAATCAGTTGGTATGTAGAATCTCACACATAATATAAATTGACATTGATCTAGTTAGGAACATGTGCTTTTATTTTTATCAAAGTC
TTATAATAGAAAGATAAATAGTGAAGTAGAAGACTAGAAATCAAAGTCTGTATTTTCATCTTGTTTTGCTTTGTTTTTATTGCATTTTCCATTAAGTCCT
TACAGGCCCACGAGACTATGTGATCTGGCCTTGGCTTACCTCTCCAGAATGTTCTTGAGTTTCAGTCACTGTTTTTCAGCTTTGCTTAAATTTCTTGAGT
CTCTTAGTTGTTTGTAGCATCTGGAATTTTATAAGTTCTATTCAGATTTCTTGGGATACCTCATTTCTAGCCCTATTCCTTTGCTTAGCCAGGCATTTTT
AATGGCTCGGCTTAACTTCAACTTTCTCAGGAAAGCTGCCCCTGCATCCTCAAGTCATATCATTCTCATGGCATAATCACTTTTCAAACCTTTTTCTTTT
CTTTTATGATCTCATAATGAGTAATTCTGTTTTATGTCTATCTTACCTCTGGTGATGATATGGACCCTATATATTTTCTTTACCATTGCACAATAAGAAG
ATAACACAATGACTCATACAAAAGAAAGAAGGAAGGAAGAGAACTAAAATCTCGTGAAGCTTTGACAGTCATTTAGCCTTTCCGATTCTGTTTTATAATC
TATGAAATGGTGTTATTGAATCTTTTCTGCCTCTCAGTAGGTATAATTATCACACTGAAGCCCTGTACAAGTATAAAGTATAACCATAAATACCTACTGG
ATTACTTTTTGTTGTTGTTTATATTGCTTTTCCCAAGTAGAGATAAGTTTCTGTTCTTTTTCCCTGAAAGGATTTTTATGGTGTGTTAACATTTTTATTG
GTTTTGGATTTCCCTCTTCTTTTTCATTTGTGTACAGGAATGGTCACTTCATTAACTTGTAGACTTGATTCCTGGGCATTTTTACAAATGGACTTCAATG
TGTACATTTAATCCTGAATCTAAATTACAGATGTAGAATTTTTGGCATAAAAGGTTCATGCRTGAATGAATTTATCTCTTGCAACCCCTACAGTTCAAAT
AATATTATGTTAGTCAATTTTTTACATGGACAGACTCTCTCCTTGACCAAATTTTGGAAAGTCTTCTCTGAGTCCTCTTTTTGATGAGGCCTCATCGTTG
ACCCTTGTCCTCAAACCTAGCTTGGTTAAAGCAAGAATTCTGCTAAGTCAGTGTGTTAAGAACACCTTACCCTTGATATCTGATCCCTCTGGCCTGTCTT
CAACAAGAATCCTGTTAATTTGGTTTAGCAAGAATCCCCCCTACCTACCCCTGATGTCTCCTCTTAATGATTGTTCGCCCCTGATCCTTGCTCGTGGCTA
TAAATCTCTACCCTTTTCCTTGGCACTGAATCCCTACTTGTTCATGTTGTATTGGGAATGGAGGCTAGTTCTTTACTAAGGTTGCTTTTTCTCTATTGCC
ATAGTTTCTCACTGAAGCCTATTTTCATCGTTTTAACTACTGTCCAGCTCTGGTTCTCTTTCACAATATTAAAAGCTGAACTTGTGAAAATTGAGAACTA
ATGTTTATGTATTTCCTTCTCCCTCCCTAACCCATCAACTATTATCTAGCCTTGGAAAAGTGTGTTTTAGGAGTWAGTCCTCAACAAATACTGCTAATTA
ACTAATTATCCTTCTTTTGTTAACTTATTTTAATACTAGGATGCATTAGTCTAAAGGTCATAACAGAAGAAAACCTGTAATTAACTACAAACTACCAAAA
AACCAAGCATGACTGAGAAATTCCTGAAGCAATTATCACACAAAAAAAATAACTTAAATGTCACTGGAGCTATTCCTGGTAACTTTGTCAGTAGTACTCC
CAGCTGACTAACAATCACAGTTCAATATGTACTGCTGAAGTTGTACCTAGTTTATAAAGCAGTAGCTTCTATGAGAAAGAATACAAGAAAACTACGGTGA
CTATTTCTCCAGAGAAAAACTGTACTGAGGAAACTATAGCAAAAAGAAAATTGATGTCAACACAATAGTATCTCACTTCAAGAAATCAAAAACAAAAGAA
CTTAGTAAAATTTTTCTAATTCAACTTTGTTTTTAAAGGGAAAAGAGAACTAAAGAAAAAAAAGACAGCCATGATTTTTTGTAGCGTAGGCCACAACATT
GAGCTATGTTCAAAGGAAATAGATGTCTAAAGCACACATTTCTTCCTAAAAGAATGAAAATTGGTTCTTTGGGAACAAAAATATCATATTGATTTTATGT
AAAGGCAAACATTCACATGGTGCATCTGTACATAAAATATATCTGGAGTATTAAAGTTTCATGGTGGGGATGATTATGAAAAAATGACTATATAGGCTCC
ATAGGGACATGATGATAAAAAATAGATTAAGTAGATTGAAAACACTAGTCTAAAGTGAAGTGATGTGTTTTAATATCATAATATGTGAGAATATAAAAGT
ATTTACGTATGGATTATTTACAATGGAAAAATGACTATTATAGTTCATATTTCATTTTATTAATGTAATTGATTAGAATAATGGTATAGAAATAGCAAAA
GCAGAATATTTGGTTTTAAGAAAATATGGTGATATAAGGGAATGAATATTAATTTCTAGAGTGGAAGTCTGTAGCGTTCTAGAAATTACCGTGTTTTATA
GGCTGTAGTGTGAAAATTATCATTAAATACGCAAATTGAAAAGAATCACTAATGGACTCTATACAAATAAAGTGTTAAAATGAATTTATTGGATCAATAG
GAGCTTCCCAGTAGGAATGCTGAGAGGTTTAATAGATTAGACTCCATTTTGTTTAGATTAACAGTTAAAACAACTTTAAAAATTTTTATTAAATTATGTT
TTTGCAACCATTGAAGTATAGATAAACAAAAAAAGAAAAAAATTAATTATATGTTAATAACTTTTTAAAATTCATCAGTACAAATAAATTATAGAATCAT
AAAGGAAAATAGAAATCTCATGATGATTAAAATAACATTCAGTCTGGAAGGTACAAAACTTTTACCTTCATCATTCGATATTTAGGTTCAATTATATTCC
CATCTATGCTTTAGGGACTGAATTGGATGGTGGTAATAAGGTATAATATATGGTCTGTGCCAATCTTATGGATGGCAAGAAAAGAACAAAATTATGGTTT
TACTGTGTGTATTTATTTATTTATTTATTTCAATAAATGCCCTTTAGTAGATATTTTTACATCTGGAGACATTCTCACATCTGGAAGAGGACACTGCAAC
AGTAGCCTATTTTAATCTTGTCATGAAAATCTTGGGATACATCTTTTTTGCTCAACTCCCTGGTTTTTCTGTCTTATTTTTTTCTTCGGGGCATAGTGGA
CACTGGTGATGAATTTGGTGTCAGATCCAGAACATGTTGTCTGTACCCCTCTTACAGCAGTGATTTTCTTCCACCTTGTAATATAMTTATCTGAAGTCCG
CCTCATCAGAAAGTACATAGGGAAACTATCGTGACTCTATTTCTCCAAGTAGAAACTGTGCTAAGGGAACTAAAGCAAAAAAGAAAATTCCTACTTCCTT
TGCTATAATCCTCTTGAGGGCATTTTTATATTCCCTGTGATATCTCATATGTCTTGTATATAGTAGTTCAGCTATGAGTTGATGAACRAATAATATAAAG
AATAAAGCAACGATAAGAAATAATGAGCAGAGCATTTATTAATAATTTGATATTGATAACAGAGGAAGTTAAATTATTCAAAGAGCTCAACCATAAAGCA
GATGGCTTCACTTTCAAGCTGGGAATCAAAAAACTTTAAGTSCTAGAATATTCATGTCAAGAGGATCTTCCAAGAATAAGCCAGGAATGCAATTAGGGGC
TGACTCATGGATGACAATGGTCGATGAGTCACAAAGAAATTTTGAAAAAACAATGATGTCCCTGGGGACACATAGAAAGAATTGGAACTAGACTGTCAAG
ATCATATATATTAACAAGCTAATAGAAGGCGGGAAATTTTGGTCTCTATGAAAATGTGCACAAAAGTCCCAGAACACTATACTTCTGTGTTTGAACTGTG
CTACTCTAAATTATATAAAATATACTCTATAATGTAGTAAAGAAAGATTTCTTTATGCCAATGTCTCACATTTTATAGACATTTTACCTGCTACTGTCAA
CTTAAGTTACTCAAGTATAGTTCTGTTGATTTATCTCCTAATGAACAACCGCTAATGACTTACCAATTCCTAAGGAATATCTCTTAGGATGGACTTTCTG
AGGGCAGGGCCCTGGATCTCAAGTACCAAGTGAAGTTCTAGCATACAGGAAGTATTAAATACAGGCTGAGTATCCCTTATCCAAAATGCTTGAGACCAGA
AATGTTTCCGATTTGGTATTTTTTCGGATTTTGGAATATTTGCAGAATACATACTGGCTGATCATTCCTAATCAGAAAATCCAAAATCTGAAATGCTCTA
GTGAACATTCCATTTGAGCATCATATAGGTGCCCCCAAAGTTTCAAATTTTGAAACATTTAAGATTTTGGATTTTCTGATTAGGGATGCTCAACCTGCAC
ATTTGTCTTGAAAAATAAATAATGAATAAACCTCCAACTTTTAAAATGAATTCTTGTTCCCAATGTCTTTGCTAACATCGGTCTCTCATTCTATCTATGT
CCACAAGTTGAATTTTTAAACCATGCTTCAAGGATCAGGTCAAACTCCACTCCTGTCATAAAGCTTCCTTAAGCCTTATAGCARAAATTAGTGCTTCCTC
TATGTTCCCGTAATTATTTATTTCTCAGATGCACTTACCATATTCCACCTTGCATTATAGTTGATTGTGAGTATATCTTTTTACCCAACTAGATATTGGC
CTTTAAAGACAGACTTATTTAAAGACAGACCTTGACTTATTTATCTTCATAGTGCCTAGAATTCCTACCCTAATGTGTTGCTTCAGGTTATTAAATAAAA
TTGAATGTGAAATTATTTAATCATATTTTTTCAAGGTCATTTTACTAGGCTAAAATGGAGCTAAGGAAAATGTAGCTAATGTCTGCAAATTTCTAATTGT
TGAACTTAGTCTGAATCTCAGAATAGTGGCATTATAAGCTTTCAAATTAGAGTAAATGAAAAGTAGATTAGACCAAGCGCATAAGAACACAGTATACAGA
ACAGCTGTACTGTGTCCTCAACGGGATAAACTAAATCATAATTACAGATATGTTTCATCTTTCTTGCCTTTATACTCTTTTGAAGATGCTCTCAACTTCA
GTGCTTTGGGGATTTATTTGTCACTGTAAGTCTGAAATTAGTTTGATTAGTTTTGCTGATATCTATCATTTCAAAATGTCTGAAATCTGCCTTAAAAAGT
AAGCTGGCACAAATCTTGGGGCAGTGCTTATTAAGGTTCCCACATAGAAGTGGCTGAGTTTGTAAATGAGTCATAGAAATTCAGTATCAAAAAGTTAATT
TAAAACAAATTATTCTCTTGGATATAAGGAGGACTGCTTTGTTTATTCTTAAATTTTTCTCCTTACTTCTTCATGCTATTTTTCTCTTCTCTTCTGATTT
TCCTTATATGTTCTCAGATTTTATCATCCCTATCTTCTGCTCAATCTGGGTTTGTTTAAAGTGTTTTTATTCAGCTCGTACTATGCGTATAGCACTTTGC
TATGCATGAAAAACATGACTGCCAAGAGATTTATTTGAACTTAATAAATTTTATGAAGCTAATGCTCAGTGCTGTACCAGGAACCATGTTATTTTCTCAG
ACTATAAAGTTAGTAAGACAGAATTTCTACCTCTGAATAGATTATGGTAGATAGCTAGAGAGAACAATCTTTGAGCAATACTTTTTTGTGGTTGTGATAG
GGTAATGTATACAGGGCCACGAAAACTACATGGAGAGAGAAGTTAGTTGTCCAAGGGAATTTTTTAAAAAGCCTCAGTATTGATAATAAGGGAATTCAAG
GAAGAGGGGAAATGTAGAGAAAATGCGTATGTAGGGAATATTACAAATCTGTTTCCTGGAAAGCAGGATGCCTTCCTTTAGAATTATTAGTTAAGATTAA
CCACTCTTTAAATTGAGAGATTATATCCTWCCCTGTTTTTCATTATATGGTCAGCTTTCACTGGCCTGAGTCCACATTTTAAGCTCAACTATATACAAAT
AATTTTTCAGWATACTGAGAGTAGGATTAATGAAACCAGTCTGGAGAGCAGTCACAGAATGAGAATAGATCTTTCCCATAGTATCACTATGTGACTAACT
GATTGTACTGATGTGTTACAGAAAACACTGTAAAAAGTTAACCAGAGGAAAACTTTGCTTTCTACTTTATCTGATCTTTACCCCAGTTTCTCTACCTGTC
AAATTCCTATGCTTGCCTCAAATGTACATATTTTTAATCTGAAATGTGAAAAGTATTTATAACTGGTGTAATATCAATGTTCTATTATACATCCATGCAT
TAATGTCTTTAATTTTACCATGAAATTAAATGAAGTACCTCAATAACAGAACAGTGAACTTTAAATGAAGTAGCTCAATAACAGAACAGTGAACCTAACT
GGCCCCATTTTAGTCAATCTAATGCATTCCTGCACAGGTATTTATCATGACATTTACTYTACACTCAACCTACATGAAGATCAACATAGTCACTTTTACG
AGAGTAGATTTGCATCCATCCAATAATCTTTCTCACCAGTGTAATTAGAAAGGATACAGCTTAACACATAGCTTTTGAGCAGATTTTTAAAAATATCATT
ATACGTTAAATATAGTTGAGAGGGTAAAATGAAGAATGTACAGTTAATATTTTCCTTATACAGACATGGACGCAGCTCATAATGTTGAAGGATACCTCTG
TTGCTGATACATCTCTTTATTTGCAGGAAAATGTTGAAGGAGGAGACTGYAGTCGTTGCAAATCCGGCTTCTTCAATTTGCAAGAGGATAATTGGAAAGG
CTGCGATGAGTGTTTCTGTTCAGGGGTTTCAAACAGATGTCAGAGTTCCTACTGGACCTATGGCAAAGTAAGCAAGCACCATTTGGTTCTGTTTGCTGCC
CCAGCAGCCTTCTTTGTTGCTTTCATCGTTGTTCTTTTGTATGAACAGTTTCTGATAGTGAACTTCTACATAAAGTTACAGGAAGAAGTAATGGAATTTT
CTTCAAATGCTGTTGTGTATTTTTGCTCAAAGCCTTTGAGGTTGTATTTGTAATATTGTGTAGACTGGAATTTCTTAGAATAGGTAGACATAGTCTTTTT
AGTGTCCATGATTACTCTATGAAACAATAATGCAATTAAGGTTTCAACTCCAAGGGTGCATGATTTAAGAGAGAAAACACTACATTGTGATATGAATTAT
ATTTTCCATTACTAGTATGTTCGTATGCAAGTTGAGAAAAACTCTGTATCATCTGTATACATAATACATATTATCCACCAACGCTTTAGTTACTATTTGA
TGTTGCCTAGGCTCTTTCATTATTAAAAGGGGACATTAAATATAGGCAATACCTTCATTCTGAGTTGGTTTGAAAAATTATTACTTAAACTATTTAATAG
CAACTGAAATTTTCTTTCTTTAACGTAAATGTGTTTACCTTTCTAACTTCACTGCCTACACTACCCACTGCCTTTTCAAATCTGTGCAAAGAGCATGTTG
TCTCCCTATACAGAAAAGTGTCAGAGGAAAATGGGACCTTCTGGGAATTTCACACAGCCTGTGTGGCTGGACTTAAGAGTGCAGAATGGTAGGAAATGGG
CTGGAGAGAGAAAGAAGTCTAGACGGGGGAATGAGAATCTAGAACTTATAGGGTTGAATATACTAAGAATTTGAGATATTTTACTTGGAGTGTCATTGAA
GAAATTTAAGCTAAAGACTGACATTATCAGAGTTGTGTTTTATAAAGACTACTATTTAGATAAACTATTTCCTAAACACTTCTTCCTTTCAACTTTAATC
AGTGAACTAATCCTGAACAGAGCTATAAAATATTTTCTCTGCCTGCAGTGCTTTTAAGTCAAGCCTCATATTATGAAATATTATCTATACGTTATCAACT
GTATTGCTTTCAGAGCAGACTTCAAAGAATCAACCACAGATGGACATCTAGTCTAACTTCCTCTTTTGTTTATAAAGTCCCACCCCACCCTCCAGACTGC
CCCACTGATAGATCAAAGTTTCATAGCCAGCCAAGGGGCAGAGCTGGTACTCAAGCTTTGATCATCAGATGCTAGAGACACAGAATCCCATTCAACTGTC
TTACAATGCCTCAAGGGTGACGTTAGAAAGGGAAGAAATGCAAGGAATATATTACTTGTTGTCCAGAAAGTCAACAGGTTGTACCTGGTTTCTATTTCTC
ATTTAACTAAGGGAATTGCAGTGATTCCACAGCTTTGGGATAAGCAGAGTCAAATAGTCTATGAAGAAATTTTAAAAAATATTTCAGCCACATAGAGTCA
CCCTTAGCATTCTGCTTCCCATCACCCACAACATGAAGCAGCTCATGCATGTCTAGTAGGTTCCTGGTAGCTGGTACCCTAAGCCCTCAGTAATCAGTGT
TTTGTCCTGACTAGGTAGGATGCTTTAAATTAGASGTGTAGCTGTAGGCCTGACCTTGGCTGAAGCATAAAGATGTAAAAACAAATCATTATGCATTCCC
AGATTCCTCCTTTAAGGTTCCTTCCATTTCTGGGCCAGGGATCTAGGCTGTAGGTCCCCACAGCACTTCTGACCCTATCTGAAGGAATACATACAGTATT
GCCAGGTGTTGTCATAGCACCAAGGCTGGTGGGTTCAAATATCCTTAAGCCTCAAAGTAGAAATTTTAAAAAGTGGGAGGGGTGGAAATACTGAATGAAA
CACCACCTTTCAGGTACTTGCATAGTTTCTTTCTTTTTCCCTCTGCATTACAAATACATACGCAATACTTTTTCAGGTTGTTTTTTCCAAAAGCAACAAT
AAACTACTAGTGGAGTAAAAAATAYGGAACTGAAAGTCCAACTGTTTGATTAAGTGTATGTTATAACCATTGTATGACTTTGAGTGAATTTCTATTTTTA
AGAAAGTGGTATTTGGAACCACAATTTTTTAAAAAGCATAGGTTCAATGAAAACAGATTATTATAGAATACCTTGGAAACTCCTAGAAACATCAAGGAAA
AAAAATAAACAATGGAAGCCTATGTGAGTACATATAATATGTCTAATGATATTCATAATGCTCAGGTTTTTTTCTAAATGTTTGTGGTTTGGTTTTTTTT
GTTTTTAATTTCCAAAAGTGGACACGACCAGGAACATGAAAGAGAAAAGCAGCTGATAGATATTTTTTAAAAATTAATGATGACTGTGTGTTTTCTCTAA
GATACAAGATATGAGTGGCTGGTATCTGACTGACCTTCCTGGYCGCATTCGAGTGGCTCCCCAGCAGGACGACTTGGACTCACCTCAGCAGATCAGCATC
AGTAACGCGGAGGCCCGGCAAGCCCTGCCGCACAGCTACTACTGGAGCGCGCCGGCTCCCTATCTGGGAAACAAAGTAAGTCCACGCTTGCTTCCCGCTA
TTCTGCTTTAACTGACTGATCGTGAGAATGGGTTTTAGTTGGTAATTCTTTTAAAGAAAGACAAAATCAAATACACACTGAATTGGATTGCCAGAACCAG
CTAAATCACATTGAGTTGGGCGTTTCTTCCATGTTGCACAAGACCTTAAAGAGCCACGGCATCCTTAATATGCAACTTTGTATAGCTGATGTTCTATGTA
AACTTTTTGAATGGGCAAATAAATTAATGAAGCCGCTAGTGTATTTTCGTAAAGCAAATTATAGGTATTGGAAGAAACTGTGTTGTGTTTATGTGAAAAG
AGCTGTTTTCTGGAGTTGTCTGTGGTGGGATACTTACTAAAGTTTTTCTCATCGGTTTCTATTTCATTTCAAAACTGATACTCAGGAGATTTACTTTTCC
TTCTACCTGATATGAATGTTAATTGGAAAAGAAATGTATTACATAACTAATTAAATGCTTGCCATGAGGCTTATGTAAACAACATATTTGCTGGAGCTCA
GGCAGAAACTACCCTAAAAGTGCCAGATTGGAAGCACGTTTGTTTTAAAGCCCACACATATGTAAAAACATACACAGATAAACAAATGTAGCAGCCTCAG
AAATACAGGCTTATTTTTTTCTGTTGTGGATTACTTCTATCTAGATAGATATCCTGGGGTTTAGAATTTTATTTTATCTTGCCTAATACTTTGTTGGAAA
CAAAATTTGGTGACTTATTTATAAACGTGAATACTTGCTTGTTCTGTGAAAGTTAATACCTTCTCAGCTGATAGTTAAAATACCTGATCACACCAGAAGG
TGTGATGGGAAAATCCCTTCCTAAATTAATGTTGTTTAAGCCTAGTTTACACCTAACAAAATATAGCATTATTTATGAAGAAATCATAATTGATTAAGCA
AATAAAAGTATGTTTATAGTCAGTGGTTTTCTTGCATGACATGTGAGTATTGAAATAGAAAAACTTAGTATCTCATATGCTACTCAGTGAATGGGAACTG
GTGGTGTTGGCTGGTTGAAACACTTTTAACTTATGGCCAGTTTCTTATATTTAACAGAACTCTGAATGCTATTACAAAAAATGTGTAAATGTCTAAAAGA
CATTTTCARTGAACATGTATTTTAAGAGACAGAGTATGTTGCATAAAATTCAATAGCTGTAAAATAAAAATCGAATTAAACTTTTATTTGCAAGGCCCTT
TACAGCAAGAAGTCATTTTATCCTATTCTATTTAGGAAACTCTGGTATTCCCAAAAGAACAAAACAGCACATAAGACTTGAATTTCTACTGCTTAAAATT
GCCAAAAAAATATAAAAATATACTGTCAATTTAAAAAAAAAACAACTGAGAGCTCCAAGAAGAGCCTTAGGTCAAAATTGGATGAATTTCAGAGGCCTTA
TTTCTTATATGATGGCAACACTTAATTAAAGTAGCTTATAATAGAAATATTCTTTACCAGATTTTCCATCCTTTCTTCTTTGGTCATATGCATTTTTTTT
TCTGTTGGCTGACAATCAAACTGACAGAAGGAAAGCAAGCAAATGGAATATTCGGTAGAATCAGAACAAAGAATTTGGACATCCCATTAGTAGTTGTTGG
TTCCCGAAGATAACTTCCCTTATCCTGGCTGAAATATTTTTCTTATAACCCACAGTGAAGCTCTTCATATTCCCCTACCGATCATTTTCACATCAAAACA
CTGTTCTTGCCTGTACTGCCGTTTCCATTCAGTGAACAAAATAACATTAACAGGGTGTGCAAATTGTTTGAATACGGAGGACATTTTTAATGTAACGTGG
AAGCCCTTGGTGGTTTACTGTCAGGCATCTCAGTATGAATGAAACAATTTGCCTTAATAACTGAACCATGTAAATTTTTGATACTACAATAATACTGCAA
GCTCTCAGAAATTACCACAGTACATCTTAACTGTCATGTCACATCACGTAAATTATAGTCATGATGACATGCTTAGCTTGGTTGATTTAATATCTTGCTA
AGGAAGTGGAAAATTGTAGGGCCTTGTTGGTAAATTCAATAAAGCCACTTTTCTAAATAGTTGAGGCTAAATTCTTTACCAGTAATTGCTGTTCGAATCA
GAACCATTGCCAGAATCTGACAGAAATAGCGTATCAAGATACAAGTGCATCTGCTTAAATATTGAATTTTATTTACATCCATGACCAGGAGTCTATGGTA
CATAATCCTTCCTCTGCTTTTTTAGTGTTATTTCCTAATTGGAAAAAATTATGAGATGCTATTAGCTTTTCCTAAATATTTATATACAGACTTTCAAACA
TTTTCCAAGTTGCTTGGTTATAAGGCTTCTTCTAACAGAAGGGCGATATGCTGTGCATGTTCTCTTATAATGGAGATGCCACATGCTGTTATTCTTTTTT
TAGGAGCCTAATCCCAAATAATAAAAGTGGCTCACATGGGACACATTTTTGCTAACATGGATGTCTGCCTGGTTGTAATAAAACTCAAGAATACTAGCCA
ATTTAGCAAAGGAGTGCTTTGTATCCTGTGAAACATTTTTCACATTTTTACTGTTTTGGAATAATGAAGTATAAGTAAGTGATTATAAGTGTATGTGTGG
ATAATGGATGAGGCCTAGGAAAACTTAGCACGTTTTTATACTTTCTATTTTTGAAATTCCCACAGTCTCAGCTAGGAGTTGTTCCTCCAATTTTTTCCCC
TATGTACCAGTGAATATTTGGCACAACTGGCAGAATCAAGTGTTAATTTTCCCGCCTCGTTCTTGATAGTCAAAGAGAATTAAATCAGGCACCCACAGGG
CTATCCTAGGTGCATTTCATTTTCAAAATGCTTGGCAAATGTTAATGCTTGGTTTTAGGGCATTTGTTTAAGCAACTAGGCAGCAGTGGAAAGAGCTAGA
GGACAAAGAATCCTGCTGGTTTGCTGCAGGCTACAGCTATTCAGAAACAGTTTGGGAATTTCAGAGTTGGGATAATTTACTGCCCTAGTAAACTAAGTGC
TACTGGAACATTGCAACAGTCATTTGCTTAAGGTTGCCCTAGTGGTCTGAAATAGTTGAGGCAGCTTCCAAAAGCAATTCTCTTTGCATCTGTAAAGTTC
TGGGAGAAGCTAGCTTGGCTTGTCTGCTGTTCCTGCATTACCATTAAGGTTTGAAATTCTCTCYCTGAATATTATTAAATTAATCTTATGTGATTTGTTC
TTTACCAAAACCTGCTTATTTTCTACAGCATTATGCTATCTTTCTGTTTCTAGCTTAGAGAAGCCTTTAAATTTGTTCATATAGTTGCCAAGAATACCTA
TAGTCTAGTTTAAGATGCACATTAGGAGAGTCTGCTGACATAATAGCATCTGGCTTCTAAAAGTAATCTCTGGTAAACTCTTTTGTTTTGTTGTTCTTGC
TTGACTTTCCATTCTACTTCACGGATCTCAAATTAAAGCTATAGATTTGAAGAAGGAAAYTGATATTTGAGATTTGTAGGACAGGGTAGATCTCATCATA
TAAAAGAAGCTCAACAAATACCTTGTAATTGATGCTACATGCTTAACACAAACAAACAAAACTCTAAGAAATTGTTTTTTTTAGGTTGCTCAGAAATGCC
CATTGAGTTGGATTTGTGGGAGTTGAAAGATGAATTCTGTCTTGCTTTACAAAATAATTAAAAACTCGCTAACAAATATGTTCCACTCTCCTTTGAGCAG
CATATTTTGTGACTTCTTTGCTCCATAGTCCTCAAAATTATTCAGAAGTGGAGTTCAAACCCCTCCTCGCCATCCATAACTTCCTCCTATTTAAATCTTG
GATTAAATGGGTTAGTTAAGAAGATCATTATGCAAGTGAAGAATGGTATGGCTATAAAAGTAAATAGGATAAATCAACTGTGGTTGATTTTTTATTCCAT
AAATCAGATCCCATCAAGACTAACTTGGCAATGGAGTAGAACCAGGAAGAAGGTTTGCTGCCTAGAATAAACTGAATGAATTTGTAAACCAAAAATAAAA
TTCTAAGACCCCTGACTGAACGGACCCCCTTCTTGGCCAAGGGAATCCCAAAGAAACCTAAAGAAACCTGAACATCATGGGAAGGGACGATTACACATTC
CTCATTATACCCTGCTCCCTTTGGAGTTTAGACACCACAGACCAACAGTAACATTAAAACAGAGATTTTAAAACTGACTAGACAGACACTTTACAGCAAC
AAGATACCAAATTCTAACCTCACTCTGGTATAGCATAACATAACAGATAGCAGGCCCTAAAAGAAATCAAAGTATTTTATACCAAAATATATTTATTTGA
CATATTCTGAAATGACCTTGCAAAGCTGTCTCTTGGGGAAATTTGCATTCTATAGAGAATCTCCTTCCCTTACTAAGTCTTTTCTGGAGAGTCAGATACC
TTTTAAGGTCTGGCAAGAGACATTCACCATCAGCCTGCTACTTTACCCTACTACCTTGAGGCTTCATCTACATGACAAGAACCGTGGCTTCCACAACCCA
CTCTCTTAACTCAAGCTGACTTCAACTGTTCAGGCAGAATTTTACTCTTTCGACCAATTGCCAGTCAGAAAATCTTTGAATCCATCAATGACTTGGAAGC
CCCCACCTCGCTTCAAGATGTCCTACTTTTCTGGGCCGAACCAATGTGTAACTTAGTACTGGTGTATGTCTTTGCCTGCAACTTTCGTCTCCCTAAAATA
TATAACGCCAAGCTGTAACCCAGTCATCTTTGGCACATATTCTCAGGACCTCCTAAGGCTGTGTCACAGGCCATGGTCCTTAACCTTGCCAAATAAACCT
CTAAATTGATTGAGACCTGTTTCTGATACTTTTTGGTTTACAAATTGTTAAGGATAAATGAGAAAATAAGTATTAAAAAACAAAAAAAATCAAGGACTCA
TTTATTTCCCATAGCTATGATAGAATCTGCTGTGTAAAAGTAACACAAATGCAGGAGCTCAAGGTCAAACATAGAAACCTCTGTCTTACATATCCGTCAT
AACATTCTCTTGACGTTTTTCCTAATTAAATTTATAAAGCATTAGTTCTAATGTTAAAAATTGTTATATAAAAAGCATTTTAATATTCACATGCATCTGT
CTACAGTGTTTTACATTTTRTTTATAATTCGTCAACTGAATGAATACTAGATAGGAGAATGTTCCATTTAATAAAAACTCTTGAGAAAAATAAAATAGCT
TACTTAACAGTAATTTCAATGTGAGTTGGTTTGTGATGTGGTTGGCAACAAAACTTACGTAATCTAGGGCTACATTGGCAGGAATTTACTGGTCAGGACA
AAGGAGGTAGTGTTTATACAGATTCTGCACAAAACGCATGTCACCTAATATTATTATTAAATATTATTAAATATTATTAATATTTAGCTTACTTGTGAAT
TTCTCTTTTTATCTTTGTTAATATACATGACCCAAGTCATCAGCTAATAAACCAAGAAATCCAAATTAGGAAGAAATAGAGCCAGGATTACAATCCAGAT
GTGTCTATAGCCCATTCCAGTTAAGCATTTTTTCAATCAGTTAAGTTTATTAGTTCTTGCAAGGCATTGATCTTTGGAATAGAGATGCTGAAGCAGCTTA
TTCAAAAGAAAGGGAACGACAAAGATATGAATTTATAAAAATACAAATGAATGAGATGAATAACAAATGTCAATAGAGGGGACACAAATCCAACAAGTTT
TTTAAATGGTTTCAAAGCTCTGGCAAGATTAATCAAGCAAAACGTGGGTAAAACACAAATAAACAATTTTAGAAATGTAAAAATGGGCATAACTGCAATT
ACTTCAAAAATAAACAAATAAGGAAGTATCAGAAAATAAACAAATTAAGAGTATTATGAAAATTTACACACAATAAGAATACAATTTAGAAAAAGGAATA
TCCTTCTAGGAAAATGCAACTTAAAAAAACTGACTCAAAGAAAAAAAATCTATAATGTCAGATAAACATTAAAGTAATTGAATCAGCAGTCAAATAAACC
TTCCAATGAAGTTAACTCCAAGCCTATTGATTTGCAAGTAATATCAATCAAAATTCAAAAATTTTTAAAAATGCAAAATTATACAAACTTTCCAGAGAAT
AGAACAAYTGGGACGTACTCCTCACATAATTTTATGTGGCTTGATATAAAATCTTGACAAGAGGACTATGAAGAAGAAAACCCCTACCCAAAGTCACTCA
TGAACGTAGATGAAAATATCCTAAATAAAATATTAACAACCCAAATCCATCAGTTTATAAAAATAGTCAGGCTAAATTGGCCAAGTGGATTTTATCATCC
GTGTTTGAGGTTACTTTAAAATTAGAAAACCAGTTTAAGTAATTGACCATATTGACTGATTAAAAGAGAAAAAAATCAATTATCTCAATAGACACAGAAA
AAGAAATGGGTAAAATTAAACATTCTTCATGTCTGAAAAATTTTGAAAACTAGAATTGGAAAAGCACTTTAACTGATGAAGGCTATCTACATAAAAATCA
ATAGCAAATATCTTATTTAATATAAAATGTTCAAAGTATTGTTTAAGATCACAAACATGAAACAATTCTCACTATAACGACTCCCACTTAACATTGTGCT
AGAAGATGTGGACAGTGCAGTAGATAGGAAATAAAATATATAGGGATCAGAAAGGAAGAAATAAAACTCACTTATAGATGATATACTTATCTGCTTGTAA
AATCAAGAGAATCTACAGACAAATTCTTAATCAGTGAGTCAATAAGGAGACTATATGCAAAATTAATATACAAAAGTCAATCATGTTTCTTTATATCAAC
AACACTTTTCAAAAAAAATTTTTAAGAGGCCATGTATAATAGCAATACATATAAATAGTACCAAGGATTAAATTTGTAGGGAAAAGCCAATGGCCAAGAA
TAATCAAAAGAAATTATAGATGGGGTGCGATGGCTCACATATGTAATCCCAGCACTTTGGGAGGCCAAGGTAGGTGGATCACCTGAGGTCAGAAGTTCGA
GACCACCCTGGCCAACATGGCAAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGACAAACGCCTGCAATCCCAGCTACTCGGGAGGC
TGATGCAAGAGAATTGCTTGGACCCAGGAGGCAGAGGCTGCAGTGAGCCAAGATTGGGTCACTGCACTCCAGCCTGGGGCATAGAGCGAGACCCTCTCCA
AAAATATATATATACACGTGTATATGTGTACACGTATATATATGTGTATATATATACGTGTACACATATACACGTGTATATATATATACGTGTACACATA
TACATGTGTATATATACATGTACACATATACATGTGTATATATATACGTGTACACATATACATGTGTATATATATACGTGTACACATATACATGTGTATA
TATATACGTGTACACATATACATGTGTGTATATATATACGTGTACACATATACATATACACGTATATGTGTACACATATACATATACACGTGTATGTGTA
CACATATACATGTGTATATACATGTACACATATACATATACGTGTATATGTGTACACATATACATATATGTATATATATACATGTACACATATACATGTA
TATATATGTGTATGTACACATATATATGTGTGTGTATATGCATATATGTATATATGTGAGTGTGTGTATATATATATATTTAGAAATTCTAAAGGAAAGA
AGTGGGGCTTTTTGGAAAGGGATTAGGTCATGAGGGTTCTAATCTCCATGAATGGAATTAATGCCCTTATGAAAATCTTATCTGATATAAAGAGTTAGGA
CTTACTTTAAAAGATATAATGACTAAGGCAAAATGCTATCAGTGTGAAAATAAACCAATAGACCTGAAAAAATAGCCCATAGATATCACATACATAGATG
AATACTTAACTTTTATTGAAATAGGCATTGCAGATCAATGACAATGGGATAGACCCTATACAGTAAATGGTCTGGTACCACTGATTATCTAGAGAAAAAA
AATAAAATTTCTGCATCCTTACTCCACATTATACATAAAAATAAACTCCCCTTGAAACAAATCATAAATTTTCAAAAATTATGCTAAAGACAAACCTTTA
TAAAGACAACACATTGAGATTTCTGCTCCTGACCATAATTGAATAATAGTATCTAGATTTCCTTATCTACCTTAAACAACAACAAAGCCTGAGGGGGAAA
AAATGTGGAACAACAGTTTTTAGACACTCTTCCACAGATAGCATAAAACTGTGATCTCTGAAAAAGAGAAACAAATGGGGTGAGGTTTACAATTGCCCCA
AGATTATTGCCTGGGGACAGTCTCCAGGGTGAAGTGCATTGGTATATTGAGAAAAAAGCCAAACACAGCCTGGCCTTGCCAAATTGAAAGACAGAGGTTA
GGGTTCATGGAGGCCAAGGCAGCTAGCATTTGTGAGGCAGCATACAAGGGAAGAGGAACCTGACCTGCACAGAGAGAGAGACGAGGAGAGAGCTGCAGCT
ATCTGCAAAGAGAAACCGGAGTACTGAGTTGCAAATATGTGAAAGAAAACTACCTAAGGCTAATGAAAGAATCACTAAAAAGTAGTAAGAGAAACAATTC
CTGAGCTGATACAGGGCTGCTAATAGTTTATTTTCCTAACACCCAAAGTGGAATGTCTTCATAAGAGGGACTAAATTAGCTCCAAACTACAAGCTACTCT
AGGTTCACCCCAACAAATCTTGAAAACAGCCTTAAAAGAAGTCAACTTATTCCAAATAAATTAACTGCATGCCAGAACAAAGTCCAATACTATTTAATTA
CAACAAAATCCAGCACTCAACAATGTAAAATTCATGATGTTTGGCATCAAATCAAAAACTACCAGGTACATAAACAAGCAGAGCATATAAGCCACTACCA
GGAGGAAAATCAATCAATGGAAACAGAACCCCAAATGGCAAGAAAATCATGTCAAGATATATCAGAATCAAATTATTAAAAAGACAGATAACTGGAAAAT
TGTAAAAGCAATCAGAAAAAAACTAACATGGCCAGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACGAGGTCA
GGAGTTCAAGACCAGCCTGGCCAATATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGCACACCTGTAGTCCCAGCTGC
TCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGATGGTTTCAGTGAGCCGAGATCATACCACTGCACTCCAGCCTAAGCAACAGAGCGAGA
GTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAACACAACAGGTGCAGAGGAACAAAGATAAGGAAGAATAGTTTCTTGTCAGACCCT
ATATGCTATGGTCCAAATGTTGGTGTCCCCCTAAAACTTATATGCTGGAACCTAATGCCTAATGTGATAGTATTTAGAGGTGGGGCTTTTGGGGGAGTGA
TTAAGTCATGAGGGCTCTAATCTCCATGAATGGGATTAACATCCTTACAAAAGAGGTTGAGGATGCTGCCTTGCCCTTTCCTTTACGTGAAGGGGCAGCA
AGGAGGTACCACCTTGGAAGCAGAGAGCAAGCCCTCACCACACATCAAATCTGCTGATGCCTGGATCTTGGATTTCCTAGTCTCCAGCACTGTGAGCAGT
ATATTTTTAATGCTTAAAAACTACCTAGTCCCTGTTATTTTGTTGTAGCAGCCTGAATGCATCAGTACACTTTGCAAGCCAGAATACAATACAGAGATAT
GTTAAAGTATTAGGAAAAAACAACGCAAGCAATCAAATGAACAAAACAAATACTATCAGTCTATAATTCTTTACCAGGCAAAAATGTCTTCCAAAACTGA
AGAAAAAACAAAGATTGTTTCAGAGAAATAGAAGTTGAAAGAATGTGTCACAGACTGATGTACACAAGAAGAAATGTAGAAAGTTCTTCAGGCAAAAGAA
AAATGTTACCAGATGGAAATTTACTCCTACAAATAGAAATTAAGTGTATCAAACAGGTGAATAGCAATGCTTTGTCACTAGTGCTAGCTGTCACAAGACC
TCTAGCCAGTCATGTTTTCAGCTGTAGGGCCTAACACCATGGTTAAGGAATGGTTACCTAAATACACAAACTTAAAGTAGAACTTCAAATACTTCCTGTA
TAAAATTTTCCCTCTGAAGTTTTAAAAAGAAAGACTGGGTTGTAAGAAGAGTATAAAAAAGGCTTGCTTCTCCAGCTCTCATTTCTCATTTCAAACTTAA
AGAAAGAAAACCAGCACCAATTTGAAAGTGTTTCAATAAACTCTCAATGTAAAACTTCACGTTGTTTTCTGTAGCTTTTCAGTAACTTCTTACACTCATG
TTCTATGTGCGGCTCAGKGGGGAACTATCTGTATCCAGTGGATTGTTGGTTCTGACACACTAGCCTACGTGCATATGGGGCAACCCCCAACATGCTGGCC
CCTGCCACTTGCAATAGATCAGACCCACCCCTTGTGGTTGAGTGAGGCAGTATTATGTCAATTCTAAACCTGGCATTTTGTTTACTGTTGTTGAGTGTTG
TTGGTAGTGGGAGAAGAAAATAGGTCACAGACAGTGTGAAGACACAAGGAGAAGACAGCCATCTACAAGCTAAGGAGAGAGGGCTGCAACAGCTTAATTC
CTTGTAGTGTTCATAAAGAACCAATCCTGCTGACAGCTTGATCTCACATAGCAAAATAATACATGACTTTTTTTCCTCCTTGATTTCCATGAGAATTGGG
TGAAAGCTATTACTCATATAAGCGGATGACCTGATTCTCTCATTTTTGTGGTTACCTTTGATTAGTGTTTTGGTCTTTATGCGTTTCACAGACCTGATTC
AAATGCTGGATCTCTGCTTTATTAGCTTTGTGATCTTGGACATATCCCTTAATCTAGTTGAGCCAGATTCTCATTATCTGCAAAATGAGGCTTCTAGCAC
CCCTCAGAATTGTACAAAGCTCTCGAAAATGTCCTTAGCACACAGAAGCTGTCCGATAAATGCCAATTGCTTTATGAATTTCTGTAGTTGTATGCTGCAG
TAATTTATTTTGGAGATCTTCCTTATATCAGTAAAAGACGTTTGTTAAAAAACACTTTGTCACCTGTCTGACATAGTATCTGGTGGTAGTAAGGATAAGA
CATCATTAAAAATAAAAATTGACAATCAGAGAGAGTTAATTTTAGCAAGTACGTAGATTATATGCCTTTAATGGCAGCTTTGCAGCAAAGTGCAAAACAT
AAATAAATCAGTTAACCAGATTTGTGAAATACCCGCAGAGTGTTTTAGACTTTATTTTGAAGGTGCCAAATTAGAGCTAACATGCATCGCTTCATGTCTT
CCCAAGAAAATTACATGACAAATATCTATCTCTGCTTCACTGACAACCTGGCAGTGAAAGGGATTTGAGGTTTGTGCCCATCAGTAACTAATTAGAGAAG
TAAATGTTATAACTAGTCAGTATTCTGTGGCTACAATGTGGCAAGTTAAAATAATATCCTTAAGGTGGGCGCTAACGCAATATGACTGGTATCCTTATGA
AAAAAAAAAAAAAGGACAATTTGGAGATAAACACACCGACAGGGTAAACACCATGTGAACATGATGATGGCCATTCACAAGCAAAGGAGAGAGGCCTGGA
ACAGATTCCTCTTAGCCCTCAAAGGGAACTAACCCTGCCGATACCTTGATTTCAGACTTGTAGCCTCTAGAACTGTGAAACAATACATTTCTGTTGTATA
AGCCACCCAGTCTATGGTATTTTATTATGGCAGCCCTAGCAAACCAATACAAATCATAAAACATCAATTATTTTTAAAATCTCATAATTTTCATTCTTGT
TATATATATATAAAACAAATAAAAGGTGACTCTCTCTAATGTATAAAGAAGTTAAAGAAATTGATAACAGAAAGGCCAGCAGTCCAACAGAAATGAATGA
GCAGTTTATAGAGAAGGAAATTTAAATGGCTCTTAAATGTATGAAACGGTACTCAACCCGACTCATAGTATGCTAACTACACTGAGAAATCATTGTCTTC
TAACATATAGGAAAGTCAACCAAATGAATAACACATGCCATTCCTGTGGCTTCTTCAGGAACAAAGGTCCTCCTAAATTGGTAGTGTGAATATACATTGA
TGCAATCCAAAAAAAAAATCCAAAGTTATAGCTGGGCAGGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGATGGATCACGACGTCA
GGAGATGGAGACCATCCTGGTTAACATGGTGAAACCCCGTCTCTACTAAAAAAAATACAAAAAATTAGCTGGACCTAGTGGCACACGCCTGTAGTCCCAG
CTACTTGAGAGGCTGAGGCAGGAGAATCGCTTGAATCCAGGAGGCAGAGGTTGCAGTGAGCAGAGATCATGCCACTACACTCCAGCCTGGGTGACAGAGC
AAGGGATTCCATCTCAAAAAAAAAAGAAAAAAGAAAAAAAAATCCAAAGTTATAAATGCACAGTCTTACATACTTCTCTTCTGGGAATTTATTCTGTAAG
TATATATATATATATAYAYAYAYACACACACACACACACACACACACACACACACGTGTGTGAAATGACATATATGCAAAGTGATTCATTCCAGAAATGT
TTGTAATTGTCACCACAAAGCTGCCAATCACTGAGAGACTGATTAAATGAGTTTTGGTACACTCGTGCCATCAAACACTATAAAATTATTAAAAAAGGAA
GGAAGATTTTTGTATAATAATATGGAATGATCCAAGGTGTATTTTAAATAAATTAAACTTAGGAGGCCAGGTGCACTGGCTCACGCCTGTAATCCCAACA
CTTTTGGTGGTTGAGACAGGCAGATCACTGGAGACCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCACTCTACTAAAAATACAAAAATTAG
CGGGTGTGGTGGTGTGTGCATGTAGTCCCCACTACCAGGGAGGCTGAGGCATGAGAATCACCTGAACTCCGGAGGCGGAGATTGCAGTGAGCTGAAATTG
TGCCACTGCACTCCAGCCTGGGTGACAGACTGAGACTCCATCTCAAAAAAAAAAGAAAGGAAAAGAAAAAAAGGAAGGGAAGGGAAGGGAAAGGAAAGGA
AAGGAGGAAGGAAGGGAGGGAGGGAGGGAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAATTAAACCTAG
GAACAAAGTAGTTTATCTATCTAATCTATATGTATGACTACTATTTGTCTTTTAAAGTGGAGAAACGAATATGTCCTTGTAATTATAAGGTGACTTAGCT
ATTTAGAGTCACATCTAGCATTTGCATCAAGGTGAGTTTGTCTCAAAAGCTCTGTTCTAGTGCCCCACTCAAGAACAGATATTGTCAAATTTGTAAAAGA
TATTTTAACTRGAATAGACTTGATTTTTATTGCTGATTTAATCTATTACAAACTATTGCTTTTCTATTCTAAGCTGTTGTAAAAATTATTGCTTTAATAT
GATCACTTAATAAGCATTAAATGCCCCAATCCTATCTGCTAAAAATTGTTTGGCATGTTTAATTGATCACAAGGATTTGAATAGCACTCTTATCTTTTCA
AGTATCTTCAAGAAATTCTTATTTTCAGCAGGGCATGTTGAGGAAACATAAAGCTTACATTTTTTATTCCTGATGTCTTCTCATCACTTCCAACAGTAGC
CACTGAGTCAAAGCAGTTGCTCTCTTTCCTTACTTTTTCTAAAGCTCTCCCTCTATATTAGCTGTGTCTGAGATTGCAGGCAGTTAAAATCCAACATTTG
GCACACTGAAAAAGGGGCTATGTGATAGGGCCTCCAACTGAAATGTGATGAATTATTAAACAGGTAGTTTGTTGGGTGATTGAAAATTACCTGTGAAAGA
GTGCTTATCTCCTTGAGGCACATCGAAAGCTGACGGAATTGAGCCAATTAGACTGACTGTCTCTTCAATGAGTTGTGACCTATCAATGGTAATAGCTTAT
TATGATGATAAATGAACCCATCTCTCAAACTGAAGCCTGAGTACACACTTCAGCAGTTGCCTTGAATCATGAGGCCATTGCCTCTCAACTTCAGATCGAC
AGCAGTGACAGCCACAGGAGCAGAGAGCATGCATGACTAGACACAGATGATTGTTTTACTCAGATGAATATATTTACAGCTATTTCCAAAGAAACGGGCC
CTTCTTTTGCATTGTGTATTCGTATCTGAAATAGTTACCATATGACGTTTCCTTCATTAGGAAGAGAACCCCTCCCTGGCTGTAGCATTCTGAAATAACT
GGATTTTGAAGGTCTTTTTTTTTTCTTCACTTTTTGTTTATTGTTTACAATGTTTTAATTTCTCATTCTTGTGAGTAATAACTCAACTCCTGGTTAAGTA
AAATTTCAGAATAAAAATATTGTTTTATAGTAAAGATGCTTGTAATATCAAAACAAGTATGTTTTTAAAAAATTAATTTCATCCTATTACATTTCACATT
TTATATTTGATGTGGGTTRGAGGAGCCCCTTAGAGATTCTTTTTTCTTTGTAGAGAAGTTTTGTAGAGATCAATAGTGTAAGAATCATACAAGTGTAAAT
AGTTTTGTTTCCTTTTAATTTTTCAAAATATTTGAAAATTCTTTAAGTAGTTACTGAAATTTGGTAAGTTCCATGTGCTGCTATATTGATACATTTTGTT
TTAGAAGAATTAGGAGCAAAAGGGTTATTTTTATAATGAAATACAATCTTCCAGTTCCTAATAAGTATTAGACACCTGTTAGCTGCCAACTTCCCAAAAA
TACCCCTGAGAAAAAAAAAAACCTGTTGGTCAAGAAAGTTCACGAAGTTATTACAGTAAACAAGAACATCACCTTGATATTCTTAGTAATGTCTCAGAAG
GTGAGGGTCAGGGGAAGATATTTACAGGCTTTAGGGAAAAGGCTGGTTGATTTCAAGGCAAATCTTGAGTGAGAGGGAACTGGTTGGGATTCTGCAGGGT
TTATTATATAATAGTTTTGGATTTGTCACCAGAGTGAACAAACATTGAAGAACATGTTATGAGTCTATAAGGAAGTTAGCTTAGATGGATCACAGAGCAG
ACAAGGTTTTCTTGGAGATTGCTCACAGCATTCTTAAAATAGGGGGTGGACATTTTTCTTACTCCCAGCATTATTTAGCACAGGAAAGGAAATTGTGTTA
GCGTTAGAAGAAATTGTGTTTGCTTTAGTTCTTACAGACAATATATTTACTTAATCTTCTGTGACACTGTTTCTTAATGTATAAAATGAAAATAATATGA
ATACCTACTTTATAGTGTTATTTTGAGGGTTAAATGAGTTAACACATATGCAGTACTCAAGATGGTGTCTGAAAATGATAAGCATTTGGTATTAGCTATT
ATTATTAACTCCAACTGGGCTTAATTTGAGGTCAGGCATTATTTTGTTGAAATTTTAGAAAGACTCCCCTCACACATAAACAGACAGAAAGAGAGAGAGG
AAGAAAGAAGAAAAGAGAGAGATAGAGAGAGGCAGAAAGAGAAAAAGAAAGAAAGAGAGAAAGAAAAGGAAGAGAAAGAAAGAAAGAGAAAGAAAGAGAA
AGAAAGGAGGAAGGAAAGAAGAGAGGGAGAAAGAATGGAAGAAAGAAAGAAAGAAGAAAGAAAGAAGGAAGGAAGAGAGGGAGAAAGAAAGAGAAAGAGA
AGGAAAGAAAGAAAAAGGAAGGAAGGAAGGAAAAGGGAGGGAGGGAGGGAAGGAAGGAGGGAGGGAGGAAGGAAGGAAGAGGAAGCAGGGAGGGCAAGGA
AAGGAAAACAATGGAAAGAATAAAGAAATAAATGCAGCAGGAAAGGAAAAAGAATAGGAAGAATTTGCTCATATCTGTCTAATTTTTAGGGTATTTTGAT
ATACAAAGTAACTGACTGTCAGGACCTGTCTTAGAGATGATCTGGTAGGACAGTAAATGGCTTTTCTTTCCAGTTTTCATCTGGGACTGGGTTTGAAGTG
ATCATCAGCCTCAGTGTTCTGGAAATAAGTCATTTATAATGAAATGGAACTGGAAATAACCCACAGACAAAAAGCTTTGCAAGCCATTGAAGTTCCCCTA
GGCCATTTACTGCCTTAAGCTCGTTTTTACTCATACTGCAGGAAAAAAAAGAGTGAGTAGGGAGGTGGTGTTCTTATATCACATAATTTTAAATTAAGAT
GTGATGGTTTTATATAAAAGCAAAAATGCTTTATTTTGCTTTTTTTGTTCAAGACAAGTACAGGGATGAAATGTAAATATGTTAATATCTAATCTTAAGT
CTGCTCTTGATCCGAAACTCTTTTGAAACTTTACCTAGAAAATGATAGAGCAATTTAATGTGTCTCACAATCTAGCAGAGATTTGGAGGGTGATGGATAG
AATAAGGGCTTAACACAAGAAATAATTTCTGTTGTACAAAGCTCATGAGCTTCATGCATGGTGAAAGATATTTAGGCTAAAGAAAATGTTAACTATGCAG
GGAATGAAACTCGTGACAGCTTGATCCCATAAAACTCAGCAAGGATGAGGTTTGACTCTGCATCCCTGATTTATATAGTACAGTATGTTTATTTAAAGGA
GATAAGCCAGGTTAAGGGGTTCAGCAAAACTGTTAAATTAACTCCTTTAAAAATCTAGTTATTGCTATGAAAGTCTCTCAAGTGCGGTGCTCAGGCTTTT
TTGCATCAGTCATCTGGAGTCTTTATTTAAAATGTTTATTATTGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGC
GGATAACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGATGAAATCCCATCTCTACTAAATATACATAAAAATTAGCCAGGCAGGGTAGCGGGCAC
CTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGACGTGAAGCCGGGAGGTGGAGCTTGCAGTGAGCCGTGATCGCGCCACTGCACTCCAGCCC
GGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAATTTTTACTATTGACCCTTACTCTGGATTCACTTATCCAGAAGATCTGGGGAAA
TCTACGTTTTTAATCAGCTCCCCAAGTGATTATTTACCCATAAGAATTTGGGGGGCACTCTTTTATGACTACTTTTTTAAATTACTGATGATTAATTATC
TGCAGATAGTTCCCTAGACTTTGACTTTCCAAGGCTTTAAAAAAACAAACAAACAAAAAAACCTGCAGTATGCTTTTAGTCTGAATTCAGGGATTGACTT
TCTTATCCAATAGTCTATCCTGTACAAGGGAACCCTAAAATAACCTCGTTAGCCACCACCAAAGACTATGTAAATACAAATTTATTTATCAATCTCATTA
GAAACCGAACCACGCATGTGCACGCACACACACACACACACACCACACCAACCACACATTTACATTGGAATAAAATGAATCTTAGAAAGCAGCTATTTTT
AAAGAAACAGGAAGTCTAACATGTACTGCCATTAATTTGGAATGGGAGAGAAAGGAGACTTGGCAGAACCAGAATATTGCGTGAGGATTGAAGATAGCTT
CAGATTCTAGAAGAGTTTCTAGCTCTTTCTGAATATGTGTTAACAGTTTCGCTGTTTGAGCTCTGCTACCCACTAGCCAGTTATAAACACAGGTAAGACC
CTTAACTTCACAGGGCCTGTTGGGAAGAGGTTATAATTTTTTAGCAACAGAACCTGTTTTTCAAACAAAATCCTAATTAGAACACCCAAAAACAAACAAA
ATAAAGGATTCAAATGGGTGACATGGCCAGTCCTGGTTACAGTATGAGACAGATGCCGGTTACGGTGGGCAACAGAACWGATGCTGGCTACAGTGGTCGA
CAGAGTTCATTTTAGTTCAAGCAGAAGGTAGGGCTGGTGCTTGTTACAGTGGCCAGTAGGCCTGGTTTCTGGTTATAGCACATGGCAGAGTTAGGAGCTC
TACCTACATTATGTCCCCACGGCCTCRTCTGTGGTTTCCCCATAAGAAAACTACCTTTTGGGAAAACATGATACAAACAGATCAGGTGAATTAGAAGGTC
TCCTGCAGATTTAAAATTTTATGAATATAATGCCAAATATAATCTTACACTCAGTTGACTACTAATAATAAATAACCCTACAAAATATGGTAAAGTGACT
CCATGACAACAATTGAAAAGAAAATAATTGCACTCAGCTGAGCTATTGTCCATATCTAGATGCACTGATGATACACAAACCCAGCCACAGAAAATGTGGC
ATGTGTCAGAGCAAAGCAACTAGAATGATTCAAGACACTGAACAGCCAGTGTTCAAGCTACGTAATTTCTTACCTATATTACAGGAAAAAACCATCTAAC
TCTTTTTCTACCTCCAACCTCCCTCCTCTGAAATGTTATTCACATACCTGGTGGAGAAGAATCTTTATAAAACTCAAATTTGATTACCTTAGTCCTCTGC
TTAAAATTTCAGTGTCTTTCAATGAAAGCTCAGAGACCATTCTGGACTTATAACTCCCTTGCAGCTCAGAAGGGACCCGTGGTCCAGTAATTAAAATGCC
CGTGGTAAGTGTTCAATGCTCTCTCATGCTTTTCTTCTCACAATGTCCCTTCAGTACGGGATTTCTTTCTACCATTTTCCTGAGTAATTACCTTCTAGTC
ATCATTCAAAAAGCATTTAAGCATTGAATTCTATAGGAAATRTTTCTAATCACCCTATCCCCCAGCTCTGGCTGAGTTAGGCCTTCTCTGCACAATTCCC
ATGAAAGCACCTACCACCCAGCAGGCAGAAATATCSCTCTTTGACTTTCTCACTAAACTGCAAATTCCTGGTGAGTGACAACTGGATTCTATTCTTCTTC
TAACCTCTAGAACCTAGCAGATTGCTTTGGAGACCTTAGGAACTTAATAATTCTTTGTTGAGTGAATAAAGGGATGCTTTTTGTGGACAGCAGTTATTTC
TGTTTACACAAAAGATAAGAGAAAATACAGGTAAAATTATCCTAAATTTTAAAAAATTTGAAACTTACAAAAAGTGTTGGATTTAAGTTCCTTTGTCTGT
CTGGATTTCCGAAATATTTTTAAAAGATTTTTTCTGGGATCATTTAAGGCCTCATCTGTTCAGAACCAAGGGGAGGACCGAAATAGTATGCCAAATTCTT
KTCCAGCCCTCAAATTTTATGAGCCTGAGTTGCATTGTGTGGGTAAAAGTCTTGTGCTCTGTGGATCAGRAGGAAGTTAGATGTTTTGGATATTTACATA
GAAACAAAGAATTTGAAGACTGGAAAGAACTTGAGCAGGACTCTATTAAATGTGTTTTGTGTGAGATGGTTTTCACCCTGTGTTCTTGTGGTTCCTCCAT
GCTAGGGGCAGGAGGTAGGATGGAGCAGATAGGGAGTCTCTTTTCCTCTTAAACCGGATGTTTTTTTTAAAATCAGTTTTATATGTTGAGAGTCCRTGGA
ATGGAATGTGGAAACTGAGACCCTGAAAGATTAAGTCACTTGAACAAAGATATACAGCTTCTCCAGAGACCAGGCAGACACTAGGTTTATGATTTCCTGA
CTTCCACTGCAGATCTCTTACCATTTTTCTATGAGAGWCATAAAAAAAGAATCAGCTATTTACTTTCTAGTCAAGGTGGGTTAAAATCAAGCCACTTGTT
TTCAAACATCGATTTCGGGTTCATGCCATCAAATTAAAAAATTCRCTTAACTGAGTTTAATTTGCTTTCACTTAGGAAGCAGCTGCCTTTCAAKATAATA
AAATAAACAGATACAATAATATTTGGTCAGCTGTGGCTTTTAATTTAAATGTTTGATTTAATGTTGTTTAGTTTGCTGGATTCCAAAATATTCTCTGCAA
GAGAAGCATACACATTCTAAAGCATTTCAAATGTTTATTATGATGTCCTAGAGGTGGCTGTCTTTCTGTTGCTGTGCATACCCTGAGCAGACTTGACWTT
GCTTTGGAAGCACATATTTTCTGATAGACATATTACTCTCATAATCTAAAATTTTTCAGAAGTGACAAAAGTGGGGTTGACCATTTTCTTCTTCGCTGTC
TCCATGATTTTGCTTTTTCCAAGATGTCATGTAGTTAGAATCATACAATGTGTTGTCTTTTCAGGYTGGCTTTTTTCACTTAGCAATATGCCTGTAAGGT
TCCGCCATGTCTTTTCTTGCCTTGATAATTCATTTCTTTTTAGCTCTGAATACTATTTTGTTGTCTGGATATAACCACAGTTGAATTATCCATTTACCTC
CTGAAAAACATCCTGCTTGCTACCATGTTCTGGCAATATGAATCAAGCTGCTATAAACRCTTATGTGATAARTCTTGTGTGGATATAAATATTCAACTTA
TTTGGGTAAATACCAAAGAGTGCAATTACTGGATCATATGGTCAGAGCATGCTAGTTTTGTAATAAACTGCCAAACTATCTTCCAATATGGTTGTATAAT
TTTGCATTCTCACCAGCAATGAACAAGAGTTCCTGTTTCTCCACATTCTCACCAGCATTTCATATTGTCAATGTTTTAGACATCAGCTATTCTAATAGRT
ATGTAGTGGTATATCGTTGTTTTAATTTGAAATTCTCTAATGATGTAAGATGATGAGCATGTTTTCATGTGCTTATTTTCCATCTGTATATAAGCTTTGC
TGAGGTATCTGTTTAGATTTTTTCCAATTTTTAAATTTATTTTCTTGTTGTTGAGATTTAAGAGTTCTTTGTATGTTTTGGACCATATCAGGTATATCTT
TTGCAAATATTTTCTTGCAAATGGTAGTTTCTCTTATTCTCTTCACAGTGTCTTTCACAGAGAAGATGATTTTTAATTTTAATAAAATCTAAAATGAATT
TTTATTTCATGGATCTTGACTTTAGTGTTATATATAAAGAGTTACTGCAAACTCAGGGTTATTTAGATTTTCTTCTATGTTATCTTCCAAGAGTCATAGT
TTTGCATTTTATATGATCCATTTTGAGGTCTATGATCCATTTTGTGTTAATTTTTGTGAGGGTCTATATCTGCATTTATGTATTTTTTCACAAGTTATCT
CAGTCAATTTTCTGTTGCTATAACAGAATACCTGAGACTAGGTAATTTATAAAGGAGAGAGTTCTATTTAGCTTGTGATCCTGGGAGCTTGACTAGGAGA
TCCAAGTTAGGACAGGTGCATTTGGTCAAGTTCTGGTGAGAGTCTTGTGCTGCATCTTAACATGGTGGAGAAGTGGAAGAAAAAGTGGGCATGTGCAAAA
TGACCAAACACAAGAGGGAGCCTTCCTTTTTAACAACCCACCCTCGAGGTAGCTAATCCAGTCCTACAAGAGCAAGAACTCACTCTAAGAAAGGTATTAA
TTCCTTTTTAAAAACCTAATCACCTCTCCAAGGCACCACCTCTCAACATCACCCCATTAGGAACCAAACCTCACTATGGATTTTGATTGTGACAAACCAT
ATTCTAACCATAACACAAATGATGTCCAGTTTTTCTAGTGCCATTTGTTGAAAACACTTTCCTTTCTTCATTGAATTCCCTTTGCTCCTTTGTGAAAGAT
CAGATGGCCATATTCATGCGGGTGTATTTCTGGGCTGGCTATTCTGTTCCATTGATCTAAGTGACTTTTTTCTSACCAGTACTATATTGTCTTGATAACT
ATAGTTTTATACTAAGTCTTGAAGTTGGGTAGTGTTAGCTTTACAAGTTTGTTCAATATTATTTAATGATGTGTTGGCTGTTCTTGGTCTTTCCTCTCCA
TATAAATTTTAGAATCAGTGTGTTGATATCCAAAAAATAACTTGCTGGGATTTTGACTGGGATTACCTTGAATCTACACAAATTGGGAAGAACTGACATC
CTACCTTGAGTCTTCCTATTTATGGACATGGAATACCTCTCCATTTATTTAATTTTTCTTTGATTTCTTTCACTGGAGTTTTATAGTTTTCCTCATATAG
ATTTTGTACATAATTTGTTAGATTTATATTGAAGTGTTTTGTGGAGCATGCTAGTATAAATGGTCTTGTGTTTTTAACTTCACATTCCAATTTTCTTTGC
TAATATATAGGAAAGCAATTGACTTTTATACCACCTTTTTCTTCAGACAGATGGAATCAAGTGACTTAGAAATTGGCTTTGTTGCTCTGCCTGAGTATCT
TGAAAATTCTCATCTTCCTTCTGAGAACCATAACCTACATATCTCAAGGTTATAGATAAAATGCTACCTACAAAATCCTTGTAATGCTTACAGTCTAAAA
GACTAAATAAGGCCTCAAGAGATTATTCAAAATCAGAGTTGTTGATTCCCAGTAGAGTCATAAAGGGCTATGTTATGTTAGCTGCAATTCTAATCCTATA
TCAAAGCTTCTGACTTCCACTCCCCCATATCTAAGGAGGTTTCCCTCAACAGTTGAAAAATAACTGCAGATACTGCTTTGCCATCCCATGCCACAAAAAT
GCATTTCTGAAGGATGCTGCAGAGAGATATATATTTCTTAAGCCCAGCTCATATCTATTTCTCAAGGCTGTGTGATATCATAGAATGAATGATGGAGTCA
AATAAATAAATATTTATTTATTTATTTATCAGTCAAATAAATCTGATTTAATTTTTTAGAACTTAACATTTAGTAGCTGTGAGATCTTACAGAGATTTCT
TCACCTTGTATCCTTTGTCACTTTATCTATAAAATGGAGAGTGTAAATACTACTTCTTAGAGTTATCATGATTCTTTAATCTAATAACTCATGAGACACT
GGATATGTAATAGGAACTGAATAATTCTTAACCCCCTTGCTTTCCCTTGACATTTCCAGAAAATAAAACTTGATTGAGTATCTAAGATTATATAACAGAT
CCCACTAGACTAAGTGAATCTGAGGGAAGATGTATTTGTCACTTTTCTTCTCTTCTTTGGTTTTTAAAAAGTATCATTAGAAATAGAATCAGTAACTATA
AACAAATTTCTGTGTACTGATCCAGTATTAACAGAGAAAATAATGGTTGACTGTGCCTTACTGTGCAAGGCAAAAATGAGCTCAAGATATTATCAAAGTC
ATGAATCAGAAAGAGAATTTCGTTTTACAAATGATGGATAGCCACAAAACAACTAGGACATACAATCTCTGATTACACAACTGCAGTCTATAGCTACATT
CTGCAGATTAAACACCACAGTAGAGATGGAAACTTTATTGTTTATATTTTATGAAAACTGTTCTCTTTTGTTTTTATGTCAGTTTGAGAGTAGAAGAATA
TCCTTGAGGGCAAAACATGCCTTTCATACATTAGAGCTGCCTAGAGCATAGTCTGGCACATTATATAAATATTAAATAATTCCTATAATTAAACTGATGT
TCTTTGGAATGAGGATGGAGACACATAGTTATCTGAATTGCCTTAAGCTAGTTTTGCAATAAGTAGATTTTTACTATTCTAGAATATGTAATGAATGAAT
CATGCTATGTTACAAGTAAGTATTAATTAATGGTTGAAGTACAAAAACATCTTCCTTGAATTATATGATAATCTACATCACAGTGAAAGGAATTTATCAT
GACAAATGCTAGTCAATGTTGAATCACAGAGGGCTATATGAGATCCATTTTCATTCTTAAAGAAAATTATTATATCTTTTTATTAATATGGTGRATATTW
ACTCAGTAAATAATAAAGAAAACTAATATGAAGTRCAATTTGTAATATTCTAYTTATGATGCATGATTTTTGTTGCACAATTAGAAAATACTTAAGTTCT
TGAGAATAGTTGGAAAGGGTTGTAATGATCAGAAACACATATTATACCTAAACATGTATTAAGACCTTGTTTTAAAAATTAGATCTTGGAGCAAGAAGGT
AAGCTGTATCATTACGTTCTTAGAATACAGGGTTGGGCGTGGGGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTC
AGGAGATCAAGACCATCCTGGCCAACATGACGAAACCCTGTCTGTACTAAAAATACAAAAATTACCTGGGTATGGTGGCGTGTGCCTGTAATCCCAGCTA
CTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCTCTGCACTCCAGCCTGGTGACAGAGCGAGA
CTCCATCTCAAAAAAAWAAWWAATAATAATAATAAGGGTAAATACAAGGAGTGTGTTTTGAATACAAAATATCTATTTTTAGAATCTCAAACCCATGAGT
TACTTTCTTCCATATATAAGTCCCAACATGTTTTCTATAATCAGTCTATGTCTATTAGATGTGTAATTATATTAATTATGTAAATGCACRTGAATACCAA
ATTATTTGGTTAATCTTCGAATTTCTTTTAGCAATTATATACTCTCCTCCAGGTTAGATTGAGCTTTCCCTTCAACTCAGAGAAATCAGTGTCAACAGGC
TACCTTCTGTAAGACTACCAGAGAGCTATGCATTACTCTGTACAAAGGATATTTCTCCTATAAATAGTGCTTTCAATAGAGAAAATCTGTTATCATGTTG
TCAGTAAATTCAAATATTTTCTCTTTTGGAATACTCTGTTCCTATTAAAACAAGAGCTGTTTCCTTCTTTGAAACAAGTTATTTATATTTATGTGGTTAA
GATATCCTATCTTAAACCATAAGACCTTTTTGAATACTTCACATACAGAAAAATGAAAAAAATTAAACAAATATCAGAGTTGCTGGGAACCCCAGGATAT
AATCTACTGTGGATAGTCATTCATAGACAAAGACACCTCCTATTTATAGGCTTGGGACAGTTCAGCTTCTCCAACTTGAAGAGAGTTTTGAAGATCAAAT
ACAAATGGGTCTTGTGAAGTTTCAAAAAATGTTTCTCAAAGTCCTTTGAGAAAAATAAACTTGGGCCTGTAGCCAATAGTTTGTATTCCAGGCTTTTAAA
AAAAATTCAAATACAGAAACATCAGATTTTCATTGCCATAGGGGTCATGACATMTTTTAACATAAGTGCAGAAACTATCTGTAATGAATCAAAACTTAAA
TCAGATGACATTAAGACCAGCTTTGCTATTACCACAGATGGCATCACAATTAACTTTTAATATATCAAAAATGTGAGTGTACTCATATATTATCAGTCAT
TTGATCATGATATTCCAACATTAACATCTCAGTGTATTGTGAAAATGATTCATTTGTACAATATTTTTCTTCTTCTAGACTTTTAATTTCTTGAAGGAAG
GAACGCATTTTACTCATCTTGTAGTGACCCTCCCTGTACATGTTGCCTGAGACATAATAACTATTCAAAAATGTTTACAGTATTCAATGAAATTATATAA
ATCTTGGTTTAAAAAGCTTGATATACAATGAAACATACTTGGGCAAATTATAAAGCTGTTCCTGAGAATGAGCTAATACATATTTAGTTGTTAAAATTCT
GAGGGGAAAATGTAAATTAGATGTGAACTACCTCTACAATATAAGATAGCAGTAGGCTGTAAGTTAAAATAATCATTTTTCTCATTTTTCAGTAACATTC
ATTAAATGCCTGATACAATTCTGTACTTTCTGAAAATTGACTATAATAAAGAAATCCTGGCCATTATAAAATTGTCATCCACTCATAGGTAGAATAAATG
AGAGAATTATGGTGATCTAAATATAGAAAGCATTTAAATTAGAGAACAGCTGAAATTGTGCTTCTAAAACATTTCAGTGTTGYTCATTTTCTATATGTTA
YATTGAAAAAAGTAATATGGAAATGTAATGTTTTCATTTGCAGATGCTTAAATTTAGATACATGTTTAATACTGTAATCATTTTGATCAAACAGCAGCTA
TYATTTATTATTCAATATTTATATGTAAAACCTGAAACTTTCATCTACCTTAATGATGGTATTGTGATAAAAGTACCCATGTATCACCAAGMTTTGCCAA
TTCTTTTTATTCCTTAAAGAATATCYGACAATTTGCTGGTTTGTATAAGTTTGAGTTAAGACACCGTAATAATGTCCTGCAGTATATATGTCAAAATACA
TGGGTCAAAAAGACACTCTAAAATAGCAGTCTCCAAGAACCCAGGAAGTATGTGATCCATAGGAGTGTACATATTTTATTTTCTTTAAAAAATAAGACAG
ACACTTCTCAAAAGAAGACATTTATRCAGCCAAAAAACACATGAAAAAATGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGA
TACCATCTCACACCARTTAGAATGGCAGTCATTAAAAAGTCAGGAAACAACAGATGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGT
GGGACTGTAAACTAGTTYAACCATTGTGGAAGTCAGTGTGGTGATTCCTCAGGGATCTAGAACTTGAAATACCATTTGACCCAGCCATCCCATTACTGGG
TATGTACCCAAAGGACTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGTGGCACTATTCACAATAGCAAAGACTTGGAACCAACCC
AAATGTCCAACAATGATAGACTGGATTAAGAAMATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAG
GGACATGGATGAAATTGGAAATCATCATTCTCAGTAAACTATCACAAGGACAAAAAAMCAAACACCRCATGTTCTCACTCATAGGTGGGAATTGAACAAT
GAGAACACATGGACACAGGAAGGGGAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGGAGGGGGGAGAGATAGCATTAGGAGATGCTAAATGACGA
GTTAATGGGTGCAGCACACCAGCATGGCACATGTATACATATGTAACTAACTGGCACATGGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATAA
AATAAAAATAAAATAAAATAAGACCATTAAAAAAAAGTTCATCGTATGGATTGACACTGGGCTGCTCCCTGGTGGAGTACCAGCTCAAGATGTTTTGAGG
AAAAAATTTGCATTTACCAAGTGGGAGGATTTATAGTGGTGATTTCACTTGTTCATTGATTTAGACATATGAAATATTATATTTTTTGCACAACTAAGTT
GGCTTTCAGATTATATGACCATATTTTTAACTAAATGAAGCTTTGCTGAATAAATACATGACTTAATATATTCCTTCAAAAAACATATAGTGAAATAATA
TTAACTACACAAAGATAAGCAATGAGCAAAAAAACACTAGTGCTTACCACTGCTCTTGGTAAGAGCTTTCCTTCAGGCACAAAATGAGATAAAAGTAATG
ACAAGGTAAAACTGGATGAAAATTGGTCAACAAGTGAGGAATTAACTGCCTTGCAAAAGCAGTTTTTATTATACRGAAACCATTTTGAAAGCAGTTATTC
AGAAAGTTTCTATCAGTATATGATTTGTAGCTCAAATTATTGTTGGTCTATCAATCACAAATACTATTTTCTGCATAATATAGCTAGAAAATATAATTAT
CTAACTTATTTTTAAAGTCTTCTAAACATGAAGTTTCAGTGAGCTTTGAAGCTTTTTGTTAAATATGTTAAAATGTCATACTTTCCAAATAGTTTCCAAT
TATAACCAATTAGCATCAGAAAATTTATTAGCCAAATTTCACCAAGAACCTAATTTGTGAGAGAATTGAAAAATGAGTACCATAATTTAGTATGCTCAGC
CACTGATGTAATGCTTATAATGGGACCTGTGTATTTTTTGTCTGTGCTGTATCTCTTTTCAGCTGTGAAAACTATTATTACTAAGTATTAAAACAAACTG
AGGGCAAGGCACGGTGGCTCATGCCCGTATTCCCAGCACTGTGGGAGGCCGAGGMGGGTGGATCACTTCAGATCAGGAGTTCAAGACCAGCCTTGCCAAC
GCGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCACATGCCTGTAATCCCAGCTACTCGTGAGGCTGAGGCAGGAGAATCG
CTTGAACCTGGGAGACAAGAGGTTGCAGTGAGCCAAGATCRCACCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCCATCTCAAAAAAAAAAAATAA
AAATTAAAAAAAAAGCCTGAACCTAGAAACGGACCTACAAATGTCAATACTTAGTAATATTTTTAATTATTAAGCCAAGATTTCCAAAAATAAGAAAAGC
ATAATTGATTATACTGGTTTCTTTTTTTTTTTTTTTCATTTGGAACATATAATTGAGAAAGCTTTAGTATCAAGCATATGTAAAGACTCATAAAATAATA
AGGAAAGGCCAAACTGCCTGATAGACCAAAAAAAAAAAAATCAACAATAAACATTTTACAGAGGAGAAACAGAGAAACATATACAGCTAAAAACATATGG
AAGGATCTTGAGTCTTATAGCAATATTGATGAGCAAATCAATATGTAGAATAGCAAATCAGTATCATTATCAAAGAGATAATGGATATCTCTTTATACTC
AATTTATTGGCAATAATTAAGAATTTAAACTACAGAAATATTGAAAAGTATTTGAATCAACCAGATTTCTTATATAGTGCTAATATAAATTGGTTAACCA
CTTGACATTATCTTTTAAAGTTTAATATTCACACACCCTATGACCCAACAATTTTCTAGATGTATATACTAAAGGAAATTATTACATTTGTGCACCCAGA
TAAACACATAAAAGTGTTCATAAAAGTACTGTTTATATTAAGAAGAGCCGACAGCAGATGCCTATCCAGAGGTAAACAAATTGTAATATATCTGGAATAA
CTTGTTGCAATGAAAATAAATGAACTACAGGTATACGTGATAATATGATGCTTAGTGATAGGTTCTCAGATGATCACAGCATGATGGTCTTTATAAGCAA
TAACATTTTTGAGCAAACATATATTTGCTGAAATTATCTTTTTAAAAATGTAAGAAAATAATATAAACACAAAATTCAGCATGTCAGGGTTATGCTGCAG
GGTAACGGGGTGGTGAGGATTGTATAGATAGTTGCAAACATTGCTCATGTTCAACTTCTTGGGTTGGGTAGTTGGCTTTTATCACTAACAAAGTAATAAG
CCAGGGAATACAATGGGTAAATGAAAAAATAAAATAGAGTCACGATTAGACCAATGATGATAGTATATCATAAATCAAGTCTTCTCATCTTTAAAATGGA
ATTAGTAGGAGTACTTAGCTTCCTAGGGTTGTTATGAAGGTTGAAATTCTTAGAATAATGCCTGGTACATAGCATTTTTTTTTTTAAGTTAAGTTCTAGG
GTACATGTGCACAATGTGCAGGTTTGTTATGTATGTGTACATGTGCCATGTTGGTGTGCTGCATCCATTAACTCGTTATTTACGTTAGGTATATCTCCTA
ATGCTATCCCTCCCCCCTCCCCCCACCCTACGACAGGCCCCGGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTTTCATTGTTCAGTTCCCACCTATG
AGTGAGAATATGCGATGTTTAGTTTGTTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTTCTAGCTTCATCCATGTCCCTACAAAGGACGTGAACTCAT
CCTTTTTTATGGCTGCATAGTATTCCATGGTGTATACATGCCACATTTTCTTAATCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGC
TATTATGAATAGTGCCGCAATAAACATACATGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATGACTGGG
TCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCGCCCCACTGTCTTCCACAATGGTTGAACTAGTTTACAATCCCACCAACAGTGTAAAAGTGTTC
CTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCAGACTTTTTAATGATCACCAGTCTAACTGGTGTAGGATGGTATCTCATTGTGGTTTTGATTTG
CATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTGCTGGCTGCATCAGTGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCAA
TTTTGATGGGGTTATTTGTTTTTTTCTTGTAAGTTTGTTTGAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGATTGCAAAAATCTT
CTCCCATTCTGTAGGTTGCCWGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAACTTTGGCTTTT
GTTGCCCTTGCTTTTCGTGTTTTAGACAAAAAGTCCTTACCCATGCCTATGTCCTCAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAT
GTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTC
CCAGCACCATTTATTAAATAGGGAATCCATTCCCCATTGCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTATTATTTCTGAG
GGCTCTWTTCTGTTCCATTGATCTAYATCTCTCTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCA
TGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGGAATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTTTCCAATTCT
GTGAAGAAAGTCACTGGTAGCTTGATAGGGATGGCATTGAATCTATGAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTATCCATA
AGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTTTATTTTGTTGAGCAGTAATTTGCAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTG
GATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATAGGAGTTCACTCATGATTTGGCTCTCTGATTGTCTGTTGTTAGTGTATAAGAATGCTTGT
GATTTTTCTACATTGATTTTGTATCCTGAGACTTTGGTGAAGTTGCTTATCAGCTTTAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAAATATACAA
TTATGTCATCTGCAAACAGGGACAATTTGACTACCTCTTTTCCTAATTAAATACCCTTCATTACTTTCTCCTGCCTGATTGCCCTGGCCAGAACTTCCAA
CACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCT
GTGGGTTTGTCATAGATAGCTCTTATTATTTTGAGATACATCCCATCAATACCTAATTTATTGAGAGTTTTTGGCATGAAGGGCTGTTGAATTTTGTCAA
AGGCCTTTTCTGCATTTATTGAGATAATCATGTGGTTTTTGTTTATATGCTGGATTACGTTTATTGATTTGTGTATGTTGAACCAGCCTTGCATCCCRKG
GATGAAGCCCACTTGATCGTGGTGGATAAGCTTTTTGATGTGCTGCTGCATTCAGTTTGCCATTATTTTATTGAGGATTTTTGCATTGATGTTCATCAGG
GATATTAGTCAAAAATTCTCTTTTTTGTTGTGTCTCTGCCAGGCTTTTGTATCAGGAGGATGCTGGCCTCATCAAATGAGTTAGAGAGGATTCCCTCTTT
TTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCACCTCCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTTTTTTTG
GTTGGTAGGCTATTAATTATTGCCTCAATTTCAGAGCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTTGTTTAGTATTGGGAGGGTGTATGTGT
CCAGGAATCTATCCATTTCTTCAAGATTTTCTAGTTWATTTGCATAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGT
GATATCCCCTTTATCATTTTTTATTGCATCTATTTSATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCAGTCTATCAATTTTGTTGATCTTTTCA
AAAAATCATCTCCTGGATTCACTGATTTGTTGAAGGGTTTTTTGTGACTCTATCTCCTTCAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTAG
CTTTTGARTGTGTTTGCTCTTGCTTCTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGC
TATAAATTTCCCTCTACACACTGCTTTAAATGTGTCCCAGAGATTCTGGTATGTTGTATCTTTGTTCTCATTAGTTTCAAAGAACATCTTTATTCCAGMC
TTCATTTCGTTATATACCCAGTAGTCATTCAGGAACAGGTTGTTCAGTTTCCATGTAGTTGAGCCGTTTTCAGTGAGTTTCTTAATCCTGAGTTCTAGTT
TGATTGCACTGTGGTCTGAGAGACAGTTTGTTATAATTTCTGATCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACTATGTGGTCAATTTTGGAATA
AGTGTGATGTGGTGCTGAGCAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGCAAATGTCTATTAGGTCCACTTGGTGCAGAGCTGAGTTCAAT
TCCTGGATATCCTTGTTACCTTTCTGTCTCGTTGATCTGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTCTC
TTTGTAGGTCTCTAAGGACTTGCTTTATGAATCTGAGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTT
TACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAATGTCTGTTTTATCAGAGACTAGGTTTGCAACCCCTGCCTTTTTTTGTTTT
CTATTTSCTTGGTAGATCTTCCTCCATCCCTTTATTTTGAGCCTGTGTGTGTCTCTGCACATGAGATGGGTCTCTTGAATACAGCACACTGATGGGTCTT
GAGTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTRGAGCATTTAGCCCATTTACRTTTAAGGTTAATATTATGTGTGAATRTGATCCTGTCATKAT
GATGTTAGCTGGTTATTTTGCTCGTTAGTTGTTTCAGTTTCTTCCTAGCATCGATGGTCTTTACAATTTGGCATGTTTTTGCAGTGGCTGGTACTGGTTG
TTCCTTTCCATGTTTAGCRCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTT
CTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCYGGC
TTGTAGAGTTTCTGCCGAGCGATCTGCTGTTAGTCTGATGGGCTTCCCTTTGAGGGTAAMCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTC
ATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGAAGTTGCTCTTCTCGAGGAGTATCTTTGTGGCATTCTCTGTGTTTCCTGAATTTGAATGTTGG
CCTGCCTTGCTAGGTTGGGGAAGTTCTCCTGGATAATATCCTGCAGAATGTTTTCCAACTTGGTTCCATTCTCCCCGCCACTTTCATGTACCCAATCAGG
CATAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTTTGTTCGTTTCCTTTTACTCTTTTTTCTCTAAACTTCTCTTCTCACTTCATTTCAT
TCATTTGATCTTCAATCACTGATACCCTTTCTTCCAGTTGATCGAATCAGCTCCTGAGGCTTGTGCATTTGTCAGGTACTTCTCGTGCCATAGTTTTCAG
CTCCATCARGTCATTTAAGGACTTCTCTACACTGGTTATTCTAGGTAGCCATTTGTCCTATCTTTTTTCAAGGTTTTTAGCTTCTTTGTGATGGGTTCGA
ACTTCCTCCTTTAGCTCAGAGAAGTTTGATCGTCTGAAGCCTTCTTCTCTCAACTCCTCAAAGTCATTCTCCATCCAGCTTTGTTCCATTGCTGGCAAGG
ARCTTCATTCCTTTGGAGGAGGAGAGGCGCTCTGATTTTTAGAGTTTTCAGCTTCTCTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACCTTTGG
TCTTTGATGATGATGTACGGATGGGGTTTTGGTGTGGGTGTCCTTTCTATTTGTTAGTTTTCCTTCTTACAGTCAGGACCCTCAGCTGCAGGTCTGTTGG
AGTTTGCTGGAGGTCCACTCCAGACCCTGTTTGCCTGGGTATCAGCAGCGGAGGCTGCAGAACAGCAGATATTGCTGAACAGCAAATGTTGCCGCCTGAT
CGTTCCTCTGGAAGCTTCRTCTCAGAGGGGTACTCGGCCGTGTGGGATGTCAGTCTGCCCCTACTGGGTGGTGCCTCACAGTTAGGCTATTCAGGGCTCA
GGGATCCACTTGAGGAGGCAGTCTGTTCATTCTCAGATCTCAAACTCCATGCTGGGAGAACCACTACTCTCTTCAAAGCTGTCAGACAGGGACATTTAAG
TCTGCAGAGGTTTCTGCTGTCTTTTGTTCGGCTATGTCCTACTCCCAGAGGTGGAGTCTACAGAGGCAGGCAGGCATCCTTGAGCTGCAGTGGGCTTCAC
CCAGTTCAAGCTTCCCAGCCACAGTTTGTTTGCCTACTCAAGCCTCGGCAATGGCGGGCGCCCCTCTCCCAACCTTGCTGCCACCTTGCAGTTCAGTCTC
AGACTGCTGGGCTAGCAATGAACAAGGCTCCGTAGGCATGGGACCCTCCGAGCCAGGTGTGGGATATAATCTCCYGGTGTGCCGTTTGCTAAGACCATTG
GAAAAGCGTGGTATTAGGGTGGGAGTGACSCGATTTTCCAGGTGCCGTCTGTCACAGCTTCCCTTGGCTAGGAAAGGGAATTTCCTGACCCCTTGTGCTT
CCCGGGTGAGGTGATGCCTCGCCCTGCTTTGGCTGACACTTGATGGGCTGCAACCACTGTCCTGCACCCACTGTCAGACAAGCCCCAGTGAGGTGAMCCT
GGTACCTCAATTGGAAATGTGGAARTCACCCATATTCTGTGTCGCTCATGCTGGGAGCTGTAGACTGGAGCTGTTCCTATTCSAATTATACTGGTTTCTA
AAAAAGATTGTAATATATTGTTGAGAGTGAAGGGAGTTTTATATCAATAATTAAATTATTTTAAAATATTGTTTATTTCATTTCTCATACTTCAAATTAC
TTATTTACATTTTAATAATATATTAGTATCATAACACATGTGTATAATACAGCTAGAAAGAGAGAGCATATATACCCTGAAGGCATTTTTAATTATAATA
TTGTAAAACCAAACTCTAAAGACTCCTGTTCTAGGTAATTGATTAGTCCAGTAAATGTAGGCATAAGAAAAATGTATGAAATAGATGACGTTAATCTTTC
ATGCACAATAACACCTTTCTCCAGCTGTGGCTCTAACTGTCCTGATGGATTCTTTACTGCTCTCAGCTAATCCATTATATGGTTTTAGACATCCAGGATA
GACACTGAAAGGAATAACTATTACAAAAGTAATTTTAAGRGGAGCATTTGATTGACTGATGCTCCTCTTATGTATTCATTGTGTGTATGTATTGAATTTG
TGTATTCATTGTATGTATTCAATATTCAATGTATGTATTCATTGATCCTGCATATACTTGATGATTTGATTGGTGGTTTGATTCCAGTTATATTAACTTG
CCAGAAACTTTCTAGTTTCCAAACAGTGAATACAACTTAGACCTCATGAMGCTTACATTCTAGTTAGAAGAGAGAATATTAATTAGATAAGCACATAAAA
TATACATGTGTTAGATAGTGATAAATGACAAGAAAAAAAGTAGAGCATGGAGGGCCTAGGAAGGATGATAGTGGTTGAATAGACTTTAATTTTATATAGA
ATATTAGGTCAGAGATCTGAAGGTGACTAGGAAAAARTTATGTGGGTATCTGGAGCAAGAGCATCTTAGGACAAAGAGAAAGTAAGTGAAAAGGCCCTAA
GATATGAATGTGGCTGGCATGTTCAAAGACCCTCAAGGATGGGGTAAGAGTGGGGAAGAGTTGAAGGATATGGGGAAGGGGAAAATATCGTAGGYCTTTG
GCACACTGTAGTTAATGTCTTCACATTTTTCTTGCAATGCAATGAGAAACACAGACATGTAATGATCTGAGTTATGTTTTAATAGGGTTAGTATGATTGT
TACTTTGAGAGTTGGTTGAATGAGGACAAACAGATAGACCAGTTAAGAGACTTGGCATTCATCCAGTCATTAGCTGTGAAGTCTGGACCACAGTGATAAT
GGTGAAAATGATCAAGTGTGGTTTGATTCCAGATACATTTTGAAGGTAATGCTGAAAAGATATGCTAATAGTTTGGCTGTGGAACATGAAAGAAAGAGGA
GTTGAGGATTATTTCCCAACTATGGACCTGAGCAACTAAAAGACTTGTCATTGATTTAGATGGGGAAGACTGTGGTAAAAACAAATTTTTTACRGGAGAT
CATGAACTCAGCTTAGCTAATTATATAAAGTTAGAGATGCCTATTATATATCGAGGTGTAAATGTTAAAGTGATAGCTAGTATACAAGTCTGAAGTTCAT
TKGGTCAGGAACATCTGAACTGAAGATGTAAAATGTTTGAATCATCAATCCATATGTCATTTAAACCAGAAGACTAGATGTGATAACCAAGAAAATGAAT
AACGAGACAAARTATGAGATCTAAGGATTGGGCCCTATAGCACCCCAACATTTAGAGGTTAGGAAACTGAGGACGAACTAGAAAGGAGACTAAGAATCAG
TGACCAAAAAAGTAGAAGGAAAACCACAGAAGTCATGTATTGAAAGTCATTTGAATGAATCAAGTGATCAACTTTGTCAGATACTGTTGATGGGCCAAAT
AAGGTAAGAAATGAGAATTGACCATTGGATATAGCAATGCATTCGACCAATGACCTTGAGAAGAGTATTTCAGTGGAATGAAGGGCAACATGGAAACTAG
AGTGGATTTAAGAGAGAATAAGAAGAAAGAATATGGAGATAGCAAGTGTAGACTTGTCTTTTTCTAGAAAGAAAATAAGGGCATAGATACTTTTATGGGA
TGTGGAATGGTGCTGGGACATGTGGAAGTCTCTTCTATTGGTCTGTATATTCTTAGAAAATAGAAAATAATTGAGTATGAGAACATGGGAGGAAAATGCT
GAAGATTCAAGGAGAAAAGAGAAAGTATGAAAAAGTATCCAGGAACATAGCAAAGAACATGGACCAGACAGCATTAGGGATCTATGTGAGTTTAGTAATC
ATGAATTTGAAGCAAGGTCAGTCAACAGGTACTATGAGTTTCTTCAGATGTATCCAGCTCAGCAGTTGCAGGTACAGAGAAGATAGAGGTTAGATTTAAC
TGACGTTGTGGTTAAGCCAAGTGAATACAGTAAAACTAGAGATTAAAATAATTGACCATGGAATCTAAGACAGTGATGAGAAACCCTCAAGCTACAGCGA
TTTCCCATTGTCTCCCTAAATGCTATTRGTACTGTAGCCAAGACAAGTCTTTCTTTTATAGGACTATACAAGGCCTTAGAGGATATTTAGTATCCTTGGC
CTAAAGGATAAAGGTAAAGTGGTACAGTACACATTTAGTGTGCTGTACACTAAATATCAGTAGCACTTTGCCACAAATTAAAGGAACAGTATATAATCCT
TGACAGTGCTTTAACTCCATTGCATTTCCTTCTTTTTTAGAATGGAATTTTTTTCTATATGTTCCCCAAAGCAAGGCTAGTTTATATAACATTAAATTAC
TTATGCAAATGCAAAAATTAATCTGAACATCTATTTATTATATCTAGCACAAAACATAGAAACAAAGAAGGCATAGGTTATTATTTTGAAATTATGCTTT
ACTGAACACATAGGAATTGCTACCAATCGTTTAAATAGTTGCCTTATTTCTTAGACAAATAGTAACTGAAATGTATGGAGCATTCATGCATATATTTGGA
ATGTATTAAGTGTTCATGTGTATACCTGGCGCAGAGTTAATTGTTTTGCCTGCATTATCTGATTTGATTTTCCCACAGTGCCATGAAGTATGAATTATCA
TTATCACTATTATATAGTAAACAGTATAAAAATGTGTCTATGACTTGGAGAATGGAAAAATGTTTTACAATATTACATTCTGGTTGTTCACTTCCCTTCC
ATTCATGTTGACATTGAATTGTTCTAGGCTGCTAAGGCAGCACTGTCAGAAGCCACGTTTTTTCTAGGCATACACACACTTTATTCCTTTGTCCTTTAGT
TCCTTAAACTACCCATGCACTTTCCTCCTCTTTCTTTTTACATTGATGATTAAAATAGTGAGCCTGAATTTTTTTAAATAAAAACCAACTAAGTTTTTTA
TTATTTATTATTTGGAGGAACATATGCCCTCCAAAATATCATTTAGTGCATCTTAGACATAAAACAATTTAACTGCTTGAAGAAAATGTCCAGCTTCTGA
AATGGCATGCCATTAGATATTAGTGACATTTGTTTATAAACAAATAAATGTCTTCAACCTCTATGTAGTTACTATCAATATAGCCATGCAATATATATGG
AGTTCCAAATACCTTTCAAAAAGTAATGTTGATACAGTAGTGATCACTTATGTCCTTTTGATTGAAACTGCATTATACGAAGTTCTTTCCTTTCAGCACA
ATAACCTGAAAAATATAGCTGTCTATTTAAAGAAGACATTTTCTTGTTTGGCAGAATATTATCATCATACAGCATATGTACAATATGGTCCTAATTTGTG
TCRATATGTGCTAGGCTTAGAAAACTCACTTTAAGTTTTACTAAATTTATTTTGGAGTTTAACTCTTACTTTTGACATGATTTATATTCTAAGGAGATCT
CAGCTTCTTCCTGCTTAAATGACATTACATAGATAGAAAGGTATATATTCTTATTATAGCAGTGTCTGCCAGGGCTGCAGTCCTGTTGTTAGAAGGCTGT
CAGAATTTTAAATGTAAGCCTTCCTTTCCCAGRTGTTATWATTTAATCTTCTAACTCCTATTAATTTCTGAAGACTGTGGGGCCATCCTATATCTTAGAA
CAAAATATAGATACGTACATTCCTGATTTTTTTCTCCATATTTACCTTCCCCCAAATGTTTTAATTTTATTATTTCAAAATTATAATAATAGCAATGGAT
TTCAAATTAAAATTCTGGCTAGTGAATCCCTCAGGTATTTCTTTATATTGACTGATTTGTATGTTGTAGGCTAAATAATGCCCTCCTCCAAGATACCCAT
AGCTGAATTTCCAGAACCTGTAAATATGTTCCCTCTTACATGGCAAAAGGGACTTTGCAAATGTGACTAAGTTTAAGAACCTTAAGGTGGGAAGATGATC
CTGCGTTATCCAGGTGGACCGAATCCAGTCACATGAGACCTTAAAAGTAGAAGAGGGGGTCAGAGTGATGAAACAATGGAAGAAGAGGAAGGAGAAGTTT
GAAGCATGAAAAATATTTCATTCATCATTKCTGGCTTTAAAGATGGAGAGTCCCTTGAACCAAGGAATGTGAATGACCTCTAGAACCTGGAAAAGAGCAT
TGGCTGACAAACAGCAAGGAAATGGGAACCTCAGTTCCACAACCACAAGAAATGAATTCTGCCAACAACCTGAATGAACAAGGAGATAGATTCTCCTCTA
GAGCCACCAGAAAGGAATGTATCCATGCCGACACCATCATTTTAGTCATTTTAGCTAAAGGAGACCCATATTGGAATATTCGCCTACAGAACTGTATTCC
AACAAGGATGCATATGTTGGAATATTCACCTACAGAACCATGAGATAATATATTTGTGTTGCTTTCAATTGCTAAGTTTGTTACGGTAGCAATAGGAAAC
TAATGCAATGTACAGTTGACCCTTGCACAATGCAGGGATTAGGGATGCTGACCTCTACACAGTTGAAAATTTGTTTATAATTTTTAGCTCCCTAAAAACA
TAACTACTAAGAGTCTACTGTTGAACAGAAGCCTTACTGATAACATAAGCAATTTATTAACATATTTTGTATTTCATATGTATATATGCTGTATTCTTAT
AATAAAGTGTGTTAGAGAGAAAAGAAAATACTAAGAAAATCATAAGGAAGATAAAATATATTTKTGTTAATCAAGTGAAAGTTGATCATCTTAAAGGTCT
TCATCTGCATCATCTTCATGTTGAAAAGGCTAAGGAGGAGGAAGAAGAGGAGGGGTTGGTCTTGCTGTCTCAGGGGAGGCAGAGACAGAAGAAAATCCGC
GTATAAATGGACCGGACTTGCACAGTTCAAACCTGTGTTGTTCAGGTGTCAACTGTATATGAAGGCTTTCTTCTTTAAACAGAAAGGAAGTATTTTGTGC
CCAAGATTTGGAGAAAGCAATGGGATAAAAATATCATAGAGATTTTATGGTATTTGTCCTTTTTTTCCTTTTCCCCTTCACTAAGGGTCTTGAAAAACTG
GTCTGAAACTCCGCTCCAGTAGAGCAAAAAGAAGAACTGAAAGTTAAGAAGATATTTTTGTGAAAAATGTTGTGAGACAAATTTTGACACAGGGTTGAGG
AACTCTTTTTTTCCGCATCTGACCAAGGGCAGGCTTGATATCCTGAAGGTTAAGAGCGGCTTTGCCTGAAGCAAAGTTCTCACTATGGGAAGTTGCAGCC
GAGTAGTGAAGAGTTATCTTGATGGGAGGCCGGAACAAATTTGCTTTGGAGACGTAAAGGGAACTAAGAACTATTCTTACTGGACTCCAATATGAGACTT
TATTTCTATCCATTGGTTTGCAAGGCCTGGAGATATATGCATTAGATAAAAAGACTGTATTTGTAATTAGAAAAGCCTCCAGTAATTAATGTCCAAATAT
GCAACCAATTTAAATGATGTCTACATAATACCACACATAGATGAAAATCCAAAAAGTCAAACATTCATTATAATAATTCTTCCAATCTAGTTGTTGTTAT
ATAGAAGCCCCTCAGAGGGCACCCCATTTTGCTGAATTTCTTGAGTTTTTTACTTATATCACAGAATCAGGATGTTCAAAGTATAACAAAGATGAGAAGT
AAGTTGAAAAAAGAATTATTAGTGATATTTCTTCTACCATATACATGTTATCTTGGAATTGGAATTTTTTCRTAATAAGAAATCCATTAGCATAAATACA
GTTTAAATTGAATAAGTAAATTTCATTAAAAACAAAATATTTATTTGGGGGTACATTTTATAAATAGCTGCAAAATCAAAACTGCATTTTTGAAATGTAA
GCCATATTGATGCTAGTAAGTCAATATGCTCATTATCAATTGTGTATGTACTTTTATGTTATTTAGAAAATTTAATTACACGTACGGTGTTTCAAGTATT
CAATAGATAAACCACCTAGGAATATAACAGGGGGCATAAAACATATTATCGACTCTGTGTCTTTATGAAACTAGATAAAGCAAAGAAAAATCTGTCAATT
ACTCAGCCAGTTTCATCTTAGTAGCCTACTGTAAATTGAGGTCTATGTTTTTGAGTGAATGAAATCTARTAAATTAAGTTCACCAGGTCTTATTCTAGTT
TATTTTAGATGGAAATGTATGATTTTTAAAAGTGGGAGTAAAATCTTACACATATTTCTGAAATGTTAAGAAGATAATTTTATAATTCAAACCTGTACAA
GAACTTAGTTTGCCTATCTGAGCAAATTTTACATTCACTAGTGAATGCCCATGTGAAAGACAAGCAGGAAACTTCCAGGGGCCAAGGGGCTTAGAACCAA
CTGAACTGGTACAAAATAAACATTAGGTATTTCAGTACGTAGAGTTTGTGGACAAAAAGAATAGGCTCTTACCAATTACTATGCTACTAGAATATCCAAT
TTTGCTTTTACCAAGCCTTAGTGAAAAGTGAATGAATTCTAACAAGAAGACTCAAAGACACTGGTGCTCCCCCTGTGTCTCCCTTCACTTATTCTRCATG
GTCAGCACCTCTTCAAAAGACCAATAATAATGGTCCCCTACAAGAAGTATACAATTGCTCCTCTGATGTGAAAGCATATGAAGAAAATAAGTGTCCAAAG
CTGCATAAATATTTGCACCCCTTTGAGAGTATGAGAARGTGTGTGTTTTATGTTGTGATTGATAGGACAACTTTCATGGCCCACTTTGAACTCTTAGCAG
GAACTTTGGAATGTCCTGAGGGTCTGTCTGCCTTTGTATGGCAGGAACTCTGTTTTCTTAGAAAATAGTAAAGAACAGTTTGTACTCCTTTGTTCTAAAG
GGTACCTATAGTTTATGGGAATTGGGGAACTTAGTAGAAAAATCACCAACGCTCTCATGTTTCTCATAAAAAATGCTCAGCTTTATTTGGAAACTTTGGC
CATTGTTTTCTTTTTCTTCTTTCTTCTTCTCCTTCCTCTTTTGRGTTAAAAAGGCCACAGTCTGACCTACTTATATGTGTGATGAAATGTGCAGACTCTG
CCAAGGCTATTTATTCTAATGATTTATCTACTCAAGATAAAAAGAAATAAAGTGAAGACAAATCTGAAATACTGTGCAATGTACTTACTTGAAAGCAGTA
AGTTCTCATGTTAGAAAATTTCCCTATTAAGCAAGAAATCTTGAACACTTCATTAAAGTCATATGATCTGATTTTTATTATCATTTAAGTCAGGGAATTT
TAGAACTAAATGTGTCAATTATAAAACTGTACATATGTATAGCCTCCAAAATGTGTTAAACATTAGTTCATATGAATCTCAAAATACTGTAACACAGTAA
AATGAGCAAGAAAATTTTTGAAATTTGCACAGTAGAGACGATGCTGTTAATGTTCACCGAGGTAAATAATTTGTCCAAAGTTCTATTTCTGTGAGATACT
CAACTGAGACATAATCTCAGCTTTTTTCACTTTCATATTCTATATTTTGGTTTTCATTTTGTTCTTAAGAAACAAGTATTTTTAAAATGAAACATCTGGT
TTCGGCAGTGCTGGCTAATGCTCAGAACTCCCTTCCCTTGTTTTCTTCAATGTCACCCTTCTATAAAAACCTCTGAATATCTGAATACGTTTTAAGAGCA
CCCCTTATAAAACACTTTTTGCTTTGTTATGTTTCATTTTGCAGGTGCCAAAGTCACAAATATTTCACCTCATTCAGATATTCCAGGTAGTAAGGCTGAT
ATTTTTATGAGTCATTTCATCTGACAAAATTAATTTAAGAATAAATAACATTGAAATAGTAAGTAGCATGTATTTTGGACTTAACTCTTATTTTCCCTAT
TTCTATTCTTCCATGTTTTAATAGATTAATATATACTCATGTGTATATATGTACATGCACACTCACACACATATAAGTATATATATATTTATTTTTCCTC
ATCTTATACAAGTGGAAACATACTATACACATTATAAGAGCACAGTATAATTTTTATGTAATATAATTTGAAGTTAATTCCATATTGGATAGTTTCTTCA
TTATATGTGTAAGTATATGTAATATATCATATGTATCTATGATTGTGTATTTCATTGAATGAATGCACTCAAACGTGTTCAGCAATCAGCACAGAGGTTA
AACATTGACTCTAGTACTAGACTGTGAAGGTTCAAATCCTGCTTTCACCACCTGCCATCTTTGTAACCTTGAACAAGTTATGTAAGTACTCAATGCTTCA
ATTCCCTCATCTTTAAAATCAATGTAACAGTTATAAGATTCTTACCACATAAGGTTGTGTGTGGTGTTTTGAGAATGTAATGAATGAACATATCCAAAGC
CACATTGTAGAGTGCTTAGCACTTGCAAAGCATAATGTCAGTGTGAGTTGTCATTTCCATCATCATTTTTAACATGTTTAATTGCAACCCCTATTGATGG
ACGTACGGACATTTTCAATATTTTTTACTACAAACGTTGTTATACATTGTTTTTCTGTTGTTGTTGTTGTTGTTGTTGGAGATGGAGTCTTGCTCTATCA
CCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGATTCTCTGCCTCAGCCTCCCGAGTAGCTGGGATTAC
AGGTGCTTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGAACTCATGAGTC
ACCCTTCTCAGCCTCCCAAAGTGCTGGGATTGCAAGCGTGTTTCAGTGAATAGCCATGTGCCCAGCTGTTTCTCACATGCACCCTTATAACTGTGGGATA
AATCTCTGAAGGTGAAACTGCTATGTCAAAGTATATATGCATTTATAATTTTAACAGATATTGCCAAATTGAACCCATATATTTTAGACATGCTACCACC
AATGCATGAGAGTACTTGTTTCCCTAAACCCCTCTCTAATAGAGTATATTATCAAACTTTTGGGTCTTTGGCAATCCAATGGGTGAAAAATGACATTTTG
GGCTGGGTGTGGTGGCTCACGCCTGTAATCTCACCACTTTGGGAGGCTGAGGCAGGCGAATCCCTGAGGCCATGAGTTCGAGACCTGCCTGGCCAACATG
GTGAAACCCTGTGTTTACTAAAAATACAAAAAAAAAAAAAAAAGCCAGGCATGGTGGTGCACACCTATAATTCCAGCTACTTGGGAGGCTGAGGCATGAG
AATCACTTAATTGCTTGAACCTGGGAGACAGAGGTTGCAGTGAGCCAAGATAGTGCCATTGCACTCCAGACTGGGCAACAGAGCAAGACTCCATCTCAAA
AAAAAAAAAAGGAAGAGAGACAATTATATTTTTTTCCACACAAGCATTTAAAATCTAATTCAAAAATCTATTCTGAACTTACTGAATCCCAAGAATAATT
AGGAGAGGAAAAGAAATAATGTTTAAATAAATTCTATCTGCCTGTTACTATAGAACATGAAGAATGGGTTCTGTGTTCCTCTTATGAATTTCTTTTTAAA
ACCCTTCAAAGTAGGTATTTTCATGCCCTTTTAGACATAACATAACGTATAATTCAGAGTTGAATTAATTTTCCCAAAATCACACAGCAAATATATAGAC
TACAATTAGAAAGTGGGTAAGTCTCATTCTTAAACATATACTTTTGCATTATAGTCACATGAAACCACTGAGCGTGTTCATGTGTGTGTGTGTGTGTGTK
WGAGAGAGAGAGAGAGAGAGAGAAAGCCCAAGAGTGAGAGTTTGTCTTGAGGAGAAGTGTTTAAAAGGAATATATAAATCAAGGATGCACTATAGTATCA
CCAAAGTAACAGTGTGAACTTGAACAATTTAACCTCTTAGAGCCACGATTGCTCCATCTATACAATAGAATAATAATAATAAACCTACATTATACAATTT
CCGGAGATTAAATGAGGATAAAGAGTACTTTTGAAATTCTAAAGTTCCATGAAAATGTTAGCTTTGATTACATATGGTTCAGCAATTGGGTCTCCTTATT
TTTTGAGATCTACCTTTTTTTTTTGTATTATCTGTAGCTTGCTAAAATAACATACCAGATGTTTTTGTTTTCAAATTTTAAAAATCCAGATCATACTGAT
TTGTTGCCATGGTATAGTAGTCAGAGAATCTTGCTCTGGGCAGTTACAATATTTTGGAGATTGTTTTACATAATAGCAACWATAACAGGAACAATGATAA
CTGCTAACTTGTTTACATTTACAAAATGTCAAATACTATTCTAGATTATTCAATTGAATCATCACAACAACGCTATGAGGTAGTTACTGTTATATTGTTT
TGATTTCCCTGATGGAGACTTGACACAAAGAGAGACTAAGTAATTCACTCCTGTCACACACAGCTWAAAAGTGGCAGAGCTGAGTGTTTTGCCCCAGGTA
GTCCAGTTCTAGAACTGTACTCTTTTCCACTATGCTATACCATCTTCCTAATACTATCTGTACAAGAAATTTTCTCCTAATGAAATGTATTGCTGTACCC
TATATAAGCTTTAGCTCTAAAATTGCAGAGCAGGAAGCAGGTGGATAAAGCTAATTGCTATTCTATTACCCTACAATAGAAATTTCAGTGGACTAACTCT
AATATTTAAATAACCCACTGTTAATAAACTGGCATGGTGCAATTGCATGTTTCCCAGTGAGATCAGATCTAGTCCAATGTCTCAGCAGATATAGGAATTC
CTTTTCTATCACCCCAGACAGGTGGATCTCTACTCATGTATCTTCAGAGAAATGGATACCCTACAAAGCAGCACATTCCATTTTCAACAGCTCTAGATAT
TATTTTATTTATTTATTTTAGATGAAGTTCTGCTGTGTTGTCCAAGCTGGTCTCAAACCCCTGGGCTCAAGCAATCCTCCTGCCTCAGCCTCCCAAGTAG
CTGGAATTATAGTTGTGTGCCACTGCATCTAGCTCCAGATTTTAGAAGTTAATTCTTACACAGGGTTTTCTGGAGGGACAGAACTAATAGGATTGATGTA
TATATGAAGGGGAGTTTGTTAGGAGAATTGGCTCACATGATCACAAGRTGAAGTCCCACAATAGGCCATCTGCAAGCTGAGTAGCAAGAAAGCCAGTTCG
ATTCCCAGAACCTCAAAATTAGGGAAGCCAGCGGTGCAGCCTTCAGTCTGTGGCCGAAGGCCCGAGAGCCCGTGGCAAATTACTGGTGTAAGTGCAAGGG
TCCAAAAGCTGAAAAACTTGGAATCTGATGTTCAAGGGCAGGAAGCATCCGGCATAGGAGAAAGATGAAGACTAGAAGACTGCGCAATTCTAGACCTTCC
ACGTTCTCCTGCCTGCTTTATCCTAGCCACGCTGGCAGCTGATTAAATGGTGCCTACCCAGAATGAGGGTGGTTCTGTCTTTCCCAGCCCTCTGACTCAA
ATGTTAATCTCCTTTGGCAACACCCTCACAGACACACTCAGGTACARTACTTTGCATACTTCARTCAAGTAGACAGTCAATATTAATCACCACATTCTCC
AACGCTTTCTCATACAGGTTCTATTTCTCCACTATGAACAGTGAGATTTTTTTTCTGGTATACTTGATAGGCCTTCAAATGTTCCAAGAAAACAATCATG
CTTTTCCTAAGTCTTCTCTTTTTAAATACTCCCATTACCTTTCCAAACCTTTTGTTCAGCTGTTGGGACCATCAACATCCTGGTCACACCTCTATGGATG
AAGTCTAATTTGTCARCTACTCTCTTAAATGGTGGTGTCATGAATTGATCACAGTGCTCTGGATGTGCTCTGACTAGCTATGACTGCTCCTGGATCGCCG
TTTCCTTTAATCTATACACTATGTGTCTTCCTAATACAGAGAGTATGTTGTTTGCCTATATATCATAACAAATTGAAAATGCATTTATAACTTAYAAAGT
ATATATTACTAGGTGCTAGAATTTACACTATTATCCTAATATACAGAAGCTGGGAAAAGTAATGCCATAGAGTTGATTTATGTGTGTAAATGTCTAAGTG
ACTTAAATATTGATTTTTCTCCTTCAACTGCAGATCAAACTTCCCAAACACTAAAGCTTCCTTATTTTAAAACAAATGCATTTGTGGTTCACCAGTCTGC
AGTACAGTAAGCTTTTTATAGGTAAGCTCAAATCACAGAAAAGCTCAAATAGATACATCTCCTTTAGCCTATTTTTAGGACTGATAAAGCTAAGAACAGA
GAAACCAATAAAGACATATTTTAATGATGGCAGGGTATCTCATGGGGTAGTACAAATTTATCCCAGTTTTTTATGCCTTCTCTATGTGTAATACATTGAA
GTGATATATGGTGTTGAATGTGATTAAAATTCAGCAGATACTTATGCAAGATCTACTATCTATAAGATGCTTATGCAAAATTCCATAGGGAAACATTAAG
ACGTGAATAAAATCTGAATTGGGCCATCACTATGATCTCTCCCCAAAACGTGGGATTTTCAAGTGCATTTAGAATTATGAAATAAACCACTAGGTTTTTA
GTGTGAAATGTTTACAGTATTTTAATTTTGAAAACTATACTTATTAAAACAGTATGACAACATTTATTGAATACATGTTATGTGCTAGGTACCAAGTGRG
GAGTTTTATGTTTATTTTCTCATTTCATCCTAAGAGCAAACTTCRGAGGTAGGTGTGATTCGTCTCATTTTAGTGAAAATTCACTGATGCTCTGAAAGCA
AAATTAACTTTCCCAAGGGCCTTGTAGTGCTTAAAGGCAGAATCAAAATCCACAACCAGCTCTGGAAAATCTCCAGAAATGAGCTTAATTTTTTGTGTGA
TTTATATATGACTCCAATATTAACAGACATGTCAAACAACTAACACAACCCTTTACCTGTTTATTTTGGAAGAAGACACTTAAAATGTATTTTATTACCC
TGTTGATTCTCCTCTGGAGTGTGACTTAGTATCCATTGCACCTTTGGGATTCTTATCTTCTAAAATTCACAACCACTTTCTACTGCTGTAAGAAAGAATC
ACCTGCAGAGTTCACGAATGAGGGAAGAGTGAAAAGGGAATAGTGGCAGATCAATACCACTTGGCATCACATCAAAATAGTATTCCAAGGTTGGTGTTCT
GGCTTCTGCTTTTCTGGGAAATACGTTGTCTGCTATTTCAAAATGCCCTCCATCTGAATAATGTAACCTGAAATTCATTCAACTCATATTTAGCACTTTA
GGCCATATCCAGGGTTGTGGAAGGTGTACGTAAGCAATGAGGATTGCCTACAAGGCAAGATGAGAACTCTGTTTTCTATACTTTCTATTGTTCCTCCCTT
TGCAACAGAAGTAGAAAGGGCCATACCATAGCCATCTACTGTCCAACATGATGAATATCCTTAAAGACAAAATCTTTAAGCAGTAAGTGAAAGGTTAACT
ACAATTCTCATTTAAAAAGAAAATTGCATTGCTGATATCTCTTTGTTACATAAATTTTCCACAAGGATTATACATTTTCTTTTTATTCATTTGTTATCTA
TTTGACAATAGCAAGCCTGTTTCTCTTTAGCTTAAAGGAACTTGGATTAAAATTTTTTCTGTTATTTTAATCAGCATTGATGTTGTATATTATGAGCGTG
TGGCTTTTTGTTTTCTTGGCAGAGACCTTGAAAAAATTTTGAACCCTAGTCAATAAGAAATCTCTGTATTAATATAAAACTATAACTTATGGTTTATTTG
ATTAGATCAATGTTTAATTATGGATAACATGTATTTTTTGCACTGAATATTTACACACAAATTAATCTAGCCCATAGTAAAAGTGCTAATGGAATGTTTC
ATCCAAACATAAGTTAGTAAATGGAAAACAAACAGCTGTTGCAAAGACCCTGTTTTTGGGTCTGGGCCTAACAGCACGAAGCACTTCAGAGAATTTCACC
ACTACCATTTACTCACATCTGTTGAGATTGTACTATTTCAACTCAAGATTTGATCAGTGTATGTCATAAAGTAACAAGTAGTACGCTAAGTCAGAAAACT
TAAAGGAAACATTAAATACTCATTTCCTATATGGAATGTTGCCTTTCTAAGCACATCATCTTCTTCTATGTGATGTTTTGCAAATCTATTCATAGGAGAT
TTATATTTTCAAGTGTGCTCAAATGGATCTGTGTTGGGGAAAGATAYGTGAAATAAGAAAATAAAAGCTAATCCATTTGTTTTAAAATTTTGTCTGCCTA
CCACATTTTGTTGGACTTCTTGTTATATGAGAACTCCTAATTGTCTGGTTTTCAATTGCAGCCAAAAGCATTCTTACCTGATCAAACTCTTCAAATTCTA
TTTACTTTGAATTATAGCTGAGTACATGGAAAGTATAATTGGGCCTTACTTTGTTACACAGCAGACAAAACATATGCTCAAGATAGGTCAGTGCTATTCC
AGTGAATAAACATTTTAACAAAAATTTGTATGAGAAATTCATGTTGGCCTCTCATTCCTCTCTATATGCCTTTCACAGTTACTCTTTTTCCCCTTGCCAA
TCAAAACACTATAATGAATATCTCTTGGCCTTAACGATAAGAAACACTGTATATAAATATTGTCTAGGCTGTATTTTATGAGAATGTGGAGTTATATGAA
ATGTAGGAAGAAAAAATATGAGTGAGTAATCCTGTGAGCAGTGGACGGGCTGAGCTTCTAGGACACTGATAAGCAATCAGTGTTAGTTACACTTGAGGCA
GTATCTCTGGTGGTCTGTTCCAGAACTATGTCCTTGACTCTGTCACATTCATACTTTTCATCACTACTTTTTATACTTCTGCAATTTAGGTCACCCAATA
CASGTTATCTTATCAGGTTAAACTGATTGTAGTGGTCACATTGAAAAAGAAAAAAAAAATCCCAAATTCAGGACTTTTCCCAACCAGTTCTAATTAATGC
ACGTGTGAAAGGACATARTTATTGTGAAAAGAAATGCTATCAAAACAGTCTAATGGCTACAAGAAGAAAAAGAAAAGAAGAAGAAGGAGGAGGAAGAGGA
GAAGGAGATGAAGAAGAAAGCTAAGGAGAAGATGGGTAACAGGAAAAAAAGAGGGCAGGAAAAGCAGATAGGAAGGAAAAAAAAGGTGGAAGAGAGAAAT
GAATGCAGGCAGGCAGGATGTTTTCCTCGAGGTTTTTTATTTATATCCCCTGGACTGCATAACTCAGTTTATTCCCTTCTAAACCRACTTTTCTAGAATG
TGTTGTCTCTGTTCGACACCTACAACTCTGGTTCATTTTCTATGCATTAAGGATGATGTAACTTTAAAACCTCTCATGTAAATTCTGCCTGTTTTCTAAT
TCTACAATCCTCTTGTTTATGTTCYATTCTAATAATTATCGAGCTTTTAAAGAAGAGAAATCTGTTCTTAACTCAAATTTATACATACACTGAAGGAAAT
AACAAAACCTTGAAGTAAAACACTGTTTCTATGATAAAAGAGAGCTCTACAAATAGATGCATGAATAAACACTTCTATGGGAGGGATACCTTTTCAGAGT
TTAAGGCTCGCGGGCTTTGGGATCTAAGAAGATGAATCGCTTGCCCTGTTTGTGATCCTAAATGGAAATTGACAGATATGTTTAATTTATCCTGCTCAGT
ATTATAAAGCCTTTTTCTCATTTGATTTTTGTGTATCCCTCCTGAAATATTTGCTCTGGTAAGCAAAAGCAAATATTAGGTTTTACACTCCATTTAGTGA
AATAACAGTGATGATAATCTGACATCAGAGAACCAAATGTTCCAGGCTTATTTCATGAAAAGGATTTCCTCTCCAGAAACATTATCCTCAATAGGTTATC
CCATCCTTCATTCCTCAATTCATATTTCTTGAGATTGAGAGGGAAAAAAAAAGAGGCCAGACCACAAGTAGCCTACTGCTAAATTCTTTTATGAAGCTTA
GTTTTATGAATTACCTTTTAGCCTTCTCCAGTCATGTGGGAAAACTTTCCTGCCTCATTAAATCTTTAATGCAATGTGCACCATGCACACTRTATTGTTA
TTTGTGACATTAGGTTATATATTGCATAGTAACTATAATATTACTTGCAAACAAGCTGGTTTTTCCCCCTGAAGGTAGAATTAAAACAGGTACTCATGGG
AAACAGCTACTTGTGTTCTTCTTTTCTTAATGGGGTGAAGCTGAAGAACAGGAAAKTGAATGGCTTAGCCYAGAACCATCTCCAGGAATGGAGGTAAATT
TTTTCCTGCAGTGCCTTCTCAATTTGATATCTGAATCTCCCTGAAGAGAATTTGCCTTAGTAGATATGGAGAAAGAGGGAAAAGGCCAAGCCTTTGGAGA
CCCTTATGAAATGGAATGAACCGCTCTCACTAAATTCACTTTCTCTTTGTATTGAAAAGAGATATAATTTTCATCCCTAGTAAATATAGTCGAATCCATC
CAGTAATATAAGAATTGCCTCAAAGTGAACTAAAATTGCACTTACTCCTACCTGTGGAAAACCATATTTCTCTAGCCAAGAGAACAATGACAGATTAGTT
CCTAAATAGCAGGAGAAAATGAAATGTTCTATTGGCTGAACACACAGTGCTCTGTAAAATCAGAGAAATCAATATTGTCCCCAAAATGAACTAATTTGAA
AGTCTCAAAGATGTTCAATTTTATGAAAGACTCGTAAAATTAATAAATGAGTCTGCAAAGTCCAAAAATGTGGAAAATTACAGTTATTTGCAGTACGTAT
AACTTACCAAGACCACTTATATTTTGTTAGAATTTTTCAATGAATGTTAATGGATGAATTTTTTTATATAGAGTTCTCCCTGTTTGGAATCTTTTAGTTC
CCTTATTTACTGTGGTTGCCACTGACTCTGCATCAGGCTTTGGAAATATCACTAAAAAACTGTTTTTTCTTTAGTCTTCTTACTAGTCAAATATCAGCTA
AACAAACAAAGAAAATAAGTGTTTGAATGGTCAGAGAACTATAAGAATGAGAATTCTGGCAGGAAAATTCATTTTTAAAAATCCAAGTAACAGAATGGAT
AAATATAAAAAGAGGCTAGATCAGACATACCCAGACATTCTCAGTTCAGAATGTTCATAGCGTATTCATAATTTTTTCATAGTGCCTCCTTGACCAACAG
AAATAAGCCACAGTTCTATTTCTTAAGTAGTTAGTGCCAAACAACTTAATAAATATTCATGTTTTAACAACCTAGCAATTGTTTAAAAAGAAAATGGACA
GAAAATAATAATTTTTTTCATAAATAACCAGAATCACTTACTGATGGGATGTGGTACCTTTGGGGTAGTATATACCTTCTCAAACTTGAGTATCAGATTG
GATAATGCTATCCTTATTTCCTTTTCCACATTGACTTTTGTGCAGTTCTTGCTTTTRATTACAGTCTCTTCTGAAAACCTTTCTTAATAAAGATATAAAG
TGGCCTAAAGTACAAGTAAGCAGAAACATGGCTCAAAATGTTGAGAACATTCTTAAGTGGAATATAGCATGTTCTAAGGTTTCAACTTGTGAACCAYCTT
GAATTAGTTATTGCAGTGCCCAACAGATATTTAGTATTGCTGTGTGTCCTTCAAATGTTTACAATATTCCACTGTGCCTTTGTGAGTTCACTGCAGCACS
CTGGGRCACCTCTACACACAGTTTGTGAACACAGGGGTAGATAGATCCTAGAGGCATTGAAACTACACGGAAACTTGAATGACGTTAGGGATCCCAGAGC
CACTGGGGAATCTTCATTAGGGAAGTGCAACAACATATGAAATAGCTCATTAAACTTTCCCTATCAAAAAAACTGAAGTCAGAGAGATGAATTCAGATGC
TTGATGAGAACCTACTTGGTAATGGATTTGAAGGAGAGAGTAAACGTTAGGATACTGAAGGGATTCTAAGAGAGTGCAGAAGCGAGGGCAAGGAGGCACA
AAACGAAGGCGGCACCTGGAACATGGAGGAGTGGACAGATGGAGAAGAGGCAGAGAATTCTTTATCTAAAGCAAGAGGAAAGGGCAACGTATACTCAGAA
TATTCTCAAAGCTTTTTCCCTGAATAATAGCATCCTTCAGAAAAGAAGTCTTGTAACTGACTCATTGCAAAGTCTCTTACACAATGGTATGTACTCTTTG
GGGAAGACACAACTGGAAACAACACCAGGAAAAGCTTGATTTTACAGCTTATGGAAAGATTGTGGAGTTGAAGGAAAAATAGAAGGAAAGAAATTTTAAA
AAGAATAAGTTAATATTCCTAGGGGTGCATCCTCTAAATTGCAGAGTGATATCTTAAGCAATCCTTTTAAGAATTACTTAAGAGCCTGAGCGTGGTGGCT
CACACCTGTAATCCCAGCACTTTGGGAGACGGAGGTGAGTAGATTGCTTGAGGTTAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAATCCCATCTCT
ACAAAAAATACAAAAAATTATGCAGTCATGATGGCACACACCTGTAGTCCCAGATACTCGGGAGGCTGAGGCACAAGAACTGCTTAAGCCTGGGAGGAGG
AGGTTGCAGTGAGCTAAGATGGTGCCACTCCACATCAGCCTGAATGACAGAGCAAGACTCTAGGTCAAAAAATAAAGAAAGACAGAATTACTTAAGTAAG
TACTTGACTAACTGGTTATATAAATGTGATCATAAACGCATACCTTTAGGGTAAATGAAAAAGACATTGATTCTAATATTGTGTAAATGGGTAACTGTGG
CTTGGGAAAAAAACATCTAGTAACAGTATCCTGAAAATTGTTTAAATGGTCCGTGTTTCACACAACTTAAATGGAAGTAAAACAGCTTCGCTCATGACAA
TTTTCAGGCAATTCAAAATACGTTGTAATAATGGCAAACATGAGTATCAGAGATACACAAAAGAGTTTAGAAAAAAATCATTTTATGAAATATGAGCTAA
AACAATGTTTTACTATTATCGCTATTATTATTAGCCCTCAGCAGAATAGGGTAAATTATTTCTATTCCTTAGTTCATGTTTTATATTATCGCTGACCTGC
ATGAGGAGCCCCTATTTTTCTGCGTATTTATTTGTTCCTCTTTTCCCCCTTCCCACCTCTAATTCCTCTCTCATAGTATTTTAGTTTATGTCAGGGATCC
CCAACTCCCGGGCTATACAGGTCTGTGGCCTGTTAAGAATTGGGCGGCACAACAGGAGGTAAGCATCAGGCAAGTGAGCATCACTGCCTGAGCTCTACCG
CCTGTCAGATCAGCGGTGGTATTAGATTCTCACAGGAGCAGGAACCTTATTGTGAACTGCGCATGCGAGGGATCTAGGCTGCACGCTCCTTATGAGAATC
TAATGCCCGATGATCTGATGTGGAACAGTTTTATCCCAAAACCCCTCCTCTGTGTCCATGGAAAAATTGTCTTCCACGAAACCCATGCCTGATGCCAAAA
AGGTGGGGAGTGCTGCAAGTTTCCATTATATGTGACTTTATTATAAATAGGTATGAAAAACACATTAGCAAATCAAGTATCATAGGTGATCTTTTTCTAC
TTCATCTATAGTCGTAACAGCTTTGACATTCAAATTATACACACTTTGACTCTTTTTATTGACAAAATGGAAAATTATCCTTAATTCAAAATGTATTTTA
TTTGAGCATATGTGGTGATTTCATATATTAAGTTGATATTTTTCTTTCCTTTTTAGAGAAGCCATATTCAAGAAAAATAGCATGTAATTCAAATTTTAAA
TAATCAAAATAGATTTGAAAGCTCAAAATTTTGGAACATTATAGGCCTATGTCCCAATATTCTTCCCAAACCTCCTTTCAAACGTATTTATTAATTTAGA
AAATTCTAAATAGTTCAGTCCTTGTTTGAAATATATACAACATAAAACTTTTTTTTCTCCTGCCTTTCTAGAATCCTTTTATTGAGAAAATGTGTAGCTG
ATCTGAAGAAGCATGCTGTGTGAAATTTTGAATGTTTATCTTAATAGAACCTAAAATCTTCCACATAGGTTCACCCCTCATTACTCACAATAATGCCAAG
TGCTGTAGTCCAGGCAGATATTTATTATTTTATATGTGAAAAGACATTCGAATAAGGCCATTTCTCAGTGGATTAGGGGAATCAGAGTTTTCTGAATTTA
AGTTCCTTATAGAGCCCCATGTAATGAGCTCTTAGAAGACATTGCAGAGCTGCAATTTAAAATCCTGTTTAATCAGCCGTAGCRAGCTATGTGCCATTCT
CTGTGGAACACTAAGAGGAATCAGGGTTCTTCCTCCTCCATCCAGTACATTCCCAACCAGGAATTGCTGTCTGGTCAGGGTTGGACGTGAAAGGCCATAG
AGAGCCAACCCTGCGAAGCCAAGTCTCTGCATGTCAGCACAGAGCAAGCAGCAGAATACAGATCATCAGCTTTGTTTTATGAATATCTCTATTTACAGTG
CTGGAGTGGAATTTTAAAAAAAGGATTGCAGCATTTGCATTGAATCTGTCACTCACAGCTTCAATTTTGATTCCTGTCCTATAAATGATCTTGCTTTCCT
ATTTTTTTCTGAATTTCTACAAGGTGACTGTCAATGTCAGAAAATGTAAACCTCAAGTGTACATTGCATGGGGCTTGGCATGTATATTAGAAAGAAAGAA
GTTTGCTTAATGAAAAGAGGATAATATTTATTCAAACTAAGCCTATTTAATTGCACAGAGGAAAGTATACCTTCTTTGCCTGTTTTGTTTGAATTTTAAT
ATAAAATAAAATTTGCTGCTAACCTTTTGTTTTWCTTTGACCAATAACATTTCTCAGCTTAGTGTATGGGCTATGTAAAGTGCCTGTCAAATGGAGGGAT
GTCTTTGTKGAAAGAATCCAGACTCACAGAAAGTGAGTGACTTTCTGGTCAGATGGTTAGAACTCTCCCAATTTTGACAAAGATCGTTCTCTGTTTGGGA
TTTGTAAAGCTCAAACTGTAGACTAAGATGATGACAGGAGGATCTGCTGTTTGGCTTCATGGAACTTAACCTATTTCAGCAAGCCTGCAATACTGGGGAA
AATAATACATATATTTATGTTTATGTCAGGCTTGCAGTTGATGGGTAAGGTTCATAAAAGGTTACTCCTAAATAAATGCCTATCATTCCCACTCCGTACT
CCAGTGATTTCTGCGTCTTGCAAATACTGCCCTATAGAACAATAAAATTCGTATACAACAGTAAGTAAAATATGATTTAATAGCCCATCTCCTATCCCGT
AATGATTATGCATCTTCTGTCTTGTAGCTCCCAGCAGTAGGARGACAGTTGACATTTACCATATCATATGACCTTGAAGAAGAGGAAGAAGATACAGAAC
RTGTTCTCCAGCTTATGATTATCTTAGAGGTAGAGTACTGAGAGCATGTTCACCCGTGTTACTTCCTGATGTTACTTAMGGTTACCAGTACTGTATTTTT
TACCTGCCTGGTTTGACACTGACTTACAGGACTACTAAAAAAAAATATACCTTAGGAGWTTTTTGTGCCACTCTTTTGTTTCACTCTGAGACATATCTAG
AAGATTGAGTATATTTGTTGGGTTTGAATGATAAAGGAGAACTTTAGACCAGACTTGAAATTAAATTTCAAACATAAGGACCATATTTCCAAAATTTAAA
TATTATGAAAGTGTTTAGGTACATGCTAATTTACATGGTTGTGTTTTTCCTGTTTTCTCTTGCTTCCAGATAGATTTTATTGTCTACTCCCTTGTTTATA
TTAGATAAAATAAAATGAAACAGGAAACTTGTTTATTTAGCTATAGTTAAATCTTGACTTCAGAATCCTGTTTTAGGTAAGAAAGGTACAGGAGAAACTG
CTTTCAAGATTTGAAGGGCCATAGGCAACTTCAAAATGCTCAAAGCCTGAAGTTTCCTTAGAGGCTCTCTGCCACCCTTTCTTATCATATCCATTCTTTC
CAATAATGTATCTCCTCCCCTTGACACTGATACGTATTCAGAGGCACACACATACATGCATGTTCATTATTCCAAATGGGTAGATGTTAATTTAGCACCA
GGCTCTGTTGTTTYCTGTCTTGAAACTTTCATGCATGTGAATCTATGACAAAATGAAAAATTCTTTTCTCAAAATGGACATTTTCCAGTATTGGATGAAG
TGGTCTGCTCTCTCTCTTTCTGTCTCTCTCTTTCTCTCTCTCTCTGTCTCTCTCTYTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTMTATMTATA
TATATATATATATATATATATGGCAACTAGATGTATACTTTGGAATTCCTTTAAGGTGAAAAGAGTTCTCTAAATGTAAAGTGTTGAGTGAAATTATTTA
GCATTCATGTGAATGAACTAAGACAAGAAGGATTACCTAAGTGTCATAGGTCATTCAATATACTCCTTAGATGCCATTGTCCTATTTTGAGAATTAGACT
GCAGTCTTTTTTGTTGTTTGTTTTTTCCCATGTAGTAAGTTCCTTTAAAATAATAGCTTAATTCAGTTTTAAGTTTCTTTCCCTATTGTTCTACACAACC
CACATCCATCTACAGTTTGAAATATGTAACTTTCGTGCACTTTTTTCAATTCAAGGTGTTTGTAATCACATATATGTTTATGAGTTGTCAGGTAGCTATT
ATTTTAGTTAACAGGGAACTAAGGTCATGCCAAACCAAGAAGCATATGCTTCATAATGCATTTGGCTAAGGCTAATATTGAAATTGCATTGCCTTCCCTT
CATGTATACCACAAATATATTCCCTGAATGACAGGGAAAGCCAACCTGAAAATAAAAGTCTACTAAGGCCGGGTGTGGTGGCTCATGTCTGTAATCCTAG
CACTTTGGGAGGCTGAGGCAGGTGGATCACCTGATGTCAGGAGTTTGAGACCAGACTGGCCAACATGGCAAAACCCCCGCCTCTTCTACAAATGCAAAAA
ATTAGCCAGGCTTGGTGGCAGGCGCCTGTAATCTCAGCTATTATGGAGGCTGAGGCATGAGAATCGCTTGAACCTGGGAGGCACAGGTGGCAGYGAGCCG
AGATCGCGCCGTTGCACTCCAGCCTGGGGGATAGAGCGAGACTCTGTCTCCAAAAAAAAATAAATAAATAAAAAATAAACATAAATTTTTAAAGTTAAAA
GTCTATTGAGGGTGGAGGATACAAATATAGATATGTTTGACACTTTTGTACCCTCTTTTCAGTTTTACTCTTTTTTATTTCTTTTTTTTCCCCCTTTAGG
GTAATGACTTGAGCATCAGCACAGCCCAAGATGAGGTGTACCTGSACCCATCTGAAGAACATACTAATGTATTGTTACTTAAAGAAGAATCATTTACCAT
ACATGGCACACATTTTCCAGTCCGTAGAAAGGAATTTATGACAGTGCTTGCGAATTTGAAGAGAGTCCTCCTACAAATCACATACAGCTTTGGGATGGAT
GCCATCTTCAGGTAAAATCAAGAACTGCAGCTCCAACGTTCACACATTTACTTTGGGGCCAAGGTGCAGGAGCCGCCCCAGGAGTGAATTTTTTAAGGCA
CCTAGGATTTGCTGTCTTCAAAGAGCAGATAAGAACGGAGCCCTAGTTTTCTGAAAGATTTTTCTCTTAAACCTTTACAGTTTTAAATATGCAGAATAAA
TTTGTCTCGGTTTTTATTATTATTGATGATTCTTTCACAATTGTCAGAACATGTGATCAATAACGATTCCTATATTGAGAAATGTTATATTGGAAAATAA
AGTCTCCTTTATGATGGCTCATAGCGTGGGAAGCTAAAAAGATATAAATTCCAGGGCACCCCTATTTGGAAAGTGGTTTTTAAAATATTTCCTTCCAGTA
GTTGTTAACTAGTTTCTGGCTTAATAGTATATAGATTGTAATAAGAAAAGTAAGTCTTTTCATTTAAGTGACCACCCATCTCACTATAAAACACTTTAAG
ACTATAACAGCCATATGGTATAAAGGAAAGAATATGAACTTTGGAGCCAAACTGAATAGAAATTCAATAAGCTTTATTGCTTATTTTATGTGTGACCTTT
GGCAAGTGATTAAGCCTTGAGGAACGTTTCTTTTCAGTGTAAAGTGGATATAGTAATGCCTACTTTTCAGGGTCTTTGTTAACATGATATGTGATCATTA
GGAAAGTACTCATCACCTAGAACACTTTCAGTTTTTTTCTTGTTCTCCCCGCCCCCTTTTTTTAAAAGAGTGAACTACCTGACTTGAACCAAATATGCTC
GGGTCTGATTAACTGCTGTAAGGCGGCTTTGTTTTTTTTATTTTTAAAACAATGACATTTTTATCTGACAGAATTTTAACTTCAACTGTGTCTGAATGAG
CTCTTTACGCTTCTCGTTTTCTACTCTAATAATAAATAACACAAGGTGTCATAGGAACTTCCTTCTAAATCAGGTTAAGTTAGACATTCAAATGTGACCC
CAGCCTGACAACCCGGTATACCTTTAATGAAAGCAATGTCTCCAATATTGGAKTTTTTATTGCTGACACCACCACCTCTCACCTCCCTGTCCCTCATCAT
TTCCCTGTGCTGCCTAGTTTGCCTTTCACTGGTAATATTTCAACTTAGTCTAATCATCATTACCATTTCCCAAAGGAGAGAACTGCAGAATCATAAACAG
AACCATTGCCAAACAATGTACCTCTTTTGCATAGGCAATTCTTCTAGAAGCTGGGTTAAAATGCCATGGAGATGAGAAGCAGCACTTAGGAATTAATTAT
GTTTTTCACATTTAGCAAATAGAGGTTGTCATGATGTTTAAACAGTACAAAGAAATGAGTCCTCCAGCTTTCAAAATGAATGACAACCAAATTGACAAAA
AAAGTGTCTGGGGGGCTTATATATTTTTGTCAGCATTGCTTTTCAGGCTAGTTAATACAAAGACATTTCCCCCTGATTTATGTTGGACAGTTTCAGTGTC
TACCCGTCTTAAAATCACTGGTTTCATTTGCAGTCTTCTGAGGTTTCGCCATACAGGAGGAATGCATTCACAGCGCGGCTCTGTGAAATGACACAAGAGC
TAATCCAAGTAGGTGGCTACTTTCTGTCACCTACATTACCTAAAGCACTGTGGTTCAATAAGTAAAAGCCAATGTCAAATTTGAAACTCCTACCCACTCA
GGTGAGCTGAAAGTCGGCATGAATCTGGAGTCAGTCAGTAAGCTTGTTATATTTTATCTTTGATCTACTAGTAGATTGAGTCATATTTGTAAAACATCAC
TTGAATTGATTTCAACTTGTCTTGCACAGTAGGCTTTCGACTTGGTATACTGTTTGTGTACAAGCACAAGTAAATTGAAGCTCAACAAAAATTCATATTC
AGACTTATTTACAGTGGATTTACTTCCATGGCAGTTCTTTCAGCAAATGGGCTTAGGTTCCTCCAGTTAGTTATATGATTAGATGGAATTGTATAACAGA
AGGAGAACTGGACTGCGGGTCAAGAATTTTGACTTTTGTTTTCAACTCAGCTATTTAATAGTTGTAAACATAAGTATGGCTTTGACCTCTTTGGACTTCA
ATCACTTCATCTGTAAAATAAGGAGGAGGACAATTGCTCTGCCAGCTTCAAAARGTCACCGCAAGAATTGAATTAGAGAGCTGCAAAAGCACTTGGCTAG
TGGTAACCCAGCACACAAATATGAAGCATTTCTATCTTATCTACTTCATCCCAAAGGATCACATTTTCTCCAAATACCATTAAGACTTAGAGACCTCTAA
AGAAAGGCACATACTGGCATTTCCATACATATGACAGTTCTTACTATCATTTTTATCCAGAATGCTGAGACCCATTAGATAAAATTAATTTATTTTCTTC
TCGCTGTCTTCACTAGGAAGATGAAGGCACAAGTAGAAAACTCTTCATTCTTCTTTTAAGAATATAAGAGAAATCAACCTAACTGAACTGTGCATCTTTC
ACCTTTAAATTATCCAAGACTTGGATTTAGTAACATCCTTGGTCTTTAAATCAAGAAAGGCTTTTATGAAGCACCTATATTAGATATAGAACTCTGCACA
AAGTGTATTTTCCTCTAACTTTACAGTAGACATTAGTAGAGTTCACCAAATTTCCAATCTCATCTATAGGGGATATTGCATTTCTCTAATCCTGGAGGGT
AGATGTGTCACATGACTTGGTTTAGCCAATGAAATGTGGTAGAAATGATGTATTTTTTTTTTTCCTGAGGTAAACATTGAATTTCCAATGTGAGACTCTC
TGCAGCTTACTCAGCAATCAGAAGATTAAAAAACAGCCTGGGGCCGGGCACGGTGGCTCATGCCTGTAATCCCAGCAATTTGGGAGGCTGAGGCAGGCAG
ATCACGAGGTCAGTTGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACCAAAATTAGCCAGACATGGTGGCACGTGTCAGT
AATCCCAGCTACTCAGGAGGCTGAGGCAGTAGAATCACTTGAACCCGGGATGTGGAGGTTGCAGTGAGCYGAGATCGCGCCATTGCACTCCAGCCTGGGT
GACAGAGGGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCCTGGAATACTGATTTAGCACACAGAGGTCAGCTGCCCTAACAGTCAC
CCAGGCCTGTAGAGGATTTTACATGAGTAAGCCTTTGTTTTCTGTTAAGCCATTGAGATTTTGGAGTTGTTACCACAGCATAACCGAGTCCATCGTGACT
TCATCACGATATAACTCATGAGTATTGCTTGAAAATAAATACAGAATCTTTTCAAGGCAAGATATTTTTACACAACTTTTAGTGTAAATTTTGCGGTTTG
GGATCAAAAAAGATTATACAGAATTTATATAATAAATAATCTAGAAAAATTCCTTTGTAAACAAAGGAGTCTTTGATAATCATAGAAATAGTATTGATAG
GTACACAGTATACCTCTGCCTTCTGAAGTTAATGATTTGGGTAACTACATTTTGAAGACATTTTACTGATAACACTAGGACTTAAAAAGATTTTTGCAGC
TCACTTGGCATCCGGCCATTGGTAAGAGGTGCAGCCAACATTTTACCCTACGTTTCCTTCCCATTATCTTTGACTACCTCCCAATGCTATTCCATAAGTG
TTGGATTCGTTCAGTCTGCAAATATTTACTGAGCACCTTCCATGATTATCTCTGTAAATCTCAGTTCCTCTTGTATACAATGGCAGAAACAATGTCTAAA
TTTCAATTGGCAATTAAGTGAAAACATAATGTATGTTAAGCACCTGAAATAGTATCTAACATATGTTGGGAGGCAATGCAGGGTAACAAGGAGATCTTTG
GTTTTGGAGTCATGCTTGGGTTTGAATCTATGCTGCACCCTTTGCTAATGGTATTATGTTGGACAAGGCTCTTTACTCCTCTGAGCCTCAGATTCTTCAT
TTGTAAATGTGAATAGACATGGGTTGTTACATTGTTTATTGATACTTAAATGAAATGTCTTTCCAGCCTGTATCATAGTACACAGAAAATAGTAGACAGT
AAGTAGTAACTATTAAAAAGCAGTCATTCTAGGCTAGGCTATAAGGATACAAAGGTGGACAAATGATCATTCAGTTCAAAGAAGGCATTGTACAGTAGAG
AAGACAGATATACATATACATACTGTACATTTATGATAATATAAATAGTGCAGAAGAAGTGTGCACARTGCATATAAATAGTGCAGAAGAAGTGTGCGCA
GTGCATACTGGTAGAACTAAGAAGGAAGCAATGAATTCTTGTGTTAGCATTTAATACACTTTTAATAAATAGCTGCAAAAGTATCAGTTTCTGTCAGTTA
CTGCTCTTACTCGATGTGGGATTGAAAATGTTTAAAGAAAATATCTTGCTATATATATATAAAAAACAAATTATATAGCATATATATATATATATATATA
TATATATATATATATWGTGGGTAGAAAAAAGACAATTGTAACATCAAGGGTATTTTTGTTGTTTTAAAGTGTCATGTTTTGTGCTGGTTGTTTTAGTGTA
ATATAGCATATCTTACTCTGGTGGGAAATGTAGTAAAACAAAAATATTGAGAACAATCTTTAAGGCAGCACCAAGACAACGTTTCTGAAATAGTTCCAAT
ATTATTCATAGTGGCTTGTATAATTATGTCCTCTCTCTTCATCCATCATCTTTTCTGTATTTTCAAGGCATAAAAATAAGAGGGAAKAGTCAGCTAAAGC
ATTTGACTTAGTTGACAATTCTTTGATAGCTCATGCATCTCTAAAATTTAGTACTATATTATTGCCAACATTATGTATTTAAATGAATGCAGCTTGATAT
CAAGARAATGACCATACTGAAGGGGAAAAAAAAATAAACTGCAGCCTTCTTCATGAGTAACACTTGAAACTGTTAAACACATTAAAATCCCATTTAACAA
ATAGCAGAACCTAATGAACATTGGGATTGCTCAGTGAGTACTAATGTGGAATATTACTGGGAAAGATGTTTGAGTGTTGAAGTTTCTCATAGCTCAGAAT
GGTTACACAGATTAAGGAGAGGAAYGTCTGTTGTTCAAAAGACAAATGAAATTTGTCAGTTCACTGAAAATATTTTTGTTTTTGTATCTTTTTTAAAACT
GTTTCTTAAAGTAGTCAACTGCTCATTCTTCTATTTTGAAATTTCCAGAACTCTTTGTTTAAGTTTTGCATGTCAATTTTATATGAGAAATTCTTGGACT
GTATCTAGATACAGTTAATCAATCTGCTGTTTAGTAAATTGTGGTGATCTATTGTATGATAATCAACTAGTGTATCAACCATGAAATCATCTAATTCTGA
AATTAAAAGGATCAGAATTATAGGTTTATCAAGTGACAGTCCATTAATTCCAGGCAGTTAGATTTCACAATACATTCAGGCGAGTTCTGGTCTCTGGCCT
CAAGTTCTAATGATAACAGTTTCCATTTATCTTCTATGTCAAATCAAACAAGTAATTTGTCTTTTACTTTTCTGATTTTATTCATCTGAAATGTGGCTAG
TAGTCTTTAYTGTATCCTTTGCCATGGAGTTTGTTAGTCATTGTTTGTAATAGAACTGTTTTCCATTCATCTATTCATTTATTATTTAAGTATTTAGTCA
GTTACTTTTGTATACATTTATCTGTCTATCTACCCATCCGTCCACCCATCCATCCATCCATCCATTCATCAATTCACCCATTCGACAAAAGTCTACTGAA
CATGAACATGTATGGAGATGATCATCCTGCATATATAGATGGCAAGATAGGTTTCTGTTCTCAAGGAGTAGCCCATAAGCTCATGCCAACATAAGTACTG
GCTTTAGTAACTCTTCAAAACCCCGTTGTGTTAAGGAGACTTATCAGGCCCAGAAATTCTGTTTCTAGATATATATCCAAAAGAACTGAAAATAGGTATT
ATGTGTTCATGAATATGAATAGCAATATTATTTATGATAGCTCGAAGGTAGAAACAATCCAAATATTCATCAACTGATGAATGAATAAACAAAATGTGGY
ATGTACATGCAGTGAACATTAGTCATTAAAAGGAATGAAATACTGATACATGCTGCAATGAAGTTATCTAGAATAGGTAACTTCATAGCAACAAAAGCAG
ATTGTTAGTTTACAGGGGTTAGAGGAAGAGGGGAAAAGAGAATGACTGCCTAATGGATTCTGGGTTTTCTTTTGGGCTGATAAAATGTCTTAGAATTAGA
TATATGTCGTAGTTGCACAACATTGTAAATGTACTAAATCACAGAATTGTACAATTTATTTTTTAAATTTTAAATAGGTTTGAAAATTTTCATCCTACCC
CAAATGTCAAAGTTCCTCTCTATGTACAACTTGAAATGCTTAATTTTATATGATGTGAATTTCATCTAAACTAATGACAAGAAAAGTAAATGCCTGTGAC
ACTGCATTTTTCATTGACAGGGTTCCTCAGTGARGGGGGAAAAAAGCATTTAATGATTTTCAAATGACACATGTAACCTAAACACTATAGGRCAGTGATA
TTTGCCTAATCTAGAACCTTCTACCAGGTTGTCCAAGATGTGCCCCTAGAGAATATAGCACTCAATTAATAGTGTTGGATGAGTTTATTTACAGGTAAAG
ATAATTGCCTTGTGTTTAGAGGGTGCCATCTGGCACTCAGCAGCCAGGATGATTCCATCCAACTGCCTATATCTGGTGATTTCAGGGTTAATTTCCTTTT
CTGCTTCCTGATCATATATGAGCTCATACATATTCAAAAGTACTGTCAAGTGTCTAGGATTAGCAAAGTGGGGGTAAAAGCAATGAAAATTTTAGAAATC
TATTGCTGAAAAGCTTACAATTTGGATAAAGATCATCACTTTTGAAGATATGTTTACACCTTGTAATGAGCCTTTTAGCTTTGCTCTCTGGCTTGATTCC
CAAATTCCCAGCATTGATTCCCAAATCTAACAAGTTATTTGGTAATTGTGAATCACTGATCAACAAAAATCTACCATCACTCCTGAGAAAGGAACTGAAA
AATGCAGGCCATAGCRAGAATCAGTTGCTTCTTTCTTATGGTTACAAGATGCCATATCATATGCTATAAAATGTCTATCGGTAATTTTTAAAACTGTGAT
TATTATGAGTCAATAGTAGTCATTTAATTATGTGCTCTTAGAGTTTATTTAAAATTTATTTTCATGCACTAAAATGATTTGGAGATACAAATAGTGAAAA
GTATATTTCTTGTAATGTTTYGTAGTAATTTTTATTTGGTTTCAACAGTCAATGAAAATAGGTTAATAAAATGTCTAGTATTTCATAATAACCTACTGTG
TGTTACATATTAYACCAAGAAGTTTATATTCATTTCCTTTTAAATCAAGCTCATGGTGTATGGACTATTATATTATCTCCATTGTATAGAAGAAAAAATT
GAGGCCTAGAAAGAATAAGTTATTTTCTTCTAGGCCACAAGGCTGGTAAATATCAGAGACAGGATATAAATCTTGGTCTATTTGACTCACAAAACTGTAT
TCTTAATAATTAAGCTTTTAAGATGTCCTTTTACACAAAAATAGGAAAAGCAAGTAAGATACCAATAACATTTATTTAAAATGTGAATGCATAGTAAGAA
AAGAAATATGTGTGTGACAGCATTTTTTTCCAATTTTCCATTTGGCCAAACCAGCTTTTCTCTAAAATAATGAGTTATGCCAAATCACTCTGCTAAAATC
ACCAGATTGTACAAAAGTACCAATAAAATGAAGGCCATAGATACAGAGAACAATGGATTTAATTTAGGCCAAAAACAAATTCCAGAGATCATTCTAAGTC
AGTCAACTGAGCACTTTGAGAAAGTTTAGCTTATACCAACTACAAACAAGCAGATTTATCTCTAAGAAAAAGAAAACAAAATTGTTTCCATCTTTTATTT
CAATTTAAAAGCTAAGATGGAATATTAATATTGCCTACTTCTGCTTTCCTTGTTTAAGCACTAAAAGAAATCAAGCAGTCATTGGAATGTTTTCTTTTTT
AAAAGACCCTTTAACTATATGATTTTAAAAATGTCTGTCTCCAAAAAATGAAAATCAAAACACATAGCCAAGAGCCAAGAGACGAGGAAGAACATTCTCA
TATCTTTTCAGCATTTGGAGGTGGTGGTGATTGTGAGCACTTTAGACTGAGCCAACTTGACCTAATATGACAAAGGACCAGAGCTTTTGGTTATGGTATT
CATCAGCTTCCTTTCTCAGCATGCATAATTGGCTTATATTTATGTCATTGTTGCTGTACGATTCCTACAGCTGTATAATACCTAAGAACTTTACTTATTC
ACCATCTCTTTTTTCCTCTGCCATAGGTTGAGCTCTGTTAACCTTGAATCCGCTGTCTCCTATCCTACTGATGGAAGCATTGCAGCAGCTGTAGAAGTGT
GTCAGTGCCCACCAGGGTATACTGGCTCCTCTTGTGAAGTAAGCTTGCAAGAATGTATCCTTAGTGCTTTCAAAGTTCCCTCAACATTGCTTTCAATAAC
CTATTCTAATAAGAGCTGTTTTTTTTCTATCAATAATTACACAAATAATKTGTATCACTTAAAAACAAAACTTGAATATCTACCAAAAGCTGTGGCTTTC
AATTAGAGTATTAACCACAYAATTTCATTTTGTAACTCTTTCTCTCTGAGATATTTTGCCTATAACTGAAAATCTGATGTTTCTGTCTTTGCTACATATT
TGATCTATTGTATGCTGGATGGTAGCAGAATAGCACTTCAAAATATTTTCTCTTCATTTTCATCATAATGTTATCCAAAATTTAGCACTCTATTTTTTTT
TTACTTTTCTCTCATTTTTTAATTCTGTATCACACTTTTCCTCTACTTCATTTCTAAGAATACAACCAAATCACAATCATCTGAAGCATATAATCTTCAG
AATGTCAAGAATATAATATATGGAAAAAATACCTTGATATAGAAAACTGCCTACAGGTCTTTGATTTGTTTAGCACCTAATGTTTGAGATATTTATTGTT
GTCKCAATATCCTAGATTTATAATAAGATTAATGGTTCTTACTTAATACCGCAGTGTGTCATCCTAAGGTAACAATTTTTATTTGCTTCTGTGTATTTTC
TTTTACACAGAAAACTGGTGTGAAACTGGTTTTACTTGAAACCTGGTCAAAAAATGTGAACACTATTTCCTTGACAGAGCGCATGGCTAGCAGATAAATA
GGAGCTTAGTTTCTTTAAAATGGTGCCTTTAAGGAATCATTTGAGTGTACTGAGATGTTCCACTTCAGAACACTACCTCATTATGCCATTTATAGAAATA
CTCTAGGCATTGCTTTGTCAGTTCTCTCGTACTTTTAAAATAATGCATACATCTAGAGATACGCATTATAGTCATATTCATGACAGCTGTGTTTCCTTTA
ACTGAGCTCAGATTCACCTTTCTAGAAATAAAACTAGATATAACTTATAGAAGTACTTGCTTTTCCAAAATTCATGTAGATGAGAGAAAAATAATTATGG
ATATCAATTAGCTATGTCAACCCAAATTTGATTTTACATATAAAATACACAATGTATTTGATGAAACAAGAGCCTTTTGCTCTTGATTCCAAACTATTTG
AACTTTTAAGATCCTCTCTCAATTGGCATAATAAATAACTTAATTCTACTCTTGTTTTAAGGCTTGTTTCCACATACTTTGTTCTCATCCTTTGCATTAT
CTTTTATACAAATTCTAAGTGCCCACTGAATATAAAATTACTTGAATATTACAATTGCTTAATTGGCTATGCTTTTAGTCTCTTCCTTCTCTCCTTCAAA
AATATTTTCAAYACATTCTAGATATGTTTGATAAATTCTGTAAATTTACCTGTATAAATTATTAATAAGTACATACAACATAATCCCTGTCCTATCTGTT
TAGGGAGACAATAAATATCTATGAAAAATGGGATCTCAGCACTRTATAATTAAGGGAGAGGTATGTGCTACAGAACATACATGCAATAATCATTCAAAGG
GATGAGCTACTGCAGTGGAGAGAGATGCAAAGTGTCCTGGAGTGGAGAAATCTTAAATTGGATGCTAAATAATGGTAACAGATAGATAGAAGCATTTGAG
TGTGAAAAAAAAAGGAGAGATAATAAAAGCTTCCTGTATCTGTCACACAATAATTGTTTGATAAATAAAATTACTTTGTAATCCATAAAAGAACTTAATT
GAATCAAGAGACAATGAATTTTGGAACTTTGGATTTTCTCTCTGACTTCTTCATTTCTTCTACTCTCTAAAATTCATTTTTTCCTTATCAAAACTTTCTG
TCCCTAAATTCACTATTATTCAGTCCTATCCTTTCATTATTTCATTTGCTTTTCAATTAAGTGTAGTTTGTAAGGCCAGTCATTCTAGCCTTGTTATCAC
TAATATCCTGGGATCCCTTAAAAGCTGAGTAAACGCCAAAGACCATTAATGTCTTAATTCCAGCTTGCTGAGAACCTCTGGCCAAAAAAGGATCAAATGA
CTCCATTGTAGACATTCTCTTTTACTTCATTTGGGGCCAYAGTGTTGATTCAGGATCTTTTTTCTCATTTCTACTTGACTTCTTGTGAAGTGTTCTGCAG
TTAAATCTTTCAAAAATTTTCTTACTTTCATAGTGCTGTCATCATAGATTTCACTTGACAGATGAGACAGGGGATATACTATTAAAAAGAGTGTTATGCA
ATCTCAGTTTCTTCTTCCATGAAATGAAAATAATATTAACCACCTCATAGAATTGTTTGTTTGTTCGTACTTTCATTTAGCTGACTAGTATTTGATGAGC
GTGTATTTTGAGACAAACAAGACCCTACACAGGGAAAATAGTGCCATTAACAATACAGATATTGTCCCTGTCCCCAAGGACGTTGCACTGAGTGGTGGCA
TTAACGATATGCCAGAAAGCAAATAGAAATAAACGTGACAAATTCTATGAAGGAAATAAACAGGGTGAAATAAACAGGGTTCTATGATAAAGTTACTGCA
AGTGGTTGTATGAAGGTTAGAAAGTCTACTTTGTAAAAGTTTGTCAGGAAAGGCTTCCTGAGGTGGTGACAGCTAAATCGAGTGTTGAAGAATGAGAGGG
ACAACGATGTAAAACCAGCTGCTAAGGAAGCAGCATAGATCGTGGAGTCTGTAAGGACTGGAAAGAAGGAGCGTGGCTGGAGCCTTGTAAGCAAGGGGAA
AAGTGGGACAAGAAGTGATTGGAAAAGCAAGGCCATGAGGAGATTTGCACATATGATAAGAAATGAGCATTTTATTCTCATGGCATGGAACATCATTACA
AGCCTTTCAGCAGAGTAGTGGAGTAGTGTAATCTGATTTACATTTTTGGGTTTTGGGGTGTTTTTTGTTGTTTGAGACAGGGTCTTGCTCTGTCACCTAG
GCTGGAGTGCAGTGATGCTGTCATAGCTTGCTGCAGCCTCAAACTCCTGAGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGT
GTATACCACCATGCCCAGCTATTTTTTTTTKTTTGTTTTAATAGAGACAAGATCTCAATATGTTGCACAGGCTGATCTCGAACTCCTGAGCTCAAGCAAT
CCTCCCACCTCAGCCTCCCAAAGTTCTGGGGTTACAGGCATGGGCCAACGCACCCAGCCTGAGTTACATTTTTTTGAAGAAGGCATTATGGCTACAGTAG
GAAGAATGTGTCTTAGGAGGGCATGAATAATAGGAAGGAGAAGGGTTAATATGTAGTTGCAGTGGAACACAGCAATGACAGTAGTTGCTGTTAGGATCAT
GGCAGGGAATATAAAAAGAGTTAGCATATTCTATATATATTTTGATAGTAGAACAAATAGGACTTACTGATTCGAGACTGTATGTCAGGGGAGAGATTAA
AGAAATAAAGAGTTTAAGAATGAGTCATAGATGACCAGTTTGAATGATTGATCAGTTGGTTGTGGTGTCATTTACTGAGCTGAGGAATAGTTGGTGTGTG
TGGGGGGGTGGGGGCATGGAATCCATAGTCCAGTTTAGAAATTTTCGATTTGAAAACGCTGTGAAGTGTAAATGTCAATGTGTATTTATAATATTCAGGT
CTTAAATTCAGCATGTCTGTCTGGTCTAGAGATATGTTTTTGGAAGGCGTCATAAACTATGGAACTGAATAAAATTACCCAGGAGAAAGTGCAATTGATT
TAAAAAAGAGAGAAAAATAGCCCAGCCCAAGCCCTGAGGAGCTCCTGACGTTAAGAAGCAGGGTCAAAGCAGAGGAGACAGCAAAGAAATATGCTAGAAA
TTTGGGAAGTGTGATGTCATGAAGTTGAGAAAAGAAATTGTGGGAGGAAAAGGAGTCAGCTAGGCCCAAGGCTGATGAAAGGTTGGATAAAATGCAATTG
CAGAATTGTCCATCGAATTTGGCTGCATGGAATTTGGTGACAAGGACAAGAGCAGTTTTAATTGAGAGGTGGTGACACAAAACAGATTAGAATGGAATGA
AGTGTGAAAAAGAGGTGAGGAATATAATACTTGTTAAGAGTAGTGTTACTGAAAAGAAAAACATAGATGACTAGAAAAGTTATATGAGGCTAAGAGGACA
GTTTTGTCATTTGTGTTTTGTTTATTTTTGATGGAGACACTAGATCATATTTTTTTGTGCTGATAGTAATGACCCAGTAGAAGGGAAAGTTATTACTAAT
CCATCAGAGAGAGTGAATATTGAGAAGATAACAGATGCTGGAATCAGATGACAAGTGGAGTAATATTTCTTTAGGAGGAAGGACCCCACATTCCCCACAT
CACTTGTTTGGAATGGGAATATGGCAACAAGGTTTGGAGATATATGCTTAGATCTCTGGACTTGTTAGTGCAAAGGCAGCTTTAATTTTTTTCTGTGAGT
AATAAGTTAAAATCACTGGCTAAAAGAGAGGTGTAAGGAGTTGGGAAGTTTGAAGAAAGAAGACGTGGTATGAGTACTGCATTTGCAGAGTATTAAAACA
AAACAAAAAAACTTATTAAGGAAAACTTCATGAATATCTGTCTGAAAACAGTAGATTAGTTCTCTCCCTTTTCTCAACATCCTTAATTTCTACCCCCTTA
TGAATATGTAGCTTCACCAGCTTTTAAAAATGTATATTACAGAAGGAAATCACTTCTATAATGAATCTAGGGAGGCAAAAAATGTAATGGGGAGAAATGG
GAAGGGATTTAATTGGGAGAAATGGAAACGGAACAGGATAGAAATTTGACAATTTTGGGTTGGTTGTGGGGGTTGAAAAATGAGAACACATGGACACAGG
GAGGGGAACATTATACACTGGGGCCTGTCGGAGGGTGGGGGGCTAGGGGAAGGATAGCATTAGGAGAAATATCTAATGTAGATGATGGGTTGATGGGTTC
AGGAAACCACCATGGCACGTGTATACCTATGTAACAAACCTGCACGTTCTGCACATGTATCCCAGAACTTAAAGTATAATAATAATTTTGAAAACAAATT
TGACACTTTTTTTGGTACTGTTCAAATTAAGGGGAAAGTTCATTTTATTTTATTTTCAGATATAAAGTATCAGTACATAAATTTTTTTATGTGTTCATTA
TTGATGTTCAAATTTGAGAGTCCTCATATCCTGAGGCAGAAGGAACATTTCCACGGAGCATAACACAATTCTATATCCTTTATTACTTCAGTGGTTTCTC
TTCTGTTTTCTTTTTCAACTGGAAAAGAAGGGCTTTTCATGATATATGATGTTGTACTCGACCATCCAGAAATATAGTAAATAACCCACAAGATGCAATT
TCACTGGAGGGTGATCATAAGCTCTTAGAGGGCAGCAGTATTTGCCTCATGCTTATTTTGCATCTCATCCATTTTGTAGTAATCCCCACAGATGGAAAAC
TTAATTAAGGATGATGGGGAACTTAGAGCAGGCACTGACACAGGGAATCTAAGACTAAAATACCCTGTTTTAATCAGAATTCAGTTTTTATRTAATAAAG
TGTTTCACATTTTAAACAAGGAATGAAAAATACAAGCAAAGTTACAGAAGAATGCCATAAAATAAGCTATCAAGAATGTGAGAAATAAATCATAAACTTT
TTGTGTAAATTTGAGAAAGCATAATAGGATGGAGGAAATTTAGCATGAAATACATGAATTATATATGTGTAGAAATTAGCTGTGTATGTGGTCAAATATA
AGTGTGGGTGCTGCCTTTCTTCCAAATCATGTCAAAGATTTTCTGGAAATGATGACGTTAAGGGCAATTAGTATATGGGCAAGTGAACACATTCCAGAGA
ATCAAAATTGCTTGGGATGACATCGGGTACTCTCTTAGGCTAAGACTATATGATGAGTCCTTTTATATCAGCTGCCTTTTTTACAGTASTTTTTCTTCTA
CTTTCCTGTCTGTGCTTTTTTCTTTGAGACTGTCACATTTCAATTCTTTATATCTCTGCTTTATTTTACCATTTCAGAAGAAACACCAAGCTAATGCTTC
CTCTAATCTCATACCTGCCAATAACACTAAGGTCAGTGCAAAGCCCCAGTGTCAGGAGGAATAGCTCTGTTGCAATGTTTCAATAATGGCAATGCTTTGA
CAAGCACATTTGATGAGTTTCCTACCTGTTATTTTCTGTTATCAGAAAACAAACACAAACAAACAAAAACACCTTTTTGTTTTAATCTCCAAGACTGACT
AAAGCCTTATCTTTCTCTCAGTCTTGTTGGCCTAGGCACAGGCGAGTTAACGGCACTATTTTTGGTGGCATCTGTGAGCCATGTCAGTGCTTTGGTCATG
CGGAGTCCTGTGATGACGTCACTGGAGAATGCCTGGTAAGTGCTCTCTTCTTTGGGGATGCTGATTGACAAGGCTGAAATCACCTCGACAGATGCTACAA
TTCAGCTACTACCCTGGGGACCTTAAACACTTGAGTCAAGAAGTGCTTTGACAAAGATCTTTGTATTGAACTGAATTGGAACTGAGAATGCTCTTTCATA
TGTGATCTCCCTAATGAATATGAGGAAGTGTTTATTCATATTAAATCAAGAATTAAATTAGAATCAGATATATTTTTATAAGGCATAACTTCTGATTGGA
AGTATAACTACCATGAATATATATGGTTTCACTTTCTTCCATAAATCTATGAAAAGTACAGTGTACTTTTAAAATAGAAAATAATTTATATCCCCATAAT
ATGAAAAGTGTAAAATATAACCTTTATAGTAAACATAATTAAGTTTTCTTCATGTTGAAAATGAAAACATACTACATATTTTTATTTAAAATGTTCATAA
TTTAACTAAATGCATAGTGTCATTTGTAGATTAAAAATAAAAACAATATGTAATACATATTCACCAGAGCTGCTTCTCCTTTGCAATTAAGTCTAAGCTT
TAACCAGAAAATAGGCTTTACAAAGTGCAAAGCACTTTCCATCCTGCTAAGAAACCTTAGGATTGGAGAATTACACTGAATAGACCATTCTGATTAACTC
AAGGGCACATTAGTTTTATATTGTCTGACATGGCATGAAGCTTGAAACAACACTTCTCCTTTCATTAGTCTTGCAGAAACACAATTTAAAATGGTGCCAA
TTAAGGAGGATATTATACTCTCATTTCCCTGAAGAATTTAAGGCGGATTCTGTTACCTGTAATTCTTAATGTTCTATCTTTCTCTTGCTCATTTTCCCCC
ATTTCTCTTCTACTTAAAAGCTTCTGGGAAAAATCCAAAATGAAAATTCAGGGCTTTTGTTTCAGTGTAATTTGGCATTTAGGTTTGTTGATGCTCTTTC
CCTTTTCTCTATATAAGATTTTGTTTAATTGCATTGCATTATGAAGCATGAGAGCCTTAATTTGTGGATCAGTGGATTTTTGAAATGACATTTTTATGAA
TAGAAAGACTAAGTGATTTTCATTTTAATTATGCCATAAGTCTTTTAAAATGTRCTTTGGGAAAAATATTGGGTTACMTTTAAACACTTCACTAACATGC
AGTAGGAAATAATACTCAGCCCAAAACTGACATGGAATTGTTTTACTTACCCTAAGAAGACAAAAATAAGTATGTCATAATACCAAACTCATGATGTTCC
ATATAGTCATATTTCATGAATTCATTAGGATAAAATCAAATCAAATTTTCATGCTGAATTCATTAGGATGAAAGCAAATTAGTCCATTTGTTGATGTGAT
ATTTCTAAAACTAGAAGCCTTTTTTAACTAATAAAACAGTGTCATTCAGCATAATTTTGAGAGAAGGAAGGGAGAGAACAGACCCTACTAATGATGCCTA
GTTTACTGATTTTGTTTCATGAACAGGGAGATAGGAGGTCTCCTTCAAATAACAGAGCGATCTTGAGGAAACAGTGGACATCTTGATGATAAAGACAGAA
TCTGGTGTTTCCTGAATTTTCCATCATAGCTAGTAAATAGGTGATCATGTAGGATATACTGACTTTCAAGTGCCCTTTCTCCAAAATTGTATTGATAACT
AAGTGCTGATATTCCATTTTGAGTATATGGGTTCTGATACAATACACAAAGAGGAGAATATTTGAATGTTGCTCATCAAGGRCATTCTTACTGTTCAGCT
GACCCTGCATTTTAGCTTCTTGTTTATTTTTCATGGTTTTAACCCASCATTAAGTAGCATGGTTTTTAGCATGAAAAATAAATTTATAAATTTATAAAGC
TTAACTTGCTTTAAAATTTGATTATAAATTATCTGAAAAATATTTTTGGCACCAGAACAAAATCTAAACTTCTGCAATAGTGTAGGTSTATATTTAAAAG
ACATTTTAACTCAAAGTCCATTTGAAGTAAGCCAGGAAGTATTCAATGTCACATGGGAAGATTTCATGCTTGCTTCTTCTCATAGTTCTTGTGGTATGTA
ATGTGAGCAAAATTTTGTAAAGCACTTTCGTAACAGGACACCTGTAAAAATAACCAATCCATCAGAGTGAAGCTTCCATCTTTTTTTTTTTTTTTATTTC
CATTATATAGGTTGTCTGATGCAGTTTTCTGGTTTCCACTACAAAAATACTTGAGTTTTAAGATGATTTTTATTTGATGAAACGTGACATTAGAAAATGT
AAGAACTACATGTTATTTGTCTTTTAAATCAATAATTGGAAATAAAAAACCCTCTCAATTATGCAAGATTTTCAGTTGAATGTTAGAAATACCATTTTCA
ACATGTTTAAGGCAAAATTAATTTTTGATTCAATTTTTTAAAACCCTTAAGTATTTGAAGACATAATTTTAGTTGTATCAGTGAGATAACATGCAAATAA
TTTTACAAAAAAACAAGCAATTCTTYAGTAATAGCTTAGTTTAGCTAAACTTAAAAATTGAAAGGAAGTAAAACAAAAATCAAATCGGGGAAAAAATCTT
TCTTCAAATGGATCCATGTTTTGCACATTAAATCCCAATATACTGCATTATTAAGGCAACTATTCATAGTGAAGCTGACCTTAATGCTATCTTTTAAAAA
GTTTTGTTAAAAATAAATTTGAGAAAGAATTTTAAATAACTTAGAGAAAAGMCTGTTTTCAAATATCACCAGTTACTACAGAAATACATATCCACATTTA
GTTGATGAAATTGGCACGTGATGTTTAAAATTTTTCAATTTTCTCCATGTTTAATTATGAGTCAAGCAAGCTTCTCACAGATGTAATACAGTAGTGCATT
GTCCAAACCATCAGAGTCCACTGAGGCCAAAATTCATGTCTGAGCTAAGAGGCCATAGCCCCGGAGGATTTCTATGATTAGCCACAGTTCCCATTAAATC
AGCAATTTCAAGCTGAACAATTGATTTTTACCTAGAATCAGCTACAATTTCCATTAAACATATGTTATTAGTGCTCTATGACTACACACACACACACACA
CACACACACACACACACACGCAATATCATGTATTTTCTTAAGGAAAATAAAGAAAAAATGAAGTAAGATTTGYATAATGAAAAACATTAAAATGAATTTC
AATCATCTTTTTGTAAGTATGCATATGCTGAAACTACTGTGTTGTTTATAAGCTAGATATTAAATTAACTTTCAATGCTATTTCTCTGCTGTAAAATTGA
CCATTTAACATGGAAAAATTATTCTTGCTGGCAGGGAGCAGACTAATGACTTCGTAGACCTATTTTTGGCAACATGTTGATCCCTGACACCAAAATAATA
AACTCTGATGCTCATTTCTTTCTCAGAACTGTAAGGATCACACAGGTGGCCCATATTGTGATAAATGTCTTCCTGGTTTCTATGGCGAGCCTACTAAAGG
AACCTCTGAAGACTGTCAACCCTGTGCCTGTCCACTCAATATCCCATCCAATAAGTAAGTAACAAACTTACCCCATGAATAAGCTCAGCATCCATTTCTG
CAAGTACACTTTTCATAGCAAATATACACTTCCTTTTATCCCATGTAAATAAATAATAAACACAGACATGAATTTTTTCAGGAAAATTATATGAATTTTT
TCAAACCTAAGATATTTAAAACTATGAGGATTTCTAAGAATTTGTAATTTTTTTAGCTCTAGTTTTGGTGATTTAATTTCTAAGAGTAGAACTCAAATAG
AATTTCTACACCAATTCCAAAGAACATAAATATTTTATACAAACACATACATGTGCATGCATGTACACACCTACACACAGACACATACCCATCTTCATAC
CTTAATAAAAGGATATAAATACAGCTAATTTGGGTTCTACCYATACACTATTTTTTTGTGAATCTTGGGCAAGTCGTAAACCTCTCAAAAAGTAAAATGA
AGGGACTGATTTAACTGACTTTTAAGTACCCATTCTATCCCTTCTTTTTAGAAAAATTCGTTGTTCACCTAGAACAACCACCTCTTAGAGCAGATTTAAA
AAAACAAACAACAACAAGAAAGAACACTTGACTTCCTCATTTCCTTACCTTTTAGAGGAATGCTATATCCAGCTGCTTGAATTCACATTCCCTCAGGGCA
GCCTCTCTCAGTAAACAGCTAAGCACACCCCAACCAAAAATGTTGTTTTGTTTTTAAATTGGGATACTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTC
TCGCTCTGTTGCCCAGGCTAGAGTGCAGTGGTGCAATCTTGGCTCACTGCAAGCTCTGCCTCCCGGGTTCAAGCCATTCTCCTGCCTCAGCTGGACTACA
GGCTGTGTTGAATAAAAATCAACAATTTTTACTCAAAAGTGATTATAAATAACTATACTTTTAAATAAAAGGAAATTMTTTTCTGAAGAACTCTCTTAAA
GGTGAGCTTAGTGCTTAATAAGGTTCATATCGTATTGTACACTTTCCAGCTATCTCTAGGCACTGTGACAACACTGACAGAGCAAAAATTTTCAATGATC
TTTAAGGGAAATCTGTCAGCTATAGTCTTTTAATGTGTAGATGTGATCAAGTAGGTCATACTTCAAACTCTTACCCAGAATGCGCCTAATTAAAATGGTC
TTTTGTTAGATTCAATGAATACTATAAGCTAAAGACTTTGAGATAATTCTAACATTAAGTTTAAATGTTCTCCTTGAAACTGTGCTTCCTACTGTTAATC
CACATGAAATGCTTATCCTCCCAATGACCTTCTTTACTCAGAATTTTTTACCTTACTCATTGTTTGGAAAAGAAGAGAAAGCACTACTATTTAATAAAAG
CAGACTACTATATTCTAGGCCAAACACTGTATTTGGTATTATTTCACCTTCAACTATAACTCAGTAAGGTAGATATTATTATCCTCATTGTATAGATTAA
GAAATGAAGGCCATTAGTAGAAAAATGGCATTATGATGCCAATTCTGGAGCCAGACTCTTTGGTTTAAATGCTGGGTTCCATACTTTCCAGCTGTGCCAC
TTTAGGCAAGTCACTGAAACTCTCTGTGCCTCAATTTTGTCATCATTAGTTATAATAGGACTCTCATAGGGTTGATGTGGGAAAGACATAATTAAAATGT
GTAAACCACCTAAACTGTGACTGGATATGATGAACCCAATCTAAGAGCTGATTGTTATTAACCTGCTCAGAGTCATAAAGTATTAAAGTATCAGAGTTGG
AATTTTAGTTTTAAAATCCATGTGCTTTCCAAATCTCTACGGTCTACAATGAAGACTTCTTTAAAAAAAAATACACACTGCATTTTAAGTGATAACACTA
AAAGCAGTAATTAATTCATTGGATAAGTCAATTTATCTAGCAAGGTTTTGAGAAAATAAGACATTGGTTTAATGCAGGGGTCCTCAACCATCTATAGCCT
GTTAGGAACCGGGCTGCCTAGCAGGAAGTGMGTGGTTGGCATTACCACCTGAGCTCAGCCTCCTAACAGATCAGGCAGGCATTAGATTCTCATAGAAGCT
CAAACCCTATTGCGAACTGCACCTGCGAGGGATCTAGCTTGTATGCTCCTTATGAGAGTCTAACTGATGCCTGATGATCTGACGTGGAACAGTTTTATCC
CAAACTCCTCCCCTGCRTCTGTGGAAAAATTGTCTCCAACAAAASAAGTACCTGGTGCCAAAAATTTTGGGGACCACTGGTTAATGTATGTTAGTGATCA
GAACATTTCCAGGGCCTAAGGCATGAGCCTGAATGGGCTCAAAACTGAAGATTCTTTAACAACCAAGGATGTTAGAGAAGAGGAAGAAGGCAAGAGAGAA
ACCTGTTGGAAAATAATTACTATAGGAGAACAAATGAAATATATTCCTTCATAATTAAAGGCTACTCAAGCCTATGATAGTCATAACATGACACAAAACC
TGCACTTTGGTATATATGCGAAGGGTTAGATCACCCAATGGAAGACCTACTTGTTTGCCATGGCTGAATGGCATTCTCTTAACCATCTTCATTTACATGA
AACTCATTGTTCACGACTAACTTGCATTTGAGGAAAGCAGAAGTATTGCATCTGGCCACTCGTATTGCATCTCCTTCTCAGCCAAGATGTCATGAGCATT
AGCACCACTATCAATCCAGCAGAGCTGGCTGCCCATTGCATCATGTGAATTCCAGCTGAATACATATTAGAATTATATAATTGATTGAGTATGCAAACCC
KATGGATTTACCCTCAAGTCTGACCAACATTACTATAAATGCAGAGGAAACATTAGGGAGATAATTTTGCTTGGATAATTATAGGCATTCATGACCCATT
GTTGTCTCTTTATTTRTTGTGCATTTACTTGGATAATGGGTTCTAATTGTTGTTCCTGAAAAAGAAAGAAAGTCTGCAAGCATTAAAACACAATCCATCA
GTGCCAAAGGGATTGGGTTTCCAGTGTCCAATAATATTATTTCCTAAAAGATGTATATTCTAATTTGGTATAATTAYGTTGATCCTGATTTTTAAAAATG
CATATAACACAGTGATAACAATACCAGTAACACCAAGTATTTAATGATTCTTTCATTTTCAAAATGTTTTCACTTAGAGTAAGCAATTAATAATTATTAG
TAAATATTAATAATTACCAAATTATCAAATATTAATATAAAATATTAAAATTAGCAAATTACTAAATAATAATTTTACTTCTAGCAGTAGAATTGGGACT
AGAATAGCAATTTATTTTAAATTCCAGCTTTCAATGTGGTATTTTAACAAGTAGAAAGAGAGGGCAGTGATAATTCACTTAGTTTATAAATCCTAGAAGT
TTTGTGAGAGGGTTATAATGTCTTTTACATTTAAAACAATTTTACATTTAAAACAACTAGAAAATTATCATGGTTTAGTTGCACAACTGTGATGAGAAAA
ATCCATTTTCATCTAACAACCTGAAATGTTTAAAAAAAAAATCACTAAACAAGACACTTAATGACCTAGGGAAACTATCCTTTTTAAAAATATTTTATAA
AAAACATTACTGTTATAATGTGAGCTAGAAACTCTGAGATATGAATTGAATMTTTGCATACAATCCTGAAGACGAGATTTTAATTTCCACAGGTTATTCA
GAGAAAAAAAAAAAGGGAGCTAAAGGTTGACGCAACCTTCATGGGAAGTCTAAAGCTTAGTGATAGTTTTACCTTGGTGATTTATCTATTTAATCCCTGG
TCATAAATCTTATAGATCACAAGCATTTTGGCTCCAAATTTCTTAGATAATATTGCTAAATAAATCAAATATGTAAGAAGATAGAGATAGATTGGTATAA
TTATTATGATGTATGAATACAGAGAAGCATATAATATTTAAATTATACATATATATCAACTTCATCAACTATTTATGGTGATCACTATGCTTGGCCTTCT
CATCTTGTTGATGTATATATTCTAGCTATAGGTTGTAACTAGGCAGTAAAAGTTATCTGGAGAGAAGCAAATAACAATGTAACTATTTCGAATGTTTATA
TTCTTTAATTTCTGGCATCACATAGCTTATAGGTTAAATAAAATATGAAAGAGACATGTGAATCTCWGCCTTTGAATACTTAGGATGTGTTTGAATATAT
AATATTATTGAAGTTGTTATAGATTTTCATCAGTTATATAATAAAATATATTATTGGCACAAGGCTGGACAGAGATAGGACCTCAATAAGTTCTATCTAC
TAATATCACTGTAAATACTACTGGTTTGTGTGGGTCAGGAATGCTGAAATTTAAGTTTTTGAAAGAATGAAACTCAAATTTGAGTTGACCTTTGGGCTCA
CTCAAGAGATCATATTGAATGCACGTTGTTAAAATTAATATAGAGAAATGTATTCCAAGACAATAGGTAAATTTAAGGAAACAWTCAATTCAGCCATATT
CTCTAGAAAATTGAGAATGCTCTAGATGTTTTAGTGCTCTTTCCTACACATTGTTTTATGTGCACATGGGAGATTATGATGGGTCTTCCTGGTTCCATAT
GCCAAAGGAAAAAACTAAAGTTCAGAGAAATTAAGTGCCTTGATAGTGATTATACAGCTTGCTTGTGGCAGAACCAATATTGGAACTCATATATTTTGAC
TCACCTCTCTGTGCTTCTTCCAATGGGGCTACAGTAATAGAAACAATTACAGAAACATTGAAAAGAAGCAAAAAAAAATCAATAGAATTTAATGTCAGAC
AAACTGTAAATGTTCACTGTAAAAATCAGTAAATCTTCACTGTTTGGCAAGAGTTATGTTAATTATGCTACATAGTTACAGTTATATTAACAGCTATGTT
AATATAAGGGACTAGAGCAGGATGAGAAAACTGCAGATTTAATTCTTTAACTATTAACTAAATACCTTTCACGTTAAATCAACATATCTTAWTTTGTTTA
AAAATTTGTAAAAAAAAAAAAAAGGCAAAGTTTTTTAAAAAATTAATAAGTCGTATCTATAATTTATTATGGCAATATGCTTTCATACTTTTTCAGTATA
AAAGGGTTTATCAAATCAATCATATTATTCCATTTTGCAGAATGGGAAACAGGTTTAGAGAAATATATYGTTCAAAGACATACTTAGAAAATAAATCAAG
TCTAATTAAGAAATGCAATTGTGGAGATTAAATCAGATTTCATAGTACTTAAAGGTAATTAAAGAAATAAGTGTTTGCTTAATGATTCTCCTGAGAATAA
GTAGGAGAGATCATTGAACTGAAGAAGAAAATACTTAGAAACTTCAGAAATTTATGACGCTAACACCAAAATCATGAAGTAAATGAATTTTTTCTTTTTC
TCCTCTTCCTCTCAGTCCCTGCCCCTTTTCAGTTATGTGTGAATATTCTCATTACCCTCATCTCCAGCTTCTCCACTGACATTGTGTAGCCACTCAAAAT
GGTTTCTCTTATCCTACCCAACTGTTCAAGATAATAATTAGTTGAAAGGAGTCCTGATCCCCTGTTGTGTATGCAAATACAGAACATGCCCTGATTTTCT
AACCCTAATGATGGAAGTTTTAATTTTATACCCATGATTAAAGGAGTGCTTGTTTTATATCACATACAATCCCAAGAAGCAATTCATTATATTTTATTTC
AAATGCATGACAGTTAAAGACACACAAAATATTCTCACACATTGACTTAATATGTGTTTAATTTTATTTTAGAGTATTGGATTAACTCTCTGTGGGAGCA
TTTAACGTTAGAACTGAATTTCAGGACCCACAGAAGGACCCACAGAAGAAGTTTCCCTAATGTCTGATAATCAGGAATTGTTGAGCTTCTATTGAGCAAT
TGTTTTGCTTTTGGCTTCTGGCTGCTCTGAATCATTTACCTGTTGATTGTTCCCTTTTGCATTAGCTGTGAAAAACCTCAAAGCCAAATGTTGATCCACC
CTTATCAAATGAACATATGTTATAACATGCATTTTGAATTCTAAATACACCCTTAAGTTTATCTTTTTTTTAGTATTTTTTTCTCTTTAACCWTGCTTTA
TTCTTAATGCACATATTTTGACAGATAGAATTAAATTCTTTTTAGAACAAGGTTAATTGTTTCTCTATGTATGCATTCACATACATAAACATATATAGAT
TGTTGACATAGTCACATGTATACACATGTATGTACACATATATATGCATACATATATACATGCTTATAAGTAGATTATAAAAATAAAAGTATATATTCAG
CCATTAAGAGGGATTATTTTCATGTCCAGCTTTTTATTGGTTATCCCAATAACAGCTTCCCCTCCTCCCCTATTTGTGGAAAATGCCCGCTGCTCTTGGC
TTTCTTGTGTTTCCTGTGGCGTGGTTTGGATAATCCGGGATGAAGAACATTTTCTGCTGGTGTGGAGCTAGCCAAATAGAGTTAAATGACATAATCTTGG
AATCACTTGAGGTCAATGATGATCTCACAATTTCCTCTTTGTGTCACGGAACAATTAGCTTCATGTCTTGGCCAAAATTAGTGCTAAGTGACTGCATTTG
CCAAGGCAAATTCTGTAGATGTTTTTTATTGTGCATGTTTATTTCTCACTCTAATTTTATTTTTGTTGTTGAATGCCATCTTCTGCCATAGCTGTAACTG
CAATTACAGCAATAAGAGAGTGAATCTTCAGTTTATGTTGTTGAAAGAATATCAAAGCACAAATACAGATATATTTTATGAGAAAGTTTTATTTGGATGC
GTTATGTYGAGTATCTATATTACTAGAAACTTAAACTTACTTAATTCTTACCAGTAGGTTTCAATGACAATTGGTTATAGGAAGAAGAGAATATCACATT
AAGAATCTAAAGTCCTAGATCCCATACTAAATTCTCCTGGAAATTTTGTATATGACCTTGGTTAAGAAAAACTGTGCCTGCCCTAACCAGCTCATAGGAT
TTTGTGAAAATGTGATAAAATTGTAAAAGTATTCTGAACTGTAAGGAGCTAGTCAAATTTAACATATTTTTATTGCCTAATTTTTTTCTCGAAAAAGTGT
TGATTTTTGTCAGTGAGCACCTTTTACTTATGTTGGTTTTAACTGACATGTGAGTGTATTTAAGAATCTGAAATCTATTTTATGAATAGCTTTAAAGTGT
CAAGGCCAGGTGCAATGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCYGGCCAA
TATGGTGAGACCCCATTTCTACTAAAAATACAAAAATGGGCCAGGCCTGGTAGCACCTGCCTGCAATCCCAGCTACTCAGGAGGCTGAGACACTAGAATC
GCTTGAACCCAGTAGGCAGGGGTTTCAGTGAGCCAAGATTGCACCACTGCACTCCAGTCTGGGCAACAGAGCAAGACTCTGTCTCAAATAAAATAAAATA
AAATATTTTTAAAAATGTCAGAAGCCTTGTCAACCACCATTGACAAGAGTTATGATAAACTGATTTAGGATTATAAAAAACAATTGGTATGGTTTTCTTT
CAATCAGTGTAGTCCCACAGAGGTGGGAAACCCAGTGCTTCTGGTTGGAGTCAGTTTCTCAGTAGATGATGAGATAGTTACAGAATGCCAATTTTCAAAG
AAGACATATATATGCTACAGAGATGCAGTTCTCACTTTTATGTCTGAAAACAGTAACAGCAAATCACCGGATGTGGATGAGAGGAAATCCTTTTTTTTTA
TTTTATTTTAACCTGTGCATCTTCAGTGCAATCACAATCCCGTCAAGAAAATCACCCATAGTGAACTGTCTTTGGGTCATGCGTAGCAAAGTACAGGATG
CTTTATAAAAGGAGATTCTTTACTCGCAGTGCACACGCTGGGTATGTCTTGTCTGCTGTTCATCACAGCTACCAGAACTCCTTAATGTGGAATCTTTGAT
CCAGATAATATTTATAAATTCAAAGCATCCCAGACCAGCCTTTATCTCCTTGACCCAGCAGATTCATTTAGACTTTCCACTGAGTTGAAATGTTTAAAAT
GATAGACTTACCTGGTCCTAATAYCTTGCTAGTATCCCAAAAATAGGAAGAACTATTAAATCTTTACAGAACTACCCTGAGTTAAGCCAGAGAAATACTA
TTCAGAAATAGTGTTCATGATCTGATCTGCACCAAAGTTAAGAAAGTATTTCAAAGTAATTCAAGTGTCAGGAGCAGGATCAAATCAGGACTTGGAATGT
TTAATTTGTTGTTATGTCTTTAATTCATTTAGCCRTCAAGCAAGTCTCTATTGAATTGCCCTGTCATATATAATAGAAAACAAATCTACTTAGGGAAAAC
ATAATAAGAGAAAGATTAATTGAGGGCATTTCCCTTTAAAACRGTAGCGCAACAGACCTTACAGAATTCAAAATGGTTGATGGCCCTTCAGAGAGCCAGT
CGAGAACGCATTACCGTGTGTCAATCTTGGGGTAGGGGTTCATGTATGAGAGGTGCCTCTCACAAGGCAAAGAAGCATGGCTGGAGTGAAACATGTTGCT
GAAAGCTAAAGCTAGCACCTGAGTTCTCTGTTGGTTCTTCATCTGGTGTTCAGCTCTATTGYTTCAGACCCAAATTAGAAATATGTGCAAAGAGAGAAGT
GAATTTTGAAACATGCCAGAGGGTATGAGATGGCAAGGTTGCTTTTGTTTGGTTAGGTTTATGATAAGTTTAGGTAGAATATGCACACTTGATCTCTTCT
GAAAGCTTTCCTGAGGATTCCATCAGTGTGAGGGCATACCTGCAAGGAAGCACATGCCGCAGCCTGCACACAGGCACGCCCCACTATGGCAGTAGCTGAA
GAAGGAAGCACTGCCACCACCACTACCACATACTGAGATTTCCAAAATCACTAACAAATTTCTCCAGGCTGCTTCAAATTCAGAGGGATTTGGCTACAGA
AGAAAGTATGTGAGGCTGCATATGTGCCAGGCCTGGAGGAATTTCTAAAAAGCAGCTATACATTTCCACTTGTTACTGATGATCACTACTCAGAGCAGTC
RAAAGTCAGTTAATAACATGTCACAGGGATACTGCTCTCCACTGGGCTATATTCACGTCTGCAGAAATAGCAATGTCATTTCATCCTCCATTGGCCAGAC
MCTAATCTCTGTCTCTGGGGTGAGAATGACCAGCCTGTACTCTTTTGTCAGAGCAGTAGTGGAGAGAGAGAAATGAGAAAATGCTAATGACTTTGTGTAT
GTCCTTCTTCCTTGTCCCTGTTTTCCGCAACAACATCAACATAGCTTTAGCCCAACGTGCCATTTAGACCGGAGTCTTGGATTGATCTGTGATGGATGCC
CTGTCGGGTACACAGGACCACGCTGTGAGAGGTAAGAGTATACTACACTGTCTTGCAAAATGATTTCTACCTTGGGAGTTATAAAACCGCAGATACAATC
ATCCTTTGCATCATCCTTTGGAGAAAAAAGGCCACACTCAATGAGGTGAAATAAAGTTTCTCAACGCACTTGTCAAACAAATGCATTATATTTTTGTAAT
TTATTTATTTTTCAGAAATTGCTTCATAAATCTTCATTCACTCAGAGAATATCTGATTAATGTTTTAATCTTAAAGGTTAAGTATTAACCTACAATCTTT
GTAGAAAGCATTGCTCAAGTGGAAAGTCATGCACTTTAAGATTTATCTTACTGTCTGTGTAGGCACCATTTATTTTTCATAATTAGCTTTTTGTCCTTAA
AATGTAGCTTAAATGCATAGTTCATAGTTCAGCAAGTGGTTCATAATTTACTTTAAATATACTTGAAAATAGAAACAAAATGTAATTTATTATCATGATT
TATATCCTCTTCTAATTGCTCCTAAACCAGTATTTTAATTCCTGTTGATTTTACTGGGTTGCTTTGCAGCAGAAACAAGAGTATTATTTTATGTAATTTG
TGTGATTATATTTCCTTCTGAAATGTTTTTGAAGAAATAATTCTTCTATATATTCAGCCTCAGCATAAAAGTGATACAAACTTCCCCCTTGACATCATTG
CCAAAAACAAAAACCTCCCTCTGGTTTCAGCACTGGAAATAGTCCCTGCTGCCACCCTTCCTGGGAGGGAGGGGTGCAAAGGAAGTGACCTACTTTCACT
CATCATCACTGAGGCTAACCCTGAAGAGGGCTGTTTCTGCCCGTCTTTTCCTGTCATCTTGGCAGCTATCACCCCTGTTTCAACCAGGATGCATAAAATT
AATGAAGCAGGAGCCTATCACCCAGAGAGAATTTAGCTAGCAACTAGCAGTCTGTGGACAAAGTGCCAATGACAGTTCCTAGCAGCAACAAGTACTATTT
GTGAGTATGGAAGCATCTGTAAATTAGGAATGAAAGAAAAAAAAATGAAACAAGCAGCATTTATTTGCAATCAAGAAACTAGATATCTTTAATTGTGTGT
GTGTGTCTGTGTGTGTGTTTAAAGAAAGGCATGTGCRTATTACTTACTATAATAGGAGAACATATCATTGCCAAGACAGATTTACATCAAGTGCCTAAAC
CCCCCAGTTCACTACAGGCAACCTTTTTTTAGCAACTGGAAAATGACAGCTGCTCTGTCATACAAGGCTATTAAATCCACTTATCTAGGTGAGCATAATC
TCTGATGTACTTATATTGCTTTGCTTTATGTACTATACTCCCTATACATGTTAGACAATAGTTTCTGAACCATCTATAATTTAAAACCCTACATTTTATT
TAACAAACATCTGTTTAGCAACTACCATGTGCTGGGTACAAGGCTAGACATTGGATATAAATAGATGCATTTTCCCATCCTTGCCCTCAGCACCTCACAT
CTTTCTTTAATGCAAGTGAGGATGGTTGCTTGTATTCTTGGGAGAATTCCATTTGAATAGTAAAAATCACCAAGGAGAGAAATACCTGACAGAAAGTATG
ATTTCCTGTCTAAAATCTGTATTAATCTGATTCAGAAGATGGCAACATGCATATGCAGTGTAATGAATGGCATATTTTATCTCCAGCTCAAGTTTTTCCA
CAGTTGATACCATATTTTTCTAGCCAGAATTTAGATTAGGGTTTTCCAGGAATATTTAAGATTTATAATTTCATTGTATTTATGTAAGCCAAAAGAACAC
CTTAGATAGATCTAAAATATGAGGGAAACATTTTTTGTTTGAGATGTGCCTGTTGAAGTAGAAGAGAGGGAAGATAAGGGTCAGGGTAAGGAGGAGATAC
TGGTTGCATTAAAAATCTTGTAATCAAAACCATTCTGTAAGTGATTTGTGTGATCAGCTTATGCACATCATCTAAATAAGACCAGAATTTRAAAACTAAA
TCAACATTTCCCAAATTGTAGATGTTCCTGGAATAAAGAATTCTGTGATCACATGAGTTTGGGAAGCATCCATTTGCATGTTAAAAGTTCTGGCATGTCC
TACAGTGTGTAATTAAGAAATCTGTTCAATTTGTTTAGCTCAGCATTTCCTAAACTTATGTGGCCATAAACCCTCTGCTTTAACTATATAGCAAGAATAT
ATCTCAGACTACAGCTCAGGTGGGACAAGAGTTATAACTTTATAGTCTTTATCACAATTTAATTTCTATTTTGAGACCCCTTTCTCTATATGTGGGAACT
GTGAGGTCTTAGAAACATAATCTGAGCCCATTTCAAGTTGTTTTCTTCTCCTCTCTCCCAGCTWGAATCAAAGTTCTATTAAGCTTACCTAGTACCAAAG
GCCTTATATGCAAGGGTAGAGGGGAGGGTATAATGTCTGTGTGTATATGTTGAGCAAGGGGACATGTGATAGGGCCAGCCAGTACTGAGTATTTCACCCA
AGCATGTTTCTGCTGACCTATCCCTTTTTCTCCGTCCTCCTAATTACCTTTCCTTTCAGGTCTAGAAAGTCTCTCAACTACTTTCATTCCATTCTTAGAG
GCACAGGAATCATTCAGCTTCTTTCATTCCATGCTAAGACCCACCAACATCTCTACCATCATCATTTTTCCATCTGCCTTTCCAAATCCATCCCATTTTC
TATTTGAAAAAGGATGAGCTACATTTGTGGAACTGGTGGCTTTCAGAGCTCGGGGTCTGGCAGATTCCTATGTCTCTGCCTTTTGCCCTGTCAAATCCCT
TCATTCAAACATGTAGCACAAGATGGCCTTGCTTCTTGAATCGAGGGGGTGAAGAGAAACAGTGAACAGGGGAATGGCCAAACAAGATACAACAAAACAT
GGATTGGTATTCTGTCACAAGTTGAACACTAGTTACAGCTTGGAAAACATTCACTTAGGGCCAAAACACCACTATTTTTGAGGTATCACTGCTTTGCTGG
GGAATGATTTAAACAAAGGAAAAAAAAGAGTCAGAGAGTGAGGGGAGAAGGTATTCATGATGATACCTTTGCTAAGATTCTAGACTTTTATCATCTGGAC
AAGAGGAGAAYAAAAATAACAAAGAGACAGAATCTTGAAGGGCTAAAAGAGATTAAGTAAGCAATTGGAATATCAAGAGCAATTAAAAAGACTGTTGAGC
TAAAAGTGAGTCAAATGCTGAGGATACCTGCCTGATCGGACACTAAGTTACTTTCAGAATAAGTTTGTAACCTCAGCAACATGTCATACATTATGGAGAA
GGCATTTCAAAAAGRCAGGCAAGTTCATCTGGTGGATTCTATAGGACAACATGAAACTTAATGGGATACATAGACTTCTTAAGCYCTCCCCGCTCCCCAG
CTGGCAAATTTTTAACAACTTCTCCTTAAGTGATGAGAGAGGGGTCAAAAGCCAGGACTAATCTCACAATTGCCACTGAAAATGTGGAAGGTGTTTGAAY
CTAATTGCTTAATATTTTGAAAATTCATCTACAGTTTTATCCTCAAGATTCATACTAGATATCAAAGAAATTCCTTTTTGTATCTTAAATTTCAGTTCCA
AAATCCCATTTAGATTTTGTCTGCTTCAGAATGTCTGAATTCGAATCAAGTCTAATCACCCCTCTGCTTACTATGCTCATGGGACCTTCTATTCACTTGT
GAGTCTCCTTGTGCCTTTGGGTCCTGAATGCAGAGCATGGGCTACAGAAATAACAGAGGAGGGGCAGTTATACCTACCTGTAGTACTGTTAGCARAATTG
TGACTCCAGTTGAGGTGTCAAGAGGCCACTCATATGTGGTTGTGCAGTTTGTACACTGCACAAAGGCACTCAGGGAAGGGGAAGATTGAGGGCTTGAATC
CAGTTTACCCTCTTCTTTTCCATGAAGTCCCTGGGTGTCTAGTCTGTTTACTTTTTCTGCATATGTCTAGAAAGGACAATTTCTTCCAACTTGTAAAAGG
CACCATKTGAGCAGGGAAACACCCTCAGTCTTTTGCTGATTATGTCAAATGGGAGGAAGTAAGAACACAGCATTACAGCCACGMCTCTTTATACAGCAGC
CACCCTCTTCTGTGCCTTTGCCAATACGTTCCCTCTGCCTGGAAGATTGCAGCCCTTTCACTCCTCCAYCCGAGACTAACTAATCCCTGTTCAGCTCCCA
AAAGTCAGCACTATCATCCTGAAAATGTCCTTGATTGGGCCTAATCTGAGTTGGTTGCCCTTTTGTGTGCTGCCATAATAGCATTTGCATATCTCCAGTT
GTTCTACTGCTACGTTTTAAAATGTGTGTTCATTCTCCATGGACTGTAGTGTGAAGACTGTACCTTATTTGTATTAGTACCGTGTAAAAGTGCTCAGCTG
ATTTTTTTTAATGGGTTGGGAGAAACCAGAGCTTTTCTAATTTGCTTGGCTAGATTAAGCCAGCATTATATTGTTTCATTGTTTTCAGTGTATAGATAAT
AGAAATGTAGGCCGTGATTTTAGCCAAAAGTTGCTGAAAAAATGATGGGGCAGAATGAGACAAAAGTCTCATCAGTGTGGTTGCTTTCTTCTCATTGTTG
CTTGTCTGCACGTCCGCTCTTTTTCTACCTCTCCCTCTCTCTCTTCCTCTCTCCCTCCCTCCCTCTAACATTGTTCCTAAATTATCAATAGCAGCAAGTG
TAACAAATAACTGCATGTGTTATCTGGAGTCTTATTTACATTTAAACGGCCCTTTTTCAAAATATTGCAATTTGATTTGAAAAAGTTAACAGATGTGGAA
AGGAACAATGCCTTTGTTATGTCAAGATRTCCGTTTCTAGCAAGGCATTCATTCGATAAACTATTTTTAAAAATGCACTCATTCTGCCTTGCATATGAAA
ATGAGAGGGCTTGACATTTCACATTACAATTATTTTTGGTGGAGTGAAAAACCAAAGGACTGTGATTTAAACTAATTTTAATTAGGTGAATCCAACTTGA
TCAGACTCTAACACACTATTTTTATTAATAAAAGTTATATGATTAGCAGTATTATATTCTCTGACCCTCAAATTACTTTTTAATTCCTAACGGAACACCT
TCAGAAATCTCTAATACTGTTCTCTGTATAGAAACACACACCCGTACACCAGTAATGTGCTGAAGTGTTGCAGAAAATAGTCCCACTTTCAGTAACATGG
CATATGAATTTTCTATCACGTATATTCACAAATTTTCCTTACATGTCCTGCAAGAAAAAATAAATAAAAGACAGATGCTTCTTTAGTTATTCTATTTAAT
TATAGTTATTTTCCTCCTGAAATGAGTTTTTTTATTATGGAGAATTTCAGTCTTATTAATTGCTATCTAAGTTAAGAAAAATTCCCAGATCTCGTTATAT
AAAGCTATCTCTCCAAAGGGCAGTAACTCATCTTGAGGAAAGTGAGCTGAAAATAATAGGTTTTCGTTTGCTGTGATAATGATCATTGTATATCCTTATT
CCAGTGGCACAAAGTCACTCTCTTAGTGGTAAACAAAATGAGATGTGAATATATGTGGATGTGATCATAAGCTCTGAATATTAAATAAGACAAGAAGAAT
CAGGTTAAAATTCAAAAGAATCTCCTTCTTATCTTTATCAAATGCCTCTCTTGAAGGGATTTTGGGGGAATTTTGTGCACTCAAATTTTATTGCATATTT
TATAATACAGAATTAACAAACAATTATATCTGTGGTTGGCAATATTCTTCTAAGCAGTATTTATACAACTCATAAGTGTATAAAATCTTTTGTGAATATA
AGTAATTTCATTTTAAAAATTATGATAAAACATCAAATCTATGAATTATAGTACCTAAGTACCTATACATTTTCTAGAAAACTTAGAATCATCAATGTAT
CTGCACCAAATTAATGGCTCTGCCCCAGAATTGGGATTTGTTAAAGTACTCTCAATATAATGTACTGGATTTAAACCATTTTTATTTCAAATGGTAGAGA
GCCTTTCTCTAAATAATGACTGCATATCTGTGAGTAGATGAGCATAAAAGTGGTGTACTACTGAGGAAATTATATTCTCCCACATTGTTTTTGATCCCCT
TCAATTTTGACACTTGCTGCAAAAGACTTTATCTTGRTAAGATGGCAAAGATAACAGAGCTAGCCTGACCATAAGATTCAGATGCCCTGTTCTGTTTCTC
CTTTGGCAAATGTGGCTTAGTATAAAGTGTGAGCAAATGTCATTGAAAGAGAAGACAGAGCAGAATATAAATAGGCGCTGCCTATAAGGACGTTTCTGCA
CACCTGTAGCAGTAAGTTGCATTTTAAAACATAACATTTAGGTCAGAGAAAATTTGCTGCTATCGTTTTTAAAAATCTTCTTTGCCATGCCCTATAAACA
AACTTTTGTTTTTCCAATAATATAATATATTATATAAATAGTTTTATATTATATTATATTTATATAATATATATAATAATATATAATATATTATATTTAT
ATAATATATATAATAATATATAATATATTATATTTATATAATATATATAATAATATATAATATATTATATTTATATAATATATATAATAATATATAATAT
ATTATATTATATAATAATATATAATATATTATATAATATATAATATAAATAGTTTTTGGTAAGAAAGAAAGAGCAGGAGACAAAGAAAGAAAGAAAACAG
AGAGGGAAGGAAGGAAGGAAGGGAGGAAAGAGGGAAGGAGGGAGAGAGGGAGGGAGGGAGGGAGGAAGGAAGGAAGGAAAGGAAGGAAGGAAGGGAGGAA
AGAGGGAGGGAGGGARRGAGGGARGGAGGGAGGAAGGAAGGAAGAGAGAGAGAGAAAGAAAGGAAGAAAGGGAGAAAGACCTGGAGTTTGCTAATAGAGT
TGGCAGGCACAGTTCAGTATCACCTTATGGCATATTCCTATAATATGCAGGCATGCTTTCTCAGACTTCCCTTTAGTAAAGCCTTCAATGAAAATTTGCC
TCTGAATTCATATGCAAATACATACAAATAGATTATTAATTCAGATATACCCACAGCTCCCATCCAATTAATAAGAATCTTCTGAGTCACAGTTTCTAGT
TAATAAATTCTGAACTCTTATTACTGAATTTCCTTGCGAGCCTGTTTCCTCATAACAAGTTCTGGCTGCAACAACAACAAAAAATGTGAACCTTACATAT
TTGTAGAGAAAATAACCAATTGGAGTAGAGACATATGATGTGTTGTACTACAAAGGCTTTCCAACATGGACCTGGATTCCTCCAGAGTGCCAGCAGCAGA
TTCTTATTATGCTTTGGTCTCATTTTCAGTGCCAGTGACAAGATTATATATTTTTTTCGGGCTGAAATCTAATTACTAGTGGGCTGGCAGGATATCATCT
TGTATCTACACTGCAGTTGTAGAAAAACATTTTTTTAATCAYGTTGCGTTTGAGAAAAGGAACACTTAAAAGGAAAATCCATCATCCTGGGAGAAGGGGA
GAATGAAAAATATGTAAACATTGCCCCAACTGAGGTCCCCCCAAAGGCTCACTGATGAAATTTCTTGCCTTAGGTGTGCAGAAGRCTATTTTGGACAACC
CTCTGTACCTGGAGGATCAYGTCAGCCATGCCAATGCAATGACAACCTTGACTTCTCCATCCCTGGCAGCTGTGACAGCTTGTCTGGCTCCTGTCTGATA
TGTAAACCAGGTACAACAGGCCGGTACTGTGAGCTCTGTGCTGATGGATATTTTGGAGATGCAGTTGATGCGAAGAACTGTCAGCGTAAGTCCTGAACTA
TTGATGCCCCTGACAGAAYTGATGTATTGTACCTCAAAGTAGCTGATGAGTTCTTGAGTGTGGATTGAAGAGTAGGAAATTATGTGGAATACATGGTTGA
TAGATGCATAGAATATACAGAGTCTGCATATTCCAGAACATTTCCTTGTACTAACTAATAGAGTAAATACCTTTAAAATTGCTGTGGTATTGAAGCATCA
CTGTTTTCCAAATGATAAACATGTTTTTATTTACATGCGGAAGGAAGATTTTTTTAATGAACTTATGTCCACAGCAGGAAAGAAGAATTTGCATATTAGA
TAGACACCATGTATCCATTTTTTTATCTCAATTCTAATCACTTGCTTTAAATAATTTTTTCTGCCCATGATAYTTCAGTAGTAGCCATCAGAAGGTGTTA
ATCAGTTATGCTTTCATATGTTAACTTTACAGTGTCGTATTTTGTAATAGGTATAAAATTCTGCCAATATTTTCGCACACAGGCATTTGTCATTGTTGAA
TGATTAACCTCATTTTAGTTTCATAATAGTCATTTAAGGACTATTTCTAGAATGCTCTTTCAGTGTTTTCCTTCCACAAAATTAGCTACTCTAGGGCTTC
ATCCATATTAGTATAATACATTTCTCCCCTCTTTACCTTTTTTGCTGTATTAATACTACATAGAATTTCCAAATCCTTAATGTCAGTGGGATTAGAATAT
GAAGGCGGATCTTGTTGCAGAAGATCAAATGGAAAGTGAATCCAATGTTAGCATTTGGCCATCATCAGCTTCATTTACTATCATAATGTTTAAGCAGAGT
AGGTTATGAGACCAGCCTATCCATTCATTTCTGTCAAATTTATGTGAGAGACTCTTCCAATTATTCAGGTGGGTCCCAGGACATGCAGAATTATAGAAAC
CACTGTAAATGTAGCCTATTATCAACTCTACTGTAAGCACCAAAGACCCAGTAGGGTACCCTATTTCATTAAGAAATGTGTCTCTCTCATCACAGGTTTA
GAAGATGAGTTCTAGCTTTTTGTTATTTAATAATGATAATTCRTTGAATCAAAACCAAATCACTTTCTGGACCAACTGGCAGCTGTTAATATAACCTGTA
AATTGATCTTTTTTTAAAGCAAAATTTCCAACAGCTCAGTGCCTTTAAACACTGGATTCCTGACAAATGTATAAAATCATAGAAAGCCTAAGAAATTCTT
CCTTTCCCACAGATCATCTAGGATCTACATTTTCTAGCTGTGTGCTCCTGAGCAAGATATTTGACCTCCTTGAGACACAGTTTTCTAGTCTACAAAGAGA
GTCATGAATTTTCTGTGGGGACTAAAGGATTTGGCACATAGAGGGTATCCAGTGAGTTCCCARGTCCTGGAGATGCTCACACATGGTAGCTGTCTTTGGT
AGCAGTGCTCATAGTAGCTGTGCATATCAGTTGTTCACCAGTGAATTCTAAGGCTAAGTTAGTCATTTACTGACATTTTATCCTGTCTTCCAATAACCCC
CACCCCCATAAAGTTAGGGATATTATTCCACTAATTTTATTATGGTAATTTATTGTGGGATTATTTTATTATGGTAATTAATTATTATTTTATTATGGTA
ATTAATTATTGTAGAAAATTATTATGGGATTATTTTATTATGGTAATTTATTATGGGATCCATGGCATGAAGTCTTAAGAACATAAAAAAGAATGTGAGA
ATAAAAACATTTTGACCATTACCAGTTTTCATACTACTTGCCGTGAGTATAGATGTGATTATAATTTTTAATGCTCTTTGCCATATAATCACAATTAAAA
GTATAAGAAGCACATTTATTACTTATTTTTATAATTTTTCATGGATACAATATCACTTCTATGCATAAGTGGTAAAACCTCAAGGAAAGAAAGTTCCTGG
AAATACATTATTTTGGTTACCTATAGATTTGTTCAAGAAAAGTACACCACTACAAAGAAATATATTTTGCATTTTAAATTTGTGTATATCGTTGGTGTCA
TATTTTTCCATTAAAATGACACTTTAGCAAAACTTTATACTGCTTTGTTGTTTTTACGATAACATTAATTAATTACCATCATATTTATGGTAAATTTAAT
TTTGTAGTTTACACTCCAAGAAAAAGTGACTCCTAAAGTCTAAATAATTTGATATTTTAAAAATGTATGATATGCATAAGAAACTTTCATAAAATAATAA
AAGTATATACAAATTCGATAAATCAGATGAAAATGGATATTTAAAGGAAAAATTTTCAGCCTTTCCTTGTATTTCAGCTATAGACTATCCGTAGGCTCTT
TCAGTTTCTCAATGGCCCTTACTCTAGTATCCCCTTGGCAGACACTGAAGACAAACTTTGCTGGAAGATAAATTAAGCAGTTTTTAGAAAAGCAGTTCTT
TTGTTTGTTTATTTGTTTGTTTTTTAAAAGGAGAACCTAGAGCCAGGAGAATAAAATATTAGCATAGGCTGATAGAGTACCTGTTTATAGCWTAATTTTA
GGTTGTGTTCAAATCAAAATATTCAGAAATTTAACAAAATCATCTATGAGTAGCCTAAATTCCCATGTCATCTCCTCCTTGTATTTTTATTCTGATATAA
ATGCAATTATATGTACCATTAAAAATATAGGGTACATAGTAAACAATTAATTACTATTCTATTTGTGAAAAGGTCACTTAAGCTTTAGACTGATTTACTC
TACGTTTTAGAATAACCTCAGACAGCTTTATAACAAAGCAAAAAAGACAAAAGATTACTTAAATGAAATATGTTTTGTATGTTTGGAGATAGCATATAAA
CTGTAAAATAAAAGTGATTCTTAAATGTTATAATGCTATAGTCTTAAGATACTTGAAATGATGTTTTTGTTGTCTTTTAAACTTCTGAATCTTAAAAAAG
GCATAAATATTTCACCTCAAACCATTTTTTAAACTTAACACAAAACCGGCACACAGTAAATCATTAAATCAAAAAAACTAACTAAAYTTTTCTAGATTAA
TAGTAACATTAAAATTTTGCCAGGGGTGCTATTAATTTTGAAAATTCCTCAAAAYTATTTTAGTTCTAAAGTCAGTATGCATTACTTACAATGGGATAAT
AGTATTTTAAGTGTTACCCTGATGTATCTGTAAAGAACTAAAACAGCGTTACACCTTGAGTCAAGAACTCCAAGTTCCTGTCACGTTCTGGACTCACCTA
TATGACACAGCAGGCATGTGGACTTGTATAAGCTATGGCTTCTTTGAATTTCAGTGTCTTCATGCTCAAAATTGGAATGATGATGATGACATTAATATTT
TAATGGCATATGATGGGCCAGACATGATGCTAAAGCCTTTATGTKAATTATCCCTACAGCTTGTAGAGTTGTTATAGGGATTAAATGATAGAATGCCTAA
CAGGGYACTTAACAAATCAGAAAACATTCTGTTACTGAACTTAGGCGTCCATGTTACCATGTGGGGTATATTATTATTTAACAAGCCTATTAAGACTATT
AGAAAGTTTTCCTGATCACAGGTCTCTCTTCTCTTTGCAGCCTGTCKCTGTAATGCCGGTGGCTCTTTCTCTGAGGTTTGCCACAGTCARACTGGACAGT
GTGAGTGCAGAGCCAACGTTCAGGGTCAGAGATGTGACAAATGCAAGGTAAGGAGTAGAGGCTGACCCATAAATTACTTTCTCCTTACAGATTTTCACTG
GCTTTTCATGACATGTTTTGTATACCTTCGTATATTAAAAGGAAGGTTTGGGATTATCTAATTCTACAATTGAAATGACTGTGATCAGTGAAAAGTTTTT
TTCAAACTAGAACAAAATTCATTGTACATTACCATTTGACCTTAAACATTTTTTTTTGGCAGTGAATGTGTATTATATTCGCTTTAATTCAGACATTTCT
GAAACAAATAGCAGGCGAATTTAATCTTAATCTGTGGAGATACTCTTTCCTTTGCCTTTACATTTTTGGCAGAATAAAATGTTACTCTTGGGGCTGGGCG
CGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACGAGGTCAGGAGTTCAAGAACAGCCTGGCCAAGATGGTGAAACACC
ATCTCTGCTAAAAACTACAAAAATCAGCCAGGCACGGTGGCAGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCGGGAGAATCGCTTGAACCTGGG
TGGCAGAGGTTGCAGTGAGCCGAGATAGTGCCACTGCACTCCAGCCTGGGCGACCGAGTGAGACTCCATCTCAAAAAACAAAACAAACCAAAATGTTACT
CCCTTTGCTTTTTAGCAAACACCTTCTTCTAGTTCCATCATTTAAAAGCTACTTCCTGTGAGCAGTCTACCTAATGGAAGTTTCAGTAGAGAAGTTAATC
AAGATATTTTTAAAGATGCATTATTTTGCTAAAACAAAATATTCAATTAAAATACARCATGTTGTTCTCAGTCCCTGAACATACCGATTGCCCTGCTTTC
AGTATGGCAAGCAACTTCAGATTCCTCCATGAGGGTGGACAGATTTGCTCTAGCGCTTTCACAAAAATACATTGTATTTGTGATAAAGACAGCTAAGCAG
AAGCAAGCATTTCTCCGATGTCAAACTGGCCTTACTGTAGGAAGTTTGAAAATATCATCTGCTTCTGTCTCTKGAATAATATCATTGCTCTGTTTTGTTT
TTATTTTATTTTATGGTTGGTTTTTAAAGCCCAATATGTGGCGGGATCCAGAGAAGCGATTCTGTGTGCTATGTGACTGCGATCCCGTTGGCTCTGTGTC
ACCGCAATGTGATATTACAGGAAGATGTGTCTGTAAATCAGGCTTCGTAGGGAAACAGTGCAACCTCGGCAGGCAGGTGCACCAACAGGAGGAGCAGCCG
CGGAGAGCGCAACGGGTGCTGGGTTCTCCTCAGAGGTGGGCTATCGGCAGCTCCAGCGGGTGCCCTCGGGGAGCCTATCGGGCCCCAGCTCCGGTAATCC
CAGAGGCGCTGCATGGCTCATGCCTCTGCATGTTGTGTTCTGTGTGCTGTGGCTGAAGTTCCCTGGTGGCATTTTACCAAATAACAGTTGCTAAGTGTGC
AAATTGCAAATGCAAAGATTAGACAATTCCTAATTGAACCCTTGCCCTTTTAAAAATAACCATCCGTATGCTTTAAAAAGCATATTCAAGTTCATAGGGT
CATAAAACTTTCAATTAACCAAACTTTCAATTAACCATGAATATGTGGAAATCAAATAAAAATCTACTTGAGAGAACCTATAATCTTAGAAATGGAAGAG
ACTTCAGGCAACCTTTGGGGAAAGCTAACTTTAATAAATGAACAAATGAAGGAAAATCTAGCAGAGAAATTGATTTGTCCAAGAAAACTCAGCCCATTTA
TCAGGCATTTCATCATAATTAAGAATTTTGTTAATTTCCACATCAATTGTGCTTATGTGTACAACAAAYGCAAGAAACACATTTTCACACACTATAAATG
GACAAATACCCAAAACGGGGAAAGTTGTTTCTAATTACAAAAGTGTGGTTCTCATATCACAGGACAAAACAAAACAAATGCTGGGGAAGAAGGAAGAGAG
GGAGGGAGGGAAGAAGAGGTCCCAGGCTGAGCTGCAGAAGAGTAGGAGACAAGACTTACCAGTATAGAGTCAGGACCTGTAGAGAATTGAGGATAGGGCA
TAGAAGAAGGAGAGATGGAAATAAAAAGTAAAGAAGAAGAAGTAAAAAACAATTCATGGTTTTATTTCTTGGCTCATTATCACACATTTTTTAAAAAACA
AATTTTGATGTCAGACTGCCTTAGATCAAATCCTGGCCTCATTACTTCCTAGCTATAAATTCCTTGAATCTTTCTGTAATTCAGCTTCTTCATCTGTAGT
AAGATCCACTTCAGAGGGTTTATGTCTGCTTACGTACTCCAAGAAGCAAATGCCAAGAGGTTTCCTGGGGGAAAGGCCAACGAAGCATGAAGTGGGAGAC
AGCATAGCCTTCTGCTGCAATGGGGTTCTGACTCCCGGGAAAACACAGAAAGAAAGACTGGGTAGGAAAAGCCTTGTTTGGTGCATTTTGTCAAATCTTA
AATTCTTGGCCAAGCCAATGGGATATACCCAAGCAAATTTTACCCACTAAAGGAATCCTGAATTGGTCAGGGAGGTTCTAGTATCTTACAGTAATCAGCC
TGAGAGAAGGATACTCTTGTGGAAGCTCATCTTAATTCATTCAGAGTGCTATAAGAGCATAACATAGACTAAGTGGCATGTAAACAATGGAAATTCATTT
CTCACGATTCTAGAGGCTGGGAAGTACAAGATCCAGGTGCTGGCAGATTTCCTATCTAGTGAGGGCCCTCTTTCTCTAGACAGTCATTTACCCACTGGAA
CCTCACTTGGGGGAGGAAACTCTCTGAGGCCTCTTTTATAAGTGCAGTGATCCCATTCATGAGAGCTCCATTCTCATGACCTAATCACCTCCCAAAGGCC
CCACCTCCTGTCTATACCACCACCTTGAGGGTTAAGATTTCTACATATGAATTTTGGGGGACATAAACATTCAGTCCATTACAGAGCACCTCTGATGGGT
CCAAAAGACAAGAAACTGGAGGCTTTCAGTCAGTAAAATTCCACACTGTAGGTTGTCTTGCAGGTAGATCGGATGAGGCGCCTCCAAGGCTGTCTCAGGG
TAGCAGTGAGAACAGTGCATCAGGCAGGAGCATAGAGAGTTTTTAGTAAATGTTAGGCCTGATTACTATTATTATTACCAATGTTGTTAAATGAAGAAAT
GTTTAAAATAATTTTTTTTCAAAAACAAATGCATACATTTACAATAAAAGAAAAAGATAATAACTGATTAAAATGTCTCCWAAATATAAATTTAGCAGAA
AGTCAACGTTCATTCAAGCCCTACATATCTTACAGTACTATTGTATGAAGCAGGGTTTTGTCCCGAGACTATTTTTTCCTCTGCAGCAGTATGTGTGAGA
GCTGAGAGCTCAGACTCTGGAGCCAACCTAGCTGATCTGGAATCTTGACTCCACAATTGGTTAGCTCATGACCTTAGGCAACTTACTTAACCTTTCTGTG
CCTCAGTTTCACCACTCAATAAAAAAGTGGTGAGAATGACAACTSTCTGCCAGGGTTGTCCTGAGGAGTAAATGAGTACATATTTGTAAAGAGTTTAGAT
TTGTAAAGGGTTTAGAATTTTAGAATTGTGCTTTGCAAAAAGGAAGCACAATATATGAATGCTAGTTCTTATTACCCCGAGAGAGACACATTTATGGGAA
CCTATMCAGTTTCTCACTGGGTCTGGATAGCCACTCTCTCCCATATTTATTTTACCTCATTAATCTCAATTACTGACCATGAATGTCTGCTCCTTAAGTT
TGTTTACTAGTGGGGTTTTCTTTAGCCTTTGAAACAAATTTTTGAACAAATTTGTAAACATTTTATTACTGAAATTTGGTAGTATTTATTTTGCTACAAC
TTAGCCTTTAAAGCTACATTATTTAAATATTTGAAAAGTGAGGTAGAACCGTTTCTTCTTGTATATTTCCTTACATAATCGACTTTGGAATTTTTAAAAT
GATAGCTATAATTTGGAATCTCATTTGATATTTGATTGATTTAAAGGGGTGTACACACACCCCTTTAATGAGTAAATCAATATGAGAGTGTGGATATATA
GATGTAAATATATATGAGTAAATGTATATATATATGAGTGTGTATATATATATGTGTTTATACATATATCGGCATAGATATATGAGTGAAGACAATTTCT
GAAATAAAGATGAATACAAAGTATTATTTCTATGACTCAGATATTTTTCAATACCGTTTTAATATATTATGTTTAGTCTTTTTGTCTATGTATTTCTGTT
TCTGTTTGTGTGTCTGGTGGTATGGGTATGTAATTGAAATTTACATAGTATTTATATAGTTTCATATTTTTGTTTAATTTCTATTTCATGCTATATCCTA
AGCATATTTATATCATTAAAACTGCTTCAAAACAGGATTTTAATTCTTGCATATTATTTCATAATGTGGATGTCATCATTTAATTTATTCAACAATTTTT
ATAACATTGTACAGTTAAGTGCCTGCATAGTTATTCACCATGATAAATAATATTGTAATAGGCATGCTTTTGCTTTAATAATATTCCAATTTCTGATTAT
TTCTCTAAGCCAGGTATCTAAAATTTTACATGAATTTCTTTTACTAATAATGATATTATATGGTTAGTTTTTTTTATATAGGTGAATTTAATTTCAAAGT
CATGTCATCTGTTGGAACTGTTACATGCTTTTTTCTTTAATCATATACCACAATCTGAATTAGAACTAGAAATAAAAATAAAACCAACAGTAAATGTAAA
GATGAGAATGATCGTCAAACTCAGTCAACCCATTTTACATTTTAAAAATAAAACTATTCTTAGCTACGGTCATTTTAAAAATCTAATTTTCAGTGTGATT
TCACTTTTATAACTTATTTTTAAAACTACTAACAATAATATCTAAAATATATAATGAGGCTTATTAATTTCTCTTTGGGTGGCTCACGTTAAGTGGCAAG
ATTTTTTTTTACCAAGAAGCAATTATTAAGTCTAATTTTCCAAAATAAGAATTATTTTTACAAAGAAGTAATTACCGAGAATAATTTTCCAGATTAAAAT
ATCATAATAATGTGACATGCTTTATATTTTTAAAAAATAACCCTGAAGTATTTTAAGCAGGATAGATGATTTTCATTTTTCTGCTCGGAGTGATTTTTTA
ATCCATCAGCATTTTCTAACGTTTCATTTTAAGCCTGATAACATGCATTTCAAGAAAGTCAGCCGAAGCTGGTAATGCAAACTTGACCGTAAAAGATGAT
TTGTTATAGATAGATAAGAGATATGCATATGAATAACTCATCAGAGAATGAAAGTTTACTTACCTGATCTGGTGCTTTAATACGTGTTCTCACTAATCAA
TTTCAATTGTTAGAATGAAACCTAAGAAATCAAATGTTTGTTGAACCAATTATTTGATCAGTGTAAGCATAACCTGAAAATTATATTTATAATGTGAACA
CTATAGCAATGATTAAAAGTATTTATGGATATGTGACAAAATTCTATCAAATATTAGGGCAAAAAGGATTATTTTAACTTTAGGCTGCTGGTCAATAATG
TTGAAAGTATTTTTACCAAGTAGGAGTCCATAGATCTGAAAGTAATCAATTCAGATTACTAAAAATGAAGAAGTAAAATTTTAAATTAAGACTAGAAATA
CCACCTATAGGTCCTTTCCATATTGCTATTGAAATCTTGAGAAGTACTGGGACAGGCTGGTGAAAATACAACAGACAGTAAAGGAAGCGCCTAATTCTGC
AGTTAATTTTGATAAAATTTCAGAATAATTGAACTTTTCTCTTTGGATATCATAGAAAAGGTCCATTTGATTGAATGAAAACCCAATTGTCATAACATCA
GTGAGGAATCCTGATAACTCCTAAGTTCCTCTGTTCCCACCTGATCTTTGGTATTGTGCATCTTGCTTCACTTCGAGTTAACTGATTTAAATTTAATTTT
TCTCTCCTCTTCCATTGCCAGGCTGGGACCTTTGGCCTACAATCAGCAAGGGGCTGTGTTCCCTGMAACTGCAATTCTTTTGGGTCTAAGTCATTCGACT
GTGAAGAGAGTGGACAATRTTGGTGCYAACCTGGAGTCACAGGGAAGAAAYGTGACCGCTGTGCCCACGGCTATTTCAACTTCCAAGAAGGAGGCTGCAC
AGGTCTGTAAATATGACTTAAGTCCTACATATTCACTCTGATAGTTTTAGRGTCTGACTTCTGTAACAGTTTGTTCTTTTAAAGGAAGCACAGATTGATA
CAACGTATTTAACATAATGAGTAATGTCTACTTATTTTTACRTTACTTAAAAAATGAAATACATGTCAGTTTGAAACACTGCCTTAATAACTGTGTGCAA
GTACTCAGTAAAAATCAGCAGATGCTCKTTTGGTTGTGTCCCTCCCTGTCTGTGACTTTGATTCAGCCAGTCACTCAAACACTGCTACGGCTTGAAAGTT
AAATGTTCGATTTTTCTGGTACCAGTCTTATCTTAGTTTAAGCTCAAACCCCACGCCAATGCATTTCAACTTTCCCTTTTTCCTATTGCAAAATTGGTAT
CCGGATCAAGAAAAGTCAAGGTGTTTTTTTTTTCCTGGTACCCCAAAAACATCTTTTCATCTACTTTTGGCTGCCTTGAAAACTATGATGTTCTAAGAGA
GAAATAGGTTGGCTCTAGATATTTAGTTCATCAAAAAATGCAGGCAGAGGTTTCTAACCATGATTCCCTCAAGCAGTATTCTTATACATCCAGCCACAGC
CTTCACCCAAATCATGAGCTAAGAAAATATCACTTAGCATTCTGCAGATGAAAGTAAAGAGTGAACATTAGCCTTGATTTATATGCTGCTAATTTCGAAC
TGACCCTTATTCCAACAATCACTAGTTTGAATATTACCTTTGTTTACTAATGTCATGGATTCAACCTGGATAATGCTCACATACTCTCAGCACCATGGTA
AGATTTTAAAACATTGTTATTCACTGTTGTGGCAAATTTAAGTAGGAAGCAGTAGGAATAATATTTAAAACTATTTAAAGAACCAATATCTTTCAGACAT
TCTCCAGCACTTTAGATATGTGGATTTTACCATAAATTAAGCCATGATAAGTTATTCTAATTGATAAGTTATTCTAATTGATAAGTTATTCTAAATGATA
AGTTTATAATTGTAGATCCTCTAAGAATCTGTATATCTCTAAGCCAATATCTGTATAACTTAAAAATTATAAAGCTGTATTTTAAAATATACTCTGTTCT
TTAAATCCAAARCTCACTGACATTTTTACTTAATATGAATTAATGAGGTAGTATTATACATTTAAATACATATAGTAACAAATTATAAATGAGACCAAGA
ATATTATTTTAAATTATAGAAAGATGACAGCATTTAATAAATGCAGACCTACTAGCATTCTGGCCCAAAGAAACACCATAGAAAAAAAAAAGCACAAAAC
AGGAAGAATAGTAATATGACTGAGGACATGACTTGCACAAAATAGCCTGGATTTGTCTAAATGGCTCCTTCAGTAACTAGTTCTGGGACCTTGACTGAGT
AATTTTGTTTCATTTTCCATCTGCAAAATTCATCTATTAAATTAAGATAATAATAGTATCTACCACACATGGTTTTTGTTACAATTAGTTGAGTTAGCGG
CTATAAAATATTTAGAGTAATGCCTAGCATGTAAGTGCTATGGAAGCATTTATCATTATTATTATTATCTTTATTAGTTTTATTAATTGTGTTATACATT
GTGCTTTGGCACAGGAAAACTAGCTARTTACTCAGGTTTTCTTTCTATTTAGTGTTATGATTCCGCTGAAGAACTACTTAAGATAATTTCTATTTGCAAG
TAATGATTTGCACTGTCCCATGACATTTTTTAGCATATAAATTTAAACATAATGGTAACTATTTTTCTTCTTAATGAAGGACACATCTAAAATAAATCAT
TTGGCTTAAAATTAGCAACAACAGYAATAACCAAAACAGCAATGACTAACATTTATTTAGTGTTTACTCGGTGTAAAGTATTTTTCTAAACACCTTCCAC
AGCTGGTGTGTAATGCTGTGAGCAATGAATATTGTCATTTCATAAAAAGTGAATTTAGTCAAATATTCTAAATATATTCAGTGAAAATGATTTAGTCATC
ATATAACCAATTAAAAGTTTACTCATAACATTAGTCTTCCATTTGAATTCAAGTATTTGGGTTTCTTCCCTCACTTACATTTCTTTGACATGAAACGCTG
CACTAGAAATATTCTTAGTAGCTGGGTCAACTGCCGCTATGTGGCATGCATTCCTTGTCTTGGATGGCTTTGAAGATATTCTCAAACATTATTTTTGCAA
TCTTTGAAAAAGTACAAAAGGTAGATAACTTTGTACYCTTTGAATATTGCATGATAGCAACAAAAATGAAAAATCTATAGAAAAAAGTCAGGTGGTAAAT
AAAAATCGAAAGTATCTTTATATATAAACAGTGTCCATAATTCAACCATTTTAAAGTATTTGCAAAATTGGATTATTCTGTTGTGTGCGTTTCTAACTAT
ATACATGATGTACCGAATTTAAGAAGCTTATTAAGCTTATTRGTTTTTACTGCAGATCGGGCTCATCAAGGAAAAACTAATCCGTACAGCATAAACAAAT
TAGAAATGAACTTAAAATAAATATACAAACAAAATAGTAAACTTTGTAGTACCCGAATATAAGGTGTTACAGTTAACRTGGAATCTGATAACACCAATTC
TTTCCTTTCTTAAACTTCATAGGAAAGCTAAAAATACTTTAACTTTTGAAATTAATAAATGAAATACATCTTATATTTATTGAACAGCTCCTTTCTGAAA
TACATTGTACTATAATRTAAAAGATGAATGAAGTAAGTTTTTATTTCCAAATATCCTTAAGTGTAGAACTGAAAAGAAAATAAGACAAACCAACACAATA
TAAAACTCAACACTTTGTGTCAAATTTTTACTATTTTTCCCCTTCTTTGTTTTCCCTCTTATACCGGTGAAGCTTGTGAATGTTCTCATCTGGGTAATAA
TTGTGACCCAAAGACTGGGYGATGCATTTGCCCTCCCAATACCATTGGAGAGAAATGTTCTAAATGTGCACCCAATACCTGGGGCCACAGCATTACCACT
GGTTGTAAGGTGAGTGAACCACTTTTTTGCTCTGATAATTTTTTGGRGAGATTTTTGTTTTGTAGAGCTCTGTAAYTGGGCATTTCAAAATTCAATATTA
CATCACAAAATAATGTAGAAGTATTACTATAATGTGATTACAGATATTAATCAATATCTTACAGTTTACTTGTAGGAAAGATGATGAAGTAAATATACAT
TTATGCAGCTGAACACTTGAAATCTACAAGAGGGGTAAAAAGAACAAARATTCTGTAATAATACCAGAAAAGAGCTATAACCTCATACCTAGGCACAAGG
ACATACATGTGCAAAGTATGAGGATATGAGGAACTAATTAATTTTCCAAAAATCTATAGAAATTGCCCCTGAATTATGACTAGGTTTTAGGTTTCAGGAA
GTAGTTGAGATCATTCTGAAGAGTCATTTTAACAACATTTAGCTTGGAAAATAATCATTTTTTCCCATTGGTAGACCATAGAAATTGACATGGCCAGAGT
CATGTTCAGAGAGATCTATCTAGCATCAGCAGGGATGGTAACAATTTATAAGGCTGTTGAAGAAATATTAATAAGAGATGCCAAAAGCCTGGACCCAGTC
AATGAGCGTCAGTGAAGATATATAGGGCGCGAGTTACATTTTAGAACTCAGGCTGATACAGCCTGGTGAATTCATTGATTTGGGGAATAAGAAAGAGAAG
ACTTAGGATGACTCCTAGGTTTTGCTTTGCAATGGAGTAGATGATAATAAGTACCATGTGCAGCTATAGGAATTATAGGAGGAGGAGCAAGTTCAGGAAG
GAAAGATAATCACTTTGCATTTTTATCAGCTTTTTGTGAGGTATTAATAAAATAAAATTCACCCATTTATAGTAATGAATTTTAACCAATGATTACAGTG
GTGTAATCATCCCTTGTGCCCCATTGCAGTGAAGTCCCCATCACCCCCCATGTGCCTACTGTTTTGCCTTCTAGCATTATAATTTTCCAATTTCTACAAC
TTCTKAAAAATAGAATCGTAGTCTGTYTTTTTGAGGGGGGGTTTGTTTGTTTCTTTGTTTGGCTTCCTTCACTTGGTGTTACGTTTTTGTAATTCATCCA
TATTGTTGCATGTATCAGCAGTTTGTTCTAAAAATTGCTTAATAATATTCCATTTGTGTAATGTACAGTGACTTGCTTACCTGTTTACCATTTAATGGGT
GTTTGGGTMATTTCTAGTTTGGGGTTACAATTTTGCTGTGAACATTAGCATACAAGTCAAAAGCATATTTATGGACAAATGTTTTCTCTTTTTTTTCTTA
AGAACACTCCACATCTTTGCCAACTCTTGGACTTTTAACCCTTTTTTAATTTTAAGAATTCTGATGCATGTGTATTTCTCTTGTTTGCATTTATTTAATG
CCCAGTAATGTTGGGAATCCTTTCATTTATTTATTTGTCATTTATACATCTTTTTTGAAGTGTTTACAAAGCTTATGCCCATTTCTATTTTGAGTTGTTT
GTTTCCTTAGTAATGCATTGCAAGGATTATTTATATATTCTGGATACATGTTCTTTAACRTATGTTAAAGCTTGCTTTTCATATAGATTGCTTTTTACCT
AGTTTCATCATCTAATYTTTATAAACACTAGCTTATTATCTTTTTCTTCTATAGTCCATACTTTTTATGTTCTACCCAAGAAAGACAAGGTCCAAAGATT
TCTCTCCCATGTTTTCTTCAAGAAGTTTTAGAGTTTTAGCTCTTAAATGTAGGTTTGGATTCCATTTTGAATATTAATTTTTCTATATATCAGGTAATGG
TCAGAGCTCACTTTTTATGGATACCCAATTTTTCAAACATTATTTGTTGAAAAGACTATCCTTTTTCCCATTGAATTACTTTGACTCCTTTGTCAAAATC
TATCAACTATATATATGTTTATGCATTTCTGGACTCTTTTCTGCTTCACCGATCTATTCTTATGTTAATACTAGTTAATATGTTAATTATTGTAGCTTTC
CAGCAAGTCATAAAATCAGGTATTGTAAATTCCTCAACCTCATTCATCGTTTCCAATACCTTTTGAGTACTTTAGCTCCTTTACATTTCCACATAACTTT
TAAATTTAGCATGTCAATTCTTTACCAAAAAGCCTGCTAGGATTTGGCTGAAATTATATTGAATTGATAGATCAATTTGGGAAGAATTGACAKCTTAAAA
GTATTAGATATCCCAGTGTATGAACATGGCATAACTCTGCATTTTTTTAGGTTGTTATAATTTTTTCTCAGAAATGTTTGTAGTTTTTGATGTGCAAGCT
TTGCATATATATTGTTAAATGTATCCGTTTCATATTTTTTATCAAAAGCAAATGCTGTGTTCCATTTCAGTTTTAAATTGCTTGTTACTAGAATAGAAAA
ATACAATTATTTTTATACCTTATCCTTCTATACTGTAATCTTGCTAAACTTATTAGTTCTAGTTTCTTTTTGGTCCATTTAGTGAGATTTTCTTGTAGAT
AATCATGTCATCTGCAAAGAGAGATTTACTTCCTTTCTAATCTGTGTAACTTCTGTGGCATTTTCTTGTCCTATTGTAGTAAACTATTGACTAGAAGTGG
TGGAAGCAAATATCCTTGCCTTGTTCCTTAGTTTAAGTGGAAAGCATTGTCTTTTATAATTGAAAATGATGTTGGCTATATTTTACCTGTAGGTGCTTTT
TATTGTTTTGAGGATGCCCCCTCGTGTTTTTAGTTTGCTAAGAGCTTTTATCAAGAATATGTGTTCAATTTTGTTAAATGACTTTTCTGCATCTATTGAG
ATGACCATATGATATTTCTTTTTAAGCTGTTAATATGACAGATTATACTGATTGATTTTCAACATATCAATCCAGTCTTACAATCCTCAGATTAATCCTG
CTTGGCCATGGGGATTATCCTTTTAAAATTATGTTGAATCCTGTTTGCTAGCATTTTCTTAATGATTTTGGATCTACGTTTATAAGAAATATTGGTATGA
ACTTATTTTTCTTGTAGCGTTGTCGTCGGGATGAGGTACTGCAAGCTTCATGAAATGGATTCAGAAGTATTCCCTCCTCATAATTTATAAAAGCGTTTTC
ACAATCAATGAGGTAGAAAACAGAAATACTTTAGAGGAACCCAAAAGCTCACTATTTGAAAAGATCAGTAAAGTTGGTAATATTCTAGAAAGGTTAATCA
AGAAAAAAGAGAGAAGAAACAAGCAATCAAAATCACAAATAAAAGGGGGACATCACTATAGATCCTATAGACATTAAGATAATAATATGGTAGTAATAGG
AACAAGTTTTGCCTAATAAATGTGATAACTTGCATGAAAAGAACATTCCTTCTTTTGCTTACTTTGAGTTTAATTTTCTCTTGTGTTCCAAGTTTTTTTG
TTTTTTGTTTTTTGTTTTTGAGAYGGAGTCTTGCTCTGACCCCCAGGCTCGAGTGCAGTGGCAGATCTTGGCTCACTGCCAGCTCCGCCTCCCGGGTTCA
CGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCAC
CGCGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCAGCCTCAGCCTCCCAAAATGCTAGGATTACAGGCGTGAGCCACCGTGCCCGGCCA
ATTGTGTTCCAAGTTTCTTAAGGTGAAACCTTAGATCATTGATTTGTAATCCTTTTTCTCTAATATGGGCATTTGATACATTTTTTTCCAGAAACTACTT
TGTTTGCACTCCACATATTTTGATATGCTGTGTTTTAATTTTCACTTGGTTTAATATAATCTTTAATTTATTTTGGGGATAATGTTTAGTTTCTAAATAT
TTGGGGAATTTTCAAGGTATCGTTACTGTTACTAGTATCTAGTTTAATTCTAAATTGTTCTGAGAACATAATCTGCATTATTTCAGACCTTTTGAAAATT
ATTGAGATTTGTTTTATGGCCCGGAATAGTGTTCAGTTTGTTTATTATAACATGTGCACTTGAAAATAATGTGTATTCTGGAGTTGTTGGATGAAAACTT
CTATATAGGTCAATTATCCTTAACGGTTTTTAGATCTACATGTTCTCTCAGTTACTGAGAGTGTTGGACTATAACTTTGTCCGTTTCTTCTTTCACTTCT
CTCAGGTTTTATTCACATGTATTTTTGAGCAGTGATACTAGGTGCATGAACATTTAGGATTGCTATGTCTTTTTGAAAAGTTGGTGCCTTTTGACATTGT
GAAATGTCTCTCTTTATTCCTAGTAACATTCCTTGTTCAGAAGTGTACTTTTTCTGATATTTATATAGCTATTGCAACTTTCTTTTTAATGGTGTTTGTG
TGGTATATATTTTTCACACCATCATCTATTTCATCTCCCTTTTTAGTATTTTAATGTGTGCCTTTTTTTTTTTTATTCTGAGACAGGGTCTTACTCCATT
GCCCAGGCTAGAGTGCAGTGGTGTGATCTCAGCTCACTGCACCCTCCACCTTCTGGGCTCAAGAAATCCTCTCACCTCAGCCTCCAGAGTAGCTGGGACT
ACAGGCGCATGCCACCATGCTTGGCTAATTTTTAAGTTTTTTGTAGAAATGAGATCTCACTATATTGCCCATGCTTGTCTCAAAGTCCTGTGCTCAAGTG
ATCCTGCAAAATTCTGGGATTACAGGTGTATACCACCATGCCTAGCTTAATGTGTGTGTGTGTGAGAGAGAGACAGAGAGAGAGAGTGTGTGTGTGTGTA
AATAACATATATTCAGATCTTTATTTTTCAACGAATCTTAATAATTTGGCCTTTTAATTTGAGGAGTTAAATCATTTCCACTTAATGTAAATATTGGTAT
GATTGGATTAAGCCTGCACTTTGCTATTTGCTTTTGCTTGCCTTATCTGCTCTTGCCTTTTTTTTTTCCTTATTGTCCTGCCTTCTTTTGCATTAATTTG
TATAACATCTTCTCTTGACTTTTGGATTATTAAATATACCTATTCATTTTATTTCTTTGGTTTTGTCTAGGAATATACATCTTTAACTTTCCAGAATGTA
CATTAAAATAATATTATACCACTTTACATTTAGCGTAAGAACCTTACAACAGGAAACCTCCAGTCCCCTTTCCTATCCTTTGTACTATATTGTCATATAT
TTTTACTTCTATATATTATACATCTGACAATATAAGCTTAYGATTTTGATTTCAATAGTCAATTATCTTTTTAAACAAGAAAATTTCTCCTATAACTCTT
TTTCCTTGTGTATATCAATTTTAATGCTTTAAATTCCTTTGTGTACATTAAAATTTTCATTTCATATCATTTTTCTTCTTCCATTAACTACTTCCTAATC
TTTATCATTTTATTCCTGTTGTTTCAGGTCTGCTGACAATAATTTTTTCCTTTTTTTTTTTTTTTTTTTTGTTCCAGAAAGGTTTTTTTTTTTTTTCCGA
ARATGTTTTTGCAGAGTATGTAATCCTAAATACTGGTTTGCAGCAATTTAATTATGCTTTTTGTTTTCTTTTTGTGTGTTTAATAATTATTTTTTCATGG
GATTAGTTARATCTGTTGGCCCTGTAGGATTATAGTTTTCATCAAATTTGGAAATGAAAGTTGTCAGCCATTATATCTTTAAATATTTTTTTGTTCTTCA
TTCTTATTGTCTCTTTCTGGAAATCATTTTTTGTATGTTGGGCCAATTGATATTTTCCCCCATCTCACTGAGGTTCTTATTTTTTTAATTATTTTTGTAT
CTGTATTTTTTATTTCTGATAGTTTCTATTGTTAAGTGTCCAAAGTCACTGATTTTTTAATGCAGCCTAACCTGTTTTTAATCCAATTGAGTCTATTTTT
TATTTTAAACATTGTATTTTTTTATCTTTTAAATTTCCTTTTGGACATTGTATATCTTTTATTTCTCTACTATACTCACATTTTTTCATTTATTCTTGAA
AATATAATGTTTATAAACATTAGCATTTTTAAAATGGTCATCTGCAAATTCCATCTTTTTTATTGCAGGACTATTCCTACTGACTGACTTTTCTCCTGTT
TCTGAGTCATATTTTCTTGATTCTTTACATGCCTGATAATTTTTATTTGGATGCCAGACATTATATACTTTTCATTGTTGTGTATTGGATTTTATTGTAT
TTCTTTAAAGAATGTTGAACTTTATGCTGGCAAACAGTTTAGGTAGTCACGGGTCACTTGGATTCTTTTGAAGCTTGCTTTTGAGTTTTGTTAGGGAAGG
TGCAGCAGAACAGTCTGAAAGCCCTTCTACTAAGCTGTGAAACTTCTGAGAATACTACCTAGTTGGTTACTATGTCTCTTTACTCTGGCTGTTGAAAATA
TGGCTTATTCCAAGCTTTCTCTGGGCTGTAAGAATTTTTGCAGCCTAGGGTTTTCCAATGCCATTTTCCTTCATCCCATGCATGCACCTATCAGCATTCA
GTCAATGACTCAAGAGAACGCTTCTGCACATCTCTGGAATTACCTTTCTATCTAACTTCTTTCTTTTTGAACACGTATTCTATTTGCCATCATAAGTTTC
AGCAGCCTCGGCTTCCTCAAACTCCACTCTTTGTCTCTCAACTCAGCTATAATGCRGGCTTTGGGTTTACCCTCTCTGTGTTGCAGCCTAGAAATTGCCT
CTGTACACTGCTTCATGTTTTTTTCCTTCTCTCAGAAATCACAGTCCTGTGCTTCCTATAATTCAATATCTAAAAACARTTGTTTCTTGGTTTGTATTTT
TATTTTAGTTGGTTGTGTACTTTAACAGCTTAACAAAGAAGAATAAATACTGTAAAAACTAAGAAGAGGCTGTTCAAAAGAAGAATATTCTTCAGTGCCT
AATGCAACACAAAGGTCAAGTAGGATTAGTGCTGAAGTTGTTCATTAAATTGAAGAGCAATAATAAGGGCATTTTTTTATGTTAGTGGGAGTCGTTCCAA
TTGATTCCACTGGGTTGTGAAATATTGGAACGTGATGACCAAGTGTGGTCCTGTTTGACCCTATAGCAGTACCCTATAGAGATGTAAACTTTTTTTCCTG
CTGAGTTAGCACAGATGAAATAATAGACTCTAACCACCTTCACATGTATGATAAAACATTTGAACCTGGTCTAGAATATGCTGACCTAGAGGAAAACAAG
CATATTGATGATTCTTCAAGGAAGTTCAGATGTCTGACTTCAATTAGACATGTGATTAGAAAAAATAAAAACTGGACAGGACATTCATTTTTCTATTGTC
AATAGCATTATTAAGTTTAAAATGCAAGAGAGCTACATTTTTAGAAAGAAATCAAAAACTCCTCAGAATTTCAAAGTGTTCTTATGAATATGAACAATGC
TATAAGTGTCTATGACTGACTTTTGCATTTTCAGCTTCAAATCCAAGCATCCACCATATCACTTGGACTCAGGAGTAAGCCCTAGGGAAACTTACAAGAG
TTCCGTTTTATCCACAGAATGCTATGATATAGCCAAACTCTAATTAAACTCTTGAAATTGAAGTTGATACCTCATGTTCAAGATATAAATCAGGATAAAA
TACATTCCAAGTTTCTATGAAAACGTAGTTATATGTTTAGTACTATCATTTTTACTGATCATTAGATAATTACTCTGTTGACTAAAGTTGACTGAATTTT
TTGATTACTTTAAAATCACCATCAAAAGTCTAGACTTCTGAATCGAGAAATACTTCACCATTATGAAGAATTACAAAAAAAAACAAAACTCATAGAGCCT
GTATCAGACAATTCTTGCATTGCTATAAAGAAATACCTGAGACTGATTATAAGAAAACTGGTTTAATGGGCTCACAGTTCTGGAGGGTGTACAGGAAGCA
TAGCGGCATCTGTTTCTGGTGAAGGCCTCAGGAAGCTTCCAGTCATGATGGAAGGCCAAGCAAGGACAGACTTCCACATGGCAGGATCAGGAGAAAAGCA
GGGATGCCATGCATTTAAACAACCAGATCTTGCCGGTAGGAACTCATGGTCACAAGGACAGCACCAAGCCCTGAGGGATCAGCCCCCATGATCCAAACAC
CTCCCACCAGGCTCCACCTCCAACACTGGGGATTATATTTTAACACGAGAATTAGTGGGGACATATCCAACTGTATCAGAGACCTCTCAAGTAATTTATT
TATGAGCATGTGTTTTACTGTTTTTAAAACTGGGATGACTTTAATTTAAATGAACAGTGATTTGAGATTTATAGCTTCCCTTTCTTTRTGTCATGGATAA
TTTCTCTGTGCTAAGGTGTGAGCATACACATCATTTGGGCTGTTAYTGAAGTAGAATACGAAGCCTGCCTTCTTTCACTAGCAGGGGAATAGTGAGTAAA
TTCTCTATTGCTAAACAAATATTACCTCTATTTATGATTTAAATTTGATGATGGCCATAGTGCTATCTAAACACATGGTTAATGGTCTGGTTTATTCTCC
ACTATAACTTCCTGAATAAACTTCCTGATTTGGAAAGGTCCCAATGTCTATTTGTACTGTCAACAATTTTGTAAAAATTCATGCTTTGGTTTTATACAAT
TATTTGGATAACTTCATATTTTAGTTAAAGATAAAGATGCCTCACAGGATAATTTAAATTTATTATTTGATTATAGTTTTGATAACATGATTTTCTATTA
ATACCCGATTATGGCCTATTTTGTTTAAGTGAGTTAATACATACTCAAAGCAGTTGGCAAAGAAAAACTATGTAAGTGAATATGTAAGACATCCTAATTT
TGAAATTTGATTCTACATCTGATGTTCTTTAAGTTACTTGGCGGTGAGGTTAGTGGGTTATTCTATGCCTTGGAAGCTTTGTCCATATTTATAATATACA
AATAATCACATTTTAGATCTTTGGGTTTAAAATATCTTCTAGAAGCCGCCCTTATTGCAGCCTTTCTACTGATTAGCAATAATTAGATAGAAAAATACTT
ACCTATAAAGACAAGAAATAAAGCTAATCCTGATAATCATTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCG
ATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCTACCACGCCCGGC
TAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGT
GCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCGATAATCATTTTAATAACAGAATCTGGGAAGATTTTTAACCAAATATTTGGGCATGAAAGACAAT
AGAGGAGGAACTGGTGATCTTGGAAATGATAATCTCATAAGCAAACTACTGTTAGCAGGAACAGAAACATAATACTCCTGGTAATGGTGGATATAAGAAT
TAAGCTGAGGAGGGAAAGTGTGAGATACACAGTGAGATGCAGCCAGACTTGGATCTAGGAGTTTGGCCAGGTGCTATGCATATGACTTTACCACTGGGCT
GTAGATCTGAGAAGGATAATAGAACAGCACCAAAAAGAGTTAAGTCACAAAGTGCATACACCATATGGTGGCAAACTCAGACAGAGAGAGGTGATACCCT
TTGTAATGCCAAGTCATGCTCTGCTTGGGAGACAGAAACTACACTGGTTTTTTAAACAGTGAAATGGAATTGTTAACTGGTAAAAGGTGGTTGGTTACTA
AAAAAGGATAAAAGAAAGCTATAAGGTGTCCCGAGTACAGGTACAGAAGAGCAGCTACTCCCTCTAGGCTGAGGGAGGAAAGACAGTGAAGGAGTTAAGG
GCTAAGAGAGGGCATGCTCCTTCTCCCCACTTGCAGCAAAGCTGAGGTTCAGAAATCTTTCAAGAGGGCGTTGCTGTCATAGGAATGTACAGCCTATGGA
TGGTCAAACAAAACCAAAAACAAACACGTCGGAGTTTGTAGGCAAATGCATGTCTGTAGAAGCTGCCCACCGTTCTTGGAGGATAGGAGCACGCTGGGCT
ACTGAGAAGCCGACTTCAAGGTCAGAGCGTGTGTGCAGACCAAAGCAAGTCAGAAGGGTGCCTATGGAGAGACAATGTGCCCTCCCAACTAAAGGCACAC
CTGGGATTCTTTCTGGGCCACTGGGCTCCCGTGCTAAATAATACAAAAATAATGATGAAGATTCTTTTTTTTTTTTTAGACRGAGCCTTGCTCTGTCGCC
TAGGCTGGAGTGCAGTGGCGCRATCTCGGCTCACTGCAAGCTGCACCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCAGGAGTAGCTGGGACTACA
GGCGTCCGCCACCACGCCCGGCTAATTTTTTGTGTTTTTAATAGAGACAGGGTTTCACCATGTTAGCCAGGACGGTCTCAATCTCCTGACCTYGTGATCC
GCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCTAATGAAGAACCAGAACTCAGCTTGGAAGTGTGGTGGGCCGCC
ATTATGGACTTATTGGGTCCTTCCAAGGCCTCTATTGACTAAGCCTATCATTCTGCCACCGGATACGGAGAAATGTCTACGGGGTCTACCTACTGTATCA
CAAAGCAGGGTGAATTTGGAGCTCAGAAACAGTAGATGTATAATTGGCACAGCTGGTCCCTGAAATGACTTATTCCAAGATCCTAAATGACATTTTAGAA
ATTCACTTGGCATTTTTATTAAATTGCAAGAAGATATGAGCTCTGTAAATCAAGAGCAGAAACCTTTAAAAGGATAATGTAAGACAAAAAGACAAATGGA
TAAGCAGAAATTAAAGATGAGAGAAATAAAATTATTCAAAAGAAGTTAAGATTGCAATAGGGTAATGAAAATAAGCATTGGTGGTATGTGTATACAATAA
AACTTTTCCTGTAAAACAGGAGCTGTGAAAGTAGGATACCAATTTGAGAGGTAAATACAGCAAGAAATGTAAAACAAAGGAAAATGATTGCAGAAGACAT
TAGGATATTATAGATTTGGCAGAGAGAACAGAGTGATGTACTTTAAGAATTATAGATGATCCTGAAAAAGAAAATTGATTAATTAGAACAGATGTAAAAA
TCAAAAACAAATCTGAAGAAGAAACAGTACTGAATCAAAACACAATTATGTTCCCAAACTGAAAGAACTATGTTCCAGTAAGTTGATGGAAAAAAAAAAA
CAAACCCAAGCTTCAGAAAATTCTAGCAAAAATATGAATTATGTAAATAAAGAGAAAATCGTGTATACATCTTGGGCGAAGAAAAACGTTACTAACAGAG
ACCTCAAATCAGAATTGTATGCAAGAATAAATGCCAAAAAACAATATACTAGATGTTACTTCTCTTCAAGCTCTCCTTGGATTCCCCAAGTCTAGTCTGA
TGCCCTTTGTATGTTCACATAGCATTTTGGACTTCTCCTATTATATAATGCTTATTCTATCATGTTATGCTAACATATTTACTTGTCTCCCTCTACTAGA
CCGTAAGGTATGTCTCCAAATAAATGTTTAAATGCTACAATTATGAGATAATAAGGTAAAATAACTTTGTCTAAAATTTAATCTTTGAGACAAAGCAGTT
GGAAAAAACCCATACCCAGCCCCTCTCTACCTCAGAAAGAGAGAAGACACATTTTCTTTCTAATTCACATAGCATTATGGTTTCTGGACGATCATATATT
TCCATAAATGCAGGAAGCAATTTTAATGTTTATGTTCACTGATGTTTCCCAAGTGACTAAACTAGAATAGTACAAAGCCTATAACAGATACATGATTAAT
ATGTGTTTAATGGAAGCATAGAAACATTAGAATTAAAATTTTAAGATATTTCCCATAAAGTTGTGTTAATGRTTGCTGTTTTTATCTCCTCTATAGGCTT
GTAACTGCAGCACAGTGGGATCCTTGGATTTCCAATGCAATGTAAATACAGGCCAATGCAACTGTCATCCAAAATTCTCTGGTGCAAAATGTACAGAGTG
CAGTCGAGGTCACTGGARCTACCCTCGCTGCAATCTCTGTGACTGCTTCCTCCCTGGGACAGATGCCACAACCTGTGATTCAGAGACTAAAAAATGCTCC
TGTAGTGATCAAACTGGGCAGTGCACTTGTAAGGTATGTGCTGCTRACATGCAGCTAGGGAAAACCTCCCTCAATTCTGTTTCCATTGCTCAGTTTTAAC
TTCATTCAGTGTTTGTTATACCTGCTTCATTAAGCTAAACAAACAGATGGACAAAATCTCATTGCCAGACATGGAGTTTTCATTGRTATGCATTTGTTGG
CATACCGATAAACACTGCTTTTCTAGAGCTTATTTTCAACCCAAACCCACCTTTTTTTCTAGTTGGTGGAGATGATCTATTTTCAATGGTATAGTGATTT
TTTAAAAAATATATTAGATTTGCTTCGATAAGGACAATCTGGGAGGGGTGGCAGGGAAGACAGTTCTTTTAAGCATCATCAGAGAAAATCACAGCTAAAT
AATAAGGCTTATAAAAACCATTTCTCCAAAAATTAATCTGCAATCGCTGTATACTAGAAAATATATTTACTGCTGTGGAAGTTTAGTAAAATTTCAACAC
ATATAAACGCTGTCATTACAAACAGTGACTATGTGCAAATTTCAGCCCTCATTAATATGGTTAAATGATGTAGAAAAAGAGCCAATTAAAAAGGTAAAAA
GGATTTTTCCCCTCAGATAGTTCTGAAAAATCAATTCCAGGATAAATGCAGTTTAAACTGTGTCAGAGGTATCTTTTCAAGATAAAATCTRTGCAAAAAG
GGACAGAGGAAACAGGAAGATAAAATCTGGGTAGTGGTTGTTAAAATGGCCTTGAGAATTGAGGAAAATGGCAGTTTCTACCATCAAGGGCTTCGGCCAA
TACCGAGTACAATGCTGCATTCTTATATCTCGCAATTATGATCATATATTTAATACATGTTATGTGTGTATATATATTACAATAATTATATAAATTGATA
TTTTAACCTGCTGCCTATTTCTTACAGCTTACAATAGCACCACTGTTTAAGACTCAATGTTTTTATGTTGCTTTTGAAATTTTCATGAGTCTTTCATATT
GCTCAGAGCAGAACTGTAGAAAATGTACCACTTACATTTAAGAAACAATGTACAGGCCGGGCGTGGTGGCTCACGCCTGTAATCCCACCACTTTGGGAGG
CCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACAATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGCGGT
GGCGGGCGCCTGTAGTCCCATCTACTCGGAAGGCTGAGGCCGGAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCMGAGATAGCGCCACTGCA
CTCTGGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGTACAATACCTTTAGTCTTATATCTATTTAAAAAKAARGCA
TTTTTAAAAGATCCATGAACTCCTAACAATGAGGTTAACTACATGTGCCATTTGAGATGTGAGTCTAATACTCAGTGTTCTTCTGTTTTGTTTTAAATTT
TTTAAAAAGAGTATGCTCCCGTTATGCATTCTCAGGGTGATTTCTCCCCTAACTTTGCCGTTATAAACTCTGAGGGTCTCTTGTCTTTCCTCAGRTGAAT
GTGGAAGGCATCCACTGTGACAGATGCCGGCCTGGCAAATTCGGACTCGATGCCAAGAATCCACTTGGCTGCAGCAGCTGCTATTGCTTCGGCACTACTA
CCCAGTGCTCTGAARCAAAAGGACTGATCCGGACGTGGGTGAGTAGGGAACTGCTGAGCCATGTAATGGTATAATGTTAGTTCCTGCTGGTGTCTTTTAG
TCAGGCACTGAGGGGTAGTAGAAAATGGCAAAACATTTAAGTAACCTTTTCCTCTGTGAACATTTAGGAACAGCAAAGGGGTCACGTGCCATTAGAGAGT
TGGAGTAAATGCCTTTCTTATTTGTTCTTAAAAGTAGTTCACTTATTGATAAGGAAATAGATGCCAAGTGAAAAAGAGGAACCTTGTCCGGGAAGCATTA
YGTTTTGAGATGGGAAGAGTGAGGGCACCAGAGCATGAATGTTGATATGAGCTAACACACCAATGAGAACCAGGACTTGTCACACATTCATTCCAACCAA
CCTTAGGCAATCATGATTTTTGGAGTGAAAACATGTTCATTTTTCATTTTCCTTTAACTCTTTCTACATTTAGATTCAATTTGTGTTAGTGTGAAAGGCT
CCAGTGTCCACAGATATTGTGGCTTTCACTATGTGAATTAGTCAAAAAGATTTACGTCCTGCCATGCTTGCCCACTGCGTGTGAGTTCTGTTGCTTGTGA
GAACATCATCAGAATGGGTATAGGAACTGCAGATAGACATGCAGTTCGTAACTTAGTTTTAAAGAAATGTCCAAAGCGTAAATTCAGCCTTCTGCTGTAT
TTTGACCCCTTGCAGGTGACTCTGAAGGCTGAGCAGACCATTCTACCCCTGGTAGATGAGGCTCTGCAGCACRCGACCACCAAGGGCATTGTTTTTCAAC
ATCCAGAGATTGTTGCCCACATGGACCTGATGAGAGAAGATCTCCATTTGGAACCTTTTTATTGGAAACTTCCAGAAYAATTTGAAGGAAAGAAGGTAAG
CACAAGAACTTTAATGTCAAGTGAGAACAAGATAAAATCTTTTTAGAATCACACCATTTGGAGATTTATCCAATTCCTCATTCTTCTTTTTATTTTGTCA
GTTGATGGCCTATGGGGGCAAACTCAAGTATGCAATCTATTTCGAGGCTCGGGAAGAAACAGGTTTCTCTACATATAATCCTCAAGTGATCATTCGAGGT
GGGACACCTACTCATGCTAGAATTATCGTCAGGCATATGGCTGCTCCTCTGATTGGCCAATTGACAAGGCATGAAATTGAAATGACAGAGGTAAAGTTAG
TCATTGTTTGGTGCAAAGATACYAATCAATGGTTTTGCATTCAGTTTTGTCATAGTGATTTCTCTTCTTGTTAACAGAAAGAATGGAAATATTATGGGGA
TGATCCTCGAGTCCATAGAACTGTGACCYGAGAAGACTTCTTGGATATACTATATGATATTCATTRCATTCTTATCAAAGCTACTTATGGAAATTTCATG
CGACAAAGCAGGTAAACTCTAATAGAAAATATTCAAGCTCTTATTTTAGAGTCTGTAAGGAAGGTTATTGACCTACAGATATCAGRTAAGAAAGATTGGA
AAGTGATTGGTTTTGCAGTATAATGATAGAAGATAAACCATGGAGGCTTCCCTGTGACCTGGAAGAAGCTACTACCATTCATCAGAAAAGAAAAATAGCA
TGAGAAACACGTTAAAGGGAAAAAAAAATATGGAATTCACTGCAGACATAGTGAGTTTAAGATGCCAGTCATAAATTCAAGAGATCATATACTGTAGATC
AGGTAAAATTAACTGTTGTGGTATAAATGGATTATAAAAGTGCTGAGAAAGTGACCTCTTCACCCATCAGGGGAACCAGGCAGGGCCAAGTTGGTCCAGT
CTCCTCCAACTGTGAGCATTCTAATCTGTTCACCCCAGTGTGCCATACAATGTTGTCATTTTCCCTRTGCATCATGTTGAGAAATGATTCTGAATCACTT
TGAAAAAAATCACACAGAACAGCAAGAATGAATGCAATGTTGTCGAACCTACATGATGGGAATACTTCAAGGGAGTATTCCGTGTTTTCTTATGACCAAA
ATTGGCCAAYTGAAATGAGGCTTGTTGGGTCTGACACTTAGGACCACACTGGTAACATTCATGATACCGGTCTCAGTGTCCTGGGGCAGAATTAATCTCA
AGCTTTTAAAGAAAGAATGTGACACATGAGCCCAATATTATGAGTGTAAACTATTATTTTCCATGAATATAATTGTAAAAAGAAGGAATAACATATTGTC
AAAAGTAAAAAGATGATTGTTTAATTTGAAAGAGTATGTTTACAGAACATGGGAATGGATTAGTAATGAGGAAAATATTGAAATATAAAATAAAGAGAGA
ATAACTAATAGAGGAACCAGGAGACTTCCACATCATGGACCCTCATGGTCATATTCTTTGAGTAGACGGTTCACCTTATCCAATGGGATAAAATGAGAAA
TCATACAGATTTAGGTAAGTTTCATACCATGGAGGCAGAAAGTTGAACTGAGTTCATATAGGAGACCTCAATTTCTCTTTCATGTCAGTCTCTGTTACAT
TCTATGAGAATATAGAATCGATATATGTTTGTAAATAGTCTTATATAATAAATTATTAGACCTGCCTAGGAAAGCAAAACAGAAAAATTATGAAGTCTCT
CAATGGCCAACTAATGAATATAAAAATACTATTTTTCAAATGTTTATACTGGAATAAGCACACAAGACAGCAGAAAAYCTTTTATTTCATGCAGAAGATC
CATAATGCTTTTCTGATTGATGTAGAGACTTTTAGTAAAAGAGTAAATTAAGGACCAAAATTCACTTTTATATATGTATTCCTTGGGTTTCCTTTTGATA
TTTCTCACTATAACAGGAGATTATTTTTATATGAAATAATAAAAAAAAWATACTTAAAAAACRCTGTTATCTATACTGTTAATTATTTTAGAATATCACA
TGTAAATTAGGTGGCAGAAGCCATAGCAGATTTGCATGTCTTAGAAAATAGCAGGTAATTTCGTGAGTTTGCAAATAGATTATTTTGCAAATGGTTCTGT
ACTGCAGTAAAAGAGTTTGGTAGTAAACAGAACATCTTGTTAGTGGAACTGATAGAAACAATATTGTCATTCATCTTTAATTATACTTTCTTTGCTTCTC
TCACACCAATTTCACCTTCCTACACTGTGACACTTTGTCTTTTTTTTTTTTCCCGCCCTATGTCTTTTTCTTTTGTCACACTGTTTTACATACCTCACCA
AATGAGATCTTTTGGTTTAAGTGACCGTTTTTTTGAAACTTTAGAATACATTTTTCCTAATCTCAGTAAAAACTGGGGTCATAGTCTCACAATGCTAAGA
ACAAATAAAGCTGTCATCAGCATTTGATTTTGTAAGGCAGTGGAATTGTGGCAAAGGTTTTTAAAAGGTTTGAATAGTCCCCCTAAAGTAATTAAAATAA
CCTTGTATCTTTATTTATTCAATTATAAATTTAAATCTCAAAAGCAGAGAGTTTAAGAGTTTATATTCTGTTTGAGGTATGAACTTTGTACATTGTATCA
GTGCTGGCATTATCTTTTTTCTTTGCTTTTGTTTCCTTTTATAAAGTTTAATTTAAGGAAATAGCAACTTTTGCATTTCAGTAGTTATTTAAATGGAAGC
TGGAGTTTGGCCAAATCCCTGATGCAATCAAAGCCATTGCTCTCTAATCCCCTGAAAAAAAAAATGGTGTATTGCAGAAATATTTGTTGTTGCTGCCATT
CAAGCTTCACTTGATTTGTAAACACTTGCGGGTCTGTTATGTGCATTCATGTGCAAGAGAAAGGAGAATGAAGCCAGTAGCTCCTCGGGCTATAAAATTC
CATGGAGATGCCAATGCAAAGTTACCTTCTTACTCCCACAGAGAGCCCAGAGAACATAAGGGAGAAGTTTTTCTTGCAGAAGGGGAGTGGTTTGCTTACA
GCTCACCACCACTGTGTGTACTTACAGGGAGCAGAGAGTGAAACCTGAATTTTAATTGAATGTGTGTTTCATCAAGACCAATCTTCAGAGTGCAGATTAC
AATGCTAGCAAAGAACATGCATTCATAATTCAGTTTCAATAAAACCTACCTATGCTTGTTATAAAGTTTATGACTCAAACTCCTTAAACTCCTGGAGGTA
ACTTTTATTTGAAGCAAAACTATTCATTGTCACATTTTAAAGTTTATTTCCCAAACATGTTTGTGTTACCAGTTAGTCCATCATAAAATAGTCCCAGTTT
ATGGACTACATTTATTTTTTAATGAAAAGGGTATTAATATGTTATTTTCAATTATGATTTTCTTTTCAATTATAATGACTATTTCACCATCAGAAAAGGT
GAGTTAAGTTACTTGAAGGAATTATTTAATAAAGTTAAGAAAATATTATTTTGAAACATTATCCTCAGAAAGAAATCAATATTATTAGATTATGCGTGAT
CATTATTTTCTAGGTGGTTTTCTAAAGTTCCTGAAAGGTCATTCAGAGCATTGGGAAGAAGAAATTTGSGATAGTAGTAAATTMAAAGCAATTTCACCAG
TGCCTGTACGAAATAATTGAATGGGGAATGACCTTGGGTTGTCTGTTTGCAAGAATATAAATGTCTAATTAATTGGCCGTGTCTACCTGAAGCCACTCAC
ATTTTAAAAAGTGGGGGGAATATCTTTATAATAACTTTTCAACAGGATATCAGACATCCAATATACTAAACTTCTTATGATTTATGTGAATATTTTGCTA
ATATGTACTCTTAACATTTGAGGAAGCAAAAATGCAATATTAGGATTTGGTACATGAGCCCCAGAAATTTAAACAGCTTCAAAACAATGTTAATTATCTT
GATTTAATCATCCCACAACTTATCTATGTATCAAAATATCACATTGTTTAAATAAATATAGTTGACCCTTGAACAACATGGTGGTTAGGAGCATCAACCC
CACCTCATGCAGTCAGAAATCCACATATAACTTTTGATACCTTCAAAACTTAACTACTAATAGCCTCCTGTTGAACAGAAGCCATACTGATAACATAGTA
GATTAACATATATTTGTGTGGGTATTATATATTGTATTCTTATAATAAAGTGAGCTAGAGAAAAGAAAATGTTATTAAGAAARTAATAAGGGCTGGGCTC
AGTGGCTCATGCCTGTAATCCCAGCACTTCGGGAGGCCAAAGCAGGCAGATCACTTGAGGTCAACAGTTCAAGACCAGCCTGGCCAACATGATGAAACCC
AGTTTCTACTAAAAATACAATAATTAGCTGGGCGTGGTGTTGCACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGT
AGGCGGAGGTTGTAGTGAGCCAAGATTATGCCACTACACTCCAGCCTGGGTGACAGAGTGAGACWCTGTCTCAAATAAATAAATAAATAAATAAATAAAT
AAAAAGAAAAAARAAAAGAAAAGAATAGGAAGAGCAAATATATTAAGTGGAAGTGGATCATTGTAAAGGTCTTCATCCTCGTTGTCTTCATTTTGAGCAG
ACTAAAGAGGAGGAGGAAGAAGAGGAGGGATTGGTCCTGCTATCTCTGGGTAGCAGACGTGGAAGAAAATCCCCGTACAAGTGAACCCATGCAGTTCAAG
CCCATATTGTTCAAGGGTCAACTTATGTACAATTATTATTTGTCAATTAAAAACAAAAAGACAATAGAACATACTTGAGGTTGACAAAAACGTGAGAAGG
ATATTGCTGTAGGATTGATTGTTTACTAGGTGATCTTAACTGACTGTCATAGTAATCTAAGTACATTCTCGCTGTTTCTAGGATTTCTGAAATCTCAATG
GAGGTAGCTGAACAAGGACGTGGAACAACAATGACTCCTCCAGCTGACTTGATTGAAAAATGTGATTGTCCCCTGGGCTATTCTGGCCTGTCCTGTGAGG
TAAGCTACCTCCTACTAACCTGCTTAATCTCAAGTCACTTCAGGAGCTAAATGGAAATACTCCCAGAAGTACCTTTACTGCATACATATTCTTAATCTAT
TTTATTTAATCTTCCACTCACAGTGTGAGACACAGTGGCAAGAGGATAATGTTATTGATATTTAGTACAAATCATACCTGAAGGGAAATAGTTGATCAAA
AATTTAAAGATTTGTGAAAATATTTAACAATCAGGAATTAAGAATGTTTTAATAAGCCTATTTATTATAGCTGATCTATTTTCTTGGACCACTTCTGAAG
AGTTAGAGACATTTAAACTGCAATGATTAGGAGATAGGATTATACTGGGTTTTGAAAATATTTTTATATAGAACACGACAAAACTTGTACACTAAATAGC
AGGCTGTTCCCTTTAACATAAGCTTCTCAGGGAAACATATCTTTGTTCCAACAGTGCTGCTATGAGTCATTACAGTTATAAAACTATCTTTTTTTTTTAC
ATTTTAAAAGTAATTTTAAAACTGCTTTTCAATAAACTTGCTGAGATATTCTCTTGTCTGCCTTCAAGATTGTCAAATTTCTTAGGATCTAATTTCTATA
ATTGTGAAATATTAATAGGAACAGTACGACTTAAGGGAGGTGGAATGAATAGATGAGAAACTGGCCTGRGTTTGAATCTCGACTTCACCATACAGTAAGC
CTGAGACCCTGCACTGGGTGCTACACCTCTTTAGGCTTTAGCAGGTAAACACCAAGTCCCTGAGTAACTACCACTACACTTTCACCTCTCCCGCAGACCC
CACAGTCTGAAGCCTGGCATGCATGGGGCCTCCAGGACTGCTCCAGCCCTACAGCTGGGATTCTTTCTCATTAGTCAGGCTGGCTGGTGCTCACAGCATA
CCAGTTAGATATTATTAAATCTCCCTCACCTACAGCCTGAGTCTTATGAAGACTAAATGAGCTGTTAATGTTAAGGATTCATCACAGCACCTGGTGTGTA
GATGATGTAAGTTTTGATGGTTAATATTATTATTAATGTAATCACTAGTTATATACCCATGTATTGATTCAGTTATAAATAATTTTATACATCTTATTTT
GTAAATAGGATTTGAGAAGTTGTATTAAGTATGGTACATGAGACAGATGATTCCACTAGGTCAAAACTGAAGTGCAACTTAAAAATAATGAGTATACATT
TCTTGAGAGGGACATGGCATCATGAAAAGAAAAAGGAATTTGGTTTCAGTGAATCCTACCTAGCTGCACTACTTGGACAGGTTACTTGCTCTGTTTTTGC
TAAATCTTGGGTTTTTACCTATACATCCTAAGGATTGATTTAAATGGAAACGTATGTGTGAAAATCCCTTTACAAACTGACATGCCATTCAGCTTAGTTA
CCATCACATGGATTCCATATAGTTCAAGGAAAAAGTTTATAAAATAACTGCAACTGTTTTGTGACACATGCTTAAAATGATTTTCTACTCTTTCCTGTGA
CTTCTCTGAAGGGCAATATTTATTTACATGTGTCCATTTTGAGCTAATAAATAATCAAGTAATCCATCTCCTTATTAAATTGTATTTCCTACATCTATTT
ATACACACACTAGTAAACTTATACTGGTAAGCACTGCTTATACAGTAAGCACTGCTCTTTCCAATATACATATGTACACATAGTGTATGGGTGAAAACTG
AGACTGTGTGGCACATATGAAATGARTGACCTTTCCAGTGAGCATTGAAGATTTTAAAATGGAGGACAGAAAGAATGTGAGATTTTTCTAGACAAGAGAT
GGAATTTCCTTTATCCCAGGTAGCGTTTGGTTTTACTTTTAACTGTGTGCACTTGATCAATGCTCTTAATTGCTGTAGACCTTCGTTATTATATAGCTAT
CCAATCTATAAAATGACAGATTGAGTTGAAGTTCTAAAATTCTCTGATTCTGCAATATTATTTTGCTATAGAAAATATTCTGTAAGTAGTCAAGGTTGAC
CTTTAGATATCTTGAAGAGAAGGTTATTACAGCTATATTTTTCTGCATTTATTTGAAATAATACTGTTCACTTGTGAACAAAAATGTTAGTAGAATAGCA
AATTATTTTCATGCAACCAACCTTCCATTCTGGATTTAAAATGTTAAAAACCTTTCTTCATATGATTGATAGACTTTTTGAATAGTACATTCAAATACAT
GCTTTCCCATTAATTTGAGTCATTTTCCATCATTATATGAAAATGTAAATGAGCACAAATAAAACAAATGATAAATGAAAATCAAGAAAAACTAAGAATA
TGTACAAATTGTCATCTGCATTAGTGGCTTCACCGTCCCATGACTTTCACTTAAGCATCTATTTACAGACAGTAATTGCAGTAATATCTTAGTAGAGAGA
TTACAGAGATAAAGACCTATCTCTCATAATAATGTACCTGAAGTGTTTTCCACAACCCATGGCCTCTAATCCATTATACCTCTTATTTATAATTCATCTT
GATTCCTAAGTGTAATTACCCAGGCATAAAATCTTATCATCAAAGCAAGAGCTAAGGGCAGTTTTGAAATAATACATCCCATTCCAGTAACATATGCTTT
GGGTCATGAATACACAAAGCAGTTCCTCTACAATATTTTTACAAAATGTATAGTATTCTAGAGACATCTGCATCTACAGGCTATTTTATTTCATGTTTTT
ATCCACAATATGGTTGCAAGTAAACAAAATTAAGTATCAGTTACTGCTAAAATATAGCCAGTTGTAAAGACTCTTAGCCTTTGCTTGTTACCTGCACTGT
TATGACAGTGCAGGCCTGGTCATTAAAAATGTTAGTTTTAGAAATGCCTAATTATTATAATTTACTATTTGCAGAAGGGGCCAGATTACCTTCAGGAGTC
AAACAAAGGACACCATTTCCTCACCAGATTTCTTGGTGTTGGAGCCATTGAGTTTGTTATACTTTATTTAACCTGTCTTTGAGTGACATTAAATATAGGT
TATTGCCCAAACTGACCTAAACTGAGCTTTATGCAGTTGAAAGGTTATATGCAGGTACCATTCTTACTTATGACTTTCTTTCTTAAATATGGAAAATATT
CAGCCTTGCGTGTGCAGCTCTCTGCAGTAATACGGAAATCAGAAATTTGTCAATGATCTCTAGGTCATGTTTTGATAGTTTCAGCTTCTATCCTGTCTTC
CCATATTTTAAAAGGGCTTTAGGCTTGCAGTTGAATGGCCGGTGTCTATTGGATCGCCACTCAGAAGCTGTCCCTTGTGGCTATTAAAACTGATTTTTTT
AAATCTCCAAATAATTTATACCTATCGTCAACACATAAAGCCCAAAAGGCAAAATGTGAAAATAGTCTTAGCTACTTACATATGCACACATCTATCCTTT
ATCACTTCTGTTGCACACCAGAGACCCAAAGTCTCTGTTTTCATGTACAGACAAGTGTTGAGGAACATGGCATGGGTAAGTTATGTTATAATTTTGTTTA
CAAATATAACCTAAAACAATCATGGTATCTTTATTTTTAGTTTATTTCCAGCAAACATAGAAAAAACTATTTGAGATAGAGAAACCTATTGATTTATGTA
TGACAATTATTAAACATGCTTTATCTCAAGTAATCCTCAGATCCACCCTATGAAAAGCAGAACCTACCAYTGATTGAGTGCTTACTATCTCCTGTACACT
TCCTAATACAGTTACACCAACATCATCGACTATAATTTATGATCCCCATTTTACGGGTGAGAGAATTGAGGCCCATGATCACACACCTACACAGCAATTC
AAACCTCAATGAATCTGTTTCCAAAACCTAGGTAAACTTGTACTCAACTATTATATTATGCAGTCATGTGCTGCTTAACGACAGGGATACGTTCTGAGAA
ATGTGTCGTTAGGTGATCTCCTCATTGTGCAAACATCATAGAGTGTACATACACAAACCTAAATGGTGTAGCCTACTACACACCTAGGCTACATGGGATA
GCCTGTTGCTCCTAGGCTACAGACCTGCACAGCATGTTATTGGTACTGAATACAGTAGGCAATTGTAACATAATGGTAAGTATTTGCATATCTAAACATA
TTTAWACATAGCAAAGGTACATTAAAAATATAGTTTTATAATCTTATGGGACCACTGTCGTACACATGGTCCTATCATTGACCAAAATGTCATTATGCAG
CAGCACATGACTGTACAATATTCCTACATTCCAGGTGAGGAAACCAAGGCACACAGTATTCAGAACCTTACTACATACAAAGTGGTGAAACAGGAATTAA
ACTCGGGTCTGCCTGATTGCAAAATCCATGCAAAGATACAAGATAGAGTGTTTTTATGAGCTCCAGCACAAGCATCTATTTTTATTACTAAACTCTGAAG
AAAGAAAGGAGCGCAGTGTGCAGCCCTGAGCCTAGGATAGGATAGGTCTCTACAGTCTGCTTCATTCTCTCCTCTCTACCCTCCCACATTTTTGTGTAAA
TTTAATCTAATTTTTTGATGAAACAATATATTATGAAAATAAATTAAAGATAGACGAGAGCAGAAGAAAATTGAGCCATGAATAATTTCAAYAGTGGGGA
AGAGAACTTTGGAAAAGTTTAAATTAGAGTAGAAATGGGTAAGAGGAGCTCAGGAAAGTATTTATTTGCTTTTCTTTAATTCCCCATTGTGTTCCAGAWA
GGATTTTAGATGGGACTCAAAAAGTAACTTTTTTGCTTCCAATTCCAACATAATCATTCTCACRAACTTTTGTCTCAGTTCACCAAGAGGAAAAACATTC
AATATTGACAAACACCCTAAAAATTATTTAAATTGAAAGAATAGTGCAAAATAATCAAGGAAAAGAGAGAATTTCTGTTTTTTTTTTWAAAAAAAACAGC
ACGTTTTAAGTTTCTAATCTTTGCGTTGTCAAATACTCTCTCTCTCTCTTTTGCTACCTCATAGAAATTTAATCCATCAGGATACGAAATAAATCAAAAC
TAATCTAAAATGTTAAAACTGAAAGACACTTTAGAAGTCATCTGAGTTAACCTACTCATTTGTGGGATGAGGAAACTGGGTCTCAAAGTAACTTGCCCAT
ATCTCTCAGACAAAACTAACATAAAATCAAGGCTTCCCTATTCATTCCTTTTATAGTACCAAGGAGTGGTATGCACTTTTTATGTATTTATTTATTTTTT
TGAGATGGAGTCTCGCTTTGTCACTCAGGCTGGAGTGCAGTGGCCAGATCTCAGCTTACTGCAACCTCCACTTCCCAGGTTCAAGCGATGCTCGTGCCTC
AGCCTCCAGAGTAGTTGGGACTACAGACACGCATCACCACGCCTGGCTAATTTTTGTATTTTTAGTCAAGACATGGTTTCACCATGTTGGCCAGGCTGGT
CTGGAACTCCTGACCTCAAGTAATCCAGCCACCTCAGCCTCCCAAAATGCTGGGATTACAGGCGTGAGCCACCATGTCTCGCCTTTTCCATGTGCCCTTT
TAAATGCACACATACACAACAGAGAATAAGGAGCTTGCCAGTGACGCTGCGCTCTAATTGTCTGTTAGACTTTTCTAAGAGTTTTAAAACAAACTCGGGC
CTCAACTCTCCCCCAGAGGAATTGACTCCACCTCCTCTAGGGCTGGACYGGACCACAGACTCCCACTATGGGCGCTTGTCTATTGTGTCAGGCTGCCTGT
CGGGGAAAACCACAGTAATAGGAAAAATGTGTTGTGCGTTAGAGTAGACTTCACCTTAGGGCTCGCCTTCACATTTGGACCTACAACGCTAAACTGTACA
ATTCCTCGATGAGGAGTATTACTTCTTGTGTTTCTTTTTCTTCTAAGATTTATTTTAAACTTTTGTTTGAGCTTCAAGGAAACTTCCTCTCAATTTGTGT
GATTTTTTACACAAATTTTTACAGACAGTAATTACAGTAATAACTTAGTAGAGAGATTACAGAGATAAAGTCCTATCTCTCATAGTAACACACATGCATG
CACCTAGCAAGTATGTCAATAACACAACAATTTTATATATATATAATTTTATATACATATTTATATATTATATATATTTTATATATTATATATATAATTT
ATATATATAATATATAATTTATATATTATATATATATAATTAATATATATATTCAAGGATGAAATCCATGCACAGAAAATCCAGTTTTATTCAGTGGTCA
GCTTGCTAAAGAATTGGAATAACCCACACTATGAACCACTTTTAAATAGATCTTGGTTTATTTCTTCAGTTATGCTTAAACTAATTCTTCAACCATCATT
TCCAGGACTTATTCAATAATAATGGCAAAAATGAACCTTGCTTTTTAAATAATATGTATAAACTTTATTAAATTATATGATTATGTCCACCATAAGACAA
ATAAGACTCAAAATAGTTTGAATACTATTCTCAGTTTTATCAGCTTGCTCAAAGTTGGGACATTATTAAATCTCATTAGAATTTATTTTAGGCTGTGATA
AAAGCAGAGAGTCTCTTGATTAAGTGCTTAATTGAAGTACTTTTGCATTATCCAAATCAAAATAAACAAGGAGGGTGCTAGCTATTAAGCTAGATCTTTT
TAAGGAGCTTCTTTGTATATTTGTCTCTGGACTGTCTAGGCCAGAACCAAAGGGATGTGGAGGTACTAGAAAGTTCTTAATCTGATATTTTTTCTGGCTT
AGTCAGCAATCACTTTTCTTTCATCAATGGGCATAAGATTTTTAAGTGAAAAAAAAAAATTCTACTTAACCAAGGTGGTAAAATAGTCCCCTTGTAATTC
TCCATGGGATTTGAAAAACTGACTYCTACCTTTTATTCATAAATCAAGCAATGTCTGCAGCTATGCATGAGGAGAGGACTGAGCCTGAAACACAAGACGG
TTYTCATCTTCGTGCCAGAGCTGTGGACTACCTTCCAGAAAGCCAGAGATGTTTGTTGATACATTTTCATAATAAACCCAAATGAAGATGGAAGTCTTGA
TTTTGCATATGTCAGCTTCACTAGAAGTTTTCTGTTTGCTTTCAGATTTTTATTGCAAAAAGAAAAAAATTATATCAGGGAAAGATAAATTTTATTGGTG
GTCTAATAGTCGCAAGACATGTACAGCTTTTATTATTTTGGATTTCTTACTTTTATAGTCTTTAAATTATATCAGTATAAATAATGCATCCATAACACTT
TTTATTTAGTTTTTTGCTGTGTTTCATTGGACATTTGCTAGTTATCCATCAAGCACAGTAAAAGCAGATTTTAGGTGTTAAAGACATTGGAATTATCTTT
ATTCCATATGACAATGTTATTTAAAAACAAACATCTTTTTCAAGAAAAATACTCTTTGGAGCTTTTTCAGGCTGAATTGTATCTACAAATAAAAGCTTTC
CTTGGTTAAAATCTGATTACACATGGATGCCGCCCGAACACCTTGGAGACCAGGAAGAAATACACATTAAGTATCAAAATCGGCACTTGCGTTTGTAAGT
GATGTTGCCCCTGCCGCAGGTGGGGGAAGGCCAGTCTGTCTTTGCAGCYACTGAAGAGCTCAAGCGTTGCTAATGCAGTATTTCTAACTTTGCTGTCCTA
ATTGGCTTCCTTTTCTTTCAGGCATGCTTGCCGGGATTTTATCGACTGCGTTCTCAACCAGGTGGCCGCACCCCTGGACCAACCCTGGGCACCTGTGTTC
CATGTCAATGTAATGGACACAGCAGCCTGTGTGACCCTGAAACATCGATATGCCAGGTAGTCCTCTGAGCCTTCCTTGAACAAGGTCCATGTGCTCATTC
CTCTTTACACATGCTCAGCATCTGCATGCAGAGGCCAGCTAAACTGTAAGGGAATGCAACTGTGTGTGTGAAATAAAATATGTAAGGGAAAAAGATATTC
ACAGATTCTGCATTTTAAAAAGTAAGGAAAAAATAACTGGGAGAACCACTGAGCATGTCAAGAAATAGAATTTTAGCAGCATCTTAGAAGAGCACCAGAA
GACATACCTATTTAAAAATTATGTGTGCCTTTTTTTCTGATTATTTTCTTATAAATAAACTTTCTATAAAATTTGGAAATTACAGAAAAGAATTAAGAAG
AAAAAATTCACCCAAAATGCAACATAACATTTTAATGTTTTAAGTATTTCCCACCAATTTTTACATGTGTTTATGAATAAGATTTATATAACACCATGGA
TGCAGTTTTATGTCTTGTCCTTTACATTTTTACCTATCATGAGGTTGTATTATGTTGTTAGATATTATTTAAAATCTTTACGATCTTTGTTTGGATGTCC
CATAATTTACCCATTTCCCTTAGAATTGAGGTAGCTCTTATTTTTTTATGTTTCTGCTGGCACCCTGCACTCTCTACCACCATCTGCATTAGAACAATCA
GAACAATCATGTGTTCCACCCTTTTTATCGTAGTCACTGTAAGAAATTCAGGTTGCCCCTGTCACCACTTGTCCCTCAAGCTGTAATCTGCCCACAGCTC
ATCTTTGTTAAGCCCATCTCCCACCTCTGCTCACCTTCTGAAACCATTCTACTGAGCCTTGTGGAACTCATGGTCAAAACAGGCAAAATAYCCCGCAGAA
TCCTCCTCTTCCCTCAGTGTTCTCTTCATCATGCTCTGACTGAAACCCAACTCTCACTTTGCATGCTGCTACCCCGGCAGCCCTCTTAAGGAGTAGCCAT
CACCTTTTTGTTTTTTTTTYCCCCTGAGATGCTGACTCACTCTGTCGTGCAGGCTGGAGGGCAGTGGCGATCCTGGCTCACTGCAACCTCCGACTCCCGG
GTTCAAGTGATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCTCACGCCACCACACCTGGATATTTTTTTTATTTTTAGTAGAGACRGGGTT
TCACCATGTTGTCTAGGCTGGTCTCGAACTCCTAACCTCAGGTAATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCC
CAGCTGCAGTCGCCATCACTTTCTTTCACTCCCTTCATTCCCCTGAGTCTGAAGGTGGGGGCAGGTTTTCCTGCTCCTCGCTGCCAGTTTCATATTATCC
ATCCTCCTCTACATCAGGGTCCACAACCCCTGGGCCACAGGAGGATATTGGTCCGTGGCCTTTTAGAAACCAGACCACACAGCAGGAGGSAAGCAGCAGG
CAAAGGAGCAAGCGCAGCTTCATTAGCATTTACAGCTGCTCCTCATTCCTGGTATTACTGTACTGCCTGAGCTCCACCTCCTGTCAGATCAGAGACAGCA
TTAGATTCTCATAGGAGCACAAACCCTATTGTGAACTGCACATGTGAGGGATCTAGGTTGTGCGCTCCTGAGAATCTAATGCCTGATGATCAATGATCTG
TCACTGTCTCCCATCACCCCAAGATGGGACTATCTAGTTGCAGGAAAACAAGCTTAGGGCTTCCACTGATTCTATGTTATGGTGAGTTGTATAATTATTT
CATTATATATTACAATGTAATAATAATAGATAGTAATAATAATAATAGATAATAAAGTGCACAGTAAATATAACATGCTTGCATCATCACAAAACCATCC
CCCAATCCTAGTCCATGGAAAAATTGCCTTCCATGAAACCAGTCCCTGGTGCCAAAAACATTGGAGACGCTGCTCTACAGCACCCAGCTTTGACTCTCAT
GCTTCCCTCTATGTGCCCCCTCTCCATCTGCTTGTCGAAGTCACCTACTAACCTTTAAATACCCCACATCATTCCTTGCTGATTTTCCCTGTCTAATTGT
CATTTTCCCTAGCACTACTCCTGTCATCATTCTTAGTGATTTTAATGTCCATGAACTTAACTCTTCCATACTCTTCACTTTCAGTTTCTTGTGCCTCTCT
GKTCTCCATTTGAAGCGTTTTTTTGTTGTTGTTTGKTTTTTKTTTKTTTTTTTTTTTTTTTCCCACTGTGTCGTTTCTCTCTAGTTCACTTCTTCTAAAT
ACTTCCACTTCAATGTGTGTAATCTCACAATTGATGCACACACTTTTTTCTTGTTCCTTATCTCATGCTTTCACTGTAGTAACCAGCTTAATAGTCATGA
TCTTTCATTGGTATTACTGCTTTGCAACGCTCATTTCCCTGGCTACTCCTTTACTTATTTTTTACTCAAGTGAACTCCAACACTGTGAGAATCCTACCAT
CTCCTCCATACCTGCACCTTCTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGACGCGATCTCAGCTCACTGCAAGCTCC
GCCTCTCAGGTTCAAGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAACTACAGGTGCCCACCACCATGCCCGGCTTCTTTTTTTGTATTTTTAATA
GAGACGGGGTTTCACTGTGTTAGCCAGGATGGACTCGATCTCCTGACCTCATGATCCATGATTCGCCTCCTTCGGCCTCCCAAAGTGCTGGGACTACAGG
CGTAAGCCACTGCGCCCGGCCACCTGCACCTTCTAAGCTGAACGTGGCTGTAGAAAAAGACAATTGTGCCATCTAATCTCACCTTAAATTCATGATCCCT
CTCTTCAAATGGACCCTTTGTGCTGCTCTGCAATCATGCCACTTTTCTCTCATCCTTTTTCTTTTCCACATTCCTAGGTGATTATTTCATACCTCCCCCT
CCATCCTCAAGCCTAAACCTCTCCTCTCACCCCCTCCCATCCTTACCCTCAGTTGATGGTGTTGCCTCTTATTTCATTGAGAATTTAGAAGCTGTCAGAA
GAGAGGTAACAAGCTCCCACTACTGCATGCACCCACTTTTCTGCATCTGTGCCCAATTATTATGACTCTTTTCTATTACTTTGGATGAATTATTCTTGTT
TCCAGAAAAGATCACATCTTCCCCCTATGTTCTCAATTCTACCCCTCTCCCGCTTGATGACATCACTCTGGCTAATCTCTCCTCCTTCTTATATTGTCAC
TTTTTTTTTCCATCTTAAAAGCAAAAACAAACTCTCCTGACTCATTTCCTTTCTAAGTAACCACTTCATTCTTCTCCTTCCATACAATGGAGAGCTGTCT
ATCCCGTCTATAATTTCTCTTCATCCATTCTCCTTTGAATTACTAAAAACAGGCTATCACCTCCTCTTCTATACTGGATTCAATGGCTAATCTACAGCCA
CCAGTGTTCACCTTACTATATCTAACAGCCATGTTTGCCACTGTGAATCACCCCATTCTTCTTGAAACCCTTTGCTCAATTTGCTTTCCAGCCCATGGCA
TTCTGGAGATGTTCAAATTCCATAGTGGCTCCTTCTCAGCTTTCTTCATTACTCTGAAATCTACATAGTGGTATTCCTGGGACTCAATCCTTGGAGCAAT
TTGTTTCTCTAACTACATTCATTCAGATGGTGATCTTACCCAGGCAYGTGGCTTTCTGTACTGAGATATTTTGATATTGACATCCCACAGTATTTACTAT
TAAGTTTATGATTTAATTTTATATCCACTCATTACTATGGTGTGGGGAGGTAATTTTTCTGCAGATATGTATTACCACTGTAAAGAAACATTTACTGATT
AATATTTCCTTTTCCCCTTGATACATTATTGTATCTGAACATACACAAATTTATTTCATCCATATTAAGATATGTTTCAGTATAATCCATTTTGTTTTAC
TTACCTTTTAGCTCTTATTACAATGTTCTGCTTACCTTCATTTTATGTTAACATATCTGTAAAGCAAGGTCCTTTATTTCTCTTCTCTTCTAATTAACTA
GAYGCTCTTACATATTCTTCCAGCTGACACTTTTATGCACTATTTTAATCTCTTCCACAAATTTTAATTACAATCAAAATTACTGGAATTTTGATTGTAA
TTAAATTAGCCTATTTGTAAAGAATTGCTATATTTACACTAGTCACTCTTCTCTCTTCAGATATTTTATGTCTTACAGTAAACTGTTTTAAGGTTGTCTA
TATCAAGCACGCATTTCTCATWTAAAAATTCTTTCTATGTATCTTACATTTTCATTTTAATGGTAGTAAACATTACCTGTTTTGTTTCAACATAGTAAAT
GTACTAACTGGTCATTATTGGTAAACCTTAACTATTAGAATAGGTGTTTTTACATGTATTTGATATCCAATAACTTTTATTTTAGTTCTAGAAGTTTATC
AGTTGATTCAGTTATTGTTAWGTTTACCATTTTTTTTTTTTTTTTTTTTTTTTGAGAGGGAGTCTTGCTCTGTCACCCAGGCTAGAGGGCAGTGGTGCTA
TCATGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCTGCCACCATAACTGGCT
AATTTTTGCATTTTAGTAGAGATGGGGTTTCACCATTTTAGCCAGGCTGATTTCAAACTCCTGACCTCAAGTGATCTGCCTGCCTCGGCCTCCCAAAGTT
CAGGGATTACAGGCATGAACCACCAAACCTGGCCTATAATACTATTATTTGCAAATATTATAATTGTGCTTTCACTTGTCAAAAGCTATATCTGTTATAA
TAATAATTTCATGTTTTTAAATTGTCTCCCAAAATAATAAGCTTTCTATTTTATTACTGATTTTAATATGATTGCCTTAAGTCTTTCACCATTAAGTATG
ATGCTGATGGTTAGTATAAGAAAAACATTTCTTGTCATGTTACGAAAACTGCTTTCTATTCCTAGCTTCTTAAAGATATCCTCTTTCAATCAGGATAAGA
TATTTAAATTACTCATATGCTTAATTGTGGAGAGTGGAGTGGGAATGTAGATGCATTTAAGAGGTGATCATATATAGGTTTTTCACCTTAAACAGAACCA
TAAATGATATTATTGACTAAATAAATAACTTAATATTAGCCATCCATGAATTCCAGAAATAATTACTATCTTGCTTTAGTATGCTATTTTTTCATCAACT
GCTTGCCTGACAAATTCAATAGGCAATTTGAGAGGAAGGGGTTAATCTATACACATTCTTAAGCAAGAATTAAATGTATATGTCTTATGCAATCTTCACT
GGCATTTTTAGCACAGTTATATTTGCTTTATATGATTAATTTAGAAGCATTTATAAATAATGCAGTTTAATTTCAATTTTGTTAGGATTAAAATTACCRT
CTTTATACTGTCCTCTTTTGACCAATTGACTATTATGACTATTTTTGTTCTCTAAGAATTCTAAAAGCATGTCTATTTTCTGAGGAATCCCTAGATGAAG
TAAAAAATAAATACTTCCATTAAACAAACACAGCTGGTATAAACCGTTATGCTCCAAATTTTTATATTTTCTTTCATGGAACTCACAACTTTTGAATTTA
GGCAACTCTGTTCATCTTTGAAATGGCCTCATGAGGCAAATAAGAAATAGCTGTTATTACTCCCACACAGTAAGTGAGGAAACTGAAGCATACTGATTTC
TCTTTTATGTGCAATATGGCTCTCAGTTTCATATCATATCCATTATACAGTGCAATGCCCTCTACCTTGGTATAGTGGCAAGCATGAACTCTGCAGTCAG
AGTGCCTTGATTCAAATCCTGGCTTCACCCCTTACTGGTAGYGTGAGCCTACTCAATTTATTTAACCTGAATGAGGTCTTAGTTTCTTCATTTATATAAT
GAAAACAATAATAGTGGCTACTCACAGAGTTTTTGTAAGGATTTGATGAAATACTCAATAAAAGGCTTAGAACATTACTTAGTGCATGGTACGCTTCATA
AAAGCAATTATGATAATGATGATCATAAAGATGATAATTACCATACACATTATCTACCATTTATAGTCGAAGAACCAATCAGTTGATAATTAATCAAAAA
ATAAGTAAAAAAAATTCATGTCTAGCGCTATGCTAGATTTTCTTACTGTCTCAGTCCATTTCGGATGTTGTAACAAAATATCATAAACTGGGTAGCTTAT
AAATAACAGAAACTTATTTCCCACAGTTCTGAAGGCTGGGAAGTCCAAGATCAAGTCTCCAGCAAAGTCAGTGTCTGGGGAAGGCTTCTTTCCTGGTCAT
AGCTGACCCCTTCTTTCTTTGTCTTCACGTGTTGGAAGGCACTAGATAGCTCTCTGGGGTCTCTTTTGTAAAGGCCCTAATCCCACTCATGAGGCTCCAG
CCTCATGATGTAATCACCTCCCAAAGGCCCCATCTCCTATTACTATCACACTGGGAGACAGGATTTCAACATACAAATTTTTGGAGAACACAGTTGTTCA
GGCCATAGCAAGCCTTAACCCCCAACATGATGATATTTGGAGATGGGCACTCACTTATCTTGTTTTTCTTTATCTTCACACCTTTCCCTGAAAATATAAA
GTGCATAGGAAAGAAAACTGTAGAAAGCTTTATAGACTAAATATTTTAAAGAAACCCAGATCACCTTGTAACTATGCTCTTCATCATACCTAATGATACT
TGCAAGATAATTGTTGCTTCATCCTAGGCATTAATAAATCCTGTACATAGGCATGTTATTAYGAATAGCTCAGTGACATTGCTCCTTAAGAAAAAAAATT
TTTTTGAAGACTAAAACCTATGTAATACTGAGTCCAAGGGGATAGCGGGAGGTAAGTGAACTAACAGTAACTAGTACACACACATAGGTAGTAAGTAGGT
AGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATACAGAAGGAAGATATTTTCATTTAATCATTGCTACACCCTGTAGTCAGATTATTTC
TCCTATTTTTTTTTTCACATGGGAATATTGAAGACTTAGCTAGCTCAAACAACTTTTTAAAGATAAAATAATTTGTGGAAATATTATTTTCACTCTATCA
TAATTCTTATTTTAAAAAGAAAATAATAAAAATAAATCTCTATAACTGATCATTGCTGTTGCCTGAAACATTTAACCAATTACCTCTATCTTCAGTAAAT
AGACAGATTTGTAACTAGAATTCACTATTTTTTGTTTTGTAAACCTTATTTAATCTACCTAACAACCTTGCCAGAATAGAGATTGTTAGCATTATACTAA
GTTCTGGAAATTAATGCTAAGAAAATGTAAGCAACCTATAAAGCCTTGAACAAAAAGTATTAGAAGCAGGTTTCAAATCCACCACAAACTGCGTTCTCCA
GACGGCAAGAGAGTGTAAACACTCTCTGCTGATTAAATGAGTTTGATTTTACAAGCTCAAGTGAATTATATCTTAGAGTCGGGACAGAATCTGCAAAAGT
GACTAGGGGTCATGTATGGAAAACACTTGAGAAATTGTGAGAACATAAAATTTGTCGCAGGATAGTAAGCAATAAAACATCTTTCCAGGTTTTATAAAGG
AAAATAAAATGTAGGAAACTGATTGTCATCTCCAGTGAAACTTAAGTATTGCTTACTTAACAAATATCTGTCAACTGTGGAAAAAATAAACAGTGCTCAT
TAGGAATCAGAATAGGTTCACTTTGTCAGAGGCAATGGCTCATGCCTGTAATCCTAGCACTTTTGGAGGCCAAGAGCGGAGGATCCAGGAGTTCGAGACC
AGCATGGTCAACAAAGGCCCTGTGTCTACAAAAAATTAAAAATTAAAAAAAAGAATAGGTTCATTCAAAATAACACATATCAAACTAAGTGCTAGGTTTA
CTGTATATATAATATCTGAAAACCTAGTTTTCTAAATCCCAGTAAAATATCAAGTTTATCAGACAATGTGATACATCATATCTCAAATTCAGCAAAAAAT
AATAACTGCTATTATGTGTCCAAAACTGTGTATGTACCAGGACCAAAACAGGTCACTGTACAGAGATTTTCTCATTTATTGTTACAATAAACTTATGAGA
TAGACAAGATTATTTCTTCTTTTATTGTTGATGAACTGATGCTAGAGAAATTAAATAACTTGCTTAAGTCATAAAACAGCAGAGGCCATATCCATGTTTC
AAATGCTGGTTTGTTTAAATAGATGTTTGATGAGCTATTTCATAGTATCCTTGYGCACAAGATTGAAAATATGAGCCAGATGTTAGCCAGCTGATAGGTT
GATGGGCATATACGTTGCTAAAAAAATGTGACCCAGAGTACACTCTAGTGATATCTCCAATGATGAGGCRTAAGCTTTGTATTTGACCTTGTTGTGTTCA
AAATATCTGTAAATGCTTTGGATGATATCTATCAAATATTCAGATAATATAAAGCTGAAAGTATTATCTAATGTGTTGGATGGTGGGAAAATATCCTGAC
AGATGATACTATGAATTACAGTTAACAAGATGAGATTAATAGAAAAGATTTGAACTCAGGTAAGCTCACTTGTTTGTTCATTCCTGTGGCATCTGTTAAT
TATGTTTCCAACATGCAGGTCTATGGCCTATGGTAGATAGTAAGAATATGAAGACTGCATGGGTCTTGCCCTCTAGGAGCTTATTCTCTAGTTTAGGGGA
AAGAACAGAGGAAATGACACATATTAGCAATTCATGTGAAGTAAGAGTCCTTACTTGATTGCAGATTCACTAGGTGCCAACACAGGGCATTGCTATTTGT
ATAAGATCCAAATCAAGGGAGGAAGTACATTTAATATATTTGCAAGTCACAGCTAGAGACTTATAATCTACTATATTTTGAAAGAAACCCTGAGTAAGAT
TGCTAAATGTTTAGCTTGAAACAAAGATTTAGGAAGTAATAGTATTCTTAGATATTTGAGGACCTTCCCTAGGAAAAGGGAATTAGACTTAATTTTCATA
GCTTCAGAAGGCAGAACTTGGATCACTCACTGAAAATTAGAATGCATCAAATTTTTATTCACCGTAAGGAAAAACTTCACAGCTTATGCAAGACGAAAAA
AGCTGTCTTATAAGAATTCATGCATTTAATGATATCTCAAGGAAAGTATAGAAGGCATTCCTGTATGGCAAGAAGGTTAGATTAAGTAATTTCTCACCTT
AGGCCTGAGATACTATAATATTAATGTTATAGTCATTTGATTTTGTAGAAGGAATATATACCAACAGTTTTCCAGTGTGCAAAAAAAAACTTAACAAATC
TAATATATTCTGATGTATTATTGAAGAGATACTAGCACATACCACTCTTGAGAATATAATTAAACTTCTCATTAGGCATCCAAAATATAGGAATTTCCCC
TAATGGCTAATTTTTATATAAGAAAAAATACTATGTACACTATTTCAAAGCAGACAGAAAAGTCATATGAAAAGGGTATGTCAAAAAAGTTTCAAAAAGA
GGCTCYTGATTTATGTGTTGTGTGTTTGTGGACCTAACCAGGACATTTGATTCAATTAACCAAGTTTAGTATGTCAGCAACCCTCTGAAAGATTGAGAAG
ATTGACTGTCCAGAGAATATTACAATATTTGCTTTCTCTGTTGAAGAAATTATGTAGACTTACAGGTATAAGAGAAACAAAATCATATTTTTGAATCTCT
TATTTTTAGTAATGATTATTGGCTTTAAGGATTTTAATTCAGTTACTAATGTTATATTTAGGTTACATAAAATAATTCATTATGCAATTATTTTACTGCA
AAAGCAAAAGGCTGAAAATTATTGTTGAAGATCCCATGTATTTTTGGCACATTCATCTCTATAAAATAWGTTCTTAAAACACTCCCCAGTTAACACTTAT
TCATCAGCATGACACCTTGCTGAATGACTTGAAATTATAATTCATAGATAATTATTTTATCTTGGAGCCATTATCTCTCATAATGCTACTGTTAAATATG
GAATGGCTCTTTTATTGCTTAAAAATGGTGGTTCCTTTGGATGGTTGAATAAAAGAGGATTATGGCACTTAAATCAATGGCAAAATATGACAAATCATTT
TGCCCTGCTAACCACTTTTCTGCAATGACACTTGAAATTTGGGCTTTTTCATCTGAAAAAGCCTGACCAGTTTCATCTATACTTCCTGGAACATGCATTC
ATTCATTCAGTCATTCAAAATAGTCATCGAATGCCTCCCATGTTTGATGAACTAAAAGGAGCATTTAAGCCAGTTTTAGGTCATCGGGGAATGTTTCTCA
GAGAAAGTGACATTTAAAATGAGAGCTGAAATGAATAAGTGCTAGCCTGATATACACTGTAGAGCTAAGGATTTGCAAATGAAAAGTCCCAGCAGTGATA
AAGAGTATCCGCATAATTTGAGAATTTCAGATGGCCCCATGTGGCTACGGCATTATATGCAAAGAAAGCAGTGGCTACAGCTACATATGGAGGGGTAAGC
ACAGTGGTGGTGAAGGCGGGGGTGGGGGTGGCAGGTAATGAAGCTCTTCCTTGCCATGCTAATGATTTGTTATTCATCCTGACTGCATTTGGGAGCTAGT
GTAGGCTTTCAAGCAAGAGAAGGKCATGGTTTGATATGTTCATAGGATGATCACTCTGATTGCAGTGTGGAGAAATCACCAGATAAGAAAATATGGAGAC
AGGATCTTTAGCTAAAAGGCTATTCTAATAATCCAAATAAAATATGACAGTGGCCAGATGAAAATAGTAGCAACAAGAAAGTCAAGAAACAGAGAGTAAT
AGACTCATGGAACTGATGATCTAATGGATACCTCGGATAAGAGAGGCCTCTAGGTTGCTGACCTTGGCAATTGAGTGAATGACAGTGACCTCAGATGAAA
CGAGAAATACAGGAGTATTACAAGGTTTAGCAAGAGATGAACTTCATTGTTGTCATTTCAAATTTAAGACGCTTCTGTGTTATACAATATTTAYTCAAGA
AGCAATTAGAAGCAGAAGTCTGGAACCCATTAGAGATATCCAGGCTGAATACATAAAATACAGAGTTTTGGGCACACCATTAACTGAAGTCATAGTAATG
GATGAAATCACCAAGGTAAATGTGGAGGAGAAAAAAGAGATGAGGACCAAAGTTAGAATTAAGGGCGTCAATTATATTGAACAGAAAGGGAAGGAAGAGT
CGATAAAGGAGAATTCGAGTAGCYGCAGAAGTAGGAGAAACATCAACTGGCTTACTCTTAAAGAAGCCATGGGGGCTGGGCACGGCAGCTCCCGCCTGTA
ATCCCAACACTTTGGGAGGCCAGGGCAGGCAGATCACGGGGTCAAGAGATGGAGACGATCCTGGCCAGCATGGTGAAACCCCGTCTTTACTGAAAATACR
AAAATTAACTGGGYATGGTTACGCATGCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAG
CTGAGATGGTGCCACTGCACTCCAGCCTGACTACAGAGCGAGACTGTCTCAAAAAAAAAAAAAAGAAAGAAAGAAAAAGAAAGAAAGAAACCATGGGAAG
AGAGTATCCAGAAATATCTATCAATGGCTACAGAAAACCTACATATGAGGCCTGATGATTGTAAGTTTTGCTTTAGCAACAAAGATCTTATGGGTCATCC
TGGTATTATGTTTAATGGTGAAACCAGAAGCCTGTTTAAAGGGAGAATGGGAGATGAAGAAGTAGAGACCAGGARTGTAAACAATGTCTTTTTAAAAGCT
TATCGAAAATAGGATAGAAATTGTCAAGCAATTTGAGACCTCACAGATTTTTTTTTTAAGACAGGAAAGGCTTGACCAATTTCAAATATTAATGAGAATG
AGCCTGCAAAGGAGGGAATAAAGATGGTGGAGAAAATGGGGAGGCAGGAGGAAAGGAAACCAATTTAGGAGTGGAGTAGCTTCAGACAAAGGACGGAAAC
AAATGTCAAAGGGATGGAAAATAATGTGGCAATATACTGAATTGTTTGCCAGGAAACCAAGGGAGCATCCAAATTAGAGCTTTCTTATCTCTTAAAGTAG
GGTAAGGTGTAGAAGTAGAAGATTTGAGATTGGCTGGGCACGTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCA
ACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCTGGCGTGGTGGTATGTGCCTGTAGTACCAGCTACTCGGGAAGGTGAGGCAGGAGAA
TCCCTTTAYTCAGGAGGCAGAGGTTGCAGTGAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGCGACAGAGCTCTGTCTCAAAAAAAAAAAAAAAAAAA
AAGAGAAAAAGAAAAGAAAAGAAAAGAMAAGACTTGTACCTTGTCATATTGGAAAACCAGATTCATTTCACATTGTTATAAAATCTGTAAATGTCACAAT
ATAATTTCAAATATAACACCAAAAATGTAAAAAATAAATGATCTAAAATTCACTGTGGCAATGTCATAGTTTCACTGCAAGAAATAGCATAAACTCTCAA
AAAGAGTTAATAGAAGTTTTAAACAAACATTAATTCCATGGCAATATCTGTGGTGGAAATGACGTCAGCTATTGTTTGTTGTGAATTGCCACACATTCCC
TACCAACAATTGTCTGGCCATTAGAAGACACATGAAACATAAATACATTCTTCTTGATTGAYTAAATGAAGCAGAGCCCAGTCTATGGGATATCATCCAA
GTTCAAGCTGGCGGCTTCGTGGCTCCAGCTGAGATTATCAGGAAGTCAATTCACTAACATGTCCATCTAGTTTGTAACTGACTTTTTTGTTTCTCAACTT
TTCTTTCGATATTGTTTATAAGATGTAAGTCACTATTTTGACCACTCCAAATCCTGTCTTATAAAATCCAGCTAAAATTCAATTCCAAATTCCCTTCTTC
CTTTTTCTCAACTCTCAAATGCAAGGATCGCATTCCCACAAGATAACATTCAATGTTGCATTCTTGCTGCCATGTTTATTTTTTGTCAGGTGGTTTTTTT
AAATTATTATTTTCCCAAAGTCTAAGTAAATTTCTAGAAGGTAGGATGTTCTTTCATTGCCTGTTTCAGTGCATTCCATGTAGCTCTTCCTAACTCCTTA
TTGCATAATTGATTATTGTGTTAAATATAATTCTGCTTCATGAAAATTTTAATTTGAAGCTATTTGCACACTATTCTGAAGCTATTCTCATTTCTTTGTG
GAAAGGTGTTAAARGGTATCACCCCAATGTCTCTTATTATGCAAGCATAAGAAAGAAGATATCGATCTGAGATTGCTAGTTTTAGATTGACTCCTCTGTA
TTTATGAAGAACCACCTACATCTATGCTTTCCACCTTGAGGTGGTTTCAGAAAGCCCACTAGTGGGCATGTGCCAAGGCCACAGTATTTGTAGCACCTTT
TTCTAACATCTCATAGAGCTAAAACCTGGGATATGAAGAAACATAAATGCCTAGAAGAAATAATAAATTTTAGAGACTCGAAGTCTATTCCCCAATTTAG
AGTAGGAGAAAAATTTACATAGAGATTGATTCAGGGAAAAGAGAATAGCAACTCTTATTGTCAGTGTAGCTACGAYAGCACAGTATTAGTTTCTCAAATC
AAAGAGTTCCTTTAAAAATATTTATATCAAAGACTGAGTTCTCTGTCAGTGATAAAGTGTGTGTGTGAGTGTGTGTGTGTAAGAAAGTATATGTGTTCAT
AGACACACATTCATAGCTAGGGACTGTATGATAAATTACATTCTAACTATCACTAAATTAAAAACAAACTTCTTCTCCCTTTTCCTTTACAGAATTGTCA
ACATCACACTGCTGGTGACTTCTGTGAACGATGTGCTCTTGGATACTATGGAATTGTCAAGGGATTGCCAAATGACTGTCAGCAATGTGCCTGCCCTCTG
ATTTCTTCCAGTAACAAGTAAGATTGAGAAATATAACCATATTTCCCAATCAGAAACGCCATCTGTCTAGCACATGGGCTGTCTATGATTTGGCTATTTT
TTCCATGTAGACAAAAATCTCAATTTAAGATAGAGATATTTTTAATAATATAGAAACATGACAAAAGTGAGTATATAATGCTCTATGGTTCATTTTTCCT
TTGAAACTCTGTCCCAAGTAAATAATACTTATTAATTAAAATTGAAGTACCAATATTAATGTAAGACATATTTATAAAACAAATGATATATATATACAAA
TATGCATGGTTTCATAAATATACCAGTCTAATGCTTGCATATAGCTCTGCCCATAATATCATCTATGAAGGATTGTTCGGGTGCATATTATATAATTTTT
GTGGCTGTTTCCATTTATTTTATGTGTTTAATTCAAGATTGGGAAATAATTATCAAGAAAACATTGAAAAATTGTACAATTAAAGCAGGTGACTTATTGT
TATGCTCCAAAAAAWGTCATCTCCCGGAATCACAGCCTCCTTTTTCTTAAGATGGTCTGAGCTTGGTACCATGGAAACACAGCCCTAAGAAGAAACAAAA
GCTGGAATATCTTATTTCAGTGCTGTCTGAACATTCTGCACTGGTTTATACATTGATGAAAACCCTAGGTGTTTTCATTTACCTTTTTGCCCACACTACC
TGCACTTTCTGTTAAGTGATTTATAGACTTCAGTAAGGCAGGGTAGTTTTACTCTAAGAATTTGCTTTTGAAAATAATGTATGGCAGTTTGTTCAGAATT
AGAATTCTGGACACTTTATCTTGAGTGTTAAACAGCCACAGAGCAATTTGGACAATGTGATCTTTGCACCTGTGCCTACTCACTTTCTTCTTAATCTTCG
GCTTTGTGTGCATTCTGAAAACATTTCCTGTAAATCATCTCCTTTTCCTCTGAAAGCTCCTCTTTTTTGTTGGCTGGAATCACAAGCCTTTTACAGGGTG
TCAAATGTCAATTTTTAGGTAAGCTGGATATTGAAGAGGATAATATACATGGTCTTATTGTTCATCCAGGGACCAAGTAGTATGTGTATGAAAAATAACA
TTATTTTTGTCTCTCTTTCCCTAATTTCTCCTTGATGCCCCGATTTATTTAATTGTTTTAAAAAGTAAGCCATTTGGATTAGAAAAATTTAATAATTAAT
TGATAATTCCCTGGTGAGTACACTATAATAAAAGCTACAGGAGATATACAAGAGAAGCATGCCATTTTTTGGAGGAGCTCACTGTAAAACCTGTGTGTTA
AGGGGTATCAACTTAAATGTAAAGAAAATTCAAAGGCACAAAACACCACACTTAATACTGGAAGCTTCAAGAACATATGAAAAGAAATAGTAGCATGTAT
AATGGRTCTTAAACAATTAATTTCAGGATTTTCACTGGTGGGAATAGTAGGAAATTATATGGGCAAATGCTTACAAAATACAAGGCATGTGCAAAACCTA
ATAAGTAACAGAATTTGGAACATGGCGTTCAGACACAATTTCATGATCACAGATGAAAATGAATGGGAGAATAAAGACCATATTGTAGAAATCCTTAAAT
ACCAGTCTAAGAAATAGTTATTTAATTTTCTATGTAATAAGGAAACACTACAAGTTTTTATTTTGAAAAAAAGGTTAATATGATTATGGCCACATTTTAG
GAAAACTATTATCATAGAATTGAGTATAATGAATTGAAACAGGCAAATGAGAAAAGCATAGAGACCAATTAAAAGGCTAGTATACTAGCATGGGCAAAAG
ATAATTAGAACCAGAAGTAGGTAATAGTAATAAGAATGGAGACAAAGGAATGAATGTGAGAAAATGGTTTAATACAGCTTTACAGATTCGGAAACTAATT
AGATGTGAGGGGTGAGGGTCCGGGCAGAAGTTGAAGACAGGTTTTTAGGCAGGTTACCCCCAAAAATGGTGGTGCTATTAACTGAAATGGAGAAACCAGG
AGAGAGCCGTTAGAGAAGAAAGATAATTTATGTTTCAAATAGGTTCAGATTGATAGAACATATCTGTCTGAATGGAAATATGCAAATAGCTGCAGGAAAT
GGAAATCTGAAAATTGCAGGAGCAGATGAAGGAAGAGATATGTTAATAAGTGAATTAAAGTTGGATAAGATTTCCCAGGCTAATGTTATCCAAGGCGAGT
ATATAGAAAGAATGAAAGACAGGACTTTATGTTGGGAAAGGAGAAAAAGAAGAGCCAAGGCAGGAGCAGTCAGAAGAGAGGGAACCCAGGCGGCACTGCC
ATTGACACCAAGGGAGAGAAGAGCAGTGAACAGCATCAGTTGCTGCTCTCACAAGGGAGACCCAATGAATATGGTGGCAATTGACTATTGTAATTGAGCA
AATAAATGGGCTTGCCRCCTGAAGCACATAGAAGCCAATAACGTTGGCACTGGCTTCGGAGAAAAGAAAGGCTTTACTGCAAAATTGTTCAGCAAGGAGA
CAAGAGTCAGGTTCAAATCTGTCTCCCTAATTTGGGATATGGGGAAGGTTGCAAGGGRTCAGAAGGCAAGGCAAAGGATTTAGAAATGCTGGCTTGGCAG
AGTCTGATTGGAGGGCTTCAAATTTGATCACTTACAGTAAGGTATATTGAGGCAGATTTTAGCCCTGGATCTTCTGGGCCAATGGACCCCTCATTTCTGA
AGGAGTTCCAATGTCCAGRTTTTGATTTTGTCCCTGTCTTGTTGGTTCAAGGGGAGGAATAGTTGGTTCCTGGTGTTGTTAGAGKTCAAAATTTTTCTAT
TGAACATGCCTGGGCTACATGACTTGCAGCTTTTGGCTCTGTTATACCTAAAAGGTAACTTGACATTTTGTTATCAACAGGGTAGGCCCGGTTTTGGTTG
GTCCTGTAGTTACACTCTCAGAGTCATTGATGAATTTTGACCATCAATAATGAAAGCAGAATTTGAATTTACAGTTTTAAGAAATTTCAAGAATAAAATG
ATAGAATACTACCCTGATTGGTTAGCAGGATCAATAACAGGGTGTGTTTTCATTTTTGTTTCATTGTTGTTTTATATGATTTGTATAATTTGAGTAAATT
TTTATGCAAAAGACCCTGAAAGAATCAAAATATCAAATTAAAATGGCAAGTTCAGTGGCTTTCAAACTTTATTGATTGCATCCACTGTAAGATACACTTT
TTTATATCATAAGCCAGAAACACACAAAAACTTGTGTGTGTAGATATCTAAATATATGTATTATACACCATGCCATTTATTTAATTTTGTTATTTTACAT
TTTTAGAAAAAAAATTTTAGCCAAAACCTACTCAATGGATTTCATGAGTCACTTATATCACCATCTAAAGCTTGGGACGTATTAGGCTAATTAACAAAGT
GAAGACCTATAAATTGTGAGAAGAGAAGAATTAAAATGTGAAGCAAAGAAACCAGCCAGGGCAAAGAAAAGAGGCACTTCTCCCCAAGACATAAAAACAG
ATTCTGAGGAATAGATGGAGGAGGCTGAGATATCTCAATTTATGACTTCAATCTGTGCAGTCAGTGAGAAATATGGAGGCATGATGAGTGATTACTGACT
CATTTCCACGGCATTAGTTCAAGTCCTCATTATCTCTTACCAAAACAAATATGGTAGAAATTTAACTCTTATGAYGGAGTGGCAGTGCTCACACACCCTT
AGAAGTTTCCAGTGCCTTCCCAAGGAAAGATCAGACTCTTTGAGCATTASAAACCCTCTGTAATCTGACTACCTTTCCAGGCTCCAAGCCCTCAACTCCA
TTCTATATAAWGCCAAGTTTGGCATTTCTTGCACTTATCTAGACATCATTAGCAGTCTGCTCTTGCTATTCCCTCAGACAATCCCTGTGAAATCTAATTT
ATTTTTAAAGGCATTTTTCAAACCCTACCTCTGCCACAAAACCTATCCATAGCACAGAATGTATTTTGTACATTTTATATACAACGAACACATTTTACTA
TACAGAATTATTTCAATCATTCTTTCAGGAGATGAACATTTACTAAGCATATACTTCATCCCAACACTATGAATAAAAGATAAAAGATATGTGTCCTGTC
CTGTATGTGTACATATCTGTGTCTCACACAGAATTGTAAATTCTTTGAAGGTAAACATAATGTCTTATTTCTTTCTTTATTCAAGAAAAAGTTAATGAGG
GCCCAACTCAATGCTAGGCATGGCTCTTCGTACTGGGAATATATAAGTGAACAAAACGGCCTGTGTTTCCTAGCCTTCTGGAGCTTGTATTTTTTATAAG
AGAGTAAGATAAAGAAATAGATATATAATGTAATATCAGGTAATGACAAGTACTACCAGGAGAAATAAAGGAGACTCAAGGAACTTAGAGTGATGAAGGT
ATGATTTTAGATGAGGTGGTCCATGATCTTCACAAACAGATGAGACTTGTGCAGAAATGTGAATGGTGTGAGCCATGTGAATACCTGCAGGAAGAACAGT
CCCCTCAGAGAAAAAAGTCACTGCACTGGCCCTGAGACAGACCCATGCTTGGCAGATAACAGGAGGCCAGGGTGGTTGGAACAGAGTGAATGAGAAGAGG
GGGCTAGGAGATGAAGTCAGCAAAGCTCTAATGAATATCTAACTCTCCTGAGGGCTAAAAATCTTCCAGTGGCAAGAGGTGGCTTGGTACAGGATAATCC
AGTGGTGTTATTGATGGAAGCACCAGCAGCATTTGCAGATAGGAGATAAGTGGAGTGTGAGAGAGGAGACACGGTTGACACCATGGTTTTTGGCAGAGCA
AATGGAAACATGGAGTGGCTGTTGACTGGGATGGGGAAAATTAGGGAAAGGTCTGGTGTATTTTTGGAGGGGGAGAAACTTACTTTTAGATCTGCGAAGG
TAGGCACAATATTTAAATCCCTTAGGACTAAGTGAGATCATTCAGAGGAGAGAGGAGAAGGGAACAGAAATCAGAAAACTGAATTGTGAAGCACGTTAAG
AGATCAAGGACATGCCATAGATCCAACAAAGGAAACTGAAAAGGAACAACCAATGAACTGGGATAAAAACCAGAAGGAAATGGTTTCCAGGAAGCCCATT
TATCTCTGCAGTGTCCATAGGAGATGACACAGAGAGCAAGCTCTGTAAATTTTAAAAATTCTGTTGAGGGGAGTTTGGAATTAGCAGCCATAGGGAAATG
TAAAAGATGGTCACCATGAGAAAAGCACAAGGATTTCTGAGTAGCCCTGCAGACAAAATGATAATTGAGAGAAGATTAGGGAGTTGTGAACAGAAAGAAT
AAACTCAAGCTTCAAGTGAGATGGAATCCCTACTCCCTCCRGAAGACCTTTTATGTGATATAAGGAAACAGTGCAATCCACCATAATATCATAATTTGAA
AAAAATTRTATCAACTATTCAAGAATTACTACATTCCTATACAGTAAACACTTTATTATTTTTTTATTGACATTTCATTATTTTACTATAACGAAATGTA
ATTTAATCATACTGGCTCTTTAGAGTTTCTCTTGAAATGTCTAAAATCTGTTTCTTAGAGCCCATATATGTATAAGAGTGTGTGTGTGTGTTCGCGTATG
CGTGCATGTGCGTGAGTGTGCATGCACAGATGCAGTCAGTATCAGGCTTTAAATGAATGAGCTAAAAATTTGGCAGAGTGTGTCAGTTATAAGTTTATTT
TTTGTGAAGGCAAAAATAAATTTGTTGGATAATGCGTTTGTGAGTAGTAGATCAATTTGTTCACATATTTTGCAAAAGTTAGAGCTTATTACTCATTCAT
GTACTATTGATGTAACGCATTAGAAGACAGTTAACATTAGKTCCTAATKGCACCTGACCAAAAGGAGCTGTGGGCCTGGCCTATACACCTTATTGCCTGT
TTTCAGCATCAACTGATTTAGTGAAGCAGCAAAAAGAAAAATGGTGTGTGCAGYATTATCTTTCTGCCACAGATACATGTTTTTAATTTCCAAGTTTCCA
ATRCATCATTCAGTTTTATCTAAYGGGAATGCAGCTGAGAGAAGTTTGTAACAACCCAAAACTACATGCTAATATAGTTTAGTTTTCAAGTCTTGTGGAG
TCTTTTTTTTTTTAATGGAATAAGATCATCAGAAATCCAGGAGCAAGACAGACTGGCTGTGGTCTACCAGCATTGTAGTAAAAACATTGGGGAAGTTTTA
TAAGACCTAATTATTAGAAAATACCATAAAATAGTCATTTTCATAGAAAAAGCTTTCCCTTTCCTCACACTGAATCACATTACTTTGTGTTCAAGGTAAA
ATGTAGTTTGAAATCTGGATGTAAATTAGAAAAGATATTATTTTATTCCAAGTGAAACATGTATTCACACTTCACGTCTTGAAGCACCAGTGGCCATTTG
GGCTGAGTTTTCAAGAAAAAAAAWTTATATAGATTTTATGCCCTTTTTTTAACCTAAGAGATATTAAGTAATAGCTATTCCACTATCAGACAATGTGCAT
AAATTCTAGTCAGATTTTTCTTTTGATTAGTGAACAATAGGACAATTTTGCTGGATGTTTAGTATATTCATGGCTGTCACATCATTATTAAATTCCAGAA
TATTAACATGCTTTGTGTGATGCATTTTTAATCCATCATAAACCAAACAATATATATTTGTTTACTGTTATTAATGGTTTTTCATTGTGACGTCCTAGCC
TTAAATAAGAACTTCAGCAATAATTATAAAGATGGCATTTATTACTACCTAAAAGTATGTCCCAATAACCTTGATCATGGATAGGAATACTATTTTATAA
AATAAATGGATTAAACTTTTTTTGCAATCCTTTTCTTTCTGATTCAGTTTCAGCCCCTCTTGTGTCGCAGAAGGACTTGAYGACTACCGCTGCACGGCTT
GTCCACGGGGATATGAAGGCCAGTACTGTGAAAGGTACCAACAGCCATGAAAYGTACAGAGTAATGATATGTAGGGACTATATGGTAAAGGGTCACAATA
GGAAAACATTCATTATTTGAAGAACTTCAATATTTGCATATCCTTTAGAAGTTTAAATTACAATGCTTTCAAAACCACTTGTGTATCTTAGAATTTGTCC
AAAGAAAGTTGTTTATTTCCACCGTATGTTTAGACTTTATCAAAGATTCCAAACTATTTACAATTATCTAACTTATGCTTTAGTATATATATATATATAA
TTTTATATGTAAATATAACATTTCATAAGAATAAATCAATTTTCAAAAGCTTAGCAGTAGTTACTACTAATAAGAAACTGGCTACACTTTTCTTATTTTA
ATGCACTGGAAAATATTGTCTGGAAGTAACTGAATTCACGTCATTGTTCTGAACACTATGACTACACCAGCAAGTGTATACATAACTCAAAATATAAATA
GTATCAAGAATTTTTAATTAGTACCCAGACAATAAAGTATTTGTTATTCAGTTTTCCTTTTCAATAGGCAAACAATATTATTTAAATGTTTTCTCTTACC
ATATTGCTTATGAAATCTCATAATGCATGTATACAGCTGTTAAATTGAATTCTCAGTGTAATCCAAATGGTAAATTAAGGAGTACAGTTCCAAACTGATT
GTCTAGAAAAGTTGCAATTAATATCTTCCAGATATATATTTTCTGTAAGATCAGTATCCTGGATATTCAAACTTGTCACCACCACTTTTGGTATATTTTA
GATATTATCTTTAATATAACAGAGAGTTACTAATGTTAACTACTAACATTATACACACATGATAGTTTTAGCATAATTGATAGCAGTATAAAAGTTTTAG
AAAGATCCATAGACTTCGCTCAATTCCAACAGTTCAGCTACATTCCATTTTCCTCATCTATAATCTCAGGAATCATTGATAGGCCACCTACTTTACACTA
ATATTGTGACAATAAGTGTGTAAAGGACACTGTTGGTGCCCTGCCTAGGCACCTACACTGAAGCCTTCTCTCCAACAGAAGAGGCAGAAAGGCCTGAATG
TTTMCCCGCCCTTCCTGCAGTGGCCCATGACTAACCAGCGTGAGAGTACAAAAGTCCAGCTCTTTGGCCCCTAAGTGGAACAAGTTTTGAGATCTTATTT
TATGCTCCAGAGCACTCCATGGAATCAGGCTAAGACTGGGACATCACYTGAAATYATACCYTTGATTAGAGCTTTTCTTTTCCATGTCCTGCTTCACCCA
CTCCTTTGCTAGATTCTCCTAGGAACACTTAAATGGTAAGCTTCTTTGTAAATATAAACTAATACTAATTATCAGCATCCACTTAAGAGTCTTGTTTTAT
ATAACCAGCAACAGCTGTATTAATCATGGCAATAAGTAACTAAATAATTAGGGTTAAGCTTTATAAATCCCAATGCAATTTTTATACATTTGTAAAATAT
ATTTCTAAATAAATCCGTATGTGGTAACTCTAAACACAGTATCCAATATTTGCATATATATAAAACAGTGGATTCACAATTTCCATACCAACAGAAATTA
GCAGCAATTAAATAACTCATAGCAACACCAAATCTAAAAATATTTCCATTTGTTCTGAAGATATATACATCTTTTGGATATAGATATAGGTGATACAAGT
ACATACTTGTTAATACCCACCAGTGAGCTTTGGTATTCATGGTTAGACTAATATTTATTTCCTGTACCTTTAAACACCAGTAGGATGGTGACTAAAAGCA
TCGCTGGACACCAAAAAGATTATCTACAGTAATTCATGAAAAAAAAATTATGATATAGCTACATTTATACACTGTAGTTACCATTTTCTACAAAAGCATG
TGTATAGAATAGGCTAGAAGGGTACACTAAAATAACAATTATTGTGTTAAAGCAGAATGATTACAGAAAATTTATTTGTTAATATCCAGTAGTATTTAAT
CGATAAAAGCTGTCAGTTTGTGTAGCATAGAGATGAGCAGGGCCATACAGTATCAAATGTGAGTGACTTAAAGTGTTTTTCCAGTCCTCAAACATTGTTA
TAGCTTTGCATTCATCATCTCTAACATATAAATGATCAGGTTATATTTCTCTGAAAAATTGCTTTATTCAGCTATATTAAACCAAAGTTCTTGGTTAAAT
TTTTATTGTAACCTTCCAAATAAATTTGTTCCAGTGCTGAGAGCTTCTTAAATCATTTAAATCATCTTTCGACCTGCTCAGACTGATCAGGTTAGGTCTA
AAACTGCTTAAATTTCTTGAGTATCCCTGTAATATAGAAACCTCTCCTCATACTTTATTTTCAATACTCTTGTAATAAACTCTTTGAACATTTAATCAAT
CTGAATCTGCTTAGAATACAATTATTTTACCTATAAATGTTAAGAAGCCATTTAAGTGGACTTACTTAAATGCTACTTTCAGTATTTGTACTCTTTCATT
GAAAAAAATAATCAAAAACATGAATGTATAAAAGCCTAATGTCACAAATCGTTTTCTTCATGTTTTGCCTTTTCTAACCAGCACAGGGTGAATTAACTTT
CACAGTCAGCCATGCAGATTTCACAGTCTCAGGCAGCTAAAGATGGTCTATGATTATCTTGCCAGTATTTATAGCTTTTGGCTCCAATCCCCTACTGTCT
CTCAACTTCCTCACATACTTGCCTGTTGAACAAAAATTCTAACTGTTTGTTATATTTACACTGACCATATATAAAACTTGTTGTCCAATCTGGGACACTA
TATTAAAAACAGGCAGTGTTTTTAGCAATTAAGCCAAAACAACAGGTAATAGGAAATTGTCCTGGGCAAACCAGAATGTATGGCCCTGCTAGCATTGTGT
AAAGTTACCAAACTTCCAGTGTCATAACMCGGAGTGAAATACACTTAGGTGAATGGATGCATAGATACGTGGAAGAGTCAATTAATGGACTGCATTTAGG
GTTCATCCAGTTGGATTCTCTTTCTACTTTTCCAAATCAGTGTTATATATTTTGTTTGCATATCATTAACCCACTTCCACAGATACACATGAAAAATCCA
TCTTGAGGAAGATATGGCAAAAAGAAAAGATGAATAAAAGTAAACAGAAAATCTGAGTAGCCTATTGCCACTTAACTTGCCTCTTTTGCCTCATTGGTAA
AATTAATGGGTTGTATTATTTGGTTATTTTGAGATCTGAAATTCATGAGTATAGGGAAGCCCAGAAGTCAATATAGAATTGCACTCATCTCTAATTATAC
AAGAGGACTTAACAAAAAAGTTTATGATCTAGAGCAGTCACAGACAAACTATGACCCACAGGCCAAATTTGGCCCATTTCTGATTCTGTATGGCACTCAA
TTAAGAACTGTTGTTACAGGTCAGCATTTACAATCAATTTGATGACAGGAGGCACTAAGTTATAACCCAAATGAAGGATAATTTCAAACCTCAGGAAGAA
TCCAATTCTTCTCATTAGTAGCCTGATATTACAAAGTAATTTAACATTATTATTATTATTATTATTAATGTTTTCAATTCCATCAACAACAGCAGAATGC
TTTAGAATTTTATTTCTTTTTCACGGCATAATCTTGATTTTTCCTATGTCCTGCAAAGCCTACTGTTTACTATCTGACCCTTTACAGGAAAAGTTAACTA
ATGTATGGACTCTTGCTATCAGTTTTGTTGCATCAAAACAAAAGACCACACACAACAATGTGGAGACATGACTTGCTATTAACCTCTTTTGCTTTGTCAC
TGTTTCAATTCAGGTGTGCCCCTGGCTATACTGGCAGTCCAGGCAACCCTGGAGGCTCCTGCCAAGAATGTGAGTGTGATCCCTATGGCTCACTGCCTGT
GCCCTGTGACCCTGTCACAGGATTCTGMACGTGCYGACCTGGAGCCACGGGAAGGAAGTGTGACGGCTGCAAGCACTGGCATGCACGCGAGGGCTGGGAG
TGTGTTTGTACGTATACTAACTTTGCTGTTAGTTTTGGAGGCCTTGATTCCAGTTCTGTCTCATTTCCAATGAGAAAGAGTGACTCTCCCCGCCCGCCTT
TTTTTTTTTTTTTGCAATAGTTATACTCTTCATTCTTTCTGACACTATCTATCCACCTTCTGCTGTTCACCTGCTGATTGCGTGTCCATCCTGCTGAGCC
AAGAACAGCTGAGAAAATCCTCAGTGTGCTTTAGTCAGTTCATTGAAAGACCTACAATGAAKCTCCTGGAGGCATTTTATTTGATTTGTCCATCTCAGGG
TTTACAGTTTTGCCTCAAGTTGGCATTGCCTTTGTGACAGATTAAAGATGTGAGTGTATTAAAAAATTTAGAATCCTCCTGAATTTGTAATCGACTGGAC
AGATACTTTAAGCCTTGAATGACAACTGATGTTTCTTTTCCCAGCTTTTATGAAAATCCATGGGCATACTGCTTCATAATTTTCTCTTGAACTACAAAAC
CCGTAAGCAGTAACAATGAAGTCAAGTATTTTTACTCACGTACAGTAAGTGGAGAGCAGTTTGCTCTCTTGCTGTCTCTCTTTTTTCTTACTGATTCTGG
ATTCGCTAGTGCCATATTGAAAGTACATTGAAATCAGTAGCTAAATATAATTCTTGGATCTTGCATACATTCAAATCCAAAATAGGTTATTTATAAATTT
AAGGAAGGAGTGCTCTTCTATAGTATTCTTTTCCTCAAGGAAATTTATTTTAGCACCTTTTATTTCAACATTTACCTATTGTAATAGTATTTGTGCATGT
CAACATTTCTTGTTTTAGCATATTGTTTGAGTCTAAATCTTAATAGTATCTTAAATAGAAGAATTTTTGTTTATGTTCTAGTTTTATAAGAGTTAACCTC
AGAAGCTAAAGCTGGATTAAAAAATACACCAAAAAGTTAAGACTGGGTGTTATTTGGGAAAATAGATTTTAAAATCATTTTTTCTTTGTATTTTAACCAT
CTTTAATGAAAATGTATTACACTGAAAATAAATGTGAAGGTAGGTGAGAGGGGAGAGATTAAATGTACTGTCAAATACATTTATATTGTCATATTTAGTT
GATAGTATATACACACTAATTCTTCCCAAGTATAATGATATATTTTAATGATAATTAAAGAAGTAGACTATCAAAGTATTTTATAATATTGCTTTCAAGT
CAAATAAATTATTAACATGCACATAATTAACTAGATAATATATAGATATTCTTAATGTAAACAGTCCTTGAATTATTAATCATCACTTTTATTAACTATC
CAGAAGCAAACTTGAAATAAAAAGATCATATTAATGTTAAGCACAAAAATTAAACAATAGTACATTAAAATCTGGGGTAGATAATATAATGGGATTATTT
GGGGAACATTTCTTTTAAAGAGAATTGGCATTCTGCCCATCAACAACAATGGCTTTTTCATTTATTGTTGATGATCAATACTTTTTTAACATTTTGAATA
CATTTATCATTAGAAATCGTAATTCATCTTTTCCCTATCACATATGTGGGTTTCTAATCTCCACTTGTCCCATGTGATATTAAGAAAAGGGCCAATCCTC
CAGTTACAAAGCTACACCAGTTTTATAATTCTTATTTGCTTTATTCTTGCCCCACAAGGAAAYGTATTTACAGGGGTTATACATGGTATTTAGTTCAGTT
GCTGGACTGGAAGTGTTTATATTCTTTTTAAAAGAATAGCAGTTTTTATTCCAGAAAAAAATATTAAATTATAGGATTGTTTTTGATATCTAGACTCTTT
TKCTAAAGCACAGTTAATTATCTTATAATTATGCTGTATAGATTTTCCATATACTGCTCTTAAGCATTAGTGATTTCCACTTACTTCTAGGAATGTTTTC
TCTTCACCTTTCACTAAACTAACTCTAAGAATTGTTACACAGAGTATCTTTAGACTTTTCATCTTTTCTCTTCTTCTAAAATTTCTCCCGTTATGGAAAA
ATATGCCATGATTCTATGATCTTGGCCTTTCCCAGGATTCGGTTTCTACTTCTACTCCTAGTTTTGAAATCAGATAAAATAAGACACAAGTGAGGATGTA
ATTCTGACTTATTCTCAATTTTCCTTTTAATATATTTCTGTATCCTTAAGCTAAATTAGTGCAAGAGACCAAAAAATGGATTCACCTGGGGTGTTTGATC
TGCAGGACCTGTTTTAGCACATGTAATCATGGTGGAATTGCATAAGGCCTGGGGGTGAGAGTAAGGGAGGTAGCTTGGCTCTAGCAAGAGAATTTAGATG
TAGTAAGAGAAATGTCTGCAGTGCTTGTTGTTAGTATAGTACTGACTACAGGAAATAAACTTTCTCCTATTGCTTAGAATAAGTAAACACTCAGTTTAGT
AGCATGTATTGTACAAGAGTTAATTTTGCTTCCTTTAGTTACTTCCCTGGGAAATATAATTTAGACTGATCCACATCATGGATTTGTGTATTTCAAAAAC
AGAAAAGAAAAGAAAGAGAGACAGAAATGCATGATAAATGACCTAAGCCTGATCATTGTGTGATCTCAGGTAATTTGCATATTGGTGAAAGGAATCTATA
CACTCACTGTAAATTTAGTTTAGGCTCTTATTTCTCAAAGTATATAAAATTCTGCTGAAGAGATCAGGCAAAACAAAGCCAATGCAGGAACTGTGAAAGG
ACTTCCCTTGGACACCTTGGTCCCTAAAAGATACTTATAGCTTCCAGGGACAGTTGCCAGTGACCCCTGGATTTTACTGGATCCAAAATGGAATTTTTTG
CAGCACACAGGCCTTTTATATGTGGATTTTCACTACTATCATGAAGAATGTATACAAATAATCTGTGTCCACGTTAGGAACCTATTTAGACATCACAGTC
TCTCATAGTTAGTGACCTAAATTCAGCCCCACCATGCAGAGTCAGTTCCTGAGCATAACTAAGCAATTTATTCACCTTCAAATTCCAGGCATTCTCTAAA
GTCCCTTTTACCACACAGGGTTCATCATAATAGTAATTTTATTTAAAGGCTCACCTTGACTGAGAACTTACCATTTGCCAGGCACTATATTAAGCATTTT
ACACGTGGTTCTTTCATTCTTGTAACATTCCCATTCCTTATCATCCCCACTGTGTGATAAGAGAACTGAATTTAGGTAGGTTAAGTCATTTTCTCAGTGA
CTTTTCAGTAGATCCGTGATTTGAGCATGGGTCAGTCTTACAAATCTTATTTTCTTAACCTCTATGCTGGCTACTGATAAACAGAGAAAGCAAACGTGGT
TTAGCCAGTATATTCAACATTAATGAATTCAGCCCTTTATTCATTTACTGCTTCCATGTTTAGAGCCCATTCTACCTCGATTAAAAATAAATATAAAACK
AGCTAAAATTACAAAATGAGAAATTTTAAGTGTATGTAATCTCAGTAATGACATTTATTTTCTGCTAATCATTGAGACTCCTCTAAGATTTAAAACATTA
TGGCATTTATGGTAGATTCCTTTTCATCAGAGATTGTCAAGTAGAGACTGTCTTCTATGCAGAAGAAAAGATACTAGCTGGGTGCCCAGATTAACTTCAC
AGCCTCTTTTTTTCTAAAAGGAATTATTTGGGACAGCTTTACAATGTTATGTATGTTGGTGAGTTCTGAAGAGATATTTTATTAATTTCCCAAATTAAGA
TTTCTTCTTGATAAGTTAATACAAATCCATCCTCCTCTTTCAACTGTCATTCATAGTTCACATGTCATTTTATAAAATGAGAACAACTAACCTGCCTTCA
AGAAACTTAAAAATGAACAAAGAAGCCATTATTTGCTTAACAGTAAAGTTTAGTATTTTGAAACACAAAACTTGGATTTGTTCATATCCTATTTTCTGTA
AACTCATATCATTAACACAGAATAACCCATGTGATGTTTAAAATAGATTATGAGTGGCATAGTAAAATGTATTACTCTCCTAGAGAACAGAAATTAAAAT
TAGTATCTGTTGGCAAGATATTACTTCATAAAAATTGCCTGAAATAGCATTTTATAAATATCAAATTGGTGTTGCCTATTTTTAATCACTGCATAGTGGG
GTTTTTGGGATATATCAGCTTTTATTATTTATAGTCACAATTTACTTAAATTCTAACATATATTTATTTAAAATAAAACATACACTTTGCTTGCCAATTT
GCAAAAGTGATCATGAACTATGTTTTCTACTTGCAACCTGAGATAAGCCTAGCTAAATGTGGTAATTTTCCTTAACTCTGTAAAATTGGCAACTTCCAAC
CACTTGGTGAAACCGGAAGTCTGAAGTTTTATCCTATCTTGATCTACAGAGATATAATCAACATTGTYGTTTTTAATAGCCAGTTGCCACCAAAGATCTG
ATCACAATAATGCAGAGACCTTTATATATTATCACTAGAACACTGTTGTACATTTATAATCAAAAATGATTAATAATGGCAGTGATTGCCCCCTATATAT
GGGAGCAGAAACAAAATAGAATGTGGTTATCACTGTAATGAAAACAGGACTTACTATTCTGAAAAATGATGATAAACATCAGTTGATCTCCAGATGCTGA
TTACTGATCTAACACTTTGCTTGTTGTACCCCCTAAATGTCATCCTCTCTCTGCTCGTACTCACTGCTCAAGTAAGTTYTTATTTGAAAGGACAGTAAGT
ATGTCATAGTTTTCTRTAGTCTAAGCTGTGTCATGTTGTTCACATCCAGGTGTTAGGCAATCTATAAAACATCTTCTGTTCACCTTGTTTGCACCTTCTA
CTCATTTGTTTTGTTAGTAAAAGATATTTGAGTTTCTTGTTGTCAACCTTAGCATTGGTCCAGGCTAACAATGTGTGGAATGGCAACTATCACCGTGATT
CTAGATGATTTTCCTAGTTGTTAGAGATCAGTCTCAGTGGTTTGTATATTATTGAGGAAGCTGTTCTGCTAGCTGATTAAGGAGTTGCACAGTTGAATTA
TCGTATAGAGACAGCTGATCACTGTTGCCTTTGTTTTCAGCAAGTTTTATTTGAAGAGTAAACTAAACTCTACTTTGATTGCAATTTCTACTCTGGCAAG
GCTCAGGAGGTTTTATTGACCTTGAAAGACAAACTAAAATCACATAATCTTAAAGTTGGAAGAAATAAGTAAACTAGCCTAGCCTTCTCTTTTTCTGTGA
CATCCACAAAACAGACAGCATCCTAATGCAAGGAAGCATGGTGTTATGAAGTGGCTACAGAAGGTTTGAAACCTAGCTTGCAATTTGTGTGACATTATTT
AATTTCCTAAACCTCATTTTCATCCTCTGTAAAATGGATGTAAAATGCTACATACATGTATGTGAAGTATCTAAGCATAATAGGTGCTCAATAAATTCTA
GGCATTGTTATCATCATTGTTATTATGTGACCATTTTTTTCCCCAAAGACCTGATGTTTTGTGCAACGCATCAGTTTCTGATGAAATATTTTCTTTAGTT
TAGGCTGACTTTCAGTTTCCTGTTACTATCTCTAATTCTAGGTTCTTCAAGTCACTGAAAACCACTTTTATGGCCACCTTACATTTCTCCTGTCTTTAAG
CCCTTCACATGCATTATTTATAGATTCATAAACACTCTGGTTGTGACTATTTTTCTCATCTGTAAAATGAGGATATGAATGGTACTTACCTCATAGAATT
GCTTTAAATATTAAGTGAGATAATGATGGCAAAGTATAATACATTGCCAGTCATGTAGTGACTGTTGTGTAGATAAAAACTATTATCCCATTATTATTTA
TAGTACTTTCAAAGTTTCCATTAGTGTTTTGAAGAGTTACACCATCTTTGAACCACATTGAACTTGTTTTCCCATGTATTATATATAGAATTTTATTTAA
TATATATAAAACACATATATCAATATTTAATATATAAAAAATATATAAAATATATACATATAAAACACATATCATAAAACATATATATAAAACATAAATA
TCGTTACTTGGTATGTCGACAAATTCATCAGTCTCAGCTGAAGTCTACAGCTTTCCTCTCTATTCAAAGAAATGACAGGTTAAAAGGTCTTCTTAATGAC
TCTGGAATCAAATTTTTATTTGAGAAGATATTTATTTTAAAATAGAATGACTAAATACATCTTAATAAGCCCTAAATATATGCTAATGTAAAAGTTTCTT
TTTGAAGGGGAAAAAGGGAAGTGAGAAATAGAAAATTCAGATCCAGGGAACCGTCAATGGCATTCATCTAGGAGAGTTAATTTAACATACACACATTAAC
ACATAATTTTATCTTTTGTTAAAAATGTGTATTTACTCATTTTATTCCTATTTGATTAGAGCAGAGAATTTATGTATCGCTACCTAAAATTGGTTAATAG
CTTTCGCCCTTTCAAAAATACTCAGTGTCCTCATTTTAGCTTCAGCTTCTTTGGTTTGGATGCAGTGTGTGATTTTTTTTGTGACAGTAAGCCAGTAGTT
ATTATGCATGGGGAATCCTGGTAGAAATGCAGTATTTTGTGCTAATTGCTAACAGAAAGATCTGTAATACTGGCTGCATGATTTGCCCCTTACATGTGCC
CAGCCATAACAATCTGAATTTAGTACTGTGTTTGTTAATATTAGACACAAATTTATCCTGACACTTTTATAGGCAAAGCCTCGGAAACATTTAGTCATGT
AAAATATAATCATGGTCTTGAAATATTTGCTTTTGCTCCTGTGCATTTTAGGCAGGATTTCACTTTGTAACCTTATTAGTATTGCTGAATTTGGAGAATG
GTTTGGAAAGGTTCTTTGAGGTCCTGATTGTAAGATAGGTGTTCATTTACACTGAGCCATTACTGCACTTTATCAAAGAACAGTTGTTTACAGAATGTGA
ATATTCCATGTCTCTACACACTCTTCAGATTTTCCCTATGATAGTAAATTACATTTGGTTTTAATTTGCATTCCATTTCCAATGTTTGTTGCCAGACACT
TTGGACTTTTTGAGGGCAAATAAAAGTAGCTTCTGGTGTAAGTGAAATATTTTGTGTCAGAATAAAATAGCAAACCATTATGTAAAGGGCACTTTCCCCA
TGTGTTTACCTTATAACTTCATGAGCTAGACTTGTACAGAAGCTTTGAAAAAATCCCCATGGCTGTCATATTCATAAGTCTCTCTGACCCATTCAGASAG
ATGTTAGTATATTGCTTGGAGCGTACTATAAAACTTACCTTTCACTTATGGAAATGTGCTTGTACTTTGTTCCCCAAAAAGCAAATACAGATACCATAAG
ACATGGGATAATAATAAACCTTTGGACACAGAAACATAAAATGGAATGTATGAGCCCTTGAAAGAGCAATTAAATACATTTTCATTTCAACAGCTGAAGA
TGAGGAACCAAAACAGATGGGCAGGGGATAGAATAAATGAGAGAAAAATCAGTATTCATCATGCCTCTTGGCATTCTAGTACACCGTAGCATATTACAGT
ACATCAGCTCTAGTTCTGCATTCTGGTCCCTGATTTATTCTTGTATGAAGTAAAAACTGAGAAAACGATAGGTACTTTCCTTGGAAATTTCTGGAACCAT
CTAGTAAGGAGTATCTAGCCATCCTGTTATCAACAAACTGATTCAATTCCTTCTTGGAAATAGGTAGGTTATATATTATTAAATAAATTAAAGAATAATT
TAATGTTTGCTATCAAAGGCACACACTGCCCTAAAAAGCATGGTGAAACATCCTATTATCATTACCAAGTATCTTTAAAGATCTTGGAGGTGAAAAAAGA
GCAAATTGCTTGCTTGCATCCTAGGAACATCTGCCCAAAATACATCTTCACTAGAGGTCAAATGGAACTTTTAAAACAATGATGAACTTGGGCTCAGTGA
GAGAAGAACCTTCCTATTCTTCATAATTCCTAATAAAATTATAATTGTTACTACTGCTGTTTTTAACCTATGAATTGCAGCTTGAAAGTCTCTGATCTGA
ATCACATGTGCAAAACTTGAAAAAGTGTGTCAGTTATCGATTGTATCAGTTATACATTCCAAAGTTTAGTAGCTTAAAACAACAAGTGCATACACTCTCA
TGATTCTGTAGGTTGGCAATTTGGGCTGAGCTCAGTTGGACAGATCTTCCACTGTCACGCCTAGGGGCTCCCAGATGGCCTCAAGCCCAAATTGGGGCCT
CAACTGCCCTTTCCTCTCTCACGTTGCCTCCCTTCCTCAAGGAGGCTAACCTGGGATTGTTCTGAAGGCAGCAGGGGTCCAAGAGTGTGAAAGCAGAAAG
TGCAAATTTCAATATGTTGCTCTGCCACATTCTGTTGGTCAGAGTATGTTGCAAAGCTAACCCAGATTCAAGGGGAAGGGAAGTAGACTTCACATCTTAA
TGTGAGGTGTGGCAAAGAAGTATTAACAGTAACCTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTTCCCAGGCTGAAGTGCAGTGGCATG
ATCTAGGCTCACTGCAGCCTCTACCTCCTGGGTTCAAGTGATACTCCTCCCTCAGCCTCCCGAGTAGCGGGACTAGAGGCACATGCCACCACACCTGGCT
AATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTTCTCACCTCAAGTGATCTGCCCATCTCAAGCCTCCCATAC
TGCTTGGATTACAGGCCTGAGCCACCACACCCAGCCAGTAGTAACCATTTTTAATTGTCCCCAGAAATGATCATCGCTTTGATCTGTCAGTCATGGTGTT
CTTTCCTCCTAAAGTTTTGTGCTGATTTTCTTCCCGTCCATCTCTCCCTTTCCTGAGTCAAAACTGAAATCCTTCAGGCAGGTATCTGAATAGTCATTCT
TGTTGATCGGACAGTCTCTGCCTCTGCAATCACAAGATAGTTCTCTTTCTGTCTCTAAACCATTGTTTTTAATGTATTCTCCTGTTCCTCACACATCTGT
GAGGTTTTCTATCTTGTTCTCACATTCAGAAGTTTTCTTCCGGCCAACCCCAACCTCTTCCCTCTTCCCCTCTTCCCCTCTCTCTTCTCTCCTAACATTC
TACCTCCCTGATCTTCTCACTATTTCATGTACTTGGGCACATGCCATGCTCAAACATTAACCCTTGCCATTCTCTTTGTCCAAAGTGTTTTGATACCCTT
CTCTCACAAAAATATTAGCCCACAAATATTTACTGAATATTAACTGTGTACAAGACCCTTTCCTAGGCACCATAACCAAGGTGTTTAAGGTCCCTTCTTT
AACGAGGAAGAAAGAATATATAAATAAATTAAGTAATAATGTAGCCCAAACAGGCATAAGTGTTAAGAAAGCAAAGGAAATGCAGTAGTGACTGGCGCAG
GGTATAGGGCTGGGGGTGGTGGGGAGTTTCAGGTAACAGTAATTTTAGAATCATCAGGGACTTGCTCTCTGAAAAAGTGACACTTGAGCACTTGACCTGA
ACACCTAGGAACCAGGTGGGAGAAGACCAAGGGAGAAGAATTCTAGGTAGAGAAGACAGCAAGCAAAAGGACCTCTTCCAAATCCTTGCTCCCTTGAAGA
TTGAGCATCCCTATAATTTATCACCTGGTCCAGTGGTTTTATCCTTTGGCTACATGGTTTTTCAATTACTGGAATATTTTTAAAATACAGTGGTTCACGC
CTATGATCCCAGCACTTGGGGAAGCTGAGGTGGGAGGATCACTTGAGGCCAGGAGTCTGACATCAGCCAGGGCAACACAGCAAGACCCCATCTCTATGTT
AAAAAACTAGCTGGATGTGGTGGCATGTGCCTGTAGTCTCAACCACTCGGGAGGCTGAGGCAGGAGGATCACTTTAGCCCAGGAGTTTGAGGCCGCAGTG
AGTCATGATCACACCACTGTACTCCAGCATGGGTGGCAGAGCAAGACCCTGTCTCAGAAAAAAATAAAAATAGAAATACTGATGGTTAGACCTTACCACA
GACCCATCAAAAATCATATTCTGTGGTGGTGAGGAGGGAAAGAGCCCAGGCATCTGTATTTTATAAATGTTCATGTGATTCCAATGGGCAGCCAAAGGTG
AGAACCACTGATCCACACCAATGTTGTCACATTCTAATGTGCAGAGATAATGTGGGACGCAGATTCTGATTTCCTAGATCTGGGGTAGAGCCCGATTATA
CATTTCTAATAAGCTTCCAGGTGGTGCCAAAACTGTTGGTCTGATTGCTACTCAAAGTGTGGTGCACAGACCAACAGTAGCAATATCACCTGGGAGCTTG
TTAGAAAAGCACATTCTCAGTCAGAGACTAAGAGAAACCAGGTGATCAAATCACCTCCTGATTCAGAAATACTAGGGGGTGTGGACCAGCCCTCTAGGAT
TTCCGAAAGTCCTACTGGTGGTTCTGAGGCCCACTAAAGCTTGAGAACCAGACTGTGGATCTTGGTGTTTAGACACAGTCAATTTGGCACTTAACTGAGT
TCTATGTTGTGTTTTCTCTAATTGTTTAATGTGGACAAGTCTGTTGAAGTTTGCATTGAACGGGGCTATGAAGCCAAAATAATCTTTTACTTGGTTTCCA
TGCAGTGCAAATTTGGTTTCATTCTGGCTAGGAGAAGAGTAAGAGATATAGCCCTAGTTCCAGACTTCTGCTCTGGCCTCCAAAGCCTCTTTGTTCATTC
AGCTTGTGAAGCATCAGGAGCTTGCAAAGCCCCTGCAGGTGACGCTCTACAGTTGTCACCTGCAAGAAGCTGCAGGTGTCACCTGCAAGAAGCTGATTTA
TTAAAAGCCCTGCCAGGGCAGTTTAATCCCTGTGAAGTGATATTGTAACTCACCTCTAGCTGCTGTCCTATCAAAAAATCACTCTCCGTCCTCCTTCTCT
TTGTTTACAAGCACCAGTTAATGGTTTTCTCTCCATTAAGCAGCTCAGGGGACTGCTGTTTAGAGACCTAATTGAATTCTTGCCAAGTTTGGGCATGATC
CAGAGCTGCTCCAATTCTCGGTATTTTCCATGCTATGTATTTTCCCCTATTCTAASATGTATATAGCATTGATACCTCTATCTGCAGAATGTAAGAAATT
GTAACTGTATACATGAGAGTATATTATAAATGCAGTAGTTCCTGCTCCTTGGCRTGCAGATACACCTCATTACTCTGCAATGCAAAACTAAAAATATACA
TGTTTTTTAAATCTGCTAAAAGATTCAATATATGTTAATTTTGGAAATTATACGACTATTTATGAGATCTATTCCATAATGAAGAGTCAACAATCCATTT
GTCTCTCTACCAATTCTACCACCTATCCTGGCCCCTACCACCAAATTTGAATAGCACCTCTTTGATGGCCAAAAATATTATGGTGAGTGTATTAGTCCAT
TTTCGTATTGCTATAAAGAAATGCCTGAAGCTCGGCAATTTGTAAAGAAAAGAGGTATAATTGGCTCATGGTTCCATCAGGCTGTACAGGAAGCATGGYT
GGGGTGGCCTCAGGGAACTTTCACTCATGGCAGAAGGCAAAGCTGGAGCAGGCATCTTCACACAGGCAGAGCAGGAGGAAGTGGGGGCTGGAGGTGGCAC
ACACTTTTAAATAACCAGGTCTTATGAGAACTCTGTCATGAGAACATCACTAGGGCRGTGGTGCTAAGCCATTAAAACCACTCCAGTGATTCAATACCTC
CCACGAGGCCCCATATCCAGTATTGGGGATGACATTTCAATATGAGATTTGGATGGGGACACAGATCCAAACCATATCTGGTAGAATATTAGCATTCTTG
GCTACTTAAAGAATATAGTTTTTCTAGCCTTTAGCAATTATTTATCTATAAGACTGAAAGAGGTTAATCATCAAAGTAGGGATTTGTGAGACTGCATCTA
ATCATGGGTGGTAATAGACTGAAGGGATAAAGAGGAACAGTTGGCAAATAAATAAGTCAATAAATATTATCATAAGAAAACACTATAGAAAGAAAAGTTA
TTTTTATTTTGACTTTTTATTTTATTTTTTGGGGGGTGGAGTCTCAGTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCC
GCCTCCCAGTTTCAAGTGATTCTCCTGCCTCAGCCTTCTGGGTAGCTGAGACTACAGGGGCCCGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGA
GACAGGGTTTCACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCTCAAAGTGTTGGGATTACAGGCATGAGC
CACCACACCCGGCCTTCTTTAGACTTTTTTTTTTTTTTAATTATTCTACTCAATAGATACCAAGCTAAAAATTTATATACTTTTTGAATGTGTAATACAT
AAAGCATGTGGAGGTCAAATTACTATGACTTTCTCCAGTGCAATCTAATGGAGCACCACACATTTAGACTCTGGAGCATGTTTTATTCCCTGTGGACAGG
TTCCTTTCGATTGCTCATGTAGGGATTTAGGGGRTACTTTTAATGTTATATTCTATGCCTTAAAGGAAATCTTCAATACTTGTGCAATACACTTTTTCTC
CCCAAATCTATTTGCTCSTCCTCTTTGGTCCCTCAGTTTATATTATCGCCTCTATTTCAGGTTCTGGGCGACATGCATATCTGTTCTTTTGTTGTTGTTC
TTATCTTTCCTCAACCATCATCCATTTGATAGCATTAATATTCTGAGATGAGTAGTTTCATCTTCCATGGAATTATTCTTGGACCATAAAATATTTCATA
GCTGAATTCTTTGAACATCTGCCTGGGATGTTTAGCAGAAGTAACTACTCTTTGTCACTTCTCTTTCACAGTTTGTGGAGATGAGTGCACTGGCCTTCTT
CTCGGTGACTTGGCTCGCCTGGAGCAGATGGTCATGAGCATCAACCTCACTGGTCCGCTGCCTGCGCCATATAAAATGCTGTATGGTCTTGAAAATATGA
CTCAGGAGCTAAAGGTAGGTTGGTGCAGTCACAAGCAAGGGCCAGGGACAAGGTGACAGAAGCTTCACAAGCGGTATTGGCTGTAATTGGTAAATGTTCT
TCCCACAGCCCCAAATCAAGGGACACAACTGTTAGGGAAATTCAGAGACTTTCTTAACCAGTGTTTTTCAAACTCAAGAACTATAATATACAGATTTCTA
TTAAGGGAAAAGAGTCTCATGTACCCCCCAGTGTCTGGCCTAAATCAGTTTTATTATGTCACTTAAATATGTGCAAACATAAAATCAGGTATAAACTCTT
TATACTTATAGCTCTATAAAATTAAAACAAATTARTCCTTACAAAACCAATAAAATTCAAATTAAAAACATTAATATAAAGTAACATGATTTTGGCTGAA
TGGAAATTGCTGCTTGCAACAAGAATAGGATATTGASTATTTTCACACAGTTCTTCCACCAGAGATGATGTGGTAACTCATTTCTCCTACCTTACCACAT
TTGAACCAGAGAGCCCCCTACAAAGGGTCCTGAAATGAATGTGAGCATCACTTGACAAGTTTATGTGACTAACGTGCTCAGTCTGCCATAGGCTCAAACA
CACAGGCAAATGTAGGCACTGAGATCAGGTGGCCATATTCATCTCTCAGGTGCCTAGCCTGGGATCCAGAAATGCTTACATTAATATTTAAGGTTATCAT
CAAAATGAAAACACATGATTAGAATCTTGTACTAAAGAGCTAGAACTAGTAGACCTTTAAAAGTTCTTCAACAAGCACCAGTTTGATAAACACTGTTCTA
AATTGTGGTTAAAGCTTTTGGTAGTTAACGAGGTAGGAGAAAACATTAAAGAAATTGGGGTTGTTTCACCTGATGRAAAAAGATGAAAGGTGTCAACTTA
CTATCAGTCAATTATCAGATATTTATTAAGAAATTATAGAATACCTCAGCATTGCACTTGGTTCCCTGGGGATTTCATGACTCTTTTAATATCTTCACTA
CCCTTAGGAAATGTAGATTCTATGTGCTTTAAAAATAATCATTAAACAATAATCAAGCAATTAGCAAGAATACATAATGACCATGTGTTTTACAAACATT
CAAAGTACATTAGCGCACAGAGACTGGAGAAATCAGTAAGATTCAGGGTAACCAGAGAATGTACCATTACTGAGAGTATAATTTCTGTTGGAATTTGAAG
TGTAGACACAATTTTAGTAGAGAAGTATTTGTTGCTTTAGAGGAAGGCATCTAAGATTTATTCACTACACATTGGTAGATATTCTTTTAGGAAATATATT
CTTTAATTCTGACCATAACCTTTAAGGTAAGTATTATTATCCCTATTTTCCAGAAGAAGAAACCAATAATGATGATAACAAGAATAACTAACATTTATTG
AAAAGCTAGGCAATTGACTGAAGTCTTAAATGGATTACCATACATAGCTTTTACAGAAACTCCAAGAAATAGGAAAGAAGTTGTCATGGTCTGAATATTT
ACATCTCCCCAAATTTATATGTTGAAAGTCTGTCACAGTCCATTGGAGCTGCTGTGACAAATACCATAAACTGATTAGCTTATAAACAATAGAAATATAT
CTCTCACAGTTCTGAGGCTGGGAAGCCCAAGATCAAGGTACCAGCAATGTTCRATGTCTAGTGAAGGCCTGTTCCTCACAGAGGGTGACTTCTTGCTATG
ACCCCACRTTTAATTCATTTAATATCTGGATACTGAGGAAAAGGATAGCTAGCTCTCTGGGGTCTCTTTAATAAGGGCACTAATCCCAATCATGAAGGCT
ACATTCTCATGACTCAATCACTTCCCAAAGGCTCCACCTCCTAATATCATCACATTGGGAACTAGGATGTCAACACATGGATATTAGAAGGACACAAACA
TTCTGCCTTCTGCCGTGTGAGGACACAGGGAGAAGGCAGCTGTGCTTAACAGAGCCATGTGAGCAGAGGCAGTGGTGTGAATTAGATCTGTCTGGCAGAT
ATTAAAAGTCAGACCTGCTAGTGAAAGATAAGGCTGGAGACTTCAGTGAGGCAGGGTGATATGATGGACAACCTTGAAAGCCAGGCAGAGGAACCTGAGT
TTACCTTGTGGTCCTGGTATTCAGGGAAGTGAAGAGTTTTAATGAAAAGAATGCCGATCAGTTATTTTCCTTGTATATGGAGAGAATACAGAAAAATAAA
TTAAACTAGAAAAGCAAACATTTTAGTTGAACATGAAACATTTTAAAACTAATACTTAAGCAATGGATGATGAAGTAAAGAGGATCCTATAGAAGAGGCT
CCAATTTGTGAACATCTTCTAAGCCAAGGGATTCAGTGACCCATCCACTTCTGGCTGGATATTGATCCAGATGACCTGGATTATCCTTAAATTCTAGTCT
TTCTTGATTTTTTATTTTGTTCTTCTTCCATCATTCACTTGACATTTGTATACTGAGGATCACCTTCTGGTATTATAAAAACTTAAGTTATTTCACCTCT
TTGCTCAATTTCTTTAACTATGTCAGTGCTCCCCAAGCTTCAGCCAAAGACCATCAAGGACACACATGTGATGGAACAAAGTGGGATTTATTAACTTGTT
GCAACAAGGGGCACTGAACACCATGGGGGAATTGTGGGCTGTCTCAATAAGAAGGTGTTAGGAATAACTTCTAGTATTTGAGGCTGTGCTAGATAACTTA
AGGTTAGCACTCAACTGGGTGCTATTCAGAAGTGGGAGTAATTCTGTGAGTATTTTGTGAATCCTATCTAGAGGGAAGGAAGAACAGAGGGAGGATAAAG
CTATGATTAATAAGGAGGCAGTGTTCATTCATATTAGCCAGGAAATGGGAGGTTGGGGTAGTTTTGTGGTCTACACAAAACCCGCTATGGTTTTGTCTGC
GCTTAGACATTACAGGGTAGTCTCTTTTTTTCTGTTTCATTCATCACTGGTTCAGAGTGACCTTGTCTAATTTAGTGTCCTATGAGATTATTTATGTTCC
ATAGGAAAAAAATATGGCCCTGCTGTTAGGCCAGTTCCTAGCAACACCGAGGACAGGCCAGTTAGTTAGCGCCTAGCCAGGTCTCTATGTTAAGGCCTGC
CGTTCTCTTTTTTACCTGTGATCTGTGTCTCTGTTAATTGGAATGGGAGCCTTAAATGGGCCAGGCAAGGAGTTTATCTTAACTCTACCCCTTACTGACT
GTGTGATCTCGTGCACATTTTTAACTGTCTTCAAGACAGTTTGCTCTTTCATGAAATGGAATAATGCTTACCCCCCATAGAGCTGTTGTGAAAATTAAAT
GAAAAAACAAAACATAAAAAGCCTGGCACATAGTAATTTCTCAATAAGTCACTGCAATTTTTATTATTTGCCTGAATATTTGGCATGACACTCAATGTGT
AAGTGCCCAGTTGAAATAGTTTCCTTATCTTTTCTTTGAAGGTGAGAAGGCTAAGTTCCTTTTATATACAAAAATGTGTTCTGTCRAACACTATCACTGC
AAGGCCATTTACTAAAAATGTTTATGGGATGGAATCTTTTTCAGCACTTGCTGTCACCTCAGCGGGCCCCAGAGAGGCTTATTCAGCTGGCAGAGGGCAA
TCTGAATACACTCGTGACMGAAATGAACGAGCTGCTGACSAGGGTAAGGTGGCAAAATTATGAATCTTCTGAAAGCAGATAGATTATGTCAATGAAGGAA
AATTACTTCAAAGTTCTGAAATGCAAATCACCTTCTTCCTAATTCCCAATTTGGTATATAAAATAGATGTATTCTGACTTGCTAATTCTGCTTCAAATCA
AATCATAGAAATCAGTAGCACGCAGAAAAATTGGGGATACCTGGAAATTGTCAATGGCTAAAAAGTCCAGAATGACAGTGTATTTTGAGAACTTTATTCA
GTAGCCTCCGTGGTAAAGTTTGTATCTGTTCTGATTTCCAAAAGCACTATCTTTGATTGTGTAAAGAGAAAGAAAAACAAATGAAAATRCTTGTGGTCTC
TTTCATCTCATCGTGGGATTTTTGCATTAGTATAGAAATACAGTGTAAATCAGTCTTTCCACACAAAAGAGGAAATCTTCTCTATTGTGAGACTCCAAAG
TGCTTAAGACACTTTTTAAAGTCAGAATGTAAAGTCCATGTTGCATTTATCAGGCTTTTTAAAGAATTGGAAATTTTAAATTTTCAAAACTGCGATGGTA
TTAAAAACTTTTTGCAGTTAGAGAATGAAGAAAACAACATAAAGCCCGCCATCTTGTGGCCAGAAATATGCATGAAGCTAGAAACGGGGCTGCAAAGTAC
GGATTTAATTTGATTATCTAAGAGCTTTAAATGATAAAGAGTATTGGAGCTAGAAGGTTCCTGGGGATTATCGAGTCCACTTTGTATTTTAAAGAAGAGC
TGCCTCGGGCCATGACAGTGAAACGAATTAACAATGGCCATACAATTTGCTAAACTCAGGGACTTAAGCTGGACCCAGTCTCAAGATTCCCACTGGCCCA
GTACTTTTTCTACATAGCCTGCTGTCGGTTTAGGAAAATATCCACAGGAAAATCAAATAGGCTTCTGAGCACATAATGCTAAACAACGGCCCTGATGTTA
CAATAGCATACTAAACACTTTTTCAGAATCTCATAGCAACAATATAGAATGTACAGATACAACACGGAGTTTCTTGCCAAATGTATGTAGACATTAGATT
AAATTGAGTGCATTTATCTCATATTAATTTAATATGAAATAATTCATATTTGTTATAAATAAGAATTTTCTAACAGGTCATGGTAGAATAAATCAATTTA
ACAAGCACACATAAATGTTCATAACATACAAAGCCTAAGTTACGTGTTGGCAGATGAAAAATATGAATGAGGCTCAATCTGTCTTCAAAGAACTTTGAGA
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTACATCAGCATTTAAGTGTATGGAGGACCATATTAGACAACTGCATGCAGGTATATAATAAAACATGAAA
TAAAATAAAGTCGGAAGAAATTCTGGAGAAATATTTAATAATAGAATAATTTCATCTGCTTAGGGGTAATTAGAAAAAATTTCATGTAATAAATGGCATT
TCATTCATTCATTCACTTAACTAATACTTTTTGGGAGTCTCTCATGTTCTAGGAATTATGACACTGGGGATAGAAGTGTGAGCAAAACTGCACAGTCCTT
GCCCTCATTGGCTTAGTATAGTCTAATGATCTGACGTTAGAGACACAAGAAGTATTTCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCGCC
GAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACA
GGTGTGTGCCACCACACCTGGCTAATTTTTTTTGTATTTTTAGTAGAGACGGGTTTCACCATGTTCGTCAGGCTGGTCTTGAACTCCTGACCTTGTGATT
CGCCTGCCTTGGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCACCGCACCTGGCCACAAGAAGTATTTCATTAAGAGTGTCAGATCTTTATTATGTC
TCAACCTATACTCTTTACCCTTTCCAGCAGATTGTCTCATGCTATGTTTTTTAAACAGACTTTATTTTTTAGAACAGCTTAAAGTTCAAAGAAAAATTGA
GTGTAAAGTTCAGAGTGTTCTCATATCTACTCCCTGCCCCCACAACCTTCCCCACCAGAATGGTACATTTATTATAGTCGATAAACCTAAGTTGACACCT
CCTCATCACCCAAAGTCCATAGTTTACATTAGGGTTCCCTCTTGGTATTGTACATTCYATGGGTTTGGAAAAATGCATTATGACATGTGTCCACCGTTGT
TGTAAAATATAGAAAAGTTTTACTGCCCGAAAACTCCTCTATGCTTCACCTATTCATACCTCCCTCYTCCTTGACCCCTGGCAACCACTCATATTTTTAC
TACATCCATAGTTTTGCCTTTTTTGGAATATATAGCTGGAATCATACAGTGTGGTACTTTTTCATATTAGCTTCTTTCCCTTGGTAATATACACTTAAGG
TTTCTCCATATTTTTTCATGACTTTATAGCTCATTTCTTTGTAGTGTTGAATAATATTTCATTGTTTAGACATATCACTGTTTACTTATTCATTCCCCTA
CTGAAGGACATCTTGGTTGCTTCCAAATTTTGGCAGCATGAATCAAGTTGCTGTAAACATCTTTGTGCAGACTTTTGTGTGGACTTAAGTTTTCAACCTA
TTTGGGTGAATATAAAGGAGCATGATTGCTGGATGGTATGGTAAGAGTATATTTAGTTTTGAAAGAAATTACCAAAATGTATTCCAAATGGTCTTTTCTA
TTTTGCATTCCCACCGGCAATAAATGAGAGTTTCTGTTGCTCCACATCCTCAATAGCATTTGGTGTTTTTAGTGTTTGGATTTTGTCATTCTAATAAGTG
TGTATGGTATCTCATTCTTGTTTTAGTTTGCAATTCCTTAATGACATATGATGTCGAGCATCTTTTCATAYGCTTATTTGCCATCTGTATATCTTCTTTG
GTAAGGTGTCTATTTAGGTCTTTTTCCATTTTTTCATTGGGTTGTTTTCTTGTCGAATTCAGAGTTTTTTGTATATTTTGGGTAATAGTCCTTTATCAGA
TATGTCTTTTGCCATTATTTGCTTCCCCTCTGTGGCTTGTCTTGTTCTCTTGAGAAGTGTCTTTCACAGAGCAGAAGTTTTTAATTGTAACGAAGCCCAG
CTTATCAATTAGGTTTCTCCTTGTTGAGCCTTTGGTGTTGTATCTAAAGACTCATTGCCATATCCACGGTCATCTAGATTTTCTCCTATGCTATCTTCTA
GGAGCGTTACAGTTTTGCATTTTACACTTAGGTCTATAATCCATTTTTAGTTAATTCCAATACTATTTTAAAATAAACTTTTTACTTTACAGTAGTTTTA
GATTTCAAAAAACTTGCAAAGAGAGTACCAAGAGCCTTCACATACTCCATTCCCAGTCTCCCCATTGTTAACATCTTACATTAGCATGGTACATGTGTCA
TATACATGTTATATACATGTGTCATATACATATTAGCTCATATACATGAGCTAATAATATTGAAATATTACCATTAACCCAAGACTGTATTCATATTTTT
TCAGTGTTTACTGAATGTTTTTTTACTGTTTCAGGATCCCATGCAGGATACTACATTACATTTAGCCATTGTGTCTTCTTAGGGTTCCTCTAGACTGTGA
CRACACTGTCAAAAATACTGTAACAGTGTTTCTGATGACTTTGAGAGTTTGGACAGGTTCGTGTGTTTGGTAAGCTGTCCCTCAATTGGGGTTTGCCTCA
TATCTTTCTCATGATTAGAATGGAATTATGAGTTTTTGTGGGAAAAACTTCAGAGGTAAAGTACCATKTTCATCACATCAAGAACCCATGTGACCAATAT
GACTTATTACTGTGGATATTGACCCTGATCACCTGACTAACATAGTGTTTGCCAGATTTTTCCACTGTAAAGTTACTCTTTTATGCCCTTTTCATACTCT
AATACTATTTTTATCTRCCCATTCTTCAGRTTCAGTAACATAAAAGGCGCAGAAATAGGACTACTGAAAGCAAAGATCACTTTGATGGGTTGAGAAGGGG
GAGGAAATGTAAATACTCATTAATTACTTTTTTCCTACCATATTTATAATTASAAATATATCTTCCATGCAGACCATAAATACTCAAGTCAACATGACCA
ATTCTCTCTTTCCCTGTGGTCAAGCTGCATGACAATCAAAAGGTGAATTAATACAGATGGAATTATAATTAGAGAGTTAGATGGTTTCATTATCCAAAAT
CAGGCTAAGCACGCTAATGCCTCTATCTCAGAGTCATGAATGATCCTGCAGTTGTGACCAGGGTATGAGAAATGCAGTGGCCACAACTTCCAATTACCCA
TGACTACATTAGAGGAGACAGTGCTCTAGACTAGGACTGCACATTGGAATTACCAGGAGCCCTATCTCACACCCATAGGTTGTGATGCAGTTGGTCTGGG
GTAGAGTCAGACCACTGGGATATTCAAGAACTCCCCAGATTATACWGATAAAGAATTACTGTGATCCTGTAGTTACCTAATAGCTAAGACTCTCTTCCCT
CTGGAAAATGCCTTAATTGGTACTGCCAATCTTTTTTTTTTTTTTTTAAACAGAGTTTCACCCTTGTTGTCSAGGCTGGAGTACAATGGTGTGAACTCAG
CTCACTGCAACCTCCACCTCCTAGGTTCAAGCAATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGATTGCAGGCACCTGCTACCATGCCCAGCTAATTTT
TTTTTTTTTTTTTTTTAAGTAGAGACAGGGTTTCATCATGTTGGCCAGGCTGGTCTCGAACCCCTGACCTCGGGTGATCCACCCGCCTCAGCCTCCCAAA
GTGCTGGGATTACAGGCGTGAGCCACCATGCCCAGCACTACTGCCAATCTTTGTTATGCTCCTTTTTCTCTGCTTGGTTGGCTCACCAGTCACTTGATAC
AGTCTTTAGATTTAAGAGCACATGTCAAGGTTGATCCTGCATGACTGCTGTAGGAGCTACCCTCTCTTCTTTAAGGGCTTTTATATTTTATACTCATTGT
TTTTAAATGGAGAAATCTAATTCCCTAATATCCCTGGGTAAAGAAGACATTATTCCACCCAAGAACTCATATTTAAAATGTATTTTGATATATTTTAATT
CATGTATAAATATAAAGTAAAAAAATTACATAATCATATATCTCTTTCAATGCATTTTGATTTGTTGCCATTTTATTTTACTCACTGGAAGAACCCAAGT
TCCTCACATATGAGAATCATGTTTAACATATTCAAACTGCCCTACAGTATGTGTGAAATATTAAGATGCTTTTTGATGATGACTCTACTTACCTCTATAG
CTATTGTCCTTAGCTCCTTTCTTTTTTCAGAGCCAAAATTTTTTAAAGACTTGGAGACAAGTCTGTATTTATTTCTCACTCCACTGCTGCCTGGATTTTC
ACTCCCAGCCCACTACTGAAACTGTTTTTATAAGATAACCAATGACAATCTGGTAACTAAATCCACTGGATACTTATTAATTTTACTTGAAATCTCTGCA
GCTTTGATCTTTCCTTCCTTCTTAACATACTGTCCTCTCTCTGTTTTTCTCTTAATTCTCCAACCTTTCATTCTAAGGCTCTTCCTCTCATCATCCCTTC
AAAGTCGGTGTTCCTTGGGGACTAGGCCTCAGTCCATGTTTTCCCTCACTGTATAACACTTTCTTTGGTCTTCAATTGCCATGTACAAGCTGTTAATTCA
TAAATCTATATTTTCAAGGCTGACTTCATTCTCATGCTTTGGTCCTATGTGCCTTACTATGGATTGGACATCTCAAACTAAACTCATCATTTCCTCTTAA
AGCCCATTATTTCTCCTGTGTAGAACATCTCAGTGTTTTATCCGCCAGTATATGCCCAGTCTCCCAAAGAGAAATTAGCAGGTTGCCCTTCACTCTACTC
CCTCTTTCATCCTTCATCAAATTCAGTTTCCTTCTATGGTGACTCTTTGTAAGCCTTATCCAACTCTAACCTGTTGTTATTTATATGGCAGAGTGAACAT
TCTAAATTGCAGATCCTATCATSTCATTCTCTTCCTTAAATTGTACTATGGCTTTCCACTTTTTTCAGGATGACATACAGTGCTCTCCCACCATGATCTA
ATCTCTGCTTCTCTCTCATCTCTCCCCACTACTCATGGTCTGGTCATCTGGACCCCTACGGATTGAGGGTATAAGCCAGAAACCTACAAATTTTCTTTGG
TGCCTCTTTCTTCCTCATGATGCTCCTGCTTATCCAATTCATTACCACACACTGGGCTTCCACTTGTGTGTATGGCATTCATCTCTACTACCCCACTCTC
ATCCAATCTCATATTGTGTAGTTTGGGATTACCACATTTGTTTTTTAGCTGGTCTCTCTGCTTTTACTCTTGTTCTCCTCCAAATCTGTTCTCCGTAACG
TAGCCAGAATGAATGTTTGCTATTCCAAATGTGAATACGTCATCGCAGTGCTTACAAACTCTTCCCCTGACTTCCCTTAGGCTCGTAGGATAAAGACCAA
AATTCTCCCCTTGGCCACATCTCCCATCACTTGTGCCCCTGGCCATCTGCACTCCAGCCATACTGTCCCCCAGCCACTTTGTCCCACCACAAAGCATTGC
CACAYATTTCTTTATTTTGCCTTAAAGGTAATCTACCTCTCCCTACATTTTGTTAATTTCTGTTAACTCCAATTTACCTTTCAAATCTCAGCTCGTGAAA
GCCCTCTGTGCCATCGCAGGGGTTCCAAGATTCCTCCTGTGCTTATCTTATACCACTATTTTTCCTCTAGTTTGTAGTTATAAATTTATCTACATGATCA
TTTGACAAATAACTATATAGTCCACCAGACTATAGACTCCAAATGGGCAAGAAACCTTTTTGTTTCTTACCACAGTATCACCAATATTATACACATAATA
GGTGTTAAGTCAATATTTGTTTAATTAATTGTGAATGATTTTAAAAGCATTTGAACAACAAGATGGAAATGTAGACAAACCCAAAATAAACATTTATTTT
GCACTCTTTAAAATGTGTTAAAATCAGGCATATATTTATAATTATATTGTTGAATATTTTGTTTTCATTGATAAACACCTCTTAACTATTTATATTCTGT
AAGGGGAGAATGCTATGTAGTAGATTGAACTGTATAAAATATTAAAATTTTGTTTCACTTATATTGTATTTTATTGCCTATTGAATATCAAATTTAATGA
AAATGAAACATTTCCAAAAGGATGAAACTAGTTTTTAAACGATTTAAGTGCCAATATTATAAGTTTACAAGATTTTATTTATAGTTTTTAAAAGATTTCA
ACTGCTAACAGTGTTTTTTATTTCTCCTTTTATATTTTTAAAAGATATATATATAATATAAAACAAGTCATATCTTTTTGGTTTGGAACTTTTAAAATTG
GCACGTGAAATATTTAGGAAGAAATTCCACATGGAACTGGCTCATTGTCATTCCACGGGGTCAGCTGGTTGCTCCTTCTTTCCTTGTGTGTTGTTGGTCC
TTATGGCTTGCCTGATGAGTGCTTCACTACCACTTAGACATATGGAGCTGGTAATATTGGAAGATGACCCTTGAGAGTATCATATAAATGATTTGATCTG
AAATCTAATTTTAGCAGGAAACCATATGAGTCCACAAATGCAAAGGTAGACAGTATCTAAGCAATGTTATCTATTCAGTAGTTAGGTTTGCTCCATTAGA
TTCTAGTTTTAACATAAAGAAGGCAGAAAATGAAACACACTGGTCATATCCAACCAAGAAAATTATGTGCAGATTTTAAGAGGCACAGTAGAACTGCTTG
AGCTAAAGCAGGAAAGTAACAGCTACATTGTTCAGAAGTAAATTAACGTGTGCCTAATGGTAATGCATGCTGCCTAGACATAAATACTCTAAAAAACAAA
ACAAGAAAAAATAGAAAAAGAAATGGGAAAAAAAAAACCTAGTTGAGTGAATGTCAACATAAAAGAAAAGGTAATCAAAGGCAAGAGAGATACAAGATAC
TGTGTAAGGCATCATTTACAAAGGAACACTGTAAAGATTGCAGAATAGAGGTAAGAGAATGTTAAAATAAGAAAATCCAAGATAGAGAATGAAAGGAAGA
TTGTACAACATATTAGGATAAATGAGAAGTTATTTGTCAAATACTCAAAGGACAAGATAATAGTGAATAAGAAGAAGGATGACTAAGAGATGGAGATGGT
AATTTAATAAAACACAGAAAGAGCCAAACTGAATCAGACAGATAGTTCCTATCATGTAGTATTTAGCATTCATTCATAACATTATCAATAGCCTGTCCTG
GGTGAGATTGATTTTTGTGAATTTTGCTTTGGCAGTGATACCACTATCTATCACCACTACCCATAGGTGATAGTGCATTTGTCATAGGCTTCTTTATGAA
GTCTCTYGTGGGTATTTTTGACCAGGGTGAATCTTCAACTTAATTACTGTGTAATGAGACATGATTTTTAAAAATATATCTAGATGATGTTCTGATATGA
TTTTGAAATGTGTTAATTGACTGAAAGTCAAAACTTATATACTTAAAGTATACATTAACTGGAGCAGTGTCCTCCACTCACCTAGAATACTCCAGTTTTT
CATGTATTTTACTACTCTTTCTGGATGTTAGCCAAACACAAAATAGTGTTGGGTACAAACAAAATATAAGTCTGTGAGACAAAAAAAAAGTGTATTTCAT
CTCCAATTCCCTGTACATGTAAGTTCAGATAAGTTACTTAACCTCCTCATACCTTCCTTTTCACCTGTGTAAAAAGAGGGATGATGCCTTCTATATATCT
CTAAATTCAGGAAGAGTAAGTGAGACACACGAGAGTGCTGTAAGCCTTTGCAAACATGTATATAAATTTGGCATAACTATTCACAATAGCAAAGACATGG
AATCAACCTAAGTGCCCATCAATAATAGACTGGCTAAAGAAAATGTGGTACATACACACCATGGAATACTATGCAGCCATAAAAAAGAATGAGTTCATGT
CCTTTGCAGGGACATGGATGGAGCTGGAGGACATTACCCTTAGCAAACTAACACAGGAACAGAAAATCAAATACTGTATGTCCCACTTATAAATGGGAGT
TAAATGATGAGAACACATAGACATGTAGAAGGGAACAATGTTCACTGGGGCCTACCAGAGGGCGGAGGATGGGAAGGATGAGAGGATGGAGAGGATTAGG
AAGAATAACTTATGGGCACTGGGCTTAATACCTGGGTGATGAAATAATCTGTGCAACAAACCCCATTATGCATGGGTTTTTTTTTTTTAACCTGTGTAAC
AAATCTGCACATCCTGCACATGTATCCCTGAACTTAAAAGTTAAAAAAATATAAAAAATACAAGTAATTCTGAGGTACAGATGAGCCTGACTGTGTAACT
CATCCTTTAGCATGCTAACCCGCATTAAGTTGATGCTTTTGGTGCCGGGAACCTCACGTCTCCTCCTCTTCTGGAATAGCCTAGAGAGGAAGCTCTTCTT
CTGTGTTTAGAGGGAAGGTATCTCCTTCAGTAAGCACTGTGCTGGCCCTGAAGAGTCTTCCTACCCTCTTCCTGCCCCCTACTGCCACTCCCACCCCACC
AGCGTGGAACTTCGTGTGTATTCAAAGGTCCAGTTTGAATTACTGTGAGGCCAGTGGCTAGAAAGCAGTGTAGTTGGGACTGGAGATTCWCATGCCTGGC
TCTYCTCCCAAGCTTCAACTGTAGCTCTTGAGCAGCAGCTTCCTCTGAGCTTCTAAAAAATGCCCAGAAAAYTGCCCAGCCAACCACATTTCCTGGCAAG
CATAGCACCAGGCATATGGTCAGTTTGAGTGCTATTAGATAGGCTTTAGAACTTCCAAGGGATCATTGGTTTGATTGTCATTGTATCCACCAATCACCCA
ACATCTTTGACCCACGACAATTTGCCAGACACTATGCTTGGCACTCTGAGGAATAAAAAGAGTAAGACAGATCCCTAGCCTTTTCTAATCTATCTATCTA
ATGGAGATATGGCAAAGCACCTAACAAAGTCACTACCCATTAGAGTTGTGAATAGTGGTAATAATAATTATTTTTGAAAATCTAAGAAAAGAGAGCATGT
GCTAGAATAGGTAAGGAGGGCTTCACTGAGAAGATGGAGTTGGAATTGAATCTCGAAAGCTGGATTTGTTTTGGATAAGTAGAGAAGAGTTAAGAAGCAA
AAGTATGAACAAAATCTTTTTTTGAGAATGTTCCAAAAGGAAGTAGGCAAGAAGAATGGTAATAAGGTTGGCAAGATTGGTTAGGAAAATTGTTTTTTAG
TCCTGTATATAACAACTTTAGAGAATATTTACTATAAGTTAGGCATCATACTAGGAGCTGGATATATGATAAACAAAACAGACCAAGTTCTCACCCCCTT
AGAGCTTACCTTACAGTTGGAGAGGTTGTCAATAAATAGGTGAGCCAATTACTAAGTAAKTCTCAAATCCATGGTGCTATGAAGGAAACGTCCTGCTGCA
GGAAGTGTGGAAACCTAGGTAGCACCCTGGGAATGGCCACGCTAAGGAGAAGCACTTAAACTGAAAGCTGATGGGTAACAAGGACCCAGTCTTTACAGGT
GTTGAGGAGAAGCTCATTCTAGGTAAAGACAATGGGATACAAGAAGGTGCTAAGAAGGGATGAGTTTTGCATATTTAATATACTAAAACTATGCCAGGGA
GGTTGATTGCATAGGGTCTTAGTGCTAATTGTTTTAACTTCTTTCTTATCATGGAGTTTGTAGGATTCTTGACAATTTAGTATTGAAGTAATCATATAAT
CAATACTAAGAATAAAATGCATGTGAATGATGACTCTTACACATTACTACGTAAATGAAATAACCTGTACAACAGATCATAAGCCAGAGGAAGTTAAGAC
AATGAATATGATCTTGATCATCCAGAATTTAAAAGAGACAGTGTATGATATACATTTACTTTTTAAAATTTAGACACTTTGAGTTATAAATAAGAATTGG
TCCACTTGGTGTGAAATTATGATCTTTTGGTAATACAGAAAATATATTGATGAAGAAAAAGAATATATTTTAAGTTTAAATTATAATGTACATTTTCTGT
ACCATAAGAGACACTAGTGGTATTGATACATTAATCCGTAAGGTAAGATATTGGAAGATGACCAAAATATAGATCAAGTTCCTTATTATGGTGTTCAGTA
ATATGTGAAAGTAAGAGTGGTACCATAAAGTTCAGTCAAGTCTAGACTAGAAAAATATCCAAAGCAGTTTAGACTACGAACATCTTTTTTTTTTCTTTTC
TTTTCTTTTTTTTTGAGACAGAGGCTCGCTCTGTCGCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCCAAGCTGTTGACCTTAGTTAGTGATT
CAGAAGTAACATTTAAATAATTGGGTATGAGTATGTGTGTGTGTATGTGAATGTGTTTATGTATATGTGTCTGTGTGTAAAAAGTTATTTGACCCATCAG
ACCTTTGAGTGCAAACACGTGCAGGAAGCCAAGTTTAAGGAAATTAATGGAACATAATTACAACACTCACCAGAAAAGCAAGGATTTGAGTAACCTAGGG
ATTGGATGCACAGTTTATCCCAAAAAAATTTTTAAATCCAAAAGTGAAAATAATTCCATTATTAATGTTTTAGAAGAATAAATCCAGAGCATTATAATAC
TTTGGTTAATACTCTCCAAATTATTGTGTATATGTACTGCAAATTATACAGAAAAAAAATTTTAATTTTCCAATGGATTCTTATCCTTTCATCCTTTCAT
TTGTGATGTTAACACTTGCAGGATGAGAAGTTAGATGATAATAGTTGGACTTTATATTCCTTCATTTGTGCAAAACCTTGAAAACTTTCATAAATTAAAC
CTCTTGCTGCCCTTGGAAAATCACAAAATGCAGTACAATTCCTCTAGCGTCTTTTACCATGTTCTGTGCTGGCCAGACATTTAGTTCTATTTAAAATCCA
CTTACGTATATTTTAAATATTAATTCTCTGGCCATGCCTAGTATGCAAGCACTCTGGTACAAGATTCTAGAGTGTTAATATGCTGCCAACTTGGACCTTA
TTCAAAACTATATTGAGACAGTTTGTGATTCTCTAATTCATTATCTGTAGTTAGACTATCCATATCTTTTTAGTAAAAGAGAAGAAGGCTTATATATTAG
CATATGCAACACATAGAAAAATGAAGTATAAACCTTTCAGGGTACTCTAAACCTTGTAATTTTTAAAGAAACAATGTTATACACACACCATTTTTGTTTG
ACTAAATATGGTATATTTTAACCGTGAACACGTTGAATGCATTCCAGTGTGTCAAATGATATTTTAAATGTAAATAGAGGTGAATGTGCCTGAGAATACT
CTTTGGGAGGTGGGGCTGTTTTGGGGTTCTGTTTTACTTTGCTGACACTGCTGCATGATTCTGTGATTAACAAGCATATTTCTGGTGCTATCATATGGAA
AAGTTAGCATTTATTCTCCCTTAACATTTTATTGGCATCTTTGATGTGTTATAAAACAGGCATTTACTACTGAGTAGCTAAGCATTTCTCCCTCTTTGTT
TCTTTAATTAACGTATTGATCTAAAACAAATCTATAGGATCAAGCTTATTGAGGCAGACAGCCTGTTTGTCTCTCAAGAGATCATTGCTGCACTCCACAC
ACTTTTTCAGTAAATAAAATATGGACAAAACTGCAACATGTGGAGGCTGAAGATTCCATTAAGGACTTTTGGCATCTGTACCTTAAAGATATTTCAAAAA
TAATTGTGCTTTATTGCTTCTTCTCTGCCATAGCATATAACAAGCGTTTTTTAAAAGACCAAATACAGCTCTCTGATTTCCATTTAATGGAAGAAGTAAT
AAAGTTTAATTGTATACGTGAGCATGGGGCATCATTTGCAATACATCTGATCAATAATTCATCGATTGCCGTTGGCTCAAAGTAATATTTGAAAGAAAAT
GCAGCCAGTGGGAGCTTATCTAGCTGTAGCTTCATCATCTCTATTAATTATGTGTTTCCCGAATTTGGATCATTAGGCTACCAAAGTGACAGCAGATGGC
GAGCAGACCGGACAGGATGCTGAGAGGACCAACACAAGAGCAAAGTCCCTGGGAGAATTCATTAAGGAGCTTGCCCGGGATGCAGAAGGTATTAGAAAGA
ATCACRTTTTAATCATCATTTCTCCCAACAGAAAAACACAGAAAGGGATGACACAGGACTGGAATTTCTCTTGTTATAAGTGACATCTGTAAAATCAAAG
GTAGAGTTTCAAAAAGTAGTGTGGTTAAGATATTCAAGGGTATTATCTGCTGAGAACCTGTGACCTGCAGTGTTAAATTAGCGACAATAGTGAATTAGYG
ACAATGAGGGCAGAATAGCAGTAAATTCTTGTAACATGGCTATTATAATTACATAAGAATAGGCAACTTTTGTTTTGTTATTGTTTTTATTTGAAAGTAT
TTAAAGTATTTTTCATTTTCAAGCAAGCTAATGTCATCATTCCACTTGATACATTAAAGCAGCACTTTAGTTTCTCCAAATGGCTTTTCAAATACTGGGG
ACTGGTTTTTAATGAACATCTGTTGCTTGGGATTTGGATGTGCTACTTTATGAGAAGCTCTGGTGCATTTAGCTCACAATTCTCTAGGAGTTAGTTCTTG
CCATCTACTAACATGAATGAGAAAGTGGAAGCCATTTTTTGGCAAAAGCCCAAATTAAGAAACTTAAAGAATACAGATAATGCCCCATCCGCACTCGCCC
CCCAAAAAAACCTAGTCCTTAAATATCTGTTAAAATATAATAAACGTGCAWGCATGTTTAGAAATTGGGAAAAATGCTTTTTGTTGTTTTTTGCTTGAAG
CAGTAAAACATTTTTCTTGCTCTGCAATATTATGCATTTTAGATACTTTGCTTCATAATGTAGCCAAATAAATAAGGATGTGAGATCAACTTCAAGGCAG
ATTCTGACTGATAATTCTTAGGCATCACTGGCCAAGAAGAGACAAACTCCCAAATGTTCACCACTGCAAGAAGCAACAGGGTTTTAATTTGAGAGCTAAT
TTGAGGCAAAGGTGTGAGGTTCTGAAACAGAAATTATTTCTGCCAGAAAAATCTCAGTTAATTCATTGTGGTTTATCCTCTGCTAGATGAAGCTGTTGTA
CTTTCCCTAGTATTATTTTCCATTAATGCTACTTGAAGTGTCCCCCTCCAACCCAAAACAACAACAACAACAAATCCCACTGCAGGTAGAGCACCTTCAC
TCTGAGCGGATCCCCAAAGGCCCTAGTCAATGCTCCAGGAACTTTCCTTTTCTTTCCATTGACATTTCAAACACCCAACACCTAGCAGCCCATCCTGGGG
ACTCATTTTCAATTTGTTTCAATCAAACACTGGTATGAGAATAAATGCTAGCATATGTTTTAGTAGATCCTATTATCAACACTGCTTACTTTGTTCTCTG
CAATGAACCTTCCATCTCCCACCAAAGAGAGATGCATATTCATGGTTACCTCTTTGGTCAATATGAATATTTGCTTCTTCTGGGTGCCTAGGGCCTCTAG
GTACTATTTGTACAATTTGTGGACCAACAGGGGTAGACTGGAGATGGAGATTTATCCCAGGCTTGCTCACCACCCCAAATCCCACGTCTATACACCAGAG
AAAGGATTACCCATCACCAAAGGTGTCTCTCRTTCCCTAAATTATGCATAGATCARGTGGTCTGATTGTGTCTGTCCAGATAGGGCACCCTTTTCTAATT
TATGTGAAGTGCCATGTGGGATAGCTATACTTTAGGGAAATAAGAACACCACTCACTTTTGCCTGCAGGCACTATTTGGTAGAATTAATCCAACTGTTAA
AATTGAATGAAAGGTCAAATTTAAATTGTACCAGAGCAACACTAAATGTTCATTGAGATGTAATACAAAGCTTGGCAGTTTAATGGAGAAAAAAAGAGAA
AGTGGGGGAAGGAAGGGAGGGGAGGGAAGGAAGAGAGGGGAGGGAGGAAAAAGGAAGGAAGGGAGGGAGGGAGGAGAGGGAAGGAAGGGAGGGGAGGGAG
GGGAGGGAGGGAGGAAGGAACAGAGGGAGGAAAGGGGAAGGGAGAGAGGAAAGAAGGAAGGGAAAGGAGGGAGGAAGGAAGAAAGGAAATGGAAAGAAGG
AAGGAAAGAGGAAGGGGGGGAAAGAAGGAAGGGAAAGGAGGGAGGGAGGAAGAAAAGAAGAAAAGGGAAGGAAGGAAGGAAGGAAGGAAGGGGAAATAAG
AAAGGGAGGGACGGAAGGAAGGACTCACCAAAGGCTTTAAAGTAGGTTATACTGTATATCCACACCTCTTTTTCTCTCTCTCTAAACTATAATAATGAGG
GATAACCATCAGTACTTTTACATTTTTGTTTGTCAGTTGTAATAAATTGCTGTGGGAAAAGTAAATGCTTCAGACTGACATTTATCTATTTCAGCTTTAT
GTTTGGATAGATGTACTATTCATCCTATCTTTCATTATGAGTCATGACCTCGTTATAGATAATCACCTTCTATTCATCTAAGRCATTCTTATCTCACTAT
AATTTTATAATATCTACCGTGCTATGACTCCTGATTAGTTCATAAATAAACTGTTTTATTCCACGCATTATTAGAATTAATGAGTGGACATAGGTAAACC
CATTAGTGTTTATTTCCTGACATACAATAGGACTTAATCAATGATAGACACCTTTCCTTCCTGTTTCTCAGATCAGAGTATTACTTTCTATTCTTAATAA
ATTTACCCATCAGAGGATTTTGTTTTCAGTCTTAGTATGAAAACAGTTTTGCTTCTCCTGAGGAATTTTTACTTACCTTTATAGATACTGTATGCCTCTT
AAGAATCCTATTTGTATTCCCTGCTACRCGTAGTCTACTAAGATGCTTAGTAGTGGACTTAGGATGCACTGCATTGAACGTTATGGCATGGTTTTCTGTC
TACTAATTCTTTCCCTAATTTATACAACTTTTTTTTTTACCTGTAGTGCTATTTCCTTTTATTTTAATTTTATCTGATATTAGGATTTTTAAAAAATTAC
CTAAATCCTCCTTTGAATTAAGTTGGAAATAAATAAGTAAATTCCAAAGATACATCTTTTACAATCATTTTCAATACTGTGGGAAAGAAAATATATTGAA
GTGATAGTGCATACTTTTGAATAAGAGATGAAAAACACATTCATCTTTAAGAATGCTCAGAGAAGTTCCAGATCCTATTTATACATAGGATCTGGAACTA
TATATATGTATATAAACATAAAACTGTATGTTTATATATGTCTATAAAGAGTGAAACAGACTTCTATTAAAATGATGCTTCCTTTCCTTTTTTGGTGGGG
GAGATTTCTAAGAAAATCATATTGCCTAGCAAGTGATAGATGCCTATGAGAGAAATGGAAAATGACAGCATTTTAAAATTTAACTTTCAGTAGAAAAATA
ATGGAAATAAAAATTAAACTAGACAGTTCACCATACAAAAATAATGTTAAATGAGGGTAAGTAAAGCGCAGTGAAATAATCTGGAAAATAACTATAAAAC
TTTAAAACACTAATAATAAATAAATGTTATCCAAATTAAACTGGCAAGTTTTAATGGGCCATGTGTAATTTATCTGTGTCCCGATGAGGCCATATTTTTC
TCCAAAACCCATATCTAAAATTTGTTTTTCATAATGAAGATAAAGTAGCACACATACCAAAAACCCATTTGAAAGATGCTCTCATTTAATCCAAAAAGAT
ACTGAAGGCCCATGTCCATTTTGGGGAGCTTGTATTTTTTTTACATAACATGGGTTGCAACAAAAAGCTGGCCATGGAATAGCAGTTTATTCCATAAGCA
GCCAATATATTTGCTAAAATGTTTGTTCTTTTGGTCCTAACCACATTGAAATCTTCTGGGACTATTTCAATAACAGTAATTGCAACAATTGATAATATCC
AACTGGAAAAAAAAAAACAACCTCATGACTGAGCTGCACAGTGATGTCCTATAGAAACTTTATGGGGTATGTGTTATATGTTTTGATGTTTTTCTTTTTT
TTATTCTCATGTTTTTATTTTCCTTTTTACTTTAAGTTCTGGGATGCATGCACAGAATGTTCAGGTTTGTTGCATAGGTATACCTGTGCCATGGTGGTTT
GCTGCACCTATCAACCCATCAAAAGAAGACATTTATGCAGCCAACAAACATATGAAAAAAGCTCATCACCACTGATCATTAGAGAAATGCAAGTCAAAAC
CACAATGAGATAACATATGACACCAGTCAGATTGGTAATTATTAAAAAGTCAGGAAACAATAGATGCTGGCAAGGCTGTGGAGAAGTAGAAACACTTTTA
CACTGTTGGTGGGAATGTAAATTAGTTTAACCATTGTGGAAGACAGTGTGGCGATTCCTCAAGGATCCAGAACCAGAAATACCATTTGACCCAGCAACCC
CATAACTGGGTATATACCCAAAGGAATATAAATCATTCTACTCTAAAGACACATATACAGTATGTTTATTGCAACACTATTTATGCAAAGAGATGGAACC
AACCCAAATGCCCATCAATGATAGATTAGGTAAAGAAAATGTGGTACATATACACCATGGAATACTATGCAGCCATAAAAAAGAATGATATCATGTCCTT
TGCAGGGATATGGATGAAGCTGAAAGCTTCAGCATCCTCAGCAAACTAATCCAGGAATGGAAAACCAAACACCACATGTTCTCGCTCATAAGTGGGAGTT
GAACAGTGAGAACACATGGACAAGGAGGGGAACAACACACACTGGAGTCTATTGGGGGTTGTGGGGAGAGGAAAAGGAAAGCATTAGGACAAATAGTTAA
TGCATGAGGGGCTTTAAAACCTAGATGATGGGCTGGGCGTGGTGGCTCACTCCTGTAATCCCAGTACTTTGAGAGGCCAAGGCAGGCAGATCACCTGAGG
TCAGGCGTTCAAGACCAGCCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAATACAAAAATCAGCTGGGCACGGTGGCATGCGCTATAATTCCAGCT
ACTCGGGAGGCTGAGACAGTAGAATCGCTTGAACCCAGGAGGTGCGGTCGCAGTGAGCAGAAATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGCAAG
ACTCCATCTCAAAAAAAAAAAAAACAAAAACAAACAAACAAAAAACTGGTTGACGGGTTGATAGGTGCAGCAAACCACCATGGCATATGTATTCCTATGT
AACAAAGCTTGCTTTCTTAATACATGATCATTTTGCTAAAGTCATTTTTGTGCACCTTAATGATTGCTTCTTGTTTACAAATGGTTTTAATTTAAAGAAA
TTATGTATGCCATCCAAAAGATACAGCCATATTTGCCTTTTCCCTTTCTCTATCTGTTGTCATTCTTTTTCCACCAGATTCTTCTCTGCAGAAGTTTAGC
TTTGAGACCAGAGCACAAGAGAAATAGTGAGACTCTGTCTCTCATTTTTCCCTTCCTCTATACTGCCTAGGCCCAGAATCTAAATTAGATCAAATTTCAA
AAGATATTTCTTATGAAAGCTGATTTATACACGCACACACACACACGCGCGCRCACACACATATTCATTTAACAAAGAAAAAACATACAGCTTTAGCAGG
TTGGGAAGTGGCATTTATTAATATCATCTTCATTTTAAAAAGTGAGTACAAATTATATCAGTAGTTACTTACATGCTACAATTGGTTAAAGTCAGCTATA
CAGATAGCATGCACTCAGACTAAAGGATGAGATAGTACCATAGGTAGAGCCAAATCTGCTACTGCTTTCTTGAAATCTAAGAAGCAGAAAGCTTCTTACA
TTTAATCATTGGTACTCTGGAAGGCTTCCCACCTAGTTTGCTGGACCAGGGAGCTTTCAAACTAATCAGCCTATGGTTACTGTGATTCTGTAACAAAATT
GAGACACAGCCTAGGTGATGTATCTTACTGACAATAGTGGTGAAATATTGGGAGGATTCTTTGGCATATGTCAAGGTATAACTGTTAGGCAGTGGGTCAA
GAAAGAGCCACCCTCACTAACTTCTAGGAATACAGCACCTGACAATAACTTCTACCACAGGGCTAGGAATGGCCATATTTGTTCTTTAAGACATGTGATT
CAAATATTTCTGCTAATTAAACCATGGCTGTCTTAGCCCATTTGGGCTGCTATAATGAAAATATCATAGATTTTGTGCCTTATAACTGAAATGCATTTCT
CATTTGTGAAGGCTGAGAGGTCCAAGATCAAGGTGCTGGCTGGTTTGGTGCCTGGTAAGGAGCTGCTTCCTGGTTCAGAGATGGCTGTCTCCTTGTTATA
GTTTCATGTGGTAGAAAGGGCAAGGGGGTTATCTGGCATCCCTTTTATAAGAGCACTAATTTCATTCTTGCCCTTATGACCTAATCKCCTCTCAAAGGCT
CTGTATTAATCTCTTCTCACGCTGCTATAAAGAACTACCTGAGACTGGGTAACTTATGAAGAAAAGACGTATAAATTGACCACAGTTCTGCAGGCTTAAC
AAGAAGCATGACTAGGAGGCCTCAGGAAATTTACGATCATGGCAGAAGGCAAAGGGAAAGCAAGGACCTTCTTCACATAGTGGCAGGAAAGAGAGAGAAT
GAAAGGGGAAGTGCCACATACCTTCGAACAACCTGATCTTGTGAGAATTTATTCACTATCACAAGAACAGCAAGGGRGGAGGTTTGCTCCCATGATTCAG
TCACCACCCACCAGGCCCCTCCCTCAACATGTGGGTATTACAACTTGAGATGAGATTTGAGGTGGTCGGTGGGGGGACACAGAGAAAAACCATATCAGGC
TCTGCCTCCAAATACCATCACATTGGGAATTAGGTTTCAACATATGAATTTGAGGAGAACATAAACATTCAATCTACAGCATTGGCTATCAGGGTTAAAG
TACTGACTACAGGAACTTTTAAACCAAAGACATATATAACGAAAAAAGAATTATAAAGATGCATTGTGGAAAGGGTATATTAGACATTGAAACTCAATTC
TTTCTACTATCCCAGTGTTTCTCAAGCTCTAGGGTACATCAGAAGCTCTGAGAAGGCTTGTTAAAGCCCAGATTGCTGGTCCTCACCCCCAGAATTTCTG
AGTCTGTAGGTTTGTGGCAGGGCCTGAGAATCTGCATTTCTAATGGGCTCCAAGGTGGTGATGCTGCTGCTGCTTATAGGGGACCACATTTTAGAACCAC
TGTACTGACCCACCTTCTCACATACCCCTCTGCCTGCTCTGCTTGTCCTGACTATGTACACCTGTTTCAGGAGCTCTGCCCAGTGCAAAACTCTCTCCAA
GAATAGAAATTAATTTTCAGGAATCTCTATGTCATAAGGAGATCTTCGGATACACCCTTGAATGGTAGAAAATGCCTCTTGGCCAACCGAGACCCCTCAT
TCTAGGAGTTTTCAAAGGTAATATTATAGAAATAAGTATTCAGCTGACAAAAGAGTTTGAGAAAACATCTCTCTTAAATTCACCAAAAAAATGTCCTATA
GAACACACTCCAGGAAACTTTAGTCTAAAACTAATAATATAACTGTGTAAATGTTTCAATTCACCATTTTAAACTTTTATTTGACGTAGAATTCTTTTCT
CAAATGAAATCCTGCCCAGAACATCAGCCTATAAAGCAGACTCTTGGCAGAATAGACATCATTTGTAGAAAACCTGAAGCACCTGGAGAATCCTACGATT
CCAAGGAGTACAGTTTGAAACCCCATTTAATGCATAATAAACACAGACCCTTGTGAAGGATGCTATTGCTGGAAAGTGTCCTTGAAGCCTAATTTATAAC
CCTTCTCCTAGAAGGGTTATAAGTCTAGACCAGTGCTTCTTTCTTCACTCCTTTAAAAAATGAACACAGGAGAACTATGTGGAAATACAAGGGCAGGTTC
ATTTTCAGAGATCTCATCACTGAGTGTATTTCCACACTCAGTATTTTTAAACTGACTGATAGCCACTGCTATGACTATCTTATCAGCAATGCAGAGCTTG
CGTTTCCAGCCTCCAAGTGTTATGCTACAGGTCACTGTTTTTTTTAAACTCTTACCTGARTATGCTTCGACCTACTTCTTTATTTTAATTCTTTCTTTCT
TTTGAGGTTAGAAACACCATGCTTTAATTGCTGTAACCCCCAAAAGAAATATAATATTGAGAAACATATTACATTTCCCTGTTTGTTACTGATTGTTGTC
TTAACTGCCTCTGTGGTTCCCAGCAGGAACACTCACGGCAAAATACTCTTCATTTGGAGATGGTGGTGCCCAGCAGATGCTGAATACCATGTTTTCATGT
GGCATGTTTGTTTACTAATTTACAAAATTTGTTTTACCCCCTGCAGCTGTAAATGAAAAAGCTATAAAACTAAATGAAACTCTAGGAACTYGAGACGAGG
CCTTTGAGAGAAATTTGGAAGGGCTTCAGAAAGAGATTGACCAGATGATTAAAGAACTGAGGAGGAAAAATCTAGAGACACAAAAGGAAATTGCTGAAGA
TGAGTTGGTGTGAGTAGATGAGTTATTATTTTTTCTTTTGACAAACTGAGATTTCCAGATAATTTACAGTTTTCTAAATTTTTATCACACGTATAAGTAA
AAGATGCTTTGTTTTTCCAACCTGGAGATATTTGCTATGTTATCTATCATCTATCTATCTATCTATCTATCTATTTATCTATCTACCATCTATTATTTAT
TCATTTACTTATTTAATTGTACTTTACCATTGTTCCAAAATGAATCAAAAGCATGTTCTTGCCTACATATAATCAAGTAAATGATCTTTTCTGGTGCTGC
TCCTTCTGTAATTAGGCTAATGAGTTTGTTTTGTTAATCATCTGCATTAGGGACTTTTGGACTATCAGTTGATTTTTGTTTTAATAAAAATACCTTTGGA
TAAACAAAGTTATGACTTTACCATTCATATATTGGCCAACCTATACATTTTATCATCTTAAGAAATGCTGAAAAGAAAAGTCATCAAATAATAAACACCT
AATACTTTCAAATAAGAGTTGCGAATATGAGGGTTGGGAAAAGTGATAGTGATTTTACCCATGCTAAAGAACTTTTATGATAACGCACTCAATAAAATAG
ATACATCTCTACATTCATAGTCAGCTAACTTCAAAGTGGTAGTATTACTAATACTTAAATAATTTATACTAAACCAGCAATATCAGCACACCAGAGAACT
TGTTAAAAATACAGATTGTCAGACCCCCTCCCAGACCTCCTGAATCAGAAACTTTGGGGATGGGACCCAGCAAACCATGTATTAACAAGCCCTTCAGGGG
ATTATGAGGCATGTTAGTTTGAGAATTACTGTCTTTCAAGTATTTAGAGTTTCTTAATGACTCGAAAATTATCACTTTAGAAAAACTAGGTAAGTTAAAT
CCAAAAACTTCCAGATCAATCAGTTGGAAGAAAAAGAAACATAGATTAAAATTATGCTAGTCTACTAGCATGACAATGACCTAGAATTCTGTTCACAGTT
TCTGAGCAAACATAACAATATTCATCATTACATTCAAAGTAATAGAGAAAAGGTCTCAGTACAATGAAACAAGTGGATTGTTTGATTTTGGTATGTGAAG
TGAATCTTAAAACTCATTTCATCAATCAGATTCCTAGAATGACATGATTCAAAATGTTATTTTACTTACAAATTTAAAAGGTTTCTTAAAAATCTGTTTC
GCTTTTATTTTAATTAATTATAAATGGTCTCAGGTACCAGTTTTCAACTTGATTTAGCACACAGTGAATCTATTTTACATGTTTTCTTATTTTCTCATTC
TTTTCATGTTAGCATCTCTTTGTAACATGGYTTAATACCAATAAACCCTAAGGCAGTGACATGAGCTCATTGTCTATTATTGGGCTGGGGGTGGTTACAG
AGCTGCAGAAGCCCTTCTGAAAAAAGTGAAGAAGCTGTTTGGAGAGTCCCGGGGGGAAAATGAAGAAATGGAGAAGGATCTCCGGGAAAAACTGGCTGAC
TACAAAAACAAAGTTGATGATGCTTGGGACCTTTTGAGAGAAGCCACAGATAAAATCAGAGAAGCTAATCGCCTATTTGCAGTAAATCAGAAAAACATGA
CTGCATTGGAGGTGAGTCTTAGGGGCACTTTTATCTTAATCTCAGAAGGTTGGGGACTGCGGGGGCAGTGTTGAACATGGCTGGACTATTCAAGTTGATG
CACATTTACAAAAGTCAAGAGTGACAACTCTGAAAGGGGGCTTCTAAGAAACAGAACAAGAAATGACTTTTTTTTGTTTTTGTTTTGTTTTTAATGACCA
GTTACCATCGCCCAAAGAATCAAATAAAATTTTGATAAATTAAACTGTTGAAGATATTTAAGAACACTGTGATACAGTGGAAGAAGTTCTTTACAGGGAG
TCAGGCGACCTTGGTCTCAATGACAACTGTGCCACTATCTAGACATACAAATTGGGCAAGTCAATTAATCTGTAAGCATCAGTTCYYCAAATCTACAATA
AGTGCATTATACTATAGCATACATATAGGGTATCTTCAAATATTCATATCATATTATTTTGCAGCTTTCCCAAACTAATTCACAAATCTTGTTCAGAGAT
CTTGCTGCCAAAAATCATAGAAGTTCCCTACACTTTCAAATTCAATCTGAGCACATGACAAATAGCTCAATGAATTGAGACCAGAGCTTGGAAAAATTTT
GGTTCCTCTTTTTCTATGCGCTGTGTTCTATGCAAATGATCTTTTAGAAGGAACTAACATGAATAGATCAGGTCTGCGTTATTTTCTCCTCCTTTTCCAC
ACAGATAACAGTTACTTCTCAACTCAAGAAATTATGGGCAGCCTCTATCTTTTTAAGAGTTCTGATGGAACTAGAACTAAAACAGATTCCTCCATTATTT
TTTCTTCTTTTTTTTCCAATTTCTTTCTTAATCTTAACATAGTAAATWATCACTTTTCCTAAGAGTAAACTCAGCACATATAACAGCAGCACCCTGTATK
TGATATTAATATTTAAACAACAACAACTTTCTCCCCAGAGACAAATTTACCTTTGCTGTTTTCAAAGTATCTGACTCCAACAGGTCAGAAAACAGCAGCA
GACCTATACRTCTTCTAACACATAATTTCACCGTCAACAGTAACTCAGCACCCTCTGGCATATAGTATGTATGTAGAAATGTTTGTTGAATGACAGTAAC
AATTGAATACAATCAACCAGGATTTTTTAAATCTATTCATTTCTATTTTCCTTTAGATTAAGTAGTAAGAGGAAGAATTACATTTTTTTAATATATTTTA
TTTCCGTGTCCCTCTTCTGGGACTTAGCCTTGTCATTCTGGTAGAATATTGAAGAGGCTTACTTTTTTTCTTCACTGATGCACCTAACCAATTTGGAGTC
TACTGACATGCTAGCAGTATTCCAGAAATACTGCTGTGAGGCAGGATGCTGGGCCACTGTCCTGTCACAGGCTCCAGCATGATTCRCCCTGCTCGGTGAC
ACACCAGCCGTGTGACTTACCCGAAGGTGCACYTGTCTATTTTATGGCAACCGTTTGATAAATGAAAATTACCTGTGTGGAAAGCATAGTAAGTATTTGA
GAAATATTTCAAGAAGAGTTATATGGCACAGTCAATAGTACCTTTAGCTATTCGTTTCTTTTAGTGATGTTTAAAACCAGAAGTCATCATTCTTGGGCAC
CCCTACAAATACCTGGAGCTTATGTATAGTCGGTATTGAAATTCTGAGTGGTCCTGTTTGGATTTTCCTTGTATGTGCCACGTTTAACTAAAGACTTGTT
TAAAAGTTACTGGATAAAATAGATAAACTAACTGAATCAATATGAATAAGGCATAGATTATTTATGGTTGCTTAAACCAAATAAATAATTTGGTTGCTGC
CAAAATGGCTGAAAATCACRTGGGGTGTTTGTTAAGCCAACAGGTTTCATGGGCTCCCACCTAGAGAGTCTGTGTAGGCTGCTCTGGGGTTTGGCCCCAT
GTGTACATTCTAACACTCTCCCTGGGCTAATCTGATGCCTATACAGGTTCGAGGAAAACTGACACATTGCATCTATTTGATTGAATAATAAGCTGCATTT
TAAATAAATAACTCCCTTATAACTGTGTCCACAATGAAGGTAACACAATTAATACCCAACTCAAAAACTTTTTATTTATTTTAAGGTGGYATGTAATTTT
CTTTTTAAAAATTTTATCAAGCCTCTAATTCATTCAGGAAACGTGCTAGACACCAAAATTGATTGTGTCAGTGATGAGCCCCCTTAGAGCAGCAGCCTCA
GCGTAACCTAGCAACTTGTCAAAAAGACAAATTCTTGGACCCCATCCCTAAATGACCAACTCAGAAACTCTGAGAATGGGGCCCAGAAATCCGTGTTTTA
AAAATTCCTCCAGTGATTAAGATGCAGCTTCAAGGTTGAGAACCACGGGTATAAACACTAAAACACCATCTCTGATTACTTCAAGTAACTTGTATTTAGT
GGGAGGTACACATAAGCAAACCACTCCATACGCTACCATAATTATCACAGGCGTAAGCAAAGGAGGGAGTCTAAGTCACCCCTGAGTTTAGGAAGAGCTT
TGTAGAGGCCCTGACACTTGTGCTAGATCCTAAAGGATAAGCACTGGGTCACAGAAGAATAAAGAGAAGAACATTTCAGAAACTGGGAAAAACATATACA
AAGGCATGGAGGAAAGAAAATGACATTTTGGGGGAAAGTTCAGTGGTTTGATAGGCTTGGAAAGAAGACTGCATGTGAACGACTGAAGGGATAGAAAGAA
AGAGAAGATAGGCAGAGTGCAGACCTTCAGTTATAAGAGAATCGCATTGTGAGACTAAGCTAAGGAATTGGTTTTTATCCTGAGAGCCATAGGAAGCAAT
TGAAATATTGCAGTCATGGGTTAAAATAAAATGTTGCAGAATTTGAGTGGCTCACTKAAACTGAATAAATGGTTTTTTATCGGAAAATAGTGTGATATTA
GGCTAGAAAAGTAGGCTGGGATAATATTTATCTACATATCTGTCAGGTACCTACCATATCAAGGTACTGTTGGTAACCAGGGTATTTGAGGTTGAATAGA
AATGATTCCTGGCCTCAAAGAATTTACAACCTCCTGAAAAATTCAGACATGTYAACCTTTCACTCTACATAATACTATGATAATATTGACTGGGAGATTC
AGCAAAAGTTTCACAAAAATAACAGCATCATAGCAGAAGTGGAGAGGAATTGGAAGAAAGACAGAGCAACAGGAACCCCAGCCAGAGCTTTGGAAGTGTA
AGGTGATCTTAGGAAGTGTCCAGTACAGCAGAAAAACTTTCAAAAGCTACGTAAAAATCTGTAGCAGAGAAGGCTCTGGAATTTGGAGCCAGATCATAGA
AGGCTTTGGATGCAGCCAACTAGATGGTGATGGAGTTGGAAAGGCATTTCCAGCAGTGGAGAGAGGGCTAAGGGAACTGGGGACGTCATGGGAAGAAAAG
AGAAGACAAATATTTCAGTGAAGCAAAATAATATGTATTGAGCAGTCTATCCCCAAATCTACCATTATATCCTTGCCAAAGAAGGCAGTGCGGATCAAGT
AAAGAGTAAGTTGCTACATAAAGAATACACAGGCCAGCCTGAGCAACATGGTGACACCCTATCTCTATAGAAAAATACAAAAATTAGTCGGGCATGGTGG
TGCATGCCTGTGGTCCCAGCTACTTGGAGGCTGAGGTGGGAGGATTGCTTGAGCCCAGAAGTTTGAGCCTGCAGTGAGCTGTGATCATGCCACAGCACTC
CAGCCTGGATGACAGTGAGACMSTGTCTCAAAAAAAAAAAAAAGAAAAAGAAAATAAAAGAAAACAATAATAGACAGGAAGATAGCTTTTGCAGGTTCCT
GAAGAATCTACCACACCAACACACCAAAAAAAAAGAAAGAAAGAAAAAGAAAGTGTCCAATTTGCAAAGCTCTGGAATAAATAAAGATCTAATTAATTAC
AAGTTAAAAGTAGAAATATAATCAACCTTCATATCCAAACAATAATTGAGCAATTATACTTATGCCATACTTTTTGTAGAATAATTCTCCCTATACATAG
GCCTTCTTTCTGTTTCTTAAATACTCTAAGTTTCCTATCTTARGTATTTTATATGCTACATCATTTTCTATCTGTGCCTCTCTTTGTTTTTATTGTACTC
ATCTAATCTTTCTTTAAGAATATATTATACATTAATTTACTCATTCATTTTATCTCTCCTCCACACAAGCCATGAGGAACATGTGTTCTTCCTCACATCC
CCCAATCCTAGAACAGTATCTAGCAAAGGCAAAACAGATTGTTTTCCGTGAATAAATAAAGTGCCATAGAACAAACCCAGATACTCTATACTTTTGTCAA
TATTTGTGAGCTCCAAATTTCCATCTTTTCTCGGTTCAAAGCTAGAACCCATCAGTATCTAATCTGAAAACAAGACACCTCTAAAATTTATTTAACCTCA
TCCCAGCACTYTGGGAGGCTGAGGCAGGAGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTGAAAATGAAA
ATTAAAAAAAAATACAAAAATAAAAAAAATTAGCCAGGCGTGGTGGCAGGCACCTGCAGTCCCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCT
GGGAGGCAGAGCTTGCAGTGAGCCAAGATTGCTCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTYTCAGAAAAAAAAAAAAAAAAAAAAAAA
AATTATTTAACCTCTTGATCATCATTTCTGATTGAGTATGCTAAGAAGCACATTTTGATCTTTGCTTTTACAAAAGATTCTAACTCACTACTTTATTGAA
ATCAAAATATATATAGCTCTTCAATTAACACACGTGTGGAAATATCTTCCCTGTTTCCAGTGGCACAGCATTTTAAATTACCTTGATCCATTAATTCAAA
CAAGCCATGTTGTAAAAGATTCTTGTGTTTCTGTACATGCTATACTTTAAGTCAGCTCATACAAAAGCTAAGGGCTAAAATTGGCAGTTGTGTAAAAGAA
TGTTAGACCCTTGGAAGATAAGATATGACTTGTAATCAGGGAGATTGTAATCAGGGACATTGGGACTCTTCCCACATTTGTTGTCTGTGAAGAGTGAATG
ACATATCAAAACTTCCCCTGAATTAGTGATGGGAGTAGCTGAATGAGCCAAGTGTCAGCAGCACAAGTCCCAGGAATGGACTTCATTTTCTTTTTTCTTT
CTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCGCTCTTGTCACCCAGGCTGGATTGCAATGGTGCAATCTTGGCTCACTTTAACCTCC
ACCTCTCAGGTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGCATGCACCACCACACCCAGCTAATTTTGTAYTTTTAGTAGAGA
CGAGGTTTCACCATGTTGGCCAGGCTGGTCTCGGACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATAACAGGCATGAGCCA
CCGTGCCTGACCCATTTTTATTTATTTATTAAAAAATATTTATTGAGGAAACTCATCTACATACTAGAGATAGTGATATATAAAACTGTCTTTATGGAAT
TTGTGTTACAGTGCAGGAGACAGTCACTAAGTCAATAAATAAGCATAAGCTACGACCATAAAGTCTGGATGCACGGGCTGATAAACATAAGTTGTTTACT
GATATGTAATAAATGGTATGTTGCATGATATTGCATAATAGATTCAATGTGTTGTCCTTCATTAACAATGTGTAGTTCAACAGGCTGTGCCTTTCTGCTA
GTCCCTGTACATGTATCTGTGATGCATTGGTATTTCTGATTTTTATTACCTAATCTTTGTTTTTAGCAACTCCCGGCAAAAGTAATCAAGACGAATCAAT
CTATATAAAAAAGAAAATAATATTGTCTATGTTTCTACCACTCTGTAGAATATAATTCAGATAAATGGGTTCTAAGAAGAACAAAATAAGGTAATTATAA
TAGTTAAAATTACAGTGTTACTGGGTGCCAGGCAGTGTTCTAAGCTAATTCTTCTCCAATTTTACAATGTCTATCAATCATGTGGGGTTCTTGTTAAAGT
GCAGATTCTGAGTCAGTAGTTCCCAGGAATGGATTGAGATTATGCATTTCTAATGAGCTTCCAGGTGACGCTGATGCTGCTGGTGAATGGGCTGCACATT
GAGTAGGGAGGGACTAAACATTTTGTATGAAGGTAAATTACTTCCTTAAGGTTTCATAGCTTGGGAGTGAGCAGAGCTGTGATCCCAAACCAGAAGGGCT
GTCACTTGGATGTAGCTTTTAATCACTGTGCCCTAGTACATAGAGAATGAYTGAGACAAGGATAGGTGCTATTTTAGATAGGTAATCAGAGGAGTGGCTA
TTACCAGAATGGAGGGAGGAMACAAGCCAAAGAGTAGGAAGAGCACATAGTGGGAAKATCTGCAAGTGCAAAGGCTTAGAGGCAGGAACTAGTTGTATGT
ACCTGGCAACATACTGAATTGGTCGGTGAAGGGAAGGAAAGAAGGGTATGAAATTAGCACTAGCTCAGTGCAAATTTTAAAACTGTGATTTCTATAATAG
AAGAGATAGTATTTTCGTAGTCAAGGACCCAGGATCTATCATTAAGTAGACAGGGGTTTAAATCTTAATCACACTGTACTATGTGACCTTAAAGGAATCA
TTTAATATCTTAGTTCATCTGAGCTGCTATAGCAAGAGACCAAAAACTGAGTGGCTTATATGCAATCAAAACTTATTTCTTATGGTTCTGGAGGCTGGGA
AATCCATGATCAAAGTATTGGCAGATTTGGTGTCTGATGAGGGACCACTTTCTGGTTCATAGACACCGTTTTCACTGTGTCCTCACATGGTAAAAGGATG
AACAAGCTCCTTCAGGTCTTTTTTATAAGGGCAGTAATCCCGTTTATGAAGTCTCTGCTTCATGACCTGGTCACCTCCAAAGGCCCCACTTCCTAATCCT
ATCACCTTGAGGATTAGGATTTCAACATATGAATTTTCAGGGGACRCAGACATTCAGGCCACTGCCCTTTACTTATYCAATTTCCCACTTATGTAAAAAG
TGATCAACATGGGATCCAAAGATTGGAATAACAAAATGCTTACAAACTGTCTGGCACATATTGAGATCTAAATGAATTAGCATTATTGTCTATAGAAAAA
AACTATAAGTGGTCAAAGCTTAAAATTATAATTGATGCAGTTAAATCTGTAGGTAGAATGGTGATTTCAGGAATAGGAATGAATCAGAAGTATAAAGAAT
AAAATAAGTAAAAAATAGACCCCAAATGGAGAAATAGCAATATTTGTCTCTCACTGATTTTACTCTTCTAGGCCAGGATTGAGTTTCATGTACTTTTGAG
ACAAGCTATATGTTCCAAAGAAAAATTATAATCTRTTCTCTCATGAAACAGTCCATTAGGTTGATTCTTCCATGTGATGGTTTCTCTATTTCTTAAAAAG
TATTTTCCCTAAGTTTCCTTAAAAATCTCACTTCAAATTTCACAGAACTCCCATTGAATACATCTGCTTATGTTTATGCTCACAAAGTACTCATTTGTAT
ATARATTCTAGAATTCAAYATGTAGTACCAATATAACTATTCAGCACTTATATTTTAGTTAGAAATGGATGCTCCATCTTTCTTTAAAAGTAGTTTTAAT
TCCTTAACTAGTATCGCATAACTTTTCTTCGCTTGGATGACTTTCTCACAATGAGAAGAAGAAATAACCTGTACAAGCCTCTACATAGAAGAACTCTTCA
AGGACTGGCTAAGTAGTTTATATTTTTCTCATCTAGCCACATTTCAACATGATGTACCTTTTTTGCTAAGCTTTTATTCAAACAGCTCAGGAAAGTCAGG
AATACAAGGGGTAGGATTTTATGAAAATGCAATTTTGATGTCTTGTTCATAATGGTCTACAGAAAAAGAAGGAGGCTGTTGARAGCGGCAAACGACAAAT
TGAGAACACTTTAAAAGARGGCAATGACATACTCGATGAAGCCAACCGTCTTGCAGATGAAATCAACTCCATCATAGACGTGAGTATTGGGTAAAACTCA
AAAGAGAGATGATAATGAATAAATGGGAGCCGATGAGAAAGCTCAGTAATAGAAGCAAATACTAGTACTTGTTTTCTTGTGGAGATAAAATTATTTTTGC
ATTATTCTACTGTGACCATGCCTATCTRTTGGTGACAACTGGAATATCACTTTGTTCTCCCAATGGACATGAGTGTTTGTGTAAGTGTACTCACACATTC
ACACATATCTGTTTTTGTCCACAGCGATGAAGGACATTTCTTGTTCCTAGAGCAGCACTTACAATCTGCTTCAATATTTATATAACATTAGTTAAAAGAC
AAATGTAAATTTACAAACAGGCTTTTAACATGTAATGTCTAATGCATTACATAGAGTGATATGTGGTCATAGAAATGCAAATGGCCTAAGAGATCCTAAT
GACATGTATACCTATGAAGTGGCATTGTTTAAATAGATAGGCTTTTCTTGGTCTAAGTTGGTTTCTTAAATTTCCTAGTCTATWCCATTAAATAATGACT
TTAATTCTCTATTCTTTTTGCTATGTTAGTAAGTTTGAAGTTTCATTTTAAAACTAAACATGTGGGCCAGGCACGGTGGCTCAYGCCTGTAATCCCAGCA
CTTTGGGAGGCCGAGGTGGGCAGAYTGCCTGAGCTCGGGAGTTCAAAACCAGCCTGGGCAACATGGYGAAACCCCGTCTCTATTAAATATTCAAAAAATT
AGCTGGGTGTGGTGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCAGGGAGGCAGAGGTTGCAGTGAGCTGAGA
TCGCACCACTGCATTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAACTAAACTAAACGTGTAGTTATGTCTCATAGAGAA
ATTAGTAAAAGAGAGGAGGCTTGAATTCACTTGCTTAAAATGCCCTCTTCTCTACATATCAGTATGTTGAAGACATCCAAACTAAATTGCCACCTATGTC
TGAGGAGCTTAATGATAAAATAGATGACCTCTCCCAAGAAATAAAGGACAGGAAGCTTGCTGAGAAGGTGTCCCAGGCTGAGAGCCACGCAGCTCAGTTG
AATGACTCATCTGCTGTCCTTGATGGGTATGTCATTTGTTTTTGGAAATGTTTGTGTATTTTGATGCTTGTCCAAAGGTTTTGACTAGCATAAATAGTAG
AGAATCATTTTCAAATCCTGATTTCTGTTAATTATGAACACACTAGCTATATGGCCTTTCTGTGGATAGGCTTAATTAGGAGGGTCTGGGCAAAGCTTYG
CTACAGCAGCATCAAAAGTCTGATTTACAAGTAGACTCAAATATGGCTTAGTAGGAAGTGAACATAGCCCTAGGCTACACTTAGAAAAAATTATTTTCTG
TTCTTTATTAAAAAGCACAGTGGTTGCCTTATTAGCATTTTAAATAACATATATGAAAAYACATTCTGTTTCAAATTTCAGTTTCATGTTTCTAATGGAA
TCAAAACAATTTATTGTTAAAAGGATGGCTTTTGAAAATTTGGYCCCATACGTAGTCTTTAAGTCTTTTTTATTTTTCCTCTTTTAAGCTCCAGGGAGAC
ATTACATTTTCTCCTGTAAAATAGCAGCTTATTCTAGCTGGGATTATTACAAAGGTCATAGGAGGGAGAGTAAAGAGGGAAGTATACATTTGACTTACAA
ACAGCCTTCTGTGTATAACTGATATGCTTTTCCTACAATTTTGGGATTGTCGTAATTTAATAGCGGTGCTATTAGCCCCAAGAATAATTTGCCCAGATAA
ATCTACATCACATGCAAAGCTTTGTTCTCATACTTAATACTTACTGTTATAAAGAAAAAATGCTAATGTTTGAAGACCTTGGACAATATATGAACTATCA
TTTTATTTTATGTCAAACTTTTGCCACTTTATAATGAAGGGTGGGTGGCAGATGAAACACAAAGCTAGGTATCATCAGATCCAGGCTCTAAGTCCTTACT
TGGGGACATATTGGTCATTTGGCCTGAAACAGGCCATTTAACCTTCTGAAATTCACTTRGTCTCTTCYGGGAAGTGCACCTACCCCAGAAAGATTTTGTG
AAATTAATTCCAGTAATGTAGTACAAGTGCTCTGAATCTCACAGCATGCTTCACAAATAARGTGAAGAATTGTCTCATATCACACACCTGCTAGAGCACC
TGGTTGCAGAGACTTTTGGAGGATGCTATGGGTATTTAAGATATGTTGGTAGTATTTCATAGCTGAATTATTAGAAATATAAGTTTAGGTTATAGAAAAC
TATAGGACAATATAATAAGTAGATACTTCACTATTATTTGGAATTGTCATAGATATATTGGCCATGATCATTTGGAAGCCAGATTTCRTATAATTAGGAC
GTTCTTCATTTGAGTACCATTGAGTGCCCTGACATWCYKTTTTTGAATCATCCCACCAGAATCCTTGATGAGGCTAAAAACATCTCCTTCAATGCCACTG
CAGCCTTCAAAGCTTACAGCAATATTAAGGACTATATTGATGAAGCTGAGAAAGTTGCCAAAGAARCCAAAGATCTTGCACATGAAGCTACAAAACTGGT
AAGAAACAAATGGCACATGTGCTGGGAATGGAAGTCAACCTTTTTGAATTTTTCAAATGTAAGTCAGTCTGGAAAATCCCAGTAAATTGGTATATTTGTT
TTGGGYTATTTTTGAAGACCTCTTTTAAAATTTGCCTAAAATAAATTCTCGGTATGCTATAATTATAGCAGAACTCTTTTCTCAGTCACCCACTACCACT
GTTAGGGTSTTAAAATTATCTCAGAAACCAAGCAAGTTTGTGCTACCAACTCACAAAATAAAACAGGCAAAGACAACACTCTGGATAGGGAATTTTATCA
CCATTATCTCAAATGGCATTAGTAAAAAAGAAAAAAAAGTAACCATTGTATATAATCACACACAAATTGGTTACATATGAAGTTTGGCTATAAAATTCAC
TTTTTAATAAAAACATACTGGATCATATGCTTCTAAACAATTTATACCATGTTTATGAATTAATGAATTTTTATGAATTTTTGAATTAAAAAGCTCTTAA
CCTTTGGCTACAATCATTGTTCGTAATACATTTGGAACAAGTATTTTAGAGTTTGGGCATTCCAARTTCTATCACATTATTTGAATGCCTTCAATGGTGA
CAAATCTTTATGCTTTAGATGTAAAGCAACATTTTGTACATGAGTTGTGTGATAGTAAGTTGGTAGTACTATTTCAGGTTAAAAAAATCTCATAGGAATC
ATCCTGAATAAAATGTTCAGAACCATCATTTATTTATTTTGTTTCACATAGAACCTACCAAACACATGAGAATTTTTTKGGGGAGAAATCTGATTGGACA
TTTGACTGTGAGTGAAATACACATAAGCAGTGGTGTTAAAGAAACTGATCAATATTTTCTTTGCTTCAGTGTTGGGCAAAAATACTTTCTAGGATTTAGG
GGATATTAGAGATATCCCCTAAATGAACCAGTCTTAGCAGGTTCATTTTGTGATCATAATGAAACATCATATTCTATGAGCAATTTGTACTGTTTTTGGY
TTCTCTTGAGTGAGCCCTACTAATGCCRTATGTTCTGTYGACTTCTTATTCAAAATAGTGGCATGATCATTGCAGAAGCATTTCTATGTTCAGTTATCCT
TTCAGAATGAATCTACTTTTCAAATCTAAACTAAATTTTAATCCATCTTCTGWTAGATAATTTTCTATTTTAAAGACCCTAATTTCAAGTTCACCATTTT
CATTTCACCTGTTTTATTGTATGATTATTTTCAGCACCTAAAATGGTGCCTGGCAAATAGTAGGCACTTATAAATGAATGAGTGTATTTTTTCATTATAA
TTGACACCTTTTATGCCTGTTCATAATCTTTTATACCAATAAAAATTTGCTGTAGTAATTGCTTCATCCTTATAAATTTCTTGTAACATTTTATGATAAG
GAGGTGTTTAATTTTACCCTAATTTAATACCTTTAGGAAAAATCATTTTTTGCCAACATGAAGTGTGCACTTACTTCTTACCACCCATGCTTATACATGG
TAGGCTAACCAACCTCAAACAGAGAGTGATGGTGAGTTGTAATGCATTACACCATGTCTGCTGTTATCATTATTCCTTCTCTCTTTCCACAATCATTTAA
AAATAATTAARTGTCTGAAAAATTACAAAATAAGTGCTATAGAGAATCAGTGATTTATTAAATGACTATYGGATAAGAAAAAGAAGACAATCTGTCCCAG
AAATTTTGTTGGAATGTTTTTCATGAACAGAATGAATAAAATTTTAGTTTAATAGATCAGTATAATRTAGTTCTACTTTGCTGGAAAAGAAATATATTTG
AAAAGCATTACGTTGAGTAATTATCTAGATAGGACTAACATCCCATAAATATAAGATCTGATATAAAAGCTATAGCTCAACAGAGAAGAATGAGATTAAA
TGTATTATTAAGTATAGAAGAGTTCAAAGCTTAACAATACAGAAGAGTCCTCTACTCCTTTGAGTCTAGCCCTATAAAGAAGGAAGAATGTTTTCAATAA
CTTAAAAGGAAAAACAAAGAAACAAWTTATACATTTGCAGGAGRAAAGGAAAAGGTCAAGTAGTASAGCAACCAACGACCACTATGAAGAAAGTGGAGGT
CAGACAATTTGAGAAGAAAAAAAGCATTGAAAATACCATAAGAAAAGAAACAAAGAAATGATAGAAATAACCTCCAAGCATAATTAAGACAATGTTTAAA
ATCAACTTTGATTTTTTAAAAATTTACTTGTCTTCCTATATATAAACACACATAGACAATCAAGAATCACACTGAAAGGAAAATATGAGTGAGAAGGAAG
TGGATCCTTTATAAGCAGGAGAAAGCTAAYACSATTTGTTTGTACTGCAGTATTATTTTGTAAAGAGTAATAGCTACTTGTCTTGCATAACTAATTTCTT
TAAATATCAGAATGAAATGTTATTTTAAGAATTTAGACATCATGAAATAACAAATGCTATTTTTCTATTGGTGTCGGGTGAGGAAAGTACTATAAAGCAT
TTGTTTTCCTACATATAATCACCAAGAAAATATCTCATTTAGTACTTCTCTAGAGGGTGCAAGGAAAACAGAAAGGAGATATGTCACTCATAAAATGGAA
TAAAAATGGAATATGGACATCAGTAATTTTTTCTCATCTTAGTTGCTTTGATCCTATAAGAGACTCTAAAATAACAGAGAATTAGATGTTTTTAAAACAT
TTCCAGGTCATAGTAAACTCAAAGCCTACATTATCTATCAGATCAGATTTTTAAAATTGATGAATGTATTAATGTTCTCTAGAAGGACAGAACTAATAGG
ATAGATGTATACAAGAAGGGGGGTTTACTAAGGAATATTGACCCACGCCATCACAAGATGAAGTCCCACAATAGGCCATCTGCAAGCTGAGGAGCAGGGA
AGCCAGCCCGAGTCCCAAAACCTCAAAAGTAGGGAAGCTGACAGTGCAGCCTTCAGTCTGTGGTTAAAGGCCTGACAGCCCCTGGCAAACCCCTGGTGTA
AGTCCAGGAATCCAAAAGCTGAAGAACTTGGAGTGTGATGKTCAAGGGCAGGAAGTATCCAGCATGGGTGAAAGATGAAGGCTGGAAGAGTCAGAAGATC
TACTCTTTCCACTTTCTTCTGCCTGCTTTTATTCTAGCCACACTGGCAGCTTATTAGATGGTGCCCACCCACATTGAGGGTGGGTCTGCCTCTTCCAGTC
CAGTGACTCAAATTTTAATCTCCTTTGGCAACACCCTCACAGAGACACCCAGGAACAATACTTTGCATCSTTCAATCCAATCAAGCTGATACTCAATATT
AGTCATCACAAGTCCAMCCCTTGTCAACTTGAACCCATACACATCTCCTGAAATCATACATAATCTCCAAATAAAGACAATAATAACATCATAATTATAC
CTAACATAATACAGCTATCCCTTGTACAATCAGAAGCACACTAATCCTTAACCTAAATGCTATTACATAAAGTTAACAACACTTAAATGCTGATATGAAG
TCAATRAATTTTATGTCACATGATAAAGGAAAAAGAAAGCAAATGAAGATATTTTCCTAGTACAAGTGTATACATGCACAAACATATTCTTAACAGAATA
AGGAGGAAATATATGACAATTACAGTCTTCATTTCTGCAACTGGCCACGTGGTTGTAGCTGGTATTGATGACTACCTTCTTCTACTAACCATTATGTATT
CCCTTTGCCTTCTGCAAGCACCTCAGCGGGTCATGGCTTTTTACCTGGTGGGGTGACCCAAACCTTTATTCTGGAAGGACCTGTGCCATTTGTAGTCCTG
TCTGGATTGGGTTGGATTGGGTTGTTGTAGTTTCCCATTGACCTTAAACACAGAGGATGGTAATATTAAGAGATGCCCTATGGGATCTCCTGTATTCCAT
GCATGCTCTTCCTTGCCTTCATTGTGGAATAGTAGACTGATTTCACCTTGATATTCTGGGTCAATTACCCAGCCAACACTGMAACCCCCTTCTTAGCCTG
TTGACTTGGAGGTAGGAGGGCCCCAATTGGCCAGGTGGTAATCTTAACTTCCAGTTTAATGGAATCATTGTTGTATCCCTTGGTGACAGCATTCTTCCCT
CTGGAACTAAGATGTCTAGGCCAGCAGAACATAATGTTGTGGGAACAGGAAGCAAAATTTTGCTAGTGGGTCACTAGYGGTGATGGTGAGTGGTGCCACT
TCCGCTTCCACCCCTTGATTCTGGGACMCGTGAACACTGGCTATGGGAGAAACAGTACCATATTTTGGACACTGATTCAAGGCATACACAGCCTTCTGGA
GAACTTTGCCCCAGTCCGGCAAAGTWTTGTCACCTAGTTGGCATTGTAATTATGACTTCAAAAGGGCATTCCACAATTCTATCAATCCACCTGCTTCRGG
ATGATGGGAAACATGATAAGACCAGTGAATTCCATGAGCATGAGCCCAGTGCTGCACTTCTTTAGCTGTAAAGTGAGTGCCTTGTTCAGAGGCAATGCTG
TGTGGAATACCATGACAGCGAATAAGGCATTCTGGGAGTTCACGGATGGTACTCTTGGCAGAAACATTGGGCGTAGGATGGGCAAATCCATATCCAGAAT
AAGTGCCTATTCCAKTGAGGACAAACCTCTGCCTTTGCATGATGGAAGAGGTCTGATATAATCAACCTGCCACCAAGAAGCTGGCTGATCACCCTGAGGA
AGGATGCCAGACGGAGGGCTCAGTGTTGGTTTCTGCTGCTGGCAAATTGGGCACTCAGCGGTGGCTATAGTCAGGTCAGTCCATGTTGCTGAGCCTATGC
ATAACCTCCATTCCTGCCACCATGGCCACTTTGTTCATGAGCCCATTGAGCGATGACAGGGTGGCTGGGGAAAGAGGCTGAGTGGTGTACACAGAATGAG
TCATCCTATCCACTTGATTATTAAAATCCTCCTCAGCTGAGGTCACCCGTTGGTGAGCACTCACATAGGATACAAATATCTTCACAGTTTTTGACCACTC
AGAGAGGTYCATCCACATACCTCTTCCCCAGATTACTTTGCCACCAATTTTTTAATCATGCTTCTTCCAAGTCCCTGACCATCCAGCCAAACCATTGGCT
ACAGCACATTAATTAGTATATAATTACACATCTGGCCATTTCTTCTTCCAAGCAAGTGCACARCCAGGTRCCCTGCTCAAAATTCTGCCCCCTRGGAAGA
CTTCCCTTTGCTACTGTCCTTCAGGGATGTCCTAGAAAGGGGCTGTAGTGCTGCAGCTGTCCACTTTTGGGTGCTACCTGCATATCTTGCAGAATCATCT
GTGAACCAGGCCCTAGTCTTCTCTKCCTCTGTCAACTGATCATGGGGAACTCCCTGTGAGGCCATCAGTGCAGGCTTGGGGAGAGAAGGCAGGGTGGCAG
GAGTGGAGGCCATGGGCRTTTGAGCCACTTCCTCATGCAACTGACTTGTGCCTTTAGGACTGGCTCGAGCCTGATCATGTATATACCACTTACAGTTGAT
GATGGAAGGCTGCTGTGTATGCCCAACTTTATGGCTAGATGGGTCAGAAAGCATCCAGTTCATGAAAGGCARTTTAGGTTGCATGGTGACTTGATGACYT
ACAGTCAAACRTTCAGTTTCTACCAAAGCCCAGTAACAGGCCAAGAGTTGTCTCTCAAATGGAGAGTRGTGATCTGCAGAAGATGGCAGGGCCTTGCTCC
AAAATCCTAGAGGCTTCCACCTCTAGGAGTCACCTATGGGAGCCTGCCAAAGGCTTCAAACAGGATCCCTGTCTGCCATTGACACCTCAAGGACTATTGG
ATCTGCTAGGTCATAYGGCCCAATYGGCAGAGCAGTTTGCACAGCAGTCTGGACTYGTTGCAGAGCCCACTTAAAATTGGCAGCCTTTCAGGTCACTCAA
TAAATGGGCCCATTTTAACACACCCAGGAACAATGCTTTGCATCCTTCAATACAATCAAGTTGGCACTCAGTATTAACCATCACAGTGAATGAATAGATT
TTCTATGACGTTGACTCCTTGGAATGACCACCAGAGGCAATAAGYACACTCTCAGTGACACGAGGATATGAGGCCCTCCTCTGCCCATTTACACTGGAAA
TGTCTTAGATGTCTTAGTGCTTTTCAATCAGGTATATCCAAACAACAAACAAACAAATAAARTAAGACTAATGCAGAATGAATTCCATAGTTCAGATTCT
TCAAGATAATGGAAAATTATCACATAATCTCCACCTGTTTTGAAACATTATCTTCTTTCCTTCCTTTCCTCCCTTTCTCCCTTTCTCTAAGTCAGTGGAA
TAGTCTAGTTTAACTTTGATGTAGAAAATTTAGGCAGTCCTCAACCTCTCTAGGTATGCTGAATTAAAAAAAAAAAAGAATGACATTTTTAATTCCCATG
GCAAATGGAGTTCTCCTCTTTCTTCTGTTCCTCTTCTTCACCTTGCAATGACTGTCATTTTGTAAAACTTTCTCTCTGTCTCTGTCTCTCTTACTCACAC
ATACACTCACAATGTTCCTTAATATCTTCTAATCCTGAATTTCCTTTCTCAATTTGTTTAGTTAGATCTTCACTAGAAATAAGTATTAGAAATTGGGAAA
AGTTTATACTGGTTGTATTAGGGTTCTCCAAATAAACAGAACTATTAGGAGATGGATAGATAGATAGATACATTGATTGATAGATGACAGATAGATGAAT
GGATGGATAGGTGGATAATAGGCTGGTAGATGATAGATGGATGATAGACAGATTAGATAGATAGATAGATAGATAGATAGATAGATAGATAATAGATTAG
ATGATAGACAGAAAGAATAAGAGATTTATTATGAAGAATTGGCTTACGTGATTATGGAGSCTGCAAAGTCCCAGTATCTGTGAGCTGCAGATCCATGATA
TAGTTCACTTTGAGTCCAAAGGCCAGAGAATCACGGGAGCTGATGGTACAAACCACAGTTCAAGAACTAGAGAGAAAATGAGATGAGATGTCCCAGCTCA
AYCTGTAAGGCAGAAAAGAAGGGAAGGAATTCCTCCTTTCTTTGCTTTTTGTTCTATTCAGCCCTCAAGAGATTGGGTGATGCACAGCAATATTGAGGAG
GGCAATCTCTTTTACTGTCATCCAGAAACACCCTCACAGACACACCCGGAAATAATGTTTAATTTAGGTGCCCATGGCCAGTCAAGTTGACACATACAAT
TTACAATSACACTGGCCTTCAACTCCAGTGCACAATGTGGTCTTCCTCTTTATTCTCCAAATTCAAGTTCTCTTACTTGCTACAGTTGTCCATATTTCTT
GGGAACCATCATTCTAAAAAATGYTGACCAGGCCTTTCTTAGGCATTTCTAGGAAAAATAATATAAAATACAGAATAAAGTGAGGGGAGTTCAGATATAA
TGCATTTCTCATAGAAAAAATGWTAGTGGGATGGTTAGTAAAGAACTGTGCTGTGTAAGCAAGATGTAAGCTTTAAACAAAGTGAAGAAAAGGGGAGAAG
CCTAGAAAAAATAACATTATACAGAAAGAGAATATTCTTAAATATGTCAACTTCTCTTATAGCRAATTTCCCAGTGTTCATTCCTAATACAAGGAGAGTA
AAAACTCCATAGAAACCTCAAAAAGAGCTTTTTCTTGCAATGGGGTTAGGTGTCTAAGGAATAAACAGGACTTTTGAAACTTTACTCTTATGTGACAGAT
CAGTGAGGAGGAAACACGCTGATAAGAAGCACTGAACTACTACAAATACGCTTCATTTGCTATAAATACACTTCATTCACTGAACTATAATAAAATTCAC
TTCAAAAGGAATGTGAACAAAATGAAAGAACTTGGATATAAAGGGGCAAAAGTGAACAAAAAGATAGRAAATGTGTACAAATCTAAGTAAGCATTATGGA
AAGCATAATGATAATAATTATTAAATATGTGGAATTAAAAACAAAGTGGAACTAAAACACAAGAGACTAATAAMATGGAAAATGGGGCAGGTAGTCAGTT
ATTTAATAAAAGTTTTTAATATTCTTGAATTCTGGGGAGGAAAGCAAAAAGCTAATTAACTTTAGTTTTCACTAAGAATATGTATTAAACATTGAAAAAA
AATCTGGAAAAATAAAATTGACAATATTYGAGTTCTCCAGAGAAACAGAACAAATTGGAAGTGTATATATACACAGATATATTATATATTTTAAAGAATT
GACTCATGAGATTGTGGGGTCTGGCTGCAGGGAATAGGTGAATATTGCCGTCTTGAATCCAAAGGCAGTTTGGAGGCAGAATTTCTTCTTCTTCAGGGGA
CCTCAGTAATTCTTCTTAAGGCCTCTGACTGTTGGATGAGGTTCCCCAACATCATGGAGGGTGACCTGCTTTACTCAAAGTCTACTGACTGAAACGTTAA
TCACATCTAAAAAATACATTCACAGCAACATCTAGACTGCTGTTTTACCAAAAACCAAGTACCATAGCCTAGCCAAGTGGATATAAATTAACGATCACAA
ACAGCTAAACATTCCAAACAAGCAGACAGAGAGAGAAAAAAATAAAGAAATGTGAAGGGGAGGAGAATTTTCAATCAATTCTGGAAAAGACAAAAAAAGA
GAAAAAGAGAAACAAATCATAAATATAAAATATAATGGAATTAAATCCATATACAACAATCAGGGTAATTATCACCAGCTGCCTCAAGAAATAACCCCTG
AAATCTCACATGATGGACATAATTCAAGTTTATGTCTCACATCACAACACAATGTGAGTTATACCACCTTTTGCATCTTGTAGTGACACCATACRGTGTA
GCCTCCAAGGCAGGGAAGAGAAAAAATGAAGAGACATGTAGGCCCCTACCRTACTGGCTCATGAAGCCTGGACCACGTCTGGTCTGAGTCATTGACCAGA
AGTAGCCGTGTGCCCCARGCTAACTGTAAGGGAGGTCTGGAAAAGTAGGAGGCACATAGGATATTTGATGAGCACTAACTATCTCTGCTTCAGGTTGTCT
TCATAATAAATGCAAACATTAAAATTGACAGGTTACTATGATTTTCATATTGGATTAAAATGTCTAAAACAAAGGGATTCGTCTAKGTATGACTTACACA
AATACTGCAAATCTTAGGGGAACAGAAAGACTGAAAATGAGAGATAAGATACACTATGCAAACTCTAACCAGAAGAAAGCTGGTATGCTACCATTAATAG
CAATCAAAAAGACTTYAATTTTTTTAAAAGAATTATTAAGGACAAAGAAAGTGATCATGATAGAATAAAAGGAACAAGGAAAACTAAAAAATTATGAGCC
TGCAAGGTCATAATAACAAAGCCTATGGATAAATAAAGATAAATATATCAGAATGAGAACATTTTCATATATATAATAGGGAATGATTTTACCATATCTC
TCTTAAAAAGTGATAGATCAAGCAAAGAGACACAGATTTTAAAAGTACCTTACACAAGATAACTTAATGGCCTTATAGAACTCTATGTCAACTAGATAAT
TAATTCTACATGCCCCATTCGATGAAGTAACTCATGAAACAAACAAAGGACCACAACCTAGATCATAAAGCAAGTATCAGCAAATCCTAATGATCCAATA
GCATCTAGACTACATCCTCTTATCATAATGCAATACAATTAGAAATTGGTACAAAACAATTGACAAAAAGTTTTAAAATAAAAAACATACTTCAAAGTAA
TCCATGGCTTGAGAAAAAAACACAGTTTAAATTTACGAAGTATTTAATAACAGAATGGAAATAAAATTTCACCTCAAAATTTGTGTGTGCAAATAAAGTG
GTACCAACAGGAAAATGTACAGTTTGGAATGCAGATATTAGGCAAGGGTAAGAACTGATACTAATTATCTAAGGTTTCTGCTCAAGATGTTTAAAAAAGT
ACACAGAAAGAAATAAAAATAAAAGCAGAAATTAATGACCTAAGGAAAGGCATTAGACAGGGTTGACAAAACAGCAAGTTGATTCTTAGAATAAACTAGC
AAATAAACAGAAGACAAGAACAATTAAGCAAAGAGAGACAACACAAATGAATAGGATCAAGAATGAAAAGGGGATCATAACTGTAGATACATTATAGATT
GAAAAATAAAAATGGATATATTGGAGGATATGCGCAATTTTATTCAAACACATTTGAATACTTAGGTGAAGTAAACARTAAGTTTAGAGCAAAATTTACT
CAAAAAGAAATAGTACACCTGAGAACTATAACCGTTAAATAAATTGCATCAGTAGTTAATASAACAAAATAACAATATGTACAAAAATGTAAAGGACCCA
TTATGCAATTTGTTCCCAAGAATGGAAAAAGAAGAAAAATTTCCTCAGCTTATTTTATGAGGCTGATACAATCTTGATGGCAAGCCCTACAGAGGACAGT
ACTACAAAGAAAAACTATAGGCCAGTTATTTAAATAGAGAAGCTACAAATGAAATATTATAAAACCCAGTTCAAATGTACATATTTTAAAGATCTGTAAA
TATACAGTAAAACATTAACATTTGCCAGATAYRGATGATGGGAATAGAGGTGTCTGTATTAATTTCTAATCGTATCTATCTTATTTCCTACTTAAATAGT
TTAATTAAAATGAACCTCAGAGGAGATAGAAAATCTGTCCTGCAATAAAATCTGTTCTAAAATAATAAAGAAAATAGGTCTAAAATRGGTCTGGAAATGA
AACAACAACCCTCATCCTTTACACCAGCAAGAAGTTCTAAATTTCTTTCTTTTTCTAAATTCATGATGCATACATGTTTTAATTTCTTTTAAATGATCAG
AGGCTGATAATTGCAAGCAACAATCCCCTAACCTAACTTTTCTCTCAACTAAGCTCACAGCTCCAGGATCAACAATTCCAAATCTTTCAAATATTCTTCT
TTTACTACATCTCTTAGTAATATTATTGTGCCATCACGTATTTCATTAAGTGGGGCATTATCTATTTAATTACTGCTATGATGAAGGAGATGTAGTTCAC
TTACAGAATATCACATCACATTTTCCCACCCTTCAGTTTCCCAATATAGGTACATTACTGTGCTTAGATTCTTCATTTTTAACCTAATATACTGAGAGCA
TTATTTCCTGTATAAATGATAGACTCTGCACTCTTTAAGATGAAGCTATTTATGTCCTCATTCTTCCCTTTAGCTTCCTTTTTTCCTCGTCCTCTCAGCT
TCTACCTCTTTAACTTTGATATTGTGATGGTCAATAACATTTACATTTTATCTATAACCATAATTGTGCCATGGCAGAATACAGAAGTCCCTTCTCTGAA
GACATTTTATTCCTTAAAGGACTCCCTTTGATTTTTTTTCAGTGGGCCATTTGATGCTTRATTGCCAGTTGCTCTGTGCAGAAGAGAAGGGGTATTTTAT
TCCATAAAATAACTTGCAGTGAATTATTCCTTTTTATTTTCACAACTGACTCTCATTCTCTACCTTACCTGTTCTTTCTGAGGCCTGGCCTTCTCCAAAT
TTTTTCTATCTCCTTGCTGGCATATACCCTATAGTGCAAGTTGTGGGTACAATAACTGCAAAAGATTGAGGAGCAGGAACTATCTAAATAACCATGGTGG
CTGGGTGCAGTGACTCATGCCGGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGAAGATTGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGACAACATGG
CGAAAMCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGACACATGCCTGTAATCCAGGCTACTCAGGAGGCTGAGGTGGGAGGATCCCCTG
AGCCTGGGAAGTCAAGGCTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGCGTGACAGAGCAAGACCTTATCTCACAAAAAAGAAAATAAAAGG
CCCATGGTGGTGTGGCTAGGAAAGAGTGCCAACCCTGTCCAAAGGGAAGCTTTCTTTGCTGAAATTATACACTTTCTTTCTTTTTTTTTTTTTTTTTTTT
TGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTC
AGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATG
GTCTCGATCTCCTGACCTCGTGATCCGCCCGCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCGAAATTATACACTTTCTTTGATCAAC
TTCTTTTTACTCCGTCATAGTTTTATTCCCCACCAATCTCCCCCGGACAGTCACTCCATTTTACTTAGTCTCTTGGTACTATTCTCAGAATTCAAATTTT
AAATTAATTAATCTGTATTTCTGAAGAGCTGTTTGTTTTCTTACTGTATATTTTGCTTTCTCCATGGGAAAGATATGCTTGGGAGCCTCATGCAGTCTTG
GTGGGAGTTATGTAACCACTGGGCCAGATATGTCAGGGCACACAGCATGGTGAGCCATTCCCTGGCCAGTTCCATCGCCCAGAGCCAGACCCTTTGGGCC
CTACACAGACTGCACAGCCCCAGCATGTGGGGGCTTGTATAAGGGAAGTTCTGATGTCACAGGATCCTTGGGGTGTTTCTTCACCAGCTGGAAACCTCTG
TGGCCAGTGGCACCTTTGCCTGAGTTTTGCTGAGGTCCACTGGGCACATTCCGCCCACTCAGCCTGGCAGGCTACACTTGGCTCACACTACCACTACTGG
GCTGGATCCCACACCTGCCAAGGGTGATTCAGGGCAGAGTGGCGAGGGGTGTGTGAGTGAGCGTGGGCTCCAGCCACTGTGCACAGCTAAGCGTGCCAGC
TGCAGTGGGCTGGGCAGCTCCAGGTCCTGGCTCTATGTGAGGCTGTGGCTGAACCAGACATACTACAATTGGCTTCCACCACTGGTACCAGGGAATGCGG
TGGCACCCAGGAGCTTGGAGATGCCAGGAACCACAGAGTCTGAAAGAGGGTCTCACAGCCCTGGCTCAGGGAGTCCATAGGTCTCAGCTCCCCAAAAGGC
CACAGCCCTTCTCTCCTGCTCATTGCTGTCAACATGGTGAGCTGGGGAAGGGGGTGTGTTTCARCCCTGTTTGTGTTGTAGCTCTCTCATTTCCACCATT
TGCGGGGGGGTCCCAAGTTCTTGTCCCACATCCTGGAAGAATGAGGTTTGCAGACAACTGGAGGGTTAGCAAGGTGAAGAGGTGCTTTAYTGAGTGACAG
TGCAACTCTCAGGAGGCCTGAAATGGGTAGCTCCGTTCCACAGGCAGGTAATTCCAGCATCTGTGCAGCACCCTCAACAGAGGTGAGACACACAGTGGGT
AGCTCCTATCCACAGGTAGATCATCCTGTTGTCTGCCCACGTCTGGCTGAGTCCGRGGTTTTTTATGGGCYTCAGAGGGGAGGAAGTGTATGCTGATTGG
TCCATGGGTGGCCATGAGCTGGCCCAAAAAAAGCACCRTAAGTTCTCACTCCAGTTTGTGGAACCGACAGTCCAGCCCCCTTCCTTCAGGCAGTCCCTGG
CTTGAAGGTGGAGCTTCACTGAGGGCCCACCCCTTTCCACCCAGGAACCTGTATGCCTCCTGCCACCACCAACCTGCCATCCACGGCGCCCACTGRCACC
CAGGCTGTTCATGCCTAGGGTCACCTTCAGGCCCATGCAGAGCCACCCTCAACTCCCCCTTGGCCTCCCTAATGTGCTCCTTGGCACCCAAAATCCAGAA
GGGGCCAAGATAGTAGGGGGCTAGAGTGTCAGTGCTGCCCCGAGCATAKGCACACCTGGCTGGGTTGCAACAGCCTCAGCTTTGCTCTGAAATCAGCCTG
GGTGCCGGGAACAGTGAGAGACCAGGAAGAAGGAGCGGGCACTTCTGAGCCTGTAGGGGAAGAGAGGTGGCTGAGGGCACAGGGATGCCTGGGTCCACAG
CTGGCTGGGTGGCTGCAGCTGCACCCAGTAGGGCAGGGTTCCCCCACCTTCAACTCGGAAGGGGACATGGCTCCCACTTGTTCCTGGCTCCCACCAGCTC
TGTGGAGCACAAAGCCAGACAGGCTGACACTGCCATTACTGAGACCCTCTTGCTCTCAGAAGAGTTTTCATCGCCTGCTCCCTCTGTTTTCACTGCTTGG
TGACTGTGGTGTTTTGTTTTGTTCCTATTTCCTTTTCTCAGAAAAGAAAGTCTTTAGAATTAAAATTTAAGCTGACAATAGATCCCCTCTCCCCAGGGAG
CAGAAATATGGATATCCCTAAAGGTCTTGAGTGTTTCGGTCTTTCACTATTTTATACTCAATATTCCATGATTTTTATCTAGATATGCCTGGTGGACAAC
AGGTGATCGCCAAATATAGGTTGTCCCTCCCATCTCCAAATTCTGATGCTAGAAATCAGGAATGGCTATGATAGTCCAGATTTTCAGAATTGATAAGATA
TTTATATTACCCTAAGAGATACGGAAGTTGAACAGAATAAAAAAATTCAAAATAAAAGTAAATAAAATTACTTTCTTTCCCTGTTTAGTTTGAGATCATG
TGTAAATATCAGTGAACGTGATGTCATATAGGATTTTTTTTTATTGATCAGAATTAGGTTCAAGTTGTGTTCTGGAAACTTCTAATTAAATTGAGGGAAG
ATGCTAGCAGGCCAGAATTTGGGAATTAGATGATCTGGCTCCAAATTCAATACATATTGTCTATGTAATTAGCKGTGTCACCTAATGTACCAATAATGCC
TTTTCAAGAAACACTGTGCAGTCTGTTCTGATTCCTCCATTGGCTTAATTCCTATAATAAATATAGTTTCCAAAGTTTATAACTTAATTTTCAGAATTTA
TTTATTTTAATTGACAGATAAAAGTGGTATATATTTATCATGTACAACATGATGCTTTGAAATAAGTATACATTGTGGAATGGCTAAATCGAGGTATTTA
AAAATATGCACTACCTCACATACTGGTCATTTTTCTGTGTTGAGAACACTTAAAATCTACTCTCTTAGCAAAGCCATGCTGGCTTTAGTGATTTTTTTTT
TTGTACATGATACTCTCATTTGGGTCAATAATTTTTTTAAAAGTCTATTGGAAGCAGAGAAATAAATTTTTTGACCCAGCCTTAGATGTATTTAAAAGTT
CAGGGCATAAAATGATAGATGTCTCAGGGTTTGTGTCATCAGTCGGAAACACAGAACTCTTTTGAACAATGCCACAATGCAATCTAAGTTTGATCTAATT
TTCTTCAAGACAATAATGCTCTTGGTGCCATCCTACCTGCTCTTTATGATTTCTACCCGTAGGTAGAATAATCAAGAGGTGAGATTGATGTTGTTTTTGA
TTCTGGACATTAACTAGAGGGAAAATTCGAAGCCCTSTAAGAATGGTATCTAACTTAATAGACACCTCTCCATTACCTTTACTCAAAACTAAGACTCTTT
GTGGTATGGGCCCACCCCACCTCTAGTAGCCAGCTGCTAGTCCAGTGTCTGTCTCACTGAAGCAGTCTAGTGGTACACATAGGTACTGAGCAATTATGTC
TGTCATGCTGTAATTGAGGAAAACCATCCTTACTTCATTTTATATTTTTGAATGCTCCCTTGATTGTCCTTCTTGGTGTTCCCATAAAGCTAAAAATTCA
CACTCACGAATTTTAAATTATCATGAGCAATTTGGGGGATTTCCTATTTTATCACTGAGTCTCCTTTGAGTGCTCAGCTGCTTTCAATCTTGACAGATAC
TCATCTGACCCATCTACCACCCTTAGGGTATGCTATGCGATGCCAGGGACCTACAGCCTTTTAAGAGATTTTTGACCAAAGCCGTCTCTTTGGGGTGTTT
CTTGACTCATTTTTTACTCATTATTTAATTTTAATAACCTATAGTACTTAAAAATGTACAGTACTATATAAAGCACCTTAAAAATTGATGCATGGTGATT
TTCTTATTTTAAAATTGTGTATGATTTTTTAAATTATTATAAAAGCAGCTTATGTCTATTATAGAAAATAGGAAATACAGAAAAGCAAGAAGAAGAAAAT
ATAAAATGTGCATACGAGTAATTACTTTTGTAATATCATTGTATATCTACTCATATCTTTTCCTATGCAAATAGTTTTTCTACAAATGGGTGATATTTAT
ATAACTGTTTCATAACTTACTATGGGAATKAACATCACATACGTATTTTAAAAAATATTCTCAAAAATATATTTTTAAAATGTATATTGAACTAGATTCT
GAGAATTTACATCATTATTATAGTAAGAACATTATCCTTGATTTTGATTCATAGTCTAACATACCAAACTCTAAATTTCTTCTGTTACTCACTTTACATA
AACACATTGCAGCCAGTCACCAACCCTTACATATATCCCTGCACAGTTTGAGCAGTTTTCTTTATTGAAAATATTTTTAATTTAAAATCATTTAAGTTTT
ATATTATCTTGGCACATTAACCCCTGTGGAAATGTGTAAGACTTCTCTTCTAAAATAAATTATTTCATAAAGAGAGAGAGTAATAGAATAAGTCATAAAC
CATGCTGATGAATTTTTAGTTACTACTGTCTTTAAAAAGTAAACAAAAAAACAGAAAATAAATATTTTACATCTTTTACAGCCAACTCTTTCAATGAGTT
CAAAAATTTCATCTCTAATAAAAAAGTAATTTGGGGAACATTTAGGAAAAAAGCAAAATATATAAAGCAATGTAAACAATAACTTTTAAACTTGCTTGTT
TARAAAATCACTGGGGTACAGGTTAGTCAGCCTGATAAACTCTAACTTGCCTTCACACCTCCCTCCTCCAGCAGAGCCTCCTCTGACAGCCAAACATCTA
GGCATTTCTGTGTTCCATTATGGTAATGATTGTCTTTTTTTATAAGTGACTATATTTGTTTGTCTTTCCTCTTCCCTCCACTCCAGTTCCATTAGGGAAG
GCATAGTCTTTCCATTTTGAATATTTGGTGCTTGAGATAAATAAAAAGTTTTGTTGGGTAAATAAATCAATTCACTTATCTATTAATCAATGGCAGTATG
CTTTAGCAAGAGTAATTATGAATATCTAATAAGTAGTAGGAAGAGGAAAACTAACATGTATTAAAATGCAATTACATGCCAAGTCATCTGTTGAATCCTA
ACAGACTTTATAATTTCATTTTTTCCTGCTATAATGACGTTTTAAATTATCTCACATTTTCTTAAACAATTATTAACTAATAAAAACATACAGCAACTTA
CATAAAAATAGACTCTGTTTTGCATGATATAGTTGAAATTTTTATATAACTTGTATATCCATATGTATGAATATATATATATGTACACAGACTCAGAAAG
AGAATACCAAGAATTTATTGTTTAAAAAAAAAAACCTCTAAAAAGCAAGAAACAAAATATCTTGCAACTCAAAGAATCTCATTTATATTTCACATATGCT
GTAGACACAGCTCAGGAACTCAGATGTGATGCTTATGAATATGTATAAAGTATAATTAGCTTAGAAAATGCTGCTTCATCACCTGTCCTGATATTGTTGA
TGTGCTTCAATAACTTACCAAGCAATGCTGGAAAAGGTTCTCTCCAAATTCCAGTGAGTTGAAACGGTGCTTTTCACCCATAACATGTTAGTGTTTTCCA
TTCCCTTATCATGTGAAAAGCCTGTCCTTTAAACCCAGATTGCTGGCAGACTGCTTGTAACTGACAGTTGTATGCCATAAGCTCTTTACTTTAATATTTT
AGAGAGCTTCTTGAAACATTGAGGCATGTCTTTTCCTCCAAATCTCTTGATTTTTAACCTCTCAATTCCACGGTGCTTGCATGAGGTGACTATTCTCTTT
TCTCTGGCCTATACTATTACAATAACCAATTGATGGCTCCTTTTTTCCCACACAGCTGCCCAATTCATCTTCTTGGACTACAGCTCTGATCACACTCTCC
TACTCAGAAACTTTCAAGGCCTCCAAATTGCTCATTGCCCAGTTTCCTTACTCGCACATTCAAACCTTCCAGAAATTGACTCTGACCTGTCTAATAGCCT
TACTTCTCCACATTGCCCTTGACGAACCCTACAAACTTAGGGAGCTGAAATACTCGCTCTCACATCCACACATCAAAAGTCCCTGCCTGCCTCCCTGCCT
TTCCTTATACTATTTCTACTATATCTTCTACATTCCTGTATATACTACCTGTCTCCTTTCATCTGAGCAAGGAATGGTTGACTAAGGATCCAGGAAGAAA
TCACTGACTTCCTAAAAAGCAGGGAAAAAAAAATTGCCTGGAAGCAAAGAGCAGGTGATATTCAGAAATGCAAGAAGATAGAAAATTAGCAACACGGAGG
TCTGTATCAGTACATAGCCTTCAGTCAGGGCTGTCATGTTTCTGGATGAAGGTGCAAGAGCCAGTGGAAAATCAATACATTGATAATCATCCAGCCAGAC
TAATCAGAAAAAAATCAGAAAAGTCACCAACTACCAATATCAGGAATACAAGAGGTGAAATCACTACAACTTCTGCAGATAGTAAAGGATGTTAAGAGGA
TATTATGAACAATTTTATGGCAATAATTCAACAATTTGGATAAAAAGGGCAAATTCTTTGAAAATCACAAACTACCAAAACTCACAGATAAATAATCTGA
ATAGTTCTATATTCATTAGAGAATTTAATTTGTAGTTCAAAACCTTCACACACACAAATTCAGTTCCAGATGACTTTACTTGTGAATTCCACCAAATATT
TAATGAAGAAATAATAAACTCTTTCAGAAAATTGAAGAGGAGAAAATACATCCAACCTCATTCTACGAGGCCAGTATTACTCTGATACCAATGGCAGACA
AAGATAGTTTTTAAAAAAGAAAATTATATTATATAACAATATCCCTCCATGAACATAGATGTAAAAGTTCATGGCAAAGTTATAACAAATCAAATCTAAT
GATTTACTCAAAGGATTATACATGATCACTAAATGATATTAATGCCAGGATGTAAGATTGGTTTAATATTTGAAATTAGTCAGTGTAATTTACCATATAG
CAAACTAAAAAGCAAACTATATAATCACCTCAATTGATACAGCAAAGGCATTTGACAAAATGCGTCTATTTTTTTTTAAAAACTGCCTACTAAGAGTAGG
GGAACTTCACTACCTGATCACTATAAAAACCTATTTTTTAAAAAAACCTAACAGCTAAAATCATACTTAGCACAAGACTAAGATTAGGAAGAAGGCAAGG
ATATCTGCTTCCATTACTTCCATTTAACATTGTACTAGAGAGACTAACCAGTACAAGGGGCAAGAAAAAGGAAATAAATGGCATCCAGATTGAAAAATAA
GTACAAATGTTTTTATTCACAGATACTATAGAAGTCTAAGCATAAAATCCTGGTGGTTCATGCCTGTAACCCTAGTGCTTTAGGAGGCTGAGGCAGGTGG
ATTGCTTGAGGCCAAGAGTTTGAGACTAGCTGGGCAACATAGCAAGACCTCATCTCTACAACCAAAAAAAAAGTTTAAAAAGCATAAAATAAAATGCTAT
CTATTAAAAAAAAGTTACTAGAACTAATAAGTGAGCTTACCAATGTTATAAGGTACAACATCTATATGTGAAAATCAGTCATTTCAAAGACTGGCAAGGA
TACGTTGGAAGTTGAAATTAAAAGGTTACAGTTTACAATAGCATTAAAAATGTAAAAGACCCCCTACACTGAATACTCTGGAGATAAATAAAAGAAAATC
TAAATAAATCAAGAGATATACCATGTTCATAGATCAGAAGATTCAATATTCCTATAATCCTAGTTTATACATATTGACCTACACATTCAATGCAATCCCA
GTAAAAATCCTAGCAAGGTTTTTTCCTAAAAATTTACAGATATGTTTTACAATTCATATGGAATTGGAAAGGAGAAAAATGTTGGAAAGGTTATACTACC
TGACTTCAATACTTACTACCAAGCTATGGTAATCAGAGAATGTGGTGTTGGTATCAATATTGACAAATAGATTATTAGAATAGATTAAAGAGTCCAGATA
TAGATCCAGACATGTATGGTCAAATGATTTATGACAAAAATACAAAAGCAATACAAGGTATATTTAACAAATTCTACTAGAGGAATTGAATATCCATGAA
CAACAACAAAAAAAATGAACTTCAGTCTGTATCTTGCACCATATTCCAAAATTAACTCAAAAGAGATGCTAGACCTAACTGTAAAACATAAAAATATAAA
ACATCTAAAAATATATAAGAAAAATCTTTGTGATCTTGGGTAAAGCAAAGATTCTTAGATACACCACCAAAAGCATATCCTCAAAAGGAAAACAAAATTA
ACAACTTAAATTTCATCAAAATTGAGAACTTCTTCCCTTCAAAAAAAAAAAAGCACTTTTAAGAAAATGAAAAGATAACTACAAACTAGTAGAATATATT
TCCAAATTACATATCTGATAAAGGACCCATATCCAGATTATTCATATGTATCATTCAAAACTCAAAAATAAGAGCAAATAACCCAAGAAAATTTGAACAA
AAGATTTAAACAGGTCACCAAAGAAGGTGGAAAATAAGCATGTGAAAAGATGCTCAATGTTATTAGTCATAAGGAAAACACAAAGCAAAACCAAAATGAT
GACCAGTTAGAATGTCTAAAATTTTAAAAGACAGGTTATACCAAGTATCAACAAAGATGTAGGCACATGCAGCTCTCATACACTGGTGATGGGAATATAA
ATAGTTCAGATACTTTAGAAAACAGGTTGATAATTTCTTAAAAACGTAAACATAAATTACCATATGATCCAGCCATTCTGCTTCTGTGTATTTACTCCAA
GATAAATGATGGCATATGTTCACCCAAAAATTTGTACACAGATGTGTACATATCCCTATGATGAAATAATTACCAATAAAAAGGATCAAATRTGGATACA
CACACAACATAGATAAATGTTGAAACTATGTTGAGTGAAAGAAGCCAGACAAAAAGAGAGTACATGCAGAATGTTTCCATTTGTATAAAATTCTATGAAA
TGCAAACCTACAGTGATGGAAAGCAGATCAGTATTTGTCTGGGGACAGAGGGAAGAGAAGGAAGGATAGAAGAAAGAGATTCAAAAGAAATGATGGATAT
ATTCTCTACCATGGTTGTGGTAATGGTCTCATGGGTGTACATATTCAAAACTTATCCAATTGTAAATTGGTTTGCATGGTTTATTTATGCCAGTTTTAAC
TCAATAAAAGTATTAAACAGTATTAGTCATCTCTGGTCATAGTCCCTCCACAATTTCCACAACTTAGATTTTAGCCTCTTTCACTGTTGTTTGGGCCATC
TTCCTCTTTTCTCTCTTACCAATTCCATTTATTTTCTTTTTTAAATTCTTTTTACTTTTTTTTAATTTTTGAAACTTGTATTTTAGGTTCAAAGGTACAT
GTGCAGGTTTTTTATATAGGTAAACTCTTGTCATGGAGGTTTGTTGTATAGATTTCATCACGCAGGAACTAAGTCTACTACCCAATAGTTATTTTTCTCT
GTTTCTCTCCCTCCTCCCACTAGCTACCCTCAAGTAGGCCTCGGTGTATGTTGTTCTCCCCTTTGTGTCCATATGTTCTCATCATTTAGCTCCCACTTAT
AAATGAGAACATGCTGTATTTGATTTTCTGTTCCTGCATTAGTTTGCTAAGAATAATGGCCTCCAACTCCATCCATGTTCCTGCAAAGGACATGATTGCA
TTCGTTTTATGACTGCATAGTATTCCATGGTGTATATGTACCACATTTTATTTATCCAGTCTGCCGCTGATGCTATTCCTTATTTTCTTATGCTCAGCAA
ATCAACCTTTTCTCTCCACTTTAATCCTGTGCCTCACTTTGCACACCTGAAGTTAGCTTTAAAATTATGACTTTTAAATGCTTGTCAGATTACRTTCTTA
CAAAAAGGTATTCACACTCCAAGGCACTGGGGAAAGCTGTTTTCTTTTTTTGTCTAGTTTCATCTAGTACTATAAATGGCCTATATTATCTTGACAATTC
AGGATTGTATTATCATCCTTGGTTATTTTACCACAATAAGGTTGGCATCTACTGAGACCTACTTTACCTCTATACATTTTATCCCTTTCCAAATTGACTC
AGACTCCTGAGCTTCAAAAATTCCTCTCTCCACTTTTTAGAGTTTTCTCTTCTCTTTGCTCATTGTCGGACAGATTGTCAGCTGTCACTTCTGCTGTTTT
CATGTGTTTGTTTAGAGAATCTTCACACATTCTTTCATTGTAATTTCCTGTCTCTAAATTGTTTTGATTCAGAAAACCTATAACCAAGGGAGTAAAAATG
ACGTGTAAATTTGGAACAAATATAGAATCTGAGTGGGTAACCTGAGGCTTACTTCGTGAGTTAAAGTACATTGCATCTGTGTCATTAATTTTGACACTCT
TTTTTTTTTTTCCAAGATGAATGACACTTATGTGATGTTACTGTATCTAATTCCCAAGAGAACTGTAGCAATGAGAATTCCTGTTTTTCCCAGCAGAAAA
CATCATCAGTTTTCTGGAGAATAATTTGCCAAGGTTGTCTTTTGCAAGAACTATGTTCAGTGTTCTTTTTTATTTATGTAGATGTTTCCAATATATCTTT
TTGTAGATATGATAGCATTGTACAATCAATCTGTTCTATGAGCAATCAATTATTTACCTGAAAGCTGTTAGAATAATACATTAAAATAAATTTGACCACA
GCCATACCAAGTTCTGTAATCTTTTCTAGTTTAATGTTCAAATAATGTGACTGATAAAAATAATGTAACTAAGGCARTCCAGATGCCTTTAACGAGTGTT
ATGTCTGTGATAATCTGAGTTCAGATTTATATCTTCAACAGTAAGTATTTAGCACTCTCCAACCCTTCTTGCACTTGCAATACTTTTCCAATTTAAAATT
TACACATAAGATCCTGTTTGATTTATCTCTTGGTATATATGAATTATGTAATGATTGCTGAGGAGCAAACACTATTAAAATGGGTAACTAGACATTCAAG
TTAAACATTCCTTTTCCCATATCATTCTATTAACTTTGTGTCACCTTTTTTAATCTGAGTCTAAACAAATATATCTTTGCTTGGAGATAATTGTGGCTCA
GAGATTGTCATTTAGAAGATTGTGTTTTGCCATACCGCTTTAAGATGCATTTTTTAAAAGAAGCAGTGTTCTTTCTCATTTCAGCACTTGGGAGATACAG
GAAATGCTCCCCTCTCAGTCCACAACTAGAGTGAAATTTGCTTAAGGATAAAGTCAGGGGATGTGTTTAGTTCTTAATTTGCTTGACTTCTGTAGCACGT
CATAATGCTGCTCAGTTATGTCCTTACAACACCGCCAGTTATCATGCATYGAGTCACTTCTGCATCTCTTAATTTCCATAGTGTTATGCTCTCCTAATTT
CTCCTTTTCCTCTGTGGAATGCCAGTCACCTTGCCAGCTCCACTTTCTCTGCCTACTCCCTAAACATTGAAGTTCCTAAGAACTCTGTTCTAGATCTTCT
TCTCATACCGTAATAAACAGTCTCCTAACTTTAACTACCGAATATGTGCTAATAATTTACAATTCTATATCTGCAGCCCAGAGCTCTTTCCTARAGGCAA
ACTCTGTGTACCAACTGCCTTCTGGATCCCTCCACTCCATTATTCTATGGTTTTAGATGTATGACATTTGTTTTTCTGTCCACAGGCAACAGGTCCTCGG
GGTTTATTAAAGGAAGATGCCAAAGGCTGTCTTCAGAAAAGCTTCAGGATTCTTAACGAAGCCAAGAAGTTAGCAAATGATGTAAAAGGTCAGTGTGGCC
ATAGTTTTTATTATATTCCAGTTAATCGGGTTGTTACTGATAAGATATTCTATCACACTATTGGAGAATGTAATTTCTTTAGCATGATTTTTGTGATGAT
TCTATAATCTATTTAATGCAAGTAAACTTTCTCACTAGTTTTACAAAATGTTGTCTACCTATCTCACTTCAAGTAGGGTAATATCTCATAATTTGTAAGT
CTTATTTCTATAGCATCACTTCACCTATATCTAATGTATAGTAACTTTTAGTGTAATAAGTTTTTAAGAGTATCAAACCCAGGCCAGCCATAGTGGCTCA
CACCTGTGATTCTAGTGCTTAGGGAGGCCGAGGCAGGAGGATCCCTTGGTGCCAAGAATTTGAGACCAGCCGGGGAAACATAGCAAGATCCTGTCTCTAC
AAAACATTTTTTAAAAATTTAGTCAGGTGTAGCAGCGTGAGCACATAGGCATAGCTACTTGGAAGGCTGAGCCAGGAGGATCGCTTTAGCCCAGGGGCGT
GAAGTTACCGTGAGTTGTGATCACACTACTGTACACCAGCCTGGGTAACAGAGTAAGATCCTGTCTCTAAAAAGAAAAACAAAATTAAATACATTTTTCT
TTTTCTGAGATGAAGTCTCGCTCTGTCAACCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAGCCTCTGTCTCCCAGGTTCAAGTGATTGTCCT
GCCTCATATCTGGGATTACAGGTGCATGCCACCACACCTGGCTAATCTTTGCATTTTGAGTAGAGACAGGGTTTCACCATGTTGACCAGGCTGGTCTTGA
ACTCCTGACCTCAAGTGATCCTCCCGCCTCGGCCTCCCAAAGTGCTGAGATTACAGATGTGAGCCACCGTGCCCGGCCCTAAATACATTTTTCTTGTATT
TTATTTCTGATTCAGGAATCAAAATGCACAAAATATCTACTGCCATATTATGGGTTTTATGTTAAGAATATATCATTAAACATGGCTGCTCTCTATATGA
GCCATTACAATTATTATTTTATGCACTTATCTCTTGTCTCCCATTTGAATTGCCACCTGTTTCTCTCTTCAGTTTCATTCCCTACCATTTTCTGTCTCAT
ATCTGTCTCCCTACCCTTACCTAAGTATTCATAATTCCTCCCAAACATGCTACTATTCCAAGCCTTCATGTTTTCAGTATTATTTCTTCCCCTTGGAATG
CCCCATCCTTCACCTCTCTTCTTTGCCTAACTGCTTTCTTCCAGACCTTCAGGATTTAGTTCAAATGCCATCATTTCCAGGAAACCTAACACCTCATCTG
ATTTACATGCCCCCTCTCTGGTATAGTTTTCTCATAGGCTTGTCAAACCACCACAATCATGGACTAATTAATATTCCATCTTCTTTTACAATTTTTAAAA
CTTTTTTATTGATGCATAACAGATGTATAAATTTTTGGCATTCCATCTTCTTGAGGAAAGACATGGGGTTTTGCTAACTGTGTATTTCTAGTATGCATAA
TAGTGACTAGCTCAAATGAGGAAATACTTATTTTTTACAATAAATGGTGTTGGCTTATCTTACTTATCTTAGAAAGAGAAGAGGTTTTAAAATCATTTAT
ATTTGGCATGTTTTGGTCTCAGTAGAAGCTGATATGAAATTACAAGTTCTATCTCGATTATAAGTAAAATTTTAATAGTACAATTCTTCAGGCTGTGTAT
TACAGGTGAAATAAAACTCCCTACACACATAATTCTGCTCAGCAGGTACCTCTTATTACAATCTGAAGAATGACTRTAAGAAGCCAAAACCTGTGTTCCT
ATTGGACAAATGGACTCAATCCCGTGACTTTGCGGTCACTCCTTCCTATCTCATACCCTTGCCCAGGGCTGGGAATAGGGAGGAAGGGAGCGAGGTGATT
CATGCAAGTGCAAGAACCAATCCTGTCTTTAAGATTTTAATAATACCAGGGCCGTGCCCTCGCCTCTATTTCCCCACAAACACTGGTATTATAAAAATGA
AGAAAGAATTTTATTTTCAGSCATTTTTTTTCCAAGAGAAAAAGAAATCTAAAGACAAGCATTGTAGGAAGGGTTAGGAGACAGAAATGTTCRTTAGTTT
AAATTTMTTTTTTTTGTAGTTCAGGTAGTACATTATTTAAAGTAATGAAAACCCACARACTACTCRAGTAATAATTCCTCTAGAAAACCAAGCCAAGGCT
ATGACGGAGATGGGAATGTTTTCTTGCTACATTATGACATTTCTCTGATTTGTGGCCAATTACGGAGGTTATAAAATGGCTGTTAATCAGGGAAATGCCA
TATATTACTACCAGGAACTGCTGAAATAGGCCCTACAGAGCAAAACTCTTGACAGCAGCTATTAAAATAGAGATTTAGTCATTTCTCTCTCTATGGTGCC
TGGAGTTAGAAGGAATAAAAATGGTGAGGCCAGTATACCCTCCATATTTCTAATTTGTTGCTTGGTTCAATTCAGTACAGTTCAGTTAGTTTGTGAGCTT
CAGTCATGAATGACTTAGTACTGCTCCCTGCCATTTTTATGCTGTCCTTGCCTTGAGGGAATCTGAACTTGCCGGGAGCAATTTGTTTTGCTTTYTAATT
TTTGAATATACATCTGTTAAAAGTAAATTTGCCCTTGTGTGAGTTTGAGATTTGAAGCCTGTCTACATTGCACTGATCGAATGTTTGTGGAGATAAAAAG
TATTTTGTTGATGGATATGAGGCTTGGTACAAATTGATGACTGAAAGAGTGAAAAGATGAATTAGTACCACCAGGTGAATGAACACTGCTTTGCAGATAG
ACAAGAAATTTTTTAAGGCCGGGCGCAGTGGCTCATGCCCTGTAATTCCAGCATTTTGGGAGGCCGAGGCAGGCAGAGAAGTGGGAGAATAACTTGAGCC
CAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCTCCATTGCACTCTAGCCTGGGTGACAGAGTGAGAGCCTGTCTCAAATAATAATTAATTAATTAATAA
TAAAAATTTAAAATAATTTTTTTCAGTAAAATGCCAACTTCATTTTCTCATGGAATGTGTACGAGGCAAGGAAGAAGTAGACCTTGGTTTATTAAAAGTT
TGAGAATATTAAGATTTTAAAATTATACATCTTACCTTATATTGACTAACTTTTCAGTTTTATTTCCTTCTTAATTTATCCCCAATTTTTGTCTTTGCCC
AAGATAAATGAAATTATTTAATTACTTAGAAAAATAATAGGTAACATGTTGGCCAGGTGCGGTGGCTCGCACCTGTAATCCTAACACTTCGGGAGACCGA
GGTGGGCAGATCACCTGAGGTAAGGAGTTTGAGACCAGCATGGCCAGCGTGGTGAAACCCTGTCTCTACTAAAAACGCAAAAATTAGCTGGGCWTGGTGG
TGGGTGCCTGTAATCCCAGCTACTCRGGAGGCTGAGGTAGGAGAATTGCTGGAACCCAGGATACGGAGGTTACAGTGAGCTGAGATTGCGCCACTGCACT
TCAGCCTGGGCAACAGAGTGAGACTCTATCTAAAAAAAAAAAAAAAAAACTAGGTAACATACCTATAAAATAGATAACACAGGAAATAAAAAGACCTATT
CCCTGGAGATCTATGACAGCTCATTTTAAAGGAGGCGGTTTGTCTCATAGCACTGTAGCCTGTGGTATATAATTACAGTTAACCCTTGACCAATGCAGGG
GTTGGAGAGCATGGACCCCTGCACAGTTGAAAATCCATGTATAACATTAGACTCTTCATAAACTTCATAACTAAACTTCATAACATAAACTTTATAAACT
AAAAAAAGAATCTATTCCCAAGCCCAAATAATGAATCAGTGCATTGCTTGACATATGGTGCTGTCCCACACAGAGAACAGTATGAAACATTATTCCAATC
ATTAAGTTTTATCAAACCAGTTGAAGCCTTCCTTCTATACAGTGGTCCTCCAAACACTCAGTCATTCCGTTCAGACAAGTGGGTCTTGAAGATTCTGAGA
TCATGGATGTAATACACTTGCAAACGCTAACCTGTTGAGATTCTGTGTTATTATTTTATATTTTAAAAATAAGAGAATAAACTGGAATACTGCAGTGCTG
CTAAACCAAAGTATGATATAGGAGTGCAATTGTGACTAAGGGATCCTTTTATTATTAAAGATATACTCCTTTTGAATTTGCATATTACCCTTTGCCTGAA
TCAGCCTTTCCATAGCAGGCATGCAAAAGACAAGCAAAATCTGCTCTATTGACCACAATTTTAGACTAAAAGGATGAAATTAAGCCTGGGTCCCCTGGCC
TACTGTGGTCTGGAGAACAAAGCAGTCTTTTCCAGGTGAAATTGCTGATCCCTCATACAAAGTTTTGATTCCTCCTTTAGAGTGTGAATGGTGGAAATAA
AAAAATAAAACCAGGGTGGACTTCCATTAGAGAAAAAACAATAAGTGGCAAAATAGTGGCAAATATAGAGGGGCAGGTTCTATTGGAAAGATTATCCCTA
AGAGCGAGACGTAGCTTGTCATATCCAACCCCACCATGTGAGTAGAGGACAAGAAACAAACATTCAGAACACTCCTGTATATCATCTCAGCAAGAGACAA
AGGCCTGTGCAATAAAAATGGGGCTTAGAGCTAAAAACTTATCTGGGCTTTGTTGTGTGTTCAGAATCAGAGTCTGAGATTCTATGGCGTTTTTTGCAAG
TAAGTTAATTTAGACCAGAAATAAACAGAAATGCCTTCAAGAGACTTACAGATAACATAAAGGGATGGTGGGGCCTGTGTTAAACCAAAGACTATTTGTC
TTATTTAAAGGTATTCAAACTCAATTTTCTTGCTGGGCAAAAGAAAACAAGCCTGCAAGCCCACAGTCACCATGTCCTAGAGGAGCCAAATGCAGGTGTT
GATGTCTGGTGGTTTTAGTTTTTCATTCCACTGGCTGCAGAGGGGACTCCCTTTTATCCCAATATCCTGAATCTTTGCAGAACCTGCTACCAGACAAGTA
CACCTTCCCTCCTTTCCTGAAGCTCCTACTATGACCCCCTAGTGGGAGGAAGAGCATATGCAAGCATGGTGCTTATTGCGAACAAGATCTAATTTCTTAC
TTTCASATCAGAAGAGGGTTTCTCCATAACCTGACTCCCTGTGAAACAGTCATCTCTGAGGTTSCCATATGTGGTCACTCTAGTATGTATGTCTGTCTGT
GCAGAATAAGTAATCAGATATACAGCACATCCCAAACTTGTGACAGCTACTAGGGAAAGGGAAGCACAGGAGTAACAATCATGAAAGAAGGCTAGAAATA
TAAAGGTTCAGGAAATGATACCGTTCCGAATCATTGTCACCAAATTCAATGATTGCCTGCATAATGCAGAAAATTGGAGGGATTTTTTCTAAGAAGTACA
AAGATTGGGTGTAGCAACCTTATCAAATCAATTTGCTGGAGACCTAGGAGAGAAATACAGTTGTAGATTTCAACTTCTATTCTTCCTCACTCGGGTGCTC
TTCTTTCCTACCCAGGTCTCAAGATCCTGCACTGGGTATTTAGGTTGACTTAGGGGACAGGGTCTTTAGAAATCTCAAGAAGCCAAAATCTGAACACAGT
CACTTATGCTTGTAATCCCAGGTCCTTTCAAAAGTAATCACATTTCCATGAATTTCACCCTTGTGAATGGGGCATTCTTTCAGGGCATTTATTTGTGCCC
TATTCATATTAATAAAAAATAAAAATTCCATTTGAGAAACTCAACTGGATGGAATTTGAATAGTCAAATTAAACATTTCCATTAAAATTTATAAAAATCG
TCCCGATATTTAGTTGAAAAGTGAGGAATATATACATAGGTATACATATGTTTAGGAAATATAAAAACGAAATAAACTTAGGTTCTGGACCAAGTAATTT
AAATAAAAAAGGAATAAAGTCATAAATAGCATTATTATAATAAAAACTGGTAAAACACACCAGGACAATTTTCAAACCAATGTCAGTGTGTTACCTTTTA
CTTACTGCCTATGGTAAATCCAGSACTTTCTCATACATCTCCCAGTTTATTTCTCATATCAGTCACATGAAGGAAGATGTTTTCTTTATTTGCCATATGT
AAAAAGGGACAGAAATGACATTTGAACCCACATCTTCCAACTCTGTGTCCTATAGTGATTTCATTGTACCAGACTAGATTTCAGAGAAATACTGTGTAGC
AGTTTTATTTTGAGATCGTACATAGTTAGTTCTAATATAACTAAGCCCTAATTTATATTTAGCATCATGTCAGAAACATGATAAACAAGAGTAACTGCTC
ATTATTAATGCAAGTGACTTGCAACTCTGCCCTGCGATTTTTATTCTGGATATATCTATCTTGTGCCATTTCAATGGGCATGTGACAAAGGAAAATTACA
CTGTCATTGTGTTCCCAGTCGACCCTTGCTACTCTGCTGCTTCCATTMCCTCATTGTGAGTCCTGCTTTTGCCAAACTAATTCTAGCACATTTTTCTTCT
ACTCTATGAGGAGGAGATGAGAAAGGGAGAGCCAGACTTAAAGACGTATGTGTGTGTAGCCTTTGAGTTTTGGTGGATGTGATCTTTAGAGAGAAAGTAG
AATGACTAGGCTTCTGTTATTGGGTTTGAGAGCTGAAGGAATAAGGAGAGGGAATCTAGAAAATAAAACTATGGATTATAAATTAAATCTTCTTCTTATT
CTCCAGAAATCACAAGTAAAAAAATTCAGTTGGATTTTCTTTTAACTATCGATAATTCTATGTCTTCACCCTTGTTACAATTCAAACTGAATCACAAGAG
TTCTTTCTTACTTTTAGTTATGGATACACTATGCCTCCTCTGTCTTTTATTTAAAATCAGCCCAGGAGTGCTTATTTTTCTAGGTTTTCCTCGCTATTAT
TTTGTAAGTTCCATTTTGAAATCTGCAATTCTTCTCTGAATAGCTTCTACTCATCTAATTCTATCACCAAAGCTACAAAATGTTTAGATGTAGTTCAAGA
AATTCCAGAAACTACTTTAGAAAAARGTGATCAGCGTAAGAAAGGGCAAATTAATAAGGATCAGAGTCAAGCAGCTGAAACATTAAAAAAAAATCAGAAC
AGGGTTGGAATATACACATTGTAACTTGCTAGTACAAAAAAAAAATGCAGAGAATCAAAATTAGCGCTTTGGAACTTGAGAGGCAGCAGTAAAAATATTC
TTCAGGTCAGTCTTCTGAATAATTGGCCCAGTTGTTCAGCCAGCATTTTGCTATCAGAATGCAGAAAGTGGTATAAACCCAGGGATACCCTTCAAATTAA
TGATCTTTCTCACCATACATGAATATCTTGCTTGCCAGAACATTTGAATGCTCCATTATTTTAAAAACTAAATCCAATCAAGAAGCTAAGAAATGAAATT
TCTACAGTTCCATTTTCTTAAGTGTTGAAGACTTTCAAGCTAATATCAAAAGAGCAGCCCTTTATTCTCAAAGAATTTGTATAGATATCACAGTCATAAT
CAGACTGGCTTTATTTCAGAGAGTATGCTTTTGGTAGCCTATCCAAAGATTTTATTTTAGTATAAACAGTAAAAATAACAGAAGTATTATAAGAAAGATG
AATTGTGATTGACAGAGGAGAAAATCCAATTACTTGGAAAGTATATTTTGTGGGCTTAGAATTGAAAATAATAATATATTAGTGACTGAACTAGACATAT
TGATGTTTTAGAGCCGTGCTTTGCTGGAATATTTTATGCTTTGTTTTTCAGTGATGTCAGGTCTTTGGCTTGGAATTTAACAACAGACACTTTAAACAAT
GTTATGTGCTTATATTAGTATAATCTGTAGTATAACAGAAGTTTAAGGTGTCTGCCTATAAAACCCTTTATATGAAGTGGAGTGAATCATTAATTAATAT
GTCCMGTACTCTTCTTCACATCCAGACACCGATAGTTCAGAATCCTCCATCTATCCACCTTTCCCTTTGCTATTCTTCACAGATGCAGGCCAACAAAGAT
GAGGATAGTTCTCCAGCTGCCCATGGCCTGCACAGTTCCTCTAATGAGCCACATGCACAACCTCTGAGAGGGGTGTGCACACAGTCAAATCAAGACTGCT
GTAGCTCTATTCTTTGGGGCGTATTCTCTCCCACCTGCCTTCTCTGGGTACCAGGAAAGTGATGAAAATCAGTCTTGGTGTTGACAAATAACATGAAGAT
AGCAAATAACATTCTTCCCCAGTTAGGTGGTTTAAGTTTTTTAAAACATTGAAAAACAGAAATATATGCACACAGAAAGCAATTTAGCCAGCACAACCGG
GTATAAAATGAGAAGTTTTAGTACATTGTCYCTCACGGCACTATTAACTGCCTCATTCATTCCCAGTTTCTACCCACTATTAATTACTGTAAAGGTTTTT
GGCATGTTCTTCTCTACCCAGCTCCCACCAGCCCCTACCATGCCAAATGCTTGTATATGTGTCAGCATATATATGGTGCATCTTGCTTATTTTCATGGAA
AGGTCTTAAGGTTTATTTCACATCCATATCCGCTCATCTACTTCTTTTTATAGATTGCACCTGTACCATTGTATGAACATGCTGTGTGGATATAAACAGC
ACTTTAATCTTATTAGGGTATTTTTATTCCCCCCTCCTTTTTTTTATTACAAATGAAGAGCTAATGAGTATCCCCAAAGATAAATCTTTTACAGGTATAT
TGAAGGGTAAATTTCTATCAGTAGAATTGCCAAACCAAATACATGTCTATTTAAAATTCTAATAAACTTATTAACTTGCTCTTCAAACAATGGAATCAAT
CTGCACGTCCACTAGCACTCTTGTGAACACTTGGCATTATCATACATTTAATWTTCCCCAATCTCAAAAATAAGAAATGACATCTTACTGTTGCTTAGTT
TTACAGTTCTTTATGATAATCTTGAGTGCTTTTTACGAATTTCATAAATGATTATGTATGTTTATTTTATTGTGAACTACGTATTCTTATATTTTCCTCA
TTATCCTTAAAAATATGGAACACTTTGCATATTTGCCTGCCAGTTTTGCACATAGACAATGCTATTCYACTCTGAATAATTACAACTTGGTTATATATGT
TGCTTAGGTGAGGCTTCTCTGATTTCTGTAACTGTGACCAATTTCTTTAAGACAACAAAGGAGAAAATGAGAGGAAGACAAAGGAAAGGAGGAGGACAGG
AAGAAAAGGTTGAGGGTGATGGTGGGAGGAGCATTGCTACCCAAAATGCTCTACTAATCCCTAGTTTTGACTATCAATCCTTGGTAGAATGCAGTAGTTA
GCATTGTTTATGGAATGGGACTATGTGGATTTGAATACCACCACTGCCATTTATTAACCATGCAAGCTTAGGAAATTTACTCAACTTCTCTAAGTCTCAA
TTTCCTCATTTGTAAATTGGAGATAATAGTAGTATATACATCATCATATACATCATACATCAATGTTATTGTAAGGATTAAGTAAAACAACCCACTGAAA
CTGAAGAACACTAAATGCGTGTAACATACACATTCAATGCTTGTCAGGCATTACTCTTACTAAATACTTGTCCATCCTATCCAGGAGGGACTAGAACAAC
TTCTCTTTCTTGGTCCTTTCTCAGTGGTCCTCCTCACTTGGGGACTCTGTCTTGTATTTACATGTTGCATTTCTGTGGAGCTAATTTAAACAATTAGTAC
GCATGTCCCAAAACAATTTTTATGGCATAAGAAACTATTAAAAATTTACCTAAAAAATGAGCTGTTGTATCCAGTCAAGAGAGGTAAATAATATTGTGGG
AAGTATAGGATTTTTCATATTTTGTTTTTTCAATTTGAATTTTCACTAATAAATGATGTAAGAAAAAGAAGACAGATGAACTCCATTTCAGTCTTAAGAT
ATATTTGCAGTTTAATGCATACCTGAGTAAGATTTCTAAACTTATATCAACAGATTGGATCTTTATTTTCTTTCCCCTTAATGATTTCAAATTTTACTCT
TTATATTGTTGTACTCGAATTTAAACTGCTTAGTTACTATTACAATATAAATTAATCTAAAGTTTAGAGAATATTAAAAACTAGTGGAAAGCAGCTAGAA
AACTTATATATGTAATATTAAATTATCTCTAGCAAATGGCATTTTTGAATATTAAAGATAACATTGCTAAAGTATCAAGAGAAAAAAACTATATAAAATT
TATTGGACCCAATTTGTAAAAATATTGTTTTCTTTATGAGAAAAATGACTATTATCAGATATGTGCTAAATGTTGTTTTTCCATTTCTTTAATGTGTATT
TTTGTCCAAATAAATATTAACAAATATTATTATACTGAAGTTGGAGGATTCTGCTAAACAATCATATCTGAGATTTTGAAAATCTAATCCAATGATTCAT
TTTGGTAATAAAAGTTTTTAAATAAGTGGAATCAATGGGAGTGATAACAAGAGGGCATAATTACAAATGGAATAAAAGACTAATTCTTTGGAGGTTTCTT
CTCTATAGGAAGATATCAAATTAAGTCAGATAAAGATCAGATACCAAGAAGAAAATGTCATTGTTCAACATGTAGAAGCATCCAATAATTCAATGATAAT
AAAAACACATATTTTTAAAATATGATTGGAAATATATTTATGTATAGATGCCAATAAATTAAATACATTTTCTTGCTTTTAATTAATTTTATATTAAAAT
AACCTGAAATTGCACATCCAAGTATAAGCTCAGGGATGATAAAACTTATTTAATCCTTTTTTTTGTTTTTTATTCGCAGAAAATGAAGACCATCTAAATG
GCTTAAAAACCAGGATAGAAAATGCTGATGCTAGAAATGGGGATCTCTTGAGAACTTTGAATGACACTTTGGGAAAGTTATCAGCTATTCCAAATGGTAA
GCATTCAGGACACTACCAACTGTGTCAGTTGACCTGAAGTTTTGAAGACTGTTGTTAACTTTTACCATTTTTTTCTAAGATTATTCTGGTACTATTATCT
GGAAATTAGATACTGTTTTTCTTACTCATGAATTCTTCTTTGTGAGAATGAGAAACTAAACCATACTTTGCATTATGGTATTTTTTATCTTTTATTGCCT
TTAGCCAGTATCCTTAGGAATGTGTTACAGAAAGGAAGATATAGACATCTTATTATTRTAAAACTCATCCTTCAGTATTGGCAGGGGATTGGTTCCAGGA
CCCCCCCCCACAGATATCAAAATTCTTGAATACTCAAGTCCCTTTTATAAAATGGCATAGTATTTGCATATAACCTATGCATAGCCTCCCATATACTTTA
ATCCCTAGATCATTTATAATACCTAATATAATGTAAATGCTATGTAAATTCTTACAGTGTATTGTTTATGAAATAATGACAAGAAAAAAGTTTGTCCATG
TTCAGTACAGACACAACCATTTTTTCCCCTAAATATCCAAATATCCAACTCTCCAAGGTTGGTTGAATTTACAGATACAGAGCCCACTGACACAGAGGGA
CAACTGTATTGTCTTCTGTGTTTCAGCCCAAGAAATCGTGTATTAGTGAAATAGAATAAATCACATAGACACTAATCTCTAAAATACTGATGTACCACCA
CAAAGACACAGTTTATTAAAGTACCTGCAGTAATAGGTGATAGCCCACTGCATTCTCTCTTGATAAAATTCAATTTCTTTAACTATTCCAACTTTCAAAA
ACATTAGTGGTCAAACCATGTCTGTAATATCTTTCTACCTATTAGAACTGCTGGAAATTTTTGCATGGTATTAGTTCCTGAAAGCACACGTTATTTTAAA
GATACTACTTTTACTATTTYTATATTGTTAAAGCATGATATAATAACAACAAAGATTATAAACACTTATTGAGTACTTAATATACTTATGTTAAGTGTAT
GTAATCCTCATACCAATTGGAGCAAAAACATTTGCTTCATTTGCTYGCATCAATTGGTCATATATATATATATATATATATATATMTAWCTCAATTGGTT
ATATAGATAACATAAGTATAGATAACATAGGTAACATTCAGAATAGTCACTTCACTACTTTAAGAGCTAATTAGGTATTCATACAGATACAGAACCTACT
GACACAGAAGGACAACTTGTCTTCTGTGTATAACATAAGTTAGCACTAACACTTAACATCAGTTAAGATACTGTTATTATCCCCACTTTACAGGTGAGAA
ACAGACAGAGGATACTGAAGGCCATTGTTAAAAGTGGCACAGAGGAAACTTAAACCCCACAGTTTGATTTCAGAGCCTATGATCTTAACCACTAACCTAT
ACACACTAGTAGTCATCTATAGGTACAATATACAAATTAGGATCAGGAGACAAATGCACATATTTATACAACACAGTTAATATTAAAATCTCGGTGGTTT
TTACTTTTTTAACGTTTAAAAACCTGAGTAACTTTTCAGATTTTCATGTCCCTTTTTCAGTAGTAAGTATATAGAAAATTTCCAATGCTGAAAACAAGTA
TAAATGCATGGCCTAACATACCTGAAAATGTTTCTCTATCCTAAAATGAAAATACGTTAGTTTCCCTCCAACCCCCACCCCAACCCCTGCCCTGCTTTGG
AAATGCAGATTAAATCTTAAGCCTCGTTTTCATGAAGCTCATGTGGATAAATTTATCTCGTGAATAAGTTCAGCAGCAAATCACAATATGATCTTATACA
ATGAACATTTAGAATAGTCACGTCACTACTTTAAGAGCTAATCAGGTATTCATAGCAAAAGTCCCTGAGAAAATTTAATTTACCTAAAAAAATTTGCTTC
ATTTGCTACACCTGAATGAGACAAAGTTCAGCCTTTTCCCTTTGTAAATGTGTCCGAGGTCAGCCAGCCACAGCCTCGCTTTGTCAAGCATGGATTAAGC
CACTAACTCCACACCCTTTGTTTTGTTTTTCATACCCTCATCTGCTGACAGATACAGCTGCTAAACTGCAAGCTGTTAAGGACAAAGCCAGACAAGCCAA
CGACACAGCTAAAGATGTACTGGCACAGATTACAGAGCTCCACCAGAACCTCGATGGCCTGAAGAAGAATTACAATAAACTAGCAGACAGCGTCGCCAAA
ACRAATGCTGTGGTTAAAGATCCTTCCAAGAACAGTAAGATCTCCTTTTTCATTGTGATGATGTCATTTATTTCCTCTCACTGTAAAAGTATCCCAGACC
TGTAAATGCTCGAGTTGGAAAGACCCTCATGGTGGTGTAGTCTGCCTTCCTTCTTTCATAGATTGGCCTCAGAAATTGAGTGTCATGCAGTTCCAAAGCT
RGAATCCAAGTCTTCTAGCTCTGCCCCGGTGCTTTTTTCCTCTGAAATTTTTCCAGTTGAGAAGAGATTASGAATTCTCAAGGTGTGCCTAACATTCAGC
AGAGAGATGCAAAACACTTTTTAATCCGTGTGTGTAATTAAAAACACAGTTGTACTTGGGTAATTATATCCTCAGAACTGGCGAAGTGTCATGGAACATA
GAGGTTAAGGGGCACGTTCATGAACAGACTTGTTAGAACAGGATATGAAAATGATATCAACTTGAAATGCATTAAAATTTGAAAATCTTGATATTTTATT
ATTTAGATTCCAGTTACATCACATTTCTGGGAAATAAAAATAAAGCATTTATCTAGTTTCTAAAGACTATTCACATCTCTTATATATTATATAAAATTAT
ATTGACTTAAGGATTTACTGAGAAAACCTGAGAGAAAATATCATAACTTATATTATTAGTTAAATATAGTCAAAATATTAAGATTTTAAAATGCATTTTT
CCTTTTCCGTCAAATGATACAAGGCTATATTGGGCCAGGTACAGTGGTTAACACCTGTAATCTTTGCACTTTGGGAGCCTGAGGCGAGAGGATCACTTGA
GCCTAGGAATTCGAGACCAGCCTGGGCACCATAGCAAGACCCCATCTTTACAAAAAATTTAAAAAATAGCCAGGCATGGTAGTGACATTGCACCTGTGTT
CCCAGCCACTTGGGAGTCTGAGGCTGGAGGATCCCTTGAACCCAGAAGGGTGAGGCTGCAGTGAGCTGTGATCACGCCACTGCACTCCAGCCTGGGTGGC
AGATTGAGATGCTGTCTCAAAAAAAAAAAAGGGGGTTATCTTGGTATCCTTGTTACATGGTTTCACCAAAGGAGATGCTTGGGTAATYTGTGCTTTTCAC
TTTCAAGAGACTAGCCCTCTTTATATGCCAACATTTTTGGGGGGGTATCAAAATATTTGGAGTATAAAAACAAAAGCACTGTAATTGGTATTATATGCCA
TAAAATTCAAATGCTGTTTGAGTGGGGAATGGAGCCTGATTTCAGCATCCTAGCCTCAAATCAAATCCTATGGATGCTATGATATAATAGACATTATTAA
TACGACTCCTTCATGAGCAAGGAAGAGTACAAACACATATAACATAAACTTCAGAGCCAGGGTGAAAAAGGGGAGATAAAAACATTTTTTAAAATTTTTT
AATGTAAGCCCAGAAATGGCTTCTCTTGTAGCTCAAAGTTTACATAATAACTTCTTATGATTTATGCCAAATCACAATATTCCCACTAAAAATGAATGAA
AACAAAATTTTAATCAAATATTACTATCTCTGCTGCTTACTTCATAATTTAAGATATATTTTTAACTTTTATTTTAAGTTCAGGCGTATAAGTGCAGGTT
TGTTACATAGGTAAACCTGTGTCATGGGGGTTTGTTTTATGAATTATTTATTTCATCACGCATGTATTAAGCCTAGTACCCATTAGTTATTTTTCCTGAC
CCTCTCCCTCCTCCTGCTCTCCACCCTCCAAAAGAATTCCATTCTATTTTAGATTGATTCTCAACTGGTAGTGGCCTTTTGTCATATCTCTGTTTTAATC
CTATCCTCTATTATGAGAAATAGTTAATTATCTATAAATATTAATTAAATTGGGTCTGTTTTCTATCTTACTAAAACATAGAAATAATTTTTAAAATACA
AATAGTGGCCACTAAATTATATATTTTGTGTACTTTTATTTGATAACAATTGCTTCAGTTAAAATGGGGTGCATTTATAATTAGTACCTGTTATGAAAAA
TACCATTTTTAGTCACTACTTTATAATATTTATAGAAAATACTTCCTCATGAATTTATAATTTTTTTTTGTTTTGCTTCCATGTGAAATTGCCTGCAGAA
ATCAGTACGTATATGTTTACTTATATACCTTTTAGTAACGCTCATGCTTCATTGCCTATTGCAAAAAGTTTCAGCTTTGCATGTACTATATTTTGGTTTT
GCTTTAAACATTGCGTAGCTATTCTTTCCACTGTTACAGTATTAATGGTAGATGCRTAAAAGGAATCTTCCTTTATAAAAAGGTCATATGTGGATAAAGG
TGATATAAAATGTTTTTAATAGTGTTATAAAAAGTTTGGTCAGGCGAAGTGGCTCATACTCTAACCCCAGAAATTTGGGAGGTCAAGGTGGGAGGATCAC
TTGAGGCCAGAAGTTTGAGATCAGCCTGGGAAACATAGCAAGACTCTATCTCTACAAAAAGGAAAAATGAGTGAAATATCTGTATGATAGCCACATAAAA
GTGGAAAACWGAATTTCTCTATAGAATTAACTAGATTATGCTGTTTCTGATAACACAAATTCACCCCAACACACGAATGACTTAATTGCAAGAGGATTAA
AATAGATWAGGTCTACAYTGTTGTTGTTTTTACCCACTGAAGCTCACTTTTTCCTCTCCTTGTAATTATTCTCAACTTCTGTAGAATTATATTTGGAGAA
ACACATAATAAAACTAGGTCTTAACAAATGAACAACTACTGGGATATCAAAATGTTCTCTCTTAAACATCCCACAGTTTAAATTGAAAGTCAAGAAAAAC
TAAAAAAATAGCTACAAAAAATAATAACAAGAATAACAAAATTTAATATATCACTATTTGAAAAATATGACCAAGAGTGTCCTCAGCGGAAAATGAGAGC
AACTACATTACTAAACCATCATTGAAATAACAATTCTAAACAATCAACTTTGCTGACTTTAGAAAAAGCAGAGTTAACTTAAAGAATGAAAAAGATGGAA
AAATTAATGAATTTGAAGACAGAAAATAWTAGACCTGATAAATCAAAAAGGTGACTCCTTAGGAATATAGATTAAAAATTAAGTGATTGTCAAGWTTCAT
CAAGAAAAATAAAGGACAAATAGGCAAAGCTCTAAAAGAGGTATCACTAGACAAGGGAGGAAATTTAACACATAAGAGATCACTTGGAAAAACTTCAACT
GCTCCGGAGAATAGAGGAAAAAGAGGGGAGAAGAGGAACTTCCAAGTTCCATTTTGAAACATTTGGCAAAAACTTCTGAGAACTTGTGAATAAAAGGGTC
TGTAATTTGCCTAAGTCTAAGTAGTCTTTAACTACTTTTGCTCTTTCTCATTAATCTAAATCTAAATCATTTTGCCTCAGTTTTAGAATAATTTGTAGAA
TGTCAGAATAACAATGGAGAATTAAAGGAAGGGAAAAATGAACAAACGGTTTATTAAAAGCATACAAAATAAAGGGATCACTGTGTTTATGCTATCTGTA
TGATGATATAACAAACATTTCTATCCAGATAACATGCATTTCAGGAAGAAAATACTGCACTCAGTTCTTGATATAGCAAATCTATTAGTTAAATTTAATA
ATAGACCTATGTTCTTTTTAAATGCCGCTAACAGCATAAGTCATACTTATGAGTTCAAAATACCTACTTTAAAACCTAATTTTAAAAAAATGATAATTTA
CTTCCCTTTGAGCACATGTGATTCGTTCCTGAGGGTTAGTTCTCAGTGGTTGTATGTCAGCCGCAAAGCAGATCATTCAGAGTCTAACACAGCATGTAGC
CTTGAACCTTAAGCAGTTTAACTTTTTCATCAGAGTCACAGTGACAGAAAGTTGAACAATACACACTTAATCAGATAATAAATGACATAGTGTGGATGAG
ACTGCCAGCATCCCAGCAATAGAATAAGTGGTTTACCACGTGGCATAGGCCCTCCCTTGAAAAGCACATACTGAAAGTCTATGGATCAGTGATGACCTTC
AACTATTTTAGGGTTGAAACTTTGAAATTGCCAATATGTAACCCTTTATTTTTTTTAACCTACAAAAACAGCTGTTTAATATAGGTCAACCTAATATGTA
ACACAGGGTAATCAACTATTCTTCAAAATGAAATTGAACTGCACCATGAAAGATTTAATTAAATGTAGGCCTTTAGTCTAAGGGTTTTTCAACATCAAAA
TGTTCTTCAAAAGACATTTTGATAGCTTCTCTCTTTAAGAYGTGCAAAAAAAGACGGTGAGAAAAAGAAAGAAAACCAATTTTGTGTAAAAACCCTGATT
TAAATACAGTTCTGGCTTGGACAGACTAGGTGACATTTTAAAGATGCTTTCATTTCCTTGCTTCTGTGACTAAAGTTCTATTCTGTAAAGGTTAACTTTT
TGGCTGAAGTTAGAAATTAAGCATTGAATTAAGTTCTTCATATTCTCTACCTTCAATGCTAATTTTTACCTTAATCAAAAAGAAAAAGTGGTGGCCCTCT
GTCCTAACATCTACTCCCCTGGCCTGCTTGAGTCTCAACTAAAATATTGACATTTGCCATCACACATTTTGCTTTAGCTGTTATGGCCATGCTTTGTCAC
RTTAATAAGATGAAATTGTTTGGTTAAGCATACTGCTATTCTAATTCTGTGTGTGCACGTGTGTGCATGCATATACATGCACACTAATTTTGTTCTATGC
AGTTGCCGATGCAGATGCCACTGTCAAAAATTTAGAACAGGAAGCTGACCGGCTAATAGATAAACTCAAACCCATCAAGGAACTTGAGGATAACCTAAAG
AAAAACATCTCTGAGATAAAGGAATTGATAAACCAAGCTCGGAAACAAGCCAATTCTGTAAGTTCTTTTTATCGTCAGTATCAGTAACTGATTGTAATTG
TTGGATTATTCATAGAGGGAATGTCTTTCCCCAGGATTCCCCGTTGAATGATCTTGGGTCCTTTTCCTTTAACTCGAAGCGATTTGGGGTAGGAGGGGTT
GGAGTGGGGGAGAGGTTAGTTTTGTTTTGTTTGTAAATTTCAAAAGACATTTCATGAGAATGATAATCACCACTTATTGTTTTAAAACTGGGAATTCTGG
TATATTCTATTACTATTTGCATAGAATAATACAAATAGCAAGAAAGAAAACCTTATTATTGTATACTAAAAAGCCATGGATGAGAGTACCTTCCTCTTGC
TAAAAACAAACCAAAAAAAAAGGCCAACTAATGGGGTTATGGCAGGAATGAAGGAACAATATACAGAATAAGAGCAAAGAGAAACAAACATTTTACATAT
ATATTCTTTTGTCTGGTATAAACAACAATAAAAATGGCTTTGGTTATACTTTTTACATTTATTTTTTGTTTTGGAGTAGATAGGAAATAGCTGATTTGTC
TCAAAATTTTGCTCTTTACTTACCCAATTAGAAGTTTACTAGGATAGAAACAGAGCTTTCTAGAAGGTAGCATGCTAATGAGCCAGGGCAGAGTTGCTAA
GTGGCAACGTGAAACTTTAGTCAAAGGAAGGAAGTAAGGGAAGGGGAGGAGAGGGGAGGGGAGGGGRGGGAGGCGAGGGGAGGGGAGGGGAGGGGAGGGG
AGGGGAGGGGTGGTAGAAAGAAAGAAGGAAGGGCAGTTTTCTTGTTTGAACAAGAAAGGCTTGAACTCAAACCTTTTTAGATACCTCAGTTTTCCATGTC
AAAAATTCTGTTTTTTGAACAACTTTGGAACTAGGATGATCAGAAAAGCCCTTTCTTAGTTCATCAGTTTATATTTTTAGTAGTATTTAAGAATACGATG
CTCCAGTAACAGCATATTCTTTTTCCTCCTTATTCACATCTAACACTTCTAAACAACTCCAAGACAGTAAGTTCAAGGTGAACATTGAAAAGGAATTCAC
GACTGACTGAAAAAAAACCTAGAAAACAACAAAAAGATTAGTGAAGATGATGTTACATAAGATCAGAGTAGTAAATCAGTGAAAAGATCTGAGAAAACAT
ATATTCAGCTAGAATATGAAAGCCAGGCAGTATCGTTGACATGTGATCATTATGTATGTAAAGCACAAGATTAAAAGAAACCAGATGTTACTTCAAGGTT
TGAAGTTTTATGTAAGATTTAGCCAACATGGAAAAAGCCTCTACTATGTTCAGTGTTACTTTCCGTAAGGTACACAAAGACGAATAAAGGAGTTCTTTCA
CTCACAAAGTTTATAAAATAGTAGGGAAAATAAAATATGTACACGTACCTTGTCACACAATGCAGAATGTTATGCCACATTATAGAAGCCGTGAGAAGTG
ACATAAAAGTTCTAGAAAGAACAATCACCTCTAGTAGGGCCTGAAGATTTCCTGAAGGGAAGGATTTSAGCCAGGCATTGAGGTGGGATAGTGCTGGGGA
GTTGGGGGTGGAGTCAGGTAACAGGGAGAGTATTCTGAGAAGAGGGAATGACTTAAACCAAGGCAGTGGGAGAAGGAAGTTTTAGGGTCCATTTAGGAAA
AAGAAGTCCAGTTTGCCCAGAGTAATTGATAAAGGAAACACATAACCAGAAAGATCAACAGAGGCCAGGTCTYGTCAGGCCTTCAATAATCAGTTAAGCA
ATTTCATTTAACAACACTGGTACTTGGGATAAGCCTCACTGGTTAGGATAAGCTGAAAGCTTTGAGCATGGAACACAGTATAATCAGAGCTGTGCTTTTT
AAATATAAATCCAGAAGCAGTGTATGGGGTAGATGAAAGAAAGAAGAATGAAGGACCCAACTATAGCTGTGGCAAGAKAAAAGAAGAACGTGATGTACCA
CTCCTATATTTTGCAATGTTAACTTGGAAGAAGCAATAAGAGTAAATATTATTTTGTGAATCTCACATTTAGCCACATTTTCTGACTTAGTCATCAAGTG
GAGAAATCTAGACATTTTTATTATTTCTTCATTGTAAAGATTTCTGAGTGCTTTTCCCCTCCTCACAAAACGGTGAAATTCAGACATGTAAGCATATAAA
ACCTGTCTTAAAGTACAAAATAAAAGAAAAGTATAGGCTGGGCATGGTGGCTCAAGCCTGTCATCCCAACACTTTGGGAGGCTGAGGCAGGCAGATTGCA
TGAACTCAGGAGTTTGAGACCAGCCTGGGCCATGTCACAAAACCACATCTCTACAAAAAATTGAAAAATTACCTGGGCATGGTACATGCCTATAGTCCCA
GCTACTTGGGGAGATGAGGTGGGAGGATCACTTGCTCTGGAGGATGAGGCTGCAGTGAGCCATGTTTGCACCATGGCACTCCAGCCTGGGTGGCAAATAG
AAACCCTGTCCCCCCCCAAAAAAAAAGAGAAGAAAAAAAGAAAGGTACAAAAGTAACGTTAAGAAAAAGTAATCATTGTCCATGCATTTCAAAGAAATTC
CCAATCAGTTTTGGAAATGGAATTACAACACAATGCCTTATTTTTTGTAAGACGTTAGAAATATGCAAGTAGCCAATTTTTTTCCAAATGAGTTTTGTAC
TAAATGAATATTACATTTTCTGATTTGTAAATATGGATATCTGGATATGACCTTAACACATACTTGACATGACCAAAACATTAAAGACATTTATTTTAAA
GTAGCTTTCTCTGGGTTTGTTGATTCTGAAATTGAGTGGCTGATACTCCTTTAAATGAATGACCTACTTACTGGATGAAAAATGCAGTGAAAATCCAATA
GATATAATAATGGGATACTCAATAATGTTTGAGTTCATCATGATTAACTGGTAAATAATGTTGCAGTATTGAAATGCCTTAAAGATACTTAATGCTTAGT
GATTTTTCTTTAGATGTCTTACTAAGGATCTGCATTAGAAATAACAATAATTGATAGAGCCAAACATTCTAAAAGGATGTTTGAATTTCAGAAATTTCTT
TCCTCTTACAAGAGTGACATATCCTAAAGATTTCTTCTAGAGATACAGTATTTTGATTTACCTGATTTCTTCTAGAGATATAGTATTTTGATTTACCTGA
TTTCTTCTAGAGATACAGTATTTTGATTTACCTGTTTTAAGTTGTTTAAAAGAAATACCTATAACTGAAAATCAAAACAGAAAGTATTCAAAAGGAAAAG
ACTACTGATTATGTACTGGCTGTCAACAGTTTGGGCTAAGTGAATGTTTCAGTTTCTGAGAGTATATTCAAAACCAGAAAACAGAAAGCAGGTAATCCAA
GAGTATTTTCTATATGAATGTGTGAGAGCTGGGCAATAGATTACTGTCTAGTCCACTTCATGCTGCTGTGACAGAGTATTACAGACTGGGTAATTTATAA
AGAAAATAAATTTATTCTCACAGTTCTGGAGACTGGGAAGTCCAAGATCAAGATGCTGGCAGGTTAGGGACCTGTTTTTATGCTTCCAAGATGGCACTTT
GAATGCTCAGGAGAGGAGGAACATTGTGCCCTCACATGGCAGAAGAGCAAGAGAGAGAGAGCTCTCAMCCCTGTAAGCCTTTTTAATAGTGGCATCAATT
CATTCATGAGGACAGAGCCCTCATGACCGAAACACTTCCCAAAAGGCCCCCCTCCCAACACTGTTGCACTGAGGATTAAATTTCAAGCAAATGAATTTTG
TTGGACACATTCAAGCCATAGCAGTTACTCTGTAGGATTAATTGCCGGCATATTGGGTATAACAACATCATTTTGCTTCAAGAATCATATTTGTTAGATA
TGTATTCTATACAATAGATTGGTTGTAACCTCTAGTGACATTAGATACTCAGTTTTAAAATGGCTTCTCTCTTAGACTTGGAGTTCTCAGAGCAGTTAGA
TTTTAGTGCTGCTGCTCTGTCTGCTACACTTTTTTTTTTTTTTTTTTTTTTGAGATGGAATCTCACTCTGTGGCCAGGCTGGAGTGCAGTGGAGCAATCT
CAGCTCACTGCAGCCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACATGTCACCACGCCCAGCTAAT
TGTTTTTGTATTTTTAGTTGATACAGGGCTTCACCATGTTGGCCAGGATTGTCTCAATCTCTTGACCTCGTGATCCGCCTGCCTTGGCCTCCCAAAGTTC
TGGGATTACAGGCGTGAGCCACTGCACCCGGCTCTGTCTGTTACACTTTGGCAACCCCCTTTTCAACACACTAATCATGGAATCCCGTTTTTTTTTTTTT
ACCAGGCTTACCTAAGCAATGACTGAAATTCATTCTGTGACCAAATGATCACATATTACATTTATATTGAGTCATCTCTTCTCTAAATAATAACTGAGGG
ATATTATTCAATTGTGTTGTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGACATGGAGTCTCACTTTGTCACCCAGGCTGGAGTACAGTGGCACGAT
CTCAGCTCACTGCAACCTCTGCCTCTTGGGTTCAAGCAATTCTCCTGACTCAGCCTCCTGAGTAGCTGGGACTACAGGCACATGCCACCACCATGGCCGG
CTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTGGATCTCCTGACCTCATGATCCGCCCATCTCAGCCTCCCAAAGT
GCTGGGATTACAGATGTGAGCCATCACACCCAGCCTCAACTGTGTTTTTTAAACAAAACTGATTTATTAGGAATTAAACTAGCCATAATACAGCCATAGG
GCCAAGCTATAAAGCATTTATTAAATAAAAATGAAGTAAACTACATACAGTCGCTTTGACTACTAATTCAGCCCCATTCAGAATTGGATATGATTGTCTG
CYAGGGATAACGCACTATGCTATTCAGTTCTACTCATGAATTCCAGTCAGATCTTGATTTCTTGTTCACTTTGATCCTCTTATGATGTCAATGGTACGTA
TAGCCTGCCTCAGATATTAAATTTTCTCAATGCCAAGGTCTTCTCTGATAATGATTTTGGTTCACTTTCAGCAGCTTGCTAAAAAATCACTATATCTGAC
ACCCTTTCCTGAACATTAAAAATATCTGAAGACCATATTTTTCCCACCTGCCCTCTACTGTGCTGTCTTTCTCTTGCTTCTCTCTTTTTATCTCTAATCC
CTTGGATGACCCTTGGTATAGCTGCCATTGTATCACAGAACACCCTTTGCCAAGTCCCATTGCTCATCTGCTTTGCCATATTAACATCCAAGTAAAAATT
GTACATTTCCTACCTCCATTGTTTTGCAATTCATTTTCACTCACCTACTCTCAACACTGTATGTAGAAGGGAAATTCCATGATTTGTGAAGCAGGAACTA
ACTTCCCAACTGAAAACCACCCTATCCAGAAGACTGTCTCCCTAGGACACAGAACAAACACTCTGAGGACCATAGTTGGCCCTGAGTCCTGCACCCAGCA
GTTGGCAGGCTGGCCCCACCTTTTTGGGGAAGGCAAGAATAAGAAAGTGGTTTAAGCAGTAGGCTTCCTGGAATGTCCAGCCCCAGGCCACCACACTCAG
GCCTCCAGCAGTCACCCTCCTCTGGGTGGTGGAGGAAACAGCCCCTGTTTCTCTCCAGAACACAGTGTCCTCTTCATGGAGATACAATTTGATTAGCAGA
TCAGGTGAGGCAACAACAATAAACAAATAAATGACTTATGCGGTCTGTGGGAGACGTAACAGATCTTCTGTATCCCCAGAAGGTCTCAAATCTATATGAA
TTTACCTATTGCAAAAATCCCTCTTTAGCCTTCTCTTTTGAATCCAACCAATTTGGCACCCAACCTTTGCAGTATACTTGCATGACCCTTGGAGAAGGGC
CACAGTTCTGCCCATACTCAAACACAAATGAGGCTCTTGGAGACACCTCCTGGTGTCATGATCATATGGAGGCTGTTTTGGTTTCTAGGCTATCTTGTTG
GGAGTCTGCACAGCCCTTTCATGGAGGTAATGATGATGCTAGTTGGTTTTCTTCCAAATGTGCAAATTACATGAGTAGCACAAAATGCTAGAAGAAATGA
AAAAATGGAAATTCACTGCTAGTGAAGGCCAAGAGGGCATTTGAACAAATGGCAAAGAGAGATTTTACATCTTCCCCTCTCTCTGCCTCCTTCTGGAGCG
CTATCAATGAACAAAGTTACAGATTCTCTCTGAGTCCAAGCAACTATTTTGCTATCCTGAAAGTAACCCTTTGATGGTGATTTTCCATCTGACCCTACAG
AAATTAAATCAAATAATCAACTAGTGTTATTTATGATTGAAGGAAGGCTCTCTAAATATAAGTAAAAATTGGTATGAACAGTATTACTCTATTCATATAG
GCATTCCTTTTTTAGCAATTTATAGTAATTTTTAAGGTATTATTCAAAAGAAAAGGGAGCTGTTAAATACATTARTWGTGATAGCCATTGGAAATTATTT
CCATTTCATTTCCTGACAACTTCATGAAAAGGTACAATTTATTCTGAAATGTATGTTCTGAGTAGAATGATTAATATTCTTCTTATTGTTAGAACATCTA
GAACAAAATCTATTTGTCCTCTTTCAACTGTAAGAGTATAGGAGGGTTGGTAATTTCCTCTTGAAAACTAAAAGAAAAATAGTTTCTTAGTTTAAGTGAT
ACCAAAACCGCTGAAATTTCAATTGTAAAATTTCATTAAACAACCTTAATGAAGRTCATTCTCATTAGCTCCATGTAAAATCACCTGCCTAAAACGTTCC
CATATTGATAATGGAGAAATGTATGACGTTAGAAGTTTGTTAGTTGCATGCTTCAAAAAATAGTATGCTAACAAGACATGGAACTGTGAACAGCTCATAG
TCAAAATTCTAGTGGAAAACTGCTCTTCTGTGCCCTCATTAATGAGTATAATGGTGTCTGCATATGGGTGTTTAATGATAGTATTTGATGATAGAAAATA
ACTTCAAAGAAGAAACGATGATGGCTTTGTGGTTGTATGGAAGCTACTTCAAACTTTCTGAGAGATTTACTCTTGGTTCTTTGTATCTTGTTTTTTTTAA
AGATCAAAGTATCTGTGTCTTCAGGAGGTGACTGCATTCGAACATACAAACCAGAAATCAAGAAAGGAAGTTACAATAATATTGTTGTCAACGTAAAGAC
AGCTGTTGCTGATAACCTCCTCTTTTATCTTGGAAGTGCCAAATTTGTAAGTCTAATATTCAACTTTTCATTAGGCTGCTGTATGTGTATAGCTAGAGGT
TAATCTGAAAATGTATAGAATCCCCAAATGTATATGGTCCCCAAATGGTCTAACGTAGGCTTTCAGATTTGAAAACCTCAACGTCTTACCTTACAAAATT
CTGAAGAGTCAAATTAAGTTAGAAGGCAAATGAAAGGAAGAAAACTACAGTGTTTAGTCACATTTACTTTCATTTGTCAGTATACCATCATTTCTGTTAA
ATTATACTTTCAGATCCAGTGATTTAAGAATGCTAATGAGAATAAAGCTATTTTATTTACTTCTTATTTATTTATCTTATTTACTGTTCAAACTAAATTA
CAATAAACTCTTCCGTTAATGAAATGAAAATAGCAAAGTGTGTACTATTTTTTTTACCAATGGAAACTCTTCTAACTTGTGTTGAATTTATGACCTGAAC
TGAAATAACACAGATTATATCTACAAAAGCCCACCCATAAAGTTCTAATTTCTTCCATTTGAACTATTTGACTTTGCATGCATGGGGATTTTCCAAAATG
AATATGACTTCTTAACAAATCATTCATGGCATAAGTCAATATTTGCCATTTGGGTAAGGAATTCTGGGTCAATTTGGGAAATAAAATCATAGCTGCCCCC
TCAAAAATGTCAGTGTCCTTGGTGAAAATAATAATGGATTCTGAATTTAAATATTTGTTTTTATCTTTACCACAAGTATCAGAGTGAGAAAGGCTTTGGT
CTCAAAATTAGACTTAATTWGAATTGGTAAAATTAACAAACATGCCTGAGCATWATGGACTTTTTTTTTTTTTGCTTTAAGGATATAAAAATAAAATATT
ATTTTAATAATGTATAATAATAAATAATATTATTTGACAAGTATTATCATGAAGCTCCTAATCATTTCACATGTCTGCAAATGGCGCTTATTGAAAAACA
CTCTGCTGGTCTCCTCTTTAAAGGTGCTTTATATCTGATATCTCTTGTTTTTGTATTTCTCTGAACTAGATTGACTTTCTGGCTATAGAAATGCGTAAAG
GCAAAGTCAGCTTCCTCTGGGATGTTGGATCTGGAGTTGGACGTGTAGAGTACCCAGATTTGACTATTGATGACTCATATTGGTACCGTATCGTAGCATC
AAGGTAACCAACTTAATAAAGATTAAGATAATTAAATGAYAGAATTTTGAAGTAGTTTCCCAGTTTATAAGAAAACTCCTATTTCCATTTCAATAAGGTA
ACTGTGTATGCATGTAAACACATGTGTATGAATTTTATACATGTCTGGGAGTGGGTATGTTTGTCATACTTCTTAGGAACTGACAAACCTTCCAGGTATT
GACCAGAGGAACAACTCCATTTCTGACCCCTTCATCTTGTGTCTGGTAGGAATTTGGGGGTGTCGCTGTTTCAGGCTTCCTATTTTGCCTGAAGAAAGTA
CTGCCACTTATTCTTATGCAATACAAGCCAAAGCATAAGAGCACCATTATTGCTTGTCTTTGTTGTACACAGCTCCTCCTTTAGTCTACATAGCCACCAT
AGAAAAATGCAGTTTCAAAACACTGAAATTCTTATGTAACATACCAGGTCCACCCTACTTAAAATGGGAAGTAACTGAGAACTGATTCAGTTATTCTATC
TTTGGAGCTTTAATGCAATTATCAACATCTAGTACCATATAKATTACTTATAGAACTATCCCTGTCTTCAGCACTTCCCTCCCATTTTCTCTTCTTGTTT
TCCCAATTCTCAACTCCCTGTTAAACCCAAAGCAGCTAACAGTTGAAAGGTATGGTTAAGGGCCTAGGGCTAGACATGAAGCTGATCAGAGACAGAGAAG
ACTTAAAGAACTGGTTAATTGTTGACTCTGGGTGATACATAGAGTTTCATGCTGTTTGTAGATACTTAATTTTTTCCATAATAAAAAGTTTAAAAGAAAG
AGCCATGTGCAATGGCATGTGCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGGATCACTTCAGCCCAGGAATTCAAGGCTGTGGTCCATGATGAT
CATGCCTGTGAATAACCACTGCAGTCCAGCCTGGGCAACATAGCAAGACTTCATCTCTTAAAAAAAAAAGTTATAAAAAAAAATGAGAAGCAATATTTTT
AGTTCTTTTTAAGGAAGTTTTTCAGCAAAAGTGTGTGTGCATGTGTGAGAGAGAGTGACAGAGTGCTTGCGTGTTTGGTGGTGTTGAGGGAATTAAGTAC
TTAACYGGKTTTAAGGACATTTATACTCATAAAGTGCAGTTCTTCTTTCAGAAAAGATACATTCTGTTAAAGAAGGTGAACCTTATTTGATAAATTCATT
CTTTTGTTACCATGTATTTCACTTAACATTGCATCCTCAAAGAAAAAAGATTACCAAAGTGAGACAGCAGTCAGGGAAATATGACATCGAAGTTTTGTTA
TGACTGCTTGTCTCAAAAGAGAGACCAGATTTTCATATTTAACAGCTCATGGAAATCAATCACTTAAAAAAGAAAATGAAATAAAATGATAATAGCTTTC
AAAATTCTGTTAATTGAATTTAAAAATGAACTTCTATGCAATTTGTACACTGAAATCTGAAGGGTGGATATTGTACTGTATACATTAGTATGCTGTGCCA
AACAATAAAAGATATACCATTCTAGGAAGACTACTTCAACAAACTGGGATCCAAGATATTATAAAGAATTTTAGGAGAAATCATGCAGCTTATGATATGA
AAGGGTGGCTCATTTGGGGTCCACTAGCTGAATTAAATTAGACAAAATGCTGAATAAAGTAATATAAACTTGCATAAATTGTATGTGTTGGTAAATAGTA
AATTATTATGTAAGCCATAGGAAAAAGGCTTTCCACTTAACCAATAGCAATTCCATCAGTTAACTGCTGCTGTGTCATTTCATGTCAATGAACACACACA
GAATCAGGACCTGGTGCTCACTGGTTCTGGTTGAAACTGATGTAAGTGTTGAGCCAAGATCAGACTCTGAGTATTGATTCGAGATCTAATGAATTTGGAA
TGTTAGAAACTAAACAGCCAGTTTTCTCTTAAATTCTTAAAAACAAGTCTCYGCATTTTATATCTTTTAAATCTGGAATTACCAGAAATGTGATGCATAT
TTCATTTYCTGTATGTTCCTCCCCTTCACTTCAACACGTACCCTTGAAGAACTGGGAGAAATGGAACTATTTCTGTGAGAGCCCTGGATGGACCCAAAGC
CAGCATTGTGCCCAGCACACACCATTCGACGTCTCCTCCAGGGTACACGATTCTAGATGTGGATGCAAATGCAATGCTGTTTGTTGGTGGCCTGACTGGG
AAATTAAAGGTAATGTGTTCATCCTCCTCCTGTTTATTTCATCTTTGTTGACATCTCCTGACATAATTACTTCAGGAGAAGGTATGATAAAGCTCTGTAA
AACTTGATCACGTTTTACTTAACTTGCATTTATGAAAACATGAATTTACTTTGAGTAAGAATTTTCTTCTTTGACGATTCAACCTGGAAACACAATATTT
TTAAGCCTATGTGTATTTATTTAAACAGCTGTTGTTTTGTCTTTATCTGTGGCATCAGTTTTTTGTATATTCTTGTTTTAGTTGCCTCAAGAGCAAAGTG
TTTTTTAAGTATACCTCATCTTCTGAATCGATTTATGATTTATAGATATGAAGTGCTATAAAGTTCATACTCACATCTAATTAAAAGATTTATGAATACT
TTGGGAAATATCACAGGAGCTATAAGCTTTCAAAACATGATCTGGTTTTTAAAGTTCTCAAGTTGCTCTTATTCTTATAGGATGATGCACTTAATATTCA
TAATTGCTTCATGACAGTCCTTGCGCATTTCAAATTGCAGAATGCCTGCCTTTTAAAGAAGCTTGTGTTGATTAAATGGAATTAGGTGTTGGGAAACCAC
TATGGGTGAGATGCAGGAGCACAACCAAATATAATGGATAATCCTGGGCTTGTCAGAATCATCCTGAGTTGAGATTAGTCAGAAAATGTGAAAAGCCAGG
GTGACCCCAAATTTATGAGGACTCAACCTTCATATAGAATGAGGTTATTTTATTTACTTTGAGTACGAGATGTGACTCTAAAGTATGAGAATTTATTCCA
AAACCACACGCTGAAGTTATCCTCGTTTCTTAGAACTTCATATAAATGTATATGGTACATAGTAATATATAGTCATATTATCAACTTTCTCTCCTTCACA
GATAGATAAATATAGGGATAGCACACAGTAGTACAAAAGCCATGAATTTTGAAATCAAATCCAGGTTGGATTTCCTCCTCTTCCACTTGCTAAAATATAA
CCTTAGACAAGTCACTTAACCCCTTGGGCTTTGGTTATCTCAACTAGAAAAGAATGATAAAAATATCTACCTTGCTTGCATATTGTAGGATACAATAATA
CATTTTTTAATATTCTTATAACTCTTCCTATATGCTAAGTAATGTTCTCAGTAATTTACATGAATTAACTTGTTTAATTTTTACAACAACCCCAAAAAGT
ATGTCTTAGTCCATTAGGGCTGCTATAAGAAAAATACCATGAAACTGGGTAGTTTATAAATAAACAAACATTTATTTCTCACAATTCTTGAAGCTAAGAA
GTCTGAGATCAAGGTACTGGCAGATTTGGTGTTTASTGAGAGCCAGTTTTTCATAGAAGGAGGCTTCTTGCTGTTCTCACATAGTAGAAAGAGTGAACAA
GCTCCTTTGGACCTATTTTATAAGGGCACTAATTTCATTCATGAAGGCCCTGCCCCTCACCATCTAAAACTCACCTCTCAAATGCCCTGCCTGCTAATAC
CATCACTTTGGCGGGTAGGATTTTAACATAAGAATTTTGAGAGGGACACAGACATTCACACTATAGCAAGGCAGATACTAATATTCTCATTCTGTAGTTA
AGGAATCTGAAGAAGAGAGATGTTAAATGTCTTGACCATGGTCACACAGTAATTAGCAGAGCTGGGATTTGAACATAGGTTAATAGGCACAGTGGTCTTC
ACTCTCAACATCTTGCTTCACTGCCACAATGAATAGTGAGACACACACTACCATAGAGTGTGTGTATAAAATATATGGCAAATAGCTGAGATGTGGTAGT
CACACCTTAAATTGTACCTTAATAATTATTATGCAAATGTAATTGGCACAAAAACAGTATTCTATCAGTCTCAGAAAAAGAAAGAAAACATGAACAAATG
AAATCTATAGCAAACCTTAGGAAATCATTTTGGCCAAGAATTTCAAGACTACTGCCACACCAGAATATGAACCAAAAGCTGAAAACAACTAAATGAACTT
GCTCATGAGAATTCAAATGAGCAGGAAAATCTCTCAAATATAGCTTTTCAGGATGCAAGAAGAAGCAAAAAGCAAGCAGAATTCACAAGTAGGATAATCA
ATCTCTAGAAAATTAAGAGGTTCAGAGTGATGACAGAGCATTGCAAGGACGACTCCAATGTGCAAGTCAGGGGCTCCGATCAACAATCTTTCTATGCGGC
TGTGCAATACATGGTCACAGCAGTGGGAAATGTACATGTTGATGGGTTTAACCTAAAACCATAGCAGTAGGCTATACCATAGAGCCTAGGTGTGTAGTAG
GCTATACCATCTAGATTTGTGCAAGTACTGTACAGTCTATGCTTTTAACTATTCAGTAACTGATTTTACTATTTAAAATTTTAACTATTCAGTAACTGTT
TTCTTATGTGTGTTCTAAAAACCAAATGAGTCAATGCATGTTTTTCCCAGATAATCTGAGTAAATATGGGTTCACTTTGGCACAGAGTTTTTAAAGTTGT
AGGCACCAGAATATAATACAGTCATGTGTCACTCAATGACAAGAATACATTCTGAGAAAGTTGGAATTAGGCAATTTCCTCAATGTGCAAACATCATAAA
GTGTACAGTACTTGCACAAATCTAGATGGTACAGCCTACTACACACCTAGGCTTTATGGTATAGCCTACTGCTCCAAGGCTAGAGCCTGTACAGCATGTT
CCTCCACTGAATGCTGTAGGCAGTTGTAACTCAATGGTAAGTATTTGTGTACCTAAACATAAACAAGGTACAGTAAAAATACAGTATTATAATTTTATGG
AAGCACCATCATATATGTGATCTGTCATTTACCAAAACATTTGTAATGTGTCAATGCCAAAACAGTTGTTTCAATTTACAACAAACTTCTCTAGGAGGGA
CCAGGTCATTCTCTTTCTTCATGATTGTGTATCAAGCCTAAGACTTTTCCTGTGAAAATGACACCAGGATTGAATTTGATCAGATTATTTGTCGATTCTC
TATTTGACTCCAGGCCCTGTGCTGTGTATACAAGCAAACGACACCAATGTGGTCTCATTTCCTACAAAGTTGCTTACTTTTTCTTTATTCCCTTGAACTC
GAAATCTTCTTGGCTGTGAACAGAAATTTAAAAATTTACAGCAGCACTACCATAGAGTGATTTATACAAGTGCTTTTAAAAAATCTCTTCTATGTCATCA
GCRTGTCCCCTTTCTTCTGATCTCAGGGGAAAAAGCTTTGTGTATGCATGGCCCAAATTTGCCCAAAGAAAATTATGTAGGAGCACTAGCATTTATTGAA
CACCTTCTGTATATCAGGCACTGAGATTGGTGTCATAAATAAATTATCTAACTTTATTCTCACAAAAATTCCACATTACAGACAAAAGAATAGAATTGTG
GAGAAGGTCAGCAGCTCACCTAAAGTTAGAAGCTAGGAAGTGTTTATTTACTGATGATGAAAACTGGTATAGCAAAAAGTAATCAGCATTCGTGGATTAA
ATAGTTGAGCTTTTCCCCTGTTGTTGACTCATCCTGTAGTAGCTCTAAGGATACGGACAGACTATGATGAAAAGATGAATATGTACATATGCCAAAATAT
CAGAAAGAATGGATAATGATAACTTTAGTTTCTGCTGATAATAACTCTCATGGATAAACCAAGATTATTTGTGAAATTCCAAATTCTAGCAAATAACGGT
ATTTCTTTCTGCAGAAGGCTGATGCTGTACGTGTGATTACATTCACTGGCTGCATGGGAGAAACATACTTTGACAACAAACCTATAGGTTTGTGRAATTT
CCGAGAAAAAGAAGGTGACTGCAAAGGATGCACTGTCAGGTTAGTTGAGATGAGAACTCTCCCAGGGTCTGTCCTGTGCATAATAAAAGCTTCGWTTTTA
TTGCATAATATTCTATTATCATGTGGATGATGTGGAGCAGGTTTGAAAGGATTATACTCAGAGGTGGAATTACCACAAAACTAATGAATCTTCAAGTCCC
TGCCTGCATTTGCACAGGCATTTTTCAAGGCCCTGGGAGGTATACTAGCAGTACATTTGCATAGTCATATGTTTTTATAAAATTTGCAAAGGTAAGAGAT
TTTGGCTACAATCAGTTAAGTTTCCACTCCAATGTTCTTTCATGTCGAGGGGTTTTTTTGTGTCTGTGAGTACCTCATTGTTATAATTTTTTTTTCCTAA
AGAGAGCTTTCCCCAAACTGATTAAGTTTCAGGTCTTGCTGAGCATGAATTCACTATATTTATGTTTATAACAAAATTAGAACCCCAGCCTAGGTTTTAT
CTCTTACAGGATTTTTTTTTAATTGACACATAGGATCCTACAAGTGCTTCAACTGGAAACCTATGGGATYTAATGATTCTGCTTCAAGAGAGAAGGAGAA
CAAGGGGCCGAGATAGTCCAGGAGGAAAGTTCCTAATACATGACCTCAATTATAAGATAGAGGGTAGAATGAATAGGAATTTGAAAATATTTAACATCCT
ATCATACTAAGCATGTGTAGAGAATAAACACTTTTATATAAAAATGAATACAGGATATAAAATATTTAGCTATAAGTAGAGGATTTCTCAGCATAAAAAT
CTTAGAGCCCACTTATCACCCAAGCCTAAAGCAATTTTGTTAAATTAAAACTATAAAACATACTTTAAATACCTGCAAAGTTAACATGTCATAACAGCAA
CTCAAAAACCATTAAGTGCTAAGGAGTTTGTGTTATTTTCCATTTAAAGGATATACATACGYTTCTAGGACCCAAATCCTAGCAAAGTACACTTCACATT
TCTTTCTCTACATCTCTAGAGTTTCATAGAAGAAAGTAGCCCCAAAATGTTATCCCTCTAAAAGTCTTAACTTCCAACTCTTTGTTTCTTTTTGACATCA
TGGACTTGTCAACATGAAATTGAGGATAGTTTGAAAGCGTGACCCATTCATTGTTTAAAATGGTTTTGTCAATAATCTTAAACAAAATTTAACATGGAAG
GTTGTCTGTAAAATTCTTTCAATACATGAAAGACAGTGAAGCCCACATTAATATTCTGCTACTCACAAACCAACACCAACTTTTCCCTAAGCGTTTCTTT
GGTAAACTTCTAAGTAGGATTTTCAAAAGCCTATTATCAACAACAAAACATCTAAGGCATTTAAATATCCATTCAGCAGTGCATGTCATGTGAAACTGTA
ACATCACTAATTATCAATTCTGCAAAGATTTTGCACTTCAACACATAAAGTATTATGCTAATTTATGATTATAAGAGTATTCCTATGTATACGTAGGGTG
TTTTGTAGGTTGCAGAGATTCACGTTTACAACTTCTCCTGATGCTAGAATGAATACAGCCTAGTCCTAGCCATGAAAAGACATCACCAGGAAGGGAGGAA
AAAACAAATACTAAAATAGTTCAAATATCAGGCATAATAAAAGTCCCTTTAAAAAGGCACATTTGGAGTATACTACAATTACCCACATCAGATTAAGGGC
ATCATGATCTGCTTCACAGAGGAGGTGACATTTGAAATGGTCTTGACCTGAGGTAAGAGTCCAAAAAGAGGAGATAGCAGAAGAAATGTGAAGAACATTC
TAATTCCTGAAACCAGTAAGAGCAAAGGGAGGAAGAGTGGGAAGCCGGAGTGTTTTTAGAAAAGAACAAGTGTGAATTCACTCATACAAGATTGGCAAAT
GGGAGAATGATTCGGGTAAGATGCAGTGGCCACATAGGTTCATACACACTTCTTCCCAGCATAATCATGTTTTTTTTTCTACCCTATAACGGTAGCTGAA
TCCAAAGTAAACCAACATAGCTGAAGACACCAACCTCAAAGTACTGTGCCACAACACAGCCTGTACACAGTGTGCATTCACCCATATGCCTGCCTTCAGC
TTGATTTAGCCAAGCACTCTATCTCGGAAATGTTCGTGGCCCACGTCTTTTCCGTCATTGTGCATTTTTGCCCCATCGCTAACACTTGGCAGTGTCAGCC
CTTTCTTATACYCCTTGTCATCAAACTATATTCACATTTTCCTTTTAAGGTGAAGTGATATGTATACTGAAATAATCCTATATTTTTTAATGTTTTAGTG
TATCTTTTTGAGCTGTGCTAATACTTTGATCAGGATTGTTATTGTTTTGTGAGTTCTCTAATTACACACTTGTGTAAGTTTTTAGCAGGTCAGCCCCAAC
CCTATTTTCCCATAAGCCCTGTTATTTGTAAGAATAATTTTTATAGAACTCCTGGTGTTTGTTTGTTTGTTTGTTTGTTTATTTGTTGYTTTCAGGAAAA
CACTTATCACATTTGAACATAAAGAGCAATCATTCCTACTAAAGAGCAGGAGTGATTTCATGGAGAAGATGTAAAAGTGAGGCTAAAAGAGGTAGACTAA
GAAAATGTCATAAAGACCTTAGAATGTCAGTTTTAGAAATTTGCATTTATTCAATAGTCAGTAGAAGAGATAAAATTGTTGTTATGCTTTAGAAAGAGTA
ATCTGTCAAAGATATTTTTAAAAGTGTATCTTATTTTTCTCATGCTTCTAAAATTCACATTAAGATTAAAGTAAGGGGAAAAATCTGCTGCAAGTAAAAT
TTAGTTAGCTGAGCATTGAAATGGTGATATTTTAATAGACTTAGCCCCAATATTCACCTAGAACGTAGCTGCTCCAAAATAGCATAATTAATCTATACTA
ACTTTACCAGACATCAAGGTTCAAAAGAGAAACAAAAGGCAAATTAAGAAGCCTAGCATTTATTAATTATGAAAGAATAGGGGCTTTTTTAGTAAATGCA
TTCAGAATGAATAGGATAACTCTATTCTATTCTATGTCGAAATATTATAGAGTGTACCTGGAAGGACTCATATTATTTCTCATCCCATAGTCACCAATTC
AAAGCCAGACTTACCTTGTTTCTCCTAGTGTTTTCTAATGAATTAAATGAACTGGGGGGATCTACAGCTCTGTKTTTAGCCACTCCCAGTCCACAACTCT
TTCCCGCAGGTATCTCCACAATCGCAGTAACATCAGACAGATAGGTAGGTAGATAGACAGATACATAAAAATAGCCTCATGTTTGGAAAAAATATTTTAA
ATGTATTCACAAGACTTATCTTAGATATTCATTAATTATGCATCCAATATTGATTAAACATATATTCTCTGTGAGGCAATTTGCTATACTAAAATCTTTG
TCATCCTACAAACATCAACTGGATTCTAGGATCCAAGTACTGTATTGTATGTACTAGATGTTTTGAGTTTGTGCCTGACATAGGACCTAGCCCATAATCT
CTTAGATGGTCTCATGAAATTTACATTCTAGTGAAGGAGACAGAAGAAACCATAAAAATAAATACAGGCCTCCTTAATCGTCTGAATCTAATTTGTTCCA
GAAAAATTTGTTGGAAGGCAAATATTCAGAGTAGGATCCTATATATAAGAAATGTAATAATGTATTCTCAGCCCATCCAGAAACCCCGCCCCTTTGCCCA
AATACCACTAAGACACCCTTAAGCATCAATATAACTATCTACTACCAAGTGCTTTTACAAAACATAAAGCACTTAAAAAAACTAATGAYTTAGTTATTGC
ACACCTCATGAAAGGTGAGAGGTGGTTTTTACTTATTCTAGCACGGTGGCARTAGAGATGGAGATAAGTGGAAGGAATGAAGATGTATTTAGGGTATTTC
CTGCCCTACAACAGCCTATAGTCTCATTGCTATTCAGTGATGCATTGAATAATGACAGACYGAATAGATATGATCTGATTCATGTGAAATGTCTCTCTTC
TCAGTCCTCAGGTGGAAGATAGTGAGGGGACTATTCAATTTGATGGAGAAGGTTATGCATTGGTCAGCCGTCCCATTCGCTGGTAMCCCAACATCTCCAC
TGTCATGTTCAAGTTCAGAACATTTTCTTCGAGTGCTCTTCTGATGTATCTTGCCACACGAGACCTGGTAAAGATCATATGCATAGCAGAGTTTCCGTGA
CTAAAATGCGTTTGCTTCTTTTATCAGTTATTGGTAAAATCATCAGTTATTGGTAAAATTATCAGTTATTTTCTAAAAAGCCTGGGATGATTGTCTGGCA
GCCAAGAATGGGTGATACAGATAGTGCTTATATATTTTCAATAATAACTTTAATCACAGATACAATTTAATTACTATTTATTTTCAATACAACTCCCCAC
ATAATCCTTTAAGCAATACATCCGGTAATAATTTTTCCCAGCATGGAGCCATACAGCAGCAAAATGCTTCCTTAATCTTCTTTCAGAGACCTGAGTTGAA
AAGGTGATTATAAGTATTCTTTGGCCTCATTTTTTTCTGGTCAGTATTTCTTACTGAATTCTTTCTGGGAACATACCTTTTGGTTCACTTAATATGTTTT
CAAATGAACTCACATTTTACGACTGTAATAAAAGGATATGTCTTAGAAATTTTGTTGTGACCATGTGCATCATAATATCACAGCCACAAAAATTCAGAAA
ATAGTAACACCAATTCTATTTTCAAAATGGATTTCTGCAACAGAGTGACATATTCAGCAATTTAGCCACAAGACCCTAACATAAACCACACAAGAAAAGT
GAACACTCATATACTTCTCTGTGTATCTAACCACTGGGGTATGTTTACTCTATTAATAGAGAGATTTCATGAGTGTGGAGCTCACTGATGGGCACATAAA
AGTCAGTTACGATCTGGGCTCAGGAATGGCTTCCGTTGTCAGCAATCAAAACCATAATGATGGGAAATGGAAATCATTCACTCTGTCAAGAATTCAAAAA
CAAGGTGAGTTTTTACAGTAATAATGCAATATAGGCCTTAATCATGAAATCCAAAGTGCACATGTACCTGATCAAGAGGAAGGCTCCGTCTATAATTTTA
GCTACTCACGAGTTCAGTGAAAAATTTATACAGTCATTTTTTTGGCTTAGATTATAGGTGATTTGGGTTAGACATGACTGATTGAAGAGCCAAATGCTTC
TCTATCATTTTCTTTTGAAACTGAGAGCTTAATTTGAAAGCATAAAACTGTCTTACAACTTGCAAAATTATATCCTGTAATATGTTTGAAAAATGTTGGG
TGCTTTTCTTTTCTCCCTATTTTGTCAAGATGTTTCCTTTAAAGTGGCCCACAGTGGAATCTATAGGAGTGGTAGGGCATAGTTATCAGTTCTTTGCTCA
TTTAAATTGCCAAACATTTGTATGCCTGCAAGTAAATAATTGATCAATAGTAACATGACATGTTTATGATTCGGGGACATTTTAAAACACTTTCACAAAC
ATTGTTTTATCTGATCACATAAGCAGGTATTTTGTTCCAGTGTTAGAGAAAGTAAAATATACACTCAAACTTTTATGTGGTCACAGACATATATATAAAA
GATCTCACAACCAAGACAGAAATCCAAGTCTATTAATTCTGAGTGTAGTGCTATTGCTTTTTAAGTATATAATTGCTCTAATTCTGTGTAGTATGGCATT
ACCAATATCTGCAAATGAGACTTTGTTACTTCTGCTAATATAAATAGACTCAATTAATGTTGCCAATGCCAGTGTGACATTTCATGAAAATTTACGTTTA
AATTTAAATTTGTACCGTCTTTCATTTCTGCATTTAATACATATCTGCCAGGCACCTTCTAAGTACCATGTAAGAACTAAATGAAGTTCTAAGTTCTTGC
CTTCAAGGAACTTGCATCGAACTGGGGAGATAGACAAGTATCAATGGTTAGAGGATAGAGAGCTAATTGCTGTGATAGAGATGTATGTAGCCAGCGAGCA
ATCTCAGAAGAGAGACACTTGAGTCAAACAGAGAGGTCAGTTTCCACTGGAGTGACCCTGAGGCACAAGCTGGATGAGGAGTTAGCTGGATGAAAAGCAT
GTATGGACATTTCAGAGTAGTGAAAGTTGTGTGAAAGCCTGGAGTCATCAGAGAGAATAACACATCCTTTTCCAGCTGCATTTCCAACAGGAAACTCTAG
AGAAACCTCTCATATGGGACAAAAACTGGCTTTGCAATTCTTTATTTTGGAGTGCTGCTGCRTACATTGTTCCTGTGTAAGAGAGGCACAATGCACATTT
GCATGTCAGAAGCTCTGTGTAGTTAGTTGTTCAGTAAGAAGAATGTTTAGCTGTTTAACCCAGCATTTCCCAAATTTCTTTAATCAGAGAAATCCTTCCA
TTCCTGTAATACTAGCATTCTGCTGAACACACTTTGGGGAATGCTTTAGTAACTACAAGTGAATCCATAGCCTACACGAATGAATGTTGGCAGGAAATTA
TCAGTAGGGGCCAAGAGATAACAGAACCAGTGCATAAGGGGACATATGAGCTAAGTGAGTGAGTTTCAGCTTTATCCTGAAAGCCATAGGGATACCGAGA
ACTCTAAGAGTTTTAAGAAAGGGTGTGATATCATAAGACTTGTGCTTTAGTAAAGTTTCTTTAGCAGCAGTTTGGAGATATGTAACAATTTAGGATGCTA
CGGAGTCTGGTGAGCCTAGTGTCTCCCCACCAACTTCTCTTCTATAGTAGTAGAATAACAGATTTGAAGAAAGAAGGAGAAGATGGATATGCATTATAAA
AGAAAAAAAGACAACCTAAATGTCCATCAACAGATGACTGAGAAAAGAAAATGTGGTATATATACACCACAGAATACTATGCAGCCATAAAAAAAGAAGG
AAATCATGTCTTTTGCAGCAACAGGAATGGACCTGGAGGTCATTATCCTAAGTGACATAACCCAGAAACAGAAAATCCAATACCATATGTTCTCACTTAC
AAGGCGAGAAGCTAAACAATGGATACACGAAGACRTGAAGATGGAAACAATAGACACTGGGGACTCCAAAAGGGGGGAGGGAGGAGAAGGGGTGAAGATT
TAAAAATCGCCTGTTGGGTACAGTGTTCACTGTGTGGGTGATGGGTCCACTAGAAGCCCAAACTTCACTCTTATGCAATATATCCATGAAACAAACCTTC
ATATGCACCACCTGGATCTAAAATTGTRAAATAATAAAAATAAAAATAAAGACATTCGGAACACTAAGCTGAATTGGCTAATGCTATAAACTCTAAAGAT
AGTAATATGCTTGGTAGATGTACGGTATAACAAACAGGGATAAAATGATTCAACAACTTAGGAGAACAATTTTTATAAATGGTCATCTTGGAAACGCTAA
TTTCCATAATCAGTCTGCTATCTCAACTTTTATTCTATCCATTAAAACAAATAAACAAAAGATCTGTGCTCTGAATCAATATTAGTCAAAGGTCAAGTTA
CAGAATCATATAAATGTGAAAGTAGTTAAAAATATGTTTTAGGTTTACTGTAACTACAGCATTCCATCAATTCAGAAAGTTCTTCCCCCAATAGGTCTAA
TTTTTCCAGATTTTACTAGAGCTACTAACTGTTACTGTTACTACTCTGTGGTCCAGAAATCAGAAAGAATTTTCCTTTATCCCAGCCTACTCAGTATCTT
CTGTGACATTTCTGGTTTCTAGTTCAATCCCTTTGACACAGTTGGCTGATACCTTCTCATTTATAAGTCTTCTCCTTGGCTTTCAAATTGACTCTAGACT
CACATTGCTTTTTGCCTTTCTGAATACTCCTGTCAAATGCACCAAGCAGTCATTCTCACTTTTATTTTGGGTATTAATGACATGAATCATTCTCCTTACT
TCTCTATTGTATCTCTATGGTATCACCGTTAAAAAGAAATTAAGCCCTATGAGGTTTAGTTGTTCAGAATTTTGATTCTTAAATTAGACTGGGAACTTCT
ACCTTCTGCCCATGGTTGTTACCCATTCTCTATTATCTCTGGTGTCTCACCACAAATTTCTCAAGTTAAACAGGTGAAATTTTTTATTATAATAAAACTA
TAGCTGTTCTGTTTTTCCACATGTCTTCTCATATATCCAATATATTTTCTCTAATACTTTTAAAGTATTTTATTACTATAGCAGGTCAGTTAATATGTAT
TAATTTTTCCTTATAAAAAGAAAAGCATCGAAGCTGCAATGGAAAAAGCAAATGTTATAAACAAATAATTCACAAAAGAAAAATGCAAACTTCTTACATA
AAGTTGAAAAATGCAATCTCAATAGATGACAAGCATATGGTCATTGACTTGCAGTAGCAATATCCAAAGATCACACTTAAAGCAGTAAAATCTAAATTTA
AAAGGAAAAGAAGAAAGGCTTGGCAAAATAACCTTACTACCTGCTTTGATAAGATTAGCTCTTACAGGACACATTTATTAAATACCAACTATGCATCAGA
TGCTGTGCTGCATCAGTGAAGATGCATACGGTTCCTACCCTTGAGTAACTTACCTGCTGCACAAGTAGCAAATTACTGTATCTGTTTAGGATACAGTAAA
CACCAAGGGAGACATATGGAGGGAGAGAAATAAGGCACTAACTGAGCCCTAAGTCCTTTTTTAGTTGAGGGGGTAGGAGGGGTGGAAGCAGTTGCAGGCG
ATCCAGGCCAAAAAGCATCATATGAAAAGATAAACATGTATAAAAACATGAATTATTTGGGCAGCTGTTGTAATCAGTTTGAATTATTGGAGTTTAAATT
TCAAAAGAGTGATAGAAGATAACGCTGGGCATGTTGGCAAGGGCCAGATCACAGGAAGCTGTTTAAACTGTGTTGAGGAGTTTGCATTTCATCTTGATGA
ACTTGATTTTAAGTAGAGATGTGACAGGGTAATTTCAATTTAAGTATATTACTCGAGGTGTCAGTGTGGAAGACATATTGTCAGAAGACCAAACTGAAGA
CAAAGYGAACAATTGGATTCAATAATAGTCTAGGCAGGAGGTAAATTATGCTTGAAGTAAGAGATGCAGTGGGAATTGACATCAAAGAAATGCAGAATAA
ATCCACCATGTGATACCATTACACAGCTATTAGAATGACTAAAATTAAAAAGACTGACCATACTCAGTACTGGCAGAAGGTGGAGACACTGGAACTCATA
CACTGCTGCTGAGGATATAAAGTGGCATAACATTGGAAGAGGTTGGCCATTTCTTAAAAGACTAAATATACATCTACCATACAAACCAATCATTTCACTC
CTAATTATTCACCCAGGACACAAGAAAGCATATTTTTTATASAAAGACTTGTACCAAAATGCTCACATTACTTTTATCTGTGTTACTCAAAAACTGAAAA
CAAATCACATATCCATCGACAGGTAAATAGATATACATAAATTGTGGTATACTCATACAATGGAATACTAGCAATAAAATACTCAGCAATAAAAAATAAA
GTATTAATATAGATACAAAATGGATGAATATCCAAATAGGCAGACAAAAAAGGCAAATTTAGGCAGACACAAAAAAATACATTTGTATAAAATTACATAG
AAAATGTAAACTAATCTATAGTCACAGAAAGCAGACGGATGCTACTTGTGAATGGTATATGTACGAAAAGGCAAAAAGGAGGGATTACAAATGAGCATAA
AGAAACTTCTGGGGTGATGGATGTGTTCATTGAGTGTGGTGGTGGTTCTGCAGGTGTATACAATTACATGTTACAAACATGGTTTAAATTATAGCATGTT
AATTATTCCTCAGTAAAACTGTTTTAAAAATAGGACAGATATTAGAGGTATTTAGGAGAAGAAATTAGTGAAGCTGTTGATTGATTAGATGTGGTGAGGA
GAAAGTCAGGATGACTCTCTAGTTTAGTAGATTGGGTGGGGGGGTCATAAGACCAACAAAAAAAAGTAAGTTAAGTAATACAGATTTGGGAGTTAGATGA
TAATTATTTTSATTTGGAATGTTTAGCTTAAAGTACGCAAGGAAAATATAGATGATGGTGTCTCACCTGTTGAATGTGGACTTTTAGGCAAAAATCAGGT
CCAAGCATACATACATTTAAGTCATCAATACATTGTAAGTAGATATAAACTTGAGTTTGCCCAGATGGCTAAAACCTGAGATGTGGGCAAAGGAAGGGAT
ATTATAAAACATCAACATTTTAGAAGTGTTCAAAAATAGACCCCAGGGTAGGAGATTGAGAATGAAAGGTAAAAGAAGCCAGAGAGCTTGACATTATGGA
AGCCAGAAGAAATTTCCTATAGGGAAGGAAATGCTAACAGCATTAAATATTGCACAAACATGRATTCAGATAAAGTTTAAAAGAACTCCACTGAGTTTGG
GTATAGGCAGGTCCCTGAGGACTTTAGCAAGACCAGAGATGACAGAGTAGTGGGAGAGGAATTGAAATAAGGCTCCAGCAATGTGGATGATTGCTCCTTT
TCAGTGACCAGATTATTTGTTTTATATGAATTATTCTCAACTAGTTGGCAAGAGCACTGTCTCTTGAAATTCAAGTACAGTCCTTCAGGAGTGTTCCCCA
TCTTTCTTGAGTCAGTTACAGAACCACAGTCCCTGACAGAAGTGTGCCCTATCCCCTAAATGCATCAAGTAGGATGCAAAGTTGAGAACACTCAATTAGA
TTTTCAGTGGATCAAGAAAGAGAACAAAAGAATAATAGCCAAAGTAAAAACACTTAGCTTATAACAACTCAGCATTGATTATAAAATATTTCTTAAGTCC
CTACTCTGTGTCTATTATTTAATAAAATCCTTATTTCCCTACCTACTTATAAATCACATCTGAACTCATCAACTGTGAAATTTTGTGTCAATAGCCTACT
TTTCTATTTTGTAAAGAAAAGAAATAGGGTAAGAAATAAAAGCAAGCATTAGCATTTACTAGCATTTCCTGGTAGAACCCACTTCATCGCTATCACTCAT
GAAGGATAGAGTAAAGCACTCCCTTTAAGTCAGTAAAAATATGCCATCCTGTCTCTCTGCCAGTTACCTTTTGGGCCAGTGAATTTCAATTCAATTGTGT
TGCTGCTCTTTAATCATGTTTTCTTAGAATGATTTCTAAAAATGCATATATTCATTCATGGATAAGGAGGAAAACCACCTCCAGTCACTGGCTTGCCTGT
GATAGAGAGGCAGAATCTCATTTTCAGACACCATTAAAATACCCACCAAGTCTGTAGAAAGAGACTATTTTCATCTTCCAGTCAACAGCCCCATATGAAA
ATACCTTTGCCGATCTAGATAAAAAGGAATGTATATGAAAAAGTCTTGAAAACAGTTTTATAAATCTATTTTCTTTTAGCCCCCAGTCCAGTCAAGGAGA
TATATGTGTATGAAACTAATTATGTATATAAAAATAATAAAATAGGTGTGTGAAAGTAATTCAATTTTAAAATCTTAACTTGCTAGCTATATTTAATAGG
ACAATTATTCTTTTAGGTATTTTTCTTGTTTGTTTTTACAAAAGTCTGGTTTGAGGTGTCCATTGGTATGTGTATTTTAGTCCTTTTTTAATAAGGCAAT
TGTGTTTGATTTTATTGAAGACACATCTTTTTGAAATGATAGGGCTATAAACTTCAAGGGAATTTTGGAATTTGATGTTTCTCTCTGTTTTCCAAAGAAC
ACTGATTCTGAAAGATGATGAGTTGAGTGAAAATAATAGTATTTCGTGGTCAAATAAATTTGGGAAATACTTTTTGCTCTATGTCCTTCTCTAGGAACAT
TGCATTGCATATTAGCATGCTGAAAGATCTGGGCAGCTATAAAATTAAGAAGATACATGTTTAACTTTGTATAACCCAGTATTTGTCATATTTATTTGAG
CCAGGAACATCCAAGAAACTAGCATCCTAAAGRATAAACATTTAGAAATTCCCTTATAACCCACTGGTTCAAATGCCCATTTTCAAACCCTTGCTTATTC
AGATCCTACATCAGACAAAGGTTTAGAGGCCAAATCTATCATCTTACGGGACTGATGTCAATACGCATCAAGGATGCATATGAAGTAGTTAAAGGCTAGA
TCTAAGGACATGTGGTAGAAAAGCATGTAATTCAGAAAAAGCCTAGCTTGACCCCTAAGAAGGGGGYGGTAGTGAGAGGGATCAATGAGATAAGGAGTTC
CTGTCTGCTTTCTAAACAATGCAGTTTGAACAGAGAAGTGCCTCATCTTTCCTTTTTTCCATCTATTTCTGAATTCTTATCTTCATMACATTAAAAATAC
CTTGAGAGACCCAAAAGAAAAGCAAGAAGGCATGAGGACTGTACCTCTGTCACAACACTTAGCATCCTGGTCTAAAATGTAATTTACAGTGTACCTGGAT
CTCACCACTTCCTTGTACAACATCCCCTTCCACTTCCATGTACAATCATATTTTACAACAGTGACACTTTGCAGATGAGTCTAAATCCCAGTAGTTCCTG
TGGATAGTAAAACTTACAGAAAGAGCCATAGATTAGGCATRTTTCTAATTAATTATCTGATTCCTAATTAGATATCTTTGTTATTTAGCATTTTTAACCT
TGCTTTATTTTCTAACTACTTATCTAGATTATAGAAAACTACATCAAATGGATCTTTGATGTTCAGTTATAGTTATCTCTTTTATCTTCATTGGTTTGCC
TTCACTGGTGTTCAAGCTATTATTTTCATGCTCTTTGGGGGATAGTTTAATAATGTATTTTATTGATGTTATTTCTGTAATTATTAAATTGCTAAATATA
GTGCAAGTGCTTGAGAAAGTCAATGTTAATTCTCGAATTAAACCAAATTTGTCTTGAAGTATTAATGATGATATAGATGTGGTTGATATTGCTCAAATAA
AATGTTAAACTTTCTTTCTCCTTTACAGCCAATATATCAATTGTAGATATAGATACTAATCAGGAGGAGAATATAGCAACTTCGTCTTCTGGAAACAACT
TTGGTCTTGACTTGAAAGCAGATGACAAAATATATTTTGGTGGCCTGCCAACGCTGAGWAACTTGAGGTAATTTAGTTTATATGTAAAGCTAAGGATTAA
GTTTTAATTAAATGACCACTATGCTCACTAGAGTTCTGAAGTTTAATTACAATAAGAATGTCATATAACCCTTGGTTGCAGAAAGGCCTAATCAAAAACA
TCATGTTGCATGTTAGAACAACACCAGGATTTAGAAACCAAAGGACTAATTTGACATCTTTGTTGAAGAGATGGATTGGAGTCGCTGTTTCCTTTATATG
CACCTGCTGAAAAGAATTATGAAAGTAATTAAAGGTAGAAGCCAGAGTTGAATGTGGATCTTGTAATTGCTGTTCTCCTTCTACATTCACTGGAGATAAT
GGCACTCTGACATTGCTTAGTGTTCCGAAAATTAGTCAGTGTTCCAGGATGCTATGAGTATAACCTATTTTATTGCTAAGCATTAGCATCATAATGGCGT
GTTGGAGCTTTCCCATATGCCTAATACAAGAACTATATTAGTTGTTCTCATGCCCATGCCAACATTTTTTTTTAATTTCACATATGCTTTTTAGCTAGCA
GTATGGGGAGACACATTTGCTTCCTAATTTAGTTAGTTCAAAAAATAAAGTAACTAAAAAATGTCAGAAAATACTCACGTGCTGTGTAGTTAATTTACTG
CTCATTATAAAACATAACATAGTCTATAAGGATGGTACTTGGTGCTCAATAAATGTTAATTACACTCTAATTAGAATGGGATTAATTGATTTGGTTAAAC
CGTAAGAGTTTATTACAGACTACCATGTTTTTAATTTTTTGTTTTGTTTAATTAGTTTGGTATTTTTTAAAGGGTATAAAAGTTCTGTCCAGGTGTTTCT
ACTCCAAAAAGACAGATTATGTTTGGAAAAATCCCAGAATAGCTGAAAAGTGTGATGGTCAGTTATTTTCACATTTCTAAACGAGCAGTGAAAGTTCAGT
CTCATTCTATGACAGCTAGTGTGCAGGCTGAAATTTCTTCTCCCCAAATCTAAACTCATAGATGAAGCAACTGTCTAATTATCTGATGAGCTTCATGGTG
CAAATAAATTGGCTCTGCATTCATTGTAATGTATTTGTGTTAGAAAAATAAATTTAAAGTGTCAAGTCAGAAAAACATTACAAATCAAATTTAAATAGTA
CCACAGTTATTACCTAGAAATTCATTTGCCAGTCATTCACCAAAAGTYTGTTGAGTATCTACTATGTGACAGGCTCCATACCAAATACTAGGAATCCAGT
GGTTGTTCAAATCTAAGATTTGCTTTACAAGATCATTAACCATATATTATTGAGTGAATTAAATACAGCCAAACCTAAGGTTATTCAAATCTAGCTTCAT
TTATTCTAGTGATGATTTTAATTATCATAAAATAATTTTTAGGAATTATCTATAAAGGTGTGCCTGTTAAATTCTATAAAATCTGTTAAAATCTGAATCT
GYTAAATGAATCTTTATCACTAAAATGTTTTTACTTTCATGATACAGCATTGCATAATTACAGTATACTATTTCCATGGTGTGGCACATTATTTCAAAAC
AGCCATTAGAGGTATATTTGTGATTGATAAAGGAACCAAACATTCATAGTTACCTGTTATTTTGCCTGCAGACAGGTTCTCAGTATGACAAAGTGCAAAA
GATGTGGTAAACATAAATTATTTTTACATGCATTGTTAAGCTCAAGCTGTTTGAGAGGCAATATTTATAAGCCATTCATGAACACTACAGAATAGTGACA
TTGTACATTTTCCCATTTATTAGATTGATAAGAACAAGTACTTTAAATTCATATTTCAAAGTAAAAATTTTCCAAGCTGATATTGTGAGCTACGGTCATA
TTTTGATTCTAATTTCACTGCCGTCAAGGGTATAAGTCTATTTTTAGTTCTATTGGGGCTTTTGCATTTCTTTCCTTTGTAGATCCCTGTGAAATGATTT
TTTAAAGATTTATGATTAAAGTTTATTGTTTTACTAAATGAAAATGTAATTATAAGTAAATTGTTTTTATTTTTGTTTTTTTTTTCCTCTTTCCCGTTAT
CTAGTATGAAAGCAAGGTAAAATTTAAATTTATGCATGCCTTCTTCGAGTGCATGGGTTGGGTAAATGTGGCTTCTTAGATAAAGCAGCCGTGCAGAAGC
AGAGCAACACCAGTACAGCTTTGTTCATAGTATGTTTCACGAGCAAGCCGTGCATTCTGTGAGAGTTCTCCTGCTGCCCCTTGCTGGCCGACATTCTGCT
GCTTACCCACCATCAGTTGGGCTGCAATTTGAGTTGTCTCACCAGCAGTGATGAGATTTGCTCTGCTCACTTGTTCAACCATCTGCACACAGTGCCCCTG
GTGACCAGCAGCACACACTCAAAAGGCAGCTGGTCAATTTCTGGTACACAGTCTAGTTCTGGGAAACACGGTAAAGTGGTCTCTTGAGTTGAACCCCGGG
CCCTGGCCTCCCTAGTGCCATGCTGTCTGCTGAAGAATCAAACTGTGCTCTCACATGCTTACCACTGCCTTCTTGCTTTTTGCAGGCCTGCAGATATGCA
AACATTYACACAGCCTTTGCACCTCTTGTCAAAGCTGTTTATCTATTGACATGTTTATTTAAAACTAGCTATGGTGCCAGATGAAGGAATCTCTGGAAAT
ACTATATTTAAAATAAGTATTTGCGTTAATAGTAAAGAAGTGTGAGATAGTTCTCCTAGCTTCTCAGGAGCATTTTAATTCTTACTAGCATTAGCATAAA
RGCTGTGAGCAATGGGCCTCCATAAATGGCTGAACAAACCTCAGAGATGTGCAGGGCTGGTATCCTCTGGCTAGAGCTAAAAGCCTGGTGTTTTGGCATT
TCAGAGCCCAGCTGTGCCAGATTTCTGGAAAGAAGATAATAAAGCCGAACTGATCCAAGAAATTTTTAAAACCGAGGCTAGATTTTTAATAAGAGAAATA
GAATATACAGAAATGAAAGTAGGGAAAAATAAACCATGCGTTTTATCATGATACAGTTGTAAGACCACTAGTTGTGCTACATTTGCTGAGATGGCTAAAA
AGCGAAGGCTGGCTTTCATGGAAATATATGTTAATAAAATTCTGGGATGGCACTGTGTAGGTTTGTAATTTTGCCTTTGAGTGGTGACCCTCAAGAAACA
GGGACCCGTGGTTACCATTGAGTCCAGTCACCTTATGTGACTATTTATCCCCTGTAATTGTCCTAATATTGAGGTTGCTAAATCATATTTTGGAATGGTT
CTTTGTGTTTCCATGAAACAATAAACTATATAACTTGTAGGAGTGATTTACTTTAGTAACAAGACCTCTGAAAAAAATGGTGATAAGTCAGTCTTTCCAT
AAAGGAAAATATGGAAGCAAGTGAACACTGTTAATGAAATTCACCTTCTCTGTGCATTATGCAAGAAAAATATAAGCAGAATTCTCACCCTACAGTTGGG
CATGTTCTTTATAACAACCAGCTGACTGACTGAACGAAAAGAAAACCTTGGGAACAAGGAAAAATTATCAATGAAAATAAAGAAGTTCCAGAAAGGAGTG
CGGGGGTGGAAACAGACAGACACCTGACATGAAATAAATCACCTGATATACACYGCCAAGGTCTAATTTGTTTTTCCACCTGTTTTTCCTCATGCCATGT
GTTTTTCATTAAGATAAAAAAAGGAACTTGGCATCATGGGACAATGAGGAGAGAATTAATCATCACCCTATCAACTACAATATATTGATGCCGACTGGAC
AGTTTTTACCGATGCTGATTAMCACCACATAAAGAATTATCTTTTTCACTTCTATATACCTTCACTATTCAAAATAGTAGCCACAAGTCACAGTAGCTAT
TTAATTGTAAATTAAATCAAATTAAATAACAATAAATATTCAGTTTCTCATTGAGACAAGCTACATTTCAAGTCCTAATAGCCACATGTGGCTAGTAACK
ACTGATTTGGACAGTGCAGAACAGACAATATCCATCATCACAGGAAGTTCTGTGGAATAGCACTGTTATAATTAAAGAAGTATCATCATCACTGACATTC
TGATAGCCTTTGTTTGTTGAGCACTTACTGTGTGCAGTGCTATTCCTTAATTTATTAAACCTTTGCAATTTGATTATGTAGRTACTATGATTATTATTAT
CATGCCCATTTCACATATAAGAACACTGAGTCTTGGAGAACTTAGATCACTTGCAACATCTGGACTCAAGGGCAAGGACTTCATTTCCTAATCTGCTGGC
ACACTTGCCCCATTTTATGAAGTAGTATGCAAAAGTAAACATTCAAGTGTAGTTTGAGTATAAAAGTCATTTTTCAATTTTATTGAAAAAATAAAATGTA
TGGGTTTTTGCATTTGGTTGCTTTATTTTGTKATTGTTCTAATGTAGAATACAGACTTTGGGGTCAATCTGTAAACTAAATTAATCTGTTAAAAAAAAAC
ATTTTTTTATTTTGAGACAGGGATCTCACTCTGTAGCCCAGGCTGGAGTGCAGTGGCACAACCATAATTCACTGCAGCCTTGGCCTCCTGGGCTCAAAAG
ATCCTCTCTCCTCAGCATCTCCAAGTAACTGGGACTCCAGGCACACACCAACATGCCCAGCTACTTTTTTTGGAGGGGAGGGCAAAGACAGGGTCTCACT
MTGTTGCCTCAGGCTGGTCTTGTCTTGAACTCGTGGCCTCAAGCGATCCTCCCTCTTCGGCCTCCCAAAATGCAGGGATTACAGGAATGAGCCACTACAC
TCGGCCAGTAAACCTAATTTTTAAACATCTGTTTTTTAGACTATATAATCCAAAAGAATGTTTCTTRGACTTTGTTTTACTTAAAAGCCTTAAAGAGATA
TGTAATATTATCTTATTTTTTAGCTATCTCCCAAGAAAAAGCCTCAAATAAAAAAAAATCTTTTTCAAAATAAATAAACGTTTTCAGATTTTTTTTTCTA
ACTTTTGAGCAAGGTTTTTAAAAACTTTTTGGTATATAGTTTGTTTATGCTGCCTATGCAATTATCTTSTCTTTGGTGAAAAAAATAAAACTTATTTCAT
TACACATRTAAAGCATCAATAAGAAGTCAGTTAATTCCTGTACCTCATGTTTAAATGCTGTGGGTGAGATTATTGYTAAAGGGGAGAAGGACTACAAAAA
GACTCCTTCTGCAGGATAACATGAACATCCATTTAGACCAACCAGTAGAYAATGGAAACCAGAGTTTGCTGGGTACACGTGTGCACAGTTTGATAGACAT
GTGCCTGCATGTGTCTGCTCCACAAGGCTTCCTTCCCATAGTCAGAGACTACACTACCATCACCCTAATGATATTGCTTTTGCTTTTCATTTGACTATTC
AATAGGCCAGAAGTAAATCTGAAGAAATATTCCGGCTGCCTCAAAGATATTGAAATTTCAAGAACTCCGTACAATATACTCAGTAGTCCCGATTATGTTG
GTGTTACCAAAGGATGTTCCCTGGAGGTTGGTCTGTTTTTGATAGTTCTCTAAACACATTTATATCAGATTTCRCTTACTTAGTGTGGCTGCTCCTACAA
GGATCAGTCTTTTGTTAATATATTTTACTTTTCTACTGATCCTACTCTTAAACGATAAAGCAAGATTAAAGCATTCTCTAAATTACCATGATAAAAAATG
GTATTATGAAGTCCTAGAATTGTGATCCAATTTYCCAAATGTATAGCTCTTTATAGCACATATCATTAATACTAATCTCTTTTCTGTTTTTCTCTTTTTT
TCCAACACTACTTTTCCCTTTTCCTTATTTTTGTCATCCATTTTAAATTTATTTTACTTTTATGTGTTGTATATAGCTTTATTAGCAACCTTACATTTTT
TCTGGAACCATTSAAGTTTACACAAGTAGCAAGTAGTAATTTACACCGTAGCCATTAGTGCATAGTCTGTTGTCTACAAACTTGAAGTCTAGCCCCCTTG
TCTTTGAAATAACATAGACTGGGACCTGTGGCAATCAACTCTGCAAAGACTTGTGTTTGACATGCCTGCAAAGTCCTTTGTTAGCTGATATCCTCAGTAA
CTCTTCTTTGATGCTAAAGCATCCTAGCATTCCCCTATTTTYGTTTAACTATTTTGCACTGTTTCTTCAGTTGACACTGACCCATATGTGAGAAAGACCC
CGGCCATAGCTCTACTCTCTTAAAATATCCATAAGCAAGAGTCAATAGTCAACAGCAAATATTAGCAAGAATTTTATAGAAACTCAATAGTGATCAGCTT
GTTTTTAAAATGAAAAYGTTAAATATGTCATTCTCATACATTTTTAATTATCCTATCATAATACAATTATTCATTTTGTCTGCTGCTTCTAATCAAAATT
ATCTTAAACCACTCCAATAGAATTAGGGAAATGAAGGGAAAATGTGGGTAAAGAAAAAAGTAAATCCACCAYTTGAATGATGAGGTTTAAAGACTGGAAC
AGAACTTTCAGGATCTTCATTGTTCATAGCTACAGGCTCCAATTTGGAATTGGCCATAGACACCCACTCTGAGAAGTTTGGGAATAAGAAAAGAGAAAAY
ACATTAAGAACTAAAACTGTAAGGACCCATACTGKCTTCTTAAAGGAAGTTTTACTGAGAATTTTAATCTTCAAAGCCTAACTCTCATTCACATTCAAAA
GATATATACATGAGGATGGAAACTGTCCGGAAAATGAATAGCCTCTGCACGTGGAAATTATGATTCCCTAAAGGCACTTTGCAGTAACCAGGAATTATTT
TGCAACTAAAATATGAGGCAGAAATTTGATGTGGATAAATATTGAAAAGTCTGCACAGTAGTTTTATCTGAACTATCTAAAACTCCATGATTTGAAAATT
GGAATAGAAAACAGATTATACATTTTACCAGCTCTTGTGTCATTTAACTGGTCTTGAAACACTGTGGGAGGAAAATAGCCTACATTAAAGGATTCTTTGC
TTTTACTCCTACAAAATCTAGGACTTTAAAAATGAATATTTTAAGCACTTTAAATTCCTAACTACATGGGCTTGCTTAAATAAATACTAGCAAATTCATA
AAGTRGAAAGTCCTCCTGCCATTAAAAGTGACTATCTACATTTACTGAGAGAGTGATATCTTCCACATATGTAAGAAAAAAAAGTCATTAGGAATGAACA
TGTCTATCAAGATTCATTTTAAATAYAGGGAGGAGGAGAGAGGAAGATGGCAAGGTTGTGAAAGAGTGAATGAATGAATGAATGAAWGAATTATAGAAAG
CTATATGCTTCTGCACAGCTTTGAGATTGAGATGGGGAGCTGATTTTCTCCCTTTTGCACCTTATTTACATTTCTACTTGAAATGTAACTGTTTTAATTT
TATACTGAGCAAGGACAATGGTATTACTTTAATATTGAGAAAAAACTAGACTATGCGATGTTTGKTTTATTTATTTTTAAGGTTTGGTCTTATCACTGGG
GAAAAATGCAGACACAGATAATGGTCATACCCATCTGTAAAACATAAACAATTAAGTGATAGAGTTTATTCAAGAGATATTCGTTACAGTGTTTTCAAAG
GAAACTTAGGGACAATCTCCCTAGACATGTACYTGCTTGTGTGTCAGTTTGACTTAAATCTTTGGTTTAAACAACAACAACAAAAAAAGGTACCTAACAG
TGATAATCTTCTATATTTAAAATCAAAAGCTCTAGAATAAAAGTAGAGGCTATAATTCTGATTTTAACAAAAACTGCTCAGAAGATTTGAAGTTATCATA
TAACTAGAAATAATATTTCTTCAACTGCTCTTAAACTTTCCATGTTTTCCTGCTTTCTAAACCTATGATSTATTTCATAATCACATTAATTGCATCGAGG
AGGGTGAGTGAGATGGAGAACTTATTTAAATTTTCATTTCTAATGGTTTCTACTCTTCTTTTCCTTTACTCACAGAATGTTTACACAGTTAGCTTTCCTA
AGCCTGGTTTTGTGGAGCTCTCCCCTGTGCCAATTGATGTAGGAACAGAAATCAACCTGTCATTCAGCACCAAGAATGAGTCCGGCATCATTCYTTTGGG
AAGTGGAGGGACACCAGCACCACCTAGGAGAAAACGAAGGCAGACTGGACAGGTACCCTCACACCTAGCTGATAATGCATTTTCCCTAATGCTTATATAA
AGCAGTTAACTTACTTTTGTATTTTTAGTTTCGTATCATTTATTTCTGCTCTCATCTTGGCTAGCAAGGACTGAACATTCCATWTTTCCATGCTGGCCTC
CTATTTCACTCRCATCATCTCCCCAGGACAATTGTCTTCTCTAGGATGTTCCTGTTGATCAATTGTAGGTGCAAAGTCACCCTCATATTTGCACCTATAT
TTCCTATGGGTTTAACATATGCATATGTAAAGAGGACAGCTTAAAATATATTCACATTATCTTAATTTCTACTGTCTCCAAGTCCGACTCCTTACCAAAT
CTGTAGACAGTCAGCTTCGGTCCCTTAAATTTAAATGTRAATTCCTCTAAGATCATTTTCCCAGTTGCACAAGCTGAAGWAATAGTCTTTTGGGCCTGAC
TCATCCCATCCTCTCTGGACACAAAGAAGGGCAGAAAATGGATCTGGGAGAAAGCAAGTAGAACACAACCAACACAGACAGGGACAATTWTATCCCAATA
GCATTCAAGGATGTTAAAGCCTAAAGAATGTCAACCAGCCGGGTGTAGTGGCCCATGTCTGTAATCCCAGCACTTTGGCAGGTCAAAGCAGGAGGATCGT
TTGAGCCCAGGAGTTTGAAACTAGGCTAGGCAGCATGATAAGACCCTTTCTCTACAAAAAATGTTTAAAAATTAAMTGGGCATGGTCGTGCACAACTGTG
ATTCCAGCTATTCAGGACTGCTATTCAGCTGTTCACGCCACCACACTCTAGCCTGGATGACAGAGTGAGACTCTGTCTCAAAACTTTTTTTAAAAAAGAG
TATCAATTTTGCAAGGACATAAACTTTAGTATCTATATCCCCTGTCCATTTGRTTCTGTTAAAAGCAATCCCTCAACTGCCCAGATTTAAGCATCATACC
TCTTATTGCCTTGGTATTCTTTAATATCTTCAATCACATTTTTTAAAACGTAATTTTCCATTTAATCTAGTTTTTCTCAATGAAAGGGTTCATAGGAATT
ATTTTGTCTGCCATGACCAAAAGAACACAATGCTTTACAAATATATCCTTAAGTATGCACATACCCTTGTAAACCAGATCATGTTATTTGTGATTACGTG
TTTTAAAAATCAATTTTAGTATGTAACATTTAGTGATCAATCATATTATGTAACAAATCTTATTTATTTTTCTAAAAAATACAAAGCCCACACAAAATAT
TCACAAAGAGAACCCAAAGATGTATAACCACGAGTAACTTGGATTATTTCAGGAATGCAGAAGTGGTTTAATGTTAGAAAATCAAAATATCAGCCAGGCA
CAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTAGATCACAAGGTCAGGATTTCGAGACCAGCCTGGCCAACATAGTGAAATCCT
GTCTAATTTGTATACTAAAAATACAAAAAATTAGCCAGGCATGGTAGCAGGTGCCTRTAATCCCAGYTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGA
ACCTGGGAGGCYGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGCGCGACAATGTGAGACTCCGACYCSAAAAAAAAAAAAAAAGAAAA
AGAAAAAAAAGAAAATCTAAAAATAATATAATCTTGTCAATAGATAGTAAAAACATTTGGTAAAATTTAACAGTCATTCATGATTTTTAAAAAATACTTA
AGTAAACTAAGAGGAAGGAACTTCCTTAGCCATCTATAAAAAAAAAACTATAACAAGTATTCCTGATTTAAAAAAAAGACATTATAAACATTTGCTATAA
AATCAAGCCCAAGAAACAGATGACTATTTTGACTGCACTGATCTTAGCTAGCATAGTAAGAAAAGAACAAGTAAATATAGCACAAGAACAAGAATAAGAA
CAAATATATAATTTAAGAATCATTATAACAAAATAGACATAAAGCCCATATGGAGAAAATTATAAAATTTCATTGAATGATACCAAAGTATTTCTCAATG
ATTATAGTCAATAAATTGGTATAGTCAACATGTTAATGAAGATATTAAAGACTCAATATTAAAAATATGTCATTTCTCCCCAAAATGATATGTAGATTCA
ATTATAATAAAAATATCACCTTATTTTTCTGTGAATCATGACAGCTTATTCTAAAATTTATATCAAAGATGAAATTCCTAGAATAGAAGAATAGCGTAGT
TGGGGCTGTTCCACCAGATATCAGCACATTAGAAGGTAAAGTTTTGTATTGTGGARCTATCATGTTAATTCATGTATAACTGTGCAAATAGGAAAGAATT
GAGAACCCTGAAAATACACAAGCATAGATGGAAACAGCATTTGACAATAAGTGGCATTGCATTTCATTTAAAAAAGACAACAGTGAACTGTTCAGTGAAT
GATTTCAGGGCAATTGGTTATTCATATGGAAAAGATGAAACTAAATTTCTTTTTCATATCAAACCAAAAAATAAATTCACAATAAATTAAAGTCTTAAAT
ATGGAAGGACAAAAATCTTTAAAATTCTTAGAAGAAAATATACCAGGATTAAATTTTGACCTTCGGGAAAAGAACACTTGATTGAACAAAACAAGATTAT
RAGTGGAACTGCATTAAAATTAAACTCTTTGGTCATCAAACAACACAAAACACAAGCCTCAGTCTGGAAATGTACAGTATATATAATCTACAGGGAATAC
AGTCCTTGTCCCCAAAAGGGGAAAAGCTCACTGCAGTTTATAATGGGATATCGAAACCATACTGGTTGYTATAGTATTAGAAAGAACAGTATTGGAAAGA
TGTGAATCAAAGAGTGCCCTTGATCACTGCTGGTAGAAAAAGTAAATTTCTAAAGTCACTTTGGAAAACAATTTGGCACTATCTCCTGAAGTTGAACATG
TGCATACTCTCTACAAGCCAGCAATTCCACTCCTGGGTACAGACCCAGATTTTTGCACATGGGCATAATAAGACATGTACAAGAATGTTTATAGAAGTAT
TCTTTATAATAGCAGAGAAACTAGAAACAACCCAAGWGTTCATCAGCTGGAGAACAGAGAGGCAAACTGTGGCACTTTTGCATAATGGGATATCAAGGAA
TAAGAAAAAGGAATAAATTATAACTAAATATAACAACATAATAAATAGAAAATAAATAAAAATGAAAAATGTGCTATATGGTACCATTTTTGTAGATTTC
TCATACAAGTAGCACTAAACAACATATTGTTTACAGACACATGTGAATTTCAAAAATATTTTTTAAAAGTAAGGTAATGATAAACATAAAATCCACATTT
GTGGTTACCTCTGAGATGGAGAAGCAAGGAGATGGTATTAGAAAGAAACTCATAAGAGATGCAATGGTATTGTTTCTGAAATTTGGTGGTAGATTTACAG
GTATTCATGTTATTATACAGTGTTAACGCAGCTTCATCGTTTACATGTATATCACTCATATTGTGAAGAATATATCAAATAGTCGTAATAAAAATATTTT
TGAAGAGTAGAGGGAGAAAAGTGTTATTTTATTTCATTTCTTACTACACATAATAAGCACTAAATAAATATAAAATACAAATGCCCTCGTCAATTTTTTT
GTTTATCTTGAAAAATAAACTTTTTTCTCATATTGCAAATGATAAGCTAGTTATAATAAGAATACCAGATCAAATATTCTGAAATAGATTTCCACTAAAG
GATACTTGATTCCTTCATCATTGCCAGATATTTAAACACTACCTACTGGCTCCAAATTTCTCCTCTTCAAGATAAAAGAAATGAATGTGAATCACCAGCT
TTCAGGATAGTGCTTAAAATAAAACAGATTCCTATTAAAACAATTACAATAAGAAAACACTATGTAGTATAGTATAAAGTAAGTTAAAATGACATTTTAA
TGTTTTAACATTTTAATAACTCATATCTACTTTATAAAATATCATAGTATATGCTATCTGAAGGAGGAACCAATGTTAAATAGTATAAGTCTGTTAGACA
TAATTAGATTTAGATTCAGTGCTGGTTAAATTGACAAGTTTTATATTTCAAAGCTAACGGTTTTGATACCCATAGAGTTATTTGTGATTCCTTTCTGCTA
AATGGGTTTGATATGGCAAACCATCCATGAGCTAAGGAATTTTTAATTGAGTAGTTTGTGTTTTCCCTTTGACAGATGGTGAGCACTTATCCAGATCCTC
AAAATGTTCTGTGGTGGACACGTAACTACATACATGATTTAGTAAATTATTGGAACATGATGATGTTTGATGGAATCTGTCTCTACCACCATAGATGACT
CATGGAGAACTGAGCCATCACTGTGTGGCAGGTGCCCCCATACTCCACAAGAAAGGGAGAGCACGTGGCATCAGCTCTAGGGACAAGGACTGCATTCAGG
CTCCCTGGGGTTCATGATGGGATATCAAAACCACACTGGTTGCTATAGTAACAGTAGCAAGAAGAAAGCAGGCATGCTTGTGGATGAAAAATTATCTTCC
TTCTTTCTAAATGTGGGAGGCAGGTTACATGTTTGTGATAGCGATCTATTCTACCAGCTCAGAGAACAAATTGAAGTCTAAATACTCAGAATGCCACAAG
GTTGGGAGTCAGGCCTGATTCTCAGAAGCTAGCTGTCCACTTGTGAATATAAGGGAGAGGGATTTTGTTGACACCCTTTGTCTCCTGATGGGTTTTATAA
GTTAGAGGACCAACGCAAGCACAGCTGTTACTTTCAGCATCACAAATCTGCTTTGCAGAGAACTGCTATATTAATATATCCACTTTCCAGATCATCTCAC
AAGCAAAAATGGTAAATGATTAGAAAGATATTTCCAGCTGTTTTCAAAACSGTTTGAGAAAATAAAGTCTTAATTTCTCAGGTAAGATCTCAGAGCAGAC
GAACCTGTGGTTCTGCCAGGGAATCTCTAAAGCTAAGCCATAAATGAGACTTCTGTTTAATCTTCAATAACCACTTGCTGTTGCAGGCCTATTATGYAAT
ACTCCTCAACAGGGGCCGTCTGGAAGTGCATCTCTCCACAGGGGCACGAACAATGAGGAAAATTGTSATCAGACCAGAGCCRAATCTGTTTCATGATGGA
AGAGAACATTCCGTTCATGTAGAGCGAACTAGAGGGTAACAATAGCACTAAAATATTTATTATTGTAACTCAGGTGAACTTCCTTTGCTAGCATCGGTAT
CTATCAGTATCTGCCTGAACCTCTGTGTGTGTGGACMTACTATGCATTGCAAAAGGATACCGTAGYTTAATTCCCTCTTCTTTACTTTTCATACTTCGGG
AACCTCATTTGCYTCAGCCCTTAGGAGTTCTACCCTTAACATTTTTATTCGTGCAGTTATCTMCACCTTTGGAAAAACCAAATGCATTTTCTGAAGCTAT
AAATAAGAAAAATCCCTCCCTCTGCCCCTCTTAAATATTACCTCCTCAAATAAGGTATGCACACAGYRAAACTCACAAATCAGCTCCACTGGAGCCAGCA
GGCTTTGGCGGTTTCTATCTCATTCAGGTTCCAAAGCAGTTATGGCAGCTGCTTAGCTGTCACAGATACAGAGTGTGGCAGCAGCTGCAGGACCTATTGA
GCCTATTAAGTGCATATCTTGTCCCTGTCCCCCTTCCCAAGGTTTGCAGGGTCCCTGCAGAGTGGCTTTCTGAGGGAACAGAATCAAGGGAGGGGAGGAA
AATGACTGCTGCCCTGAGCCTGGCCACCTTTTTACAAATCTACCAGAGTGCTTGCCCCAGCCCTGGGCCAGGGAATTGGCTTTACTCATGCACAAACTGA
TGACTTTCTTTAGAATGCTGCAATACTTTATACTTACTTTATTAGGAAAGTCATCTGTATTTTTCATCAAAATATTGTATGACAACTCAGAGAGATAATT
AGTTTAGAAGGACAATTAGAGAAAAAAGAAACAGAAGCCCAGAGACTTCAGGGGTTCAGACCTCCAAGCCAGCAATCCATTTATCAGACTGAAGACATAG
AAAAGAACTGGAAATCCAATTTGATGAGGCCTCAAAACACAGAGGATACTTTTAAATGCAACGAGTATGAATATGTAGCAGTAGTTCAGCCAAGCCAATA
CTATCCTGCAGTGAAAGACCTACATTTACTAATTATCCTCTTGGGGAAAACATTTAGATAAGCAATAAAGATTTCTTACCTTCTAAGTAAACAACAAAGC
TTTCCTCAGTTTTTATTATTATTATTATTAGGTAGAGGATTAGGCTGTAGGATGAATTGATACAAAGCGTTCATGCAGAATGGCTACTGAGACGTTTAGA
AACCATGATCGAGACAAATGAGGGATCATTTATTTGGACAAACTGAGAACTTTTACTAATCTAAYAGCCAGATATTGTAGTCATGGTCTCTGAGGAGAAA
TGCAAACTGAATGCTCTCATTTGAATCTTAGAATGCTTTAGAATCCTGGTTTCACATGTCTTCTAGATTAGATGTTAGGCCCTTTGACAAACTTTAATCC
TTTTCATTGCGGAAAGGACTTTTTAAAAGATTTAAACTTTAGCCGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGA
TCATGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAAACCCCGTCTCTACTAAAAATGCAAAAACATTAGCCAGACATGGTGGTAGGCGCCTG
TAATCACAGCTACTCTGGAGGCTGAGGCAGGAGAAATGCTTAAACCAGGGGGACAGAGGTTTCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGG
CAACAGAGCAAGACTCCAACTCGGAAAAAACAAAACAAAACAAAAACATTTAAACTTTAAGGAATTTCAATAAGTAACTGCAGATTTGAGAAATTAGTTT
ACCGAAATCACTCAAAATGTGTTATTTTGTTGAGAAAGAATTCTGGAATTCCCAAATGCATTACACTGTTGTACCACTATGCCACTATGTCCTTTTAACA
GGTGCTTCTTCAAGAAGGGCATTTTATTATGCCAACTTCACAGCTGTTGACCATCAATCCAACCTTTATTTGATTAAGCTCAGTATATAGTACATCACTG
GAAACCAGTCATTTAGTTAATTGGCCATATAAACRAACAGTTTTGCCATTCATTGTTAATTACAGGATAATATATGACATATTAGTGTGTAGTCACTGAA
CTCTGTGCCAAAACAGTAATACATTTGCTACCATAATGGCTCATTCGGCACTCTAAGGTTAAAATGCAATCTACTCTATAAGCAAGTGCCACATTAAACT
GATTGACCAGAGATCGCAAGTGACCATGAGAACTTCACCCAGAAAAAATTTTTAATGCTTTATATGCCTATTCTATGGCATGATTTGTGTCACATACTAG
ACAAAGATGATTTGTTTTCATTGTTCTGAATGTATGTGAGATCTGTAATAACATCCTTTCATCACAGATGAGAAAATATTAACTAACYTGCCCAAAATCA
TGTACTACAAATAACAGGACCAGGTATTAAATGAGATGATATATTTGACTTAAATACCTCCATCTATGCACAGCCAATAGATTATTCTTACATTTTTGTG
TGACCATAAAGGTTTATATTACTAAATGTTGATTATGATGTATGATTATTAATTTGGAGATATTTGCATTATCCCAACACTTTTCAGATTTTCAGACTAT
GCATGTCAGTCATCATTTCTTTTCCTAAAATCCTGGACAAAATGATAGCTTTAATACCGCCTCACAAAATAATTGGATTTTCACCAAACTGGGGGCCAAG
CTTCTCAAGAAGCTCCTTCTCCCTTGTCCTCTGCCTCTCTTTACTCCTCCTCCCTCATTCTCTCTCCCTTCCACCCCTTCATCTGGAAAAATCTCCCTTT
AGTCACTTTGGTATCTAATTTCTTGGCACTCCAGTGACCTCTGCCTCCTATATCTGCTTTGTCCTCTGATCCTTCTCCTGGCATCCGCCTTGGTGGCCAG
CAGTTCTTACTGGACAAAAACATCAAACCCTAAGAGCCTGAAGTAGTTACTTAAGCAAATAGGACAAGCAACTGAACTGAKTTTTTCTTCTGGGAAAGCT
TTCTTCACACAGGTACAGAAATAGGCTAAAGGTCAGGAAGTAGGGTGAGATATTTTAGGAGTCATTTGGGGTTTCCAGAATGAGATAAAGATTTTAACAC
TGAACCCTAAATATTTTCTTTCTTAACATCCAAAGTATGTTCAAACAGAAAAAAGATTAGATTCTATTTATTATGTAAATTACAAACATTAGGACACATT
TCTCTTAATATCTTCTTCCACGTATGCAATCCAACTGATATGGTTTWAAAAAAAATCTTAAACCCACATTCCAAACAAATAAGAAATAGGGTATAAGTAA
TCARGTAATTATGAAACTCTAAGAATCAGCCAYTGAAACTGTAAAAAAAAAAATAAAGCTGACCTATTACAATACTAAAGTAATACAAAGTTTAATGTAC
CTTTTTGCACATAGCAGGCCTCAGTAAAAAGCTGTTAAATAAATACTTTTTAAAAATGGAAAACACACCAGAATCATAATGGACATATTGGCAATGTCCT
TCTCAATAAAAACTAAAGAAATGATCTAGATTTGATGTTCCTAAAAGGTAAAATAGGAGCAGGATTTAGCTGTAGTTTTCTAGCAATGCCCTTTTTAAGT
AATACAGCCTCAGGGCAATCCCTTAATTAATATTTTCCGCTGTTTGAAGTAGGTATTTTTATCTCCATCTTATAAATGAATGAAATGGACCTGAGCATGA
TTAAATAACTTGCCCAAGGTCACACAGCTAGTAAGCTTCCACACTAGTACTTAATTCCAGTATGTTCCTCCTGAAAGCCCACACTCATTCTCCATCACCA
CCCTGTGAATTGGTTTAAAAAAAATAAGGGTCACTATGATGGTCCTTGTGGCAGAACCACACTACAGAGAGAGGCTACACCAGAAAGAGGAAGGCCTCTA
GCTTTTTAAAATTCTAATCAAGAACAGAGATTTACTCTCCTTGGACAATCTTTAACAGAGGCTTATATCCTTCATTAAAACCTTAGAAGCCCTGTGATAT
CATGTTGCTAAGAAGAGGCTGCTTTCAGCTAAAGGGGAAAAAGAGTGTAGGGGAGGGGCTTCTCAGTGAGTCACACATACCCGGAAGTGAGTGGTTTTCT
GAAATTCTCGTCTCAGGAAACCACCGACACTCTTAGCAAGGAAGCTGAACCTCCTGGGTTTTGCCAACACATTTTTCCATAGTTTGGTAAAGAAAGAAAC
CTCAAAAGTATGTCATTTCCCCCTATTTTCTCTTTGAAACTAAATTTTACCGGTCCCTTCTTCACCCCCTTAACAGTGACGTTTTTGAGCCACAGCGAAA
TCCATTTTTTGTCCCTTTCTCTTACTTTTGAATTATCTTACTTGTAAAGTGCCAATTCAGAGCATCTTTACCCTGGCTTATTGTTTTTTCCAGTTCTACA
TGTGGTTTTACTTCTTTATAAAGTCAAGTAAGAGGGTACTTTAGGACTGAGGTTTCCATCCAAGTACTCCGGTTTTCTCTCCAGATATGAAGTAAGTTTT
CAGTAATCCATTCATGATCCCCAGGCTAGTGACTAATGCTTATGACTAATAGCACCATGATGACTGTTAAGACCGAAACTCAAAACTTGCTTCCGGAACA
AAAGAGAAAATGCCTTTGGTCATTTTCATCAGAACTCTTTGTCTCCTTCTGATTCTTGGCCCAGGGATCCAAGGATTGTTGTAAATAAGTAGCATGAGGT
TCTCAATTAGCAGTGTGTGAGTTCTCTCTCATAAGCAAATTAGGAAAATTAATGAAACAGCCACTAAGGAAAATCATTGCAAGGAACAATTAGCAGGGTG
TCCTTGCCTGCCTCTTCTATTCAAAAGCCATCAGCTACATTCTTTATAAAAGGTGCTTTAAGTGTTTGCTGTTGATTCCTGCAATCTAAGCTCTCAGGAG
CATGGTTTGTTCCCTAGCAAGAAGATAATAGCCAGCACAACCCAAGGAAGACCCCATGCTTTGCTAAACCTGCCAACCCTTATACGGTTAGACATTACTG
CACACTGCAGAAGCCTCAGTTCTCACAGGCTCATGTGTTGGGCTGCACAGCGCTGTTGTCAGCTCTACAAGAGGCTAATGTTGCAGTGCGCCATGACCTG
GTTTCAGTAAACTTTCAGGAAGAGTGAACGAGGGAGTCATGGAACGAGATCCTGAGAACAGCGTTTGCTTAGTGTAGAATTCCTAAGCATCCAATTTTGG
CTCCCTTAAAAGCTATGGTTGAGAGGGGTGAAGGGTGGCAGGAAAGAATTTGATTTCCAACTGTATTGAATCAGATGTGACTTATACTTGTTTATTTTTA
ATATTTTATCAGCATCTTTRCAGTTCAAGTGGATGAAAACAGAAGATACATGCAAAACCTGACAGTTGAACAGCCTATCGAAGTTAAAAAGCTTTTCGTT
GGGGGTGCTCCACCTGAATTTCAACCTTCCCCACTCAGAAAYATTCCTCCTTTTGAAGGCTGCATATGGAATCTTGTTATTAACTCTGTGTAAGTGGATC
TCCTCATTACTACTACTAATTTTTTATTTTTATTTCTTGCTATTAGGGGTCCCAATGCATCTACATTGTCTACAGCTATGCAGGGGAGGAGGGAAACAAT
GAGGATCTTCAAYTTAGACTGAGAAAAGCACACTAATGGACTTAAAAAGGCATGCGGGGATTGGGCTTAATTGTAAGGAAGCAAAAAAACKAAAATAAAA
AAATCTTATTTATTACATTCTATTAGCCCCATGGACTTTGCAAGGCCTGTGTCCTTCAAAAATGCTGACATTGGWCGCTGTGCCCATCAGAAACTCCGTG
AAGATGAAGATGGAGCAGCTCCAGCTGAAATAGTTATCCAGCCTGAGCCAGTTCCCACCCCAGCCTTTCCTACGCCCACCCCAGTTCTGACACATGTAAG
TGTTTATATTATCCCCATTGCTTTCTAATTTTTACCCAGTATTCTGAGTCATTTCAGAAGGAAGATTATTCAGGATATCTAGTACACTCTGATATTAGAA
TTGAAAGAAATATAACCTATCTAAACCTATTCTTACATCTTCATTGAATGACTTACCTATATTTCCATCTTCAATTTTGTTTACAAAACAGTACATTTTC
AGTTGAAATGTTGGAAAACACAGAAATATCCAGAATCATGAATAAAAGACACTTATAATACCATGACAGAGGCAACCATGTTGGTTTCCAGGCCCTTTTA
TCTGCATAGTAGATGTCCTACCTTGTATACAATTTGGTGTCCTGTTTTTAGAAACTAGTAATACACCACTAAAACTGTTTCTAGGCCAGGCGCGGTGGCT
CACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGCAGATTGCCTGAGCTCAGGAGTTCGAGACCAGCCTGGGCAACCACGGTGAAACCCCGTCTC
TTCTAAAATACAAAAAAATAGCCTGGCATGGCGGTGTGCACCTGTAGTCCCAGCTACTCAGTAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGG
AGGTTGCAGTGAGCCGAGATCACGCCACTGTACTCCAGCCTGGGCAACAGAGCGAGACTCCATCTCCAAAAAATAAAAATAAATAAATAAATAAAAACTG
TATCTAAACATCATATAAATGTGTATGTCTAATATGATTTTATGTTAAGTATATATACACACAGAGACACACAACTATTTTATAGTATTGGAGGTCATAT
AGCCTTGATTAGAGCATGGGCTCAAGTCAGACTGCTGGTATTCAAATCCCAGCACTGTAACCGACCATCTGTGTGAATTTGGGAAAGCTACCTGTCCAAT
CTATTTCTCAGTTTCCCATCCAAGTACTAACCRGGCCCAACCCTGCTTAGCTTTTGAGATCAGAAAAGATCGGATGCTTTCAGGGTGATTTGGCCATAGA
CTATTTCTGTTTCCTCATCTGTCAAATGAGGATATTAACAGCACAGACATCAAAGACTTTGTATCAGAGTTTTAAAAGATAATGTTTGTTCAATGACTCA
CATATACTGAACGTTTAATAAATGGCATAAGTACTATGTAGTAATGATAATAATGAGTACTTTCACCAGCCCAGGGCTAAACAATTTTCATTCAATATTA
TATGTAATTCTCATAACGGCTCTGTAAAATATAGTCTTTCTACTTTTAGTCGAGTTAATAAGAATTAGCTATCTTAAGCAACCAACCCACTCACACCACT
AGTAAAAGGCAGAGTAAGAATTTTATTCTAGCGAGTCAGACTCCAAAGTCTGACTCCTTATCTCYGGAACACTCTGCCTTTCCAATTTATTCTACTTTTA
ATAGACCATGGTAGGCTATTGAGAGTGTTTCCAGTTTTTCACTATTAGAAACTATACTCTGATGAGCTCCTCTATGCATCAAGCTTTTTCATTATTTCCA
GTTATTCTTAAAATAGATAAGTAGTTAGGAAATTATAAGGCCAAAAGATGAATATGTCTAAGGTTTTCAATACACATACCTGAATTGTTTCTTCCACAGG
CTATGCCAATTTACATTCTTATCACCAATACAACAAAGATGGTCACAGTCACTACACTCTTTACAGCTCATGTGTTGTGGTTATATTCCATACCAGTAAT
GGGTGGGCAATGTTGTCTTGAGTGCAGATCTTGAAAACTCTTGAATATCTCATTCTCTTCCTTAGTGTCCACGATGGAATTGGTTGAGCAATGTGCTCCT
TGCACTAGAAATAGTTATTCAATGAGAGGCCAGATAACCATCATTCAAGAAAACTGGTTATTTACTCCAAGCATCCTTTCATCCTTTGTAAAATAGAGAT
ATTTCATCTATCTTGCCTACAACATAGAGTTATGAAAAATCAAATGGGATAATGTATGCGGAAGTTATCTGAAAACTGGAAAAAGCATACCCACATAGAC
ACTCTGAGGAATCCCTGCATTTAGTGAATAACTACTATGTGTCCAGTACTCTGCCAGGCATTTCATATCTGTTATTTCATTTTATTCCCACCCTATTGTT
TTATTTACATTTATTTATATTGCCAGAAGTATTATATTTCACAAAGGAAAATACCTAAGATCACACAGCTAGCAAGTGGAAAGCTGTCAGTCATGGGGGG
TTAGTTCCAGGAGTTGATTTCATCCTAAAGCATTCCTGAGATCTGCCACATGGATTTCAGAATGTTTCCTCAGCTCTTTCATAATTCAGCCACAGGTTAG
ATCTTTGCTTAGCAAAGGTAAGGTTAATGATCCTCCTCTTCACCCTCATATACCTGAAAATCATGTGTTTCTCAGACTCATAAACATGTTTTCAGTTGAA
GAATTAGAAAACATCATGAGTTGAATAAACTTTTTTGACCTTGGATCCTAATGTCCACTTATAAAAATGTTTCTAGGAGAAAACAGCCTAATTTCTAAAT
GACTAACTTAAAATTATAAACTAAAATTGGCAAGAGCCCTAAAGATCATCTGGTCCAATCACCATCTTAATGCATGGGTTCCTTTTACATGATACTTACA
GCCTTTGCTTGAACATTTCATTGACAAGATTTTCCAGTGTTATGACAAGGCAGGCTCGAGTTGTTAGAAAGCCATCGGTTACATTAAGTTAAAACTGAGT
CCCTAAAACTTCTATGTAATGATTGTATTTCTATAGGCAAACACATTACATTTATGTGTCCTCTGTCTAACATCCCTTCAATAATTTGAAAATAGCTAAG
TCTTCTCCTTCCCTAGGCTAACCATTTCCCTAGCTTAGGTATTCTTTGTATTATCTCATTTCTAATTACTATCCCCTCCATGATCAGTATTCTTAAATTT
GAAATATTCCCTTCATAATATGGCACCTACTGCTCAAAAGGAAGTCACCAGCTCAGGGGACAGTGTGACCCCTCCCTCCCTTAATTGTTACCATATTTCT
ATTAATGCACCTAAGAATGTTTTAATGTTTTTAATAGATATATCATGCTACTAATTCCAAATCGGGTACCATATTCAATCAAGCAGAACCTCATGGACCT
TCTTCTCTACCACTAGAACATCCTCCAGGCAGGTCTCTCAGCCTGTGCTGGTTTGGATTTTTAGGGATAACCCTGCCAGCCTCCATGGATCACCTTACTT
TTCTAAGTACTTACACAAACTGCATTTTATAGGGCCTCTCAAGCACATTTTTCTGTGGTATTTAGAGATCACACTTTTTCCTTTTTTCTCAAAATAAAGA
TACTTGCCCATCTGGGAATGGAGATTTTTACTCATTTAAGGTTCTTTTTTTTTTTTATAACCTTCTGTTCTAATTTCGATTTCCATTTCCTCTCAGCAGT
GTATGTTTTAACTTTTCCGAAAACAGAGCATTCCACTTAGTAGATGAGACAGAAGCAAAAAGTTGAGTAGCATGCCAAATTGGTTGGTTTAGAAAGAATC
ACAGAACATTAGAGCTAGAAGACACCCTAAAGATTCCAACTCTTAACTTGCACATGAGGAAAGAAAGCCCTCAAACTTACAGCATGGCCCAGGGGGTTAC
ACACATGAGCGATAGTTGGCACTAAAACCCAGATATCTAAATTCCAACTGCTATTTCACCTTCTTTTTGTTTGTTTGTTTGTTTGTCTGTTTTTTGAGAT
GGAGTTTCACTCTTGYTACCCAGGCTGGAGTGTAATGTCACAATCTCGTCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCTTCAGCCT
CCCGAGTAGCTGGGATTACGGGCATGCACCACCACTCTTGGCTAATTTTGTATTTTTAGTAGAGACGGGATTTCTCCATGTTGGTCAGGCTGGTCTCGAA
CTGCCAACTTCAGGTGGTCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGACACTGCGCCCGGCCTATTTCCCCTTCTTTTGCACATT
ATAATTAGTTATGACTGTGTGGTCAGAATTAGATTTTTTAGAACTTTCCATCTCTATTAATTGTATTATATTTTAGAAATCAGATCATGAAGCCACACAT
ATCTTCTGTTTTAATTTGTTTCCTTTCTTATGTTCTTTTTGTGTGTGTAGGGGGAAAAGGGTGTCTTCTTTTTAAAGGTTACTAAAAGTTAAAAGTTTTA
CAGTTTATTTTGTAACAAATATTTATTAAGCACCTACTAAGTGCAAAGATGAATACGATATTATCATTGCTAGTCAGAGAAAAAGAGGGAGAGTTGCTTT
TTCTGCCATAGCCCTCCCACTTTTATTCCATGAATTCTGGCAGGTTACTTGTCCCTTCTAAATGTAAAATAATTAATGGACAAATAAGGATAATAATATC
TTCCTTCTAGGATTACTATTATGAGGGAATAAGTTATACATTTTATGCAAAGCACCTAGCACCATGCTTGGCTCAAAGTAACATTCCATCTCTCTATTTA
TTCTTTTGTTAGTTTAACTTTAACTTCTGTGTTTCTTTAACTTAATTATTCTAGTTAGTTTAACTTTTCACATTTTTAGGGTGGGTGGCAGGTGCTGGAA
AAAAAGGGATGTGGTGAGTATTCAATTTTTAAGCAATTCCAAACCCTTTTATTGGTTTGATATGTAATGATGATATATACATTGTAATGATGTGGTTATT
AAATAAGTCCTCTATAATTTTCACTTCTCACCATTTTCCATTTTTGTATCAGAATTTAGATTCTTTATTTTTTTTTTCTTGCTCTGTCACCCAGGCTGGT
GTGCAGTGGCGCAATCATGGCTTACTGCAGCCTTAACCTCCCAGGCTCAGGCGATCCTCATGCCTCAGCCTCCTGAGTAGCTGGGACTGCAGGTGCATTC
CACCATGCCCGGCTAATTTTTGTATTTTTAATAGAGATGGGATTTCACCATGTTGGCCAGGCTGGTCTCGAACTCTTGGGAAGTGATCCACCTGCCTCAG
CCTGCCAAAGTGTTGAGATTACAGGCATAAGCCACCACGCCTGGCCCAGAATTTAGCTTTTTAAGAGTTGTTATTTAAGAACTAAGACTTAAAAGTTAAC
TCCTGAAGTGAGAACTGCCTATTTATGAGCTCCATATTTGTGCTAGCACAGTTGACAGAAAAGATCTATTCTCAGTGCCCTTCTTTTTCTTCTTTACACC
CATCACACCCAATCCTGCCAGCAACTTACAGCATGAGGACAACATTCACTATACTACAGGGCAATGTAAGGGTGTCTTGAGAAAGCCCTGCCTTGTGAAA
TGGATTATGTCAATCTTATGATTAATTCATGTTGAACACGCTAGATTAAAGAGCATTTCATGCATATTATCTCATTTGATATTATGGTAGCTTGTCTTCT
CTTTATACTTCTCTCTTATTCTTTAGCCCATCGAGAGCTAGAGAAAACATTTCTACATGTTCTATTTGTGGATATTTTTCATGGAGGATGGCAGGAGGTA
GAGGTAGATAAGAGGCTGAACTTCAAGTATTACAGAAATTTGTTGACATGTGGAAACGTGACAAGTTCTCTGCAAGTATGTGCACTGTTTAGACCAAGTC
TTTTTAACAAGGATAGCCTGTGTGGATTTGTAGATAATGAGCTGGCTGCATTCTTTTACTTGAATTTTATTGAAGAGTTCAGCCGTAAACCTCACAGTTT
AAAATGTGAAAACTAAGAAAAACAATACAAGTAGCCATGGAGAATTCCTGTACTGATGAGCTCTCTTTGGGATTTGGGGAAAAGAAGTGAGCACAGAAGG
AAAGAATAGAGGAAAGGAAAGCGATTTCCCTAGCAGCTTTAGTGCTACACCTTTAAGACCTAAGTACAGTCAAGGCCAAAGGATAAACTGATTGGATACT
GATATGTATTTAAAGAGAAAACATACATTTTCCACTTATCAAGGAATCCTTGTTTAGACATTAATGTATAAATATTACTGTAAATGCCCAAGACCCACCA
AAAGAGCTTAAGTGCAGTGTTAACAATAATTCAGTTTCTCAATAAACATCTTGAGTAGGGCTTTTATATTTTAGAAGAAGATTAAAGTCAGTGCTATAAA
AAGTATCTTCCACTTATTCATCCATAAAGAAAATCATGACAAATAAGCACCAGATGTGATTTTAGCCCACATTTATTAGAGAAATTAATTATTGACTCAT
GAAAGAAGAAAATTATGCAATTTCTATGATGATTCATTGTTTGGTGCTTTCAAGAACAAAGATGCCAGTTTTGATAAATGTAATATAAATCTCTGCTCAG
GACCCAGGAAATTCAAGAGATGCTTATCAACGAATCATACGCACTCCTGAATCTAAGAACTCATTTCCAAATGTCAGCCACCAATCTGCAGTTAGTTAGA
AAAGACCATTGCTTTATTCTGACCTGAAGTTAAATGAGTGACAGTGTGGGGGTGAAAACGTTTTGGCCCCGTTACCAATTTGGTGCACTATCTACTTCCC
TAAACAAGGCTTTGGGAGCATGGCTTCCTCCATAATTATTCCCAACCACATCACTGCTCTAATCAACAGGTGCACCACCACGCGAGACTCCCCACCCAAG
TCCTGTCTGCCTACAACTTGTAACCTGCCAAGCAAAGGCAAATGAAAAACAAGCGTATCTGTCCTCCTTTCATATCCCATTTTCCCCATTATCTATTTCT
AGTACTTTAAAAAGTCCCCACAAGGTGGCAGAATTGTAACACGTTGAGATTGATGAGCCTCTACTGAGACTGTGAATTTTTTTTTTTATTATTATTGTTG
TTTTAACACATTTGAGAGATTAGTGCGTCCAAAACAACACAGGTAAAGCATCACATCCATAGAGATGAGGACGCCTTCAAGTATACACTAGCTTAGAAAA
GGATGATTCATCTTGCAATGACCATTCTTTAAAAGTTCCTTAAAATTACCTCATTAGATCTTTTCTCTTACCCTTTTTTCTTAGCTTAGATTTCAGTGGC
AAGCAGAGTTGAAAACATCATCCTTAGTGACAAGATCATTTTATTTCTGAGCAAAGCACAGGGCAGTTTCTATTCCATCTCACTTGTTCCCCCTTTAAAA
TGCTAGAAGGAAAAAAGAAGCTTGAGCAGCTGGATGAGCAGCTCCACCCACTGTGGGACATGAGGCAGAAGGAAGAGAAGAGGAAGCAACACCGGGCAAA
GCAATAAACTGGTGCTGCCCTGAACACATCATGTTTTTTTTCTTTTTGAGACAGGTTCTTGCTCTACTGTCCAGGTTGGAGTGCAGTGATGCAATCATAG
CTCACTCTAACCTTGAACTCCTAGGCTCAAGTGATTCTCCTGCCTTGGCCTCCCGAGTAGCTGGGGCTTTCAGCATGCAACAACATGCCCAGCTAATTTT
TTATTTTTTTAATTTTTTTGTTGTTGTTGTTCTTTTGGAGAGACAGAGGGGGGCAGGGGTCCTCACTTTGTTGCCCAGGCTGGTCTCAAACTACTAGCCT
CAAGCGATCTTCCTGCCTCGGCTTTCCAAATGCTGGGATTAAAAACATGAGCCACCACGCCCATCCCTTACACCCATCAGACTTGGTTTCAGTTTACCCA
AGGAAAAGTGATGCAAGGAAGACACCCTTTAACCAAGCAAGGGGGAGGTCGAGATTTGTACAAAACACTACCAAATTAGAGGGTGGGGAATTTTTGTCCC
ATTTAAATCCTAAGGTACATATTTTTAAAAACCCTCTTACACCAGCACTTCTCAGTCCTTTTCCAACTGCCAGTTTAATAAAGGAAGGTGATAGAAGTTT
TATTAAAACAGTATCCATCCTGTTGCAAATCAATGATTGATAGTAAACATCACCTTGGATGTCCTTAAAAACAAAGGACTATACACCATAATGGCTTTAA
ACTTTGAGGTTACATGTTAGAGTGATCAGTTTGGTACAACTCTTTTCCATAACATTGGCTCATCTGAGAATACCGTTTTATTAAGCACTGCTTCTGCCTG
CTTCTTGAGGGCTGCCCGTTGCAGAAACGGAGGATCTAATCCAGGAGGTGTTCTTCTTCCTAAATTTCAAGTGGATGTAACCTGTAATGATTCTTAAAAG
AACTTTGACAAAGTCCCTGTCCTTTTCTGGTCAAAGGTTTTTTTCTAAAATGGCTTGACCAGTGCCTTGTCCATCTAGAAAATCTCATAGTATACAACGA
AACAACAACAAAATAAAAACAAACCAAAAAACTGCTGCTTAGCTCAGGACCAGTTTTGGATACACCTGTCCAGTCTACCAGCAATCCAAAAGTTCCCCAT
AACATACAGCTGCTACCGGGAGTGTACAACTGCCACCTTGAAAATTTTTTAAATTTTAATAGAGAAGTTATATTGACATTTACATATAGTAATTAGACGA
GTGACTGTAACCGCAATAATATGGACATAACCCACTGGTGGTTCTCTTTTAAGCTACATGTAATTGTTTCCTAATTCCTCAGCATCCATCCACCTTTCTT
AATCCCTCAATTTTCAGAGCTGAGGGTGTAAAGATGTTTCAGTGAAATTCTGCCCCCAGTGGACTCACAGCAGATAGGATTATCTTAGTGATTTCTGAGG
AAGACTGCAAGCTGCGTGTGTTTATCGAGACGGTCCTCTGTCCGGGAAATATCGTGAGAGGCTGATAAAAGATCCCAATTCTATTAATAGAAGTATTCAT
GACTGAGATCTTAAGCTACAGAGGCCTTTCCATTCGGGCTCTTTTTGCAGGCAGCGTAATAAGAAAGGTGCCACATGCTGCCTCTAAAAGAGGCCATTCA
GCTGTGCGAATGAATAGCATTTTCCTGTCCTACCCACGGGGTTTTGCATAGCTGTGTGAATTTCGGCCACAGTCTGCTCTTTATAACTGACCATCTCCTG
GGAAGCAAGAAGGGAAATACTTCCATGAAGACCAATTTTACGGCATTTCAAAACACTTTAAGCCTTTTACCTGCTGTGGCAGAGTGCTTCGTTTGACTAA
GATCAAGAGAAAAGAGAACAAGGCTTTTCCTCATCAAGTAAAAATTTCCTGTGTGCTGATGAGTCATCTCTGAGGTACACTCTTTGGGAAGAACACTGTG
CATCAAAAGCCTGCCTTGGGCTGCTTGAGAACCTCTGCTGAGTCAGCACTCACTGGGGCAGCGGCCCAGCCAGAGCTATTAAGTGCAGATCTTAAAAACA
GATATGTTGGTGAGAGTGTGCAGGTTATTTTCTCATGTACTGCATGTTCTAAGAGATGTCATAAGCAGCCTGTATATCGACCTATCTTGTGAAAATAGAG
AACAGGGAAAGGAATTGTGGCTTTGGTAATTTAAGGAGCCTTGATTATTTATGGAGCTGTGTGTTATGGTAGCCAAATGTGATCTACTCAGCCAGGACTG
CTGTATGCTTTGCAAGGCCCAGTGCAAAATGGAAAATGCAGGGCCCCTCACTGAAAAATTATTAAGAATTTCAAGATGGTGACAGCAGAGCATTAAACCA
TGTGACTGCACAGCCCCGCACCTAGCTCTCCCCCTCAGCACCCTAGGAAGCTGATCTTTGAACAGTGGCAGTTGAAATGGTGTATGGTGGGTTACATTTT
TAAAATGTGCTGGGTTGCCTAGCAACTGGCAAGGGCCTGAATGGGCTGACGTGCAGGTTTAGATACACCATCTTGAAAGTCTACATTCATGGAAACCTTC
TAGTGGACTGATAATTTTCAAGAAAAAGTAATATAGTGGGAGATGGAAATGGGGAGGGCAAGAAAAAACACATTTTGCTACTCTTATAACCCAAGTGGCT
AGCTTGTCATTTTCCCTGTTCGATCTTCTAAGAATAGAGCTCTTCATATGTGAAGGAAAAATGAAAGGGAAATTCCAGTTTTCTCAGAAATATACATAAA
TTTTTAGAGGATAATGAAACTATGAGTTAATCAATAAATATGTCTGAGCACATTCCTTTAGCCATTCCAGGGTGTGAYATGAGAAAACTGATTCACACGC
ACTGAGCACTCRATAATAAGTACTTACTATGCAGTAGACTACAGAGATGAATAATGTAGTTTTTATTCTTAAAGAATTACGCTAATATGTAAGAAACAAT
TAGACAGCATCATTACCTTTTTAAAGAACAGTCCATAATCTCCTGTTTTTCTCTCCTGGGTATTTTACAGGGTCCTTGTGCTGCAGAATCAGAACCAGCT
CTTTTGATAGGGAGCAAGCAGTTCGGGCTTTCAAGAAACAGTCACATTGCAATTGCATTTGATGACACCAAAGTTAAAAACCGGTATGTATCATCCTGAG
ACACTGGGAAAGAACCGATAAATGAAGAACTGAGTATTTGTGTTTAATCAAGTTGAATCTACTACACTTATTAATTAATGAAGTTAGCTTTTCTTTTATT
CACTGAGTACAATAGAGAATAGAATTTTATTTGTCTGAGCCTGAGGAGCCCAATTTAGGAAATCAGTAGCCTGATAAAGTCCTCATCTCTGAGAAGGTTT
TACTCTCCTTTATGAAAATGCAGCCACGATCTGATACCGCTCTATTTTAGCATGAGAATGCTGTTATTTTTCTGTTTGACTTTGCATGCTTTTGTTTCAC
AGTCTCACAATTGAGTTGGAAGTAAGAACCGAAGCTGAATCCGGCTTGCTTTTTTACATGGCTCGCATCAATCATGCTGATTTTGCAACAGTTCAGCTGA
GAAATGGATTGCCCTACTTCAGCTATGACTTGGGGAGTGGGGACACCCACACCATGATCCCCACCAAAATCAATGATGGCCAGTGGCACAAGGTAATAGT
CCCCTGGATATTGGCAGTACCCTAAGGGAATTACTGAGTGGCAGCCATCAGCATTCTCCTGGTGCCAGTATATTTTGCCAGGGCAGACACTGACTCTGGC
AGAAGCTAAAAATAAAATAAGTGCCATATACAACTACCACAATCTTGGAAAATGTGCTCAGACCTGTGTAGGTTTGCATTTGACCACTGGCATGCCTCAT
CATGGTTCCATCACTGCTATATGGCTGTGGTTTTCAAACATCTACCCATAAACTGAGGCCAGGTGGCTGAAGACATTTCCACTGCTCTAAGTGAGAAACG
TAGAACAGAGTGTGTTCACCMTCAAGCTCGATGTATTCAATTTTAAGGAATAATATTTATTCTGAGATTATATTATAGCATTTTTATGGTGGCTAAAAGG
CCTTTCTATTATGAAATAGTATTTGCCAAAAGCAAAAGTTGGCAACACTAAAATGGGTCCCAAGACTCCCCACCTAACCACACAGTGGTCTGTGAAAACC
AGGAATCCAGGAATCTCTGGTTGATCGTGTTTAAAGGGCTCTAAGGTATCATTTCTACTGACAGTTATTTGGAACAACTTTAAAAACGTTGGCCTTACAC
CCAGAAACTGGTACTATTATGGGCACAGAAGGCTCATTTGCCAGCTTACTGTCCTCTTTGGCATGACTGCAAATAGATAATATACTGCCTGATTAAAACA
AAATCTCAACATTTGTCTCTGCACCTGCGATAGCCTATTAAAGCAAAGCTTCCCTAGGTAGACCAATAAAATTTTTAATTTTCAGAGTACGATATTATTA
GATGTTAGATTTGGTTAATGTTAACATACTTTGACTTGTCATATTCTAGAAAGCCAAAGAACCTTAAAAAACGCGAAGCCAACCAATTTGTTATCATGGA
AATAAGAAAAGGAATCTTCATTTTTGCTGGGAGCTTATGACTAGCAAATACAGATCCAAATGAAGGAGCTCTCATTAAGAGTTCTTCCATCTCTAGCTAA
TAGAATAATAAATATGACATTTGAGAAAAAGACATATTGTTGAACCACAATGAGGCTGGGATTAAGAAAGGGAACTTAAATACTATAATTAGTCAAATTA
ATAACGGATTTTATTTTTGATGGTTTTTAAAAATTACTTCCCAAACCAGAATAGATATGTGTAAAATGAAGTGTGAAATTACTCTAATCCTGACCCAGAC
TCATTTTTAAACCATCATGGTACTTTAGCATTTCACAGGCTTTCATGCTCCTTTACCTAAATTCAGACTCAAGGTTTTTATACTCCAGCCAGTCTTTACA
CCCCTTATTTCATTCTGTCTCAGAAGATAATTCACTCCACCGCCCTAAATTTCAGCCTCAGTCACTTCTCTATCTTACTCCCCCACTTTGTACTCATCAG
GTTCTGCAGAAAGTAGTGCAGCTTATTTGTGCCACTCTTTCTTTAATTCTGCACAAGAAGGGCCTGTTAGGCAAAGGGATGTAGCGTATCTGAAATTGTG
TTGGGAGCCCAGGCTCTTTSCTCAATCAAACTAATGCACTTTTAAAACTGTGCATGAATTTTGCTACCCACTTAATTTATGAAAGTGCTATTAGTCTGCA
GGGTTCCTTACAACATTCCTCCCTCTCCACACATATCCACATTTGGCAATCTACCGAGGAGACTTCGACCTAAAACTGACCCAGGAAAATTTGGTATTCT
TTTGGTGATAGTAGTCATGGAAAAGACAGAATTTGAGATATTCTGTAAAATGGGTTTAACTTTCCCATATATAATGGGCTTAGCGCATACTAAGCACTGT
GTACATTGTTTCAATTTTTCTTGGTAACATCGTTAGAGTCCTTATGTCTTATACTCTGCATATGTGAAATTTGTTCAGGATTGGCATTAATGACTCCTTT
CTTTTTTGTAGATTAAGATAATGAGAAGTAAGCAAGAAGGAATTCTTTATGTAGATGGGGCTTCCAACAGAACCATCAGTCCCAAAAAAGCCGACATCCT
GGATGTCGTGGGAATGCTGTATGTTGGTGGGTTACCCATCAACTACACTACCCGAAGAATTGGTCCAGTAAATATCTGATTTCTTCTTTATTACTTAAAT
ATATGGCTGATTCATTTATTGATATATTTTGACTTATTAGGTCACATGGGCCCATGAAAACTGATAGGTGAATAGGAAGTCATCTTTTCTGATAAGGGAC
AGAAGGGTTTGTTGTTTATTTGTTTGTTTGTTTGTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCA
AGCTCTCCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGACTACAGGTGCCTACCACCACGCCTGGCTAATTTTTTGTACTTT
TAATAGAGACGGGGTGTACTTTTAATAGAGACGGGGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCATGATCCGCCTGCCTCGGCCT
CCCAAAGTGCTGGGATTACAGGCCTGAGCCACCTCGCCCAGCTGACAGAAGGTTTTTTAGATAGATTAGATTATGAGAGACAATGCCATGGAACACTGAG
TGGGGAACCTGGAGCCAAACTGTCTTGGTTTGAATACCTATTTAACTATTGACTAGCTGTGTGTTTTGGAGCAAGTTAATCTCTTTTAACAAAGATTTCT
CTTTTGCAAAACAGGGTAATGATAATACTAAACAAAAAGGATTGCATAAAGATTAAATGAGGTAATTTATTTAAAGTGATTGGGTTGGGCGTGGTGGCTC
ACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGACCAGGAGTTCAAGATGAGCCTGGCCATCATAGCAAAACCCTGTCTCTA
CAAAAATACAAAAAGTTAGCCAGGTGTGGTGGTGTGTGTCTGTAGTCCCAGCTACTTTGGAGGCTGAGGCAAGAGAATCACTTGAACCCGAGGGTCAGAG
GTTGCAGTGAGCTGTAATAGCACCACTGCATTCCAGCCTGGGCAACAGAGCGAGACCCTGTCTCAAAAAAATAAATAAATAAATAAATAAAAATAAAAAT
AAAGTGATTGGAAGAGTAGCAGGCATATAAAAAGCACTGAAAGATGAAAATGATGGTATGTATTCATGGTGTTTCAGGCATAGAGATTTAGCAAATATTG
AGAGGTGCAGTAGTTACAGTACAGTTATCCAATTTTGGATTCAGAATTTAAAGCCCTCACAGTTTTGTAAATCAATATTCACAAAATAATTTTTTATTAG
ACCGTGTATCCTAGTTTGCTTTGGAAAGTGTTACTCTGAGAGAAGCACGGGGGATTGATTGGTGCTTTTAGAGAACACACTAGATACAAATGTGATACAT
TTCTATACTCAAATTAGAACACATGATAATGTAGATTTGTTCATTCATCAAAGACAATCACCCATTATAGTTGTAATTCTCAGTATTTGGCTTCTCTTGT
GGATGATCAGTATTACTTTTCTTTCATAGGTATTGGATATGCTTTTTAGGTCTATCAAAAACTAAAGTCTCTGAAGTGACACTGGTACAAGCAATTCACT
TGAATTTCTAAAAACAGATAAAATATAATGGACCAGAGTGTGATTGAGTTACTTCTAAATTCCTTGAACCCCCAATGTTTCATGCAAACTTTCAAGTTTT
ATGCATATTTGCATTTTCTTAGGGGAGGGTCTGCTGCTTTCATTAGATATTCAAAAGGAAGAAGCACTGAACCAAACCTAATTACCTTTTCAAATAGAAA
TTGAACATAGGCTATGACAAAATGGGTATATAGTAAGGTTAATAAACTATTAATAGAAACATAAAATCAGGAACGTAAGAGACCAATTAAAACTTATGAT
ACCAACATGGGGCCCATAGCTCTGTCAAACCAATGGAGACATAGTGTGCAGTATTTAGACTATGAGAACAGTCATATTCCAGGATAGACACATCCAAGTT
GAGAAGCACAACACAGGATTTTCTGCATCCATGCCAGGAGGCCTGGTGGTAACAGAGAACCCAGGCAGCTTTGGGGGATATCCCATCCTAAGACAACTGG
ATAACTACACACATAGAGCACCCTGCAAATGACTGTATTCTACATAAAGGCAAAGTTCTGCTAAAACCTGACATTTGTTTCTTCTGATCTGAATGTTTAG
GTGACCTATAGCATTGATGGCTGCGTCAGGAATCTCCACATGGCAGAGGCCCCTGCCGATCTGGAACAACCCACCTCCAGCTTCCATGTTGGGACATGTT
TTGCAAATGCTCAGAGGGGAACATATTTTGACGGAACCGGTTTTGCCAAAGCAGGTAAGGCTCTTTCATTTCCTTCCTGTTGATTATTAACTAGATACAA
ATACTAACTTCTTGCTAGTACCAAATAATAAAAGTTCCTAGAGTCCTAAACTAGTATCCTTTATTTAAGCCAAAAAGAAACTTATGGAAGTAATTTCAAA
AATGCCTCTTAAAAATTCATGTATCTGATCCTGATAAGAATTAATAGAAGAAATAAAGTAAAAGGTCTATTTAGAGAATTTATTCCATCTCCTTCACTGG
AGGTTAAGAACAGCAAAATAAATAATTTTGCAAGAACACTCATATGTTTATACTATGTTGTTTTTCTACCTTCCAGTTTCTGGAGATGAGATATGATTTT
TTTCTTCTTTTCAATTCCCTGCAAGGCTGTATTTCATAATCTCCTCCCCATCAACACACACCCATACACACAATGCACACCCATGTCTGTTTCTTGTTGA
TAGTGACAATGACTGGCATCTTTCCTGGCTTTCTCCACTCCGTTTCTAATGAACATTTCCAGTATGGTTTTATATCACTGGTCATGAAGGTACAGTTAGG
AAAAAGAAATAGGAAATAACCTCTACATAATAATTTTTTAATCCTTTAATTTTWTTGTGGGTACACAGTGGGTGTATATATTTATGGGTGACCTGAGATA
TTTTGATGTARGCATGCAATGCATAATAATCATATCAGGGTAAATGGGGTATCCATCACCTCAAACATGTATCCTTTATGTTTCAAACAATCTGATTATA
CTCTTTTAGTTATTTTTAAATGTACAATTATTTTTTTTTTTTTACTGTAGTTACCCTTGTGCTAGCRAATACTAAATCTTATTCAAACTATTTTTGTATC
ATTAACCATCCCTACTCCTCCCTGCCACTAACCTTCCCAACCTCTGGTAACTATCCTTCTACTTTCTATCTATCTCCATGAGTTGAATTGCTTTAATTTT
TAGCTCCCACAGATAAGTGAGAACATGTGATGTTTGCCTTTGTGTGCCTGGCTTATTTCACTTAACATAATGACCTCAAGAACCACCCATGTTGTTGCAG
ATGATAGGATCTCATTCTTTTTTATGGCTTATTCATATCCAGTATGTATATGTACCACACTTTCTTTATCCGTTCATCTGCTGATGGACACTTAGGTGGC
TTCCAAATCTATTGTAACTAGTGCTGCAATAAAYGTGGGAGTGCAGATATCTCTTCAATATTCTTTTGGGTATATATCTAAGAGTGGAATTGATGGATCA
TATGGTAGCTCTATTTTTGGTGTTTTGAGGAACCTCCAAACTGTTCTGCATAGCAGTTGCACTAGTTTACGTTCCCACCAACAGTGTACAAGGGTTCTCT
TTTCTCCACATCCTCGTCAGCATTTGTTATTGCCTGTCTTTTGGATAAAAGCCATTTTAACTTGGGTGAGATGATAGCTCATTGTAGTTTTGATTTGCAT
TTCTCTGATGATCAGTGATGTTGAGCCCCTTTTGATATACCTGTTTTTCATCTGAATATCTTCTTTTGAGAAATGTCTATCCAAATCTTGTACCCATTTT
TAAATAGKATTATTAGATTTTTTTCCTATAGAATTGTTTGAATTCCTTTTATATTCTGGTTATTAATCCCTTCTCAGATGGGTAGTTTGCAAATATTTTA
TCCCATTCTGTGGGTTGTCACTTCACTTTGTTGATTGTTTACTTTGCTGTGCAGAAGCTTTTTAACTTGATGTGATCCCATTTGTCTATTTTTACTTTGG
TTGCCTGTGCTTGTGGGTATTACTCAGGAAGTCTTTGCCCATTTCAATGTCCTGGAGAATTTCCCCAATGTTTTATTGTAATAGTTTCATAGTTGGATCT
CTTAGATTCAAGTCTCTAATCCACTTTGATTTGATTTTTGTATATGGCGAGAGATAGGGATCTAGTTTCATTCTTCCGCATATGAATATCCAGTTTTCCC
TGCACCATTTATTGAAGAGACTGTCCTTTCCCTAATGTATGTTCTTAGAACCTTTATGGAAAATGAGTTCACTGTAGATGTATGGATTTATTTCTGGCTT
CTCTATCCTGTTCCACTGGTCTATGTGCCTATTTTTATGCCAGTACTATGCCGTTTGGCTTACTATAGTTCTGTGGTATAATTTGAAGTCCGGTAATGTA
ATTCTTCCAATTTTGTTCCTTTTGCATAGGATAGCTGTGGCTATTCTGGGTTTCATATGAATTTTAGGAATTTTTTCTATTTCTGTGAAGAATCTCATTG
GTATTTTAATAGGGATTATATTAAATCTGCAGATTGCTCTGGGTAGTATGGACATTTTAACAATATTGATTCTTCCAATCCATTAACATGGAATATCTTA
TTTTTGTGCCCTCTTGAATTTCTTGCATCATTGTTTTATAGTTTTTATTGTACTTTCCTCTAAGATCTGGAACACGACAAGGATGCCCACTCTCACCACT
GTTATTCAACATAGTATTGGAAGTCCTAGCTAGAGCAGTCAGACAAGAGAAAAAAGTAAACGGCATCCAAGGAAGAAGTCAAATTATCCTTGTTTGCAAA
TGATATGATTTTGTATTTGGAAAAGCCTAAAGACCCCACCAAAAAACCATTAGAACTGATAAATTCAGTAAAGCTGCAGGATACAAAGTCAACATACAAA
AATCAGTAACATTTCTATATGCCAACAGCAAACAATCAGAAAAAGAAATCAAGAAAGTAATTCCATTTACAGTAGCTACAAATAAAATAAAATACTAAGG
AATTAACCAAATAAGTGAAAGGTCTCTACAATGAAAACTGCATAATAATTTTTAAAATCTGCAATTAATGTACTTTAAGATAGAATATTCAGTCCCGTGG
TATCATAGAAATACGTGTATGTTCATTAGAAATAAACTAATAAGCACATAATATGTGGAGATTATGATGGGAAACAGAAATAAGTAACATAGTTCTTTCT
ATCAAGAATRTATTATCAACTGGTAAGAAATTGAAAGAAGGCAAGTAAAAATGATTAAAGACAAAAAAAGCACAGTTCTGTAGATACTTAGAAAAAAAGA
TTAATTTTGTTTGGGGGATATCAGGAAACGTTTCATGGAGGAATCAGCATTTGAGCAARGCTTCAGGTGATTTTAACACTCCCATACAAAGTAGTGGGTG
ATAGAAGAGTAGGACCCTCCACCAAAATATAGGTAGGAAACCCCACCTACAGGGAAGCAGAAAACAGAAAAACACAGGATATGTTAAATATTGAAACGTT
ACAGGTTATGCTGAACCCCGAATTCCATGTGCTATGAAAGTCTAAAAGCTTCCCCCAAGATTTCTGCAAATTCACAGATGGCTGGCATTCTCTTAGTCAA
ATTTTATGACAAGTTTCAGCTTCAGCTTTTGCACTTAATGGATTGACTTGCCATCCTGCCTGGGCTCTTATAATTCTGGATCAAACAAAACCAGAAAATT
ACTCACTTCCTCTGTTTCTAATGTCCCTTGCCATCCCCTGAACACACAGTGTAATACAATTTACATAAGACTTGGGTGGTCAGAAGAGATCACTTCACTG
GAAAACATACAATTCATCTTAACCTTTGACATCTTTGTTCTTAAAAGTTTTCCAGCGACCCAATCACTGGGGCTTTTTTTTGGCCTCTTCATTCCTTCTG
TCCTCAGCCGAACTTCCTCATGTCATTCCTCTCTTCTCCTTACTTCTCCCTTTCTGTTTTATTTTGCAGAGCAATTCAGCTTCTTCTACCCTTTACTTTA
TTTTTTCGTTTATTTCCAGAAGGGGTGTCACTATGTTGCCCAGGCGCAACTGGCTAGCTTTTATTCATAAAATCTGCTATAAACCCACCTTTGCCAATCC
AAACCCATCAAGGTTCTCAGTAGAACAAAAGTCTTTCATGTAACAGCTACCATCCTTCATTGCAGACAGCCGTGGCTACACATAGCATTTATTTCTTGCC
TAATAAATAGAAGACTTGGAGAAAATTCCCCTGAGTATTTCTCTGATACTCAGTTCAGTTGGTGTGGTCTAGACAGATCTTAACATATCACTTTGTTCCT
AAGTGATGTATCTATCTTAAATACTTGCTCAAAGATTAAAAAAAAAAATCAAAGAGTCAAATATGGAAAATCATAGAGGAAAGAATTAATTAACTGGATG
AACAAGATAAGTCTATTTATGTCCCAGAAGCTTCCCATCAACATTGTACTTACAGTTTCTCTCTTTATTAATAAAATGTGTGGCAACTTTTGAAMCCTTT
CAGATGATTGTGGCACCATTTAGTGTGCCCCACTAAAACTTTACTGAAAAATAACTGAAATGTTTTTCTTTACCCAACAGAGAGACTTCTAAGATAATAA
TACCTGACAGTGAGATTCTTTAAGTCAATCTCAGTGTGTATCCATTTATTCAAATAATACATAGTAAACCCTCATGTTGTGCCAGATACTTTGGTAAGCA
CAGGGATAAAATGGTGAAAAATATAGACAATGCCCCTGATCTCATAGCACATACATTCTAAAAGGGAAGGTAGCCCAGAAAATAAGCAATAACTAACTAT
GGAGTGTGTTACATGATGCAGTGGTGGAAGATAGGCCAGGCAGGATCTGAAACTTATAGCCCTCATTAGAATTAGCTAGCATTTGAATTGAAATATAATA
AAAAGTCATGCATTGTACACGTTTGAATTAACAATCCCCATCCTCTAATCCAAAATATTTTAAAATCTTCATTTTACAGTTGGTGGATTCAAAGTGGGAT
TGGACCTTCTTGTAGAATTTGAATTCCGCACAACTACAACGACTGGAGTTCTTCTGGGGATCAGTAGTCAAAAAATGGATGGAATGGGTATTGAAATGAT
TGATGAAAAGGTGAGTGTCAGCAATGCAAACATTTCTGATTTCTTCATGATATTGTTGATGTGTAGATATCATCCATGTGTGGGAAACTCGAATATTTTG
AAGCCCGGCTGTATTCTTTGTTGGGAGAAAGCTAAATTGTATGTTTTCATCCTTCTGGATTACTTCAATTTGTGTATGTTTTCAGCATGTTGTAGGCCAG
TATAAATTTTAAATGCATTAATTGTACAGCAAGCCAATCGTGTTGACTAATAATGAACCAAATAGTTTGAGATCTCGAGTTCTTACTGTGTTGCTATAAA
CACACTCTTATTCTCCTCTTAAGGAACACACAGTCTATGAGACTATGGACTCCAGTGGGAGAAAAGGCAGAGAGGTGGATCATCTAAAATTAGTCTGCCT
CTTTTAACAGGCTAGGCATCTCTTAGAAGCCAAGGTAGCCAACTGACGCATCAGTTTCTCAATTTGTTTAAAAAAGCATCCAGCTACCATTTCAAAAAAC
AGCAAATTTATAAAAGTAGTGTGTCAGTTTGATAATAATTGATAATCAAATTCTAAACACCTCTTTCAGCCCTGCAKTAAGACAACTTTGCACTAYAGGC
AGCAGGTAAACAGAGAAGGGAAAACAAGAAATTTCACAAGTTTTCTATTTGGTTATTAAATAGGAATCGTACTTCAACTCAGTTCACGTTTCCACCCTTA
GTGTTGCCTCCCAAGAAGAAAAATCACACAGTGACCTAAAATAGTTTTTTCTTGCTTTCTTCCTCTTTCTGCTCAATTTTCAAACTGTCCTCCAACAAAG
GTAATATAGGAAAAAAGATCCACCAGCTTAGAGGTAAAAAGGAGTGAACAAATAAGTAACACTCAATAGTTTTACCAAATTTTCAAACATACTTTTACTA
CATCTTTTTCAAGTAACATGCTCTTAAGGGCAGTTACCATCGATATGTCACTATCATGTGCGTTTCTCACCAAGCTCCTTTTACATGCAAAAGCCTGTTA
TGCAAACTCCACCCAATATAGTAAACATTTCATTAATAATTACATCAATAGAGTTTACAAACTTTTCACCTATTTACTTGCATTTTTAATCTTTCTTCTT
AAGACTTCATTTCTTTTCTTTTACCTTGTCGAATGTCTTGCCAAACTGACTAATGTTTTTAGTGTTTCAATATGTTTCGTTTCTTCACCAGCTTCAAAAG
AATTCTGTCATCTCAAATTTCAGGGGCTTTTCCACATTACTAAAAACAGATTTTTCTCATTTAGACCAGAACTTCTAGTCTAAGTTCTTCATTGTTAGGA
ATTTAACTGGCCTTCTGGCTCAGGTCTTTGGCACCTGTGACATGAAACGGGCTCCAAAATGTAATTTATGTAACTCTCAATCTTGTATATAAAATGAAAT
CCATGAAGGAAAAAAATATAATTAAAACATCAAAAGTTTAAAATTTAAAAAATCCTTTACTTTGAATTTGTAAACCAAATTAATGAGTCACTTTAAACAA
TATCTTTTAAGAAAATTTTATAAGGTTCAGTCAGAACTCTCACATTCTAAAAAGACGTGAGGTAGAATTTTTCCCTGTGTACACTAGGTCCTTTTCTTGT
CACCTGGCCTCAAATTTTTCTGAAAGCAGAATTATTACCAGCTTTACGTATCTTGCCTATTAACTCCCAACAATGCCCCAAAGCAAAGAGCATAATTTGT
GGCTCCTGGTGATTAGATTTATACTTTAATTTGTCAAGTTTWAAAATTTTTTTCAATATGCCCAGTTACATCCATTTCAAATGATTCTGGCTGATGTCTT
TCCTAGAGACCTGATCATTTGTATGTGTGAACCATCATGATACTTCTTTAATGAAACCATCTGTGACTGTTCTATTTCCTACTTTCCAGTTGATGTTTCA
TGTGGACAATGGTGCRGGCAGATTCACTGCTGTCTATGATGCTGGGGTTCCAGGGCATTTGTGTGATGGACAATGGCATAAAGTCRCTGCCAACAAGATC
AAACACCGCATTGAGCTCACAGTYGATGGGAACCAGGTGGAAGCCCAAAGCCCAAACCCAGCATCTACATCAGCTGACACAAATGACCCTGTGTTTGTTG
GAGGCTTCCCAGGTGAGTGTTGGCTACCCCAGCAACMATTTCTTTGCTCTCTTATRTTACTGGTTTTGAAAACATTTATATTTACRTGTGTCTAAGAATG
TGTGCTTATGTGTACTTGCTTCCTAGCTTTAGAATCTGCTTAGAATCTGCACCTTACCTAAAATTTCCAGTGTGTAAAATGAACATATTACTTATATAAA
CCACATGGGACTGAACTTTTCATGAGAGCCCCCAAAGTTTCCTTCGTGGAGAGATTGAAGCTGGAGGAAATGAATTTGGCTTATAAAAGATATGAGGCAT
TTAACAGCAATTGGAGCCAAACTTGGTGTTCTTTCTGATTTTTTTAAAATTAATATACCAGAGGAATCHTAAAATGTTATGGAACTTATTTCCTCAAGTT
CTGGAAATCATTGGGTTAAACATAGCTAATTTCCCCCTTATGTTATTATAGAGTTTATATTTATATTACAAAGAAACGCAAGCAATAAATCCTCATTCAG
AATCCTTCTCTAGCACATTAAATATAGCATGTGAACTGTAGAGATTTACCTAAAGTGCCCATAAACAAGAGTGGCCAACTTGATGAGAAGTAAGCCAAGT
GCCYCTTAATAAGTACTGTAATAACATAGCCTCCTGGAATGGTCTTTCATCATTTTGTCAAGAGGAACTTTTATCCCTGTTTATATAAAGCTCCTTTGCT
AAATGAAACAAGCAAAATGTATATTCAGCAATTGTTGACAGAGCAATGTTGATAGAAATGCAATGGGGGCCCAACGACAGCTCCTCTTTCCAAAGTGGCT
TCTGTGTTTTAAAAAGATCTTTTGCTTCAATCAGGATAAATTCCAAGATATTATGAAGGAGGTAATGTACTTCTCCATTCAGTCTATGATAATGGGATCC
TAATTAACACCTAGTAGGCCTACTGAAACAAGCACCTCTATAATAAGAGGAAGATTCTACATGAATATCCAACCTACTTAACCTTTAGGGATTTATTTTT
ACAATGTAAGAAAGTGATAAAGTCACCTTCAAAAAGTTCTAAGTAAGTCAGTACTTAAAAGTATTTGATCAATTGCTTTGTTTCATGAAGTAACATTTTA
CAATTTTAAGTCACAACTATAAATTTGTTCATCCCAAACCAAGTTATTTCATGTCTTAAGATGTATAATTCTAGATGTTTTCATATGTTATAACTATTAA
AAAGTTGAGGCTGGACATGGTGGCTCATGCCTGTWATCCCAACACTTTGGAATTACACTTTGGGCATAGATGGGGAGATCTCTTGAGCCCAGGAGTTGGA
GAGCAGCCTGGGCAACACGGCGAAGGGAGGATCGCTTGAGCCCAGGAGGTTGAGGCTGCAGTAAGCCTTGATTGCGCCATTGCACTCCAGCCTGGGCAAC
AGAGCAAGAACCTGTCTCAAAAAATTTTAAGTTGATCTTTCTTTCTTTCTCTACAATTCTATTAGTAAGGCTAAAAACAAAACCACTAACTTTGCATAAA
ACAGCATTCCAATTTAATCTCAAGCTAACAGTTGACTTTGAAACATGCTCTTAATATTTGGTGCAGGACATTTCAAAGCTGAGCCCTCTTGCATTGCCTT
TTTCAGATGACCTCAAGCAGTTTGGCCTAACAACCAGTATTCCGTTCYGAGGTTGCATCAGATCCCTGAAGCTCACCAAAGGCACAGGCAAGCCACTGGA
GGTTAATTTTGCCAAGGCCCTGGAACTGAGGGGCGTTCAACCTGTATCATGCCCAGCCAACTAATAAAAATAAGTGTAACCCCAGGAAGAGTCTGTCAAA
ACAAGTATATCAAGTAAAACMAACAAATATATTTTACCTATATATGTTAATTAAACTAATTTGTGCATGTACATAGAATTCYTTCTGTATTCAGATGGTG
CTAATTCAGACTCCAGACTGAATTTTAATTCAAGTTCTTTCTCAAGTCTATAAATAATATTAAACTGATTATTTCATTCTAAATAATTGCCTGTTTTGTG
TGATTTTAAGGATAAAAGGTAACTGGCCATAAATTGTTGAGTTTGCAACATGCCCTCCAGTCATCTCAAGGAAAGAGTTCAGATGTAATTTATGGAGGCA
ATTTTTTTTAACTTATTCCTATCAATACTTCTTCTTTCTTTTATCATCCTTTACCATGTATGACAGCTTTGGCCTTCTGTCCAAGCCACTGACAGCAAGT
GAATTTGGCATGTGTGATTGGGAGGAAATCAGTTCCCTTACTCTATTTATGAAAGAATTATTAGCAAATCATTGTCCTGACCCAAGTTCATTATTAGAGA
GTTTAACTAGCCGTATGAGTGAATAGCTTTTTATGCTGAAGGTAGAGGGTATAGACCAGATTCAGGCCAGAAAGCTTAATTACTTGATTTTCTTATTTGA
TAATGATTTATGGGCTTTGGGGAGATGCCAAAACCAAGCTTATGAATGACAACCAAGCACACATTTGATACTACAGTACTAAGAAAGATTTGGGGCTCTC
TAAGCCTACAGTGAATATCACAATTTACACCTAGGTGGAGAGGAATAATGCTGAAATGCATTTGTACTTATCAGGAAACAATAAACCAGAAACTTAAAAG
GCATACTTCATTGAGTCTTTTGGAGCTGTAATTTGACCTAACAAATTCATTTTCTATAAACGTTCTGTGTTTTGTTCTCCTTTAACCCATGATTTCAGTC
ATCTTCAAAGAGCTCTGTGAGAAGACTGGCCTTGATTTTATTCACCAGCTTAAAAAGGAAACGTTTCATTTGCCATCTTTAGTAGACAATGGTTGCAGTC
TAATAATTCAGAACATGTAAAAGAACAGGAAACTCCTTTCTCCTATGGAAATTTTAGCAACAAAGAATAATCCTCTCTGACAATGTTGTTATCCACTAGG
GGAAGGAAGGTGCTGTTTCCAATTGAGGTGATGGCTGACATACTCACTATTTCACCACCGTCCTGTTGCTTAATACAATTTGTACACACAACTTTATTCT
ACAGAAGCAATTCTCAAGCTTAGCTCAGTGTTTTTAAAAAACTGCCTATGCTTTAGAAAAGTGCCTAGGGAGTTTTTAAAAATCTAGTACCTGGTCCAGT
GATTCTGATTTTGTCTAGGACATAGCCAGAGCATAATGATTTTTTTTTTTTTTGAGACAGGGTCTCATGTTGTCACCCAGGCAGGAGTGCAATGGCACCA
TCTTGGCTCACTGCAGCCTCAACCTCCCCAGTTCAAGTGATCCTCCTGCCTCACTCCCCAAGTAGCTGGGACTACAGGTGGGCACCACCACACCCAGCTA
ATTTTTATATTTTTAGTAGAGATGGGTTTCACCATGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAAGAAATCTGCCTGCCTCAGCCTCCCAAAGTGC
TAGGATTACTGGCATGAACCACTGTGCCCAGTCAAGCATGAGGATTCTTAAAAACATTCCCAGGCAATTCTAATGTGTTGTCAAGGATGAACCTAAGAAA
AATAAGCAATAGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCAAGCCATAAGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTT
ATACAAAAATTAATTCAAGATGGATTAAAGACTTAAACGTTAGACCTAAAACCATACAAACCCTAGAAGAAAACCTAGGCATTACCATTCAGGACATAGG
CATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCA
AAAGAAACTACCAGCAGAGCGAACAGGCAACCTACAGAATGGGAGAAAATTTTCGCAACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATG
AACTCAAACAAATTTACAAGAAAAAAACAACCCCATCAAAAAGTGGGCAAAGGATATGAACAGACACTTCTCAGAAGGAGACATTTATGCAGCCAAAAGA
CACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAA
AGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGT
GTGGCCATTCCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGACTATAAATCATGCTGCTATAAA
GACACATGCACATGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGCAAATGT
GGCACATATACACCATGGAATAGTATGCATAAAAAATGAAGAGTTCATGTCCTTTGTAGGGACATGGATGAAACTGGAAATCATCATTCTCAGTAAACTA
TCGCAAGGACAAAAAACCAAACAACGCATGTTCTCACTCATAGATGGGAATTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACTCTGGG
GACTGTTTTGGGGTGGGGGGAGGGGGGAGGGATAGCATTAGGAGATAGATATACCTAATGTTAAATGATGAGTTAATGGGTGCAGCACACCAGCATGGCA
CATGTATACATATGTAACTAACCGGCACATTGTGCACATGTACCCTTAAACTTAAAGTATAATAATAATAAAAAAAAGAAAAAAAAAGGATGAGAAGCAC
TATTCTAAAAAGAAACATTATCCTCCATGCCAACAAAGAGTTTTATAGTCATTTGAGAATTCTACTATTAGCTTTGTCTTGGCAATTTCCACACCCATTA
AAAATAATAATATTATAGGCCAGGTGCAGTAGTTCACACCTGTAATCCCAGCACTTTGGTCGCTCAGGCAGGAGGATCAGTGGAACCCAGGAGTTTGAGA
CCAGCCTGGGCAACATAGGGAGACCCTGTCTCTACCAAAAATTTAAAAATTAGCCAGGCATAGTGGCATGCACCTATAGTCCTAGCTACTCCAGGAGGTT
GATGCAGGAAGATTGCTTGAGCCTGGGAGGTCAAAGCTCCAGTGAGCTGATGATTATACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACCCTGTCTC
AAATGAAAGAAATATCTTTTTATATCAAATATTGAATCTAGTGAATTTAATATATAAAACATTGAATCTAGTGAATATCTTTTAACCAAACTTTAAGAAA
TAAAACTTTTTGAAAACCAATGTGTTTTAAAAGTGGAAACATACATCTGCACTAAACGCTGACATGACTTTTTGGGCTTAATCTGGACACTGAGTGGGAT
AAACAGGAATAAAGATGTTGGGTTCCTTAGATTAAAAGCTAAAGCCTTTCTTTCTTGAGTCCTGCACAGAAAGATATGTAACAAAACGGAAAGCAAAGGC
AGTTAAATTGGCACTCCTATCAGAATAAAGTCCTGCCTCAGTCAATTTGTAGGTAGATGCCTTAGAATGATAGAATGATAGAACTGGAAGTGAATTGAGA
TCAGCGAATACAGTGATTCTCAAGTCTAGCTAGATGTTTAAAGTGCTTTGGGTGCTTAAAAAATCTACATTTGGGCTGGGCACAGCAGCTCACGCCTGTA
ATCCCAACACTCTGGGAGGCCAAGGCAGGAGGATCACTTAAGCCCAGGAGTTTGAGACCAGCCTGAGCCACACAGTGAGACCTTAGCTCTAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTAGCCTGGTGTGTTGGTGGTGCATGCCTGTGTGGTCCCGACTATTTGGGAAGCTGAGGTGGGAGGT
TCACTTGAGCAGGGTAGGTTAAGGCTGCAGTGAGCCAGTGATCGTGACACTATGCTACAGCCTGGGCAACAAAGCAATATCCTGTCTCAAAAAAGAAAAA
AAAAATTGACATCTGGGTGTCACCCCAGCCCAATTAAACTATAATCTCTGGGTAGGGCCCAGGCATTGGCATTTTTTAAAAATCCCCACTTGATTCAAAT
GTGAAACCAAGACTGAAAACCCCTGGGCTCCTGTCACCTCCACATTTTATGGGGAGGAACTAGAAGGAACTCAAGGATATTTTGATAACTGTGCTCAAAG
TCCCACCTTAGTAAAGTTTCCCAATGTAGTCCAGACAGTTGCATCTGGATCCAAGCAGAATTCACTGAATTAGGTTTGGACAAAACTTGTCCCATGCAAA
ATTCATACTCCAGAGTGACCCATGAATTTGGATAACCAAAAATTGTCCACATTTTAAGGTCAGAAATAAGGACATTTTGGTTGGGCACGGTGGCTCACGC
CTGTAATCCCAGCACTTTGGGAGGCTGAAGCAGGTGGACCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAA
CAATACAAAAATTAACCAGGTGTGGTGGCAGGCACCTGTAATCTCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAAGAGGCGGAGGTTG
CAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGACAATCTGTCTCAAAAATAAATAAATAAATAATAAATAAGGACGTTTTATGA
AAGGGAAAAGTTTCTTCTCTAGTATTTTTTAATTAATTTCTGACCTCAAAAATCAAATTAGTTCTTATCCCAAAACAAGATAAAATATTTCCTCTACCCA
ACCTTGTCCCCTCAATGATTTCCTCACCTCCTGCCACCCACAGCAATTATGAAGAAAGCAGAAGACTTTTCACTTATTTTCCAAACACCCACTCCTACCA
GGTTGTCAGCCTTCTTCTTTAAAAAGGTGCTTTGCACTTTAGAAGAAAAACATTTGTGAGGGGACTTTTATTGAAGTTACCATGGTGAACACCACTGACT
AAAGAACAGAGCAGATTTCAGCCCCAAAGCACCAGAACACTGGCAGACACTTAAGGCTTCAATTAGCGCTTTAAAAAAAGTCATCACTATTTTCTCCCAC
TTTGATTTAACCTATTGTCCCCAACTACAGAACTCTTCTAGGTTTCCTACTTAATGACAGAGGAAAAGAGGACTTTGACAAATTGAAAATCTCTTGATGT
TATATGAATTATTTGCTGAATTATTTTGTGTATAATATAATCTATGATTAACATGAAAACAAAACACAATATCGTAATCCATTTTTGCAAACCCTGAGTA
GTCTTTTTTACTACCACTTGCAAAGGGTATGACTTAACTGCTAATGCCAGTTTTTAATCTCATTTTTAAAGTCTTTTAATCTCAGTTAAATTAAGAGAGA
TATAAAAACATATGCACTTTTTTCCTTTGCTCAACTGAGATTAATACATACCTCACACCCAAAGTGAACCTGGAGGGAAGCAATGCCCCAGGCTGGACCC
TAAGTTCCAACATGATTTAGGAATCTTGTCATGCAGGGTGGTGGCTCAGACTCATTCTTTTGGCCTTTGTGCCAGTTACCTAACTGAGCATGATGTTTGT
GCCATTATTGATATGAGGGTGTTATGGGCTGAACTGTGTCCCCACAAAACTCATGTGTCAGAGTTCGAAACCCCAGTACTTCAAAAAGTGACTCTATTTG
GAGACAGGACCTTTAAAGAGGTAATTAAGGTGAAATGAGGTCACATGGATGGGCTCTGATTCAATATGACTGATGTAAGAATTTGAGAAGAGATTAGGAC
ACAGATAGGCATAGAGAGAAAACCACGTGAAGGTGAAGAGAGATGACGGCCATCCACAAGCCAAAGAGAGAAGCCTCCAGAAGAAACTGACCTTTCCAAC
ACCTTGATCTCATACTTCTAGCCTCCGGAATTGTGAAAAAATAAATCTCCATTGTTTATGCCACCCAGTCTGTGTTGCT


SNP Information

Context             (SEQ ID NO:34963):
AGTCTCTGGGCTTCTTAGAGCAAAAGTTTTAAAACCATCATTTATATGTTTAATATATTTTTATCTATTTCTAGATTTATTTTAAAGGCAGTAAAATAAT
M
TAACAGGCTCCTGGGTACCCATGGTGTTTATTATATTATGAAGAAATAAAATATTACTCATACAGTCGAAACCCTACAATTAAATTCCTTTCCCTCCCTT
Celera SNP ID:            hCV392725
SNP Position Genomic:     81175
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,9)   total(A,3|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34964):
TCGACGAGGTGAGAGCTGCAGCAGAATGTCACTGCTCTGATAAAAGGACAACTAAAAGCCAAATATGATTATTTTCAGAAGAATATTTTGCAGTAAATGT
Y
ATTCATGTAATAAATTTATTCTTTAATCTATCAGTGTATTAGCGTTCCCTCCAGGAAGTAGTTTTTAAACTCATCTCAATAATTACTTTCATGTTTAATT
Celera SNP ID:            hCV27480208
SNP Position Genomic:     288590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34965):
TACTAAACAACAGTTTCATATGATATATCTTGGACATTCTGTGAAATAGTAAGTTGCTGATGATAGAGAAAAAACATGGCTTTGTGATCAGTTACTAGCC
R
TATTCTTGAAGGTTACAGACAGAGCGGGGTAGGCTGCAGCCTACAGACAGAAAGTGGGGCTGTAGGTGTAGGGTCCTGGCTGCACAGAGTGTGTGATGGA
Celera SNP ID:            hCV27480209
SNP Position Genomic:     273939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34966):
CTAATCCATTTATTGCTCTTTAAAGATTACCATGTACTCCTTTTTCTTATTATAAAATATTGCATATTCATATTAAAATCTGGAAAATTCATAGAAGCAG
M
AATAAGTAATCTAATGAATCAAAAACAATGTCAAGTAGTGTTTCTTAATCATTACAATTATTTATGAATTTTGGTTTTAATTTTTCAACATTTGGTCTAC
Celera SNP ID:            hCV392727
SNP Position Genomic:     80924
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34967):
AGGTCCTTGAGAGCTCTTAGCTCATCATCCTTTAAGTATAGTTTGGAGTATTCTTCCCAGGCTGTACTACTTCATGCATTTTTTTTTTTTTTTTTTTTTT
T
GCCTATTGTATTTAGAGTTTTTCCTGAAATGAATTTCTCACTATGTATTTGACTATCAAGAAGAGTTGTATCATCTGCAAGTTTGAGGTTTCACTTGAAA
Celera SNP ID:            hCV392728
SNP Position Genomic:     80653
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34968):
TACATACCAGGAAATGTCCTGAACTCTTTACACATGATTCATTAATTTTCTGAATTACACTTGTAGATAGGAACTATTGTTATCCTCATTTTATAGACAA
A
GACACAGAGATAGAGGTTAAGTATCTTTACTGGGGCCACACAGCTAGGAATTGGCAGAACCAGGATTTAGGCACTAAAATCTGTTTATTTAACCACTAGC
Celera SNP ID:            hCV392729
SNP Position Genomic:     78125
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34969):
TATTTCTTCATCATTCAGTCTTGGTCGATTCTATGTGTCTAGCCTTTATCAACTTCTTGTAGGTTATTGTATTTATTGGTGTATAATTGTTCATAGCAGT
S
TCTATGATCCTTTTTTATTTCTGTTGCAATGTCTCCTCTTTAATTTATAATTTTATTTAGTTGAATCCTCATTCCTTTTTTCTTAGTTTGGCTGAAGGTT
Celera SNP ID:            hCV11200457
SNP Position Genomic:     60412
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34970):
GTCTTCCTTGGGTTGTGCTGGCTATTATCTTCTTGCTAGGGAACAAACCATGCTCCTGAGAGCTTAGATTGCAGGAATCAACAGCAAACACTTAAAGCAC
M
TTTTATAAAGAATGTAGCTGATGGCTTTTGAATAGAAGAGGCAGGCAAGGACACCCTGCTAATTGTTCCTTGCAATGATTTTCCTTAGTGGCTGTTTCAT
Celera SNP ID:            hCV15934830
SNP Position Genomic:     31128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:34971):
TGTATAATTTTATGCGTAGAGATAAGAGATGAGTACTTTCGCAGAAACAAATGAATAATTATATACCAACATGGAGAACTTAAGCTCATAGGTGAATGTG
R
GAATATGGAGGAGAATGAAAATCATTGCCAGGTGAGTGATCAAAGAGTGCATTCTAGAAAAGGTGGTACCTGTACAGGGGTTTGGAGGATGCATTGGTAT
Celera SNP ID:            hCV29433910
SNP Position Genomic:     94240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34972):
AAGCGTTCATGCAGAATGGCTACTGAGACGTTTAGAAACCATGATCGAGACAAATGAGGGATCATTTATTTGGACAAACTGAGAACTTTTACTAATCTAA
Y
AGCCAGATATTGTAGTCATGGTCTCTGAGGAGAAATGCAAACTGAATGCTCTCATTTGAATCTTAGAATGCTTTAGAATCCTGGTTTCACATGTCTTCTA
Celera SNP ID:            hCV15934831
SNP Position Genomic:     610465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34973):
TCTGTTATCCCAGCTTCTAAGCTAACCAGACTCATCATTTTGGCCTTTCATGTATGCTTTTCCTATGGCCAAAACGTCCACAAATTACTAATAAATGCTG
R
CAAGGAGAGAGGTTAAAACCAGGAAGCCATGCCTTTTAGCTGACAAAACATTCATTGAAATGCTATCTGGGTGAAGCACTGAGAAATTAATCATCTGAAT
Celera SNP ID:            hCV29433911
SNP Position Genomic:     86558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34974):
AAGTAGGTAAGCAGAGTCCAAAATGTAGGGTCATTTTCAATGGCAGAGAGGAATAGGAGAGTCAATAAGAAGCAAATGCTCAAGGAGCTTGAGTAGAGAC
K
GGAATAGGCATCTCTTTATTATCTTATTGGCTGATTTATACTTCTTGTAAAATAATTAGCTTAAGCTAATTATCTAAGAAACAAGAATCTCTCCTAGGCA
Celera SNP ID:            hCV29433912
SNP Position Genomic:     62535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34975):
GGGGATAGTTACAGAGGCAAGAGCTCCCACCCAGCGCCTTCTGAGCTTCTTCCTCTGATTGATGTACTGTAAGAGACCGTCAATGGCTAAGTTCCCGTCA
Y
TGATGCGGATCCCTGCCCACATGTCCCACAGCTCACTCTCACAGAGCCAAGTACACGGCCCAAAGACTGGGGTGAGACCTCGAGAGAATACAAAGAAGTT
Celera SNP ID:            hCV29433913
SNP Position Genomic:     52082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34976):
CCAATTTTGCTTTTACCAAGCCTTAGTGAAAAGTGAATGAATTCTAACAAGAAGACTCAAAGACACTGGTGCTCCCCCTGTGTCTCCCTTCACTTATTCT
R
CATGGTCAGCACCTCTTCAAAAGACCAATAATAATGGTCCCCTACAAGAAGTATACAATTGCTCCTCTGATGTGAAAGCATATGAAGAAAATAAGTGTCC
Celera SNP ID:            hCV8922853
SNP Position Genomic:     358196
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:34977):
GGGTCCCATCAGTCTTCCAGGTGTAAACCATTAGATTCCTACTAGATCCCTATCTTTCTTCCCGTTACTATATCAGTGAGCAAGGTCTTGATTCTATTTC
R
TTTTTTGTCACAATTAATTATTATTAATAGAAAATAAACACTTATTCCAGTTTCAAAGTTGTTATAATTGAAGTTGCTAATTTTAAAAAATGAATTTTAA
Celera SNP ID:            hCV29433914
SNP Position Genomic:     50559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34978):
AACCCCCAAATCTTAAAATCTTAGCATTATAGAGGTTTATTTCTCAATGATGCAATGACAAATACAGGTCCATCTGGTGACTCAGGGTCCCAGTTGTCCT
Y
CGCTTATGATGTTTCCAACTCAGGAAATGCCTTTTATGGTTGCTATGGCAGAGGAAGAGAGGAGTGGGGAGCTGGCACCTAGGTCTTCAGTGCTTCAGCT
Celera SNP ID:            hCV29433915
SNP Position Genomic:     46655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34979):
GCTTAAAATATATTCACATTATCTTAATTTCTACTGTCTCCAAGTCCGACTCCTTACCAAATCTGTAGACAGTCAGCTTCGGTCCCTTAAATTTAAATGT
R
AATTCCTCTAAGATCATTTTCCCAGTTGCACAAGCTGAAGTAATAGTCTTTTGGGCCTGACTCATCCCATCCTCTCTGGACACAAAGAAGGGCAGAAAAT
Celera SNP ID:            hCV29433770
SNP Position Genomic:     604439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34980):
TCATATTAAAAATAGCAAAAATATTACTTCTTCAAAAATGCTTTATACTTCATGTATATTACTGATTTTAAGTAAAAGTACAATTAAGACAATTAGCCAG
W
CCTATTTATGAGTAGCTCTAATTGGAGCAGCTTGTTGCTGGACCCTATTCAGTGGTAGAGATAAGGTTGAGATGGCTGAATAGTTCATCTAATTTGAAAT
Celera SNP ID:            hCV29433916
SNP Position Genomic:     37823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34981):
ATCAAGGATGCATATGAAGTAGTTAAAGGCTAGATCTAAGGACATGTGGTAGAAAAGCATGTAATTCAGAAAAAGCCTAGCTTGACCCCTAAGAAGGGGG
Y
GGTAGTGAGAGGGATCAATGAGATAAGGAGTTCCTGTCTGCTTTCTAAACAATGCAGTTTGAACAGAGAAGTGCCTCATCTTTCCTTTTTTCCATCTATT
Celera SNP ID:            hCV29433771
SNP Position Genomic:     595067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34982):
TAATTTTGCACTTTAGAAAATGTCTGCATGTTTATTAGAGAAGTGAATGCTGAAATCAGCGAACAAAATGTAAAGTGAGCAACTAAGAAATACTTATAAG
R
GCTCACTTGTATTATTTAACTGTGTAATCCTCTATCTCATATATATGTAATACTTTCTTCAAGTTCATTATAGCTCCCGGGCCCAGTACATCCTAGTCCA
Celera SNP ID:            hCV29433917
SNP Position Genomic:     37236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34983):
TTATATTAGCTAATCACTAAACAGAAATTTTAAAAGAAGTATTTAATATTAATTCTCAAGTCTTAGGAGAATATTTAGCTAATAATTCTACAGTTGACTG
S
AGAGTTTATTCATTATTTAATTCATAATGTCTTTTCAATCACTTTACTGTTTCTTGATTCATGAAGAATACATGCCAAGTGTATTAGTCTGTTCTCACAC
Celera SNP ID:            hCV29433918
SNP Position Genomic:     24620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34984):
TATATTGTTATGAGCACAATTTCTACCCAGATTTTGTTGGTTCTTTTCAAATCCATCAAGTAAAACAGTGTGCGTATGATTTGTGAATACTGCAGTTGCT
R
TAATCACAATAAAAGAGGGTTTCTTGCAAGAAACTATGTAAAACAACTTTTATGAAGAATAGCTGTCCTTAGCCCCAGATAAAAACTACTGTCAGCCACA
Celera SNP ID:            hCV27480210
SNP Position Genomic:     269406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34985):
AAGCACTCTATCTCGGAAATGTTCGTGGCCCACGTCTTTTCCGTCATTGTGCATTTTTGCCCCATCGCTAACACTTGGCAGTGTCAGCCCTTTCTTATAC
Y
CCTTGTCATCAAACTATATTCACATTTTCCTTTTAAGGTGAAGTGATATGTATACTGAAATAATCCTATATTTTTTAATGTTTTAGTGTATCTTTTTGAG
Celera SNP ID:            hCV29433773
SNP Position Genomic:     585112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34986):
CTTTTCCTGGTCCATTAATGGATATATGACAAGTGATGGCAAAAGGATAGTTACAGTTATTAACTTAATCATTAATTGGCTCAGGGTATCCCCAAAACCG
Y
AGTTGGAACTGAAGTGCTACAAAAATGACCATTTTGTTGTTATAGCTTTTCTTCACATAAGGAAATAAATAAGCAAAAAGAGGGAGTGTCTTATCTATTT
Celera SNP ID:            hCV29433919
SNP Position Genomic:     20424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34987):
GAATAGAGTATCTACTGTATGACTAGAGGTATAGCTAAGAAAAAAGACTATAGGGAGAAATTAATATTGTAGGACAAAGCATTTAATTCTAGAATGATCC
Y
ACTAAGGTAAGACCACCGTCATCGGTTGCAAAATTGCTGAATCACTAGGGTTAATAGTTACAGATCCTAAATACTCCTCACATGTTTTCTTTCCTCGTTA
Celera SNP ID:            hCV27480211
SNP Position Genomic:     267975
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,194|C,1285)   total(C,1285|T,194)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34988):
ACTTTAAATACCTGCAAAGTTAACATGTCATAACAGCAACTCAAAAACCATTAAGTGCTAAGGAGTTTGTGTTATTTTCCATTTAAAGGATATACATACG
Y
TTCTAGGACCCAAATCCTAGCAAAGTACACTTCACATTTCTTTCTCTACATCTCTAGAGTTTCATAGAAGAAAGTAGCCCCAAAATGTTATCCCTCTAAA
Celera SNP ID:            hCV29433774
SNP Position Genomic:     583862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34989):
ATGGAAAAATTAATGAATTTGAAGACAGAAAATATTAGACCTGATAAATCAAAAAGGTGACTCCTTAGGAATATAGATTAAAAATTAAGTGATTGTCAAG
W
TTCATCAAGAAAAATAAAGGACAAATAGGCAAAGCTCTAAAAGAGGTATCACTAGACAAGGGAGGAAATTTAACACATAAGAGATCACTTGGAAAAACTT
Celera SNP ID:            hCV29433775
SNP Position Genomic:     566695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34990):
AACAATTCTAAACAATCAACTTTGCTGACTTTAGAAAAAGCAGAGTTAACTTAAAGAATGAAAAAGATGGAAAAATTAATGAATTTGAAGACAGAAAATA
W
TAGACCTGATAAATCAAAAAGGTGACTCCTTAGGAATATAGATTAAAAATTAAGTGATTGTCAAGTTTCATCAAGAAAAATAAAGGACAAATAGGCAAAG
Celera SNP ID:            hCV29433776
SNP Position Genomic:     566629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34991):
GAGGGCAATTTTAAAAGAAGGTAGTTTCTCAGGTGTTTCTAGTCAAAATGACAAACCTACAAAGTACATTTGCATTATTTTATGTATACTTTACTGATAG
W
GTCCTTTAAATGTTGAGTTCAAGCTAATTTTTCTTAATCTTCAAAAAGTTTAGGGATCAAATTGTATCCTGCAGATTTTTGTTATGCTAAATTTCATTTC
Celera SNP ID:            hCV392730
SNP Position Genomic:     76715
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,2)      total(A,1|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:34992):
TCTATAGAATTAACTAGATTATGCTGTTTCTGATAACACAAATTCACCCCAACACACGAATGACTTAATTGCAAGAGGATTAAAATAGATAAGGTCTACA
Y
TGTTGTTGTTTTTACCCACTGAAGCTCACTTTTTCCTCTCCTTGTAATTATTCTCAACTTCTGTAGAATTATATTTGGAGAAACACATAATAAAACTAGG
Celera SNP ID:            hCV29433777
SNP Position Genomic:     566218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34993):
CTATACTGAGGGCAATTTTAAAAGAAGGTAGTTTCTCAGGTGTTTCTAGTCAAAATGACAAACCTACAAAGTACATTTGCATTATTTTATGTATACTTTA
Y
TGATAGAGTCCTTTAAATGTTGAGTTCAAGCTAATTTTTCTTAATCTTCAAAAAGTTTAGGGATCAAATTGTATCCTGCAGATTTTTGTTATGCTAAATT
Celera SNP ID:            hCV392731
SNP Position Genomic:     76708
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34994):
ACTGAATTTCTCTATAGAATTAACTAGATTATGCTGTTTCTGATAACACAAATTCACCCCAACACACGAATGACTTAATTGCAAGAGGATTAAAATAGAT
W
AGGTCTACACTGTTGTTGTTTTTACCCACTGAAGCTCACTTTTTCCTCTCCTTGTAATTATTCTCAACTTCTGTAGAATTATATTTGGAGAAACACATAA
Celera SNP ID:            hCV29433778
SNP Position Genomic:     566208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34995):
ATCAGATGTCTGCACCATGGTTCCTGTACAGCCTGCAGAACAGAGAACCAATTAAATATCTTTTCTTTATAAATTACCCAGCCTCAGATGTTTCTTAAAA
R
CAGTGCAAAAAATGGCTTAACACTGTGATATTTGGTATTTTCTAGTCCATTAGTGCACATCCCCCCGATGTAGGATAAATATGGTATGAATATTTGAATA
Celera SNP ID:            hCV392732
SNP Position Genomic:     71765
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34996):
GAAGTTTGAGATCAGCCTGGGAAACATAGCAAGACTCTATCTCTACAAAAAGGAAAAATGAGTGAAATATCTGTATGATAGCCACATAAAAGTGGAAAAC
W
GAATTTCTCTATAGAATTAACTAGATTATGCTGTTTCTGATAACACAAATTCACCCCAACACACGAATGACTTAATTGCAAGAGGATTAAAATAGATAAG
Celera SNP ID:            hCV29433779
SNP Position Genomic:     566110
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:34997):
AAATCGCATGTTGAAATGGTATTCCCAGTATTGGACGTGGGGACTGGTGGGAGGTGATTGGATCATGGGGACAGATCCCTCATGAATGGTGTAGCACCAT
Y
CCCTTGGTGATAAGTGAGTTCTCCCTTAGTTCCCATGAGATCTGGTTGTTTAAAAGAAATTGGGATCTCCCCCTGCTCTCTCTTGCTCCCACTCCCTCCA
Celera SNP ID:            hCV392733
SNP Position Genomic:     71499
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,7)   total(C,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34998):
TTCCATCCAAGACTATCACTACCACTTCTAAACCACCTCCAGCCACACAAAAAACACACACTATGCTTGAGTCATTCCAAATTACACACCTTCCTCTAAA
Y
ATTAGTGTGAAATTAGGACATTTGGGAAATGTGATTGATATGATTTGCATGTTTGCCCCCTTCAAATCGCATGTTGAAATGGTATTCCCAGTATTGGACG
Celera SNP ID:            hCV392734
SNP Position Genomic:     71335
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:34999):
AAAAATCCAAGCAAAGCAGGTAACAAGAGGACTTGATTCCAGACTGTGAACAGATTTGAGGCAGGGTCAGAAAGCCACCCTGAAATTTCAGTGCTATAAA
M
CTGTAGTGGGAACTCTATAGGAATACTAATTTCTCCCTTCATCAACAAAGATATTATACTGGTCCTGTGAAGAGGCTTAGTCACTTCCCAGTTTATGTAT
Celera SNP ID:            hCV392735
SNP Position Genomic:     71065
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35000):
AGTGAGAAGCTAAAATGGAAGGGAGACGATAAATAGCTCAGCAAGGTTTTTAGGGAAGCAGAAATGACTCAGATTTGAAATATAGGTGACAGAATTAGCC
Y
TAAGGAGGAGAAAGAAAAGATCTTTTGAGACTATAAGAAAGGAGGTGAGAGTTGATGTAGCCATAAAAAATACAGAGATGAAAGGGTGGGGAGTTAAAAG
Celera SNP ID:            hCV392736
SNP Position Genomic:     70762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35001):
AGATGAGATTGTGTGTGATTTTTAAAAATTATATTTATTCTACCTAATAAGCATTTATTACTTTTATAACCTGAGAGATAAACATTATTGAAAAAGAAGA
K
CATGGATTTAAAGCGAGGATGTGAGACTGTGGCTGTTACATATTTTTTTGGTTTGGACCTTGGTTAAGAAGGCAAAGAGGGATAGAGATTGTGGGACATA
Celera SNP ID:            hCV392737
SNP Position Genomic:     70476
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35002):
TAACTACCAGGTTTGCACGTTGACTTCTTTATGCTTCATTTGGATTTTCTGAGGCTTTAACGTTTTCCGTTTTTAAGACTAAGCTCAAGGGTCAACTCTT
Y
CATGAAAATTAATTGCTATTTATGTTTCCATCTATAAGAAGAGTGAAATAAACAATGAAATCTAATGACACTGAAAAGTGCTTTCAATGTACTGTTGAGT
Celera SNP ID:            hCV392738
SNP Position Genomic:     70137
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35003):
TATCCTGTACCAAATGGTATGCCAGGGGTGAGGATACAAAGATAGAATAGAACTTTTTAGTACAATGTGAAGAAAGAAACATAAAGAAATAAGACTGCTG
R
AGTATTTTAACTACCAGGTTTGCACGTTGACTTCTTTATGCTTCATTTGGATTTTCTGAGGCTTTAACGTTTTCCGTTTTTAAGACTAAGCTCAAGGGTC
Celera SNP ID:            hCV392739
SNP Position Genomic:     70029
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35004):
CGGCTAATTTTGTATTTTTAGTAGAGACGAGGTTTCTCCATGTTGGTTAGGCTGGTCCCGAACTCCAGACCTCAGTTGATCCAACTGCCTCGGCCTCCCA
R
AGTGCTGGGATTACAGACATGAGCCACTGCGCCCGGCCGACTCTGGTGAATTTCTCGGATGTAAGTTGTTATGGTATGTGTGTAGGAGTGGGGAGTATAG
Celera SNP ID:            hCV390991
SNP Position Genomic:     176117
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35005):
GAATTTCCGAGAAAAAGAAGGTGACTGCAAAGGATGCACTGTCAGGTTAGTTGAGATGAGAACTCTCCCAGGGTCTGTCCTGTGCATAATAAAAGCTTCG
W
TTTTATTGCATAATATTCTATTATCATGTGGATGATGTGGAGCAGGTTTGAAAGGATTATACTCAGAGGTGGAATTACCACAAAACTAATGAATCTTCAA
Celera SNP ID:            hCV25966492
SNP Position Genomic:     582995
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,39|T,1)   total(A,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:35006):
TGTCACATACTAGACAAAGATGATTTGTTTTCATTGTTCTGAATGTATGTGAGATCTGTAATAACATCCTTTCATCACAGATGAGAAAATATTAACTAAC
Y
TGCCCAAAATCATGTACTACAAATAACAGGACCAGGTATTAAATGAGATGATATATTTGACTTAAATACCTCCATCTATGCACAGCCAATAGATTATTCT
Celera SNP ID:            hCV12087943
SNP Position Genomic:     611588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35007):
TACTTACGTAGCAGAGCTGTTTAGTAGATTAATATAATTATCCTCAGTTTGTAGAAGGAAAATATGCCCAGCAACTTGTCAAGGACAAACAAAAATTCCA
R
TGCTTATTTTAGAATTAGAAATTAAATTACGGTCCTGCTCTTGACTTTGTAGATGCTAACTATCACCTCTTTTGGACTTTTATATATTTATCTTTCATAA
Celera SNP ID:            hCV29433920
SNP Position Genomic:     13121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35008):
CTCTTTGAGAGGATCTCACTTTGGCAAACACTTGAAGATGACGTGGGAGTGATTTGTGCAGTTATCAGGGGGAAGAGTACTCTCTGTACAGGGAGCAGGC
Y
TATGAGGATCTAAGCTTGGAGCATGGTGAGAAGGCTCAGAGGAGAAATGGGAAACTGGAACACATAGCATTGTTGACCTTAATTTTAAAGATTTTGCCTT
Celera SNP ID:            hCV29433921
SNP Position Genomic:     11476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35009):
TGGGCCTATATGCATTGGAATGTGGTAAATGAATGAATGTTTACAGTGAGTAAAGAAGATAAAAAAATTCCTGCTCTTGTGGAACTAATATTTAGTTGGG
R
TGGAGATGAGCAGACAGGACTATGATGAATATATGATGAAGCAACAAAAGAACACCTATATTGTATAAAATGTAGTTGATGAAAAATGTCCTGGACAAAC
Celera SNP ID:            hCV29433922
SNP Position Genomic:     11187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35010):
TGAATTAGTTATTGCAGTGCCCAACAGATATTTAGTATTGCTGTGTGTCCTTCAAATGTTTACAATATTCCACTGTGCCTTTGTGAGTTCACTGCAGCAC
S
CTGGGGCACCTCTACACACAGTTTGTGAACACAGGGGTAGATAGATCCTAGAGGCATTGAAACTACACGGAAACTTGAATGACGTTAGGGATCCCAGAGC
Celera SNP ID:            hCV8922865
SNP Position Genomic:     369300
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35011):
GCATGGTGCTTATTGCGAACAAGATCTAATTTCTTACTTTCAGATCAGAAGAGGGTTTCTCCATAACCTGACTCCCTGTGAAACAGTCATCTCTGAGGTT
S
CCATATGTGGTCACTCTAGTATGTATGTCTGTCTGTGCAGAATAAGTAATCAGATATACAGCACATCCCAAACTTGTGACAGCTACTAGGGAAAGGGAAG
Celera SNP ID:            hCV29433780
SNP Position Genomic:     555664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35012):
TCCCTCCTTTCCTGAAGCTCCTACTATGACCCCCTAGTGGGAGGAAGAGCATATGCAAGCATGGTGCTTATTGCGAACAAGATCTAATTTCTTACTTTCA
S
ATCAGAAGAGGGTTTCTCCATAACCTGACTCCCTGTGAAACAGTCATCTCTGAGGTTCCCATATGTGGTCACTCTAGTATGTATGTCTGTCTGTGCAGAA
Celera SNP ID:            hCV29433781
SNP Position Genomic:     555606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35013):
GTCAAGAATATAATATATGGAAAAAATACCTTGATATAGAAAACTGCCTACAGGTCTTTGATTTGTTTAGCACCTAATGTTTGAGATATTTATTGTTGTC
K
CAATATCCTAGATTTATAATAAGATTAATGGTTCTTACTTAATACCGCAGTGTGTCATCCTAAGGTAACAATTTTTATTTGCTTCTGTGTATTTTCTTTT
Celera SNP ID:            hCV8922868
SNP Position Genomic:     384204
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,13)      total(G,4|T,13) ;(G,-|T,-)   Caucasian(G,13|T,69)   African-American(G,15|T,67)   total(G,28|T,136)   (T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35014):
GAGCTTCAGTCATGAATGACTTAGTACTGCTCCCTGCCATTTTTATGCTGTCCTTGCCTTGAGGGAATCTGAACTTGCCGGGAGCAATTTGTTTTGCTTT
Y
TAATTTTTGAATATACATCTGTTAAAAGTAAATTTGCCCTTGTGTGAGTTTGAGATTTGAAGCCTGTCTACATTGCACTGATCGAATGTTTGTGGAGATA
Celera SNP ID:            hCV29433782
SNP Position Genomic:     553095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35015):
TACATTAAAATAAATTTGACCACAGCCATACCAAGTTCTGTAATCTTTTCTAGTTTAATGTTCAAATAATGTGACTGATAAAAATAATGTAACTAAGGCA
R
TCCAGATGCCTTTAACGAGTGTTATGTCTGTGATAATCTGAGTTCAGATTTATATCTTCAACAGTAAGTATTTAGCACTCTCCAACCCTTCTTGCACTTG
Celera SNP ID:            hCV29433783
SNP Position Genomic:     549477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35016):
GAACATAGCCCTAGGCTACACTTAGAAAAAATTATTTTCTGTTCTTTATTAAAAAGCACAGTGGTTGCCTTATTAGCATTTTAAATAACATATATGAAAA
Y
ACATTCTGTTTCAAATTTCAGTTTCATGTTTCTAATGGAATCAAAACAATTTATTGTTAAAAGGATGGCTTTTGAAAATTTGGCCCCATACGTAGTCTTT
Celera SNP ID:            hCV503517
SNP Position Genomic:     525460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35017):
AGGGGAACAGAAAGACTGAAAATGAGAGATAAGATACACTATGCAAACTCTAACCAGAAGAAAGCTGGTATGCTACCATTAATAGCAATCAAAAAGACTT
Y
AATTTTTTTAAAAGAATTATTAAGGACAAAGAAAGTGATCATGATAGAATAAAAGGAACAAGGAAAACTAAAAAATTATGAGCCTGCAAGGTCATAATAA
Celera SNP ID:            hCV29433785
SNP Position Genomic:     535816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35018):
ATAACATATATGAAAATACATTCTGTTTCAAATTTCAGTTTCATGTTTCTAATGGAATCAAAACAATTTATTGTTAAAAGGATGGCTTTTGAAAATTTGG
Y
CCCATACGTAGTCTTTAAGTCTTTTTTATTTTTCCTCTTTTAAGCTCCAGGGAGACATTACATTTTCTCCTGTAAAATAGCAGCTTATTCTAGCTGGGAT
Celera SNP ID:            hCV503518
SNP Position Genomic:     525544
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35019):
GAGAAAAAATGAAGAGACATGTAGGCCCCTACCATACTGGCTCATGAAGCCTGGACCACGTCTGGTCTGAGTCATTGACCAGAAGTAGCCGTGTGCCCCA
R
GCTAACTGTAAGGGAGGTCTGGAAAAGTAGGAGGCACATAGGATATTTGATGAGCACTAACTATCTCTGCTTCAGGTTGTCTTCATAATAAATGCAAACA
Celera SNP ID:            hCV29433786
SNP Position Genomic:     535518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35020):
AGCCTGGAAAAATATCAAAATTCAAAATTTGAAGTATGATTTATATTGACTATGTATTGCTTTGGCACTATCACAAAATCGAAAAATACCAAGTTCAACC
R
TCATAAATTGATGACTATCTGTACCACCAAATAGCCCATTACTCAAATCCTCAACTTTTTCTCTTCAATGTATGTGACCTCTATTTATATAGTCAATACT
Celera SNP ID:            hCV392740
SNP Position Genomic:     69376
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35021):
GAGGATATGAGGCCCTCCTCTGCCCATTTACACTGGAAATGTCTTAGATGTCTTAGTGCTTTTCAATCAGGTATATCCAAACAACAAACAAACAAATAAA
R
TAAGACTAATGCAGAATGAATTCCATAGTTCAGATTCTTCAAGATAATGGAAAATTATCACATAATCTCCACCTGTTTTGAAACATTATCTTCTTTCCTT
Celera SNP ID:            hCV29433787
SNP Position Genomic:     532762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35022):
CTTCAATACAATCAAGTTGGCACTCAGTATTAACCATCACAGTGAATGAATAGATTTTCTATGACGTTGACTCCTTGGAATGACCACCAGAGGCAATAAG
Y
ACACTCTCAGTGACACGAGGATATGAGGCCCTCCTCTGCCCATTTACACTGGAAATGTCTTAGATGTCTTAGTGCTTTTCAATCAGGTATATCCAAACAA
Celera SNP ID:            hCV29433788
SNP Position Genomic:     532645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35023):
GAGGCCTCTAGAAGCTGAGAGCAGCACTGGATTGATAATCAGCAAGAAAGCACAGCTGAGCTAACATGGAGACTGCAGCCTCTCTAGGTCGACAGGAACT
K
ATTATCAATGAATGTTGTTTTAAGTCACTACGTTTGTGATAATTTATTATACAGTAATAAAAACCAAATACAAAAGATTAAAAAGAAATCTAAGTTGAAG
Celera SNP ID:            hCV392741
SNP Position Genomic:     68939
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3|-,5)   total(G,3|-,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35024):
TCAAACAGGATCCCTGTCTGCCATTGACACCTCAAGGACTATTGGATCTGCTAGGTCATACGGCCCAATCGGCAGAGCAGTTTGCACAGCAGTCTGGACT
Y
GTTGCAGAGCCCACTTAAAATTGGCAGCCTTTCAGGTCACTCAATAAATGGGCCCATTTTAACACACCCAGGAACAATGCTTTGCATCCTTCAATACAAT
Celera SNP ID:            hCV29433789
SNP Position Genomic:     532456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35025):
TCATGAGAACTCACTGTCATGAGGACAGTTCCAAGGGGGATGGTGCTAAACCACTTATGAGAAATCAGCCCCTATTCTCCAATCATCTCCCACCAGGCCC
Y
TCCCCTAACATTGGAGATTACATTTCAATACGAGATTTGGGTAGGATCACACATCCTATATCACTTTTGGAGAAAGAATGGAGGTAGCTCTGAAGGTTTG
Celera SNP ID:            hCV392742
SNP Position Genomic:     67743
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35026):
AAATGCTCATCTAAAATAAGAAAGATGATAGGCCTGATCCATCTTCTGTTTACTAGGTTAAATCTGGAAAATATAAACCTCAGGTGCCAGACTTCAGAGG
S
ATATAGAAAAACAATTACTTTTTGCATTAGTCCATTCTTGCATTGCTAAAATCCTAAAGACTGGATAATTTCTAAAGAAAAGATGATTAAGGCGGGATGC
Celera SNP ID:            hCV392743
SNP Position Genomic:     67220
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35027):
TCTACTGGAGATTTGTTCTCCAAAACCTGACAATCTAGTACTTTGTAGGAACTAATGTGTATAATCTTAGGGGGCTTAGTGGACAGAAAGTTCATTAGCC
R
TTGGTACTGTGATAGGGGAAAAAGCAAATGGGACCTTAAACAATATGAATAGACATGGTTTCTCAAAGAATAGTCTATGGTTCACCTGAGCACACATCAC
Celera SNP ID:            hCV392744
SNP Position Genomic:     66899
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35028):
TGAAAAGATTTTCATCGGTTAGAGTGATACGTCTGTTATGATGCAATTAATTGTGATATACTGTCTACTGGAGATTTGTTCTCCAAAACCTGACAATCTA
R
TACTTTGTAGGAACTAATGTGTATAATCTTAGGGGGCTTAGTGGACAGAAAGTTCATTAGCCGTTGGTACTGTGATAGGGGAAAAAGCAAATGGGACCTT
Celera SNP ID:            hCV392745
SNP Position Genomic:     66836
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35029):
AGATGTATTTATGGCAGCAAGCTCATTTGGTACATGTATGTATGAGGGAATCAAGATCTGAAAAGATTTTCATCGGTTAGAGTGATACGTCTGTTATGAT
R
CAATTAATTGTGATATACTGTCTACTGGAGATTTGTTCTCCAAAACCTGACAATCTAGTACTTTGTAGGAACTAATGTGTATAATCTTAGGGGGCTTAGT
Celera SNP ID:            hCV392746
SNP Position Genomic:     66778
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35030):
CCAAAGGGAGCTCATTTGGGGTGGCAGGGGTAACCGAAAAGTGTGGGAGCTGAGGTATTGTTTGAGAGCCTGTGGGCAGTGTGACTGCTCCAATCGTAGT
Y
TCAGTGAGGAAGAGCACCATCTGTGCAAGATTTTCTCAGATGTCCTCTATAAGACTTTCATTGTCATCAGTTCTATGTGCTCTCAAATCATTGCTTTTTC
Celera SNP ID:            hCV392747
SNP Position Genomic:     65733
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35031):
CCCCAAAATTTTTTTAAATAAGAAAGTTTTAATAAGCAGAATATTAGTTTAATTATGAATGAGAAGAGATGTATAGCATTTGTAGGGGTACAGAACCATG
Y
ATTCCATAAAGGAAGAAGTTAAGAGCAATGATGTGGAATAAGCATGGGGCTTTTAAGAACTTGTCTGAAAAGAGGATATTCTTTGGTCAATAGTTGAAAA
Celera SNP ID:            hCV392748
SNP Position Genomic:     63857
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35032):
TACCTGGGGCCACAGCATTACCACTGGTTGTAAGGTGAGTGAACCACTTTTTTGCTCTGATAATTTTTTGGGGAGATTTTTGTTTTGTAGAGCTCTGTAA
Y
TGGGCATTTCAAAATTCAATATTACATCACAAAATAATGTAGAAGTATTACTATAATGTGATTACAGATATTAATCAATATCTTACAGTTTACTTGTAGG
Celera SNP ID:            hCV25992448
SNP Position Genomic:     423576
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(T,40)   total(C,2|T,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:35033):
ATATACTCAGTAGTCCCGATTATGTTGGTGTTACCAAAGGATGTTCCCTGGAGGTTGGTCTGTTTTTGATAGTTCTCTAAACACATTTATATCAGATTTC
R
CTTACTTAGTGTGGCTGCTCCTACAAGGATCAGTCTTTTGTTAATATATTTTACTTTTCTACTGATCCTACTCTTAAACGATAAAGCAAGATTAAAGCAT
Celera SNP ID:            hCV25970382
SNP Position Genomic:     601474
SNP Source:               Applera
Population(Allele,Count): african american(A,10)   caucasian(A,6|G,6)   total(A,16|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:35034):
AGGAGTCACCTATGGGAGCCTGCCAAAGGCTTCAAACAGGATCCCTGTCTGCCATTGACACCTCAAGGACTATTGGATCTGCTAGGTCATACGGCCCAAT
Y
GGCAGAGCAGTTTGCACAGCAGTCTGGACTTGTTGCAGAGCCCACTTAAAATTGGCAGCCTTTCAGGTCACTCAATAAATGGGCCCATTTTAACACACCC
Celera SNP ID:            hCV29433790
SNP Position Genomic:     532425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35035):
TTTTCCTTATACAGACATGGACGCAGCTCATAATGTTGAAGGATACCTCTGTTGCTGATACATCTCTTTATTTGCAGGAAAATGTTGAAGGAGGAGACTG
Y
AGTCGTTGCAAATCCGGCTTCTTCAATTTGCAAGAGGATAATTGGAAAGGCTGCGATGAGTGTTTCTGTTCAGGGGTTTCAAACAGATGTCAGAGTTCCT
Celera SNP ID:            hCV16193186
SNP Position Genomic:     313050
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35036):
TCCACCTCTAGGAGTCACCTATGGGAGCCTGCCAAAGGCTTCAAACAGGATCCCTGTCTGCCATTGACACCTCAAGGACTATTGGATCTGCTAGGTCATA
Y
GGCCCAATCGGCAGAGCAGTTTGCACAGCAGTCTGGACTTGTTGCAGAGCCCACTTAAAATTGGCAGCCTTTCAGGTCACTCAATAAATGGGCCCATTTT
Celera SNP ID:            hCV29433791
SNP Position Genomic:     532416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35037):
CCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGACTGCCTGAGCTCGGGAGTTCAAAACCAGCCTGGGCAACATGG
Y
GAAACCCCGTCTCTATTAAATATTCAAAAAATTAGCTGGGTGTGGTGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTG
Celera SNP ID:            hCV503524
SNP Position Genomic:     524667
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35038):
GGCAGTTTAGGTTGCATGGTGACTTGATGACCTACAGTCAAACATTCAGTTTCTACCAAAGCCCAGTAACAGGCCAAGAGTTGTCTCTCAAATGGAGAGT
R
GTGATCTGCAGAAGATGGCAGGGCCTTGCTCCAAAATCCTAGAGGCTTCCACCTCTAGGAGTCACCTATGGGAGCCTGCCAAAGGCTTCAAACAGGATCC
Celera SNP ID:            hCV29433792
SNP Position Genomic:     532268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35039):
TCCATTAAATAATGACTTTAATTCTCTATTCTTTTTGCTATGTTAGTAAGTTTGAAGTTTCATTTTAAAACTAAACATGTGGGCCAGGCACGGTGGCTCA
Y
GCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGACTGCCTGAGCTCGGGAGTTCAAAACCAGCCTGGGCAACATGGCGAAACCCCGTCTCTATT
Celera SNP ID:            hCV503525
SNP Position Genomic:     524584
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35040):
ACAGCGAATAAGGCATTCTGGGAGTTCACGGATGGTACTCTTGGCAGAAACATTGGGCGTAGGATGGGCAAATCCATATCCAGAATAAGTGCCTATTCCA
K
TGAGGACAAACCTCTGCCTTTGCATGATGGAAGAGGTCTGATATAATCAACCTGCCACCAAGAAGCTGGCTGATCACCCTGAGGAAGGATGCCAGACGGA
Celera SNP ID:            hCV29433793
SNP Position Genomic:     531215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35041):
AAAGCTTAACAATACAGAAGAGTCCTCTACTCCTTTGAGTCTAGCCCTATAAAGAAGGAAGAATGTTTTCAATAACTTAAAAGGAAAAACAAAGAAACAA
W
TTATACATTTGCAGGAGAAAAGGAAAAGGTCAAGTAGTAGAGCAACCAACGACCACTATGAAGAAAGTGGAGGTCAGACAATTTGAGAAGAAAAAAAGCA
Celera SNP ID:            hCV29433794
SNP Position Genomic:     528626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35042):
AAATAGTGGCATGATCATTGCAGAAGCATTTCTATGTTCAGTTATCCTTTCAGAATGAATCTACTTTTCAAATCTAAACTAAATTTTAATCCATCTTCTG
W
TAGATAATTTTCTATTTTAAAGACCCTAATTTCAAGTTCACCATTTTCATTTCACCTGTTTTATTGTATGATTATTTTCAGCACCTAAAATGGTGCCTGG
Celera SNP ID:            hCV29433796
SNP Position Genomic:     527753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35043):
AGTTTCCTTTTTTTTTTTCATCCCAATGCTTGATACATAGTAGCCATTTGATAAGTACATGTTGAATGAAAGCATGAATTTATAACATATATACCTTCAC
Y
TGACTTGGAGTTTCATAAGGAATGCAACAGCTTCCAATTCATTTACTTTCTTTTTGCTTAACAAAGTATCTGACACGTAGTACAAAAGTTAAATATTATA
Celera SNP ID:            hCV392750
SNP Position Genomic:     62237
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35044):
AGGTTCATTTTGTGATCATAATGAAACATCATATTCTATGAGCAATTTGTACTGTTTTTGGTTTCTCTTGAGTGAGCCCTACTAATGCCATATGTTCTGT
Y
GACTTCTTATTCAAAATAGTGGCATGATCATTGCAGAAGCATTTCTATGTTCAGTTATCCTTTCAGAATGAATCTACTTTTCAAATCTAAACTAAATTTT
Celera SNP ID:            hCV29433797
SNP Position Genomic:     527639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35045):
CACTACTGACTTCTAACTCATCTTTTTGCTTTCTCTTATTTGGAACAGTTATTCAGCTTACCCTAAGTCCAGAGTGAATTTCCAAAAAATCAAAGGTTCT
S
CAACTTTTCATTTCTCTTCAATTCCAACTCAGGTTCACACGTTTATCACCTAGTGTAGAAGGGCTTTCCTCCACAGTTTTGCTTGGCAAACTCCTTTTCA
Celera SNP ID:            hCV392751
SNP Position Genomic:     61885
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35046):
CCAGTCTTAGCAGGTTCATTTTGTGATCATAATGAAACATCATATTCTATGAGCAATTTGTACTGTTTTTGGTTTCTCTTGAGTGAGCCCTACTAATGCC
R
TATGTTCTGTTGACTTCTTATTCAAAATAGTGGCATGATCATTGCAGAAGCATTTCTATGTTCAGTTATCCTTTCAGAATGAATCTACTTTTCAAATCTA
Celera SNP ID:            hCV29433798
SNP Position Genomic:     527628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35047):
TTATGAGGTCCTTAGAGTGCTAGACACTGTTTGCATGAATTATTTTATATGATCTCACCACAACCTTATAAAAAAGTTTTTATTGTCCGATGTTTTAGAC
R
GCGTAGTTATAGGAGTTAGTTTCAGCCACCAGTTGTATATAGAGAAGCTGCTAGGCAAACATAAGATTTTTTTAAATCTAGCACAAGGACCTGAACTTTA
Celera SNP ID:            hCV392752
SNP Position Genomic:     61261
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35048):
GGGATATTAGAGATATCCCCTAAATGAACCAGTCTTAGCAGGTTCATTTTGTGATCATAATGAAACATCATATTCTATGAGCAATTTGTACTGTTTTTGG
Y
TTCTCTTGAGTGAGCCCTACTAATGCCATATGTTCTGTTGACTTCTTATTCAAAATAGTGGCATGATCATTGCAGAAGCATTTCTATGTTCAGTTATCCT
Celera SNP ID:            hCV29433799
SNP Position Genomic:     527600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35049):
CTGGGTTAGCATTGTATAATAGTTACCTCATATAATGAGATTGGAAGTGTTCCCTCCAAGTGTCTGGTCTTGAACTTTTCTTTATTGGGAGATTTTTTTT
T
CTGATTTATTCTCCTTACTCATTATCAGGTACTCATTACCCAAATTTGTTCAGATTTTCTATTTCTTCATCATTCAGTCTTGGTCGATTCTATGTGTCTA
Celera SNP ID:            hCV392755
SNP Position Genomic:     60252
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,6)   total(-,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35050):
AGCCGATGAGAAAGCTCAGTAATAGAAGCAAATACTAGTACTTGTTTTCTTGTGGAGATAAAATTATTTTTGCATTATTCTACTGTGACCATGCCTATCT
R
TTGGTGACAACTGGAATATCACTTTGTTCTCCCAATGGACATGAGTGTTTGTGTAAGTGTACTCACACATTCACACATATCTGTTTTTGTCCACAGCGAT
Celera SNP ID:            hCV25996597
SNP Position Genomic:     524128
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,12)   caucasian(A,20|G,18)   total(A,34|G,30)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,361|G,376)   total(G,376|A,361) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35051):
ACATATAGTATGCTTTTTATTCTATGTATATACCTATGAAAAAGTTTAATTTATGTTAGGCACAGCAAGAGATTAACAACAATAGAGCAATTATAACAAT
W
TACTATAATAAGAGTTATGTGAATGTTGTCTCTCTCACTCCCCCTCAAAATATCTTATTGTATTATACTCATCTTTCTCCTTGTGATGATGTGAGATGAT
Celera SNP ID:            hCV392756
SNP Position Genomic:     59455
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35052):
AAATAGCATTATTATAATAAAAACTGGTAAAACACACCAGGACAATTTTCAAACCAATGTCAGTGTGTTACCTTTTACTTACTGCCTATGGTAAATCCAG
S
ACTTTCTCATACATCTCCCAGTTTATTTCTCATATCAGTCACATGAAGGAAGATGTTTTCTTTATTTGCCATATGTAAAAAGGGACAGAAATGACATTTG
Celera SNP ID:            hCV439923
SNP Position Genomic:     556524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35053):
GTCTGAAACTGCAGATTGTACTGACACCTACATATAGTATGCTTTTTATTCTATGTATATACCTATGAAAAAGTTTAATTTATGTTAGGCACAGCAAGAG
W
TTAACAACAATAGAGCAATTATAACAATTTACTATAATAAGAGTTATGTGAATGTTGTCTCTCTCACTCCCCCTCAAAATATCTTATTGTATTATACTCA
Celera SNP ID:            hCV392757
SNP Position Genomic:     59426
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35054):
ACATTCCAGGACCCCCAGAGTATGTCTGAAACTGCAGATTGTACTGACACCTACATATAGTATGCTTTTTATTCTATGTATATACCTATGAAAAAGTTTA
R
TTTATGTTAGGCACAGCAAGAGATTAACAACAATAGAGCAATTATAACAATTTACTATAATAAGAGTTATGTGAATGTTGTCTCTCTCACTCCCCCTCAA
Celera SNP ID:            hCV392758
SNP Position Genomic:     59403
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35055):
TTTCTCTGACTAATTTTATTTAGCTTTCAAGCATTTCTTTGTGGCTTCAGTTTTGACTTCAGTTTTTAAACAATTTAAACAAATAAAAATTACATTACAG
R
ATTGTTACTTTTAAACTCTTACTTTCCACGGGGACTGTTATTGTAAAATCTGTTCTTATTCTTTTAATTTAACTCCATTATTTTGTTTTAAATGTAATGA
Celera SNP ID:            hCV11200489
SNP Position Genomic:     54636
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35056):
CAAATTAAGAAACTTAAAGAATACAGATAATGCCCCATCCGCACTCGCCCCCCAAAAAAACCTAGTCCTTAAATATCTGTTAAAATATAATAAACGTGCA
W
GCATGTTTAGAAATTGGGAAAAATGCTTTTTGTTGTTTTTTGCTTGAAGCAGTAAAACATTTTTCTTGCTCTGCAATATTATGCATTTTAGATACTTTGC
Celera SNP ID:            hCV15886502
SNP Position Genomic:     506551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35057):
CCCAGGCTTGCTCACCACCCCAAATCCCACGTCTATACACCAGAGAAAGGATTACCCATCACCAAAGGTGTCTCTCATTCCCTAAATTATGCATAGATCA
R
GTGGTCTGATTGTGTCTGTCCAGATAGGGCACCCTTTTCTAATTTATGTGAAGTGCCATGTGGGATAGCTATACTTTAGGGAAATAAGAACACCACTCAC
Celera SNP ID:            hCV15886503
SNP Position Genomic:     507456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35058):
CAATTCTTCTCTGAATAGCTTCTACTCATCTAATTCTATCACCAAAGCTACAAAATGTTTAGATGTAGTTCAAGAAATTCCAGAAACTACTTTAGAAAAA
R
GTGATCAGCGTAAGAAAGGGCAAATTAATAAGGATCAGAGTCAAGCAGCTGAAACATTAAAAAAAAATCAGAACAGGGTTGGAATATACACATTGTAACT
Celera SNP ID:            hCV15886507
SNP Position Genomic:     557526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35059):
TTATTTTATGTGTTTAATTCAAGATTGGGAAATAATTATCAAGAAAACATTGAAAAATTGTACAATTAAAGCAGGTGACTTATTGTTATGCTCCAAAAAA
W
GTCATCTCCCGGAATCACAGCCTCCTTTTTCTTAAGATGGTCTGAGCTTGGTACCATGGAAACACAGCCCTAAGAAGAAACAAAAGCTGGAATATCTTAT
Celera SNP ID:            hCV15886509
SNP Position Genomic:     465615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35060):
GAATAACAGTTAAATATTCCACAGCTAACTATTATTTAATACTAATATTATGTCTTGGTTAATGGAAGACACCATAGACCACATTTTGAATATTTGTGCT
Y
CTTTTTAATATTGGTAATCCTCCTTCTGAGATAAATTCAGGAAATCTGACCTTTCTCCTCAGCCCTTTTGAAATAAAGACCACTTTTCCAATTAGGAATA
Celera SNP ID:            hCV11200492
SNP Position Genomic:     49485
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35061):
ACTCTGCTCCACATTTTTACAATCTAAGAATAGTCAGATGCCCCTCTTAACTGCAAGGGGCTGAGAAGTGTAGGGAACACAAGAATATTTTTTGAGAGCT
M
CTATCTCTGCTTACATATAATGGCAGAAGAAATATCCTCCTAAATCTATTAAAATCATACTATGCTCTCAAAGATTCTAGCTGCTCCCTTAATTTGATAT
Celera SNP ID:            hCV11200493
SNP Position Genomic:     46873
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35062):
TTAGGTGAAGTAAACAGTAAGTTTAGAGCAAAATTTACTCAAAAAGAAATAGTACACCTGAGAACTATAACCGTTAAATAAATTGCATCAGTAGTTAATA
S
AACAAAATAACAATATGTACAAAAATGTAAAGGACCCATTATGCAATTTGTTCCCAAGAATGGAAAAAGAAGAAAAATTTCCTCAGCTTATTTTATGAGG
Celera SNP ID:            hCV11828702
SNP Position Genomic:     536862
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35063):
TCAACTCCCCCTTGGCCTCCCTAATGTGCTCCTTGGCACCCAAAATCCAGAAGGGGCCAAGATAGTAGGGGGCTAGAGTGTCAGTGCTGCCCCGAGCATA
K
GCACACCTGGCTGGGTTGCAACAGCCTCAGCTTTGCTCTGAAATCAGCCTGGGTGCCGGGAACAGTGAGAGACCAGGAAGAAGGAGCGGGCACTTCTGAG
Celera SNP ID:            hCV259232
SNP Position Genomic:     540449
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35064):
CCTGGCTTGAAGGTGGAGCTTCACTGAGGGCCCACCCCTTTCCACCCAGGAACCTGTATGCCTCCTGCCACCACCAACCTGCCATCCACGGCGCCCACTG
R
CACCCAGGCTGTTCATGCCTAGGGTCACCTTCAGGCCCATGCAGAGCCACCCTCAACTCCCCCTTGGCCTCCCTAATGTGCTCCTTGGCACCCAAAATCC
Celera SNP ID:            hCV259233
SNP Position Genomic:     540296
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35065):
CCTACTTAAATAGTTTAATTAAAATGAACCTCAGAGGAGATAGAAAATCTGTCCTGCAATAAAATCTGTTCTAAAATAATAAAGAAAATAGGTCTAAAAT
R
GGTCTGGAAATGAAACAACAACCCTCATCCTTTACACCAGCAAGAAGTTCTAAATTTCTTTCTTTTTCTAAATTCATGATGCATACATGTTTTAATTTCT
Celera SNP ID:            hCV11828705
SNP Position Genomic:     537287
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35066):
CACGTCTGGCTGAGTCCGGGGTTTTTTATGGGCCTCAGAGGGGAGGAAGTGTATGCTGATTGGTCCATGGGTGGCCATGAGCTGGCCCAAAAAAAGCACC
R
TAAGTTCTCACTCCAGTTTGTGGAACCGACAGTCCAGCCCCCTTCCTTCAGGCAGTCCCTGGCTTGAAGGTGGAGCTTCACTGAGGGCCCACCCCTTTCC
Celera SNP ID:            hCV259234
SNP Position Genomic:     540138
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35067):
CCCTCAACAGAGGTGAGACACACAGTGGGTAGCTCCTATCCACAGGTAGATCATCCTGTTGTCTGCCCACGTCTGGCTGAGTCCGGGGTTTTTTATGGGC
Y
TCAGAGGGGAGGAAGTGTATGCTGATTGGTCCATGGGTGGCCATGAGCTGGCCCAAAAAAAGCACCATAAGTTCTCACTCCAGTTTGTGGAACCGACAGT
Celera SNP ID:            hCV259235
SNP Position Genomic:     540071
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35068):
AGCATCTGTGCAGCACCCTCAACAGAGGTGAGACACACAGTGGGTAGCTCCTATCCACAGGTAGATCATCCTGTTGTCTGCCCACGTCTGGCTGAGTCCG
R
GGTTTTTTATGGGCCTCAGAGGGGAGGAAGTGTATGCTGATTGGTCCATGGGTGGCCATGAGCTGGCCCAAAAAAAGCACCATAAGTTCTCACTCCAGTT
Celera SNP ID:            hCV259236
SNP Position Genomic:     540056
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35069):
GAGGAGATACTGGTTGCATTAAAAATCTTGTAATCAAAACCATTCTGTAAGTGATTTGTGTGATCAGCTTATGCACATCATCTAAATAAGACCAGAATTT
R
AAAACTAAATCAACATTTCCCAAATTGTAGATGTTCCTGGAATAAAGAATTCTGTGATCACATGAGTTTGGGAAGCATCCATTTGCATGTTAAAAGTTCT
Celera SNP ID:            hCV8922892
SNP Position Genomic:     404891
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,13)      total(G,1|A,13) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35070):
TTCTATTTTGAGACCCCTTTCTCTATATGTGGGAACTGTGAGGTCTTAGAAACATAATCTGAGCCCATTTCAAGTTGTTTTCTTCTCCTCTCTCCCAGCT
W
GAATCAAAGTTCTATTAAGCTTACCTAGTACCAAAGGCCTTATATGCAAGGGTAGAGGGGAGGGTATAATGTCTGTGTGTATATGTTGAGCAAGGGGACA
Celera SNP ID:            hCV8922893
SNP Position Genomic:     405264
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35071):
ACTTGTGAGTCTCCTTGTGCCTTTGGGTCCTGAATGCAGAGCATGGGCTACAGAAATAACAGAGGAGGGGCAGTTATACCTACCTGTAGTACTGTTAGCA
R
AATTGTGACTCCAGTTGAGGTGTCAAGAGGCCACTCATATGTGGTTGTGCAGTTTGTACACTGCACAAAGGCACTCAGGGAAGGGGAAGATTGAGGGCTT
Celera SNP ID:            hCV8922896
SNP Position Genomic:     406695
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35072):
ACCCTCTTCTTTTCCATGAAGTCCCTGGGTGTCTAGTCTGTTTACTTTTTCTGCATATGTCTAGAAAGGACAATTTCTTCCAACTTGTAAAAGGCACCAT
K
TGAGCAGGGAAACACCCTCAGTCTTTTGCTGATTATGTCAAATGGGAGGAAGTAAGAACACAGCATTACAGCCACGACTCTTTATACAGCAGCCACCCTC
Celera SNP ID:            hCV8922897
SNP Position Genomic:     406907
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35073):
GGAGAAAAGAAAGGCTTTACTGCAAAATTGTTCAGCAAGGAGACAAGAGTCAGGTTCAAATCTGTCTCCCTAATTTGGGATATGGGGAAGGTTGCAAGGG
R
TCAGAAGGCAAGGCAAAGGATTTAGAAATGCTGGCTTGGCAGAGTCTGATTGGAGGGCTTCAAATTTGATCACTTACAGTAAGGTATATTGAGGCAGATT
Celera SNP ID:            hCV16032006
SNP Position Genomic:     467658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35074):
ATTTTCCCTAGCACTACTCCTGTCATCATTCTTAGTGATTTTAATGTCCATGAACTTAACTCTTCCATACTCTTCACTTTCAGTTTCTTGTGCCTCTCTG
K
TCTCCATTTGAAGCGTTTTTTTGTTGTTGTTTGGTTTTTGTTTGTTTTTTTTTTTTTTTCCCACTGTGTCGTTTCTCTCTAGTTCACTTCTTCTAAATAC
Celera SNP ID:            hCV16032007
SNP Position Genomic:     453202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35075):
GATGAAACGAGAAATACAGGAGTATTACAAGGTTTAGCAAGAGATGAACTTCATTGTTGTCATTTCAAATTTAAGACGCTTCTGTGTTATACAATATTTA
Y
TCAAGAAGCAATTAGAAGCAGAAGTCTGGAACCCATTAGAGATATCCAGGCTGAATACATAAAATACAGAGTTTTGGGCACACCATTAACTGAAGTCATA
Celera SNP ID:            hCV15886513
SNP Position Genomic:     462094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35076):
CATTACTCTGAAATCTACATAGTGGTATTCCTGGGACTCAATCCTTGGAGCAATTTGTTTCTCTAACTACATTCATTCAGATGGTGATCTTACCCAGGCA
Y
GTGGCTTTCTGTACTGAGATATTTTGATATTGACATCCCACAGTATTTACTATTAAGTTTATGATTTAATTTTATATCCACTCATTACTATGGTGTGGGG
Celera SNP ID:            hCV15886514
SNP Position Genomic:     454747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35077):
CCCACAGCTCATCTTTGTTAAGCCCATCTCCCACCTCTGCTCACCTTCTGAAACCATTCTACTGAGCCTTGTGGAACTCATGGTCAAAACAGGCAAAATA
Y
CCCGCAGAATCCTCCTCTTCCCTCAGTGTTCTCTTCATCATGCTCTGACTGAAACCCAACTCTCACTTTGCATGCTGCTACCCCGGCAGCCCTCTTAAGG
Celera SNP ID:            hCV15886515
SNP Position Genomic:     451891
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35078):
CTTCTTTCTTTTTGAACACGTATTCTATTTGCCATCATAAGTTTCAGCAGCCTCGGCTTCCTCAAACTCCACTCTTTGTCTCTCAACTCAGCTATAATGC
R
GGCTTTGGGTTTACCCTCTCTGTGTTGCAGCCTAGAAATTGCCTCTGTACACTGCTTCATGTTTTTTTCCTTCTCTCAGAAATCACAGTCCTGTGCTTCC
Celera SNP ID:            hCV15886518
SNP Position Genomic:     430156
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35079):
ACTTGGAGGCTGAGGTGGGAGGATTGCTTGAGCCCAGAAGTTTGAGCCTGCAGTGAGCTGTGATCATGCCACAGCACTCCAGCCTGGATGACAGTGAGAC
M
CTGTCTCAAAAAAAAAAAAAAGAAAAAGAAAATAAAAGAAAACAATAATAGACAGGAAGATAGCTTTTGCAGGTTCCTGAAGAATCTACCACACCAACAC
Celera SNP ID:            hCV16020640
SNP Position Genomic:     519622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35080):
CTTGGAGGCTGAGGTGGGAGGATTGCTTGAGCCCAGAAGTTTGAGCCTGCAGTGAGCTGTGATCATGCCACAGCACTCCAGCCTGGATGACAGTGAGACC
S
TGTCTCAAAAAAAAAAAAAAGAAAAAGAAAATAAAAGAAAACAATAATAGACAGGAAGATAGCTTTTGCAGGTTCCTGAAGAATCTACCACACCAACACA
Celera SNP ID:            hCV16020641
SNP Position Genomic:     519623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35081):
TTCTCTTCATCATGCTCTGACTGAAACCCAACTCTCACTTTGCATGCTGCTACCCCGGCAGCCCTCTTAAGGAGTAGCCATCACCTTTTTGTTTTTTTTT
Y
CCCCTGAGATGCTGACTCACTCTGTCGTGCAGGCTGGAGGGCAGTGGCGATCCTGGCTCACTGCAACCTCCGACTCCCGGGTTCAAGTGATTCTCATGCC
Celera SNP ID:            hCV16032017
SNP Position Genomic:     452020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35082):
ACAAAGCCTATAACAGATACATGATTAATATGTGTTTAATGGAAGCATAGAAACATTAGAATTAAAATTTTAAGATATTTCCCATAAAGTTGTGTTAATG
R
TTGCTGTTTTTATCTCCTCTATAGGCTTGTAACTGCAGCACAGTGGGATCCTTGGATTTCCAATGCAATGTAAATACAGGCCAATGCAACTGTCATCCAA
Celera SNP ID:            hCV16032018
SNP Position Genomic:     435472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35083):
ACCTTACAACAGGAAACCTCCAGTCCCCTTTCCTATCCTTTGTACTATATTGTCATATATTTTTACTTCTATATATTATACATCTGACAATATAAGCTTA
Y
GATTTTGATTTCAATAGTCAATTATCTTTTTAAACAAGAAAATTTCTCCTATAACTCTTTTTCCTTGTGTATATCAATTTTAATGCTTTAAATTCCTTTG
Celera SNP ID:            hCV16032019
SNP Position Genomic:     428741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35084):
CTCCAAATTTCCATCTTTTCTCGGTTCAAAGCTAGAACCCATCAGTATCTAATCTGAAAACAAGACACCTCTAAAATTTATTTAACCTCATCCCAGCACT
Y
TGGGAGGCTGAGGCAGGAGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTGAAAATGAAAATTAAAAAAAA
Celera SNP ID:            hCV16020651
SNP Position Genomic:     520311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35085):
AGGTAGAGTTTCAAAAAGTAGTGTGGTTAAGATATTCAAGGGTATTATCTGCTGAGAACCTGTGACCTGCAGTGTTAAATTAGCGACAATAGTGAATTAG
Y
GACAATGAGGGCAGAATAGCAGTAAATTCTTGTAACATGGCTATTATAATTACATAAGAATAGGCAACTTTTGTTTTGTTATTGTTTTTATTTGAAAGTA
Celera SNP ID:            hCV16020653
SNP Position Genomic:     506099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35086):
CAAGGATAGGTGCTATTTTAGATAGGTAATCAGAGGAGTGGCTATTACCAGAATGGAGGGAGGACACAAGCCAAAGAGTAGGAAGAGCACATAGTGGGAA
K
ATCTGCAAGTGCAAAGGCTTAGAGGCAGGAACTAGTTGTATGTACCTGGCAACATACTGAATTGGTCGGTGAAGGGAAGGAAAGAAGGGTATGAAATTAG
Celera SNP ID:            hCV16151111
SNP Position Genomic:     522357
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35087):
CTCTTTTTAAATACTCCCATTACCTTTCCAAACCTTTTGTTCAGCTGTTGGGACCATCAACATCCTGGTCACACCTCTATGGATGAAGTCTAATTTGTCA
R
CTACTCTCTTAAATGGTGGTGTCATGAATTGATCACAGTGCTCTGGATGTGCTCTGACTAGCTATGACTGCTCCTGGATCGCCGTTTCCTTTAATCTATA
Celera SNP ID:            hCV16151112
SNP Position Genomic:     363416
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35088):
CAGTGAAGTCCCCATCACCCCCCATGTGCCTACTGTTTTGCCTTCTAGCATTATAATTTTCCAATTTCTACAACTTCTTAAAAATAGAATCGTAGTCTGT
Y
TTTTTGAGGGGGGGTTTGTTTGTTTCTTTGTTTGGCTTCCTTCACTTGGTGTTACGTTTTTGTAATTCATCCATATTGTTGCATGTATCAGCAGTTTGTT
Celera SNP ID:            hCV16032029
SNP Position Genomic:     424527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35089):
GGTAGACTGGAGATGGAGATTTATCCCAGGCTTGCTCACCACCCCAAATCCCACGTCTATACACCAGAGAAAGGATTACCCATCACCAAAGGTGTCTCTC
R
TTCCCTAAATTATGCATAGATCAGGTGGTCTGATTGTGTCTGTCCAGATAGGGCACCCTTTTCTAATTTATGTGAAGTGCCATGTGGGATAGCTATACTT
Celera SNP ID:            hCV16020663
SNP Position Genomic:     507432
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35090):
TATTGTGAACTACGTATTCTTATATTTTCCTCATTATCCTTAAAAATATGGAACACTTTGCATATTTGCCTGCCAGTTTTGCACATAGACAATGCTATTC
Y
ACTCTGAATAATTACAACTTGGTTATATATGTTGCTTAGGTGAGGCTTCTCTGATTTCTGTAACTGTGACCAATTTCTTTAAGACAACAAAGGAGAAAAT
Celera SNP ID:            hCV16020664
SNP Position Genomic:     559568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35091):
GTCTCCTTGTTATAGTTTCATGTGGTAGAAAGGGCAAGGGGGTTATCTGGCATCCCTTTTATAAGAGCACTAATTTCATTCTTGCCCTTATGACCTAATC
K
CCTCTCAAAGGCTCTGTATTAATCTCTTCTCACGCTGCTATAAAGAACTACCTGAGACTGGGTAACTTATGAAGAAAAGACGTATAAATTGACCACAGTT
Celera SNP ID:            hCV16020665
SNP Position Genomic:     512187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35092):
AAAGCGTAAATTCAGCCTTCTGCTGTATTTTGACCCCTTGCAGGTGACTCTGAAGGCTGAGCAGACCATTCTACCCCTGGTAGATGAGGCTCTGCAGCAC
R
CGACCACCAAGGGCATTGTTTTTCAACATCCAGAGATTGTTGCCCACATGGACCTGATGAGAGAAGATCTCCATTTGGAACCTTTTTATTGGAAACTTCC
Celera SNP ID:            hCV25957876
SNP Position Genomic:     438173
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,5)   caucasian(A,40)   total(A,73|G,5)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35093):
GAAGAGGAAGAAGATACAGAACGTGTTCTCCAGCTTATGATTATCTTAGAGGTAGAGTACTGAGAGCATGTTCACCCGTGTTACTTCCTGATGTTACTTA
M
GGTTACCAGTACTGTATTTTTTACCTGCCTGGTTTGACACTGACTTACAGGACTACTAAAAAAAAATATACCTTAGGAGATTTTTGTGCCACTCTTTTGT
Celera SNP ID:            hCV25998529
SNP Position Genomic:     373079
SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,1)   caucasian(A,36)   total(A,49|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:35094):
TACTGATCCTACTCTTAAACGATAAAGCAAGATTAAAGCATTCTCTAAATTACCATGATAAAAAATGGTATTATGAAGTCCTAGAATTGTGATCCAATTT
Y
CCAAATGTATAGCTCTTTATAGCACATATCATTAATACTAATCTCTTTTCTGTTTTTCTCTTTTTTTCCAACACTACTTTTCCCTTTTCCTTATTTTTGT
Celera SNP ID:            hCV332774
SNP Position Genomic:     601634
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35095):
TTTCCCTTTTCCTTATTTTTGTCATCCATTTTAAATTTATTTTACTTTTATGTGTTGTATATAGCTTTATTAGCAACCTTACATTTTTTCTGGAACCATT
S
AAGTTTACACAAGTAGCAAGTAGTAATTTACACCGTAGCCATTAGTGCATAGTCTGTTGTCTACAAACTTGAAGTCTAGCCCCCTTGTCTTTGAAATAAC
Celera SNP ID:            hCV332775
SNP Position Genomic:     601813
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35096):
TCCCGGGTTCAAGTGATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCTCACGCCACCACACCTGGATATTTTTTTTATTTTTAGTAGAGAC
R
GGGTTTCACCATGTTGTCTAGGCTGGTCTCGAACTCCTAACCTCAGGTAATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACC
Celera SNP ID:            hCV1183449
SNP Position Genomic:     452195
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35097):
TGCAAAGACTTGTGTTTGACATGCCTGCAAAGTCCTTTGTTAGCTGATATCCTCAGTAACTCTTCTTTGATGCTAAAGCATCCTAGCATTCCCCTATTTT
Y
GTTTAACTATTTTGCACTGTTTCTTCAGTTGACACTGACCCATATGTGAGAAAGACCCCGGCCATAGCTCTACTCTCTTAAAATATCCATAAGCAAGAGT
Celera SNP ID:            hCV332776
SNP Position Genomic:     602042
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35098):
AGGCACAAAATGAGATAAAAGTAATGACAAGGTAAAACTGGATGAAAATTGGTCAACAAGTGAGGAATTAACTGCCTTGCAAAAGCAGTTTTTATTATAC
R
GAAACCATTTTGAAAGCAGTTATTCAGAAAGTTTCTATCAGTATATGATTTGTAGCTCAAATTATTGTTGGTCTATCAATCACAAATACTATTTTCTGCA
Celera SNP ID:            hCV16199263
SNP Position Genomic:     343275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35099):
GTTCTTTACAGGGAGTCAGGCGACCTTGGTCTCAATGACAACTGTGCCACTATCTAGACATACAAATTGGGCAAGTCAATTAATCTGTAAGCATCAGTTC
Y
TCAAATCTACAATAAGTGCATTATACTATAGCATACATATAGGGTATCTTCAAATATTCATATCATATTATTTTGCAGCTTTCCCAAACTAATTCACAAA
Celera SNP ID:            hCV16020675
SNP Position Genomic:     516286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35100):
TTCTTTACAGGGAGTCAGGCGACCTTGGTCTCAATGACAACTGTGCCACTATCTAGACATACAAATTGGGCAAGTCAATTAATCTGTAAGCATCAGTTCT
Y
CAAATCTACAATAAGTGCATTATACTATAGCATACATATAGGGTATCTTCAAATATTCATATCATATTATTTTGCAGCTTTCCCAAACTAATTCACAAAT
Celera SNP ID:            hCV16020676
SNP Position Genomic:     516287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35101):
TCTTTTTAAGAGTTCTGATGGAACTAGAACTAAAACAGATTCCTCCATTATTTTTTCTTCTTTTTTTTCCAATTTCTTTCTTAATCTTAACATAGTAAAT
W
ATCACTTTTCCTAAGAGTAAACTCAGCACATATAACAGCAGCACCCTGTATTTGATATTAATATTTAAACAACAACAACTTTCTCCCCAGAGACAAATTT
Celera SNP ID:            hCV16020677
SNP Position Genomic:     516748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35102):
GACTCCATTCTCACCCTAGGGAAACACGGATTTTACTGCTCAGGGGATGATGAAAATTGGATTCCGACTTTTACACCTCAGATTATTTCTATTAATTACA
Y
CTCAGATTATTTCTATTACACCTCAGATTATTATCTCAGATTATTATCTATTACACCTCAGATTATTTCTATTATTCAGTCTTAGCCGAAGATTCCCAGC
Celera SNP ID:            hCV320621
SNP Position Genomic:     90616
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35103):
TGCTAAGGGGGTGACTAAAATCTATATTGACCAATACTTGATGAGTATATTTGACAGATGTTTAAAAGTTAACCCTGCTCAAAAATGTAACGGGATCTTT
R
CTAATCAGGATCATAGGTTTGCATGGGTTCCTAGGAGGAAAAGAATGAGTGGGACCAGTTTATACACCAAGCATCAAAGGACTCCATTCTCACCCTAGGG
Celera SNP ID:            hCV320622
SNP Position Genomic:     90436
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35104):
AAAAATAATTAATAACCTAGCATTTCAACAAAATATGCATACAATTTAAATACTGAAAAGACACTTAGTGTAGTGTATTTAAATACTGAAAAGACACTTA
R
TGTAGTGTATTTAAATACTGAAAAGACACTTAATGTAACAGTTCATACTGTTTCACAAAAACATGATTTGACATAGATATGTCAACTGATTGTAAAAACA
Celera SNP ID:            hCV16199273
SNP Position Genomic:     302894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35105):
CCCCCTTGATCCAGTCTCCTCCCTCCCTCCATACGTGGAGATTACAATTTCAAATGAGATTTGGGTGGGGACACAGAGCCAAACCATATCACTGTCTTTC
W
GAAGAAAAAAAAGGAATTCTTGTATGTTGCCCTAAAGATATAAAACTGCTTACAATGCCTAGTGATTTGTATTGATTACTATGTGTTCCCTAAAGTTTGA
Celera SNP ID:            hCV16199274
SNP Position Genomic:     274700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35106):
GATATTTTTAAATGATATCTCACCATCTGTGTACATCACAATGTTGAGCTACAAATGTGGTGGCTCTAACAAAATTTTAAGTATGAAGTCAGATGTATAG
W
GGATCCCTTCTCCATCACGTTCTTCTGTTTTTCATTTCCCGCTTCTCACAAACTACTCCCCAGATGTCAATAATTCTACAATCTCCTCTTCCTACAACCT
Celera SNP ID:            hCV16199275
SNP Position Genomic:     254747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35107):
TACAATTAGAAAGTGGGTAAGTCTCATTCTTAAACATATACTTTTGCATTATAGTCACATGAAACCACTGAGCGTGTTCATGTGTGTGTGTGTGTGTGTG
W
GAGAGAGAGAGAGAGAGAGAGAAAGCCCAAGAGTGAGAGTTTGTCTTGAGGAGAAGTGTTTAAAAGGAATATATAAATCAAGGATGCACTATAGTATCAC
Celera SNP ID:            hCV15948968
SNP Position Genomic:     361401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35108):
TTTTCTTCTTTTTTTTCCAATTTCTTTCTTAATCTTAACATAGTAAATAATCACTTTTCCTAAGAGTAAACTCAGCACATATAACAGCAGCACCCTGTAT
K
TGATATTAATATTTAAACAACAACAACTTTCTCCCCAGAGACAAATTTACCTTTGCTGTTTTCAAAGTATCTGACTCCAACAGGTCAGAAAACAGCAGCA
Celera SNP ID:            hCV16020687
SNP Position Genomic:     516800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35109):
GGAAATGTTTCTAATCACCCTATCCCCCAGCTCTGGCTGAGTTAGGCCTTCTCTGCACAATTCCCATGAAAGCACCTACCACCCAGCAGGCAGAAATATC
S
CTCTTTGACTTTCTCACTAAACTGCAAATTCCTGGTGAGTGACAACTGGATTCTATTCTTCTTCTAACCTCTAGAACCTAGCAGATTGCTTTGGAGACCT
Celera SNP ID:            hCV15948969
SNP Position Genomic:     334636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35110):
TATTTAAACAACAACAACTTTCTCCCCAGAGACAAATTTACCTTTGCTGTTTTCAAAGTATCTGACTCCAACAGGTCAGAAAACAGCAGCAGACCTATAC
R
TCTTCTAACACATAATTTCACCGTCAACAGTAACTCAGCACCCTCTGGCATATAGTATGTATGTAGAAATGTTTGTTGAATGACAGTAACAATTGAATAC
Celera SNP ID:            hCV16020688
SNP Position Genomic:     516910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35111):
AACCAATTTGGAGTCTACTGACATGCTAGCAGTATTCCAGAAATACTGCTGTGAGGCAGGATGCTGGGCCACTGTCCTGTCACAGGCTCCAGCATGATTC
R
CCCTGCTCGGTGACACACCAGCCGTGTGACTTACCCGAAGGTGCACCTGTCTATTTTATGGCAACCGTTTGATAAATGAAAATTACCTGTGTGGAAAGCA
Celera SNP ID:            hCV16020689
SNP Position Genomic:     517286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35112):
AAATTTTTTAAAAAGAGTATGCTCCCGTTATGCATTCTCAGGGTGATTTCTCCCCTAACTTTGCCGTTATAAACTCTGAGGGTCTCTTGTCTTTCCTCAG
R
TGAATGTGGAAGGCATCCACTGTGACAGATGCCGGCCTGGCAAATTCGGACTCGATGCCAAGAATCCACTTGGCTGCAGCAGCTGCTATTGCTTCGGCAC
Celera SNP ID:            hCV16195136
SNP Position Genomic:     437295
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,26)   caucasian(A,4|G,34)   total(A,8|G,60)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,237|G,1250)   total(G,1250|A,237) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35113):
ACCAGGAAGAAATACACATTAAGTATCAAAATCGGCACTTGCGTTTGTAAGTGATGTTGCCCCTGCCGCAGGTGGGGGAAGGCCAGTCTGTCTTTGCAGC
Y
ACTGAAGAGCTCAAGCGTTGCTAATGCAGTATTTCTAACTTTGCTGTCCTAATTGGCTTCCTTTTCTTTCAGGCATGCTTGCCGGGATTTTATCGACTGC
Celera SNP ID:            hCV25970733
SNP Position Genomic:     450849
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,35|T,3)   total(C,69|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:35114):
GAGGTATAATTGACAATTAAAAATTGTGTATATTCTAGATATGCATGACGATTTAATATACATATACATTGTGAAATGATTACCACAACCAAATTAATTA
R
TATGTGTATCACCTCACATAGTTATCACTTTGTGTGTGCGTGTTTGTTTATGCATGGAGGACATTTAAGATCTGTGTTTGGAAAATTCCAAATAAACAGT
Celera SNP ID:            hCV94920
SNP Position Genomic:     55601
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35115):
AAAGAACATATCTAGTCCTGGAGTTAAGATTTCTATTTTTTCTAGATTTATAGAGGTATAATTGACAATTAAAAATTGTGTATATTCTAGATATGCATGA
Y
GATTTAATATACATATACATTGTGAAATGATTACCACAACCAAATTAATTAATATGTGTATCACCTCACATAGTTATCACTTTGTGTGTGCGTGTTTGTT
Celera SNP ID:            hCV94921
SNP Position Genomic:     55549
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35116):
AGACTTACATATATTACAGAGAAGCGTAACAGAGCAAATGATTAAGTTCTAAGTTTCACTGTACACCCTAAAAAAAAGGAGAAATTGATATGGAACATGA
R
TAGTATAGGAAAATGGTCCTTAGGAAGGCCAGACATGAGAGGGTGAGCTCTAGGTGACCACCTGTAGGATCAGGAAAGAACATATCTAGTCCTGGAGTTA
Celera SNP ID:            hCV94922
SNP Position Genomic:     55374
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35117):
GCCAGATATGGGATATAATTCCAGCCTGAAGAGTTTATGCTCAAGACAAGACTTACATATATTACAGAGAAGCGTAACAGAGCAAATGATTAAGTTCTAA
R
TTTCACTGTACACCCTAAAAAAAAGGAGAAATTGATATGGAACATGAATAGTATAGGAAAATGGTCCTTAGGAAGGCCAGACATGAGAGGGTGAGCTCTA
Celera SNP ID:            hCV94923
SNP Position Genomic:     55326
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35118):
TAGATAAACTAACTGAATCAATATGAATAAGGCATAGATTATTTATGGTTGCTTAAACCAAATAAATAATTTGGTTGCTGCCAAAATGGCTGAAAATCAC
R
TGGGGTGTTTGTTAAGCCAACAGGTTTCATGGGCTCCCACCTAGAGAGTCTGTGTAGGCTGCTCTGGGGTTTGGCCCCATGTGTACATTCTAACACTCTC
Celera SNP ID:            hCV16020699
SNP Position Genomic:     517720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35119):
AGCTCAGCTGTCATAATATTTGGCTCCAATTTCATTCATAATGGACAGAATATCTACAATGTTTTGAATCCCTACTTTCAAATGTCAGCACACTGGAACA
W
ATATTAAAGAATGGGTTTGAATCTAAGTAGATGAGTATTTCCTTGAAGCAACATGTTATAGCCTAAATGTTGTTTCCTTCAATTATGTTTAAACAATGTA
Celera SNP ID:            hCV11829567
SNP Position Genomic:     87367
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35120):
AAAACTGCTCAGAAGATTTGAAGTTATCATATAACTAGAAATAATATTTCTTCAACTGCTCTTAAACTTTCCATGTTTTCCTGCTTTCTAAACCTATGAT
S
TATTTCATAATCACATTAATTGCATCGAGGAGGGTGAGTGAGATGGAGAACTTATTTAAATTTTCATTTCTAATGGTTTCTACTCTTCTTTTCCTTTACT
Celera SNP ID:            hCV16183929
SNP Position Genomic:     603770
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,400|C,1039)   total(G,400|C,1039) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35121):
CTGACCAAAAGGAGCTGTGGGCCTGGCCTATACACCTTATTGCCTGTTTTCAGCATCAACTGATTTAGTGAAGCAGCAAAAAGAAAAATGGTGTGTGCAG
Y
ATTATCTTTCTGCCACAGATACATGTTTTTAATTTCCAAGTTTCCAATGCATCATTCAGTTTTATCTAACGGGAATGCAGCTGAGAGAAGTTTGTAACAA
Celera SNP ID:            hCV27539782
SNP Position Genomic:     471054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35122):
AGATCAATTTGTTCACATATTTTGCAAAAGTTAGAGCTTATTACTCATTCATGTACTATTGATGTAACGCATTAGAAGACAGTTAACATTAGGTCCTAAT
K
GCACCTGACCAAAAGGAGCTGTGGGCCTGGCCTATACACCTTATTGCCTGTTTTCAGCATCAACTGATTTAGTGAAGCAGCAAAAAGAAAAATGGTGTGT
Celera SNP ID:            hCV27539783
SNP Position Genomic:     470949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35123):
GCTCAGGGAGTCCATAGGTCTCAGCTCCCCAAAAGGCCACAGCCCTTCTCTCCTGCTCATTGCTGTCAACATGGTGAGCTGGGGAAGGGGGTGTGTTTCA
R
CCCTGTTTGTGTTGTAGCTCTCTCATTTCCACCATTTGCGGGGGGGTCCCAAGTTCTTGTCCCACATCCTGGAAGAATGAGGTTTGCAGACAACTGGAGG
Celera SNP ID:            hCV16199295
SNP Position Genomic:     539764
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35124):
TTTCCACCATTTGCGGGGGGGTCCCAAGTTCTTGTCCCACATCCTGGAAGAATGAGGTTTGCAGACAACTGGAGGGTTAGCAAGGTGAAGAGGTGCTTTA
Y
TGAGTGACAGTGCAACTCTCAGGAGGCCTGAAATGGGTAGCTCCGTTCCACAGGCAGGTAATTCCAGCATCTGTGCAGCACCCTCAACAGAGGTGAGACA
Celera SNP ID:            hCV16199296
SNP Position Genomic:     539890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35125):
AGAAGAGCAGTGAACAGCATCAGTTGCTGCTCTCACAAGGGAGACCCAATGAATATGGTGGCAATTGACTATTGTAATTGAGCAAATAAATGGGCTTGCC
R
CCTGAAGCACATAGAAGCCAATAACGTTGGCACTGGCTTCGGAGAAAAGAAAGGCTTTACTGCAAAATTGTTCAGCAAGGAGACAAGAGTCAGGTTCAAA
Celera SNP ID:            hCV199579
SNP Position Genomic:     467517
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35126):
GAAGAGAACTTTGGAAAAGTTTAAATTAGAGTAGAAATGGGTAAGAGGAGCTCAGGAAAGTATTTATTTGCTTTTCTTTAATTCCCCATTGTGTTCCAGA
W
AGGATTTTAGATGGGACTCAAAAAGTAACTTTTTTGCTTCCAATTCCAACATAATCATTCTCACGAACTTTTGTCTCAGTTCACCAAGAGGAAAAACATT
Celera SNP ID:            hCV16199297
SNP Position Genomic:     447999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35127):
TTTTCATATAGGTTGGCTTTTTCTTTGAATGTTTTCACTTAGCTAGTGTACCAAAACAGTTCTACATTTCCACCAAATTAAAGGTCTGATTAGTTTAATG
Y
CCTTCATTTGCCATATTTTTCTCAAGAAAGATTATACAGTGCATGAACTCATTCTTATTCAGTAAATTTAAATTTGAGTGGCATTATATTCCAACTAGTG
Celera SNP ID:            hCV11829571
SNP Position Genomic:     161782
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35128):
TGAAATAGAGAATAAAGTAGGTGTATGCTGAATCTTATTAAGGTTGACATCCAGTTTGAATACATTCATCCTCTAAGGTATAGTTTTGGGTATAAACCAT
Y
GAGCAAGCACAAAACAGTGAAGCTGAGAGCTGCAGAACATAGAGATCTGGTGGATTCTAAAGGACTGAGAATGATCGATGGCTACTGAAATGAAGTGTGA
Celera SNP ID:            hCV195293
SNP Position Genomic:     49809
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35129):
ATGTCATCACAAAGCATTTTCAAAATGCCTGCTATATTTGTAAATAGGAAGAGATCAGTTCACTAGATGTATAAGAAGGCATGAAGGAGGATAGCAACAG
W
TGAGTTCAGACAGGTAGAAAGCAGGCCTGATTATAAATGTTTAGATCACCAAGGAGTTTGTCTACGACACTACAGGTGACAGGCAACTCACAAAAGTCTT
Celera SNP ID:            hCV11829572
SNP Position Genomic:     162220
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35130):
TGAAAAGAAGTTATTGGGTGAACATGATGGCTCATGCCTGTAATCTCAACAGTTTGGGAGGTTGAGGTGGGAGGATCACTTGAGGCCAGGAGTTTGAGAT
M
AACTTGGGCAACAGAGCAAGATCCATCTTTACAATAATTAAAAAAAAAATAGAAATTAGCTGTATGTGATGGCTTGCACCTGTAGTTCTAGCTACTCAGG
Celera SNP ID:            hCV11829573
SNP Position Genomic:     163228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,4)      total(A,4|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35131):
CAGAACTTTCAGGATCTTCATTGTTCATAGCTACAGGCTCCAATTTGGAATTGGCCATAGACACCCACTCTGAGAAGTTTGGGAATAAGAAAAGAGAAAA
Y
ACATTAAGAACTAAAACTGTAAGGACCCATACTGGCTTCTTAAAGGAAGTTTTACTGAGAATTTTAATCTTCAAAGCCTAACTCTCATTCACATTCAAAA
Celera SNP ID:            hCV16183935
SNP Position Genomic:     602500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(T,369|C,922)   total(C,922|T,369) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35132):
CATTTTGTCTGCTGCTTCTAATCAAAATTATCTTAAACCACTCCAATAGAATTAGGGAAATGAAGGGAAAATGTGGGTAAAGAAAAAAGTAAATCCACCA
Y
TTGAATGATGAGGTTTAAAGACTGGAACAGAACTTTCAGGATCTTCATTGTTCATAGCTACAGGCTCCAATTTGGAATTGGCCATAGACACCCACTCTGA
Celera SNP ID:            hCV16183936
SNP Position Genomic:     602372
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,205|C,536)   total(C,536|T,205)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35133):
CTCTTCTAAGCTTTCCTCTTTGTTGTCTTTATTTTCACTAGGGTTTTCTCTGTAAGGTGCCTAAAATGGCTACTAGTAGCTACAGGTTTAGGACCTGGTC
Y
TTAGCAGTTTAAATCGGAGGAGGAAAAATACCTCCTGTTCTTAAAGTCCCTATTAATCTCTGTTGGCCTTGCATGGGTGATGGGCCCAACCATGTAGGAA
Celera SNP ID:            hCV27938228
SNP Position Genomic:     75802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35134):
AGTGTTTGGATTTTGTCATTCTAATAAGTGTGTATGGTATCTCATTCTTGTTTTAGTTTGCAATTCCTTAATGACATATGATGTCGAGCATCTTTTCATA
Y
GCTTATTTGCCATCTGTATATCTTCTTTGGTAAGGTGTCTATTTAGGTCTTTTTCCATTTTTTCATTGGGTTGTTTTCTTGTCGAATTCAGAGTTTTTTG
Celera SNP ID:            hCV449911
SNP Position Genomic:     495571
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35135):
TTCATATCACTAGCCTGGAAAAATATCAAAATTCAAAATTTGAAGTATGATTTATATTGACTATGTATTGCTTTGGCACTATCACAAAATCGAAAAATAC
S
AAGTTCAACCGTCATAAATTGATGACTATCTGTACCACCAAATAGCCCATTACTCAAATCCTCAACTTTTTCTCTTCAATGTATGTGACCTCTATTTATA
Celera SNP ID:            hCV27938229
SNP Position Genomic:     69365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35136):
TATTGACCCTGATCACCTGACTAACATAGTGTTTGCCAGATTTTTCCACTGTAAAGTTACTCTTTTATGCCCTTTTCATACTCTAATACTATTTTTATCT
R
CCCATTCTTCAGATTCAGTAACATAAAAGGCGCAGAAATAGGACTACTGAAAGCAAAGATCACTTTGATGGGTTGAGAAGGGGGAGGAAATGTAAATACT
Celera SNP ID:            hCV449914
SNP Position Genomic:     496617
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35137):
CACCTGACTAACATAGTGTTTGCCAGATTTTTCCACTGTAAAGTTACTCTTTTATGCCCTTTTCATACTCTAATACTATTTTTATCTGCCCATTCTTCAG
R
TTCAGTAACATAAAAGGCGCAGAAATAGGACTACTGAAAGCAAAGATCACTTTGATGGGTTGAGAAGGGGGAGGAAATGTAAATACTCATTAATTACTTT
Celera SNP ID:            hCV449915
SNP Position Genomic:     496630
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35138):
AAATAGGACTACTGAAAGCAAAGATCACTTTGATGGGTTGAGAAGGGGGAGGAAATGTAAATACTCATTAATTACTTTTTTCCTACCATATTTATAATTA
S
AAATATATCTTCCATGCAGACCATAAATACTCAAGTCAACATGACCAATTCTCTCTTTCCCTGTGGTCAAGCTGCATGACAATCAAAAGGTGAATTAATA
Celera SNP ID:            hCV449916
SNP Position Genomic:     496753
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35139):
TATGAGCCAGATGTTAGCCAGCTGATAGGTTGATGGGCATATACGTTGCTAAAAAAATGTGACCCAGAGTACACTCTAGTGATATCTCCAATGATGAGGC
R
TAAGCTTTGTATTTGACCTTGTTGTGTTCAAAATATCTGTAAATGCTTTGGATGATATCTATCAAATATTCAGATAATATAAAGCTGAAAGTATTATCTA
Celera SNP ID:            hCV16032078
SNP Position Genomic:     459470
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35140):
TGTGACCGCTGTGCCCACGGCTATTTCAACTTCCAAGAAGGAGGCTGCACAGGTCTGTAAATATGACTTAAGTCCTACATATTCACTCTGATAGTTTTAG
R
GTCTGACTTCTGTAACAGTTTGTTCTTTTAAAGGAAGCACAGATTGATACAACGTATTTAACATAATGAGTAATGTCTACTTATTTTTACGTTACTTAAA
Celera SNP ID:            hCV25974101
SNP Position Genomic:     420551
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(A,1|G,35)   total(A,3|G,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:35141):
GTAAACCTTAACTATTAGAATAGGTGTTTTTACATGTATTTGATATCCAATAACTTTTATTTTAGTTCTAGAAGTTTATCAGTTGATTCAGTTATTGTTA
W
GTTTACCATTTTTTTTTTTTTTTTTTTTTTTTGAGAGGGAGTCTTGCTCTGTCACCCAGGCTAGAGGGCAGTGGTGCTATCATGGCTCACTGCAACCTCC
Celera SNP ID:            hCV16032079
SNP Position Genomic:     455521
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35142):
AAAAGTAACAGTTTTAAATGCTTCGAAGATAATTGAGTAAGAAAAGCATAAAATAGGTTTCCCTTGCTTTTGACAACATGGCCATCCATTGAACACCTTT
S
TAAAGTACTCAGCAGATTCATAGTGGCAAGAGGCACACTGAAGAGGTAATAAATGAATGATGAAGAAGAAGAGGGGACTATAGAAATATTCTGTCAAGTA
Celera SNP ID:            hCV11829581
SNP Position Genomic:     176517
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35143):
TTTCCCTTGCTTTTGACAACATGGCCATCCATTGAACACCTTTCTAAAGTACTCAGCAGATTCATAGTGGCAAGAGGCACACTGAAGAGGTAATAAATGA
R
TGATGAAGAAGAAGAGGGGACTATAGAAATATTCTGTCAAGTATCCTTGATGTGAAAGAGAATGAAGGACAGAGGAGGTTGTGGAGTTGCAAAGGTTTTC
Celera SNP ID:            hCV11829584
SNP Position Genomic:     176574
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35144):
TCAAGTATCCTTGATGTGAAAGAGAATGAAGGACAGAGGAGGTTGTGGAGTTGCAAAGGTTTTCAAAGATAAGAGACATTTGAGTTGGTTTAGATGCTTG
K
GGGGAAAGGCAGGGAAGTTGAAGACCAAGTGGTGGTGGGCATGGTGTCTCTCTAGAAGTAAAAACATATGGGTCATTAAGCATAGGCAAAAACCTTATAT
Celera SNP ID:            hCV11829585
SNP Position Genomic:     176711
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35145):
TCATCTCCCAGTCCTCCTTTTTGTGACTAATTCTCTTATCAGTTTGACCTGAGGTGGCAGATACCACAATTTCCTATTAGACAACTTCTCTCACAATTAC
Y
TAAGAGCCATGAATTTGATTTAGAAATGGGGTTGTATGTGTGTGTTTTTCTATCACATATTAAACGCACAATCTGTAAAAAAGATTCAGGAGGATGTTTG
Celera SNP ID:            hCV11829587
SNP Position Genomic:     178876
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35146):
ATGCTGAGGATACCTGCCTGATCGGACACTAAGTTACTTTCAGAATAAGTTTGTAACCTCAGCAACATGTCATACATTATGGAGAAGGCATTTCAAAAAG
R
CAGGCAAGTTCATCTGGTGGATTCTATAGGACAACATGAAACTTAATGGGATACATAGACTTCTTAAGCCCTCCCCGCTCCCCAGCTGGCAAATTTTTAA
Celera SNP ID:            hCV16073810
SNP Position Genomic:     406215
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35147):
TGCCAAGAACACACAATGGGATTGAACTGTCTGTCCAGTGAAGGGTGTTTGGAGCAGTAGATGTCCACATGCAGAAGAATGAGTATAGACCCTTATCTCA
Y
GCCATATAAAAAATCCATTCAAATTCTAAATGAATTAAAGACTGAAACTGTAAAACTACTGAAAGAAAACACAGGGGAAAAGTTCCATGACATTGGTCTG
Celera SNP ID:            hCV11829592
SNP Position Genomic:     189729
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35148):
ATGTTCCAAATGTAGATTATACCTTACCTGAGTATACCTTGTTTAAGTACAACAGAATATAGTTAAAATCACAGTTCTTTACCTGCTTTAGTTGTATATA
R
ATTTTTAAGATCATTTGTTCAGTATCACAAGTAGAATCTGTGGTTAATTAGAAAATATATTTTCCCTTTAAAAGAATTTGTGCTGACTTTTAAAATTATT
Celera SNP ID:            hCV11829594
SNP Position Genomic:     190143
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35149):
AGTCTGAACAAGACTTTCTAAAATAGATTGAATGTGGGCAGTTTTCACAGCTGCCTGATGACTTCCACACACAAAACATCCACATTTCATCCTTTTGGTG
G
AATACTGTGTATTTTCCAATTTTATTCTTAGAGTTTAATTTTTTACTTACATATTATGCTTATGTATATCATATTTGTTATATATATTATATATAACTAA
Celera SNP ID:            hCV11829595
SNP Position Genomic:     192137
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,2)   total(G,2|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35150):
GTTTACATTTTTAATATTTCTATTGACACTTAGAAGATGCTATGTTCACGTAATCATAGAAAGCTTTTAATTAAACCCTCTACTCTTTGGTTTTAACTTT
Y
CTTTATTGATATATATAAAAAATCTATTTTTGTGTCAAAATAGCATTTTAAAGGTTACTGTCATTAAAACTTTAACAACTAAATTATGTACTTGTTTTAG
Celera SNP ID:            hCV25998584
SNP Position Genomic:     300396
SNP Source:               Applera
Population(Allele,Count): african american(T,10)   caucasian(C,1|T,37)   total(C,1|T,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:35151):
ACAAATGGCACATGTGCTGGGAATGGAAGTCAACCTTTTTGAATTTTTCAAATGTAAGTCAGTCTGGAAAATCCCAGTAAATTGGTATATTTGTTTTGGG
Y
TATTTTTGAAGACCTCTTTTAAAATTTGCCTAAAATAAATTCTCGGTATGCTATAATTATAGCAGAACTCTTTTCTCAGTCACCCACTACCACTGTTAGG
Celera SNP ID:            hCV26000657
SNP Position Genomic:     526706
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,17)   caucasian(T,38)   total(C,1|T,55)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35152):
CTGCTCTTTATGATTTCTACCCGTAGGTAGAATAATCAAGAGGTGAGATTGATGTTGTTTTTGATTCTGGACATTAACTAGAGGGAAAATTCGAAGCCCT
S
TAAGAATGGTATCTAACTTAATAGACACCTCTCCATTACCTTTACTCAAAACTAAGACTCTTTGTGGTATGGGCCCACCCCACCTCTAGTAGCCAGCTGC
Celera SNP ID:            hCV283674
SNP Position Genomic:     542037
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35153):
GTCCATGTTACCATGTGGGGTATATTATTATTTAACAAGCCTATTAAGACTATTAGAAAGTTTTCCTGATCACAGGTCTCTCTTCTCTTTGCAGCCTGTC
K
CTGTAATGCCGGTGGCTCTTTCTCTGAGGTTTGCCACAGTCAAACTGGACAGTGTGAGTGCAGAGCCAACGTTCAGGGTCAGAGATGTGACAAATGCAAG
Celera SNP ID:            hCV25968656
SNP Position Genomic:     414247
SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,6)   caucasian(G,40)   total(G,66|T,6)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:35154):
CAATTTGAAAGTGTTTCAATAAACTCTCAATGTAAAACTTCACGTTGTTTTCTGTAGCTTTTCAGTAACTTCTTACACTCATGTTCTATGTGCGGCTCAG
K
GGGGAACTATCTGTATCCAGTGGATTGTTGGTTCTGACACACTAGCCTACGTGCATATGGGGCAACCCCCAACATGCTGGCCCCTGCCACTTGCAATAGA
Celera SNP ID:            hCV27981045
SNP Position Genomic:     326118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35155):
CTGAGCAGGCAAACAATGAAAAAGTCCCCTCCATGCAAAATGTATGTAAAATCAGCTTTCAATAAGTGAACAGTATTTACTACCTGCTGTTCCTTTTCAC
Y
ATTTGCAGTACCATTCTTAGACTCACTGCAGGCATAAACCCTGGGATAAGGAAAAGTTAAGCCTCCGTTCTTCATACCTCTAATAAGGCTTTGCCAATGG
Celera SNP ID:            hCV27981046
SNP Position Genomic:     207522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35156):
CTGCATGAATATATTTTAGTAAAAGTTGGAGCAACAGATGATAAAATTCCACAAATTCAGTGAACTCTGAGAATAAATATGGAAGGTCCGCAGTTAATTA
Y
CCTGCAAAGAAAACGAACCTTGAACTTTCTGTTAATAGACTTTGCTTCCCAATTAAAAGCTAGCAGTTTGAAAGGTTTACCTCATCAGCGATTCCCTATC
Celera SNP ID:            hCV7847932
SNP Position Genomic:     178505
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35157):
GCAGCTATAAAATTAAGAAGATACATGTTTAACTTTGTATAACCCAGTATTTGTCATATTTATTTGAGCCAGGAACATCCAAGAAACTAGCATCCTAAAG
R
ATAAACATTTAGAAATTCCCTTATAACCCACTGGTTCAAATGCCCATTTTCAAACCCTTGCTTATTCAGATCCTACATCAGACAAAGGTTTAGAGGCCAA
Celera SNP ID:            hCV2947746
SNP Position Genomic:     594833
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35158):
GAATCATATTAGAGCCTACAAATGATATCCCACTTATCTTTTTGTCTGTTAAATACTTTAAAAATGTTTTCAGTGATTTGTAGGAGTGGTTATTATCAAA
Y
TTTTATTTTAGAATTGTAGATTATTATTATTATTATTATTTGAAATTTGACAGACTTTCCTTTGTTCAGATCCAAGCTGTGCCGCTTATTACATGTGTAA
Celera SNP ID:            hCV25999545
SNP Position Genomic:     267015
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,15)   caucasian(T,38)   total(C,1|T,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:35159):
CCCTAATGCTTATATAAAGCAGTTAACTTACTTTTGTATTTTTAGTTTCGTATCATTTATTTCTGCTCTCATCTTGGCTAGCAAGGACTGAACATTCCAT
W
TTTCCATGCTGGCCTCCTATTTCACTCACATCATCTCCCCAGGACAATTGTCTTCTCTAGGATGTTCCTGTTGATCAATTGTAGGTGCAAAGTCACCCTC
Celera SNP ID:            hCV16047102
SNP Position Genomic:     604184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35160):
TAAAACAGTATGACAACATTTATTGAATACATGTTATGTGCTAGGTACCAAGTGAGGAGTTTTATGTTTATTTTCTCATTTCATCCTAAGAGCAAACTTC
R
GAGGTAGGTGTGATTCGTCTCATTTTAGTGAAAATTCACTGATGCTCTGAAAGCAAAATTAACTTTCCCAAGGGCCTTGTAGTGCTTAAAGGCAGAATCA
Celera SNP ID:            hCV15826598
SNP Position Genomic:     364345
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35161):
ATCATCATCACTGACATTCTGATAGCCTTTGTTTGTTGAGCACTTACTGTGTGCAGTGCTATTCCTTAATTTATTAAACCTTTGCAATTTGATTATGTAG
R
TACTATGATTATTATTATCATGCCCATTTCACATATAAGAACACTGAGTCTTGGAGAACTTAGATCACTTGCAACATCTGGACTCAAGGGCAAGGACTTC
Celera SNP ID:            hCV16047103
SNP Position Genomic:     600082
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35162):
TATTCTAGTGATGATTTTAATTATCATAAAATAATTTTTAGGAATTATCTATAAAGGTGTGCCTGTTAAATTCTATAAAATCTGTTAAAATCTGAATCTG
Y
TAAATGAATCTTTATCACTAAAATGTTTTTACTTTCATGATACAGCATTGCATAATTACAGTATACTATTTCCATGGTGTGGCACATTATTTCAAAACAG
Celera SNP ID:            hCV27959532
SNP Position Genomic:     597402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35163):
GGGGAGGACCGAAATAGTATGCCAAATTCTTTTCCAGCCCTCAAATTTTATGAGCCTGAGTTGCATTGTGTGGGTAAAAGTCTTGTGCTCTGTGGATCAG
R
AGGAAGTTAGATGTTTTGGATATTTACATAGAAACAAAGAATTTGAAGACTGGAAAGAACTTGAGCAGGACTCTATTAAATGTGTTTTGTGTGAGATGGT
Celera SNP ID:            hCV27959533
SNP Position Genomic:     335070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35164):
TGAGAGGGGTGAAGGGTGGCAGGAAAGAATTTGATTTCCAACTGTATTGAATCAGATGTGACTTATACTTGTTTATTTTTAATATTTTATCAGCATCTTT
R
CAGTTCAAGTGGATGAAAACAGAAGATACATGCAAAACCTGACAGTTGAACAGCCTATCGAAGTTAAAAAGCTTTTCGTTGGGGGTGCTCCACCTGAATT
Celera SNP ID:            hCV16047108
SNP Position Genomic:     614520
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,34|G,2)   total(A,67|G,5)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:35165):
CTACCTGTCTCTTAGAGTTCTTGTTAGCAGAAACAAATTTCTGTGTAATAAAGTGCCTGGCAAAAAGTAGGTCCTAAATAAAATGTTATTTTCCCCAAGG
R
AAAGATTATTAGGAATTATAACATTGGGACACACCTTTGTTTAAAAAGCTCTAATTAACAAGAACCACAGCAGGGGCGCGCATACAGGGGTTGGAGAGAA
Celera SNP ID:            hCV27959534
SNP Position Genomic:     210163
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35166):
AACTGATATGGTTTAAAAAAAAATCTTAAACCCACATTCCAAACAAATAAGAAATAGGGTATAAGTAATCAGGTAATTATGAAACTCTAAGAATCAGCCA
Y
TGAAACTGTAAAAAAAAAAATAAAGCTGACCTATTACAATACTAAAGTAATACAAAGTTTAATGTACCTTTTTGCACATAGCAGGCCTCAGTAAAAAGCT
Celera SNP ID:            hCV16047109
SNP Position Genomic:     612533
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35167):
AATTTTATAGAAGAAGCATTTCTGAAGATAGAAAATAAGGATAATTTTTAAACACAAGAAATCACATGCTTTTCATATCATTATCAATGTGGAAAATGCT
R
AAACAACTTGCTATTAAAAACCATTTATCAGAAACTTGTTTAATTAATATGTCAAATATCTGGGTTTTTAAATCATGTATAACAATGAAAATATTCCTAA
Celera SNP ID:            hCV27959535
SNP Position Genomic:     204749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35168):
AATGAATTTGGCTTATAAAAGATATGAGGCATTTAACAGCAATTGGAGCCAAACTTGGTGTTCTTTCTGATTTTTTTAAAATTAATATACCAGAGGAATC
H
TAAAATGTTATGGAACTTATTTCCTCAAGTTCTGGAAATCATTGGGTTAAACATAGCTAATTTCCCCCTTATGTTATTATAGAGTTTATATTTATATTAC
Celera SNP ID:            hCV11829906
SNP Position Genomic:     637569
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,5|T,5|-,6)   total(A,5|C,5|-,6|T,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35169):
TACCTCGGTGAGGTTCTAGACTTCTGCCCTGCTGCAGCTACTCAGTACTTTAGGCCATGACCTCCGCTCTCCTTCCTCAGCAACTCACCACAGACCTTCC
R
GAAAAATGTTAAACCCTTCTCATCCTTTTCTTGTTATTGGTTTCTATTTTCTTTCTTTCTTTTTTCTTTAGCGTCACAGGGGAAGAGCTGATAATTGTAT
Celera SNP ID:            hCV429495
SNP Position Genomic:     215011
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35170):
TATTATTATTAGGAATTCTGAGGTGGTGGAATAATTCATTTTCCAATGTGTTAACTTCTCATGAGTTTAATGTGAGTATAAAAAGTCTGTTTTAACTGAG
R
GCAGAGTATTCCTTTTTCTCTTATAATACAGGAGCCAGTTACAACACAGGAGGTGAAATGGCCTGTTTGCTTACCTGCAACTTCAGGAATTTCATGCTTA
Celera SNP ID:            hCV429496
SNP Position Genomic:     214262
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35171):
GAGTATCTACCTCCCTGACTGATTGTGAAGATGAAATGAAATAGTCAGTAGAAAGTAGTTAGAATAGTTCACAGCATACAGTATTTATTATTTTTATGAT
T
AACTAATGTTTTATGAGGTCCTTAGAGTGCTAGACACTGTTTGCATGAATTATTTTATATGATCTCACCACAACCTTATAAAAAAGTTTTTATTGTCCGA
Celera SNP ID:            hCV7844602
SNP Position Genomic:     61150
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35172):
AAGTCTCCAAAATTATTCATCCTTTTGGGGACAACTATAACCATGATTTTTTGTGACACTCATAACCTGTTGAATTGGAAAAATATTAATGTTAGAAATC
Y
GTTCTCATGTCACTTTTAAAATTCTTCTCCTTTTTTGCCTCCTGTAGCATGAGTCCTAGTTTGATTAAACTAGACACTTGATTTTCTCCAATGGTAACAT
Celera SNP ID:            hCV429497
SNP Position Genomic:     208256
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35173):
ATTTTGAGAGCCAGTGCAAACTGCACCGCAGGTGTATTGCCTGTTCAAATTTTTCTTTACCACTCTATATTAACACCTAAGTTAAAGGCCGGCACAATAA
R
CAATGTGTTGCTTGATAATATTTGTAAAACAAATGGATTAGTGAACAAGTTAATATGTCACTCTGTGGTCTTTAAAATATATATGGAAATGCAGAATATT
Celera SNP ID:            hCV429498
SNP Position Genomic:     206871
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35174):
AATCCTCACAACTTTATGAAGGAAGTATATGTGTGAGAAAAGATACACACGATTAGATTTTGAGAGCCAGTGCAAACTGCACCGCAGGTGTATTGCCTGT
K
CAAATTTTTCTTTACCACTCTATATTAACACCTAAGTTAAAGGCCGGCACAATAAACAATGTGTTGCTTGATAATATTTGTAAAACAAATGGATTAGTGA
Celera SNP ID:            hCV429499
SNP Position Genomic:     206815
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35175):
CTTAATATCTTCTTCCACGTATGCAATCCAACTGATATGGTTTAAAAAAAAATCTTAAACCCACATTCCAAACAAATAAGAAATAGGGTATAAGTAATCA
R
GTAATTATGAAACTCTAAGAATCAGCCATTGAAACTGTAAAAAAAAAAATAAAGCTGACCTATTACAATACTAAAGTAATACAAAGTTTAATGTACCTTT
Celera SNP ID:            hCV16047110
SNP Position Genomic:     612504
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35176):
CCTCCCCTTGACACTGATACGTATTCAGAGGCACACACATACATGCATGTTCATTATTCCAAATGGGTAGATGTTAATTTAGCACCAGGCTCTGTTGTTT
Y
CTGTCTTGAAACTTTCATGCATGTGAATCTATGACAAAATGAAAAATTCTTTTCTCAAAATGGACATTTTCCAGTATTGGATGAAGTGGTCTGCTCTCTC
Celera SNP ID:            hCV16091495
SNP Position Genomic:     373714
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35177):
AGTTCTGAGGCTGGGAAGCCCAAGATCAAGGTACCAGCAATGTTCGATGTCTAGTGAAGGCCTGTTCCTCACAGAGGGTGACTTCTTGCTATGACCCCAC
R
TTTAATTCATTTAATATCTGGATACTGAGGAAAAGGATAGCTAGCTCTCTGGGGTCTCTTTAATAAGGGCACTAATCCCAATCATGAAGGCTACATTCTC
Celera SNP ID:            hCV382617
SNP Position Genomic:     490708
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35178):
TTACTTCCTGATGTTACTTAAGGTTACCAGTACTGTATTTTTTACCTGCCTGGTTTGACACTGACTTACAGGACTACTAAAAAAAAATATACCTTAGGAG
W
TTTTTGTGCCACTCTTTTGTTTCACTCTGAGACATATCTAGAAGATTGAGTATATTTGTTGGGTTTGAATGATAAAGGAGAACTTTAGACCAGACTTGAA
Celera SNP ID:            hCV16091496
SNP Position Genomic:     373159
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,10)      total(A,10|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35179):
CCTTACAAAACCAATAAAATTCAAATTAAAAACATTAATATAAAGTAACATGATTTTGGCTGAATGGAAATTGCTGCTTGCAACAAGAATAGGATATTGA
S
TATTTTCACACAGTTCTTCCACCAGAGATGATGTGGTAACTCATTTCTCCTACCTTACCACATTTGAACCAGAGAGCCCCCTACAAAGGGTCCTGAAATG
Celera SNP ID:            hCV382618
SNP Position Genomic:     489437
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35180):
TGTGTGGTTCATCCTGGGACTTTATGGAGGGTAGCTGATGCATCAAAAAAAAATTATATATATATATATACACACACACACACACACACACACACACACA
Y
ACATATATATATATATAAAGTTTTACAGAACTTTGTTTTCAACTTTTAAAACAGGATTTCTAAAGAAGTTATGTGGTTTTTTTTCTTTCATGGCAATGGC
Celera SNP ID:            hCV27339100
SNP Position Genomic:     6638
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35181):
TCCTGGGAGAAGGGGAGAATGAAAAATATGTAAACATTGCCCCAACTGAGGTCCCCCCAAAGGCTCACTGATGAAATTTCTTGCCTTAGGTGTGCAGAAG
R
CTATTTTGGACAACCCTCTGTACCTGGAGGATCATGTCAGCCATGCCAATGCAATGACAACCTTGACTTCTCCATCCCTGGCAGCTGTGACAGCTTGTCT
Celera SNP ID:            hCV25965330
SNP Position Genomic:     410485
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,38)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:35182):
ATGGGGTATCCATCACCTCAAACATGTATCCTTTATGTTTCAAACAATCTGATTATACTCTTTTAGTTATTTTTAAATGTACAATTATTTTTTTTTTTTT
A
CTGTAGTTACCCTTGTGCTAGCAAATACTAAATCTTATTCAAACTATTTTTGTATCATTAACCATCCCTACTCCTCCCTGCCACTAACCTTCCCAACCTC
Celera SNP ID:            hCV11829911
SNP Position Genomic:     631044
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,7)   total(A,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35183):
CTACTAATTTTTTATTTTTATTTCTTGCTATTAGGGGTCCCAATGCATCTACATTGTCTACAGCTATGCAGGGGAGGAGGGAAACAATGAGGATCTTCAA
Y
TTAGACTGAGAAAAGCACACTAATGGACTTAAAAAGGCATGCGGGGATTGGGCTTAATTGTAAGGAAGCAAAAAAACGAAAATAAAAAAATCTTATTTAT
Celera SNP ID:            hCV11829918
SNP Position Genomic:     614813
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,16)   caucasian(C,25|T,7)   total(C,41|T,23)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   JBIC-allele(T,411|C,704)   total(C,704|T,411) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35184):
AAGCAGCAAAAAGAAAAATGGTGTGTGCAGCATTATCTTTCTGCCACAGATACATGTTTTTAATTTCCAAGTTTCCAATGCATCATTCAGTTTTATCTAA
Y
GGGAATGCAGCTGAGAGAAGTTTGTAACAACCCAAAACTACATGCTAATATAGTTTAGTTTTCAAGTCTTGTGGAGTCTTTTTTTTTTTAATGGAATAAG
Celera SNP ID:            hCV11691992
SNP Position Genomic:     471124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35185):
ACGTCAGCTATTGTTTGTTGTGAATTGCCACACATTCCCTACCAACAATTGTCTGGCCATTAGAAGACACATGAAACATAAATACATTCTTCTTGATTGA
Y
TAAATGAAGCAGAGCCCAGTCTATGGGATATCATCCAAGTTCAAGCTGGCGGCTTCGTGGCTCCAGCTGAGATTATCAGGAAGTCAATTCACTAACATGT
Celera SNP ID:            hCV11691993
SNP Position Genomic:     463862
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35186):
GCCCCTCTTGTGTCGCAGAAGGACTTGACGACTACCGCTGCACGGCTTGTCCACGGGGATATGAAGGCCAGTACTGTGAAAGGTACCAACAGCCATGAAA
Y
GTACAGAGTAATGATATGTAGGGACTATATGGTAAAGGGTCACAATAGGAAAACATTCATTATTTGAAGAACTTCAATATTTGCATATCCTTTAGAAGTT
Celera SNP ID:            hCV25961053
SNP Position Genomic:     472053
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,36|T,2)   total(C,62|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:35187):
CTGTTTAGAGACCTAATTGAATTCTTGCCAAGTTTGGGCATGATCCAGAGCTGCTCCAATTCTCGGTATTTTCCATGCTATGTATTTTCCCCTATTCTAA
S
ATGTATATAGCATTGATACCTCTATCTGCAGAATGTAAGAAATTGTAACTGTATACATGAGAGTATATTATAAATGCAGTAGTTCCTGCTCCTTGGCGTG
Celera SNP ID:            hCV382620
SNP Position Genomic:     487056
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35188):
CACTTTTATATATGTATTCCTTGGGTTTCCTTTTGATATTTCTCACTATAACAGGAGATTATTTTTATATGAAATAATAAAAAAAATATACTTAAAAAAC
R
CTGTTATCTATACTGTTAATTATTTTAGAATATCACATGTAAATTAGGTGGCAGAAGCCATAGCAGATTTGCATGTCTTAGAAAATAGCAGGTAATTTCG
Celera SNP ID:            hCV382621
SNP Position Genomic:     440263
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35189):
TCACACAGAACAGCAAGAATGAATGCAATGTTGTCGAACCTACATGATGGGAATACTTCAAGGGAGTATTCCGTGTTTTCTTATGACCAAAATTGGCCAA
Y
TGAAATGAGGCTTGTTGGGTCTGACACTTAGGACCACACTGGTAACATTCATGATACCGGTCTCAGTGTCCTGGGGCAGAATTAATCTCAAGCTTTTAAA
Celera SNP ID:            hCV382622
SNP Position Genomic:     439410
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35190):
TCAGGGGAACCAGGCAGGGCCAAGTTGGTCCAGTCTCCTCCAACTGTGAGCATTCTAATCTGTTCACCCCAGTGTGCCATACAATGTTGTCATTTTCCCT
R
TGCATCATGTTGAGAAATGATTCTGAATCACTTTGAAAAAAATCACACAGAACAGCAAGAATGAATGCAATGTTGTCGAACCTACATGATGGGAATACTT
Celera SNP ID:            hCV382623
SNP Position Genomic:     439267
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35191):
CTACAATTAGAAAGTGGGTAAGTCTCATTCTTAAACATATACTTTTGCATTATAGTCACATGAAACCACTGAGCGTGTTCATGTGTGTGTGTGTGTGTGT
K
AGAGAGAGAGAGAGAGAGAGAGAAAGCCCAAGAGTGAGAGTTTGTCTTGAGGAGAAGTGTTTAAAAGGAATATATAAATCAAGGATGCACTATAGTATCA
Celera SNP ID:            hCV27442700
SNP Position Genomic:     361400
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4|-,7)   total(G,4|-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35192):
AACTAGATAAAGCAAAGAAAAATCTGTCAATTACTCAGCCAGTTTCATCTTAGTAGCCTACTGTAAATTGAGGTCTATGTTTTTGAGTGAATGAAATCTA
R
TAAATTAAGTTCACCAGGTCTTATTCTAGTTTATTTTAGATGGAAATGTATGATTTTTAAAAGTGGGAGTAAAATCTTACACATATTTCTGAAATGTTAA
Celera SNP ID:            hCV27442701
SNP Position Genomic:     357769
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35193):
TTTGAGATAGAGAAACCTATTGATTTATGTATGACAATTATTAAACATGCTTTATCTCAAGTAATCCTCAGATCCACCCTATGAAAAGCAGAACCTACCA
Y
TGATTGAGTGCTTACTATCTCCTGTACACTTCCTAATACAGTTACACCAACATCATCGACTATAATTTATGATCCCCATTTTACGGGTGAGAGAATTGAG
Celera SNP ID:            hCV11692003
SNP Position Genomic:     446970
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35194):
TCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTAGAGTTTCTGCCGAGCGATCTGCTGTTAGTCTGATGGGCTTCCCTTTGAGGGTAA
M
CCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGAAGTTGCTCTTCTCGAGGAGTAT
Celera SNP ID:            hCV27442702
SNP Position Genomic:     349560
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35195):
ATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTC
Y
GGCTTGTAGAGTTTCTGCCGAGCGATCTGCTGTTAGTCTGATGGGCTTCCCTTTGAGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCC
Celera SNP ID:            hCV27442703
SNP Position Genomic:     349497
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35196):
AAATGCTTAATTTTATATGATGTGAATTTCATCTAAACTAATGACAAGAAAAGTAAATGCCTGTGACACTGCATTTTTCATTGACAGGGTTCCTCAGTGA
R
GGGGGAAAAAAGCATTTAATGATTTTCAAATGACACATGTAACCTAAACACTATAGGACAGTGATATTTGCCTAATCTAGAACCTTCTACCAGGTTGTCC
Celera SNP ID:            hCV1889400
SNP Position Genomic:     381634
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35197):
GAAATGTCTCTCTTCTCAGTCCTCAGGTGGAAGATAGTGAGGGGACTATTCAATTTGATGGAGAAGGTTATGCATTGGTCAGCCGTCCCATTCGCTGGTA
M
CCCAACATCTCCACTGTCATGTTCAAGTTCAGAACATTTTCTTCGAGTGCTCTTCTGATGTATCTTGCCACACGAGACCTGGTAAAGATCATATGCATAG
Celera SNP ID:            hCV7423323
SNP Position Genomic:     586986
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 NONSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:35198):
AGAAAAAAGATTAGATTCTATTTATTATGTAAATTACAAACATTAGGACACATTTCTCTTAATATCTTCTTCCACGTATGCAATCCAACTGATATGGTTT
W
AAAAAAAATCTTAAACCCACATTCCAAACAAATAAGAAATAGGGTATAAGTAATCAGGTAATTATGAAACTCTAAGAATCAGCCATTGAAACTGTAAAAA
Celera SNP ID:            hCV11829920
SNP Position Genomic:     612447
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,6)      total(A,6|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35199):
TGCTCGTTAGTTGTTTCAGTTTCTTCCTAGCATCGATGGTCTTTACAATTTGGCATGTTTTTGCAGTGGCTGGTACTGGTTGTTCCTTTCCATGTTTAGC
R
CTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCT
Celera SNP ID:            hCV27442704
SNP Position Genomic:     349319
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35200):
GCATCCGCCTTGGTGGCCAGCAGTTCTTACTGGACAAAAACATCAAACCCTAAGAGCCTGAAGTAGTTACTTAAGCAAATAGGACAAGCAACTGAACTGA
K
TTTTTCTTCTGGGAAAGCTTTCTTCACACAGGTACAGAAATAGGCTAAAGGTCAGGAAGTAGGGTGAGATATTTTAGGAGTCATTTGGGGTTTCCAGAAT
Celera SNP ID:            hCV11829921
SNP Position Genomic:     612181
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,9)      total(G,1|T,9) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35201):
TGTTATGCCACATTATAGAAGCCGTGAGAAGTGACATAAAAGTTCTAGAAAGAACAATCACCTCTAGTAGGGCCTGAAGATTTCCTGAAGGGAAGGATTT
S
AGCCAGGCATTGAGGTGGGATAGTGCTGGGGAGTTGGGGGTGGAGTCAGGTAACAGGGAGAGTATTCTGAGAAGAGGGAATGACTTAAACCAAGGCAGTG
Celera SNP ID:            hCV7423324
SNP Position Genomic:     569968
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35202):
GATTCCCAAATCTAACAAGTTATTTGGTAATTGTGAATCACTGATCAACAAAAATCTACCATCACTCCTGAGAAAGGAACTGAAAAATGCAGGCCATAGC
R
AGAATCAGTTGCTTCTTTCTTATGGTTACAAGATGCCATATCATATGCTATAAAATGTCTATCGGTAATTTTTAAAACTGTGATTATTATGAGTCAATAG
Celera SNP ID:            hCV1889401
SNP Position Genomic:     382216
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35203):
CATTTAATTATGTGCTCTTAGAGTTTATTTAAAATTTATTTTCATGCACTAAAATGATTTGGAGATACAAATAGTGAAAAGTATATTTCTTGTAATGTTT
Y
GTAGTAATTTTTATTTGGTTTCAACAGTCAATGAAAATAGGTTAATAAAATGTCTAGTATTTCATAATAACCTACTGTGTGTTACATATTATACCAAGAA
Celera SNP ID:            hCV1889402
SNP Position Genomic:     382421
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35204):
GCTATAAATTTCCCTCTACACACTGCTTTAAATGTGTCCCAGAGATTCTGGTATGTTGTATCTTTGTTCTCATTAGTTTCAAAGAACATCTTTATTCCAG
M
CTTCATTTCGTTATATACCCAGTAGTCATTCAGGAACAGGTTGTTCAGTTTCCATGTAGTTGAGCCGTTTTCAGTGAGTTTCTTAATCCTGAGTTCTAGT
Celera SNP ID:            hCV27442705
SNP Position Genomic:     348399
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35205):
TAATGTTTTGTAGTAATTTTTATTTGGTTTCAACAGTCAATGAAAATAGGTTAATAAAATGTCTAGTATTTCATAATAACCTACTGTGTGTTACATATTA
Y
ACCAAGAAGTTTATATTCATTTCCTTTTAAATCAAGCTCATGGTGTATGGACTATTATATTATCTCCATTGTATAGAAGAAAAAATTGAGGCCTAGAAAG
Celera SNP ID:            hCV1889403
SNP Position Genomic:     382513
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35206):
TAGTGAGCCAAGATTATGCCACTACACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAATAAATAAATAAATAAATAAATAAATAAAAAGAAAAAA
R
AAAAGAAAAGAATAGGAAGAGCAAATATATTAAGTGGAAGTGGATCATTGTAAAGGTCTTCATCCTCGTTGTCTTCATTTTGAGCAGACTAAAGAGGAGG
Celera SNP ID:            hCV11692008
SNP Position Genomic:     442813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35207):
TCCATTCCCCATTGCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTATTATTTCTGAGGGCTCTTTTCTGTTCCATTGATCTA
Y
ATCTCTCTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTGG
Celera SNP ID:            hCV27442706
SNP Position Genomic:     346526
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35208):
AGACCATTAATGTCTTAATTCCAGCTTGCTGAGAACCTCTGGCCAAAAAAGGATCAAATGACTCCATTGTAGACATTCTCTTTTACTTCATTTGGGGCCA
Y
AGTGTTGATTCAGGATCTTTTTTCTCATTTCTACTTGACTTCTTGTGAAGTGTTCTGCAGTTAAATCTTTCAAAAATTTTCTTACTTTCATAGTGCTGTC
Celera SNP ID:            hCV1889404
SNP Position Genomic:     385740
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35209):
CATACTGATAACATAGTAGATTAACATATATTTGTGTGGGTATTATATATTGTATTCTTATAATAAAGTGAGCTAGAGAAAAGAAAATGTTATTAAGAAA
R
TAATAAGGGCTGGGCTCAGTGGCTCATGCCTGTAATCCCAGCACTTCGGGAGGCCAAAGCAGGCAGATCACTTGAGGTCAACAGTTCAAGACCAGCCTGG
Celera SNP ID:            hCV11692009
SNP Position Genomic:     442483
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35210):
AGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCTCTGCACTCCAGCCTGGTGACAGAGCGAGACTCCATCTCAAAAAAA
W
AAAAAATAATAATAATAAGGGTAAATACAAGGAGTGTGTTTTGAATACAAAATATCTATTTTTAGAATCTCAAACCCATGAGTTACTTTCTTCCATATAT
Celera SNP ID:            hCV27442707
SNP Position Genomic:     340017
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35211):
GATCCACCCTTATCAAATGAACATATGTTATAACATGCATTTTGAATTCTAAATACACCCTTAAGTTTATCTTTTTTTTAGTATTTTTTTCTCTTTAACC
W
TGCTTTATTCTTAATGCACATATTTTGACAGATAGAATTAAATTCTTTTTAGAACAAGGTTAATTGTTTCTCTATGTATGCATTCACATACATAAACATA
Celera SNP ID:            hCV1889405
SNP Position Genomic:     399593
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35212):
ACAAGGCAAAGAAGCATGGCTGGAGTGAAACATGTTGCTGAAAGCTAAAGCTAGCACCTGAGTTCTCTGTTGGTTCTTCATCTGGTGTTCAGCTCTATTG
Y
TTCAGACCCAAATTAGAAATATGTGCAAAGAGAGAAGTGAATTTTGAAACATGCCAGAGGGTATGAGATGGCAAGGTTGCTTTTGTTTGGTTAGGTTTAT
Celera SNP ID:            hCV1889406
SNP Position Genomic:     402162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;JBIC-allele(C,528|T,943)   total(C,528|T,943)   (T,-|C,-)   no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35213):
AAAGAAAAAAGAAAAAAAAATCCAAAGTTATAAATGCACAGTCTTACATACTTCTCTTCTGGGAATTTATTCTGTAAGTATATATATATATATACACACA
Y
ACACACACACACACACACACACACACACACACGTGTGTGAAATGACATATATGCAAAGTGATTCATTCCAGAAATGTTTGTAATTGTCACCACAAAGCTG
Celera SNP ID:            hCV27442709
SNP Position Genomic:     328323
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35214):
TCCCCCTTCGCTTGGCACTTCTTCTTCCTGCTGCCTTGTGAGGAAGGTACCTTGCTTCCCCTTGGCCTTCTGCCACGGTTGTAAGCTTCCTGAGGTCTCC
S
CAGCCGTGCTGAACTGTGATTCAATTAAAACTTTTTCCTTTATAAATCACCCAGTTTCGGGCAGTTCTTTATAGCCTTGTGAAAACGACTAATACAGCAC
Celera SNP ID:            hCV7844620
SNP Position Genomic:     58949
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35215):
GCTTTTCTTGTGATAGTGAGTGAGTTCTCATGAGCTCTGATAGTTTTATAAGGGGCTCTTCCCCCTTCGCTTGGCACTTCTTCTTCCTGCTGCCTTGTGA
R
GAAGGTACCTTGCTTCCCCTTGGCCTTCTGCCACGGTTGTAAGCTTCCTGAGGTCTCCCCAGCCGTGCTGAACTGTGATTCAATTAAAACTTTTTCCTTT
Celera SNP ID:            hCV7844621
SNP Position Genomic:     58890
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35216):
TGAACAGTATTACTCTATTCATATAGGCATTCCTTTTTTAGCAATTTATAGTAATTTTTAAGGTATTATTCAAAAGAAAAGGGAGCTGTTAAATACATTA
R
TAGTGATAGCCATTGGAAATTATTTCCATTTCATTTCCTGACAACTTCATGAAAAGGTACAATTTATTCTGAAATGTATGTTCTGAGTAGAATGATTAAT
Celera SNP ID:            hCV1819476
SNP Position Genomic:     574975
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35217):
AACAGTATTACTCTATTCATATAGGCATTCCTTTTTTAGCAATTTATAGTAATTTTTAAGGTATTATTCAAAAGAAAAGGGAGCTGTTAAATACATTAAT
W
GTGATAGCCATTGGAAATTATTTCCATTTCATTTCCTGACAACTTCATGAAAAGGTACAATTTATTCTGAAATGTATGTTCTGAGTAGAATGATTAATAT
Celera SNP ID:            hCV1819477
SNP Position Genomic:     574977
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,11)   total(A,11|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35218):
CAAAATTGTATTGATAACTAAGTGCTGATATTCCATTTTGAGTATATGGGTTCTGATACAATACACAAAGAGGAGAATATTTGAATGTTGCTCATCAAGG
R
CATTCTTACTGTTCAGCTGACCCTGCATTTTAGCTTCTTGTTTATTTTTCATGGTTTTAACCCACCATTAAGTAGCATGGTTTTTAGCATGAAAAATAAA
Celera SNP ID:            hCV27483074
SNP Position Genomic:     391782
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,200|G,1295)   total(G,1295|A,200) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35219):
TTCCTCTTGAAAACTAAAAGAAAAATAGTTTCTTAGTTTAAGTGATACCAAAACCGCTGAAATTTCAATTGTAAAATTTCATTAAACAACCTTAATGAAG
R
TCATTCTCATTAGCTCCATGTAAAATCACCTGCCTAAAACGTTCCCATATTGATAATGGAGAAATGTATGACGTTAGAAGTTTGTTAGTTGCATGCTTCA
Celera SNP ID:            hCV1819478
SNP Position Genomic:     575255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35220):
ACTCTGGTTCATTTTCTATGCATTAAGGATGATGTAACTTTAAAACCTCTCATGTAAATTCTGCCTGTTTTCTAATTCTACAATCCTCTTGTTTATGTTC
Y
ATTCTAATAATTATCGAGCTTTTAAAGAAGAGAAATCTGTTCTTAACTCAAATTTATACATACACTGAAGGAAATAACAAAACCTTGAAGTAAAACACTG
Celera SNP ID:            hCV27483075
SNP Position Genomic:     367025
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,48|T,669)   total(C,48|T,669) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35221):
TTTTTAAGGAAGTTTTTCAGCAAAAGTGTGTGTGCATGTGTGAGAGAGAGTGACAGAGTGCTTGCGTGTTTGGTGGTGTTGAGGGAATTAAGTACTTAAC
Y
GGGTTTAAGGACATTTATACTCATAAAGTGCAGTTCTTCTTTCAGAAAAGATACATTCTGTTAAAGAAGGTGAACCTTATTTGATAAATTCATTCTTTTG
Celera SNP ID:            hCV1819479
SNP Position Genomic:     578006
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35222):
AATTATTTTTCATATTGTGTAGATTCACATCTCTTTAATCAATGGGAGACCAAGTGCCGATGATCCTTCTCCAGAACTGCTAGAATTTACCTCCGCTCGC
Y
ATATTCGCCTGAGATTTCAGAGGATCCGCACACTGAATGCTGACTTGATGATGTTTGCTCACAAAGACCCAAGAGAAATTGACCCCATTGTCACCAGAAG
Celera SNP ID:            hCV27483076
SNP Position Genomic:     266801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35223):
AGTCTCTATTGAATTGCCCTGTCATATATAATAGAAAACAAATCTACTTAGGGAAAACATAATAAGAGAAAGATTAATTGAGGGCATTTCCCTTTAAAAC
R
GTAGCGCAACAGACCTTACAGAATTCAAAATGGTTGATGGCCCTTCAGAGAGCCAGTCGAGAACGCATTACCGTGTGTCAATCTTGGGGTAGGGGTTCAT
Celera SNP ID:            hCV27499804
SNP Position Genomic:     401943
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,186|G,1305)   total(G,1305|A,186) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35224):
AACCCATGAGTTACTTTCTTCCATATATAAGTCCCAACATGTTTTCTATAATCAGTCTATGTCTATTAGATGTGTAATTATATTAATTATGTAAATGCAC
R
TGAATACCAAATTATTTGGTTAATCTTCGAATTTCTTTTAGCAATTATATACTCTCCTCCAGGTTAGATTGAGCTTTCCCTTCAACTCAGAGAAATCAGT
Celera SNP ID:            hCV27499805
SNP Position Genomic:     340190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35225):
GGTAGGGCTGGTGCTTGTTACAGTGGCCAGTAGGCCTGGTTTCTGGTTATAGCACATGGCAGAGTTAGGAGCTCTACCTACATTATGTCCCCACGGCCTC
R
TCTGTGGTTTCCCCATAAGAAAACTACCTTTTGGGAAAACATGATACAAACAGATCAGGTGAATTAGAAGGTCTCCTGCAGATTTAAAATTTTATGAATA
Celera SNP ID:            hCV27499806
SNP Position Genomic:     333827
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,670|G,815)   total(G,815|A,670)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35226):
GAAGCAGCTCATGCATGTCTAGTAGGTTCCTGGTAGCTGGTACCCTAAGCCCTCAGTAATCAGTGTTTTGTCCTGACTAGGTAGGATGCTTTAAATTAGA
S
GTGTAGCTGTAGGCCTGACCTTGGCTGAAGCATAAAGATGTAAAAACAAATCATTATGCATTCCCAGATTCCTCCTTTAAGGTTCCTTCCATTTCTGGGC
Celera SNP ID:            hCV27499807
SNP Position Genomic:     314735
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,271|G,1218)   total(G,1218|C,271)no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35227):
TAAGGACCAAAATTCACTTTTATATATGTATTCCTTGGGTTTCCTTTTGATATTTCTCACTATAACAGGAGATTATTTTTATATGAAATAATAAAAAAAA
W
ATACTTAAAAAACGCTGTTATCTATACTGTTAATTATTTTAGAATATCACATGTAAATTAGGTGGCAGAAGCCATAGCAGATTTGCATGTCTTAGAAAAT
Celera SNP ID:            hCV11692010
SNP Position Genomic:     440249
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,1|T,6)      total(T,6|-,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35228):
TCGGGGCATAGTGGACACTGGTGATGAATTTGGTGTCAGATCCAGAACATGTTGTCTGTACCCCTCTTACAGCAGTGATTTTCTTCCACCTTGTAATATA
M
TTATCTGAAGTCCGCCTCATCAGAAAGTACATAGGGAAACTATCGTGACTCTATTTCTCCAAGTAGAAACTGTGCTAAGGGAACTAAAGCAAAAAAGAAA
Celera SNP ID:            hCV27499808
SNP Position Genomic:     309586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   JBIC-allele(C,261|A,1180)   total(A,1180|C,261) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35229):
TGTGTTAATTTAAAAATATACGGCACTAGAAATAGCAACCCTTTAAAACTAAAGTGCATTCAAATCTACCTTTGCATCTAATTCAGTAATGAATTCTGTC
W
AGGGTTTTATTCTGAATTTTTAAATAATCTTCTAAAGTTTGAACCCAGATAAGCCTTAAAATACTCATTATATTCAAATTTTTCTGTTCAATTATAAAAA
Celera SNP ID:            hCV27499809
SNP Position Genomic:     301055
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,37|A,1454)   total(A,1454|T,37) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35230):
AAAAAGAAAAAAGAAAAAAAAATCCAAAGTTATAAATGCACAGTCTTACATACTTCTCTTCTGGGAATTTATTCTGTAAGTATATATATATATATACACA
Y
ACACACACACACACACACACACACACACACACACGTGTGTGAAATGACATATATGCAAAGTGATTCATTCCAGAAATGTTTGTAATTGTCACCACAAAGC
Celera SNP ID:            hCV27442710
SNP Position Genomic:     328321
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35231):
AAAAAAAGAAAAAAGAAAAAAAAATCCAAAGTTATAAATGCACAGTCTTACATACTTCTCTTCTGGGAATTTATTCTGTAAGTATATATATATATATACA
Y
ACACACACACACACACACACACACACACACACACACGTGTGTGAAATGACATATATGCAAAGTGATTCATTCCAGAAATGTTTGTAATTGTCACCACAAA
Celera SNP ID:            hCV27442711
SNP Position Genomic:     328319
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35232):
AAAAAAAAAGAAAAAAGAAAAAAAAATCCAAAGTTATAAATGCACAGTCTTACATACTTCTCTTCTGGGAATTTATTCTGTAAGTATATATATATATATA
Y
ACACACACACACACACACACACACACACACACACACACGTGTGTGAAATGACATATATGCAAAGTGATTCATTCCAGAAATGTTTGTAATTGTCACCACA
Celera SNP ID:            hCV27442712
SNP Position Genomic:     328317
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35233):
AACAGAAAAATTATGAAGTCTCTCAATGGCCAACTAATGAATATAAAAATACTATTTTTCAAATGTTTATACTGGAATAAGCACACAAGACAGCAGAAAA
Y
CTTTTATTTCATGCAGAAGATCCATAATGCTTTTCTGATTGATGTAGAGACTTTTAGTAAAAGAGTAAATTAAGGACCAAAATTCACTTTTATATATGTA
Celera SNP ID:            hCV11692014
SNP Position Genomic:     440078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   JBIC-allele(C,188|T,1309)   total(C,188|T,1309) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35234):
AATCGCTTGAATCCAGGAGGCAGAGGTTGCAGTGAGCAGAGATCATGCCACTACACTCCAGCCTGGGTGACAGAGCAAGGGATTCCATCTCAAAAAAAAA
A
GAAAAAAGAAAAAAAAATCCAAAGTTATAAATGCACAGTCTTACATACTTCTCTTCTGGGAATTTATTCTGTAAGTATATATATATATATACACACACAC
Celera SNP ID:            hCV27442713
SNP Position Genomic:     328225
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35235):
AAGGAAGTTTTAGGGTCCATTTAGGAAAAAGAAGTCCAGTTTGCCCAGAGTAATTGATAAAGGAAACACATAACCAGAAAGATCAACAGAGGCCAGGTCT
Y
GTCAGGCCTTCAATAATCAGTTAAGCAATTTCATTTAACAACACTGGTACTTGGGATAAGCCTCACTGGTTAGGATAAGCTGAAAGCTTTGAGCATGGAA
Celera SNP ID:            hCV7423333
SNP Position Genomic:     570173
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35236):
TGGAGTAAATGCCTTTCTTATTTGTTCTTAAAAGTAGTTCACTTATTGATAAGGAAATAGATGCCAAGTGAAAAAGAGGAACCTTGTCCGGGAAGCATTA
Y
GTTTTGAGATGGGAAGAGTGAGGGCACCAGAGCATGAATGTTGATATGAGCTAACACACCAATGAGAACCAGGACTTGTCACACATTCATTCCAACCAAC
Celera SNP ID:            hCV11692015
SNP Position Genomic:     437701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35237):
GTATAATCAGAGCTGTGCTTTTTAAATATAAATCCAGAAGCAGTGTATGGGGTAGATGAAAGAAAGAAGAATGAAGGACCCAACTATAGCTGTGGCAAGA
K
AAAAGAAGAACGTGATGTACCACTCCTATATTTTGCAATGTTAACTTGGAAGAAGCAATAAGAGTAAATATTATTTTGTGAATCTCACATTTAGCCACAT
Celera SNP ID:            hCV7423334
SNP Position Genomic:     570378
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35238):
GCTCGGCTTAACTTCAACTTTCTCAGGAAAGCTGCCCCTGCATCCTCAAGTCATATCATTCTCATGGCATAATCACTTTTCAAACCTTTTTCTTTTCTTT
T
ATGATCTCATAATGAGTAATTCTGTTTTATGTCTATCTTACCTCTGGTGATGATATGGACCCTATATATTTTCTTTACCATTGCACAATAAGAAGATAAC
Celera SNP ID:            hCV27442714
SNP Position Genomic:     306605
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35239):
TATTTCTCATCCCATAGTCACCAATTCAAAGCCAGACTTACCTTGTTTCTCCTAGTGTTTTCTAATGAATTAAATGAACTGGGGGGATCTACAGCTCTGT
K
TTTAGCCACTCCCAGTCCACAACTCTTTCCCGCAGGTATCTCCACAATCGCAGTAACATCAGACAGATAGGTAGGTAGATAGACAGATACATAAAAATAG
Celera SNP ID:            hCV7423335
SNP Position Genomic:     586074
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,12)      total(G,12|T,1) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35240):
AAAGTACACAAAAGGAAAATAACTACAAAAGGAAACCAGTAGCCACAAAAATGAGGATATTTGTACACAAAGAACTAGAAAGGGTAGTCTGAAATAAATT
T
GTATTCATAAAAATCTGTGATCATATTCTTATCACATAAATCATAAAAATATGTTTAAAATGTACAATTATAAAAGCATGATTAGAAGATTGAAGAATAA
Celera SNP ID:            hCV27442715
SNP Position Genomic:     304169
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35241):
TTCCAACACTATGTTGAATAGGAGCGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCTGTATGATA
Y
TGGCTGTGGGTTTGTCATAGATAGCTCTTAATATTTTGAATTACGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTT
Celera SNP ID:            hCV27442716
SNP Position Genomic:     292108
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35242):
ATGTTTGGCTTTCAAGCTTACCTTGCTTGATTCACAAAGCTTCTAGGAACTATAAATTGAGATTTTATTCCACATTTAGGAAATTTTAGGCTATTTTTTT
T
ATTTTTACTTATTTTTTTTAGGCTTTTGTTTAAAACCTGTTTTTTGACCAGTGTTTTTCCTTCTCTTTCTAGGACTCCAGCTGCATGTGTGCTAGGGCGT
Celera SNP ID:            hCV27442717
SNP Position Genomic:     285930
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35243):
TCAACACAGTATCATTTCAGTATAAAATCTCATATTTTGAATAAAACAAACATATCTTTACACATTATTAAATGAACTACGCTGACAAATTTTGTTTCTT
Y
TTTTGAGAACCAGAAAAACAATTATACTTAGATGGGCCATCTAAAATGTCCTTCCAGCTTGTGGAGTAGGTTGTGTTTGTTTTTCAATGAACATCTGTTT
Celera SNP ID:            hCV27442718
SNP Position Genomic:     249017
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35244):
TGAAGTCTTTAAAATTGGCTGCTAAAACCAATAAAATTATATTTTTGGAACATAGTTAACCACTTTGTGCACATAAGTGAGGCTGTAGAAACTAGGGTTT
T
AAATGACTTAAAAGATATATATTTCTCCAAACTATAGGTAATTATATCAATATTACTTTGACAGAGATATAGTAATTCTCCATCTTATAGTAAAATTTAT
Celera SNP ID:            hCV27442719
SNP Position Genomic:     232437
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,17)   total(-,17|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35245):
TTAAGGAAGTTTTTCAGCAAAAGTGTGTGTGCATGTGTGAGAGAGAGTGACAGAGTGCTTGCGTGTTTGGTGGTGTTGAGGGAATTAAGTACTTAACCGG
K
TTTAAGGACATTTATACTCATAAAGTGCAGTTCTTCTTTCAGAAAAGATACATTCTGTTAAAGAAGGTGAACCTTATTTGATAAATTCATTCTTTTGTTA
Celera SNP ID:            hCV1819480
SNP Position Genomic:     578009
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35246):
AGCCAAGATCAGACTCTGAGTATTGATTCGAGATCTAATGAATTTGGAATGTTAGAAACTAAACAGCCAGTTTTCTCTTAAATTCTTAAAAACAAGTCTC
Y
GCATTTTATATCTTTTAAATCTGGAATTACCAGAAATGTGATGCATATTTCATTTTCTGTATGTTCCTCCCCTTCACTTCAACACGTACCCTTGAAGAAC
Celera SNP ID:            hCV1819481
SNP Position Genomic:     578852
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,20)   caucasian(C,14|T,20)   total(C,24|T,40)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,12|T,17)      total(C,12|T,17) ;no_pop(C,-|T,-)   JBIC-allele(C,531|T,750)   total(C,531|T,750) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35247):
GAGATAAGTGGAAGGAATGAAGATGTATTTAGGGTATTTCCTGCCCTACAACAGCCTATAGTCTCATTGCTATTCAGTGATGCATTGAATAATGACAGAC
Y
GAATAGATATGATCTGATTCATGTGAAATGTCTCTCTTCTCAGTCCTCAGGTGGAAGATAGTGAGGGGACTATTCAATTTGATGGAGAAGGTTATGCATT
Celera SNP ID:            hCV1819483
SNP Position Genomic:     586861
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,23|T,17)   total(C,55|T,23)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,11)      total(C,5|T,11) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   JBIC-allele(T,722|C,767)   total(C,767|T,722) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35248):
ACATCCTTTTCCAGCTGCATTTCCAACAGGAAACTCTAGAGAAACCTCTCATATGGGACAAAAACTGGCTTTGCAATTCTTTATTTTGGAGTGCTGCTGC
R
TACATTGTTCCTGTGTAAGAGAGGCACAATGCACATTTGCATGTCAGAAGCTCTGTGTAGTTAGTTGTTCAGTAAGAAGAATGTTTAGCTGTTTAACCCA
Celera SNP ID:            hCV1819484
SNP Position Genomic:     589162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35249):
GGAGGTCATTATCCTAAGTGACATAACCCAGAAACAGAAAATCCAATACCATATGTTCTCACTTACAAGGCGAGAAGCTAAACAATGGATACACGAAGAC
R
TGAAGATGGAAACAATAGACACTGGGGACTCCAAAAGGGGGGAGGGAGGAGAAGGGGTGAAGATTTAAAAATCGCCTGTTGGGTACAGTGTTCACTGTGT
Celera SNP ID:            hCV1819485
SNP Position Genomic:     589935
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35250):
ATTTTAAGTAGAGATGTGACAGGGTAATTTCAATTTAAGTATATTACTCGAGGTGTCAGTGTGGAAGACATATTGTCAGAAGACCAAACTGAAGACAAAG
Y
GAACAATTGGATTCAATAATAGTCTAGGCAGGAGGTAAATTATGCTTGAAGTAAGAGATGCAGTGGGAATTGACATCAAAGAAATGCAGAATAAATCCAC
Celera SNP ID:            hCV1819488
SNP Position Genomic:     591906
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35251):
ATTGTTATGAGCACAATTTCTACCCAGATTTTGTTGGTTCTTTTCAAATCCATCAAGTAAAACAGTGTGCGTATGATTTGTGAATACTGCAGTTGCTATA
R
TCACAATAAAAGAGGGTTTCTTGCAAGAAACTATGTAAAACAACTTTTATGAAGAATAGCTGTCCTTAGCCCCAGATAAAAACTACTGTCAGCCACAGGT
Celera SNP ID:            hCV27499810
SNP Position Genomic:     269409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35252):
GTGTTAGACATAGTTGAGATCCATTATAATAATGTCACTACATTTTGAAATAAAATTCTGAAATGCCTTAATACATAAATCCTTTTATGAAGTCTTTAAA
A
TTGGCTGCTAAAACCAATAAAATTATATTTTTGGAACATAGTTAACCACTTTGTGCACATAAGTGAGGCTGTAGAAACTAGGGTTTTAAATGACTTAAAA
Celera SNP ID:            hCV27442720
SNP Position Genomic:     232350
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,16)   total(A,1|-,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35253):
GTTTTAGGTTAAAAAAATTCTTTACCTTTTAGCTTTGATGAATTACTTCATTTTTATATCTAATAGGTTTTTTTAACCTTCACTTTAATTGATTTCTTAA
M
CTCTTTATCTTGCTCATTTTTTAATCTTTTTAATGATTTTAAAATGCTGATTTTAATAATTTTATCTTGGCATATTTATATTTATCAGTTTTTCTGCTTC
Celera SNP ID:            hCV27442721
SNP Position Genomic:     230937
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,13)   total(A,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35254):
CTTATTTTTTATTTTGGGGTTTTAGTATTTTCATGTTTTAGGTTAAAAAAATTCTTTACCTTTTAGCTTTGATGAATTACTTCATTTTTATATCTAATAG
G
TTTTTTTAACCTTCACTTTAATTGATTTCTTAACCTCTTTATCTTGCTCATTTTTTAATCTTTTTAATGATTTTAAAATGCTGATTTTAATAATTTTATC
Celera SNP ID:            hCV27442722
SNP Position Genomic:     230903
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,12)   total(G,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35255):
TTAAGACTATTAGAAAGTTTTCCTGATCACAGGTCTCTCTTCTCTTTGCAGCCTGTCGCTGTAATGCCGGTGGCTCTTTCTCTGAGGTTTGCCACAGTCA
R
ACTGGACAGTGTGAGTGCAGAGCCAACGTTCAGGGTCAGAGATGTGACAAATGCAAGGTAAGGAGTAGAGGCTGACCCATAAATTACTTTCTCCTTACAG
Celera SNP ID:            hCV11692024
SNP Position Genomic:     414290
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,10)   caucasian(A,36|G,4)   total(A,60|G,14)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:35256):
CCCCTTTGCCCAAATACCACTAAGACACCCTTAAGCATCAATATAACTATCTACTACCAAGTGCTTTTACAAAACATAAAGCACTTAAAAAAACTAATGA
Y
TTAGTTATTGCACACCTCATGAAAGGTGAGAGGTGGTTTTTACTTATTCTAGCACGGTGGCAGTAGAGATGGAGATAAGTGGAAGGAATGAAGATGTATT
Celera SNP ID:            hCV7423343
SNP Position Genomic:     586689
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)   JBIC-allele(T,492|C,1011)   total(C,1011|T,492)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35257):
GCATATGATGGGCCAGACATGATGCTAAAGCCTTTATGTTAATTATCCCTACAGCTTGTAGAGTTGTTATAGGGATTAAATGATAGAATGCCTAACAGGG
Y
ACTTAACAAATCAGAAAACATTCTGTTACTGAACTTAGGCGTCCATGTTACCATGTGGGGTATATTATTATTTAACAAGCCTATTAAGACTATTAGAAAG
Celera SNP ID:            hCV11692025
SNP Position Genomic:     414106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35258):
AGGATCTGGGATACAATGGGTTCCCGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTTCCGATTTTCAAGCGATTCTCCTGCCTCAGCTTC
Y
GGAGTAGCTGGGATTACAGGCGCCCACCACCACCCCCGACTAATTTTTTTTTTTTGTATTTTTTAGTAGAGACGGAGTTTCACCATATTGGCCAGGCTGG
Celera SNP ID:            hCV27442723
SNP Position Genomic:     215929
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35259):
ATAAATTTAAAGTGTCAAGTCAGAAAAACATTACAAATCAAATTTAAATAGTACCACAGTTATTACCTAGAAATTCATTTGCCAGTCATTCACCAAAAGT
Y
TGTTGAGTATCTACTATGTGACAGGCTCCATACCAAATACTAGGAATCCAGTGGTTGTTCAAATCTAAGATTTGCTTTACAAGATCATTAACCATATATT
Celera SNP ID:            hCV7423344
SNP Position Genomic:     597148
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35260):
TGAATTTCAGTGTCTTCATGCTCAAAATTGGAATGATGATGATGACATTAATATTTTAATGGCATATGATGGGCCAGACATGATGCTAAAGCCTTTATGT
K
AATTATCCCTACAGCTTGTAGAGTTGTTATAGGGATTAAATGATAGAATGCCTAACAGGGTACTTAACAAATCAGAAAACATTCTGTTACTGAACTTAGG
Celera SNP ID:            hCV11692026
SNP Position Genomic:     414045
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35261):
CCTCCCTAGTGCCATGCTGTCTGCTGAAGAATCAAACTGTGCTCTCACATGCTTACCACTGCCTTCTTGCTTTTTGCAGGCCTGCAGATATGCAAACATT
Y
ACACAGCCTTTGCACCTCTTGTCAAAGCTGTTTATCTATTGACATGTTTATTTAAAACTAGCTATGGTGCCAGATGAAGGAATCTCTGGAAATACTATAT
Celera SNP ID:            hCV7423345
SNP Position Genomic:     598507
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35262):
AAATTTGCTGCTAACCTTTTGTTTTTCTTTGACCAATAACATTTCTCAGCTTAGTGTATGGGCTATGTAAAGTGCCTGTCAAATGGAGGGATGTCTTTGT
K
GAAAGAATCCAGACTCACAGAAAGTGAGTGACTTTCTGGTCAGATGGTTAGAACTCTCCCAATTTTGACAAAGATCGTTCTCTGTTTGGGATTTGTAAAG
Celera SNP ID:            hCV27489119
SNP Position Genomic:     372509
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,247|T,1248)   total(G,247|T,1248) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35263):
ATTGCCCCAACTGAGGTCCCCCCAAAGGCTCACTGATGAAATTTCTTGCCTTAGGTGTGCAGAAGGCTATTTTGGACAACCCTCTGTACCTGGAGGATCA
Y
GTCAGCCATGCCAATGCAATGACAACCTTGACTTCTCCATCCCTGGCAGCTGTGACAGCTTGTCTGGCTCCTGTCTGATATGTAAACCAGGTACAACAGG
Celera SNP ID:            hCV27973215
SNP Position Genomic:     410520
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35264):
CCATTGTTGTACTCTGTGACAGTTTCATTGAAAGGACTGTCATGTTCCATGAGGAACTCAGCCTACCTGCTCTTTTACCAGTAGCTGGTGGGAAAGCCAT
R
CTGTGCCAATGACTTATTCACAGGAGGCAGGTCAATCTTTTGAAACCACAGATTGTTTCAAATGAGAGAAAAATATGTGAGAAGAGAATAGATGTCAAGG
Celera SNP ID:            hCV27442726
SNP Position Genomic:     212414
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35265):
GATATGTAATATTATCTTATTTTTTAGCTATCTCCCAAGAAAAAGCCTCAAATAAAAAAAAATCTTTTTCAAAATAAATAAACGTTTTCAGATTTTTTTT
T
CTAACTTTTGAGCAAGGTTTTTAAAAACTTTTTGGTATATAGTTTGTTTATGCTGCCTATGCAATTATCTTGTCTTTGGTGAAAAAAATAAAACTTATTT
Celera SNP ID:            hCV11829944
SNP Position Genomic:     600897
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35266):
GAAAGTCCCTAGAGAAGGATAAGAAAATGGGGCAATACATAAGCTTGGAAATAGATGATGATATTTCTTTTTTTTTTAATTTAATTTTATTTATTTATTT
W
TTTTATTAATCATTCTTGGGTGTTTCTCACAGAGGGGGATTTGGCAGGGTCACAGGACAATAGTGGAGGGAAGGTCAGCAGATAAACATGTGAACAAAGG
Celera SNP ID:            hCV27442727
SNP Position Genomic:     210734
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35267):
GGATGATGGAGAAAGACTGAATTTTGCAAGCAGGTTATAATAACTCCTGAGAGTGATTGTAATAGGGTGATTAGGTCATGCATGGACTACAAGGGATCAA
R
TAGAAAAGGAGTGGTAAAGTAGTAAACAGCAGAGGGTACAGGCTACTCTTAAGAAAGTCCCTAGAGAAGGATAAGAAAATGGGGCAATACATAAGCTTGG
Celera SNP ID:            hCV27442728
SNP Position Genomic:     210581
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35268):
AAATGTTATTTTCCCCAAGGAAAAGATTATTAGGAATTATAACATTGGGACACACCTTTGTTTAAAAAGCTCTAATTAACAAGAACCACAGCAGGGGCGC
R
CATACAGGGGTTGGAGAGAAATTCAGTTAGTGCTGTCTTCTGGACACTCCTTCTATCTTCATTCTCTCCTCTGCCATTGTTAACCTTCCATTTTAGGCAA
Celera SNP ID:            hCV27442729
SNP Position Genomic:     210243
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35269):
GAGATAAGGAGTTCCTGTCTGCTTTCTAAACAATGCAGTTTGAACAGAGAAGTGCCTCATCTTTCCTTTTTTCCATCTATTTCTGAATTCTTATCTTCAT
M
ACATTAAAAATACCTTGAGAGACCCAAAAGAAAAGCAAGAAGGCATGAGGACTGTACCTCTGTCACAACACTTAGCATCCTGGTCTAAAATGTAATTTAC
Celera SNP ID:            hCV1819490
SNP Position Genomic:     595187
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35270):
TACAATCATATTTTACAACAGTGACACTTTGCAGATGAGTCTAAATCCCAGTAGTTCCTGTGGATAGTAAAACTTACAGAAAGAGCCATAGATTAGGCAT
R
TTTCTAATTAATTATCTGATTCCTAATTAGATATCTTTGTTATTTAGCATTTTTAACCTTGCTTTATTTTCTAACTACTTATCTAGATTATAGAAAACTA
Celera SNP ID:            hCV1819491
SNP Position Genomic:     595441
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35271):
ATCCTCTCTCCTCAGCATCTCCAAGTAACTGGGACTCCAGGCACACACCAACATGCCCAGCTACTTTTTTTGGAGGGGAGGGCAAAGACAGGGTCTCACT
M
TGTTGCCTCAGGCTGGTCTTGTCTTGAACTCGTGGCCTCAAGCGATCCTCCCTCTTCGGCCTCCCAAAATGCAGGGATTACAGGAATGAGCCACTACACT
Celera SNP ID:            hCV1819494
SNP Position Genomic:     600601
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35272):
ACAAAGCTAGGTATCATCAGATCCAGGCTCTAAGTCCTTACTTGGGGACATATTGGTCATTTGGCCTGAAACAGGCCATTTAACCTTCTGAAATTCACTT
R
GTCTCTTCTGGGAAGTGCACCTACCCCAGAAAGATTTTGTGAAATTAATTCCAGTAATGTAGTACAAGTGCTCTGAATCTCACAGCATGCTTCACAAATA
Celera SNP ID:            hCV27937653
SNP Position Genomic:     526059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35273):
TTGTGACAATAAGTGTGTAAAGGACACTGTTGGTGCCCTGCCTAGGCACCTACACTGAAGCCTTCTCTCCAACAGAAGAGGCAGAAAGGCCTGAATGTTT
M
CCCGCCCTTCCTGCAGTGGCCCATGACTAACCAGCGTGAGAGTACAAAAGTCCAGCTCTTTGGCCCCTAAGTGGAACAAGTTTTGAGATCTTATTTTATG
Celera SNP ID:            hCV27937654
SNP Position Genomic:     473104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35274):
AAAATGCAGGGATTACAGGAATGAGCCACTACACTCGGCCAGTAAACCTAATTTTTAAACATCTGTTTTTTAGACTATATAATCCAAAAGAATGTTTCTT
R
GACTTTGTTTTACTTAAAAGCCTTAAAGAGATATGTAATATTATCTTATTTTTTAGCTATCTCCCAAGAAAAAGCCTCAAATAAAAAAAAATCTTTTTCA
Celera SNP ID:            hCV1819497
SNP Position Genomic:     600767
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35275):
AATGATTATGCATCTTCTGTCTTGTAGCTCCCAGCAGTAGGAGGACAGTTGACATTTACCATATCATATGACCTTGAAGAAGAGGAAGAAGATACAGAAC
R
TGTTCTCCAGCTTATGATTATCTTAGAGGTAGAGTACTGAGAGCATGTTCACCCGTGTTACTTCCTGATGTTACTTAAGGTTACCAGTACTGTATTTTTT
Celera SNP ID:            hCV25990513
SNP Position Genomic:     373001
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,22)   caucasian(A,3|G,37)   total(A,15|G,59)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:35276):
TAAATGACGAGTTAATGGATGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACATTGTGCACATGTATCCTATAACTTAAAGCATA
M
CAATAAAAAAAGAAACTTAAAAAAAATGAAATGTCCGTATATTTTCTTGATTTTTTCCAAATGTTTTGAAGAAAGTTTTTGTATTATTAAATGCTATTCA
Celera SNP ID:            hCV27442730
SNP Position Genomic:     204220
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35277):
AGTAAATCATTAAATCAAAAAAACTAACTAAATTTTTCTAGATTAATAGTAACATTAAAATTTTGCCAGGGGTGCTATTAATTTTGAAAATTCCTCAAAA
Y
TATTTTAGTTCTAAAGTCAGTATGCATTACTTACAATGGGATAATAGTATTTTAAGTGTTACCCTGATGTATCTGTAAAGAACTAAAACAGCGTTACACC
Celera SNP ID:            hCV11692032
SNP Position Genomic:     413755
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35278):
TCATGTCCTTTGTAGGGATATGGATGAAGCTGGAAACCATCATTCTCAGCAAACTATAGCAAGGACAGGAAACCAAACACCGCATGTTCTCACTCATAGG
W
GGGAAACGAACAATGAGAACACTTGGACACAGGGTGGGTAACATCACACACCGGGGCCTGTTGTGGGGTGGGGTGAGGGGGGAGGGATAGCATTAGGAGA
Celera SNP ID:            hCV27442731
SNP Position Genomic:     204008
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35279):
GAATCTTAAAAAAGGCATAAATATTTCACCTCAAACCATTTTTTAAACTTAACACAAAACCGGCACACAGTAAATCATTAAATCAAAAAAACTAACTAAA
Y
TTTTCTAGATTAATAGTAACATTAAAATTTTGCCAGGGGTGCTATTAATTTTGAAAATTCCTCAAAACTATTTTAGTTCTAAAGTCAGTATGCATTACTT
Celera SNP ID:            hCV11692033
SNP Position Genomic:     413687
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35280):
ACTATATTTAAAATAAGTATTTGCGTTAATAGTAAAGAAGTGTGAGATAGTTCTCCTAGCTTCTCAGGAGCATTTTAATTCTTACTAGCATTAGCATAAA
R
GCTGTGAGCAATGGGCCTCCATAAATGGCTGAACAAACCTCAGAGATGTGCAGGGCTGGTATCCTCTGGCTAGAGCTAAAAGCCTGGTGTTTTGGCATTT
Celera SNP ID:            hCV7423352
SNP Position Genomic:     598701
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35281):
GCAGTTCTTTTGTTTGTTTATTTGTTTGTTTTTTAAAAGGAGAACCTAGAGCCAGGAGAATAAAATATTAGCATAGGCTGATAGAGTACCTGTTTATAGC
W
TAATTTTAGGTTGTGTTCAAATCAAAATATTCAGAAATTTAACAAAATCATCTATGAGTAGCCTAAATTCCCATGTCATCTCCTCCTTGTATTTTTATTC
Celera SNP ID:            hCV11692034
SNP Position Genomic:     413192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35282):
ACTGTTCTCTCAATATCAAGAGGTAGCAATTTTAAATGTTCTGTGTTTTAAACTTTAATGTATAACTTACGTCAGTCAATCCTGATAATACCACTATTCT
Y
ACTAGTCATCAACATCATTATCATCATTGTCATCATCATGTAACAATTATATAATGGTTAATATTGGCCACAAATCAATCCTAGTTCCTTAAAATCTATT
Celera SNP ID:            hCV518836
SNP Position Genomic:     42172
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35283):
AAATTGTTATATTGTATTGAATCCTGCTCTTATATGTCTTGTTTTTTACTTCTCGTTATTTTTTATTTTAGTTTACTACATTTTCTTAGCTTCTTGAAAT
S
GATACCTATGTTATTAATATTTCAGTTCTTTTTTCCTAATATATTTATTAACGCCTACAATTTGCCTCTACATAGGGCTTTAGTTGCCTCCTACAAGTTT
Celera SNP ID:            hCV27442732
SNP Position Genomic:     194313
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35284):
ACTTCACAGCTGTTGACCATCAATCCAACCTTTATTTGATTAAGCTCAGTATATAGTACATCACTGGAAACCAGTCATTTAGTTAATTGGCCATATAAAC
R
AACAGTTTTGCCATTCATTGTTAATTACAGGATAATATATGACATATTAGTGTGTAGTCACTGAACTCTGTGCCAAAACAGTAATACATTTGCTACCATA
Celera SNP ID:            hCV7423353
SNP Position Genomic:     611235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35285):
AAATCTGACTCATGATGTTTCTCCTCTCCCATCACTTTTCACTGTGTTCTGCTGATCTCCATACTGTTTCCTCAATGATGGGCCCAAAAAATGCTGGAAG
K
TTTCTTCTATTTCTCTCTTTGAGAATCATGAGGCACTCATTGGGATTGTGGTTCTTGGATTGTTTCCCTCTTTGTATGTATTTATGTATGAGCCATATAC
Celera SNP ID:            hCV518837
SNP Position Genomic:     41966
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35286):
TGCTGGTATTCAAATCCCAGCACTGTAACCGACCATCTGTGTGAATTTGGGAAAGCTACCTGTCCAATCTATTTCTCAGTTTCCCATCCAAGTACTAACC
R
GGCCCAACCCTGCTTAGCTTTTGAGATCAGAAAAGATCGGATGCTTTCAGGGTGATTTGGCCATAGACTATTTCTGTTTCCTCATCTGTCAAATGAGGAT
Celera SNP ID:            hCV7423354
SNP Position Genomic:     616033
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35287):
TACTCCTATCCTCCCGTAAACACTATCTAGAAAATTGTCACCCAACCTATTGTAGAACTAAAAACCTAGTGGTCTTCCTCATCTTCATTGTCTTCATTAT
Y
TCCACTACACGAAACATTCCCTTGTAACAAATATAATATTCACAGCATTGTGCAAAAAATGTACATTTTAAATTTCTAGTATAAAATTTGATTTGTGACT
Celera SNP ID:            hCV518838
SNP Position Genomic:     41432
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35288):
ACCCTGTGTTTGTTGGAGGCTTCCCAGGTGAGTGTTGGCTACCCCAGCAACAATTTCTTTGCTCTCTTATGTTACTGGTTTTGAAAACATTTATATTTAC
R
TGTGTCTAAGAATGTGTGCTTATGTGTACTTGCTTCCTAGCTTTAGAATCTGCTTAGAATCTGCACCTTACCTAAAATTTCCAGTGTGTAAAATGAACAT
Celera SNP ID:            hCV16187371
SNP Position Genomic:     637286
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,8)   caucasian(A,24|G,4)   total(A,44|G,12)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35289):
CTTTGCCATGTTGCTCAGACTGAACTCCTGGGCTCAAACAATCCTCCCCACCTCGGCCTCCCATAGTGCTAGGATTATAGGCATGAGCCACTGCACCTGG
Y
TTTTATATTCTTAATATTTCTTGTTTCTTCTATTTATTTTCTTTACTTTAAACTCGTTGTTATAAAGTGGTATGGGTTAATCAAGAGTGATGGAAAGATT
Celera SNP ID:            hCV518839
SNP Position Genomic:     40836
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35290):
TATGAGACAGCTGTCATTGAAGAAATTCTGTTGAGAATCTGAATTACTCTCCTTCTGTATTATTTTAATGTTTGATATTCACATGATGGTTGTTTTAACC
R
TTTTTTTTTACTTTAAAGAAAAAGCTATAAACTAGTTATATGATCTTTTCTTCTTCCTTTCATATGATGCTGCTAACTCAATAGAGAGACACCCGATTAC
Celera SNP ID:            hCV27442735
SNP Position Genomic:     182499
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35291):
CATTTGTATGTGTGAACCATCATGATACTTCTTTAATGAAACCATCTGTGACTGTTCTATTTCCTACTTTCCAGTTGATGTTTCATGTGGACAATGGTGC
R
GGCAGATTCACTGCTGTCTATGATGCTGGGGTTCCAGGGCATTTGTGTGATGGACAATGGCATAAAGTCACTGCCAACAAGATCAAACACCGCATTGAGC
Celera SNP ID:            hCV16187372
SNP Position Genomic:     637016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:35292):
ATCCAAGATGTTCTCACTGGTCCGTGGCAAAGTAAGAAAATGAGAACAACTTTCCACATTTTTCATAAAAATAGAAAGGATACAATTTAAATAATTGTCC
K
CCATTTTGATATTATGGGTTTTAAAAACTAATGATGGTTTTTAAATGCCCTTTGTTTCATGAAATAATAATGATGCTTTATTAAATGATAGAAATATATT
Celera SNP ID:            hCV27442736
SNP Position Genomic:     180188
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,14)   total(G,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35293):
CTTTTACAAAACATAAAGCACTTAAAAAAACTAATGACTTAGTTATTGCACACCTCATGAAAGGTGAGAGGTGGTTTTTACTTATTCTAGCACGGTGGCA
R
TAGAGATGGAGATAAGTGGAAGGAATGAAGATGTATTTAGGGTATTTCCTGCCCTACAACAGCCTATAGTCTCATTGCTATTCAGTGATGCATTGAATAA
Celera SNP ID:            hCV16187373
SNP Position Genomic:     586752
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,287|G,1212)   total(G,1212|A,287) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35294):
ATTTGTGCATGTACATAGAATTCTTTCTGTATTCAGATGGTGCTAATTCAGACTCCAGACTGAATTTTAATTCAAGTTCTTTCTCAAGTCTATAAATAAT
A
TTAAACTGATTATTTCATTCTAAATAATTGCCTGTTTTGTGTGATTTTAAGGATAAAAGGTAACTGGCCATAAATTGTTGAGTTTGCAACATGCCCTCCA
Celera SNP ID:            hCV27442590
SNP Position Genomic:     639159
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:35295):
AAGGGACCCTGGGAATTGCCTTCTAGCAGAGAGGCCAACTCACATTTCAAATAAGTATTTTTCCCTCCTCAACTGCTTTTCTAAGCTTTGCACATTAACA
Y
TGACCTAGTGCACCATTTAAAAGTCCTAAATATATCACACAGTCGCCAGCCCAATCAAGGTGAGTGGTCAGACACCAGCATGCTGTGCACAGTATGCTAG
Celera SNP ID:            hCV494533
SNP Position Genomic:     96831
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35296):
GGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCTACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAATACAGGCACC
Y
GCCACCATGCCTGTGCTATTTTTTTTTTTTTTCATAGAGATGGGGTTTCACTGTGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCA
Celera SNP ID:            hCV27442737
SNP Position Genomic:     179680
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35297):
AATTTGTGCATGTACATAGAATTCTTTCTGTATTCAGATGGTGCTAATTCAGACTCCAGACTGAATTTTAATTCAAGTTCTTTCTCAAGTCTATAAATAA
T
ATTAAACTGATTATTTCATTCTAAATAATTGCCTGTTTTGTGTGATTTTAAGGATAAAAGGTAACTGGCCATAAATTGTTGAGTTTGCAACATGCCCTCC
Celera SNP ID:            hCV27442591
SNP Position Genomic:     639158
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:35298):
AACAAATGATAGACATTACTTCCTTCTGGATGAGCAAAACCTTGATGCTTTCAGTAGAAGGTATTTGGAACTATGGTTGAATCTTTTCTGGGGGTATTGA
Y
GGGACTAGAGTCAGGATGAGGTGGATGAAATGCCAGGTACTTTCATCTGTATGACTTGAGAGTGTATGCATCAAATTTTGCACCCTCGAGCACCTCTCTC
Celera SNP ID:            hCV494534
SNP Position Genomic:     95400
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35299):
TGACCTGAGGTGGCAGATACCACAATTTCCTATTAGACAACTTCTCTCACAATTACCTAAGAGCCATGAATTTGATTTAGAAATGGGGTTGTATGTGTGT
K
TTTTTCTATCACATATTAAACGCACAATCTGTAAAAAAGATTCAGGAGGATGTTTGGGAAATGTTTTCTGTGATATTTATTTTTCTTCAGAAGAAGTGCC
Celera SNP ID:            hCV27442738
SNP Position Genomic:     178920
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35300):
TAATTTGTGCATGTACATAGAATTCTTTCTGTATTCAGATGGTGCTAATTCAGACTCCAGACTGAATTTTAATTCAAGTTCTTTCTCAAGTCTATAAATA
A
TATTAAACTGATTATTTCATTCTAAATAATTGCCTGTTTTGTGTGATTTTAAGGATAAAAGGTAACTGGCCATAAATTGTTGAGTTTGCAACATGCCCTC
Celera SNP ID:            hCV27442592
SNP Position Genomic:     639157
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:35301):
TGTTCTTTGCTGTATAAATGGTTTTGTATGAGTTACTTAACCACACTGAGCCTCAAATTCCCATCAGTTATATGTGGATTATAATGTCTGCCTCATGCTT
R
TTGTGAACATTCAATGTAATCATTCATATGAAGAAGCAATGAACACAGGGTCTGGTGCACATAAATGTTCAACAAATGATAGACATTACTTCCTTCTGGA
Celera SNP ID:            hCV494535
SNP Position Genomic:     95229
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35302):
AAGTTATGATTTGTATTTCCCCATTTTTATTTACCTGTAGTGTTTTCTAAACCAGTCACAGTCTGGATTTACTTTACATTATTATTATTTATTATTATTT
W
TTATTATTATTATTATTATTATTATTATTTGAGATGGAGTCTCACTCTGTCACCCGGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTTCGC
Celera SNP ID:            hCV27442739
SNP Position Genomic:     177980
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35303):
TCTTGTTAACAGAAAGAATGGAAATATTATGGGGATGATCCTCGAGTCCATAGAACTGTGACCCGAGAAGACTTCTTGGATATACTATATGATATTCATT
R
CATTCTTATCAAAGCTACTTATGGAAATTTCATGCGACAAAGCAGGTAAACTCTAATAGAAAATATTCAAGCTCTTATTTTAGAGTCTGTAAGGAAGGTT
Celera SNP ID:            hCV25962971
SNP Position Genomic:     438766
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,38)   total(A,71|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:35304):
AGGAAGATTCTACATGAATATCCAACCTACTTAACCTTTAGGGATTTATTTTTACAATGTAAGAAAGTGATAAAGTCACCTTCAAAAAGTTCTAAGTAAG
T
CAGTACTTAAAAGTATTTGATCAATTGCTTTGTTTCATGAAGTAACATTTTACAATTTTAAGTCACAACTATAAATTTGTTCATCCCAAACCAAGTTATT
Celera SNP ID:            hCV27442593
SNP Position Genomic:     638248
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35305):
GAGGAAGATTCTACATGAATATCCAACCTACTTAACCTTTAGGGATTTATTTTTACAATGTAAGAAAGTGATAAAGTCACCTTCAAAAAGTTCTAAGTAA
G
TCAGTACTTAAAAGTATTTGATCAATTGCTTTGTTTCATGAAGTAACATTTTACAATTTTAAGTCACAACTATAAATTTGTTCATCCCAAACCAAGTTAT
Celera SNP ID:            hCV27442594
SNP Position Genomic:     638247
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35306):
ACACTGTTTGAAAAACCTTATTTTGTAAAAAAAAATCTGTTCTATTCACTGTCTCACAGATTTAGGACAGTTTATTAATTAAGAACACTAGATTTCAAGT
Y
AAACAGACCTGACCTTAAACCTTGACCTTGTTCTTTGCTGTATAAATGGTTTTGTATGAGTTACTTAACCACACTGAGCCTCAAATTCCCATCAGTTATA
Celera SNP ID:            hCV494536
SNP Position Genomic:     95100
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35307):
AGAGGAAGATTCTACATGAATATCCAACCTACTTAACCTTTAGGGATTTATTTTTACAATGTAAGAAAGTGATAAAGTCACCTTCAAAAAGTTCTAAGTA
A
GTCAGTACTTAAAAGTATTTGATCAATTGCTTTGTTTCATGAAGTAACATTTTACAATTTTAAGTCACAACTATAAATTTGTTCATCCCAAACCAAGTTA
Celera SNP ID:            hCV27442595
SNP Position Genomic:     638246
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35308):
ATATTGCTATTTTATGTGCTTTGAAGCAATTACACTGTTTGAAAAACCTTATTTTGTAAAAAAAAATCTGTTCTATTCACTGTCTCACAGATTTAGGACA
R
TTTATTAATTAAGAACACTAGATTTCAAGTCAAACAGACCTGACCTTAAACCTTGACCTTGTTCTTTGCTGTATAAATGGTTTTGTATGAGTTACTTAAC
Celera SNP ID:            hCV494537
SNP Position Genomic:     95069
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35309):
AAGAGGAAGATTCTACATGAATATCCAACCTACTTAACCTTTAGGGATTTATTTTTACAATGTAAGAAAGTGATAAAGTCACCTTCAAAAAGTTCTAAGT
A
AGTCAGTACTTAAAAGTATTTGATCAATTGCTTTGTTTCATGAAGTAACATTTTACAATTTTAAGTCACAACTATAAATTTGTTCATCCCAAACCAAGTT
Celera SNP ID:            hCV27442596
SNP Position Genomic:     638245
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35310):
TGCCAGGATTTTACCCCTCATATCTGTCAGTTATCGGCTACAAGTCCAAGGGGCAGGGGGAAGTGCAAGTGATGTATCTTGCTGGAAGTCTCAGGGTCAG
R
AGGCTCTCATTCAAAGAGGCAGGTCTCTGGAATGATGCAGCTGCAAGCCATTAGCAGCCAACCCTTGCCTCAGCTGAGAGATGGGTACCAGGATGAAAGG
Celera SNP ID:            hCV494538
SNP Position Genomic:     94700
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35311):
CTTTACGTATCTTGCCTATTAACTCCCAACAATGCCCCAAAGCAAAGAGCATAATTTGTGGCTCCTGGTGATTAGATTTATACTTTAATTTGTCAAGTTT
W
AAAATTTTTTTCAATATGCCCAGTTACATCCATTTCAAATGATTCTGGCTGATGTCTTTCCTAGAGACCTGATCATTTGTATGTGTGAACCATCATGATA
Celera SNP ID:            hCV27442597
SNP Position Genomic:     636842
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,7)   total(A,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35312):
CATTTCCAGTATGGTTTTATATCACTGGTCATGAAGGTACAGTTAGGAAAAAGAAATAGGAAATAACCTCTACATAATAATTTTTTAATCCTTTAATTTT
W
TTGTGGGTACACAGTGGGTGTATATATTTATGGGTGACCTGAGATATTTTGATGTAAGCATGCAATGCATAATAATCATATCAGGGTAAATGGGGTATCC
Celera SNP ID:            hCV27442598
SNP Position Genomic:     630854
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5|T,5)   total(A,5|T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35313):
ACAGCAAAATAAATAATTTTGCAAGAACACTCATATGTTTATACTATGTTGTTTTTCTACCTTCCAGTTTCTGGAGATGAGATATGATTTTTTTCTTCTT
T
TCAATTCCCTGCAAGGCTGTATTTCATAATCTCCTCCCCATCAACACACACCCATACACACAATGCACACCCATGTCTGTTTCTTGTTGATAGTGACAAT
Celera SNP ID:            hCV27442599
SNP Position Genomic:     630610
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35314):
TTCTGTAAAGGTTAACTTTTTGGCTGAAGTTAGAAATTAAGCATTGAATTAAGTTCTTCATATTCTCTACCTTCAATGCTAATTTTTACCTTAATCAAAA
A
GAAAAAGTGGTGGCCCTCTGTCCTAACATCTACTCCCCTGGCCTGCTTGAGTCTCAACTAAAATATTGACATTTGCCATCACACATTTTGCTTTAGCTGT
Celera SNP ID:            hCV7846259
SNP Position Genomic:     568081
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35315):
TTTCAAGTGATACTCCCACTTCAGCCTCTTCACTAGCTGGGACTACAGGCTCTTGCCACCCCACCTGGCTAATTTTTCTATTTTTTTTGTAAAGATGGTA
Y
TTTGCCATGTTGCTCAGACTGAACTCCTGGGCTCAAACAATCCTCCCCACCTCGGCCTCCCATAGTGCTAGGATTATAGGCATGAGCCACTGCACCTGGC
Celera SNP ID:            hCV518840
SNP Position Genomic:     40736
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35316):
TTTTTTTTTTTTGAGACAGGCTCTTACTCCGTTGCCCAGGCTGAAGTGCAGTGGCAGGATCATGGCTTATTGTGCCCTTGACATCTCAGTTTCAAGTGAT
M
CTCCCACTTCAGCCTCTTCACTAGCTGGGACTACAGGCTCTTGCCACCCCACCTGGCTAATTTTTCTATTTTTTTTGTAAAGATGGTACTTTGCCATGTT
Celera SNP ID:            hCV518841
SNP Position Genomic:     40647
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35317):
TGTTTGCTAGCTCTTGTATAGAATGTAAGAGGAAAGGACATATGTCAGAGCCCTTTGCTTTTATGTAAAAGCCAAGGGAGTTCAGGTAAATGGAGTCAAG
R
CAATAAAGGGAAACAGATTTCAAGGGAAAAAAATCAGGAAAATGAGGCATTAGGTATGTGATGAAGGAAAGAATTTTTAGGAAGAAAAAGTAACAGTTTT
Celera SNP ID:            hCV27442740
SNP Position Genomic:     176331
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|-,6)   total(G,1|A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35318):
AGTGATCCACCCGCTTCAGCCTCCCAATAGATATATTTTTTGTTAATATTATTTCATATATAATATATTAAAAGGTAGATATATATTATATGTAGAGAGA
K
ATATTTTACATATCTATAGATCGATCTATAGATATCTATATCTATAGATCGATCTATAGATATCTATATCTATAGATAGATATATAGAGGCCAGAAAGTA
Celera SNP ID:            hCV27442742
SNP Position Genomic:     174439
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35319):
GCTGGCAAATTTTTAACAACTTCTCCTTAAGTGATGAGAGAGGGGTCAAAAGCCAGGACTAATCTCACAATTGCCACTGAAAATGTGGAAGGTGTTTGAA
Y
CTAATTGCTTAATATTTTGAAAATTCATCTACAGTTTTATCCTCAAGATTCATACTAGATATCAAAGAAATTCCTTTTTGTATCTTAAATTTCAGTTCCA
Celera SNP ID:            hCV11692045
SNP Position Genomic:     406400
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35320):
TTTTATTTTGTTTTTGAGGCAGAATCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCGCCATCTCCCGGGTTCAAGC
R
ATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACGTGACACCATGCCTGGCTATTTTTTGTATTTCAAGTAGAAATGGGGTTTTACCATGT
Celera SNP ID:            hCV27442743
SNP Position Genomic:     174207
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35321):
ACACAGCTAAAGATGTACTGGCACAGATTACAGAGCTCCACCAGAACCTCGATGGCCTGAAGAAGAATTACAATAAACTAGCAGACAGCGTCGCCAAAAC
R
AATGCTGTGGTTAAAGATCCTTCCAAGAACAGTAAGATCTCCTTTTTCATTGTGATGATGTCATTTATTTCCTCTCACTGTAAAAGTATCCCAGACCTGT
Celera SNP ID:            hCV16187380
SNP Position Genomic:     563603
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,24)   caucasian(A,5|G,33)   total(A,9|G,57)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,275|G,1206)   total(G,1206|A,275) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35322):
GGCCCAGGTCAGCAATGCAGCAACTCCCATTTTTCTTGATGAGGATGTTTTTGCTCTTTAGGTCTCGATGAGCAATTGCGGGCTTTCCTTGGGTGCCATA
M
GTTTCTGTGTGCAGGTGGCACAGACCACAGGCAGCTGAATAAGCCAATTTAAGCAGGGCTCTGGTGTCCAGCGTAGCACATTTCAGGAAGTCATAGAGAG
Celera SNP ID:            hCV27521050
SNP Position Genomic:     280897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION;INTRON;TFBS


Context             (SEQ ID NO:35323):
CTATCTCCCTAGATAGAAATATGTGGAGGTTGGATTTCCTGCTGAGTTTCTTTATTTTTTTCCTTTCTTTTTTTTTTTTTTTTTTTTAAGATGGAGTCTC
M
CCCTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGC
Celera SNP ID:            hCV33415
SNP Position Genomic:     27290
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35324):
CCCATGATAAGCCCATCTTAGTAATATTTTTATTCTCAGATCCTTTACTGTCTGGCATAATATGTGCTCAAAACATATTTGATGAAGGAATAGTTGTACC
R
TTAAATGCAAAATGGTGATGAATGACAAAATAGAAAGATATACAGACAAACTTTATTTAATCGCATATCATTTATTAACCTAGAAAATAAAATGTCTAAG
Celera SNP ID:            hCV27442744
SNP Position Genomic:     169790
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35325):
AAATGCCATTGCCTGATTTCCTGGTGGCTTTTATTTTCCTTCTGAAATCATTTACAAATATTTCTTAGGGTATTGGCTACTGTTGGTTTGAAATGAGATA
M
AACTTATGGATTATAAATATGTTTGTGCAAATTTTCTCTAGCAGTAATTCTAAAACCTTTGTGGACATTAAGCTGTAATTGTAGCTTTCTCTTGCAAGCT
Celera SNP ID:            hCV33416
SNP Position Genomic:     26356
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35326):
AGACCATACTTATATGCCATTCCCTCTGCCTGATACGTTTGTTTTTTCTTTCTTCATTTTCCCTAACAGATAAACTTCTATTTCTCCTTGAAAATTCAGC
W
CAAGATTACTTCCCATGATAAGCCCATCTTAGTAATATTTTTATTCTCAGATCCTTTACTGTCTGGCATAATATGTGCTCAAAACATATTTGATGAAGGA
Celera SNP ID:            hCV27442745
SNP Position Genomic:     169678
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35327):
TTTAAAGAAATTGCCATTGATTTACATGGTTGTATGGAAGAGTTTTGTTTAAATGCCATTGCCTGATTTCCTGGTGGCTTTTATTTTCCTTCTGAAATCA
Y
TTACAAATATTTCTTAGGGTATTGGCTACTGTTGGTTTGAAATGAGATACAACTTATGGATTATAAATATGTTTGTGCAAATTTTCTCTAGCAGTAATTC
Celera SNP ID:            hCV33417
SNP Position Genomic:     26306
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35328):
TCAAGATGAGATTTTGTGAGGACACTGAGCCAGACCATATCACTAAGAGAATAAAAATGGACACAGAATGCCACTTTCCTATTCCCTTTAAATATTTCCA
S
TTGAAAGTATTTCCATGACCTAGTGAGTTCTTAGAGAATTCAATCACTATTGATGTCCCAACTGGTATAATAAAAGAAGAAAACACATAATTTTGAGACA
Celera SNP ID:            hCV33418
SNP Position Genomic:     25126
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,2)      total(G,2|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35329):
GCTGTTCACCTGCTGATTGCGTGTCCATCCTGCTGAGCCAAGAACAGCTGAGAAAATCCTCAGTGTGCTTTAGTCAGTTCATTGAAAGACCTACAATGAA
K
CTCCTGGAGGCATTTTATTTGATTTGTCCATCTCAGGGTTTACAGTTTTGCCTCAAGTTGGCATTGCCTTTGTGACAGATTAAAGATGTGAGTGTATTAA
Celera SNP ID:            hCV27520252
SNP Position Genomic:     476262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35330):
CTGAAGGCCAGAATATAATAAGCATTGTTAATTTAGTTAAAGGAAAAGGCTGCTGTTGAAGGTTAGACTTCTTGTGTATGTGTGGGAGATAACAGAATAA
Y
GTCTCTTTTCCAAGATGCATATGGTTTTCTTTTGCTTATGTGCCAATTTTAATCAATGGAGAAATTAATATGTTAAATGAAATAATTAACCATTTTATAA
Celera SNP ID:            hCV33419
SNP Position Genomic:     27732
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35331):
TTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGATGGAGTGCAGTGGCGCGATCTCTGCTCACTGCAAGCTCCGCCTCCCAGGTTCA
Y
GCCATTCTCCCGCCTCAGCCTCCCGAGTAGCTGCAACTACAGGTGCTTGCCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACC
Celera SNP ID:            hCV27442748
SNP Position Genomic:     160574
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35332):
CCTCTCATCACCATTATTATTAGAATACATGGCTAGATTGCAATATTAGGTAGGCAAATTGAGAGTCCATGTTTGTTCCTCATAGCAATGTGATTTGTTC
M
TTATGTGAGGTATTCCTTCAAATTTAAAAAGGATTGTGTTCTAATCTAAAAGGTCATTCATAAGCCACTCATTCGAAACATCTTCCCAGATACTTAGTTT
Celera SNP ID:            hCV27520253
SNP Position Genomic:     180647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35333):
ATCTCCGCATGTTAGTTAAAAATATAATAATATGCCAAGTACGGACAATGAAGACAGCTACTCCACAATATTCATTTAATTTAATTTTTTTTTTTTTTTT
T
GAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGATGGAGTGCAGTGGCGCGATCTCTGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCCGC
Celera SNP ID:            hCV27442749
SNP Position Genomic:     160487
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35334):
AATTTTTAACCAAGAAGTAACCTTACTTATTACTAGTATGCTCTTTCCTTAAAAGCTTTTCTGATTTATGTTATTTTAATTATATCAATCTTGTTATTAT
K
TACAGTTTTTAATTATTTTAATAATTTCAACCTTTCTGCAACTTTCCATTTTAGATATGTCTCATTAATGGCATATAGTGAAGTTTTGACGTTTTGTCTA
Celera SNP ID:            hCV27960136
SNP Position Genomic:     193515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35335):
GCACTTTATGGACATTAATATTTCTATGGAGAAAGCTTAAAAAGTGTCACTTGTGCATTGAAACTCTTTTGTAACAGCTTCTTTACTCTTCTGTTGTTGT
Y
ATGATATCCTCCAGATTACTTAAATTTTTAACCAAGAAGTAACCTTACTTATTACTAGTATGCTCTTTCCTTAAAAGCTTTTCTGATTTATGTTATTTTA
Celera SNP ID:            hCV27960137
SNP Position Genomic:     193392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35336):
GATTTAATTAAATGTAGGCCTTTAGTCTAAGGGTTTTTCAACATCAAAATGTTCTTCAAAAGACATTTTGATAGCTTCTCTCTTTAAGATGTGCAAAAAA
A
GACGGTGAGAAAAAGAAAGAAAACCAATTTTGTGTAAAAACCCTGATTTAAATACAGTTCTGGCTTGGACAGACTAGGTGACATTTTAAAGATGCTTTCA
Celera SNP ID:            hCV7846269
SNP Position Genomic:     567852
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35337):
GGCCTTTTCTCTGTCTTTTTAAATAGACCTTATTTTTAGAGCAGTTTGAGGTTCACAGCAAAATTAAGAGGAAAGTACAGAAATTCCCCATATTTCCCCC
R
CCCCAACACATGCGTGGACTTCTCCATTACCAAAATCCCCCTCCAGAGTGCTACATTTGTTACAGTCCATGAACCTACATTGACAACAGCATCACCCAAA
Celera SNP ID:            hCV27960138
SNP Position Genomic:     175335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35338):
TGATTCCTCAATGAGCAGCTGAATTTCCACCTGTTCTTGACGTATTACCTATCACCATCAGGCTATGTTATGAAACTCACTTTTAGAGATAAAGCAAATT
R
TCCAAATGTCACCAATTATTGAATCTAAATGTGGGCATACAGGTTTTATTTGAAGCAGTCTTTCAGCTTTTCTATATGATTACATTTTTATTTAAAAATT
Celera SNP ID:            hCV27960139
SNP Position Genomic:     135848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35339):
TGTGGAGGTTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGTGACAGAGGGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
A
GCCTGGAATACTGATTTAGCACACAGAGGTCAGCTGCCCTAACAGTCACCCAGGCCTGTAGAGGATTTTACATGAGTAAGCCTTTGTTTTCTGTTAAGCC
Celera SNP ID:            hCV11200308
SNP Position Genomic:     378251
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35340):
GTGGTCTTTACAAACTTGACTATAAATGTTGAGACATTTTTCGAGAAATACATACACATGTGTGTGTATGTGTGTGTATAAGTATCTATTGGTATCTCCG
Y
ATGTTAGTTAAAAATATAATAATATGCCAAGTACGGACAATGAAGACAGCTACTCCACAATATTCATTTAATTTAATTTTTTTTTTTTTTTTTGAGACGG
Celera SNP ID:            hCV27442750
SNP Position Genomic:     160394
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35341):
CCAGTTGATGTTTCATGTGGACAATGGTGCGGGCAGATTCACTGCTGTCTATGATGCTGGGGTTCCAGGGCATTTGTGTGATGGACAATGGCATAAAGTC
R
CTGCCAACAAGATCAAACACCGCATTGAGCTCACAGTCGATGGGAACCAGGTGGAAGCCCAAAGCCCAAACCCAGCATCTACATCAGCTGACACAAATGA
Celera SNP ID:            hCV25957515
SNP Position Genomic:     637086
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,14|G,6)   total(A,41|G,7)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:35342):
ATTCTAATTTGTATGACTTGGTATCTCATTGTGGTTTTAATTTGCATCTCCCTGATGATTAGTGATACTGAGCATTTTTTCATTTGCTTTTTGGCCACTT
R
TATGTCTTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTAGAAGTGTCTGTTAATTTCCTTTGCCCACTTTTAATGGAGCTATTTGTTTTTTTCTTGT
Celera SNP ID:            hCV27442751
SNP Position Genomic:     158076
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35343):
GTTACTGATAAAAAAAAAAAAAGAAAAGAATGAAGTAAATGAATGTGACTTTTCTGTTTCATTTTGTCTAAGTCTTTTAAGCCAGAGAAAACATAATGTG
R
AACAGTGTTTTTATGTGTGTTTTATCACTAGAGATAAGAAATTGTCAAGCTGTCCTTAAGGACCAGGGAGGGCCCATGGGGAACAGCATCTTTCCTGATG
Celera SNP ID:            hCV27442752
SNP Position Genomic:     156109
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35344):
ATTTTCTGACAAAAGAAAGTTTGCCATGTCTCCAGAACAGGCACACAATTTATGTACTAAATCCTGATATGAATTTCTTTTCTTTTCTTTTCTTTTCTTT
T
TTTTTGAAATGGAGTCTTACTCTGTTGCCCAGGCTGGAGTACAGTGGCACGATCTCTGCAACCTCTACCTCCTGGGTTCAAAATGATTCTCCTGCCTTAT
Celera SNP ID:            hCV27442753
SNP Position Genomic:     154638
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35345):
TATTTTCTGACAAAAGAAAGTTTGCCATGTCTCCAGAACAGGCACACAATTTATGTACTAAATCCTGATATGAATTTCTTTTCTTTTCTTTTCTTTTCTT
T
TTTTTTGAAATGGAGTCTTACTCTGTTGCCCAGGCTGGAGTACAGTGGCACGATCTCTGCAACCTCTACCTCCTGGGTTCAAAATGATTCTCCTGCCTTA
Celera SNP ID:            hCV27442754
SNP Position Genomic:     154637
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35346):
TTATTTTCTGACAAAAGAAAGTTTGCCATGTCTCCAGAACAGGCACACAATTTATGTACTAAATCCTGATATGAATTTCTTTTCTTTTCTTTTCTTTTCT
T
TTTTTTTGAAATGGAGTCTTACTCTGTTGCCCAGGCTGGAGTACAGTGGCACGATCTCTGCAACCTCTACCTCCTGGGTTCAAAATGATTCTCCTGCCTT
Celera SNP ID:            hCV27442755
SNP Position Genomic:     154636
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35347):
TTTATTTTCTGACAAAAGAAAGTTTGCCATGTCTCCAGAACAGGCACACAATTTATGTACTAAATCCTGATATGAATTTCTTTTCTTTTCTTTTCTTTTC
T
TTTTTTTTGAAATGGAGTCTTACTCTGTTGCCCAGGCTGGAGTACAGTGGCACGATCTCTGCAACCTCTACCTCCTGGGTTCAAAATGATTCTCCTGCCT
Celera SNP ID:            hCV27442756
SNP Position Genomic:     154635
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35348):
TTTTATTTTCTGACAAAAGAAAGTTTGCCATGTCTCCAGAACAGGCACACAATTTATGTACTAAATCCTGATATGAATTTCTTTTCTTTTCTTTTCTTTT
C
TTTTTTTTTGAAATGGAGTCTTACTCTGTTGCCCAGGCTGGAGTACAGTGGCACGATCTCTGCAACCTCTACCTCCTGGGTTCAAAATGATTCTCCTGCC
Celera SNP ID:            hCV27442757
SNP Position Genomic:     154634
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35349):
GTTTCCAATGTAGAAATACATCTCAAAAATTATGCAGAAGTTCTATCATATAATGTTCTTGCATGGGTCTGAAGCTCTTTGAAGGCAAGGGTCCTTGACT
R
TGTTGTTCATTGTTGTGTAATTACTGCCTAGATGAGTACTTGGAAAGGTGGAGTGATTCAATGAATATGTGTTGCATATAGTTTAAGAAGAACTGGGACT
Celera SNP ID:            hCV27442758
SNP Position Genomic:     153134
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35350):
AAAGTAAACATTCAAGTGTAGTTTGAGTATAAAAGTCATTTTTCAATTTTATTGAAAAAATAAAATGTATGGGTTTTTGCATTTGGTTGCTTTATTTTGT
K
ATTGTTCTAATGTAGAATACAGACTTTGGGGTCAATCTGTAAACTAAATTAATCTGTTAAAAAAAAACATTTTTTTATTTTGAGACAGGGATCTCACTCT
Celera SNP ID:            hCV11829976
SNP Position Genomic:     600332
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,3|T,3)   total(G,3|T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35351):
CCTGGGGTCCTAATCTTTGCCTAGGAATTTAAAGTAAAGATTGGCCGAATCTTATTTCTCTTGACTTGTATCTACCTTTACTTTAGCTCACCCTCTGGGC
G
TGGCCTCTAGCCAGTCTCACTTTGAGTATCTTTGAAACTCTCTCCTTATTGTCAACCCCTTACTTTGATTATTTTTTTTAATTTAATGTTTCCAATGTAG
Celera SNP ID:            hCV27442759
SNP Position Genomic:     152946
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35352):
AGGGTTAGTATGATTGTTACTTTGAGAGTTGGTTGAATGAGGACAAACAGATAGACCAGTTAAGAGACTTGGCATTCATCCAGTCATTAGCTGTGAAGTC
T
GGACCACAGTGATAATGGTGAAAATGATCAAGTGTGGTTTGATTCCAGATACATTTTGAAGGTAATGCTGAAAAGATATGCTAATAGTTTGGCTGTGGAA
Celera SNP ID:            hCV11200316
SNP Position Genomic:     352484
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35353):
ATCAAAATCCTAACTTTGTTTCTGGTCTACACACCTTCATTTGTCCATCTTTTTCAGGTTTATTCCCTGCTGTCCTGAATCTTGCTTCTAATGCTCTTAT
Y
ACGACCAATGCAACATGTGGAGAAAAAGGACCTGAAATGTACTGCAAATTGGTAGAACATGTCCCTGGGCAGCCTGTGAGGAACCCGCAGTGTCGAATCT
Celera SNP ID:            hCV25995485
SNP Position Genomic:     172752
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,35|T,3)   total(C,65|T,3)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:35354):
TCCTGATGGATTCTTTACTGCTCTCAGCTAATCCATTATATGGTTTTAGACATCCAGGATAGACACTGAAAGGAATAACTATTACAAAAGTAATTTTAAG
R
GGAGCATTTGATTGACTGATGCTCCTCTTATGTATTCATTGTGTGTATGTATTGAATTTGTGTATTCATTGTATGTATTCAATATTCAATGTATGTATTC
Celera SNP ID:            hCV11200317
SNP Position Genomic:     351740
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,17)   total(G,2|A,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35355):
TGATGAGGCTAAAAACATCTCCTTCAATGCCACTGCAGCCTTCAAAGCTTACAGCAATATTAAGGACTATATTGATGAAGCTGAGAAAGTTGCCAAAGAA
R
CCAAAGATCTTGCACATGAAGCTACAAAACTGGTAAGAAACAAATGGCACATGTGCTGGGAATGGAAGTCAACCTTTTTGAATTTTTCAAATGTAAGTCA
Celera SNP ID:            hCV27497312
SNP Position Genomic:     526566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35356):
GGAATTACCAGGAGCCCTATCTCACACCCATAGGTTGTGATGCAGTTGGTCTGGGGTAGAGTCAGACCACTGGGATATTCAAGAACTCCCCAGATTATAC
W
GATAAAGAATTACTGTGATCCTGTAGTTACCTAATAGCTAAGACTCTCTTCCCTCTGGAAAATGCCTTAATTGGTACTGCCAATCTTTTTTTTTTTTTTT
Celera SNP ID:            hCV26210
SNP Position Genomic:     497146
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35357):
GTTACCTAATAGCTAAGACTCTCTTCCCTCTGGAAAATGCCTTAATTGGTACTGCCAATCTTTTTTTTTTTTTTTTAAACAGAGTTTCACCCTTGTTGTC
S
AGGCTGGAGTACAATGGTGTGAACTCAGCTCACTGCAACCTCCACCTCCTAGGTTCAAGCAATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGATTGCAG
Celera SNP ID:            hCV26211
SNP Position Genomic:     497272
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35358):
GGGAAACAATGAGGATCTTCAACTTAGACTGAGAAAAGCACACTAATGGACTTAAAAAGGCATGCGGGGATTGGGCTTAATTGTAAGGAAGCAAAAAAAC
K
AAAATAAAAAAATCTTATTTATTACATTCTATTAGCCCCATGGACTTTGCAAGGCCTGTGTCCTTCAAAAATGCTGACATTGGTCGCTGTGCCCATCAGA
Celera SNP ID:            hCV25971021
SNP Position Genomic:     614891
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,28|T,10)   total(G,66|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:35359):
TTCTTTTCTCTGTGCCCATCTCATACCATTGTATGTGTGTCATATGATGGATCTGGTTTCTTTTTCTTATTTGTTGGGAGATGTCCAGAGACTCAAGGAT
S
TATCCTTTGACCAAATTTTTCACTCTTCAAGGGCCTCATACTGCTCTGATTTCAGATGTATAGATATATTGCTTATCAAACACTGATGGGTCTGAACATG
Celera SNP ID:            hCV144493
SNP Position Genomic:     18817
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35360):
TCTGTAACTTAGCAAAAATACAAATTGGTGTTTCCACTTTGATTTCTCTTTTTGAAATAAATTTTCAGCTTGACTTTCTTTTGCCTCGGGTATTCTGGAT
K
ATCATTTTGTAGCATCTGGATAATTTTACATTAACATCTGGAGTTGAGGGTCTTTTTATTTGTCGGATGCATATAGAATACTTCTGTAAGAAATGTATTT
Celera SNP ID:            hCV923718
SNP Position Genomic:     238199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35361):
CAGTGGTGTTTTCAGCATGGACAACTGGAGCTTTAACTTAAAAGATCTAGAAACTGGGCTTGTTGGCCACAGTTTTAGTGTGATTAGAGGTGGTCATAGG
K
TAGTCAAAGTTGCCACTATCCTGGTTATGGATGGTAATAGAACTGCCTATTTATTTGATGTCTTCACTTAGTTGTCTCCTAGGTCCTTCACAGCGAACAT
Celera SNP ID:            hCV144494
SNP Position Genomic:     21037
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35362):
ACCTGGGGTCCTAATCTTTGCCTAGGAATTTAAAGTAAAGATTGGCCGAATCTTATTTCTCTTGACTTGTATCTACCTTTACTTTAGCTCACCCTCTGGG
C
GTGGCCTCTAGCCAGTCTCACTTTGAGTATCTTTGAAACTCTCTCCTTATTGTCAACCCCTTACTTTGATTATTTTTTTTAATTTAATGTTTCCAATGTA
Celera SNP ID:            hCV27442760
SNP Position Genomic:     152945
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35363):
TTTTCAGCATGGACAACTGGAGCTTTAACTTAAAAGATCTAGAAACTGGGCTTGTTGGCCACAGTTTTAGTGTGATTAGAGGTGGTCATAGGGTAGTCAA
R
GTTGCCACTATCCTGGTTATGGATGGTAATAGAACTGCCTATTTATTTGATGTCTTCACTTAGTTGTCTCCTAGGTCCTTCACAGCGAACATTTGCCAGG
Celera SNP ID:            hCV144495
SNP Position Genomic:     21045
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35364):
CTTACCTCCATATTTAATGGATTACCATTCTCATTGATTTTACCTTCTTAATTTCTCTTAAATTGATTTTCTTTCTCTATACCTAATGTTAGTACCTTTC
Y
GCCATGTTTCTATCTGGTTTACATTGCTGGAACAGCACCTGATTTGCTATCTTGTTCTTAGTCTTGCCATCCCAACTTAGTCCATTCCTCTGATGTCTTT
Celera SNP ID:            hCV27442761
SNP Position Genomic:     146485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35365):
TGTGTGTGTGTGTGTATGTGTGTGTTTTGTGGATGTATGCGTGCATATGTATTTCTTAGTTTATTCTTTCAGAAGCCTTGAATTTACATGAAGTTATGTG
W
TAATGACCTACCTTATATAGGACCTAGAATTTTTTGTTGTTCTTCTGTAAAACCATGCTCCCTGAACTGTAGTCTAGTCATCAGAATTTGCCAGTCAACT
Celera SNP ID:            hCV923719
SNP Position Genomic:     297414
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35366):
AGTCTGATTGTGTACTTGCAAACACTTCCATGGTATCTATTTCAAGTGTATTTTGAAAAGTCTAACATCTAGGCTTTCAACTTGATCTGTTGTACTTTCT
R
TATTCTATACCTGAGTGTCAGCAAAGACGCCTGGGAGCTGTCTTTGAGTCTTCCTTCTCTCTTACCTCCATATTTAATGGATTACCATTCTCATTGATTT
Celera SNP ID:            hCV27442762
SNP Position Genomic:     146324
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35367):
GCAATAAGTGACACATACACAATTTATAAATGATAAAATATAAAATATTTGTCTTAAATAGGGAGATGCTGTAATGTCTCTTTCCCCTCTTCAACGTATC
R
TATTACAGTGATTCCTCAATGAGCAGCTGAATTTCCACCTGTTCTTGACGTATTACCTATCACCATCAGGCTATGTTATGAAACTCACTTTTAGAGATAA
Celera SNP ID:            hCV27442763
SNP Position Genomic:     135739
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35368):
ACCTATGTCTTTACTGTGTATACATATACACCCATATCCCTATATATTCGCGTGTTCACTTTTGATTTCAAATTTTATTTGTGAAAAAAGCAGATTTATT
Y
TTTTTTTTCTTTGAGATGGAGTCTCGCTCTGTCACCCCCTGGCTGGAGTGCAGTGGCTTGATCTTGGCTCACTGCAACCTCAGCCTCCCAGGTTCAAGTA
Celera SNP ID:            hCV27442764
SNP Position Genomic:     133786
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35369):
CATAGTCCTAATATGCATTTTTATGGTCGACAGTCGTGGTATATGAGAGAAAATATGTAGCCTTTGATGTAAAAAGATTGTTTTTAAAAAAACATAAACT
K
TACAATATATGCTTGTGTGTGTCAGTCAGAGGGGGAGGTGGAGAGAGGCAGTGTTTCTGAAACAAGAGATCTATGAAAGAAGGGAACAGTCTGTTAGTTC
Celera SNP ID:            hCV27442765
SNP Position Genomic:     116478
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35370):
TCCTTGCTCCTCTATTTTTGAAAATTAACATAGTCCTAATATGCATTTTTATGGTCGACAGTCGTGGTATATGAGAGAAAATATGTAGCCTTTGATGTAA
R
AAGATTGTTTTTAAAAAAACATAAACTTTACAATATATGCTTGTGTGTGTCAGTCAGAGGGGGAGGTGGAGAGAGGCAGTGTTTCTGAAACAAGAGATCT
Celera SNP ID:            hCV27442766
SNP Position Genomic:     116450
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35371):
ATTTACCTGTATAAATTATTAATAAGTACATACAACATAATCCCTGTCCTATCTGTTTAGGGAGACAATAAATATCTATGAAAAATGGGATCTCAGCACT
R
TATAATTAAGGGAGAGGTATGTGCTACAGAACATACATGCAATAATCATTCAAAGGGATGAGCTACTGCAGTGGAGAGAGATGCAAAGTGTCCTGGAGTG
Celera SNP ID:            hCV27495576
SNP Position Genomic:     385144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35372):
TTATGTGAGTTTCTCAGTATATACATGAAAGACACTCTGCCTGTATCCTTGCTCCTCTATTTTTGAAAATTAACATAGTCCTAATATGCATTTTTATGGT
Y
GACAGTCGTGGTATATGAGAGAAAATATGTAGCCTTTGATGTAAAAAGATTGTTTTTAAAAAAACATAAACTTTACAATATATGCTTGTGTGTGTCAGTC
Celera SNP ID:            hCV27442767
SNP Position Genomic:     116405
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35373):
AAAAAAATATGGACTGCTTTGATTTTCCTTTGAAGTAATGTCACAAGAAGAAAACAGCAAGCTGGTTCATTTGCCAAGGAAGGAAGAGCATGAAAGACAA
R
ATGAAATGCCAGTAACTAGGTACTAGAGGAAAGGAGTGCTAAGAAAATGTTCAAAAGGGATCTTGAAAAGCAAAGATCACTTGGTAGATGAACTTGTTCA
Celera SNP ID:            hCV27442768
SNP Position Genomic:     102311
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35374):
GCTGTGTAGGCCAAGAATCTAGTTATCCTTTCAGAAATTTTTTTTTCTGACCACCTACTCTGTGCCTTAAGCAAAAGTACCTGCCCTTCTTTCTTTCTTT
Y
TTTTTTTTTTTTTTGAGAGCATGGTGTGGTCTCGGCTCACTGCAACATTCGCCTCCCGGGTTCAAGCGATTCACTTGCCTCAGCCTCCTGAGTAGCTGGG
Celera SNP ID:            hCV27442769
SNP Position Genomic:     101158
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35375):
TTCCAACTTGTAAAAGGCACCATTTGAGCAGGGAAACACCCTCAGTCTTTTGCTGATTATGTCAAATGGGAGGAAGTAAGAACACAGCATTACAGCCACG
M
CTCTTTATACAGCAGCCACCCTCTTCTGTGCCTTTGCCAATACGTTCCCTCTGCCTGGAAGATTGCAGCCCTTTCACTCCTCCACCCGAGACTAACTAAT
Celera SNP ID:            hCV564992
SNP Position Genomic:     406984
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,8)      total(A,8|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35376):
ATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCTCTGCACTCCAGCCTGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAA
A
TAATAATAATAAGGGTAAATACAAGGAGTGTGTTTTGAATACAAAATATCTATTTTTAGAATCTCAAACCCATGAGTTACTTTCTTCCATATATAAGTCC
Celera SNP ID:            hCV11200325
SNP Position Genomic:     340023
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35377):
GGAGAACTTTGCCCCAGTCCGGCAAAGTATTGTCACCTAGTTGGCATTGTAATTATGACTTCAAAAGGGCATTCCACAATTCTATCAATCCACCTGCTTC
R
GGATGATGGGAAACATGATAAGACCAGTGAATTCCATGAGCATGAGCCCAGTGCTGCACTTCTTTAGCTGTAAAGTGAGTGCCTTGTTCAGAGGCAATGC
Celera SNP ID:            hCV138225
SNP Position Genomic:     530998
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35378):
AGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCTCTGCACTCCAGCCTGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAA
W
AAATAATAATAATAAGGGTAAATACAAGGAGTGTGTTTTGAATACAAAATATCTATTTTTAGAATCTCAAACCCATGAGTTACTTTCTTCCATATATAAG
Celera SNP ID:            hCV11200328
SNP Position Genomic:     340020
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35379):
GGATGTCCTAGAAAGGGGCTGTAGTGCTGCAGCTGTCCACTTTTGGGTGCTACCTGCATATCTTGCAGAATCATCTGTGAACCAGGCCCTAGTCTTCTCT
K
CCTCTGTCAACTGATCATGGGGAACTCCCTGTGAGGCCATCAGTGCAGGCTTGGGGAGAGAAGGCAGGGTGGCAGGAGTGGAGGCCATGGGCGTTTGAGC
Celera SNP ID:            hCV138226
SNP Position Genomic:     531925
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,6)      total(G,6|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35380):
CTGGATTTCCGAAATATTTTTAAAAGATTTTTTCTGGGATCATTTAAGGCCTCATCTGTTCAGAACCAAGGGGAGGACCGAAATAGTATGCCAAATTCTT
K
TCCAGCCCTCAAATTTTATGAGCCTGAGTTGCATTGTGTGGGTAAAAGTCTTGTGCTCTGTGGATCAGGAGGAAGTTAGATGTTTTGGATATTTACATAG
Celera SNP ID:            hCV923720
SNP Position Genomic:     335001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35381):
ACTTGAACAAAGATATACAGCTTCTCCAGAGACCAGGCAGACACTAGGTTTATGATTTCCTGACTTCCACTGCAGATCTCTTACCATTTTTCTATGAGAG
W
CATAAAAAAAGAATCAGCTATTTACTTTCTAGTCAAGGTGGGTTAAAATCAAGCCACTTGTTTTCAAACATCGATTTCGGGTTCATGCCATCAAATTAAA
Celera SNP ID:            hCV923721
SNP Position Genomic:     335438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35382):
AAAAGAATCAGCTATTTACTTTCTAGTCAAGGTGGGTTAAAATCAAGCCACTTGTTTTCAAACATCGATTTCGGGTTCATGCCATCAAATTAAAAAATTC
R
CTTAACTGAGTTTAATTTGCTTTCACTTAGGAAGCAGCTGCCTTTCAAGATAATAAAATAAACAGATACAATAATATTTGGTCAGCTGTGGCTTTTAATT
Celera SNP ID:            hCV923722
SNP Position Genomic:     335545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35383):
CAAAAGTGGGGTTGACCATTTTCTTCTTCGCTGTCTCCATGATTTTGCTTTTTCCAAGATGTCATGTAGTTAGAATCATACAATGTGTTGTCTTTTCAGG
Y
TGGCTTTTTTCACTTAGCAATATGCCTGTAAGGTTCCGCCATGTCTTTTCTTGCCTTGATAATTCATTTCTTTTTAGCTCTGAATACTATTTTGTTGTCT
Celera SNP ID:            hCV923723
SNP Position Genomic:     335966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35384):
TGTTGTCTGGATATAACCACAGTTGAATTATCCATTTACCTCCTGAAAAACATCCTGCTTGCTACCATGTTCTGGCAATATGAATCAAGCTGCTATAAAC
R
CTTATGTGATAAGTCTTGTGTGGATATAAATATTCAACTTATTTGGGTAAATACCAAAGAGTGCAATTACTGGATCATATGGTCAGAGCATGCTAGTTTT
Celera SNP ID:            hCV923724
SNP Position Genomic:     336159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35385):
TAACCACAGTTGAATTATCCATTTACCTCCTGAAAAACATCCTGCTTGCTACCATGTTCTGGCAATATGAATCAAGCTGCTATAAACACTTATGTGATAA
R
TCTTGTGTGGATATAAATATTCAACTTATTTGGGTAAATACCAAAGAGTGCAATTACTGGATCATATGGTCAGAGCATGCTAGTTTTGTAATAAACTGCC
Celera SNP ID:            hCV923725
SNP Position Genomic:     336172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35386):
ATTTTGCATTCTCACCAGCAATGAACAAGAGTTCCTGTTTCTCCACATTCTCACCAGCATTTCATATTGTCAATGTTTTAGACATCAGCTATTCTAATAG
R
TATGTAGTGGTATATCGTTGTTTTAATTTGAAATTCTCTAATGATGTAAGATGATGAGCATGTTTTCATGTGCTTATTTTCCATCTGTATATAAGCTTTG
Celera SNP ID:            hCV923726
SNP Position Genomic:     336399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35387):
AATTCCCTTTGCTCCTTTGTGAAAGATCAGATGGCCATATTCATGCGGGTGTATTTCTGGGCTGGCTATTCTGTTCCATTGATCTAAGTGACTTTTTTCT
S
ACCAGTACTATATTGTCTTGATAACTATAGTTTTATACTAAGTCTTGAAGTTGGGTAGTGTTAGCTTTACAAGTTTGTTCAATATTATTTAATGATGTGT
Celera SNP ID:            hCV923727
SNP Position Genomic:     337474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35388):
GCGCTCTAATTGTCTGTTAGACTTTTCTAAGAGTTTTAAAACAAACTCGGGCCTCAACTCTCCCCCAGAGGAATTGACTCCACCTCCTCTAGGGCTGGAC
Y
GGACCACAGACTCCCACTATGGGCGCTTGTCTATTGTGTCAGGCTGCCTGTCGGGGAAAACCACAGTAATAGGAAAAATGTGTTGTGCGTTAGAGTAGAC
Celera SNP ID:            hCV303144
SNP Position Genomic:     448949
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35389):
CATTATCAATTTTCAGCCTCTCTTCTTTTTTATTTTTAATTTCTTTGCCACCTCTTCTTAATACATAATGCTCTTTCTTCCTTCGTTCCTCCCCCTCTCT
S
TTTCTTCCTTCCTCCTTTCTTTCTTGCTTTCTTCTTTCTTTTCTTTATTCTTTCTTTTTTTTTTTTTTTCAAGGTCTTGACGTGTTGCCCAGGCTGGAGT
Celera SNP ID:            hCV27442770
SNP Position Genomic:     100017
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35390):
TTATCATGACAAATGCTAGTCAATGTTGAATCACAGAGGGCTATATGAGATCCATTTTCATTCTTAAAGAAAATTATTATATCTTTTTATTAATATGGTG
R
ATATTAACTCAGTAAATAATAAAGAAAACTAATATGAAGTACAATTTGTAATATTCTACTTATGATGCATGATTTTTGTTGCACAATTAGAAAATACTTA
Celera SNP ID:            hCV923728
SNP Position Genomic:     339494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35391):
GATTTATACAGTAGTCTTATGATCCAATGCCCATGTATGAACAAAGGTTACTGTTCCTGTCTTCTAAATTGGGGTTCCCAGTGTAATACAGGAAGACTAC
Y
GTGTGCTAGTAAACAGAAAGCACAATCCACATTTGACCATATTTTCCTCGTTGGATGTGTTTATGGATATATTTTATTCTGCTTTTATCTTTCTGAGATT
Celera SNP ID:            hCV27442771
SNP Position Genomic:     99754
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35392):
TGACAAATGCTAGTCAATGTTGAATCACAGAGGGCTATATGAGATCCATTTTCATTCTTAAAGAAAATTATTATATCTTTTTATTAATATGGTGAATATT
W
ACTCAGTAAATAATAAAGAAAACTAATATGAAGTACAATTTGTAATATTCTACTTATGATGCATGATTTTTGTTGCACAATTAGAAAATACTTAAGTTCT
Celera SNP ID:            hCV923729
SNP Position Genomic:     339500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35393):
TTCTTTAAAATGAGCAAAGATGAGCTCAGCAAATAAGGTACTTGTAATAATGAAAGTACTATATGCAGGAATACTGGCTTTTTGTTTTTAATCTGCAATT
R
GTTAATTAAATTTCATTGTAGATGTATTGCATAAAATACATTTGAAAGGCACCATTCTTCCTCATAATACAGCTAGTGAAGGTCCAAATTTCAGTGACTC
Celera SNP ID:            hCV27442772
SNP Position Genomic:     89698
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35394):
GGTTATTCTTTAAAATGAGCAAAGATGAGCTCAGCAAATAAGGTACTTGTAATAATGAAAGTACTATATGCAGGAATACTGGCTTTTTGTTTTTAATCTG
Y
AATTAGTTAATTAAATTTCATTGTAGATGTATTGCATAAAATACATTTGAAAGGCACCATTCTTCCTCATAATACAGCTAGTGAAGGTCCAAATTTCAGT
Celera SNP ID:            hCV27442773
SNP Position Genomic:     89693
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35395):
AATCATGGAAATGAACTAGTGTCCACATAACTGAAATCCTTCACATCTGGCTATCTTTAGGCCCTAAATTATGTGAAATTCACTGAGTATTTTCCACAGA
B
TTGTTTACTGTTGTAAAATCTTAAATCAAAATGTTACATCAAAGGAAGAGTTGCATCAAAAGAACCTCAGCAAAACCTCAAAACAACCAAACACTCCACT
Celera SNP ID:            hCV27442774
SNP Position Genomic:     86328
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3|G,3|T,3)   total(G,3|C,3|T,3|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35396):
TCGCTCTTGTCCCCCAGGCTGGAGTGCAATGGCATGATCTTGGCTCACTGCAGCCTCTGCCTCCCAGGTTCCAGCGATTCTCCGGCCTTGGCCCCACCCC
S
CCCCCGCCGACCCCCATGAGTAGCTGGGATTTCAGGTGCCTGCCACCAAACCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTGGGC
Celera SNP ID:            hCV27442775
SNP Position Genomic:     83261
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35397):
TGACACTCAATGTGTAAGTGCCCAGTTGAAATAGTTTCCTTATCTTTTCTTTGAAGGTGAGAAGGCTAAGTTCCTTTTATATACAAAAATGTGTTCTGTC
R
AACACTATCACTGCAAGGCCATTTACTAAAAATGTTTATGGGATGGAATCTTTTTCAGCACTTGCTGTCACCTCAGCGGGCCCCAGAGAGGCTTATTCAG
Celera SNP ID:            hCV25961415
SNP Position Genomic:     492486
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(G,38)   total(A,4|G,72)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35398):
TATTTATCTATGGAACTCTTCTTTGTTAGATATTGAATTTCATGGATTAATCCCCTAGCTTTTTGTCTTTGGTTTATTTTGATTACTCTTTTTTTTTTTT
T
CCTTTTTTTTTTTTGAGACAAAGTCTCGCTCTTGTCCCCCAGGCTGGAGTGCAATGGCATGATCTTGGCTCACTGCAGCCTCTGCCTCCCAGGTTCCAGC
Celera SNP ID:            hCV27442776
SNP Position Genomic:     83135
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35399):
AAAAATTCTTTTCTCAAAATGGACATTTTCCAGTATTGGATGAAGTGGTCTGCTCTCTCTCTTTCTGTCTCTCTCTTTCTCTCTCTCTCTGTCTCTCTCT
Y
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTATATATATATATATATATATATATATATGGCAACTAGATGTATACTTTGGAATTCCTTTAAGG
Celera SNP ID:            hCV11692078
SNP Position Genomic:     373856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35400):
ATCATCCTTACAATAGGCTTTATCTTTTGGAAATACATATAATATTGATGTGCTCTGGTTTTAATCATCACCTGCCTCTTGCCTCAGCAAGCTCTAGGTT
R
TATTTTAAAGGAGATTAAATATATTTTCACTGAATTTAATTGTATCTAAGTAATACCTTTCGAAGAGTCAAATAATACAGAAAAGCTCATAACAAAAAGT
Celera SNP ID:            hCV27442777
SNP Position Genomic:     81471
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35401):
CTTCACTTCGAGTTAACTGATTTAAATTTAATTTTTCTCTCCTCTTCCATTGCCAGGCTGGGACCTTTGGCCTACAATCAGCAAGGGGCTGTGTTCCCTG
M
AACTGCAATTCTTTTGGGTCTAAGTCATTCGACTGTGAAGAGAGTGGACAATGTTGGTGCCAACCTGGAGTCACAGGGAAGAAATGTGACCGCTGTGCCC
Celera SNP ID:            hCV8922729
SNP Position Genomic:     420366
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35402):
AATCCAAACAGTGTTATTGTAAAGTCTCTGGGCTTCTTAGAGCAAAAGTTTTAAAACCATCATTTATATGTTTAATATATTTTTATCTATTTCTAGATTT
R
TTTTAAAGGCAGTAAAATAATCTAACAGGCTCCTGGGTACCCATGGTGTTTATTATATTATGAAGAAATAAAATATTACTCATACAGTCGAAACCCTACA
Celera SNP ID:            hCV27442778
SNP Position Genomic:     81153
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35403):
TTGAAAAAACAAAAACAAAACCTATGTCTGTAGTATGTATATTTGTGCATTTAAATGTTTGTGCCCATGGACTTGTGTGTGTGTGTGTGTGTGTGTGTGT
K
AATGTATGTCTATATATATATGTATGGTGTTTGTGTGAGAGGCAAAGAGAAGAGAAAAAAGAATGACGTTAGCTTATCAATATATTATAATAAAATTGTG
Celera SNP ID:            hCV27442779
SNP Position Genomic:     76423
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,5)   total(G,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35404):
GGACCTGTTTTTATGCTTCCAAGATGGCACTTTGAATGCTCAGGAGAGGAGGAACATTGTGCCCTCACATGGCAGAAGAGCAAGAGAGAGAGAGCTCTCA
M
CCCTGTAAGCCTTTTTAATAGTGGCATCAATTCATTCATGAGGACAGAGCCCTCATGACCGAAACACTTCCCAAAAGGCCCCCCTCCCAACACTGTTGCA
Celera SNP ID:            hCV11829997
SNP Position Genomic:     572068
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35405):
CAAAAACAAACAAAATAAAGGATTCAAATGGGTGACATGGCCAGTCCTGGTTACAGTATGAGACAGATGCCGGTTACGGTGGGCAACAGAACAGATGCTG
G
CTACAGTGGTCGACAGAGTTCATTTTAGTTCAAGCAGAAGGTAGGGCTGGTGCTTGTTACAGTGGCCAGTAGGCCTGGTTTCTGGTTATAGCACATGGCA
Celera SNP ID:            hCV11200330
SNP Position Genomic:     333687
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35406):
GTTTCTTTCTTTTTCCCTCTGCATTACAAATACATACGCAATACTTTTTCAGGTTGTTTTTTCCAAAAGCAACAATAAACTACTAGTGGAGTAAAAAATA
Y
GGAACTGAAAGTCCAACTGTTTGATTAAGTGTATGTTATAACCATTGTATGACTTTGAGTGAATTTCTATTTTTAAGAAAGTGGTATTTGGAACCACAAT
Celera SNP ID:            hCV11200332
SNP Position Genomic:     315125
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35407):
TGTTCCAGATCGCGTATGTGATTGTGAAGGCAGCTAACTCCCCCCGGCCTGGAAACTGGATTTTGGAACGCTCTCTTGATGATGTTGAATACAAGCCCTG
R
CAGTATCATGCTGTGACAGACACGGAGTGCCTAACGCTTTACAATATTTATCCCCGCACTGGGCCACCGTCATATGCCAAAGATGATGAGGTCATCTGCA
Celera SNP ID:            hCV27536874
SNP Position Genomic:     221096
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35408):
TATATGAGATCCATTTTCATTCTTAAAGAAAATTATTATATCTTTTTATTAATATGGTGAATATTAACTCAGTAAATAATAAAGAAAACTAATATGAAGT
R
CAATTTGTAATATTCTACTTATGATGCATGATTTTTGTTGCACAATTAGAAAATACTTAAGTTCTTGAGAATAGTTGGAAAGGGTTGTAATGATCAGAAA
Celera SNP ID:            hCV923730
SNP Position Genomic:     339535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35409):
ATTCTTAAAGAAAATTATTATATCTTTTTATTAATATGGTGAATATTAACTCAGTAAATAATAAAGAAAACTAATATGAAGTACAATTTGTAATATTCTA
Y
TTATGATGCATGATTTTTGTTGCACAATTAGAAAATACTTAAGTTCTTGAGAATAGTTGGAAAGGGTTGTAATGATCAGAAACACATATTATACCTAAAC
Celera SNP ID:            hCV923731
SNP Position Genomic:     339553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35410):
AATAAACTTGGGCCTGTAGCCAATAGTTTGTATTCCAGGCTTTTAAAAAAAATTCAAATACAGAAACATCAGATTTTCATTGCCATAGGGGTCATGACAT
M
TTTTAACATAAGTGCAGAAACTATCTGTAATGAATCAAAACTTAAATCAGATGACATTAAGACCAGCTTTGCTATTACCACAGATGGCATCACAATTAAC
Celera SNP ID:            hCV923732
SNP Position Genomic:     340854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35411):
TCATAGGTAGAATAAATGAGAGAATTATGGTGATCTAAATATAGAAAGCATTTAAATTAGAGAACAGCTGAAATTGTGCTTCTAAAACATTTCAGTGTTG
Y
TCATTTTCTATATGTTACATTGAAAAAAGTAATATGGAAATGTAATGTTTTCATTTGCAGATGCTTAAATTTAGATACATGTTTAATACTGTAATCATTT
Celera SNP ID:            hCV923733
SNP Position Genomic:     341583
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35412):
AGAGAATTATGGTGATCTAAATATAGAAAGCATTTAAATTAGAGAACAGCTGAAATTGTGCTTCTAAAACATTTCAGTGTTGCTCATTTTCTATATGTTA
Y
ATTGAAAAAAGTAATATGGAAATGTAATGTTTTCATTTGCAGATGCTTAAATTTAGATACATGTTTAATACTGTAATCATTTTGATCAAACAGCAGCTAT
Celera SNP ID:            hCV923734
SNP Position Genomic:     341601
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35413):
TGCTGTGTATGCCCAACTTTATGGCTAGATGGGTCAGAAAGCATCCAGTTCATGAAAGGCAGTTTAGGTTGCATGGTGACTTGATGACCTACAGTCAAAC
R
TTCAGTTTCTACCAAAGCCCAGTAACAGGCCAAGAGTTGTCTCTCAAATGGAGAGTAGTGATCTGCAGAAGATGGCAGGGCCTTGCTCCAAAATCCTAGA
Celera SNP ID:            hCV28024271
SNP Position Genomic:     532211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35414):
ATTGAAAAAAGTAATATGGAAATGTAATGTTTTCATTTGCAGATGCTTAAATTTAGATACATGTTTAATACTGTAATCATTTTGATCAAACAGCAGCTAT
Y
ATTTATTATTCAATATTTATATGTAAAACCTGAAACTTTCATCTACCTTAATGATGGTATTGTGATAAAAGTACCCATGTATCACCAAGCTTTGCCAATT
Celera SNP ID:            hCV923735
SNP Position Genomic:     341702
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35415):
AACATAATGTTGTGGGAACAGGAAGCAAAATTTTGCTAGTGGGTCACTAGTGGTGATGGTGAGTGGTGCCACTTCCGCTTCCACCCCTTGATTCTGGGAC
M
CGTGAACACTGGCTATGGGAGAAACAGTACCATATTTTGGACACTGATTCAAGGCATACACAGCCTTCTGGAGAACTTTGCCCCAGTCCGGCAAAGTATT
Celera SNP ID:            hCV28024272
SNP Position Genomic:     530828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35416):
CAGCAGCTATCATTTATTATTCAATATTTATATGTAAAACCTGAAACTTTCATCTACCTTAATGATGGTATTGTGATAAAAGTACCCATGTATCACCAAG
M
TTTGCCAATTCTTTTTATTCCTTAAAGAATATCCGACAATTTGCTGGTTTGTATAAGTTTGAGTTAAGACACCGTAATAATGTCCTGCAGTATATATGTC
Celera SNP ID:            hCV923736
SNP Position Genomic:     341792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35417):
GAACTTTATTCAGTAGCCTCCGTGGTAAAGTTTGTATCTGTTCTGATTTCCAAAAGCACTATCTTTGATTGTGTAAAGAGAAAGAAAAACAAATGAAAAT
R
CTTGTGGTCTCTTTCATCTCATCGTGGGATTTTTGCATTAGTATAGAAATACAGTGTAAATCAGTCTTTCCACACAAAAGAGGAAATCTTCTCTATTGTG
Celera SNP ID:            hCV28024273
SNP Position Genomic:     492989
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35418):
GACCTTTGGCCTACAATCAGCAAGGGGCTGTGTTCCCTGCAACTGCAATTCTTTTGGGTCTAAGTCATTCGACTGTGAAGAGAGTGGACAATGTTGGTGC
Y
AACCTGGAGTCACAGGGAAGAAATGTGACCGCTGTGCCCACGGCTATTTCAACTTCCAAGAAGGAGGCTGCACAGGTCTGTAAATATGACTTAAGTCCTA
Celera SNP ID:            hCV8922730
SNP Position Genomic:     420427
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:35419):
CTACTTATTTTTACGTTACTTAAAAAATGAAATACATGTCAGTTTGAAACACTGCCTTAATAACTGTGTGCAAGTACTCAGTAAAAATCAGCAGATGCTC
K
TTTGGTTGTGTCCCTCCCTGTCTGTGACTTTGATTCAGCCAGTCACTCAAACACTGCTACGGCTTGAAAGTTAAATGTTCGATTTTTCTGGTACCAGTCT
Celera SNP ID:            hCV28024274
SNP Position Genomic:     420728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35420):
TAAAACCTGAAACTTTCATCTACCTTAATGATGGTATTGTGATAAAAGTACCCATGTATCACCAAGCTTTGCCAATTCTTTTTATTCCTTAAAGAATATC
Y
GACAATTTGCTGGTTTGTATAAGTTTGAGTTAAGACACCGTAATAATGTCCTGCAGTATATATGTCAAAATACATGGGTCAAAAAGACACTCTAAAATAG
Celera SNP ID:            hCV923737
SNP Position Genomic:     341826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35421):
CTTTAAATGAAGTAGCTCAATAACAGAACAGTGAACCTAACTGGCCCCATTTTAGTCAATCTAATGCATTCCTGCACAGGTATTTATCATGACATTTACT
Y
TACACTCAACCTACATGAAGATCAACATAGTCACTTTTACGAGAGTAGATTTGCATCCATCCAATAATCTTTCTCACCAGTGTAATTAGAAAGGATACAG
Celera SNP ID:            hCV28024275
SNP Position Genomic:     312759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35422):
ATATATAAACACATACGCACAAGAAGACTGTCTCTCTGTTTGTATATATACATACACGCACATATAAATACACAGAGAGAGTGTGTGTGTATATATACAC
M
GAGAGAGAGAGAGAGAGAGAGAGAGAGAGTCAGTCTTGCTCTGTTAACCAGCTGGGGTGCTGTGGTGCAATTATGGCTCACTGGAGCCTCCACCTCCCAG
Celera SNP ID:            hCV27442780
SNP Position Genomic:     66076
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|-,5)   total(A,2|C,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35423):
ATTTATAACATATATACCTTCACCTGACTTGGAGTTTCATAAGGAATGCAACAGCTTCCAATTCATTTACTTTCTTTTTGCTTAACAAAGTATCTGACAC
R
TAGTACAAAAGTTAAATATTATAAATAAAAGATTAATTGCACAGATATTTTTAAAGGAGACAGAAAAGATTTGAATATCCAGGAATTCCACCCAACGATG
Celera SNP ID:            hCV27442781
SNP Position Genomic:     62314
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35424):
ATAGTTCACAGCATACAGTATTTATTATTTTTATGATTAACTAATGTTTTATGAGGTCCTTAGAGTGCTAGACACTGTTTGCATGAATTATTTTATATGA
Y
CTCACCACAACCTTATAAAAAAGTTTTTATTGTCCGATGTTTTAGACGGCGTAGTTATAGGAGTTAGTTTCAGCCACCAGTTGTATATAGAGAAGCTGCT
Celera SNP ID:            hCV27442782
SNP Position Genomic:     61213
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35425):
CTTTATCAACTTCTTGTAGGTTATTGTATTTATTGGTGTATAATTGTTCATAGCAGTGTCTATGATCCTTTTTTATTTCTGTTGCAATGTCTCCTCTTTA
R
TTTATAATTTTATTTAGTTGAATCCTCATTCCTTTTTTCTTAGTTTGGCTGAAGGTTTGTCAATTTTGTTTATCTTTAAAAAAACAATTCTTACTTATAT
Celera SNP ID:            hCV27442783
SNP Position Genomic:     60455
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35426):
GCCCAGGTCAGCAATGCAGCAACTCCCATTTTTCTTGATGAGGATGTTTTTGCTCTTTAGGTCTCGATGAGCAATTGCGGGCTTTCCTTGGGTGCCATAC
R
TTTCTGTGTGCAGGTGGCACAGACCACAGGCAGCTGAATAAGCCAATTTAAGCAGGGCTCTGGTGTCCAGCGTAGCACATTTCAGGAAGTCATAGAGAGA
Celera SNP ID:            hCV27523776
SNP Position Genomic:     280898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS


Context             (SEQ ID NO:35427):
AGGACCCATGGTGCTTCTGGCTTTGTCCTTCTTTCTTAAGATTGCTTTGGATATTTTGGGTCATTTGTGATTTCATATGAATTTTAATTATTAAAATTCT
Y
ATTCTTTTTTTTAGAACTGTTTTTTCTACATTTTCTTTCTTTTTTTCTTTCTTTTTTTTCTGAGGTGGAATTTCCCTCTTTTCGCTCAAGGTGGAGTGCA
Celera SNP ID:            hCV27442784
SNP Position Genomic:     57263
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35428):
GGCCGGTACTGTGAGCTCTGTGCTGATGGATATTTTGGAGATGCAGTTGATGCGAAGAACTGTCAGCGTAAGTCCTGAACTATTGATGCCCCTGACAGAA
Y
TGATGTATTGTACCTCAAAGTAGCTGATGAGTTCTTGAGTGTGGATTGAAGAGTAGGAAATTATGTGGAATACATGGTTGATAGATGCATAGAATATACA
Celera SNP ID:            hCV25956748
SNP Position Genomic:     410719
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(T,36)   total(C,4|T,68)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35429):
TAGCAGGATTTCCTTCTCTTTTATGGCTGAATAATATTCCTCTATCTCCCTCTCTCCCTCTCTTTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
K
CTGTGTGTCTGTGTATGTGTGTATACTATATTTACTTTATCCATTCATTCACTGATGGATACTTAGGCCATTTATTTATCTTGACTGTTGTGAATGATGC
Celera SNP ID:            hCV27442785
SNP Position Genomic:     56071
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,1|T,1)   total(G,1|T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35430):
CTTACTTTCCACGGGGACTGTTATTGTAAAATCTGTTCTTATTCTTTTAATTTAACTCCATTATTTTGTTTTAAATGTAATGATTGTTCATTATATTTTT
Y
TCCAACTGCTTTAAAAGCACCAATCCTTCTTTGCTGTATATGTATCAAAGTCCATAAATATTCTTTGACATTATCCTAGCCTTGAATAATAAAAGGAAAA
Celera SNP ID:            hCV27442786
SNP Position Genomic:     54754
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35431):
ATACTGGCAGTCCAGGCAACCCTGGAGGCTCCTGCCAAGAATGTGAGTGTGATCCCTATGGCTCACTGCCTGTGCCCTGTGACCCTGTCACAGGATTCTG
M
ACGTGCCGACCTGGAGCCACGGGAAGGAAGTGTGACGGCTGCAAGCACTGGCATGCACGCGAGGGCTGGGAGTGTGTTTGTACGTATACTAACTTTGCTG
Celera SNP ID:            hCV8922738
SNP Position Genomic:     475928
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35432):
ACTGAATGTGTATAATTATAAGAATTATTTCATTTTCTTACAACTTTTTCTCTTTATTTTATACTCTCACCCTATTATCTGTCCTTTTTCTTTTTTTTTT
C
TTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTGAGACAGGCTCTTACTCCGTTGCCCAGGCTGAAGTGCAGTGGCAGGATCATGGCT
Celera SNP ID:            hCV27442787
SNP Position Genomic:     40513
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35433):
TGTATTCTGCATTCTCAATTAAAAGTCATTTTATCTTTTACTTTTTCTTTTATTCCTTTTTAAGCAACAAATGAATTAAATTTCCTTTGTTTTATATATG
R
CCTATTAACCTCAATGGAGAAAGAGGCTCCCTTTGTTTGCTTCAGGACTTACATATTGTTACAGTTAGTCCTTAGGTAAATGAAATGAGAAGAGCTTCAC
Celera SNP ID:            hCV27442788
SNP Position Genomic:     40262
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35434):
TTGTGCTGGCTTTCTTTCCTTTTTTAAAATCCCATGGTATCTCATCATCTCTTCTTGTCCTCCCATTCTACAAATAGAACATGAAATTGAAGCCTTTTTT
W
AAAAAAAAAAAACTAATTACAGAATTAATATATGTTTACTATGTACTTACTACAATTAGAAACTATATATAAACAAAAAAGAGAGCTTGCCCATCAATCC
Celera SNP ID:            hCV27442789
SNP Position Genomic:     39981
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35435):
AATGCTGACAAGGAGAGAGGTTAAAACCAGGAAGCCATGCCTTTTAGCTGACAAAACATTCATTGAAATGCTATCTGGGTGAAGCACTGAGAAATTAATC
R
TCTGAATAGTCTAAATTATAGTACATGAAGAATGCAACTTGCTAGGGAGACATACCTTCAGCATTATTCGAGGTTAATTTAAACCAACATGTAAATGTTT
Celera SNP ID:            hCV180084
SNP Position Genomic:     86651
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35436):
TATTTTTGATAGTCTGTGATTCTGAGCCCTATCTATGCTTTCAGTCAAATTACCAATGGTATGAAACTCTTTAATTTTGTGTGTCTCACGTTTAGAGGGT
R
GCTTAAGAGGTTCTTTAACTGCATGACTATTGTGAGGAGGATACTTATGAGTTGTTCTTCATTTCCATGGGGACAAGGACAATGAAAATACAGTATAATA
Celera SNP ID:            hCV180087
SNP Position Genomic:     85258
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35437):
TTAAAAAAATCTCATAGGAATCATCCTGAATAAAATGTTCAGAACCATCATTTATTTATTTTGTTTCACATAGAACCTACCAAACACATGAGAATTTTTT
K
GGGGAGAAATCTGATTGGACATTTGACTGTGAGTGAAATACACATAAGCAGTGGTGTTAAAGAAACTGATCAATATTTTCTTTGCTTCAGTGTTGGGCAA
Celera SNP ID:            hCV29433800
SNP Position Genomic:     527379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35438):
AATTTTTATGAATTTTTGAATTAAAAAGCTCTTAACCTTTGGCTACAATCATTGTTCGTAATACATTTGGAACAAGTATTTTAGAGTTTGGGCATTCCAA
R
TTCTATCACATTATTTGAATGCCTTCAATGGTGACAAATCTTTATGCTTTAGATGTAAAGCAACATTTTGTACATGAGTTGTGTGATAGTAAGTTGGTAG
Celera SNP ID:            hCV29433801
SNP Position Genomic:     527166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35439):
CCCTAAGATATGAATGTGGCTGGCATGTTCAAAGACCCTCAAGGATGGGGTAAGAGTGGGGAAGAGTTGAAGGATATGGGGAAGGGGAAAATATCGTAGG
Y
CTTTGGCACACTGTAGTTAATGTCTTCACATTTTTCTTGCAATGCAATGAGAAACACAGACATGTAATGATCTGAGTTATGTTTTAATAGGGTTAGTATG
Celera SNP ID:            hCV923746
SNP Position Genomic:     352295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35440):
CAGTAAAACTAGAGATTAAAATAATTGACCATGGAATCTAAGACAGTGATGAGAAACCCTCAAGCTACAGCGATTTCCCATTGTCTCCCTAAATGCTATT
R
GTACTGTAGCCAAGACAAGTCTTTCTTTTATAGGACTATACAAGGCCTTAGAGGATATTTAGTATCCTTGGCCTAAAGGATAAAGGTAAAGTGGTACAGT
Celera SNP ID:            hCV923747
SNP Position Genomic:     353728
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,12)      total(G,12|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35441):
ATGAAGTCTCTGCTTCATGACCTGGTCACCTCCAAAGGCCCCACTTCCTAATCCTATCACCTTGAGGATTAGGATTTCAACATATGAATTTTCAGGGGAC
R
CAGACATTCAGGCCACTGCCCTTTACTTATTCAATTTCCCACTTATGTAAAAAGTGATCAACATGGGATCCAAAGATTGGAATAACAAAATGCTTACAAA
Celera SNP ID:            hCV29433802
SNP Position Genomic:     522946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35442):
ATGATAGTCCTGCATTTCATGGCAATTTTCAATAGCAGTTTAATGGTCTTAAGTGGGTAGCATAATAGCCAGGTGAACAACAAAAAAAACAAAAACAAAA
M
CAAAAAAACTATTTGGCAAATTGGGATATGAGAATTGAGGCCAAAACTTTTAGTCCTTGCCAATTTTTTTTAAAACTTCAATTATCTTGATTCATATTCC
Celera SNP ID:            hCV27442790
SNP Position Genomic:     39036
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35443):
GTGTGGTCTCGGCTCACTGCAACATTCGCCTCCCGGGTTCAAGCGATTCACTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCTGCCACCAAGC
Y
GGGCTAATTTTTGTATTTTTAGTAGAGACAAGGTTTCACCATGTTGGCCAGACTGGTCTTGAACTCTTGACCTCATGATCTGCATGCCTGAGCCTCCCAA
Celera SNP ID:            hCV84812
SNP Position Genomic:     101282
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35444):
ATAGAAAGGTATATATTCTTATTATAGCAGTGTCTGCCAGGGCTGCAGTCCTGTTGTTAGAAGGCTGTCAGAATTTTAAATGTAAGCCTTCCTTTCCCAG
R
TGTTATAATTTAATCTTCTAACTCCTATTAATTTCTGAAGACTGTGGGGCCATCCTATATCTTAGAACAAAATATAGATACGTACATTCCTGATTTTTTT
Celera SNP ID:            hCV923748
SNP Position Genomic:     355233
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;(A,-|G,-)   (A,-|G,-)   Caucasian(G,13|A,71)   African-American(A,34|G,50)   Asians(A,42|G,42)   total(G,105|A,147)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35445):
GTTTCATAGCTTGGGAGTGAGCAGAGCTGTGATCCCAAACCAGAAGGGCTGTCACTTGGATGTAGCTTTTAATCACTGTGCCCTAGTACATAGAGAATGA
Y
TGAGACAAGGATAGGTGCTATTTTAGATAGGTAATCAGAGGAGTGGCTATTACCAGAATGGAGGGAGGACACAAGCCAAAGAGTAGGAAGAGCACATAGT
Celera SNP ID:            hCV29433803
SNP Position Genomic:     522251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35446):
GATATTTTTTTCTCACTACTTCTTCCTTTCTCCCTCTTTTTACACAATTAAAAAACTAAAGATAAAAGTTGGCTCTATAGGGAAAGGTTTTATTTTTTAC
R
TTTCTGGCAAATTTGAGATTTCTATAAAATTCTTCATAGGTATATAAAACAGAGTAAGTATATTTTGTTTAACTTTTAAAGCAGGGTATTATTCATTTGT
Celera SNP ID:            hCV27442791
SNP Position Genomic:     35226
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35447):
TTTGTACCCTCTTTTCAGTTTTACTCTTTTTTATTTCTTTTTTTTCCCCCTTTAGGGTAATGACTTGAGCATCAGCACAGCCCAAGATGAGGTGTACCTG
S
ACCCATCTGAAGAACATACTAATGTATTGTTACTTAAAGAAGAATCATTTACCATACATGGCACACATTTTCCAGTCCGTAGAAAGGAATTTATGACAGT
Celera SNP ID:            hCV25970251
SNP Position Genomic:     374945
SNP Source:               Applera
Population(Allele,Count): african american(C,32|G,2)   caucasian(C,40)   total(C,72|G,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:35448):
CACATGAGACCTTAAAAGTAGAAGAGGGGGTCAGAGTGATGAAACAATGGAAGAAGAGGAAGGAGAAGTTTGAAGCATGAAAAATATTTCATTCATCATT
K
CTGGCTTTAAAGATGGAGAGTCCCTTGAACCAAGGAATGTGAATGACCTCTAGAACCTGGAAAAGAGCATTGGCTGACAAACAGCAAGGAAATGGGAACC
Celera SNP ID:            hCV923749
SNP Position Genomic:     355730
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35449):
TAATTGAGCAATTATACTTATGCCATACTTTTTGTAGAATAATTCTCCCTATACATAGGCCTTCTTTCTGTTTCTTAAATACTCTAAGTTTCCTATCTTA
R
GTATTTTATATGCTACATCATTTTCTATCTGTGCCTCTCTTTGTTTTTATTGTACTCATCTAATCTTTCTTTAAGAATATATTATACATTAATTTACTCA
Celera SNP ID:            hCV29433804
SNP Position Genomic:     519943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35450):
ATGATACCGTAATGGATATTTTTTTCTCACTACTTCTTCCTTTCTCCCTCTTTTTACACAATTAAAAAACTAAAGATAAAAGTTGGCTCTATAGGGAAAG
R
TTTTATTTTTTACATTTCTGGCAAATTTGAGATTTCTATAAAATTCTTCATAGGTATATAAAACAGAGTAAGTATATTTTGTTTAACTTTTAAAGCAGGG
Celera SNP ID:            hCV27442792
SNP Position Genomic:     35212
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35451):
GCTGTGAGGCAGGATGCTGGGCCACTGTCCTGTCACAGGCTCCAGCATGATTCGCCCTGCTCGGTGACACACCAGCCGTGTGACTTACCCGAAGGTGCAC
Y
TGTCTATTTTATGGCAACCGTTTGATAAATGAAAATTACCTGTGTGGAAAGCATAGTAAGTATTTGAGAAATATTTCAAGAAGAGTTATATGGCACAGTC
Celera SNP ID:            hCV29433805
SNP Position Genomic:     517333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35452):
TTCTCGAGAAGTATCTTTGTGGCCTTCTCTGTATTTCCTGAATCTGAACGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAG
W
GTGTTTTCCAACTTGGTTTCATTCTCCCCGTCACTTTCAGGTACACCAATCAGACGTGGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTTT
Celera SNP ID:            hCV27442793
SNP Position Genomic:     33031
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,5)   total(A,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35453):
TGTCTTTAGTCATTGCTTCTACATGGCAATAGGAAATATGACCATAAAAACCTCAGTGAAAGTAACCCACATTTAGAGAAGGCTTGTATTCCTTAATCCC
R
CCCCTCTACACACCCCACCCATTCAACCCATCTGTAGCCTCCCTTTCAGCTGTTCTTAAAAGACCTTCCCTTTTAAGGGAACTTACATTTTCCCTTCAAT
Celera SNP ID:            hCV8922745
SNP Position Genomic:     231372
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35454):
ATAGTGGCAGGAAAGAGAGAGAATGAAAGGGGAAGTGCCACATACCTTCGAACAACCTGATCTTGTGAGAATTTATTCACTATCACAAGAACAGCAAGGG
R
GGAGGTTTGCTCCCATGATTCAGTCACCACCCACCAGGCCCCTCCCTCAACATGTGGGTATTACAACTTGAGATGAGATTTGAGGTGGTCGGTGGGGGGA
Celera SNP ID:            hCV29433806
SNP Position Genomic:     512477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35455):
TTTCTCGAGAAGTATCTTTGTGGCCTTCTCTGTATTTCCTGAATCTGAACGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCA
R
AGTGTTTTCCAACTTGGTTTCATTCTCCCCGTCACTTTCAGGTACACCAATCAGACGTGGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTT
Celera SNP ID:            hCV27442794
SNP Position Genomic:     33030
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35456):
GCAATAGGAAATATGACCATAAAAACCTCAGTGAAAGTAACCCACATTTAGAGAAGGCTTGTATTCCTTAATCCCACCCCTCTACACACCCCACCCATTC
R
ACCCATCTGTAGCCTCCCTTTCAGCTGTTCTTAAAAGACCTTCCCTTTTAAGGGAACTTACATTTTCCCTTCAATACTAAATCCCAAAAGCTAATAGCAA
Celera SNP ID:            hCV8922746
SNP Position Genomic:     231397
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35457):
AGTCTTAGTATGAAAACAGTTTTGCTTCTCCTGAGGAATTTTTACTTACCTTTATAGATACTGTATGCCTCTTAAGAATCCTATTTGTATTCCCTGCTAC
R
CGTAGTCTACTAAGATGCTTAGTAGTGGACTTAGGATGCACTGCATTGAACGTTATGGCATGGTTTTCTGTCTACTAATTCTTTCCCTAATTTATACAAC
Celera SNP ID:            hCV29433807
SNP Position Genomic:     508628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35458):
TTTTCTCGAGAAGTATCTTTGTGGCCTTCTCTGTATTTCCTGAATCTGAACGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGC
M
GAGTGTTTTCCAACTTGGTTTCATTCTCCCCGTCACTTTCAGGTACACCAATCAGACGTGGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCT
Celera SNP ID:            hCV27442795
SNP Position Genomic:     33029
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35459):
AATCTGGCCTAAAATCACAAGCAAACATTCCATGATGGAATGGCAGATCATGCTAGATTTGCTGGTTATTATCAGTTTTATTTTACGTTACCTAAGTAGA
R
TTTAAGCCTTTCAGTTAAAATATGACTCCCAAGCAAAAGGAAGAGGATTAATGGATTAACTATTGTTTGTGTTATCAATAATATTGGCAATAACTATTTG
Celera SNP ID:            hCV8922747
SNP Position Genomic:     233270
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35460):
TATCTATTTCAGCTTTATGTTTGGATAGATGTACTATTCATCCTATCTTTCATTATGAGTCATGACCTCGTTATAGATAATCACCTTCTATTCATCTAAG
R
CATTCTTATCTCACTATAATTTTATAATATCTACCGTGCTATGACTCCTGATTAGTTCATAAATAAACTGTTTTATTCCACGCATTATTAGAATTAATGA
Celera SNP ID:            hCV29433808
SNP Position Genomic:     508283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35461):
CTGCCGAGAGATCTGCTGTTAGTCTGATGGGCTTCCCTTCCAGGGTAACCCGTGCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTT
R
GTGAATCTGACAATTATGTGTCTTGGAGTTGCTTTTCTCGAGAAGTATCTTTGTGGCCTTCTCTGTATTTCCTGAATCTGAACGTTGGCCTGCCTTGCTA
Celera SNP ID:            hCV27442796
SNP Position Genomic:     32896
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35462):
ATTGATTTTTGTGAATTTTGCTTTGGCAGTGATACCACTATCTATCACCACTACCCATAGGTGATAGTGCATTTGTCATAGGCTTCTTTATGAAGTCTCT
Y
GTGGGTATTTTTGACCAGGGTGAATCTTCAACTTAATTACTGTGTAATGAGACATGATTTTTAAAAATATATCTAGATGATGTTCTGATATGATTTTGAA
Celera SNP ID:            hCV29433809
SNP Position Genomic:     501107
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35463):
TCCCATTATTAATGTGTGGGAGTCTAAGTCTCTTTGTAGGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTGTTGGGTGCGTATATATTTAGG
W
TAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAATCTGTTTTATCAGAGAC
Celera SNP ID:            hCV27442797
SNP Position Genomic:     32150
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35464):
GTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAAAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATCAGGTCCGCTTGGTGC
M
GAGCTGAGTTCAATTCCTGGGTATCCTTGTTGACTTTCTGTCTCGTTGATCTGTCTAGTGTTGACAGTGGGGTATTAAAGTCTCCCATTATTAATGTGTG
Celera SNP ID:            hCV27442798
SNP Position Genomic:     31967
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35465):
TTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCAAGTATGTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAAAATGT
R
TATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATCAGGTCCGCTTGGTGCAGAGCTGAGTTCAATTCCTGGGTATCCTTGTTGACTTTCTGTC
Celera SNP ID:            hCV27442799
SNP Position Genomic:     31909
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35466):
ACAAATGTATGTATATTTATAGGATGCTTAGGCAAAATGAAGCCCTGAGCTGTAAAATGTTTCATGACAGTCTTTGCTGACAGAGAACGCTGTAAATGGG
W
GTCAGGTCCCCACTTAGACAGTGTAACAGAAATCCATGCCAGGGTGAAATAAGAGCTGGCAGTTAGGATGATAGACTTTGAAATCAGCCATCACAGTATA
Celera SNP ID:            hCV15967216
SNP Position Genomic:     269965
SNP Source:               Applera
Population(Allele,Count): african american(T,2)   caucasian(A,14)   total(A,14|T,2)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,266|A,1213)   total(A,1213|T,266) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35467):
TAACTAGCATTACAGAAAACCAAACACCGCATGTTCTTACTCGTAAGTGGGAGTTGAACAATGAGAACACATGAACACAGACAGGGGAACATCACATGCC
R
GGGCCTGTCAGTGGGTGGGGGTCTAGGGGAGGAACAGCATTAGGAGAAATACCTAATGTAGATGACAGGTCGATGGCTGCAGCAAACCACCATGGCACGT
Celera SNP ID:            hCV11200357
SNP Position Genomic:     298502
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35468):
ATTTTGTATTTCATATGTATATATGCTGTATTCTTATAATAAAGTGTGTTAGAGAGAAAAGAAAATACTAAGAAAATCATAAGGAAGATAAAATATATTT
K
TGTTAATCAAGTGAAAGTTGATCATCTTAAAGGTCTTCATCTGCATCATCTTCATGTTGAAAAGGCTAAGGAGGAGGAAGAAGAGGAGGGGTTGGTCTTG
Celera SNP ID:            hCV923750
SNP Position Genomic:     356364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35469):
ATGTTCAAAGTATAACAAAGATGAGAAGTAAGTTGAAAAAAGAATTATTAGTGATATTTCTTCTACCATATACATGTTATCTTGGAATTGGAATTTTTTC
R
TAATAAGAAATCCATTAGCATAAATACAGTTTAAATTGAATAAGTAAATTTCATTAAAAACAAAATATTTATTTGGGGGTACATTTTATAAATAGCTGCA
Celera SNP ID:            hCV923751
SNP Position Genomic:     357372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35470):
CACCAACGCTCTCATGTTTCTCATAAAAAATGCTCAGCTTTATTTGGAAACTTTGGCCATTGTTTTCTTTTTCTTCTTTCTTCTTCTCCTTCCTCTTTTG
R
GTTAAAAAGGCCACAGTCTGACCTACTTATATGTGTGATGAAATGTGCAGACTCTGCCAAGGCTATTTATTCTAATGATTTATCTACTCAAGATAAAAAG
Celera SNP ID:            hCV923752
SNP Position Genomic:     358644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35471):
AAAATCCAGATCATACTGATTTGTTGCCATGGTATAGTAGTCAGAGAATCTTGCTCTGGGCAGTTACAATATTTTGGAGATTGTTTTACATAATAGCAAC
W
ATAACAGGAACAATGATAACTGCTAACTTGTTTACATTTACAAAATGTCAAATACTATTCTAGATTATTCAATTGAATCATCACAACAACGCTATGAGGT
Celera SNP ID:            hCV923753
SNP Position Genomic:     361881
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,8)      total(A,4|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35472):
AACAACGCTATGAGGTAGTTACTGTTATATTGTTTTGATTTCCCTGATGGAGACTTGACACAAAGAGAGACTAAGTAATTCACTCCTGTCACACACAGCT
W
AAAAGTGGCAGAGCTGAGTGTTTTGCCCCAGGTAGTCCAGTTCTAGAACTGTACTCTTTTCCACTATGCTATACCATCTTCCTAATACTATCTGTACAAG
Celera SNP ID:            hCV923754
SNP Position Genomic:     362066
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,7)      total(A,4|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35473):
TCAGTTTCCTTCTATGGTGACTCTTTGTAAGCCTTATCCAACTCTAACCTGTTGTTATTTATATGGCAGAGTGAACATTCTAAATTGCAGATCCTATCAT
S
TCATTCTCTTCCTTAAATTGTACTATGGCTTTCCACTTTTTTCAGGATGACATACAGTGCTCTCCCACCATGATCTAATCTCTGCTTCTCTCTCATCTCT
Celera SNP ID:            hCV29433810
SNP Position Genomic:     498723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35474):
TCGCCGTTTCCTTTAATCTATACACTATGTGTCTTCCTAATACAGAGAGTATGTTGTTTGCCTATATATCATAACAAATTGAAAATGCATTTATAACTTA
Y
AAAGTATATATTACTAGGTGCTAGAATTTACACTATTATCCTAATATACAGAAGCTGGGAAAAGTAATGCCATAGAGTTGATTTATGTGTGTAAATGTCT
Celera SNP ID:            hCV923755
SNP Position Genomic:     363595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35475):
TAGTGTGAAATGTTTACAGTATTTTAATTTTGAAAACTATACTTATTAAAACAGTATGACAACATTTATTGAATACATGTTATGTGCTAGGTACCAAGTG
R
GGAGTTTTATGTTTATTTTCTCATTTCATCCTAAGAGCAAACTTCGGAGGTAGGTGTGATTCGTCTCATTTTAGTGAAAATTCACTGATGCTCTGAAAGC
Celera SNP ID:            hCV923756
SNP Position Genomic:     364299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35476):
CTAAGCACATCATCTTCTTCTATGTGATGTTTTGCAAATCTATTCATAGGAGATTTATATTTTCAAGTGTGCTCAAATGGATCTGTGTTGGGGAAAGATA
Y
GTGAAATAAGAAAATAAAAGCTAATCCATTTGTTTTAAAATTTTGTCTGCCTACCACATTTTGTTGGACTTCTTGTTATATGAGAACTCCTAATTGTCTG
Celera SNP ID:            hCV923757
SNP Position Genomic:     365847
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35477):
TGTAGGGATTTAGGGGATACTTTTAATGTTATATTCTATGCCTTAAAGGAAATCTTCAATACTTGTGCAATACACTTTTTCTCCCCAAATCTATTTGCTC
S
TCCTCTTTGGTCCCTCAGTTTATATTATCGCCTCTATTTCAGGTTCTGGGCGACATGCATATCTGTTCTTTTGTTGTTGTTCTTATCTTTCCTCAACCAT
Celera SNP ID:            hCV29433811
SNP Position Genomic:     488618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35478):
ATCTCTGGTGGTCTGTTCCAGAACTATGTCCTTGACTCTGTCACATTCATACTTTTCATCACTACTTTTTATACTTCTGCAATTTAGGTCACCCAATACA
S
GTTATCTTATCAGGTTAAACTGATTGTAGTGGTCACATTGAAAAAGAAAAAAAAAATCCCAAATTCAGGACTTTTCCCAACCAGTTCTAATTAATGCACG
Celera SNP ID:            hCV923758
SNP Position Genomic:     366503
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,8)      total(G,4|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35479):
ATTTTCGTATTGCTATAAAGAAATGCCTGAAGCTCGGCAATTTGTAAAGAAAAGAGGTATAATTGGCTCATGGTTCCATCAGGCTGTACAGGAAGCATGG
Y
TGGGGTGGCCTCAGGGAACTTTCACTCATGGCAGAAGGCAAAGCTGGAGCAGGCATCTTCACACAGGCAGAGCAGGAGGAAGTGGGGGCTGGAGGTGGCA
Celera SNP ID:            hCV29433812
SNP Position Genomic:     487499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35480):
TTAAACTGATTGTAGTGGTCACATTGAAAAAGAAAAAAAAAATCCCAAATTCAGGACTTTTCCCAACCAGTTCTAATTAATGCACGTGTGAAAGGACATA
R
TTATTGTGAAAAGAAATGCTATCAAAACAGTCTAATGGCTACAAGAAGAAAAAGAAAAGAAGAAGAAGGAGGAGGAAGAGGAGAAGGAGATGAAGAAGAA
Celera SNP ID:            hCV923759
SNP Position Genomic:     366618
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35481):
AACATGTATATAGCATTGATACCTCTATCTGCAGAATGTAAGAAATTGTAACTGTATACATGAGAGTATATTATAAATGCAGTAGTTCCTGCTCCTTGGC
R
TGCAGATACACCTCATTACTCTGCAATGCAAAACTAAAAATATACATGTTTTTTAAATCTGCTAAAAGATTCAATATATGTTAATTTTGGAAATTATACG
Celera SNP ID:            hCV29433813
SNP Position Genomic:     487154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35482):
TTCCTTAACTCTGTAAAATTGGCAACTTCCAACCACTTGGTGAAACCGGAAGTCTGAAGTTTTATCCTATCTTGATCTACAGAGATATAATCAACATTGT
Y
GTTTTTAATAGCCAGTTGCCACCAAAGATCTGATCACAATAATGCAGAGACCTTTATATATTATCACTAGAACACTGTTGTACATTTATAATCAAAAATG
Celera SNP ID:            hCV29433814
SNP Position Genomic:     480368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35483):
TGGTTATTATCAGTTTTATTTTACGTTACCTAAGTAGAGTTTAAGCCTTTCAGTTAAAATATGACTCCCAAGCAAAAGGAAGAGGATTAATGGATTAACT
R
TTGTTTGTGTTATCAATAATATTGGCAATAACTATTTGTCTATGGTGCTGTGTCAGTTACAAGGCACTCTGCCATGCATTCTTCCATCTGATCCTCACCA
Celera SNP ID:            hCV8922755
SNP Position Genomic:     233332
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35484):
TTAAGCCAAAACAACAGGTAATAGGAAATTGTCCTGGGCAAACCAGAATGTATGGCCCTGCTAGCATTGTGTAAAGTTACCAAACTTCCAGTGTCATAAC
M
CGGAGTGAAATACACTTAGGTGAATGGATGCATAGATACGTGGAAGAGTCAATTAATGGACTGCATTTAGGGTTCATCCAGTTGGATTCTCTTTCTACTT
Celera SNP ID:            hCV29433815
SNP Position Genomic:     474929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35485):
AAGATCTCTAGCACAGAAAAGTCTGGTTACAAGATTACAGAGAGAGAGAGAAAAAAAAAACTGTAGTGACTTGTCTAGGGAACTGTGTGGTTGCCACATA
R
AAAATGTGGAAGGGAGTGATGGGAGACAGGCTATGTTCCTAGCAATTGCCTTGACTCACCATAATTATTTCACCTACTGAATAACTGAATAAATTGAGTA
Celera SNP ID:            hCV8922756
SNP Position Genomic:     235605
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35486):
TCAGCATCAACTGATTTAGTGAAGCAGCAAAAAGAAAAATGGTGTGTGCAGCATTATCTTTCTGCCACAGATACATGTTTTTAATTTCCAAGTTTCCAAT
R
CATCATTCAGTTTTATCTAACGGGAATGCAGCTGAGAGAAGTTTGTAACAACCCAAAACTACATGCTAATATAGTTTAGTTTTCAAGTCTTGTGGAGTCT
Celera SNP ID:            hCV29433816
SNP Position Genomic:     471103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35487):
CTCACACAATTCCCTAAAGGAAAACTACAAAAAGGATGTTTCTTGAGATAGGAATACAAATAAACTTTTGCTTGTTTGTTTGTTTTGTTTTAAATCCAGT
R
ATAAGAATGAATGTTTTCTGTATTTGCTTTTTTTAAAAAAACTCTATATTTTATGTGCAGACATTTAACATAAAATCTTTTCCCAATGTCTTTCTTAGAT
Celera SNP ID:            hCV8922757
SNP Position Genomic:     237385
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35488):
GTAGCCCTGCAGACAAAATGATAATTGAGAGAAGATTAGGGAGTTGTGAACAGAAAGAATAAACTCAAGCTTCAAGTGAGATGGAATCCCTACTCCCTCC
R
GAAGACCTTTTATGTGATATAAGGAAACAGTGCAATCCACCATAATATCATAATTTGAAAAAAATTGTATCAACTATTCAAGAATTACTACATTCCTATA
Celera SNP ID:            hCV29433817
SNP Position Genomic:     470441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35489):
TATGGTAGAAATTTAACTCTTATGACGGAGTGGCAGTGCTCACACACCCTTAGAAGTTTCCAGTGCCTTCCCAAGGAAAGATCAGACTCTTTGAGCATTA
S
AAACCCTCTGTAATCTGACTACCTTTCCAGGCTCCAAGCCCTCAACTCCATTCTATATAATGCCAAGTTTGGCATTTCTTGCACTTATCTAGACATCATT
Celera SNP ID:            hCV29433818
SNP Position Genomic:     468850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35490):
GGAGGCATGATGAGTGATTACTGACTCATTTCCACGGCATTAGTTCAAGTCCTCATTATCTCTTACCAAAACAAATATGGTAGAAATTTAACTCTTATGA
Y
GGAGTGGCAGTGCTCACACACCCTTAGAAGTTTCCAGTGCCTTCCCAAGGAAAGATCAGACTCTTTGAGCATTAGAAACCCTCTGTAATCTGACTACCTT
Celera SNP ID:            hCV29433819
SNP Position Genomic:     468775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35491):
CTACAAGAAGTATACAATTGCTCCTCTGATGTGAAAGCATATGAAGAAAATAAGTGTCCAAAGCTGCATAAATATTTGCACCCCTTTGAGAGTATGAGAA
R
GTGTGTGTTTTATGTTGTGATTGATAGGACAACTTTCATGGCCCACTTTGAACTCTTAGCAGGAACTTTGGAATGTCCTGAGGGTCTGTCTGCCTTTGTA
Celera SNP ID:            hCV16106438
SNP Position Genomic:     358338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35492):
CCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGATTTCACCATGTTGGCCATGTTGGTCTCGATCTCTCGACCTCGCAATTCGCCCGCCTC
R
GGCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCGGTCCCTCATGCTCCATTTTTATAGTTTCTCCAAGAAGCACTTTCTGACCTCTAGACT
Celera SNP ID:            hCV11200504
SNP Position Genomic:     43215
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35493):
CCACATAGTTACAGAGGTGTGTGTTTTCTTCTTTGTTTAGCACTTTAAAGATGTGGCACCATTATTTTCTGGATTTCATTCATCCTTATGACAACATAGC
C
ATTATTTGTTTCTTTGTTCTATATATATATATCTTTAATTCACTAGATGATTTCAAAAATTTTTTTATATCTGCCTTTTGACACTTATACCATGTATGAT
Celera SNP ID:            hCV11200361
SNP Position Genomic:     285481
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,9)   total(C,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35494):
TGAAGCTTAGTTTTATGAATTACCTTTTAGCCTTCTCCAGTCATGTGGGAAAACTTTCCTGCCTCATTAAATCTTTAATGCAATGTGCACCATGCACACT
R
TATTGTTATTTGTGACATTAGGTTATATATTGCATAGTAACTATAATATTACTTGCAAACAAGCTGGTTTTTCCCCCTGAAGGTAGAATTAAAACAGGTA
Celera SNP ID:            hCV923760
SNP Position Genomic:     367692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35495):
CTGGTTTTTCCCCCTGAAGGTAGAATTAAAACAGGTACTCATGGGAAACAGCTACTTGTGTTCTTCTTTTCTTAATGGGGTGAAGCTGAAGAACAGGAAA
K
TGAATGGCTTAGCCCAGAACCATCTCCAGGAATGGAGGTAAATTTTTTCCTGCAGTGCCTTCTCAATTTGATATCTGAATCTCCCTGAAGAGAATTTGCC
Celera SNP ID:            hCV923761
SNP Position Genomic:     367856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35496):
GAAGGTAGAATTAAAACAGGTACTCATGGGAAACAGCTACTTGTGTTCTTCTTTTCTTAATGGGGTGAAGCTGAAGAACAGGAAATTGAATGGCTTAGCC
Y
AGAACCATCTCCAGGAATGGAGGTAAATTTTTTCCTGCAGTGCCTTCTCAATTTGATATCTGAATCTCCCTGAAGAGAATTTGCCTTAGTAGATATGGAG
Celera SNP ID:            hCV923762
SNP Position Genomic:     367871
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35497):
AGCATTACAGCCACGACTCTTTATACAGCAGCCACCCTCTTCTGTGCCTTTGCCAATACGTTCCCTCTGCCTGGAAGATTGCAGCCCTTTCACTCCTCCA
Y
CCGAGACTAACTAATCCCTGTTCAGCTCCCAAAAGTCAGCACTATCATCCTGAAAATGTCCTTGATTGGGCCTAATCTGAGTTGGTTGCCCTTTTGTGTG
Celera SNP ID:            hCV8922901
SNP Position Genomic:     407069
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35498):
GTCTTATTTACATTTAAACGGCCCTTTTTCAAAATATTGCAATTTGATTTGAAAAAGTTAACAGATGTGGAAAGGAACAATGCCTTTGTTATGTCAAGAT
R
TCCGTTTCTAGCAAGGCATTCATTCGATAAACTATTTTTAAAAATGCACTCATTCTGCCTTGCATATGAAAATGAGAGGGCTTGACATTTCACATTACAA
Celera SNP ID:            hCV8922902
SNP Position Genomic:     407729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35499):
GATGAGCATAAAAGTGGTGTACTACTGAGGAAATTATATTCTCCCACATTGTTTTTGATCCCCTTCAATTTTGACACTTGCTGCAAAAGACTTTATCTTG
R
TAAGATGGCAAAGATAACAGAGCTAGCCTGACCATAAGATTCAGATGCCCTGTTCTGTTTCTCCTTTGGCAAATGTGGCTTAGTATAAAGTGTGAGCAAA
Celera SNP ID:            hCV8922903
SNP Position Genomic:     409037
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35500):
TGGATGAAGTGGTCTGCTCTCTCTCTTTCTGTCTCTCTCTTTCTCTCTCTCTCTGTCTCTCTCTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT
M
TATATATATATATATATATATATATATATGGCAACTAGATGTATACTTTGGAATTCCTTTAAGGTGAAAAGAGTTCTCTAAATGTAAAGTGTTGAGTGAA
Celera SNP ID:            hCV923764
SNP Position Genomic:     373892
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35501):
GAAGATACATGCAAAACCTGACAGTTGAACAGCCTATCGAAGTTAAAAAGCTTTTCGTTGGGGGTGCTCCACCTGAATTTCAACCTTCCCCACTCAGAAA
Y
ATTCCTCCTTTTGAAGGCTGCATATGGAATCTTGTTATTAACTCTGTGTAAGTGGATCTCCTCATTACTACTACTAATTTTTTATTTTTATTTCTTGCTA
Celera SNP ID:            hCV25965737
SNP Position Genomic:     614642
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,40)   total(C,2|T,76)   
SNP Type:                 SILENT MUTATION;UTR 3;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(T,36)   total(C,2|T,68)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:35502):
GAAATAGTTCCAATATTATTCATAGTGGCTTGTATAATTATGTCCTCTCTCTTCATCCATCATCTTTTCTGTATTTTCAAGGCATAAAAATAAGAGGGAA
K
AGTCAGCTAAAGCATTTGACTTAGTTGACAATTCTTTGATAGCTCATGCATCTCTAAAATTTAGTACTATATTATTGCCAACATTATGTATTTAAATGAA
Celera SNP ID:            hCV923766
SNP Position Genomic:     379887
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35503):
TCAGAATCTCTCTAAGAATCAAAGACTGATGAGAAACCTCTGAAAGCTGTGAAAAGTGTGTTATTGTTTTTAATTGCTTCCCTAAAGAATGAGAGAAGGC
R
AAGCTGGGACCCTAGTGGTATTGATGGGCTGTTGCTCCTTATCCATGATGTGTAAGAGTGAGGAACTAAGTCTGAAAACTTTTTAAGGGGAAAATAGCAG
Celera SNP ID:            hCV8922761
SNP Position Genomic:     241652
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35504):
AGAATGTATCCTTAGTGCTTTCAAAGTTCCCTCAACATTGCTTTCAATAACCTATTCTAATAAGAGCTGTTTTTTTTCTATCAATAATTACACAAATAAT
K
TGTATCACTTAAAAACAAAACTTGAATATCTACCAAAAGCTGTGGCTTTCAATTAGAGTATTAACCACATAATTTCATTTTGTAACTCTTTCTCTCTGAG
Celera SNP ID:            hCV923767
SNP Position Genomic:     383750
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,39|T,1)   total(G,72|T,2)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,14)      total(G,14|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35505):
AAGACCCAGTAGGGTACCCTATTTCATTAAGAAATGTGTCTCTCTCATCACAGGTTTAGAAGATGAGTTCTAGCTTTTTGTTATTTAATAATGATAATTC
R
TTGAATCAAAACCAAATCACTTTCTGGACCAACTGGCAGCTGTTAATATAACCTGTAAATTGATCTTTTTTTAAAGCAAAATTTCCAACAGCTCAGTGCC
Celera SNP ID:            hCV8922907
SNP Position Genomic:     411743
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35506):
TCAAGACTGACACCCCAAAGCATCCTTAATCTATAATAAACACAGGAGTACAGGGAAGCTCACCTCCACTTTGTTTACATTTCTATGGGCAAATGTGCCG
W
CTTTCTAGTGAGATGTGAGGAATTTAAGTGCCCTTACTGCAGCCTTGGGAATAGAAACAGGATCATCAACAGCCTCCACTCCTGCCATCCTCACCCATGC
Celera SNP ID:            hCV27493223
SNP Position Genomic:     180858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35507):
TTGTGTAAATTTAATCTAATTTTTTGATGAAACAATATATTATGAAAATAAATTAAAGATAGACGAGAGCAGAAGAAAATTGAGCCATGAATAATTTCAA
Y
AGTGGGGAAGAGAACTTTGGAAAAGTTTAAATTAGAGTAGAAATGGGTAAGAGGAGCTCAGGAAAGTATTTATTTGCTTTTCTTTAATTCCCCATTGTGT
Celera SNP ID:            hCV29433821
SNP Position Genomic:     447892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35508):
AACTAGTTTCACTAGCAGAAAAGAAAAATAAAAATATAAAATAGCAAATAATCTTTAAAGAAAACTGATTTTCTTATTATGCTGAAATTTATTAAAGACT
R
TTGTGTTGACTGAAGAATATGTTTAAATATTTTGTGGAAGGCAAAGCTTTCATTCAGGAATGACAAGTGCAAGGACTGTAATTCTAAAGAAATTAAAGAA
Celera SNP ID:            hCV8922762
SNP Position Genomic:     259517
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35509):
TAGTTTTAGGGTCTGACTTCTGTAACAGTTTGTTCTTTTAAAGGAAGCACAGATTGATACAACGTATTTAACATAATGAGTAATGTCTACTTATTTTTAC
R
TTACTTAAAAAATGAAATACATGTCAGTTTGAAACACTGCCTTAATAACTGTGTGCAAGTACTCAGTAAAAATCAGCAGATGCTCGTTTGGTTGTGTCCC
Celera SNP ID:            hCV8922908
SNP Position Genomic:     420642
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,16)   caucasian(G,32)   total(A,16|G,48)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(A,15|G,33)   African-American(G,15|A,53)   Asians(G,37|A,41)   total(G,85|A,109) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35510):
TCATTCATAAGCCACTCATTCGAAACATCTTCCCAGATACTTAGTTTTATGAAATTCTCAAGACTGACACCCCAAAGCATCCTTAATCTATAATAAACAC
M
GGAGTACAGGGAAGCTCACCTCCACTTTGTTTACATTTCTATGGGCAAATGTGCCGACTTTCTAGTGAGATGTGAGGAATTTAAGTGCCCTTACTGCAGC
Celera SNP ID:            hCV27493224
SNP Position Genomic:     180801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35511):
GGTAAGCACTGCTTATACAGTAAGCACTGCTCTTTCCAATATACATATGTACACATAGTGTATGGGTGAAAACTGAGACTGTGTGGCACATATGAAATGA
R
TGACCTTTCCAGTGAGCATTGAAGATTTTAAAATGGAGGACAGAAAGAATGTGAGATTTTTCTAGACAAGAGATGGAATTTCCTTTATCCCAGGTAGCGT
Celera SNP ID:            hCV29433822
SNP Position Genomic:     445026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35512):
TTTTGAAATGACATTTTTATGAATAGAAAGACTAAGTGATTTTCATTTTAATTATGCCATAAGTCTTTTAAAATGTACTTTGGGAAAAATATTGGGTTAC
M
TTTAAACACTTCACTAACATGCAGTAGGAAATAATACTCAGCCCAAAACTGACATGGAATTGTTTTACTTACCCTAAGAAGACAAAAATAAGTATGTCAT
Celera SNP ID:            hCV923769
SNP Position Genomic:     391178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35513):
CTATGTGGCATGCATTCCTTGTCTTGGATGGCTTTGAAGATATTCTCAAACATTATTTTTGCAATCTTTGAAAAAGTACAAAAGGTAGATAACTTTGTAC
Y
CTTTGAATATTGCATGATAGCAACAAAAATGAAAAATCTATAGAAAAAAGTCAGGTGGTAAATAAAAATCGAAAGTATCTTTATATATAAACAGTGTCCA
Celera SNP ID:            hCV8922909
SNP Position Genomic:     422737
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35514):
ATTTTTTAGCATATAAATTTAAACATAATGGTAACTATTTTTCTTCTTAATGAAGGACACATCTAAAATAAATCATTTGGCTTAAAATTAGCAACAACAG
Y
AATAACCAAAACAGCAATGACTAACATTTATTTAGTGTTTACTCGGTGTAAAGTATTTTTCTAAACACCTTCCACAGCTGGTGTGTAATGCTGTGAGCAA
Celera SNP ID:            hCV29433823
SNP Position Genomic:     422325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35515):
ATTGATTTGTCCAAGAAAACTCAGCCCATTTATCAGGCATTTCATCATAATTAAGAATTTTGTTAATTTCCACATCAATTGTGCTTATGTGTACAACAAA
Y
GCAAGAAACACATTTTCACACACTATAAATGGACAAATACCCAAAACGGGGAAAGTTGTTTCTAATTACAAAAGTGTGGTTCTCATATCACAGGACAAAA
Celera SNP ID:            hCV29433824
SNP Position Genomic:     416169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35516):
AAATTTATAAAGCTTAACTTGCTTTAAAATTTGATTATAAATTATCTGAAAAATATTTTTGGCACCAGAACAAAATCTAAACTTCTGCAATAGTGTAGGT
S
TATATTTAAAAGACATTTTAACTCAAAGTCCATTTGAAGTAAGCCAGGAAGTATTCAATGTCACATGGGAAGATTTCATGCTTGCTTCTTCTCATAGTTC
Celera SNP ID:            hCV29433825
SNP Position Genomic:     391988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35517):
GCCTTAATTTGTGGATCAGTGGATTTTTGAAATGACATTTTTATGAATAGAAAGACTAAGTGATTTTCATTTTAATTATGCCATAAGTCTTTTAAAATGT
R
CTTTGGGAAAAATATTGGGTTACATTTAAACACTTCACTAACATGCAGTAGGAAATAATACTCAGCCCAAAACTGACATGGAATTGTTTTACTTACCCTA
Celera SNP ID:            hCV29433826
SNP Position Genomic:     391154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35518):
TTTAATAGTTGTAAACATAAGTATGGCTTTGACCTCTTTGGACTTCAATCACTTCATCTGTAAAATAAGGAGGAGGACAATTGCTCTGCCAGCTTCAAAA
R
GTCACCGCAAGAATTGAATTAGAGAGCTGCAAAAGCACTTGGCTAGTGGTAACCCAGCACACAAATATGAAGCATTTCTATCTTATCTACTTCATCCCAA
Celera SNP ID:            hCV29433827
SNP Position Genomic:     377254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35519):
ATTACTAAATGAGTATGTGAGGACAGAGCAGAGGAAAAGGCCAAGGGTTGAGCACTGTGGTGCTCTATTATGAGAAAGTTAGGAAGGATTAAAGTTGGCA
S
TGAAGGGGATTGAGAAGGAGTAGCTGAAGCGGTAGAAGGAAAACAAGAACAGTGTGTCCTGGAAGTCAGTGGAGTAATCACTTGTCTCAAATGCTGCTAA
Celera SNP ID:            hCV8922768
SNP Position Genomic:     261737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35520):
AAAGTGGCCTAAAGTACAAGTAAGCAGAAACATGGCTCAAAATGTTGAGAACATTCTTAAGTGGAATATAGCATGTTCTAAGGTTTCAACTTGTGAACCA
Y
CTTGAATTAGTTATTGCAGTGCCCAACAGATATTTAGTATTGCTGTGTGTCCTTCAAATGTTTACAATATTCCACTGTGCCTTTGTGAGTTCACTGCAGC
Celera SNP ID:            hCV29433828
SNP Position Genomic:     369197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35521):
GCAGTTTCAGTGGAATGGAGGAAGACCAATGGAATAATAGGAGCATTGTGGAGGAATAAACCAAAATGTACCTATTTACCATCCAGAGCCAGACTCAGAG
Y
CTTTACTCTGTGCTAGAAACACAATGACCAATTGTTGCATTGTTCCCTTTCCTTGAGCTTTCTACAGCTCACCTCGCTTCTTCAAACATGTACAATCAGA
Celera SNP ID:            hCV8922769
SNP Position Genomic:     262014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35522):
CCTTTGGGGTAGTATATACCTTCTCAAACTTGAGTATCAGATTGGATAATGCTATCCTTATTTCCTTTTCCACATTGACTTTTGTGCAGTTCTTGCTTTT
R
ATTACAGTCTCTTCTGAAAACCTTTCTTAATAAAGATATAAAGTGGCCTAAAGTACAAGTAAGCAGAAACATGGCTCAAAATGTTGAGAACATTCTTAAG
Celera SNP ID:            hCV29433829
SNP Position Genomic:     369057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35523):
TCATATTATCCATCCTCCTCTACATCAGGGTCCACAACCCCTGGGCCACAGGAGGATATTGGTCCGTGGCCTTTTAGAAACCAGACCACACAGCAGGAGG
S
AAGCAGCAGGCAAAGGAGCAAGCGCAGCTTCATTAGCATTTACAGCTGCTCCTCATTCCTGGTATTACTGTACTGCCTGAGCTCCACCTCCTGTCAGATC
Celera SNP ID:            hCV106729
SNP Position Genomic:     452490
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35524):
CATTTCAGAAGAATTATAATAAGGAATATAGCATCTTTAACCCATTTCTCATTTGCCTGAAGAATACTTGCAGACAGCATTTGTGGCTTAATGTTTACCC
Y
GAGATAACTTGTGGCTTACTGTCCTAACCTTATCCCCAAAGTTTGCCATGAAATATCTCACTTTTATTATTATTTTTGCATAGGTCTAGCATATTGACTT
Celera SNP ID:            hCV11830575
SNP Position Genomic:     217991
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35525):
ACATTCCAGAGAATCAAAATTGCTTGGGATGACATCGGGTACTCTCTTAGGCTAAGACTATATGATGAGTCCTTTTATATCAGCTGCCTTTTTTACAGTA
S
TTTTTCTTCTACTTTCCTGTCTGTGCTTTTTTCTTTGAGACTGTCACATTTCAATTCTTTATATCTCTGCTTTATTTTACCATTTCAGAAGAAACACCAA
Celera SNP ID:            hCV27471162
SNP Position Genomic:     389589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35526):
CAAAGAGGAGAATATTTGAATGTTGCTCATCAAGGGCATTCTTACTGTTCAGCTGACCCTGCATTTTAGCTTCTTGTTTATTTTTCATGGTTTTAACCCA
S
CATTAAGTAGCATGGTTTTTAGCATGAAAAATAAATTTATAAATTTATAAAGCTTAACTTGCTTTAAAATTTGATTATAAATTATCTGAAAAATATTTTT
Celera SNP ID:            hCV923770
SNP Position Genomic:     391847
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35527):
TGATTCAATTTTTTAAAACCCTTAAGTATTTGAAGACATAATTTTAGTTGTATCAGTGAGATAACATGCAAATAATTTTACAAAAAAACAAGCAATTCTT
Y
AGTAATAGCTTAGTTTAGCTAAACTTAAAAATTGAAAGGAAGTAAAACAAAAATCAAATCGGGGAAAAAATCTTTCTTCAAATGGATCCATGTTTTGCAC
Celera SNP ID:            hCV923771
SNP Position Genomic:     392526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35528):
GCTCTATGACTACACACACACACACACACACACACACACACACACACGCAATATCATGTATTTTCTTAAGGAAAATAAAGAAAAAATGAAGTAAGATTTG
Y
ATAATGAAAAACATTAAAATGAATTTCAATCATCTTTTTGTAAGTATGCATATGCTGAAACTACTGTGTTGTTTATAAGCTAGATATTAAATTAACTTTC
Celera SNP ID:            hCV923772
SNP Position Genomic:     393173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35529):
TCTCCTGCCTCAGCTGGACTACAGGCTGTGTTGAATAAAAATCAACAATTTTTACTCAAAAGTGATTATAAATAACTATACTTTTAAATAAAAGGAAATT
M
TTTTCTGAAGAACTCTCTTAAAGGTGAGCTTAGTGCTTAATAAGGTTCATATCGTATTGTACACTTTCCAGCTATCTCTAGGCACTGTGACAACACTGAC
Celera SNP ID:            hCV923773
SNP Position Genomic:     394478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35530):
GGAGAGAAATGTTCTAAATGTGCACCCAATACCTGGGGCCACAGCATTACCACTGGTTGTAAGGTGAGTGAACCACTTTTTTGCTCTGATAATTTTTTGG
R
GAGATTTTTGTTTTGTAGAGCTCTGTAATTGGGCATTTCAAAATTCAATATTACATCACAAAATAATGTAGAAGTATTACTATAATGTGATTACAGATAT
Celera SNP ID:            hCV8922914
SNP Position Genomic:     423547
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,22|G,18)   total(A,54|G,22)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(A,-|G,-)   Caucasian(A,27|G,27)   African-American(G,8|A,68)   Asians(G,20|A,52)   total(G,55|A,147)
SNP Type:                 INTRON


Context             (SEQ ID NO:35531):
ATTTATCTAGCAAGGTTTTGAGAAAATAAGACATTGGTTTAATGCAGGGGTCCTCAACCATCTATAGCCTGTTAGGAACCGGGCTGCCTAGCAGGAAGTG
M
GTGGTTGGCATTACCACCTGAGCTCAGCCTCCTAACAGATCAGGCAGGCATTAGATTCTCATAGAAGCTCAAACCCTATTGCGAACTGCACCTGCGAGGG
Celera SNP ID:            hCV923774
SNP Position Genomic:     395531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35532):
CTGCACCTGCGAGGGATCTAGCTTGTATGCTCCTTATGAGAGTCTAACTGATGCCTGATGATCTGACGTGGAACAGTTTTATCCCAAACTCCTCCCCTGC
R
TCTGTGGAAAAATTGTCTCCAACAAAACAAGTACCTGGTGCCAAAAATTTTGGGGACCACTGGTTAATGTATGTTAGTGATCAGAACATTTCCAGGGCCT
Celera SNP ID:            hCV923775
SNP Position Genomic:     395717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35533):
TATGACTAGAGGTATAGCTAAGAAAAAAGACTATAGGGAGAAATTAATATTGTAGGACAAAGCATTTAATTCTAGAATGATCCCACTAAGGTAAGACCAC
Y
GTCATCGGTTGCAAAATTGCTGAATCACTAGGGTTAATAGTTACAGATCCTAAATACTCCTCACATGTTTTCTTTCCTCGTTACTTAACTTCCCACACCC
Celera SNP ID:            hCV8922770
SNP Position Genomic:     267992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35534):
AGGAAAAACATTCAATATTGACAAACACCCTAAAAATTATTTAAATTGAAAGAATAGTGCAAAATAATCAAGGAAAAGAGAGAATTTCTGTTTTTTTTTT
W
AAAAAAAACAGCACGTTTTAAGTTTCTAATCTTTGCGTTGTCAAATACTCTCTCTCTCTCTTTTGCTACCTCATAGAAATTTAATCCATCAGGATACGAA
Celera SNP ID:            hCV8922916
SNP Position Genomic:     448188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35535):
GGTATATATTCTTATTATAGCAGTGTCTGCCAGGGCTGCAGTCCTGTTGTTAGAAGGCTGTCAGAATTTTAAATGTAAGCCTTCCTTTCCCAGGTGTTAT
W
ATTTAATCTTCTAACTCCTATTAATTTCTGAAGACTGTGGGGCCATCCTATATCTTAGAACAAAATATAGATACGTACATTCCTGATTTTTTTCTCCATA
Celera SNP ID:            hCV29433830
SNP Position Genomic:     355240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35536):
ACCTTTTAGCTCTTATTACAATGTTCTGCTTACCTTCATTTTATGTTAACATATCTGTAAAGCAAGGTCCTTTATTTCTCTTCTCTTCTAATTAACTAGA
Y
GCTCTTACATATTCTTCCAGCTGACACTTTTATGCACTATTTTAATCTCTTCCACAAATTTTAATTACAATCAAAATTACTGGAATTTTGATTGTAATTA
Celera SNP ID:            hCV8922917
SNP Position Genomic:     455103
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35537):
AGCACCACTATCAATCCAGCAGAGCTGGCTGCCCATTGCATCATGTGAATTCCAGCTGAATACATATTAGAATTATATAATTGATTGAGTATGCAAACCC
K
ATGGATTTACCCTCAAGTCTGACCAACATTACTATAAATGCAGAGGAAACATTAGGGAGATAATTTTGCTTGGATAATTATAGGCATTCATGACCCATTG
Celera SNP ID:            hCV923777
SNP Position Genomic:     396301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35538):
CCGTAGGCATGGGACCCTCCGAGCCAGGTGTGGGATATAATCTCCTGGTGTGCCGTTTGCTAAGACCATTGGAAAAGCGTGGTATTAGGGTGGGAGTGAC
S
CGATTTTCCAGGTGCCGTCTGTCACAGCTTCCCTTGGCTAGGAAAGGGAATTTCCTGACCCCTTGTGCTTCCCGGGTGAGGTGATGCCTCGCCCTGCTTT
Celera SNP ID:            hCV29433831
SNP Position Genomic:     351030
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35539):
AAACCATACTTTGCATTATGGTATTTTTTATCTTTTATTGCCTTTAGCCAGTATCCTTAGGAATGTGTTACAGAAAGGAAGATATAGACATCTTATTATT
R
TAAAACTCATCCTTCAGTATTGGCAGGGGATTGGTTCCAGGACCCCCCCCCACAGATATCAAAATTCTTGAATACTCAAGTCCCTTTTATAAAATGGCAT
Celera SNP ID:            hCV212726
SNP Position Genomic:     561658
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35540):
GAATTGCTATATTTACACTAGTCACTCTTCTCTCTTCAGATATTTTATGTCTTACAGTAAACTGTTTTAAGGTTGTCTATATCAAGCACGCATTTCTCAT
W
TAAAAATTCTTTCTATGTATCTTACATTTTCATTTTAATGGTAGTAAACATTACCTGTTTTGTTTCAACATAGTAAATGTACTAACTGGTCATTATTGGT
Celera SNP ID:            hCV8922918
SNP Position Genomic:     455322
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35541):
AAGTCTGACCAACATTACTATAAATGCAGAGGAAACATTAGGGAGATAATTTTGCTTGGATAATTATAGGCATTCATGACCCATTGTTGTCTCTTTATTT
R
TTGTGCATTTACTTGGATAATGGGTTCTAATTGTTGTTCCTGAAAAAGAAAGAAAGTCTGCAAGCATTAAAACACAATCCATCAGTGCCAAAGGGATTGG
Celera SNP ID:            hCV923778
SNP Position Genomic:     396416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35542):
TTGCTGCCACCTTGCAGTTCAGTCTCAGACTGCTGGGCTAGCAATGAACAAGGCTCCGTAGGCATGGGACCCTCCGAGCCAGGTGTGGGATATAATCTCC
Y
GGTGTGCCGTTTGCTAAGACCATTGGAAAAGCGTGGTATTAGGGTGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACAGCTTCCCTTGGCTAGGAAA
Celera SNP ID:            hCV29433832
SNP Position Genomic:     350975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35543):
CTGGCATTTTTAGCACAGTTATATTTGCTTTATATGATTAATTTAGAAGCATTTATAAATAATGCAGTTTAATTTCAATTTTGTTAGGATTAAAATTACC
R
TCTTTATACTGTCCTCTTTTGACCAATTGACTATTATGACTATTTTTGTTCTCTAAGAATTCTAAAAGCATGTCTATTTTCTGAGGAATCCCTAGATGAA
Celera SNP ID:            hCV8922919
SNP Position Genomic:     456499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35544):
CAAGCATTAAAACACAATCCATCAGTGCCAAAGGGATTGGGTTTCCAGTGTCCAATAATATTATTTCCTAAAAGATGTATATTCTAATTTGGTATAATTA
Y
GTTGATCCTGATTTTTAAAAATGCATATAACACAGTGATAACAATACCAGTAACACCAAGTATTTAATGATTCTTTCATTTTCAAAATGTTTTCACTTAG
Celera SNP ID:            hCV923779
SNP Position Genomic:     396577
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35545):
TCCAGACCCTGTTTGCCTGGGTATCAGCAGCGGAGGCTGCAGAACAGCAGATATTGCTGAACAGCAAATGTTGCCGCCTGATCGTTCCTCTGGAAGCTTC
R
TCTCAGAGGGGTACTCGGCCGTGTGGGATGTCAGTCTGCCCCTACTGGGTGGTGCCTCACAGTTAGGCTATTCAGGGCTCAGGGATCCACTTGAGGAGGC
Celera SNP ID:            hCV29433833
SNP Position Genomic:     350519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35546):
TCTTCAATCACTGATACCCTTTCTTCCAGTTGATCGAATCAGCTCCTGAGGCTTGTGCATTTGTCAGGTACTTCTCGTGCCATAGTTTTCAGCTCCATCA
R
GTCATTTAAGGACTTCTCTACACTGGTTATTCTAGGTAGCCATTTGTCCTATCTTTTTTCAAGGTTTTTAGCTTCTTTGTGATGGGTTCGAACTTCCTCC
Celera SNP ID:            hCV29433834
SNP Position Genomic:     350009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35547):
AAAGGCCTTTTCTGCATTTATTGAGATAATCATGTGGTTTTTGTTTATATGCTGGATTACGTTTATTGATTTGTGTATGTTGAACCAGCCTTGCATCCCG
K
GGATGAAGCCCACTTGATCGTGGTGGATAAGCTTTTTGATGTGCTGCTGCATTCAGTTTGCCATTATTTTATTGAGGATTTTTGCATTGATGTTCATCAG
Celera SNP ID:            hCV29433835
SNP Position Genomic:     347499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35548):
CAAAGGCCTTTTCTGCATTTATTGAGATAATCATGTGGTTTTTGTTTATATGCTGGATTACGTTTATTGATTTGTGTATGTTGAACCAGCCTTGCATCCC
R
TGGATGAAGCCCACTTGATCGTGGTGGATAAGCTTTTTGATGTGCTGCTGCATTCAGTTTGCCATTATTTTATTGAGGATTTTTGCATTGATGTTCATCA
Celera SNP ID:            hCV29433836
SNP Position Genomic:     347498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35549):
GGGACGCTTCTTCTCTAGAAAGACTAAAATTAATCAAGGCTACAATGTAGTGTTTTTTTCCCTAATGACTTTAGCGTTAAAAGACCAGCAATGTTTCTTA
R
GTACAATTCTTGTTACCTGCTTTCTTTATAAAACTGTAGGATTATCAATCTGAGCATTACATGTAGACTAAATTTTGAAATATTAAAAAACGGATACGTT
Celera SNP ID:            hCV8922777
SNP Position Genomic:     289277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35550):
ACTTGTTTTCAAACATCGATTTCGGGTTCATGCCATCAAATTAAAAAATTCACTTAACTGAGTTTAATTTGCTTTCACTTAGGAAGCAGCTGCCTTTCAA
K
ATAATAAAATAAACAGATACAATAATATTTGGTCAGCTGTGGCTTTTAATTTAAATGTTTGATTTAATGTTGTTTAGTTTGCTGGATTCCAAAATATTCT
Celera SNP ID:            hCV29433837
SNP Position Genomic:     335594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35551):
ATTGTTTTATAGTAAAGATGCTTGTAATATCAAAACAAGTATGTTTTTAAAAAATTAATTTCATCCTATTACATTTCACATTTTATATTTGATGTGGGTT
R
GAGGAGCCCCTTAGAGATTCTTTTTTCTTTGTAGAGAAGTTTTGTAGAGATCAATAGTGTAAGAATCATACAAGTGTAAATAGTTTTGTTTCCTTTTAAT
Celera SNP ID:            hCV29433838
SNP Position Genomic:     330319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35552):
AATTGAGAGATTATATCCTTCCCTGTTTTTCATTATATGGTCAGCTTTCACTGGCCTGAGTCCACATTTTAAGCTCAACTATATACAAATAATTTTTCAG
W
ATACTGAGAGTAGGATTAATGAAACCAGTCTGGAGAGCAGTCACAGAATGAGAATAGATCTTTCCCATAGTATCACTATGTGACTAACTGATTGTACTGA
Celera SNP ID:            hCV29433839
SNP Position Genomic:     312311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35553):
GGATCCTTGGATTTCCAATGCAATGTAAATACAGGCCAATGCAACTGTCATCCAAAATTCTCTGGTGCAAAATGTACAGAGTGCAGTCGAGGTCACTGGA
R
CTACCCTCGCTGCAATCTCTGTGACTGCTTCCTCCCTGGGACAGATGCCACAACCTGTGATTCAGAGACTAAAAAATGCTCCTGTAGTGATCAAACTGGG
Celera SNP ID:            hCV25965750
SNP Position Genomic:     435618
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,1)   caucasian(A,32)   total(A,57|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35554):
AGACACTTAATGACCTAGGGAAACTATCCTTTTTAAAAATATTTTATAAAAAACATTACTGTTATAATGTGAGCTAGAAACTCTGAGATATGAATTGAAT
M
TTTGCATACAATCCTGAAGACGAGATTTTAATTTCCACAGGTTATTCAGAGAAAAAAAAAAAGGGAGCTAAAGGTTGACGCAACCTTCATGGGAAGTCTA
Celera SNP ID:            hCV923780
SNP Position Genomic:     397152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35555):
GCAAATAACAATGTAACTATTTCGAATGTTTATATTCTTTAATTTCTGGCATCACATAGCTTATAGGTTAAATAAAATATGAAAGAGACATGTGAATCTC
W
GCCTTTGAATACTTAGGATGTGTTTGAATATATAATATTATTGAAGTTGTTATAGATTTTCATCAGTTATATAATAAAATATATTATTGGCACAAGGCTG
Celera SNP ID:            hCV923781
SNP Position Genomic:     397667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)   JBIC-allele(A,152|T,773)   total(A,152|T,773)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35556):
GTTGACCTTTGGGCTCACTCAAGAGATCATATTGAATGCACGTTGTTAAAATTAATATAGAGAAATGTATTCCAAGACAATAGGTAAATTTAAGGAAACA
W
TCAATTCAGCCATATTCTCTAGAAAATTGAGAATGCTCTAGATGTTTTAGTGCTCTTTCCTACACATTGTTTTATGTGCACATGGGAGATTATGATGGGT
Celera SNP ID:            hCV923782
SNP Position Genomic:     397984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35557):
AAAATAATTCATTATGCAATTATTTTACTGCAAAAGCAAAAGGCTGAAAATTATTGTTGAAGATCCCATGTATTTTTGGCACATTCATCTCTATAAAATA
W
GTTCTTAAAACACTCCCCAGTTAACACTTATTCATCAGCATGACACCTTGCTGAATGACTTGAAATTATAATTCATAGATAATTATTTTATCTTGGAGCC
Celera SNP ID:            hCV8922923
SNP Position Genomic:     460969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35558):
AGCTATGTTAATATAAGGGACTAGAGCAGGATGAGAAAACTGCAGATTTAATTCTTTAACTATTAACTAAATACCTTTCACGTTAAATCAACATATCTTA
W
TTTGTTTAAAAATTTGTAAAAAAAAAAAAAAGGCAAAGTTTTTTAAAAAATTAATAAGTCGTATCTATAATTTATTATGGCAATATGCTTTCATACTTTT
Celera SNP ID:            hCV923783
SNP Position Genomic:     398492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35559):
AGCTTCAAGTGAGATGGAATCCCTACTCCCTCCAGAAGACCTTTTATGTGATATAAGGAAACAGTGCAATCCACCATAATATCATAATTTGAAAAAAATT
R
TATCAACTATTCAAGAATTACTACATTCCTATACAGTAAACACTTTATTATTTTTTTATTGACATTTCATTATTTTACTATAACGAAATGTAATTTAATC
Celera SNP ID:            hCV8922924
SNP Position Genomic:     470508
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35560):
ATGGCAATATGCTTTCATACTTTTTCAGTATAAAAGGGTTTATCAAATCAATCATATTATTCCATTTTGCAGAATGGGAAACAGGTTTAGAGAAATATAT
Y
GTTCAAAGACATACTTAGAAAATAAATCAAGTCTAATTAAGAAATGCAATTGTGGAGATTAAATCAGATTTCATAGTACTTAAAGGTAATTAAAGAAATA
Celera SNP ID:            hCV923784
SNP Position Genomic:     398669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35561):
AGCAATAAGAGAGTGAATCTTCAGTTTATGTTGTTGAAAGAATATCAAAGCACAAATACAGATATATTTTATGAGAAAGTTTTATTTGGATGCGTTATGT
Y
GAGTATCTATATTACTAGAAACTTAAACTTACTTAATTCTTACCAGTAGGTTTCAATGACAATTGGTTATAGGAAGAAGAGAATATCACATTAAGAATCT
Celera SNP ID:            hCV923785
SNP Position Genomic:     400308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35562):
TTCCTACTTCCTTTGCTATAATCCTCTTGAGGGCATTTTTATATTCCCTGTGATATCTCATATGTCTTGTATATAGTAGTTCAGCTATGAGTTGATGAAC
R
AATAATATAAAGAATAAAGCAACGATAAGAAATAATGAGCAGAGCATTTATTAATAATTTGATATTGATAACAGAGGAAGTTAAATTATTCAAAGAGCTC
Celera SNP ID:            hCV29433840
SNP Position Genomic:     309788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35563):
ATGATTGGGTTAAACAAGAGATGAGAAACTGCAGGATAGAAAATCAGAAATATAGGCCTGAAAAAATTACCTATAAATTGACATAGGGAAGTAAATAAAT
R
TGATGCTAACTGACTCACAGAATTGTAAAATTGAACAGAAGTTTAGCAGAAGTTGCCAAAGAAGAGATTAGAAGAAGTTGAGGGAAACAATATTCAAAAA
Celera SNP ID:            hCV29433841
SNP Position Genomic:     304507
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35564):
AGCATCCCAGACCAGCCTTTATCTCCTTGACCCAGCAGATTCATTTAGACTTTCCACTGAGTTGAAATGTTTAAAATGATAGACTTACCTGGTCCTAATA
Y
CTTGCTAGTATCCCAAAAATAGGAAGAACTATTAAATCTTTACAGAACTACCCTGAGTTAAGCCAGAGAAATACTATTCAGAAATAGTGTTCATGATCTG
Celera SNP ID:            hCV923787
SNP Position Genomic:     401624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35565):
AAGTTAAGAAAGTATTTCAAAGTAATTCAAGTGTCAGGAGCAGGATCAAATCAGGACTTGGAATGTTTAATTTGTTGTTATGTCTTTAATTCATTTAGCC
R
TCAAGCAAGTCTCTATTGAATTGCCCTGTCATATATAATAGAAAACAAATCTACTTAGGGAAAACATAATAAGAGAAAGATTAATTGAGGGCATTTCCCT
Celera SNP ID:            hCV923788
SNP Position Genomic:     401835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   (G,-|A,-)   JBIG-allele(A,144|G,1147)   total(G,1147|A,144)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35566):
AGAAAGTATGTGAGGCTGCATATGTGCCAGGCCTGGAGGAATTTCTAAAAAGCAGCTATACATTTCCACTTGTTACTGATGATCACTACTCAGAGCAGTC
R
AAAGTCAGTTAATAACATGTCACAGGGATACTGCTCTCCACTGGGCTATATTCACGTCTGCAGAAATAGCAATGTCATTTCATCCTCCATTGGCCAGACC
Celera SNP ID:            hCV923789
SNP Position Genomic:     402601
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIG-allele(G,415|A,1042)   total(G,415|A,1042)   no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35567):
TTATTCTTTCAGAAGCCTTGAATTTACATGAAGTTATGTGATAATGACCTACCTTATATAGGACCTAGAATTTTTTGTTGTTCTTCTGTAAAACCATGCT
Y
CCTGAACTGTAGTCTAGTCATCAGAATTTGCCAGTCAACTCCAGGAAAGACATTGTTTTAAAGAATGACGTAAGCTTTCTAGAAGTCAATTTTGTAGTTT
Celera SNP ID:            hCV8922784
SNP Position Genomic:     297474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35568):
AAAAGAGCTTCATTAGGAAGTCTTGGGCCTAATTGTTTTTTGTTTTATAAATTTTAAATGACTGCTCTGTGATGAGCCCATTTCAGTTGAGGCTGTATTA
Y
TTTTCCTGTGGGTAAAATGACATACTGAGCTGATATGGACATCACTTCTCCCACTTTTGCTATTTTAAAAATACAGATATGCTGCATAAACATAGCAAAT
Celera SNP ID:            hCV8922785
SNP Position Genomic:     303439
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35569):
TTTCTAGTTTATTTGCATAGAGGTGTTTGTAGTATTCTCTGATTTTAGTTTGTATTTCTGTGGGATCCGTGGTGATATCCCCTTTATCATTTTTTATTGC
W
TCTATTAGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGACCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTT
Celera SNP ID:            hCV29433845
SNP Position Genomic:     292854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35570):
CCTGGTTTAGTCTTGGGAGAGTGTATGTGTCGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCATAGAGGTGTTTGTAGTATTCTCTGAT
K
TTAGTTTGTATTTCTGTGGGATCCGTGGTGATATCCCCTTTATCATTTTTTATTGCATCTATTAGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTA
Celera SNP ID:            hCV29433846
SNP Position Genomic:     292797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35571):
ATAGGAATACTATTTTATAAAATAAATGGATTAAACTTTTTTTGCAATCCTTTTCTTTCTGATTCAGTTTCAGCCCCTCTTGTGTCGCAGAAGGACTTGA
Y
GACTACCGCTGCACGGCTTGTCCACGGGGATATGAAGGCCAGTACTGTGAAAGGTACCAACAGCCATGAAACGTACAGAGTAATGATATGTAGGGACTAT
Celera SNP ID:            hCV25961619
SNP Position Genomic:     471981
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35572):
GTACAATTCTTGTTACCTGCTTTCTTTATAAAACTGTAGGATTATCAATCTGAGCATTACATGTAGACTAAATTTTGAAATATTAAAAAACGGATACGTT
W
TGATAGTCGAATGATGAATTACTGAGCTCACTTTTCGTTTTAAGCCTTTTCTCTTTGTGTTTACAAGTAAATCACAATGTTGTTTTCATTAATATCATTT
Celera SNP ID:            hCV29433848
SNP Position Genomic:     289378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35573):
GTAGCAACAAATATGGAGCATTTAGAACAGTGTCTGGCATTGAGAAAACCTATGTTTTAGTTGTTATTAGTATTAAAAGAAAGGAATTATATTATACATA
Y
TTTTCTTTACCCACAGGCTCTAATACAGAAATTTCCATATGGTAGTAATTCATTACAGATTACCTAGCTGTTAATCATTCAGTGCCATCATTGAATAATT
Celera SNP ID:            hCV29433849
SNP Position Genomic:     276623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35574):
ATACCAATCCTTCTCAAAATCCTCCAAATAACTGAAGATGAGGGAGTACTTCCAAACTTATTTTATGAGGCCAGCCATTAGCCTGATACCAAAGCCAAAG
R
CACTGCAAGAAAAGTACATTACAGATCAATATTTTTGATGAACATAGATGCAAAACTCCTCAAGAAAATACTAACAAACCAAATTCAGCAGCACATTAAA
Celera SNP ID:            hCV28025411
SNP Position Genomic:     187746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35575):
GGGTGGGATATGCCAGGTCAAGGAAAGGGCCATGGGAGTGGGTGCCTGATGCGGAGAGGAGGAAAAGAGGTCAGCGAGGAGGTAAAGAGCCTGGGCACAG
K
CATGTTGGTAGATTTTACAGTTACATAAGGAGAGGTAGGAAGGAAGATGGCGAACCAGAAAGTAAGTCATTAATAATGGCTGGAAGGTGGTTTTATGAGG
Celera SNP ID:            hCV28025412
SNP Position Genomic:     120956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35576):
AGAATTCTTTACACTAAATTAAAGATGATAAAGCAATCTGCTTTTCATACTAAACAGTGAAGTGAAAAGCATTATTTTAAAGAAATATTTCTGTTTTGTT
R
GTGTACGAAATTCTGTAATAGTGGCTAACTTCTTTAGGAACCTTTTTAGGTGAAACTTATGATTGACTATGAAATCTATTCTAGGACAAAATAAAATGAG
Celera SNP ID:            hCV28025413
SNP Position Genomic:     114414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35577):
TGAAAGGAGTGTGAAGTGAATACTGTTGACATTCCTGAGAAATGTATCTGGGGGGCCTTAAAATCTGTAAATATCATAAATATCATACGAATCCTAAGAA
R
TTCTGGGATTTAAGGATGAGTGGGAGACTTAGGTTCTTGGTTCTGTGTTGTAAGTCATTCTCCAAGTGTAGCAGGACCATAGCACTGATGAAAATGATTT
Celera SNP ID:            hCV28025414
SNP Position Genomic:     99558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35578):
TAAAAATAATATATTTAAACAACTATAACTTAATTTAAACATTTTAGACATTATCTCTTCCTTTCCTAGTATGGAAGACAAAGATTGAGCACTCTCATCT
R
ACCCTCACACATTTCTGCCTACATCCTGCAACATATACTTAAAATAAATATTTAATGCTAACATTGTTAAAACCATATAAATATTACTCACAGCTGAGCT
Celera SNP ID:            hCV28025415
SNP Position Genomic:     81754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35579):
CAAACCAAGTTATTTCATGTCTTAAGATGTATAATTCTAGATGTTTTCATATGTTATAACTATTAAAAAGTTGAGGCTGGACATGGTGGCTCATGCCTGT
W
ATCCCAACACTTTGGAATTACACTTTGGGCATAGATGGGGAGATCTCTTGAGCCCAGGAGTTGGAGAGCAGCCTGGGCAACACGGCGAAGGGAGGATCGC
Celera SNP ID:            hCV7424543
SNP Position Genomic:     638435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35580):
AGAGTTGCTGTCTGTGGACTGCCGTCTTGCTTCGCCTTCAGAGAGTGCGCTCTGGGGCAAGAGGAACTTGAAGCAAGTTCAAGTTCAATGCCATGAGAGC
R
TAGTGTAGGGGGAATTACCTAAGTCCTGCAAAAGGAACGGGGAGTGCTTTTCATTGTTCTTTAGTTTCGAAGAGGTCTTGCTATCACGATACATCCCGTA
Celera SNP ID:            hCV162496
SNP Position Genomic:     6335
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35581):
TGGAACTGAGGGGCGTTCAACCTGTATCATGCCCAGCCAACTAATAAAAATAAGTGTAACCCCAGGAAGAGTCTGTCAAAACAAGTATATCAAGTAAAAC
M
AACAAATATATTTTACCTATATATGTTAATTAAACTAATTTGTGCATGTACATAGAATTCTTTCTGTATTCAGATGGTGCTAATTCAGACTCCAGACTGA
Celera SNP ID:            hCV7424544
SNP Position Genomic:     639021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:35582):
AAAAGTCAGTTAATAACATGTCACAGGGATACTGCTCTCCACTGGGCTATATTCACGTCTGCAGAAATAGCAATGTCATTTCATCCTCCATTGGCCAGAC
M
CTAATCTCTGTCTCTGGGGTGAGAATGACCAGCCTGTACTCTTTTGTCAGAGCAGTAGTGGAGAGAGAGAAATGAGAAAATGCTAATGACTTTGTGTATG
Celera SNP ID:            hCV923790
SNP Position Genomic:     402701
SNP Source:               dbSNP
Population(Allele,Count): (C,-|A,-)   JBIC-allele(A,81|C,1396)   total(C,1396|A,81)   no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35583):
AAAAAAAAATGAAACAAGCAGCATTTATTTGCAATCAAGAAACTAGATATCTTTAATTGTGTGTGTGTGTCTGTGTGTGTGTTTAAAGAAAGGCATGTGC
R
TATTACTTACTATAATAGGAGAACATATCATTGCCAAGACAGATTTACATCAAGTGCCTAAACCCCCCAGTTCACTACAGGCAACCTTTTTTTAGCAACT
Celera SNP ID:            hCV923791
SNP Position Genomic:     404037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35584):
CAAGTTTGATATATTGTATTTTTCATTATCATTTATTTTAAAATATATTCTAATTTTCATAGTAAATTTTTCTGTGGCCTCTGAGTTATATAGAAGTGAA
R
TGCTTAATTTCTGAACAATTGAGTATTTTTCTAATCGTTTTGTTTTTGTTGTTATTCCTTTCCTCACTAATTCCACTATGGTCAGTGTATTTTCAATTCT
Celera SNP ID:            hCV269839
SNP Position Genomic:     194507
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35585):
GAGATTTGGGTGGGGACACAGAGCCAAACCATATCACTGTCTTTCTGAAGAAAAAAAAGGAATTCTTGTATGTTGCCCTAAAGATATAAAACTGCTTACA
R
TGCCTAGTGATTTGTATTGATTACTATGTGTTCCCTAAAGTTTGAAACTCTCCATTAACATAGCAAAACTACTATATTCTAAATCAAATGTCAGCAGGTT
Celera SNP ID:            hCV29433850
SNP Position Genomic:     274755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35586):
GATCAAAGGGGAAGAGGGAGCAGGCACATCTTACATGGTACAGGAGAGAGAGGAGAAAGTGAATGGGGAAGAGCCCCTTATAAAACCATCAGATCTTGTA
M
GAACTCACTCACTATCATGAGGACAGCATGGGGGAGCTGCCCCCTTGATCCAGTCTCCTCCCTCCCTCCATACGTGGAGATTACAATTTCAAATGAGATT
Celera SNP ID:            hCV29433851
SNP Position Genomic:     274560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35587):
TCTTAGTTCTAAGATCAGGGCTAAAGTTTGGAGTTTTAATGCCCTCACTAGGACTTGACACTAGGATTTGGACCCACAGACGGAAATTGCAGCTGAACTC
M
CTGAAGCAGGGACACTAGAAATGCTTTCAGACAGTGAAATGGGGGCTAGAAAATTCTTCCTGCAAGCCTACAGAGGCAGCTAGAAAATTTTTCTCTTAGG
Celera SNP ID:            hCV8922791
SNP Position Genomic:     303780
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35588):
AAATAGTAAGTTGCTGATGATAGAGAAAAAACATGGCTTTGTGATCAGTTACTAGCCATATTCTTGAAGGTTACAGACAGAGCGGGGTAGGCTGCAGCCT
R
CAGACAGAAAGTGGGGCTGTAGGTGTAGGGTCCTGGCTGCACAGAGTGTGTGATGGACCGTTTATTTGGCATCAGGGTTTTACATATAGTAGCTCATAGT
Celera SNP ID:            hCV29433852
SNP Position Genomic:     273982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35589):
TCATTTGTATCTAAGTATCATTGCTTTAAAAATATATCTGAGGCAAATATAAAATATAAATATTTTGTTACCTCTAGGTTGCATGGGTAATGCATGTTAT
R
TGTGCTTTTTGAATGTCTTAATATAATTTCTAATTTAAAATTTCTTTAATTGAATGTAAAAAAGAATTCCAGATTTAAAAAGAGGAGAATGAAATTTTTA
Celera SNP ID:            hCV8922792
SNP Position Genomic:     305703
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35590):
GCTGTCTTCCAGTGTTAAACAGGAATTTGTGGGATTACAAGATAGATGATCAACCCAGATTGCTATGAGTGATAACCGTGCTTCCTCCTGTCTACCTTCT
M
CCATATTCACTGGTTTATGGCACCTCCCACATATGCTGCTACACAACCAAGGCATTATTACCAGGGAAGTCAATTCAGCCATAACTCTATAAAGTAAACT
Celera SNP ID:            hCV29433853
SNP Position Genomic:     267769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35591):
GACTTGATTCCTGGGCATTTTTACAAATGGACTTCAATGTGTACATTTAATCCTGAATCTAAATTACAGATGTAGAATTTTTGGCATAAAAGGTTCATGC
R
TGAATGAATTTATCTCTTGCAACCCCTACAGTTCAAATAATATTATGTTAGTCAATTTTTTACATGGACAGACTCTCTCCTTGACCAAATTTTGGAAAGT
Celera SNP ID:            hCV8922793
SNP Position Genomic:     307162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35592):
TGAGCTTACAGGGTTTTATCAGGATCAGACTAAGTAAAAATGTATAATTATTTTATAAATAAAAATGTTTTGGGGTTTCAGATTTAAAAATCAAGAGTAA
S
AAGTTTTACAATATTTACTAAAGATTACGATTAGTATACCACAAAACATCTGAACTTTAGATATTATTTATGTGACCTTAAAAGTCAGACCTTTCCCTGC
Celera SNP ID:            hCV29433855
SNP Position Genomic:     243361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35593):
AAAAGTGTGTTATTGTTTTTAATTGCTTCCCTAAAGAATGAGAGAAGGCGAAGCTGGGACCCTAGTGGTATTGATGGGCTGTTGCTCCTTATCCATGATG
Y
GTAAGAGTGAGGAACTAAGTCTGAAAACTTTTTAAGGGGAAAATAGCAGTATAGCATACTGAAAGTTTTGTTGTAATATTTAAAAATGCCAATTAAAAAA
Celera SNP ID:            hCV29433857
SNP Position Genomic:     241703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35594):
AGTGCAAGGGCCTTTGAAATCAGGCCTGGTTTGGAATCTTGGTCCAGCAATCAATAGCTGTGTAATCTTAGGTAACTCTTTGAAGTTTAGTTTCCGCATC
Y
AAGAATGAGGAAGTATAAATACATATCTGCCCACGTTGGTTGTATTAAATGAGATACTTTACATAACACATCCGACTAAGGTGCAGATGTAATAAATGAC
Celera SNP ID:            hCV29433859
SNP Position Genomic:     238616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35595):
AACACATACATGTGCATGCATGTACACACCTACACACAGACACATACCCATCTTCATACCTTAATAAAAGGATATAAATACAGCTAATTTGGGTTCTACC
Y
ATACACTATTTTTTTGTGAATCTTGGGCAAGTCGTAAACCTCTCAAAAAGTAAAATGAAGGGACTGATTTAACTGACTTTTAAGTACCCATTCTATCCCT
Celera SNP ID:            hCV15796603
SNP Position Genomic:     393942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35596):
TAAATTTAAGTGAGGATTGTAGGAGTTTAACAGCTATTTAAAATACGCCCTGCTGCTTTCCTTCCTAGGTTCTCCACACCTTCAAAGCTCATCACTTGGA
Y
AAGATTGCCTCTTTACTTTTTCCAAATCAATCTGGTTCATCCATTTTTTGCAAAAATGAAAACTCCCCTCTTTCACTAAGGTATTTGAGCCATCAAGAAC
Celera SNP ID:            hCV11200545
SNP Position Genomic:     23565
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35597):
CCAGGAAGAGTCTGTCAAAACAAGTATATCAAGTAAAACAAACAAATATATTTTACCTATATATGTTAATTAAACTAATTTGTGCATGTACATAGAATTC
Y
TTCTGTATTCAGATGGTGCTAATTCAGACTCCAGACTGAATTTTAATTCAAGTTCTTTCTCAAGTCTATAAATAATATTAAACTGATTATTTCATTCTAA
Celera SNP ID:            hCV7424552
SNP Position Genomic:     639082
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,15)   caucasian(C,10|T,24)   total(C,13|T,39)
SNP Type:                 UTR 3;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;(C,-|T,-)   A(T,0|C,84)   B(T,0|C,84)   C(T,0|C,84)   total(C,252)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:35598):
AAGGTAAAAAGGATTTTTCCCCTCAGATAGTTCTGAAAAATCAATTCCAGGATAAATGCAGTTTAAACTGTGTCAGAGGTATCTTTTCAAGATAAAATCT
R
TGCAAAAAGGGACAGAGGAAACAGGAAGATAAAATCTGGGTAGTGGTTGTTAAAATGGCCTTGAGAATTGAGGAAAATGGCAGTTTCTACCATCAAGGGC
Celera SNP ID:            hCV215152
SNP Position Genomic:     436391
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35599):
TTGCTCAGTTTTAACTTCATTCAGTGTTTGTTATACCTGCTTCATTAAGCTAAACAAACAGATGGACAAAATCTCATTGCCAGACATGGAGTTTTCATTG
R
TATGCATTTGTTGGCATACCGATAAACACTGCTTTTCTAGAGCTTATTTTCAACCCAAACCCACCTTTTTTTCTAGTTGGTGGAGATGATCTATTTTCAA
Celera SNP ID:            hCV215153
SNP Position Genomic:     435886
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35600):
GAAGCTATTAAAATAAGCTTCTTATCCTTAGGGAAACTATTTCAACACTAGAGCTATCATCAAAAGTCCTTGAGACAAGTAACCCAGGAGTGGAATGGTT
R
TGATTACACTTTATAAGCAAACTTAAAAAGATATCAGGAGCTGCTTTACTAGGCCCCTGCTATGAAGTGAAAACTGGAGAAAAATCTACAGCAAAGCATT
Celera SNP ID:            hCV29433860
SNP Position Genomic:     233912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35601):
CAGGATCCACTGATATGGAACAGAAGGGTAAGCTTCTGTTAAGCTAGGTAAGGAAGCTTAGGGTTGTGAAAGAAGGTACAAAGACACTGCACACTGACTT
Y
TGGGGAATTACCTGGATTTGGCTTTCAGGTAGCTCTGCCAAGGATTAACAATAGGGTTCAGAAAGAAGAGTAAACCATCTAATATGTGCCCCAGCCAGTT
Celera SNP ID:            hCV29433861
SNP Position Genomic:     229960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35602):
ATCAACAAATGTTAGAGAACTGGGTTCAACTACTACCAAGAAAGAGCTTAACCCTGAAACCTAGCATCCTAGGCCTGCACCCAAAGGGAGAAGAGAAGCT
Y
ATTCTGAGCTATGAGATAATCGTAAGGTATCAAGTCTCAGGGCCTGGCAAAGGAGGGATAATGGAGGATATAGGCAAGATAATAATATGACTGGGTATGT
Celera SNP ID:            hCV29433862
SNP Position Genomic:     227725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35603):
AGTTGACTTTTAAAAGTTGACAATCGCTAAACTTAAAAATGGTTCAGAGGAGATACAATATTGCTGGATCTAATGTAAGTAGAAAGAATCCTAATTCTGA
K
ATATCATGGCATAGAAAAAGACACAAGGAATTAGAAGACCTGGATTCTGGTACTGGTTCCAGTTATTTGTGGGACCTTGGTCAAATGATTTAATCTCTCT
Celera SNP ID:            hCV29433863
SNP Position Genomic:     223554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35604):
AGTAACAATACCTCTTTATTTCACCCCTTTTCTTGCATGTTTACCTTTTGTAAAGAGAAGGTACAGAAACCCTTCATTTAATGTGTTTCAGGTTCAATCC
R
TTGTCTTCATAACACTGGAATTTCTCCTCCATTATTTTCTATTTGGGGATGTAAAGGAATGGACATTTATTGAGGATTTACTGCCACAATGCTAGAACCA
Celera SNP ID:            hCV29433864
SNP Position Genomic:     220387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35605):
CATGATGTCTATGATCCTTTCTGGTTCTGATATTGTATAACTCTCATCACTTAATGAAAGCCACCGTTCCTATTTGGATAAATAAGAGAATTGAAAAACG
Y
ACTATTAGAACTGAGAGTACAGATGAGCTTTCCAAATATATTAGAGATGGCATCACAGTACATGGAAATGTTAAAATCCATAACATGGGCAAGAGCACAT
Celera SNP ID:            hCV29433865
SNP Position Genomic:     215301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35606):
ATTAACTCAGGACCCCTCTTGTATCAGTTTTCAACCCATCCACATCCTACTCCACCCCTCCAGATTATTGGGAAGCAAATTCCATATGTATTACTCGCTT
Y
GTAACTACTTCATTATGTATCTCTGAAGGATAAGACTCTTTTATAAAGGAAACCATTGTCACATCTAAAAATTAATACTATTATACTGATTCTTTAATAT
Celera SNP ID:            hCV29433866
SNP Position Genomic:     213142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35607):
GGTATTTCTCCAGGGTGAATAAATTTTAGAAGGCAAATTTAAACTGTCATATTTCTGATTGCCTGTGATTCACACCATTGTTGTACTCTGTGACAGTTTC
M
TTGAAAGGACTGTCATGTTCCATGAGGAACTCAGCCTACCTGCTCTTTTACCAGTAGCTGGTGGGAAAGCCATACTGTGCCAATGACTTATTCACAGGAG
Celera SNP ID:            hCV29433867
SNP Position Genomic:     212340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35608):
TCAGAAAAATTGGGAGAAAATACAAGGAGAAGAATTTGCAGGGTGATTGTTGTAAGATTTTTATCATGTCCTCTTAAAAATGGTAGCTTTTCAGAAACTT
K
TGTTAACTGCTTTGCATTCCATCTTGAGAAAATGTCTGTATAGTTAGATGAGCATCATCTCCTCTCCTTGTTTTTAAATCACATCCAAAATGACATCAGG
Celera SNP ID:            hCV29433868
SNP Position Genomic:     208714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35609):
TTCCACGGGTCCTTTTGAGCTTCAGAAATCCAGCTCTCAGCACTTCATAAATCATTTCTGACCTGATGTCACTGAAGTTGTATTATTATGTGGTTAGTAT
M
AAATTCAGAAAAATTGGGAGAAAATACAAGGAGAAGAATTTGCAGGGTGATTGTTGTAAGATTTTTATCATGTCCTCTTAAAAATGGTAGCTTTTCAGAA
Celera SNP ID:            hCV29433869
SNP Position Genomic:     208609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35610):
TTTTGTGAAGGCCTTTTCTTTACCAAATTAGTAATATGGTGAATATTAAACTAAACCTGAGTCATACTACATTTGTTTTTAAATTTTGTAGGGAAGGGGG
R
AATAGCAAATAATATTTTATGCTAGTAATCAGGCATTATATCAGTTGTTGTAAGGAACTACATGAAAGTTGGTGGTATACAGGTTACCAGTAGTAAGTTT
Celera SNP ID:            hCV15796613
SNP Position Genomic:     234654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35611):
TTTCTTTATTTTCAATTAAAGAGGGACCCTTATTAAAAATATTTTTATTAACCTGTTAGTCTTATCTTGGCAGCTATAAAATATTATATAGTTATATTTG
R
TACATGTGAGCATATGTGTACATATACAACCATTAAGCCATAATATAAGTAGTAAATATTAGTTTTAATGAAGTGTTTATGAATTGGGACAAGAATGTCT
Celera SNP ID:            hCV16163318
SNP Position Genomic:     301582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35612):
TTTCTTTGAGCTCTACAGGGTTGGACTACAGTTAAGTTCCTCACTGCCTGCCTCTTCACCAATTCTACAAAATCTATAGCCATATGAAGGTAAATTTTGC
W
ATCAGAAAAAGCCAAAACCACTTCAGTTTTTACCTCAGGTCTAGTCTAGGAGAGTGATACCATTTCTTTTTAAGGGGGAAGAAATCCAGAAAAGCTTCTT
Celera SNP ID:            hCV11200552
SNP Position Genomic:     17875
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35613):
TAGAGAGACACCCGATTACAAATGCTATTGATGGAAAGAACACTTGGTGGCAGAGTCCCAGTATTAAGAATGGAATCGAATACCATTATGTGACAATTAC
M
CTGGATTTACAGCAGGTATAGTTCCTCTTTTTTTGTCATTTCCACTTTTGAAATTGCATTTTACATTTGCTATTTGTTTAGTTAGTGGTTTGTGGGTGAA
Celera SNP ID:            hCV26000198
SNP Position Genomic:     182681
SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,11)   caucasian(A,38|C,2)   total(A,55|C,13)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35614):
GGACTTTATGGAGGGTAGCTGATGCATCAAAAAAAAATTATATATATATATATACACACACACACACACACACACACACACACACACATATATATATATA
T
AAAGTTTTACAGAACTTTGTTTTCAACTTTTAAAACAGGATTTCTAAAGAAGTTATGTGGTTTTTTTTCTTTCATGGCAATGGCGCCTCCAGCCTCACCT
Celera SNP ID:            hCV11200559
SNP Position Genomic:     6654
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35615):
CAGACTAAATATTACAATATCTTGGCAAGAAAATTAAAGTAATGATAATGGCAATATAGCAACTAAATTCCATCTCACAATTACAGCTATTAAAAGGATC
Y
AGAGTCAGCATGAACTTAAAGAAAAGCTTAACTGTTCCAGTGACGTGTATATAAAAACTCAATATAATTGCGAACAAAAATATACAACAATTTAAAGGAG
Celera SNP ID:            hCV27981653
SNP Position Genomic:     186022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35616):
TTAGGATATGAATCAGATTTGATAACATGAACTATCTTATTTAATTATTCTAAATTGAAAACATCATGAAAGATAATTGGGATTTTTCCATTTTTATTTT
M
CTCTTGTTTCTTGCTTATTTGAATCATTCGTTTTATTCTTCTTTCTACTTAGGCTAAGCTCTCAAAAGGAAAGGAGATGTAATTCAATGTATGTAAGTTT
Celera SNP ID:            hCV27981654
SNP Position Genomic:     88336
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35617):
ATCTCTTCCTTTCCTAGTATGGAAGACAAAGATTGAGCACTCTCATCTGACCCTCACACATTTCTGCCTACATCCTGCAACATATACTTAAAATAAATAT
W
TAATGCTAACATTGTTAAAACCATATAAATATTACTCACAGCTGAGCTCTGTGGTGCACTGTGTCTCTCTTTTCTTTTTTGTACATCGTTGCCTGGCATT
Celera SNP ID:            hCV27981655
SNP Position Genomic:     81806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35618):
CCAATCATCTCCCACCAGGCCCCTCCCCTAACATTGGAGATTACATTTCAATACGAGATTTGGGTAGGATCACACATCCTATATCACTTTTGGAGAAAGA
R
TGGAGGTAGCTCTGAAGGTTTGTTACATCACAGCATTTGAGGAATGGCTGGGGTGATGGCAAATATCATACAGAAGAGCAGGCGTAGACAAGATATACCA
Celera SNP ID:            hCV27981656
SNP Position Genomic:     67821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35619):
CATGTTTTTAAAAAAGGACTTTTACTCTGTTGGAACCAATTAGGCCAATGTGAGGAACTTTGGAAGGACCATGAGCAGCCAAACTTGCTAACAGCAAAAC
R
TATTTTTCTGAAGGCAGCATGAAAAGGACGGAGGAGTTCTCTAAGGACTGTGAGTTCCACGGGTCCTTTTGAGCTTCAGAAATCCAGCTCTCAGCACTTC
Celera SNP ID:            hCV29433870
SNP Position Genomic:     208454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35620):
TAAACTAGACACTTGATTTTCTCCAATGGTAACATGTTTTTAAAAAAGGACTTTTACTCTGTTGGAACCAATTAGGCCAATGTGAGGAACTTTGGAAGGA
M
CATGAGCAGCCAAACTTGCTAACAGCAAAACATATTTTTCTGAAGGCAGCATGAAAAGGACGGAGGAGTTCTCTAAGGACTGTGAGTTCCACGGGTCCTT
Celera SNP ID:            hCV29433871
SNP Position Genomic:     208422
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35621):
AATGTATTCTGTTCATCTTTAAATAATTTCATTTATGTTTAAGCTGCAAAAATTGATCTGAAGTTAGTCTGGTATATTGTGTACTTTAAGCATGTGATAC
R
TTTCTAAAATGTTCATGTCAAGAATATCTACAATTCAAATCATGACCTTCTTTTGGCTTGTATTCTAATTTTGAAGTTTCTGACCTAGACACAAAAATGA
Celera SNP ID:            hCV29433872
SNP Position Genomic:     207247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35622):
ATACTCAAGAAAATTAAACTAGTGACAAAATAGATTTATTTAACTTATAAGCTAATTCATAAATTAATGGCAAAATTTATCACAGTATACATAACTGAGA
Y
TTTGCAGATTTTTTTGTAAATAGATAACATTCTGATACAATTAACAGATCTCCATCAGCTGCATTAGATTTCAAGTTGCCCTGCTACCACTGTATATATG
Celera SNP ID:            hCV29433873
SNP Position Genomic:     200291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35623):
TGAAATAGTTACTTTATTCATTCTTAAGAAAATGTTTATCAAACAAATGAGTCTTAAAAACCATAGTTAGATCCTTTTTGTAGTACATAGGGTATTCCAC
R
AAAAAAGTGGCTAGTTTAGCTTGCAGCTGAAAACAACTGTACAAATGCTTTTCCTCAAATCAACCATCATGCTTCAGTATACAGTTGATGTTAAAAAGAT
Celera SNP ID:            hCV220786
SNP Position Genomic:     17362
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35624):
TTTGTTTGTTTTCACAAATATTTTAATGTGGATTTTGAGTCAAATTTTCTGTAGGAAGGTCATGGTAGATTAATGTCAAATTAGCTGAAACAATAAACAC
R
ATGAAAAGAAAAATCAGCCTTGTAAGACAGTACAACTAAGGAGATCAGTTTAAAACACTAATGAGGAGTTGCCTCTCAGCACTGGGTCATTATGATTATA
Celera SNP ID:            hCV29433874
SNP Position Genomic:     199714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35625):
GACTATTGATCTCACCAGAAAAGTCCCTAAATATTAGAAGCTGTTAATCTCACAATGGTAGAGACAAATTTTTCAGAATTTTTATTTTCATTTGTAAGTT
Y
CTGTAGTTATTGACAAATTTTGTTATTTTTCTTGAAATAGTTACTTTATTCATTCTTAAGAAAATGTTTATCAAACAAATGAGTCTTAAAAACCATAGTT
Celera SNP ID:            hCV220787
SNP Position Genomic:     17229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35626):
TTTCTAAATGCAATTTTTTTGTGCGTGGAGCTATTTGTTGTTGTAATCATTGCTTTCTAAGCACTTAGAATAGTGCCCAACATATAGGAAGCATTCAATG
Y
GTTTGTATTAAGTTAATAAATGACTGAATGAATAACTAGTACAAACCACCAATCCATAATTTAAGAATCTTATTGAATCTGAGAATTAAAGGATTAAGTG
Celera SNP ID:            hCV29433875
SNP Position Genomic:     190951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35627):
GTAAGTGGTAGTTTTCAAAAGATTGGCTGCAGTGTGGTATCTGAAACTGCATCAACGATATTTTTGTACGCTTTTATATTAAAATCTACGGATCTATCTT
R
CACCTGGAAAGAATTTTACCCATGTGTGATGTTATAGTATCATTCATAGATCATTTGGAAGATACTGATTTACTAGTTATGCAGATCAGCCACAACTTGA
Celera SNP ID:            hCV220788
SNP Position Genomic:     16990
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35628):
TTACTGTTCAGTTGAATATTTATCTTTCTAAATGCAATTTTTTTGTGCGTGGAGCTATTTGTTGTTGTAATCATTGCTTTCTAAGCACTTAGAATAGTGC
M
CAACATATAGGAAGCATTCAATGCGTTTGTATTAAGTTAATAAATGACTGAATGAATAACTAGTACAAACCACCAATCCATAATTTAAGAATCTTATTGA
Celera SNP ID:            hCV29433876
SNP Position Genomic:     190927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35629):
GTTCTTTACCTGCTTTAGTTGTATATAGATTTTTAAGATCATTTGTTCAGTATCACAAGTAGAATCTGTGGTTAATTAGAAAATATATTTTCCCTTTAAA
W
GAATTTGTGCTGACTTTTAAAATTATTAATAAAGGTGACAGCTAGCTTTGGTGTCTATATTGAAGAAAATGTTCATCCTAATTGGTTTCCGTTTGTCTAC
Celera SNP ID:            hCV29433877
SNP Position Genomic:     190216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35630):
GAGATTATAATATACATGTTCCAAATGTAGATTATACCTTACCTGAGTATACCTTGTTTAAGTACAACAGAATATAGTTAAAATCACAGTTCTTTACCTG
Y
TTTAGTTGTATATAGATTTTTAAGATCATTTGTTCAGTATCACAAGTAGAATCTGTGGTTAATTAGAAAATATATTTTCCCTTTAAAAGAATTTGTGCTG
Celera SNP ID:            hCV29433878
SNP Position Genomic:     190128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35631):
AAGCTGCATTTTAAATAAATAACTCCCTTATAACTGTGTCCACAATGAAGGTAACACAATTAATACCCAACTCAAAAACTTTTTATTTATTTTAAGGTGG
Y
ATGTAATTTTCTTTTTAAAAATTTTATCAAGCCTCTAATTCATTCAGGAAACGTGCTAGACACCAAAATTGATTGTGTCAGTGATGAGCCCCCTTAGAGC
Celera SNP ID:            hCV16020700
SNP Position Genomic:     517990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35632):
AGTGCCTTCCCAAGGAAAGATCAGACTCTTTGAGCATTAGAAACCCTCTGTAATCTGACTACCTTTCCAGGCTCCAAGCCCTCAACTCCATTCTATATAA
W
GCCAAGTTTGGCATTTCTTGCACTTATCTAGACATCATTAGCAGTCTGCTCTTGCTATTCCCTCAGACAATCCCTGTGAAATCTAATTTATTTTTAAAGG
Celera SNP ID:            hCV280026
SNP Position Genomic:     468911
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35633):
AAGATGTTCTCACTGGTCCGTGGCAAAGTAAGAAAATGAGAACAACTTTCCACATTTTTCATAAAAATAGAAAGGATACAATTTAAATAATTGTCCTCCA
W
TTTGATATTATGGGTTTTAAAAACTAATGATGGTTTTTAAATGCCCTTTGTTTCATGAAATAATAATGATGCTTTATTAAATGATAGAAATATATTGGAG
Celera SNP ID:            hCV29433880
SNP Position Genomic:     180192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35634):
ATGTAAATCTGGGTTACCTGCTGAGGAAAGAAGCAAACATTTAGATTATGAGCCTCTCAGGGGAATAGGAGGGGATCACTGAGCCGTAATCAGAATAAAG
Y
GGCAATTCCATATGGAGTAAAATAAAGAATCAAACGTGTGGACTGATACTCTTGGAGCATTACAGGGAAAGTAGAATGGAAAGAGAAGATGGCAAGAAAA
Celera SNP ID:            hCV29433881
SNP Position Genomic:     177028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35635):
AAGAAGAAGAGGGGACTATAGAAATATTCTGTCAAGTATCCTTGATGTGAAAGAGAATGAAGGACAGAGGAGGTTGTGGAGTTGCAAAGGTTTTCAAAGA
Y
AAGAGACATTTGAGTTGGTTTAGATGCTTGGGGGGAAAGGCAGGGAAGTTGAAGACCAAGTGGTGGTGGGCATGGTGTCTCTCTAGAAGTAAAAACATAT
Celera SNP ID:            hCV29433882
SNP Position Genomic:     176680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35636):
AGGGAGGGGAAGAGGAGAAGTCATGCCAGGAAGAGAAATCAGAATTAGACAGAAAATCCTAGTTACTCGGGGAGCTACAAGTAGGAATGACTAGAACTGA
M
AGTGCCAAAGGGCAGAGAGTAGAGATGAGACTAGAGCAAAAGGCTGGAGCCAGATTATGAAGGCATTTAACAACCACAGGAGAAGTGATTTAGGGAGAGG
Celera SNP ID:            hCV29433883
SNP Position Genomic:     173535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35637):
GCTTTTGCTCTCTTTATTTATTTAATTATGTGGGATAATTGGTACATAATCCAATTCTATATTTTCTGAACATACAACATAAAGAAAATACTTTATCCCT
S
GTCTCTTTTCTTGGCTTCCTCCCATGATTGCTGAGGCCTGGGAAAGTACAGGCCTGGCCTGCTCCAATCAGGTCTTTCAGGGCAGACCAAAGCAGGGCAC
Celera SNP ID:            hCV29433884
SNP Position Genomic:     168561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35638):
CAAATTGGTCATTCATTAGCAACTAATTGGAGACCTTTGCTGACCAATATGCTTAACCGATTTTTAAAAATAAACAGCAAAATAGCAATGAAATTTCATA
W
AGCAACTATTCCCTGACCATAAAACAAGGCAATTAAATTGTGCAAAGGTTAATTTTGAGCACATAATCAGTAACTGTAATAGAAACAAATCAAAGAAAAG
Celera SNP ID:            hCV29433885
SNP Position Genomic:     167959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35639):
CATGCTGAAGATTCAATAAAAGCTCAGATATTGATTCATTCTTCAAATTGGTCATTCATTAGCAACTAATTGGAGACCTTTGCTGACCAATATGCTTAAC
Y
GATTTTTAAAAATAAACAGCAAAATAGCAATGAAATTTCATAAAGCAACTATTCCCTGACCATAAAACAAGGCAATTAAATTGTGCAAAGGTTAATTTTG
Celera SNP ID:            hCV29433886
SNP Position Genomic:     167916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35640):
AGGACTTGTAAAGCTATGATGGAAGTTAGCCCATGAGTGTGTTTACAGAAGGCAGAGCTAGATGGCATAAGACTCAGGGATGATGCAGGAGGTGATAAAT
R
TTTTTGTTTAGAGTAGTGAGAAGAGTGAAACACAGTAGATCTTTAATAATAAAATTTTCACTCATTTGGAATTATGAAAATTGTGTTTGAAAACCAGCTG
Celera SNP ID:            hCV29433887
SNP Position Genomic:     163761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35641):
CCCCAGTGATTTTATGAATCCATTGAGGAGATCTGCAGAAGTGTTGTCACTGCTGGAGAAAACCAAGGCTTCACTTGCAAAAAGGAGTACTTTCTTAAAA
Y
TGAGAAATTTGGAAATATATCATAGGACTTGTAAAGCTATGATGGAAGTTAGCCCATGAGTGTGTTTACAGAAGGCAGAGCTAGATGGCATAAGACTCAG
Celera SNP ID:            hCV29433888
SNP Position Genomic:     163637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35642):
TTTCCCCAGTGATTTTATGAATCCATTGAGGAGATCTGCAGAAGTGTTGTCACTGCTGGAGAAAACCAAGGCTTCACTTGCAAAAAGGAGTACTTTCTTA
Y
AACTGAGAAATTTGGAAATATATCATAGGACTTGTAAAGCTATGATGGAAGTTAGCCCATGAGTGTGTTTACAGAAGGCAGAGCTAGATGGCATAAGACT
Celera SNP ID:            hCV29433889
SNP Position Genomic:     163634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35643):
GACCGGACAGGATGCTGAGAGGACCAACACAAGAGCAAAGTCCCTGGGAGAATTCATTAAGGAGCTTGCCCGGGATGCAGAAGGTATTAGAAAGAATCAC
R
TTTTAATCATCATTTCTCCCAACAGAAAAACACAGAAAGGGATGACACAGGACTGGAATTTCTCTTGTTATAAGTGACATCTGTAAAATCAAAGGTAGAG
Celera SNP ID:            hCV25991740
SNP Position Genomic:     505906
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,38)   total(A,71|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35644):
TAATCCGTACAGCATAAACAAATTAGAAATGAACTTAAAATAAATATACAAACAAAATAGTAAACTTTGTAGTACCCGAATATAAGGTGTTACAGTTAAC
R
TGGAATCTGATAACACCAATTCTTTCCTTTCTTAAACTTCATAGGAAAGCTAAAAATACTTTAACTTTTGAAATTAATAAATGAAATACATCTTATATTT
Celera SNP ID:            hCV16199309
SNP Position Genomic:     423078
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,18)   caucasian(A,6|G,32)   total(A,16|G,50)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35645):
AATCACTGTGCCCTAGTACATAGAGAATGATTGAGACAAGGATAGGTGCTATTTTAGATAGGTAATCAGAGGAGTGGCTATTACCAGAATGGAGGGAGGA
M
ACAAGCCAAAGAGTAGGAAGAGCACATAGTGGGAATATCTGCAAGTGCAAAGGCTTAGAGGCAGGAACTAGTTGTATGTACCTGGCAACATACTGAATTG
Celera SNP ID:            hCV11828644
SNP Position Genomic:     522321
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35646):
TAGCAATATTTGTCTCTCACTGATTTTACTCTTCTAGGCCAGGATTGAGTTTCATGTACTTTTGAGACAAGCTATATGTTCCAAAGAAAAATTATAATCT
R
TTCTCTCATGAAACAGTCCATTAGGTTGATTCTTCCATGTGATGGTTTCTCTATTTCTTAAAAAGTATTTTCCCTAAGTTTCCTTAAAAATCTCACTTCA
Celera SNP ID:            hCV11828645
SNP Position Genomic:     523335
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35647):
TTTCCCTAAGTTTCCTTAAAAATCTCACTTCAAATTTCACAGAACTCCCATTGAATACATCTGCTTATGTTTATGCTCACAAAGTACTCATTTGTATATA
R
ATTCTAGAATTCAATATGTAGTACCAATATAACTATTCAGCACTTATATTTTAGTTAGAAATGGATGCTCCATCTTTCTTTAAAAGTAGTTTTAATTCCT
Celera SNP ID:            hCV11828646
SNP Position Genomic:     523504
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35648):
TTAAAAATCTCACTTCAAATTTCACAGAACTCCCATTGAATACATCTGCTTATGTTTATGCTCACAAAGTACTCATTTGTATATAGATTCTAGAATTCAA
Y
ATGTAGTACCAATATAACTATTCAGCACTTATATTTTAGTTAGAAATGGATGCTCCATCTTTCTTTAAAAGTAGTTTTAATTCCTTAACTAGTATCGCAT
Celera SNP ID:            hCV11828648
SNP Position Genomic:     523519
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35649):
TGTAGGGAATATTACAAATCTGTTTCCTGGAAAGCAGGATGCCTTCCTTTAGAATTATTAGTTAAGATTAACCACTCTTTAAATTGAGAGATTATATCCT
W
CCCTGTTTTTCATTATATGGTCAGCTTTCACTGGCCTGAGTCCACATTTTAAGCTCAACTATATACAAATAATTTTTCAGTATACTGAGAGTAGGATTAA
Celera SNP ID:            hCV27506238
SNP Position Genomic:     312230
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35650):
GAGACCCTGTCTTAAAAAAATTAAACAAATTAAAAAGAAATGAAGTTATTGAGTGACAGTTAAAGAAACTGATTTGCAAGTGGCCTTCAGGAGGCAGAAG
R
AGGCTACTTGTCTTTCCCCAGTGATTTTATGAATCCATTGAGGAGATCTGCAGAAGTGTTGTCACTGCTGGAGAAAACCAAGGCTTCACTTGCAAAAAGG
Celera SNP ID:            hCV29433890
SNP Position Genomic:     163521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35651):
AATAGAGAAGCTACAAATGAAATATTATAAAACCCAGTTCAAATGTACATATTTTAAAGATCTGTAAATATACAGTAAAACATTAACATTTGCCAGATAC
R
GATGATGGGAATAGAGGTGTCTGTATTAATTTCTAATCGTATCTATCTTATTTCCTACTTAAATAGTTTAATTAAAATGAACCTCAGAGGAGATAGAAAA
Celera SNP ID:            hCV300993
SNP Position Genomic:     537133
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35652):
GTTAGTAAGTTTGAAGTTTCATTTTAAAACTAAACATGTGGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGA
Y
TGCCTGAGCTCGGGAGTTCAAAACCAGCCTGGGCAACATGGCGAAACCCCGTCTCTATTAAATATTCAAAAAATTAGCTGGGTGTGGTGGTGGGCACCTG
Celera SNP ID:            hCV11828649
SNP Position Genomic:     524625
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35653):
TGTGTTTGTGTGGCGGGGAGCGGTGTGTGTAGCTGAATTTGAGGTAGAGACAAAAAGTAATTAAACTGGAAGCAGAAATCTTAGAATGGGGAAAAGTAAG
R
CATATTTGTTCACAAAGTATCTTTTAACATTTTCTGGTTTCTGTGGAGTCACATTTTATTAATGCTGGTTGACATTTATCTACCTAGAAAAAAATGACAG
Celera SNP ID:            hCV29433891
SNP Position Genomic:     162910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35654):
AAATAGAGAAGCTACAAATGAAATATTATAAAACCCAGTTCAAATGTACATATTTTAAAGATCTGTAAATATACAGTAAAACATTAACATTTGCCAGATA
Y
AGATGATGGGAATAGAGGTGTCTGTATTAATTTCTAATCGTATCTATCTTATTTCCTACTTAAATAGTTTAATTAAAATGAACCTCAGAGGAGATAGAAA
Celera SNP ID:            hCV300994
SNP Position Genomic:     537132
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35655):
TGATGTGTTTGTGTGGCGGGGAGCGGTGTGTGTAGCTGAATTTGAGGTAGAGACAAAAAGTAATTAAACTGGAAGCAGAAATCTTAGAATGGGGAAAAGT
M
AGGCATATTTGTTCACAAAGTATCTTTTAACATTTTCTGGTTTCTGTGGAGTCACATTTTATTAATGCTGGTTGACATTTATCTACCTAGAAAAAAATGA
Celera SNP ID:            hCV29433892
SNP Position Genomic:     162907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35656):
AGGATGCTACTGTAATAAATGTAAAGTAAGGTTAGGATATCTGAATATAAATGTTGATGTGTTTGTGTGGCGGGGAGCGGTGTGTGTAGCTGAATTTGAG
R
TAGAGACAAAAAGTAATTAAACTGGAAGCAGAAATCTTAGAATGGGGAAAAGTAAGGCATATTTGTTCACAAAGTATCTTTTAACATTTTCTGGTTTCTG
Celera SNP ID:            hCV29433893
SNP Position Genomic:     162853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35657):
GTACTGGTCTGCAGCCCTGGGGTTGGGGACCCCGGGTTAGGATGCTACTGTAATAAATGTAAAGTAAGGTTAGGATATCTGAATATAAATGTTGATGTGT
K
TGTGTGGCGGGGAGCGGTGTGTGTAGCTGAATTTGAGGTAGAGACAAAAAGTAATTAAACTGGAAGCAGAAATCTTAGAATGGGGAAAAGTAAGGCATAT
Celera SNP ID:            hCV29433894
SNP Position Genomic:     162815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35658):
TGCTTCAGGTTGTCTTCATAATAAATGCAAACATTAAAATTGACAGGTTACTATGATTTTCATATTGGATTAAAATGTCTAAAACAAAGGGATTCGTCTA
K
GTATGACTTACACAAATACTGCAAATCTTAGGGGAACAGAAAGACTGAAAATGAGAGATAAGATACACTATGCAAACTCTAACCAGAAGAAAGCTGGTAT
Celera SNP ID:            hCV300997
SNP Position Genomic:     535686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35659):
AAAAGTCTTTAAAAAAGAAAGTGAGTTTTAGGGAAGATAATTTCAACAACAATGGGGAAGATTAATGGGAGTAGAGTCACGCAGGAAGACTAGGAAGGGC
W
GTGGTGCTCAACCTGTTTGGCACCAGGGACCAGTTTTGTGGAAGACAATTTTTCCATTGACAGGGATAGGGGTGGATGGTTTCAGGATGAAACTGTTCCA
Celera SNP ID:            hCV29433895
SNP Position Genomic:     162412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35660):
ATTCTGGGGAGGAAAGCAAAAAGCTAATTAACTTTAGTTTTCACTAAGAATATGTATTAAACATTGAAAAAAAATCTGGAAAAATAAAATTGACAATATT
Y
GAGTTCTCCAGAGAAACAGAACAAATTGGAAGTGTATATATACACAGATATATTATATATTTTAAAGAATTGACTCATGAGATTGTGGGGTCTGGCTGCA
Celera SNP ID:            hCV300998
SNP Position Genomic:     534729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35661):
TGTACAAATCTAAGTAAGCATTATGGAAAGCATAATGATAATAATTATTAAATATGTGGAATTAAAAACAAAGTGGAACTAAAACACAAGAGACTAATAA
M
ATGGAAAATGGGGCAGGTAGTCAGTTATTTAATAAAAGTTTTTAATATTCTTGAATTCTGGGGAGGAAAGCAAAAAGCTAATTAACTTTAGTTTTCACTA
Celera SNP ID:            hCV300999
SNP Position Genomic:     534574
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35662):
GTATTCTTGCATTAATTAATGTATTCATTAAATATGTCTTCAGTACTTTTTTTGGGTCCAGCATTACATTAGGCAGATATATTATTCAGCAAGTTTTCAA
Y
TTAGTTCAGGGAAAGAGGGATGATAAATATTATTATGAGTGTTTAGAAATATTAAGAACCCGAATCCATTTATCAGTTTCATAACAATGATTTTCAAGCT
Celera SNP ID:            hCV29433897
SNP Position Genomic:     151189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35663):
ACTCGAAGTCTATTCCCCAATTTAGAGTAGGAGAAAAATTTACATAGAGATTGATTCAGGGAAAAGAGAATAGCAACTCTTATTGTCAGTGTAGCTACGA
Y
AGCACAGTATTAGTTTCTCAAATCAAAGAGTTCCTTTAAAAATATTTATATCAAAGACTGAGTTCTCTGTCAGTGATAAAGTGTGTGTGTGAGTGTGTGT
Celera SNP ID:            hCV263995
SNP Position Genomic:     464776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;JBIC-allele(C,409|T,1090)   total(C,409|T,1090)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35664):
AGGAAAGAGGGAAGGAGGGAGAGAGGGAGGGAGGGAGGGAGGAAGGAAGGAAGGAAAGGAAGGAAGGAAGGGAGGAAAGAGGGAGGGAGGGAAGGAGGGA
R
GGAGGGAGGAAGGAAGGAAGAGAGAGAGAGAAAGAAAGGAAGAAAGGGAGAAAGACCTGGAGTTTGCTAATAGAGTTGGCAGGCACAGTTCAGTATCACC
Celera SNP ID:            hCV16199310
SNP Position Genomic:     409724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35665):
GGATATATGATAAACAAAACAGACCAAGTTCTCACCCCCTTAGAGCTTACCTTACAGTTGGAGAGGTTGTCAATAAATAGGTGAGCCAATTACTAAGTAA
K
TCTCAAATCCATGGTGCTATGAAGGAAACGTCCTGCTGCAGGAAGTGTGGAAACCTAGGTAGCACCCTGGGAATGGCCACGCTAAGGAGAAGCACTTAAA
Celera SNP ID:            hCV7851363
SNP Position Genomic:     503160
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35666):
GAGGAATGGGGACTTCTGTGGAGTTTAATCTATAGTAATGCACATGAATCTGATAAATTATTATAATCTTTGCTTTTAGTAGAAATGGGGATTTAGAGTA
Y
ATCAGTACAGGTGGCGAAAAATGTGAATTTAAAACATATTTTGAAAAACAAGGATAAGAATTAGTGTTTAAAAGCTAAAAGAGAAGAATTTGTGTCAGCT
Celera SNP ID:            hCV29433898
SNP Position Genomic:     150866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35667):
TATTGTGTTAAATATAATTCTGCTTCATGAAAATTTTAATTTGAAGCTATTTGCACACTATTCTGAAGCTATTCTCATTTCTTTGTGGAAAGGTGTTAAA
R
GGTATCACCCCAATGTCTCTTATTATGCAAGCATAAGAAAGAAGATATCGATCTGAGATTGCTAGTTTTAGATTGACTCCTCTGTATTTATGAAGAACCA
Celera SNP ID:            hCV263996
SNP Position Genomic:     464414
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35668):
GCAGGAGGCAGAATAATAACTCAACAAAATAAATAGAATCTCTAATTTCAAAATACTATTATCCCCAAAAGTAATGGGAATTTTAAAAATTATTTAGTGT
Y
TCCAGTTTAGATATTTAAGAACACCACTCACATCTACATGCCAAATAAATTGACTCCACCCTCCACCCGTTATATCAGGGCCCCACTCCATCCATTGTCT
Celera SNP ID:            hCV29433899
SNP Position Genomic:     145676
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35669):
AGCAACAAAGATCTTATGGGTCATCCTGGTATTATGTTTAATGGTGAAACCAGAAGCCTGTTTAAAGGGAGAATGGGAGATGAAGAAGTAGAGACCAGGA
R
TGTAAACAATGTCTTTTTAAAAGCTTATCGAAAATAGGATAGAAATTGTCAAGCAATTTGAGACCTCACAGATTTTTTTTTTAAGACAGGAAAGGCTTGA
Celera SNP ID:            hCV263997
SNP Position Genomic:     462875
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35670):
GGAGGAGAAAAAAGAGATGAGGACCAAAGTTAGAATTAAGGGCGTCAATTATATTGAACAGAAAGGGAAGGAAGAGTCGATAAAGGAGAATTCGAGTAGC
Y
GCAGAAGTAGGAGAAACATCAACTGGCTTACTCTTAAAGAAGCCATGGGGGCTGGGCACGGCAGCTCCCGCCTGTAATCCCAACACTTTGGGAGGCCAGG
Celera SNP ID:            hCV263998
SNP Position Genomic:     462324
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35671):
TCATAGGAAAGCTAAAAATACTTTAACTTTTGAAATTAATAAATGAAATACATCTTATATTTATTGAACAGCTCCTTTCTGAAATACATTGTACTATAAT
R
TAAAAGATGAATGAAGTAAGTTTTTATTTCCAAATATCCTTAAGTGTAGAACTGAAAAGAAAATAAGACAAACCAACACAATATAAAACTCAACACTTTG
Celera SNP ID:            hCV25959530
SNP Position Genomic:     423217
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,9)   caucasian(A,34|G,6)   total(A,55|G,15)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35672):
TGATTTTATTTATTTCTTTTAAAATCTAGCCATTATCTCCGTCATGCCCTTTGATTTGTTTCAGAAGAAAGCTGATTGGCAGGCGGGGTAAAACAGAGGG
R
GGCAGCTTTTCAGTAGACTTTTCAAACACATATTGAGGTGATACTCACTCCTGGCTAATCCAGGAATGCCATTAATTAGTTAAGCTCATGTCTTAACTAG
Celera SNP ID:            hCV28003540
SNP Position Genomic:     186316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35673):
CCAATATTCAGCTTTTAATAAAATTTTTCTTTTAAAGATGATTTTACTTTCTATCAGATTCCTATTGCATTGAGGACTTAGTTTTGCTTTATTTTTATTG
K
TTTTTCAAATGTTTTACCAAGTACAACTTGTCTCTAAGATTCAAAACAGTGTACATTTTGAATAGATGTATCATTTATTTTATGTATATGCATAATAATG
Celera SNP ID:            hCV28003541
SNP Position Genomic:     179931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35674):
TATATCAGGGCCCCACTCCATCCATTGTCTTTTTTCTTAGTTATATCTTGATATGTCACCCTATTAGTTTTTTCCTTGCAGCATTTCACTTGCTTCTTGC
Y
TTTTTTAAACAAAAATTTATGCACTACCCTCCCTGCATCCATGTTCCTGCTGCCTCATATTCATTCATTCTTCAGCTGGTGGCAATCAGCATTCAGTTTC
Celera SNP ID:            hCV28003542
SNP Position Genomic:     145847
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35675):
CTCCCCTTGGCCACATCTCCCATCACTTGTGCCCCTGGCCATCTGCACTCCAGCCATACTGTCCCCCAGCCACTTTGTCCCACCACAAAGCATTGCCACA
Y
ATTTCTTTATTTTGCCTTAAAGGTAATCTACCTCTCCCTACATTTTGTTAATTTCTGTTAACTCCAATTTACCTTTCAAATCTCAGCTCGTGAAAGCCCT
Celera SNP ID:            hCV425044
SNP Position Genomic:     499305
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35676):
AGATGACATCCATGAAACATATGACAGAATACCTTGCCATAGTGGCTACTCAGCATGTAAGTTTTTTGTTTGTTTCTTTGAGACAGAGTCTCCCTCTGTC
R
CCAGGCTGGAGTGCAGTGGCGAGATCTCTGCTCACTGCAACCTCTGCCTGCTGGATTCAAGTGATTCTCCTCCCAAATAGCTGGGATTACAGGCATCCGG
Celera SNP ID:            hCV28003543
SNP Position Genomic:     110716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35677):
ATATTGCAGTTATTCTCCTTTTGGGCATATAGTAGGATTACATTTGCTCACCCCTGAAATTAGGCATAGACACCGTCAATGAAATGTGAACAGAACTGAC
W
TGCTTTACTCTTAGATTGAATACGAGTTTTACAAGCCAGTGCATAATTCGCCATGCTATAGAGACAGATGATCTTCCAGATGGATGCCTGAGTGTAGAAT
Celera SNP ID:            hCV28003544
SNP Position Genomic:     53236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35678):
GGATCTATCCTTTGACCAAATTTTTCACTCTTCAAGGGCCTCATACTGCTCTGATTTCAGATGTATAGATATATTGCTTATCAAACACTGATGGGTCTGA
R
CATGAGTGGTAGTAAGATATTTCCAGATTAAGTAGACAAATTGTGCAGAACTTTTTAGTATCACTATTTAAATGACTAAATTTTTGAGGTTTATGTGTAT
Celera SNP ID:            hCV28003545
SNP Position Genomic:     18913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35679):
CAGCTCAGGAAAGTCAGGAATACAAGGGGTAGGATTTTATGAAAATGCAATTTTGATGTCTTGTTCATAATGGTCTACAGAAAAAGAAGGAGGCTGTTGA
R
AGCGGCAAACGACAAATTGAGAACACTTTAAAAGAGGGCAATGACATACTCGATGAAGCCAACCGTCTTGCAGATGAAATCAACTCCATCATAGACGTGA
Celera SNP ID:            hCV25995105
SNP Position Genomic:     523883
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,7)   caucasian(A,16|G,18)   total(A,23|G,25)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,713|G,754)   total(G,754|A,713) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:35680):
TATCAACTTAAATGTAAAGAAAATTCAAAGGCACAAAACACCACACTTAATACTGGAAGCTTCAAGAACATATGAAAAGAAATAGTAGCATGTATAATGG
R
TCTTAAACAATTAATTTCAGGATTTTCACTGGTGGGAATAGTAGGAAATTATATGGGCAAATGCTTACAAAATACAAGGCATGTGCAAAACCTAATAAGT
Celera SNP ID:            hCV16014313
SNP Position Genomic:     466506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35681):
GGAAGGGAGGAAAGAGGGAAGGAGGGAGAGAGGGAGGGAGGGAGGGAGGAAGGAAGGAAGGAAAGGAAGGAAGGAAGGGAGGAAAGAGGGAGGGAGGGAA
R
GAGGGAAGGAGGGAGGAAGGAAGGAAGAGAGAGAGAGAAAGAAAGGAAGAAAGGGAGAAAGACCTGGAGTTTGCTAATAGAGTTGGCAGGCACAGTTCAG
Celera SNP ID:            hCV16199320
SNP Position Genomic:     409717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35682):
AGGAAGGGAGGAAAGAGGGAAGGAGGGAGAGAGGGAGGGAGGGAGGGAGGAAGGAAGGAAGGAAAGGAAGGAAGGAAGGGAGGAAAGAGGGAGGGAGGGA
R
GGAGGGAAGGAGGGAGGAAGGAAGGAAGAGAGAGAGAGAAAGAAAGGAAGAAAGGGAGAAAGACCTGGAGTTTGCTAATAGAGTTGGCAGGCACAGTTCA
Celera SNP ID:            hCV16199321
SNP Position Genomic:     409716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35683):
AAACAAAGGAAAAAAAAGAGTCAGAGAGTGAGGGGAGAAGGTATTCATGATGATACCTTTGCTAAGATTCTAGACTTTTATCATCTGGACAAGAGGAGAA
Y
AAAAATAACAAAGAGACAGAATCTTGAAGGGCTAAAAGAGATTAAGTAAGCAATTGGAATATCAAGAGCAATTAAAAAGACTGTTGAGCTAAAAGTGAGT
Celera SNP ID:            hCV16199322
SNP Position Genomic:     406011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35684):
GGGGGTGGCAGGTAATGAAGCTCTTCCTTGCCATGCTAATGATTTGTTATTCATCCTGACTGCATTTGGGAGCTAGTGTAGGCTTTCAAGCAAGAGAAGG
K
CATGGTTTGATATGTTCATAGGATGATCACTCTGATTGCAGTGTGGAGAAATCACCAGATAAGAAAATATGGAGACAGGATCTTTAGCTAAAAGGCTATT
Celera SNP ID:            hCV16014318
SNP Position Genomic:     461724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35685):
TGGTGAAAATAATAATGGATTCTGAATTTAAATATTTGTTTTTATCTTTACCACAAGTATCAGAGTGAGAAAGGCTTTGGTCTCAAAATTAGACTTAATT
W
GAATTGGTAAAATTAACAAACATGCCTGAGCATTATGGACTTTTTTTTTTTTTGCTTTAAGGATATAAAAATAAAATATTATTTTAATAATGTATAATAA
Celera SNP ID:            hCV1389338
SNP Position Genomic:     576520
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35686):
AATAACTTGCTTAAGTCATAAAACAGCAGAGGCCATATCCATGTTTCAAATGCTGGTTTGTTTAAATAGATGTTTGATGAGCTATTTCATAGTATCCTTG
Y
GCACAAGATTGAAAATATGAGCCAGATGTTAGCCAGCTGATAGGTTGATGGGCATATACGTTGCTAAAAAAATGTGACCCAGAGTACACTCTAGTGATAT
Celera SNP ID:            hCV16014319
SNP Position Genomic:     459354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35687):
TTTGTTTTTATCTTTACCACAAGTATCAGAGTGAGAAAGGCTTTGGTCTCAAAATTAGACTTAATTTGAATTGGTAAAATTAACAAACATGCCTGAGCAT
W
ATGGACTTTTTTTTTTTTTGCTTTAAGGATATAAAAATAAAATATTATTTTAATAATGTATAATAATAAATAATATTATTTGACAAGTATTATCATGAAG
Celera SNP ID:            hCV1389339
SNP Position Genomic:     576554
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35688):
CAGGTACCAGTTTTCAACTTGATTTAGCACACAGTGAATCTATTTTACATGTTTTCTTATTTTCTCATTCTTTTCATGTTAGCATCTCTTTGTAACATGG
Y
TTAATACCAATAAACCCTAAGGCAGTGACATGAGCTCATTGTCTATTATTGGGCTGGGGGTGGTTACAGAGCTGCAGAAGCCCTTCTGAAAAAAGTGAAG
Celera SNP ID:            hCV25991762
SNP Position Genomic:     515631
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,7)   caucasian(T,34)   total(C,1|T,41)
SNP Type:                 INTRON


Context             (SEQ ID NO:35689):
GAATGGTACATTTATTATAGTCGATAAACCTAAGTTGACACCTCCTCATCACCCAAAGTCCATAGTTTACATTAGGGTTCCCTCTTGGTATTGTACATTC
Y
ATGGGTTTGGAAAAATGCATTATGACATGTGTCCACCGTTGTTGTAAAATATAGAAAAGTTTTACTGCCCGAAAACTCCTCTATGCTTCACCTATTCATA
Celera SNP ID:            hCV11829600
SNP Position Genomic:     494858
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35690):
GGAAAAATGCATTATGACATGTGTCCACCGTTGTTGTAAAATATAGAAAAGTTTTACTGCCCGAAAACTCCTCTATGCTTCACCTATTCATACCTCCCTC
Y
TCCTTGACCCCTGGCAACCACTCATATTTTTACTACATCCATAGTTTTGCCTTTTTTGGAATATATAGCTGGAATCATACAGTGTGGTACTTTTTCATAT
Celera SNP ID:            hCV11829601
SNP Position Genomic:     494967
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35691):
GTGGAAGCCCAAAGCCCAAACCCAGCATCTACATCAGCTGACACAAATGACCCTGTGTTTGTTGGAGGCTTCCCAGGTGAGTGTTGGCTACCCCAGCAAC
M
ATTTCTTTGCTCTCTTATGTTACTGGTTTTGAAAACATTTATATTTACATGTGTCTAAGAATGTGTGCTTATGTGTACTTGCTTCCTAGCTTTAGAATCT
Celera SNP ID:            hCV25958740
SNP Position Genomic:     637237
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,32)   total(A,69|C,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35692):
TCCAGTGCAATCTAATGGAGCACCACACATTTAGACTCTGGAGCATGTTTTATTCCCTGTGGACAGGTTCCTTTCGATTGCTCATGTAGGGATTTAGGGG
R
TACTTTTAATGTTATATTCTATGCCTTAAAGGAAATCTTCAATACTTGTGCAATACACTTTTTCTCCCCAAATCTATTTGCTCCTCCTCTTTGGTCCCTC
Celera SNP ID:            hCV7833596
SNP Position Genomic:     488534
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35693):
TTCACACAGGCAGAGCAGGAGGAAGTGGGGGCTGGAGGTGGCACACACTTTTAAATAACCAGGTCTTATGAGAACTCTGTCATGAGAACATCACTAGGGC
R
GTGGTGCTAAGCCATTAAAACCACTCCAGTGATTCAATACCTCCCACGAGGCCCCATATCCAGTATTGGGGATGACATTTCAATATGAGATTTGGATGGG
Celera SNP ID:            hCV7833597
SNP Position Genomic:     487657
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35694):
CAGTGTTTACTGAATGTTTTTTTACTGTTTCAGGATCCCATGCAGGATACTACATTACATTTAGCCATTGTGTCTTCTTAGGGTTCCTCTAGACTGTGAC
R
ACACTGTCAAAAATACTGTAACAGTGTTTCTGATGACTTTGAGAGTTTGGACAGGTTCGTGTGTTTGGTAAGCTGTCCCTCAATTGGGGTTTGCCTCATA
Celera SNP ID:            hCV11829604
SNP Position Genomic:     496302
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35695):
TGGTAAGCTGTCCCTCAATTGGGGTTTGCCTCATATCTTTCTCATGATTAGAATGGAATTATGAGTTTTTGTGGGAAAAACTTCAGAGGTAAAGTACCAT
K
TTCATCACATCAAGAACCCATGTGACCAATATGACTTATTACTGTGGATATTGACCCTGATCACCTGACTAACATAGTGTTTGCCAGATTTTTCCACTGT
Celera SNP ID:            hCV11829605
SNP Position Genomic:     496468
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35696):
TGAGTAGTAGATCAATTTGTTCACATATTTTGCAAAAGTTAGAGCTTATTACTCATTCATGTACTATTGATGTAACGCATTAGAAGACAGTTAACATTAG
K
TCCTAATGGCACCTGACCAAAAGGAGCTGTGGGCCTGGCCTATACACCTTATTGCCTGTTTTCAGCATCAACTGATTTAGTGAAGCAGCAAAAAGAAAAA
Celera SNP ID:            hCV27535397
SNP Position Genomic:     470941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35697):
ACCATATCAAGGTACTGTTGGTAACCAGGGTATTTGAGGTTGAATAGAAATGATTCCTGGCCTCAAAGAATTTACAACCTCCTGAAAAATTCAGACATGT
Y
AACCTTTCACTCTACATAATACTATGATAATATTGACTGGGAGATTCAGCAAAAGTTTCACAAAAATAACAGCATCATAGCAGAAGTGGAGAGGAATTGG
Celera SNP ID:            hCV123930
SNP Position Genomic:     518953
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35698):
AAGCTAAGGAATTGGTTTTTATCCTGAGAGCCATAGGAAGCAATTGAAATATTGCAGTCATGGGTTAAAATAAAATGTTGCAGAATTTGAGTGGCTCACT
K
AAACTGAATAAATGGTTTTTTATCGGAAAATAGTGTGATATTAGGCTAGAAAAGTAGGCTGGGATAATATTTATCTACATATCTGTCAGGTACCTACCAT
Celera SNP ID:            hCV123931
SNP Position Genomic:     518757
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35699):
TTCCTATATATAAACACACATAGACAATCAAGAATCACACTGAAAGGAAAATATGAGTGAGAAGGAAGTGGATCCTTTATAAGCAGGAGAAAGCTAATAC
S
ATTTGTTTGTACTGCAGTATTATTTTGTAAAGAGTAATAGCTACTTGTCTTGCATAACTAATTTCTTTAAATATCAGAATGAAATGTTATTTTAAGAATT
Celera SNP ID:            hCV94682
SNP Position Genomic:     528933
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35700):
GTCTTCCTATATATAAACACACATAGACAATCAAGAATCACACTGAAAGGAAAATATGAGTGAGAAGGAAGTGGATCCTTTATAAGCAGGAGAAAGCTAA
Y
ACGATTTGTTTGTACTGCAGTATTATTTTGTAAAGAGTAATAGCTACTTGTCTTGCATAACTAATTTCTTTAAATATCAGAATGAAATGTTATTTTAAGA
Celera SNP ID:            hCV94683
SNP Position Genomic:     528930
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35701):
CTAGCCCTATAAAGAAGGAAGAATGTTTTCAATAACTTAAAAGGAAAAACAAAGAAACAATTTATACATTTGCAGGAGAAAAGGAAAAGGTCAAGTAGTA
S
AGCAACCAACGACCACTATGAAGAAAGTGGAGGTCAGACAATTTGAGAAGAAAAAAAGCATTGAAAATACCATAAGAAAAGAAACAAAGAAATGATAGAA
Celera SNP ID:            hCV94684
SNP Position Genomic:     528666
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35702):
AGCAGGAAAGAAGAATTTGCATATTAGATAGACACCATGTATCCATTTTTTTATCTCAATTCTAATCACTTGCTTTAAATAATTTTTTCTGCCCATGATA
Y
TTCAGTAGTAGCCATCAGAAGGTGTTAATCAGTTATGCTTTCATATGTTAACTTTACAGTGTCGTATTTTGTAATAGGTATAAAATTCTGCCAATATTTT
Celera SNP ID:            hCV27515075
SNP Position Genomic:     411073
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,672|C,809)   total(C,809|T,672)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35703):
AGAGTCCTCTACTCCTTTGAGTCTAGCCCTATAAAGAAGGAAGAATGTTTTCAATAACTTAAAAGGAAAAACAAAGAAACAATTTATACATTTGCAGGAG
R
AAAGGAAAAGGTCAAGTAGTAGAGCAACCAACGACCACTATGAAGAAAGTGGAGGTCAGACAATTTGAGAAGAAAAAAAGCATTGAAAATACCATAAGAA
Celera SNP ID:            hCV94685
SNP Position Genomic:     528644
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35704):
GCCTGTGACACTGCATTTTTCATTGACAGGGTTCCTCAGTGAGGGGGGAAAAAAGCATTTAATGATTTTCAAATGACACATGTAACCTAAACACTATAGG
R
CAGTGATATTTGCCTAATCTAGAACCTTCTACCAGGTTGTCCAAGATGTGCCCCTAGAGAATATAGCACTCAATTAATAGTGTTGGATGAGTTTATTTAC
Celera SNP ID:            hCV27515076
SNP Position Genomic:     381692
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,199|A,1296)   total(G,199|A,1296) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35705):
TATTGGATAAGAAAAAGAAGACAATCTGTCCCAGAAATTTTGTTGGAATGTTTTTCATGAACAGAATGAATAAAATTTTAGTTTAATAGATCAGTATAAT
R
TAGTTCTACTTTGCTGGAAAAGAAATATATTTGAAAAGCATTACGTTGAGTAATTATCTAGATAGGACTAACATCCCATAAATATAAGATCTGATATAAA
Celera SNP ID:            hCV94686
SNP Position Genomic:     528367
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35706):
AACCTGAAAAATATAGCTGTCTATTTAAAGAAGACATTTTCTTGTTTGGCAGAATATTATCATCATACAGCATATGTACAATATGGTCCTAATTTGTGTC
R
ATATGTGCTAGGCTTAGAAAACTCACTTTAAGTTTTACTAAATTTATTTTGGAGTTTAACTCTTACTTTTGACATGATTTATATTCTAAGGAGATCTCAG
Celera SNP ID:            hCV27515077
SNP Position Genomic:     355003
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,180|G,1287)   total(G,1287|A,180) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35707):
TTATTCCTTCTCTCTTTCCACAATCATTTAAAAATAATTAAATGTCTGAAAAATTACAAAATAAGTGCTATAGAGAATCAGTGATTTATTAAATGACTAT
Y
GGATAAGAAAAAGAAGACAATCTGTCCCAGAAATTTTGTTGGAATGTTTTTCATGAACAGAATGAATAAAATTTTAGTTTAATAGATCAGTATAATATAG
Celera SNP ID:            hCV94687
SNP Position Genomic:     528270
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35708):
AACCTCAAACAGAGAGTGATGGTGAGTTGTAATGCATTACACCATGTCTGCTGTTATCATTATTCCTTCTCTCTTTCCACAATCATTTAAAAATAATTAA
R
TGTCTGAAAAATTACAAAATAAGTGCTATAGAGAATCAGTGATTTATTAAATGACTATTGGATAAGAAAAAGAAGACAATCTGTCCCAGAAATTTTGTTG
Celera SNP ID:            hCV94688
SNP Position Genomic:     528211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35709):
TTTTTGAAGACCTCTTTTAAAATTTGCCTAAAATAAATTCTCGGTATGCTATAATTATAGCAGAACTCTTTTCTCAGTCACCCACTACCACTGTTAGGGT
S
TTAAAATTATCTCAGAAACCAAGCAAGTTTGTGCTACCAACTCACAAAATAAAACAGGCAAAGACAACACTCTGGATAGGGAATTTTATCACCATTATCT
Celera SNP ID:            hCV7836142
SNP Position Genomic:     526809
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,6)   caucasian(C,18|G,20)   total(C,24|G,26)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35710):
CACCTTGTAACTATGCTCTTCATCATACCTAATGATACTTGCAAGATAATTGTTGCTTCATCCTAGGCATTAATAAATCCTGTACATAGGCATGTTATTA
Y
GAATAGCTCAGTGACATTGCTCCTTAAGAAAAAAAATTTTTTTGAAGACTAAAACCTATGTAATACTGAGTCCAAGGGGATAGCGGGAGGTAAGTGAACT
Celera SNP ID:            hCV16014320
SNP Position Genomic:     457862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35711):
TGTGCTTATATTAGTATAATCTGTAGTATAACAGAAGTTTAAGGTGTCTGCCTATAAAACCCTTTATATGAAGTGGAGTGAATCATTAATTAATATGTCC
M
GTACTCTTCTTCACATCCAGACACCGATAGTTCAGAATCCTCCATCTATCCACCTTTCCCTTTGCTATTCTTCACAGATGCAGGCCAACAAAGATGAGGA
Celera SNP ID:            hCV1389340
SNP Position Genomic:     558405
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,6)      total(A,3|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35712):
CTTTGGAAAAACCAAATGCATTTTCTGAAGCTATAAATAAGAAAAATCCCTCCCTCTGCCCCTCTTAAATATTACCTCCTCAAATAAGGTATGCACACAG
Y
AAAACTCACAAATCAGCTCCACTGGAGCCAGCAGGCTTTGGCGGTTTCTATCTCATTCAGGTTCCAAAGCAGTTATGGCAGCTGCTTAGCTGTCACAGAT
Celera SNP ID:            hCV1389341
SNP Position Genomic:     609567
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35713):
TTTGGAAAAACCAAATGCATTTTCTGAAGCTATAAATAAGAAAAATCCCTCCCTCTGCCCCTCTTAAATATTACCTCCTCAAATAAGGTATGCACACAGC
R
AAACTCACAAATCAGCTCCACTGGAGCCAGCAGGCTTTGGCGGTTTCTATCTCATTCAGGTTCCAAAGCAGTTATGGCAGCTGCTTAGCTGTCACAGATA
Celera SNP ID:            hCV1389342
SNP Position Genomic:     609568
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35714):
ACCATGAAACTGGGTAGTTTATAAATAAACAAACATTTATTTCTCACAATTCTTGAAGCTAAGAAGTCTGAGATCAAGGTACTGGCAGATTTGGTGTTTA
S
TGAGAGCCAGTTTTTCATAGAAGGAGGCTTCTTGCTGTTCTCACATAGTAGAAAGAGTGAACAAGCTCCTTTGGACCTATTTTATAAGGGCACTAATTTC
Celera SNP ID:            hCV1389348
SNP Position Genomic:     580436
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,7)   total(G,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35715):
CCAAAGGCCCCACTTCCTAATCCTATCACCTTGAGGATTAGGATTTCAACATATGAATTTTCAGGGGACACAGACATTCAGGCCACTGCCCTTTACTTAT
Y
CAATTTCCCACTTATGTAAAAAGTGATCAACATGGGATCCAAAGATTGGAATAACAAAATGCTTACAAACTGTCTGGCACATATTGAGATCTAAATGAAT
Celera SNP ID:            hCV16199334
SNP Position Genomic:     522977
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35716):
TAGTACAATTCTTCAGGCTGTGTATTACAGGTGAAATAAAACTCCCTACACACATAATTCTGCTCAGCAGGTACCTCTTATTACAATCTGAAGAATGACT
R
TAAGAAGCCAAAACCTGTGTTCCTATTGGACAAATGGACTCAATCCCGTGACTTTGCGGTCACTCCTTCCTATCTCATACCCTTGCCCAGGGCTGGGAAT
Celera SNP ID:            hCV1389349
SNP Position Genomic:     552276
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35717):
CCCACCCCACCAGCGTGGAACTTCGTGTGTATTCAAAGGTCCAGTTTGAATTACTGTGAGGCCAGTGGCTAGAAAGCAGTGTAGTTGGGACTGGAGATTC
W
CATGCCTGGCTCTTCTCCCAAGCTTCAACTGTAGCTCTTGAGCAGCAGCTTCCTCTGAGCTTCTAAAAAATGCCCAGAAAATTGCCCAGCCAACCACATT
Celera SNP ID:            hCV11829611
SNP Position Genomic:     502390
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35718):
GTGGAACTTCGTGTGTATTCAAAGGTCCAGTTTGAATTACTGTGAGGCCAGTGGCTAGAAAGCAGTGTAGTTGGGACTGGAGATTCACATGCCTGGCTCT
Y
CTCCCAAGCTTCAACTGTAGCTCTTGAGCAGCAGCTTCCTCTGAGCTTCTAAAAAATGCCCAGAAAATTGCCCAGCCAACCACATTTCCTGGCAAGCATA
Celera SNP ID:            hCV11829612
SNP Position Genomic:     502404
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35719):
ATACACACACACACACACACACACACACACACACACATATATATATATATAAAGTTTTACAGAACTTTGTTTTCAACTTTTAAAACAGGATTTCTAAAGA
A
GTTATGTGGTTTTTTTTCTTTCATGGCAATGGCGCCTCCAGCCTCACCTTTTTCAAACCCACATCTTATCTTCATATCCTATTTTATTGTAGTGAAATCG
Celera SNP ID:            hCV160165
SNP Position Genomic:     6705
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35720):
AGTTGGGACTGGAGATTCACATGCCTGGCTCTTCTCCCAAGCTTCAACTGTAGCTCTTGAGCAGCAGCTTCCTCTGAGCTTCTAAAAAATGCCCAGAAAA
Y
TGCCCAGCCAACCACATTTCCTGGCAAGCATAGCACCAGGCATATGGTCAGTTTGAGTGCTATTAGATAGGCTTTAGAACTTCCAAGGGATCATTGGTTT
Celera SNP ID:            hCV11829613
SNP Position Genomic:     502472
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35721):
ACAGTGCAGCCTTCAGTCTGTGGTTAAAGGCCTGACAGCCCCTGGCAAACCCCTGGTGTAAGTCCAGGAATCCAAAAGCTGAAGAACTTGGAGTGTGATG
K
TCAAGGGCAGGAAGTATCCAGCATGGGTGAAAGATGAAGGCTGGAAGAGTCAGAAGATCTACTCTTTCCACTTTCTTCTGCCTGCTTTTATTCTAGCCAC
Celera SNP ID:            hCV11828677
SNP Position Genomic:     529641
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35722):
CACATTGAGGGTGGGTCTGCCTCTTCCAGTCCAGTGACTCAAATTTTAATCTCCTTTGGCAACACCCTCACAGAGACACCCAGGAACAATACTTTGCATC
S
TTCAATCCAATCAAGCTGATACTCAATATTAGTCATCACAAGTCCACCCCTTGTCAACTTGAACCCATACACATCTCCTGAAATCATACATAATCTCCAA
Celera SNP ID:            hCV11828678
SNP Position Genomic:     529870
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35723):
AAAAATGAAGAAAGAATTTTATTTTCAGCCATTTTTTTTCCAAGAGAAAAAGAAATCTAAAGACAAGCATTGTAGGAAGGGTTAGGAGACAGAAATGTTC
R
TTAGTTTAAATTTATTTTTTTTGTAGTTCAGGTAGTACATTATTTAAAGTAATGAAAACCCACAAACTACTCAAGTAATAATTCCTCTAGAAAACCAAGC
Celera SNP ID:            hCV1389351
SNP Position Genomic:     552593
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35724):
GGTTATAGAAAACTATAGGACAATATAATAAGTAGATACTTCACTATTATTTGGAATTGTCATAGATATATTGGCCATGATCATTTGGAAGCCAGATTTC
R
TATAATTAGGACGTTCTTCATTTGAGTACCATTGAGTGCCCTGACATTCCTTTTTTGAATCATCCCACCAGAATCCTTGATGAGGCTAAAAACATCTCCT
Celera SNP ID:            hCV7836155
SNP Position Genomic:     526388
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,1)   caucasian(A,9|G,15)   total(A,10|G,16)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35725):
AGCATTGTAGGAAGGGTTAGGAGACAGAAATGTTCATTAGTTTAAATTTATTTTTTTTGTAGTTCAGGTAGTACATTATTTAAAGTAATGAAAACCCACA
R
ACTACTCAAGTAATAATTCCTCTAGAAAACCAAGCCAAGGCTATGACGGAGATGGGAATGTTTTCTTGCTACATTATGACATTTCTCTGATTTGTGGCCA
Celera SNP ID:            hCV1389353
SNP Position Genomic:     552658
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35726):
TCTCTTCTGGGAAGTGCACCTACCCCAGAAAGATTTTGTGAAATTAATTCCAGTAATGTAGTACAAGTGCTCTGAATCTCACAGCATGCTTCACAAATAA
R
GTGAAGAATTGTCTCATATCACACACCTGCTAGAGCACCTGGTTGCAGAGACTTTTGGAGGATGCTATGGGTATTTAAGATATGTTGGTAGTATTTCATA
Celera SNP ID:            hCV7836156
SNP Position Genomic:     526161
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35727):
AGGAAGGGTTAGGAGACAGAAATGTTCATTAGTTTAAATTTATTTTTTTTGTAGTTCAGGTAGTACATTATTTAAAGTAATGAAAACCCACAAACTACTC
R
AGTAATAATTCCTCTAGAAAACCAAGCCAAGGCTATGACGGAGATGGGAATGTTTTCTTGCTACATTATGACATTTCTCTGATTTGTGGCCAATTACGGA
Celera SNP ID:            hCV1389354
SNP Position Genomic:     552666
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35728):
TTGTTTTAACCATTTTTTTTTACTTTAAAGAAAAAGCTATAAACTAGTTATATGATCTTTTCTTCTTCCTTTCATATGATGCTGCTAACTCAATAGAGAG
M
CACCCGATTACAAATGCTATTGATGGAAAGAACACTTGGTGGCAGAGTCCCAGTATTAAGAATGGAATCGAATACCATTATGTGACAATTACACTGGATT
Celera SNP ID:            hCV26000397
SNP Position Genomic:     182588
SNP Source:               Applera
Population(Allele,Count): african american(A,20|C,8)   caucasian(A,40)   total(A,60|C,8)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:35729):
TTTAAGTTTTTTAAAACATTGAAAAACAGAAATATATGCACACAGAAAGCAATTTAGCCAGCACAACCGGGTATAAAATGAGAAGTTTTAGTACATTGTC
Y
CTCACGGCACTATTAACTGCCTCATTCATTCCCAGTTTCTACCCACTATTAATTACTGTAAAGGTTTTTGGCATGTTCTTCTCTACCCAGCTCCCACCAG
Celera SNP ID:            hCV16199344
SNP Position Genomic:     558831
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35730):
GTCTGTAATATCTTTCTACCTATTAGAACTGCTGGAAATTTTTGCATGGTATTAGTTCCTGAAAGCACACGTTATTTTAAAGATACTACTTTTACTATTT
Y
TATATTGTTAAAGCATGATATAATAACAACAAAGATTATAAACACTTATTGAGTACTTAATATACTTATGTTAAGTGTATGTAATCCTCATACCAATTGG
Celera SNP ID:            hCV16199345
SNP Position Genomic:     562320
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35731):
AGAAATTGAGTGTCATGCAGTTCCAAAGCTGGAATCCAAGTCTTCTAGCTCTGCCCCGGTGCTTTTTTCCTCTGAAATTTTTCCAGTTGAGAAGAGATTA
S
GAATTCTCAAGGTGTGCCTAACATTCAGCAGAGAGATGCAAAACACTTTTTAATCCGTGTGTGTAATTAAAAACACAGTTGTACTTGGGTAATTATATCC
Celera SNP ID:            hCV16199346
SNP Position Genomic:     563871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35732):
ATCTTCTTCTCATACCGTAATAAACAGTCTCCTAACTTTAACTACCGAATATGTGCTAATAATTTACAATTCTATATCTGCAGCCCAGAGCTCTTTCCTA
R
AGGCAAACTCTGTGTACCAACTGCCTTCTGGATCCCTCCACTCCATTATTCTATGGTTTTAGATGTATGACATTTGTTTTTCTGTCCACAGGCAACAGGT
Celera SNP ID:            hCV25965040
SNP Position Genomic:     550294
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,39|G,1)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:35733):
AAGGAAGCAAAAAAACGAAAATAAAAAAATCTTATTTATTACATTCTATTAGCCCCATGGACTTTGCAAGGCCTGTGTCCTTCAAAAATGCTGACATTGG
W
CGCTGTGCCCATCAGAAACTCCGTGAAGATGAAGATGGAGCAGCTCCAGCTGAAATAGTTATCCAGCCTGAGCCAGTTCCCACCCCAGCCTTTCCTACGC
Celera SNP ID:            hCV25971606
SNP Position Genomic:     614975
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,29)   caucasian(T,28)   total(A,3|T,57)
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,23)   caucasian(T,36)   total(A,3|T,59)   
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:35734):
CTCTTAATATTTGGTGCAGGACATTTCAAAGCTGAGCCCTCTTGCATTGCCTTTTTCAGATGACCTCAAGCAGTTTGGCCTAACAACCAGTATTCCGTTC
Y
GAGGTTGCATCAGATCCCTGAAGCTCACCAAAGGCACAGGCAAGCCACTGGAGGTTAATTTTGCCAAGGCCCTGGAACTGAGGGGCGTTCAACCTGTATC
Celera SNP ID:            hCV27338954
SNP Position Genomic:     638848
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:35735):
ATACTAAAAATACAAAAAATTAGCCAGGCATGGTAGCAGGTGCCTATAATCCCAGTTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGC
Y
GAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGCGCGACAATGTGAGACTCCGACTCGAAAAAAAAAAAAAAAGAAAAAGAAAAAAAAGA
Celera SNP ID:            hCV27338955
SNP Position Genomic:     605612
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35736):
AGGTCAGGATTTCGAGACCAGCCTGGCCAACATAGTGAAATCCTGTCTAATTTGTATACTAAAAATACAAAAAATTAGCCAGGCATGGTAGCAGGTGCCT
R
TAATCCCAGTTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCCGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGCG
Celera SNP ID:            hCV27338956
SNP Position Genomic:     605557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35737):
TTTCCTAAGCCTGGTTTTGTGGAGCTCTCCCCTGTGCCAATTGATGTAGGAACAGAAATCAACCTGTCATTCAGCACCAAGAATGAGTCCGGCATCATTC
Y
TTTGGGAAGTGGAGGGACACCAGCACCACCTAGGAGAAAACGAAGGCAGACTGGACAGGTACCCTCACACCTAGCTGATAATGCATTTTCCCTAATGCTT
Celera SNP ID:            hCV27338957
SNP Position Genomic:     603994
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:35738):
AATCTCCTTTGGCAACACCCTCACAGAGACACCCAGGAACAATACTTTGCATCGTTCAATCCAATCAAGCTGATACTCAATATTAGTCATCACAAGTCCA
M
CCCTTGTCAACTTGAACCCATACACATCTCCTGAAATCATACATAATCTCCAAATAAAGACAATAATAACATCATAATTATACCTAACATAATACAGCTA
Celera SNP ID:            hCV11828683
SNP Position Genomic:     529917
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35739):
CATACAAAATGTATTTTAACATGCATAGCATGGAAGAATCACAGGAGGATGATTACCCAATAACCCAATAGGAGCATAGATGTAGATATACCCTTCTTCA
Y
GGGGGAGGGAAGATGGGGAAAATATGGCAATTTGGAAAATAGTAAATGATTTTTTAGGGGAATTCAAGAACCTACAATGGCCTGGGACAAAGTCTGTTGG
Celera SNP ID:            hCV437379
SNP Position Genomic:     181670
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35740):
AACGGTATTTCTTTCTGCAGAAGGCTGATGCTGTACGTGTGATTACATTCACTGGCTGCATGGGAGAAACATACTTTGACAACAAACCTATAGGTTTGTG
R
AATTTCCGAGAAAAAGAAGGTGACTGCAAAGGATGCACTGTCAGGTTAGTTGAGATGAGAACTCTCCCAGGGTCTGTCCTGTGCATAATAAAAGCTTCGA
Celera SNP ID:            hCV27338958
SNP Position Genomic:     582895
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:35741):
ATAATACAGCTATCCCTTGTACAATCAGAAGCACACTAATCCTTAACCTAAATGCTATTACATAAAGTTAACAACACTTAAATGCTGATATGAAGTCAAT
R
AATTTTATGTCACATGATAAAGGAAAAAGAAAGCAAATGAAGATATTTTCCTAGTACAAGTGTATACATGCACAAACATATTCTTAACAGAATAAGGAGG
Celera SNP ID:            hCV11828684
SNP Position Genomic:     530106
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35742):
GTAGCATGCTAATGAGCCAGGGCAGAGTTGCTAAGTGGCAACGTGAAACTTTAGTCAAAGGAAGGAAGTAAGGGAAGGGGAGGAGAGGGGAGGGGAGGGG
R
GGGAGGCGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGGTGGTAGAAAGAAAGAAGGAAGGGCAGTTTTCTTGTTTGAACAAGAAAGGCTTGAACT
Celera SNP ID:            hCV27338959
SNP Position Genomic:     569167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35743):
GACTCATCATTTATGAAAATATACAATTTTGTTCTGCAAAATAATTTAATTTTTTAAAATTCCTTGTGCAATGAGAAAAGATCAGAGAGGCCTACAGTTT
S
CTTTTACAGAGCTAGGCCAGGGGCTGTATTTAGAGTAATTGAACACATGATTTTACTTGAATGCGGAGAAACTTGACCAACTGTGAATATGCAATTTCAC
Celera SNP ID:            hCV15826604
SNP Position Genomic:     256063
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,8)      total(G,1|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35744):
TCCACTTGATTATTAAAATCCTCCTCAGCTGAGGTCACCCGTTGGTGAGCACTCACATAGGATACAAATATCTTCACAGTTTTTGACCACTCAGAGAGGT
Y
CATCCACATACCTCTTCCCCAGATTACTTTGCCACCAATTTTTTAATCATGCTTCTTCCAAGTCCCTGACCATCCAGCCAAACCATTGGCTACAGCACAT
Celera SNP ID:            hCV11828688
SNP Position Genomic:     531609
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35745):
AGTCCCTGACCATCCAGCCAAACCATTGGCTACAGCACATTAATTAGTATATAATTACACATCTGGCCATTTCTTCTTCCAAGCAAGTGCACAACCAGGT
R
CCCTGCTCAAAATTCTGCCCCCTGGGAAGACTTCCCTTTGCTACTGTCCTTCAGGGATGTCCTAGAAAGGGGCTGTAGTGCTGCAGCTGTCCACTTTTGG
Celera SNP ID:            hCV11828689
SNP Position Genomic:     531770
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35746):
AGCAGCTGCTGCTCGCTCAGCTCACAAGCCAAGGCCAGGGGACAGGGCGGCAGCGACTCCTCTGGCTCCCGAGAAGTGGATCCGGTCGCGGCCACTACGA
Y
GCCGGGAGCCGCCGGGGTCCTCCTCCTTCTGCTGCTCTCCGGAGGCCTCGGGGGCGTACAGGCGCAGCGGCCGCAGCAGCAGCGGCAGTCACAGGCACAT
Celera SNP ID:            hCV27862904
SNP Position Genomic:     6052
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:35747):
CACCAAGGGCATTGTTTTTCAACATCCAGAGATTGTTGCCCACATGGACCTGATGAGAGAAGATCTCCATTTGGAACCTTTTTATTGGAAACTTCCAGAA
Y
AATTTGAAGGAAAGAAGGTAAGCACAAGAACTTTAATGTCAAGTGAGAACAAGATAAAATCTTTTTAGAATCACACCATTTGGAGATTTATCCAATTCCT
Celera SNP ID:            hCV27862905
SNP Position Genomic:     438278
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:35748):
CTAAGTAACAAATATATAGGAATTTATTATTCTATTATCTTTACTTTTGTGTAAGCATGTAAAAGAACTGGATTTTAGAAATTATAAACATGTATTAAAG
R
TAATTCTTATAGTTTTCTCAATAATTTGCTGCTCTGTATTATTAAAACTACTTTGTCTATAAAAGTTTGCTGAAGTGAAAAATATTGCTGTTTCTATTAC
Celera SNP ID:            hCV25998478
SNP Position Genomic:     288264
SNP Source:               Applera
Population(Allele,Count): african american(G,16)   caucasian(A,1|G,37)   total(A,1|G,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:35749):
ATTTGCTTTTCTTTAATTCCCCATTGTGTTCCAGAAAGGATTTTAGATGGGACTCAAAAAGTAACTTTTTTGCTTCCAATTCCAACATAATCATTCTCAC
R
AACTTTTGTCTCAGTTCACCAAGAGGAAAAACATTCAATATTGACAAACACCCTAAAAATTATTTAAATTGAAAGAATAGTGCAAAATAATCAAGGAAAA
Celera SNP ID:            hCV16014344
SNP Position Genomic:     448064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35750):
ATTAGATTATGCGTGATCATTATTTTCTAGGTGGTTTTCTAAAGTTCCTGAAAGGTCATTCAGAGCATTGGGAAGAAGAAATTTGGGATAGTAGTAAATT
M
AAAGCAATTTCACCAGTGCCTGTACGAAATAATTGAATGGGGAATGACCTTGGGTTGTCTGTTTGCAAGAATATAAATGTCTAATTAATTGGCCGTGTCT
Celera SNP ID:            hCV16014348
SNP Position Genomic:     441884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35751):
TTTTCTTGATTTTTTCCAAATGTTTTGAAGAAAGTTTTTGTATTATTAAATGCTATTCATTGGTCAATTTAAGTAATCTTCTTTTAAGAAATCATTCAGA
R
ATTGTAGGTCCTTGATCGTAATTCTTTTTGGGTAATTTCAATTTCAATAGGTTAAACACTGTGCTGGAAGATTTGAGAAAGATTATCATTGGTCCATTTT
Celera SNP ID:            hCV429500
SNP Position Genomic:     204362
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35752):
TTATCGTCAGGCATATGGCTGCTCCTCTGATTGGCCAATTGACAAGGCATGAAATTGAAATGACAGAGGTAAAGTTAGTCATTGTTTGGTGCAAAGATAC
Y
AATCAATGGTTTTGCATTCAGTTTTGTCATAGTGATTTCTCTTCTTGTTAACAGAAAGAATGGAAATATTATGGGGATGATCCTCGAGTCCATAGAACTG
Celera SNP ID:            hCV16014349
SNP Position Genomic:     438623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35753):
ATCTAATTTTAAACACCTTTAACTTTTTTGTTTATTTTTTGTTAGTATACTTTGTTTATTTATTTATTTCTGTTAGTAAACTTCCATCAAGAAAGTATCC
Y
ATTTCTTTTCTGCCTTTTTTAAATGAAAGCCTGCTAGTGATAAATCTCTCATCTTTTGTTTGTTTTTTCACTTTTCTTTACTTTTGAGACTTATTTTCCA
Celera SNP ID:            hCV429502
SNP Position Genomic:     195837
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35754):
AGTTGACTCAGAATCAGTTCCTTCCTTTCAGATCCTTATCTTTAATTACTTTGTCTTCTAACCTGGGGTCCTAATCTTTGCCTAGGAATTTAAAGTAAAG
R
TTGGCCGAATCTTATTTCTCTTGACTTGTATCTACCTTTACTTTAGCTCACCCTCTGGGCGTGGCCTCTAGCCAGTCTCACTTTGAGTATCTTTGAAACT
Celera SNP ID:            hCV429503
SNP Position Genomic:     152885
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35755):
AGGTTTTTTTCCTGTCTTCATATTGATGAAGTGTTTTTTCTAAAGCCATTATTTCATTTATTCTATGAAAGACAAAATTGGCATTTTAAAAGTAGAACAC
R
GTCTTTTGATACCTGTCATCTGAGATACCTAAAGGATTTTTTTTTTAAGTTAGCATCAAGGGTAAATAATAACAAATGAAGTTATTTTATGTTAGATCTT
Celera SNP ID:            hCV429504
SNP Position Genomic:     140625
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35756):
CATTTCACTTTGCAAACCGACTTACTATTCTTTGTACCTCTCTCCTTCTCTTTTTGCTCTGTCACTAATAGAGCTTTCAGCTACTAAGACACACAGGAGT
S
CTTTCTAGAGAGTAACTGAAATTAACCACATACATCATTTTGGTGGCAAACCTCACAGCCACCAGTCATTTATAGTACCAAGTCCCTGCTCTTTGGGTAA
Celera SNP ID:            hCV429505
SNP Position Genomic:     134072
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35757):
ATTTTCCAAACGATTCACACAGCATCAACTTAATCTTCTGGAAAACATTTTAGGGACCACAAATACATATTGTACCCAGGATGTAGTGTACTTACTGCAG
Y
GTGGTCTATGATTTTTCTTGGCATGCATAATTCAAAGACCCAGATAGAAATGACTGATTTTAGCACTTCTAACAATAAAACAAAAGCTCTTCTACAAGAG
Celera SNP ID:            hCV429506
SNP Position Genomic:     131726
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35758):
ACCCAGCATCTACATCAGCTGACACAAATGACCCTGTGTTTGTTGGAGGCTTCCCAGGTGAGTGTTGGCTACCCCAGCAACAATTTCTTTGCTCTCTTAT
R
TTACTGGTTTTGAAAACATTTATATTTACATGTGTCTAAGAATGTGTGCTTATGTGTACTTGCTTCCTAGCTTTAGAATCTGCTTAGAATCTGCACCTTA
Celera SNP ID:            hCV25958770
SNP Position Genomic:     637256
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,32)   total(A,1|G,69)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35759):
CCTGCAGCCTAAGCATTTAAACATTTCCTGCTACCTTGTATGGTGCTATGAGACAGCTGTCATTGAAGAAATTCTGTTGAGAATCTGAATTACTCTCCTT
Y
TGTATTATTTTAATGTTTGATATTCACATGATGGTTGTTTTAACCATTTTTTTTTACTTTAAAGAAAAAGCTATAAACTAGTTATATGATCTTTTCTTCT
Celera SNP ID:            hCV437380
SNP Position Genomic:     182453
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,4)   caucasian(C,22|T,6)   total(C,34|T,10)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35760):
CTCAAAGCAGTCATTTTACTAAATTTTTGATCTTTATTAAACATAGATGCAAAAGTAATAATAATATTTCCACAAATAAAGGGATGTTAACCAAAATTAA
Y
GTTCAAGAATCCTTTCAGTGTTTCTCTACCTCTTTAAATATTCCAGAAATGGTGATACAGTCAGGAGCAATATATTGCCAGGAACTTTGGCAGGACGAGA
Celera SNP ID:            hCV429507
SNP Position Genomic:     131494
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35761):
TGCAGTGACTCATGCCGGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGAAGATTGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGACAACATGGCGAAA
M
CCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGACACATGCCTGTAATCCAGGCTACTCAGGAGGCTGAGGTGGGAGGATCCCCTGAGCCTG
Celera SNP ID:            hCV27338960
SNP Position Genomic:     538306
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,8)   total(A,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35762):
TTGCAATTAGGATGGAAAGTGGACAAATGCCACATTCCATCCTATTTGTATGCCTAAATAATGTGCAGGGGTGATGGTCAGGATAGTTAATGACAGACAC
Y
ATACACTGTAAAGGTCATGGTTTTTATAAGTTATCACTGTGTGGGGAAGCCCCCAGCCAGTGGGCCAGATCAGCACAAGACATTTTCCTAATGGATGCCA
Celera SNP ID:            hCV437383
SNP Position Genomic:     183447
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35763):
CACTTTAACCTCCACCTCTCAGGTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGCATGCACCACCACACCCAGCTAATTTTGTA
Y
TTTTAGTAGAGACGAGGTTTCACCATGTTGGCCAGGCTGGTCTCGGACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATAAC
Celera SNP ID:            hCV27338961
SNP Position Genomic:     521288
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35764):
AGCATGAGTACAATCTCCCTCCTCCAGTGTCTAGGTTCATTTTGGTGAGGGCTGCATATATTCAAGAGCCACAGAAAGCTGGCTGGAGCAAACAAGCTGG
Y
GGATTGCACGGTAGACCTGCCTTCCACCCATATGGGCCTCCTCGGGATATGAGGAACTGGTGGCGGCAGGGGCTCAGTGCTGCAGCTTATATCACCAAAT
Celera SNP ID:            hCV437384
SNP Position Genomic:     183657
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35765):
GGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGCAGAGCTTGCAGTGAGCCAAGATTGCTCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGT
Y
TCAGAAAAAAAAAAAAAAAAAAAAAAAAATTATTTAACCTCTTGATCATCATTTCTGATTGAGTATGCTAAGAAGCACATTTTGATCTTTGCTTTTACAA
Celera SNP ID:            hCV27338962
SNP Position Genomic:     520573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35766):
AATTAGAAAAGATATTATTTTATTCCAAGTGAAACATGTATTCACACTTCACGTCTTGAAGCACCAGTGGCCATTTGGGCTGAGTTTTCAAGAAAAAAAA
W
TTATATAGATTTTATGCCCTTTTTTTAACCTAAGAGATATTAAGTAATAGCTATTCCACTATCAGACAATGTGCATAAATTCTAGTCAGATTTTTCTTTT
Celera SNP ID:            hCV27338964
SNP Position Genomic:     471524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35767):
AAACCCCATCTCTACTAAAAATACAAAAAATTAGCCTGGCGTGGTGGTATGTGCCTGTAGTACCAGCTACTCGGGAAGGTGAGGCAGGAGAATCCCTTTA
Y
TCAGGAGGCAGAGGTTGCAGTGAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGCGACAGAGCTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGAGAAAA
Celera SNP ID:            hCV27338965
SNP Position Genomic:     463409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35768):
GGGAGGCCAGGGCAGGCAGATCACGGGGTCAAGAGATGGAGACGATCCTGGCCAGCATGGTGAAACCCCGTCTTTACTGAAAATACAAAAATTAACTGGG
Y
ATGGTTACGCATGCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATGGTGCCA
Celera SNP ID:            hCV27338966
SNP Position Genomic:     462514
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35769):
AATCCCAACACTTTGGGAGGCCAGGGCAGGCAGATCACGGGGTCAAGAGATGGAGACGATCCTGGCCAGCATGGTGAAACCCCGTCTTTACTGAAAATAC
R
AAAATTAACTGGGCATGGTTACGCATGCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAG
Celera SNP ID:            hCV27338967
SNP Position Genomic:     462500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35770):
ATGTTGTTAAATGAAGAAATGTTTAAAATAATTTTTTTTCAAAAACAAATGCATACATTTACAATAAAAGAAAAAGATAATAACTGATTAAAATGTCTCC
W
AAATATAAATTTAGCAGAAAGTCAACGTTCATTCAAGCCCTACATATCTTACAGTACTATTGTATGAAGCAGGGTTTTGTCCCGAGACTATTTTTTCCTC
Celera SNP ID:            hCV194559
SNP Position Genomic:     417581
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,4)      total(A,4|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35771):
CAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGTAGGCGGAGGTTGTAGTGAGCCAAGATTATGCCACTACACTCCAGCCTGGGTGACAGAGTGAGAC
W
CTGTCTCAAATAAATAAATAAATAAATAAATAAATAAAAAGAAAAAAGAAAAGAAAAGAATAGGAAGAGCAAATATATTAAGTGGAAGTGGATCATTGTA
Celera SNP ID:            hCV27338968
SNP Position Genomic:     442765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35772):
GATAGATAGATAGATAGATAGATAGATAGATAATAGATTAGATGATAGACAGAAAGAATAAGAGATTTATTATGAAGAATTGGCTTACGTGATTATGGAG
S
CTGCAAAGTCCCAGTATCTGTGAGCTGCAGATCCATGATATAGTTCACTTTGAGTCCAAAGGCCAGAGAATCACGGGAGCTGATGGTACAAACCACAGTT
Celera SNP ID:            hCV11828694
SNP Position Genomic:     533460
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,8)   total(G,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35773):
ATGGTTTTGCATTCAGTTTTGTCATAGTGATTTCTCTTCTTGTTAACAGAAAGAATGGAAATATTATGGGGATGATCCTCGAGTCCATAGAACTGTGACC
Y
GAGAAGACTTCTTGGATATACTATATGATATTCATTACATTCTTATCAAAGCTACTTATGGAAATTTCATGCGACAAAGCAGGTAAACTCTAATAGAAAA
Celera SNP ID:            hCV27338969
SNP Position Genomic:     438729
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35774):
ACCATTTCAGTTGACAGGTCTAATTTTAAGTTCCACCTTTTCATAATTGATTATTCATTTGTACACAAGTATTTGTTGAGTACCAGAAATAGCATTTAGT
Y
ATTTCAAGCTTTAGTTTTTCATCATCCTATTCTCCAGATTTCAGCAGCATCAGAAGCCATATAAACACTGCCTTCGGATGGCCCTTAGATGGCCACCAAG
Celera SNP ID:            hCV11832571
SNP Position Genomic:     137255
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35775):
CCCATGGCCAGTCAAGTTGACACATACAATTTACAATGACACTGGCCTTCAACTCCAGTGCACAATGTGGTCTTCCTCTTTATTCTCCAAATTCAAGTTC
T
CTTACTTGCTACAGTTGTCCATATTTCTTGGGAACCATCATTCTAAAAAATGTTGACCAGGCCTTTCTTAGGCATTTCTAGGAAAAATAATATAAAATAC
Celera SNP ID:            hCV11828697
SNP Position Genomic:     533871
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35776):
TAACTGTAGATACATTATAGATTGAAAAATAAAAATGGATATATTGGAGGATATGCGCAATTTTATTCAAACACATTTGAATACTTAGGTGAAGTAAACA
R
TAAGTTTAGAGCAAAATTTACTCAAAAAGAAATAGTACACCTGAGAACTATAACCGTTAAATAAATTGCATCAGTAGTTAATACAACAAAATAACAATAT
Celera SNP ID:            hCV11828699
SNP Position Genomic:     536778
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35777):
AAGGCAGTTAGAGAAGGAAAATCAAGGATAGATTCTAGATTTTTGTCTTGAGCAACTGCATGGATGGTGATGTCATTGAATGTGATGGAATAGATCGGGA
R
GGGTGCAAGATTTTTCATGGAGGGAAGGCCAGAGAAGAAACAGTTCTGCTATAGCCATACTGAATTTTAGGCACCTTTTAGACATCTAAATAGAACTATT
Celera SNP ID:            hCV11832574
SNP Position Genomic:     136916
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35778):
AGGCAGTAATTTTTAATTCTCCCTCTCTTCCCACCCTTCCTTTTCTTCCCTATCTCCTTTATTTTCTTCCTTCTTCTTTATTAGTTTTTAAATATGCATA
T
CTCTTTTTATAGGAGAAAGGATGGATAATGATTGCAGCATTCTCTGACCACTCTAATATCTCACCCTAGAAATTTTAATAAATGATTTACTAACATTCTC
Celera SNP ID:            hCV11832577
SNP Position Genomic:     128123
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35779):
ATAACTTTTAAATTTAGCATGTCAATTCTTTACCAAAAAGCCTGCTAGGATTTGGCTGAAATTATATTGAATTGATAGATCAATTTGGGAAGAATTGACA
K
CTTAAAAGTATTAGATATCCCAGTGTATGAACATGGCATAACTCTGCATTTTTTTAGGTTGTTATAATTTTTTCTCAGAAATGTTTGTAGTTTTTGATGT
Celera SNP ID:            hCV16014354
SNP Position Genomic:     425693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35780):
CATGTATCAGCAGTTTGTTCTAAAAATTGCTTAATAATATTCCATTTGTGTAATGTACAGTGACTTGCTTACCTGTTTACCATTTAATGGGTGTTTGGGT
M
ATTTCTAGTTTGGGGTTACAATTTTGCTGTGAACATTAGCATACAAGTCAAAAGCATATTTATGGACAAATGTTTTCTCTTTTTTTTCTTAAGAACACTC
Celera SNP ID:            hCV16014355
SNP Position Genomic:     424709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35781):
TGTGAGCAGTCTACCTAATGGAAGTTTCAGTAGAGAAGTTAATCAAGATATTTTTAAAGATGCATTATTTTGCTAAAACAAAATATTCAATTAAAATACA
R
CATGTTGTTCTCAGTCCCTGAACATACCGATTGCCCTGCTTTCAGTATGGCAAGCAACTTCAGATTCCTCCATGAGGGTGGACAGATTTGCTCTAGCGCT
Celera SNP ID:            hCV194560
SNP Position Genomic:     415157
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35782):
GACCTCCTTGAGACACAGTTTTCTAGTCTACAAAGAGAGTCATGAATTTTCTGTGGGGACTAAAGGATTTGGCACATAGAGGGTATCCAGTGAGTTCCCA
R
GTCCTGGAGATGCTCACACATGGTAGCTGTCTTTGGTAGCAGTGCTCATAGTAGCTGTGCATATCAGTTGTTCACCAGTGAATTCTAAGGCTAAGTTAGT
Celera SNP ID:            hCV194561
SNP Position Genomic:     412063
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35783):
TGCACTCTGGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGTACAATACCTTTAGTCTTATATCTATTTAAAAATAA
R
GCATTTTTAAAAGATCCATGAACTCCTAACAATGAGGTTAACTACATGTGCCATTTGAGATGTGAGTCTAATACTCAGTGTTCTTCTGTTTTGTTTTAAA
Celera SNP ID:            hCV27338970
SNP Position Genomic:     437097
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35784):
CACTGCACTCTGGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGTACAATACCTTTAGTCTTATATCTATTTAAAAA
K
AAAGCATTTTTAAAAGATCCATGAACTCCTAACAATGAGGTTAACTACATGTGCCATTTGAGATGTGAGTCTAATACTCAGTGTTCTTCTGTTTTGTTTT
Celera SNP ID:            hCV27338971
SNP Position Genomic:     437094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35785):
AAATTAGCTGGGCGCGGTGGCGGGCGCCTGTAGTCCCATCTACTCGGAAGGCTGAGGCCGGAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGTGAGC
M
GAGATAGCGCCACTGCACTCTGGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGTACAATACCTTTAGTCTTATATC
Celera SNP ID:            hCV27338972
SNP Position Genomic:     436983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35786):
GGACTACAGGCGTCCGCCACCACGCCCGGCTAATTTTTTGTGTTTTTAATAGAGACAGGGTTTCACCATGTTAGCCAGGACGGTCTCAATCTCCTGACCT
Y
GTGATCCGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCTAATGAAGAACCAGAACTCAGCTTGGAAGTGTGGTG
Celera SNP ID:            hCV27338973
SNP Position Genomic:     433993
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35787):
CTCCCAACTAAAGGCACACCTGGGATTCTTTCTGGGCCACTGGGCTCCCGTGCTAAATAATACAAAAATAATGATGAAGATTCTTTTTTTTTTTTTAGAC
R
GAGCCTTGCTCTGTCGCCTAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTGCACCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCA
Celera SNP ID:            hCV27338974
SNP Position Genomic:     433782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35788):
GATAACTTGCATGAAAAGAACATTCCTTCTTTTGCTTACTTTGAGTTTAATTTTCTCTTGTGTTCCAAGTTTTTTTGTTTTTTGTTTTTTGTTTTTGAGA
Y
GGAGTCTTGCTCTGACCCCCAGGCTCGAGTGCAGTGGCAGATCTTGGCTCACTGCCAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCC
Celera SNP ID:            hCV27338975
SNP Position Genomic:     426924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35789):
TCAAATTTTTACTATTTTTCCCCTTCTTTGTTTTCCCTCTTATACCGGTGAAGCTTGTGAATGTTCTCATCTGGGTAATAATTGTGACCCAAAGACTGGG
Y
GATGCATTTGCCCTCCCAATACCATTGGAGAGAAATGTTCTAAATGTGCACCCAATACCTGGGGCCACAGCATTACCACTGGTTGTAAGGTGAGTGAACC
Celera SNP ID:            hCV27338976
SNP Position Genomic:     423420
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:35790):
CAGGCTGGGACCTTTGGCCTACAATCAGCAAGGGGCTGTGTTCCCTGCAACTGCAATTCTTTTGGGTCTAAGTCATTCGACTGTGAAGAGAGTGGACAAT
R
TTGGTGCCAACCTGGAGTCACAGGGAAGAAATGTGACCGCTGTGCCCACGGCTATTTCAACTTCCAAGAAGGAGGCTGCACAGGTCTGTAAATATGACTT
Celera SNP ID:            hCV27338977
SNP Position Genomic:     420419
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:35791):
AAAGTGTCAAGGCCAGGTGCAATGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCC
Y
GGCCAATATGGTGAGACCCCATTTCTACTAAAAATACAAAAATGGGCCAGGCCTGGTAGCACCTGCCTGCAATCCCAGCTACTCAGGAGGCTGAGACACT
Celera SNP ID:            hCV27338978
SNP Position Genomic:     400794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35792):
GCTCCTTATGAGAGTCTAACTGATGCCTGATGATCTGACGTGGAACAGTTTTATCCCAAACTCCTCCCCTGCGTCTGTGGAAAAATTGTCTCCAACAAAA
S
AAGTACCTGGTGCCAAAAATTTTGGGGACCACTGGTTAATGTATGTTAGTGATCAGAACATTTCCAGGGCCTAAGGCATGAGCCTGAATGGGCTCAAAAC
Celera SNP ID:            hCV27338979
SNP Position Genomic:     395745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35793):
GGTATCATCAGATCCAGGCTCTAAGTCCTTACTTGGGGACATATTGGTCATTTGGCCTGAAACAGGCCATTTAACCTTCTGAAATTCACTTGGTCTCTTC
Y
GGGAAGTGCACCTACCCCAGAAAGATTTTGTGAAATTAATTCCAGTAATGTAGTACAAGTGCTCTGAATCTCACAGCATGCTTCACAAATAAGGTGAAGA
Celera SNP ID:            hCV28002795
SNP Position Genomic:     526068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35794):
TTTGCTTGTTGTACCCCCTAAATGTCATCCTCTCTCTGCTCGTACTCACTGCTCAAGTAAGTTCTTATTTGAAAGGACAGTAAGTATGTCATAGTTTTCT
R
TAGTCTAAGCTGTGTCATGTTGTTCACATCCAGGTGTTAGGCAATCTATAAAACATCTTCTGTTCACCTTGTTTGCACCTTCTACTCATTTGTTTTGTTA
Celera SNP ID:            hCV28002796
SNP Position Genomic:     480716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35795):
ACAAAAGTCCAGCTCTTTGGCCCCTAAGTGGAACAAGTTTTGAGATCTTATTTTATGCTCCAGAGCACTCCATGGAATCAGGCTAAGACTGGGACATCAC
Y
TGAAATCATACCCTTGATTAGAGCTTTTCTTTTCCATGTCCTGCTTCACCCACTCCTTTGCTAGATTCTCCTAGGAACACTTAAATGGTAAGCTTCTTTG
Celera SNP ID:            hCV28002797
SNP Position Genomic:     473248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35796):
CTTACCCTCAAACTGCCTGTGTTTGCATAATCATGTGGATACTACAGGATAGATTCTTTAGACTCATCTTATGTAGGAGGAATAGTGACATGAACCATCA
W
AAGAGGAGCATTAACTAAACTTTGCTTGTCTTACCCATGAAAGAACATCAGTGTGACTCCCTGCCAAATATCTGATAATGAAAAGAAATGCATTGTGATC
Celera SNP ID:            hCV28002798
SNP Position Genomic:     240848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35797):
CTGCAGCCTCAAACTCCTGAGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTATACCACCATGCCCAGCTATTTTTTTTT
K
TTTGTTTTAATAGAGACAAGATCTCAATATGTTGCACAGGCTGATCTCGAACTCCTGAGCTCAAGCAATCCTCCCACCTCAGCCTCCCAAAGTTCTGGGG
Celera SNP ID:            hCV27338981
SNP Position Genomic:     386731
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,7)      total(G,7|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35798):
AAATTAGCCAGACATGGTGGCACGTGTCAGTAATCCCAGCTACTCAGGAGGCTGAGGCAGTAGAATCACTTGAACCCGGGATGTGGAGGTTGCAGTGAGC
Y
GAGATCGCGCCATTGCACTCCAGCCTGGGTGACAGAGGGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCCTGGAATACTGATTTAG
Celera SNP ID:            hCV27338982
SNP Position Genomic:     378170
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35799):
TGAGGGTGGTTCTGTCTTTCCCAGCCCTCTGACTCAAATGTTAATCTCCTTTGGCAACACCCTCACAGACACACTCAGGTACAGTACTTTGCATACTTCA
R
TCAAGTAGACAGTCAATATTAATCACCACATTCTCCAACGCTTTCTCATACAGGTTCTATTTCTCCACTATGAACAGTGAGATTTTTTTTCTGGTATACT
Celera SNP ID:            hCV27338983
SNP Position Genomic:     363164
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35800):
GGAAACTTCTAATTAAATTGAGGGAAGATGCTAGCAGGCCAGAATTTGGGAATTAGATGATCTGGCTCCAAATTCAATACATATTGTCTATGTAATTAGC
K
GTGTCACCTAATGTACCAATAATGCCTTTTCAAGAAACACTGTGCAGTCTGTTCTGATTCCTCCATTGGCTTAATTCCTATAATAAATATAGTTTCCAAA
Celera SNP ID:            hCV11829658
SNP Position Genomic:     541374
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35801):
ATGGTGCCTACCCAGAATGAGGGTGGTTCTGTCTTTCCCAGCCCTCTGACTCAAATGTTAATCTCCTTTGGCAACACCCTCACAGACACACTCAGGTACA
R
TACTTTGCATACTTCAATCAAGTAGACAGTCAATATTAATCACCACATTCTCCAACGCTTTCTCATACAGGTTCTATTTCTCCACTATGAACAGTGAGAT
Celera SNP ID:            hCV27338984
SNP Position Genomic:     363147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,10)      total(G,10|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35802):
GTTAATTCTTACACAGGGTTTTCTGGAGGGACAGAACTAATAGGATTGATGTATATATGAAGGGGAGTTTGTTAGGAGAATTGGCTCACATGATCACAAG
R
TGAAGTCCCACAATAGGCCATCTGCAAGCTGAGTAGCAAGAAAGCCAGTTCGATTCCCAGAACCTCAAAATTAGGGAAGCCAGCGGTGCAGCCTTCAGTC
Celera SNP ID:            hCV27338985
SNP Position Genomic:     362748
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35803):
GTAATATCATTGTATATCTACTCATATCTTTTCCTATGCAAATAGTTTTTCTACAAATGGGTGATATTTATATAACTGTTTCATAACTTACTATGGGAAT
K
AACATCACATACGTATTTTAAAAAATATTCTCAAAAATATATTTTTAAAATGTATATTGAACTAGATTCTGAGAATTTACATCATTATTATAGTAAGAAC
Celera SNP ID:            hCV11829659
SNP Position Genomic:     542830
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35804):
TGCTTTGGCTGACACTTGATGGGCTGCAACCACTGTCCTGCACCCACTGTCAGACAAGCCCCAGTGAGGTGACCCTGGTACCTCAATTGGAAATGTGGAA
R
TCACCCATATTCTGTGTCGCTCATGCTGGGAGCTGTAGACTGGAGCTGTTCCTATTCGAATTATACTGGTTTCTAAAAAAGATTGTAATATATTGTTGAG
Celera SNP ID:            hCV27338986
SNP Position Genomic:     351225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35805):
GCTTCCCGGGTGAGGTGATGCCTCGCCCTGCTTTGGCTGACACTTGATGGGCTGCAACCACTGTCCTGCACCCACTGTCAGACAAGCCCCAGTGAGGTGA
M
CCTGGTACCTCAATTGGAAATGTGGAAATCACCCATATTCTGTGTCGCTCATGCTGGGAGCTGTAGACTGGAGCTGTTCCTATTCGAATTATACTGGTTT
Celera SNP ID:            hCV27338987
SNP Position Genomic:     351197
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,10)      total(A,3|C,10) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35806):
CTTCCTCCTTTAGCTCAGAGAAGTTTGATCGTCTGAAGCCTTCTTCTCTCAACTCCTCAAAGTCATTCTCCATCCAGCTTTGTTCCATTGCTGGCAAGGA
R
CTTCATTCCTTTGGAGGAGGAGAGGCGCTCTGATTTTTAGAGTTTTCAGCTTCTCTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACCTTTGGTC
Celera SNP ID:            hCV27338988
SNP Position Genomic:     350202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35807):
CTTGAGTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAGGTTAATATTATGTGTGAATGTGATCCTGTCAT
K
ATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGTTTCAGTTTCTTCCTAGCATCGATGGTCTTTACAATTTGGCATGTTTTTGCAGTGGCTGGTACTGGT
Celera SNP ID:            hCV27338989
SNP Position Genomic:     349198
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,10)   total(G,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35808):
TGCTTCTTGAGAACTACTATCAACAATAAAAAAAGCTTTGATTTTAACGTGTATATCTTAAGATTTCTTTTGATCAATACTAATGAAAATAAACCTGAAA
M
GCGAATCATTGGACAAATGTGAGATTTTTCCTTTAATTTATACATTAATTGATGTAAGATAGTATTTAGAAAGTTTCAATCCTTTCCAGTTACAATTGTA
Celera SNP ID:            hCV58517
SNP Position Genomic:     103692
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35809):
TGCACAAATACGCGTAGTCTGCTGACAGTAACCTGCCAGGTTCTAGACTTCCATATTGATTACTGTTAGCAAAATGTGTAGGTGAAATTTTTGTAGGGTA
Y
GCACGTGACCATTCACAGAAGGCAAGAGGTTCTCTTTGGAATTTAATTTTCTGTGTGAAAAATAAATCACTTTTTTGTGTGTGTGGAACATTTCTCATGG
Celera SNP ID:            hCV58518
SNP Position Genomic:     103237
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35810):
ATTTTACTCTCTATATCAATATCACACACACTAACACTTGGTGTGCATTTTAGAATATCTTGCTGGTTCCCAGTAAATATGTCAACTTTTTGCACTATAT
R
CCGCTTGAAATGTCAATACTGCACAAATACGCGTAGTCTGCTGACAGTAACCTGCCAGGTTCTAGACTTCCATATTGATTACTGTTAGCAAAATGTGTAG
Celera SNP ID:            hCV58519
SNP Position Genomic:     103117
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35811):
TATAATCACATTTTATGAATAAGTTTTATTTCACTTAACAGATTTATTTATTTTTTAAAACCACAACTTTAATTCCCAAGTAACTCTTAGAAGTTTCTCC
Y
TTTTGGATTTTCATTTTGATGTTTAGTAGGCTTAAATTCCAGTGTTTAACACAACCCCCAGCTTTTGAGTCACAGTTTATTTCATTATAGTAGACCCCTG
Celera SNP ID:            hCV224507
SNP Position Genomic:     143901
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35812):
AAAGTCAGGGGATGTGTTTAGTTCTTAATTTGCTTGACTTCTGTAGCACGTCATAATGCTGCTCAGTTATGTCCTTACAACACCGCCAGTTATCATGCAT
Y
GAGTCACTTCTGCATCTCTTAATTTCCATAGTGTTATGCTCTCCTAATTTCTCCTTTTCCTCTGTGGAATGCCAGTCACCTTGCCAGCTCCACTTTCTCT
Celera SNP ID:            hCV11829660
SNP Position Genomic:     550050
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35813):
CACACTGATGGGTCTTGAGTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAGGTTAATATTATGTGTGAAT
R
TGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGTTTCAGTTTCTTCCTAGCATCGATGGTCTTTACAATTTGGCATGTTTTTGCAGT
Celera SNP ID:            hCV27338990
SNP Position Genomic:     349185
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35814):
ACATGAGATGGGTCTCTTGAATACAGCACACTGATGGGTCTTGAGTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATTTAC
R
TTTAAGGTTAATATTATGTGTGAATGTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGTTTCAGTTTCTTCCTAGCATCGATGGTC
Celera SNP ID:            hCV27338991
SNP Position Genomic:     349159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35815):
AGACCGAGGTGGGCAGATCACCTGAGGTAAGGAGTTTGAGACCAGCATGGCCAGCGTGGTGAAACCCTGTCTCTACTAAAAACGCAAAAATTAGCTGGGC
W
TGGTGGTGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGTAGGAGAATTGCTGGAACCCAGGATACGGAGGTTACAGTGAGCTGAGATTGCGCCAC
Celera SNP ID:            hCV11829665
SNP Position Genomic:     553894
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35816):
GAGCCTGTGTGTGTCTCTGCACATGAGATGGGTCTCTTGAATACAGCACACTGATGGGTCTTGAGTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATT
R
GAGCATTTAGCCCATTTACATTTAAGGTTAATATTATGTGTGAATGTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGTTTCAGTT
Celera SNP ID:            hCV27338992
SNP Position Genomic:     349139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35817):
TATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAATGTCTGTTTTATCAGAGACTAGGTTTGCAACCCCTGCCTTTTTTTGTTTTCTATTT
S
CTTGGTAGATCTTCCTCCATCCCTTTATTTTGAGCCTGTGTGTGTCTCTGCACATGAGATGGGTCTCTTGAATACAGCACACTGATGGGTCTTGAGTCTT
Celera SNP ID:            hCV27338993
SNP Position Genomic:     349007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35818):
ATCTCCTGGATTCACTGATTTGTTGAAGGGTTTTTTGTGACTCTATCTCCTTCAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGA
R
TGTGTTTGCTCTTGCTTCTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATT
Celera SNP ID:            hCV27338994
SNP Position Genomic:     348208
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35819):
TAATTTGCATAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGATATCCCCTTTATCATTTTTTATTGCATCTATTT
S
ATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCAGTCTATCAATTTTGTTGATCTTTTCAAAAAATCATCTCCTGGATTCACTGATTTGTTGAAGG
Celera SNP ID:            hCV27338995
SNP Position Genomic:     348036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35820):
CATGAGAAAAGGCGATAATCATCTTTCATATCAAATATTAGAACAATGCAAGAGAAATATGGTGATTTTACTCTCTATATCAATATCACACACACTAACA
Y
TTGGTGTGCATTTTAGAATATCTTGCTGGTTCCCAGTAAATATGTCAACTTTTTGCACTATATACCGCTTGAAATGTCAATACTGCACAAATACGCGTAG
Celera SNP ID:            hCV58520
SNP Position Genomic:     103053
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35821):
CCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTTGTTTAGTATTGGGAGGGTGTATGTGTCCAGGAATCTATCCATTTCTTCAAGATTTTCTAGTT
W
ATTTGCATAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGATATCCCCTTTATCATTTTTTATTGCATCTATTTGA
Celera SNP ID:            hCV27338996
SNP Position Genomic:     347937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35822):
CCATTTATTAAATAGGGAATCCATTCCCCATTGCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTATTATTTCTGAGGGCTCT
W
TTCTGTTCCATTGATCTACATCTCTCTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCATGATGCC
Celera SNP ID:            hCV27338997
SNP Position Genomic:     346507
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,7)      total(A,3|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35823):
TTACCCCAATTCCTGGCAACCACCATTCATTCCACCATTCTACTCTCTGCTTCTATGAGTTCAACTTTTTAGATTCCACATGTGAGTGAGATCATACTGT
R
TTTGTTTTTCTATGTGTGGCTTATCTCACCTAGCACAATGCCCTTCAGGCTTATCCATGTCATTGCAAATAGCAGGATTTCCTTCTCTTTTATGGCTGAA
Celera SNP ID:            hCV7847848
SNP Position Genomic:     55901
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35824):
TTTTTCTTGTAAGTTTGTTTGAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGATTGCAAAAATCTTCTCCCATTCTGTAGGTTGCC
W
GTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAACTTTGGCTTTTGTTGCCCTTGCTTTTCGTGTT
Celera SNP ID:            hCV27338998
SNP Position Genomic:     346121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35825):
CGGGCATGGTGGCACATGCCTGTAATCCCAGCTACTCGTGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGACAAGAGGTTGCAGTGAGCCAAGATC
R
CACCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCCATCTCAAAAAAAAAAAATAAAAATTAAAAAAAAAGCCTGAACCTAGAAACGGACCTACAAA
Celera SNP ID:            hCV27338999
SNP Position Genomic:     343941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35826):
TGTGGATGCAGATATCTCCTTGAGATACTGATATCACCTTTTAAAATATATAGCTAGAAATGGGATTGCTGGGTCATATTGTAGTACTATTTTCATTTTT
K
GAAGAATCTCTATGCTTAATGCTGTTTTCCATAGTGGCTATGCCTATTTACATTCCCACCAAAAGTGTAGAAGGGTTTCTTTTTCTCTGTTTCCTCACCA
Celera SNP ID:            hCV7847849
SNP Position Genomic:     56283
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35827):
CAAGTAATTTATTTATGAGCATGTGTTTTACTGTTTTTAAAACTGGGATGACTTTAATTTAAATGAACAGTGATTTGAGATTTATAGCTTCCCTTTCTTT
R
TGTCATGGATAATTTCTCTGTGCTAAGGTGTGAGCATACACATCATTTGGGCTGTTATTGAAGTAGAATACGAAGCCTGCCTTCTTTCACTAGCAGGGGA
Celera SNP ID:            hCV9837778
SNP Position Genomic:     431788
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35828):
CTTTTCAGCTGTGAAAACTATTATTACTAAGTATTAAAACAAACTGAGGGCAAGGCACGGTGGCTCATGCCCGTATTCCCAGCACTGTGGGAGGCCGAGG
M
GGGTGGATCACTTCAGATCAGGAGTTCAAGACCAGCCTTGCCAACGCGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCAC
Celera SNP ID:            hCV27339000
SNP Position Genomic:     343755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35829):
GCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATTCTCAGTAAACTATCACAAGGACAAAAAACCAAACACC
R
CATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGGAGGGG
Celera SNP ID:            hCV27339001
SNP Position Genomic:     342567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35830):
TACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATTCTCAGTAAACTATCACAAGGACAAAAAA
M
CAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACTCTGGGGACTGTTGTGGGGTGGG
Celera SNP ID:            hCV27339002
SNP Position Genomic:     342558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35831):
ATAAAGACACATGCACACGTATGTTTATTGTGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAA
M
ATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATTCTCA
Celera SNP ID:            hCV27339003
SNP Position Genomic:     342433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35832):
ATCAGGAGGAGAATATAGCAACTTCGTCTTCTGGAAACAACTTTGGTCTTGACTTGAAAGCAGATGACAAAATATATTTTGGTGGCCTGCCAACGCTGAG
W
AACTTGAGGTAATTTAGTTTATATGTAAAGCTAAGGATTAAGTTTTAATTAAATGACCACTATGCTCACTAGAGTTCTGAAGTTTAATTACAATAAGAAT
Celera SNP ID:            hCV25966971
SNP Position Genomic:     595959
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,40)   total(A,77|T,1)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:35833):
TAGAATGGCAGTCATTAAAAAGTCAGGAAACAACAGATGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTT
Y
AACCATTGTGGAAGTCAGTGTGGTGATTCCTCAGGGATCTAGAACTTGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATGTACCCAAAGGACTA
Celera SNP ID:            hCV27339004
SNP Position Genomic:     342218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35834):
AGACATTTATACAGCCAAAAAACACATGAAAAAATGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCA
R
TTAGAATGGCAGTCATTAAAAAGTCAGGAAACAACAGATGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTAGT
Celera SNP ID:            hCV27339005
SNP Position Genomic:     342116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35835):
GTTTTCATGTGGCATGTTTGTTTACTAATTTACAAAATTTGTTTTACCCCCTGCAGCTGTAAATGAAAAAGCTATAAAACTAAATGAAACTCTAGGAACT
Y
GAGACGAGGCCTTTGAGAGAAATTTGGAAGGGCTTCAGAAAGAGATTGACCAGATGATTAAAGAACTGAGGAGGAAAAATCTAGAGACACAAAAGGAAAT
Celera SNP ID:            hCV7420811
SNP Position Genomic:     514191
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:35836):
GCAGTCTCCAAGAACCCAGGAAGTATGTGATCCATAGGAGTGTACATATTTTATTTTCTTTAAAAAATAAGACAGACACTTCTCAAAAGAAGACATTTAT
R
CAGCCAAAAAACACATGAAAAAATGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAATTAGAATGGC
Celera SNP ID:            hCV27339006
SNP Position Genomic:     342026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35837):
CTGGACTGGAAGTGTTTATATTCTTTTTAAAAGAATAGCAGTTTTTATTCCAGAAAAAAATATTAAATTATAGGATTGTTTTTGATATCTAGACTCTTTT
K
CTAAAGCACAGTTAATTATCTTATAATTATGCTGTATAGATTTTCCATATACTGCTCTTAAGCATTAGTGATTTCCACTTACTTCTAGGAATGTTTTCTC
Celera SNP ID:            hCV221032
SNP Position Genomic:     477802
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35838):
AATAAATAAACGTTTTCAGATTTTTTTTTCTAACTTTTGAGCAAGGTTTTTAAAAACTTTTTGGTATATAGTTTGTTTATGCTGCCTATGCAATTATCTT
S
TCTTTGGTGAAAAAAATAAAACTTATTTCATTACACATGTAAAGCATCAATAAGAAGTCAGTTAATTCCTGTACCTCATGTTTAAATGCTGTGGGTGAGA
Celera SNP ID:            hCV1819501
SNP Position Genomic:     600969
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,3)      total(G,3|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35839):
GAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCTCTGCACTCCAGCCTGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAA
W
AATAATAATAATAAGGGTAAATACAAGGAGTGTGTTTTGAATACAAAATATCTATTTTTAGAATCTCAAACCCATGAGTTACTTTCTTCCATATATAAGT
Celera SNP ID:            hCV27339007
SNP Position Genomic:     340021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35840):
ACTTGTCCCATGTGATATTAAGAAAAGGGCCAATCCTCCAGTTACAAAGCTACACCAGTTTTATAATTCTTATTTGCTTTATTCTTGCCCCACAAGGAAA
Y
GTATTTACAGGGGTTATACATGGTATTTAGTTCAGTTGCTGGACTGGAAGTGTTTATATTCTTTTTAAAAGAATAGCAGTTTTTATTCCAGAAAAAAATA
Celera SNP ID:            hCV221033
SNP Position Genomic:     477663
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35841):
AGCAAGGTTTTTAAAAACTTTTTGGTATATAGTTTGTTTATGCTGCCTATGCAATTATCTTGTCTTTGGTGAAAAAAATAAAACTTATTTCATTACACAT
R
TAAAGCATCAATAAGAAGTCAGTTAATTCCTGTACCTCATGTTTAAATGCTGTGGGTGAGATTATTGTTAAAGGGGAGAAGGACTACAAAAAGACTCCTT
Celera SNP ID:            hCV1819502
SNP Position Genomic:     601008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35842):
TCCAGCTCTTTGGCCCCTAAGTGGAACAAGTTTTGAGATCTTATTTTATGCTCCAGAGCACTCCATGGAATCAGGCTAAGACTGGGACATCACCTGAAAT
Y
ATACCCTTGATTAGAGCTTTTCTTTTCCATGTCCTGCTTCACCCACTCCTTTGCTAGATTCTCCTAGGAACACTTAAATGGTAAGCTTCTTTGTAAATAT
Celera SNP ID:            hCV221034
SNP Position Genomic:     473255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35843):
GTGAAAAAAATAAAACTTATTTCATTACACATGTAAAGCATCAATAAGAAGTCAGTTAATTCCTGTACCTCATGTTTAAATGCTGTGGGTGAGATTATTG
Y
TAAAGGGGAGAAGGACTACAAAAAGACTCCTTCTGCAGGATAACATGAACATCCATTTAGACCAACCAGTAGATAATGGAAACCAGAGTTTGCTGGGTAC
Celera SNP ID:            hCV1819503
SNP Position Genomic:     601076
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35844):
TTTAAATGCTGTGGGTGAGATTATTGTTAAAGGGGAGAAGGACTACAAAAAGACTCCTTCTGCAGGATAACATGAACATCCATTTAGACCAACCAGTAGA
Y
AATGGAAACCAGAGTTTGCTGGGTACACGTGTGCACAGTTTGATAGACATGTGCCTGCATGTGTCTGCTCCACAAGGCTTCCTTCCCATAGTCAGAGACT
Celera SNP ID:            hCV1819504
SNP Position Genomic:     601150
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35845):
CTCTTAAAATATCCATAAGCAAGAGTCAATAGTCAACAGCAAATATTAGCAAGAATTTTATAGAAACTCAATAGTGATCAGCTTGTTTTTAAAATGAAAA
Y
GTTAAATATGTCATTCTCATACATTTTTAATTATCCTATCATAATACAATTATTCATTTTGTCTGCTGCTTCTAATCAAAATTATCTTAAACCACTCCAA
Celera SNP ID:            hCV1819505
SNP Position Genomic:     602217
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35846):
TGGCAGGTCAAAGCAGGAGGATCGTTTGAGCCCAGGAGTTTGAAACTAGGCTAGGCAGCATGATAAGACCCTTTCTCTACAAAAAATGTTTAAAAATTAA
M
TGGGCATGGTCGTGCACAACTGTGATTCCAGCTATTCAGGACTGCTATTCAGCTGTTCACGCCACCACACTCTAGCCTGGATGACAGAGTGAGACTCTGT
Celera SNP ID:            hCV1819506
SNP Position Genomic:     604776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35847):
CTGGATGACAGAGTGAGACTCTGTCTCAAAACTTTTTTTAAAAAAGAGTATCAATTTTGCAAGGACATAAACTTTAGTATCTATATCCCCTGTCCATTTG
R
TTCTGTTAAAAGCAATCCCTCAACTGCCCAGATTTAAGCATCATACCTCTTATTGCCTTGGTATTCTTTAATATCTTCAATCACATTTTTTAAAACGTAA
Celera SNP ID:            hCV1819507
SNP Position Genomic:     604953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35848):
TTCGAGACCAGCCTGGCCAACATAGTGAAATCCTGTCTAATTTGTATACTAAAAATACAAAAAATTAGCCAGGCATGGTAGCAGGTGCCTATAATCCCAG
Y
TACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCCGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGCGCGACAATGTG
Celera SNP ID:            hCV1819509
SNP Position Genomic:     605567
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35849):
AAAATTCTAATAAACTTATTAACTTGCTCTTCAAACAATGGAATCAATCTGCACGTCCACTAGCACTCTTGTGAACACTTGGCATTATCATACATTTAAT
W
TTCCCCAATCTCAAAAATAAGAAATGACATCTTACTGTTGCTTAGTTTTACAGTTCTTTATGATAATCTTGAGTGCTTTTTACGAATTTCATAAATGATT
Celera SNP ID:            hCV11829679
SNP Position Genomic:     559353
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,9)   total(A,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35850):
ACCTTTTAAAATATATAGCTAGAAATGGGATTGCTGGGTCATATTGTAGTACTATTTTCATTTTTGGAAGAATCTCTATGCTTAATGCTGTTTTCCATAG
Y
GGCTATGCCTATTTACATTCCCACCAAAAGTGTAGAAGGGTTTCTTTTTCTCTGTTTCCTCACCAACATGTGTTATCTTTTGTCTTTTATATAATAGCCA
Celera SNP ID:            hCV7847859
SNP Position Genomic:     56318
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35851):
TTATGAAAATGCAATTTTGATGTCTTGTTCATAATGGTCTACAGAAAAAGAAGGAGGCTGTTGAAAGCGGCAAACGACAAATTGAGAACACTTTAAAAGA
R
GGCAATGACATACTCGATGAAGCCAACCGTCTTGCAGATGAAATCAACTCCATCATAGACGTGAGTATTGGGTAAAACTCAAAAGAGAGATGATAATGAA
Celera SNP ID:            hCV25995180
SNP Position Genomic:     523919
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,13)   caucasian(A,19|G,19)   total(A,32|G,32)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,735|A,756)   total(G,735|A,756) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:35852):
AAGGGTTTAGAATTTTAGAATTGTGCTTTGCAAAAAGGAAGCACAATATATGAATGCTAGTTCTTATTACCCCGAGAGAGACACATTTATGGGAACCTAT
M
CAGTTTCTCACTGGGTCTGGATAGCCACTCTCTCCCATATTTATTTTACCTCATTAATCTCAATTACTGACCATGAATGTCTGCTCCTTAAGTTTGTTTA
Celera SNP ID:            hCV15809815
SNP Position Genomic:     418006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35853):
TTGACTCCACAATTGGTTAGCTCATGACCTTAGGCAACTTACTTAACCTTTCTGTGCCTCAGTTTCACCACTCAATAAAAAAGTGGTGAGAATGACAACT
S
TCTGCCAGGGTTGTCCTGAGGAGTAAATGAGTACATATTTGTAAAGAGTTTAGATTTGTAAAGGGTTTAGAATTTTAGAATTGTGCTTTGCAAAAAGGAA
Celera SNP ID:            hCV15815153
SNP Position Genomic:     417845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35854):
AACAGCAAAATAAATAATTTTGCAAGAACACTCATATGTTTATACTATGTTGTTTTTCTACCTTCCAGTTTCTGGAGATGAGATATGATTTTTTTCTTCT
T
TTCAATTCCCTGCAAGGCTGTATTTCATAATCTCCTCCCCATCAACACACACCCATACACACAATGCACACCCATGTCTGTTTCTTGTTGATAGTGACAA
Celera SNP ID:            hCV27442600
SNP Position Genomic:     630609
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35855):
GAACAGCAAAATAAATAATTTTGCAAGAACACTCATATGTTTATACTATGTTGTTTTTCTACCTTCCAGTTTCTGGAGATGAGATATGATTTTTTTCTTC
T
TTTCAATTCCCTGCAAGGCTGTATTTCATAATCTCCTCCCCATCAACACACACCCATACACACAATGCACACCCATGTCTGTTTCTTGTTGATAGTGACA
Celera SNP ID:            hCV27442601
SNP Position Genomic:     630608
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35856):
AGAACAGCAAAATAAATAATTTTGCAAGAACACTCATATGTTTATACTATGTTGTTTTTCTACCTTCCAGTTTCTGGAGATGAGATATGATTTTTTTCTT
C
TTTTCAATTCCCTGCAAGGCTGTATTTCATAATCTCCTCCCCATCAACACACACCCATACACACAATGCACACCCATGTCTGTTTCTTGTTGATAGTGAC
Celera SNP ID:            hCV27442602
SNP Position Genomic:     630607
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35857):
CTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAGCTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCGAGGAGTATCTTTGTGGC
R
TTCTCTGTATTTCCTGAATCTGAACGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATT
Celera SNP ID:            hCV27339012
SNP Position Genomic:     294510
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35858):
AAGAACAGCAAAATAAATAATTTTGCAAGAACACTCATATGTTTATACTATGTTGTTTTTCTACCTTCCAGTTTCTGGAGATGAGATATGATTTTTTTCT
T
CTTTTCAATTCCCTGCAAGGCTGTATTTCATAATCTCCTCCCCATCAACACACACCCATACACACAATGCACACCCATGTCTGTTTCTTGTTGATAGTGA
Celera SNP ID:            hCV27442603
SNP Position Genomic:     630606
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35859):
GGCCAGAACTTCCAACACTATGTTGAATAGGAGCGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTC
W
GTATGATACTGGCTGTGGGTTTGTCATAGATAGCTCTTAATATTTTGAATTACGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTG
Celera SNP ID:            hCV27339013
SNP Position Genomic:     292099
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35860):
ACCAGCACTTCTCAGTCCTTTTCCAACTGCCAGTTTAATAAAGGAAGGTGATAGAAGTTTTATTAAAACAGTATCCATCCTGTTGCAAATCAATGATTGA
T
AGTAAACATCACCTTGGATGTCCTTAAAAACAAAGGACTATACACCATAATGGCTTTAAACTTTGAGGTTACATGTTAGAGTGATCAGTTTGGTACAACT
Celera SNP ID:            hCV27442604
SNP Position Genomic:     622941
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35861):
AATGTTTGTAACAAAAGCAGCTGGAGAAGATGATCATAGCAATTATGCAGACAGCCATAGAAATGAGCAAAACCAGCCATCGAATGCTGCCATCAAAAAA
Y
GGACCTATGACAACAGGGGGCATGTGGGTTGCAAATACTGGTTACATAAATTGGTCCGACAACATTCTATTGTCCGGCGTAGCTGGGCTTTTGGAGAATC
Celera SNP ID:            hCV27339014
SNP Position Genomic:     281509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:35862):
CACCAGCACTTCTCAGTCCTTTTCCAACTGCCAGTTTAATAAAGGAAGGTGATAGAAGTTTTATTAAAACAGTATCCATCCTGTTGCAAATCAATGATTG
A
TAGTAAACATCACCTTGGATGTCCTTAAAAACAAAGGACTATACACCATAATGGCTTTAAACTTTGAGGTTACATGTTAGAGTGATCAGTTTGGTACAAC
Celera SNP ID:            hCV27442605
SNP Position Genomic:     622940
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35863):
CCAGCACTTCTGGAGCCAGGTAGCGTTTGGTGCCCACCCTGGTATTCAAGGGCACATCAACTTCATTTGTGTCACTGTTGAATTTAACAGCAAGGCCCAG
R
TCAGCAATGCAGCAACTCCCATTTTTCTTGATGAGGATGTTTTTGCTCTTTAGGTCTCGATGAGCAATTGCGGGCTTTCCTTGGGTGCCATACGTTTCTG
Celera SNP ID:            hCV27339015
SNP Position Genomic:     280804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;INTRON;TFBS


Context             (SEQ ID NO:35864):
ACACCAGCACTTCTCAGTCCTTTTCCAACTGCCAGTTTAATAAAGGAAGGTGATAGAAGTTTTATTAAAACAGTATCCATCCTGTTGCAAATCAATGATT
G
ATAGTAAACATCACCTTGGATGTCCTTAAAAACAAAGGACTATACACCATAATGGCTTTAAACTTTGAGGTTACATGTTAGAGTGATCAGTTTGGTACAA
Celera SNP ID:            hCV27442606
SNP Position Genomic:     622939
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,10)   total(G,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35865):
CTGTGACAGATGCCGGCCTGGCAAATTCGGACTCGATGCCAAGAATCCACTTGGCTGCAGCAGCTGCTATTGCTTCGGCACTACTACCCAGTGCTCTGAA
R
CAAAAGGACTGATCCGGACGTGGGTGAGTAGGGAACTGCTGAGCCATGTAATGGTATAATGTTAGTTCCTGCTGGTGTCTTTTAGTCAGGCACTGAGGGG
Celera SNP ID:            hCV25968588
SNP Position Genomic:     437415
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,39)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:35866):
CACCTCCCGGGTTCATGCCATTCTCCCACCTCAGCCTCCTGAGTAGCTAGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTA
R
AGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCGGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCC
Celera SNP ID:            hCV27339016
SNP Position Genomic:     255174
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35867):
TACACCAGCACTTCTCAGTCCTTTTCCAACTGCCAGTTTAATAAAGGAAGGTGATAGAAGTTTTATTAAAACAGTATCCATCCTGTTGCAAATCAATGAT
T
GATAGTAAACATCACCTTGGATGTCCTTAAAAACAAAGGACTATACACCATAATGGCTTTAAACTTTGAGGTTACATGTTAGAGTGATCAGTTTGGTACA
Celera SNP ID:            hCV27442607
SNP Position Genomic:     622938
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35868):
AAATCTTAAACCCACATTCCAAACAAATAAGAAATAGGGTATAAGTAATCAGGTAATTATGAAACTCTAAGAATCAGCCATTGAAACTGTAAAAAAAAAA
A
TAAAGCTGACCTATTACAATACTAAAGTAATACAAAGTTTAATGTACCTTTTTGCACATAGCAGGCCTCAGTAAAAAGCTGTTAAATAAATACTTTTTAA
Celera SNP ID:            hCV27442608
SNP Position Genomic:     612553
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,8)   total(A,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35869):
GGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTAGTGGCGGGC
R
CCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCC
Celera SNP ID:            hCV27339017
SNP Position Genomic:     252619
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35870):
GCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCCGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGCGCGACAATGTGAGACTCCGAC
Y
CGAAAAAAAAAAAAAAAGAAAAAGAAAAAAAAGAAAATCTAAAAATAATATAATCTTGTCAATAGATAGTAAAAACATTTGGTAAAATTTAACAGTCATT
Celera SNP ID:            hCV1819511
SNP Position Genomic:     605678
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35871):
TGAGGCAGGAGAATTGCTTGAACCTGGGAGGCCGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGCGCGACAATGTGAGACTCCGACTC
S
AAAAAAAAAAAAAAAGAAAAAGAAAAAAAAGAAAATCTAAAAATAATATAATCTTGTCAATAGATAGTAAAAACATTTGGTAAAATTTAACAGTCATTCA
Celera SNP ID:            hCV27442609
SNP Position Genomic:     605680
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35872):
GGACCAGAAGGAATAGGTGAGGGTCTCAGTGCTAATGTAGGGTTAATCCAGGGCCAAGTAGACAAAAATAATAATAAAACCACAACAATAATAATAATAA
Y
AAATGATGGCTAGCATTTGTTGCACATTTATTTTATGGAGGGTGTTAATCTAAGAAATTTCCCATGTATAAATTCATATATACTAATACTTGTCGCATTT
Celera SNP ID:            hCV27339018
SNP Position Genomic:     230450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35873):
AAGGAATAAGCAAAGCAAAAAACCACAAGCTTGCTGAAGTTGGAGGACCAGAAGGAATAGGTGAGGGTCTCAGTGCTAATGTAGGGTTAATCCAGGGCCA
R
GTAGACAAAAATAATAATAAAACCACAACAATAATAATAATAATAAATGATGGCTAGCATTTGTTGCACATTTATTTTATGGAGGGTGTTAATCTAAGAA
Celera SNP ID:            hCV27339019
SNP Position Genomic:     230406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35874):
AATGTACAGTATATATAATCTACAGGGAATACAGTCCTTGTCCCCAAAAGGGGAAAAGCTCACTGCAGTTTATAATGGGATATCGAAACCATACTGGTTG
Y
TATAGTATTAGAAAGAACAGTATTGGAAAGATGTGAATCAAAGAGTGCCCTTGATCACTGCTGGTAGAAAAAGTAAATTTCTAAAGTCACTTTGGAAAAC
Celera SNP ID:            hCV1819513
SNP Position Genomic:     606869
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35875):
GTACAGACCCAGATTTTTGCACATGGGCATAATAAGACATGTACAAGAATGTTTATAGAAGTATTCTTTATAATAGCAGAGAAACTAGAAACAACCCAAG
W
GTTCATCAGCTGGAGAACAGAGAGGCAAACTGTGGCACTTTTGCATAATGGGATATCAAGGAATAAGAAAAAGGAATAAATTATAACTAAATATAACAAC
Celera SNP ID:            hCV1819514
SNP Position Genomic:     607137
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35876):
CTTTGCAGAGAACTGCTATATTAATATATCCACTTTCCAGATCATCTCACAAGCAAAAATGGTAAATGATTAGAAAGATATTTCCAGCTGTTTTCAAAAC
S
GTTTGAGAAAATAAAGTCTTAATTTCTCAGGTAAGATCTCAGAGCAGACGAACCTGTGGTTCTGCCAGGGAATCTCTAAAGCTAAGCCATAAATGAGACT
Celera SNP ID:            hCV1819515
SNP Position Genomic:     608951
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35877):
ATTGCAAGGATTATTTATATATTCTGGATACATGTTCTTTAACGTATGTTAAAGCTTGCTTTTCATATAGATTGCTTTTTACCTAGTTTCATCATCTAAT
Y
TTTATAAACACTAGCTTATTATCTTTTTCTTCTATAGTCCATACTTTTTATGTTCTACCCAAGAAAGACAAGGTCCAAAGATTTCTCTCCCATGTTTTCT
Celera SNP ID:            hCV176961
SNP Position Genomic:     425117
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35878):
AGACGAACCTGTGGTTCTGCCAGGGAATCTCTAAAGCTAAGCCATAAATGAGACTTCTGTTTAATCTTCAATAACCACTTGCTGTTGCAGGCCTATTATG
Y
AATACTCCTCAACAGGGGCCGTCTGGAAGTGCATCTCTCCACAGGGGCACGAACAATGAGGAAAATTGTGATCAGACCAGAGCCAAATCTGTTTCATGAT
Celera SNP ID:            hCV1819516
SNP Position Genomic:     609097
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,16)   caucasian(C,6|T,26)   total(C,24|T,42)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:35879):
ATAACCACTTGCTGTTGCAGGCCTATTATGCAATACTCCTCAACAGGGGCCGTCTGGAAGTGCATCTCTCCACAGGGGCACGAACAATGAGGAAAATTGT
S
ATCAGACCAGAGCCAAATCTGTTTCATGATGGAAGAGAACATTCCGTTCATGTAGAGCGAACTAGAGGGTAACAATAGCACTAAAATATTTATTATTGTA
Celera SNP ID:            hCV1819517
SNP Position Genomic:     609167
SNP Source:               Applera
Population(Allele,Count): african american(C,18|G,20)   caucasian(C,28|G,6)   total(C,46|G,26)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:35880):
GTGTTTACAAAGCTTATGCCCATTTCTATTTTGAGTTGTTTGTTTCCTTAGTAATGCATTGCAAGGATTATTTATATATTCTGGATACATGTTCTTTAAC
R
TATGTTAAAGCTTGCTTTTCATATAGATTGCTTTTTACCTAGTTTCATCATCTAATTTTTATAAACACTAGCTTATTATCTTTTTCTTCTATAGTCCATA
Celera SNP ID:            hCV176962
SNP Position Genomic:     425060
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35881):
TAACAATAGCACTAAAATATTTATTATTGTAACTCAGGTGAACTTCCTTTGCTAGCATCGGTATCTATCAGTATCTGCCTGAACCTCTGTGTGTGTGGAC
M
TACTATGCATTGCAAAAGGATACCGTAGCTTAATTCCCTCTTCTTTACTTTTCATACTTCGGGAACCTCATTTGCCTCAGCCCTTAGGAGTTCTACCCTT
Celera SNP ID:            hCV1819518
SNP Position Genomic:     609337
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,11)   caucasian(A,28|C,4)   total(A,35|C,15)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35882):
AATCATCCCTTGTGCCCCATTGCAGTGAAGTCCCCATCACCCCCCATGTGCCTACTGTTTTGCCTTCTAGCATTATAATTTTCCAATTTCTACAACTTCT
K
AAAAATAGAATCGTAGTCTGTTTTTTTGAGGGGGGGTTTGTTTGTTTCTTTGTTTGGCTTCCTTCACTTGGTGTTACGTTTTTGTAATTCATCCATATTG
Celera SNP ID:            hCV176963
SNP Position Genomic:     424505
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35883):
GCCTGAACCTCTGTGTGTGTGGACCTACTATGCATTGCAAAAGGATACCGTAGCTTAATTCCCTCTTCTTTACTTTTCATACTTCGGGAACCTCATTTGC
Y
TCAGCCCTTAGGAGTTCTACCCTTAACATTTTTATTCGTGCAGTTATCTCCACCTTTGGAAAAACCAAATGCATTTTCTGAAGCTATAAATAAGAAAAAT
Celera SNP ID:            hCV1819519
SNP Position Genomic:     609413
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35884):
AAGGATCTAGTTTGTTAAGAAACATAGGCATCATAACAAATAAATGTTCTTGAATTCAAAAAAAATTAAAGCTTGATTGTTCAGAAAGCAATTTCATCTA
Y
ATTTAGGAGATGTTTACAGGTGTTATATTTTATAATGCAGATCTGAGTTCACTTTTTGTACAAGTAGAAGAGTCACACTTTTATATTAATAGTGATAATA
Celera SNP ID:            hCV7844522
SNP Position Genomic:     75370
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35885):
GGGTTTCAGATTTAAAAATCAAGAGTAAGAAGTTTTACAATATTTACTAAAGATTACGATTAGTATACCACAAAACATCTGAACTTTAGATATTATTTAT
R
TGACCTTAAAAGTCAGACCTTTCCCTGCCAATGACTTAACTTCTGTCTTTAGTGCTATTTTGTTTGAAGGCTTATTTATCTGCTATGAAGTGATTTTTCT
Celera SNP ID:            hCV15886692
SNP Position Genomic:     243433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35886):
TATCCACTCACTTTATTGTGATATCAAAATAAGATAGCATATGTGCATATCCTTGGAGATTTTAAAGCTATCTGAAAATGTGCCATATTTAAACATACTG
W
ACATAGTTAAAAGACATGCATCTGATTAATGTAAAAACTATACCAATTTATTGTAGTCCACTTGGAAAGACAAGTAGCTTACTTAAAGATCTATTTTGTT
Celera SNP ID:            hCV15886693
SNP Position Genomic:     241346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35887):
ATGTTTAGCAGCATAAGGAATAGAAACATTTGGAGTTTTAGCTTTAGCTTATACAATGCATCCTGTTTTATAATTGTTTTCCAACAATGTTTACATAATG
K
GAGGGTCACTCTTTAACATGAGGGGCTCTGTCACTAGAATTGCAGTGTGTTAGCCCCTCATTTTCTCCAGTGTTTTTGTAAATCTTTCCATTGACAATCT
Celera SNP ID:            hCV15886697
SNP Position Genomic:     235998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35888):
ATTAGGAATGAACATGTCTATCAAGATTCATTTTAAATACAGGGAGGAGGAGAGAGGAAGATGGCAAGGTTGTGAAAGAGTGAATGAATGAATGAATGAA
W
GAATTATAGAAAGCTATATGCTTCTGCACAGCTTTGAGATTGAGATGGGGAGCTGATTTTCTCCCTTTTGCACCTTATTTACATTTCTACTTGAAATGTA
Celera SNP ID:            hCV27442610
SNP Position Genomic:     603187
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35889):
TACTTAAAAGCCTTAAAGAGATATGTAATATTATCTTATTTTTTAGCTATCTCCCAAGAAAAAGCCTCAAATAAAAAAAAATCTTTTTCAAAATAAATAA
A
CGTTTTCAGATTTTTTTTTCTAACTTTTGAGCAAGGTTTTTAAAAACTTTTTGGTATATAGTTTGTTTATGCTGCCTATGCAATTATCTTGTCTTTGGTG
Celera SNP ID:            hCV27442611
SNP Position Genomic:     600878
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35890):
TTACTTAAAAGCCTTAAAGAGATATGTAATATTATCTTATTTTTTAGCTATCTCCCAAGAAAAAGCCTCAAATAAAAAAAAATCTTTTTCAAAATAAATA
A
ACGTTTTCAGATTTTTTTTTCTAACTTTTGAGCAAGGTTTTTAAAAACTTTTTGGTATATAGTTTGTTTATGCTGCCTATGCAATTATCTTGTCTTTGGT
Celera SNP ID:            hCV27442612
SNP Position Genomic:     600877
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35891):
TTTACTTAAAAGCCTTAAAGAGATATGTAATATTATCTTATTTTTTAGCTATCTCCCAAGAAAAAGCCTCAAATAAAAAAAAATCTTTTTCAAAATAAAT
A
AACGTTTTCAGATTTTTTTTTCTAACTTTTGAGCAAGGTTTTTAAAAACTTTTTGGTATATAGTTTGTTTATGCTGCCTATGCAATTATCTTGTCTTTGG
Celera SNP ID:            hCV27442613
SNP Position Genomic:     600876
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35892):
TTTTACTTAAAAGCCTTAAAGAGATATGTAATATTATCTTATTTTTTAGCTATCTCCCAAGAAAAAGCCTCAAATAAAAAAAAATCTTTTTCAAAATAAA
T
AAACGTTTTCAGATTTTTTTTTCTAACTTTTGAGCAAGGTTTTTAAAAACTTTTTGGTATATAGTTTGTTTATGCTGCCTATGCAATTATCTTGTCTTTG
Celera SNP ID:            hCV27442614
SNP Position Genomic:     600875
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35893):
TTTTATTAATCATTCTTGGGTGTTTCTCACAGAGGGGGATTTGGCAGGGTCACAGGACAATAGTGGAGGGAAGGTCAGCAGATAAACATGTGAACAAAGG
Y
CTCTGGTTTTCCTAGGCAGAGGACCCTGCGGCCTTCCGCAGTGTTTGTGTCCCTGGGTACTTGAGATCAGGGAGTGGTGATGACTCTTAACGAGCATGCT
Celera SNP ID:            hCV27339023
SNP Position Genomic:     210835
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35894):
AACTGGGACTCCAGGCACACACCAACATGCCCAGCTACTTTTTTTGGAGGGGAGGGCAAAGACAGGGTCTCACTCTGTTGCCTCAGGCTGGTCTTGTCTT
G
AACTCGTGGCCTCAAGCGATCCTCCCTCTTCGGCCTCCCAAAATGCAGGGATTACAGGAATGAGCCACTACACTCGGCCAGTAAACCTAATTTTTAAACA
Celera SNP ID:            hCV27442615
SNP Position Genomic:     600627
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35895):
TAACTGGGACTCCAGGCACACACCAACATGCCCAGCTACTTTTTTTGGAGGGGAGGGCAAAGACAGGGTCTCACTCTGTTGCCTCAGGCTGGTCTTGTCT
T
GAACTCGTGGCCTCAAGCGATCCTCCCTCTTCGGCCTCCCAAAATGCAGGGATTACAGGAATGAGCCACTACACTCGGCCAGTAAACCTAATTTTTAAAC
Celera SNP ID:            hCV27442616
SNP Position Genomic:     600626
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35896):
CAAATCATAGCTCTGCTACTTGCTAGCTGTAATCAGGGGCGAGTTACTTAACACCTCTCTGCCTTCTTAATAAAATAGAGATAATAGTGGTATGAAGCTC
R
TGTGGATGTTTTGTGTAGCAAATCATTGTAGGAACAGTGTCTGACAATAGTGCTTGGCACATTGCAAACATTCAACGATGCTGGCTATTATGATTATAAT
Celera SNP ID:            hCV27339025
SNP Position Genomic:     170889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35897):
GTAACTGGGACTCCAGGCACACACCAACATGCCCAGCTACTTTTTTTGGAGGGGAGGGCAAAGACAGGGTCTCACTCTGTTGCCTCAGGCTGGTCTTGTC
T
TGAACTCGTGGCCTCAAGCGATCCTCCCTCTTCGGCCTCCCAAAATGCAGGGATTACAGGAATGAGCCACTACACTCGGCCAGTAAACCTAATTTTTAAA
Celera SNP ID:            hCV27442617
SNP Position Genomic:     600625
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35898):
TAGCTTAATTCCCTCTTCTTTACTTTTCATACTTCGGGAACCTCATTTGCCTCAGCCCTTAGGAGTTCTACCCTTAACATTTTTATTCGTGCAGTTATCT
M
CACCTTTGGAAAAACCAAATGCATTTTCTGAAGCTATAAATAAGAAAAATCCCTCCCTCTGCCCCTCTTAAATATTACCTCCTCAAATAAGGTATGCACA
Celera SNP ID:            hCV1819520
SNP Position Genomic:     609463
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35899):
AGTAACTGGGACTCCAGGCACACACCAACATGCCCAGCTACTTTTTTTGGAGGGGAGGGCAAAGACAGGGTCTCACTCTGTTGCCTCAGGCTGGTCTTGT
C
TTGAACTCGTGGCCTCAAGCGATCCTCCCTCTTCGGCCTCCCAAAATGCAGGGATTACAGGAATGAGCCACTACACTCGGCCAGTAAACCTAATTTTTAA
Celera SNP ID:            hCV27442618
SNP Position Genomic:     600624
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,5)   total(C,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35900):
AAGTAACTGGGACTCCAGGCACACACCAACATGCCCAGCTACTTTTTTTGGAGGGGAGGGCAAAGACAGGGTCTCACTCTGTTGCCTCAGGCTGGTCTTG
T
CTTGAACTCGTGGCCTCAAGCGATCCTCCCTCTTCGGCCTCCCAAAATGCAGGGATTACAGGAATGAGCCACTACACTCGGCCAGTAAACCTAATTTTTA
Celera SNP ID:            hCV27442619
SNP Position Genomic:     600623
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35901):
TTGCAACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGC
R
AAGGACATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAAACACATGAAGAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCA
Celera SNP ID:            hCV27339028
SNP Position Genomic:     126394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35902):
AATATCGTGAAAATGGCCATACTGCCCAAGGTAATTTACAGATTCAATGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTA
S
TTTAAAGTTCATATGGAACCAAAAAAGAGCCTGCATTGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTACCTGACTTCAAACTA
Celera SNP ID:            hCV27339029
SNP Position Genomic:     125706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35903):
ATGATAACAGTTTCCATTTATCTTCTATGTCAAATCAAACAAGTAATTTGTCTTTTACTTTTCTGATTTTATTCATCTGAAATGTGGCTAGTAGTCTTTA
Y
TGTATCCTTTGCCATGGAGTTTGTTAGTCATTGTTTGTAATAGAACTGTTTTCCATTCATCTATTCATTTATTATTTAAGTATTTAGTCAGTTACTTTTG
Celera SNP ID:            hCV27521867
SNP Position Genomic:     380710
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35904):
AGGAAATAACCTCTACATAATAATTTTTTAATCCTTTAATTTTTTTGTGGGTACACAGTGGGTGTATATATTTATGGGTGACCTGAGATATTTTGATGTA
R
GCATGCAATGCATAATAATCATATCAGGGTAAATGGGGTATCCATCACCTCAAACATGTATCCTTTATGTTTCAAACAATCTGATTATACTCTTTTAGTT
Celera SNP ID:            hCV1819529
SNP Position Genomic:     630911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35905):
TTATTTGATACAGGCTCGAATTGCAAAATTGGACACATATTTGTAGGTCATTTTTATCTTCATGCTTGCTCTGATAACTTATTTAGGAAAGAGTGTAAGA
K
GTGGTCTCATGGTTTGCACTTCTTCATCAGATTACATAACCAGATAGTAGAAAAGGATATTTTAGTGTATTACTGGCATTCATTTGATTACGAGGGAAAT
Celera SNP ID:            hCV27484864
SNP Position Genomic:     296567
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,177|T,938)   total(G,177|T,938) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35906):
ATGACTCTCTAGTTTAGTAGATTGGGTGGGGGGGTCATAAGACCAACAAAAAAAAGTAAGTTAAGTAATACAGATTTGGGAGTTAGATGATAATTATTTT
S
ATTTGGAATGTTTAGCTTAAAGTACGCAAGGAAAATATAGATGATGGTGTCTCACCTGTTGAATGTGGACTTTTAGGCAAAAATCAGGTCCAAGCATACA
Celera SNP ID:            hCV27442621
SNP Position Genomic:     592911
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35907):
AAAATCACAAACATTCTTATACACCAACAACAGACAAACAGAGAGCCAAATCATGGGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTA
R
GAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAATAAAAGAGGAGACAAATAAATGGAAGAACATTCC
Celera SNP ID:            hCV27339030
SNP Position Genomic:     125483
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35908):
CACTGTGTGGGTGATGGGTCCACTAGAAGCCCAAACTTCACTCTTATGCAATATATCCATGAAACAAACCTTCATATGCACCACCTGGATCTAAAATTGT
R
AAATAATAAAAATAAAAATAAAGACATTCGGAACACTAAGCTGAATTGGCTAATGCTATAAACTCTAAAGATAGTAATATGCTTGGTAGATGTACGGTAT
Celera SNP ID:            hCV27442622
SNP Position Genomic:     590128
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35909):
AAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAACATTCTTATACACCAACAACAGACAAACAGAGAGCCAAATCATGGGTGAACTCCCATTCA
Y
AATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAATAAAA
Celera SNP ID:            hCV27339031
SNP Position Genomic:     125454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35910):
GTCAGCCCCAACCCTATTTTCCCATAAGCCCTGTTATTTGTAAGAATAATTTTTATAGAACTCCTGGTGTTTGTTTGTTTGTTTGTTTGTTTATTTGTTG
Y
TTTCAGGAAAACACTTATCACATTTGAACATAAAGAGCAATCATTCCTACTAAAGAGCAGGAGTGATTTCATGGAGAAGATGTAAAAGTGAGGCTAAAAG
Celera SNP ID:            hCV27442623
SNP Position Genomic:     585389
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35911):
GGCCAGGGCAATCAGGCAGGAGAAGGAAATAAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGACGACATGATTGTTTATCTA
R
AAAACCCCATCGTCTCAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAACATTCTT
Celera SNP ID:            hCV27339032
SNP Position Genomic:     125300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35912):
AAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAGGGAT
R
CCCTCTCTCACCGCTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATCAGGCAGGAGAAGGAAATAAAGGGTATTCAATTAGGAAAAGAGGAA
Celera SNP ID:            hCV27339033
SNP Position Genomic:     125157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35913):
GCACCATGAAAGATTTAATTAAATGTAGGCCTTTAGTCTAAGGGTTTTTCAACATCAAAATGTTCTTCAAAAGACATTTTGATAGCTTCTCTCTTTAAGA
Y
GTGCAAAAAAAGACGGTGAGAAAAAGAAAGAAAACCAATTTTGTGTAAAAACCCTGATTTAAATACAGTTCTGGCTTGGACAGACTAGGTGACATTTTAA
Celera SNP ID:            hCV27442624
SNP Position Genomic:     567841
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35914):
CAGCCTGGGTGGCAGATTGAGATGCTGTCTCAAAAAAAAAAAAGGGGGTTATCTTGGTATCCTTGTTACATGGTTTCACCAAAGGAGATGCTTGGGTAAT
Y
TGTGCTTTTCACTTTCAAGAGACTAGCCCTCTTTATATGCCAACATTTTTGGGGGGGTATCAAAATATTTGGAGTATAAAAACAAAAGCACTGTAATTGG
Celera SNP ID:            hCV27442625
SNP Position Genomic:     564688
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35915):
TGTTAAGTGTATGTAATCCTCATACCAATTGGAGCAAAAACATTTGCTTCATTTGCTTGCATCAATTGGTCATATATATATATATATATATATATATCTA
W
CTCAATTGGTTATATAGATAACATAAGTATAGATAACATAGGTAACATTCAGAATAGTCACTTCACTACTTTAAGAGCTAATTAGGTATTCATACAGATA
Celera SNP ID:            hCV27442626
SNP Position Genomic:     562489
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,8)   total(A,2|-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35916):
TTATGTTAAGTGTATGTAATCCTCATACCAATTGGAGCAAAAACATTTGCTTCATTTGCTTGCATCAATTGGTCATATATATATATATATATATATATAT
M
TATCTCAATTGGTTATATAGATAACATAAGTATAGATAACATAGGTAACATTCAGAATAGTCACTTCACTACTTTAAGAGCTAATTAGGTATTCATACAG
Celera SNP ID:            hCV27442627
SNP Position Genomic:     562486
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35917):
AGAATCTCTGGGACGCATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCTACAAGAGAAAGCAGGAAAGATCCAAAATTGACACCCTAAC
W
TCACAATTAAAAGAACTAGAAAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAACTAAAATCAGAGCAGAACTGAAGGAAATAGAGA
Celera SNP ID:            hCV27339036
SNP Position Genomic:     124129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35918):
CTTATGTTAAGTGTATGTAATCCTCATACCAATTGGAGCAAAAACATTTGCTTCATTTGCTTGCATCAATTGGTCATATATATATATATATATATATATA
T
CTATCTCAATTGGTTATATAGATAACATAAGTATAGATAACATAGGTAACATTCAGAATAGTCACTTCACTACTTTAAGAGCTAATTAGGTATTCATACA
Celera SNP ID:            hCV27442628
SNP Position Genomic:     562485
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35919):
CATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAACGAGAACAAAGACAC
S
ACATACCAGAATCTCTGGGACGCATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCTACAAGAGAAAGCAGGAAAGATCCAAAATTGACA
Celera SNP ID:            hCV27339037
SNP Position Genomic:     124021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35920):
ATGTATCCTTTATGTTTCAAACAATCTGATTATACTCTTTTAGTTATTTTTAAATGTACAATTATTTTTTTTTTTTTACTGTAGTTACCCTTGTGCTAGC
R
AATACTAAATCTTATTCAAACTATTTTTGTATCATTAACCATCCCTACTCCTCCCTGCCACTAACCTTCCCAACCTCTGGTAACTATCCTTCTACTTTCT
Celera SNP ID:            hCV1819531
SNP Position Genomic:     631067
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35921):
ACTTATGTTAAGTGTATGTAATCCTCATACCAATTGGAGCAAAAACATTTGCTTCATTTGCTTGCATCAATTGGTCATATATATATATATATATATATAT
A
TCTATCTCAATTGGTTATATAGATAACATAAGTATAGATAACATAGGTAACATTCAGAATAGTCACTTCACTACTTTAAGAGCTAATTAGGTATTCATAC
Celera SNP ID:            hCV27442629
SNP Position Genomic:     562484
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35922):
CAACAGAATATACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATAGTTGGAAGTAAAGCTCTCCTCAGCAAATGTAAAAGAACAGA
R
ATTATAACAAACTATCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAATCTCACTCAAAGCCGCTCAACTACATGGAAACTGAACAACC
Celera SNP ID:            hCV27339038
SNP Position Genomic:     123838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35923):
CATATCCAGTATGTATATGTACCACACTTTCTTTATCCGTTCATCTGCTGATGGACACTTAGGTGGCTTCCAAATCTATTGTAACTAGTGCTGCAATAAA
Y
GTGGGAGTGCAGATATCTCTTCAATATTCTTTTGGGTATATATCTAAGAGTGGAATTGATGGATCATATGGTAGCTCTATTTTTGGTGTTTTGAGGAACC
Celera SNP ID:            hCV1819532
SNP Position Genomic:     631434
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35924):
GAGAATGAAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATCTAGCAAGGCAGGCCAACGTTCAGATTCAGGAAATACAGA
K
AACGCCACAAAGATACTCCTCGAGAAGAGCAACTCCAAGACACATAATTGTCAGATTCACCAAAGTTGAAATGAAGGAAAAAATGTTAAGGGCAGCCAGA
Celera SNP ID:            hCV27339039
SNP Position Genomic:     122700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35925):
ATGATCAGTGATGTTGAGCCCCTTTTGATATACCTGTTTTTCATCTGAATATCTTCTTTTGAGAAATGTCTATCCAAATCTTGTACCCATTTTTAAATAG
K
ATTATTAGATTTTTTTCCTATAGAATTGTTTGAATTCCTTTTATATTCTGGTTATTAATCCCTTCTCAGATGGGTAGTTTGCAAATATTTTATCCCATTC
Celera SNP ID:            hCV1819533
SNP Position Genomic:     631808
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35926):
GGGATCTCCTGTATTCCATGCATGCTCTTCCTTGCCTTCATTGTGGAATAGTAGACTGATTTCACCTTGATATTCTGGGTCAATTACCCAGCCAACACTG
M
AACCCCCTTCTTAGCCTGTTGACTTGGAGGTAGGAGGGCCCCAATTGGCCAGGTGGTAATCTTAACTTCCAGTTTAATGGAATCATTGTTGTATCCCTTG
Celera SNP ID:            hCV127379
SNP Position Genomic:     530582
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35927):
AATGTGAGTTATACCACCTTTTGCATCTTGTAGTGACACCATACAGTGTAGCCTCCAAGGCAGGGAAGAGAAAAAATGAAGAGACATGTAGGCCCCTACC
R
TACTGGCTCATGAAGCCTGGACCACGTCTGGTCTGAGTCATTGACCAGAAGTAGCCGTGTGCCCCAAGCTAACTGTAAGGGAGGTCTGGAAAAGTAGGAG
Celera SNP ID:            hCV7835723
SNP Position Genomic:     535451
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35928):
GGGCTGTGTTCCCTGCAACTGCAATTCTTTTGGGTCTAAGTCATTCGACTGTGAAGAGAGTGGACAATGTTGGTGCCAACCTGGAGTCACAGGGAAGAAA
Y
GTGACCGCTGTGCCCACGGCTATTTCAACTTCCAAGAAGGAGGCTGCACAGGTCTGTAAATATGACTTAAGTCCTACATATTCACTCTGATAGTTTTAGG
Celera SNP ID:            hCV27536724
SNP Position Genomic:     420451
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:35929):
ACAACAAAGATTATAAACACTTATTGAGTACTTAATATACTTATGTTAAGTGTATGTAATCCTCATACCAATTGGAGCAAAAACATTTGCTTCATTTGCT
Y
GCATCAATTGGTCATATATATATATATATATATATATATCTATCTCAATTGGTTATATAGATAACATAAGTATAGATAACATAGGTAACATTCAGAATAG
Celera SNP ID:            hCV27442630
SNP Position Genomic:     562446
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35930):
AGTTTGAGACCAGCATGGCCAGCGTGGTGAAACCCTGTCTCTACTAAAAACGCAAAAATTAGCTGGGCATGGTGGTGGGTGCCTGTAATCCCAGCTACTC
R
GGAGGCTGAGGTAGGAGAATTGCTGGAACCCAGGATACGGAGGTTACAGTGAGCTGAGATTGCGCCACTGCACTTCAGCCTGGGCAACAGAGTGAGACTC
Celera SNP ID:            hCV27442631
SNP Position Genomic:     553926
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35931):
AATTTTATTTTCAGCCATTTTTTTTCCAAGAGAAAAAGAAATCTAAAGACAAGCATTGTAGGAAGGGTTAGGAGACAGAAATGTTCATTAGTTTAAATTT
M
TTTTTTTTGTAGTTCAGGTAGTACATTATTTAAAGTAATGAAAACCCACAAACTACTCAAGTAATAATTCCTCTAGAAAACCAAGCCAAGGCTATGACGG
Celera SNP ID:            hCV27442632
SNP Position Genomic:     552607
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35932):
AGCAGGGGCACACTGACACCTCACACGGCAGGGTATTCCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAACCAGAAAGGACAT
M
TACACCGAAAACCCATCTGTACATCACCATCATCAAAGACCAAAAGTAGATAAAACCACAAAGATGGGGAAAAAACAGAACAGAAAAACTGGAAACTCTA
Celera SNP ID:            hCV27339041
SNP Position Genomic:     122032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35933):
AGATCTGAGAATGGGCAGACTGCCTCCTCAAGTGGGTCCCTGACTCCTGACCCCCGAGCAGCCTAACTGGGAGGCACCCCCCAGCAGGGGCACACTGACA
Y
CTCACACGGCAGGGTATTCCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAACCAGAAAGGACATCTACACCGAAAACCCATCT
Celera SNP ID:            hCV27339042
SNP Position Genomic:     121950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35934):
TCCTGTCTTTAAGATTTTAATAATACCAGGGCCGTGCCCTCGCCTCTATTTCCCCACAAACACTGGTATTATAAAAATGAAGAAAGAATTTTATTTTCAG
S
CATTTTTTTTCCAAGAGAAAAAGAAATCTAAAGACAAGCATTGTAGGAAGGGTTAGGAGACAGAAATGTTCATTAGTTTAAATTTATTTTTTTTGTAGTT
Celera SNP ID:            hCV27442633
SNP Position Genomic:     552521
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35935):
GACGTGTAGAGTACCCAGATTTGACTATTGATGACTCATATTGGTACCGTATCGTAGCATCAAGGTAACCAACTTAATAAAGATTAAGATAATTAAATGA
Y
AGAATTTTGAAGTAGTTTCCCAGTTTATAAGAAAACTCCTATTTCCATTTCAATAAGGTAACTGTGTATGCATGTAAACACATGTGTATGAATTTTATAC
Celera SNP ID:            hCV16187416
SNP Position Genomic:     576940
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,22)   caucasian(C,3|T,29)   total(C,9|T,51)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35936):
CGGGAAGCTCGAACTGGGTGGAGCCCACCACAGCTCAAGGAGGCCTGCCTGCCTCTGTAGGCTCCACCTCTGGGGGCAGGGCACAGACAAACAAAAAGAC
R
GCAGTAACCTCTGCAGACTTAAGTGTCCCTGTCTGACAGCTTTGAAGAGAGCAGTGGTTCTCCCAGTACGCAGCTGGAGATCTGAGAATGGGCAGACTGC
Celera SNP ID:            hCV27339043
SNP Position Genomic:     121772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35937):
TCAGCAAATCAACCTTTTCTCTCCACTTTAATCCTGTGCCTCACTTTGCACACCTGAAGTTAGCTTTAAAATTATGACTTTTAAATGCTTGTCAGATTAC
R
TTCTTACAAAAAGGTATTCACACTCCAAGGCACTGGGGAAAGCTGTTTTCTTTTTTTGTCTAGTTTCATCTAGTACTATAAATGGCCTATATTATCTTGA
Celera SNP ID:            hCV27442635
SNP Position Genomic:     548594
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35938):
GGCGCACCACGAGACTATATCCCACACCTGGCTCGGAGGGTCCTACGCCCACGGAATCTCGCTGATTGCTAGCACAGCAGTCTGAGATCAAACTGCAAGG
Y
GGCAACGAGGCTGGGGGAGGGGCGCCCGCCATTGCCCAGGCTTGCTTAGGTAAACAAAGCAGCCGGGAAGCTCGAACTGGGTGGAGCCCACCACAGCTCA
Celera SNP ID:            hCV27339044
SNP Position Genomic:     121608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35939):
AAAATTTCATCTCTAATAAAAAAGTAATTTGGGGAACATTTAGGAAAAAAGCAAAATATATAAAGCAATGTAAACAATAACTTTTAAACTTGCTTGTTTA
R
AAAATCACTGGGGTACAGGTTAGTCAGCCTGATAAACTCTAACTTGCCTTCACACCTCCCTCCTCCAGCAGAGCCTCCTCTGACAGCCAAACATCTAGGC
Celera SNP ID:            hCV27442636
SNP Position Genomic:     543403
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35940):
CATCTTTTACAGCCAACTCTTTCAATGAGTTCAAAAATTTCATCTCTAATAAAAAAGTAATTTGGGGAACATTTAGGAAAAAAGCAAAATATATAAAGCA
A
TGTAAACAATAACTTTTAAACTTGCTTGTTTAGAAAATCACTGGGGTACAGGTTAGTCAGCCTGATAAACTCTAACTTGCCTTCACACCTCCCTCCTCCA
Celera SNP ID:            hCV27442637
SNP Position Genomic:     543370
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,12)   total(A,1|-,12) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35941):
ATAATTGTGCCATGGCAGAATACAGAAGTCCCTTCTCTGAAGACATTTTATTCCTTAAAGGACTCCCTTTGATTTTTTTTCAGTGGGCCATTTGATGCTT
R
ATTGCCAGTTGCTCTGTGCAGAAGAGAAGGGGTATTTTATTCCATAAAATAACTTGCAGTGAATTATTCCTTTTTATTTTCACAACTGACTCTCATTCTC
Celera SNP ID:            hCV27442638
SNP Position Genomic:     537960
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35942):
GTCCTAACATCTACTCCCCTGGCCTGCTTGAGTCTCAACTAAAATATTGACATTTGCCATCACACATTTTGCTTTAGCTGTTATGGCCATGCTTTGTCAC
R
TTAATAAGATGAAATTGTTTGGTTAAGCATACTGCTATTCTAATTCTGTGTGTGCACGTGTGTGCATGCATATACATGCACACTAATTTTGTTCTATGCA
Celera SNP ID:            hCV25972494
SNP Position Genomic:     568201
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,32)   total(A,66|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:35943):
TAACTCAGGTGAACTTCCTTTGCTAGCATCGGTATCTATCAGTATCTGCCTGAACCTCTGTGTGTGTGGACCTACTATGCATTGCAAAAGGATACCGTAG
Y
TTAATTCCCTCTTCTTTACTTTTCATACTTCGGGAACCTCATTTGCCTCAGCCCTTAGGAGTTCTACCCTTAACATTTTTATTCGTGCAGTTATCTCCAC
Celera SNP ID:            hCV25958998
SNP Position Genomic:     609366
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,32)   total(C,62|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:35944):
TTAGCTATCTTAAGCAACCAACCCACTCACACCACTAGTAAAAGGCAGAGTAAGAATTTTATTCTAGCGAGTCAGACTCCAAAGTCTGACTCCTTATCTC
Y
GGAACACTCTGCCTTTCCAATTTATTCTACTTTTAATAGACCATGGTAGGCTATTGAGAGTGTTTCCAGTTTTTCACTATTAGAAACTATACTCTGATGA
Celera SNP ID:            hCV1819544
SNP Position Genomic:     616465
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35945):
CTTCCTCCCTGGGACAGATGCCACAACCTGTGATTCAGAGACTAAAAAATGCTCCTGTAGTGATCAAACTGGGCAGTGCACTTGTAAGGTATGTGCTGCT
R
ACATGCAGCTAGGGAAAACCTCCCTCAATTCTGTTTCCATTGCTCAGTTTTAACTTCATTCAGTGTTTGTTATACCTGCTTCATTAAGCTAAACAAACAG
Celera SNP ID:            hCV25964477
SNP Position Genomic:     435746
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,18)   caucasian(A,2|G,32)   total(A,8|G,50)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35946):
TTGGCACTAAAACCCAGATATCTAAATTCCAACTGCTATTTCACCTTCTTTTTGTTTGTTTGTTTGTTTGTCTGTTTTTTGAGATGGAGTTTCACTCTTG
Y
TACCCAGGCTGGAGTGTAATGTCACAATCTCGTCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCTTCAGCCTCCCGAGTAGCTGGGAT
Celera SNP ID:            hCV1819545
SNP Position Genomic:     618816
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35947):
ATTGTAGATGCCATTCAGTAGAGTGATTAAGAGGATAGACTCTGGAGCCAGATTGCTTTGGTTCAAATCATAGCTCTGCTACTTGCTAGCTGTAATCAGG
R
GCGAGTTACTTAACACCTCTCTGCCTTCTTAATAAAATAGAGATAATAGTGGTATGAAGCTCATGTGGATGTTTTGTGTAGCAAATCATTGTAGGAACAG
Celera SNP ID:            hCV112820
SNP Position Genomic:     170826
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35948):
GTACCTGAATCTGCGTAACTAATTGGGAGAATGGGAAGTTAACTTTATTTTTCCAAGAAAAAGAAACAAAATCAATATTTAAATTTTGGAAAACATAATT
R
TTAAATTATTTTTCATATTGTGTAGATTCACATCTCTTTAATCAATGGGAGACCAAGTGCCGATGATCCTTCTCCAGAACTGCTAGAATTTACCTCCGCT
Celera SNP ID:            hCV25994701
SNP Position Genomic:     266697
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,14)   caucasian(A,4|G,30)   total(A,10|G,44)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35949):
GTTTTCTCAGAAATATACATAAATTTTTAGAGGATAATGAAACTATGAGTTAATCAATAAATATGTCTGAGCACATTCCTTTAGCCATTCCAGGGTGTGA
Y
ATGAGAAAACTGATTCACACGCACTGAGCACTCAATAATAAGTACTTACTATGCAGTAGACTACAGAGATGAATAATGTAGTTTTTATTCTTAAAGAATT
Celera SNP ID:            hCV1819549
SNP Position Genomic:     625078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35950):
CCCCTGAAATCTCACATGATGGACATAATTCAAGTTTATGTCTCACATCACAACACAATGTGAGTTATACCACCTTTTGCATCTTGTAGTGACACCATAC
R
GTGTAGCCTCCAAGGCAGGGAAGAGAAAAAATGAAGAGACATGTAGGCCCCTACCATACTGGCTCATGAAGCCTGGACCACGTCTGGTCTGAGTCATTGA
Celera SNP ID:            hCV7835733
SNP Position Genomic:     535395
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35951):
AATGGATGGATAGGTGGATAATAGGCTGGTAGATGATAGATGGATGATAGACAGATTAGATAGATAGATAGATAGATAGATAGATAGATAGATAATAGAT
T
AGATGATAGACAGAAAGAATAAGAGATTTATTATGAAGAATTGGCTTACGTGATTATGGAGGCTGCAAAGTCCCAGTATCTGTGAGCTGCAGATCCATGA
Celera SNP ID:            hCV27442640
SNP Position Genomic:     533398
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,8)   total(T,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35952):
GATGAATGGATGGATAGGTGGATAATAGGCTGGTAGATGATAGATGGATGATAGACAGATTAGATAGATAGATAGATAGATAGATAGATAGATAGATAAT
A
GATTAGATGATAGACAGAAAGAATAAGAGATTTATTATGAAGAATTGGCTTACGTGATTATGGAGGCTGCAAAGTCCCAGTATCTGTGAGCTGCAGATCC
Celera SNP ID:            hCV27442641
SNP Position Genomic:     533394
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35953):
AGATGAATGGATGGATAGGTGGATAATAGGCTGGTAGATGATAGATGGATGATAGACAGATTAGATAGATAGATAGATAGATAGATAGATAGATAGATAA
T
AGATTAGATGATAGACAGAAAGAATAAGAGATTTATTATGAAGAATTGGCTTACGTGATTATGGAGGCTGCAAAGTCCCAGTATCTGTGAGCTGCAGATC
Celera SNP ID:            hCV27442642
SNP Position Genomic:     533393
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35954):
GGATATATCTATCTTGTGCCATTTCAATGGGCATGTGACAAAGGAAAATTACACTGTCATTGTGTTCCCAGTCGACCCTTGCTACTCTGCTGCTTCCATT
M
CCTCATTGTGAGTCCTGCTTTTGCCAAACTAATTCTAGCACATTTTTCTTCTACTCTATGAGGAGGAGATGAGAAAGGGAGAGCCAGACTTAAAGACGTA
Celera SNP ID:            hCV27888266
SNP Position Genomic:     556948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35955):
TAGATGAATGGATGGATAGGTGGATAATAGGCTGGTAGATGATAGATGGATGATAGACAGATTAGATAGATAGATAGATAGATAGATAGATAGATAGATA
A
TAGATTAGATGATAGACAGAAAGAATAAGAGATTTATTATGAAGAATTGGCTTACGTGATTATGGAGGCTGCAAAGTCCCAGTATCTGTGAGCTGCAGAT
Celera SNP ID:            hCV27442643
SNP Position Genomic:     533392
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35956):
TTACTCCAAGATAAATGATGGCATATGTTCACCCAAAAATTTGTACACAGATGTGTACATATCCCTATGATGAAATAATTACCAATAAAAAGGATCAAAT
R
TGGATACACACACAACATAGATAAATGTTGAAACTATGTTGAGTGAAAGAAGCCAGACAAAAAGAGAGTACATGCAGAATGTTTCCATTTGTATAAAATT
Celera SNP ID:            hCV27888267
SNP Position Genomic:     547592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35957):
TTCCCAATGTCTTTCTTAGATGATTAGGTAGTTGAAAGACGCTACTGTTTACGAGGCATTGCTAAAAGCTTTTGGGTTCCATGAGGGAGAGGGCCATGAC
M
TACTCCTTTGTACATTTCCCCACTCCTCCGTTTACATCACATAAACATATATGTATGGTCTTCCATGCAGTCAGCCAAATCAGACAAATCATGCCTAGGA
Celera SNP ID:            hCV1889342
SNP Position Genomic:     237565
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|A,11)      total(A,11|C,3) ;no_pop(A,-|C,-)   ;(A,-|C,-)   Caucasian(C,18|A,64)   African-American(A,27|C,49)   total(A,91|C,67)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35958):
TGACAGATAGATGAATGGATGGATAGGTGGATAATAGGCTGGTAGATGATAGATGGATGATAGACAGATTAGATAGATAGATAGATAGATAGATAGATAG
A
TAGATAATAGATTAGATGATAGACAGAAAGAATAAGAGATTTATTATGAAGAATTGGCTTACGTGATTATGGAGGCTGCAAAGTCCCAGTATCTGTGAGC
Celera SNP ID:            hCV27442644
SNP Position Genomic:     533385
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35959):
ATGATGGAAGGCTGCTGTGTATGCCCAACTTTATGGCTAGATGGGTCAGAAAGCATCCAGTTCATGAAAGGCAGTTTAGGTTGCATGGTGACTTGATGAC
Y
TACAGTCAAACATTCAGTTTCTACCAAAGCCCAGTAACAGGCCAAGAGTTGTCTCTCAAATGGAGAGTAGTGATCTGCAGAAGATGGCAGGGCCTTGCTC
Celera SNP ID:            hCV27888268
SNP Position Genomic:     532199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35960):
CTGTGTAATCTTAGGTAACTCTTTGAAGTTTAGTTTCCGCATCTAAGAATGAGGAAGTATAAATACATATCTGCCCACGTTGGTTGTATTAAATGAGATA
M
TTTACATAACACATCCGACTAAGGTGCAGATGTAATAAATGACAGCTGTTATTATCATTTATTTCAGCACGTTGCAGAAAGCAACTTACAATTTCTTCTT
Celera SNP ID:            hCV1889343
SNP Position Genomic:     238673
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35961):
TCACTGCTGTCTATGATGCTGGGGTTCCAGGGCATTTGTGTGATGGACAATGGCATAAAGTCACTGCCAACAAGATCAAACACCGCATTGAGCTCACAGT
Y
GATGGGAACCAGGTGGAAGCCCAAAGCCCAAACCCAGCATCTACATCAGCTGACACAAATGACCCTGTGTTTGTTGGAGGCTTCCCAGGTGAGTGTTGGC
Celera SNP ID:            hCV25958066
SNP Position Genomic:     637124
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,24)   total(C,59|T,1)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:35962):
ATGACAGATAGATGAATGGATGGATAGGTGGATAATAGGCTGGTAGATGATAGATGGATGATAGACAGATTAGATAGATAGATAGATAGATAGATAGATA
G
ATAGATAATAGATTAGATGATAGACAGAAAGAATAAGAGATTTATTATGAAGAATTGGCTTACGTGATTATGGAGGCTGCAAAGTCCCAGTATCTGTGAG
Celera SNP ID:            hCV27442645
SNP Position Genomic:     533384
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,6)   total(G,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35963):
TGATCATGTATATACCACTTACAGTTGATGATGGAAGGCTGCTGTGTATGCCCAACTTTATGGCTAGATGGGTCAGAAAGCATCCAGTTCATGAAAGGCA
R
TTTAGGTTGCATGGTGACTTGATGACCTACAGTCAAACATTCAGTTTCTACCAAAGCCCAGTAACAGGCCAAGAGTTGTCTCTCAAATGGAGAGTAGTGA
Celera SNP ID:            hCV27888269
SNP Position Genomic:     532172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35964):
GATGACAGATAGATGAATGGATGGATAGGTGGATAATAGGCTGGTAGATGATAGATGGATGATAGACAGATTAGATAGATAGATAGATAGATAGATAGAT
A
GATAGATAATAGATTAGATGATAGACAGAAAGAATAAGAGATTTATTATGAAGAATTGGCTTACGTGATTATGGAGGCTGCAAAGTCCCAGTATCTGTGA
Celera SNP ID:            hCV27442646
SNP Position Genomic:     533383
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35965):
TTATTCTGAAAACAGTAATTTTCAATATACTATTTTCTTATAACCACTTTAAAGAAATTAAGGACTTGCAGGTTGTCTGGTTTTTTACTATTTTTCTTAT
S
CATAGCAAGGTTGGTGCTCAATAATACTAGATGAGCAACTGAATGAAGAGATGACAAAAATAAATGAATTTATTACCACTGCATGTTAAAGAAGTGTACT
Celera SNP ID:            hCV1889344
SNP Position Genomic:     239628
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35966):
TAATGAAACTATGAGTTAATCAATAAATATGTCTGAGCACATTCCTTTAGCCATTCCAGGGTGTGATATGAGAAAACTGATTCACACGCACTGAGCACTC
R
ATAATAAGTACTTACTATGCAGTAGACTACAGAGATGAATAATGTAGTTTTTATTCTTAAAGAATTACGCTAATATGTAAGAAACAATTAGACAGCATCA
Celera SNP ID:            hCV1819550
SNP Position Genomic:     625112
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35967):
AATTAAGGACTTGCAGGTTGTCTGGTTTTTTACTATTTTTCTTATCCATAGCAAGGTTGGTGCTCAATAATACTAGATGAGCAACTGAATGAAGAGATGA
Y
AAAAATAAATGAATTTATTACCACTGCATGTTAAAGAAGTGTACTTTTTTATGCTTGTCTTTGAGAAAAGTGTCAAGGTGGCATACATGACAAAACACAA
Celera SNP ID:            hCV1889345
SNP Position Genomic:     239683
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35968):
ATTGATAGATGACAGATAGATGAATGGATGGATAGGTGGATAATAGGCTGGTAGATGATAGATGGATGATAGACAGATTAGATAGATAGATAGATAGATA
G
ATAGATAGATAGATAATAGATTAGATGATAGACAGAAAGAATAAGAGATTTATTATGAAGAATTGGCTTACGTGATTATGGAGGCTGCAAAGTCCCAGTA
Celera SNP ID:            hCV27442647
SNP Position Genomic:     533376
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,6)   total(G,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35969):
AGCTTATTTGTGCCACTCTTTCTTTAATTCTGCACAAGAAGGGCCTGTTAGGCAAAGGGATGTAGCGTATCTGAAATTGTGTTGGGAGCCCAGGCTCTTT
S
CTCAATCAAACTAATGCACTTTTAAAACTGTGCATGAATTTTGCTACCCACTTAATTTATGAAAGTGCTATTAGTCTGCAGGGTTCCTTACAACATTCCT
Celera SNP ID:            hCV1819551
SNP Position Genomic:     627420
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,13)   total(G,13|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35970):
GTCCCTGCTGAGCAAAAGACAAAGACCTCCTTCTCCATTGTCCCGCACTGATGGTGGGCTTGGGATGTATTTTCAGAAATAATTATTTGCAGGGAACTTA
Y
AAAAACAAATGAATCACCCTCATCACTGTGCTTGTTCCGTTTTGGGATGTTTGTCTACTAGACTTTCTAAATTGGGAGATTTAGAAATTCAGTAAGAAAG
Celera SNP ID:            hCV1889346
SNP Position Genomic:     244021
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35971):
ATTGGCTACAGCACATTAATTAGTATATAATTACACATCTGGCCATTTCTTCTTCCAAGCAAGTGCACAACCAGGTGCCCTGCTCAAAATTCTGCCCCCT
R
GGAAGACTTCCCTTTGCTACTGTCCTTCAGGGATGTCCTAGAAAGGGGCTGTAGTGCTGCAGCTGTCCACTTTTGGGTGCTACCTGCATATCTTGCAGAA
Celera SNP ID:            hCV27442648
SNP Position Genomic:     531794
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35972):
TCTTCCAAGTCCCTGACCATCCAGCCAAACCATTGGCTACAGCACATTAATTAGTATATAATTACACATCTGGCCATTTCTTCTTCCAAGCAAGTGCACA
R
CCAGGTGCCCTGCTCAAAATTCTGCCCCCTGGGAAGACTTCCCTTTGCTACTGTCCTTCAGGGATGTCCTAGAAAGGGGCTGTAGTGCTGCAGCTGTCCA
Celera SNP ID:            hCV27442649
SNP Position Genomic:     531763
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35973):
AGTAGTAAATTATAAACAATATATTTTGAATTCATAATTAAAATTAACGAGTCAATTTTCTGAGGCATTGACCTATTAAAGATTTATGAGTTACCTAAAA
Y
CCCAAATCTTCCCTGAGGTAATAGCTTCAGTTGAGATAAAGGGAAGGTATCTTATTTGTCGCTTCACTGCAGGAAAAAATAAAATTTGTGATTATGACTC
Celera SNP ID:            hCV1889347
SNP Position Genomic:     244700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35974):
TATTGAAGGAAATAAACTTTTTTCTAACCATATTTATGCAATCAATATTTATTAGGTAGTTTTTGAGAAAATCTTATATGAGAACTTATTCCTTGTATAC
M
AAATGTTTCATGGAACACCACCAGCATAGACATTTTTGTTTACTCTGTGCAACTGGATTTCGTTCTGGGGAGCTTCAATTTGTACATGAGCTCATTTTCA
Celera SNP ID:            hCV1889348
SNP Position Genomic:     245121
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35975):
GAACAAAAAGGACGAGGCAATACCTTCTTAACACTGATAATTAAATAAGATAAGCTTAAATTATAAAATCAGCACAGAGGGAATGTAAATTGGTTCAACC
R
TTATGGAAGGAAAAAAGTAGGAAGGTTCCTCAAAAAATTCAAAATGGGACTGCGAGGCCGGGTGTGGTGGCTCAAGCCTGTAATCTCAGCACTTTGGGAG
Celera SNP ID:            hCV1889349
SNP Position Genomic:     245786
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35976):
ACACTTCATTCACTGAACTATAATAAAATTCACTTCAAAAGGAATGTGAACAAAATGAAAGAACTTGGATATAAAGGGGCAAAAGTGAACAAAAAGATAG
R
AAATGTGTACAAATCTAAGTAAGCATTATGGAAAGCATAATGATAATAATTATTAAATATGTGGAATTAAAAACAAAGTGGAACTAAAACACAAGAGACT
Celera SNP ID:            hCV7835745
SNP Position Genomic:     534468
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:35977):
CTTCTCTGCCTCTGTCAACTGATCATGGGGAACTCCCTGTGAGGCCATCAGTGCAGGCTTGGGGAGAGAAGGCAGGGTGGCAGGAGTGGAGGCCATGGGC
R
TTTGAGCCACTTCCTCATGCAACTGACTTGTGCCTTTAGGACTGGCTCGAGCCTGATCATGTATATACCACTTACAGTTGATGATGGAAGGCTGCTGTGT
Celera SNP ID:            hCV27888270
SNP Position Genomic:     532018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35978):
AAAGAAATCAATATTATTAGATTATGCGTGATCATTATTTTCTAGGTGGTTTTCTAAAGTTCCTGAAAGGTCATTCAGAGCATTGGGAAGAAGAAATTTG
S
GATAGTAGTAAATTAAAAGCAATTTCACCAGTGCCTGTACGAAATAATTGAATGGGGAATGACCTTGGGTTGTCTGTTTGCAAGAATATAAATGTCTAAT
Celera SNP ID:            hCV27518026
SNP Position Genomic:     441869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35979):
ACACGTGAACACTGGCTATGGGAGAAACAGTACCATATTTTGGACACTGATTCAAGGCATACACAGCCTTCTGGAGAACTTTGCCCCAGTCCGGCAAAGT
W
TTGTCACCTAGTTGGCATTGTAATTATGACTTCAAAAGGGCATTCCACAATTCTATCAATCCACCTGCTTCAGGATGATGGGAAACATGATAAGACCAGT
Celera SNP ID:            hCV27888271
SNP Position Genomic:     530926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35980):
CCTTGGTGACAGCATTCTTCCCTCTGGAACTAAGATGTCTAGGCCAGCAGAACATAATGTTGTGGGAACAGGAAGCAAAATTTTGCTAGTGGGTCACTAG
Y
GGTGATGGTGAGTGGTGCCACTTCCGCTTCCACCCCTTGATTCTGGGACACGTGAACACTGGCTATGGGAGAAACAGTACCATATTTTGGACACTGATTC
Celera SNP ID:            hCV27888272
SNP Position Genomic:     530778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35981):
TGTGACAAATACCATAAACTGATTAGCTTATAAACAATAGAAATATATCTCTCACAGTTCTGAGGCTGGGAAGCCCAAGATCAAGGTACCAGCAATGTTC
R
ATGTCTAGTGAAGGCCTGTTCCTCACAGAGGGTGACTTCTTGCTATGACCCCACATTTAATTCATTTAATATCTGGATACTGAGGAAAAGGATAGCTAGC
Celera SNP ID:            hCV27888273
SNP Position Genomic:     490653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35982):
AGAGAATCATTTTCAAATCCTGATTTCTGTTAATTATGAACACACTAGCTATATGGCCTTTCTGTGGATAGGCTTAATTAGGAGGGTCTGGGCAAAGCTT
Y
GCTACAGCAGCATCAAAAGTCTGATTTACAAGTAGACTCAAATATGGCTTAGTAGGAAGTGAACATAGCCCTAGGCTACACTTAGAAAAAATTATTTTCT
Celera SNP ID:            hCV27442650
SNP Position Genomic:     525299
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;JBIC-allele(T,519|C,564)   total(C,564|T,519)no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:35983):
CCATGTGTTTACCTTATAACTTCATGAGCTAGACTTGTACAGAAGCTTTGAAAAAATCCCCATGGCTGTCATATTCATAAGTCTCTCTGACCCATTCAGA
S
AGATGTTAGTATATTGCTTGGAGCGTACTATAAAACTTACCTTTCACTTATGGAAATGTGCTTGTACTTTGTTCCCCAAAAAGCAAATACAGATACCATA
Celera SNP ID:            hCV27888274
SNP Position Genomic:     483198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35984):
AATCAATATCTTACAGTTTACTTGTAGGAAAGATGATGAAGTAAATATACATTTATGCAGCTGAACACTTGAAATCTACAAGAGGGGTAAAAAGAACAAA
R
ATTCTGTAATAATACCAGAAAAGAGCTATAACCTCATACCTAGGCACAAGGACATACATGTGCAAAGTATGAGGATATGAGGAACTAATTAATTTTCCAA
Celera SNP ID:            hCV27518029
SNP Position Genomic:     423749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35985):
GTGAGACCCTGTCTGTATCACTCCGTTTTCACACTGCTGTAAAGATACTACCCGAGACTGGGTAATTTATAAAGGAAAGAGGTTTAGTTGACTCACCCTT
B
TGCATGGCTAGGAGGCCTCAGGAAACTTATGATCAAAGGGGAAGAGGGAGCAGGCACATCTTACATGGTACAGGAGAGAGAGGAGAAAGTGAATGGGGAA
Celera SNP ID:            hCV27888275
SNP Position Genomic:     274429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35986):
GCCTAAGAGATCCTAATGACATGTATACCTATGAAGTGGCATTGTTTAAATAGATAGGCTTTTCTTGGTCTAAGTTGGTTTCTTAAATTTCCTAGTCTAT
W
CCATTAAATAATGACTTTAATTCTCTATTCTTTTTGCTATGTTAGTAAGTTTGAAGTTTCATTTTAAAACTAAACATGTGGGCCAGGCACGGTGGCTCAT
Celera SNP ID:            hCV27442651
SNP Position Genomic:     524484
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,5)   total(A,2|-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35987):
CATGCTCCTATAATCCCAGCTACTGGAAAGAAGCTATGGTGGGAGGATCTCTTGAGCCCAGGAGTTTGAGGCCAGCCTGGGCCACATAGTGAGACCCTGT
S
TGTATCACTCCGTTTTCACACTGCTGTAAAGATACTACCCGAGACTGGGTAATTTATAAAGGAAAGAGGTTTAGTTGACTCACCCTTCTGCATGGCTAGG
Celera SNP ID:            hCV27888276
SNP Position Genomic:     274341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35988):
TAGCCACTGCTATGACTATCTTATCAGCAATGCAGAGCTTGCGTTTCCAGCCTCCAAGTGTTATGCTACAGGTCACTGTTTTTTTTAAACTCTTACCTGA
R
TATGCTTCGACCTACTTCTTTATTTTAATTCTTTCTTTCTTTTGAGGTTAGAAACACCATGCTTTAATTGCTGTAACCCCCAAAAGAAATATAATATTGA
Celera SNP ID:            hCV27442652
SNP Position Genomic:     513860
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35989):
GAACAGTATTTACTACCTGCTGTTCCTTTTCACTATTTGCAGTACCATTCTTAGACTCACTGCAGGCATAAACCCTGGGATAAGGAAAAGTTAAGCCTCC
R
TTCTTCATACCTCTAATAAGGCTTTGCCAATGGCTGCAATCATTTTACAACCATCCACTTATGTTTAGGTTTAACAGAGTCTTGGCTTCATAATGAAATA
Celera SNP ID:            hCV27888277
SNP Position Genomic:     207589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35990):
TTCCTCTATACTGCCTAGGCCCAGAATCTAAATTAGATCAAATTTCAAAAGATATTTCTTATGAAAGCTGATTTATACACGCACACACACACACGCGCGC
R
CACACACATATTCATTTAACAAAGAAAAAACATACAGCTTTAGCAGGTTGGGAAGTGGCATTTATTAATATCATCTTCATTTTAAAAAGTGAGTACAAAT
Celera SNP ID:            hCV27442653
SNP Position Genomic:     511353
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35991):
ACAATTATACTTAGATGGGCCATCTAAAATGTCCTTCCAGCTTGTGGAGTAGGTTGTGTTTGTTTTTCAATGAACATCTGTTTGACAAATTGAAATGCTA
R
TTATGATTTATCATTTCCATGACATCAAATATCCAGATAGTAATAAACGTTGATGACTAACTATATTTTTCAGTTTCAGCCAGATGTTTGGCATCACGTA
Celera SNP ID:            hCV1889351
SNP Position Genomic:     249135
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:35992):
GAATGAAATTAGTACTGGATGATTGGATTAAAAGCCAGTAGAAATTATATATTATCCTATTTAAATGTAGGACTATATAAGTTATTGGTAATCCTTTTTC
R
TAATTTTATTACTTTTTCCAGTACCTAAGTGGATACTGGTGACTGGTATATAATAAGTAACCAATGAATAGATATTGAATAATGCATTGCTTTGCTCAAT
Celera SNP ID:            hCV27888278
SNP Position Genomic:     204988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35993):
TTCAGTAATATGTGAAAGTAAGAGTGGTACCATAAAGTTCAGTCAAGTCTAGACTAGAAAAATATCCAAAGCAGTTTAGACTACGAACATCTTTTTTTTT
T
CTTTTCTTTTCTTTTTTTTTGAGACAGAGGCTCGCTCTGTCGCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCCAAGCTGTTGACCTTAGTTA
Celera SNP ID:            hCV27442654
SNP Position Genomic:     503994
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35994):
TTGCTGAACACACTAAGATGTAGCTTTCTCTATAACCTCCTATTCAACTGTCAGCAAATCAGTAAAAGTACCCTGAGAGGAAAATGGCTAGCTTACCTTA
W
TTTGCTTCCCTTTACTTAAGTCTGGCTGCCTTGGTTGCTTGCTGATGCCTTCAAACTGCTGTTTTTAGTATTTTATCCAGCTTTTATGGTTGTTGTCTTT
Celera SNP ID:            hCV27888279
SNP Position Genomic:     197330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35995):
AAAACAGCAAATTTATAAAAGTAGTGTGTCAGTTTGATAATAATTGATAATCAAATTCTAAACACCTCTTTCAGCCCTGCAGTAAGACAACTTTGCACTA
Y
AGGCAGCAGGTAAACAGAGAAGGGAAAACAAGAAATTTCACAAGTTTTCTATTTGGTTATTAAATAGGAATCGTACTTCAACTCAGTTCACGTTTCCACC
Celera SNP ID:            hCV16047077
SNP Position Genomic:     635696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:35996):
CACCAGTTTGATAAACACTGTTCTAAATTGTGGTTAAAGCTTTTGGTAGTTAACGAGGTAGGAGAAAACATTAAAGAAATTGGGGTTGTTTCACCTGATG
R
AAAAAGATGAAAGGTGTCAACTTACTATCAGTCAATTATCAGATATTTATTAAGAAATTATAGAATACCTCAGCATTGCACTTGGTTCCCTGGGGATTTC
Celera SNP ID:            hCV27442656
SNP Position Genomic:     489876
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35997):
AAAGATTTAACAGTGGTGTCTGCATTTGATAAAATGTAAATGAGAAGCTCCCAAAAGAGATTGAGAAGCTCTATTTTGACAACTCTTCTTTTATCTGTGT
W
ATTATTATATACTTTAACTGAAGAAAGAAAAACACAAAGATAAATACAATATTTCAACTTCGAGTACTTTTTAAAAATTATTTGAAAGCATTTAAAAATA
Celera SNP ID:            hCV1889354
SNP Position Genomic:     258712
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:35998):
ATTTGAATTACCCGTGCATTACTGTTTCATATATTCATGGTACTTTCATATTTTATAACATTTAAAAATATTTCAATATTCCATTGATTTGAATAAGATT
Y
TTTAAATTACAGTGAAAGCTTTCTGATAAGGTATGGTAAGATTATTTTTCAGTAATTATGCTGATACATATAATAAAGCTACTGACAATTCATAAAGATG
Celera SNP ID:            hCV1889355
SNP Position Genomic:     261502
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:35999):
CTGGCCTAAATCAGTTTTATTATGTCACTTAAATATGTGCAAACATAAAATCAGGTATAAACTCTTTATACTTATAGCTCTATAAAATTAAAACAAATTA
R
TCCTTACAAAACCAATAAAATTCAAATTAAAAACATTAATATAAAGTAACATGATTTTGGCTGAATGGAAATTGCTGCTTGCAACAAGAATAGGATATTG
Celera SNP ID:            hCV27442657
SNP Position Genomic:     489335
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:36000):
TTATTTTTCAGTAATTATGCTGATACATATAATAAAGCTACTGACAATTCATAAAGATGATAATACACTTAGTACAAACTGAGCTTCAATGGGATTACTA
R
ATGAGTATGTGAGGACAGAGCAGAGGAAAAGGCCAAGGGTTGAGCACTGTGGTGCTCTATTATGAGAAAGTTAGGAAGGATTAAAGTTGGCACTGAAGGG
Celera SNP ID:            hCV1889356
SNP Position Genomic:     261644
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36001):
TCAGTTGATCTCCAGATGCTGATTACTGATCTAACACTTTGCTTGTTGTACCCCCTAAATGTCATCCTCTCTCTGCTCGTACTCACTGCTCAAGTAAGTT
Y
TTATTTGAAAGGACAGTAAGTATGTCATAGTTTTCTATAGTCTAAGCTGTGTCATGTTGTTCACATCCAGGTGTTAGGCAATCTATAAAACATCTTCTGT
Celera SNP ID:            hCV27442658
SNP Position Genomic:     480679
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36002):
TTAACAATTTTGGTTTGGTTCAATTTGTTGCATAGGTAATAATAATCCATTTACAGAATACAAAAATAGTGTAAGTATGTGCTTCTTCCTATCTGTATGT
Y
GAGAGATTCCTCATTCTTTTTTATGGTTGCAGATAATTCATTATGCAGATATACAATTTATTTAACCAGTCCCATATTGATGGATATTAGGTTATTTCCA
Celera SNP ID:            hCV1889357
SNP Position Genomic:     264860
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36003):
TTTAGCCAGTATATTCAACATTAATGAATTCAGCCCTTTATTCATTTACTGCTTCCATGTTTAGAGCCCATTCTACCTCGATTAAAAATAAATATAAAAC
K
AGCTAAAATTACAAAATGAGAAATTTTAAGTGTATGTAATCTCAGTAATGACATTTATTTTCTGCTAATCATTGAGACTCCTCTAAGATTTAAAACATTA
Celera SNP ID:            hCV27442659
SNP Position Genomic:     479400
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36004):
TTTACAGAATACAAAAATAGTGTAAGTATGTGCTTCTTCCTATCTGTATGTTGAGAGATTCCTCATTCTTTTTTATGGTTGCAGATAATTCATTATGCAG
W
TATACAATTTATTTAACCAGTCCCATATTGATGGATATTAGGTTATTTCCAGTCCTTTGATGTGACCAAAAAAGATTATAATAAAAAATGCTGAAAGAAT
Celera SNP ID:            hCV1889358
SNP Position Genomic:     264909
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36005):
TGCACCCCTAGAGGCCTAGGAATCAACTCCCTCCTTCTTGCCATATCCAAAAATATTAACAACATTTTGAGGGGAGCCTTAAAACAAGCTAATCGACCCC
M
AAAAAACACATAGATCCCAGGCATCAGAGAAGGAGAATTCAGTCTTCAAGACCACTCCCAGCTGGGCCTTCCTGCTTTCTTCTGAGCCTAAACCCAGTGA
Celera SNP ID:            hCV1889359
SNP Position Genomic:     271490
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36006):
GTAGATCCTCTAAGAATCTGTATATCTCTAAGCCAATATCTGTATAACTTAAAAATTATAAAGCTGTATTTTAAAATATACTCTGTTCTTTAAATCCAAA
R
CTCACTGACATTTTTACTTAATATGAATTAATGAGGTAGTATTATACATTTAAATACATATAGTAACAAATTATAAATGAGACCAAGAATATTATTTTAA
Celera SNP ID:            hCV27518030
SNP Position Genomic:     421612
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,152|G,557)   total(G,557|A,152) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36007):
TCCTGCTGTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGTGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTTGT
Y
GGTTTCAAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGAGCAGTTTTGA
Celera SNP ID:            hCV27442800
SNP Position Genomic:     31653
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36008):
CCAACACTATATTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCAATTCAGTATGATATT
Y
GCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAAATATGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGTGTGGTTGAATTTTGT
Celera SNP ID:            hCV27442801
SNP Position Genomic:     30565
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36009):
CATTTTAAAGGTATAATTTCTTTTTTGTTTGTTTTTTTCGTTTTTTTATTTTTTATTTTTATTTTTTTCTTTTATTATTATACTTTAAGTTTTAGGGTAC
R
TGTGCACATTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGCGCTGCACCCACTAACTCGTCATCTAGCATTAGGTATATCTCCCAATGC
Celera SNP ID:            hCV27442802
SNP Position Genomic:     28475
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36010):
TTTTTCCTTTGTCTCTATCTCCCTAGATAGAAATATGTGGAGGTTGGATTTCCTGCTGAGTTTCTTTATTTTTTTCCTTTCTTTTTTTTTTTTTTTTTTT
T
AAGATGGAGTCTCACCCTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCA
Celera SNP ID:            hCV27442803
SNP Position Genomic:     27276
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36011):
TTTTTTCCTTTGTCTCTATCTCCCTAGATAGAAATATGTGGAGGTTGGATTTCCTGCTGAGTTTCTTTATTTTTTTCCTTTCTTTTTTTTTTTTTTTTTT
T
TAAGATGGAGTCTCACCCTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTC
Celera SNP ID:            hCV27442804
SNP Position Genomic:     27275
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36012):
CAAGAGAAGCATACACATTCTAAAGCATTTCAAATGTTTATTATGATGTCCTAGAGGTGGCTGTCTTTCTGTTGCTGTGCATACCCTGAGCAGACTTGAC
W
TTGCTTTGGAAGCACATATTTTCTGATAGACATATTACTCTCATAATCTAAAATTTTTCAGAAGTGACAAAAGTGGGGTTGACCATTTTCTTCTTCGCTG
Celera SNP ID:            hCV11692107
SNP Position Genomic:     335798
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,9)      total(A,9|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36013):
AGGAGGCTGAGATGGGAAGATTACTTGAACCCGGGAGGTCGAGGCTGCAGTGACCCATGATCACACCACTGCACTTTAGCCTGGGCAACAGAGCAAGACC
Y
TATCTAGGAACAATAAAAAATTCATTATTCATTATTTGATCCAAAACAAAAACATGTTATAGACTATCTATAGATTCAATTTTCAAAAATCCTATGCTTC
Celera SNP ID:            hCV27442805
SNP Position Genomic:     23954
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36014):
CACAGCTATAATCCCAGCTCTTTGGAAGGCCAAGGCAGGAGGATGGCTTGAGGCCAGGAGTTCAAGACCAGCTTAGGCAAAATAGTGAGATCCCTGCCTC
Y
ACAAAAATAAAATGAAAAAATTAGCTGCGTGTGGTGGCACATGCCAGTGGTCCCAGCTACTCAGGAGGCTGAGATGGGAAGATTACTTGAACCCGGGAGG
Celera SNP ID:            hCV27442806
SNP Position Genomic:     23791
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36015):
TTGCAATGGAAGTCCTATCGGCCAGTTTACTAGTTAACAGGAGCTGTAGTACTAGAGCTATGACTGCATCAGAAGTCCAGCAGTGTGGGCACAAAGCAGC
R
CAGCACTTTTGAAGTTAGACATCGAGAGTTTGAGTCCTAGATTCACACCTTGCTGGCTGAGTGCTGTTGCAATAGTGCTGTTGAGTGAGTTATTTAACTT
Celera SNP ID:            hCV27442807
SNP Position Genomic:     20709
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36016):
TCTTTGGCCCCTAAGTGGAACAAGTTTTGAGATCTTATTTTATGCTCCAGAGCACTCCATGGAATCAGGCTAAGACTGGGACATCACCTGAAATCATACC
Y
TTGATTAGAGCTTTTCTTTTCCATGTCCTGCTTCACCCACTCCTTTGCTAGATTCTCCTAGGAACACTTAAATGGTAAGCTTCTTTGTAAATATAAACTA
Celera SNP ID:            hCV27442661
SNP Position Genomic:     473261
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36017):
TGATTTCAGATGTATAGATATATTGCTTATCAAACACTGATGGGTCTGAACATGAGTGGTAGTAAGATATTTCCAGATTAAGTAGACAAATTGTGCAGAA
Y
TTTTTAGTATCACTATTTAAATGACTAAATTTTTGAGGTTTATGTGTATCCAGCCCAATATGTCCTCTCCTTATCTAGTATAATTTATCTTTAAAAATTA
Celera SNP ID:            hCV27442808
SNP Position Genomic:     18964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36018):
CATCCAGCTACCATTTCAAAAAACAGCAAATTTATAAAAGTAGTGTGTCAGTTTGATAATAATTGATAATCAAATTCTAAACACCTCTTTCAGCCCTGCA
K
TAAGACAACTTTGCACTACAGGCAGCAGGTAAACAGAGAAGGGAAAACAAGAAATTTCACAAGTTTTCTATTTGGTTATTAAATAGGAATCGTACTTCAA
Celera SNP ID:            hCV16047084
SNP Position Genomic:     635677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36019):
TGGGAGGCCGGGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAAAAAAAAAAAAAAAAAA
A
GCAAAAATTAGCCGGGCGTGGTGGCGGGCGCTTGTAGTGCCAGGTACTCTGGAGGCTGAGGCAGGAGAATGGCGTGAATCCGGGAGGAGGAGCTTGCAGT
Celera SNP ID:            hCV27442809
SNP Position Genomic:     18295
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36020):
TTTTTTGTGTGTGTTTCTATACAATTTTAGAATCAACTTGTCAATTACAGAAAATATTAGGATTATTGCTTAGACTCTATATACAAATATGGAAAATGGA
K
CTTGAGGAGATGTTGGTCAAAGAATATAAAATTTCAGTTAGATAGTAGGAATACATTGAAGATATTTATTGTACAGCATGGTGACTGTAGTTAATAACAA
Celera SNP ID:            hCV1889361
SNP Position Genomic:     278770
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36021):
AGTGAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGCGACAGAGCTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGAGAAAAAGAAAAGAAAAGAAAAGA
M
AAGACTTGTACCTTGTCATATTGGAAAACCAGATTCATTTCACATTGTTATAAAATCTGTAAATGTCACAATATAATTTCAAATATAACACCAAAAATGT
Celera SNP ID:            hCV27442663
SNP Position Genomic:     463528
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36022):
CGTGAATGTCCTTGGATGTGTATGGTCTCTTGCTTGAAGTTATCAGCCAGCAAAATGGTGAAATACTTAGAATTAATCAAACATCTGGAGGTCAAGAAAC
R
CAGTACCTATATTCTTCTCCTTACTTTAAGAATGAAACTAATAAAAAATAAGGCGGAGCTGGCCCTTCAGCAAAGGAGGGATTTTTATTATATGAGTGAA
Celera SNP ID:            hCV278198
SNP Position Genomic:     23013
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36023):
GCGGGAGGTAAGTGAACTAACAGTAACTAGTACACACACATAGGTAGTAAGTAGGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGAT
A
CAGAAGGAAGATATTTTCATTTAATCATTGCTACACCCTGTAGTCAGATTATTTCTCCTATTTTTTTTTTCACATGGGAATATTGAAGACTTAGCTAGCT
Celera SNP ID:            hCV27442664
SNP Position Genomic:     458045
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36024):
TGGATGAACAAGATAAGTCTATTTATGTCCCAGAAGCTTCCCATCAACATTGTACTTACAGTTTCTCTCTTTATTAATAAAATGTGTGGCAACTTTTGAA
M
CCTTTCAGATGATTGTGGCACCATTTAGTGTGCCCCACTAAAACTTTACTGAAAAATAACTGAAATGTTTTTCTTTACCCAACAGAGAGACTTCTAAGAT
Celera SNP ID:            hCV16047085
SNP Position Genomic:     634495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36025):
AGCGGGAGGTAAGTGAACTAACAGTAACTAGTACACACACATAGGTAGTAAGTAGGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGA
T
ACAGAAGGAAGATATTTTCATTTAATCATTGCTACACCCTGTAGTCAGATTATTTCTCCTATTTTTTTTTTCACATGGGAATATTGAAGACTTAGCTAGC
Celera SNP ID:            hCV27442665
SNP Position Genomic:     458044
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36026):
TGCAGGCCTATTATGCAATACTCCTCAACAGGGGCCGTCTGGAAGTGCATCTCTCCACAGGGGCACGAACAATGAGGAAAATTGTGATCAGACCAGAGCC
R
AATCTGTTTCATGATGGAAGAGAACATTCCGTTCATGTAGAGCGAACTAGAGGGTAACAATAGCACTAAAATATTTATTATTGTAACTCAGGTGAACTTC
Celera SNP ID:            hCV16047086
SNP Position Genomic:     609182
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,17)   caucasian(A,5|G,29)   total(A,24|G,46)
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:36027):
TTCTATTGACACTTAGAAGATGCTATGTTCACGTAATCATAGAAAGCTTTTAATTAAACCCTCTACTCTTTGGTTTTAACTTTTCTTTATTGATATATAT
M
AAAAATCTATTTTTGTGTCAAAATAGCATTTTAAAGGTTACTGTCATTAAAACTTTAACAACTAAATTATGTACTTGTTTTAGAAATGTTGATATGTGGC
Celera SNP ID:            hCV1889363
SNP Position Genomic:     300413
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,7)   caucasian(A,30|C,6)   total(A,33|C,13)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36028):
ATGTACTTACTATGATGAAAATGAGAAAAATAAATAGCAAAAATAAATTGTAGTGTTTCCTTTAATCTGATAAAAGAAACAGTTAAAGTGGTTGAAATAG
W
TCTTCATGTATAAACCATGATAAATTTCAGAAACTTCAGGTGGAAAAAACAATGTCATTATGGTATTATTTATATCAAGTTGTAAAACATAAAACAATGC
Celera SNP ID:            hCV1889364
SNP Position Genomic:     305373
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,8)   total(A,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36029):
TAGCGGGAGGTAAGTGAACTAACAGTAACTAGTACACACACATAGGTAGTAAGTAGGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAG
A
TACAGAAGGAAGATATTTTCATTTAATCATTGCTACACCCTGTAGTCAGATTATTTCTCCTATTTTTTTTTTCACATGGGAATATTGAAGACTTAGCTAG
Celera SNP ID:            hCV27442666
SNP Position Genomic:     458043
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36030):
GTTACCTCTAGAGAAACAGGAAAGGGAATAAAACAGAAGTGAAATGAGATTCATTTGTATCTAAGTATCATTGCTTTAAAAATATATCTGAGGCAAATAT
R
AAATATAAATATTTTGTTACCTCTAGGTTGCATGGGTAATGCATGTTATATGTGCTTTTTGAATGTCTTAATATAATTTCTAATTTAAAATTTCTTTAAT
Celera SNP ID:            hCV1889365
SNP Position Genomic:     305653
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36031):
ATAGCGGGAGGTAAGTGAACTAACAGTAACTAGTACACACACATAGGTAGTAAGTAGGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATA
G
ATACAGAAGGAAGATATTTTCATTTAATCATTGCTACACCCTGTAGTCAGATTATTTCTCCTATTTTTTTTTTCACATGGGAATATTGAAGACTTAGCTA
Celera SNP ID:            hCV27442667
SNP Position Genomic:     458042
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36032):
ATAATTTGATATTGATAACAGAGGAAGTTAAATTATTCAAAGAGCTCAACCATAAAGCAGATGGCTTCACTTTCAAGCTGGGAATCAAAAAACTTTAAGT
S
CTAGAATATTCATGTCAAGAGGATCTTCCAAGAATAAGCCAGGAATGCAATTAGGGGCTGACTCATGGATGACAATGGTCGATGAGTCACAAAGAAATTT
Celera SNP ID:            hCV1889366
SNP Position Genomic:     309942
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36033):
ATTATACAGTGCAATGCCCTCTACCTTGGTATAGTGGCAAGCATGAACTCTGCAGTCAGAGTGCCTTGATTCAAATCCTGGCTTCACCCCTTACTGGTAG
Y
GTGAGCCTACTCAATTTATTTAACCTGAATGAGGTCTTAGTTTCTTCATTTATATAATGAAAACAATAATAGTGGCTACTCACAGAGTTTTTGTAAGGAT
Celera SNP ID:            hCV27442668
SNP Position Genomic:     456942
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36034):
TCTCATTCTATCTATGTCCACAAGTTGAATTTTTAAACCATGCTTCAAGGATCAGGTCAAACTCCACTCCTGTCATAAAGCTTCCTTAAGCCTTATAGCA
R
AAATTAGTGCTTCCTCTATGTTCCCGTAATTATTTATTTCTCAGATGCACTTACCATATTCCACCTTGCATTATAGTTGATTGTGAGTATATCTTTTTAC
Celera SNP ID:            hCV1889367
SNP Position Genomic:     310884
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36035):
ATAGCAGGATTTCCTTCTCTTTTATGGCTGAATAATATTCCTCTATCTCCCTCTCTCCCTCTCTTTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TCTGTGTGTCTGTGTATGTGTGTATACTATATTTACTTTATCCATTCATTCACTGATGGATACTTAGGCCATTTATTTATCTTGACTGTTGTGAATGATG
Celera SNP ID:            hCV27339079
SNP Position Genomic:     56070
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,1)   total(G,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36036):
GGCTGGTTGAAACACTTTTAACTTATGGCCAGTTTCTTATATTTAACAGAACTCTGAATGCTATTACAAAAAATGTGTAAATGTCTAAAAGACATTTTCA
R
TGAACATGTATTTTAAGAGACAGAGTATGTTGCATAAAATTCAATAGCTGTAAAATAAAAATCGAATTAAACTTTTATTTGCAAGGCCCTTTACAGCAAG
Celera SNP ID:            hCV1889369
SNP Position Genomic:     316809
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36037):
AACACTGAATATAAAACATGAAACATCTAGTAAGGCCTCAATAAATGTTCATTTTCAAAATGCCTCAAAAAATGAATTAAACCTAACAACCTAACATGAC
W
TTCTCTGGCTGAAAGAAACACTCTTCTCCAACATCATGTGGTATACCAAATTCAGTTGAGACTGTTTGTGAAGGAAGGAATTTGCTTATATACTTAAACA
Celera SNP ID:            hCV243311
SNP Position Genomic:     14450
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36038):
CAAAAGCCTGAGTCAACGGAGTTAAATTTTCTATTCGTAAGATAGGTTTAGGTTAGATAATAAATGTGAAAATACTTGCCAGCTAATCAGTAAATACTAG
Y
TCTTTTCTTCTTTATTTTATGAGCATAAAACTAAAAAAAAAGATTTGCTTTGCATATAGCATATCCTTTTTGCTTAAGAACAGCAAAATATTCTAAAAAT
Celera SNP ID:            hCV243312
SNP Position Genomic:     14873
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36039):
TCATGTGTACTTTAAGGCCACAGTGACTAGATATACACTTTGGAGGACTTTGGAAGATGGCTGTATTTAATGTAACTTAAATAACTTATTCTCCTCAGAG
M
CTCTTAGTGTTTATGTATATATAGCTCTCATTTCTGAAACTTTGGGGAGTCTTTGAAGAGTTATTTTATTATCATGAATTTTACAGGAAGCACATGTGCA
Celera SNP ID:            hCV27442810
SNP Position Genomic:     6948
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36040):
CCAAGTACCAGTGAAAATCTGTGAAATTTGAAATGTTTACCATTTCTATTAATAGAGTTAATTAGTACCACAATTTAGGAGGGCAATATGGTATTATCTA
S
TATCTTTGAAGGTGATAAAACCCTGTCAACCAGCAATTCCACATCCAAACATTTACCCCAAAAAACTCTTACAATGTATAGAGAAAAACCATCTAAAATG
Celera SNP ID:            hCV11692112
SNP Position Genomic:     305160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,10)      total(G,10|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36041):
GACTTTATGGAGGGTAGCTGATGCATCAAAAAAAAATTATATATATATATATACACACACACACACACACACACACACACACACACATATATATATATAT
A
AAGTTTTACAGAACTTTGTTTTCAACTTTTAAAACAGGATTTCTAAAGAAGTTATGTGGTTTTTTTTCTTTCATGGCAATGGCGCCTCCAGCCTCACCTT
Celera SNP ID:            hCV27442811
SNP Position Genomic:     6655
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36042):
TTTAATTGTAAATTAAATCAAATTAAATAACAATAAATATTCAGTTTCTCATTGAGACAAGCTACATTTCAAGTCCTAATAGCCACATGTGGCTAGTAAC
K
ACTGATTTGGACAGTGCAGAACAGACAATATCCATCATCACAGGAAGTTCTGTGGAATAGCACTGTTATAATTAAAGAAGTATCATCATCACTGACATTC
Celera SNP ID:            hCV2435972
SNP Position Genomic:     599900
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36043):
AGGAACTTGGCATCATGGGACAATGAGGAGAGAATTAATCATCACCCTATCAACTACAATATATTGATGCCGACTGGACAGTTTTTACCGATGCTGATTA
M
CACCACATAAAGAATTATCTTTTTCACTTCTATATACCTTCACTATTCAAAATAGTAGCCACAAGTCACAGTAGCTATTTAATTGTAAATTAAATCAAAT
Celera SNP ID:            hCV2435973
SNP Position Genomic:     599722
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,5)      total(A,5|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36044):
ACAAGGAAAAATTATCAATGAAAATAAAGAAGTTCCAGAAAGGAGTGCGGGGGTGGAAACAGACAGACACCTGACATGAAATAAATCACCTGATATACAC
Y
GCCAAGGTCTAATTTGTTTTTCCACCTGTTTTTCCTCATGCCATGTGTTTTTCATTAAGATAAAAAAAGGAACTTGGCATCATGGGACAATGAGGAGAGA
Celera SNP ID:            hCV2435974
SNP Position Genomic:     599554
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:36045):
GAAAGTACATCTTTACACCCATTGACAAATGGGTGTAAAATCCAAAAACACAAAGTAAATTATCTTCTCAATGTATATAGTAGATGCATCCTAGAAAAAA
R
CAAACAAACAAACAAAAAACACACACAAAAATTTGATGTGGAAACAAACTTAAATTAGGTTTCAAATATAAGGCAAGGTTTTGTTGTTTTGTTTGTTTGT
Celera SNP ID:            hCV27442814
SNP Position Genomic:     4907
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:36046):
CTATTGCAAAAAGTTTCAGCTTTGCATGTACTATATTTTGGTTTTGCTTTAAACATTGCGTAGCTATTCTTTCCACTGTTACAGTATTAATGGTAGATGC
R
TAAAAGGAATCTTCCTTTATAAAAAGGTCATATGTGGATAAAGGTGATATAAAATGTTTTTAATAGTGTTATAAAAAGTTTGGTCAGGCGAAGTGGCTCA
Celera SNP ID:            hCV2435975
SNP Position Genomic:     565856
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36047):
TGTCCACACAAAAACCTTCACATGTGAAATATGAGAATAGTTATAATCTATAGTGACAAAATTAGATCAGCAGTTGCCTTTTTCTGGGAATGGAGGTTGG
R
GGATTTATTGCAAAAGGTCAGATGCTGATAGCAGTTGTATCAATAATTGTCAAAACTTGGAACCAACCAAGGTGTTTTTCATTAGATGAATGGATGAGTA
Celera SNP ID:            hCV27442816
SNP Position Genomic:     1436
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:36048):
TGTCCATGAACTTAACTCTTCCATACTCTTCACTTTCAGTTTCTTGTGCCTCTCTGGTCTCCATTTGAAGCGTTTTTTTGTTGTTGTTTGGTTTTTGTTT
K
TTTTTTTTTTTTTTTCCCACTGTGTCGTTTCTCTCTAGTTCACTTCTTCTAAATACTTCCACTTCAATGTGTGTAATCTCACAATTGATGCACACACTTT
Celera SNP ID:            hCV27442671
SNP Position Genomic:     453246
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36049):
ATGGAAGGACAAAAATCTTTAAAATTCTTAGAAGAAAATATACCAGGATTAAATTTTGACCTTCGGGAAAAGAACACTTGATTGAACAAAACAAGATTAT
R
AGTGGAACTGCATTAAAATTAAACTCTTTGGTCATCAAACAACACAAAACACAAGCCTCAGTCTGGAAATGTACAGTATATATAATCTACAGGGAATACA
Celera SNP ID:            hCV16047093
SNP Position Genomic:     606701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36050):
GCTTCCAAAAGCAATTCTCTTTGCATCTGTAAAGTTCTGGGAGAAGCTAGCTTGGCTTGTCTGCTGTTCCTGCATTACCATTAAGGTTTGAAATTCTCTC
Y
CTGAATATTATTAAATTAATCTTATGTGATTTGTTCTTTACCAAAACCTGCTTATTTTCTACAGCATTATGCTATCTTTCTGTTTCTAGCTTAGAGAAGC
Celera SNP ID:            hCV1889370
SNP Position Genomic:     318864
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:36051):
TTAATGTCCATGAACTTAACTCTTCCATACTCTTCACTTTCAGTTTCTTGTGCCTCTCTGGTCTCCATTTGAAGCGTTTTTTTGTTGTTGTTTGGTTTTT
K
TTTGTTTTTTTTTTTTTTTCCCACTGTGTCGTTTCTCTCTAGTTCACTTCTTCTAAATACTTCCACTTCAATGTGTGTAATCTCACAATTGATGCACACA
Celera SNP ID:            hCV27442672
SNP Position Genomic:     453242
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36052):
AAAGTAATCTCTGGTAAACTCTTTTGTTTTGTTGTTCTTGCTTGACTTTCCATTCTACTTCACGGATCTCAAATTAAAGCTATAGATTTGAAGAAGGAAA
Y
TGATATTTGAGATTTGTAGGACAGGGTAGATCTCATCATATAAAAGAAGCTCAACAAATACCTTGTAATTGATGCTACATGCTTAACACAAACAAACAAA
Celera SNP ID:            hCV1889371
SNP Position Genomic:     319160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36053):
GTGATTTTAATGTCCATGAACTTAACTCTTCCATACTCTTCACTTTCAGTTTCTTGTGCCTCTCTGGTCTCCATTTGAAGCGTTTTTTTGTTGTTGTTTG
K
TTTTTGTTTGTTTTTTTTTTTTTTTCCCACTGTGTCGTTTCTCTCTAGTTCACTTCTTCTAAATACTTCCACTTCAATGTGTGTAATCTCACAATTGATG
Celera SNP ID:            hCV27442673
SNP Position Genomic:     453236
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36054):
ATTTATATCAAAGATGAAATTCCTAGAATAGAAGAATAGCGTAGTTGGGGCTGTTCCACCAGATATCAGCACATTAGAAGGTAAAGTTTTGTATTGTGGA
R
CTATCATGTTAATTCATGTATAACTGTGCAAATAGGAAAGAATTGAGAACCCTGAAAATACACAAGCATAGATGGAAACAGCATTTGACAATAAGTGGCA
Celera SNP ID:            hCV16047094
SNP Position Genomic:     606356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36055):
TTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCGCCCACTT
K
TTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGCAGGTTGCGAAAATTTTCT
Celera SNP ID:            hCV27339082
SNP Position Genomic:     45350
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36056):
AACAAAATTAGAACCCCAGCCTAGGTTTTATCTCTTACAGGATTTTTTTTTAATTGACACATAGGATCCTACAAGTGCTTCAACTGGAAACCTATGGGAT
Y
TAATGATTCTGCTTCAAGAGAGAAGGAGAACAAGGGGCCGAGATAGTCCAGGAGGAAAGTTCCTAATACATGACCTCAATTATAAGATAGAGGGTAGAAT
Celera SNP ID:            hCV2435979
SNP Position Genomic:     583470
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36057):
ATTGTCAAATTTCTTAGGATCTAATTTCTATAATTGTGAAATATTAATAGGAACAGTACGACTTAAGGGAGGTGGAATGAATAGATGAGAAACTGGCCTG
R
GTTTGAATCTCGACTTCACCATACAGTAAGCCTGAGACCCTGCACTGGGTGCTACACCTCTTTAGGCTTTAGCAGGTAAACACCAAGTCCCTGAGTAACT
Celera SNP ID:            hCV27442674
SNP Position Genomic:     443969
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36058):
TACTTTTGTATTTTTAGTTTCGTATCATTTATTTCTGCTCTCATCTTGGCTAGCAAGGACTGAACATTCCATATTTCCATGCTGGCCTCCTATTTCACTC
R
CATCATCTCCCCAGGACAATTGTCTTCTCTAGGATGTTCCTGTTGATCAATTGTAGGTGCAAAGTCACCCTCATATTTGCACCTATATTTCCTATGGGTT
Celera SNP ID:            hCV16047095
SNP Position Genomic:     604212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36059):
TCCTAATTAAATTTATAAAGCATTAGTTCTAATGTTAAAAATTGTTATATAAAAAGCATTTTAATATTCACATGCATCTGTCTACAGTGTTTTACATTTT
R
TTTATAATTCGTCAACTGAATGAATACTAGATAGGAGAATGTTCCATTTAATAAAAACTCTTGAGAAAAATAAAATAGCTTACTTAACAGTAATTTCAAT
Celera SNP ID:            hCV1889372
SNP Position Genomic:     320820
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36060):
TGGGAGGCGGAGCTTGCAGTGAGCAGAGATAGCGCCACTGCACTCTGGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAA
A
GTACAATACCTTTAGTCTTATATCTATTTAAAAATAAAGCATTTTTAAAAGATCCATGAACTCCTAACAATGAGGTTAACTACATGTGCCATTTGAGATG
Celera SNP ID:            hCV27442675
SNP Position Genomic:     437059
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36061):
CTGGGAGGCGGAGCTTGCAGTGAGCAGAGATAGCGCCACTGCACTCTGGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAA
A
AGTACAATACCTTTAGTCTTATATCTATTTAAAAATAAAGCATTTTTAAAAGATCCATGAACTCCTAACAATGAGGTTAACTACATGTGCCATTTGAGAT
Celera SNP ID:            hCV27442676
SNP Position Genomic:     437058
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36062):
CCTGGGAGGCGGAGCTTGCAGTGAGCAGAGATAGCGCCACTGCACTCTGGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAA
A
AAGTACAATACCTTTAGTCTTATATCTATTTAAAAATAAAGCATTTTTAAAAGATCCATGAACTCCTAACAATGAGGTTAACTACATGTGCCATTTGAGA
Celera SNP ID:            hCV27442677
SNP Position Genomic:     437057
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36063):
CTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTTTTCTCGAGAAGTATCTTTGTGGC
S
TTCTCTGTATTTCCTGAATCTGAACGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTTCATT
Celera SNP ID:            hCV27339086
SNP Position Genomic:     32954
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36064):
ACCTGGGAGGCGGAGCTTGCAGTGAGCAGAGATAGCGCCACTGCACTCTGGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAA
A
AAAGTACAATACCTTTAGTCTTATATCTATTTAAAAATAAAGCATTTTTAAAAGATCCATGAACTCCTAACAATGAGGTTAACTACATGTGCCATTTGAG
Celera SNP ID:            hCV27442678
SNP Position Genomic:     437056
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36065):
AACCTGGGAGGCGGAGCTTGCAGTGAGCAGAGATAGCGCCACTGCACTCTGGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAA
A
AAAAGTACAATACCTTTAGTCTTATATCTATTTAAAAATAAAGCATTTTTAAAAGATCCATGAACTCCTAACAATGAGGTTAACTACATGTGCCATTTGA
Celera SNP ID:            hCV27442679
SNP Position Genomic:     437055
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36066):
TGGTTATTTTGCTCGTTAGTTGATGCAGTTTCTTCCTAGTCTCGATGGTCTTTACATTTTGGCATGATTTTGCAGTGGCTTGTACTGGTTGTTCCTTTCC
R
TGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCGCT
Celera SNP ID:            hCV27339088
SNP Position Genomic:     32594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36067):
GAAGTTAACTCCAAGCCTATTGATTTGCAAGTAATATCAATCAAAATTCAAAAATTTTTAAAAATGCAAAATTATACAAACTTTCCAGAGAATAGAACAA
Y
TGGGACGTACTCCTCACATAATTTTATGTGGCTTGATATAAAATCTTGACAAGAGGACTATGAAGAAGAAAACCCCTACCCAAAGTCACTCATGAACGTA
Celera SNP ID:            hCV1889378
SNP Position Genomic:     321808
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36068):
ATTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGATAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCA
W
GTATGTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAAAAAAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATCAGGTCCGC
Celera SNP ID:            hCV27339089
SNP Position Genomic:     31859
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36069):
TCTTATTTGGAACAGTTATTCAGCTTACCCTAAGTCCAGAGTGAATTTCCAAAAAATCAAAGGTTCTGCAACTTTTCATTTCTCTTCAATTCCAACTCAG
K
TTCACACGTTTATCACCTAGTGTAGAAGGGCTTTCCTCCACAGTTTTGCTTGGCAAACTCCTTTTCATCCTTCAAGACTCAACAAAATTGTTGCCTTTTC
Celera SNP ID:            hCV7844593
SNP Position Genomic:     61918
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36070):
TATCATGAAAATGTAAACATTTTGGAGACCCAGATCCTATTTCAAATAGAGTCAAGATGACTGCCCTAGAAAATGCTTCTTGAAGTCATGGAATAAATTA
K
ATGATTGTTTATTTAAAAAAAAAGAACAATAATACATAGGAGATCTGTTAAAAAATCTGTGAGGAAAGAGCTGTTAAAATGTTGAAACCACATGAATTCT
Celera SNP ID:            hCV378863
SNP Position Genomic:     191927
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36071):
GGCTCCAATTTGGAATTGGCCATAGACACCCACTCTGAGAAGTTTGGGAATAAGAAAAGAGAAAACACATTAAGAACTAAAACTGTAAGGACCCATACTG
K
CTTCTTAAAGGAAGTTTTACTGAGAATTTTAATCTTCAAAGCCTAACTCTCATTCACATTCAAAAGATATATACATGAGGATGGAAACTGTCCGGAAAAT
Celera SNP ID:            hCV2435980
SNP Position Genomic:     602535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36072):
ACTCCTACAAAATCTAGGACTTTAAAAATGAATATTTTAAGCACTTTAAATTCCTAACTACATGGGCTTGCTTAAATAAATACTAGCAAATTCATAAAGT
R
GAAAGTCCTCCTGCCATTAAAAGTGACTATCTACATTTACTGAGAGAGTGATATCTTCCACATATGTAAGAAAAAAAAGTCATTAGGAATGAACATGTCT
Celera SNP ID:            hCV2435981
SNP Position Genomic:     603005
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36073):
TATGGAAATTTCATGCGACAAAGCAGGTAAACTCTAATAGAAAATATTCAAGCTCTTATTTTAGAGTCTGTAAGGAAGGTTATTGACCTACAGATATCAG
R
TAAGAAAGATTGGAAAGTGATTGGTTTTGCAGTATAATGATAGAAGATAAACCATGGAGGCTTCCCTGTGACCTGGAAGAAGCTACTACCATTCATCAGA
Celera SNP ID:            hCV25964804
SNP Position Genomic:     438886
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36074):
AAGTGACTATCTACATTTACTGAGAGAGTGATATCTTCCACATATGTAAGAAAAAAAAGTCATTAGGAATGAACATGTCTATCAAGATTCATTTTAAATA
Y
AGGGAGGAGGAGAGAGGAAGATGGCAAGGTTGTGAAAGAGTGAATGAATGAATGAATGAATGAATTATAGAAAGCTATATGCTTCTGCACAGCTTTGAGA
Celera SNP ID:            hCV2435982
SNP Position Genomic:     603126
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36075):
AGTTCACTTTGAGTCCAAAGGCCAGAGAATCACGGGAGCTGATGGTACAAACCACAGTTCAAGAACTAGAGAGAAAATGAGATGAGATGTCCCAGCTCAA
Y
CTGTAAGGCAGAAAAGAAGGGAAGGAATTCCTCCTTTCTTTGCTTTTTGTTCTATTCAGCCCTCAAGAGATTGGGTGATGCACAGCAATATTGAGGAGGG
Celera SNP ID:            hCV2435984
SNP Position Genomic:     533602
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36076):
TCTTTTACTGTCATCCAGAAACACCCTCACAGACACACCCGGAAATAATGTTTAATTTAGGTGCCCATGGCCAGTCAAGTTGACACATACAATTTACAAT
S
ACACTGGCCTTCAACTCCAGTGCACAATGTGGTCTTCCTCTTTATTCTCCAAATTCAAGTTCTCTTACTTGCTACAGTTGTCCATATTTCTTGGGAACCA
Celera SNP ID:            hCV2435985
SNP Position Genomic:     533808
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,8)   total(G,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36077):
TGGGCTCCCGTGCTAAATAATACAAAAATAATGATGAAGATTCTTTTTTTTTTTTTAGACAGAGCCTTGCTCTGTCGCCTAGGCTGGAGTGCAGTGGCGC
R
ATCTCGGCTCACTGCAAGCTGCACCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCAGGAGTAGCTGGGACTACAGGCGTCCGCCACCACGCCCGGC
Celera SNP ID:            hCV27442680
SNP Position Genomic:     433822
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36078):
TGCAGAGTATGTAATCCTAAATACTGGTTTGCAGCAATTTAATTATGCTTTTTGTTTTCTTTTTGTGTGTTTAATAATTATTTTTTCATGGGATTAGTTA
R
ATCTGTTGGCCCTGTAGGATTATAGTTTTCATCAAATTTGGAAATGAAAGTTGTCAGCCATTATATCTTTAAATATTTTTTTGTTCTTCATTCTTATTGT
Celera SNP ID:            hCV27442681
SNP Position Genomic:     429110
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36079):
TCCAGTGCACAATGTGGTCTTCCTCTTTATTCTCCAAATTCAAGTTCTCTTACTTGCTACAGTTGTCCATATTTCTTGGGAACCATCATTCTAAAAAATG
Y
TGACCAGGCCTTTCTTAGGCATTTCTAGGAAAAATAATATAAAATACAGAATAAAGTGAGGGGAGTTCAGATATAATGCATTTCTCATAGAAAAAATGAT
Celera SNP ID:            hCV2435987
SNP Position Genomic:     533924
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36080):
TTATCATTTTATTCCTGTTGTTTCAGGTCTGCTGACAATAATTTTTTCCTTTTTTTTTTTTTTTTTTTTGTTCCAGAAAGGTTTTTTTTTTTTTTCCGAA
R
ATGTTTTTGCAGAGTATGTAATCCTAAATACTGGTTTGCAGCAATTTAATTATGCTTTTTGTTTTCTTTTTGTGTGTTTAATAATTATTTTTTCATGGGA
Celera SNP ID:            hCV27442682
SNP Position Genomic:     429002
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36081):
GTTGACCAGGCCTTTCTTAGGCATTTCTAGGAAAAATAATATAAAATACAGAATAAAGTGAGGGGAGTTCAGATATAATGCATTTCTCATAGAAAAAATG
W
TAGTGGGATGGTTAGTAAAGAACTGTGCTGTGTAAGCAAGATGTAAGCTTTAAACAAAGTGAAGAAAAGGGGAGAAGCCTAGAAAAAATAACATTATACA
Celera SNP ID:            hCV2435988
SNP Position Genomic:     534023
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36082):
ATGTAAGCTTTAAACAAAGTGAAGAAAAGGGGAGAAGCCTAGAAAAAATAACATTATACAGAAAGAGAATATTCTTAAATATGTCAACTTCTCTTATAGC
R
AATTTCCCAGTGTTCATTCCTAATACAAGGAGAGTAAAAACTCCATAGAAACCTCAAAAAGAGCTTTTTCTTGCAATGGGGTTAGGTGTCTAAGGAATAA
Celera SNP ID:            hCV2435989
SNP Position Genomic:     534164
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36083):
CCTGGATTCATTAATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGT
R
TTTGCTCTTGCTTTTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCTGTCTCTTGTGGGCATTTAGTGCTATAAATTTCCC
Celera SNP ID:            hCV27339092
SNP Position Genomic:     31493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36084):
TGTATTTGTGATAAAGACAGCTAAGCAGAAGCAAGCATTTCTCCGATGTCAAACTGGCCTTACTGTAGGAAGTTTGAAAATATCATCTGCTTCTGTCTCT
K
GAATAATATCATTGCTCTGTTTTGTTTTTATTTTATTTTATGGTTGGTTTTTAAAGCCCAATATGTGGCGGGATCCAGAGAAGCGATTCTGTGTGCTATG
Celera SNP ID:            hCV27442684
SNP Position Genomic:     415373
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,12)   total(G,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36085):
CATACATTATGGAGAAGGCATTTCAAAAAGGCAGGCAAGTTCATCTGGTGGATTCTATAGGACAACATGAAACTTAATGGGATACATAGACTTCTTAAGC
Y
CTCCCCGCTCCCCAGCTGGCAAATTTTTAACAACTTCTCCTTAAGTGATGAGAGAGGGGTCAAAAGCCAGGACTAATCTCACAATTGCCACTGAAAATGT
Celera SNP ID:            hCV27442685
SNP Position Genomic:     406285
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36086):
CCCCAGTGAGGTGACCCTGGTACCTCAATTGGAAATGTGGAAATCACCCATATTCTGTGTCGCTCATGCTGGGAGCTGTAGACTGGAGCTGTTCCTATTC
S
AATTATACTGGTTTCTAAAAAAGATTGTAATATATTGTTGAGAGTGAAGGGAGTTTTATATCAATAATTAAATTATTTTAAAATATTGTTTATTTCATTT
Celera SNP ID:            hCV1889383
SNP Position Genomic:     351283
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,11)      total(G,11|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36087):
ATTTGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGAGTGTATGTGTCGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTG
Y
GTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGATATCCCCTTTATCATTTTTTATTGCGTCTATTTGATTCTTC
Celera SNP ID:            hCV27339094
SNP Position Genomic:     31224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36088):
ATATTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTTGTTTTGCCAGTATTTTATTGA
K
GATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTGGTTGTGTCTCTGCCTGGCTTTGGTATCAGAATGATGCTGGCCTCATAA
Celera SNP ID:            hCV27339095
SNP Position Genomic:     30855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,2)      total(G,1|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36089):
AAAGTAGAGCATGGAGGGCCTAGGAAGGATGATAGTGGTTGAATAGACTTTAATTTTATATAGAATATTAGGTCAGAGATCTGAAGGTGACTAGGAAAAA
R
TTATGTGGGTATCTGGAGCAAGAGCATCTTAGGACAAAGAGAAAGTAAGTGAAAAGGCCCTAAGATATGAATGTGGCTGGCATGTTCAAAGACCCTCAAG
Celera SNP ID:            hCV1889385
SNP Position Genomic:     352137
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36090):
TAAGGCAACTATTCATAGTGAAGCTGACCTTAATGCTATCTTTTAAAAAGTTTTGTTAAAAATAAATTTGAGAAAGAATTTTAAATAACTTAGAGAAAAG
M
CTGTTTTCAAATATCACCAGTTACTACAGAAATACATATCCACATTTAGTTGATGAAATTGGCACGTGATGTTTAAAATTTTTCAATTTTCTCCATGTTT
Celera SNP ID:            hCV27442687
SNP Position Genomic:     392752
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36091):
TGTTGCAGCCTAGAAATTGCCTCTGTACACTGCTTCATGTTTTTTTCCTTCTCTCAGAAATCACAGTCCTGTGCTTCCTATAATTCAATATCTAAAAACA
R
TTGTTTCTTGGTTTGTATTTTTATTTTAGTTGGTTGTGTACTTTAACAGCTTAACAAAGAAGAATAAATACTGTAAAAACTAAGAAGAGGCTGTTCAAAA
Celera SNP ID:            hCV257237
SNP Position Genomic:     430279
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36092):
ATGGAAAACTTAATTAAGGATGATGGGGAACTTAGAGCAGGCACTGACACAGGGAATCTAAGACTAAAATACCCTGTTTTAATCAGAATTCAGTTTTTAT
R
TAATAAAGTGTTTCACATTTTAAACAAGGAATGAAAAATACAAGCAAAGTTACAGAAGAATGCCATAAAATAAGCTATCAAGAATGTGAGAAATAAATCA
Celera SNP ID:            hCV27442688
SNP Position Genomic:     389192
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36093):
AAGAGGAGTTGAGGATTATTTCCCAACTATGGACCTGAGCAACTAAAAGACTTGTCATTGATTTAGATGGGGAAGACTGTGGTAAAAACAAATTTTTTAC
R
GGAGATCATGAACTCAGCTTAGCTAATTATATAAAGTTAGAGATGCCTATTATATATCGAGGTGTAAATGTTAAAGTGATAGCTAGTATACAAGTCTGAA
Celera SNP ID:            hCV1889387
SNP Position Genomic:     352694
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36094):
ATTCTAAGTGCCCACTGAATATAAAATTACTTGAATATTACAATTGCTTAATTGGCTATGCTTTTAGTCTCTTCCTTCTCTCCTTCAAAAATATTTTCAA
Y
ACATTCTAGATATGTTTGATAAATTCTGTAAATTTACCTGTATAAATTATTAATAAGTACATACAACATAATCCCTGTCCTATCTGTTTAGGGAGACAAT
Celera SNP ID:            hCV27442689
SNP Position Genomic:     385012
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36095):
ACTTTTTAATGACTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCAT
S
TGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTT
Celera SNP ID:            hCV27339098
SNP Position Genomic:     29211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36096):
ATGAACTCAGCTTAGCTAATTATATAAAGTTAGAGATGCCTATTATATATCGAGGTGTAAATGTTAAAGTGATAGCTAGTATACAAGTCTGAAGTTCATT
K
GGTCAGGAACATCTGAACTGAAGATGTAAAATGTTTGAATCATCAATCCATATGTCATTTAAACCAGAAGACTAGATGTGATAACCAAGAAAATGAATAA
Celera SNP ID:            hCV1889388
SNP Position Genomic:     352802
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,11)   total(G,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36097):
GAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGACTGCCATTCT
R
ACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGT
Celera SNP ID:            hCV27339099
SNP Position Genomic:     29133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36098):
CATCTGAACTGAAGATGTAAAATGTTTGAATCATCAATCCATATGTCATTTAAACCAGAAGACTAGATGTGATAACCAAGAAAATGAATAACGAGACAAA
R
TATGAGATCTAAGGATTGGGCCCTATAGCACCCCAACATTTAGAGGTTAGGAAACTGAGGACGAACTAGAAAGGAGACTAAGAATCAGTGACCAAAAAAG
Celera SNP ID:            hCV1889389
SNP Position Genomic:     352912
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36099):
TGCCTCTACTGAGAGGAAGTTAAGACTCATCAACTGTCTAGCCATTTGTCAGTTCTAAGATTCTAATATTATAGTCTATTGCTTTTAGAGTGCATACTTG
Y
ATTTAAATTTCTGAATTCTTAAAATGTCAAGAAAATGTTAAATATATAAAAATGTGTTTTTAAATCCCTTCTGGGATTTAAAATAAAAACATGTTTGAGA
Celera SNP ID:            hCV315508
SNP Position Genomic:     9810
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36100):
GTGGATCCATAGAAGAACATGACAAACAACCAGGTTTGAATTTTATAATATGGAGAAAATAGCTCCTCTCCTCACTTCCTCCCCATGCCATTTTGAGTTG
Y
TCAGAAATAGCTGAATTGTGTTTGAGCAACTTGCTTCTGGAAATGACCATGCAGTGATCAGATGTACAGTTAGTGAGGGATGCTTTATGAGGGAATGCCT
Celera SNP ID:            hCV315509
SNP Position Genomic:     9614
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36101):
CCTTCTCTAGCACATTAAATATAGCATGTGAACTGTAGAGATTTACCTAAAGTGCCCATAAACAAGAGTGGCCAACTTGATGAGAAGTAAGCCAAGTGCC
Y
CTTAATAAGTACTGTAATAACATAGCCTCCTGGAATGGTCTTTCATCATTTTGTCAAGAGGAACTTTTATCCCTGTTTATATAAAGCTCCTTTGCTAAAT
Celera SNP ID:            hCV2435993
SNP Position Genomic:     637804
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36102):
TGTAAATGCTCGAGTTGGAAAGACCCTCATGGTGGTGTAGTCTGCCTTCCTTCTTTCATAGATTGGCCTCAGAAATTGAGTGTCATGCAGTTCCAAAGCT
R
GAATCCAAGTCTTCTAGCTCTGCCCCGGTGCTTTTTTCCTCTGAAATTTTTCCAGTTGAGAAGAGATTAGGAATTCTCAAGGTGTGCCTAACATTCAGCA
Celera SNP ID:            hCV2435995
SNP Position Genomic:     563801
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;JBIC-allele(G,682|A,793)   total(G,682|A,793)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36103):
GTGGGATTGAAAATGTTTAAAGAAAATATCTTGCTATATATATATAAAAAACAAATTATATAGCATATATATATATATATATATATATATATATATATAT
W
GTGGGTAGAAAAAAGACAATTGTAACATCAAGGGTATTTTTGTTGTTTTAAAGTGTCATGTTTTGTGCTGGTTGTTTTAGTGTAATATAGCATATCTTAC
Celera SNP ID:            hCV27442690
SNP Position Genomic:     379616
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4|T,4)   total(A,4|T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36104):
AGTATCAGTTTCTGTCAGTTACTGCTCTTACTCGATGTGGGATTGAAAATGTTTAAAGAAAATATCTTGCTATATATATATAAAAAACAAATTATATAGC
A
TATATATATATATATATATATATATATATATATATAGTGGGTAGAAAAAAGACAATTGTAACATCAAGGGTATTTTTGTTGTTTTAAAGTGTCATGTTTT
Celera SNP ID:            hCV27442691
SNP Position Genomic:     379580
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36105):
CATTCAGTTCAAAGAAGGCATTGTACAGTAGAGAAGACAGATATACATATACATACTGTACATTTATGATAATATAAATAGTGCAGAAGAAGTGTGCACA
R
TGCATATAAATAGTGCAGAAGAAGTGTGCGCAGTGCATACTGGTAGAACTAAGAAGGAAGCAATGAATTCTTGTGTTAGCATTTAATACACTTTTAATAA
Celera SNP ID:            hCV27442692
SNP Position Genomic:     379368
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36106):
AGAGTTTTCTGAATTTAAGTTCCTTATAGAGCCCCATGTAATGAGCTCTTAGAAGACATTGCAGAGCTGCAATTTAAAATCCTGTTTAATCAGCCGTAGC
R
AGCTATGTGCCATTCTCTGTGGAACACTAAGAGGAATCAGGGTTCTTCCTCCTCCATCCAGTACATTCCCAACCAGGAATTGCTGTCTGGTCAGGGTTGG
Celera SNP ID:            hCV1889393
SNP Position Genomic:     371884
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36107):
TGAAGTGGTCTGCTCTCTCTCTTTCTGTCTCTCTCTTTCTCTCTCTCTCTGTCTCTCTCTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTAT
M
TATATATATATATATATATATATATGGCAACTAGATGTATACTTTGGAATTCCTTTAAGGTGAAAAGAGTTCTCTAAATGTAAAGTGTTGAGTGAAATTA
Celera SNP ID:            hCV27442695
SNP Position Genomic:     373896
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36108):
AAACTAAGCCTATTTAATTGCACAGAGGAAAGTATACCTTCTTTGCCTGTTTTGTTTGAATTTTAATATAAAATAAAATTTGCTGCTAACCTTTTGTTTT
W
CTTTGACCAATAACATTTCTCAGCTTAGTGTATGGGCTATGTAAAGTGCCTGTCAAATGGAGGGATGTCTTTGTTGAAAGAATCCAGACTCACAGAAAGT
Celera SNP ID:            hCV1889394
SNP Position Genomic:     372434
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,9)      total(A,1|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:36109):
AGTTATTGCAGTGCCCAACAGATATTTAGTATTGCTGTGTGTCCTTCAAATGTTTACAATATTCCACTGTGCCTTTGTGAGTTCACTGCAGCACCCTGGG
R
CACCTCTACACACAGTTTGTGAACACAGGGGTAGATAGATCCTAGAGGCATTGAAACTACACGGAAACTTGAATGACGTTAGGGATCCCAGAGCCACTGG
Celera SNP ID:            hCV27442697
SNP Position Genomic:     369306
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36110):
GCAAAAAATTAGCCAGGCTTGGTGGCAGGCGCCTGTAATCTCAGCTATTATGGAGGCTGAGGCATGAGAATCGCTTGAACCTGGGAGGCACAGGTGGCAG
Y
GAGCCGAGATCGCGCCGTTGCACTCCAGCCTGGGGGATAGAGCGAGACTCTGTCTCCAAAAAAAAATAAATAAATAAAAAATAAACATAAATTTTTAAAG
Celera SNP ID:            hCV1889395
SNP Position Genomic:     374694
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36111):
TTTTATATAGAGTTCTCCCTGTTTGGAATCTTTTAGTTCCCTTATTTACTGTGGTTGCCACTGACTCTGCATCAGGCTTTGGAAATATCACTAAAAAACT
G
TTTTTTCTTTAGTCTTCTTACTAGTCAAATATCAGCTAAACAAACAAAGAAAATAAGTGTTTGAATGGTCAGAGAACTATAAGAATGAGAATTCTGGCAG
Celera SNP ID:            hCV27442698
SNP Position Genomic:     368562
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36112):
AGGAACTTCCTTCTAAATCAGGTTAAGTTAGACATTCAAATGTGACCCCAGCCTGACAACCCGGTATACCTTTAATGAAAGCAATGTCTCCAATATTGGA
K
TTTTTATTGCTGACACCACCACCTCTCACCTCCCTGTCCCTCATCATTTCCCTGTGCTGCCTAGTTTGCCTTTCACTGGTAATATTTCAACTTAGTCTAA
Celera SNP ID:            hCV1889396
SNP Position Genomic:     376153
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36113):
GTTCTAATTAATGCACGTGTGAAAGGACATAATTATTGTGAAAAGAAATGCTATCAAAACAGTCTAATGGCTACAAGAAGAAAAAGAAAAGAAGAAGAAG
G
AGGAGGAAGAGGAGAAGGAGATGAAGAAGAAAGCTAAGGAGAAGATGGGTAACAGGAAAAAAAGAGGGCAGGAAAAGCAGATAGGAAGGAAAAAAAAGGT
Celera SNP ID:            hCV27442699
SNP Position Genomic:     366687
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|-,9)   total(G,3|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36114):
ACTTAGTTGACAATTCTTTGATAGCTCATGCATCTCTAAAATTTAGTACTATATTATTGCCAACATTATGTATTTAAATGAATGCAGCTTGATATCAAGA
R
AATGACCATACTGAAGGGGAAAAAAAAATAAACTGCAGCCTTCTTCATGAGTAACACTTGAAACTGTTAAACACATTAAAATCCCATTTAACAAATAGCA
Celera SNP ID:            hCV1889398
SNP Position Genomic:     380006
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36115):
TATGTGTTCATGAATATGAATAGCAATATTATTTATGATAGCTCGAAGGTAGAAACAATCCAAATATTCATCAACTGATGAATGAATAAACAAAATGTGG
Y
ATGTACATGCAGTGAACATTAGTCATTAAAAGGAATGAAATACTGATACATGCTGCAATGAAGTTATCTAGAATAGGTAACTTCATAGCAACAAAAGCAG
Celera SNP ID:            hCV1889399
SNP Position Genomic:     381200
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36116):
AGGAAAGATTTAGGGAAGGCAATCATAAGGACTGTCCTCAAATTTTCAGAAGAGTCGTTATGTTAAAGAGGGACTATTCTAAAGGCTGAAGGTGGATCCA
Y
AGAAGAACATGACAAACAACCAGGTTTGAATTTTATAATATGGAGAAAATAGCTCCTCTCCTCACTTCCTCCCCATGCCATTTTGAGTTGTTCAGAAATA
Celera SNP ID:            hCV315510
SNP Position Genomic:     9523
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36117):
AGAATGATGCAATCAAAATGATTCTGCATTTCAGCAAGGCAGTGTCTAAAATGTTTTCTGATATTCTTGTGAATAATATGTGGAAACTGAAGCATAATGG
Y
AGGTAAATTGCAACTGATTGAAAAATAGTTCACAAAGAATATTGCATAGTGGATTAAGGTCAATCCGGAAAGAAGTCTCTAGCAGTGCAACAGAGGTTTT
Celera SNP ID:            hCV315511
SNP Position Genomic:     8806
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36118):
GACCCCTCATTTCTGAAGGAGTTCCAATGTCCAGGTTTTGATTTTGTCCCTGTCTTGTTGGTTCAAGGGGAGGAATAGTTGGTTCCTGGTGTTGTTAGAG
K
TCAAAATTTTTCTATTGAACATGCCTGGGCTACATGACTTGCAGCTTTTGGCTCTGTTATACCTAAAAGGTAACTTGACATTTTGTTATCAACAGGGTAG
Celera SNP ID:            hCV11200251
SNP Position Genomic:     467885
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36119):
CAAATTTGATCACTTACAGTAAGGTATATTGAGGCAGATTTTAGCCCTGGATCTTCTGGGCCAATGGACCCCTCATTTCTGAAGGAGTTCCAATGTCCAG
R
TTTTGATTTTGTCCCTGTCTTGTTGGTTCAAGGGGAGGAATAGTTGGTTCCTGGTGTTGTTAGAGTTCAAAATTTTTCTATTGAACATGCCTGGGCTACA
Celera SNP ID:            hCV11200254
SNP Position Genomic:     467819
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36120):
GCTAATTTTTATATAAGAAAAAATACTATGTACACTATTTCAAAGCAGACAGAAAAGTCATATGAAAAGGGTATGTCAAAAAAGTTTCAAAAAGAGGCTC
Y
TGATTTATGTGTTGTGTGTTTGTGGACCTAACCAGGACATTTGATTCAATTAACCAAGTTTAGTATGTCAGCAACCCTCTGAAAGATTGAGAAGATTGAC
Celera SNP ID:            hCV11200259
SNP Position Genomic:     460606
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36121):
AATCTTCTTGGCTGTGAACAGAAATTTAAAAATTTACAGCAGCACTACCATAGAGTGATTTATACAAGTGCTTTTAAAAAATCTCTTCTATGTCATCAGC
R
TGTCCCCTTTCTTCTGATCTCAGGGGAAAAAGCTTTGTGTATGCATGGCCCAAATTTGCCCAAAGAAAATTATGTAGGAGCACTAGCATTTATTGAACAC
Celera SNP ID:            hCV3083145
SNP Position Genomic:     582303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36122):
GTTGGCCATTTCTTAAAAGACTAAATATACATCTACCATACAAACCAATCATTTCACTCCTAATTATTCACCCAGGACACAAGAAAGCATATTTTTTATA
S
AAAGACTTGTACCAAAATGCTCACATTACTTTTATCTGTGTTACTCAAAAACTGAAAACAAATCACATATCCATCGACAGGTAAATAGATATACATAAAT
Celera SNP ID:            hCV3083146
SNP Position Genomic:     592242
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,7)   total(G,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36123):
TGAAAGGTAAAAGAAGCCAGAGAGCTTGACATTATGGAAGCCAGAAGAAATTTCCTATAGGGAAGGAAATGCTAACAGCATTAAATATTGCACAAACATG
R
ATTCAGATAAAGTTTAAAAGAACTCCACTGAGTTTGGGTATAGGCAGGTCCCTGAGGACTTTAGCAAGACCAGAGATGACAGAGTAGTGGGAGAGGAATT
Celera SNP ID:            hCV3083147
SNP Position Genomic:     593263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36124):
TTTCCCTCTGCGTGCTAATACCATACTATCTTCATTGCTTTAGTAAGTCTAGAATTTAGGTAATATAATGTACCAACTTTATTTTTTATTTTCAAGATTG
T
CTATAGTAGGGGCTTTTTTGTGTGTGTTTCTATACAATTTTAGAATCAACTTGTCAATTACAGAAAATATTAGGATTATTGCTTAGACTCTATATACAAA
Celera SNP ID:            hCV11200401
SNP Position Genomic:     278656
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36125):
ATTTGGAATTGTCATAGATATATTGGCCATGATCATTTGGAAGCCAGATTTCATATAATTAGGACGTTCTTCATTTGAGTACCATTGAGTGCCCTGACAT
W
CCTTTTTTGAATCATCCCACCAGAATCCTTGATGAGGCTAAAAACATCTCCTTCAATGCCACTGCAGCCTTCAAAGCTTACAGCAATATTAAGGACTATA
Celera SNP ID:            hCV26000048
SNP Position Genomic:     526436
SNP Source:               Applera
Population(Allele,Count): african american(A,10|T,8)   caucasian(A,11|T,13)   total(A,21|T,21)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36126):
CTGTATTTAGAGTAATTGAACACATGATTTTACTTGAATGCGGAGAAACTTGACCAACTGTGAATATGCAATTTCACTCTACAGATGAAATAAAATTAAA
Y
GGGGCAAAAGTAAAGAAGAATGGAGACTAGGTAAAGTGATGGAAAGAGACACCAAAAAATTAGTCATGTGAAAGCAAAACTAAGAGGAGAGGGAAAGGTG
Celera SNP ID:            hCV11200404
SNP Position Genomic:     256187
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36127):
GTTTGACAAATTGAAATGCTAATTATGATTTATCATTTCCATGACATCAAATATCCAGATAGTAATAAACGTTGATGACTAACTATATTTTTCAGTTTCA
S
CCAGATGTTTGGCATCACGTAAGATACCACCTTAGTTTTACATAAAAATAAAATGTTTCTTGAGTCTGGCTTATCATAATGGGGAGGAAACTAATATGAA
Celera SNP ID:            hCV11200405
SNP Position Genomic:     249214
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:36128):
AGAAGAAAAAATTCACCCAAAATGCAACATAACATTTTAATGTTTTAAGTATTTCCCACCAATTTTTACATGTGTTTATGAATAAGATTTATATAACACC
A
TGGATGCAGTTTTATGTCTTGTCCTTTACATTTTTACCTATCATGAGGTTGTATTATGTTGTTAGATATTATTTAAAATCTTTACGATCTTTGTTTGGAT
Celera SNP ID:            hCV11200268
SNP Position Genomic:     451496
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36129):
CATGGGATTTGAAAAACTGACTCCTACCTTTTATTCATAAATCAAGCAATGTCTGCAGCTATGCATGAGGAGAGGACTGAGCCTGAAACACAAGACGGTT
Y
TCATCTTCGTGCCAGAGCTGTGGACTACCTTCCAGAAAGCCAGAGATGTTTGTTGATACATTTTCATAATAAACCCAAATGAAGATGGAAGTCTTGATTT
Celera SNP ID:            hCV11200269
SNP Position Genomic:     450203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36130):
GCTGAACTTGTGAAAATTGAGAACTAATGTTTATGTATTTCCTTCTCCCTCCCTAACCCATCAACTATTATCTAGCCTTGGAAAAGTGTGTTTTAGGAGT
W
AGTCCTCAACAAATACTGCTAATTAACTAATTATCCTTCTTTTGTTAACTTATTTTAATACTAGGATGCATTAGTCTAAAGGTCATAACAGAAGAAAACC
Celera SNP ID:            hCV8922801
SNP Position Genomic:     307775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36131):
AGAAAAGCAGCTGATAGATATTTTTTAAAAATTAATGATGACTGTGTGTTTTCTCTAAGATACAAGATATGAGTGGCTGGTATCTGACTGACCTTCCTGG
Y
CGCATTCGAGTGGCTCCCCAGCAGGACGACTTGGACTCACCTCAGCAGATCAGCATCAGTAACGCGGAGGCCCGGCAAGCCCTGCCGCACAGCTACTACT
Celera SNP ID:            hCV8922802
SNP Position Genomic:     315543
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36132):
AATGTCCCTTCAGTACGGGATTTCTTTCTACCATTTTCCTGAGTAATTACCTTCTAGTCATCATTCAAAAAGCATTTAAGCATTGAATTCTATAGGAAAT
R
TTTCTAATCACCCTATCCCCCAGCTCTGGCTGAGTTAGGCCTTCTCTGCACAATTCCCATGAAAGCACCTACCACCCAGCAGGCAGAAATATCCCTCTTT
Celera SNP ID:            hCV8922803
SNP Position Genomic:     334542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36133):
TGTTTATGGGATGGAATCTTTTTCAGCACTTGCTGTCACCTCAGCGGGCCCCAGAGAGGCTTATTCAGCTGGCAGAGGGCAATCTGAATACACTCGTGAC
M
GAAATGAACGAGCTGCTGACCAGGGTAAGGTGGCAAAATTATGAATCTTCTGAAAGCAGATAGATTATGTCAATGAAGGAAAATTACTTCAAAGTTCTGA
Celera SNP ID:            hCV25962157
SNP Position Genomic:     492619
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,38)   total(A,1|C,75)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:36134):
TTGGAATTGTCATAGATATATTGGCCATGATCATTTGGAAGCCAGATTTCATATAATTAGGACGTTCTTCATTTGAGTACCATTGAGTGCCCTGACATTC
Y
TTTTTTGAATCATCCCACCAGAATCCTTGATGAGGCTAAAAACATCTCCTTCAATGCCACTGCAGCCTTCAAAGCTTACAGCAATATTAAGGACTATATT
Celera SNP ID:            hCV26000052
SNP Position Genomic:     526438
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,8)   caucasian(C,11|T,11)   total(C,17|T,19)
SNP Type:                 INTRON


Context             (SEQ ID NO:36135):
CCTCTTGCCTCAGCAAGCTCTAGGTTGTATTTTAAAGGAGATTAAATATATTTTCACTGAATTTAATTGTATCTAAGTAATACCTTTCGAAGAGTCAAAT
R
ATACAGAAAAGCTCATAACAAAAAGTTGCAATTCTTCCATCCCTCCTTCACTCTCAGAGACATGACTGATCTATCTCAGCTGTTTCTTCTAGCATTTACC
Celera SNP ID:            hCV11200415
SNP Position Genomic:     81545
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36136):
CAATGGGCATAAGATTTTTAAGTGAAAAAAAAAAATTCTACTTAACCAAGGTGGTAAAATAGTCCCCTTGTAATTCTCCATGGGATTTGAAAAACTGACT
Y
CTACCTTTTATTCATAAATCAAGCAATGTCTGCAGCTATGCATGAGGAGAGGACTGAGCCTGAAACACAAGACGGTTCTCATCTTCGTGCCAGAGCTGTG
Celera SNP ID:            hCV11200271
SNP Position Genomic:     450125
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36137):
GGAGGTACTAGAAAGTTCTTAATCTGATATTTTTTCTGGCTTAGTCAGCAATCACTTTTCTTTCATCAATGGGCATAAGATTTTTAAGTGAAAAAAAAAA
A
TTCTACTTAACCAAGGTGGTAAAATAGTCCCCTTGTAATTCTCCATGGGATTTGAAAAACTGACTCCTACCTTTTATTCATAAATCAAGCAATGTCTGCA
Celera SNP ID:            hCV11200272
SNP Position Genomic:     450059
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36138):
GTTGCTCCTAGGCTACAGACCTGCACAGCATGTTATTGGTACTGAATACAGTAGGCAATTGTAACATAATGGTAAGTATTTGCATATCTAAACATATTTA
W
ACATAGCAAAGGTACATTAAAAATATAGTTTTATAATCTTATGGGACCACTGTCGTACACATGGTCCTATCATTGACCAAAATGTCATTATGCAGCAGCA
Celera SNP ID:            hCV11200275
SNP Position Genomic:     447405
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,5)      total(A,1|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36139):
TCCATGCTAGGGGCAGGAGGTAGGATGGAGCAGATAGGGAGTCTCTTTTCCTCTTAAACCGGATGTTTTTTTTAAAATCAGTTTTATATGTTGAGAGTCC
R
TGGAATGGAATGTGGAAACTGAGACCCTGAAAGATTAAGTCACTTGAACAAAGATATACAGCTTCTCCAGAGACCAGGCAGACACTAGGTTTATGATTTC
Celera SNP ID:            hCV8922810
SNP Position Genomic:     335296
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36140):
GATTATATATTTTTTTCGGGCTGAAATCTAATTACTAGTGGGCTGGCAGGATATCATCTTGTATCTACACTGCAGTTGTAGAAAAACATTTTTTTAATCA
Y
GTTGCGTTTGAGAAAAGGAACACTTAAAAGGAAAATCCATCATCCTGGGAGAAGGGGAGAATGAAAAATATGTAAACATTGCCCCAACTGAGGTCCCCCC
Celera SNP ID:            hCV25966445
SNP Position Genomic:     410342
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,33|T,1)   total(C,67|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36141):
TTTTTTTCTATCAATAATTACACAAATAATGTGTATCACTTAAAAACAAAACTTGAATATCTACCAAAAGCTGTGGCTTTCAATTAGAGTATTAACCACA
Y
AATTTCATTTTGTAACTCTTTCTCTCTGAGATATTTTGCCTATAACTGAAAATCTGATGTTTCTGTCTTTGCTACATATTTGATCTATTGTATGCTGGAT
Celera SNP ID:            hCV25973663
SNP Position Genomic:     383820
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:36142):
AACTAAACAGCCAGTTTTCTCTTAAATTCTTAAAAACAAGTCTCTGCATTTTATATCTTTTAAATCTGGAATTACCAGAAATGTGATGCATATTTCATTT
Y
CTGTATGTTCCTCCCCTTCACTTCAACACGTACCCTTGAAGAACTGGGAGAAATGGAACTATTTCTGTGAGAGCCCTGGATGGACCCAAAGCCAGCATTG
Celera SNP ID:            hCV25962309
SNP Position Genomic:     578908
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:36143):
TGGAATTGTCATAGATATATTGGCCATGATCATTTGGAAGCCAGATTTCATATAATTAGGACGTTCTTCATTTGAGTACCATTGAGTGCCCTGACATTCC
K
TTTTTGAATCATCCCACCAGAATCCTTGATGAGGCTAAAAACATCTCCTTCAATGCCACTGCAGCCTTCAAAGCTTACAGCAATATTAAGGACTATATTG
Celera SNP ID:            hCV26000065
SNP Position Genomic:     526439
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,6)   caucasian(G,10|T,12)   total(G,16|T,18)
SNP Type:                 INTRON


Context             (SEQ ID NO:36144):
GAAAAAACAGATACATTCAGTGATTTAAAAATGGGGTAATTCTTTCTGTTTTTATTTCACAAGTCTTTTGTAACTTATTTTAGAGTTTTAAAACTTTGTA
K
ACATATTTAAAATGTTCAATTTTCACTAAAACAATCACATTTTTAAACATAAGGGCATATATTTGGTGTGACAACCTAACATTTGCCACCAAGTGTTAAA
Celera SNP ID:            hCV11200420
SNP Position Genomic:     72575
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36145):
AGTGTTGACTCTTACTGTATAATCTACCATAAATAGAAGCGAAGTTGCACATGCATTTAATTTTTTTTATTTTGGAATTATGTTAAGTTTACACACATGT
R
TGAAGATTATAGAGAATCCTCACATTCCCTCATCCAGCTATCCCTAGGAATAATATCTTAAATAATGACAATGCACATGTTAAAACTAAGAAGTTAGCAT
Celera SNP ID:            hCV256479
SNP Position Genomic:     226155
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36146):
TTAAATGAACAGTGATTTGAGATTTATAGCTTCCCTTTCTTTGTGTCATGGATAATTTCTCTGTGCTAAGGTGTGAGCATACACATCATTTGGGCTGTTA
Y
TGAAGTAGAATACGAAGCCTGCCTTCTTTCACTAGCAGGGGAATAGTGAGTAAATTCTCTATTGCTAAACAAATATTACCTCTATTTATGATTTAAATTT
Celera SNP ID:            hCV322908
SNP Position Genomic:     431846
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36147):
TCAACCATTTTAAAGTATTTGCAAAATTGGATTATTCTGTTGTGTGCGTTTCTAACTATATACATGATGTACCGAATTTAAGAAGCTTATTAAGCTTATT
R
GTTTTTACTGCAGATCGGGCTCATCAAGGAAAAACTAATCCGTACAGCATAAACAAATTAGAAATGAACTTAAAATAAATATACAAACAAAATAGTAAAC
Celera SNP ID:            hCV11200286
SNP Position Genomic:     422942
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36148):
GCATGTAAGTGCTATGGAAGCATTTATCATTATTATTATTATCTTTATTAGTTTTATTAATTGTGTTATACATTGTGCTTTGGCACAGGAAAACTAGCTA
R
TTACTCAGGTTTTCTTTCTATTTAGTGTTATGATTCCGCTGAAGAACTACTTAAGATAATTTCTATTTGCAAGTAATGATTTGCACTGTCCCATGACATT
Celera SNP ID:            hCV11200289
SNP Position Genomic:     422127
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36149):
AGTGGTTATTATCAAATTTTTATTTTAGAATTGTAGATTATTATTATTATTATTATTTGAAATTTGACAGACTTTCCTTTGTTCAGATCCAAGCTGTGCC
R
CTTATTACATGTGTAACATTTATCAAACATTTTAGCCTTCTCAAACTTTAATTTCTTCTTTTGTAAAATGAGAATCACAATGTCTACTTAATAATCTTAT
Celera SNP ID:            hCV26000215
SNP Position Genomic:     267099
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,11)   caucasian(A,6|G,32)   total(A,9|G,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:36150):
GATGGCTTCTTCAGACCCAAAGGGGTAAAGTATGCTTTTTCTTTCATAAAGAGTTATTTTTTTGCTTTTTCATACAAAAATGTTTTATACAAAAAAATAA
K
AATTTTGAAAGCTTCTGTAAACAGTTGAACTTCAAATTAAAAGGTAAGTAGGAACATTTCGTAGTTGAAACTGACCTAAATCTTTGAGGATGTAAGATAA
Celera SNP ID:            hCV25995743
SNP Position Genomic:     277582
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,23)   caucasian(T,36)   total(G,1|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:36151):
CTCCCAGACTCAAGCAATTCTCATGCCTCAGCCTTCTGAGTGGCTGGGACTCCCAGCATTCACCACCACACCCAGTTAGTTATTGTACTTTTTTTTTTTT
T
GAAGAGACAGGGTTTTGCTGTGTTGCCCAAGCTGATCTTGAACTCCTGGACCTCCAGCAATTCTCCTGGCTTGGCTTCTCAATATGCTGAAATTATAGGC
Celera SNP ID:            hCV11200430
SNP Position Genomic:     66270
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36152):
CAGTCCAGGCAACCCTGGAGGCTCCTGCCAAGAATGTGAGTGTGATCCCTATGGCTCACTGCCTGTGCCCTGTGACCCTGTCACAGGATTCTGCACGTGC
Y
GACCTGGAGCCACGGGAAGGAAGTGTGACGGCTGCAAGCACTGGCATGCACGCGAGGGCTGGGAGTGTGTTTGTACGTATACTAACTTTGCTGTTAGTTT
Celera SNP ID:            hCV27528012
SNP Position Genomic:     475935
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36153):
AGCCCTGAATTCTAATGTTTATCTTCTTATCCTGTGAGATTGCTGAACACACTAAGATGTAGCTTTCTCTATAACCTCCTATTCAACTGTCAGCAAATCA
R
TAAAAGTACCCTGAGAGGAAAATGGCTAGCTTACCTTATTTTGCTTCCCTTTACTTAAGTCTGGCTGCCTTGGTTGCTTGCTGATGCCTTCAAACTGCTG
Celera SNP ID:            hCV27890784
SNP Position Genomic:     197291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36154):
TGATGAAGAAATTACTCTGTGTGCAAGTGTGGAGAAAAATAGCTTGTGATACCATAGTGATCTTAGAGCTCATTATACATCAGCAATGAAGAGCTTTAAC
W
ACCATGCAATTAAAATACTAGAGAGTATAAATAAGATTGTACCATGTGTATGTGGCAGCATATAAAAACTCAGAAGTGGAAGGAATTTTAGTCAAGTGTT
Celera SNP ID:            hCV27890785
SNP Position Genomic:     152086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36155):
CCATTTATCAGTTTCATAACAATGATTTTCAAGCTTGTTTCATTTCTCACAGGGTAGACAAAGACAAAATATATATCTCATAAAAGTAATAATCTACCAG
K
CATGTTTGTTGTAGCCAAGCAAATATATAGAATTCTAAAAATATTGTTTATAGCTCTTGTTTCAACATGCTTGGGACAAGTTAATGTTTACAGTTTTGTG
Celera SNP ID:            hCV27890786
SNP Position Genomic:     151355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36156):
GATAAGGAAATAATTTGACCAGAGCATGGGATTTTAATTGAGAATATTAAGAGATAAAATTATAATAAATGTAGGGAAGGTGTATCAGAGTGAGATTATG
R
TATACTATACTTGAAATATCTAAATGAAGTATTTATGTTTACTCTAAAAGTCAAGTGAGAGAGATTCTGGAGTGAGACAAGAATGTGAGGAATGGGGACT
Celera SNP ID:            hCV27890787
SNP Position Genomic:     150679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36157):
ATGTGCCCCTGACATCTGTACATGTGTTTAATTTCCAGTGAGCTCAAAATACTTCAAGTGATCTCATTTGAGTATTAACTAGGGAAATACATTCACAGTC
Y
AGCAATTTTCTTTTATGTCTACATTATTTTAAATCATAGCATAGATTTTCCACTGTGCTTTATGACCAGAACACATTTATTTGCAAAGTATTTTCACTTA
Celera SNP ID:            hCV27890788
SNP Position Genomic:     114693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36158):
TTATCAAATTTTTATTTTAGAATTGTAGATTATTATTATTATTATTATTTGAAATTTGACAGACTTTCCTTTGTTCAGATCCAAGCTGTGCCGCTTATTA
Y
ATGTGTAACATTTATCAAACATTTTAGCCTTCTCAAACTTTAATTTCTTCTTTTGTAAAATGAGAATCACAATGTCTACTTAATAATCTTATTTTTCAGA
Celera SNP ID:            hCV26000229
SNP Position Genomic:     267107
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,1)   caucasian(C,38)   total(C,53|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:36159):
CTCATCTTGAATTGCAGTTCCCACAATTCCCAAGGGTCATGGGAGGGACCTGGAGGGAGGCAATTCAATCATAGGGGCAGGTCTTTCCCATGCTTTTCTC
R
TGATAGTGAATAAGTCTCACGAGATCTGATGATTTTATAAAGGAGAGTTCCCCTGCACATGCCCTCTTGCCTGCCACCATGTAAGACGTGACTTTGCTCT
Celera SNP ID:            hCV27890789
SNP Position Genomic:     98466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36160):
TTCCTTTACAAAAAAAGACCAAAAATGTTCTGCCATTCTTGCTCATCATGATTTTGCCTCAGTTTTTCAAGTTATGTTTTGTTCATAATGGATTTTTTTT
T
GTTTGTTTTCTGAATGTGTTCTGTTCCTTCTACTGCCTTAAAAAGCCCTCATCACTGAGTCTTCCTACTACTTCCCTCACCTCCACTTACCCTACTGAAT
Celera SNP ID:            hCV11200444
SNP Position Genomic:     62917
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36161):
TAAAATTCGTATACAACAGTAAGTAAAATATGATTTAATAGCCCATCTCCTATCCCGTAATGATTATGCATCTTCTGTCTTGTAGCTCCCAGCAGTAGGA
R
GACAGTTGACATTTACCATATCATATGACCTTGAAGAAGAGGAAGAAGATACAGAACGTGTTCTCCAGCTTATGATTATCTTAGAGGTAGAGTACTGAGA
Celera SNP ID:            hCV25990670
SNP Position Genomic:     372943
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,39)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36162):
TTGGGCCTGACTCATCCCATCCTCTCTGGACACAAAGAAGGGCAGAAAATGGATCTGGGAGAAAGCAAGTAGAACACAACCAACACAGACAGGGACAATT
W
TATCCCAATAGCATTCAAGGATGTTAAAGCCTAAAGAATGTCAACCAGCCGGGTGTAGTGGCCCATGTCTGTAATCCCAGCACTTTGGCAGGTCAAAGCA
Celera SNP ID:            hCV15934820
SNP Position Genomic:     604590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36163):
AAAAGCTTTTTCTAACATAACTCACAGCTGTAGACTTTTCCTTTCAATAATAAGCAAAAACAATTTTCATAGCTACAAACCGCCGACACAACTTTCTATT
Y
AAAGAGGACTTCTTTGCAGGAGGCAGAATAATAACTCAACAAAATAAATAGAATCTCTAATTTCAAAATACTATTATCCCCAAAAGTAATGGGAATTTTA
Celera SNP ID:            hCV29433900
SNP Position Genomic:     145560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36164):
AAGTCCGACTCCTTACCAAATCTGTAGACAGTCAGCTTCGGTCCCTTAAATTTAAATGTAAATTCCTCTAAGATCATTTTCCCAGTTGCACAAGCTGAAG
W
AATAGTCTTTTGGGCCTGACTCATCCCATCCTCTCTGGACACAAAGAAGGGCAGAAAATGGATCTGGGAGAAAGCAAGTAGAACACAACCAACACAGACA
Celera SNP ID:            hCV15934821
SNP Position Genomic:     604480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36165):
ATCTGTAAAACATAAACAATTAAGTGATAGAGTTTATTCAAGAGATATTCGTTACAGTGTTTTCAAAGGAAACTTAGGGACAATCTCCCTAGACATGTAC
Y
TGCTTGTGTGTCAGTTTGACTTAAATCTTTGGTTTAAACAACAACAACAAAAAAAGGTACCTAACAGTGATAATCTTCTATATTTAAAATCAAAAGCTCT
Celera SNP ID:            hCV15934822
SNP Position Genomic:     603533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36166):
TTTCTTTGTCAGGAACAGTGTGGCAACAATAATAAATCAGATTTAGACTGGCTACTGAAGGGGTTTGTTTAAAAGATTTAAAAATCTCTTCAGAGTCAAA
K
ATGTTAATTCTACCTGGTGAACCAGAATGATCCTGCATATATCTTGGGACAGACTTATATTTTCTAAATCTGGGTAATGATCATACATGCACTGAAAAGA
Celera SNP ID:            hCV29433901
SNP Position Genomic:     132967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36167):
TTTACATTTCTACTTGAAATGTAACTGTTTTAATTTTATACTGAGCAAGGACAATGGTATTACTTTAATATTGAGAAAAAACTAGACTATGCGATGTTTG
K
TTTATTTATTTTTAAGGTTTGGTCTTATCACTGGGGAAAAATGCAGACACAGATAATGGTCATACCCATCTGTAAAACATAAACAATTAAGTGATAGAGT
Celera SNP ID:            hCV15934823
SNP Position Genomic:     603365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36168):
TCAATGTTATTCTGCAGCACTTGTTTGCCAGCAGCTGTTAGGGATTATTGCAGGTTTCTTTGTCAGGAACAGTGTGGCAACAATAATAAATCAGATTTAG
W
CTGGCTACTGAAGGGGTTTGTTTAAAAGATTTAAAAATCTCTTCAGAGTCAAAGATGTTAATTCTACCTGGTGAACCAGAATGATCCTGCATATATCTTG
Celera SNP ID:            hCV29433902
SNP Position Genomic:     132913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36169):
TACCAGGTCCACCCTACTTAAAATGGGAAGTAACTGAGAACTGATTCAGTTATTCTATCTTTGGAGCTTTAATGCAATTATCAACATCTAGTACCATATA
K
ATTACTTATAGAACTATCCCTGTCTTCAGCACTTCCCTCCCATTTTCTCTTCTTGTTTTCCCAATTCTCAACTCCCTGTTAAACCCAAAGCAGCTAACAG
Celera SNP ID:            hCV15934824
SNP Position Genomic:     577442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36170):
CCAAGCTATAAAGCATTTATTAAATAAAAATGAAGTAAACTACATACAGTCGCTTTGACTACTAATTCAGCCCCATTCAGAATTGGATATGATTGTCTGC
Y
AGGGATAACGCACTATGCTATTCAGTTCTACTCATGAATTCCAGTCAGATCTTGATTTCTTGTTCACTTTGATCCTCTTATGATGTCAATGGTACGTATA
Celera SNP ID:            hCV15934825
SNP Position Genomic:     573402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36171):
TGTAGGTTCAGGGCCAGAGGACAAAAACTGTTGAAATTGCCTTGATATAGATTCATAGATTGCAAATGAGCACTTTTTAAAATTTAAACCCTTGAATATG
R
TATCTCAGGCACAGAGTGAGTTCTTTATATATACAAAATGTGATTCTTACCGCCTACCAGCTGTCTTCCGATTTCACCAGATGACCTTCCCTATAAGTTT
Celera SNP ID:            hCV29433904
SNP Position Genomic:     132509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36172):
TGACTCTTTAGTCAAACTGAGGATCAGTATTTTAAAAGTCTATAAAATACTTAAGCCATCTTGTAGAAATAAATAGTCTTCCCACCCAGACCATAATCTC
Y
GAAATAATTATTAGGAATTTTCTTTTTCTTTCAAACACTTTGGAATTATAATTTAGATTCTTTAAAAACTGAGTTTTATGACTGTTTTTTCAAAAAAGCT
Celera SNP ID:            hCV29433905
SNP Position Genomic:     132069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36173):
ATAAGGCTGCTGAACTTAAAAAAAAAATGCTCAAAGTGAGTGAAGGTAAGAGATGTTCATTTTCTTCCAGTACTGAAAATTAAGAGTACAGACCCACATG
Y
TATTATACAAGAGAAAGTAGTCCTATGACTGCTGGATAATTTACATACATTATCTAATTTATCATAACCCTGGGAGAGTGGAAATATTGCTATTCTTATT
Celera SNP ID:            hCV29433906
SNP Position Genomic:     131203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36174):
CCAGGAAGGAGAGAGTGAAATCAAGGAGAAGGTGATGGATAGGAGAAAGGACCCTGAGTTATTATAACAGAGTCCAAGAGTCAGAGAGCTGCACAGATGG
K
GTGGGATATGCCAGGTCAAGGAAAGGGCCATGGGAGTGGGTGCCTGATGCGGAGAGGAGGAAAAGAGGTCAGCGAGGAGGTAAAGAGCCTGGGCACAGGC
Celera SNP ID:            hCV29433907
SNP Position Genomic:     120857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36175):
TTGGAATAGATCATGGGGTGGGAGTTAATTGAAGGGGTAGTCAAGAAAGGCCCTGCTAAAGAAGTGTTGGGTTGGTTAGAGCCCAGCAAGGGACTTTTCA
K
CTCTGGAGATGCTTGTAGAGAAATGCAGAGGTCCTAATATGGGAATGAACATCTCATGTAGGGTATAGCTTCTCATGTTTGAGGAACAGAAACAAGGCCC
Celera SNP ID:            hCV27890790
SNP Position Genomic:     91411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36176):
GTCCTTTTTCCTTATACTGTTGATCTCAGAACTGTTCTGCAGTCCTGAAGTATGAAACACTATTGCCATTTTTTGGTACAGCCAGTGCTCTAAAAAATGT
R
AATGGATGAAAGCGATTCAATCTATTATGGAAGCAGAAACATCTTCCTATTTGCTTTACAAATTTTTCCGAGTAAAATGCAGTCAGGTTTGTAACATTGC
Celera SNP ID:            hCV29433908
SNP Position Genomic:     114198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36177):
GATTGCTCAGTGAGTACTAATGTGGAATATTACTGGGAAAGATGTTTGAGTGTTGAAGTTTCTCATAGCTCAGAATGGTTACACAGATTAAGGAGAGGAA
Y
GTCTGTTGTTCAAAAGACAAATGAAATTTGTCAGTTCACTGAAAATATTTTTGTTTTTGTATCTTTTTTAAAACTGTTTCTTAAAGTAGTCAACTGCTCA
Celera SNP ID:            hCV27480200
SNP Position Genomic:     380225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36178):
GCATATACTTGATGATTTGATTGGTGGTTTGATTCCAGTTATATTAACTTGCCAGAAACTTTCTAGTTTCCAAACAGTGAATACAACTTAGACCTCATGA
M
GCTTACATTCTAGTTAGAAGAGAGAATATTAATTAGATAAGCACATAAAATATACATGTGTTAGATAGTGATAAATGACAAGAAAAAAAGTAGAGCATGG
Celera SNP ID:            hCV8922849
SNP Position Genomic:     351950
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,12)      total(A,12|C,1) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36179):
ACTTATGGATTATAAATATGTTTGTGCAAATTTTCTCTAGCAGTAATTCTAAAACCTTTGTGGACATTAAGCTGTAATTGTAGCTTTCTCTTGCAAGCTT
Y
TTTATCCTCTGCTTTATTATTCCCTTGTAGGAAATTAAGTATTTTATATAATAATGCTTAGAACATCTTTCTCTTTTAAAGAGGGAAATTAAGATAAAGA
Celera SNP ID:            hCV27890791
SNP Position Genomic:     26458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36180):
ATGAAGTCACATGGCTGCAGTTGCCATTTATTGGAGAAACTGAATTTCAGGGATTTGGATCAGGTCAAGGTATGTTATGCACATAAACCAAATATTAATG
R
TATTTATTTAGTGTGCACCAGTGATATTTGTTTTTTCCTTCGCTAAACTGAAGATTAAGGCAATCAGAACCTAGTAAACATTGCTGAATTCACCATTGTA
Celera SNP ID:            hCV29433909
SNP Position Genomic:     106755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36181):
GTGGAAGAGAGAAATGAATGCAGGCAGGCAGGATGTTTTCCTCGAGGTTTTTTATTTATATCCCCTGGACTGCATAACTCAGTTTATTCCCTTCTAAACC
R
ACTTTTCTAGAATGTGTTGTCTCTGTTCGACACCTACAACTCTGGTTCATTTTCTATGCATTAAGGATGATGTAACTTTAAAACCTCTCATGTAAATTCT
Celera SNP ID:            hCV27480201
SNP Position Genomic:     366886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36182):
AGAACACCCAAAAACAAACAAAATAAAGGATTCAAATGGGTGACATGGCCAGTCCTGGTTACAGTATGAGACAGATGCCGGTTACGGTGGGCAACAGAAC
W
GATGCTGGCTACAGTGGTCGACAGAGTTCATTTTAGTTCAAGCAGAAGGTAGGGCTGGTGCTTGTTACAGTGGCCAGTAGGCCTGGTTTCTGGTTATAGC
Celera SNP ID:            hCV27480202
SNP Position Genomic:     333679
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,556|A,935)   total(A,935|T,556) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36183):
ACATCTAGCATTTGCATCAAGGTGAGTTTGTCTCAAAAGCTCTGTTCTAGTGCCCCACTCAAGAACAGATATTGTCAAATTTGTAAAAGATATTTTAACT
R
GAATAGACTTGATTTTTATTGCTGATTTAATCTATTACAAACTATTGCTTTTCTATTCTAAGCTGTTGTAAAAATTATTGCTTTAATATGATCACTTAAT
Celera SNP ID:            hCV27480203
SNP Position Genomic:     329211
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,238|G,1071)   total(G,1071|A,238) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36184):
TTCAGCACTTGCTGTCACCTCAGCGGGCCCCAGAGAGGCTTATTCAGCTGGCAGAGGGCAATCTGAATACACTCGTGACCGAAATGAACGAGCTGCTGAC
S
AGGGTAAGGTGGCAAAATTATGAATCTTCTGAAAGCAGATAGATTATGTCAATGAAGGAAAATTACTTCAAAGTTCTGAAATGCAAATCACCTTCTTCCT
Celera SNP ID:            hCV25962195
SNP Position Genomic:     492640
SNP Source:               Applera
Population(Allele,Count): african american(C,32|G,6)   caucasian(C,35|G,3)   total(C,67|G,9)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:36185):
AATAGTATTCTTTTGATAACACATAGTATTTATGTAGTATACTGAATTGTCAGGTATTTATCATTAATTATCTCATGTTGGGTTACTTTAATGCTCCGAA
R
AATATTTTATCTCAATTGCTTTTAAAATGTATCAAAATCCTAACTTTGTTTCTGGTCTACACACCTTCATTTGTCCATCTTTTTCAGGTTTATTCCCTGC
Celera SNP ID:            hCV25997363
SNP Position Genomic:     172621
SNP Source:               Applera
Population(Allele,Count): african american(A,6)   caucasian(A,30|G,6)   total(A,36|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:36186):
AGACAAAAAAAGCACAGTTCTGTAGATACTTAGAAAAAAAGATTAATTTTGTTTGGGGGATATCAGGAAACGTTTCATGGAGGAATCAGCATTTGAGCAA
R
GCTTCAGGTGATTTTAACACTCCCATACAAAGTAGTGGGTGATAGAAGAGTAGGACCCTCCACCAAAATATAGGTAGGAAACCCCACCTACAGGGAAGCA
Celera SNP ID:            hCV29433767
SNP Position Genomic:     633359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36187):
AATACGTGTATGTTCATTAGAAATAAACTAATAAGCACATAATATGTGGAGATTATGATGGGAAACAGAAATAAGTAACATAGTTCTTTCTATCAAGAAT
R
TATTATCAACTGGTAAGAAATTGAAAGAAGGCAAGTAAAAATGATTAAAGACAAAAAAAGCACAGTTCTGTAGATACTTAGAAAAAAAGATTAATTTTGT
Celera SNP ID:            hCV29433768
SNP Position Genomic:     633210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36188):
ATGGCTGTGGTTTTCAAACATCTACCCATAAACTGAGGCCAGGTGGCTGAAGACATTTCCACTGCTCTAAGTGAGAAACGTAGAACAGAGTGTGTTCACC
M
TCAAGCTCGATGTATTCAATTTTAAGGAATAATATTTATTCTGAGATTATATTATAGCATTTTTATGGTGGCTAAAAGGCCTTTCTATTATGAAATAGTA
Celera SNP ID:            hCV29433769
SNP Position Genomic:     626221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 158
Celera Gene:                 hCG21793 - 114000133414534
Gene Symbol:                 INSR
Protein Name:                insulin receptor
Celera Genomic Axis:         GA_x5YUV32VWJV(1458898..1624400)
Chromosome:                  Chr19
OMIM number:                 147670
OMIM Information:            INSULIN RECEPTOR;INSR


Genomic Sequence (SEQ ID NO:12318):
TGAGCAGAGGGCAGGTGAGCATTGCCGCCTGAGCTCCGCCTCGTGTCAGAACAATGGCAGCATTAGATTCTGATAGGAGCTCGAATCCTGTCGTGAACTG
TGCATACAAGGGATCTAGGTTGCCTGCTCCTTATGAGAATCTAACTGATGCCTGAGGATCTGAGGTGGAACAGTTTCATTCTAAAACCATCACCACCCAT
CCCGTGTTCGTGGAAAAATTGTCTTCTACCATTGGTCCCTGGTGCCAAAAAGGTTGGGGACCACTGCTGTGGACTATCTCATTAATCATTTTTTTTTTAG
GATTGATTATATGTGGGAATTATTTATTTATTTATTTATTTTGAGATGGAGTCTCGCTTTGTTACTTAGGCTGGAGTGCGACGGGATGATCTCAGTTCAC
TGCAACTTCCATCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGAGCCATGGTACCTGGCCCATTCGGCATA
TTTTAGTACGGAGATGGTGGTCAGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACCTGAGGTCAGAGTTCGAG
ACCAGCCTGGCCAACATGATGAAATCCCATCTCTACTAAAAATACAAAATTAGCCAGGTGTGGTGGCACACGCCTGTAATCCCAGCTACTCGGGAGGCTG
AGGCAGGAGAATTGCTTGAACCCCAGAAGTGGAGTTTGCAGCAAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGTAAGACTCAAGTCTCA
ATTAAAGAAAAAAAAAAAAAGAAAAAAGAAAATATTAGCTGTCACTTAGCACCTTCTTCCTCATTGCCTTTTTCTACCTGTACAAAGAGTGGCCATTAAC
CAGGTACCCATTATGAAGAACTTGAAGCATCCTTCACGCCCACTCAGAGATGTTAAAAGCCAGCAGAAGTCCTCGTGTCTATTTCTGCCTTCATTTCTAA
CATCCTCTGGGTATTTTCTGTCCCAGTGGTAAACTGCTCTATTGTCTTTCACTAATAGGGACACATACGGCTTTAATGAATTAAGAGTTAGATTCATAGG
ATATTTAAAAAGAAAAGCAATTCTTGATTGTTCCCTACAATTATAGCTGTTTAATCTTTACTCATAACAACTTTAGTGAGACAGAATTCACATGACATAC
AATTCACCCATTTTAAGTGTGCAGTTAGGTGGTTTTGAGGACATTTACAGTTGTGCAACTGTGACCACAGTCAGTTTTAGAATATTTGCATCATCTTCAA
AGAAACCCTGTACCCTCTAGCTACTACTTTCCATCCCCCATTTCCCTAGCTCTTGGCAGCCACGAATCTATTTTCTGTCTCTATGGATTTGCCTCTTTCG
GATTTTTTTGTATGAATGGAGTCAGACAACATGTGGCCTTCTCTGTTTGACTTCTTTTATGGAGAAGGTTCATACCTGTAATCCCAGCACTTTGGGAGGC
CAAGACTGGAGGATCGCTTGAGTTCAGGAGTTTGAGAGCATCCTGGGCAACATAGAGAGACCACTATCTCTACAAAACAAATTTAAATTAGCTGGGCATG
GTGGTGCATGTCTGTGGTTCCAGCTATACTGGAGGCATAATTTTGTTTTGTTTTTGTTTGTTTGTTTGTTTTTGTTTTTGTTTCGTGGGGTTTTTTTGGT
TTTGTTTTTTGTTTTTTGAGATGGAGTTTTGCTCTGTCACCCAGGCTGGAGTGCAAAGGCACGATCTCAGCTCACTGCAACGTCCGCCTCCTAGGTTCAA
GCCATTCTCCTGCCTCAGCCTCCGTAGCAGCTGGGATTACAGGCATGCGCCACCCCGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCA
CGTTGGCCAAGCTGGTCTCCAACTCCCGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGCGCTGGGATTAAAGGAGTGAGCCACTGTGGCTGGCCT
TTTATTTACATTTATTTATTTATTTATTTAGAGACGGAGTCTCACTCTTTCATCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGAAACCTCCAAC
TCTCTGGTTCAAGTGACTCTTCTGCCTTAGCTTCCCAAGTAGCTGGGACTACAGGCACTCGCCACCATGCCCAGCTAATTTTTTTTGTATGTTTAGTAGA
GATGGGGTTTCACCATGTTGGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCGCAGTGCTGGGATTACAGGCGTGAGCCA
CTGCGGCCAGCCTGTATTTACTTTTGAGACAAGATATTGCTCTGTTGCCCAGGCTGGAGTGCAGGGGTACAAACACAGATCACTGCAGTCCTGACCTCCT
AGGCTCAAGCGATCCTCCTGCCTCAGTCTCCCGTGTAGCTGGGACCAGAGACACACACCAGCATTCCTAGCTAATGTTTTAAATTTTTATAGAGATGGAG
ACTCGCTATGTTGCCCAGGTTGGTCTTGAACTCTTGGGTTTAAGCAATCCTTCCGTCTCTACCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCA
CTCAGCCTCAGCTATTATGAATAATGCTGCTATAGACATTTGTGTACACGTCTTTGTGTGGACGTATAGTATCATTTCTCTTAGGTAGTTACCTAGGAGT
GGAATTGCCAGGTCATATGGCAATTCTTGGTTTAATATTTTGAGGAACTACCAGAGTGTTTTCCACAGTGGCTGCACTGTTTTACATCCCCATCAGGAAT
GCAAAAGGATACCAGTTTCTCTACATTTTATTTTTTCTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGATCTTGGCTCACTGCAACC
TCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGACTCCCAAGTGTCTGGAACTACATGCGCCTGCCACCACGCCCAGCTAGTTGTTTTTTGTATTTT
TAGTAGAGACGGGGTTTCTCCGTGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCTATCTTGGCTTCCCAAAGAACTGGGATTACAAG
TGTGAGCCACGGTGCCCGGCCCATTTCTTTACATTCTTTGCACTTGTAATTGTCACTCTTTTTGGTTTTAGCTATCCTAGTGGGGATAAAGTGGTATCTC
ACTGTGGTTTGAATTTGTATTTCTCTAATGTCCAACAGCCAGTTAATCTTTCCTTTTTTTCTGTTTTTTTTTTGAGACAGAGTCTTGCTCCATCGCCCAG
GCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCGGCCTCCCAAATAGTTGCCACTACGGGT
GCCCGCCACCACGCCTGGCTAATTTTTTTGTATTTTTTAGTAGAGACGGAGTTTCACCGTGTTAACCAGGATGGTTTTGATCTCCTGACCTCGTGATCAG
CCCATCTTGGCCTCCCAAAGTGCTGGGATTACAGCCATGAGCTGGCCACCACGCCCAGCCGTTGTGTTTTTTTAATCGAGACGAGGTCTCACTCTGTTGC
CCAAGCTGGAGTGCAGTGGTGTGATCACAGCTCACTGTAACCTCCTATTCCTGGACCCAAGTGATCCTCCTGTCTCAGCCTCCCAAGTAGCTGGAATTAC
AACCACATGCCACCATGCCTGGATATTTAATTATTATTATTATTTTTTAGAGTTGGGGTCTTGCTATGTTGCCCAGGCTGACTTTAAACTCCTGGCTTCA
ATCGATCCTCTCACTGTGGCCTCCCAAACTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCCTAGTTAACCTTTGAATGCATATTCATGTCTGATT
TTGGTTCTGCCATAGCCTGGGGAGGATGGCGGCCAAGTGTTCTTTCTACCTGCAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAGAGAGAGA
GAGAGAGAGAGAGAGAAATGAAATATAGTGTGGGACTCAGGGTTGAGAAGCCCAGGGCTATGGCCAAATCTAAGATTAGGATGCCGGCCAGGCATGGTGG
TTTATGCCCGTAATCCCAGCAATTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGATCAGGATCATCCTGGTCAACATGGTGAAATCCCGTCTCT
ACTAAAAATACAAAAATTAGCTGGGCGTGGTGTTGGACACTTCTTGGGAGGCTGAAGCAGGAAAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGC
CAAGATCACGGCACTGCACTTCAGCCTGGGCAACAGAACGAGACTCCACATCAAAACAACAACAACAAAAACCCCACAAGAATTTCATAGAAACAATGAG
TAATTTTTTTTAGGGTAAGTTATGTCCCAAACATTACATGGGATATACTTATCCTCAAAAAGGTATTATTGCTTATCTGAAATTCAAATTCAACTAGGCA
TTCTGCATTTTTCTTTGCTAAGTCTGGCAACCCTGCCAGTCACTGGTGAGTTGTGTGTCCTTGAGTGATGGTCTTTGCCTCTTGGAGCTTCAGTTTTCTC
ATCTATGGGATGGGGACAGAACTTGCTGGGAGGCACCAATGGCACGCGGGGTTCTTTGACATCTCTGGATGTGGAAGCTGTTGATGTGACTGACTGGGAG
CCTCAGACTGGGGTTGGGTCCCTGACTAGGAGGGGTGGGGGGGCTGGGACTGGCATCCTTGTCCTCTTGAAGCTGCCTCCCAGCCTGAGCTTGGTCCCTG
CAGGGTTCCTGCTTGGTTCAGACCCCAGGCAGCCAGTGTTGAGGGGAGGGTGGAGATTAATCCATAGTTGTGTACTGGGGCTTTCCTCCAACTTCCTAGC
AAGCAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTCTCGACTTAGCCTAATCCATTTGCTGCATGGAATGTGATCCAGGATCACTGCT
ACTTTTTTTTTCCCATTTGTTTGCTTTTGCTGTGTTTTGTCGTTGTTATTGTTTTTTCTAATTTGTGCTTCTTTTGTGGGTAATTCTCAGGGTGGATTTT
TTTTTTTTTTAGAGGATTTACTATTCTTCTTTAGAACAATCTGTTTTCCTCAAAGATATTGGTGGAAGGTTTAGTGTTTTGGAACAAAATAAGCAGGGGT
TGTATACTGAGCCTTATATTCTAGGTGCTGAGGACTGTGGTGTGTGTGTTGGGGAGGCGGTGTGTGTGTGTGTGTGTGTGTGGGTGTGTGGGTGTGTTGG
CAGAGAGAAGCCATCTAAAGACTTCAATTTTGAAAAACGTTAACTCAGGTGTAAGGGACACAAGGAGGAGAAACACGCAAATAGGTGTGCCAAGGAAAGG
AAATCAGGGACGGCTGCCTGGAGGAGGAGGCAGCATTTGAACTGGATATCTTGAAGCATGATGGGCTGGATTTAGAAATAGGGAGCTAAGGTACAAAGCA
CTTCGCCAGCCAAAAGATAGACTAGCCTAGAGATGACTGTTATATGTTTGGGGGAATAAACAACAGCAAGAAGAACAACAACAACAAACAACAAAATAGC
TGACATTAGTGCAGCACTTACTATGTCTCAGGCACTGTTTGAGTGCTTGCCCTGAGTTGTTTCACTTCTTCTTCCATATAAGCCATGTTACAGAGGAGGA
TAGGAGTCTTGGAGTTGTGCAAGAGTTGTGGGCAGGCCTGTTTAGTGGTGTGCAGGGGATGTAGGGGCAGAATCTTGAGGGAAGTGCAGGATGATGGGGA
GCCATGGTGGGCGTTGGGGCCTGGGAGGGACCGCCTTCAGGAGAATGAGAACTCAGGGCATTTGGGCAATGGAGATCGGGCTCCCTGGGAAGCCCTCACC
ACACCCAGGTAAAAGGTAATTAGGTCTTGATTGCAGGTCAGGAGAGCAGTCCGGGAAGGAAAGTCAGCCAGCGAGGTGGGAGGATTGACAAAACAAATAC
ATTTAGCTTTCCTTGCCCCATTTCTGACCGCGGGCACCTTTATCCCCGTAAATTATCTCCTGAAGATCTTCTATGTTGACGCACTGGAGACAGTTCCCCT
TTCTCCTTCTGCACCTGCCGCGTTACTCAATCCCCTGTAATCCCATTGTCCCGACTGCATCATTTCAGAGGTGGTGATTTTAAGGATTTTAACAGGGCTT
GCCAAAAGAATTATTTTCTTGGCGTTTTGAAAGTAATTACTTAGGCATGGGTACTTTACAGAGAAAGCTACTCATCCCGGCTGGCTGCAGAGTTTACAGG
GCCCGGGATGAAAACACAGGGCCCAGGTTTCCTGTCCATGAAGCCGGCTCTGCCCCTGATCCTTCYGATGCATCCACCGTGCGTCTGCTCACYTGTCTTG
CTTTCTGTTCATTTTCTCTTGTAGTGTGTCCCGGCATGGATATCCGGAACAACCTCACTAGGTTGCATGAGCTGGAGAATTGCTCTGYCATCGAARGACA
CTTGCAGATACTCTTGATGTTCAAAACGAGGCCCGAAGATTTCCGAGACCTCAGTTTCCCCAAACTCATCATGATCACTGRTTACYTGCYGCTCTTCCGG
GTCTATGGGCTCGAGAGCCTGAAGGACCTGTTCCCCAACCTCACGGTCATCCGGGGATCAYSACTGTTCTTTAACTACGYGCTGGTCATCTTCGAGATGG
TTCACCTCAAGGAACTCGGCCTCTACAACCTGATGAACATCACCCGGGGTTCTGTCCGCATSGAGWAGAACAATKAGCTCTGTTACTTGGCCACTATCGA
CTRGTCCCGTATCCTGGATTCCKTGGAGGATAATYACATCGTGTTGAACAAAGATGACAACGAGGAGTGTGGAGACATCTGTCCGGGTACCGCGAAGGGC
AAGACCAACTGCCCCGCCACCGTCATCAACGGGCAGTTTGTCGAACGATGTTGGACTCATAGTCACTGCCAGAAAGGTACGCCGGGSATACAGGGTTCTA
AGCAGTGTCTCGTGCCTTGTTCTAKAAAGCTTAAAATGTTTTATGGCTTAAAAATGTTAAATGGTCATTAGGTAGGGGCCGGGGAATAGTGGGTGGTGGC
ATTCACTAGCCCAGGGAGTGGCAGACATTTTCTGTAAAGACTCAGATAGTAGATACTTCAGATTTTGCAGGCCATATGGTCTCTGATGCAACGACTCAAT
TCTGCCACTGTATTGGACAAGCAGCCACAGGCATGCATAAATGTATGACTGTGGCTGTGTTTCAATAAAACTTTATTTACAAAAACAAGTCGTGGGCCGG
ATTTTGCTCGAGGGCAGCAGTTTGCCACCGCCTGTGCTAGTCAGTGAATGTTCTTCTTGCTTGGGAGAGGAAAAGGAGTGGAAAACTRTAGATTCGGTTT
TTTTAAAAAAATAGTTTAGTTCTTATCTGATTATAGAAGTGATATTGCTTATARTAGACATTTGGAAAAAGACACTTGTAAACGAAAAAAAAGCAAAACA
TTCATCTTATTCCACAACGCATGTCRCCGAGAGTAGTTTATTGGGGGTTGTTCCTTCTAGTGATCTTCAGGAATCTGTCGTGTCTACTGAAGGTTTCCTT
AACCATTCCTGTTATTGGGCATTAAGATGATTTCCAGGCCGGGCACGGTGGCTCAGGCCTGTAATCCCAGCACTTGGGGAGGCTGAGGCGGGTGGACCAC
TTGAGGTCAGGAGTTCGAGACCAACCTGACCAACACGGTGAAACCCCATCTCTACTAAAAATACAAAATTAGCCGGGCGTGGCGGTGCACGCCTGTAGTC
CCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCACCCTGGGCAACC
AGAGGGAAACTCCTTCTCAAAAAAAAAAAAAAAAAAAGATAATTTCTAGTTTTCACAAAGAGAGTGATGAACATTTTAGAGTCAAAGCTTTATCTAGCAG
TTGTTTCTTTAGGCTTGCTTTCCAGAAGTGCAATTTCTGGGTCAGAGGCTCTTGGTGCAGATTGACAAATGGTGTTCCGGAAATGTTGTGCCAACGGCCA
CTCCTCCTAGCTTTGGAGGAGAGGGAACACCTTGGCCAGCTTTGAGTGTTATTTGAAAAATCTTTCATAATTTACTGCGGGAGGGAGGAGCTGACGTGTT
GTCATTGTTTCTATTTGCATTTCTTTGATTGCTATCGGGGTTGAACCTTTTAAAACATGTTTATTTATCATTTGAGTTTTCTCTTCCTGTTCATATCCTT
TGCCCATTTGTCTTTTAGTACCTCAGTAGCTTTTGCAAAATTAATCTGTATGTGGTTTTCATCAGTGAAGGCTACTAACCCTTTGCCAATTGCATTTTGT
TGTTTTTGTTGTTCAGTGGTTTAAATGCTCTGGGAAGTGTTTTGCTGGAGAAGCTTAAAATGTTTATGGAGTTCAGAGCTGGATTTCAGTGTGCCACTTC
TGTACTTTACACTTAGAAAGTCTTCTTCTACCCATGAAAGGTTTTTTTTCTCTACATTTTATATTTTAATTTTTTTTTTTTTTTTGAGATGGAGTTTCAC
TCTTGTTGTTAAGACTGGAGTGCGATGGTGCAATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGGTTCTCCTGCCCCAGCCTCCCAAGTAGC
TGGGATTACAGGCACCCACCACCAAGCCCAGCTAATTTTTGTATTGTTAGTAGAGACGAGATTTCACTACGTTGACCAGGCTGGTCTCGAACTCTCAGGT
GATCCACCCACCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCTATATTTTAATTATTATTATCTAAAAAAATTCATCCTC
ACTACTTGAGATCTGTTTGTGTGTGTGACTCAACGGGCGTTTCGTTTCTCTCCCAAATAGCTAACTGGGGGCCTCAGACAGCTGTTGATTATAGAAATCT
ACCTCTTTGCCATTGCTTTGGGGTCTGTTTCTGGTGTGTCCATAGATCTGCCTCTCCATGCCACAGAGCGGTGACTGTTCTGATCATGGTAGTGACTGTT
CTGATCATGGTAGTTTTATCATGTTTTCATGCTCAAGGAGGCAATTCCACATTCACACATTACTTGTTTGTTGTTTCATGGACTTCTTTTCACATTTCCC
TGGGAAGAACTAGGGAACATGCGATGGAGGTGGGAAGAAGTTAAGTGGGTGGCTTGAGGGTTGTATCACAAAAGATAGAAGGGAGGGGAGAAAGGAGGAT
CTTCTTATCTGAGCCCAACGCTCTGGGGAAGCCACCCAGAGTGAGTGAGTCCTTAAATAGACCTAAATAGAATCCTTGGAATTGTCTGTGAGGACTCCCT
TGGARCCCCCAGCATGAGTCCTTCCATGGGACATGTTGGATGGTTGGAAATCGGGAGTGGGATAGTTGAAAAAGGAAGATGGGTTAGTGAAGGGTGGTGG
GAGAGGGGACCGTTATTATTGCACTGTGGAAAAATCCTGAGAATATTGTAGGTCAGGGGCAAGGAGAAGCTAAACTATGACCAGAGAGGTTACTTAACTT
GCCCAGAGCCACACAGCTAATAAAAGACAGAACTGGGGTTTGTGCCAAATTTATGCAAGACATACACCAGAATAAAAGCTATGATTTTTTGGAGGAGTGG
GAAGGATGTCCTCTCTGTTTAGAAACAAGTGAGCTGCTTCTAGCTGGGACACCAGGGGAAACAGTGAACATTCTTTTATTCTATTACTGAGTTTTCCAAA
TGTAGTGCTTGTTTGAAAAGCTCTAGGCCTACCTATCTTGAGATATAATTTAAGACATTCCTCTATGAATTTATTTTTGTATCTGTTTTAGACAAAATAT
CCAGAATGGTGTTATCTGCAATTGAGTCTCCTGCTCCCTGCTGGGTGTTCAGTTGTTGTTGCTGTTGTTTGTTTGTTTGTTTGTTTTTGAGACAGAGTCT
CGTTCTGTCACCCAGGCTGGAGTACAGTGGCACAATCTCGGCTCACTGCAACCTCCACCTCCTAGGTTCAAGCAATTTTCCTGCCTCAGCCTCCCAAGTA
GCTGGGATTACAGGTGTCACCACATCCGGCTACTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTTTTGTTGCCCAGGCTGGAGTGCAATGGCATGAT
CTTGGCTCACCGCAATTTCTGCCTCCTGGCTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGATTACAGGCATGCGCCACCACACCCAGCTA
ATTTTGTATTTTTAGTAGAGATGGGATTTCTCCATGTTGGCCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCCGCCTTGGCCTCCCAAAGTGC
TGGGATTACAGGGGTGAGCCACCGTGCCTGGCCAACACCTAGCTAAGTTTTGTGTATGTTGTAGAGACAGGGTTTGGCCATGTTGGTCAGGCTGGTCTCA
AATTTCTGAGCTCAAGCACCTCGGCTTCCCAAAGTGCTGGGATTACATGCATCGGCCACTGTGCCTGGCTGTGCCTGGCTGTGCCTGATGTTTTGAGTGA
ATTAAAAATTGCTTTGCTATTAAGAACCAGGCTTTTGTGTCCAGGAGGTCGAAGCTGCACTGAGCCCTGTTCATGCCACTGAGCTCCAGCCTGGGTGACA
AACTGAGACTCTATCTCAAAAACAAAAGAAAACAAAAACAAAAATGAACACAAAACAAAACAATAAAAAGAACCGGGCTTGTTTTTCCAGTACTGGGGGT
TTTGTTACCCGGAGAAGGTGCGACTAACACTTCCCGGGGTACCGGGTTCCTGGCATGTGGTATATATCTCAGCCATCCATTAGTAGCAGTATCCCCAGGG
GGCCAAAAAATGATTGTTTTTTGAACTGTTGCCCCTGTCTTTGAGAGCAACTCAGCTTCAGCTTTCTTTCCCCTCTTCAATTTCTTGTATTGTGATAAAA
TACACATAGAATAAATTTTTCATCTTAACTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGCCACCTAGGCTGGGGGGCAGTGGTGTGATCTCAGCTCAC
TGCAACCTCCGCCTCCTGGATTCAAATGATTCTCCTGCCTCAGCCTTCCGAGTGACTGGGACTTATAGGCACCAGCCACCATGCCCGGCTAAGTTTTGTA
TTTTCRGGACAGAGGGGGCTTTGCCATGTTGGCCAGGATGGTCTCAAACCCCTGGCCTCGAGCAATACACCCACCTCAGCCTCGCAAAGTGCTGGGATTA
CAGGTGAGTGCCACCGCGCCTGGCCCCATCTTAACCATTTTAAGTCCACAGTTTTCAGTGGCATTAAGCACGTTCACGTGGTTTTGCAACCATCACCACC
ACCATCTCCCAAACTTTCTCATCCTCCCAAACTGAAACTCTGTCCCCATGAAACACTCACTCCACCATCTCCCTCTCCCAGCCCCCTGGCACCTACCATC
CTATTTTCTGTCTCTATGAATGTGATGACTGTAGGGACCTCCTGTGAGTGGAATCAGACGGGATTTATCCTTTTGTGCCTGGCTTATTTCACTGAGCGTG
TTGTCCTCAAGGTTCATCCACGTGGTAGCCTGTGTCGGAAATTCTTTCCTTTTTAAGGCTGAATCATGTTCCATTGTATGGAGGGAGCACATTTTGCCTG
TGTATTCATCCATCTACGGGCACTTGGTCGCTTTCACATTTCTGCCATTGTGAATCAGGGCCRCTGCTGTTGACGCATCTAGCTTTTCAATGCCTGCATT
AACCTTGTTGCTGAGGCTTTAGGAAACTTATTTATTTATTTATTTTTTGAGACGGAGTTTTGCTCTCGTCGCCCAGGCTGGATTGCAATGGTGCGATCTC
AGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGCGTGGCTCGGATTACGGGCACCTGCCACCACGCCCAGTTAATG
TTTTGGATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGATAATCCACTGGCCTCGGCCTCCCAAAGTGCT
GGGATTACAGGCGTGAGCTACCGCGCCCAGCCTTAGGAGGCTTATTTGATGTCTGATGGGATTTTTGAATACAGAATAGATTGAGCCTTCAGAGGATACT
CCCCTGTCTTAGGTGACAGAAATGGGCTGGAGAAAACTATCCATCAACCCCTCTTTTCCCCCAGAGTCTTTTCAGATACTTCTGTGAACATCCGTAGTTG
CTATTTTTGTCTTCCACACTTGGCAGCTTCTGGAAGCATCAGGGGAATGCATCAACATTTAGGATGAAGGTGCTGGTTTGTCCTTTGGACCTAGTTTAAG
CAATTCCGAGCAACATCCACCCCTTCTTCTACCTGTCCCTTAAGCACTTTTTACAGGGAGACCAAAAAAAGGCTTTCAATGGTTAAGGGGGCCGGGTGTG
GAGGCCCCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTAGGTGGATCGCTTGAGGTCAGGAGTTCGAGACCAGCCTGGCTAACATAGCAAAACGC
TGTCTCTACTAAAAATATGAAAATTAGCCAGGCGTGGTGGTGGGCGCCTGTAATCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATCACTCGAACCCGAG
AGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACCCCAGCCTGGCCGACAGAGTGAAACTCCATTTTTTAAAAAAAGAAAAAAAAATGGTTAGGG
GAATTAAAAGAAAAACAAAAAAACATGGCATGTGCTAATGATCCATAGCCTGGACACCCTCTCTCCATTATCCTGCAATGGATTTGGGGCRAAGATACCA
GGAGAGGTCCAATGCACGAAGCCTTACATGGGAAGAGTGGAGACGGGGTCTATGCAGTTCGTTTATTGACTGCCTACTAGGTGTCATGTTCTGGGGCGCT
CAGGGCATAGGAAGGGAGCCAGCCTTTGCCTCCTCAGAGCGGCCAGTCTAGTGGCAAATGCAGATGTTCACGATCAAACCAAGTACACTCAGAAGAGGGG
GAGAGTTAGAGGGAGATCTACATTAGTTCAGCCAGCTGGACGCGGTGGCTCATGCTTGTAATGCCAGCACTTTGGGAGGCCGAGGAGGGCAGACTGCTTG
AGCTCAGGAGTTCGAGACCAGCCTGGGCAACATGGAGAAACCCCGTCTCGACAAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGTGCCTGTAACCCC
AGCTACTTGGAAGGCTGAGGTGGGAGGATCGCATGGGCCCCGGGGGCGGAGGTCGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGA
GTGAGACTCGGTGAGACTCTGTCTTTAAAAAAAAAAAAAAGAAGTTCTTTGAGGCAAGCAGCACCGGCTTCCAGTCTCGTTTTACCATTGACTGGTCACA
AGCTGGTTCAAGCCTCAGTTTCTCCATCTGAAAAATGGGGGTCATTATGGGACCTGCTTCTTAGGGTGGTGGTGTGGGGGTTGAATGAGATGGTGCAGGG
GGAGGCACTTAACCTAGCCTCAGGTGCTCCGTGAGTGTCCTGGAAGCTTCCAGTAAGTAAGCACCATGGGCCCACCCTATCTGGGCAGACTAGCTTCCAG
GTGAATATCTACCAGGGCTCAGCCTCATTTCTGACTTTGGTTTTGAGGCAGGCAGAGGAACATGTATCTTGCGACCTGCTGATGAGGGATGGGTGCCACA
CCTCCAGCCCCAGAGGGAAGACCACCCTGATTTTTGGGTGCCAACAGCATGGGATGCTCTGGAAATTCTCAGCTCTGGGCATTTTGAGGGGACCAGAAGC
CACAGGGCTTGCCTGACCAGCTGCTTTAGCCAAACCCACTGGCATTTTCTTTCTGGGAGGTCACCCCRGCTGCTCACTGCCGGCCAGAGGGGTGGGTGAG
GCCGGGACATGCTGGGTGCCAGGGGAAACCAACCCRAGATGCCACATATGGACGTCGGCACCAAAGCAGGAGGGGGAGGCTGAAAGCAGCAAATCCCTCC
TCCCTGGGTCTGAGATTACAGCTCCGAGTCAAAGTCTCTCAAAGTGTGGTATTGTGCCTACCACATTAAATATCACGTATTTAAATGCACGAGTTTAAAT
GCATGCTCTTGGAGGGTTTGATTTTTGGCAGAATTTTTAGCTGCCTATGGAAACTCTCTGCTTCTTTTTCTTCTTCCATTTAAAAAGTTTGCCTTGATAT
TTTATTTTTTTACATTTTTATTTAGTTTTTAATATTTTTTTAAATTGAGATGGGAGTCTTGCTATGTGGCTCAGGTCGGTCTCAAACTCCTGGACTCTAA
GGAATCCCCCCACCTCAGCCTCTCAAAGTGCTGAGATTTCACATGTGAGCCACCACGCTGGACTTGACTTGATTTTGTTTTCTTTTTCTTTTTTTTTTTT
TTGAGACAGAGTCTCGCTCTGTTGTCCAGGCTGGAGTGCAGTGGCATGATCTGAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTTCTGCCT
CAACCTCCTGAGTAGCTGGGATTACAGGCACGTGCCACCATGCCTGGCTAATGTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGCCTAGGCTGG
TCTTGAACTCCTGRCCTCAAGTGATCCGCCTGCCTTGGCCTACCAAAGTGCTGGGATTACAGGTGTGAACCACTACTCTGGGCTTGCCTTGGTATTTTAA
CAATCGGAATTGTCTTTGTGGCAAATGCTGATTTCATGCCAGCCGTGGTTCTGGGTGCTTTGATTAGGATATTGCATCCCATCTTCCCAACAATCTTATT
TATTGTTGAGACCACTAAGGCTTCGAGAGGTTAAGCAACTTCTACTTCCAACACTGCCCCGCCCACCCCTTCCGCCGCGCACCCCMCACACATGGGTAGT
AAGTAGTGGAGATGGGATTTGAAGCTGGGGATTCTGGCTCAGAATCCAAGCTCTTTACCTTTGTGTCTTATAGATGTCATTGCGGGAAGTTGGTGAAATG
CAGGAAACTGTAAAAAGAAAGGAAGGAAGGAGGGAAGGAAGGAAGGAGGGAAGAAAGAAAAGAAAAGGAAGGAAAAAAGGAAGGAGGGAAGAAATAAAAG
GAAAGAAAGGAAGGAAAGAAGGAAGGAAGGAAGGAGGGAAGGCGGGAAGGAAAGAAGGAGGGAAGGAGAAAGGAAGGAAGAAAGAAAGGAAGGAAGGAGG
GAAGGAAAGGAGGGAAGGAGAAATGAAAGAAGGAGTGAAGGAAGGAAGGAGGAAAGAAAAAAAGGAAGGAGGGAAGGAAGGAAGGAAGAAGGAAAGGAAG
GAGGGAAGGAAGGAAGGAAAGAAGGAAAAGAAACTGGAGAGGAAATCTAGAATTTGCCCCTGCCAACATGTGTGTTGCCTCTTCTTATCAGCCTTCTCAT
TCTGTCTTGACTTAGGGCCTCTCCTATCAGACTAAGCTCTCCTGAAGGCAGGGACTTTGTTGTATCTCAAGCACCTGTCATAGTACCTGGCTCACAGTTG
ACAATGACATCCTTAACACTCATCAATAGCTAGTGTTTACTGAGCACTTACTATGTGCTAAGCAATGCCTTAGGGGATCCCATCACAGCCTATGAGGGTT
TGTTATCCTCATTTTACAGAAGAGGGAACTGAGGCATGGCTAGGAATTATGAGACTTGCTCTAGGAGACCTAGCTGGGGAATGGTTTGACTTCAGACTTG
TCTGACGTAAGGCCTTTGCCCAGTGATCAGCAAACTACGACCTGTGGGCCAAATCCAGTCCGCCAGCTGCTATTTTTGTATGACCTATGAGCTAAGAATT
TTTTATTTTATTTTTATTTTTAGAGATGGGGTCTCACTSTGTCGCCTGGGCTGGAGTGCAGTGGGGTGATCATAGGCCACTGCCACCTCAGTCAGCCTCC
TCAGTAGCTGGAACCACAGGCAGGCACCACCACGCCCAGCTAATTTCTTTTTATTTTTTTAGTAGAGATGGGGTCTTGCTATGTTGCCCAGGCTGGTCTC
AAACAATTGGGTTCAAGCAATCCTCCTTTCTTGGCCTCCCAAAGTGCTGGGACTATAGGCGTGAGCCACTGTGCTTGCCTGGCTTAAGAATGCTTTTTCA
CATTTTTGGCCGGGCATGGTGGCTCATGCCTGTAATCCCAGCACCTTGGGAGGCCGAAGCGGGCAGATCACTCGAGGCCAGGAGTTCAAGACCACCCTGG
CCAACATGGAGAAACCCCATCTCTACTAAAAAATGTACAAACATTAGCTGAGCGTGGTGGCGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAG
GAGAATCACTTGAACCTGGGAGGCGGAAGTTGCAATGAGTGGAGATTGCGCCACTGCACTCCAGCCTGGGTGACAGGGTGAGACTCTGTCTATATATGAG
CTGGACATTCAGCATTCAGGGATAGAGGCTGTTTCAGTGGGACTTGGGAGCACCACGGCCTGAGGCCATACAGCCCAGCTGCCCTTTGCTGGTACTTCCT
TCCTTCCTTCCCTCTTTCCTTCCTTTCTTTCCTTTTCTTTCTTCCCTCCTTCCTTTCTTCCTTCCTTCCTTACTTTTTGAGACTCTGTCTCAAAAAAGAA
AAAAAGAAAAAAAAATGTGGGGTAGAGCACTGTACTGAAAAAAATTCCACAGTAGTTGTAATTCATTTTTCACTCAGATGATTAGCATTTTTTTTTTTTT
TTTTTGGAGCTCTCTGTTTGGGTGGAGGAGGGCAGTATATGTACAAGGCAAGGCCCCCACTCCACCCTCCTCCCTCCTCCCACCCCGCCTTTCCCCTTCG
AGTGAGTCATCGAACCCGTGCTTCTAGACGTGTTTGGAGCAGAGCACCTGGAAATCATGATGTTCTCTAGATAACAGGGAATATTGATAAATTCCCTTGT
GGCGATGTCACTGTCGTCCATACAGAAGACAGGAAAGTGTAACGCCTGCACACGGGGATCCAACAAAAAGAAAAAGATAAGGTGGGGGAGGCCGGGCACG
GTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAAGCCAAGGTGGGTGGATCAACTGAGGTCAGGAGTTCGAGACCACCCTGGGCCAACATAGTGAAACCC
CGTCTCTACTAAAAATACAAAAATTAGCTGGGTATGGTGGTGGGCACCTGTAATCCCAGCTGCTTGGGAGACTGAGACAGGAGAATCGCTTGAACCCAGG
AGGCGGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGTGTCACAGCGAGACTCCATCTCAAAAAAAGAAAAAAAAAAAAAAAAAAAA
AGGTAGGGTAGAGCATGTAACGTGAATGATGGCCCACTTGAATCTCTCATTCGTCTTTCTTCCCTTTTATGTTGTCAAAGATCTTTAAAAAAAAAATCTA
GGAGAGAAACAAACAAAAAAAACTGTACTGAAAAAAATTCCACAGTAGTTGTAATTCATTTTTCACTCAGATGATTGGCATTTTTTTTTCTTGTTTTTTC
TTTTTGAGACAAGGGTCTCAACTCTGTTGTCCAGGCTGGGGTGCAGTGGCGCAATCTTGGCTTACTTCCGCCTCCTGAGTAGCTGGAATTCCAGGCACGC
ACCACCATGCTGGCTAATTTTTGTATTTTTTGTAGACATGGGGTTTCACCACGTTACCCAGGCTGGTCTTGAACTGCTGGGCCCAAGCAATCCACCTGCT
TCAACCTCCCAAACTGTTGCATTATATTATAGGTGTGAGCCACTGTGCCAGCCAGGATTGGAATTATTTATTTATTTATTTAGTGAGATGGAGTCTTGCT
CTGTTGCCCAGGCTGAAGTGCAGTGGCGCAATCTCGGCTCACTGCAACCCCYGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTG
GGACTACAGGCGCCCACCACCACACCCGGCTAATTGTTGTGTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGGTGGTCTCGAA
CTCCTGACCTCAGGTGATCCTCCCACTTTGGCCTCCCAAAGCGCTGGGATTACAGGCGTGAGCCGCCATGCCCAGCCCTTATTTATTCATTTTTATTTTA
TTTTAAAATAAAATAAATTTTAAAAATTTGATTGAAATTTTTTAAACAAACTTTTCACTTTGGAGATGATTGGATTTTGTAGAGCAGGAAAGAACAAGTA
CCCTAGAGAGTATGTTTCTGGGCTCCCGGCTCCTCTTCCGGGGGTTGAAGATGAATTGCCGTTGGCCTTTGTAAAAGAGGAGAGATTGTTCCAGATTGGA
GTGGCAGAGATGTGCTTTGGTTTGGGTGGCAAGGATCACAAAGAAAGARGATGAGGTTGGGTGTGGTGGGTCATACCTGTAAACCCAGCACTTTGGGAGG
CCGAGGCAGGAGGATCACTTGAACCTAGAATTCGAGCTCAGCCTGGGCAACATAGCAAGACCCCATCTCTACAAAAAATTTTAAAAAATTAGCCAAGCAT
GGTGCTGTGTGCCTATAGTCCCAGCTACTCAGGAGTCTGAGGTGGGAGGATCGCTTGAGCCTGGGACTTTGAGGCTGCAATGAGCTATGATTACACCACT
GTACCCCAGCCTGGGTAACAGAGTGAGACCCTGTCTCAAAAACAAACAAACAAAAACAGAAGGAAGGAAGGAAGGAAAGAAAGAAAGAAAGAAAGAGAAA
AGACAAGACAAGAAAAAAAAAAAAAAAGAAAAGACAGGGTGAGAGRRAAGGGTATTCGGGTGGATGAAATGGCAAAGAGAAGGCCAAGAGGCGTTTTGTG
GGCAAGAGTGAAGAGGGTGCCTCATGCCGGGAAGGGAGGCTTGGACCAGTGCAGGGTCCTTATGGGCTCCAATGCCGTCATGAAGGTCACACAGGGGCTG
TGTTTAGGAGGGGCTGTTTCCACCAATACTGAGTGGACAGCCTTGCTGAGCCAGGCTTTTTGTTGCGTCCCCGAAGTCCTTGCTGAGTCAGGGAGGAAGT
CAAAGTAACTATCAGGTTAGATAAGCTGATGGGTGGGCAGAAAGTGTTTTGGTGGGTTCAAGGCTGCGCTGAAAGATGGTAGACCAGTTGACCGTGTGGT
CACTTGGCTGCCCCAGAGATGATGCTGTCTAAATCTTGAGTGGTGAAGATAACGAATTTACAATTCCCACCATTGCCTGGCTTCCTGGAGCGGGTGGGTG
CGGGGACCGGGGAGGGGGGCCGGGGGAGGCTGAGGGCTATCAGTTGAAACTGACCTTTTGGCCCAATCCTTTTGGGAAGAAGGCGGGTAGAGTTAAAATS
CATCGTAATGGAAAGGCGGCTTTCCCTTTGGCTGTCTGCTAACTTGGTGACTGGCCTGACAAGTTTTTCTTTTCCTTCCTCCTACCTGATACTCACTGAC
CGGTTACTTCCCATGTCACCCGACCCTTTGTCAGAATTAAAATCTGTTCTTTGTGACTGAACACCTGAAATGCCCCGGGGAGGACCCAAGGAAGTCAGCG
AGYGCCTGTGCGTCAGGCTGGCAGCCCAGGTCCTTCWGTGATCTGTTTCTCTCAATGCGCCTGTGTCAGATAGAACCGTGCATTTCCCAGTAAAAGGAGG
TGATGTGTGTGCTGGAGTTTCAAGATTGTACCCCTTATCCTATCTCCCCTTTCCTCTGTCTTCCCTCTCTACTTTTTTATTTTGTTGTTTGTTTGTTTGT
TTTTGAGATGGGGTCTTGCTCTGTCACCCAGGCTGCAGTGCAGTGGTGCGATCATAGCTCACTGCAGCCTCAGCCTTTTGGGCTCAAGCAATCCTCCAGC
CTCAGCCTGGCCAGTAGCTGGAACTATGGGTGCATGCCACCACGCCCAGCTAATTTTATTTAYTTATTTACTTATTTATTAAAGAGATGGAGTCTTGCTA
TGTTTCCCAGGCAGCTCACAAATTCCTGTCCTCAAGTGACCCTCTCGCTTCAGCCTCCCCCATTAGCTAAGACTACAGGTGCGCACCACCATCCCTGGCT
AATTTATTTTTTAAATTTTTCTTTTTGTAGAGATGGGGATTTTGCTATGTTGCCCAGGCTGGTCTTGAACTCTTAGACTCAAGCAATCCTCCCACTTTGG
GAAGCCCAAAGTGTTAGGATTACAGGTGTCAGCCACCAGGCCGACCTGTTTGCTCATTTTTCCTTTTCCTTTTTTCTTTTCTTTTCTTTTTTCTTTTTTT
TTTTGAGATGGAGTTTCGCTCTGTCACCCAGGCTGGAGCACAGTGACACAATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTAC
CTCAGCCTCCTGAGTGCTGGGATTACAGGGGCATGCCACCACGCCCGGCTGATTTTTGTATTTTTTAGTGAAGACGGGGTTTCACCAGGTTGGCCAGGCT
AGTCTCAAACTCCTGGCCTCAAATGATCCACCAGCCTCAGCCTCCCAAAGTGTTGGGATGACAGGCGTGAGCCACCACACTCGGCCCGTTTGCTCATTTT
TAAACATAAATGATGTCAAGAGTGGGAAGCAAACAAGAAAGTGTTGAAAGCATTGCTCTCCTCTGCTCCCTGGTTACCTATCATCCTGGGGCCCGAGGAG
TGGCTGCAGATTGGGCCACCTTCCTCCAATCACAGGTTTGGGAAGTGGACCAAAGTCTTTCAACACACTGGACTTAGCATGATCATCAAATTTGCACTGG
AGGGGCCAGGCACACGCCTGTAATCCCAGCACTCGGGGAGGCTGAGGCGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGGTGA
AACCCCGTCTCTACTAAAAATACAAAAATAAGCCGGGCTGGTGGTTGGAACCTGTAATCCCAGCTACTCGGGGGGCTGAGGCAGGAGGATTGCTTGAACC
CGGGAGGTGGAGGTTGCAGTGAGTCGAGATCACGTCACTGCACTCCAGCCTGGGTGACAAAAGCAAAACCTCGTATCAAATAATTAAATAAATAAATAAA
CAAATAAATAAATAAAAAATTACACTGTAGGGCATGTGGTAGGTGAAGCCCACCATTGTYAAGTACCTACCTAGAGGGTTTGGGGTAGAGGGTCCTGTGG
CTTCTTCTATTTTTTTTTTTTGGCGGAGTCTCACTCTGTCACCAGGCTGGAGTGCTGTGGCACGATCTTGGCTCGCTGCAACCTCCGCCTCCCGGGTTCA
AGGGATTCCCCCGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTTGTATTTTAGTAGAGACAGGGTTTCAC
CATGTTGGCCAGGATGGTCTCAATCTCTTGACCTTGTGATCTGCCCGCCTTGGCCTCCCAGGGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCTG
TGGCTTCTTTATCCTAGAAGTTTCTTTGCCTCTCGTTTTGTCCCAGGCGAGGAGGGTCTTGGATCTTTAATGACTCCATGGCTTATTRAGTGTAGCCCAG
AAAGAATGGTTGTTTAATAGGCTTTATTACCGAGTGTTTCCAAGGGCTTACCTGGGGAAGGAAAACATTTTTACTCGGAGGTCTGATAAGGATGGGCTTT
AAAGCGCTGGCAGCTAGTCATGTCCACACGCGGTGTGCGAAGCACGGCGTTGTTTACTGACCACCTGCAAAGCCCGTCGGCTGGTGAACAAGGCTCTTGT
CCCAGGCTGCCTCATTGGTGGTGATGATGTTAAGAGTTTCCTCATTTGCAAATAAATTGACTAACCTAGCAGACGGGTTTGATCCAAAGTGGTCAAGATT
CCTTTTCTTTAAATTTGTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCCTGGAT
TCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAACTGGGATTATAGGTGAACACCACCACGCCTGGCTACTTTTTTTGTATTTTTAGTAGAGATGGGGTT
TCGTCATGTTGGCCAGAATGGTCTTGAACTCCTGACCTCAAGTGATCCACCCACCTCGACCTCCCAAAGTGCTGGGATTACAGGCGTGCGCCACTACGCA
CTGGCAAATTTTTGTATTTTCAGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCGGACCTCAGGTGATCCACCCACCTCAGCCACC
CAAAGTGCTACAATTACAGGCGTGAGCCAYCGCACCTGGGCTATTTTCACTTCTTTCGAAGTTATACCTAGGAGTGGAATCGCTGGGTCAGTTGGTAATT
CTATATTTAATTAATGGAATCAAGATTTCTTTTTCTTTTCTTTTTTTGGTTTTACTTTAAAAAATTCTATCTTATTACATAAAAAAACCACAGGTTCAGA
AMAGCCACACCAAACAAATGAATAGCCTAATGGTTCACTCTAACGTCAACACTCATATAATCCCTAACTCTGGTTGAGAAATAGTACTTTGCCAGAACAC
CCCCTCCAAAAGCCATGCCACGGACCACATCCTAGTCACAGGCCTCTTCCCCCAGAGTAGTCACTGTCCTGTCTTTTGTAGACATCACTTCCTTCTTTCT
GTATAGTTTTATCACCCAAGTGTGAATCTGTAGACAAATATTTAGCTTTGCCCATWAAAAAAAAAAATTGATGGCCGGGCATGGTGGCTCATGCCTGTAA
TCTCAGCACTTTGGGAGGCTGAGGCGGGAGGATCACTTGAAGCCAAGAGTTGGAGACCAGCCTGGACAACATAGTGAGACCCCATCTCTACTAAAAATAA
AATAAAAAATTAGCCGAGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGGATCGCTTGAGCACAGAAGGTTGAGGCTGTA
ATGAGCCGAGATTGCATATTGCACTCCAGCCTGCGTGACAGAGCAAGACCCTGGCTCAAAAATTAACACAATAAAATAAATTGATGTGTTTGTTTGGGTC
TCTAGCAGTGGTTTTGAACTGAGGGTGATTTTTTTTGTCTCCCAGGGGACATTTGGCAATGTCTGGAGATATTTTTTGGTTGTCAYAACTCCAGGGAATG
TGTGTGTACTGCTTTCATTGAGCAGATGGAGGCCAGGGATGCYGTTCAACRTCCTGCAATGCAGAGACAGCCCAGCCACAAAGAATGATCCAGCCCCAAA
TGTCAATAGTGCTGAGGGGCAGAAAGCCTGGTCCACAGGTTCTCCCTCCATCCCTTTCCTTTTACCTTCTCTCTGTTGAAGAGCTGGGCTTTCTGGCTTG
GGGTGCAGTCCCCAGTCTGAGTGTTGCTGATCGTACGTTCCTGGGACAGTTCTGCTTGCCCCTCTGAGCTCCAGACTCAGAGCTAGGGTCACACTCAGGT
TCTACCTCTTGGACTGACTTTATTTAACAAGTACCATTTCAGCACTCTCTGCAGTCAGCTGTTTTCAAAGGCGACCATGCTTGATGCTGTTCGTTTGCAC
ATGGCTCTGAGTGGTGGTGTGTTCTTTGATTTTTTTTCTTTTTCTTTTGTTTTAAAGAAAAACACACCGTTTTTTAAACACGGTTGCCCGAACTCTCATC
TTCTTCCTCCCTGCCCTCCCTCCCTCCCTCCTYTCCTTCCTTCCTTCCCTCCCTCCTTCCTTCCTTTTTCTTTATTTCCTCCCTTCCTTCCTTCTCTCCC
TCCCTCTCCCTTCCTCCCTTTATCCTTCTCTCTTTCCTTCCTTCCTTCTCTTTCTYTTCTTTTCTTCTTTCTTCCTTGCTTTCTTTTTATTTCTTACCTC
CCTTCCTCTCTCCCTTCCTCTCTCCCTCCTCCTTCCTCTTTCCCTTTCTCCCTCCTCTTTCTTTTTCTCTCTCTTCCTTTCATTTTTCTCCCCTCCCCTC
CCCTTCTTCTCCTCCCCTCCTTCCCCTCTCCTCCTTCCCATCCCCTCTCTTCCCTTTTCTTCCTTTCCTTCTTTTCCCTCCCTCTCTCTTTCTTTTCTCC
TTTCCTTTCCTTTCCCTCTCTTTTCTTTCTTTCTTTTCTTTCGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTAGCATGATCATAGCTAACAG
CAGTCTGGAACTCCTGGTCTCAAGCCATCCTCCCACCTCAGCCTCCAGAGTAGTTGGGACTACAGGCCCCTGTCACCATGCCCAGTTATTTTATTTTATT
TTTTTTTGAGACAGAGTCTGGCTCTGTTGCCCAGGTTGGAGTGCAGTGGTGCGATCTCAGCTGTCTGTAACCTCCACCTCTTGGGCTCAAGTGATTCTCC
TGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGCCACCACGCCCGACTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCCTGTTAGCCA
GGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCGCTAATTTTTTT
TTAATTTATTTTTTRTACAGATGGAGTCTCACTATATTGCCCAGGCTGGTCTTGAACTCCAGGGCTCAAGCAGTTCYGGCACACTAGCCTCCCCCAATTC
AATGGGATTACARGTGTACCCATTTTTTAAAAATGGGCCAGACTAAATATTTGTCTAGAGATCCATACTTGAGTGATAAAGCTATATGGGGTTCCATCTG
GGAATTCGGTTCTGCGGTAAAACGGTGCCGACGGGCCTCCCTTTTTTTAGTGTCTGACAAACAGGGCACAGACCGAACTTCATAACAAAACTTTGTGTTC
TTGACGAAGGCAAGTTTTGCTAAGAAAATTATTTTTATAAGCGAGAAAGGTATGAAGGTTATTTGCAAAGGAATTTTACTGGGGTGAGAAAAAAAGCAAG
AGGTTTACCTTAGGATTCCTGGTGGTAAAGAAGATGGAATGGGCAGAAGATGTCATCACAGATGTCACGGGGAGAGCGATAGCTGAACCTCTGAAAGGAA
AGAGGTTCCCAGGGAAGGATGAATTTGATGCAGGAAAAAAGTTAGAGGATGGTCTTAAATTTGTCAATGTAGTTCAGAGGAAAGTGTAATTCTTCACAGA
CTTTTAGTTTTGAAAGGATGGCTTCAAAAGATACTGGGGGACATGGGCGCAGTAACTCACGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGYGGA
TCATCTGAGGTGGGGAGTTCGAGACCAGCCTGATCAACATGGAGAAACCCTGTCTCTACTAAAARTACTTAATTAGCTGGGCGTGGTGGCGCATGCCTGT
AGTCCCAGCTACGTGGGAGGCTGAGGCAGGAGACCATCGCTTGAACCTGGGAGGCAGAGTTTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGG
GCAACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAATTCTGGCCAACCGGGAATAGTCCAGGATAATCCATTCTTCAGAACTTGTTC
TTGCTAACTCAGTTAAGTGTCGAATGGCGTGGGTTGTCTACTGTATTTTAGAGGACATTAGAATATTTATGAAGGGCTTTCCCAGGTTTACTCATAACTT
CATTTTCCTCATGCTATTTGTCCCTTAAAGTCTTTCTGAAATCTTTCAGTTGCCACTTCTTCTGGGTGGGTGGGTATGTATGTTGAGGGTCATGCTTTTT
TTTTTTTTTTTTTTTTTTTGAGATGGGGTCTCCCTCTGTCGCCCAGGCTGGAGTGCAGTGATGTAATCACACCTCACTGAAGCCTCAACCTCTCAGGCTT
AAGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGCACTACAGGCATGAACCACCGTGCGACTAATTTTTAAAAAATATTTTTGCAAAATTAGCCAGGT
GCGGTGGTGCACGCCTGTAGTCCCAGCTACCTGGGGGACTGAGGTGGGAGGATTGCTTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCCAAGATCATGCCA
CTGCACTCTAGCCTGGGTGACAGAGCGAGACCCTGTCTCCAAAAATAAAAAAATAAAAAATAAAAAATAAAAGATGGAGTCTTGCTGTGTTGCCCAGGTT
GGTCTTGAACTCCTGGGCTCAAGTGATCCTCCTGCCTTGGCTTCCCAAAGTTCTGGAATTATAGGCATGAGCCACTGCACCTGTCTGGGTCCTGCTTTTG
GTAGTGATATAGAACCAACTTAGTGAAATTCTAGAATGACGCTGTCCACTAAGGTAGCTCTGCCAGCCACAGCCACATGTGGCAATTTAAGTAGAAATTC
ATTAAAATTAGATATTTGTCCCTCAGTTGTACTCACCATATTTAGACAATGCAGACAGACAATGTTGCTATCACTGCAAAAACTTGTATTGGGTACCTCT
GCCTTAGAACTTTTCATTCCATGATGAAAGATTGTTCTGGAGTCAGACAGGCCTGCATTTGAAGCCTATATCTGTTTTGTGACCTTGGGCAAATTGTCTA
GCTTTTCTGAATGTCTGTTTTTTCTTCTATCATGAGGACATGATAAGGGAACCAGTCTCCAAGGTTTTCCTCAGCTTTGAACTGGTATATCCCCTCTTTC
GATAAAAATAAAAATCCAGTTCCTCTTCCCTACTTGGAGTTTGTTCTTTTTTCCTCTAAATATAAAATATACCGTTGAATGTTTTTTCAACCTCTCCACC
CCTTGAGAGTCCCTGGAATAGAGAGGAAGGAGTGGCTTGGGAAAGTTGATCACAACAAAGAGGCTATTATAGGTACATCTAATCGAGAAGAGGAACAAGG
AAGGAGTAGGTGTGTTGACCGGGGCTCAGAGTGTCTTGTCTGTGGGTCACCAAGAATGAGGAATGTGTCAGCTCCTTCCTGGCTTCTCCTCTCTGGGAAC
AGAGAACAGTGCATTGCAGCTTAAGTGGAGTAAAATGGGTGTGGGTTTGGAGGAAGTGGATTAAGGATGGGGAAGGGGCCGTGGGAGAGAACCCCAGCCT
GAGTTTGTCTTCCTGGCTCAGCACTGAGTGTCTCAGTCAACACATGAATGCCAGTAATGGGAATCTATTTGGATTCACTTAAGCCATGAGGTGGGGGCAG
TGTGTTAACTGGGGCAACACAGGGCTCTCAGCTTGAATCAGCTAGCTTTTGCTGTGTAGCAAACCACTCTGAAACACAGACCTTGGAATTTATATTCAAG
TTTAATCATGGAGCTTGTATCAGCTAGCTTTTCCTGTGTAGCAAACCACTCTGAAACATAGAACTAGGAACTTGTATCCAAGTTCATTCATGGAGCTTGT
ATCAGCTAGCTTTTGCTGTGTAACAAACCACCCTGAAACATACAACTTGGAACTTGTTGTATCCAAGTTCAGTCATGGAGTTTGTATCAGCTAATTTTTG
CTGTGTAACAAACCACCCTGAAACATAGAACTTAGAACTTGTTGTATCCAAGTTCAATCATGGAGCTTGTATCAGCTAGTTTTGCTGTGTAACAAACCAC
CCTGAAACATAAAACTGGGAACTTGTTGTATCCACGTTCAATCATGGAACTTTTATCAGCTAACTTTTGCTGTGTAACAAACTACTCTGAAACGTAATGG
CTTAATCAACAATCATGTACTTAGCTCATGATTCTTTGGGTCGCTGGGCAAGTTTTCTTGTTTAGACCCACCAGCTGACCACAAACACAGGCTCTTTTCT
CTCTCATGTCTGGGATCAACCAGTGGGTTGTCTGGTAGCTGGATGGTCTAGCATGGCCTCACTCACATGTCTGGTGGTTGGTGCTGGCTGTCAGCTGGGA
GGCCTTGGTTTTCTTCCCTGTAGCTGCTCATCCTCCAGTTGGCTAGTTTGGGCTTAGATTACATGATAGTCTCAGCGTTCCGAGAGTGGCAAGAGATCAA
TTTCCAGTACACAAGTGCCTTTTGAGTTTCTGTTTGCATCTTGTGTGCTAACATCCCATTGGCTAAGGTGAGCTGGGAGGGAAAGGGAGAATATAGTCTT
TACCTGTTGATGGAAGAGGAAGAATTTGTGGCCCTGTTTGCCATCTGCCAAAGAACCCTGGAGTGGGAAACAGTGGGGCTCATAAAACATTTTTTTAAAA
ACCTCTTATTTTAGGTTCATGAGTACAATAACATTTTAATCAGAATTTGGAGCTCAATTGGACATCAGGACTGTGTATGGTGTGACTGAGGACATTAAAT
GATTTTTTTTTGAGTAGGAATTTAACTTTATGAATTCCACTTGTTGAATAACCAATTCCTTCCCCAGTAATTCTTGATGTTTTCTTCATCAGGTATTAAA
TTCAACCAAAACCATGAATTTGCTTTTGGGATATCAATTCTATTTCAAGTCCTCTGTGTCTTAATCTTATCCCAGTACCATACTGTTTATAGATTTAGAA
TATGTGTTTTTTTAGTTTTGTTTTTGTTGTCGTTTTGTTTTTAAAGAAGTGGGGCTCGGCTGGGCGTGGTGGCTCATGCCTGCAATCCCAGCATTTTGGG
AGGCCGAGGTGGCTGGATCACTTGAAGTCAGGAGTTCGAGACCAGCCTGGCCAACACAGTGAAACCCCGCTACTATAAATACAAAAATTAGCCGGGCATG
GTGGCACATGCCTGTAGTCCCAGCTACTTGGGAACCTGAGACAGGAGAGTTGCTTGAACTTGGGAGGTGGAGGTTCAATGAGCCGAGATTGTGCCACTGC
ACTTGAGTCTGGGTGACAGAGCGAGATTCTGTCTTCAAAAAAAGAATGGGGGCTCACTGTGTTGCCTAGGCTGGACTCAAACTCCTGGGTGCAAGTGATC
CTCCTTAGCCTCCAAGTTGCTGGGACTACAAGCTCATGCCTGGTAAGAACATGCTTTATAAAGTGGCAAATCTAGTTTTTTCCCTATTACACCTTTTAGA
AGAGTGTTTCCTTTTCTGGTTGAACTAAATATTTCCCTCCTCTCACTCTCATATAAAACCCATTGAGGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCA
GCACTTGGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTAAAACCCTGTCTCTACTAAAAATACAAAAAAA
TTAGCCGGGCATGGTGGTGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACTTGGGAGGCGGAGCTTGCAGTGAGCCGA
GATCATGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTTGAAAAAAAAAAAAAAAAAAAAAGCAAAAACAAAAACAAAAAAACCCATTGA
GATATTGATTTAAAAATTTAATTAAAAACATAACCCATTTCCCAGAGGAAAAAAAGTGCAGCTCGCTGCCAGCACTCCTTTAATTTTACATAAACATGTT
CTTTGAGGCTGAAGCAAATCTGACTGATTTTCAATATGAGAAAATATAAAACGGTTCTTGGAGTTATTTCTAAACAGAACTTGTCTCTAATCTTAATGTA
ACAGAAATGTCTATAATGTTACATTAGGATTAGAGAATAGATTATTCTTGGGACAAATGGAAAAATGGGTTAAAATCCATAAATTAAGAAATCAATACTT
TCGTATTTTTCCTTTCCGGGCAGGTATGGGATCTCCTTTTCCATTTGCTCAAATCTTTTTTTTTCTTTTTGAGACAGAGTCTCGCCCTGTCACCCAGGCT
GGAGAGTAGTGGCACGATCTCGGCTCACTGCAACCTCTGCCTCCCAAGTTCAAACAATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCACA
CACCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAATTCCTGGCCTCAAGTCATSTGCCCA
CTTCGGCCTCCCAAAGTGCTGGGATGACAGGCATGAGCCACYGCGCCCAGCCAATTTGTTCAAATCTTTTATATTGTCCTKTCTTCATCTTTATCCTGTA
TTATTTTTGTGACGATGGTTCCTGATTTCTGTATCACAGAGTTTTGTTGTGTTAGTTATGGCTACTATGAATAGCATATTTACCCTGAATCCAGATACTT
TAGTGAAATTGATTGGTAGGTTTTTAAATTGTTTTATTCATTGTGTGCAATTTCGTCCTCTACAAATTATGGTCATTTAAAAAAATTATGTCTGCTCAGT
TCTGGAAGCATGAAAAAAATTATGTCTAAAATCATACCTCTTGTTTCGGTTTTAAATCTTATTCTATTGACCAGGGCTTCTAGACTAACATTAAATATTT
AACAATGGTATTATCCGACATCTATGTTTAATAGATTTCCTAATATAAAATCATCCTTGCTTTCCTGTGGTAAAACCTACTTGGTTGTGATGAATTATTC
TTTCAGCATAACGTTGAATTCGATTTGCTAGGTTTGCTTTGTTTCGTTTTCTGAATTCTTGCCATCTGTGTTCATGAGTGAAATTGGGCTATGTTTTTGG
TTGGTTTTATTTTGCAATGTCTTCATCAGTTTGGATTATTTATTGTGTTCTAGCCACATAAAATGAAATAGCAGGTAACTGAGTATTCATTGACAAATTT
TATGGTGCCATAACTTTTGGGGGGAAGCAATTCTTTGATAACTTAAGAAAAAATTTAGGCCAGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGG
AGGCTGAGGCAGGTAGATCACTGGAGGTCAGGGGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGT
GTGGTGGCGCACGCCTGTAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCACTTGAACCCAGGAAGCGGAGGTTGCAGTGAGCCGAGATCGCACCA
CTGCACTCCAGCCTGGGCAGTAGAGCTAGATTGCATCTCAAAAAAAAAAAAAAAAAAAAAACCAAAACAGTGTGTGACTGGCTGTGACGTAAGGCAGTCA
GACCTCTCCTTCGAAATGGGCCGTGATTCATCTTTATTTTTGTAGGGCTGTGTCACGTTAGAACCACTACAGCAAAAGTTTTCATTGGAAATCTAATAAT
GTTTTTTTAGTCTGCCATCTGGAGTCTGTGCTCCTTGTATGTCTTTATTGTTCAAGACTAAGAGTGGTGTGTGTGTCTGTGTTGGGGGGATGGGGTTTGG
TAATTTTGCTAACATGGCTCTAAGAATCTGTCCCGCTTCCCAAAACCTCATTTTTCTCTGCTTTAGCAGTAGCCCAACACTGAAAACAGGGTACTGCTTT
TTTAGAGGAGTTCTGATTTGGATTCCTTTTCTTTCTTTTTTTTTAGGCCAAAATTTTCATTTATAAATAGCTTCTGTGGTACACAACATGCAAATATTTT
TGGTTTCATGATATTACACCAGAGTTGCAGAGTTGTAGCTGTTTTTTTTTTTTTTTTTTTGAGGCAGTCTCGCTGTGTCACCCAGGCTGGAGAGCAGTGG
TGCGATCTTGGCTCACTGTAACCTCCACCTCCCGGGTTCAAGCAATTCTCTTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGYGCCCACACCACACCT
GGCTAATTTTTGTGTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCCTCCTCCTCAGCCTT
TCAAATGCTGGGAATACAGGCATGAGCCACCACACCCGGCTGAACTTTTATTATTTTAAAAACATTTTTATTTATAGTAAAAGTCACACATAAAATGAAA
TTTGCTGTTTTTAGAAAGAATGTTTAAAAAGATGTGTACCATGTTGCCCAGTACAGTGGCTATTCAGAAACAGCCATAGTACACCACAGCCTCAAACTCC
TGGGCTAAAGGGATCCTCAAGCTTCAGCCTCCCAAGTAGCTGGGGCTACAGGAACACACCACCACATCTGGCTTGCCTCCTTCTCCTTCTCTTTCTCCTT
TTCCTTCTCCTTCTCCTCCTCCTTCTTCTTTTTTTTTTTTTGAGACAAGAGTCTCACTCTGTCACCCAGGCTAGAGTGCAGTGGCATGATCTTGGCTCAC
TGCAATTTCTGCCTCCTGAGTTCAAAGCAATTCTCCTGCCTAAGCCTCCTAAGCAGCTGGGATTACAGGTGCATACCACCATACCTGGCTAATTTTTGTA
CTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGTCCCGAACTCCTGACGTCCAGTGATCCTCCTACTGCGGCCTTCCAGAGTGCACAGGCATGAGCC
ACTGTGCCTGGCTTGTTTTCTTCTTTTTTAAATTTAATGAGTTTAGGCAGGGTTTCTCAGCCTCAACAGTGTTAGCATTCTGGGCTGAACCCCTCTCCGT
GGTGGGGACTGCCCTGTACATTACAGGAAGCTTAGTAGCATCCCTGGCCTCCACTCAATACCAGTAGCAACCCCAAGTCATGACAACCAAAAATGTCTCC
GGATACTGCCAAGTGCTGGGATCACAGGCATGTGCCACCATGCCCAGCTGATTTATTTTTATTTTATTATTTTTGAGACAGTCTCGCTCTGTCGCCCAGG
CTGGAGTGCACTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTATAGGTG
CACGCCACTATGCCTGGCAAAGTTTTGTATTTTTGTAGAGACGGGGTTTCACCATGTTGGCAGGCTGGTCTCGAACTCCTGACCTCCAGTGATCCACCCG
CCTGGGCAATATAGCAAGACCCCATCTCTACCAAAAATTTAAAAAAATTTAGCCGGGGGTGGCGGCATGTTCTTGTAGTTCTGGCTACTCACGAGGCTAA
AGTGGGAGGATCATTTGAGCCCAGGAGTTGGAGGCTGCAGTGAGCTACGATCACACCACTGCACTCCAGCCTGGACAACAGGGCAAGGCCTCATCTCTTA
AAAAAAAAAAAACAAAATAAAATAAAAAGTGAATAAGTGAAAGTAATAAAATGTAAGATACAGTTGGAGTTCTCTTTGTCATCTTCCCTTGCTATATTCT
CCTCCCTTCTTCCCAGAGGTAACAACTCTCTTAGGTTTGGTACATAAACTTCCAGCCCTGCATGTATTTTGACACATAACCTTGTACACACGTCAATGCC
AGATACAGGTTCAGTATCCCTTATTCAAAATGCTTGGGACCAGAAGTGTTTCCCACTTGGGATTTTAGAATATGTGCGTATATGTAATGAGATACTGTGG
GGCTGAGAACGAGGTCTAAACGTTAAATTCATTTATGTTTCATGTACATCTTATACACATAGCCTGGAGGTAATTCTATACAATATTTTCAGTAATATTG
TGCGGGAAACAAGGTTTTCACCGCMCTGACTGTGACCTGTCACAAGAGGTCAGGAATGGAATTTTCTTCCACTGCTATCATGTCGGCGCTCAAAAAGTTG
AATTTTGGAGCATTTAGGATTTTGGATTTTCGGGCCAGGAAATTTTGGAGCATTTAAGATTTTGGATTTTGGGTTATCTTCAGTTGTTCTTTAAATCTAT
TTATTTATTTATTTGTATTTGACAACGAGTTTCACTCTTGTCACCCTGGCTGGAGTGCAATGGCGCAATCTTGGCTTACTGCAACCTCCGCCTTGCCTCA
AGCGATTCTGCTCTCTAGTGGCTCAGATTACAGGTGYGCACCACCACGCCTGGCTAATTTATGTATTTTTGTAGAGATGGGGTTTCACCATGTTGGCCAG
GCTGGTCTCAAACTCCCGACTTCAGGTAATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCTGGCATAAATCTTTCT
TTAAATCTTTCGCTGCTGTAATAAAATATACATCATAAAATTTGCCATCTTATTTATTTTTCAGTATACAGTTCACTGGTGTTAAACACTGCCATTTATA
TTGTAATACACTTTTGAGTATTCTAAATATCTGCATATATTGGGAAGCTAAGTAGTACTATCCCTTAGGAAGCCATTGTGTATTTTGCACGTAAAGCACA
TTTCAGTTCTGACTGGCCACACGTGGCTGGTCCTGCTGTAATGGATCTAGTCTTTAAAAATACTCCGCGAGAGCTTGCAGYGAGCTGAGATGGCGCCACT
GCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAACCAAAAAACAAAAAACTCTGCGATCTTCCTCACCATGCACACATATGATATTTTT
GTGATTGTGATTCCAATTGCTACACCTGCTGCATGAGTTCTTAAGCCAAATGCTTTTTTTTTTCTCTCAGCCACTATGTTCTTTAAGTTTATGCCTCTTG
ATTCAGTATTGCTAGTTCATTCTTTTAAGTGCTACATAGTATCTTGTATGAATAAGCCACATGCTACTCACCAGCTCCCCTAGTGGGAGGCATTGAGATT
GTTTCCGGTTTGTTTCTTTTATAAACAATGCTGCAATGAACATCTTGGTGTCCATCTCCTCCTACCCATTTGTGAATGGTTTTCTAGGATTGATGTTCAG
AATTGAAGTCACAGGGAATGGAGTATGTGCATTTTTAGATCTAGYATATACTCCCCGAATGGTCTCCAAGGTGGCTGTGACAGTTTCACCAGTGATGCAT
TAAGGTATATGTCAAATGTGGGCAAGGCTGCAGGAAAATTATGTTAATTCCAGTGCATGGAAATTGGTATCCTATGGTATTCTTTTGCATCTCCCTGATT
CCTGGTAAGACTGGGAATCTCTCTGTATGCTTCTTAGCCATGTCTTCCTACCTCTTCCTCCTCTTTCCCTGGGAGCTGTTTTGGGGTGGGGGGGGCTGGG
CCTTTTTCTTCAGGGACTCTGCATTGGCAACGTCACAAAGAGGTGCACAAGGGATTGAAGTGTCGGAAATGCTTTGCTGCTGTCATTGCATTTCTTTACC
CAGCATTTCAATTGTGCTTTGCTTTGCTTTTCTCACTTGAAATTGTGGCCAGATAGAAACCCAGTTAGACTAATAAGCATCCATCTTTTTAAATCTCTTT
GAGATGCTGATGTTTGGATATCTTCAGTTGCTCTTCTTTAAATCTGTAATTTTTTTTTTGTAGTAATAATAGGACATGCATCATAAAATTGACCATCTTA
ACCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGAATTCATCTGTTGATGGACATTTGGGTTGTTTCCGCCTTCTGGCCATTGTAACTAACGCTGGGAAAA
ACACGGGTCTACAAATATCTGTTTGTGGCTGCCCAAGTTTTGGGGACACATAGTGGAAGCCCACCCCTTCCTGATTGAAGCATGGGGCCCATTGAGAGAC
TTAGCCCATAGGAGCCTCTTTCCAGTGAGGAATATGGAGGGAATGGAGGGCAGTACAAAAGTTCTCCGGCCTGGACCCTTGTGATTCTTTGAAGGCTGAG
ACGAGAGATGAGACTCATGGCTGGGTTCACTTTTTGGTTCACTTTCCCTTTCCTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGCACTCTGTTGCCCAG
GCTGGAGTGCAATGGCGTGATCTCAGCTCATTGCAACCTCTACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCTCGGGTAGCTGGAATTACAGGT
GCATGCCACCACGCCCGGCTAATTTTTGTATTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCATGACCTCAAGTGATCTA
CGCACCTCAGCCTCTCAAAGTACTGGGATTACAGGCGTRAGCCACTGAGCCTGGCCTCTTTTTCCATTTTCTGTTGCATCAATGGAAAGTCCATCTCCTG
CCCGTGGACGTTTTCTATGTTGATGTGGAATGTGGCATTTGTCCAGGAACTTGGTGCTTTTTTTTTCCCTCTATTATTTCATTTGCTTTTGGATTTTGAG
AGATGGAGAACTTCCTTAGTGTGGGAGGGAAACAGTTATGGATTTACTTTATGATTCTACATTCAATCCTGGTCTCTTCAAATGATTTCAGGGCTTGTTT
GGCCAGGTCAAGTCTGTTCTAGGAGGATTTTCTTTCCATCCTTCCTCTGGGAAATGAATGAGTATAAAAACATGCCCAAGATGGAGGGAAACCTCCCCTT
CCCTTTTTTGCCTTTTTCTTCCTGGTTTTGTACATAACTGAACATTTTGATTTTGGGATGAGAGGATATTAGTTCATTCTCACATTGCTATAAAGAACTA
TCTGAGACTGGGTATTTTTTAAATTTTTAAAAATTTAATTTAATTTAATTTAATTTTATTTTATTTATTTATTTTTTTGAGATGGAGTCTCGCTCTGTCA
CCCAGGCTGGAGTCCAGTGGCGCCATCTTCGCTCACTGTAAGCTCCACCTCCCAGGTTTACGCCATTCTCCTGCCTCAGCCTCCCGAGTTGCTGGGACTA
CAGGCACCCGCCACCATGCCTGGCTAATTTTTTGTATTTTTAAATAGAGACGGGATTTCACCATGCTAGCCAGGATGGTCTCGATCTCCTGACCTCATGA
TCCACCCGCCTCGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCAGCCTATTTATTTATTTTTTTGAGACAGAGTCTCCCTGTGTTGC
CCAGGTTGGAGTGCAGTGGCATGGTCTCTGCTCACTGCAACCTCCACCTCCCCGGTTCAAGCGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTAC
AGGTGCCTGCCACCACGCCCGGCTAATTTTTATAGTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTGGAACTCCTGACCTCATGATCC
ACCTGCCTTGGCCTCCTAATGTGCTGGGATTACAGGYGTGAGCCACCGCGTCTGGCCTGTTTTTTTGTTTATTTCCATAGGTTTTGGGGGAACAGGTGGT
ATTTGGTTATATGAGTAAATTATTTCGTGGTGATTTGTAAGTTTTGGTGGATCCATCACCCGAGCAGTATACACTGAACCCAATTTGTAGTCTTTTATCC
CTCACTCACTTCCTATCCTTTCCCCCTGAGTCCCCAAAGTCTATTGTATCTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACGCTGTCACCCAGGCTGGA
GTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCTGTCTCCTGGGTTCATGCCATTCTCCTTCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGC
CACCATGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCYGCCT
CGGCCTCCCAAAGTGTTGAGATTACAGGCATGAGCCACCGTGCCGGGCCTTGTATCATTCTTAAGACTTTGCATCCTCATAGGTTAGCTCCCACTTATGA
GTGAAAACATAGATGTTTGGTTTTCCATTCCTGATTTACTTCACTTAGGATAAGAGTGAGACTAAGTAATTTATAAAGYGCTGGGATTAGAGGCGTGAGC
CATGGTGCCTGGCCAATGTCTGGCATCTTTTCTTTGGTGTAATGTTTTGAGATTCATCCATGGTTTTGCATTTATCAATAGCGTATTTCTTTTGTGTTGT
TCAGTAGCATTCCATTGTGTGGAGAGACAACATTTAGTTTCACCATTTTAGCTGTTGAGAGACATTTGGGTTGTTTTCAACTTTTGGCTATTATTCATAA
ACCTGCATGAACCTGTTATACACAATTGTGTAGGAGTCTTTTATGTGGACCAATGCCTTCATATCTCTTGAGGTTATATCCTGGAGCAGAATGGATGAGT
TGTGTAGTAGAAGTGTGTATAAGGAGTGGGCAGGCCAGGTGCGGTGGCTCATGCTTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGGTGGATCACTTGA
GGTCAGCAGTTCAAGACCAGCCTGGCCAACGTGGTGAAACCCCGTCTCTACTCAAAATACAAAAATTAGCCGGGTGTGGTGGTGGGCACCTATAATCCAA
GCTATGGTGGGAGAATTGCTTGAATCCAGCAGGTGGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGTAACAAAGCAAGACTCTGTC
TTTAAAAAAAAAAAAAAAAAAAAGGAAAGGCCAGATTGTTTTCCTAAGTGGTTGGAGTCTGTTATATTTCCACCAGCAATGTATGAGAGTTCTAATTGCT
CCACATCCTTAGCAGCACTTAATATTTATTGTCAATCTTTATTATTATTATTGTTATTATTATTTTTAGAGATAGGATCTTACTCTGTTGCCCAGGCTGG
AGTTCACTGCAGCCCTGAACTCCTGGGCTCAAGTAATCCTCCCACCTCGGCCTCCTGAGTAGCTTGGATTACAAGCACACATCACTACACCCAGCTAATT
TTATTTTTGTAAAGATGAGGTCTCACTACCTTGCCCAGGCTGGTCTTGAACCCCTGGGATCTCAAGCAATCTCCCTCCTCATCCTTCCAAAGTGTTGGGA
TTACAGGCGAGAGCTGCAGCGCCTGGCCCCTTTCACTTTCTTAACAGTATCTTTGAAAAGCAGCTGATTTTTCACAGGGTGTTGTAATTAATTTAATTAG
CTCCACACTGTGGCTTTGAAAATCTTCCGTAAGCTCTAGCGCCAGACACATGGATAKTTGCAGAATCTTATTTTCTAGAGTCCTGGAAATTTTCTTTCCT
GTGAGAGAGTTGAGAGCRATAATTTTAGGGTGGTTATTCATCTTCAGACACAAGGAGTAAGAATGTAGGGAGTTCGTGACTGTGTTTGGAGAGGGGAGAG
CATAGCAGTGGTCTAATGATCTTCTCAGGGTTCTCAAAGGGTGGACGAGCTGCAGGTTGAAACTTGCCTTGCTTTTAGACTGTTGACTGAGTTTGTAGTT
AAGCAGATAAGTGCCAAAGGAGAAGTCAGGGCTGACTGATTGCAAGTGATGATTGAATACTGGCCCTCACAACCATCTGTGAAAAGTCTATTTCCAGAAA
TTTTTTTTATTTTGTTATTATTATTATTATTATTTTTTGAGACGGAGTCTTTCTCTGTCGCCCAGTCTGGAGTGCAGTGATGCAATTTCAGCTCACTGCA
AGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCCTCCACCACACCTGGCTAATTTTTTGTATTTT
TCGTAGAGATGGGGTTTCATCATGTTAGTCAGGATGGTGTCGATCTCCTGACCTCGTGTCCACCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCAT
GAGCCACTGCGCCGGGCCCAGAAATATTTTTAAGAAGAGATTTTTGAAAAACCCTTGTTTTCATGATGGGAGGATATGAAAAGCAGTGTTTTGAAATCTC
CTCCTTAGATCCTGATACTCGGAACTGTCGATTCTCCCATTTTCATTTTCTCCTGGATAGATTGTACACTTGTGCCTTGGTATCCTCAATGATTCCAAAA
CCCCCCTGGGGATCCAGTCCCTGACATAAAAYGGCGTAGTGTTTGTACATAACCTACATACATCCTCCTGTATACTTTAAATCATCTTGGTCTGGCAGTG
TGGCTCACACTTGTAATCCCAGCACGTTGGGAAGCAGAGGTGGGAGGATTACTTGAGCCCAGGASTTCAAGACCAGCCTGGGCAACATGGCGAGACCCCC
ATCTCTACAAAAAATTTAAAAATTAATTGGGTGTAGTGGCATGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGACGGGAAGATTGCTTGAGCCAGGGA
GTTCCAGGCTGCAGTGAGTTATGATCGCACCACTACACTCCAGCCTGGGCAACAAAGAAAGACCCCATTTCCATTTAAAATAATAGGGGCCAGATGCAGT
GACTCATGCCTGTAATCCCAGCCCTTTGGGAGCCTGAGGTGGGCGGATCATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGCCCAACATAGTGAAACCC
CATCTCTACTAAAAATAAAAAAAATTAGCTGGACACCATAGCGCGCCTGTGGTCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATCRCTTGAACCTGGGA
GGTGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACCACTCCAGCCTGTGTGACAGAATGTGACAGAATGCGGGCACATCACGAGATCAGGAGATCGA
GACCATCCTGGCGAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCGGGTGTGGTGGCGGGCGCCTGTAGTCCCAGCTGCTCAGGAG
GCTGAGGCAGGAGAATGGCGTGAACCCAGGGGGCGGAGCTTGCAGTGAGCGGAGATCGTGCCACTGCACTCCAGCCTGGGCAACACAGCGAGACTGCGTC
TCAAAAAAAAAAAAAAAAAAAAAAAAGACAGAAAAAGAAAAAACAAAAGACGTTTAGCTTTCCTGGGTGACCCAGTGTTGCAGGGATTGGCCATCCTTGG
TRTAAGGCATAGGATGTGCAGGGTAGCAGGACAGCAGAGTGGGCAGTGTGTGGGGTTTCTTTCATTGATAGGGTGGTTCCCAGCACTCGGGGTCAGGGCT
TGCTTGTAGAAGTTTCTGAAAAGTTGCAGTCATGTTTCATTTCTTTCTCCCCCTACCTAGCACATGCCAGGCCACACAGCATAGTACGATGGTTTGGAAC
CAGGCTTAACCTGTTAGTAGCCGTGGGGCTCTGGGCAAGTCCACTGGAGTTCTCCGGGATCTGTTTCCTCTTTTGTAAAATGGGAACCAAAAGGTATCAC
AGGCYGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCYGAGGTGGGTGGATCACCTGAGGTCAGGAGTCCAAGACCAGCCTGGCCAACA
TGGTGAAACCCCRTCTCTATTAAAAATACAAAAATTAGCCAGGTGTGGTGGCTGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCAC
TTGAACCCAGGAAGCGGAGGTTGCAGTGAGCCGAGATGGCGAGGTGGCGCCACTGCACTTTAGCCTGGGTGACAGAGGGAGACTGTCTCAAAAAATCAAC
ACCAAAACCAAACCCAACATGTATCACAAGCTCGTTGTGAGGATCAGAGAAGAGGATACGGGAATGATAAACATGGTAGTTACATTGTTGCTAGCATTGT
AGTTATATTGCAGCTGTACATTGTGACCTATTGTAGCTACTGTTATTTCTTTGATTAAGTTTAGCAACTGAAATTTTTTTTTTTTGAGACGGAGTCTTGC
ACTGTTGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCT
GGGACTACAGGTGCCTGCCACCACGCCTGGCTGATTTTTTGTAGTTTAAGTAGAGACAGGGTTTCATCTTGTTAGCCAGGATGGTCTCGATCTCCTGACC
TCGTGATCCACCCTCAGCCTCCCAAAGTGCTGAGATTACAGGTGCGAGCCACTGGGCCCGGCCAACAACTGAAATATTTAACATACAATAAAATGCACAT
GGCCGGGGTGCAGTGGCTCACGCCTGTCATCCCAACACTTTGACAGGCTGAGGCAGGCAGATCACTTGAGGTCGGGAATTTGAAACCAGCCTGGCCAACT
ACTAAAAATACAAAAATTAGCCAGACGTGATGGTGCGTTCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTAAACCCAGGAGGCGGA
GGTTGCAGTGATCCAAGATCAGGCCATTGTACTCCAGCCGGGGTGACAGAAGGAGACTCTGTCTCAAAATAAAATAAAATAAAATAAAATGCACAGATCT
GAAGCATTGAGTTCAATGAATTTTGACAAAAAATATATGCACCTGTGTAACCACCACTGAAAACAAAATGGAGGACATTGCCTCATCCCAGCCCTTTCCA
GTGAATTCCCAGTACCCCCGGGAATGAGGTGTTACAATGATTACTATCACCATTGTTGATTATTATTGTTTAGTTTGGTTTTATTGAAGAAGCGGGTAGA
GAAAGAAATAGTTAGCCTCATGCAAAAAGTAGGGCATATGAGAGCCTGAGATATGGCTTAAGAAGAGTATTGTTTGAGAAGTTTGGCTGAGTGTGGTGGC
TTATGCCTGTAATCCCAGCACTTCGGGAGGCTGAGGTGGGAGAATTGCTTGAGCTCAGGAGTTCAAGAATAGCCTGGGCAACATAGTGAGACTCTGTCTC
TATAATTAAAAAAAAAAAAAGAGACAGAAAAGTTTAAGGTATGTTGGCAGGTAGTCCTAGATGGGGTTTACTGCCAGGAGCAGTTAGGATTCAAAGAGCA
AAAATTTGAGGGTAAAAGGATGTATGGTAGGTTGTTGGTGGTGGATATATAGCCCCAACATCCAGTCACTTTAAACTCTTATCAAGACAACACAGGGCCG
GGTGCCGTGGCTCATGTCTGTAATCCCAGCACAATGGGAGGCCAAGGTGGGCAGATAACTGGTGGTCAGCAGTTCGAGACCAGCCTGACCAACATGGTGA
AACCCTGTCTCTACTAAAAATACAAAAATTAGCAGGGCGTGGTGTTGGGGACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGACAATCACTTGAAC
CTGGGAGATGGAGGTTGCAGAGAGCAGAGATCACACCACCGCACTAGAGCCTGGGCGAAAGAGAGAGACTCCATCTCAAAAAAAAAAAAAAAACAAAAAC
AAAAAACACCACCAAAAACAAGACAACACAAAGCGTTTGAACGAAAACAGCATTTGCAGATGCAAATTCAGGATCCGAAATTAATTCTTCCCCCCTCTTT
GCTGAGCTGCCAGAATGTTCCAAGGAGATCCCTCCTTTCCAGTTTCCTCCGTGGCGCACAGGCTGTGCCGAGTAAGTGGGCAATTGTGAGTTTCTGGAAA
TCAGCGAGCTGGTGTGGCTCCTGGCTCCTGGCTCTGGCCAAGGGAGTTGGCTTCCCTGTGTCCATGCCAGGAGGGGAGGCTGGAGGCTTCTAAAGGCCGC
AGCTCCGCTGTAGACACGCGCCTCCTTGGCACTGGCTTTGTTGAAATCTGTCCCTAGATAGTCTCTCTTCTGCACAGACCTCTGAGGTTTTTCCATACTG
CAAAGGGCCTTGCTGCAGGAGGAACAGTCTGACCTAATCTCTCCTAGAGGAGGCCTTGAGCTAATATTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCT
CACTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCAGTCCACTGCAATCTCCGCCTCTCGGATTCAAGCGATTCTCCCTGCCTCAGCCTCCCAAGTAG
CTGGGATTGCAGATGCCCGCCACCACACCCGGCTAATTTTTGTATTTTTAGTCGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGAC
CTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATGACAGGCATGAAGCACCTCACCCAGCCAAGGTAATATTTCTGAAAGGTGGAGTACCAT
GCTATGAGCTAGACACTTGGTGTGGTTTATCCTGTCATCGCCTCAGTGACCTCACCAGGTGGACACGGTTAGGATTCCTAATTTGCAGAGGGAGAAGTTG
AGGCTGACAGAAAGGTCAGCACTGTGCTCAAAGTGATCCAGCTGCTACCAAGATGAACTGCAGGCTTTGCTCTGAGCTCACAGCCTGACCTCAGTCTAGA
GCTGGGAATCTTTCTCTCCCTCATTGCTACACCTGATCAATTACTGAGTCCCATCCCTTTAACTGCTTACATGGCCTTCAAATCCATCTTCCCTACCTAA
GCTGCCCATTCATTGACCTGTGCCTTCTGTCCATCTGCTGAGAGCCAGGTGCTGTGCGAGCCTCTGAGAATGTGGCCGAGAACAATATGGATAAAAGTTC
TGAGCCGGGTACGCTGACTCATGTCTGTAAACCCAGTGTTTTGGGAGGTTGAGGCAGAAGACTTCCTTGAAGCCAGGAGTTTGAGGCCGGCCTGGACAAC
ATAGCAAGACCCCATCTTTACAAAAACAAAAACAAACAAACAAAAAAAAGAAAAAGAAAAATTAGCTGAGCATGGTGGCACTGACTTGTGGTCTCAGCTA
CTTGGGAGGCTGAGGTGGGAGCATCACTTGACTCCAGGAGTTCGAGGCTGCAGTGAGCCATGACTGTGCCACTGCACTCCAGCCTGGGCAATAGAGCAAG
ACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGACTGTAAATGTATCCTCCAGAGTAATTCTTCTTTTTCATTTTTCAAAAGCATCCTTGCTTTGTTTAT
GCTTCCAAAAGTTTAAAAACTGTAGCCAAGTTCCAAGAAAGAAAAAGGGAAGCAAAGGAAAAGGAAAACACAGACCCAGAGGCCCTTTATGGGGTTGATT
GTATGTGAAGTCCATCAATTGATGGAGAGAAGGAGCACCTTGGCAGTATTTACTTGTACTCTCCTATGTCATGGATTTCCTCTCCATTTTCCCAAGGGTT
CTTTCCTGTTCTTAGAAATGTTTTGTGATTTTGCTTCAGACACAGTTTGTCTACTTCTTGTAAGCATTGTTCTTAGATTGCTGGCTTTATATCTATCACT
CCCTTGCTCATCTGCCCATCCATCTATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCATCCCTCCATCCACTTGCTCATCTGCCC
ATCCATCCATCTATCCATTCATCCAGTCCATTCACCACCCACCATCTATTATCCATCCATCCATCCATCCATTCATCCACTCACCCATTCATCCATCATC
CATCCACTCACCCATCCATTCATTCAGTCACCCTTCATCCATTCACTCACCCATCCATCCATCCACTCATCCAATCACCCATCCATCCATACATCCACTC
ATCCATTCATCCATCCATACATCCACTCATCCATTCATCCATCCATCCACCCACCCAGACCGTCCATCCATCCATCCATCCATCCATCCTTCTATCTACT
CTGCCAACAATCCACACACCTGTCCCTCCATCCCTTCCAACCACTCACCCAGCAATCTTCTCATCCATCTATCCACCCATGCATACATCCACTTATTCAT
TCATCCATCCCTCCACCCACCCATTCATCCACCCATCCATGTGTCCATTCATCTCTCCATCTATCCGTGTGTCTATCATCTAATATAAGGGAGATGTTTT
GAAGTATTAAAAGTGATTATTTTGTAGCATAGGGGACAGGGATTGTGTTTTCTTTACTTACTGCTACCTTATTAAATGCTTACTAGTTCTAAAAGCCCTG
CAATTGATTCCCTTCAATTTTCCAACTCTATAAYTGCAGCATCTGCAGATAATGATGACTTCTTGCCTTTTGCCAATAATTAGACCAGTTATTGCTGTTA
ACCTTGTTATGGCAGGAACTTCCAGAACAGTGTTCAGTGACGCAGCTGAATATGGTCAGCCCAGTCTCATTTCTGATTTGAGTGGAATGCCTCAATTGTT
TTACTGCAGAGGATAATTATATAATTGTTAATACTCTTGACCTTCCTGTCTTTAGCCTCACTGAGTAAATGGGGTGTGATCATGAAATCTTGATTGTCTC
ATAGATGCAAGAGACATAAACGACATTTGTCTGTRTAYAATGACAGCAGATTTATTTTGCTAAGCTGTTAAGCTGTTAAAATAAGCCTTTAAGCCCCCGC
CTCAATTTTCCAGCAGAGTGGAATGTTATTTTGTTGCTTCTGGCCAAGTGTCGATATTCATTTTAGGGCAGGTCTTCATGGAAAGTCTGCTGGACTATAG
GTCTGGATACTTGCCRGACCCTGTGTCATCACTAAAGTTAGGGTGCGTTTCAGAACCACCCTGTACCACAGTGAAGAGGGACAAATGGCCTTAGGGAGCA
GGACCCATGGGGGCCCTCTGGGGCTGTTTCTTGTGCCCTGAGAGAGGCCCTAGATTTGGGACAGTCTGATTTACCTCCCCTCCCTTTTTTTTTTCTGGGT
GATGCTACCCTGGTTTCTGTGTTGAAATATGACCCTAGTGTGAAGGTCGCGGTCTCAGACCATCTTGTTTCTGGTATGTTAAGAAACAGAAAAACACCTT
TTAGGACACMATGTTAACCATTGAGGATACATATCAGTGTTCTGGAAAAACAAAAACAAAAACAAAACAATCTGTACCGCGACTGTGGTTTTCATCAGGG
TGGGCTGCCTTTCCGATCCATAACCCTGTGTGGCTTGATGGAGAACATGTTTTGTAACTTGCAAGGGCATCTGCAATAGCCGGGTCCTCTTGGTGAAAGG
GGAGGACCCACATTAGGTCTAAGCTGGCTGGAGTCGATGCAAAACTCTCACATGCTTTGGAAAAAGCACGTGATCTTTCGACGAGAATGCAAATGTTGAC
CGGGTGCAGTGGCTCATGCCTGTATTTGCAGCATTTGGGGAGACTGAGGCAAGCGGATCGCTTGAGTCCAGAAGTTTGAGACCAGCCTGGGCRACTTGGT
GAAACCCCATCTCTACAAAAAATACAAAAATTAACCAGGTGTGGTAGTGCATGCCTGTAGTCCCAGCTACTTGAGAGGCTGAGTTGAGAGGATTGCTTGA
GCTCAGGAGGTTGAGGCTGCGGTGAGCTGTGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGCCAGACCCTGTCTTTAAAAAAAAAAAAGAATGCAA
ATGTTTGCTTGATTATTCAGCTGGTATTTGACACACAGTTCTTTGTTCCAGAGGGACTGTCCAGCAACAAATAGTGAATTCGTTAATTTTTCACACCAAA
CCTATTGAAAATAACCAGAAAAGGTATATGCTGGAAAACTCAGTGTTCTAGAAACATTCATGTTTGCCATCCCAAGAGCAAAAGTCATGGAATGCCTGAT
GCTTAGTGTTAAGAGGAAGGAATTCCACACAGCCTGTGGCTAGCTTTTCTTATTTCATTGGTGTCCAAGACAAGATTTGAACTGTTTACTAAAGGAAATT
AGCATCATAAGTCTCCTCTGGCATATATTTCCAGCATCCAAGTGGAGCTGCTGAGATCTTGCTCAAGAGTAGCAAAATTGGCAGGAGGAGGAGGGCATTA
GTTTTTACATCAGCTTAAAGAATTTTTTTTATCAGCCATTTTTGCAATTTGGAAACCTGTTTGGAGTAGGGGTATATGGAGATGAAATTGGGCTGTTTCT
AGGATTCACCTCCTCCTTCAGGCATTTTTTTTTTTTTTTTTTTTTGGAAACAGGGTCTGGCTCTGTTGCCCAGGCTGGTGTGCAGTGGCGTGATCATGGC
TTACTGTAGCCTTGACCTCTTGGGCTCAAGCAATCCTCCCACTTCAGCTTCCCGAGTAGCTGGGACCACAGGTGTACACCATCGCACCTGGCTAATTTTT
ATATATTTTTTGTAGAGATGGGGTCTCACTATGTTGCCAGGGATGGTCTTGACCTCTCAGGCTCAAGCAACTCTCCTGCCTCGGCCTCCCAAGTTGCTGG
GATTACAGGCAGGAGCCACTGCAGTTGGTACTTACAGTTGTTTTTTTTTTTTTTTTTTCCCTTGAGACGGAGTCTCACTCTGTTGCCAGGCTGGAGTGCA
GTGGTGCGATCTTGGCTCACTGCAACCTCCACCTCCTAGGTTCAAACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACACGCCACCA
TGCCCAGCTAATTTTTTTTTGTATTTTTAGTAGAGATGTGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTCGTGATCCTCCTGCCTCGG
CCTCCCAAAGTGCTGGGATTACAGGCGTGAGGCACCACGCTAGGCCGATCCTCAGACATTTTTAATTTTCCTTTTTTAGTGTTACAGCCAGCCATTTGAA
AAATGAGACTTCCCCCTAACCTTGTGTCAAACTCAGAGACGTTGTCATCTTGGCTTTGATGTGGTGGAGGAGAGGGGCTTCTCATTCCGGGACGGGGTTT
CTCCACCTGGGGCCTGCGGATACTGGGGCTGGATTGTTCTCTGGGGTGGGGCCGTCCTGGGCACTGAGGGTGCTAGCAGCATCCCTGGCTTCCACCCATT
CCATGCCAGGAGCGCCGCCCCCGAGGCATGGCAAACACAAATGTCTCCAGACACTGCCAGGTGTCTCCTGGTGGGCAGAATCGCCTCCATTTGAGGACCC
CTGGACCAGGGTGCTGGAATGGGGGTGAGGGGCACTCTGCAATTATTCTCTGCTCTTTTTTTGAGGGGGGGGGAAATGGAAACCAAGAGCCCATCATCAG
CCTCGTGGCTCTGTGGTTTGACACTGCCATGCTACCGACAAAAACCACGTCCCTAGACTTGGGGGACCAAGGAATCTGGAGGAATATGATGATAGTCATT
TAATGAAGGTGGGTTTATGTATTACTCAAGTGCTGGGCTGGGGAGTCAGGACATAGCCACAGGGAAGAAAACAGAAAGGTCCTTCCCTCTTGGAAGCCCC
TCTTGAAACACCTAATTGGTGACATGGTACACTGGAGAATCAGAGAGTGTCACTCAAGCATTTTGGCTTGGTGGTGGGGCGGGGGTGGCGGGTCAGGCAC
TCAAGCACCCCTAAGCTGATCTGGAGAAAGTGTCGGGGAAGGGGAACATTAGCGTTTCTCCCTGAGGAATCATCTTACACCTATAACGGCAACTGGCCCA
CAGTAACATTGATGGAGCAAGTGTCTTCTTGTGGCTCGGCCGCTCAATAGCTGTGTGACCATGGGCAGGTTACTGAACCTCTCTGTGCCTCAGTCTTCTC
CTCTGTAAAATGGGAACATCTAGGATTGTTGGGGGAAATAAATGGTTAATAATTGGAATAGTGCTGGGTGCATAGGAAACTCTAAGTGTTACACAGCATG
TGGCCACAACCTCCCCTCTCCCCTCCTCTCTCCTCTTTGCTGCTGCCCTGCTGCCTTAATGGGATACTCCCCTCTCTGTCTCTGTCTGTCTGTCTGTCTG
TCTGTCTCTCTCTCATCCCCTTTTCTTTCCTCTGTTCCCCCACCCCCACCTCTGATGCAGTTTGGACCAAGTTTTCTTCAGCCAGCTAATTTAGAGACAA
GAACCTGGATATTTATTGGGCGTTTGGGGGACTTCCTTACAGCCCTAGGTCTCTGTGAAAAGGGCCCTGGATTATCTCTGCAAAAGCCCACCTGCTATTG
GTTAGCCAGGACTGTCTCCACTTTCAGACACCAGCTTCATCCAAACACTCTTTGCTGTATTTATAACCACGGTGCATTTCCTCGGGACGCACATCTTACG
GCTTCTTGGCCCCTTCGCCCAGGGTGCACTGCCTGGACCATCGCCCTCCGGCAGAGACAGTGTCTTTCTTTGTATGTTCTCCTTCCTCTGGTCGAGATGT
GGCTTGGTCACCTGGAGTGGGGCCGTCGGCAAGTCGCCTGGGCTTCGTGGAGGCTCGCTGCCCCCATGGCGGAAAGCTCGGCCACACACCCTGATGTCTC
GACACCTTTGAGTTGCCCATGAATGGGTTTTCAGAGCTTCCCGTGTTTACTTTGCTGCACGCCTCTGTTTGTGCTCTGGGGAAATTCTTGGCAGAGGAAA
AGCCAATTGGAAAACAGCCCTGCTTGGTGTCAGGGCTTGAGGTTGAGGGAGAAAGACTGAAACGGAGATTTGCATGAGCTGGTTTGAGCATGTCACAAGA
CTTTGTCTTTAAAAAAAAAAAAAAAAAAAATTGGCCTGGTGTGGTAGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACGAGG
TCAAGAGATCGAGACCATCCTGGCCAACGTGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGTACGCCTGTAGTCCCAGC
TACTGGAGGCTGAGGTGGGAGAACGGCTTGAACCCAAGAGGGAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGTGGCAGAGCGAG
ACTGGTCTCAAAAAAAAAAAAAATTTTTTTTTGTTCCAGTCTATTCTGGTGGCTTAGAGGAGGGAAGATGGGAAATTTTGGGTTTAATAGAGTAATATCC
ATCAGGTTGAGGGCTTTGAAGCACCTGGGAATATCCMTAAGTCACTACTGAGCACCAGCTGTATACAGTTATTGAGCATGTATTGTCTCCCAGGCACATR
GTCCTCACAACAATCTTTTCACAGAGCTAGGATTTGAACCCACAGTCTCTCTGGCTTCAGAACCCTAGCTTTTCTTGCTATACTCTGCCTTACAGAGGAA
GGGAACTTTTGTACTGGGTTTTGAAGGGTGAATAGGAGTTCAATGAAGAAGCAGCACATTCTGTGCTAAATTTGGCTTCCTGATMCTCCTAGAATTGGCC
AGAAGCCAATATCTGGAGGCCAAAATTGGGTCACTAGGGTGACCAACTCATCACAGGGCCCTGGATTATCTCTGCAAAAGCCCACCTGCTACTGGTTAGC
CAGGACCATCACAGTGTGCCCAGGTAACCCTGCGTTTCACCCCAAAGCAGAATTTTACACCAGAGCCTGGACACCAGTTGAATTTTCTTTAACTCATTTC
TGTCAATGGTTACCTCCAAAAATGCTCCCTTGTGTCTTTATGCTGGGCTTCTTTCTCTAGATACTTCCATTTCTTGGTTTGGGTGAAAATCAAATGAGGT
AATTAATGCTTGTGACATGTAAAGTGTAGTGAGTGGCACATGGTAACCTCTTTAGTTTTAGCCAGTTGGTTTTTTTTGTTTGTTTGTCTTTGAGACAGAG
TCTCACTCTGTCACCCACGCTGGAGTGCAGTGGCGCAGTCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGA
GTAGCTGGGATTACAGGTGCACGCCACCACACTGGGCTAATTTTTGTATTGTTAGTAGAGATGGTGTTTTGCCATGCTGGCCAGGCTGGTCTCAAACTCC
TGACCTCAGGTGATCCGCCCTCCTTAGTCTCCCAAAGTGCTGGCATTACAGGCATGAGCCACAGTGCCCAGACAGTTTTAGCCAGTTTTTCACTGGCCTC
CCTCTTTGCCTTTTTKGCAAGGGAKCTGGCCTCCCTGTCCCTGGAGTAAGCARACTTCCTTATACCTATAGCTTCCTCTAAGGAAGCGTAGTTACCTACA
GCCTGGCCCTCCCCAAGGACACAGCTGTTTCCTCCACCAAGAGCAAGGAGTGGACATAATCACTGCCAAATAGGGAAGCCAGGCTGGACACCGTGGCTCA
TGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGAGGATCACTTGAGGCCAGGGATTCAAGACCAACCTGGGCAATGTAGCAAGACCCTGTCTCTAA
ACAAATAAAAAAATTAGCCAGCTGTGGTGGCCCATGGCTGTAGTCCCAGCTACTCCAGAGGCTGAAGCAGGAGGATTGCTTGACCGCAGGAGTTTGATGC
TGCAGTGAGCTACGGTCACACCACTGAACACCAGCCAGGACAACAGAGCAAGACCCTGTCTCTTAAAAAAACAAAAAAATAAGGAAGCCAGATGGGTGCT
GGGTGTACGGGACACATGTCAAAAGTCAGACCTCTATCTGAGTAAGGAAACAGGTTCAGAGTCAGGATTAAAGACCAAGACAGCTTGAGGTCATCAGAGG
CCAGGAATTTCCATACAGGCTGCGGTCCAAAGTGCCAAGCTGGGCTAGATRGATGTTGGGGAAGAGTCTCTGTCGCCCTCTTTCCTTCCCCGTTAATGCT
ATCAGCTGAGCATGGGTCACTCCTGATTTTTTTTTTTTTTTTTTTACCGAGGACATAGGCTCAGAGTGTCTTCTAGCTTTCAACCCACCCCAGACTCTGA
CTTAGCCTTTCCCAAATGGTGCTGTGCAGAAAAATGAAAAAATTGCTAGGAGGATCATGTGCCTGGTGGATAGTACATGCTTGATAGCTGTAAACAGTTG
GTGCTCAATATATCGTGGCTTGTGGATCTTCCCAGCTGCTTCAGAACCCCAAGCCTGCTGTATAATTGTACTTGATCCCGACAACAGCCCTGCCAGATGG
GTGTTACTCTGATTCCTGTGTCCTGGTAAGTGGACGGGGGGCCTGGAGTAGCTGAATTGCCTAGAGAAGGGGACATAGCTAGAAAGGAAAAGTTGAAACC
CAGTGTGATGCCAGAGTCCATGCAAACTTTATCCTGAAAGGAGGGATCTCTTTTTTTTTTTTTCTGAGATGGAATCTCACTCTGTAGCCCAGGCTGGAGT
GCAGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCTCAGGTTCAAGCGATTCTCCTGCCTCAGCGTCCCAAGTAGCTGGGATTACAGACGTGTGCCA
CCACAACCGGCTCATTTTTGTGTTTTTAGTAGGGACGGGGTTTCGCCGTGCTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCGCCTCG
GCCTCCCAAAGTGCTGGGATTACAGGCGTGGCCACTGCGCCCAGCCTTCTTCTTCTTCTTCTTCTTTCCTCCTCCTCCTCCTCCTCCTCCTTTTTTTTGA
CAGAGTCTCACTCTATTGCCCAGGCTCGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGAGATTCTCCCACTTCAGCCT
CCCGAGTAGCTGGGATTACAGGTGCGCAACACCACAGCCGGTTAATTTTTGTGTTTTTGGTAGAAACGGGGTCTCGCCACGTTGGCCAGGTTAGTCTCAA
ACTCCTCACCTCAAGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCTCGGCCTGGTGAAGACCTTCTTGCCGGT
GGGGACTCTGCAGAGTCCTGACAGGGAGCAGGGCATCACATGGCGAGGGAGCTGAGAGTGTCAGCTCAGGTCTCTCTTCCTCTTCTTATAAAACCACCAG
TCCCACTCCTATGATAAACCATTAATCCATGAATGGATTAATCCACTTATGAGGACACAGCCCTTTTAATCACCTCTGAAAGGCCCCACCTCTCAATGCT
GCCACATGAGGAATTACATTTCAACATGAGTTTTGGAGGGGACAAATATTCAAATCATACTATTATGTTACCAGTAAAATTTAAAATATAGGAATAATAA
TTGCCGATGTGTGGCAGACTTACCAAATACTAGACMCTGTGCTAAGTGTTTTATATCTATTATTTTATTTAATTTTCTTGGTCACTGCATRACATATGCT
CTGTTAGTCCCAGTTTTTCGAATGGGCATAACAAGACCGAACCTACCTAGAGTTGGCACAAGTTGTAAAAATAGGATCCGTGGCKGGGCACAGTGGCTCA
CACTTGTAATTCCAGCACTTTAGGAGGCCAAGGCGGGAGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACCCCGTCTCTAC
TTAAAATACAAAAATTAGCCAGGCGTGGTGGCGCGCCTGTAGCCCCAGCTCCTCGGGAAACTGAGGYAGGAGACTCGTTTGAACCCGGGAGGCGGAGGTT
GCAGTGAGCCAAGATCGCACCACTGCACTCCAGGCTGGGCGACAGAGCGAGACTCCATCTCAAAAATAAAATAAAACAAAAAAATAGGATTCACTTTTGC
CACCAACTTGAAAAGGAGGCAAACACAAGATTACTCATCTCTGGAGAGGAGGCATTCAGATTTGCCTACTCAGCATTCCTGGAGATAGAACCAGATTTTG
CATGGGTTAGAATCATATTTTGCTTGGGAAGCCACTCAGACCTCATTGTGTGGACTCTATTCCCAGAGCCAGCTTCCTTTATTCCTTCAGACTCTTATGA
TTGGCTCAGGGGAAGGCACATGACTCAGACTGGGCCAATCAGCTTTCTTAATTCCTCCAGCCTCCATGATTGGTTCAGGGGTGGGCATGTGACCCCAGAA
GGTTCCATAAGATTCAGTTCTGGGACTTTAGTGGGAGTGATAGAAAGAGAGATTTTTCCTTGCTAAATCTTCCTTGCTGTGAAGCTATAATCCAGGTGCC
ACCATGTAGAGACCACGTGTCTCAGACTTCTGACACCATAGAAGGAAGCAGGACTGCGAAAAGGAAAGGGAGAGAGATGGGGTCCCCATGACATCATTTG
ACACCTGGATCTAGCTGTACCTGAAAGTGTCCTTGTCCTATGACTTGTTAGTTAAATGAGCCAGCAATCGTTCTTTTCTTTTTTTTCATTTTCTTTCTTT
CCCTTCCTTCCCTCCTTCCCTCCTTCCTTTCCTTTCTTTTCCTTTCCCTCCCTCCTTCCCTCCCTCCCTTCCTTCCTTCTCTCTCTCTTCCCTCCCTTCC
TTCCTTCCTTCTCTCTCCCCCTTCCCTCCCTCCCTCCCTTCCTTCCTTCCTTCTTTCCTTCGTTCCCTCCCTCCCTCCTTCCTTCCCTCCCTCCCTCCCT
TTTCTCTCTCTCTCTCTCTTCTTTCTCTCTGTATAACTGAGCTTTCTATTCTCACAAACTGAAAGAGGTCTTGCTAATCCAAGGCATGACAATCAGAGCA
ACATGTGAAGCCCAAAGAGCTGCAGAGCTCCCCTCCATGGCTTCCAGCCCCGGGGGTGGTCAGTGAAAGTAACTGGAGCCCGGAGCTTCAGAGGCCAGTG
TGGAGGTTGGAAAGGTTGTGGTCAGGAGAGAGTAATATATCTGGTCCCTGCAACAGACACCCCTGCAGTTTTATCCTGAATCCTGGGTAATTTCCCCAGG
TCCTGGGAAGCCTAATAAAGCCCCTACTCAGATGTTGGATTGCAAGTCCTTTTTGTTTGTTTGTTTTTTAAATCCACTTTAAATATGTCTGAAAACCACA
CACAGAGTGACTGCTGCACAGAAGAGCGAATGGTTCATGCCTTCTTCTTTGCTGCCACCAACAAGTCAGTTACCTACTTCTCTGACATGGGACCCTTGGC
TGGAGCTCACTGGCTGCCTTCCTGCCACCTGTAAGCCTCGGCACTTGCTGTTCCCTCTACCTACATGCTTTTYCCTGTGATCCTTCCTCATACGATTTCC
TCAGATTATCTTTGCTCAAACAACAGGCAAGGGCTGGGCCTTAATCTCACACCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCTGGGG
TCAGGAGTTGGAGACCAGCCTGGCCAACATGGCGAAACCCCATCTGTACAAAAAATATACAAAAAATTAACCAGATGTGGCAGCGGGTGCCTCTGATCCC
AGGGACTTGGGTGGCTGAGGCAGGAGAATCACTTAAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGA
GCGAGACTCCGTTTCATAAAAACAAAGAAACAAACAAACAGAAAAAACCAACAAAACAAACAAACAGAAAAAACCAACAAAACAAAAAACAAGAGGCAAG
AAGTTCAGTGTGCAGAATCTCTGAGAAAAACCCATGGTTGTTAACCCCAGGTCTGCCCCTTTTGAGCAGGGTGACATTAGGCAACTGATTTGATTTCTCT
TATATGAAATTTCCTCACTCCCTGCCTATTCAACCACAGTACTGAGGACATTTGGAGCTGGATTATCTCTCTGGTGGCAGCTGTCCTGGGCATTTTAGGG
TGTTTACTAGCATCCCTGGCCTCCCCCCACTAGATACCAGTAGCACTCCCACCCCACACTGGTTGCAACAACCAGAAATGTCTCCAAGACACTTCCACGT
GACCCCCGGGGGGTCAGAATTTCTCCCCTTCCCCCTGTGTTTTCCTATGGAGGTGGAACGTGTTTATTTCTTTGCTCACCGTTTTGCAATCTCTCTTCCC
CCGCCACAAGGCAGGGACTCTTCTATCTCCGTCACCATCCCATCCTCCCACAGTGGAGACAGCTCTAGGGACTCTCCTGAGCAGCAGATTCTTGGGTGCC
ACATTCTGTTCCATTCCTGGGGAATTTATCTCTTTACTGAGTGATGGGTACATGAGAACTTTCTGTGTCACCCTTGCATCTTTTCTGTTTTGTTTTTACA
AAAGAAAAAAAAGAAGGCTGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCA
TCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCGGGCGCCTGTAGTCCCACCTACTTGGGAGGCTGAG
GCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCGGTGAGCCAAGATCGTGCCCACTGCACTCCAGCCTGGCAGACAGAGYGAGACTCCGTCTCAAA
AAAGAAAAAAAGAAAAAAGATATCACTCGATGACTGCTACCGAAACATTCTGTGGCTGGGAGAGGAAAATACCAGAAAGGGTGAATGTGGTCGGTTGAAT
GATGCCTCTCCCTTCCCCCAGAGATGCCCACATCGTAATCCCTGTCACCTGTGAATTTGGTACCTCACTTGGCACAAGGCTCTTTGCAGATGTGATTAAG
TTGAGGATCTTGAGACGGGGGGATGATCCTAGATTATCTGGTGCACCAAATGCCATCGCAGGGATCCTTTTCAAGGAAAGAGGGAGGCAAGAGATTGAAA
TGCTACGGCCAAGAAAAAGGAGCTGCCTTAAAAGCTGGATTCTCTCTGGAGCCTCCAGAAGGAACCAACCTTTGTAACATCTTGATTTTAGCCCTGTAAG
ACTCATTTTGGGCTTTTCACCACCAAAACTGTAAGAAAATAGGCAGGCCATGATGGTTCATGCCTGTAATGCCAGTACTTTGGGAGGCCAAGGTGGGACG
ATTTCTTGAGGCTAGGAGTTTGAGACCAGTCTGGGCAACATAGCAAGACCCCATCTCTACAAAAAAAAAAAAAAAGAAGAAGAAGAAGAAAAATTAGCTG
GGCTTGGTGGCACACATCTATATTCCCAGCTACTTGGGAGGTTGAGGTGGGAGGATTGCTTGAGCCCAGGAGTTTGAGGCTGCAGTGAGCCATGATTGCA
CCATTGCACTCCAGCCTAGGCAACAGAGTAAGATCCCGATGCAGGAGAAAATAATAAATGTATGTCGTTTTACATTTGTGGGCGTTTGTGACAGCAGCAA
TGGGAAATGGAWACGGTGAGAAACCCAGCACCTGGGCCTGGAAACCCCCTCTGGGCGGGTCTCTAGCCAGGGGCCAACAGGAGTCAGAGCAGGGCCTTGG
TGAGAGGTGGATACGGGGCCCCAGCATCCTGATGGCCTTGCTGTGGCTTCTGGGGACACCTGCAGTGGCTCCATTACACCGTGGCAATTTGTTCCTTCCC
AGACCCCCTGGATACAAGGGGCCTGCATTTTCGAACCCAGAGCCCGGGGACATCCCCCGTGGTTCCCTGTTACCCTCTGGATGTCTGTCCTGCTACTATG
CACCTCTCCCCAACTCCTGGTACACAGTGGGAGTTCAGGGGCCGTCTCATTTGTACCGCATAACATCACGGAGGTCCAAGACGCCATGTAATATTCTGTT
TAGGATTTCAGAGGCACAGTCAGTTACATCCATCTTCTTTTTGTCTTTGAGACAGAGTCTTGCTCTCTTGCCCAGGCTGGAGTGCAATGGCACGATCTCA
GCTCACTGCAACCTCTGCCTCCTGGGTTTAAGCAATTCTCTTGACTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCATGCCACCACACCTGGCTAATTT
TTTGTACTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGATCTAGAACTCCTGACCTCAGGTGATCCACTCACCTTGGCCTCCCAAAGTGCTG
GGATTATAGGCGTGAGCCACCGTGCCCAGCCTGCTTCCATCTTCTTAGCCACTTTTCCCTCAGGTGAGACCATGAGATTAGGAACCTGTTTCAATTCCCG
TCGGAATTTCCCAACAGAGCTGGGGCTTTGTGATTCGAATATGTTCAGAGAAGGAAGCAGAAGGAAGCAGAAATGAAGGATGTTATCAGAAAAGGAGACT
CAGGGTTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGAGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCAGGCCAA
CATGGTAAAACCCTGTCTCTACTAAAAATTACAAAAATTAGCTAGGCGTGGTGGCATGCGCCTGTAATTCAAGCTACTCGGGAGACTGAGGCAGGAGAAT
CACTTGAACCCGGGAGGCGAAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAWAAATAAATAA
ATAAATAAATAAATAAATACAGGAAAAGGAAGCTCGGTAGTTTTCAGGGGCTGCTGGCGTTTCCAAGCTTTAGGCATTTTGCTTTGAGTCTTTTTCTGTC
TTTCGAGTCATCCTGAAGTGGAACCGAGAGAGGACTGAGTGGGTGGAGGGGGTGGTGGTGGGGACGGCCTGTCTGCTCTGCTGGAATTGAGAGTCTGGGA
GATCATTGTGGTGTTTTTGGAGTGATTCTTAACCCCAGATATAGACAGTGACACAAGGGGCATAAATACGAGGAACAGTGACCTTCCCTGGTGTCCTTGT
TTGAAGCATTTGACCATCTGGGCAAGGCCTGGGAGTGTCTGAACTGGCTGGTGCTTCCATGAACAAGCACAGACTCAGAGCCCATGGTCCTGGGTTCGAA
TCCTAGTTCTTCCACTTCTTTGCTGTATGACCTTTGTCTACAAAAAATAAAAATTTAGCCAGGCACAGTGGCGTGTGCCTGTAGCCCCAGCTACTCGGGA
GGCTGAGGCAGGAAGATCCATTGAGCCCAGGGGTCGAGGCTGTAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGGCAACAGAAGCAGACCCTGAA
GAAAGAAAGAAGCTGGGAAGACAGGGAAGAAGGAAGGAAGAAAGGAGGGAGGGAGAGGGGAAGGAAGGAAGGAAAAAAAAGGGAGGGAACAAGGAAGGAA
GGAAGGAGGTGGGGACGGAGGGAAGAAGGAAGGAAGGAGGGAGGGAAGGAAGGAAAGGGAGGGAGGGGAGGGAGGAGGGAGGGAGGGAAGAAAAAAAGGG
AAGGGAAGGAACTTTGGAACTACTGAACATCTCTGTTTCCTCATCTATAAAAAGAGGGATAAGTTATCATCATATCTTCCTCTATGGTCATTGAGTGGAT
GAAATAAGACAGCATTTGCAAATCCCCTAATGCATACCTGGCCCCTGATTTTGTTCCTTGGGCTGCAGCGATGATAGAGGTTTAAAACCTCCAAACGCTG
TGTTGAAATCTCTCACGTGGACAACCAGCCCACCAGCAGAGAATGTCATTTTTCCATCCTGGGTAAACAGGGTAGAGAAGAATGAGGACCTCAGGCCAGG
TTAGAGAGACCTCGCTTGGTGACCTTGGGAAGGCTTTTAACTTTTAACTTTAATGCTAACATCTGGTTCCCTCCAGTTAGGCAGTCGGCGGCCTAGCCGT
CTTGTCTTGAAGTTTCTCTTGCCTTCCATCATGGGTTTATTTGTTCAGCAAATGTTTATGGAGGGCCAGCACAGGGGGGAATAAGAACTAGAGTTCTGGG
AGGACRTGTGAAGAAACAAGTTCCGAGCCCCAGGGAGGAAAGAGGTCATTGCCTCCCTCTGGGGAAAATGTCTCTTCTCATACCTGGTTCACTTCTTAAA
TGGAATTTCCCCCTTCAGATGAGTAAGGCGTTTAATCACAAAGAGAAAACACCTTCATCACATAGCCATCCTTAAAAGGCATTTATTGTGAAGCTGGTTC
ATAGACTTCTCGCCCAGGTTGCTAACAGCCAACCTGTCTGGGTTTTGGGAAGTTAAAGTGTCTGTATCCCATTTCCTTTTTTTTTTTGAGACAAAGTCTT
GCCCTGTCACCTAGCCTGGAGTGCAATGGCACAATCTCTGCTCACTGAAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCCTCCCGCGTA
GCTGAGATTGCAGGCGTGCACCACCACGCCTGGCTAATTTTTTGTATCTTTACTAGAGATGGGGTTTCACCATGTTGGTCAGGCYGGTCTCGAACTCCTG
ACTTCGTGACTCACCAGCCTCAGCCTCCCAAAGGGCTGGGATGACAGGCGTGAGCCACTGTGCCCAGCCAGTTCTGACTTTTTAACTTGTGATTTGACTT
TTCCTGTCTGAAGTCTTTCTCTGCTGGACGTGAGTTGTTGAAGGTGTTGCTTTTCTTTGTAGACAATTAGAGGCGCTCATGCACTGGGCTATGGACAATA
ATACTTTGAAGATGTGCAAATGATTTGCAACCTTTGTTGCATAAATTATCCCTCTGAGATGCTGTTTGGCTTGATAAATAAAGGACCTGCAAGAGAGAAT
TTATCTTGAGCATTCCTTGGGGGAGAGAAGCAAAGGGGAAGTGAATGCTGCATAATAATTCTTTGCATACTTTATGGAGGGTGGGTTCCTGCAGTGCCCT
GTAGGGTTTTTTGTTTGTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCGCTCTGTAGCCCAGGCTGGAGTGCAATGGTGCGATCTTGGCTCACTGCAACC
TCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTGCCAAGTAGCTGGGACTACAGACGTGCTCCACCACGCCCAGCTAATTTTTGTATTTTTAGT
AGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCACTTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAG
CCACCGCGCCCGGCCCCCTGTAGTGGTTTAAAGCATCTTCACTGTTATTCTAAGCCTCACATTTTAAACAGAGCTGAAAAAGGACTCTAATTGCTGGCCT
GGGATCCTTGTGTGCTGTAGGAATTCACTGAGGGGGCGGGGCTGGAGAGGGCTGCTAGAGGGTGGTACAGAAGCAGATGGAACTTTCTCTCTGGCTGGAC
ACAGTAGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTTGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAGC
CCCGTCTTTACTAAAAATACAAAAAATTAGCAGGACGTGGGGGTGGGTGCCTGTAGTCCCAACTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCC
GGGAGGTAGAGCTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAACCCAAAAATAAATTTAA
AGAAAAATTTTCTCTCTGATTCTGCCTGCCTGCCTGCTAGACTGGAAGCACCATGAGGTCAAGGTCCACGATGTCTTGTCGCTATTGAAGCGCCTCCAAA
ACATGGCAGACCCTCAGCAAATCTTGGACAGATGAATGGGCATTCGATTCAACATGTGTCTGCTAGGTGGGAGCTGAGCGGGAATCGCAGGGCTTGGGTC
CCGGGGATGATGGRGAATGGCAGTGTGACTGTGGGGAAGCCAGGGGAATGGGGTGCTGGAGCCCCCAAAGCTATAAATCAGGGCCTGATGARCAGACAGA
CAGATGGACCAACTTAACCATTTCAGCCCCATCSGCTTTGATGATTTCCCTCTGGCTCTGGCAAGAGTCTCGCTCACCAAGTGGTTCTCACCCTAGGGTG
GGTCTGGATATTTCTGGGGACATCTGTGGTTGTCACACGTCGGGGTGGGGGGAGATGCTCCTGACATGGAGTGGGTGGAGGCCAGGGATACTGCTCAGCA
CCCTGCAATGTACAAGACGGCCCCTCCCCAGATGAAGATCCGACTCTGAATACCACCAGTCCTGAGGCTGAGAAACCCTACTTTAAGATAACAGTGATGG
GGGAATTATCCACCCCAGAGTCTGAGTCTGTGACTTGGGAAACGGCCCCGGCATTACCAGGTGTTGAATTCGTGAGAATACAAGGAGAAGGCGTGTAGCC
CGTGACCCAGTCCTGCCCCAGACAAACCGATATTCCCTCCAAAGCTCTRTTTGGCAGAAGAAGTGTTTTCGTTSCCTCTTGCCTGTGGTATCTCCCCTGA
TAAGCGTTGTGGATTGTTCCAGACCGTGTTGACGGGGACAGCTTCCTTCTCCGCGGCTGCCGGCCCTGACCCTGCAGCTTTCAGTCTGTGGGAGTAGAGT
CAGCTGTTGAGCAGTTTACTCTGTCCCTGTGTCAATGGGATTGTGCATGTTTTGGTTCCTGAGGGGTCATTGATGGTGCACTTTTCTTTTGTTGTTAGTC
AATTTAATTTGTTAMTAATAATAAAATCTGGAACTTACCTGACCCCAAAGGCCCAGGTCGTTAAGAATGCTTGGTGGAATGCACGTCCTTTTCAAATACC
GGCTCCTTTGGAAAACACAGAGGATGGAGTGAAATCCTTACCTGGATTGTACTGGCAGTGGGATGACAGCGTCACCTCCTGAAAATGGAATGTAGCTTAT
TGCTAAATAAGACAGCGCAGTGCCTCCCTCGCACCTGTCATCTTGGTGCTTAGAGAGGCCAAGGTGGGAGGAATTCTCGAGGCCAGGAGTTCAAAACCAG
CCTGGGCAATACAGAAAGAGCCTATTTCTACTACAAATATAAAAATTAGCTGGGCATGGTGACATGCACCTGTAGTCGCAGCTACATGGGAGGCTGAGGY
GGGAGAATCGCTTAAGCCCAGGAAGTCGAGGCTGCAGTGAGCTGTGACTTGCTACTGCACTCCAGCCCATGCAGCTGAGCGAGATCCTCTTTCAAACAAA
CCAGCCAACTAACAAGCAGGCCCCAAGGGGACAATTTTTCTGGAATTACCTGATTGTATCAAGAACAGTTTGATCAACACCTGTAATCCCAGTACTTTGG
GAGGACGGATCACTTGAGGTCAGGAGTTAGAGACCAGCCTCGCCAACATGGTGAAACCCTGTCTCTACTAAAAATATAATAATTAGCTGGGCATGGTGGT
GGGTGGCTGTAATCCCAGCTACTTGGGAGGCAGAGGCAGGAGAATTGCTTGAAACCGCGAGGCAGAGGCTGCAGTGAGCYGAGACTGYACCACTGCACTC
CAGCCTGGGCCACAGAGTAAGACTCTGTCTCTCTCTGTCTCTCTGTCTCTGTCTCTCTCTCTCCATATATACATATATATTTATATATATAACTTATCTT
GAAGACGGTTTTGGCACGCCTTAACTTTTATGCCAGAGGCCAGTGCCTTGCTTGTGTCACCCTGGTTCCAAGAATCTGCATAGTTTTTCCCAGCCCATTC
TACAGACAGGGAAACTGAGGACCAGGCACACTAGGTTCCCCTCCAGGAGTCGCACAGCGAGGAGAAAGTGGAGCCATGACTTGATGCCAAACACTGAGAC
TCCAGAACCCATATTTTCTCAGCTCTTAGGTTTTTGTCAATTTCCTAAATTTGTGTGTGTTTTAGTGGGGCTGAGTTTCTCCTGTTAATTTGTTTATGGA
GAGGAGACACTCTTGTTTACTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCTGTTGACCAGGCTGCAGTGCAATGGCTCAATCTCGGCTCACTGCAACCT
CCACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGCAACTGGGATTACAGTCACACACCACCACACCTGACTAATTTTTGTATTTTTAGTA
GAGATGGGGTTTTCCCATGTTGATCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCTAAAGTGCTGAGATTACGGGTGTGA
GCCACTGCGCCTGGCTCTTGGCGTTCTCCCTTAGTAATACTTCTTGGGGGTCATTTTGAATCTCTGTTTCTTCTGTGGTCACGTTCATTTGGAATTTACT
TATTCAACCCACAACCAATAGACATTTCCAGCCCTTTGTTAGTATAAACAGAACTTCTCTTTGACTTTCACAGCGTTTTTGTTCTGGAGGTGCTATCCTT
GATTGCTAAGACACCCACGACATTGCTCTTGGAATTGGAGTAGGGTGGATGAAATAGTATTCAAAGATGGGGGTGGTGCAAATGTTCTGTATTTCAACCT
GTACATTAGTCAAGTGTTATTTTTACCCTCATGTACATCTATTATGGAATAAAATACATGACTTTGGCCAGGCGTCATGGCTCACACCTGTAATCCCAGC
ACTTTGGGAGGCTGAGACGGGAGGATCGCTTGAATCCAGGAGTTCGAGACCAGCCTGGGCAGCATAGCAAGACCCCTTCTCTAAAAAAAAAAATTAGCTG
GGCATGGTGGTGTGTGCCTATAATCCCAGTTACTCGAGAGGCTGAGGCAGGAGGATCAGTTAAGCCTGGGAAGTCGAGGCTGCAGAGAGCTGTGATAGGC
AGCCTGGGTGACAGAGAAAGACCCTGTCTCAAAACAAAAAACAAAACAAAACATGACTTTTATGGAGTTGAGCTCAACGTTTGCATACACATGAGGAGCA
GAAGCTGGAGGTTTCAAATAAATATCTGGCTTCTGCAGGCTGCCTGGAGAGAGGTGAGAGCGATGCATTGGTCACCCAGCCTGGAGTGCAGTGGTGTGAT
CACAGCTCACTGCAGCCTTGACCTTCTGGGCACAAGCAATCCTCCTGCTTCAGCTTCCTGAGTAGCTGGGACCACAGGTGTATGCCACTATGCCCAGCTA
ATTTTATTTATTTATTTAGAGATGGAATCTTGCTCTGTCGCCCAGGCTGGAATGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCA
AGCAGTTCCCATGCCTCAGCCTCCTGAGTAGCTGGGATCACAGGCATGTGCCACTATGCCCAGCTAATTTTTTTTTTTAATGGAGTCTTGCTCTGTTGCC
AGGCTGGAATGCAGTGGCGCCATCTTGGCTCACTGCAACTTCCAACTCCCCTGTTCAAGCGATTCTCCTGCTTCTGCCTCTCGAGTAGCTGGGATTACAG
GCACGCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGAGGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATTTCCTGACCTCGTGATCCGC
CCACTTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCAGCCTAATTTTTGTACCCCTAGCCGAGACAGGGTTTTGCCATGTTATCT
AAGCTGGTCTCGAGCTCCTGGGCTGAAGCGATCCACCCGCCTGGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCCGGCCACAGCTGTT
GTTTTCTCACTGGCTTGAGAATTGTTCTCTTAAGCTGGTCAAGGTTATGACTGTTTGTGTGGCTTGTGCACGTGTGTGTGGTCAAATCCCATTTTTCTAA
AGCAAAGTTTCTATTTGGGTATCTGCTGTTTAATTTTTCAGGGATTTTTTTTTTCCGGTTGCTAAGGAAAGTACATTAAATTTTATCTTTGYATCCTGTA
GAACTCTTTGTGAATAATACACGGCCAGAGGGAAGATAGGCTGAGGAAACAGATAGGAAGGAAGTTCAAGGGGGGGATTTCTATGTGAGAACCAAGAAAC
ACCTTTGATCTTTAGATTTCAAAGTGGGAAGTTCAAGGTGAGGTGGGCGTGGAATTAGGAGTAAACCCAAGAAGAGCGAGTGGGCGGTTCCTCCTGGCAG
CCACAGAATAGTTACGTGGCATGAGGTCAGTAGCATCTCAGAGGGTGTTGTTGTCTTTGACTTAGATGAGTTCCAAGAAGCAGAAGTTCGTGAGCCAAAC
ACGAGGTGGTTTTCTGGGGGGTACAAGGGCTGGAAGAGGGGCCAGCTCTTAACCACAAATCCCTTTCCATGCCCAAGGCCAAGCTCCTTGTAACTCTTTT
CTTTCTTTGCCTCCCTCCCTCCCTCCCTCCCTCCTTCCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTTCCTTCCTTCCTTCT
CAAACAAGGTCTCACTCTATCACCCAGGCTAGAGTGCAATGGCACAGTCATAGCTCACTGCAGCCTCAAACCCCTGTGCTCAAGTGATCCTCCTGCCTCA
GTCCCTCAAGTAGTTTTTAAACTTGTTTGTAGAGATGGGTCTTGCTATATTGCCCAGGCTTGTCTCAAAATTCTGGTCTTAAGCGATCCTCCTGCCTCAG
CCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCCCCGGCCCATTCTCCTTTCTTTAGCCAGGCTAGGGAGACATAAGTGGGGAAACTCATGTTGT
TTTTTGAGATGGTTGCTTTATTCTCGTGATATTTTCCCTCTTTCCAACTTCCTTGAGCCCTCCCCAGCCTCCTCTTAGTGTCTGTGTGTGGGTGAGGGGG
CTTTGGTATACCTTCTGCTTTGAGTCTCATTCATTTTAATTTTTTATTTTGTTTTGTTTTGTTTTGTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCT
GGAGTGCAGTGGCACCATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGCAGCTGGGGATTACAGGTGC
MTGCCACCATGCCTGGCTAATTTTTCTATTTTTAGCAGAGACAAGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCTT
GCCTCAGCCTCCCAAAGTGCTGGGGTTACAGGCGTGAACCACCGTGCCTGGCCACGGGTCTCATTCATTTTAGTTGGAGCCCAAATTCACTGGTGGTTCA
AGTTCCCAATCATTCTCGGCATTCTATAATCACAGGCCTCAGAGAGTAATGCTCCCAATGGCCCTCAAATTATGGTTTCCTTAGGAGGCTATTAAATCTT
GATTTCTGAGAGGAAAATTGGGGATTTTGTGTTTTCCCTTTTAGACTTGAGTGTTCTGTTACTGTGGATGAGCTCTTCTAGAAACTTCCAAGCAGTTTCA
AAGGGGATTTAGATGTCATCAGGAAGTGTGGTTGACAACGTGATATTTGGGCTTTAGAAAAACAGCGTGTCACCCGTTTTATTTATTCCTTGATGACTCT
TTTTTTGCTTGTTTTTGTTGTGGTCGTTGTTGTTGAGACAGGGTCTCACTCTGCCACCCAGGCTGGACTGCACTGGTGCAATCTCTGTTCACTGAAACCT
CCTCCTCCTGGGTTCTTGCAAATAGACAGTCCCATTTGGTGGTGACGGGAGACAGTGACAGATCATCAAGCATTAGATTCTCATAAAGAGCGTGCAACCC
AGATCCCTCGCATGCACAGTTCACAATAGGGTTCACGCTCCTAGGAGAATCTAATGCTGCTGCTGATCTGACAGGAGGCGCAGCTCAGATGGTCATGCAA
GCAATGAGGAGTGACTGTAAATACAGATGAAGCTTCCATCGCTCGCCCGCCCCTCGTCCACTGCTGTGCAGCCTGGTTCCTAACTGGCTGGTTTGAAACT
AGACTGGGCAACATGGCCAAACCCCGTCTGCTCAAAAAATACCAAAATTAGCTGAGTGTGGATCACAAGTGTGTGCCTGTAGTCCCAGCTACTTGGGAGG
CTGAGGTGGGAAGATTGAGTGAGCCCAAGAGGTAGAAGCTGCAGTGAGCTATGATCACACCCACTGCACTCCAGCCTGGGTTACAGAATGAGATTCTGTC
TCTCAACTCCCTGAGGGGTGGGGGACCCCTGGTTTAATCCATCCAACCCTCTCTTCCCATGAAATAAAGGAAGTTGTGAGTGCTATTTTGTGCGTCATCC
CCTCCAGTATTCAAGTCAGCCCAAGGTACTTCGATGGTTCCCGTCTGCACATGGGGAAACCGAGGCACAGAAAGCAGACTCATGTGACCAGGAAGTAGCT
GTGTCTGCTCGAAACTCAGGTCGACCTGATACCATAAGTCCTTGCACTCCACGTGCTGGCGATTGAAGCTGTGGCTCGCAGGTCTGATGGGAGAGCCTCA
GACAGTGTCTCACTCTGTCACCCAGGCTGGAGTGCTGTCATGCAGTCATAACCCACTGCAGCTTTGACCTCCTGGGCTAATTGATCCTCCCACCTCAGCC
TCCCGAATAGCTGGGACTACAGGTGTGCACCACAATGCCCACCTAATTTTTGTATTATCTGTAGAGATGGGCGTGGGGGGTGTGAGGGGTCTTGCCATGT
TGCCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCTCCAGCTTCAGCCTCCCAAAGTATCGGGATTACAGGCATGAGAGAGCCACTGCAGGAAGCC
AAGAGAGCAGATTTGGACAATGTAGAATTTCTCCACGCTCCTCCTACTGTCCCCATCTTAGGCCTGGCTACTGCGGGACTGACAGGCATGGCTGGCTGTC
CATCCGTTCCTTAGTTTGATTGCATGGCAGACATGAGGAAGGAAGGTGAGAACTGAGCTAGAAAGTTGGCATTTGGYGCTCTGGTTTCTCAATGCAAGAA
AGTAACACTTTGGCTTTTATAGAATAACCTTCTGAGGAAATTAACAACCCGGGCGTTTCAGCCCCCTGTGAACTTGATTGGAGCATGGTCACAATTTGTA
ACGAAATGTGCTTGCATGCCCAGTGCTAAAGATTTCTCTCTGTCTACCCTCTAGGCTGTGGAAAGGTCTGTTCTAACCATTAGCTTGTATCTGGAGCTCA
GATGGTGCCGGACACTCCGTAGGAGCTCAGATCTGTTGATAGAAGCCACTAGAGAATGGGACAAGCAACAGGAGGTGTTTTGCTGCCTAGTAAACTTTTT
TTGAGATGAAGTTTCACTTTTGTTGCCCAAGCTGGAGTGCAGTGGTGCCTTCTCGGCTCACCGCAACCTCTGCCTCCTGGCTTCAAGCGATTCTCCTGCC
TCAGCCTCCCAAGCAGCTGGGATGACAGGCACCCGCCACCATGCCCGGCTAATTTTTTTTGTATATTTAGTAGAAATGAGGTTTTGCCATGTTGGCCAGG
CTGGTCTCGAGTTCCTGACCTCAAGTGCTCTGCCCGCSTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCTCTACCCATCTTT
CTTACATGATGATGTTCAGCAGCCAGCCTGATAGGGGAGCATTGTTTGTCCTTTTTTTCCTTATTGCATTTTCCCCGCATAGGTGCCAGGGCTCAGTAGC
ATAAATCCAGGTAGAACTGGGAAGTTCCAGGTATCTGGGCTGTTTGCTCTGGTGGACAAAGAGCAGCTGCAAGGTGGGKCTTGATTAGCCAGTGAAGTCT
GAGGATCCAGAGGGAAACTTATTCCTTTCTTTTGTTGAAATCAACATGAGCAGGAAATGGATCTTTCCCCCAATCAGAGAACTTCACATGTTTTTCTAAT
AGAATAGCAGTGTCTGAGGTATATACAYGGGGAGTGGCCCCCCGGGAAAACGAGGCCATGAGGCTCCTGGCATGGAGATGACACACGAAGACTCTCGTAA
CTTMTAGAGGGGAAAATAAAGCAGTCATTCCAGGCTGGGCATGGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGA
GGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCAACTCTACTAAAAATAAAAAATTAAAAAAAAAAAATTAGTTGGGCATGGTGCTGGGC
ACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGATTGCAGTGAGCCGGGAGCCTGTAATCCCAGCTACTC
AGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGATTGCAGTGAGCCGGGAGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAA
TTCCTTGAACCTGGGAGGCAGAGATTGCAGTGAGCCAAGATCACACCACTGCACTCCAGCCTGGGTGACAAGAGTGAAACTCCATCTGAAATAAAATAAA
ATATAAAAGTTAAAGCAGTCATCCTGGCTTTTAGGAACCCGCAGAATCAGGARGTAAGCTAAAAGTCGTCTCCCTTTTGTCACGATGGAATGTGAAATAG
GTGCATTTTCCTTCTGACTTATGATTCTGTTTCACGGTGCCTCTGCAGAAATTCAGTACGTCCCCATGGGCACCTGTGTCCTTCAGGAGTTGAGGAAATT
TTCTCCATTCCTTGTCCCTGTCCCTAGACTCTGCCAGCTCGTGCATGTAGAAGCTCCCGGGAAAACTGTCAACCTGTGCACATTCAAGACCGCCATATAC
TTGTTATTGAAAAGCCATCAGTCATGTGAGCAGAACTTTTTTATGGTTGAGATTGTCCCCAGGGAAACCCGCCTTGCAATTCAGACCTTCCACGGAGATC
GATTCCAAACTCTCATCCCGTTCCCACTTCCTCGTTCCCATGGAGGCTGCGGTTCTCTCTCTCTGTGCCGCTTACARATTGTCATACCTATTTCCAAAAA
TGACACAGAAAACTTCAACGTGTGGCTAAATTTGAACAGAGAAAAATAAGCAAAGAATTCAAGGCGCGAGGCGTTTTCAGGGAGAGAGGGAGAGCTTTTG
CATGGTTTGAAGGGATGATCTTTAATGAGTTGAGGGTCACCTAGAATAGAATTAAACTGTAGAGAGCAAATTGTTGGAAATGCAAGGAGAAACTTCGGAG
AAGACTCCAACACAGCCTGGATCTGGGAGATGAGACTCAGGTAACAAAAAGTTTGAATAACATGGTTAATAAGATTGTGGTAACAGATAGGACTGAACTT
TGCACTCTGCAAACAATATACATTTTAAAGTGCTCTTGGAATAGTTAGAAAAATCAATCATCTGTTAAATCTGAAAAAAAAAACAAAAAAACAAAAAAAC
AAAAAAAAACCCACCCCAAACCAATACATTCCAAAAAAGCAGACATTGTACGGGTTCTAATCTCTGGCTGCAAGTAAGCATAACTGGAATTAATTTTTAA
AAGCTTAACTGAACAAGCATGTAAGAGAGACTCCTACCACTTGATAATTAAAAAGAAAATGAAAACCAAAAAAACAAAAACAAAAAAACCGAAAAGGGCT
GGGCACCATGGCTCAYGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGAGCGGATCACCTGAGGTCAGGAGTTYGAGACCAGCCTGGCCAACATGGTG
AAACCCCKTCTCTACTAAAAGTACAAAAATTAGCTGAGGGTGGTGGCGCATACCTGTAATCCTAGCTACTTGGGAGGCTGAGGCAGGAGAACCGCTTGAA
CCCCGGGGGCAGAGGTTGCAGTGAGCCGAGATGGTGCCATTGGACTCTTCTAGCCTGGGCAACAAGAGCTAACCTCCATCTCAAAAAAACAAAAAACACA
AAACAAAACAAAAAAACAACCAACCCCTAAGTCTTAAGTTGGAGGATCGAAACACTGCAAGGATAGACTATTTGAAGATGACAATGATGTGAACATGGAG
ACAAAGGCAGAGGTTTAAATGATTATAGAGGAAATTTGCTTGATAATTTATTATATGAATATAGAGAGAAATCACAAAAATGAGATGATGAATATTGGAA
ATAATAAGCACAGACGAACTGATTAGAAAACAAATAGAACTGACAAAATCAAAAAGCTGGATCTTTTAGAGAGATGCTGCTCAGTARGGTGGCCACAACC
CACGTGAAAATTAAATTAAAAATTCATTTTCTCAGTCGCACGAGCCAAGTTTCCACTGCTTAGGGGCCATGTATGGTTAGTGACTACTGAAATGGATAGA
ACAGATACAGAACTTTTCCATAGCTGCTGAACGTTTGTTGGACAGTGCTGTTTTAGARGGAGGAATCAATAAAACAGAAAAACTAAGACAAAGGAGGGGG
AGAGAACAAATATTGTAGATAAAATTAAGAATGAAGGCCTAGCGCGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCGGGTGGATCACG
AGGTCAGGAGATCGAAACCATCCTGGTTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTAGGCGTGGTGGCCGCGCCTGTAGTCCC
AGCTACTTGGGAGGCTGAGGCAGGGGAATGGCGTGAACCCGGGAGGGGGAGCTTGCCGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGA
GTGAGACTCCAACTCAAAAAAAAAAAAAGAATGAAAATAGATGTAATTTATTTATTATTGATTGATTGATTGAGACAGAGTCTCACTTGGTCGCCCAGGC
TGGAGTGCAGTGGTACAATCTCAGCTCACTGTAACCTCTGCCTCCAGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGC
CCGCCACCGCACCCAGCTAATTTTTGTATTTTTAGTAGAGAAGTGATTTCACCCTGTTGGCCAGGCTGGTCTTGAACTCCTGACTTCAGGTGATACACCC
GCCTCGGCCTCCCAAAGTGCTGGGATTAAAAACAGATGTCATTTAAATCCATAAAAAATTGTAAAGACAGCTCTACTAACAATTTTGGAAATATTAAAAA
TAACTTCATTTACTGATTCAAGTGTTACTTTTATTTAGCTTAATTGTTTCTCTTTACCAGAAATTGAGGCTCTGAATTTGCCCCAGAGAATGGGTATGCC
ATTCTCTCTCATAAGCTGTACTCTCTTATTATCAGTAATTTCTAAATAGCCTGTAAAATTTATATGGACTCAAAATRCAGGAAACATCRATAGGTTGAAA
CTCAACAACTTGTAAAAAGTTACTCCTGTACTTAATTGCATAAAATGTGTATTGCCTACATGAATGAGAATAAAAACTTCCAAAATGCCCCCAACAAACA
GGGGTTTTTGCACCTTRCCATGAGTAGCTTTCTGGAGCAAGCCGGAGTGGTTAGAGCTGTGACTCGGCAACCACAAACACAACCATTTTTGTGTGGAAGT
GTGGCTCTTCAGYCTTTTTTTTTTTTTTTTTTTTTTGAGATAAGGTCTCACTCTGTTACCCAGGCTGGAGTGCAGTGGCGTGATCCTAGCTCACTGCAGC
CTCAACTTCCTGGACTCGAGCAATCCTTCTGCCTCAGCTTCCCAAGTAGCTGGAACTACAATCATGTGTCATCATGCCCAGCTAAGTTTTATTTTTTTTA
ATCTTTAATTTTTTTAAGAAATAGAGATGAGGTCTTGCTATGTTGCCCAGGCTGGTCTTGAACTCCTAGGCTCAAGCAATCCTCCTGCCTCAGCCTCCCC
ATTAGCTGGAACTACACTTGTGTATCATCATGCCCAGCTAATTTTTAACTTTTTATTTATTATTTTTTTAAAGAGATAAGGTCTTGCTCTGTTGCCCAGG
CTGGTCTTGAACTCCTAGGCTCCAGCAATCCTCCCACCTCAGCCTCCAAAGTGCAGCCTCTATATCTTGAACTCCACACCTCAAACCCAGATTGTCCACA
TGTGAGCACCTGTCTTTTTGGTTTGCTGTTTCTCTCGTGAGTTGTATCCAGTTGCCCAAGGTGGAAAGTTGGGCGTCATCCAGCAGGTAAGTCCTGACAC
CTCCACCTCCCCGATGGCTTCAGAAGCCAGCCTCTTCTTTTCTGTTTCCTCTGCCTCTCAACTTCCTCATCCATCTACCATAAGCCAGAAAAATGACCCC
CAAATGTGAATCCGATGGTGTTCTTTCTGCCTGACATCTTTCTTTGGCTTCTGCTGTGGGGTAAAGTCCAAGCCCCTTGGTTCCCTGTCTTTCCTCTCTG
GTCTAATCTTCTATTCCTCTCATCCTGTACTTTGCCCTTCATCAACTCTGAACTGTTTATAGTTCTCTGAACATAGCCCGAGTGATTCACACATTTGCAT
GTACTGTTCCTCTCCTGCTGTGATAAAGSGACAGTCACCTAATCCCCGCCCCTCCGTTGCATTTTTTYTTTCCTACAAGATTTATTATGCACCTACTGTG
TGTATGGCTCTGGGATGCTGTAATAAGCAAGACAGACACCATCTTTCCCTTCACGGGGCGTATGTGTCTCGTGCATACTGGGAGGGCAGGGACAGGGTCT
CCATYCATTTCTGCATTCCAATGCCAAGAGGGTGTCAGATCTGGGTGGGTCGAGGTAGGGAACAGGTAAACATAACTCACAGTGTGATGCCGTGTTACAG
CCAGGCTGGGTTCCTCACGCCTGTGATGGCAGCGCTTTGGGGAGCCAAAGTGGGAGGATTGCTTGAAGCCAGGAGTTTGAGACCAGCCTAGGCAACATAG
AGAGACCCGCTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGCTGTCGCAGTGGCACTCTCCTGTAGTCCTAGCTCCTYGGGAGGCTGAAGCGGAAGGATCA
CTTGAGCCCAGGAGTCCTAGACTGCAGTGAGCTATGATGGCTCCATTGCACTCCAGCCTGGGCCACAGAGTAAGACCCTGTTTCAAACAAACAAACAAAT
TTAAAAAATCAAACAAACTCCCACTCCCCCAAACTCCATACCACACCCTCTCCTGGTCTCTCTGGGAGACCTGGATTCGAGTTCTGGCAGAGCTGGTTAT
TGGCAAAGTAGCCCCTCTATGCCTCGGTTTCTCCAATTCTAATGGTGATGATTGCTTGAATAATTGAGTTAATATGAYCTCATTGATGGATTGGACCGTG
TGTGCTGCAAACAGATTACACACTTTAAAGTGTATTCATGCCTGTAATCCCAACACTTTGGTAGACTGAGGCAAGAGGATCACTTGAGGCCAGGAGTTCT
AAACCAGCCTGGGCAACGAGTCCCCATGTCTACAAAAAAATAGAAAAAATTAGCCAGGCATAGTGATGCACGCCTGTAGTCCCAGCTACTCGGGAGGCTG
AGGTGGGAGGATGGCTTGAGCCCAGGAGTTTGAGGCTGCAGTGGGCGATGATCACACCACTGCACTCCAGCCTGAGGCGACAGAGTGAGACCCCCCCCCA
AAAAAGTGTATTTATGGGGGTGAATGTTAAATGAGAATGTCCACTCGCTGCCTTGGTTTACTGGAACTGCAAATTCAATGGGGACACACAAGTTTTCAAA
TGCATGCGGAATACTGGCTGGAGGTTACCCCAAAAACGTAGCCTGTGGATTTTAAGAATGTATTTATGAGTATGGTTCTCGTTTTCTGGGTGAGTGGTGG
GTGAGAATAGAGGGTGCACTGGCCCGGCGAGTTCGGAGATGCGGACCCTCCCCCCCTGCAATGTGAGGAATTTTGCTGTGTGACCCTAGTGAGCCGCTGC
ACCTTTCTGGACYCCTCCCGAGGGAGGCCTGGGGTCAGGGGGCCCCTCGGCAGTCCCGGGAGCTGCCACGCGGTGACCCGATCTCCTCCCGGGCACACGC
CCAGCGCCGCGCGCAGCCTAAGCCACCCCGGTGGATGCTTGATGAGCCCTTGCAAGCTCGGTTTCTCCTTTTCCCTAGCTTTTTCCAAAGTTCCATCCGT
GGCAGACTCGACCTGCGGGGTCTGCAGCCACGAGGGGCCCTCCCAGGGCGCCCTTTCCTCTGGCCGGGACCGCCCGGCGGCGGCCACTGCCCGAGCGCCA
GTCTGGGGAGCGGAGCCCGGCGCACCCGGGGGGCGGGGCCAGCGCCCCTGCAGCACGCCCGCCCATTGGCTGAGCGCGAGGGCGGCGCTGCGGCCGCCGC
AACCGCCGGGGCCGGATTCCCCGGAGCGGAGTGCGCCCCGGGCTTTGTGCTGCGCTGAGGCCTCCGGCTCGAGGGGGCGGAGCCTTGAGCGCCTAGGGCT
CCCTCCCTCGCCCCCATGGGCACACACGCAGACACGGGCACACACGCAGACACACACACACGCCCATCATGGACACACACACACGCTCGCCCACCATGGA
CACACACACACTCCCACCATGGGGACACACACACACTCCCACCATGGGGACACACACACACACACACACACACACACACTCTCACTCTGGAACCGACCAA
TCCTGGGGCTGCACAGACACACACGCGCACACACTCTCTCTCGTTCTCTCTCTCTCTCTCTCGTTCTCTCTCTCTCTCGCTCTCTCTCCCACTCTGGAAC
CGACCAATCCTGGGGACACACACACACACACACACACACTCCCACTCTGGAACCTGCCAATCACACACACACACACACTCCCACTCTGGAACCTGCCAAA
CACACACACACACTCCCACTCTGGAACCTGCCAAACACACACACACACTCCCACTCTGGAACCTGCCAAACACACACACACTCCCACTCTGGAATCTGAC
ACACACACACACACACACACCCAAACACACACACTCCCACTCTGGAACCTGACACACACACACACACACACACACACACACCCCCACTCCCACTCTGGAA
CCTGCCAATCCTGGGGCTGCTCTAGCGAGGAGACCCCTGGGACCCCGCCTCCTTCCGGGCCTCTGCGTGCGCAGTATATCTCCTAAGAGATCCGCAGCAT
GGAGAGGGCCCGCCCCCGTGGACGGACTCACTCCCTCCCCACTCACTCACTCACTCGCTTACTCACTCACTCACTCACTCTCTCTCCGAAGAGAAGAAGC
CTGCGGCTCCCGAAGCGGGAAGGCCCTCTGGTACTCTGTTCCCTTTCTAGCCTCTATATGCGCCGTATGTCTCCAAAGAGCTGCGCAGTTCTATTCCAAA
GGCGTCATCGCGTGTGGGGCGGTATTGTCAGGCAAGGAAAAGGGGCGCTTCCCCGCTTCAAGGACACGCGCTCCTGCGGTCGTCGCTGCTGACCACGAAG
CTGTCAAAAGTTCACCTCCTTGGCTGCCCCCAACCCCTGCCCCTTTGCCATTAAATCATTTACTAGATTCCAACTAGAGGAATTTGGCTCCGGGGACTCG
AACCTCTGAGGTCAGGGTCTGGGGCCAGTGTGGGAGAGAAAGGCCTTGAATGGAAACAAAATAAATTACTTTAAGGAGTTTATAAAACTCACACTTATAG
GGAGAGCCGCGGGGCCCTGTGGTCAATGTACCAGCAGGCCCATGACGCAACTGTTCCGTTTGGAAATTTCTGGAAAGCAGTAATTTTTGGAATCATAAAT
CTTGAGTATTTTTTTTTTAAACTTTGGAAAGGTTTTTAAACTTTTTTTTTTTAAGTTTTTTTTAAACTTCGGAAAGTTTTAAGCTTTGGAAAGAATGTAA
CAAAATGTTATTAACATATGTGGAGCTATCGAATCATTTAATGGTGGKTTCTGTATTTTCTGTTTTGTTTTTTATCACATACCTTCTTAATTAAGAAAAA
CCCAAACTAATTTGAACTTTAAAAGGGAGGCAAACAAAAAAGTGTCARAGTGACTGGATTTTTGTGCGCAAGTCATTTAACAATGCAGCGCTGCGTCTCC
TATTTCTCTGGCTTTTAACCTTGCTTTGGACAAATTGGTCGCTTTTTGTTTTGATGTCGTTTCAAGCTTACGGAAAAATTGCAAGATTATATCTAGATCA
ATCAATTGTTTACGTTTTATTCTACTTGTTTTATTACCTTTCTAATATATTTATGCACACACATTATATACATTTTTTTCCCCTGAACTATTTGAGAGTT
AGTTGCAGGCATGATACATACKCCTTAATTCTTCAGTGGATATTTCCTAAGAACAAGAAAGTTCTGAGGCCAGGCGTGGTGGCTCATGCCTGTAATCCCA
GCACTTTGGGAAGCTGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACTTGGAGAAGCCCCGTCTCTACTAAAAATACAAAAT
TAGCCAGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGGTTCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAG
ATGGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAAACAAAAAAAAAAAAAAAAAGAAAGAAAAGAAAGAAAGTTCTCTTACATA
ATGATGGTACTGGTGCCGTTGTCAAAATCAGGAAATTAACATTGATACAGTATTTTAATCCAATGTCTTCTATAATCTTATCTGTTGTCTCAATATTGCC
CTATATAGATTTTTTTTCCTAGGCGAAGGTTCCAATCTAGGATCACACTTTGCATTTGAATGCTGCTGTCTCTTAAGTCCGCACAATTCCTCAGTTTTCT
GTGTCTTTCCCAACATTGGCTTTTATTTATTTATTTATTTATTTATTTTTATTTTTTTTTGAGGCGGAGTCTTACTCTGTCACCCAGGCTAGAGTGCAGT
GGTGAGATCTTGGCTGACTGCAACCTCTGTCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCCCCAAGTAGCTGGGATTACAGGCATGCGCCACCACAC
CCAGCTAATTTTTGTGTTTTTAGTAGAGAAAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGATCTCCAGTGATCTTCCTGCCTCAGCCTCC
CAAAGTGCTGGGATTACACGTGTTAGCCACCACACCTGGCCAACATTGGCAGTTTTGAAGAGCACAGGCCAGTTATTTTATCGAATGACCTCAAGCTAGG
GTTAGTAATATATGGAAAGAAAGCTACACAAATATTTTGTCTTTTTCATTGCCTCATAATGGGAAGTACGTGTTGTTGCCTTGTCCCACTATTGTGGGCA
ATGTTACTTGAAGTATTTTTAACTAGAATTTTTAAGAAGAAATACATTTCCCGTAAGGCTCAGTACCCAAGACATGCATATACCTGAATGAAAAGTTTCC
CACAACAAGATTTACTCTTGCCATTTTCTAGTACTGTGGGATTTTTTCCTTTTCTTTTCCCCCTGCAGGAGGGGATGCTGCTGGGGGCTGAGGACAATGC
TAAACCTGGATGTCTCGAGGACAGGGGATGGGGTTTCTGTGTCATCTATGTTCTGATGCTTTTTCATTTAATACRAGAACAGGTTTCCTATGATTTGGCA
CACTGGGACATTCGACATGTGTTTGTTGAATGAAAAAAAGAAAAAAGAGAAATGCTAACAATTTGTTGAATAGTCCATAAAAGAGCAAAGCTGGCCTGGC
GCGGTGGCTCACACCTGTACCAGCACTTTAAGAGGCCAAGGCAGACGGAGGTCACGTGTTTGAGACCAGCCTGGCCAACATGGTGAAACCGCTTCTCCAC
TAAAAAAAAAAAAAAAAAAAAAATCAGTTGGTGTGGTGGCGTGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGA
CATGGGGGTTACAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAAAGAGATTTTGTCTCAAAAAAAAAAAAAAAAAAAAAAGCAAAGC
TATTATTAAAACACACTCCACACTTCACCCCTGAGCCCCATATTGATTTTGTAATAAGGCAAAGATAATTTTTTTTTTCTTTTTTTGAGATGAAGTCTCA
TTCTGTCGTCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTGACTGCAACGACTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGC
TGGGATTATAGGTGCCTACCACCACGCCCAGCTAATTTTTGTATTTTGAATAGAGAGTGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTC
AAGTGATCTTCCTGCATCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCAGCCAACAAAGATGATTTTAAGAGAACCTTTGTAAAAG
CTCTCACCGATGCCTGTCATTATTAGAATATTTGGGAGTAGAATCATGTAACTGATCAATAACATTGTTTACTGTCTAGCAGAGGCTTTTGAAAAATGTA
TTTCCTGGCTGGGCATTGTGGCTTACGCCTATAGCCAAGCAGTTTGGGAGCTCGGGGAGAGCGGATCTCTTGAGCCTAGGAGTTCAAGACCAGCCTGGGC
AATATTGTGAGACCTCATCTCTACCAAATGTATATATACATATACAAAAATTAGCCAAGCATGGTGGTGTACGCCTGTAGTCCCAGCTACTCAGGAGGCT
GAGGTAGGAGGAGCACTTGAACCTGGGAGGCGGAGGTTACGGTGAACCAAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACACTGTCTCT
AAATAAATAAATGAAAGAAGAAGCTACTTGAAAAAAATATGTATTTCCAAATATATGTCAGTTTTGACAGGATAGTACACATACATAGTAAAAAATAAAA
ATAAAATAGGGCACTTTTTTGTGTCCCTTTCAGAGGGACATATGTCCCATGTGTCCTCCCCCCTCCTGCCCCTAATTTTTTTGTTTGTTTTTTTATGAGA
TGGAGTCTCACTCTGTCGCCAGGCTGGAGTGCRGTAGCGTGATCTCAGCTCACTGCAACTTCCGCTCCCCAGGTTCAGGTGATTTTCCTGCCTCAGCYTC
CCATGTAGCTGAGACTACAGGTGCGYGACACCATGCTCAGCTAATTTTTATATTTTTCGTGGAGACGGAGTCTCACCATGTTGGTCAGGATGGTTTGGCT
CTCCTGACCTCGTGATCCGCTCACCTTAGCCTCCCAGGCTTAGCCTCCTTAGCCTGCTGGGATTACAGGCATGAGCAGAAGAATCTCTTGAACCCGGGAG
GCGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGAGGGACAAGAGTGAGACTCCATCTGGGGAAAAAAAAAAAAAGAAAAAAAAGAAA
TACTGCATCAAATTGCACTTGCCTCTTGGTGCAAGATTCGTTCCTTTGCTTTGAACTGCCTCCCTGAAGCAAATTGGTGTTTCTGTGACTCCCTCTGTCT
AGGGAAGGGGTCCTTTAGTGGGGACATTGTCTTTCTTGGGGAGGGTCCACCAGAGGACTCTGACACAGCGGTCTCCTTTCTCCTCCGTCAACTTAGTTAG
ATTTTAGTCCCTGATCTTCTCAGCAGTGTATAGTGAAAAAGCCACCGCAGCTGAAAGTTTCAGGAAGATGATAGTTGCTTCTGTGTGCTCACCCAGGAGC
TTTTGGGAGGTTTAGGGAGAACTGGGGGAAAATTGGGACCAGCAGCTCAATGTGGCTTTGAAGGGGAGACAGCGGATGGACACAGAACTTGCATTTTTGG
AGAGGGGAGGTCTGGGTAGATGTTCCCTACATACACAGCAGCACTTGTGTGCAGGTGTGAGGGAGTGACAGCCCCCGGACGGTTTGGCATTTTCCTGCAA
GTCTGCCATCTTGTCTGGCAGACAYAGCCTGGGCTGCTGACTGTCCCTACCCCAAACCAGAATTTGGGCAGGAACGGACACTTGGGCTCATTACGTGTCA
ATGAGGGGGATCAGGTCAGGGGCACAGGGAGAGGAAAGTCAACCCCGTCCTCCACTGGGGCTGTTTCTCATCTTGCATGACACGTGGCTTTCATAATGTC
TTCACTTTGCGGTCTCTCTCACCAGAAGAAGCTGCTGTTTTGTGGCTAGTTCATCTGTGTCATGCCCTTTCCCCAGCCTGGGCTGCCTGTGATTTTTTTC
TTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTCCCTCCCTCCCTTCCTTCTTTCTCTTTCTTTTCTTTCTCCTTTCTTTCTTTTTCTTTC
TTTTTTCTTTTCTTTCTCTGTCTTTCTTTTTCTTTCTCTTTCTCTCTCTCTTATCTTTCTTCTTTCTCCCTCTTTCTTTTCTTTTTTCTCTTTCTGTATT
CTTTCTTCTTTCTCTCTTTCTTTCCTTCTTTCTTTCTCCCTCCCTTCCTGCCTCTTTCTTTCTCTTTCTTTCTCCCTCTTCTTTCTTTCTCTCTCTCTCC
CCTCCCTCCCTCCTTCCTTCCCTCCTTCTTTCTTTTTATCTCTCTCCTTCCTTCCTTCCTTCCCTCCTTCTTTCTGTCTTTCTCTTTCTTTTCTCTCTCT
CTCCCTTCCTCCTTCCTTCCCTCCTTCTCTCACTCTCTCTTTCTTTTCAAAGATAGGGTCTTGCTTTATTGCCCAGGCTGGAGTGCAGTGGTGCAGTCAC
AGCTCACTGCAGCCTCAAACCCCTGGGCTGTAGCAATCCTCCCACCTCAGTCTCCCGAGTAGCTGGGACTATTGGTCTACGGGTGTGCACCATCACACCT
GGCTAATTTTTTTATTTTTGTAGAGACAGGGGTCTGGCTATTTTGCCCAGGCTAGTCTTGAACTACTGGACTCAAGAGATCCTCCCGTGTTAGCCTCCCA
AAGTGCCATTACATGCACAAGCCACTGCGCCTGGCAGACTTGTGATTTTCATGTGGAGCTTTTCACATTCTGTCTAACAATCCGAGTTCAGAGGAACCAG
TATGGGGAGCAAGAGTATGTGGAAACGTCCAGCACCAGTTTAGAGGACTCCCACTCAGCTAGGGGGTGCAGTGGCCACCCCGAGTGGCTTTTCTTTCTTT
TCTTTCCCTCCTTCCCTCCCTCCCTCCCTCCTTTCTTTCTTTCTTTCTTTTTCTTTTCTTTTCTTTCTTTTTGAGACAGAGTCTCACTCTCTCTTCCAGC
AGTGGCACAATCTCGGCTCACTGCAACCCCCGCCTCCCGGGTTCAAGCAATTCTGCTGTCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCTGCCACC
AYGCCTGTATAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTCGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCAYGGC
CTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTTCCCAGCCTCTATTTTTTTAAAATTGACAAATAATAATTGTATATGTTACATATTTATGGGGT
ACCATGTGATGTTTTGATATCTGTTTACATTGTAGAATTACTAAGTCATGCCAATTTAAAAGCTATCACCTCACATACTTATCATTGTTTTATGGTTAAA
AATATCTACATTTTTGGCAATTTTGAAATGTCCAGTGCACTATTACTTATTATAGCAACCATTGTGTCCAATACATAACTAAAGCTTATTTCTCCTAAGT
GAAATTTTGTAGTTTGATCAACATCTCCCTACAGAGTTGGAAACACCTGGAATGGGCTTATAGTGTTCGAAGGATAGTCTTCAAAGAATTGGTTGGGCGC
GGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGATGGGTGGATCCCGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACGTGGTGAAACCCCA
TCTCTACTAAAAATACAAAAATTAGCTGGGCGTGATGACGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGAGAATTGCTTGAACCCGGGAGG
CGGAGGTTGCAGTGAGCTGAGTTCTCACCATTGCACTTCAGCCTGGACAACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAACCACCAAAGAAC
ACAGGTCAGCATGTTTATTTAACCCATTAGTGAGGGAACAGCAGGATTATAAAGCCAAAACATGTATAGTCACTGAAACAAGAAGGCAGTGTTAGCTGTG
AGGCTGCTTAATGTCCCATAGGACAATAAAACTGTAATCTTTGGGGATGATTTTTTTCTTTTTTTTTTCGGCAAGGAGAGATAGGATCTCACTCTGTTAC
CCAGGCTGGTCTCGAATGCTTGGGCTCAAGCAATCCTCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCTCCATGCCCAGCTGAGAGTA
TCTTTTCTCTGAGATGAAAATAATTTGTAGCATATCTGTCTGTAAGTTAACTCTAATTTCCTTGAGTCTAGTTCCTAATAGAAATAGTAAAATCGGCCAG
GCGTAGTGGGTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGACTGGCCAACATGCTGAA
ACCCAGTCTCTACTAAAAATACAAAAATTATCCAGGCATGGTTGTGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACC
TGGGACACAGAGTTTACAGTGAGCGGAGATGGCACCGCTGTACTTCAGCCTGGACAACAGAGCAAGACTCGGTTTCAAAAAAAAAAAAAAAAAGTAATAG
TAAAATCAATTACAGGTACATTTAACTAGTGCAGGTTGATAAACTATCTGGCCCATCACTTGCTTTTATAAATAAAGTTTTATTGGACCTAGCCATGCCT
CTTCATGTACATATGTCTGTGGCTGCTATCATGCCATCGTGGCAGAGTTGAGTAGTTTCAACCAACACCATATGTCCTGCAAAGCCTCAAGTATTTGCTT
GTGGCCCTTTACAGAAAAAGTTGACCAACTCCTGTGCTGACAAATGAAATAGCTCAGATAGGCCTGTCAGCTAGGGCTCCAACACAGGATTGCRAAGTCT
CGCAGCCTCTGGCCTTGTTTGCAATGGTTGGATAATTTTTCTTCCCATTGTCTAGGCCGGAAGGACTTATGTGTTTGAGAGGTTTGTGTTAGGCCATTGA
TGACGCCTCTTTTGAATGAAAGGGCTGACCCTCTGAAGTGGCTCCAGCCCAGGAAACAAGCCCCTTCCTCTTGTGTGTGTGTCCTTGCCAGAGTGCTGGA
ACTCCGTGGGTCCTGGATCATTGTTGTCTGCCTTGTATATTGCTTCCTTCAATTGAATTTCAGCCCTCAGGTTCCCACAGACAGATCAGTGTTAATGATG
TTGATAATTATGATAATTATAGATACCCTCTGTAGTTAATTTCTATCAAGCCTAAAAATGTCTCTATCAAAGAATCTGATGTGTTACYGACGTCATCCTG
TTTATTTCTTGCAACAGCCTTAAGAAGGAAGGAAGGGACTCTTATTAACAATCCCCCCTCCCTTTTTTTTTTTTTTTTTTTTTTTGAGATAGAGTCTCGC
TCTGTCACCTAGGCTGGAGTTCAGTGGCACAATCTTGACTCACTGCAAACTCCTCTTGCGTTCAAGCGATTCTACTGCCTCAGCCTCCCGAGTAGCTGGG
ATTATAGGCAAGCACCACCACACCCGACTAATTTTTGTATTTTTAGTAGAGACGGGTTTCACCATGTTGGTCAGGCTGGTCGTCTTGAACTCCTGACCTC
AAGTGGTCCACCCACCTCAGCCTCTCAAAGTGCTGGGATTACAAGCATCAGCCACTGTGCTTAGCCCTATTAGAACTTCCTAATATTCTTGTTTTTTTTT
TTTTTTGGACAGAGTCTCACTCTGTCAACCAGCCTGGAGTGCAGTGGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCGTGCCTC
AGCCTTCTGAGTAGCTGAGTAGCTGGGATTACAGGCGCCCACCACCACGCCCAGCTAATTTCTGTATTTTTAGTAGAGTCGGGGTTTTACCATGTTGGCC
AGGCTGGTCTTGAACTCCTGACCTCAAATAATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCCCCGCGCCCAGCCCCAAGATAA
TTTTCAAGAGTGATCCATGCCATAAGGAAAATGTAATGAGATAATGTGTTAGCTTATGAATGGAGCAGGAAGGGCGACTTCTGCTGGGGAAGTCAGGGAA
GATCTGTGTAAGGACCTGAAGGATGCAAAGGAGCAAGTCACAAGGGGACAAGGGACCAGGGTGCTCCACCCAGAACAGCTTGTGCAAGGTCCTAAGGTAG
GGCTGAGCCTGGGTGTGTGTGGGTGGGAGGTGCAGAAAGGAGGCCAGCCTGGGAGAAGAATTTAGCAAGACTGGCAGGGATTAGACCCCCCAAGGCCTGT
AGGGAGTTGGCTTTTATTCTGTATGCCTGAACTGTCTCGTCTGGGAGACGGTAGTCATCTGTGGCTAGTAAACATTGGAATTGTGTCAGGCACAGTGGCT
CATACYTGTAATCTCAGCACTTTGGGAGGCTGAGGTGGGAGGATCGCTTGAGCCAGGAGTTCGAGACCAGCCTGGGCAACATAGTGAGACCCCATTTCTA
CAAAAAATTAAACACTTAGCTGGGCGTGGTGGCGCATGTCCATTATTCCAGCTACCCAAGAGGCCGAGGTGGGAGGATCACCTGAGCCCAGGAGATTGAG
GCTGCAGTGAACTGTCACTGTGTCACTGTACCCCAGAACCTAAGTGACAGAGCCAGACCCCATCACACACCCAAAAAAGAAATCGTTACACATTTTATCC
ATATGACAAAATATCACAAGTACCCCATAAATGTGTAAAATATTCTGTATCAATGTAAAACTTTTTAAAAATTTTAAACTGAAATTAAAATGAAATGCAG
TTAAAAGTTTTGTTCCTTGGTAAAAATTGGAGCCCTGGTACACTGTTGGTGGGAATGTAAAATACTGCAGCTAGGCTGGGCACAGTGGCTCACACCTGTA
ATTCCAGTACTTTGGGGGGCCAGGGTGAGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACACGGTGAAACCCCGTCTCTACTAAAAATA
CAAAAAAATTAGCGGGGTGTGGTGGTGGGCACCTGTAATCCCAGCTACTCGAGGCTGAGGCAGGAGAATTCCTTGAACCCAGGAGGTGGAGGTTGCAGTG
AGCCGAGATCGAGTCACTGCACTCCAGCCTGAGTGACAGAGTGAGACTCCATCTCAAAATAAATTTTTTAAAAAAGAATAAATCCTATATTATTCCACTT
ATATGAGGTTCCTAGAGTCATCAGAGTCACAGAGACAGAAAGTAAAATGGGATGTCGGGCGCAGTGGCTCACACCTGTAATCCCTGCACTTTGGGAGGCT
GAGGCAGGAGGATCACGAGGTTAGGAGTTCAAGACCAGCCCGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGG
TGGGCGTCTGTAATCCCAGCTAYTCTGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTACAGTGAGCTGAGATCGCGCCACTGCACC
CCAGCCTGGGCAACAAAGCAAGACTCCATCTCAAAAAATAAAAATAAAAAAAAAGAAAAGAAAAAGAAAGTAAAATGGCAGGTGCCAGGAGTTGGGGAGG
AGGATGAGTGTGACTGTTTCATGGGGGCAGAGTTTCAGTTTGGTTAAGGTGAGAAAGTTCTGGAGATGGGTGGTGGTGATGGTTGCATAGCCACATAAAA
GTATTTAATACCACTGAACTATACATTTAAACATGATTACAATGGTGAATTTTATGCTATGTGTATTTTACCACAATTAAAAAAAAAATTGGATTTCCTA
GTTGCACTAAGCACATTCAGAAGCCACAGGGGAGAAGTGGCTACTATGTTGGATGGCCCAGATAGAGAACATTTCCGTCATCGCAGAAATTTCGACCAGA
TGGTGCTGTTCATATATGGATGTAGCTTCTGGGGCCACTTCTGTTCCCTGAGTTTGGCCGGTGGGATCCACTGTGCTGAGAATCACAGTCTGGGGATTTG
GGGTGAAGAACACTCCCCAACTTTCTTTCTTATTTTTTGTTTTGTTTCATTTTTTGTTTTGAGACAGAGTCTCCCTCTGTCACCAAGGCTGGAGTGCAGT
GGCATGATCTCGGCTCCCTGCAACCTCCCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGACGCCCACCACCACAC
CCGGCTAATTGTTTGTATCATCAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTGAAACTCCTGACCTCAGGTGATCCGCCCACCTTGGCCTC
CCAAAGTGCTAGGATTACAGGCATGAGCCACCACAACCAGCCTTTTTTTTTTCCTTCCTTCCTTCCTTTTCTCTCTCTCTTTGTCTCTCTCTCTCTTTTT
TTTTTTTTTTTTTTTTTTTTTTTGACAGAATTTTGCACTTGTTGCCCAGGCTGGAGTATAGTGGCACGATCATGGCTCACTGCAGCCTCCACCTCCCAGA
TTCAAGTGATTCTCGTGCCTCAGCCTCTTGAGCAGCTGGGATTACAGGCATGCACCAGCACACCTAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTT
CACCATGTTGACCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCGCCTCGACCTCCCAAATTGCTAGGATTACAGGCRTGAGCCACCACACCR
AGCCACATTTGCATGTTTAAGTAACTAACATGTCTCCTCCATTAGACCTTGTGCTCCCAAAGGCAGGATCTRCAGCCACTTTTTCCCCACAGTGGCCACA
GTATCTAGATTAGTGCAAGCAAATGTCTGTTGAAGCAATCAGTGGTTTGGGGGCAAGTTACTTAACCTCCCTGTACCTCAGTTTCCCCATTTGTAAAACA
AAAAAATAAAGGAGCTAACAGTGTATCTACTTCACATGTGGGGTGCAGCAGCATGCTGGAGTTGGCTTSCTGGAGCYAGTGGTGAAATTTTCAGGCAATT
TGTGAGCCATTTGTTAAACATAGATATTCATAAAAATTACATAAACCTACAGTTAAACAAATTACATTAAAAACAAAAGTTTTTAAATTAACAAAGCTTT
TTAAAAGTAACAAATACTCAAAACTCACCACCTCCTAATATCATACGATGTTTTCCTATTATTTGTGCTGTTGAGGTTATTTACTACTTTTGTGTCAATA
GTAGATACATTTTGTGTATACTTATAAATACTACTTAGAGGAATGCTACTGTGTATCTTTTGTCAGCTTATGTTTAGTAACTTCATGTTGGTGGCCTGAA
ATCCACCACTGGTAGGAATATTTACACCATGGAAATCGGCAAATGCTATATAAATCTGGGCCTCCCTGGGCCCCTCCCTCAGGCAGCTGTTAAACATTTA
CAAGCTCACCAATGGTTTGGAGGCTTAAACCAGTTAATAGATGTGTCTGACATGTGGGTAATGATGTAGACGTRCCGCTTTTACTGTTAGTGTTTGGTTG
GCTTTCACTGTCYGATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAARCCWTTTATTTATTTATTTATTTATTTATWTATTTATWTATTTATYY
CCTCTCTCTCTCTCTCTCTCTCCAGTTTGCCCGACCATCTGTAAGTCACACGGCTGCACCGCCGAAGGCCTCTGTTGCCRCAGCGAGTGCCTGGGCAACT
GTTCTCAGCCCGACGACCCCACCAAGTGCGTGGCCTGCCGCAACTTCTACCYGGAYGGCAGGTGTGTGGAGACCTGCCCGCCCCCGTACTACCACTTCCA
GGACTGGCGCTRTGTGAACTTCAGCTTCTGCCAGGACCTGCACCACAAATGCAAGAACTCGCGGAGGCAGGGCTRCCACCAGTACGTCATTCACAACAAC
AAGTGCATCCCTGAGTGTCCCTCCGGGTACACGATGAATTCCAGCAAGTGAGTTCTGGATGTGGGTCTGGGGGGCAGCCGAGAGGAGAAGGAACGTGGRG
TTGGTTGTGACGATGCCGCTTGTTAAAACTGTGTGCAAACCCAGGGTTAATTGGCTATGAGTGAGGTCTCTGCTCTCAGATGCTACTTTTGCACCCTGTT
TTGGTCCTGGGCTTGGGAGTGGGAGTTGACTACCTTTTTCTCTAAAGGACCAGATAGTATATACTTCTGGCATTGTGCCCACCATTCTTTTTTTTTTTTT
TTGAGATGGAGTCTTGCCGCAAGACTCCCAAGCTGGAGTGCAGTGGCACGAACCTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTTTCCTGC
CTCAGCCTCCCAAGCAGCTGGGACTGCAGGTGCCTGCCACCATGCCCRGCTAATTTTTGTATTTTTAATAGAGACAGGGTTTCGCCATGTTGGTCAGGCT
GGTCTCGAACTCCCAACCTCAGGTGGTCCACCTGCCTTGGCCTCTCAAAGTGCTGTGATTGCAGGTGTGAGCCACCRCACCCAGTCTGGCATTGTGGACC
TCAGTTCTAAGCTTTCTGTGGTTGGCTTCAGAACAAGAAAATATAATAAGGACAGAGTCCTTGGTTTTCCCTAAAATCCTCCACGTGGCCTGTCCTCACT
GATGTAGCTTCATCATTGTCACATAAAGGATATACCAAGGTCTTTCGTGTCTTCCCTGACCTGTAGCCTGGTGGTGTGCCAAGATTAGCCCAGAACATAC
TGTCTCCAGGAGGAAGAGACTCRCTTCTGCATTATTCTCAGGGCTTTGCTGTTCTCTGAAGGACAGTATAATCAAACCATTTCCTGCCGTTTGGGTGAGA
AATAGCAGGGTTTTCTCTCTTCGACAGAGTCAGATTTCCTACGCACATCGCAGACTTTCTGTTCGTACTGTGAGCTTCTTCCATGAGCTATTTTGGGGCC
GTAACTGAGTTGCAAAAATCTGTTTCCTGGTTTTTGTATTGAGGTTTTATGTTTTGTTTTAAAAMACACACACACACACACACACACACACACACACACC
ACAAAACAACACAAAAACAAATCAGAAACAGACACACATCAAGAGGCCTTGAGCTGACCTGCTTACGTAAAGTATCTTCCTCTTCAGACTTGAGAATTAG
CCAAGCGAGAGTGTTGGGGTGGGAAATTGTATTTCCCTGGGTGGAGAGGGCGGGAAGGAAAACAAGCTGTAATTTCAGTTCTTATGACTCTTTCTTTGAG
TGTTTGTGAAACCTGCAAGTACAATATGTTTTGTTTTGCTCGTTGTTGATAAAAACCTACCAAAAAAACCTTTTGGCTTTATTGACCAAAAGGGTCTATA
AATCACCTTTKCATACCAGACAGACTTTTGTTTTAGGTTTTTTTTTTTTTTTTTGGCCAGTGTATTCCCAAGATTGAGGAAATGACCATATTCCTTTTGA
TTCATTTCTTTCTTTTTAAAATCACAATTGAAATAAAAAAAATGGGTTAATATCTTCTGGCAAGATGTTTGTTTAAAAGACATTGGCCTTAAATAAAAGG
CATTTTTCCCTCACCTTAACWATGGCCTGAGAAATATAGCAACCTCCTTTGATTTTCTCACTGATGATGCGGGAGATGCTAAAACAGAAACCCTGAGAAA
TTGACCGCACATCCTTGGTATCTGGGACCTTTCCTGAACGGAAGAAAACAAAGGAGAGGGGGGTGCATTGTCACCGTATTTTATTGCGTAGGTTTAAAAA
AATTAATATTTTTATTTCTGAAGCTTTTWATTAATTWATTTATTTATTTTGAGACAGAGCCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCT
CAGCTCACTGCAACCTCTGCCTTCCAGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTGAGGCAGCAAGCCTGGCCAAT
TTTTTTTTGTTTGTGCTTTTGTTTTTTTGAGATGGAGTTTCATTCTTGTTGCCCAGACTGAAGTGCAATGGTGCGATCTTGGCTCACTGCAACTCAGCCT
CCCGGGTTCAAGTGATTCTCCTGCCTTAGCCTCTAAGTAGCTGGGATTACAGACATCTGTCACCATACCCAGCTAAATTTTTCTTGTATTTTTAGTAGAG
ACCGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCC
ACCGCACCTGGCCTGAAGCTTTTCTTTTTATCTTATGAAAGACTTAATCGTACTGTGGCATTTTCTAATGTGGTTTGATATCAAATAGGGCCAGATGTTT
TCTTCCATTCTGGTGGCTTATCTGGGAAGGAGTTCTTGATGTTTTCAGAGCAGAGTTCTGGGAACCCATGTTAAAAGGCCTTGGCCAGGCACAGTGGCTT
ATGCCTGTAATCCCAGCACTTTGGGAGGCCGAAGTGGACGGATCATCTGAGGGCAGGAGTTCAAGGTCAGCCTGGCCACCACGGTGAAACCCCGTCTTTA
CTAAAAATACAAAAACAAAAAAAAAATTAGCTGGGCATGGTGATGCATACCTGTTATCCCAGCTACTCGGGAGGCTGAGGCATGAGAATTGCTTGAACCC
AGGAGGCAGAGGTTGCAGTGAGCTGAGATCACGCCATTGCACGTTAGCCCCCAGGCAAGTGTGACAAGAGTGAAACTGCATCTCCAAAAAAAAAAAAAAA
AAGGTCTCACCATCTACTGTCGTTCCAAAGTACCTGCTGGGATGTAATAGCACAGTGCTGCTTCCTGAGATGAGAAGGACCAGATATTTGTGATGAATAA
ATTTTCAATGCGTATGGGGTATCCACTGGGAAGGGGAGAATTACCTAAAATCCTTGATTCTTCTTGGCCTCTCTCACTTCTTCCTATTAAGCTGAGGTCT
CAAATTTGTCTACACCTCCATCTATTTCACCATCATGTCTGGTCTGACCCAGTCCCCTTGAACAATCTCTTTGCTCCTGCTTCCATTCTAGTGACACTGG
TAAAAAGTGGCCACCTGGGCCAGGCGCGGTGGCTCACGCCTATAACCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAG
ACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGGATTACAGTGGGCGCCTGTAATCCCAGCTACTCGGG
AGGCTGAGACAGCAGAATTGCTTGAACCCGGGAGGTGGAGGTCGCAGTGAGCCGAGAGTGTGCCACTGCACTGCAGTCTCGGTGACAGAGTGAGACTCTG
TCTCAAAAGAAAAAATAAAAGTGGTCATCTGATCATATGCCATGTCCTTCCCTAAAACCCTCCGGTGGCTTCCCAAGACCAATGGACAGAATCCAAACTC
CTCATCGGGAGGGCTCGGCCAGTTCTCATTCTCATTTCATTCCGGTGCCCCCTGGCCGTGGTGGTCGTTACCGCAGGAGCTTTTCCTGCAACTTGCTACA
TCCGCTTTCCTCTGTGCCTTTCAATTAGCTGTTCCCTCTTCCTATAATGCTTGTCCCTGCATTTGAGAATGATCCACTTTTTCCCCTCGTCATCTAGATG
GCAGCTTAAAAGTCACCTCCTTGGCAAATCCTTCCCGTCTGAGTCAATCATCCGTGCACTCTCTGTCACATCATTTAGTTTTAACTCTTCGATTTGTCAC
TAGCTGATATTTTTGTCTTTTTTTTTTTTTTTTGAGACAAGGTCTTGGTCTGTCACCCAGGCTAGAGTGCAGTGGCACCCACATGGCTCACTGTGGTCTC
AACCCCCTGGGCTCAAGAGATCCTCCTGCCACAGCCTCCTGAGTAGCTGGGACTATATAGGCACACACCACCACACCTGGCTAAAAAAAAATTCTGTAGT
GTTGGGGGTCTTGCTATATTCCCCAGGCTCGTCTTGAACTCCTGGGTTTAAGTGATCCTCCCACCTTGGCTTCCCAAAGTGCTGAGATTACAGGGCCTGA
GCCACTGTACCTAGCCTTTGTTGTCAATTTATTCACTCTCCCCAACCAGATGATAAGCTTTGTGAGTGTATCAGCTAGCTCTTGTTGCGTAACAAAACCA
CCTCAGTGCTTAGTGGCTTAAAACACTCCTTTAGGAGCTCTGATGATTTCATGTGTTGACTGAAGGTTTGTCTGGCCTGGGCCTGTTTAGCTACRGCTGA
TGGTTTAGGGGAGCCTCTTGTGTCTTTGATGGTCAGTGGGGGTCTCTCTCCATAAGTCTCTTACCCCAGCAGCCAGGAAGGGCAGACCTCAATGTTCAAG
TGCTTTTCAAGCCTCAGCTTGTATCACGTTTGCAAATATWCCATTGGCCAAAGCAAGCCATATGGCCAAGCCCAGATTCAACAGGTGGGAACATAGACTC
CACTTCTTGGTGGGAGAGGCTGCAAAGAACTCATGGTCATTTATAATTTCCCACTGGGAAAGCATATTATCTGCTTTGTTCACTCATGTATACCGGCAGC
TGAGAACGGGGGTTGGCCAAGGGCCAGATAGTAAATATTTTCAGCTCTCAGGGCCATATGGTCTCTGTTGGAGCTACTTAACTCTGCCTTTGCAGCGTGA
AAGCAGGGTTAGACGATGTACTAACCAATAAATGTGGCCATATTCCAATAGGATATTATTTGCAAAAACAGGTGGCCTACTGGATTTGGCTCCCAGCCCA
CTGTTTGCCAACTCCAGGCTTAGAGCATTGCCTGCCACATAATAAGAATAGAGGCAATAAAAGAAGTCAAACATTTGGTCAGTATTTTGTTTCTGCCTCA
GCTGTTCTGCCACTACCTGGGTGTACTTGCAACACCGTTCTGACACCATCCTCCTCCAAAGTTAGCATCAGACGCCACAAGTTTAAGGCTCAGCCCTCCA
TGAGATTTCCCTTGCTTCAGACACTGGCAGCATCTTGGGGATCCCCCAGCCACMCACACTTCTGACTAACTGGCTCTAAATTGGGGGATTCCCACAAACT
GTTTGGGTTTCATAATTTACTAGAAGGAACTCACAGAATGAAAATAAACCTGGCCAGGTGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCA
TGGTGGGAGGCTCACTTGAGCCCAGAGGTTCGAGACCAGCCTGGACAACATAGTGAGATCCCATCTCTACAAAAATTTAAAAACATTAGCCAGGTGAGGG
GGTGCATGCCTGTAGTCCCAGGTACTTGAGGGGCTTAAGCAGGAGGATCGCTTGAGCCCAGGAGTTCGAGGCTGCAGTGAGCTAAGATTGTGCCAGTGCA
CCCCAGCCCGGGTGGCAGAGCAAGATCTTGTCTCAAATTTAAAAACCCTGCTATACAATTACAGTTTTATTATAAAGGATACACATACGGCAAGATCTGG
GAGAGTTCTAGATGCAGAATTTCCATATTGCCTCCTCGTGGCAACAGCATGTATCACCCTCTTGACATACTGGTGTGTCCACCAGCTGGGAAGTACTACT
GAGCTTCAGCGTCCAGAGTTTTTGTTTGTTTGTTTGTTTGTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCTCAATCTCAGCTC
ACTGCAACCTCCACATCCCAGGTTCAAACAATTCTCCTGCCTCAGCCCCCCGAGTAGCTGGGACTACAGGCATGCACCATCACGCACGGCTAATTTTTGT
ATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCRAACTCCTGAMTTCGTGATTCACCTGCCTCAGCCTCCCAAAGTGCTAGGATTAC
AGGCGTGAGGCACTGCACCCGGCCCAGTATCCAGAGTTTTAATTGGAGTCTCATTCCTTAGGCGTGATTGATTGAAATCATTGACCATGTGATTCAACAC
TGCCATTTCCAGCCCCCTCATCTCCCTGGAGGTCCTAAAAGCCCCAACCCTCTGATCACAGGGTTGTTCTTTCTGGTGACCGCCCCCCACCCTCATGTTA
TCTAGGCACCCCCCCCCCCACAAGTCACCCCGACATTCCTAACACTCCTAACAAAAGCATTCCTGTGACTCAGAAAGTTCCAAGGGTTTTTGAAGCTCTG
TGCCAAGAACCGGGATGAAGACCAGATACATACTTTATGATCCTACAGTCACAAAAATCACTCTGAAGAGTTGAATACCCAGGAGTGTGAGAACAACAGC
AGCAGCAACAAGGATGCCACCAATAAAAAATGACCCTTGTAGCAACGGATAAAATTGCGTTCTGTGTGCGAAGTGCTTTTGTGGTATGCTTCATTGAGTT
CCTCATCACAAGCTGTGGCGTTGGTGGTGTTATTTTCAGATGAAGAAATGGAGACTGTAACAGTTGGGAATCTTGTGGTTTCATGCACCAGAACCCCAAC
TCAAATTGGCTTAACTGGCCGGGCACGGTTGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTTGGGAGTTCGAGA
CCAGCCTGACCAAAATGGAGAAACCCTGTTTCTACTAAAAAAAAAAAAAAAAAAAAAAAAATACAAAATTAGATGGGGCATGGTGGTGCATGCCTGTAAT
CCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGTGCCATTGTACTCCAGCCTGGGCAAC
AAGAGTGAGACTCCATCTTAAAAAAARCAAAAACAAAAACAAAACAAAAAAACCATTGACTTAACCAAGATTAAAGGAGTTTGTTGGTACCCATAACCAA
AAAGTTCAGGGAGTTGGTTCAGGTATAGCTGTATCAAGAAGCTTAAGCGATGTACCTGATCAGTCTCCTTCATCTTTATTTTCCTCTTTGTTGGTTTTGT
TATCAGGCAGCTTCTCCCTCACCCTTCACCCCATGCTAGCAAGATGGCAAAACCCTTAGATACTCCAGAAGGAAGACAATTTCCCCTTCCAGCAYGTTCT
AGCAAAACCCTCACTGCACTGACTTAAGTTCTGTACCCACCACCTCTGAGCCCCCACAGGAATAGAAGGTGGTGCTCAGCTTGGCTTGGATCTTGTGCCC
ATCCTGGATCTAGAAGGGCTTTGGCAACCAAGAACTGATCTCAGAGACCCCGTGTTGGGGAGGACTGGTTCCCAAAGGACTCCTGGGGGCTGTGAGTTTG
ATGGCATCAGGCTGCAGGCTGGCAAAACCAAAGGCTGCCCAAGTCACTTGCCATTAAACATGGGGTCATGTTACAGCCGTAGTTGCATCACATCCCACAC
AGAACAGCAAATGTCCTGTCTCCTTGGAGTAGCAGGTTGAATTCTGCCACGTTGGGGTAACTGTCAGTTCTGCCACATCAGGCCCATCATCTCAAGGTAA
CGGCACATTCTTATTACCACATGCATTAGTCCATTTCTGCACTGCTATAAAGAATACATGGAACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGGCTG
ACAGTTCTGCAGGCTGTACGGGAAGCATAGCAGCTTCTGCTTCTGGGGAGACCTCAGGAAACTTACAATCGTGGCGGAAAGCAAAGGGGAGGTAGGCACA
TCTTACATGACTGAAGGAAGAGAGAAAGGGGGAAGGTGCTACATAGTTTTGTTTGTTTGTTTTGAGACAGATTCTCACTCTGTCACCCAGGCTGGGCTGC
AGTGGCACAATCTCGGCTCACTGCAGCCTCCACCTCCTGAGTTCAAGCAATTCTCATGCCTCAGCCTCCCCAGTAGCTGGGATTACAGGTGGGCACCACC
ACACCTGGTTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTGAAGTGATCCGCTCGCCTTGGC
CTCCCAAAGTGCCGGAATTACAGGCATGAGCCACCATGCCCGGCTGGTGCTACATACTTTTAAACAACCAGATCTCGTGAGAACTCACTCACTATACACT
GCCAAGGGGTATGGTGCCAGACCATTCATGAGAACTCCGCCCACCATGATCCAGTCATCTCCCACCAGGCCCCACCTCCCACATTGGGGATTACAATTTG
ACATGAGATTTGGGTGGGGACACAGATCCAAAACATATCGCCACGATAATGCTATGAGTCCCATTGCTGTCACGCACAGGGTAGATCATGGTCCTGCCTC
CATGGGATATGGTGTGAATCCCATCACTGTGGGGTCCAGCAGGAGTCCTGTCCCATCACTTTGGGGTAAAATATGAGTCTTGTCACTTTGGGGTAAAAGC
AAGAGGACCTGCAACCATAGGGTAATGGCATAATTCTCTCACTTAAGGCAGTGGTTCTTTTCTGGGGACAATCTGGCATCCTCCCTCCCCAGGGGACTTT
TGGCAATGTTGGGAGACTTTTTTTTTTTTTGAGATGGAGTCTGACTGTGTCTCCCAGCTGGAGTGCAGTGGTGCTATCTCGGCTCACTGCAACCTCTGCC
TCCCAGGTTCAAGCGATTCTCCTACCTCAGCCTCCTGAGTAGCTGAGATTATAGGCACGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGAC
AGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCGCCTCGGACTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
TTTGCCTGGCCTGGAGGACATTTTTAATTGCCACAACTTGTGGGAGGGATGCTACTGGCAGCTCGTGAGTGGAGCCTAGGGATGCCGCTCAATATCCTCC
AATGCATAGGACGCCACCCCCACTACCACAGTGGAGAATTACTTGGCCCCAAATGTGAACAATGCTGAGGTCAGAAGACCTTGCCGTAGCATGATGGACT
TATGCCATCACTTGAGACCCTGCATAGTGTGCTGTCTTCCCAGGCTGATCTTGAACTCCCAGGCTCAAGCAACCCTCCCTCCTTGGCCTCTCAAAGTGCA
GGAATGACAGGCAGGAGCCACCACGCCCGGCTCCAGAATCTACATTTTTAACAATCAAGCGATATGTCCTATTGCAGATCGGCAGACTGTGTTTTCAGAA
ATATCATCTCAGGCAGAAAGGGCCGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACTTGAGGTCAGGAGTTT
GAGACCAGCCTGGCCAACATGGTAAAACCCCGTCTCTACTCAAAAATACAAAAATTAGCCAGGCACGGTGGCGGGCACCTATAATCCCAGCTACTGTGGA
GGCTGAGGCAGGAGAATCTCTTGAACCCAGAAGGCAGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCTGT
CACACAAACACACACACACACACAAAGAAATACCATATCAGGCAGAAAGATGCCTGAGATGTCTGAAGGACCTTGGATACCGTGACACCCCCCTCCCCTT
TCTCTTTCTCTCTCTCTCTGCTCCGTCCTTAGCTTGCTGTGCACCCCATGCCTGGGTCCCTGTCCCAAGGTGTGCCACCTCCTAGAAGGCGAGAAGACCA
TCGACTYGGTGACGTCTGCCCAGGAGCTCCGAGGATGCACCGTCATCAACGGGAGTCTGATCATCAACATTCGAGGAGGCAGTGAGTGTCTCTGTGTGGG
CRTCGGGGGTGCCTGTTGGGCTCCATGTCCCTCTGAGCTGTGAGCGGGGAAGAAAAGCAGTGCAGACCCTGCTGCGTGCTCCTACAGCACTTTTAGGATG
GTCGTTCAGTGGCTCCCCCATGGATAGAACCATGCTGGGAGTCTGCCTCAAAACCTGAAATGAACAGCTCAGTCTTGGCCTTACTAACCTTGAGATTCTC
ATTTTCTACTTTGGGAGTTGGGGCATCAGGAATCTGCATTTACATTTATTTTTATTTTTATTTTTATTTTTAGAGATGGGGTCTTGCTCTATTGCCCAGG
CTGGAGTACAGTGGGGCAACTCTAGCTCACTGTAGCCTCAAACTCTTGGGCTCATGCAGTCCTCCTACCTCAGCCTCCCAAGTAGCTGGGAGTACAGGCA
GGTGTCACTGTGCCGGGCTAATTTTTTTTTTTTTTAATTTTTTTCCAGGGCCAGGTTCTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCGAG
CAATCTTCCTGCCTCAGCCTCTCAAAGTGCAGGGATTACAGGCATGAGCCACCCCACCTGGCTTTGGAATCGTCGTTTTTAACAATCAAGCAATATGCCC
TATTGCAGAACTGCAGGCTGTGTTTTCAGAAATAAATCTCAGGGCCGGGTGCAGTGGCTCATGCCTGTAATCCCAACAGTTTGGGAGGCCGAGGCAGGTG
GATCACGTGAGGTGAGAAGTTTAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCAGGCTTGGTGRTGCGTR
CCTGTAATCCCAGCTACGCAGGAGGCTGAGGCAGGAGAATCGTTTGAACTCAGGAAGTGGAGGTTGCAATGAGCTGGGATCRCGCCACTGCACTCTAGCC
TGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAGCCAGGCGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGA
GGTGGGCGGATCACTTGAGGTCAGAAGTTTGAGACCAGCCAACATGGTGAAACCTTGTCTCTCCTAAAAATACAAAAATTAGCTGGGCACGGTGGCACAT
GCCTGTAGTCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGC
CTGGGCCATAGACCAAGACTCCATTTCAAAAAAAAAGAAAAGAAATACCATGTCAGGCAAAAAGGCATTCCTTTGTTTATTTCTTTAGCGAACATGTACT
GAATACTCACAGTGAGTAAGGGAAAGTCCTTACCTTGATGGATTTTTGCGCATAAGTAAATCGACAGATATTGTAAGGTCAGGTTGTGGTCTGTGCTGTG
AAGGSAAGTGCAGCAGGGTAATAGGTGGAATGGAAATGGGCAACTTTTCCCTATAAAGGGCTCTTTCATGAATATATTCAGCCTGGCAGGCCGGGCAGTC
TCTGCCGTAACCACTCAACTCTGCCGTTGTAATATGAAAACAGCCATAGACCCATGTCAGCTAGCAGGCATGGCTTTGTTCCAATAAAACTTTATTTACA
AAACAGGTAGAATTTGGCCAGTGGGCTGTCATTTGTCAACCTCTAAAATGGAGACTAACAGGGGTTGCTATTTTTTTTTTTTTTTGTAGTTTTAGTAGAG
ACAGGGTTTCACCATGTTGGCCAGGGTGGTCTTGAACTCCTGACCTCAAGTGATCCACCTGCCTCGCCCTCCCAAGGTGCTGGTATTACAGGCATGAGCC
ACCAGCACCAAGCTGGGGGTTGCTATTTTAGAGAAGTCTCTGGTATGGGAAAGGAGGGTTTGAGATGATGATGGAACAAGCCAAGGAGATATATGGTGGA
ATAATATTCTGAGCAACAGACGCAGCCAGTGCCAAGGTCCTGGGGCAGAAGTATGCTTGACCCATTTAAGGAATGCTAAGGACTTCAGATTGTGTTCTAA
GCATGATGAGTTTTGAGCTGGGTATGTCCAGTCATTTGCAGCCTGAGGGTTATCTTCTCACCATGGAGAATCATGAGAAGATTGAAATATGTCTATAGAA
ACCCACTGGATATTCTCTCCTTTCCTTAGACAATCTGGCAGCTGAGCTAGAAGCCAACCTCGGCCTCATTGAAGAAATTTCARGGTATCTAAAAATCCGC
YGATCCTACGCTCTGGTGTCACTTTCCTTCKTCCGGAAGTTACGTCTGATTCGAGGAGAGACCTTGGAAATTGGGTACGTGGGCCTGATTGTGTGTATGG
CCTGAGTGCTAACTAGGAAGTTCGTGTATTAGAACAACTTAAGGATTTTTTTGGCCAGGTGTGGTGGCTGATGCCTGTAATCCCAGCATTTTAGGAGGCC
AACGTGGGTGAATCACTTGAGGCGGGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAGTACAAAAATTAGCCAAGTGTGAT
AGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATAGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCACACTACTGCA
CTCCAGCCTGGGTGACAGAGTGAGACTCTGTCCAAAAAAAAAAAAAGAAAAGAAAAGGAAAAACTTAAGGATTTTTTAAAAATCAAATAAAAACAAATAA
AAAACAAATAAAAGTATATCTGGCAAAACCTCGGGAAAAAAGAACTTGGAATGTGCCTAAAGGTCCATCCAGCCAAAAATTGTAAAAGCTTTTTTATAGT
CATTCTTGAGAAACAAAAGTGGGAGCAGCCCAACCTTGGTGCCCATCCTCCAAGGGTACAGGCTGGAATTTTTGCTAAATTTGCTGTTTGGGCTGCATTG
TGAGTAGAGTTTGGCATGCATAAAATGAACATTCCCTCTTAGTCCYGGTTGTCCATCCTAATTTCTGGGATGGACTCCATCTCAGTATATTCCAGTATAT
TCCAACCTTCTCCTTGAGGTCCTAGAAACTCTATTAGCAAAACAGCAGAAACTCAAACTAGCTAGATCAAGATTGACTCATAGGCAGGAGGTCTGTGGAA
GACCCAGATTCTTTCCATCTTTGTGCTCCTCATGGTCACAAGATGGCTGCCTCAGCCCCAGCCTCACATCTGTAGAACAGACAGCAAATGGGGAAAGGGA
CAAAAGGACATGTTAATCAACATGAGCTGGTAAGTGACTTGAGAAGGTGGTCTAAACAATATAGTTTAGACTATATTATCTGTACTCCAGCCTAGGCACC
AGAGTGAGAATCCATCTCAATAAAACAAACAAACAAACAAACAAAAACCTTCAATGGCTCCTTTCTCCTTATTAAGGATGGCCACATGTTCTTGGTCTTG
GTCTGGCATGCAATATACTAGAGGGTCTGGTCCATTGCAACTACAGCTATTTCCTGTCACCTATTGGCCAAAACAGGCTACTTTGCTCTTCCCTGAACTC
AGCTTAGGTGCCTCTGTGTTATCAGTATTTCCCCTATTTGCAGAAATTGGTTTCTGCAAAACCTATTCCTCAGTCCATCACAGACTCACCACCCCTCTTC
AAGACTGAGCTGAGCCTCCTTCCTGGCCATGAAAACTTCYTCAACTTCCTCTGTTATCCACATTCAACAAATATGTGTTGAGTATGTGCCAARCAAGTGG
AGAGGATTAGGCAYGTAGCACTGAACAAGATCAACTCCGAGCATGGCCACACCATCTTGGAGTTGTAGAAGACCAGCCGTTGAATGACTAGATGTGTGTG
TTTTTTCCATAGGAACTACTCCTTCTATGCCTTGGACAACCAGAACCTAAGGCAGCTCTSGGACTGGAGCAAACACAACCTCACCAYCACTCAGGGGAAA
CTCTTCTTCCACTATAACCCCAAACTCTGCTTGTCAGAAATCCACAAGATGGAAGAAGTTTCAGGAACCAAGGGGCGCCAGGAGAGAAACGACATTGCCC
TGAAGACCARTGGGGACCAGGCATCCTGTAAGTCACTGGTCCCCAACCTTTTTGGCAYGAGGGACCGGTKTAGTGGAAGATGGTTTTTCCATGGACTGGT
GGTGGGTGGGGATGGTTTCAGCATGATTCAAGTGCATTACATTTACTATGCACTTTATTCCTATTATGATTACATTGTAATATATAATGAAAGAATTGTA
CAACTCACCATCATGTAGAATCAATGGGAACCCTGAGCTTGTGTTCCTGCAACTAGATGGTCCCAGCTGGGGGTGATGGGAGACAGTGACAGATCATCAG
GCATTAGATTTTCATAAGGAGTGTGCAGTCTAGRTACCTCATGTACACAGTTCACAATAGGGTTCACACCCCTGTGAGAATCTAATGCCGCCGCTAATCT
GACAGGAGGCAGAACTCAGGTGGTCATGCAAGCGATGGGGAGTGACTGTAAATACAGATGAAGCTTCACTTGCTCACCTATCACTCACCTCSTGCTGTAC
AGCCCTGTTCGTAACAGGCCATGGATAAGTACTGGTCTGTGGCCCAGGGGCTGGGGACCCCTGCTGTAAGTGGTCCACAAACCAGATAATGTGGCTGTCC
TCTCTCATCCATCACAGTCACYCCCAGGGGGTATTACTTCCCTCTAACAACTCACTGTGTGATAGGCTTTCTTACTGAGGGCAGATTCTGCACATTTATT
AATATTATCACTATGCTTACTGTGCCATATAGTACCGGATACGGGATGAAGTCATACAAGCACTGAATGAATGGATGAATGAATGATGGATGAATGGATG
ACACCTTCTTATATGTGTATCAGGCTGATGCTGAAGACTTCAAAGTTGAGTAAAATACCTATGTCAGTCTGCATCTCCTGGGAAGTGACTGCCAAGTTGA
AGTTAGGAGTGCAGAAAATGTATTGAGGGTAATATTCATAAAATATGAAACAGAGGAAGAGCTTCTTTTTTTTTTTTTTTTTTTTTTGGGACAGAGTCTT
GCTCTGTCACCCAGGGCTGGAGTGCAGTGGCGTGATCTTGCCTCACTGCAACCTCCTTCCCCTGGGTTCAGGTAATTATCTCGCCTCAGCCTCCAGAATA
GCTGGGATTACAGGCACATGCCACCAAGCCCGGCTAATTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGGTGGTCTTGAAC
TCCTGACCTCAGGTGATCCTCCCGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGTCACCACGCTCAGCCATGAAGAGCCTTTTGACAATAGCG
TGTGTCTGACCTCTGTGAACAGAGAGCGGGAAGGAGGGAGGATAGGGCTGGGAGAGTCTCAGATGGTGATGCATCCCTGAGTCTTGGCCAAACCCAGAAA
GAGATCAAGGCCACGGTTGTCTGCAGGGAAGTTCTGCATTGCAAAGGGACGGCCAGGCATCTACCAAGCTCAGTCATAGKTGGGGGCTGTCCAGGGAGAG
TCAGGTTTTGGCTGGAATGCTACAGCAGGTCCTGCAGTTTCTGCAGCTGCAGGCTGCCTGCTGACTGCACTTCCCTGACAGATTCTAAACAGTGAGCTGC
CAAGGGCTTCTGGGATACCTTCATGGGGAGTTAGTTACTTAYGTCAAAATGTAGTGCAAGGGCTGGGCATGGTGGCTCACGCCTGGAATCCCAGCACTCT
GGGAGGCCGAGGCRGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATGTGGTGAAACTCCATCTCTACTAAAAAAAAAAAATACAAAAA
CTAGCTGGACGTGGTGGTGGGTGCCTGTAATCCCAGCTACTTGAGAGGCTGAGGCATGAGAATTGCTTAAACCCGGTAGGTGGACTGCACTCCAGCCTTG
GTGACAGAGCAAGACTGTCTCAAAAAAAATGTAGTGCAAGGAGAGAGAGCGAGGTTGGGGTGAGGTTTAGGAGAGGGTTTGTCTTCTAGGCAGAGAGAAT
TACTTAGATGCGTCTCTCCGATGTCTAATGATCTGCAGGGTCTCTAAACTCACTTGGCATAGGTTTATTTGCACTGGAGTTGCACCTCCTTCCAGGTCAG
TCTTACAAGTCCATATGCGAGACAACGTTGTGTCAGGACAAACATCACCCTTGGAAATCCCTTCCTCCARTAACTATTGGCCGGTTGTCCTTCTTGCGYG
GGTACAGACTGCGCTTATTCAGTTGACTGTCTGGCTGAGTCAAGTCATTGGCTTACGTGAGTGTGAGTGGCCAAGTTGCAAAACTGGCTCTTACCTTTGA
ATCTTCCCCCATTCATACTCAGCCAGGCACATGGGGAGGAGACCCTTAAGGGAATAGCAGCSTCACCTCTGCCTTCTCACGGTCCCTCCAGGAAGTGTGG
GGGTCCCAGGCTTTGGTCTGAAACTACACTGAAATAGCTCATTTTTGCCTTTTGTTTTAACTTTTCCAGGTGAAAATGAGTTACTTAAATTTTCTTACAT
TCGGACATCTTTTGACAAGATCTTGCTGAGATGGGAGCCGTACTGGCCCCCCGACTTCCGAGACCTCTTGGGGTTCATGCTGTTCTACAAAGAGGCGTAA
GTAGAAGAGTTAGAGAGAYGCTGMGGAGGCGAGGGCTGGCTGGCTCTGTGCTTGCTACGTTTGTGCTCCAATCTGCCCCTCTTGGGTTCCTGTCTATCTC
CCTCCTCCTCCTGGAATAAATATCTTAGGTTCCTTTTTACAATCTCACCAGTCGATGKCATGCAAAGTCAATAGTGTCTGCTTTTATCAAATGCCTAAAA
TGGAAGCAGACAGCTTTCCCATAGAAGCCCGGACTGGCCAGTTTCCTGGGGCAATATTCYATTTTGCCTTGCCTGTGTATGTCTCATCAGACATCCTTAG
TAGTCAGGAGCTCAGTCTACTAAGTGGATGTTATCAAATGTATTGCTTATCTATTTTTCTTTTTTATCCCCAATTTTTTTTTTTTTTTTGAGACAGAGTC
TTGCTCTGTTGCCCAGGGTACAGTGCAGTGGCAGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAGTTCTCCTGCCTCAGTCTCTTGAGTA
GCTGAGATTATGGGCATACACCATCACACGTAGCTAATTTGTGTATTTTTGATAGAGACGGGTTTTGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGAC
CTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCTGACCAGTAGTAATATTAATAATAGTTCTAGCCCTC
AAGATTTACCTTGTGCCTTGCTGAGCACTGACACACAGTCTAATCTTATCAGTAACTTGTGAGGGAGCTCCTGCTATTACTATTATTACAGATTGAGTAT
CCCTAATCTGAAAATCTGAAATTTATAATGCTCCAAAATCCAAAGCTTTTTGTGGGCCGACTTGATACTCAAAGGAGATGCTTATTGGAGCATTTCAGAT
TTCAGATTTTTAGATTAGAGATGCTGAACCAGTACAATGCAAATTAACTAGTAAAATGCAAATATTTCAAAACCCCAAAATATCCAAAATCCAAAACACT
TCTGGTCCCAAGCATTTATTTATTTATTTATTTATTTATGTTTTTGAAACAGAGTCTCCCTTTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCT
GATGCTACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAACCTCCTGAATAGCTGGGATTACAAGCATCTGCCACCATGCCCAGATAATTTTTGT
ATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACTTCTGGTGATCCGCCATTCTCGGCCTCCCAAAGTGCTGGGATT
ACAGGCGTGAGCCACTGCACTTGGCCAAGTCTCAAGTGTTTTGAATAAGGGATGCCCAAGCTGTGTTTTTTCATTGAGATGTCAGGGTTGACAGTTCCTT
TCTCTTTGGCTGTTCCCGAGTTATTTTTTCTTGYGGCATTAGATTGTTGGGTGAGTAACATGTGACCCTATGGGATGTAACTTCCCAGGCCTCATCTGCA
CGGCACTCAGTGTGACGGTCTTGTAAGGGTAACTGCCTTCTGCTGTTTTGTCTTGAAAGCCCTTATCAGAATGTGACGGAGTTCGAYGGGCAGGATGCRT
GTGGTTCCAACAGTTGGACGGTGGTAGACATTGACCCACCCCTGAGGTCCAACGACCCCAAATCACAGAACCACCCAGGGTGGCTGATGCGGGGTCTCAA
GCCCTGGACCCAGTATGCCATCTTTGTGAAGACCCTGGTCACCTTTTCGGATGAACGCCGGACCTATGGGGCCAAGAGTGACATCATTTATGTCCAGACA
GATGCCACCAGTGAGTGTGTCTTGGGAATGTGAATTYGTATGTGAATCAGACCTCTTGCTTTTAAYAGGCTGATGCAGTGAGGTTGTATAAAATGCTCCT
TGATATGGTTATTGGCTTTTTTTTTTTTTTTAGACAGGGTCTTACTTTGTCACCCAGGCTAGAGTGCAATGCAGTGGGGTGATCATGGCTCACTGCAGCC
TCAAACTCCTGGGCTCAAGCAATCCTTCTGCCTCAGCCTCCTAAGTAGAAGGAACTACCAGAGTATACCACCATGTGTGGCTTTTTTTTTTTTTTTTCTT
TGAGATGAAGTCTCACTCTGTCACCCGGACTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTRATTCTCCCACCTC
AGCCTCCTGAGTAGCTGGGACTACAGGCATGCACCACTATACCCAGCTAATTTTTGTATTTCTTGTAGAGACAGAACGTTGCTGTGTTACYCAGGCTGGT
CTTGAACCCCTGGCCTCAAGTGATCCTCCTGCCTCGGCCTCCCAAAGTCCTGGGATTAGAAGTGTGAGCCACCTTGCCCAGTCAGTTATTGGCTTTTAAA
GGAGCTGGGTATTGAGGCTTATAGTTTCAGACGAGGCAGTAGCAACAAGCCACTTGATGGGAATATTTATATTTTTCATCCTATTATGAAAAATTGTCAA
ATATTCACAACACAGAACAAAACCCCATAGTTAGCCGCCTCCCAGCTTCAGCCTTTGGTCATTTTTGTTTCATCTCGACGCCTGTTCCCTCTTCCCACTT
GTTACTTCTTTTTGTTTTGTTGTTTGTTTTGGCCTGGAGTATTTCACAGCAATTTAATTATGTTTGTTTGTTTGAGATGGAGTCTCACTCTGTCACCCAG
GCTGGAGTGCAGTGGCGCCATCTGGACTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTTGCTGGGATTACAGCA
CACTTGGCTAATTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTTGAGACAGAGTCTCACTCTGTCACTGAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCA
CTGTAACCTCCCCGTCCCAGTTCAAGTGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGCAACTACAGGCGTGCCACCACGCCCAGCTAATTTTTGTATTT
TTAGTAGAGATGGGATTTCACCATGTTGGCCAGGATGGTCTCARTCTCTTGACCTGCAATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCA
TRAGCCACCATGCCAGCCTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCTAGGCTGGAGTGCAATGGCCCTATCTCAGCTCA
CTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAACTGGGATTACATGCATGCACCACCACGATTGGCGAATTTTTTTT
TTTTTTTTTTTTTTGTAGAGACAAGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCGAGCCTCAGGTGATCCGCCTGCCTCGGCTTCCCAAAGTGC
TGGGATTACAGGCATGARCCACCGCGCCCAGCCATTTTTGTATTTTTAATAGAGAYGGGGCTTCACCATGTTGGCCAGGCTGCTCTGGAACTCCTGACCT
CAAATGATCCRCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGGGCCCGGCCTAATTATATTTTTGTAAAACCTAAGTGCTTCTC
TTATAGCAGTAGTTCCCAAAGGAGGTTAACTGCTCTGCCAGGGAACAGCTGCCAATCAATGTCTGGAGACATTTTTGGTTGTTACAGCTGTGGAGATGAA
ACCACTGGCATTTCGTGGGCGGAAGCCAGAGAGGCTGTTCCATGTCCTGCAACACACAGGATGCACCCTCCTTCATGACAAAGAATTATCCAGTCCTAAA
AGCCAATAGTACTAAGGGTGAGAAACCCCGTCCTGTAGGCTCAAATTCAAGCTTTTTTTTTTTTTTTTTTTTTTTTTTAACGGAGTTTCACTCTTGTCTC
TCAGGCTGGAGTTCAATGGCGCATTCTCAGCTCACTGCAACCTCTGCCCAGGTTCAAGATTCTCCTGCCTCAGCCTCCCAGGAAGCTGAGATTACAGGCG
CCCACCACCATGTCCAGCTAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGTGTAGTCTCGAACTCC
TGATCTCAGGTGATTCAGATGATTCGCCCACCTCGGCCTTCTAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCTCGAATTCAAACTTTATA
AATCAACCCTATCTTCTTCAGTTAATCCCCGCTCATTCATCCTGTATCTTTTAGTGACACCAAAAGACTTACAGTTTTCAGAAACTTCTAGCTCCCAGGT
GTTTGGACTCCCTCCCCATCCCCAGCTCCCTCGGCCACCTCCGTTACTTTGGGTTTTTTGGGTTTTGTTTGGTTGGTTGGTGGKGGTTTTTTTTTTCTTT
TTTGTTTTGTTTTGTTTTGAGACGGACTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCA
CGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCACCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCAC
TGTGTTAACCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCTGCCTTGGCCGCCCAAARTGCTGGGATGGGTGCCCTCATGATGTCTTTAACTTGT
GTGTCCCCCGCCATCCTCCCACCAGCTTTCTTTGCACACTGTTTCTCATGATGGACCCRTTTCCTTTCTCCCTGRCAGACCCCTCTGTGCCCCTGGATCC
AATCTCAGTGTCTAACTCATCATCCCAGATTATTYTGAAGTGGAAACCMCCCTCCGACCCCAATGGCAACATCACCCACTACCTGGTTTTCTGGGAGAGG
CAGGCRGAAGACAGTGAGCTGTTYGAGCTGGATTATTGCCTCAAAGGTGAGTGCAGGCAGCTGTGCTAGGATCGGTGGGGTTTGCACACGTGTGTCTGAT
GCACTTTGCTTCACCTCTAGGGAAGCAGCTATCTCTTCCYGTGTCTCAGTGTCGGAAGGCACACACACACACACTCMATTCTATCTCATATGAAAACACA
CATACATGTTTTTATCTATTTATTTATTTATTTTATTTTTTATTTATTTACTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGG
CGCGACCTTGGCTCATCGCAACCTCCACCTCTCGGGTTCAAGTGATTCTCCTGCATCAGCCTCCCGAGTAGCTGGGATTACAGGCACGCGCCACCACGCC
CGGCTAATTTGGTATTTTTAGTAGGGACGGGGTTTCTCCATGTTGGTCAGCCTGGTCTCAAACTCCCGACCTCAGGTGACCTCAGGTGATCCACCCACCT
TGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCGGCCTATTTTTTTTTTTTTTTTGAGACAGGGTCTTACTCTGTTGCCCAGGCTGGA
GTGCAGTGGCATGATCTCTGCTCACTGCAACCTCCACCTCCCAGGCTCAAGCAATCCTCTTGCCTCAGCCTCATGAGTTGCTGGAACACCACAATTGTCT
GCAGGTGTGCACCAGCATGCCCAGGTAATTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATC
TCGGCTCATTGCAACTTCTGCCTCCCAGGCGCAAGCGATTCTCCTGCCTCAGGCTCCTGAGTAGCTGGGACTACAGGCGCCTGCCACCACACCCGGCTAA
TTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAATGATCCACCCGCCTCGGCCTCCCAAAGTGC
TGTGATTACAGGCATGAGCCACCACGCCTGGCCCTGGCTAATTTTTAAACTTCTTTTTGTAGAGATGGAGTCTCCTTATATTGCCCAGGCTGGTCTCAAA
CTCCTGGCTTCAAGCAATTCACCCCCCTCAGCCTCCCAAAGCGCTGGGATTACAGGCGTGAGCCACTATGACCGGCTCATACATACACATTTTTAAACAT
CGTAACACAAGCACGCACTGAAGACTTGTGTCAAAACCASATTTTTCCCATGTCTTGGCACCATTTCCCTCTGGGATTTTCTCCTCTTGTCTCTCCTTCT
TTCTCCCTCCCTGCCTTCCTTGTTCTCTTCATCCCTCCTCACACTGATGGGGATGCAGCTGTGTTAACCCACGCAAGACTTCTGTGCAAAGCTAGAAACA
CAACTAATGGTTATTGACAAAGTCAGGGAAGGATTTTGGCCCCACTGAGATCCTTTAGTTGTAAGGATCGAAGGCAGCAAGAATTGGTTATCTCATATCC
CCCACCCCATACTTTCAATTAAAAATGTCTGCCAGGCTTGGCGCTCATGCCTGTAATCCCAGCACATTGGGAGGCCAAGGTGGGAGGATCACTGGAGGCC
GGGAGTTTGAGACCAGCCTGGGCAACATAGCAAGATCCCATCTCTAAAAAAATTTAAAAAAATGGTGGTGTACACCTGTAGTCCCAGTTACTTGGGAGGC
CCAGGCGGGAGGATCTCTTGAGCCCAGGAGTTCAAGTCTGCAGTGAGCTATGATTATTCCAGTGCACTCCAGCCTGGGTGACAGAGCGAGACCCTGTCTC
TATATATATAAAAAAAATTATACAAAATTAAAAAAAAAAGGCATTAAGTGCATTCACAATGTTGTGCAATCATTTTATTGTATAAAAATTATAAATAAAA
TTTATAAATAATTATATAAATAATTTTATTATAAAACTTAATGACAAATTTTTCTTAATCTTGTTTACTTAATAGACCTCCATCCATCTGAAGGAAAATG
GAATAATATTTAAAGTCTCAAACTAGTGTGTATACATTAGTTTAAAATTATTATTATTATTATTTTCTTTTTTTTTTTTTTTGACACGGAGTCTCACTCC
GTCACCCAGGCTGGAGTGCAGTGGCTTGATCTTGGCTCACTGCAACCTCCGCCTGCTGGGTTCAAGCGATTCTTGTGCCTTAGCCTCCTGAATAGCTGGG
ATTACAGGTGCTGCCACTACACCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGGTGGTCTTGAATTCCTGACCTCAAAT
GATCCACCCGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCTAAAATTATTTTAACATTGGGTTTTTTTAGAACCCACC
AAACTGGAGAAGCATCTGTCACTTTTTTCTTTTTCTTTTTCTTCTTCTTTTTTAAGATGGGGTCTCACTCTGTTGTCCAGGCTGGAGTGCAGTGGCACAA
TCATAGCTCACTGCAGGCTTGAACTCCTGGGCTCAAACGATCTTCCCGCCTCAGCCTCCTGAGTAGCTGGACTACACAGGACTACAGGCCTGAGACACTA
TACCTGGCTAATTATTTAAAATAATTTTTTAGGCCGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCAGGG
GTCAGGAGTTTGAGACCACCCTGGCCAATATGGCAAAACCCCGTCTCTACTCAAAATACAAAAATTAGCCAGGCGTGGGCCTGTAATCCCAGCTACTCAG
GAGGCTGAGGCAGAAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAATGAGCCGAGCTTGCACCATTGCACTCCAGCCTGGGTAACAAAAGCAAAACTC
CATCTAAGAAAAATAATAATAATAAAAATAATAATAATTTTTTAGAGGTGGGGATCTTGATATGTTGCCCAGGGTGGTCTCGAACTCCTGACCACAAGCG
ATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGTATTACAGACCTGAGCCACTGCGCTGGGCCCATTTCCTTCTTTAGTTTTGGTTTCCTTGTGCATCTTGA
TGTATTTTTCTTGAGATATTTTCTGTTAGTGATATCCTCGGTCCATGACCCTGGAGGAGAAGGCCAGGGGGCCACTGGCGAGGTGTGGCTGAGGCCAGGA
GCTCAACATTTGCTCTTGGCTCTGGCCCTGACCTGCTGAAGGGCTTTGGCTAAGTTCCCAAGCAAGTCACCGTCTGCCTCCTTTTTGGGAGAAGGGGCGG
GAGGACAGATGATCTCTGGGAGCTGTCCCAGCTCTAAGCTCATATGCTATATGTATGTGTGTGACATCATCCCCGCCTGAGCCGAGGGTTGCAAACGTGA
TTTATCTGCTCTGATGCTTTATATAACTCCAGGGCGAGTCCAGTCATCAGCTCCGCTGTAAGCTGTTGGCCCTGCATTCAAGTAACCAGAACCACCCGTG
AGAGCTGCCACCAGTAATGTCACTCGAAGCTTCCTTTTTTTTTTTTTTAATTCCGAAAGTCTAAATCTGTAATTACCAAGGGACCATTTAAACATGGTTT
TATTTGTAATTGTCACAAAGTTAATATCATTAAAAGGAAACTCACTAAGGACAAATTCTGTGTGATTTCACTCCTAGGAGGTCCCTAGAGTCCTCAGATT
CATAGAGACAGAAAGTAGAATGGGGAGTGCCAGGGACTGCGGAGGGGACGGGTTGAGGACAGAGTTTCAGTTTGGGAAGATGAGAAAGTTCCGGAGATGA
TGGTGGTGATGATTGCACAACATTGTGAATGCACTTAATACCACAGAACTGCACACTTAAAATGGTTGAGATTTACCGGGCACAGTGGCTCACGCCTGTA
ATCCCAGCACACTGGGAGGCCGAGGTGGGGTGGATCACTTTGAGGCCAGGAGTTCGAGACCAGCCTGGGCAACATGGTGAAACCCCGTCTCTACTAAAAA
TACAAAAATTAGTTGGGTGTGGTGGTGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAATCTGGGAGGCAGAGGTTGCAG
TGAGCCGAGATCACGCCATTGCACTCCAGCCTGGCAACAGAGCAAGACTCCACCAAAAACAAAACAAAACAAAAATTGAGATGGTAAATTGGTATATTTT
ATGTGATGCTTATTTTTCCACAATTTCAAACACACACACACACAAATAAATAAGCTTACAAACCCTTCCTGTTAATATCACTAGTGTATATGTTGTTACC
ACGGTAAAATATACATCACATACAATTTATTATTATAACCATGTTTAAGAGCACAGTTGAGCTGCATTAAGTGCATTGCCGTGGTTGTGCGGCCATTACC
ACCATCATCTCCAGAACTTTCTCATCTTCTCAAACTGAAACTCTGTCCCCATGAAACACTCACTCCCCTTCTCCTTCCCCCAGCCCCAGCACCCACCATC
CTCCTTTCTGTCTCTGTGAATCTGATTCTAGAGACTTCATTATGCTCATTTTTCTTTTCTTTTCTTTTTATTTTTTTGAGACGGAGTCTCGCTCTGTCAC
CCAGGCTGGAGTTCAGTGGCGTGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCGTCAGCCTCCCGAGTAGCTGGGACTAC
AGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCRATCTCCTGACCTCGTGAT
CTGCCCACCTTGGCCTCCCAACGTGCTGGGATTACAGGCGTGAGTCACCGCGCCTGGCCCATTATGCTTCATTTTTCTAATCTCAGGAAAACCACAGTGT
ACCATGTTTCATGCAGTGGATTCTAGGAAGAGGTAGCAGGTATCAGGAATGATACCTGTGCCTGAACAAATATCCCTTCCTCTCCAAATAATAATAATAA
TAATAATAATAGTAATAATAATAATAATACCAGGAGCTTCCCTTATTCAGGCAGTTCTACATTTTTTTTTCCATCTGTAATGCTGTAACTAGCTCCCATC
AGAGTTAACCCAGGCAGGGTATTCTMTGTCTATTTATAAACTTAAGAAGTATTTTCCAGTCTCTCATAGGCTTTTAAAGCTGTGTAAATACTTGGGTTTC
CGAGTGGATACTCACCATTCACAGGAAGGTACTTGATACACRATTTAGAGCTTATTGTCTATCCTCGAGGCATTAAGGGGAGGAGAGAAAATGGAATTTC
YTTTGCTCAGCAGTCACCAGGCACCAAGCAGGGTGGCAGCAGGGGAGGTGGCTCTCCAGGGACTGTTGCAGATTTTGCTTGTAAAGAGCTGTGTCCGTCC
ATCTCAGTGGCTGTACCAGAGGCATAACTGTGCTTGCACCGTGGGTCACAAGAACCCTGGGATTTGACTTCGGGGCTTAAGACATGACCAGCTGCGGTAC
TTAAGTATTGTAGGCTGGGTGCGATGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCGTTCGAGCTCAGGAGTTTGAGATCAG
CCTGGCCAACACAGCAAAACTCTGTCTCTACCAAAAAAAAAAAAAAAAAAATACAAAAATCGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTT
TGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCGGGAGATCAAGACCAGCCTGGCCAACATGGCAAAACCCCGTCTCTAATAAAAATACAAAAAAAATGC
CAGGCGCAGTGGCTCAAGCCTATAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGACCACCTGAGGTCAGGAGTTCAGACCAGCCTGGCCAACATGGCC
AAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGTGCACGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAAC
CCGGGAGGCAGAGCTTGCAGTGAGCCGAGATAGCGCCACTGCAGTCCGGCCTGGGCAACAAGAGCGAGACTCCATCCCAAAAAAAACAAAAACAAAAAAC
AAACAAACAAACAAAAAATTAGCCAGGTGTGATGGTGCATGCCTGTAATCCCAGTTACGGGGAGTGGAGCTGAGACAGGAGAATCGCTTGAACCCAGGAG
GCAGAGGTTGCAGTGAGCCAAGATTGCGCCACTGCACTGCAGCCTGGGCGACAGAGCAAGACCCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAGAGAGA
AATAGTATTGTATTTTGTATTTTTAGGACTGCTACCTTTATAAGCTACTGGTGTTCTTCTTCATTTATTAATTTTTAAATTCCCTTTTCTATGCATGTTT
GAAAAGTTCCTTCCTCTATCTCCTCTCATGCCTTTAGGTCAGGGTTTCTCTGTCTTGGTGTTTTTTCTGTCTGGCGTTGGATCATTCTCTGGGGTGGGAC
TGTCCCGAGCACTTCAGGGTGCTCAGCAGCATCTCTGGTCTTCACCCATTCCATGCTCCAGGAGGACGCCCCAGCCAGGTCCTGACACCTAAAAATATCT
CCAGATGTTGCCCAATGTCCCTAGTAGGAGACAAAATCACCCCCTGGGTGAGAACCATTCACTGATCAAGTCTGATTTCTGGACTCATGAATGGACCCCT
TAGAATTCCATGTGGAGGCCCAGTGTGGTGACCCAGGCCTGTAATTCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACATGAGGTCAGGAGTTCCAGA
CCAGCCTGGCCAACATGATGAAACTCTGTCTCTGCTAAAAATACAAAACATTAGCCAGGGTGGTGGCAGGCGCCTGTAATCCCAGCTACTTGAGAGGCTG
AGGCAGGAGACTCACTTGAATCCAGGAGGCGGAGGCTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTGTCTCAAAA
AAAAAAAAAAAAAAAAAAAAAAAAGAATTCCATATGGMATTCTACTCTGCCCTCCCATCTTATTTGTGTGGTTGATTAATTGATTGATTGATATTTTCAT
GCAGCTGTGACCTGGCTCCTTCTCCTCCTCCTTCTTCTCCTTCTTCTTTCTTTTTCTTCTTCTTCAACATGATTTCACTCTGTTGCCCAGGCTGGAGTGC
AGTGGCCCCATCTCAGCTCACTGCAGCCTCGACTTCCCAGGCTCAAGCAATCCTCCTACCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCACACCACC
ATGCCTGGCTAATTTTTGTATTTTTTGGTAGAGACGGAGTTTCATCTTGTTGGCCAGGCTTATCTTGAACTCCTGGGCTCAAGTGATCCTTCCCCCTCAG
CCTCCCAAAGTTCTGGTATTACAGGCAAGAGCCACTGTACCTGGCCCCCTTTATCTTTTTCTAACCCCCTCCCACCATTCTCTCTCTCACCCCCTTCCAG
CTATATTGGTTTCCAGAGATTTTTTTTTTTTTTTTTGAGAGATGGAATGCTTCCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCAATGC
AACCTCCGCCTTCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGTGCCACCACGTGCAGCTGATTTTTGGATTTT
TTAGTAGAGACAGCGTTTCACTATATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCTCCTGCCTCGGCTTCCCAAAGTGCTGGGATTAC
AGGAGAGGGCCACCACGCCTGGCCAGACGTTTTTTAATGTGCCAAGAAAATTCCTGTCCTGGGGCCTTTCTGCTGGGTTTCTGCTATGTCTGAATTGCTT
TACACCACGATATGTGGATGGTGCTTTCCTTTGCTGAATTCAGGATGTCTCAGTGGTGACTTTCTTTGAGACCCCTTCATGAAAATGGCACCCGCAGACA
CCCACTGTTCTTTTACCCCAACATCTGACCTGTGACTGTGTATTTATGAGTTTATTGTAGACTGTAAGTCCACTGAAGACAGAAGCATTGTCTGGTTACC
TTATAATCTTCAGTCCTGTGATTATGGTGTCGGGCAGTTGTTGCCTTTTTTTGAGACAGAGTCTCGCTGTTGTCGCCTAGGCTGGAGTGCAATGGCTCAA
TCTCGGCTCACTGCAACCTCTGCTTCCCGGGTTCAAACAATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCACCACCACGCCCGGCT
AACTTTTGTATTTTGAGTAGAGACGGGGTTTCGCCATGTTGGCTAGGATGGTCCGGACCTCCTGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGT
GCTGGGATTACAGGAGTGAGCCACCGCGCCCAGCCACCTGGCAGTTTCTATTAGGTTGGTGCAAAAGTAATTGTGGGCCGGGTGCAGTGGCTCACGCCTG
TAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAATGAAACCCCATCTCTACTAAAAATA
CAACAAATTAGCCGGGCGTGGCAGCGGCCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGCCATGAACCCAAGCGGTGGAGCTTGCAGT
GAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGTAACAGAACGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAGTAATTGTGGTTTTTTGCCATTAC
TTTTAATAGCAAAAGCTGCAATTACTTATGCACTAAACTAATAAAACATGTTGACATGCACTTCTCAGATGACACTCTAGATACAGATATTTTATTTATT
TATTTATTATTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCCATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAG
CGATTCTCCTGCCTCGACCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACTACACCTGGCTAATTTTTGTATTTTTAGTAAAGACGGGGTTTCACCAT
GTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGGTCTGCCTACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTGCCTGGCCTATTTTT
ATTGGTTATTTTACTTTATTTTTAGTAGAGACAGGGTTTCACCACATTGCCCAGGCTGGTCTTGAACTCCTGGGCTCACGTGATCCTCACACCTCGGCCT
CCGAAAGTGCCAGGATTAAGGGTGTGAGCCACTGTGCTCGGCTATATTTTTAATCTTTTGAGACAGGGTTCTACTCTGTCACCCAGGCTGAAGTGTAGGG
GTGCAATCATAGCTCACTGCAGCCTCGAACTCCTGGGCTCAAGCGATCCTCTCACCTGAGCCTCCCAAGTAGCTGGGACCACAGGCGTGAACCATAGTGT
CTGGCTTTTTTCCAAAGCGGAGCTCAAATCTAGGCTCTGTCTCAGCTCAGCCTCTCTGAGAAGGCCCCCTTCACTGTGTGTGTGTGTGGTGCGTGTGTGG
TGTGTGGCGTGGGTGTGGTGGTGTGTGTGATTTGTGTGGTGTGTGGTGTGTGTGAAGTGTGTATGTGGTGTGTGTGTGGTGCGTGTATGGTGTGTGTGTA
TGGTGTGGTGTGTGTGGTTGTGTTTGTGGTGTGTGTATGTGTGGTCTGTTGTGTGTTGTGTGTGTGGTGTGTGTGTGTGGTTGTGTGTGTGGTGTGTGTG
GTATGTGTGGTGTGTGTGTATGGTGTGTGTGGTGTGTGGTGTGTGTATGTGTGGTCTGTTGTGTGGTGTGTGTGGTGTGTGTGTATAGTGTGTGTGTGGT
GTGTGTATGTGTGGTGTGTTGTGTGGTGTGTGTGGTGTGTGGTGTGTGTGTGTGGTTGTGTGTTTGTGGTGTGTGTATGTGTGGTGTGTTGTGTGATGTG
TGTGGTGTGTGTGTGTGGGGGGGTGTGTGGTGTGTGTGTGTGTGGTGTGTGTGTGTGGTGTGTGTGTGTGTGGGGTGTGTGTGTGTGTGTATGTGTGTTC
AGCCGCAGAGACTTGAGCCCCCCTTTTCTGTTTCTTTCTCCAGGGCTGAAGCTGCCCTCGAGGACCTGGTCTCCACCATTCGAGTCTGAAGATTCTCAGA
AGCACAACYAGAGTGAGTATGAGGATTCGGCCGGCGAATGCTGCTCCTGTCCAAAGACAGACTCTCAGATCCTGAAGGAGCTGGAGGAGTCCTCGTTTAG
GAAGACGTTTGAGGATTACCTGCACAACGTGGTTTTCGTCCCCAGGTCAGGACTTGGCGCTGGGMTCTCTTAGTGGGTRCCAATTGGCTTGGTGTTGGTG
GAAGGTCATTACTTAGGGACCGAGAGGTAGTGGGACCCAGAGACGGCAGAAGGGTGGGTGGAGTCTGAATGGAGCCCTTTCCTGGGTGGAGGAAGAGATC
TTGCAGTTTCGAAATTTCGAGGGGAATTTTATCAGGAAGAGCAAATAATCGCACAAAAGGGGAAAAATGGACAAAACTCAGCATTTGCCTTTCTTACCTC
TCCTGAGCTGGTCTCCACGTGAGTTCCAAAACAAACTCCGTTAGACGATTAACATTTTTTTTTYTCTCTCTCTCTCTYTTTTTTTTTTTGACAGAGTCTC
ACTCTATCGTCCAGGCTGGAGTGCGGTGGTGCGATTTCAGCTCACCCTTTCCGGGTTCGAGTGATTCTTGTGCCTCAGCCTCCCAAGTAGCTGGGACTAC
AGGTGCGCAGCACCACGCCCAGCTAATTTTTATATTTTTAGTAGAGACGGGGTTTTGCCATGTTGGCCAGGCTGGTCTCTAACCCCTGACCTCAGGTGAT
CTGCCTGCCTCGGCCTCCCAGAGTGCTGGGATTATAGGTGTGAGCCACCGTGCCTGGCCGTGATTATTGAGGCTTTAGCTGAGCGCAGTGGTGTAAGCCT
GTGGTCCCAGCTAGTTGGGAAGCCGAGGTGGTAGGGTTGCTTGAGGCCAGCCTGGGCAACATAATGAGACCCCATCGCTACCAAAAAAAAAAAAAAACAG
TTTAAAAATTAGTCAGGCATGGTAATGCATGTCTGAACTCCTAGCCCATGGGGAGGCTGAGAAAGAAGGATCACAAGAGGCCAGGAGATGGAGGCTACGA
TAAGCGATGATGGCGCCACTGCGCTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCTAAAAAAAAATTAAAAGTATCTGTTCAGATGTTTACCAATGCT
ATTCATCCGAGCAGACTTTTCTCCCAGAACCACCAGTGTGTAAGAATCCTCTTTTTTTTTTTTCTTTTCTTTTTCTTTTTTTGTTGCATGTTTCCCCTAT
GACCCTGAGTCCAAAAGAATGTTCAGGGGGACAGCCAAGGCTTCAAAGTGGTTACTGTTTCACCTGTTACAAACAAAATGTTGGCTAGGCACAGTGGCTC
ACTCGTGTAATCCCAGCACTTTGGGAGGCCGAAGTGGGAGAATCAGTTGAGGCCAAAGGTGGAGACCAGCCTGAGCAACAGAGTGAGACCCTATCTCTAC
TAAAAAAGGAAAAAAAAAAAAAAAATAGCCAGACATGTTGGTGCATGCCTTGTAGTCCCAGCTACTCCGGAGGCTGAGGCGGGAGAATTGCTGGAGCACA
GGAGTTGGAGGCTGCTGTGAGCTATGATGGCACCATTGCACTCCAGCCTGGGCAACAGAGCAAGACCCTGTCTCAAAAAGGAAGGAAGGGAAAAAAAGAA
AGAAAGAAAGGAATGGAGGGAGGGAGGGAAAGAGGAAGGAAGGAAGAGAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAG
AAAGAGAAAGAAAGAAAGGAAAGAGAGAAAGAAAGGACAGAGAAAGGAAGGGGGCAAGGGAGGGAGAGAGGAGGGAAGGAAGGAAGGAAAAAAGGAAAAG
AAAGAAAAGAAAGAGAAAGAAAATGAAAAAAAGAAGGAAGGAAAGAGAAAGAAAGCAAATGAAGGAAGGAAAGAGGGAAAAAGAGAGAAAGAAAGTAAAA
GAGGAAAGAAGGAAGGAAGGAGAGAGAGGGAGAGAGAAAAAAGAAAGAGAAAAGAAAAGGAGAAAGAGGAAAGAAACCAGAAAGAGAGAGAGAAAGAAGA
AAGAAGGGAAAGAAAAGAAAAATTCTGCCAGACTTGGAGAAGTGGCTGAGTCAGTTGTGATGTCCACATGTAGTCACGTTTGACATCCCAGGGCCACCTC
AGCAGGCCGTCTCTGGGGAGAATTTTCTCTGATTTCTTCCCCTTCCCTTGCTGGACCCCTGCACCTGCTGGGGAAGATGTAGCTCACTCCGTCTAGCAAG
TGATGGGAGCGAGTGGTCCAGGGTCAAAGCCAGGGTGCCCTTACTCGGACACATGTGGCCTCCAAGTGTCAGAGCCCAGTGGTCTGTCTAATGAAGTTCC
CTCTGTCCTCAAAGGCGTTGGTTTTGTTTCCACAGAAAAACCTCTTCAGGCACTGGTGCCGAGGACCCTAGGTATGACTCACCTGTGYGACCCCTGGTGC
CTGCTCCGCGCAGGGCCGGCGGCGTGCCAGGCAGATGCCTCGGAGAACCCAGGGGTTTCTSTGGCTTTTTGCATGCGGCGGGCAGCTGTGCTGGAGAGCA
GATGCTTCACCAATTCAGAAATCCAATGCCTTCACTCTGAAATGAAATCTGGGCATGAATGTGGGGAGAAACCTTCACTAACACACTCTTGCTAAAACAT
AGAATCATGGGAGTGCTTCCTGGGTACCCCCTCCCTGCCTTCTGTTTGCAGCCACTGTTTGCTCACTAAACATCTCTGCACCTCCCGCGTGCATTTGCAG
AGGTGGGTGGGGGTCCCCGGAGTCTGAGCTCCCCSCGGCTGGGTGCCCCGACCCAGCAGCTCCTACACCATGAATGGAGGTTGATCTGGAAACAGAATAT
TTTCATGAAAGGGCGACAGGGTATGAACAAAAGAACACCGTGTCGCTCACTGAATTCCACGGAGGAGAGTCAGGGATCTCTTCCTTCCTTCCTTCCTTCC
TTCTTTCTTTTTTTCCTTCTTTCTTTCCTTCTTTCTTTTCTTTTCTTTCTTCCCTCCCTCTCTCCCTCCGTCCGTCCCTCCCTCCCTTCCTTCTTTCCTT
CTTCTTTTTTTTTTGGATGGAATTTCACTCTTGTTGCCCAGGCTAGAGTGCAGTGGTGCGATCTCGGCTCTCCACAACCTCCACCTCCCGGGTTCAAGCA
ATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCACGCCCGGCTAATTTTTGTACTTTTAGTAGAGACAGGGTTTCTCCATGT
TGGTCAGGCTGGTCTCGATCTCCCGACCTCAGGCGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGAATTACAGGCGTGAGCCACCGCCCCTGGCCAGGG
ACGTTTCTTTTCAACTTGAGTCTTAAGAGAATGAAGCAGTATGGTCCTGGGAGAGAGAAAAAGCTTGGAGAACTTGGGAGAAAGGCAAGGAGATGTTTAC
CTGTCGTGGCTTTTGGGAGGAACAGGAGGTGAGACTAAAGAGGCAAGTTGGGACCACTTGGAGAGATTTTCTTCCTTTAGCAGAGTGTTTATTTATTTAT
TTTTTCCCAGGCACCTGTGTGGCCTGATCTGCCCTCTAGTGGCCATTTGCAATACTAACTGTAGCCAAGAAGGGTCTAAAAATGTACGGGCTTGGTCCAA
AGCAGATCTCAATCTCAGTCCTGCTATTAATAATATTCGGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCATGAGATCA
GAAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCACTACTAAAAATACAAGAAATTAGCTGGGCGTGGTGACGCAGCTACCCCAGGCGGGGCA
ATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGACCAAGATGGTGAAACCCCGTTACTACAAGAAACATAAAAATTAGCCGGGCGTGGTGACACACGCCT
GTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGASGCGGAGCTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGG
GCCACAGAGCGAGACTCCGTCTCAAAAAAAATAAAAATAAAATAATATTTGGGGCCACAGCTGGACTTGGTAGCTCACGCCTGTAATCCCAACACTTTGA
GAGGCCCAGGCGGGGCAATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGACCAAGATGGTGAAACCCCGTTACTACAAGAAATATAAAAATTAGCCGGG
CATGGTGACACACGCCTGTAGTCCCAGCTACTTGGGAGGCCGAGGCAGGAGAATCACTTGATCCCTGGAGGCGGAGGTTGCGGTGAGCCGAGATCTCGCC
ACTGCATTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGAATAAATACATAATASTAATAATAATAATAAATAATA
TTTGGGGTCAGATTATTCTAGGGCACTGTCCAACAACACTGAGAAGCATCCCTGGCTTCCACTCATCTGATGCCAGTAGTGTGTCTTCCCCCTAAAGTAG
TAATAACCAAAAATATCTTCAGACATTGCTAAATATCCCCCTGGGTGATGGGGTCAGAAGGACCCTTGGTTGAGATGACCAGGTTAGTGTGGGATTGCTG
GATAATAAAATGCTGCCTAGGCCAGGTGCTGTGGCTCATGCCTGATGCCTGTAATCCCAGCACTTTGGGAGGCCCAGGCAGGCAGATCACCTGAGGTCAA
GAGTTTGAAACCAGCCTGGGCAACATGGCGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGATGATGCACGCCTGTAATCCCAGCTACT
TGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGAAATTGGAAGTTACAGTGAGCCAAGATCACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGAC
TCTGTCTCAAAAAAAAAAATCAGTTGATGCTTTGTCTTTTGCCACTTCATGGTCTTTTTGGTTATAATCTTTTTGGTRTATAAACTCATTTGGCCTGTTT
GATGAGCCCATTTTACATCTCTGGTTGTTGAGATACCAATTTCTCAGTAGTTATTCATGAAGCACCAACGTCTTGGTTATTTTCACGAGACCCATTTGTG
CCTGTATAGAAATTATCTGAATCTTGCTAATACGGACATATCTTTGGCTTGATAAGTGGTGGAGCTGTTTTCTTTTCCATTCTACAATGTTGTTAGTCTT
TTAATACAAAAAGACCATAAAGAGAATCTTAAGAAATGCCCCCAAAGTAGGATTTGTTTTCTGACCACACATTTTCTGATGACGCTGCAATAGAAACTAA
AAGTTAATTTCAAAAGATTAAACAGAAAACTTCASTTCTTGGTGGTTAAAAGTTAAACACTTACAGGCTGGGCGCAGTGACTCACACCTGTAATCGCAGC
ACTTTGGGAGGCCCAGGCAGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACCCCTTCTCTACTAAAAATACAAAAATT
AGCCAGATGTGGTAACGTGYGCCTGTAGTCCCAGCTACTCAGGAGACTGAGGCAGAAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGA
TCACGCCACTGCCCTCCAGCCTGGGCAACAGAGCGAGACTCTGTCTAAAAAAAAAAAAAGTTAAAAAGTTAAACACTTACATATCTATCGGGCCAAAGCA
GAAATGGAAACTTCCATTGAAGTCCTTTTGGAAAATAATGAAAATGTGAATATCACATACCTTAACTTGTAGAATATTGTCAAAGCTTGGCTTTGATGTT
ACTTAGCAGACTTAAATGGATTGATAAATTAAGAAATAAACTTTAAACTATAAAACTATAAATGTGTTAGGAAGGGAAAAGCAATAACAGCTAAGCCTAT
GGTAAACATAATCAAAGGGAAAACACAAACCAGAAGGAAAGAAGATGACATAAAACTAGCGTCTGAAGAAAATTTTAATGTGTTAAGTTCTTTGGACAAT
GGTGCACTTGCTAAATTTGAAAGTTTCAGTAAGGTGGGAAAATTTAACTTGTCTAAATGGATTCAAAAAGAAGCAGAAAAATTAAGTGGTTATGAACCTT
GGAAAAAGATATGTGTCAAATAATTTCCTCAAAAAAGTCCCTTGGCCCAGAGAGTTTTATAGACACGTTCTTTCAAATTGTGAGAGAGCAACTATTTCCT
ATAATAGAAAAACTATTTTAGGGCACAGAAATCTATAAAAGTTATCCCAGTTCATTTTATGAAATGAACATAACACCCTTAAAGAACTTGACAAAGAGGT
TGAGCATGGTGGCTCATGCCTGTAATCCCAGTACTTTGGGAGGCTGAGGTGGGGGGCGGATCACAAGGTCAAGAGATTGAGAACATTCTGGTCAACATGG
TGAAACACTGTCTCTACTAACAATACAAAAATTAGCCAGACATGGTGGCACACGCCTGTAATCCCAGCTACTTGGGAGGCTGAGCCAGGAGAATCGCTTG
AACCTGGGAGGCAGAGGTTGCAGTGAACCGAGGTTGCGCCATTGCACACTCCAGCCTGGCAACAGAGCGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAA
AAGGAACTTGACAAAGATACTGCACTGAACAAAAGCCACAGGCCAAGCTAATATGTGATGTTAGATTCAAATGTCCCAAATAAAACACTGCACTGGCAAT
ATTGTTTATCTCCAAAATGCAAGGATGGTTTAAGATCAGAAGATTTGATAACATCATCTAGTTCATCAAGAGGTGCAATAAGGAAGATCATATCTGTTTC
AATAACCTTAATTTAAAATTCCTAACTTAGAGAAAGGGGAGGAAAAAAAGAGGCTTCATAAAACTCATAATAGAATATTTCTTCTACARGATAAATATTA
CCTAGGTTAAACCAACAGCCAAGCTAACATCATTCTTAAAATTATTCTTAGCAGAGTTAGGAACAAAACAAGGAAGCCCCATCTCATCATTACTAATTAA
CATTTCTCTGGGCATCCAGCCAATGTAATAAGACAAGAAACAGAAATCAGAGTTGTAAAGAATGGAATGTGGGAAATAAAGTCATTGCTATTTGCAGAGC
GTCTAGCTCAAGGGTAGGCAAACTATGGCCCATGGGCTAGCTGCCTGTTTTTGTAAATGAACTCTTATTGGAATGCAACCCCACCCACTTGTTTACACAT
CATGTAGGGCTGCTTTAAGSTACAATGACAGAGTAGTTGTGACAGAGGTCATTTGGCTTGCAAAACCCAAAATATTTATTATCTAGCCCTTTACGGGAAA
ATTTTGTTGACCCCTCTTCTAGTGTGTCATTGAAAACCCAGGAAAGCCAATTATGAAACTTTTTAAATGAGTTAGAGTTTGGGAAAGTAGGTACATAGAA
ATAAGCAAAAAGACTGTAGATACACAAGCAATAATTAGAATATAAAATAAGGGAAAAGATCCCTTTCAAAATTGCCRTAAAACCTTAGCACAACTCATAA
TAACCCCATCTAGAATGACTTATAAAGGAACACGTTTTAAARTGTTACTGATATATTAAATTGTACAAATAAACATGAAAGCCTGTTTCAAATCATTTAA
AGAAAGCTTACTGGCAAATGGAAAAGAGTAAGTTGTATAGCACGATACATAAAAGGTTAATATCCTTAATGAATAAACAACACAGGAGTAAGGAAAACAC
AAGAAATTCATGGAAAAACAGACAAAAGACAAGGAGGGGACAATTCTTTGGAGAATCACAGAGAACCAATAAAGGAAAAATGAAGTCACACTCAGTAATA
TAAAGATCCGCAAATAACGTAGTCGAGTGATAGCATATTTTTAATCTCTTGGGTTAAAGATCTAGACAAACAAACATAGAAAGAAAAAAAAAAACTATTA
AGGCTTAGGGGTTGCTGAGATTGTCCTGGAATGCAGTCTCATGGCCTGCTGGTGCAACCACAAGTCAATATAGAGTTTCTGGACAACCATTTAGCTGTAG
GTATTAAGAAGCTTAAAGAGTTTCTTATCTCCCTGAACCTAGTAATATTTTCCTCTAGGAATCTACTTTGGGGAAGTAATAAGACAATCAGACAATGATC
AAAGGAATATTTATAACAGCAAAAAAAAAAAAAAAGAGCCATGTGCGGTGGCTCATGCCTGTAATCCTGGCACTTTGGGAGGCTGAGGTGGGCAGATCAC
CTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACTCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGGACTCCTGTAAT
CCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCATGAACTCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCACGCCGTCGCACTCCAGCCTGGGCGAC
AAGAGTGAAACTCTGTCTCAAAATAAATAAATAAATAAGGAGGATGGTTAAGTGAGTGACGACTCACGTAGCAAATGGAATATTTTACAGTCATTCATCG
TTTTCCAAGTTTTCTGCAGGGAACACATGCTACTTTTGTAGATGATGGAGGAAAACCCTAATATTAAAAAGGAAAAGTCCCAAAATTCTCTCCTAAAATG
TTATGTTGAAAGGAAAATATTTAGTAAATGCTTCCAATATAATAAGTAGACAAAGTTTACTTATAAAACAGGCTTGATCCTCATCATGTTCACACATAAT
ATTTACAGGGAAAAAATTGTCCAAAGGAAGCAGTGGGCTGTGGATTTATGAGTGATTTATATTTTCTTTTCTTTTTTTTTTTTTTGAGACAGAGTCTCAC
TCTGTCGCCCAGGCTGGAGTGCAGTGACACGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCTTGCCTCAGCCTCCTGAGTAGCT
GGGATTAAAGCTGTGCACCATCAGGCTCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCCCCATGTTGGCCAGACTGGTCTTGAACTCCTAACCT
CAGGTTATCTGCCCGCCTTGGCCTCCCAAAGTACTGGGATTATAGGCATGAGCCACCTCGCCCAGCCTACATTTTCTTCTTTATCCTTTTTTCTTTGTAT
TTTAAAATTTGTTAGCTATCAACCTTTGTTGTTTAATATRTCTTCTTAAGGGATGGGGAGAAGTGTGCCAATTGCATAGATGTTTCTTGGAGTTAATCTT
CCTGACCTGAGTGATGTGATTCCTTTTCTAAGAATTGCAGCTTAATCACTCAAATTATACAGGTGCCCTAAGCAGCAATAAGAAGGAAAAGATGTATTTT
TTCCTATTTAAACTGATGATGTCGATCAGTAGCTTGGGCCAATGAGCAAATGCCATTTGGCAGGGCTTCCTGAAAAGCTAGACTCTTACGTGCTTTTGGT
GTCTTATTTTTGTCACTGACCCTGGCTGGCCTATTTATCTGCAAAATGAAAAACCTGAAATCGAGCATGTCGAGGGGAATATCGGTGTGTGTCTACCATT
GACGGTCTTAGAAGCACTCATCCCTCACGAGGTGGGCCTGCTCTAATCCTTCAGATGCTCACAAGGGTATATTGAAAGCTGCTCTGAGTGGTCATTCCTG
GCAGTCTGTATTGTAATCCATGTTCCCCATTGCTGCACCCTCCTGCGCTCTGATCTTTCTTCTTAATCAAGCCTTTTATTCTCCAGTGTCACTTTTTTAA
AAAAAATGATGGTGATGGTGTCATCATACATGTCCTACTGTCGTTCCAGGCCATCTCGGAAACGCAGGTCCCTTGGCGATGTTGGGAATGTGACGGTGGC
CGTGCCCACGGTGGCAGCTTTCCCCAACACTTCCTCGACCAGCGTGCCCACRAGTCCGGAGGAGCACAGGCCTTTTGAGAAGGTGGTGAACAAGGAGTCG
CTGGTCATCTCCGGCTTGYGACACTTCACRGGCTATCGCATCGAGCTGCAGGCTTGCAACCAGGACACCCYTGAGGAACGGTGCAGTGTGGCAGCYTACG
TCAGTGCSAGGACCATGCCTGAAGGTAGGGCTGCTGCTCCGGGGTCCGAGTGTCATGGGTGGGACATCAAGGCTGACCAAGGACAGATTCTCCACCCTCT
AAGCAGTGCATATCTGTATTTTACCTTATTGGCCTTCATTTTTGTTTGAGACGGAGCCTTGCTCTGTCGCCCAGGCTGGAGTACAGTGGTGCGACCTCAG
CTCACTCCAGCCTCTGCCACCTATGTCAAGTGATTCCCTGCTTCAGCCTCCCAAGTAGCTGGGACTACAGGTGTCTGCCACCACGCCCAGCTAATTTTTG
TATTTTTAGTAGAGATGGGGTTTCACCATATTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGTGATCCACCCACATCGGCCTCTCAAAGTGCTGGGAT
TACAGGCATGAGCACCGAACCTGGCCTTTTTTTTTTTTTTTTTTTTTTTTGAGATGAAGTCTTGCTCTGTCGCCCAGGCTGGAGTACAATGGCGCAATCT
TGGCTCACTGCAATCTCCGCCTCCCTGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACATGCGTGTGCCACCACACCTGTATTTT
CAGTAGAGATGGTTCCACCATGTTGCCCAGGCTGGTCTCCAATGCCTGAGCTCAAGTGGTCCGCCAACCTTGAGCTCCCAAAGTGCTGGGATTACAGGCA
TGAGCCACCATGCCAGGTCATATTTTAAAATTATGAGTCATAGGCAATCATTATGTAAACTTTAGAAAATACACCACTGCACTCCCGCCTGGGTGACAGA
GCAAGACTCTGTCTCAAAAAAAAAAAAAAGTTATACGCAGAAAGTAACCCATTTAATCTTCCTAACAATCTTGTGGGATGAGTTTTAGATGTCCGTTCTC
TGACGAGGAAAATGGGTTGTGGGAAAATGACGTCACCAGCCCAAGGTTGCACCATGGACAGGTGGCAGAAGTGGGATCTCATCCAAGAGTTACATCCCTG
CCTCTCACTTCCTCTCCTTACAGCCAAGGCTGATGACATTGTTGGCCCTGTGACGCATGAAATCTTTGAGAACAAYGTCGTCCACTTGATGTGGCAGGAG
CCGAAGGAGCCCAATGGTCTGATYGTGCTGTATGAAGTGAGTTATCGGCGATATGGTGATGAGGTAAGGCCCTTGACTCTTGGGCATGCCCCTGCACACT
TCAGCATGCCCCTTCAGAGTTGCACTTGGTACCTCCTTCCTCTGCTGAAATTTTGATTCCAGTGCTTCTCTCATCAGGTACTGTGCTATTAGTACTTAAA
GCCTTGATACCTGACTTCGCAGGAAGATGGGTCAGAAATGCCAATCTACCAGCTTGTTACTTTTCTTAGTTTCTCACATTGCTTTCCAGCTGTGTCCTCT
AAGTTGAATGATGTCTGCCTCCCACCACAACAGGAGACTCATTTCACTTTAGAAGGAGTTATTTGAGTCTTAAAACCTTATAAATTGCTGGGTACAGTGG
CTCACACCTGTAATCCAAGCACTTTGGGAGGCCGAGGCAGGCAGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCT
CTACAAAAATACAAAAATTAGCCAGGCGTGGTGGTGGGTGCCTGTAATCCCAGCTACTCAGGAGGCCAAGGTGGGAAGCTGAGGCAGGAGAATCACTTGA
AGCCAGGAGGTGGAGGTTGCAGTGAGCAGAGATTGCACCATTGCGCTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAACAGCAACAACAAAAAC
CTTATAAGTTACTTTCATTAGATGCTTCCATTGAGCCAGACACCATGCAAGGTGCTGGGTGAGTGCAGAGATGCACAAGACATAGAATCCAAGACAAATA
ACCCAAAAGAACCCAAACAGTTGCTAAGCTCTTCCCAGGGCTCACTGTATGTCCCAAACACATTCAGCACGTTACACAGAGTATCTCATTGATCACATTT
TATTACCTCTAGGAAATTTTGAGAGGCCCCATTATTTTTATGGACAGCTAGGCAAAAAAAAAAAAAGGGCCGTTAATTCTAATTTTATTTTTTTCGTAGA
ATATAGATCCTGAGTACTGTTAAGTGTTTGTAAAATGCATTGCTTGTAAGATGCATTCCAATTTCAGAAATGCCAAAATGCAAAAATAATATACCTCTTG
GGACTGAGGAAGTACAATACGTCCTCACATTATCCCAGTGAGCTGGGTACTGAGGCTTCCAGAGTTTAAGTTGCTGCACAAAACCTGGAAGAATAGAATC
ATGATCCAAATGCATGACTGATATTTCAATCCAGAAACTGCCAAATTTTTTTTACCATAAAGGTCTGGATAGTAAACATGTTTGACTCCGTGGCCAGATG
ATTTCTGTTACAACTACTCAATTCCACCATTCTACTGAGAAAGCTGCCATGGGTGATATGTAAATGAATGGATGTGGTTGTGTRCCAATAAAACTTTATT
TACAAAAACACGTGGTGGACCAGGTTTAGTTGGTGGGCCAGAGTTTGCCAACAACTAACAGAGATTACAGCAAAATGTCTGATTTCCTGGAACTTTGAGA
GGGAGTCCTCCTATAACCAGGTGGACCTCCCTCTACCCCTCCTGGGACCACATCTACTCTTGGCAACCAAAGATTTTGGCTTTGACAATAATTTACAATT
GAGATCTAATTCTAAATTATTGTGGCTTGTGGGCCAAATCTGGCTTGCAGAGCATTGTAAAGAATGTGCAACAGGGTTGAGGTCAGGAGTTCAAGACCAG
CCTGGCCAACATGGCGAAACTCCGTCTCTGCTAAAAATACAGAAMTTAGCTGGACGTAATGGTGGGCGCCTATAATCCCAGCTGCTCCTCGGGAGGCTGA
AGCAGGGAGAATTGCTTGAACCCGGGAGGCAAAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAACAAGACTCTGTCTCAA
AAAAAAAAAAAAAAAAAAAGAATACGCAACAGAGACTATATGTGGCCCTTCACAGCTTCACAGAAAAAGTAAACTTTCAAAAATAGAAAGTGTCCTTACT
GAACTTGTCATTCTGGGCCTATTTTGGGGCCCTGTTTGCTAAATGAATGGCTTGATTTGCCTTTTTTAACATTCATTTTTAAAATAAAATTGCTAAATGA
ATGGCTTGATTTGCCTTTTTTAATATTCATTTTTAAAATAAAATTCCTTATCATACAGAGCTCAGCTAGTTTTTAATTGGCAGAAACGTGCATATGCCTC
TAATCCATATTCATGAGTTACTTTCCTCTGCCTTTTGATGTCTCTGTCCACAATAGCCTTTGGAATTATGATTTGTAGTTGCTAGATAGAATTTAATCTC
ATGATTGGGGTATCATTTATTTTTGGGGATTTGGATTGCCTCTGGTTTTTACCATGTTAGGTAATACTAATTTTATCTGGAAACCATTTTAGCTTTTTGG
ATTGACAGCTTTAGTTATTGTTTCAGTCAGTTCTTGCTGCGTAACAAACTGCCCCCAAAGGTACTGGTTTAAAACAAAGGACATTTATTCTTTCTCTCAA
TTCTGCAGGTTCACTGGGTGATTCCTTTGTCCTGGGCCAGTTTGGCTGGGGCTGGATGGCCTCATTCACATGGCTGGGGCCTCAGCTGGGGGCACTTGGA
GCTTTGTCCTCATGTGTTCTCTCACTGCCCAGTGAGCTAGCCCAGGCAAGGAAGGACATGCCCCATATACAAACACTTCTTAGGACTCTGTTTGCATCAC
ATTTGCTAGTGTCCCTTTGGCAAAGTGAGCCCATGGCTAAGCCCAGAATGAGGAAGTACAATACATCCTCTGAGTATCTCAGTGAGCTGGATACTGAGGC
TTCCAGAGTCTCATAGACACAGAAAGTCATGATTCCCTGGGGGCCATAATTGCAAAGTTTATTAATATATTATCCTATATGTATTAATCCTGTAGGTCCT
AAGGAAATAATTCAAATTTGGGGCAGGGAACAAAGCTCTATGCATAAGATTTTCATCAGTAGCAAAATATGCAAACCACTAAGATGTCCATYCATTGGAG
AATGGACACATGGAAGACGGTGCATCCATAGAATTGGTGGATGAAGAGCCATTGAAAATGATGTTTGGGGGCCAAGCATGGTGGCTCATGCCTGTAATTC
CAGTGACTCAGGAAGCTGAGGTGGGAGGATTGCTTGAGGCCAGGAGTTTGAGCCTGGGCAACACAGCCAGACCCCATCTCTGCAAAAAAAAAATTTCAAA
ATTAGCTAGGTGTGGTGGTCTATGCCTGTAGTCCCATCTACTTGGGAGGCTGAGGAGAGAATTGCTTGAGCTCAGGAGCTCCAGGTTATAGTGGGCTGTG
ACTCACTCACTACACTGCAGACTGGGTGACAGAGCAAGAAGACTCTGTCTCCAAAAAAATAAGATAAAATGTTTGGGATGACCTTTGTTCAGTGTAATGT
AGAAGTTAAAATTACATGCTCTGGAGTTTAGTTCGTTTGTGTTGTTATCCCCCAGCAGTTAAGAATCCCCCTGTATCTGCTGGGTGCAGTGGCTCACGCC
TGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAA
TACAAAAAAATTAGCCGGGCATGGTGGCGGGCGCCTGTAGTCCCAACTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGTGGAGCTTGC
AGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAGAAAAAGAAAAAAGAAGAAAAAGGAA
TCCCCCTGTATCCAGACTAGCTTATGATAGAGGAAAAGCTTCTTAGCTCCCAGAGTTGAACAACTGAAGAGCTTCTCACATGGCTGGATCCAGGATTCCT
TTGGGTCGGTTGCATCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCACTCTGTCATCCTGTCATCCGGGCTGGAGTGCAGTGGTGCA
GTCTCAGCTCACTGCAACCTCTGCCTCCCTGTTTAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCACGACCACACCCAGCT
AATATTTGTATTTTTAATGGAGACGAGGTTTCACCATGTTGGCCTGGCTGGTCTCGAGCTCTTAACCTCAGGTAATCCACCCACCTTGGCATCCCAAAGT
GCTGGGATTACAGGCGTGAGCCACCATGCCTAGCCTGGGTCAGTTGCATCTTAACGGCTCCTGGCAGTGAGCCCAGTAGCCCCTGGTTGTCCACCGGTGG
TTGTAGTGGTTCCAAACCTCATTTCTTTGCAGTGCCAAACCCAGAGGAAGACAGAGTGCATCCCAGCATTCCCAGCTAGACTGAGGTCATGTGACATCCA
GTGCCCAATCATGTGACCAGAGGAATGCTGTATGCTGATTGGCTTGGGCATGAGGGATTTTTTTTTTTTTTTTAATTTAGAAACAGCTTTATTGAGCTGT
AACTTACATACCATAATATTCACTCCCACCACATGCTAGAGAGAATTTTGTAAATGGAGTAAAATTACACTCCAACAGTATAAATTGTGCACATAAAAAT
AAAGTTTTAGGCCAGGAGCAGTGGCTCACGCCTGTAATCCTAGTACCTTCAGAGGCCATGGTGGGTGGATCACCTGAGGTCAGGGTTCAAGACCAGCCTG
GCCAGCATGGTGAAACTTCGTATCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGTGCACGCCTGTAATCCCAACTACTCGGGAGGCTAAGACAAGA
GAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGATTCCGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACACCATCTCAATATATAT
ATATATATATATGTAAATAAATAAATAAAGTTTTACATCACTTTTTTTCTTGATCAAAGCAATGCTAGGTAATTAAGGACATTGTTGGCAATAACAGAAA
TGTGTCTATGAAAAGGTTCTTAAGAAGGTGACTGTAACCTCACATTCTCCTTTCATTTTCTCCCCCATCTCTGCTTCTCTCTAGGGTGAACACAGTTGGT
CTGGGTGGGATTGGGGTTGTGCTGTGTGGGGCAGAGGCTGTTGGGGATTCGTGATGGGAATTCCTAATAGTGACCCTTGGGTCCCAGGAACAGGAGACAC
GGGCCAGTCAAAGGCATGGGAAGAAGCTAGGAGAAGTTAGGATTCGAGTTAAATCCAGTGCCRACAGGGTGACCAGTTGTCTAGGTTTAGCCAGGACTGA
GGGCTCCCTGGGATGTGAGATTTTCAATGTCCAYACTCAGAAAGTTCTGGGCAAATGGGGACAAGTTGGACACAGAAGCAGAAAAAAAATCAAGGAGGGT
CTGCAGTGGAAACGGGCATTGTTCACTCTGCAGAATCTGTATTCTTGCTGTCAACAATGCCCCGAACTTCCTCTGGAATCTGCTCCTCACCCTTGAGTGG
CTCTCACCTCCCACTCTCAACCCCAGCCTGGTACCAGGGCAAAACACAAAACTCAGCCCCAAATTAGCCATGACAAAAATGCAAATCAAGACCACGATGC
AATACCACTTCATGCCCACGAGCGTGGCAAAAAACAAACAGACGGACAATAACAAGTGTCGGTGAGGATGAGGAGAAATCGGAACCCTCATACATTGCTG
GTGGGAACATAAAATGGCACAGCTGCTTTAGGAAAGAGTTTGGCATTTCTTTCATTCTTTCTTTTTTTTTTTTGAGATGGAGTCTATCTCTGTAGCCCAG
GCTACGGTGCATTGGTACGATCTTGGCTCACTGCAACCTCCGCTTCCTGGGTTCAAGTGATTCTCCTCCCTCAGCCTCTTGAGTATCTGGGACTACAGGA
ACCCACGACCTCGCCCGGCTAATTTTTGTCTTTTAGTAGAGACGAGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCGTGATCTGCCCG
CCTCGGCCTTCCAAAGTGCTGGGATTATAGGCGTGAACCACCGTGCCCAGCTGGTGGAAGGTATTTTTTTTTTCTTTTGCTAGTTTCATAAACAAAGCCA
CCTCTAGCTATTTAATTGCATTTTCAGTATCTCCCGTTAAAAAAATTTTTTTTTTCAGAGACAGAGTCATGGTGTGTCACCCAGGCCCGCCATCCGCCAC
CATGCCCAGATAATTTTTTTTTTTTTTTCAAACAGAGTCTTGCTTTGTTGCCCAGGCYGGAGTCTCGCTTTGTGGCACACGCCTATAATCCCAGTTACTC
AGGAGGCTGAGGCAGGAGAATCGCTTGAACTCGGGAGGCGGAGGTCGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTGACAAGAGCGAAAC
TCCGTCTCCAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAGATGCATTTCCCCTTTGTCCYGGATAGCAGCTACCTTGGGTTTCTATATTTGCTTATTTGT
CCCTCTCTACTCGGTGACTCATTCCACTTGGAAGAAACTTTGGACTGGAGTTCCCTGCCCCCACCCCTGCCACCAGACTGATTTGTTTTCTTGCTGTTAT
TGTCACACGATAAGCATGGGGTTGTTGGCTTTTTTTTTTTTTTTTTTTTTTAACATTTCTTTCTCTTCTCCACTCTCCACCCCCCTCCTAAATGTTCCAG
CCCGGTTCTCTGCATGCACTATTAGCTTGGAACTGTGTCGAAAACTTTTCAGAGTTTTGGCTCGATGCTTGCAGGTTTCATGGTCTTATTCCCAAGAGCC
TCCTGTCTCTTCTCATAAGTTCTGGAATTATCTCTAGTTACGTGCTTATCACAGGGTATGTTTCCCACTTTGCAAATCTCCATTTGGGTGGATCCCAACT
GTTTTATTTATTTATTTATTATTTTATTTTATGTGTTTATTTTTGAGGCAAAGTATACCACATTTTCTTTTTCTTTTTGAGACAGTCTTGCTCTGTTGCC
CAGGCTGGAGTGCAGTGTCACGATCTCGACTCACTACAAACTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGATTACA
GGCGCACACCACCACAACTGGCTAATTTTTGTATTTTTAGTGGAGACGGGGTTTCACCATGTTGGCAAGGATGGTCTCAATCTCTTGACCTCGTGATCTG
CCCGCCTTGGCCCCTGAAAGTGCTGGAATTACAGGCATGAGCCACCGTGCCCGGGCTTCAACTGTTTTTATAATGATTAAAAAAAAAAAAAATCGAAAGG
CAGCACCGTGGCAAAGAAAGAGCTTTTTTATTTGTCCTTAGACATTAAGCCCATTTATCCATTTGGTTCTGATGTGACAGAGGCTGGGAGTTGCAGGGAA
AGGCAGGAAATCTGGCATAGGCCCTGCAGATCCTTCATTTCCACTCTTTTCTAATTTTGCTGGATACATGGCAAWAATATTCTGCARTGGTCTTAAGGAG
AAGTTCTAGAGCCAGACAGTTCTCTTTTTTTAGTTTCTTTCTTTTTATTTATTTATTTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGACTTM
AGTGGCGCGATCTCGGCTCACTACAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGTAGAGCCAGACAGTTCTGAGT
TCAAGAGCTGGCCCTGCCACTTTGCAGCTATGAGATCTCRGACAAACCATATAATCTCTTAAACCAGGGGTCAGTCAGTAAGCTATATCCCATAGGCTAA
ATGTGGCCTGCTGCCTGRTTTCTAATGATTTGTGAGCTAGGAGTCACTTTTGCATTTTATTTATTTATGTATTTATTTTTGAGATGGAGTCTTGCTCTGT
CACCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTAATTCTCCTGTCTCACCCTCCGAGTAGCTGGGATT
ACAGGCGTGTGCCGCCATGCCCAGCTAATTTTTGTATTTTGGGTAGAGGTGGGGGTTTCACCATCTTGACCAGGCTGGTCTCGAACTCCTGACCTCAGGT
GATCCGCCCACCTCGGCCTCCCAAAGTATTGGGATTACAGGCATGAGCCACCACGCCCTGCCCACTTTTGCATTTTAAAATGATTAAAGGAAAAACAAGG
AGAGACGTGAACCAAAGGGTGCAAAGTTTCAGATGGGAGGAATACGTTCTAGGAATCCACTGCTCTGTAGATGAATGGTGACTATAGCTAATAACACATA
TTGCAAAATGGCTAGAAGAATAGATTTTAAATGTTCTCACAACAAAGAAATAAGTACATGAAGTGATGAGGATTTAATTAGCTTGTTTTAATCATTCCAC
AATTTATACTGTAACATAACTTTACACTGTACCCCATACGTGTACACAACTATTATTTTTATTTTTGTTTATTTATTTTAGAGACAGGGTCTAGCTCTGT
CACCCAGGCTGGAGTACGGTGGAGCCTTCATAGCTCACTGCACCCTTGACCTCCTGGGCTCAAGTGATTCTTCCRCCTTAGCCTCCTGAGTAGCTGGGAC
TACAGGTGCGAACCATCGTGCCCGGCTAATTGTTCTATTTTCTGTGGAAATGGGGTCTGGCTATGTTGCCCAGGTTGGTCTCTAACTCCTGGGCTCCAGC
AATCCTCCCTTCACGGCCTCCCATAGGGCTGGGATTACAGGCACGAGCCACTGTGCCTGACCTATAATACTGTTGTCAATTAAAAATAAAACAAATGATT
TTTAGAAAGATAATATTATGGAAATTAATATTAATAGAAAATAGATAATAGGGCTGGGAGCTGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCG
AGGTGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTAAAACCCTGTCTTTACTGAAAATACAAAATTAGGCAGGCGCGGTGG
TGAGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATTAAGCCATTGCGCT
CCAGCCTGGGCAACAAGAGTGAAACTCCGTCTGGAAAAAAAAAAAAAAGGAAAAGAAAAGAAACCATCAGGGTTTAATGCTCRGCTTCTGGCTTAGGAAG
TCTGGCTCTTACCGATAATGATAACCTCTGCATATATCTTTATCCATAGCACTATGGTTATAAAATTCTGCAATTCTCAAAGTCGCTTATGTGTCTTAGT
CTGTGCTTTGCTGCCTTGGCGTCATTTCTGAGCAGGATCCTGGCTGTGAGCTCCCTGCGAGGGGTGGACACTCCCAGATGTGCAAAGCTCAGCCACCCTC
CTTCTCCTCCTCTCTTCCTYCCAGGAGCTGCATCTCTGCGTCTCCCGCAAGCACTTCGCYCTGGAACGGGGCTGCAGGCTGCGTGGGCTGTCACCGGGGA
ACTACAGCGTGYGAAYCYGGGCCACCTCCCTTGCGGGCAACGGCTCTTGGACGGAACCCACCTATTTCTACGTGACAGACTATTGTAAGTCTCCATGGCA
GCCTCAGCTGACTGGGRCTGTGCTTAGCACTGAGCATGGTGGGACATTGCAGGGGATGACTTGGAGAGGCCRCAGGTGCTGGCCCTGGCCTTGACTCTCA
GGCCTATCAGCTGCTGCGGTGCTTGCCCTCTTTGATCCTGCACTTTTTTTTTTTTTGAGATGGAGGCTTGCTTTGGAGTGCACTGGCACAATCTCAGCTC
ACTGTAGCCTCCGCCTCCCGGGTTCAAGTGATTCTCCCACCTCAGCCTCACAGTAGCTGGGACTACAGGTGCCCACCACCACGCCCGGCTAATTCTTGTA
TTTTTAGTAGAGATGGCATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGAATTA
CAGGCATGAGCCACCATGCCTGGCCTGATCCTGCACTTAAAAAAAAAAAAAAAAAGTTTCAGAGGTACTTGTGCAGTTCATTATATAAGTAAATTGTGGC
TGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACAAGGTCAGGAGATCGAGACCATCCTGGCCAACATGGTGA
AACCCCATCTCTACTAAAAATACAAAAATAAATTAGCCAGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGCCTCAGGA
ACCCGGGAAGCAGAGCTTGCAGTGAACCGAGATCGTGCCACTGCACTCCAGCCTGGGCAACACAGTGAGACTCTGTCTCAAAAAATAAAATAAAATAAGT
AAATTGGGTGTTGTTGGGGGTTTGCTGTACAGATAATTTTGTCACCCATGTAATCAGCATAGTACCTGATAGGTCGTTTTTTGATCCTTTCCCTCTTCTC
ACCCACCACTCTCAAGTAGGCACCTGTGTTAGTCTGTACTTACACTGCAATAAAGAAATACCTGGCCGGGCACAGTGGCTCACACCTGTAATCCCAGCAC
TTTGGGAGGCCGAGGTGGGCGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACCCAAAAATACAAAAATTA
GCTGGGCATAGTGGTGTGCACCCGCAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGACAT
CACGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAATAAAAAAGAAAGAAAGAGTGAAAGAGAGAGAGAAGAAAAAGAAAAAGA
AAGAAAAGGAAAGAAAGAGAGAAAAAGAGAGATAAAAGAAAGAAAAAGAAAGAAGAGAAGAGAGAGAGGAAGAGGAAGAGGTCTGAGACTGGGACTCAGT
AATTTATAAAGAAAAGAGGTTTAATTGGCTCCCAGWTCTGCAGGCAGTACAGGAACCATGATGCTGGCATCTGCTCAGCTTCTGAGGAAGCCTCAAGAAA
CTTTCAATCATGGTGGAAGGTGAAGTGGGAGCAAGGTGTTAAGACGGGGAGATGGTGCTACACACTTCTTAAACAACCAGATCCCATGAGAACCCACTTA
TTATACAGTACCCAGTAGGGATGTTGCTAACCCATTAGAAACCGCCTCCATGATCCAATCACCTCCCACCCGGCCACTCCTCCAACATTGGGGATTACAT
TTCAACAAGAGCTTTGGGTGGGGACACAGATCCAAACCATAGCAGTCCCGGTGTCTACTGTTCACTTCTTTCTGTCCATGTGTGGTCAGTGTCTCACTCT
CACTTATGGGTGAGAACATGAGGTAGTTGGTTTTCTGTCCCTGTGTTAATTCAATTAGGATAATCACCTCCAGCTCCATTCATGTTGCTGCAAAGAACAT
GATCTCATTCTTTTTCATGGCTGTGTAGTATTCCATGGTGTGTATGTATAACATTTTCTTTATCTGGCAATCCTGCACTTCCTCATCTGTACATGGAGAT
AATAACAGAACCACTTCAGGAGGTGGAGGGACATTTTAATGACACAAATGTTAAGTGCCTGGCACCTGTTGCTAGTGTCTCCATCTTTGTTACTAGAGTT
TTTTTGGCTAGATGAGGTGGCTCACACCTGTAATCCCAGAACTTTGGGAGGCTGAGGCAACAGGATTGCTTGAGGACAGGCATTAGAGACCAGCCTGAGC
AACATAGCGAGACTCTGTCTCCACAAAAAAATACAAAAATTAGCCAGCTATGGTGGTGCATGCTTGTAATCCCAGGTACTTGGGAGGCTGAGACAGGGGG
ATCACTTGGGCCCAGGAATTTGAGGTTGCGGTGAACTGTGATTGTGCCACTRTACTCCAGCCTGGGTGACAGAGTAAGACCCTGTCTCTAAAAAATAAAA
ATTAAAAGAAGTTTACATCTGTCAAAAGTCATGCTGGGATCGGGACTAGCTATGTAATTTGCAAGACCCAGTGAACAATGAAAATGCAGAACTCCTTGCT
TTAAAATTATTAAGAATTTGGCCGGGCACGTTGGCTCACGCCTGTCATCCCAGTACTTTCGGAGGCTGAGGCGGGAGGATCACCTGAGGTCAGGAGTTTG
AGGCCAGCCTGGCCAGCAAGGTGAAACCCTGTCTCTATTAAAAATACAAAAATTAGCCGGGTGTGGTGGTGCATGCCTGTAGTCCCAGCTACTTGGGAGG
CTGAGGCAGGAGAATCACTTGAACCCGAAAGGAGGAGGTTCCAGTGAGCCGAGATCGTGCCACTGAACTCTAGCCTGGGTGTCAGAGCAAGACTCTGTCA
CAAAAATAAGTAAATAAATAAAAATTAAAATAAAATGAATAAGCATTTCAGAGGGGCAACAGCAGAGCATTAAACTGACAGAAAAGGGTCCTGCATCCAC
TGCCTGAGATGTGGGAGGGATGGAAATGAGCAGTGATTTGGGGCAGGGGTGGGGAAGAGTGTGCTTCCAGAATACTGACCTCTGAGCCCACTGCCTGGTC
CCACTGCACCTACGGGACTGTTTCGGGACTGCTGGAAAATCAGGATGTGGAAGAGCAGCAGAGAGGTTYATGGACAAGGGAGGGAAGGAAMAGGGTGGCC
CACCCATTCCAGGAGTGGATGTGATTTTTGATGTGAACTTTGTTGGAAACACATTGATATGAAACATATATTTTCTTATTCTATTTCAGTAGACGTCCCG
TCAAATATTGCAAAAATTATCATCGGCCCCCTCATCTTTGTCTTTCTCTTCAGTGTTGTGATTGGAAGTATTTATCTATTCCTGAGAAAGAGGTGAGTTC
AGTGAGTTCAGTGGTGTGCTGGGAACAGTTGRTTCTCTGGGGGAAAACATGCCTTGATATAGGTATAGGCATATTTAAGTTTATTATGAATTTTGCTGAT
ATAGGATGTGTAACATGCAATTTACAGATAATTGTCATAATATGATATACACAACTCTTTATTGTAAATTCCCTCTAGACAGTTGATTCTCACAGAATGT
TTTTATTGATTTTTTTTTTTGCCCAAACCTTTATATCCGAAGCTAACCTATTATTGCAATTGATAAACAAGTAAAGCTCCAATGTGAATGTTGATTAATT
TTTCAAAATTTACATTAAGGAGTAGGACTTGACTGGGCACAGTGGCTCACACCTGTAATGCTAGCACTTTGGGAGGCCAAGGCGGGTGAATCACCTGAGG
TCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCTCGTCTCTACTAAAAATACTAAAAAATTAACCGGGCATGGTGGTGGGCGCCTGTAATCCCA
GCTACTCAGGAGGCTGAGGCAGGAGAATTACTGAACCCTGGTGGCGGAGGTTGCAGTGAGCTGAAATCGCACCATTGCATTCTAGCCTGGGCGACAGAGG
GAGACTCCGTCTCGGGAAAAAAAAAAAAAGTAGGACAAAACTGAAATAAGACATATATGTTCATCAGTGATATGAGTGACGTCTTTGCTGAGTCAGATGG
TAATTTTTAAATATCAGAAGAACATTTTGTGCCACATGCAACATCACAGTTGCAGACATGACACGCTTTTAAGTTTAATCTACATGATTAAACATTTTTC
TCAGCTGGGCACGGTGGCTCACACCTGTAATCCCAACACTTTGGGAGGCCGAGGCGGGCGGATCATGAGGTCAGGAGTTCGAGACCAGCCTGACCAACAT
GGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCAAGGTGTGGTGATGTGCGCCTGTAATCCCAGCTTCTCAGGAGGCTGAGGCAGGAGAATCGCT
TGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCACCATTGCACTCCAGCCTGGGCAACAGAGTGAGACTTTGTCTCAAAAACAAAACAAAACAA
AAAAATATTTTTCTCATCACTTTCTCAAGCCTGGACAAACAACAGAACAACAAATCCAGTCCTGAGTTATAGCATTTGCCAGTTTCTGTAATGTAAATAT
TCCCAGGATGTCTAAATTCAAGCTGTAGACATAATATTACTGAGTGCAGTGTTAGAAAGAGATACATAATAGCTCCCCATTGAATCCACCCTATGGATAC
AATATGGTGTATAAATGATATAATGTAAATAACCTCAACTGCATTGATCATATTTAAATGTAGTATGAGAGTTAGGAAGTGATGAGTTTTGAACATGTAT
TGTCTTTGCTTTTAGGATAATTTATTTAATTGTAAGCCTCTATAATTTATATTTTTTGTTCTATTTGGAAGGCATTGTAMAATTTAATCTTTAATGATGC
TTGTATTTAACAACTGGCTCACTAGTTTCCTGAAAATTTAATAATTGTTTCTCATCAGTCRGGATGAGCTCGCTCTAGAACAGTACTGGGTGAGTGGCTT
TTAAGTGTTACATGGATGGCCATAAATTATTTAAAAAGCCAGCCAGAGCCCTGCATGGTCGTGCATATCTGTAGTCCCAGCCGCTCGGGAGGATGAGGCA
GGAGGATCACTTGAGACCAAGAGTTCAAGACCAGCCTGGGCAACATAGTGAGACCCTGTCTCTATGAAATTTTACAAATTAGCCAGGTGTGGTGGTGAGC
ACCTGTATTCCCAGCTATTCAGAAAGCTGAAGTGGGAGGATCTCTGGAGCCCAGAAGGTTAAGACTGCAGTGAGCTATGATTATACCACTGCCCTCCAGC
CACAACAGAGCAAGACTGCAACTCTGAAATGTAAAAACAAAAACAAAAACAAAACAAAAAAAAAACCACCCAGGGAGGGATGAGTGCTCCCATGTTGATG
CACTTACATACCTGTCTGATGGGCTTCCATTCAAAACATAAAGGTCCCCCATCCCTGCCCTAGACTGCATCTAGGATTATGGGGATTCTGCTGGTAAGGG
CTGCCATTTGCCTTGGGGAGTCTTGTATGAAACACCTTTCTGCAGAGTCCCATGAGAATCTCAAGCTAACGTGCCTCGTTTTCCTCCTCCAGGCAGCCAG
ATGGGCCGCTGGGACCGCTTTACGCTTCTTCAAACCCTGAGTATCTCAGTGCCAGTGATGGTGAGTACCATCCCTTCCCTGTGGGTGGCCAGAACCCTAC
TCATCAGCTTCCTTTGCCTTCACCATTGAGTGAGAGTGAAGGATGGGTTCCCCAGGGAGGCCAAGAAAAGCCCTCTTATTCATTTGAGCTTGCCAAACTG
CCCTTGCTGCAGAAACCTCATTACTGTGTGCATCTGGACACATGGTATTTGGCACCTGCCTGAATGGGCTCATCTAGCCGGTCTGGGACCCTTGGGCAGG
GTCGACCACTTGGGCTGGGCTCAGCTGGGCRGTTCTTCTGGTCTTGCCTGGCTTCACCCATGTAGCTACATTTTGCTGGTGTGTCAGCTAGCACTCGGTA
GTCTTAGATGATTTCACTCACATGTCTGGTGGTCAGYAGGCTGGGTGGTCCCAAGGTGGGGGCCCTAAGCTGGGGGAGGCTGAGCCTCACTCTGTCCATC
TAGCCTCTTAGGCTCCAGCAGGCTGGCTCAGGCTTCATTCCATGGTCCTCTGTTGGTTCCTAGTAGCAAGCTCCAGGGCAAGCTCCAGGGCAACAGTCCA
TTCCAAATCTCTGCTTGGACAATTCTTGTTGATTCCCATTGACCAAAATAACTCACAAGGCCATGCCCAGGGCCAAGGGGTGGTGAGATAGACTCCACCT
TTTCATGGGAAGAGCTCCAAGTATCCTGGCTTTTTTTTTYCCCAACCTATTACARCCTGTCTTCCATCCCCTTGGCACTTTGCAGAAACAGTAGTCTCAG
GTGGGAAGTAGCATCATTCCATAGCAAGGGTCTGAAATCAGACAAGAAGGATGGGGATGCAGGTTTGCCTCAGGACATATTGGCCAGGATCTTGGACCAG
TTGTGGCTCCTTCCTTGAGTCTCTGCCATGCCCTCTCCATGGGTGCAGATGCCTGTCCTGTTCTCGGCCATATGCCCAGTGCCCGGCATGGGTCCTGGAT
CACAGAACTCATTTCATGAGTGTTTTCGAGGGGGTTTGGGTGAGGGCTTGGGTGGAAGGTGGCTGCAGACCCCCAAGGGATCCTCCAAGGATGCTGTGTA
GATAAGTAAGAAGTAGTGTTTCCATGCTCTGTGTAYRTGCCGGACGAGTGGGAGGTGTCTCRAGAGAAGWTCACCCTCCTTYGAGAGCTGGGGCAGGGCT
CCTTCGKCATGGTGTATGAGGGCAATGCCAGGGACATCATCAAGGGTGAGGCAGAGACCCGCGTGGYGGTGAAGACGGTCAACGAGTCAGCCAGTCTCCG
AGAGCGGATTGAGTTCCTCAATGAGGCCTCGGTCATGAAGGGCTTCACCTGCCATCAYGTGGTGAGTCCAGTGGGGGTGGGACATGGGCTGGCTTTCCTG
ACCCTTCCCTTTCTCTGCCTCCTCCTCCTGCACAGAGCGACAGAGGACACAGGGTGTAACCTCCTACCCACCCCTCACTCCACTAAGCTTCCCATCCTAG
AGGTGTGAGGAGGGATCATTCCCTTCTCAAATCCCATCCTCTCCCACTTCGCCTGGAACCAGACTCTATCACTGTCTCATCACTTTCTGGAATGTTTCAT
TGCTTTCCAGAATCTTTCATCACTTTCTGGAATCTTCCATCATTTTCTGGAATCTTCCACCACTTTCCRGAATCTTCCATCATTTTCCACAATCTTCCAT
TGCTTTTTAGACTCTTCCATTTCTTGCTTTTTCCTGGCACCTTTGTAACCCAGGACCACATAGAGGTCCACCTGATACCACCTGCCCTCGTTCCTACTCT
CCTTTGAAGGCAGCACCAACTCTTCCTGCCTTTCTGCTCCTTTGTTCCTCTTTGAGTCCTATGTGCTTTCATCCTTGCCACACATATTTATGGGGCATTT
AAAGCCCTGCTCTTGTCCCTGTGATACAGTGGATACCTGCCCCTGTAGAGCTTCCAAAACAGCAGGCGGAGACAGACTCCAAAACCTTTATTTTTATTTT
ATTTCATATATATATATATATATATATATATATATATATATATATATATATATATATATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
TTTTTTCCTGAAACGGAGTCTCGCTTTGTTGTGCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAAGCTCCACCTCCTGGATTCACACTATTCT
CCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCTACCACGCCTGGCTGATTGTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTC
ACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTGCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACT
GCAGGTGCCTGCCACCACGCCCAGCTAATGCTTTTTATACTTTTTTTTATTAGAGACGGGGTTTCACCATGCTGGCCAGGCTGGTCTTGAACTCCTGACC
TCGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGYGTGAGCCACCACGCCCASTGCCTGGCTAATTTTTTTGTATTTTCAGTAGAGACG
GGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCAC
GCCCAGCCTATTTTTATATATTTTTAAGACAGAGTCTCTCTCTGTCGCCCAGAGTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTGCCTCCC
AGGTTCAAGCAATTCTCCTGCCGCGGCCTCCTGAGTAGCTGGGATAACAGGAGCCCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGG
TTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGAATTCAGGTGATCCACCGGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCACC
CCCAGCTGACTCCAAACCCTTTATACATTAGGAGCAAATGCTATGGAAACATGAAGAAAGGGAGGAAAGGAGGGTTGGACAGGGGTGTATTTGAGCAAAG
ACTTAGAGGACATGAGGAGCTGGGCCCTGTGGATGTGGCAGGGAACAGAGAGCCAGGCAGAGGGAATGATTAAAATACAAAGGCCTGGCTGGGTGCAGTG
GCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACCAGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGAGAAATCCTGTCTCTACTA
AAAATACAAAAATTAGCCGGGTGTGGAGGCGGGCACCTGTAACCCCAGCTACTCGGGAGACTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAAAGGTT
GCAGTGAGCCGAGATCACGCCACTGCACTCTAGCCTGGGTAACAGCAAGATTCCGTCTCGAAAATTWAAAAAAAAAAAATACAAAGGCCTATCTGTCTGC
TGTCCGGGCAGGTATGTCTGCTCTCCTAGACCAGGGCTGAGCACGCTGCATCCAGGCCACAGGGTGCTGTGTGTGACATAGACACCAGGGAGGGAGGAGA
ACCCTGGTGAGTCGAATCACGGACCCTCCTCCAAGAACCCTGGTTGCTTGCTCTGCAGGTGCGCCTCCTGGGAGTGGTGTCCAAGGGCCAGCCCACGCTG
GTGGTGATGGAGCTGATGGCTCACGGAGACCTGAAGAGCTACCTCCGTTCTCTGYGGCCAGAGGCTGAGGTAAGCTGCTTCGGGGGACCCAGCGGGGTAC
TYRGTGGAGCACCCGCTCCTGGCCTCCTCGGATCCCAGTGCTGCTGAAACACCAACCCCGTGTTTCTGTTTTAGAATAATCCTGGCCGCCCTCCCCCTAC
CCTTCAAGAGATGATTCAGATGGCGGCAGAGAYTGCTGACGGGATGGCCTACCTGAACGCCAAGAAGTTTGTGCATYRGGACCTGRCAGMGAGAAACTGC
ATGGTCGCCCATGATTTTACTGTCAAAATTGGAGGTTCGTCTGGCTTTCTGCTTTGAAAACATAACGACCCAGGCCAGGTTTGATTTCAGAAGGAAGTTG
TCTATAATGAGCCGTTAAGTCTTTTCTGATAATATAAAGGGGCAAGATACTTCTTTTTTTTTTGTGGGGTTTTTTTTGTTTTGTTTTGTCTTTTTGTTTT
TGAGACGGAGTCTTACTCTGTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACATCCACCTCCCAGGTTCAAGTGATTCACCTG
CCTCAGCCTTCCAAGTAGCTGGGACTACAGGTGTGCRCCACCATGCCTGGCTAATTTTTGTATTTTTAGTGGAGATGGGGTTTCATCCATGTTGGCCAGG
ATAGTCTTGATCTCCTGACCTCGTGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCGGCTTTTTTTTTTTTTCTT
TTTTCTGACATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGACAGGATCTCGGCTCACTGAACCTCCACCTCTTGGGTTCAAGCGATTCTCCTG
CCTCAGCCTCCTGAGTAGCTAGGATTACAGGCGTGCGCCACCACACCCAGCTACTTTTTGTATTTTTAGTAGAGACGGAGTTTCACTGTGTTGGCCAAGA
TGGTCTCAAACTCCTGACCTCATATGATCCACCTGTGTTGGCCTCCCAAAGCACTGGGATTACAGGCATGAGCCACTGTGCCTGGCTGGGCAAGATTTTG
GATGGGGACCCCCCACCAGCTGTCATTTAATTGCATGTATTGATAAACTCACTTACCCATTCACTTCTTTAAAAGATATGTTTGTAGGACCGGGGGTCCC
GCCTGTAATCTCAGTGCTTTGGAAGTCCAATGTGTAAAGACTGCTTGAGTCCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACTCCATCTCCTTG
AAAAGATTTTTTAAAAAGTGGGGTGTGGTGGTGCACACCTGTGGTCCCAGCTACTCAGGAGKCTGGGGTGGGAGGATTGCTTGAGCCCAGGAGGTGGAGG
CTGCAGTGAGCTGTGACAGCATCACTGCACTCCAGCCTGGGTGACAGTGAGACGCTATTTCAAAAAACAAATAAAAAAGGAATATAGAGGGGACCAGAGC
AGCGTGAGATGTGAGGATGAGGAGAGAGGCAGAAACCAGACCCAGAAGGACCTTGCGTGTCACAGCAAGTCATCTCGACATTATCTTACATTAGCAAGGG
GCAGCAGGAAGTGATATGATTCTATTTATGACTCAAAAAGACATCTCCTGGCCAGGTGCGGTGGCTCACCCCTGTAATCCCAGCACTTTGGGAGGCTGAG
GTGGGTAGATTACCTGAGATCAGGAGTTCGAGACCAGCCTGGTCAACACGGTGAAACCCTGTCTCTRCTCAAAATACAAAACATTAGCTAGACATGGTGG
CAGACAGCTGTAATCCTAGCTACTCAGGAGGCTGAGGCAAGAGWATTGCTTGAATCAGGGAGGTAGAGGTTGCAGTGAGCCAAGATTGCACCRCTGCACT
CCAGCCTGGAGGACAGAGTGAGGCTCCATATCAAAGAAAAAAAAAAAGAAAAATGTAGCTTCTTTGTGATTTGGTACCTTCTTTTCCCTCCCTTTAAACA
GTAGCCCATCTTCCCCCTTCACTTCCCCATGCGTACCCTCAGAATCCATTCTTACTGGATTTGGCCACCACCCAGGTGAGCGCAGACGTGGGCCAGGTGA
ACCCCTCTTAGGGCTCTGTGAGAGGTGGGGCAGTCAAGGTGGCAGATGCTAGGACCAAGGCTGAAGGTTAAGAGCGTGTGAACCTTTTGTGTTGTCAGAC
TTTGGAATRACCAGAGACATCTATGAAACGGATTACTACCRGAAAGGGGGCAAGGGTCTGCTCCCTGTAYRGTGGATGGCACYGRASTCCCTGAAGGATG
GGGTCTTCACCACTTCTTCTGACATGTKGTGAGTTGTGTGTGGATGGGTGGATGGACGCTGGGCTTGAATTCCAGGTGCTAGTGAGAGCCAAGAGCGGGG
GAAGGAAGCCTGCCATCCTCCTGGACGCCCCATCAAGGAAAGGAAGGCAGCGTCCTGTCTTAGGATCTTCCCACGGCTACTCTTATGTCCTGACTAATCC
TGTAGGCATTGTGAACCCCGAAAATCTGAGACAGGTCTCAGTTAATTTAGGAAGTTTATTTTGCCAAGGTTGAGGACGYGTGCCCGTGGCACAGCCTCAG
GTGGTCCTGAGGACAGGTGCCCAAGGTGGTCAGAGCACAGTTTGGTTTTATACATTTTAGGGAGACATGAGACATCAGTCAACATATATAAGATGAACAT
TGGTTCGGTCTGGAAAGACGAGACAACTCGAAGTGGGGAGGGAGCTTCCAGGTTGTAGGTAGATAAGAGACAAATGGTTGCATTCTTTTGAGTTTCTGAT
GCGCCTCTCCAAAGGAGCCAATCAGATATGCAGGTATCTCAGTGAGCAGAGTGGGGACTCTGAATAGAATGGGAAGCAGGTTTGTCCAAGCAGTTCCTAG
CTGGACTTTTTCCTTGAGTTTAGTGATTTGGGAGCCCCAAATTGATTTTCCTTTCACAGCATTTATGAACTGCAGCATGAATTGTTTTATTAAGTGGCTA
ACCATGTTCTAGAAACCAAGAGATGTGTTTGTGTGTGTGTTTGTGTGTGTATGTGTGTGCATATGTGTGTTTGTGTGTGTTTGCATGTGTGTGCGTGTGT
GTGTTTGGGTGTGTGTGTTTGTGTGTGTATATGTGTTTGTGTGTTTGCATATTTGTGTGTGCATGTGTGCGCATGCGTGTTTGTGTGTATTTGCATGTGT
GTGCACGTGTATGTGCGTGTGTGTTTGCATGTGTGTGTTTGCATGTATGTGTTGGCATGTGTGTTTGCGTGTGTGTGTGCGTTTGCGTGTGTGTGTTTGC
GCGCGCGCGYGTGTGTGTGTGTCTAAATGGCTTCTTTGTTACTACTATCAACTGTCATCGGCAGGTCCTTTGGCGTGGTCCTTTSGGAAATCACCAGCTT
GGCAGAACAGCCTTACCAAGGCCTGTCTAATGAACAGGTGTTGAAATTTGTCATGGATGGAGGGTATCTGGATCAACCCGACAACTGTCCAGAGAGAGTG
TAAGTGTAGAAAGGGTTTAAGGTGTGTGAGGTGTTCGTTGAAAGGGTATTGCCCTTTACACGTGTGCTTGGTTTTGCCTTTCCTATGTCTACACGCTCAC
CGTGTTTGCATGCTGTATGTTACAGGTGTGTTTGTGTTTGCATAGCTTGTCTTTACATGCATGCTTGCATTTGCATATTGCATTGTGGTACACACACTTG
AGTTCCCATATGTGCTACATGTACGCTTACGTTTGCATATTATATATTTACATAGGTATTTATGTTTGCATATTATATGTTTCTGTGTGCATCAGCATAT
CATGGCACATGTACACCTCATTTACATATTATAAGCACACATGTTTACATATTATGTCTTTACCTGCCTGCTTGTGTTCACAAATCATATGATTTTCTTG
CATATTGTATCTTTGGAAGGTTGCACAAAACACCTATAGCGGTAGTTATCTTGGGAGAAGGGAACTGGAGACCTGGGGTTGGGGGAGAGAGACCTGTTTG
CCTGTTAATTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAATCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGAKCTCGGCTGACTTCAAGCTC
CGCCTCCCGGGTTCACACCATTCTCTTGCCTCAGCCTCCCGAGTAGCTRGGACTACAGGCACCCRCCACCGCGCCTGGCTAATTTTTTTTTTTTTTTGTA
TTTTTAGTAGAAATGGGGTTTCACCGTGGTCTCGATCTCCTGACCTCGTGATCCACCCACCTTGGCTTCCCAAAGTGCTGGGATTACAGCCGCCTGTTAA
TTCTTTATACACTTAAAATTTTGTCAGGTAGCTGGGCATGGGTGGCTCACGCCTGTAATCCCAAGCAATTTGGGAGACCGAGGTGAACGATCACCTAAGG
TCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGCCTCTATTAAAAATATAAAAATTACCCAGGCGCGGTCGTGGGCGCCTGTAATCCCAGC
TACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAATCGGGGAGGCAGAGGTTGCAGTGAGCAGAGACTGCACCATTGCACTGCAGCATGGGTGACAGAGTG
AGATTCTGTCTCAAAAACAAACACAGACACACAAAAATTTTGTCAGGCATACATATTATATATTCCCCCCTCCAAATATATATGCATATGTACATATATA
TATATTTAGATGAAGTCTCGCTGTGTCACCCAGGCTGGTAGAGCGCAGTGGCACAATCACAGCTCACTGCAACCTTGAACTCCTGGACTCAGCCTCCTGG
CTCAACCTCCCAAAGTGCTGGGATTACTCTTGAGCCAGTTTTGAAATGAGGAATCCCTTTTCAAAACCATCTTTCAGGCTGGACAGGATGGCTCATGCCT
GGAACCTCAGCACTTTGGGAGGTTGAGGCAGGAGGATGGCTTGAGCCCAGGAGTTCAAGGCTGCAATGAGCTATGATTGCGCCACTGCACTCCATCCTGG
GTGACAAAGTGAGAAACCCTGTCTCAAAAAAAAAAAAAAGCGGCCAGGCATGGTGGCTAACACCTGTAATCCCAGCACCTTGGGAGGCCAAGGTGGGTGG
ATCATTTGAGCCTAGGAGTTTGAGGCCAGCCTGGGCAACATAGCAAAACCCTGTCTCTGCAAAAAATACAAAAATTAGCTAGGCATGGTGGTGCACACCT
GTGGTCCCAGCTACTTGGGAGGCCAAGGTGAGAGGATTGCTCGAGCCTAGGAGGCAGAGGCTGCAGTGAGCTATGATCATGCCACTGCACTCCAGCCTGG
GTGACAGAATGAGACGCTGTGTCCAAAATAAGAAGAAGAAAAGCAAAAAGAAAACACCATCTCTCAGCACCTCTAGCAATGCTATTTCTGCCTTGACAAT
TGTCCACACACACAGCCAGCATCTGATGTGAGCACATGTGGTCCGTGGGTGTYGGCTGCAGGGACAAGAGTRGGGGTTTGGGAGGATGCGTGGCAGGGCC
CCCAGACTCACCCAGGACGTGTCCTTCTGCCCCGCAGCACTGACCTCATGCGCATGTGCTGGCAATTCAACCCCAAGATGAGGCCAACCTTCCTGGAGAT
TGTCAACCTGCTCAAGGACGACCTGCACCCCAGCTTTCCAGAGGTGTCGTTCTTCCACAGCGAGGAGAACAAGGCTCCCGAGAGTGAGGAGCTGGAGATG
GAGTTTGAGGACATGGAGAATGTGCCCCTGGACCGTTCCTCGCACTGTCAGAGGGAGGAGGCGGGGGGCCGGGATGGAGGGTCCTCGCTGGGTTTCAAGC
GGAGCTACGAGGAACACATCCCTTRCACACACATGAACGGAGGCAAGAAAAACGGGCGGATTCTGACCTTGCCTCRGTCCAATCCTTCCTAACAGTGCCT
ACCGTGGYGGGGGCGGGCAGGGGTTCCCATTTTCGCTTTCCTCTGGTTTGAAAGCCTCTGGAAAACTCAGGATTCTCACGACTCTACCATGTCCARTGGA
GTTCAGAGATCGTTCCTATACATTTCTGTTCATCTTAAGGTGGACTCGTTTGGTTACCAATTTAACTAGTCCTGCAGAGGATTTAACTGTGAACCTGGAG
GGCAAGGGGTTTCCAYAGTTGCTGCTCCTTTGGGGCAACGACGGTTTCAAACCAGGATTTTGTGTTTTTTCGTTCCCCCCACCCGCCCCCAGCAGATGGA
AAGAAAGCACCTGTTTTTACAAATTCTTTTTTTTTTTTTTTTTTTTTGCTGGTGTCTGAGCTTCAGTATAAAAGACAAAACTTCCTGTTTGTGGAACAAA
AKTTCGAAAGAAAAAACAAAACAAAAACACCCAGCCCTGTTCCAGGAGAATTTCAAGTTTTACAGGTTGAGCTTCAAGATGGTTTTTTTGGTTTTTTTTT
TTTCTCTCATCCAGGCTGAAGGATTTTTTTTTTCTTTACAAAATGAGTTCCTCAAATTGACCAATAGCTGCTGCTTTCATATTTTGGATAAGGGTCTGTG
GTCCCGGCGTGTGCTCACGTGTGTATGCACGTGTGTGTGTCCATTAGACACGGCTGATGTGTGTGCAAAGTATCCATGCGGAGTTGATGCTTTGGGAATT
GGCTCATGAAGGTTCTTCTCAAGGGTGCGAGCTCATCCCCCTCWCTCCTTCCTTCTTATTGACTGGGAGACTGTGSTCTCGACAGATTCTTCTTGTGTCA
GAAGTCTAGCCTCAGGTTTCTACCCTCCCTTCACATTGGTGGCCAAGGGAGGAGCATTTCATTTGGAGTGATTATGAATCTTTTCAAGACCAAACCAAGC
TAGGACATTAAAAAAAAAAAAAAGAAAAAGAAAGAAAAAACAAAATGGAAAAAGGAAAAAAAAAAAGAACTGAGATGACAGAGTTTTGAGAATATATTTG
TACCATATTTAATTTTTAAAGTCTCTGGTATTAGCCTCATAAGTTATTGACTATTCCCCGGGGTTGGCGGGGAGTGGGGACATGAGTTGGTCTGCCTGTT
GTGGGGCCGGGAAGGGGAGGGAGTCAGGCACAAGTGGCCTCTTTGTTTGGTCTTAAAGGCATCCATTTCTGGGAATKAAGCCATGTTCGCTGCTAACACT
TTTGGATGTTGTGAGGCCACGTGGAGTGTGTGAGAGACTAGGTTTTATGGATGGTCTGGTTCAGGTACCAGGTCTGCTGGAAGGTTCCTGTTCGGATAAG
CTGGTAGCTACCTAGCTCTGAGCCTGCCTTCAAGAACACCTGTGTTCATCCTCTGATTCTCTGTGTGTACCTCTTGTGGCGTTTCCTCTCCCGGGTGTGA
ACATCCTAACCGTTATTGTGCAAACCCAAGAACGTCAGATCCCAAAGCACAACAACCTGGATGGACTTTGGGAACATCTAAGCAATRTAAGAGAGAGGTG
CACTGAGAGTACGTCTTGGTCCCCTCCACCCTGAGAGCATCTGACGGTCCTCAGTACTGAACTCCCGGAAGCTGCTCTGAGCCCGGTGACCTCATCTGGG
CCAGGTGTGGTGCCTGAGCTGAATGCTCAGGTGCTTACAGTGTTGCAATCCCTAAGAGAGTAGAGTCTGGAGGAGAAACCGTGAAAAAGACCTTACACAC
CACCAAGAACTTCCGAATGGGCGTGAATCCACCGTTTCTTCTCTTTGCAAAAAGAACCACCACAGCTGCTCAAAGAACACAGTGAACTCATCACTTTGGT
TCATCAAAAAATCATCGCCCATGCGTTATTCCTGAGTGCATTTTCTTACAACTTTTTGACTGCTTCCTTTTCTTCTTCTCTTAAGAGTTGTGGGCTTAAG
AATGGGATAGAGTCATAATGGCAACCTCCAAGCCCTCTCAATTCTTGATTAAGAACACAGGTAGACATGAATCCCAATTGTCTATTGCTATCTTATTTAT
ATGATTCGGGAAAATACAGCATGTAAAAATATTGCTGAGGAGCCTCAGTGATTGGGTACAASAAGCAAGAGTACAGAAATTATTTTTGCCAAATTTATTT
TGTAAATATGAGGGTCTGTACCTAAATTTAAAAAAAAAAACACGTAGAACTAGGTATTTTGTTCTCTTCTTAGTAAATTTGTAGTGGTTGTATACTACAC
TAGCTGCAATTTTCACATTTTTCTAATTCAGAAAGGTTTTTCTTATATTAGGGGAAAAAGTATTTATTTTAATATATAAAATCACTCTGAAAATCACTCT
CATAAAAAATGGAGCGCATGTAAATTTTTATCAAAGAAAAATAAACAGGTGAATGGGGGATAGTGATTTTCTTTTTTCAGCACAGTCTACCTCAGTGTAT
TGTTAAGATGTGATTCAATCATGGACATCTTTGAGATTTCAGAATTCTACCTGGAACCGGTCTGAATCAGGGAACGTGTGTATCAGCTGATTCGAATGCC
AGGGACCAGTAAGAATTTTGAGGGAGGGAGTTGGGATGGAGAAGGTATGGCCTTTATGCGAGCATAGATCCTTTTCTTCCTGGCTGGTAATATTCTTCTC
TGAATTTAATCTTCCTTTAAAAAAAAATCCTCCATCTATTGTCACTATGTTCCCCAAACATAAACTAAGTTCCAGGCTGTCATGATGTATCTGATATATG
GGGTAACCCAGCAAGGTGTACCTTCCTTTGGTGAGAGATGGCTGCCGGGGCAAAGACGGGCTTTGATTCAGAGCAAGCATTCCCACCTGTTCCATGGAAT
CCCCCTGAAGTGAGCACAAAGGTGCCCTGGGCTCCCTGATGGTTTATGCCCACTCCTTTCAGGCTGGTGATGCACCTTACACACAAACACCTAATGCAAT
GTCTTTTTAAATTCTCCAAGTGGGATGGGAGCATGTGAGGGAAATTCCAATCCAAAACCCATTAATGTGCTGAACGCTTTTTTTTTTTTTTTTTTTTTTT
TTGCAACAACACCTTGGACCTCTGTGTTGGGGTTTGACTGACCTCAAGCTGATATTATTGGACCTTGTGCAGCTTTGATAACCCATGTGAGAGTCTAGGC
AGGACCAGTGGGGCCCAAATCTTGCTGCTCTTGTACTTTTAGGCACTGCCCTTGCAGACTCACCTTTCTCCACCTGCCCTGGAGAAAGGTAGGGTGTGCT
GGGCCTGCCCCTTGCAAATGGGATTCACCAGTTTCATTTATTTGACTCTACTGCCACAGTGAAAAGAGCAAACAGCTATTGGGTTGCAAACCTCCTTTGA
CATTAGGAAATGTTGACTTTGTAACAATAAAACTTTGGTCCTAGAAAGACACGGTTGTCCTGGGAGTTTGTAGTGTTAAGTTGCAACAACAACAACAAAA
AGCAACAAAACCAGCTTAGGATAACACTTTTTGTTGCTTGTTCTTAAAGATGTCTCACTATGATTAAAACCCTTTTCATTAATGTAGTGAAAGCCACACA
GGAGTTCCTTCTTCCAGGAGGAGAATACCAAGCACATCACTTTCTCTCTGCATCAGTGATGTCAAATACGCATCAGAAAATGTTCAGGTTTTAGGAGCTG
TCCTAGGTGCTGTTTCATCATTGGAAGCAGTGAGAAAGAGAAGCACTGCTGCTTGTCTGGATATAGGCTGAGGATGATTGAGAGAAGCTGTGGGAACTGA
CACAAGGGTCTGCATAGGTCATCCTGTGACCCTGGGGACTATGTTACCAACTGACAGACAGATCTTTCACTGTATCCTAGCAGGGCAGGTAGTCCACCAA
GAAATGTGCTTATTGGATTGGGAGGTGTTTATTTGTAGTCTGCTGTAACACGTGTGAAAGAGCAGGAGCGTCATCAGCATATGACTTGCGCTGGTCATCC
GGTAAATGGATGTGCTGTAGTCCCAGTGCTAATCATTTCTCTCCTTCACAGTGGGTGGAAGTTTAGGGTTAAATGTCCTTTGAATGTCACCTGGTGAGTC
CTTGACACCTTAGGCTCTTCAGAAACAATGGTTTTGTTGAGGATGGGGAACAGGGAATGCCGATTTTATATACATGGTACACAGAGAGGGGTGTCACTTC
AGAAAATCTTCCAGCATGTTCTTCAGAATATTAATTTATATGCGAGGTGAGGTTGGGAATGAAAAGAACAGGTCAGCACTTTTTTTTTTCCTAGAACATA
CAAAAGAACATGGTGGACTTTCAGGGAGTGCAATGGAAGGTGAATATTTCCTTAAGGGTCCCCGAGAAATGGGAGTGAGGGGAGGGGACACAATGGCTTT
TTGAGCTTACTTTTACCTTCTGATACTAGTCAAGGTCCAGAACCAGCCACCAGCCAAATTTCTATCTGGGTGCGGGCCACTGAAAATCCTTGTTAAAAAC
CAGATCACAAATCTGGGGCTCTTGGTCCCATTGGAGAAGGAAGGAAGAGCCTCAAAATAAGTGTGCACCCATGCACATATTCAGGAACAGCTTGTTTAGT
CTTTACACTTTGCCTGAAAGTTGCTTCTCCTCGTCCCTTTGTGTGCCTGGGTGGCCTCGGCCCTGTGCGTTGGCAACGCAGGATCAAATGTGCTGCAGCT
TTTGCAGAAAACAACTCAGAAACACAAAACCCCCCAACAGCTCAATTATTATTTTTTCAATGTTTTCCTACAAGAGCCAAGTAGCACCATGTACAGAAGA
CGCCTTTTTTTTTGGAATATTGAAATCGTTCTGCATGTAAAATATGGGATAATGACCTGTTTATATTAAAATTCTGATTAAATTATCTGAGAATACGCTT
GTTTTTGTGTGGTGTCCCGGTAAGGACCTGTCGTGTGGTCGGGGGATGTGGCTATGAGTTGGGCTGTGTTAAGGAAAACCTCTTGGAATATGTAGGTGCC
TTTTTTTAGAGGAGAAAAACACCTAGATTCTTCCACACATGAAAAGGGAGGTTAAATAGTTGCTACCAGCAGAGTTGATGACTCGTAGGGACATACTTGT
ATGGCCAAACTGGTGGTTTAAATATTGCACTATTTCCATACCATTTGGTAAGTAAGCGCTTCCCCAAGGGCTCCCAGACCTCCCCATGGTCCAACCACTA
AAGGGTTCACTCCGAGAATACCAATGAACCTTCAAGATCTTGCTCTATTCTGACATGCGGGAAACTCATATGTTAAGTATTTTCAATGTCATCCTGGGAG
TGGAGACCTGTCCCAGGTTGGGTGGACAGGTGAGTGACCATGGGTTAGACCATGGGATTGAAAGCCTTTTGAATAGTCTTTCTTGAGTGGCTTAAAACAG
CAACTGTTTATTTATTTTCTTTTTTTGTTTGTTKGTTTTTGTTTTTGTTAGTTTGTTTTTTGAAATGGAGTCTCACTCTGTCACCCAGGCTGGAGGACAG
TGGTGCAATCTCAGCTCACTGCAACGCTGTCTCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTACCACCATTC
CCAGCTAATTTTGTATTTTTAGTTTCATCATGTTGGCCAGACTCGTCTCAAACTCCTGACCTCAGGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGAG
ATTACAGGTGTGAGCCACCACACCCAGCCTTATTATTATCATTATGATGATTATTTTTGTATTTTTAGTAGAGACGGGTTTTCGCCATGTTGCCCAGGCT
GGTCTCGAACTACTGTTCTCAAGCGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGGCATGAGCCACGGTGCCTGGCCTGTTTCTTACAGTT
CTATGTGTTGGTTGGGTGGTTCTTCCGGGAACAGCCTCWCTCCTGTGCTGAGGCCTCTGCTGGGAGAGCCAGGATTGCTTGTCTTCTAGGAGGTTCACTC
AGGCTTGTTCATATGGTGGTGGTTGCAGGGATACCCAGTCGGAAGGAACAAAAAGCCCCCAAATGTAAATATTTTCCAAACTTCTGCTCGTGTGGTATTT
GCTACTGTCCCATTGCCCAAAGTAAGTCCCATGGCCAAACCCAGAGTCAGCTTTGGAGAGGACTGTCCAAGGATGCAGATAAAAGGTGATGTGAACCAAC
TAGAGTCCAATCCTGCAATAATCTTCCACTCCTTTACCCTCCTATCATTATTATTATATTTTTTTAATAATATAAAAGTGGGCCGGGCGCGGTGGCTCAT
GCCTGTAATCCTAGCACTTTAGGAGGCTGAGGCGGGCCGATCACAAGGTCAGGAGATCGAGACCTTGGCCAGGAGATCACCTGGCCAACATGGTGAAACC
CCGTCTCTACTAAAAACACAAAAATTAGCTGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGG
GAGGCAGAGGTTGCAGTGATCTGAGATCATGCCACTGTACTCCAGCCTGGGCAACAGAGTGAGACTCTGTCTCAAAAATAAAAAAAAAAATACTACTACT
ACTACTAATAATAATAATATAAAGGTAAAGTTCTCACTTTACCATCCTATTATTATTATTATTCCTTGTTTTTGAGATGGGAGAAATAGCAGTATGGATG
ATGACAGGGATAATCCAGTCATCAGAGGGAAAAGAGATGAAGGCAGGGGATCACTAGCTCTATGTCCTTAAGCAAACAAGTGACGATGAGATCTACGGCA
CAGGTGGAGGGGTTGACCTTAGCTAAAGTGCAAAGTATGTGGGCTGTGGAATCTCTCTCCCTCCCAAAGGCAATGGAACTCAATCCCCAACCCCTCCAGG
CGGTCTCTGGATTTCTCCAGACCACCTACCTCCAGCTGGCAGTGTTCTGAGCTGGGCCATCGAAAGTTGAGGTTATTGAATGTGTGTGTTTCCCCATTAT
CCTGGGAGCTTTCCAGAGGCTGCATGAAAGTTGCGTCTGAATTCTTCACATTCCTCCAAACTCTGGCCCAGAGTTCCGCAGTATGGGGTTGTTAAATTAG
CCTGAAGACACACAAAGCAACTAACTGGCTAAGTGGCTGGTTTTACAAAGGGCGGTGGTCCTAACCCTGGGCTCTGGAATCCCAATGGTCATTCCAGCTC
TCTCCCCTCCTCCTTTCTGCTCCCAGTTCTCTGCCATCCAGCTAGCAGGCTGATCATGGCCCACAGAGGCCCTACCCTCCTATTATTGACGATAGACCTT
ACCTTATATGACCATGGCAAAGATTAAATGAGGTAACATTGATCTCTCATGCTCCCTTCAGGATGGACATTCCCATATCCCCAAGTCCCTCCAAGTTCCC
TGTTCTCCAAGAAATTGATGCTACTGCTTATCGGCTGTGGTGGCAGCGTAAATTCTGCTTCCCTGGGTTTGTGAAATTCAATGTGAGTCTCTTGGAAAAT
GGAAAATGTTTTTCTTCCAAGGAAAGCTCATCAAGGAAGGCATCAGTCTCAGGGAGGGTGGACGGCCGTGTGGTCTCTGTGCAGAGGAGCCACTTGGATT
CCTTGAAAGCCCTGGCCAAGTGATCACAGCACCTTTTAGCAGGGTAGCTGGCGCCCTGGCCTGGAGTGGGGAGTGTCTGCACTGGGTTCCTGGAGCTTCC
TCCTGGGCCTTGGGTGCTTATCAGAATCCCACTTATTAAAAACAAAGGTGTGTCTGTCTAAGCCACACCCAGGCCTCCTCCATGAGCATCTATGGGGCAG
GGCCTGGGAACTTGCATTTTAACAACTTCCCCTTCCCCCACTGGACTCAGCTGACTCAGGACAAGAACACGGGAACTTTGCTTCCATTCTGCCTTTGCCT
GTGTAAGGGATCCAAATATGCCACTCCAAAGTATGCCACTTTTGGCCGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGC
GGATCACCTGCGGTCAGGAGTTCGAGACCAGCCAGGCCAACATGGTGAAACCCTGTCTCTAATAAAAATACAAATATTAGCTGGGTGTGGTGGTGCACAC
CTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACTCAGGAGGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGA
GCCGAGATCACGCCACTGCACTCAAGCCTGGATGACAGAGCGAGACTCTGTCTAAAAAAAAAAAAAACACTTCACAACAACAAAGTATGCCACTTTGGCA
CATTGGTTATTTTGAGTTAAAGGTGCTTGAAAAATAGCAAACAAGAAGGACACTCTGACTTTCCTTTTTCTTCCTGAAAGCAGGAGATGAAACTACCATA
CT


SNP Information

Context             (SEQ ID NO:36189):
TGATGGACCCATTTCCTTTCTCCCTGACAGACCCCTCTGTGCCCCTGGATCCAATCTCAGTGTCTAACTCATCATCCCAGATTATTCTGAAGTGGAAACC
M
CCCTCCGACCCCAATGGCAACATCACCCACTACCTGGTTTTCTGGGAGAGGCAGGCGGAAGACAGTGAGCTGTTCGAGCTGGATTATTGCCTCAAAGGTG
Celera SNP ID:            hCV25473660
SNP Position Genomic:     111149
SNP Source:               Applera
Population(Allele,Count): african american(A,25|C,11)   caucasian(A,32|C,2)   total(A,57|C,13)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36190):
GAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCACGCCATTGCACGTTAGCCCCCAGGCAAGTGTGACAAGAGTGAAACTGCATCTCC
A
AAAAAAAAAAAAAAAAGGTCTCACCATCTACTGTCGTTCCAAAGTACCTGCTGGGATGTAATAGCACAGTGCTGCTTCCTGAGATGAGAAGGACCAGATA
Celera SNP ID:            hCV11519101
SNP Position Genomic:     92686
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36191):
TCCTCCAAGGGTACAGGCTGGAATTTTTGCTAAATTTGCTGTTTGGGCTGCATTGTGAGTAGAGTTTGGCATGCATAAAATGAACATTCCCTCTTAGTCC
Y
GGTTGTCCATCCTAATTTCTGGGATGGACTCCATCTCAGTATATTCCAGTATATTCCAACCTTCTCCTTGAGGTCCTAGAAACTCTATTAGCAAAACAGC
Celera SNP ID:            hCV29052321
SNP Position Genomic:     102646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36192):
AAGGGGCGCCAGGAGAGAAACGACATTGCCCTGAAGACCAATGGGGACCAGGCATCCTGTAAGTCACTGGTCCCCAACCTTTTTGGCATGAGGGACCGGT
K
TAGTGGAAGATGGTTTTTCCATGGACTGGTGGTGGGTGGGGATGGTTTCAGCATGATTCAAGTGCATTACATTTACTATGCACTTTATTCCTATTATGAT
Celera SNP ID:            hCV29052322
SNP Position Genomic:     103770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36193):
TGAGCTTGTGTTCCTGCAACTAGATGGTCCCAGCTGGGGGTGATGGGAGACAGTGACAGATCATCAGGCATTAGATTTTCATAAGGAGTGTGCAGTCTAG
R
TACCTCATGTACACAGTTCACAATAGGGTTCACACCCCTGTGAGAATCTAATGCCGCCGCTAATCTGACAGGAGGCAGAACTCAGGTGGTCATGCAAGCG
Celera SNP ID:            hCV29052323
SNP Position Genomic:     104034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36194):
AGTCTTGGCCAAACCCAGAAAGAGATCAAGGCCACGGTTGTCTGCAGGGAAGTTCTGCATTGCAAAGGGACGGCCAGGCATCTACCAAGCTCAGTCATAG
K
TGGGGGCTGTCCAGGGAGAGTCAGGTTTTGGCTGGAATGCTACAGCAGGTCCTGCAGTTTCTGCAGCTGCAGGCTGCCTGCTGACTGCACTTCCCTGACA
Celera SNP ID:            hCV29052324
SNP Position Genomic:     105180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36195):
TTAAGAAGTATTTTCCAGTCTCTCATAGGCTTTTAAAGCTGTGTAAATACTTGGGTTTCCGAGTGGATACTCACCATTCACAGGAAGGTACTTGATACAC
R
ATTTAGAGCTTATTGTCTATCCTCGAGGCATTAAGGGGAGGAGAGAAAATGGAATTTCCTTTGCTCAGCAGTCACCAGGCACCAAGCAGGGTGGCAGCAG
Celera SNP ID:            hCV29052325
SNP Position Genomic:     116442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36196):
CGAGTGGATACTCACCATTCACAGGAAGGTACTTGATACACGATTTAGAGCTTATTGTCTATCCTCGAGGCATTAAGGGGAGGAGAGAAAATGGAATTTC
Y
TTTGCTCAGCAGTCACCAGGCACCAAGCAGGGTGGCAGCAGGGGAGGTGGCTCTCCAGGGACTGTTGCAGATTTTGCTTGTAAAGAGCTGTGTCCGTCCA
Celera SNP ID:            hCV29052326
SNP Position Genomic:     116501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36197):
GTTTGGGAAAGTAGGTACATAGAAATAAGCAAAAAGACTGTAGATACACAAGCAATAATTAGAATATAAAATAAGGGAAAAGATCCCTTTCAAAATTGCC
R
TAAAACCTTAGCACAACTCATAATAACCCCATCTAGAATGACTTATAAAGGAACACGTTTTAAAGTGTTACTGATATATTAAATTGTACAAATAAACATG
Celera SNP ID:            hCV29052327
SNP Position Genomic:     128877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36198):
ATAAAATAAGGGAAAAGATCCCTTTCAAAATTGCCGTAAAACCTTAGCACAACTCATAATAACCCCATCTAGAATGACTTATAAAGGAACACGTTTTAAA
R
TGTTACTGATATATTAAATTGTACAAATAAACATGAAAGCCTGTTTCAAATCATTTAAAGAAAGCTTACTGGCAAATGGAAAAGAGTAAGTTGTATAGCA
Celera SNP ID:            hCV29052328
SNP Position Genomic:     128942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36199):
GACTCCGTGGCCAGATGATTTCTGTTACAACTACTCAATTCCACCATTCTACTGAGAAAGCTGCCATGGGTGATATGTAAATGAATGGATGTGGTTGTGT
R
CCAATAAAACTTTATTTACAAAAACACGTGGTGGACCAGGTTTAGTTGGTGGGCCAGAGTTTGCCAACAACTAACAGAGATTACAGCAAAATGTCTGATT
Celera SNP ID:            hCV29052329
SNP Position Genomic:     133884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36200):
GGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACCCCTTCTCTACTAAAAATACAAAAATTAGCCAGATGTGGTAACGTG
Y
GCCTGTAGTCCCAGCTACTCAGGAGACTGAGGCAGAAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCACGCCACTGCCCTCCAGC
Celera SNP ID:            hCV2931090
SNP Position Genomic:     126920
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36201):
GCAGAAATTGGTTTCTGCAAAACCTATTCCTCAGTCCATCACAGACTCACCACCCCTCTTCAAGACTGAGCTGAGCCTCCTTCCTGGCCATGAAAACTTC
Y
TCAACTTCCTCTGTTATCCACATTCAACAAATATGTGTTGAGTATGTGCCAAGCAAGTGGAGAGGATTAGGCACGTAGCACTGAACAAGATCAACTCCGA
Celera SNP ID:            hCV25599950
SNP Position Genomic:     103340
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,3)   caucasian(C,40)   total(C,63|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:36202):
CATATCTGTTTCAATAACCTTAATTTAAAATTCCTAACTTAGAGAAAGGGGAGGAAAAAAAGAGGCTTCATAAAACTCATAATAGAATATTTCTTCTACA
R
GATAAATATTACCTAGGTTAAACCAACAGCCAAGCTAACATCATTCTTAAAATTATTCTTAGCAGAGTTAGGAACAAAACAAGGAAGCCCCATCTCATCA
Celera SNP ID:            hCV2931091
SNP Position Genomic:     128289
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36203):
CTCAAAGGTGAGTGCAGGCAGCTGTGCTAGGATCGGTGGGGTTTGCACACGTGTGTCTGATGCACTTTGCTTCACCTCTAGGGAAGCAGCTATCTCTTCC
Y
GTGTCTCAGTGTCGGAAGGCACACACACACACACTCCATTCTATCTCATATGAAAACACACATACATGTTTTTATCTATTTATTTATTTATTTTATTTTT
Celera SNP ID:            hCV25599951
SNP Position Genomic:     111340
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,22)   total(C,2|T,56)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36204):
AAACTATGGCCCATGGGCTAGCTGCCTGTTTTTGTAAATGAACTCTTATTGGAATGCAACCCCACCCACTTGTTTACACATCATGTAGGGCTGCTTTAAG
S
TACAATGACAGAGTAGTTGTGACAGAGGTCATTTGGCTTGCAAAACCCAAAATATTTATTATCTAGCCCTTTACGGGAAAATTTTGTTGACCCCTCTTCT
Celera SNP ID:            hCV2931092
SNP Position Genomic:     128620
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36205):
CAGTGTCTAACTCATCATCCCAGATTATTCTGAAGTGGAAACCACCCTCCGACCCCAATGGCAACATCACCCACTACCTGGTTTTCTGGGAGAGGCAGGC
R
GAAGACAGTGAGCTGTTCGAGCTGGATTATTGCCTCAAAGGTGAGTGCAGGCAGCTGTGCTAGGATCGGTGGGGTTTGCACACGTGTGTCTGATGCACTT
Celera SNP ID:            hCV25599952
SNP Position Genomic:     111206
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,38)   total(A,2|G,72)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36206):
TTATAGGCATGAGCCACCTCGCCCAGCCTACATTTTCTTCTTTATCCTTTTTTCTTTGTATTTTAAAATTTGTTAGCTATCAACCTTTGTTGTTTAATAT
R
TCTTCTTAAGGGATGGGGAGAAGTGTGCCAATTGCATAGATGTTTCTTGGAGTTAATCTTCCTGACCTGAGTGATGTGATTCCTTTTCTAAGAATTGCAG
Celera SNP ID:            hCV2931094
SNP Position Genomic:     130540
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36207):
AAGATCACCCTCCTTCGAGAGCTGGGGCAGGGCTCCTTCGGCATGGTGTATGAGGGCAATGCCAGGGACATCATCAAGGGTGAGGCAGAGACCCGCGTGG
Y
GGTGAAGACGGTCAACGAGTCAGCCAGTCTCCGAGAGCGGATTGAGTTCCTCAATGAGGCCTCGGTCATGAAGGGCTTCACCTGCCATCACGTGGTGAGT
Celera SNP ID:            hCV27530823
SNP Position Genomic:     148867
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36208):
TTGCAGAGCATTGTAAAGAATGTGCAACAGGGTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACTCCGTCTCTGCTAAAAATACAGAA
M
TTAGCTGGACGTAATGGTGGGCGCCTATAATCCCAGCTGCTCCTCGGGAGGCTGAAGCAGGGAGAATTGCTTGAACCCGGGAGGCAAAGGTTGCAGTGAG
Celera SNP ID:            hCV2931096
SNP Position Genomic:     134245
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36209):
AAGTTAGGATTCGAGTTAAATCCAGTGCCAACAGGGTGACCAGTTGTCTAGGTTTAGCCAGGACTGAGGGCTCCCTGGGATGTGAGATTTTCAATGTCCA
Y
ACTCAGAAAGTTCTGGGCAAATGGGGACAAGTTGGACACAGAAGCAGAAAAAAAATCAAGGAGGGTCTGCAGTGGAAACGGGCATTGTTCACTCTGCAGA
Celera SNP ID:            hCV2931099
SNP Position Genomic:     137834
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36210):
CATCTCGGAAACGCAGGTCCCTTGGCGATGTTGGGAATGTGACGGTGGCCGTGCCCACGGTGGCAGCTTTCCCCAACACTTCCTCGACCAGCGTGCCCAC
R
AGTCCGGAGGAGCACAGGCCTTTTGAGAAGGTGGTGAACAAGGAGTCGCTGGTCATCTCCGGCTTGCGACACTTCACGGGCTATCGCATCGAGCTGCAGG
Celera SNP ID:            hCV25599887
SNP Position Genomic:     131252
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36211):
CGGCATTACCAGGTGTTGAATTCGTGAGAATACAAGGAGAAGGCGTGTAGCCCGTGACCCAGTCCTGCCCCAGACAAACCGATATTCCCTCCAAAGCTCT
R
TTTGGCAGAAGAAGTGTTTTCGTTCCCTCTTGCCTGTGGTATCTCCCCTGATAAGCGTTGTGGATTGTTCCAGACCGTGTTGACGGGGACAGCTTCCTTC
Celera SNP ID:            hCV27493752
SNP Position Genomic:     62449
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,105|A,1382)   total(G,105|A,1382)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36212):
GACGACCCCACCAAGTGCGTGGCCTGCCGCAACTTCTACCTGGACGGCAGGTGTGTGGAGACCTGCCCGCCCCCGTACTACCACTTCCAGGACTGGCGCT
R
TGTGAACTTCAGCTTCTGCCAGGACCTGCACCACAAATGCAAGAACTCGCGGAGGCAGGGCTGCCACCAGTACGTCATTCACAACAACAAGTGCATCCCT
Celera SNP ID:            hCV27536137
SNP Position Genomic:     89812
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36213):
GTGCCCTCATGATGTCTTTAACTTGTGTGTCCCCCGCCATCCTCCCACCAGCTTTCTTTGCACACTGTTTCTCATGATGGACCCATTTCCTTTCTCCCTG
R
CAGACCCCTCTGTGCCCCTGGATCCAATCTCAGTGTCTAACTCATCATCCCAGATTATTCTGAAGTGGAAACCACCCTCCGACCCCAATGGCAACATCAC
Celera SNP ID:            hCV25473671
SNP Position Genomic:     111075
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,11)   caucasian(A,34|G,2)   total(A,59|G,13)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36214):
CAAAATGCTGGGATGGGTGCCCTCATGATGTCTTTAACTTGTGTGTCCCCCGCCATCCTCCCACCAGCTTTCTTTGCACACTGTTTCTCATGATGGACCC
R
TTTCCTTTCTCCCTGACAGACCCCTCTGTGCCCCTGGATCCAATCTCAGTGTCTAACTCATCATCCCAGATTATTCTGAAGTGGAAACCACCCTCCGACC
Celera SNP ID:            hCV25473672
SNP Position Genomic:     111059
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,17)   caucasian(A,31|G,7)   total(A,48|G,24)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36215):
GTTTCAGGAACCAAGGGGCGCCAGGAGAGAAACGACATTGCCCTGAAGACCAATGGGGACCAGGCATCCTGTAAGTCACTGGTCCCCAACCTTTTTGGCA
Y
GAGGGACCGGTGTAGTGGAAGATGGTTTTTCCATGGACTGGTGGTGGGTGGGGATGGTTTCAGCATGATTCAAGTGCATTACATTTACTATGCACTTTAT
Celera SNP ID:            hCV11519112
SNP Position Genomic:     103758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36216):
TTTACAGGGCCCGGGATGAAAACACAGGGCCCAGGTTTCCTGTCCATGAAGCCGGCTCTGCCCCTGATCCTTCTGATGCATCCACCGTGCGTCTGCTCAC
Y
TGTCTTGCTTTCTGTTCATTTTCTCTTGTAGTGTGTCCCGGCATGGATATCCGGAACAACCTCACTAGGTTGCATGAGCTGGAGAATTGCTCTGTCATCG
Celera SNP ID:            hCV27475974
SNP Position Genomic:     6393
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,348|C,1143)   total(C,1143|T,348) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:36217):
CCTAATAGTGACCCTTGGGTCCCAGGAACAGGAGACACGGGCCAGTCAAAGGCATGGGAAGAAGCTAGGAGAAGTTAGGATTCGAGTTAAATCCAGTGCC
R
ACAGGGTGACCAGTTGTCTAGGTTTAGCCAGGACTGAGGGCTCCCTGGGATGTGAGATTTTCAATGTCCACACTCAGAAAGTTCTGGGCAAATGGGGACA
Celera SNP ID:            hCV29052330
SNP Position Genomic:     137763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36218):
AAGAGCGTGTGAACCTTTTGTGTTGTCAGACTTTGGAATGACCAGAGACATCTATGAAACGGATTACTACCGGAAAGGGGGCAAGGGTCTGCTCCCTGTA
Y
GGTGGATGGCACCGGAGTCCCTGAAGGATGGGGTCTTCACCACTTCTTCTGACATGTGGTGAGTTGTGTGTGGATGGGTGGATGGACGCTGGGCTTGAAT
Celera SNP ID:            hCV27529421
SNP Position Genomic:     153570
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36219):
CTGCATGACATATGCTCTGTTAGTCCCAGTTTTTCGAATGGGCATAACAAGACCGAACCTACCTAGAGTTGGCACAAGTTGTAAAAATAGGATCCGTGGC
K
GGGCACAGTGGCTCACACTTGTAATTCCAGCACTTTAGGAGGCCAAGGCGGGAGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCG
Celera SNP ID:            hCV29052331
SNP Position Genomic:     53685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36220):
CTTAACCTGTTAGTAGCCGTGGGGCTCTGGGCAAGTCCACTGGAGTTCTCCGGGATCTGTTTCCTCTTTTGTAAAATGGGAACCAAAAGGTATCACAGGC
Y
GGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTCCAAGACCAGCCTGGCCAACATGGTG
Celera SNP ID:            hCV11970525
SNP Position Genomic:     41005
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36221):
TCAGCCCTCCCGCGTAGCTGAGATTGCAGGCGTGCACCACCACGCCTGGCTAATTTTTTGTATCTTTACTAGAGATGGGGTTTCACCATGTTGGTCAGGC
Y
GGTCTCGAACTCCTGACTTCGTGACTCACCAGCCTCAGCCTCCCAAAGGGCTGGGATGACAGGCGTGAGCCACTGTGCCCAGCCAGTTCTGACTTTTTAA
Celera SNP ID:            hCV29052332
SNP Position Genomic:     60485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36222):
TCAGCAAATCTTGGACAGATGAATGGGCATTCGATTCAACATGTGTCTGCTAGGTGGGAGCTGAGCGGGAATCGCAGGGCTTGGGTCCCGGGGATGATGG
R
GAATGGCAGTGTGACTGTGGGGAAGCCAGGGGAATGGGGTGCTGGAGCCCCCAAAGCTATAAATCAGGGCCTGATGAACAGACAGACAGATGGACCAACT
Celera SNP ID:            hCV29052333
SNP Position Genomic:     61914
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36223):
GCTTGGGTCCCGGGGATGATGGGGAATGGCAGTGTGACTGTGGGGAAGCCAGGGGAATGGGGTGCTGGAGCCCCCAAAGCTATAAATCAGGGCCTGATGA
R
CAGACAGACAGATGGACCAACTTAACCATTTCAGCCCCATCGGCTTTGATGATTTCCCTCTGGCTCTGGCAAGAGTCTCGCTCACCAAGTGGTTCTCACC
Celera SNP ID:            hCV29052334
SNP Position Genomic:     61992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36224):
GGGAAGCCAGGGGAATGGGGTGCTGGAGCCCCCAAAGCTATAAATCAGGGCCTGATGAACAGACAGACAGATGGACCAACTTAACCATTTCAGCCCCATC
S
GCTTTGATGATTTCCCTCTGGCTCTGGCAAGAGTCTCGCTCACCAAGTGGTTCTCACCCTAGGGTGGGTCTGGATATTTCTGGGGACATCTGTGGTTGTC
Celera SNP ID:            hCV29052335
SNP Position Genomic:     62034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36225):
TTTTTCTAAAGCAAAGTTTCTATTTGGGTATCTGCTGTTTAATTTTTCAGGGATTTTTTTTTTCCGGTTGCTAAGGAAAGTACATTAAATTTTATCTTTG
Y
ATCCTGTAGAACTCTTTGTGAATAATACACGGCCAGAGGGAAGATAGGCTGAGGAAACAGATAGGAAGGAAGTTCAAGGGGGGGATTTCTATGTGAGAAC
Celera SNP ID:            hCV29052337
SNP Position Genomic:     65892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36226):
ACCATGCCCGGCTAATTTTTTTTGTATATTTAGTAGAAATGAGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAGTTCCTGACCTCAAGTGCTCTGCCCGC
S
TCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCTCTACCCATCTTTCTTACATGATGATGTTCAGCAGCCAGCCTGATAGGGGA
Celera SNP ID:            hCV29052338
SNP Position Genomic:     69438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36227):
ATAGGTGCCAGGGCTCAGTAGCATAAATCCAGGTAGAACTGGGAAGTTCCAGGTATCTGGGCTGTTTGCTCTGGTGGACAAAGAGCAGCTGCAAGGTGGG
K
CTTGATTAGCCAGTGAAGTCTGAGGATCCAGAGGGAAACTTATTCCTTTCTTTTGTTGAAATCAACATGAGCAGGAAATGGATCTTTCCCCCAATCAGAG
Celera SNP ID:            hCV29052339
SNP Position Genomic:     69679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36228):
TCAGATCCTGAAGGAGCTGGAGGAGTCCTCGTTTAGGAAGACGTTTGAGGATTACCTGCACAACGTGGTTTTCGTCCCCAGGTCAGGACTTGGCGCTGGG
M
TCTCTTAGTGGGTGCCAATTGGCTTGGTGTTGGTGGAAGGTCATTACTTAGGGACCGAGAGGTAGTGGGACCCAGAGACGGCAGAAGGGTGGGTGGAGTC
Celera SNP ID:            hCV25599962
SNP Position Genomic:     121565
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,30)   caucasian(C,40)   total(A,4|C,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:36229):
CTGCCTTACAGAGGAAGGGAACTTTTGTACTGGGTTTTGAAGGGTGAATAGGAGTTCAATGAAGAAGCAGCACATTCTGTGCTAAATTTGGCTTCCTGAT
M
CTCCTAGAATTGGCCAGAAGCCAATATCTGGAGGCCAAAATTGGGTCACTAGGGTGACCAACTCATCACAGGGCCCTGGATTATCTCTGCAAAAGCCCAC
Celera SNP ID:            hCV8351964
SNP Position Genomic:     50685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36230):
GAGTGGAATGTTATTTTGTTGCTTCTGGCCAAGTGTCGATATTCATTTTAGGGCAGGTCTTCATGGAAAGTCTGCTGGACTATAGGTCTGGATACTTGCC
R
GACCCTGTGTCATCACTAAAGTTAGGGTGCGTTTCAGAACCACCCTGTACCACAGTGAAGAGGGACAAATGGCCTTAGGGAGCAGGACCCATGGGGGCCC
Celera SNP ID:            hCV8351965
SNP Position Genomic:     46116
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36231):
CCGGGCCACCTCCCTTGCGGGCAACGGCTCTTGGACGGAACCCACCTATTTCTACGTGACAGACTATTGTAAGTCTCCATGGCAGCCTCAGCTGACTGGG
R
CTGTGCTTAGCACTGAGCATGGTGGGACATTGCAGGGGATGACTTGGAGAGGCCGCAGGTGCTGGCCCTGGCCTTGACTCTCAGGCCTATCAGCTGCTGC
Celera SNP ID:            hCV25599898
SNP Position Genomic:     142117
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(G,38)   total(A,4|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:36232):
CGTCATTTCTGAGCAGGATCCTGGCTGTGAGCTCCCTGCGAGGGGTGGACACTCCCAGATGTGCAAAGCTCAGCCACCCTCCTTCTCCTCCTCTCTTCCT
Y
CCAGGAGCTGCATCTCTGCGTCTCCCGCAAGCACTTCGCTCTGGAACGGGGCTGCAGGCTGCGTGGGCTGTCACCGGGGAACTACAGCGTGCGAATCCGG
Celera SNP ID:            hCV25599899
SNP Position Genomic:     141920
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36233):
TAGACATGAATCCCAATTGTCTATTGCTATCTTATTTATATGATTCGGGAAAATACAGCATGTAAAAATATTGCTGAGGAGCCTCAGTGATTGGGTACAA
S
AAGCAAGAGTACAGAAATTATTTTTGCCAAATTTATTTTGTAAATATGAGGGTCTGTACCTAAATTTAAAAAAAAAAACACGTAGAACTAGGTATTTTGT
Celera SNP ID:            hCV8356111
SNP Position Genomic:     159262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:36234):
TAGTAGAGATGGGATTTCACCATGTTGGCCAGGATGGTCTCAGTCTCTTGACCTGCAATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCAT
R
AGCCACCATGCCAGCCTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCTAGGCTGGAGTGCAATGGCCCTATCTCAGCTCACT
Celera SNP ID:            hCV11519123
SNP Position Genomic:     109402
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36235):
CAATTCAGACCTTCCACGGAGATCGATTCCAAACTCTCATCCCGTTCCCACTTCCTCGTTCCCATGGAGGCTGCGGTTCTCTCTCTCTGTGCCGCTTACA
R
ATTGTCATACCTATTTCCAAAAATGACACAGAAAACTTCAACGTGTGGCTAAATTTGAACAGAGAAAAATAAGCAAAGAATTCAAGGCGCGAGGCGTTTT
Celera SNP ID:            hCV29052340
SNP Position Genomic:     70877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36236):
GGTGCACTGGCCCGGCGAGTTCGGAGATGCGGACCCTCCCCCCCTGCAATGTGAGGAATTTTGCTGTGTGACCCTAGTGAGCCGCTGCACCTTTCTGGAC
Y
CCTCCCGAGGGAGGCCTGGGGTCAGGGGGCCCCTCGGCAGTCCCGGGAGCTGCCACGCGGTGACCCGATCTCCTCCCGGGCACACGCCCAGCGCCGCGCG
Celera SNP ID:            hCV29052341
SNP Position Genomic:     75713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36237):
CTGGGTGACAAGAGTGAAACTCCATCTGAAATAAAATAAAATATAAAAGTTAAAGCAGTCATCCTGGCTTTTAGGAACCCGCAGAATCAGGAGGTAAGCT
A
AAAGTCGTCTCCCTTTTGTCACGATGGAATGTGAAATAGGTGCATTTTCCTTCTGACTTATGATTCTGTTTCACGGTGCCTCTGCAGAAATTCAGTACGT
Celera SNP ID:            hCV11519052
SNP Position Genomic:     70461
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,7)   total(A,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36238):
CTACTTGTTTTATTACCTTTCTAATATATTTATGCACACACATTATATACATTTTTTTCCCCTGAACTATTTGAGAGTTAGTTGCAGGCATGATACATAC
K
CCTTAATTCTTCAGTGGATATTTCCTAAGAACAAGAAAGTTCTGAGGCCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCTGAGGCGG
Celera SNP ID:            hCV29052342
SNP Position Genomic:     78022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36239):
CCGCGCCCAGCCGCTAATTTTTTTTTAATTTATTTTTTGTACAGATGGAGTCTCACTATATTGCCCAGGCTGGTCTTGAACTCCAGGGCTCAAGCAGTTC
Y
GGCACACTAGCCTCCCCCAATTCAATGGGATTACAAGTGTACCCATTTTTTAAAAATGGGCCAGACTAAATATTTGTCTAGAGATCCATACTTGAGTGAT
Celera SNP ID:            hCV16117115
SNP Position Genomic:     24677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36240):
TTTCCCCAACACTTCCTCGACCAGCGTGCCCACGAGTCCGGAGGAGCACAGGCCTTTTGAGAAGGTGGTGAACAAGGAGTCGCTGGTCATCTCCGGCTTG
Y
GACACTTCACGGGCTATCGCATCGAGCTGCAGGCTTGCAACCAGGACACCCCTGAGGAACGGTGCAGTGTGGCAGCCTACGTCAGTGCGAGGACCATGCC
Celera SNP ID:            hCV27536723
SNP Position Genomic:     131319
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36241):
CCCTACATACACAGCAGCACTTGTGTGCAGGTGTGAGGGAGTGACAGCCCCCGGACGGTTTGGCATTTTCCTGCAAGTCTGCCATCTTGTCTGGCAGACA
Y
AGCCTGGGCTGCTGACTGTCCCTACCCCAAACCAGAATTTGGGCAGGAACGGACACTTGGGCTCATTACGTGTCAATGAGGGGGATCAGGTCAGGGGCAC
Celera SNP ID:            hCV29052343
SNP Position Genomic:     81725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36242):
GAGACAAGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCGAGCCTCAGGTGATCCGCCTGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGCATGA
R
CCACCGCGCCCAGCCATTTTTGTATTTTTAATAGAGATGGGGCTTCACCATGTTGGCCAGGCTGCTCTGGAACTCCTGACCTCAAATGATCCGCCCACCT
Celera SNP ID:            hCV11519127
SNP Position Genomic:     109718
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36243):
TTACCATGAGTAGCTTTCTGGAGCAAGCCGGAGTGGTTAGAGCTGTGACTCGGCAACCACAAACACAACCATTTTTGTGTGGAAGTGTGGCTCTTCAGTC
T
TTTTTTTTTTTTTTTTTTTTTGAGATAAGGTCTCACTCTGTTACCCAGGCTGGAGTGCAGTGGCGTGATCCTAGCTCACTGCAGCCTCAACTTCCTGGAC
Celera SNP ID:            hCV11519056
SNP Position Genomic:     73415
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,11)   total(-,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36244):
ATGCGGAGTTGATGCTTTGGGAATTGGCTCATGAAGGTTCTTCTCAAGGGTGCGAGCTCATCCCCCTCTCTCCTTCCTTCTTATTGACTGGGAGACTGTG
S
TCTCGACAGATTCTTCTTGTGTCAGAAGTCTAGCCTCAGGTTTCTACCCTCCCTTCACATTGGTGGCCAAGGGAGGAGCATTTCATTTGGAGTGATTATG
Celera SNP ID:            hCV8356118
SNP Position Genomic:     157976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:36245):
AGAAAGCACCTGTTTTTACAAATTCTTTTTTTTTTTTTTTTTTTTTGCTGGTGTCTGAGCTTCAGTATAAAAGACAAAACTTCCTGTTTGTGGAACAAAA
K
TTCGAAAGAAAAAACAAAACAAAAACACCCAGCCCTGTTCCAGGAGAATTTCAAGTTTTACAGGTTGAGCTTCAAGATGGTTTTTTTGGTTTTTTTTTTT
Celera SNP ID:            hCV8356119
SNP Position Genomic:     157602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:36246):
TGACCTTCCTGTCTTTAGCCTCACTGAGTAAATGGGGTGTGATCATGAAATCTTGATTGTCTCATAGATGCAAGAGACATAAACGACATTTGTCTGTGTA
Y
AATGACAGCAGATTTATTTTGCTAAGCTGTTAAGCTGTTAAAATAAGCCTTTAAGCCCCCGCCTCAATTTTCCAGCAGAGTGGAATGTTATTTTGTTGCT
Celera SNP ID:            hCV8351973
SNP Position Genomic:     45938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36247):
ATAGGTTAGCTCCCACTTATGAGTGAAAACATAGATGTTTGGTTTTCCATTCCTGATTTACTTCACTTAGGATAAGAGTGAGACTAAGTAATTTATAAAG
Y
GCTGGGATTAGAGGCGTGAGCCATGGTGCCTGGCCAATGTCTGGCATCTTTTCTTTGGTGTAATGTTTTGAGATTCATCCATGGTTTTGCATTTATCAAT
Celera SNP ID:            hCV2931901
SNP Position Genomic:     37679
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36248):
TCTTGACCTTCCTGTCTTTAGCCTCACTGAGTAAATGGGGTGTGATCATGAAATCTTGATTGTCTCATAGATGCAAGAGACATAAACGACATTTGTCTGT
R
TATAATGACAGCAGATTTATTTTGCTAAGCTGTTAAGCTGTTAAAATAAGCCTTTAAGCCCCCGCCTCAATTTTCCAGCAGAGTGGAATGTTATTTTGTT
Celera SNP ID:            hCV8351974
SNP Position Genomic:     45935
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;(A,-|G,-)   (G,-|A,-)   Caucasian(A,11|G,71)   African-American(A,2|G,76)   Asians(A,1|G,79)   total(G,226|A,14)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36249):
AAAGCAGCTGATTTTTCACAGGGTGTTGTAATTAATTTAATTAGCTCCACACTGTGGCTTTGAAAATCTTCCGTAAGCTCTAGCGCCAGACACATGGATA
K
TTGCAGAATCTTATTTTCTAGAGTCCTGGAAATTTTCTTTCCTGTGAGAGAGTTGAGAGCGATAATTTTAGGGTGGTTATTCATCTTCAGACACAAGGAG
Celera SNP ID:            hCV2931903
SNP Position Genomic:     38857
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36250):
TTCTCCCATTTTCATTTTCTCCTGGATAGATTGTACACTTGTGCCTTGGTATCCTCAATGATTCCAAAACCCCCCTGGGGATCCAGTCCCTGACATAAAA
Y
GGCGTAGTGTTTGTACATAACCTACATACATCCTCCTGTATACTTTAAATCATCTTGGTCTGGCAGTGTGGCTCACACTTGTAATCCCAGCACGTTGGGA
Celera SNP ID:            hCV2931904
SNP Position Genomic:     39732
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36251):
GGACAGGGATTGTGTTTTCTTTACTTACTGCTACCTTATTAAATGCTTACTAGTTCTAAAAGCCCTGCAATTGATTCCCTTCAATTTTCCAACTCTATAA
Y
TGCAGCATCTGCAGATAATGATGACTTCTTGCCTTTTGCCAATAATTAGACCAGTTATTGCTGTTAACCTTGTTATGGCAGGAACTTCCAGAACAGTGTT
Celera SNP ID:            hCV2931906
SNP Position Genomic:     45634
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36252):
CTGGTTTCTGTGTTGAAATATGACCCTAGTGTGAAGGTCGCGGTCTCAGACCATCTTGTTTCTGGTATGTTAAGAAACAGAAAAACACCTTTTAGGACAC
M
ATGTTAACCATTGAGGATACATATCAGTGTTCTGGAAAAACAAAAACAAAAACAAAACAATCTGTACCGCGACTGTGGTTTTCATCAGGGTGGGCTGCCT
Celera SNP ID:            hCV2931907
SNP Position Genomic:     46410
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36253):
CAAAAAAAAAAAAAAAAAAAAAAAAGACAGAAAAAGAAAAAACAAAAGACGTTTAGCTTTCCTGGGTGACCCAGTGTTGCAGGGATTGGCCATCCTTGGT
R
TAAGGCATAGGATGTGCAGGGTAGCAGGACAGCAGAGTGGGCAGTGTGTGGGGTTTCTTTCATTGATAGGGTGGTTCCCAGCACTCGGGGTCAGGGCTTG
Celera SNP ID:            hCV8351979
SNP Position Genomic:     40702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36254):
ATGTTGACCGGGTGCAGTGGCTCATGCCTGTATTTGCAGCATTTGGGGAGACTGAGGCAAGCGGATCGCTTGAGTCCAGAAGTTTGAGACCAGCCTGGGC
R
ACTTGGTGAAACCCCATCTCTACAAAAAATACAAAAATTAACCAGGTGTGGTAGTGCATGCCTGTAGTCCCAGCTACTTGAGAGGCTGAGTTGAGAGGAT
Celera SNP ID:            hCV2931908
SNP Position Genomic:     46793
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36255):
CTCAGCTCTGGGCATTTTGAGGGGACCAGAAGCCACAGGGCTTGCCTGACCAGCTGCTTTAGCCAAACCCACTGGCATTTTCTTTCTGGGAGGTCACCCC
R
GCTGCTCACTGCCGGCCAGAGGGGTGGGTGAGGCCGGGACATGCTGGGTGCCAGGGGAAACCAACCCGAGATGCCACATATGGACGTCGGCACCAAAGCA
Celera SNP ID:            hCV27964163
SNP Position Genomic:     13968
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36256):
GCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCGTTCGAGCTCAGGAGTTTGAGATCAGCCTGGCCAACACAGCAAAACTCTGTCTCTACC
A
AAAAAAAAAAAAAAAAAATACAAAAATCGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTC
Celera SNP ID:            hCV11519130
SNP Position Genomic:     116833
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36257):
TGCCTACCGTGGCGGGGGCGGGCAGGGGTTCCCATTTTCGCTTTCCTCTGGTTTGAAAGCCTCTGGAAAACTCAGGATTCTCACGACTCTACCATGTCCA
R
TGGAGTTCAGAGATCGTTCCTATACATTTCTGTTCATCTTAAGGTGGACTCGTTTGGTTACCAATTTAACTAGTCCTGCAGAGGATTTAACTGTGAACCT
Celera SNP ID:            hCV8356120
SNP Position Genomic:     157296
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,29)   caucasian(A,8|G,32)   total(A,17|G,61)
SNP Type:                 UTR 3;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON;hmCS


Context             (SEQ ID NO:36258):
GCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAATTCCATATGG
M
ATTCTACTCTGCCCTCCCATCTTATTTGTGTGGTTGATTAATTGATTGATTGATATTTTCATGCAGCTGTGACCTGGCTCCTTCTCCTCCTCCTTCTTCT
Celera SNP ID:            hCV11519131
SNP Position Genomic:     118238
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36259):
CAGCCTAGGCAACAGAGTAAGATCCCGATGCAGGAGAAAATAATAAATGTATGTCGTTTTACATTTGTGGGCGTTTGTGACAGCAGCAATGGGAAATGGA
W
ACGGTGAGAAACCCAGCACCTGGGCCTGGAAACCCCCTCTGGGCGGGTCTCTAGCCAGGGGCCAACAGGAGTCAGAGCAGGGCCTTGGTGAGAGGTGGAT
Celera SNP ID:            hCV27942314
SNP Position Genomic:     57512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36260):
TTGTACAGATGGAGTCTCACTATATTGCCCAGGCTGGTCTTGAACTCCAGGGCTCAAGCAGTTCTGGCACACTAGCCTCCCCCAATTCAATGGGATTACA
R
GTGTACCCATTTTTTAAAAATGGGCCAGACTAAATATTTGTCTAGAGATCCATACTTGAGTGATAAAGCTATATGGGGTTCCATCTGGGAATTCGGTTCT
Celera SNP ID:            hCV16117125
SNP Position Genomic:     24713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36261):
GAAAATCTTCCGTAAGCTCTAGCGCCAGACACATGGATATTTGCAGAATCTTATTTTCTAGAGTCCTGGAAATTTTCTTTCCTGTGAGAGAGTTGAGAGC
R
ATAATTTTAGGGTGGTTATTCATCTTCAGACACAAGGAGTAAGAATGTAGGGAGTTCGTGACTGTGTTTGGAGAGGGGAGAGCATAGCAGTGGTCTAATG
Celera SNP ID:            hCV28007655
SNP Position Genomic:     38918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36262):
TCTTTTGTTGAAATCAACATGAGCAGGAAATGGATCTTTCCCCCAATCAGAGAACTTCACATGTTTTTCTAATAGAATAGCAGTGTCTGAGGTATATACA
Y
GGGGAGTGGCCCCCCGGGAAAACGAGGCCATGAGGCTCCTGGCATGGAGATGACACACGAAGACTCTCGTAACTTCTAGAGGGGAAAATAAAGCAGTCAT
Celera SNP ID:            hCV11970547
SNP Position Genomic:     69828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36263):
GACTGACAGGCATGGCTGGCTGTCCATCCGTTCCTTAGTTTGATTGCATGGCAGACATGAGGAAGGAAGGTGAGAACTGAGCTAGAAAGTTGGCATTTGG
Y
GCTCTGGTTTCTCAATGCAAGAAAGTAACACTTTGGCTTTTATAGAATAACCTTCTGAGGAAATTAACAACCCGGGCGTTTCAGCCCCCTGTGAACTTGA
Celera SNP ID:            hCV28007656
SNP Position Genomic:     68877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36264):
CCCGCGTGGCGGTGAAGACGGTCAACGAGTCAGCCAGTCTCCGAGAGCGGATTGAGTTCCTCAATGAGGCCTCGGTCATGAAGGGCTTCACCTGCCATCA
Y
GTGGTGAGTCCAGTGGGGGTGGGACATGGGCTGGCTTTCCTGACCCTTCCCTTTCTCTGCCTCCTCCTCCTGCACAGAGCGACAGAGGACACAGGGTGTA
Celera SNP ID:            hCV8356128
SNP Position Genomic:     148958
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,3)   caucasian(C,30|T,6)   total(C,51|T,9)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Caucasian(T,136|C,623)      total(C,623|T,136) ;(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36265):
ATAGCAGTGTCTGAGGTATATACACGGGGAGTGGCCCCCCGGGAAAACGAGGCCATGAGGCTCCTGGCATGGAGATGACACACGAAGACTCTCGTAACTT
M
TAGAGGGGAAAATAAAGCAGTCATTCCAGGCTGGGCATGGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTC
Celera SNP ID:            hCV11970548
SNP Position Genomic:     69904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36266):
TTGGGTGAGGGCTTGGGTGGAAGGTGGCTGCAGACCCCCAAGGGATCCTCCAAGGATGCTGTGTAGATAAGTAAGAAGTAGTGTTTCCATGCTCTGTGTA
Y
GTGCCGGACGAGTGGGAGGTGTCTCGAGAGAAGATCACCCTCCTTCGAGAGCTGGGGCAGGGCTCCTTCGGCATGGTGTATGAGGGCAATGCCAGGGACA
Celera SNP ID:            hCV8356129
SNP Position Genomic:     148736
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Caucasian(T,45|C,714)      total(C,714|T,45) ;(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36267):
GAGGGACATATGTCCCATGTGTCCTCCCCCCTCCTGCCCCTAATTTTTTTGTTTGTTTTTTTATGAGATGGAGTCTCACTCTGTCGCCAGGCTGGAGTGC
R
GTAGCGTGATCTCAGCTCACTGCAACTTCCGCTCCCCAGGTTCAGGTGATTTTCCTGCCTCAGCCTCCCATGTAGCTGAGACTACAGGTGCGCGACACCA
Celera SNP ID:            hCV11519067
SNP Position Genomic:     80833
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36268):
AAGTTACTCCTGTACTTAATTGCATAAAATGTGTATTGCCTACATGAATGAGAATAAAAACTTCCAAAATGCCCCCAACAAACAGGGGTTTTTGCACCTT
R
CCATGAGTAGCTTTCTGGAGCAAGCCGGAGTGGTTAGAGCTGTGACTCGGCAACCACAAACACAACCATTTTTGTGTGGAAGTGTGGCTCTTCAGTCTTT
Celera SNP ID:            hCV2942400
SNP Position Genomic:     73317
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36269):
CCTTACCATGAGTAGCTTTCTGGAGCAAGCCGGAGTGGTTAGAGCTGTGACTCGGCAACCACAAACACAACCATTTTTGTGTGGAAGTGTGGCTCTTCAG
Y
CTTTTTTTTTTTTTTTTTTTTTTGAGATAAGGTCTCACTCTGTTACCCAGGCTGGAGTGCAGTGGCGTGATCCTAGCTCACTGCAGCCTCAACTTCCTGG
Celera SNP ID:            hCV2942401
SNP Position Genomic:     73413
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36270):
AGATGGAGTCTCACTCTGTCGCCAGGCTGGAGTGCAGTAGCGTGATCTCAGCTCACTGCAACTTCCGCTCCCCAGGTTCAGGTGATTTTCCTGCCTCAGC
Y
TCCCATGTAGCTGAGACTACAGGTGCGCGACACCATGCTCAGCTAATTTTTATATTTTTCGTGGAGACGGAGTCTCACCATGTTGGTCAGGATGGTTTGG
Celera SNP ID:            hCV11519068
SNP Position Genomic:     80898
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36271):
GGAGTGCAGTAGCGTGATCTCAGCTCACTGCAACTTCCGCTCCCCAGGTTCAGGTGATTTTCCTGCCTCAGCCTCCCATGTAGCTGAGACTACAGGTGCG
Y
GACACCATGCTCAGCTAATTTTTATATTTTTCGTGGAGACGGAGTCTCACCATGTTGGTCAGGATGGTTTGGCTCTCCTGACCTCGTGATCCGCTCACCT
Celera SNP ID:            hCV11519069
SNP Position Genomic:     80926
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36272):
TTGAGACCAGCCTAGGCAACATAGAGAGACCCGCTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGCTGTCGCAGTGGCACTCTCCTGTAGTCCTAGCTCCT
Y
GGGAGGCTGAAGCGGAAGGATCACTTGAGCCCAGGAGTCCTAGACTGCAGTGAGCTATGATGGCTCCATTGCACTCCAGCCTGGGCCACAGAGTAAGACC
Celera SNP ID:            hCV2942403
SNP Position Genomic:     74777
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36273):
CGAGTTCTGGCAGAGCTGGTTATTGGCAAAGTAGCCCCTCTATGCCTCGGTTTCTCCAATTCTAATGGTGATGATTGCTTGAATAATTGAGTTAATATGA
Y
CTCATTGATGGATTGGACCGTGTGTGCTGCAAACAGATTACACACTTTAAAGTGTATTCATGCCTGTAATCCCAACACTTTGGTAGACTGAGGCAAGAGG
Celera SNP ID:            hCV2942404
SNP Position Genomic:     75078
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36274):
TTTCTGTATTTTCTGTTTTGTTTTTTATCACATACCTTCTTAATTAAGAAAAACCCAAACTAATTTGAACTTTAAAAGGGAGGCAAACAAAAAAGTGTCA
R
AGTGACTGGATTTTTGTGCGCAAGTCATTTAACAATGCAGCGCTGCGTCTCCTATTTCTCTGGCTTTTAACCTTGCTTTGGACAAATTGGTCGCTTTTTG
Celera SNP ID:            hCV2942405
SNP Position Genomic:     77748
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36275):
ATGCTGCTGGGGGCTGAGGACAATGCTAAACCTGGATGTCTCGAGGACAGGGGATGGGGTTTCTGTGTCATCTATGTTCTGATGCTTTTTCATTTAATAC
R
AGAACAGGTTTCCTATGATTTGGCACACTGGGACATTCGACATGTGTTTGTTGAATGAAAAAAAGAAAAAAGAGAAATGCTAACAATTTGTTGAATAGTC
Celera SNP ID:            hCV2942406
SNP Position Genomic:     79375
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36276):
TTGGTGTCCATCTCCTCCTACCCATTTGTGAATGGTTTTCTAGGATTGATGTTCAGAATTGAAGTCACAGGGAATGGAGTATGTGCATTTTTAGATCTAG
Y
ATATACTCCCCGAATGGTCTCCAAGGTGGCTGTGACAGTTTCACCAGTGATGCATTAAGGTATATGTCAAATGTGGGCAAGGCTGCAGGAAAATTATGTT
Celera SNP ID:            hCV8351980
SNP Position Genomic:     34745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36277):
GGCCTCAAGTCATCTGCCCACTTCGGCCTCCCAAAGTGCTGGGATGACAGGCATGAGCCACTGCGCCCAGCCAATTTGTTCAAATCTTTTATATTGTCCT
K
TCTTCATCTTTATCCTGTATTATTTTTGTGACGATGGTTCCTGATTTCTGTATCACAGAGTTTTGTTGTGTTAGTTATGGCTACTATGAATAGCATATTT
Celera SNP ID:            hCV8351981
SNP Position Genomic:     30081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,6)      total(G,4|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36278):
AAAAACAAAAAAACCGAAAAGGGCTGGGCACCATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGAGCGGATCACCTGAGGTCAGGAGTT
Y
GAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAGTACAAAAATTAGCTGAGGGTGGTGGCGCATACCTGTAATCCTAGCTACTTGGGAG
Celera SNP ID:            hCV2942408
SNP Position Genomic:     71576
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36279):
CAGTCTATTCTGGTGGCTTAGAGGAGGGAAGATGGGAAATTTTGGGTTTAATAGAGTAATATCCATCAGGTTGAGGGCTTTGAAGCACCTGGGAATATCC
M
TAAGTCACTACTGAGCACCAGCTGTATACAGTTATTGAGCATGTATTGTCTCCCAGGCACATGGTCCTCACAACAATCTTTTCACAGAGCTAGGATTTGA
Celera SNP ID:            hCV2931910
SNP Position Genomic:     50437
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36280):
CATCAGGTTGAGGGCTTTGAAGCACCTGGGAATATCCATAAGTCACTACTGAGCACCAGCTGTATACAGTTATTGAGCATGTATTGTCTCCCAGGCACAT
R
GTCCTCACAACAATCTTTTCACAGAGCTAGGATTTGAACCCACAGTCTCTCTGGCTTCAGAACCCTAGCTTTTCTTGCTATACTCTGCCTTACAGAGGAA
Celera SNP ID:            hCV2931911
SNP Position Genomic:     50500
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36281):
CAGGTTCAGAGTCAGGATTAAAGACCAAGACAGCTTGAGGTCATCAGAGGCCAGGAATTTCCATACAGGCTGCGGTCCAAAGTGCCAAGCTGGGCTAGAT
R
GATGTTGGGGAAGAGTCTCTGTCGCCCTCTTTCCTTCCCCGTTAATGCTATCAGCTGAGCATGGGTCACTCCTGATTTTTTTTTTTTTTTTTTTACCGAG
Celera SNP ID:            hCV2931912
SNP Position Genomic:     52051
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36282):
CTCTTCCTCCCAGGAGCTGCATCTCTGCGTCTCCCGCAAGCACTTCGCTCTGGAACGGGGCTGCAGGCTGCGTGGGCTGTCACCGGGGAACTACAGCGTG
Y
GAATCCGGGCCACCTCCCTTGCGGGCAACGGCTCTTGGACGGAACCCACCTATTTCTACGTGACAGACTATTGTAAGTCTCCATGGCAGCCTCAGCTGAC
Celera SNP ID:            hCV2421101
SNP Position Genomic:     142012
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:36283):
GGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAATTCCTGGCCTCAAGTCATCTGCCCACTTCGGCCTCCCAAAGTGCTGGGATGACAGGCATGAGCCAC
Y
GCGCCCAGCCAATTTGTTCAAATCTTTTATATTGTCCTTTCTTCATCTTTATCCTGTATTATTTTTGTGACGATGGTTCCTGATTTCTGTATCACAGAGT
Celera SNP ID:            hCV8351986
SNP Position Genomic:     30042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36284):
CAGCCTGGCCAACATGGCGAAACCCCGTCTCTACTTAAAATACAAAAATTAGCCAGGCGTGGTGGCGCGCCTGTAGCCCCAGCTCCTCGGGAAACTGAGG
Y
AGGAGACTCGTTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGGCTGGGCGACAGAGCGAGACTCCATCTCAAAAAT
Celera SNP ID:            hCV2931915
SNP Position Genomic:     53867
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36285):
TGGGTGAGGGCTTGGGTGGAAGGTGGCTGCAGACCCCCAAGGGATCCTCCAAGGATGCTGTGTAGATAAGTAAGAAGTAGTGTTTCCATGCTCTGTGTAC
R
TGCCGGACGAGTGGGAGGTGTCTCGAGAGAAGATCACCCTCCTTCGAGAGCTGGGGCAGGGCTCCTTCGGCATGGTGTATGAGGGCAATGCCAGGGACAT
Celera SNP ID:            hCV2421103
SNP Position Genomic:     148737
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): Caucasian(A,7|G,752)      total(G,752|A,7) ;(G,-|A,-)   ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36286):
GATACCTTCATGGGGAGTTAGTTACTTATGTCAAAATGTAGTGCAAGGGCTGGGCATGGTGGCTCACGCCTGGAATCCCAGCACTCTGGGAGGCCGAGGC
R
GGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATGTGGTGAAACTCCATCTCTACTAAAAAAAAAAAATACAAAAACTAGCTGGACGTGG
Celera SNP ID:            hCV27516277
SNP Position Genomic:     105414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36287):
CTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCGGTGAGCCAAGATCGTGCCCACTGCACTCCAGCCTGGCAGACAGAG
Y
GAGACTCCGTCTCAAAAAAGAAAAAAAGAAAAAAGATATCACTCGATGACTGCTACCGAAACATTCTGTGGCTGGGAGAGGAAAATACCAGAAAGGGTGA
Celera SNP ID:            hCV2931916
SNP Position Genomic:     56684
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36288):
CTTGAAGTTTCTCTTGCCTTCCATCATGGGTTTATTTGTTCAGCAAATGTTTATGGAGGGCCAGCACAGGGGGGAATAAGAACTAGAGTTCTGGGAGGAC
R
TGTGAAGAAACAAGTTCCGAGCCCCAGGGAGGAAAGAGGTCATTGCCTCCCTCTGGGGAAAATGTCTCTTCTCATACCTGGTTCACTTCTTAAATGGAAT
Celera SNP ID:            hCV2931917
SNP Position Genomic:     60006
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36289):
GGAGTGCAGTGGCACCATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGCAGCTGGGGATTACAGGTGC
M
TGCCACCATGCCTGGCTAATTTTTCTATTTTTAGCAGAGACAAGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCTTG
Celera SNP ID:            hCV2931918
SNP Position Genomic:     67001
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36290):
CCTCCAAGGATGCTGTGTAGATAAGTAAGAAGTAGTGTTTCCATGCTCTGTGTACGTGCCGGACGAGTGGGAGGTGTCTCGAGAGAAGATCACCCTCCTT
Y
GAGAGCTGGGGCAGGGCTCCTTCGGCATGGTGTATGAGGGCAATGCCAGGGACATCATCAAGGGTGAGGCAGAGACCCGCGTGGCGGTGAAGACGGTCAA
Celera SNP ID:            hCV2421105
SNP Position Genomic:     148782
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36291):
TAAGAAGTAGTGTTTCCATGCTCTGTGTACGTGCCGGACGAGTGGGAGGTGTCTCGAGAGAAGATCACCCTCCTTCGAGAGCTGGGGCAGGGCTCCTTCG
K
CATGGTGTATGAGGGCAATGCCAGGGACATCATCAAGGGTGAGGCAGAGACCCGCGTGGCGGTGAAGACGGTCAACGAGTCAGCCAGTCTCCGAGAGCGG
Celera SNP ID:            hCV2421106
SNP Position Genomic:     148807
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36292):
TTTTTAAGTTTTTTTTAAACTTCGGAAAGTTTTAAGCTTTGGAAAGAATGTAACAAAATGTTATTAACATATGTGGAGCTATCGAATCATTTAATGGTGG
K
TTCTGTATTTTCTGTTTTGTTTTTTATCACATACCTTCTTAATTAAGAAAAACCCAAACTAATTTGAACTTTAAAAGGGAGGCAAACAAAAAAGTGTCAG
Celera SNP ID:            hCV11970551
SNP Position Genomic:     77648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36293):
CACGGCACTCAGTGTGACGGTCTTGTAAGGGTAACTGCCTTCTGCTGTTTTGTCTTGAAAGCCCTTATCAGAATGTGACGGAGTTCGACGGGCAGGATGC
R
TGTGGTTCCAACAGTTGGACGGTGGTAGACATTGACCCACCCCTGAGGTCCAACGACCCCAAATCACAGAACCACCCAGGGTGGCTGATGCGGGGTCTCA
Celera SNP ID:            hCV11970553
SNP Position Genomic:     107899
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,13|G,27)   total(A,16|G,60)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36294):
CTGAGGCAGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGTTCTCACCATTGCACTTCAGCCTGGACAACAGAGTGAGACTCTGTCTC
A
AAAAAAAAAAAAAAAAAACCACCAAAGAACACAGGTCAGCATGTTTATTTAACCCATTAGTGAGGGAACAGCAGGATTATAAAGCCAAAACATGTATAGT
Celera SNP ID:            hCV11519073
SNP Position Genomic:     83870
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36295):
TCTATCAAAGAATCTGATGTGTTACCGACGTCATCCTGTTTATTTCTTGCAACAGCCTTAAGAAGGAAGGAAGGGACTCTTATTAACAATCCCCCCTCCC
T
TTTTTTTTTTTTTTTTTTTTTTGAGATAGAGTCTCGCTCTGTCACCTAGGCTGGAGTTCAGTGGCACAATCTTGACTCACTGCAAACTCCTCTTGCGTTC
Celera SNP ID:            hCV11519074
SNP Position Genomic:     85363
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36296):
AGATTAAGCCATTGCGCTCCAGCCTGGGCAACAAGAGTGAAACTCCGTCTGGAAAAAAAAAAAAAAGGAAAAGAAAAGAAACCATCAGGGTTTAATGCTC
R
GCTTCTGGCTTAGGAAGTCTGGCTCTTACCGATAATGATAACCTCTGCATATATCTTTATCCATAGCACTATGGTTATAAAATTCTGCAATTCTCAAAGT
Celera SNP ID:            hCV8356136
SNP Position Genomic:     141683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36297):
ATGGGGCCAAGAGTGACATCATTTATGTCCAGACAGATGCCACCAGTGAGTGTGTCTTGGGAATGTGAATTTGTATGTGAATCAGACCTCTTGCTTTTAA
Y
AGGCTGATGCAGTGAGGTTGTATAAAATGCTCCTTGATATGGTTATTGGCTTTTTTTTTTTTTTTAGACAGGGTCTTACTTTGTCACCCAGGCTAGAGTG
Celera SNP ID:            hCV11970556
SNP Position Genomic:     108166
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,11)   caucasian(C,26|T,12)   total(C,51|T,23)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,299|T,782)   total(C,299|T,782)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36298):
GTTGGCTTTTATTCTGTATGCCTGAACTGTCTCGTCTGGGAGACGGTAGTCATCTGTGGCTAGTAAACATTGGAATTGTGTCAGGCACAGTGGCTCATAC
Y
TGTAATCTCAGCACTTTGGGAGGCTGAGGTGGGAGGATCGCTTGAGCCAGGAGTTCGAGACCAGCCTGGGCAACATAGTGAGACCCCATTTCTACAAAAA
Celera SNP ID:            hCV11519075
SNP Position Genomic:     86406
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36299):
GTAGGTCCTAAGGAAATAATTCAAATTTGGGGCAGGGAACAAAGCTCTATGCATAAGATTTTCATCAGTAGCAAAATATGCAAACCACTAAGATGTCCAT
Y
CATTGGAGAATGGACACATGGAAGACGGTGCATCCATAGAATTGGTGGATGAAGAGCCATTGAAAATGATGTTTGGGGGCCAAGCATGGTGGCTCATGCC
Celera SNP ID:            hCV8356137
SNP Position Genomic:     135492
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36300):
CACACTGTTTCTCATGATGGACCCATTTCCTTTCTCCCTGACAGACCCCTCTGTGCCCCTGGATCCAATCTCAGTGTCTAACTCATCATCCCAGATTATT
Y
TGAAGTGGAAACCACCCTCCGACCCCAATGGCAACATCACCCACTACCTGGTTTTCTGGGAGAGGCAGGCGGAAGACAGTGAGCTGTTCGAGCTGGATTA
Celera SNP ID:            hCV11970557
SNP Position Genomic:     111135
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,11)   caucasian(C,34|T,2)   total(C,59|T,13)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36301):
CCCAGATTATTCTGAAGTGGAAACCACCCTCCGACCCCAATGGCAACATCACCCACTACCTGGTTTTCTGGGAGAGGCAGGCGGAAGACAGTGAGCTGTT
Y
GAGCTGGATTATTGCCTCAAAGGTGAGTGCAGGCAGCTGTGCTAGGATCGGTGGGGTTTGCACACGTGTGTCTGATGCACTTTGCTTCACCTCTAGGGAA
Celera SNP ID:            hCV11970558
SNP Position Genomic:     111224
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,38)   total(C,71|T,3)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36302):
AGTCGCTGGTCATCTCCGGCTTGCGACACTTCACGGGCTATCGCATCGAGCTGCAGGCTTGCAACCAGGACACCCCTGAGGAACGGTGCAGTGTGGCAGC
Y
TACGTCAGTGCGAGGACCATGCCTGAAGGTAGGGCTGCTGCTCCGGGGTCCGAGTGTCATGGGTGGGACATCAAGGCTGACCAAGGACAGATTCTCCACC
Celera SNP ID:            hCV8356138
SNP Position Genomic:     131396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36303):
AGTAGAGACAGGGTTTCACCATGTTGACCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCGCCTCGACCTCCCAAATTGCTAGGATTACAGGC
R
TGAGCCACCACACCAAGCCACATTTGCATGTTTAAGTAACTAACATGTCTCCTCCATTAGACCTTGTGCTCCCAAAGGCAGGATCTACAGCCACTTTTTC
Celera SNP ID:            hCV11519078
SNP Position Genomic:     88685
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36304):
GGGACATGAGTTGGTCTGCCTGTTGTGGGGCCGGGAAGGGGAGGGAGTCAGGCACAAGTGGCCTCTTTGTTTGGTCTTAAAGGCATCCATTTCTGGGAAT
K
AAGCCATGTTCGCTGCTAACACTTTTGGATGTTGTGAGGCCACGTGGAGTGTGTGAGAGACTAGGTTTTATGGATGGTCTGGTTCAGGTACCAGGTCTGC
Celera SNP ID:            hCV27470056
SNP Position Genomic:     158377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:36305):
AAACTCATCATGATCACTGATTACTTGCTGCTCTTCCGGGTCTATGGGCTCGAGAGCCTGAAGGACCTGTTCCCCAACCTCACGGTCATCCGGGGATCAC
S
ACTGTTCTTTAACTACGCGCTGGTCATCTTCGAGATGGTTCACCTCAAGGAACTCGGCCTCTACAACCTGATGAACATCACCCGGGGTTCTGTCCGCATC
Celera SNP ID:            hCV27528585
SNP Position Genomic:     6662
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36306):
GGTCACCTTTTCGGATGAACGCCGGACCTATGGGGCCAAGAGTGACATCATTTATGTCCAGACAGATGCCACCAGTGAGTGTGTCTTGGGAATGTGAATT
Y
GTATGTGAATCAGACCTCTTGCTTTTAACAGGCTGATGCAGTGAGGTTGTATAAAATGCTCCTTGATATGGTTATTGGCTTTTTTTTTTTTTTTAGACAG
Celera SNP ID:            hCV25473345
SNP Position Genomic:     108137
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,26|T,12)   total(C,62|T,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36307):
AGGCCTCATCTGCACGGCACTCAGTGTGACGGTCTTGTAAGGGTAACTGCCTTCTGCTGTTTTGTCTTGAAAGCCCTTATCAGAATGTGACGGAGTTCGA
Y
GGGCAGGATGCATGTGGTTCCAACAGTTGGACGGTGGTAGACATTGACCCACCCCTGAGGTCCAACGACCCCAAATCACAGAACCACCCAGGGTGGCTGA
Celera SNP ID:            hCV25473347
SNP Position Genomic:     107887
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,16)   caucasian(C,32|T,8)   total(C,50|T,24)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36308):
GGCCTCCCAAAGTGCTGGGATTGCAGGCATGAGCCACGGTGCCTGGCCTGTTTCTTACAGTTCTATGTGTTGGTTGGGTGGTTCTTCCGGGAACAGCCTC
W
CTCCTGTGCTGAGGCCTCTGCTGGGAGAGCCAGGATTGCTTGTCTTCTAGGAGGTTCACTCAGGCTTGTTCATATGGTGGTGGTTGCAGGGATACCCAGT
Celera SNP ID:            hCV16141771
SNP Position Genomic:     163039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:36309):
AATCCTGGCCGCCCTCCCCCTACCCTTCAAGAGATGATTCAGATGGCGGCAGAGATTGCTGACGGGATGGCCTACCTGAACGCCAAGAAGTTTGTGCATC
R
GGACCTGGCAGCGAGAAACTGCATGGTCGCCCATGATTTTACTGTCAAAATTGGAGGTTCGTCTGGCTTTCTGCTTTGAAAACATAACGACCCAGGCCAG
Celera SNP ID:            hCV2421111
SNP Position Genomic:     151578
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36310):
CCGCCCTCCCCCTACCCTTCAAGAGATGATTCAGATGGCGGCAGAGATTGCTGACGGGATGGCCTACCTGAACGCCAAGAAGTTTGTGCATCGGGACCTG
R
CAGCGAGAAACTGCATGGTCGCCCATGATTTTACTGTCAAAATTGGAGGTTCGTCTGGCTTTCTGCTTTGAAAACATAACGACCCAGGCCAGGTTTGATT
Celera SNP ID:            hCV2421112
SNP Position Genomic:     151586
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36311):
TTAGACACGGCTGATGTGTGTGCAAAGTATCCATGCGGAGTTGATGCTTTGGGAATTGGCTCATGAAGGTTCTTCTCAAGGGTGCGAGCTCATCCCCCTC
W
CTCCTTCCTTCTTATTGACTGGGAGACTGTGCTCTCGACAGATTCTTCTTGTGTCAGAAGTCTAGCCTCAGGTTTCTACCCTCCCTTCACATTGGTGGCC
Celera SNP ID:            hCV11968426
SNP Position Genomic:     157944
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3;SILENT MUTATION;TFBS


Context             (SEQ ID NO:36312):
AGAGCGTGTGAACCTTTTGTGTTGTCAGACTTTGGAATGACCAGAGACATCTATGAAACGGATTACTACCGGAAAGGGGGCAAGGGTCTGCTCCCTGTAC
R
GTGGATGGCACCGGAGTCCCTGAAGGATGGGGTCTTCACCACTTCTTCTGACATGTGGTGAGTTGTGTGTGGATGGGTGGATGGACGCTGGGCTTGAATT
Celera SNP ID:            hCV2421117
SNP Position Genomic:     153571
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36313):
CCCTGTACCTCAGTTTCCCCATTTGTAAAACAAAAAAATAAAGGAGCTAACAGTGTATCTACTTCACATGTGGGGTGCAGCAGCATGCTGGAGTTGGCTT
S
CTGGAGCCAGTGGTGAAATTTTCAGGCAATTTGTGAGCCATTTGTTAAACATAGATATTCATAAAAATTACATAAACCTACAGTTAAACAAATTACATTA
Celera SNP ID:            hCV11519083
SNP Position Genomic:     88969
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36314):
CTCAGTTTCCCCATTTGTAAAACAAAAAAATAAAGGAGCTAACAGTGTATCTACTTCACATGTGGGGTGCAGCAGCATGCTGGAGTTGGCTTGCTGGAGC
Y
AGTGGTGAAATTTTCAGGCAATTTGTGAGCCATTTGTTAAACATAGATATTCATAAAAATTACATAAACCTACAGTTAAACAAATTACATTAAAAACAAA
Celera SNP ID:            hCV11519084
SNP Position Genomic:     88977
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36315):
CAAAAAAATAAAGGAGCTAACAGTGTATCTACTTCACATGTGGGGTGCAGCAGCATGCTGGAGTTGGCTTGCTGGAGCCAGTGGTGAAATTTTCAGGCAA
T
TTGTGAGCCATTTGTTAAACATAGATATTCATAAAAATTACATAAACCTACAGTTAAACAAATTACATTAAAAACAAAAGTTTTTAAATTAACAAAGCTT
Celera SNP ID:            hCV11519085
SNP Position Genomic:     88999
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36316):
ATCTCATCCAAGAGTTACATCCCTGCCTCTCACTTCCTCTCCTTACAGCCAAGGCTGATGACATTGTTGGCCCTGTGACGCATGAAATCTTTGAGAACAA
Y
GTCGTCCACTTGATGTGGCAGGAGCCGAAGGAGCCCAATGGTCTGATCGTGCTGTATGAAGTGAGTTATCGGCGATATGGTGATGAGGTAAGGCCCTTGA
Celera SNP ID:            hCV15831539
SNP Position Genomic:     132476
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,38|T,2)   total(C,71|T,7)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36317):
GTGGCACAATCTCGGCTCACTGCAACCCCCGCCTCCCGGGTTCAAGCAATTCTGCTGTCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCTGCCACCA
Y
GCCTGTATAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTCGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCATGGCCT
Celera SNP ID:            hCV12116603
SNP Position Genomic:     83102
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36318):
TCACTGTCTCATCACTTTCTGGAATGTTTCATTGCTTTCCAGAATCTTTCATCACTTTCTGGAATCTTCCATCATTTTCTGGAATCTTCCACCACTTTCC
R
GAATCTTCCATCATTTTCCACAATCTTCCATTGCTTTTTAGACTCTTCCATTTCTTGCTTTTTCCTGGCACCTTTGTAACCCAGGACCACATAGAGGTCC
Celera SNP ID:            hCV15878502
SNP Position Genomic:     149269
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;JBIC-allele(A,686|G,793)   total(G,793|A,686)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:36319):
TGGTGATGGAGCTGATGGCTCACGGAGACCTGAAGAGCTACCTCCGTTCTCTGCGGCCAGAGGCTGAGGTAAGCTGCTTCGGGGGACCCAGCGGGGTACT
Y
GGTGGAGCACCCGCTCCTGGCCTCCTCGGATCCCAGTGCTGCTGAAACACCAACCCCGTGTTTCTGTTTTAGAATAATCCTGGCCGCCCTCCCCCTACCC
Celera SNP ID:            hCV15878503
SNP Position Genomic:     151402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:36320):
GGTGATGGAGCTGATGGCTCACGGAGACCTGAAGAGCTACCTCCGTTCTCTGCGGCCAGAGGCTGAGGTAAGCTGCTTCGGGGGACCCAGCGGGGTACTC
R
GTGGAGCACCCGCTCCTGGCCTCCTCGGATCCCAGTGCTGCTGAAACACCAACCCCGTGTTTCTGTTTTAGAATAATCCTGGCCGCCCTCCCCCTACCCT
Celera SNP ID:            hCV15878504
SNP Position Genomic:     151403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:36321):
GGAGGGTCCTCGCTGGGTTTCAAGCGGAGCTACGAGGAACACATCCCTTACACACACATGAACGGAGGCAAGAAAAACGGGCGGATTCTGACCTTGCCTC
R
GTCCAATCCTTCCTAACAGTGCCTACCGTGGCGGGGGCGGGCAGGGGTTCCCATTTTCGCTTTCCTCTGGTTTGAAAGCCTCTGGAAAACTCAGGATTCT
Celera SNP ID:            hCV2421123
SNP Position Genomic:     157176
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:36322):
AGACTTGAGCCCCCCTTTTCTGTTTCTTTCTCCAGGGCTGAAGCTGCCCTCGAGGACCTGGTCTCCACCATTCGAGTCTGAAGATTCTCAGAAGCACAAC
Y
AGAGTGAGTATGAGGATTCGGCCGGCGAATGCTGCTCCTGTCCAAAGACAGACTCTCAGATCCTGAAGGAGCTGGAGGAGTCCTCGTTTAGGAAGACGTT
Celera SNP ID:            hCV11968437
SNP Position Genomic:     121409
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:36323):
AAGTGTTTTGAATAAGGGATGCCCAAGCTGTGTTTTTTCATTGAGATGTCAGGGTTGACAGTTCCTTTCTCTTTGGCTGTTCCCGAGTTATTTTTTCTTG
Y
GGCATTAGATTGTTGGGTGAGTAACATGTGACCCTATGGGATGTAACTTCCCAGGCCTCATCTGCACGGCACTCAGTGTGACGGTCTTGTAAGGGTAACT
Celera SNP ID:            hCV25474807
SNP Position Genomic:     107734
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,14)   caucasian(C,21|T,19)   total(C,39|T,33)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,413|T,1050)   total(C,413|T,1050) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36324):
CAAACTCATCATGATCACTGATTACTTGCTGCTCTTCCGGGTCTATGGGCTCGAGAGCCTGAAGGACCTGTTCCCCAACCTCACGGTCATCCGGGGATCA
Y
GACTGTTCTTTAACTACGCGCTGGTCATCTTCGAGATGGTTCACCTCAAGGAACTCGGCCTCTACAACCTGATGAACATCACCCGGGGTTCTGTCCGCAT
Celera SNP ID:            hCV27531312
SNP Position Genomic:     6661
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:36325):
AGTCGTGGGCCGGATTTTGCTCGAGGGCAGCAGTTTGCCACCGCCTGTGCTAGTCAGTGAATGTTCTTCTTGCTTGGGAGAGGAAAAGGAGTGGAAAACT
R
TAGATTCGGTTTTTTTAAAAAAATAGTTTAGTTCTTATCTGATTATAGAAGTGATATTGCTTATAATAGACATTTGGAAAAAGACACTTGTAAACGAAAA
Celera SNP ID:            hCV2931867
SNP Position Genomic:     7388
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36326):
TTCTTGCTTGGGAGAGGAAAAGGAGTGGAAAACTGTAGATTCGGTTTTTTTAAAAAAATAGTTTAGTTCTTATCTGATTATAGAAGTGATATTGCTTATA
R
TAGACATTTGGAAAAAGACACTTGTAAACGAAAAAAAAGCAAAACATTCATCTTATTCCACAACGCATGTCGCCGAGAGTAGTTTATTGGGGGTTGTTCC
Celera SNP ID:            hCV2931868
SNP Position Genomic:     7454
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36327):
TCTGATTATAGAAGTGATATTGCTTATAATAGACATTTGGAAAAAGACACTTGTAAACGAAAAAAAAGCAAAACATTCATCTTATTCCACAACGCATGTC
R
CCGAGAGTAGTTTATTGGGGGTTGTTCCTTCTAGTGATCTTCAGGAATCTGTCGTGTCTACTGAAGGTTTCCTTAACCATTCCTGTTATTGGGCATTAAG
Celera SNP ID:            hCV2931869
SNP Position Genomic:     7526
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36328):
CTGGACTCTAAGGAATCCCCCCACCTCAGCCTCTCAAAGTGCTGAGATTTCACATGTGAGCCACCACGCTGGACTTGACTTGATTTTGTTTTCTTTTTCT
T
TTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGTCCAGGCTGGAGTGCAGTGGCATGATCTGAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGAT
Celera SNP ID:            hCV26262800
SNP Position Genomic:     14490
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36329):
ACTCTTATGTCCTGACTAATCCTGTAGGCATTGTGAACCCCGAAAATCTGAGACAGGTCTCAGTTAATTTAGGAAGTTTATTTTGCCAAGGTTGAGGACG
Y
GTGCCCGTGGCACAGCCTCAGGTGGTCCTGAGGACAGGTGCCCAAGGTGGTCAGAGCACAGTTTGGTTTTATACATTTTAGGGAGACATGAGACATCAGT
Celera SNP ID:            hCV26262801
SNP Position Genomic:     153879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,17)      total(C,1|T,17) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36330):
TATGTGCGTGTGTGTTTGCATGTGTGTGTTTGCATGTATGTGTTGGCATGTGTGTTTGCGTGTGTGTGTGCGTTTGCGTGTGTGTGTTTGCGCGCGCGCG
Y
GTGTGTGTGTGTCTAAATGGCTTCTTTGTTACTACTATCAACTGTCATCGGCAGGTCCTTTGGCGTGGTCCTTTGGGAAATCACCAGCTTGGCAGAACAG
Celera SNP ID:            hCV26262802
SNP Position Genomic:     154610
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36331):
GAGTGCAGTGGTGCGAGCTCGGCTGACTTCAAGCTCCGCCTCCCGGGTTCACACCATTCTCTTGCCTCAGCCTCCCGAGTAGCTAGGACTACAGGCACCC
R
CCACCGCGCCTGGCTAATTTTTTTTTTTTTTTGTATTTTTAGTAGAAATGGGGTTTCACCGTGGTCTCGATCTCCTGACCTCGTGATCCACCCACCTTGG
Celera SNP ID:            hCV26262803
SNP Position Genomic:     155465
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36332):
CCCAACAATCTTATTTATTGTTGAGACCACTAAGGCTTCGAGAGGTTAAGCAACTTCTACTTCCAACACTGCCCCGCCCACCCCTTCCGCCGCGCACCCC
M
CACACATGGGTAGTAAGTAGTGGAGATGGGATTTGAAGCTGGGGATTCTGGCTCAGAATCCAAGCTCTTTACCTTTGTGTCTTATAGATGTCATTGCGGG
Celera SNP ID:            hCV26262804
SNP Position Genomic:     14986
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36333):
CTCCCTCAGGCAGCTGTTAAACATTTACAAGCTCACCAATGGTTTGGAGGCTTAAACCAGTTAATAGATGTGTCTGACATGTGGGTAATGATGTAGACGT
R
CCGCTTTTACTGTTAGTGTTTGGTTGGCTTTCACTGTCCGATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAAGCCATTTATTTATTTATTTAT
Celera SNP ID:            hCV11519092
SNP Position Genomic:     89474
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36334):
GTGACCATGGGTTAGACCATGGGATTGAAAGCCTTTTGAATAGTCTTTCTTGAGTGGCTTAAAACAGCAACTGTTTATTTATTTTCTTTTTTTGTTTGTT
K
GTTTTTGTTTTTGTTAGTTTGTTTTTTGAAATGGAGTCTCACTCTGTCACCCAGGCTGGAGGACAGTGGTGCAATCTCAGCTCACTGCAACGCTGTCTCC
Celera SNP ID:            hCV26262805
SNP Position Genomic:     162534
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:36335):
GTGACAGACTATTGTAAGTCTCCATGGCAGCCTCAGCTGACTGGGGCTGTGCTTAGCACTGAGCATGGTGGGACATTGCAGGGGATGACTTGGAGAGGCC
R
CAGGTGCTGGCCCTGGCCTTGACTCTCAGGCCTATCAGCTGCTGCGGTGCTTGCCCTCTTTGATCCTGCACTTTTTTTTTTTTTGAGATGGAGGCTTGCT
Celera SNP ID:            hCV15831546
SNP Position Genomic:     142172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36336):
GGGGTTTGCACACGTGTGTCTGATGCACTTTGCTTCACCTCTAGGGAAGCAGCTATCTCTTCCTGTGTCTCAGTGTCGGAAGGCACACACACACACACTC
M
ATTCTATCTCATATGAAAACACACATACATGTTTTTATCTATTTATTTATTTATTTTATTTTTTATTTATTTACTTTTTTGAGATGGAGTTTCACTCTTG
Celera SNP ID:            hCV8356157
SNP Position Genomic:     111377
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36337):
AGAATACTGACCTCTGAGCCCACTGCCTGGTCCCACTGCACCTACGGGACTGTTTCGGGACTGCTGGAAAATCAGGATGTGGAAGAGCAGCAGAGAGGTT
Y
ATGGACAAGGGAGGGAAGGAACAGGGTGGCCCACCCATTCCAGGAGTGGATGTGATTTTTGATGTGAACTTTGTTGGAAACACATTGATATGAAACATAT
Celera SNP ID:            hCV15831547
SNP Position Genomic:     145169
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,34|T,6)   total(C,70|T,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36338):
TTATCTGAGCCCAACGCTCTGGGGAAGCCACCCAGAGTGAGTGAGTCCTTAAATAGACCTAAATAGAATCCTTGGAATTGTCTGTGAGGACTCCCTTGGA
R
CCCCCAGCATGAGTCCTTCCATGGGACATGTTGGATGGTTGGAAATCGGGAGTGGGATAGTTGAAAAAGGAAGATGGGTTAGTGAAGGGTGGTGGGAGAG
Celera SNP ID:            hCV8352013
SNP Position Genomic:     9405
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36339):
TGATGAGTTTTGAACATGTATTGTCTTTGCTTTTAGGATAATTTATTTAATTGTAAGCCTCTATAATTTATATTTTTTGTTCTATTTGGAAGGCATTGTA
M
AATTTAATCTTTAATGATGCTTGTATTTAACAACTGGCTCACTAGTTTCCTGAAAATTTAATAATTGTTTCTCATCAGTCGGGATGAGCTCGCTCTAGAA
Celera SNP ID:            hCV15831548
SNP Position Genomic:     146880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36340):
GACCTGTGGGCCAAATCCAGTCCGCCAGCTGCTATTTTTGTATGACCTATGAGCTAAGAATTTTTTATTTTATTTTTATTTTTAGAGATGGGGTCTCACT
S
TGTCGCCTGGGCTGGAGTGCAGTGGGGTGATCATAGGCCACTGCCACCTCAGTCAGCCTCCTCAGTAGCTGGAACCACAGGCAGGCACCACCACGCCCAG
Celera SNP ID:            hCV26262809
SNP Position Genomic:     15939
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,6)   total(G,5|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36341):
GAACATCACCCGGGGTTCTGTCCGCATCGAGAAGAACAATGAGCTCTGTTACTTGGCCACTATCGACTGGTCCCGTATCCTGGATTCCGTGGAGGATAAT
Y
ACATCGTGTTGAACAAAGATGACAACGAGGAGTGTGGAGACATCTGTCCGGGTACCGCGAAGGGCAAGACCAACTGCCCCGCCACCGTCATCAACGGGCA
Celera SNP ID:            hCV8352014
SNP Position Genomic:     6835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36342):
TGCCCGCCCCCGTACTACCACTTCCAGGACTGGCGCTGTGTGAACTTCAGCTTCTGCCAGGACCTGCACCACAAATGCAAGAACTCGCGGAGGCAGGGCT
R
CCACCAGTACGTCATTCACAACAACAAGTGCATCCCTGAGTGTCCCTCCGGGTACACGATGAATTCCAGCAAGTGAGTTCTGGATGTGGGTCTGGGGGGC
Celera SNP ID:            hCV27862805
SNP Position Genomic:     89875
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36343):
CACTATAACCCCAAACTCTGCTTGTCAGAAATCCACAAGATGGAAGAAGTTTCAGGAACCAAGGGGCGCCAGGAGAGAAACGACATTGCCCTGAAGACCA
R
TGGGGACCAGGCATCCTGTAAGTCACTGGTCCCCAACCTTTTTGGCATGAGGGACCGGTGTAGTGGAAGATGGTTTTTCCATGGACTGGTGGTGGGTGGG
Celera SNP ID:            hCV27862806
SNP Position Genomic:     103710
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36344):
GCAGGTGCGCCTCCTGGGAGTGGTGTCCAAGGGCCAGCCCACGCTGGTGGTGATGGAGCTGATGGCTCACGGAGACCTGAAGAGCTACCTCCGTTCTCTG
Y
GGCCAGAGGCTGAGGTAAGCTGCTTCGGGGGACCCAGCGGGGTACTCGGTGGAGCACCCGCTCCTGGCCTCCTCGGATCCCAGTGCTGCTGAAACACCAA
Celera SNP ID:            hCV27862807
SNP Position Genomic:     151355
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36345):
TAGGGCTCTGTGAGAGGTGGGGCAGTCAAGGTGGCAGATGCTAGGACCAAGGCTGAAGGTTAAGAGCGTGTGAACCTTTTGTGTTGTCAGACTTTGGAAT
R
ACCAGAGACATCTATGAAACGGATTACTACCGGAAAGGGGGCAAGGGTCTGCTCCCTGTACGGTGGATGGCACCGGAGTCCCTGAAGGATGGGGTCTTCA
Celera SNP ID:            hCV27862808
SNP Position Genomic:     153509
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36346):
GCTGCAGACCCCCAAGGGATCCTCCAAGGATGCTGTGTAGATAAGTAAGAAGTAGTGTTTCCATGCTCTGTGTACGTGCCGGACGAGTGGGAGGTGTCTC
R
AGAGAAGATCACCCTCCTTCGAGAGCTGGGGCAGGGCTCCTTCGGCATGGTGTATGAGGGCAATGCCAGGGACATCATCAAGGGTGAGGCAGAGACCCGC
Celera SNP ID:            hCV11968441
SNP Position Genomic:     148762
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36347):
ACGGATTACTACCGGAAAGGGGGCAAGGGTCTGCTCCCTGTACGGTGGATGGCACCGGAGTCCCTGAAGGATGGGGTCTTCACCACTTCTTCTGACATGT
K
GTGAGTTGTGTGTGGATGGGTGGATGGACGCTGGGCTTGAATTCCAGGTGCTAGTGAGAGCCAAGAGCGGGGGAAGGAAGCCTGCCATCCTCCTGGACGC
Celera SNP ID:            hCV27862809
SNP Position Genomic:     153628
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36348):
TTTGCCCCAGAGAATGGGTATGCCATTCTCTCTCATAAGCTGTACTCTCTTATTATCAGTAATTTCTAAATAGCCTGTAAAATTTATATGGACTCAAAAT
R
CAGGAAACATCGATAGGTTGAAACTCAACAACTTGTAAAAAGTTACTCCTGTACTTAATTGCATAAAATGTGTATTGCCTACATGAATGAGAATAAAAAC
Celera SNP ID:            hCV7752816
SNP Position Genomic:     73177
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,13)      total(G,13|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36349):
CCTCCGCCTCCTGGATTCAAATGATTCTCCTGCCTCAGCCTTCCGAGTGACTGGGACTTATAGGCACCAGCCACCATGCCCGGCTAAGTTTTGTATTTTC
R
GGACAGAGGGGGCTTTGCCATGTTGGCCAGGATGGTCTCAAACCCCTGGCCTCGAGCAATACACCCACCTCAGCCTCGCAAAGTGCTGGGATTACAGGTG
Celera SNP ID:            hCV2931871
SNP Position Genomic:     11206
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36350):
ATCATGTTCCATTGTATGGAGGGAGCACATTTTGCCTGTGTATTCATCCATCTACGGGCACTTGGTCGCTTTCACATTTCTGCCATTGTGAATCAGGGCC
R
CTGCTGTTGACGCATCTAGCTTTTCAATGCCTGCATTAACCTTGTTGCTGAGGCTTTAGGAAACTTATTTATTTATTTATTTTTTGAGACGGAGTTTTGC
Celera SNP ID:            hCV2931872
SNP Position Genomic:     11763
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36351):
ATGGTTAGGGGAATTAAAAGAAAAACAAAAAAACATGGCATGTGCTAATGATCCATAGCCTGGACACCCTCTCTCCATTATCCTGCAATGGATTTGGGGC
R
AAGATACCAGGAGAGGTCCAATGCACGAAGCCTTACATGGGAAGAGTGGAGACGGGGTCTATGCAGTTCGTTTATTGACTGCCTACTAGGTGTCATGTTC
Celera SNP ID:            hCV2931873
SNP Position Genomic:     12891
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;TSC_42_A(G,15|A,67)   TSC_42_C(G,32|A,48)   total(G,47|A,115)
SNP Type:                 INTRON


Context             (SEQ ID NO:36352):
CCACTGGCATTTTCTTTCTGGGAGGTCACCCCAGCTGCTCACTGCCGGCCAGAGGGGTGGGTGAGGCCGGGACATGCTGGGTGCCAGGGGAAACCAACCC
R
AGATGCCACATATGGACGTCGGCACCAAAGCAGGAGGGGGAGGCTGAAAGCAGCAAATCCCTCCTCCCTGGGTCTGAGATTACAGCTCCGAGTCAAAGTC
Celera SNP ID:            hCV2931875
SNP Position Genomic:     14036
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36353):
AGCTGGGATTACAGGCACGTGCCACCATGCCTGGCTAATGTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGCCTAGGCTGGTCTTGAACTCCTG
R
CCTCAAGTGATCCGCCTGCCTTGGCCTACCAAAGTGCTGGGATTACAGGTGTGAACCACTACTCTGGGCTTGCCTTGGTATTTTAACAATCGGAATTGTC
Celera SNP ID:            hCV2931877
SNP Position Genomic:     14714
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36354):
CCAGGATTGGAATTATTTATTTATTTATTTAGTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGAAGTGCAGTGGCGCAATCTCGGCTCACTGCAACCCC
Y
GCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCACCACCACACCCGGCTAATTGTTGTGTTTTTTTTGTA
Celera SNP ID:            hCV2931879
SNP Position Genomic:     17952
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36355):
TTTTTCTTTTTCTTTTGTTTTAAAGAAAAACACACCGTTTTTTAAACACGGTTGCCCGAACTCTCATCTTCTTCCTCCCTGCCCTCCCTCCCTCCCTCCT
Y
TCCTTCCTTCCTTCCCTCCCTCCTTCCTTCCTTTTTCTTTATTTCCTCCCTTCCTTCCTTCTCTCCCTCCCTCTCCCTTCCTCCCTTTATCCTTCTCTCT
Celera SNP ID:            hCV26262810
SNP Position Genomic:     23733
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36356):
CTTCCTTCCTTTTTCTTTATTTCCTCCCTTCCTTCCTTCTCTCCCTCCCTCTCCCTTCCTCCCTTTATCCTTCTCTCTTTCCTTCCTTCCTTCTCTTTCT
Y
TTCTTTTCTTCTTTCTTCCTTGCTTTCTTTTTATTTCTTACCTCCCTTCCTCTCTCCCTTCCTCTCTCCCTCCTCCTTCCTCTTTCCCTTTCTCCCTCCT
Celera SNP ID:            hCV26262811
SNP Position Genomic:     23856
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1|C,1)   total(C,1|T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36357):
TCCTGACCTCGTGATCCGCCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCGCTAATTTTTTTTTAATTTATTTTTT
R
TACAGATGGAGTCTCACTATATTGCCCAGGCTGGTCTTGAACTCCAGGGCTCAAGCAGTTCTGGCACACTAGCCTCCCCCAATTCAATGGGATTACAAGT
Celera SNP ID:            hCV26262812
SNP Position Genomic:     24615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36358):
CTCACCTGTCTTGCTTTCTGTTCATTTTCTCTTGTAGTGTGTCCCGGCATGGATATCCGGAACAACCTCACTAGGTTGCATGAGCTGGAGAATTGCTCTG
Y
CATCGAAGGACACTTGCAGATACTCTTGATGTTCAAAACGAGGCCCGAAGATTTCCGAGACCTCAGTTTCCCCAAACTCATCATGATCACTGATTACTTG
Celera SNP ID:            hCV27531256
SNP Position Genomic:     6488
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36359):
TTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTGGAACTCCTGACCTCATGATCCACCTGCCTTGGCCTCCTAATGTGCTGGGATTACAGG
Y
GTGAGCCACCGCGTCTGGCCTGTTTTTTTGTTTATTTCCATAGGTTTTGGGGGAACAGGTGGTATTTGGTTATATGAGTAAATTATTTCGTGGTGATTTG
Celera SNP ID:            hCV26262813
SNP Position Genomic:     37037
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36360):
GGAATAATAATTGCCGATGTGTGGCAGACTTACCAAATACTAGACCCTGTGCTAAGTGTTTTATATCTATTATTTTATTTAATTTTCTTGGTCACTGCAT
R
ACATATGCTCTGTTAGTCCCAGTTTTTCGAATGGGCATAACAAGACCGAACCTACCTAGAGTTGGCACAAGTTGTAAAAATAGGATCCGTGGCCGGGCAC
Celera SNP ID:            hCV28029325
SNP Position Genomic:     53591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36361):
TGAAATATGTCTATAGAAACCCACTGGATATTCTCTCCTTTCCTTAGACAATCTGGCAGCTGAGCTAGAAGCCAACCTCGGCCTCATTGAAGAAATTTCA
R
GGTATCTAAAAATCCGCCGATCCTACGCTCTGGTGTCACTTTCCTTCTTCCGGAAGTTACGTCTGATTCGAGGAGAGACCTTGGAAATTGGGTACGTGGG
Celera SNP ID:            hCV27531257
SNP Position Genomic:     101883
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36362):
GCCTGGGCAATACAGAAAGAGCCTATTTCTACTACAAATATAAAAATTAGCTGGGCATGGTGACATGCACCTGTAGTCGCAGCTACATGGGAGGCTGAGG
Y
GGGAGAATCGCTTAAGCCCAGGAAGTCGAGGCTGCAGTGAGCTGTGACTTGCTACTGCACTCCAGCCCATGCAGCTGAGCGAGATCCTCTTTCAAACAAA
Celera SNP ID:            hCV28029326
SNP Position Genomic:     63100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36363):
CCTGCCACCATGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCC
Y
GCCTCGGCCTCCCAAAGTGTTGAGATTACAGGCATGAGCCACCGTGCCGGGCCTTGTATCATTCTTAAGACTTTGCATCCTCATAGGTTAGCTCCCACTT
Celera SNP ID:            hCV26262814
SNP Position Genomic:     37496
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36364):
CTATACATTTCTGTTCATCTTAAGGTGGACTCGTTTGGTTACCAATTTAACTAGTCCTGCAGAGGATTTAACTGTGAACCTGGAGGGCAAGGGGTTTCCA
Y
AGTTGCTGCTCCTTTGGGGCAACGACGGTTTCAAACCAGGATTTTGTGTTTTTTCGTTCCCCCCACCCGCCCCCAGCAGATGGAAAGAAAGCACCTGTTT
Celera SNP ID:            hCV15831555
SNP Position Genomic:     157416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:36365):
CTCCTGTATACTTTAAATCATCTTGGTCTGGCAGTGTGGCTCACACTTGTAATCCCAGCACGTTGGGAAGCAGAGGTGGGAGGATTACTTGAGCCCAGGA
S
TTCAAGACCAGCCTGGGCAACATGGCGAGACCCCCATCTCTACAAAAAATTTAAAAATTAATTGGGTGTAGTGGCATGTGCCTGTAGTCCCAGCTACTCA
Celera SNP ID:            hCV26262816
SNP Position Genomic:     39865
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36366):
ACTCACAGTGAGTAAGGGAAAGTCCTTACCTTGATGGATTTTTGCGCATAAGTAAATCGACAGATATTGTAAGGTCAGGTTGTGGTCTGTGCTGTGAAGG
S
AAGTGCAGCAGGGTAATAGGTGGAATGGAAATGGGCAACTTTTCCCTATAAAGGGCTCTTTCATGAATATATTCAGCCTGGCAGGCCGGGCAGTCTCTGC
Celera SNP ID:            hCV3299725
SNP Position Genomic:     101105
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36367):
GTTCTTTAACTACGCGCTGGTCATCTTCGAGATGGTTCACCTCAAGGAACTCGGCCTCTACAACCTGATGAACATCACCCGGGGTTCTGTCCGCATCGAG
W
AGAACAATGAGCTCTGTTACTTGGCCACTATCGACTGGTCCCGTATCCTGGATTCCGTGGAGGATAATTACATCGTGTTGAACAAAGATGACAACGAGGA
Celera SNP ID:            hCV27540722
SNP Position Genomic:     6766
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36368):
ACATAGTGAAACCCCATCTCTACTAAAAATAAAAAAAATTAGCTGGACACCATAGCGCGCCTGTGGTCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATC
R
CTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACCACTCCAGCCTGTGTGACAGAATGTGACAGAATGCGGGCACATCACGAG
Celera SNP ID:            hCV26262817
SNP Position Genomic:     40287
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36369):
GCAGGTGGATCACGTGAGGTGAGAAGTTTAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCAGGCTTGGTG
R
TGCGTGCCTGTAATCCCAGCTACGCAGGAGGCTGAGGCAGGAGAATCGTTTGAACTCAGGAAGTGGAGGTTGCAATGAGCTGGGATCGCGCCACTGCACT
Celera SNP ID:            hCV3299726
SNP Position Genomic:     100494
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36370):
CCTCCCCCTACCCTTCAAGAGATGATTCAGATGGCGGCAGAGATTGCTGACGGGATGGCCTACCTGAACGCCAAGAAGTTTGTGCATCGGGACCTGGCAG
M
GAGAAACTGCATGGTCGCCCATGATTTTACTGTCAAAATTGGAGGTTCGTCTGGCTTTCTGCTTTGAAAACATAACGACCCAGGCCAGGTTTGATTTCAG
Celera SNP ID:            hCV27540723
SNP Position Genomic:     151590
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36371):
GTTCTCCGGGATCTGTTTCCTCTTTTGTAAAATGGGAACCAAAAGGTATCACAGGCTGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGC
Y
GAGGTGGGTGGATCACCTGAGGTCAGGAGTCCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTATTAAAAATACAAAAATTAGCCAGGTGTGGT
Celera SNP ID:            hCV26262818
SNP Position Genomic:     41049
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36372):
TTTTGTTATCAGGCAGCTTCTCCCTCACCCTTCACCCCATGCTAGCAAGATGGCAAAACCCTTAGATACTCCAGAAGGAAGACAATTTCCCCTTCCAGCA
Y
GTTCTAGCAAAACCCTCACTGCACTGACTTAAGTTCTGTACCCACCACCTCTGAGCCCCCACAGGAATAGAAGGTGGTGCTCAGCTTGGCTTGGATCTTG
Celera SNP ID:            hCV3299727
SNP Position Genomic:     96995
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36373):
GTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTCCAAGACCAGCCTGGCCAACATGGTGAAACCCC
R
TCTCTATTAAAAATACAAAAATTAGCCAGGTGTGGTGGCTGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAA
Celera SNP ID:            hCV26262819
SNP Position Genomic:     41113
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36374):
GCGTGTGTGTGTTTGCGCGCGCGCGTGTGTGTGTGTGTCTAAATGGCTTCTTTGTTACTACTATCAACTGTCATCGGCAGGTCCTTTGGCGTGGTCCTTT
S
GGAAATCACCAGCTTGGCAGAACAGCCTTACCAAGGCCTGTCTAATGAACAGGTGTTGAAATTTGTCATGGATGGAGGGTATCTGGATCAACCCGACAAC
Celera SNP ID:            hCV27862810
SNP Position Genomic:     154685
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36375):
CCAGGCTTGGTGGTGCGTGCCTGTAATCCCAGCTACGCAGGAGGCTGAGGCAGGAGAATCGTTTGAACTCAGGAAGTGGAGGTTGCAATGAGCTGGGATC
R
CGCCACTGCACTCTAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAGCCAGGCGCTGTGGCTCATGCCTGTAATCCC
Celera SNP ID:            hCV2942376
SNP Position Genomic:     100582
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36376):
GGATCACGTGAGGTGAGAAGTTTAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCAGGCTTGGTGGTGCGT
R
CCTGTAATCCCAGCTACGCAGGAGGCTGAGGCAGGAGAATCGTTTGAACTCAGGAAGTGGAGGTTGCAATGAGCTGGGATCGCGCCACTGCACTCTAGCC
Celera SNP ID:            hCV2942377
SNP Position Genomic:     100500
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36377):
AGATGAATTGCCGTTGGCCTTTGTAAAAGAGGAGAGATTGTTCCAGATTGGAGTGGCAGAGATGTGCTTTGGTTTGGGTGGCAAGGATCACAAAGAAAGA
R
GATGAGGTTGGGTGTGGTGGGTCATACCTGTAAACCCAGCACTTTGGGAGGCCGAGGCAGGAGGATCACTTGAACCTAGAATTCGAGCTCAGCCTGGGCA
Celera SNP ID:            hCV2931880
SNP Position Genomic:     18449
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36378):
ACAAACAAAAACAGAAGGAAGGAAGGAAGGAAAGAAAGAAAGAAAGAAAGAGAAAAGACAAGACAAGAAAAAAAAAAAAAAAGAAAAGACAGGGTGAGAG
R
GAAGGGTATTCGGGTGGATGAAATGGCAAAGAGAAGGCCAAGAGGCGTTTTGTGGGCAAGAGTGAAGAGGGTGCCTCATGCCGGGAAGGGAGGCTTGGAC
Celera SNP ID:            hCV2931881
SNP Position Genomic:     18846
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36379):
ACTCCAGCCTGGGTGACAAGAGTGAAACTCCATCTGAAATAAAATAAAATATAAAAGTTAAAGCAGTCATCCTGGCTTTTAGGAACCCGCAGAATCAGGA
R
GTAAGCTAAAAGTCGTCTCCCTTTTGTCACGATGGAATGTGAAATAGGTGCATTTTCCTTCTGACTTATGATTCTGTTTCACGGTGCCTCTGCAGAAATT
Celera SNP ID:            hCV7752829
SNP Position Genomic:     70453
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36380):
CAAACAAAAACAGAAGGAAGGAAGGAAGGAAAGAAAGAAAGAAAGAAAGAGAAAAGACAAGACAAGAAAAAAAAAAAAAAAGAAAAGACAGGGTGAGAGG
R
AAGGGTATTCGGGTGGATGAAATGGCAAAGAGAAGGCCAAGAGGCGTTTTGTGGGCAAGAGTGAAGAGGGTGCCTCATGCCGGGAAGGGAGGCTTGGACC
Celera SNP ID:            hCV2931882
SNP Position Genomic:     18847
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36381):
GCGGGGACCGGGGAGGGGGGCCGGGGGAGGCTGAGGGCTATCAGTTGAAACTGACCTTTTGGCCCAATCCTTTTGGGAAGAAGGCGGGTAGAGTTAAAAT
S
CATCGTAATGGAAAGGCGGCTTTCCCTTTGGCTGTCTGCTAACTTGGTGACTGGCCTGACAAGTTTTTCTTTTCCTTCCTCCTACCTGATACTCACTGAC
Celera SNP ID:            hCV2931883
SNP Position Genomic:     19400
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36382):
GTTACTTCCCATGTCACCCGACCCTTTGTCAGAATTAAAATCTGTTCTTTGTGACTGAACACCTGAAATGCCCCGGGGAGGACCCAAGGAAGTCAGCGAG
Y
GCCTGTGCGTCAGGCTGGCAGCCCAGGTCCTTCAGTGATCTGTTTCTCTCAATGCGCCTGTGTCAGATAGAACCGTGCATTTCCCAGTAAAAGGAGGTGA
Celera SNP ID:            hCV2931884
SNP Position Genomic:     19603
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36383):
TTGTGTTGTCAGACTTTGGAATGACCAGAGACATCTATGAAACGGATTACTACCGGAAAGGGGGCAAGGGTCTGCTCCCTGTACGGTGGATGGCACCGGA
S
TCCCTGAAGGATGGGGTCTTCACCACTTCTTCTGACATGTGGTGAGTTGTGTGTGGATGGGTGGATGGACGCTGGGCTTGAATTCCAGGTGCTAGTGAGA
Celera SNP ID:            hCV11968458
SNP Position Genomic:     153587
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36384):
TTTCTTATCTCCCTGAACCTAGTAATATTTTCCTCTAGGAATCTACTTTGGGGAAGTAATAAGACAATCAGACAATGATCAAAGGAATATTTATAACAGC
A
AAAAAAAAAAAAAAGAGCCATGTGCGGTGGCTCATGCCTGTAATCCTGGCACTTTGGGAGGCTGAGGTGGGCAGATCACCTGAGGTCAGGAGTTTGAGAC
Celera SNP ID:            hCV11514670
SNP Position Genomic:     129521
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36385):
TTAAAATCTGTTCTTTGTGACTGAACACCTGAAATGCCCCGGGGAGGACCCAAGGAAGTCAGCGAGCGCCTGTGCGTCAGGCTGGCAGCCCAGGTCCTTC
W
GTGATCTGTTTCTCTCAATGCGCCTGTGTCAGATAGAACCGTGCATTTCCCAGTAAAAGGAGGTGATGTGTGTGCTGGAGTTTCAAGATTGTACCCCTTA
Celera SNP ID:            hCV2931885
SNP Position Genomic:     19637
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36386):
CCAAACACATTCAGCACGTTACACAGAGTATCTCATTGATCACATTTTATTACCTCTAGGAAATTTTGAGAGGCCCCATTATTTTTATGGACAGCTAGGC
A
AAAAAAAAAAAAGGGCCGTTAATTCTAATTTTATTTTTTTCGTAGAATATAGATCCTGAGTACTGTTAAGTGTTTGTAAAATGCATTGCTTGTAAGATGC
Celera SNP ID:            hCV11514671
SNP Position Genomic:     133454
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36387):
TGCAGCCTCAGCCTTTTGGGCTCAAGCAATCCTCCAGCCTCAGCCTGGCCAGTAGCTGGAACTATGGGTGCATGCCACCACGCCCAGCTAATTTTATTTA
Y
TTATTTACTTATTTATTAAAGAGATGGAGTCTTGCTATGTTTCCCAGGCAGCTCACAAATTCCTGTCCTCAAGTGACCCTCTCGCTTCAGCCTCCCCCAT
Celera SNP ID:            hCV2931886
SNP Position Genomic:     19963
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36388):
AAAGCAAAACCTCGTATCAAATAATTAAATAAATAAATAAACAAATAAATAAATAAAAAATTACACTGTAGGGCATGTGGTAGGTGAAGCCCACCATTGT
Y
AAGTACCTACCTAGAGGGTTTGGGGTAGAGGGTCCTGTGGCTTCTTCTATTTTTTTTTTTTGGCGGAGTCTCACTCTGTCACCAGGCTGGAGTGCTGTGG
Celera SNP ID:            hCV2931887
SNP Position Genomic:     21160
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36389):
CCGCGCCTGGCTGTGGCTTCTTTATCCTAGAAGTTTCTTTGCCTCTCGTTTTGTCCCAGGCGAGGAGGGTCTTGGATCTTTAATGACTCCATGGCTTATT
R
AGTGTAGCCCAGAAAGAATGGTTGTTTAATAGGCTTTATTACCGAGTGTTTCCAAGGGCTTACCTGGGGAAGGAAAACATTTTTACTCGGAGGTCTGATA
Celera SNP ID:            hCV2931888
SNP Position Genomic:     21588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36390):
CAGGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCGGACCTCAGGTGATCCACCCACCTCAGCCACCCAAAGTGCTACAATTACAGGCGTGAGCCA
Y
CGCACCTGGGCTATTTTCACTTCTTTCGAAGTTATACCTAGGAGTGGAATCGCTGGGTCAGTTGGTAATTCTATATTTAATTAATGGAATCAAGATTTCT
Celera SNP ID:            hCV2931889
SNP Position Genomic:     22330
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36391):
CTGAGGTGGGAGAACGGCTTGAACCCAAGAGGGAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGTGGCAGAGCGAGACTGGTCTC
A
AAAAAAAAAAAAATTTTTTTTTGTTCCAGTCTATTCTGGTGGCTTAGAGGAGGGAAGATGGGAAATTTTGGGTTTAATAGAGTAATATCCATCAGGTTGA
Celera SNP ID:            hCV26262820
SNP Position Genomic:     50310
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36392):
TGAGGTGGGAGAACGGCTTGAACCCAAGAGGGAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGTGGCAGAGCGAGACTGGTCTCA
A
AAAAAAAAAAAATTTTTTTTTGTTCCAGTCTATTCTGGTGGCTTAGAGGAGGGAAGATGGGAAATTTTGGGTTTAATAGAGTAATATCCATCAGGTTGAG
Celera SNP ID:            hCV26262821
SNP Position Genomic:     50311
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36393):
GAGGTGGGAGAACGGCTTGAACCCAAGAGGGAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGTGGCAGAGCGAGACTGGTCTCAA
A
AAAAAAAAAAATTTTTTTTTGTTCCAGTCTATTCTGGTGGCTTAGAGGAGGGAAGATGGGAAATTTTGGGTTTAATAGAGTAATATCCATCAGGTTGAGG
Celera SNP ID:            hCV26262822
SNP Position Genomic:     50312
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36394):
AGCTACTCATCCCGGCTGGCTGCAGAGTTTACAGGGCCCGGGATGAAAACACAGGGCCCAGGTTTCCTGTCCATGAAGCCGGCTCTGCCCCTGATCCTTC
Y
GATGCATCCACCGTGCGTCTGCTCACCTGTCTTGCTTTCTGTTCATTTTCTCTTGTAGTGTGTCCCGGCATGGATATCCGGAACAACCTCACTAGGTTGC
Celera SNP ID:            hCV27838042
SNP Position Genomic:     6366
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:36395):
CTCCAAAGTTAGCATCAGACGCCACAAGTTTAAGGCTCAGCCCTCCATGAGATTTCCCTTGCTTCAGACACTGGCAGCATCTTGGGGATCCCCCAGCCAC
M
CACACTTCTGACTAACTGGCTCTAAATTGGGGGATTCCCACAAACTGTTTGGGTTTCATAATTTACTAGAAGGAACTCACAGAATGAAAATAAACCTGGC
Celera SNP ID:            hCV3299731
SNP Position Genomic:     94954
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,7)   total(A,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36396):
CGCCCTCCTTAGTCTCCCAAAGTGCTGGCATTACAGGCATGAGCCACAGTGCCCAGACAGTTTTAGCCAGTTTTTCACTGGCCTCCCTCTTTGCCTTTTT
K
GCAAGGGAGCTGGCCTCCCTGTCCCTGGAGTAAGCAAACTTCCTTATACCTATAGCTTCCTCTAAGGAAGCGTAGTTACCTACAGCCTGGCCCTCCCCAA
Celera SNP ID:            hCV26262823
SNP Position Genomic:     51416
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36397):
GGGTCTCTCTCCATAAGTCTCTTACCCCAGCAGCCAGGAAGGGCAGACCTCAATGTTCAAGTGCTTTTCAAGCCTCAGCTTGTATCACGTTTGCAAATAT
W
CCATTGGCCAAAGCAAGCCATATGGCCAAGCCCAGATTCAACAGGTGGGAACATAGACTCCACTTCTTGGTGGGAGAGGCTGCAAAGAACTCATGGTCAT
Celera SNP ID:            hCV3299732
SNP Position Genomic:     94340
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36398):
TAGTCTCCCAAAGTGCTGGCATTACAGGCATGAGCCACAGTGCCCAGACAGTTTTAGCCAGTTTTTCACTGGCCTCCCTCTTTGCCTTTTTTGCAAGGGA
K
CTGGCCTCCCTGTCCCTGGAGTAAGCAAACTTCCTTATACCTATAGCTTCCTCTAAGGAAGCGTAGTTACCTACAGCCTGGCCCTCCCCAAGGACACAGC
Celera SNP ID:            hCV26262824
SNP Position Genomic:     51425
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36399):
AAACCACCTCAGTGCTTAGTGGCTTAAAACACTCCTTTAGGAGCTCTGATGATTTCATGTGTTGACTGAAGGTTTGTCTGGCCTGGGCCTGTTTAGCTAC
R
GCTGATGGTTTAGGGGAGCCTCTTGTGTCTTTGATGGTCAGTGGGGGTCTCTCTCCATAAGTCTCTTACCCCAGCAGCCAGGAAGGGCAGACCTCAATGT
Celera SNP ID:            hCV3299733
SNP Position Genomic:     94195
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36400):
CATGAGCCACAGTGCCCAGACAGTTTTAGCCAGTTTTTCACTGGCCTCCCTCTTTGCCTTTTTTGCAAGGGAGCTGGCCTCCCTGTCCCTGGAGTAAGCA
R
ACTTCCTTATACCTATAGCTTCCTCTAAGGAAGCGTAGTTACCTACAGCCTGGCCCTCCCCAAGGACACAGCTGTTTCCTCCACCAAGAGCAAGGAGTGG
Celera SNP ID:            hCV26262825
SNP Position Genomic:     51453
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36401):
TGGATAAGTACTGGTCTGTGGCCCAGGGGCTGGGGACCCCTGCTGTAAGTGGTCCACAAACCAGATAATGTGGCTGTCCTCTCTCATCCATCACAGTCAC
Y
CCCAGGGGGTATTACTTCCCTCTAACAACTCACTGTGTGATAGGCTTTCTTACTGAGGGCAGATTCTGCACATTTATTAATATTATCACTATGCTTACTG
Celera SNP ID:            hCV8356175
SNP Position Genomic:     104322
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,14)      total(C,14|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36402):
TTTACCGAGGACATAGGCTCAGAGTGTCTTCTAGCTTTCAACCCACCCCAGACTCTGACTTAGCCTTTCCCAAATGGTGCTGTGCAGAAAAATGAAAAAA
T
TGCTAGGAGGATCATGTGCCTGGTGGATAGTACATGCTTGATAGCTGTAAACAGTTGGTGCTCAATATATCGTGGCTTGTGGATCTTCCCAGCTGCTTCA
Celera SNP ID:            hCV26262826
SNP Position Genomic:     52243
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36403):
CGCTAATCTGACAGGAGGCAGAACTCAGGTGGTCATGCAAGCGATGGGGAGTGACTGTAAATACAGATGAAGCTTCACTTGCTCACCTATCACTCACCTC
S
TGCTGTACAGCCCTGTTCGTAACAGGCCATGGATAAGTACTGGTCTGTGGCCCAGGGGCTGGGGACCCCTGCTGTAAGTGGTCCACAAACCAGATAATGT
Celera SNP ID:            hCV8356176
SNP Position Genomic:     104192
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,12)      total(G,2|C,12) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36404):
GGCAGGAGAATCACTTGAACCCGGGAGGCGAAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAA
W
AAATAAATAAATAAATAAATAAATAAATACAGGAAAAGGAAGCTCGGTAGTTTTCAGGGGCTGCTGGCGTTTCCAAGCTTTAGGCATTTTGCTTTGAGTC
Celera SNP ID:            hCV26262828
SNP Position Genomic:     58690
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36405):
TAATTAGCTGGGCATGGTGGTGGGTGGCTGTAATCCCAGCTACTTGGGAGGCAGAGGCAGGAGAATTGCTTGAAACCGCGAGGCAGAGGCTGCAGTGAGC
Y
GAGACTGTACCACTGCACTCCAGCCTGGGCCACAGAGTAAGACTCTGTCTCTCTCTGTCTCTCTGTCTCTGTCTCTCTCTCTCCATATATACATATATAT
Celera SNP ID:            hCV26262829
SNP Position Genomic:     63480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36406):
CTAATGAAGTTCCCTCTGTCCTCAAAGGCGTTGGTTTTGTTTCCACAGAAAAACCTCTTCAGGCACTGGTGCCGAGGACCCTAGGTATGACTCACCTGTG
Y
GACCCCTGGTGCCTGCTCCGCGCAGGGCCGGCGGCGTGCCAGGCAGATGCCTCGGAGAACCCAGGGGTTTCTCTGGCTTTTTGCATGCGGCGGGCAGCTG
Celera SNP ID:            hCV25473382
SNP Position Genomic:     123788
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,38)   total(C,64|T,4)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:36407):
ATCACAATTGAAATAAAAAAAATGGGTTAATATCTTCTGGCAAGATGTTTGTTTAAAAGACATTGGCCTTAAATAAAAGGCATTTTTCCCTCACCTTAAC
W
ATGGCCTGAGAAATATAGCAACCTCCTTTGATTTTCTCACTGATGATGCGGGAGATGCTAAAACAGAAACCCTGAGAAATTGACCGCACATCCTTGGTAT
Celera SNP ID:            hCV2942382
SNP Position Genomic:     91521
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36408):
CTGCCTTCTGTTTGCAGCCACTGTTTGCTCACTAAACATCTCTGCACCTCCCGCGTGCATTTGCAGAGGTGGGTGGGGGTCCCCGGAGTCTGAGCTCCCC
S
CGGCTGGGTGCCCCGACCCAGCAGCTCCTACACCATGAATGGAGGTTGATCTGGAAACAGAATATTTTCATGAAAGGGCGACAGGGTATGAACAAAAGAA
Celera SNP ID:            hCV25473387
SNP Position Genomic:     124135
SNP Source:               Applera
Population(Allele,Count): african american(G,24)   caucasian(C,5|G,11)   total(C,5|G,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:36409):
ACCTGCAAGTACAATATGTTTTGTTTTGCTCGTTGTTGATAAAAACCTACCAAAAAAACCTTTTGGCTTTATTGACCAAAAGGGTCTATAAATCACCTTT
K
CATACCAGACAGACTTTTGTTTTAGGTTTTTTTTTTTTTTTTTGGCCAGTGTATTCCCAAGATTGAGGAAATGACCATATTCCTTTTGATTCATTTCTTT
Celera SNP ID:            hCV2942384
SNP Position Genomic:     91311
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36410):
GGGTTTCGCCATGTTGGTCAGGCTGGTCTCGAACTCCCAACCTCAGGTGGTCCACCTGCCTTGGCCTCTCAAAGTGCTGTGATTGCAGGTGTGAGCCACC
R
CACCCAGTCTGGCATTGTGGACCTCAGTTCTAAGCTTTCTGTGGTTGGCTTCAGAACAAGAAAATATAATAAGGACAGAGTCCTTGGTTTTCCCTAAAAT
Celera SNP ID:            hCV2942386
SNP Position Genomic:     90477
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36411):
ACGAACCTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTTTCCTGCCTCAGCCTCCCAAGCAGCTGGGACTGCAGGTGCCTGCCACCATGCCC
R
GCTAATTTTTGTATTTTTAATAGAGACAGGGTTTCGCCATGTTGGTCAGGCTGGTCTCGAACTCCCAACCTCAGGTGGTCCACCTGCCTTGGCCTCTCAA
Celera SNP ID:            hCV2942387
SNP Position Genomic:     90348
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36412):
TATATTTAATTAATGGAATCAAGATTTCTTTTTCTTTTCTTTTTTTGGTTTTACTTTAAAAAATTCTATCTTATTACATAAAAAAACCACAGGTTCAGAA
M
AGCCACACCAAACAAATGAATAGCCTAATGGTTCACTCTAACGTCAACACTCATATAATCCCTAACTCTGGTTGAGAAATAGTACTTTGCCAGAACACCC
Celera SNP ID:            hCV2931890
SNP Position Genomic:     22502
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36413):
AGTAGTCACTGTCCTGTCTTTTGTAGACATCACTTCCTTCTTTCTGTATAGTTTTATCACCCAAGTGTGAATCTGTAGACAAATATTTAGCTTTGCCCAT
W
AAAAAAAAAAATTGATGGCCGGGCATGGTGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCTGAGGCGGGAGGATCACTTGAAGCCAAGAGTTGGAGA
Celera SNP ID:            hCV2931891
SNP Position Genomic:     22756
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36414):
GATTACTTGCTGCTCTTCCGGGTCTATGGGCTCGAGAGCCTGAAGGACCTGTTCCCCAACCTCACGGTCATCCGGGGATCACGACTGTTCTTTAACTACG
Y
GCTGGTCATCTTCGAGATGGTTCACCTCAAGGAACTCGGCCTCTACAACCTGATGAACATCACCCGGGGTTCTGTCCGCATCGAGAAGAACAATGAGCTC
Celera SNP ID:            hCV27860073
SNP Position Genomic:     6680
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36415):
GTGTTTGTTTGGGTCTCTAGCAGTGGTTTTGAACTGAGGGTGATTTTTTTTGTCTCCCAGGGGACATTTGGCAATGTCTGGAGATATTTTTTGGTTGTCA
Y
AACTCCAGGGAATGTGTGTGTACTGCTTTCATTGAGCAGATGGAGGCCAGGGATGCTGTTCAACGTCCTGCAATGCAGAGACAGCCCAGCCACAAAGAAT
Celera SNP ID:            hCV2931892
SNP Position Genomic:     23186
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36416):
CTACGCGCTGGTCATCTTCGAGATGGTTCACCTCAAGGAACTCGGCCTCTACAACCTGATGAACATCACCCGGGGTTCTGTCCGCATCGAGAAGAACAAT
K
AGCTCTGTTACTTGGCCACTATCGACTGGTCCCGTATCCTGGATTCCGTGGAGGATAATTACATCGTGTTGAACAAAGATGACAACGAGGAGTGTGGAGA
Celera SNP ID:            hCV27860074
SNP Position Genomic:     6775
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36417):
CAGGGGACATTTGGCAATGTCTGGAGATATTTTTTGGTTGTCACAACTCCAGGGAATGTGTGTGTACTGCTTTCATTGAGCAGATGGAGGCCAGGGATGC
Y
GTTCAACGTCCTGCAATGCAGAGACAGCCCAGCCACAAAGAATGATCCAGCCCCAAATGTCAATAGTGCTGAGGGGCAGAAAGCCTGGTCCACAGGTTCT
Celera SNP ID:            hCV2931893
SNP Position Genomic:     23243
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36418):
TCCTCCCAGGAGCTGCATCTCTGCGTCTCCCGCAAGCACTTCGCTCTGGAACGGGGCTGCAGGCTGCGTGGGCTGTCACCGGGGAACTACAGCGTGCGAA
Y
CCGGGCCACCTCCCTTGCGGGCAACGGCTCTTGGACGGAACCCACCTATTTCTACGTGACAGACTATTGTAAGTCTCCATGGCAGCCTCAGCTGACTGGG
Celera SNP ID:            hCV27860075
SNP Position Genomic:     142016
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36419):
ATTTGGCAATGTCTGGAGATATTTTTTGGTTGTCACAACTCCAGGGAATGTGTGTGTACTGCTTTCATTGAGCAGATGGAGGCCAGGGATGCTGTTCAAC
R
TCCTGCAATGCAGAGACAGCCCAGCCACAAAGAATGATCCAGCCCCAAATGTCAATAGTGCTGAGGGGCAGAAAGCCTGGTCCACAGGTTCTCCCTCCAT
Celera SNP ID:            hCV2931894
SNP Position Genomic:     23251
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36420):
CTCCCAGGAGCTGCATCTCTGCGTCTCCCGCAAGCACTTCGCTCTGGAACGGGGCTGCAGGCTGCGTGGGCTGTCACCGGGGAACTACAGCGTGCGAATC
Y
GGGCCACCTCCCTTGCGGGCAACGGCTCTTGGACGGAACCCACCTATTTCTACGTGACAGACTATTGTAAGTCTCCATGGCAGCCTCAGCTGACTGGGGC
Celera SNP ID:            hCV27860076
SNP Position Genomic:     142018
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36421):
ATAATAACAGAACCACTTCAGGAGGTGGAGGGACATTTTAATGACACAAATGTTAAGTGCCTGGCACCTGTTGCTAGTGTCTCCATCTTTGTTACTAGAG
T
TTTTTTGGCTAGATGAGGTGGCTCACACCTGTAATCCCAGAACTTTGGGAGGCTGAGGCAACAGGATTGCTTGAGGACAGGCATTAGAGACCAGCCTGAG
Celera SNP ID:            hCV11514680
SNP Position Genomic:     144199
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,7)   total(T,7|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36422):
CAGACTTTTAGTTTTGAAAGGATGGCTTCAAAAGATACTGGGGGACATGGGCGCAGTAACTCACGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGG
Y
GGATCATCTGAGGTGGGGAGTTCGAGACCAGCCTGATCAACATGGAGAAACCCTGTCTCTACTAAAAGTACTTAATTAGCTGGGCGTGGTGGCGCATGCC
Celera SNP ID:            hCV2931895
SNP Position Genomic:     25297
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36423):
TCCCAGTGCTGCTGAAACACCAACCCCGTGTTTCTGTTTTAGAATAATCCTGGCCGCCCTCCCCCTACCCTTCAAGAGATGATTCAGATGGCGGCAGAGA
Y
TGCTGACGGGATGGCCTACCTGAACGCCAAGAAGTTTGTGCATCGGGACCTGGCAGCGAGAAACTGCATGGTCGCCCATGATTTTACTGTCAAAATTGGA
Celera SNP ID:            hCV27860077
SNP Position Genomic:     151533
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36424):
GTAATCCCAGCATTTTGGGAGGCCGAGGTGGGCGGATCATCTGAGGTGGGGAGTTCGAGACCAGCCTGATCAACATGGAGAAACCCTGTCTCTACTAAAA
R
TACTTAATTAGCTGGGCGTGGTGGCGCATGCCTGTAGTCCCAGCTACGTGGGAGGCTGAGGCAGGAGACCATCGCTTGAACCTGGGAGGCAGAGTTTGCA
Celera SNP ID:            hCV2931896
SNP Position Genomic:     25365
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36425):
TAATCCTGGCCGCCCTCCCCCTACCCTTCAAGAGATGATTCAGATGGCGGCAGAGATTGCTGACGGGATGGCCTACCTGAACGCCAAGAAGTTTGTGCAT
Y
GGGACCTGGCAGCGAGAAACTGCATGGTCGCCCATGATTTTACTGTCAAAATTGGAGGTTCGTCTGGCTTTCTGCTTTGAAAACATAACGACCCAGGCCA
Celera SNP ID:            hCV27860078
SNP Position Genomic:     151577
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36426):
GAGTGCAGTGGTGTGATCTCAGCTCACTGCAACATCCACCTCCCAGGTTCAAGTGATTCACCTGCCTCAGCCTTCCAAGTAGCTGGGACTACAGGTGTGC
R
CCACCATGCCTGGCTAATTTTTGTATTTTTAGTGGAGATGGGGTTTCATCCATGTTGGCCAGGATAGTCTTGATCTCCTGACCTCGTGATCCTCCTGCCT
Celera SNP ID:            hCV11514684
SNP Position Genomic:     151937
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36427):
GGCTGGAGAGCAGTGGTGCGATCTTGGCTCACTGTAACCTCCACCTCCCGGGTTCAAGCAATTCTCTTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGG
Y
GCCCACACCACACCTGGCTAATTTTTGTGTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCC
Celera SNP ID:            hCV2931899
SNP Position Genomic:     31685
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36428):
AAAATGGACAAAACTCAGCATTTGCCTTTCTTACCTCTCCTGAGCTGGTCTCCACGTGAGTTCCAAAACAAACTCCGTTAGACGATTAACATTTTTTTTT
Y
TCTCTCTCTCTCTCTTTTTTTTTTTGACAGAGTCTCACTCTATCGTCCAGGCTGGAGTGCGGTGGTGCGATTTCAGCTCACCCTTTCCGGGTTCGAGTGA
Celera SNP ID:            hCV15987941
SNP Position Genomic:     121864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36429):
TGGGCATGGTGGTGGGTGGCTGTAATCCCAGCTACTTGGGAGGCAGAGGCAGGAGAATTGCTTGAAACCGCGAGGCAGAGGCTGCAGTGAGCTGAGACTG
Y
ACCACTGCACTCCAGCCTGGGCCACAGAGTAAGACTCTGTCTCTCTCTGTCTCTCTGTCTCTGTCTCTCTCTCTCCATATATACATATATATTTATATAT
Celera SNP ID:            hCV26262830
SNP Position Genomic:     63488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36430):
AGCATGTAAGAGAGACTCCTACCACTTGATAATTAAAAAGAAAATGAAAACCAAAAAAACAAAAACAAAAAAACCGAAAAGGGCTGGGCACCATGGCTCA
Y
GCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGAGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACT
Celera SNP ID:            hCV26262831
SNP Position Genomic:     71516
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36431):
TCAGCATTTGCCTTTCTTACCTCTCCTGAGCTGGTCTCCACGTGAGTTCCAAAACAAACTCCGTTAGACGATTAACATTTTTTTTTCTCTCTCTCTCTCT
Y
TTTTTTTTTTTGACAGAGTCTCACTCTATCGTCCAGGCTGGAGTGCGGTGGTGCGATTTCAGCTCACCCTTTCCGGGTTCGAGTGATTCTTGTGCCTCAG
Celera SNP ID:            hCV15987942
SNP Position Genomic:     121878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36432):
TGCTCTGTCATCGAAGGACACTTGCAGATACTCTTGATGTTCAAAACGAGGCCCGAAGATTTCCGAGACCTCAGTTTCCCCAAACTCATCATGATCACTG
R
TTACTTGCTGCTCTTCCGGGTCTATGGGCTCGAGAGCCTGAAGGACCTGTTCCCCAACCTCACGGTCATCCGGGGATCACGACTGTTCTTTAACTACGCG
Celera SNP ID:            hCV27536861
SNP Position Genomic:     6581
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36433):
ATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGAGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCC
K
TCTCTACTAAAAGTACAAAAATTAGCTGAGGGTGGTGGCGCATACCTGTAATCCTAGCTACTTGGGAGGCTGAGGCAGGAGAACCGCTTGAACCCCGGGG
Celera SNP ID:            hCV26262832
SNP Position Genomic:     71608
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,11)   total(G,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36434):
GCTTAGGGGCCATGTATGGTTAGTGACTACTGAAATGGATAGAACAGATACAGAACTTTTCCATAGCTGCTGAACGTTTGTTGGACAGTGCTGTTTTAGA
R
GGAGGAATCAATAAAACAGAAAAACTAAGACAAAGGAGGGGGAGAGAACAAATATTGTAGATAAAATTAAGAATGAAGGCCTAGCGCGGTGGCTCACGCC
Celera SNP ID:            hCV26262833
SNP Position Genomic:     72258
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36435):
CACCATGCCTGTATAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTCGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCA
Y
GGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTTCCCAGCCTCTATTTTTTTAAAATTGACAAATAATAATTGTATATGTTACATATTTATGG
Celera SNP ID:            hCV26262834
SNP Position Genomic:     83197
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36436):
CCTTTTGAGAAGGTGGTGAACAAGGAGTCGCTGGTCATCTCCGGCTTGCGACACTTCACGGGCTATCGCATCGAGCTGCAGGCTTGCAACCAGGACACCC
Y
TGAGGAACGGTGCAGTGTGGCAGCCTACGTCAGTGCGAGGACCATGCCTGAAGGTAGGGCTGCTGCTCCGGGGTCCGAGTGTCATGGGTGGGACATCAAG
Celera SNP ID:            hCV16085001
SNP Position Genomic:     131371
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36437):
ACTAGATGTGTGTGTTTTTTCCATAGGAACTACTCCTTCTATGCCTTGGACAACCAGAACCTAAGGCAGCTCTGGGACTGGAGCAAACACAACCTCACCA
Y
CACTCAGGGGAAACTCTTCTTCCACTATAACCCCAAACTCTGCTTGTCAGAAATCCACAAGATGGAAGAAGTTTCAGGAACCAAGGGGCGCCAGGAGAGA
Celera SNP ID:            hCV8356183
SNP Position Genomic:     103587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36438):
TGAGGCAGGAGAATTGCTTGAACCTGGGACACAGAGTTTACAGTGAGCGGAGATGGCACCGCTGTACTTCAGCCTGGACAACAGAGCAAGACTCGGTTTC
A
AAAAAAAAAAAAAAAAGTAATAGTAAAATCAATTACAGGTACATTTAACTAGTGCAGGTTGATAAACTATCTGGCCCATCACTTGCTTTTATAAATAAAG
Celera SNP ID:            hCV26262835
SNP Position Genomic:     84577
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36439):
GCACCGCCGAAGGCCTCTGTTGCCACAGCGAGTGCCTGGGCAACTGTTCTCAGCCCGACGACCCCACCAAGTGCGTGGCCTGCCGCAACTTCTACCTGGA
Y
GGCAGGTGTGTGGAGACCTGCCCGCCCCCGTACTACCACTTCCAGGACTGGCGCTGTGTGAACTTCAGCTTCTGCCAGGACCTGCACCACAAATGCAAGA
Celera SNP ID:            hCV8356184
SNP Position Genomic:     89756
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;(T,-|C,-)   Caucasian(T,9|C,73)   Asians(T,4|C,78)   total(C,151|T,13)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36440):
TGGTTTGGAGGCTTAAACCAGTTAATAGATGTGTCTGACATGTGGGTAATGATGTAGACGTGCCGCTTTTACTGTTAGTGTTTGGTTGGCTTTCACTGTC
Y
GATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAAGCCATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTCCCTCTCTCTCTCT
Celera SNP ID:            hCV8356185
SNP Position Genomic:     89513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36441):
AGGAGTTCAAGACCAGCCCGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGGGCGTCTGTAATCCCAGCTA
Y
TCTGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTACAGTGAGCTGAGATCGCGCCACTGCACCCCAGCCTGGGCAACAAAGCAAGA
Celera SNP ID:            hCV26262836
SNP Position Genomic:     87423
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36442):
TCACCATGTTGACCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCGCCTCGACCTCCCAAATTGCTAGGATTACAGGCGTGAGCCACCACACC
R
AGCCACATTTGCATGTTTAAGTAACTAACATGTCTCCTCCATTAGACCTTGTGCTCCCAAAGGCAGGATCTACAGCCACTTTTTCCCCACAGTGGCCACA
Celera SNP ID:            hCV26262837
SNP Position Genomic:     88700
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36443):
TAGGATTACAGGCGTGAGCCACCACACCAAGCCACATTTGCATGTTTAAGTAACTAACATGTCTCCTCCATTAGACCTTGTGCTCCCAAAGGCAGGATCT
R
CAGCCACTTTTTCCCCACAGTGGCCACAGTATCTAGATTAGTGCAAGCAAATGTCTGTTGAAGCAATCAGTGGTTTGGGGGCAAGTTACTTAACCTCCCT
Celera SNP ID:            hCV26262838
SNP Position Genomic:     88772
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36444):
CAGGCGTGAGCCACCACACCAAGCCACATTTGCATGTTTAAGTAACTAACATGTCTCCTCCATTAGACCTTGTGCTCCCAAAGGCAGGATCTACAGCCAC
T
TTTTCCCCACAGTGGCCACAGTATCTAGATTAGTGCAAGCAAATGTCTGTTGAAGCAATCAGTGGTTTGGGGGCAAGTTACTTAACCTCCCTGTACCTCA
Celera SNP ID:            hCV26262839
SNP Position Genomic:     88780
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36445):
ATCGAAGGACACTTGCAGATACTCTTGATGTTCAAAACGAGGCCCGAAGATTTCCGAGACCTCAGTTTCCCCAAACTCATCATGATCACTGATTACTTGC
Y
GCTCTTCCGGGTCTATGGGCTCGAGAGCCTGAAGGACCTGTTCCCCAACCTCACGGTCATCCGGGGATCACGACTGTTCTTTAACTACGCGCTGGTCATC
Celera SNP ID:            hCV27529211
SNP Position Genomic:     6590
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36446):
TCTTGCTTTCTGTTCATTTTCTCTTGTAGTGTGTCCCGGCATGGATATCCGGAACAACCTCACTAGGTTGCATGAGCTGGAGAATTGCTCTGTCATCGAA
R
GACACTTGCAGATACTCTTGATGTTCAAAACGAGGCCCGAAGATTTCCGAGACCTCAGTTTCCCCAAACTCATCATGATCACTGATTACTTGCTGCTCTT
Celera SNP ID:            hCV27540672
SNP Position Genomic:     6496
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36447):
ACCCACTGGATATTCTCTCCTTTCCTTAGACAATCTGGCAGCTGAGCTAGAAGCCAACCTCGGCCTCATTGAAGAAATTTCAGGGTATCTAAAAATCCGC
Y
GATCCTACGCTCTGGTGTCACTTTCCTTCTTCCGGAAGTTACGTCTGATTCGAGGAGAGACCTTGGAAATTGGGTACGTGGGCCTGATTGTGTGTATGGC
Celera SNP ID:            hCV27540673
SNP Position Genomic:     101901
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:36448):
GAGACAGAGTCATGGTGTGTCACCCAGGCCCGCCATCCGCCACCATGCCCAGATAATTTTTTTTTTTTTTTCAAACAGAGTCTTGCTTTGTTGCCCAGGC
Y
GGAGTCTCGCTTTGTGGCACACGCCTATAATCCCAGTTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACTCGGGAGGCGGAGGTCGCAGTGAGCCAA
Celera SNP ID:            hCV2931100
SNP Position Genomic:     138758
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36449):
CCCCCAAGGGATCCTCCAAGGATGCTGTGTAGATAAGTAAGAAGTAGTGTTTCCATGCTCTGTGTACGTGCCGGACGAGTGGGAGGTGTCTCGAGAGAAG
W
TCACCCTCCTTCGAGAGCTGGGGCAGGGCTCCTTCGGCATGGTGTATGAGGGCAATGCCAGGGACATCATCAAGGGTGAGGCAGAGACCCGCGTGGCGGT
Celera SNP ID:            hCV27529140
SNP Position Genomic:     148770
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36450):
GGCAGATGCTAGGACCAAGGCTGAAGGTTAAGAGCGTGTGAACCTTTTGTGTTGTCAGACTTTGGAATGACCAGAGACATCTATGAAACGGATTACTACC
R
GAAAGGGGGCAAGGGTCTGCTCCCTGTACGGTGGATGGCACCGGAGTCCCTGAAGGATGGGGTCTTCACCACTTCTTCTGACATGTGGTGAGTTGTGTGT
Celera SNP ID:            hCV27540674
SNP Position Genomic:     153541
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36451):
TGACAGAGGCTGGGAGTTGCAGGGAAAGGCAGGAAATCTGGCATAGGCCCTGCAGATCCTTCATTTCCACTCTTTTCTAATTTTGCTGGATACATGGCAA
W
AATATTCTGCAGTGGTCTTAAGGAGAAGTTCTAGAGCCAGACAGTTCTCTTTTTTTAGTTTCTTTCTTTTTATTTATTTATTTTTTTTGAGATGGAGTCT
Celera SNP ID:            hCV2931101
SNP Position Genomic:     139975
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,13)   total(A,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36452):
CCTTTTGTGTTGTCAGACTTTGGAATGACCAGAGACATCTATGAAACGGATTACTACCGGAAAGGGGGCAAGGGTCTGCTCCCTGTACGGTGGATGGCAC
Y
GGAGTCCCTGAAGGATGGGGTCTTCACCACTTCTTCTGACATGTGGTGAGTTGTGTGTGGATGGGTGGATGGACGCTGGGCTTGAATTCCAGGTGCTAGT
Celera SNP ID:            hCV27540675
SNP Position Genomic:     153583
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36453):
GGAGTTGCAGGGAAAGGCAGGAAATCTGGCATAGGCCCTGCAGATCCTTCATTTCCACTCTTTTCTAATTTTGCTGGATACATGGCAAAAATATTCTGCA
R
TGGTCTTAAGGAGAAGTTCTAGAGCCAGACAGTTCTCTTTTTTTAGTTTCTTTCTTTTTATTTATTTATTTTTTTTGAGATGGAGTCTTGCTCTGTCACC
Celera SNP ID:            hCV2931102
SNP Position Genomic:     139987
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36454):
GTGGGTAATGATGTAGACGTGCCGCTTTTACTGTTAGTGTTTGGTTGGCTTTCACTGTCCGATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAA
R
CCATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTCCCTCTCTCTCTCTCTCTCTCTCCAGTTTGCCCGACCATCTGTAAGTCACACGGC
Celera SNP ID:            hCV2942391
SNP Position Genomic:     89554
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36455):
GAAGTTCTAGAGCCAGACAGTTCTCTTTTTTTAGTTTCTTTCTTTTTATTTATTTATTTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGACTT
M
AGTGGCGCGATCTCGGCTCACTACAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGTAGAGCCAGACAGTTCTGAGT
Celera SNP ID:            hCV2931103
SNP Position Genomic:     140100
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,8)   total(A,5|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36456):
GGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGTAGAGCCAGACAGTTCTGAGTTCAAGAGCTGGCCCTGCCACTTTGCAGCTATGAGATCTC
R
GACAAACCATATAATCTCTTAAACCAGGGGTCAGTCAGTAAGCTATATCCCATAGGCTAAATGTGGCCTGCTGCCTGATTTCTAATGATTTGTGAGCTAG
Celera SNP ID:            hCV2931104
SNP Position Genomic:     140240
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36457):
GATCGCATGGGCCCCGGGGGCGGAGGTCGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCGGTGAGACTCTGTCTTT
A
AAAAAAAAAAAAAGAAGTTCTTTGAGGCAAGCAGCACCGGCTTCCAGTCTCGTTTTACCATTGACTGGTCACAAGCTGGTTCAAGCCTCAGTTTCTCCAT
Celera SNP ID:            hCV11518971
SNP Position Genomic:     13427
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36458):
CACTTTGCAGCTATGAGATCTCGGACAAACCATATAATCTCTTAAACCAGGGGTCAGTCAGTAAGCTATATCCCATAGGCTAAATGTGGCCTGCTGCCTG
R
TTTCTAATGATTTGTGAGCTAGGAGTCACTTTTGCATTTTATTTATTTATGTATTTATTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCA
Celera SNP ID:            hCV2931105
SNP Position Genomic:     140318
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36459):
ATTTTAGAGACAGGGTCTAGCTCTGTCACCCAGGCTGGAGTACGGTGGAGCCTTCATAGCTCACTGCACCCTTGACCTCCTGGGCTCAAGTGATTCTTCC
R
CCTTAGCCTCCTGAGTAGCTGGGACTACAGGTGCGAACCATCGTGCCCGGCTAATTGTTCTATTTTCTGTGGAAATGGGGTCTGGCTATGTTGCCCAGGT
Celera SNP ID:            hCV2931106
SNP Position Genomic:     141075
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36460):
GGTGGTGCATGCTTGTAATCCCAGGTACTTGGGAGGCTGAGACAGGGGGATCACTTGGGCCCAGGAATTTGAGGTTGCGGTGAACTGTGATTGTGCCACT
R
TACTCCAGCCTGGGTGACAGAGTAAGACCCTGTCTCTAAAAAATAAAAATTAAAAGAAGTTTACATCTGTCAAAAGTCATGCTGGGATCGGGACTAGCTA
Celera SNP ID:            hCV2931109
SNP Position Genomic:     144452
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,8|A,10)      total(G,8|A,10) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36461):
AATGGGTATGCCATTCTCTCTCATAAGCTGTACTCTCTTATTATCAGTAATTTCTAAATAGCCTGTAAAATTTATATGGACTCAAAATGCAGGAAACATC
R
ATAGGTTGAAACTCAACAACTTGTAAAAAGTTACTCCTGTACTTAATTGCATAAAATGTGTATTGCCTACATGAATGAGAATAAAAACTTCCAAAATGCC
Celera SNP ID:            hCV2942399
SNP Position Genomic:     73189
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36462):
AGGCACACACCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAATTCCTGGCCTCAAGTCAT
S
TGCCCACTTCGGCCTCCCAAAGTGCTGGGATGACAGGCATGAGCCACTGCGCCCAGCCAATTTGTTCAAATCTTTTATATTGTCCTTTCTTCATCTTTAT
Celera SNP ID:            hCV2421308
SNP Position Genomic:     29994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36463):
GGGGGAGAGAGACCTGTTTGCCTGTTAATTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAATCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGA
K
CTCGGCTGACTTCAAGCTCCGCCTCCCGGGTTCACACCATTCTCTTGCCTCAGCCTCCCGAGTAGCTAGGACTACAGGCACCCACCACCGCGCCTGGCTA
Celera SNP ID:            hCV11514690
SNP Position Genomic:     155381
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36464):
CTACAACCTGATGAACATCACCCGGGGTTCTGTCCGCATCGAGAAGAACAATGAGCTCTGTTACTTGGCCACTATCGACTGGTCCCGTATCCTGGATTCC
K
TGGAGGATAATTACATCGTGTTGAACAAAGATGACAACGAGGAGTGTGGAGACATCTGTCCGGGTACCGCGAAGGGCAAGACCAACTGCCCCGCCACCGT
Celera SNP ID:            hCV27540245
SNP Position Genomic:     6823
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36465):
TCTGTCACCCAGGCTGGAGTGCAGTGGTGCGAGCTCGGCTGACTTCAAGCTCCGCCTCCCGGGTTCACACCATTCTCTTGCCTCAGCCTCCCGAGTAGCT
R
GGACTACAGGCACCCACCACCGCGCCTGGCTAATTTTTTTTTTTTTTTGTATTTTTAGTAGAAATGGGGTTTCACCGTGGTCTCGATCTCCTGACCTCGT
Celera SNP ID:            hCV11514692
SNP Position Genomic:     155449
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36466):
GGTAATGATGTAGACGTGCCGCTTTTACTGTTAGTGTTTGGTTGGCTTTCACTGTCCGATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAAGCC
W
TTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTCCCTCTCTCTCTCTCTCTCTCTCCAGTTTGCCCGACCATCTGTAAGTCACACGGCTGC
Celera SNP ID:            hCV26262840
SNP Position Genomic:     89557
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,7)   total(A,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36467):
AGTGTTAATGATGTTGATAATTATGATAATTATAGATACCCTCTGTAGTTAATTTCTATCAAGCCTAAAAATGTCTCTATCAAAGAATCTGATGTGTTAC
Y
GACGTCATCCTGTTTATTTCTTGCAACAGCCTTAAGAAGGAAGGAAGGGACTCTTATTAACAATCCCCCCTCCCTTTTTTTTTTTTTTTTTTTTTTTGAG
Celera SNP ID:            hCV8356190
SNP Position Genomic:     85288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36468):
TTGGTTGGCTTTCACTGTCCGATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAAGCCATTTATTTATTTATTTATTTATTTATTTATTTATTTA
T
TTATTCCCTCTCTCTCTCTCTCTCTCTCCAGTTTGCCCGACCATCTGTAAGTCACACGGCTGCACCGCCGAAGGCCTCTGTTGCCACAGCGAGTGCCTGG
Celera SNP ID:            hCV26262841
SNP Position Genomic:     89594
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36469):
TGGCTCTGGGATGCTGTAATAAGCAAGACAGACACCATCTTTCCCTTCACGGGGCGTATGTGTCTCGTGCATACTGGGAGGGCAGGGACAGGGTCTCCAT
Y
CATTTCTGCATTCCAATGCCAAGAGGGTGTCAGATCTGGGTGGGTCGAGGTAGGGAACAGGTAAACATAACTCACAGTGTGATGCCGTGTTACAGCCAGG
Celera SNP ID:            hCV8356191
SNP Position Genomic:     74505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36470):
GTTGGCTTTCACTGTCCGATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAAGCCATTTATTTATTTATTTATTTATTTATTTATTTATTTATTT
A
TTCCCTCTCTCTCTCTCTCTCTCTCCAGTTTGCCCGACCATCTGTAAGTCACACGGCTGCACCGCCGAAGGCCTCTGTTGCCACAGCGAGTGCCTGGGCA
Celera SNP ID:            hCV26262842
SNP Position Genomic:     89597
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36471):
TGAACATAGCCCGAGTGATTCACACATTTGCATGTACTGTTCCTCTCCTGCTGTGATAAAGCGACAGTCACCTAATCCCCGCCCCTCCGTTGCATTTTTT
Y
TTTCCTACAAGATTTATTATGCACCTACTGTGTGTATGGCTCTGGGATGCTGTAATAAGCAAGACAGACACCATCTTTCCCTTCACGGGGCGTATGTGTC
Celera SNP ID:            hCV8356192
SNP Position Genomic:     74368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36472):
TTTGCTTGTGGCCCTTTACAGAAAAAGTTGACCAACTCCTGTGCTGACAAATGAAATAGCTCAGATAGGCCTGTCAGCTAGGGCTCCAACACAGGATTGC
R
AAGTCTCGCAGCCTCTGGCCTTGTTTGCAATGGTTGGATAATTTTTCTTCCCATTGTCTAGGCCGGAAGGACTTATGTGTTTGAGAGGTTTGTGTTAGGC
Celera SNP ID:            hCV15831582
SNP Position Genomic:     84894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36473):
TGGCTTTCACTGTCCGATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAAGCCATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTAT
Y
CCCTCTCTCTCTCTCTCTCTCTCCAGTTTGCCCGACCATCTGTAAGTCACACGGCTGCACCGCCGAAGGCCTCTGTTGCCACAGCGAGTGCCTGGGCAAC
Celera SNP ID:            hCV26262843
SNP Position Genomic:     89599
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36474):
GGCTTTCACTGTCCGATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAAGCCATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATT
Y
CCTCTCTCTCTCTCTCTCTCTCCAGTTTGCCCGACCATCTGTAAGTCACACGGCTGCACCGCCGAAGGCCTCTGTTGCCACAGCGAGTGCCTGGGCAACT
Celera SNP ID:            hCV26262844
SNP Position Genomic:     89600
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36475):
TTTCACTGTCCGATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAAGCCATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTCCC
T
CTCTCTCTCTCTCTCTCTCCAGTTTGCCCGACCATCTGTAAGTCACACGGCTGCACCGCCGAAGGCCTCTGTTGCCACAGCGAGTGCCTGGGCAACTGTT
Celera SNP ID:            hCV26262845
SNP Position Genomic:     89603
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36476):
ACAAGTGCATCCCTGAGTGTCCCTCCGGGTACACGATGAATTCCAGCAAGTGAGTTCTGGATGTGGGTCTGGGGGGCAGCCGAGAGGAGAAGGAACGTGG
R
GTTGGTTGTGACGATGCCGCTTGTTAAAACTGTGTGCAAACCCAGGGTTAATTGGCTATGAGTGAGGTCTCTGCTCTCAGATGCTACTTTTGCACCCTGT
Celera SNP ID:            hCV26262846
SNP Position Genomic:     89999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36477):
GTACTGTGAGCTTCTTCCATGAGCTATTTTGGGGCCGTAACTGAGTTGCAAAAATCTGTTTCCTGGTTTTTGTATTGAGGTTTTATGTTTTGTTTTAAAA
M
ACACACACACACACACACACACACACACACACACCACAAAACAACACAAAAACAAATCAGAAACAGACACACATCAAGAGGCCTTGAGCTGACCTGCTTA
Celera SNP ID:            hCV26262847
SNP Position Genomic:     90965
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,2|-,3)   total(A,2|C,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36478):
GCTCGTTGTTGATAAAAACCTACCAAAAAAACCTTTTGGCTTTATTGACCAAAAGGGTCTATAAATCACCTTTTCATACCAGACAGACTTTTGTTTTAGG
T
TTTTTTTTTTTTTTTTGGCCAGTGTATTCCCAAGATTGAGGAAATGACCATATTCCTTTTGATTCATTTCTTTCTTTTTAAAATCACAATTGAAATAAAA
Celera SNP ID:            hCV26262848
SNP Position Genomic:     91338
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36479):
CTTTCCTGAACGGAAGAAAACAAAGGAGAGGGGGGTGCATTGTCACCGTATTTTATTGCGTAGGTTTAAAAAAATTAATATTTTTATTTCTGAAGCTTTT
W
ATTAATTAATTTATTTATTTTGAGACAGAGCCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTTCCAGGT
Celera SNP ID:            hCV26262849
SNP Position Genomic:     91729
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36480):
ACTTTGCCCTTCATCAACTCTGAACTGTTTATAGTTCTCTGAACATAGCCCGAGTGATTCACACATTTGCATGTACTGTTCCTCTCCTGCTGTGATAAAG
S
GACAGTCACCTAATCCCCGCCCCTCCGTTGCATTTTTTCTTTCCTACAAGATTTATTATGCACCTACTGTGTGTATGGCTCTGGGATGCTGTAATAAGCA
Celera SNP ID:            hCV8356199
SNP Position Genomic:     74329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36481):
TGCAGCTGCAGGCTGCCTGCTGACTGCACTTCCCTGACAGATTCTAAACAGTGAGCTGCCAAGGGCTTCTGGGATACCTTCATGGGGAGTTAGTTACTTA
Y
GTCAAAATGTAGTGCAAGGGCTGGGCATGGTGGCTCACGCCTGGAATCCCAGCACTCTGGGAGGCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTTCGA
Celera SNP ID:            hCV27482127
SNP Position Genomic:     105342
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36482):
CTTCCTCGACCAGCGTGCCCACGAGTCCGGAGGAGCACAGGCCTTTTGAGAAGGTGGTGAACAAGGAGTCGCTGGTCATCTCCGGCTTGCGACACTTCAC
R
GGCTATCGCATCGAGCTGCAGGCTTGCAACCAGGACACCCCTGAGGAACGGTGCAGTGTGGCAGCCTACGTCAGTGCGAGGACCATGCCTGAAGGTAGGG
Celera SNP ID:            hCV16172280
SNP Position Genomic:     131330
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36483):
CTATTTGGAAGGCATTGTACAATTTAATCTTTAATGATGCTTGTATTTAACAACTGGCTCACTAGTTTCCTGAAAATTTAATAATTGTTTCTCATCAGTC
R
GGATGAGCTCGCTCTAGAACAGTACTGGGTGAGTGGCTTTTAAGTGTTACATGGATGGCCATAAATTATTTAAAAAGCCAGCCAGAGCCCTGCATGGTCG
Celera SNP ID:            hCV2931110
SNP Position Genomic:     146961
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36484):
TCTCCGGCTTGCGACACTTCACGGGCTATCGCATCGAGCTGCAGGCTTGCAACCAGGACACCCCTGAGGAACGGTGCAGTGTGGCAGCCTACGTCAGTGC
S
AGGACCATGCCTGAAGGTAGGGCTGCTGCTCCGGGGTCCGAGTGTCATGGGTGGGACATCAAGGCTGACCAAGGACAGATTCTCCACCCTCTAAGCAGTG
Celera SNP ID:            hCV16172281
SNP Position Genomic:     131408
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,40)   total(C,1|G,75)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36485):
CATCTGGACACATGGTATTTGGCACCTGCCTGAATGGGCTCATCTAGCCGGTCTGGGACCCTTGGGCAGGGTCGACCACTTGGGCTGGGCTCAGCTGGGC
R
GTTCTTCTGGTCTTGCCTGGCTTCACCCATGTAGCTACATTTTGCTGGTGTGTCAGCTAGCACTCGGTAGTCTTAGATGATTTCACTCACATGTCTGGTG
Celera SNP ID:            hCV2931111
SNP Position Genomic:     147931
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36486):
TCTGGTCTTGCCTGGCTTCACCCATGTAGCTACATTTTGCTGGTGTGTCAGCTAGCACTCGGTAGTCTTAGATGATTTCACTCACATGTCTGGTGGTCAG
Y
AGGCTGGGTGGTCCCAAGGTGGGGGCCCTAAGCTGGGGGAGGCTGAGCCTCACTCTGTCCATCTAGCCTCTTAGGCTCCAGCAGGCTGGCTCAGGCTTCA
Celera SNP ID:            hCV2931112
SNP Position Genomic:     148037
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36487):
ACAAGGCCATGCCCAGGGCCAAGGGGTGGTGAGATAGACTCCACCTTTTCATGGGAAGAGCTCCAAGTATCCTGGCTTTTTTTTTCCCCAACCTATTACA
R
CCTGTCTTCCATCCCCTTGGCACTTTGCAGAAACAGTAGTCTCAGGTGGGAAGTAGCATCATTCCATAGCAAGGGTCTGAAATCAGACAAGAAGGATGGG
Celera SNP ID:            hCV2931114
SNP Position Genomic:     148355
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36488):
TCATCTTTGTCTTTCTCTTCAGTGTTGTGATTGGAAGTATTTATCTATTCCTGAGAAAGAGGTGAGTTCAGTGAGTTCAGTGGTGTGCTGGGAACAGTTG
R
TTCTCTGGGGGAAAACATGCCTTGATATAGGTATAGGCATATTTAAGTTTATTATGAATTTTGCTGATATAGGATGTGTAACATGCAATTTACAGATAAT
Celera SNP ID:            hCV25599900
SNP Position Genomic:     145432
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:36489):
CCAAGGCTGATGACATTGTTGGCCCTGTGACGCATGAAATCTTTGAGAACAACGTCGTCCACTTGATGTGGCAGGAGCCGAAGGAGCCCAATGGTCTGAT
Y
GTGCTGTATGAAGTGAGTTATCGGCGATATGGTGATGAGGTAAGGCCCTTGACTCTTGGGCATGCCCCTGCACACTTCAGCATGCCCCTTCAGAGTTGCA
Celera SNP ID:            hCV16172285
SNP Position Genomic:     132524
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36490):
AGGGGTGGACACTCCCAGATGTGCAAAGCTCAGCCACCCTCCTTCTCCTCCTCTCTTCCTCCCAGGAGCTGCATCTCTGCGTCTCCCGCAAGCACTTCGC
Y
CTGGAACGGGGCTGCAGGCTGCGTGGGCTGTCACCGGGGAACTACAGCGTGCGAATCCGGGCCACCTCCCTTGCGGGCAACGGCTCTTGGACGGAACCCA
Celera SNP ID:            hCV16172286
SNP Position Genomic:     141960
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,38)   total(C,2|T,74)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36491):
TCACCATGCTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCA
S
TGCCTGGCTAATTTTTTTGTATTTTCAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCTGCCTTGGCC
Celera SNP ID:            hCV2931117
SNP Position Genomic:     150164
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,8)   total(G,8|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36492):
CAGGAGAATTGCTTGAACCCGGGAGGCAAAGGTTGCAGTGAGCCGAGATCACGCCACTGCACTCTAGCCTGGGTAACAGCAAGATTCCGTCTCGAAAATT
W
AAAAAAAAAAAATACAAAGGCCTATCTGTCTGCTGTCCGGGCAGGTATGTCTGCTCTCCTAGACCAGGGCTGAGCACGCTGCATCCAGGCCACAGGGTGC
Celera SNP ID:            hCV2931118
SNP Position Genomic:     151067
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36493):
CTTGTCACCCTGGCTGGAGTGCAATGGCGCAATCTTGGCTTACTGCAACCTCCGCCTTGCCTCAAGCGATTCTGCTCTCTAGTGGCTCAGATTACAGGTG
Y
GCACCACCACGCCTGGCTAATTTATGTATTTTTGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCCGACTTCAGGTAATCCACCTG
Celera SNP ID:            hCV3171003
SNP Position Genomic:     33837
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36494):
TTCTGCTTTGAAAACATAACGACCCAGGCCAGGTTTGATTTCAGAAGGAAGTTGTCTATAATGAGCCGTTAAGTCTTTTCTGATAATATAAAGGGGCAAG
A
TACTTCTTTTTTTTTTGTGGGGTTTTTTTTGTTTTGTTTTGTCTTTTTGTTTTTGAGACGGAGTCTTACTCTGTCTGTTGCCCAGGCTGGAGTGCAGTGG
Celera SNP ID:            hCV2931119
SNP Position Genomic:     151747
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36495):
GACTGTTCTTTAACTACGCGCTGGTCATCTTCGAGATGGTTCACCTCAAGGAACTCGGCCTCTACAACCTGATGAACATCACCCGGGGTTCTGTCCGCAT
S
GAGAAGAACAATGAGCTCTGTTACTTGGCCACTATCGACTGGTCCCGTATCCTGGATTCCGTGGAGGATAATTACATCGTGTTGAACAAAGATGACAACG
Celera SNP ID:            hCV2421316
SNP Position Genomic:     6762
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36496):
TATTTTGCACGTAAAGCACATTTCAGTTCTGACTGGCCACACGTGGCTGGTCCTGCTGTAATGGATCTAGTCTTTAAAAATACTCCGCGAGAGCTTGCAG
Y
GAGCTGAGATGGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAACCAAAAAACAAAAAACTCTGCGATCTTCCTCACCAT
Celera SNP ID:            hCV3171004
SNP Position Genomic:     34281
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36497):
TAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCATGACCTCAAGTGATCTACGCACCTCAGCCTCTCAAAGTACTGGGATTACAGGCGT
R
AGCCACTGAGCCTGGCCTCTTTTTCCATTTTCTGTTGCATCAATGGAAAGTCCATCTCCTGCCCGTGGACGTTTTCTATGTTGATGTGGAATGTGGCATT
Celera SNP ID:            hCV3171005
SNP Position Genomic:     35939
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36498):
CACCTCAAGGAACTCGGCCTCTACAACCTGATGAACATCACCCGGGGTTCTGTCCGCATCGAGAAGAACAATGAGCTCTGTTACTTGGCCACTATCGACT
R
GTCCCGTATCCTGGATTCCGTGGAGGATAATTACATCGTGTTGAACAAAGATGACAACGAGGAGTGTGGAGACATCTGTCCGGGTACCGCGAAGGGCAAG
Celera SNP ID:            hCV2421318
SNP Position Genomic:     6803
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36499):
TTTACTCTGTCCCTGTGTCAATGGGATTGTGCATGTTTTGGTTCCTGAGGGGTCATTGATGGTGCACTTTTCTTTTGTTGTTAGTCAATTTAATTTGTTA
M
TAATAATAAAATCTGGAACTTACCTGACCCCAAAGGCCCAGGTCGTTAAGAATGCTTGGTGGAATGCACGTCCTTTTCAAATACCGGCTCCTTTGGAAAA
Celera SNP ID:            hCV27510818
SNP Position Genomic:     62715
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,10|C,1489)   total(A,10|C,1489) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36500):
AGCTGGAGGAGTCCTCGTTTAGGAAGACGTTTGAGGATTACCTGCACAACGTGGTTTTCGTCCCCAGGTCAGGACTTGGCGCTGGGCTCTCTTAGTGGGT
R
CCAATTGGCTTGGTGTTGGTGGAAGGTCATTACTTAGGGACCGAGAGGTAGTGGGACCCAGAGACGGCAGAAGGGTGGGTGGAGTCTGAATGGAGCCCTT
Celera SNP ID:            hCV27510819
SNP Position Genomic:     121579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36501):
TGTTTGGTTGGCTTTCACTGTCCGATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAAGCCATTTATTTATTTATTTATTTATTTATTTATTTAT
W
TATTTATTCCCTCTCTCTCTCTCTCTCTCTCCAGTTTGCCCGACCATCTGTAAGTCACACGGCTGCACCGCCGAAGGCCTCTGTTGCCACAGCGAGTGCC
Celera SNP ID:            hCV25474788
SNP Position Genomic:     89591
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,15)   caucasian(A,2|T,14)   total(A,5|T,29)
SNP Type:                 INTRON


Context             (SEQ ID NO:36502):
AACGGAAGAAAACAAAGGAGAGGGGGGTGCATTGTCACCGTATTTTATTGCGTAGGTTTAAAAAAATTAATATTTTTATTTCTGAAGCTTTTAATTAATT
W
ATTTATTTATTTTGAGACAGAGCCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTTCCAGGTTCAAGCCA
Celera SNP ID:            hCV26262850
SNP Position Genomic:     91737
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36503):
AGTTCAGAGCTGGATTTCAGTGTGCCACTTCTGTACTTTACACTTAGAAAGTCTTCTTCTACCCATGAAAGGTTTTTTTTCTCTACATTTTATATTTTAA
T
TTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTTGTTAAGACTGGAGTGCGATGGTGCAATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAG
Celera SNP ID:            hCV26262851
SNP Position Genomic:     8570
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36504):
GTTCAGAGCTGGATTTCAGTGTGCCACTTCTGTACTTTACACTTAGAAAGTCTTCTTCTACCCATGAAAGGTTTTTTTTCTCTACATTTTATATTTTAAT
T
TTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTTGTTAAGACTGGAGTGCGATGGTGCAATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGC
Celera SNP ID:            hCV26262852
SNP Position Genomic:     8571
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36505):
TTCAGAGCTGGATTTCAGTGTGCCACTTCTGTACTTTACACTTAGAAAGTCTTCTTCTACCCATGAAAGGTTTTTTTTCTCTACATTTTATATTTTAATT
T
TTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTTGTTAAGACTGGAGTGCGATGGTGCAATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCG
Celera SNP ID:            hCV26262853
SNP Position Genomic:     8572
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36506):
TGTGTATGTCTCATCAGACATCCTTAGTAGTCAGGAGCTCAGTCTACTAAGTGGATGTTATCAAATGTATTGCTTATCTATTTTTCTTTTTTATCCCCAA
T
TTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGGTACAGTGCAGTGGCAGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCA
Celera SNP ID:            hCV26262781
SNP Position Genomic:     106674
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36507):
CCCCCGAGTAGCTGGGACTACAGGCATGCACCATCACGCACGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTC
R
AACTCCTGACTTCGTGATTCACCTGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGGCACTGCACCCGGCCCAGTATCCAGAGTTTTAATTGGA
Celera SNP ID:            hCV26262854
SNP Position Genomic:     95747
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36508):
CACCATGTTGGCCAGGATGGTCTCAGTCTCTTGACCTGCAATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCATGCCAGCC
T
TTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCTAGGCTGGAGTGCAATGGCCCTATCTCAGCTCACTGCAACCTCTGCCTCCCG
Celera SNP ID:            hCV26262782
SNP Position Genomic:     109419
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36509):
GCTGGGACTACAGGCATGCACCATCACGCACGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGA
M
TTCGTGATTCACCTGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGGCACTGCACCCGGCCCAGTATCCAGAGTTTTAATTGGAGTCTCATTCC
Celera SNP ID:            hCV26262855
SNP Position Genomic:     95757
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36510):
ACCATGTTGGCCAGGATGGTCTCAGTCTCTTGACCTGCAATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCATGCCAGCCT
T
TTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCTAGGCTGGAGTGCAATGGCCCTATCTCAGCTCACTGCAACCTCTGCCTCCCGG
Celera SNP ID:            hCV26262783
SNP Position Genomic:     109420
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36511):
GAGAATCACTTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGTGCCATTGTACTCCAGCCTGGGCAACAAGAGTGAGACTCCATCTTAAAAAAA
R
CAAAAACAAAAACAAAACAAAAAAACCATTGACTTAACCAAGATTAAAGGAGTTTGTTGGTACCCATAACCAAAAAGTTCAGGGAGTTGGTTCAGGTATA
Celera SNP ID:            hCV26262856
SNP Position Genomic:     96727
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36512):
ACTTCTAGCTCCCAGGTGTTTGGACTCCCTCCCCATCCCCAGCTCCCTCGGCCACCTCCGTTACTTTGGGTTTTTTGGGTTTTGTTTGGTTGGTTGGTGG
K
GGTTTTTTTTTTCTTTTTTGTTTTGTTTTGTTTTGAGACGGACTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCT
Celera SNP ID:            hCV26262784
SNP Position Genomic:     110684
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36513):
GCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAACCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCTGCCTTGGCCGCCCAAA
R
TGCTGGGATGGGTGCCCTCATGATGTCTTTAACTTGTGTGTCCCCCGCCATCCTCCCACCAGCTTTCTTTGCACACTGTTTCTCATGATGGACCCATTTC
Celera SNP ID:            hCV26262785
SNP Position Genomic:     110963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36514):
AGCGCTGGGATTACAGGCGTGAGCCACTATGACCGGCTCATACATACACATTTTTAAACATCGTAACACAAGCACGCACTGAAGACTTGTGTCAAAACCA
S
ATTTTTCCCATGTCTTGGCACCATTTCCCTCTGGGATTTTCTCCTCTTGTCTCTCCTTCTTTCTCCCTCCCTGCCTTCCTTGTTCTCTTCATCCCTCCTC
Celera SNP ID:            hCV26262786
SNP Position Genomic:     112440
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36515):
CCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTC
R
ATCTCCTGACCTCGTGATCTGCCCACCTTGGCCTCCCAACGTGCTGGGATTACAGGCGTGAGTCACCGCGCCTGGCCCATTATGCTTCATTTTTCTAATC
Celera SNP ID:            hCV26262787
SNP Position Genomic:     115982
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36516):
GAAAACCACAGTGTACCATGTTTCATGCAGTGGATTCTAGGAAGAGGTAGCAGGTATCAGGAATGATACCTGTGCCTGAACAAATATCCCTTCCTCTCCA
A
ATAATAATAATAATAATAATAATAGTAATAATAATAATAATACCAGGAGCTTCCCTTATTCAGGCAGTTCTACATTTTTTTTTCCATCTGTAATGCTGTA
Celera SNP ID:            hCV26262788
SNP Position Genomic:     116187
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36517):
AAAACCACAGTGTACCATGTTTCATGCAGTGGATTCTAGGAAGAGGTAGCAGGTATCAGGAATGATACCTGTGCCTGAACAAATATCCCTTCCTCTCCAA
A
TAATAATAATAATAATAATAATAGTAATAATAATAATAATACCAGGAGCTTCCCTTATTCAGGCAGTTCTACATTTTTTTTTCCATCTGTAATGCTGTAA
Celera SNP ID:            hCV26262789
SNP Position Genomic:     116188
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36518):
AGACCAGCCTGGGCAACATAGTGAGACTCCATCTCCTTGAAAAGATTTTTTAAAAAGTGGGGTGTGGTGGTGCACACCTGTGGTCCCAGCTACTCAGGAG
K
CTGGGGTGGGAGGATTGCTTGAGCCCAGGAGGTGGAGGCTGCAGTGAGCTGTGACAGCATCACTGCACTCCAGCCTGGGTGACAGTGAGACGCTATTTCA
Celera SNP ID:            hCV2931121
SNP Position Genomic:     152662
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36519):
CACCCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTAGATTACCTGAGATCAGGAGTTCGAGACCAGCCTGGTCAACACGGTGAAACCCTGTCTCT
R
CTCAAAATACAAAACATTAGCTAGACATGGTGGCAGACAGCTGTAATCCTAGCTACTCAGGAGGCTGAGGCAAGAGAATTGCTTGAATCAGGGAGGTAGA
Celera SNP ID:            hCV2931122
SNP Position Genomic:     153067
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36520):
CAACACGGTGAAACCCTGTCTCTACTCAAAATACAAAACATTAGCTAGACATGGTGGCAGACAGCTGTAATCCTAGCTACTCAGGAGGCTGAGGCAAGAG
W
ATTGCTTGAATCAGGGAGGTAGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGAGGACAGAGTGAGGCTCCATATCAAAGAAAAAAAA
Celera SNP ID:            hCV2931123
SNP Position Genomic:     153144
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36521):
TGCACTGGAGTTGCACCTCCTTCCAGGTCAGTCTTACAAGTCCATATGCGAGACAACGTTGTGTCAGGACAAACATCACCCTTGGAAATCCCTTCCTCCA
R
TAACTATTGGCCGGTTGTCCTTCTTGCGCGGGTACAGACTGCGCTTATTCAGTTGACTGTCTGGCTGAGTCAAGTCATTGGCTTACGTGAGTGTGAGTGG
Celera SNP ID:            hCV15972252
SNP Position Genomic:     105870
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,78|A,1421)   total(G,78|A,1421) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36522):
AAGTGGGAGGATCATTTGAGCCCAGGAGTTGGAGGCTGCAGTGAGCTACGATCACACCACTGCACTCCAGCCTGGACAACAGGGCAAGGCCTCATCTCTT
A
AAAAAAAAAAAACAAAATAAAATAAAAAGTGAATAAGTGAAAGTAATAAAATGTAAGATACAGTTGGAGTTCTCTTTGTCATCTTCCCTTGCTATATTCT
Celera SNP ID:            hCV11518990
SNP Position Genomic:     33100
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36523):
CATGGTGGCAGACAGCTGTAATCCTAGCTACTCAGGAGGCTGAGGCAAGAGAATTGCTTGAATCAGGGAGGTAGAGGTTGCAGTGAGCCAAGATTGCACC
R
CTGCACTCCAGCCTGGAGGACAGAGTGAGGCTCCATATCAAAGAAAAAAAAAAAGAAAAATGTAGCTTCTTTGTGATTTGGTACCTTCTTTTCCCTCCCT
Celera SNP ID:            hCV2931124
SNP Position Genomic:     153193
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36524):
TTTTGTGTTGTCAGACTTTGGAATGACCAGAGACATCTATGAAACGGATTACTACCGGAAAGGGGGCAAGGGTCTGCTCCCTGTACGGTGGATGGCACCG
R
AGTCCCTGAAGGATGGGGTCTTCACCACTTCTTCTGACATGTGGTGAGTTGTGTGTGGATGGGTGGATGGACGCTGGGCTTGAATTCCAGGTGCTAGTGA
Celera SNP ID:            hCV27541130
SNP Position Genomic:     153585
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36525):
AGTCTTACAAGTCCATATGCGAGACAACGTTGTGTCAGGACAAACATCACCCTTGGAAATCCCTTCCTCCAATAACTATTGGCCGGTTGTCCTTCTTGCG
Y
GGGTACAGACTGCGCTTATTCAGTTGACTGTCTGGCTGAGTCAAGTCATTGGCTTACGTGAGTGTGAGTGGCCAAGTTGCAAAACTGGCTCTTACCTTTG
Celera SNP ID:            hCV15972253
SNP Position Genomic:     105899
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,29|C,1462)   total(C,1462|T,29) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36526):
CTGCCTGGTCCCACTGCACCTACGGGACTGTTTCGGGACTGCTGGAAAATCAGGATGTGGAAGAGCAGCAGAGAGGTTCATGGACAAGGGAGGGAAGGAA
M
AGGGTGGCCCACCCATTCCAGGAGTGGATGTGATTTTTGATGTGAACTTTGTTGGAAACACATTGATATGAAACATATATTTTCTTATTCTATTTCAGTA
Celera SNP ID:            hCV25599910
SNP Position Genomic:     145191
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(A,4|C,34)   total(A,4|C,70)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36527):
TGTCATCGAAGGACACTTGCAGATACTCTTGATGTTCAAAACGAGGCCCGAAGATTTCCGAGACCTCAGTTTCCCCAAACTCATCATGATCACTGATTAC
Y
TGCTGCTCTTCCGGGTCTATGGGCTCGAGAGCCTGAAGGACCTGTTCCCCAACCTCACGGTCATCCGGGGATCACGACTGTTCTTTAACTACGCGCTGGT
Celera SNP ID:            hCV25599911
SNP Position Genomic:     6586
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36528):
GAGTTGTAGAAGACCAGCCGTTGAATGACTAGATGTGTGTGTTTTTTCCATAGGAACTACTCCTTCTATGCCTTGGACAACCAGAACCTAAGGCAGCTCT
S
GGACTGGAGCAAACACAACCTCACCATCACTCAGGGGAAACTCTTCTTCCACTATAACCCCAAACTCTGCTTGTCAGAAATCCACAAGATGGAAGAAGTT
Celera SNP ID:            hCV2428512
SNP Position Genomic:     103560
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36529):
CAATCTGGCAGCTGAGCTAGAAGCCAACCTCGGCCTCATTGAAGAAATTTCAGGGTATCTAAAAATCCGCCGATCCTACGCTCTGGTGTCACTTTCCTTC
K
TCCGGAAGTTACGTCTGATTCGAGGAGAGACCTTGGAAATTGGGTACGTGGGCCTGATTGTGTGTATGGCCTGAGTGCTAACTAGGAAGTTCGTGTATTA
Celera SNP ID:            hCV2428513
SNP Position Genomic:     101931
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36530):
GTACCGCGAAGGGCAAGACCAACTGCCCCGCCACCGTCATCAACGGGCAGTTTGTCGAACGATGTTGGACTCATAGTCACTGCCAGAAAGGTACGCCGGG
S
ATACAGGGTTCTAAGCAGTGTCTCGTGCCTTGTTCTAGAAAGCTTAAAATGTTTTATGGCTTAAAAATGTTAAATGGTCATTAGGTAGGGGCCGGGGAAT
Celera SNP ID:            hCV25599912
SNP Position Genomic:     6987
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(C,1|G,37)   total(C,1|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:36531):
CAAAAAACTCTGCGATCTTCCTCACCATGCACACATATGATATTTTTGTGATTGTGATTCCAATTGCTACACCTGCTGCATGAGTTCTTAAGCCAAATGC
T
TTTTTTTTTCTCTCAGCCACTATGTTCTTTAAGTTTATGCCTCTTGATTCAGTATTGCTAGTTCATTCTTTTAAGTGCTACATAGTATCTTGTATGAATA
Celera SNP ID:            hCV11518993
SNP Position Genomic:     34454
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36532):
ATCAACGGGCAGTTTGTCGAACGATGTTGGACTCATAGTCACTGCCAGAAAGGTACGCCGGGGATACAGGGTTCTAAGCAGTGTCTCGTGCCTTGTTCTA
K
AAAGCTTAAAATGTTTTATGGCTTAAAAATGTTAAATGGTCATTAGGTAGGGGCCGGGGAATAGTGGGTGGTGGCATTCACTAGCCCAGGGAGTGGCAGA
Celera SNP ID:            hCV25599913
SNP Position Genomic:     7025
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,3)   caucasian(G,36)   total(G,61|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:36533):
TCTCTCTCTCTCTGCTCCGTCCTTAGCTTGCTGTGCACCCCATGCCTGGGTCCCTGTCCCAAGGTGTGCCACCTCCTAGAAGGCGAGAAGACCATCGACT
Y
GGTGACGTCTGCCCAGGAGCTCCGAGGATGCACCGTCATCAACGGGAGTCTGATCATCAACATTCGAGGAGGCAGTGAGTGTCTCTGTGTGGGCGTCGGG
Celera SNP ID:            hCV2428516
SNP Position Genomic:     99607
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36534):
GATGAATATTGGAAATAATAAGCACAGACGAACTGATTAGAAAACAAATAGAACTGACAAAATCAAAAAGCTGGATCTTTTAGAGAGATGCTGCTCAGTA
R
GGTGGCCACAACCCACGTGAAAATTAAATTAAAAATTCATTTTCTCAGTCGCACGAGCCAAGTTTCCACTGCTTAGGGGCCATGTATGGTTAGTGACTAC
Celera SNP ID:            hCV16224142
SNP Position Genomic:     72087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36535):
GGCTGCACCGCCGAAGGCCTCTGTTGCCACAGCGAGTGCCTGGGCAACTGTTCTCAGCCCGACGACCCCACCAAGTGCGTGGCCTGCCGCAACTTCTACC
Y
GGACGGCAGGTGTGTGGAGACCTGCCCGCCCCCGTACTACCACTTCCAGGACTGGCGCTGTGTGAACTTCAGCTTCTGCCAGGACCTGCACCACAAATGC
Celera SNP ID:            hCV2428518
SNP Position Genomic:     89752
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36536):
TATTTATTTATTTATTTATTCCCTCTCTCTCTCTCTCTCTCTCCAGTTTGCCCGACCATCTGTAAGTCACACGGCTGCACCGCCGAAGGCCTCTGTTGCC
R
CAGCGAGTGCCTGGGCAACTGTTCTCAGCCCGACGACCCCACCAAGTGCGTGGCCTGCCGCAACTTCTACCTGGACGGCAGGTGTGTGGAGACCTGCCCG
Celera SNP ID:            hCV2428519
SNP Position Genomic:     89680
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36537):
ACTGTTAGTGTTTGGTTGGCTTTCACTGTCCGATCCAGAATTGCTGCATATGCAGACAGGAATTGGACAAAGCCATTTATTTATTTATTTATTTATTTAT
W
TATTTATTTATTTATTCCCTCTCTCTCTCTCTCTCTCTCCAGTTTGCCCGACCATCTGTAAGTCACACGGCTGCACCGCCGAAGGCCTCTGTTGCCACAG
Celera SNP ID:            hCV25474794
SNP Position Genomic:     89583
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,12)   caucasian(A,1|T,11)   total(A,3|T,23)
SNP Type:                 INTRON


Context             (SEQ ID NO:36538):
AAACCACAGTGTACCATGTTTCATGCAGTGGATTCTAGGAAGAGGTAGCAGGTATCAGGAATGATACCTGTGCCTGAACAAATATCCCTTCCTCTCCAAA
T
AATAATAATAATAATAATAATAGTAATAATAATAATAATACCAGGAGCTTCCCTTATTCAGGCAGTTCTACATTTTTTTTTCCATCTGTAATGCTGTAAC
Celera SNP ID:            hCV26262790
SNP Position Genomic:     116189
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36539):
CATGCAGTGGATTCTAGGAAGAGGTAGCAGGTATCAGGAATGATACCTGTGCCTGAACAAATATCCCTTCCTCTCCAAATAATAATAATAATAATAATAA
T
AGTAATAATAATAATAATACCAGGAGCTTCCCTTATTCAGGCAGTTCTACATTTTTTTTTCCATCTGTAATGCTGTAACTAGCTCCCATCAGAGTTAACC
Celera SNP ID:            hCV26262791
SNP Position Genomic:     116210
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36540):
ATGCAGTGGATTCTAGGAAGAGGTAGCAGGTATCAGGAATGATACCTGTGCCTGAACAAATATCCCTTCCTCTCCAAATAATAATAATAATAATAATAAT
A
GTAATAATAATAATAATACCAGGAGCTTCCCTTATTCAGGCAGTTCTACATTTTTTTTTCCATCTGTAATGCTGTAACTAGCTCCCATCAGAGTTAACCC
Celera SNP ID:            hCV26262792
SNP Position Genomic:     116211
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36541):
TGCGGTGAGCCGAGATCTCGCCACTGCATTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGAATAAATACATAATA
S
TAATAATAATAATAAATAATATTTGGGGTCAGATTATTCTAGGGCACTGTCCAACAACACTGAGAAGCATCCCTGGCTTCCACTCATCTGATGCCAGTAG
Celera SNP ID:            hCV26262793
SNP Position Genomic:     125779
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36542):
ATCATGCCACTGCACTCCAGCCTGGGTGACAAGAGCGAAACTCCGTCTCCAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAGATGCATTTCCCCTTTGTCC
Y
GGATAGCAGCTACCTTGGGTTTCTATATTTGCTTATTTGTCCCTCTCTACTCGGTGACTCATTCCACTTGGAAGAAACTTTGGACTGGAGTTCCCTGCCC
Celera SNP ID:            hCV26262794
SNP Position Genomic:     138960
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36543):
GGAAGAAACTTTGGACTGGAGTTCCCTGCCCCCACCCCTGCCACCAGACTGATTTGTTTTCTTGCTGTTATTGTCACACGATAAGCATGGGGTTGTTGGC
T
TTTTTTTTTTTTTTTTTTTTTAACATTTCTTTCTCTTCTCCACTCTCCACCCCCCTCCTAAATGTTCCAGCCCGGTTCTCTGCATGCACTATTAGCTTGG
Celera SNP ID:            hCV26262795
SNP Position Genomic:     139130
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,7)   total(-,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36544):
AAGAAAGAAAAAGAAAGAAGAGAAGAGAGAGAGGAAGAGGAAGAGGTCTGAGACTGGGACTCAGTAATTTATAAAGAAAAGAGGTTTAATTGGCTCCCAG
W
TCTGCAGGCAGTACAGGAACCATGATGCTGGCATCTGCTCAGCTTCTGAGGAAGCCTCAAGAAACTTTCAATCATGGTGGAAGGTGAAGTGGGAGCAAGG
Celera SNP ID:            hCV26262796
SNP Position Genomic:     143536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36545):
GATCTTGCTGAGATGGGAGCCGTACTGGCCCCCCGACTTCCGAGACCTCTTGGGGTTCATGCTGTTCTACAAAGAGGCGTAAGTAGAAGAGTTAGAGAGA
Y
GCTGAGGAGGCGAGGGCTGGCTGGCTCTGTGCTTGCTACGTTTGTGCTCCAATCTGCCCCTCTTGGGTTCCTGTCTATCTCCCTCCTCCTCCTGGAATAA
Celera SNP ID:            hCV25472908
SNP Position Genomic:     106319
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,39|T,1)   total(C,70|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:36546):
TGACCAAAATAACTCACAAGGCCATGCCCAGGGCCAAGGGGTGGTGAGATAGACTCCACCTTTTCATGGGAAGAGCTCCAAGTATCCTGGCTTTTTTTTT
Y
CCCAACCTATTACAACCTGTCTTCCATCCCCTTGGCACTTTGCAGAAACAGTAGTCTCAGGTGGGAAGTAGCATCATTCCATAGCAAGGGTCTGAAATCA
Celera SNP ID:            hCV26262797
SNP Position Genomic:     148340
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,12)   total(C,12|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36547):
TTTATTAGAGACGGGGTTTCACCATGCTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGG
Y
GTGAGCCACCACGCCCAGTGCCTGGCTAATTTTTTTGTATTTTCAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCAT
Celera SNP ID:            hCV26262798
SNP Position Genomic:     150146
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,7)   total(C,7|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36548):
CCTGGACTCTAAGGAATCCCCCCACCTCAGCCTCTCAAAGTGCTGAGATTTCACATGTGAGCCACCACGCTGGACTTGACTTGATTTTGTTTTCTTTTTC
T
TTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGTCCAGGCTGGAGTGCAGTGGCATGATCTGAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGA
Celera SNP ID:            hCV26262799
SNP Position Genomic:     14489
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36549):
AACACCATCTCTCAGCACCTCTAGCAATGCTATTTCTGCCTTGACAATTGTCCACACACACAGCCAGCATCTGATGTGAGCACATGTGGTCCGTGGGTGT
Y
GGCTGCAGGGACAAGAGTGGGGGTTTGGGAGGATGCGTGGCAGGGCCCCCAGACTCACCCAGGACGTGTCCTTCTGCCCCGCAGCACTGACCTCATGCGC
Celera SNP ID:            hCV2931131
SNP Position Genomic:     156753
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36550):
TCTAGCAATGCTATTTCTGCCTTGACAATTGTCCACACACACAGCCAGCATCTGATGTGAGCACATGTGGTCCGTGGGTGTCGGCTGCAGGGACAAGAGT
R
GGGGTTTGGGAGGATGCGTGGCAGGGCCCCCAGACTCACCCAGGACGTGTCCTTCTGCCCCGCAGCACTGACCTCATGCGCATGTGCTGGCAATTCAACC
Celera SNP ID:            hCV2931132
SNP Position Genomic:     156772
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36551):
CCCCTGGACCGTTCCTCGCACTGTCAGAGGGAGGAGGCGGGGGGCCGGGATGGAGGGTCCTCGCTGGGTTTCAAGCGGAGCTACGAGGAACACATCCCTT
R
CACACACATGAACGGAGGCAAGAAAAACGGGCGGATTCTGACCTTGCCTCGGTCCAATCCTTCCTAACAGTGCCTACCGTGGCGGGGGCGGGCAGGGGTT
Celera SNP ID:            hCV27536607
SNP Position Genomic:     157125
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:36552):
TCTCCCGGGTGTGAACATCCTAACCGTTATTGTGCAAACCCAAGAACGTCAGATCCCAAAGCACAACAACCTGGATGGACTTTGGGAACATCTAAGCAAT
R
TAAGAGAGAGGTGCACTGAGAGTACGTCTTGGTCCCCTCCACCCTGAGAGCATCTGACGGTCCTCAGTACTGAACTCCCGGAAGCTGCTCTGAGCCCGGT
Celera SNP ID:            hCV2931133
SNP Position Genomic:     158687
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   JBIC-allele(A,391|G,1100)   total(G,1100|A,391) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:36553):
CGAGGAACACATCCCTTACACACACATGAACGGAGGCAAGAAAAACGGGCGGATTCTGACCTTGCCTCGGTCCAATCCTTCCTAACAGTGCCTACCGTGG
Y
GGGGGCGGGCAGGGGTTCCCATTTTCGCTTTCCTCTGGTTTGAAAGCCTCTGGAAAACTCAGGATTCTCACGACTCTACCATGTCCAATGGAGTTCAGAG
Celera SNP ID:            hCV25599924
SNP Position Genomic:     157208
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:36554):
TGTGAGTGGCCAAGTTGCAAAACTGGCTCTTACCTTTGAATCTTCCCCCATTCATACTCAGCCAGGCACATGGGGAGGAGACCCTTAAGGGAATAGCAGC
S
TCACCTCTGCCTTCTCACGGTCCCTCCAGGAAGTGTGGGGGTCCCAGGCTTTGGTCTGAAACTACACTGAAATAGCTCATTTTTGCCTTTTGTTTTAACT
Celera SNP ID:            hCV2931065
SNP Position Genomic:     106062
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36555):
TGCTGAGATGGGAGCCGTACTGGCCCCCCGACTTCCGAGACCTCTTGGGGTTCATGCTGTTCTACAAAGAGGCGTAAGTAGAAGAGTTAGAGAGACGCTG
M
GGAGGCGAGGGCTGGCTGGCTCTGTGCTTGCTACGTTTGTGCTCCAATCTGCCCCTCTTGGGTTCCTGTCTATCTCCCTCCTCCTCCTGGAATAAATATC
Celera SNP ID:            hCV2931066
SNP Position Genomic:     106324
SNP Source:               Applera
Population(Allele,Count): african american(A,31|C,7)   caucasian(A,33|C,7)   total(A,64|C,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,7)      total(A,7|C,3) ;no_pop(C,-|A,-)   JBIC-allele(C,266|A,1027)   total(A,1027|C,266)   (A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36556):
CGTTTGTGCTCCAATCTGCCCCTCTTGGGTTCCTGTCTATCTCCCTCCTCCTCCTGGAATAAATATCTTAGGTTCCTTTTTACAATCTCACCAGTCGATG
K
CATGCAAAGTCAATAGTGTCTGCTTTTATCAAATGCCTAAAATGGAAGCAGACAGCTTTCCCATAGAAGCCCGGACTGGCCAGTTTCCTGGGGCAATATT
Celera SNP ID:            hCV2931067
SNP Position Genomic:     106458
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;SC_12_A(T,5|G,18)   SC_12_C(T,7|G,16)   SC_12_AA(T,1|G,20)   SC_95_C(T,63|G,108)   total(G,162|T,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:36557):
ATGCAAAGTCAATAGTGTCTGCTTTTATCAAATGCCTAAAATGGAAGCAGACAGCTTTCCCATAGAAGCCCGGACTGGCCAGTTTCCTGGGGCAATATTC
Y
ATTTTGCCTTGCCTGTGTATGTCTCATCAGACATCCTTAGTAGTCAGGAGCTCAGTCTACTAAGTGGATGTTATCAAATGTATTGCTTATCTATTTTTCT
Celera SNP ID:            hCV2931068
SNP Position Genomic:     106560
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36558):
CCTACTTCTCTGACATGGGACCCTTGGCTGGAGCTCACTGGCTGCCTTCCTGCCACCTGTAAGCCTCGGCACTTGCTGTTCCCTCTACCTACATGCTTTT
Y
CCTGTGATCCTTCCTCATACGATTTCCTCAGATTATCTTTGCTCAAACAACAGGCAAGGGCTGGGCCTTAATCTCACACCTGTAATCTCAGCACTTTGGG
Celera SNP ID:            hCV3171029
SNP Position Genomic:     55373
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36559):
ATAAAGGATATACCAAGGTCTTTCGTGTCTTCCCTGACCTGTAGCCTGGTGGTGTGCCAAGATTAGCCCAGAACATACTGTCTCCAGGAGGAAGAGACTC
R
CTTCTGCATTATTCTCAGGGCTTTGCTGTTCTCTGAAGGACAGTATAATCAAACCATTTCCTGCCGTTTGGGTGAGAAATAGCAGGGTTTTCTCTCTTCG
Celera SNP ID:            hCV27485494
SNP Position Genomic:     90723
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,124|G,1359)   total(G,1359|A,124) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36560):
TTTTTTTTTTTCTTTGAGATGAAGTCTCACTCTGTCACCCGGACTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGT
R
ATTCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGCACCACTATACCCAGCTAATTTTTGTATTTCTTGTAGAGACAGAACGTTGCTGTGT
Celera SNP ID:            hCV2931070
SNP Position Genomic:     108487
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36561):
CTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGCACCACTATACCCAGCTAATTTTTGTATTTCTTGTAGAGACAGAACGTTGCTGTGTTAC
Y
CAGGCTGGTCTTGAACCCCTGGCCTCAAGTGATCCTCCTGCCTCGGCCTCCCAAAGTCCTGGGATTAGAAGTGTGAGCCACCTTGCCCAGTCAGTTATTG
Celera SNP ID:            hCV2931071
SNP Position Genomic:     108591
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36562):
TCTCCCAAGTAGCTGCAACTACAGGCGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGATTTCACCATGTTGGCCAGGATGGTCTCA
R
TCTCTTGACCTGCAATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCATGCCAGCCTTTTTTTTTTTTTTTTTTTTTTTTGA
Celera SNP ID:            hCV2931072
SNP Position Genomic:     109344
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36563):
ACTCCGAGCCTCAGGTGATCCGCCTGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCATTTTTGTATTTTTAATAGAGA
Y
GGGGCTTCACCATGTTGGCCAGGCTGCTCTGGAACTCCTGACCTCAAATGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCAC
Celera SNP ID:            hCV2931073
SNP Position Genomic:     109756
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36564):
GGCATGAGCCACCGCGCCCAGCCATTTTTGTATTTTTAATAGAGATGGGGCTTCACCATGTTGGCCAGGCTGCTCTGGAACTCCTGACCTCAAATGATCC
R
CCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGGGCCCGGCCTAATTATATTTTTGTAAAACCTAAGTGCTTCTCTTATAGCAGTA
Celera SNP ID:            hCV2931074
SNP Position Genomic:     109811
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36565):
CGACTCGGTGACGTCTGCCCAGGAGCTCCGAGGATGCACCGTCATCAACGGGAGTCTGATCATCAACATTCGAGGAGGCAGTGAGTGTCTCTGTGTGGGC
R
TCGGGGGTGCCTGTTGGGCTCCATGTCCCTCTGAGCTGTGAGCGGGGAAGAAAAGCAGTGCAGACCCTGCTGCGTGCTCCTACAGCACTTTTAGGATGGT
Celera SNP ID:            hCV25599935
SNP Position Genomic:     99702
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36566):
CCCTCTTCAAGACTGAGCTGAGCCTCCTTCCTGGCCATGAAAACTTCCTCAACTTCCTCTGTTATCCACATTCAACAAATATGTGTTGAGTATGTGCCAA
R
CAAGTGGAGAGGATTAGGCACGTAGCACTGAACAAGATCAACTCCGAGCATGGCCACACCATCTTGGAGTTGTAGAAGACCAGCCGTTGAATGACTAGAT
Celera SNP ID:            hCV25599936
SNP Position Genomic:     103393
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:36567):
GCCTCCTTCCTGGCCATGAAAACTTCCTCAACTTCCTCTGTTATCCACATTCAACAAATATGTGTTGAGTATGTGCCAAGCAAGTGGAGAGGATTAGGCA
Y
GTAGCACTGAACAAGATCAACTCCGAGCATGGCCACACCATCTTGGAGTTGTAGAAGACCAGCCGTTGAATGACTAGATGTGTGTGTTTTTTCCATAGGA
Celera SNP ID:            hCV25599937
SNP Position Genomic:     103414
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:36568):
AAATTCATTTATGTTTCATGTACATCTTATACACATAGCCTGGAGGTAATTCTATACAATATTTTCAGTAATATTGTGCGGGAAACAAGGTTTTCACCGC
M
CTGACTGTGACCTGTCACAAGAGGTCAGGAATGGAATTTTCTTCCACTGCTATCATGTCGGCGCTCAAAAAGTTGAATTTTGGAGCATTTAGGATTTTGG
Celera SNP ID:            hCV27902860
SNP Position Genomic:     33525
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36569):
AATACCAGGAGCTTCCCTTATTCAGGCAGTTCTACATTTTTTTTTCCATCTGTAATGCTGTAACTAGCTCCCATCAGAGTTAACCCAGGCAGGGTATTCT
M
TGTCTATTTATAAACTTAAGAAGTATTTTCCAGTCTCTCATAGGCTTTTAAAGCTGTGTAAATACTTGGGTTTCCGAGTGGATACTCACCATTCACAGGA
Celera SNP ID:            hCV2931080
SNP Position Genomic:     116326
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36570):
GAGAATACAAGGAGAAGGCGTGTAGCCCGTGACCCAGTCCTGCCCCAGACAAACCGATATTCCCTCCAAAGCTCTATTTGGCAGAAGAAGTGTTTTCGTT
S
CCTCTTGCCTGTGGTATCTCCCCTGATAAGCGTTGTGGATTGTTCCAGACCGTGTTGACGGGGACAGCTTCCTTCTCCGCGGCTGCCGGCCCTGACCCTG
Celera SNP ID:            hCV27472476
SNP Position Genomic:     62474
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,181|G,1288)   total(G,1288|C,181) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36571):
GAGGGGACAAATATTCAAATCATACTATTATGTTACCAGTAAAATTTAAAATATAGGAATAATAATTGCCGATGTGTGGCAGACTTACCAAATACTAGAC
M
CTGTGCTAAGTGTTTTATATCTATTATTTTATTTAATTTTCTTGGTCACTGCATGACATATGCTCTGTTAGTCCCAGTTTTTCGAATGGGCATAACAAGA
Celera SNP ID:            hCV27902861
SNP Position Genomic:     53536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36572):
GAGGACCCTAGGTATGACTCACCTGTGCGACCCCTGGTGCCTGCTCCGCGCAGGGCCGGCGGCGTGCCAGGCAGATGCCTCGGAGAACCCAGGGGTTTCT
S
TGGCTTTTTGCATGCGGCGGGCAGCTGTGCTGGAGAGCAGATGCTTCACCAATTCAGAAATCCAATGCCTTCACTCTGAAATGAAATCTGGGCATGAATG
Celera SNP ID:            hCV2931085
SNP Position Genomic:     123861
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,10)   caucasian(C,31|G,5)   total(C,51|G,15)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;(G,-|C,-)   JBIC-allele(C,391|G,1084)   total(G,1084|C,391)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36573):
GTTACTACAAGAAACATAAAAATTAGCCGGGCGTGGTGACACACGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGA
S
GCGGAGCTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGCCACAGAGCGAGACTCCGTCTCAAAAAAAATAAAAATAAAATAATATTTGGG
Celera SNP ID:            hCV2931086
SNP Position Genomic:     125353
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36574):
CAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAAAATCAGTTGATGCTTTGTCTTTTGCCACTTCATGGTCTTTTTGGTTATAATCTTTTTGGT
R
TATAAACTCATTTGGCCTGTTTGATGAGCCCATTTTACATCTCTGGTTGTTGAGATACCAATTTCTCAGTAGTTATTCATGAAGCACCAACGTCTTGGTT
Celera SNP ID:            hCV2931088
SNP Position Genomic:     126378
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36575):
AATGCCCCCAAAGTAGGATTTGTTTTCTGACCACACATTTTCTGATGACGCTGCAATAGAAACTAAAAGTTAATTTCAAAAGATTAAACAGAAAACTTCA
S
TTCTTGGTGGTTAAAAGTTAAACACTTACAGGCTGGGCGCAGTGACTCACACCTGTAATCGCAGCACTTTGGGAGGCCCAGGCAGGCGGATCACCTGAGG
Celera SNP ID:            hCV2931089
SNP Position Genomic:     126735
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Gene Number:                 159
Celera Gene:                 hCG22073 - 67000129321281
Gene Symbol:                 BDH
Protein Name:                3-hydroxybutyrate dehydrogenase (heart, mitochondrial)
Celera Genomic Axis:         GA_x5YUV32VSN2(46397..120160)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12319):
TTTTTCCTGCCTTTTGTCCTCGCCATTGCAGTGTCTTGATGGGATGTCTCTCTTTGGCACCCTTTGGGATATGACTCTGAACTCTGCCTTCTGGCTGCAG
TCCCCTCAACTCTGGATGGAGCTCTATTATTTTTGTGTGGGGGTGGGGGCTTATCTCCTGAGCCAGCCTCTGCTTGTCAGAACACACTCTTCCTGCAAGC
ATGGTTTCCACGGGCCCCTGCTATGGCAGCCACAGCCTCACATCGTGAAGAACACACTCTTCCTGCAAGCACGGTTTCCACGCTCCCCTGCTGTGGCAGC
CACAGCCTCACATCATGAGGATGATACGCAGCCATTCAAGGGATAACCTCTAAGGACAGCCTGGCATGTCTGAACTCACTTCTCTTCCCACTGCCAGTTG
AGCCTTGCCTTCTAGCTCAGTCAGCACTGGGAGACTAGGCTACTCAATCTGGTGGTCTTTTGTTTCCAGCTCTCCCCAATATCCCTATTGTGCATTCCTC
ATGCCCCATACTCTCCTTGACTTCCCCTAATTGACCCCAACTTGTGTCCTACATCCTTCATCTCCCCAGACCTGACCTAATGATTGGAGAGAGGAAGCAG
GATGTTGAGCGAGGGAAGCTGAATTTCTCCTGCACTGGAGCCTGGCTGCAGAACCTGAGGAAGTAGGAGGGATGAAGAAGCAAGAAAGCTTCCAGCAACC
TTTAGTCAGCCTCAAGAAGTCTCCGGCTAGGAGGCAATGCTAAACCAGGACAACCTAGAGATACCCTGGCTGGCCAGGGCTTCCTRAAAAAGACGTGTTG
CTGGGTGGTTGCGTTGCCTTAAGAACACACCCATTACCCAGTGAATCTGCCGTGAGTCAGAGAGACGCCCCTGAAGACACATTACCTGGAGGAGATAAGC
TCCCCAGCCTCCCCCACAGCCATTCCCCAGTCTCTTCTCTTCAGCTTCTTCATTTCTCCTCCTTCCAGTCTGGCCACTGGCTCAGGCCACAGCGGACACC
CTGTTCACAGCCTGCATCACCCTCCTGAGACAGAACCTTCTCCAAGTGTTTGCCTTTGGGCAGGTCCCAAGGTACCACCTGGAGCTGCTGGAAAGGGTAG
TCCTGACAGCAACCCCCTGGTGATCCGGTCCTTGCTAGCTCCTCCCCCGGCCTCCCTGTAATGCTGGGTGCAGAGGGATGCACCAGGGAGCTGCGTGTAA
GTGGTGAACAGGAGAGCGTCTGGGTGACTGAACGGGGAGAAGGGAGGGGAAAGGATGGGAGAGGCTGAAGCAAACATCTTTGAGGAAAACGGGTAATGAC
GGAGCTGGTAGACAATGGTGAGAGAAGGAAGGGTGACACTGAAAGTAGTCATGCTCCTTTTTATTTAATTGAGATCTTCTTTTTCTCTTTTTGCCAATTA
ATAATATGTTTTGGTCTGGGGGATGCTTGGGAAGGCCCCATTGTTCAAAATATCTCTTTCAGGAACCTGGAACACCACCATTTGAGACTCACTTCTTTAG
GTCTTGAGGGCTTTTTGGTCTTTGAGATGCTTTTGTGTAAAGTTAATGCACCTCCAGTGCCCTCTGAACAAAGGCCGGTGAACGTGGACTAAGCTTCCCT
GGCCATCCTTGTCTCCTGCAGCTTACCCTCCTCCCCGCCCCAACCTGAAGGAGTAGCTCCCTCCCCGTTGAGAGCTCCATGGCTACGCCTAATTTACATC
ACCCTCCCCAAGCTGGAGGAGTAGTTCCCTCCCCATCCCAGAGCTCCATGGCTTTGCCTAATTTACATGACCCTCCCCACGCTGGAGGAGTAGTTCCTTC
CCCGTCCCAGAGCTCCATGGCTATGCCTCACTTGCCTCACTGGGCCCAAGCTGTCCTGGAAGGGAGGAAGCTGCGGATGTGTCTGTTCCCTTCCTTGGGC
TGTGAGCACCTGGATGGCAGGGACTACAGAGACCCCAGGGGGTGGAGGGGGTGAAAAGCAAGTTTCACATGTCCTGTTTGGCCTGAGACCAGGCCCCTAC
CTGACTTATGCTCCAGGTCGCAGACAGACCAATTCCACAGCAGAGGAATCTATTTCAACGTTGTATCAGACTCCAGTCTAGGAAGCAGACCACACTGAGT
GAGTATATCAGTCAGAGTTCCCCAAAGAAACAGAACCAGTCTATATACAGTGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGAGAGAGAC
AGAAAGAGAGAGTTTAGAAATTGTCTCATACGACTGTAGAGGCTTTGTCAGAGGCATTTGAACCACAGCAACTCCATCTTGAATAGGGGCTGGGTAAAAT
AAGGCCAAGACCTACTGGGCTGCATTCCCAGATGGTTAGGCATTCTAAGTCACAGGATGAGATAGGAGGTCACAAGATACACGTCATAAAGACCTTGCTG
ATAAAACAGGTTGCAGTAAAGGAGCCGGCTAAATCCCACCAAAATCAAAATGGCCATGAGAGTGACCTCTGGTGGTCCTCACTGGTACACTCCCACCACC
GCCATGACAGTTTACAAATGTCATGGCAANNNNNNNNNNNNNNNNNNNNAACCTGGAACACCACCCATTTGAGACTCACTTCTTTAGGTCTTGAGGGCTT
TTTGGTCTTTGAGATGCTTTTGTGTAAAGTTAATGCACCTCCAGTGCCCTCTGAACAAAGGCCGGTGAACGTGGACTAAGCTTCCCTGGCCATCCTTGTC
TCCTGCAGCTTACCCTCCTCCCCGCCCCAACCTGAAGGAGTAGCTCCCTCCCCGTTGAGAGCTCCATGGCTACGCCTAATTTACATCACCCTCCCCACGC
TGGAGGAGTAGTTCCTTCCCCGTCCCAGAGCTCCATGGCTATGCCTCACTTGCCTCACTGGGCCCAAGCTGTCCTGGAAGGGAGGAAGCTGCGGATGTGT
CTGTTCCCTTCCTTGGGCTGTGAGCACCTGGATGGCAGGGACTACAGAGACCCCAGGGGGTGGAGGGGGTGAAAAGCAAGTTTCACATGTCCTGTTTGGC
CTGAGACCAGGCCCCTACCTGACTTATGCTCCAGGTCGCAGACAGACCAATTCCACAGCAGAGGAATCTATTTCAACGTTGTATCAGACTCCAGTCTAGG
AAGCAGACCACACTGAGTGAGTATATCAGTCAGAGTTCCCCAAAGAAACAGAACCAGTCTATATACAGTGGTGTGTGTGCGCGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGGAGAGAGAGAGACAGAAAGAGAGAGTTTAGAAATTGTCTCATACGACTGTAGAGGCTTTGTCAGAGGCATTTGAACCACAG
CAACTCCATCTTGAATAGGGGCTGGGTAAAATAAGGCCAAGACCTACTGGGCTGCATTCCCAGATGGTTAGGCATTCTAAGTCACAGGATGAGATAGGAG
GTCACAAGATACACGTCATAAAGACCTTGCTGATAAAACAGGTTGCAGTAAAGGAGCCGGCTAAATCCCACCAAAATCAAAATGGCCATGAGAGTGACCT
CTGGTGGTCCTCACTGCTACACTCCCACCACCGCCATGACAGTTTACAAATGTCATGGCAACATCAGGAAGTTACCCTAAATTGTCTAAAAAGGGGAGGC
ATGAATAGTCCACCCCTAGTTTAGCATATCATCAAGAAATAGCCAAAAAAAAAAAAAAAAAAAAAAGGCAACCAGCAGCCCTCAGGGCTGTTCTGCCTAT
GGGGTAGCCATTTTTAAAAATCATTTACTTTCCTAATGAACTAGCTTTCATTTTACTCTATGGACTTACCTTGAGTTCTTCCTTGCATGATATCCAAGAA
CCTGCTCCTGGGGTCTGGATTGGGACCCCTTTCCTGTAACAGCATGGTAAGTCCAAAATCTGTAGAGTAGGCTAAGACCCTGGAGACTCAGGGAGGAGTT
ACAGTTTGAATCTGAAGGCAGTCTGCTTGCAGAATTTCTTCCTTTCCTGGGGAAGTCAGTCTTTTTCCATTAAGGCCTTTAGCTGATTGGAAGAAATCCA
CCCAGATTATAGAGGTAACTGCTTTACTCAAATTCCATCAGTCAAATCTCATTCAAAAAACACCTTCACAAAAACAACCAGAATAATGTTTTGAGGTAGG
ATTTTTGTTCTTGGTCACTTTGCAAGCTGGAAACCCCCAGCTGGCGATGTCCTGTCCAGACCTCCCTCAGCCAGGCTGGCATGCCCCAGCTTGCCTGTGT
TATAGGTTGTACCTGCATTCAATGGTTCCCGAGCTCTTGTACCACACCAAGAAGAATGAGGATATACTGGACATTGAAGGGTGATGGGGGTGGAGAAGAA
TTTTATTGAGTGACGGAATGGCTATCAGCGGAGAGGGGACATAGGGGGTGGCCCCCCAGCCCCACAGTCGGGTGGTTCTCACCTCCCCAAGTGGCTGGGT
CTGGGGCTTTTTATGGGCTCAGAATAGGGGAGGGGCAGGCCATAGGTAGTATTGGAAAAGGCAACATTCAACTGGTTAAAAGGCATTATTCAGAAAGAAT
CAATCAGGAAAGGGTGGGCAAACAGGAACAGAAGTTCTAAGTCTGAGTCGTGGGTTTCGTCTGGGACCAGCAGTCCAGCCTTTCAGCTCTGTTTTTGGCT
GGAAGGTGGGGTTTCACCAGGGACCCACCCCCACCTGCCAATGCATTTGGCTGCATCCCGTGGCTATCAGTTTGACCAAATATCTGGGTACTGAGCCGCC
ATGAGGAAAGCAGCTGCCAAGGACTGAGCCCCTCCTCTGCATAATAAAACCTTTACAGAAAAAGAATTTACAATTTTCACTCCTGCCAAGTTGACATGTA
AAATTAATCATCACCAGTCTGCTCCTTGTCAATCTGGGACCCACACATCTCTCCTTAAATCATACTTCACCTTCAAGTAAAGACAATAACAAGATCGTAG
TTCTGTCTAACATGACACAACTATCCTTGCTACAACTGCATCCTACTGCACTAATCCTTTTCCCAGAAGAGGATACAAAGTCCTTAGGTGTGTGAAAGGA
AAATAAATCTTGGGGCCCCAAAATCACTAAGCTAAAGGGAAAAATCAAGCTGGGAACTGCTTAAGGCAAACCTGCCTCCCATTCTATTCAAAGTCACCCC
TCTGCTCACTGAGATAAATGCATATTCTGCTGGCCCCTTTGGAGAAGCTAATCAGCAACTCAAAAGAATGCAACCATTTGTCTCTTATCTACCTATGACC
TGGAAGCCCCCTCCCTGCTTCAAGTTATTCTGCCTTTCCGGASGGAACCAATGTTCATCTTACATATGTTGATTGATGTTTCATGTCTCCCTAAAATGTA
TAAAAGCAAGCTGTGCTCCAACCACCTTGGGCACACGTCGTCAGGATTTCCTGAGGCTGTATCACAGGAGTGCGTCCTTAGCTTTGGTAAAATAAACTTC
CTAAATTGATTGAGACTTGTCTCATTTTGAGGGTTCACAGGTGATATTTACTTATTTGAGATCCTGTAACTTAAACACTATGATGTAAAGTTAGCAATAT
TAAATTCTATGAGATAAAGTAATGCATCTTATGTTACACGATAAATGAATACGAAAGGGAAGAAAACAAAGGTGCTATACGCACACTAACATATTCATAA
CAAAATAAGGAAGAAACACTCATGACAATTACAGTTCTGGTTTTTATACCTGGTCATGTAGTTGTGGCTGGTATTGATAACTATCTTATTTCACTACTCA
TTCCATATTCCCTTTGCCCTCAGCAAGCACCTGAGTGGCCATGGATCGTTGCCTGGTGAGGTGACCAGAACCCTCGTTCCTAAAGGGTCTGGGGTCATTA
GTAGTTCTGCCTGGATTGGGTTGTTGTAATTTTCCACTGACTTTAATCACAGGGCATGGGAATACTGAGAGACGTCCTATGGTATCTCCTGTATTTCAGA
CATACTCTTCCTTACCTCCACTGTGACATTCAAGGGGTATGGCTTTGGCCCCACCTTCTTGAATCTGCCTTCAGATTCAAACTGTAACTCCTCCCTGAGT
CTCCAGCCTCTTCTTGGAAATGGCCCTATCTAAAAACCACTTGGCCATTTTGAAATCTYTCTCAGGTCCTGATTCTGGGTTATGCTCAGGGCAGTCTCTG
AAGATTTCTCATCCTGTTCAGGCCGGTTCCTTGCTAATTTATGCCCACACATACCTGGCAGGGAGAGCTAAAGATGGAGTTGGTGGGAGCTGCCCTTTGG
CATCATTGATTTTTAATGTATTCCTAAGCAGCAGCATCTGTCCTTGATCCTCTGCTTGTCAGAAGGCCAAACTCACAGACATTTTAAGCTTAAAACAAAC
AGTTACAAAGCTGTTGAACTTTGCCTGTGCAAGGACAAACACAAAAACATCCCAAGGCCCACCCCCCGCYGACCCCCACTGTACTTGTCACACATATGTG
AGAATTTCCATTCTCAGCTAAAGGCAAGCATTGAAAGAATACACAGAAAGCCTGGAAAAGGTTTCCAGGGGTGTCAATACGCCCTGTCAACTGAGAATTA
AGAGGATCCGGCTGGTCACTTGCCTGGAGAGGATCCTGCATGCTGATAGTGCTGAGGCACCTGCCAGCTAAGGTGAGAGACAGCTGAACTTGAACATGTG
GGCTGTCACTGARAGCGGTCAGCAGAAGAAAATTTGAGCCATGGGTAAGGCCTGGTAGAAAGGGAGGAGGTTGGGGAGGCGTGAATAGGCCTTTGGAAAG
AGGTGMTGTTAACCCAAAACAGAGAGGCAGCAGCTTTGCAATTAGATTTTCTTTTTGAAATAGCAGGCTCTGTCCCTGGTAGCAATAGGGATAAATAAAA
AGTAATATGTATTCATTGGGAAAATAATTGGAAAAAGAATTAGGCAAAATAAGCATGTGGTTTTGTATCTTGTTTTTTAAAACAGCTTGTTGTAATRCAT
TAGATATTCTTTGAAAAAAATAGAATTTGAAGTTCAGAAAATCAAATCAGTTTTAGGGATTGAGAATCTCACTACATATTTTGTCTTTCAAAATTGTTTG
TTTRTTTATTTATTTAGAAATGGGGTCTTGCTATGTTGTCCGGGCTGGAGTGTAGTGGTACAATCATACCTCACTGCAGCCTCAAACTCGTGGGCTCAAG
GGATCCTCCTGTCTCAGTCTCCTGAGTAGCTGGGACTATAGTCAGGCACACCTCACCTTGTTCCCAGACCAAACTGAGGGTCGGGCTGCTTATTCTTGCG
GCCCAGTAATGAGATGCAGATGAACTGGGAAAGAAGGGAGTTTATTGCTGTAACTGGGTACAGGGAGGTCTGGAAAATATCACCAGAACAATTCAAAATT
ACAAAGTTTTCCAGAGCTTATATACCTTCTAAGCTATATGTCTATGTGTACGTGTGCATTCATCTAAAGACATAAGTAAGTGATTAACTTCTTCTAATCT
ATAACTAAGATCTGAGTCCTGAAGGCCTTCCTTTGGAGCCTTYGTAAATTCATTTAATCTAAATGGGTGAAGGTGCTGGGGTGATTACCCTTATCTTGTG
TCCTGCTAAATCACAGGGTTTTGGGGAGTTCCTTTAGTCCCCAGTAAAGCTTGTTTGTGAAGGTCTGGGGAGTTCCTTAAGATCCACAATAAAACTTGTT
TAATCCTAAATGGGTCCTGTTAAGAATTCCTTCATTATTTTGTCATGCTTTAAGGCCCAGGAAAGGCCTAGGCAAAACTCTTGGTGGGCTTTTGTTACAT
TCAAGSCTTTGTATAGGGCACTGATGCTATCAGCTTTTAATATTTAACCTAACCACTCAGTCAGTGCTGAAACAGTTGTTATGGAGGCCTACCTGTTCAG
CCATTATGGAGACCTGGCCTGCCACAACCTTGCCTGGCTAACTTTTAAATTTTTGTAGAAACAAGGTCTTGCTGTTTGCCTAGGCTGGTCTTGAACTCCT
AGGGTCAAGTGATCCTCCCATCTTGTTCTCCCAAAGTGTTGAGATTAYAGGCATGAACTACTATGCTTGGCCATCTTTCAAAGTTTATATGTGTATTCAT
CCATTTCCTTATTGCTGATAAAGGCATACCCAAGAATGRGTAATTTATAAAGAAAAAGAGGTTTAATGGACTCACAGTTCCACATGGCTGGAGAGGCCTC
ACAATTATGGCAGAAGGCAAAAGGCACATCTTACATGGTGGCAGGCAAGAGAGAGAACGAAAGCCAAGTGAAAGGGGTTTCCCCTTGTAAAACCATTAGA
TCTCATGAGACTTATTCACTAGCATGTGAAAACTACGGGGGGAACCACCTCAACAATTCAATTATCTCCCACTGGGTCCCTTCCACAACACATGGGAATT
ATGGTAGCTATAATTCAAGATGAGATTTGGGTGGGGACAGAGTCAAACCATATCATTCCACTCCTGGCCCCTTCCAAATCTCATGTCTTCACATTTCAAA
ACCAATCATGCCTTCCCAACAGTTTCCCAAAGTCTTCACTCATTTCAGCATTAACTCAAAAGTCCACAGTCCAAAGTCTTACCCGAGATAAGGCAAGTCT
CTTCCACTTATGAGCCTAAAAAACAAAAAGCAAGTTAGTTACTTCCTAGATACAATGGAGGTACAGGCATTGGATAAATATACCCATTCCAAATGGGAGA
AATGGGTCAAAACGAAGGGGCCAAAGGTTCCATGAAAGTCCRAAATCCAGCAGGGCAGCCAAATCTTAAAGCTCCTTTGACTCCATGTCTCACATCCAGG
TCATGCTGATGCAAGAGGTGGGTTCCCATGGTCTTGGGCAGCTCTGCCCCTGTGGCTTTGCAGGGTACACCCTCCCTCCTGGCTGCTATCATGGGCTGGC
ATTGAGTGTCTGTGACTTTTCCAGGCACATGGTGCAAGCTGTCAGTGGACCTACCATTCTGGGGGCTGGAGGACGGTGGCCCTCCTCTCACAGCCGCACT
AGGCAGTAACCTAGTGGGGACTTTGTGTGGAGGCTTCAACCCCACATTTCCCTTCTTCACTGCCCTAGCAGAGGTTCTCTGTGAGGGTCCCAGCCCTGCA
ATAAAATTCTGCCTGGACCTCCAGTTATTTCCATACCTCCTCTGAAATCTAGGTGGAGGTTCCCAATCCTCAATTCTTGACTTCTGTGCACCCACAGGCT
CAACACCACATGGAAGCTGCCAAGTCTTAGAGTTTGCACCCTCTGAAGCCGCAGCCTGAGGTGTACCTTGGCACCTTTTAGCCATGGCTAGAGCAGCTGG
GACGTAGGGTGCCAAGTCCCTAAGATGCACACAGCAGGGGGCCCCTGGGCCCAGGCCACGCAAACATTTTCTCCTTCTAGGCCTAYAGGCCTGTGATGGG
AGGGGGCTGCCACAAAGGTCTTTGACATACCCTGGAGACATTTTCTCTATCATCTTGGCAATCTGGCTCTTCATTACTTATGCAAATTTCTGMAGCCAGC
TTGAATTTCTCCTCAGAAAATGYGTTTTTCTTTTGTATTGCGTCAGGCTGCAAATTTTCCAAACTTTTATKTTCTGTTTCCCTTTTAAAACTGAATGCTT
TTAACAGCACCCAAGTCACACTTTGAATGCTTTGCTACTTAGAAATTTCTTCTGCCAGATATCCTAAACCATCTCACTCAAGTTCAAAGTTCCACAAATC
TCTAGGGCAGGGGCAAAATGCTGCCAGTCTCTTTGCTAAAACATAACAAGAGTCACCTTTACTCCAGTTCCCAAGTGCCTCATCTCCATCTAAGACCACC
TCARCCTGGATTTCATTGTCCATATCATTGTCAGAATTTTGGCCAAAGCCATTTAACAAGTCTCTAGGAAGTTCCAAACTTTTTCACATTTTTCCTGTCT
TCTTCTGAGCCCTCCAAACTGTTCTAACCTCTGCCTGTTACCCAGTTCCAAAGTTGCTTCCACATTTTCAGGTACCCTGACAGCAGTGCCCCACTCTACC
AGTACCAATTTACTGTATTAGTCTGTTTTCTTGCTGCTGATAAAGGCATACCCAAGACTGAGTAATTTATAAAGAAAAAGAGGTTTAAYGGACTCACAGT
TCCACATGGCTGGGGAGKCCTCACAATCATGGCAGAAGGCAAAAGGCACGTCTTACATGGTGGCAGACAAGAGAGAGGATGAAAGCCAAGCAAAAGGGGT
TTCCCCTTGTAAAACCATCAGTTTTTATTCACTACCAAGAGAGAAGTATGGGAGAAACTTATTCACTACCACGAGAAAAGTATGGGGGAAACTACCCTCA
TGATTCAATTTTCCCCCACCAGGTCCCTCCCACAACACATGGGAATTATGGGAGCTACAGTTCAAGATGATATTTGGGTAGGGACACAGCCAAAACATAT
CAATATAATCAACCAGAACCTATAACTTTTCCTCATTGAAGACATCAGAAATTGCCAYCTGTATTGTACTAATTGAATGAAATTTCTGTGTAACAAAGCC
ATTCCAGCTTCTGTTGGATTATCCACATGAATGATGCCCAGCTGATTATAAAAAATTCTGTACTCCATGCTGAGTTCCTGTAACTCTAGAAAAAGGAAAA
AAAAAACTGTACTCCAAATAGCYACAGAAACTGGGATTTTAAAAATCCCTTTCTTCAAAGAAAGAACCTCAGAACAATTGGTGGTGTGCTTAACCCAAAG
CATTTGGAGTAGGACAGACTTGGGTGGGATCTGTCTTTGCCACTTCCTGGTTGTATTGTTGTGGGMAAGTTATTTGAACCTGCTAACTGTCAATGTGTTC
AGTTGCAAATGGGAATAATCTTAGGCTACTTTTAGAATTGTTGCAAAAGTAAGTGAAATAATGCATAGAGGGCACTTGTCACAGTGGCTGGTACATAGAA
ATGAACCATTTATTGCTAAATTGTAGTATTATTGCAAACAGGGAGCCTGCATTGATTTATGATTCCACTCTAAGAATATAGCACAATCAGTGAGATATTA
TAAGGACTCAATCAGTGCAAACTGAATGAATGAATAAATTGCATGGGTTGCTGTAGCTTAGGGCAGGATGGGCAGAGGTGTTTTTTTTTTTAATCAAATA
TCCTCATATTGTTCCCTCTTCCAAGATCCTAGTTACCTCAAAAGAACATTGCTTAAATTTACAGACAACCCATACCCATGCACAAAATGCTTGTGCTTAA
ACAAACACTCAATTAATGAATACGTAAGAGTTAAGTGATAGAAAGTGGGTGGGGATGCCTGATACTCTCCATCTTTTTCCCTTGAGGTCAAGCACTTGTT
TTACTTGCTCATTCACTGCAAGGAAAAGGCAGCTCCTCCAGTTCTCATTCATCCACAGATTTCAGCATTACAGTCACGTTAAGATCAGCTGTCAAAGGCT
CTTTTCAACACACTAGATTCTGAGCACCACAGCTTCGTTTTAGAAGCAGCATAGAATAATATACTGGGCTTCTTTCCTTTGCTGTCAATTCCAGAAAAAG
CTACTCAATACCTATAAAATTCTACAGATTAAGGGTATGATTTCCAGCCAAAAAAAAAAAMCCCACAAAACTTTAATAAAATTCAATTGCATCAAAACAA
ACAGAAGACTGTGGGGTTTGGGGCAGTAGACAGTGTTTTTATTCCCTATCRCCCAGCAGAACTCAGCAAAGCAGGCTGCACGCTGGCTCTGTGAGGACTT
GGAGGTGGCTGCCTAAGGGCAGGATTTAACCTGCACTGTCCTGAATTAACACTGAGCACTTAATACTGAGGGCAGAGAAGACCAGGGGCATTCAGACCCC
GGGCAGGGCCAGATCCAGCAAGGGAGGGGCTGGGAATGATTAAATTCAGCTGGTATTGGAGGAGAGTGTGAGCTAGCAGGCAAACAGACAGGAGAGAACA
CCATGATCTCTCAGGTCAGGGGCCTCTTTTAGGGTACTTCATTCTGACTGAGAATCTTTCAGGATACTACCTCTTCTACAAAGCCTATCCTGAACCCTTA
TTAGAACTCTGATGACATTTATTTGTCCCTCTTTTAGAAGACTTACAGGACTTCTAATGATTCATTTAGCTTACATACATGCTTCATTTCCCTCCATRAA
CCCCCAAAATCTCAGGTGCCTCATTTCCCTCCATGAACCCCCAAAATCTCAGACAGGTCTCTCAGTTAATTCAGAAAGTTTATTTTGCGAAGGTTGAGGA
TGTGCACCTGTAACACTGCCTCAAGCGGTCCTGACGACATRTGCCCAAGGTGGTCAGAGCACAGCTTGGTTTTATACATTTTAGAGAGACATGAGAAGCA
ATCAACATATGTAAAATGAACATTGGTTTGGCCCAGAAAGGTAGGACAACTGGAGGCAAAAGCAGGACAGGGAGGGGGCTTCCAGGTCACGGGTAGATGA
GAGACAAACAATTGCACTCTTTTGAGTTTCTGATTAGCCTTTCCAAAGGAGGCAATTAGATATGCATTTTTSTCAGTGAGCAGAGGGATGACTTTGAACA
GAACGGGAGGCAGGTTGGCCCTAAGCAGTTCCCAGCTTGACTCTTCCCTTAGCTTAGTGATTTTGGGACCCCAAGATTTATCTTCCTTTCACGTTTCCCT
CCTTTTCTTTTTAAAATCTTTTGGAGAAAGCATTTTAGGAGAAAATGAGTCCCTCGTCCCAGGTTTCATCTGGTGTCTCATGGCTAGGATGGTTTATTCC
TAGATAGGTAGGTCCCAAGTTATTAGGAAAGCTCATATTTAGAAGGTTGTGAAGTCTCATGTCCTTTGAAGAGAAAACAGGGGGAAGAAGGTAGAAAAAC
AACAACAAACAAAAGAACAATCCTGGAAAATCGATATAGGCCACATTACTCTGAAGTTTATACATCAGTAGGTAGGTATGAAAGTGGCTAATGTATGTAA
ATAAGGTTGCTATTATTTTCTTCTGAAGGTTGTCTAGCTTCAGTTTGTGGGGCTTTATGAAAGCACAGCTCAGTTTTCAGTGACTCCAAATTAGGAAAAA
TGGGAAAAGAAGAAGAAAAAAATTGAAAACAAAGTAACAAAAATTACTTTGAAGACTTGGAGCCAAGAAAAATTAGAATTCAGTTCAAACTTTAAAAAAT
AATAAAAATCAAGAAACGTTAGGCAAGACTAGAATCTAACAACTGCTGTACTATAGTTTTGAATCATAATGTTTCTCTCTTCAGTTTCCCGTTTGTACTA
AAGAAAAATCATGGTAGGACTGGTTTGCTTTACTATACTTGGCCTAATTATTTGTATACAATGCAGCCAGAGTAATTATTTTTTTACATAGGCTTTTAAA
TTGGYTTTGATGGAACTTTGTTCCATAGAAGGAATCTCAGATAAGACATTTTTTTAAAGCTGAGCCCAGCTATGGATTTGTGCCATCAGGTACCTATGAG
TTGAGTGATCCTTTCCTCTTGAGGTTCCAAGATAAACTTGGGGCTCCTGGGCCTGTCAGAAAGTGACATTCTTTACTTATGACACATCAGGAACCCTTTA
CAATGGCTGTGTAGACAAAGGTATCACAGCAGTTTATCCAATGGGCTTTTATTGCCTCCATAAGTCAAKTTTGAATCCTTAAAGGAAAGCACACCATTCC
AGTCAAAACTTTAGTAAAATAACCAGTTTCTCCAATTGTGTCCTGTTACAAATGAAAACAGATTCTTATTGCACTTATGCAAATAACTGTATTGTCATAA
GAATACTCACACATAGTTCCCAAATTTTGGAGAAATCAGGTWGACAGAAACAAATATGGTCTAAATTTTGTTCATAGAAGTATACTTCACTCAATTGTTA
AAAGCTGTAAATAGCTTAAAAGACGTTTTCTTGTATCTGAAAAACAAAACAAAGGATCAGCAACATTTTAAGCAAAAAGTTTAAAAGATTACTTTAGTCT
TTTATTAGWTCAGCTCACGCAGTTAGCTTTTGTTCTGACATTCATGAACATTTCAGTTCTCCATGAGAGTCCTGAAAGTTTTTTTCTCTATTCTAATGTT
CCAATCTCCAAAGTTATCAGAAACTTGCATCTAGGAACACCTGTTAGAGTTCTATAGTTGATTATAAAACCACTTTCTAAGGAGGACCAAAACAAGACAA
TTGTTTGTGGATGACAAAAGGTTTTAAGGCAGCCACAGTCAAAGACACAACTGACAAAGAAACTTATCTCTGTGGCAGCAACAATTTAACATAACAATTA
TAATTATTACTGATAATGTACATTAAGTCATATCAAAATTATAGGAGTTTCCCATGATTTTGGAACACATACCAATAACATATTTATATAAATACAGCCC
AAAGAAAGCCAAACACCATTTCATATTTGACAAAGTTTCCTGTATGATTTTTATACCAAATAAGCCAAATTATGTCATTTTGGACTTCAGGAAACCTAAT
ATCTTAAAGGATTAATTCAAGCAGAAAAAGACATAATTTATAATTTGATTTTGGAAAGGTTATCAAATATCAAAGGTTTAGAACACTTGATATCACAGGT
TATTGTAAAATAAGTCATTCATTTGACCAAAGTGATAACTCAAGGATTTAAAAAAAAGGCAAAAACCTTCTCTTTGAGAAAAGAGAGCTAATTTTCCAAA
CAATAAGCCCTAGTAACAACAGCAGGAAGCTGGCTGGGTGCGGCGGCTCATGGCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGGTCACCCGAG
GTTGGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACCCTGTGTATACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAATCTCAGC
TACTAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTYGGAGGTGGAGGTTGCAGTGAGCGGAGATTGCACCATTGCACCCTAGCCTGGGCAACAAGAGC
GAAACTCTATCTCAAAAACAAAACAAAACAAAAAACAAAACACAGCAGGAAGCCAATTAAATTTGTTCTCTAAAATTTTATAAACAATCTATAAAATTTT
AATCTTGACCATAAGCTATAACTTCCATAAGCCTTTCATAACCTTTATAACCTTTACTTAGGAGTTGGTTAATATTTCATAAAAACMTTGTTAATTTGAC
ATGGGCTCATATGCTGGTCTTGCATCAGTGTGCCTTTRACATTAATGATTAATTTATAGAGAAACTGAACTTATTTTATCTCTCAACATTGGCTCTTACA
ATCTCACATGCCCCTTTCCTGAGAAAGTTGAATRACTTGAATTTTTGGCCCTGTGTTTCAGGAATGCAGTTTATTTTGATTGGCATTTTCTACCGAGACT
AAAGATGGGATTTTAATTGCTGTCAGTRTTTAAACTTTAGCAGGACTTGGTATCTTTTTTACACCCAGGAGTCAAAGCCCTGTAACTAAATGTCACAAGT
ACTTTAAAACCTCATACAGAGAGACATATGGGTGTAATAACCTTAACTTAAAAAAAAAATTTAATCTCAGTTTTTTCCCTAAGCAAACCAAAACTTAATA
ATAATATGACAACTTGATCATATAGGTTTTTTTAAAATAAATCCTCTTATTGTGACTTACACAGACTGTTCATGACATGCTTGGACTTTCTGGTTTGTCC
TGAACATCCCTCTTTCTTAAGCAACCAGTCATTTTACTCTAGGACTAAATTTACCATACAAGATTCTTTCTTATATGAAATTATTTATCTTTAAGCTTTC
TTACCAAAAAAAACCTCTTTATTTTTATAACTGTYTTTTTTTTTTTTTTTTTTTAGATGAAGTCTGGCTGTCACCCAGGCTAGAGTGCAGTGGCAAGATC
TCAGCTCACTGCAACCTCCGCTTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCTTTCCAAGTAGCTGTGATTACAGTAGCCTACCACCACGCCTGGCTAA
TTTTTGTATTTTTAGTAGAGATGGGATTTTACCATGTTGACCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGC
TGGGATTACAAGTGTGAGCCACTGCTCCCAGCCATAACTTTCTTTACATCTCTTTTATTTTCCTGGTTCCTTTTATATTGTTTTAAACATGACCTTTAAA
TAAGCTTTGAATTAGACAAAAACTATTCATCTTTTTAAAAATGACACACTTTTTAAAAAGAATGTTTTCTTACAAATATATTTTTATTGGAAAATACCCA
TATAATGAAATATCTATTACTTAATTTAATATAACTTTAGATTCTAAATTATGAGTTTGTCTACAAGTATTACATTCACCTAATTATTTTAATTGTTTTA
GATGATTTATGAAAACTGTGATAGTCATCATTTAAAGTTATGGAACCATCATTGCAAAATTATAACAGAGACGTGAAAAAGATTTGCCTAACTGACTCCA
TCTTGCTTTTAACCTCCAAACTCTCCTTGTTCATTCTTCTTTTCTCTCCTAGGAAATTGTTGTTTAAGGATCCTAATTCTAGTTCAGAGATGCATTCTAA
AGGGTCTTCTTTTTCTTCTTGTCAGCTAATAGTCTTAAATTTGCATATTAAAGGAAACAACTCACRTAAAAGTCAGACAGCAAAATTTACCTCGTAAGGT
ACAAAGTGAAAGTCTGGTGAGCTGGAGGGAAATTAAAATGAATTTAATTAACAATTGGACATAAAATTATAGACATCTATCATAAAGGCCTTCAAATACA
TACATGTGTACATGTACATACACACATACACACATACAGATTCTATAACTTTTACTCCAGTACTTTAGCCATGAGATAAATACAAATTTGCCAGCTTGCA
AGAAAAACCCAAAAAACTATTAGACCCAAACAGTGGTTTTATCTCAGTGGAAAAATAACAGCAGACTTAAAGCATGGCAGAAAGGAAAATAGAGAAAAAC
GGACTAGRAACTCTAGAATTTGCAGGTTGACCTTAGGGCTCTTTTTCCTYAATGTAAATTTGCACAAAGACTGTATTACTTCCATTTTACTCTGGCAAAT
AGAGGTGCCATAAAACCAATAAGGTGCTCTAAAGGGGGTCATTCTCCTTGTTTTCTCCTCATTCTCAGATTGTTTCCTGCTTCTTTTTTTTTTTCTTAAA
AGGAAGAATTGAGCTGTGGCCTAGGGTTTTTGTGCATGGATCGATGTGAGCTGCTTGTGGGCAGGACTCCACAGTGTGTCATCACTGAGTTGTTTCCAGC
CTCTTATGCATCTCAGCTTCTCTCTCCAGAGGTCTATGWCCTCTGAGAGGGCTCAAAATGCCAGGTGATCAGCCCTTATATGCATTTCCTGGATGACCCA
TTTTTAAAATTAAATTTTTCTGGGGATTTCCCTGCAGGGCCACTGCATGTTGCAGGGGGTCAACTCCCCAGACGCTCCCACGAGGCCCCTGGTCACCCAG
GGAYGCCTTTCGCTGGAAAGAGCAAATGTCCTTTCTCTTTGGAGCTCAGAAAAYTCAGTTTCTCATTTGCCTATGAAAACAACAGTTCAGTTCCTCAGAM
AAATGCACACAGACAAACACAATTGAGATTAATTATGGGAGAAAAAGCAATAGATAAGACCCTTTAGAATGCATCTCYGAACTAGAATTAGGATCCTTAA
ACAACAATTTCCTAGGAGAGAAGAGAAAAGAAAAGAAACCAGCCAAGACCACTTCCTGTAAACTGTGCTCAGCCACCCGTAACTTTGTAGTTCTCGTCTG
CCATTACATGCTCCAAGGTCAAATCCTCTCACAGTGCAAGGTCATCTCTGGTTCCCCCAAAGCCAAAGAGGTCAGGTCATGCAATACAGGAAAACAGAGC
TTTAGATGTAAGAAGAATCCGCCCACGACTCTTGAAACTTCACAGAGAAAACACAACACTCCAAAAGGGGTGAGTGGCCCCTTTGTTCTGAATTCTTTAA
AGGGGTTCAAGTCATTAGAAGCCTTCTCTAGATTTTTTTGGTACTGCAGATGGCAAAGGGGGAAGGAGGTATAGGGTAGAAGAAAAGTAAATGAAATAAA
TATWTTTTTTTTAAGACAGGAAGCAAACACAGAAAGCAAGTGCATGTTTTTGTTGTTGTTGTTGTTGTTTTGTTTGTTTGTTTTAGCTGTGAGAAATTTT
GGCCAGATTAGAAAGGCTTTGTTACCCGTAATTTGGAATTCTCACTCAGATTGGACCAAGTCTGGAAGAGTAGGTCAAATCTGATGGGAAAGCAACCAGA
ACAAACAACAACAACAACAAAACCCCAACAATATGATCACTGAGCACTCTAATGGTAAAGGAGAAATTCAGACCAGCTGGTTGTTAAACTTTAGCCAAGA
CAAAAACCCAACTCAGCTACTTACCTAGGGATGGGTCTCAGGCTGAAGACTGCTTTTTGTCATCCTAAAAGCAGGAAAAAACTCGAATTCATCTTCCCTG
CTGGGAGTGAGCTCAAGCTCCCTGAAGGAGTTGTCTGCCTTCTATCGTCATGGAAAGAGGAAATCTTGCCTTCCTTGTTGGAAGCAAATAAAACTCCAAA
AAAAAGGTGGGGGGGAGTTGTACAGAAAAATAAACTCTAGATCTTGACCAAATTTGGGGAGATCAAGGATTCTCTGGAGGGTGTGCTCCCAGACCTCAGC
AAATTGTCCTATTGGTTTGAGCCGTAAGGTTAGCTCATGCTGCTACCAAGGACCAGTAGATCTGTCAAAGGTCAGGGGCATCTCCACTCAGAATCCCTCC
ATGGTTACCAAAATGTGAACCCCCCCAAATCTGAGACAAGTCTCAGTTAATTTAGAAAGTTTACTTTTCCAAGATTGAAGATGCACACCTGTGACACAGC
CTCAGGAGGTCCTGATGACATGTGCCAAGGTGGTCATACGTTTTAGGGAGACATGAGACATCAATCAACATATGTAAGATGAACATTGATTTGGCCCAGA
AAGGTGGACAACTTGAAGCAAAAGTGGGACAGGGAGGTGGGTTCCAGGTCACAAGTAGGTGAGAGACAAATGGTTACATTCTTTTGAGTTTCTGATTAGC
CTTTCCAAAGAAGGCAATCAGATACACATTTATCTCAGTGAGCAGGGGGATRACTGAATAGAATGGGAGGCTGGGTTGCCCTAAGCTGTTCCCAGCTTGA
CTTTCCCTTTAGCTTAGTGATGTGGGGGCCCCAAGATATTTTCCTTTCACACCTGTTTGAAATGCTTGTTCCTTGGTGCAGTAAAGAAATAGCACTTGAA
CATTGATTTCCTCAGCAAGGCCATTTTTATACTTTCTACAGAAAGGGTACACTCACCAGCAGTTTTGCCGTGAGCATACACAGAACAAAGCAGACGGGGT
CATTTATAACCTGACACATCCGCCCTACTGCTGTGTCTGGTTTCCATTGGCTGGAACAGGACCTCACATTCTGTATTTGTCCTGATTGGCTAGTAACTTA
GAACTTTTTAAAAGAGGCAAAGGCAGAGGAGAACAAAGGAAGGAGAAAGTAACTTGTGGAATGCTGAGAAAGGTAAAAACACCTTCAAATAAGGAAGAGG
AACAGGCTATGACCTAATGCTTGCTTGGACCAGTATAAGCACACCACGGCAAATATTTAGGCTAAATTGTGGGAGCTAAGAACATATGATTTCTTTATTA
AGGCTAGCAGATTTTAAGAATGTTAGCACAGGTCTTTGAATAAATTTTGCTTCTAAGAGAAGTTACTATTTATTCCTAATTAGAGGGGAGGAAAGTCTTT
GAAGACTYACCTCTACTTTACTTTTCACACCTCCTTGAAGGCAGGGACTAAGGACTGTTTCCCTCCCAAAACTAACGTGCTAATTTGCAAACAGTACCTC
CCTGGGTTGAGGAGAGTGTGCTGAGTGCTGAATACCCTGGCCTGAGGCCTTGTACCTGAACAGAGAGGAGGTGGTTTTACAGTAGGGGGAGGGAGAGAGA
ATCTTGGTGCATGCAGTGTTGGGAGTGACCTGATTTCCACAGACTGTCTGTGTTCAACCTCACAGCCGAATGTTTCTCCAGTTCCAAAGTCAACAACCAG
AACGGTAGAAGGWGGGGAAAGGTTGAAGGTGGGGCTGAGAATGGCTTTGTCTGACCCCTTAACCCAGTCCCAACTCCTCAGTTGGCCCTTTCTCCTGGGA
GTCTCTTGCTACTATCTGTGTCAGAGTTCACTCGTGATGCCCTAAGGGGCAGGGCCTTTGGGAAATAAAGGAGAAAAAGCACAAACCAAACAAATAAATT
CTTCCTTAGCAGGGTTGGGAAAGATAAGCTGAGATGTCTCTTTTGGGTTAACCATTGGCTTAATCTGGGTTCCCCCAAATAGCAGAGCCTGAGCAAGGAC
TTGTGTATAGGTAGTTTATTTGGGGAATGAATCTGTTTTGTATGGTTAAAATAAGGAGAAGATCAAAGTATGAGTTCATGAATCACACAGTTTATTGCCA
TACAAAGAGGTCTTTCTTTTTCACAATTCTTAAAAAGGGGGAGAATAATGAGAACAAATCTCACAGGGGATACACTCAACAGACAAGGTACATTAATCAC
ATAATGAATGAGTTCCAATTTCATTTAGAGTCCAATTATTAAAGTTCAGTTGAAGCTGAGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGC
TGAGGTGGGCRGATCATCTGAGGTCAGGAGTTCAAGACCACCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCGTGG
TGGCGGGCACCTGTCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATCGCTTGAACCCTGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCACCATTGCACT
CCAGCCTGGGTAACAAGAGTGAGATTCCATCTCAAAAAAAAAAAAAAAAAAGTTCAATTGCCCACTTAGGATGGAAAGCAGGCTTTTGTGGATGCAAAGT
CCAATCAGAGTTTGAGGCACTACTTTCTAGGAGAGGTTCTCGGGAGGGACAGCTTGACTAATACAATGGAGATCCATGAAGATACGTGAGGTCTCTTGCT
GCTAGAGAGCGGTGCCAGYGTTGTGAGACAAGGCTTCAAAAACAGCTTCAAGGCTTCCAGAGAGTGGCCTCGCCACATCCTAAGCTCTCCAAGCGTCTGT
CAAAATCCTGGGTTTCTATGTGTTTGGAGTCCAGTGGTTGAGGTCAGTAGCTCCCATGCGGGGTCTGATAAGGTGTGACATGACATTCCCTTGGCTAGGG
AGAGTTCCCTGCATGTTCTAATCACAGTAAAACAATATCACTCTCACAGAAAAGTGAAAGTGTTCGGAATCATTTAAAGCTACATAACAAAATCCCAAGG
AATTGGAGGGGAGGGCTGGGAAGAGTCAAATAGGGAAGGAGGGAAAGAGAATGGCATCCAAGGGTGTATTCGTGAGTTGATCAAGTCGGTCACTACTATG
GGCAAACAGAATGCTATCATTTTAGGAGCTGCATAGAACATATCTCAGAATTGCCCACTGGAAGACTGGAAGAGCAGAGTATTTTTCCTGCAGTTCCTGC
CTGCCCTTTGGTCAAAGTTTGTCCTTTGAGGTGTTCCTTTGCACTTCCAGGTTTACTCATGTGTCAGAGTGGACAGCGGATTCCTGCAAGGGTCCCAGGT
TGCAGTGCCAGAGACGCAGAATACCAGGTGCAGCTGAGGCAAGGTGCTCTCAGGTTACACCTGTTCATACCTGGTTGTCACAGCAAAGCTGGGCTGGGAA
GATGTAAGGCCAGATGTGTAATACAACCTCAGAAAGGTCAAATGTCCTTTTCTGTCTTATGCAAATAGGACTACAATTCAGTTTAATTCTCAGAGTCAGG
ATCTATGTTTTTTCCCTTGGGGTAAAGAAGAATTCTTCCTTTAACTACTTTTCTAGCAAAGCATAATCCTCAAGGCGTAATTTTAGTATAGTGATTTATT
TTTAACCCTGTGGTACTATATGCCTAATGTTCTGAAACACCGTCACTGGAGCAAATCCAGGCTTGAGTCTATCTGTGAAACGGGAACAGAAAACTAAGTG
CATCCTCCCTTCCTGATTCTCCCAGTCTTCAAGGCTGTATGTGCCAGGAGCTGGGGATAAAGGAGATAGCCTTAGCTCTCCAGAAGCTCACAGAATGGAC
AGACAGAGCCAACAGTTTTATTTGTTTGTTTGTTTTTTGAGACAGTCTCCCACTGTTGCCCAGGCTGGAATGCAGTGGCACCATCTCAGCTCACTGCAAC
CTCTGCCTCCCAGGCTTAAGCAATTCTTCTGCCTCAGCCTCCCACCTAGCTGGGATTACAAGCATCCACTACGAAGGGCAGGGTTTCACCACATTGGCCA
GGCTGGTCTCAAACTCCTGGCCTAAAGTGATCCACCCGCCTCAGCCTCCTACAGTGCTGGGATTATAGGCRTGAGCCACCGCACCCGGTCTACAGTTTTC
TTTAAATCTTCATCATGCCAGTACTTCCCTCCTCCTGTTTTCATCTTCCTGTATTTGCAAGTTTCATTCATTCTCTTCATTCTATTCATTCCTTCTCTGT
ACTTTACCTAAACATAGTTGTGAACCCCCAAAATCTGAGCCAGATCAATTTAGGAAGTTTATTTTCCCAAAGTTAAGAATGCACGCAAGTGAAATGGCCT
CAGGAAGTCCTGACATGTGCCTAAGGTGGTTGGGACACAGCTCGGTTTTATACATTTTAGGGAGACATGAGACATCAATCAACATATGTAAGATGAACAT
TGGCTCAGTCTGGAAAGGTGGGACAACTCGAAGCAAGGAGGGAGCCCCCAGGTTATAGGTAGATGAGAGACAAATGGTCGCATTCTTTCGAGTTTCTGAT
GAGCCTCTCCAAAGGGGGAATCAGATATGCATTTATCTCAGTGAGCAGGGGGTGATTTTGAGTAGAATGGGGGCAGGTTGGCCCTAAGCCGTTCCCAGCT
TGACTTTCCCCTTTAGCCTAGTGATTTGGGGGCCCCAAGGTTTATTTTCCTTTCGCGTAGCTTCGCCACTAATGTGTCCTGGTGTCTTCTCTCCTCAGCC
TGTTTCTCATCCTGGAAACTGAGGTGTGCTGGCGCAGGGCGATAGCGCAGTGGGGTGGGGTTGGGAGGAAACCCTTATCTGTGGCCGATGGCCCTCCGTT
GTTCTATTATTAAAACTCTGGGAAACTGCTATTCTTAATTTATTTTTAAAGACCCTGAGAAGCAAATCTTTAATTTTTTTGTTTTTGTGAGACGGAGCAC
TCTGTCGCCCAGGCTAGAGTGCAATGGTGCAATCTCGGCTCACTGGAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCT
GGGATTACAGGCGTGCGCCACCGCGCCCTGCTAACTTTTGTATTTTTAGTAGAGACTGGTTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCC
CAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGAATTACAGGCGTGAGCCACCGCCCCCGGCCTTTAAATAAATTCATCTGATCAAAAGAAATTTA
AAAACCAACCAACCCTAATGAGCTCTAAAGACAGCAACACGCACAGGACCTGGAAAGAGCCTCTTCCTCACCGGAGTTTTCCTCACTTCAAGGAGCGGCG
CCTTCACCCTCCGGCCTCAGCCCGCGAGGCTGCAACCCTTTCCGCACCTGGCTCCATCTCCCTGGCCCTCGCCCCCGCCCAGCGGTCGGGGAGCGAGAAG
GCGGCGGGGGATCTGGCGCCCGGCTTAGGGGCGAGACGGCCGCACCGGGAGCCTAGCGATCAGGGCACCTTGGGCGGGAGGAGCGCCAGCCGGGCACCCA
GCGCGGAGGAGGCGGCTCGGCGGCCCCCCGACAGCCACGCCGCCGTGAGCCCCGCCCAGCGTAGCCCCAGCGCGCGCTTCGCGTGTAGAAGCGTCCGGGT
GGCGGAGGCCGCAGGCCGCAGGAGTGCTGGTGGAGGGGCTTCCAGAAAGACCCTGCGGCAGCGCCCCCCCTCGGCTCTCCCCGCAGGAGAGCGGGCACCT
GCGCGGCGCCGGGYGAAGGCGAGAGCCTCGGCGAGCCCTCTGCAGCGGAGCCCCCTGCCCATTTGGTTTTGGGTAAGAGGAGGGGTCCGCGTCTCTGCAG
CTCGGGCGGGATTCCCTGGCGCCCTCTACTCGGTTTGGTTCGGCCTCACGTGTTCCTTTAGCTCCGAAGCCGGGATACGGGTGGGGAAGGGGGGCTCGCG
CCCTACAGGCCGAGCCCTGMGGCCGCRGCGGGGTAAGGGTAGGATGGCCGATCGCGCCCAGACCCCAGGGAGTCTCCCTCTCGGCTTTTCTGCCGGCGTC
TCCAGCAGCATGATCTGGCATTTATTATTCGGAATAATGTGCCAGGCAGGAGGAGGCCCTGGGTTAAACACGCGGCCCTGCAGCTCCCAGGTGAAACGAC
TCATCGTTTCCTGCCGGCGCATCTTACTGAAGGGGACCCAGGCCCCACGAAGGGAAGGAACCGTCCTCAAGGTCACGTCGTAGTCAAAGGCCGAGCCCAG
ACCGAAGCCAGGTGTCCTGCCTTCTAGCCCCGGGCTCTAGGCCCTGTCCCCTTCCCGACCGAATCTCCCAGTCCCGTCCGCGTCCCTCCTCCTCCTCCTC
CTCCGGGGTCCTCCGCAAGGCTCTGTTCCCGGGGTTTGGGGAGTCCTCCCTCCGCGCCACAGCGCCCTGGGGAAGAATGCTGGACAGCAGGCAGGCCACA
GGGCCGGGGAAGGAGGAGGAGCCGCGGGGACAGGCTGGGGATGCCAGAGTGGTGGTGGGCCCGGGACTGGCCAGGGTGGGAGTCCAGGCGGCGCACCCGC
GCGAGGACAAGGGGGCTTTGGCTGGGCGGTGCTGTCTCAACCAATGGGAAGCGTGGCTCTGGCCGAGCCYCCCTCTCTCCCCGCCCTCCGGCCGGCCGTT
GGGGAGCGCTGCTCTGGGATTGGCTGCGCCGCCGTCTCGGGCGTTCTCGCGCTCTGCTTACGTGCTGACGCGCGCCTGATAGATACCCTGTGGGTTTGAG
CGCTCCGGTCGGTCCCTAGCGGCCCAGGCGCCTTGGGCGTGCGTCCTGCGCGCGGCCGCCTCCAGGCTGCGCCCTTCTGGGGAAGTGTTTGGTGCTGCGC
GCGGCGTCGAACTCCGCGTTTTTTTTTTTTCTTTTCCAGCCAGTCAGCCTGGAAATCTGCCTGTAGTCAGCTGATGCAGAGTCACCCTGCAGTTCCTACT
TTGAGGGGTTGCAGAAGCACATATTTCACTATGGAGGGCCGCCTGCAGGCCTCGCGCTGACAGGATCTTTTGTGACGCTGCAAATGTCCTGGTCAGTGTC
CTTCTTTCTACAAGAGGCGTTGGAGCCGGGCTCTGCATAGGGCGTATATATCCCTGGCCGCCAAGGAAGCTGACCCTTGAAATTTKTGAAGCTTTCATAT
TCACTCAATACACATTTACAGAGCCTCTACTTCCTGTCAGGCGTCACACAATAAATATTCGGAGGAGCAAGAAGAGAGTGATTCAACATTTGGGTCTTGT
CTGTAGGGTGCTCACAGTCCGGGTGGGGATTGGTGGTAGGATGGGGGCTTGTGAATGTTTATAAACAGAAATCCCTCGAATACGACCCTGGCTAGGTAGG
TGCAGTTACAGAGGCACAGAAGGGAGGAGAYTGGGCGAAAGATTTTTGAATTAGGGGATTAGAAAAGGCTGCTCGGGAGAGTTATCTGAACCAGCTAGGA
CTTGGTCAGATGCAGTCAGTTTGGTATAGGATGAGCAAGGCTCGAAAATTGGAAAGTACAGGGCTTGTTGAGGGATGGTGTAGCAAACGGTTGAATGAGT
AGAGGAGAAAAGTATAGTTGGAGATACGGTTTGGAGGAGCCAGGTGAGGACTCGGGGGCTCAGCTTGTGTCCTCGGGTTTGAAATGCAGTAAGCACTTGT
GAATAGAAAGGCTGCTTAATCATTTGCACTACTGTCATTTGTTACACCTAGACCAAACATCTTGGAAATGGCTTTGATTCTTCCTTCTTTCATATCCTAC
ACTCAATCTGTTGGTAAATGGTAGCGGACTCTACCTTCAATATAAAGCCAGACTTACCAATTCTAATCAGTTCCATGGTTTTCACCAAGGCTGGTGTACA
TTTCTAAGGAACACGTTTTCACATCTCACTGCAGTGGTGCAATATACAACCCTCATGACTGCACATGGTGGCCCTGGATTACTGCCACAGATCCTAATGG
GTCTCCCTKCTTCTGCTCTAGTCCATCCTCAACWTATTAACCCAGTGAGAGTTACCTTTTTAAAAATGTAAGTCTGATAATGGCACTCCTCTTCTTAAAA
CTCTTCTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAATCTCCACCTCCTG
GGTTCAAGTAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCGAGCGACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGT
TTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCC
AGCCAAAACTCTCTTAATTCATTTAATTATGTACCAGCCAGGCGTGGTGGCACACACCTGTAATCTCAGCACTTTGGGAGGCCGAGGTGGGCAGATCATT
TGAGGTTAGGAGTTTGAGACCAGCCGGGCCAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGYGGTGCATGCTTGTAACC
CCAGTTACTTGGGAGGCTGAGGCAGGAGGATTGCTTGAACCTGAGAGGTGGAGGTTGCAGTGAGCCAAGATTGCACCCCTGCACTCCAGCCTGGGTAACA
GAACGAGATTCCATCTCAATGAATCAATCAATCAATATTGTGTGTCTGTTGTGTGCAGGGCACTGCTGTACATGTTGGAGATACAACAGTGAACAAAACA
GACAAAAATTCCTGTTCTCAAAGAGCTTATATTCTAATGAGACTGAACAACAACAAACAAGATAAATATGTACAACATGTAGAATGCTATAATGTAATAA
AGTGCCAAGGAGGAGGAAAAAATGGAAGCAGAGAAGGGGGATAGTCAGGGTTGGGGTGGGATAGATGGGGTGGCCAGAGAATGTCTTAGTAAACATTTTA
GTAAAGGACTGTGGATATTGAGGGAAGAGTGTTCTAGGTAGAGGGAACAGTAAGGACAAAGGCCCTRAAGCAGGAGCTGGCTTGCTATGTTCCAAAGACA
GCAAGAAAGCCACTGTGACCAAAGTGCAGTGAACCAGGTAGGAATGAGGTCAGAGGGACAATGGAGACCCAGAACATGGAGGGCCTTGTAGGCAAACTCT
AGATTTTGGCTTTTACTCTGGCAGGAGTTTGGTGAGGCGTGACATGATCTGATTTATGTTCCGCAAGATCCTGCAGGCTGTGTTGACCAGAATCTGGAGG
AACTACAGTGGAAGCGGAGAGTCTAGTTGGGAGGCTACTGCAATAATCCAGGCAAGAAGGGATGAAGGCTTGGACTAGGCTGGTAGCGGAGGATCCTAGA
TATATGTGAAGGTGGCATTGATAGGACTTGCCGAGCACTGGGCCGTGGAGTGTGCAGGAAAGGGGAGTCAAGAATGAGGAAGATTTAGAGGAACAGGTCT
GCAGGACAATAGCACAGGCTCAGTTTTGCACAGGTTGCATTTGAGATACGTAGTAAACATTCAAGTGGAGATGTTAGATGCGCAGTTGTCTGAGTTCAGG
GGAGAAGGTTGGGTTGGAGATCAACCTTCGGGAGTTGGCGGCATGTGAATCGTATTTAAAGCTATGAGTGCTCGTCATGGTGCGGAGAACAGACCAAGAA
CAGAGTCCTGAGACTCCGTTGTTTAGTGGCCTGCCTTTAATTTGGTAGGCAAGCCCTGTTCTCCTAGTGAAAAAATGCCCACTTGATCTGGCAGTTGTAA
TTATGGCAGTTTTGACAGCTCGGGTAACACTTTGTCTTGGGGAAGGACAGAAGAGGAGTGGAATGGGGGAAGCACAGGTTCCAGTGTCGTTATAAGGTCA
TTATAAATGAGGCATTCTCAGAATAGGGGTCAAAACTGAGAATTAATACACCTCATATGCTGTTGGTGGGAATGTAAATTAGTACAACCACTACAGAGAA
TAGTTTGTAGGTTCCTCCAAAAACAAMAAATAGAGCTACCATAGGATCCAGCAGTGCCACTGCTGGGTATATACCCAAAAGGAAGGAAATCAGTATATTG
AAGAGATATCTGCACTCCCATGTTGGTTCCAGCACTTTTTACAATAGCTAAGATTTGGAAGCAACCTAACTGTCCATCAGCAGATAAATGGATAAAGAAA
ATGTGGTACATATACACAATGGAGTAGTATTCAGCCAGAAAAAAAGAATGAGATCTGTCATTTGCAACAACGTGGATGGAACTGGAGGTCATTATGTTAA
GTGAAATAAGCCAGGCACAGAAAGACAAGCTTTGCATGTTCTCACTTATTTGTAGGAGCTAAAAATTAAAACAATTGAACTCATGGAGATGTAGTAGAAT
GATGGTTACCAGAGGCTGGGACAGGTAGTGAGGGTCTGTGCAGTGGGGAGAAGATGGGATGGTCAATGGGTACCAAAAAGTTAAAGAGAATGAATAAGAA
CTAGTATTTGCTAGCATAACACAGCGACTATAGTCAATGATCATTTAATTGCACATATAAAAATAACTAAAAGAGTATAATTGGATTGTTTGTAACACAA
AGGAGAAATGCTTGAGGGGGTGGATACTCCATTTTCCCTCAGGTGATTATTACACATTGTATGCCTATATCAAAATAGTACCCCGTAAATATATAGAACT
ACGACCTACCCATAAAAATAAAAAGTTAAAAATAATAGTGTTCTGCCTTCAGTTTTAGCTACTATTGATTTGGTGGCAAGTGGCAGAAACGTCCAGCCTG
CTTAAATTACACAGAGACTGTAAAGGCACAGCATGGCTTCTGGAGCTGGGGGGCAGATGGGAGGCGGCTGCTGCTGCTGTTGCTTTTCTCCCTCCCTCCC
TCCACCTCCACCCCTGCTGCTTTCTGCATGAGCATCTTATCCCCCCACCCCCTGCAGATCGGCTTTCTCCCTCTCTCTGTGGCTTCAGGGCCCAGTGGAG
TGTAGCTGCCGTCCTCCAGCAGCGCCATTGCATGGCCCTGCGCCACAGAGCATGGTTCGCATTCTCTCACGGTGCCAGGGGACAGAACAATGGGCTCACC
TTGGGTCTGGTGTCTCTTCCTGGCTCAGTCCTCCGTGACCAAAGCATAGTCTCTGCAGCTGCAGAGGCCAAATCCTATGAGGGAGGGGCAGGTCTGAGAG
GAGGGGACATCAGGTGAGCAGGACAGACCCCCGAAAGGTAGTCACTGCAGAGTGTATGTGGTGTGTTATCGGAGGAGAACTGGTCGCCACCGAAGCCTAA
TCTGGTGACTGGAATGTCTCTCAGGACGATCAAGGTGTCTGCATTGGGTGTGCCTAATGTTAGACCCTTGGCTTTTATTGAAGGTCCCTGTGAAACRAGC
CATGTGAGTGTCATCTCTGCATGTATGATACAGTGGTGGTGAGAACACTGTCTACTATATCACTTGATGTTCCTGTGTAATTATTTCTGACTTTTGTTTG
AGAATGGTTACTTCTCTAAGGAATGTTAGGTGTCTTTTTGAATGAGGGCTTGAGAACTTGTCAGGTTTCCCGTTTGCATGACCTCAAGGAAGCTCCCACG
TATAGCTGAGCTGGGTTGGAACTTTCAAGCAAGACTCTACGAAATGTTCGGAAGAGGAATGGCCAAATATATATATAATAGTTATTTGATTATAGTGCAT
ATATAGATATATATGGTCAGGAATCTCAAAACTCAAATGCCCATAGTGTCCAGGCAATTAACAAAGATGATATGGATAGTTTTAACATAGTAAGTACAAA
CTGTTTGTATTGAGTTCAAGCATAGCTTAGCTGCCTAGTTACACTGCTTTTTAAAACAGCAGGCTGGCCAAACAAATCAGCCAAGTAGAACATGTTTAGG
TAGGCTGCCAGTTGTAGGATTTGGGAAGCTGACACAGAAACTTGCTGGTCTGAAGCTCTTCAGTGTGAGGTCTCTGCATTGGCTGTTTCCCTGCATAACC
CCAGCTTGCCCTCCTCGGGGGCAGGACCTTTGCCTCCCACTTGGGAGTGGCAAGGGCCCATGTAGGCTTCATGTCCAGAAACACCTGAGTTCTCTTTCCT
GCCTTGTGTGACCCGGTTTGCTGCGGATACCTTGCCTCTGCTGAGAATGTTAGTACTGGGAATGCCTGCCCCTTTGAGGGGAGCCCCTGCTGCTGCCTCA
CAGGAAAGCCCCCAGCTGTGACCTCTGCAAGATGGTCATGTTGGAATGGAACACAGTGAGCCCAGCAGTGAGGAAGGATGCGCACGCTGTTTTCTTTTTT
TCTGGAGTAGGAGTGCTTTCCATGTGTTATACCTTGACAGTGGAGCGGGCCCTTGAGAGAAGCCCCAAGTGTTTCTAGCATTAAAAAATGTCTCCAAGAT
TCCAGGTTGATATGTGAGCATCGTGATTTTGTGACAGTATCTTATGAGTTTGGTCCCTGGGAGTCAAGCCCCCTGTGCTCAGTCACCTCAGGGCAACTAA
TTACTTGACTTTCAAGGCTGAGGAGACTGAGCACCCGCCTCCCACAGCCATTTCTGTTCCCAAACTAAAAGGCAAGAAAGTGGTGTGTGAAGTTTGAGAA
CTTAATATTTACAGAGAATAAGGCCTGGCACAAAACATGAAGATGGCAGACAGCTACCCTGAAGAGTCTTTGGGAGCCCTGCAGTGGAAATAGCTGCATG
TTTAAGAAACACGCATGCAACAGACTACATTGAGAACAGTGCATTGTTCAAGGGACTGAGTTTTTTGTGTTTTTTTTGTTTTTTTTTGTTATTTTTGTTT
TTGAGACGGAGCCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCRTGATCTCAGCTCACTGCAACCTCYGCCTCCTGGGTTCAAGCGATTCTCCTGCCC
CAGCCTCCCGAGTAGCTGGGACTGTGGGCGCCCGCCACCACGCCTGGCTATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTCAGCCAGGCTGG
TCTCGAACTCRTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCRTGAGCCACCACGCCTGGCCAAGGGACTGAGTTTTT
ATGCACTTTTAATTATTTTGGCTTTAGTACTTTTAGATATGGCTGACTTCAAGGAAAACAAAATGGAAAGCAGCTGTCTATTTGGAGATCATATTAAAGC
ATTTTCTGCCACAGGCATTGAGCTAAGGGGTGGAAAGGACTTTAATTATAGATGACTGGATGGGAAGTTTCCCAGTGATGGTGACCTCAGACTCTGGTCC
TGGGTCTTGGAGGGAGGAGGTAGAGATGTGTGTGCTTAGCCAGCTGGTCAGTACTTAGATGGTGGGAGGGGGTGCCTCATGAAAAAGTCTGAGCCAACGT
GGGCCTGTRCCTTCCATAAAACCATAAAAAGCCAGTCTGGGCTCCATTCTGCTGCTCTCTGCAAGGAGCTTTCCATGGAAACTTCTTTTGTGGCCACAGG
CCGACTTTCCACCCCCAGACTGCCCTGCGGGAGCCCGCTCAGCTCCCATCCACTCCCCAGGGACTCAGAGTGCCTCCTTTGCGTCAGGCTCGTTCTAGGC
ACTGAGGATTTGGTGGTGAACCAGGTGGAGAGGATTCCTGGTGTCACTGAGCTTAGGATCTAGTAGAAGATAAAGTAAATAAACATAATTTTGAATTAAG
GTAGCTGCTATGAGAGTGATCTTACAGAGAGCAACCTGTGTGTTGAATGGGAGCCACTTTAGTGAGGGAGACAGAGGACTCAGCATCCAGGATGAGGGCA
GAGCAGGAGCCGGTACTCTGAGGCAGGAACGCCCTCACRTGGGCAAGGAGTTCTTGGAGTCAGTGGTGGCTGCGACGCAGTGAGCAAAGAGGAGGGTGGC
CCAGTGAGCTAGGGGCCTCCAGGGAGGGAGAGGCCAGCCCCCACGGGCATGGAAAGTTGGCTTTAAACACGGAAGTCGCATAGCTTGACCGGTGTTAAAA
AGGTTTCTTGGGCTGCTGTGCTGAGAATGGGGGTGTGGCAAATAGGGGCAGGAGTACAAGCGAGAGTTTACTGTAGTTCTGGAAAGRTAACACCAGAGAG
GTTTCTGCCTGCTTTCCTTTCCTGAGGATTAAACAGATTAAACGCCTCCACCTGCTTCCAGCAGAGTGCATGGCAGTGGTTGCTCAGTTAACACTGCTGA
CCTCTGGGCCCAGGTGGCTGGTTATCAGTAAGGTTTGGGGTGGCAGCAAACAGGCAGGGGAGGAGCCTCCCAGGCAGTACCTTATTACCAGGAACAGTAT
GACAGACTACAGCCAGGTAGGCAAAGGAGAGGCTGGAACCCATTTACCAGCCCGCMTTCCTTCCCTTAGGCCTGGAGGAATCACTATTAACAGAACAGGA
GGGCAACGCATGCCCGTGCTGATCAGCGGTCAATAATGCTGAAGAGTCGTGGTGCCTAGCAGCCTTAAGGTGTTACCAAGAGATTCTTGTTGCAATAAGG
TTGCTTTAACCTCAAATGGTGAGGGAGCGGGGAGGGTGTGTGTGTGTGTGTTAATTACAAGAGTCTCTTATTTGGCAGCTCCAAACTCTATGCTATAATG
AATTACTGATTAATTCAGCCTCAGAGCCAGAGCCCCCTTGTTTGTTCGCATGGGGGAAAGAGGTGGACGGCTGAGTCAGATGCTATGTGGCATGAGGACA
AGCTGCCTGCAGGGGCAGGTGGGCACCTCAGGAATGAAGGCTGATGCCCTGGGGCACCACAGGTGGGTGTTTCAGCAGGTTAGAGGAATAGGACTTACCG
AGTCAGAATCCCTGAGGGGTTAGGTCCCCGAGTCTCCCAGTGGTTGGCGGGTTTGAGGATCACTGATCTGGGCCAACCTGYTCACATTATGAATGGGTGA
TGACTTGCCCAGGGTTGCCCAGTGTGTTTGGTGGCACAGCTAGAGCCAGAACCCAGGCTTCCARGCACCCTGGCTCCTGACTCTTTCCATTGTGAAGCTG
CAGCTTGAGAGAGGAACCAGAGTGGACTACCTGGTGGTACCAGGACTGGAGCTGGGTGGAACAGATGCAGCCCAGTTTGACTTTCACAACCTGAAAGGAA
CATGACTGCTCCTGATTAAAGCCCGGAAGGCAACAAAGTAATGCTGAGGGTGCATTTATGTTTCAGAACCACCGGGAGGAACTGGGCCATTCTAACACCC
RTTGCTACCATGCTGGCCACCCGCCTCTCCAGACCCCTGTCACGGCTCCCAGGAAAAACCCTAAGTGCCTGTGATAGAGAAAATGGAGCAAGGTAAGCAA
CCAGAGGTGGTGGTGGCCTTGAGGGGACACTTTCTGAGCAGGCAGAGGTTTTCACACATGGACAGTGTAGGCGGTGATGAGGCCTGATTCTCAGAGATGT
CTCTCAATACCTTTGTCTCCCAGCAGAGGAAACTCAGAGGTGTCCTGGGAAGACATTTTCCCAGGGCACACAGGGCAGAAAGGAATATCTTTCATAACCA
CTTATTTTTTTTTCTTTTTGATGGAGTCTCACTCTGTTGCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCCACCTCCGCCTCCTGGGTTCAAG
TGATTCTCCCACGTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCTGCCACCATGCCCAGCTAATTTTTATATTTTTAGTAGAGACGGGGTTTCACCAG
GTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTAGGTTTACAGGCATGAGCCACTGTGCCTGGCCAT
AACCACTTCTTAAAACCCTTTTTATTTTGAAATAACTTTRGACTTATACAAAAGTTGCAAAAATCGTTGGAAAGGGTTTCTGGATCCCCTTCAGCTAACT
TCCCTAAATGTTAACATCTTACAAAACCATACTGCAATGATCAAAATCAGGAAATTACCATTGATAGAATACTATTAACTAGTCTACAGACCTTATTCCA
GTGTTGCCAAGTGGCTGCTGATGGACCTTTTTCTGGTCCAGGATCGAATCCCAAATCCCACATGGCWCGGAGGTGTCATGTGTTTTTAGTTTCTTCCTGC
CGGGGACAGGTCTTCAGTCTTTTTCGCTCACGACCTTGACACTCTSGCTGGTTATGTTGTACAATGTCTCTCAGTTTGGGTTTGTGTGGCAAGACGCCTG
CGGCAGTGAAGCGGTGCTTTTCTCAGCCCGTCGTGCCAGGAGGTACATTATTTTGATAACTGCTCTTTTAAAACTTTATGCATGAAATCAGTTAGCCGAG
ATGTCCCAAACCTTCACCGCATCGTTTGTGTGATTTCGAGGAAGCATTATATAAGTACAAATTAGACAAGCAGCTGTTCTTCTTTGAGAGCTTCTGGAAT
TGCCTTTTCCCAGGGGATTCAGTGGGCTCTGCTGCCACATTTTACTCTTTTGCAGTCTGAGCAAGGAAAAAACAAGAAATACCTTTTTCTTTCTGTTATA
TTTGAGGGGAGTGAATTTGAGGGGAGTGAAATTGAAGATTATGTTAAATTCAAAGTCCCAGGATCTAGAACACTGATATTTCTATGCCAATAATATGTTT
AATGGAACATGCATTTAGACTGAGACTCTGTTGCCCAGGCAATGTGGCAACCTCTTGGCTCAGAGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCCG
CCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGTGCCACCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGG
CTGGYCTTGAACTCCTGACTTCAACTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTCACCACGCCCGGCCCGGCTTTTAGCAGCATTTGCTTGA
ATTTATTTCTGAGAGATACAGAGGCATGGCTTGGAGCTGGGGCTCCACCTACCTGAGGACCCCACATGAGAAGAGTTTAGAATGCCCCATTGGCACAGGC
GGCAGGAGGCCCCTGCCATCACAGCGGGGACGGCGGAGGCCCCTGCCGTCAGAGCGGGGACGGAGCTCGGCTTTGTTGAAGGGCTTTTGAAAGAAGGTGA
CTTGCTGCAATTGTTTTTTCAGTGAGTGATTCATAAAGATGGCAAGATCTGTCTCCAACATGGCTTTTAGAGATTTCTGGAGTTTTTTTATAGAGGAGAA
GATAATCCCACATGAAGTTAAAATACTTTTACAAAGGTTTTGTTCTTAAATGTAAGGAAAATGAGGCATTAGTCAAGCTCCTGGCTCACTTGAGGGGAAA
GAAAGATTGTCAAAGGGAATTTGGAATCTTCTGGATGGACTGAGAAGTAACTTGGTTAGGTTGAGGGGCCTGGGTGGTGGTTGGGCAGCCGCAGAGCTGT
CAGAGTAGAGTCAATGTCGTAGGGTGAAGGTATGGGCAGCGTGGAGGGGGACCCAGGTACAGAAGGAGGCTGGCATGGTGGGTAATCGCCATGCCTAGGA
TCCCACAGTCCCTCAGAGGGAAAACTTTGGCCTGATCATTTTGCTTGAGTCTCAGTTGGAAAGGGCCTCATACTCCAGTCTGCACCTGTGAGTGAATCTT
GCTGATAGCATCCTTACCAAGTGACTTTATCGCCTCTGTTTGAATATGTCCAGTGATGGAGAGGTTAGTACCTCTCATAGCAGGCCTCCTGTGTTTGGAC
ATCTCCTTATTGAGGAGAAATCTTTTCTCCTGTTAATGCCACTCCTTGTTCTTGGGTCTGCCCCTGCATTCACACTGAGCGAGTTATTCCCTTCTCCCMA
GGGGCACTGTGCCACCTCAATACCCACCCACTTGTCTACTCTTACTCCACCCACATGGTTTCTCCTTGTTTATCTCTCATGGTTTCCCCACTATCATCCA
GGTCTCCCCGCTGAATGGTCTGCACTTTGCCTGTGCTCCTTCTTAAGGTGTGGTGCCTGAACAAAACACCCACCACTCTTGACATGCCCAGAGCAGGCAT
CACCCAGTACACATGGCTCCGTCCAGATGAAAACCTTCCCAGGAGTGGCTGGATAAGGCCCCCAACCCCAACACTTGACAACCTGCTGTGCTTACTGGCT
CCCCATGGCCCTCCGATTTCAGATTTCTCAGATTTCTGGCTTTGCCAGAAGACTCTGGCATCCCTGGGGCAGGTGCCTTGCTCACATCTGGGACCCTGCC
TCCTGGGCTGTGATCACCAGTGCTCAGCTCTGCCAGGCCAGGTACAGCACATAGTGCTCCCAGGGTGGCCTGACCCGGGCAGAGTGGAGAAGGGCTCTTG
CCTCCCCTATCCTAGTTTCTTTCCTGTCCAGCCTAGGCTCACATAGCTTCTTTTGGCTGCCACATCACATGCGGGATTCATGGTCAAACAGGCTAAATTT
TTTTCACAGATGCTGCCGTGAGGCCATATTTCTCCCGAGCTGCACCTGTGCCACTGATATGTGTTCCTCCTAAGCCCCGTCTTGTTAGATTCAAATGGAC
TCATGGCTCCTCTCAGCAGAAAGCTGGGTTACTGGTTATTGTTKCTGATTCCTGATGGGGACAATAAAAGGCACAGACACACAGACTGGTAAGATAGAGA
AGAAGCCAGAATGAACGCCCTGGCCAGCATAGGGAGCGCTCTCAAATGCGGCCGGGATGACCAGGGCGCTGAGGACAGCAGGCTCTTCCACAGGGCCTTG
GGGAGGTGCCAGACTGCACCACTTCCTCCCTCTCATTCTGTTCCTGGGTTAGGGCAAAAATCAGGAAGCTCTCGTCTTCTGAACCTCACAGCCACCCCTT
TGGGCTCTCCCTTCAGAAAGTGTGTTGACCGGTGGGGGCGCGGTGGCTCACACGTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACCTGAG
GTCGGGAGTTTGAGACCAMCCTGTCCAACATGGAGAAGCCCCGTCTCTAATAAAAATACAAAATTAGCCGGGCCTGTGGCGTGTGCCTGTAATCCYAGCT
ACTTGGGAGGCTGAGGCGGGAGAATCGCTTGAACCCGGGAGGAAGAGGTTGCGGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCGACAAGAGCA
AAACTCCGTCTCAAAAAAAAAAAAAAAAAAAGCAAGCAAGAAAGAAAGCGTGTTGACCATCTCGAGCTTAACTTGTGCCTCCCGAGAGACTGAGACCGGC
ATAGCTGTTGGTGTTAGTGGCTTGGTTGGCCAGCAGCTTGCTGTTACTGCAGGACCCTCCTGGGCAGAGGAGACCCTCCAGGGAAATACACACTATTTTA
TGTGCTGGTTTTGGGCCTAACGCCTCATGGGCATTCTTAGCCCTGGGAGACCAGTGTATGAGCTGGGATTGCCTCACACTAAGARTAGCAGGAACCCCTA
GAAGTCTAGGGCCATTGTGGCTTTGGGGAGCCCAGGCTCCTTGTTTTTTTYTGCTGTGTTATTCTGAAGGCAGCTCAGGATCCCAGGATACTGTGATAGT
CCTTCACCTCCAGCCTCAGTCCAGGCAGGGACAAGCAACGCACCTGCATCGGGAAAGCAAAACTCAGCAATTGTGGTCGACCTCCGCTTGCAGCCTATTG
GCCAGAGGCAGGTCACGTGACCACTAGGTGGGTGGTAATCTGGAAAGCGTTGGGCGCACTGCTGTCCCTGGACAAAATCCAGATTCTTGTTARTGAGGCA
GATGAGAAGAACGGATGCTGGCAGGCAAAGAGCAGTGTCTGTCACAGCTCAGCTGGGCTGTGGCCTCCAGCTGTTCACAGGGATATTGGGGCTTTGGCAT
TCAAGGGGCTCAAAGGGGAACCCCCTGGGGATAGGTCTTTGTTTTTYTTTTCCTGTAGGGCAGTGGTATTGAACCTTGGTTGTGGGTTAGAATCACCTAG
AGAACAGTGAGGGAAAAAGTRTCTGTGCCTCACCTCTGGGTCAGGAGTGAGSCTRGGCAAAGGAATACTTTAAAGAACTTCCCTGTGATTAAAAAGAAAA
AAAAAATCATTCTATGGAGAATCTCAAACATACGCAAAAGTAGAAAGCTGTATATTGATCCCTGGTGTACCTGTCACCTGGGTTTCCATAATTATCAGCA
CATGGCCAATCTTGTTTCAGCTACATCTCCATTTTCCTCCCCCTCCCCATACCAGATTAATTTTCGAAGCAATTCCTGGACATGGTATTTCATTTGCAAA
TATTTTAATATTTATCTCTAAATGATAAGAACTCGTTTTAGTAATATAACCACACGACCATGATCACATTTCCAAGTGATTCTAATAAACAGGGGCCCAG
AGAACAACTGCTGTGGACTAGATGAACCAGTTCTTCCCCCAGGACCTGTTGCACTGGAATCCCCTGAGGTGAATGACACAGGCAGATTTCTGGGGCCACC
CCTTCCTACTGAATCAGAATGTCAACGGGAGGGACCTGGGAGTTTGCATTTTAACAAGCTCCCCAAGTGCTTGTTAACTAACTTTTGAGAGCTGAGGCAG
TAAGGTCTTCCTGGTCCCAAGGCCCCTTCAAATTGAGAAGCAGCCCTAAGATGGGGATCCCACAGCGACTGTAAGAGCTGCAAATTGAGGGAAGAGGAAT
TAGAGTAGGATGAGGCAATCCCAGCAGTGGCCAAGAAGGAAAGGCCGAGAAGTCCAGCAGTGCTCAGGAGGCACTSTCATGCTAGCTGGAGCTGCCCGCC
CAGGAGTATTCACAGCCCCACCTTACCCACCTTGTCAGGGTATTGCTGTGGGGGGGGCAGGTGAGTCGAGATAGAACCTTCTGCTCTCTGGAAGAGTAGA
AATGCGCCATTGACTGTTGGGTATAAGTGGTAGAGCCTGGTATAATACACCCAGACTCAGTTAATTTTAGGTCTGAATATATTTGACAATGGAGAGACAG
TTTAGAGAAAGACGGGCAGCAAGTCAATCTGAAATAAGCTCTCTTGCCTAGACCTTTTTGTTACTTGTTTTGTTTTGTTTTTGTTTTAAGACAGGTCTCA
CTCTCGCCCAGGCTGGAGTACAGTGGCACAATCTTGGCTCACTGCAACTTCTGCTTCCCGGGCTCAAATGATTCTCCTGCCTCAGCCTCCTGAGTAGCTG
GGATTATAGGCGTGTGCCACCACGCCCTGCTAATTTTTGTATTTTTAGTAGAGATGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAAATTTAGCAGGGCGTGGTGGAACATGCCTATAATAATCCCAGCTACTTGGGAGCCAGAGGC
ACGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGGTTGTGCCACAGCACTCCAGTCTGGGTGAAAGAGAGAGACGCTGTCTAAAAAAA
AAAGTGCTAAGGGTGTGGCCCTTAAGGAGACAGGAACAAATCATCTAGTTCCACTAGGGATGTAACTGCCCAATGGCTTCACCTTGCTCACTGCCTAGAC
AGAACCGGTTTATCAAGACAGAGGACTTGCAGTAGACAAAGAGYAATTCACGCAGAGCCGGCTGTGCAAGAGACCAGAGTTTTATTATTACTCAAATCAG
TCTCTCCAAACATTCAGGAATCAAGAGTTTTTAAGGATAATTTGGTGGGTGGGGGAAGGCCAGTGACAGAGTGTTGATTGGTTGGGCCGGAGAGGAAATC
ATGGGAAATTGAAGCTGTCTTCTTGCGCTGAGTCAGTTCCTGGGTCGGGGCCACAAGAGCAGATGAGCCAGTTTGTCCACCTGGGTGGTGCCAGCTGATC
CATCCAGTGCAGGGTCTGCAAAGTATCCCAAGYGCTGATCTTAGGAGCAGTGTAGGGAGGGTCAGAATCTTGTAGCCTCTAGCTGCATGGCTATAAATTA
TGGTTTATAATTTGTAATCTGGTGCCTAATTTGTTAGTCCTACAAAGACAGTCTGATCCCCAGGCAAGAAGGAGGTTTGTTTTGGGAAAGGGCTGCCATC
TTTGTTTTAAACTATAAACTATAGTCTGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGYGGAACACCTGAGGTCAGGAG
TTCGAGACCAGCCTGGCCAACATGGCAAAACCCTGTCTCTACTGAAAATACAAAACTTAGCCAGGCGTGGTGGTGGGTGCCTGTAATCCCAGCCACTTGG
GAAGCTGAAGCAGGAGAATTGCTTGAACCCAGGTTGCAGCGAGCCAAGATCGCGCCACTGCACTCTAGCCTGGGTGACAAGAGTGGAACTTTATCTCAAA
AAAATATAACTCATCTCAAATATAACTCCATCTCAAAAAAACACAACTRTAAACTAAGTTCCTCCCAAAGCTAGCTCAGCCCACAGCCAGGAATGAAAAA
GGACGGCTTGGAGGTTAGAAGCAAGATGGAGTTGGTTAGGTCAGCTCTCTTTCACTGTCTCAGTGTTTTGCAATGGTGGTTTCAATGACACCTTCTCATT
CTTTCTGCAGAGCAACACTGGGGGTCATGGGAATACAGACTGATGCTCTTTGGATGGAGTCATTCACAAGCTTTGGGTGTACCGACCACACTATCCTGAT
CACTTGAGACCATCCGTGCACAAGGACTTAAAATCCAGACTCCTCTGTGGCAGTACAAAAGGACAGGGGGTTACCTTGGCAGGTTTTCCTAGTGAACCCT
CATTTCTGTCTAGTGAATTTAATGTTCTTTAAGAACATATTTTAATAATTTTTTAAAAGCTTAATATGTTGAATAGGTAATATATTTACATGGTACAAAA
TTTGAATGGCAGGCCGGGCGCCGTGGCTCATGCCTGTGATCCCAGYACTTTGGGAGGCCGAGGCAGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGY
GTGGCCAACATGGTGAACCCCCGTCTCTACTAAAAATACAAAAATTGGCCAGGTGTGGTGATGCAAGCCTGTAGTCCCGGCTACTCAGGAGGCTGAGGCA
GGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGTCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCAAAAAC
AAAACAAAACAAAACAAAAAACAAAATTTGAATGGCGTCAAATGGTATACAGAAAAGGTAAGTCTATCTCCCATCTCTTTTCCCCTGTTACCACCTGCTC
ATTCACCCCTACCTCCTTCATTTGTCATTACTGGGTTAATATCCTTTAAAAACTAACAGGACCTCCGCTTCTGGGAAGATGGAGTAGATGTACTTTTCTC
TATTCTTTCTGTCAAGTACAACTAAAAACCCTGGATATTACATAAATTATAAATAATTTAGTAAGTATGTAATATATAAAAAGCCTCTTAAAAGGCAGAG
AGAAGAAGGCAGACCAGCTAAGGACCTCAGGACCCAAGAAATGGTGCAGTGATGAGTTCTCTAGGTTTTCTTTTTGTTTCTTATGTCCCAGACTTGGAGT
TGAAGCAGCCGGCAACCCAGAAATACCAGTAAGCTCAGACGCAAAAAGCCCCAACAAAAATTTGCTCTCTCTAGCCAAATGACCAGTGCAGTAGGACAGA
ACAAGTGGGTTTGTTCCAGGGATATAAGGATGGTTCATTATTTGAAAATTAATCTCATCCACCAAATTAATGAACTAAAAGAAGAAAACTTACATGATGC
TCTCTATCAATGCAGAAGATGCAAAATTTAGCACACATTTATGATTTTAAAAATCTCAGGAAAAATAGACATAGAGGGGGATTTTCCTGAACTTGATAAA
GGGTAAACACCATAAGCCTTCAGCTAACATACTTAAGGGTGAGACTGAATKCTTTGTCCCTAAGATGGGGAACAAACCAAGGATATTAGTTCTCACCGCT
TATCCAACATAGTGCTGTAATTTCTAGCCAGTGCAATAAGGTAAGAAATGGAAGTAAAAGTCATATAGATTGGAAAAGAAGGAATAAGACTCCATATTTG
CAGATTACATGATTGTGTACATAGAAGATCCCAAGGCATCCACAAAAAAACTCCTAGAACTAATAAGTAAGTTTAGCAGGGTTACAAGATACAAGATAAC
ACACAAAAATCAATTGCATTTCTGTATACTAGCAATGAACATATGGATATCAAATTTTAAAACAATACAGTTTCGACCGGATGTGGTAGTTCATGCCTGT
AATCCCAGCACTTTGGGAGGATGAGGTGGGAGGATCACTTGAGTCCAGGAGTTCAAGATCAGCCTGGGCAACATGGTGAGACCCTGTCTCTGCAAAAAAT
ACAAAAATTAGCTGAACCTGGTGGTGCATGCCTGTAGTCCCAGCTACTGGGGAGGCTGAGGTGGAAAGATTGNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNCGGCCGCATGTATGGTTTAAATGCTGAAAACGACACAACACTGATGAAAGAAATCAAAGATCTATGTAAATGGAAACCCC
ATACTGTACTCAGGAATTGGAAGACTCAACAAAGTAAAGATGCCAACTTTCCCCAAATTGATATACAGGTTTAGCACACTTTCTATAAAAATCCCAGTCA
TATTTTTTATAGATGAAGACAAGATTACTCTAAAATTTATATGGAAAGGCAAAGGAAATAGAATAGCTAAAAGAATTTTGAAGAAGAAAAATAAAGTAGC
AGCACATATATCAATGAATCARAATAGAAAATCCAGAAATAGGCCCACCCAAATATGCCCAACCAATTTTTGACAAAAGTGCAAAAGCAATTCAATAGAG
GAAAGATAACGTTTTCAAAAAATGGCGCTGGAGCAAATGGACACAAAACTTAGACCTAAGTCTGACGTCTTATACAAAAATTAATGGATCATAGACTTAA
GAAGTAAAACATAAAACTATAAAACTTTTTTTTTTTTTGAGACAGGGTCTCCCTCAGTCCCCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCATTGCA
ACCTCTGCCTCCTGGGCTCAGTTGATCTTCCTGCCTCAGCCTTCCAAGTAGCTGGGACTTAAAGGCGTGAGCCACCACACCTGACTAATTTTCRTATTTT
TTGTAGAGATGGGGTTTCGCCATGTTGCCCGGGCTGTTCTCGAACTCCTGAGCTCAAGCAATCTGCCCACCTCAGCCTCCCAAAGCGCTGGGATTACAGG
CATGAGCCACCATCCCAGCCAAAACTATAAAACTTTTAGAAAAGAACATAGAAGAAAATCTTTGGGTCCTGGGGGCAAAGAGCTCTGAGACTTGACATCA
AAAGCATGCCRCATAATAGGAAAATACTAGACTTTATTTAGGGGTTAAGAGTTTAGACTCTGGACTCTCTCAGCCTTGGTTTCACTAGTTAGCTCTATCA
CTAACTACATTGGGCATTGAAAATTCCTCTGTTGTCCCACGTGGTGCATGGATGATTGTAGACGAGGACACTGAGATCCTGAAGGCAGAAGTAATTTCTC
TAAGCAACGTTGTTGGTTGGTGGCAGAGTCTGGGTTACAACCCCTGGTTTCCTGATTCCGAGTCCAAGTGAAATACTTTTGCCCCTGCAGTAGACCCTGC
TACAGAGGATAAAAAGGCACRTYATAGGCTAGGAGAAAAAWTTTGCCTACCACATATGTAACCAAGGACTAGCAGCTAGGACATCTGAAGAATTCTCAAC
ATTCAACGGGGTAGAAGAATGAACGATTCAATAGAATATGGGCAAAAGACATGAAGAGGCATTTTACCAAACATAGGGTGCTATGGTCYGAATGTTTGCA
TTCTCCTCAAATTCCTGTGTTGAAATCCTAACCCCCAAGGTATTGGTATTAGGAGGCAGGGGCCCTGGGAAGTGATTAGGTCATAAAGGTGGAGYCCTCA
TGGATGGGATTAGTGTCTTTATAAAAGAGACCTTTGCCATGTGAGGTTACAGTGAGAAGACATCTGTCTATGAAGAAAGTGGGCCCTCACCAAACRCAGT
CTGCTGGCACTTTGCACTTCAACTCCCCAGCTTCCAGAACTGTAAGGAATATAAGTCTGTTGTTGGTAAGCCACCCGGTCTATGATATTTTKTTATAGCA
GCCCAAACAGACTAAGACAGGTGACAAATAAACATGAAAAGATGTTCAACATCATTAGCCATTAGGGAAATGCAGATTAAAACCACAGCGAAATATCATG
ATACAGTTTTCAGCATGGCTAAACTAGARAATAGTGACACCACCAAATGCCGACAAGGCTGTGGGGAAACTGGGTTGTTCAGACACTGCCACTGGGGCTG
TAGCRTACTATAGCCACTTTCATAAACAGTTTGTCAGTTTCTTAAAAAACTAAACCTGCAACTACCATATGACCCAGCAATTACACCCCTGGGCACCTAC
CCAAGAGAAATGAAAACTCAACGTTTGCGCAAAAACCTGTGTAGGAATGTTCAAGCAGCTTTATTCATAATATGCCCAAACAGGAAACAACTCAGCTGTC
CTTCAGTAGGTAAATAGTTAAGCAAATTGTCATACCCCTGTGTCATGGAGCACTACCTAGCAATAACAAGGAGCAAATTATTGATACATAACAATCTGGA
TGAATCTCCAGAGAATTATGTTGAATGAAAAAAGCCAGCCCCTGAAGGATACATACTGTATGATGCCATTTACATAACATTCTTGAAATTCTAAAATTAC
AGAGATGGGGAACAGATTTGTGGTTAAAGATGGAGCCGGGTGGGAAGAAAGTAGGTGTGGCTATAAACGGGTAACATGAAGGATCCTTGTGGTGATGGAA
ATTTCTGTATTTTTATTGTATCCGTGTCAGTATCCTGGTTGTGATATGGTAATACAGTTTTGCAAGATACTACCCTTAGGGGAAATGAGGTAAGACCTGG
CATCTCTCTGTATTATTTCTTAATTGCATGTGAATCTACAATTATTTCAAAATAAAAAGTATGATTGAAGTAACTMTCAGGAAGCTTAGCCTACTGTGGA
TTAAGACATCAAAATTGCAGCAGGCTTTAACAAAGCTATACTACTACAAGGATAGTTCACACTTGAATTAGCTTGAAACATTACCTATCCATGTCATCTT
GGAAAGCAGAAAATGGAACTTTATTGGAGTGGGACACTGGATGGCCAGGGTTTAGCAGAGCCTGCCCAACAAAAGTAGCTTCAGAATTGGCTTTATTCTC
AGGAAGSCTCTTCCTGGACAGTGGCAAACATAGCCATAGCAAATACTGGCTCACTTTCTATCAGCCAGCAACCCTGGTGGAAAGAGGGCCTCTTACTCAG
TTGTACCAGCAAGCTGTCTCCAGGAGCCGGGGCTGGAGAGACACCCAGTGCTGCTCTAGGCCAGTGTGGCTGAGGGTCTGTCTAGTCTGTCCTTGTACTC
ACGGCTTCCTTTTCTCTTGCAGACGCCCACTATTGCTTGGTTCTACTTCCTTTATCCCGATTGGCYGTCGGACTTATGCCAGTGCGGCGGAGCCGGTGAG
TGGAAGCCCAGCTACCCGGGAGCCAGTTGGATGGTCAGAACCCTTTCTTYTGGGCCCCTAGGCCCTGAGCTACCCTCAGAGTGGGGCCTTAGTGTTTCCA
GGACACTGGGAGCCACTTTCTCACTTAACCCTCCCCCAAAGCCCCTCATCAGTAATGAGCTCACACACCCCCATCCATGTGGGGAGGAAGCAGTAATGAG
GCACTCCAGCCCCTCCCAGCCAGGAAGGTATCACTGGAGGCCTGGGGGGGGGGCGAGAACTCCCAGCCCCACCCAGCAAGTTAGGGGTTAAGAGTTTAGA
CTCCGGAGGCCCAGGGCGGTGGCTCCCGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCAACTAAGGTAGGGAGTTCAAGACCAGCCTGG
CCAACATGGAGAAACCCCATCTCTACTAAAAATASAAAATTAGCCGGGCGTGGAGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGA
ACTGCTTGAACCYGGAAGGTGAAGGTTTTGCGGTGAGCCGAGACYGGCCATTGCCCTCCAGCCTGGGCAACAAGAGCCAAACTCCATCTCAAAAAAAAGA
AGAAGAGTTTAGACTCTGGAATCTCTCAGCCCTGGTTTCAGTTCCAGCTCTATCACTAGCTACATTGAGCGTTTTAAAAAGACCTCTGTTTCTCACATGT
AGCATGGGGGATTGTAGATGAGATCCTGAAGGCAGAAGTAATTTTCCCARGCAACATTGCTGGTTGGTAGCCGAGTCTGGGTTAGAACCTGGCCTTTCCA
CTATACCATGGTGCTTCTCCAGACAACAAGAACAAGGTAGGGAGGGCCAGGCTTGGGCCACTCAGGAAGCACTAACTCTCACTGCACAGAGGGTGGAGAG
GCCTGGTCACTTTGCCCCTGTACCACCGGTTCCTAACATGGAATCTGACCTTGTAAAACAGGTTGGCAGCAAAGCTGTCCTGGTCACAGGCTGTGACTCT
GGATTTGGGTTCTCATTGGCCAAGCATCTGCATTCAAAAGGCTTCCTTGTGTTTGCTGGCTGCTTGATGAAGGTAAGAGACGAGTTATCTTCTTCACCAT
TGTCTTTTACACATAGTCATTGTTTTTTAGTCTTTTAAAAAGTGCTTTCCTAACAACTGGCTCACCTTTGCTTAAACCAGCCTGTCCATTTTCCATCGGC
TTCAGTCCCACTTGTTCTTCATAGCTTTGTCCATCCATCATCCATGCATCCATCCATCCATCCATCCTCTCATCTATCCATCATTCGTCAAATGCTATGA
TGTACCTGACACTTTGCTAGGTGCAGTAGAAGAATGAGACCTTGTCCCTGCCCTGAAGTTGCTCCCTGTCGAGTGGTGAGGAGACAGCCATGCATAGACA
CAGCTGAAGAATTCGAGTGAAGCAGATTCTCAGGGGTGTGCGAGAATGTTCGGCGAGACTGTGTAGGAGGAAGGGATTGATGATGGCATGCCAGAGGAAG
TGACATTTGTTCTGGGCCATGGCGAGTAAATAACACTGCCACAGGTGGAGACTGGGAGGAGTTACCTGCTGGATGGGAGGAATAGCCTGGGCAGAGGCTT
GAAAGCATGAGGCTCCTTCGGGACACATTAAGTAGAATTTAAGGTGCATGAAGGGAAGCACTGGGACCCGAGACTGCAAAAGCAAACAGTGGGCAGTGCC
CCAGTTAGAAAGTTGTGCGCCCACCACCACAATCCACTTTAGAATACGTCCATCACTCAGAATTCTCTCTCTTGACCATTGGCAGTTAATCTCCACATAT
ACCTCTAGCCCTGAGCAGCCACTGATTTCTATTTCTTTAGGTTTGCATTTTCTGGACTTTTCATCTACATGAAATCATACAATACRTGGCCTTTTGTGCC
ACACTTCTTGAACACTTAGTGTGATGTTTTTGAGAGTCATCCATGTTGCAGAATGCATCAGTAGCTCATTCCTTTGTATTGCTGAGTGGTATTCTGTTGT
GTGCCTATGCTATATATATATACATATATGTATATATATATATACACAYATATATATATATATATWTWTTTTAATTTATGTTTTTGAGACAGAGTCTTAC
TTTGTCTCCCAGGCTGGAGTGCAGTGGGTGCAATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCCCCTGCCTCAGCCTCCCGAGTAGC
TGGGACTACAGGCATGAGCCACCATGCCCACCTAATTTTTGTATTTTTATTAGAGAYGGGGTTTCACCATGTTGGCCAGACTGGTCTCAAACTCCTGTCC
TCAGGTGATCCACTCRCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGTCTGGCCCAAAGCACTATTTTTAAAAGCTACTTGTATTA
ATTTTTGTTTTTTCTTTATCGCTGTATTATTTATTTGAAATATAATGCCATTTATTTGTGATCTGTTTTCCTTGTTGTTGATTCTTGTTGATGTAATTTA
ATTTCTGAATATRTAAACTGTTAACAAGGCTGTAAAGGCAAAAATTATACAAATTGGTAAAATCAAAGTAGCGTTATTCCCTCACCCCTATCTGTTCCAC
TCCATTCCTTCATTTTTCCCCATGTTACACAAGTGTTTGCATATTGCATATACTCTTTGGTTTTTTAAAACATCAACAATATACCTTGGAAATCAGGTTG
TATGACCTCACAGAGATCTTTTTCACTTTGTTCACAGCTTTGAAGCACCCACTGAGTGGGCGGATCATAATTTACTTCATCAAAATCTCCTGTAAATGAG
CATTTAGGTGTTTTCAATATTTTGCAATTACAAATAATGCCACAATGAATAACTTTGTATTTTTGTTATTATTGGGGGGTTATCTTTTTTTTTTTTCTTT
TTTTTGAGATGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCCCAGTGTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGAAATTCTCCT
GCCTCAGCCTCCCAAGTAGCCGGGATTATAGGTGCCTACCACCACATCTGGCTAATTTTTGTATTTTTAGTAGAGAGGGGGCTTCACCATGTTGGTCAGA
CTGGTTATCTTTAGAGTAAATTCCTTGGGAGTGAGATTGCTCTTAGATCAGAGTGTAAATAAAATATATTGTCATTTTAAAGATATTCCCAAATTTTCCA
TCCTAGGGGTCATGTAATTTTACATTCCCTCCAGGAGTGCATGAGTGCCTATTTCCACACAATTTCACCAACAGAGTATGCATCAAGCTTTTGGTTTTTG
CCAGTCTGATAGGTGGGAAATGTACCTCAGTGTTGTTTTTATTGTATTTCTCTTCTGAGTGCATACCCCTGTTCTTTAAGGACATGACCCAGAAGCTTCC
TCTGCAGATATCACCTGTGCTCTCATTCTCTTGGCCAGAACTTAGTCACATGGCCTTACCTGGCTGCAAGGAAGGCTGGAAAATGTAGTGAGTATTCTGA
GACAATATGTACCCGGCCTAAAATGTCAGGCGTTCTACTGCTATAGAAGAAGGATGAAGGGAAGAGTGGGCATTCAGGACAACTTGCTTTCTCTGCTCGG
TGGGTGAGACATTTTTCTTTATTTTCAAGSCAGTAGGAACCCAGGGGAGGAATTTCCCATACTATGTTGATATCTTTGTAATATTTGATACCCAACGTAA
AATTTCAATAATATAAACAAGTAAAAGAAATCATTTATATTGCCATGCTCTAAACATCATTCCATCTGGATCAGAGAAGGTTTTGTTTGTCCTTTTAATC
TTTACTTCTTTGAATTGTGAAAGTAATACTACATATTCATAATAAATTCAAATAATACAGAAGTATATTATGTAAAAAAGTGAAGTCTTCCCAATCTCTT
GCTCCAAGGCAGCTTAAATGCAGGTGTATACATTATTTGTGAGTTTTGCTATTACAGGTCGAGTATCTCTTATCTGAAATGCTTGGGACYAGATGTGTTT
TGGATTTTGGATTTTTCCAGATTTTGGAATATTTGCATTATACTTGCTCAGCATCTCTGATCTGAAAATCCAAAATCCAAAGTGCTCCAATGAGTATTTC
CCTGGAGCATCATGTCAGCACTCAAAATTCAGATTTTGGAACATTTCAGATTTGGGATTATTGGATTAGGGATGCTCAACCGGTATTAACAAAGCCTGGG
TGAGCCATCTTGCACATATATCTTTGCCTCCTTCCACTGGCGATTCTTAGGAACATTTCGTAGATGTGAAAGTGCAAGTTGCAAAGGTGTGCAGATTTTA
GGTTTTGTTCAAATCCCCAAACTGCTTTCCTGAAAGGCTGTCGCTYTCCTGACAGTGCTCAAGAGAACCCGTCTGGGGAGGGTTCTGGGGAATGGGTGTG
GCATCCCTGGTGCTGGATTCTTCTGCAGAATGTGGACCTACCTCAGCGGGTCCCAGCAAGAACCATGATGCCATAAAAATGTTGTAAAGTCCCTTGTCCT
ATGTTAGGCTTCTGTGCCATTGTGCTGGCTTATCCAGTGACACAGGGAGCCACAGTCAGATTCCACAGCACAGGGCAGAGGCTGCTCGATGCTGCAGAAG
ACTCTTCAAAAGGGCCTTCGGTTCTAGTCCTAGACTGACCACTAACCCCGGAAGGGGACAAACATGTCCCCTCCCTGGGCCTCAGTTTCCTCTTACTTAC
CCTAATAGGATTGGACTGGTGATCTTAGRTCCTTCCACTCCTGCAACAGTGATTCTAGAATTGGTTGACTGGTATTTTGAAGAAAGTACCAGACAAGCTC
ATTGGCAGGTTATATCTGTTGGTATCTACCYCTTGACCCATTCCATCTGCTATCTGAGATCAGTCAGGCAAGTCAGAAAGCAGTTAGCACCACCAGAGGC
TTTGGATAAGGCACCGTGGGGGTTGAAAGGGGGAATTTGCTTCTAGCCCGATTCTGTAGTGTTAGCCCCATGATGGATTCCGGCTACATCTGTACCTAAA
CACTCTCTCTGCTCTTGTTCAGAATTAGTGTTCCTCTTATCTCTCATATCTCATTGCCTTTGGCCAACTCAGGGACTTAGCTCCAGCAGATGTCTGCCAC
CTCCTACGTCACTGGCTCCACGCTCTCTCCTGGGTCATTTCAGCACATGCACACACACACACACACACACACACACACTYACTCACTCACTCATACAGAC
CTACACCACCACACCCTGTGTACATTACCTCCCCACGGCTCTGCTCCTTGTTGCAGAAAAGCACCCCCAGAGGGGGTGCAACCCACCTGGATCAGGCTTT
GCCCCATCACGATGTTTATTTACTTGTTTATTTATTCAGCAGATATTTACTGAGCACCTAAGATAAGCTGACAGTGTTCCCTGTTGGAGATACAGCATAT
AACACCTCAGTGAGAAGTTCTTGCCCTTGCGGAGCTTATATTCCAAGGGGGGATGATAGGCAAGGAATAAGATAAGTAAATTGCTTCTCTGCAGGGTGGT
AAAAGCAGTAGAGAAAAATAAAACAGGAAAAGAAGATAAAGCATGGTGGACGGGGTGTCAGATTTTCAAGAGGGAGGAAAGATCACACCAAGAAGGTAAA
TTGGAGCTCCCTCATCCAAAGGAGGTGCGGGAGGGAGTGTCACAGAAACCAAGGAGGTGCGGGAGGGAGTGTCACAGAAACTAAGGAGGTGCAGGAGGGA
GTGTCACAGAAACCAAGGAGGTGCGGGAGGGAGTGTCACAGAAATCCAGGGGAAGAGGGGACAGTGCAGTACAGAGCTCCAGGAGGGAGTGTGCAGGGTG
CAYCTGAGAAACAGCATGAAGCCTCTGTGGCTGAAGCAGAATGAGGGGGGAGTAGAGTGAAGTGAGGGGCACGGGAGCAGATCTTGTATCAGCATAGGGA
AGGCTTAATGAGAGGTGGCGTCTCACCACCATCTGGAAAGATGAACGGGGGCTCCCTGCGAAATGGGGGCAGGTGGCATATGAGGCACTGCCAGTAGTTT
GAGGTCGCCAAAGCCCAGTGCCCTGGTGGGCTGGGAAAAGAAGGCAGGACCAGACCAGGAAGGTCCATGAGTGCCTCTGACCCAGCTTTTATCAAGGATA
TCAACAGCCCCCATTTTCCCAAATCCATTGGCCACTTCTCAGACCACATCATGCTCAACCCAGCAGCAGCTTTTGACCAAATAAACCACCCTTGCTCGTA
ACACTTCGTTTCTTGACTCTATGCTCTCAGGGTTCTTCCCCATCTTGCTTGCTAGCTCCTCCTCCTGCCCATCCTGTGAACATCACAGTGCCCAGGCTCG
CTCCTCTCTGAAGTGTTTCTAACACATGTGATAAGATGCTGACGTATAACATGTGTCGAGTGTCCTCATGTTCTTCCCTGAGGTGCTAAACCACCTGAAC
ATATATGCTAGAGACAAAAACCTTTCTGCCAGAATCAGCTCATTGGCTGCCTCAGTATTATAAGAAATGGAAATAGAAGAGGTTGAGCGACTGGAAAGAG
TTGTTAGTGTGCTGATATTTTCCCTCTGATGGCAAGTAAAATGAGGTGGGCTTCATATGAATGCCTTGGAGAGCTTCTGGACTTCTCCAAGTTCTTGAAC
TCCCCGGAGAGCTTCTTGGCTTACCATGTGTGCCCTGGAGTCTGGAGGCCACAGAGTGTGATGCTAATGTCCACCAGAAGAAGTCTAAAGGCCCGAGATT
GAGACAGGAGTGGCTCGTCTGGGAGCGGAGCACGGAGAGCTGGTCGGGAGAGGGCTATCCTTCTACCTGGGCAGGAAACAGTTGCCTGGCCCTGTGTGGA
CAGTGGAGAGAGCTGCTTGGAGTCACCTTAAGGGTAACCATCCAGTGAGCTGGCTGGGAGGATCCATGTGGCCCCAGCCAGAAGCGGGTACATCACTGAG
GCCAGGGGCTGAGGGAGCAGATGCCCGGCTGGGGGAGGCACGCTGCCCTGCGTCTGGAGTGGCAGTCGGAGGTCTCCGTGGCAGAATCTTTGTAGACTCC
ACAGAAGCACCCCAAGAAGGAAGAGCTGGCTTTTGTGCACCTGCTCTCTCAGGGGCAGCAACAGCAGACATTAGCCAGCCTCAGACGACTACAGTCTTGC
CCCTAATTTGCTGCCCCGGATCCAACCTTGGAAGGGTCAGAAGTTAAGAATAGGAGGSGAGAGGAGCTAGAAAACAGTGAGAAAGACAACYTCCACCAGC
ACCTACTTCCCACAGCCCTCAGGGCTGGGCAGGGGAAAGCTTTACCTCGCATACAAGTTTGGGAGTTTGGGTTCTCAAACCAGGCTGGGCTGGAATTATT
TGCTTAAGAGACTGAACAGGACTCTTCATGCCAAAACAAAGAGGCTCTCTGTCCACTGTCTGAGAATGAGTGGAAAAGCTATACAACTTGCCTGAAGTTT
CATCCAGGGCTGGAAAAAATAGCTTACAGGTGAGGTTGAAAGGGACAGTAAGATAAAGAAGTGGGTTTATCAATAAGCCAGTTGCACACGCACCAACACA
GCGGAACTAAAAGCTTGTYCCTGAGCAGCCAGACAGAGGTGGACAGAGACTCCAGAGACCTGCAGAGGGAGCACGGAGACCAGCAGAGGGAGCACACAGA
CCTGCAGAGGGAGCACGGAGACCTGCAGAGGGAGCACAGAAACCCTGGGTCCAGGGAGGTGGTGTGGCCTGCGGGGCAGTCTTGGCCTGAGGACAGGTAG
ACCCTGAGGGGGACAGGCCACCAGAGTCTGCAGCCAGCAGGCTGAGGGTGGTTGGAAAGATTTCTCTGAATAACTGGGGGCAAATTGGTAGTTTCTGTCC
CTATTGGCGTGGTTGTCAGGAGCAGGGTGTGGAGGCTGCCCAAAGGCAGGTGAGGGTTCCTGGGGTGGGTCTGTCAGTGAAGATAGGAGGGTAGCGTTGC
TCTCCTCGGGAGCCTGAAGCCGTGGGCAGTGAGATTAATCCCCTAGTTTCCTCTGAAAGAAGACTCTTCACTGTCAAACTGCCAAATTAAGAGTTTACTG
ACTTGGAGTCGGGGGTTTCCCCTGAGGACTGCAGGGACCTTGTCGTGATGCTGTGTAGGGGCACCAGAGAGGTCTTGTATAGGGGTCTGAGAAGAGCTGA
ATGATAGCAACAGGGTTAACCAAGTCCCAAGAGGAAGGACATTTAGATACCTCTTGTGCATGTCAGCTAGAATCCACCTTTCTGAGGTTCAGATCATGTG
AGCTCCACGCCAAGGGGCATTTGAAGGGCCACCAGGTGGAAGACTGCATTAAAGCAAGACACGTGTTTTCCTGGTACCTGTGTGCCGCCTGTGGAAGAGA
GGGGTCTGCAGGCACCACGTCATCACACCCTAGACCTGAAGATGCATTAGTTCTTTCTTGGTGGAGTCCTCTGTGGGAATGACAGCCTGAGCTCCAGGCC
CATCTGTCCCGTGCATCTCATGCCTGCGTCTTGTTTGGGAAGGTCGGCGCACCTAGGGGATTTCAGAGCCAAACTTTAGACCATCGAGCCTCCGGCCTGG
CTGCTGTGTCCGAAGGCATCCCTGGTGCCTCTGCAGAGACTTAGCGGGCCACGCCACAGTGCCTTTTCAAAGGGCCACTGGGGAGGCTTCCTTTCCATGG
AAAACCAGGCGGTGAAGACGACAGTCCAGGAACGGAAGCGGTGTTAGGTAGGGGAGATCAGCCCGACCTCCTGTCCAATGCCGGGATTGTCTCTGTACCA
CCTTTCCCACACCCCATCCTCAAGCATCCCCCCAACCCCCAAACATCCCTCCTACCTCCAAACAACCCCCCACCCCAACTCATTGCCTCAACACCTCCAG
GCAGCTCATGCCATCTCCAGACTGTGAAGATCACGCCTCATTTTGAGCTGAGCTGGACTTCTTGGTCCTGGCTCTGTTCTCTGTGGCTGCATGGAACAAG
CTGGCTCCCTCAGTCATGTTCCACTCAAGTCTTCTCTCCGGGGTGACTACGTCCAGCACCTCYGGCCCCATTGGGCAGTCCCTTCACCATTTCCTCCTGT
GCCCTCTGAAATTGCATGATGTGATTTCTCCATTCCCRGGGTTGGGGTTCTTCTGGTTGAAAGCATTCAGAAGGCTCAGCCTAACCAGCGGAGGACTTTC
CACCCCTGACAAGTGCTGACCGTCCTGGGCTTTCCACCCTTGCCCGCGCCTGGGATGTTTGCTTCAGTAGCAGCTGTGTGTGCCATGGGCAAGCCCTTGG
CTGGCGAGTGGGCATTTCTCTACCCCTTTACTCTTGGCTGCTAGTCCWGTCCTCTTACAAGAGGTGTCACTATGCCATGCACCATTCAGGAAAATTGCTG
CCAATTAAGTCATTTATGACCAACTATGTTTAATTTTCACATCGAGTGTAGCTCATCCCTATTGTGAAAGAAACCATGTTTCATAGAATAGGATGAAATG
TGACAATGCAGCCTGCCTGGTGACACGAGGGTKCACGTGACAAAGCACATCAGCACTTAGCACAGTGCTCAGGACAGTGGACACTCGGGAAATGCTGTCT
ACTTAGAGGAAAGCCCCCCAGCAGCTCGGCAGTGCCCACAAGCAGACCCCTGCCCTCCTCTCCAGCCCTGCATCCACCACCTCCTTATGCGTCTGCACTG
CCTGCAACCAATGGCTTCTGGTGGCGTCCTCTTATCTCTTCCCACAGTGCCCCGTCCCCATCGGCCCCCTCTTGTGAATGTCCTCAGCTGTCACTGCCTT
TGGAAGGTCTCCCCTGCCCGTCCCTCCTGTGCCCCTCCCACCTCCCGCCAGGTTCCATACAGCACACAGTCACTGTGTCGCTTACGTGCTCACCTGTCTC
CTTCCCTAGAACACGACTCTGGGAACAGGGGCTGAATGATTGATCTTGACCTCCAGTTCCTAGCACAGTGCCGGAACACGATAGGGGCCCAAGAAATGTT
TGCCGAGCGAGTGACGCCTTTCTCCTGTTTAGCAGTACCTGAATTTGTGTGGTGCTTTAGACTCTTTAACAGGCTTCTTACAAATCCATTTCCTTACTCC
ATTAATCTGAGCAGGTCAGGACAGGTGGTGATGTTCCTGTTTTACAGCCAGAAAAAATGGACCCCTGTTCAGGGACACCCCTGAGTGCACAAAGCCTACT
CAGTGACTGAGCTGGGATTAGAGGCTGGCTCTGGCCTCTTACCAATTTGGAGTTGATGGGCCCTTGGCTTAGAACAGAGGTGGCAAACTGGCAGCCTGCT
GGTCCTATGTGGCCTGTGGACGTGCTTTGGCCTTCACAGTGTTTTTTTGTTTTTTTTTTTAAATGTGTGTAAGTTGCCAACACTTAAAAGAATGAAGAGA
TTTCCCAATTACTAGCTTAAAAATGTAAGCATCTGGCAACCCTGGGTTTCCATCCCCACGTGGTAATTCCTGACATGTCCTGTACTCCCCAGGGCCCCCG
CCTGCCCCACATAAGTTTGCAACCCCTGCTTGGAGAAGGAATCCTGTCTTGAGGCCTTGGGGGCCGGCTCTTCATCCTATTCATGGTTGTGTCTGTGGCA
CATAGCTTGATGCTTGATAGGTCATCAGTGCTCAGGATTAAAAAGAACCGCATGCTGGTGGGCCAGGCCCATGGGCAGTTGCCAGTATGCCTGAGGCTTT
GGCTGGGACTTGAGGCCAGCTCCTGCCTTGACAGGAGTCCTCAGGGTCTGCCTCAGGGTRGGAAGGAAGGAGGTAGAAGCAGCTCTTCTCTCCTCCCCAG
GACAAAGGCCATGATGGGGTCAAGGAGCTGGACAGCCTAAACAGTGACCGATTGAGAACCGTCCAGCTCAATGTCTGCAGCAGCGAAGAGGTGGAGAAAG
TGGTGGAGATTGTCCGCTCGAGCCTGAAGGACCCTGAGAAAGGTAGGGCGCCCCTTCGGACGGCAGGGGTTGTGTATGGGGCCATTCCAAGGGGCACTTG
CCGAACACCACCTTCCACTGGCTGGCATCCTGCCACCACACTCCCTTCCTTATTGTTTAGGCTCTTCCTCCTGCACAGTAGGAGGAAGAGGATTACACTA
AACATACACGTGCAATAGGGCAATGGAAAAATACAGTCAGGAGGTGATTTCAGAGTTCACGGAGTGCTAGGTGGCTACGCACTGATTCAGGTCAGTTCAG
CCAATGCCCATTGATGCCCCCTCTGGCCCAGGAGCTGGGTTGGGTGCCAGGGACACAAAGATGGTCAAGGCACATTCTGTCCCCAGGACCTCATAGTTCA
GCCGGAGGACTGAGTTCAAAATCAGGGAGCCGTGCATTGAGAGAGGCAGAGCAGCACAGGAAGGAGGGGTCAGTCCAGCCATGGGGGCGCAGTGGAAATA
GGCCAGTTAAGGCAGATTGTGGCAGAGAGCAGATATGGTTGTTCCAAGAGGAGGGGAGAGCAGGAACCACAGCTTCGAGGAGCACGGGGAGGGTAGCGGG
GGCTGTTGGTCAAGTGGTGGGATTAGCCGGCACCTCAATATGAGTCATGGGTCAGGTCACGCAGAGGGGGTGGCAGCAAAGGAKGTTGGGGAGGGAGGTC
TTGGATCCCAGGCGAGGGAACATGGCTGGTCTCCCAATGGCACTGGGGAGCCACTGAAGGGGTCATCCTGAGGGAATGGCCTGGTCATTGTGAGACTTGT
GAATCTCCCTCTGAGGATGGCAGTGGCAATGTGAAGGTGGATTCAAAGCRGGAGTTAAACATGGGTTCTGGACTCCGGAACTAGGGTGGTAGGTGTTGGG
AAACAGGAAGGGTCAGGTGCGAGGAGTGTTGAGAAGGCGAAGCTGCCTGGACTTGGTGACTTGGATGTGGGGATGAGGTGAGGCGCGAAGTCTCTGTCCT
GGACACCTGGTGCCCCGCACTGCAGGAGCAGGTGGGGAGATAGGGAGACACTGAAGCGCCCACCCTGAGGGAATGTCCAGGCTAGAAGAGCAGGTGCCCA
CGGCAGGTGACACTGGGAGTCGGGGAGATGCACAGAGGGACCCCTGGGAATGTGAGTGTTCGGGGATCAGAGGAGGGGGAGAGGCAGCTGTCAGAGAGGT
TGGATACAGTTCCCCAGAGGCTAAACAACAGAAAGTTTGGAGGAGAGGGCAGTACCAGTAGCCAACAGGGTCAAAAGCTACAGAAAGTTCCAGTAGCATA
AGGACTAAAATATCCTTCCAGTTCAGCCAGTGGAGGGCCTTGTGGGAGGAGCTCTGTCTGCAACCTCGGGGTGCCATTCATGTAGAATACAGCAGTGGGG
GATGGAGCTCCCTGGAGCCGGGCCGCCCAGCAGCATCTGGAGAAGCGAATCTATGAAGTTTACCTTTGAGCTCCCTGACAGCCCAGGCAGAAAGGGTGTG
CGTCATTCAGGCCTCTGCTTTCCCTCAGAATGGGGTGGGGCAGCTCTCAGGAGCAGCTACTTCAGTGGCTGGGGAAGGAGGCGGAAAAGGCAGGAGTGAC
CAGATCCCATGCGGGGAGCTCTGCTGAGCCTGTATCAGCCAGATGGATGTGCTGTCTGTCACAGCAGCTGCCTCAGAGGCTGCGTGTGTGGCTGTCGGTG
ATGCCGCTCCTCTGCCTGTCTCTGATGTGCCACCTCATCAGCCCACTGTCGCTCCCATCCTCCCAACAGGCCATTCACAGGCCTCTCTGTTCTCTGTTCT
CGCTGAACATCTGTTTAATAATTAACAGGCAGAGCCAGCCCATTAAGAAAAGGCAGGATGGGTCCCGCTGGGGTGATTACCGGCTCAGAACCTGCAGCCT
GCTTCGCCCTTCCCTGGCGGTAAATTCTCCTCCCTCCCACCTTCCCTGGGCAGCTGCTATATTTTCCTTCATAAACTACTGGGCAGGAAAACAGCTGCAT
CGGCACCATAAAGCCACTTGATTATAGCGTGGGTTTTGTGGTGATCTAAAATGCCCGTGGAAAGGCGTCATCACCGGAGACCCAAGCAGAGAACGCACCA
GGCCGGCTTGCTCAGGCTGGCGGTCCTCGTCCCCTGCCCCCCTGACTCTGGGGCAGAATCACTTCCATTGTCTGTACTGGACTGGCCAGGCAGCCTAACC
TACAAGGCAGGGTGGGCCCCGGCCCACACAGAGGGGAGGCACTCACCCCCTGCCCGGGGATCTGGGCTCCAACCCCAGCACCAGCCTGACGCGCAGACCT
TTCCCTGCTGCTTTTCCCACGCCGGGCATTCCGGAGGGCTGGATGAACCTCTCACCATCAACTTCCTTAACCGATACTGCATTTTTTTTTTTTGGAAAAG
GATTTGAAGACTTTTAGGTCTGAAGAAAACAGTACATCCGTCAGATATGCAGTGGCGTGTCCCCCATCTCCTGCTCTCGCTTTCTTCCCGTCTCCCTCTC
CTCCCTCTCCCTGCTTCCCCTCCACACTCTGCCACTCTGCCATGTCYTGGCCTTGCCTTGGCAATTCCCCCTCAGGCAATGCCGGCTGTGAACTCCAGGG
AGCACCCTCCCAGAGCGTTCCGACCCGCAGTGGCCGCCACCGACCCACACCCCAYGCAGGACATGTCAGAAGGGTCCTCTTCCCCTTCTCCACCGGGGGG
GCACATTTGGTTGGCGAGTTTGACGCCCTGCAGCCTGGCTCTGTGGAACAGTTGCTGCCAAAGCCCGGGGAGCCAGCCACGGGGGCGAGATGAAGGAGAT
TGTCTGGTGAGAGCCACAGAGCCATCTGCCACCGGCCCCGACCCCCGCAGGACGCTGAGGGACRGGACATCTGGAGCCTGGGACCAGCCCTCCCTGTCCC
CACCCCAGGGGACACCGAGCCAGTGGGCCCGAGAGCAGGCCGTGGGCATGGCCTGATCTTGGCACATCACTTACCAGTCAGTCAGTCAACATTAATTAAT
TAATTAATTAATTTTTTTGAGACAGAGTCTTACTCTGCCGCCCAGGCTGGAGTGCAATGGTGCGATCTCGGCTCACTGAAACCTCCACATCCCGGGTTCA
AGTGATTCTCCTGTCTCAGCCTCCCGAGGAGCTGGGATTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTTTTTTTTTTTTAGTAAAGAAGGGGTTTC
ACAAGGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCTGCCTTGGACTCCCAAAGTGCTGGGATTATAGGCCTGAGCCACCACGCCTG
ACCTGGGCTTCACTTATTAGAAATGTGATCTTGGGCTTGCACCTGCCCCCTGTGTGGGTCTCAGCTTGCCCATCTGTGAAGTGGGAGAGTGCTCTGAGCC
GTCCAGCACTCATGCCTGGATCAGACCACTACAAGAGCATGGGAAGAATTTCAACACAAGCTGCTCGCAGGCTGACAGGCAGCAGAACATATGTGGAGGA
GTAAGGGAGAAGCTTGGAAAAGGCCTGGCCTACCATGCTGTGGGATGGAGACCACAGAGCAGGAAGTGACTGATGGGGGGATCCACCTGAGGAGGGGATG
GAGACCATAGAGCAGGAAGTGACTGATGGGGGGTGCCTGAGCGGGGGATGGAGACCATAGAGCAGGAAGTGACTGATTGGGGGGTCGGCCTGAGGGGGGA
TGGAGACCATAGAGCAGGAAGTGACTGAGGGGGGGATGGAGACCATAGAGCAGGAAGTGACTGATGGGGCGGGGAGGTCAGCCTGAGGGGGGATGGAGAC
CATAGAGCAGGAAGTGACTGATGAGGGGGTCGGCCTGAGGAGGGGATGGAGACCATAGAGCAGGAAGTGACTGATGGGGGGGGTCGGCCTGAGGAGGGGA
TGGAGTCCATAGAGCAGGAAGTGACTGATGGGGGGGGGTCGGCCTGAGGGGGGATGGAGTCCATAGAGCAGGAAGTGACTGATGGGGGGGGTCAGCCTGA
GGGGGGATGGAGACCATAGAGCAGGAAGTGACTGATGGGGGGGGTCGGCCTGAGGGGGGATGGAGACCATAGAGCAGGAAGTGACTGATTGGGGGGGTCA
GCCTGAGGGGGAGATGGAGACCATAGAGCAGGAAGTGACTGATCGGGGGGGTCGGCCTGAGGGGGGATGGAGACCATAGAGCAGGAAGTGACTGATGGGG
GGGTCGGCCTGAAGGGGGATGGAGACCATAGAGCAGGAAGTGACTGATGGGGGGGTCGGCCTGAGGGGGGATTGAGACCATAGAGCAGGAAGTGACTGAT
GGGGGGGTCGGCCTGAAGGGGGATGGAGACCATAGAGCAGGAAGTGACTGATGGGGGGGTCGGCCTGAGGGGGGATGGAGACCATAGAGCAGGAAGTGAC
TGATGGGGGGGTCGGCCTGAAGGGGGATGGAGACCATAGAGCAGGAAGTGACTGATTGGGGGGGTCGGCCTGAGGGGGGATGGAGACCATAGAGCAGGAA
GTGACTGATGGGGGGGTCGGCCTGAAGGGGGATGGAGACCATAGAGCAGGAAGTGACTGATGGGGGGGTCGGCCTGAAGGGGGATTGAGACCATAGAGCA
GGAAATGACTGATGAGGGGGTCGGCCTGAGGGGGGGATGGAGACCATAGAGCAGGAAATGACTGATGCGGGGGTCGGCCTGAGGGGGGATGGAGACCATA
GAGCAGGAAGTGACTGATGGGTCTGCCTGAGGGGTGGGGTGAAGACGGAGGTGGAGGAGTGAGTGAGACAAASAGACCCAGGAGGCTTCTCCAGCAGCCC
AGGAGACAGGCAGCGAGGACCCAAGGGAATGCTAGTGGAAACAGGAAGGAAGAACTGACCCAGCAGAGGAAACCAGCAACAGCCTGGGGCGTGGGGACTT
TGTCCTCAGAGAGATCTGGGTCCAAATCCCACCCTCCCTGCCTGTTAGCTGGGTGACATTGACCAAGGTGCTTAACCTCTCTGAGCTTCAGTTGCCTCAA
CCGGATATGAGACAATTTAGGATCTATTTTCCAGGGTGGTTGTGAGGATCAGGGAAGTTAATGAATGTAAAGGGCTTGATTAGGGGTCTGCCAGCTGTCA
TGTTGATCTTGAGCTGTAATATTAGCAGTACTGGGTGACTCAGTAGGTRGGGGAGGGGTGGAGGAGCTGGAGGAGTCACAGACAAAAGTAAAATCATTAA
CAAAGAGGAGGAGCAGGCTTGGGCAGCTTGGAAACTTGACGTGTTGGTTGTGGTTAGGGTGAGTCAGGGACCCGTGGGACATTCAGGTGGAAGCGAGACA
GGAGATGGGATGAGGAGAGAGAGCCGTGACTCCCAAGGAGAACTGAGGGGCCACTGGTGCGGAGGCGATCTTGGGGATGTTACAGGAAAGTTGCTGTCAC
CCAACCAGCGGGCATGCCTCCGTGAGTTTATTCAGAACATTGGCTGAGGATTCCAGATGGCAACTAGGTCCACCACTCTCAACACTCATTAAAGCTGTAA
TCCAGGGGCTGTGCACTTTCACAGGTCATGTTTCATTAAACTTTTTTGGATAGTAGCGTCAAATGTCATTGTTTTATTTTTAGGTAGAGAAAGGGCTGTA
TGCATTTTAAGTCATGGGATATTGTCCGTTATGAATCAAACACAAAACGGCTGCAAAATTCACAAACATGAAGAAGATGAGGACACCTAAGAGTTAAGTG
TACTTTGAGAGGAGCAGGATTAGGCCAGGACATTGGGGGCCACTTGTATCTGGGGGCAGGTGAAAGAAAGGTGTCAGGGAAGATGCAGGAGATGCCTGGG
TATCACTAATGCTGAGGGAGAGGTGAGCCTCAAGGAGTACTGGCAGTACTCATATYGTAGCGAGCCTGAGGAGAGTGAAGACTGGGGGTGAGGTCCTTGG
TGTACCACCCTGGAGACCCTGGAGACTGCGTGGTCAGGACAGCTGAGGGCTGGGACCCAGTGTGGTATGGAAGGGAGATGGAGAGGATAGAGCGCGCGCG
CGYGTGTGTGTGTGTGTGTGTGTGTGCGTGCTCTGTCACCCAGGCTGGAGTGCCGTGGCATGATCCGGCTCATTGCAACCTCTGCCTCCTGGGTTCAAGA
GATTTTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACACCCGGCTAATCTTTGTATTACAGGATAGAGTGTGTTCTTGGAAGC
CTGGCGTGGAGGGAGGGAGAGCAGGTAGCACAGTTACAGAAGGATCTTCGGGATATGGAAATGCGGTATTTGTGGACACTCATTCATCTAACACACATTT
GTTGAGCTCCTAATGTGTATAGAACTGAAGGGATGGAGTCATGGGCAGTGGAAAAGCTGAAATTGTGTAAAAGAGAGAGAAGGATCAGTGGCTATGGTCT
CGAAGATGACGTGGAAGTGTCAGCCATGACGGGTGGGGAGTGGCCTGCTGCTCCTCCTGGGAAGAGAAGAAGGTGAAGACTCAGGGCGCGTCTGCAGGGA
GACAGTGGGAGCTGTGGGGTCGTGGATGACGCTGATCCTGTCATTAGCATCTGAGCGAGGTCACAGGTGAGACCTAGAGCAGGGAGACACCCGCAAGGCT
TTGGTGGAGAGTGGGAGTGAGCTCTTCATGGACACTCTGTTAACCAGCAATTTCCTTTCCCTAATAAATGCCCTTAATTCTCCATAATTGAAGGAGAAGG
CACCAGAGGGCAGTGAATGAAGCTTTAATTTGGGTAACACGGAAGGAAAGCAGCTAGAGACCAATTACTCTGTCATTTACACAAACTCATTTCCATGATT
AACTTGGAAAATRAAGCAGCGCCGAGTTCCCACAGGCAGGGGAGGGCCCCAGGATGGGAGCTCTGCTCTGAGGCTGTGCCTTGGGAAGGAGCACGGGGCT
ATCGGCCCGGGAGACCRAACACTGAGGGTTTCCACAACAAAGAGGCAGGGCCCAGCTCTGTCCTGAGGCTCTGACCCATCCAGCCTTTGCACCCCAACAA
ACTGAACTCAGAGAGGTCCCTGCAAAACACAGCTGCCTCCTCGTGCCCACCTCCCCTGTGATTTCCCTGGCTTCTGGCAAGAGAAGAGAAGACGTGAGCA
AAAGCTCAAGGGCAGAGATGAGTAAACAGGAACGGGGCGTGAAACTCAAACTCAGGGTGTGGGGATGGGATGGGGTGGAGTGGAGTGGAAGTGGGAATTT
GAGGTGAGGTGAGACTGAAGGCCGGGGGACACGGCAGGCTGGGTCATGATGGGCCCAGAGACTCGAGCCAGGCAGATGTGACGTGAGGACTGGACATTCT
AGACGCAAGGGAGGGCTGCAGTCAGCACTTTAGGCCTCTTTACCTCCTGTCGTTCCTGAGTGACTCTAGAAAGTTTCTTGAGAGCACTGGGCGAGAGGCT
GGGAAGTCACAGGAAAGAAGCAGAGAGGAGGCTGGCCTGCAGGCTGATGGGCAATGTCTGGGCCAAGCCCATGTGGTAAATGCACATCTATCCCTCTCCT
GTCCAGGSATGTGGGGCCTCGTTAACAATGCYGGCATCTCAACGTTCGGGGAGGTGGAGTTCACCAGCCTGGAGACCTACAAGCAGGTGGCAGAAGTGAA
CCTTTGGGGCACAGTGCGGATGACGAAATCCTTTCTCCCCCTCATCCGAAGGGCCAAAGGTGAGTGRGAAAGGGAGCTCCCTCCTGCCCCTGAACCTGCC
CCACGTGTTCATCTTTGCTCAGAATGGAAATACCTGTCCCAGCAGCTCCAATGTCCACAACTCAGCAGAGGTGAGCTCGTGAATCCCAGGGACTATGCTG
GGCCTGGGGTGATGGTGGGCAGAGGGGCTGTGGCCGGGTAGGGGAGGAGGAAGCAGAGCAGGTAAGAGGTCAGTGGTCCATGCAGCAAAAGCTTAAAGAG
TTGAGCAGCCATCCACTCTGCACACCTAATCTATAGAGAGAATCACCCTTTGCACAAAGCTGTGTGTACACATCTTTGTATCAGTCAGGTGTGGTTAGTA
AAATCTGGCATATTCATTCTATGGGTTATTTATATCGTAGTTTAAAAAATGAGATCATTGTGGTATTAGGGAACRATAGTAAAAATCAAGATTAGAAATT
TGGAAAACCAACAAAACACCCAAACCATGTGGGTGGCCAAATGTGAGCAAACCACTTTAGAAGTCATTGACTTGGATTTTTTTCTCTGGCATAGCAAACA
ATTGTGGCAAAAAGGGTAAGATCCATACATCTATGGTGAAGTCCTAGCAACAACAAGCATGAACACAGACTGCAGCTGTAGGATTTTAGATGGAAACCCC
AACCCTTCAGTGACTTCAAATTTAGAGCTTTCTGAAAGGTGCCTCCCCCAGGATGGGCTGAGTTCCCTCCCGGGGACACACCTGGATGGGCTGAGTGCCC
TCCCGGGGACACACCTGGATGGGCTGAGTGCCCTCCCGGGGGCACACCTGGATGGGCTGAGTGCCCTCCCGGGGGCACACCTGGATGGGCTGAGGGCCCT
CCCGGGGGCACACCTGGATGGGCTGAGKGCCCTCCCGGGGGCACACCTGGATGGGCTGAGTGCCCTCCCGGGGRCACACCTGGATGGGCTGAGTGCCCTC
CCCGGGACACACCTGGATGGGCTGAGTTCCCTCCCAGGAAAACTGGTCCCAGATCCGCCTCGGCTTCCCGGGCTGGGCCAAATGCAATCCACTTCCAACC
CCTCTGTTCCCAGGGCCAGGAGGAGCTGTGGGAGGCCCCTGATGCCCCCAGGCTGGGCCTGTGGCCTTTGGAGGGGGATCACCACACTCTCCCAGTGCCC
AGGACTCTCTCCTCATATCCTAGCCCTGAAGTCAGGTTCAGAAATCCTGCCCCTGCCCCTGCCTGCTGCTCTGTTTGCCAGGCGGTCCTGGTCTCCACCC
AGGCTCCACCCTACCAGGGTGGAATGGAGYTGGGSAGTTGGGCCTAACAGCACRGGTCCTGTCCTCTTTCAGGGCTGTCCCGGGGCTCCCTCCCAGCTGC
AGCCCCAGGTACTTCCTCGTCTGCACTCCAACCCCCATCGCCAGGGCTGCTGTCAGTGGCTAGACACTTGGCCCTAGTGTGCTACTTATCTGCACGTCGT
ACTACTGGAGCTGGACTTTAAGCTCCATAAGGGGAAGGGGAAGCTTTCAGGCTGTATTTCTCCCTCACCAGCACCAGACCTTGCCTATAGTGAAAGCTCA
GATCCACACAGACAGCTGTCTCGCCTCCCACTTCTCCCCTCGTGTTTTCACCCCAAATTATCACCGCATCGGGCTTGATCTGGTTTTTGAGTCAGTTGCG
TGTTGCCCATTACACTGTGCCCTGCTGCTTCTCACTCACTTGTCCTCCCCTGTCCTGCCTGGCACAGCCAGGTTCCCAGGGAAGACCAGGGGTGCCGATG
CTGATGCGTGGGCCTGAGCTGGCCTTGCCTATTGACTGAGAAGGCTCCTGGGTGGCTCAGAAGTGGTTCCAGCCAAGCCTCTAGAGACATGCCAGACTTC
TGCCCGCTGTGTCATAGGGCAGTAACGSCTTAGCAGGTACCTCTGTCTCCCTCTGTAGGCCGCGTCGTCAATATCAGCAGCATGCTGGGCCGCATGGCCA
ACCCGGCCCGCTCCCCGTACTGCATCACCAAGTTCGGGGTAGAGGCTTTCTCGGACTGCCTGCGCTATGAGATGTACCCCCTGGGCGTGAAGGTCAGCGT
GGTGGAGCCCGGCAACTTCATCGCTGCCACCAGCCTTTAYAGCCCTGAGAGCATTCAGGCCATCGCCAAGAAGATGTGGGAGGAGCTGCCTGAGGTCGTG
CGCAAGGACTACGGCAAGAAGTACTTTGATGAAAAGATCGCCAAGATGGAGACCTACTGCAGCAGTGGCTCCACAGACACGTCCCCTGTCATCGATGCTG
TCACACACGCCCTGACCGCCACCACCCCCTACACCCGCTACCACCCCATGGACTACTACTGGTGGCTGCGAATGCAGATCATGACCCACTTGCCTGGAGC
CATCTCCGACATGATCTACATCCGCTGAAGAGTCTCGCTGTGGCCTCTGTCAGGGATCCCTGGTGGAAGGGGAGGGGAGGGAGGAACCCATATAGTCAAC
TCTTGATTATCCACGTGTGGATTATCCACCATGCCAGGAAGACCCATAACTGGTTTTAACACTAACTAGAGGGAATGACTTCTTTGCATAGTGAGTGACT
TGGGCCTTCACAAACAGGGTGTGGAGTGGMAGGCAGAGGCCTCTAAATCTCAGRGCAAACATGGTGAATCTATCTCTCCGGAGATAATTTCATACAGAGA
TTTTAARAAAACATCTTTATATTAAAAACAGATCTCATTTGATCCTTAAGCCAGTCTCATGAATGAAAAGGACAGGTTTTTTTCTTTTGTAAATGAAGCA
TTTGCAGCTTAAAGAGGATGCATGAAATAACCCTTTTATCGCTTATAAATAGTGCCAGTYATGTGTTCCYGCCACGGCTGTGGAAATACTTCACATTTGC
ATTCCAGGACTGTTTTGGATCCATTTGCCCGAGAATCTTCTGACTAACTCTGTGTCCTCATCTGGGCAGCACACACCAAGTGCCCACTGGTACCTCTGCA
TGTCCATGGTGCTGTGTGACTGGCCAGCCAGCAGCCAGTGACTCAGAGCTGGCTGTATGGAGGGGGTGGGAATGTTTCTGGAGATTTTTGTTTTTCCAGA
CACAGTCTTGCTCAGTCCCCTAGGCTGGAGTGCAATGGCACCATCTCCGCTCACTGCAACCTCCGCCTCCCTGGTTCAAGCGGTTCTCCTGCCTCAGCCT
TCCAAGTAGCTGGGGTTATAGGCACCCACCACCATGCCGGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCTAGGCTGGTCCCGA
ACTCCCGACTTCAAGTGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGATTTTTACTTGAGATTTTTCCATCCTCTTTTAGGACT
CAGGATAGACTTGTGTGGAGGTGCTCTCTGGCTAAGGGGATAAGTTGTTACTGGTTTGGGTCTGCTTGGTTTTGCCTTGGGTGGGGCCGGTGTCGATGGG
GCAGGCTTGGCACGAGCAGTGGTGCCATGGCAGGGCACTGTGGCATCTCCCCTAGCAGTGGATTTGGGGTCCCTGCTTGCCTCACGTGGTGCTTACACAC
ATGTACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACAC
ACACACACACACACCCCTGTTCTGCAGGGCTTCAGCGTGGCCTTCATTCCCGCCTCGCCTCGGCCTCTTTTCAATTAAGAAGTGATGCCACTTGAGGCAG
GGTCTGCATGATCACTTCTTGGGTTTCAGTTTGAAAGCTGCCATCCCTGCGACTGCCCAGGGCCTGTATGTTGGGACCGAAGCCAAACACCACTGTCCTC
CAGGGGGCTTTCGGCCCGGGGCAGGGTCCCCAGTGCCCGCCTTCGAATCAGACTCCGCGTTTCCGCCTCTCCCTGGGCGGACCTGCCGCTAGAGGGCGCT
CCTCCTCCGCAGCCGGCGCCGGCCTCCAGCGCCCCAGACTCCCGCGCTGCCGCCCGAGCCTGAGGTTTCTCACGGCGTTCGGGATTCGCGCTTCGGAAAC
CGGGAACAAAGAAGCAAGCAGCACCCTTCAGAAACAGTGTTCTCGCTCTCCTAGCAGCTGGCCCGGGCCCGGAGGCTGGTGCCAGGAGAAGGCAGAAGAG
CCCGGGCAGCCGGAGTGGGCTACGGGGTTCAGGCAGTGCCAAGGAAGAAGGGCCTCACAATGGGCAATTCAGCTGCCTCCCGGGCCGTTGTCCCCGCTGT
CTTCAAACAGGGGTCCCCTGTCCCAGCTGCCCCAGGAGGAGGGGGGAGGCAGGCAGGGCCGAAACCCTCCAGAGCCCAGAGGGGGACGCTTGGTGGCCGC
TGCAGTTACATAACCATAGGATGCTTTTGTACCGTGGACCTTGTTCTAGCAGGATCCTTTCGGAATTGCACTTTTACATGTTGGGCGAATTTGTGTCCGT
GCTGAAGTTTATTAAAGGAAAATAGATGGAGCCTTGGAGTTGCACGTGTGCGTCCCTGCCTGGGAACTAGAGGAAGGAGGGCCACATACTCTGGGTCCCC
ATCAGCAGACCCGAACGTCAGAGAAGCTGCATGTGCGTCTACTGGGATCTTCTGAGTAAGCTAGAACTGCTGGGCCGGCCTGTGCAGGTTGTTCTGGCTT
TTAATCGTTTCCAGTGATTGAAAAGCCCAGGCTACCATCCCTCCAAATAACTCCAGTGCTAACTCAAACCTCATATTCACCATTCACTTTCCGGCAGCTT
AGAACCTACCGGGGCGCAGGACGTAGTTTTCGTCTTTACCAGAGTGCGTGGCCGGGCGCGGTGGCTCACACCTGTCATCCCAGCATTTTGGGAGGCCCAG
GCGGTCGGATCGCCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACGTGGTGAAACCCTGTCTCTACTAAAAGCACAAAAATTAGCCAGGCGTGGTGGT
GGGCGCCTGTAACCCCAGCTACTCGGGAGGGTGAGGCAGGGAGAATCGACTGAACCCAGAGGCAGAGGTTGTAGTGAGCCGAGATCATGCCACTGCACTC
CAGCCTGGGCAACAGAGTGAGGCTCTGTCTCAAAAAACAAAACAACAACAACAAAACAAAAAAAGAGTGAGAGGACAAAACAGGTGTATATTCCCATTTT
ATAGATGACATAACTGAGGCCCAAAGAAGGAAAGTGACTCACTCAGTGTCACAGTAAATCCACGGCAGGACCAGGGCCAGAACAAAAGTCTCCTGAGTGG
CACTCTTCACTATCACATAACACTGTGGCTCGCAACAGCCCTGGAAGCAAAGCCAGTTGGGGTCACCAGGCACCTAGACCCTCACTGCTTGTCTGCTGGC
AGAGAGCCGCTCCTTCTTGTCAGAGTAAGTAGGAAGGAGGCCTTTGCCTGTGTGGACCTATGGTCTGGTGACTCCAGCCAGCACAAACCCATCCCCTGAT
GGTTGGAGGCTGGGCGAGGGCTTCTTGCAAGATGCGCCTGACAGTGCCTTGTTACASAGCACCTGCTGTGCTTAGCATTCCACCCGGGGCCAAGAGGCTG
TGTGAGCAGGTGACAGCCAGCCTGGCCCCGCCTGTCACAAGCTGCTAGGTCTGCACCCTTGCCACCCATGGCAGGGGGTCTGACAAAGACTCCCCATTTG
TGAGGTCTGTTCACTGCCTGTATTTCGAACAGGGCCTGGCTCTGCAAACCTGTGCAAACTGTGTTGATATAGGAGCCGACATGAGCAAGCAGAGGCTCCC
CTGGCTCAGGCAGCCCCAGGTTGGGTTGGCCAGACAGCAACCAGGCACAGGGGCCRAGTGCAGGTCCTGCTACCCAGCCACCACAGCTTCCTCTCACCTG
ATTCTCACAGCAACCCAGGCAGGATAGGCAGGGTGGGGTTATCTTATTTTGCAGAAACAGGCTTTCCCAAGTCTGTCACCAAGYGAGGGGTAGAGCTGGG
TGTCCAGCCAGATCTAACCTCCAGCCCAGAGCTGGTGATGCGGAAAATCAGGGCAGATGGCAGCAGGATCTAAAATAGGGAGGGAAGAAGTCCTCAGTTA
CGTAACAGCGAGGAGACTCYCAGCCTACGCACAGTAGCAACCATGGGGTCCTGCCACTCGAGCCAGACCCTCCTTCCCTTCCCGTTTTGGGCTCTAAGTG
CTGCCGCCTGTGAGAGAATGTGCTGGAGGAGCCCCCAGTATCCTTCCAGCGGGAAGTCGGCTCTGTCAAGGCCATTCCCGAGAGCAGGCTCTAGGAATTC
AAAGACCAAGCAGGCAGAGCTGGATTCTGGAGCTGCCCTCAAAGGGCTTGAGGGTTATATGAGCACCGTGCTTGAGAAGTTAGTGATGATTTCTGCTCAA
AGAGACAGAGCAAGAGGGCTGAGGGGCTCTGGTGCTCTGGGGGAGATGAAACAACCCCACAGTATATGAGGCCTCTCTGGTGTGTGCGGGCACTAAGGAA
GGGTGACTTGTGAGTGGCGCATTCGGAGGCACGGGGTGGGCAGCTGTTGAGCAAGGGACCAGGGCTGGGACAGGCTGCCAGGACCCCCACAACCCCAGGG
GAGGAAAGGGGACTCAGCCATCATCATGCCTGACTCCCAGGCTCCCGGATGAGGAGCCTGCTAGCCAGGGCTTGAAGCCCTCCAGTGACAGGGGGTGCAT
TACTTCCTAAGAAGCCATTTCCTTGGTTCAGAAACATTTATCCAAAGACTGAGCCGAAATCTACCACCTCACTTAATGTTTTTGGCACCTGGTTATGACC
CAGACCTGCACAGAATAATTTAACTCTTCTGAAATAGACTTCCAGATATTTGGAAGTGGCCAAGTCAGGTTTAAGAGCTCAGGTCTCCCATTTGACAAGA
TTTCCATCTCCTCGCTGTCTGAACAGGTTTCAGCTGTGGTTATCCAATCCCTCATTCTTGATGACACACACCAGGCTGAATGGTCTTTAGAGTTCCCCTC
AAGCCGCCAAGCGCTCTGAGACAGGTTTACTAGCTTTGGTGAGATGCTGACACTCCTCACATGCACGTGCCCCTCCCAACTACTCAAGTGAGTTCGTGGC
AAATCTCTCATCTGATCTGCATAAACGGATTATATCTTAGGCGGTGCCATTGTCTGCATTTTACAAATAAGGAAACTGAGCCTCAGGGAGGTGAAGTCAT
TTGCCCAAAATCACAGAGCCAGGAAACGAGAGAGCCAAGATCCAGACCCCGCAAGATCCAGACCCCACAAGATCCAGACCCCGCAAGATCCAGACCCCKC
AAGATATAGACCCTGCAAGATCCAGACCTCACAAGATCCAGACCCCACRAGATCCAGACCTCGGCTATCTGGCTTCTCTTTTTTTTGCGACAGAGTCTCA
ATCTGTCACCCAGGCTGGAGCGCAGTGGTGTGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGC
TGGGATCACAGGTGTGCGCCATGCCTGGCTAAATTTTTTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCGCTATGTTGGCCAAGCTGGTCTCGAA
CCCCTGACCTCAGGTGATCCACCTGCCTCGACCTCTCAGAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCCCATCTGACTTCTATACCCGCAG
CCCCTTCCTTTACCCTCAGGCTGCCTCAGTCTCCACACTGGGGCCCAGAGCTGGGCTGGACTCAGCGCAGTCAGAACCTCGCCTTGCACGTGGCGAAGGA
GCGGCAGGCAGGCAGGCAGGCAAGCAGGACAGCCAGCTTCCTCCTAGTCCGCAGTTTCGCGGAGCAGCCTGGAAAGGGAGGCCCAGGCTTCCCTGTCTCG
TCGCACGTGTGTCTGCAGTGTCTGTGCTATCTCCCAGGGGCCTGGATGTCGATGGAATGCCTGAGGGTGGAGAGAGCTGTGGCTGAGGCCTACCCTGGTG
GCCTCAGCATCTGTGGAGATGTGTAGAGACAGGGAGAGTGAATGGGGACCAACCTCAGGAGATGCTGGGTCCCAGAAGCACCATGTGCTTCTCCTTTGGT
GAGACTTAATTACTCTCTAAAATGTAAGGCTACTCCCACTTATCAAATTATAGATGAGTTTAATTACAGCACACTGAGTAACCACACTGGGCTCCTTCAG
AAATAGCAGCAGGCTGGTTGCTCTTCTCAGCTTCAGCTGTAGCCACCCCAGTTTCAGGAGGAAGTGCCCGTGGTTCCTGGGGCCTGGAAGTGCCGCTCAA
CTCTGCTGCCAGACAAGTGCGGGCGTGGTGGACTGCACTGGGTACACTGCTGTACCGGCCACCACCCTCCGGCCACTCTCAGCCGGTGAGTGCTCTGCGG
GGCCATCTGGCCACGTGTTCTGTGACTGGGTCATTTACTCTGCTGCAACCTCTCTTTCTCCTACCTACATCGTGTTCTGGATAAAGGTTTTGGCTCATAA
TGTCCGACCAGAGGTGGACAAAGTGGTGTGGGACCTGCCGTAAGAAACAGGGAGCATGGYGCGGGGAGAGAAGCCTGTGCCTTATGGAGACTCGGGGCAC
CTTCAGGAAGCAGGGTCAACAGCAGCAGGCCACTAGGGAGTCGGGAGAGCTCGGTGATGTCACGAGGGGCATCAGACTCTTCCCTGCAGGCTGGCGGGAC
TGATGGGCTCTCGTTCCAATGGAGGTACAATGGGACTTCCGGGGCTGTGATGGGAAGGGCGGAGGAGCTGCCGATGGTCCCAGTGCCATATTAGTGTCAC
ATTCTGAGGGGCAGCCCTGTGCCGGACGGCAGCTGCTACCTCTCCCTCTGCCCCTTTATTACTTGAATCTCTTCGTTGTGCCCTGTCTAGGCACGGTCGT
CCGACAGCAGGCAGCCCACTGCCCTCCCAGAGCTCACTGTCTAGCCCAGGGTGACACAGGGTAACCGTGGGCATGACTTGGGCCGGGAAGTGAGAGGCTC
GATTCCATCACATGTAAATAAAAATACTCATTTTCAATCTAACACAGTCTGTCTTCTTCCCCGCACAGCCTTGGAGCCCCTCATGGACAGCTGATGCGAG
AGGTGTGAGTGGGCAGGGGTCTCTCCTTACTTAGGGAGTCCCATGACTTTGTCAAAGGAATAA


SNP Information

Context             (SEQ ID NO:36576):
ACCCTGTGTATACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAATCTCAGCTACTAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCT
Y
GGAGGTGGAGGTTGCAGTGAGCGGAGATTGCACCATTGCACCCTAGCCTGGGCAACAAGAGCGAAACTCTATCTCAAAAACAAAACAAAACAAAAAACAA
Celera SNP ID:            hCV26673487
SNP Position Genomic:     14738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36577):
AAGGATCCTAATTCTAGTTCAGAGATGCATTCTAAAGGGTCTTCTTTTTCTTCTTGTCAGCTAATAGTCTTAAATTTGCATATTAAAGGAAACAACTCAC
R
TAAAAGTCAGACAGCAAAATTTACCTCGTAAGGTACAAAGTGAAAGTCTGGTGAGCTGGAGGGAAATTAAAATGAATTTAATTAACAATTGGACATAAAA
Celera SNP ID:            hCV15905471
SNP Position Genomic:     16466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36578):
GGCCGCAGGAGTGCTGGTGGAGGGGCTTCCAGAAAGACCCTGCGGCAGCGCCCCCCCTCGGCTCTCCCCGCAGGAGAGCGGGCACCTGCGCGGCGCCGGG
Y
GAAGGCGAGAGCCTCGGCGAGCCCTCTGCAGCGGAGCCCCCTGCCCATTTGGTTTTGGGTAAGAGGAGGGGTCCGCGTCTCTGCAGCTCGGGCGGGATTC
Celera SNP ID:            hCV29196248
SNP Position Genomic:     23914
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:36579):
ATAACCTTTATAACCTTTACTTAGGAGTTGGTTAATATTTCATAAAAACCTTGTTAATTTGACATGGGCTCATATGCTGGTCTTGCATCAGTGTGCCTTT
R
ACATTAATGATTAATTTATAGAGAAACTGAACTTATTTTATCTCTCAACATTGGCTCTTACAATCTCACATGCCCCTTTCCTGAGAAAGTTGAATGACTT
Celera SNP ID:            hCV15905472
SNP Position Genomic:     15038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36580):
GTAATAACCTTAACTTAAAAAAAAAATTTAATCTCAGTTTTTTCCCTAAGCAAACCAAAACTTAATAATAATATGACAACTTGATCATATAGGTTTTTTT
A
AAATAAATCCTCTTATTGTGACTTACACAGACTGTTCATGACATGCTTGGACTTTCTGGTTTGTCCTGAACATCCCTCTTTCTTAAGCAACCAGTCATTT
Celera SNP ID:            hCV26673488
SNP Position Genomic:     15434
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36581):
CGCCCTCTACTCGGTTTGGTTCGGCCTCACGTGTTCCTTTAGCTCCGAAGCCGGGATACGGGTGGGGAAGGGGGGCTCGCGCCCTACAGGCCGAGCCCTG
M
GGCCGCAGCGGGGTAAGGGTAGGATGGCCGATCGCGCCCAGACCCCAGGGAGTCTCCCTCTCGGCTTTTCTGCCGGCGTCTCCAGCAGCATGATCTGGCA
Celera SNP ID:            hCV29196249
SNP Position Genomic:     24120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36582):
TACTCTAGGACTAAATTTACCATACAAGATTCTTTCTTATATGAAATTATTTATCTTTAAGCTTTCTTACCAAAAAAAACCTCTTTATTTTTATAACTGT
Y
TTTTTTTTTTTTTTTTTTTAGATGAAGTCTGGCTGTCACCCAGGCTAGAGTGCAGTGGCAAGATCTCAGCTCACTGCAACCTCCGCTTCCTGGGTTCAAG
Celera SNP ID:            hCV26673489
SNP Position Genomic:     15635
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36583):
GTAGGGCAGTGGTATTGAACCTTGGTTGTGGGTTAGAATCACCTAGAGAACAGTGAGGGAAAAAGTGTCTGTGCCTCACCTCTGGGTCAGGAGTGAGGCT
R
GGCAAAGGAATACTTTAAAGAACTTCCCTGTGATTAAAAAGAAAAAAAAAATCATTCTATGGAGAATCTCAAACATACGCAAAAGTAGAAAGCTGTATAT
Celera SNP ID:            hCV11975094
SNP Position Genomic:     38055
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36584):
CCTGTAGGGCAGTGGTATTGAACCTTGGTTGTGGGTTAGAATCACCTAGAGAACAGTGAGGGAAAAAGTGTCTGTGCCTCACCTCTGGGTCAGGAGTGAG
S
CTAGGCAAAGGAATACTTTAAAGAACTTCCCTGTGATTAAAAAGAAAAAAAAAATCATTCTATGGAGAATCTCAAACATACGCAAAAGTAGAAAGCTGTA
Celera SNP ID:            hCV11975095
SNP Position Genomic:     38052
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36585):
CCAGTGTATGAGCTGGGATTGCCTCACACTAAGAATAGCAGGAACCCCTAGAAGTCTAGGGCCATTGTGGCTTTGGGGAGCCCAGGCTCCTTGTTTTTTT
Y
TGCTGTGTTATTCTGAAGGCAGCTCAGGATCCCAGGATACTGTGATAGTCCTTCACCTCCAGCCTCAGTCCAGGCAGGGACAAGCAACGCACCTGCATCG
Celera SNP ID:            hCV11975097
SNP Position Genomic:     37551
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36586):
TGGTGGTAGGATGGGGGCTTGTGAATGTTTATAAACAGAAATCCCTCGAATACGACCCTGGCTAGGTAGGTGCAGTTACAGAGGCACAGAAGGGAGGAGA
Y
TGGGCGAAAGATTTTTGAATTAGGGGATTAGAAAAGGCTGCTCGGGAGAGTTATCTGAACCAGCTAGGACTTGGTCAGATGCAGTCAGTTTGGTATAGGA
Celera SNP ID:            hCV11975099
SNP Position Genomic:     25531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36587):
GGTTCAGAAATCCTGCCCCTGCCCCTGCCTGCTGCTCTGTTTGCCAGGCGGTCCTGGTCTCCACCCAGGCTCCACCCTACCAGGGTGGAATGGAGTTGGG
S
AGTTGGGCCTAACAGCACGGGTCCTGTCCTCTTTCAGGGCTGTCCCGGGGCTCCCTCCCAGCTGCAGCCCCAGGTACTTCCTCGTCTGCACTCCAACCCC
Celera SNP ID:            hCV27933684
SNP Position Genomic:     65935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36588):
AGTTTTCAGCATGGCTAAACTAGAAAATAGTGACACCACCAAATGCCGACAAGGCTGTGGGGAAACTGGGTTGTTCAGACACTGCCACTGGGGCTGTAGC
R
TACTATAGCCACTTTCATAAACAGTTTGTCAGTTTCTTAAAAAACTAAACCTGCAACTACCATATGACCCAGCAATTACACCCCTGGGCACCTACCCAAG
Celera SNP ID:            hCV9149102
SNP Position Genomic:     45005
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36589):
CATGACTGCTCCTGATTAAAGCCCGGAAGGCAACAAAGTAATGCTGAGGGTGCATTTATGTTTCAGAACCACCGGGAGGAACTGGGCCATTCTAACACCC
R
TTGCTACCATGCTGGCCACCCGCCTCTCCAGACCCCTGTCACGGCTCCCAGGAAAAACCCTAAGTGCCTGTGATAGAGAAAATGGAGCAAGGTAAGCAAC
Celera SNP ID:            hCV26000025
SNP Position Genomic:     33301
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,24)   total(A,1|G,61)
SNP Type:                 UTR 5


Context             (SEQ ID NO:36590):
GATCGATGTGAGCTGCTTGTGGGCAGGACTCCACAGTGTGTCATCACTGAGTTGTTTCCAGCCTCTTATGCATCTCAGCTTCTCTCTCCAGAGGTCTATG
W
CCTCTGAGAGGGCTCAAAATGCCAGGTGATCAGCCCTTATATGCATTTCCTGGATGACCCATTTTTAAAATTAAATTTTTCTGGGGATTTCCCTGCAGGG
Celera SNP ID:            hCV15913423
SNP Position Genomic:     17139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36591):
CATCCCAGCCAAAACTATAAAACTTTTAGAAAAGAACATAGAAGAAAATCTTTGGGTCCTGGGGGCAAAGAGCTCTGAGACTTGACATCAAAAGCATGCC
R
CATAATAGGAAAATACTAGACTTTATTTAGGGGTTAAGAGTTTAGACTCTGGACTCTCTCAGCCTTGGTTTCACTAGTTAGCTCTATCACTAACTACATT
Celera SNP ID:            hCV15913424
SNP Position Genomic:     44011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36592):
GAACACGTTTTCACATCTCACTGCAGTGGTGCAATATACAACCCTCATGACTGCACATGGTGGCCCTGGATTACTGCCACAGATCCTAATGGGTCTCCCT
K
CTTCTGCTCTAGTCCATCCTCAACTTATTAACCCAGTGAGAGTTACCTTTTTAAAAATGTAAGTCTGATAATGGCACTCCTCTTCTTAAAACTCTTCTTT
Celera SNP ID:            hCV11559463
SNP Position Genomic:     26109
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36593):
CAAGTAGGTGAGAGACAAATGGTTACATTCTTTTGAGTTTCTGATTAGCCTTTCCAAAGAAGGCAATCAGATACACATTTATCTCAGTGAGCAGGGGGAT
R
ACTGAATAGAATGGGAGGCTGGGTTGCCCTAAGCTGTTCCCAGCTTGACTTTCCCTTTAGCTTAGTGATGTGGGGGCCCCAAGATATTTTCCTTTCACAC
Celera SNP ID:            hCV11559464
SNP Position Genomic:     18952
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36594):
TAAACATGAAAAGATGTTCAACATCATTAGCCATTAGGGAAATGCAGATTAAAACCACAGCGAAATATCATGATACAGTTTTCAGCATGGCTAAACTAGA
R
AATAGTGACACCACCAAATGCCGACAAGGCTGTGGGGAAACTGGGTTGTTCAGACACTGCCACTGGGGCTGTAGCGTACTATAGCCACTTTCATAAACAG
Celera SNP ID:            hCV9149109
SNP Position Genomic:     44929
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36595):
TTAAAATTAAATTTTTCTGGGGATTTCCCTGCAGGGCCACTGCATGTTGCAGGGGGTCAACTCCCCAGACGCTCCCACGAGGCCCCTGGTCACCCAGGGA
Y
GCCTTTCGCTGGAAAGAGCAAATGTCCTTTCTCTTTGGAGCTCAGAAAACTCAGTTTCTCATTTGCCTATGAAAACAACAGTTCAGTTCCTCAGACAAAT
Celera SNP ID:            hCV27949267
SNP Position Genomic:     17304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36596):
GAAAAATAACAGCAGACTTAAAGCATGGCAGAAAGGAAAATAGAGAAAAACGGACTAGGAACTCTAGAATTTGCAGGTTGACCTTAGGGCTCTTTTTCCT
Y
AATGTAAATTTGCACAAAGACTGTATTACTTCCATTTTACTCTGGCAAATAGAGGTGCCATAAAACCAATAAGGTGCTCTAAAGGGGGTCATTCTCCTTG
Celera SNP ID:            hCV26673490
SNP Position Genomic:     16850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36597):
TTATTAGAACTCTGATGACATTTATTTGTCCCTCTTTTAGAAGACTTACAGGACTTCTAATGATTCATTTAGCTTACATACATGCTTCATTTCCCTCCAT
R
AACCCCCAAAATCTCAGGTGCCTCATTTCCCTCCATGAACCCCCAAAATCTCAGACAGGTCTCTCAGTTAATTCAGAAAGTTTATTTTGCGAAGGTTGAG
Celera SNP ID:            hCV11559469
SNP Position Genomic:     11998
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36598):
AGCCTCCCAAGTAGCTGGGACTACAGGCATGTGCCACCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGG
Y
CTTGAACTCCTGACTTCAACTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTCACCACGCCCGGCCCGGCTTTTAGCAGCATTTGCTTGAATTTA
Celera SNP ID:            hCV29196251
SNP Position Genomic:     34905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36599):
AACAACAGTTCAGTTCCTCAGACAAATGCACACAGACAAACACAATTGAGATTAATTATGGGAGAAAAAGCAATAGATAAGACCCTTTAGAATGCATCTC
Y
GAACTAGAATTAGGATCCTTAAACAACAATTTCCTAGGAGAGAAGAGAAAAGAAAAGAAACCAGCCAAGACCACTTCCTGTAAACTGTGCTCAGCCACCC
Celera SNP ID:            hCV26673491
SNP Position Genomic:     17478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36600):
GTGGTGCAATATACAACCCTCATGACTGCACATGGTGGCCCTGGATTACTGCCACAGATCCTAATGGGTCTCCCTGCTTCTGCTCTAGTCCATCCTCAAC
W
TATTAACCCAGTGAGAGTTACCTTTTTAAAAATGTAAGTCTGATAATGGCACTCCTCTTCTTAAAACTCTTCTTTTTTTTTTTTTTTTTTTGAGACAGAG
Celera SNP ID:            hCV26673492
SNP Position Genomic:     26134
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,4)   total(A,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36601):
AGAACGAGATTCCATCTCAATGAATCAATCAATCAATATTGTGTGTCTGTTGTGTGCAGGGCACTGCTGTACATGTTGGAGATACAACAGTGAACAAAAC
A
GACAAAAATTCCTGTTCTCAAAGAGCTTATATTCTAATGAGACTGAACAACAACAAACAAGATAAATATGTACAACATGTAGAATGCTATAATGTAATAA
Celera SNP ID:            hCV26673493
SNP Position Genomic:     26900
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36602):
CTTCCTAGATACAATGGAGGTACAGGCATTGGATAAATATACCCATTCCAAATGGGAGAAATGGGTCAAAACGAAGGGGCCAAAGGTTCCATGAAAGTCC
R
AAATCCAGCAGGGCAGCCAAATCTTAAAGCTCCTTTGACTCCATGTCTCACATCCAGGTCATGCTGATGCAAGAGGTGGGTTCCCATGGTCTTGGGCAGC
Celera SNP ID:            hCV9150229
SNP Position Genomic:     8642
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36603):
TTGAATCTGCCTTCAGATTCAAACTGTAACTCCTCCCTGAGTCTCCAGCCTCTTCTTGGAAATGGCCCTATCTAAAAACCACTTGGCCATTTTGAAATCT
Y
TCTCAGGTCCTGATTCTGGGTTATGCTCAGGGCAGTCTCTGAAGATTTCTCATCCTGTTCAGGCCGGTTCCTTGCTAATTTATGCCCACACATACCTGGC
Celera SNP ID:            hCV29196254
SNP Position Genomic:     6059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:36604):
AAAAAGTAATATGTATTCATTGGGAAAATAATTGGAAAAAGAATTAGGCAAAATAAGCATGTGGTTTTGTATCTTGTTTTTTAAAACAGCTTGTTGTAAT
R
CATTAGATATTCTTTGAAAAAAATAGAATTTGAAGTTCAGAAAATCAAATCAGTTTTAGGGATTGAGAATCTCACTACATATTTTGTCTTTCAAAATTGT
Celera SNP ID:            hCV29196255
SNP Position Genomic:     6897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36605):
GAACGAGATTCCATCTCAATGAATCAATCAATCAATATTGTGTGTCTGTTGTGTGCAGGGCACTGCTGTACATGTTGGAGATACAACAGTGAACAAAACA
G
ACAAAAATTCCTGTTCTCAAAGAGCTTATATTCTAATGAGACTGAACAACAACAAACAAGATAAATATGTACAACATGTAGAATGCTATAATGTAATAAA
Celera SNP ID:            hCV26673494
SNP Position Genomic:     26901
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36606):
ATATTCTTTGAAAAAAATAGAATTTGAAGTTCAGAAAATCAAATCAGTTTTAGGGATTGAGAATCTCACTACATATTTTGTCTTTCAAAATTGTTTGTTT
R
TTTATTTATTTAGAAATGGGGTCTTGCTATGTTGTCCGGGCTGGAGTGTAGTGGTACAATCATACCTCACTGCAGCCTCAAACTCGTGGGCTCAAGGGAT
Celera SNP ID:            hCV29196256
SNP Position Genomic:     7004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36607):
GGGTCAAAACTGAGAATTAATACACCTCATATGCTGTTGGTGGGAATGTAAATTAGTACAACCACTACAGAGAATAGTTTGTAGGTTCCTCCAAAAACAA
M
AAATAGAGCTACCATAGGATCCAGCAGTGCCACTGCTGGGTATATACCCAAAAGGAAGGAAATCAGTATATTGAAGAGATATCTGCACTCCCATGTTGGT
Celera SNP ID:            hCV26673495
SNP Position Genomic:     28127
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36608):
TCCAGCCCAGAGCTGGTGATGCGGAAAATCAGGGCAGATGGCAGCAGGATCTAAAATAGGGAGGGAAGAAGTCCTCAGTTACGTAACAGCGAGGAGACTC
Y
CAGCCTACGCACAGTAGCAACCATGGGGTCCTGCCACTCGAGCCAGACCCTCCTTCCCTTCCCGTTTTGGGCTCTAAGTGCTGCCGCCTGTGAGAGAATG
Celera SNP ID:            hCV2066129
SNP Position Genomic:     70720
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:36609):
TATGTGTACGTGTGCATTCATCTAAAGACATAAGTAAGTGATTAACTTCTTCTAATCTATAACTAAGATCTGAGTCCTGAAGGCCTTCCTTTGGAGCCTT
Y
GTAAATTCATTTAATCTAAATGGGTGAAGGTGCTGGGGTGATTACCCTTATCTTGTGTCCTGCTAAATCACAGGGTTTTGGGGAGTTCCTTTAGTCCCCA
Celera SNP ID:            hCV29196257
SNP Position Genomic:     7443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36610):
CCAAAATCTCAGACAGGTCTCTCAGTTAATTCAGAAAGTTTATTTTGCGAAGGTTGAGGATGTGCACCTGTAACACTGCCTCAAGCGGTCCTGACGACAT
R
TGCCCAAGGTGGTCAGAGCACAGCTTGGTTTTATACATTTTAGAGAGACATGAGAAGCAATCAACATATGTAAAATGAACATTGGTTTGGCCCAGAAAGG
Celera SNP ID:            hCV15905480
SNP Position Genomic:     12141
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36611):
GCCTATTGGCCAGAGGCAGGTCACGTGACCACTAGGTGGGTGGTAATCTGGAAAGCGTTGGGCGCACTGCTGTCCCTGGACAAAATCCAGATTCTTGTTA
R
TGAGGCAGATGAGAAGAACGGATGCTGGCAGGCAAAGAGCAGTGTCTGTCACAGCTCAGCTGGGCTGTGGCCTCCAGCTGTTCACAGGGATATTGGGGCT
Celera SNP ID:            hCV26673496
SNP Position Genomic:     37793
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36612):
TCTTTATCGCTGTATTATTTATTTGAAATATAATGCCATTTATTTGTGATCTGTTTTCCTTGTTGTTGATTCTTGTTGATGTAATTTAATTTCTGAATAT
R
TAAACTGTTAACAAGGCTGTAAAGGCAAAAATTATACAAATTGGTAAAATCAAAGTAGCGTTATTCCCTCACCCCTATCTGTTCCACTCCATTCCTTCAT
Celera SNP ID:            hCV16148781
SNP Position Genomic:     48713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36613):
AAAAAAAAAACCCCACAAAACTTTAATAAAATTCAATTGCATCAAAACAAACAGAAGACTGTGGGGTTTGGGGCAGTAGACAGTGTTTTTATTCCCTATC
R
CCCAGCAGAACTCAGCAAAGCAGGCTGCACGCTGGCTCTGTGAGGACTTGGAGGTGGCTGCCTAAGGGCAGGATTTAACCTGCACTGTCCTGAATTAACA
Celera SNP ID:            hCV15905481
SNP Position Genomic:     11551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36614):
CCCCCTGGGGATAGGTCTTTGTTTTTCTTTTCCTGTAGGGCAGTGGTATTGAACCTTGGTTGTGGGTTAGAATCACCTAGAGAACAGTGAGGGAAAAAGT
R
TCTGTGCCTCACCTCTGGGTCAGGAGTGAGGCTAGGCAAAGGAATACTTTAAAGAACTTCCCTGTGATTAAAAAGAAAAAAAAAATCATTCTATGGAGAA
Celera SNP ID:            hCV26673497
SNP Position Genomic:     38021
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36615):
TGGTCACTTGCCTGGAGAGGATCCTGCATGCTGATAGTGCTGAGGCACCTGCCAGCTAAGGTGAGAGACAGCTGAACTTGAACATGTGGGCTGTCACTGA
R
AGCGGTCAGCAGAAGAAAATTTGAGCCATGGGTAAGGCCTGGTAGAAAGGGAGGAGGTTGGGGAGGCGTGAATAGGCCTTTGGAAAGAGGTGCTGTTAAC
Celera SNP ID:            hCV26673498
SNP Position Genomic:     6613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:36616):
TAATTTTTTAAAAGCTTAATATGTTGAATAGGTAATATATTTACATGGTACAAAATTTGAATGGCAGGCCGGGCGCCGTGGCTCATGCCTGTGATCCCAG
Y
ACTTTGGGAGGCCGAGGCAGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGTGTGGCCAACATGGTGAACCCCCGTCTCTACTAAAAATACAAAAATT
Celera SNP ID:            hCV318059
SNP Position Genomic:     41146
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36617):
TCCCTGGTAGCAATAGGGATAAATAAAAAGTAATATGTATTCATTGGGAAAATAATTGGAAAAAGAATTAGGCAAAATAAGCATGTGGTTTTGTATCTTG
T
TTTTTAAAACAGCTTGTTGTAATACATTAGATATTCTTTGAAAAAAATAGAATTTGAAGTTCAGAAAATCAAATCAGTTTTAGGGATTGAGAATCTCACT
Celera SNP ID:            hCV26673499
SNP Position Genomic:     6873
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36618):
AAATCTCAGGAAAAATAGACATAGAGGGGGATTTTCCTGAACTTGATAAAGGGTAAACACCATAAGCCTTCAGCTAACATACTTAAGGGTGAGACTGAAT
K
CTTTGTCCCTAAGATGGGGAACAAACCAAGGATATTAGTTCTCACCGCTTATCCAACATAGTGCTGTAATTTCTAGCCAGTGCAATAAGGTAAGAAATGG
Celera SNP ID:            hCV478450
SNP Position Genomic:     42151
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36619):
GTCCTGGTCAGTGTCCTTCTTTCTACAAGAGGCGTTGGAGCCGGGCTCTGCATAGGGCGTATATATCCCTGGCCGCCAAGGAAGCTGACCCTTGAAATTT
K
TGAAGCTTTCATATTCACTCAATACACATTTACAGAGCCTCTACTTCCTGTCAGGCGTCACACAATAAATATTCGGAGGAGCAAGAAGAGAGTGATTCAA
Celera SNP ID:            hCV11975100
SNP Position Genomic:     25286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36620):
CCCAAAAAACTATTAGACCCAAACAGTGGTTTTATCTCAGTGGAAAAATAACAGCAGACTTAAAGCATGGCAGAAAGGAAAATAGAGAAAAACGGACTAG
R
AACTCTAGAATTTGCAGGTTGACCTTAGGGCTCTTTTTCCTCAATGTAAATTTGCACAAAGACTGTATTACTTCCATTTTACTCTGGCAAATAGAGGTGC
Celera SNP ID:            hCV11975101
SNP Position Genomic:     16808
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36621):
CCTCATGGATGGGATTAGTGTCTTTATAAAAGAGACCTTTGCCATGTGAGGTTACAGTGAGAAGACATCTGTCTATGAAGAAAGTGGGCCCTCACCAAAC
R
CAGTCTGCTGGCACTTTGCACTTCAACTCCCCAGCTTCCAGAACTGTAAGGAATATAAGTCTGTTGTTGGTAAGCCACCCGGTCTATGATATTTTGTTAT
Celera SNP ID:            hCV9149110
SNP Position Genomic:     44696
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36622):
TTTGCATTCTCCTCAAATTCCTGTGTTGAAATCCTAACCCCCAAGGTATTGGTATTAGGAGGCAGGGGCCCTGGGAAGTGATTAGGTCATAAAGGTGGAG
Y
CCTCATGGATGGGATTAGTGTCTTTATAAAAGAGACCTTTGCCATGTGAGGTTACAGTGAGAAGACATCTGTCTATGAAGAAAGTGGGCCCTCACCAAAC
Celera SNP ID:            hCV9149111
SNP Position Genomic:     44595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36623):
GTCGGCCTGAGGGGGGATGGAGACCATAGAGCAGGAAGTGACTGATGGGTCTGCCTGAGGGGTGGGGTGAAGACGGAGGTGGAGGAGTGAGTGAGACAAA
S
AGACCCAGGAGGCTTCTCCAGCAGCCCAGGAGACAGGCAGCGAGGACCCAAGGGAATGCTAGTGGAAACAGGAAGGAAGAACTGACCCAGCAGAGGAAAC
Celera SNP ID:            hCV26809536
SNP Position Genomic:     61773
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36624):
TCAGGGAAGTTAATGAATGTAAAGGGCTTGATTAGGGGTCTGCCAGCTGTCATGTTGATCTTGAGCTGTAATATTAGCAGTACTGGGTGACTCAGTAGGT
R
GGGGAGGGGTGGAGGAGCTGGAGGAGTCACAGACAAAAGTAAAATCATTAACAAAGAGGAGGAGCAGGCTTGGGCAGCTTGGAAACTTGACGTGTTGGTT
Celera SNP ID:            hCV26809537
SNP Position Genomic:     62149
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36625):
AAACTGTGTTGATATAGGAGCCGACATGAGCAAGCAGAGGCTCCCCTGGCTCAGGCAGCCCCAGGTTGGGTTGGCCAGACAGCAACCAGGCACAGGGGCC
R
AGTGCAGGTCCTGCTACCCAGCCACCACAGCTTCCTCTCACCTGATTCTCACAGCAACCCAGGCAGGATAGGCAGGGTGGGGTTATCTTATTTTGCAGAA
Celera SNP ID:            hCV2066130
SNP Position Genomic:     70456
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:36626):
GTGAATGAAGCTTTAATTTGGGTAACACGGAAGGAAAGCAGCTAGAGACCAATTACTCTGTCATTTACACAAACTCATTTCCATGATTAACTTGGAAAAT
R
AAGCAGCGCCGAGTTCCCACAGGCAGGGGAGGGCCCCAGGATGGGAGCTCTGCTCTGAGGCTGTGCCTTGGGAAGGAGCACGGGGCTATCGGCCCGGGAG
Celera SNP ID:            hCV26809538
SNP Position Genomic:     63813
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36627):
CCTATGGTCTGGTGACTCCAGCCAGCACAAACCCATCCCCTGATGGTTGGAGGCTGGGCGAGGGCTTCTTGCAAGATGCGCCTGACAGTGCCTTGTTACA
S
AGCACCTGCTGTGCTTAGCATTCCACCCGGGGCCAAGAGGCTGTGTGAGCAGGTGACAGCCAGCCTGGCCCCGCCTGTCACAAGCTGCTAGGTCTGCACC
Celera SNP ID:            hCV2066131
SNP Position Genomic:     70157
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:36628):
CAGCGCCGAGTTCCCACAGGCAGGGGAGGGCCCCAGGATGGGAGCTCTGCTCTGAGGCTGTGCCTTGGGAAGGAGCACGGGGCTATCGGCCCGGGAGACC
R
AACACTGAGGGTTTCCACAACAAAGAGGCAGGGCCCAGCTCTGTCCTGAGGCTCTGACCCATCCAGCCTTTGCACCCCAACAAACTGAACTCAGAGAGGT
Celera SNP ID:            hCV26809539
SNP Position Genomic:     63917
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36629):
ATCGCGCCACTGCACTCTAGCCTGGGTGACAAGAGTGGAACTTTATCTCAAAAAAATATAACTCATCTCAAATATAACTCCATCTCAAAAAAACACAACT
R
TAAACTAAGTTCCTCCCAAAGCTAGCTCAGCCCACAGCCAGGAATGAAAAAGGACGGCTTGGAGGTTAGAAGCAAGATGGAGTTGGTTAGGTCAGCTCTC
Celera SNP ID:            hCV318060
SNP Position Genomic:     40649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36630):
GGACAGGTTTTTTTCTTTTGTAAATGAAGCATTTGCAGCTTAAAGAGGATGCATGAAATAACCCTTTTATCGCTTATAAATAGTGCCAGTTATGTGTTCC
Y
GCCACGGCTGTGGAAATACTTCACATTTGCATTCCAGGACTGTTTTGGATCCATTTGCCCGAGAATCTTCTGACTAACTCTGTGTCCTCATCTGGGCAGC
Celera SNP ID:            hCV2066134
SNP Position Genomic:     67470
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:36631):
CATGCCAGGAAGACCCATAACTGGTTTTAACACTAACTAGAGGGAATGACTTCTTTGCATAGTGAGTGACTTGGGCCTTCACAAACAGGGTGTGGAGTGG
M
AGGCAGAGGCCTCTAAATCTCAGGGCAAACATGGTGAATCTATCTCTCCGGAGATAATTTCATACAGAGATTTTAAGAAAACATCTTTATATTAAAAACA
Celera SNP ID:            hCV2066135
SNP Position Genomic:     67230
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:36632):
CCTATTGACTGAGAAGGCTCCTGGGTGGCTCAGAAGTGGTTCCAGCCAAGCCTCTAGAGACATGCCAGACTTCTGCCCGCTGTGTCATAGGGCAGTAACG
S
CTTAGCAGGTACCTCTGTCTCCCTCTGTAGGCCGCGTCGTCAATATCAGCAGCATGCTGGGCCGCATGGCCAACCCGGCCCGCTCCCCGTACTGCATCAC
Celera SNP ID:            hCV2066136
SNP Position Genomic:     66528
SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,14)   caucasian(C,15|G,19)   total(C,29|G,33)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,13)   total(G,13|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36633):
TGCCCCTGCCTGCTGCTCTGTTTGCCAGGCGGTCCTGGTCTCCACCCAGGCTCCACCCTACCAGGGTGGAATGGAGTTGGGGAGTTGGGCCTAACAGCAC
R
GGTCCTGTCCTCTTTCAGGGCTGTCCCGGGGCTCCCTCCCAGCTGCAGCCCCAGGTACTTCCTCGTCTGCACTCCAACCCCCATCGCCAGGGCTGCTGTC
Celera SNP ID:            hCV2066137
SNP Position Genomic:     65954
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36634):
CTATCACTAGCTACATTGAGCGTTTTAAAAAGACCTCTGTTTCTCACATGTAGCATGGGGGATTGTAGATGAGATCCTGAAGGCAGAAGTAATTTTCCCA
R
GCAACATTGCTGGTTGGTAGCCGAGTCTGGGTTAGAACCTGGCCTTTCCACTATACCATGGTGCTTCTCCAGACAACAAGAACAAGGTAGGGAGGGCCAG
Celera SNP ID:            hCV15973100
SNP Position Genomic:     46950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36635):
AGTCAGGTTCAGAAATCCTGCCCCTGCCCCTGCCTGCTGCTCTGTTTGCCAGGCGGTCCTGGTCTCCACCCAGGCTCCACCCTACCAGGGTGGAATGGAG
Y
TGGGGAGTTGGGCCTAACAGCACGGGTCCTGTCCTCTTTCAGGGCTGTCCCGGGGCTCCCTCCCAGCTGCAGCCCCAGGTACTTCCTCGTCTGCACTCCA
Celera SNP ID:            hCV2066138
SNP Position Genomic:     65930
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,11)   total(C,2|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36636):
CCCCTGGTTTCCTGATTCCGAGTCCAAGTGAAATACTTTTGCCCCTGCAGTAGACCCTGCTACAGAGGATAAAAAGGCACGTCATAGGCTAGGAGAAAAA
W
TTTGCCTACCACATATGTAACCAAGGACTAGCAGCTAGGACATCTGAAGAATTCTCAACATTCAACGGGGTAGAAGAATGAACGATTCAATAGAATATGG
Celera SNP ID:            hCV15905490
SNP Position Genomic:     44341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36637):
TTAATCTCCACATATACCTCTAGCCCTGAGCAGCCACTGATTTCTATTTCTTTAGGTTTGCATTTTCTGGACTTTTCATCTACATGAAATCATACAATAC
R
TGGCCTTTTGTGCCACACTTCTTGAACACTTAGTGTGATGTTTTTGAGAGTCATCCATGTTGCAGAATGCATCAGTAGCTCATTCCTTTGTATTGCTGAG
Celera SNP ID:            hCV15905491
SNP Position Genomic:     48086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36638):
TACCACCCTGGAGACCCTGGAGACTGCGTGGTCAGGACAGCTGAGGGCTGGGACCCAGTGTGGTATGGAAGGGAGATGGAGAGGATAGAGCGCGCGCGCG
Y
GTGTGTGTGTGTGTGTGTGTGTGCGTGCTCTGTCACCCAGGCTGGAGTGCCGTGGCATGATCCGGCTCATTGCAACCTCTGCCTCCTGGGTTCAAGAGAT
Celera SNP ID:            hCV11975616
SNP Position Genomic:     63003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36639):
TTGAGATTACAGGCATGAACTACTATGCTTGGCCATCTTTCAAAGTTTATATGTGTATTCATCCATTTCCTTATTGCTGATAAAGGCATACCCAAGAATG
R
GTAATTTATAAAGAAAAAGAGGTTTAATGGACTCACAGTTCCACATGGCTGGAGAGGCCTCACAATTATGGCAGAAGGCAAAAGGCACATCTTACATGGT
Celera SNP ID:            hCV26673500
SNP Position Genomic:     8039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36640):
GCAACAGCAGACATTAGCCAGCCTCAGACGACTACAGTCTTGCCCCTAATTTGCTGCCCCGGATCCAACCTTGGAAGGGTCAGAAGTTAAGAATAGGAGG
S
GAGAGGAGCTAGAAAACAGTGAGAAAGACAACCTCCACCAGCACCTACTTCCCACAGCCCTCAGGGCTGGGCAGGGGAAAGCTTTACCTCGCATACAAGT
Celera SNP ID:            hCV15905498
SNP Position Genomic:     53358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36641):
TGACATACCCTGGAGACATTTTCTCTATCATCTTGGCAATCTGGCTCTTCATTACTTATGCAAATTTCTGCAGCCAGCTTGAATTTCTCCTCAGAAAATG
Y
GTTTTTCTTTTGTATTGCGTCAGGCTGCAAATTTTCCAAACTTTTATGTTCTGTTTCCCTTTTAAAACTGAATGCTTTTAACAGCACCCAAGTCACACTT
Celera SNP ID:            hCV26673501
SNP Position Genomic:     9423
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36642):
GCAGGTGAAAGAAAGGTGTCAGGGAAGATGCAGGAGATGCCTGGGTATCACTAATGCTGAGGGAGAGGTGAGCCTCAAGGAGTACTGGCAGTACTCATAT
Y
GTAGCGAGCCTGAGGAGAGTGAAGACTGGGGGTGAGGTCCTTGGTGTACCACCCTGGAGACCCTGGAGACTGCGTGGTCAGGACAGCTGAGGGCTGGGAC
Celera SNP ID:            hCV15905499
SNP Position Genomic:     62856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36643):
TCTAAGACCACCTCAGCCTGGATTTCATTGTCCATATCATTGTCAGAATTTTGGCCAAAGCCATTTAACAAGTCTCTAGGAAGTTCCAAACTTTTTCACA
T
TTTTCCTGTCTTCTTCTGAGCCCTCCAAACTGTTCTAACCTCTGCCTGTTACCCAGTTCCAAAGTTGCTTCCACATTTTCAGGTACCCTGACAGCAGTGC
Celera SNP ID:            hCV26673502
SNP Position Genomic:     9789
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36644):
AGCCATTCCAGCTTCTGTTGGATTATCCACATGAATGATGCCCAGCTGATTATAAAAAATTCTGTACTCCATGCTGAGTTCCTGTAACTCTAGAAAAAGG
A
AAAAAAAAACTGTACTCCAAATAGCTACAGAAACTGGGATTTTAAAAATCCCTTTCTTCAAAGAAAGAACCTCAGAACAATTGGTGGTGTGCTTAACCCA
Celera SNP ID:            hCV26673503
SNP Position Genomic:     10497
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36645):
ATACTGGGCTTCTTTCCTTTGCTGTCAATTCCAGAAAAAGCTACTCAATACCTATAAAATTCTACAGATTAAGGGTATGATTTCCAGCCAAAAAAAAAAA
M
CCCACAAAACTTTAATAAAATTCAATTGCATCAAAACAAACAGAAGACTGTGGGGTTTGGGGCAGTAGACAGTGTTTTTATTCCCTATCGCCCAGCAGAA
Celera SNP ID:            hCV26673504
SNP Position Genomic:     11461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36646):
TTTTTTTTGTTTTTTTTTGTTATTTTTGTTTTTGAGACGGAGCCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTC
Y
GCCTCCTGGGTTCAAGCGATTCTCCTGCCCCAGCCTCCCGAGTAGCTGGGACTGTGGGCGCCCGCCACCACGCCTGGCTATTTTTTGTATTTTTAGTAGA
Celera SNP ID:            hCV27838565
SNP Position Genomic:     30970
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,23|T,3)   total(C,48|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:36647):
CTGGCCTGCAGGCTGATGGGCAATGTCTGGGCCAAGCCCATGTGGTAAATGCACATCTATCCCTCTCCTGTCCAGGCATGTGGGGCCTCGTTAACAATGC
Y
GGCATCTCAACGTTCGGGGAGGTGGAGTTCACCAGCCTGGAGACCTACAAGCAGGTGGCAGAAGTGAACCTTTGGGGCACAGTGCGGATGACGAAATCCT
Celera SNP ID:            hCV25994627
SNP Position Genomic:     64532
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,1)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36648):
GTGCCCTCCCGGGGGCACACCTGGATGGGCTGAGTGCCCTCCCGGGGGCACACCTGGATGGGCTGAGGGCCCTCCCGGGGGCACACCTGGATGGGCTGAG
K
GCCCTCCCGGGGGCACACCTGGATGGGCTGAGTGCCCTCCCGGGGACACACCTGGATGGGCTGAGTGCCCTCCCCGGGACACACCTGGATGGGCTGAGTT
Celera SNP ID:            hCV26809540
SNP Position Genomic:     65528
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36649):
GCCTGGAGACCTACAAGCAGGTGGCAGAAGTGAACCTTTGGGGCACAGTGCGGATGACGAAATCCTTTCTCCCCCTCATCCGAAGGGCCAAAGGTGAGTG
R
GAAAGGGAGCTCCCTCCTGCCCCTGAACCTGCCCCACGTGTTCATCTTTGCTCAGAATGGAAATACCTGTCCCAGCAGCTCCAATGTCCACAACTCAGCA
Celera SNP ID:            hCV25997462
SNP Position Genomic:     64667
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,36)   total(A,2|G,70)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36650):
CACAGGAAAGAAGCAGAGAGGAGGCTGGCCTGCAGGCTGATGGGCAATGTCTGGGCCAAGCCCATGTGGTAAATGCACATCTATCCCTCTCCTGTCCAGG
S
ATGTGGGGCCTCGTTAACAATGCCGGCATCTCAACGTTCGGGGAGGTGGAGTTCACCAGCCTGGAGACCTACAAGCAGGTGGCAGAAGTGAACCTTTGGG
Celera SNP ID:            hCV2066142
SNP Position Genomic:     64508
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,34|G,2)   total(C,70|G,4)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36651):
ATGCAGTGGCGTGTCCCCCATCTCCTGCTCTCGCTTTCTTCCCGTCTCCCTCTCCTCCCTCTCCCTGCTTCCCCTCCACACTCTGCCACTCTGCCATGTC
Y
TGGCCTTGCCTTGGCAATTCCCCCTCAGGCAATGCCGGCTGTGAACTCCAGGGAGCACCCTCCCAGAGCGTTCCGACCCGCAGTGGCCGCCACCGACCCA
Celera SNP ID:            hCV2066143
SNP Position Genomic:     59547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36652):
GCCACTGAAGGGGTCATCCTGAGGGAATGGCCTGGTCATTGTGAGACTTGTGAATCTCCCTCTGAGGATGGCAGTGGCAATGTGAAGGTGGATTCAAAGC
R
GGAGTTAAACATGGGTTCTGGACTCCGGAACTAGGGTGGTAGGTGTTGGGAAACAGGAAGGGTCAGGTGCGAGGAGTGTTGAGAAGGCGAAGCTGCCTGG
Celera SNP ID:            hCV2066144
SNP Position Genomic:     57850
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36653):
ATTTTCACATCGAGTGTAGCTCATCCCTATTGTGAAAGAAACCATGTTTCATAGAATAGGATGAAATGTGACAATGCAGCCTGCCTGGTGACACGAGGGT
K
CACGTGACAAAGCACATCAGCACTTAGCACAGTGCTCAGGACAGTGGACACTCGGGAAATGCTGTCTACTTAGAGGAAAGCCCCCCAGCAGCTCGGCAGT
Celera SNP ID:            hCV2066145
SNP Position Genomic:     55633
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36654):
CCGGGGTGACTACGTCCAGCACCTCCGGCCCCATTGGGCAGTCCCTTCACCATTTCCTCCTGTGCCCTCTGAAATTGCATGATGTGATTTCTCCATTCCC
R
GGGTTGGGGTTCTTCTGGTTGAAAGCATTCAGAAGGCTCAGCCTAACCAGCGGAGGACTTTCCACCCCTGACAAGTGCTGACCGTCCTGGGCTTTCCACC
Celera SNP ID:            hCV2066146
SNP Position Genomic:     55238
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36655):
TGGTCCTGGCTCTGTTCTCTGTGGCTGCATGGAACAAGCTGGCTCCCTCAGTCATGTTCCACTCAAGTCTTCTCTCCGGGGTGACTACGTCCAGCACCTC
Y
GGCCCCATTGGGCAGTCCCTTCACCATTTCCTCCTGTGCCCTCTGAAATTGCATGATGTGATTTCTCCATTCCCGGGGTTGGGGTTCTTCTGGTTGAAAG
Celera SNP ID:            hCV2066147
SNP Position Genomic:     55163
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36656):
GTCACAGAAACCAAGGAGGTGCGGGAGGGAGTGTCACAGAAATCCAGGGGAAGAGGGGACAGTGCAGTACAGAGCTCCAGGAGGGAGTGTGCAGGGTGCA
Y
CTGAGAAACAGCATGAAGCCTCTGTGGCTGAAGCAGAATGAGGGGGGAGTAGAGTGAAGTGAGGGGCACGGGAGCAGATCTTGTATCAGCATAGGGAAGG
Celera SNP ID:            hCV2066148
SNP Position Genomic:     52003
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36657):
TGAATGAAAAGGACAGGTTTTTTTCTTTTGTAAATGAAGCATTTGCAGCTTAAAGAGGATGCATGAAATAACCCTTTTATCGCTTATAAATAGTGCCAGT
Y
ATGTGTTCCTGCCACGGCTGTGGAAATACTTCACATTTGCATTCCAGGACTGTTTTGGATCCATTTGCCCGAGAATCTTCTGACTAACTCTGTGTCCTCA
Celera SNP ID:            hCV29242816
SNP Position Genomic:     67460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:36658):
CAGCTTCCTCTCACCTGATTCTCACAGCAACCCAGGCAGGATAGGCAGGGTGGGGTTATCTTATTTTGCAGAAACAGGCTTTCCCAAGTCTGTCACCAAG
Y
GAGGGGTAGAGCTGGGTGTCCAGCCAGATCTAACCTCCAGCCCAGAGCTGGTGATGCGGAAAATCAGGGCAGATGGCAGCAGGATCTAAAATAGGGAGGG
Celera SNP ID:            hCV29242817
SNP Position Genomic:     70584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:36659):
CCTACCTACATCGTGTTCTGGATAAAGGTTTTGGCTCATAATGTCCGACCAGAGGTGGACAAAGTGGTGTGGGACCTGCCGTAAGAAACAGGGAGCATGG
Y
GCGGGGAGAGAAGCCTGTGCCTTATGGAGACTCGGGGCACCTTCAGGAAGCAGGGTCAACAGCAGCAGGCCACTAGGGAGTCGGGAGAGCTCGGTGATGT
Celera SNP ID:            hCV29242818
SNP Position Genomic:     73160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:36660):
ATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCAACTAAGGTAGGGAGTTCAAGACCAGCCTGGCCAACATGGAGAAACCCCATCTCTACTAAAAATA
S
AAAATTAGCCGGGCGTGGAGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAACTGCTTGAACCTGGAAGGTGAAGGTTTTGCGGTG
Celera SNP ID:            hCV29242819
SNP Position Genomic:     46635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36661):
AGTAGCTGGGACTGTGGGCGCCCGCCACCACGCCTGGCTATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTCAGCCAGGCTGGTCTCGAACTC
R
TGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCTGGCCAAGGGACTGAGTTTTTATGCACTTTTA
Celera SNP ID:            hCV27850328
SNP Position Genomic:     31111
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,2)   caucasian(A,38)   total(A,68|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:36662):
GGCACACCTGGATGGGCTGAGGGCCCTCCCGGGGGCACACCTGGATGGGCTGAGTGCCCTCCCGGGGGCACACCTGGATGGGCTGAGTGCCCTCCCGGGG
R
CACACCTGGATGGGCTGAGTGCCCTCCCCGGGACACACCTGGATGGGCTGAGTTCCCTCCCAGGAAAACTGGTCCCAGATCCGCCTCGGCTTCCCGGGCT
Celera SNP ID:            hCV15905500
SNP Position Genomic:     65574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36663):
TACTCGGTTTGGTTCGGCCTCACGTGTTCCTTTAGCTCCGAAGCCGGGATACGGGTGGGGAAGGGGGGCTCGCGCCCTACAGGCCGAGCCCTGCGGCCGC
R
GCGGGGTAAGGGTAGGATGGCCGATCGCGCCCAGACCCCAGGGAGTCTCCCTCTCGGCTTTTCTGCCGGCGTCTCCAGCAGCATGATCTGGCATTTATTA
Celera SNP ID:            hCV15905507
SNP Position Genomic:     24127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36664):
GATCCATCCAGTGCAGGGTCTGCAAAGTATCCCAAGCGCTGATCTTAGGAGCAGTGTAGGGAGGGTCAGAATCTTGTAGCCTCTAGCTGCATGGCTATAA
A
TTATGGTTTATAATTTGTAATCTGGTGCCTAATTTGTTAGTCCTACAAAGACAGTCTGATCCCCAGGCAAGAAGGAGGTTTGTTTTGGGAAAGGGCTGCC
Celera SNP ID:            hCV26043171
SNP Position Genomic:     40197
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36665):
ACGAAGGGCAGGGTTTCACCACATTGGCCAGGCTGGTCTCAAACTCCTGGCCTAAAGTGATCCACCCGCCTCAGCCTCCTACAGTGCTGGGATTATAGGC
R
TGAGCCACCGCACCCGGTCTACAGTTTTCTTTAAATCTTCATCATGCCAGTACTTCCCTCCTCCTGTTTTCATCTTCCTGTATTTGCAAGTTTCATTCAT
Celera SNP ID:            hCV15905508
SNP Position Genomic:     22271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36666):
ACGGGGAGGGTAGCGGGGGCTGTTGGTCAAGTGGTGGGATTAGCCGGCACCTCAATATGAGTCATGGGTCAGGTCACGCAGAGGGGGTGGCAGCAAAGGA
K
GTTGGGGAGGGAGGTCTTGGATCCCAGGCGAGGGAACATGGCTGGTCTCCCAATGGCACTGGGGAGCCACTGAAGGGGTCATCCTGAGGGAATGGCCTGG
Celera SNP ID:            hCV9149068
SNP Position Genomic:     57684
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36667):
CCTTCCACTCCTGCAACAGTGATTCTAGAATTGGTTGACTGGTATTTTGAAGAAAGTACCAGACAAGCTCATTGGCAGGTTATATCTGTTGGTATCTACC
Y
CTTGACCCATTCCATCTGCTATCTGAGATCAGTCAGGCAAGTCAGAAAGCAGTTAGCACCACCAGAGGCTTTGGATAAGGCACCGTGGGGGTTGAAAGGG
Celera SNP ID:            hCV2066150
SNP Position Genomic:     51031
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36668):
CCTAGACTGACCACTAACCCCGGAAGGGGACAAACATGTCCCCTCCCTGGGCCTCAGTTTCCTCTTACTTACCCTAATAGGATTGGACTGGTGATCTTAG
R
TCCTTCCACTCCTGCAACAGTGATTCTAGAATTGGTTGACTGGTATTTTGAAGAAAGTACCAGACAAGCTCATTGGCAGGTTATATCTGTTGGTATCTAC
Celera SNP ID:            hCV2066151
SNP Position Genomic:     50929
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,6)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36669):
CAGAATGCATCAGTAGCTCATTCCTTTGTATTGCTGAGTGGTATTCTGTTGTGTGCCTATGCTATATATATATACATATATGTATATATATATATACACA
Y
ATATATATATATATATATATTTTAATTTATGTTTTTGAGACAGAGTCTTACTTTGTCTCCCAGGCTGGAGTGCAGTGGGTGCAATCTTGGCTCACTGCAA
Celera SNP ID:            hCV26809558
SNP Position Genomic:     48249
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36670):
CCCAATCTCTTGCTCCAAGGCAGCTTAAATGCAGGTGTATACATTATTTGTGAGTTTTGCTATTACAGGTCGAGTATCTCTTATCTGAAATGCTTGGGAC
Y
AGATGTGTTTTGGATTTTGGATTTTTCCAGATTTTGGAATATTTGCATTATACTTGCTCAGCATCTCTGATCTGAAAATCCAAAATCCAAAGTGCTCCAA
Celera SNP ID:            hCV2066152
SNP Position Genomic:     50190
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36671):
CTCATTCCTTTGTATTGCTGAGTGGTATTCTGTTGTGTGCCTATGCTATATATATATACATATATGTATATATATATATACACACATATATATATATATA
T
ATATTTTAATTTATGTTTTTGAGACAGAGTCTTACTTTGTCTCCCAGGCTGGAGTGCAGTGGGTGCAATCTTGGCTCACTGCAACCTCTGCCTCCCGGGT
Celera SNP ID:            hCV26809559
SNP Position Genomic:     48265
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36672):
GAGCCACCATGCCCACCTAATTTTTGTATTTTTATTAGAGATGGGGTTTCACCATGTTGGCCAGACTGGTCTCAAACTCCTGTCCTCAGGTGATCCACTC
R
CCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGTCTGGCCCAAAGCACTATTTTTAAAAGCTACTTGTATTAATTTTTGTTTTTTCTT
Celera SNP ID:            hCV2066153
SNP Position Genomic:     48516
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36673):
AGATTACTCTAAAATTTATATGGAAAGGCAAAGGAAATAGAATAGCTAAAAGAATTTTGAAGAAGAAAAATAAAGTAGCAGCACATATATCAATGAATCA
R
AATAGAAAATCCAGAAATAGGCCCACCCAAATATGCCCAACCAATTTTTGACAAAAGTGCAAAAGCAATTCAATAGAGGAAAGATAACGTTTTCAAAAAA
Celera SNP ID:            hCV11559928
SNP Position Genomic:     43422
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36674):
AACCCCATCTCTACTAAAAATACAAAATTAGCCGGGCGTGGAGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAACTGCTTGAACC
Y
GGAAGGTGAAGGTTTTGCGGTGAGCCGAGACTGGCCATTGCCCTCCAGCCTGGGCAACAAGAGCCAAACTCCATCTCAAAAAAAAGAAGAAGAGTTTAGA
Celera SNP ID:            hCV29242820
SNP Position Genomic:     46713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36675):
CTCCCGGGTTCAAGTGATTCCCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGAGCCACCATGCCCACCTAATTTTTGTATTTTTATTAGAGA
Y
GGGGTTTCACCATGTTGGCCAGACTGGTCTCAAACTCCTGTCCTCAGGTGATCCACTCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
Celera SNP ID:            hCV2066154
SNP Position Genomic:     48457
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36676):
CGGGCGTGGAGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAACTGCTTGAACCTGGAAGGTGAAGGTTTTGCGGTGAGCCGAGAC
Y
GGCCATTGCCCTCCAGCCTGGGCAACAAGAGCCAAACTCCATCTCAAAAAAAAGAAGAAGAGTTTAGACTCTGGAATCTCTCAGCCCTGGTTTCAGTTCC
Celera SNP ID:            hCV29242821
SNP Position Genomic:     46745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36677):
TTAGGGGAAATGAGGTAAGACCTGGCATCTCTCTGTATTATTTCTTAATTGCATGTGAATCTACAATTATTTCAAAATAAAAAGTATGATTGAAGTAACT
M
TCAGGAAGCTTAGCCTACTGTGGATTAAGACATCAAAATTGCAGCAGGCTTTAACAAAGCTATACTACTACAAGGATAGTTCACACTTGAATTAGCTTGA
Celera SNP ID:            hCV2066155
SNP Position Genomic:     45676
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36678):
AGCTGCAAATTGAGGGAAGAGGAATTAGAGTAGGATGAGGCAATCCCAGCAGTGGCCAAGAAGGAAAGGCCGAGAAGTCCAGCAGTGCTCAGGAGGCACT
S
TCATGCTAGCTGGAGCTGCCCGCCCAGGAGTATTCACAGCCCCACCTTACCCACCTTGTCAGGGTATTGCTGTGGGGGGGGCAGGTGAGTCGAGATAGAA
Celera SNP ID:            hCV2066156
SNP Position Genomic:     38776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,2)      total(G,2|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36679):
AATACACACTATTTTATGTGCTGGTTTTGGGCCTAACGCCTCATGGGCATTCTTAGCCCTGGGAGACCAGTGTATGAGCTGGGATTGCCTCACACTAAGA
R
TAGCAGGAACCCCTAGAAGTCTAGGGCCATTGTGGCTTTGGGGAGCCCAGGCTCCTTGTTTTTTTCTGCTGTGTTATTCTGAAGGCAGCTCAGGATCCCA
Celera SNP ID:            hCV2066157
SNP Position Genomic:     37485
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36680):
CTGAGGTCGGGAGTTTGAGACCAACCTGTCCAACATGGAGAAGCCCCGTCTCTAATAAAAATACAAAATTAGCCGGGCCTGTGGCGTGTGCCTGTAATCC
Y
AGCTACTTGGGAGGCTGAGGCGGGAGAATCGCTTGAACCCGGGAGGAAGAGGTTGCGGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCGACAAG
Celera SNP ID:            hCV2066158
SNP Position Genomic:     37096
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36681):
AGTGTGTTGACCGGTGGGGGCGCGGTGGCTCACACGTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACCTGAGGTCGGGAGTTTGAGACCA
M
CCTGTCCAACATGGAGAAGCCCCGTCTCTAATAAAAATACAAAATTAGCCGGGCCTGTGGCGTGTGCCTGTAATCCTAGCTACTTGGGAGGCTGAGGCGG
Celera SNP ID:            hCV2066159
SNP Position Genomic:     37019
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36682):
GGGACGCCTTTCGCTGGAAAGAGCAAATGTCCTTTCTCTTTGGAGCTCAGAAAACTCAGTTTCTCATTTGCCTATGAAAACAACAGTTCAGTTCCTCAGA
M
AAATGCACACAGACAAACACAATTGAGATTAATTATGGGAGAAAAAGCAATAGATAAGACCCTTTAGAATGCATCTCCGAACTAGAATTAGGATCCTTAA
Celera SNP ID:            hCV15817736
SNP Position Genomic:     17400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36683):
CCGCAAGATCCAGACCCCACAAGATCCAGACCCCGCAAGATCCAGACCCCTCAAGATATAGACCCTGCAAGATCCAGACCTCACAAGATCCAGACCCCAC
R
AGATCCAGACCTCGGCTATCTGGCTTCTCTTTTTTTTGCGACAGAGTCTCAATCTGTCACCCAGGCTGGAGCGCAGTGGTGTGATCTCAGCTCACTGCAA
Celera SNP ID:            hCV3214408
SNP Position Genomic:     71949
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 TFBS


Context             (SEQ ID NO:36684):
ATTTGCCCAAAATCACAGAGCCAGGAAACGAGAGAGCCAAGATCCAGACCCCGCAAGATCCAGACCCCACAAGATCCAGACCCCGCAAGATCCAGACCCC
K
CAAGATATAGACCCTGCAAGATCCAGACCTCACAAGATCCAGACCCCACAAGATCCAGACCTCGGCTATCTGGCTTCTCTTTTTTTTGCGACAGAGTCTC
Celera SNP ID:            hCV3214409
SNP Position Genomic:     71899
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|T,7)   total(G,6|T,7) 
SNP Type:                 TFBS


Context             (SEQ ID NO:36685):
TCATTCCTTTGTATTGCTGAGTGGTATTCTGTTGTGTGCCTATGCTATATATATATACATATATGTATATATATATATACACACATATATATATATATAT
W
TATTTTAATTTATGTTTTTGAGACAGAGTCTTACTTTGTCTCCCAGGCTGGAGTGCAGTGGGTGCAATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTT
Celera SNP ID:            hCV26809560
SNP Position Genomic:     48266
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36686):
ATTCCTTTGTATTGCTGAGTGGTATTCTGTTGTGTGCCTATGCTATATATATATACATATATGTATATATATATATACACACATATATATATATATATAT
W
TTTTAATTTATGTTTTTGAGACAGAGTCTTACTTTGTCTCCCAGGCTGGAGTGCAGTGGGTGCAATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCA
Celera SNP ID:            hCV26809561
SNP Position Genomic:     48268
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,4)   total(A,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36687):
CAGAAAATGGAACTTTATTGGAGTGGGACACTGGATGGCCAGGGTTTAGCAGAGCCTGCCCAACAAAAGTAGCTTCAGAATTGGCTTTATTCTCAGGAAG
S
CTCTTCCTGGACAGTGGCAAACATAGCCATAGCAAATACTGGCTCACTTTCTATCAGCCAGCAACCCTGGTGGAAAGAGGGCCTCTTACTCAGTTGTACC
Celera SNP ID:            hCV27477172
SNP Position Genomic:     45907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36688):
ACATCTCCTTATTGAGGAGAAATCTTTTCTCCTGTTAATGCCACTCCTTGTTCTTGGGTCTGCCCCTGCATTCACACTGAGCGAGTTATTCCCTTCTCCC
M
AGGGGCACTGTGCCACCTCAATACCCACCCACTTGTCTACTCTTACTCCACCCACATGGTTTCTCCTTGTTTATCTCTCATGGTTTCCCCACTATCATCC
Celera SNP ID:            hCV2066160
SNP Position Genomic:     35899
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,7)      total(A,4|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36689):
TGTGTTGAATGGGAGCCACTTTAGTGAGGGAGACAGAGGACTCAGCATCCAGGATGAGGGCAGAGCAGGAGCCGGTACTCTGAGGCAGGAACGCCCTCAC
R
TGGGCAAGGAGTTCTTGGAGTCAGTGGTGGCTGCGACGCAGTGAGCAAAGAGGAGGGTGGCCCAGTGAGCTAGGGGCCTCCAGGGAGGGAGAGGCCAGCC
Celera SNP ID:            hCV2066162
SNP Position Genomic:     31939
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36690):
AGTAGAGACAGGGTTTCACCATGTCAGCCAGGCTGGTCTCGAACTCATGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGC
R
TGAGCCACCACGCCTGGCCAAGGGACTGAGTTTTTATGCACTTTTAATTATTTTGGCTTTAGTACTTTTAGATATGGCTGACTTCAAGGAAAACAAAATG
Celera SNP ID:            hCV2066163
SNP Position Genomic:     31165
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,38)   total(A,1|G,67)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36691):
GTTCAAGGGACTGAGTTTTTTGTGTTTTTTTTGTTTTTTTTTGTTATTTTTGTTTTTGAGACGGAGCCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGC
R
TGATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCCCCAGCCTCCCGAGTAGCTGGGACTGTGGGCGCCCGCCACCACGCCTG
Celera SNP ID:            hCV2066164
SNP Position Genomic:     30946
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,14)   caucasian(A,10|G,24)   total(A,18|G,38)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36692):
CTTAGGAACATTTCGTAGATGTGAAAGTGCAAGTTGCAAAGGTGTGCAGATTTTAGGTTTTGTTCAAATCCCCAAACTGCTTTCCTGAAAGGCTGTCGCT
Y
TCCTGACAGTGCTCAAGAGAACCCGTCTGGGGAGGGTTCTGGGGAATGGGTGTGGCATCCCTGGTGCTGGATTCTTCTGCAGAATGTGGACCTACCTCAG
Celera SNP ID:            hCV29242831
SNP Position Genomic:     50546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36693):
CGAGGTGGGCAGATCATTTGAGGTTAGGAGTTTGAGACCAGCCGGGCCAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGG
Y
GGTGCATGCTTGTAACCCCAGTTACTTGGGAGGCTGAGGCAGGAGGATTGCTTGAACCTGAGAGGTGGAGGTTGCAGTGAGCCAAGATTGCACCCCTGCA
Celera SNP ID:            hCV2066166
SNP Position Genomic:     26683
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36694):
GCCAGGGTGGGAGTCCAGGCGGCGCACCCGCGCGAGGACAAGGGGGCTTTGGCTGGGCGGTGCTGTCTCAACCAATGGGAAGCGTGGCTCTGGCCGAGCC
Y
CCCTCTCTCCCCGCCCTCCGGCCGGCCGTTGGGGAGCGCTGCTCTGGGATTGGCTGCGCCGCCGTCTCGGGCGTTCTCGCGCTCTGCTTACGTGCTGACG
Celera SNP ID:            hCV2066167
SNP Position Genomic:     24770
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:36695):
ACTACTTTCTAGGAGAGGTTCTCGGGAGGGACAGCTTGACTAATACAATGGAGATCCATGAAGATACGTGAGGTCTCTTGCTGCTAGAGAGCGGTGCCAG
Y
GTTGTGAGACAAGGCTTCAAAAACAGCTTCAAGGCTTCCAGAGAGTGGCCTCGCCACATCCTAAGCTCTCCAAGCGTCTGTCAAAATCCTGGGTTTCTAT
Celera SNP ID:            hCV2066168
SNP Position Genomic:     20919
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36696):
AGGGGGTCAACTCCCCAGACGCTCCCACGAGGCCCCTGGTCACCCAGGGACGCCTTTCGCTGGAAAGAGCAAATGTCCTTTCTCTTTGGAGCTCAGAAAA
Y
TCAGTTTCTCATTTGCCTATGAAAACAACAGTTCAGTTCCTCAGACAAATGCACACAGACAAACACAATTGAGATTAATTATGGGAGAAAAAGCAATAGA
Celera SNP ID:            hCV15817740
SNP Position Genomic:     17354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36697):
AGTTCCAATTTCATTTAGAGTCCAATTATTAAAGTTCAGTTGAAGCTGAGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGC
R
GATCATCTGAGGTCAGGAGTTCAAGACCACCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCGGGCACC
Celera SNP ID:            hCV2066169
SNP Position Genomic:     20511
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36698):
ATTTGAATGGCAGGCCGGGCGCCGTGGCTCATGCCTGTGATCCCAGTACTTTGGGAGGCCGAGGCAGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAG
Y
GTGGCCAACATGGTGAACCCCCGTCTCTACTAAAAATACAAAAATTGGCCAGGTGTGGTGATGCAAGCCTGTAGTCCCGGCTACTCAGGAGGCTGAGGCA
Celera SNP ID:            hCV11559437
SNP Position Genomic:     41200
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36699):
ACCTGTGCCACTGATATGTGTTCCTCCTAAGCCCCGTCTTGTTAGATTCAAATGGACTCATGGCTCCTCTCAGCAGAAAGCTGGGTTACTGGTTATTGTT
K
CTGATTCCTGATGGGGACAATAAAAGGCACAGACACACAGACTGGTAAGATAGAGAAGAAGCCAGAATGAACGCCCTGGCCAGCATAGGGAGCGCTCTCA
Celera SNP ID:            hCV9711408
SNP Position Genomic:     36644
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36700):
CCCGGGGAGCCAGCCACGGGGGCGAGATGAAGGAGATTGTCTGGTGAGAGCCACAGAGCCATCTGCCACCGGCCCCGACCCCCGCAGGACGCTGAGGGAC
R
GGACATCTGGAGCCTGGGACCAGCCCTCCCTGTCCCCACCCCAGGGGACACCGAGCCAGTGGGCCCGAGAGCAGGCCGTGGGCATGGCCTGATCTTGGCA
Celera SNP ID:            hCV3214412
SNP Position Genomic:     59864
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36701):
GCTCAGCTGGGCTGTGGCCTCCAGCTGTTCACAGGGATATTGGGGCTTTGGCATTCAAGGGGCTCAAAGGGGAACCCCCTGGGGATAGGTCTTTGTTTTT
Y
TTTTCCTGTAGGGCAGTGGTATTGAACCTTGGTTGTGGGTTAGAATCACCTAGAGAACAGTGAGGGAAAAAGTGTCTGTGCCTCACCTCTGGGTCAGGAG
Celera SNP ID:            hCV9711409
SNP Position Genomic:     37947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36702):
GCCTTGGCAATTCCCCCTCAGGCAATGCCGGCTGTGAACTCCAGGGAGCACCCTCCCAGAGCGTTCCGACCCGCAGTGGCCGCCACCGACCCACACCCCA
Y
GCAGGACATGTCAGAAGGGTCCTCTTCCCCTTCTCCACCGGGGGGGCACATTTGGTTGGCGAGTTTGACGCCCTGCAGCCTGGCTCTGTGGAACAGTTGC
Celera SNP ID:            hCV3214413
SNP Position Genomic:     59655
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36703):
ACAGTCTTGCCCCTAATTTGCTGCCCCGGATCCAACCTTGGAAGGGTCAGAAGTTAAGAATAGGAGGGGAGAGGAGCTAGAAAACAGTGAGAAAGACAAC
Y
TCCACCAGCACCTACTTCCCACAGCCCTCAGGGCTGGGCAGGGGAAAGCTTTACCTCGCATACAAGTTTGGGAGTTTGGGTTCTCAAACCAGGCTGGGCT
Celera SNP ID:            hCV3214414
SNP Position Genomic:     53391
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36704):
TTTTGGGAAAGGGCTGCCATCTTTGTTTTAAACTATAAACTATAGTCTGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGG
Y
GGAACACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCAAAACCCTGTCTCTACTGAAAATACAAAACTTAGCCAGGCGTGGTGGTGGGTGC
Celera SNP ID:            hCV11559439
SNP Position Genomic:     40380
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36705):
GCGTTCTACTGCTATAGAAGAAGGATGAAGGGAAGAGTGGGCATTCAGGACAACTTGCTTTCTCTGCTCGGTGGGTGAGACATTTTTCTTTATTTTCAAG
S
CAGTAGGAACCCAGGGGAGGAATTTCCCATACTATGTTGATATCTTTGTAATATTTGATACCCAACGTAAAATTTCAATAATATAAACAAGTAAAAGAAA
Celera SNP ID:            hCV3214415
SNP Position Genomic:     49830
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36706):
TTCACAAACAGGGTGTGGAGTGGCAGGCAGAGGCCTCTAAATCTCAGGGCAAACATGGTGAATCTATCTCTCCGGAGATAATTTCATACAGAGATTTTAA
R
AAAACATCTTTATATTAAAAACAGATCTCATTTGATCCTTAAGCCAGTCTCATGAATGAAAAGGACAGGTTTTTTTCTTTTGTAAATGAAGCATTTGCAG
Celera SNP ID:            hCV9712068
SNP Position Genomic:     67307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:36707):
GGAGGGAGGAGGTAGAGATGTGTGTGCTTAGCCAGCTGGTCAGTACTTAGATGGTGGGAGGGGGTGCCTCATGAAAAAGTCTGAGCCAACGTGGGCCTGT
R
CCTTCCATAAAACCATAAAAAGCCAGTCTGGGCTCCATTCTGCTGCTCTCTGCAAGGAGCTTTCCATGGAAACTTCTTTTGTGGCCACAGGCCGACTTTC
Celera SNP ID:            hCV3214417
SNP Position Genomic:     31509
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36708):
CTAATCTGGTGACTGGAATGTCTCTCAGGACGATCAAGGTGTCTGCATTGGGTGTGCCTAATGTTAGACCCTTGGCTTTTATTGAAGGTCCCTGTGAAAC
R
AGCCATGTGAGTGTCATCTCTGCATGTATGATACAGTGGTGGTGAGAACACTGTCTACTATATCACTTGATGTTCCTGTGTAATTATTTCTGACTTTTGT
Celera SNP ID:            hCV3214418
SNP Position Genomic:     29497
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36709):
GGGGTGGCCAGAGAATGTCTTAGTAAACATTTTAGTAAAGGACTGTGGATATTGAGGGAAGAGTGTTCTAGGTAGAGGGAACAGTAAGGACAAAGGCCCT
R
AAGCAGGAGCTGGCTTGCTATGTTCCAAAGACAGCAAGAAAGCCACTGTGACCAAAGTGCAGTGAACCAGGTAGGAATGAGGTCAGAGGGACAATGGAGA
Celera SNP ID:            hCV3214419
SNP Position Genomic:     27167
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36710):
GCCTGGGATGTTTGCTTCAGTAGCAGCTGTGTGTGCCATGGGCAAGCCCTTGGCTGGCGAGTGGGCATTTCTCTACCCCTTTACTCTTGGCTGCTAGTCC
W
GTCCTCTTACAAGAGGTGTCACTATGCCATGCACCATTCAGGAAAATTGCTGCCAATTAAGTCATTTATGACCAACTATGTTTAATTTTCACATCGAGTG
Celera SNP ID:            hCV11559940
SNP Position Genomic:     55448
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36711):
GCTCCAGCAGATGTCTGCCACCTCCTACGTCACTGGCTCCACGCTCTCTCCTGGGTCATTTCAGCACATGCACACACACACACACACACACACACACACT
Y
ACTCACTCACTCATACAGACCTACACCACCACACCCTGTGTACATTACCTCCCCACGGCTCTGCTCCTTGTTGCAGAAAAGCACCCCCAGAGGGGGTGCA
Celera SNP ID:            hCV26809572
SNP Position Genomic:     51380
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36712):
TAGAGGCTTTCTCGGACTGCCTGCGCTATGAGATGTACCCCCTGGGCGTGAAGGTCAGCGTGGTGGAGCCCGGCAACTTCATCGCTGCCACCAGCCTTTA
Y
AGCCCTGAGAGCATTCAGGCCATCGCCAAGAAGATGTGGGAGGAGCTGCCTGAGGTCGTGCGCAAGGACTACGGCAAGAAGTACTTTGATGAAAAGATCG
Celera SNP ID:            hCV25996763
SNP Position Genomic:     66740
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,34)   total(C,69|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36713):
GGTTCAAGTCATTAGAAGCCTTCTCTAGATTTTTTTGGTACTGCAGATGGCAAAGGGGGAAGGAGGTATAGGGTAGAAGAAAAGTAAATGAAATAAATAT
W
TTTTTTTTAAGACAGGAAGCAAACACAGAAAGCAAGTGCATGTTTTTGTTGTTGTTGTTGTTGTTTTGTTTGTTTGTTTTAGCTGTGAGAAATTTTGGCC
Celera SNP ID:            hCV2066170
SNP Position Genomic:     17904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36714):
GGGCCAGGCCCATGGGCAGTTGCCAGTATGCCTGAGGCTTTGGCTGGGACTTGAGGCCAGCTCCTGCCTTGACAGGAGTCCTCAGGGTCTGCCTCAGGGT
R
GGAAGGAAGGAGGTAGAAGCAGCTCTTCTCTCCTCCCCAGGACAAAGGCCATGATGGGGTCAAGGAGCTGGACAGCCTAAACAGTGACCGATTGAGAACC
Celera SNP ID:            hCV25999526
SNP Position Genomic:     56860
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(A,7|G,29)   total(A,10|G,60)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(A,144|G,1359)   total(G,1359|A,144)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36715):
TTGAATGACTTGAATTTTTGGCCCTGTGTTTCAGGAATGCAGTTTATTTTGATTGGCATTTTCTACCGAGACTAAAGATGGGATTTTAATTGCTGTCAGT
R
TTTAAACTTTAGCAGGACTTGGTATCTTTTTTACACCCAGGAGTCAAAGCCCTGTAACTAAATGTCACAAGTACTTTAAAACCTCATACAGAGAGACATA
Celera SNP ID:            hCV2066173
SNP Position Genomic:     15228
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36716):
CTTTGACATTAATGATTAATTTATAGAGAAACTGAACTTATTTTATCTCTCAACATTGGCTCTTACAATCTCACATGCCCCTTTCCTGAGAAAGTTGAAT
R
ACTTGAATTTTTGGCCCTGTGTTTCAGGAATGCAGTTTATTTTGATTGGCATTTTCTACCGAGACTAAAGATGGGATTTTAATTGCTGTCAGTGTTTAAA
Celera SNP ID:            hCV2066174
SNP Position Genomic:     15134
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36717):
GAATACTATTAACTAGTCTACAGACCTTATTCCAGTGTTGCCAAGTGGCTGCTGATGGACCTTTTTCTGGTCCAGGATCGAATCCCAAATCCCACATGGC
W
CGGAGGTGTCATGTGTTTTTAGTTTCTTCCTGCCGGGGACAGGTCTTCAGTCTTTTTCGCTCACGACCTTGACACTCTGGCTGGTTATGTTGTACAATGT
Celera SNP ID:            hCV149982
SNP Position Genomic:     34167
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36718):
ATCTATAAAATTTTAATCTTGACCATAAGCTATAACTTCCATAAGCCTTTCATAACCTTTATAACCTTTACTTAGGAGTTGGTTAATATTTCATAAAAAC
M
TTGTTAATTTGACATGGGCTCATATGCTGGTCTTGCATCAGTGTGCCTTTGACATTAATGATTAATTTATAGAGAAACTGAACTTATTTTATCTCTCAAC
Celera SNP ID:            hCV2066175
SNP Position Genomic:     14987
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36719):
GAATCCCAAATCCCACATGGCACGGAGGTGTCATGTGTTTTTAGTTTCTTCCTGCCGGGGACAGGTCTTCAGTCTTTTTCGCTCACGACCTTGACACTCT
S
GCTGGTTATGTTGTACAATGTCTCTCAGTTTGGGTTTGTGTGGCAAGACGCCTGCGGCAGTGAAGCGGTGCTTTTCTCAGCCCGTCGTGCCAGGAGGTAC
Celera SNP ID:            hCV149983
SNP Position Genomic:     34246
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36720):
CCACATGAATGATGCCCAGCTGATTATAAAAAATTCTGTACTCCATGCTGAGTTCCTGTAACTCTAGAAAAAGGAAAAAAAAAACTGTACTCCAAATAGC
Y
ACAGAAACTGGGATTTTAAAAATCCCTTTCTTCAAAGAAAGAACCTCAGAACAATTGGTGGTGTGCTTAACCCAAAGCATTTGGAGTAGGACAGACTTGG
Celera SNP ID:            hCV2066177
SNP Position Genomic:     10523
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36721):
CAGTTCAAGATGATATTTGGGTAGGGACACAGCCAAAACATATCAATATAATCAACCAGAACCTATAACTTTTCCTCATTGAAGACATCAGAAATTGCCA
Y
CTGTATTGTACTAATTGAATGAAATTTCTGTGTAACAAAGCCATTCCAGCTTCTGTTGGATTATCCACATGAATGATGCCCAGCTGATTATAAAAAATTC
Celera SNP ID:            hCV2066178
SNP Position Genomic:     10358
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36722):
TTAGTCTGTTTTCTTGCTGCTGATAAAGGCATACCCAAGACTGAGTAATTTATAAAGAAAAAGAGGTTTAATGGACTCACAGTTCCACATGGCTGGGGAG
K
CCTCACAATCATGGCAGAAGGCAAAAGGCACGTCTTACATGGTGGCAGACAAGAGAGAGGATGAAAGCCAAGCAAAAGGGGTTTCCCCTTGTAAAACCAT
Celera SNP ID:            hCV2066179
SNP Position Genomic:     10018
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,7)   total(G,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36723):
TCAGTTCCTGGGTCGGGGCCACAAGAGCAGATGAGCCAGTTTGTCCACCTGGGTGGTGCCAGCTGATCCATCCAGTGCAGGGTCTGCAAAGTATCCCAAG
Y
GCTGATCTTAGGAGCAGTGTAGGGAGGGTCAGAATCTTGTAGCCTCTAGCTGCATGGCTATAAATTATGGTTTATAATTTGTAATCTGGTGCCTAATTTG
Celera SNP ID:            hCV11559441
SNP Position Genomic:     40133
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36724):
TCTAGTTCCACTAGGGATGTAACTGCCCAATGGCTTCACCTTGCTCACTGCCTAGACAGAACCGGTTTATCAAGACAGAGGACTTGCAGTAGACAAAGAG
Y
AATTCACGCAGAGCCGGCTGTGCAAGAGACCAGAGTTTTATTATTACTCAAATCAGTCTCTCCAAACATTCAGGAATCAAGAGTTTTTAAGGATAATTTG
Celera SNP ID:            hCV11559442
SNP Position Genomic:     39844
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36725):
AAACGCAGTCTGCTGGCACTTTGCACTTCAACTCCCCAGCTTCCAGAACTGTAAGGAATATAAGTCTGTTGTTGGTAAGCCACCCGGTCTATGATATTTT
K
TTATAGCAGCCCAAACAGACTAAGACAGGTGACAAATAAACATGAAAAGATGTTCAACATCATTAGCCATTAGGGAAATGCAGATTAAAACCACAGCGAA
Celera SNP ID:            hCV16117875
SNP Position Genomic:     44792
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,9)      total(G,9|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36726):
GCAGTGTTGGGAGTGACCTGATTTCCACAGACTGTCTGTGTTCAACCTCACAGCCGAATGTTTCTCCAGTTCCAAAGTCAACAACCAGAACGGTAGAAGG
W
GGGGAAAGGTTGAAGGTGGGGCTGAGAATGGCTTTGTCTGACCCCTTAACCCAGTCCCAACTCCTCAGTTGGCCCTTTCTCCTGGGAGTCTCTTGCTACT
Celera SNP ID:            hCV3214421
SNP Position Genomic:     19913
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,11)      total(A,5|T,11) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36727):
CAGATTTTAAGAATGTTAGCACAGGTCTTTGAATAAATTTTGCTTCTAAGAGAAGTTACTATTTATTCCTAATTAGAGGGGAGGAAAGTCTTTGAAGACT
Y
ACCTCTACTTTACTTTTCACACCTCCTTGAAGGCAGGGACTAAGGACTGTTTCCCTCCCAAAACTAACGTGCTAATTTGCAAACAGTACCTCCCTGGGTT
Celera SNP ID:            hCV3214422
SNP Position Genomic:     19608
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36728):
AAATAGCTTAAAAGACGTTTTCTTGTATCTGAAAAACAAAACAAAGGATCAGCAACATTTTAAGCAAAAAGTTTAAAAGATTACTTTAGTCTTTTATTAG
W
TCAGCTCACGCAGTTAGCTTTTGTTCTGACATTCATGAACATTTCAGTTCTCCATGAGAGTCCTGAAAGTTTTTTTCTCTATTCTAATGTTCCAATCTCC
Celera SNP ID:            hCV3214424
SNP Position Genomic:     13809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,5)      total(A,4|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36729):
CCACCCGCCTTGGCCTCCCAAAGTGCTAGGTTTACAGGCATGAGCCACTGTGCCTGGCCATAACCACTTCTTAAAACCCTTTTTATTTTGAAATAACTTT
R
GACTTATACAAAAGTTGCAAAAATCGTTGGAAAGGGTTTCTGGATCCCCTTCAGCTAACTTCCCTAAATGTTAACATCTTACAAAACCATACTGCAATGA
Celera SNP ID:            hCV11559449
SNP Position Genomic:     33940
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36730):
CCTGTTACAAATGAAAACAGATTCTTATTGCACTTATGCAAATAACTGTATTGTCATAAGAATACTCACACATAGTTCCCAAATTTTGGAGAAATCAGGT
W
GACAGAAACAAATATGGTCTAAATTTTGTTCATAGAAGTATACTTCACTCAATTGTTAAAAGCTGTAAATAGCTTAAAAGACGTTTTCTTGTATCTGAAA
Celera SNP ID:            hCV3214425
SNP Position Genomic:     13642
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,5)   total(A,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36731):
TTTTAACACTAACTAGAGGGAATGACTTCTTTGCATAGTGAGTGACTTGGGCCTTCACAAACAGGGTGTGGAGTGGCAGGCAGAGGCCTCTAAATCTCAG
R
GCAAACATGGTGAATCTATCTCTCCGGAGATAATTTCATACAGAGATTTTAAGAAAACATCTTTATATTAAAAACAGATCTCATTTGATCCTTAAGCCAG
Celera SNP ID:            hCV9712078
SNP Position Genomic:     67254
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:36732):
TTCTTTACTTATGACACATCAGGAACCCTTTACAATGGCTGTGTAGACAAAGGTATCACAGCAGTTTATCCAATGGGCTTTTATTGCCTCCATAAGTCAA
K
TTTGAATCCTTAAAGGAAAGCACACCATTCCAGTCAAAACTTTAGTAAAATAACCAGTTTCTCCAATTGTGTCCTGTTACAAATGAAAACAGATTCTTAT
Celera SNP ID:            hCV3214426
SNP Position Genomic:     13469
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36733):
AAGCTTCCAGCAACCTTTAGTCAGCCTCAAGAAGTCTCCGGCTAGGAGGCAATGCTAAACCAGGACAACCTAGAGATACCCTGGCTGGCCAGGGCTTCCT
R
AAAAAGACGTGTTGCTGGGTGGTTGCGTTGCCTTAAGAACACACCCATTACCCAGTGAATCTGCCGTGAGTCAGAGAGACGCCCCTGAAGACACATTACC
Celera SNP ID:            hCV29194419
SNP Position Genomic:     786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:36734):
AGAATTCTCAACATTCAACGGGGTAGAAGAATGAACGATTCAATAGAATATGGGCAAAAGACATGAAGAGGCATTTTACCAAACATAGGGTGCTATGGTC
Y
GAATGTTTGCATTCTCCTCAAATTCCTGTGTTGAAATCCTAACCCCCAAGGTATTGGTATTAGGAGGCAGGGGCCCTGGGAAGTGATTAGGTCATAAAGG
Celera SNP ID:            hCV9149234
SNP Position Genomic:     44489
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36735):
AAAATCATGGTAGGACTGGTTTGCTTTACTATACTTGGCCTAATTATTTGTATACAATGCAGCCAGAGTAATTATTTTTTTACATAGGCTTTTAAATTGG
Y
TTTGATGGAACTTTGTTCCATAGAAGGAATCTCAGATAAGACATTTTTTTAAAGCTGAGCCCAGCTATGGATTTGTGCCATCAGGTACCTATGAGTTGAG
Celera SNP ID:            hCV3214427
SNP Position Genomic:     13205
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36736):
GCAGAGTCTGGGTTACAACCCCTGGTTTCCTGATTCCGAGTCCAAGTGAAATACTTTTGCCCCTGCAGTAGACCCTGCTACAGAGGATAAAAAGGCACGT
Y
ATAGGCTAGGAGAAAAATTTTGCCTACCACATATGTAACCAAGGACTAGCAGCTAGGACATCTGAAGAATTCTCAACATTCAACGGGGTAGAAGAATGAA
Celera SNP ID:            hCV9149235
SNP Position Genomic:     44323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36737):
GAGGGGGCTTCCAGGTCACGGGTAGATGAGAGACAAACAATTGCACTCTTTTGAGTTTCTGATTAGCCTTTCCAAAGGAGGCAATTAGATATGCATTTTT
S
TCAGTGAGCAGAGGGATGACTTTGAACAGAACGGGAGGCAGGTTGGCCCTAAGCAGTTCCCAGCTTGACTCTTCCCTTAGCTTAGTGATTTTGGGACCCC
Celera SNP ID:            hCV3214428
SNP Position Genomic:     12372
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36738):
TGGCAGAGTCTGGGTTACAACCCCTGGTTTCCTGATTCCGAGTCCAAGTGAAATACTTTTGCCCCTGCAGTAGACCCTGCTACAGAGGATAAAAAGGCAC
R
TCATAGGCTAGGAGAAAAATTTTGCCTACCACATATGTAACCAAGGACTAGCAGCTAGGACATCTGAAGAATTCTCAACATTCAACGGGGTAGAAGAATG
Celera SNP ID:            hCV9149236
SNP Position Genomic:     44321
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36739):
ACCTCAGAACAATTGGTGGTGTGCTTAACCCAAAGCATTTGGAGTAGGACAGACTTGGGTGGGATCTGTCTTTGCCACTTCCTGGTTGTATTGTTGTGGG
M
AAGTTATTTGAACCTGCTAACTGTCAATGTGTTCAGTTGCAAATGGGAATAATCTTAGGCTACTTTTAGAATTGTTGCAAAAGTAAGTGAAATAATGCAT
Celera SNP ID:            hCV3214429
SNP Position Genomic:     10666
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,7)      total(A,3|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36740):
CTTTATCCCGATTGGCCGTCGGACTTATGCCAGTGCGGCGGAGCCGGTGAGTGGAAGCCCAGCTACCCGGGAGCCAGTTGGATGGTCAGAACCCTTTCTT
Y
TGGGCCCCTAGGCCCTGAGCTACCCTCAGAGTGGGGCCTTAGTGTTTCCAGGACACTGGGAGCCACTTTCTCACTTAACCCTCCCCCAAAGCCCCTCATC
Celera SNP ID:            hCV16143176
SNP Position Genomic:     46250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36741):
CCCCACTCTACCAGTACCAATTTACTGTATTAGTCTGTTTTCTTGCTGCTGATAAAGGCATACCCAAGACTGAGTAATTTATAAAGAAAAAGAGGTTTAA
Y
GGACTCACAGTTCCACATGGCTGGGGAGGCCTCACAATCATGGCAGAAGGCAAAAGGCACGTCTTACATGGTGGCAGACAAGAGAGAGGATGAAAGCCAA
Celera SNP ID:            hCV2066180
SNP Position Genomic:     9989
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36742):
AGGGCAGGGGCAAAATGCTGCCAGTCTCTTTGCTAAAACATAACAAGAGTCACCTTTACTCCAGTTCCCAAGTGCCTCATCTCCATCTAAGACCACCTCA
R
CCTGGATTTCATTGTCCATATCATTGTCAGAATTTTGGCCAAAGCCATTTAACAAGTCTCTAGGAAGTTCCAAACTTTTTCACATTTTTCCTGTCTTCTT
Celera SNP ID:            hCV2066182
SNP Position Genomic:     9704
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36743):
TCATTACTTATGCAAATTTCTGCAGCCAGCTTGAATTTCTCCTCAGAAAATGCGTTTTTCTTTTGTATTGCGTCAGGCTGCAAATTTTCCAAACTTTTAT
K
TTCTGTTTCCCTTTTAAAACTGAATGCTTTTAACAGCACCCAAGTCACACTTTGAATGCTTTGCTACTTAGAAATTTCTTCTGCCAGATATCCTAAACCA
Celera SNP ID:            hCV2066183
SNP Position Genomic:     9471
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,10)   total(G,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36744):
GTGATGGGAGGGGGCTGCCACAAAGGTCTTTGACATACCCTGGAGACATTTTCTCTATCATCTTGGCAATCTGGCTCTTCATTACTTATGCAAATTTCTG
M
AGCCAGCTTGAATTTCTCCTCAGAAAATGCGTTTTTCTTTTGTATTGCGTCAGGCTGCAAATTTTCCAAACTTTTATGTTCTGTTTCCCTTTTAAAACTG
Celera SNP ID:            hCV2066184
SNP Position Genomic:     9393
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,10)   total(A,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36745):
GGCTAGAGCAGCTGGGACGTAGGGTGCCAAGTCCCTAAGATGCACACAGCAGGGGGCCCCTGGGCCCAGGCCACGCAAACATTTTCTCCTTCTAGGCCTA
Y
AGGCCTGTGATGGGAGGGGGCTGCCACAAAGGTCTTTGACATACCCTGGAGACATTTTCTCTATCATCTTGGCAATCTGGCTCTTCATTACTTATGCAAA
Celera SNP ID:            hCV2066185
SNP Position Genomic:     9286
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36746):
AATTTTTGTAGAAACAAGGTCTTGCTGTTTGCCTAGGCTGGTCTTGAACTCCTAGGGTCAAGTGATCCTCCCATCTTGTTCTCCCAAAGTGTTGAGATTA
Y
AGGCATGAACTACTATGCTTGGCCATCTTTCAAAGTTTATATGTGTATTCATCCATTTCCTTATTGCTGATAAAGGCATACCCAAGAATGAGTAATTTAT
Celera SNP ID:            hCV2066186
SNP Position Genomic:     7948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36747):
CTAAATGGGTCCTGTTAAGAATTCCTTCATTATTTTGTCATGCTTTAAGGCCCAGGAAAGGCCTAGGCAAAACTCTTGGTGGGCTTTTGTTACATTCAAG
S
CTTTGTATAGGGCACTGATGCTATCAGCTTTTAATATTTAACCTAACCACTCAGTCAGTGCTGAAACAGTTGTTATGGAGGCCTACCTGTTCAGCCATTA
Celera SNP ID:            hCV2066187
SNP Position Genomic:     7706
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36748):
TCACTGAGAGCGGTCAGCAGAAGAAAATTTGAGCCATGGGTAAGGCCTGGTAGAAAGGGAGGAGGTTGGGGAGGCGTGAATAGGCCTTTGGAAAGAGGTG
M
TGTTAACCCAAAACAGAGAGGCAGCAGCTTTGCAATTAGATTTTCTTTTTGAAATAGCAGGCTCTGTCCCTGGTAGCAATAGGGATAAATAAAAAGTAAT
Celera SNP ID:            hCV2066189
SNP Position Genomic:     6706
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36749):
GTGGCTGAGGGTCTGTCTAGTCTGTCCTTGTACTCACGGCTTCCTTTTCTCTTGCAGACGCCCACTATTGCTTGGTTCTACTTCCTTTATCCCGATTGGC
Y
GTCGGACTTATGCCAGTGCGGCGGAGCCGGTGAGTGGAAGCCCAGCTACCCGGGAGCCAGTTGGATGGTCAGAACCCTTTCTTCTGGGCCCCTAGGCCCT
Celera SNP ID:            hCV25997213
SNP Position Genomic:     46166
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,32)   total(C,67|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:36750):
TGATCTGGGCCAACCTGCTCACATTATGAATGGGTGATGACTTGCCCAGGGTTGCCCAGTGTGTTTGGTGGCACAGCTAGAGCCAGAACCCAGGCTTCCA
R
GCACCCTGGCTCCTGACTCTTTCCATTGTGAAGCTGCAGCTTGAGAGAGGAACCAGAGTGGACTACCTGGTGGTACCAGGACTGGAGCTGGGTGGAACAG
Celera SNP ID:            hCV11559450
SNP Position Genomic:     33064
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36751):
TAGAGGAATAGGACTTACCGAGTCAGAATCCCTGAGGGGTTAGGTCCCCGAGTCTCCCAGTGGTTGGCGGGTTTGAGGATCACTGATCTGGGCCAACCTG
Y
TCACATTATGAATGGGTGATGACTTGCCCAGGGTTGCCCAGTGTGTTTGGTGGCACAGCTAGAGCCAGAACCCAGGCTTCCAGGCACCCTGGCTCCTGAC
Celera SNP ID:            hCV11559451
SNP Position Genomic:     32981
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36752):
TTTGTATCAGTCAGGTGTGGTTAGTAAAATCTGGCATATTCATTCTATGGGTTATTTATATCGTAGTTTAAAAAATGAGATCATTGTGGTATTAGGGAAC
R
ATAGTAAAAATCAAGATTAGAAATTTGGAAAACCAACAAAACACCCAAACCATGTGGGTGGCCAAATGTGAGCAAACCACTTTAGAAGTCATTGACTTGG
Celera SNP ID:            hCV15913341
SNP Position Genomic:     65075
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36753):
AGGGGAGGAGCCTCCCAGGCAGTACCTTATTACCAGGAACAGTATGACAGACTACAGCCAGGTAGGCAAAGGAGAGGCTGGAACCCATTTACCAGCCCGC
M
TTCCTTCCCTTAGGCCTGGAGGAATCACTATTAACAGAACAGGAGGGCAACGCATGCCCGTGCTGATCAGCGGTCAATAATGCTGAAGAGTCGTGGTGCC
Celera SNP ID:            hCV11559455
SNP Position Genomic:     32456
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36754):
AACTCACAGACATTTTAAGCTTAAAACAAACAGTTACAAAGCTGTTGAACTTTGCCTGTGCAAGGACAAACACAAAAACATCCCAAGGCCCACCCCCCGC
Y
GACCCCCACTGTACTTGTCACACATATGTGAGAATTTCCATTCTCAGCTAAAGGCAAGCATTGAAAGAATACACAGAAAGCCTGGAAAAGGTTTCCAGGG
Celera SNP ID:            hCV3214430
SNP Position Genomic:     6370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:36755):
GACCGGTGTTAAAAAGGTTTCTTGGGCTGCTGTGCTGAGAATGGGGGTGTGGCAAATAGGGGCAGGAGTACAAGCGAGAGTTTACTGTAGTTCTGGAAAG
R
TAACACCAGAGAGGTTTCTGCCTGCTTTCCTTTCCTGAGGATTAAACAGATTAAACGCCTCCACCTGCTTCCAGCAGAGTGCATGGCAGTGGTTGCTCAG
Celera SNP ID:            hCV11559456
SNP Position Genomic:     32187
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,9)   total(G,9|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36756):
AGAAGCTAATCAGCAACTCAAAAGAATGCAACCATTTGTCTCTTATCTACCTATGACCTGGAAGCCCCCTCCCTGCTTCAAGTTATTCTGCCTTTCCGGA
S
GGAACCAATGTTCATCTTACATATGTTGATTGATGTTTCATGTCTCCCTAAAATGTATAAAAGCAAGCTGTGCTCCAACCACCTTGGGCACACGTCGTCA
Celera SNP ID:            hCV3214431
SNP Position Genomic:     5243
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,7)   total(G,7|C,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:36757):
ATAGCTTACAGGTGAGGTTGAAAGGGACAGTAAGATAAAGAAGTGGGTTTATCAATAAGCCAGTTGCACACGCACCAACACAGCGGAACTAAAAGCTTGT
Y
CCTGAGCAGCCAGACAGAGGTGGACAGAGACTCCAGAGACCTGCAGAGGGAGCACGGAGACCAGCAGAGGGAGCACACAGACCTGCAGAGGGAGCACGGA
Celera SNP ID:            hCV2951118
SNP Position Genomic:     53719
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,10)      total(C,10|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36758):
CATTGCAACCTCTGCCTCCTGGGCTCAGTTGATCTTCCTGCCTCAGCCTTCCAAGTAGCTGGGACTTAAAGGCGTGAGCCACCACACCTGACTAATTTTC
R
TATTTTTTGTAGAGATGGGGTTTCGCCATGTTGCCCGGGCTGTTCTCGAACTCCTGAGCTCAAGCAATCTGCCCACCTCAGCCTCCCAAAGCGCTGGGAT
Celera SNP ID:            hCV9149246
SNP Position Genomic:     43794
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Gene Number:                 160
Celera Gene:                 hCG22332 - 83000099478471
Gene Symbol:                 SERPINA6
Protein Name:                serine (or cysteine) proteinase inhibitor, clade A (alpha-1 antiproteinase, antitrypsin), member 6;CBG
Celera Genomic Axis:         GA_x5YUV32W0QP(41572896..41604008)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12320):
AAATCAAATCCAGATGTATAACGAACCTAAAAGTGAAAAATAAAGCAATAAAGCTTTTCAAAGAAAACATAAGAGAAAGTTTCATCACATTTGGGTCAGC
AAAGATTTATCAAACAGAACATAAGCAGCATTAACTGTAAAAGAATAAACAGATGATTTGGACCTCATTAAAATAATGAACCATGTTTATCAAAAGATTC
CATTAAGAGAGTGAAAAGATAAGTCACAAACTTATATTGCAATTTATTGATCTGGCAAATGATTGTTGAACTTACCAATTGACAAGAAAAAGACAATATG
ACAGAAACAGGCACTTCTCTTCAATCTAACTTAAACAGTTACTTCTCAACAGATGATATCCAAATGGTAAAAAACTTAAAAGGTAATCAGTTTCATTAGT
CATCAGAGAAATGAGGTATAAAACTATTATGTGAAACCATTACACACCCACCAGAATGGATAAAATGAAAAAGATGGACAACACCAACGATTTGCAAGGA
TGTGGAGCAATTGTGCCTCTCATACACCATTGTTTGGAAATACAAATTGGTTCAATTACTTTGGAAAATTGTCTGACAGTCTCTACTAAAGCTAAATATA
TGACCCAGCAATTTCTTTTTAATTATCTGCTGCTATGTAATAACTCTTCCAAAATTTAATGGATTAAAAGAACAATCTTGGCTGGGCAAGGTGGCGCACA
CCTATAAATCTCAGCACTTTGGGAGGCCAACACGTGAGGATCACTTGAGGCCAGTAGTTCAAGACCTGCCTGGGCAACATAGTGAGACGCCATCTCCACA
AAGAAAAGCAAAGAAAAGAACAACAATTCCATTATTACTCACAGTTTTCAGGTTAGGAATTCAGGCAGGGCATGCCTGAGTGATTTTTTCTGCTCCACAC
AGCATCAACTGGGATCACTCAGAAGTATTCACTAGGTGGCTGGGCTGGGCTGGACTGATCCAAGACAGCTGCACTCATGTGTGGCACAATGGTGGGGATA
GCTAGGAGGCAGGACTTAGCTGGTTCTTTATCTCTCCACATACTGTCTCAGGGTTTTTCCACATAGTCTCTCTAGCAGAGTGCTTGTACATCGTACAAGG
TGACTCAGGGCTCCAAGAGCCCAAGACAGAAGCTGGGAGATTACTTATGAACTAGCCTTGAAAATTCCAGCACATCACTTCTACGTTCTATTAGTCAAGA
AAGCCAGTAAAACAAGCCAAGATTCACAAGAAGGGAGAAATAGACTCTATCTCTTGATGATGGTGCAGCATACTCACAGAGGGAAAGAAGGAAGGACGGC
AGCCATGTCGGAGAAAAAACACTGCAGTCTACCCTATGGCCTCAACAATTCATTTTCCCTCACACATGAAAAATACACCCACCTCCCCTATGACTCCCAA
AGTCTCATCCAACTGCAACACCTCCTTGAAATCCAGATACCYTCACTTAAATCAGTCACGGTACAGAGGAGCRTCCTTAAACGTCCTTCCTGAAGTGTGT
AGTTTCTCTCAATCTGAAGAAGATTGAGAGAAGATTGAAGATTGAAGAGAGAAGAGAGAAGATTGAGAGAAGAAGATGCGAAGGGAAGAGACAAGTTCTC
TCCTCCCACTTCTCCACACACAACATAAAATTGTGAGACACACATAATTTAAAACAATTGGCACTCTCAATCTGCTCCTGGGGATAATTCACCATGGCCC
CTTGCTGTGTCTTTTGAGATCTTGATTCTGCCTGGGTCACGCTTCCTTTTCCATAAAAATACCTCATGTTTGAGGCTCAGCCTCTGTATCCTGTTTCCTG
CCTGTAGAAGGTTGAAAGTTCAAAGGCCTTTCATCATTTTGCACTGTCTTGCCCCTTTCAGACAAAGCTAATTTCTTAATTGTGAATTTTATATGAATTA
ATTTATAATCCACTCCACTATAATAAAGGCCACAACCACCAATCTTTTCAAGATAAGCTTTTCTATATCTTTGGCTATCTACAAACCTCGTATGGAACAT
TGACCGTAAAATAGCGTTAGAGGGCCTTATATCTGATCCAATGGTCTGCTAAGGCAACACCTTAGAACTTTCTGAGGTATTTATAAAGGCTTTTACAGTT
ACACCCTAGATATATGTTTGTTTTGAAATTCTTTCTTAATTGGGTAATCCTGGAAAGACTAAGAAGGAGAAATTATATTATTTTTAACCCAATAAGCGCT
GGCTCTTTTATATTTAACAAAAATGTTAAGCTTATCTATATCCTCTCACATTTTACTATAAGTATCGAGAAGTCAGACAATAACTTCAGAGACCTTCTTA
GCTTCAGAGAAATATCACCAGCTATACCACCACTTCATTTGCTATATATTCAATTTTCATGTTATCACAGGTGACAATGTTGCTAAACTTTCTACCACTA
CATGTCAAGGATTCTCTTTCCTCTAGCTATAGCCTGTTTCTCACTTTCCTTTAAGCCCTAATCAACGGCCTCCTTGTGGGTCATCACGTTTCCACTCACA
ATCTTTATAAGGACTTTCCGACTCTGATTTGATCCCAAAGTCATTGCCACATGTTTGGCTTTCATATGCAGCTTTCCACTTCCAGGTGCCAAAATGTGTT
CTAGGTACTATGGCTGCCTCATAAATTATCCAAAAATTTACCAGCTTGAGACAATCATTTTTTATGCTTTTGGGTTCTTGGGACAGGAATTCAGAAAAGA
TACAGTGGGGATGGCTTGTCTCTATTTGATGATGGCTAGGAACTTGGGTTTAGTGTTTTTAGCAAAGTATTAGTTTATCAAACTAAACTAAACTTGGTTT
TAGTGTTTTTAGTAAAGAGAAACCATCATAAGATCAAAAATATAATGAATATATTTTAACTCAATGGAATAAAACTCAATCTTTTCAATGTAAGTCAGTA
AAATTCACAAAAAAAAAAACAAAAATAAGATATAGCAAATGGGAAATATAAAATAAGATAATATGTCAATCCTAAGACAATTAAAATAAATGTAAAAAGG
TTAATTTTGCCAATTAACAGACAAAGACCCTCCTTTGGGGATAAAAAGCTAAATCTAAAAAGATGTTTTGTACATGAGACGCTCTTAAAAAAAGAAGGCA
CAGGCCGGGCGCGGTAGCTCACGCCTGTAATCCCAGCACTTTAGGAGGCCGAGGCAGGTGGATCATTAGGTCAGGAGATTGAGACCATGCTGGCTGACAA
GGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGTGGGCACCTGTAGTCCCAGCTACTCGGGGGGCTGAGGCAGGAGAATGGC
GTGAACCCAGGAGGTGGAGCCTGCAGTGAGCTGAGCACGTGCCACTGCACTCCAGCCTGGGCGACAGAATGAGACTCTATCTCAAAAAAAAAAAAAAAAA
AAAAAGAAGGCACAGAGACTTTGGAAATAAAAGGATGAAAAATATCAGGTAAGAGTGAACCAAAAGAAAGGAAAGCAATCATAACACTGTATAAAATTAA
ATTTAGGACAAAAGTATGCTATACAAAAAAAAGATACAAGAAAAACAAATACAAGAGGACATAATTATCGAAAGTATATGTGCTTTAATATACAGTCTTG
AAGTAAGTCAAGCAACAACTGACCAAGAGAAGTAAGTGAACAATTGCTATTGGTGATTTTAACATTCCCCAATGAGAAACTGAAAGCTTAAATAAATAAT
CAACATAAATATGAAGATTTAAATAAAATAAGCTCAAGTTATTACATATATACATATATGAATGTGTATATATACATATCAAACAGATATCCATTATTTT
TTAAAGAAAACATGAAATGTTTATTAAAATAGGCCATATATGAGCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCG
GATCATGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAGCCCTGTCTCTACTAAAAATAAAAAATATTAGCTGGGCATGGTGGCTCACGCCT
GCAGTCCCAACTACTCGGGAGGCTGAGGCAGGAGAATCCCTTGAACCCAGGAGACGGAGGTTGCAGTGAGCCGAGATCACGCCACCGTACTCCAGACTGG
ATGACAAAGGAAGACTCCGTCTCGAAAAAAAAAAAAAAAAAAAGACCATATATGGCTATTACAAACCTCAAAACATTCCAAATGTTCAATATCATAATGG
ACAATATTCTTTGACCATAGTGAAATAAAATTGGAAGTGAATAACAAGAGAATAGCCTAAAATTCTAAATAAACTCAGTGACATATTACTAAACTACACT
CTGGTTTTAAAGGAAACCAGAAAAGAAATTTTAAAATACTTAGAAAAAAATTACAATGAAAATAGTAATTATCAAAAATGCGTGGGACATAGCTCACTCA
GTATTTAGATGAAAACTTGTAACCTTAAATACATTTATGTGGAGACTGGAAATATTAAAATGTAAGAAAGCTAAGCATTTATCTCAAGAAAATAGAAAAA
AGCACAACAGACCAAAACCCAGAGAATTTAAAGGGGTGATTAAAAAATAAAGATATAAACAGAAATCAATGAAATATCAATTTTTTAAAAAACCAGTAAC
AAAACTAAAAGGTGGATCTTTGGAAAGATTAATTAGCTATATAGATCTCTGTAACAGGACTTATCAAAGGGAGAAAAGACATAAACAAAATACAGAACAA
AAAAAGAAAAAAGAATTACTGATATAAAATAATAATGTAAAAATAATAATGGAGAGGCCTAATGAATAACTGTAGTATTTAATTTGAAAATCTAGATGAA
ATAGATAAATTCCTAGATATAAAGTTCAAACTTGCCTTATAGGATAGGAAACTTGAAAAGACCAATAAACATCTACAAAACTAAGGTGTCTCCAAAACTG
CAGACCCATTTGTAGGCTCTACTCTCCTCTTTTCCCCTGGGAAGAGATTCCCTCATCTCTGGATGGAAGCAATGATGCTGTCAACCCAACAGAGAGCAAA
GAACCCTAGCGAGGCATTCACAATGCCTCATCCTTCTCCACACTGTGATCAATCAGTCCTAAGGGGGGCAACCACGCCATAGACTTTTGGGGGGAACTGT
TATGAACATTGAGAAAAATGAGAATTTCTCTCCTTCTGATATCAACTAACCAGTTAGAACTAAATAACCCAGAGCTACTGTGGCCACATTTGTCCCCAAT
GCAGACAGAATAAAGTAGAAGAAAGCAGAGCTAGGAAGGAATAAAAAAAAAAAAAAGACAGAGAGAGAGAGAGAAGGAGAGATCTGATGCCTGATTTAGA
ACTCCGTAGATCCATGCCTGAAGTCCTTTCCACCCTTGGACCTCTCGTTCATTCCTTTTTGCTTTAAAGCAGTTCAAATTTGATGTCTGTCACCTGTAAT
CCAAAGAAAACTGATGAAAAATAAAATGTGGGGAAAGGGGAAGGTGCTAGACTTTAGAATTGAATGGCCTTGGATTTGAATCTCAAGGGCGTTTAACTTA
ACTTCCATGCAGCTCAGTTTCCTATCTAAAGAGGAGTGACAATGGTACCCACTTCACAGAGTCATTGTGAAGATTTCGTGAGATAATCCAGAGGAAGCGC
TTGGCAGATATTATTCCATGTCTGTCTCTCCCACCAGACTAAGACCACTGGAAGGCAGGACCTTGCCCAAGTCATCCCCAATTGGAGCTAAACACCTATT
TTTCTTTTTACAAGTATCTGCACCTTGGTGCTAATTAAGGGCACCTAAGACATCTCTGCCAACTGACACAGGGCAACCACATTGATGCAACTCCAGCCAC
ATTTTGGTATTAAAAAAAGACTTCATAGAATTGAACGCAGRGCAAAGTTAATTTGCAGCATTTCTGTGTTTACTCAGCTMTCCTGACAAAGCCTCCCATT
GGYTAATGACTCGGGGGAGAGGACTACCAAGCGGTGAAGGCCACTGGCCCCTCTAACCATTAACCACCCAGGAAGCTGGCAAACAAAATTTAACAGGCAG
CAYCCACCGCAGGCTTACTGTACACATGCTAGGGTCCAGGACAGCAGGACCAAGCCAGCAGAAACAGCCTGAGCCCACCGCAGACTGTGAGTAACACCTG
AGAACCCTCTGTCCCTCCCCCTGCCCAGCCTCCAGAGCAAAGCCATGGCTGCAGCTCGCTTGTTTGGTTTGTTGAGATGCTTTGTTTTTTTAAASGGCAC
ATTGAACATTAGGGCAGCCAGCAGTGTTATGAGGCAATCTGGTTAGGATTTTCCAGACCCCGGAGTCTGTGAGTCATCCACAGGGGTTCCGATGTCCCCT
GGGTTCCTGCCATGCAGGGGGCTGACACAGAGGGCTGTAGCTAAGAACCATTCTCGTCCACTGCCATGATTGATGCTCCTAAGCCCAGCCAGATAGCCAC
AACAGCCACAACAGCCACAGAGTCGCAGCCTGCAAGCTACAATGCATCTGCTCCAGTCGGCACCACCGATGAAGGATGCTGGCCGCGGGTCAGGGCCKGG
GAGGGCTCAGCTGGCCCAGTGCAGGGGTATTCTTCTGAGTCACGCAGACCTGTCTCCACCATGGCTCCTCACYCAGTGACCTGGGGCAGAGATAATGCAC
AGAGAACAGAACTGTCTGCACTGTACCACATGTCATGAGGTTTCACTACAGAAGGTCAAGAACTGTGCCTGGCTCATAGGGCATTTGTGAAAACAGAGAA
CACAGTGAATATTTACTAAGTGAGTCTCTTCAGAGATGAGGAACAAAGAGGGCATACTTGACATGAAATGCATGAATAATATTGATACTCTGCATTTTTA
TATGGCTGGGTACTTTTTTGTTTGTTTGTTTGTTTGTTTTTTAAGATGGAATTTCACTCTTGTTGCCCAAGCTGGAGTGCAATGGTGCGATCTCGGCTCA
CTGCAACCTCTGCCTCCTGGGTTCAAGCTATTCTCCAGCCTCAGCCTCCCGAGTAGCTGGAATTACAGGCACACRCCATCACACCCAGCTAATGTTTTTG
TATTTTTAGTAGAAATGGGTTTCGCCATGTTAGCAAGGCTAGTCTCGAACTCCTGACCTCAGATGATCTGCCCACCTCAGCTTCCAAAAGTGCTGGGATT
ACAGGCATGAGCCACCACACCTGACCATGGCTGGGTACTCTTAAGAGCTGCTTTACTCATCATTTTGCTCTCTGTAGAGATAGGCAGAATGGCATGGCAC
AAGCTCCGATGTCAGACATCTAGGCTTAGAATTCCAGCTCAGGGGGAGTTACTCTGTCTCCCTGGATCTCAGTTTTCTCATCTGTAAAATGGGCCCCAGG
ATGACCCATTAAGTGAGGTCACATAAGCCAAGCACTGATAACAGCCACRTCTGGTATTCACAACAATATTGTGGGGTGGRTGGAGTTTTCACCCTCATCT
TAGAGAATTAACGCAGGAGAAGGTGAGACATGCAATCTCCCCAGAGCTGGCAGGGGAGCCCATCCTACCATTGGCATCATACCGCACAGGGCCTGTGCCT
GAGAGGAGATCCCAGATAGGTATGGCAGTGACCAAAGCTAAGCAAAGATTTCACTGCCTGTCATGGGGCAAGGCCATAGAGAAGCACAGATACAAGGCTT
CCTGGAGGCGGTGACCTGGGACCTGAGTCTCAAAGGACAAGATGGAGTGAGCCAGATGAGGCAGGGAGATGAGGGACCTACAGACTGGAGCCACATAGGC
AGGACTGAGGCAGATCCATCTTTGTTCCCTGCTCCCAGTCCAGAGCTGGGCTCAGCAAACATGGAAAAATCAAAATGACCTGCCCTGGGGAACTGCAGTG
ACCTGTCTTGCTGTAACCTGCCCTATAGTGATGTGACATGCCCTGCCCTGCCCCACAGTGGGAGAAAAGGCTGATGTGTGCTGGAAGAACCCCTGGCACC
CAGTGTTGCTGTGGCTGAGACCCCAAAGGGCCAGATTTGAGGCTGGAGGCAGAACTGTCACCAGGGACTGGGTCACAAAGACCCCCTGGGCTACATTAGT
GAGAATCAGCCCTGTSGTGGGCAATGGGGAGTCCCTGAAAACTTCAAAGCAGAACCGATCAGCTTGAATTTTTGAGAATTTAAAAAGATGCAGCTGCAGA
TGGGTAAAAGGGCTGGAGGGAGTTGAACAGGAGGCAGGGAGACGAGGTAGGGGCTACTGCTGAGTCCTGAGAGAGATGAGGAGGCTGTGCAGAGGCACTG
GAGAATAGACAAACACCAGAAAAATGGGTAAGGCTAGAGGTGTTATTATCAGCTCTATTTTATACTGTGGAAACTGAGGCAGAGTTTAAGTAGCCTGTCC
CACATCACCTAATTCATACATGGCAGTGCTAGGGCCCCAATCCAGCTTGATCTGCCACGAAACCCAGGATCTTTTCTGGGTTTCGCGACAAAAGAATTGT
CRCGAGGACCCAGAAATCCAAGTCAGAAACCCGATGGAGAATTCAATAAAGCCCATCATTTGGGTGCGGGGAGTGGGGAGCAGGTCACACCTGCCTCTAT
TATCTAAAGCAGAGAACTAGGGGCTAGAGCAGCCAACAGGGGTTGTTTTCCACCCTGGTGAGATAAGGGAGACAYGCAAGGAGGGTTTTGGGAGACTCAG
GAGAACTAAGGGTTTTGSGGGGGGAGTTCCCACCTGTCATTCTTGAGATTCTGCTTTTGGAACACACCAGGGAAGGGGCCTCTAGGGAATTCCAGAGCAG
AACAGTGGTTCCCACGCTCGGAGCGCACCTGTTAAAAGAAAACTTTAGACAAATTAAACGTAGCAGAGTTTATTTGAGCAAAGAAACAATTCATGAATCA
CACAGCACCCTAAACCAGTAAAGGTTCAGAGAGTGCCACCCAGCAACGTAGGCAGTATTTACAGGCAGAAGAAGGAAGTGACATACACACATAGGCTGAT
AGGTTACAGCTCTGTGTTTGCCTTGTTTGAACATGTCTGAGCAGTTGGCAGGCTGTGATTGACTGAAAGTTCAGCTGCTATGATTGGCTGAGACTTGGTT
ACTTGTTACAAACATATACTCTCAAGTTAGGTGCAGTTTGTTTACATATTAAGCTAGGTTACAGTTTGCTACATGAGGAGGCAGCTTTAGCCCATCTTTA
ATTTAATTTAACACAACACAACCTCCTGGAGCACTGGTTTAAATGAKGGTTCCCAGCCCCTCACCCAGAATGGCTGGTTCAACAGTGGGTGGTGCAGTAA
GACCTGCTTCTCCTGTAAGCATCCTGTATTTATTGTGATACAGGTAGCTCCACACAGCACAGGGCCTGAAACCACTAACCTTGCAGGCAGGCAGTGTCCA
CCGACTGATTCCAACCTTGGGTGGATTTTTTTTAATTGCTCTTATGGAACTCTTTTTAAATCATTTATATTTAATTTTTTCCTTAAATTTGTATTGTGGG
AAAATATAATACCTAACGTTTTAACTACAAGCATACAGTTCATAAAAGTACATTCACATTGTTGTGCCACCATCACCACCTTCCATGTCCGGAACTTTTT
CATCATCCCAGACTGAAACTCTATACCCACTCAACAATAACTCCCCAATCTCCCGTTGCCCCGGCCCCTGGTAACCACAATTTTACTTCTGTCCCTAGGT
ATTCGGCTACTCTAGGTGTAGAATTAGACTCTATTTGTCCTTTTGTGTCTGGCTTATTTCACATAACATAATGTCTTCCAGGTTCATCCATGTTGTAGGA
AATGTCAGAATTTCATTCCTTTTTAAAGTTGAATAGTATTCCATTGTATGTTTATACCAGACTTTGTTTATTCATTCATCCATTGATAGACATTTGGGTT
GTTTTCATCTTTTGGCTATGGTGAATAATGCTGCTGTGACTTTGGTCTACAATTATCTTTTCAAGTTCCTTGACTAGCTGCTTGCAGTTCTTTGGTGTAT
ATACTCGAAGCAAAATTGTTGGGTCAAATGACAATTTGTTTAATTTTTRAAGAACTGTCATATTGTTTTCCACACATTGTAGCACTTTATATTCCTACCA
GCAATGCATAAGGGTTCCAATTTCCCCACATGCAATGCTAACATTTAAATTAAAAAAAAAWTTTTTTTAAAGGAAATCTTGCTATGTTACCTAGGCTGGT
CTCAAACTCCTGGCCTCAAGCATTCCTCCTGCCTCAGCTTTCAGAGTAGCTGGGATTACAGGCACGGGCCATCATGCCTGGTGTGCCAACTTATTGTTTT
CTGTTTTGTTTGTCTGTTAGTAGCCATCCCTGTGGATACRAAGTGGTATCTCATTGCGGTTTTGATATTCCTAATGATTAGTGATGCTGAGCATCTTTTC
ATGTGCTTACTGGCCATTTGTATGTTGTCTCTGAAAAGATGTCCACTCAAGTCCTTTGCCCATTTCTAACTGGGTTTATTTGTTTTGTTGTTGTTCTTGG
GTTTTAGGAGTTCTTTATATATCCTGGATATCAATTCCTTATCAGATATGAAATTTGCAAATGTTTTCCCATTCTGTGAGTTGCATTTTTACTTTATTGA
TAGTATCCTTTGATGAACAAAGTTTTCAATTTTGATGAAGTCCAATTTGTTTATTTTTTATTTTGTTGCCCATGGCTTTGGTGTGATATTCAAGAAATCA
TTGCCAAAGCCAACATCATGAAGTTTTTCCCCCATGTTTTTTTCTAAGATTTTTATAATTTTAACTCATCTTTAGGTCATTGATCTATTTTGAATTAATT
TTTGTATATGGTGTTAAAGGTCCAATTTCATTATTTTGCATGTAAATATCCAAATTTTCAGCACCACTTGTTGAAAAGGCTGTCTTTTCCCCATTGAATG
GTCTGGCATCCTTGTCAAAATCATTTTACTACATATGAAAGGCTTATTTCTGGGTTCTGTATTCTATTCCATTGGTCTCTATGTATGTCTTTATGCCAGT
ACCACACTGTTTTGATTATTATAGTTTTGTAGTAAATTTTGAAATCAGAAAGTGCAAGACTTTCAACTTTGTTCTTCTTCAGTATTGTTTTGGCTATCCA
GGTCCCTTGAGATTTTTATATAAATTTTAGGATAAATTTTTCTATTTCTGTGAAATACAGAACTGGAATTTTGATAGGAATTGCATTGAATCTATAGACT
GCATTGGATAGTATTATCATCTTAGCAATTTCTTCCAATCCATGAATGCAGGATGTCTTTCCATTTATTTATGTCCTCTTTAATTGCCTTCAGCACTGTT
TTGTACTTTTCAGTGTATGTCTCTTACCTCCCTGATTAATCCCTATTTTATTCTTTATCATACTATTGTAAATGGAATTGTTTTCTCAATTTCCTTTTCA
AATTGTTTTCTTTGTTAGTGGTGGGAAATGCAATTGATGTTAGTGTTTTGATTTTATATCTTGCAACTTTGCTAAATGTGTTTATGAGTTCTATAGAATT
TTTAGGGTTTTGAACATATAAGATCATGTCATCTGTGAACACAGACAATTTTACTTCTTCTTTTCAAATATGGATACCTTTTCTTTCCTTGCCCAATTGC
TCTGGCTAGAAATTCCAGTGCTATATTAGGTAAAAGTAGTGAGAACAAGCATCCTTGTTTTGTTCCTGATCTTCGGGGAAAAGCTTTCAGTCTTTCACTA
TTGAGTATAAAAGGTTTTATAAATACGTAGTCTTGATTATGTTGAGGTAGTTTTCTTCTATTACTAATTTTGTTGTAGGACTTTCTACTTAGTCCAGCTA
AACACGGGGTCCTTGTCACATGGCCATGAAAGATTAGGCTCACAGACACTTTGAGGTGTGAATAAAATGGAATTTATTGGGTGAAAAGGAAAACAACTCA
GCAAAGCAAGAGAGAGTCCTGTTAACAGGCCCTCATCTGACTGACTGAATCCCCAGATTACCACATCGGATCAGGAGAGAGAGGCCAAGCTCCTCCCYGC
TGCAAAGGGCACAAACTTCCCACAGCTCCACCCCATTCTCCCAGTGTGCAGGCCAACTGAATGTTCTCCAGGCACCTCTTTACACTTGACTGTCTCAATC
TGCTGTGTGTTTTTATCATGCGAGGGTGTGTTGAATTATGTCAAATACTTTTTTCTGCACCAATTAAGATGATCATGTGATTTTTTCTTTTATTTTGTTA
ATATGATGTATTACACTGATCAATTTTTGTATGTTGAAACATCCTTGCATTACAGAAATAAATCCAAATTGGGTATGGCATATAATCCTATTAGTAGGCT
CTCAAAATTAATTTAATCCATTATATTAGTCAGGGTTCTCCAGAGAAACAGAATCTATAGGATATATAGAAATATATATAAGAGGAGGCATTATGGGAAT
TGCCTTATGTAATTACAGAAGCTGAGAAGTCCCACAATCTGCCATCTGCAAGCTGGAGACCCAGGAAAGCCAGCCATGTAATTCAGTCTGAGTCTGAAGG
CCTGACAACCGGAGGAGCCAATGGTGCAGCTCCACAATAGGAAAAGGGCCTAATAAGGCTGCTGGTTTAAGTCCCAGAGTTTAAAGGTCCAAGAAGCAGG
AGGCCCAGTGTTCAGGGCYGGTAAACACAGATGTCCAGCTCAGGGACAGAAGAGAGAATTTGCCCTTCTCCTACCTCTTTGTTCCATTCAGCCTTTAATA
GATTAAAAATGCCCACCCATATTGGTAAAGGTGGCTGTCTTTAACTCAATCCACTGATTCATATGCCAATTTCTTCCAGAAATACTGCCACAGGCCTCTT
TTATGTAGGCACTAATTCCTTTTATGAGGGTAGAGCCCCCATGAATAGGTTTCCACATATGAATTTGTGGGGACACAAACATTCAAACCTTAGCAGCTGG
TAAAACATTATTTTTGAGTGTGTCTGGGACAAAATAAATTGAGCAAAAATGGACATAATTGAAGGGTGAAATCGTTCTACAGCAATTTAGACACTTCAAT
ATCTCATTCTCAATAATGGATAGAACAACCAGACATAAAATAAGTAAGAAAATAGAGAACTTGAATATCACACTAAAAGCTAGATGTATCAGACCTATAC
AGAACACCCTACAACAACAGAATACACATTCTTCTCAAGTGCAAATAGGACATTCTCCAAGATAGACCCTATGTTAGGCCACAGATCAAGAGTCAATAGA
TTTTAAAAGACAGATATCATACTAAGTATCTTCTTCAATCACAATGAGATGCAGTTAGAAATCAATAACAGAAGGAAAACTGGAAATTTTACAAATTGTG
GAAAAAACAACACACTCTTTATCAACCAGAGGATCAAAAAAGATACCACCAGGGGAATTAGAAAATACTTAAAGACAAACGAAAATGGAAACACAACATA
CCAAAACTTATGGAATGAGTGAAAGCAGTGTGATGATAGAAATGTAAAGCTGTAAACACATTAAAAACAAGAAGATCTCAAATAAACAATGGCATATATT
CAAATTCAGGTGTTAACTTTAGGATGCTAATGTAATCCCCATAATAACCACAAAGGGATGAGAATAGAATTATTAAAGTGTTTCAATACAAAAAAGCATT
TCAGTACAAAAACTAAATACAAAAAAGGACAGTWATATAGGAAATGAAGAACCAAAAATGTTATATCTTCTTGCTGTACTGAAAACTTTATTAATATGTC
ATTGCCCTGTCTTTTGGAACTTTTTTAATTCAAAATCTATTTTGTCTAATATTAGTGTAGTCACCCCTGCTCTCTTTTGATTACTATTTGCATGGGGTAA
CTTTTCCATCCTTTCACTTTCAGTCAGTCTATTTACATTTTTGGATCTAAAATGAGTCTCTTGTAGACAGCATATATTTGGATCATATTTTAGAAGGCTA
ATGTGTAAAAATAATTTTTAGTCTTTGTTTATAATTTAGAGACTAGAAAAAGAGCAAACTAAACTGAAAAATAGCAGAAGGAAGGAAATAATAAAGATTA
GAGCAGAGATAAATAAAATCAAGAATAGAAAAACAATAGAGAAAATAAATTAAACCAAAATGTAATATGTATGCTCATAATACATTTAGTCCATAGTATA
TTTGATATAACCAGCTTTACTTCAATAGCATACAAAAGCTCTGCTTCCTTATAGCTCTGTTCCTACCTGTTTCCAGTTACTGATGTAACAAATTATATCT
ACACATCATGTGCCCAAAAACATAACTTATAATTGCCCACGCATCTACCTTTACCAGAGGTCTTTTATTTCTTCATTCAGCTTAAAGTTACTGTCCAGTG
TCCTTTCATTTCAATCCGAAATAAAATGCCTCTYATTTCTTGCAGGGTAGGTATTGTGGAAAAAAGCTTACTCAGCTTTTGTTTTTCTGGGAATGCTTTA
ATTGTGTTTTGCTTTTCTTCCAGCATTTTGAACATATCCTTTGGGTGGGTTTTAACCTTTCTGAGCACCTATTTCTGCCTGCCTAAAATCATGTTAATAA
TACTTGCTTTAGGAGTGTTTTGGTAATGGTTAGATGACTGAATATAGCCAGACTACCTAGATCAGTGTTGGGTACCTGTCAGGCACTGGATAAATCATAA
CGGCTGTTATTCATATCTCCAGATGAGGAAACTGAAGTCCAGCGCCCTCTGTGATGTGCTCCAGGTCACACAGCCAGTGTGGAGGAAGGAACTGGGGCTT
GAATGGGGTCTTTTGCCTGCCTCCTCTTGCACTACGCCCCATTGACTCAGAGACTGCCACAGCATCTAACAAGCTTTTCTGATTTGGCAGGGCCTGGCTA
TACTGGACAATGCCACTCCTCCTGTACACCTGTCTTCTCTGGCTGCCCACCAGCGGCCTCTGGACCGTCCAGGCCATGGATCCTAACGCTGCTTATGTGA
ACATGAGTAACCATCACCGGGGCCTGGCTTCAGCCAACGTTGACTTTGCCTTCAGCCTGTATAAGCACCTAGTGGCCTTGAGTCCCAAAAAGAACATTTT
CATCTCCCCTGTGAGCATCTCCATGGCCTTAGCTATGCTGTCCCTGGGCACCTGTGGCCACACACGGGCCCAGCTTCTCCAGGGCCTGGGTTTCAACCTC
ACTGAGAGGTCTGAGACTGAGATCCACCAGGGTTTCCAGCACCTGCACCAACTCTTTGCAAAGTCAGACACCAGCTTAGAAATGACYATGGGCAATGCCT
TGTTTCTTGATGGCAGCCTGGAGTTGCTGGAGTCATTCTCAGCAGACATCAAGCACTACTATGAGTCAGAGGTCTTGGCTATGAATTTCCAGGACTGGGC
AACAGCCAGCAGACAGATCAACAGCTATGTCAAGAATAAGACACAGGGGAAAATTGTCGACTTGTTTTCAGGGCTGGATAGCCCAGCCATCCTCGTCCTG
GTCAACTATATCTTCTTCAAAGGTATTCCCACCCATCCCCATCTGAAGGCCCATCCACTATGGCCAGGAATAACAGCCGCTAAAATCCAGGGCACACTCT
TGGGCAAAGTCTTTGATTCTGTAAAGCACATACACATCTGGGAATCTCCATCTTCACCACAATCCTGCTGGGTAGGTGGAATTATATTATTTTACAAAAG
ATCAAAATGACACCCAGAAGGGTTGAACAATGTGCCTACATTCTGGCAGGTTGGTTTGAGGCCCACACCTGTAACCATGAACAGTCTGGCTGCTTCATGC
TCCACAAATGCTGACTGTCAAGCACTGGGCCAGGGACTGGAAAAATGGCCTAGAACTAGACAGAACCCCACCCAGCCCCTTGGGAACTCCCAGATGCCCC
CAAAGCCATCCTGCACACACTGCTCTGACCAGGTCCTGCTTCAGTTTTTCAATCTTCCTGTTCATAAAAACCTGGAAGCTCTAGGGGGGAATGCACTTCC
AGGCTTTTTCCAGCTTCTAGAAGCCACATGGCCTGTGGGCCTCTCTTATTTTCAAAGCCAGTAATTGCAAATTCCCACCTCTGCTTCCCTCATCACATCT
CTCTGATTCTGACTTTCCTGCCTTCCTCTTTGACTTACAAGAACCCTCAGGATTACACTGGATAATGGCCCACCTGGGTGATCCAGAATAGGCTGCCCAT
CTCAAGGCCAGCCGATTAGCAATTATGATTCCCTCTACAACTTTAATTCCCCCTGGACATGAAAGCTAACATATTCTCAAGTTCTGGGGATTAGAATGTG
GACATTTTGGAGGGCTGTTATTCTGCCTGCCACAAAGCCCAGGCCTCTTCTGTCTCATGAGCCCTCTTGCAACTTATCTGACTGCCTAAAACATCTTCCC
TCACTTCAAATCTTAGCTCAAAAGTCACCTCCTCTGTGAAGCCTCCCCAGAGTCACCCAGGAAAGACTTTGCCCTCATATGCATGCTCAACAGTTTGCCC
ATGCCTTGTTTGGGCAATCATCTTGCCATAACATGTTGTTTAGCACCCAGGTGGTTGAGTTTCAGTTAAGCAATCATATTCAAAGGAATGCAGGTAAAAC
AGCCAAAATAAGCAAACTAAGCCAGTATCTCTACTGAACATGTGTCTCTCGACAAGATCATCAGATCAGAGGAGATGTGATCCCCAGCCAGGACCCCTCA
TGCCCCCTTCCCCTCCTCCCCAGCTCTCTCTCAGGACCTCCCATCAGACTGTGCCCACCTCCCCTCCCATCCCGCACCTCCTTACTGCCTGGACTGCCTT
AGCATCTCTACGAGTCCTTCTTCTCTACCTGCCTCTGGGTCTTTCCTGCTCTCCAGCACAAGGCTGGGAACTCCCAGGAGAGGCCGCCCTCTTCGCAGGA
TGGTGAGGCTGAGAGGCTGACCAGGCAAAGGCAGCCTTCCTAACACCTGACTATGGGAGGGCCAGGGAGGCTGGGAACATTTGCCCAGAAACTCTTCTGT
GTGCTCCCACAAATTCCATAGACCATCTCCCCCACGAGACTGTGCACTCTTGTGCAGGGTATCTTTGTCTCTTTGGGAGATTCCAGTGCCCTTGTTTAAT
GCTTGGTGCATGGAACAAGCTCAGCAGTGGTTGCACAGAGGTTCAGGCAACACAACCTGGGGAAAAGGCACAGTAAACCCAGGTGCRGGGAGGGCCCTCC
TGAGCCTGAGAGATGCCTGAGCACATGTGGTGGAATGGGTGYTGGTGGAACGGGTGCTGGCCTGGTGTCATTCTGTACGAGGTTTCACAGTGTCCTCAGG
ACCACAGTGGGGCTAAGTGGATAGGAGATCACAGCTTTAGGTTACAAAATCAGAGAAACTTGGAACACCTGAATGCAGGACCAGACATTGATGGAGATGA
AATGCCTCATTGTACACAGATTTTCTATAATACAACAAAACGAATCCGTGAGTGTTTGGTTAAAACTTTTGGCAAAATACTCTGAAATATTTCTAGCAAG
CCAGGATAATAAACAGAAATCAAGATTAGTGTAGGTATTATCACTAAATGTAGAATATGTAAAATGGCCCTGATGTGTTATTTATTTMTTTATTTATTTT
TATTTTTTTTGAGACGGAGTCTTGCTCAGTTGCCCAGGCTGGAGTGCAGTGGCAGAATCTTGGCTCACTGCAAGCTCCGCCTCCCGGGTTCATGCCATTC
TCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGCCATGACACCCGGCTAATTTTTTTATTTTTTTGTATTTTTAGTACAGACAGGGTTTCA
CCACGTTAGCCAGGACGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCAGCA
CCTGATGTGTTATTTATCGGACTTTCTTGACAGTTTTTTTTTAATAACATTAAAAATATTGTTAAAAGATTTTCCAGAGGAGCCATCCTTGCTCTCTCAG
ATCGTCCCCAATAAATTCTTTCTCTACCACCAATTCTCCTAGAACTTTTTGAGAATAGATCCCTTAAAGTAGAGGCTGAACCCCATTTTGTATTTTGTTT
TGTGTCAAACTATATACATTATGCTTACTCCTAGAAAAGAAATACTCCATAAAAAGCAAGCAGCAAAATGTTAAGGWCGAAAAAAACCTAACAATGAAAA
ATATTTTACCCACTTTGTTTTTTTGCTGTAAGTTAGCCACAAAATACAACTGCCCTCTGGTTCTGAGGATTTTAGACCTCCTTTGGAGGATGATTTGAGA
ACCCTCAAATAATCTCATTTGCCGTGAGACAGACGGACGGTGAGTTTACTACCATTGGCCAGTGTCTGCAGACATCAAGGTTAGTGAGGTCATTMAGAAG
GGACCAGCATAGCTCTGGTGTCTCTAGACTCCGCAGCCATGGCTGATTTCTCTACATCCATCAGCCTCTCCCTGTTGTCTCCATAAGTRGCTATTACAAA
AGGTTTGTGGCTGGCTTAGAACCAAGAATTTTGGCTGAGCAATCCATAGATCCCACAGACAGTAGGATGGAGAAAGGGCTACCTGGAGTGATGTTCTGGC
CACCTTTAGGGAGCCTGGGCTGGGAAATGGTGGCCTGGCAAGGGCTTCAGGGCTTGTGGTCAATGGCAGCCAGGACACCTGGGATCTGCTGGACTCAAGG
GCCTCAGTCATCACTTTAAGACTGGGGAGACGTCACCTAGAGCAGAGAGACCCTGTGACACTCAGCCCAGGTAAGTTTCCTGCAGGTGGACTCAGTTGTC
TGGAATAAGTTCAGAAGAACAGAAGAGGTCCTGCTGGTGGCGGACAATCAGGCAGGCTTTGGCTCAGTCTGAGGAGCAATTTTCTTCCCATCAGAGCTGA
CGAGTACCGCCAAGTCCCATCTGTGAAGGTAGTGAGCTCTCCATCTCAAGGCAAAAAAACAAGCTGGATGGTGGCACCCTGGAACATGGTAGATGGGACT
TGAGGGCCTGCTGGGGGTGGGAGTCTGTGACCCTGAAGGAGTCTTCTCACCCTGACTCTTCATTAGGACAACGTGGCCTAGAAGGAAGGACCATTCAGCA
GGGTCAGGAGCCTCAGCTGGGCCGGCCAGGCTGGCAGGGGTGGAGATGGCCCCCTCGCTTCCCACCAGGGACTCTGAGTTTGAGACTTGAGGTCTAGCAC
CACTTCCAGAGCCCTCAGAACTGGGACCCACTCTAGGCATGGGGAGCCAAGGCACAGTCTGAYCTACCCCCAAATCCAAGGACCAGTACCCTCTTGGTCT
CTCCCTACTTCCTTGTTTAGAAGCCAGTCTCAGAAACAGAGCTCATCCTCAACCCATTCCAAGAAGTAGAGGATGAAACAGGATTTAAATTTCTGGGAAT
TTTTATATCTTACCTAAAAACCCTTGAGGCTTGAATGGGGACATTCCAAGCATKCAGAAGGCCACTGTGTCACTTGGATAGTAGGCCCGTGAGRTCACCT
GGAACTGYGTTTTCCTCTCTGCCCTACAGACCTGTCTCCTCCTCTTCCTAGGCACATGGACACAGCCCTTTGACCTGGCAAGCACCAGGGAGGAGAACTT
CTATGTGGACGAGACAACTGTGGTGAAGGTGCCCATGATGTTGCAGTCGAGCACCATCAGTTACCTTCATGACKCRGAGCTCCCCTGCCAGCTGGTGCAG
ATGAACTACGTGGGCAATGGGACTGTCTTCTTCATCCTTCCGGACAAGGGGAAGATGAACACAGTCATCGCTGCACTGAGCCGGGACACGATTAACAGGT
GGTCCGCAGGCCTGACCAGCAGGTAAGTCCTCCAGCCATCATGTTGATTTCTGCAATGCACGTGTCCCCAGAAAGTGGGGCACGTGGAAAGGGAGTATGC
TGGGGCATCCTTCCTTCCCTGGACTCACCCTCCAGGGCTCAGTTTTCCTGTCTGCTGGGCCCCCAAAGGCTGTAAGTTTCCCTAATCTAGAGCTCACGCT
TATTTATTGATCTGTCCATCAACACTGAAATACTTTGGGGCATTTCACAGAGTGAGGTTCCCTTTCCCTGTGAGGTTCATACATACCCTCTGCATTGTCA
TATTTTTGTAGCATTTTCTTAAAGTAAGTTCACCAACCACCCAGCTACACACTTATCTGTTTTGTTATCTTGCTTACCTGAAACCACGCCCTGCTAAAGA
TTCTTGGAAGACCCCATAGAAATATAATGAAAATGATAATGAAATGTATACATCATGGAGCCAATGCAAAATCTATGAATGGTTCTTAAGTTACTCAGGG
CATCTAACTCTTCAATCAATCAATCATCAGTAAACAACTAAGAAAGCAAGGCTAAAGTAGGTAATAAGCGAGTAAGTAGAAAGAAAGCAAGGGCTGCATA
TCCTGAAGAGGCAGTAGCCAGGAGGAGAAGCGGCCAATGGATTCCCTCTATCTCTGACCTCAGGCCCAAGCAAGGGGCTGGTGCAGGGTTGACACTCAGG
CAAGGTCAGCTGAGGATGTGAGTCAGCAATGAATGAATGAATGCCTGAATGAATGGATGGGTGAGTGAATGGATGGAAGAATGAATGAGTGAGTGAATTA
ATGGATGAATAAGTGAGTGAGTGCATAGAATGGTGAGTGAGTGCATAGAATGGTGAGTGAGTGAATGGATGGGTGAGTGAGTGAATGGAGAATGAGTAAA
TGAATGGATGAATGAATAAGTAAATGGATGCATGAGTGAGCGGATGGATGGGTGGATGGTTGGATGGATGGACAGATGCACAAACAAATGAGATTTTCCC
CCTAAGCACCCCTGAGCTAGACAGTAATTGAAATTATTGTCATGCAAGTGCGCAGCCCTGCTCCTCACCTTAAAGGAGGAAGGAGGTGTTCTTAGAACAT
GGTCCTCACTCTCAGGGAGATTCAAGTTCCATCTGTGCAGAAGGGTCAGAAAATGCCAACCAGCATGAAACCTGGTGGCAGGGGGGCTGATGCAGACTCA
GAAGCAGGGGGGATGCTGAGGAGAGAGTGGGAATGTAGATCTGGAGTAGCTCAGGAAGGCTGGTGGATCAGGCAGCATTTCATTCACTCACTCACTCATT
CATTCATTCAATGTGCATTTCATTCGCTCATTCATTCAATGCACATAAACGGAAGCACTTGCTATGTACCATGCCCTAGCTAAGCACAGGGGATGGAGTG
GTGAATAGGACAAAACAGAGCCCTTAAAGACATGCACTCTAGAGCAGAAAACAGATTCTGGTGGAATTAATAGTGGTACGACAATGTGAGTTCTGAGAGA
GACAGACAGAGATATGTAACATGCCACTGGTTGGGAGGTGGGAATGCCTGACTCTGCCCGGGAATGGGGAAGGGCTGCAGAGCAGGTTGTTTTCCCTTGA
AACTGCTTTGAGTGTGAATGGAAGTTCAGCCAGGGGGAAGTGGCCTCCAGACCCGACATGAAGTCAGGGGACCATGCCCAGAGTGCCAACAATGCAGGGC
CAGCAGTAATGAAGACAAATTTGGCTTGGACAAATGTTGTGGTCTAAAAATTTTGCAGTAGATAATCTAGGAGGAAGCTCCTCTACTTTATTAAYAKGTA
GGTTTTGTGGTTTATGGTTTCAGATTGTTTTCATTTTGAATGATACCTTCAGAGATCTATTTGATGCTGGGTGCTTCTAGAGAAGTTCATCCAGTTCTGT
GARTGCACATGGAAGTGTCTGGGAATTTGACTTCTCTCCTGTAGGGAAGTCATGTAGTCAGCCCTGTGTTTCTGAGCAATCCCCTATAGCTATGTGGAGG
ACACAGTTCTTAAACCATCCATAACTACGCTTGAGTGTGTACACATATATATGCGTGGGTGTGAACCTGTGTCTGGGMGATGCTAGGGATCCATTTGCCA
TCTCTTCCTCCTTTCTACCCACCAAAGAAAACCTGTAATTTAGGTGTAAYACCACAAGGGGGTGATAACGCACCATGATGCAAACAATGCATTCCAGCTC
ATACTCCACTGAAAATGACGGGAAGGACTATCTATCTTTCTTTACACCAAAAATAATCTTTTCATGAAAATACTTCAATGTGAGCAACATTAATCAATAA
TACATAMCTTAAAGCCCCATCACCTTGCTCTCAGAGAGCTGTCAACAACGCAGCAGGCGGCAGATGGCAAAACTAGTCCTGGCCTTTTCAGTTCTGTTGC
CTCCCAGTTGTGTGACTTTGGGGGAATTCCTCAACCTCTCTTAAGTGTTGGTCTCTCAACYTGGAAATTAAAGATGTTGATTCCGACTTCATAGGTGCGT
ATGTGTGTGTGTGCACATGCATGTGTGAGAGAGACAGAGAGAGGAGAAAAAAAAAGTAAAGAACATAGACCAGGTGTTTGGGATAAATTGGTCTCCCTTC
CTTTCTTTCTGTTACTATTTCCGCACCTGGAGAAGGTACACACCRACTCGCCTCTGGTTCTTCTCCCTCTCCTTTAGAAAAGGRCGGCTTCCACTTCACG
CAGGATGGTTGCCAGCCTCCGGGMCTCACTCAGGGCTGCTTTTGCTCAGTGAGGAGAGGGTCTCGTGCCTTCCCTCCCATCTGCCAAGAGAGCCGGTGCG
AGTTCACTGACACCCCTCAGTTTCAGTGTTTTAGACATCTGCTCTCCCTCTGRGGAGAAGGCACAAGAAGAATTTAAAAATAACACTAAGGCCTTGACAT
GTTAAAAAGCGTAGATGCCCGTGCTGCCCCTAGTGTGACCCCACTTACCTTTCTAGAAACCCCACCTGCTTCAYCTGGTAGAAACTGCCAGCTGAATCAG
ATTCTTGCAGAATCACAGAGATTTCGCACCCACCTGCCCTGGGAGAGCCTGTGTTCAACCACCTTTGTGTGCAGGTGAGGACATTAGCACAGAGAGGGGC
TGGACTTGGCAAAGGCCACACAGCATTAGTGGCACAGCTGGAGCCAGGGACCACTGCTCCCAGCTGGGCACTCCCTCCAGTCCTCTGCTTCTAGCAGGGG
TTCTCCTGGGACTAAAAAGGCTTCATTATGGACTATTGTCTTAAATGCTCCATGGTCCAGCTGCATCCCAGGTGGAATCAGCTCGAAGGAATTGCAGAGA
AGAAAAGAATGTGCAATTCAGAGGCCCCGTGGGAAAGCTGCCTGTGTCATGGAGGCAGAGACAGATCCTGCCTCCTGCTCTGTCCCTTCTCCTACCCACA
AAGAGCAAGTCAGGCTGGAGGGCAGGAGCTGGAGGGAGCGCATGAGGAAATAAGAGTCTGGCCAGGAGAAGAGGTGCTGCTCTCCCCTCTGCCAGGCCCA
GCCCTGGAATGTCTAACTCTGTCTGCTTACCCCGAGCAGCCAGGTGGACCTGTACATTCCAAAGGTCACCATCTCTGGAGTCTATGACCTYGGAGATGTG
CTGGAGGAAATGGGCATTGCAGACTTGTTCACCAACCAGGCAAATTTCTCACGCATCACCCAGGAYGCCCAGCTGAAGTCATCAAAGGTAAATGTCATGG
GAACCCACCTTKTCTTCCCCCTCCAAAATTCACAATATAAATATAATACTAGGAAGTGGCACTGAGTTCGTTCATGAATGAGCCTCTAGGTCCCTGGCTG
AGAACCCCAGGTTGAGTCAAAGCCCCTTGTCTCACCATGAGGTAAATGGAGGCTCAGCAAGAAAACATGACATCCCCAAGATCACACAGGAAGCTGTCGA
CACAGGAGGGCCACAGGCCAGGCACCTACCCATCCCAYCAGACCACACAGAGGGGAACTGTGAAAACCAAGTTGTCATGGCAGAGCTGTGAGTGGCCCCT
GGCAAAAAGAAACAGGAAAAGTGGTAAATGTCTAATTGGGATCATATTGAGCCTTCTACCCAATTACATCCATTCAATTACATAAATCCTTCAGCTTTAT
GTTCTGTTATTCATGCATTCAGAAAATGTTTACTGAACACCTACTATATATCCCAAACTGTGTAGGCCCTGTGTATGCCCCCGTTACTCAGATGTGTGGC
CCCTGACCTCAAGACACAGGACTTTGTGGCCTCCGTGGTACCTGGCACGTAATATGTGCTCAGTAAAATGCGTGCTGTGTGAGTGGATTGAGTCAACACA
GCTGCCTTCTCAGAAGGCAGGTATTATCCCAATTTCTCAGATGAGGAATCTCCTGCTCAGGGAGGGTATGCAGCTTCCCCACAGTCACAGAGCTAGTAAA
TAACAGTTTGATGTTMGATCTCAGGCCTGTTGACTCAAAACCTCATCTGCTCAAGACACACTGCAGGGGTTCCAATCCCAGCTCAGCTTCTTCCTAGCCA
TGGGTGCCACTCACAGAGCCACCAGAGCCTGAGTGTGCTTGCTGGAAAGAGTCRCTGGAAGTTCCCACCCCTTAGGGTGTTGTGAGCTCACCAATATCAC
CTGTTACTTATTTAGCCAGGTTATGAGTTACCAGAGTCTTTTGATACAAGCTAGGCAGACGTTTTGCTGACTTCAGAACTCCTCCTAATTTTGATCACAA
CAAGGACATATCAACAGTCAAAGATTTACATTTTTAGATTCTGCCTCAGCTTTCCCAAACAGAACAGACATAGGCACTTTGCATAACTTGAACCCTAGCA
TTTACCCAGCAGAGTGGAAAGGGAGCAAGATCTCCCTCCGCTACCCCAGGATGGTAAGAAGCGCCCAACATGGACAGTGAAGCCCAGTTCAAGCCATGAG
ACTTCTAATCTCCATGTGATGGGCCCAATCTGCCCTTTGAATAGGAAGTGTAGGTGCGGCCCAGGTTCTGGAGGTGGACAGACTTGGGCTGTGTAATCCT
GGGGCTGCCACTTGGATAAGAATCCAGCAAGTGACCTTCTCTGACCCTGGATTTACCTTCCTAAAACCAAGGATGTGAAGGGTCCCAGCAATGAGTCAGG
AAAGYGAGAACGCACAGCAGGTCTCACTACCCATCTTCATTCTGTACCTAACAGGTGGTCCATAAAGCTGTGCTGCAACTCAATGAGGAGGGTGTGGACA
CAGCTGGCTCCACTGGGGTCACCCTAAACCTGACGTCCAAGCCTATCATCTTGCGTTTCAACCAGCCCTTCATCATCATGATCTTCGACCACTTCACCTG
GAGCAGCCTTTTCCTRGCGAGGGTTATGAACCCAGTGTAAGAGACCACCCACCCAGAGCCTCAGCACTGTCTGACTTTGGGAACCAGGGATCCCACAGAA
ATGTTTTGGAGAGCGGGAGGTTTCCCCCAATCTCCTCCAAGTTCTTCTCCCYCCAACCAGAGTTGTGTCTAACTTTAGGCATCTTTTAATAAATGTCATT
GCGACTCTGATGACCGGTGTGGTTAAAGAGAAGGGCAGGGGCGTTCTGGAGGTTACTGTGTTAAAGTGGTGTTTGCAAATCCCCAGGCCTGGCATCTTCA
TCCATGTGGGCTGCCATAACAAAGCACCACAGGCTCATGAACAACAGAAATGCATTTTTCACAGTTCTGGAGGCTGGAAGTCTGAGATCAGAAGCCAGCC
TTGTTGGGTTTTGGGGAAGGTCGCTTCCTGGTTCAGGGGTGGCATCTTCTGGCTGTGTCCTCACAAGGCAGAAAGAGCAGAGAAAGCTCTCTGGGGCCTC
TTTTATAAGGGTCCTAATCGCATTCATGAGAGTTTTACCCATGACCTAATCACCTCCCAGAAGCTCTAACTCTAACACCATCAACTTTGGGATTTGGTTT
TAATGTATCAATCTGGGGAGACACAAACATTCAGGTCATAACACCTGGTACTGCCACAGGAGGAGCAACTCCTCTGGCCAACAAACCCTCCCCTCTTCCC
TAATAAAAGACAAACTTCAGCTGAACTAAATCTAAAGTATAAATGAGGAATGAATGATTCGCAAATCGGACAGCCTCCTCAGCTGTGAGACTCCAGTGCA
GCCACGTGGTGGAAGAAGATTTACAGACAGAAAAAGGAAAGTGATGTACAGAAAACAGAAGAGAGGAACAGAAACAGCCGGATTGGTYATAGGTTGATGT
TTGTCTTATTTGGCTACTTTTGATCAGCCAAAACTCGGTGACTGGCACAAGTGTAGGCTATGGTCTGTTCGTCCCTCCACTTGTTATAGTTCATGATGTA
CTGAGAAATCTTTAGGCCAAATTTAAAATATGTAAGGAGGCCGCATTAGGCTAAACTTGATTTAACAGCCCTGACAACTGCAGACGAATGTGGCATCTTT
AATTTGTCATGGGTCTTAGGGGTCAGGGCGGTGCAGGGAGGTATGTGGGAAAGGGACAGAATCCCAGCCAGGTCCATGAGAGCTAAGATACTGAAGGTCT
TTTAAGGTTTCTAGTCTTTAAAGTTTCCTGGGGCGGGGGGGGCGGGGCAGGGGTTGGACATTTCTGGGCCCCCACCAGAGCAGCTGACGCTGGAAGCCTG
TTGTGGGTGAACAGTGGAGTCTTACTCTAGAAAGATAGGAGGAGACTCAGCAGATGTGTGTGATATGGTTTGGCTCTGTGTCCCCACCCAAATTTCATCT
CAAATTATAATCCTCATATGTGGAGGGAGAAGCCTGTAATCCCCATGTGTCCAGGGAGGGAGGTGATTGGATCATGGGGGTAGTTTCCCCCATGCTGTTC
TCATGATAGTGAGTTCTCATGAGATCTGATGGTTTTATAATTGTTTGACATTTCCTCCTGTACACACTGTCCCTCTCATCTGCTGCCAGTAAAATGTGTC
TGCTTCCCCTTCCGCCATGATTGTAAGTTTCCTGAGGCCTCCCCAGCCATGTGGAACCATTAGTCAATTAAACCTCCTTTGTTTATAAATTACTTGGTCT
TAGGTAGTATCTTCATGGCAGTGTGAAAAGAGAGTAACACAGAATCAGTTCCAACATTCATTGGTTTTCCTTTCTTATTGCAAAAGCAACATGCACTGAA
GCAAAACCCCAGGTAGAGGCTGGGGTTGGGCCATCTTATGGCAGTTGCCCTAACACTGCGCTAATATGATACTACCCCCTACAGCGCCAGGAACACTGTT
TCTGTTTGGTGAATGATTGAATTCGTCTTATTCATTTTTTCTTTTTTTTTTAGCTTTTTCTTTTCTTTTTTTTAATTATACTTCAAGTTCTAGGGTACAT
GTGCACAACATGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTACATTAGGTATATCTCCTAATGCTT
TCCCTCCCCCCACCCCACAACAGGCCCCAGTGTGTGATGTTCCTCTTCCTGTGTCCAAGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGC
GGTGTTTGTTTTTTTGTTCTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACACGAACTCATCCTTTTTTATGGC
TGCATAGTATTCCATGGTATATATGTGCCACATTTTCTTAATCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGT
GCCGCAATAAACATAGTGTGCATGTGCCTTTATAGCAGCATGATTTACAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTGC
TAGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTACAAGTGTTCCTATTTCTCCACAT
CTTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGG
CCAGTGATGATGAGCATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCTTTCGCCCACTTTTTGATGGGGTT
GTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGATTGCAAAAATTTTCCCCCATTCTGTA
GGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTT
TTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTCGGTTTTCTTCTAGGGTTTGTATGGTTTTAGTTCTAACATTTAA
GTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTATATATGGCTAGCCAGTTTTCCCAGCACCATTTA
TTAAATAGGGAATCCTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGCGTCTTACTCATTTTTTTGTTTTTGTTTCTG
TTTTTGTTTTTTTAGTATGCTTTTTACATCATTGACTTTTATAAGCTAACCAATACAGTTTTAAAATTTTCATTTTTAAACGAAAAGTGGCATTTCAGGC
CAGGCACAGTGGTTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCAGTTGACGTCCGGAGTTTGAGACCAACCTAGCCAACATGGT
GAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCACGCATGATGGCACACGCCTGTAGCCCCAGCTACTCAGCAGGCTGAYGCATGAAAATTGCTTG
AGCCCAGGAGCAGAGCTTGAAATGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCACCAGAATGAGACTTCTCTTAAAAAAAAAAAAAACGCATCTC
AAATAAATGGGGCAAACAAACTGTGTTAAAACATTTATTTAAAATGTTTGGGGACAATCGGGTAGCCAGCTGAAAGACAGTGTAAATTAGAATCACTGTC
ATCCTTACACCAGGATCAATTCCTGATAGATCAAAGATTTATATAAAAAATTGAAATCCTAAAATAAAAAGTATATAATGAATGTTTTAAAAATAATCTC
ATAATGAGAAAGACTTATCTAAGAATGCTATAAATCCAGAAATGACTAAAGAAAAGATAGATACATTCAACCACACAAACATTTTTAAAAGTATAATCAA
ATTTAAAAGGCAAATAACAAAGTGCCAAAAATCTTGCCATTCATATCCTTAAATAGCTAATTTATTCTATAAGTCATAAAATTCTGGTTGACTGTAGGAT
AATGGTAGCTGCATGAATATTTCTTACACATCACCCCAACAAGCTATAAAATCAGCAGTAGTGCACATAAAACTACACATGACCTAAGCCCTCACCATTA
CATCACCACATGAAATTGGAGCCCCAGAAGGGGGCAGTTTAGGGGACAGGAAAATATTTTAAGAAATAATGGTTAAATTATTTTCTAAACATGATGAAAA
CTATAAATTCACAGTTCCAAGAAATTCAACAAGCCCAAAGCAGGAGAAAGAACACCAGCCAAGGTGCTCTTTTAATAATCAATAATTAAAAATCAATTTT
AATAATCAAATTCCTTAAAACTAAAGATAAAGAGAAAATCTTAAAAGCAGCTAGAAAAAAGGATATATTACATACAGGGCACAAAGATCAAAATAAGGAT
TGATTTCTCATCAGAAATTATGCCAGCCAGCTGAAATGATACACAAAGAAAGGCATATTACCTCTGCCATATTTGTGCCCAACGCGTACAACCTAAAGTT
GACATGTAAAATATCAGAAAATTCCAAATTGAAAGACGTTCTACAAAATATCTAGCCAGTATTCTTCAAAAGGTCATAGGTCAAGAAAGACAAAACCTGA
GAAGCTGTGCCATACTCAAGGAGAATGAAGAAATGTGACAACCCAATGCAACATTGGGTTCCTGGATTGGACCCTGTACAAGAAAAAAGGATATTGGTAG
GACAACTGAAAAAAAGCTTGAATAATGACAATATACAGAATCACTGCAATTTCCTGGTTTTGACCATTATACTATGTGATATGGTTTGGTTCTGTGTCCC
CACCCAAATCTCATCTTAAATTGTACTCCCATAATTCCCACATGTTGTGGGAGGAACCTGGTGAGAGATAATTTGAATCACAGGGGCAGTTTCCTCCATA
CTGTTCCCATGATAGTGAATAAGTCTCACAAGATCTGACGGATTTATCAGGGGTTTCCGCTTTTGCATTTTCCTCATTTTCTCTTGCCACCACTATGTAA
GAAGTGTCTTTCACCTCCCACCATGATTCTGAGGCCTCCCCAGTCATGTGGAACTGTAAGTCCAATTAAAAGCCAATTAAACCACTTTTTCTTCCCAGTC
TCAGGTTTGTCTTTATCAGCAGCGTGAAAACAGACTAATGCAGTAAATTGGTACCAGTAGAGTGGTGCACTGCCTAAAAGATACCCAAAAATGTGGAAGC
GACTTTGGAACTGGGTAACAGGCAAAGTTTCAACAGTTTGGAGGGTTCAGGAGAAGATAGGAAAATGTGGGAAAGTTTGGAACTTCCTAGAGACTTGTTG
AATGGCTTTGACCAAAAGCTTGATAGCGATATGGACAATAAGGTCCAGGCTGAGGTGGTCTCATATCGAGATGAGGAACTTGTTGGGAACTGGAGCAAAG
GTGACTCTTGTTATGTTTTAGCAAAGAGATTGGTGGCACTTTTCCCCTGCCCTAGAGATTTCTGGAACTTTGAACTTGAGAGAGATGATTTAGGGTACCT
GGCAGAAGAAATTTCTAAGCAGCAAAGCACTCAAGATATGACTTGGGTGCTGTCAAAGCATTCAGTTTTATAAGGGAAGCAGAGCAAAAAAGTTTGGAAA
ATTTGCAGCCTGACAATGTGGTAGAAAAGAAAAACCCATTTTCCGAGGAGAAATTTAAGCTGGCTGCAGAAATTTGCGTAAGTAATGAGGAGCAGAATGT
TAATCCCCAAGACAATGGGGAAAATGTCTCCAGGGCATGTCAGAGGTCTGCATGGCAGCCCCTCCCATCATAGGCCCAGAGGTCTAGGAGAAAATGGTTT
TGTAGGCTGGGCTCATGGTCCCCGTACTGTGTGCAGCCTAGGGACGTGGTGCCCCGTGTCCTAGCCATTCCAGCCATGGCTGAAAGAAGCCAACGTCGAG
TCAGGCCGTGGCTTCAGAGCGTGCAAGCCCCAAGCCTTGGCAGTTGCCACGTGGTAGAGCCTGCGAGTGCACAGAAGTCAAGAATTAGGGTTTGGGAACC
TCCGCCTCAATTTCAGAACATGTACAGAAATGATTGGATGCCCAGGCAGAAGTTTGCTACAGGGGCGGGGTGCTCATGGAGAACCTCTGCTAGGGCAATG
CAGAAGGAAAAT


SNP Information

Context             (SEQ ID NO:36759):
CCATTCCAAGAAGTAGAGGATGAAACAGGATTTAAATTTCTGGGAATTTTTATATCTTACCTAAAAACCCTTGAGGCTTGAATGGGGACATTCCAAGCAT
K
CAGAAGGCCACTGTGTCACTTGGATAGTAGGCCCGTGAGGTCACCTGGAACTGTGTTTTCCTCTCTGCCCTACAGACCTGTCTCCTCCTCTTCCTAGGCA
Celera SNP ID:            hCV1260388
SNP Position Genomic:     19254
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36760):
CCTGGCAAGCACCAGGGAGGAGAACTTCTATGTGGACGAGACAACTGTGGTGAAGGTGCCCATGATGTTGCAGTCGAGCACCATCAGTTACCTTCATGAC
K
CGGAGCTCCCCTGCCAGCTGGTGCAGATGAACTACGTGGGCAATGGGACTGTCTTCTTCATCCTTCCGGACAAGGGGAAGATGAACACAGTCATCGCTGC
Celera SNP ID:            hCV22273282
SNP Position Genomic:     19474
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,1)   caucasian(G,5|T,11)   total(G,8|T,12)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,17)   caucasian(G,15|T,15)   total(G,20|T,32)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36761):
TTAATGACTCGGGGGAGAGGACTACCAAGCGGTGAAGGCCACTGGCCCCTCTAACCATTAACCACCCAGGAAGCTGGCAAACAAAATTTAACAGGCAGCA
Y
CCACCGCAGGCTTACTGTACACATGCTAGGGTCCAGGACAGCAGGACCAAGCCAGCAGAAACAGCCTGAGCCCACCGCAGACTGTGAGTAACACCTGAGA
Celera SNP ID:            hCV27852385
SNP Position Genomic:     6003
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,2|T,36)   total(C,2|T,70)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:36762):
TGGGAATTTTTATATCTTACCTAAAAACCCTTGAGGCTTGAATGGGGACATTCCAAGCATGCAGAAGGCCACTGTGTCACTTGGATAGTAGGCCCGTGAG
R
TCACCTGGAACTGTGTTTTCCTCTCTGCCCTACAGACCTGTCTCCTCCTCTTCCTAGGCACATGGACACAGCCCTTTGACCTGGCAAGCACCAGGGAGGA
Celera SNP ID:            hCV1260389
SNP Position Genomic:     19294
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36763):
TTTGGTATTAAAAAAAGACTTCATAGAATTGAACGCAGAGCAAAGTTAATTTGCAGCATTTCTGTGTTTACTCAGCTCTCCTGACAAAGCCTCCCATTGG
Y
TAATGACTCGGGGGAGAGGACTACCAAGCGGTGAAGGCCACTGGCCCCTCTAACCATTAACCACCCAGGAAGCTGGCAAACAAAATTTAACAGGCAGCAT
Celera SNP ID:            hCV15875920
SNP Position Genomic:     5903
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,18)   caucasian(C,4|T,14)   total(C,6|T,32)   
SNP Type:                 TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,26)   caucasian(C,9|T,21)   total(C,13|T,47)
SNP Type:                 TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,531|T,970)   total(C,531|T,970) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:36764):
GGGCATTGCAGACTTGTTCACCAACCAGGCAAATTTCTCACGCATCACCCAGGACGCCCAGCTGAAGTCATCAAAGGTAAATGTCATGGGAACCCACCTT
K
TCTTCCCCCTCCAAAATTCACAATATAAATATAATACTAGGAAGTGGCACTGAGTTCGTTCATGAATGAGCCTCTAGGTCCCTGGCTGAGAACCCCAGGT
Celera SNP ID:            hCV16178710
SNP Position Genomic:     23312
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,28|T,1473)   total(G,28|T,1473) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36765):
AGGATGCTGGCCGCGGGTCAGGGCCTGGGAGGGCTCAGCTGGCCCAGTGCAGGGGTATTCTTCTGAGTCACGCAGACCTGTCTCCACCATGGCTCCTCAC
Y
CAGTGACCTGGGGCAGAGATAATGCACAGAGAACAGAACTGTCTGCACTGTACCACATGTCATGAGGTTTCACTACAGAAGGTCAAGAACTGTGCCTGGC
Celera SNP ID:            hCV15875921
SNP Position Genomic:     6573
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,537|T,963)   total(C,537|T,963)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36766):
CTGCCACTTGGATAAGAATCCAGCAAGTGACCTTCTCTGACCCTGGATTTACCTTCCTAAAACCAAGGATGTGAAGGGTCCCAGCAATGAGTCAGGAAAG
Y
GAGAACGCACAGCAGGTCTCACTACCCATCTTCATTCTGTACCTAACAGGTGGTCCATAAAGCTGTGCTGCAACTCAATGAGGAGGGTGTGGACACAGCT
Celera SNP ID:            hCV16178711
SNP Position Genomic:     24705
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,596|C,903)   total(C,903|T,596) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36767):
CACCAGGGACTCTGAGTTTGAGACTTGAGGTCTAGCACCACTTCCAGAGCCCTCAGAACTGGGACCCACTCTAGGCATGGGGAGCCAAGGCACAGTCTGA
Y
CTACCCCCAAATCCAAGGACCAGTACCCTCTTGGTCTCTCCCTACTTCCTTGTTTAGAAGCCAGTCTCAGAAACAGAGCTCATCCTCAACCCATTCCAAG
Celera SNP ID:            hCV15875922
SNP Position Genomic:     19063
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,627|C,834)   total(C,834|T,627) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36768):
AGACACACTGCAGGGGTTCCAATCCCAGCTCAGCTTCTTCCTAGCCATGGGTGCCACTCACAGAGCCACCAGAGCCTGAGTGTGCTTGCTGGAAAGAGTC
R
CTGGAAGTTCCCACCCCTTAGGGTGTTGTGAGCTCACCAATATCACCTGTTACTTATTTAGCCAGGTTATGAGTTACCAGAGTCTTTTGATACAAGCTAG
Celera SNP ID:            hCV7586203
SNP Position Genomic:     24154
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36769):
GCCAGGCCCAGCCCTGGAATGTCTAACTCTGTCTGCTTACCCCGAGCAGCCAGGTGGACCTGTACATTCCAAAGGTCACCATCTCTGGAGTCTATGACCT
Y
GGAGATGTGCTGGAGGAAATGGGCATTGCAGACTTGTTCACCAACCAGGCAAATTTCTCACGCATCACCCAGGACGCCCAGCTGAAGTCATCAAAGGTAA
Celera SNP ID:            hCV7586204
SNP Position Genomic:     23191
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,9)   caucasian(C,30|T,6)   total(C,45|T,15)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,2)   caucasian(C,14|T,6)   total(C,16|T,8)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,201|C,1294)   total(C,1294|T,201)   (T,-|C,-)   no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:36770):
TTACTCTGTCTCCCTGGATCTCAGTTTTCTCATCTGTAAAATGGGCCCCAGGATGACCCATTAAGTGAGGTCACATAAGCCAAGCACTGATAACAGCCAC
R
TCTGGTATTCACAACAATATTGTGGGGTGGATGGAGTTTTCACCCTCATCTTAGAGAATTAACGCAGGAGAAGGTGAGACATGCAATCTCCCCAGAGCTG
Celera SNP ID:            hCV7586205
SNP Position Genomic:     7349
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36771):
AACCTAGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCACGCATGATGGCACACGCCTGTAGCCCCAGCTACTCAGCAGGCTGA
Y
GCATGAAAATTGCTTGAGCCCAGGAGCAGAGCTTGAAATGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCACCAGAATGAGACTTCTCTTAAAAAA
Celera SNP ID:            hCV1260401
SNP Position Genomic:     28484
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:36772):
GGAGAGGGTCTCGTGCCTTCCCTCCCATCTGCCAAGAGAGCCGGTGCGAGTTCACTGACACCCCTCAGTTTCAGTGTTTTAGACATCTGCTCTCCCTCTG
R
GGAGAAGGCACAAGAAGAATTTAAAAATAACACTAAGGCCTTGACATGTTAAAAAGCGTAGATGCCCGTGCTGCCCCTAGTGTGACCCCACTTACCTTTC
Celera SNP ID:            hCV26732399
SNP Position Genomic:     22453
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36773):
TGGCAAGCACCAGGGAGGAGAACTTCTATGTGGACGAGACAACTGTGGTGAAGGTGCCCATGATGTTGCAGTCGAGCACCATCAGTTACCTTCATGACTC
R
GAGCTCCCCTGCCAGCTGGTGCAGATGAACTACGTGGGCAATGGGACTGTCTTCTTCATCCTTCCGGACAAGGGGAAGATGAACACAGTCATCGCTGCAC
Celera SNP ID:            hCV9841650
SNP Position Genomic:     19476
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,3)   caucasian(A,4|G,12)   total(A,5|G,15)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,12)   caucasian(A,8|G,20)   total(A,16|G,32)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36774):
CATTGATGCAACTCCAGCCACATTTTGGTATTAAAAAAAGACTTCATAGAATTGAACGCAGAGCAAAGTTAATTTGCAGCATTTCTGTGTTTACTCAGCT
M
TCCTGACAAAGCCTCCCATTGGTTAATGACTCGGGGGAGAGGACTACCAAGCGGTGAAGGCCACTGGCCCCTCTAACCATTAACCACCCAGGAAGCTGGC
Celera SNP ID:            hCV11665545
SNP Position Genomic:     5880
SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,13)   caucasian(A,8|C,30)   total(A,21|C,43)   
SNP Type:                 hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,16|C,14)   caucasian(A,8|C,30)   total(A,24|C,44)
SNP Type:                 hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:36775):
TGAGACCCCAAAGGGCCAGATTTGAGGCTGGAGGCAGAACTGTCACCAGGGACTGGGTCACAAAGACCCCCTGGGCTACATTAGTGAGAATCAGCCCTGT
S
GTGGGCAATGGGGAGTCCCTGAAAACTTCAAAGCAGAACCGATCAGCTTGAATTTTTGAGAATTTAAAAAGATGCAGCTGCAGATGGGTAAAAGGGCTGG
Celera SNP ID:            hCV11471514
SNP Position Genomic:     8016
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,14)   total(G,14|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36776):
TATGCGTGGGTGTGAACCTGTGTCTGGGCGATGCTAGGGATCCATTTGCCATCTCTTCCTCCTTTCTACCCACCAAAGAAAACCTGTAATTTAGGTGTAA
Y
ACCACAAGGGGGTGATAACGCACCATGATGCAAACAATGCATTCCAGCTCATACTCCACTGAAAATGACGGGAAGGACTATCTATCTTTCTTTACACCAA
Celera SNP ID:            hCV29215798
SNP Position Genomic:     21750
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36777):
TAGGGGCTAGAGCAGCCAACAGGGGTTGTTTTCCACCCTGGTGAGATAAGGGAGACACGCAAGGAGGGTTTTGGGAGACTCAGGAGAACTAAGGGTTTTG
S
GGGGGGAGTTCCCACCTGTCATTCTTGAGATTCTGCTTTTGGAACACACCAGGGAAGGGGCCTCTAGGGAATTCCAGAGCAGAACAGTGGTTCCCACGCT
Celera SNP ID:            hCV11471515
SNP Position Genomic:     8618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36778):
TCAGCAAAGCAAGAGAGAGTCCTGTTAACAGGCCCTCATCTGACTGACTGAATCCCCAGATTACCACATCGGATCAGGAGAGAGAGGCCAAGCTCCTCCC
Y
GCTGCAAAGGGCACAAACTTCCCACAGCTCCACCCCATTCTCCCAGTGTGCAGGCCAACTGAATGTTCTCCAGGCACCTCTTTACACTTGACTGTCTCAA
Celera SNP ID:            hCV2943826
SNP Position Genomic:     11898
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36779):
TGCCCACGCATCTACCTTTACCAGAGGTCTTTTATTTCTTCATTCAGCTTAAAGTTACTGTCCAGTGTCCTTTCATTTCAATCCGAAATAAAATGCCTCT
Y
ATTTCTTGCAGGGTAGGTATTGTGGAAAAAAGCTTACTCAGCTTTTGTTTTTCTGGGAATGCTTTAATTGTGTTTTGCTTTTCTTCCAGCATTTTGAACA
Celera SNP ID:            hCV2943827
SNP Position Genomic:     14234
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36780):
TATTGTTTTCCACACATTGTAGCACTTTATATTCCTACCAGCAATGCATAAGGGTTCCAATTTCCCCACATGCAATGCTAACATTTAAATTAAAAAAAAA
W
TTTTTTTAAAGGAAATCTTGCTATGTTACCTAGGCTGGTCTCAAACTCCTGGCCTCAAGCATTCCTCCTGCCTCAGCTTTCAGAGTAGCTGGGATTACAG
Celera SNP ID:            hCV11471516
SNP Position Genomic:     10061
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36781):
TATTAAGCTAGGTTACAGTTTGCTACATGAGGAGGCAGCTTTAGCCCATCTTTAATTTAATTTAACACAACACAACCTCCTGGAGCACTGGTTTAAATGA
K
GGTTCCCAGCCCCTCACCCAGAATGGCTGGTTCAACAGTGGGTGGTGCAGTAAGACCTGCTTCTCCTGTAAGCATCCTGTATTTATTGTGATACAGGTAG
Celera SNP ID:            hCV11665548
SNP Position Genomic:     9147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36782):
TGAACCCCATTTTGTATTTTGTTTTGTGTCAAACTATATACATTATGCTTACTCCTAGAAAAGAAATACTCCATAAAAAGCAAGCAGCAAAATGTTAAGG
W
CGAAAAAAACCTAACAATGAAAAATATTTTACCCACTTTGTTTTTTTGCTGTAAGTTAGCCACAAAATACAACTGCCCTCTGGTTCTGAGGATTTTAGAC
Celera SNP ID:            hCV29215799
SNP Position Genomic:     17977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36783):
AATCCCCATAATAACCACAAAGGGATGAGAATAGAATTATTAAAGTGTTTCAATACAAAAAAGCATTTCAGTACAAAAACTAAATACAAAAAAGGACAGT
W
ATATAGGAAATGAAGAACCAAAAATGTTATATCTTCTTGCTGTACTGAAAACTTTATTAATATGTCATTGCCCTGTCTTTTGGAACTTTTTTAATTCAAA
Celera SNP ID:            hCV11665549
SNP Position Genomic:     13534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36784):
GTGTGATGATAGAAATGTAAAGCTGTAAACACATTAAAAACAAGAAGATCTCAAATAAACAATGGCATATATTCAAATTCAGGTGTTAACTTTAGGATGC
T
AATGTAATCCCCATAATAACCACAAAGGGATGAGAATAGAATTATTAAAGTGTTTCAATACAAAAAAGCATTTCAGTACAAAAACTAAATACAAAAAAGG
Celera SNP ID:            hCV11471518
SNP Position Genomic:     13428
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36785):
GAGTGCAATGGTGCGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCTATTCTCCAGCCTCAGCCTCCCGAGTAGCTGGAATTACAGGCACAC
R
CCATCACACCCAGCTAATGTTTTTGTATTTTTAGTAGAAATGGGTTTCGCCATGTTAGCAAGGCTAGTCTCGAACTCCTGACCTCAGATGATCTGCCCAC
Celera SNP ID:            hCV1260372
SNP Position Genomic:     6975
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36786):
AATCCCCTATAGCTATGTGGAGGACACAGTTCTTAAACCATCCATAACTACGCTTGAGTGTGTACACATATATATGCGTGGGTGTGAACCTGTGTCTGGG
M
GATGCTAGGGATCCATTTGCCATCTCTTCCTCCTTTCTACCCACCAAAGAAAACCTGTAATTTAGGTGTAATACCACAAGGGGGTGATAACGCACCATGA
Celera SNP ID:            hCV15841255
SNP Position Genomic:     21678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36787):
TTAAAAATAACACTAAGGCCTTGACATGTTAAAAAGCGTAGATGCCCGTGCTGCCCCTAGTGTGACCCCACTTACCTTTCTAGAAACCCCACCTGCTTCA
Y
CTGGTAGAAACTGCCAGCTGAATCAGATTCTTGCAGAATCACAGAGATTTCGCACCCACCTGCCCTGGGAGAGCCTGTGTTCAACCACCTTTGTGTGCAG
Celera SNP ID:            hCV27483374
SNP Position Genomic:     22574
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,322|T,423)   total(C,322|T,423) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36788):
TCTTACCTAAAAACCCTTGAGGCTTGAATGGGGACATTCCAAGCATGCAGAAGGCCACTGTGTCACTTGGATAGTAGGCCCGTGAGGTCACCTGGAACTG
Y
GTTTTCCTCTCTGCCCTACAGACCTGTCTCCTCCTCTTCCTAGGCACATGGACACAGCCCTTTGACCTGGCAAGCACCAGGGAGGAGAACTTCTATGTGG
Celera SNP ID:            hCV1260390
SNP Position Genomic:     19308
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;JBIC-allele(C,198|T,1299)   total(C,198|T,1299)
SNP Type:                 INTRON


Context             (SEQ ID NO:36789):
ATCTGTAAAATGGGCCCCAGGATGACCCATTAAGTGAGGTCACATAAGCCAAGCACTGATAACAGCCACGTCTGGTATTCACAACAATATTGTGGGGTGG
R
TGGAGTTTTCACCCTCATCTTAGAGAATTAACGCAGGAGAAGGTGAGACATGCAATCTCCCCAGAGCTGGCAGGGGAGCCCATCCTACCATTGGCATCAT
Celera SNP ID:            hCV1260374
SNP Position Genomic:     7380
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36790):
CCCAGAGCCTCAGCACTGTCTGACTTTGGGAACCAGGGATCCCACAGAAATGTTTTGGAGAGCGGGAGGTTTCCCCCAATCTCCTCCAAGTTCTTCTCCC
Y
CCAACCAGAGTTGTGTCTAACTTTAGGCATCTTTTAATAAATGTCATTGCGACTCTGATGACCGGTGTGGTTAAAGAGAAGGGCAGGGGCGTTCTGGAGG
Celera SNP ID:            hCV7586199
SNP Position Genomic:     25052
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:36791):
TGAGGTAAATGGAGGCTCAGCAAGAAAACATGACATCCCCAAGATCACACAGGAAGCTGTCGACACAGGAGGGCCACAGGCCAGGCACCTACCCATCCCA
Y
CAGACCACACAGAGGGGAACTGTGAAAACCAAGTTGTCATGGCAGAGCTGTGAGTGGCCCCTGGCAAAAAGAAACAGGAAAAGTGGTAAATGTCTAATTG
Celera SNP ID:            hCV1260392
SNP Position Genomic:     23538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36792):
ACAATTATCTTTTCAAGTTCCTTGACTAGCTGCTTGCAGTTCTTTGGTGTATATACTCGAAGCAAAATTGTTGGGTCAAATGACAATTTGTTTAATTTTT
R
AAGAACTGTCATATTGTTTTCCACACATTGTAGCACTTTATATTCCTACCAGCAATGCATAAGGGTTCCAATTTCCCCACATGCAATGCTAACATTTAAA
Celera SNP ID:            hCV1260377
SNP Position Genomic:     9949
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36793):
AGACTCCAGTGCAGCCACGTGGTGGAAGAAGATTTACAGACAGAAAAAGGAAAGTGATGTACAGAAAACAGAAGAGAGGAACAGAAACAGCCGGATTGGT
Y
ATAGGTTGATGTTTGTCTTATTTGGCTACTTTTGATCAGCCAAAACTCGGTGACTGGCACAAGTGTAGGCTATGGTCTGTTCGTCCCTCCACTTGTTATA
Celera SNP ID:            hCV1260393
SNP Position Genomic:     25788
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 TFBS


Context             (SEQ ID NO:36794):
CCATGCCATTCTGCCTATCTCTACAGAGAGCAAAATGATGAGTAAAGCAGCTCTTAAGAGTACCCAGCCATGGTCAGGTGTGGTGGCTCATGCCTGTAAT
M
CCAGCACTTTTGGAAGCTGAGGTGGGCAGATCATCTGAGGTCAGGAGTTCGAGACTAGCCTTGCTAACATGGCGAAACCCATTTCTACTAAAAATACAAA
Celera SNP ID:            hCV27874130
SNP Position Genomic:     24016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36795):
TTTTGTGGTTTATGGTTTCAGATTGTTTTCATTTTGAATGATACCTTCAGAGATCTATTTGATGCTGGGTGCTTCTAGAGAAGTTCATCCAGTTCTGTGA
R
TGCACATGGAAGTGTCTGGGAATTTGACTTCTCTCCTGTAGGGAAGTCATGTAGTCAGCCCTGTGTTTCTGAGCAATCCCCTATAGCTATGTGGAGGACA
Celera SNP ID:            hCV16074793
SNP Position Genomic:     21503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36796):
CACTGAAAATGACGGGAAGGACTATCTATCTTTCTTTACACCAAAAATAATCTTTTCATGAAAATACTTCAATGTGAGCAACATTAATCAATAATACATA
M
CTTAAAGCCCCATCACCTTGCTCTCAGAGAGCTGTCAACAACGCAGCAGGCGGCAGATGGCAAAACTAGTCCTGGCCTTTTCAGTTCTGTTGCCTCCCAG
Celera SNP ID:            hCV16074794
SNP Position Genomic:     21907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36797):
CAGATGGCAAAACTAGTCCTGGCCTTTTCAGTTCTGTTGCCTCCCAGTTGTGTGACTTTGGGGGAATTCCTCAACCTCTCTTAAGTGTTGGTCTCTCAAC
Y
TGGAAATTAAAGATGTTGATTCCGACTTCATAGGTGCGTATGTGTGTGTGTGCACATGCATGTGTGAGAGAGACAGAGAGAGGAGAAAAAAAAAGTAAAG
Celera SNP ID:            hCV16074795
SNP Position Genomic:     22061
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36798):
TAAATTGGTCTCCCTTCCTTTCTTTCTGTTACTATTTCCGCACCTGGAGAAGGTACACACCGACTCGCCTCTGGTTCTTCTCCCTCTCCTTTAGAAAAGG
R
CGGCTTCCACTTCACGCAGGATGGTTGCCAGCCTCCGGGCCTCACTCAGGGCTGCTTTTGCTCAGTGAGGAGAGGGTCTCGTGCCTTCCCTCCCATCTGC
Celera SNP ID:            hCV16074796
SNP Position Genomic:     22284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36799):
CAGGGCCAGCAGTAATGAAGACAAATTTGGCTTGGACAAATGTTGTGGTCTAAAAATTTTGCAGTAGATAATCTAGGAGGAAGCTCCTCTACTTTATTAA
Y
ATGTAGGTTTTGTGGTTTATGGTTTCAGATTGTTTTCATTTTGAATGATACCTTCAGAGATCTATTTGATGCTGGGTGCTTCTAGAGAAGTTCATCCAGT
Celera SNP ID:            hCV11665550
SNP Position Genomic:     21395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36800):
TCACCATCTCTGGAGTCTATGACCTCGGAGATGTGCTGGAGGAAATGGGCATTGCAGACTTGTTCACCAACCAGGCAAATTTCTCACGCATCACCCAGGA
Y
GCCCAGCTGAAGTCATCAAAGGTAAATGTCATGGGAACCCACCTTTTCTTCCCCCTCCAAAATTCACAATATAAATATAATACTAGGAAGTGGCACTGAG
Celera SNP ID:            hCV16171393
SNP Position Genomic:     23266
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,2)   caucasian(C,20|T,4)   total(C,32|T,6)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,2)   caucasian(C,18|T,4)   total(C,26|T,6)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:36801):
GGGCCAGCAGTAATGAAGACAAATTTGGCTTGGACAAATGTTGTGGTCTAAAAATTTTGCAGTAGATAATCTAGGAGGAAGCTCCTCTACTTTATTAACA
K
GTAGGTTTTGTGGTTTATGGTTTCAGATTGTTTTCATTTTGAATGATACCTTCAGAGATCTATTTGATGCTGGGTGCTTCTAGAGAAGTTCATCCAGTTC
Celera SNP ID:            hCV11665552
SNP Position Genomic:     21397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36802):
TGGGTTTCAACCTCACTGAGAGGTCTGAGACTGAGATCCACCAGGGTTTCCAGCACCTGCACCAACTCTTTGCAAAGTCAGACACCAGCTTAGAAATGAC
Y
ATGGGCAATGCCTTGTTTCTTGATGGCAGCCTGGAGTTGCTGGAGTCATTCTCAGCAGACATCAAGCACTACTATGAGTCAGAGGTCTTGGCTATGAATT
Celera SNP ID:            hCV1179217
SNP Position Genomic:     15087
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,29|T,5)   total(C,58|T,10)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,1)   caucasian(C,2|T,2)   total(C,5|T,3)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36803):
GCACCTAAGACATCTCTGCCAACTGACACAGGGCAACCACATTGATGCAACTCCAGCCACATTTTGGTATTAAAAAAAGACTTCATAGAATTGAACGCAG
R
GCAAAGTTAATTTGCAGCATTTCTGTGTTTACTCAGCTCTCCTGACAAAGCCTCCCATTGGTTAATGACTCGGGGGAGAGGACTACCAAGCGGTGAAGGC
Celera SNP ID:            hCV27836775
SNP Position Genomic:     5841
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,38)   total(A,71|G,1)
SNP Type:                 hmCS


Context             (SEQ ID NO:36804):
GGGTCACCCTAAACCTGACGTCCAAGCCTATCATCTTGCGTTTCAACCAGCCCTTCATCATCATGATCTTCGACCACTTCACCTGGAGCAGCCTTTTCCT
R
GCGAGGGTTATGAACCCAGTGTAAGAGACCACCCACCCAGAGCCTCAGCACTGTCTGACTTTGGGAACCAGGGATCCCACAGAAATGTTTTGGAGAGCGG
Celera SNP ID:            hCV11665556
SNP Position Genomic:     24916
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:36805):
TCAACAATTCATTTTCCCTCACACATGAAAAATACACCCACCTCCCCTATGACTCCCAAAGTCTCATCCAACTGCAACACCTCCTTGAAATCCAGATACC
Y
TCACTTAAATCAGTCACGGTACAGAGGAGCGTCCTTAAACGTCCTTCCTGAAGTGTGTAGTTTCTCTCAATCTGAAGAAGATTGAGAGAAGATTGAAGAT
Celera SNP ID:            hCV1260362
SNP Position Genomic:     1442
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:36806):
CACCTGGAGAAGGTACACACCGACTCGCCTCTGGTTCTTCTCCCTCTCCTTTAGAAAAGGACGGCTTCCACTTCACGCAGGATGGTTGCCAGCCTCCGGG
M
CTCACTCAGGGCTGCTTTTGCTCAGTGAGGAGAGGGTCTCGTGCCTTCCCTCCCATCTGCCAAGAGAGCCGGTGCGAGTTCACTGACACCCCTCAGTTTC
Celera SNP ID:            hCV26732400
SNP Position Genomic:     22324
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36807):
ATACACCCACCTCCCCTATGACTCCCAAAGTCTCATCCAACTGCAACACCTCCTTGAAATCCAGATACCCTCACTTAAATCAGTCACGGTACAGAGGAGC
R
TCCTTAAACGTCCTTCCTGAAGTGTGTAGTTTCTCTCAATCTGAAGAAGATTGAGAGAAGATTGAAGATTGAAGAGAGAAGAGAGAAGATTGAGAGAAGA
Celera SNP ID:            hCV1260363
SNP Position Genomic:     1473
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:36808):
AGAAAAAAAAAGTAAAGAACATAGACCAGGTGTTTGGGATAAATTGGTCTCCCTTCCTTTCTTTCTGTTACTATTTCCGCACCTGGAGAAGGTACACACC
R
ACTCGCCTCTGGTTCTTCTCCCTCTCCTTTAGAAAAGGACGGCTTCCACTTCACGCAGGATGGTTGCCAGCCTCCGGGCCTCACTCAGGGCTGCTTTTGC
Celera SNP ID:            hCV26732401
SNP Position Genomic:     22245
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36809):
TTCAGAGTAGCTGGGATTACAGGCACGGGCCATCATGCCTGGTGTGCCAACTTATTGTTTTCTGTTTTGTTTGTCTGTTAGTAGCCATCCCTGTGGATAC
R
AAGTGGTATCTCATTGCGGTTTTGATATTCCTAATGATTAGTGATGCTGAGCATCTTTTCATGTGCTTACTGGCCATTTGTATGTTGTCTCTGAAAAGAT
Celera SNP ID:            hCV1260380
SNP Position Genomic:     10240
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36810):
AGTCTTCTCACCCTGACTCTTCATTAGGACAACGTGGCCTAGAAGGAAGGACCATTCAGCAGGGTCAGGAGCCTCAGCTGGGCCGGCCAGGCTGGCAGGG
G
TGGAGATGGCCCCCTCGCTTCCCACCAGGGACTCTGAGTTTGAGACTTGAGGTCTAGCACCACTTCCAGAGCCCTCAGAACTGGGACCCACTCTAGGCAT
Celera SNP ID:            hCV26732402
SNP Position Genomic:     18940
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,4)   total(G,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36811):
CAATGGTGCAGCTCCACAATAGGAAAAGGGCCTAATAAGGCTGCTGGTTTAAGTCCCAGAGTTTAAAGGTCCAAGAAGCAGGAGGCCCAGTGTTCAGGGC
Y
GGTAAACACAGATGTCCAGCTCAGGGACAGAAGAGAGAATTTGCCCTTCTCCTACCTCTTTGTTCCATTCAGCCTTTAATAGATTAAAAATGCCCACCCA
Celera SNP ID:            hCV1260381
SNP Position Genomic:     12519
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36812):
TGCCCTTGTTTAATGCTTGGTGCATGGAACAAGCTCAGCAGTGGTTGCACAGAGGTTCAGGCAACACAACCTGGGGAAAAGGCACAGTAAACCCAGGTGC
R
GGGAGGGCCCTCCTGAGCCTGAGAGATGCCTGAGCACATGTGGTGGAATGGGTGTTGGTGGAACGGGTGCTGGCCTGGTGTCATTCTGTACGAGGTTTCA
Celera SNP ID:            hCV1260382
SNP Position Genomic:     16987
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36813):
TTCAGGCAACACAACCTGGGGAAAAGGCACAGTAAACCCAGGTGCAGGGAGGGCCCTCCTGAGCCTGAGAGATGCCTGAGCACATGTGGTGGAATGGGTG
Y
TGGTGGAACGGGTGCTGGCCTGGTGTCATTCTGTACGAGGTTTCACAGTGTCCTCAGGACCACAGTGGGGCTAAGTGGATAGGAGATCACAGCTTTAGGT
Celera SNP ID:            hCV1260383
SNP Position Genomic:     17042
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36814):
TATTTCTAGCAAGCCAGGATAATAAACAGAAATCAAGATTAGTGTAGGTATTATCACTAAATGTAGAATATGTAAAATGGCCCTGATGTGTTATTTATTT
M
TTTATTTATTTTTATTTTTTTTGAGACGGAGTCTTGCTCAGTTGCCCAGGCTGGAGTGCAGTGGCAGAATCTTGGCTCACTGCAAGCTCCGCCTCCCGGG
Celera SNP ID:            hCV26732404
SNP Position Genomic:     17388
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36815):
TTCCACACATTGTAGCACTTTATATTCCTACCAGCAATGCATAAGGGTTCCAATTTCCCCACATGCAATGCTAACATTTAAATTAAAAAAAAATTTTTTT
T
AAAGGAAATCTTGCTATGTTACCTAGGCTGGTCTCAAACTCCTGGCCTCAAGCATTCCTCCTGCCTCAGCTTTCAGAGTAGCTGGGATTACAGGCACGGG
Celera SNP ID:            hCV26732405
SNP Position Genomic:     10068
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36816):
CACCTGAGAACCCTCTGTCCCTCCCCCTGCCCAGCCTCCAGAGCAAAGCCATGGCTGCAGCTCGCTTGTTTGGTTTGTTGAGATGCTTTGTTTTTTTAAA
S
GGCACATTGAACATTAGGGCAGCCAGCAGTGTTATGAGGCAATCTGGTTAGGATTTTCCAGACCCCGGAGTCTGTGAGTCATCCACAGGGGTTCCGATGT
Celera SNP ID:            hCV1260368
SNP Position Genomic:     6195
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,3)   caucasian(C,13|G,5)   total(C,18|G,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;no_pop(G,-|C,-)   JBIC-allele(G,491|C,592)   total(G,491|C,592)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36817):
TTGAGAACCCTCAAATAATCTCATTTGCCGTGAGACAGACGGACGGTGAGTTTACTACCATTGGCCAGTGTCTGCAGACATCAAGGTTAGTGAGGTCATT
M
AGAAGGGACCAGCATAGCTCTGGTGTCTCTAGACTCCGCAGCCATGGCTGATTTCTCTACATCCATCAGCCTCTCCCTGTTGTCTCCATAAGTAGCTATT
Celera SNP ID:            hCV1260385
SNP Position Genomic:     18195
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36818):
CACAACAGCCACAACAGCCACAGAGTCGCAGCCTGCAAGCTACAATGCATCTGCTCCAGTCGGCACCACCGATGAAGGATGCTGGCCGCGGGTCAGGGCC
K
GGGAGGGCTCAGCTGGCCCAGTGCAGGGGTATTCTTCTGAGTCACGCAGACCTGTCTCCACCATGGCTCCTCACTCAGTGACCTGGGGCAGAGATAATGC
Celera SNP ID:            hCV1260369
SNP Position Genomic:     6498
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,5)      total(G,4|T,5) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36819):
GGGGAGCAGGTCACACCTGCCTCTATTATCTAAAGCAGAGAACTAGGGGCTAGAGCAGCCAACAGGGGTTGTTTTCCACCCTGGTGAGATAAGGGAGACA
Y
GCAAGGAGGGTTTTGGGAGACTCAGGAGAACTAAGGGTTTTGCGGGGGGAGTTCCCACCTGTCATTCTTGAGATTCTGCTTTTGGAACACACCAGGGAAG
Celera SNP ID:            hCV29215801
SNP Position Genomic:     8575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36820):
GTCATTAAGAAGGGACCAGCATAGCTCTGGTGTCTCTAGACTCCGCAGCCATGGCTGATTTCTCTACATCCATCAGCCTCTCCCTGTTGTCTCCATAAGT
R
GCTATTACAAAAGGTTTGTGGCTGGCTTAGAACCAAGAATTTTGGCTGAGCAATCCATAGATCCCACAGACAGTAGGATGGAGAAAGGGCTACCTGGAGT
Celera SNP ID:            hCV1260386
SNP Position Genomic:     18289
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36821):
ACATCACCTAATTCATACATGGCAGTGCTAGGGCCCCAATCCAGCTTGATCTGCCACGAAACCCAGGATCTTTTCTGGGTTTCGCGACAAAAGAATTGTC
R
CGAGGACCCAGAAATCCAAGTCAGAAACCCGATGGAGAATTCAATAAAGCCCATCATTTGGGTGCGGGGAGTGGGGAGCAGGTCACACCTGCCTCTATTA
Celera SNP ID:            hCV29215802
SNP Position Genomic:     8402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 161
Celera Gene:                 hCG22639 - 103000085279807
Gene Symbol:                 NPHP4
Protein Name:                nephronophthisis 4;DKFZp434K1235;KIAA0673;SLSN4
Celera Genomic Axis:         GA_x5YUV32VY08(2601054..2743822)
Chromosome:                  Chr1
OMIM number:                 601142
OMIM Information:            POTASSIUM CHANNEL, VOLTAGE-GATED, SHAKER-RELATED SUBFAMILY, BETA MEMBER 2;KCNAB2


Genomic Sequence (SEQ ID NO:12321):
AGATTTGAAGCTCACAAAAGTGCAGCAGGTCATTCCAGTAGAATGTGGGCTTCACATGTTCCCAAGAATTACAGAAACCCCCGCAAAGCCCTTCTCGCCG
GAGCTTTCAACCATCACAAACAGCTTCCTCGTGTGCTTCCTTAAGAAGTAGAGGTGGGCAGGTTCACTGACAGACTGAAACGGCTAGGGCTAGGGAGTGT
TTCTCAAAGCATGTTCTTGGAACCCCTGATCTGAGTCACCAGGGACTGGTGGCCAAGGAGCTTGCTAAGCTGCACCAGGACCCCTGAGGGCTGGGCAGGT
GCCACACCCTACAAGCCTGCTGGGCACAYCGATATCTCAGGACCCTCGGCCCACCCAGGCCCCAAGACTCCACAATTCTTACACAGAACGTAAAGCACTA
CGCAGCCAACCTATGCAGGGCAACCAACAAGGCTAAGCCCCAGCCCGCAGTTCACGGGTGTCCCCAGAAATGCCCCCCATTAAGGCAGGAAATGGAAGAA
TGCGCCGTTGAAATCGTCTCTAAAGGGGCGGACGAAAGAGGGTGCTGCTGGCAGTTGCGGTTAAGCAGCAAAGCGGCTTCGTCTACGCCCGCCAGCCCCG
GAGCCACCCTGTGCCCTCACCTTCCTTTTCCTCCTTTCACGGTCAAATCTCTCCAGAGCCATTGGCGGCAAAGTCCAAAGGTCACCAGGGTGGGACTCTG
GCTTGGGGTCCTGGCTCCTGCGCCTAGTAGCTTGGAGGCCTTAGGGAAGCCACTTTGACTTTCAGTGTTTCTGCCTCAGTCAGATGGGTATAAGTTGGTT
GGCGAGTGCTTGGAAGCTGGTGGTGCTGAATCTGGGGTCCTGCGCCCCCTCGCTGCTCCTGGGAGCCCAGCTCTGCTTCCCCTCTCAACAGAGGCTGCCT
CCTTGGCAGCAGCTGGCCCACYGGATGCAGCAGATACCTGCCTCATCCTCTATTTTCCTCTCCTCCCCGGGCTCTGGAAGAATCCAGGGTTCCCTACTGT
CTGTCTTGACCTTCATCTTCCCTCTCAAACCCGTACCCTTGGCGACCCTTGGCACTACCCCCAGGTGACACTGTCAGGGCTGTGACCAGTAGGTAGGTGG
CAGTCACCTCCAGGTCCCACCTCTCCTGTGAACCCCAGCCCTACCTTCTCAATGTCAGTGGGCACTGCTGTCCAAGACACAGACCTCGAAACCCAAGGTC
AACCGAGCCCAGTCCTCCCCATCCAGAGGCCCCGATTCTGGCTCTGCCTCTTTCAGTCTGTGCAGCCCAGGTGGACCCAGCCAGAAAAGCTTGGGGGGCT
CCAGGGCTCTCCTCTTCCCTCCCTCCCCATCACTGTCCAGCCCATGGTGGCCTTGGCCCTGATGCCCTCCCCTAGTTATCCTATTCACCCATATTCATGC
CCTAGCCTGTGACCGCACTGGGCCTCTGGCCATCATCCAGCCTGCCTGGTCCTCCCTCTGTGACCTTGCCCATGCAGAGCCCTTTTCCAGACCATCCTTT
CCTAGCTCTGCCTATCACAACCTGCCTGTCTTTCAAGGTCCAGGTCAAATGTCCCCACTGCCCCCGTCTCTCCTTCCCTATCAGCAGGGTTTTCTCTGAC
CATTCCAGGCATGTGGTCACTGCATCCCTTTCCTGGGTCTCAGCCCTAGAGGAGGGAGGTGGGTCTTGCTCATTCTTGGTCCTTCAAATGTCTGCTGCTA
AGACCTTCGCCCTTCACTGGCATGTATAGGTTTTAAGCAATGTTTTAAATTTAAATTTGTTTTATAATGAATAGATCGAGCTGAATCTCCTTGCCCATGC
ATTCTAGTTATTCCTTACCCTCCTGCATCTGGGAGGGGTGGCAAGAATATCACTTTCAGAGAGCCCCTGCCACGGCTGAGTGTTTGGGATCACAGGGCTC
CGAGGCAGAATTCTAGAGTCTTCTGTCCTAGGCTGCATTGAGAGCCTGTGGATACCAGGGCCTGAGATTGCAATGAAAGATCATGAAGCTGCCCGGGGGT
GGAAAATGAAAACACATTCATGGTGAAGGAGGGGGAGCATGCTCAGAGCATGGCTCTGCAACCCACTCGGTGCCCAGGGGCTGCTGGAATCAGACAGACA
GGTGGGCAGGTGTGCAGTGGGGGTCTGGCAGGCTTGCAGGCCCTCCACGAGGCCCAAGGTCAGGGAGAATAGGGCAAGGAGTGTCCCTCCCTCAGAGGGA
GGCTATTCCCTGCAGACCAGGGCAACGGGCTCTCCCCTCCTGCCCTCTCTTCCCCTTCCTTCCCTCCATCCTTCTCCACTGTGAAATCACTCAGCAGGGC
TCTCCAGCTGAGAGACTGCCAAGAGGTCCCAGGAAACCACGCAGAAGGAAAGCCAGGTTCCTCTGCTCCGGTTTTCCTGGGGGCTCCGTTGGGCTGCCCA
GGAACCACCTGAGCTCCAGGCAGGATGGTGGCTGGGGCGCCTCGTCCGACTGGAAGAGGGGGAACTGACAGTTATCCAGCACCCACTGTGTGCCAGGGAA
GCCCCAGGCTCCTACCATTGAGGCACCAGTTCACCCATTCAGATAGAGGGAGACACGAATGATCCGTGTGGCTTAGCAGGCCAGAGAGCCAGAGACTCAG
AGAGCTAAGTCTCTGGCAGGGAAACAGCCCAGGCTGGTGACTCAGGACCCCTGCGGACCAGACCTCAGGGGTCTACAGGACCCAGGAAGTTGCTCCAGAA
AACTGGCCCACGTGGAATGGGTTGAATCTGGTGCGGGGTCTGAGAAGAAACCTGTGCCCAGCTCCCAGCCATGGAGTTGGATGATAGATCTCGGCTGCTC
GGCAGTCAGGGCTCAAGATCACAGCCAGGAAAGCCTTCTCACTGGGTCCAGGTAAAGGCGGACGGCCAGGAAGGTGGTCCCCACCATTTCTCCACTTTTC
CCCTTTTCCCAATCCTGTTTTGTCTACAACCAGCATGGCGTCAAAGCAGTTAGCTCTGTGGGTACCTGTGTGCTGGAGAAGTGGAGGAGGCTGCCTGCAA
GGAGACAGGTGCCGGGGAAGCCGGCAGGGTGGGCATGGGGTTGCTCTGTCACTGAAGACACGCAGAACCTGGGTCTCTGGGGCTAACCATGTGGTCACTG
CGCAGAGCAGGGAGTAGCCTCCTGAGACGCTGGCCAGCAGGGGTCTGAGTGGAAACCTGGGTGTGGCAGTGGCAGGGCACCCTCAGGCAGGGAGGGGCCT
GAGCCCAGGGCTCATCCCATGGTGGGTGTGCAGGAAGAGGGAGGCTGGCCTTCATCTGAGTTCCCCAGGATGTGGCAGAGGACAAGAGGGCCCAGCATCT
GCTCAGGCCCATGAGACAGGGAGTCTCACGCATCTSCCAAGCCCAGGCAGGCAGGAAAGCCTCGAGCCAGTGGGCAGTGACAGGACGAAGCCCAGGTGTG
CCACCCCATCTCCCCCAGTGTGCTCTCTCCTGGGGAAGAGGGTCCTGTTCCCTTTGCCTCCTCGGGACTGGCTGAGCGGAGATGGTGTATCCCTTAATAG
ACTCACCCGAAGATAGACCAGGAGGGGCCTGAACATGGCGGGTCACCCGTCACCAAGGAAAGAGCAGTGTGGGGCTTCCCACGCCACGACAAAGGAGTGC
TTCCATATCCCCCAGGGTCTGGGCCTGGGCCTCCAGGGCCTCTTGGGAGACTCACTCCTGCAGAGGTGAGGATTTCAGGCATTCGATGGAGCTCAGGTGA
TGGCGGAGGGGGCACCTCTCACAGAGTTCTGGCAGGGCAGGAACAGAATCAAGGTTTCCTCACTAGCTGGGAGGCCAGGATCAGTTTCACTGCTGCTCTG
TGCCTCAGTTTCCCTATCCAGCCTCCCTCACAGGGTTGTTTACAAGTGCCGGAGGCGAACTGAGGTCATGAGTGTAGTTCCAGTGTGGGGAGGGTCCCTC
CTTTCCTTCATCCCACCACGGACCTGGTGCCCTCACTCTTCTCTAACTATGGGGCCATCTCTTTGAAGGCCACGAACAACAGTACCCTTGCACCAGGGCC
TGCATGCCAGGCAGGACTGAGTCGCTGAGAAATCTCCATGGTAGTGGCACCTCCCAGTCCCAAAAGCCCCTCCAGTGACCTGGACACACCCAAGGGCACT
GGCTGCGCCCATGAATGTCAGCAATGCCTCCAAGTGGCCTTCTGAAGGGACAGCCGGTCATGTCCTCGGGGTGCTGGCTTCCCCCAGCTCGGACAGCCAA
GGCATGAACTGGGCTCAAATAAGTAGGAAGTAGGGGGTCCAACCCAGCTCCGTCACTGCCTCTGTTGACCCTGGAGAAGCCTGTCCTTCCGTTTAGTCCT
CTGAGAGCAAGGATGACCGGCTGCTGGGTGCCAAGACCCAAGTCCTCCTGGTGGTGGGAGGGGGACTGGCGGGAACATGGGGTCTATGGCCCTAGACACC
TCTGGCATCAATCCTTCTCGAATTGCCGCCCCGAGCTGCCCACTGTCCTGCCTCCTTATTCAGGGACGCCAGGAAAACATTCACTCTGGGACCTCTGGCG
GCGTGAATATCACTGAGAACTTAGCCGAGGACCAGACACATACCGCACCTGGCCAGAGTCCCTGGAAACAGAAGCACGGTCCCCTGGTTCTCGCGAGGGA
GCAGGCTCTCCTTCCACACAGATGATGTGTTCCCAGTTACCACGGCAGAGCACCAACACACAGGAAGGTCTAGGGGAGGCCCCTCCCTCCAAGCCCAGGC
CGGAAACTGCCAAATCAAAACTGTGTGGCACTCGCTTCCTCCTGAACCATTTGGGTCTTAGAAGATGACTGAAAAATGAAAGCGAGGAAGCCTTCTCTAG
CTGGCCAGCCCATGGCACCCTCGGCCTTTCCAGCTCTCTAGCGCCATGGCCCACGTCCCACCTCCCGGGTGCAATGGCTTCTGTGCACACTGCTTCCCAT
CCAGGCTCCAAATCCAGACCCAAGACGGTTCTCAACCAAGAAACACACGAAAAGGGTTTCACACTTTTTCACGACACCCCCCAACTCCAGTGCCTGGCTC
AGCCCCCAGGTGTTGACTAGCACCTMCAAAGCATTTGCTGACTGGCGCAGGGAAAAAAAAAATGGCCCTGGGTGTCAACAGGGAAGCCCCTACCATGCTG
CTCTCGAGGGATGTGCTGCGGCCCGAACACTGTCAGTGCCACTGAGGCCGAGTGTGGCCGTGGAGACAATGACAGGACCTGGAGGACCAAGTGCACTCTT
AGGGCCCCACACTGCGAGAGCACAGGGCCAGGAGCTGCACAGGGCTCTGCAGCAGACACGGCCGCCAGGCGAGAATCAGGTGGGCAGATGTGACTCTCCA
CACGTAGGTCCCCAAACCCTGCAACCTGCAACGCGGGGCCTGAATGCGGCTTCCTTAGCAGAGCAGGAGCTTACTCTTGGCACTGGGGGAAAGGGGAGGG
GTGAGGCTGGGGTTTTTGTCGGGGAGGAGAAGTTGCAGAGAAAGAAAAAATCCTGAAACGACAGACAGTGGGACAGCTGTGGCCTGAACTTGGTGTTCTT
GCTCCTCGGATGTGGATGTATTAATTTCCATAAATGCTAATAGCCCACTTCCCCAAGAGCTATTACTTATGTCATCTCCCCTTGGACACAGTTCARCACA
GGGCAGACAAATGAAAGGGAGGAAAAGACAACCCCCAGTGGCGGTCCCCAGCTCCTCAGCCCCCTCCCAACCAGGCAGCTCAGGTCTGGTTCCTAAGGTG
GCCCTGCTAACCGCAGGGTCAAGACCCCTGCCTTCAGCTCCGTAGCCAGGTCCCTATCACGACAGGAAGCAAGAAAGTTACCAACCCCAAAAATGCTGAA
TCACAAAGTGAGGCTGAGCAGGAAAGTGGGGGTGGGGAGGGAAGGAGACGGTGGCCAGGGAGGAAAGGTGCTAAGGGGCTTTCCACCTGGAGCACCCCGG
GATGCTGCGGGCAAAGCACAGTCCCTGTAAGAGCCCCCAGGACAAATGCCAGGAGGAGGGACACCAGGATGCGGCTGGTTGGCGGGGTGGGAAGGTGGGC
AGGTACCCCGGCTGCTGCTAMTGCCGCAGGACGCGGTGCAGCAGTGGGGTCTTTGCATCCTGGGAGCAGCAGCAGGTAGGGAGGTGCGGAAGTGCTTTGY
GCCAAGGCCTGGCAGGAGGGAGAAGCTTAAGATAGGAGTAGGGGCTCAGGGTCAGAAGTGGCGGTGTGTGTGCTGTAAACAGCCCGAGGAACTGGTGCAG
GAAGCAGGGTCACAGTCTTGGGGAGCAGGGTAAGGTGGTGAGAGCGTGCCCGCGGGGAGAGGTCGGAGGGGCTGGGGGCAGAATGGGAGGGTGGGGAAAG
GGACCGGAGCGACACAGGGACAGGCAGCGAGAACGACGGATGAGCCTTGAGAAGCGATCAGGAGGAGAGATGGGGAGGACCGGGAACAGCAGCGCCCCGG
TGGGGCTGCGCAGAGGCCGGGAGAGGGGATGAGAGGAGGATGGAGGAAAGGGGAGGGCGAGGCTGCTAGGACCGGAGCGGGCAGAGATGGGGAAGAGGTG
CACCGGGAAGAGGGACGGCGGCAGGGGCAGGGGTCAGGGATGCGAGCTGAAGGGTCGGGCGGGCGGGAGGACAGGGAAGGAAAGACAGAAAGGGATGGGG
GAAGGGAGACGATGGAGAAGGAGGTGAGGAGGCTGGAGAGGAGGTGAGACAGCGGCGGAGGCAGGGACGCAGGGCCGGGGAAGAAGAGATGGAGACGGGA
CCGCGGCGCCTGCCGCAGCGCGGGCCTCGCGGATACCCGCCGCCGCCGTCCCGGAGCAGCTTGGTGGAAAGCGCGCCCCGCCGGGGTCTCCCCGGTACTC
ACCTGGGGGCTCCAGCTCCGGATCCTGTGCCCCGCGCCGGATCTTCCTTCCCGCCCTGCCCCTGCGACTTTAGCGCCCCCGAATCCCGCTAGCTCCTGCA
GGTTCCGCCAGCAGCATCTTCACCTCGTGGGACGCCCGGGGCCACGCCTCTTCCAGCTTCTGATTGGCTATTGTTCACGCCAGTCACATTACCATTGGTT
GAGGGGTCGTCGGACATGCAAATCAGGATGGGCCCGCCGCCGCACCGATTGGCTGGCGCTCGCAAAGCGYAGCCCTCGACTTGGGCTCTGATTGGCTCCG
CGGCCCTGACGGCGACAGTGACGCGAGGCGGGTTCTTGGACTGAGTGTGCGGCGCGGTGCGCCGCCTTCCGAGGCTCCTCCCGCGGGTGGCAGCGGACGG
GGCGCGCCCCTCGGCCAGTCCTCGGTCCTCAGGCTTGTGGCTCCGTTGAGCACCGGCCGCCGGGCCTCTGGGTCCGTCGAGTGGAGACTCTCTGAAAAGC
GTGGGCTCCGTGGCCTCCGGCGCGGCCGCGGCGGGTCGGTCTCCTAGGTAACGCGGCCCGCGGCGGGCGGAACCATGTGGGCCGGCGCCGCGGGGGAGGT
TGGACGCGGCCTCGAGGCACAGGGGGCCTCAGTGTTGGCCAGAGCCTCGGGGTTCGGGGGTAGGGTGGTCCACGCCGTCCCTGCGTGGGGGCCCGGTGCC
TGGGGTGCGGCGGTGGCGCGCGGCGGGGGCTGTCCCCGCGTTAGTCGCAGGCGTCCCCCSTCGTCGGGACACTTGGGGTCGGGGCCGCTGGGTGCCGTTT
GGCTACGTGGGTTCCTTTCTGCCCTTGCCCTTTGCCCCCTGCCCCCTGCCCCCTGCCCCCTGCCCCCTGGCCTCTCTGCAGCCCCTCGGCTGAAGGGAGC
GCGGTACCGATGTTCTGGGCCTTGGCTSCCCGCGCCCTAGTCCGCGCGCATCCTTCCCAGGCCGGAGTCCGCGGACCCCGCCTGGCCGCGCCCCTCCGCC
CCTCCTCCCCGCCCCCCGGCTCCAGCTCCGGCTCCGGCTGTCAGTTCCCCGCGGTGGCTCTGCGGCCTTCGGGCGTCCCTGCGAGGCTTTGTACCCGGCG
CCGTCCCGGCCTTCTGCGCCCCTTTCCTGCCTTGGAACCTCCCGGCCGACCCGGCCCGGAAGGCGCCACCCGCTCCCGCGTGCCCTTCCCCACGCGTGCA
GGCTGCTCCCGCCCGCCCCCGGGCTTGCAGGCACCTCGCTGCCCGAGATTCCTCGTGTCTAACTTCTTAGGAGACCGCTGCTTTCTGCCTCCGTGTGTCG
CGATGTGTGGCTTTGGTGGACGTCTGTGAAGGAAATCCAGCCTCTCGCGTGTGTAGTTGGCAAAAGGAGGAGTATTTCTGTTGATGGTGGGCAGCGCCTC
CCGGTCCTAACCCAGGGCTCCGTTCGTTGCACCTCCTCTGTGCAGTTTCCGTAGGTCACACTTGTGTCTTTTTGTATGCTAATTTGTGCCCCGTTTCTTT
ACATTCTATGGGGGTAGCGAGCTTGTCTGCTGTGTTCAAGACCGTTTCTCCCGGGCGCAGGGTAGGTGCTGAAAGAATGCTCATSAATGAGGGAATTCCA
GGCAGTGCTTAATCAGACCTCTGCTTCCCCAAAAGCTCCCCAAGGCATCTGGGTCTCAGGCATTACACATTTTCCATTCCGGGAAGGAGGCTTCCCGGAC
CCTGACAGCGCCTCCCACCCCCTGCATCTTCCTTCAGCCCTGCTCACCTCTGCACCCTCCCGGGGGCCTGTTGCTGCTCACAGTCACTTTCTTGTCTTTC
TCCCCCACTGGCTTTCTAGATGCTTGAAGACAGCACATTTGACAGCCTTCTTATGCACTGGAACACAAGTGCTCGGGAAATAGTTGCTGAATAGATCAGC
AGAAGCAGAGATCTCAAGGAGATTTCACAGCTCTCATTTTGGAGGTTGGAAACAGGTGGGGAGGCTGCGAATCTGTCCTGAAGTTAAAGAGGAGACAGCA
TTAGCCCTGGGTTCCTTTGGTGCTCTTACTTTTTCCCTCTGGGCCTCTCTTCTCCCTTGGCCTCTCCTGGCCTCCTTGATTGAGGTAGTGGGAGGTAGTT
ATAATAGCTTACAGTATTATATCTATAATACTATTATAATAGCTAGTTATAATAGCTAGCTGTGTGACCTTGGATTGGCTGTTTATCCTTTCTGAGTCTC
AGTGTTCTCATCTGTAAGATGGCGATAATGATGATTCTCATTTGGCAGAGTTGTTGGAATAGTAACCATAGAWTGTGAGTTCCTGTCTTGCATCAGGGGC
TCATTAAAAGYGGGTGTATTTTCTTCTTCTTCTTTTTTTTTTTCCCCTGGAGAGCCCACTGTACCCTTTTYTTGGGTTCAAGACCTGGAGCCTTCTCGAT
TTTCTCTTTTATTGTTGATTTGGCCCCAAAGGCCCCTCTGCACTTCCTCCAGGGCATTTGTATTTCATCCTTAAAAGACTTTTGCTGAAGACCCAGCCTG
GTGTCATGGAGCTCACAGTCTCGCAGGACTACAGCACAGCCCTGGTGAAGCGTGGTGGCTCTTCTGTCACCTGCCCTGTGTGGGAGCAGCCGGAGGTGGG
GGATGGGGCTCTCGCTCTGAGGAGGGAGCATTTGGTTTGACTCCTAGAGGCCAGAGCAGAGGTGGAAAGGAGCAAGGAGCAGGTGGAAGGGCACCCGGAG
AGGTTTGTGAGGTGCTGRGATGGCAGTGAGAGCTGCTGCGGGCGCTTGGGCTCCCACCTGCAGAGTCTCAGGTGTCACCTCGGCCTCCGTGGCCCCTCAG
ACTAGGACTGCCCTGCCTCCACATCCCGAGCCTCAGGACTTCCGTGTGGGTGGCAGGTGCTTTCGGAATGGATGCCCTTCYGCCTAGTGTCTGCCCTCCT
AGTACAGCAGGGGGCCGGCATGCTTCATGCTCCCTGTGAGGGTCGACTGGCGTATGCACGTCCTTCAGCAGTGTCCTTGGGCCAAGTGTGGCACTGAGTC
CTGCAGACACCCAGGGAGAGGGCAGGAGGCACCGGGTCAGAAATCTGGGRCAGGTGAGGAGCATGGGCATCTGCGTCAGGAGAGACTTCCTCTCTGAAAT
CCCCACCTGGGGCCATCACGGCCTGCATTGTGTGTGAATACATTTCTGAATGTTATAAAACATCAGTGGGAAAGAAAAGCTTGAGGGTAGCTTTGCTAAA
GCTTCTGTTTGGTTCCGTGACCATTTACTGAGTTGTGACGGTACCAAGAACACAGGAGGAATGAGGCTTCTTTCTTCAAGAACTTGGCCAGCGAGCAATT
CAACACAAGATAGGTGACGAATGATGTGACCAAGGGAAGCACAGGGGCCATGTGAGCCTGGGGCCTGGACCCTGGGAGCACCTGGGAAGCCCTCCTGGGG
GAGATGGCCCTTGAGCTGGTATTGGTCAGGTGTCTTCTGCTTATAAGTCGTGGACAGCTGTATGATTTCCTGTGGCTCCTGTAAGAAAGTCCCACAGACT
TGGTTGCTTAAAAGTAGCACAAATTTGTTCTTTTCCAGTTAGGCCGGTCAGAAGTCCAAAGTCGGCTCTCCCTGTGGTGGCTCCTGGGGCTCTGGGCTGG
CATGGTGTGGGCAGTTGTGGGCATTGGAGGAGAGACATCCTGGGCTCAAGTCTCCCGGGGAAGACTGATGGCTCAGTGTGGGCCATGTGTTCCTCCTTGA
AGCAATCACTGCAGTCTCTGGCTGGAATCGGGGAGCAGCTCTCCCCATACATGGAATTGGGTCAGGGTCCTCCACAAAACAAGGGAAGTTGARCGACAAA
AATAGCCCACAGAGAACAAAAAGGAACAAACCAGCATGTGTGCCTGCTGGATTCACACAGGACCAGACTGAGTCTGGTCCTCAGGAATACCTGGCCCACA
TGCAGCATCTGCGTGCACTGTGGGTGGAGGCGGGACGCTGGGCCAAGGATGCAGCGTCTGGGTGCACTGTGGGTGGAGGCGGGACCCTGGGCCAAGGATG
CAGCGTCTGGRTGCACTGTGGGTGGAGGCGGGACCCTGGGCCAAGGCCCCTCTCAGGCTGCCTGGTCATGTCCTCTCGGTTCCCACACRTGCCGGGAGCA
TGCAGGGGGTGAACCATTAGCACAACCCTTCTCAAACTTTTTGGTCTCAGATCCCTTTACCCTTTAAAAGATTATTGAGGACCCCAAAGAACTTTTGTTT
ATGTGAGTTATATCTACCAATGTTTACTGCCATAGAAGTTAAAACTGAGAAATGTTAAAAATATTAATTTATTTAAAAATAAGGCTGTGACATGTTAACA
TAAAAACATTTTTTACAAAAACCAACTATATTATCCAAAACAAAAAAAAATTTAGAAGAGTGGGATTCTTTTGCATTCTTGCAAATATCTTTACAGTCTC
CTTAAGAGAGGACAGCTGAAGGCTCCTGTTTGCTTCTGTACTCAGTCTGTTGCCTTGTGTTGCCTTGGTTGAAGTATGTGAAGGAAATCCATCCCGATCT
AGTTAGGGAGGAGTCTCTTGGGTCATTGTGGATATTCTTTGCTGCTGCATTGAAACCCTACGAGCAGAAGTTTCTTAAGGATTTGTTCTAAAGCAGAGTC
TCCACCATGTGAATGAACTCTTCGTGCTCTGACATTAAACTCCTTTGGTCTGTCTTGCACTTTGGGTGGATGTTTTCTTCTTGCAGGATTTTGTACCATT
ACGCATTGTTCAGAAAATATTGGTTCACGGAGTCATGCAGACCTTCCAACTATTGACACATTTAATGGTGTAACCTTAGAAGATCACGTTATATCACTGC
CCCTCTCATCAGGAAAGTCTTGAAGAAGTGTGAAGCTAGTAGGCTCATGGTAGAGGATACAAATGTTCTTAATTCTCATTTTTGCTTGGAAACTCCATTT
TTGTTGCAGTTGTTTTCCCGGAAGTGACATGCTAACTTTGTTCACGTTTGAGAAGATGTCTGCCAAGTACCCATGTTTGTCTCTCAGTCATTCTTCTTAG
TGAAAATGGTGTTGAATAATAAAAGCGGTGTGTTCAGCATGCAGCCCAGTCACAGCCAGGCTTCCCCGGGGATGACTGTTGCCTTTCAGTTTGCAGCAGA
AATGCTTGTTGTGTATTTTCCATTTCGTCTCACAAAATTAAGAACGTGTGTACTCAAAGGTCAAGAAGTAATAAGATTAATAGTTTTTCCGGCTTCACCA
AGGATGTTCTTACTTGAAGCTGCCTTGTTCTTTTCTGTGAGAGGTTGGGAGGACCTCACTCAACCCAACCAGCCTTGGGTTGAGTGAGGCCCCAGTGGCT
TTCCCTGCTGCTGCCTCTGCCCCACCATGCCACCATGGTGAAAGAGATAACACCTGGGTGTCATGAAAATAGTTTTGACCTTGTAGAGCCCCTGACAGGA
TCCTGTTGAACCTTGGGTTTGGGGAATGTACTTAGAGAGCTGCTGTCTTAGAAGGCCAAACCCACTTCTTTTTCTCCTTACTCGCCATTTTAGTTTACGG
AATTCAACCTCTTCTTGAGGTTCAGATCTTTGGATTCTGTGTTGGCTAGAGAAGATTTAGATCCCGGTCTGGCTGGACAGGATCAGATAACACTCAAAAC
GGGCCAAGACCCACCAAGAAGCTGGTAACACCTGAAACCTGTCCCCAAATGGCTTTAGCAACAAGAGACTTTGTYCATGTAGCTGAAGTGTCGTGGGGTG
ACCAACTGAGGTCTCTAATAATGACATGGGGACCCAGTGGCCCTCACTCCTACCTTTTCCTCTCTGCTTGTTTTTATGTGTGTCCTAAGGTGGCCCCGGG
CAGTTTCAGGCTGACCACCTCTTGGCCCAAGGGCTGTATTCCCTCTCTCATGCTCCCTGGGTCCCCTACAAGACAGTCTTAACGCTAGGACTGTATTTCA
GCAGCCACCCACCCCTGGTGTCCTTGTGTGGTATCCAACTTACACAGCTGAATAAAACATCCCTTCATGTCCCCATCCGGAACCAGCCACAGAGGTCAGG
AGAGTCGTGCCCTGAGTCTGGCCCACGGGGGTAGGGGTGGGGCGGAGGGTTCTCTGGAGGTAGATTTTATTTCTCCATTTTATTTTTATTTCTGAAAAGG
TAATTCGCATAGTTCAAAGTTGACAAGGATACACAGGAAAAGTGAATCATCCCATGTTGACCCCAGGTACCTGGTGTATCACCCTAGATACAGTGTGTTA
TTGTACAGCTTTCATAAATTCTAAGCAAATACAAATAAATATATCTACGTTTATTTTTCCTTTTTGAAATGCAAATGGTACTTCCTAGAGGAGGCAGCAT
GGGTGCCAGCCAGCAACAAAGTCCACTCTTCTGGGGTTTGCAGAGTGTGGGTTTGGGGGATGGAGGTTCCTCTGGGATTTAGTGGGAGGCAGAAGCCTTC
AGGATTGCTGTGACCACTSTAGCCCTCACAGCTCTTCTCTTTATTTGAATACGACTGGCACAGATCATCCGGGAAGCCCACGGGACCCTCAGGCGGGCAG
GATGAACGACTGGCACAGGATCTTCACCCAAAACGTGCTTGTCCCTCCCCACCCACAGAGAGCGCGCCAGCCTTGGAAGGAATCCACGGCATTCCAGTGT
GTCCTCAAGTGGCTGGACGGACCGGTAATTAGGCAGGTAACAAAATGTGCTGTTAGCAAATGCGTGTTATTGCTCTTAGCTGACATGAGGCTTCCAGTTA
ACAGATGGATGGTCCCTGGCTTACGATGCTTTGATTTTTGATTTTGCTACTTTATGGTGGTACCCATATAGCCATTCTGTTTTTCACTTTCAGTGCTGTT
TTCAATATATTACAGGAGATACCCAACATTTTATTTAAAAATAGGATTTGTGTTAGATGACTTTGCCCAGTTGTAGGAACATGCAAGTGTTCTGACCATG
TTGAAGCTGGGCCACGCTAAGCTCTGATGTACAGTAGGTTAAGGGTATTAAATGCATTTGAACTTATGACATTTTCAACTTAAACAGGATAGAGTCCCAT
CATAGGTCAAAGAGCATCTGTATTGATTTTCACTTACTCGTTTGAGTCTTATACCACCATACCCATTACCTTGGGCCTTGGCAGTATTCGGATGCAAAGT
GGCCCATCAGCAAAGAGAATCTATGATTCAATGACATGGTCAGCACTTTTGACTCTGGGTAGGGTTTCTTTCTGCCCACAGTGGAGCAATTTAAAAACCC
AAGTACTCTGATTTCCTGGGTTATTTGTGAGCCAGGTGGCCTTGTGCATGGCTCAGCATGGCCCGCTTTCAGCCTGGCAGTGAGGACTGCAGGGGCTGAG
CTACGGGCATTCTGGCAGCTCTGTGCGTGGCTGGATGTACCACGGCCTTGGGCACACTCAGGCCCAGGCCCTGATGGCGGCACATCCATCTGTGCCCTTC
AGCTGGCGGGGAACCTGCTGGACAAGCTGGTGCTTCTGTGCTGCTGCCCACGGGACACCCACACGATTGGATTGTCCTYGTGAGGCCCAGTGGCCGGTGG
GAATGCGTGAGAAGGATCAGTCTTGCCATTGTCAACCCTTTTTACAGGATTTGGCTTGGCAAGGCCGTTTTCCTCTGCAGCTGGGAGAGTGATATTCACA
TATATTCAGTTGTTGGAGCCCCGGGTCTGTGACTAATTTACTATTATTAAATCACTGATGTTCTATATCGTTCAATTCCAAGCCCTTGGATTGAGCACCT
GCTGTGTCTTTGCCACTGTGGTAGGTACTGTGGTGGCTGCTGCTTTTGTAGCTTTACTTCTAGCACTTCACTGTGTTCATTCACTTAATCCTCAGAGCAG
CTCTATGAGGCTGCCACCACCTTACTCCYGTTTTATAGACGAGCAGCAGCACCTGCTAATTAAGAGTGAAGCCAGCTGCCCAGGGCGACGGCTTTAGCTG
GGATGCCACCCTCCTGGTCTGGCTCAGCCGCCTTCCAGAAGCTCACAGGATAGTTGATAGCCCTTCCCTCTTTCCTAGGAGTTTTGCAAAGGAAATTTTA
TTTCCCCATTTCATTTTATTTTTATTTGTGAAAAGGTAATGCACGTAGTTCAAAGTTGACAAGGATGCAGAGGAAAAGTGAATCATCCCATGGCATCCCC
AGGCACCTGGTGTATCACCCTAGATACAGTGTGTTTTCGTACAACTTTCTTAAATTCTAAGCAAATACAAGTAAATATACCTACATTTATTTTTCCTTTT
TAAAATGCAAATGGTACTTCCTGTATTCCGTTCTGTACCATTCTTTCTTTTTTTTTGAGATGAAGTCTCACTCTGTCACCCAGGCTGTAGTGCAGTGGTG
TGATCTCAGCTCACTGTAAACCTCCTCCCCCTGAGCTCAAGTGATCCTCCTTCCTCAGCCTCCCAAGTAGCTGGGACCACAGATGTGCGCCACCATGCCC
GGCTAAGTTTTTGTATTTTTGGTAGAGTCGGGGTTTCACCATGTTGGCCAGGCTGGTTTCAAACTCCTGAGCTCAGGTGATCTGCCCGCCTCTACCTCCC
AAAGTGCTGGGATTACAGGTGTAGCCACATGCCCGGCACTGTACCTTGCTTTTCAAAAAAATTCAGGCAGTATGTCTTATCGATCATTCATGTTATTACA
TGAAGAAAATTTTATTGTTCTTAAGACCGCAAGGTGTTTCTTTATATGAATGAGCCATCATTTATTGAGTGAGGCCGTGATTGATGAACATTTAGACTTT
TCCCAGTCATTTGCTATTATAGGCACTGCTACAGTGAATAACCTCATTTTTTTCATGTACAGATATGTCTGTAGAATAATTCCTAGAAGTGGAATTCCTG
ATCCAAAGTCGTATGTTAAAAGTTATTTAAAACCCAATTACATGTTGTTTACAAAAAAGTGCACTCTAAGCATAAAGAYGTAAACAGGTTGCAGGTAGAA
GGGTGGAAAAATATAAACCATGTACATACTAAGCAAAGAAAGCTTTGCATCTATACTAGTATCAGAAAAAGTAGATTTCAAGGTGAAGAGTATTCCCAGA
AATAAAGGGGCACCTCATAAAGACAGTGATCATCAAGGAAAYGTAACAATCTCTAAATGTGTATGCACTTGTGTTAGGGGCCTCCAAGACCACCTCCCAG
GTTTGAAGAGTCTCTAAGAGGACTCACATGACTCAGCATGTAGTCATACTCTCAGCTAAGGTTGATCCAGCAGAAGGATACAGAGCAAGATCAGCAAAGG
GAGGAGGCATATGGGGGATGTCTGAGGGAAGAGGGTACAAGCTTCCAAGAGTCCTCTCTCAGTTGAGTCACACAGGATGCGTTTGATTCCTCCAGCAATG
AATTGTAACAACACACGTGAAATGTTGTGTAGCATGTCCAAAATTCCAGACTCTCAGAAGGGAAACACGTGTTTAGCATAAGCCACAGTACATAAACAGT
TTAGGCACAGTGAGCTCCTCTTACCAGTTAGGTGGTAGGAACTCTCTTGAAATCTAAGTTCCCAGACTCCAGCAAAAGGGCAGACTTCTAAGCTGGTCTT
TCAAAGCATAACAGTAAGGTCTGTTCTGATAACTCTTTTGTACAAAAGAGCAAAATTGGACAGAACTAAAGGGAACTATATTCAGATTCATAATCATGGT
TGGAGACTTTTAACTCTTCTTCTCTCAATTATTGAAAAAACAGATAGATCAGAACACTCATAGGGATTTGGAAGCTCTGAAGAATACCGTCAATCACCTT
GTCATCTCTTAACGCTACTCCCAAGAAAGCTAGAGTACACATTCTTCCCAAGTGTACCATCAATCACCCTGTCATCTCTTAAACACCACTCCCAACAAAG
CTAGAGAACACGTTCTTCCCAAGTTCATATGGAACAGTCACCAAGATAGACCGTATGCTGGGCCATTAAAATGTCCCAATAAGCTTCAAAGGACCCAAAT
TATAGAGTATGTTTATYGACTACTGTGCTTTTAAGTTAGAAATAAATAATATGAGATCTAGAAAATCCTCAAATAGGAAATTAACATACTGGATCAAAGA
AGAATTAATAGGGAAATTAGAAAATAATTTGAACTGAGTAATGGAAGAAAATATACAGATTTATAGGATATAACTAATACAGTTCTTTGAGGGAAATGTA
TAGCTTTACATGACTATATTAGAAAAGAAGAAGGTATAAAATCAGTGACGTCTGTTTCCTCCTTAACAACCTAAATAAAGGAACAAATTAGATACAAACC
TAAATAAAGGAACAAATTAGATACAAAGTAACTAGAAGGAAGGAAATGGTAAATACAGTTATGCATGGTTCCTTGACAGTGCCGACACATTCTGAGAAAT
GGTGTTAGGTGATTTTGTCATTGTGCAAACATCATAGGATGTACTTACGTAAACCTAGAGGGTAGAGCCTGCCTCACACCTAGGCTCCATGGTATAGCCT
GTTGCTTCTAGGCTACAAACCTGTATGGCACATTACTGTACTGAATACCATTGGCAATTGTAACACAACGGTATATCAAACATAGAAAAAACAGTAAAAA
TATAATATTACAATCTTAAGGGGCCAGTCATATATACAGTCTGTTGCTGATCGAAATGTCATTATGTTACACATGACTGTATATGAGCAGAAATCAATAA
AGGACAAATAATAGAGAAAATCAGCAAAGCYAGAAGTTGATTCTCTGAAAAGATTGATAAAATTGATCAAGACAAAAAAAAAAGAAAACACAGACTACCA
GTATTAAAATGAAAGAAGCATCATGATAACGTACGCTACAGAGGTTAAAAATACAATGTTGAATTTTATCAGATACTAAAGGAAGAAATAAGACRAATTC
TAGACAAACTCAGAAAATAGAGGAGGAGGGAACACTTCCCAGCTCATTTTTTGAGGCCACCATAATTCTGATACCCAGTCAAGGGCACTACAAAAAAAAG
TACAGACTTGTATCCCTCATGAATATTAACACAGCAGCCCTGAAAATATTAAGACAGCAAAGCCAGCAATATGTATAAAAGATGGGGTATTAGGATCAAG
TGGGGCTTACTGCAGGAATGCAACGTTGTTTTATTTACAAAGATCAATCAAAATACAGTATTTAAAAGAAGATAAATAGAATTCATATAAATTCTATAAA
TAGAGTTTGGAAATAGATGATGGTTTGGTATAGATAGTCTTATAAGTTTGTATAATTTTAGTTGTTTTGAGAATTGATAGCTTTAGATAATGGCCAAAGC
TTGCTTCCCTGTGAAAGGTGTTGGCTGAAGAATATTACATGCTTGTTTTGAATTCAGGGCACTTTATTAATGATTTTAGTATATTTCTTTTACTGTCCCA
TTTACTTTTTTTGTTTAATTTTACCATGATCATTGCTTATATTTCTTTATTTTGGGATGAGTATTTCARTTCAGCTTGATATGTATTGGGCACCACGATA
TGTTAGGAACCGTGCAGATGACACAGAGTTGACTCTGCCCTATACTGTGTCTTCAGGAAGCTCTCAGTGGATTCTTATTTGARTAGACTGGATGTGAAGT
AGCATAGAGGTGGTGGGAGGGTGGTTAGGATCTGGCATTCTGGAAAGAAGCCCAAGCCAGCGACGGTTCTGGGAGCCACGGGATCCTGCCTGAGAATGGC
CTCCTGAGAGTGCAGGAGAGGAGGAGGAGGAGGTGGCGGTGCTGGGGGAACCCAGGCAGTCCCGGGTGAGGAGGGGCACGTGCAGAAGCTTTGCCTAGGC
CCCAGGGACAGAGCAGGGAACAGACTATTTCAGGCTTGTGTCCTCAGAGAGCTCACGTTGTAGATGGGGGCAGCAGACAGTCAACATGGAAAAGCCAGGG
GGTTGCTCTGGGGAGAGATGAGGCAGGCTCAGAGGGCAGGTCTGGATGCGGGAGGAGCTGAGGAGGAAGAGAGACTGAGGGGAAGAGGGAGGAGGACAGG
GAGGTAGCGTGGTAATGGGAGCTGGGGGCCAGGCCCCGGTGCGTGGTGATGGGAGCTGGGCTTGGAGTCTTCAGACCTGCTCTGCCCACCTTCCCTGTCC
TCATGGATAACACCACCTCCCTCCACGTTGCTTCACTTGAGATGCGAGATTCAGTACTGGGCCTGGGAGGGCTGGGCCGACCTAGGCAGCTGGCCCTTCC
CACTTTTCTCCCTTCATGACCACGCAGCCACTCCTGCAAAGCAGCAGAGCCCAGCGGTGCCTGCTTCCTGTCACCCTCCCTGCCCCTCCCTGTCTCGCCT
CCTCCTAATTGGCCCCTGCTTCCACTCCCGCCCCCACATGGCAGCTGCGGGAATTTTCTTAAATCCYGAACCAGATTGTGTCATTTCTGCTTAGAATCTC
TCCCTGGCCTCCCTGCATGATTGGAGTGAGAACCCAGCTTCTCCTCGCGCCGTGAGGCCTGCCTGAACGCTCTTGCGCCTGGCGCTCATTCCTTCTCTCC
TCCCTGGCCCAGCCTGCTGCAGTCCGGTGGGCTTTCTGCTTAGAATGTACCTGGGACTGGTTTCCATTTAGGGGTGGTGAGGCCAGCGGATCAGGAGACA
ACTCAGCTGAGACCCTGTCTGTTACTCAGGGCTCCCAAGACGAGGGGTAGGCCATGTCCCACAGGCCACCTGGGGAAGCGCAGGGTTGGTCAGGAGGCAG
GAGGGTGGAAGGGAGGCATGGGCAGAGACTTGATTATGGTTTTGTGGGAGGACTGGGCCAGGGAGGGTGGGCAGCTGGACGGGCTTGCGTTGGCCAAGGA
GAGTCATGTCGTGGTCTCTGAGGTGCAGGGATGGCCCGAGGTGTCTGGTCACTGACCCTGAGAGACCAKGGCAGAGGGTGGGACTCCTGGGGTGTGTGAG
CCAGACAGAGGTAGTGGGGCATGTGGTCTCTGGACGGGTTGGTTTTCATGTCAGACACATTCTGATAGGCCTGCCATTTGCCACCCTAGGAATTAACCGG
CTCTGGGGGACAGTCTTATCTCGTCACTGAGGCCCCAGATGCCAGAGCATCAGTAATACAGAAAATTAGAAAATACAGGCCGGGCATGGTGGCTTACCCC
TGTAACCCCAGCACTTTGGGAGGCCGAGACGGGCGGGTCACTTGAGGACAGGAGATCAAGACCAGCCTGGCAAAACCCACTCTCTACAAAAAGTACAAAA
ATTAGCCGGGTGTGGTGGAGTGCACCTGTGGTCCCAGCTACTTGACAGGATGAGGCAGGAGGATTGCTTGAGCCTGGGAGGTGGAGGCTGCAGTGGCCAG
ACCTCCAGCCTGGGTGASAGACGAGACCCTTTTCTTAAAAACAAAAACAAAACACAGGTACTATAGCTAAATATAGTTCCTGCACTTCTCGCTGGCTCCT
GGAGCACGTGTGCTCTCTTCCTCTCAGGACCTTTGAGTTTGCTGCTCCTCCTGCCTGGCTCCCTCTCCCCAAACTCCCTGTGGTTCTTCTCATGCCCCCC
TTGTTCTCAGCTCAAGGATCATCTCAGAGAGCCTGCCCTGCCCTGCCCTGCCCCGCCCCACCCACCTCTCTCCCCGTTCTTCACCATGTAAGCCCTGTAA
GGGCAGAGATTTTGTCTGTTCCTTGTTGTTTCCCTAGTGCCTGGAAATGTGCCTGGCAGAGAGTCAATGCGCAGAATAGATGTGTAAGTAACGTTTGCTA
AGTGAATAGGTGAAAGAAAGGTGGAGGACTCTTGTCTCAGGTAAGAACCTGTCACAGAAGAGAAAAGGCTAAAGCAATACTTGCTGTAAGTGGTAAAGCT
CCGGGGCAGGGTCCTGCCTGTCTACACTCTGGCTGCCGCTCTGGGCAGGGTCCTGCCTGTCTACACTCTGGCTGCTTTGTTCTGTATTTGTAGCCATGAT
TTCTCAATTCTCAAAGATCTGCTTTTTGCTTTGCCAATGTCACCCCAAAATCTGGGAAGTTGAGGATTTAGTTTCTGGTTATATCAGGAAGGGCTCATTT
GGTTGGAAATGATTAACAAACCCATCCAAAATGATTTAMGTGAGAGGCGATTTGTTGACTCACAGCAAATCCACAGCCAGCATAAGCTTCAGGTGTGGCT
TGAGCGAGGTCTCAGGTGATGTCCCCTGGACTTGTTCTCTCTCACCTGTTGGCTGCTGGGAGCCCTGGGCCTCATCCTGGCAGGCGCATGTGTCTCCTGT
GGTCATGTCCTCTTGTGCGTCCTGGGCTCTGGCTGAGTCAGAAGCCTGTGTCTGTTCCAAGGGACTGCAGTCTTTCGTTGGCCAGGGGAGGGCCAAATGC
TTTGGTTTATAACCCCACCAAGACCAGTAGCTGTGGGAGAGAGGTAGCCTCCCAATAAGGAAACCAGSGTGCTGATATCTGAGCGAGGTGGCCCCATATG
CACCCACATGGCCTGCCAGTGACCTCCTGGCTCATGGTGCTCAGACTCTTGAGGGTCAATTCCCCGTTGTCTCCTAGGGCGTGCTGGAGGTACTGTCAGA
GGTTGAATGCCATCTGCGAGTGTCTTTCTTTGATGTCACCTACCGGCACTTCTTTGGGAGGACGTGGAAAACCACAGTGAAGCCGACGAAGAGACCGCCG
TCCAGGATCGTCTTTAATGAGGTGGGCCCTGGTGATGGTGGCAGGGGCTGCTCCAAGGCGGAGGGTGTGTGTGCGGGTGGTCCTGGGTGGCAGCCCAGAG
ACTGGGGCCTTGCSGAGACCTCACAGCGCGTCTCAGACTTGTGGGTCCAGGCAGCACAGAGCTTAGTCTAGCGGCAAGCGCTTTGTTACCAAACAAAATC
TTATGTGGAAGCCAGTTGTCTTAAACAGATGAGAGAGCTCTGCTCTGCTCTGGTTGAAGGGTCAGGGGAATGGGGGTCTTGTCACCTTCAAGGAATCTTG
GAGTTCTTGGGAATAAGTTGGGAAATGATTGACCTCATCTATGGCTGCTGCCACTACTGCTCCCTCTCCTCCTCTCCCCTCCCCTCTCCTTCCCCCTCCC
CTCCCCCTCCCTTTCCCTTTCACCGTCCCCTTCCTTCCTTTCTTCCCTCCCTCCTGTATAGACAAACTAAGATTTAGTAAAGTGACTTGCCCAGGTAGCA
GGTATCAGAGCCTGGACTCACACCTGTGCCTTCTGTCTTGAGACCGGCAGGTGGATGGGCACTGGTTGAGCAGCGTGTTTTCGCTCAGGTGGTCTTGYGG
CTGGCCACCCTGCGGGCCGGCGTGCTCTGTCTCTGTGGTTCACTGCACAGCATGCATTCCATTCAGCACCTGCTCTCTGCAGGGCATCATGCTAGGCTCA
GGGTGATGATGGCGCTCACCTAACAGAACTGCAGACTGTTTCGGAGAYGCACTGAGCAGGTAACAGAGTAATTGCAAGTTGTGTTAAATTCTCAGGAGGA
GACCRATAGGAGAACGTGGAGACCAATAGGAGAAYGTGGAGACCTGCTTTAGGTGGGTGACGAGGGAGGCCTCTCTGCGAAGCTGCTGATTAAGCTGGGA
CTTACAGGATGAGAAAGAAACTGACTCCGTGACAAGCAGGGACGAGGCTGCTTCAAGCAGAGCAGGGAGACCCAGGGGTGTTAGGAYGAGAGGAGAGCCC
AGGTTTGCTGACGGGTGGGGTTGGCAGGGTGGCCCCGTCGTGCCTTCTGGCTGGGTCCTACAGGGTCTTCTTAGGGACGCTGACGTTTGACTCTTAACAG
CCGGCGATGTCATGGAGGCCTTTCCCATGCCTGGCTGCTGCTTCACAGCTGAACTCGAGTGGGGGGAGTTTGAGAGGGATGGTGTCTGAGCACGACGGGT
GTGCAGCAGGGACAGTGTGGAGGCAACAGAGGTGATGAGAGGGTCTCAGCTGTCTTGGTTTGATCTTAGGTATATAGAAGGAGGCCCCAAGAGGCCTGGT
ATTGGGACAGTTTGTATGATGAGTAACAGTGGCGGTGACAGTGGCCGTCCTTTGAGACGTTACTCTAGGTAACCACTGCCCAGGTGTGCCTTTCCCATGG
GGGCCTGCTCTGGCCAGTCAGCACCCCCACCTRGGGCCACGAGCTCGTTGCTCTCCGTACCCCACCATCACCCAGCGCTTGGATTATGTGTGTCTTGACA
TGGATGGGTCCTGACTCTTGCCCTTCCTCCCATGGGTAGTAGAGGGAGAGAATGACCCCAGAGGTCACGAAGCTTCAATAAAAAGCCTTGCTAGAGTGTA
TGTCTGGACAGCTAAGGATGTGTCTGACATTAAGGTTGTCAAACAGCTAATGCAAATACCTCTCAGAGGTCTCTCTGGCCAGCCGTGTCAGGAAAGGTTT
CATGAGTGTGACTGCGGATGAACCCTTAGAGTGCTGTTTCAGCGCGGGCAGGGGGTCCCCTCGGGCCTGCGCTGTGGCAGGAGGCTCGCCATGAGTTCCC
GGTGCTGGCAATGCCAGACCAACTGCTGGGGATAGAGCTGTTTAGCTTTAGCTTTCTCAGATGTGCACAGTGAGCCCCCCGAAACCTGGTGTTGTGACAG
CCATGCGGCGGGTGGTGAAGTTAGCCATCCTTCACCGGGAGGCGCTTCCCGTGGCCAGGCATCGGCTCAGAAGCATGCCGTCATTTCATGCCTGTCATCC
TCCTGTGGAKGTCAGTATCCTGTGTACCCATTTTAAAGAGGAGGACACTGAGGTGCATGGAGATGGAATAACTCCACCAGCTTATTCCCATGTGGCGGGT
GGGGGTGGGAGCGAYGGCCCTGTGCATCTGACGGCWCCACCTGCTGTGGCCTCCGTGACCTCCTGCTTCTGAGGAGCCCTGCATTTTGTTCTGAAGTGTT
CTGTAGAATGCTGAGGGATGGAGTATGCTCTGAAACCAGGGATGCCTTGCAGTCACCGAGGTGCTGGGGCCAGTTCCCTCCTCCTCCCTCAACCCCTCTG
ACTTCAGCTCTCCCTTTAGAGAGGCTTCGGACCTTCCTAAGGATCCGTGCTGCGCAGGCCAGAAGCGGGGGCTTCCATCTCCCTACTCTCTGGGCTGTAG
AATCCTGATCCCTGTAGAATTCCAGTCACATGGTAGGACGATCTTTGGAATGGATGCCTCTCTCTGCCCTTCTCGGGATTATGTTCATGCACTCCGAGGG
CTTCCGTTGCGGCGGAAGTTGGGCAGCACTTGCATTTCACCACATCCTGGCAGCTGCGTGTCATGCTGCCTGTGCAGTTCACAATTCAGATGTGTTAGGG
AGACTAGGAGCTGGTGGCTTTTCGGAGTCTGGAATACCTGTGCTGGTGGCTCCAAGGGCAGCCGACTGTGGGAGCCACGTGGCTCAGCCTTGGCCTGTCA
TCTGGGTGCGTCTCCTGTTGAGGCTGGGGATGGGCCCGGGGGACTAGTGGAACATAGTCCTTAAAACCTCTGGAAAAATCTGCACCCTTGGACTTGGAAT
CGCTGAAGAAGGGAATGCAGCAAGGACAGTGTGGTGTRGCCAGGGCACTTTCAGCTGTGAGGGTGATGCTGAAGCCCCCGTGCTATTCATGGAGCCTGCT
GTCTGCAGCTGCTATGCCCCGTGTGGGCAGCAGAGGCCAGTGGTGCCCCAGGAATGAATCCCTCCTGCCAAGCTGTTGAGCAGCGTGTTCTGTACCAGGC
AGTTTCCTCCATGTGCTTGGCATTCTCATACAGAGCAAAGGTTTTGTTCCAGCTTAGTTAACTAGTTATTTAACTGTGTGTGCAAACATGTGTGCACATC
CATGTACACATGTATGTGCTCCCAAGTGTGGATGAAGCACCGAGTGCTCCCAGGAGTGGGCATTCTTAGGCATGAGGGTGTGGCAGCATGTTCGCACCCT
GTCTGCTAATTGCTCTGTCTACACCCCTGTGGAAATAGAGGTTCGTAAAACACCCTTTGCCCTTTTTAGGGGTGATTCTGAGACTTGGCAGAGATCTTTC
TCTGGCTTTACTAATTGCCTGTGTTTTTCTGGTCTTTGCCTATCAGCATTGGTTTGGGGGGATCTGCTTTGGGGTTGGTGAGCTGCCGGTAGCAGGGGAC
CGCATTTGGAGCGCCCGTGGCTGTCCAGCCCCCACGTGGTAGCGCATGGACCCTGCATGCTCAGGTTTTGTGGAGTGCCCATGTCACACATGACCCCGAG
AGAGGGGGCTGTGGCATGATTTTGCAAACAACGATGTCCTGAAAGAGACTTGGAACACAGAAGGCTTGTCTTGATCCAGAGCTGGGTGGTTTTTTTTTTT
TTTTCTGCAAATGATGAATTATTTGCACTGGGCCCATATGCAGGAGAGCAGTCCCCAGACACGTCTCAGCTCTGAGCTCAGAATTCTGTGTTCTCTGAGA
CCTTTCCTGGTGGGGAGGAATTGCCTCCACTTCCTCTGAGCCAGCGAATCATTCATTCAACTTCTAAAAAAGTGTCTTTTAAAAAATAATGCTGGAGGCC
ACGGTCCTGTGCAGTTTCTCAGTTTTCTTTTTGAGGTGGACATACTTTTCCCTTGGATTCTTTCCTTAATGACTGTGTGTGGCCGGTGTAGTGTGACTGG
CTTCTTTTCCCTCCTTTATTTATTTGGGGGGAGTTACTGGGCAGGAATCCTCGTGATTCTCCAGCAACAGCTTAAACCCCCATCAAGGGAATCTTTCCTC
CCAGAGCGCACCAGCCCCAGTGTCGCCAAAGCAGCGGGGCAGTCACCTGCCCTGGTAGAGGGATGCAGGTGATTGGGTTGTGTCTCTTCCCGTCATCACA
GCCATGAGAAAGCCCCTCTTGAGCGGCTCTTACTCGTCAGAGCAATGAGYGTGCTATAATTTCCCATTGAAAAGTGGATGCTGTCAAGGAGTATCAGCAT
AACCCACGTGAAACTCCTGCGAGCCCTTCCAGGGCCTGGATTCTTGGGCCTGGCTCTGGAGCTTGCAGGAAGCCCTGGCTGCAGAGCCCGATGGCTGCTC
CTGTGCTCTTGCTGTTGCTCGGCAGAGGGCAGGCATGTCCTGAACATYRTCACAACAAAAGCAAGAAGCTGGCTTCRTGTCCCAGCGAGCTGCTTCCACA
GAGGGAGGCTCTATGGCTCTAGGAGGCCAACTCGGGCCCTGTGTGCCTGTCTGTTTGCAGCTGGGGAGGGCTGATTTCCTCTCTGGCACAATGGAAACCA
CTGCCGTAGTCTTGGAACCTGAAATGAGAGGATGAAAGAAAATGGTTTTCAGAAGGAGAAATGATTGGTCTCTGTGACGTTTCCAGTGTTTAATTGTACA
GTGATTGAACTGTCAGTCAYCTGGGGACAATGGAAAGCTGTAAGTTTGTCAATTTTGTTGTTGTGTGTTCACAGCAGCATAGTGTGGGATCTTTCTTTTC
TAAGAGATGGGGTCTCACTATGTTGCCCAGGCTGGAGTGCAATGGTGCGATCATAGCTCATTGCAGCCTTGGACTCCTGGGCTCAAGTGATCCTCCCTCC
TCAGCCTCCCAAGTAGCTGGGACTACAGGCATGCATCACCAGACCCAGCTAAATGTTTTTATTTTGGTAGAGCTGGGGTTAGATATTTCTTGCTTTGGGT
TATAATCATGTCTGCTCACTTACTTTTCTAAGTAAGCCAAGGAGTTGCTCTTTAGGCCAGAGGGAGAACTGGCTTTCGCCATGGGCGTCGGAGTTGAGGT
AGGATGGGCTAGTGTCCTRCTCCATCACTGATCCCAGTGGGACTTCAGACAAGTGCTTTAAACTCCTTGATCCTAGAGGGTGAGGGATAAAAGACTACAA
ATTGAGGCCGGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCCAGGTGGATGGATCACTTGAGATCAGGAATTTGAGACCAGCCTGGCC
AACATGGTGAAACCCTGTCTCTACTAAAAATTTAAAGATTAGCTGGGCGTGGTGGCACACACGCGTAATCCCAGCTACTTGGGAGGCTGAGGCTAGAGAA
TCACCTGAGCTCGGCGGGTGGAGGTTGCAGTGAGCTGAGATTCACGCCACTGCACTCCAGCSTGGGTGATAGAGCAAGACTCTGTCAAAAAAAAGAAAAA
CCAAACAAAAAAAAACCCTACAAATTAGGTTCAGTGGATACTGCTCGGGTGATGGGTGCACCGTAATCTCACAGATCACCACTAAAGAGCTTCCTCATGT
AACCAAATACCACCTGTTCCCCAAAAACCTATGAAAAAAAAGAAAGAAAGAAATTAAATTAATTTGCAAGAAAAAAATAARCTCCTCCTGACTTGATTCA
TTTGCTCATGAGAGATAAAGAGTGTGCATCCCCTAAGTGCTGCTGGAGTATTTAGTCATGTGCTTTTCCATAAGCAGGGACCCAGTGGGCAGTAGTTTTT
ATTCAAGAAATGTTGGTTAAGGGTCTTCTGTGTGCCAGGCTGTGTTTAGGAGCTGGAAGTGCAGAGATGGATAAGATGTTGTATTATCCTTTCAGCCAGG
ATTAAAGTTTACATTTTTACTCCAAATGAGAGTTTCTCAACCTTGGCACTGCTGACATTGTGGGCTGGATAATTCGTGGGGCAGGGGGCTGTCCCTGTCC
CTGTCATGATGCTTTGCTGTGGAAATCGATGGGCTCCCCCGATCCCTGCTGTCTTTGAGGGGTAGTGTCTGGGAAGCCCTCCGAACCCGCAGTGTGAGTC
TGAGCCAGAGGGTAGGAACTGCATGAAGTCTYTGCATTGTTTGCCTGGCTGAAGATATCCTGTTAAAGGCTTATTAAAACAGTTCTTTGGAAGGGACTCA
TTCTGTTCCTGCTCAGCTCCTCTCTGGCCTTGCTGCCCAGCGTTGTCTGAGGAGCCCATGTCATGCAGGTGCCAGGTCAYGTGGCCGTGCCATGGGGGGT
GCCCGGCTGCGGCCTCTTCATCCAGGCACATCGGCAGAGGCCCAATTCCACTTCCATCACTGCGGGTGAAAAATGGAAACTGGGCCCCGAGGCAAAATGG
TGTCCGTGTTTTTGAAGATGAAGGCATTAAGACAGGAGCATTTAAATGATTTATTAATCTGTTTATGCTGTCAAGGAGGAAACTTGACCAGTGCAGATAA
GTGAGCTKCGAGGCAGGGGTGACAGAGAGCCCGTCTCCCTCTGTCTCCAGTGACCTTGCCCTGCAGGCGATTTGATGGGCTTGACTTAACCTTTTAATMG
TGCAGTTTCAGTTGATGTAGAGAATGTTCCTTTCCAAATGTATGGCAGTGGCGCTCGTTAAGTTTCCCTAGACTGAAGGATGTGTGTACAGGTATTCCTC
AGCTGGGTGCTGCCTGGCTGAGTGAGGCGGGAATTGGGTGGTCAGGCACCGGTGACCTGGTCGAATATGACTTTGCTGGGGTGACCCGAGGGGTGCAGCM
ATGTGGCTCTGTTGCTCGCAGTTTTGTGCCTGCCTCATCTGTCGTTTATGAAGCCTTCGAGGCTCGAGCTTCTTGAAAGCTGACTTGTGTTTTCCAGGTT
CGTTATAAATTCTTTAGCTTGGGGCTGTTCCCACACTGGAGGGTCAATAAATGATTTTTGGAAAAGAACATATGTCCTTATCAATCAGTAATTGTACTGG
TACAACCATCTGAACTTTTCAAACATGCTGCACTTGGAGCGGCTGACTCTTCTGATTAAAGATGGATTCTTTAGATTCTAAGGTTGGATCAGCTGAGACA
AGCAGCTCTGGGGCTCTGTTGCTGTTGTTGTTGTTTTTGGCCTCAGAGTGATTATTTTTAGTGGTAAACAGAAGGGAGAGGCATAGCCATAAACTTGTAT
TTGGGACATGCCCGTAGCGGCAGGTTCCACCCGGTTCAGGTAGAGTAATTTCAGGGTGACCTCTAGGCTGGCAGATTGTTGTTGCTGGGTATCAGAGTTG
AAAATGTTTATTGCCAATAGAAAAAGTGAGTAGTGTTCGTAAGACTGATAAGCACAGGTATAAATAGAAAAGGTGAGTTAATGACCAACTCGACTTTGCA
GTGGGGCTTTTTAAAAGCGGTTCTGGAGTCTTGGAAACAAACATAATTCTCTCTTAGTCCAACCACCTGTCAGCTGTAAGTGGTCATTATTTCATCATAT
TGCAATAAAAGATAATAGAATAACGATTTATATCTCATGGCTGATGTTTTAATGCATCTCTCTGTTATCCTGGGCTGACAGTCTGTGATTACAGTAAACG
TTTTCTCGGTGACACCATGGTAATGACTCGTTAATAGGAGGATTATTCCAAGTTTAAGTCATAGAGCGGAAGACCAGCCTCGGCTCTCCTTACCTCTTTG
TGCCTTATGGGGGCGGTCTCTGTGCTCAGCTGGTGACCTGTGCTTTGCCCCCCAGCTGGGGTGTTGGGGTATGGGCTCAGCACCACTCCTGATGCCTGGG
GATGCGCATTCCCTGTTGATTAGCAAACTCAGTCAGTGTCTTCATCTCTGTCTACTGTGCTACGGCATTCCTTCTTTCTTTCTTTTTATTAGACAAAGTT
GCACTCTGCTGCCCAGGCTGGAGTGCGGTGGCGTGATCTCGGCTTACTGCAACCTCTGCTTCCCAGGCTCAAGTGATCCTCCTGTCTCAGCCTCCTAAGT
AGCTGGGACCACAGGTGTGCACCACCATGCCTGGCTAATTTTTGTATTTTTCATAGGGATGGTGTTTGGCTATGTTGCCAGGTGATCTTGAACTCCTGAG
CTCAAGTGATCCTCCTGCCTTGACCTCCCAAAAGTGCTGGGATTACAGGTGCGAGCCACSACCCCAGGCCCCTTAATTATTTTAAATAAAAACAACTGCA
TTGAATTTAACGCAATAGAAAAGCAGCAGCAGAGTGAAGGTGCTTTCATTCCCAAGTGGGAGCGCCCGTATGAGATGCAGAGAGGGGTTTGAGTCTCCTG
TGCTGTCTTCCCAGGCCTCCTCTCCCTGGGCCTGGCAGGAAGGCGGAGGCAGAGGCTGGCCATTTGCATGTTGGGAATGGGAAGGTGTGAGTGGAAAACC
TTTTAAGATCAATTTGAATATCATCTACTTGGCTTACATCTTGAGAAATCTTTTAATAAAATGATCTCAAGGTGATTTTCGGCATAAAAAGACTTTAGTC
TTTTGGGCTCTGAAYCGGGGATAATTACTTAGCACCTAAAGAAATTCAAGGATTCTTCTTGTTAATAGTTTAAATACAGTTCAGATGGAACTCAAAATGG
TTACGCACGAAGCAGCACTGGGAAGGTGTGATCGAAGTTGTCTGTGTTGAGTGTCAGGCGATACTAGGAGCATGAATTGATCAGCACGTGCGTGTCTTTT
TAGTGGTGGATGTGTTACGTCTTGGGCTGATCTAACCATGGTCCTACCTGGTGTGTCCCCCTGCAGGGTTGGGTGCATAGCTGCTCTAGCCCCATTCTGC
WCTAGTGGGCCTGGGATCTGTTGGTGTTTCTTGTGGTGGAATTCCTAGGGAATGGAAAGTTCCTGGAGCGGAAGCAGACATCTGATGCCCTGGTTGTTGG
GTGCTCTGGAATAAAGRGCTCCGACACCAACATTTCAGTCTGAGGGAGTTACCTCAGTGTGCCTGCTTCCCTGGCATCCTGCAGAGATGTGGTACACCAC
ATGAGGGCATGGTAGAGGGTTCCGGATGCTGTGGCACGTGTAGGAAGGCGGTCTCGGGGGTGGGGACAGCGCCCATGTCCTCTTTGTGTGTGTCCTGAAC
ACTCAGACCATCCTCTGGCTTCTGTTCTGCAGCCCTTGTATTTTCACACATCCCTAAACCACCCTCATATCGTGGCTGTGGTGGAAGTGGTCGCTGAGGG
CAAGAAACGGGATGGGAGCCTCCAGACATTGTCCTGTGGGTTTGGAATTCTTCGGATCTTCAGCAACCAGCCGGACTCTCCTATCTCTGCTTCCCAGGAC
AAAAGGTACCTGCCTTGTTTCTACAACCCTGGGGTTTTCCAGCGTCTGTCTTTTTTTTTTTTTTTGAGACAGATTCTCACTCTGTCAACCAGGCTAGAGT
GCAGTGGTGTAATGTCGGCTCACTGCAACCTCCGCTTCCTGGGTTCGAGCGATTCTCGTGCCTCAGCCTCCCAAGTAGGTGGGATTACAGGTGCCACGCC
CAGCTGATTTTTGTATTTTTAGTAGAGACGGGGTTTTGCCATGTTGGCCAGGCTAGTCTCGAACTCCTGACCTCAAGTGATGCACCTGCTACCATGTCTG
GCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCGCCTGGCCAGATTCCAGCATCTTTCTATGGTGGTTTAACTGCTCGTCTTATGGTGGCAGTAGA
AGGCTGTACATTTGTCATCTAAAGTTGTGTGTCCATAATAGCATAGTGTGGGATGTGTCTTGCTTGGGGGTTTGCCTTTTTTTTTTTCTTCGAGACAGGG
TCTTGCTCTGTCACCCAGGCTGTAGTGCAGTGGTGCAACRTTGGCTCACTGCCACCTCCGCCTCCAGCCTCAAGCGATTCCTGTGTGTCATCCTCCCACG
TAGCTGGGATTACAGGTCTGTGCCACCATGCCTGGCTAATTTTTGTGTTTTTAGTAGAGACGGGATCTCCCTATGTTGCCCAGGCTGGTCTTGAACTCCT
GGGCTCAAGAGATCTGCTCGCCTCAGCCACCCAAAGTGTTGGGATTACAGACGTGAGCCGCTGTGTCCGGCTGGGTTTGCCATTTCTAAGTGACTTAAGG
AATTGTTCTTTAGGCCGSAGTAAGGGCTGGCTTTGACCACCAGTGATGGATTTGAGGTAGTATGGATATGGGCCAAAGTTGTACTCTAGCACTGATTCTC
TGTGGGACTTCAGGTAAGTGATTTGAGCTCTTGGACCCTGAATTTATTCATCTGTATATGAGGAGTAATGATAATGCATATCTCGTAAGTTCTGCTTGAA
TATTGAGCGATGTGTTTTTCACAGGTGCCTGGCAGGCAGTAGGTGTTCATTCAGCACACGCTGGCTGAGTGTCTGTCGCGTGCCAGGCTCTGTGTAGGAG
CCGGGCATACGGGTGGATAGGCTGGCGCATCATCCTTTCAGCYAGGGTTAAAGCCTACATGTTTACTCCAAGTCAGGGTTTCTCAAGCTTGACACCACTG
ACTTGCGAATGGATAATTGTTTGCTGTCGCGGGGCTGTCGTCTGTGCTGTAGGATGTTTATCAGCATCCCTGGCAAYGCACTAGATGCCAGGGCACTGCC
TCCCTGCTCCCTGGCCCTGTTGTGACAAACGAAAAAAAATGTCTCCAGACATTGCCAAATGTGCCTTAGGGAGCAGAATCATCGCTGGTTGAGAACCACT
GCTCCAGATATACAGCTGTGGAAATTCCTCAGATGTTGTCTTGAGACATTTCAGAGTTTTGTAAATTTCCATGGTGTTTTCCAGGAAAGCTCCTCAATTC
TCAGGCTGCCTTGGTTGGGGCTGCGTGTGTGCCAGACATGCTTGGCCACAAGCACCAACGGCTTGGGGAGCTGCTGCTGGCCTCAGCTGCCTCTGCCTTC
CGCAGAGGATGGGACTGGTGGAGTTTAGAAAGCTCTAGTGGGCGTGGTGGTGGCTGAGGCCTCCATGTGCTTTCCTTCTGAGAAGTGCGCACGTGGCTGA
CGACTGTTCTCTGGGTCCTGTCTTCCAGGTTGCGGCTGTACCATGGCACCCCCAGAGCCCTCCTGCACCCGCTTCTCCAGGACCCCGCAGAGCGTAAGAG
CCAGACCTGGCCTTGGCAGCACTCACTGCTCTCGTGCCTTCCCTGAGTGTTCCCCACCTTTAGCTCTGAATGGGATCTTTCTCAGTGTAAACTGCTATCY
GCTTAGCTAATTTATCTAAGAGGTTTTGGCAGATGTTTCGTGGCCTTGGACTTTTGGCAGAAAGTAAAGAACTGAAACACACCAKCCCTGAGGGAGGGCA
TTGGTTTGTGGGGATGAGCACGGGAGCGCCTGTGAGAGCCACCTGGAGGGAGGGGAACAGCTCTGCTCACCAGATGAAGTAGTAGCTCTCTGTCACCAGC
CACCGGCTGTCTCAAACCTCTGACCGCACAGCCGTCGGTTATCTCCAGCATGGCAAGGCCCCATGGCTGAGAGGCCGCCTTAGAGCAGAGCAGGGGTCGG
CGGGGAGCTTCCTGCTGTTCCTCAGTGACCAGCCGTTCCCAGGCAGCCAGAGGGAGCCATTTGGGAAGGATGGGGATGACGGTCTGCTCTGCTGCTGCCT
GCCTGGAGGATGACAGGAAGGGCGTGTGGTGGGAGGGGTGGGAGTGGGCTAGAAGGACATCAGGGAGGCTCAGAGCACAGAGGCTGTGCTTGCCTAGCAG
TTGGGGGAGTGTGGGTGGGGAAGAGTGGCCGGAGGTGGATCTGTTGGGGAGGGTGACTTTTCTGTCTCTTCGAGGTGAGATGCTGCCCAGATTCCTCGAA
GGGGATGTCATGTGTGCCTCGTGGCTTGTGTTAAAAGTCAAACCTGGCCAGACACGGTGGCTCAGGCTTGTAATCTCAGCACTTTGGTGGCTGAGGCAGG
TGGATCACTTGAGCTCTCAGGAGTTCGAAACCAGCCTGGGCAACATAGTAAGACCTGTCTCTATAAAAAATACAAAAATTTAGCCAGGTGTAGTGGTGTG
TGCCTGTAGTTCCAGCTACTCAGGAGGCTGAGGTGGGAGAATCACTTCACCCCAGGAGGCAGAGATTACAGTGTGGTGAGATTGCACCACTGCACTCCAG
CCTGGGTGACACAGTGAGACCCTGTCTCAAACAAAACAAAACAAAACGTCAAACCCACTCCCTTTGCCCCTCACTGGTCTTGGTGACAATCTYGTGATAG
GAGATGTCAGCTGAAGAGTGATGAGGTTCCTGAGACTGGAAAGGAGAGATTCATTTCTCATAAAGGGCTGCAGCCTGCAGGTGGCCTTTCTGACAGGCTG
GGAAGTGTAGCCTCCAGCCAGAAGCCAGAAACAGACCCTTCGAGAGAGGGGCAGAGGGAAGAGGAATTTCTGCTGAGTGGGGGCTGAGCCTGCTTATTTT
AATAAGCCCAGGAGGAGTCCTGCGTGTTTATGAGAGAAGCGTGCACGTGCGCAGCTGAGTCCCATGCCGCTTCATGGGACACAGTGTTCAAAACGTGGTG
GCACTGGCAGGACCCGAGGGGAAGTTCTCGGCCTCTGATGTCAAAAGGTGAAGCAGGGGACACGAAAGCCCTCCCTGCATGCCCTCCGTAGACTATCCAG
AAGAGGGAGAGCGGTGGGTGATCGCTGGRCAGCAGCAGCGATGGAGTCTCTAGAAGGGCTGGTTCCAGTCCTGAGGGAAGAAAGGCTAACGGTGGTTAGC
ATGGGCCGGGGCATGTGGAGGCCTGTCTGGTCCCCTCCTGTCACTCCTGGAACTCAGTTTTCAAGGCTGCTCTGGAGTCCTCTAGGCCAAGAGGAGGTCC
CTTCAGTCCACTGGGGGCTCAGGATTTTATTTTTAGTTTACTGAGAACAACCAGTCAGGAACTTCATTTCGTTGCTGAAGATTGGCTTTTAGGTTATTTT
TCAACTGAATCTAATTAGTCATATGCTGGGATTTTCTGTCCAGAAGTATCCTGAGAACAAAGTAGACAGCCACCACATTCGCTCCACGTCCACAGTCCAC
ATGTCCATGCGTCTGTGTGGAAGCTGTTGGCCCTGAGTGGAGGCTGTGAGGAGGAACCTGCTGCGGGGCCCTTCACTCATCCTTGCAGTGGGCTTTTCCC
AAAATTTGCTGGTAATGGCAATACACTCACATGATTCAGAATCCAAAAGTATAAAAAAGTGCCGGGTGCAGTGGCTCACACCTGTAATCCCAACACTTTG
AGAGGCTGAGGTGGGCAGATTGCTTAAGGCCAGGAGTTTGAGACCATCGTGGGCAACATAGTGAGACCCCATCTCTACAAAAAATACAAACATTAACTGG
GTATGGCGGTGCGCCCCTGTGGTCATAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTGAGCCCAGGAGTTTTAGGCTGCAGTGAGCCATGATTGCACC
ACTGCACTCCAGCCTGGGCGACGGTGAGACCCTGCCTCAAAAAAAAAAAAAAAAATATATATATATATATATATATATAATATATATGTATTATATATTT
TATATATAGTATATTTATATGTGTGTTATATATATATAAAATATATACATATAAAAAGTTGAGAGTGAGGTCTCCTTTCCCCAYCCCCTCACCTGCTACC
AGGTAACCTCTCTCTTTGGGTTCTTGTGGATCTGTCACTGGAGAACCGAGTTCTTTTCCCACTTTGTGTCGGCTGCAAAGAAAGAATATCCAATTGGAAA
AGGTAGTCAGGTTTTACTCACTGGCCAGGGAGTGGAGAAGGGAGCCCTCACTTTAAAGGCACCTTCTCCCTGGACAGTGGGAGGCATGGAGATGAAGGAC
TGGGTACAGGCCGGGAGGGTGGGACTCCAGGCACATTGACGCAGATCATAACATGCTTCTCCAGGCATGGCTTGTACAGAACACGCGGTGGTCTTCTCTT
GGAGAATGGTCTTTAGCATTATAATGATATGCTAATGGTCTAAAGGCAACTGGGGCTCACCTGTTCTAGTTTGCAGCAGTTTCGTGGGGCTCCATCTCTC
TCTGGTATTTGGTCAGGGGTCAAGAAGCTCTGGTGGCATCCCTGCCATCTGGTTCCTTTAAAGCAGCTGTACCCATAGATAAAGGGACTGAAGGAAAACA
GTGAGAAAAAGGAACTTTTGCTGTTATTTCATCAGGGCTGCCCTGGTAACAGACCCTTCCGGGGTCGTTTTACGGACACAGAAGCTAATGCGCTTGTCCA
GTATTGCATCTGATTCTTGACCTCTTCTTACTCACTGTTCCACACCTTGCTTTCTTCCCTTACAATTTGTCTAGAAGAATGTTTCCTATCAGTACACAGA
AAGCACTCACTCTTTTTACAGCTCTGTGGTGTTTCGTGGAATTGATGTTTCRTGATTGATTGAATAGACCTGCATACCGACCCTTAGGGGTTTCTGTAAG
AAGAGGTTGGGCCAGGAGCGGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCRGATCACCTGAGATCAGGAGTTCGAGACCAGCCT
GGTCAACATGGTGAAACCCTGTCTCTACTAAAAACACAAAAATTAGCCAGGTGTGAGGGCAGGTGCCTGTAATCCTAGCAACTGGGGAGGCTGAGGCAGG
AGAATTGCTTGAACTCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTGCAGCCTGGGTGACAGCAAGATTCTGTCTCAAAAAAAAAAA
AAAAAAAGAAAAGAAAAGGTTGGAAACCCCGTTGCAGTGGGCGTCCGCCCTTCCCCTGAGCATGTGCGTGAATTCTTAGGGCAAAATCCTGAAGCTGGTG
GCTGGGTCTGAGGTCTGAGCATTTGGAGTCTTTTCCTATTTCTCCTGTGTGCCCCGCCCCCAGAGAGGTTGTGACTCCTGACTAGCCACTCAGGTCAAAT
ACCTTTAGCAGTATTTTAAATTTTAAAGTAAGCAGATTCCATGTTTGAAGTGGTTAGGTACTAAAAAAAATACAGTGTTTCACCAATTTCTTTTTTTTTT
TATTTTGAGATGGAATCTCCGTCACCCAGGCTGGATTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCT
CAGCGTCCCAAGTCACTGGGATTACAGGCATGCACCACCACGCCTGGGTAATTTTTGTATTTTTAGTAGAGATGGGGTCTCACCATGTTGATCAGGCTGG
TCTCAAACTCCTGGCCTCAGGTGATCCACCTGTGCTGGAATTATGGGCGTGAGCCCCCATGGCGGACCTAGTTTTTCACAAATTTCTTTTTCTGATAATA
CAGTAGTTCATATTTAGCTCTTTCTTTATGAAATCAGAACATGAATGAGCTGAACTTGTGACTCTCAGCAGCTGTCCCTGGCCCGGCCACAGCTGGGACT
TGAGCCGCCTGAGACCACGTGCATGCCCTGTGCCTCGGGATGTGGTGGACTTCCTGTCACTGGAGAAAATCAGGCCCGAGCAAGATTGGCCGTTTGGTGG
GAATGTGAAGAGGGCAGCCCAGGCCCTGTGTTTCGGGGGTGTGCCTCTCCCCGCACTCCCGTTTCTGGGAATGCTGTTCCTTCTACCTTCAGGGCCTGCC
CGCCCTGCGGTGTAGCCGCACTCCTCCCGGGTGTCATTTCTCCAGAGTCTTTCCTTCATGCCCTTTTTCCTCCTCACGTTCCCCCTCGTGCTTTACCCAC
ATCTGTCCCGTGGTTCGGATCCAGTTCTCCCGTGCGTTATGGGTATCCACGTGTTTGGTCTTAGCCATCACTCCAGGAAAGTGGCTCCTCCCTGAGGACA
GGGCTCTGTCTCTGATGCTGCTGGCCTCCCTCCAGTGCTGCCCTCCTCCKTTTGGGGCTTGGTGGATRCAAGTGCTGACACACAAAGGCAGGCAGGCAGG
CCTCGGGCCAGGGTGTCCTCCAGGCCCCTCTGATGGCAGGGACCAGCGAGACCTGGGGAAACTGCACAGTCTGTGCCTGTCTGTGCTCTCAGGAGACTGA
GGGAAKTAGTGGGTGGGAGAGATTTTATGTTGGATTAAAAACTGCACCTCCAGGCCGGGCATGGTGTCTCATGCCTGTAATCCCAGCACTTTGGGAGGCC
AAGGTGGGAGGATCACTTGAGCCCYGGAGTTTGAGGCTTCAGGAAGCTATGATTACACCACTGCTCTCCAGCCTGGGCAAACAGAGTGGCACCCTGTCTC
TAAAAACAAACAAACAAACAAACAAAAAAGAAAAATTAAAACATTTTTTAAATTGTAACTTTACCAGAGAAGGTTATTAAAGATCAATGCCTTTCACTTG
AGGCRGAACAGAGCACCACTTCACTCTCCCTAGAAAAGTCCTTTTCCTGTTTGTGGTGTTTCTAACATTCTCTGTTAATTGGCTGGTTTGACTGGAAGCA
CCTTTGCTTTCAGCTRTCAGTTGATCACATTGTGTTTTCTTCACCAGAAAACAGACACATGACCCTCATTGAGAACTGCAGCCTGCAGTACACGCTGAAG
CCACACCCGGCCCTGGAGCCTGCGTTCCACCTTCTTCCTGAGAACCTTCTGGTGTCTGGTCTGCAGCAGATACCTGGCCTGCTTCCAGCTCATGGAGAAT
CCGGTAAGGGCGTCTTTGATTCTCTCCACTTGGTGAGGTRAGTCTGTCCTAGTTCACAGTGAAACCTTGAAGGCACTGGGCTCTTCTGGGGGCAGCGTGG
GCCGAGCGCCCCTCTGCAGCTCAGCAGCACGGCCTGGCGGGGGTTGTGGGGGRCAGTGGAGGAGGATGGAATGGCAGTCTAGTTTCCGTTTCCCTCCTAA
ATAGTGTCTCACATCCTTCGAGTCATTTCTGGCTGCTTTGGTTGGGAAAATGCTTTCGTGAGAGACAGAGTTCAAGTCTCTGTGACCATAGCTAGGAAGA
CCACTGGCTGGATCTCAGCCATGTGGCATCATATCAGTGACCTGATGATCATGATGATGATTTTTAAATTAAGGTAAAATAAGGATAACATAAAATTGAC
CGTCTTAGCCCTTTTAAAATGTACAGTTCAGTGGCAATAAGTACATTCACATTGTAGTGCAGCCAGCAGCACCATCCATCCCTGAGCTCTTTCCTCTTCC
CCGGCTGAAGCTCCGTCCCCTTCCACACTGACTCCCTATTCCCTACTCCCCCAGCCCCTGGCAGCCACCCTTCCGCTTTCTGTCTTCATGGTTTCAGTGA
CTCTAGGGACCTCATAGGACTGGGATCATGCAGTCCTTGTCCTTCAGTGGCCGGCATTCTTTAGGAAGAGAGGGGAATTGCTCTGTTAGTTCATCCTAAG
AGTGAAATGTCTTCAAAGTTCTGAGTGGAGTGTTTTCGAGGTTCATCCATGTTATAGTGTGTGTCCCAGTTTCCTTCCTTTTCATCTTAAGGCTGGATGA
TATTCCAGTCTATGGATGGACCATGTTCTGCTGATTGTTTCATCAGTTAACACTTGAGCCTTCCRCCTTCTGGCTGCTGTGAACATGGGTGTGCAGTGAC
CTGAGGATTTTTGGAAACTGAAATTCGTGTTAAAGGACAAGGGCTCTGTCTTGGTGTGGTTTTCAGAAGTTGATTCTCTGGTGGTGGAATTGGGTCGACC
CCAGCAGCCATGGGAGTGTTGGGGGTGTGCTCTGCTGTAGGAATCTTCTGGGTGGTCCTCATGGCCTGGGCTGCATGCTTCTTCCAGGCACTTCTGGAGA
CTTTTGTGTGGCTTTCTTGAGGACTCCAKGAGAAGGGACACACCAGCCTCCTTCTACCTGTCATGTGATGGAGATGTCCTGGCACCACCAGAACCTYGGG
TGTCTTGGGTGACTGACTCCCTGCTGGGTTCCAGGAAGAGCAGGATTTGACCTTGTGTGTGAGGGGCGGGGACCGAGAGCAGTGCTGTGCTGAGAGTTTG
GCTCATTCTGGACCCTGAAGAAAAGGATGCAGCTCGGCTCCGGCGCAGGTCCCTGGTTGTTGGCAATGACAGCCCTGTGCATCGTACAGGCATTCTGGTT
GGTGCTGGGGTGTAGATGTTATTATCTGAGTTAATTAATTTCTTGGATAGGTCTATGGTGGACATCATCATTGTGAAGTCACTGTTTTTCCAGCATTCCA
GGGAGGAGAGGGTGAGAAATGAGAAGGGAGGAATGAACTCTGAACAAGAGCAAGCGTGGGGTCGCAGTCTGGGTCTGTCCTGCTCACTGAGCTATAAGTG
CTCTCCACGCCCACTTCGGGGTGTCTTACCCTGTAATCTGCCTGCAATCCTCTGAAAGGAAGAAGGAGACAGAGGGAAGGCCTCATTGTCACTGCTGTTG
AGTTGAGCAAAGAGAACATGAAAACCTGTGTCTGGCTCTGAGACCTGGTCCGTGGCTTGTCCTTCTGGCCCCTGTTCTGCTGGCCAGGGAGGGCCCTGTA
GGCGCCGCTGTGAGATGTCGCCTGCTTGATACTGATCATCAGGACTAACTGTGAGTTGCCGCCTGGTTGATATTGATCTTGGAACTAGCTGTGTGCTGCT
GCCTAGTTGATACTGATCTTCAGAACTAGCTTTCAGATGTCACCCGGTTGATACTAATCTTGGGACTAGCTGTGAGATGTTGCCTRTTAGATACTGATCT
TCAGGACTAGCTGTGAGATGTCRCCTGGTGGATACTGATCTTGGGACTAGCTGTGAGATGTCACCTGGTGGATACTGATCTTGGGACTAGCTGTGAGATG
TCGCCTGGTGGATACTGATCTTGGGACTAGCTGTGTGCTGCTTTCAAGTCAGCTGTGTCAGTCTTACTACCTGGGAGTCTTGGAGCCGGAGGGGTAGTCA
TCACTTTGTGACTTGCCCGTGGGTGTCAGTAGAACTGCAGACCAACAGAATTACCTGCAGGTCACTGGACTGGCTCAGCCTCATGACTAGGACTGCAAAT
GAGAAGCCGTGGTGCCCCAAGAGGACAGGCCTGGTTTTGTTCCTAGTGTCTTGTGTCAAGCTGGGGCCAAGGGGACCACAAGATGGGAGACAGAGTTTTG
GATTAAAGAGCTTGAGCCTGGGGTGCATGATTCCTGCTCCTCATTCTTAAAAGCCATGCTTCGGAAGAGGTCTGGCCCGTTGGCCTCAAGTCGGCCTTCC
AGGTGTGGAGCAGCCGGCCCGTCACCAAGGTGCCAAACGAATGCTGGCAGTGCCTAGAACATTGCAAAATTAATGACGTTTTATGCTGCTGGTGTTGAAA
ATCGAGTGAGCAGGGGATCTGAGGGCAGGGTGAGCACACGCCATGGTGTCCGGAGGGAGGGAGGGGGACTGACTGACTCCACCAGGTAAGGGTCGTATGC
GCCTTTCGGAGAGAAAGGATAGGTATCTCAGYAACACCTGCCGCCCCCCCGCCCCCCGCCCCCACTYTCAGAGTTGTTTTGGGAGAGAAACACAATTTGC
CCAGCCTTTCTGTTGTGTTTGGGGTGCCAGTGCCGTGTGGGCCCTGAGGTTACTTTCTTTTTATTTTACTTTTTAAACTTTTTAAATTATGTATGTAATG
ACAGCCAGATTCTTCTCTAATTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTGGCTCTTCTTCAGGCTGGAGTGTAGTGGCACAATCTTGGCTC
ACTGCAAACTCTGCCTCCCATGCTCAAGTCAATCTCCCACCTCAGCCTCCTGAGTAGTAAGGACTATAGGCATGTGCCACCATGCCTGGCTAATTTTTTT
TTTTTTTTTTGAGACAGTCTTGCTCTGTCGCCCAGGCAAGAGTGAAGTGGCACAATCTCGGCTCACTACAACCTCCGCCTTCCGGGTTCAAGTGATCCTC
CTCCCTCAGCCTCCCGAGTAGCTGGGATTACAAGTGTTCACGACCATGCCCAGCTAATTTTTGTATTTTCAGTTGAGACGGGGTTTCACCACGTTGGCCA
GGCAGGTCTCGAACTCCTGACCTCAGGTGATCCACCTACCTCGGCCTCCCAAAATGCTGGGATTACAGGTGTGAGCCATGGCGCCTGGCCTCCAGCTAAT
TTTTGTATGTTTTGTAGAGACAGGGTTTCTCCGTGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCCAGCATCAAGGAATGCACCTGCCTTGGCCTCCCA
AAGTGCTGGGATTACAGACATGCGCCACTGTGCCTGGCCTTGAGGCTGCTTTCTGACGGCTGTTCCTGGCCAGTGCCAATGCAGCTTGTCAGTTGTTTGC
CCCTTTTATACAATATGCTAAAGAGCGTTTTAAAACCACGAAGTTCATGTGTGTTCAGTACATTTAGTGAAAACTGAAAGTCTTCCCTTCTAGTCTAACT
CCGTGGAGAAAACCACTGATCATAGTTTGGTGTATACTTTTTACGTATTCACTAATTCATTCATTTATTCACTGATTTATTCAACAAATATTTATTGAGT
AGACACTGTGAAGCAGGCCCTGGGCTGGGTGCTGAGGATGTCACATTGCACTCTTAGGAGGGAGGTCATAGGTCTCTCTTGAATGGATTTTGGTAAGGGC
AGACCTCAAATCTAACCACAGTCACCAAAGGCAATAGGTGTTTTAGAATAAACCTGGACTAGCTCAAAGTCATTTTCATTCCTGCTTAAATCATTCCTAA
ATGTAGTTTTCATTCTGCTGTCGCTGTTGCAGCGTTCTTGTTTTTGAGGTGCATTCTGGTGAATTAAATATCCCACTGTTGCAGCGGTCTTGTTTTTGAG
GTGCATTCTGCTGAATTAAATATCCCACTGTTGCAGCAGTCTTGTTTTTGAGGTGCATTCTGCTGAATTAAATATCCCACTGTTGCAGCGGTCTTGTTTT
TGAGGTGCATTCTGCTGAATTAAATATCCCACTGTTGCAGCGGTCTTGTTTTTGAGGTGCATTCTGCTGAATTAAATATCCCACTGTTGCAGCGGTCTTG
TTTTTGAGGTGCATTTTGCTGAATTAAATATCCCACTGTTGCAGTGGTCTTGTTTCTGAGGTGCATTCTGCTGAATTAAATATCCCTAGCAGAAGAGCTG
TGTCCCCAAGAGGCTGTGGGCTGTGGGAGCCCGTTAGGGCCTAGGGGAATCTCAGGGGCTCTCCACTGTATGTCAGTGGGAAGGGGGTTCTTGCTTGTGA
AGGGTTTGCTGGCAATCCCTGTTTTCTCTGTAGTGTGCTTATGGGGGTCCCAGAATAAAATGGATTGTTGTAGAGTGGGGTGTGTTTTTCCATAGGAGCA
ATGCTGTTATTGGGAATTCCTTTCCTAGCCAGAGACTTGGCAACAGATAAATTAAAGGTAGGCCAAGCTACAGAGCATGAAGGGCAGAACGCCTCTGCTG
CAGTGGGGGTCACTTCTGCCACGGTGGGGTTCATGTCTGCCGTGGTTGCTGCTGTTGGTTGGTTAGTTGAATGAGTGAGTGAAAGAGTGAATGATTTCAG
GTAGTAAAAGGATGCTTGTTGGGTTATGCTGGAGGCTGACAGACCTGTGGCGGTTGTCTGCTCCACGTCTAGCCACGATGTGAGCTGGGGGCAGGTTTCC
CAGCCTCTCCAAGTCTTTGCTTTTGTTTTTCCTTTATAAATTGGGGACAATAATAGGGCCTGCTCATAAAGATGTATTTGGGGAGAAAATGAGATGGATT
GGTAAAGCACTAGCGTCTTCATCATGAAAGTTGTGTCTTAAATTCAGCCCAGATCCAAGCCTCCTASAGTAGAGCGTCCTGGGAGGTCTGATCTGTTTGC
CCTTTGCTAGCTAGCCCTTCAGATGTGCGAAGGCAACACTCAGCACCGGGCCCAGCTGTGTTTTTGTCCAGGCCTGGCCTCTCGAAGGTCACAGAGTAAC
TTGGTGGCTGAGCCAGGCTTGGGCTCASGTGCTTTACTCCAGAGCCCATGATGCTTGCAAGATGTGGCCTGCCAAGCCGGCTGAATGAGGATACCCAGGC
TTCTSTGGCTTCCCTGGGCCCTCCAGGATCTGGAAGTTTCTACTCACTGCAGATGTAGCTCCTCAGTCTGGCTGTCCTGGTGGGAACCCATCTTTCCTCC
CTTGATGACTTCCTGTGCGTGGGACTTGCATCTTCAGCTCTCTGTGCAGACCAGGGTCACAACTATTGGAATGGCTTTTGCTCCTGGGGGTGCGTGTGCA
CCCTGGTCATGAGGTGGCCACACAGAACCTCTTTCCTTCCCAGCCTGGGCCACTTCCAGGAGCACTGACTTCTGCCCCCTCCCAGATGCCTGGTGACCCT
GATCCCTCCACTGAGTTGCTGCCTCTTGAGATGGGGCACCCATGGCACACAAGTGATCTTTCCTAAAGGAAGTCGGTCTGGGAAATGGCCTTTGTCCTCC
GTTATTTTAGTTTATGTCATCCCTCCCTGCACCCCCCCCCCCCAGCTTTTTGAAACRTTCTGTTAAAATGTTTCTTGGCTTACTGTAATTGTATATATTT
ATGGGGAACAGTGTGATGTTTCAGTACACGTATGTGTTGTAGAGTAGATCAAATGAGAGTACTAGCGTGACTGTAATCTCCCACACTCATCATTTCTGTG
TGGTCAGGACATTSAGAAGCYGCTCTTCTAGCTGCTCTTCTAGCTCTTTTGTATTTTACGGGAACTTACTGGTAACCGTCATTACCCTGCTGTGCAGGAA
CAGCAGAATTTAGACTGTAACTTGTACCATGACCCCTTGACAACCTCTCCCTCCCCTCCTCAGTCTCTGATAACCACTGTTCTGTGCTCCGCTTCTATGG
TACCAACTCTTCTTTTTGAGRTCCCACATATGAGTAAGATCATGTGGTATTTGTCTTTCTGTGCTTGGCTTATTCCACTTAACCTTGATGTCTGCTAGGT
CCATTCATGTTGTGTTGTCGCAAGCGACAGGACTTCATTCTTTGATCGTGGTTGCGTAAGTACTCCATTGTGTAGATACACTACTTTTCTTTATGCATTC
ATCCATTGATGAACACCTAGGTTGATTCTGTGTCTCCACTGTTGTGAATAGTGCTGCAATAAACATGGGAGTGGCGATATCTCTTTGACATACTGATTTC
ATTTCCTTTGGATATTATATACTCAGTAGTAGGATTGCTGAATTATATGGGAATTCTATTTTCAACTTTTTGAGGAACCTCTGTCTAGTTTTCCATAGTG
GCTGTTGTAATTTGCAGTCCCACCCGTATTGTATAGGTGTTCCCTTTTCTCCACGTCCTCACCAATGCTTATTTTCTTTTATCTTTTTGATGGTGGCCAT
TCTCACTGAAGTGAGGTGGTATCTCATTGTGGTTTTAATTTTCACTTCCCTGATGACTAGTGAGGCTGAGCATCGTTTCCTGTGCCTACAGGTATTCGAA
CGTCTTCTTTTGAGAAATGTCTGTTAAGGCCTTTTGCCCATTTTAAAATCAAGCTACTAGTTTTTTTTTTTTTCTGTTGAGTTGCTTAAATTCCTTATGT
ATTCTGGATATTAACCCCTTGTTAGATATATAGTTTACAAATATTTTCTCCCATTGTGCAGGTTATCTCTTCACTCGGTTAATTGTTTACTTTATTGTGT
AAGACCTTTTTATTTTGATATAATCCATTTGTTTCTTTTTGCTTTTGTTGCCTGTGCTTTTACGGTTTTATTTAAAAAAATCCTTTCACAGCCCAATGTT
ACTTWAAAAAATCCTTACTCAGCCCAGTGTTACGAAGCACTTCTTCCGTTTTCTTCTAGTAGTTTCATAGTTTCAGGTTTTACATTTAAGTCTTCAATCT
ATTTTGAGTTGACTTTTATATATGGAGAGAGGTAGGGCGTCTCATCTYATTCTTCTGCATGTGGGTGTCCAGTTTGTCCAGCACCATTTATTGAAGAGAC
TGCCTTTTCCCCAGTGCGTGTTCTTGGCACCTYTTTAAAAATCAGTCAGCTGTAGGTGGCATGAATTTATTTCTGGAATCTCTATTCTGTTCCATTGGGC
AAACCTAATGTGAGTTTGTGATGGGGACAATATAGAAAACTATAAAGAAGAAAATAATCTACAGTTCCTGCCTGCAGATCCACATGTATACATGTAAGTG
CACATGCTTTTAAATACCRTCGCTATCAGATGGAATCGTAATAGTTTCATATGTTACTATTCTTTTCACTTACAATATTACGATTATTTCTCAATTTATT
AAATCTTTGACAGTATGATTTTTTTTGTTCTTATTCAGCAGGATGAATAATAGTTTAGTGAACATTCCCCTATTGAACATTTGGTTGCTTCGATTTTTCT
CTATTATAATAAAGTTTCAATGAATATTCTTGCACATAAATCTTTGCTTCTGTCTTTGATTATTTTCACTGAATAGGTTCAAAAAGTGGAATTACTGGGG
CAGAAAGTGATATTTTAAAGCTTTTGACATACTCAAAGGCAAAGGCGATACTGACTCATAATCTTCAGCAGGATAGTAGAGTGCTCTTTTGACGGCAGTT
TCATCAGCATGGAGTGTTACCTCAGTGTTTTCTTTTTTTTCAACTTTGAAATTAGCTTTTAAAAATCTACATATCTACATAAGTAAAAGATCATTAAAAT
ATAGGAAGAGATGGAGCTAGGACCAGAAGAAGATGACGATGGTGGAGAAAGAAGGGGCAGAGTCCACAGGTGTGTGTAGGTTGGGAAACGGTTGGCTCAT
CCTTCCTCCTCCTGGATGAGCCTTTGCTCTAGAGCAAGTGGAGAAGGCTCCCCAGGCAGCCCAGGGTCCTTCCCTCTCTCAGCCAAGGTTTTTCATGGGC
CTGCTTTGCACGAGACCGTGAGCTGGGTCCCTGGGGCCACTGTCCTCTGGATGGGACCCTTTTCTCGTGGTGCCGTTCAGGCTGTATTTTGCTGGTTGCC
TTGACAGGCTCATGCCTGCTCAGTGTGTTTGCAGATGGTTCAAGGTAACACAGTAAAGTAAGGAGCGGCGTGGCTGGCCGTGTTCCTGCTGGAGAGAGGA
AGGAAGCCATGCCGGGCAGCAGGCTGCAGGGCCGCACGTGTCACTTTGCCTTCTCCAATCTGTGTTCTTTGAGTTGTCGAATTATAAAAACTGTTCCTGG
GCCAGGTGTGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCGAGGTAGGCGGATCACAAGGTTAGGAGTTCGAGACCAGCCYGGCCAATATGGT
GAAACCCCGCCTCTACTAAAAATACAAAAATTAGCTGGGCGTCATGGTAGTCACCTGTAATCGCAGCTACTTGGGAGGCTGAGGCAGAAGAATGGCTTGA
ACCTGGAGGCGGAGGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCCGTCTCAAAGCAAACAAACAAACAAACA
AGCAGAAAAACAAAAAAATGAAAAACAAAACAAYAGAAAAACTGTTCCTGGAGGAGGTTTGGGGTAGATTTTGGACTGCCAATGAAATCTGTATTTGCTT
AATTGTTGTGGAGGCTTGGCTTGGGCCTTGTGCTCTGTCTGGGAGTCCCGAGCACCCTTCGTTGCTGCAGGCCCCGGCTGAGGCTGGGGTGGGTAGGGAC
CCTCGGTGGCTGCCAGTGGGTGTTTTATTCCCAAGGATGACCCTTTTCGCACCCTCACTGTTTCAGGCGACGCTCTCCGAAAGCCTCGCCTCCAGAAGCC
CATCACGGGGCACTTGGATGACTTATTCTTCACCCTGTACCCCTCCCTGGAGAAGTTTGAGGAAGAGCTGCTGGAGCTCCACGTCCAGGACCACTTCCAG
GAGGTGTGGAGTCAGAAGCGTGATGGGGGGCAGGGTGGGGCCAGGCAGGGGTGGGACCCGGGTAGGGCAGGGAGGAGGTGGGGCAGGGTAGGGGTGGGTG
GGGCAGGGTAGGGGTGGGTGGGGCAGGGTAGGGGTGGGTGGGGCAGGGGAGACCCCGCATCTGATGCTGCTGAGGAGGGCCCTGTGGCCCTAAGGATGTA
GTTCTGTCTTTTCCCCTCTTTCTGGAGGTGAATTGGATCTTTAGGGACCCCTTTCCTCCACAGCCAAGGCCCCCACAGAGCCTCCAGTTGTTTTAACTTC
AACAGTGATGAAGGTGCTGTTGGCCTGAGATGTTAACTAAAGTTAATTCTGGTAGATCATGAAATAGTCCTCATTTAAAGTAAACTAAATCACCAGATGA
GCATAGGGAAACCCATAGAACCCTTCCCATGTTCAGAGGACGTCGGCGGGGACATGGGGCTCGTTTCCGGAGGTGGCTGGAAGCCTCGGTCATCTCACCC
ACCTTGGGCCCCTGGGAAGGCGCCCCCAGACTCACTGTCCCCTCGGCCTGCCCGTGTCACAGGTCATTGTGTTCTGGTCACTGAGAGCCTGTTCACACTC
CCTGCTGTTCCTGTCTGTTGCTTTTCAGTGTATGGGTTTGTCCAGGTGCCCAGGCAGGGCGTCTGGAGGGCTTGTCCATCTGTTAGGCAGAGGCTTTTGA
GCCTGTTTGCCTGTGGCCCCTGGGAGGGATGTCTGCGTCGTGCAGGTGCGTGGAGCTCAGCCTGCCTAGTACGCAGCATGCGCTGGGGTTTCCTCTCCGG
CTCCGTCCCAGCGATGCTCTGGCTTGCGAGCTGTAAAACACCAGGGCCAGGGAGGTTGTTTCTAGAGCTCCTGTCACCTCTGACAGCAAAAGTTGTCTTG
GATTTTCTGTGTAGAAGCTTGTTTGTATGCCAGACAAGACTTGGAAAAGCCTTTGCAGGTTTGGGGACTGCTTATGTTTTCTAGGCGATAATCTGTCCTT
GGTCTRGAAAAATTGGGCCTGATGAACTGTCACAAATAGTGTTGGAATGAGGTCTGTCCGCCCTGGCTCTTCTGTCGCCAGCAGCAGGGGGAACAGGCAT
GTGGGACGGAGATTGCCTGGTTCTGCTGGAGCCCTGGGCTCAGCCCCCTTGCCTGCGCCTTYGCTGATGATCACCAGATGGAGTAGGGAGAAGAGGGGTC
AGCCCTGGCTGCTCTCAACTCTGGAAGGAGGGGCCCTCAGACCTGGGTTGTGGGCAAACCACTCCTTGTTCCCCCTCCTAGAATGAGAGAGTCTTCACTT
TCAACTTCAGAAACAAAGAGAAAGAAACTTTAATTGCAGAGAGCCAAGAGACTGGTGTGGGTAACATCTTGCTGTTGCGTCGAGTCCTCTTCACGTCACA
CCCTTTTCGTGATGAGTCCCGCAGAAGCGCACAGAATGCAATTGTGTGACTGCGCGACACGAGGAAGGACGGCAGAGGGAGGCCTTGGGCCCGGCACCCA
CAGAGGCACCCTCAGAGCCTCGCGGGTCTCCTCCGGCTGCACCTTCCTCCCCGCCCATTCCCTCGGGCCTTTGTGCTAAYCACATCTTGGCTTTCTGTTC
TGGTTCTACCGCCTATCGATGCATCTCTAAACARTATAGGCTTGCCTGCTTTTGACCTATCTTTAAATGAAGTCGTACTTTTTTCTTCTGTTTTGTTTTG
CTGCTTTTGCTCAAGACCATGCTCCCGTGGGAGGCTGTCTGCAGTGGCTGTGGCTCCATTTGCTCACTTTTTTTGCTGGATGGTCGTCCGTGTGAGGGCA
CCAGGATTTATAAATCCATTCTACTGTTGATGGACTTTTGGGCTATTTTCAGGTTGGGGCTGAGCATTCTTCCATGTGTATCCTGACTTTTAGTAGAATC
TCGAGCAGGAAGTAAAAGGGACTTTTTTGGAAAATCTTCATGGGCCTGCAATGAGTTGGCTGGTCCGCTGGGGGCTGCTGGTCTAGGATGACTTTGGTTG
GGGTGGCGTGGCTCCTGTGGCCTCTCCTGTGGCAGCCAGTCTGGGCTTGCTCTCGTGGAGGCAGATGTTTAAGAGAGGAGTTGGAAATGTGCAGACATTT
TCAAACCTCTTTTTGGATTAAATTTGTTACTCTCCCACTGGCCAAAGCAGGTCACTGGCCAAGTCCAGAGTCAGAGAGGTAGGGGACTCCAGGTTACAGG
ACAAAGGGTATGGCTTTAAAGATCCCTTACCTGGAGCTGCAGATGAATCCTTTACCATGAGGGTTTGGTGGAATTCCCAGGATTTTGCCAACTCGGCCAT
AGCTCCTGGGGGTGGAGGCGGAGTTGGGCATGGTGCCTGCCCTCCTCCCTTTGAGCTTCAAGGCTTGGGTCCTGCCTTGGTGCCAGGTCCTGAAGGCTGG
TGCGGTCTGTTATGCTGCCATCCTTGATTGGTGGCATATTTTGCTCCTTAGGTATTGGGGGAAGGAAATTCTCTGAGGAAGTGTCCCTCAYGTTCACTTG
AAAGTCCCAGAGAACATTTTTTTCACTCAGTAGTCAAAGAGGTCTTTTAAAAACATAAATTCATTGCTTCTCGGCCTTTTGGGTAAGATGAAGTGTAATT
GGACTTTTAGGGACCCTCTCTTAAACTCCTCTCTTAAACATCTGCCTCCATGAGAGCAAGCCCAGACTGGCTGCCACAGGAGAGGCCACATAAATTCAGC
CATTTTTCTTCTGTGTTTAAAACCTGCTGCTGGCTTCTCATTGCCCTTGGACTGACACCTAGGCTCCTGGTCCTCCAAGATGCACGTGGTTTGGTCTTTG
CCGGTTTCCCCTGCCTCACTATGTGCTGCCTCCTGGTCATGGTTTGGTCTTTGCTGGTTTCCCTACTTCACTGTGTGCTGCTTCCTGGGCCTGTTTTGTG
GTCCYGGATTCAGGCATGCCTCTGCCTAGGTGGCCTCGGACTCATGCTTGTCCCTGCATGGGTCCTGGAGCATGTAGCTGACTTTCCTGAATGTTCTTCC
TGCACATCTCTGCTTGTTTCCCCTCAGGCTTCAGGTCTGGACGGGGTCCYCTGACTGTCCTGCGGGGGTGCTGTTCCCCGCCCTTGCCACCGTGTCTCCA
GCTGTCACCCCGCGTTCCTCCCGGGTGCTCAGCCCTTCCTGGGAGCAGCTGGCCTTCTTATCTGTTATTGTCGGTCTCCTGTGGTGAGTGTCACCAGGAC
AGGGACTTTGTTTTGTTTACAATGACACGTGATGTGCATGAACGGTGTTTGGCACATAGGAGGGCTGTACTATTTAGTTGTGAGAATGAATGATTCAGGT
GCTCATCCTAGTAGTCTATGAAGTTAGCAAGTTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTATGTGAATGAGCTGGACTTGTTTGCTCCCTACCCGTT
CTTGAAAATGCAGTTCTACATAATATGGTCTTATGTAAACACAAAGCAGAGAATAGGATTGAAACASCAACATCCGTTTCCTTGGTGTAGTTCCTGCTGT
TTTCTTGTTTGTCAGGGCGGATTGTGTGAGGGTAGAGTTGTTTTAGGAATATCATTGTTGAATTTTATACAGTCCCATAAAAATCACTTTATTGTGTATT
TTTACTATCTTTGTATTTTTGTTCCAATCCAACTGGCAGATACTCAGTTATCTGCATAGTTTTATTTTCGTTATCCAAAGACTAATAGGCTGAATTTAGG
TCTGTTCAGCTTGATTAATGGACAGTAAAGAAAACTTGAAAATTTGAGGATCATTTTGCAAAGATCACATAATTTAATAAACACTAATAGCCAGGGGAAT
ATCCTTGTTCATTTGTTATAGCGCCTGTACATTTTTGTTAAGATGAAACACTTTAATATCGAGTGACCACTTTGGGGCTGGTTCTGTTTTTATTGGTTTA
TGACTTAGTGCCTAAACATGTTTCCCTTTGTACACCCAGTCTCAGGTCTCTGGGTAGACAGAGTTGAAATGTGATGAGCTCTGCCTCTGAGCACCTCTCC
ATCGTCGTCCAGGGAATTGGGCCCCAGGGAAGGGGGCTCTGGGGAAGCAGCCTCTGGGAAAGGGGGGCTCTGGGGGRGTGGGCTGTGGGACCTTGGAGGA
GTCTTGAAGGAGCCAAGTACGAGTTTGCTGCATCTTGAGAATGGTCAGCCCAGCCTTGGAAAGCTAGTGTCRGGTTTTGGGGATCGAGGCATCTGAGGGT
GTGCGTTGCTGAGAGGATCATGCTGTGTTGGAAATGCCAAAACTGCCCGGGCAGTGCCCCAAGGCCAGTGGCTGGGATTGGGTGCTGTATCTGTCATTTG
CTTGCACTCATCTTGACTAAGCATCATCTGATCTGCAGTTATCTGCAACTTCTGCTCCAGTTTCTTCTCTCTGCTCGCCTCCCCCAGGGACTTCTGGCGA
GCTCCCTCTTTCYGTCTGTGCCGGGGCTCATTCCTTCTGTGCCTCTTCCAGGGATGTGGCCCACTGGACGGTGGTGCCCTGGAGATCCTGGAGCGGCGCC
TGCGTGTGGGCGTGCACAATGGTCTGGGCTTCGTGCAGAGGCCGCAGGTCGTTGTACTGGTGCCTGAGATGGATGTGGCCTTGACGCGCTCAGCTAGCTT
CAGCAGGAAAGTGGTCTCCTCTTCCAAGACCAGGTATTGTCTCTTGGGTCCCCAGGGATGGGTGGGGATGTGCAAGGGATCACGATGAAATGAGGTCATT
TGTGCATGTCAGGTGTTGACTCACCCACGTGGGAGTTCTTCCTTGTGTTTCTTTCCTCTTGGAAGTTGTGCCCATTAGGAACAAACTTTGGAGTTGGAAG
TTTGGAAAAAGCCCCCCCCTTTTTTTTTCCTTTTGTGCTCTGACAATTTGGGGGTTAGCATTATGGATGCTTCCAGCTGCGGCTGCTGAGGGTCTACGGA
GGCCTTGCATGCTGCCTTCTAGGCGTGCCCTGTGATTAGTTTCTCATAGGACGGAGAGTCAGGGGGCAGCAAGACCTGCTGCTCTGTTTAATCCAGTGCT
TCCCAAATCAGGTGTCACAGACATCACTGCAGGGCGTCATGCCTTTCCTCTCTCATGGTGCCAGGCAGAGGCCAGGTGTCCTCTGCCGTAGGCCAGCCTT
GAGGAAGGAGCCTCCATCCTCTGTGGCATTTCCTGGTAACTTGGCCGTATCAGGCCTGCAGGCAAGCTTTGGTAATTTGGAAATGCGTTGAAAGAGCAAT
GAGAGGCTGAGGCGGGAGGATTGCTTGAGCTCAGGAGTTTGAGACCAGTCATGGCAGCCTAGTGAGACCCCCATCTCTTAAAAAGCAGYGTTTTGGGGAA
TTTCTGAATCATTTGGRAGAGCGTGCAGTGTTACATGGTGGACTTGCTGTTGCAGCAGCACCCCTGTGTCCCCCAGGGTGTCCCCTTGACTGTTCTGACA
GTGGTCGACGTGGATGCGGGAAGGATGGGAGCTCGAGCTCTAATGTGTCCCTGGTTTGTGTTTCTGACCCAGCTCCGGGAGCCAAGCTCTGGTTTTGAGA
AGCCGCCTCCGCCTCCCAGAGATGGTCGGCCACCCTGCATTTGCGGTCATCTTCCAGCTGGAGTACGTGTTCAGCAGCCCTGCAGGAGTGGACGGCAATG
TAAGAACAGCCCTTTTGCACTCGGTTTCCTCTGGTGGTGAACTCTGTGTGTGAGGATAAATGTAGTGGGCATGAATGCTTTTTCCATTAAAAACAGGCAT
GATTATTATAAATAATAAGTAAAAATCACTTTACTGACATTTATCAGCTGATTGTAAGGAATGTTACAAAGGATACAGATGAGATGGAGAGGGCAAAGAA
TGTGGGAAGGACTTGGAGCTCCCATGCCCTCCTGGGCACCGCCCTCTGGGCACTTCCATGGGTTCAGCTGTCCAGAGCTCTCTGAAGTCAGTCCTTTTGG
GTTTTGATGAAAACTTTATTACGTAGGCATAATTGATTAAACATTGGCCATTGATGATCAATGTAACCTTCAGTCACTCTCCTCCCCCTGCCTTGGTCTT
TCTGTGAGCAGCCCCATCCTGAAGCCACCTAGGGGCTACCAGCCACAGTCATCTCATTAGCACACAAAAGATAGCACTTCGGAGATTCCGGGGGTTTCAG
GAGTTGTATACCAGGAAACTGGAYGAAGATCAAATACATATTTCACAAATCACAGGTGCATTCTGCTGGCTGGGAGTAATGCATAGGTCAGTAAGTTTCA
TGTATCATAATAGCGTTAATTCATGATTATTGAATCGCTAATTATTTTGAAAAATGAGGCCATTTTAATGTATTTTTATATGACAGTAGTGTGGTAAAGC
TTGAGTTTGCACAAATGAGAGATGGTTTCTCATAGGGAACTTTATATATACCTATAGAACACTAAGAGTAAGAATTTATAGGTTCAGTTGAAAGAAATAA
AATATGTGGACATCATTTATATTAATGTAGATTCTTTGAGAAACCCAAATCCTGCTGTTCTTAAGATTTAGTTTTCTGTTTGAAAAAGTCAATAATGCAG
TTCCGCCTTTTCCATGGGGCGTTTGTTCCAAGACCCCAGTGGGGGCCTGAAACCTCTGTAGTACTGACCCCTACACGGTACATACTAGGTTTTGTCCTGC
ATATACATACCTATGACAYAGTTTATAAATTAGGTACGGTAAGATATTTAACAACAATAACAATAAAATAGAACAATTATAATATACAGTAATAAAAGTG
AACGTAGTCTCTCTCTCTCTACCTCTCAACTGCAATGGGTGGGTGGTGTCTACAGTGTGGATATGCGGGACGGAGGGATGATTCACGCCCTGGGGGGGGA
CAATGCCAGATCTAATCACACTGCTCAGAGTGGCACGCAATTTAGGACTTAGGGATTGTTTTCTTCTGGAGTTTTCTGTTTAATATTTTCAGACCAAGGT
TGACTGAGGGTCACTGAAACTGCAGATCGGGGTACTTCTGTATCATTTTAACAAGTAAATCAGAAACCAAAAAACGGTTGACAAGACATCTTCCATGGCG
ATCTGGCCTGCCATCGCGACTGGGCCGCTCTCTCAGGAACAGCCTGTGAAGGAGCATGAGGTGCTGAGGACGGTCTTAGGGTGTGCCTCAGGCCGGAGAG
CAGGGTGTCGGGGTGTAGCTGCCATTTGGTGTTTCTAATCTCTTCTGGTAGCGGCGAGTTGACCTTGCCAGTGTCCATGCCTCCGGTCCCTATGATTCCG
AGTCCTAATTAGGTGCAGAAATCCAGAAGTGCCAAGCGTTCTGTGGACTGACACAGTCACAGTCATTTAATGAAACTGTTCCAGTTCTGCTTTTCTTTAC
TTATGACCAGAAATTTCAGCTAAAATACAGCTGTTTGTGAATACCCTTGGGTGGGAGGGGTCTTCTGGGGTGGGTGTGGCTCATGGGGAGGGATGGGGCT
GCCCAGGCTGGGGAGTGAGCGGAGGAGAAATGGCCTCAGGGTGTCCTGGCAGCGCCTGATGGCTGATGTGTGGTTCCCAGGGGCTGTGGGGGGAGGTGGG
GAGGAGCAGGAGGGCTGGCGCCTCACTCTCAGTGTCTTCTAGAGAATATTAATTGTAATTTACTTGTGATTATGACATCTGTATGCTGAAACCAAGATGT
CTTAGCGATACTTTATTCTTTTTTAACCCTCATCTGAAATTCCTGACAACAGGTGGTTTCGATGGTGGCCGCTTCATGGGCGTCTGGGGTGCGGGTGCGG
GTGAGGCTATGGAGTCACTGATTTCTCTTCTCTTCTCTTTTCGAGACAGAGTCTCACTCTGTCGCCCCTCAGTGGCGCGATCTCGGCTCACTGCAACCTC
CGCCTCCTGGGTTCAAGTGACTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGACTATAGGCACGGGCCACCATGCCCAGCTAATTTTTGTATTTTTAATAG
AGACGGGGTTTTCCCACGTTGGCCAGGCAGGTCTCAGACTTCTGACCTCAAGTGATCTGCCCTCCTTGGCCTCCCAAAGTGCTCAGGTTCCAGACGTGAA
CCACCGCGCCCGGCCAGTCATTGGTACTTTCCGATGTGCTGGTCGATTGTAACTGGGAATACTGGATTCCACTTTACTGTCATCAAGTGCGCTTTCCTGG
GTGAAATCTGGAATGGAAATGTTGCAGTGTGTGAAATGACCTTCCACACAAAAATTGCTTCCTGTGCGGAACCATTGGAAGTGGGTTAAGCATCCACCGG
GTGAAACTGGAATTGAGCGGGACGTGAGAGGAGAAAGGCACAATGGCGGGGCCGTCTGTGACGGTGGCTGTGGTAGAGGAGCCCAGCGCGCTCCTTGGAA
GGCCCAGGGCGGGCTGTGGCAGGGCCCTCCCACCTCAGCCACCCCGTCTGCAGCAGTGTCTCCCAGAGCAGCCTTCTTCAGCTGGGTGGGGATTTTTTCA
GCTGGGTGTGGTTGTGCCTTCCGGCTGCAGCGTCCTCCTCCTYGTCTTTGGTGAGGACCCTGCGTGGTGGAAGCTGTAAGCACAGCTGAAAACAGGCTGG
CTGGTGCGATGGGCCCCACGGAGCTTCCCCGGCTGCCAGCTTCCTGGACAATCTGCTTCTTCTRTGTCCTCTCCCACAACCCGTTTTGAATTATTCTGAA
ACAAATTCCAGGCATCATTTTATTTCATCTGTAAACCTTTTGGCATGAACATTTCTTTTTTTTTTAAAAACTTTTTTATTTTGGGAAATTTCAAAGCTAA
CAGTGGAGAAGCATGTGGTGCGCTCCCTGCACCCACCTCCAACCCCCAATTTATCGCTCATGTCTCATCTCTTTCTCCCGTCCCGTTCCACCTGGGCTAT
TGGAGACCGCATCCTAGACATTGCATCCTTTCATCTACAGATGGCTCACCATGTCTCTCCAAAAGACAGGGCTCTGGAGTGTCACTGTGAACACCATCAT
CACACCTAACCTTGACTGCATTTCTTAGTATCATCAAACATCCAGTCAGCCTGGGTGTACATTTTTTAAGTATTTTACTTAATAAGAAACGGACAAACCC
CAGCAATGTGCTTTTCCCTGGAAAGTGACTTGTGACAGCCGTCTTCCTGCATGAGCTGGGCGGCCTGTCTGTTGTTCCCTGGCAGTGGCTTCCTCATGTT
GCCTTTGACTGGAGGATCTGCTCTCCCTGTGGCCCTGCTGCCTTCATCACACATTCGTAATGCTGGGAGAGCCAAAATGCACCAGGCTTTTGGCAGCTGC
TTCACTTGGCCTCATGCATCAGATCAGGAGGCAAAAGCTATGGTGTCTAGGGGCCCTTTGTGGAAGGATTCATCTGTAAATGGTATGCACAGACGAGGAG
GCTACCTGGGCTGATGAGAACATGGAACAAATACTGTGTTCAGGGCACACCCAGGCACTGGAGTCTGCATGTATTCTTTGGGTCCTGAGTATTTTGTAGT
CATTGGAAACAAACTAGGAACAAAAGTTTTGCCAAGACACACTCACTGACTTTAATCTGCTGTTAATTTTTTTGCATTTTTTAGTTAACCAAAGCATCTA
AAACCTTTTTCCTGTAATTTATGTTTGGGTTAGCTGTGAAGAAGCTAAAGAAACTACCAAAGAAGTAGTCCCTCCTGTCCAGACCACTTTCTTCCCAGGA
TCCTGGGGACAGTGCAACCTCATTTGACTGCCACAGCACTGCCTCTTTTGAAATGTCTTATGCATGCAAGTGTGGGCTCCAGAAATGTTTGCTGACTGAA
TGAGTGATGGAGCAAACTCCCTGTAACATGAGCATGAAATGCAACAGGGGCAAACCTGCAAAAATCACCAGATCCGGTGTCTTGGCTGCGTTTCATGTCT
GAATAAGCGGGCATCCTCCTGAGCCTCTGGGGGTGAATACAGTCCTTTTCTGTGGGTCACATGACAAAATAACCCTCTCCCCAAATCTCTAAGGGGTGAA
GATTTGCCTGATTTATTGTTTATGTATTAACTCATATTCTTGGAACAAAATCAATGGCCYATGTTCCAGGGTCTGTTGAACTGATCCATGTGTGTCCCTG
ATGGCCTTTCCTCCAGTACCGTGTCCAGTTCAGGATCATGTCTTGTGTCTGGTTTCTGTGTCTCTTTGACCTCCTTAATTCTGGAACAGTTCCTCAGCTT
TTTTTTTTTTTTTTTGTCAWTTATGATTTTATTTTTAATATTTTAGTCTCCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTYGCCCAGG
CTGGAGTGCAGTGGCGYGACCTCGGCTCACTGCAACCTCCGCCTCCTGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTG
CCTGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTAGCCAGGATGGTCTCGATATCCTGACCTTGTGATCCACCC
GCCTTGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCATGGCCTAGTCTCCCTTCTTTAAAAAATTTTTAATGCGTATGTTGCTTGGGTT
CATCTGATGCTTCCTCATAGTTGGAGTCAGGTTGTGCCTTCCTGGTAGTGGTCCGTGTGAGCAAGGGGCAGTCCTTGGGTCCCACATCCAGACGTGCATG
TGTTCATCCTGGGCGAGGTTGGTTGTGGTGATCTTTGCTGATATCTCCACTGTAGAGTTACCTTTTTTCCTCCATGCAGCTAATAAGTGATCTGTGGGGA
GACTCTGAGACCACGTGGGTATCTGCTCCTCATCCGATTGTCCCCCTTGGGTTGGCGTCGTTTATGCTTCCTGCAGGAGGAGGAGCCCCAGCCCAGCTTT
CCCACAGACCTGCAGCTGGCATGGCACCTCCTGTCCCCAGGGCCCCCTGTCTCCTCACTGGTGGGTAGATGGTTGACTTGTCCATCAAGCGCACATGGGT
CTGGACTCAGGGATCCCTGTTTTCAAAGTCACTGCTTCTGATTATTTTGGTACAAATTGTCCCAGATTTGGCCGGATGGAGTCCTTGAGGCTGGCCCCTG
TGTCCTATGGCATCCTTCGTCCTGTTTTGTGTTTGAGTACTTTCTGGCTTCAGAAGATGCTTCAGGCTCATCTTCATCTCTACTTATTTTGCCCATTTTT
CTGTARTTTTTGCATTTTTCATCAAATATTAAAAGTTCTTTGTATGTTAAGGATATTTGCTCTTTATCTGTGATAAATAGTGCAGATATTTTCTCCTCAT
TTTGTCATTTATCTTTTTATTTTTTTTCCTGGCTGTGTAAACATTAAAACATCTTTTAATGTAGTCAGATATATAAGTTCTTTCTTTTATTGTATCTGGA
TTTTGAGTCAGGGAAAAAGCCTTTCTTCGTTCCCCAGTCATAGAGGAATTCACCCATATTTTCTCCTCGTGCAATGTTTCTCCTGCCCTTTTTTTTTTTT
TTTTTTTTTTTTTGTCTAGATCTCTTGTTTGTGGTGTGAGGGATGGATCTGATTTTATCTTTTCCCAGTGGCCATCTGGTCCCACTACCACTTACTCAGA
AGTCCCCCTTTGCCATGGTGACTTAATGTGCTGTCTTTATCACATACTCTGTCTTTATGGATAGTGCATCTGTTTTTGGACTTTTACTCTCATGGGCTGC
CCTGTCTGTTAATGTACCATGGCCATACTGTTTTAATTTTGGAGGCTCTGTTGTGTGTTTTAGCATTTGGTAAGGCAAGTTCAGCTTTATGGTTCTTSTT
TTCCTTGCTTTTCTAGCTTTTCTTGCATGTTTATTTTCTGGATTAACTTTTGTATCAAGAGGTCTAGCTCCAAAAAATGCTGATTGGCATTTTAAAAATT
GGGATTGCAGTAAATTTATGATTGAATTTAGAGAGAATTTTACATCTCAAGGATGTTTAGTTGCCCTAACCAAGAACAGGATGTCTTTCCATTTGTTCAA
GTCTATTTTTGTGTCTTTCAGGAATGATTTTAAAAATGGTTTTAAAATGTAGATTTTTAACAATTCTTATTAAATTTTTTCATGGGTATTTAATTTTTTG
TGCTGCTGTTGTAAATGGGATGTTTTCTTTCATTATATTGTCTGAATTAGCACTGTGTTTTTATTTTGTTTTTGTAGACAGTCATTATTATTTAAGCAAT
TTTACTAGCATTTTATGTAGCTCTTATTATATACCGCATGCTGTCTTTAAAATTAAGCTTTGTATTTTGAGGTAATTGTAGATTCATATTGCAGTTATGA
AGAGTAAAGCGGGGAGATTTGTGTCCCCTTTCCCTGGTTGCTCCTGTCTGAGTCTGTTTTCTGCTGCTGTAACTGAATACCACAGACTGGGTCATTTATA
GTGAATAGAATTTATTGGCTCATGCATGGTTCTGGAGGATGGGGAGTCCAAGATCAAGGTGCCAGCATCTTGTGAGGGCCTTCTTGTTACGTCACTCCCT
AGCGAAAGGGCAAAGAGAGGGTGAGCAAGAGAAAGGGGGGCTGAACTCGTCCTTGTAGAAGAGGCCCATTCCCGAGACAATGGCATTCATCCATTCACTC
CACCCTCATGGCCTCACCACCTCTCATGAGGCYCCACCTCCCAGCCCTGGTTTGTTGGGGATTAAATTTCCAACACATGCCTTTTGGGGGACATGTTAAA
ATTATAGCACCCCAAATGTTACACTATCTTTTGRTGAGCGGTAGTTCTGATTTTAAGTCTAGCTGGCCTACTTTTTCTTGCACGTGGGATGCTTTCTGCC
TGTTCCAGGGCAGGCAGCTCTTCTCTGTCCCTCTGCTGGCCCCACCTCATCCTCTGTTGTCCTCTTCCCTCCTTCTGTGCCCTGGGGTCCTGGTGGGGGT
GTGACTGTCAACTGCGTTGGGCTAACTTTTTTCCCTGCTGGTGGCCCGTAATGAAAGAAAGCTTCTTGCTCCCAAGTTCCTTAAATCCAAGCTCATAGAC
AACGCGGTCTCACAGCAGGCCTGGGGCCAGCCTCACGTGAGCCCCTTCCCTGGTGTAGTCACTGGCATGGGGGAATGGGATTTCCTGTTGCCCTACTGTG
TGGCTGAGGTGGGGGTTGCTTCCTGGAGCCAGGCCTTGTGGAAGGGCAGTGCCCACTGCAGTGGATGCTGGGCCCTGAATCTGACCCCAGTGTTCATTGG
CTCTGTGAGACCCAGTGAGGGCAGGGAGGGAAGTGGAGCTGGGGTGAGAAGTAGAGGCCCTGCAGGGCCCACGTGCCAGCCACCAGGCCTCAGACTAGGC
TCAGATGACGGAGAGCTGCACACCTGCCCAACCCAGGCCCTGCAGTGCCCACWTGCCAGCCGCTGGGGCCCAGACTTGCTCCAGAGGGCGGAGAGCTTTA
CACCGGCCCAACCCAGGCCATGGCTCCAAATGCGTGACAGTTTTGCTGTTGCTTCTTTTAGTCATTGTCAAGTTGATGCTTGTTTTGCAGAGGACCAAGG
CTTTATGAACCTATTACCCTGTGTGAAGAGTTTCACCAGGTTATGGAAATTTCTTTAAAACCATACCACAGTTTTTTCATTATTCATGTATATTTTTAAA
AATAATTACTGCACTCAGTAGAATAACATGAAAATGTTGCCTGTTAGCCCTTTTCCAGTTTGCCCCGAGAATACTGGGGGCACTTGTGGCTGCAATGTTT
ATCCTGCGGCAGCTTTGCCATGAAGTATCTCACTTTTATTATTATTTTTGCATTGCTCGAGTATATTGACTTTGGAAACAAAAGACATCATTCTATTTAT
AGCATTATGTTTTTAGTAGTGGTATTTCCATATACAAGATACRGTAATTTTCCGTCAATGAAAATGTCAAATTCTAGAAAATGTAACATTCCTATGCGTG
GTGTTAACATCGTTCTCTAACAGTTGTTGGCCGAAGATTCGTTTGATGAATCCGATTTTTCCAAAATAGCCGATTCTGATGATTCAGACGATTCTGATGT
TCTGTTTAGAAATAATTCCAAGAACAGTTTTTACATTTTATTTTCACATTGAAAATCAGTCAGATTTGCTTCAGCCTCAAAGAGCACGTTTATGTAAAAT
TAAATGAGTGCTGGCAGCCAGCTGCGCTTTGTTTTTCTAAATGGGAAAAGGGTTAAATTTCACTCAGCTTTTAAATGACAGCGCACAGCCTGTGTCATAG
AGGGTTGGAGGAGATGACTTTAACTGCCTGTGGTTAGGATTCCTTTCCCCCAGGAATGTCTGGGAGCCACTGCCGGGTTTGCTGTCCGTCTCGTTTGGAC
TCAGTTCTGCATGTACTGGATCCGATTTGAGGACTGAGTAGCTTCTGGTTGATGGCATCTGGCTTGTGAACCTCCGCTGTTGCTGGCAGTGGCTGTGCYG
CTGTTGTGACCTCTGGGCTCCTGGTTCTTCCTGCTGCTCAGCCAGGAGGTAGAGGCACCAACGCCAGCCTGGCTGCCTGCCACCCCCAGMTCTTCACCTG
GTGGGGCTCAGTCTCTCTGGCCTTGTGAAGTTCGCCTCAAGGGCCAAGAGCTCCGTGTCCTTCAGGGAGAATGCCGGCCAGCGAGCGAGCCATCGGGAAG
GACTTGCCCTCAGCCCGTGCCCTGAGCTCTGAGTTCCGGAGCCACCCGCCGCTTGTGTGCCCCACCTGTCATGCTGCTGGGGGACACCAGGCTCCACCTC
CAAGGATGCTCCTGGGTCTGTGCCACCCGCCGTGTGCGGCTGGTTGCTCTGTTTCCTGCGCCTGTATGGTGGTCATTTCACAGGGTGGGAGCTGGTGCAC
AGGGTGGATGGTGCCTGCGAGGGGTCAGCCCTGTCCCTGCTGTGGCTCTCACACCACGTGAGTGTGACTGCGCGTGTTCCCAGCCCAGGGCCTGAGCTGC
TTTCCTCACACTTATCTTAGGCCTCCCTGTCTCCTTCGTCTGCATAATTATAGACCTACATTTCTCTCTCTTTTTTCTTTATGTCCTCTGTGATTTGTGT
GATACTAGGAACATTCAGAGATGTTTTGACGCAGTAGTTTGTCTTTTTAAAATTTGTCCTCAGCCAAGTGCCACATGTCACCTCCATCGAGGTGGCAGTT
CCCCTGGGCCCAGCTCTCTATCTGGATAAGGCCTTGAGACAGTGGAGCGTGAGTGCGCTGCTTGGCGGGGACCCCACCCTGTCATTACCCAGAGAACGGC
CGCCATCCCCTTCACTGTGCATTCCCAGTTCCTGGGGCTGGAGGTCCCAGCAGAACTGGGCCCAGGGCCAGAGGCTGGGTGCCTAGGCAAGAGTGAAAAG
GTCTCACTGAAAATCTAAACAAAATGAAGCTCGTGAAGTAATGTGATGTTTTCACCTTCGTCTAAGTAAGTTCAGGTTGATCTGAGGACAGAAGCCATCA
AGGGCCTGTATGACTTTCCAGTGGCTTCTGTAACAAAGTGTCACACCCTCCACAGCTCAAAGCAGCGGAAATGTGTGCTCTCACAGCTCTGAGGCCACAG
GTCCACAATCTGCTCTGCTGGCAAACCCCAGGTGTGGTAGGGCTAAGTTTCTCCCCAGGAAACCCCAGGTGTGGTGGGGCCCAGCTCCTCCCCAGGAAAC
CCCTGGTGTGACAGAGCCGAGATCCTCCTCAGGCAAAGCTCAGGTGTGGCGGGCCGAGCTCCTTCCGAGGAAACCCCAGGTGTGGCAGGACTGAGTTCCT
CCGGAGGTTCTGTGGGATGGGGCCTCCCTGCCTCTTGTGGGTTTTGGGGCTCCTAGCTGTCCTTGGCYTGTGGCCATATCACTCCGTTCTCCGCCCCCTC
RTCATGTGGCCTCTTCTCTGTGTCTCCCTCTGTGTCTGTCTCTCTCTCCCCTGCTCCTACAGGGATGCTTGCCATTGGAGTTAGGGCCAGTCTAGATAAT
GAAGGATTATCTCATCCCACAACACTGTAACTAATCACATCCACAGAGACCCTTGTTTCCAACAAAGCCACAGCCACAGGTTCCGGGGATTAGGCTGAGA
GCATCTTTTTGGAGGACACATTGAGCCCGCCACAGGGACTCTGGTTTGTAGCATTTCCAGAGGCCAAGGGCCTGTTTTCTGTGAGCGGCTTTGCGTGGTA
AATGCAAGTGTGGCACTTCTGTTCCACAACAAAACCTGACTCATAATCCAAGTGTATTCCTCATTTGTCTTTTGTGTATTGTGTATTTTGTCTTTTGTGT
ATTTGTACTTGTGTATTTGGTGCTGTTATACTTAAAAAGTCTAAATGGGAGCAATTCGGTGTATTTGGGGCTTTTTTTTTCTTTTCAGTTTGTGTGAATT
CAAACCCAAGTTGGGCAGGAAAAGGAATGATGAAGTAGTGGATGTCATCTCAAGCACTAGGATCCACTGGCTGTAGGAGCGTGTTAGACTCACTGTGACT
CTGCTTGTGCTTGGCCTTCTCTGCAGAGCCAGGTGGTTTTCGGGCAGTTCCTGTCTGCCGGTCCCTCTGTGGGCTGGCAGTGAGCAAGTGTGGGCAAATA
CATGGCGACTGGCTTCCCACCAGGCCCCCATTCGCCTGTTGAGGTCTCAGAAAGAATGATCAATAATTGGCTACACAGATTTTTTGTTGTTGTTATTAAA
GCTGTTAAACAGAAAAGTGAGGAAAAATGCATGTTTATGTAACTGACAGATACTTTGCACAGAGGAGATCATCTACTGATGGAGAACCAAAAAGAACTGT
GAAATTGGAAAATTAGATATTGGAATCCCCTAAGTGGAAAATTAGAAGTTGTATAGATAGCATGAAAACGTAGATACATATTTTACTTTATTTTGTTTTT
GATCCTGTAATAATACACTTCTGTATTTTATAATGATAACTGTTTACAAAAGTAGTCTAGACATTGTTGAATCCTTATAGTGACAAGTTTTCCTAATACA
TTTATAGTAATTTGATTTTTTTGTTGTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCCCTGCAACCTCCACCT
TCTAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTACAACCATGCCCAGCTGATTTTTGTATTTTTACTAAAGATG
GGGTTTCACCATGTCAGCCAGGGTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCGACCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACC
GTGCCTGGCTGTAATTTGATTTTTAAAAAGCAGTGGAGTTATAATCACCATGTCGTTGGTATGCTATAGTTGCTCAGCACTGTTTTATAATCTGTTGTCA
GCTAACTGGAYGGGGAACAGGAAGACATTGTTTTTGTATTTGGCAAATGTTGAAAGTGTGGCTTAGAGTCATATGCTTCCATTTCTTACTTTTCTGATTC
TATGTCCTTCCATGGTGTGGGTGTTTTCTCATTGAATTGCCAGGGACCACCCAAATCCCCGCTCACCCTGTGACGGGGGCGTGAATGTGGCAGTAACCTG
GCCCATGATCTGGAATTTAGCTGCAGCAAAGGGCTCTGCAGAAGTGGATGGTTTGAAGTCCGATTGTGATGGGAAAAGAGATTAATGTGAAACAAGATGC
CGATTCTAAATTTTTATTAGGATATAACAGGATGGGATATCATCTGGCAGGAACAGTCTGGAAGAGGCTAACTTGGAAGAAACAAGAACTGTTTTCTTTT
CTGTATTCACATCTGCTTGTATATGAAGTTGGCTGTGGTTTAGCCCAGTAGAGACCATGGGGCCATCTGTGTCCGGATTTTAGAGGCCTTGAGAGCACGC
ATGCATGCGGGGATCTGTGTGGGACCTGAGTGCAGTCTGGGCAGTGACACTRGTGTGGCTGTTCCCCACTGGCATGTCCAGCCAAATAAGCAAAGTCCCT
TAGGACYCCTGGCCACCACCACTGGAGTCTTGCCTCSTCCTTCGCTCCCAGGGCAGCGCAAATTCCTGGATCCTCTGGGTGTCTCTGTTCCTGGTGGATG
CTGTGCTCCACCCATCCTAGGCAGGGCATGGGCGTCCATTCGTCACCAAGAGTGGGACGCGTCCTCCTTCCGGGCCACCTCCTCGCTGTGACCATGGCTG
CGCTTGCGATGCTGCCTGGGTTCATGCCCTCAGGCAGCAGTGTTAAGAGGGATGCCCTTGGCTGCCTTAGCCAAGCCCGGGACTGGGAGCAGTGGGGAGC
CACCCCATTTTACTTTTGTCACCCCTGAAGGGTGCAGCTGTCTCTGTTAGCCAGGGCTGGGGGGAAGCCRTAGCAAGTGGAGCACTGTAGGAAGTGGAGC
ACTGTGCTCATGGTCCAGTCACCACCTCCTGCTTGGGGGTTGTTTCTCCTGCGCATGGGACACAGAGGCTGGAAGTCCCAGGTGGAAGTGGACAGCTGCT
CCTCCTTCCTCTGGGCTGTTCCGGTGGCTCTGGTCTAGGCAGCGCTCCGCAGCACTTACTGATCAGTGCAGCTGTGATCTTAGGAGTGGAAAGAGCTCTA
ACTGGGGCTCCTGGTCGGACCCGCTGTTGCCTGTACCCCATGGGCCTCTGGCTAATCGGCTTCCTGGTGACTTAAGTGTGCTCCACCCACCAGGGGAGCC
TGCAGGATCTGCAGGCAGGGCCTTGGTTCAGAGCTGATCACCTCTGGAGTCCTCTTCAACAAGGTGGCTCTGCTGGACTTTGGGGTCCAAAAAAGACCGG
GGTTTAGCTTTAGTCCTACTTCTTTTTAAGTAAATGGATGAAAGTTGGTAATTTTAAAACTCTTTACTCAGTCAAGCCGTGAAACCGTGTTTGTGACAAT
GACTTTAATGTGGTTGTAACCCAAGGGATTGGTTTTCACAGTGTCCTCATTCCTTCCATTTGGCCAGCCAGAGAGAAGCAGAAAGAAGGAACAATGCCTG
GAATTTGACCCGATCGATTTCCCAATTTCCTGAAAGCTACAGATACGAAATGTGCTATTGTAAGCTGGAGCTTTGTGGAGAAAATGTGTGCTAATAATGC
TGARTTGAATATACATGTGCATTCTTCGTTATTTTACCAAATTTCTGATTAGGAATTCAAAGTGCTGTTCCTAGTATTTTCCTGACGGATTTGAGTTGGT
GTTGGCAAGGTGCAGAGTGTTTACAAACCTATGGAAAGATCCTTATGGGAACAGGGGTTCATAAAACAGTGCTGGTCTCTAAGGGGGAAGCCATCACTAC
CTTGGGCCAGAAAAGGAGACTCATGGGTGGGCAGGGGTCCTGACTGGGTCGGTGGGGTCATGTAACTGAAGACTATCTGTGCCCTACTGTCTGCACTGTG
GATGCCATGTCCTCCTCCTGCCCTAGTTCCTTTTATAAAATGCAACTGATGATCCCTGCCCCTTGCTACACTGAGCTCTCGTTGAATTTTACACATGAAA
GCACTGTTGATTTCCCCTCTCCAGGTGACTTCTGTGATAACTCATACACCGATGTGCTTTGTTTTAATTCTAGGCAGCTTCGGTCACCTCTCTGTCCAAM
CTGGCATGCATGCACATGGTCCGCTGGGCTGTTTGGAACCCCTTGCTGGAAGCTGATTCTGGAAGGGTGACCCTGCCTCTGCAGGGTGGGATCCAGCCCA
ACCCCTCGCACTGTCTGGTCTACAAGGTACCCTCAGCCAGCATGAGCTCTGAAGAGGTAAATTATTAGGTATTTCTTATGCATCTCCGGTGAGCTTCTAG
CAAGTTCATTCATTTTCAAAAGCAAAAGTTCACAAATATGTTTGCAGATGTTTCATTTACAGAATTTTTTTCATGTCATGGGTATGCCTTTAGAAAGATT
AGTATGATGTTTTTATGTAAACCTGATAAGACCAGTTTTATCATGGGTTTTATTGCTGTTCACATACTGATTTCCTGGGATGACTTGGTGAACCTCCAGC
TGATGTGTACACACTTTGCAGCAAGATTCACCTGTGTGGCGTGCACGTTTGGAGCATTGGAGCTTGGGCCTCATGTGGCCTTTACCAGTAGGTTTTTTGG
TGGATGAGTGCTGAGGTGGGAGCCGGTTCTGGTTTCTAGCCCTGGCTTATCTTTGTGACTTATCACTAATGCTTGTTGGACCTTGGGTGTGTACCAAGGG
GTAGGACCACAGCAGAGATTCTCAGGTTTTTTTTTTTTTTTTAATTCTGAAATGAAATGTTCTCTGCACCCCAATTAAGACGGCAAAAACAAGTAGAGCG
AAGTGGGTTGAAGTGTGTATGAGGGTCTCATCCCCAGCCTCCTTGGCCCCATTGGCGGTGTTGGAGGATGGTTAGCGGTGACCCAGGGCACCACAGACAG
TGCGAAACCCTGCTCTGGCAGATGGCTAGAGTCCGTTGGGCTCTCCGAGGTGTGGCAGAGTTTCTGCTCGGCTGCAGTGTTTGGTGAGATTTTAAAGGTA
TATAGATGTAATATTTAGAATATTACCTAAACTTAGTTGATAAAGCAATGGCAAGGTTTGAGAAGATTGACTATGATTTTGAAAGTTCTGCCTATGGTAA
AATACTGTCAAATAGCATTGCATGGTACTCTTTTATGACATGAAAAGTCAATTGATGGAGCAAACTTGCATTGTGGTCTTGTTTTATGAAAGCTCTGCAG
GCATCCCAACCTTCAGCAACCACTACTCTGATTAGGCAGCAGCCATCAATATCAAGGCACAACCCTCCACTAGCAAAAAGATTACAATGTTCTGGAAGGC
TTAGATGATCCTTAGCATTTTTTTTTTTTTGAGACAGGGTCTTACTCTGTTGCCCTGGCTGGAGTGCGTGGCACGATCATAGTTCACTGCAGCCTTGAAC
TCCTATGCTCCAGCAATCCTCACACCTCAGTGTCCTGAGTAGCTAGGACTACAGGCATGTGCCACCATGCCTGGGTAATTTTTTAATTTTTGTAGAGTTG
AGGTCTTGCTGTGTTTCCTGGGATCATCTTGAGCTCCTGGGTTCAAGGGATCCTCCTACCTTGGCCTCCCAGAGTGTTGGGATTATAGGCGTGAGTCACC
ATACCTATAATGGCACAATGGTTAGCATTTTTTTAGCAAGAAAGTTTTTTKTTTTTTTTTTTTTTTTTTGAGATGAAGTCCTGCTCTGTAACCCAGGCTG
GAGTGCAGTGGCGCAGTCTCAGCTCACTGCAACCTCCATCTCCCAGGTTCACGCGATTCTTCTGGCTCAGCCTCCCAAGTAGCTGGGATTATAGGTGCCC
ACCACCRTGCCTGGCTAATTTTTATATTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTAGGTGATCTGTGTGC
CTCTCAAAGTGCTGGGATTGCAGATGTGAGTCACTGCACCCGGCCAGCAATAAAGTATTTTTAAATTAAGGTAGGTACAGTACTTKTTTTTTTTTTTTTT
TAGACATATGCTATTACACACCTATTGACTACAGTATAGTATAAATACAACTTTTAAATGCACTGGGAAACCAAAAAATTCAGTGACTTGCTTTATTGTA
GTGGTTTGGAACTGAACCTGTAGTATCTTTGAGGTATGCCTATAATTACATTACGTGTAAATAGTGTAAACACACCAGTTTAAAAGATATTGTCAGGCTT
AATGAAAGACAAAGCCCAACTATATACTGTCTATAAGAAGTATACTTTAAATAAATATAACRTAAATTAAAAGAATGGAAAATATTCTTTTCAAACACTA
AAAGAAAACTGGAGTGGGTATATTACTATTGACACTATCAGACAAACTAGACTTCAGAATACAGGAAATTTCCAGGAATTAAGAGAGATAGTACACATGA
TAAAAGGGTCAGTTGCCAAGACATAACAATCCTAAAATTGCTTGCATCTAACATAGAGCTTCAAAATACATGAAGCAAAAACTGATTGAACTGAAAGGAG
AAATGGACAAATCCACAATTAGAGTTGGAGACTTCAGCATCCTCTCTAAGTAAACAAAGAACAACTAGCTATTCCATCAGCAATGATACAGAAGGACTGA
ACATCGCCATCGACCAACTGGATCGGAATGATATTTATAGAGCACTCTCCCCAACAACAGCAGGATACACGTTGTTTACAAGTGCACATGGAACATTCAT
CAAGATAGACAATATCCTTGGTCATAAAACAAACTTCAGTTTTAAGAGAGTTGAGATTATACAGGATGTATTCTCAGATTATAATGGAATTGAACTAGAA
ATCAATAACAAAGATAATAAAAATTTTCAACCACTTGGAAATTAAACAATATGTAAAAATCCATAAAGTAAAGAGTAAATCTCAAGGGAAAATAGAAGAT
ATTGTGAACTTAACAGATATGGAAATACAACATGTCAAAGTTCGTAGGATGCAGCTCAAATATGCTTAGCGTTAGGTGCTTATATTAGAACAGAAAAAAG
ATCTTAATTCAGTGATCTGATCTTTGTCTTCAGAAACTAGAAAAAGAAGAGTRAAATAAACCCAAAGCTATTCAGAAGTCAATAACAGCAGAAACCAATG
AAATTGAAAACAAAAACAATAGATTAAAAATTAAAAAATAGCAAAAACCCAGTGAAACAARAACCTGTTTGAAAATATCAGTAAAACTGATGAACTTCTA
GCAAGACTGAAAAAGAAGGGAGGACACAAATGACTAATATTAGGAATGAAAGAAGGAATATCAGTACAGACCTCACGGGTATTAAAAGGATAATAAGGGA
ATACTACAAACAATTCTCTGCACATAAATTTGACAATTTAGGTGAAATGGATGAATGAATATGAAACTCCACATTGCCAAAACTCAGCCAAGATGAAGTA
GATGACCTGAGTAGTCCTATAACTAATATGTAAGTTGAATTCATAGTTTAAAAACTTTTGAAAAAGAAATATTCAGGCCTAYTCACTATGAATTCTATTA
GACATGTGAAGAAGAAATAATGCCACTTTTATAYAATCTATTTCAGAAAACAGAAAAGATGGGAGCAATTCCCAACTCATGAAATGAAGCCAGCATTACC
CTGATATCAAAACCAGAAAAATAATATTAATAATAACAAGAAAACAGAACTGTGGACCCGTATCCTTCATAAACATAGGTGCAAAATACTCAACAAAATA
TTAGCAGATTGAGTCCAGCAATACGCAAAAAGAATAATACACTATAGCCAAGTGGAGCTTTATCCAGAGAATGCAAGTCTGTTTTCTATTTGGAAATCAA
TAAATGTAATTCATTATAGTAACAGCCTAAAGAAGGAAAACCATATGATCCTGGCAATTGATACTGAAAAAACATTTGACGATATTCAGCATCAGTTTAT
GATTAAAAACTGAGCAAACTAGCAATAAAAGAAAACTTCCTTAGCATAATCAGTGATGTYTACAAAAACTCTTTAGTTAACATCATACTTAATGGTGAAA
GACTGATTGCTTTCCCCCTAAGATTAGGAACAAGTAAAGGATGTCCACTGTTAGCATTCAACGTCATGTTCAGTATTGCACTGGAAGTTGTAGTCAGTGC
TGTAAGTCAAGAAAACAAAAGACCTACACATTAGAAGGAAGAAACAAAACTGTCCTTATTTGCAGAAAACGTGATTGTCTATGCCARAGATTCTGAGGAG
TCTACAAAAAAGTCCTTTTAGAATGAGTAAGTGGGTTTAGTGAGGTTGCAGGATAACACAGGAAGTCARCATGAAAAATCAATCCTATTTCTGTATACTA
GCACTGAAAAATTGAAAGCAAAATACAGAAACAGTATTGTTTACAAAGCCTGCCCTCCATGAACTAAATCTAACAAAATAGTTAGGGGATCTGTATGCTG
AAAACAATAAAACTGTCCTTTTGCTAGTTGTCATTGTGGTTATTCTTAGGTGAAATCAAAGAAGACCTAAATAATTGGAGAGACGTAACATGTTTATGTC
TTGGGAAACTCAACATAGTAAAGCTGTCAGTTCTGCMCAAGATTGATCTAGAGATTTTATGCAGTTTCAGTCAAAATCTCAGCAGGATTTTTTTGGCGAT
ATAGACAAGCTGATTCTGAAATTTATATGGAAAGCTAAAGGAATTAGAAGAGTCAAAATAGTTTTGAAAAAAGAACAGTAAAGTTGGAGGAATCATACTA
CACAGTTTAAACACTTACTGTACAGCTACAYTGATTAATATAATTAGTATCAAGGAATTCAGTTAATGGAACAGACTAGAGAGTCCAGAAATAAAGTTTG
GAAGTGCCTTATGAAATTAAATATGCCATATGACCCAGCAGTCCTACTCTTGGAGAAATGAAACCTGTATTCACACAAACATATGTGTTTGTAGCAGGTC
TGTTTATAATCACCCAAACCAGAAACTACCCAAATGTTTGTGAGTGAATGGATAAATAAACTGGTACATCCGTACAATAGAATATCACTCAGTAATAAAA
AAAGAAACAGTTTGATGTGTATGTAACAACTTGGATGAATCTCCTCAGTCTTATGCTAAATGAAAGAAGCTGGTCTCAAAAGTTATACATTATGTGATTC
CATGTGTTGGACATTTTTTTGACATTCTCAAAAAGACGAAATGACAGTGCTGGGGAAGCAGTCATAGATTGCCCGGGTTAGGCATGGGCTGGGTGTGGCT
GCAGAGGGGCAGGGCAGGGCAAGGGAGCACCCTGGGGGGATGGGGCTGGCCTGCACCCTGGGTGTGGTGCTGGTTATGTGAATCTGTGCATGTGCCAAAA
CCCACAGAGCCATACCCAGAATAAAGATGTCAGTTTCACATAGGTCAATGACAACATTCACAACTCGAGAGAGATTGCGATTTCTGCTTGGGTAAGGGTC
ATTCCATGATCATATGGTCTGCAGGGCTTTTAATGCCACACCAATTGCTTTTTGCTCAAACTACTTGATTATAATCTGAGAACATGTGGCATCAAGAAGC
CTCTGATTTCACGTAGACTTTGTTTTAGGGCAGAGCCTGCTGTTCCTGGTTGGATCGTTCTGATAGGCGTGCTGATGAAGGGAGTGGCCATCACTGCTCT
TCTGGTCCATTGCAGGTGAAGCAGGTGGAGTCGGGTACACTCCGGTTCCAGTTCTCGCTGGGCTCAGAAGAACACCTGGATGCACCCACGGAGCCTGTCA
GTGGCCCCAAAGTGGAGCGGCGGCCTTCCAGGAAACCACCCACGTCCCCTTCGAGTAAGTGTTTCCRGAGAGCTGACTGGCCAGGCACATGGCAGGCAGC
ACTTCCATCTCTTCCCGGGGAAAGGTACTTAGTCTAGTACGGTAATCACCACATTTGTAAGATAATCGTCGTAGATTGCATTAATGGAATCTGTTAGTTG
GGTTTTTGCTTAATACCAAGGTGTAGAATTGGACAGTGATGAAGTGTGGCCCAGAAGCTTGTGCTTCAGCCCAGAGTCAGCTCAGTTACTTGACAGCTCC
CCAACTAAGCATTTAAAAGGACACGTCACATGGATGCCCTGCAAATGTGGGACCCGAGAGTTAGAGGGTGGTCGAGAGCCGAGGACCGCCACCTTGCGTT
TGCACTGTTGAAGTAGCCGTCTGTCTACTCACCTTGAAGCCCTGCCCGAAAGTTAGGAGTGTGTGATCTGAGTCTGTGGCTTTAAGAAAAGGAGTCACAA
TTGGCTACAAGCAGCAAGGGCTGCCAGCAGAGGTAGAGTCCTGGCCCTGTGGGTGGCAGCAAGTCCACATGGTTAGGAGGTTAAAGAGTTCTTATTGGCC
GTCAGCCTAGCTGCTTCTGCTGAGGCAGTACCCTGTGCTCAGAGCCTCTTGGTTTAGACCCATGTCCTGGTTGAGAATTCCACCTATACTGAAGTGAGGG
GCGGAAGGTACGAGGGAGTGTTGGAGTAGTCCACCTGAATGAGTATGGGGCCTTGGCTCTAGGCGTCTGGAGCTCTCACCACTGAAGGTTCTAGGATCCC
TAGTCGCAGGTGATGACTTCCTTCTTTCTGCCTGTTCCAGATGGCAAGATAGGGAATGAGCAAACGTGCAAGCCCGGGAGGGAGCTTTGTGTTCCTCTGG
GCTCCAGCTGGTGATGCCCGGGTGTCGAGGGAGGAGTTGCTTTCTGTGCTCGGCTATGGCCCCAAGTCCTGCTACAAAGCTGCTGGTGCTTCCATCACTC
AGGAGGGGTTTTCTTCATGGATTGAGATTCTAATTTATGGGAACTGGTCTTGTTGAATTTGATTTTACAGTTGGTGGAAGCAGCACATGCATTTCTAAGT
TGATGAATTTGATGAAGTTGATGATTTTCTGAGATACCTAATACAGTGCAAATGCTATGTAAATTGTACTGTTTAGGGAGTAATGACAAGAAAAAAAGAG
TCTGTACGTGTTCAGTGCAGACACATTTAAAAAAAAATATTTTCAGCCCAAGTCTGGTTGAATTCATGGATGCAGAAACCATGGACCTACTCTGTACTCT
GATTTTTGATTAAGTTACTTAAAAGTACAATAGTAATACATAATAAACATGGTGTTTCAGGATTCTCTGAGCTATCTAAGAATATTCCGGTACCAAAACT
TAATAGTTGATTTCTTTGGGACAAACTACATCATTAAGTATTTTCCTTCTTTTCATAGAGGTGATGCATTTGATGGTTTTAATTGTTTTGTTTTTTCAGT
GTTTGAATTTTGTGCCTAACAGCTTGTTCTCAAGATTTCTGTTTACCACCAGTGTGTACATTAATAATCCCATCTTTATAAAYGGCACTGAAATGTACAG
TCCCCCTTGTACTAGAATCCCTTGTGGTGGTGGGTGGTAGGCATGCATGCATTTCCTGTCAGAGTCGGTTTAGAATGAATTTCCAATTTCATTTGATAAA
ATTGAATGCATTCAAGGCATAGGACACATAATTTCAAAAAACTAAACAAAGGGTCATAATAAAGGATCATTTAAAACAACCCATTCCTGGCCAGGCACGG
TGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACAAGGTCAGGAGATCGAGACCGTTCTGGCTAACACGGTGAAACCCCGTC
TCTACTAAAAATACAAAAAATTAGCTGGATGTGGTGGCGGGCGCCTGTAGTCCCAGTTACTTGGGAGGCTGAGGCAGGAGAACGGCGTGAACCCAGGAGG
CAGAGCTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAAAAAACAAAACAAAACAAACAAAAAAAAAC
CCATTCCCTGCTTACATCTGATATCTTTCCTTCTTTGACATACACTCTTTGACATATAGTTATATTTTAAAAATAAAATACCTATCAACCTTTGAGAAAC
ATAATTATGAAAAACGGAGGACCTTAGATTATAAATTGGGTATATTTTGTAATTAAATACRAACATGATTAGAGTTATCCCTCGGTATCCGTGGGGGACT
GGTTCCACATGCTCAAGTCCCTTATATAAAATGGTGTGGTATTTGCCTGTAATCTACGCACATCCTCCTCTGTACTTTAAATCATCTTTAGGCTACTTAC
AATACCTAATACAGTGCAAATGCTATGTAAATCATTGTACTGTTTAGGGAATAATGACAAGAAAAAAAGAGTCTGTACGTGTTCAGTGCAGATACAACCA
TCCATTTTTTAAAAAATATTTTCAATCCAAGGCTGGTTGAATTCATGGATGCAGAACCCATGGATCCACTCTGTACTCTGATTTTTGATTAAGTTACTTA
GAAGTACAGTAGTAATACATAATAAACATAGTTTGCCCATGTCTGTAGAAATGCCTGAACAGAGAATGAACCTGTATAGCTAGCTTTCAGRAAAAATATG
ACTACCTTCTCTGGAAAGAAATTTTCATGTGTTTAAATTATGATACAGGCCAGGCATGGTGGCTCATGCATGTAATCCTAGCACTTTAGAAGGCTGAGGC
AGGAGGATCACTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATAGCAAGACCCCATTTCTACTAAAAATAAAACAAATTAGCTATGCGCGGTGGTG
TGCACCTTTAGTCCCCGCTACTCAGGAGGCCAAGGCAAGAGGATTGGTTGAGCCCGGGAGATGGAGGCTGCAGTGAGCCGTGATTACGCCAGTGCACTCC
AGCCTGGGCAAAAGAGTGAGACCTTGTCTCAAAAATAAATAAGTAAATAAAGATATAGTTATGGCACTGGAAAAGAGCAGCTAGTTATGTTTTGAAGACC
TTCTAATCAAATTAACTATAAACTCTGATGGGCTGATCCTGCTGTCGGGCTTTTGGGCTGGATCAATTTGTGGATGCCATCTGTGGGCTTTGGTTTTACT
TCCCTGGCTGCCCTGTTTTCATGAGGCGTTTGGAGGAGATTTTAAAACCAGTCTGCCACTGCCTCTGCTTGCCCAGAATGATTCTTTAACTGATTTTTTT
GCCAGGGTTCCTTGAGCTTCTTAGATCTCTAGATTTATAGTTTTCATCACATTTGGAAAAATTGTGKTCATTATTTCTTCACATATTTCTTCTGTCTTTC
TCTCTCATCCTCTCATTCAGAGGCCCCAGTTACGTGTTTATCAGGCTGCCAGAAATTGCCTCACAGCTCGCTGATACTCTGTTCACTTTTATTCATAACC
TCCTTTTGCTGTGTGTTTCATTTTAGATAGTTTCTGTCTTCAAGTTCACTTCAAGTTCTTTTCTTCTGGAGTGTCTGATCTGCCATTTATCCTTTTCAGT
ATACTTTTCATCTCAGATATTATAGTTTTCATCTCTAGAAGTTCGTCTGGGCTTGTTTTATTCTTCCGTGTCTTGACTTAACATGTTCAGTGTTTCCTCT
GGCTTTTTGAACTTAAGAAATACAGTTATAACTACTTTAATATCCTGGCTTGCTAATTCTAATATCTTTGTCAGTTCAGGATCAGTTTTGATTGATAGAT
TTTTGTCCTGATTGGGTTCTGTTTTCCTGCCTCTTTGGATGTCTGATAACTTTTGATGGGCTCCAGATACTGAGAATTTTCTCTTACTGGATACTGAATG
TTTTTGTATCTGATAAATATTCTTAAGCTTTGAAAATTGTTAGATCCTTTTGGGTCTTGCTCTTAAGATTGGTTAGGTGAGATCAGATCAGCATTTCATC
TAGGGCTGATTATTCCTCACTGAGATGACAGGTGCCCCCAGAGGGCTCTGCCCGGTGTCCCATGAAGAATGAGGATTACCAGGTGGCTGGAGGGAACAGC
GCTATGTCTGCCTGCCCTGTGAAGACCAGSCCCTATTCCCTGTAATCCTCTCTGGTGGTTCTTTCTCTTTTGGCCTTAGGAAGTTTCCTGATCCGCGCTC
TACTGAATGCTAGGGTGGGACCCTCTGTAAATGGCTGGCATTCTCTCTCTGTGCTGCTCATCCTGTCTGGTGCAAACTCACTGAACACAGTAAGCTGGGG
KCAGGGTAGGCCTTCCCTCTTCTGTTTCCCAGCCCTTGGGATCACTCTCCTTTGTTGCCTGAAGTCCACTGTCTTGAAAACCACTGTTCTACATATTTTG
TGTTTAAAAGAAAATGTATTTTAGATGGGAGGGTCAATCTGATCACTGTTACTCTTCTTGGCCAGAAGTAGAAGTCCTGTTAATAGTCTCTTGGCTGCTG
AAATCATCCCCACCGGGGCCGATCATCCCGGGGTTTGAAAGCGTCTTCTAGCTGTGTGTGCTACTTGTGATTYACTCACCATGCTGCGTGTTTTCCGGAC
TTTTGAGTCTTGGCTCATGCTCTCCGCCTGGTGTGTCTTTCTCCCATAYGCTGCATTTATTTTCTTTTAGGATATATTCCAGGGTTTTTGTTTTGTTTTG
CTTTTAGAGATAAATTCTCACTTCGTTGCTCTGGCTGGAGTGCGTGCCATAATCACAGCTCACTGTAGCCTTGAACTCCTGAGCTCAAGCAATCCACCYG
CCTCAGCCTCCTGAGTAGCCAGGACTACAGGGAGTGCCACCGTGCCCGGCTAAGCCAGGACTGCAGGCAGTGCCACCGTGCCCGGCTAAGCCAGGACTGC
AGGCAGTGCCACCGTGCCCGGCTAAGCCAGGACTGCAGGCAGTGCCACCGTGCCCGGCTAAGCCAGGACTGCAGGCAGTGCCACCGTGCCCGGCTAAGCC
AGGACTGCAGRCAGTGCCACCGTGCCTGGCTAAGTTTTTTGTTTTGTAGAGATATGGTCTTGCTGTGTTGTACAGGCTGCTCTTGAACTCCTGGCCTCAA
GTGGTCCTCCCACCTTGGCCTCCCAAAATGCTGGGGTTATTTTTTAATTAAAAAAAAAAACCATAGTCAAGAATAGCCAAGGCAATTTTGAAGAAGGAGG
GAGGCTTCACCTTTCTTAGTTTTCAGACTTACTGTAATGTTCTAATTTCTAGAACAAGTATAGCATTGATACAGAGAGAGATAAATAGATAATGGGACAA
AATATAAAGTGTGATATGTGACAACTTGAAGAGAAGGAATATATTAGTTTCTGGTTGCTGTTACAACAAATTAGTGACGTTGCAACAGGAGCTTATTATC
CTAAAATTCTGGAGGTCAGAAGTCCAAAGTGGGTCCTATAGTCTTAAATCGAGGGCTCAGCGGGGCTGTGCTCCTTCTGGAGGCTCCAGGGGAAAATCCA
TTTCCTCTCCTTTTCCAGCTGCTAGAGGCCACCTGCGTCCCTTGGCTCCTTCTTCCATCTTCAAAGGCAGCCATGTAGCACTTTCCAGTYGTCACTGAAC
TCTGACCCTCCTGCCTCCCTGCCTTTCACTTACAAAGACTATTGTGAGTACATTGGGCCCACCTGGATAATCCAGGGTCATCCCCCCATCTCAGGGTCAG
CTGATGAGCACCTTAGTCYCTTGGCATTGAACATATGTATAGGTTCTGGGGTTAGGACGTGGGTATCTCTGGGGTGGCAGCAGTTACTCCGCTTACCGCA
AGGAGTAGCAGTCAGTAAATGGTGTGGCGTGATCCCTTGCCCACRTGGAAAATATAAAATTCAGTCCTAGCTTCATGTCATGTACAATAATAAATTCCAG
ATGGCCTAAAAACCAAAACTTCAGAAATGTTAGAATTAGAAGATCAGAAAGAGGAAAGATTATAGAAAGAAGTCCTCCAAATCAATAAGAAATAGACAGC
AGGAAAGAAAAATGGACAGTGCTCAGCAGTTGCTGGGCGATCGCTAACGCTGTCGTCATATGAAGAGGGAATTTATAGAGAAGAAACCAGAATAACCAAT
AACCATAAACAAATGAAAACATGCTCAGTATTACTGGTAATCAGAGAAATGAAAATAAAATGACAAACCGTTTTATTCCCCTCATATTGGAGGAATCCAG
ATGTCTAATAGTGCAAAAGTTCCTGAGGATGTGGATAAAGCAGAACTCTTACCACCGTGGGAAGAATGGGATGTGTGCAGCCGCTTTGAAGAGTGATTTT
GTAATATTTAGTTAATATCCTACAACTCAGAAGTGCCATTTCCAGACGACTGTTAGAGAGAACAACCGGTTCATGTGTATAAGGAGACATGGGCGGGCTC
AGCATCACAGCAGCTGCTGGTTTCCCAGTCAGGGAATGGATAAACTGACTTACTTGGACAGTGAAATGCTGTGTGTCGGTTAAATGAATGAAATAGATCT
ATGCGTATCAGGTGGATAAACCTTCACAAAGGCATGTTGAATGAACACAAGTTCTGAAAGGAAATGAACAATGTGGTAGCATTTAAGTAACTTTCAAAAC
AATTGCATGTATTGCTTATGAATGCATACTTATTGAATATTAGAGCAGTTACTTAATGTCTGTGTCCCTGTTTCCTCAGCTGTAAAATGGGATGGATTAA
ATACTTAAAGTATGAAAAACAAACTTGAGAAATCTTAGAAAAAGACATTGGAGAATATTTTTATGGCCTTTGGGTTAGGAAGGCCTTCTTAAGCAAGATA
GACAAAGCATAAACCAAAGAGACGATTGAGAAATAAGATTATATTAAAATATAAAACTTCTGTGTGAGAAAAGACTCTGTAAACAAAGTTAGAAGACAGA
CCTCAGGCTGAAAGATATTTGCAATACATATGACCATTAAAAATTAATGAAGGAAGTAAGATGAGAAGATTAGAAAGAAGGATTACAGAAAGACCTCCTC
CAAATCAATAAGAAGCAGATAAACAACAGAAAAGAAAAATGGGCAAAGGATAGCCAAGGATTGGGGGGAGGATGAAATGAGTAAAGATATGTCCAGGTGC
TCGGGGCTGCCTGGCGTGGAGCAGATGCCCAGCGATTGTCGGGCGATCATTAACGTTGTCCCCATGCCACTGCCATTGTGGTTCTTCTGGTTGGCAGCGT
TGAGGGAAGCGACCACATGTACGTACCCCTTCAACTACTGGTTCAATTAACACGGGGCCGCCAGGGCAGGAGCAGCTGGAGCACATCTCTACGGAGCTCC
TCTGGACCCCAGAGTCTTTGATGGGTGAAAACAGCTAACCCCGGCTGGGCGCAGTGGCTCATGCCTATAATCCCAGCATGTTGGGAGGCTGAGGTGGGAG
GATGGCTTGAAGCCAAGAGTTCGAGATCAGCCTGGGTAACATAGCAAGGCCCTGACTCTACAAAAAACTTAAGGCCGGGCGCGGTGGCTCATGCCTGTAA
TCCCAGCACTTTGGGAGGTTCAGGCGGGCATATCATGAGGTTCAGGAGATTGAGACCATCCTGGCTAACATGGTGAAACCCTATCTCTACTAAAAATACA
AAAAATCAGCTGGCGTGGTGGCACGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGGGGCAAGAGATCTCTTGAACCTGGGAGTCAGAGGTTGCAGTGAGC
CGAGATTGCACCACTGCACTCCAGCCTGGACGATAGAGTGAGACTCTGTCTCTAGATAGATAGGTAGATAGATAGATAAGTAAATAAATGCATGCAGTAG
CTGGGTGTGGTAGCATGTGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAATTCGAGGCTGCAGTGAACTATGATC
ACGTCACTGTACTCTAGCCTGGGCATCAGAGCCAGACTTTGCCTCTAAAAAAAAAAACAAAAAAAACCCACAAACAAACAAACACAGCTGGCCCTGACTG
CATCCACGAAAGTAGGTTCCGGGTGGGCCCAGAAAGCTCAGTGTTGGCTATGCCTCTACCATTTTATCTTAGCCATTCTGCAAACACTTTAGGGCATGCT
GACTCAGATGGGGCTTGTTCAGGTGGTCCTCCTTTTCTCCTACCCACTCTCCATTCAGCAAAGACTTGCGGAGAGTCTGTGATGTGCCAGGCACTTGGTT
AGGCTCCTGTCCCAGTGGAGCTTTAAAAACAGACAATAAACAAACTACCAAATACGTGAGGTAGCAAGAAGAATCACGTGCCATCTGCTCTGGGATGTTA
GTGAGGGTAGCTGCATGTGGGGACAGGGCACTGTGGGAACACCCTGTACCTTCTGCTCAGTACTGCTGAGAACCTAAAAAACTGTTCAAAAAAAGTATTA
AAAAAGAGAGAATGACTTGTGGGGAGTTTTACAGTTATGTCCATCTTGATGTGATTAACTTGTATTTGGGATTTCTGTTTCTACAATTGAGGCCCAATTA
TAGAAGAGGTCAGCAAACTTTTTCTGTAAAGGCCAAATAGTAAGTATTTTAGGATTTGTGGGCAAGATGGTCTCTGTCACAGCTACTCATCTCCGCTGGT
ATATATAGGCGATACGTTAATGAATGGACGTGGCTGTGTTCTAATGAGACTTTGTTGATACGCACAGATTGTTAGCTGAATCGACCTGTGGACCATAGTT
TGCAGACCCCTGATCTGCAGCTTTCTCTTATGTCATAATCCAGAGGAAGCTGCCCATTTTTTTCTGGGCTTTAAAATAGTTTAAACAAAAGGCAAGACCT
GTTTCTTGAAGGTCTGATAAAACTTCTCTGTGAAACCACTGAAGGGATTTTTGACAACCAATTACATTTCTTTTCATGGTTATTGGTCTATTTATGTTTT
CCACTTCATCTTGTGTTAACTTTTGGGATACACATCCTCTAAAAAAAATGGCCAATTTCCTCTAGTTTACAAGGATGCTGTGATAAAGTTTGTAACTAAT
TTAAACATTCAGTATGCGCCTGTGATTAGATTCCTTCCTTCGCTTTCTATCTTGGGAGGACTCTTCCTTTTTCGGTCAGGCTTATGAGAGGTTTGTATAT
TTCATTAGTCTCTTCAAAGAATCAGCTGTTACTTTTACTTACTGGTTCTCTTGTTTTTAAGTTATTAATTTTTTCTTTAATCTTAATTTAATTCTATATT
TTATCTTTATTCATCCTCTTTGAAAAGCAGAATTCTTAGCTTATTTGCTCATYGTGTTTAATAATAAAATCATTTAAGATTCTGCAATTTTCTTCCAAGT
ACATCTTTTACCCCATTTCATAGGTTTTGATTTGGAATGTTATTTCCTACATTGTTGAGTTCCATTTTTATTTCCTTTTTACCTACAACTTGAAAATGTC
TTTAAATATTCCCACATTTAAAAAGGCATATATTAAACTTTCCTTGCCCTCTCTTATGGAAACCTGTACTTATCTGTAAAGCCCTGCCTAAGGGTCTTGT
CCATGGCAGAGCTTTGTTTTCAGCATCCCACAGCCCTTTGCAGACACCACCTTTTATTTTATATCCTTGTGTGTTGTCTGATTCCTTCCTTCCCTGCTAC
TGTTCTTAGAGGGTATTAGTCGAATTTGCTATGGTAACAAATAATCTCCAGATCTCGGTAGCTTAAAATAAAAAGGTTTATTTCTCACTCTCGCTGCGTG
CGCATTGCAGTTGGTGGTGGCTCTGCTCGTCCTGGTCCCAGAGGGTGTTCGCCATCTTGAATATTGCTGGGTTGCGCCAGCAGGAAGGGGAGGCCTTGGG
GAGGATCTTGTACCATCAGTTACGGCTCTGGCCCAGAAATGGCACACGTCACTTCTCCCCCTCCCGGGTTAGAAGTAGCCACGTGGCCTCCCAAGTCACA
AGGGGACTGGGGACTGACTCATCGTATGCCTGGAAGGTAAAGAGGTGCAGATAGTTGGTGCATTTATTTGCTCCACACTGAAGAGTCTTATCATTGAAGC
AGCTCACGGTGGGGACTGTTTCATTCATCTGTACATTGCCTGATGAGTCCTGGCCCACAGTAAAACATTCAGTACATATTTGTAGAGTGAATGAATTAAT
CAAAACCCTTTTGTATACAAGGGATAGAAACCTGACTCAAAATAGCTTCAACAAGAGAGAATGTATTGGCTCATGTGTCAGAAAAGCCTAGAGGTAGAGC
TGATGTTAGGCATGGCTGGATCCCGGCACTCAAAGGATGCCATTAAGACTCCATCTGTTCGTCTCTCTCCCTCATGCCCCTACCCCCTCCCCTCCCCTTT
AAGCTCTCCTTTCTTCAGTGTTGGCTTCTTTCCGGGTAGAGTTTCTCCACATGGTGAGCCCAGGAGCTCCCAGGTAATCCTGGGCTTAGGAATCCCAACA
GAAAGGCCCTGATTGACTCAGTTGTTCCAGTGGGAGTCCTCCTGTCTTTACTGTGTAACACCTGATGGGGATGGGGGTGGGGACAGTTGGCCTTGGTCAC
ACACCCTTCTTGGTGTGGGGGTTGGGGCCACCCCTGACTGTATGGTTAAGGGCTGGGAGGGTGATTCCCTAAAGGAAAACCACCAGAAGAGAGTACGGAT
TCAGGGTCGGTGAAGTTGACAGATAGTGGCTGCCTCTGGGTTGGGGCTCCTGGTCTCCCGATCCCAGTCCAGGGTCTTTCCCTGCCACTGCCGCTTTGGC
TGCACTCTTGCATTCCAGCTTTGCCCAGCTATTCTTGYATTTTGCCGTCAGTGAATGCATAGACTTGAGTAGTTCCTGTGACTCTTTCTTTTGTTTGAGA
AGGACGAAGACAGGTAAGAAGCAGCCTGTCCTCCTTCTAGAAGCCTGCTGTGCTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGCTCTTGAA
CTCCTGACCTCAGGTGATCCGCCCACCTTGGCCCCAGAATGCTGGGATTACAGGCATGAGCCACTGCACCCGGCCTAGCTTGACTTCTTAAGATGCAGAG
CTGTGGGGAACCATGCTTTGAGTTCCTCACCAGAAGATTTACTGTCATATCCTTGGCAGAGAGGAGTGTGCCTTGGTTACTGGAAGGACCAGGAGTTGAA
CGGTGGTGCAAATGAGCTGTAGCAGCATAATCTACTTCTCAGTCACTGTTTGGGGACCAGCAAATCTACATGGATGGACCCTGATTTCACTGAGTTTATT
TAATTTGGATTTATGGCTGCATTCATGTCACATTAAATGATTACCTTCAGCCCAGGTTCCAAGCATTGGAAGACATTGCCTCTCAAAACCCAATGTAAGA
GACTTTTAAATACCCACTAGTGTTTAACTTATGATGGAAACTTTTCATACTTCAGTATTTCACCAACTTATATGGTTCCTTTGGAGATCTTAATGATATG
CGGCTGTCACTTTAAGTGAGGTACTTTGGCTCTCGGTTATGAATAATCCTTTTTATTTTCTCTGTAACATTGCAAGGGAGCAAAGTTTCATTCATCACTT
ACCACAGAAGAGTGTGCATTGAGCCGCTAGAGGGCACTCAGTCTTTATTTTTTTGTAACTTGGAATTTCCCTGACCTATATTTTGCTTTTGAATGTTCCT
CTGGTGGTGTCAGAATTTTGGTTTGTTTGCTTAATAGATTTGAAAACAGCCATGTAGAAGGGGTCATTGCAAACATGTAATTGTGGTGTTTCCCAGGACA
CGTGGAGTTAGATTCCTGCCCCGTGGTGCCTGCTGTGCTGCTAGCTGGTCTGGAACATCCTCTCCGACAGACAGCAGCTCCCTTGTCCTGGGTGAGGGTG
GTTCAGTCAATCACATGGTGGTGGGGGAGAGTCTAAGGCCATGGAGCAGCTTTTTGGCCACCCTCCAACCACGGAATGGAAGTTCGTGTGCAGGTGGTAA
GGGTGCATTTTGCTGGAGAATTAGTGGGACAGTGGGTCAGAGCAAGGCTTTGACAAGGGAGGTGACACTTCTGAAACTGACCCTGGAGGTGACCCCAGCT
CAGGGCTCTGGCAAGTCACGGAACTCCCCACTCGGCTTGGGCCTGCTGAACCAGCTCCTGTTCTGGGCTGCCTGCGATCTGGACTCCTGCAGYCCTGGGC
TGCCTGGGATCTGGACTCCTGCAGCACAGAGTCCTGTGCTCACTCATCATCCAGTTGCCCCTTGATCTCTGCTTAGGTTTTGTTCATTTTCCCATTCCTG
TTTTCAAACTCTTAGGAACAATGACTTTTTACCTACAAATAGTTAGGAATAAAGGCCTTTCAAGTGGGTTTGCCATGTGAATTCTTAGTGTCTAGAGTAC
CACTAGATACTGACTCATCCTTTATTTTCACGGCCTGATGAAAGGAAGCTACTTTTTGCAACCCTTCTTCAAACCCCAGAGACTGCATCTTTACTAGCGA
TGGTCCTTCCTTTCCCCTGCCTTTTGGGGCCATCTGTTTACCCCTGTTTGTAACAGGGCCACAGTCTACCCCCAAGGCCCAAGGCCCAAGGCCCAAGGCC
TGGCCCGTCCCTGCCTTCCACCAGCTGCCATGAGTTGCTAAGCAACAGCCTCTGCGTGCTGCCCCCTCTCCCTCCTCCCTCAGGACTTCTCTCTCCCACG
GAATTGCTGACCCCATAGGTAAATGCAGGCAGCTTTGCTCAGCTGGGCAGTTGCTCAGCGAAATGAGCATTTTCCTCTGTTAGGACCCCTCATCCAGCCC
TCTGCTGACCCCTGTTTGCTCAGTGGCAGGCTGGCAGCACAGCTAGGCCCAGGAGGACAGGTGCGTTTCAGGGTGCGGGGGGGAGGTCTACCTGGCACCT
GCTGGGGCAGTCGGGCCACAGGGGACTGGTGCTGTGGGGACCGCATTCACGACCCCGTTCACATTTCCAGAAAGGACACGTTGGCCTCCATGCATGTGTC
CTGATGTTGAGAGGCCCCTGCTCCCTTCAGCCTAGGAAGACATCTCAATGAAGACCACAGCCCCGTCCTCCACTGAGCTGTTTCCTTATCTTCATTTCTT
TCTGTGGTCCTGTCATAGCGCAGGCATCTGATAAAATGTTTGTTGGAAAATGAATCTATGGACGTGGGAAAGTAAAGGTGGTGAAAACATGTCCTTCCTT
TCCCCTTGCTTCTATTTTCACTTTTTAATTGGCAATGCGCATGCATATTGAAAAGTTATGTGGCTTGAGGCGACAGATAGCTGCTCAGTGAAACCCTAGG
TCAGGACATGGACACCGCAGCCTGGCAGTGCCGGGACTCCCTTGTGTAGTCAGTACTTTTTATTTTTTTGAGAGAAGATCTCACTCTGTTGTCCAGGCTG
GAGTGCAATGGCGTAGTCACGGCTCACTGTGGCTTCCACCTTCCAGGCCCAAGTGATCTTCCCACTTCTGCCTCCCATGTAGCTGGGACCACAGGTGCAT
GCCACCACACCAGGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGTATAGATAAGATTTTGCCATGTTGCCCAGGCTAATCTCGAACTTCTGGACTCAA
AACAGTCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCTACCATGTCCAGCTGGTAGTCAGTACTTTTAATCTGTCTGGTGAGGTGA
CGCTGGAAGTGAGAGAGGGTTGTTGGTGGGGAGGCCGCCTCCTGCCCCAGCCCTATCCCTGTTCATGTCCTGGCCCGCGTGCGTGATGAAGAAGCGAAGC
CCAGTGTACTTACTTTGCGGGGAGCTGCGTGCCTGGCGGCCATGGGGTTGGCTGGAGAGCTCCTTCCTCTGTTCTGGGCTGTGATGTTAGTGGTATTATT
ACTCTGGGTAACAATGTTCTTTTCTGTTCTCTGCGTTATGTATAGAATGATCTCCTTCGGGGTGGAGGAAGGAGGAATTCTGGGGAATATTGTCCCTGTG
AGTATATTTGAGCATTATTTGTTCACTGTACAACTTCTGCAGTTCAACTCACCCACAGTGCTGAGAGCCATGGGCTTGAGGGCATGCCTGTCTCTCTTGC
GTGTGGAATGTGTGTGGGTTGCATCCTCTTGCAGGGCCCCCTCCAGGCGAGTGCAGAGGCAGTGTGAAGACGTTGGCAGTGACCAGGTGGGATGCGTGGC
CTCCCGGGGTTGGGATCAGAGTGCAGGCCCTGCCTTGCCTCCTGAGGCCTGTGCTGTAGTTGAGTGCAGGGCTTTTGAGTTTCTTGAAGCTAAATTGACA
GAAAAGTAGACATTTGAGATTTTGTTGACTGTGGTTTTCAGCAAGTGGAGACTGATTGGAGAGTGATAGAGCGTCAGGGAAAAGGAATCTTCAGAGAGGT
GGAGAAACCTGCCGTGGTGGGAAGTCTAAGTTTTTCTTTGTCTCTAGCAATCCATGTGGACCATTTCTGGATCACAGTTGGTTCTGGTGTCCTGGGAAAC
CAGTGACTTAGTCTCTTCCTGCTCTTCTCAGATCTGGCTCTGGGCCAGAGGTGTGTGCTGGCAACCCCATCTCAGGGCCCCRCTGGCCACGAGCTTCTTG
GAGCAGCCGTGGAAGAGCTGAGTCTCTGTGCTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTTTTTGCCCAGGTTGGAGTGCAGTGGCGCGATC
TCTGCTCATTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCCGAGTAGCTAGGATTACAGGCGCGTGCCACCATGTCTGGCTAA
TTTTTGTATTTTTAGTAGAGACGGGGCTTCACCACGTTGGCCAGGCTCTGTGCTCTTCTTCTTAACGCCAGGTTATTTCCCTGAAACCAGGGTCCTGTGG
TGGCTCAGCCAGACGCTGATTCCCCTCCCAGTGAGGGAGCCCAGGCCTCTGCCGCAGGGGTGAGAACGGAGGGGCTCCGTGTTGGGAGAGGCACCTGGTC
ATGCTGCTTGCCGTGGAGGTCTCAGCTTTCCATTCTGTGCTGACTGTGTTACTACTTCAGGCTCCATCAGGGACCTACAGGTGTGTCTTATAATGACTGT
TAAACTAACATTTAATTTACTTTAAGTTTTATGGGCAATGTAGGAATACGCGTTTCCTAGCATGTCTCATGGGTGTGGTTACCACGAGTTTGCCAGCACA
CCCGTATACACTGTGGGTTTCTTTCATTTTTCTTTTTTCTTTTTTCTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTGTGTTGCCCAGGCTGGAGTG
CAGTGGCGCGATCTCGGCTCACCGAAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCACCAC
CATACCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGCCTMGGC
CTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCTATCGTCACTTTTTAACTTGCCGCGGCTGCCTTCCCAGTTCTGCACACACCGGCT
GGTCTCCTCCCATCCCATTGCTCCCCTGCCCCACGCAGGATCTGCCGGGTTCTGCTGAGGTAGCTTCCATTTGCAGGAGCACCAGGATTGTGTCTAATGT
TTTGCTGTTGTCGCAGCGCTGCCCCAGACAGCCTTGTGCTCGTCTGTCTGCTCACCGCAGCTGCTCCTACCTGTGTCCTGTGCACACGCATGCTGCTCCC
GGTTCAGTTGCTGGCCCAGGTGCTTGTCAGCCAAGTCCTGTTATGTGGCGGAAGTCAGGCTTCCCAGACTCCACCGTGGTTTTTGGAAGACTCCTGGGGC
CTGGAGTACAGCGGGTGCTCCCTGGCGGCCGCGCTGTCCTCTGGGCAGGACTATGAGTATAGTTTGGGAAGCACCTTAACCCATAACCACATCGAACATT
AAAACAAAGAGATTCGAAACTGAGTTATTTCGTGGCCTTGGTGTGTCTCTTCCTGCTCTGCTTCACCGGTTGGATCTGAGTTTTGGGCCCTGGGGGTCTG
GGCTTCCCACCAGGTATCTTTTTAAATGGCCACCTTTAATGGCCTTTTTAAATGGCCTTGTAGGTAGGTTTACTCTCTTGGAAGAAAAAATTGCATAAGT
CATGATATAAAGAGTTACTTGAAAAAACTTTCCACACTGTATGCAAATTTGAGACGATGGGGAAATAAAATGCATGCGAGAAGTTCAGATGTGCTTGGAA
GGTTTAACTTTTCATCCAGCTTTTCCTCCCCAAGAGGACGCACACAGGCACGGAGGGCTGGCCCCCGAGTGCCCGCTGTCTCTGCTGAAGATAATGGAGC
CATTTCCGGCAATTTGTCCTCATTATCAAAATCAGCCTGCGGAGTTTTCCGAGTTCCCATTTACGGAGGAACGGCGTGGAGCTTCACTTACCACTCTGCT
GTGTCATCTTTCAGGCTTTTTCTGGGAGGAGGTGGGCAGGGGKTTGCYGTACGGAGCTCTGAAATGGACTGTAAGAGGCACTCAGGGAATCTGGGGAGAG
GCATCGGCTTTGAGGACAGCTGGGCCCCTGCAGAATCCTCATCTGCATTTTGCTTTTAGTGAGATGATATTTTCCTGGGGAAGCAGAGCTTGCTAGATCA
TTTGCTAACTCCCTCCGAGCACGTGAGCTCATTTATAGAAGGGCAGGTTCCTCTGACCAGAGTCTTTGTGCTCCTTGGAGCCACGTTACTGTGGCTGGTT
ACAGAGGAGCTGCGCGGGCCAAATGGGCGCTGCCCAGGAGGTAGTTGGACTGGGAGCTGTGCCCGCCAGGCTGGGCAGTTGGATCCTCTGAGGGTTGGGG
GCTCCCTCTGGCCTTGCCCCAATGCCTTCCACCCATCCACAGGCCCTTAGCAGGGTTTCCACCAGATCCTGCAGCTGGGGAAGCACCTCCTTGGATGGGT
TCTGGAAGCTGCTGGGAGAGGCACGGCGGGGATTGGCTCCGATGGTCGTGCAGCTCTGGTGTTAGGGCGGCACTTTCTGGATTTGGTTTCTCCTTGGTCG
ACAGCATTTTCCTTGTTGTTTTTGTTTTTTTGGGATTCAGAGCGGAACACGAAGTGGCTGAGCAGTCTCTATCCAGAGTGCCCAGCGTTTGACGTCACAG
GCCTCTGTGCTGTGTGCTTGGTCCGTAGGTCCCGTAAGTGCCGGCCTGTGCTCTGTGCCATAGGAATTCAGGATACCAGGACATATAGGAGATTCGTTTG
CCCAACCTTCATGGCAGCAGAGGCCACAGGAGAGGGAGGGAAGGCGAGCTGCTGGGCCCAAGATGTGGGCCACATGGGGGTGACGGGAGGTGGGACAGGG
CCATGGGGGAAGCCTGATTTCTCCGGAGGTCTGGGTTATCCTGGAAGTCCGATGGGGAGTGGTAGTGTCTGCTGCAGTGGAGAGTCCTGTCACCGTGAAG
GAGGCTGTCATGAGCCAGGTGGGGACAGGACATGGGCTGGAGACTGGGCTGTGGGCCTCAGGGAAGCCAGGCAGATGACTCAGTGTGCAGGGCTCCYACC
CTGGCCTCTGAGTGGGCAGAGGTGGCCCCGTCAGGATGGGCTTGGGGTCTGGCTTGGTGGTTTCATGGTGGGCAAAGGCAAATGGCAGTGTATGTGAAAT
GACCGTAAGAGACGAGTGGCTATGGACGCTCCAGCACCGCTGTGGCAGGAGCCTGGTGGGTTTCAGAGACTCCAGCGATGCTGGGGCTTCCTCCTGCTGA
GGTGCAGGGGCTGAGAGCCCTGGGTCTGCTGGGCCATGAGGTGTCCATGTGGCCTGGGGAGGGGTTGCAGAAGCAGCACAAATGCCAGCTGGGCTGAGGC
GGGGCTGGGCAGGTACAGGTGGCCCTGKGAGGAGGCTGCTGGCTCTTTAGGCAGCCCCTGGATGCTTGGGAGGCAGCTGTGGCCTTATAAAGGGCCAAGG
CAGTTCTCAGTCCCTGGCTCCAGGGGGACCCCATGAAGGGCTGGCCTTGCCTCCCCCAGGTGCGCCTCCCAGTGTTACCGGGCCTGCATGGAGAATCCTC
AGCAGGACCTGGCGGACAGCTTGTGCTTAGTGGGTGTTCGTGAGGCCGCAAGCCAGGTTGGCAGTGTCTGCTCAGGAGCTTCTCGGTTAACAAAACAGCC
GGAGTCAGGGAGCTGCAAGACTGGGGCAACCTCAGACCCCAGCTCTTCCGGGCAGGGAAGATGCAAAGATGACTAGTGAGGAGAAGCGTGTTAGGGAGCT
CCAAGCACCCCAAGCTGTGAGACCTGCTGGCCCAGGAAGAACAGTGAGGACGAGGCCAGCTGTACCCCCTCTCCTGGCTGCTGGTGCATGCCAGGGCTCT
AGATAGACAGCGACACTTTTGGGTGGCACCCTTGCTGCTGTTGCCCCTGAACGGTAACCAGCGGCTGCCCCTGTTACAGACAAGGTGGTGAGGCCTGTGG
AGACCTGACTGCGTGGGGGTTCAGGGGCCCACTGCCCCCAACACAGGCTGACACATTCCCTCTCCTACCCCACTGTGCTTCCTCCCAGGCCCGCCAGCGC
CAGTACCTCGAGTTCTCGCTGCCCCGCAGAACTCACCTGTGGGACCAGGGGTAAGTCCAGGCCCCCCACGGCCTCCTTCAGAATTCCAGAGTCAATTACT
TGCAAGAAAACCCTCTGTCCCCCCTTAAGCACAGTGGATCCCTGCGTGCTTCTGCGTGGCTGGGGAGGGCCTGCTGGCGGCGGCGGGGCTGTCCCCTCCT
ACCCTGTCTGTGCAGCCTGTCCCTGATGTTCTGACTCCCAGTGCGGGCTTTTAGTGGGGCTGCTGCTTGCAACCCCTATGCTGCTGTATGGGGCGTCTCC
ACATCTCCCTGGCAGCTGCATCTCATGGTGGCAACTCTCAGGACTGGACGGCCTTTGCTTTTTCTGAGAGACATCGAGGTGTGGTCCTCACCCTCTTTGC
TCTCCCAGACTAACTCCACCAGTAGCGGTGCCTGGCAGCTATTGGTGTCCCCTGGCCCTGTCGGCCAAGCAGCCGATGCTGGTGGAGACAGTGGCACTGC
TGAGAACCACAAGCTGCTGGCAGTTGCACGTCCGACCGCACAGATCCCCGTGGCGCTGGAACTTCCTGAGTGGGAGGAGAGGCGCCTTCCCGCTGGGCCG
TTGCCCGCCAGCGGTCTGAGCTGAGCTCCTGCTTGGCTGCCGTTCTGGAGTCCCGAGACACCCGTGGCGCTCACCTGTGGCTCCAAGGCTGGCCTTAGCT
ATGTGATTTGCAGTGAGGTCAGATGTGGCTTGTTCCTGCTGATGACTTTGTCTGCCAGCATCATCCTGGAAATTGACTTTCTAGAAAAGTTGACTAATTC
AGTATCCATGGCTGTCTCCAAGGAAGCAGCTTTAGTGTGTCATCTGCAGTGGGAAACTGGATCAGGAGTGAAGAATACTGGATTCACCTAAAGGCGCAAG
TCTGTGGACGGCCTCCCAGGCTTCCCTGCTGGCCCAACCTGGCATTTTCCCTGGAGCAGTTTCCACGTGACCCCGAGTGGTCACGATACCGTATAGGGTC
TGAGGGAAGCTGGGTAGGCCCCAAAGATCTCCTCTGCTCCCTGAAGATGCTGCCAGGGTMCCCTGGGGATGCTTCATGCACCCCGCCCCCCATTCATTCC
TCAGTGCCTCTTCATACATTGGGGCCTCTCTGCCAGCACCTGGTGTGGGCCAGCCATCATTGCTGACAGTGAATGTCTCAGGTGCTGGCTGTGTGTACTG
GAGTTAGAGTCCGGGTTTGAGATCTGTGTCTTCAGTAGTGCGTGGGCCCCCAGCCCTCCGCATCAGTGTTTTAAGCCGCACTCATTTCCAAATATCTGCA
GTATTTATAGAAGGCTCACCGTGTGCCAGGTACTATGCCAAACCCTAGCCAGGATTGTCATTTAATTCTCCTAACAGTCCTGCAGTTTAGGTACTATTAT
TACCCCCATTTTACAGGTGAGGAGACTGAGGCAAAAAGAGGTTAGCTGACTTGCCTGAGGCTACACAGTAATGCCACATTGGTGCGGGCACTCCATCACG
GTAATGCCACGTTGGCACGGGCACTCTATCCACAGCTGTCTCCAGAGCCCGCGCTGGCCATCAAGATGGTCATTGCCTTAACAGGGAGGTTTGTTCGATA
GGAACGCAGGCGGCTAGAACTGGCAGGGCCTTGGAGGTGCTCAGTCCAGTGCTGGCAAGGGACAGAGAGGCAGAGGCCAGGCCGCCCCTGTAGCTTGAGA
TGCTTTCTCCTTTCTTGCTTGTTTTCCTTGTTAATAATATTCTTATTCAGATATTATGATCTGGGGGAGATCATGGAATCACCTCTCTGTCATTAAATAA
AGGAACTTGAGAAGCGGTCCCAGGTTCCAGAGCTGCCCTGGCCAGGAGGCTGCAGGCATCACTCCCTTCCGTGGCTGGATCYAGGGCTACCCCGTTCCCC
GGTGTGGCCAGTGCATGTTGGGAGCTTTGTGGACGGACTGGCAAGCTTCTGAGCCCCTCACCTGTGCTCTCTTTCCTTCCAGTTGTCAATTTCCCAGCTG
GCGGCCTCCCCGCGGTCCCCRACTCAGCACTGCTTGGCCAGGCCTACTTCACAGCTACCCCATGGCTCTCAGGCCTCCCCGGCCCAGGCAGTAAGTGCCG
CCCACCTGCCGCCTTGCCTTCCACCAAGGAATGGCTCCACAGCTCCTCATTTTGGGTTTTTGCACTGTGCCTGTCCTTAGTTAGGTGGCAGAGACCTTGG
CGGGTTACCTGGGATGTGGGTGGGAGTGGGGCATTGCTTACTCTGAGGCCTCAGACAGTTGTCACCATTCTGTCTTGGAGACCAAAGAAGAATGTGGCCC
ATGAGTTCTTCATACCACAGCGCTTGACTCAGATTGTGCTCTACCCATGAAAACAAAGTTAAGCTACCCCTAGGTCTCTACGTGAAAGTAAAAGGAAGGT
GTGGCTATATCTATAGACAGGCTGAGACAGGCACCCAGCACCCCAGGACCCTCCTTGCTATCAGCAGCTAAAGGAGGTGAGTGGAGCCCGCCATCCTGGC
TTCAGGGTGTGCTCCTGGCTAAGACTGGCATTGCCACTGGCCTTGGGGAATTCCTATGGAGTTTGGTTTCCAAAGTCGGCTGGTTCACCTGCAAACTGCA
TCTTTGGTCTTAACTGGAATTATGTTGAGGAAAAATAGTTTCTTTTAATTCCTTGTTTGAAAACACTCCTAGCACCATGAGTCTCTGCTGCTTTATCTAA
AGCATCTCTGGGGCTCATGTGTTTGTGAAGAGCTTGCCTAGCTTTTTATTATTGGCGCATGAGACATGGTGTGAGGGTGACCTGGTTTCCTCTGGGCTGA
AACAGAAAGCTTGGGAATGAAGCTTGAGAGAGCACATTCCCAACTCCCAAGCCAGCTCCTCTCTGAGAGGCCTGCCTCGGCCTTGGAGGGGAGTGGAGGT
GGAATACGAGTGAATGACAAGAAGTTTCAGGGGCTGTGGGGACAAGAGACTGTCCAAACACGCCAGCCAGGGGCTCGGTGCCACAGTTTATCTTGGAGTA
TTGAGGAAGCTTCATCTTTCTGTTCTATAAACATGCTTTGATATGAATTTACCATCTCAGGTGTCAGGTATCTCCCACGGTCCTGACCTGCTCATAAAAT
TAGGATTCCCTCCTCACCGCTTCTCAACTCACACATTGGATTGCCRCGTGAAATATAGGATGCCCAGTTAAATTTGAACCTCAGGTACACAACAAATAAT
TTTTTAGTGTAAGTATATCCCAAATATCGTAGGGACCATACTTATACTAAAATCATTTGTTGTTTACCTGAAATTCAAGTGTAATTGAACCTTTTGTATT
TGCTAGAGCTGGCAACCCTCCAGAGGCAATTAATCGATGAATCCCCTTAGATCTGAGCACCGTTGGTTGTTACGGGTTGGGGTCCTTGGTGGCCTCACTT
GGAAGCCCTCGTTTTGTTCAGCAGGAGTTCCCGTTGGAGGSCGGTATCTCCCACCTGGAAGCCGACCTGAGCCAGACCTCCCTGGTCCTGGAAACATCCA
TTGCCGAACAGTTACAGGAGCTGCCGTTCACGCCTTTGCATGCCCCTATTGTTGTGGGAACCCAGACCAGGAGGTGAGGTGTGGGTCTGGGTGGGATGGA
ACCAGTCACGTGCTGTGCCGTCAGACTGTTGGACCTTGTGAACCCCAGGGTTTCCACAGGGAGGTGCATCAATGGGTCCCCCCTTTCCCGGGAGGCTACC
TGAGGAGTCTCTGTGTCTCAGCTCTGCAGGGCAGCCCTCGAGAGCCTCCATGGTGCTCCTGCAGTCCTCCGGCTTTCCCGAGATTCTGGATGCCAATAAA
CAGCCAGCCRAGGCTGTCAGCGCTRCAGAACCTGTGACGTTTAACCCTCAGAAGGAAGAATCAGATTGTCTACAAAGCAACGARATGGTGCTACAGTTTC
TTGCCTTTAGCAGGTAAATCCTTGAATATTCTGTTACTCATCTGGCTTTCACATTTCCTGTGTTGAAGAGAAACTTCGCTGAGGTTCTGACCTGGCAGAA
CTGTCTGTGCTGAGGTCTTAGTAGATTCGGGAGTGCCATCTGTTTTTATCTTCTCTTGGCTAGGACCCACCCACAGCATGCTAAAYGCTGTGAAAGCTGC
TTTACCCCATCTTTTGTGGTCCTTCATTAAAATGTGGACGGTGGGTTGTCCAGGTCTTAGATCTTAGTGTAGCTCCAAAGGCAGCTTCTCTAGCCGGGAG
TGTCCTTACACTCGAGAATGCTGCTGTCTGGCCGGCTTGCTGAGAGCACAGCAAAGCGGTTGCATTGGTGACCRCGGCAGCCTCTTTACTGTTCCCCAGC
GACTAAGGTGCCTGGACCATCCCCTATGCAAACACACATTAGACCCCTCAGGTTCTGTGCCATGGATACTCAGTTAACCCAGAGCTGTTGTTGGATTCAG
AGTGGCCCAGGACTGCYGAGGAACATCATGGCCAAAGACTGTGTATTTCACCTTCCAGTTCTACCGCTTCCCACCYGCAACGACGCCAYGACTGCAGCTG
GTCCAGCTGGATGAGGCCGGCCAGCCCAGCTCTGGCGCCCTGACCCACATCCTCGTGCCTGTGAGCAGAGATGGCACCTTTGATGCTGGTGAGTACTCAT
GTGCATGGCAAAGGCAAGACATTCTGTACTGAGTTGTGTGTGTAAATTGTCAGTGTTATTAAATAAGTGGTACTATGAAAAGTTTAAAACATATGCAACA
TTAGAATCATACGGTGACCAGTGCAGCAAACACTTAGCCCCAGCAGCTCTCAGCTGCCTCCCAACCCAGCGTCCTCCCCCAAGCCAGGGTTATTTTGAAG
CAAATCCCAGACATTATATAATTTCATGTATGAATATTTCCTTATGTATATCTAAAAAATTAGGAATTCTCATTTGAAAAACATAAACTTAAGGGGTATA
GCCCATCTAAAATAATAACTCCTAATATCATCAAATATCTAGCCAATGTTAAAATTTTGCTAGTAACCTCATAACATTTTTTTAAGTTTGTCCAGAAATA
AGGTCCATACTGGTCATGGAGCAGTGTGACTCTTCAGTCTCTGTCTGCAGTTGCTGCCACCGTACCTGTCTCTGTTGTTTCTTTTTTATGTATTTATTGA
AGAAGCCACATTGTACTGTAGAGCGTCCACCCCACAGTCTGGATTCTKTTTTTGTATCCTGGTGGTAACATAAAGGTGTTGTTCTGTCCCCTCTTTAGCT
GTAAATTGGGAGTTAGATCTAGATGCATGATTAGATGCTTTTTTTTGTTTTTGGCAAGAGTTCTTTGTAGCAGGTGACGTTTGCGCCACCTCCTGCACCT
CCGCTGCGCCCTTGGCGTCTGCTTGCTTCTCTTTGTGTTGCGTCAGCAGCCATTGTGCCCACCGCTGTGTCATTTGTGCAGAGGTGACGTTCTGCTTCTA
GAACACCTCCCTTGTTTGTTAGCTGGGATGCTTCCAAAACCAGAAACTTCCTGGCATCAACTTTTTGCTTACCTTGAGGTGCAGTTTGTATAGGAAAGGC
TGGATAATACTTGATTCTTCCCTTTATTTGCCAATTTCTGAAGTAATTACATGATTCCCTGGCATCCTTCAAGGATGGGGACTAATGACTTTTTTTTTCT
TCGGGTATCATTGTAAACGAATAGATTGAAGCTACATTGAATAGAAACACACCTGACATGTTGATATTTTTATTGATGGTCAGTTTCCCCATCTTGGTCA
GTGACTCAGCTCATAAGGGACCCAGCTGGGGTCTGAAACACTGCCGCCTCTCGAGGTAGAAAGTGGCAGATGGGAAAAGTGATGTTAAAATGCTGACCTC
AAATGAAGTAGCCTAACAGTGGCACCTGACAGCAGAGACACAAAGCAAATGCAGCGCTAGGGATCAAGGAGGCTGGTAAACAATAACCAAGAAAGTAATT
CACTAGGAAAAGAAACAGTTCTGAATCCGCGATCTTCTAACATACGTAGCCTCAAGATAGAGAGGAGAACTTGATGGACTTATAAGGAGAAATTGGCAAA
CCTCCACAATCATGGGAGTTCTAGACATACTTCTCAGTAGATTGATCAAACAGAAACAAGTTAATAAGGATATTATAAAATACAGTTTAAAAAGGTGATC
TGAGAAAACCTGTACATCCCGTTTAGAGAATATGCATTATTTTAAAGCATACTTTGAAACTTAGAAAAACTGATCATCATTCATATATATTTTTTAGCTC
ACCAAGCAGGCATCACCCTATACTGAGAGAATCGGTATCAAATCTAATTTTATAACTTTCTCTGGCCATAATGCCACAAGATCAGAAGTCAGTCACTCCC
TCCCCTACAACCACTCTGAACTGCTTTTATTTTTTTAATTTTAAAATGTGCTTCTAATTATTCCATGAGTCAATGAAGACCTCAAAATAGAAATGCGTAA
TTATTTAAAACTGAATGACAAAATAATATTGCATATCAAAACTTAGGAGATGCAAGTAAAATTGTAATTACAGGGGAATTTACAGTTTTAAATGCCTATG
TTGGTGAAGAAGAAAGGTACTCTTTAAGATATTGTTTTAATTGTTCAACTTAAGAAGTTTTGGGGAGAAAGACAGAACAAACCCAGTAAAAGTAGAAGGA
AAAAAATTTGATAAGTGTAAATGCTTAGAAGACAAAACAATAGAACGGGTCAACCAAACAGTTGGGCACCAGGGTCACCAGGTACAACAGGGCATGCTTC
TTGTTTCTTGTCCATGGGCACAGTCGGTCAAGAGAGGCAGATGGCGGAGATGAAAATATCACTTTCTTTATCATGCATTTATTCATGATAAAGAGGGTGT
AGGACTTGGTTGGTCTGAGAGCCAGCTGTGCCCACTGGCGCCAGCCCCTGATGTGGATGGCCTTTGATGCAGGTGGAGGTTGGCCAGACAGCAGCAGGCT
TTGCACCTGGGGTGAGCCCTCGCCTCTCTGCATGCCTGGAAGCACATCTCGGACTGTTGCATTCTCTCCTGTGGGCAGATCTGAAAAGAAGAGAGTGGGG
AGGAGGAGTGAGCAGCCTAGTTAGTTAGTTAGCTCAGTTAGGCTATTCCCCATCCCCAGTCAGTTGAGCTGCTCTTGCCCTGAGAGGCATGGGGGCTGGG
CAGAGAGAGGCCACAGGAAGTTCCTTTGCATAGAGGTGTGAAGCCAGGGAAGGCTGTGCTCCTACAGCATTTCCAGGGTTTGGTTTTCTCAACTCACTGG
CCTTCATCATTACGTTTATGGCCAACCAGGGGTGTGGCCTTTGTCTTTGKGGGAGGGGGCTGGTCACCACCAGGGCGGTTCCAACCTTCCTGAATCACTT
CAACTAAGCCAACCACCTTTCCTTTTTCAGTCCTCCTGAGGCCTTTGGTAGACAGTCCAACTGATGTCCCCAGAAGGCTGTAAAATGGATCAGAYTAATG
CATTTGTCTCAAGGCTCCTCTGTACCCACTGCTGAAGACTCATTCCCCACTCTGTTTCCCATTCCAAATTCCATCCAGTCATTTTATCCAGCACAGCTCA
TCAGAGGCTCTGCAACGAAGTTAAATGATAGCGTTGAGACCATTCAATAAAAAAGGCCAACCACTTAGAGATGCTCCTGACTTGAATATAAACCCCTTTC
CATGATGAATTTCCCAGAGAGGAATTAAAGTCCCCAAATTAAATTTCCTTGCAAGTTGAAGTCCAAAGAAATGAAACTCCAAAATCAAATTTTTCTTGTC
ATTATGAATTAAAATTCACAGTCCAAAATTCTTAAGTTGAAGTCCAAAAAAACCCCACCCGACTGATTTCAATTTCTTACATATCTGAGTCTCTGCCTGG
GCAGGTCTGGGCTTCCTTCAGCAGCCGCAGCTTGTGGGAGGGTTCTCCCTGGACGGGCATGGTTCCCTAGGGCCTTGGTAGTTGCATCAGTTCAGGACTG
AGCCTCTCATAAGCCTCACTTAAAAGATATTTGTTGTTGTTGTTGAACTGTAACATGCGTACGGTAAAGACAGATTGCCAGTGCATGGTTCCATTATTTT
TAAAAATTAGTAATTTTATTTTTTTAGATCAGTTTTAGGTTTACAGAAAAATTGAGTAGCTGGTACAGAGAGTTCCCGTAGGACCTCCCCCCACCCCAAC
AGTTTCCCCTATTACTAACATTTTGCGTTGGTGTGACATATTCTTTTTTGTTTTTTTTTGGGTTTTATTTGAGACAGGATCTTACTCTGTCACCCAGGCT
GGAGTGCAGTGGCACAATTATGGCTCATGGCAGCCTCGACCTCCTGRGCCCAAACAATCCTCCCACCTTAGCCCCCACATAGCTGGGACCACAGGCATGC
ACCACCATGCCCAACTAATATTTTTTTTGTAGTTTTTGTAGAGATGGGGTTTTGCCTTGTTGCCCAGGCTGGTGTTGAACTCCTTGGCTCAAGTGATCCT
CCTGCCTCAGCCTCCCAAAGTGCTGAGATGACAGRCGTGAGCCACCATGTAACAAATGTAACATTTGTTACAATTGATGAACCAGTATTAAAAAATTATT
ATGAACTAAACTCATAGTTTACACTAAAGTTCATTCTGCATTATACAGTCTGTGATTTTTGACAAATACATGACATCATGGATCCACCATGATGGATCAT
ACAGAATAGCTTCATGGCCCTACACCTCCCCTGCGCTCCACCTATTTAGCCCTCCCCTCCTCCCCTGGCACTACTGTTCTTTTGACTGTTTCCATGTTGC
CTCTTCCAGAATGTCATACAGCTGGAATTATGTAGTATGTAGCTTTTCAAAACTGGTTTCTYCCCCCCAGCACTGTGCATTTAGTTCCTCCATGGCTTTT
TGTGTCTCGCTCACTCACGTATTGGATTGCTGAATGATACTTCATTGCACGTATGTGCCACAGCCTGTTTTTCCATTCACCTCTTGAAGGGCATCTTGGT
TGTTTACAGTTTTTGGCAATTTTGAATGAAGCTGTCAGAAACATTTGTGTACAGGGTGTTGTGTGTACATAATCTTTCAACTCACAGGTAAATACCAAGG
AGTGTGATTGCTGGATCACGTGGTAAGAGTATGTTTAGTTTTGTTAGGAGTCACCATACTGTCTTCCAAAGTGGCTGGGCATTTTGCATTCCCACCAGCA
GTGAATGAGGATTCTGGTTGCTCCATATCCTCACCAGCATTTGGTGTTGTCAGTGGTTTGGATTTTAGCCGCTCTAGCAGGCAGTGCAGTGGTGTCTTGT
TGTTGTAATTTGCAGTTCTCTAGTGACCTATGATGTGGAGCATCTTCTCATGTGCTTATTTGCTGTCTGTGTATCTTCTTCCCTGAGATTTCTGCTCAGA
TACCTGAACAGATGTCTTTTTATATTTTGGATGCAAGTCCTTTATCAGATACGTATTTTGCAAATGTTTTTTCCCTATCTATGGCTTGTCTTTTTATTCT
CTTACCAGTATGTTTGGCAGAGTGAAGTTTTTCATTTTAGTGAAGTCCAGGTCATTAGTTATTTCTCTCATGGATTGTGCATGGGTTGTATCTGAAAAGC
CATCTCTGAGGTCACCTAGATTTTGTTCTGTGTCGTCTCCTAGGAGTTGTATAGTTTTGTGGTTTACATTTAGGTCTGTGATCCATTTTGAGCTAATTTT
TATAAAAGGTATAAATTTTACCAAGTGAACACACCTGCGTAACCACCTCCCAGCCCGGAAGGGGCTCTGGAACAGGATGCAGAGGCCTCCCTCACCGCAG
TCCTTCACCTCCCCCAAGGGAACCACCCTTCTGAATTCTGCCACTGTACATCAGTTTTGCCCCTTTTTGGACTTCGGTGGGATCATGTTTTATGTTCTGT
TTTGAATCCCACTTCTTTTGCTGGCCTCTTGTCTGTGGGGTCCCTGTTCTGTCTATAGCAGTAGCGTTTCTGTTTTCCTGGCTGTAGAGAAGCCCAGTGT
CGGGTGATTCTGTGATGCTTCTCCATTCAAACAGGCGTTGGAATGGGTTCTAGTTTTTGGCTCTTCTGCATAGTGCTGCTGCGAGTGTGCTTTTGGTGCG
CACGGCCGTTGTGTTAGAGATATGCCTGGTAGTGAACGGCTGGGTTGTGGAGCAGCACCTGTTGTTAGGTTTAGTGGATCTGCCAAGCAGGTTTCCCTCG
TGCTGCGCCAGCTTCCACATCCATCAGCAGGAGACAGGCAGCCCAGACAGCGCCATGTCCTCGCCAGTCACGTGGTGATCGCTGGTTTTCTTTGTTTCTT
TGAACCATCCTGATGTAGAGGCATCTCGTGGTTGGAGCTTCCTTGATGATACCGAGTGCCTTTCACAGGCCTGCTGGCCTTAGGGGTATCGTCGTTCATG
AGGCATGTGTTCAGGTCCCCTGCCCATTTTCTAGTGTGTTGTCTGTGTGTGTGTGTGTGTGCATGTGTGGGTTTGAATTGATAGGCATTCTTTCCGTATC
CCGTCACCAGAGTTAATAGGACATGTAAGATTTTAAAGCACTGGCCCCATACCCACCAAATTTAGACAAGCCAATTCCCAGCCCTGAATAGTTGTCCTAA
GGAAAATTATGTTCTCAGAATCCAAAATTTGACATTGCCAGAGACTCAGGTGTCTGAGTGAATGCGCGTAGATGGGAGAATGCCTTGGTTCCAGCTTCCC
AGGCCTTTGCCATGTCCCGATCAGGAGGAAGATCCACTCAGAGAGCGGCATCTGAGGCGTGGCTGTCTGCCCGGCAGAGCCGCTGGGGGGCTCGTGCCAA
GGCCCTGCACGCTGGTCCTACTGAACTGAAGCTTCCSGCAGCCACGCCCGTGAGCCTGGAGGAGCCAAGGAGCCCAGGGCTCCCGAGAGTGGTTTTCTCC
GTGTTTGGGTGTTTGGAGCTGTGAGTGGCCTTTCTTCTCATCACCTCTTCTTCCTRCACTTTTTGGGGGGCTCTGCCGAGGGCGTGGTCTCCCCTGCGTG
TGTTGGTTCCCTCCTTGGCCCTGGGCTTGGTGCCTTCAACCCTTTTTGTTTTCTTCGCTCCTGTCCTGGCCTTTTGCTTCCTAACATGTTCCTCCTGGTG
TTTTTGTCTTGTGGGGGCCCTCCTCAGTGTGAGAGCTGAAGTAATTGAATTTTGGATCAGCCAAGAGCATCTGTTCTTCCAAAGAACGCGGTCCATTTCC
TCTCCCTGGGCTGTCCCAGCCGAGAGGCATCTCCATCAGACCAGCCTCCAGTCCTGCTCCGGGCCACCTAGCACAGCCTTGCCGTCTCTTCCTTAGTGGA
TCTCCTCTTTCCCGGGCCTTCTGCGAGAGCCCTAATCCCATATGTCCCCACCTGCAGAAACCGTGCCATGTTTTGGAACATTGCTTAACTGTTTATCTTG
AATTATTTGAAAGTAAGTTGTTGACATGCATGGTAACACTCTACCTCTAAATAAGCAACGTGCATCTCTTAAAAATAAGGTACCCTTTTATATATGTGCA
ATTCTAGTATCACATTTAAGATAACACAAATTTCATAGTACCATTTCCCCATTTGTCCCCCATGTGTATTTTTTTGATCTGGGATCCAGCCCGGTTTCCT
GTATTGTATTTGTAATTATCACTTTAATCTCGTAGTCGCYTGCATTCTTTTCCAGTGACACTGGCTTTCAGGAGAGACCAAGTGAGCTGTCTTGCAGAAC
GTCCCGTGTTCCGGGCTTACCTGGTTGCTTCTTCATGTTGTTGAACTTGTTGCTTTATCCCCCRTAGTTCTTGAAYGCCGGGAGCGACGGCTGAAAGCTG
TTTGATTCTGGATCTCAGCATGAACACTTCATTGTCAGTGCTGTGTGCTTCACAGCCCACCACCTCAGGAGGCGCGAATGTCAGACTATCTCATTGTTAC
GACGCTGATTCGGTTGCTTGGTTAAGGTGCCCACCCCCAGGTTTCTCCTGTAGAAAGAGAGTTTTTTCCCTTTGAACTGACTGAAGAATTCTTGGCGACA
TTTTTTGGCTTCATGCAAATATYTGGTCCCCAGCAACCTTCCACCTCTTGTTTTAACACCCTGGGCTGAGCTTTGCTTGCGTCAGTTATTTAATTGGTGT
TTTTGAAATGGTAATTTGTCTAATTCTATCATTTGGTCTGCTCTGCCTTTATTAGCTCACATTCTTTGTTAAAAAAGAACTTTCCCTACCGATAAGCGAT
GAACTACATATACATGCTCCACAAAGACAGGACAAAGGTTTAATTCTTTCCCTTTAATTGCCAGTTTTCAGAGTGAGAAGTCGGTGGAATAGTTAGCCCA
GCAGTGGGATCCCAGTGTTAGGTGTCCGGCTGTTTTGCTTTGTCTTTGGAGCGTGGCTGCGGTCTCCTGCATCTTCATCGATGCATGGGGTTGCACTCAT
TATTATTCCGGGAGCCCTTCCGGCCTTTCACCGGCTCTGATTGGACTTTGAGCGCGTCCTGCTTTCTGGAGCAGTGCCGGTTCCAGGCTCATCTTGTGCT
CTCCCTGCCGCCAGCCAGGGCCCGTTTCTCTGAGGAGCCTGGTCTGCCTGAATGGGGATGACATTTCAGAGATCAGGATATGGGGTGCTTTGATTCTGGG
TCTTCTTGCTTCAAAACCTTTCACCAGGAAGAGCTGGGAAAATGTAAAATGTGAGTTCATGTTGATCTTCCTAAGTCAGATTTAGAATTTTTCTCATAAA
TTTCCTTCTATTATTTGTATGTGTCTTACACAGAAAATCATGGTTTCTCATCATGTATTTACTTATTTATCTTGCCTAACAACGTATAGAATGCATTTTC
ACAATGACACTGCTGATGTTAATTGTTGACTTAATGTCAACAGTGCGTGTCCTGCTGAAGTCAGATTCTTCGCAGCTCCTTTTGGCCTCTGTCCCACCGA
GGGTTCAGAATTGGTTTAGTGTGACCAAAAGCCCTCAAAATAATTCTTAGCTCCAGTTTGATATTCAGTATGATTCATTTATTTTAATTTGTTTTCACTT
TTATGTTTGCTTTCCTTTTTAATTTTTTTGGACTATTTACATGGTTGAAAGTTGAACACCGTAGCCCAGTGTGTGCTCGGGCCTCCCTGCTCCCCTCATC
CCTGTGGGCTCCTCCCCCTGCCCAGCCTCCTAACAACAGTAACCAGACTTTTCGTTTCTGGCTGACCCTTCCAGTGTTTTTACTGATTTGTTTTTTCAAA
AATAAGCAAACATTTACATTTTATTTTCCCTGTTTTCTAATTCAGTGGTAACATACMAAATACACTCTTCTGCTCCCTGCTTTTTTCAGTTAATGTCATA
GCCCAAGTTTGGCTGCGCAGACGTCGCCTGTGCCCGTCTCTACGGTAGCTGCGTCATGCTCTGTGGGCTGCRCAGACGTCACCTGTGCCCGTCTCTACGG
TAGCTGCGTCATGCTCTGTGGGCTGCATAGATGTCGCCTGTGCCCGTTTCTACGGTAGCCGCATCATGCTCTGTGGGGTGGTTATGCTGCTCTTTATTCA
GCCGGTCTCCTAATAGACGTTTGYGTCATTTCTAGTATTTCGCTATCTCAGCAATTAGTAACCTTGGTTCTTTCTGGTTCTGGAAAGGGGATAATGGAAT
CACAGGCTTCAGTGGTGTTGACAGACACTGCCCCACACCCTCTCTCGGGTGCCGCTGCCCGGGGCCACTGGCAATCCGTGGGGCTGCTGGTTTCCTCCTG
CTCACCGTCAAAATGGGGCGTTAACGGGTGGTATTTTTACAGTCCCATAGATGTGAAGTCCATCTTAATGCAGTTTTTTTGTTGTGTTTTGTTTTGTTTC
TGTTTGAAACGAAGTCTTACTCTGTTGCCCAAGCTGGAGTGCAGTKGCGCGATCTTGGCAAACTGCAGCCTCCACCTCCCGGGTTCAAGTGATTCTCCTG
CCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGCCACCATGCCCAGCTAATTTTTGTATTTTTTTTTAATTATACTTTAAATTCTAGGGTACACGT
GCCCAACGTGCAGGTTTGTTACATTTGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCATCATTTAACATTAGGTATATCTCCTAATGCTAT
CCCTCCCCCCTTCCCCCACCCCACGACAGGCCCCGGTGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCTTTGTTCAGTTCCCACCTATGAGTGAGA
ACATGCGGTGTTTGGTTTCTGTCCTTGCGGTAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTT
ATGGCTGCATAGTAATCCATGGGGTGTATGTGCCACATCTTCTTAATCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCACGTCTTTTCTATTGTGA
ACAGTGCCACAAGAGCGAGGAGATGACGGTCCAAGACAAGGCTGCCTTTCCATCTGTTCATTTCTACTGTGTGTCTTTCTGAAGAATTTTAAAGTTTATG
TCATATGGGTTTTGCTATTGTTTTGTTTTCTAATTGATTAAATTTTGTGTTTATCTTTACCGTCCCCTCATTTCTCCTTGATTTTTGGTATTCTTTACTA
TCTTCCTATTTTTTTTTTGAGCTGCTTAATTCATTTATCTTAATTCTTTTGTTTGTGTGGATATACCAGGATTCAAGGCTATGAATTTTCCTGTGATTAC
TGCCTTAAGATTGTTGATACTGATAAGTAGTATTTTCATTATTATTATTGTTTCCAGAAAATCTTTTTTGATTGTGTTTTCCCTTTGACAGAAAGTTATT
TATGAGTAAGTTGCAAATTTGTTTCTTAAAAAATTTTACCTTTTTTTTTTTTTTTGAGACTGGGTCTTGCTCTGTAGCCCAGGCTGGAATGCAGTGGYGT
GATCTCAGCTTACTTCAACCTGCACCTCCTGGGTTCAAGTGATGGGCCTCAGTCTCATGAGTAGCTGGGGCTACAGGCATGCACCACTATGCCTGGGCAG
TTTTTGTGTTTTTTGTAGAGATAGGGTTTCACCATGTTGCTCAGGCTGGCATATTAATTTCTAGTTTATTGCATTATGTTAAGAGAATATTATTTGTAGT
ATTTCTACTTTATGGAGTGCAGTTTTTTGTGGCCTGTGGGTGGCAAGCCAACCAGRTGCTGAGGCAAGAGAACGAGGACATGAGCTGTTCCAGTATAATA
AAATATAAAACAAGAATAGTTATACCAGATATAGATCTTAGATGTGTTTATATATGAGTATCATTAATCATTAGTTTGTAGCAATTACTCTGTATTCCAA
TATTATAATAATCCTCGCTCTACGGTCATAACCTAGGAAAAACCAGGCCATACAGAGATAGGAGCTGAGGGGACACAGTGAGAAGTGACCAGAAGACAAG
AGTGTGAGCCTTCTGTTATGCCCAGACAGGGCCACCAGAGGGCTCCTTGATCTAGAGGTAATGCCAGCGTCTGGGAAGACGCCCGTTGCCAGGCGGACCA
TGGTCTAGCGGTAGCGAAAAGTGTCAAGGAACAACACCCGCTACTTAGCAGACCGGGAAAGGGAGTCTCTCTTTCCCYGGGGGAGTTTAGAGAAGACTCT
GCTCCTCCATCTCTTGTGGAGGGCCTGACATCAGTCATGCTCGCCTGCAGTTATCCGGAGGCCTAACCGTCTCCCTGTGATGCTGTGCTTCAGTGGTCAC
GCTCCTAGTCCGCCTTCATGTTCCATCCTGTCCACCTGGCTCTGCCTTCTAGATAGCAGGAGCAAAATTAGTGAAAGTACTAAAAGTCTCTGATATGCAG
AAATAATGGTGTAAGCTGTCTTTCTCTTTGTCTCCTCTCTCTCTCTGCCTGGGCTGCCAGGCAGGRAAGGKCCCCCTGTCCAGTGGACACGTGACCCGCG
TGACCTTACCTATCATTGGAGATGACYCACACWCTTTACCCTGCCCCTTTTGCTTTGTATCCAATAAATAACAGCGCAACCAGACATTCGGGGCCACTAC
CGGTCTCTGCGCATTGGTGRTAGTGGTCCCCTGGGCCCAGCTGTCTTTTCTTTTATCTCTTTGTCTTGTGTCTTTATTTCTACACTCTCTCGTTGCCGCA
CACGGGGAGAGACCCACCGACCCTGTGAGGCTGGTCCCCACAGTGGCCTAATACATGGTTCGTTTTTATTAATGTTCCAAATACACTTGAAAAGTTGTTT
TTTCTGTCACTGGGGTGCTGCGTTAAGGTCGATCCCTGCACCCCACACCCCTGCCACCGTGGGAGTTGGCCACTCTGCTCTTCTAGATTGTCACTCATTC
ATCGTTGCCTGGATCTGCCTTTGAATGGAGAGTGGTTAGTTTCTACCATTACTGTGTTTTCTGTTTCCTCAACCCCAGAAGCAGTGAGGATTCCAGCCGG
GCTGGGGCGTGGTGTTTGTGAAGGGGGTGCAGGAGGTGGGCTTGGGGAGGACAGGGCCACTGCCCCTGGGAGTCTTCTTAGTTCAGTTGGAGGCCAGCTT
CCTGGACTTCTGAGTGGGATGGAAATGACACAGGGTGGACTGTGGGGAGCTTGGACCTCAGGGGTGGCCACGGAGGAGCCACTTGTCTCAGCTGGACAGG
GAGGGGAGAGGTCTGAGGCTGCAGTGGGGAGAGTACGCGCGTCCCAAACACAGCTCGACCCAGTGGGACCCTCTGTCTTGTCTCCTGGGGAGCTCCTTCC
AGTGCCCCGCTGGACCGGCCCCCATTCTGTCACCACTATACCCCAGCACTGCCAGGGCCTTTCAATGCTACCATTAATTCACTTACTCAGCAAACAAATA
ACTGCGCCCCCACCATGTGGGAGGCCCTGCACAGGGTAGTGCTGGGAGAACTGGACAAGCAGGGCCCCACCCTTAAGGAGCTCTGGGTTTCAAAACAGGG
AGACACTGATCCCAGAGCTGACAGCATGCTGAGAGCTCCTGGAGTGGGGGGCAGGAGCATGCTAGGCACGGGGCCATCCTGGTCTAGGCTCCTCTGACCA
GCCTCCCAACTCTCACCCACTGTCCGACAAGCCCCAGTGGGATGATCCCGGTACCTCAGTTGGAAATGCAGAAATCACCCATCTTCTGCGTCGCTCATGC
TGGGAGCTCTCACTAGATGCCACAGTCCAGGCAGGGGTGGGGGCTGTGTGGCTGGTCACCTCTGAGGTGCCACACTGGGGACATGCCTGCCCTTGCGTGA
TGTTAATCACCAGCTCCTCCTTGGTCTTCCTCCAGATTCCTTATTTGCCTTTCTGCCCCAAGATGCCCCCGTGAGCTCCTGCTGTGGCCAGCGCCGGGCC
TGAGCAGTGGGTCCTTGCTCCACCCCCTTGGGGCCCACCCTGGGCCCTGCACTCTTCGCTCCCCCTAGGTCCCCTGTCCGGACACATTGTGCTTACTCCT
TGTCCTCTGGTCTTGAGAAACGCAGATGGAATGTGGTCTGTGGTCATCCTGTGGGGCTGGAGCCTGGGTGGAGAGGACCTGTGGCCAAATTTCAGCCTGG
CTTGGGGCCTGGCACTGGAGGTGCTGAGTAAACCTTCGCTCCTTCCTCTGCTCGTTGGGGGCTGTGGGAATGTTGTCACCATTATTGATAGAAAGAGAAA
TAATGTTGTTTTGAAATGCTTCTCACCATTGCTGTTCCTCGAATTTTAACTAAGGATGGTTTGAATGGCATTTTTGTCAATTTAGAATTAATGATAATGT
CACTTCAAGAAGATGAAGGCAGGGGCCGCAGTCCAGTTCCCATCTCTTAGCCTGATGACCAGGGCAGACCGCACGGGAGGAGCCCRGGATACCCACGGGG
CAGGTGCCGTCCTGCTTTAGGGCCAGGAGAGGGGCTGCTGGGTGTCCCACACATCATTCTAAGCCTGATCTCGGTTTGAGCTCTGCCTGTGTGTGTGAAC
ATGCCAGTTTTGACAGCAGATGTAGACTACATTTTTTCTTAAATTCTACACGCCCAGAATAATAAACTCCCTAGCCAGCCTCATAAGGACATTTGTTCCC
ATCCATCTTAGGCTGTTACAAGGACTTGGTGAAACCATAAATCTTATTTTGGGAGGAGTTTATTGTTTCTATGCGAAAGAAATGTAGTCTTCTGAACATG
ACTCTTCATTCTGTTAATTTGAATATTTTATGATGTTTTTGATTAATGTGTTTATTAACTGTAGCTATGACAGAAGCAGAAATTAGTAATCATGACCAGA
GCTGAAATCTCTTCCAAGTGTAAAGATGATGAATGACTCCAATTACTTTTGGCCTCCTTTGGTGCCTCTTTGACAGGGTCTCCTGGCTTCCAGCTGAGGT
ACATGGTGGGCCCTGGGTTCCTGAAGCCAGGTGAGCGGCGCTGCTTTGCCCRCTACCTGGCCGTGCAGACCCTGCAGATTGACGTCTGGGACRGAGACTC
CCTGCTGCTCATCGGATCTGCTGCCGTCCAGATGAAGGTAGCGGCTCTCTGGAAGGACAGGCACAGTGGGTGCTGCGTCCCTCATGGGACGAGTCACGCT
TCCAGCGTCTGTCTGCTTGGAAGGAGCGGGCGCTATCCCGCACAGGACTTGTTTGACCTTCTTTGTTCACTCGTTAAAAATAGTGCTGCATTCTCTGTTT
CTTGAAAGGAAAAGATTTTTCACTGTCTGAATTCTATAATGCTAGTTGTTTGCTCAAGAAACTCTTAAGATCAAACTCAGTTATCTATTTCTCCTGCAAA
CTGACCTACCAGGCAGTGTCACTTCATCTCCTCCCATGTGGTGAATGTGGTGAGGGCAGGTGCATCCGAGGTGGGTTGAGGATGAATGAATGGATACGCG
AATGACTGGGGTGTGCAGTGTGACCTGATTCCTAAGGTCAGTGACGTGTTGTTCTTTTCTCATTCTGGTGAAAATTAGAATCTCTTTTACTAATTGTCCT
TTTCCATTCTCCTTGTATACTAAAACCTAAATCCATGGATTCTTTCACTCGTCTTCCCTGGAATTCTTCCCAAGCCTTCTCCATTGTATGAAGGGGACCC
CATGACAACTCTTGGGCCAAGGACTGGGGCCAGTTTCACACGCTACCATGGTGTCCTGAGACTTCTCTCAGGCCACGGGACGGAGCTGGGAGAGGATGTG
GCGTCATTATTGCAGCCCCTGAGTCTCTGAGATTTCCCCACTTTTCTTGAGTGCCGCATAGCTGCTTTCCTCCTGGATTCCTGACACGGCTGAACCCCCG
GGGCTTCCTGTCCYCTCCAGCAGCTGCTGACCCCTGAGAAGCACGGCTCCTCTGCTCCTTCAGCTGCGCTGTGCTCTCGGGGTGGGGGGATGGGGTATGG
GAGTTTTTCCAGCTGCTCTTCCTCTGAGGCATGGTCTGCTCTTGGCTCCCCGTGTGACCGACTGATCCAGGCTCCATCCCTGCTCCCTGTGACTTCTAGA
GGAGGGGGATGCCCCCCAGGGTGGTGGGCTGTGCACAGAACGTTCAGGGTGGGGTCTGCAGGTGGCAGGGACTCCGCAGGGCTTGGCTGCTCTTCTCATG
CCTCACCCTGGGCCTCTGTTCCTGTTGGGGTCATGGCAAGGGCCCCACAGGGTCATCGTGGCCCTTGCTTGTCCGTCTCCCATGCTGGCTTTGATGTCCC
CAGGGCAGGACTGTGTGTCGACACCACAGCATCTCTAGCACAGGCCTCAGCCCCAGCAGGCTCTGCATGGTGGGGAGGCGTAAAGGAGGCAGGCGGTGTG
GGAGGCAGAGCCRGGTCCCGCTGGGCATGTGTGGGGTGGCAGTGGCTCCCCTGTCGTGCCCAGCCGAGCCTTGTGCCCCCTCTTTGCTGTGCCACCTGGA
GACGGAAGCCATTTGATCTCCCCCTACACGAAGAGCCCCTTAAACAAGTGCCGTTACGCTTGTTGACATAGACTTGAATAAATTAAATTTAAAGCTTCAC
TTTTCTAAAATAAAATCTTGTAACTTTAAAACTTAGGTAGAAAACGTGAAAAACTGAGATGATCAGAGAGAATCCTCTGGACTCCAGATCCTGGGAGAGT
TAGGTTGCTCCGGTTAGCCTTTGGTGGACTTACTTTCTGCAGGCGGGGCCAGCTTTCATCTTGTTTGAGCTCTTGCTGTTGCGGGTCACTACAGTGGCTT
TTCCTTCTGCTAATCACTGCTGTGGACTTCTTGAAGTTCAATTTTACCCCCATCTTCTAGTTGATTTCCTGGGGGTGCTGGCCGTAACACGTTGCTACGA
CGATGAGAAGAGTTTCCTCTAGGGACGGACGGCTCCTGTGCTGCCTTCAGTGTGACCCCTAGCCCAGCCCTGGGGCAGTTCTGTTTTTATCCTTGTTTCT
GGTGGAGAAAACAGAGGCCCAGGGTCACACTGATGATCATCAGGGCRGAGTCTTAGCCTAATTCTGTCTCCGGGGCTTGTGCTATTTACCATCCTCTTCT
CCCTAATGACATGTTCCCRGAAGTAGAATTCTGATGGTGCCACCGTGAGGGCCGCAGGCATGCAGAGCCAGATGGGGGTTTGGCCCGAAGGCTCAGCCAG
GCCTGCACTTCCTGAAGACAGAGGGCACTGTGTCCCATGTCCTTGGCTTCACAGTGTGTCAGCCTTTAAACCAGTCGCCAGTGGCCATTTTGATAATGAT
TTGGGAGGAAAATGGTGCCTTGTTTTCATTCGCATTTCCTTGCCTCTTGGAGAAGCTGACATGGTTTCTTGTATTTGTTGGCTGTTCYCTAAAGGAGACT
TCTCATATCTTCTCAGTCTCCCAGTGACTGAGGTTCCGGAATCATCGATGTCTATGCAGTGATCGTATGCAGTGTAGACGAGTGTGGCAAAGCGACCAGG
GTCTGCGGCGACCGGAAGCCCCCAGACCCACAAGGGAAGGGTCAGGTCTGGCGTCTCACTCCCAGAGACAGGCACTTTTGTTGCTGTAGAAACTGGAGAA
TTACAAAATCCGGAACCTCATCTGCTCCCACACTGCTTCTTATGTGAGAGGAAGCACCAGAGCAGAGAGGGCACGGGGGAAGAGTGTCCCAGCCACGCCT
GGGGCACAGCCGTGAGGCCGTTGTCATCCCCCACATGCCTCACAGTGTTGGCGTTCGGGCAGAGTGCTGAGCCGTGGAATCTGATCAGCAGAAGAGCCCG
TGGTCAGGAAAGTCCTGCTGAGGCCCTGCTGGGTCTGAGGCTTCCTGCTCCCACCCTGCCCCGAGCAGCCTCGGCCTGGCATGCAGAACTGGGCCAAACC
CCAGCCCAGGGCTCCCGGCGGGCCTCTCGTGCCCCATGGCCCCTCCCTGGGCCCCACGGGCCTCTACCCCAGCCATGCTTCCTGGCCCAGGGAAACGGGG
GAGGCATTGTACCCTGTACCCTGTGCCCTGTGCCCTTGGCCTGGCCTGCCTCCCCGGCCTTCTCTGCCTCCCCTGCCCTCTCTGTGCATGGCCTGTCTTC
CTCCTGGAGTCCCATTGGGGTTTCCGTCCTGGATTCCTCGCTGTCCCAGACACGCTTGGCTAAGAGTCCTTTGCGTTGCTTGGCTGCCCTCTTTCCTGCT
CTTGCTTCCTGTGGAGGGGAGGATCCTCCAGGGCAGCTGCCAGACCCACTTATGCCTTCCCAGGGCCCAGTGGTATTTATTCAGTGGGTAAATCCAGTCA
TACTTTACTTAAGACTTTGTGAAAAAGACCCCAGTAATAAGGAGTCCTGCTTTAAGACGTTGGCGCCTGGCTCGCCGCCCCCTCACCCCCCAGCGTGGTG
CAGGGTCTTATCCTGCGCACACCCCCTCCCGCCCACAGTGGCTTTCCTGCTGGGCTGGGGAGCAGCCTCCACCTGCAGGGCTGGTGGAAGCAGCCCAGGG
CCGGCTCCAGCCTCTGAACGCGCTTTTCTCTTCTGCAGCATCTCCTCCGCCAAGGCCGGCCGGCTGTGCAGGCCTCCCACGAGCTTGAGGTCGTGGCAAC
TKAATACGAGYAGGACAACATGGTGGTGAGTGGAGACATGCTGGGGTTTGGCCGCGTCAAGCCCATCGGCGTCCACTCGGTGGTGAAGGGCCGGCTGCAC
CTGACTTTGGCCAACGTGGGTAAGAGTCCCCAGCCTTGTGCCATTTCTCCAGCGGCCGCCCAACCCCTCTGGTAGAGTGTGGGCTCCCTCGGGCAGGGGC
CACATCATGGGCTTCACGGGCCCAGGAGGAAACCGGGAGAATTCTCACCAGCTTGGCCATGGAGCCTGTGTCCTTGGCCGCTGAGTCTGTCCTGGACCCA
GTTGTTTGCATTCTGAATTTCTGATTGGGGTTAGAGGTCATCAGTCATCTCGGGCTCTCCTGCATGTTGTTGTTTGTTGCTATCCCTGGAGGATCTCCGG
GACAGTCCTCAAATACAGTGACTGGGTTCCAGGAGAGACTTCCCTGTGCCTCATGATGGAGGACAGACAAGGGAAGTGTTCCTAACTTCCCTGCAGCCCG
GGAGGAGGAGAGTGGAGAGGCGCATTTCTTCTCGGCCCAGCACCATGACTTTGTAGAAAATGGTGCCCCGGGATTGCTCGTTAGAGGGCCTGAGCAAAGC
CCTGGACTTCACTCCACGTCCAGGACTGTGGTGGGTGGGACAGGTGGGTTGGGTGGCTCAGGAGGGTCCCACCTGGGACGTTCCAGGGGCTTCGACTGAG
GCCTATGCTGGGATAGGGGCTGCTGATGGGGTGTCAAGGGACACAAGGCTGGGTGCCTGCCTGTGCGCACCTCAGGGCAGAGGACCGACATGGGACCCTG
TAGGGCCAGTGACAAGCTCACTGAACCTCCCGAGGGTCCTCTGGAACGTTTGGGATTTTTCAGGGCAGAATTGAAAACACAATAAAACTAAGCCGTGTGA
TGTTTCTGAAGCTGTGTCTGTCTGCATGAGATTCAGACTTGTCTGCTATTTTATTAGGGAATTTTCCACTCCTTAGAACCCAGCCTGATTGTAAACCCCA
GAGCCCCATGGGCCACATCCACCCGACGCTGGCAGCGCAGAGGTTGGTGGGGGGCCTGGCGGAGGGGCTCAAGTGCACAGCTCGTTAAGTCGACTTGGAG
GCTCTGCCTGCCTGTTTACGAATGTACATCCGAGGCGGCCTGGTAAATAGACAATATGGACACAGCAAAACTCAATTAGGTTCTGGAGAAATAAATGAGC
CACATGTGAGGAGCAGGCATTATTCAAAGGCTCATGCAACTAAGGGAGTTGCAAGAAGCGTTCTGCTCTGAGACCGAGTTGGTTGTTTTTATATTTAATT
CTCCAGCCACCAAATGTGCAGTGACTCCAGGTTTTAAAATCTTATCTTCAGAAGAAAGATTGCCTCCATTATATGTTATCTCCAATTGTCATTTTCATAC
TTTGCCTGCAAGAGAGAGATAAGCTCATAGGAAGGGGAGGCTGAGATAGCCAGCCTGGGAGACTCCGGCGCTGAYGGGAGAGGGAGAGGTTTTCACAAAG
GTCGAATCCACCCGCAGCACTCTGCGCATCAGTGCAGCGAGCCTGGCTCTCCTCCGTCAGTTCTGCGTTTTTTGGAAAAAAAGGTGTTATGGCTTTTCTT
TCTTCATAAAACTGGCTATTCTGTGGTACAGTAGGCGTCTCTCTGCTAGCAGCGTGGGTGCTGGCCATGGAAGCCTGCAGGGTTACCGCACGGGACAGAA
CCTGAGCCTCGGCCTCGGCCTGGATTCTGCTCTGGGCCAGCTGCATTCACAGTGCATGTTCCTGTCTGAGGCCACGCAAGGAAACCTGTGCCATGGCTGG
GGACATGGGTGTCTGCCAGCTGGGCCCAGGGCCCTGGGACTCTGATGATGGGGAGAGGACTGCCCTCATGCTTGGTGGCTGCTTCACACAGCTGATTTCC
TTGGCAGCCTCTTTTGCACTGTCTTTCGGTCAGCTTTTGTCGTCCAGGGACAGCAAGCACCAGATTGCTTTCTTTGATCCCAGTGATCTTGGTTGTGGAG
TAGGATGGGTTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGCGGCGTAGGATGGGCTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTAGAGTAGGAC
GGGGGTTTTTCTGGGAGCTTGGGCACTTATCTTGGTTGCGGAGTAGGACGGGTTTGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTCRAGTAGGACGGGG
GTTCAGCTGGGAGCTTGGACAGTGATCTTGGTTGTCGAGTAGGATGGGGGTTCGGCTGGGAGYTTGGGCAGTGATCTTGGTTGTGGAGTAGGACAGGGGC
TCGGCTGGGAGCTTGGGCACTGATCTTGGTTGTGGAGTAGGACGGGGGCTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGCGGCGTAGGATGGGCTCGG
CTGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGACGGGTTCGGCWGGGAGCTTGGGCAGTGATCTTGGTTGTCGAGTAGGACGGGTTTGGCTGGGA
GCTTGGGCAGTTATCTTGGTYGTGGAGTAGGACAGGGGCTCGGCTGGGAGCTTGGGCAGTTATCTTGGTTGTGGMGTAGGATGGGGGTTTGGCTGGGAGC
TTGGGCAGTGATCTTGGTTGTGGAGTAGGATGGGGGTTTGGCAGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGACGGSTGGGAGCTTGGGCAGTG
ATCTTGGTTGTGGAGTAGGACGGGGGCTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGACGGGGGCTCGGCTGGGAGCTTGGGCAGTGAT
CTTGGTTGTGGAGTAGGACGGGGGCTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGACGGGGGCTCGGCTGGGAGCTTGGGCAGTGATCT
TGGTTGTGGAGTAGGACGGGGGCTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTSGAGTAGGACGGGGGYTCGGCTGGGAGCTTGTGTGTTACTTGTG
TTCTGTGACCTTTCCTGGGGGAGGCAGGCGTCAGGACAGATGGCCCCACAGGCTAAGCGTCTGTGTTCTCACAGGACATCCTAGGAGAACTGGGTGGTGA
TGGGTTCTGACAGATGGCCAGGCTGTGGGGTCACACGGTTGGCGGTGGCGGGCTTTGGTCCAGCTGCAGGGCTGCATCGGGAGCCCTGTGTGTTTGGAGG
GAATTCCTGCCCCTGCAGCAAACGTGTTGGTGCGGGTGTAACCTGTTTCATGGAAGGTGAAGAAAGCCTGCACTAATTTAACATCCAAGTTGTGCCCTGA
TGAAATGCAGTGCCTTTGCCGCTTGTYCCCTTCTTGAGTGAGCATGCAAGTGTAAATTCAGCTTACCTGGTTTATTTTCCCATGTGCCCTAAGTAGAAAT
ATAGTAAGAGGAAACGGTCATGAAGCCCAGCAGGGTTCCGTGTCCTGCTGGTCACACCCGCTGCAGCCATTGTCATCATTAGGTGTCCTTCGAGTCTGAG
CTCCAAGAATGCTGGTCGCCTGCCCCAGGCCCAGTTGGCCTTGCCACACTCTCCTTGGTCTCTTAGTACTTCTCAGGGTGGTGCATAGTACAGGCTTAAA
ATAGACCAGTGCCCACTTCAGTCAGATGTGGGTGGACCAGAGGCCTCGTCTGCGATTCAGGGAACCATTCGCTATCAGATGAAGGTGGTCGAGAAAGCTA
TGGAGCATTCTGGGCTGCCCCGGGTATAGGATGAACCCACTGCAGCCCACAGTGAAGGGAGGTGCCGGGTGGAGGATGAACCCACTGCAGCCCACAGTGA
ATGGAGGTGCTGGGTGCCTGGGAGGCCCCTCCTTCTTGGAGCAGGTCCTCGGGACGTGACAGAGAGCTTGCCAGGACTGCCAGCCCGTGAGCTGCTGCCC
CTGCTGTGAATTCCCGTGGGAAGAAACACACAGCAAGAAGCTGGGACAACTCTGAGCTTGTGAGTGGGAAACTGAGGCTTTGGGGCTGGTGGCACTTTCT
CCCCATCATGTGGAGGGCAGCGTGGCCCGGAGCGTGAACATCGGTGGCACTTTCTCCTCGTCATGTGGAGGGCAGCGTGGCCCGGAGCGTGAACATCGGT
GGCATTTTCTCCTCGTCATGTGGAGGGCAGCGTGGCCCGGAGTGTGAACATCAGTGCTGGTGCCCGCAGCTCTGGCCCTGGCACAGGCAGGCTGGGCTGG
TTCAGGCTGCCGTCCCTTCCTCGCCCCAGCCTGCTTGTTTGTCTGCCATTTTCCCACATGAATCTGGGAAGTCTTTGAGGACCCTGATCGTGGCTTCTTT
GTAGTGGTGTTTGCCCTTGAACCTGGCGCCGTGGTGGAGAGAGTGATGAAAGCGTTGATAAGAAGCCTGAGTGCCCTTCTCACCGGGAGCCCTGTTCTTC
CTGGGCTTCAGAAGATACAGCCCATCATGGGGCATGAACATCTGTTCGTGTGAAGGAGCGCTGATCTGGGTTCCTTTCTTAGGGACGAGGATCTTGATCC
TGTGACCACGAGTTGTCAGGGCCAAAAACGGATTCCTGGCAGGCGAGAGGAGGGTGTTTGGGCAGAGGCTCTGCAGCCTCCACTGGGAGGGTGCAGGCTT
TAACTTGAGGGGAAGCTGGAGACCCCTGCGAAGCATGTGGGAGCAGAGGTGGCCATGGCGGGCAGGACAGGAGGGAGGGTCTGAGAGCAACAGGGAGAGG
ACCGAAATAGCCCTTGTYCTAGGTGCTCGTTCCCAGGAAGCTGGCTTGGAGTGAGGACTGAGTGGACGCTGCAGSTGCCAGGAGGCGGTTGGTAGCCCGA
AGGCAGAAGCACAGTGTAGGGCATGTGGGCGACATGGAGGCTGCGTCTTTATGGGGATGTAGCAGGGACCTGGGCCGAGGGGGAAGTCAGCACGGCTGTC
CTGCTGCACAGCATGGTGCTGACGTCGAGGTCAAGGAGAAAGAACAAGAGGCGGGGGGTGTCAGCTACTGGGACATTGGCAAGAACGAAATTAATTCCCC
TGGAAAGAGATGGCTGGGTAAGCGCACCACTGAGAGATGGCTGGGTAAGCGCGYCACTGAGAGATGGCTGGGTAAGCGCGCCACTGAGAGATGGCTGGGT
AAGCGCGCCACTGAGAGATGGCTGGGTAAGCGCGCCACTGAGAGATGGCTGGGTAAGCGCGCCACTGAGAGATGGCTGGGTAAGCGCGCCACTGAGAGAT
GGCTGGGTAAGCGCGCCACTGAGAGATGGCTGGGTAAGTGCACCACTGGCCTTTCTGGTTGCCACCTAGGGCGTGGGAGGAGGCAGCCAGCCTTCCCATC
CTTCGCAGTGACGGCTGTGAGCGTGGCCGTCAGAACCTGGCCTTGAGGGCCGAATTCTCAGCACAGGTGAGCAGGCGGCTTGACCCTACAGCTGCCCAGA
GTGAGCTTTCAAGCTGCCTCCAGGGATGGCGCTGAGCCAGGGAATTCTGCATTTGTGCTCGTGCGCAGACAGTAGGAGGCGGCCAACGTGCCAGTGCCTT
TGCCATAGTTGCTTTTGGAGCTTCAGTTTTGAAAGAGCTTACAAAGACTGAAGCAGGGACAGATGACCAAGAACAGCTCGTCTGCAGGAGGTGGCAGGAA
GGCCAGCCTGGCTTGGACTGAGATCCGGAGAGAGCACTCAAGATGACCAAAGGAACTTAAGAATTAGGAGAATGTGAGTTCTTTGAGGGCAGCAGGGATT
GTTCGCTGCTGCGTCACCAGCTTTCCATCTGTCTGTGAAGTGAAGCTCTTCTAGAAGTTTTCTAGAGATTGATTCCAGGCAGTCTGTGATTTCTAAATCT
AGCCTCTCTCTACCACCACATCGGGGCCTTTGCCCTCAACAGCCCTTTTTGGGGGCTGGTCTGCTGTCCCGCCAATGTCTTTGGTGTCGCCAGCTGCGAT
TCAGTATCTGGCTTTCAGGTCCTTTCCAAAATCCAGGCGCTGTTCCCTGGGATGTAGAGGGGCTGAACTCAGGTAGAGCAGCTCGGAGACCTGCCTGGCT
CCCTTGGTAGGACGGGCACTCCCTTTCCARCCTCAGCTCAGACCCATTCTAGAGAGACACCTCCGTCAGCCAGCTCTGGTTTTGTCACCAGGAGAACCTG
GGTTGGACGGAGGATATGGCTCACCTCCACAGGTGCCTGCACGTGGGCGTGCTCCCAGCACTGGGCTCGTCCTTGAAAACAGCAGCTTCTGACGGGCAAG
AGGGGAAGGAACCTGGCGCAGCAGGTGGATCTGCTGCAGCCAAGGAGGGACCTGGCCAGTGTGGAAGTCCCTCCCTCCCCTRGGGCTGAGGGTAGGCAGG
AGTGAAGGGATGCAGAGAGGCAGGAAGCCCAGGGGAAGGGGTTCCCGTTTTTAACAGCTCCCGGGAAAATGGTGAGGACATCCCAGGCCCGAGGGCACTC
AACACTGCCTCGTCGGAATTAAGGAAATTGATGGCACAAGCATTTTGTGCGTACCCTGGGTGGTTCATTTTGGGACACAGCTTYGTTGGCGGTGCTCTGC
CTCGCCCCTTGGGGAAGTAAAGGCCACACCGAGGTTGTGGGTCCCATCCTTGCAGGAGAGTGTGCCGTGGGCAAGCACGGCTTCCCCCAGGACACTCAGG
TTTGCAAGTTGCAAGTTTGYAGGGTGCCACACCCACCGGCCGTGAGACACGCTTGTCCCGAGGCCACACCACTTGCTTGCCAAAGCCTTCTGTTATGAAC
ACAACTCTGGTGAAGGCTCCAGTTTATGGGGGCTCTTTCACCCTGGGTGTGTGTGGAGCCAGACATTTGCACGTGTAAATGCACACAGGCCTATCCTTGA
TCAATGTGGCCATCGAGAGGCCGAGGTTAGAGTTTGTGAGGCAGCCCGCCTTGCGACCCAGAGATCCAGAAGTAAGAATCCATGTGCAGCGAACTGTGAG
TGCCACACGCTTTCATTCGTCACCAGGAAACGGAGGCTGCCACTGACACGGCAGGAGAATGAAGACCTAGCTGAAAGTTCGCAGCAGAACGAGCTCCCAC
CTGTCTCTCAATTGCAAAACATTCAAAACAGAGGCGGTGGGGCCTTAGCGTGTCAGGGTGTAGATAGGCCATTTGAAAGCCACAGCCGCTTATGTGGTGG
GTTGATCTGTTTCATCAGATTCTCATTTGGGGTTCATGTCTTATGTTGGGATGTTTTTCATGTAGGTCACCCGTGTGAACAGAAAGTGAGAGGTTGTAGC
ACATTGCCACCGTCCAGATCTYGGGTCATCTCAAACGATGGAGCCAGCCGCTTCTCTGGAGGCAGCCTCCTCACGACTGGAAGCTCAAGGCGTGAGTTTA
CACTGTTGGGCCCATGTGTGGGTGGGTCGTGAGTGGTGGGTGAGAGGTGGAAGACTGCGTGTGTGTGTGTGTGCATGCGTGTGTGCATGTGTGTGTGTGT
GCACCATTCGTGGTGCTGTCAGTGCCCCTCTGCGTCTAGGACGGGACTGTGCTGTCCATGTGCAGGTGGGTCATGAATGGCGTGTGAGAGGTGGAAGGCT
GCATGTGTGCACGTGTGCGTGTCTGTGTGTGCATGTGTGTGTGCGTGTCTGTGTGCGTGTCTGTGTGTGTTTGCGTGTGTGTGTGTGTTTGCGTGTGTGT
GTGTGTTTGCGTGTGTGTGTGTGTGTGTGCACCATTCGTGGTGCTGTTAATGCCCATCTGCATCTAGGGCAGGACTGTGCTGTCCATATGCAGCTCGGTG
CCCTGGCTAGATGCCCCTGTGGACCCACAGGCCCCACCGAGCCACCACATTGATCACACCCTGGTGCTCTAGGCTGGGCTCTGCAGGCGACTGTGCTGTT
TGGAGAAGTGGGAACCCTGCCAGTGGCATTTGTGTCTGGTTGGCTGCTCATCTGCAAGGGAAGGAGAAATGGAGAGAAGGTCAGGAGGAACATAGACTGA
TTTTCAAAACAAGTTGAAGTCCCCTATGTTGTGAACAGAAGAAAGAAGCCAATTATGGAGCTTGGGAAAGAAAGACCTGGTTTGGAGAGGAAGACCTGGG
TTTGGTGAAAATGTGTTTCACAGCAGGGAGGCTCTGAAGTTTTTCTATCCCCTTAAAATGTAAGGCCTCACAGACCTGAGTATAAAGTACTTGTCATTTG
AATTACAAGTGGGAAGTGCTCTTTAAGGAGCATTTTCCCCAGAGGTTGCAGATCATCTGTGTGAATTCACAGCTGCCGTGCGCTTTTGTGTGTTGCTGGG
CCTTGGAGCTGTGGCTTGTTAGAGGTGGGAGGGGCAGTTAGAGGTGGGAGGGGCCGTTGGGTTCCCTCCTGCAAGGCTTCCAGGATCCCACAAGGCCCCT
GAAACTCTGGGTAAACTTGTATGTTCTCCCTGGGAGCAGACATGAGGGGCTCAAAGGGATTCATGATCCAGGCAGATAGAGTCTGTTGTTCTGGGCCAGC
TTCCTCATTGTAATTTTGAARAAACTGAGACGAAGAGAGGTCAGGTGACTTGGCCAGTGCCGTGGCTAAGGGGTGAACTTGGCTTAGAATCTGGATTCCC
TGCCCTGGGGTCAGTGCCCTTCATCCTCAGCTGGTCCCACAGACCACCTAGAGTACGGTGGAGAGCCAGCTCCTTAGAGAGAAGTCCCTGAGCTCCAGGA
GCCAGGCTGAGGTTATTGATAAAACCCTGCCTCCAGGCGCAGCAGGTCAGGAGCTCAGCTGTCAGGGAGCAGGAACCCAGAAGGCCTTGCTGAGACAATC
AGAGGCCCTGAGGTCAGTGATCCTCCAGACCCTGTTTTGCTCAGGACCAGGACAGGAGGTGTCCCTTAAAAGCACATGTCTCACCCATGAGGCAAGGCTC
TGCAATTAGCAAGTTGCACGAAATTTTAAGAAGGTTCTCAGTGCTTCGTGCCTTACCCCAAGTGCAGTTTCACGGTCACTCTGTAACTTTCTTTCTGGTT
TCATTGGGACCACGAGAGGTATTTGTTGGGGTGATGCAATCTGAAAACTTGAGCTCATGATAAACCCCAACTTGCGCAGGCCCCAGGTCCCTCCACTCAC
AGCCGTGGCTKCAGGTAGCTCAGACCAGGCCTGTGCCGGAGACTTGTAAGAGCCACGCGGGGCATCTGCAGAGCAGTTTGCCGGCRTTAAAATTGGATGG
TGGTGAGGGACCTGACAGTGGCACTGTTTCCTTGTGAGAAGGAGGCGGGGGTCACGTTGCTGTCCACTGTGTGGAGGCTTCTGCAGGGGGTGCCCATGCC
CCATACAAGTGGAACCAGGCTGRGAGAGCTCGGGCTGGCATTGGTTTCCTGTGGGAAGTTTCTGCTGGTGCCAGAGAGTGAGGAAGGACCCAGGCCCTAA
GCTGGTAAGCTGGGGCGCCTCTCAGCTGCCCTGCCTGTGCCGGGCTGAGCGATTTTCTGGGAGCCTCATGTGTCAGCCTTTGGCGTGGCCTGGTCACCCA
GCACAGCCCCGCCCGACACCCCAAGCCCCTGCTCTGTGTCGGAAGGAAGGGCCTGGCCCATCCAGTAGTGGCTGAGCCTTTGCCTGCCAGTGCTTGACCC
TGTTCAGCTTCTGTTGGTTTGCTAAATGAGTCATTGTGTGTCCCTGGTTTGAGTAGGGCCACCCCAGAGGAGGCGGGCTGTCCTGGGGGCCAGGCAGTCC
AGGGTCAGCTGGGATGGAGTTGAGAGCAGGAGCTTGGGGGCCAGGCCTGCTCTGAGCTTCATCGCCTGCCCCCCACTCACTGAAGGCCTCCTGCCAAGGG
GACAACCCCTTACCCCCATTCCTGATCCGAGGGGCTGAGGCCAGCAGCCCTGGGTGAAGGCATTAGTGGGCCCTTTAAGATCCCGAGAGCATGGGCTTCT
AGAACGTGGCCTTCTTCCCTAGAAAACCCCCTGGTGGTGTGTTGACAGCGTTGGATCTAAGGGCCAGAGTCAGAATTGCTTTTAATTTGAAGGCTGAGGA
AAGGAGGGGATGCTGTGGAAACCAGGGTATAAAGTTATCATCTTTATCTGGATCTCAGAACTCTGCAGATTGGAGCTGCAAAAAGCATGAGCCGCACTCT
TGAGCTCCCTCCCTATATAGGTGGTCCTGGGAGGCCTGCCCTGGTGTCTGCKCCTGGAAGGCAGACACTGCACRTCTACCTGACTCGCGCTCTGACCCTT
TCGCAGGAAAACACGTGGTGCAAGCACAGAAGCTGGCRGACGTGGACAGTGAGCTGGCTGCCATGCTACTGACCCATGCCCGGCAGGGCAAGGGGCSCCA
GGACGTCAGCCGCGAGTCGGATGCCACCCGCAGGCGTAAGCTGGAGCGGATGAGGTCTGTGCGCCTGCAGGAGGCCGGGGGAGACTTGGGCCGGCGYGGG
ACGAGCGTGTTGGTAAGGGTTTGTTCAGCTGTCACTGTCCTGGGATCTCCATGCAGACTGAGTCACTGTGCACRTCCTTTCCCTGCCTCCCACATGATTC
TCTCTTACCTTCCTCCCAAATCCTGGGGACAGAATATAAGAAAATCGGACTTTTTCAGCCACCGGGGGAAATCTTTAAGTGAGAATTATCTGGAGAGCTT
TTAATAAAAGCCAGTTCTTGGGCGTCACCCCTGGAGATTCTGATACTGATTGGTGTGGGCAGGACCCCTGGAGCCTGGGTTTGAAGAAAGCTTTGCAGGT
GATTCTGAGGCTCTCCCAGGTCTGGGGACCAGAGCTGTGAACAACTGACATATCCTGGGTTGTCAATGTAATCATTCTGGCTAGAAAAATTCCCCTTTTT
GGCTGAAAATCTAAATAGAACTTTTAATATTTTGCTACTAAGAAATGGGAGGTGAGAATGGTTGTACCTCCTGGGTTCATAGAAGTCGGGAACCACAGGG
GCCTTGAGAAAGATCTCCTGAGATTCCCCCTTGCATGTAGGTAGGCCGGGGTCTGAACAGAGGTGGCCCTTTTCCTGACAGTAAACTCAGCAGGGCTGCC
ACTCAGCCTCCCTGCCAGCAAGGCGTTGGTGCTCAAAGGTGGATGCAGACGCCTCGGTCCCTCCCTAGGCTCAGTTCAGTCTGATGGGGCGAGGAAGAGG
CATGGTGAGAAGACACGGGGTGAGGAGGCCTGGCCTGATCCCACAGGACTGGTGGGCTCAGTGGTCAGGGAGGAGGGAGGGACTAGAGGGAGGCCAGGGC
AGGGCCAGGGCATGACTGGGGCCTCCTCCCAGGCCTCAGGACACCCACCCCACCTCCCTCCCTCCCTTCCTCCCTCCCTCCCAGCTGGCAGGGCTTGAAG
CTGTGGCCTCTGGAGGCCCCTAGCCTGGATAACCTTAGCTCTGTCAGCATAAGCTTGGAATTGAGGAGCCACTCTCAGCCCTATCCCTGTTTCTCATCCT
AACTCATGTCTGGCCCCATCGTCCAGCACAGCCTGTCAGAGGTTCCACTCCTGAAAAGCTCTGAGGATGAAATTCTGATGGAGGCCCCAAGTGTGAAAGG
CCAGCTCCAATCCCCCTGCAAAGGAACAGCCAGAGCCTTGGATGTTGGAAAGTGAATGTCCAAAGTCATTTAAGCCAGAAATCAAATTTTGTCCTCACCT
TTTGAGTTAAATCCTGAAAGCACTGAAGTCAGCCCATCTCTCTGACGCCTCAGCCTCCTCTGTGTTAGACAGAAGGTTCCCAGCGCCCGGCCGCAGCGGC
TTCTTGGAGTAGCTGCAGGCTGGCTGACTCCCCGGCATGGGGGTGGCCCCTTCCAGGCCTGAGATCTTGCAAGGCAGCCTCTAGTGGGCCTTACTTTTTC
TTGTAAGTCCCACAGGAAAAACAGGCCAGTCTCCAACCTGTAGAACCCATGTGTGCTGGCCAAGCCCCTTGMGTCCCTGCGGCATCAGAGCAAGSGGGTG
GCTGAGCCTTGCTGAGGCAGCGTGCTGCTTGCCTGGACTCTGACCCGGTGTGACCGAGACTCAGCAGGCCGGGGGCATGTCCTCTCCTGTGGACGCTGGG
CCCAGGCAGGGCTCCCAAAGTTGTGTTGGGGACCTGGCTGGTGAGGCCTGTCACCATAGTTTTGAGGCCATTCTTTTCTCTTGTTTGAAACTTCTGATTC
TCCACCGTGCGGGGGGCCAGACTCGTGTCTGTGAAGAGTCTCTCAGGAATAGGCAGGGATGCTRTGTGGACCTCCGTGTCAGGGACACAGCCAGCAGATC
TCTGTYCAGCACTGCCTGAGATCCATGCCTGGGCGGGGCCGGCCAGTTCCACCCAGACCACATGGTCAAGGAAGGGGGTGGTGGTGGCGATGCTTGTGGA
GAAATGTCCTCTTCTGAGATCGCGGGTGGTGGGCAGCCAGCARTAGCCCCTTGTGGAGGAGAGTGTGCCTGGGACCCTGTCCACCCATGTCCTCTTGTCT
GCWGGCRCAGCAGAGCGTCCGCACACAGCACTTGCGGGACCTACAGGTCATCGCCGCCTACCGGGAACGCACGAAGGCCGAGAGCATCGCCAGCCTGCTG
AGCCTGGCCATCACCACGGAGCACACGCTCCACGCCACGCTGGGGGTCGCCGAGTTCTYTGAGTTTGTGCTTAAGAACCCCCACAACACACAGCACACGG
TGACTGTGGAGATCGACAACCCYGAGCTCAGGTGAGGTCTCAGTGGTGCCCGTCCTGCCCCAGCCCAGATCTGTGTCRGGTGCAGCCGGCACCCCTGCTG
AGCTGGCTCGAATTCTGCCCGAGAGCCRGGGCGATTTGACTTCTCTCTCCCACTCCTCTGAGCACCGCTCTCGGTGGGTGGGACCGCAGCCTCCTGTGGG
TCCTCCTGGGAAGAACTGCCCTGAYGCCTGGACACTGCCTCCYCCAGCGTCATCGTGGACAGTCAGGAGTGGAGGGACTTCAAGGGTGCTGCTGGCCTGC
ACACACCGGTGGAGGAGGACATGTTCCACCTGCGTGGCAGCCTGGCCCCCCAGCTCTACCTGCGCCCCCACGAGACCGCCCACGTCCCCTTCAAGTTCCA
GAGCTTCTCTGCAGGGCAGCTGGCCATGGTGCAGGTGCGGGTGTCAGGCACACAGGGAAGTTGCRTTTGGCTGAYGACGGTGGGAAATTGAGAATGCTTC
CAGTCTCCACCAGTGTCCCTCCCTTACCTGTGCAGACAGACTAGCCTTGGGGCTGCCGCCCACTCCCCTTGGTGCTCAACAAGAGCCCTGGCATGTACAC
TGCAAGTGGCAACCAGCCCCTTCTCTTTTCCAGCCTGATGGGTGTCGAGCTGGACCATCTCCTCCTAATTTTCTTTACTAAGTTGGTTGGAAGGGCTTCT
TAAAGCCCAGTGAATCTAATGGATTGACRTTTTCTAGCATCTTCTTTCCAGTTAATGTTGTTTGGTCCCTTCCGACTGCAGCACTGTCTGCTCTATGCAA
GATGCAGCTTTGCAGGCATGTGTGCGGGGAGCATGCGTGCAGGGAGCATGTGTGCAGGGAGCGTGCGTGCAGCAGGTATATGTGCAAGAGGTATGTGTGC
AGGATGTATGTGAGGTGTGTGTGCAGGGGCGATATGTGAGGTGTGTGTGCAGGAGGCATGTATGCAGGGTGTGTGTGAGGCACGCGTGCAGGAGTTGTGC
GTGTAGGGGTCTGTGAGATGTGCAGGGAGTGTGTGAGGTGTGTGCAGACATGCAGTTGTGTGTGTGCAGGGAGTATGTGAGGTGTGTGTGCAGGTGTGCA
CTTGTGTGCAGGGGGTGGTGTGTGAGGTGTGCCTGCAGGGGGTGTGTCATGCCCGGGTGCGTGAGGCCGGCATGGGGTGTGGAGTGTGTGTTTCAGCTTT
TRACCTTTTGGGGTCAGCTCTCTAGGGTGGTGGTCATCGCTTAAGGTGGACTTGAGATGTCCCTAGAGGCTCACTCACAGGATGCCATGCTGGCTCTTGG
GATGGGCTGTGAGGACTGCAGGTGGGACCTCAGGCCTTTGGCTTCAGGCAGAGCCGGGTTTCCACCTGGGATCTGCTGTTCCCTTTGTTCCTGGCAGCCT
CAGCCTTCTCTGGCACAGTGAGGCCGGTTGGTGAYGGTTGCTGCCTGGAGAGTCAGTGTGAGAGGAGGCTGGTGGCTCCCAGCTGGGTGGCAGTGGTGTC
TCTAAGCACAGGTGCTGGTCGCCTAATGGTGTTGCTTCCTGACCTGCTTGTGCTGTTYGGTTCCTGCAGGCCTCTCCTGGSTTGAGCAACGAGAAGGGCA
TGGACGCCGTGTCACCTTGGAAGTCCAGCGCAGTGCCCACTAAACACGCCAAGGTAAAGGGGCAACGGAGGACAAACTGATCTCGGGGCTTCCTGGGTAT
TCCCAGGGCCTGACCCTTGTGTCCTTCTCTCCCCTCCTGGAGGGGAGGGCTGGGGCCAGGTCAGGGCAGGGGTGGCGTGGGCCTGGGAATGGCCTTTTCC
GTGTCCTCGCTGGGCAGGGCAGCTCYGTCTGGGCGCTGGCACAGCCTGCATGGTATCTGGTCGGAAATGCCTCCTTGGTGGCCGCCTTCTCACAGCCCAG
GGCTCTCCGGGTGTGAAGCCGCAGTTCCCGTGGTGGCTGCCACAGCCTGCGGCCACTCCTTGAGCCTCACGCAGAGCATTCCCTGGTGTGTGAGTGTGTG
GTGTGGTTCTTCCTGGAAATAAGACGTAGTCCTTGGTTACGTCCCTTGCTAAGCGAAGGCCGTATAGTAAGGCACCTGCTTCTCAACAGCTGGCTGAGAC
ATTCTCAGGAGGAGCTTGAGACACTGCTGCTTTATGGCAGTTTCTGAAGGTTGTTTTTTATTCGGTAGAAACATGCCTTTTGTAGTAGTTGGGAAGTGAA
AAACAAAATTAAAAAGCTTTGGTCTTTCTTACACATTGCCTGGAGGACAGAATTCAGAGTTCAGCGCAGTCCTGTGAGGCTGTGGCGTTCCCGTGGCCCG
GGTCTCACTGTGGTTGCAGCCTGGCCCTCTGTGTCCACCGGGCCCCATCACCAGTGAAAACTTGCTTTATTTTATTTAAGTGTGCAGCCACAGCTTTGCC
TTGATCTAAGGAATGTATCTGATCTTTATTGAGTGCTCTAGGTTAACRCTTTTTCCTTACATGAGTGGGAAGTCCCAGCCATCGCGTCCTGTTGCCAAAA
CCGTTGGGAGGAAGGTTTTCCTCTGCTAGCTCAGGTCTGAATGGTAAGGGCTGCAGGTGGATGACCGTAGACAGAGGGACAGCAGCAAAGACGGGCCTTA
CCGTTGTGAGCCCGTGGCAGCATTGGGAAGTGAGTAGCTTGCCAAATGCCCAGAGGTCGAGGTTTCTGTGCCAATGTAGCACAAAGGGGGCGAGGGCCAG
GGCCTCCGTGGGAAGACGGGGACATTCTGTTGTCTCTTTATGCTGTGAGCATGGCCAGTCTGTGACCTTCCTGGAATTTGCAGGATGCTTTCACTTACAC
TTTCACATAGGGGTTTAATGGCAGCTGCACTTTCAGGTGGCTGTGCACTAGTCAGATAAGGAAAGTTCAGGTAAGATTTCTTTTCACCTTAAAATAATCT
TTACGTCAGAAATATGATCTCTTCACATGAATTTGGAGTTTGAAGGGAAATCCTAGACACTGTGTTAGTTTACCCATAATTACTGCAGTGTGTATCTCTG
ACTGATAAGGACTTTTCTTTTTATCATGACTGCATGCTGTYGTYGCTGCCCCCAGTCAACGCAGACCTCGGCATCGTCTGCTGGGGCTGTAACCACGGGC
CTTTCTACCACTGGTGCGTTTGGATCAGGACCCGCTGTCCTGGGGTGCTCCGCCTCTGGAGTTGCTCAGTGGGCAGACCACGTTGTCCATGAAGGCCACC
CACAGAGGCCATGCTGGCTGTCACCGTGCTCAGGTGCTGATGGCCTGATGCCATCACCCGTGTCTCCCTCACTCGCATCCAGCTGAGGCTCCTGGCCCAC
TGCGTGTTCCATCCAGGGTGGAAAATGGTGAAATTGCAGTCCTGTCATTCTTCCTGTGATCTTTCTACAAACAAGGACTTTCCCGATCAGCAGTTTGGTT
ACCCTAAAATATACTTTGTACTTGAAAGTGAGGATGAATGTTAGAATCATTCCCTTTATCAATTTTCAAATAAATGAGCTGCGTCCTAGCAGCCTCCAGA
GACAGTCCATGTTTGCGGCGTCTCATGATGGACACCGAGGCGTTATATTTGTATTTCTCATCCCATGGAGGCACCGCTCTTAGACGCTGGAACTGCCCTC
TCTCAGGCCACCGCCATCCTTTTCAAGTTAACTCCTGTGCCTTTTTTAAATAACAAGTAGTTATTTTGAAATAATTTAGAACTTAGGGAAGAGTTACAGG
AAGAGTGCAGAGTCCCCACATAGGGTTTTCCCAGACTTCCCGGTCACTAACCTTTGCCAYGTTTGCCTCGCCACTCTCTGTTTGTGCATTTTTCTTGAAC
AATTTGAGAATAAATTATCAGGTAATGCCCTTTACTCCATGACACTTCGAGCTGGGTTATCTTGAAAATAAGGCCACTGTCCTCTGTGGTCAAAGGAGAG
CCATGAAAATTAGGGAACTGACGCTCCTCTTCTGTCATCACAGGCCCCATTCACATTCACAAATGTCCCAGCACTTGATAGATGGCCYGTCCAGTGGCCC
CCACCAGCCYGCTGCCCATGGAGTCCTTCTGGCGTGGCTGCRGCTGTTGTGAAGTGCACAGGCGGTTATCCTGCAGGGCGTGCCCAGTGGGGCTGGTCTG
GTGTTCGTTTCAGTTAGACCCAGGTTATGCACTTGGGGCAGGACCTCCACAGACATTTGCCGTGTCCTCTACGAACATCATACTGTGAGGGACACCGTGT
TGCTTTGTCCTGTTACTGGCGATGTTACTGTTTTCATTCAGTTAAGATGACATCTGCCATGCTTTTTTCCTGTAATATCAGGAAATGTCTAGTAATTAGA
AAGTCATGAGTAAGTATCTTGTTGGGAGATACTGAGGCCGTTCAAATACCCTATTCTTCATCAGACTTTGACGCACTAGGTGTCAGTGTGCACTGATGAC
CTGGCCCGAGTTGGTTGGTAGTGGGATGCTTGCCTGCCAYGGATTTTCCAATTCCATCATTCCTTCTCTGTTGATTACTGGTATTTTAAGTAAGGTAGAG
CTGTGCCTTCACCCCATTCACCTATTTACTTTTTATATCCTTATGAACAATGAATTTCTATTTTATTCATTTTGTTACTATCATTATTTATTTTGTTGCT
CATATTCGTGCCCTGACTAACCAGGGCAGCCTCTTCAGGCCAGCTCCTGCGTCCTGTTGATTCACCCCTGTCCTCCTTTGAGTCTTTCCTTACTGCCCAG
CACAGCAAGACGCCCCAGGCTCAGCTTGCATTTCAGGAGTGTCAGCTATTTAGCTYGGGTTCCTTTGGTTGGAGAATGATATTTAGAAACCAAGATTTGA
GCGTTAGATGTACTCAGTACTACTGGGATGTCACTGCTGCTAAGTCCCTCTCAGCAGAGACCTAAGAGGTGTATGCCTGTGGGTGCAGATACATACATAC
ACAATATGTGCATATCATGCATATATGATGTATAGATATGTGCGTGTATGTGCACAGACTACTGTTTCTAGTGTGCTGAAGACCATGAATTTGCAGCAGT
TCTTCCAACACCAATTTAACATCACGGGTTTCTTCCTGTTTTTTTCCATGTTTGTAATTCTCATTTCTGCTCATGAGAAACCTAGCTCGCATTTGGCTTA
CTTATTTGCCTAATTTCCTCTGTATATAACCAATCTGCTGACCACACTGGCCAAATCCCTTTGGCTACAATACCACTGGCCATCTTTATGTAYGTGTATA
TTTCAAAACATCAGTACCAACCAGGGCTAGACACTATCTGTCAGTGCAAGATTTCTGAAGGTGCATTTGTCTTTAGGTCCTTTGTGTCCTGTGATTTACA
TTTACTTAAAGAATTCTTCTCTGGATAATTACAGCACCAACTTGATAGAAGCTTAGATTTGTTTATTTTTAATACATTAACACTTCTATTTATTTTAGTT
TTCAAAATTAAAAACAAGTAAGTCAAAAATCAAACTATAAAGCAAGATATATTTGGAAGGATCTTGTTTCCATTCTTGCCCTGCCCCACTCTCTCCTTCT
CAGTGTGTGCAGGTGTGAAGTGTGTGCATGTGTGTGTGCATGCATGTGTGTGTGTGCGTGCATGTGTGGGTGGTGTGTGTGTATGTGCATCCATGTTTGT
ATTTGTGCATCTGTGTACATGTATGGATGCATGCATGCATGTGGGTGTGCATSTGTGTGTGTGTGTSTGTKCATGTGGGTGGATGTGTATGCATGTGGGT
GGATATGTGTGCATGTATGTGTGCATTGTGTGCATGTGGGTGCGTGTGTGTGCATGTGTGGGCGGATATGTGTGCATTGTGCGTGTGTGCATGTGGGTGC
ATGCATGTGTGCATGTGTGGGTGCATGCATGTGGGCATGCATGTGTGTGCGTGTGGGGGCATGTGTGCATGTATGTGTGTGCATGTGTGTGTGTATGGGT
GCGTGTGTGTSCATGTGTGGGTGGATGTGTGTGCATGTGTGTGTGCATTGTGTGTGTGTGCATGTGGGTGCATGCATGTGTGTACATGTGTGGGTGCATG
CATGTGGGCGTGCATATGTGTGCGTGTGGGGGCATGTGTGCATGTATGTGTGTGCATGCGTGTGTGGGTGCGTGTGTGCATGTGTGGGTGGATGTGTGTG
CATGTATGTGTGCATTGTGTGCGTGTGTGCATGTGGGTGCATGCATATGTGTACATGTGTGGGTGCATGCATGTGGGYGTGCATGTGTGTGTGTGGGGCA
TGCGTGCATGTATATGTGTACATGCATGTGTGTGCATTTGTGGCTGGATGCGTGTGTGCATGCATGGGTGCATGTTTGCATGTGTGTGCACGTGTGCCTG
CATGCATGTGGGTGTGCATGTATGTGTATGTGTATGGGTGCATGTGTGGGTGCATGAGTGCATGCGTGTGTGTGGGTGCGTGTGTGTGAGTATGCATGTC
TCTGTGGTTGTGTGTATCTTGAAACAAATATAGCCTTTTTATCAGTTGTCCCAATTAATACCTCTTCAGACAATATGGTTTTTAATGAGTAGCTCTTTTG
AAACCAGGAAAGTTTCTATTTCTAACCCCTTTGGTTTAGGCACAGCCTCTTTTTGCCATCTGGAATCAAAGAGCTTGTGCTGACGTGCTTGACCGCGAAC
TTGGCCCTGCCACCACCCACTCCAGGACCTCCTGGCCTGACTTGCGCACATGCACACAGGGTGTCGGGAGGTGGGATCATGGCAGGAGTAGTTTTGACTT
GGGACTGCAGACCTTCTCCACTGGCATTTAAGAAGTGTGCTGTACTCGCGAGGAATAATGGCAGTGTGGCTGCTTGGGTGCCCTGTGTGGGTGCCGGCCC
AGACCTTGCTTAGCGGTCCCCTCCTGGTGGAGACCTGCTGCTGCAGACTCAGTCCCTGCCTTTGACGATGCCCGACCTTCCCCGCTCATGGCAGTGGAGG
GTGAGGGGGTCTTGGCAACAGTGGAGATACGTGTGCTGTCTAAGGAGGGACAAGAAGCTGCTCACAAGCCTCGTGCCCATCCCAACACTCAGCGTGGCCT
CCTCACAGGTCTTGTTCCGAGCGAGTGGTGGCAAGCCCATCGCCGTGCTCTGCCTGACTGTGGAGCTGCAGCCCCACGTGGTGGACCAGGTCTTCCGCTT
CTATCACCCGGAGCTCTCCTTCCTGAAGAAGGCCATCCGCCTGCCGCCCTGGCACACATTTCCAGGCAGGTCCTGCACTGACCCTGCAGCCCACATGTTG
CAGGCTCACCTGTTGGAAGTAGATACYTCTTGAGGGTGACAGATGGCCTCATGGCTTCATGCCSTGGTGCTGTCAGAGCAGCACGTGGGGCCTGGGGAAT
TCTCTCTCCTGCCTTTATGGTTTGAAACGGTGTCCCTCTTGCCACCTCTGAGATGACTAGGTGCGCATTTGCCGGCTGAGTCTGCCCTTCTAAAAAATCC
CAGCTCCCGCGGCCCAGGTCCAGGTGTGCCTGGAGGAACACCTACCTCCTCACCTGACGGCCCGCGTGTTTCTGGTAGGTGCCCCTTACAGCAGAGTGCA
GGCTTCCCTGCTCCAGGGAGCTGTGTTTTCTTTTTTGTGGCCCCCTCGATTATTCCCTGTGGAGATGGCTGCAGCCGAGCCGCAGTGGGCTGGATGGGCG
GTGTCCATGCAGGGAACACAGTGCTTGGATGCTGTCCTGGGAAAGGTGGCGGCGTCCGTTTCCCCAGCAGGTGTCTTGCTGAGCACCTGTGACGAGCCTG
TCCTGTCCTATAGTGTGTAATGTGTGGGGCCTTCTCCACACAGGCTGGGGCTGTGGAGAAGACTCTTTTTGACATTTCCCCTGCTCCAGGTGCTCCGGTG
GGAATGCTTGGTGAGGACCCCCCAGTCCATGTTCGCTGCAGCGACCCGAACGTCATCTGTGAGACCCAGAATGTGGTAGGTTGTGTTGTGGCCCCAGCTC
AGGCAGATCCTTCCCAGTGAGTCTGCGCCCCTGYCGGCTTCCCCACGGGTATCCTGGGATCCTCTTCATTTTAGGTTTTCTGCTAAGTGGTTTCTTTCCC
AAGGTACTAAAGGGCTATTTTGACATCCTTATGAGAGCTTTATGAGTGTGTTTTTATTTTTTCTACTAGCAGATCAGCTCCTTGATCATCTGAATTTAAA
TTTTAAAAAGGCACGAAGCAAAGTTAATAAAGTGGATGGTAATTAAGGCACTTATTAATTACCATTATGTAAAGGATAAGGCAATAATTGTGTTATGACC
AGTTAGGAAACCGGATAAAATCTCCTGTAGAATCTAATTGTTGAGATCCATGTAAAATCAGGAAGCTAATGATCTTCTCTTTGGCAGTGAACAGAATAGT
GAATTCCGATTGGTATAGAACATGAACAGATGCGTTCTGGGAGGGACTGGCCGTCACTCGCTGCGTGTATTAGTCACAGATTTAGGGGCCAGGCTGGGGT
CGGCAGAGCACTGTGTGCCCTGATGTGCTGCACATCTGGTTGGCAGGGCCCCGGGGARCCACGGGACATATTTCTGAAGGTGGCCAGTGGTCCAAGCCCG
GAGATCAAAGACTTCTTTGTCATCATTTACTCGTAAGTGCACAGGCTTTGGGGACCTGGAGGCGGTGGCGGAGGAGAGGAGGAGGCAGGCCTGGGGCTGC
TGGTGGATTGAAAGTGGGCTTGGCCCCTTCCTAAAATTGGGGGAGCTTTCGGGCCTTCGCTTTGTGAGGCGGGATTCTGCTGCGAGTTCAGGGCCCGCAG
GGGTCTAGGGAAGGCACCTTGGAGGGGCACGTGCAGCCTGAGGGACTTGGGATGCAGCTCCTGCCACCAAGGAGAGACACCAGTCAGCCTCTGTCCCCAG
ATAGTGGCAAGGGCCACCCAGAAGCCCCTCATTACCTTTTTCTTGCTGAGTCCCTAGGCTGAACAGCATGAATGAAGCTGTGGTCCCTCCTGCGGAGAGG
CAGGACTGTGGTGGAAATGCCCATCCCTCTCTCCTCCAGGCTAAATGACCCGGCCCCTTTCCCCTCCCCTCCTAAGTCGGATCCCCAAGCCCTGTGAGAA
TCCTTTCAARCTGGTGTGAGCTCGGAGATTTCCTGCAGTGCTTCTGAGGATGGGGCAGGGGCTAACCTGCACTCAGTGCCCACCACAGAGGGGCCAYGTG
ACCACGTCTCAGAGTGGCTTCCTCGTGAGCCCATGAAGATGCCTCACCCAGCCCCATTTGACTRTGAAGCAGCAGGCTCTTGGCCCTAAAATGCTAACAG
GGGCTTCCGTGCTCAGGCCGGCATGACCTCCAGCCCCACCCTGTCTCCTGCGTGGCGCTGCCCTTGGCTTAGCCTCAGAACCCCTATTGGGGGTGGACAC
TTGTCCAGGATGTGTGTTTGGCCAAAGCGTGCCTTGTCATTTGTTTGACATGTGGTTCCTAAGCAGCCCTGCTGCGCCCTGAGAGCCTCTGCTGTGGGTG
GGAGATGGGCAGCCAGGGGTGGAGCCACCAGGCCCTAGCTCTGCCTCCTGGGGCCTGGTCCTCCGGGGCTTTCCCTGCGTGGCCCCAGCTCTGCCTCCTG
TGGCCTGGTCCTCTGGGGCTTTCCCTGCACAGCCTCCTGTCTGCCCACGCTCCTGGCAGCCCTTGTTGGCCTCTCGTGGGCCGGTGCTGAGTCYTCCGGG
ACAAGTGCAGATGGCTCCCATCCCACTGCAGGGATCGCTGGCTGGCGACACCCACACAGACGTGGCAGGTCTACCTCCACTCCCTGCAGCGCGTGGATGT
CTCCTGCGTCGCAGGCCAGCTGACCCGCCTGTCCCTTGTCCTTCGGGGGACACAGACAGTGAGGAAAGTGAGAGCTTTCACCTCTCATCCCCAGGAGCTG
AAGGTACGGCCTCTCTGGGGGCTGTTCTGAGCCTCTCCCCAACCCCAGCCTGGAGACGGGCAGTGGGCATTCAGCTGGAGCACAGTGGGTGGCCCTGACA
GCAGCTTTTCCAGCGCCTCCAGCGYGCAGACGCTGTTACCAGAGGCCTCTCGGCAGTTGCCTTTCGTTAGATGTGCCATTGTGGGGTGAGTGACGTACAC
ACCAACCCCAAAGGCCGGTGTTCAGAATTCCTGGCAAGGTGAACAGTGACAGGAGCTCTGGTGTTAGTGAAGCCACAGTTAGACGGGGTGGGAGGGCGGC
CCCTGGTGCCACCAGCTGGCCGGGGTTTTAAGCCCAAGATGGCTTCAGTTCTGTCTGCGGAGGCAGCGCTTAGGGAATAGTCGCCGTGTGAGAGGAGGGA
CTTGCCTGGTGTGGACCCRAGTCGCGGCCACAGTCATGTCAGGGTTGGTTGTGGCCTCAGATTTGGCCGCCCCGGAACCACCCATGACCTTGGGCTCCCC
TGGCTGATTGGGCTGCAGGCGCCCAGGAGCCCCTTGCTTGCACATCCTGAGAGGCTGTGCTCTGACCCGCCTCTCTCGCTCTTGAAGACAGACCCCAAAG
GTGTCTTCGTGCTGCCGCCTCRTGGGGTGCAGGACCTGCATGTTGGCGTGAGGCCCCTTAGGGCCGGCAGCCGCTTTGTCCATCTCAACCTGGTGGACGT
GGATTGCCACCAGCTGGTGGCCTCCTGGCTCGTGTGCCTCTGCTGCCGCCAGCCGCTCATCTCCAAGGTCTGTATGTGTGGCAGGCACAGGCTGAGGGGA
TGGGGGCTCAATACCAGGGCACTGCAGGACCCCCACCTCGGCCCTGTGACTCGGACCACTGGATACAGTGTTCTGACCCAGCAGGGCCGGGTGCRTGAGT
GTTTGCTCCTGTGCTGTGTCTCTCCCGGATGGAAGCTCCAGAGAGCGTCTGTCTTATCTCTGTGGGGGTCCCCGTGCACGGTGCACAGGAGACTCAGGGA
ATACTTGGAGGAAGGGCCAGTGGCTGTTCCCGTGAGTGGCCGCAGCGTCTCCCTGTCCCCTCCCTCCACAGGCCTTTGAGATCATGTTGGCTGCGGGCGA
AGGGAAGGGTGTCAACAAGAGGATCACCTACACCAACCCCTACCCCTCCCGGAGGACATTCCACCTGCACAGCGACCACCCGGAGCTGCTGCGGTTCAGA
GAGGACTCCTTCCAGGTGTGGTGGGGCTGTGCCTGGGACTCCTAGGGGAAGACCCGGGGACCTGAATGGAGGGCAGTTAGCCTGCATTTAGGAGCGAGTT
CCTCAAATCACCAGCAGTCTTCCAAAAGCCCCAGGGCGGTGACAGGTACCATCCCATAGTTGGGTGGGCCCGTTGTCTCTTTAGTAGCTGGAGATTTAGC
AAAGTTTCTCCTGAGTGTGGGAAAGGGTGTTGTGCCCAGGGCTTTTCATGGTAATGTTAGACAGCTCAGTCTCGGAAATAAGTGTGCCTTCGAGTCCAAG
TAACGCGTCACACTGGCTGAGCACTGGTTCCCATCCTTGTACCGGGCGCTGAAGTCAAAGGCAGGCCTTGGATGCACCCGCAGGGCTCCCCTGCCTTGTC
AGCTCCCCTTGGAAATAAACACGACCATGCAGAGAGGTTGCTGGTGAGAGCGTGGGACAGCCCGGGGGTGGATGCTGGGATTTGGATGCTTATTTCCAGG
TCGGGGGTGGAGAGACCTACACCATCGGCTTGCAGTTWGCGCCTAGTCAGAGAGTGGGTGAGGAGGAGATCCTGATCTACATCAATGACCATGAGGACAA
AAACGAAGAGGCATTTTGCGTGAAGGTCATCTACCAGTGAGGGCTTGAGGGTGACGTCCTTCCTGCGGCACCCAGCTGGGGCCTGTCTGTGCCCCTCCTG
CCCTGCAGGCTGTCCTCCCCGCCTCTCTGCAGCCTTTCACTTCAGTGCCCACCTGGCTGACCTGTGCACTTGGCTGAGGAAGCAGAGACCGAGCGCTGGT
CATTTTGTAGTACCTGCATCCAGCTTAGCTGCTGCTGACACCCAGCAGGCCTGGGTTCCGTGAGCGCGAACTCCGTGGTGGTGGGTCTGGCTCTGGTGCT
GCCATCTACGCATGTGGGACCCTCGTTATCGCTGTTGCTCAAAATGTATTTTATGAATCATCCTAAATGAGAAAATTATGTTTTTCTTACTGGATTTTGT
ACAAACATAATCTATTATTTGCTATGCAATATTTTATGCTGGTATTATATCTGTTTTTTAAATTGTTGAACAAAATACTAAACTTTTACACGTCTTCCCT
TGGCAGTTTTCTTGAGTGTCTGCTGGCGCAKTGTCAGAGGCTTCCTGTCTACAGCACAAGCCCGGTTTCTCCTTGAGGAGACATGGTGGGGGCCGGTCAG
GCAGCCCATGCCATGTGTCCTCATGGAGAGGCCGCTCAAGCCTGCCCTGGGTGGGGGCTGAGACCCCGGCTCTGAGACGGCAGCAGTCGGGTAGAAGTGC
GAGGGGCGGAGGGTCCTGTGCCCCTGAGCGGAGGGTGGGCTGCACCCAGCGGTGGTTGCAGAGAGCACGTGGCCCCATTGGTCCTTGCAGTGAGGTGCGG
TCCTCGTTTGCAGAGATCAGTCTCGGTGGGTGGTCTCTGCTGCGTCTGCATGCTCTGATCCTGACGCAGTCCCCATCCTTCAGAGAGAAATTTCACTGGC
ACTGTAGTTGGACCCTGAAGGTCAGAGCTGTGGCTTTTTCCTGCGTCTGTGCCAGGGGCAGAGAGAGAGTGGAGATGCCTCCTCGGGCAGTGTGTTTGTA
TCCTGGTGCTGCTTCTCACGAGACAGTCTGCCCTCCCTTCCCACGGACTCTCCAGCCGGACAGGACTGGCTGACACAGTTTTCTTTTGAGGGAGCTGGAT
TTTCTCACAGGCCCCAAGGCTGAGTCCTAGGCAAGGGAACAATTGTAAGATGTCCAGTCCTTCAGTCCTCATGGAAGAGGCTCCGGGGAGTCCAGGAAGC
CACATGTGGGTTCCATCCAGCCCTGCCCTGTGGGGTGGAGAGTCCTCGTGGGCCCTGCAGGCTGGGTGGGCCTACAGACTGCAAGAAAGTGCCTGGCCTG
TGCTTGCAGGATGTCCATGCAGAAGCGGAAACCACAGCAGCAAAGGAGATCCATCCATGGGCTAGAAAACCTCCTGTGGACGTGTCCCTTCAGCGTTTGT
AAAGCTGCACTCTCCCTGCTTTAGAGTGTCTGCCTTCTAGGGGCTGCTGGAGACATCCATTGGAGGCCATGGCGGTCGTTGGTTTACTCCCTCACTCCTT
CATCTGGTACCACATGCCTGCTGTGGTCTCCACCCTCTCAGAGGCTCAGGAACATAGGGAAGGCCCATGGTACCTGGGACACTCAGCTGTTGCCAGCCCG
GAGTGGGAAGGAAGAGGTGCAGCCTCCCACAGGAGGATGGAGGTTGGCGGGGGCTTCCCACGAGTCGATCTGAGTGGGTGAATAGGGGAGGGGAGACCTG
GGCAGAGGGCCATGGGAGCTGAGGCCCGGGGCCAGCGGCATGGTGTGCCCAGAGTCCTAAGGAAGGCCACCAGGCTGAGAAGCCATCCCTGATGCAAAAC
AAGGTCCTKTCAGGCCATGAGGAGGACTTTTATCTGTATCAAAAAGCGTCAGGAAGCCTTTGAAAGGTTTTATGCAAGGATGGGTGTATTTGGGTAAGAT
GGGGGCAGTAATGTGGAGAATTAATTGGAGTGGGCCCAGATGTAGGCAAATGAGAGGCTGCTGCAGTAGTTGGGAGGGAGATGATGGGAGAATGGACAGA
AGAGGCTATATTTTGTTCAGCTGTGAGTGATTGAAAATCCAAAATAACACTGTCTTAAACAAGATGGCCATTAATTTCTCTCACATTTAAAAATCCAGGT
AGCTGGTGTAGGGCTGGCGTGGAGCTCCACCATCACTGTGCTCCCGTCTTTTTCTGTCTTACCATTGTGCTGTTCTTACCACGTTGCTTCCACCTTGTAT
CCTGAGATGGCTGCTGCAGCCGCTGCCATCACCGCTCCATTCCAGTCAGCTGGAAGCTGGGGTGAGGCACATAGCTCCTTCTGAAAAGTTACTGTCCGGA
AGCTGGACCCGTTTCTCTGCTTGCATCCTTGTGTTCGTTTCCTATGGTTGCCTAGGTTGGCCTCTGTCCACGCCAGAGCTGGCTTGGAAAGACTGAAGGA
GTGAGGTGGAGGCTGGACTCCAGGGGGGAAGGAGTCACTTAAGGTGTTTCTGTGTCTTTTCAACATGTACCTGTGCGGAGTAATGATATCTCTCTGGCTT
GTCCCTGTTGTCATCTGGGTTGGGATTCTCCATGTTGCTTTTTCTTGAAGGCGGCCTCTGAATTTGCACGCCTGCCTCAGGGCAAACGCTGAACAGCCAG
GGATCCCAGCTTGTCCACACCCTATGCTGGCTCAAACGTGTGCAGTCATGATACGGAGCCGTCTCTTCGAGTCGGATGTCCAGGCCTCTGGTCACAGCGT
CACCTGGCCAGAGCCTCCGAGTAACCCAGGTGCCTGGTCACTTCCCTGGCAGCTCTGTGTGGAGAAGGTGCAGCTGTGATTTACTGGGTCTTGTCACTGC
AGGCACCACCTGGGCAGCCCACCCATCCCTGTCCACTCCGTCTGGCTCTCGCCCTGCTCCTGCTGTTCCCCGTCGTACCACGCGAGGGCAAGGCCTGCCC
CGTTAGCCTGCTGCTTCCGCAGCGCCGCTGCACTCTCATTAAGGGTCTGGGGAATGAGCCACTGTGATGGGTGCTGAGTCGTGCGGGCAGGAGGCTCAGA
CTTTCTCCTAATAGGTGCCTTTAAAGTAATGTTGATGGATGTGATTATGAAGCTATTATGTCCCATTTGTTCCTACAGTCTTGCTGGGGAGGGTGACCGG
GACCATTTTATCCTTCCCTTGCAGAAAGTCTCGGTCAGATGCATTGTACTGCAGGGGAGGCAGGGTCTCAACTGCTCAGACATGAGGCCCAAGCCTGAGA
TGAGCCAGGGAGGACTCCGGTGCTGGAGAATTAGGTGGGCGAGGCAGGAGGGTCTGGGGCTGGGTCCCTTTCCCAGGCCTCTGGGCTATTGGGCTGCAGG
TCAGTGCGAGGGCCTGGGCCGGGCACCCCGTCATGCTACAGAAGCCGCCCCAGCGCTCTGATTGCGGGACCCCACGTGCCTCAGGCAGGGATATGCTTAG
AGCCATTGGTCCCACGGCCACATCTGTGGGCAGACAGTAGGGTGGGAGTGAAGGGAGACCTCCGTGGGGACAGTCGATGCCGTAGGTGTCCATGGTGACT
TCTCGAGATCGTGGATAAGGAAACGGGTCCTTCTGTGTTCCTAAAAGGTCTCCACACCCCACAGATGTGGGCATGCGTGGGATAAAGGAGGCCCCTCCCT
AAAGGTAGCAACACCTTGTTGTCTGCCATTTTCGGCGCGGGCCACATCCCTCAGCTCCTGCGTCTCTGCTGCGAAGCTGCAGGAGGAGTTTGGGATTTTC
AGTCTGTCAGGGAGGGCACTGTCGCCTCTGCTTTCCCAGGCTGCCTTCATCTCCTCCACTGTGGCCAAGCTGAGGATGCCTCCTGGACTTTGCCCCAGCT
CCCGCACCTGAGGTGCTGGCGAACCCTAGACAGGAACATCCTGCTGGACGGGCAGAGCTCTGAGAAGGCACTCACGCAGCCCTGGGTGCCTCCTAATGGT
GCGGGGGCTCTGGAGGCCTCATCAGATGCCTTGGGGAGGGGTGTGGGACACTTTCATCTCCGCCCCCTCCATTTCCAGATGCGCCCAAGAGCTGGCTGCC
TCCCCGGCCCCTGCAGAGAGATGCTGCCTGCTCTGAGGGGCCTGCTCTTCGTCACGTGGGTTTTCCCCCTGGAAGACCAGGAAGCAGCTGCTTTTCCTGG
AGAGGTGGATCCCCCGAGTCCATTCGGTCCTTGCACAGCAGAGGGGCCCGCGGCGCTCCCTGCCCGTGTCTGGTCTGTAAAGCAAGGACTCAGGCCCTTC
AGCTGCTCCGATGCCCCACAAGGCGACAGCAGAGAGCTGGCCAAGCCTCCAGGGCTCCCGCCTGTTCGAGGTGCTTTGGTAACGTGGCCACCACCCCAGC
CTACCGGGCTCTCACGTCTGCGTTGTCACCCCCACGGCACAGGAGGGAACCACAGCATCAGATGCAGGAGGTGCCGCCCAGGCTCGAGGAGCAGGCAGCG
TGTGCCCTCCTGGACGGGACCAGGCTAGCCTGTGGGCTGGAGGACACAGGGGCATCCCTCAAGCCCACGAGGAGAAAGCGGCCTGGCCTTTGGCAAGAGA
GACGCCATCAGCCAGCGAAGCTCTATTTGCCACGTGCTCCTCACGCCCTCATTCAACCCGAGTGTAGACAGAGGTCCCCCTGGCCGGGGGAGATGGATGC
TGCCCGCCCAGTACCTGGCTTTCTTGGGGGCCCAGATGATCACATGGGGACCCGTCACGGTCTGTCGGGCGGCGCTGAGGGTCTGAGGGGAGCAGGGGGA
TGGTGTGAAGAGGGACTTTAGTTTGGAGATCGGGCCTCTCTGCGTAGGAGGCAGCTGAGAGAGAATGGAGTGGCAGGGGCCCTGCAAAGGGGCAGCGGGG
CAGGGGAGGCTGGCGAGGGGCCTGCAGGGCTGTGCCAGGGCAGGGGGTCGAGTGGGCCAGGGGAGGAGCTGGTGGGCTGGAGTGGACAGGTGCCATGTCC
CGTGAGTTCTCCGGCCCTGATCCCGGCCCTCCGTCAGCATGGAGCCCAGTCCTCGTGGGGGGCGGCGATGCCGTGGCTGCCTCACCCCCATCCCGCAGAC
CCCACTCTCAGTGCTTGTGGCGCGTGTGCCTCTTGCTGGCTCTGTGGGGCTGGGTTGAGGCCTGGGACCCCTCCACAGCTGCCCACCCCAAAGGGCTCCT
TCCGCCCAGGGTGGGGTGGCCTGAGGGCTTCGGCCAGCCGGTCAGGACCCCATGCCTTCTGCTGCTGGCCTCCAGCTGGGTGTGTTCCTGGGTGTACCCT
GGCCTTCCACGAGAAGAGGCATCTCGGGGAGGGGTCTCTTCTGCTGGGCACAAACCCCAGGTCAAGCCTGCTGTGTGCTCTGGGTTGCAAAACACCAGCC
TTGTCTCTTCCTTTATGAGCCCACAATGTCCTGTGCCGAAACCTGAGGCGTGGGCTGGCGTATTCACTCACTCCCCACTCCCCTCTTGCCAGTCGCAGGT
CCAGCTGGGCAGAGCCGGGATGCCCACGTGGAAGCTGGGCCCTGCAGCGCTTGCCTATGGGGACGGGGTACCTGGGACTCCCCCGATGAGGGCACCACGC
TGAGCTGCTGCTCTCTCCGTGCAAAGCCGCATGCCTTTCAAAGGGGCCGTTATCATTCCCATCACGGGCATTTCTCAGCTGTGATTTCATTTCTCCCGCC
TGCTCCTCCCTCCTCCTGCCCCTGTTGAAAGCTACTTTTCACTAAATGGAGTCAAATGCAAGCCAGATGAGCTGCTTTGTATTTCTCATGTTTGATAATG
ATTTAATGCTATGTTTGTCTGTATTTAGAAATAAGACACTTTTTAAAATTGTTGCCTCAGGTTCTAAGAGGGTGGGGAAACAGCCATTATTGCTTCCCTG
ATGACCGCTTTTTCTCCTGTGGACGGAGGCGCTGCCGCTCTCACCCCAGCAACCTCGGGTAGCACTTACCGGGAGGTGCGCTGAGGCCTTGACAGAGAAA
GAGACAGAGGGCTCAGGAGCAGCTGGTGGCGTGCCCACGGGAGGTATTCAGGTGGGTCGCTGTCTCGCACGGCCCAAGCACAGTGGGTCTCTCTGGCCCT
GTGCAGGATGCCACCCTACAGACGGGAAATGAAGAATGTAGACCCTTCCTGCCTGGAGGACGCTGGCGCTCCACCTGCCGCACTCCGCTGGTGATGCCAC
GTGGGCCCCACTGGCTCTCCTGACCCCAAGCCAAAACCACGCCTGAGCGGGTCCACAGGAGGCTGTGCAGCGCCCGGGAGCTTCTCTGCAGGTTGGGCAG
ATCCACCTCGGGCCAGGCCCCTGGGTTTCAACACTACCCCTCACCTCTCCGAGGGGGTCCTGGGAAACCCCTTGCTGGTGGGAGAATGGATGACTGAGGA
ACAGTCACCCCAACTTCAGGGGTTGAATACTGTCCCTGCAAAACTCACATACACTCAGAACCTCAGAATCCGGCTGTTTGGGAAGAGGGTCTTTGCAGAT
GAAACGAGGGCTTGAGATGAAGTCATGTTGATTGGGGTGACCCTAAGCCCAGGGAGAGTGTCCGTATG


SNP Information

Context             (SEQ ID NO:36822):
GTGTTCATTCAGCACACGCTGGCTGAGTGTCTGTCGCGTGCCAGGCTCTGTGTAGGAGCCGGGCATACGGGTGGATAGGCTGGCGCATCATCCTTTCAGC
Y
AGGGTTAAAGCCTACATGTTTACTCCAAGTCAGGGTTTCTCAAGCTTGACACCACTGACTTGCGAATGGATAATTGTTTGCTGTCGCGGGGCTGTCGTCT
Celera SNP ID:            hCV1743200
SNP Position Genomic:     31643
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36823):
GGTTTCTCAAGCTTGACACCACTGACTTGCGAATGGATAATTGTTTGCTGTCGCGGGGCTGTCGTCTGTGCTGTAGGATGTTTATCAGCATCCCTGGCAA
Y
GCACTAGATGCCAGGGCACTGCCTCCCTGCTCCCTGGCCCTGTTGTGACAAACGAAAAAAAATGTCTCCAGACATTGCCAAATGTGCCTTAGGGAGCAGA
Celera SNP ID:            hCV1743201
SNP Position Genomic:     31777
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36824):
GCCAGACCTGGCCTTGGCAGCACTCACTGCTCTCGTGCCTTCCCTGAGTGTTCCCCACCTTTAGCTCTGAATGGGATCTTTCTCAGTGTAAACTGCTATC
Y
GCTTAGCTAATTTATCTAAGAGGTTTTGGCAGATGTTTCGTGGCCTTGGACTTTTGGCAGAAAGTAAAGAACTGAAACACACCAGCCCTGAGGGAGGGCA
Celera SNP ID:            hCV1743202
SNP Position Genomic:     32400
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;JBIC-allele(T,356|C,1129)   total(C,1129|T,356)   (C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36825):
GTGTAAACTGCTATCTGCTTAGCTAATTTATCTAAGAGGTTTTGGCAGATGTTTCGTGGCCTTGGACTTTTGGCAGAAAGTAAAGAACTGAAACACACCA
K
CCCTGAGGGAGGGCATTGGTTTGTGGGGATGAGCACGGGAGCGCCTGTGAGAGCCACCTGGAGGGAGGGGAACAGCTCTGCTCACCAGATGAAGTAGTAG
Celera SNP ID:            hCV1743203
SNP Position Genomic:     32485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,8)      total(G,8|T,3) ;(G,-|T,-)   JBIC-allele(G,358|T,1143)   total(G,358|T,1143)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36826):
TTCTTCCCTTACAATTTGTCTAGAAGAATGTTTCCTATCAGTACACAGAAAGCACTCACTCTTTTTACAGCTCTGTGGTGTTTCGTGGAATTGATGTTTC
R
TGATTGATTGAATAGACCTGCATACCGACCCTTAGGGGTTTCTGTAAGAAGAGGTTGGGCCAGGAGCGGTGGTTCACGCCTGTAATCCCAGCACTTTGGG
Celera SNP ID:            hCV1743204
SNP Position Genomic:     35552
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36827):
GACCTGCATACCGACCCTTAGGGGTTTCTGTAAGAAGAGGTTGGGCCAGGAGCGGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGC
R
GATCACCTGAGATCAGGAGTTCGAGACCAGCCTGGTCAACATGGTGAAACCCTGTCTCTACTAAAAACACAAAAATTAGCCAGGTGTGAGGGCAGGTGCC
Celera SNP ID:            hCV1743205
SNP Position Genomic:     35667
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36828):
TTCTGGATGCCAATAAACAGCCAGCCGAGGCTGTCAGCGCTACAGAACCTGTGACGTTTAACCCTCAGAAGGAAGAATCAGATTGTCTACAAAGCAACGA
R
ATGGTGCTACAGTTTCTTGCCTTTAGCAGGTAAATCCTTGAATATTCTGTTACTCATCTGGCTTTCACATTTCCTGTGTTGAAGAGAAACTTCGCTGAGG
Celera SNP ID:            hCV25994530
SNP Position Genomic:     94284
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,5|G,35)   total(A,7|G,71)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36829):
CGTGTTTGGTCTTAGCCATCACTCCAGGAAAGTGGCTCCTCCCTGAGGACAGGGCTCTGTCTCTGATGCTGCTGGCCTCCCTCCAGTGCTGCCCTCCTCC
K
TTTGGGGCTTGGTGGATACAAGTGCTGACACACAAAGGCAGGCAGGCAGGCCTCGGGCCAGGGTGTCCTCCAGGCCCCTCTGATGGCAGGGACCAGCGAG
Celera SNP ID:            hCV1743208
SNP Position Genomic:     37050
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|G,6)   total(G,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36830):
TCACTCCAGGAAAGTGGCTCCTCCCTGAGGACAGGGCTCTGTCTCTGATGCTGCTGGCCTCCCTCCAGTGCTGCCCTCCTCCGTTTGGGGCTTGGTGGAT
R
CAAGTGCTGACACACAAAGGCAGGCAGGCAGGCCTCGGGCCAGGGTGTCCTCCAGGCCCCTCTGATGGCAGGGACCAGCGAGACCTGGGGAAACTGCACA
Celera SNP ID:            hCV1743209
SNP Position Genomic:     37068
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36831):
TCTGTAAGATGGCGATAATGATGATTCTCATTTGGCAGAGTTGTTGGAATAGTAACCATAGAATGTGAGTTCCTGTCTTGCATCAGGGGCTCATTAAAAG
Y
GGGTGTATTTTCTTCTTCTTCTTTTTTTTTTTCCCCTGGAGAGCCCACTGTACCCTTTTCTTGGGTTCAAGACCTGGAGCCTTCTCGATTTTCTCTTTTA
Celera SNP ID:            hCV1255761
SNP Position Genomic:     9111
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36832):
CAGTTGCTGCCACCGTACCTGTCTCTGTTGTTTCTTTTTTATGTATTTATTGAAGAAGCCACATTGTACTGTAGAGCGTCCACCCCACAGTCTGGATTCT
K
TTTTTGTATCCTGGTGGTAACATAAAGGTGTTGTTCTGTCCCCTCTTTAGCTGTAAATTGGGAGTTAGATCTAGATGCATGATTAGATGCTTTTTTTTGT
Celera SNP ID:            hCV16093085
SNP Position Genomic:     95548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36833):
TGAGGAGGGAGCATTTGGTTTGACTCCTAGAGGCCAGAGCAGAGGTGGAAAGGAGCAAGGAGCAGGTGGAAGGGCACCCGGAGAGGTTTGTGAGGTGCTG
R
GATGGCAGTGAGAGCTGCTGCGGGCGCTTGGGCTCCCACCTGCAGAGTCTCAGGTGTCACCTCGGCCTCCGTGGCCCCTCAGACTAGGACTGCCCTGCCT
Celera SNP ID:            hCV1255762
SNP Position Genomic:     9518
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36834):
GCGTGCACTGTGGGTGGAGGCGGGACGCTGGGCCAAGGATGCAGCGTCTGGGTGCACTGTGGGTGGAGGCGGGACCCTGGGCCAAGGATGCAGCGTCTGG
R
TGCACTGTGGGTGGAGGCGGGACCCTGGGCCAAGGCCCCTCTCAGGCTGCCTGGTCATGTCCTCTCGGTTCCCACACATGCCGGGAGCATGCAGGGGGTG
Celera SNP ID:            hCV1255763
SNP Position Genomic:     10811
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36835):
ATCCACCTGTGCTGGAATTATGGGCGTGAGCCCCCATGGCGGACCTAGTTTTTCACAAATTTCTTTTTCTGATAATACAGTAGTTCATATTTAGCTCTTT
C
TTTATGAAATCAGAACATGAATGAGCTGAACTTGTGACTCTCAGCAGCTGTCCCTGGCCCGGCCACAGCTGGGACTTGAGCCGCCTGAGACCACGTGCAT
Celera SNP ID:            hCV26333900
SNP Position Genomic:     36524
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,8)   total(C,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36836):
AGCATAGTGTGGGATGTGTCTTGCTTGGGGGTTTGCCTTTTTTTTTTTCTTCGAGACAGGGTCTTGCTCTGTCACCCAGGCTGTAGTGCAGTGGTGCAAC
R
TTGGCTCACTGCCACCTCCGCCTCCAGCCTCAAGCGATTCCTGTGTGTCATCCTCCCACGTAGCTGGGATTACAGGTCTGTGCCACCATGCCTGGCTAAT
Celera SNP ID:            hCV26333901
SNP Position Genomic:     31040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,9)      total(G,9|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36837):
TGGTGTTTGGCTATGTTGCCAGGTGATCTTGAACTCCTGAGCTCAAGTGATCCTCCTGCCTTGACCTCCCAAAAGTGCTGGGATTACAGGTGCGAGCCAC
S
ACCCCAGGCCCCTTAATTATTTTAAATAAAAACAACTGCATTGAATTTAACGCAATAGAAAAGCAGCAGCAGAGTGAAGGTGCTTTCATTCCCAAGTGGG
Celera SNP ID:            hCV26333902
SNP Position Genomic:     29360
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,11)      total(G,1|C,11) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36838):
AAGTCCACTCTTCTGGGGTTTGCAGAGTGTGGGTTTGGGGGATGGAGGTTCCTCTGGGATTTAGTGGGAGGCAGAAGCCTTCAGGATTGCTGTGACCACT
S
TAGCCCTCACAGCTCTTCTCTTTATTTGAATACGACTGGCACAGATCATCCGGGAAGCCCACGGGACCCTCAGGCGGGCAGGATGAACGACTGGCACAGG
Celera SNP ID:            hCV1255765
SNP Position Genomic:     13219
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(G,-|C,-)   ;(G,-|C,-)   (G,-|C,-)   Caucasian, from CEPH families, part 1 - WICGR(C,55|G,127)   Caucasian (pooled) - WICGR(C,42|G,54)   total(G,181|C,97)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36839):
ATTCCTAGAAGTGGAATTCCTGATCCAAAGTCGTATGTTAAAAGTTATTTAAAACCCAATTACATGTTGTTTACAAAAAAGTGCACTCTAAGCATAAAGA
Y
GTAAACAGGTTGCAGGTAGAAGGGTGGAAAAATATAAACCATGTACATACTAAGCAAAGAAAGCTTTGCATCTATACTAGTATCAGAAAAAGTAGATTTC
Celera SNP ID:            hCV1255766
SNP Position Genomic:     15679
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36840):
CCTGCATTGTGTGTGAATACATTTCTGAATGTTATAAAACATCAGTGGGAAAGAAAAGCTTGAGGGTAGCTTTGCTAAAGCTTCTGTTTGGTTCCGTGAC
C
ATTTACTGAGTTGTGACGGTACCAAGAACACAGGAGGAATGAGGCTTCTTTCTTCAAGAACTTGGCCAGCGAGCAATTCAACACAAGATAGGTGACGAAT
Celera SNP ID:            hCV26333903
SNP Position Genomic:     10022
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|C,7)   total(C,7|-,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36841):
GCTTTGCATCTATACTAGTATCAGAAAAAGTAGATTTCAAGGTGAAGAGTATTCCCAGAAATAAAGGGGCACCTCATAAAGACAGTGATCATCAAGGAAA
Y
GTAACAATCTCTAAATGTGTATGCACTTGTGTTAGGGGCCTCCAAGACCACCTCCCAGGTTTGAAGAGTCTCTAAGAGGACTCACATGACTCAGCATGTA
Celera SNP ID:            hCV1255767
SNP Position Genomic:     15842
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36842):
AGGGCTCCGTTCGTTGCACCTCCTCTGTGCAGTTTCCGTAGGTCACACTTGTGTCTTTTTGTATGCTAATTTGTGCCCCGTTTCTTTACATTCTATGGGG
G
TAGCGAGCTTGTCTGCTGTGTTCAAGACCGTTTCTCCCGGGCGCAGGGTAGGTGCTGAAAGAATGCTCATGAATGAGGGAATTCCAGGCAGTGCTTAATC
Celera SNP ID:            hCV26333904
SNP Position Genomic:     8314
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36843):
CTACCAGTATTAAAATGAAAGAAGCATCATGATAACGTACGCTACAGAGGTTAAAAATACAATGTTGAATTTTATCAGATACTAAAGGAAGAAATAAGAC
R
AATTCTAGACAAACTCAGAAAATAGAGGAGGAGGGAACACTTCCCAGCTCATTTTTTGAGGCCACCATAATTCTGATACCCAGTCAAGGGCACTACAAAA
Celera SNP ID:            hCV1255768
SNP Position Genomic:     17595
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36844):
TTCTTGCTCCTCGGATGTGGATGTATTAATTTCCATAAATGCTAATAGCCCACTTCCCCAAGAGCTATTACTTATGTCATCTCCCCTTGGACACAGTTCA
R
CACAGGGCAGACAAATGAAAGGGAGGAAAAGACAACCCCCAGTGGCGGTCCCCAGCTCCTCAGCCCCCTCCCAACCAGGCAGCTCAGGTCTGGTTCCTAA
Celera SNP ID:            hCV26333905
SNP Position Genomic:     5596
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:36845):
TTAATGAGGTGGGCCCTGGTGATGGTGGCAGGGGCTGCTCCAAGGCGGAGGGTGTGTGTGCGGGTGGTCCTGGGTGGCAGCCCAGAGACTGGGGCCTTGC
S
GAGACCTCACAGCGCGTCTCAGACTTGTGGGTCCAGGCAGCACAGAGCTTAGTCTAGCGGCAAGCGCTTTGTTACCAAACAAAATCTTATGTGGAAGCCA
Celera SNP ID:            hCV27476339
SNP Position Genomic:     21414
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,109|C,1380)   total(G,109|C,1380) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36846):
TTTCCACGTGACCCCGAGTGGTCACGATACCGTATAGGGTCTGAGGGAAGCTGGGTAGGCCCCAAAGATCTCCTCTGCTCCCTGAAGATGCTGCCAGGGT
M
CCCTGGGGATGCTTCATGCACCCCGCCCCCCATTCATTCCTCAGTGCCTCTTCATACATTGGGGCCTCTCTGCCAGCACCTGGTGTGGGCCAGCCATCAT
Celera SNP ID:            hCV27941922
SNP Position Genomic:     91460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36847):
AGGGGATGGGGGCTCAATACCAGGGCACTGCAGGACCCCCACCTCGGCCCTGTGACTCGGACCACTGGATACAGTGTTCTGACCCAGCAGGGCCGGGTGC
R
TGAGTGTTTGCTCCTGTGCTGTGTCTCTCCCGGATGGAAGCTCCAGAGAGCGTCTGTCTTATCTCTGTGGGGGTCCCCGTGCACGGTGCACAGGAGACTC
Celera SNP ID:            hCV25995776
SNP Position Genomic:     135395
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,1)   caucasian(A,14|G,2)   total(A,31|G,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36848):
GGCCAGGGTGTCCTCCAGGCCCCTCTGATGGCAGGGACCAGCGAGACCTGGGGAAACTGCACAGTCTGTGCCTGTCTGTGCTCTCAGGAGACTGAGGGAA
K
TAGTGGGTGGGAGAGATTTTATGTTGGATTAAAAACTGCACCTCCAGGCCGGGCATGGTGTCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTG
Celera SNP ID:            hCV1743210
SNP Position Genomic:     37206
SNP Source:               Applera
Population(Allele,Count): african american(G,11|T,25)   caucasian(G,4|T,32)   total(G,15|T,57)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36849):
TTCACAGTGAAACCTTGAAGGCACTGGGCTCTTCTGGGGGCAGCGTGGGCCGAGCGCCCCTCTGCAGCTCAGCAGCACGGCCTGGCGGGGGTTGTGGGGG
R
CAGTGGAGGAGGATGGAATGGCAGTCTAGTTTCCGTTTCCCTCCTAAATAGTGTCTCACATCCTTCGAGTCATTTCTGGCTGCTTTGGTTGGGAAAATGC
Celera SNP ID:            hCV1743211
SNP Position Genomic:     37953
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36850):
CCCAGTTTCCTTCCTTTTCATCTTAAGGCTGGATGATATTCCAGTCTATGGATGGACCATGTTCTGCTGATTGTTTCATCAGTTAACACTTGAGCCTTCC
R
CCTTCTGGCTGCTGTGAACATGGGTGTGCAGTGACCTGAGGATTTTTGGAAACTGAAATTCGTGTTAAAGGACAAGGGCTCTGTCTTGGTGTGGTTTTCA
Celera SNP ID:            hCV1743212
SNP Position Genomic:     38665
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,8)   total(G,8|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36851):
GAACTAGCTTTCAGATGTCACCCGGTTGATACTAATCTTGGGACTAGCTGTGAGATGTTGCCTATTAGATACTGATCTTCAGGACTAGCTGTGAGATGTC
R
CCTGGTGGATACTGATCTTGGGACTAGCTGTGAGATGTCACCTGGTGGATACTGATCTTGGGACTAGCTGTGAGATGTCGCCTGGTGGATACTGATCTTG
Celera SNP ID:            hCV1743213
SNP Position Genomic:     39823
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36852):
GAGCACACGCCATGGTGTCCGGAGGGAGGGAGGGGGACTGACTGACTCCACCAGGTAAGGGTCGTATGCGCCTTTCGGAGAGAAAGGATAGGTATCTCAG
Y
AACACCTGCCGCCCCCCCGCCCCCCGCCCCCACTCTCAGAGTTGTTTTGGGAGAGAAACACAATTTGCCCAGCCTTTCTGTTGTGTTTGGGGTGCCAGTG
Celera SNP ID:            hCV1743214
SNP Position Genomic:     40532
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36853):
GACTGACTGACTCCACCAGGTAAGGGTCGTATGCGCCTTTCGGAGAGAAAGGATAGGTATCTCAGCAACACCTGCCGCCCCCCCGCCCCCCGCCCCCACT
Y
TCAGAGTTGTTTTGGGAGAGAAACACAATTTGCCCAGCCTTTCTGTTGTGTTTGGGGTGCCAGTGCCGTGTGGGCCCTGAGGTTACTTTCTTTTTATTTT
Celera SNP ID:            hCV1743215
SNP Position Genomic:     40567
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36854):
TAAAGATGTATTTGGGGAGAAAATGAGATGGATTGGTAAAGCACTAGCGTCTTCATCATGAAAGTTGTGTCTTAAATTCAGCCCAGATCCAAGCCTCCTA
S
AGTAGAGCGTCCTGGGAGGTCTGATCTGTTTGCCCTTTGCTAGCTAGCCCTTCAGATGTGCGAAGGCAACACTCAGCACCGGGCCCAGCTGTGTTTTTGT
Celera SNP ID:            hCV1743216
SNP Position Genomic:     42867
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,12)   total(G,2|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36855):
CGAAGGCAACACTCAGCACCGGGCCCAGCTGTGTTTTTGTCCAGGCCTGGCCTCTCGAAGGTCACAGAGTAACTTGGTGGCTGAGCCAGGCTTGGGCTCA
S
GTGCTTTACTCCAGAGCCCATGATGCTTGCAAGATGTGGCCTGCCAAGCCGGCTGAATGAGGATACCCAGGCTTCTCTGGCTTCCCTGGGCCCTCCAGGA
Celera SNP ID:            hCV1743217
SNP Position Genomic:     43028
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,9)   total(G,9|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36856):
TGGCTGAGCCAGGCTTGGGCTCAGGTGCTTTACTCCAGAGCCCATGATGCTTGCAAGATGTGGCCTGCCAAGCCGGCTGAATGAGGATACCCAGGCTTCT
S
TGGCTTCCCTGGGCCCTCCAGGATCTGGAAGTTTCTACTCACTGCAGATGTAGCTCCTCAGTCTGGCTGTCCTGGTGGGAACCCATCTTTCCTCCCTTGA
Celera SNP ID:            hCV1743218
SNP Position Genomic:     43105
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36857):
TCTTTCCTAAAGGAAGTCGGTCTGGGAAATGGCCTTTGTCCTCCGTTATTTTAGTTTATGTCATCCCTCCCTGCACCCCCCCCCCCCAGCTTTTTGAAAC
R
TTCTGTTAAAATGTTTCTTGGCTTACTGTAATTGTATATATTTATGGGGAACAGTGTGATGTTTCAGTACACGTATGTGTTGTAGAGTAGATCAAATGAG
Celera SNP ID:            hCV1743219
SNP Position Genomic:     43557
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36858):
CCCCAGCTCAGGGCTCTGGCAAGTCACGGAACTCCCCACTCGGCTTGGGCCTGCTGAACCAGCTCCTGTTCTGGGCTGCCTGCGATCTGGACTCCTGCAG
Y
CCTGGGCTGCCTGGGATCTGGACTCCTGCAGCACAGAGTCCTGTGCTCACTCATCATCCAGTTGCCCCTTGATCTCTGCTTAGGTTTTGTTCATTTTCCC
Celera SNP ID:            hCV12040470
SNP Position Genomic:     83993
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36859):
GTGAGAGGAGGCTGGTGGCTCCCAGCTGGGTGGCAGTGGTGTCTCTAAGCACAGGTGCTGGTCGCCTAATGGTGTTGCTTCCTGACCTGCTTGTGCTGTT
Y
GGTTCCTGCAGGCCTCTCCTGGGTTGAGCAACGAGAAGGGCATGGACGCCGTGTCACCTTGGAAGTCCAGCGCAGTGCCCACTAAACACGCCAAGGTAAA
Celera SNP ID:            hCV25997451
SNP Position Genomic:     126258
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,40)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:36860):
CCACCTCCCAGCCCTGGTTTGTTGGGGATTAAATTTCCAACACATGCCTTTTGGGGGACATGTTAAAATTATAGCACCCCAAATGTTACACTATCTTTTG
R
TGAGCGGTAGTTCTGATTTTAAGTCTAGCTGGCCTACTTTTTCTTGCACGTGGGATGCTTTCTGCCTGTTCCAGGGCAGGCAGCTCTTCTCTGTCCCTCT
Celera SNP ID:            hCV12040478
SNP Position Genomic:     59534
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,13)      total(G,2|A,13) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36861):
CGGCCTCCGTGGCCCCTCAGACTAGGACTGCCCTGCCTCCACATCCCGAGCCTCAGGACTTCCGTGTGGGTGGCAGGTGCTTTCGGAATGGATGCCCTTC
Y
GCCTAGTGTCTGCCCTCCTAGTACAGCAGGGGGCCGGCATGCTTCATGCTCCCTGTGAGGGTCGACTGGCGTATGCACGTCCTTCAGCAGTGTCCTTGGG
Celera SNP ID:            hCV11675952
SNP Position Genomic:     9681
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,13)   total(C,13|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36862):
GTGTGTCGACACCACAGCATCTCTAGCACAGGCCTCAGCCCCAGCAGGCTCTGCATGGTGGGGAGGCGTAAAGGAGGCAGGCGGTGTGGGAGGCAGAGCC
R
GGTCCCGCTGGGCATGTGTGGGGTGGCAGTGGCTCCCCTGTCGTGCCCAGCCGAGCCTTGTGCCCCCTCTTTGCTGTGCCACCTGGAGACGGAAGCCATT
Celera SNP ID:            hCV836600
SNP Position Genomic:     110013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36863):
TGATGTTTCAGTACACGTATGTGTTGTAGAGTAGATCAAATGAGAGTACTAGCGTGACTGTAATCTCCCACACTCATCATTTCTGTGTGGTCAGGACATT
S
AGAAGCCGCTCTTCTAGCTGCTCTTCTAGCTCTTTTGTATTTTACGGGAACTTACTGGTAACCGTCATTACCCTGCTGTGCAGGAACAGCAGAATTTAGA
Celera SNP ID:            hCV1743220
SNP Position Genomic:     43714
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36864):
TCAGTACACGTATGTGTTGTAGAGTAGATCAAATGAGAGTACTAGCGTGACTGTAATCTCCCACACTCATCATTTCTGTGTGGTCAGGACATTCAGAAGC
Y
GCTCTTCTAGCTGCTCTTCTAGCTCTTTTGTATTTTACGGGAACTTACTGGTAACCGTCATTACCCTGCTGTGCAGGAACAGCAGAATTTAGACTGTAAC
Celera SNP ID:            hCV1743221
SNP Position Genomic:     43721
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36865):
CTTGTACCATGACCCCTTGACAACCTCTCCCTCCCCTCCTCAGTCTCTGATAACCACTGTTCTGTGCTCCGCTTCTATGGTACCAACTCTTCTTTTTGAG
R
TCCCACATATGAGTAAGATCATGTGGTATTTGTCTTTCTGTGCTTGGCTTATTCCACTTAACCTTGATGTCTGCTAGGTCCATTCATGTTGTGTTGTCGC
Celera SNP ID:            hCV1743222
SNP Position Genomic:     43921
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36866):
CCTTTTTATTTTGATATAATCCATTTGTTTCTTTTTGCTTTTGTTGCCTGTGCTTTTACGGTTTTATTTAAAAAAATCCTTTCACAGCCCAATGTTACTT
W
AAAAAATCCTTACTCAGCCCAGTGTTACGAAGCACTTCTTCCGTTTTCTTCTAGTAGTTTCATAGTTTCAGGTTTTACATTTAAGTCTTCAATCTATTTT
Celera SNP ID:            hCV1743223
SNP Position Genomic:     44805
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,11)   total(A,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36867):
GCATGTGTGGGTGGATGTGTGTGCATGTATGTGTGCATTGTGTGCGTGTGTGCATGTGGGTGCATGCATATGTGTACATGTGTGGGTGCATGCATGTGGG
Y
GTGCATGTGTGTGTGTGGGGCATGCGTGCATGTATATGTGTACATGCATGTGTGTGCATTTGTGGCTGGATGCGTGTGTGCATGCATGGGTGCATGTTTG
Celera SNP ID:            hCV8823590
SNP Position Genomic:     130878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36868):
GTTTTCTTCTAGTAGTTTCATAGTTTCAGGTTTTACATTTAAGTCTTCAATCTATTTTGAGTTGACTTTTATATATGGAGAGAGGTAGGGCGTCTCATCT
Y
ATTCTTCTGCATGTGGGTGTCCAGTTTGTCCAGCACCATTTATTGAAGAGACTGCCTTTTCCCCAGTGCGTGTTCTTGGCACCTCTTTAAAAATCAGTCA
Celera SNP ID:            hCV1743224
SNP Position Genomic:     44948
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36869):
GCATGTGTGGGTGCATGCATGTGGGCATGCATGTGTGTGCGTGTGGGGGCATGTGTGCATGTATGTGTGTGCATGTGTGTGTGTATGGGTGCGTGTGTGT
S
CATGTGTGGGTGGATGTGTGTGCATGTGTGTGTGCATTGTGTGTGTGTGCATGTGGGTGCATGCATGTGTGTACATGTGTGGGTGCATGCATGTGGGCGT
Celera SNP ID:            hCV8823591
SNP Position Genomic:     130611
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,3)      total(G,3|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36870):
TAGGGCGTCTCATCTCATTCTTCTGCATGTGGGTGTCCAGTTTGTCCAGCACCATTTATTGAAGAGACTGCCTTTTCCCCAGTGCGTGTTCTTGGCACCT
Y
TTTAAAAATCAGTCAGCTGTAGGTGGCATGAATTTATTTCTGGAATCTCTATTCTGTTCCATTGGGCAAACCTAATGTGAGTTTGTGATGGGGACAATAT
Celera SNP ID:            hCV1743225
SNP Position Genomic:     45033
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36871):
TTGGCTTACTTATTTGCCTAATTTCCTCTGTATATAACCAATCTGCTGACCACACTGGCCAAATCCCTTTGGCTACAATACCACTGGCCATCTTTATGTA
Y
GTGTATATTTCAAAACATCAGTACCAACCAGGGCTAGACACTATCTGTCAGTGCAAGATTTCTGAAGGTGCATTTGTCTTTAGGTCCTTTGTGTCCTGTG
Celera SNP ID:            hCV8823592
SNP Position Genomic:     129893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36872):
TGATGGGGACAATATAGAAAACTATAAAGAAGAAAATAATCTACAGTTCCTGCCTGCAGATCCACATGTATACATGTAAGTGCACATGCTTTTAAATACC
R
TCGCTATCAGATGGAATCGTAATAGTTTCATATGTTACTATTCTTTTCACTTACAATATTACGATTATTTCTCAATTTATTAAATCTTTGACAGTATGAT
Celera SNP ID:            hCV1743226
SNP Position Genomic:     45219
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36873):
AGGGAAATCCTAGACACTGTGTTAGTTTACCCATAATTACTGCAGTGTGTATCTCTGACTGATAAGGACTTTTCTTTTTATCATGACTGCATGCTGTCGT
Y
GCTGCCCCCAGTCAACGCAGACCTCGGCATCGTCTGCTGGGGCTGTAACCACGGGCCTTTCTACCACTGGTGCGTTTGGATCAGGACCCGCTGTCCTGGG
Celera SNP ID:            hCV8823593
SNP Position Genomic:     127744
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36874):
AAACTGTTCCTGGGCCAGGTGTGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCGAGGTAGGCGGATCACAAGGTTAGGAGTTCGAGACCAGCC
Y
GGCCAATATGGTGAAACCCCGCCTCTACTAAAAATACAAAAATTAGCTGGGCGTCATGGTAGTCACCTGTAATCGCAGCTACTTGGGAGGCTGAGGCAGA
Celera SNP ID:            hCV1743227
SNP Position Genomic:     46288
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36875):
CTGGGCAGTGACACTGGTGTGGCTGTTCCCCACTGGCATGTCCAGCCAAATAAGCAAAGTCCCTTAGGACCCCTGGCCACCACCACTGGAGTCTTGCCTC
S
TCCTTCGCTCCCAGGGCAGCGCAAATTCCTGGATCCTCTGGGTGTCTCTGTTCCTGGTGGATGCTGTGCTCCACCCATCCTAGGCAGGGCATGGGCGTCC
Celera SNP ID:            hCV2947402
SNP Position Genomic:     64737
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,11)      total(G,4|C,11) ;(G,-|C,-)   Caucasian(G,37|C,45)   African-American(G,28|C,54)   Asians(C,23|G,55)   total(G,120|C,122)
SNP Type:                 INTRON


Context             (SEQ ID NO:36876):
GCTTGCCCAGAATGATTCTTTAACTGATTTTTTTGCCAGGGTTCCTTGAGCTTCTTAGATCTCTAGATTTATAGTTTTCATCACATTTGGAAAAATTGTG
K
TCATTATTTCTTCACATATTTCTTCTGTCTTTCTCTCTCATCCTCTCATTCAGAGGCCCCAGTTACGTGTTTATCAGGCTGCCAGAAATTGCCTCACAGC
Celera SNP ID:            hCV2947403
SNP Position Genomic:     75267
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36877):
TCACCAGTGAAAACTTGCTTTATTTTATTTAAGTGTGCAGCCACAGCTTTGCCTTGATCTAAGGAATGTATCTGATCTTTATTGAGTGCTCTAGGTTAAC
R
CTTTTTCCTTACATGAGTGGGAAGTCCCAGCCATCGCGTCCTGTTGCCAAAACCGTTGGGAGGAAGGTTTTCCTCTGCTAGCTCAGGTCTGAATGGTAAG
Celera SNP ID:            hCV8823594
SNP Position Genomic:     127148
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36878):
TTTGTTTTTTTTTGGGTTTTATTTGAGACAGGATCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATTATGGCTCATGGCAGCCTCGACCTCCTG
R
GCCCAAACAATCCTCCCACCTTAGCCCCCACATAGCTGGGACCACAGGCATGCACCACCATGCCCAACTAATATTTTTTTTGTAGTTTTTGTAGAGATGG
Celera SNP ID:            hCV8380244
SNP Position Genomic:     98647
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36879):
CCTTTGGCTTCAGGCAGAGCCGGGTTTCCACCTGGGATCTGCTGTTCCCTTTGTTCCTGGCAGCCTCAGCCTTCTCTGGCACAGTGAGGCCGGTTGGTGA
Y
GGTTGCTGCCTGGAGAGTCAGTGTGAGAGGAGGCTGGTGGCTCCCAGCTGGGTGGCAGTGGTGTCTCTAAGCACAGGTGCTGGTCGCCTAATGGTGTTGC
Celera SNP ID:            hCV8823595
SNP Position Genomic:     126135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36880):
TTTGTAGAGATGGGGTTTTGCCTTGTTGCCCAGGCTGGTGTTGAACTCCTTGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGAGATGACAG
R
CGTGAGCCACCATGTAACAAATGTAACATTTGTTACAATTGATGAACCAGTATTAAAAAATTATTATGAACTAAACTCATAGTTTACACTAAAGTTCATT
Celera SNP ID:            hCV8380245
SNP Position Genomic:     98835
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36881):
TTGTGTGCAGGGGGTGGTGTGTGAGGTGTGCCTGCAGGGGGTGTGTCATGCCCGGGTGCGTGAGGCCGGCATGGGGTGTGGAGTGTGTGTTTCAGCTTTT
R
ACCTTTTGGGGTCAGCTCTCTAGGGTGGTGGTCATCGCTTAAGGTGGACTTGAGATGTCCCTAGAGGCTCACTCACAGGATGCCATGCTGGCTCTTGGGA
Celera SNP ID:            hCV8823596
SNP Position Genomic:     125902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36882):
TCCAGCCTGATGGGTGTCGAGCTGGACCATCTCCTCCTAATTTTCTTTACTAAGTTGGTTGGAAGGGCTTCTTAAAGCCCAGTGAATCTAATGGATTGAC
R
TTTTCTAGCATCTTCTTTCCAGTTAATGTTGTTTGGTCCCTTCCGACTGCAGCACTGTCTGCTCTATGCAAGATGCAGCTTTGCAGGCATGTGTGCGGGG
Celera SNP ID:            hCV8823597
SNP Position Genomic:     125429
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   Caucasian(A,26|G,44)   African-American(A,8|G,58)   Asians(A,21|G,57)   total(G,159|A,55)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36883):
ACCGCCCACGTCCCCTTCAAGTTCCAGAGCTTCTCTGCAGGGCAGCTGGCCATGGTGCAGGTGCGGGTGTCAGGCACACAGGGAAGTTGCATTTGGCTGA
Y
GACGGTGGGAAATTGAGAATGCTTCCAGTCTCCACCAGTGTCCCTCCCTTACCTGTGCAGACAGACTAGCCTTGGGGCTGCCGCCCACTCCCCTTGGTGC
Celera SNP ID:            hCV8823598
SNP Position Genomic:     125175
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,9)   caucasian(C,22|T,10)   total(C,33|T,19)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36884):
CCCCCACGAGACCGCCCACGTCCCCTTCAAGTTCCAGAGCTTCTCTGCAGGGCAGCTGGCCATGGTGCAGGTGCGGGTGTCAGGCACACAGGGAAGTTGC
R
TTTGGCTGACGACGGTGGGAAATTGAGAATGCTTCCAGTCTCCACCAGTGTCCCTCCCTTACCTGTGCAGACAGACTAGCCTTGGGGCTGCCGCCCACTC
Celera SNP ID:            hCV8823599
SNP Position Genomic:     125165
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,3)   caucasian(A,27|G,9)   total(A,52|G,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36885):
ATATGTATTATATATTTTATATATAGTATATTTATATGTGTGTTATATATATATAAAATATATACATATAAAAAGTTGAGAGTGAGGTCTCCTTTCCCCA
Y
CCCCTCACCTGCTACCAGGTAACCTCTCTCTTTGGGTTCTTGTGGATCTGTCACTGGAGAACCGAGTTCTTTTCCCACTTTGTGTCGGCTGCAAAGAAAG
Celera SNP ID:            hCV12040481
SNP Position Genomic:     34784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36886):
TTGCTGGTGAGAGCGTGGGACAGCCCGGGGGTGGATGCTGGGATTTGGATGCTTATTTCCAGGTCGGGGGTGGAGAGACCTACACCATCGGCTTGCAGTT
W
GCGCCTAGTCAGAGAGTGGGTGAGGAGGAGATCCTGATCTACATCAATGACCATGAGGACAAAAACGAAGAGGCATTTTGCGTGAAGGTCATCTACCAGT
Celera SNP ID:            hCV25998405
SNP Position Genomic:     136238
SNP Source:               Applera
Population(Allele,Count): african american(T,18)   caucasian(A,1|T,37)   total(A,1|T,55)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:36887):
AAGTGAGCTGCGAGGCAGGGGTGACAGAGAGCCCGTCTCCCTCTGTCTCCAGTGACCTTGCCCTGCAGGCGATTTGATGGGCTTGACTTAACCTTTTAAT
M
GTGCAGTTTCAGTTGATGTAGAGAATGTTCCTTTCCAAATGTATGGCAGTGGCGCTCGTTAAGTTTCCCTAGACTGAAGGATGTGTGTACAGGTATTCCT
Celera SNP ID:            hCV12040483
SNP Position Genomic:     27799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36888):
ACTAAAGAGCTTCCTCATGTAACCAAATACCACCTGTTCCCCAAAAACCTATGAAAAAAAAGAAAGAAAGAAATTAAATTAATTTGCAAGAAAAAAATAA
R
CTCCTCCTGACTTGATTCATTTGCTCATGAGAGATAAAGAGTGTGCATCCCCTAAGTGCTGCTGGAGTATTTAGTCATGTGCTTTTCCATAAGCAGGGAC
Celera SNP ID:            hCV12040484
SNP Position Genomic:     26881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36889):
TTATGTTGGATTAAAAACTGCACCTCCAGGCCGGGCATGGTGTCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGGATCACTTGAGCCC
Y
GGAGTTTGAGGCTTCAGGAAGCTATGATTACACCACTGCTCTCCAGCCTGGGCAAACAGAGTGGCACCCTGTCTCTAAAAACAAACAAACAAACAAACAA
Celera SNP ID:            hCV27836246
SNP Position Genomic:     37325
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(T,38)   total(C,5|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:36890):
GGGGGACTAGTGGAACATAGTCCTTAAAACCTCTGGAAAAATCTGCACCCTTGGACTTGGAATCGCTGAAGAAGGGAATGCAGCAAGGACAGTGTGGTGT
R
GCCAGGGCACTTTCAGCTGTGAGGGTGATGCTGAAGCCCCCGTGCTATTCATGGAGCCTGCTGTCTGCAGCTGCTATGCCCCGTGTGGGCAGCAGAGGCC
Celera SNP ID:            hCV27990970
SNP Position Genomic:     24138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36891):
GCGGGGATCTGTGTGGGACCTGAGTGCAGTCTGGGCAGTGACACTGGTGTGGCTGTTCCCCACTGGCATGTCCAGCCAAATAAGCAAAGTCCCTTAGGAC
Y
CCTGGCCACCACCACTGGAGTCTTGCCTCCTCCTTCGCTCCCAGGGCAGCGCAAATTCCTGGATCCTCTGGGTGTCTCTGTTCCTGGTGGATGCTGTGCT
Celera SNP ID:            hCV3080607
SNP Position Genomic:     64707
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,15)   total(C,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36892):
GCCAAGCCCGGGACTGGGAGCAGTGGGGAGCCACCCCATTTTACTTTTGTCACCCCTGAAGGGTGCAGCTGTCTCTGTTAGCCAGGGCTGGGGGGAAGCC
R
TAGCAAGTGGAGCACTGTAGGAAGTGGAGCACTGTGCTCATGGTCCAGTCACCACCTCCTGCTTGGGGGTTGTTTCTCCTGCGCATGGGACACAGAGGCT
Celera SNP ID:            hCV3080608
SNP Position Genomic:     65070
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36893):
AGCTGGGTGGCAGTGGTGTCTCTAAGCACAGGTGCTGGTCGCCTAATGGTGTTGCTTCCTGACCTGCTTGTGCTGTTCGGTTCCTGCAGGCCTCTCCTGG
S
TTGAGCAACGAGAAGGGCATGGACGCCGTGTCACCTTGGAAGTCCAGCGCAGTGCCCACTAAACACGCCAAGGTAAAGGGGCAACGGAGGACAAACTGAT
Celera SNP ID:            hCV25997397
SNP Position Genomic:     126281
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,1|G,39)   total(C,1|G,73)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:36894):
TGCATAGATGTCGCCTGTGCCCGTTTCTACGGTAGCCGCATCATGCTCTGTGGGGTGGTTATGCTGCTCTTTATTCAGCCGGTCTCCTAATAGACGTTTG
Y
GTCATTTCTAGTATTTCGCTATCTCAGCAATTAGTAACCTTGGTTCTTTCTGGTTCTGGAAAGGGGATAATGGAATCACAGGCTTCAGTGGTGTTGACAG
Celera SNP ID:            hCV1743300
SNP Position Genomic:     103824
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,9)   total(C,5|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36895):
CAGTCTTTCGTTGGCCAGGGGAGGGCCAAATGCTTTGGTTTATAACCCCACCAAGACCAGTAGCTGTGGGAGAGAGGTAGCCTCCCAATAAGGAAACCAG
S
GTGCTGATATCTGAGCGAGGTGGCCCCATATGCACCCACATGGCCTGCCAGTGACCTCCTGGCTCATGGTGCTCAGACTCTTGAGGGTCAATTCCCCGTT
Celera SNP ID:            hCV27918471
SNP Position Genomic:     21068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36896):
CATAGATGTGAAGTCCATCTTAATGCAGTTTTTTTGTTGTGTTTTGTTTTGTTTCTGTTTGAAACGAAGTCTTACTCTGTTGCCCAAGCTGGAGTGCAGT
K
GCGCGATCTTGGCAAACTGCAGCCTCCACCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGCCACCATGC
Celera SNP ID:            hCV1743301
SNP Position Genomic:     104146
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,8)   total(G,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36897):
GTCACCCCAAAATCTGGGAAGTTGAGGATTTAGTTTCTGGTTATATCAGGAAGGGCTCATTTGGTTGGAAATGATTAACAAACCCATCCAAAATGATTTA
M
GTGAGAGGCGATTTGTTGACTCACAGCAAATCCACAGCCAGCATAAGCTTCAGGTGTGGCTTGAGCGAGGTCTCAGGTGATGTCCCCTGGACTTGTTCTC
Celera SNP ID:            hCV27918472
SNP Position Genomic:     20739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36898):
TCTGTGTAGAAGCTTGTTTGTATGCCAGACAAGACTTGGAAAAGCCTTTGCAGGTTTGGGGACTGCTTATGTTTTCTAGGCGATAATCTGTCCTTGGTCT
R
GAAAAATTGGGCCTGATGAACTGTCACAAATAGTGTTGGAATGAGGTCTGTCCGCCCTGGCTCTTCTGTCGCCAGCAGCAGGGGGAACAGGCATGTGGGA
Celera SNP ID:            hCV1743230
SNP Position Genomic:     47906
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,9)      total(G,9|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36899):
AATTAATGATAATGTCACTTCAAGAAGATGAAGGCAGGGGCCGCAGTCCAGTTCCCATCTCTTAGCCTGATGACCAGGGCAGACCGCACGGGAGGAGCCC
R
GGATACCCACGGGGCAGGTGCCGTCCTGCTTTAGGGCCAGGAGAGGGGCTGCTGGGTGTCCCACACATCATTCTAAGCCTGATCTCGGTTTGAGCTCTGC
Celera SNP ID:            hCV1743303
SNP Position Genomic:     108086
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36900):
GCCTCCTTTGGTGCCTCTTTGACAGGGTCTCCTGGCTTCCAGCTGAGGTACATGGTGGGCCCTGGGTTCCTGAAGCCAGGTGAGCGGCGCTGCTTTGCCC
R
CTACCTGGCCGTGCAGACCCTGCAGATTGACGTCTGGGACGGAGACTCCCTGCTGCTCATCGGATCTGCTGCCGTCCAGATGAAGGTAGCGGCTCTCTGG
Celera SNP ID:            hCV1743304
SNP Position Genomic:     108652
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:36901):
CCTGGCTCTTCTGTCGCCAGCAGCAGGGGGAACAGGCATGTGGGACGGAGATTGCCTGGTTCTGCTGGAGCCCTGGGCTCAGCCCCCTTGCCTGCGCCTT
Y
GCTGATGATCACCAGATGGAGTAGGGAGAAGAGGGGTCAGCCCTGGCTGCTCTCAACTCTGGAAGGAGGGGCCCTCAGACCTGGGTTGTGGGCAAACCAC
Celera SNP ID:            hCV1743231
SNP Position Genomic:     48062
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,10)      total(C,4|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36902):
ACACGCTCCACGCCACGCTGGGGGTCGCCGAGTTCTTTGAGTTTGTGCTTAAGAACCCCCACAACACACAGCACACGGTGACTGTGGAGATCGACAACCC
Y
GAGCTCAGGTGAGGTCTCAGTGGTGCCCGTCCTGCCCCAGCCCAGATCTGTGTCGGGTGCAGCCGGCACCCCTGCTGAGCTGGCTCGAATTCTGCCCGAG
Celera SNP ID:            hCV25997034
SNP Position Genomic:     124723
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,40)   total(C,67|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:36903):
CGGCTGCACCTTCCTCCCCGCCCATTCCCTCGGGCCTTTGTGCTAATCACATCTTGGCTTTCTGTTCTGGTTCTACCGCCTATCGATGCATCTCTAAACA
R
TATAGGCTTGCCTGCTTTTGACCTATCTTTAAATGAAGTCGTACTTTTTTCTTCTGTTTTGTTTTGCTGCTTTTGCTCAAGACCATGCTCCCGTGGGAGG
Celera SNP ID:            hCV1743232
SNP Position Genomic:     48534
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36904):
TCAGTGTGACCCCTAGCCCAGCCCTGGGGCAGTTCTGTTTTTATCCTTGTTTCTGGTGGAGAAAACAGAGGCCCAGGGTCACACTGATGATCATCAGGGC
R
GAGTCTTAGCCTAATTCTGTCTCCGGGGCTTGTGCTATTTACCATCCTCTTCTCCCTAATGACATGTTCCCGGAAGTAGAATTCTGATGGTGCCACCGTG
Celera SNP ID:            hCV1743305
SNP Position Genomic:     110647
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36905):
TGAAGGCTGGTGCGGTCTGTTATGCTGCCATCCTTGATTGGTGGCATATTTTGCTCCTTAGGTATTGGGGGAAGGAAATTCTCTGAGGAAGTGTCCCTCA
Y
GTTCACTTGAAAGTCCCAGAGAACATTTTTTTCACTCAGTAGTCAAAGAGGTCTTTTAAAAACATAAATTCATTGCTTCTCGGCCTTTTGGGTAAGATGA
Celera SNP ID:            hCV1743233
SNP Position Genomic:     49391
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36906):
CCAGGGTCACACTGATGATCATCAGGGCAGAGTCTTAGCCTAATTCTGTCTCCGGGGCTTGTGCTATTTACCATCCTCTTCTCCCTAATGACATGTTCCC
R
GAAGTAGAATTCTGATGGTGCCACCGTGAGGGCCGCAGGCATGCAGAGCCAGATGGGGGTTTGGCCCGAAGGCTCAGCCAGGCCTGCACTTCCTGAAGAC
Celera SNP ID:            hCV1743306
SNP Position Genomic:     110719
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36907):
TTTCCCCTGCCTCACTATGTGCTGCCTCCTGGTCATGGTTTGGTCTTTGCTGGTTTCCCTACTTCACTGTGTGCTGCTTCCTGGGCCTGTTTTGTGGTCC
Y
GGATTCAGGCATGCCTCTGCCTAGGTGGCCTCGGACTCATGCTTGTCCCTGCATGGGTCCTGGAGCATGTAGCTGACTTTCCTGAATGTTCTTCCTGCAC
Celera SNP ID:            hCV1743234
SNP Position Genomic:     49805
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36908):
GTTATCTCCAATTGTCATTTTCATACTTTGCCTGCAAGAGAGAGATAAGCTCATAGGAAGGGGAGGCTGAGATAGCCAGCCTGGGAGACTCCGGCGCTGA
Y
GGGAGAGGGAGAGGTTTTCACAAAGGTCGAATCCACCCGCAGCACTCTGCGCATCAGTGCAGCGAGCCTGGCTCTCCTCCGTCAGTTCTGCGTTTTTTGG
Celera SNP ID:            hCV1743307
SNP Position Genomic:     113675
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,12)   total(C,12|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36909):
TGTAGAGTAGGACGGGGGTTTTTCTGGGAGCTTGGGCACTTATCTTGGTTGCGGAGTAGGACGGGTTTGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTC
R
AGTAGGACGGGGGTTCAGCTGGGAGCTTGGACAGTGATCTTGGTTGTCGAGTAGGATGGGGGTTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTGGAG
Celera SNP ID:            hCV1743308
SNP Position Genomic:     114388
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36910):
GGGGGAGTGGGCTGTGGGACCTTGGAGGAGTCTTGAAGGAGCCAAGTACGAGTTTGCTGCATCTTGAGAATGGTCAGCCCAGCCTTGGAAAGCTAGTGTC
R
GGTTTTGGGGATCGAGGCATCTGAGGGTGTGCGTTGCTGAGAGGATCATGCTGTGTTGGAAATGCCAAAACTGCCCGGGCAGTGCCCCAAGGCCAGTGGC
Celera SNP ID:            hCV1743238
SNP Position Genomic:     51072
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36911):
AGATGACTCACACACTTTACCCTGCCCCTTTTGCTTTGTATCCAATAAATAACAGCGCAACCAGACATTCGGGGCCACTACCGGTCTCTGCGCATTGGTG
R
TAGTGGTCCCCTGGGCCCAGCTGTCTTTTCTTTTATCTCTTTGTCTTGTGTCTTTATTTCTACACTCTCTCGTTGCCGCACACGGGGAGAGACCCACCGA
Celera SNP ID:            hCV26334087
SNP Position Genomic:     106320
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,11)   total(G,11|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36912):
TGAAAGAGCAATGAGAGGCTGAGGCGGGAGGATTGCTTGAGCTCAGGAGTTTGAGACCAGTCATGGCAGCCTAGTGAGACCCCCATCTCTTAAAAAGCAG
Y
GTTTTGGGGAATTTCTGAATCATTTGGAAGAGCGTGCAGTGTTACATGGTGGACTTGCTGTTGCAGCAGCACCCCTGTGTCCCCCAGGGTGTCCCCTTGA
Celera SNP ID:            hCV1743239
SNP Position Genomic:     52189
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36913):
TCCTCTCTCTCTCTGCCTGGGCTGCCAGGCAGGGAAGGGCCCCCTGTCCAGTGGACACGTGACCCGCGTGACCTTACCTATCATTGGAGATGACTCACAC
W
CTTTACCCTGCCCCTTTTGCTTTGTATCCAATAAATAACAGCGCAACCAGACATTCGGGGCCACTACCGGTCTCTGCGCATTGGTGGTAGTGGTCCCCTG
Celera SNP ID:            hCV26334088
SNP Position Genomic:     106233
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,13)   total(A,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36914):
TTTGTCTCCTCTCTCTCTCTGCCTGGGCTGCCAGGCAGGGAAGGGCCCCCTGTCCAGTGGACACGTGACCCGCGTGACCTTACCTATCATTGGAGATGAC
Y
CACACACTTTACCCTGCCCCTTTTGCTTTGTATCCAATAAATAACAGCGCAACCAGACATTCGGGGCCACTACCGGTCTCTGCGCATTGGTGGTAGTGGT
Celera SNP ID:            hCV26334089
SNP Position Genomic:     106227
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36915):
TTGACTAAGCATCATCTGATCTGCAGTTATCTGCAACTTCTGCTCCAGTTTCTTCTCTCTGCTCGCCTCCCCCAGGGACTTCTGGCGAGCTCCCTCTTTC
Y
GTCTGTGCCGGGGCTCATTCCTTCTGTGCCTCTTCCAGGGATGTGGCCCACTGGACGGTGGTGCCCTGGAGATCCTGGAGCGGCGCCTGCGTGTGGGCGT
Celera SNP ID:            hCV25994202
SNP Position Genomic:     51313
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,38|T,2)   total(C,72|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:36916):
AGGCAGGTCCTGCACTGACCCTGCAGCCCACATGTTGCAGGCTCACCTGTTGGAAGTAGATACCTCTTGAGGGTGACAGATGGCCTCATGGCTTCATGCC
S
TGGTGCTGTCAGAGCAGCACGTGGGGCCTGGGGAATTCTCTCTCCTGCCTTTATGGTTTGAAACGGTGTCCCTCTTGCCACCTCTGAGATGACTAGGTGC
Celera SNP ID:            hCV25991087
SNP Position Genomic:     131964
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,38)   total(C,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:36917):
TTAGGGAACTGACGCTCCTCTTCTGTCATCACAGGCCCCATTCACATTCACAAATGTCCCAGCACTTGATAGATGGCCCGTCCAGTGGCCCCCACCAGCC
Y
GCTGCCCATGGAGTCCTTCTGGCGTGGCTGCAGCTGTTGTGAAGTGCACAGGCGGTTATCCTGCAGGGCGTGCCCAGTGGGGCTGGTCTGGTGTTCGTTT
Celera SNP ID:            hCV232659
SNP Position Genomic:     128710
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,11)      total(C,5|T,11) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36918):
ATCTCAGAACTCTGCAGATTGGAGCTGCAAAAAGCATGAGCCGCACTCTTGAGCTCCCTCCCTATATAGGTGGTCCTGGGAGGCCTGCCCTGGTGTCTGC
K
CCTGGAAGGCAGACACTGCACATCTACCTGACTCGCGCTCTGACCCTTTCGCAGGAAAACACGTGGTGCAAGCACAGAAGCTGGCGGACGTGGACAGTGA
Celera SNP ID:            hCV11598187
SNP Position Genomic:     122252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,8)      total(G,5|T,8) ;JBIC-allele(T,365|G,1122)   total(G,1122|T,365)
SNP Type:                 INTRON


Context             (SEQ ID NO:36919):
ACTGTTTCCTTGTGAGAAGGAGGCGGGGGTCACGTTGCTGTCCACTGTGTGGAGGCTTCTGCAGGGGGTGCCCATGCCCCATACAAGTGGAACCAGGCTG
R
GAGAGCTCGGGCTGGCATTGGTTTCCTGTGGGAAGTTTCTGCTGGTGCCAGAGAGTGAGGAAGGACCCAGGCCCTAAGCTGGTAAGCTGGGGCGCCTCTC
Celera SNP ID:            hCV11598188
SNP Position Genomic:     121423
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36920):
GGTCCCTCCACTCACAGCCGTGGCTGCAGGTAGCTCAGACCAGGCCTGTGCCGGAGACTTGTAAGAGCCACGCGGGGCATCTGCAGAGCAGTTTGCCGGC
R
TTAAAATTGGATGGTGGTGAGGGACCTGACAGTGGCACTGTTTCCTTGTGAGAAGGAGGCGGGGGTCACGTTGCTGTCCACTGTGTGGAGGCTTCTGCAG
Celera SNP ID:            hCV11598189
SNP Position Genomic:     121286
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36921):
GTGAAAGTACTAAAAGTCTCTGATATGCAGAAATAATGGTGTAAGCTGTCTTTCTCTTTGTCTCCTCTCTCTCTCTGCCTGGGCTGCCAGGCAGGGAAGG
K
CCCCCTGTCCAGTGGACACGTGACCCGCGTGACCTTACCTATCATTGGAGATGACTCACACACTTTACCCTGCCCCTTTTGCTTTGTATCCAATAAATAA
Celera SNP ID:            hCV26334090
SNP Position Genomic:     106171
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|G,8)   total(G,8|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36922):
GCCACCTAGGGGCTACCAGCCACAGTCATCTCATTAGCACACAAAAGATAGCACTTCGGAGATTCCGGGGGTTTCAGGAGTTGTATACCAGGAAACTGGA
Y
GAAGATCAAATACATATTTCACAAATCACAGGTGCATTCTGCTGGCTGGGAGTAATGCATAGGTCAGTAAGTTTCATGTATCATAATAGCGTTAATTCAT
Celera SNP ID:            hCV1743240
SNP Position Genomic:     53024
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36923):
AATTAGTGAAAGTACTAAAAGTCTCTGATATGCAGAAATAATGGTGTAAGCTGTCTTTCTCTTTGTCTCCTCTCTCTCTCTGCCTGGGCTGCCAGGCAGG
R
AAGGGCCCCCTGTCCAGTGGACACGTGACCCGCGTGACCTTACCTATCATTGGAGATGACTCACACACTTTACCCTGCCCCTTTTGCTTTGTATCCAATA
Celera SNP ID:            hCV26334091
SNP Position Genomic:     106166
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,8)   total(G,8|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36924):
GCGTTTGTTCCAAGACCCCAGTGGGGGCCTGAAACCTCTGTAGTACTGACCCCTACACGGTACATACTAGGTTTTGTCCTGCATATACATACCTATGACA
Y
AGTTTATAAATTAGGTACGGTAAGATATTTAACAACAATAACAATAAAATAGAACAATTATAATATACAGTAATAAAAGTGAACGTAGTCTCTCTCTCTC
Celera SNP ID:            hCV1743241
SNP Position Genomic:     53519
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36925):
GACGCCCGTTGCCAGGCGGACCATGGTCTAGCGGTAGCGAAAAGTGTCAAGGAACAACACCCGCTACTTAGCAGACCGGGAAAGGGAGTCTCTCTTTCCC
Y
GGGGGAGTTTAGAGAAGACTCTGCTCCTCCATCTCTTGTGGAGGGCCTGACATCAGTCATGCTCGCCTGCAGTTATCCGGAGGCCTAACCGTCTCCCTGT
Celera SNP ID:            hCV26334092
SNP Position Genomic:     105878
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36926):
AATTTCTAGTTTATTGCATTATGTTAAGAGAATATTATTTGTAGTATTTCTACTTTATGGAGTGCAGTTTTTTGTGGCCTGTGGGTGGCAAGCCAACCAG
R
TGCTGAGGCAAGAGAACGAGGACATGAGCTGTTCCAGTATAATAAAATATAAAACAAGAATAGTTATACCAGATATAGATCTTAGATGTGTTTATATATG
Celera SNP ID:            hCV26334093
SNP Position Genomic:     105456
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36927):
CCCGTCTGCAGCAGTGTCTCCCAGAGCAGCCTTCTTCAGCTGGGTGGGGATTTTTTCAGCTGGGTGTGGTTGTGCCTTCCGGCTGCAGCGTCCTCCTCCT
Y
GTCTTTGGTGAGGACCCTGCGTGGTGGAAGCTGTAAGCACAGCTGAAAACAGGCTGGCTGGTGCGATGGGCCCCACGGAGCTTCCCCGGCTGCCAGCTTC
Celera SNP ID:            hCV1743243
SNP Position Genomic:     55343
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36928):
GTGGTGGAAGCTGTAAGCACAGCTGAAAACAGGCTGGCTGGTGCGATGGGCCCCACGGAGCTTCCCCGGCTGCCAGCTTCCTGGACAATCTGCTTCTTCT
R
TGTCCTCTCCCACAACCCGTTTTGAATTATTCTGAAACAAATTCCAGGCATCATTTTATTTCATCTGTAAACCTTTTGGCATGAACATTTCTTTTTTTTT
Celera SNP ID:            hCV1743244
SNP Position Genomic:     55464
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36929):
ATTTATGAGTAAGTTGCAAATTTGTTTCTTAAAAAATTTTACCTTTTTTTTTTTTTTTGAGACTGGGTCTTGCTCTGTAGCCCAGGCTGGAATGCAGTGG
Y
GTGATCTCAGCTTACTTCAACCTGCACCTCCTGGGTTCAAGTGATGGGCCTCAGTCTCATGAGTAGCTGGGGCTACAGGCATGCACCACTATGCCTGGGC
Celera SNP ID:            hCV26334094
SNP Position Genomic:     105198
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36930):
CAGAAAATCTTTTTTGATTGTGTTTTCCCTTTGACAGAAAGTTATTTATGAGTAAGTTGCAAATTTGTTTCTTAAAAAATTTTACCTTTTTTTTTTTTTT
T
GAGACTGGGTCTTGCTCTGTAGCCCAGGCTGGAATGCAGTGGCGTGATCTCAGCTTACTTCAACCTGCACCTCCTGGGTTCAAGTGATGGGCCTCAGTCT
Celera SNP ID:            hCV26334095
SNP Position Genomic:     105155
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36931):
ATACGCGTTTCCTAGCATGTCTCATGGGTGTGGTTACCACGAGTTTGCCAGCACACCCGTATACACTGTGGGTTTCTTTCATTTTTCTTTTTTCTTTTTT
C
TTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTGTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACCGAAAGCTCCGCCTCCCGGGTTCA
Celera SNP ID:            hCV26334098
SNP Position Genomic:     87046
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,7)   total(C,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36932):
AGGCCCCATTCACATTCACAAATGTCCCAGCACTTGATAGATGGCCCGTCCAGTGGCCCCCACCAGCCTGCTGCCCATGGAGTCCTTCTGGCGTGGCTGC
R
GCTGTTGTGAAGTGCACAGGCGGTTATCCTGCAGGGCGTGCCCAGTGGGGCTGGTCTGGTGTTCGTTTCAGTTAGACCCAGGTTATGCACTTGGGGCAGG
Celera SNP ID:            hCV232660
SNP Position Genomic:     128742
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,10)      total(G,5|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36933):
CACGAGAGGTATTTGTTGGGGTGATGCAATCTGAAAACTTGAGCTCATGATAAACCCCAACTTGCGCAGGCCCCAGGTCCCTCCACTCACAGCCGTGGCT
K
CAGGTAGCTCAGACCAGGCCTGTGCCGGAGACTTGTAAGAGCCACGCGGGGCATCTGCAGAGCAGTTTGCCGGCGTTAAAATTGGATGGTGGTGAGGGAC
Celera SNP ID:            hCV11598190
SNP Position Genomic:     121211
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36934):
AATCCAGGCGCTGTTCCCTGGGATGTAGAGGGGCTGAACTCAGGTAGAGCAGCTCGGAGACCTGCCTGGCTCCCTTGGTAGGACGGGCACTCCCTTTCCA
R
CCTCAGCTCAGACCCATTCTAGAGAGACACCTCCGTCAGCCAGCTCTGGTTTTGTCACCAGGAGAACCTGGGTTGGACGGAGGATATGGCTCACCTCCAC
Celera SNP ID:            hCV11598193
SNP Position Genomic:     118230
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,11)   total(G,11|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36935):
GGAGACCCCTGCGAAGCATGTGGGAGCAGAGGTGGCCATGGCGGGCAGGACAGGAGGGAGGGTCTGAGAGCAACAGGGAGAGGACCGAAATAGCCCTTGT
Y
CTAGGTGCTCGTTCCCAGGAAGCTGGCTTGGAGTGAGGACTGAGTGGACGCTGCAGCTGCCAGGAGGCGGTTGGTAGCCCGAAGGCAGAAGCACAGTGTA
Celera SNP ID:            hCV11598194
SNP Position Genomic:     116918
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36936):
CCAGTTCCACCCAGACCACATGGTCAAGGAAGGGGGTGGTGGTGGCGATGCTTGTGGAGAAATGTCCTCTTCTGAGATCGCGGGTGGTGGGCAGCCAGCA
R
TAGCCCCTTGTGGAGGAGAGTGTGCCTGGGACCCTGTCCACCCATGTCCTCTTGTCTGCAGGCGCAGCAGAGCGTCCGCACACAGCACTTGCGGGACCTA
Celera SNP ID:            hCV1478327
SNP Position Genomic:     124443
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,2)   caucasian(A,22|G,6)   total(A,24|G,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36937):
GAAGGAGGCTGTCATGAGCCAGGTGGGGACAGGACATGGGCTGGAGACTGGGCTGTGGGCCTCAGGGAAGCCAGGCAGATGACTCAGTGTGCAGGGCTCC
Y
ACCCTGGCCTCTGAGTGGGCAGAGGTGGCCCCGTCAGGATGGGCTTGGGGTCTGGCTTGGTGGTTTCATGGTGGGCAAAGGCAAATGGCAGTGTATGTGA
Celera SNP ID:            hCV1478329
SNP Position Genomic:     89397
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36938):
AGCTTGGGCAGTGATCTTGGTTGTCGAGTAGGACGGGGGTTCAGCTGGGAGCTTGGACAGTGATCTTGGTTGTCGAGTAGGATGGGGGTTCGGCTGGGAG
Y
TTGGGCAGTGATCTTGGTTGTGGAGTAGGACAGGGGCTCGGCTGGGAGCTTGGGCACTGATCTTGGTTGTGGAGTAGGACGGGGGCTCGGCTGGGAGCTT
Celera SNP ID:            hCV11598197
SNP Position Genomic:     114463
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36939):
ATTATGTTGAGGAAAAATAGTTTCTTTTAATTCCTTGTTTGAAAACACTCCTAGCACCATGAGTCTCTGCTGCTTTATCTAAAGCATCTCTGGGGCTCAT
G
TGTTTGTGAAGAGCTTGCCTAGCTTTTTATTATTGGCGCATGAGACATGGTGTGAGGGTGACCTGGTTTCCTCTGGGCTGAAACAGAAAGCTTGGGAATG
Celera SNP ID:            hCV11598198
SNP Position Genomic:     93119
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,14)   total(G,1|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36940):
TCCGAGTTCCCATTTACGGAGGAACGGCGTGGAGCTTCACTTACCACTCTGCTGTGTCATCTTTCAGGCTTTTTCTGGGAGGAGGTGGGCAGGGGTTTGC
Y
GTACGGAGCTCTGAAATGGACTGTAAGAGGCACTCAGGGAATCTGGGGAGAGGCATCGGCTTTGAGGACAGCTGGGCCCCTGCAGAATCCTCATCTGCAT
Celera SNP ID:            hCV11598199
SNP Position Genomic:     88348
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36941):
GATGATGGCGCTCACCTAACAGAACTGCAGACTGTTTCGGAGACGCACTGAGCAGGTAACAGAGTAATTGCAAGTTGTGTTAAATTCTCAGGAGGAGACC
R
ATAGGAGAACGTGGAGACCAATAGGAGAACGTGGAGACCTGCTTTAGGTGGGTGACGAGGGAGGCCTCTCTGCGAAGCTGCTGATTAAGCTGGGACTTAC
Celera SNP ID:            hCV8823838
SNP Position Genomic:     22105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36942):
TATTTTTGCATTGCTCGAGTATATTGACTTTGGAAACAAAAGACATCATTCTATTTATAGCATTATGTTTTTAGTAGTGGTATTTCCATATACAAGATAC
R
GTAATTTTCCGTCAATGAAAATGTCAAATTCTAGAAAATGTAACATTCCTATGCGTGGTGTTAACATCGTTCTCTAACAGTTGTTGGCCGAAGATTCGTT
Celera SNP ID:            hCV1743253
SNP Position Genomic:     60643
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,13)   total(G,3|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36943):
ACTCAGTTCTGCATGTACTGGATCCGATTTGAGGACTGAGTAGCTTCTGGTTGATGGCATCTGGCTTGTGAACCTCCGCTGTTGCTGGCAGTGGCTGTGC
Y
GCTGTTGTGACCTCTGGGCTCCTGGTTCTTCCTGCTGCTCAGCCAGGAGGTAGAGGCACCAACGCCAGCCTGGCTGCCTGCCACCCCCAGCTCTTCACCT
Celera SNP ID:            hCV1743254
SNP Position Genomic:     61199
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36944):
AGGAAACCCCAGGTGTGGCAGGACTGAGTTCCTCCGGAGGTTCTGTGGGATGGGGCCTCCCTGCCTCTTGTGGGTTTTGGGGCTCCTAGCTGTCCTTGGC
Y
TGTGGCCATATCACTCCGTTCTCCGCCCCCTCGTCATGTGGCCTCTTCTCTGTGTCTCCCTCTGTGTCTGTCTCTCTCTCCCCTGCTCCTACAGGGATGC
Celera SNP ID:            hCV1743255
SNP Position Genomic:     62568
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36945):
GAGTGCACCTGTGGTCCCAGCTACTTGACAGGATGAGGCAGGAGGATTGCTTGAGCCTGGGAGGTGGAGGCTGCAGTGGCCAGACCTCCAGCCTGGGTGA
S
AGACGAGACCCTTTTCTTAAAAACAAAAACAAAACACAGGTACTATAGCTAAATATAGTTCCTGCACTTCTCGCTGGCTCCTGGAGCACGTGTGCTCTCT
Celera SNP ID:            hCV1743183
SNP Position Genomic:     20018
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,13)   total(G,3|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36946):
CCGGAGGTTCTGTGGGATGGGGCCTCCCTGCCTCTTGTGGGTTTTGGGGCTCCTAGCTGTCCTTGGCCTGTGGCCATATCACTCCGTTCTCCGCCCCCTC
R
TCATGTGGCCTCTTCTCTGTGTCTCCCTCTGTGTCTGTCTCTCTCTCCCCTGCTCCTACAGGGATGCTTGCCATTGGAGTTAGGGCCAGTCTAGATAATG
Celera SNP ID:            hCV1743256
SNP Position Genomic:     62601
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36947):
GCAGGTATCAGAGCCTGGACTCACACCTGTGCCTTCTGTCTTGAGACCGGCAGGTGGATGGGCACTGGTTGAGCAGCGTGTTTTCGCTCAGGTGGTCTTG
Y
GGCTGGCCACCCTGCGGGCCGGCGTGCTCTGTCTCTGTGGTTCACTGCACAGCATGCATTCCATTCAGCACCTGCTCTCTGCAGGGCATCATGCTAGGCT
Celera SNP ID:            hCV1743184
SNP Position Genomic:     21898
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36948):
TTTGACCCGATCGATTTCCCAATTTCCTGAAAGCTACAGATACGAAATGTGCTATTGTAAGCTGGAGCTTTGTGGAGAAAATGTGTGCTAATAATGCTGA
R
TTGAATATACATGTGCATTCTTCGTTATTTTACCAAATTTCTGATTAGGAATTCAAAGTGCTGTTCCTAGTATTTTCCTGACGGATTTGAGTTGGTGTTG
Celera SNP ID:            hCV1743257
SNP Position Genomic:     65804
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36949):
CAGCATGCATTCCATTCAGCACCTGCTCTCTGCAGGGCATCATGCTAGGCTCAGGGTGATGATGGCGCTCACCTAACAGAACTGCAGACTGTTTCGGAGA
Y
GCACTGAGCAGGTAACAGAGTAATTGCAAGTTGTGTTAAATTCTCAGGAGGAGACCGATAGGAGAACGTGGAGACCAATAGGAGAACGTGGAGACCTGCT
Celera SNP ID:            hCV1743185
SNP Position Genomic:     22048
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36950):
AGTGGCGCAGTCTCAGCTCACTGCAACCTCCATCTCCCAGGTTCACGCGATTCTTCTGGCTCAGCCTCCCAAGTAGCTGGGATTATAGGTGCCCACCACC
R
TGCCTGGCTAATTTTTATATTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTAGGTGATCTGTGTGCCTCTCAA
Celera SNP ID:            hCV1743259
SNP Position Genomic:     68007
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36951):
ACTGTTTCGGAGACGCACTGAGCAGGTAACAGAGTAATTGCAAGTTGTGTTAAATTCTCAGGAGGAGACCGATAGGAGAACGTGGAGACCAATAGGAGAA
Y
GTGGAGACCTGCTTTAGGTGGGTGACGAGGGAGGCCTCTCTGCGAAGCTGCTGATTAAGCTGGGACTTACAGGATGAGAAAGAAACTGACTCCGTGACAA
Celera SNP ID:            hCV1743186
SNP Position Genomic:     22135
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36952):
TGATTAAGCTGGGACTTACAGGATGAGAAAGAAACTGACTCCGTGACAAGCAGGGACGAGGCTGCTTCAAGCAGAGCAGGGAGACCCAGGGGTGTTAGGA
Y
GAGAGGAGAGCCCAGGTTTGCTGACGGGTGGGGTTGGCAGGGTGGCCCCGTCGTGCCTTCTGGCTGGGTCCTACAGGGTCTTCTTAGGGACGCTGACGTT
Celera SNP ID:            hCV1743187
SNP Position Genomic:     22287
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36953):
CCACTTCACTCTCCCTAGAAAAGTCCTTTTCCTGTTTGTGGTGTTTCTAACATTCTCTGTTAATTGGCTGGTTTGACTGGAAGCACCTTTGCTTTCAGCT
R
TCAGTTGATCACATTGTGTTTTCTTCACCAGAAAACAGACACATGACCCTCATTGAGAACTGCAGCCTGCAGTACACGCTGAAGCCACACCCGGCCCTGG
Celera SNP ID:            hCV25992118
SNP Position Genomic:     37616
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,1)   caucasian(A,38)   total(A,55|G,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,32)   total(A,67|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:36954):
AGGTGATCTGTGTGCCTCTCAAAGTGCTGGGATTGCAGATGTGAGTCACTGCACCCGGCCAGCAATAAAGTATTTTTAAATTAAGGTAGGTACAGTACTT
K
TTTTTTTTTTTTTTTAGACATATGCTATTACACACCTATTGACTACAGTATAGTATAAATACAACTTTTAAATGCACTGGGAAACCAAAAAATTCAGTGA
Celera SNP ID:            hCV26333882
SNP Position Genomic:     68186
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,8)   total(G,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36955):
TCCTCCTACCTTGGCCTCCCAGAGTGTTGGGATTATAGGCGTGAGTCACCATACCTATAATGGCACAATGGTTAGCATTTTTTTAGCAAGAAAGTTTTTT
K
TTTTTTTTTTTTTTTTTTGAGATGAAGTCCTGCTCTGTAACCCAGGCTGGAGTGCAGTGGCGCAGTCTCAGCTCACTGCAACCTCCATCTCCCAGGTTCA
Celera SNP ID:            hCV26333883
SNP Position Genomic:     67851
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36956):
CTGGCTTATCTTTGTGACTTATCACTAATGCTTGTTGGACCTTGGGTGTGTACCAAGGGGTAGGACCACAGCAGAGATTCTCAGGTTTTTTTTTTTTTTT
T
AATTCTGAAATGAAATGTTCTCTGCACCCCAATTAAGACGGCAAAAACAAGTAGAGCGAAGTGGGTTGAAGTGTGTATGAGGGTCTCATCCCCAGCCTCC
Celera SNP ID:            hCV26333884
SNP Position Genomic:     66942
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,10)   total(-,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36957):
AGAGGCCCTGCAGGGCCCACGTGCCAGCCACCAGGCCTCAGACTAGGCTCAGATGACGGAGAGCTGCACACCTGCCCAACCCAGGCCCTGCAGTGCCCAC
W
TGCCAGCCGCTGGGGCCCAGACTTGCTCCAGAGGGCGGAGAGCTTTACACCGGCCCAACCCAGGCCATGGCTCCAAATGCGTGACAGTTTTGCTGTTGCT
Celera SNP ID:            hCV26333885
SNP Position Genomic:     60153
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,8)   total(A,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36958):
TATGGCATCCTTCGTCCTGTTTTGTGTTTGAGTACTTTCTGGCTTCAGAAGATGCTTCAGGCTCATCTTCATCTCTACTTATTTTGCCCATTTTTCTGTA
R
TTTTTGCATTTTTCATCAAATATTAAAAGTTCTTTGTATGTTAAGGATATTTGCTCTTTATCTGTGATAAATAGTGCAGATATTTTCTCCTCATTTTGTC
Celera SNP ID:            hCV26333886
SNP Position Genomic:     58006
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5|-,13)   total(G,5|A,5|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36959):
TAAGGTGCCCACCCCCAGGTTTCTCCTGTAGAAAGAGAGTTTTTTCCCTTTGAACTGACTGAAGAATTCTTGGCGACATTTTTTGGCTTCATGCAAATAT
Y
TGGTCCCCAGCAACCTTCCACCTCTTGTTTTAACACCCTGGGCTGAGCTTTGCTTGCGTCAGTTATTTAATTGGTGTTTTTGAAATGGTAATTTGTCTAA
Celera SNP ID:            hCV1478337
SNP Position Genomic:     102323
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,10)   total(C,10|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36960):
TCATTTATGATTTTATTTTTAATATTTTAGTCTCCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCG
Y
GACCTCGGCTCACTGCAACCTCCGCCTCCTGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCTGCCACCACGCCCGG
Celera SNP ID:            hCV26333887
SNP Position Genomic:     57117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36961):
GCCATGGGAGCTGAGGCCCGGGGCCAGCGGCATGGTGTGCCCAGAGTCCTAAGGAAGGCCACCAGGCTGAGAAGCCATCCCTGATGCAAAACAAGGTCCT
K
TCAGGCCATGAGGAGGACTTTTATCTGTATCAAAAAGCGTCAGGAAGCCTTTGAAAGGTTTTATGCAAGGATGGGTGTATTTGGGTAAGATGGGGGCAGT
Celera SNP ID:            hCV1478338
SNP Position Genomic:     138109
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,11)   total(G,3|T,11) 
SNP Type:                 TFBS


Context             (SEQ ID NO:36962):
CTCAGCTTTTTTTTTTTTTTTTTGTCATTTATGATTTTATTTTTAATATTTTAGTCTCCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGT
Y
GCCCAGGCTGGAGTGCAGTGGCGCGACCTCGGCTCACTGCAACCTCCGCCTCCTGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACT
Celera SNP ID:            hCV26333888
SNP Position Genomic:     57093
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|C,7)   total(C,7|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36963):
CGTGTCCAGTTCAGGATCATGTCTTGTGTCTGGTTTCTGTGTCTCTTTGACCTCCTTAATTCTGGAACAGTTCCTCAGCTTTTTTTTTTTTTTTTTGTCA
W
TTATGATTTTATTTTTAATATTTTAGTCTCCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGAC
Celera SNP ID:            hCV26333889
SNP Position Genomic:     57020
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,14)   total(A,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36964):
CGGTGACAGTGGCCGTCCTTTGAGACGTTACTCTAGGTAACCACTGCCCAGGTGTGCCTTTCCCATGGGGGCCTGCTCTGGCCAGTCAGCACCCCCACCT
R
GGGCCACGAGCTCGTTGCTCTCCGTACCCCACCATCACCCAGCGCTTGGATTATGTGTGTCTTGACATGGATGGGTCCTGACTCTTGCCCTTCCTCCCAT
Celera SNP ID:            hCV8823840
SNP Position Genomic:     22733
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;(G,-|A,-)   Caucasian(A,11|G,67)   African American (pooled) - WICGR(A,25|G,75)   African-American(A,8|G,70)   Asians(A,15|G,61)   Asian (pooled) - WICGR(A,41|G,43)   Caucasian (pooled) - WICGR(A,36|G,60)   total(G,376|A,136)
SNP Type:                 INTRON


Context             (SEQ ID NO:36965):
GTATCCTGTGTACCCATTTTAAAGAGGAGGACACTGAGGTGCATGGAGATGGAATAACTCCACCAGCTTATTCCCATGTGGCGGGTGGGGGTGGGAGCGA
Y
GGCCCTGTGCATCTGACGGCACCACCTGCTGTGGCCTCCGTGACCTCCTGCTTCTGAGGAGCCCTGCATTTTGTTCTGAAGTGTTCTGTAGAATGCTGAG
Celera SNP ID:            hCV8823841
SNP Position Genomic:     23415
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   African American (pooled) - WICGR(T,3|C,97)   Asian (pooled) - WICGR(T,1|C,83)   Caucasian (pooled) - WICGR(T,1|C,95)   total(C,275|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36966):
GCTCTGCTGTAGGAATCTTCTGGGTGGTCCTCATGGCCTGGGCTGCATGCTTCTTCCAGGCACTTCTGGAGACTTTTGTGTGGCTTTCTTGAGGACTCCA
K
GAGAAGGGACACACCAGCCTCCTTCTACCTGTCATGTGATGGAGATGTCCTGGCACCACCAGAACCTCGGGTGTCTTGGGTGACTGACTCCCTGCTGGGT
Celera SNP ID:            hCV8823842
SNP Position Genomic:     38929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36967):
GAGACTTTTGTGTGGCTTTCTTGAGGACTCCAGGAGAAGGGACACACCAGCCTCCTTCTACCTGTCATGTGATGGAGATGTCCTGGCACCACCAGAACCT
Y
GGGTGTCTTGGGTGACTGACTCCCTGCTGGGTTCCAGGAAGAGCAGGATTTGACCTTGTGTGTGAGGGGCGGGGACCGAGAGCAGTGCTGTGCTGAGAGT
Celera SNP ID:            hCV8823843
SNP Position Genomic:     38997
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36968):
TAGCTGTGTGCTGCTGCCTAGTTGATACTGATCTTCAGAACTAGCTTTCAGATGTCACCCGGTTGATACTAATCTTGGGACTAGCTGTGAGATGTTGCCT
R
TTAGATACTGATCTTCAGGACTAGCTGTGAGATGTCACCTGGTGGATACTGATCTTGGGACTAGCTGTGAGATGTCACCTGGTGGATACTGATCTTGGGA
Celera SNP ID:            hCV8823845
SNP Position Genomic:     39786
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36969):
TGTGCCCCGTTTCTTTACATTCTATGGGGGTAGCGAGCTTGTCTGCTGTGTTCAAGACCGTTTCTCCCGGGCGCAGGGTAGGTGCTGAAAGAATGCTCAT
S
AATGAGGGAATTCCAGGCAGTGCTTAATCAGACCTCTGCTTCCCCAAAAGCTCCCCAAGGCATCTGGGTCTCAGGCATTACACATTTTCCATTCCGGGAA
Celera SNP ID:            hCV8880601
SNP Position Genomic:     8385
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36970):
GCAGCTTCTGACGGGCAAGAGGGGAAGGAACCTGGCGCAGCAGGTGGATCTGCTGCAGCCAAGGAGGGACCTGGCCAGTGTGGAAGTCCCTCCCTCCCCT
R
GGGCTGAGGGTAGGCAGGAGTGAAGGGATGCAGAGAGGCAGGAAGCCCAGGGGAAGGGGTTCCCGTTTTTAACAGCTCCCGGGAAAATGGTGAGGACATC
Celera SNP ID:            hCV27901837
SNP Position Genomic:     118482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36971):
TAGTGTAAACACACCAGTTTAAAAGATATTGTCAGGCTTAATGAAAGACAAAGCCCAACTATATACTGTCTATAAGAAGTATACTTTAAATAAATATAAC
R
TAAATTAAAAGAATGGAAAATATTCTTTTCAAACACTAAAAGAAAACTGGAGTGGGTATATTACTATTGACACTATCAGACAAACTAGACTTCAGAATAC
Celera SNP ID:            hCV1743261
SNP Position Genomic:     68462
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,10)      total(G,10|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36972):
TGGCTGTGCTGCTGTTGTGACCTCTGGGCTCCTGGTTCTTCCTGCTGCTCAGCCAGGAGGTAGAGGCACCAACGCCAGCCTGGCTGCCTGCCACCCCCAG
M
TCTTCACCTGGTGGGGCTCAGTCTCTCTGGCCTTGTGAAGTTCGCCTCAAGGGCCAAGAGCTCCGTGTCCTTCAGGGAGAATGCCGGCCAGCGAGCGAGC
Celera SNP ID:            hCV8823846
SNP Position Genomic:     61290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36973):
AGCTCAAATATGCTTAGCGTTAGGTGCTTATATTAGAACAGAAAAAAGATCTTAATTCAGTGATCTGATCTTTGTCTTCAGAAACTAGAAAAAGAAGAGT
R
AAATAAACCCAAAGCTATTCAGAAGTCAATAACAGCAGAAACCAATGAAATTGAAAACAAAAACAATAGATTAAAAATTAAAAAATAGCAAAAACCCAGT
Celera SNP ID:            hCV1743262
SNP Position Genomic:     69253
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36974):
GCGTATGCACGTCCTTCAGCAGTGTCCTTGGGCCAAGTGTGGCACTGAGTCCTGCAGACACCCAGGGAGAGGGCAGGAGGCACCGGGTCAGAAATCTGGG
R
CAGGTGAGGAGCATGGGCATCTGCGTCAGGAGAGACTTCCTCTCTGAAATCCCCACCTGGGGCCATCACGGCCTGCATTGTGTGTGAATACATTTCTGAA
Celera SNP ID:            hCV8880603
SNP Position Genomic:     9850
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,14)      total(G,14|A,3) ;no_pop(G,-|A,-)   ;WICGR1_caucasian(A,26|G,159)   total(G,159|A,26)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36975):
GTTTTTAAGTTATTAATTTTTTCTTTAATCTTAATTTAATTCTATATTTTATCTTTATTCATCCTCTTTGAAAAGCAGAATTCTTAGCTTATTTGCTCAT
Y
GTGTTTAATAATAAAATCATTTAAGATTCTGCAATTTTCTTCCAAGTACATCTTTTACCCCATTTCATAGGTTTTGATTTGGAATGTTATTTCCTACATT
Celera SNP ID:            hCV8823847
SNP Position Genomic:     81153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36976):
TTGGTGCGGGTGTAACCTGTTTCATGGAAGGTGAAGAAAGCCTGCACTAATTTAACATCCAAGTTGTGCCCTGATGAAATGCAGTGCCTTTGCCGCTTGT
Y
CCCTTCTTGAGTGAGCATGCAAGTGTAAATTCAGCTTACCTGGTTTATTTTCCCATGTGCCCTAAGTAGAAATATAGTAAGAGGAAACGGTCATGAAGCC
Celera SNP ID:            hCV27901839
SNP Position Genomic:     115527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36977):
CCCAAAGCTATTCAGAAGTCAATAACAGCAGAAACCAATGAAATTGAAAACAAAAACAATAGATTAAAAATTAAAAAATAGCAAAAACCCAGTGAAACAA
R
AACCTGTTTGAAAATATCAGTAAAACTGATGAACTTCTAGCAAGACTGAAAAAGAAGGGAGGACACAAATGACTAATATTAGGAATGAAAGAAGGAATAT
Celera SNP ID:            hCV1743263
SNP Position Genomic:     69361
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36978):
ACTCAGCCAAGATGAAGTAGATGACCTGAGTAGTCCTATAACTAATATGTAAGTTGAATTCATAGTTTAAAAACTTTTGAAAAAGAAATATTCAGGCCTA
Y
TCACTATGAATTCTATTAGACATGTGAAGAAGAAATAATGCCACTTTTATATAATCTATTTCAGAAAACAGAAAAGATGGGAGCAATTCCCAACTCATGA
Celera SNP ID:            hCV1743264
SNP Position Genomic:     69682
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36979):
GTTGAATTCATAGTTTAAAAACTTTTGAAAAAGAAATATTCAGGCCTATTCACTATGAATTCTATTAGACATGTGAAGAAGAAATAATGCCACTTTTATA
Y
AATCTATTTCAGAAAACAGAAAAGATGGGAGCAATTCCCAACTCATGAAATGAAGCCAGCATTACCCTGATATCAAAACCAGAAAAATAATATTAATAAT
Celera SNP ID:            hCV1743265
SNP Position Genomic:     69734
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36980):
CTTACTTTTCTAAGTAAGCCAAGGAGTTGCTCTTTAGGCCAGAGGGAGAACTGGCTTTCGCCATGGGCGTCGGAGTTGAGGTAGGATGGGCTAGTGTCCT
R
CTCCATCACTGATCCCAGTGGGACTTCAGACAAGTGCTTTAAACTCCTTGATCCTAGAGGGTGAGGGATAAAAGACTACAAATTGAGGCCGGGTGCAGTG
Celera SNP ID:            hCV1743193
SNP Position Genomic:     26319
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36981):
GATACTGAAAAAACATTTGACGATATTCAGCATCAGTTTATGATTAAAAACTGAGCAAACTAGCAATAAAAGAAAACTTCCTTAGCATAATCAGTGATGT
Y
TACAAAAACTCTTTAGTTAACATCATACTTAATGGTGAAAGACTGATTGCTTTCCCCCTAAGATTAGGAACAAGTAAAGGATGTCCACTGTTAGCATTCA
Celera SNP ID:            hCV1743266
SNP Position Genomic:     70160
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36982):
GGCTCCCCCGATCCCTGCTGTCTTTGAGGGGTAGTGTCTGGGAAGCCCTCCGAACCCGCAGTGTGAGTCTGAGCCAGAGGGTAGGAACTGCATGAAGTCT
Y
TGCATTGTTTGCCTGGCTGAAGATATCCTGTTAAAGGCTTATTAAAACAGTTCTTTGGAAGGGACTCATTCTGTTCCTGCTCAGCTCCTCTCTGGCCTTG
Celera SNP ID:            hCV1743194
SNP Position Genomic:     27332
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36983):
GGACAGGATCAGATAACACTCAAAACGGGCCAAGACCCACCAAGAAGCTGGTAACACCTGAAACCTGTCCCCAAATGGCTTTAGCAACAAGAGACTTTGT
Y
CATGTAGCTGAAGTGTCGTGGGGTGACCAACTGAGGTCTCTAATAATGACATGGGGACCCAGTGGCCCTCACTCCTACCTTTTCCTCTCTGCTTGTTTTT
Celera SNP ID:            hCV8880608
SNP Position Genomic:     12475
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:36984):
GTTGTAGTCAGTGCTGTAAGTCAAGAAAACAAAAGACCTACACATTAGAAGGAAGAAACAAAACTGTCCTTATTTGCAGAAAACGTGATTGTCTATGCCA
R
AGATTCTGAGGAGTCTACAAAAAAGTCCTTTTAGAATGAGTAAGTGGGTTTAGTGAGGTTGCAGGATAACACAGGAAGTCAACATGAAAAATCAATCCTA
Celera SNP ID:            hCV1743267
SNP Position Genomic:     70387
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36985):
CAGTTCTTTGGAAGGGACTCATTCTGTTCCTGCTCAGCTCCTCTCTGGCCTTGCTGCCCAGCGTTGTCTGAGGAGCCCATGTCATGCAGGTGCCAGGTCA
Y
GTGGCCGTGCCATGGGGGGTGCCCGGCTGCGGCCTCTTCATCCAGGCACATCGGCAGAGGCCCAATTCCACTTCCATCACTGCGGGTGAAAAATGGAAAC
Celera SNP ID:            hCV1743195
SNP Position Genomic:     27480
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36986):
TGTGGTGGCTGCTGCTTTTGTAGCTTTACTTCTAGCACTTCACTGTGTTCATTCACTTAATCCTCAGAGCAGCTCTATGAGGCTGCCACCACCTTACTCC
Y
GTTTTATAGACGAGCAGCAGCACCTGCTAATTAAGAGTGAAGCCAGCTGCCCAGGGCGACGGCTTTAGCTGGGATGCCACCCTCCTGGTCTGGCTCAGCC
Celera SNP ID:            hCV8880609
SNP Position Genomic:     14629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36987):
ACGTGATTGTCTATGCCAAAGATTCTGAGGAGTCTACAAAAAAGTCCTTTTAGAATGAGTAAGTGGGTTTAGTGAGGTTGCAGGATAACACAGGAAGTCA
R
CATGAAAAATCAATCCTATTTCTGTATACTAGCACTGAAAAATTGAAAGCAAAATACAGAAACAGTATTGTTTACAAAGCCTGCCCTCCATGAACTAAAT
Celera SNP ID:            hCV1743268
SNP Position Genomic:     70469
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36988):
GTTTTTGAAGATGAAGGCATTAAGACAGGAGCATTTAAATGATTTATTAATCTGTTTATGCTGTCAAGGAGGAAACTTGACCAGTGCAGATAAGTGAGCT
K
CGAGGCAGGGGTGACAGAGAGCCCGTCTCCCTCTGTCTCCAGTGACCTTGCCCTGCAGGCGATTTGATGGGCTTGACTTAACCTTTTAATCGTGCAGTTT
Celera SNP ID:            hCV1743196
SNP Position Genomic:     27708
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36989):
TGGTTATTCTTAGGTGAAATCAAAGAAGACCTAAATAATTGGAGAGACGTAACATGTTTATGTCTTGGGAAACTCAACATAGTAAAGCTGTCAGTTCTGC
M
CAAGATTGATCTAGAGATTTTATGCAGTTTCAGTCAAAATCTCAGCAGGATTTTTTTGGCGATATAGACAAGCTGATTCTGAAATTTATATGGAAAGCTA
Celera SNP ID:            hCV1743269
SNP Position Genomic:     70737
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,7)   total(A,4|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36990):
CAGCTGGGTGCTGCCTGGCTGAGTGAGGCGGGAATTGGGTGGTCAGGCACCGGTGACCTGGTCGAATATGACTTTGCTGGGGTGACCCGAGGGGTGCAGC
M
ATGTGGCTCTGTTGCTCGCAGTTTTGTGCCTGCCTCATCTGTCGTTTATGAAGCCTTCGAGGCTCGAGCTTCTTGAAAGCTGACTTGTGTTTTCCAGGTT
Celera SNP ID:            hCV1743197
SNP Position Genomic:     28000
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36991):
TAGTGGTGGATGTGTTACGTCTTGGGCTGATCTAACCATGGTCCTACCTGGTGTGTCCCCCTGCAGGGTTGGGTGCATAGCTGCTCTAGCCCCATTCTGC
W
CTAGTGGGCCTGGGATCTGTTGGTGTTTCTTGTGGTGGAATTCCTAGGGAATGGAAAGTTCCTGGAGCGGAAGCAGACATCTGATGCCCTGGTTGTTGGG
Celera SNP ID:            hCV1743198
SNP Position Genomic:     30001
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36992):
TTTTTCTTGTAAGTCCCACAGGAAAAACAGGCCAGTCTCCAACCTGTAGAACCCATGTGTGCTGGCCAAGCCCCTTGAGTCCCTGCGGCATCAGAGCAAG
S
GGGTGGCTGAGCCTTGCTGAGGCAGCGTGCTGCTTGCCTGGACTCTGACCCGGTGTGACCGAGACTCAGCAGGCCGGGGGCATGTCCTCTCCTGTGGACG
Celera SNP ID:            hCV27492716
SNP Position Genomic:     123995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:36993):
TCTCTCCCCTCCTGGAGGGGAGGGCTGGGGCCAGGTCAGGGCAGGGGTGGCGTGGGCCTGGGAATGGCCTTTTCCGTGTCCTCGCTGGGCAGGGCAGCTC
Y
GTCTGGGCGCTGGCACAGCCTGCATGGTATCTGGTCGGAAATGCCTCCTTGGTGGCCGCCTTCTCACAGCCCAGGGCTCTCCGGGTGTGAAGCCGCAGTT
Celera SNP ID:            hCV25991327
SNP Position Genomic:     126526
SNP Source:               Applera
Population(Allele,Count): african american(C,16)   caucasian(C,37|T,1)   total(C,53|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:36994):
AGTACCGTGTCCAGTTCAGGATCATGTCTTGTGTCTGGTTTCTGTGTCTCTTTGACCTCCTTAATTCTGGAACAGTTCCTCAGCTTTTTTTTTTTTTTTT
T
GTCATTTATGATTTTATTTTTAATATTTTAGTCTCCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGC
Celera SNP ID:            hCV26333890
SNP Position Genomic:     57015
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36995):
AGCTCTGCCTCTGAGCACCTCTCCATCGTCGTCCAGGGAATTGGGCCCCAGGGAAGGGGGCTCTGGGGAAGCAGCCTCTGGGAAAGGGGGGCTCTGGGGG
R
GTGGGCTGTGGGACCTTGGAGGAGTCTTGAAGGAGCCAAGTACGAGTTTGCTGCATCTTGAGAATGGTCAGCCCAGCCTTGGAAAGCTAGTGTCGGGTTT
Celera SNP ID:            hCV26333891
SNP Position Genomic:     50977
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36996):
ACACCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCCGTCTCAAAGCAAACAAACAAACAAACAAGCAGAAAAACAAAAAAATGAAAAACAAAACAA
Y
AGAAAAACTGTTCCTGGAGGAGGTTTGGGGTAGATTTTGGACTGCCAATGAAATCTGTATTTGCTTAATTGTTGTGGAGGCTTGGCTTGGGCCTTGTGCT
Celera SNP ID:            hCV26333892
SNP Position Genomic:     46534
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:36997):
ACCTGGAGGCGGAGGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCCGTCTCAAAGCAAACAAACAAACAAACA
A
GCAGAAAAACAAAAAAATGAAAAACAAAACAACAGAAAAACTGTTCCTGGAGGAGGTTTGGGGTAGATTTTGGACTGCCAATGAAATCTGTATTTGCTTA
Celera SNP ID:            hCV26333893
SNP Position Genomic:     46501
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36998):
AACCTGGAGGCGGAGGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCCGTCTCAAAGCAAACAAACAAACAAAC
A
AGCAGAAAAACAAAAAAATGAAAAACAAAACAACAGAAAAACTGTTCCTGGAGGAGGTTTGGGGTAGATTTTGGACTGCCAATGAAATCTGTATTTGCTT
Celera SNP ID:            hCV26333894
SNP Position Genomic:     46500
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:36999):
CCCTGGTAGAGGGATGCAGGTGATTGGGTTGTGTCTCTTCCCGTCATCACAGCCATGAGAAAGCCCCTCTTGAGCGGCTCTTACTCGTCAGAGCAATGAG
Y
GTGCTATAATTTCCCATTGAAAAGTGGATGCTGTCAAGGAGTATCAGCATAACCCACGTGAAACTCCTGCGAGCCCTTCCAGGGCCTGGATTCTTGGGCC
Celera SNP ID:            hCV1478345
SNP Position Genomic:     25450
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37000):
GAACCTGGAGGCGGAGGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCCGTCTCAAAGCAAACAAACAAACAAA
C
AAGCAGAAAAACAAAAAAATGAAAAACAAAACAACAGAAAAACTGTTCCTGGAGGAGGTTTGGGGTAGATTTTGGACTGCCAATGAAATCTGTATTTGCT
Celera SNP ID:            hCV26333895
SNP Position Genomic:     46499
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37001):
GCCTGGCTCTGGAGCTTGCAGGAAGCCCTGGCTGCAGAGCCCGATGGCTGCTCCTGTGCTCTTGCTGTTGCTCGGCAGAGGGCAGGCATGTCCTGAACAT
Y
GTCACAACAAAAGCAAGAAGCTGGCTTCGTGTCCCAGCGAGCTGCTTCCACAGAGGGAGGCTCTATGGCTCTAGGAGGCCAACTCGGGCCCTGTGTGCCT
Celera SNP ID:            hCV1478346
SNP Position Genomic:     25648
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37002):
TGAACCTGGAGGCGGAGGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCCGTCTCAAAGCAAACAAACAAACAA
A
CAAGCAGAAAAACAAAAAAATGAAAAACAAAACAACAGAAAAACTGTTCCTGGAGGAGGTTTGGGGTAGATTTTGGACTGCCAATGAAATCTGTATTTGC
Celera SNP ID:            hCV26333896
SNP Position Genomic:     46498
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37003):
CCTGGCTCTGGAGCTTGCAGGAAGCCCTGGCTGCAGAGCCCGATGGCTGCTCCTGTGCTCTTGCTGTTGCTCGGCAGAGGGCAGGCATGTCCTGAACATT
R
TCACAACAAAAGCAAGAAGCTGGCTTCGTGTCCCAGCGAGCTGCTTCCACAGAGGGAGGCTCTATGGCTCTAGGAGGCCAACTCGGGCCCTGTGTGCCTG
Celera SNP ID:            hCV1478347
SNP Position Genomic:     25649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37004):
CACTCCAGCCTGGGTGACACAGTGAGACCCTGTCTCAAACAAAACAAAACAAAACGTCAAACCCACTCCCTTTGCCCCTCACTGGTCTTGGTGACAATCT
Y
GTGATAGGAGATGTCAGCTGAAGAGTGATGAGGTTCCTGAGACTGGAAAGGAGAGATTCATTTCTCATAAAGGGCTGCAGCCTGCAGGTGGCCTTTCTGA
Celera SNP ID:            hCV1478348
SNP Position Genomic:     33393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37005):
CACCTGTGCTGGAATTATGGGCGTGAGCCCCCATGGCGGACCTAGTTTTTCACAAATTTCTTTTTCTGATAATACAGTAGTTCATATTTAGCTCTTTCTT
T
ATGAAATCAGAACATGAATGAGCTGAACTTGTGACTCTCAGCAGCTGTCCCTGGCCCGGCCACAGCTGGGACTTGAGCCGCCTGAGACCACGTGCATGCC
Celera SNP ID:            hCV26333897
SNP Position Genomic:     36527
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37006):
CCACCTGTGCTGGAATTATGGGCGTGAGCCCCCATGGCGGACCTAGTTTTTCACAAATTTCTTTTTCTGATAATACAGTAGTTCATATTTAGCTCTTTCT
T
TATGAAATCAGAACATGAATGAGCTGAACTTGTGACTCTCAGCAGCTGTCCCTGGCCCGGCCACAGCTGGGACTTGAGCCGCCTGAGACCACGTGCATGC
Celera SNP ID:            hCV26333898
SNP Position Genomic:     36526
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37007):
AAGGGGGGCTGAACTCGTCCTTGTAGAAGAGGCCCATTCCCGAGACAATGGCATTCATCCATTCACTCCACCCTCATGGCCTCACCACCTCTCATGAGGC
Y
CCACCTCCCAGCCCTGGTTTGTTGGGGATTAAATTTCCAACACATGCCTTTTGGGGGACATGTTAAAATTATAGCACCCCAAATGTTACACTATCTTTTG
Celera SNP ID:            hCV1478349
SNP Position Genomic:     59433
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,10)   total(C,4|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37008):
TCCACCTGTGCTGGAATTATGGGCGTGAGCCCCCATGGCGGACCTAGTTTTTCACAAATTTCTTTTTCTGATAATACAGTAGTTCATATTTAGCTCTTTC
T
TTATGAAATCAGAACATGAATGAGCTGAACTTGTGACTCTCAGCAGCTGTCCCTGGCCCGGCCACAGCTGGGACTTGAGCCGCCTGAGACCACGTGCATG
Celera SNP ID:            hCV26333899
SNP Position Genomic:     36525
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37009):
TCGCTGCGTGTATTAGTCACAGATTTAGGGGCCAGGCTGGGGTCGGCAGAGCACTGTGTGCCCTGATGTGCTGCACATCTGGTTGGCAGGGCCCCGGGGA
R
CCACGGGACATATTTCTGAAGGTGGCCAGTGGTCCAAGCCCGGAGATCAAAGACTTCTTTGTCATCATTTACTCGTAAGTGCACAGGCTTTGGGGACCTG
Celera SNP ID:            hCV883217
SNP Position Genomic:     133158
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,5)   caucasian(A,18|G,14)   total(A,37|G,19)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;WICGR7_african_american_pooled(G,28|A,72)   WICGR8_asian_pooled(G,26|A,57)   WICGR6_caucasian_pooled(G,25|A,70)   total(G,79|A,199)   JBIC-allele(G,383|A,1100)   total(G,383|A,1100)   (G,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37010):
AACCTGCACTCAGTGCCCACCACAGAGGGGCCACGTGACCACGTCTCAGAGTGGCTTCCTCGTGAGCCCATGAAGATGCCTCACCCAGCCCCATTTGACT
R
TGAAGCAGCAGGCTCTTGGCCCTAAAATGCTAACAGGGGCTTCCGTGCTCAGGCCGGCATGACCTCCAGCCCCACCCTGTCTCCTGCGTGGCGCTGCCCT
Celera SNP ID:            hCV883218
SNP Position Genomic:     133864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37011):
AAGGCCACACCGAGGTTGTGGGTCCCATCCTTGCAGGAGAGTGTGCCGTGGGCAAGCACGGCTTCCCCCAGGACACTCAGGTTTGCAAGTTGCAAGTTTG
Y
AGGGTGCCACACCCACCGGCCGTGAGACACGCTTGTCCCGAGGCCACACCACTTGCTTGCCAAAGCCTTCTGTTATGAACACAACTCTGGTGAAGGCTCC
Celera SNP ID:            hCV8823851
SNP Position Genomic:     118820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37012):
ATCCCCTTAGATCTGAGCACCGTTGGTTGTTACGGGTTGGGGTCCTTGGTGGCCTCACTTGGAAGCCCTCGTTTTGTTCAGCAGGAGTTCCCGTTGGAGG
S
CGGTATCTCCCACCTGGAAGCCGACCTGAGCCAGACCTCCCTGGTCCTGGAAACATCCATTGCCGAACAGTTACAGGAGCTGCCGTTCACGCCTTTGCAT
Celera SNP ID:            hCV25997142
SNP Position Genomic:     93841
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,1)   caucasian(C,40)   total(C,69|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:37013):
ATGTTCTCCCTGGGAGCAGACATGAGGGGCTCAAAGGGATTCATGATCCAGGCAGATAGAGTCTGTTGTTCTGGGCCAGCTTCCTCATTGTAATTTTGAA
R
AAACTGAGACGAAGAGAGGTCAGGTGACTTGGCCAGTGCCGTGGCTAAGGGGTGAACTTGGCTTAGAATCTGGATTCCCTGCCCTGGGGTCAGTGCCCTT
Celera SNP ID:            hCV8823852
SNP Position Genomic:     120621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37014):
GCCGGGGGAGACTTGGGCCGGCGCGGGACGAGCGTGTTGGTAAGGGTTTGTTCAGCTGTCACTGTCCTGGGATCTCCATGCAGACTGAGTCACTGTGCAC
R
TCCTTTCCCTGCCTCCCACATGATTCTCTCTTACCTTCCTCCCAAATCCTGGGGACAGAATATAAGAAAATCGGACTTTTTCAGCCACCGGGGGAAATCT
Celera SNP ID:            hCV8823853
SNP Position Genomic:     122574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37015):
AACCCAGAGCTGTTGTTGGATTCAGAGTGGCCCAGGACTGCCGAGGAACATCATGGCCAAAGACTGTGTATTTCACCTTCCAGTTCTACCGCTTCCCACC
Y
GCAACGACGCCACGACTGCAGCTGGTCCAGCTGGATGAGGCCGGCCAGCCCAGCTCTGGCGCCCTGACCCACATCCTCGTGCCTGTGAGCAGAGATGGCA
Celera SNP ID:            hCV26000016
SNP Position Genomic:     94876
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37016):
AAAGCTAAAGGAATTAGAAGAGTCAAAATAGTTTTGAAAAAAGAACAGTAAAGTTGGAGGAATCATACTACACAGTTTAAACACTTACTGTACAGCTACA
Y
TGATTAATATAATTAGTATCAAGGAATTCAGTTAATGGAACAGACTAGAGAGTCCAGAAATAAAGTTTGGAAGTGCCTTATGAAATTAAATATGCCATAT
Celera SNP ID:            hCV1743270
SNP Position Genomic:     70931
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37017):
GAAGAACACCTGGATGCACCCACGGAGCCTGTCAGTGGCCCCAAAGTGGAGCGGCGGCCTTCCAGGAAACCACCCACGTCCCCTTCGAGTAAGTGTTTCC
R
GAGAGCTGACTGGCCAGGCACATGGCAGGCAGCACTTCCATCTCTTCCCGGGGAAAGGTACTTAGTCTAGTACGGTAATCACCACATTTGTAAGATAATC
Celera SNP ID:            hCV1743271
SNP Position Genomic:     71967
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,6)   caucasian(A,35|G,5)   total(A,63|G,11)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37018):
TCCCAAGTTCATATGGAACAGTCACCAAGATAGACCGTATGCTGGGCCATTAAAATGTCCCAATAAGCTTCAAAGGACCCAAATTATAGAGTATGTTTAT
Y
GACTACTGTGCTTTTAAGTTAGAAATAAATAATATGAGATCTAGAAAATCCTCAAATAGGAAATTAACATACTGGATCAAAGAAGAATTAATAGGGAAAT
Celera SNP ID:            hCV8880613
SNP Position Genomic:     16717
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37019):
TTGTTTTGTTTTTTCAGTGTTTGAATTTTGTGCCTAACAGCTTGTTCTCAAGATTTCTGTTTACCACCAGTGTGTACATTAATAATCCCATCTTTATAAA
Y
GGCACTGAAATGTACAGTCCCCCTTGTACTAGAATCCCTTGTGGTGGTGGGTGGTAGGCATGCATGCATTTCCTGTCAGAGTCGGTTTAGAATGAATTTC
Celera SNP ID:            hCV1743272
SNP Position Genomic:     73483
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37020):
TATATACAGTCTGTTGCTGATCGAAATGTCATTATGTTACACATGACTGTATATGAGCAGAAATCAATAAAGGACAAATAATAGAGAAAATCAGCAAAGC
Y
AGAAGTTGATTCTCTGAAAAGATTGATAAAATTGATCAAGACAAAAAAAAAAGAAAACACAGACTACCAGTATTAAAATGAAAGAAGCATCATGATAACG
Celera SNP ID:            hCV8880614
SNP Position Genomic:     17431
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37021):
TATATTTTAAAAATAAAATACCTATCAACCTTTGAGAAACATAATTATGAAAAACGGAGGACCTTAGATTATAAATTGGGTATATTTTGTAATTAAATAC
R
AACATGATTAGAGTTATCCCTCGGTATCCGTGGGGGACTGGTTCCACATGCTCAAGTCCCTTATATAAAATGGTGTGGTATTTGCCTGTAATCTACGCAC
Celera SNP ID:            hCV1743273
SNP Position Genomic:     74161
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,12)      total(G,2|A,12) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37022):
AAGTTACTTAGAAGTACAGTAGTAATACATAATAAACATAGTTTGCCCATGTCTGTAGAAATGCCTGAACAGAGAATGAACCTGTATAGCTAGCTTTCAG
R
AAAAATATGACTACCTTCTCTGGAAAGAAATTTTCATGTGTTTAAATTATGATACAGGCCAGGCATGGTGGCTCATGCATGTAATCCTAGCACTTTAGAA
Celera SNP ID:            hCV1743274
SNP Position Genomic:     74591
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,9)      total(G,9|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37023):
TACTGAATGCTAGGGTGGGACCCTCTGTAAATGGCTGGCATTCTCTCTCTGTGCTGCTCATCCTGTCTGGTGCAAACTCACTGAACACAGTAAGCTGGGG
K
CAGGGTAGGCCTTCCCTCTTCTGTTTCCCAGCCCTTGGGATCACTCTCCTTTGTTGCCTGAAGTCCACTGTCTTGAAAACCACTGTTCTACATATTTTGT
Celera SNP ID:            hCV1743275
SNP Position Genomic:     76201
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,6)   total(G,5|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37024):
AGTCCTGTTAATAGTCTCTTGGCTGCTGAAATCATCCCCACCGGGGCCGATCATCCCGGGGTTTGAAAGCGTCTTCTAGCTGTGTGTGCTACTTGTGATT
Y
ACTCACCATGCTGCGTGTTTTCCGGACTTTTGAGTCTTGGCTCATGCTCTCCGCCTGGTGTGTCTTTCTCCCATACGCTGCATTTATTTTCTTTTAGGAT
Celera SNP ID:            hCV1743276
SNP Position Genomic:     76473
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37025):
TAGCTGTGTGTGCTACTTGTGATTCACTCACCATGCTGCGTGTTTTCCGGACTTTTGAGTCTTGGCTCATGCTCTCCGCCTGGTGTGTCTTTCTCCCATA
Y
GCTGCATTTATTTTCTTTTAGGATATATTCCAGGGTTTTTGTTTTGTTTTGCTTTTAGAGATAAATTCTCACTTCGTTGCTCTGGCTGGAGTGCGTGCCA
Celera SNP ID:            hCV1743277
SNP Position Genomic:     76549
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37026):
CCTGTCACCCTCCCTGCCCCTCCCTGTCTCGCCTCCTCCTAATTGGCCCCTGCTTCCACTCCCGCCCCCACATGGCAGCTGCGGGAATTTTCTTAAATCC
Y
GAACCAGATTGTGTCATTTCTGCTTAGAATCTCTCCCTGGCCTCCCTGCATGATTGGAGTGAGAACCCAGCTTCTCCTCGCGCCGTGAGGCCTGCCTGAA
Celera SNP ID:            hCV836589
SNP Position Genomic:     19067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37027):
TGCTTTTAGAGATAAATTCTCACTTCGTTGCTCTGGCTGGAGTGCGTGCCATAATCACAGCTCACTGTAGCCTTGAACTCCTGAGCTCAAGCAATCCACC
Y
GCCTCAGCCTCCTGAGTAGCCAGGACTACAGGGAGTGCCACCGTGCCCGGCTAAGCCAGGACTGCAGGCAGTGCCACCGTGCCCGGCTAAGCCAGGACTG
Celera SNP ID:            hCV1743278
SNP Position Genomic:     76699
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,6)   total(C,6|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37028):
ACCGTGCCCGGCTAAGCCAGGACTGCAGGCAGTGCCACCGTGCCCGGCTAAGCCAGGACTGCAGGCAGTGCCACCGTGCCCGGCTAAGCCAGGACTGCAG
R
CAGTGCCACCGTGCCTGGCTAAGTTTTTTGTTTTGTAGAGATATGGTCTTGCTGTGTTGTACAGGCTGCTCTTGAACTCCTGGCCTCAAGTGGTCCTCCC
Celera SNP ID:            hCV1743279
SNP Position Genomic:     76911
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37029):
CCCAGGAGCCCCTTGCTTGCACATCCTGAGAGGCTGTGCTCTGACCCGCCTCTCTCGCTCTTGAAGACAGACCCCAAAGGTGTCTTCGTGCTGCCGCCTC
R
TGGGGTGCAGGACCTGCATGTTGGCGTGAGGCCCCTTAGGGCCGGCAGCCGCTTTGTCCATCTCAACCTGGTGGACGTGGATTGCCACCAGCTGGTGGCC
Celera SNP ID:            hCV25997654
SNP Position Genomic:     135122
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:37030):
TCGCCTCAGCCACCCAAAGTGTTGGGATTACAGACGTGAGCCGCTGTGTCCGGCTGGGTTTGCCATTTCTAAGTGACTTAAGGAATTGTTCTTTAGGCCG
S
AGTAAGGGCTGGCTTTGACCACCAGTGATGGATTTGAGGTAGTATGGATATGGGCCAAAGTTGTACTCTAGCACTGATTCTCTGTGGGACTTCAGGTAAG
Celera SNP ID:            hCV1478350
SNP Position Genomic:     31318
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37031):
CTCCTTGAAGCAATCACTGCAGTCTCTGGCTGGAATCGGGGAGCAGCTCTCCCCATACATGGAATTGGGTCAGGGTCCTCCACAAAACAAGGGAAGTTGA
R
CGACAAAAATAGCCCACAGAGAACAAAAAGGAACAAACCAGCATGTGTGCCTGCTGGATTCACACAGGACCAGACTGAGTCTGGTCCTCAGGAATACCTG
Celera SNP ID:            hCV11398422
SNP Position Genomic:     10593
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;(A,-|G,-)   (G,-|A,-)   Caucasian, from CEPH families, part 1 - WICGR(A,23|G,153)   Asian (pooled) - WICGR(A,36|G,48)   total(G,201|A,59)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37032):
CGGCCTCTGATGTCAAAAGGTGAAGCAGGGGACACGAAAGCCCTCCCTGCATGCCCTCCGTAGACTATCCAGAAGAGGGAGAGCGGTGGGTGATCGCTGG
R
CAGCAGCAGCGATGGAGTCTCTAGAAGGGCTGGTTCCAGTCCTGAGGGAAGAAAGGCTAACGGTGGTTAGCATGGGCCGGGGCATGTGGAGGCCTGTCTG
Celera SNP ID:            hCV1825216
SNP Position Genomic:     33829
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37033):
GGGTGGTGAAGTTAGCCATCCTTCACCGGGAGGCGCTTCCCGTGGCCAGGCATCGGCTCAGAAGCATGCCGTCATTTCATGCCTGTCATCCTCCTGTGGA
K
GTCAGTATCCTGTGTACCCATTTTAAAGAGGAGGACACTGAGGTGCATGGAGATGGAATAACTCCACCAGCTTATTCCCATGTGGCGGGTGGGGGTGGGA
Celera SNP ID:            hCV15979339
SNP Position Genomic:     23310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37034):
GGGCAGCTGGACGGGCTTGCGTTGGCCAAGGAGAGTCATGTCGTGGTCTCTGAGGTGCAGGGATGGCCCGAGGTGTCTGGTCACTGACCCTGAGAGACCA
K
GGCAGAGGGTGGGACTCCTGGGGTGTGTGAGCCAGACAGAGGTAGTGGGGCATGTGGTCTCTGGACGGGTTGGTTTTCATGTCAGACACATTCTGATAGG
Celera SNP ID:            hCV836590
SNP Position Genomic:     19569
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37035):
GGGAAAATCCATTTCCTCTCCTTTTCCAGCTGCTAGAGGCCACCTGCGTCCCTTGGCTCCTTCTTCCATCTTCAAAGGCAGCCATGTAGCACTTTCCAGT
Y
GTCACTGAACTCTGACCCTCCTGCCTCCCTGCCTTTCACTTACAAAGACTATTGTGAGTACATTGGGCCCACCTGGATAATCCAGGGTCATCCCCCCATC
Celera SNP ID:            hCV1743280
SNP Position Genomic:     77490
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37036):
CTGCCTTTCACTTACAAAGACTATTGTGAGTACATTGGGCCCACCTGGATAATCCAGGGTCATCCCCCCATCTCAGGGTCAGCTGATGAGCACCTTAGTC
Y
CTTGGCATTGAACATATGTATAGGTTCTGGGGTTAGGACGTGGGTATCTCTGGGGTGGCAGCAGTTACTCCGCTTACCGCAAGGAGTAGCAGTCAGTAAA
Celera SNP ID:            hCV1743281
SNP Position Genomic:     77619
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37037):
TCTGGGGTTAGGACGTGGGTATCTCTGGGGTGGCAGCAGTTACTCCGCTTACCGCAAGGAGTAGCAGTCAGTAAATGGTGTGGCGTGATCCCTTGCCCAC
R
TGGAAAATATAAAATTCAGTCCTAGCTTCATGTCATGTACAATAATAAATTCCAGATGGCCTAAAAACCAAAACTTCAGAAATGTTAGAATTAGAAGATC
Celera SNP ID:            hCV1743282
SNP Position Genomic:     77745
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37038):
GTCCCTGCATGGGTCCTGGAGCATGTAGCTGACTTTCCTGAATGTTCTTCCTGCACATCTCTGCTTGTTTCCCCTCAGGCTTCAGGTCTGGACGGGGTCC
Y
CTGACTGTCCTGCGGGGGTGCTGTTCCCCGCCCTTGCCACCGTGTCTCCAGCTGTCACCCCGCGTTCCTCCCGGGTGCTCAGCCCTTCCTGGGAGCAGCT
Celera SNP ID:            hCV836593
SNP Position Genomic:     49950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37039):
GGGTTGGGGCTCCTGGTCTCCCGATCCCAGTCCAGGGTCTTTCCCTGCCACTGCCGCTTTGGCTGCACTCTTGCATTCCAGCTTTGCCCAGCTATTCTTG
Y
ATTTTGCCGTCAGTGAATGCATAGACTTGAGTAGTTCCTGTGACTCTTTCTTTTGTTTGAGAAGGACGAAGACAGGTAAGAAGCAGCCTGTCCTCCTTCT
Celera SNP ID:            hCV1743283
SNP Position Genomic:     82638
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37040):
GTAATTTGATTTTTAAAAAGCAGTGGAGTTATAATCACCATGTCGTTGGTATGCTATAGTTGCTCAGCACTGTTTTATAATCTGTTGTCAGCTAACTGGA
Y
GGGGAACAGGAAGACATTGTTTTTGTATTTGGCAAATGTTGAAAGTGTGGCTTAGAGTCATATGCTTCCATTTCTTACTTTTCTGATTCTATGTCCTTCC
Celera SNP ID:            hCV836595
SNP Position Genomic:     64111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37041):
TTCTGGTGTCCTGGGAAACCAGTGACTTAGTCTCTTCCTGCTCTTCTCAGATCTGGCTCTGGGCCAGAGGTGTGTGCTGGCAACCCCATCTCAGGGCCCC
R
CTGGCCACGAGCTTCTTGGAGCAGCCGTGGAAGAGCTGAGTCTCTGTGCTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTTTTTGCCCAGGTTG
Celera SNP ID:            hCV836597
SNP Position Genomic:     86382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37042):
CCACCATACCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGCCT
M
GGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCTATCGTCACTTTTTAACTTGCCGCGGCTGCCTTCCCAGTTCTGCACACACCG
Celera SNP ID:            hCV1743287
SNP Position Genomic:     87297
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37043):
TCTGTGTCTCAGCTCTGCAGGGCAGCCCTCGAGAGCCTCCATGGTGCTCCTGCAGTCCTCCGGCTTTCCCGAGATTCTGGATGCCAATAAACAGCCAGCC
R
AGGCTGTCAGCGCTACAGAACCTGTGACGTTTAACCCTCAGAAGGAAGAATCAGATTGTCTACAAAGCAACGAGATGGTGCTACAGTTTCTTGCCTTTAG
Celera SNP ID:            hCV836598
SNP Position Genomic:     94210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:37044):
AGTTTTCCGAGTTCCCATTTACGGAGGAACGGCGTGGAGCTTCACTTACCACTCTGCTGTGTCATCTTTCAGGCTTTTTCTGGGAGGAGGTGGGCAGGGG
K
TTGCCGTACGGAGCTCTGAAATGGACTGTAAGAGGCACTCAGGGAATCTGGGGAGAGGCATCGGCTTTGAGGACAGCTGGGCCCCTGCAGAATCCTCATC
Celera SNP ID:            hCV1743288
SNP Position Genomic:     88343
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,7)   total(G,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37045):
AGCCCCTGAGTCTCTGAGATTTCCCCACTTTTCTTGAGTGCCGCATAGCTGCTTTCCTCCTGGATTCCTGACACGGCTGAACCCCCGGGGCTTCCTGTCC
Y
CTCCAGCAGCTGCTGACCCCTGAGAAGCACGGCTCCTCTGCTCCTTCAGCTGCGCTGTGCTCTCGGGGTGGGGGGATGGGGTATGGGAGTTTTTCCAGCT
Celera SNP ID:            hCV836599
SNP Position Genomic:     109514
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37046):
CCTCTCTGTCATTAAATAAAGGAACTTGAGAAGCGGTCCCAGGTTCCAGAGCTGCCCTGGCCAGGAGGCTGCAGGCATCACTCCCTTCCGTGGCTGGATC
Y
AGGGCTACCCCGTTCCCCGGTGTGGCCAGTGCATGTTGGGAGCTTTGTGGACGGACTGGCAAGCTTCTGAGCCCCTCACCTGTGCTCTCTTTCCTTCCAG
Celera SNP ID:            hCV25991415
SNP Position Genomic:     92282
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,38)   total(C,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:37047):
AATGTCCTCTTCTGAGATCGCGGGTGGTGGGCAGCCAGCAGTAGCCCCTTGTGGAGGAGAGTGTGCCTGGGACCCTGTCCACCCATGTCCTCTTGTCTGC
W
GGCGCAGCAGAGCGTCCGCACACAGCACTTGCGGGACCTACAGGTCATCGCCGCCTACCGGGAACGCACGAAGGCCGAGAGCATCGCCAGCCTGCTGAGC
Celera SNP ID:            hCV12041487
SNP Position Genomic:     124503
SNP Source:               Applera
Population(Allele,Count): african american(A,22|T,2)   caucasian(A,28|T,8)   total(A,50|T,10)
SNP Type:                 ACCEPTOR SPLICE SITE;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)   JBIC-allele(T,267|A,1222)   total(A,1222|T,267) 
SNP Type:                 ACCEPTOR SPLICE SITE;hmCS


Context             (SEQ ID NO:37048):
GAGAACCTTCTGGTGTCTGGTCTGCAGCAGATACCTGGCCTGCTTCCAGCTCATGGAGAATCCGGTAAGGGCGTCTTTGATTCTCTCCACTTGGTGAGGT
R
AGTCTGTCCTAGTTCACAGTGAAACCTTGAAGGCACTGGGCTCTTCTGGGGGCAGCGTGGGCCGAGCGCCCCTCTGCAGCTCAGCAGCACGGCCTGGCGG
Celera SNP ID:            hCV27473070
SNP Position Genomic:     37840
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,5|G,1286)   total(G,1286|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37049):
AATTTACCATCTCAGGTGTCAGGTATCTCCCACGGTCCTGACCTGCTCATAAAATTAGGATTCCCTCCTCACCGCTTCTCAACTCACACATTGGATTGCC
R
CGTGAAATATAGGATGCCCAGTTAAATTTGAACCTCAGGTACACAACAAATAATTTTTTAGTGTAAGTATATCCCAAATATCGTAGGGACCATACTTATA
Celera SNP ID:            hCV27473071
SNP Position Genomic:     93546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37050):
AGCTGCAAAAAGCATGAGCCGCACTCTTGAGCTCCCTCCCTATATAGGTGGTCCTGGGAGGCCTGCCCTGGTGTCTGCTCCTGGAAGGCAGACACTGCAC
R
TCTACCTGACTCGCGCTCTGACCCTTTCGCAGGAAAACACGTGGTGCAAGCACAGAAGCTGGCGGACGTGGACAGTGAGCTGGCTGCCATGCTACTGACC
Celera SNP ID:            hCV27473072
SNP Position Genomic:     122274
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,137|A,596)   total(G,137|A,596) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37051):
AATGATTTTAGTATATTTCTTTTACTGTCCCATTTACTTTTTTTGTTTAATTTTACCATGATCATTGCTTATATTTCTTTATTTTGGGATGAGTATTTCA
R
TTCAGCTTGATATGTATTGGGCACCACGATATGTTAGGAACCGTGCAGATGACACAGAGTTGACTCTGCCCTATACTGTGTCTTCAGGAAGCTCTCAGTG
Celera SNP ID:            hCV15979340
SNP Position Genomic:     18169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37052):
GGCAGTGAACAGAATAGTGAATTCCGATTGGTATAGAACATGAACAGATGCGTTCTGGGAGGGACTGGCCGTCACTCGCTGCGTGTATTAGTCACAGATT
T
AGGGGCCAGGCTGGGGTCGGCAGAGCACTGTGTGCCCTGATGTGCTGCACATCTGGTTGGCAGGGCCCCGGGGAGCCACGGGACATATTTCTGAAGGTGG
Celera SNP ID:            hCV26333988
SNP Position Genomic:     133083
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37053):
GGTGGAAATGCCCATCCCTCTCTCCTCCAGGCTAAATGACCCGGCCCCTTTCCCCTCCCCTCCTAAGTCGGATCCCCAAGCCCTGTGAGAATCCTTTCAA
R
CTGGTGTGAGCTCGGAGATTTCCTGCAGTGCTTCTGAGGATGGGGCAGGGGCTAACCTGCACTCAGTGCCCACCACAGAGGGGCCACGTGACCACGTCTC
Celera SNP ID:            hCV1825223
SNP Position Genomic:     133710
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37054):
AGAATCCTTTCAAACTGGTGTGAGCTCGGAGATTTCCTGCAGTGCTTCTGAGGATGGGGCAGGGGCTAACCTGCACTCAGTGCCCACCACAGAGGGGCCA
Y
GTGACCACGTCTCAGAGTGGCTTCCTCGTGAGCCCATGAAGATGCCTCACCCAGCCCCATTTGACTATGAAGCAGCAGGCTCTTGGCCCTAAAATGCTAA
Celera SNP ID:            hCV1825224
SNP Position Genomic:     133797
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37055):
TGAAGGGAAATCCTAGACACTGTGTTAGTTTACCCATAATTACTGCAGTGTGTATCTCTGACTGATAAGGACTTTTCTTTTTATCATGACTGCATGCTGT
Y
GTCGCTGCCCCCAGTCAACGCAGACCTCGGCATCGTCTGCTGGGGCTGTAACCACGGGCCTTTCTACCACTGGTGCGTTTGGATCAGGACCCGCTGTCCT
Celera SNP ID:            hCV1825226
SNP Position Genomic:     127741
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37056):
TCTGACCTGGCAGAACTGTCTGTGCTGAGGTCTTAGTAGATTCGGGAGTGCCATCTGTTTTTATCTTCTCTTGGCTAGGACCCACCCACAGCATGCTAAA
Y
GCTGTGAAAGCTGCTTTACCCCATCTTTTGTGGTCCTTCATTAAAATGTGGACGGTGGGTTGTCCAGGTCTTAGATCTTAGTGTAGCTCCAAAGGCAGCT
Celera SNP ID:            hCV1743290
SNP Position Genomic:     94486
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,26)   caucasian(C,18|T,22)   total(C,28|T,48)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37057):
TCCAAAGGCAGCTTCTCTAGCCGGGAGTGTCCTTACACTCGAGAATGCTGCTGTCTGGCCGGCTTGCTGAGAGCACAGCAAAGCGGTTGCATTGGTGACC
R
CGGCAGCCTCTTTACTGTTCCCCAGCGACTAAGGTGCCTGGACCATCCCCTATGCAAACACACATTAGACCCCTCAGGTTCTGTGCCATGGATACTCAGT
Celera SNP ID:            hCV1743291
SNP Position Genomic:     94674
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,18)   caucasian(A,5|G,29)   total(A,7|G,47)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;JBIC-allele(A,273|G,1222)   total(G,1222|A,273)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37058):
GCCAGGGCGATTTGACTTCTCTCTCCCACTCCTCTGAGCACCGCTCTCGGTGGGTGGGACCGCAGCCTCCTGTGGGTCCTCCTGGGAAGAACTGCCCTGA
Y
GCCTGGACACTGCCTCCCCCAGCGTCATCGTGGACAGTCAGGAGTGGAGGGACTTCAAGGGTGCTGCTGGCCTGCACACACCGGTGGAGGAGGACATGTT
Celera SNP ID:            hCV25995563
SNP Position Genomic:     124925
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,38)   total(C,65|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37059):
TCACTTCAACTAAGCCAACCACCTTTCCTTTTTCAGTCCTCCTGAGGCCTTTGGTAGACAGTCCAACTGATGTCCCCAGAAGGCTGTAAAATGGATCAGA
Y
TAATGCATTTGTCTCAAGGCTCCTCTGTACCCACTGCTGAAGACTCATTCCCCACTCTGTTTCCCATTCCAAATTCCATCCAGTCATTTTATCCAGCACA
Celera SNP ID:            hCV1743292
SNP Position Genomic:     97795
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37060):
CTCAGAGAGCGGCATCTGAGGCGTGGCTGTCTGCCCGGCAGAGCCGCTGGGGGGCTCGTGCCAAGGCCCTGCACGCTGGTCCTACTGAACTGAAGCTTCC
S
GCAGCCACGCCCGTGAGCCTGGAGGAGCCAAGGAGCCCAGGGCTCCCGAGAGTGGTTTTCTCCGTGTTTGGGTGTTTGGAGCTGTGAGTGGCCTTTCTTC
Celera SNP ID:            hCV1743293
SNP Position Genomic:     101137
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37061):
CTGGAGGAGCCAAGGAGCCCAGGGCTCCCGAGAGTGGTTTTCTCCGTGTTTGGGTGTTTGGAGCTGTGAGTGGCCTTTCTTCTCATCACCTCTTCTTCCT
R
CACTTTTTGGGGGGCTCTGCCGAGGGCGTGGTCTCCCCTGCGTGTGTTGGTTCCCTCCTTGGCCCTGGGCTTGGTGCCTTCAACCCTTTTTGTTTTCTTC
Celera SNP ID:            hCV1743294
SNP Position Genomic:     101256
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37062):
ACCATTTCCCCATTTGTCCCCCATGTGTATTTTTTTGATCTGGGATCCAGCCCGGTTTCCTGTATTGTATTTGTAATTATCACTTTAATCTCGTAGTCGC
Y
TGCATTCTTTTCCAGTGACACTGGCTTTCAGGAGAGACCAAGTGAGCTGTCTTGCAGAACGTCCCGTGTTCCGGGCTTACCTGGTTGCTTCTTCATGTTG
Celera SNP ID:            hCV1743295
SNP Position Genomic:     101940
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,10)   total(C,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37063):
GCTTTCAGGAGAGACCAAGTGAGCTGTCTTGCAGAACGTCCCGTGTTCCGGGCTTACCTGGTTGCTTCTTCATGTTGTTGAACTTGTTGCTTTATCCCCC
R
TAGTTCTTGAATGCCGGGAGCGACGGCTGAAAGCTGTTTGATTCTGGATCTCAGCATGAACACTTCATTGTCAGTGCTGTGTGCTTCACAGCCCACCACC
Celera SNP ID:            hCV1743296
SNP Position Genomic:     102064
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,14)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37064):
GGTCAAAGGAGAGCCATGAAAATTAGGGAACTGACGCTCCTCTTCTGTCATCACAGGCCCCATTCACATTCACAAATGTCCCAGCACTTGATAGATGGCC
Y
GTCCAGTGGCCCCCACCAGCCTGCTGCCCATGGAGTCCTTCTGGCGTGGCTGCAGCTGTTGTGAAGTGCACAGGCGGTTATCCTGCAGGGCGTGCCCAGT
Celera SNP ID:            hCV12041492
SNP Position Genomic:     128688
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,11)      total(C,11|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37065):
GACCAAGTGAGCTGTCTTGCAGAACGTCCCGTGTTCCGGGCTTACCTGGTTGCTTCTTCATGTTGTTGAACTTGTTGCTTTATCCCCCGTAGTTCTTGAA
Y
GCCGGGAGCGACGGCTGAAAGCTGTTTGATTCTGGATCTCAGCATGAACACTTCATTGTCAGTGCTGTGTGCTTCACAGCCCACCACCTCAGGAGGCGCG
Celera SNP ID:            hCV1743297
SNP Position Genomic:     102076
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,9)   total(C,6|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37066):
TCTGGCTGACCCTTCCAGTGTTTTTACTGATTTGTTTTTTCAAAAATAAGCAAACATTTACATTTTATTTTCCCTGTTTTCTAATTCAGTGGTAACATAC
M
AAATACACTCTTCTGCTCCCTGCTTTTTTCAGTTAATGTCATAGCCCAAGTTTGGCTGCGCAGACGTCGCCTGTGCCCGTCTCTACGGTAGCTGCGTCAT
Celera SNP ID:            hCV1743298
SNP Position Genomic:     103557
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,9)   total(A,3|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37067):
AGACCATGGGGCCATCTGTGTCCGGATTTTAGAGGCCTTGAGAGCACGCATGCATGCGGGGATCTGTGTGGGACCTGAGTGCAGTCTGGGCAGTGACACT
R
GTGTGGCTGTTCCCCACTGGCATGTCCAGCCAAATAAGCAAAGTCCCTTAGGACCCCTGGCCACCACCACTGGAGTCTTGCCTCCTCCTTCGCTCCCAGG
Celera SNP ID:            hCV29072442
SNP Position Genomic:     64652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37068):
GTTCAAATACCCTATTCTTCATCAGACTTTGACGCACTAGGTGTCAGTGTGCACTGATGACCTGGCCCGAGTTGGTTGGTAGTGGGATGCTTGCCTGCCA
Y
GGATTTTCCAATTCCATCATTCCTTCTCTGTTGATTACTGGTATTTTAAGTAAGGTAGAGCTGTGCCTTCACCCCATTCACCTATTTACTTTTTATATCC
Celera SNP ID:            hCV12041494
SNP Position Genomic:     129140
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37069):
GCTCCCTGCTTTTTTCAGTTAATGTCATAGCCCAAGTTTGGCTGCGCAGACGTCGCCTGTGCCCGTCTCTACGGTAGCTGCGTCATGCTCTGTGGGCTGC
R
CAGACGTCACCTGTGCCCGTCTCTACGGTAGCTGCGTCATGCTCTGTGGGCTGCATAGATGTCGCCTGTGCCCGTTTCTACGGTAGCCGCATCATGCTCT
Celera SNP ID:            hCV1743299
SNP Position Genomic:     103672
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37070):
AGGCCTTGGGCCCGGCACCCACAGAGGCACCCTCAGAGCCTCGCGGGTCTCCTCCGGCTGCACCTTCCTCCCCGCCCATTCCCTCGGGCCTTTGTGCTAA
Y
CACATCTTGGCTTTCTGTTCTGGTTCTACCGCCTATCGATGCATCTCTAAACAGTATAGGCTTGCCTGCTTTTGACCTATCTTTAAATGAAGTCGTACTT
Celera SNP ID:            hCV29072443
SNP Position Genomic:     48480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37071):
GGCACATCCATCTGTGCCCTTCAGCTGGCGGGGAACCTGCTGGACAAGCTGGTGCTTCTGTGCTGCTGCCCACGGGACACCCACACGATTGGATTGTCCT
Y
GTGAGGCCCAGTGGCCGGTGGGAATGCGTGAGAAGGATCAGTCTTGCCATTGTCAACCCTTTTTACAGGATTTGGCTTGGCAAGGCCGTTTTCCTCTGCA
Celera SNP ID:            hCV29072444
SNP Position Genomic:     14279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37072):
GAATGTGAGTTCCTGTCTTGCATCAGGGGCTCATTAAAAGTGGGTGTATTTTCTTCTTCTTCTTTTTTTTTTTCCCCTGGAGAGCCCACTGTACCCTTTT
Y
TTGGGTTCAAGACCTGGAGCCTTCTCGATTTTCTCTTTTATTGTTGATTTGGCCCCAAAGGCCCCTCTGCACTTCCTCCAGGGCATTTGTATTTCATCCT
Celera SNP ID:            hCV29072445
SNP Position Genomic:     9171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37073):
GATTGGCTGTTTATCCTTTCTGAGTCTCAGTGTTCTCATCTGTAAGATGGCGATAATGATGATTCTCATTTGGCAGAGTTGTTGGAATAGTAACCATAGA
W
TGTGAGTTCCTGTCTTGCATCAGGGGCTCATTAAAAGTGGGTGTATTTTCTTCTTCTTCTTTTTTTTTTTCCCCTGGAGAGCCCACTGTACCCTTTTCTT
Celera SNP ID:            hCV29072446
SNP Position Genomic:     9073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37074):
CGGTTCTCAACCAAGAAACACACGAAAAGGGTTTCACACTTTTTCACGACACCCCCCAACTCCAGTGCCTGGCTCAGCCCCCAGGTGTTGACTAGCACCT
M
CAAAGCATTTGCTGACTGGCGCAGGGAAAAAAAAAATGGCCCTGGGTGTCAACAGGGAAGCCCCTACCATGCTGCTCTCGAGGGATGTGCTGCGGCCCGA
Celera SNP ID:            hCV29072447
SNP Position Genomic:     5026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37075):
AGCACTGTTGATTTCCCCTCTCCAGGTGACTTCTGTGATAACTCATACACCGATGTGCTTTGTTTTAATTCTAGGCAGCTTCGGTCACCTCTCTGTCCAA
M
CTGGCATGCATGCACATGGTCCGCTGGGCTGTTTGGAACCCCTTGCTGGAAGCTGATTCTGGAAGGGTGACCCTGCCTCTGCAGGGTGGGATCCAGCCCA
Celera SNP ID:            hCV25993603
SNP Position Genomic:     66300
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,38)   total(A,1|C,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:37076):
GTGGATGTGTATGCATGTGGGTGGATATGTGTGCATGTATGTGTGCATTGTGTGCATGTGGGTGCGTGTGTGTGCATGTGTGGGCGGATATGTGTGCATT
G
TGCGTGTGTGCATGTGGGTGCATGCATGTGTGCATGTGTGGGTGCATGCATGTGGGCATGCATGTGTGTGCGTGTGGGGGCATGTGTGCATGTATGTGTG
Celera SNP ID:            hCV26333996
SNP Position Genomic:     130479
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,5)   total(G,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37077):
CCTTTCGCAGGAAAACACGTGGTGCAAGCACAGAAGCTGGCGGACGTGGACAGTGAGCTGGCTGCCATGCTACTGACCCATGCCCGGCAGGGCAAGGGGC
S
CCAGGACGTCAGCCGCGAGTCGGATGCCACCCGCAGGCGTAAGCTGGAGCGGATGAGGTCTGTGCGCCTGCAGGAGGCCGGGGGAGACTTGGGCCGGCGC
Celera SNP ID:            hCV27473083
SNP Position Genomic:     122397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:37078):
GTATTGGGCACCACGATATGTTAGGAACCGTGCAGATGACACAGAGTTGACTCTGCCCTATACTGTGTCTTCAGGAAGCTCTCAGTGGATTCTTATTTGA
R
TAGACTGGATGTGAAGTAGCATAGAGGTGGTGGGAGGGTGGTTAGGATCTGGCATTCTGGAAAGAAGCCCAAGCCAGCGACGGTTCTGGGAGCCACGGGA
Celera SNP ID:            hCV15979350
SNP Position Genomic:     18283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37079):
TGGTGTGTGTGTATGTGCATCCATGTTTGTATTTGTGCATCTGTGTACATGTATGGATGCATGCATGCATGTGGGTGTGCATGTGTGTGTGTGTGTGTGT
K
CATGTGGGTGGATGTGTATGCATGTGGGTGGATATGTGTGCATGTATGTGTGCATTGTGTGCATGTGGGTGCGTGTGTGTGCATGTGTGGGCGGATATGT
Celera SNP ID:            hCV26333997
SNP Position Genomic:     130371
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,4)   total(G,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37080):
TGGGTGGTGTGTGTGTATGTGCATCCATGTTTGTATTTGTGCATCTGTGTACATGTATGGATGCATGCATGCATGTGGGTGTGCATGTGTGTGTGTGTGT
S
TGTGCATGTGGGTGGATGTGTATGCATGTGGGTGGATATGTGTGCATGTATGTGTGCATTGTGTGCATGTGGGTGCGTGTGTGTGCATGTGTGGGCGGAT
Celera SNP ID:            hCV26333998
SNP Position Genomic:     130367
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,1|-,4)   total(G,1|C,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37081):
TGTGGGTGGTGTGTGTGTATGTGCATCCATGTTTGTATTTGTGCATCTGTGTACATGTATGGATGCATGCATGCATGTGGGTGTGCATGTGTGTGTGTGT
G
TGTGTGCATGTGGGTGGATGTGTATGCATGTGGGTGGATATGTGTGCATGTATGTGTGCATTGTGTGCATGTGGGTGCGTGTGTGTGCATGTGTGGGCGG
Celera SNP ID:            hCV26333999
SNP Position Genomic:     130365
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,4)   total(G,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37082):
ATTTTATGCTGGTATTATATCTGTTTTTTAAATTGTTGAACAAAATACTAAACTTTTACACGTCTTCCCTTGGCAGTTTTCTTGAGTGTCTGCTGGCGCA
K
TGTCAGAGGCTTCCTGTCTACAGCACAAGCCCGGTTTCTCCTTGAGGAGACATGGTGGGGGCCGGTCAGGCAGCCCATGCCATGTGTCCTCATGGAGAGG
Celera SNP ID:            hCV1825230
SNP Position Genomic:     136831
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,8)   total(G,8|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:37083):
GGCTGCAGAGCCCGATGGCTGCTCCTGTGCTCTTGCTGTTGCTCGGCAGAGGGCAGGCATGTCCTGAACATTGTCACAACAAAAGCAAGAAGCTGGCTTC
R
TGTCCCAGCGAGCTGCTTCCACAGAGGGAGGCTCTATGGCTCTAGGAGGCCAACTCGGGCCCTGTGTGCCTGTCTGTTTGCAGCTGGGGAGGGCTGATTT
Celera SNP ID:            hCV28034535
SNP Position Genomic:     25677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37084):
TGTGCGTGCATGTGTGGGTGGTGTGTGTGTATGTGCATCCATGTTTGTATTTGTGCATCTGTGTACATGTATGGATGCATGCATGCATGTGGGTGTGCAT
S
TGTGTGTGTGTGTGTGTGCATGTGGGTGGATGTGTATGCATGTGGGTGGATATGTGTGCATGTATGTGTGCATTGTGTGCATGTGGGTGCGTGTGTGTGC
Celera SNP ID:            hCV26334000
SNP Position Genomic:     130353
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,1|-,4)   total(G,1|C,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37085):
CCCCCACAACACACAGCACACGGTGACTGTGGAGATCGACAACCCCGAGCTCAGGTGAGGTCTCAGTGGTGCCCGTCCTGCCCCAGCCCAGATCTGTGTC
R
GGTGCAGCCGGCACCCCTGCTGAGCTGGCTCGAATTCTGCCCGAGAGCCAGGGCGATTTGACTTCTCTCTCCCACTCCTCTGAGCACCGCTCTCGGTGGG
Celera SNP ID:            hCV25996377
SNP Position Genomic:     124778
SNP Source:               Applera
Population(Allele,Count): african american(G,12)   caucasian(A,1|G,35)   total(A,1|G,47)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,1|G,39)   total(A,1|G,67)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37086):
GTTGATTCACCCCTGTCCTCCTTTGAGTCTTTCCTTACTGCCCAGCACAGCAAGACGCCCCAGGCTCAGCTTGCATTTCAGGAGTGTCAGCTATTTAGCT
Y
GGGTTCCTTTGGTTGGAGAATGATATTTAGAAACCAAGATTTGAGCGTTAGATGTACTCAGTACTACTGGGATGTCACTGCTGCTAAGTCCCTCTCAGCA
Celera SNP ID:            hCV26334003
SNP Position Genomic:     129456
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37087):
GTTATTTTGAAATAATTTAGAACTTAGGGAAGAGTTACAGGAAGAGTGCAGAGTCCCCACATAGGGTTTTCCCAGACTTCCCGGTCACTAACCTTTGCCA
Y
GTTTGCCTCGCCACTCTCTGTTTGTGCATTTTTCTTGAACAATTTGAGAATAAATTATCAGGTAATGCCCTTTACTCCATGACACTTCGAGCTGGGTTAT
Celera SNP ID:            hCV26334004
SNP Position Genomic:     128460
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,11)   total(C,4|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37088):
GGGCCAAGGATGCAGCGTCTGGGTGCACTGTGGGTGGAGGCGGGACCCTGGGCCAAGGCCCCTCTCAGGCTGCCTGGTCATGTCCTCTCGGTTCCCACAC
R
TGCCGGGAGCATGCAGGGGGTGAACCATTAGCACAACCCTTCTCAAACTTTTTGGTCTCAGATCCCTTTACCCTTTAAAAGATTATTGAGGACCCCAAAG
Celera SNP ID:            hCV8377965
SNP Position Genomic:     10889
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37089):
CCTCCTGTGGCCTGGTCCTCTGGGGCTTTCCCTGCACAGCCTCCTGTCTGCCCACGCTCCTGGCAGCCCTTGTTGGCCTCTCGTGGGCCGGTGCTGAGTC
Y
TCCGGGACAAGTGCAGATGGCTCCCATCCCACTGCAGGGATCGCTGGCTGGCGACACCCACACAGACGTGGCAGGTCTACCTCCACTCCCTGCAGCGCGT
Celera SNP ID:            hCV11598608
SNP Position Genomic:     134294
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,2)   caucasian(C,21|T,17)   total(C,31|T,19)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37090):
TTCTGAGCCTCTCCCCAACCCCAGCCTGGAGACGGGCAGTGGGCATTCAGCTGGAGCACAGTGGGTGGCCCTGACAGCAGCTTTTCCAGCGCCTCCAGCG
Y
GCAGACGCTGTTACCAGAGGCCTCTCGGCAGTTGCCTTTCGTTAGATGTGCCATTGTGGGGTGAGTGACGTACACACCAACCCCAAAGGCCGGTGTTCAG
Celera SNP ID:            hCV11598609
SNP Position Genomic:     134625
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37091):
CCATCCCCTATGCAAACACACATTAGACCCCTCAGGTTCTGTGCCATGGATACTCAGTTAACCCAGAGCTGTTGTTGGATTCAGAGTGGCCCAGGACTGC
Y
GAGGAACATCATGGCCAAAGACTGTGTATTTCACCTTCCAGTTCTACCGCTTCCCACCCGCAACGACGCCACGACTGCAGCTGGTCCAGCTGGATGAGGC
Celera SNP ID:            hCV27860304
SNP Position Genomic:     94817
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:37092):
CTCTCTCCCACTCCTCTGAGCACCGCTCTCGGTGGGTGGGACCGCAGCCTCCTGTGGGTCCTCCTGGGAAGAACTGCCCTGACGCCTGGACACTGCCTCC
Y
CCAGCGTCATCGTGGACAGTCAGGAGTGGAGGGACTTCAAGGGTGCTGCTGGCCTGCACACACCGGTGGAGGAGGACATGTTCCACCTGCGTGGCAGCCT
Celera SNP ID:            hCV16187493
SNP Position Genomic:     124943
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,7|C,1476)   total(C,1476|T,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37093):
TGTTGGATTCAGAGTGGCCCAGGACTGCCGAGGAACATCATGGCCAAAGACTGTGTATTTCACCTTCCAGTTCTACCGCTTCCCACCCGCAACGACGCCA
Y
GACTGCAGCTGGTCCAGCTGGATGAGGCCGGCCAGCCCAGCTCTGGCGCCCTGACCCACATCCTCGTGCCTGTGAGCAGAGATGGCACCTTTGATGCTGG
Celera SNP ID:            hCV27860305
SNP Position Genomic:     94889
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37094):
AGAAGGCCATCCGCCTGCCGCCCTGGCACACATTTCCAGGCAGGTCCTGCACTGACCCTGCAGCCCACATGTTGCAGGCTCACCTGTTGGAAGTAGATAC
Y
TCTTGAGGGTGACAGATGGCCTCATGGCTTCATGCCCTGGTGCTGTCAGAGCAGCACGTGGGGCCTGGGGAATTCTCTCTCCTGCCTTTATGGTTTGAAA
Celera SNP ID:            hCV16187494
SNP Position Genomic:     131927
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,34|T,4)   total(C,62|T,4)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,71|C,676)   total(C,676|T,71) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37095):
GCTGAGGTACATGGTGGGCCCTGGGTTCCTGAAGCCAGGTGAGCGGCGCTGCTTTGCCCGCTACCTGGCCGTGCAGACCCTGCAGATTGACGTCTGGGAC
R
GAGACTCCCTGCTGCTCATCGGATCTGCTGCCGTCCAGATGAAGGTAGCGGCTCTCTGGAAGGACAGGCACAGTGGGTGCTGCGTCCCTCATGGGACGAG
Celera SNP ID:            hCV27860306
SNP Position Genomic:     108693
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37096):
CGGCTCCAGCCTCTGAACGCGCTTTTCTCTTCTGCAGCATCTCCTCCGCCAAGGCCGGCCGGCTGTGCAGGCCTCCCACGAGCTTGAGGTCGTGGCAACT
K
AATACGAGCAGGACAACATGGTGGTGAGTGGAGACATGCTGGGGTTTGGCCGCGTCAAGCCCATCGGCGTCCACTCGGTGGTGAAGGGCCGGCTGCACCT
Celera SNP ID:            hCV27860307
SNP Position Genomic:     112202
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:37097):
CCTCTGAACGCGCTTTTCTCTTCTGCAGCATCTCCTCCGCCAAGGCCGGCCGGCTGTGCAGGCCTCCCACGAGCTTGAGGTCGTGGCAACTGAATACGAG
Y
AGGACAACATGGTGGTGAGTGGAGACATGCTGGGGTTTGGCCGCGTCAAGCCCATCGGCGTCCACTCGGTGGTGAAGGGCCGGCTGCACCTGACTTTGGC
Celera SNP ID:            hCV27860308
SNP Position Genomic:     112211
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:37098):
CTCATTTGGGGTTCATGTCTTATGTTGGGATGTTTTTCATGTAGGTCACCCGTGTGAACAGAAAGTGAGAGGTTGTAGCACATTGCCACCGTCCAGATCT
Y
GGGTCATCTCAAACGATGGAGCCAGCCGCTTCTCTGGAGGCAGCCTCCTCACGACTGGAAGCTCAAGGCGTGAGTTTACACTGTTGGGCCCATGTGTGGG
Celera SNP ID:            hCV27860309
SNP Position Genomic:     119422
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:37099):
CCCCTGGCACTACTGTTCTTTTGACTGTTTCCATGTTGCCTCTTCCAGAATGTCATACAGCTGGAATTATGTAGTATGTAGCTTTTCAAAACTGGTTTCT
Y
CCCCCCAGCACTGTGCATTTAGTTCCTCCATGGCTTTTTGTGTCTCGCTCACTCACGTATTGGATTGCTGAATGATACTTCATTGCACGTATGTGCCACA
Celera SNP ID:            hCV320579
SNP Position Genomic:     99162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37100):
TCAGGTGAGGTCTCAGTGGTGCCCGTCCTGCCCCAGCCCAGATCTGTGTCGGGTGCAGCCGGCACCCCTGCTGAGCTGGCTCGAATTCTGCCCGAGAGCC
R
GGGCGATTTGACTTCTCTCTCCCACTCCTCTGAGCACCGCTCTCGGTGGGTGGGACCGCAGCCTCCTGTGGGTCCTCCTGGGAAGAACTGCCCTGACGCC
Celera SNP ID:            hCV8823600
SNP Position Genomic:     124828
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,9)   caucasian(A,23|G,15)   total(A,34|G,24)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,13)   caucasian(A,22|G,16)   total(A,37|G,29)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37101):
CGTGCGGGGGGCCAGACTCGTGTCTGTGAAGAGTCTCTCAGGAATAGGCAGGGATGCTGTGTGGACCTCCGTGTCAGGGACACAGCCAGCAGATCTCTGT
Y
CAGCACTGCCTGAGATCCATGCCTGGGCGGGGCCGGCCAGTTCCACCCAGACCACATGGTCAAGGAAGGGGGTGGTGGTGGCGATGCTTGTGGAGAAATG
Celera SNP ID:            hCV8823601
SNP Position Genomic:     124306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37102):
GAGGCCATTCTTTTCTCTTGTTTGAAACTTCTGATTCTCCACCGTGCGGGGGGCCAGACTCGTGTCTGTGAAGAGTCTCTCAGGAATAGGCAGGGATGCT
R
TGTGGACCTCCGTGTCAGGGACACAGCCAGCAGATCTCTGTCCAGCACTGCCTGAGATCCATGCCTGGGCGGGGCCGGCCAGTTCCACCCAGACCACATG
Celera SNP ID:            hCV8823602
SNP Position Genomic:     124264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37103):
AGGCAGCCTCTAGTGGGCCTTACTTTTTCTTGTAAGTCCCACAGGAAAAACAGGCCAGTCTCCAACCTGTAGAACCCATGTGTGCTGGCCAAGCCCCTTG
M
GTCCCTGCGGCATCAGAGCAAGGGGGTGGCTGAGCCTTGCTGAGGCAGCGTGCTGCTTGCCTGGACTCTGACCCGGTGTGACCGAGACTCAGCAGGCCGG
Celera SNP ID:            hCV8823603
SNP Position Genomic:     123972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37104):
TCCTCTTCTGAGATCGCGGGTGGTGGGCAGCCAGCAGTAGCCCCTTGTGGAGGAGAGTGTGCCTGGGACCCTGTCCACCCATGTCCTCTTGTCTGCAGGC
R
CAGCAGAGCGTCCGCACACAGCACTTGCGGGACCTACAGGTCATCGCCGCCTACCGGGAACGCACGAAGGCCGAGAGCATCGCCAGCCTGCTGAGCCTGG
Celera SNP ID:            hCV25998563
SNP Position Genomic:     124507
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,23)   caucasian(G,36)   total(A,1|G,59)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:37105):
GGAGCTTTGTGGACGGACTGGCAAGCTTCTGAGCCCCTCACCTGTGCTCTCTTTCCTTCCAGTTGTCAATTTCCCAGCTGGCGGCCTCCCCGCGGTCCCC
R
ACTCAGCACTGCTTGGCCAGGCCTACTTCACAGCTACCCCATGGCTCTCAGGCCTCCCCGGCCCAGGCAGTAAGTGCCGCCCACCTGCCGCCTTGCCTTC
Celera SNP ID:            hCV25992249
SNP Position Genomic:     92421
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,22)   caucasian(A,3|G,33)   total(A,5|G,55)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:37106):
TACCGGGAACGCACGAAGGCCGAGAGCATCGCCAGCCTGCTGAGCCTGGCCATCACCACGGAGCACACGCTCCACGCCACGCTGGGGGTCGCCGAGTTCT
Y
TGAGTTTGTGCTTAAGAACCCCCACAACACACAGCACACGGTGACTGTGGAGATCGACAACCCCGAGCTCAGGTGAGGTCTCAGTGGTGCCCGTCCTGCC
Celera SNP ID:            hCV27860310
SNP Position Genomic:     124659
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:37107):
ATTGTTCACGCCAGTCACATTACCATTGGTTGAGGGGTCGTCGGACATGCAAATCAGGATGGGCCCGCCGCCGCACCGATTGGCTGGCGCTCGCAAAGCG
Y
AGCCCTCGACTTGGGCTCTGATTGGCTCCGCGGCCCTGACGGCGACAGTGACGCGAGGCGGGTTCTTGGACTGAGTGTGCGGCGCGGTGCGCCGCCTTCC
Celera SNP ID:            hCV8880595
SNP Position Genomic:     7070
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37108):
AAGGCTGTGCTCCTACAGCATTTCCAGGGTTTGGTTTTCTCAACTCACTGGCCTTCATCATTACGTTTATGGCCAACCAGGGGTGTGGCCTTTGTCTTTG
K
GGGAGGGGGCTGGTCACCACCAGGGCGGTTCCAACCTTCCTGAATCACTTCAACTAAGCCAACCACCTTTCCTTTTTCAGTCCTCCTGAGGCCTTTGGTA
Celera SNP ID:            hCV29072470
SNP Position Genomic:     97650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37109):
GCTGGGCCATGAGGTGTCCATGTGGCCTGGGGAGGGGTTGCAGAAGCAGCACAAATGCCAGCTGGGCTGAGGCGGGGCTGGGCAGGTACAGGTGGCCCTG
K
GAGGAGGCTGCTGGCTCTTTAGGCAGCCCCTGGATGCTTGGGAGGCAGCTGTGGCCTTATAAAGGGCCAAGGCAGTTCTCAGTCCCTGGCTCCAGGGGGA
Celera SNP ID:            hCV29072471
SNP Position Genomic:     89728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37110):
AACAAACAAACAAACAAACAAAAAAGAAAAATTAAAACATTTTTTAAATTGTAACTTTACCAGAGAAGGTTATTAAAGATCAATGCCTTTCACTTGAGGC
R
GAACAGAGCACCACTTCACTCTCCCTAGAAAAGTCCTTTTCCTGTTTGTGGTGTTTCTAACATTCTCTGTTAATTGGCTGGTTTGACTGGAAGCACCTTT
Celera SNP ID:            hCV27840002
SNP Position Genomic:     37505
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,38)   total(A,2|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:37111):
CGCTGCAGCGACCCGAACGTCATCTGTGAGACCCAGAATGTGGTAGGTTGTGTTGTGGCCCCAGCTCAGGCAGATCCTTCCCAGTGAGTCTGCGCCCCTG
Y
CGGCTTCCCCACGGGTATCCTGGGATCCTCTTCATTTTAGGTTTTCTGCTAAGTGGTTTCTTTCCCAAGGTACTAAAGGGCTATTTTGACATCCTTATGA
Celera SNP ID:            hCV25994006
SNP Position Genomic:     132634
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(C,5|T,33)   total(C,6|T,68)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37112):
TCTGTTGGTGTTTCTTGTGGTGGAATTCCTAGGGAATGGAAAGTTCCTGGAGCGGAAGCAGACATCTGATGCCCTGGTTGTTGGGTGCTCTGGAATAAAG
R
GCTCCGACACCAACATTTCAGTCTGAGGGAGTTACCTCAGTGTGCCTGCTTCCCTGGCATCCTGCAGAGATGTGGTACACCACATGAGGGCATGGTAGAG
Celera SNP ID:            hCV16183952
SNP Position Genomic:     30117
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,86|A,1405)   total(G,86|A,1405) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37113):
GGGGGTGTCAGCTACTGGGACATTGGCAAGAACGAAATTAATTCCCCTGGAAAGAGATGGCTGGGTAAGCGCACCACTGAGAGATGGCTGGGTAAGCGCG
Y
CACTGAGAGATGGCTGGGTAAGCGCGCCACTGAGAGATGGCTGGGTAAGCGCGCCACTGAGAGATGGCTGGGTAAGCGCGCCACTGAGAGATGGCTGGGT
Celera SNP ID:            hCV174337
SNP Position Genomic:     117254
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,8)   total(C,6|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37114):
GAGGGTCTGAGAGCAACAGGGAGAGGACCGAAATAGCCCTTGTTCTAGGTGCTCGTTCCCAGGAAGCTGGCTTGGAGTGAGGACTGAGTGGACGCTGCAG
S
TGCCAGGAGGCGGTTGGTAGCCCGAAGGCAGAAGCACAGTGTAGGGCATGTGGGCGACATGGAGGCTGCGTCTTTATGGGGATGTAGCAGGGACCTGGGC
Celera SNP ID:            hCV174338
SNP Position Genomic:     116975
SNP Source:               Celera
Population(Allele,Count): no_pop(G,7|C,7)   total(G,7|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37115):
CTTCCTTTCCCCTGCCTTTTGGGGCCATCTGTTTACCCCTGTTTGTAACAGGGCCACAGTCTACCCCCAAGGCCCAAGGCCCAAGGCCCAAGGCCTGGCC
C
GTCCCTGCCTTCCACCAGCTGCCATGAGTTGCTAAGCAACAGCCTCTGCGTGCTGCCCCCTCTCCCTCCTCCCTCAGGACTTCTCTCTCCCACGGAATTG
Celera SNP ID:            hCV11598200
SNP Position Genomic:     84406
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,15)   total(C,1|-,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37116):
CTCTCAAAGTGCTGGGATTGCAGATGTGAGTCACTGCACCCGGCCAGCAATAAAGTATTTTTAAATTAAGGTAGGTACAGTACTTTTTTTTTTTTTTTTT
T
AGACATATGCTATTACACACCTATTGACTACAGTATAGTATAAATACAACTTTTAAATGCACTGGGAAACCAAAAAATTCAGTGACTTGCTTTATTGTAG
Celera SNP ID:            hCV11598201
SNP Position Genomic:     68201
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,8)   total(T,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37117):
TGCAGGGCAGCCCTCGAGAGCCTCCATGGTGCTCCTGCAGTCCTCCGGCTTTCCCGAGATTCTGGATGCCAATAAACAGCCAGCCGAGGCTGTCAGCGCT
R
CAGAACCTGTGACGTTTAACCCTCAGAAGGAAGAATCAGATTGTCTACAAAGCAACGAGATGGTGCTACAGTTTCTTGCCTTTAGCAGGTAAATCCTTGA
Celera SNP ID:            hCV25995175
SNP Position Genomic:     94225
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:37118):
ATCTGAGTCACCAGGGACTGGTGGCCAAGGAGCTTGCTAAGCTGCACCAGGACCCCTGAGGGCTGGGCAGGTGCCACACCCTACAAGCCTGCTGGGCACA
Y
CGATATCTCAGGACCCTCGGCCCACCCAGGCCCCAAGACTCCACAATTCTTACACAGAACGTAAAGCACTACGCAGCCAACCTATGCAGGGCAACCAACA
Celera SNP ID:            hCV1255746
SNP Position Genomic:     329
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37119):
TGCCCTGTCTGTTAATGTACCATGGCCATACTGTTTTAATTTTGGAGGCTCTGTTGTGTGTTTTAGCATTTGGTAAGGCAAGTTCAGCTTTATGGTTCTT
S
TTTTCCTTGCTTTTCTAGCTTTTCTTGCATGTTTATTTTCTGGATTAACTTTTGTATCAAGAGGTCTAGCTCCAAAAAATGCTGATTGGCATTTTAAAAA
Celera SNP ID:            hCV11598204
SNP Position Genomic:     58598
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,9)      total(G,4|C,9) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37120):
GGTGCTGAATCTGGGGTCCTGCGCCCCCTCGCTGCTCCTGGGAGCCCAGCTCTGCTTCCCCTCTCAACAGAGGCTGCCTCCTTGGCAGCAGCTGGCCCAC
Y
GGATGCAGCAGATACCTGCCTCATCCTCTATTTTCCTCTCCTCCCCGGGCTCTGGAAGAATCCAGGGTTCCCTACTGTCTGTCTTGACCTTCATCTTCCC
Celera SNP ID:            hCV1255749
SNP Position Genomic:     922
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37121):
CATGACAAAATAACCCTCTCCCCAAATCTCTAAGGGGTGAAGATTTGCCTGATTTATTGTTTATGTATTAACTCATATTCTTGGAACAAAATCAATGGCC
Y
ATGTTCCAGGGTCTGTTGAACTGATCCATGTGTGTCCCTGATGGCCTTTCCTCCAGTACCGTGTCCAGTTCAGGATCATGTCTTGTGTCTGGTTTCTGTG
Celera SNP ID:            hCV11598206
SNP Position Genomic:     56860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37122):
TGAACGTAGTCTCTCTCTCTCTACCTCTCAACTGCAATGGGTGGGTGGTGTCTACAGTGTGGATATGCGGGACGGAGGGATGATTCACGCCCTGGGGGGG
G
ACAATGCCAGATCTAATCACACTGCTCAGAGTGGCACGCAATTTAGGACTTAGGGATTGTTTTCTTCTGGAGTTTTCTGTTTAATATTTTCAGACCAAGG
Celera SNP ID:            hCV11598207
SNP Position Genomic:     53699
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|-,7)   total(G,3|-,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37123):
TGAATGAGCTGGACTTGTTTGCTCCCTACCCGTTCTTGAAAATGCAGTTCTACATAATATGGTCTTATGTAAACACAAAGCAGAGAATAGGATTGAAACA
S
CAACATCCGTTTCCTTGGTGTAGTTCCTGCTGTTTTCTTGTTTGTCAGGGCGGATTGTGTGAGGGTAGAGTTGTTTTAGGAATATCATTGTTGAATTTTA
Celera SNP ID:            hCV11598208
SNP Position Genomic:     50367
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,8)   total(G,5|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37124):
GCTTGAACTCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTGCAGCCTGGGTGACAGCAAGATTCTGTCTCAAAAAAAAAAAAAAAAA
A
GAAAAGAAAAGGTTGGAAACCCCGTTGCAGTGGGCGTCCGCCCTTCCCCTGAGCATGTGCGTGAATTCTTAGGGCAAAATCCTGAAGCTGGTGGCTGGGT
Celera SNP ID:            hCV11598209
SNP Position Genomic:     35907
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37125):
GGCTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGACGGGGGCTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTCGAGTAGGACGGGGG
Y
TCGGCTGGGAGCTTGTGTGTTACTTGTGTTCTGTGACCTTTCCTGGGGGAGGCAGGCGTCAGGACAGATGGCCCCACAGGCTAAGCGTCTGTGTTCTCAC
Celera SNP ID:            hCV26334041
SNP Position Genomic:     115172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37126):
GTGGAGTAGGACGGGGGCTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGACGGGGGCTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGT
S
GAGTAGGACGGGGGTTCGGCTGGGAGCTTGTGTGTTACTTGTGTTCTGTGACCTTTCCTGGGGGAGGCAGGCGTCAGGACAGATGGCCCCACAGGCTAAG
Celera SNP ID:            hCV26334042
SNP Position Genomic:     115157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37127):
GGGGGTTTGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGATGGGGGTTTGGCAGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGACGG
S
TGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGACGGGGGCTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGACGGGGGCTCGGCTG
Celera SNP ID:            hCV26334043
SNP Position Genomic:     114883
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37128):
CAGGCCCGAGGGCACTCAACACTGCCTCGTCGGAATTAAGGAAATTGATGGCACAAGCATTTTGTGCGTACCCTGGGTGGTTCATTTTGGGACACAGCTT
Y
GTTGGCGGTGCTCTGCCTCGCCCCTTGGGGAAGTAAAGGCCACACCGAGGTTGTGGGTCCCATCCTTGCAGGAGAGTGTGCCGTGGGCAAGCACGGCTTC
Celera SNP ID:            hCV174341
SNP Position Genomic:     118684
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37129):
GTCGAGTAGGACGGGTTTGGCTGGGAGCTTGGGCAGTTATCTTGGTCGTGGAGTAGGACAGGGGCTCGGCTGGGAGCTTGGGCAGTTATCTTGGTTGTGG
M
GTAGGATGGGGGTTTGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGATGGGGGTTTGGCAGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGT
Celera SNP ID:            hCV26334044
SNP Position Genomic:     114775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37130):
CTTGGTTGTGGAGTAGGACGGGTTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTCGAGTAGGACGGGTTTGGCTGGGAGCTTGGGCAGTTATCTTGGT
Y
GTGGAGTAGGACAGGGGCTCGGCTGGGAGCTTGGGCAGTTATCTTGGTTGTGGAGTAGGATGGGGGTTTGGCTGGGAGCTTGGGCAGTGATCTTGGTTGT
Celera SNP ID:            hCV26334046
SNP Position Genomic:     114721
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37131):
CTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGCGGCGTAGGATGGGCTCGGCTGGGAGCTTGGGCAGTGATCTTGGTTGTGGAGTAGGACGGGTTCGGC
W
GGGAGCTTGGGCAGTGATCTTGGTTGTCGAGTAGGACGGGTTTGGCTGGGAGCTTGGGCAGTTATCTTGGTCGTGGAGTAGGACAGGGGCTCGGCTGGGA
Celera SNP ID:            hCV26334047
SNP Position Genomic:     114649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37132):
GCCGGGGTTTTAAGCCCAAGATGGCTTCAGTTCTGTCTGCGGAGGCAGCGCTTAGGGAATAGTCGCCGTGTGAGAGGAGGGACTTGCCTGGTGTGGACCC
R
AGTCGCGGCCACAGTCATGTCAGGGTTGGTTGTGGCCTCAGATTTGGCCGCCCCGGAACCACCCATGACCTTGGGCTCCCCTGGCTGATTGGGCTGCAGG
Celera SNP ID:            hCV240129
SNP Position Genomic:     134919
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   JBIC-allele(G,204|A,533)   total(G,204|A,533) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37133):
GCCCTGGTGTCTGCTCCTGGAAGGCAGACACTGCACATCTACCTGACTCGCGCTCTGACCCTTTCGCAGGAAAACACGTGGTGCAAGCACAGAAGCTGGC
R
GACGTGGACAGTGAGCTGGCTGCCATGCTACTGACCCATGCCCGGCAGGGCAAGGGGCCCCAGGACGTCAGCCGCGAGTCGGATGCCACCCGCAGGCGTA
Celera SNP ID:            hCV174346
SNP Position Genomic:     122338
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;JBIC-allele(A,84|G,1383)   total(G,1383|A,84)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:37134):
CCCAGGACGTCAGCCGCGAGTCGGATGCCACCCGCAGGCGTAAGCTGGAGCGGATGAGGTCTGTGCGCCTGCAGGAGGCCGGGGGAGACTTGGGCCGGCG
Y
GGGACGAGCGTGTTGGTAAGGGTTTGTTCAGCTGTCACTGTCCTGGGATCTCCATGCAGACTGAGTCACTGTGCACGTCCTTTCCCTGCCTCCCACATGA
Celera SNP ID:            hCV174347
SNP Position Genomic:     122497
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;JBIC-allele(C,361|T,1112)   total(C,361|T,1112)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:37135):
AGAGGGAGGCTGGCCTTCATCTGAGTTCCCCAGGATGTGGCAGAGGACAAGAGGGCCCAGCATCTGCTCAGGCCCATGAGACAGGGAGTCTCACGCATCT
S
CCAAGCCCAGGCAGGCAGGAAAGCCTCGAGCCAGTGGGCAGTGACAGGACGAAGCCCAGGTGTGCCACCCCATCTCCCCCAGTGTGCTCTCTCCTGGGGA
Celera SNP ID:            hCV1255751
SNP Position Genomic:     3336
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37136):
GTCCCTGTAAGAGCCCCCAGGACAAATGCCAGGAGGAGGGACACCAGGATGCGGCTGGTTGGCGGGGTGGGAAGGTGGGCAGGTACCCCGGCTGCTGCTA
M
TGCCGCAGGACGCGGTGCAGCAGTGGGGTCTTTGCATCCTGGGAGCAGCAGCAGGTAGGGAGGTGCGGAAGTGCTTTGTGCCAAGGCCTGGCAGGAGGGA
Celera SNP ID:            hCV1255755
SNP Position Genomic:     6021
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|T,7)      total(T,7|G,6) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:37137):
AACCAGCCGGACTCTCCTATCTCTGCTTCCCAGGACAAAAGGTACCTGCCTTGTTTCTACAACCCTGGGGTTTTCCAGCGTCTGTCTTTTTTTTTTTTTT
T
GAGACAGATTCTCACTCTGTCAACCAGGCTAGAGTGCAGTGGTGTAATGTCGGCTCACTGCAACCTCCGCTTCCTGGGTTCGAGCGATTCTCGTGCCTCA
Celera SNP ID:            hCV11598210
SNP Position Genomic:     30565
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37138):
CAGGTACCCCGGCTGCTGCTAATGCCGCAGGACGCGGTGCAGCAGTGGGGTCTTTGCATCCTGGGAGCAGCAGCAGGTAGGGAGGTGCGGAAGTGCTTTG
Y
GCCAAGGCCTGGCAGGAGGGAGAAGCTTAAGATAGGAGTAGGGGCTCAGGGTCAGAAGTGGCGGTGTGTGTGCTGTAAACAGCCCGAGGAACTGGTGCAG
Celera SNP ID:            hCV1255756
SNP Position Genomic:     6100
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37139):
TGAATATCATCTACTTGGCTTACATCTTGAGAAATCTTTTAATAAAATGATCTCAAGGTGATTTTCGGCATAAAAAGACTTTAGTCTTTTGGGCTCTGAA
Y
CGGGGATAATTACTTAGCACCTAAAGAAATTCAAGGATTCTTCTTGTTAATAGTTTAAATACAGTTCAGATGGAACTCAAAATGGTTACGCACGAAGCAG
Celera SNP ID:            hCV11598211
SNP Position Genomic:     29715
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37140):
GTAGGGTGGTCCACGCCGTCCCTGCGTGGGGGCCCGGTGCCTGGGGTGCGGCGGTGGCGCGCGGCGGGGGCTGTCCCCGCGTTAGTCGCAGGCGTCCCCC
S
TCGTCGGGACACTTGGGGTCGGGGCCGCTGGGTGCCGTTTGGCTACGTGGGTTCCTTTCTGCCCTTGCCCTTTGCCCCCTGCCCCCTGCCCCCTGCCCCC
Celera SNP ID:            hCV1255757
SNP Position Genomic:     7560
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37141):
CGCGTAATCCCAGCTACTTGGGAGGCTGAGGCTAGAGAATCACCTGAGCTCGGCGGGTGGAGGTTGCAGTGAGCTGAGATTCACGCCACTGCACTCCAGC
S
TGGGTGATAGAGCAAGACTCTGTCAAAAAAAAGAAAAACCAAACAAAAAAAAACCCTACAAATTAGGTTCAGTGGATACTGCTCGGGTGATGGGTGCACC
Celera SNP ID:            hCV11598212
SNP Position Genomic:     26662
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37142):
TTTTGATAATGATTTGGGAGGAAAATGGTGCCTTGTTTTCATTCGCATTTCCTTGCCTCTTGGAGAAGCTGACATGGTTTCTTGTATTTGTTGGCTGTTC
Y
CTAAAGGAGACTTCTCATATCTTCTCAGTCTCCCAGTGACTGAGGTTCCGGAATCATCGATGTCTATGCAGTGATCGTATGCAGTGTAGACGAGTGTGGC
Celera SNP ID:            hCV15877866
SNP Position Genomic:     110988
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   JBIC-allele(C,246|T,1247)   total(C,246|T,1247)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37143):
TGAAATGAGAGGATGAAAGAAAATGGTTTTCAGAAGGAGAAATGATTGGTCTCTGTGACGTTTCCAGTGTTTAATTGTACAGTGATTGAACTGTCAGTCA
Y
CTGGGGACAATGGAAAGCTGTAAGTTTGTCAATTTTGTTGTTGTGTGTTCACAGCAGCATAGTGTGGGATCTTTCTTTTCTAAGAGATGGGGTCTCACTA
Celera SNP ID:            hCV11598213
SNP Position Genomic:     25920
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37144):
CCCTTTGCCCCCTGCCCCCTGCCCCCTGCCCCCTGCCCCCTGGCCTCTCTGCAGCCCCTCGGCTGAAGGGAGCGCGGTACCGATGTTCTGGGCCTTGGCT
S
CCCGCGCCCTAGTCCGCGCGCATCCTTCCCAGGCCGGAGTCCGCGGACCCCGCCTGGCCGCGCCCCTCCGCCCCTCCTCCCCGCCCCCCGGCTCCAGCTC
Celera SNP ID:            hCV1255759
SNP Position Genomic:     7728
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37145):
AGGATTGCTTGAGCTCAGGAGTTTGAGACCAGTCATGGCAGCCTAGTGAGACCCCCATCTCTTAAAAAGCAGCGTTTTGGGGAATTTCTGAATCATTTGG
R
AGAGCGTGCAGTGTTACATGGTGGACTTGCTGTTGCAGCAGCACCCCTGTGTCCCCCAGGGTGTCCCCTTGACTGTTCTGACAGTGGTCGACGTGGATGC
Celera SNP ID:            hCV704674
SNP Position Genomic:     52217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37146):
AGGTGCCCCCAGAGGGCTCTGCCCGGTGTCCCATGAAGAATGAGGATTACCAGGTGGCTGGAGGGAACAGCGCTATGTCTGCCTGCCCTGTGAAGACCAG
S
CCCTATTCCCTGTAATCCTCTCTGGTGGTTCTTTCTCTTTTGGCCTTAGGAAGTTTCCTGATCCGCGCTCTACTGAATGCTAGGGTGGGACCCTCTGTAA
Celera SNP ID:            hCV704677
SNP Position Genomic:     76030
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37147):
AAGAGGAGGACACTGAGGTGCATGGAGATGGAATAACTCCACCAGCTTATTCCCATGTGGCGGGTGGGGGTGGGAGCGACGGCCCTGTGCATCTGACGGC
W
CCACCTGCTGTGGCCTCCGTGACCTCCTGCTTCTGAGGAGCCCTGCATTTTGTTCTGAAGTGTTCTGTAGAATGCTGAGGGATGGAGTATGCTCTGAAAC
Celera SNP ID:            hCV704678
SNP Position Genomic:     23436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Gene Number:                 162
Celera Gene:                 hCG22667 - 79000075516476
Gene Symbol:                 CGI-99
Protein Name:                chromosome 14 open reading frame 166;CGI-99
Celera Genomic Axis:         GA_x5YUV32VVQK(763112..791115)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12322):
ACGTAGGTCCCTTTCTGTTTACCTCCATCTCCTTTGCCTTGCTGTTTCCTGCCTCCCTGTTGGGCTGTAACCTCCATGAAGGGGAGGATCATGTCTGTCT
TCATCATTATATCCTGAGTGTCCACCATGGTACATAGCACATGCTGAATGAATGAATGAATGTTCTCCACCCTCGCTCTTTACCCAGGTCGGACATCCTC
CTTAACTGACTCATTGTGAGCTACCTAGGCCTTTAGATGTTGATATAGTTTGGATGTTGTCCCCGCCCAAGTTTCACGTTGAATTGTAATCCTCAGTGTT
GGAGGTGGGGTCTGATAGGAGGCCACTGAATCATAAGGGCAAATTTCTCATGGATGCTTTAGCACTATCTCCTTGGTACCGTCCTCATGACAGTGGAGTG
AGTTCTCACGAGATCAGGTCATTTAAGTGTGTTCCACCTCCCCACTCTCTCTCTTTCTTGCTCCTGTTCTGGCCATGGGACACGCCTGCTCCCACTTCCC
CTTCTGCCATGATTGTAAGTTTCCTGAGGCCTCTCCAGAAGCCTAGCAGATGCCAGCACCATGCTTCCTGTACATGCAGAACCGTGAGCTAATTAAACCT
TCTTTTTTTTATAAATTACCCAATCTCAACTATTTTTATAGCAATGTGTGAGTGGCCTAATACGTATGTCATGAACACACAATAGTTGTGTCAGACTTTG
AAGTAGAAGATAGAATATCTTGTATTCTTCATCAAAAGAGACTTTTACTTAAAATGTTCACAGGTCTGAGAGCCATGGCAGGATCAGGGCAAATCTGTAG
GAGTTCACCATCCCCTGCCCCTTCTTCAGCTGGCAGGCTGAACTCAGTGCTGTGGTTTTGGAACCCTGGCAAGTCTGAACCTAAAGTAAAGCGTGCTGTT
TGGCACTCAGCTGTCAAGACAATACCTTCTACAAGTTGGTCAAAGGATTTCTGAGGAATGAGATTTCCCAGCCCTCTAAGGTCCCTGCAGTAGCAGCCCC
TAATTCCTAGCATCTTGGAGAAAGACTAGTTCTCAAGAATTTGAAACAAAGGGAAAGGTCAGGCCTTTGCAGGCATCTCAGTTAGCAGCTCTGCCTGGTG
GGGGTCACTGAGGTACTAGGGAAAGGGAAGAGAGAACAGGAATATGCATGGGAGATCTGTAAAGTAGGTGATCTAAATTTGACTGTATGCTGGTCAATAT
CATATGACACCATAACCTCTGCCTTATTCATTACCGGCTTTCAAGCATTCAGAGGTGGCTTTTCTGTCACTTTTGGGGGAAGAATCCACATAATCCTATC
ACCCAAATGTTGATCCCTGTTACTCTGCCCCCAACCCTGCCTCCCTAAACCCCTTCCTCTCCACGTTTTAGGACGCTGTATATTCCTTGTTCTCTTAGTC
CTTCCAACCACTTTTCCCATATTCCATGACTCTTCCTCCTACTCCTTAAATATGAATACTGGGTTTTCCTAGGATGAAGTCTTCAGTCCTCTTTTCTTTC
CCCGTCTCCTCAGGGACCTTACTGTAACAGTTTCCATCTACAACTTTATGCTGATGGCTCCTCAATGGACATCTCATCCACTCACTCACATTCATTCCTG
ACATTTCAGTAGTGATTATGGGCTACATCTACAGGACTTCGATTTCAACAGGTGCAGAACTTAATTCTTCAGCTTCCGCAGACTGGTTTCCTTCTACCGG
TGCTCCTGTTTCTATGCAAGAATTCACTGCTTATCACATCTCTGATAGGTGACCTTCTAGAAACCTCCTTTAAGCCATCCACCTCCTTCCCATCCTATGT
TTAGTCCCACCAAGTCCGTGGATCTTTCTTTCCTTTCTCTCTGGGATCTGTCCTCATGTTAGAACTATTCAGTTGTAAGTTACAAAACCCCAACCAAATC
TGGCTCAAGTATAAAATAGATTTTATTGGATCACATCTCAGGAAAGTTGCATCTAGCCCCCTACCAGACATTTTTGGGAATGGCCTGTCTGTGCTTCTTG
GCTGTATTGTCCTCTGTGTTGTTTTCACTGTTCGGCAAGTGTTTCCTCTGCAGTATTAGATGTGGAAGGTGAATGCTTTATGCTGTTTGCATGACTACAT
AAATTCCTATTCATTCCTATTCGTTTTCTACCAATAAAATTGAGTTCTACTGCCCTGCCATTTTGCTTTTAATGCTAAATCATGAAATTCCAGAGCTTGA
CCTTAAAAAGCAGCAAGTTTTCATATTTAACATAAAGAGTCTCAGAAAGAGATAAAGGAGATGTTTGCTCATCGGGAGGCTCCCCCAGGGAGAGAGACCT
TTCTGCATTATACAACTTGTTCCAAAAATTCTGATTTCATGGGGTGTTCAATTGATAACATTCATTAGAATATAAAACCTGTTTTTCTGTGCACTGTAGA
GACTTTTGTGRCTATTCCTGGTTATTACCAACTTGTTCTGTTCACTGTTTTCGGAAGACTAATTTGAACAAAGGCTTCTAGTAAAACTGCCAAGACTTTA
AAAGTTGTTACAAGTTGTGAAACTGTCCTTCAAAGAGCAACTTTTACCTCTGACTGGTTGCCTTTCTTGATAATGTGTTGCCCTGGCAATACCGTTGAAA
TGGCCACCTCTACATTTCTGCAACCATATATGCCCTTGCAAATATTTTAGGTTTTGTGAGTCATGTGGTCTATGTTGCATTTATTCAACTCTGCCCTTGT
AGCACCAAAGCAGCCAGTTAGCAAATGGGCATGGCTGTGTTCCAATACAACTTTATTTATGTACACTGAAATTTGAATTTTATATAGCTTTCACATGTCA
TAAAATATTATTATTCTTTTGATTTTTCAACCATTTAAAAATATAAAAACCATTCTTATCTTGGTTTTTTTTTTTTTGAGTACTCCATCTAGAAATCTCT
TTCCCCAGATATTTGTGTGGCTAACTTCCTTACCTCCTTCTAGGCTTTCCTTACACTTCACTGTCTCAATGAGGCCCAACCTGACCATCTTGTCTAAAAC
TGCAACACCCATTATATCCCCACCGCTATTTGTTRCCCCCCTTACCTTGTTATAATTTTCCTATAGTACTTAGAACCTTCTGAATAGTAAATAATGTATT
TATTTATTATTGTACTGTTTGTCTTCCCTTGCCCAATGATAAGCTCCCTGAGGTCAGGGTTGTTGTGTTTAAGCTCTCAGATGACTCCAAAATGCCTACA
AGATTGCCTGGCATGTAATTGACACTCTAAACACTTTACTGAACAATTCAACAGATGAATTAATAGCCTGTCAAACCTATGATCAACCATTAGATTGGAG
TTCAGGTCATTTGATAATAAAAGTTGATTTCCAGATCCTTCCACCAAAAAGACACATGCATTCTCATGTTCATTGCAGCACTGTTCACAATAGCAAAGAC
GTGGAATCAACCTAGATGCCCATCAGAGGCTGACTGGATAAAGAAAATATGGTACATATACCCCCATGGAATACTATGCAGCCATAAAAAGAACAAATAT
TATGTCCAAATTTGCAGCAATATGGATGCAGCTGGAGGCCGTTATCCTAAGCAAATTAACACAGGAACAGACAACCAAATACCACAGGTTCTCACTTATA
AGTGGGAGCTAAACACTGGGTACTTATGAAAACACACACACACAAAAGTTGGTTTCCTTTTCTTGAAGTATACAGAGGGCTTGGTCTTCAGAAATGGAAT
TATGTAAGATTCACTTACTGTTGGACACTCCATTCAGAATAGGTCAAAGAACTCCTTCAAATTCAGAGAAAAAAAAAGATAACTGGGTTTTAACATAAAA
AATGGATTAATATTTATTTTATACTTCTTTCCCAAAGTTTGCTTTATCCCCTGCTCAAGTATCCCCTGACACTTTAGCATTCTGCATCATCTGAATCTTC
CTCCAACCTCCCCACTCCTGGTGGTGGCCGGGGCTGATGACTAGGGACAGTCTTAAGTTGCTGACAATGGGGACCCTGAAGTGGAAAGACTAGGCCAGGA
GCAAACAACTTCATTTTTTGCCTTGAAAGGTCAATTTCAGAAAACAAATGGTAAGAGATGTTTTTCCTTATTTTTTTAAAGAAATTCATGGTCTGCAATT
GTATTTTTCCCCCTTTTTAATTTATTATTTATATGTAAGTATTTATTATTTTCCCTTCCATGATTGGTTCATTTTTTCATTTTTTGGTTAGTATTTCATT
AATTATACAACTAGCATGCACTACAATATGAGATTATAGCCATATCTTTGATCAAATTTTGTTGGAAATGAGACACTCTTGAACTGATTTTCTTGATTCA
CTCTATAAGCACCTTAATTGAAAAATACAGATTATCTTACAGTGCCCCCTTAAAACTAAAGCTGTATTCTAGCCTCTGTACTTCTTTTTATTATTATTAT
TTTTGAGATGGGGTCTTACATGTTGCACAGGTTGGTGTGATCATGGCTCACTGCAGCCTCAACCTTGCAGGCTCAAGTGATCCTCCCACCTCAGCCTCCT
GAGTAGCTGGGTCCACAGGCACACACGAGCATGCCAGGCTAATTTTTCTTTCTTCTTTTTTTTTTTTTTTTAGTTTTAATAGAGACAAAGTCTCACTATG
TTGCCTAGGCTGGTCTCAAACTCCTGGGCTTGAACTATCCTCCCACCTCAGCCTCCCAAAGTGCTGGGACTACAGGCATGAGCTTCTGCACCTGGCCTGT
ACTTCTTTGTAGTACATTTTATATTTCTTGTAATTCACTTACTCTTTCTAACTCCAGATTATAAGTATTTATTTACACATCTATATTTGTCATTATACTT
AAACTTCCTGAAAATAGAGACTGTRGTTTACTCATTTGTATGCTCCTCAGATCCTAAGTGTTTAATTAAAATCTTAATTAATGAAATGAAATGAAACGTA
CATAGTTGGCTTACCCCCAAGAATTTCAATAGCTCCCCTTAGCTTGCCATGAGAGGCTTTTCCTTATCAGAGCCCTGCCTTTGTCTATAGTCTTATCAGC
TGTCATTCCCTCTCACCCTCCAGCCCCTATAAGCTCTAGTCCCTCTGGGCCATGCTGTTGCTCATTTCTTGCCTTTATACATCCTCTTCCCTCAAACTAG
GTTACCCTTTTGACTGCATGGTGAATGCCTCACCATCTTCAAGCCTTAGTTTATACTTATCTGTTTATTGTTTCCCTCATTAGCCTTTTAAACTCCATGA
AAATAGGGGCCTGGTCTGTCTTGTTCACTGCTCTCTCTCCACTGTCTGAAAAGCAAGTAGAGACTGGATCAGGAAAGATCTTAAATACAATAAGGAGTTT
TGATTATTTCTAGGGGGTAACCAGGAACCACTAAAACATAAGCAGAGAAAGTTATGTACAGGTTTTTGCTTTAGAAAAATCTCTCTCATCGCTGTATGGA
GGAATGGTTTGGAGAACGCAGGACTGGCCCTAAGAAATCAATCAGATAATTAGAGTAAGCAAAAGTGATGAGGATCTGATCTGTGGCTGTATCAGTGGGG
TCCGAAAGGAGGTGAGGGATTTGAGAGTTAGGAGAGACAGAATGGCAGGAATTGGTGACCTACTGGATGCTGTGACCGAGGGTGAGGGGGAGTGAGGGAC
GATCTCGGCTTCAGATTTCACTCTGGCTGAGGATATCTGGAACGATCGCATCGTATTAACAATTGTATGTTTACCTGTGGATCACTCCCAATTAGTCTGA
AAGCATCTTACTATAGGGACCTTGCTTTGTAGTCTTTGTATTACCAGTGTTAGAAGAGCACCTGTTATGTAGGAGGAGTAATAAAATGAATGAATGCACT
CAAAACACTAAACAGTAATTCTGTAATCCAACGGGAGGTACAGCGAATACCAAAAGCCTACATATACTATTCTCTGCATGCTATAGCAAGAAAGAAAGGA
AAGTGGCTTCCCGGTGGTTTTCTGCCTATTGTACAACCAGGAAGCTGACAATAAAGTTTATTTGAGCGTCGACGTGCGCCGACGTGGCCCCGCCTCCCCA
GCCGGAGCCGCGATTGGTGGGCATTTGCCGGCGGCCACCGCTTTTAAGCCACGATTGGCGAAGGCCGCCGTCATTTCGGAGCGACTCAGCGCCTGCCCGC
CCTCTCGCCGCGTCGCCGGTGCCTGCGCCTCCCGCTCCACCTCGCTTCTTCTCTCCCGGCCGAGGCCCGGGGGACCAGAGCGAGAAGCGGGGACCATGTT
CCGACGCAAGTTGACGGCTCTCGACTACCACAACCCCGCCGGCTTCAACTGCAAAGGTGAGGCGGCGGCCTCAGCCCGGCCGCGTGTCCCTGACCTGGGC
GGAGGTCCCAGCCTCAGTGCCCGCACCCCACCTCCCCGTCGGGACCCTCGGCGGCCTGGTTTCCGCCGGCAGCCTCCGGGCCCCTCTCCTCTGGGTCGCC
ACGTACCTCGGCTCTTCGCCGCCCCTTCCCGCCTTTAAAGCCCTCTCACCTACTCCTGTCTCGGCATGTTACTTTCTGCACTTGCTTAACTCCAAGCATC
ACGTAACTACCTTCTCTGTACATAAAAGGGAGAGCATTCGTCTTTCTCACTCACTATTCAACTCCATGGTTCCCTGGGTAATTAGGCGATACCTTGAGCA
CCTGCTAATTATGGGCCAGCGCGGTGCTGGATTCTGAGGAAGGTGCTGAGTAACTTGAAGACTAGTTCACTGCCTGCCAGGAGCTAAAGGGACGAGGGGT
GGAAGCAATCAGAACCCACTGAGCAGTTTGAGACAGTACACAATGAAATCAGGACCGATCACAGTGGGAGGGTAAGCGCGTGTAGTAACGGGCTAGTTGT
GTTATGTGGTGTTGCAAAAAAGTTAATAGCAGATGAGTGGGAAGGTTGAATTGTGAATACAAAGGTATTTGGGATTTTACAGCATTAGAATTTTAAAAAG
TAATAACGTTGCTACTCACTGTAACTAAACTGCTACCCACCACTACTCGTTTCCTTTGTATAGTTGTGGCCTGTGATAGACTGGTAAGTTTGAAAGTGAT
CAAGTATAACTTGTGATACTCAGACCACTGTGTAATTCTCAAGACCTTATAATGGAAGCTTGAATTTGACTCACAAATTGAAAATAATTTCTAAGCAGGA
TGACAGTGTTTTGTTGATCGCCTGTAGAAGCATATCAAATTATAATCTATTGTTTTTCTACTTTAACAAAAAAGTATCAGTGACAATAGAGCCTTGTTCT
GGATTGGAATCTTTGAGTCTCAATGTTCTTATCTGTAAAATGGGATATTACCTACCTCAAAAGAGGTATGGGGAGGATTAAACGAAACAATTATGCACTT
AATGTGCAGTTAACATTCCATGACAACAGTTGTCACAGTGTCTTTTTTGTCATTTAATTTCTTTTACTTATTATTTTGTTGTATATTTTACTTTATTACT
TTGCTATAAATTTAACCTTGCCCTCCTTCCCCTTTCTGTCCGCAAAGGAACTGGAATATTAATATGTAACACTTAAATAGCAAAACTATGTGCCAGGCAC
TGTTTTTATCCGTATTTATTTTATTTAAGAAACTTCTTAAATAAAACAACTTCTTTTAATCTTCATAACTCTATGAGGTAAGTTCTATTAGCACCCTCAT
TTTGTAGCTGAAGARTCTGAGGCACAGAAAATGTGGGTGATTATCCCAAGTTCACACAACCAGTAAGTATCTGGACCCAGGATTTGAACAGATCATTGTT
AATCTGTACTTTCAACTCCAGAATCTGTACTTTCAACTCCCTCTTTTGGTTCAATTAATTTAGTATTTTGAAGTTAAGAAAATTCCACAAGAACATATAT
CTGAACATATACCTGAGAAGGAGGTATTTTATGTAGTGCTTCTAGTTATTTATGTGATATTTTTTATTGCAGATGAAACAGAATTTAGAAACTTCATCGT
TTGGCTTGAAGACCAGAAAATCAGGCACTACAAGATTGAAGACAGAGGGAATTTAAGAAACATCCACAGCAGCGACTGGCCCAAGTTCTTTGAAAAGGTA
ATGAATTAGGAAGTAAAGTAAAAATACAGAGAGTTTGTCTGAAAAATCATGAAGATGAGCTTAAAATTACTTTCTTCTTTTAAGAAAAAAATGATAATGA
TCAGTGTTAGGAAAGCTGGATTTCAGGGATTTTGCTTTTTTCTTAGATGTGTCTTTTGCTTTTAGAGCAAATTATTTTATGTCTTCCTACCAAGCTTTCA
GTATTAGGTAGAAATAGTTTTCTCTAGAAACATGAAGTTTCTTAAATAAATAATGATGTAAATATTTCGCTTTCCCTTTATGGCCCAAATCAGAATTTTT
GTTAAACACAGTACTATTTCTTATATTAAAAGAAGACATTGGCTAGGTGTGATGGCTAACACCTATAATGCCAGCACTTTGGGAGGCTGAGGTGGCAGAT
CATTTGAGCTCAGGAGTTCTGACAGCAGCCTGGGCAACATGATGAAACCCTGTCTCTACAAGAAAATAGAAAGTTATCTGGGTGTGCTGGCCTGYGTCTG
TAGTGTCAGCTAATTGGGAGGCTGAGGTTCTCCAGCCTGGGCGACAGAGTGACACCTTGTCTCAAAAAAAGACATTATTGAGATGCTTGAAAACCAAGAC
TGTCGTGTTTATGCTTATATTTAATGTAAACAGATATCCCTTGTTGTATGCTAGGGAAATAGTCCTTAAATGATCTCTGGTATATCATATTTTTGTGCCT
TGAATCATTTTCCCATTGATTTAGTTTTAGTAACACTTTTGCATAAAAAAGAATTCTCAGATTAGAATAAAAATGCTTTTAGTGTCATTTCTTACATTAA
ACATTTTCATCAGTTATATTTGATGAGTGAGATATTTTTCTTGAAAAAGGCTAAGTTTTTCATTTGCGAGAGCAGTGTGATTAGGCACTTTCTCCCTAGA
ATCAGTGATTTTATAAATTAGGGATTGTATAAATTACATCATTGTTATTAACCTTTCCGTGTCTCAATTTTTTCATCAATAAGTGAGGGTAACAATGATA
CCTATCTCATAAGTGTGGCTTTGTTTTTAATGAGTAATTGTTCACAGAAGTCCCTGGCGCATAGCAAGTGTGATAAGCTTATTACTGCCAATGCCTCTAT
ACTACTACTATTAATACTACTGTATTCTTTTCCTTTGCTCTTAGAAAATATTTTTAAAATTTTCAGTGGACTTCTTAAAACTTTGAAATATATTTTTAGG
ATTTTATGTTTGTTTATATTACATTWTATGGTCTATTCATGTGTACAAGACAGTACAGAATTCTGCATGTAGAAAGGTATCTGGAGAATATAAAAAATTG
TCTAGGCTGGGCACGGTGGCTCATGCCTATAATCCAAGCAGTTTGGGAAGCCAAGATGGGTGGATCACCTGAGGTCAGGGGTTCGAGACCAGCCGGGCCA
ACGTGGYGAAACCCCGTCTCTACTAAAAACACAAAATTAGCCAGGTGTGGTGGCGCATGTGTGTAATCTCAGCTGCCCAGGGGGCTGAGCCAGGAGAATC
ATTTGAACTCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGTGCCATTGCACTCCAGCCTGGGCAACAGAACAAGACTCTGTCTCAAAAAAAAGAAATAT
GTATGTATGTGTGTGTATATATGTACATATACACACACGTATTTCTGATGTGAAACACCTGGAATGACAGTAAGAATAATTTCAACATATCAGAACCTAA
ACAGTTATTATCCTTCAAGTTGATTTTATTATAATCTTATATTACATATAATTAATGTTACATATAATACTATTATATGCAACATTTATTTGAATATACA
GCTTCTGACATTTATTTAAATTACTTGGTTACACCCTACATGTATGTTACATGGCTACTCTTTTCAGTGGCATTTCCATAATATGAAAGTTAAGGTTTAG
ATAGATAATGATTTATTGTATATCCTTTTTAAAGTTATTCTTTTTAGTTAATTGCTCTATGTGTATTGAGACTAGGAATCAGAAAGCTTAGATTCTAGTC
CCAGGTGTAAGTTGTGTAACCCTTGGCAAGTGTCAATCTCTAGGCCTCAGCTTTCTCATCTATAAAATGAGGAAGTTGTCGTATTCTATTTTTTTTCTTA
AGATGATACACTTAAATGTTCCCTTCTGTTGGGTTATATAATTGCATCAAAAGTGTAGTAATGTTATTAAAAAATTGTTAGAGATCCAAACTAAGGTCTC
TTTCAACTCTCCCATTCTTTTTTCTGTGACTTTATGGTAATAATGAAACTGGTGGTTTTCTTTTCTTCCCCCTCACAGTATCTCAGAGATGTTMACTGTC
CTTTCAAGATTCAAGATCGACAAGAAGCTATTSACTGGCTTCTTGGTTTAGCTGTTAGACTTGAATATGGAGATAATGGTACGTTTTGTGGGGAATGTGT
ATTTTAAAGAGAGAGGAAAGATGGGAAAGGGAGTGTGAAAATGTAGGGAACTTTGCAGTTTGTTTTGTCTAGTACTATTTTACCTTTGGTTTATTCTTAT
CACAAGTTAAAAGCACTTTTATTGTCTTTCATTGGTGTTTATATATTTCTGTTAGAATTTGGAAATGGTGCCCTCTGGAGAAGGCTAATTRACTGTCTTC
TCACAGAGTAACACTACTTTGATAATATGGTCTGCACCTTAGCCTTTCAAATTAAATTGTTTTTAGTGTCCCAGAATTGATGGGACTTTGAAGTGTTGTT
GCAGTAGGTAATTTCTCAAAAGACTGAAACATGTCTAATGCCAATATACATTAATACTCTATAGGCCAGAATATATTACTTAYGTTTACTGTCTTAGCAC
AGATACTTCTATGGTTGGAAGCTTCTGAATGTTAGYACCTATAGTAAAAACAATTTTTCTTTAAACGGGTGTTTTCTCTTATTAGACCATTTCATTTTGA
AAGGCCTGCCAACATCTAAATGCAAGATTTGATTATCTTATCTGCATCCCCTGCATTTTGTGTTTTTCGGTTAGYTACAGYCYTSTTAATTATTTACTTT
GGAAGCCTTTTTATATCTTGGCTTATCCCTTTCCCTTCATCCCACCTACACTGACTTTTTCTCATGTTTGWTGTATCTTCATTCCCAYTGGCATAATCCT
AATTCAGGCTCTTGTCACTTTCTGCCAGGAGTATTATAATATCTCCCATTAGTGTCACCTTCTGTTCTTAACTGCATGGCCAACCAAGCTAACTTTCTGA
AACGTTAATCTATTTTAGGATGCMACTTACTCCTTGTTTCCAAAGAACAGTTCCAGTTACATATTCATATTAATAAACATACATATCCATAAACACTAAT
TTCCCATTTTCTATAAAAAGAATTTTAAGCTCCTYAGCATGGTAGTTAATGATRACTGATATCCAACCTGTATTMACATCTTGACATCCCAGCTAAATTA
GAATAATAGTGCTTCCTGTTTATATCCCATTTCCCCCTCTGTTTCTTTGTTCACACTTTTCCCTTGGCTAATATACCATTTCATTCTATCTAMACATCTA
AATCCTACCCATCTTTTTAAGATCCATCTCATATGCYGTCTTATGTCTTAGCAGCAGTATAATTTCCCTCTGAACTTCCATAGCTTTTAACCCTATACAT
TTTAAGTCATTAACMACTTTCCATTTTGCTTCTATGTCTTATTCGTCCCAGTAATTTGTAAACTGATACTCAGCTTTGATTCCTACATGGTACCTCTCTT
AGCTTCCAATTGATGCTGTAACAAATTACTACAAACTCAGTGACTGAAAACACAATTTATTATTTTAGAATGAGAAGGCCAACATTAGCCTCACTGGGTT
CATGTCAAGTTGTCAGCAAGGCAGGTTCCTTTTGRAGGCTCTCGGGGGAATCTGTKTCTTTCCTTTTTTAACTTCTAGAGGCTGCCTGAATTCCTTGACT
CTGGCCCCTTCTTCCTTCTTCAAGTCTAGCAGCATAGCATTTTCCAGTCTCTTATCTGATTCTGCTTCCATTGTCATAACTTTGTCTCTGGCTCTGATCC
TCCTGAGCCCACCTGGATAATCCAGGATAATCCCCTATCTCAAGATCCTTAATTTTATCATATTTGCAAATCTTGCCATGTAAGGTAAMACATACACAGG
TTCCAGGGATCAGGACATGGACATCTTGGGGGGTACAGGTCAATATTGTGTCTGTCACAGTACCTGACATAGTTTCTTGCACACAACAGGTGCTTATCAA
TTTCAGTAATGTGTGGCGAATGCAGTATATGTGAGTGTTWACATACACTGATTTGGAGCATCAGCCAATTTTTKGCTGATGCCTCAGACTTAAATTTCAG
AAGCCTTATGGCAAAAATCTTAAGGAAAGCTCAATTTGAGACTTCGTTTACTTTTCCATTTAATTTAAAAAAAAAAAACTTTTCTTTCTTTAGAAAATAC
ATGTATTCATAAGCCTTATGGCTTTAGTGTAGTATTGATTTTAGGGCCTTTAACAAGGTCTTTTTATCTACCCTGCTCTGGATTGGTAGGAATTGTATAT
GAGCCAATTTGTAGCTTATCAAAACTGTTTTTCATTTATTCCCAAATTCTTACATCTCAGTTTATTTGTTTTATTCTATTTGTTCCATTTTTATAACCCG
TTAACCTTCAATGGTAGATGCATATGGTCATGTATACCTGCAGTTGACTTTAGTAAGTACATGTATTTCTCAGTAATAGCATGTTCTTTTAGTGAATAAA
AGAAGCTTGTGTGTGGAATGTAAATTTTTCAATATTGAAAAAGGAAGTCAACATATACTTGAAGGTGAATGGTATCAAAAGTATATTAAAAGTCTAAGCT
AGAAAACAAGTTTTGTTTATTAAAATTCAGAATTGCAAAAACAGACTTGAAAATTGGTCAAATAATACTGTCTCTAATCGGTAGGAGGCGCTGATGTTCT
TTTGTGGTTTTACATTGATATGTTGCCTCCTTGACTTTTAAGTTACTTATTTTAAAATTTGCTGAAACCATTGTGAGTTTTTATTATTTGYGCTCTACTA
TTTTTTGAAGCCTTTTGGTAGCTTGTCAACATGATCAATAACTGAAATTTTTTAAATGTATAATTTCAGATGTATAGAAAAATTACAAAATAGTACAAAG
ATTTTCATATACCTCAAGTCTACAAATGTAGCGTGTTACCTCATTTGCTTCATCCTTCTCTCTACACAGAGGCACACACCATTTTTTTCCAAACCATTTG
ATAGTAAATTATAGATGATTCCTTTTTACTCTTAAACACTTTRAAGTGCATTTCCTAAAAACAACTTTGTCTTATATAACCACAGTACAGTGATCAAAAT
CAGGAAGTTATCTTTGATATACTATTATTTATTCACATTTTACCAAACCCCCCACTTCTCTCGAMAGAAAAAAATAACCCAGAGCAATCCTGGATTATGC
ACCGCATTAGTTGTTACATCTGTCTTAGTATCTTAAAATCTGGAACAGTTCCTGTCTTTATTTGTGCTTCATGACCCTGACATTTATTTTGTAGAGTGTC
CCTCAATTTGGATTTATATGATGTTTCCTCATGATTAGATTTGGGGTTTATACTTTTGTTAGGAGTAACACAGAAGTGATGTGTTCTTTTTAGTGCATCA
TATTAGGAGATACGTGATAGCGATATGTCCCATTACTAGTTATGTTACTTTGATCACTAGGTTATGGTTTCTCCACTGTAAAGTTACTATTTTCCTCTTT
GTAATAAATATATCTTGTGGGGAGGTACTTTGAGACTGTATCAATTATGTTTTTGCGCCTCAAGTTTCCCCCACTAGTTTTAGCAACCATATGATGATTC
TTGCCTCAGTCATTTATTATGTTAATCGACAAAAGGTGTTCTCTAATTTCATCATTTTTTCTACATTTATTTGTTGGCTTTCTCTTGTAAGTTTTCCCAT
CTCTAATTTACTTGTTTAAATCAGTATAGATACATGGATTTTTATTTTATTCAATGGATTATAATCCTTTCTGTCATCACRTATTTTGCTGTTGATACTG
TTCCAGATTTGGCCAGTGGAAGCCTTTTTAACTCTGACTTAAATTTTATGCTTTTATTTTTTCCTCGTTTCATTAACAGATCCCATAAGCACTGTATAGC
CTAAGATGCCATTTTGAACATTAAGTTTAGTGAATTATTAATAAGTGTTTTTATTTTTGAATTCCTTTKAAGTATTGTTTTTCAAATGAAAATAATAAAA
TCTACCTTTGGAATTCTGAATTTCAAGTTTCCATGAAATAAGTTTGAGGTTTGTATATGATGGTRTATTTGATGTATTGATTTTTTTGGGGAAAGCAAGG
TTTTTGGATTTTATGTACAGCATTCAAAAGAAGATGGGGGGAAAGCGTACTTTTTAATGAGTTTGTATTTAATCTTACGTAACCTATACTTAACCCTCCT
CCCATTCTTCTACCCCAGATTTCAGAGGAAGCTGTAAAAGCAGATTTTTACCTTCCTAAAATTTACATGTTTGAAATGATTGCCTTTAGAAATGTTAATG
AAAAGATATTTGTGTCACATAGTCCAGTAATTGCTTTAGCTTAATCAAAAAGATAGTTACATTGTCTTTTTACATTTTCTATAGCAAAAATTAAGCTTGA
TTGAATGAATTGTTTTATGCTTATACAGGTTAAGCATCCCTAATCCGAGAATCTGAAATCCTAAATGCTCCAAAATCCAAAACTTTTTGAGCACTGACAT
GAGGACACAAGTAGAAATTTCCACACATAAGCACTTAACACAAACTTTATTTCATGCACAAAATTATTAAAAATATTATATGAAATTACCTTCAGGCTAT
GTGTATAAGTTGTACATTGAACATAAAAATGAATTTTGTGTTTAGACTTCAGTCCCATCCCCAAAATATCCCATTTTATATATGCAGATAATCCGAAGTC
TGAAAAAATTTAAAATYGGAAATTATTGGCATTTCCAGTAAGGGAAACTCAACCTGTAATCATTTTGGCTCAGTTAAATTTGGTAAATAGCAGTAGTCAT
TTTACCTTGAGTTGCAGTTGTACAAATTATATTTTTGCCTSTTTTTATAGCTGAAAAATACAAGGATTTAGTACCTGATAATTCAAARACTGCWGACAAT
GCAACTAAAAATGCAGAACCATTGATCAATTTGGATGGTGAGTATATAAATGCATAACATTGAACATCAACATTTTTGGTTTTTTAAATGTTTTTTTCTT
TGAAGAATGAAGTCCAGGTTTACTTGGTTTTAGTAAATTTAGAAGGATCCATGCAGACAGCATTTATGTTAACATTTTATTCTCTATAATGTTTTTATRA
TGTGCTTTCTCCTTCCCCTTGCATTTGAATATCTGAATGTTGATTTGATTTGCTTCTAGTAATTTGGAGTTTTGATTTGTATTTAATCATGGGGGTCATT
GTTTGCCTTTTTGAATGTGTAAATTTCTTTTAATCCAATGACTCTATCAGACAAGTGGTAAAATTTTCCATTATTTTAAGTCCTGGATATCTTTTAGTAA
TTTCCCTTTTTAAAAATATGAAGAATCTAATTACCTAAATTATGATGTGTAAAATATTTGTTCACTGGCTAATTCATTGTGACCTATAATTTAGGAGTTA
ACCCTTTTGAATGAGTGAGCCTCTTGGACACTCCAGAGCTGCTGCTTAGAGAGAAGGTTTTGGGAAAACTATCCATGGAGGGGATCTATGTACTAAAATT
AATGGCCTTGGGAAGAAATGTTAATTAAAAGTGCTGTATAATTTAGCCTTGCAGAAAAAGTTACAGGACAAATATAATGTGAGTTAAATTAGTCATTTAT
TGGATTATTCAGTTTGGCTGATGAAATACAGATACTCCTTGACTTAGGATGAGATCATGTCCCAAAGTCGAAAATATCATAAGTCAAAAATGCATTTAAT
ACCCCGGAAGACCCATTGTAAAGCTGAAAAATTGTAGTTGGAACCACTGTAAGTTCAGATTTTCCTCATCTTGCACTAGGGTTACATCCCACTGAACTCA
TTGTAAGGTCAAAAAATTACAAGTCTAACCATCCTAARTTGGGGACCGTCTCATACAGTAATAGGAAAACCATTTTATCTTACCAATTTATTTAATTGTT
GATAGTCTACAGGGCTTTCTTTTTTCTCTTGTGAGTAGCAGTTTTAAAAACTAMGAGATTTGTTGCTACCGAAAAGTTAAAAATGTWTTTGTATGTTCAC
AAATATGTTTGTAATTATACGTTTGCAGGGTTGTAAGTTTTTGTTTGTTTTTAATCTTTTATAGTAAATAATCCTGATTTTAAGGCTGGTGTGATGGCTT
TGGCTAACCTGCTTCAGATTCAGCGTCATGATGATTACCTGGTAATGCTTAAGGTCAGCTTCATGTTCTTGATTCTTGACAGAAACTGTGCACATAGAAA
AATGTCTTTATTTTCTAAATATTAACTRTTGATATTAAAATTATGGTTGAATGACTAAAATACACAGAAGAATATGAAACATAAAGTAGATTTCATGGTT
TTATCTGATTTGGATTCTGTTTTCTGCCTGCACTATGCTAAATCCTTTGCAAAGATGTTCTCATTCAATCCTGCCAACAATCCTAGAGACAGCTGCTAAT
ATCTTTTTAAAAATATATATCATATGAAGAAACTGAGACTCAATGAGGATAATGTCTAAGATGACACAGAAAATGACARAGCCAGGATTTTAAGCACTAT
AACCCTGTGGTCCATTGTTTTTCCCACATTACCCTACTTCTGTTTAGTKAGTCTTTTTAATGATTCATAGTCTGCATTTGTTAAGATGGTCGAAAATGCC
AAATGAGTAATGGTGAATTTGGTCAAAAATATATAACCCCAAAATCTCTTTGAGAAATGAATCTTTCTGTCCCCGATGCTAGATAGGCCACTCAGTTCAT
AACTATACTTCAGGAATCCCAGTAATCTGAAAGAGGTCTCTTGTTTCTGAGAGAAATCATAAACTTCAGAAGATTTATTCCTAGTAATCGTGAAAGTACA
GTGGTGTGGATCAGGGGAGTGGTACTTAAGATACCAGACTTGGAAATTTTATAAGAGATTAAAAGCTTTTAACTAGACCTTGTGCATGTAAACTACTTTG
TGATAAATATCACTCTACCCAGAAGAGATTAAGCCATAACTTACCATGCTTTTTAGATTTTTATTATTAAATGTCAGTTTTAACAAGACTGTTGTATTCC
TAAGTTATTAAAATTTTCTATACTGAATCTGAATGTTAACTTGGATTTTCTCAATCCAGATTRCATGCCAAAAGACAAAAATGTTTTTAGTGAAATTTAG
CTATTTCAAAGGCTTGTTCTTTATTCCGACAATTATGTAAATTGCCTTGGAACTGTTCTATAGTGATCATGTCAGCTTTAATCATAAAGTAAGTGAGAGG
AGAGTCAGACAATGCATAGCGTATTTGGGATGCTTTTGTTAGACTTCAAAACCCAAGGGGATAAAGTATAAATCAACTACAACAAAATGCTATAAAATTC
TAGTCCTGCTGCACATTTGTCCCTTTTGAGTTATTTTAAGAGGCATTCAAACAATARCATAATATGGAAAACATCTTAGTACGTTTGCCAAGTACAAGCA
TCAGTATATTAACTGTTTGGCAACCAGACTATTTAATAACATCTGCAATAACTGTTAAACATTGTTTGAATTCGGTTTTTCAAAGATAGCATTTGGTTTT
TTATTTAAAAATTATAGTTTAAGTTTTCACACTTATTTTTGAGTTGTAATTGTCATCTTCCTAATTAAAATTCCATTTTTTTAAAATTTGATTTTTAAGT
GTGTATGGATACTTGCATGCATGCCTACCATAATGAAATGCCTTGGTGATTAAAACCACCAACGGTGTCCTTTGAAAGGTTTGAAAATATTTTACTAGAG
TGAAGTGATAAAAGCAAAGTGTAAGACAGTATGTATGATCTGCTACCCTTTGTGTCAAAAATGTGTATTCGTGCTAAGCATGCTCGTCATTTCGCAGTTT
TAGTGAGGGTAAGGAATCTGTAGGGGATCGCAAGGCTCAGGTAGGAAGGAGACCTACTTTTTACCATGTGTCTTGCTGTATTTAAAGTTGTTTTTTACCA
GTCACGTGCATTACCTATTCAAAAAATGGTTTTAATTGTTGCAAGCACCATTCAACATTATTAAAATACTAGAAGTGTGAAAGGTTACGTTATATTAGTG
GGTTTTTTTTATTTTTAATTTAATGGGGAGTTTATTAATGAACTTAGGTAATTCTGACTTCATCAAAATGAGCATCCTTATTCTCTGGGCTCATAGAAGA
AAGGATGACAGGTACACAGCCTATAAAAAGTAAAAATATTTTTGGGTTTCTTAGGCAATTCGGATTTTGGTTCAGGAGCGCCTGACACAGGATGCAGTTG
CTAAGGCAAATCAAACAAAAGAGGTACGTTTCTATAAATCCTAAATAAGTTGTTAATGAACATTTCTTCTGGTATGGCCRTGATTTTAAACTTTGCATRT
ATCTGTTTAAGATATCCATTCTACGTTCTACAACTTAGAGAAAGGATAGCTTACTTCAGTGCTTCCTAAAGCAAATTGAATGTATTCAGTGGCTAGGGGG
KCATTTTTGAGTGAAAAACTTCATGTTCCTCTCACTTTGTACCTTAAAAAAGCCACAAATAGCTCATGCACAGTCCACAAATCATGCTTGTGGCCCGTTG
AAGTTTATTTAAAATGAGTTACCCATATGAAACTTACTGGATTATTTTGACTCATGCTGGAGAAGAAGGAACACACCTCACTACAAATTAGTTTTCTTTT
TCTATCTAAATTCTATCCTTGCTCTTATTTCTTCAGAGTAAATTCTTGTTTTATTCAATTTCCTGGCATAAAACATGAGAAAGTAATTTGGCTAAGGTCA
CCTAGTTGGTAAGTGACTGAGCTCAGGCAGTCTGACTTGAGAGCCTGTGCTCTTACGGTAGGTGGGGAGAAGGGTCCATGCGTGGATGTCTGCATGAGCT
TGTCAGTCTGCCCAGGTGAAGGGACAGGGGGTTCTGTTGGAGTGTAAGGTTCAAGGTACAGGTGACTGAAATGGTATCTTTCAGTCCTACCTTGTAGGCT
GAGAAAAGCTATATCCCATGACTACCTTCCCCTTAAAGAGAAAATATGGAACATTTTTAGATTATATCAGAAATCCAAAGATGCCTAAAGTTTCACTGGC
TGTGCAGCGGTGGAGAGACTGTCCTCAGGTCAGCAGCAGCAGTGTCTGATAACACCTGCCTCCTGCAGCAATGATGTTGTAGTGAATGCCTTGGGCACAA
CTATGTTGTTTGTCCTCCCTGCGCCCTTCCCCCATCTCCCAATGCCTTTTGTCCTCCAGCCCCTTTAGGCAGGCCAAGCAGTGTTAAAAGGTTACTAATG
CCAGGGCAGTATCTCTGAAAGACACTGTTTTCTTTTAAAGGTTCTTACTGGCTCGTTGTATATGAATCGAGCCACTGGAAGTTGGRTTAAAGATCAGCTT
ATTTCACCCWCMCTATAGAACAGACAGTAAATTGTTCTGGTGTAATAAAGTCAWTCATTCATWCATTCATTCCTTCAGCAAAACTATGCTTTGGAAGGCA
GTGTAAGTWAAGGCTTAGCCAAATCTCTTTGCTCTTGTTTGTAAAGTAAAATTTAGTTTTATTTTTAATGCTCCMAATTTTAATTTTGGTGTCATCTCAA
AAGATACCAGCCTATAACAATTTAGTGGAGTTCTTACAGTCTAGTGTACTTATAAGCATTTATAACTACTATTTGAGGCATATGGTAGTTTTCAGGGGTA
GCTTGGTGGCCTGTTGGCAAAGGAAAAAAAAGTGGAGCCTCTGGTACTAGATGAACATATAAAGCCACTCAGTACAATTCTGCTCTTTAATTTTGCTCAC
TTGTGCTTTCGTACCCATTGGTTTCTTCAGACTTACATGTGTTAGCTGTTTTAAAGCAGACAGAGCCTACGTAGATTTACATTACTAGATAAGGCAAGAA
TTGAGCAGTGACTAAAGCATTTGAATAGTAACAGGTTGTAACATTGAAAGATTGAAAGTACGGGTASTGTGTTTTTCTTGGCAGTGATTTTATATAATCA
GCAGGAAGTACAGACTGTCCTCATTTTAGAATTTGTTTCTGTGAAGTTTGGCATCACCATAGTCACCATCTTTAGTATGTCCATAGGTGCTGAGTGGTTT
AGTTTTTCATTTTCCTAGACTGTTTGTTTCAAAGTAACTTCCAAGTCAAGTCTTGAAAGTTAAATTATACATAATTATACATAATCTTGGCAAACACCAT
GCTGGCTGAAAGGTTCGTACAATTTGTAAAGACAAATTAATGTGCTCAGAAATGGAATATAAGGTACTATTTTTGCCGTTTATACTGTTGCTTACTGTCG
CCAAAATAAGACAGTAACAGCCTGGCTCAACTTGCCTTCCATAGCAGTAATGACAAGGCACTGCTGCAATAAGGATATATTGTTTTGTATGCCTGGGCTA
AAGGATTGGATGAGCTATAGAGCTTCCTGGTACATTTAAAGGTTAACTTTTCCCCCTAACCGGTTGAAATAGGGAAAACTCGCTAATCACAATCATCACA
AAGCAAATATAAACAAAATTCCTAGTTCCCTTGCCCATGCAGCTAAAAGAGTTAAGACACCAGAATAGCTAGGTGCTTTTCAGTTTCAGTTGAGGAAAGG
ATGCTATTCTTAACCATAAATACTCTCRTTTTGTCTTTCTTTTTTTAAAGGGCTTACCTGTTGCTTTAGACAAACATATTCTTGGTTTTGACACAGGAGG
TAAGTGATTTTGTTTAAATTCAAACTATTTTTTTTACAGACTGAATACTTGGGAGGAAATAAATAAATGGCCTTAAATGTAAAAATTATGTATTGAAGCA
GTGTTCTTTTCTCATAAAACAGATGCAGTTCTTAATGAAGCTGCTCAAATTCTGCGATTGCTGCACATAGAGGAGCTCAGAGAGCTACAGACAAAAATCA
ACGAAGCCATAGTAGCTGTTCAGGCAATTATTGCTGATCCAAAGACAGACCACAGACTGGGAAAAGTTGGAAGATGAACACTTGAGGACTTCAGCTTCTC
ACCTACTTAGTACAGTTGGGAACCATACACTTCTGGCATGTTTGGAAATCAAAATGTCACATTCTCGGGGGAGGAAGCCCAGAAAATTGGGTATGTTCTA
GAGATTTACCACCATTGCTTATTGCTTTTTTYTTTAATAAAGTTTAGGAAAGTAGAATTTTTATTATGTACTGTATGTTTGCATAAATCACCTTTCTCCT
TTGTGGTTAAGGCATATATGCCAACCCCCAGCTTTGTCCTAGAGACAATATAGATCCTTAAGTCATAGGAAAACTTAAAACACTTTATTGGAGTAATCTA
GAAAATTTTAAAATTGTTACATCTTTGGTATTTATAAATGTGATACTTTACTTTCTGTGGGTACTTCTATAGAGGCACTACAGRATCAGAAAATGCAAAT
TGAATCATTTTAGCACCTTTTGATATAAATAGAAATGCACTGATGCAGAGGTAAAAAATCTTAGAACTTTTGTTGGGAAACTATAAATAATTGGTCCTTT
CCCATCAGTTCTGCATTGGCTTCTCCAACTGTCAAGGTTTAGGATTATAWTGTTATATTGATCACATGTGCTTWAATTTCTTGGCCAGAAGGAATCCATG
GCAAAAATCAGGTTTAGAGTCTTAAACTCTAATTCTTAGTTGAATGAATTTGATCTTTTAAATATTAATGATAAATGTTWACAAGAWGTTGCTTTAATAA
GCAACAGTTAAAATTCTGTTACCTTTTTAAACTTGCAATAACAACCTTCATTTTTAAAAATACAGTAGTAAAGATTGAGGTATCAGCTTTTCACAAAAGT
CTTTTTGCACTACAAAATGTTCATCTTGGATGCTCAGGAACGTCTAATGGCCAATTCCTTTTTTACTTTCTTTGCCTTTGCAGTCACTGTTCTTTAGGGT
CCAGGTTCTGATTGTAAACTCCAAGTCTTCCTTTACATTACTGTACTTACTTTCTTCCTGTGAGAGAAGAGCAGGGGTGGGACAGGGTGGTGGGTGAGTA
TATTGTAACCAAGTTGCAACAGCAAGTCTTTGCATTTTGTGTATAAACTAGGTAGATTTAAGGTAGTAAAGACTGGCCCTCAGGGCAGGAAGAAGGCAAT
GGTGGCAGTGTCACAGGCAGCAGGGGTAATCAAATACCATATATATCCCTTCTCTACCCTGCTAATTTAAAGGAGCATCCTAAAGCATACTTTTTACCTG
TTGGGCAGTAGGGGTAGACTGCAGTTATCCCGTAGAGGTGAGATCGTTGTTCTGGGAGATACTCATCAGTAAACTGGCCACTATGTTTATTTACTGATAC
AACACCATCCCTGGTAACAGAAAGGAAGAGTGAATTCAGGGACAGTCATTTACTAGATAAAGAAGTCAGTCAGCCACAGAAAATCAGTTGCAATAGAGGA
AAATTTCTGGCAGCCTTCTCTGTCCCAGGGCTGGTGCTAAAGCCATACTGAAGTTTGAAGACCATTGCTCTAAATCCATTGCTCATCTCTAGCTGCATGT
TAGAATCACATGATGAGCTATCAAATCAGAGTTGTAGGGCATGGTGTAAAGGGCTTAGACTTTAATGTTCCACAGTTCCTCATTTGAGAACTAGTCTAAA
TAGTATTTTTCGGTCCCTCAGACAATATGTCCACAGTGTCAAAAGCCAACTTAAGCCCTGTAATATAGCTCATGGTATCAAGGGTAGTCTTATTCTCTAA
AGAACATATTTAGATTAATATGCTCCCTTTTGAGACATTATCCAATAGCTTTGCTACTTTTTAAGCTATATGTGAGCAATACCATTCGATTTCTGGGTGA
AGTAAAAGGATGATTTCAAAAACATGAAAGGATGAAAAACATCCTTGAAGGATCTTATCTGCCAATGAGGAGGTGATGAAACAAAAGCCTCAGAGGGCTT
AATGAGTCAAGTCAGGTACTGACTTTTGGTAAAACAAGTGGTGTGTCCTCTGGAACAGTTGGCCTTTTCAGGCTTGTCCAGAATTTGTGGGGCTCACCTC
CTCCAGTCTGTGTGGTAGAAGTGATCTGCATAGCTTACGATGCTGAAGGGGTACTTGAGGTTGTTTTGAATGACACGCCGTCCAGTTCCATCAGGTAGTG
TACACTCCAGTTTTTTGGTTCCTTTTAAAACAAAGGGGGAAAATGAGGTCCTTCAGCTGCTTTGCCAAAAATGATAGTGACATAGTGATAGTGACACAGT
GATAGAATGGGGAAATAGGATATTTTACTTCCATTACAGTCATAGATTAGCAACTGTAAAATTACCTGTCCTATTACTAGTCTCCAGTTTTTAGTAGAGA
TTCAAACTTTCAATCCTTTTTTGGAAGACAGGATTGCATTTACTGAAATCTGGTAAGTTTCTGCCAAAGTAGGGCATTAAACATAATTATTTTTATAATT
TGTGTGATTTCAAGCCTTAGCTTATAAATTATAACATCTGGGTAAATACTTGCCCTTTGTAAGCTATGTCTATAATTACTGAGGCAACCTTTTAACCAAA
ATCCTTAGTATTTTTAAAATATTTTCTAGGTAGGAGGAAAAAAGTGACTAAAATGGTAACATAACTCATATTTCAATGTAAAGGAATCAGTCTTAAAAAT
TTTTACAATAGCTAAACCATTCAAGAATTTCCAAGTTTCACATTTCTCATGGAGCCGATTTAAATTTCAAATCCTTTTAAGAAATGTAACTTGTTTTAAA
CAACTGGGTTATAAAAGTGACCTATGTACATTAGGCCCTTTTATTAGATTACAAATTCAAGAACAGTCTTTTTCATATTCTTTAGTATAGAACTAGACAC
ACAGCATTTTTTCAGTTGTGCTGATAAAAGCAAACAAATGTAGGTTGCTAATACCCATGTTATTACTGAAGGAAGCTACCCTGCTACAATGCTTTCCAAA
GAATGTCCTTAGCATTATAACAGATGTTTATAGGTAAGTTATAGTGACCCTCTCCCCGCATAAGAATAACTTCACTTAAGTTTGTCAATTCAACAATGGC
TAATTCTTTTAACTGTTAAAAATATGCCAGGCACTCATGGTCAGGCAAGCAGTACAAACTTACTGCTTGATATATCCTTCCCTCCACCCAAACCCCAGAA
AGTTCATTTTAAGACTCATTTACTAGTACTTAAATTTACTAGTACTTAAAAGTTTACAGACCAAAGAAAGGAGATCTAAGTGATGGGATTTCATTTTGTA
GTAAAATCTGTTAGTGCTCACATTCACTGTGATGAGAGGTTATCTATTTGCATTCCATCAGTAGTATTACCTGCATCTGCCCAGCAGAGCAGTTTAGAGA
AAGGGTCAAAGGTTAAGCCATTGGGCAATCCAATGTCTGTATTGATCAGAATTCTTCTGTTTTCTCCATCTAAAGATGACGTTTCAATTTTAGGAGCTTC
TCTATTCCAGTCTGTCCAGTACAAGTTGCTGTAAGTTAAAAATCAAGATTGTAAAAGAATAGCCATGTAGCCTGTGGTAGGCAGCATCTAAGCAGCCCCC
AGTGATCTCCATCTCCTCATGTATTATAGCCTTAAGCAATCCCCTTGAGTTTGGGCTGCATTAGTAGTGTCTTGCTTCTTCTAGTGCATAGAGTATAGCA
GAAGTGATAGGCTATCACTGCCGATATTCGGTCTCAAAAAACTGGTTTCTGCCTTAGGGGCTCTCTCTTGCTCCCTTTGAGGGAAGCTGGATGCCATGTT
GCAAGCTACCCTGTAAAGGGGAACATGTGCCAAGGAACTGATGTCCTTGAGGGCTGTTGGCCAGAGACATTAGTCTTGCCTGTAGCCCATGTGAGCATGC
TTGGGCTGTGTCTTCCCCGAGCTGAGCCTTGTGATCACTGCAGTTTGGCCATTACCTGATTGCAGCCTTGTGAGAGACTCCATGCCTGAGGGAGCTCGGT
GAAGACACACTTGGATTCCTGACTCACAGAAACTGTGAGACTAAATGTTATCTTACACTGCTGAGGGTTTGGGCAATTTCTTACACAGCAGTAGGTAACT
AATACACAGCCATATTCCACTTTTACCTGTATCACAAGGTTTTCTGATTATTGTCACTATGTGGGAGAAGTCATTACTAAGTTACTATCAGAATCCCTGC
CTCCAAGATACCCCTTGACTCAACTGCCCCAAAACCCTCCGTTTGTTGAAGTCTTGAATTGGATCTTGGGTTTTAGAATAGAAACAAATACAGCTGTTAG
GAATGGCTTCGATACAAACTATGGAACTTGAAGAGATGTGGACCAGGGATTTGAGAAGGAAACTGTTCTTTCTTCTGCCAAAAATACAATTTGGTACTTG
AAGGGGTACCTGGCACCCAGGGATGGAAACATTTTAAGTTAAGCACTTTACCTTTTAAATGCCACGTTAAAAATGAAATATATTCATAACAGATACTAAC
GAGGAAATATGGTCCTATTAAGTGGAAATAGGTTATAAGGAAACAAACAGGTTTATCGTTAGAGCAGAAATAATGTTGAAAGCACTTTTTATAAAATACT
ATTTTATAAAAGCTATAGAAGCTTTGAATAAATCAGTTGGGCTACAGAGAACCTCAGTGAGAGGAGAGGAAGAAACCATAGGTTTCCCCTGTTGCGAATT
TCATCCCTTATGCCCAACAGATGAAGCAGAGAGAAGCTGAGAGCAAAAGCTAGAAAGCAGTTTCCACTTTGCGCTAAGGTGGAGGTGGCCAGAGGGTACA
GCATGCATATCATTGCTTCATCGCTTCTGATCAGTCTCCTCCCCAAAATGATTTAATATCATCAACAACAATAAGTCTGAAACAAGCTCACACAGATATT
TGGTGTAAATTATTTGGGGATTGCCAGAGGAAGAAAGTTGTAAAGGTGAAATCTATAGAAAGCAAATGAGAAATATGCAGGAAGGCTTGACAACCATTCT
GTTACGCAGTTGAAGGAGATGTAATTACATGTGTTATATTGCAACCTGGTTCAAGGTGGGTTTTCTTTTTATTAAAAATTCAAGTCCTTTAGCATTTATA
TTTGCTGTCTGGATAAGAAAGTTCTACTTTCATATTTAAACTCATGGCTGTGATGTGGATTTCAGCTTAAAAGTATGCTTTTTCCCCAGACTCCAGAGAC
ATGGCCAAAGTTTCATTGCCTACAAGATGGCAGCTCTCCCCAGTTTTCAGGTCAAGCACCAAGAAGGAATAAGGGGCCGGGCGCAGTGGCTCATACCTAT
AATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCCAGGGTCAGGAGTTGGAGACCAAAATGGCGAAACCCTGTCTCGACTAAAAATACAAAAATT
AGCTGGGCATGGTGGCACATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGATGGAGGTTGTAGTCAGCCGAGA
CTGTGCCACTGCACCCCAGCCTCGGCAACAAAGCAAGACCTTGTCTCAAAAAAAAGAAAAAAAAAAGAAAAAAGGACCTTCCAAATGTCCAAATGTCAGA
AAGGCAAGCCTATGCAAAGAGTTTTTAAGAGGGCTATTAATTCCTGTTAAGTCAACTGGAATAGAGAAGGATACAGGTACTTTTCCTGTGTGTAGAACCC
AAAGTTTGAAACCACCTTTGAGGCACTGCACTAAGTATTTCATAGTCAAAAAGCACTTACCTGAAAATTAAAGCTGAAGGTTTTCTTTACTGATTTGAAG
GGCATCTGGGAATTTCATTTCGTAGAAACTCCACTTAAACATGGCAAGAGTTTCTCAAGATATAAAAATTCTCCCTGATTGTAACAAGTACTGAGACAGT
GAACAAATCCTGTATGTCACATTTGATGACCTTAGCAATTATACAGACAGGGAAAATGTTTATCTTGATTTCTGCTACAGCAACACTGAAGCCAGAGGTG
TCTGAGCTTTGGCTAATGTCACTTGATGTAGGTCAGCCCTACTGTGAGYGTCAACCCTGGTTTCTAAATGTGCTGCTGGAGGAATCCCACTTCACTTCCA
GTTTAAGTGTCAGCTGAGGCCTCGCCTGATCATTTGATTCAGAGTAGCCCTAGTTCTCACAACACTATCTGAATTTTCTACATATCACATCACAGACTAA
TATTGTTTATACCAGTCTTGTTTCCTCCTAATAAAATATAAGTGCCATGAAAGAACAGACCTTGTCTTTTCCTAGAACAGGTCCTGACACCTCTTAGATC
CTCAGTAAATCTTTGTTACATGAATGCATTTGAGCTTTCACTCTCTTGTTCTGACCTTCCCCACATTGTATTTAAAACCCAAGGGCTTCACATCAGGATC
TACAGGTAAGAGAAGAATTAGGGAAGCCCAGCTGACCCTCGGATTGGATCCACAGCGATGGCACGGGGATTCACCAGATCTGTGTAGAAGAGGACCTTGC
GCTCAGAGCCATCCAGCAGGGCGCTCTCTATCTTATCCAGGACACTGTCCGTCCAGTACATTGTTCTGCGGATGTGGTCTATGGCAAGTCCTTCAGGGCT
TATCAGACCTGGAAATAAAGCAAAGTCAGGACTGGAGTGTTTGCAGGATATGGAGGGCAAACCTGAAGCCCTCCAACRGTCGGGTGGGCAGGGGGGTCAG
CAGGGGAAAGCAAAGCCCAAGTGTCTCCAAGTCCCCAAGAACCAGGTTAATAGAGAAACAAGTACTTTTGTTACATATTCCACTACCTCTAGCTTCTAGA
CCAGCAGACCTACCAGTTTGATGACAACCGGCATCCACAGTGCCAGAGCCAGGCTGAATAAACGAAGGCGTCACCCTGAATTCTTACCATGAATTCTTTT
AAGAAGTGCGCACAGTAGGAATCACCTATTTCATTCCGTATGTATGAAGGTGTTTGCTTACAGAGGGGGCTAGTCTTATACAGCTCAATAAAATGACTTG
CCT


SNP Information

Context             (SEQ ID NO:37148):
TTTGAAGAATGAAGTCCAGGTTTACTTGGTTTTAGTAAATTTAGAAGGATCCATGCAGACAGCATTTATGTTAACATTTTATTCTCTATAATGTTTTTAT
R
ATGTGCTTTCTCCTTCCCCTTGCATTTGAATATCTGAATGTTGATTTGATTTGCTTCTAGTAATTTGGAGTTTTGATTTGTATTTAATCATGGGGGTCAT
Celera SNP ID:            hCV280239
SNP Position Genomic:     15299
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37149):
GGTAAAAAATCTTAGAACTTTTGTTGGGAAACTATAAATAATTGGTCCTTTCCCATCAGTTCTGCATTGGCTTCTCCAACTGTCAAGGTTTAGGATTATA
W
TGTTATATTGATCACATGTGCTTTAATTTCTTGGCCAGAAGGAATCCATGGCAAAAATCAGGTTTAGAGTCTTAAACTCTAATTCTTAGTTGAATGAATT
Celera SNP ID:            hCV7591820
SNP Position Genomic:     21650
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:37150):
TATGGTAATAATGAAACTGGTGGTTTTCTTTTCTTCCCCCTCACAGTATCTCAGAGATGTTAACTGTCCTTTCAAGATTCAAGATCGACAAGAAGCTATT
S
ACTGGCTTCTTGGTTTAGCTGTTAGACTTGAATATGGAGATAATGGTACGTTTTGTGGGGAATGTGTATTTTAAAGAGAGAGGAAAGATGGGAAAGGGAG
Celera SNP ID:            hCV7591750
SNP Position Genomic:     10333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37151):
TTATTCTTATCACAAGTTAAAAGCACTTTTATTGTCTTTCATTGGTGTTTATATATTTCTGTTAGAATTTGGAAATGGTGCCCTCTGGAGAAGGCTAATT
R
ACTGTCTTCTCACAGAGTAACACTACTTTGATAATATGGTCTGCACCTTAGCCTTTCAAATTAAATTGTTTTTAGTGTCCCAGAATTGATGGGACTTTGA
Celera SNP ID:            hCV7591751
SNP Position Genomic:     10591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37152):
TCTCTTGTAAGTTTTCCCATCTCTAATTTACTTGTTTAAATCAGTATAGATACATGGATTTTTATTTTATTCAATGGATTATAATCCTTTCTGTCATCAC
R
TATTTTGCTGTTGATACTGTTCCAGATTTGGCCAGTGGAAGCCTTTTTAACTCTGACTTAAATTTTATGCTTTTATTTTTTCCTCGTTTCATTAACAGAT
Celera SNP ID:            hCV1470725
SNP Position Genomic:     13981
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37153):
TATCTCTGAAAGACACTGTTTTCTTTTAAAGGTTCTTACTGGCTCGTTGTATATGAATCGAGCCACTGGAAGTTGGGTTAAAGATCAGCTTATTTCACCC
W
CACTATAGAACAGACAGTAAATTGTTCTGGTGTAATAAAGTCATTCATTCATTCATTCATTCCTTCAGCAAAACTATGCTTTGGAAGGCAGTGTAAGTAA
Celera SNP ID:            hCV29157416
SNP Position Genomic:     19510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37154):
TGGGAAACTATAAATAATTGGTCCTTTCCCATCAGTTCTGCATTGGCTTCTCCAACTGTCAAGGTTTAGGATTATATTGTTATATTGATCACATGTGCTT
W
AATTTCTTGGCCAGAAGGAATCCATGGCAAAAATCAGGTTTAGAGTCTTAAACTCTAATTCTTAGTTGAATGAATTTGATCTTTTAAATATTAATGATAA
Celera SNP ID:            hCV7591828
SNP Position Genomic:     21674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:37155):
GCCAGGAGTATTATAATATCTCCCATTAGTGTCACCTTCTGTTCTTAACTGCATGGCCAACCAAGCTAACTTTCTGAAACGTTAATCTATTTTAGGATGC
M
ACTTACTCCTTGTTTCCAAAGAACAGTTCCAGTTACATATTCATATTAATAAACATACATATCCATAAACACTAATTTCCCATTTTCTATAAAAAGAATT
Celera SNP ID:            hCV7591758
SNP Position Genomic:     11224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37156):
ATTATTAAATGTCAGTTTTAACAAGACTGTTGTATTCCTAAGTTATTAAAATTTTCTATACTGAATCTGAATGTTAACTTGGATTTTCTCAATCCAGATT
R
CATGCCAAAAGACAAAAATGTTTTTAGTGAAATTTAGCTATTTCAAAGGCTTGTTCTTTATTCCGACAATTATGTAAATTGCCTTGGAACTGTTCTATAG
Celera SNP ID:            hCV1261139
SNP Position Genomic:     17263
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37157):
CAGTTACATATTCATATTAATAAACATACATATCCATAAACACTAATTTCCCATTTTCTATAAAAAGAATTTTAAGCTCCTTAGCATGGTAGTTAATGAT
R
ACTGATATCCAACCTGTATTCACATCTTGACATCCCAGCTAAATTAGAATAATAGTGCTTCCTGTTTATATCCCATTTCCCCCTCTGTTTCTTTGTTCAC
Celera SNP ID:            hCV7591759
SNP Position Genomic:     11354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37158):
TTTATTTAATTGTTGATAGTCTACAGGGCTTTCTTTTTTCTCTTGTGAGTAGCAGTTTTAAAAACTAAGAGATTTGTTGCTACCGAAAAGTTAAAAATGT
W
TTTGTATGTTCACAAATATGTTTGTAATTATACGTTTGCAGGGTTGTAAGTTTTTGTTTGTTTTTAATCTTTTATAGTAAATAATCCTGATTTTAAGGCT
Celera SNP ID:            hCV16251142
SNP Position Genomic:     16187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37159):
TACAGTAATAGGAAAACCATTTTATCTTACCAATTTATTTAATTGTTGATAGTCTACAGGGCTTTCTTTTTTCTCTTGTGAGTAGCAGTTTTAAAAACTA
M
GAGATTTGTTGCTACCGAAAAGTTAAAAATGTTTTTGTATGTTCACAAATATGTTTGTAATTATACGTTTGCAGGGTTGTAAGTTTTTGTTTGTTTTTAA
Celera SNP ID:            hCV16251143
SNP Position Genomic:     16154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37160):
TCAATATTGTGTCTGTCACAGTACCTGACATAGTTTCTTGCACACAACAGGTGCTTATCAATTTCAGTAATGTGTGGCGAATGCAGTATATGTGAGTGTT
W
ACATACACTGATTTGGAGCATCAGCCAATTTTTTGCTGATGCCTCAGACTTAAATTTCAGAAGCCTTATGGCAAAAATCTTAAGGAAAGCTCAATTTGAG
Celera SNP ID:            hCV16251144
SNP Position Genomic:     12240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37161):
ATCTGTTTAAGATATCCATTCTACGTTCTACAACTTAGAGAAAGGATAGCTTACTTCAGTGCTTCCTAAAGCAAATTGAATGTATTCAGTGGCTAGGGGG
K
CATTTTTGAGTGAAAAACTTCATGTTCCTCTCACTTTGTACCTTAAAAAAGCCACAAATAGCTCATGCACAGTCCACAAATCATGCTTGTGGCCCGTTGA
Celera SNP ID:            hCV7591797
SNP Position Genomic:     18601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37162):
TTGAACATAAAAATGAATTTTGTGTTTAGACTTCAGTCCCATCCCCAAAATATCCCATTTTATATATGCAGATAATCCGAAGTCTGAAAAAATTTAAAAT
Y
GGAAATTATTGGCATTTCCAGTAAGGGAAACTCAACCTGTAATCATTTTGGCTCAGTTAAATTTGGTAAATAGCAGTAGTCATTTTACCTTGAGTTGCAG
Celera SNP ID:            hCV280240
SNP Position Genomic:     14917
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(C,4|T,36)   total(C,5|T,69)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37163):
TCTCTGAAAGACACTGTTTTCTTTTAAAGGTTCTTACTGGCTCGTTGTATATGAATCGAGCCACTGGAAGTTGGGTTAAAGATCAGCTTATTTCACCCAC
M
CTATAGAACAGACAGTAAATTGTTCTGGTGTAATAAAGTCATTCATTCATTCATTCATTCCTTCAGCAAAACTATGCTTTGGAAGGCAGTGTAAGTAAAG
Celera SNP ID:            hCV7591798
SNP Position Genomic:     19512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37164):
AGGGAAAATGTTTATCTTGATTTCTGCTACAGCAACACTGAAGCCAGAGGTGTCTGAGCTTTGGCTAATGTCACTTGATGTAGGTCAGCCCTACTGTGAG
Y
GTCAACCCTGGTTTCTAAATGTGCTGCTGGAGGAATCCCACTTCACTTCCAGTTTAAGTGTCAGCTGAGGCCTCGCCTGATCATTTGATTCAGAGTAGCC
Celera SNP ID:            hCV15878063
SNP Position Genomic:     27049
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(T,748|C,749)   total(C,749|T,748)no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37165):
TTTATTATTTTAGAATGAGAAGGCCAACATTAGCCTCACTGGGTTCATGTCAAGTTGTCAGCAAGGCAGGTTCCTTTTGGAGGCTCTCGGGGGAATCTGT
K
TCTTTCCTTTTTTAACTTCTAGAGGCTGCCTGAATTCCTTGACTCTGGCCCCTTCTTCCTTCTTCAAGTCTAGCAGCATAGCATTTTCCAGTCTCTTATC
Celera SNP ID:            hCV16016369
SNP Position Genomic:     11856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37166):
CTGATGTTCTTTTGTGGTTTTACATTGATATGTTGCCTCCTTGACTTTTAAGTTACTTATTTTAAAATTTGCTGAAACCATTGTGAGTTTTTATTATTTG
Y
GCTCTACTATTTTTTGAAGCCTTTTGGTAGCTTGTCAACATGATCAATAACTGAAATTTTTTAAATGTATAATTTCAGATGTATAGAAAAATTACAAAAT
Celera SNP ID:            hCV280241
SNP Position Genomic:     12991
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37167):
CGTTGTATATGAATCGAGCCACTGGAAGTTGGGTTAAAGATCAGCTTATTTCACCCACACTATAGAACAGACAGTAAATTGTTCTGGTGTAATAAAGTCA
W
TCATTCATTCATTCATTCCTTCAGCAAAACTATGCTTTGGAAGGCAGTGTAAGTAAAGGCTTAGCCAAATCTCTTTGCTCTTGTTTGTAAAGTAAAATTT
Celera SNP ID:            hCV7591799
SNP Position Genomic:     19554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37168):
AGAAGGAATCCATGGCAAAAATCAGGTTTAGAGTCTTAAACTCTAATTCTTAGTTGAATGAATTTGATCTTTTAAATATTAATGATAAATGTTTACAAGA
W
GTTGCTTTAATAAGCAACAGTTAAAATTCTGTTACCTTTTTAAACTTGCAATAACAACCTTCATTTTTAAAAATACAGTAGTAAAGATTGAGGTATCAGC
Celera SNP ID:            hCV15804965
SNP Position Genomic:     21787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:37169):
TTGGAACCACTGTAAGTTCAGATTTTCCTCATCTTGCACTAGGGTTACATCCCACTGAACTCATTGTAAGGTCAAAAAATTACAAGTCTAACCATCCTAA
R
TTGGGGACCGTCTCATACAGTAATAGGAAAACCATTTTATCTTACCAATTTATTTAATTGTTGATAGTCTACAGGGCTTTCTTTTTTCTCTTGTGAGTAG
Celera SNP ID:            hCV25938762
SNP Position Genomic:     16038
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:37170):
CTTTTAAGTATTGTTTTTCAAATGAAAATAATAAAATCTACCTTTGGAATTCTGAATTTCAAGTTTCCATGAAATAAGTTTGAGGTTTGTATATGATGGT
R
TATTTGATGTATTGATTTTTTTGGGGAAAGCAAGGTTTTTGGATTTTATGTACAGCATTCAAAAGAAGATGGGGGGAAAGCGTACTTTTTAATGAGTTTG
Celera SNP ID:            hCV29157422
SNP Position Genomic:     14265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37171):
AAACATACATATCCATAAACACTAATTTCCCATTTTCTATAAAAAGAATTTTAAGCTCCTTAGCATGGTAGTTAATGATGACTGATATCCAACCTGTATT
M
ACATCTTGACATCCCAGCTAAATTAGAATAATAGTGCTTCCTGTTTATATCCCATTTCCCCCTCTGTTTCTTTGTTCACACTTTTCCCTTGGCTAATATA
Celera SNP ID:            hCV7591760
SNP Position Genomic:     11375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37172):
GCCTGACACAGGATGCAGTTGCTAAGGCAAATCAAACAAAAGAGGTACGTTTCTATAAATCCTAAATAAGTTGTTAATGAACATTTCTTCTGGTATGGCC
R
TGATTTTAAACTTTGCATGTATCTGTTTAAGATATCCATTCTACGTTCTACAACTTAGAGAAAGGATAGCTTACTTCAGTGCTTCCTAAAGCAAATTGAA
Celera SNP ID:            hCV1261141
SNP Position Genomic:     18480
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,18)   caucasian(A,17|G,23)   total(A,37|G,41)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37173):
AAAAGGTTACTAATGCCAGGGCAGTATCTCTGAAAGACACTGTTTTCTTTTAAAGGTTCTTACTGGCTCGTTGTATATGAATCGAGCCACTGGAAGTTGG
R
TTAAAGATCAGCTTATTTCACCCACACTATAGAACAGACAGTAAATTGTTCTGGTGTAATAAAGTCATTCATTCATTCATTCATTCCTTCAGCAAAACTA
Celera SNP ID:            hCV1261142
SNP Position Genomic:     19486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37174):
TCTTTTCCTTTGCTCTTAGAAAATATTTTTAAAATTTTCAGTGGACTTCTTAAAACTTTGAAATATATTTTTAGGATTTTATGTTTGTTTATATTACATT
W
TATGGTCTATTCATGTGTACAAGACAGTACAGAATTCTGCATGTAGAAAGGTATCTGGAGAATATAAAAAATTGTCTAGGCTGGGCACGGTGGCTCATGC
Celera SNP ID:            hCV11604741
SNP Position Genomic:     9226
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,9)      total(A,1|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37175):
CTTGGCCAGAAGGAATCCATGGCAAAAATCAGGTTTAGAGTCTTAAACTCTAATTCTTAGTTGAATGAATTTGATCTTTTAAATATTAATGATAAATGTT
W
ACAAGAAGTTGCTTTAATAAGCAACAGTTAAAATTCTGTTACCTTTTTAAACTTGCAATAACAACCTTCATTTTTAAAAATACAGTAGTAAAGATTGAGG
Celera SNP ID:            hCV1261144
SNP Position Genomic:     21780
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:37176):
TCCTTCTAGGCTTTCCTTACACTTCACTGTCTCAATGAGGCCCAACCTGACCATCTTGTCTAAAACTGCAACACCCATTATATCCCCACCGCTATTTGTT
R
CCCCCCTTACCTTGTTATAATTTTCCTATAGTACTTAGAACCTTCTGAATAGTAAATAATGTATTTATTTATTATTGTACTGTTTGTCTTCCCTTGCCCA
Celera SNP ID:            hCV11604744
SNP Position Genomic:     3035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:37177):
CTAAATTAGAATAATAGTGCTTCCTGTTTATATCCCATTTCCCCCTCTGTTTCTTTGTTCACACTTTTCCCTTGGCTAATATACCATTTCATTCTATCTA
M
ACATCTAAATCCTACCCATCTTTTTAAGATCCATCTCATATGCTGTCTTATGTCTTAGCAGCAGTATAATTTCCCTCTGAACTTCCATAGCTTTTAACCC
Celera SNP ID:            hCV7591766
SNP Position Genomic:     11493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37178):
TTTTAAGATCCATCTCATATGCTGTCTTATGTCTTAGCAGCAGTATAATTTCCCTCTGAACTTCCATAGCTTTTAACCCTATACATTTTAAGTCATTAAC
M
ACTTTCCATTTTGCTTCTATGTCTTATTCGTCCCAGTAATTTGTAAACTGATACTCAGCTTTGATTCCTACATGGTACCTCTCTTAGCTTCCAATTGATG
Celera SNP ID:            hCV7591767
SNP Position Genomic:     11615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37179):
ACTCAGTGACTGAAAACACAATTTATTATTTTAGAATGAGAAGGCCAACATTAGCCTCACTGGGTTCATGTCAAGTTGTCAGCAAGGCAGGTTCCTTTTG
R
AGGCTCTCGGGGGAATCTGTTTCTTTCCTTTTTTAACTTCTAGAGGCTGCCTGAATTCCTTGACTCTGGCCCCTTCTTCCTTCTTCAAGTCTAGCAGCAT
Celera SNP ID:            hCV16016370
SNP Position Genomic:     11835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37180):
TGGCTCTGATCCTCCTGAGCCCACCTGGATAATCCAGGATAATCCCCTATCTCAAGATCCTTAATTTTATCATATTTGCAAATCTTGCCATGTAAGGTAA
M
ACATACACAGGTTCCAGGGATCAGGACATGGACATCTTGGGGGGTACAGGTCAATATTGTGTCTGTCACAGTACCTGACATAGTTTCTTGCACACAACAG
Celera SNP ID:            hCV7591768
SNP Position Genomic:     12089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37181):
TCTATGGCAAGTCCTTCAGGGCTTATCAGACCTGGAAATAAAGCAAAGTCAGGACTGGAGTGTTTGCAGGATATGGAGGGCAAACCTGAAGCCCTCCAAC
R
GTCGGGTGGGCAGGGGGGTCAGCAGGGGAAAGCAAAGCCCAAGTGTCTCCAAGTCCCCAAGAACCAGGTTAATAGAGAAACAAGTACTTTTGTTACATAT
Celera SNP ID:            hCV1261149
SNP Position Genomic:     27678
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37182):
GGGGATAAAGTATAAATCAACTACAACAAAATGCTATAAAATTCTAGTCCTGCTGCACATTTGTCCCTTTTGAGTTATTTTAAGAGGCATTCAAACAATA
R
CATAATATGGAAAACATCTTAGTACGTTTGCCAAGTACAAGCATCAGTATATTAACTGTTTGGCAACCAGACTATTTAATAACATCTGCAATAACTGTTA
Celera SNP ID:            hCV11161074
SNP Position Genomic:     17557
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37183):
TCTCTTATTAGACCATTTCATTTTGAAAGGCCTGCCAACATCTAAATGCAAGATTTGATTATCTTATCTGCATCCCCTGCATTTTGTGTTTTTCGGTTAG
Y
TACAGTCCTCTTAATTATTTACTTTGGAAGCCTTTTTATATCTTGGCTTATCCCTTTCCCTTCATCCCACCTACACTGACTTTTTCTCATGTTTGTTGTA
Celera SNP ID:            hCV16251151
SNP Position Genomic:     10975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37184):
TTAGTTACAGTCCTCTTAATTATTTACTTTGGAAGCCTTTTTATATCTTGGCTTATCCCTTTCCCTTCATCCCACCTACACTGACTTTTTCTCATGTTTG
W
TGTATCTTCATTCCCATTGGCATAATCCTAATTCAGGCTCTTGTCACTTTCTGCCAGGAGTATTATAATATCTCCCATTAGTGTCACCTTCTGTTCTTAA
Celera SNP ID:            hCV16016374
SNP Position Genomic:     11071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37185):
TAATGCCAATATACATTAATACTCTATAGGCCAGAATATATTACTTATGTTTACTGTCTTAGCACAGATACTTCTATGGTTGGAAGCTTCTGAATGTTAG
Y
ACCTATAGTAAAAACAATTTTTCTTTAAACGGGTGTTTTCTCTTATTAGACCATTTCATTTTGAAAGGCCTGCCAACATCTAAATGCAAGATTTGATTAT
Celera SNP ID:            hCV16251152
SNP Position Genomic:     10836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37186):
TTTTATGCTTTTATTTTTTCCTCGTTTCATTAACAGATCCCATAAGCACTGTATAGCCTAAGATGCCATTTTGAACATTAAGTTTAGTGAATTATTAATA
A
GTGTTTTTATTTTTGAATTCCTTTTAAGTATTGTTTTTCAAATGAAAATAATAAAATCTACCTTTGGAATTCTGAATTTCAAGTTTCCATGAAATAAGTT
Celera SNP ID:            hCV11161076
SNP Position Genomic:     14144
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,11)   total(A,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37187):
GACCATTTCATTTTGAAAGGCCTGCCAACATCTAAATGCAAGATTTGATTATCTTATCTGCATCCCCTGCATTTTGTGTTTTTCGGTTAGTTACAGTCCT
S
TTAATTATTTACTTTGGAAGCCTTTTTATATCTTGGCTTATCCCTTTCCCTTCATCCCACCTACACTGACTTTTTCTCATGTTTGTTGTATCTTCATTCC
Celera SNP ID:            hCV16016375
SNP Position Genomic:     10985
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37188):
ATTTGCTTCATCCTTCTCTCTACACAGAGGCACACACCATTTTTTTCCAAACCATTTGATAGTAAATTATAGATGATTCCTTTTTACTCTTAAACACTTT
R
AAGTGCATTTCCTAAAAACAACTTTGTCTTATATAACCACAGTACAGTGATCAAAATCAGGAAGTTATCTTTGATATACTATTATTTATTCACATTTTAC
Celera SNP ID:            hCV11161078
SNP Position Genomic:     13243
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37189):
TCTGGCATGTTTGGAAATCAAAATGTCACATTCTCGGGGGAGGAAGCCCAGAAAATTGGGTATGTTCTAGAGATTTACCACCATTGCTTATTGCTTTTTT
Y
TTTAATAAAGTTTAGGAAAGTAGAATTTTTATTATGTACTGTATGTTTGCATAAATCACCTTTCTCCTTTGTGGTTAAGGCATATATGCCAACCCCCAGC
Celera SNP ID:            hCV26535247
SNP Position Genomic:     21232
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:37190):
AGACAAACATATTCTTGGTTTTGACACAGGAGGTAAGTGATTTTGTTTAAATTCAAACTATTTTTTTTACAGACTGAATACTTGGGAGGAAATAAATAAA
T
GGCCTTAAATGTAAAAATTATGTATTGAAGCAGTGTTCTTTTCTCATAAAACAGATGCAGTTCTTAATGAAGCTGCTCAAATTCTGCGATTGCTGCACAT
Celera SNP ID:            hCV26535248
SNP Position Genomic:     20868
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37191):
TAGACAAACATATTCTTGGTTTTGACACAGGAGGTAAGTGATTTTGTTTAAATTCAAACTATTTTTTTTACAGACTGAATACTTGGGAGGAAATAAATAA
A
TGGCCTTAAATGTAAAAATTATGTATTGAAGCAGTGTTCTTTTCTCATAAAACAGATGCAGTTCTTAATGAAGCTGCTCAAATTCTGCGATTGCTGCACA
Celera SNP ID:            hCV26535249
SNP Position Genomic:     20867
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37192):
ATGATGATTACCTGGTAATGCTTAAGGTCAGCTTCATGTTCTTGATTCTTGACAGAAACTGTGCACATAGAAAAATGTCTTTATTTTCTAAATATTAACT
R
TTGATATTAAAATTATGGTTGAATGACTAAAATACACAGAAGAATATGAAACATAAAGTAGATTTCATGGTTTTATCTGATTTGGATTCTGTTTTCTGCC
Celera SNP ID:            hCV25941092
SNP Position Genomic:     16428
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,40)   total(A,73|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37193):
ATTAGACCATTTCATTTTGAAAGGCCTGCCAACATCTAAATGCAAGATTTGATTATCTTATCTGCATCCCCTGCATTTTGTGTTTTTCGGTTAGTTACAG
Y
CCTCTTAATTATTTACTTTGGAAGCCTTTTTATATCTTGGCTTATCCCTTTCCCTTCATCCCACCTACACTGACTTTTTCTCATGTTTGTTGTATCTTCA
Celera SNP ID:            hCV15804975
SNP Position Genomic:     10981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37194):
TACAACTTGTTCCAAAAATTCTGATTTCATGGGGTGTTCAATTGATAACATTCATTAGAATATAAAACCTGTTTTTCTGTGCACTGTAGAGACTTTTGTG
R
CTATTCCTGGTTATTACCAACTTGTTCTGTTCACTGTTTTCGGAAGACTAATTTGAACAAAGGCTTCTAGTAAAACTGCCAAGACTTTAAAAGTTGTTAC
Celera SNP ID:            hCV7591733
SNP Position Genomic:     2411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   SC_12_A(A,6|G,18)   SC_12_C(G,4|A,11)   SC_12_AA(A,3|G,18)   total(G,40|A,20) 
SNP Type:                 hmCS


Context             (SEQ ID NO:37195):
TGAATCGAGCCACTGGAAGTTGGGTTAAAGATCAGCTTATTTCACCCACACTATAGAACAGACAGTAAATTGTTCTGGTGTAATAAAGTCATTCATTCAT
W
CATTCATTCCTTCAGCAAAACTATGCTTTGGAAGGCAGTGTAAGTAAAGGCTTAGCCAAATCTCTTTGCTCTTGTTTGTAAAGTAAAATTTAGTTTTATT
Celera SNP ID:            hCV7591808
SNP Position Genomic:     19563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37196):
TCAGCAAAACTATGCTTTGGAAGGCAGTGTAAGTAAAGGCTTAGCCAAATCTCTTTGCTCTTGTTTGTAAAGTAAAATTTAGTTTTATTTTTAATGCTCC
M
AATTTTAATTTTGGTGTCATCTCAAAAGATACCAGCCTATAACAATTTAGTGGAGTTCTTACAGTCTAGTGTACTTATAAGCATTTATAACTACTATTTG
Celera SNP ID:            hCV7591809
SNP Position Genomic:     19675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37197):
TGTTTCCAAAGAACAGTTCCAGTTACATATTCATATTAATAAACATACATATCCATAAACACTAATTTCCCATTTTCTATAAAAAGAATTTTAAGCTCCT
Y
AGCATGGTAGTTAATGATGACTGATATCCAACCTGTATTCACATCTTGACATCCCAGCTAAATTAGAATAATAGTGCTTCCTGTTTATATCCCATTTCCC
Celera SNP ID:            hCV29157438
SNP Position Genomic:     11335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37198):
AATTATTTACTTTGGAAGCCTTTTTATATCTTGGCTTATCCCTTTCCCTTCATCCCACCTACACTGACTTTTTCTCATGTTTGTTGTATCTTCATTCCCA
Y
TGGCATAATCCTAATTCAGGCTCTTGTCACTTTCTGCCAGGAGTATTATAATATCTCCCATTAGTGTCACCTTCTGTTCTTAACTGCATGGCCAACCAAG
Celera SNP ID:            hCV29157439
SNP Position Genomic:     11088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37199):
TTCTTGCACACAACAGGTGCTTATCAATTTCAGTAATGTGTGGCGAATGCAGTATATGTGAGTGTTTACATACACTGATTTGGAGCATCAGCCAATTTTT
K
GCTGATGCCTCAGACTTAAATTTCAGAAGCCTTATGGCAAAAATCTTAAGGAAAGCTCAATTTGAGACTTCGTTTACTTTTCCATTTAATTTAAAAAAAA
Celera SNP ID:            hCV7591776
SNP Position Genomic:     12274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37200):
CTGGGCACGGTGGCTCATGCCTATAATCCAAGCAGTTTGGGAAGCCAAGATGGGTGGATCACCTGAGGTCAGGGGTTCGAGACCAGCCGGGCCAACGTGG
Y
GAAACCCCGTCTCTACTAAAAACACAAAATTAGCCAGGTGTGGTGGCGCATGTGTGTAATCTCAGCTGCCCAGGGGGCTGAGCCAGGAGAATCATTTGAA
Celera SNP ID:            hCV11161080
SNP Position Genomic:     9407
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37201):
CTTTGTCTTATATAACCACAGTACAGTGATCAAAATCAGGAAGTTATCTTTGATATACTATTATTTATTCACATTTTACCAAACCCCCCACTTCTCTCGA
M
AGAAAAAAATAACCCAGAGCAATCCTGGATTATGCACCGCATTAGTTGTTACATCTGTCTTAGTATCTTAAAATCTGGAACAGTTCCTGTCTTTATTTGT
Celera SNP ID:            hCV7591777
SNP Position Genomic:     13365
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37202):
GCAGATCATTTGAGCTCAGGAGTTCTGACAGCAGCCTGGGCAACATGATGAAACCCTGTCTCTACAAGAAAATAGAAAGTTATCTGGGTGTGCTGGCCTG
Y
GTCTGTAGTGTCAGCTAATTGGGAGGCTGAGGTTCTCCAGCCTGGGCGACAGAGTGACACCTTGTCTCAAAAAAAGACATTATTGAGATGCTTGAAAACC
Celera SNP ID:            hCV11161081
SNP Position Genomic:     8495
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   SC_12_A(T,1|C,22)   SC_12_AA(T,11|C,12)   total(C,34|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37203):
TTCATTAACAGATCCCATAAGCACTGTATAGCCTAAGATGCCATTTTGAACATTAAGTTTAGTGAATTATTAATAAGTGTTTTTATTTTTGAATTCCTTT
K
AAGTATTGTTTTTCAAATGAAAATAATAAAATCTACCTTTGGAATTCTGAATTTCAAGTTTCCATGAAATAAGTTTGAGGTTTGTATATGATGGTGTATT
Celera SNP ID:            hCV7591778
SNP Position Genomic:     14169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37204):
TTAGACAAACATATTCTTGGTTTTGACACAGGAGGTAAGTGATTTTGTTTAAATTCAAACTATTTTTTTTACAGACTGAATACTTGGGAGGAAATAAATA
A
ATGGCCTTAAATGTAAAAATTATGTATTGAAGCAGTGTTCTTTTCTCATAAAACAGATGCAGTTCTTAATGAAGCTGCTCAAATTCTGCGATTGCTGCAC
Celera SNP ID:            hCV26535250
SNP Position Genomic:     20866
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37205):
TTTAGACAAACATATTCTTGGTTTTGACACAGGAGGTAAGTGATTTTGTTTAAATTCAAACTATTTTTTTTACAGACTGAATACTTGGGAGGAAATAAAT
A
AATGGCCTTAAATGTAAAAATTATGTATTGAAGCAGTGTTCTTTTCTCATAAAACAGATGCAGTTCTTAATGAAGCTGCTCAAATTCTGCGATTGCTGCA
Celera SNP ID:            hCV26535251
SNP Position Genomic:     20865
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37206):
AGGGAAACTCAACCTGTAATCATTTTGGCTCAGTTAAATTTGGTAAATAGCAGTAGTCATTTTACCTTGAGTTGCAGTTGTACAAATTATATTTTTGCCT
S
TTTTTATAGCTGAAAAATACAAGGATTTAGTACCTGATAATTCAAAAACTGCTGACAATGCAACTAAAAATGCAGAACCATTGATCAATTTGGATGGTGA
Celera SNP ID:            hCV25935653
SNP Position Genomic:     15041
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,32)   caucasian(G,40)   total(C,2|G,72)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37207):
CTACGTAGATTTACATTACTAGATAAGGCAAGAATTGAGCAGTGACTAAAGCATTTGAATAGTAACAGGTTGTAACATTGAAAGATTGAAAGTACGGGTA
S
TGTGTTTTTCTTGGCAGTGATTTTATATAATCAGCAGGAAGTACAGACTGTCCTCATTTTAGAATTTGTTTCTGTGAAGTTTGGCATCACCATAGTCACC
Celera SNP ID:            hCV7591810
SNP Position Genomic:     20067
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37208):
TTCTTGTAATTCACTTACTCTTTCTAACTCCAGATTATAAGTATTTATTTACACATCTATATTTGTCATTATACTTAAACTTCCTGAAAATAGAGACTGT
R
GTTTACTCATTTGTATGCTCCTCAGATCCTAAGTGTTTAATTAAAATCTTAATTAATGAAATGAAATGAAACGTACATAGTTGGCTTACCCCCAAGAATT
Celera SNP ID:            hCV7591740
SNP Position Genomic:     4825
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,10)      total(G,4|A,10) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:37209):
TTTATTTTATTTAAGAAACTTCTTAAATAAAACAACTTCTTTTAATCTTCATAACTCTATGAGGTAAGTTCTATTAGCACCCTCATTTTGTAGCTGAAGA
R
TCTGAGGCACAGAAAATGTGGGTGATTATCCCAAGTTCACACAACCAGTAAGTATCTGGACCCAGGATTTGAACAGATCATTGTTAATCTGTACTTTCAA
Celera SNP ID:            hCV7591741
SNP Position Genomic:     7615
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37210):
TAGTCATTTTACCTTGAGTTGCAGTTGTACAAATTATATTTTTGCCTGTTTTTATAGCTGAAAAATACAAGGATTTAGTACCTGATAATTCAAAAACTGC
W
GACAATGCAACTAAAAATGCAGAACCATTGATCAATTTGGATGGTGAGTATATAAATGCATAACATTGAACATCAACATTTTTGGTTTTTTAAATGTTTT
Celera SNP ID:            hCV25935331
SNP Position Genomic:     15094
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,28)   caucasian(T,40)   total(A,2|T,68)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37211):
AGGTCTCTTTCAACTCTCCCATTCTTTTTTCTGTGACTTTATGGTAATAATGAAACTGGTGGTTTTCTTTTCTTCCCCCTCACAGTATCTCAGAGATGTT
M
ACTGTCCTTTCAAGATTCAAGATCGACAAGAAGCTATTGACTGGCTTCTTGGTTTAGCTGTTAGACTTGAATATGGAGATAATGGTACGTTTTGTGGGGA
Celera SNP ID:            hCV7591742
SNP Position Genomic:     10294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37212):
TAGACCATTTCATTTTGAAAGGCCTGCCAACATCTAAATGCAAGATTTGATTATCTTATCTGCATCCCCTGCATTTTGTGTTTTTCGGTTAGTTACAGTC
Y
TCTTAATTATTTACTTTGGAAGCCTTTTTATATCTTGGCTTATCCCTTTCCCTTCATCCCACCTACACTGACTTTTTCTCATGTTTGTTGTATCTTCATT
Celera SNP ID:            hCV273193
SNP Position Genomic:     10983
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37213):
GGACTTTGAAGTGTTGTTGCAGTAGGTAATTTCTCAAAAGACTGAAACATGTCTAATGCCAATATACATTAATACTCTATAGGCCAGAATATATTACTTA
Y
GTTTACTGTCTTAGCACAGATACTTCTATGGTTGGAAGCTTCTGAATGTTAGTACCTATAGTAAAAACAATTTTTCTTTAAACGGGTGTTTTCTCTTATT
Celera SNP ID:            hCV29157440
SNP Position Genomic:     10783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37214):
CTCTGTTTCTTTGTTCACACTTTTCCCTTGGCTAATATACCATTTCATTCTATCTACACATCTAAATCCTACCCATCTTTTTAAGATCCATCTCATATGC
Y
GTCTTATGTCTTAGCAGCAGTATAATTTCCCTCTGAACTTCCATAGCTTTTAACCCTATACATTTTAAGTCATTAACCACTTTCCATTTTGCTTCTATGT
Celera SNP ID:            hCV273194
SNP Position Genomic:     11537
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37215):
CCCTTGCCCATGCAGCTAAAAGAGTTAAGACACCAGAATAGCTAGGTGCTTTTCAGTTTCAGTTGAGGAAAGGATGCTATTCTTAACCATAAATACTCTC
R
TTTTGTCTTTCTTTTTTTAAAGGGCTTACCTGTTGCTTTAGACAAACATATTCTTGGTTTTGACACAGGAGGTAAGTGATTTTGTTTAAATTCAAACTAT
Celera SNP ID:            hCV7591818
SNP Position Genomic:     20728
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,6)   caucasian(A,20|G,2)   total(A,42|G,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37216):
TTTATTGGAGTAATCTAGAAAATTTTAAAATTGTTACATCTTTGGTATTTATAAATGTGATACTTTACTTTCTGTGGGTACTTCTATAGAGGCACTACAG
R
ATCAGAAAATGCAAATTGAATCATTTTAGCACCTTTTGATATAAATAGAAATGCACTGATGCAGAGGTAAAAAATCTTAGAACTTTTGTTGGGAAACTAT
Celera SNP ID:            hCV7591819
SNP Position Genomic:     21484
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:37217):
CACACTATAGAACAGACAGTAAATTGTTCTGGTGTAATAAAGTCATTCATTCATTCATTCATTCCTTCAGCAAAACTATGCTTTGGAAGGCAGTGTAAGT
W
AAGGCTTAGCCAAATCTCTTTGCTCTTGTTTGTAAAGTAAAATTTAGTTTTATTTTTAATGCTCCAAATTTTAATTTTGGTGTCATCTCAAAAGATACCA
Celera SNP ID:            hCV16251135
SNP Position Genomic:     19609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37218):
TAGCAGTAGTCATTTTACCTTGAGTTGCAGTTGTACAAATTATATTTTTGCCTGTTTTTATAGCTGAAAAATACAAGGATTTAGTACCTGATAATTCAAA
R
ACTGCTGACAATGCAACTAAAAATGCAGAACCATTGATCAATTTGGATGGTGAGTATATAAATGCATAACATTGAACATCAACATTTTTGGTTTTTTAAA
Celera SNP ID:            hCV7591786
SNP Position Genomic:     15088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37219):
AATCCTAGAGACAGCTGCTAATATCTTTTTAAAAATATATATCATATGAAGAAACTGAGACTCAATGAGGATAATGTCTAAGATGACACAGAAAATGACA
R
AGCCAGGATTTTAAGCACTATAACCCTGTGGTCCATTGTTTTTCCCACATTACCCTACTTCTGTTTAGTGAGTCTTTTTAATGATTCATAGTCTGCATTT
Celera SNP ID:            hCV7591787
SNP Position Genomic:     16679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37220):
TGCTAAGGCAAATCAAACAAAAGAGGTACGTTTCTATAAATCCTAAATAAGTTGTTAATGAACATTTCTTCTGGTATGGCCGTGATTTTAAACTTTGCAT
R
TATCTGTTTAAGATATCCATTCTACGTTCTACAACTTAGAGAAAGGATAGCTTACTTCAGTGCTTCCTAAAGCAAATTGAATGTATTCAGTGGCTAGGGG
Celera SNP ID:            hCV25931991
SNP Position Genomic:     18499
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:37221):
ATAATGTCTAAGATGACACAGAAAATGACAAAGCCAGGATTTTAAGCACTATAACCCTGTGGTCCATTGTTTTTCCCACATTACCCTACTTCTGTTTAGT
K
AGTCTTTTTAATGATTCATAGTCTGCATTTGTTAAGATGGTCGAAAATGCCAAATGAGTAATGGTGAATTTGGTCAAAAATATATAACCCCAAAATCTCT
Celera SNP ID:            hCV7591788
SNP Position Genomic:     16749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 163
Celera Gene:                 hCG22720 - 84000313902425
Gene Symbol:                 PDE3A
Protein Name:                phosphodiesterase 3A, cGMP-inhibited;CGI-PDE
Celera Genomic Axis:         GA_x5YUV32W45C(10786273..11111719)
Chromosome:                  Chr12
OMIM number:                 123805
OMIM Information:            PHOSPHODIESTERASE 3A, cGMP-INHIBITED;PDE3A


Genomic Sequence (SEQ ID NO:12323):
ATTTTTAATTATATTTACATAAAGATGAGTGATTATTTAACTCATTTTAAAATTCCATTCTAATTTTAAACATGCATTCTCCTTAGATAGTTATAAAGGA
AAAGAGCAGTAGGTGATCAATTACTCAGGGTAGATTTTCAATTAGTAAATTATCTGTGTTCTTTGTTTCTATTTTCCCTTCTATTAACTGCCTAATTTTA
GACATTTGGCTGCTTATTAGAATTTCCTCCAAAATGATAAGGTAGCTTAAAACACTCCATTAATACTTAGAAACCTTGGTAGATTTCATGCAAAAGAGCA
TCACATTTATAGATCAAGGAAGTTTCTACGCTGTATATAAATTTTGCCCTGGAATCCTTCTGTCACATATATAAAAAGTAGCAGTTTGGGTGCTATTATA
ACACTTACAGGTAAGTAAAACTAACTTTAAAATGTAGAGGTGTTGAAATATAACAAAGAAATAGGCTATACTTATATTTTCCTTTCTATCAACAACCTTC
ATAGTTTTTCTCAATAATACACTCTAGCTTAAAAATGCAAATCATCCTTAATTTCTAACATTTTAGACTGGCCTGTACATCAGTAGCTGCTGTAAACCTG
AACTATTTGCTCATGAAGTCAATAAGAGCTCAGCCTTTGACTGTTTATCAGCAATTTATTGGGCAGGCACTGCATTTTAAGTGGCAGCATTAAAAAAAAA
AAAGGCAGATGATACATCTAAAAATGCAAGGTTTCTGCATTTTTTCCCTGACTATATGTGAAATAATAAGTATTAATAAGGTCCATGTTGGCAAAATGTT
TACTTTTTTAAATCTTAAGTTAATCCCCTATTGTTGTTAATTGGCACAGTTGGAGACTATGTCATAAATCGTGATGTGAGCTATGACATCTTAGTCACTC
ATATTTAGGTATCTCCTAATTTCTCAGCTTACATATTACTGAAATGCAGCTTTACATTGCTTTATCCCTAAGCCTACCAGAAAACTGCTAAGGATTGTAG
ACATTTCATCAGGTAATCAATACAAAGTTTTCAAAACTTTGACAATTACCTATTTCTCTAATAGATGAGTAATTTAAGTATTGATATAGGCCCGCACTGC
TAACAATGTTTTGGTCAATGACAAACCACATATACCACAGTGGTCCCATATGATTATAATATGGTACTTTGTGCCCTTTCTATGTTTAGATACACAAAGA
TTTACCATTGTGTTACAGTTGCCTAGAGTATTTAATACAGTAACATGCTGTACACGTTTGTAGCCTAGGGGCAATAGGCTATACCATATAACCGAGGTGT
GTAGTAGGTCACACATCTGGTTTGTGTCAGTATACTCTGTGATGTTCACATGATGAAATCACCTGATGACGCATTACCCAATCTCAGGTATTCTTTCATA
GCAACAGTAAACAGACTAAGACAAGCTTCCACCATGTGCCAGGCACTATTCTGGTAATTGGAGATACACAGCAAACAAGACAGCTATTCAGAGTCCTTGT
TCACATGGCACTAACACCCTAGTGAACAGAGATAAATGATAAGTGAGAAAACAAATAAACGAACAAGACCATTTTGTATAGTGATAAGTGCTATAAATAC
AATGAAACAGGGTAGTATGATAGTGAAAGAAAAAGTGTGTATGTGTACATGGGGTGTCCAAAAATTTTTGATAAGATTCTTGGAAAAAAAGCCTTTCTAA
AATAAAGTAACATTTGAGGTTAGACTTGATGGAGCACAAGGGGCCAGCTATGTGAAAATCTCTGGATACCAAGGCCCTGAACAGGGTTTCCCATTTCACA
TGTATGAAGAACACAAAGGTGGCCTGAGGTATTAGAGATGCATTCTCCATTCCTTTAGACACTAGCCAAGTGAATGTATTAAAATTTAAATTAAAATAAA
ATACAAAAGTTCAGCTCCTCAGTGACACCAACCATGGTTCAAGTATTCAATGGCCACATGTGGTTAGTGGCAACCATGTTGGACAGCAGAGGGTCTATTT
GTCATTGAAGAAAGTTCTAATAAATAGTACTTCACCAGTGAAGTAGGAGCATTGGAATAGGAGGAGAGGTCAGAGAGAATTACTTGGAAAGATCATGAAG
GTCCTTGTAGGACTGTCATGAGGACTGTGATGAGGACTGCATTCTGCAAGTACGATGGGTAGCCTTTGGGTAGTTTTAAATAGGGGAGGGACATAATTCA
ATTTATATTTTTAAAGTGTTACTCTGCTATATAGAAAATGAATTATAAGTAGGGCAAGATCAGTTAGTTACTGCACTTGTCCTGGCCAAGGAAGATGATG
GGTCTTTGGCAGGTTATTATAAGAGGGACAGTGAAAAGTAAATGGATTTAGAATATATTTTAGAGACAGGATCAAGTGGATTTCCTAATCGACTAAAAGT
AARACAAGATAAACAAAGGAAAGAATCAAGACCCGTTCCCTCTTCTGGGGCCTGAGCAACTAGGTAGATGGTTATGTTCTTTACTGGGATGTAACAAGAT
TGAGAAAATATAGTTTGGGTGGGTAGGGGATAGGTAGGAAGGGAATTGTAAGTTAAGAATTTTGTTTTGGATACCTTATGTTTTAGGTACCTATTAGATA
TAAATATATAATAATCAGATAGGTAGCAGAGAATGATTGAACCCATACTACGGAACGTAAACTTACTGAATTTTACAATAGAATCCCCTGACGCTTAACT
ATATTTAATAAAGCTCAAATGTGAAGGGTTAGATCCTTTTCCCAAAAAACTGTAAAAACATGTTTGCTAGATTTGACTAAGTGGAAGATTTATCAAGTAA
AACTTAAATTTTTATTTCTGTTGTCCATGCTCTACTATTTTTCTGCACGTACAACATTTTCCTTATTCTTTGGCTGTGTTGTCACTTTCTTGAACTAGGA
CTCACCACTATCTGTAGAAAAGAGGCAGTGTTTATATGTGATTGCTCCCTATCCAGTTTATGTATTGCAGCTTATTTCATTTAATATACTCTGTTAAAGG
TACATTATTAGTCGCTTCTTTCAGTTAGTATAGCCCTGCAGGTTTCTGCATCTCTCTAACATTAGCATTTTGTTGTCTTTGTTCACTTGCCTCTGGGTTC
TGGATGGTATGGGGAGAAAAATCTACCTTCTTTCCTTTTGATGGGACAAATAACTTTTTGATTATGATTTGTTAAAGAAACCTGGATGCCAGGACATTGC
CTCCTTATTTTATTGAAGAGTTCCAGGATGTTATTAACACATGGATTTAGAATATTCTTGTTTTGCTGCCATTAGCAAATGCCATTTTTTCCTGTTACAA
CTTTTAAAAAACATCTGCTTCCCATACCTTAAGTGTTCAGTTTTTATGATAATATTATATTAAATTTTCTAAAGAACTGAGATAATTGTGGGGGTAGGGG
ACAGATAAAATTGAAATATTCTAAAATTTCCCTTACTATGCTTTTCTTTTTAACCTTGATATATGCCAGATTTTTGGTTTATTATTTTAATATGTTATTT
TTGATGCCAACAGATATGAATGATTTTCCAATCAAGGTTTTTCACTCCGATGTGTCCCAGGTAGGATCTGGCATATGAATCATATGTCTAAAAAGGAAAC
TCATGAAAGTATGTGTGCGTGCTAGGGGGCTCATTTGTCTTTGGCAAAGACATTGCTGCTCCTGTTTCCTTAATTATTAAACAGATGGTGCCCACTGCCA
TTGACTAGCTGCCCAACTCATACTCCTGTGTGGTAGCACAATTCTGGACATCTGACAGAGAGAAGCTATACCTTTATAGTTTCTCATATCTACTTATGTC
ATAATATTAATATCTGCCTTCTACTAGAACAGGCTGCTTCCCATGAAGCTGTTTAAAACTTAAGTCATCTTCTCCCCCTGTCCCCATAAATTAATTTTAT
CTCAAGGATCTCCTTTTGGCTTTTTTTATTGCTTCATGTCTACATACAAAATACAGTGGCATATTGAATCAATTATCTAAATGCTCTAGGCTGTAAATAC
ACTTTAACCTGGAATGTCAAGATAATTAAGACAAAATTGGATTATTAAGATTATTATTAGTGAGGGCAAATGACATCTAAGATAGCCATGTTAAAAGTGG
AGTATCATATTAAAAAGACAACTAGATCCCAGGGAACATCAATAGAGTTTAAGTCCATTGAACAGATACTGAATTCTTTTTCATAATCTGCCAAAAAAAG
GTTAGCTTGAAAATTTTCTTTTAGTTTCTCAAATATCACACTGCTGCAGTACACGAACCTTTACTCATTAATAACTAAGGTCCTGATTTTTTTCATATGC
TTTGCTCGAAGATGTAGTATTTTGCAGCCATAGACAGTCTTCTAAGATCTCTCCTAGTGTTAACCCACCTATCCTCACCTCTCCCTTGAGATTTTTCTTT
ATTTTTTGATGAACTATCTGGGCTTTTAAACTTTGTTAACCTTTTTTGAGGATACGGTCACTTAATCTCAATGTAATTTTACTTTCCACAGTCAAAAACT
ATTGTGTAATACTCATGCACTGGATTTAAATGACTGCTGCCTCTCCTTCCTTTCTTTTTATACTATTGTGGTCTAGGTAAGGCTGATTCTTCCATCATTT
GAACCAACAGGCCAGGCTTGGGTTCTCATAAAGCAGACCTTCCAGCAGGAGCGACCAAAGGATGACACTGTCACCTGAAATTGGACTGCTGTTGTACCTG
ACTTGGGAACATCTTTGAATCAGACAGTAGAAGTGGCTGTCATTTTCAGGGACAGTAGAAAGTATGTTGGCTCTCATCTGCCAAGTAGGCAAACACAATC
TTTTTTTTTTTTTTTTCCTTCCAACGTTCTAGGGAGCTCAGCCTCAGGGCTAGCCGCAGCCCCCCACACCCCGGGGCTGCGGTGGGCTGCGCGGTGGATC
AGCCTCAGCAGCCCCTGCTCCAGCCTGTAGGGTGAACCGGCCGCTTTCCCAGCAAAGGAGCAATCGAGCTGAGGGTAGCGCCTCCTCCGCAGGAGGGGGC
GGGAGCTCGGCTGAGAAAGCTTTCCTAGGGAGTTGCCTTAAAGAAAGAAAGCGGAATTGTCGATCACTCCAGTTGCCAGTTTTATACAATTTTAAGCAGT
CGTCGCCACTCGTTTCCCCTTTGCAAAACTGCAAATCACCACCAACCTTGCATCAAATAGAAGTGGGGAGGGAAAAAAAAAGCAAATCTCCTTCTCCCTT
CTCACCCTCCCTTTCTTCTCACCCTCCCTTCCTCTCTTACTCGCTCCTTCTCCCTCCCTCCCTTCTGCGGCTGCCGCTAGTCTCTCGGTCTGGCTCTCTC
TCCGACGGGACTTAGCAACTTCTTATTTCTCAGCCCCTTGTCCATTTTTTTTTTTCCATCCTTTGCCATGAATTGGATTGACAGAGGCGGGGGAGGCTTT
GCTTTCTGCCCCAGGGAATGGCGATTCGCGTCCTGGGGCCGTGCCGGGGAGAATCGGCAGAGGAGAAAGAAAGAGTGATAGAAAAAGAGCTGCAGGAAGG
AGGAGAAGGGAGACCTCCATCTGCCGCGGGCCCGGCGCGCTGCAGCGCAGCGCAGCGCCGAGCTGCGCCTCGGAATGGCCCGGAGCCCGCCCTGCGCCCC
CGGCTCCTCCAGCGTCAGCGGCTCCTGCGCGCGGGATGCATTGGGCAATTTTTGAAATCCTGAAGTAGGAAGAGACCCCGGAGGATATAAGTCGGGGGTG
GGGGTGGAGCAGAGAATCTGTGAAAGATATTCAAAGAGAGAAAAGGGGAATCCTGATCGTTTCTGCCCGTGCTTGTTTTCAACTTGAGCGTGCTAGCCTT
TAACTTGAAGAAGTCTCATTGGAGCATCTAGCATTCTCCAGGAGTTATTCGAAAGCTGAAACTTTCAGTGGATTGTGGGCCTGGGGAGAAGAAGGATTCC
GAGGGTGGAATTGGGAAGABCGTGCGTGCGTKTGTGTGTGTGTGTGTGYGCGCGCGCGCGTGGGTCGGGGCGGGGGCGTCGGGGGGCCACTGGGAATTCA
GTGAAGAGGGCACCCTATACCATGGCAGTGCCCGGCGACGCTGCACGAGTCAGGRACAAGCCCGTCCACAGTGGGGTGAGTCAAGCCCCCACGGCGGGCC
GGGACTGCCACCATCGTGCGGACCCCGCATCGCCGCGGGACTCGGGCTGCCGTGGCTGCTGGGGAGACCTGGTGCTGCAGCCGCTCCGGAGCTCTCGGAA
ACTTTCCTCCGCGCTGTGCGCGGGCTCCCTGTCCTTTCTGCTGGCGCTGCTGGTGAGGCTGGTCCGCGGGGAGGTCGGCTGTGACCTGGAGCAGTGTAAG
GAGGCGGCGGCGGCGGAGGAGGAGGAAGCAGCCCCGGGAGCAGAAGGGGGCGTCTTCCCGGGGCCTCGGGGAGGTGCTCCCGGGGGCGGTGCGCGGCTCA
GCCCCTGGCTGCAGCCCTCGGCGCTGCTCTTCAGTCTCCTGTGTGCCTTCTTCTGGATGGGCTTGTACCTCCTGCGCGCCGGGGTGCGCCTGCCTCTGGC
TGTCGCGCTGCTGGCCGCCTGCTGCGGGGGGGAAGCGCTCGTCCAGATTGGGCTGGGCGTCGGGGAGGATCACTTACTCTCACTCCCCGCCGCGGGGGTG
GTGCTCAGCTGCTTGGCCGCCGCGACATGGCTGGTGCTGAGGCTGAGGCTGGGCGTCCTCATGATCGCCTTGACTAGCGCKGTCAGGACCGTGTCCCTCA
TTTCCTTAGAGAGGTTCAAGGTCGCCTGGAGACCTTACCTGGCGTACCTGGCCGGCGTGCTGGGGATCCTCTTGGCCAGGTACGTGGAACAAATCTTGCC
GCAGTCCGCGGAGGCGGCTCCAAGGGAGCATTTGGGGTCCCAGCTGATTGCTGGGACCAAGGAAGATATCCCGGTGTTTAAGAGGAGGAGGCGGTCCAGC
TCCGTCGTGTCCGCCGAGATGTCCGGCTGCAGCAGCAAGTCCCATCGGAGGACCTCCCTGCCCTGTATACCGAGGGAACAGGTAAGCACTGGCAACTCCT
CTCTCGGCTCTTGGAAACTTGAAACACTTGGCAACCGGCGCAGAGTGGAGAGAATCCGAGCGCTGGGAACTAAAGGGAAGATAGCCTAGAAAACTGGTCT
AACTTCAGAATTAAGAAACTAGCAGGTTTTTTTTTTGTTTTTTTTGTTTTTTTTTTTTTGTTTTTTTGCCCTCTCTTTCACACAGTAGTTTTATAACCTG
AACGACTGAAACACAATTAACAAAACTAGATGGCATGTGTAGGGTCTTCCACAGCTGGGCCAACTTTTTAGATCTGCTACACCTGGTGTATGGCTTGCCT
ACTCTTTTCAGTACTCTTACGCTTTCCTTCCTTAGCAGAAATTTTAGAATTAAGTTTAGATTTTAGCAATGAGTGATTTTTTTAACACATAGATTTTACT
AGATTTCTACTTTTTAAAAAGTAAAATCTTTTTAATGAAATGATATTAAACATTTATGAAAACCAGTAAAAAGATTCTAGAGCAAAGCAAGCTGTGCTTG
AAGGTGAGGAATTGATACACATTTTCTGGTTTTGCAGTAAGTTTTATTTGGAGAGACTGCAGCTGATGGTGCCCAATTTGTTTTTAAATATAATTTAGGG
GCATACATTATTACATGCTAGTGTGTTTTGTATCACAAACTTCAACTTGGGGAATAATATGTCTGAACTTTGGAATTGTTCAAAATTGTCAACTGCGTTT
TAGTGTCAACTAAAAACAAAAGAGTTCTCTTTAGTATGTGCATACTTAAGTGGATATTTATAAATTCAAATGGATTTATGCAGATTTTACAGGAAATACT
AATTCGGGAGGCCATTTCTAAGATTGCTGGAGATGTATATCTTCCCACAACGTGGGAGGAGGAGGAACCTGGGATTATAAAGTTGTAAATAAAACTTTAG
TCACTTTTGGGGATGAGTCTCCTTATTATCATTAAGTGATTTAAAACTATAGAACAGTTGCTATAAAGGGCATAAAGGAACAAATCCCAATTTTAAATGC
ATACTGTGTCTAAAAAAGCATACCGAAGGGTATGCCTCCCTAGTTGAAGCAGATTTGTTCACCTCTCTATTTGAAGTGGATTTGACACTTGATGGGGAGG
AGGAGCTGGTTGGATACAGCAAGTGGAAATTTACATTTTTCCCTTTAAATTAATGCCTACCTGTGGTACTATTAGGACAACTTTAGGGAGCAAGAGAATA
TCCTAAGATAAAGTAAGCTTTTTCTTTTTAGGTTATTCTGTGGATAATCATTTGGGTATTTCTAAGAAATAGCAGTCACCATATGGTGTGGGTGGCTAGT
TGGTTTCTGAAATGGAGTTGATTACACAGATCTATGGCTGTTTGACATTATTGAGCAGAGTAGATGACAGCATCATAGTCTGTTTATTTTAAAGCAAATG
TAGTTATTTGCTTTTTGTTTCGATAAAACAAATGTTTCTTGTCTTTAAGCTTACTCTAAGAGTGGAGGGGAAAACAGGCCACTGACTGATAGTTTTGGTA
AAAATTTGGAAATTGTTAAAATGGAGTAAGTTATCTATTTGAGGGTAAACTAACCATTTTAATTTCTTTTCACAGTTATGGGAGAGAATGTCTTAAATGA
AAACACCACCGCTTTAAGTATGTTCAGAATACACTATTCATTAACTTATAGGGAAATAGGATGTTACTATTGCAAAATTCACAACCATAATTTCTAAGGA
AAATCTGGGATTTAATCACAACTTGATTCCAAATTGATATCATTTACCCTGTGGAATTATTTTTTAAAATTTTATATTAACATTTATAAGTTAAGAAATT
AAGGGTGGATAGAAGATAAGAAGGTGGTTAGGTAAATTAACCAGCAGCATTCATTTAACCCACACATTTTTATTGGGTTTCTCTGGTTTAAATTGATAAA
TGGAGAATTTGAATTATCTACGAAGTTATCAAAATAAGCATTGCATATTTAATGTTTTGCTGATTAATGCTGTTGGAAAATGCATAATCGCAATCTATTT
CTGTAATTTTCTTTGGTCACTATTTTTTTTAAAGACTGTGTTAATGAAGATTATTCTAAAGTGGGAAACTTTGTCTTATGCTTGATGGAAACACAAGAAT
ACATTTAGCAGAAATTGAGATACTTGAAGTTTTAATGAGGGCATGGGTGAGTGTGTGCGTGTCACTGAAGACTGGTTTTTATATATGACCCATTAAAAGT
TGTTGCTGAGCATAATTGTGGGGAGTGGGTGGAAACTAACACAGTGTACTATCTTATAAGATAGGACAGTATCTCATATACGTTAGCCTTACTGTGTGAA
AAGTTCAGGAGCTACCCACAGTAAATGGCTTATCTGTTTTATCATAAGGAAACAAACTTCTGATTAAGGGTGCAAAGTGTACCACTGTCATTTGCATACT
TTGTGAAGTCAAACATCAAAATAATTATAAAATAAGTATATAACACTCCCCTGAATGTCATCTGCTTTTTTTCTGAAGGAATGTCTACTTTCAACTCAAG
ACAATACTCATAGGCAACAAGTGAATTTTAAATAGTCATTTAAGAACTTAAACGCACAGTCTGTCAGAGTCCTCTTGAGAATTTATTTGCACTTTGCTCA
TTGTGAGGCTTACCAGTGAGAGAATTTCATCATTTTCTTCTCTGTATGAATGGCAGTGGCTGGTTACTGATGAACTATCCCTCTTCAGTGACCCTCAGTT
CCAAAAGTGCAAAGAGAATATATGATAAAAATTCTCATAAGAGAAACCAATTGACAGATACATTTTTCTCTCTCCCTCCCTTTTTTTCTTTCAAGAACTG
TAAGTCTGTAGCACTGGTGTCTGTGAATGCAAGTGGAAATATCTTTATTCTCAGGAAAAAACAAAGTTTATAGTTCTTTAAAGTTTAAAGAACTATAAAG
TTTGTTTAGCTTTTAGTTTAGTCCTGACAACCCAGTGTCCGCAATACTGAGGCTGATTTTGTAGATGAGTGTGTCAAACTACTYTTTTGGCTGCCAGTGT
TAAGAAGGCAAGTGTCTGTTAAGGTGTGTGTATCTTTTCTAAGTGGACTTTCGCATCCCAGAGCAGATATGTCTCTCTCAAAGTACCACTGTGCCCTCGG
CCCGAAACATGGGAATATACAGAGGTACCTAGACTTTCTTGGAGTATTAGATATTATGCATGATTAATATGTTATTTTTCAATGTAAAATTTTAATTTTG
CAATTTTTTTGTTATTGCAAATTGTATTTGAAGGGGTGTCTCTCCATTCTCTTTATAAATAAAGAACTATAATTGGCTGCTCATTCTTCTCTAATTACTG
AGAYCACCTTACACATTCACTTTTGAAAGATTTCAAACCAATGCAATTTTATTTTAGTTACYTGTTAAGGAAAATTTTATATTTTTACCTGTGGTTTCAG
GTAAATACAAAGGCATATGACTGTCTCCRTTAATGCATTTGTACCACTTAATGACARCATTTTTTTGGGATGGATACAACATCATCCATTTTGATCTTAG
TTGTCGAAAGAAGAGTCAAGTTTTTCACCACTGATGTGAGAAAGACACTTTTAGGAGAGAAAGCAAACAACAGCAAAGCAAAAATAGGAGAAATGGGTAT
GGTGTTTGATGGTAGGCACTGGATGGGAGGCATTGTTATTCTTTGACAAAAAACTTGCTTATTTCTTCTCAAAATGTAGAATACATTGTTTAAATTCCTA
AATGCCTGTCAATGTAACATATTGTTCAAATTGAGTAAGTTTCAGAAATAATCACGGACTTTTAATTAAATTGTAGCTTCTACATTTCAGTAGTGTTACT
CAGTTTATGGTGATTCAAAGAGCAATMTTGATTACTTATGACTTGGTGACAGAATTAAAATTAATTAATGTCAATTTCTGAAAATACTGAAAAGGGAAAA
CAAGATTTCCTTATCCCTTGGGAAAGGTGAAGGAAAAGAATTTTTTGTGTGTCGGGGGGACAAAAATTGTAATTTTACTTTGTGAATACAGATATTTAAA
GCATACTGAAAAAGTTTTTTAAGTGACATAAATAGTCAGTGAATCTATATAAATTTACAGAGGCTGGAAGGAGTGAAAACAGTAATTTTACTCTTTCTGT
ATTGAGTCGAAAGTGTAAAAAGTTAAAACTGTAGAACTGAAAGAAATGCTGTGTATGCTGGGCTGTCATGTTAATTAAATAAACAACCAGAACAGTGACT
CTGTGTATGAAATACATTTTGAAAAGCCTTGGGGGAGGGGGTGCAGGCAGGCAAGGGTGAGTGACACTGGCATGAAAAAACATTCATTCTATCTGCAGTG
ACATTTGTGTGAATTTGTTGTAGTCTATTAGAAAATTCAGATCTGAGAAATAATCTCTTCAGAGCGCTAGTTGAATAAAGGCTTTACCAAATTGAATTTT
ACTTCTATTTTAAGCAAGTTCTCATTCTGTCAAGGTAGGATGTTTATAAACCTCAAAATTAGAAGTATGCCTATATATTTTAAGATTTTTCCATTAATAT
GGTTTGTGTCAGTCAGCCCAGTAGAGTCAATGTTGACTTCATTGAAAACGTGTGTTATTTTATCTATCAAAAGAAAGAGTTTATTTTGGGATTAGGATAG
GAGTTGTGTTTTTGAGAAAGAGTTATTGTTGTGAGTTATACTGTCCTGGATGTGTGAAGATAATCAATGCAACTATTGTATCATGCCTTTGCATTGGGCG
ATGGGGAAATGTCTYATGCTCCCGGAAGTGATGCATAACCCTACAGGTTTATGGTGAATTGTTTACTTAGCTGCCATATGTCTCCTCTTCAGTGGAGTCT
TCCTGCTCCATTTCTGTGTGGTGTTTATATCTTCTTAAAAAAACCCTCAAATTGAGATTAAAAAATATTATGCTTATATTCTGCATTCATGTGTTTAATG
AACCTCTGTGAAATAATTCTGAAGACCCTCAGAAAGTCCAGTCTCCTATTCTTGCACCTAAAGATGTGTTCCATTAATGTTCAAATGAAGATAATTCCTT
TATATAGAAACTTGAATCCTTTTGGTAATTACCTATATATACTTTCATGATAGGTAGTATTTTTTATTAAAGGAGATTTTTTGTTGYTGTTTGTTTTTTT
AGTAAGGCTACTATGGAATTGTTTTAACTTTGAACTGAGAATGTATGTTTGTGCTGTTATTGATATAAAATATACAGATTTGATCACTGAGAAAAAAGTC
TAACAGATGTGCCTGAGTTGTAGTTTAGAGGAAGATGTGTTGTATRACAATCGTAAAAAATATTAGTTGACCATACCTGTTCATTGTGAATGTATACCAC
TGTTTTAAAAGAAGATGCTACCCATAGCTAATGTTACCCATTATCCATAAAGGCCTTTGATCAATCAACCTACCAGGTCTCAAATCAACACATTTTATCT
GTGCATTAGTCCTTGTGCTAAAAATCAAAAATAATATACAGATAGATGTGACACAGCATTTGTCTCTGCAAAGTTTAGAGCCTAGTGAGATTAAYGAGAA
GTGAACATAAGAAAAAGGGAAGTCACAGTGAAATATCTTAGATAATGGAGAAATGCATATAATAACTTGGAGCAGGTTTTTAACCTGGCTCCAGGACTCA
TTCATCTCCTCTCTGAAATTGTATGCAGAACTTCATTTGTTCATTCTTAGGAGCAAAAAGTCTTAGTGTCATAGGTTTTCAGAAGGTCCTCAACACATAG
ATGGTTAAACATAAATGGCTTAGATTTTAAGCAACTTTACATTTTGAAGACATGGAGAATGTTTTTGAAAATGGAAATTACTTTGGTGTACCTTTACAGT
CTGCTCTGAAACAAAGGTAAAATAATATTTCATTTAGGACATGTTACACTTCAAAATAGTACACTGATTGATTGTATTTATGTCGAGTTAGTTTATGACT
GTAAATAGCTGGTTGCACTGATATTTTAAATGCTTAATTCTGAAAAGGCTGTAGTTAGTAGACTACAATTAGTCTGATTTTAGAGAGAAGGAAACTGAGA
GTTAGCTATATGTGTGAAGATAGCCCAAGGCAAGATGGCTTTTGTCCATTTCCTCTTTGACTTGACTGTGCTACTGAGGAAACAGTAGGAAAGGAGTCAG
GCTGCTAACTTTAACCCTGGGTATCATTTKTAATTTTTCCCATGGAGCCAACTCTAAATTCTCATTCAGCATTAGAAGACTGAATAATCAGATTGAGTGT
CAGATGTGTAAATAACACAAAACTTGTTAATACCAGGTAGCCTCTGGAATGAATTATTCTTGACTTTGTCACGTAAATGAATATCAGTTGCACTGAAAAG
TCTAACTTTGTGGAGTCTTATCAAACAAAAGTATTTAGCAGTGGCTTAAATATTGAATATTTTTATTTTAGATTTTCAATATGTTTATTTTTGTATGTTC
AGGATTTCCAAATTCAAGGCAAAGCATAATCTGCAGATTGGTAAGGCATTTCTTCATTAGCAAAAACAGCTGGTAATTTTTTTCACCTGTTATTTTGCAG
TGTTTCCTTAGAATTTCATTAAAATATAAGTAAATAGGGTAWAATATCAGAGGAGGTCATGAAGAACATTACCATTTCGAAGATGGAAAGCTATTTGAGA
GAAGTCACAAACTAAGCAATGTCTGTGTTTTTGATTTGATTAGAGCTGTCATTTGTTATTTAGGAATCTGTGAATGATTATTAAAGCTTTCAAGTATAGC
CAGTCCTGCTAACATAATAATAAYATTACATTAAGGGCACTCATGTTCTTTCCTCCTGAGAAGATGACTGGTTACAGGGGGCACATATTGTTTGCTGAAG
TGTGTGTATGTGCATGTGCATGTGTGTACCTGTATGTGCATTTATGATTTGTGTGTGTGCATGTGTGATTTTCCCCTGGCAGAAAATTGCTTTGGTTGTR
TCAATTTAGTGAAGAAACAGTGTCACCCAGTGGCTTTGATGAAAACAGTCCTATAAACATTATAGATAAGCACTGTCCAGTAGAAATACAACACAAGCCA
TACATTTGATTTTACATTTTCTAGAGGCCATACACACCCAAGAAACAGATGAAATGAATTATAATAATATGCTTTATTTAACCCAGCATAGCATGTCAAC
ATGTAATCGGTGTAAAAAAAATGAAATATTTTGCATTCTGTTTTTTTGTGAGTCTAAATATCTTGTGTGTGTTTTACACTTAAAGCACATTTCAGTTTGG
CCTAGCCCCATTTCAAGTATTAAATAGACACAGGTGGCTAATGGCTACCATATTGGACAGTGCAGCTCTATATTTTTAAAGATTTGTAATATTTGAGATA
CTAATGTCACCTCTTCAGTTATAATGAAAAGTCTTTGTAGATTTAATAACAATATACAGTCTTTAAAATTATATGTGTAATCTTGATAGCTCATTTTTGT
ACCACTCTAATAGTTGCCAAGTCTATTTGCCCTTTTTTCTTCATTTCTCATTATTGCATTTATTTTAAAATATGATTATTTTCATCGGAGGGGGAGATTT
AGCAGAGTTCCTTAATAAAAGACCTTTATATTAACCTGATTTATAACACAGTATCAATATTTCCAGTTAATTATGAATTTGCCTTTAGGAGTTTGGTATG
TAACAGGGATTGCTTATGGATACACTGTAAACACAACACATGTTCATGATGATTAGTCTATAATTGGGTTATCTAATGTCTCTTTAGAAATGAAAGTGCT
TATGTTTGTAGGTCATTATCTTTGTAACTTAGGAAACTAAAAGTCACAAGCCTGCTCCTAGCTTTAATGGATGAAAATTGTAACAGTGTCTGTAAAGGGC
TAACTTTTCACTACTGTTTATWTAAATACCACTTTCATGGAAACACAATGAAAATGGTTCATTCTGTGTATAGAGCAGATTGGAGATTTTGATAGTGTGG
AATTTTTAAAGTAGGAATTTAGATTAGGTGAGTTTTGGAGCCATTTTCTGAGTTCACTCYGGTTTGCAATTTCAAACTGATTTCAGATGAAAAAGTCTGG
AAATGTTTAATGTCATGTCCTCTCCATCACCTTTCCTTATACTCTATGAATTCGTTAACAATAGCCGTAATTCCAATTCTACATCAAGAAATAAAGAGAA
AATTATATATGGCATTTTACTTTATATATAGATATATAGATTAACTTTTAAAAATACATTTATTATGTGTATAACGTTTATATCTGTGTGTGATGCTTTT
AGTGATTGGGACAGGGTATATTACTTATTTTTACACTGCAGATTAATATAGACAGATTTTATATCATAGATACATAGATTTTCACTTACTAGAAATTCTA
AAAAGATCAAAAGGCAATAGAATCATGGTATACAAAGAAGCACATTTGGACAAAATGAAATAATGTGGATGCTGGCTCGCTTCTGGTAAAAGCTGACTTA
ATTTAGAGTTCTTGAAGAAGCTAGCTGAAGAATGAAAYGTCATYGTAACACACATCTGTTTCTTGAAAGAGTTTATACTTGAATGTAACTAGTCACTGTT
AGCTCTGGCTAATTTTGAAGTTGATTTAAATTAATATAGAGGTTGTTCTGGTACTTTTYTTTTTGGTCAGTCTTTTTCTGTTCTCCATCTCTATCTACAT
GCACATTTTCTTTCATTTCATTTTCTTTTTACCTAATAGAGTCTTCTCCCTCCGAATGTGTTTAAAATTTTAAGGAATGCCATTCTGTCTCTCCCAGTAC
CTTGTTAGAATATTGAAATAATTTTATGCAAGAATCTTGTGGTTTTGGTTTAATAGGATTTTAGTAAAAATTTTCCATCTTGTGAAGTAAGTTTAAATAA
CTGAATATTTATGCTATGTCTGTGGCAAGTGTTTCCTCCTCTCCAGGTATAAACCACTTAAAGAGACCTAATGGAAGTTTGAAGTCATAGAGATATTATT
CAGTGGGTAATGTTTAATTCTGTGGCAACAGTTATACAGCTATGTGGAATCAGCATCCTTAGCCCATTTTTAAGCTAGCATGAACACAAATAAATGAAAT
AGTTTTTATTTTTATCGTATTTTAGAGATCCACTTCAGAAATGCTCTTTAGTGAGCAGTGTTTGTCCTCGTGATATGAAACATCCCCTTGTTTGGGAGTT
ATTATTTCAGGGTCCAGCCTCAGCAGCAGTCTCTCAGGAAGTTTGGAAGGGAGAGAGCCTGCTGAACTGCTTATGCTGTATTGAGAATTTGCTTTCTAGT
CTCAGGAACTAAGGAAGTCAGATTCAGATTAAGACAATTTTTATTATAAAAGGAATCAAATTTTTGTAGCTTCCTTTTCTCAGCCATAAGCATTTCATTT
AGAAAATTCTGGCCCAGTGTCTTGCTTATTGTAAGTGCTGGCTGGATGGTAGGAAAAATGGATGAAAAAGAAATAAAAGACTTTTAACCTGAAATATTTA
TCTCCCCATTCTCCTGAGGTTGAGGTAGTGACTAAGTTGATTTAAGGAAATTTCTATGGGAAGAAGAGAAGAAATAAGACTATCAACAAAGCTATACATT
TTCAGTTTTAATATGGTGTTTACATTTTTGTTACTTAAATATTTTCTTGCATATGTTACATAAGGGGTTGCATTTGCCTGTGCCCTTACTGGTAGGAAAT
CCCATGTTCAGCATGAGTCCTAGATAATTATTTTTAGCTCACTCTCAACTGAAAATAACCAAAGCTACCACCAAGATCATTGTAGTGTAAACCTTTGAAA
AATTTCTGAAATTTGGGTTCATATTTTAGAAAAATAAAATGTCAAGTGTTTTTCACATTCAACTAATAAATTGAGAGAGAACAAACTCTGACTTTATTTT
CTTCCATTCCATCCCACAGGGCTCTGACAGGTGCTCTTCAGCTATCACCTTTTTTATACTCTAGTAGTCTGCATTCTTGTTAGAGGTTCTTACTGAATAG
CTGTATTTTCTGAAAAGTCTAATGTAAAGCAAATGTTATCTCCTTAGCTTTTAATTGTGATCAATTACAAAACAAAGTTTGAGATGGTTGCTTCCAGAGA
TGACATTGTGAAATTGACTTTTTAAAAATGTCATCCAACTGCCGTGCTRGTTCCATCATGTGGAATGATCTAGAAATTTGGTAGCATAATTGCAGAATCA
AGTTGAACTGAAAAATCAGAAGCTTATAGGGTTTTATTGCAGTGATAAATTTAGCTTTTCAGTCATTTTTCTTTGGTCCACCTACTTTTTAATAGAACTT
GACTTGTGAAAATCAAAAAATTTAAGTCAAATAAGAATGTTTTGTTGTTGCAGTTTTAATACTTAGAGAAGATACAGTATTGTTATATCCTCTCACTGAA
ATCAGAGACATATCTTTTGAGTATGTTAGGCAGATGATCATGACATTAGATGAACTAGGAATACAATATTTAGGAAAAAAGTGATTTCGAACCTTAYGGT
GTCAAGTTTCTTTTTATCTGTACATGTCAAGTGTTCTCACAGGCAGACTTTTTAGAGAGATTGCTATCACTGACAACTTCCAGAGTTTGAGAGTTTTTTG
AATATACTACTTAAAAAAATCTCCATATGGTTTTCATTTGAAAAAAYATATTACAAACTGAGACATTCACTATAAATTAAATTGAAATAATCAAAATATA
ATTAAGCTATTTGTGAGTTTACATTTTGYAAAACATTTTAGAAGCAAAATCATTTAACTTTGTTTGCATTTTGAGACAAGGAGCTAACTGTGTGTATCAT
CTTGAGTAGTGTCTGTTTTTATTCCTAGGGAYTGTTTTCCCTATAATTGGAGTTGTTTTTTGCTAGGTAAGTAGGATCCAAATAACAGCATAGTTATTAA
GGCAGTAGCCTCGTTTTGTCCACTTCTCGTCATTCCTTTTTACTTAAATAACAATTAGATTTGCTCATCTTAACCCCTTTACAGAGCTACAGCTAGAGCT
TTTAAGTGTTTTTGGTGGAACTTCCTTAAGCAATTAACTAGTCCTAATAAAAAGTGTGAGAATTAGATTGGGAATGTTGGATACATATATAACTAAACAC
CGATTAAGTAAGTTATCTAAAAAATAAAGTGGCATTCAGATATGAAAACCACCATAAAAATGAGTGCCAAAAACTAATGGTAGTATTTTTGCTTGTGCAC
AAAGAAGACTAGATCAAAATCAAATGAATAATTCCTCAGTTTTCAAAAAATATTTTATGGTCTTTTGAGGGCATAATATTAGTGCATGTAAAAACTAGAA
CSCTTTATGATTTGAAAAGAGGAGAAGATGCTRAGAGAGACACTCTTGGAAGCTGGGCAGGAAATCCAGCCATGCATTGCCTCAAGGTCTGTCATTAGAT
CAAAAGCACTCAGGGGACGATGGTCTGTGTAAGAGGTCCTAATGCTATTCACGAACTCTCCTGACATTCATTAGTTTCCAAGACATTGATTCTTATTCTT
TAACTTTTTAGCACATTTATCATTTTCACTTATACATGTATGCTAATAGCAATCTTATGTGAACTTTTACCTCTTATATGACCAGAATTGATTAAAAATG
TYGGCAAGTAAGTTTGTTATTTAATATCTCTGAACTTTCTCTATTTTACATTGAATATTTGCTACATTGTAAGCATTACAGTATGACTAGATTCTTCTTT
TTTTCTAACTTCTCCCCTGTTGATRATTATTCTTATATAACTATAATGCCATGTTAATCAAACTATTGTTTATGAATTATAACAGTAAATGCCCCTGGTT
AATAGATTAATCAACCTGCCTTAGATGCTTTTGAAGTCTGTGAGGACATTGCTTAATTTCACCTACATATAATTACATATCATTTGACACTCTCTAAATC
GAGCTGTTTATTGTAGTTCTCAAAATTTAGTGTGAATAAAAATTAYTTGGGAAAACTATTAAAATGCAGACGTTTAAATACTAGATTATAGATCCTGTAA
CCTTCCAGATACTCTGATTTAGTTAAGTGTAGAGTGGGATCCTGAAATCTGTGGTTTTAAGGAACACCTCAGTTGCTTCTGTTGAGAATCACAGGACTAT
AAACTTGTGTCTACTGAAACTGTACAGGAAGTTCTGACTTTTGCAATCCAATTCAACAAACAGTTTAAAAGTGCTTGGCTCAGACAAGAAGGGTCAGTAT
CATGGGRAAAAACTATACACACGCACTATAGTTTATGAACCTATGACATTCATAAATGTTTCACTTTGATTTCATTTCTTTGAAGTTCAAAAAAACTTCA
TTGATGATACCTCAAAGAAGTTTTCTTAACCACCCTGGATATCAATTTCCTCATCTGTAAAATAGGAATAGGAATATCAGCTTCACTACCTATCTCATAT
GGCTGTTTTAAAGGCTAAATCAAAATAAATTGCTATACAAATGTTAAATAGAAAGAATATATGCACTCTCTAGACTGTCACAGACCAAAGCTTGTAATAT
ATACCAGTTTCTTAAACTTTCAAAACTTTAGTGACCCTGTCTGTACCATAAGAATAATATAACTGATTTCTTAACGTTGCAAAGGTTAAATTAATGTAAT
AATGGACAGAGGTTCTTGTTAAACACTGTGCCCAGCTGAACATGAATAATACATATTCTTGCCCATTAGGGCCAGGTCATTGAAGGTTATAATCTAAATT
TCAGAAAGCACTATGTAAAACAATGCAAACAAATTTGCATTTGATTACAAAAACTCACAAGTCTTACAAAATATGAAAATTTAATGGAAGTTAATTAAAA
CAGTATTAGGGAGTTAAAKTGTAAGCAAAGCCACTGCCAAATGAGGCATCCTAGGAGCCAGATAAGGCAACAGTAGAAGGAGAGAGATCTGATAGGGACT
TCAGATGCTTCGGGTGCTTCATTGAAAAAGGCTTAAGAGAGATATTTAAAAAAATTGGTGGAGTCTTTGAATGTCTTCGTAAAAATGATGCTTTTGAGGG
TCGGTTGTGTAGTGTGTCCTATAACCCCACGTACAGAAACTTGATTTGTGCTTTAAATTTGACTTGTACTCTAGCTGCCATTATAACCTATATTTTGTCT
TGAAAAACAAAATTATTTTCAAAAATTTTAGTTTCATTTTTCATGGTAAAATATCAGTCATTCCCAACCCTTTTCTCATTATATACCAGTGGTGCCATTA
TTCTCAAATGACAGGGACTTTCTGCTTATTAACTGTATAATACAGCTAAGCCCTGGCTCAGCTGTGGCCCTCARTGGAAGGTAGTGAGTGTTTATTTTAT
CACATAAAAATATTCCTCAGGATGCTGTCTCTTTTTACCAGCTTCCACAGGGCTTTACTCTAGGCCTTAACCCTCAGACCACTCTTCTTCCAGATTTTTC
CACTTATTGAATGATCTTTCAGTCTAGTCTGAGGTAGTTATTTTGGTTTGGCCCTAGGAGCAGCAGGAGTCCTGTGGAGTCTCAGTCTACTCCTRTTGGT
TTCAGTTTATAAATTCTGCCTGGAGTGGTCATCTCTTTCCTAACTTGGTTACAGACAGTCCATGGATTTCCACTTTTGTGAYAGAAGATGGAAAAAGGTG
AGGAGGAGGGGACAGCAGATCACATAGGCCATGAGGGGTCACTGCAAGACTCGTTCTGAGGCAGATGGGATACCATCAAAGGGTTTTGAGCAAAGAAAGG
ATGTTACCAGCCTTATGTTGAATAGGGTGTCTCATATTCTCTGTGTTGAGTGAGAGTAGGTGTTACGATGTAAGAAGGAAACCAATTAAGATTGTTGCAA
TAATCCAGAGATGGTTGGGAGTTGGACCAAAATGATAATGTCAGGGGCAGATTTTAAATATATATTGAAATCAGTACTGCCAAGTTGGGTATTGATGGGC
TGGTATTTCCTTTGAGGACAGACAGAGAGTTCCTTTAATGTTTTCTCTTATTTTAGAGACCAAATAATAAAGGAATATTTATCTTTATTTCTTGCTTTAA
AAATATCTGATTGGGTTGACATTTTTTTTTTTTTTTCTCTAATTTTATCTTCTGCCTACACCTTCCGGAAGATATACAAACTGGAGACCTGACATTCGGG
AAAGTCATGAAATCTGCTTACATGGAAATAAATTCTAATCAAGCATCTCAAACTCTTCAAAAGTTTTTTAGTTTGTTAGGATACTATAACGTTTTGTGTA
ATAAAAGTTGGTTTTGAAATTTTATTTTGATATAAATGTCTTTATATTTTAAAATCTGTTTTAACAAGATGAAATTTTAATMAATTTGTGTCATTCACAT
GCTCTTCCTTTTAAAGAGATGTATTTGCAGCTGATACTCTACCTATCTTTTTTAAAAATTTTAATTTAATTTAATTTTAAAATTCCAGAATACATGTGCA
GGATGTGCAGGTTTGCTATGTAGGTAAACATATACTATGGTGCTTTGCTGCATCTATCAACCTGTCACCTAAGTATTAAACCCAGCAAGCATTAACTATT
TATCCTGCTTTTTTTCACCCTGTCGCCCCACCCGACAGACTCCAGCATGTTGTTCCCCTCCCCATGTCCATGTGTTATCATTGTTCAGCTCCCACTTATA
AGTGAAAACATGTGGTGTTTGSTTTTCTGTTTCTGCATTAGTTTGCTAAGAATAATGGCTTCCAGCTCCATCCGTGTCCCTGCAAAGGAGACGACCTCAT
TCCTCTTTATGGCTGCATAGTATTCCATGGTGTATATGTACCACATTTTCTTTATCTAGTCTATCGTTGATGGGCATTTGAGTTGATTCCATGTCTTTGC
TATTGTGAATAGTACTGCTGTGAACATAAACATGCAYGTATTTTTATAATAGAATGACTCACATTCCTTTGGGTGTATTCCCAGTAATGGGATTGCTGAG
TAAAATGGTATTACTGGTTCTAGGTCTTTGAGGAATCACCACACTGTCTTCCACAATGGTTGAGCCAATTTACATTCCCACCACCAGTGTAAACGCGTTG
TTATTTCTCCACAGCCTCACCAGCACCTGTTGTTTCTTGACTTTTTAGTAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGG
CGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTCACTCATAGGTGGGAATTGAACAATAAGAACACTTGGACAC
AGGAAGGGGAACATCACACATCGGGGCCTGTTGTGGGGTGGGGGGAGTGGGGAGGTATAGCATTAGGAGATATACCTAATGTAAATGACGAGTTAATGGG
TGCAGCACACCAACATGGCACATGTATACATATGGAACAAAGCTGCACGTTGTGTACAAGTACCCTAGAACTTAAAGTATAATACAAAGTATTATATTAA
TTATTAATTATATTAATTATTAATATATAAWATATAAAATATATATATAAATATATATAAAATATATATATAAATATATATAAAATATATATAAATATAT
ATAAATATATATAAAATATATATAAATATATAAAWATATATAWATATATATATAAATATATATAAATATATATAAATATATATAAATATATATATAAATA
TATATAAATATATAAAAATATATATAAATATATAAAAATATATATAAATATATAAAAAATAAAAATATAAATATAAATATATTAATTATATTAATATATT
ATATTATATTATAGTATAKTATAGTATAATAAAAAAATACTAAAAAAAAATTGCCATTCTGACTGGCATGTGATGGTATCTCAATGTGGTTTTGGTTTGC
ATTTCTCTAATGATCGGTGATGTTGAGCTTTTTTTCATGTTTGTTGGCCACATAAATGTCTTCTTTTGAGAAATGTCTGTTTATGGCCTTTGTCCACTTT
TTAATGGGGTTGGGGTTGTTTGTTTTTTTCTTTTTTCTTCTTTCTTTTTTTCTGGTAGAGTTGGGGTTTCACCATGTTGGCCAGACTGGTCTCCGTCTCC
TGACSTCAAGTGATCCACCTGCCTTGGCCTCCCAMAATGTGGGATTATAAGTGAGAGCCACTGCGCCTGGCCTTTTTCTTGTAAATTTAAATTCCTTGTA
GATTCTGGATATTAGACCTTTGTCAGATGAATAGATTGCAAAAATTTTCTCCCATTCTATAGGTTGTTTGTTCACTCTGATGATTGTTTTGCTATGGAGA
AGCTCTTTAATTAGATCCATTTCTCAATTTTTGCTTTTGTTGCAATTGCTTTTGATGTTTTTGTCATGAAATCTTTGCCCATGCCTATGTCCTAAATGAT
ATTGTCCAGATTGTCTTCTAGGGTTTTTATAGTTTTTGGCTTTGCATTTAAGTCTTTAATCCATCTTGAGTTAATTTTTGTATAAGTTATAAGAAAGGGG
TCCAGTTTCAATTTTCTGGGTATGGCTAGCCAGTTCTTCCAGGACCATGTGTTAAATAGGGAATCCTTTGCCCATTGCTTGTTTTTGTCAGGTTTGTTGA
AGATCAGATGGTTGTAGATGTGCAGTCATATTTCTGAGTTCTGTATTGGTTCCATTGGTCTATGTGTCTGTTTTTGTACCAGTACCATGCTGATTTGGTT
ACTGTGGCCTTGTAGTATAGTTTGAAATCAGGTAGCACAATGCCTGCTGCTTTGTTCTTTTTGCTTAGGATTGTCTTGGCTGTGTGGGCTCTTTTTTTTG
GTTTCATATGAATTTTAAAGTAGCTTTTTCTAATTTTGTGAAGAATGTCAATGGTAGTTTAATGGGAATAGCTTTGAATCTATAAATTACTTTGGGCAGT
ATGGCCAGTTTCACAATATTGATTCTCCCTATCTATGAGCATAGAATGTTTTTCCATTTGTTTGTGTCCTCTCTCATTCCTTGGATGCTCTAAATATCTT
AAGCTCTAGTATAGCAAAAACATGAGACTTTCAAAGAAAATTCAAGGCTTTCTCTATTAGTCTTTGAATAGTCTGACAAATCCCAATTCCATCAAAGACA
TATTGCCAATACATCCCAGGTCTTTTTATAGAGGAAATACTTCTATTTTGTATCCATATTAACTCAGACTATCTGTTGACATACAGAGCACTTCAGTGAT
AGGTGCTATATAAATATTTAAATTAGGATAGCTGATTGCTCTGTAAGTTAGGAGTTTGCTAATTCTACATTGTGGTTAATTTCTGATTATGAAACATTKT
TTACATACTGCTTGGGAACAACAAAAGATAAGATATTTTAAAATGTGTGAAATGAAGAGTTTTTAAATCACATGGGAAAATACTTTTGATGAGTGGAAAG
TGAAATCATGAAACACAATTGAGGATAGGCCAAATTCACAGCAGAAAGGAAACTTGTCAAGATGTTCATTCTTGTTTATGTGGGAGAATAATGGGTTATT
TTTACGTACTTTTATATCTTTTTTCTGTATTTTGTAAGTTTTCAACCCTCCACACGTATTTTACAATCAGCAAAACAAAGCTTTATAAAGAAATGTATTC
CTTTGACATTGTTCCTTTGGATATGTTCACAGAATATTTATTAGGGCCATTGCCTTAGTGGTCGTTTGGGTTGGAGACATGGAAATTGCACCTCCAGGTG
CTTTTAGGAATGGTAATGTGTGATATTCAGTACTATATAAAACACCCTTGGAAGTAAAATCCTTTTGCATTCCTAATTTTTGTCCCAGATGGCTGGACAG
GCTTAAAATTTCTTATAAAATTGGAGATCCTAGTGGTACATGATCCTCCAAGGTAGATCCCTGAAATTTTAGATCGGCCTACAGACAATTTTTGTAACTT
TACCTGAAGGTAGCGCTTTATGAAAATATATACATCCAYGTGTATGCACATATATACCGAAACATGTTTCAGTTTTTACCAAGGCTTTTTGGTGTCTTTT
TGTTTTAGACGTGGCAACAAAACTCTACCACGTCAACTGATACATTGAGAAGAACATGAAAACAAATGTTGTTCTACTAAGGAGAGAAAATTCCTTATAA
AACATGTAGGAGGAGAGTATTGAGACTACCTCACTGATTACCAGGCTAATAAGGTTACAAATAAAGATCAGGTTCATAATGATTTTTGTTTAAAGTAATG
AGCATGTTTTCTAAAAATGAGTAATTTCTATGTTTTGTTGTTTTCGTGTATCTGAGTTACATACACTGTATATAATATTGATTAACTTCAGTTTCATTTC
CCAGGATTTTGTTGAGTATTCCCTGCATTTCCTGCGTAAGACTAAGGAACTTTATACATTTCCATTTGTTGTTGCTTGTTTGAATAAATGAATAGAGAAA
GAAAACAATGTGTACATAATATTTTTTAAAATGGTGCCACATCTAGGATTATTAAAATGCTTTTTCATTTGAAGAGCTGTACAATTTTGCAGAAATAAAT
TTGAGAATATTAAAACAGTTTCTATAACTACTGAGAAAAATAGAGAGTGTGCTCTCACTTAACCAAGAAAAAAATCTTTCTAGAAGAAAATATGATAGAA
TCAGAGAATGTAAACAGAAAAATCACTTTTACKCAATCATTCCACCCAGTTTTTACGGTTCTGTCGAAGGAGAGTTAGCAGAATAGTACTAGCTGATTAT
GCTTGCGATGGTTAAGGTGACAGAGACTGGTAGCCATTTCCTTTCTCTCTCTCTCTTTCTGTGTGTGTGAGGAGGAAAGGGGGCAATCAGTACTGAAGTT
AGCATTTGGGTAGAATCCAGATCTCAGCCTTGCAGGTCAGAGATGCAATTTTTCCATAAAACTAGAGGTTATCCACTGAGGAGGCACACTAATAATACAA
CTATATCTCATCAATCAGAATGTCAGGTTATTAATGGACACAGGAATTTAACTGTAAGGAAGATCAGAGTGCCAGTACTTACTAGTCAGTGCTTCTTGTT
TTTAGTGGGAAAGTCACCTTTAGCATGGTTGGCTCCTAGACTGTAGCTGAGGATCTCTGGCTTGTGGGAATTCTCCTTGGAAAACTTACACTGTTTGAGT
TTTTTATTCTAGAACGTTTGAAGAGTGCCCACAACATCCCAGAAAATGTGGGGATTGCTGGGGGAAGATTCAGAAATGAACCATCCTTGCACCCTCCCTG
AGTAAAGATACTACAGTAACAAATGATTATACTGCCAAGGGATAAATACTTTGAAAAACAGAAAGTCATGAGAACTTTGCCCTCCAGAAAGGTCATAGCT
AAATTTAATGCTCAAATACTGTCACCCTCTTAACATGGATTTCTGGTAAAGTTCTGTCTTCCTGTCTTTTCTGACTTTTCCTTTTGATTTATGTTTTACA
TTCTCACGTGTTTATGTTAGTAGTAGGCTGACTATAATCAATTTCAGTACAATATAAAGAATGTATCTAAAATAGAAAAAAAAAACCCAGTGTATTCGTA
AAAGAATATTTCTATATATTTCCCCTATGGGCATAAGGCCCAGAGGATATGAGGTAGGGAAGGATTAAGATGTGTTGAAGAGCTGGACATCAGGTGTGGA
GTGCATACTGGGTTGTGGAAAAGACAGGTGGAAAAGACATGTGAAAAAGACACATAGCCCTGCTTTTGTGMTGAGGAGTAGAGGTGGGATGCTGGGAAAT
TTTAAGAGGTAAGATAAGGGGGATGTGGGGCCGGTGTGGAGAGGGGAGCAGGATGAAGACTTGAGTGTTTTAAGATTAGGTTGAGGAATTTGATATTTTA
TGTGTACCAAACATTATATTTTTTAACCAAAGAGTGATGTGAACAGATTAAACATRATTATTCTAGCAGTGGATTAGGTGGGGACCCAAATGGACACAAG
GAGGCRTTTAAGAGGGTATTGTGAAAGTCCTGGGTAGAGACATTGAAGATTTATTAAGATAGTAGTGGTGGGCAGGAAAGGTGATTTAAGAAAAAAAAAA
AAAAAACTGCAGTTGGGAGGATTAGCTTGTGATTGATAGTGGAAGGTGTTAACAAAGGGCATGAACGCCACTTAAAACTGTGAACCTGAGAAACTAGAAA
GATAGTGGCGCTGGTCACTGAGAAAAAAAGCATCAGATCAGTTTTTGTTTATTTTAGTTTCGGGGTGAAGGAGGGAAGATGATGTGTTTGGTTTGGACAT
ATTCAGTGTATGTTACTTTTGCAACCTCATGTGACCCTGTCTCCTTGAAGCTGCTCAATTTTCTTAGTTCACAAAAAAATATTTTAATACCACAACCACG
TTAGTTCACCGTATTTTCCTGATTAGTATGTACATGCTTTTTAGAACTGGAGCTTCTTGTGCCCAGCCTATCACTACAAACACAGAAATGTTGTAGGCTT
TGGACATTTCAATTTGTGCAAAGACTATCACCCTATTTAAGATTAGATGTTAAGCACGGTCCTAAATCTTACAGGGCAGATGACTTTTTACTCTTGGTGC
TGAATCCTACCGATGAAAGATATTACTGAGTCAGTACAGACTTCAGCTTCTGTGTAACCCTCTAACGATCCCCAGGGCAATATACTGTTGTAACCTTTGA
TCACACTTAAAAAGTACATGGGCAAGGTTCTTATCCTTGAGCAGATGAGTGCTTTTCATATGACTAGTTAAAAACTTACTTTATCAGTAGAGACAATCTA
GGCTGTCGAGAGAAGTTAACCTTGTAAAATTATCAGGTTGAGTTCCACTTTGATGTTTTTCTTGGGTTATTCTAGATGCTTACTATAGTTTGTCTTTTGT
ACAGTTAATATATGTGTGTATAAATTAGGCTATATTCAATGATGCTAGCTAGCATCATCGTGTGTGTGTATGTATACATATATATAACATATATATTCTC
ATATATATATATATATATATAYACACACACATACATGCATTATACATATATATATATATACAATTCCGGACCGTTGACTCTGGATCAAGGGTCCGGAAGT
GCAATCCACTGTTGATTCTTTGCTCACATAGTTAAGTTTCCCACATTGTACAATCTTCAATGCTTTCACTACTCTTCTAGACTTGTGTTTATATATCATA
GTAAATTTTTGGAGGACTTTTTTTTTTCCGTTTATGTATGTGTTACTTTTCCTGAAAAACATCAGTGCTKTTGTATCACAGGATTGGAGGGAAATTAAAG
GTAGAGCTCAATTTATGAAATGCCTAACAAGTGATCATTGTTAAGCTTTTGCCTAATCACTACCATAATAGGGAACTAAGTCCCCTTCCATGCCATTTTG
TTCTYCCCTTTTCCCCTCCTCTCTGTTTAGATATGGTCTTTTGAAATTGAGGAGTCCAGAATCTGGTACAACAGATATGGTATGACTGGAACAAAGCGAA
GGGTGGCTGTCACCTCTTTTGTAGAACAATAATTTGTGAACCTTTTTTACAATATACACTTGCCTAAGCATCAACCCTCAACCTACAGAGCATCAACGTG
TGGGTGAGCAGGAAGGGGGACGTGTAATTTTGTCGTATGCCTACTTACGAACCACTAGTCTAGTTAATGAGACCCTTAACACATACTAGGACTGCACTTG
CTTTTTTTTGTCAGCATAATAATCTATAGATGTATATTTTGTTTGTATCAGCTAAAGCTTTGAAGACCTTCACATGAGTTAATACTACACTCCATTCATC
TGTCCTGTGCCTTTGGTACTTTAGACCTTCTGTTTTTGTTTGGTCCCAATGCAAATAGGAAGATAACTAAGGTTTCTGCTTTGTTAAATAACTTCTGGTG
ATTTATGTATAGCTAGAACAGTGAAAACTGGGAGGCAAAAACACTACATAAATATTAAAACAATTTGACAAATTTATAACTATCACTGTAGGTCTAAAAT
GTGTAGGTCTAAAATGTACCTGGACTAGATGTGGTAACACATGCCTTTAGTCCAAGATACTGAAGTGGCTGGGGTGGGAGGATTGTTTGAGCCCAGTAGC
TCAAGATCAGCCTGGGCAACATAGTGAGATCCTGTCTCATAAATAAATAAATAAATAAATAAATACATAAATAAATAAATAAATAAATAAAATCTAGCTG
GACATTATGGAAAACAGTATGGAGGTTCCTCAAAAAACTAAAAATAGAACTCCCATGTGATCCAGCAGTCCTACTGCTGAGTATGTACTCAAAGGAAATC
AGTATGCTCCCATGTTTATTGTAGCACTGTTCACAATAGCTAAGATACAGAATTAACTTCAGTGTCTATCAACAGATGAATAGATGCAGAACATGTGGTA
TATAAACACAATGGAATACTATTCAGCCTTAAAAAGAATGTAATACTGTCATTTGCAGCAACATGGCTAGAACTGGAGGTCATTATGTTAGGGAAAATAA
ACCAGGCACAGACAAGTACTTCAAGTTCTCACTTATATGTGGGAGCCTAAAAAGTGGATCTTGTGTAGGTAGAAAGTAGAATGGTGATTGCCAGAGGCTG
GGAAGGGAAGAGGGGAGGAAGGAATGAAGACATTTGGTTAATGGATACAAACATACAATTAGATGGAAGGAATACATTCTAGTATTTGATAGCACAGCAG
AGAAATTATAGTTAACAGTAATTTATTTTATATTTCAAAATAGCTAGAGTGGAAGAATTGTAATGTTCCTTTATTAGTCTGTTTTCACGCTGCCTATAAA
GACATACCTGAAACTGAGCAATTTACAAAAGAAAGAGGTTTAATTGGACTTACAGTTCCACATGGCTGGGGAAGCCTCACAATCATGGCAGAAGGCAAGG
GGGACCAAGTCACATCTTACATAGATGGCGGCAAGCAAAGACAGAGAGCCAAGAGAAAAAGTTTCTCCTTATAAAACCATCAGATCTCATGAGACTTATT
CACTACCACAAGAACAGAATGGGGGAAACTGCTGCCATCATTCAGTTACCTCCCACCAGTTCCCTCCCAGAACTATGGGAATTATGGGAGGTACAATTCA
AGATAAGATTTGGGTGGGGACACAGCCAAACTATATCAGTCTCCAACACAAAGAAAGATAAATGTTTAAGGTGATGTATCATCCAGTTACCTGATTTGAT
TATTACACATTGTATACATATATCCAAACGTTACATATACCCCAAACTATGTACAACTCTGATGTATCAATTAAAAWGTAAAGAAAAACAAAACAGAAAA
AAAGCTGGAAAAGGAAGGCTTGAGATTTGATGCACTAAATTCTGTGTACTTTTGGAAATAATATTAACATAAGGTGGCACCGTTAATGGTGAAATGAACT
TTTCATCCTAGGTGCACCCTTTGAGATGGCAGGCACAATGGCTCTTTGTCTTCTACAAGGGTGATTATCACATGGTAGGCTTTTTCAAACACTAACCTGC
CTTCGATTCTGATATGTTCTCTCTAGGGCACCTCCCAACCTCCTGAATCAATGCTGTAGTGAGCCACAGTTACTGATGTGTGTGTCACATCCATCAGGTA
TGTTGACGTGAGAGAAAAAGTTTACAAATCGCAGCTCTATAAACTTGAACCTAGAAGGGCATGAACCTAATTTGTGGACCACGCAAGCATTTACTTTCCT
GTACAAAGTTCCTGTAAGGAGAAATTTAAATAAATATAGTGTAGAGGAAGGGCCTTTCCAGGAGTTTCTTTAACATCAGTGAAATATTCTTGCAAGAGGC
AATATTTGACTCAGTATTTTCATTGGTCATTTAGATTTTACTTTTGACTTTAATTACTGGTATTCTAGCCTTCAATGGTWGACTGTTTCATGTTTCTCCA
GAAAGTTAGGTTTCATTTTTATTTTCTATAGTTTATGAGTCCATGCTTGTAACTTATAGGGAAATCATAAAAACAGAACAGAGTGTAGTTAGAACACTGA
ACTTCTAAAAGGATATCCCTGCCTTAGAGATGGTATATAATACTTTTTCATGAGTTGGGAYAAATAAGAAACCTCTTTGTGGCACTTTGGGCAAGAAAAG
AAGTTTTGCTGTAGTTAACATTGTGATGAAATGGACTATTAATCTGAAGAGTTGCACCTGGAATTTTTTAACTAATGTAGTTAACAATTAATTTGTATAA
TAAATAGCTATCAGAGAAGCATTATAATGATATCAGATGCTACATATTCTTCTCAAAGTACTAAATTTTACAATTATAATCTCCACAGAAGAAAATACGA
TTTTAAACTGCAAATAAAACATGCAAGAACTTGAATCTTTTATTCTGCTTCTACTTGCTGTGACTTTTCATGTTTTTAAGTAGGGTATTGCATTGATTGT
CAACTGGGCCAAATTTTGCCCCTGCCTGAAGATATTATTTAGTTTTTAGGACTTGAAGAGTGCTACTGGTTTGACATCTGCTAGGTAAAGTTCAGGAGTG
TTGGTAAACATCCTACAGTTCRGAGGACAACTCCCTATAAGAAAGAATTATCTGACTCAAAATGTCAGTAATGCTAAGGTTGAGATATATCTTAGATTAT
TGTGCATTTATTTTAATCCATACTCCATATGGAAAGAAGGATGGAATCAATAGAAATTGAATTTTTCCTAATTATGAACATAGTGATAGCAGGATCTGTT
GATGGAGGGATTCAAATACAGCGCAGTGATTAAGATGCTGGATTTGTTATCAGGGTTGAGTTCTGGTTTCCACTCTAGCCACTTGTTAGCCATGTGGTCT
TGGTAAAATGATTAGTCTCTCTGAGACAGAATGTCATTTATAAAATGTGGATAATAAATTCTACCTTACAGGTTTGCTTGGATGAATAAAATTGCTTGCA
GCCTGGAAAGTATTACATGTTCAATAAATTGTAGCTACTGTTCTATTTAGAATATAAACTGATATTGGTAGCATAGTATTTATATGGTTATACAGAGAGT
GAGATGGTAGAAATATTAACAGAAATGAATTTCTTGAATATAAATATTTCTTTACAGTTTAATGAAGAGCTGTAGTATTTACACATAGTATTATATATGT
ATACTATGTATACACATAGTATATATATACATAGTATAATATGTATACTATGTGTACACATAGTATAATATGTATACTATGTGTACACATAGTATATATA
TACATAGTATTATATATGTATACTATGTATACACATAGTATATATATAGTATTATATATGTATACTATATATACACATAGTATTATATATGTATACTACA
TATAACTAGAATAGAATCATTATATATATATATATATCTCTAGCAAAGCACAGTAACATAGGTATATAACTAGAAAATAATATTTGACAATTTGGGGAGA
CCTATAGAGATGCAACCTTCAAGACAGTAAACTAACGTTAAAAATGCCRAATTATTAACAGAGGTTATCAATGAGGTTCGTTAAAAAGAAAAAATATTTT
CCCTTTTAAAATTTTTTATTCTTTTATTATTTTATTTTAGSGACAGGATATTGCTGTGTCACTGTCACTCAGGCTGAAGTGCAGTGGCATGATCATAGCT
CACTGTAACCTTGAACACTTACGCTCAAGTGACCCTCTGGCCTTGGCATCCCAAARCACTGGGATTACAAACATGAGCCACTGCACTTGGCCTATTCTTC
CATATTGTCATATTGCTTAATTTTGTTTTCAAAAAACATACATTCCTTTTGTAATTTAGAAAACAAGTATTATAAATGAAAAAAACCCTCATAGCTCCCC
AATATAAATGGTGAAAAATATAATCGTTAAAACATTCCTCTTCTAATTTATAAGGTTACCCYTTTTTGCTGGTTTATCTCTATTAGTTGGTTTTCCTCTT
CAGTCACCTTTCTAAAAGTGGATAAGCTGTAGGACCCATTAACATTTTACTGGCATGATAAAGCTGGTCATGTTGATGCCTTTATCGCCTAAGCTGGCAT
GTAGTGCTATTGTGAAGCCAGTACAGTTTCGTCTGGGTGGTGAGTAGAGGAAAAGTGCAGAAGAATTTAGAACTTGAATGTCTAAAGCCAGAACTCTATC
CTTGACCAAGTCTTCCCTAATAATTTATTAAAAACTTCAATAGAAATATAGAAAGCATATTATTTAAACTTCCAGTTGACAAAAACTGGAAGACATACAT
ACTAGCTTAGATGATTGAGTATCAGTTTCAAAATATGCATAGAGTTGAATAACGAGTAAACATTAAATTTTAAAAATATTTAATTTAAAAATATTTAAAA
GGAGAAAAGGTAAATTTCTATAAATTTAGATTTAGGAATAATTTTATAATTTCATGATGAGAGAAGCTGGACCATTATCTAATGCCCGTTACCTAAGGGT
TAGTTTGCCACAGTTCATTGAACTGTCTCTTAGACTAGATTTTGAAAGCAAACTTTTCAGAATCCTTTGCTATGTTTGTAGCATTGTGACCAGTTCTGCT
TGCTGTATTTTAAGAGGAGTATTGATCACTATGAAGTGGTCAGAAAGCCTGGAATTAGTCAAATCCCTGCTCTGCCATGTATTAACTCTGTGGCTTTAGG
TAAATTGTAATGCTTAATCTCTCAAAGCTTAGGTTTTCTTATATAGAAAATTTTTTTTAAGCTACCCCAGAAAAATGTTTTGGGGATTGACTGAGATTAT
AAAGATGCTAATAATAATAACTTAATAAACCTTGTATGTTGCTTACTCTAAGCCAAGCTAAATTCTAAAAATGTATGTTTGTAAGTACATTTAATTCTCA
TTAGTACTCTGAGGTTGATACTGTTGTTCTCATTTTACAGCTGAAGACACAGGCACAGTGAGCCTGTCTCTATATATGTCTCTCTATATGTCTTTATATA
TGTSTCTATATATTCTAGTAAATCATAGTTAAAAATTTTTGTGCATATGAGTGCTAGACATGGTATCATGTGTTTATATACCTTTGTTAATTTTTGCCAG
AAGAAGGAAGTTGGGCTTATCTCAATAAACGTTTTGAGCCCTTTTGGTACCTATAAAGATACATATAAAGAATTATACTTATGGTATATCTCAAAACTGA
GTTTGTTTCCTATAACCCATACTAAAAACAATTTATCAAGTTAATATAGTAATATRTTGTGTAAGTATACATGTATAATATAGTAAGATGTATATGATAA
TATATGTTCAAGTTAATATAGCATAATTAGCAAAATCATAATTGGGTTCAAATAATATTATTGACTGATACTTTAAAATATTTCCCAACTATTATGCTGT
TCCATTTACTTTTAAAAAAAATAGAGATATTCTTTTCAATTTAGAGTGTAAAATAATTGCCTCCTCCGTATATATTTTAAAGATGGCCTATAAACTAGAT
TCATTAATTCAAAATTACTAAAATAGGCAACTCAGTAACAAAGAGAATCAGCTCATTTTCTTAGATGCTAACAAAACTAATTATACAAATTCTGACAAAG
TGGACATTGCAAATGAATGAAAATAAAAGGATTGTTCACGATCTTATTGATTAAATAAGGAGAGGCTTTGACTGAGTAGATGATTTATTGAATACTTAAT
TGAACATTAATTGATTATTTAAATCATTTTAAAGAATCAGTAGTATTCATCCCTCCATGAGAATGACAGGTTTTTTTTTTTTGTTTTTTTTTTCGGGAGT
ACTGGCAATCACCATCTGATTCAGTCTAACGTTTTYTGGCTGGGGCAGGAACTCTGAACTTTATTTCCAAATGAGTAATAATGATAAACAATCCTAGAGG
AAAGTGGGAAAATGCCTGATGGCTTATTGGCGGGAAAAAGAAGGGTGTGTGAGAGGAGGAATTATTCAGTTATCACTGGTCTGGAGAAGAAAGAGCATGG
CCCATTTGCAAAAATGATTCTTAGTTCACTTTTTTTTTTTTTTTTGCCTTTAGTGATATTATGGGTAATAGCGATAAATTTTTATTTTCTCAATTTATAT
ATATCAGATTTCTCACTCTGTGTCATCAATTAATTCATTCAAATCCATTTCCAAAACTTTAATCTCGTTAACCTTGCCAATACTGTTTTGAAAATCTGTC
TTGAGTTTCTGAGTTATAAACAGCCTCATATTTTCATAAATATGAAAGAAAGCCATCAAAAAAACTGCACTTATTTTTTTAGCCTTGGTTTCTCTGTATT
CTGTAAAATGATATAGCCTAATAAGAGAGCTTTACTCTAGTGGCCTTCATTATAGCCCATGTGCAGGATGATTCTGAAATATATAAATTAAATGAATGGA
AACAGRCATGYTGACAAGTTTGTTTAGCACCAACGATTGGATATGCTATTCTTAAACCAAAACTTTTGTTTACTCATTCATTCCTAGAATTTCAGTATTT
TAAGAAGTCTCAGTGCTACAGGATTTCCTGTATTTTTTTAAAATGTGGTAACATATACATAAAATTTACCATGTTAACCATTTTTAAATATACAGTTCAG
TGACATTAAGTACATTTACATTGTTGGGCAACTGAAACCACAGTCCACTTCCGGAACTTTTTCATCTTCCCAAACTGATACTCTATGCACATTTAAACAA
CAACTTCCCATTCCCTCTTCCTCCCAGCCCCTGGTAACTACCATTCCACTTTCTGTCTCCATGAATTTAACTATTCTTGATATCTTATATGAGTGGATTC
ATGATGTTTGTCCTTTTATGACTGGCTTAGTTTACTTGGCATAATGTCTTCAGAGTTCATCCATGTYGTAGCACATGTCAGAATTTCCTTCCTTTTTAAG
GCTGAATAATATTCCATTATATACGTATGCCATATTTTGTTTATCCATTTATTATTGATGGATACTTGGGTTGCTTTCACTTTTTGTTTATTGTACATAT
GTTGCTATGAATATGTGTGTATGAATAGGAAGATTTTTATATTGTTTAAAAGTGGCAATAATGTGAACTTTTTGTATAACATCACCAAGTTGACAAAGGA
GCTGCAGCAAATGTGGGTGGTTTTACTGCATTTTAAAAACTAGAACACCTTCTTAAACTGATCCTAATCAATCAGCTCCTCATGGAAAGATTAGAGCTTA
CAGGAAGAGAATGAAAGGCATACATGAAACACATTTAGCACATTAAGACTTAAATTTTCATTTAAAACTGAAATTTTATTGCTTGGCTTGTCTTTACATA
CAGGATTCAGACTATTAAAAAGCTGATAGAAAAAGCTTAAAATACTATTATTTTAGTAATCCTAGAGAAGCAAAGAAGCCTCTTAACAAATAACAAAAAT
GTGGGCATAAATAACACATTTATTTCAAGATAACTTAATGCTTTTTTATTAGGCTCTTTTTGGAACTAATGAAACTATTATCCAAGGAGGAGATAAATTA
AATTTCCACCTACAAGATCAGTATAGCAATATTCTGAATTCAAAATTCTGTTGTTAAGGATGGTGTAACCATATATGACAAGSCTTTTACAAACTCCTTT
TTGAACATTGCTTTAAGCAATCATTTSTGTATTTGTATTAATTTTCAATCTAATCATTCCAAATGAGGCAAAGTTTTGTGTACCAGTGATTGAATTAGAA
GAAAGAACAAGTTATTTTGTATAGTCTAAAAGCTTTGTAAGAATCCTCTGCTTGCAGTGTTTGCACAGTTCTCCATTAGCCCTGTCGTGTTTTCTTCTTC
TTTGAGACATCCATTAGTAGATACTTTAACACTAATCCGTTTTCTGTCCCAAATACATAGGAGTCCAGGAGCCAGGGATGCAGGTGTCATTTTACCTTCT
AGTAGTCTATTTTTGTGTTCTGGTGCATGTCCGACTGAGCTCTATTTTTAAAAGTACGGAGCTGCTTGCTACCTGAAGCCAGAGAGATACTGAAGAATGA
AAGACCTCGAGAGTCCTGCTGTCTAAAGGAGTAGCACAGCCAGACACTGATGAGGGTGGAGGTAGTAGCTGAGTCTTTTGTTATAAAAGCTCATGTTGAC
TCGTTAACATKGGTTTTTTTTTTTTTTTTTTKTTTTTTKTTTTTTTTTTTTTTTGAGATGGAGTCTCGATCTGTCGCCCAGGCTGGAGTGCAGTGGCGCT
ATCACGGCTCACTGCAAGCTCCACCTCCCTGGTTCACACCATTCTCCTGCCTCAGCCTCCCAGGTAGCTGGGACTACAGGCGCCCGCCACTGCGCCCGTG
ACCGCACCCGGCTAAGTTTTTGTATTTTTAGTGGAGACGAGGTTTCACTGTGTTAGCCAAGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCG
GCCTCCCAAATTGCTGGGATTATAGGCGTGAGCCACTGCGCCCGGTCAACATTGTTAATATTTTAATACACATTTTTGTTTATTTTGTTTGTTCTTTTCT
CTATTGCTAATTTTCGCCCAGTATGCTAAGCATTTTAGAGAGATCATGAATCCTCATTTTGCTTCCCTTTGTTTGCTCTTTTCCCTTTTGCTAATTTTCT
CCTAGTATGCTAAGCATTTTAGAGATATCACAGATTCTCTTAAGATTAGAGGTATGTATTATTATTTATTTTTAAGGCAAAAGGGATTAAGTAATTTACC
CAAAGTCTCACTGTTTATCAGATGCAGAGGCTGGGTTTGGGTCCGGGTCTGTCTTGTGCTGATGGCTTCCTGTTTCTGTTACACTAGATGGCCAAAACAT
CACTGGAACTTACAGGATATAACTTTCTTCAAAGTGGTAATCATTATACCCAGTCCTTCTTTCCGTTTTCTACTCTCACTGTCCTAGTTTATGGCCGTAT
CACTTYGTAGTTGGATGGGCTGTTGCAGTAACTTCTCAACTGGTCTCCCTACCCTCATGCCATCTGAATATTAATTTATTCATTGAACTACCACACTACA
TCTTCTTGATGTACAGCTCTAATCAGGCAGCAGTTTTGTTGAATGTTAATATTTAATCATGTAAATCCTTTGATAAAAAGTAGTTTGTAGTTGTTTTTTG
CCTTTCAAATGAAATAAATACCTCCTTGTTTGGGATTCAGGACCCTCTCTAATCTACCCTTCTTAACATTCAGTCATTTYAAACTGCTACTGCCTTCATC
ACATCAATTTTCTAGTGACTTTGAAGCGTGCCTTTTCTCTCTCAAGACAGAGATAGGTAGATCTCTTGAGGTCCTACTTCTGTCTACCACATTATTGCCC
TCTGCCCCTAATTCTCATCTCTCTATCCTGATCTCCAACCAGCTTAGGTTGAAATTTTACCCATCTTCTACCTGCTTCACGATGTGTTTTCTGATCATCC
CCGTTGGAAGCTCTTTCTCCTTCCTCTGAGTCTCCATAGCGCTGTATCTATTGCTGTCTTACGGCACTTACATTCTCCGTCTTGGATTGTGAATAGTTTT
ATAAGTGAGGGTGAGTTCCTTGAGGATGATCAATGTATAATTGAGCCCACCTCTCCTGCGCCCCACATTATTTATTGCAGTGCCATGTAGATGCTTAACA
AATGTTTTTGAGGCAATGAGATATCATCATAATTTGAATGCAGGTAGTGCTTGGAAATTTAGATAATATCTTAAGTATATGTTATCTCATTAAATCTGAT
AACAATAGTGTGGAATTTGGTGATTATCCCCAGTTGATGAATGGTACTTAGGAATTCACAGACATAGGTTCAGTATGTATCTGTGGAGMTTTGTGGATAG
TTGTGCTGCTGGGGAAGTTGTTAGGTAGAAGTCCAAGTTAAACAGTAGGGAGCTAACAAGACCTCCTGGGAAATTGGATCCTGGATTTCTTTTTTTTAAT
TCTTTTTTTGAGAGAGAGTCTCACTCTGCTGTGCAGTGGCACGACCTTGGCTCACTGCAGCCTCCGCCTCCCGGGTCAAGCAATTCTCCTGGCTCAGCCT
CCCAAGTAGGTGGGATTACAGGTGTGTGCCACCACGCCCTGCTAATTTTTGTATTTTTAGTACAGATGTGGTTTTGCTATGTTGGCCAGACTGGTCTCGA
ACTCCTGGCCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAATGCTGAGATTATAGTTGTGAGCCACCACGCCTGGCCTGGATCCTGGATTTCTGAACCA
AGGTTGTGATTTGGACTCACCCTCAGGAAATCAAATATAAAATCATTTACTAAGTCCCACACCATCAGTTTTTCATCTTACGGTGGGCCCTAGATGTTGG
AATTTTTGTTTTTAAGTGTAACAACTTTGAAAAATATTATATTGAATGTATAGAAGACAACTATGAATATAAATTTATTGGTATTATAAACACTAAAAAA
TTTTGAGCAAATAATTTACAGACTTCTTTTTGTAAAATATAAATTCAGTGTTTTCTTTATATCTGCAGTATTGTGAAAAATAAATTTTTTTCTAATGCCT
GGCTGAAAAATAGGTCTGTATCCTAGTTGTACAAGAATAACCCTTCAGAGGCACAGGATTATGTTGCTATAATCCTAAGTGAGCTGTAAGAGTTAAATGC
ATTATAATGGGTCTGCTTGGGTACCAGTAAAGATTATATTTAAAACTCAAAATAGGAAACAGAAAAGTCTTGTGTATGAATGAGAAACATTTGATGAAAG
GAAGTTACATAAGAATAGAGAAATAATATATAACTCCTACTCATTATGTAATAATGTCTCATTTTTCTTTCTCCTTAAGGAATGCCATCACATGAATTTT
TATTGTTGCTGTTACATTGGTAACCAAATTTCATTTTCTTACTGTGTGGGTGATTTTAATTGAATTTTTTCTTGCTTGCTCAAGGTCTATCTTTATCAAC
TTGAATTATTGCAAAATGCAACAGTTCTATAACATCTTCAGAGACAATTAAAATGTTTGGAGATATTTTCCTGATGCTGAATGGCTCAACTTTTCATGCT
TTATACTAGTATGTGTGCCTCTTTAAATGTTAATTCTCTCCCTTACAGTTAGCTGTCCGGTGTGGTGTGGTTAGCAGGTATCTTTGTTTCTGTTTTGAAG
AAGAATTGCGACTTTGCAGGGAGAGCACTTAACCATGCTTGTCAGGTTAATAGTCTTATTTATTCACAGTTGTAGTCAGTGGGCACTAGATGGAGGCCTG
AGGGTGACAGTATATTTTTCCTGTGTAGGACAGCTCTTAGGATTTGTGAGCACCATTCCATTTACCATCTAGCAGCCTTTTCTCCATTACAATAAAATTT
ACAATTGTATTATGAATGAAGAGCTTGTTGGAATTGCTTCTTAAAGAGAATGAAGTCATTTAACATCAGAATGTGCAAAATGACAATTCCGTGATGAAAA
AGGAGAATTTAGAAGTATGACAACCTACATTTTGTCTTTTTTATAAGGCCTCCCCAAAATTTTTATTTCAGGGCTATTTCAAATCTGAGCTTCAAATAAA
AACAAACAAAATGTTAGGACTATCAATTCTAATAAATTTTTATTTAGGTTTTTCTGGCACAGTTAGAAATTTAGTTATATATAATACATATGTAGATACA
TATATATATGTATCTTGAGAGACGTTAGATTAGACATGGTAGGCACTCAATTTCTGAAAATTTTCAAACTCTATAATTTAGTTACTCTTTAGATTTCTAC
TTCAACTTCCTAATGAATTATTTTCTTTCAAAGGCTCTTCCTGGAATTTTTCTGTTTTTGGCAGGTATGTTTGCATATCTCAAGTGASACAATTTGGCCA
GGTTTCTGAAAAAGAATACTTTAAAAGAAAAATGTAGGTTGGCTCTTAAGTGTTTTAATGTTATTTGAGATAAACTAAAATAGAGCATAATCATATGGTA
TATTAATAGGAATATGTGCTGATTTCTTAAGCCCCATTCAAATTTTACGATAGTTTTTGTTTCTTTTAATAAATTTGTTTGGTTTATAACTTTATCTCAG
GGGGGATATATTATTATTTTTTCCTCATTTCTTGAGTGAAATTTTAGCAGAAGTGACTTAATTATAATCTTGGAGATGCATGTTGCTTACAACTAATTGG
GTCCTGGACTTAATAAAATCACTTATGTAGAAAGCCATATACTGTAGGTTAAAAAAGAAAAGGGACAACTTTGGTAATTTTCAAGTTAAAAATAGAATAT
AAGTTTCATGAGGTCAGGAACCACATCTCTTAATTTTTTCTTTATTCTGAGTTCAACCTAATTATTATATGCATGACAGATACTCTTTAAACTTTTTTAT
TGATTTATTGGTTACAAAATAAATATATTGAATGGTACTGGCAATTCTAGCTTTGTTTCCCACAGATCTGGCTTTATCTAAGAATATTTCTCTAATGGAA
ATAGCAGTTCCTAAAAGTTTAATTAACTCTTTGACCTCAGACCACCTTATTTATATATGTCTAAATTATTTCCTTTCCAGGCATGATTCATATTCCTTGA
GCTATTGGCCACGTGCCAGGGACCATTGCCATTCCACACATGTGTAGGTTACAGAGTTTTTTTTTTTTTTTTTTTTTTGAGCAGGAACTAGCATGTAAAT
CCTTTCTTCAAAATATGTATTTATCTACTGGCTGATACCTGACAAAGGAGTGATAATGGTTCCCTACTGCTTGCCGACTCAAGGACAGAGTTTTCTGCTA
CCTTTATTTCTTCCCCCAAAATTTATTTTGACAGACTGCTTTATTGAGAGAGAGAATGAATATAGGATCAGTGTTTCTGTACAAACATTTGAATTTGGTG
TGAAGGAGGGATAAGCGTCAGAGGAAATGGAAAAGGGGAAATAGAAAAGAGGAAGTATGGTCCATGCTGCCCAAACCGCTGCTTCTTATTAATCCTTCTC
TGTCCCCTCAGCAGTTTTTCTCTATCTTTGCTGTGTGGATTTTGTCCATTCTATTATGGGTGTCTACCTCCAGGGATAACCCAGGCCTCTTATGGTTTCT
TTGTGCACACGCTCTCCTTACTCCAGTCGCTACCTCCTGTTTTCTTTGAGCCTGCCAGATTCCTTCCCACCTTCATCCTCTTCCAGTCCTTGGGATGACC
TAAATTCTCTTCTGTGCTTACTAGAATCCTGTTCATCTTTCATTCCCCATTTCCAGGCCCCTCTCTTTCACAAAGCTTTCTGAATCTATACAGCTTCATT
CTCATTCACCTGAGCTGCTCACACCTGGCACCTCACAGTTTAGCATTTCCTTACTCTGTTGTGTGGTCTTCATTTCCTGACCTCATCATAGACATCCCAT
TGTTTTCTTTTTTGTTTGGCTTTATTGAGATATAATTGAAAATAAAATCGTATATATTCACAGAATACAATGTGATGATTTGATATACATATACATTGTG
AAATAATGACCACAATCAAACTAACACATCGATCATAGTTACCTGTGTGTGGTGGAGTTAGGGGGTGGTGGCGACCATACTTAAAGTCTGCTCTCTTAGC
AAACTTTGAGTAAATGATACAGTATTTTTAACTATATTGTAAATTAGATCCCCAGAACATGTGAACTTACTCATCTTGTAACTGAAAGTTTCTACCTTTG
GACCAACATCTCCCTATTCCCTCCACCTTCCAGCGCTTGACAATCACCATTCTACCCTCTGTTTTTATGAGTTCAACTTTCTTAGATTCCACATGTAAGT
GAGATCATGTGGTATGGCTTATTTCACTTAGCATGATATCCTACAGGTTCACCCATGTTGTGCAAATRGTAGGATTTTCTCCTTTTTATGGCTGAATART
ATTTCATTGTGTATGCACACACATACATATACACACATCACATGTTCTTTATCCATTTATATATTGTTGAACACTTAGGTTGTTTCAATGTCTTGGCTTT
GTAAATAGTGCTGCAATAAACATGGGAGGGCAGATATCTCTGTGACATGCTGTTTTTATTTCCTTTGCATGTATACCCATAAATGAGATTGCTGGATCTT
AGGGCAGTTCTGTTTTTAAGTTTTTGAGGAATCTCAGTGTTGTTTTTCGTAATCAGTTTACTAAATTACATTCCCACTAACAGCATGTAAGGGTTCCCGT
TTTTCCACACCCTTGCCAACACTTGTTATCTTTTTGGTAGTATCCATCCTAATAGGTGTGAGGGAATATCTCATTATGATTTTTATTTGCATTCCCCGGA
TGATTACTGAAGTTGAGCACCTTTTCATGTACTTGTTGGCCATTTGTATGTCTTCTTTAAAAATAGTTCTTTGCCCATTAAATCAAGTTACTTATTTTTT
GCTGTTGTATAAGTTCCCGATATATTTTGGATATTAATCTCTTATTGGGTGTATGATGTGCAGTTATTTTCTCCTATTCTGTAGGTTGCATTTTCATTTC
ATTGATCACTTCCTTTGTTGTGGAGAAGCCTTTTAGTTTGATGGAGTCCTACTGGTTTACTTTTGCTTTTGTTGCCTATGCTTTCGGTGTCATACCCATA
AAATCATTGCCAATACGAACGTCTTTTTCTGTGTTTTATTAGAGGAGTCTTATGGCTTCAGGTCTTACATTTAAGTCTTTAGTTCATTTTGAGCTAATTT
TGTGTATGGTTAAGATAACAGTCAATATTATTTTTGTGTGTATGGATATACAGTTTTCCAAGCACCATTTATTAAAGACATATTCTTTCCCCATTGTTTA
TTCTGTGCCCTTGTTAAGGATTAGGTGACCGCATGTGCATAGGTTTATTTCTGGGCTCTCTGTTCTGTTCTATTGGTCTATGTGATAGACATCCTGTCTT
ATGCTGCTTTTCTGCCTTATTGGAGGCAAAAGTCACTGGTATACTATACAGTTTGGGATCAGCATAGATGTTGATTACAGGCTCTGTGATCTAGAGAAAG
TTACTTAGCATCTCTGTGCCTTTTCWTTCTCTATTTAATRGGGACAATATTTCCTATCTCCAAATGTTATTACTTAATCTTGAGATAATTTGCTTACAGC
ATCTGTCAAAGTGCCAAACATATAGCAGGTACACAATATAATTTTGTTTTCCTCATAAATACATGGTTAGGTTCAGCATGGTTATTCATGAAAAACTTYT
TTTAAAAAATTGARCAACTGAATAAATTCTAATTGAATGGCTGAATTATTTGAAAGGCAAAAAAGGCAGGCAATAAAGTTAGTCTGAAGTATCTTCATGT
AGGTATTCTTGGTGTAGAAGTGTAGTAACTCTAAATCTAGCAAAACAAGCTTTATTYCCATATACTGTAGCTGATTACCAAGTTCCCAGAGGGAGGTTGG
TGGTGCTTTGGGGTCCAGTTTATTAGATTGGATTAGATGGGGTAGATGCAAGAAGATATACCAGCATTCCCAATTCCTTCCAATACAAAGATTTTGTGGC
TTATTAAATTTTTAAGTGATTATGGAGTACTTAATTTTAGCTTTTTATAAACTTATAAATTTTTTTAAAAACTATTTCCAGTTGGCTTTCATATGTTTTT
CATAGTATAGATATAGCATATTACATATCTATATTGACTACATGAAGAAAAGCAACTAGTGTGTAAAAATTAATTTTTTTGTTTTTGTTGAATGTCATTG
TTTCAGACTTCTCTTGTACTGAAGTGTAGTAAAATGTATTTTCTATTTTTATTTATTTATTTATTTTGAGACTAAATGTTGCTCTGTCCCCCAGGCTGTA
GTGCAGTGACTTGATCTTGGCTCACTGCAACCTCCGTCTGCCTCCTGGGTTGAAGCAATTCTGCCTCTGCATCCTAAGTAGCTGGGACTACAGGTGCGCG
CCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCTTATTGGTCAGGCTGGTCTCGAACTCCTGACCTTGTGATCCACCCGCTTC
AGCCCCCGAAAGTGTTGGGATTACAGGCGTGAGCCACCATGCCTGGCCAATGTGTTTTCTTTCAAATAAAACTTTATTAGAAAAATCATGTATTATAACT
AATATTTTAGAAATCTATAAGAGTATGGCTGAAGTTAAAAATTTAAACAAGTGTTATTAGTCTTCCTACATAAAATATTGGTATGGAATCTGCATACCTT
AAATAAAAGCTTGTAGTTACAAAACTTTATATTCTTAGTAATATTGTATACTCTAGTTTAATTTAMATGGCTGTTTGGCTCTGTTAATGATAGAAAACCC
TTCATTATTAAGGACAGCACTTCACAGAAAATTGACTGAAGCTAACTTTAACTTGCAGATGGCGTTCATTAAAGAGTTTCTTTTCATAAGGGTCATTTTT
CATTTTTATTTCAAAGATTAAATGGATTTATACATAATTATTTCAACATGACATCTGTTCTCATTTTTTCCTTTCAGAGCTTTCTTCCCAAATATTCCAT
GTTTGTATTTTGTAAACCATACAAACAAGTTTTAAAGGAAAATATATAATCCTGAGTGATTACATAATTTATTGCCGTTCTCTATCTTATGCTTTTAATT
TTATTTAATGCATGTCTTAAGTTTTTCAACAGACTTTTCTAAATGCCATGATAATATTAAGCTCTKTGACAACATTAATTATGTGTACATATATTATTTC
GATTGCACAGTTTTTGAGTGCAATGATGGATCCATTGAGAATGAGGATTCTGGAAAGCTCTAAAAGAGTGGCTTGTGTATTTTTCCTTCTTCCTTTTTAC
CCGCTTTCCTCTCTCCCTCCCTTTCTTCTGGAAATGGGAATTTTTTTAATGAAATTTCATGCAAATTCAATGAATGAATGGTAAAACAAATCTGATCCAA
ACTATTGACAGAAGTGGAGGCAGGCACAGAACTCCAGCCTCTTCATCATCTCCTCRTTTCCTCCTGAATTCCTTTTCATGTAGTTTCTTGGACAGATGCA
TCTGGAATCTGAAAGTAATATTTAATAGAGTATTCACATTCTTAATAGTTGTTATATTTGTAAGTCAGCGACACAGGTTGAAGCCACAAGCAATATTTAG
TCTTGAATAGGTTTTACTTTTTAAAATTCTATTTGAGCTTTTTTCTTTTTTATTAATTGTGGTCATTTCTACAACTCTTTCTAGAAAACTGTATTTCTCA
GATTTGAATATATTTGTTATTATTAGCTCTCTTATTTAAAGATGAACTAAGTTTCTTAAGGACAAAAAAGAAAATAATTTTTACCTACAATTTGATACTA
TGTAGAGAGAACATTTTCTTTCAGAAATGATCAAAATTGTGAAATCTTTGATAGATGGAAGAAAGTAGTTGTCTTTGCTTGTAATGAATACTTTCAAAAT
AAAGTCGCTGAATAAAAATAGTGATCTTAYGAAATATTATAGTTGGATATCATCAGAGAGGTGATATTATAAATCTTCTACCCCAGATARTGATTTTTTA
ATAGTCTTTCTGTTRCAAATGTTTAGTCACTACTGAAATACATTATATGAAAGAGAGCTCACCACAAATCAAACCAATACAAAGGAGTATTACAAGGAAA
AAGGCTTTGAATCCAAGTGCACATTGGAGCAAGCTGCTATTCTTTTACAGATTARCTATTTGTTATTGCGCATTCAGCAAATTCCTTAGCTTTTGGTCTT
CTGTCTACTAAAGGAAAATTTAAATTCCAGCTCTGCAAGTTTGTTGAGTAATAATATAAATGGATTATCTCATAGACAAATGTTTTAAAATAAAATATTG
CTRTAGGATACTTGCTATATTGAACCAAAAACTGCCTTGTAACTTTGACTCCTTTGTCCTAGTGTTTATTTTCTATCCTACATGTCTGTTAGGATTCCCA
AGTCTTGCTGTCCCCAGGCTAAAGCTATTCATTGAATTCAACTGTCCATTGTCTGACCTCATTTTCATATTCCTTAAACATTGCTCTTCCCTGGGATGCA
CTAGTTAAATCTTATTGTGGTATTGGGCTRTCCTTTTTTGTAGCCATCCTCAGGGAAGCCACACTTGTTTGGCATGACCCTGTTGTCTTGGCTGCACTCA
ATTGTACGTCCCCAAGCTGAGCAGTGAGATTCTGATTCAGGCATTCAGTATTGGGACCAAGGGAGAGTTAAGTTAGTCTTTTCCAACATGCAAAAGCTGT
AGGGCTTGAAGCAGAGAAAGTCAATTCACAGAGAAAATGAAACATAATTTCTGTTCTTTCTGCTAGTGTGGGGAGAGGAAGAGGGATCTCAGTTACTTCA
GGACTTTCATGATTCTTACTCTACTTCTTCCTGAAGCTACACCGTGATCCTGCCCTTTGTTCTAGAAATAACCACCTCCGTCAGCTACCTAGAGTTAGTT
TCTGATACTGCAGTTACTATTTTTCATCAAAAGATGATGTTTGTTTTGTTGTTGTTGTTGTTTTGGGTGAGAACCATTAAGATGTGTCCTGTGATATCAT
TTTTACTTGTCAATTATGTCTCCATAATTTTTAAAAGAYGCTGTTCATTATAAGACCTTCCCAATTCAGAGGTATCAAAATGTGAAAAAAATACTTTAAT
ATAGCAATCTATTTTGAAAACATCTCTGTTAAAATCTAGGGCTCAGAATTGAACATGAAAACTGGCTCCCCTCTTCCCCTGAAATGGTGGCACTAAAATA
AAAGCCAACATATTTCCTGTTCTGTCCACAGAGCCCTTATCTCTTGTCTCCAGAAACCTATGAAACATTTCCATTTAGATGTCCCCATCAAACGTATTTC
ACAATTCATGCTCTTCTGCCTTGTCAGGCTGGATCTCCTTACTTTGTTTTCATAGCAGCACCATTTACCCCATCTTCTAAACTAGTGACCAAAGAGAGTA
ATTTGGGATTTTTTTCTTCTTTCAAATTTTGGCATTTATTTTTAAATTAATATTTTAAATCATGGTATAATACACATAACAAAGTTTACCATCTTGGTCA
TTTTTAAGTGCACATTTTAATGGTAATAAGTTAATTCACATTGTTGTGCAACCATCATCAATATCCATCTTCAGAACTCTTTCCATTTTACAAAACTGAA
ACACTGTACCCACTAAGAAATTACTCCCCATTTCTTCCTTTACCAAGCCTCTGGTAGCCACCATTCCACTTTCTGTCCCTAWGAATTTGACTACTTTAGG
TACCTTTTAGAAGTAAAATAGGACAGTATGTGTCTTTTTTTGTGACTAGCTTATTTTACTTGGCATAATGTATTCAAGGTTTATGTGTATTGTAGCATGT
GTCAGAGTTTTGACATTTCTTGTGTTGACATTATTCTGCTACTTACTCTTTTTTTTTTCCTATCTTTATGCTGTCGCTGACAACTAGAAGGCCTAAGGTT
TTATTACTTTGCACCTGCGCTACTGAAATAATGTCCTAACAGGTCTCTGGAGATTCCCTCCCTGCTTACTGTCATAATCTGTAATGCRTGAATARTCTTT
ATHTACATGGCTTTCTTCTGRTTGTTGACAATAGGACTATCATGAATGGACCTCCATGGGTGGTTAGTGCAATGTAGAGGTCCGAGATAACCCCATTCTT
GCTAAAAACATTACACATTTTCATCTAATGTCCCCGACGTAGTCTATCCCTTCAATGTAATTTCCGAGACCTTTACAATATAGGTAGACCCTTTAAAAAA
TTACCGTGTGCTTAAATTTATATTCCACCATTGTTAGCCAAGGRCCTTCATTTCAATTTTATAGTCATTTAATTTTCTCAGTGTTTATATCTGTGTCTTC
TTCTTTTTGCCTTTAATTCCCCTCAGCCAAAAATTTCAGCATACTTATGATCTATCCAAATATGTGTTCTGTGTATAGCTTAYCTTTTTCATTAAAACTT
CACTATTGTTTCAGCCCTGTATAGTTCACTTAGTTACACGTGTAATTTTAAACACTGTTGTTGACTGTGTTGTACTGGTTAGAAGCCAYATTAACTAGAT
TTCAGTTTCTTGAAAATTTATACATTAGCAAGCATAGTGTAAATATGTATTAAGTGGGCAATAAATATTTGYTGTGTTAGTGGCATTTTAATAGTACATG
ATGGAATAAATGATAGATGTGTTGTAAAAGCTTTTATTGCATGATTGCCAGTTTCTACCTCATTGTTGTTTCTAAATCTCCCACTTTTAATTTACCTGAA
AGTGCTTTAATGTGTGAAAATATTTAAGAAATTATTAGTGTTCCTTTTTTCTCCTGAGAATCACACGGACAACTTTTTTTGATTTAATCTATATTTTGTC
TAGCATTATCCCAACATTAGAAGTAGTTAATGTATCCATAGGCAATTGTTAGATACATATGTAAGAAAGTGAAAAACCRACAGACAGACAAAACCCACCT
AAGTCAATAATATTGGCAATAGGATTTAGAATGCTGTTATGGCACATGAGATGCTCCACATCCTACCTACATGGAATATGGGGTATGTGTAAAGAATATT
GTTTAGCCCTATTTTTTCGTTTGTTTCTTTTGAACTACTCCGTTTTCCTTAACTCTCCTTATCTTTTTCTGAATGACCTTAAACTCAAGGTAGTCRTTGA
GTGGGAGGGATGATTTTTAGCCATCTTTTTCCTCCAACTCAGGTAGATAGGATTTACCAGCTTGGYCTTAATTTCCTCCTTTCTGTTAACATTGAAAACC
ATCATACTAACTGTAAAAATCAAATACTGTAATAAGAGTGAGGGAGTGCATGTTTTAAAGTCTGTMGCTATATTAGCTCATACCACATATGTGGCAAGAA
GCAGATACTGTACAAATCAGTTCAATAATGAGGCATTGAAACACAAGTTACATACYGTGCTAGGAATAAAATGATAAACAGAGTAACACTATYCTGTCCT
TTTGGATTTTTATAGTTTAGTAGGAATGTATTAAGTAATGACAAGTACATGAATATGATTAAAGGGATGTAAAATACTGAATAGCAAAGGGATTTTACTT
TGTCTATGGGACCAGTGAAAACCTTTGAGAAAGTGTTCTTTAAACAAAGACTTGAAAGTTGAGCAGGAGGTAGCCAGGCATAAAGGAACCCAGAGAGTTT
TCCAAGTGGAGTTTTCCAAAAAGCATGTGTGAAGACTTGCAAGCTTGTRCAACCCACCATTTTTTTTGTTGTTGCTGTTCTGTTTTGTTTTGCTTTAGGA
TTTTAGCAGCCTGAAGCCATGGATCTTTGTTTCTGTCTCTAGTTTTAAGTGGAAAAGTGGGCTGAGGAAGGGGCTTCACTGGCCCARCRAGAAACAGAAA
TTTGGAACCCATGACTGTATTTCTCCTGTGGACACCCCCTGCCTAGGACAAGAGAGAGCTGTGCTGTAGAATGCTGGGGAAATGGAAAGGCAGCATTGGT
GGAACAGAGAGCATGGAGAAATCGTCAGTGCTGGGAAATTGTGGGAGCTGAGCAACAAGTGTGAGATGAGACAGGTGGGGGCCAAATGATGCAGGGCCTA
GCTCTACTTGTCAAGGATTTTGAAATGAACCTTAAAGGAAGCTATTTAAAGGCTTAGTCAAGGGCCTATTATGGTGTGATTTGTGTTTTAAAGTAGCCAT
TCACCTGCATTATGGAGAATGAAATGAAAGGAAGCCAGGAGTAAATGTGGGAAAACCAGCAGCCAGGACAGTGGAGGAGAGCATCTTTGACCAGTGTGAT
GGTACGGGAGRGTGAAAATAGATGGACTTTAGAGACGTTTAGTAATAGTTTTAAACTCATGTGCTGTAAATTCGATTTGATTTTAAGAGGTGACAGGAAG
GCAGGAGGCAACAATAGCTTTCAGGTTTATACCTTGAGTAGTTCTGTGAAAGGTGATGATAGATAACAGAATGTGATTCCTGAGATGAGAAAAACTGGCC
AAAGAACAGATTCTGGAGAGACGGCAAAGAGGAATTCTGTGATATTATACATTATTGTATGTTAATATATAGTGTAATATTTATGTATACGTATATTTGA
TTATATGCCTATAGGATACYGATTTTGGAATCATCCCTCCACAAATGGCCAATAAGGCCACGGAATTAGACAAAATATATTGGGAGCTTGTAGAAAAAGA
AGCACTCTTGAGAATACAAGTACTTAACAAGAGAGTAGARGTGAATTTAGGGCAGACAACCATAGATTTCAAATCATATAGCAGGAAAAAGTCTTGTACA
TCATCCAATCTGATATAATCAAAATGAAGATGAATGAAATGAAATTCTGTCAGACTGTATAAATTTCTCTAAGTCAYGCATAGAAAGTCTCCTAAGTCTA
YGTTTCTTGTGTAGGTTTTGAAAAATACAATTCAGCTTCCTATTGATATTTTGTCTGAATTGAATTATATATTGCGAAGGTGTCAAAAATGTTTTCCTAT
GTTTAAATTTAACACCCTTTGGTGGCAGCAAATTTTCACATCTCTCTTGAGTATTCAAATTTGTTAAAATATGAAACACAGTGCTTGGCCAAAAACAGAT
AATATTTGCTGAATGAATCAAACGGGTTTCTGAGAYRATCAATYCTTTAAAGATAGAGACTCAGTTATTTGTCTTTTTCTTCTGAGCSAAGTACAAATAC
TTACATAACAATTATATTGAATTATTGTTATTTTTTTCTTGTAGCTATTTTTTCTCATGGTGTAAACTGAGGGCAATAATTGGCATTTTTCAGAGCAAAA
GTTTGATGTTTAAAAATCTAATAAATATAAACCACTATTAGACCTAAAAGTATGTCAAACATAATACAACTCTGATTATAAAGTACTCATTACTTTTTTG
ATCATAAAGATTAAACTTTACAGGATTGCTGATAAACTTAATAGCACATTTTTTTTTTGCTTTCCAAAAAAGCTTTTATTTAAAGACTTTCTTTTTTAAC
CACAGAATGTCAAGATAGTTATGTTCTATTTATTGCTGATTTCTCCCTTTCTATTTTTTTCCTTTCTTTTTGTATCATGCCCATAGCAGCTGTTTCCCTA
ACCCTTACCCCAACCCACAGGCTTTCCCACGCTCCTTTTTTGGCTCTCATTTGGCATCGATCCTGAGTTTGACAGATAAAACATGTGTCTGAATTGTAGT
TACAGCCAAACTACAATCTATCAGCTTTTCCCTCAGGGTAATTATGCTTATTTTAYCCCAAAACAAGGTAATTGTTTTGTGATAAAGTATTCAGTTCACT
CGGAATAAGCCGTTGGCCTCCTTTTATCTACTTATTTATTTATTTATTTATTTATTTATATTTTTTATTTTTTTTGAGACGGAGTCTCACTCAGCTTCCC
AGACCGGAGTGCAGTGGCATCGATTTCAGCTTACTGCAACCACCAGCTCACTGCAACCACCGTCTCCTGGGTTCAAGCGATTCTCCCATCTCAGCCTCCC
AAGTAGCTGGGCTTATAGGCACCCGCCATCATGCCCAGCTAATTTTTGTATTTTAGTAGAGACGGGGTTTCACCATGTTGRCCAGGCTGGTCTTGAACTC
CTGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAGAGTGCTAGGATTACAGGCGTGAGCCACCATGCCCGGCTGGCCTCCTTTTATTTAATTCCTCATC
CAATGATAACATGCTGACAGATGACTCAGGTTCTTTGGAGTCAGTGTGAATGAAGCTCATGGGATATTAGAATTGGAGACAGAAACAGAGAGGCAGTACA
GGCTTCAGTGTTAGACAGAAATGGGATTCAGTCCAAACTTGGACACATACTAGGTTGTGACTCTGGATGTGATATTCAATTTCTATGWGTTTCCATTTCC
TCATGTGTAAAATGAGATAACTACAAGCCTTTTGAAACTTTGATCCTGAAGAYGTCGTTTTGGTAGATCTAAAATGAATACATGGTGGATCCCATCACTG
TTTTATTTAGAAATACAAAATCAARGTTATTAATTCTAAGATATGCATCCATAGCTCTGCAGTATCCAAAGCACAGCATTAACTTTAGTTGCATGAAAAT
TTCCCAAGTTGGTATATGGATGTATATGAAATTGGAGTGGTCATGGAAAGCATATGTGACTTTAAAAAATGAAAATTCTCACTCGAGGTTATCAACACCC
TTGGACTTAAAGATCTGATTGTGAATTGTCTAAATTATGTGAAACAGACAAACTACCGTTAGGTTGTTTTCCTATGCGGAATATTTGACAACTAAACTTA
AATTCACAAATTTAAGACATGAATGGATATAACCCACCTTTGTATGTGAATGCATGTGTGTGTATGTGTGTGTGTCACTAAATGGTCACAATTTAAAACA
AGACCAGAATTAAGCATTCAAAAAACATTTATTAAGCAGCCACTATGTGCCAGGAATAGTAGAATAAATAAAATCTTCTAAAGTTTRCAGTTACTTTAAA
GTACTCCAAATTTARGCATACTTCACACGTGCTATATAAAACATAAAACAACTTAATTCTTYATTAGTGTGTATTTCAGTTGCATCTTTAGGCTTTTTCT
GAATGCCTTCATTACTTCTTAAAGCCCTCAAGAAATTATGAAAACTCAGAAGGCAACCTATCTGATTTCTTAAATTTAAATTTCCTGGTTAATTTATTTA
GATTATTTGMAAATTCTTCTTTGCCCAGGTACCTCAYACATACATGGACTATACTACTTGGTCACTTTTAATTTAGAAGGAACTTCCTTTAGGAACAGAT
ATTTTGTATAGCTGTAAATTATTTAAATTCACATGAAATCACTCTTTATATTCAAAGTACATAAGGTGAGATGTAGTTTCTTTTTCTTATAAATTTATCC
TATTAAGGGAATAAATTGGCTATTTTATTTAAAACAGAAATAGAAATTTTATGAATGATGGTTGGGAACTTTAACCAAAATGTACATAATGTGCATAAAT
GATGGGAAACTTTGTTTCTGCAACTAGAATTCATGCTATAATGTGGACATTGTTAGTCTATAAGTTAATACGTGTAATTTAACCTTATCCCTGTACTTGA
TASATCATTAGTTAGCAGAGTTATTTATGTGACATTATGTGGCATGCCTTAATTTTTAGAACCAGTTTACTTTTTCAAAAAATACATTGCAGTACACAAA
AGTCCTGTAGAAAAAGGTCATTYGAAGTCTTATATTAGAATGATATAATTTCCTTTTTTGTTTTACTTTGAGTTTTAAAAATTGATTTATTTGGAAACAG
ATTAGCAAGTCCCCAATTATATCTTTAGATACTGGTATATTAAAGAATATTTTACAAAATCACAGTATCAACCATAGCCTCGAGAGGTAAAACTTATCCT
ATTYTTAATTTCCAGTGGTAGCACTTTRTAAATAAAAATTATGGTGTATGTGCCAAAAGCCTGGACTTTTGTCTGGCAAAGGTTGTTTAAAACTTGAAGA
GACATCAAGAAATATGTGAGTTCATCCACCCAGATCTAGCCAGAACTGCTTTTGAATGGTTCTGTGGCTCATTTAGGCAATTAAAGCCTTGTGATTGCCC
TATTAAAAGTCTGAAAGTATGCATATAACCCACCAGTGTTTTACAGAGGAATAATAGGTAAGATTTATAAAACATCTGAAATGAAAAAAATGTAGGATAA
TAAAAGCAGGTATTTGTTGAGTACTTACTGAGTGTTCGAGGCAGCGTACTTAGATAATCTCTGAGTTTTGTTATACGTATTAAATGAGTTAATATAAAGC
ACATATGTGCCTGGCACATAAATGTTATGTATTTACAGTAACAACAATAACAGTTGTCATTGATTTAATTATACATTATTATCCTAAAAATAACAGAAAA
TCAATAGATGGGAGAGCCGGGATTGGAATTSCAGGCTGTCTGTCTCTGAAGTCCATTCTCCATATCACTGAGCTATTCTAGTTTTCCTRGGWAGAGAATC
TAGGATGGCCAAAAAATGTCCCCAGAGCCTCCCTGTAAGCTGTCCTCCACAACAGACTTCTGGAATAGAAAGAAGTTGGCTTATGACCTCTTGTCACTGC
CTAGTCCTTGGGTGTGATAAAGTTATTTAAACTGTTTGAACTCCTCCTTCTGTAAGCAGGGGATATCAGTAATATCAATCCTAAATGTGTCGGGAGGATT
AAATGAGATAATGCATGCATATTGCTGCTGAACACAAAGTCTGTCACATAATAGGTACTCAATAAAGGAAGGCTGTCCTTGTTGCTTTGAGGAATGCAGA
TGACTGATTCCATTGGTTCTGAGTGCTCAGTTTGTGGCCTGACTGAATTATGTGCACCAGATYTGGTGGTAGGTTTTTGTGAATTGACCTCACCCCGGTT
GCATCTTAGCTTTTCTCCACCTTTTAGGGGATATACTTTCCTCAGCCGTTTCATTTAAATTGTATTTAATGTGGTTATATTTTTAAAAGGTGGTTTTTAA
AGGCTTTCTTTTTTAACCACAGAATGTCAAGATAGTTATGTTCTGTTTATTGCCGATTTCTCTCTTTCTGTTTTTTTCCTTTCTTTTTGTATCATGCCCG
TGGCAACTGTTTCCCTAACCCTTGATTAGCTTACTTTCTGAAATAAGAGCGTAAAATAATAAAAATAATGGTTACTATATTGTGTTAGTTTTCCCACAAC
ACTTTTTTTAATGCTTTTACATTTTACATAANNNNNNNNNNNNNNNNNNNNTTTTTAATGCTTTTACATTTTACATAACTGGGAATAGTATTATATATTG
ATTAGTGTTCTATATTTTTAAATTAACAGTATGTTATAACCCATTTTATACATTAAAAGTCTGTAGAAATTACTTCTATGCTTCTTAATATTCCGTATAT
GACTGTGTCATATTTTATGTAAGTAATTCTCTCTTGTTAGGCTTGTTGATTATCTCCTGGTTTTGTCAGTATAAATAATACTGAAGTGCATATTTTAGTA
AATTCTTGGTTGCACTTCTGATTACTGTTTTCAGATATATGTCTGTATATGGGGTTATAGATTAAAGAAACTAAGCCCTCTATGCTTTAAAATAATGGTT
TTCAACCTCATAATTAAAATTGGATGAAATTTCTTTTAAAAATCTTAGAGCAGTGATTTTTAAAGTGCCCTGTGACATCTCCTTTGGGGTTGCTATTGAG
AGGGGAGAGTTACACACTGAAGGTGGCTTTTCTTAAATGCCGTTTCTTTTTTATTTTATTTTTTTTGCTTATACCAGGTGAAACTTATTTTCTTTTGAGG
CAAGATCTTGCTCTGTCATTGAGGGTGGAGTGCAGTGGTACGATCATAGCTCCCTGCAGGCTTGAACTCCTAGGTTCAAGTGATTCACCTGCCTTAGCCT
CCCTAGTAGCTGGGACTACAGGTGTGCACCACCATGTCCCACTGTTTTTGTTTTTTGTTTTTTTCAATTTTCTTTTAGAGACAGGGTCTCTAAAAGACGC
TGTGTTTTTTAGTTCCAAGGATGCTTTTCAAAATATCGAGTTTCACAAAAAATAAAGTCAAGATATGTTGCTTCATGTGGCTAATGTTTTTGTTCCATTT
TATAATAAAATGTAAATATTAAATTCTCATATAACTCATTAGAGAACCACAAATAAATGCATTTACTTAATAAATAATTTATTTTAAATTATATGACAAC
CCTATGATTAAATTTAATATTGTATTTTTTTTTTTTTTTTTTGAGACAAAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCTGTGATCTCGGCTCA
CTGCAACATCTGCCTCCGAGGTTCAAGTGATTCTTCTGCCTCAGCCTCTTGAGTAGCTGGGATTACAGATGTGTGCCACCATGCCTGGCTAATTCTTTTA
TGTTTAGTAGATATGGGGTTTCACCATGTTGGCCAGGCTAGTCTCGAACTCCTGACCTCAAGTGATCCACCCACCTTGGTGAGGACACAGAGCCAAACCG
TATCGAATATCATTAAAAAGAAACTGTGGCATGGGATAGTTTAGGAATTTTTTAAAAATCAGGTGAAGAATATTTTGTTGACTTGTCATCATAATTTTTA
TTTACAAAGATATGGAAAAATATTTAGATCTTGGTGCAAGTATAGAAAGAACACTATTCTACCTATTTCCAAAGGGCTTGGTTATCACATGGAGCCAGGG
CTTCGGAGAAGAGAGGATGTCTGTATTGGAGAGAGACTATTTGGCAGTATTCTTGGCAACTTGGTAGGGACTCGCAGAAAACTGCAGTATGACTCTTACC
TATAAATCCGATCTCCACGCTCTAAACTCAGTCAAGTCTCGAGCTCATGATTGCTTACCTCCGAGTTTTATGTTATTTTTAACACAAGAATGGTCTGAGT
TCATGCGGAGGTTGACTGATGTAGGGTAGAGGCTACCCTGGAATAAGCTAGCATCCGAGAGGAATGAAACTCCATTGGTAATGACAAGTAGCAGGACTCT
TGGCCAAGAGTTAAGTTGGGGCAGGAAGTTTGAACTGACTGCTGAATTGGGGGACATTCAGGGCAATTGTACACGTATTGCAAGGGACAGGGAGGCTCCA
GGTGACAGCTTGGTTACATGATTTTTTTTCAAGAGCAATGTACAGGAAGCACAGGCCTTACTTTTTATTGTTGTATGGAGCAGAGTCCCAGAAGGACCGG
CTGTGGAGTGCTGAATAAAATCCCTGTGAATGCACACCGRGTTCTCTGAAAATACAAGCTTCTAGTCATTTCTGGGTTAAGGTGTAGTCCATTTCGCTTT
GCTATCAGATTACACATAAGTTATTGAGCAATAAAAGGAAGAATGTCTTGTTCTTTATTCATATGTTCTAAATCTGGTAGGCCATCGAACTGTACTTTAA
TAAGAATAGGGGAAGGACAGGTATACGAGTGTTGGACTTGTTCCATATTGTCCCATTTGGCAGAACAGGACCAAAAAGTAGTCTTTTTCTTTTTTTCTGA
TCATTAGAGGTATTTAAGAGCAGAAACAAAGTTTGGTGGGGATAAAATAGAGAACACTGAAATGGTAAAACCACAATAATATTGACAAATAGGATAGTTA
TATTAGACAAAAMCATGTTCCTTGAGTCTGGAAATTGTTAGTGTCAAGTTACACTATGTATTAAGGCACCGTAACATATTGTGGCACTGACTTTTAGGCA
CATATATTTGTATATCTTTCTAATTTTTTTCAAAAGTGGATTTTTCTGCCATTTATRTTTGCCATCGTATAAATAAAATTTTTATGTTTTGATGTTCAAC
AGCCATTTTATACTAATAGGAGCTCTAACTGTGACAATCAAATAAATTAATGTTTTTATACATGTCTTTATCGGACTTAAATCTGTGTTCACACCAGATA
ACAACTCAAGACTGTGACTATGCTATTGGCTATGAGGAGTGTTGCTTTAATTGCAGCGAAGTTAATCTGTAGAATTTAACAATTATGTTGCCATCTATCT
TAAGGGTTTATAACTCTGGTATAGAATAAGCAAATAGCATAAAACACTTGTACCTGTGTGTACTCCTCAGAGTTTTATTGGTAATAAAAAAAAAAAAAAA
AACCACCCATGCTCACTTTTGTGCTTGGGAACAGAATCTGTTTCTAACCTTTGCTATTAACAGGAAGTGGGAGAGGTGAAATGAGCCCTGGTTTTGTGGC
CGGGCCAGAGCACTCTGTGTTCCTGAGAGTGGTATTCAGGTTTCATGTCTGTCTAGCTTCTTGCTCCTTTGAATAGCTGGCCTTTGAAGTGCTAAAAACA
TAGATTGGTAATGAGCAATGTAAAGTAAAGAGTGGGAAAATATTTGGAAAATTCAAGCTCTGAGAATAGCCTGTCTGGGATGATTTGGCTCAGGCTGTGT
TGTAACTGTGTTTTTCTTTCCCAGGTAAATTGTGAAGTTTTATGAATATAATAGTATAAATTTCCTCTATAAGAATAATTGAAAAATCTCAACTTCACTT
GCGTTTTTGGTAGAACGATTGCTATATTTAGTTTAAAATTTTAGGGCGGCAGGCCGGGCGCAATGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCR
AGGYGGGCGGATCACKAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGG
CGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGGGAGAATGGCGTGAACYCGGGAAGTGGAGCTTGCAGTGAGCCAAGATCGCACCACTGCACTCC
AGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAATTTAGGGTGGCACTAACTGTCGAGTCTTTTAAAAAGATAATCTATGCCTTGAAGTGC
CATTTTTATTTTTGTAATTACAAATGGGTATCAGAAGAATGGAATCTAATATGAAGTTGAGGTCATATATTAAATCTAACACCTTTGAATAAAAGTAGAC
CTTTTGTTCCATTGCATGTTATTATTGAGGGGCCCCCATTATAATACAACAGTGGCCTGTTTTAGAAAATATTCTCTATCAGAAAAACACCATAATTTAA
AAAGACATATTTCCACCAAAGTCACATTCTAAAATGTATACAGAAGGACATGGAATAACCGCATATAGACTTAGTGTATCATGTCCCCATTCTTCCAAGA
AAATAGGCAAATTTTGTTAAACAGCCCCAAAGGTAAATATGAATATTTTTATATTTTTAGAAAGGTTTGAATTTTAAAAGACAATCTTAGTTCTAGTATG
TTTATCTCTTGCCTTGGAGGCAGTTCTTAAAACTATAAAACTTGAGTTGTGACTGTCAGAATCCAACACTTATATGTTTATTTGGAGGACATAATTTTAA
AATACTGACATCTTTATCTAATTTGTTATATTATGTTACAGTAATAGTTTAATATTGTAGTGCATGATATTAGACTTGAAATGCTAGAAATCACTGGAAT
GTATAGCCAATGAAGCCTGGGTTGATTTTTGATATTTTTGGATTATATAGTACCAAATTATAATCCCATATTCTATATTCAGATCTCTGAAAAAAGTGGC
CTTTCATTGATCAAAATATATTTATATAAAACATTTTAATGAAGAATACCTATTTATAAAATATSCAGAGGAAATATATGCAGATGTAAAATTGAGCCCA
ATAAATCCTTGTGTTTTCATAGGTATGAAAGTTACAATAAATAATGGCAATTAGATATTGTGTGTGTCAGAAAATCAATTTTTCTCCCAAATCAATCCCT
CTCTTTCTTTCTGTTTCTGTATCTCTTTCACAGACACAATGTAAACACCTATGCATATGTGCTCATATCTGTTTTAGTTGACTTCTTTCTTGAGACTTTA
AATTCTGAAATGTTTTACACTGCATGTACAGCTAAGATTAAAGTCTTCTTTTTAACAGTACACTTTTTATAATGYCTTGAACTTGTTTCTCTGTGGCAGA
GGAAAACAGCCTCATGCAYCTGGACAAACAAAGGTGTTCCTTCAAAAACAGACTTTCAGAATCATTAATTCTGGTTTAGAAATAATTATGAAGGTTAAGT
GGACTCTCATGCGTAAGATTTTAGAGCTGGTGAGTGGCTAATCTGTGCTTTACTTCCCCTTGTTTTCATCCTTCTTATACCACCGGTATTACCGTGCCTC
CTCTTAACAGTTTTGTTCCCTCTGTAGCAAGTGAGCCAGAGACAGTGCTTCAGCTTCCTATAGCCTCCTGGTGGTATGCAGGGACAGCTGGCTGAGATCA
TATGCACTTCTACCCAAACATATCCCAAGGTAAGGCTACAGGTAGTAAAGCTGTGACCAGAAGGTAGATTTAAAAAAAAATTATTTAGGTCCTGGAAATA
TAGAAAGAGCAGATAGTGCCCTATAGTAATAACCAAGTGAGCAATAACTAGGGTGTGAGTGGAGTTATTGTGTTTAGTCTAAGAATGAAGAAATAGCAGT
GTTCGGTGAAGTGGAATTTGGTGAGGCATATACAAACCAGAGGTAGAAAGTAGTGGATTTTTGCAGTTTCATGCATAACCGTAAGTGCAGTATTAAAAAA
ATACATATTGCGAAAGTAAAACTTTTAAAGGATACTTCTCAGCTTGAAATTCTTAATACATTGTAGCAATCATATTAGTTCTTGCTGTAAAATAAGGTGG
CTATAAAATAAGTTAGTCAATTTTGAGTTGTGAGTTGAAAAGGAAAAAGTAGTGATTAATGGAGACATGAGCTAGGAAAAAGCATTTGGAGAGCGGATAA
TTTACATCAGTAGGCCTCTCAACTTTTCTTTACCTCCCCACTGCCCTCTTTCAATTACTTCCCTTAGATCACAAGTTTCTGTTTTAGTAGAAAAATTTTT
CTATAGATACAAATAGATGTAAGGGAGCATAAATGAATTCCTGATTACTCTGTAAGCTAAGAATTTAAACATATGTTCAGGATTGTATTTTTATAAAAAT
TTTTATTGCAAATTATTAATATAGATTCACAGATGAATAAAAAATGATGTGGTCCTATTTATGTAAAGCAAAACAAATATTTGATAGGTGGTGTAGAATG
ATGTTTACACCTGNNNNNNNNNNNNNNNNNNNNAAAAATATGCAAGTTTATATCACTCACACTGTGGAGAAAACCAGTCAGTAACAAACTGTTAAGTCTT
AACAGTGATTATAATATTGAAAAGAACAATATCAACAGTAGAACAACCATATCAAGACAGTGGATCATGAAGCAATGACTATAGGATTCCCTCCTAAATT
TCGTTCATYGTAACACCCACACTGTGTTCTGTCTCTGTGCACAGCACAACAAACTCACTTCAAAGCCAAATGAGGACTTGGCATACTCAGGAAATTCTAG
TAATGAGATGCTCTTAGTTTTACTGTTACAGTATGTAGCACTTCATCTTAGGCAAATATGACAGTCTGTGGAATCCTGTGTCATTCATTTGAAAGAACTG
ACAAAAGAACATGTTTTTAGATCAACTTGCATTTGCAGGAACACACATGGGTTGCCAAAAATATCCATTTAGAGTGTTTAAAAGAGGCACACGCCTGGAT
TGGCCTCGGTGACCAATAATGTCTGGTGGTAATGCGTGTTTTTTGGAGTAGTCTTTAATTACTAAACAAGGTGGTGACATACATAAAGCCAGTGGGTTTT
TTTTCCACCGGMAGATGGGTGCTAAAGAAACTGAGCGATTTTATTTTTTTCATCATATAATATTTCTGATGGTCTTGCCTCCTTCAAGTCTCAACATGTG
TCTCTTTAAAGAGAATATTTCACCTTTCAAAATGAAGTCTCCTAATGACTCACTTAAATGTTTATTGTTTTCTTGCCGTAAGGAACTTTGTGACTTGTAA
ATATGAATTTATGTATGCATTTTTGTATGAATAAATACATTTATAAAATTGATATTTAAAAAGAGCTAGCACTTAAGTTAGGCCAGACGTTTTTCTAAGC
ACTTTACAGATGCTAATTTTCTAATCCTTTCAACAGCCCTGAAAAGTGACTTTCATATTTAGGATTGAATATAAACTCATTCTAAGATTGTCTATAACCT
ATTTCTGTGTTGCTTAGCATAGTTCTATTTAASAGAACTAAGACAAACATATAGAAATATGATGATGACAATGATGATATTATATTACTTTCCCAAGTGT
CTGGCACTATGCGTATTTCACCAAGCATTTGTAGAGAAGCGGCAGAATATGATGATTATGAGCCTCAATTCTGGAATGAGACTAACCTGGTTTTAAATCC
TGGCTGTGCTTCTTACAGGTTGTGTGATTTGTGGTAAGTTACTTAAATTGTCTGTGCTTCAGTTTCTTCATTTGTTAAATGTGTATGACACCTATTTCAT
AGAATTGTTATACAGATTACGTTAATTACTAAAAAATTATTTCGAGCTCTTAGAATAGGGACTGGCACATATTCAATACAAAATAAGTAATAAAATACAG
AGGTATGTATTTGAATATTCAAGACTTCTTGGAAGGAAAATACTTAATGCTGTTGAGGAAAATTTTAAGCAATTAGAATGGCAACTAGAAGAGATTTTGT
AACAAACTATAGTGGATTATCTCACATATTTATCCCTCATTCAGGCAACTACACATCTGAGTTCTCTGCTTGTTACTAGAGCTCATGGTTGCTGGCTCCG
AATGAGAACTGAATATGAAAATTTTCAGTTTGTGAAAAACATCTGGAGCTTTTAGTTGACTACAAGCTTAATATGAGCCAACTGTATGTTGCAACTGCTT
AAAAGAGAAAAAAAGAATAAAAAACCCTGAAGAATTCCTTAGGCATTATAAATAGAAATAAGAGTGTCCACATCATGGGAAGTAACATAGTTGACGTACT
TCACACTGGCCGCATCACGGCTGGAATACCATGTTCCGTCCAAGACACCATAATTTTAGGAAAGACTTGGACAAACTGGAGTGCCAGAAGTCTGGAAATA
TGAGAAATGGAGGAAGTGGGACTGTATAGTGTAGAGAAGACTAATAGGAACTAAAACACTTGTCTCCAACTATTTATAMGGTTGTCATTTAGAAAAATGG
ACACGCTTATATATTGCCCTAGAAAACAAAGAGTAGAATCAATATAATGAAAGTACCATGTATATTTTTACTCAGTATTAAGGGTGAAAACTAATGGGTA
CCAGTGCTGAGTCTTGCAGCAATCATATAAGAATTCCTGTATATGGCCGAAGCTTACATTCAGTTACATTCACTAAAATAAGATTTTTGCATTCATATCC
TCATTGGGCTTGGGCAGTAAAGGAATTAAATCCCCCAAAAGTTCATTAAAATTTTAGGGCTGTTCTATGATTGCATGGATGGTTAAAATTAGACCTGATG
GCACTATTGGTTATTCTAAGAAAGGAGCTAAAAGTCTATATAATTGGTTTACTTTTTATTCAGTCTAGTTTTKAAATCTTAAGAATGGATCAAGGAACAT
TGGATGAAGAAGGGACACAGGGTAATGTTATTTTCCCAAATTTCAGAAATTCTTCCAATTTAGGTTCAGCAGGTAATTAAGAATGATTTCATGCATGTCA
GCAAAAATAGTTTGATACAGGACTCATTGAATATTGTATTGTGTTGGGAACTGATCAGAGAAAACCATGGTGTTTGTCCGTGAACTCTCGTTGCTTTTTA
TCTAAGAGGGGTTGAAATGTTGCGTGCTTTTGAATTTTATCATGGACAATACTTGAGATTTGTACCAGTACACTAAGGGTTATTTTTAAGGATTGAGTAA
AATGGAAGTGTATTAATGGGAAATAGAATAGAAGATAGCTATAGTATGACCTTGGAAACTGACTTTACGTTTTACAGGCATGTTTTTCTTTCCATATTTC
ATTCTTGTATCTTGAAATAAGCTGTACTTATGGTTAGGTATATGCTAGATCTTAGAATTCCTTTAAATTCATCTTGTCAAAATATCAGCCATTCTGTATG
AATATTACCAAGTTTAAGACATTGGTTTATGTTCAATTTCAGCAGTTTGTATAACTGATTTGAAAAAGCAATAAATAGGCTTCAWAATTTTATATTTTTT
ATAGGAAACAGGTAATTTAATACATTTAATACATTAATACATTTATAATGTATGTATTTTTTCATGAGGTAGACTATGTAAAAAGTAAAGAAGATGATCT
AAATCCAGAATTAAAAGGCACAGTCACATTTTTTTTTCTTTTGCAGCATTGGATAGTATCAGTTTGTTATAATCTAGAATATATAATATATTCTGTTTTT
ACATTTCTTAACTAAATCCTCTTTTTAAAATATAAATAAATATCTTTAAAATAATATTTTAGGCCGGGCATGGTGGCTCATTCCTGTAATCCCAGCACTT
TGGGAGGCTGAGAYGGGCGGATCACGAGGTCAGGAGGTCAGGAGTAATCCCACATCGTTCAAGTCAGTAATGAATTTATTTGAATCAAAAGTGGATACAT
TTAAGGAATTGTTTCTATACATCCAATTAGGTAATTCTGGTTGGCTAAATTGAGAGCTGGTCATAATCCCAAAAGACACAATTCTGAATGTCATAATTCT
GAATGTTAAAATCCCAGAAGAGTAAAATCTCTAAAGTCTAAAATCCAGAAAATCACAATCCCCAAAACATCAAAATCCTGAAAATGTAATTCTGAAAAAA
ATTAAAATATTATTATTAGTAGTAGTAGTATTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGAGGTGCGATCTCCACTCACTGCAAGC
TCCACCTCCCGGGTTCAGGCTATCCTCCTGCCTCAGCCTCCCAAGCAGCTGCGACTACAGGCGCCCGCCGCCACGCCCGGCTAATTTTTTTTGTATTTTT
AGTAGAGACGGGGTTTCACCGTGTTTGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGAAT
GAGCCACCATGCCCGGCCTAAAATATTATTTTAAAGATATTTATTTATATTTTAAAAAGAGGATTTAGTTAAGAAATGTAAAAACAGAATATAGGCCACT
TTACACAACAAAATATGCAATAACAACATACATGCTTTTGCACATATAAACACTCAAGTATGCTAATGACAGTCATACTGGTATAATAGTTATGACAAGA
TGAACTGTCCTTATAAAGAAGTAGGTCAAAAAAGGACAATGTATAAATGCGTACCACTATGATTGATAGTTGTGTGCAACAGCTTTCTAACTTTGGTCAT
CTGAAATAATATAATGAGCAACCTAAGTCTTTTGACAAGATCCATCAAAAACTGTGATAGGTTACCAACATATATGTAGTCACCCAAAGAGCTGAGATCT
CAAGAAATTTTATATTTCACAAATGCAAATGTACAAAAGAACATCTCTTCATTTACTGAGAAAATTTCAATGTTTTTACATACGTACACAACACTTAACA
CAAAGTAAACATAGTTCACTTCTGTGAAGTCGAATTTGCAAAAAATGCATAAAACAGAACTCTCAAAGTCTCTATACAGTTTATACCTCCAGTAATGGAA
ACGATGTGAAGATGAAATACATAACATAGTGAATTGCTTTACGGGGTTTCTAGGTATTCCTCAATCCTGTAAAGTTGACATCTACAATTAAGCCCATACG
TTCTAGTGATAAATAGAGGTCAGAAAAATAGCATACGTGGGTTTGGCTTCTGTTTTCCTTCTTTTTTTCTTCAGTTATTCTTTTGACTGTGTTTTCTTAT
TATTAACCCTTGCCTCAAATTGTTCCCTGGGAGAGTGCTGCAGGCTACAGCCCTTTTTCAAATGGTGAAAAATTTGAGAGAATAGTGGTATGAAGAACAT
TTTGAATGCAAGGCTGTTTAGTTGTGAATATTGCATTGATCACATCTGTGTTTCTGAAGCTCTGTGACTTGCTCTCCTAAGCCTAGAGCAATCTTCACTG
AACTAACTCTGTGGGGTAAAGAAATGGTTCTAAGTAATAATAATAGGCTCACTTTAACTTAGAAGGTAGATATTGTTGAGTGACTTTAGTTAGCATCTGC
TGCATTCAAAACATGCTGGGAGGTGAGGGATTATGAAAGAGAAAGTTGAAATACATAGATTTGGACAATAGAAAAAGTATGTTTAATTTTTTCTAGTTAT
TGTTGATGTTTTATTTTTTACCTTCATCATTTCAGTTTCTTATTTTGTTTCAGATACAGAAACATCAAATCCATGTTCCATACATCTTAGACACTGATTT
TTTTTTTTATGTCATTTTGACATCCCTCCAGCACCCAAATGCCAACATCTGCTACATTTTGCCACACGGTTGTAGGCTTGAACTCTGAAATGCCCCTAAA
TGTTTTTAAAATTTCTTTGTGTATGTTTTCAAAATAACCTTCCTTTGAGTTCTCAGTTTTATGTGAACTGTAGTTAAACTCTTTTTTTTCCATGACTTGT
AGCATATGGTATTTAACTGTTTGCYAGTATCGCTTTCTGAAATGAACCTATTTGTACAAAGGCATTTTAAGAGAACAGTGCACTTAATCAGAGAACCTCC
TTCAAGGTGACTCTACTGCTTAAACATGGTTTAAAAAAATTAAAATATTTRTGGCTCAGCATTGTTGTTTCATTGTCTATCAAAGTTAATAAAAATAACT
GGCCTTTGAGAAAGAGTACACCTTTAAAATTTTTGAAGGCCAAATGATTTTTTTTTATTTTTCATCCAGAARTATCTATCCCTAAAGGAAGAGAAACTTT
CTTCAGAAAGGTATTTGTTTTAATCAAGGAAGTTTCTGCTGAGATTAATAACTTGGTATCATCCCTTAGTTCCTGRTAAACATCATACCTTAAATGAGTC
TTCTGTTTTTTAACTAGTTTTTCTTTTGTCTAAAACAAAATTGCCTCTTTTGTTTTAGAGATGAATTACTCAATTTTTAATTGTTTTGGGGGCAGGGTGC
ATTATTTTCCTATTGAAGAACAAAATGTAAAACACTGCCCTGAAAGGAATATTTGCAAAACCATGAAAGTGAGCAAAGTTGAGATGGGCTACTCTATAGA
AATTTTGCATTTTATTCTAAAATACTGTATTTTGCCATGATTTGTTCCCTGGTGTGTATAGAAGCATTGGCTGCAGCCTGAATTCCTGAGCCCTTCAGTT
CTCCACTTTTAGTGTATATAAACACAATTTCACTGAGCTTGGAAGAATCATGTTGTAGTGAAGGTAATATTATTGGCCTCTTTCTTTTGTTGCTTTGCTG
CTTTGTGGAGAGGGATAAGTTTATTGTAAAAGCTTCTTTAAATCCATGTTCTTATACAGGGCTATAGATATCTTACCCGTCAGTTCCAGGCAAGTCACCC
TTTCTGGGCTGCAGTTAGCCACAATAGTTAAATATTCTGGTTTTTTGGAAGATTTTTAAAAAATCTCTATTCTATCCACCTAGTTCTGAGAGAGTATTTC
CCTCAGTTTGTCTCATTTGTGGGAAGAAATATTATCTGCCCGTCTTTATTACTACCCCAATATCAAGTTTACATATTTATGTGTTTGCCATTCTATAATT
ACGTCTGAAACAGGTTGATTATCTATTTTCAAAATAAAAGATACAGAATGAAATGAGGCTGTAGGGAGAATGAATGAACCAAAAAGAAAAAAAAGGTTTT
GCATATTTTAATTTCTGAAAAGTTTCTCCAGTAGGTTTATCAGATGATTTTTGTTGTTGTTCTTCACAGAAATGTTGTTCGGCCATGTATGTTCATGAGG
GAAAAAAGTTCTCATCCTTTGAGAGTATGAGGATTGTATACACGATGTATATAATGTTGGAGAAAAAGGTTTTTATTAGTTTCATGACATTAGTTTCCTT
AGCTGCCTTTCTGAGAATGGTCCTTATGTTTAAGATGGGGGCATTTAAGTTATTGTCAGGATTAAATTCAATCGAAAGAATTAAGTGTTAGGAAACTGTG
CCTTGCCTGTCAAATAGTGACTAGTCAGGAAAAMACACACACACACACACACACACACACGCACACWCACGCACGCACAAATGCATGCACACATTCCTCA
CTGCTATTTTGACGTATATGTACCTATAGTATGTCTAAATTTTTCATGGTATTAGATTATACTTCAATTATTTGAAATTAATTTAAAGAACAGAAACTAA
GAGGAATCATAGAATCAAAGATAACTATGCGCCTTATCTCAATTGTGTATAAACCTTTTGAAAGAAAATAGGTTCATTTAATAGTTTAATAACACATTTT
GCAGTTGTTGTAAGGTTCGTAAGTTTTTGTTTGCTGAGTATTAAGGCAAAATTTTTAAACAAATGAAATTAAGTGGCCTGGTGACCTGGCTTCAAGTATT
AATCTGTAAGCACTTTTAAAATGCATGCTTAGCAGCATGGTTTCTTTTTTTTACAAATCTTTTGCAAAGAGCAGTGATAATGTGCCAATGACAATGAAAT
ATTTGAACAAGAAAAGTTGTTTTTATTTATRGAGAAACAAGTAAAGGCCCTAAGGTGGTTAAATGATTGCTTAAAGTCACACAGAAGTGGCATGGCTCTG
ATTTCCCAGTTTACCAGATACTTAGATACTCTTTTCAATGATGGAAAAGCAAATAATAAATAATTTACTTTCTAGATATTGTTGAATTCTTACTATGTTT
CTGGGCTTCTATGAGATGCTGGAAGATTTCTTAAAAGTGAAGAGGGTGAAATGGGGAGGTGTTAGTCAAAGGGTATACAGTTTTGGTTATGCAAGATGAG
TAAGTTYTAAAGATCTGTGTAGTATATTGCCTACAGTTAACAGTACATACTCTGTTGTAGACTTAAAAAGAGGGTAGATTTTATGTTGTGTTCTTATCAC
AAAAAAAGGTGGGAGGAAAYTTCTGGAGGTGATGGATAGGTTTATGGCACAGATTGTGGTGATGGTTTCACAAGTATATATATGCTTATCTCCAAACTCA
TCAAGTTGTATATATTTAATATGTGTAGCTTTTTGCATGTCGATCATACCTTAATAAAATAGGTCAAAAAAAGAGGAAGAGCTTCAATTATTTTTCTCTT
CTTTCCTTTTTCCATACCTTCATAAAAATTCAGAGTGCAAATTTCTTAGTTTATTTCACCTACTTTCTGAGCAATATTTTTTAAAACCTGTGTTACATTT
CAAAAGCAATATTCAATTTATTATGGCATTGACTAGAATAACTTGTTCTTGAAACTTAGGTAAATGGTTATGAAGTAATCAAAATGTATCTTTCAGTATG
CTTTTTTTTTGTGCTGGAGTAGAAAACCCAACTAAAAATGATATACATTTTAATAACCAAAGTATATTATCTCACAGATGGAAGTCTRGAAGGTCTTAAG
GGTGACTCCATCAAGGAGTTCTGGCTCCATTTTCCCAGGAATTCTCTTGATTTTGCCCTCCTCTAAATGAAACAATGTAATTGAAGCACTTCTGAACCTC
ATATTCAACTATAACAATGAATAGATGAAGAGTGAGGAAGAATTTTCCCAGCAGCCTCCAAAAATCCTCCTTTTATTAACCTGACTAATCTTTTTTTGAA
CTATTCCCTTCGAAGGGCAGTGGGATCACTGTATAACCAAACTTTGGTGGGACACAGCAGACCTGTGACACTGGCTCACATGGGAGAGGAGTAAAACACC
CCAGGAAGGGAGAAAGATTATGGACAGCTCACCCTGCCCCTTAGAAAAACTGGAGACTATGTGTTCCTGAAATGAAACAAGACAAGTGTTCATTGCACTC
TGAGAATACATTATGATGTAGAAAAAAATTTGAGATCTATAGGATATGAAAGTGGCACACAGGCTTGGAAATTACAGCAATTAGTGGTAATGTATTATCT
TGGGTACTGCTTGGGGTCTCTATATGTAAGATGACTTTAAATATATGAAAATTTTGACAAACATTGATACTACTCTCTCAAGGAAGCTGTGTATTTCCCA
TTTATTTTGTCTGCAATCTGGTTTTTAATAAATTCAAGACTCAAGTTAACTTTTAATAAATACTGTACATATTTTACTATCAGAATTTTAAGAACAGCAT
ACGTTTTTTAAAAAAATACACAAGATGTAATTTTAGTAAGGTTAGGAAGAGCATGTACTGCTGGAAGTATAGTTCTGTAACTACATAGACAAAATATATG
TCTTCTCTGTCACAATTTTGCCTTCAGATTCATTGTTTGTAGAATGTTTCTTAAGGCTTCACAGATATTGTAATTTCTTATAGATGGATTGTGGAGAGAG
ATCATGTGTAGATAGAATTCCTACRTGGTCCCAGTGTTTTAAGTATAGTAGTCTTCTGCCACTCTAATATTGAATAAGAAGTGCTAGTGGAAAAATTGGG
TGATCGATTACTTATTTCCACTCTGAGATCAGGTCTCATTTACCTTGAATTTGATTTGTTCTTCCTCAGACTCAGTGTTTCTGATGCAGGTGGTGTTAGG
CTCCCACATTGTTAAAATAATGTGCAACATTGGTATTCTTTTAAAATACCATTAACATGCTTTATCTTTGTTCATTTGTCAAATCAAGGCTTTACTATTG
AAGGTGACTTTTTTTTTTTCCTGCGTTTCAGCTGAGTTTCTCTTACAATAGTCTTGACTGCTGCCTGTTTTTGCTCATGACTACTGATTGCCTGTACCCT
AAATCCTCTCTGGACCAGGAAGGGAACATACATTTGCAATGTTGGAAACTTGGAGTTCGTTTTCATTGAAATTCTATAGGGGCTTTGAATTTGTGTGGGG
TGTTCTGTGTATACAAAGTATAGAAAAAACCTCTATTGCTATCTATCTTCATTTAAGGGGAGAGCCAGGGAGGCTGTTTAGAATTAAATGTTTTTAGAGA
GTGTTTGCTAGCTTTTAGTAACTCCTAGACCTGGTAAGGATCAGGACCAGGCAGGTGTGAGGACTATACCTGTTAACAAAAGCAGCCCTGATCCCTGTGC
TGAGAGGGAGTATAGTGTAGTGGCAGGGACGGGGAAAGCAGATACATATAAAATCATATGACATGTAAGAAGGGGAAACTACATGGTGCTGAGAAGAAAC
TATGTTTATTTCATGAAATGCTGACTGAGCTAAGATCTAGGGAGAAATCAGAAATTAAATTCCCACAATATCATGAAGAATAGACTTGAAAACAGTATGA
GCCTTGGCTTTCCCTTATTTGAGTCAATATGCTGATTGTATAGAGTGGGATTTATTCCATTGGGATCATATTTTTTCAGATACTAAAGAGTAACTTTTAG
TTTGGGAAGAGCAAAATGTCTCCAATTATCCCAAGGATTAAAAACTTTAAAGCAACTTTTCATTCATATTAATGTGAAAAAGAATCCACTTAGAAAGAAA
TGAGGGTTCCACATTGAAAGACACTTTAGCATTTATTACATTGTGTATTGTTGAAGTAAGACTTCAGGTATTCATTTGATTTTAAAATATGTATGGAGCA
CCTACTACATAGTAAGCATTTTCCTGAGTGCTGGAGCACAGCAGCCAATGAAGCAGAAATGTCCTGGGGGGCCTTGAACTTGGAGGTACTTCCCATTTCT
CACTCTGTCATAGGGAATCCCCACTGCATTCCTTGTTACTGTAGAGTCAACTGTGAGATTCTTGGTCGTGGAACATTTTCATTCCATTACTAACATCART
TATCTCTGACTAGCATTTGTATTCAGGTCGATTAAAAATATCCCTCTGCTGTTGAATGAAATCTTAGAATCTTAATTCTTCTACGTCATTCAATAGAATT
TAGGCTTGTCTTCCAGATTTAAAAAAAAATCATCTAAGGTGCAGTATGTACTGAAATAGTGAACCTGGAACAACCCCATATTCCAYTGATATTCTTTTTT
TTTCCTGGTTATACAACTGCTGGAACAATAGTGTAACAATGTCAAAGAAAATTTGTCTGGGAGGTAGGAAGATTGGTGATAGGAAAAGTACTATTATTAT
GGACAAGCTCTAGATTTGGGAGTCATAAGATTTGAGTATGGTTCCTGGATCTAATTCCTGGTAGTAAGGAGGCCATGCRTAAGTCGCTTACCTTGACCAA
TCTATTTTCTACTTTTCTAAAATGGTAATTCTATTTGCTCTGCTTAACTCACAGCTCTTGTAAGGATCACATGAGAAATGCTCAGTTGTTTTTATACTGT
CATACAGGCACAAAGCTAGGGGTGATTAAATTTTAGACCGCAAGTGTGGACTAACCGTTATTAGTACAATATAGTGTCAGAGCTGGGCAAACAATTTAAA
TAAGGGAAACTGGACTTTGTTCTCCCCATCCCACCCCTGCTTTTTTGTTTTGTTTTGTTTTGTTTTTTGTGTTTCTTGTGTTGCATTATACGGGCAAGAT
TGAGATTTTTGGTGTGGGAGGGGTTTTTCTGGTGTCCCTCAAATTCAATTACGTAGGTAAAGGTGGAATTGATCCTTGTTACTCAAAGTAAGACTTGTCA
ACAAACTCAGCATTACCTGGGAGCTGCTAGAAATGCAGGGTCTCAGGTTCCACTCCAGATGGCTGGATCAAAATCTGCATTTTAACAAAATCCCCACGTT
TATTGTATGCAAATTTTCCTAAACAGAGAAGTTGACAGATTTCTAAAACTACCCTGATCATTCCAAAAGACTCTTTAGGAAGTTACRGCTTCAATGACAG
CAGCTGCGAGATGTTTTAGCACCACCTGGGAGAACGGGGGATTGGGTGGGGGAGAGGGGCTATACTAAAAAACAAAACAAAACAAAAAAAACTATGCTGC
TTTCTGTTCCCAAGGAAACATTTTAGGGGTGAAAGGTTCATATTCCATTATCAGTCCCCTGAGCCCACCAGTGTTCAAAAATGTTTTTTTCCCAAGACTT
TTATGGCACTTAAGTCAGACTGCTCCTATTGGAATAACAGACCAAAAATGACTGACAGTTATAGTGTCTGGGATTAGGGAGAAAAATATTTAGTGAGAGG
AACTGGGAGTTTATCAGGAGACATGAATGATTTCATCTCCAGGATTCTGGTTTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTACATGTAATTGCGAATTAGCCCTCACTTCCAGTC
ATGGCAAGGTTTAGGATTAAATGATATTGAACTAGCTTTCCCCTTAGTAACATTGCTTTTCTTTGCAGGATGATAAAGCTAATTTTTAATCATACCTCCT
CTACAGTTTTAATAATTATGACTTTTCTTCTTTTTCCTCTTTTCTTTTTGCCTCCTGCCTGGAGTCCTGAGTAAAATTTAAGATTGTGTGTGTGTGTGTG
TGTGCCCTTGACGCTATCTGATTCCTTTGAGTATTGACTACACATCTGGACTGTGCTACTAAACAAAGTTGAGAGTGTTGGATGATGTGAAATAAATCAA
CTTTGAGACTAGAGATGAGTGGATGGCTCATGACAAAAATTTCAGGCTTTATTTTTCCAATTTTGCTATAAATTAGTTAAAAGTTTGTTATGGCCAGCAT
TTGGGAACCTGTGTTGCATCAGACTCAGCCTTCATTCAATTATTTAACATATATTGATCATATCCCTACTATATGCTATTAGTATTATGGGTTAGGCCAT
TCTTGCATACCTAAGGTTGTGTAAATTATAAAGAAAAGAGGCATTTACCCATACCTGAGGCTGGGTAAATTATAAAGAAAAGAGGCTTAATTGGCTCACG
GTTCTGCAGACTGGGCAAGCATGGTGCTGGCCTCTGCTCAGCTTCTGGGGAGGCCTCCAGGAGTTTTTACTCATGGCAGAAGGGAAGCAGGAGCAGGTGT
GTCACATGGCGAGAAAGGGAGCAAAGTGAACACCGGGAGGGTGCCACACACTCGTAAACAACCAGATTTGGGGAGAACAAACTTACTAATATGAGAACAG
CACCAAGCCATTCATGAGAAACCTGTCCCCCATGATCTCATCACCTCTAATCAGGCCTACCTCCAACATTGGGGATGACAATTCAACRTGAGATTTAGAG
GGGTAAGATATCCAAACTTTATCAAGGACCGTAATGGAAATAGACTTGTACTCATACAGCTTACATTTTATCCTAGTAGACATGCCTTTGATTGCATAGC
TTGAAAGGTTGAAATGAACTAAATTGAGGGTTGTTTATATTAAATAAAGCTATTTTCCCCCAATTTTAGCTAAACCTCTTTTTATGTAAAGAAAAAGGAT
TTTTTTTTTCCAGTAAGATTTACCAGTCAAAGCAGGAAATCATTTTGTTACAATTGTCTTACAAAGCAGCCCTGTGCAAGGCTGTTGCTAATGTTAAGAC
TTTTCTTGGGGGTCTCCGATAGCTGATTCTCTCTCGAGAAGTCTTCCTATTCTTGGATGTAGAGTGTTGCTAAAAAGAATTAGTTCCATTTTCTCCAGAG
TGCTCTAAGTTATAGCTATTTATCTTTTAAGGAAGCTCCTAAGTATCCACAGGTGTTCAGCCCCCTAAAATTTCAATTTATCTTCAGCACAGCCAGCTTT
TCAGTGTTTACTATAAGGCTTTAACCACATGGTAATTCCTCCCTTAAAGAAGTCTGCTGTATATAATGTTAAGGCAGGGTTGTCAGGGCTGTTATGCTGT
GTCCCAAGCCAAATACATTTCTCARCATTCCAAGGTTATGCGAATACACAGAAATAATTATTTTCAGATGTTGACATTGCACTTAGTGATTTAGTAATAT
GAGAAAATATGGTTCAAAAGTTATTCATCTAAAAAGCAATGCAAAATATAGTAGAGACAAATATGGTATGCATTCAGGCACATACTGTGAAGTAGAAATG
TTGGAGTGATTTAGCTTTCTGTCATAACATCTTTATCACACAGGATATGGACTTGCTATGATGTGAGTTAGCATGTTTCCTCTGACACAACTAGAGTCCA
GAGATGTGCCTTGCTTCTAGTCCAATAATCACTTTCAATCACTGAGCCAGACCCATGATTCGTGGATTCTCTTGTCACTTAAGATGTTGTCTTTTTTTTT
TTTTGAGATGGAGTCTTGCTTTGTCTCCCAGGCTGAAGTGCAGTGGCATGATATTGGCTCACTGCAACCTCCACTTCCCAGGTTCAAGCGATTCTCCTGC
CTCCACCTCCCAGGTTAAAGCGATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGACTATAGGCACGTACCACCACGCCTGGCTAATTTTTTTTGTGTTTT
TAGTGAAGACGGGGTTTCACCATGTTGGTCAGGGTGGTCTCAAACTCCTGATCTCAGGTGATCTGCCTGCCTCACCCTTTCAGAGTGCTGGGATTACAGG
TGTGAGTCACTGTGCCTGACCAATATGTTCCATTCTTAAGTCAGTTTTGAATGTTAAAAAATGAAATCTTTACAGTTTCAAAATATAATTTTTCTGTAAT
GATCCAGAAAATAACAATAGGACTTTTAAAAAGGGCTTTTCTTAGCTTTGCAAGAAAAGAGATAAGAGCAGAAAGGTTCACTTTTTGAAGAGAMCAAGAC
TCACTCAGTTGGAAAGTTACTCTAAATTTACTTTTTCCTAACATTGATTTATGACATTCAGTATGAATTTTGTCTGTTTATATCCACATATCATGTAGTC
AACATAGAAAAGGGAAAAACCTGAATGAAGTTTTATTATACTCATTGATTCTTTATATGCATGAAAGGGGAAATTATCATTATTTCTTAATAGTCTTTAA
ATTTCTACGGTAGCATTTGAGGAAAATGAAATGAACTCCATTTGATATATGACCTATTGCACTTAAAAATATTCAGATCACTGGTTATTGCTGACTGCTT
ATAAGGCAAAATRTTTTGATTTTACTGTATTGTTCATGCTGCGAGCAAAATGGGTGTCTGCTAAGTTTTTATTTTAAAATGCATATTTCTGTCTTTACCT
TGTAGCCTTGCAATGCGTAATTCAAAATGTTTGCAAAGTACAAGTTTATTATATTGTTTGTCTGCTTCTTATTATAACTTTAAAAAGAAAATGGGACACC
CTCCTCTCACCCCACCCTAGAGACAGATTTTCCATGACAGAATAGTTTTAAACATCAGGATATTGCATAAGTCAGTCTGGAAAAAATAGGAACAGACAGC
TAGCACTATCTAGTAGAGCTTTGCTTTTGTGACAACATTTTTTGATTAAATAACTCTACATAAATGATAATTTCCCTACATAGTTTGATACCAATATCTA
AGTTGATATCAACTTTCAAAATCCATAATTGTTTCTGTGTACATTCTTTCTGATTGTTTTTATTTGGGTACTGTATAAAAAATGATGAGAATTTAAAAGT
CATTGTATGATATAAATCCAAAGAAATCTAATTAAGCTCTGAGTCTAATGAGTGTGAGAGAAACCTGTTCAAGGGATGTTTCAAAGAGTTAACATTGTGG
TGGGGTATGAAAAAGTGATGGTGTGTAGGATATTGCCTTGCTCCAGGTTTTACAAGGAATAGTTAGGATTTAATTTTTGGCCCCCAAAAGACTTAAATTT
TAACGTAATTATAAGGAAAAAGAAATTGGTGGCATGGCTGTGTGATCCTATGGGTTGCTTGGGACTGAGTATAGTGAAAAGTTTGTGAAGTAGACGTTAA
TATTCAAAGCCCATTTCAGAAAAGTTGAAATCAGAGCAGTAAGCAAAATTATTCTCCAAGTCCCTTTTAATTTTATTTGCTCACTTAAGCCAAAAGAACT
GGGATAGGCTGTATCTTTTTCACGTTACAATGATCAAACTACAGGGGCCAAGTGCAATTCTATTCATATTTCTTTTCAAGGGCAAATCTATTTCTCAATA
AGTCACATCACTTACATAACACTTCTTGAGTACTTGTTTACTACAGCCTGGACAAAGGGTATCAAGGAACAGTAGGTTTACTTGGTGGTGGAGTCTGAGG
AAAAATAAAACTATTTGTTAACAGCCAGTTGTTTACAAGGATCCTTATCTAGTTTGTGAAATCTTTATCCCTGTGGGATGAAGAGTGTGATCTAACTCAT
TGTGGAAGCTTAGCTTTCTTCCCTTTCTGCTCCTGGAGCTAGAGGTTTTCCATCAGAGATGGATATATTCTTTTGGGATTCCTTATCAATATGCCATGCC
ATTTTAGAATGACTTCACCTATCTCACCTTTGATTATTTATGAGTAAAAGGAGGGAGAAAACTACCCGTTTTGTGAAATTGTTTCTGACACATGAATAAA
ACATTATGTATCATACTAATAAATTATAATGAAATTGTATGCCAGGATTGGATCTAATTCCTTGAATTATTCAACAGTGAAGCTCAGTAAGTTCAAGGCA
CTACCACAAAGTACTGTTGGGAGTATAATGGATACATAAGAAGTAATACTGGTTAAAGGAAAATAGAACATAATTGAGAAAAATAAATTCTGCAAATATA
TAATTAAGTACCATGAAGCAATTAGAAACTGTGTTATAGTCCAGACTTGAAAGAGATTATTTCCTGAGGCAAAGGGAGCATTCATGGAGTAGAGTAGTCA
TTGAGTAGGATCCTTCRTGGAGCAGATAGTCATTGAGTGGGTTCTGAAGGGTGAGTGGAATTTGAACAGGGAGAGACCTGAGAAAGACGTAGTCGAAGGC
AACATCATTAGTAGCAGAAGAGTGAAAAAAATATRGTATTGAAGAAGAATAGTGCAATTATGTAATGGGTCATAAAATGGATTAGATTGACAAGTTAATT
CTCACTAAGAGCCAGGTACTTTGCTAAAATAAGCATTTTACATAAATTATTTAGCCCTCACAGTAAACCTAAGAAGTAGAAATGTATGGATAAAGAATTT
AGGACATGATACAACTAATATGTGGCAGCAGATGAACTTGAAACCAGGGACTGGGGTCTTGACCACTAATCTCTGTTCCCTGATGTTGGTATTTGGTACT
ACAGGGAAGGATGGATATTTCATTCTGTAAGCTGTGGTCACTCACAGGATGTTTTTGAGCAGAGTGAGCAATGTGTTCCTCCCAATTACTCTGTCTCATC
TCACCCATCCCTCTCTTCAACCCTGCCTTTAAACTACYGAGATAAACCATTTGGAATTACAGATCTGATCATATAGTGCATGTGCTTATGATCCTCCGGG
GCCCACAGCATGCATTTCTTGTTTCTTCCCATGGTGTACAAGGCCTTGCCAATCTCTATAGCTTCATTTGTAACTACTTTCCTTTCTCTGAAATCTCCTT
GCTGTATTCTTCTGCTTTTCCTTAGGTTAGTGCCTCCTCCTGGATGACCCTTTTGCATTTCTGGATCCATCTATTCTGCTCTGCTTTTCTCATTTCTTGT
GAAATATTGAACTGCTTATTAACCTTCTTCTTCATAAAAATTTGAAAATCTGTTTCCAGATTTGTAGTTCTACACCAAAATGGAATTCAGTCATTGACAC
TACCTATTCCATATTAAAATGGCTTTTAAAATTATGTAATGTATTTTTTACCCCAAATTTCCAGTGTGCGACCCATATTCATGACCTGTTTTGTCTATTA
GTTAGGATAGGCTAAGCTATCTTGCAGTAACAACAACCACAAATATTGTAATGGCTTACAACAAAAAAGATTTCCCTCATGTTTGTGTAGATTGAAGGGA
AGACTGCTTATCATAGTTACCTCTGAAGGAAGCTCCACTTGACATGTTCTTTCACAATCACATAGGAGAGGGAGAGCACATGGTAGTCACACGCTGGTTC
TCAGCACTTCTGGCTGGTAGTGATGCATACCACTTGTTCATGCATTTCACTGACCTCGCATGGCCTCACCAAATGTCAAGGAGACAGGGAAGCACCATCC
TACCACGTGGCTGAAAGTGGGAGACGCAYGGAAATACTTAGTTCACACCACTGCAATGGGTTAAAGATCTGAAATTGTAAGACAATTCTTTTGAAATTTA
TGTTCACTAGTAGTTTGTAATAGTGTCGAGTCAAATGTAGCAGTTTGGAAGTGAAAACTAAAACAATCCTAAAGAGGTGAGATTGTATCTTTTAAAATCA
TTATCTCAGTTGAAAACTGAATATTGAAGCATATGCTTAAACTTAACACAATAAATGTAAGCATTTCATGGCCATGGCACAAAAATGTGTTAAAACTATA
TCGTTCATCCACTGACAGTGTTGAAGAACAAAGCAGTGTCACAGAAAATAGGTTGCATTATTCTTAGAAATATATCATGCTTTGAGGGATCCTTTTTTTT
AATGGAGGTCATGATCATCTTTCATAAATAATTTATCAGTTAATGGTAGTGAACAGAGTTTGAATGAGTCAAAATTCTACAATGAAATGCTCCTGTATAG
GTGTAAGTATATAAATGTATATATAAATATACATATACAAATGTAAATATATAAATGTATATATTTAATGTGTATTTGCCCCTAGTTTAATTTGTCAGCA
GTAACTGCTGGTTTTTATTTCTTTTTGCAAGAAATTATATAGAAATTGATTTGAGGGAGATTTAAAATAAATGTTTAGTGAGAGGAAATCTTACTCTGTC
CTATCTATGGATATTGATAAACTGTACCACTGTATTCCTAACTCCTAACTTGGATATAGGAGCTTGACTATCTGCATAGATACGTAAGGGGATATGGCTG
ACAGGAGGAATTACAAATGTACTTATTTAACAATTAATGCTGACATAAGCTATTTGGGTAATACCTCATTTTTTTTTAGAATGAATGATGACTGTCAGTG
TGACTGAGGATACAGACATGAAATTAGGAAATCGAAAATAAATATCTGTTTCCTTCAAAAAATTTGACTAGTCATTTTTTTGACTAGCTTTTTAAAAATT
GCATAAGACTAACTCTTTTCGTTTGCTGTGTGTACATTAAATATGTCTGTATAGGTCCCTTTGCTTTCTTTTGCCCCACAGTAATTATGTTGAAAATTAT
AAACAGAGGCATTAGCATAAATTAAGGATTAAGTATGGAAATCATAAAAAACCCTACTTCCATGAAAATGAAATTTCTTTTTGAAAAGAGAAATAGGTAT
TATTCTACTTATTTTCGTTTAGCAAATTTTCTTATGGAACATCATTACTCTGCCTCTCAGAAGATTTGCCAAAGTGTTTAAAACTCCCTCTGAATGTTTG
TACTTCAATAACCTATTGAAAGCACAACTGATTTTGTTTGTGCTAGGTTTATCTCCATTTAAAGGCAGACTCCTTCGGTGAGCTCCCCTGTGGCAATATG
AGAGAAGGAAAAGAAGGAGGGAGGACCTTGCAGGACTGGTTTATATAGCAGGAAGTTAAGAGACAAGAGAGCTCTACAATTATTGAGCACAGGAAAATTG
ATTTCCTATTCATAGTAGTGTGGCACATGTAGAGGAGTCTTTAAAGATGATACAGCATGCCATTCCTTTCCCCTCCGTTGTGTAATCAACCAGCCAATAT
TTATCAAGTACCTGTTAGTTTCACTTACAGAGTACCTGTAGCTGAGTTTTCTTTTCTTTTCTGCTTTCTTTATCCCTGCTCTCTAGCTCCTGACCTGTCC
ATCACGAATATCAGTTTTCCATGTGCCTTAGACCTGTCTTCCATCTAATAAGACTTCACACTGCTCACTTTTCCTTTCTGACACTGAATACACATAAWCA
ACAGAGAGCAATGTCTSTTAAACCCATAAACCCATTCAAAAACCAAAACCAAACCAAATAAAATGAATTGGTTGTATTAATTTGTATCATCCATTTACAT
TTTGAGAAGCATAGTCAATCAGATAAACTTACTGTTTTAATTCTAAATTCACTGACTTTCTGTCAGTCTCTATGTTCCCTRTATGTAGCAGCTGGGTTAA
GAATATAATTGTCTTGACAACAAATTATTGACATTTACGAGCTCAAAAGTTACCTCAGAAGCTTTTGAAATYAAAGAAATAAAAGTGTTAATTCTCTCTG
ATCTGAACAAGCCAGGACTCAGTGTCAGCCCTTTATAGGTCAGGCTGTGGAAGGAATGCATAGGATGAAATACCASTGCATGCCTGGTGCACTAAAACTA
AATGGGATTTCAGCAGATGAAGGGAAAGGGTGAGGAATCAAGCCTTAAATTGTCTGCCTCAGGCATGGTAAGAAGACTTGGACAGTAATAGAAACAGGAA
GTGTTTGCTGTGAAGCTTGAGTATATTCAAAGTAAATCAGTTTGTGTTCCATTAAGGAATCCTGGCTCTAGGTTGGAGCCTACGCGGGATCAGTAAATTT
TGCACTAGGAAATACCTAATGTCAAGCCTTAGAAAACACCTCATACTGTGGCCAGCTGTCATCAAATCCATCGCCACTGCTAGTAAAATAACTCCAAAGC
AAGTGAAACTGGCAGTAATTGCACAAGTAAACGGGTTGCAAAAGAGCAAAATGGGTACGTTTCAGAACATCATTTCTGTTAGGCTCCATGTTATACTGCT
TACAGTAGAAACAAATGGAAGTCGAGAGGTGAAGCCTGGCATTAAGTTTACTAGTGATCCAGGAATAACTGTTAGCAGCTGGGCCTGGGTGCTTTTTCCC
TGCTTTGTCCTGGAAAGATTTCACATCTTAAGGGAAATGAACTACACACCTTGAGAAAATTTTTTTTTCTATCATATTGTATAAATCTGTGTAAATCTCA
TTTTCCCCCTTTTTGGAGTTAAGTAGCATAATTAACTGTAAGGCTTTTCCAAATACTTTCTTAACCCTGAAAAACTTTCCCTCGGGACTTACAGTATAGC
CAAATGGATATCGATTATTGCTAAATGTAAATACATATGCACATATGAGGTGAAGCTGTATTAAAATATGGGTGGCAGTGTCTTTAACTCAGATTTGGGA
TGCTTTATACAGTCATGGGAAATATCAGGGGATCAACTTGAAATTCTTTAAAAGTTRACARAATTTTGGAACGATCAAGGAACATGGGAATATGGCCTCA
CCTTTTCTTTCTCACTGATGACATAAATGCCGCCCTCACTGTGTTGTTTATTGTTTCTTCCAGATAATCTTTGCATACTCAGTACTTGGAATATAGAGCC
ATTGCCCTGTACTCATTTTTTCCTTCCTGGAGGTATAAATAGACTGATGACGCCCTATGCTCTCTGCAGTCTGTGCATCATTCATACCGTACATCTCCTT
TCTAGGTCACAAAGCTTTTAAAAAAAATCAGCAGTGGTAGCAGCATGTGAGAAGATGAGCATATGACTGACTCCTTCCTTTCACCTCAGAGCCGTGCCTT
TGATAGCATCCAGACAGCAGTGCATGGAAACATGACATTTGGGTGGTTCAAGAATATCAGAGGGAAAAATAGCCATTCTTACCAAATAACTTAAAAATAG
CATAGTCTGAGCATTTTTCCCTTCGCCCTTTCTCCCCCAACGTGCCTGAAATGAAGCCCTTCCCATCCAAAGCAAAACTAGGAATTTGTGTTTTGTGAGA
ATTTGAAGAGCCTGCCTCTCTTACTACAACTGCTTTCTTCCTTCCAAATGTATAAGCTTAAGTCGTGAGAAAATGTCATCTGTCTCATTCTGCTTCCCTC
TCTAGTAAAATAAAAATGGTCATGCTTTCAGACGGTCATGTATTATTGAGTGCCTACTGAGTGAGGAACCATGTGTTGAGTGTTTTGAGATGGGGTGAGG
GAAAACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATGGGGTGAGGGAAAACATTATTTTTCTGCTTTCCTCGAGCTTCA
TTATGTGTTATATTTCATGGTATCTAAGCCAACAGTTGGCGAGAAGGCTGATCCTTAGAGGTAATCTCACGTTCAAGGAAGGTCGGGAACAAGGTTGGTG
AGTAGTGGGGACAGAGTTCTTGTTACCACTGGAGTTTGTGTCCTGGATGCCAGGTATACATCATCTTATTCTCTTCTTGATTTGTCAGTACTTTTTAGGG
ACCATTAGTTCTCTGCCTACTATGTGCCAGACTCTACCCTAAGCATTTAGAATTCCAGTTAACAATAGGTAAATCTTCTATTCATTTAAAATTTCATTCT
AACAGCTAGTAATGTATTTGGAGGAATAAATGCCGTGAAGAAAAGCAGACCGAGTGTTATCTATAGGTAGTTATGGGAGATGTATGTTATCTTATATTGG
TTGATCAGGGAGACACAAACTGATAAAGGGGCGATTGCTTATTTCTCTGAAAGAAGCAAGGAAATGAGAACCACCTGGATGGCTGAGGGAACTGCAGTCC
AAGGAGAAAAAACAGCAAGCGTAAATCTCACAGGTGAGGGTGCATCAGTGGAGCAAGGGCAAGAGTGTTATGATAAGAGGTCCTGAAGGCAGCAGTGAGA
AATGCCCTGGAAGCCTGTGCCAGACATATTGAGGAGTGTGGATTTTATTCTGATAAAGACATTGCAGAGGAGTGGCATCATTTCACTTGCTCTTCAGAAG
AGAAACTGGAACACAGATGGGCAAAGGAGGCAGCATGAGACAAGCCTCTCTCTTGCAAGCCATCCGGATGAGAGATAACAGTGGCTTGGAGGTGACAGTG
AAGGTGGTAGGAGGATATTCTTAAAGTAGAGCCAGTTGAATTTGCTAATTGTGATATTGTAAAATATGTATTTGGTCTTCATCCCTGTTTTCTGTCATAC
AGCTCCTAAAACCCTTGATAAGAATATCCTTTGTGTGCTAATAAGACGACTAGTGGCTGGAGGCCCCTTTGTRACTTCTGGATGGGGGCTGGTCACCAGA
ATGGTCAGGGGATTGGGACTTTCAGCCCCATCTCTCAACCTCTGCAGGGCTGAAGGTTGTGTTGATTACTAATGGCCAGTGATACAGTCAGTCATACCTG
TAGAATTGAAGCCTCTATGTAAAACCTAAAGGACAGGGTTCAGAGGACTTYTGGATAGCTGAACATGTGGAGGTTCCTAGAAGGTGGTACAACCACCYAG
GGAGGACATGGGAGCTCTGCACCCCTTCTCCTATACTTCACCCTATGCAGCTCTCCAACTGGCTGTTCATTCATATGCTTTGTAATTTTTTTATAATAAA
TGGGTAAATAAATATGAAATGTTTCTCTGAATTCTGTGAGCTGCTCTAGAAAATTAATCAAACACAAAGAGGTGGGTTATAGGATCTCTGATTTATAACT
GGTTGGTCGAAATACAGGTCACAACCTGGGATTTGGAATTGGCATCTGAAGAGGGGGGCAGTCTTGAGGGACTGAGGGGYGATGCTATGTCCAGGTGGAT
AGTGTTAGGATTGAATTGAATTAGACGATGCTCAGCTGGTGTCTGTTGAAGAATCTKKTGTCAGAAGTGTTGAGTGATGTGTGAGAGTAGGAGAAACAAT
GGTTTTTCCTACATTCTCTTACACTAATGGATTTGTATTCGGAGAGATTGGAAAGATGGATCTGTCATTTMCTGAGATGGGAAGTCACAGCGAGGAGCCC
ATTAACCATATATTAAAACTCCATTAGTAATATTAAGACTGTCCATTCTAGAAGAGGTGGTGGSTCACGCCCGTAATCCTAGCTAGCACTTTGGGAGGCC
GAGGCGGGTGGATCACCTGAGGTCAGGATTTCGAGACCAGCCTGGCCAACTTGGTGAAACCCCGTCTCTACTAAAACTACCAAAAATTAGCCGGGCGTAG
TGCTGGGCACCTGTAATTCCAGCTACTCAGGAGGCTGAGACAGGAGAATCGATTGAACCCGGGAGGCGGCGGTTGCTGTGAGCCGAGGTCGCGTCAATGC
ACAACAGCCTGGGCAACAAGAGCGAAACTCTGTCTCCAGGGGGAAATATTAGTGAAGAGGACAATATTGTAACCTACAAAAATTCTGTGGTAGGTATGTT
ACTTTTGTTAACAGACTTTTCTGAATAAAGTACTCCAAAGTAACTTGGAGTTAAGACATTTTAATATTATGCCTTGGTTTTCAAAACATGAATGGTTTCC
TTCTCTTTTCATGAATTTGGATATGAATGCAGGCACTTACCTACGTAATTTCTAATATTGATGATACTGGTGTTTCTTAAATTCACTAAAAAATTTTATT
TGTAAAGGGTAACCTGCGTTACATTATTTAAAGTTTTTATTTTAAGGTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTTTATTGCCCTGGCTGGTGTCAA
ACTTTTGGGTTCAAGCAGTCCCCACGCCCTAGCCTCCTGAGTAGTTGGAATTACCACATTACATTTTGAAAGAAGAGAGTTTACAAATGTCTGTTTCCAT
GCATTTTAAAAGAGGTCTTGTTACAAAAGATTCAGTTAATCTCTTTAAATGGAATTTATTTTGGTTTCCTACTTCCTCCATTAAAGTACATTAATCCTTC
TTAACATATGTATTTATCACCTGCTGGATTGCTAAGTATGTAAAAGCTACTTTGTAAAAGCAATGCCGTAGCTAAAAAAATGTATTGCATAGCAGCCAAT
GTGATTTAGCCATTTCAACATTGCATTTTATTAACAGGACACTCCAGACCTAAATGGTGAAAAGATTTCCCACTCAAATTGTCCCCTAGCAAGAGAAGAT
TGGAATATAGAGGAATCTCCTTTTCTCCTCGTGATTCTGCCTTTTGATGAAGTAATAATCTGTGTTATTCCAGTTCTTTTAAATGTTAATTCATTTTAAC
AGTTGCTTCAGAAAATAAAATTTTATGAGGCAAAATACAGCAAARTATTTCAACACCACATTTTTGTTTTTCCAACCAGAGTTTGTTTCATTTACAGACA
TTGTCATTTATTTTTTATTTTTATTCATTTTTTAGAACATCTTAAATTTTTAATCCTTTATTTACAGGTTGCCTAGACGACTTTTGATTAAGAAAACTGT
AGAAAGTTGGTAACTGCCAAAGTGGTAGGCGGTGGCACGTGTCAGTTTCCACAGAGTCCTTCCATGTGGGGTATCTGAATGCACTGCACGGGGTCTCTGC
TCACACTTACTGGAGCCAATTGTGGCAGATTTTAGTCTACAAGTCGCTTTTCCCCCTATTTCTCTGTAAACTTCAGCATTCTTACAGAAATATTTACAGT
CCTTAGAGTATTATTCAGCTAGGTCAGCCTGAAGTGGATGCTCAGGCTGGGGGTCATTCACCAGTGCTGTGAGGGACTGGATTACTTGGTCAGTTTTGGT
TGCTGGCTTCCAGTTTTCAGCACTAATTTACTGGCAGAGAGACCTGCCCCTTTTAGTGGACATTTGGGTGACAGATCTTTAAGTGTGCTCTTCGGTGGTT
TGAATGGGTGCTCTGCTGGAAAGTTGATTTCGATTCTGAAGGCCCCCTTATATGGAGGGTTGTCAGGAACAATAAGCCCTTGCCAAGTCAATAAATTAGC
TCCATCTACCTGGAAGTTACGGAAGTTTTTCATTCCACAATTGCATATTTCTTCAAGCTCCTTCATCAGCCTTCTGCTGGTGCCGTCTTGGATTTGATGC
TGCTCCTTTCCCAGAATGCATCGCAGCCCAACATTGCCATTTATTATGCTTTATTTTGTTGAGCTTGATGCTTTGCATTAGTTTGTTTACTTATTCAATA
ATTATATATTGAGTGCTTACTAGAGTTGTCTAGTTTCTCAAAATTGTGAGGTTTATGCTAAACACTGGGGACACAGCAGTGAATGAGACCTAGTCCCTGT
CATCCAGGGGCCAATAGGTCACAGATGTGAATTAGCCCTTTCCCTTGACTTTTGGGATTCCAATTTCAAAGAGGTTGTAAAAGAGASAGTGCCATATTCT
TGAACCTTTTAGCCAACTAGGTAAAAATAAATTTTCACATATTTCTATTGAGCCCACTGGACACCAATATACTTTAATAATTGTGTTTAAAATAGAAAAC
TCCTTCARCTTGAAGCTGTCTTTTATTTGAGAAAAGTGAAAAAGAGATTCGTGGGATATTATAAAAGATGAACAAGATGCCTAAAATGGACAATGCTCCT
TTACATGTTACTTTAACATTTGAGAGAATGCTATCAAAATGCAGAACTGGCTAAAAGTGTTAGAAGGAGTAGTTCAAGTTGTCTTCAACCAAGAGTCATC
TRGAATTTGGCTGCACCCTGGTATATCAAATACGCTGTATGGGAATGTGCTTATATTTTGATGAGTAATGTGTTTTTATAACAAATGAAGATGCATGTCA
GAATGTTGAGCTGGTCAGGTCTCACTAGGGATTTGAAGAATAGCATAACAGCAAGTGGGCACCAAAGAAAAATTGAGTTTACTTGGATACACGAGAACTC
TGCCTTCTGACTTGGTCTGAGAACTTGTTCAAGGCAAGAAACAGTTTCTAACTTCAGCTGAATCACAGTGTGAAGGTGAACAAGTAAAAAAGCTCAGTTA
CCTGCAGAAAGTTGCTTGCAGTTTCAGTTTTACAAAGCTCACTGTTTAAATCTAGTAGTTACCTTTTAATCCCTTCAGATATGTCAGCAAAAATTCTAGT
ATTTGGAAATATGCCTTGATCACTTGCAAAAGGCTCTGGAAGACAGAAGTCATAGTAAAGTGTCAGGTATTTTAAGAATCTGGTTCAAACTTCCAAACAA
AGAATGTTTCAGACCTCAGTGTATTAACAGTTTTCCTAACTATTCAGTTATTCGGTGGTCTTTTATTTTTTATTTTTATTTTTTTCGAGGTGGAGTCTTG
CTCTGTCTACCAGGCTGGAGTGCAGTGCTGCCATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTACAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGC
TGGGATTATAGGTGTGTGCCACCACACCCAGCTAATGTTTGTATCTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGGCC
TCAAGTGATCCGCCCACCTTGGCCTTCCAGGTCTCAAGTGATCTGCCCGCCTCAGCCTCCCAAANNNNNNNNNNNNNNNNNNNNCTGCTGGGATTACAGG
CATAAGCAAGTACACCCAGCCTCATTACCTTATAGTTTTTAATTTTTTTGTGGGAGAAAGGACCAGTGACTTTTTTGAATGTGAGAAGAATCCCAAAGCA
AAAGGTGATTTATTTCCTTTCCTTTAATTCTGCCACAATACACGGCACCCCAGCATCTAGAAGAATCTTCTCATGTGTGAGATGAATGTGTTTGACTTCT
TTTGGAAAGAGTCAGATTTTATATTCATTTAGAAATATCTGTGCCTATAACGTGGTTGCAGTTGTACATGGCACACAGTTGTTTATTTAACTGTGTTTCA
TCCTTTCATCTTGTGTGGGATGCTCACACTTAACCGCATTTCTCTTCATTGCAWAGTGTAGCCCTGACTCACTGGCTCTTCATCTGATCAGTCTGCCTTG
CTTTTGTATCTGAACAGTATCTCTCATCACCTGACCAAAATGCTCTGCTCCGATAGGTCTCAGCTTAGATGTTACTTCTTGGAATGCTTCCCTGGACAAT
GCTTTCCATATTCACAAAGGGAGTACTTAATCCCAGTAAAATATTAGTGCTCCTGAATTGTGTCATTCCTCTGCATGCATCAGACTAGTTCTCATCGTGG
TTCATATAGTCTAACGCGTGCAGATGCAAGATTAGTCTCTGTCTTGTTCATTGTTCTTCTTAGTGCCTGATTTAGCACATGAAATATAGCAATCATGCCT
AATGAGTGTAAGTGAAACAAAATAATTTTTTAGAATTTGGAAGTCATTTGTCTTAATGTGTATTTTTCTCCCTTTTCTGGTCATCAGCATTAGAACTGAA
GTCATCTTCAATATCTCTCTCTCTCATCCCTTCATTAAATCATTCACCAAGTTTTGACAGTTTTCCTTTGCAATGTGTCTCCAAATGGTCATCCTCTTCT
CCTTTTTCAGATTAGGATTCTTGTTTTCTTTACTCATTGGTAAAACAAGTTTGGGAAATGCTAGTTACGCAGTTAATGGTGTAGTTACCGCAGGACTTGA
CAAAACCTCTAATGAAAGAATAAAACATTTGCTATATTTGTTTGATCAGAGAAACTTTTTTCCATCTCAGGGGATCTTATGTGGTTAATGATCTGCAAAA
CCCACCTGGGGGAATGCTGGTAGAATTGTGCAACAGTCACCCTTTCATCACGGGCTGTGGATCATTTGACTTGAACTTAATGATAGACATCAGCTATAGA
CAGCAAACACATGGAAGGGAAGCATGCCAGCCCCCTGACACTGAATGGCTTCTGACCCTCGCACTCTTTGGGTGGCTCAGACCATGTTACCTTGATTAGG
TGAAGGGGCCCCAAGTAGGGAATTATGCACCTTATTCACCTGCTAAAGACACTGCTAATTCTTCTTGCAGTACTTCCTCAATGCTGTCTTGATAAGATTT
AAAGAGTTTTTTAGCCTCTGCCTTTAGGCACCTTCAGAAAGAATGCCATGTACTCCTATTTAATTCCTGCCTACACCACTGTTTTGAATCTGTAGGTGCA
AGGGATTTAAAAGCCAACCACAATGAAGTTGAGTTTTTGTTTCCCAGATTTGTGATTGACTGGTTTTGGATGACAAACTTGATNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTGCCCACCTTGGCTACTCAATACCTGGGATTACAGGCATTGAGCCACTGTGCCTGGCCCAAACTTGATAA
TGTAGAAGTCATTTGCTGAGGTACCAGTATACAGGTGGCAAAAACAATGGAAAGAGAGAACGATGATTTGTCAAGAGTATCTAAGAACTAAGTAAAATAG
AAAGTTCAATTTTCACTTAAAGGAGCCAGAGAGGAAAAGCCTGTAAAATGTTAGATACTTTTTGTCATTGTTTTGAATATAAGTAGGGATCATGTTCGGG
AAATCATGTTGTTGACACATTGATAATCCCATTAGATTTTTCCAGTTGCTCCGAGTCTCCCTTCCTGGCTCTGTTTCTCTTACATCTCAGATTCGATCTA
TCTGAAAATTTTATTCCACCTGACTTCAAAATAGCTAGAGTCTCACCATTTAACTATCTACACAGTTACCATCATCTGTTGCCGGAATTATCTGTTGCCT
GCTTCCACTCTTGCCTCCTTACAGTTTACTCATCACGCAGTGGCAGAACTAATCCTTTGAAAGGTGAATCAGACCATGCCATTTCTCTGCAATCTTGCAA
TTGCCCCAACTCTCATTCAGAAGAAAATTTGACATTCTTCACCCAGGCAATAGACATCAGCTATAGACAGCAAACACATGGAAGGGAAGCTCAGCCGTCA
TCTGTCTCTGTGATATCTTTGACCTCGTGTTGTAACACTTTCCCCATTTACTCACTCTAGTCACATCAGCTCCTGGCTCTTGCTTGAACCCGTTAAGCAT
ATATCTTTACCTTGGATTTTTTGTGCTTACTGTTTCCTCTGCCTGGAATGTACTTTTTTCCAGTGTACACATAGATTATTTTTTCACTTCCTTGCCTGTG
CTCCAGTTTTCCTCATGAATACGCTTACCCTCACCACTCTRTCTTTACCTAACTGTATTTTTCTGCAGTTACCAGCTGACGTGTTATTGTTTGTATTACC
AGCTGACATGTTATTGTCTTATTGGCTGCCTTCTTTAACTAGAACGTAAGCTCAGTAAGAGGAGGGCTTTGTTTGTTGTTTGTTTATTTATTACCTTTTA
AGTTCAGGGGTACATGTGCAGGTTTGTTATGTAAGTAAACTCAGGTCATGGAGGTTTGTTGTACAGATTATTTAGGCACTCAGGTATTGAGCCTGGTACC
CATTATTTATTTTTCCCGATCCTCTCCTTCCTCCCACCCTCCAGCCTCCAATAGACCCTAATGTGTGTCATTCCCCTCTATGTGTCCATGTGTTCTCATC
ATTTAGTTCCCACTCATAAGTGAGAACATGTGGTATTTGATTTTATGTTCCTGTGTTAGTTTGCTAAGGATAATGGCCAGCTCCAGCCATTTTCTTGCAC
AGGACATGATCTCATTTTTTTTATGACTGCATAGTATTCCATGGTGTACATGTACCTCATTTTCTTTATCCAGTCTACCATTGATGGGCATTTAGGTTGA
TTCCATGTCTTTGCTATTGTGAATAGTGCTGCAATGACCATACATGTGCATTTGTCTTTATGACAGAACAGTTTATGTTCCTTTGGGTATATACCCAGTA
ATGAGATTTCTGGGTTGAATGGTAGTTCTGTTTTTAGCTCTTTGTGGAATTGCCWCACTGCTTTCTACAGTGGCTGAACTCCCACCAACAGTGTATAAGC
GTTTCTTTTTCTCCACAGCCTCACCAGCATCTGTTACTTTTTGACTTTTTAATAATGGTCATTCTGATTAGTGTGAGATGGTATCTCATTGTGGTTTTGA
TTTGCATTTCTCTAATGCTCAGTCATGTTGAGCTTTTTTTCATACGCTTGTGGCCACGTGTACRTCTTCTTTTGAAAGTGTTTGTTCATGTTCTTTGCCC
ACTTTTTAATGGAGTTGTTTGTTCTTTTCTTGTGAGTTTAGGTTCCTTACAGATGCTGGATATTAGACCTTTGTCAGATGCATAGTTTGCAAAAATGTTC
TCCCATTCTGTAGATTGTCTGTTTACTCTGTTGATAATTTCTTTTGCTGTGCAGAGCTCTTTAGTTTAATTAGATTTCATTGGCTTTATCTTGCTCATTG
CTAAAGAATAGTGCTTGTAGCAGGATTCTGGCATGTAGTAGGCAGGCACCAGATGCTTGCCAAATAAATTAAGATGAAAGAATGTGAGAGCAAGCCCTCT
TGTTTGTTATGGAATTCAGTATTTACTAGGAAAGGGTAGGCTGCCTTTCAGTAAATCCCTGTCATGTCTCTATGTTTATTCTAAAATTGGTAAGCTTTCT
AACCATAAACAAACAGATAAACATCATATTAATTGTTCCTCTCCTATTTCTCTCCTTTTCTTTTGTAGCATGATGTTTTTGAGTATTCAAAAACATTAAA
AAGATTGGGAAAGGTCTAAGAGGTGGAGAGTAGAATAATCCATTCAGATAACTCCTCTTGGGTCTACGTGAACAGATTTTAGGTACTGTTACTGTGTGAT
GGATCTGAAGCTTTCCTGCATCAAAGCGTTCATCCCTGGAACATTCCTATCAATGTAACATACTTAATGATAAATTGGCATTTGACCACAATAGATGGTA
TTTTTCCTTAATTAAAGAAATACATGAGAAAAAATGTTAAATGTTATGAAATGATTAAAAATGAACTGTCCATTTTAATATTTATATCCAGGACGTCGCG
ACAACCTGTAGCTTCCCTCATGAAGGGATCATCTCTTTCGCAGCACTCCTTCGATGAGCAGGAGAGTGTATATTTTAGAACCTTTAGAGAGAATTGGAAG
CATTTACTACGTTTTCCTTTAAATAAGTTTGCTGAGTGACAGGAACAAGTCAGATAGCTTAAGTTTGCTAAAATACATAAGCAGGTAGAATTTTAAAATG
CTGAATTTTGTAATATGTTCCCTGGGGGTTAGTTTGCTTGTGTAATATATCATACCACCAAGGAGATACTATACAACAAATCTGGGGAGAATTTAATAAA
ACAAGTATTAGTGTTTCACATTCAAACCATAAAGTTGACTTCTTAGGAAATTGTATGCCCCAAATATTGATGGAAACATGTATCTCTCTGTATTGCAGCA
TGAACCAAACCCTATGTAAACTAAATCGATAGCTCCAAAGCAAAACCAACTTATAATAACAGACCAGAGTTCCAGTAATTAAAAACGTGACCTACTCTGT
ACAATACTCTAGCTATATTAATGTGGTAATAAAGAATTATTACCAAAAATTCGCTGGAAATGCAATTATGTATATGTGTGTCCATGGGTAGAGTTGCCAG
ACATTGCATGGGGGTGCAACTAGTGATTTGGTTATTTCAGTTCTTAGAAGTTTAATAATCCTTTATAGCTCCCTTTTATCTTTACAGAATAGCACTTGAT
GACTGGTAAAAAGAATTAACGCTATGGGCTTGCCCACAGGAATCAAGCAAAGGGCGTATGCTTTTGGATGAGTTTGCCAGCTGGGGACCATACTGAGAAT
AACGGTTCTCTCTCGGACTAAGCATTGAGATGCTTTGTCAAGTATCCTTAGCTTCTGCTTTCTCTTCCCTTGGTTGAGTTATACCAAAGCCTCCTTCCGG
GAAATCCCTTTAGTCCTTTTTTATACAGTCAAATCAAACACTTCTTTATCAGAAGTGCATCTATGTCCAACAAAAAACAAAAACCACATAAAAACCTGAC
AATTCACGTAGCAAGAAAATTTCAAGCAAAATCTAAGCAAGGACATTGGCAAAGGAATTCCTTTCTAATATGAAATACACTACAGAAAAAGTATTCTATT
TCCTAATTCTGAGCAGGGAAATTTTTCTATTTATTGTTATTATTATTATTCTATTATATATTATTCTATTCTAAATTTTCTATTTTTTTCATTTAGTTTT
GCTCTTAATATTAACATTGCTATACTGAGACCTTAAATTTATATGGGTAGCTTAGATTTTTCTAGGGCTCCCAACAGTATTATACTTGTAGTATTTCACT
TATGGATGAAACAAGGCGTATATGAAATAAAATTTATGCATATACATGCATGTAACACATAAAAATATTTGCATATATGCACAACTTAATTCCTGTGTTT
TATTTTTCGTTGTACAAAATATTTTAACTGTAATTCTATATACACACACATTATACATATAAATTATTATATAATGTTATCTTAGTGATTGACCCAGAAT
AGAATACAGATTTTCTTAAGTTTCAATGCAACTAGATAGAAAAGGATATAATGTCTGTATTCAAAGTAAGGGTTAATCTACTTTTGGTAGGTTAAAAGTA
GAACATTTTCTTATCTGAGTTATTATATCTGTTAAAAAATAACTTGTAACATAATTAAATGTGTCATAGTTGGTTTATTGCAATGCTGTAAAAATTTTTT
TAAAAAGAACTGAACTATGCCCTGATTAAATTAATTAACGTGTCACATAGATTGCCATTTAGAAAGGTTATTTCCCTAAAATTGCTGCATTTTGAGCCTA
TCTTYTCAGTAAGTTTTCACAATGTTATTTATACAGTTAGATATTATGATTACTTTTGTGATTCGTTTAGATACTAACTTTACTAATTGACAGATATGAT
CATTTACCTTTTTTCTTCAAAAATATTTCTAGATTTTTTCTTCTTCATTTCAGAAATTTGAATCATTTTATATACTAGTGAATTTTCATCATTTTGTATA
TGTTCATCTTCACATAGATGCATTTATTATTTATAAAGCAGTTANNNNNNNNNNNNNNNNNNNNCAGTGCTTGGTGCCTTTGTAGCTTTGCCTCAAGATT
GTTAATATGTTTCCCTGAAAGTCCTACTATTGATTGACTCATATATGCCTCTGCAGTTCCCATTTCTATCTGATGTAGTATTGAGTTTGTTGCCACTATT
TCCTTGTTTTTTCAAGAATAGTCCTTTTACTTATCCTCAGTTTTATCGAGGTATATAAATATTAAGCTTTCCAAAAAAAAAAAACCAATTTTGGGTTGAT
GTTAGACAAATCTTTTTGTATAGGTTTAAGAGTGTGCTGGGTTACATTTTAGAAATAGCATCTGATCAGTAGTTCTCTCCCACCTTCTTACTAATGTGCC
CTTAGAAACACAGGAAAAGATGTATGCAGAAAACTGTGGTGACATTCAACCTACTGCCTGCCTGGGAGGAGTTTTCACTACTATAAGCAGAAAAAACTGG
CAAGAATGCCTTTCTTGTCTTTCTACCTACTGTCAGACAAGTAGAGCAAAAGAAAGCCCCCCAGAGAAAGCCCCTCAGTTTTGCTCTACTTGTCTGGTAG
ATAGGAAGACAAGCTGTCCTTCCTGAGAGTCAGAAACATAAGATTCAGAAACACAGAGCTATTCCAGTGAAAAGCAAAGACAGACATTAGGATACTGTCC
ATTTTTTGCATGGATACAGCCTTTGAGGCCATCGGACTGTTGTCTACACTACATTATATAGTCATTAACATGGTGTTCACTGTGGTTCACAGAATGATTG
AAAAATGCTTATAGTTAAACCTTAAGAAGGCACAGAATTTGAATTTATACAAAAAGAATATGTAAGGGTATAAAAATATGTAAATAAAAGTGCCTAGATG
CAAGAGTGATGGAAATAAGTCAAATGTTAGCAGTGCTTTCTTATCAGATGGAGAAATTATGGAYGACTTTTCCTTCCCAGTTTAGTGTTTCTTTGTACCT
CTGAAAATTTGTACAATGTACATCTGTTATTTATAATTTTGTACATTGAGTGTGTATCAAGTTACTGTTTAAACAAAAGGAAAGAATGGGTAGAAAATAT
AAGACATCTATATTTTTATAAATACTTTTTAATATCCATAATTTCATGTAAAATTTTCAACTATCCCGGAGGTAGACTTTTATTGATATTTTAGAGTTAT
GACTAGGATAGTTGTGAAATCTTTCCAACTCCAAACCCCATGGTCCTCCTACTATACCTTGTTACAAACAGAAAATCATCCTTATGGAAAGCCTTAAAGG
CAGAAAATATATAAAATAAGTATAAGTATGTTATGTGTATAAAGTAAAAATTTTAAAGACATTTTTGAGGTTATTAGCATAATTTCTATCTTTTTAATTT
ACATACACCTTTTAATGTGTTTGTTACTAGTGATATATGAAGAAAAAATAATGTATAATTTCACCATCAAGAGATTGTTTTACATTGTAGAGCATGTTCT
TCATATTTTAGTGTGTGTACATTCATACATATACATTCAAAGGTTTCATAGCATTAATCTGAAATATATACTTCAAAAGTTTTCAATTTAGTACCATTAA
TGATGGGAAGATAATATACTTTTGAGTTATAACGGTTTTATTGTGTATCAGTAGGGCCCGCTCAGAAAATCAGAACCTACTCTAATATAAGCAGTAAGAT
ATTGAATGAAAGGAATCAATTACAGTGATAACAGAAGGACTGGAGGTACAAAAGAGAGAAAGGGCTGTTATCCAAATATCAGAAGGCTATTACCACCCAA
GGCTGGAGGCCATGAAATAGTGTTTGATACTGAGTTGCAGGAGAGGCTGGTGCTTCTGCTGCAATATTAAAACAGCATTGTGCCATTGTGGCATAGCAGT
CTTCTAGGAGCCAATACTACTAATATCTGTGAAACTCTCAGGCTGGATACCATAGTCACCTACGGTGGCTGTCAGTAGCCCCCTGCTGCTGTTACCTCAG
CAGAAAAAAATAGCCTATACTTCTTCCACCTTCAACTCTCTAATCAATGCCTCCCACTGGCAGGACCTGACAAGAAGCCAGCTGGCTAAGGATAAAGAAA
AATGTAGTTTAGAGTCTTCCTGCCTYCTGTGAATCAGAAAGATGGGGATGGAGTTGATGGCCAATAAAGAGTTTGCACACATTTGTTCATTAATTCATTT
TAGTAATTTTCTTCTTTCATACTGCTTGTTTTAATAACCTGCAAGTAAATAATCCACAATAATGTCAATTCATTGGCTGAAAGCGTACAATGTAATTTAT
TAAAGGCAAAATATTGTTAGGAAATGAATAATTGGAGAAATAGGATGGTATCAAGAAAGATATATGTGCTTTTCTGAAGCATCTCATACATAGTTTATAA
GAAGAATGCAATATGAAAAATTAAAATCAGATAAATCTTTAAGCTTTTGGAATAATATGAAAGTTTTATATGGTTATGGCATGGTAGAATTCACATAACT
GATTAGTTAGAACAAAGACAAGACTACTTTTTCATTATGGAAAGTAAACATAGTAGTCTTCTCAAGATTATTAGCAAATTTTCCTTAAAATGCTTGCATC
TGAAAAGATGGCTTCAGCCTGATTATTTTAAAGCCTGTGTRGTTCATCAGTTTAAGTAGGGAAGTGGRACTTGGCGATCTCAGAGGAGTTCTGTAGCCTC
CATGCCCCTGCTCCCCCCTTTTCATGGCTCACTACTGCCATTCACATAAGCAAACACTAGCTTCCCTCAGTCATTCAGATCATGGATGAATGCCATTCTG
TGTTAGCTTAACCACCATCATTCTTGATAAAATATAACTTTTTACCTGAGTAATGCATACCTAGTATAATAGGCTACAGTATTTCTTGAAATGTAGAGTC
CGTATCAGTGGTGGTATAAAAGATTGTTTTACATGCAAYGAGATATGCTGGTATATAATATTAAGTGTTTTGCTAAATTRTTTGCCTTTCATTTCTACTC
TAATGTTACTGATTAAGATAAGGGGAGCAGATCTCACCTTGGAGCTAGGATGCTTTCATGTCCCTCCAACCCTCACTGATTATCTTTGTAACAGAGAGCA
GGCCTCAGGCTAGGAGTGTTTGTCAGAAAAAAAAAAAAAAAAAAAAGAGGATCTTGTGAGAATTGAAAGAGATAGCATTGTCTTTCCTTGACTTTAGTTT
TATGGCCACTTTGTACTTATATAAAGTATTACTGAGTTTCCATTTAAGTAGTGACATAAAGTTTTAAAAAATAAATCCAATTGGAAASAAAATTTTATTT
ATAGAAGACTAAGTGTACAATATTATGGGTGGCTGGTCCATAACATGGTAGAATCACCAAGGTAATTGCTACATGAATAATTGAAATTTTGGAAGCAGTA
ATATATATAGCACATTTGCTTCTATCTTTTTCTTCTTTAATTTTACATAAAGATATAAAACAGAACTATAGGCTTATCTAGAAAAATTAGATAAACATAA
TCATTCATCTACTTCTTTCTCTAGGTAATGTATATTAAGCTTTGGGCCCAACCCAGTAACTAAATGGGATGATGGTGATGACGATTATTATTGATTATTG
TTTTCTTAAAAGCCRTGATTCCTATTAAAATACTCTTGTAGCAAATTGTAATGAATTTTTCCCAGTTGGTTTACCAAGTGCGTAAGAATCAGATATCAGT
AAAAATGTCAAAGTATACATTTATAATAGCCTATCTTTTCCCCAGAATGGCTTATTATTATCTCTCTGCAGTGTATCAGAATATAAATAGTATTAGAAGG
TTTTAAAAATATCAATTAGAATGGGAATGAAAGGAATACTGAAGGAAGGAAAAGAGATGAAGTGACGAAGCACTTCTTTTGGCCACTTTCCTGCTGCATG
TCTCACTTTGGGTGCTACTTAGAWGTAGATAGAGTTGGCACCACCAAACAGGGTTATTACTAATCTTGGATCTCACATATAACTTTTAATTTTAGGTTGA
AAATATGAGAAAAGTGTTCTTCTCATTGACAAGTAATTAGCCCCAGAATTTCCAAATCAATTTTGAATATCAGGAAGATTAAAAATTGAACTACTAGAGG
CCAGGCRCGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCTAAGATGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGG
CAAAACTGTGCCTCTACTAAAAATATGAAAATCAGCTGGGCCTGGTGGCTTGCACCTCTAGTCCCAGCTACTCAGAAGGCTGAGGCAGGAGAATCGCTTG
AACCTGGGAGGCAGAGATTTCAGTGAGCTGAGATTGTGCCACTGAACTCCAGCCTGGTCAACGAGCAAGACTTCATCTAAAACAACAACAACAAAAATCG
AATTTTTTTTTGGTTGTTTGTGAAGATTAGGGTCAGTAATAGACCCCTTTTAATAATTGTATTTTTCTCCTCAGAGTGGCCGTATAGATAATTCTGATTT
GTTTGCTCTATTTTAAATTTTAGTTTGATTTTTTGGATTTTAAAAAATGTTATTTTCAATGTCTGAAGTTTTTTTATTCTTCATTTACTCTAAACATTTA
CTTCAAGCTTTCATGCAATTTGGTATTCATTTGTTAAAAACGTCTTGTAAAATATCAACATACTTTAAGAAAGTAAAAGCTATACTTTTTTTTTTTATGA
GTCAGCATCTCACTCTGTCATCTAGGCTGGGGTGCAGTGCAGGATCATGGCTCACTGTAGCCTTGACCTTCCAGGCTCAAGGGATCCTCCTACTTCGGCC
TCCTGAGTATACCACCATGCCAGGCTAATTTTTAATTTTTTTGTAGAGATAGGGTCTCCCTGTGTTGCCTAGGCTGGTCTCAAACTCCTGGCCTCAAACA
ATCCTCTTGTCTTGGCCCCCGCAAAGTGCTGGGATTACAGGCATGAACCACTGCACCTGGCAAATCTATACTCTTGATTATGCCCATGATAAATTATCTC
AGTTATAGGACATCATCTGTGTCAATCTAAAGAGAGGAATAAGAAGAGTAGCTATTGCCACCAATGAGACTTTTTGAGAATAAACATGAAAATAACTTAC
AGATATTTTTAAGTTCCAGGTATCAAAATTGTTATAGTATGAAAAGCAATAGAGTAGTTGTCAGAAAACTTTCAACTCATCAGTGACAGAGCTGGAGATA
AATATGTGCTGTCTGTACATCTCCACTTCTTTATAAAATGAAAATAATTATCTTTTCCTTTGCTACCTCACTGTGTTTTTTGCAATATTAAGTATATAGA
TAAGTAATTTGTATGTATTTTTAAAACTCAACATAATTATGTTATACTTGTTATTTATTGCTCAAATCTTAATGCTATATACCTAATATCTAAGCATGTT
GTGATTTATTCCTAGATGAAGAATCATCTAAGCCTATGGTAAATATATCAAAAGGTATTATTTTGCTTATATCATAGCAAACAATCTCTAGAGCTACAAG
GATGTATAGCTGCAAATAGAAAATATATTTTCTGAAAGATTAGTGAATCTGCTCTTGTTGTTTTCATATTTCTTTCAGTAGTCTCTCAATATATTTTTAA
ATATTACATTTTCTACTTACAAAAGTAGTATGTACCTGCTGAGGAAAATGCAGAAAAACATTAAGAAGGGGACAAAACATACTTAATCCCACTTCCCAGG
CTGGGGAACTGTTTATATTTTGGCATAGTTCCTTTGTTTTGTGTCTGTGTGTTTGTGTGTATATGTATTGTATATGCGTGTGTAATTCTTGTTTTAGACT
TTTCTATTTTACAAAACGAAGACCATATGGTATAAAGAATGTGGACACCCTTTATAGATGGATTTTCCACTTAATTTATTTCTTTATCTGAAAAGCAGAA
CCTTTAATATTCATTACCACTTAGTTTAGGTTGTTAATGATAATGTTTACTAATGATACTGTTAGGCTCACAGTTCATTTTATGTTGTAATCATTATTCT
GCACTTGCCACTAGATGGCTCTGTTCTCAGAGTGACTATTTTTCCAAAAGAAAAAGTGCCCTGTATCATTGAAATGATGGGAAATGTTATTGCCCTTATT
AACATTATATGGAATGCACACAAATATAATTGCATAATAATTCAACAGAGTATGCCTGTGATAATTTAAATGGTATTTCAATAGATCCACAAATTTAATA
TATCCCCTTCAAAATGAGGGTTATATTTACTTAGAAAGCAATATATTCACTTAACAAGGTTCACTGTCACTTAGTAAATCAATATTGGAATTATTTTTTC
AGCTCTCGCTTTTTATATCAATAACTTTGATATTGAGTAAGTTGTTTTTTCCCATTGCTTGGCTAATTKTTATCATAATTATCTTTTCTGTACTTCAGTA
TGATGACTGTCCTTCTGTAGGCCCAAGAAATATACTCTATATAAGTAAGATTTTCTTCTGGATGGCTATTACGGTAAGATGTTTTACCGTGAGCTGAATC
ATGATTACTCTCAAAGCCAATCTGGTTTCAGGTGGGTCCTAAGCCCATGCTAATTTCTATGGCCAGGATTGTACACTATGCAAATTTTCATTTTCCTTGA
AGAGTGAGTGCAGGACTATAAATTGCTGACGTGGGATTGAATAAAATGAGACACATGGATACAGACATTAGTTTCTCATGTGCAAAGAAGTTGTGGTCTT
TGTTTATACAGGGCTTTCTAGACATACCCAGCTATTTACCATCCAATCATATTTTATAGAGAGAAAAACAGATATTTTAGGATAAACATTCTCACCACAT
GATGAACTGATAACATGGCACACTCTATTTATACCCCTAGCAAATCTCAGTATTATGAATTAAGAAGCAGTTACATATGAGAATATGAAATTCTAAAAAT
GAAATTAGAAGTTTAGCCGTTGTGCATAACTCCTGTGTTTTAAGGTTCATCATACCCCATTTTTATTTTCAATTTTTAAAAAATATTTAGTTACATATAG
TTCATTAAATTCCAGGTCTAAGTTCATCAAATCTTCCTTTCTGAGGATAAAAGTCGATGAAGTTGGAGGTTGCTTAACAATTTCTTCTCTTTAATAGCAT
GTCATAGTTTTCATTTTTGCAGAATATGTATTCCAAGAATAGAGTAGCCCTTATATTGGTTCATATTACGTTGTTGGATTACACACGCTCATTCACAGCT
CTGATGGTAAAATTTTCTACCAACTCCCCAAGCTAAGTACTTACGTGTGTTAGAATGTTAATTCTCTAGGTAATTTTTAAAAATTTATTTATTTTATTTT
ATTTATTTGTTTATTTTTTTGAGACAGTCTCACTCTGTCACCCAGGCTGGAGTGCTGTGGCACGATCTTGGCTCACTGCAACCTTTGCCTGCCAGGTTCA
AGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCGGGACTACAGGTGCGCGCCACTGTGCCTGGCTAATTTCTTGTGTGTTTAGTAGAGATGGGGTTTCACC
ATGCTGGCCAGGCTGATCTGGAACTCCTGACCCCGTAATCTGCCCGCCTCAGCCTCCCAAAGTACTGGGATTACAGGCAGGAGCCACCGTGCCCAGCCAG
TACTTTTATTTTAAAAATTTAAAATGGTAGCATGTCCTAAATAAAATAGGAAATATAAAAGTTGAAAGTCCTGGAGATGGATGAAATAGGGAAAGAAGGT
AGGACAAACAGTTCCTACTTCTTAGAACTTGAGAGACTATATCTAAAAGAATATTCCAGAACAGGGAAGTGTTATAAATAATACCAACTTGTGCCAAAAA
ATATTACTCATCTTAGATCTCCCTTTTGGGGATTTTGGATCAATAAGAAACCACGTTTCAATGGAAGTGGTGCAGAGCCCGTTGCCTAGTGTGAAGAGCC
AATGAACTAAGTCAGCAGGTTAAAACCTGACCCCCTGGCCCATTTATTTTTCTGTCTTTGCACTCTTGAAAAGCATGTTCCCTAGAGATCTATCCAAATA
GTCACTGGAGTCCTGAGGCCCCACCCTTTGTCCAGTACACTGAACYGTGTTATGCAACATGGAAATTGTTCCCATTCCAATGCCTGACAGCCAGACTCTT
GGAAGACAAGCAAAGAAACAGGATGCTTCTACGGAGCACAAACACTTAGCACTGACAGCTACAATCTGTGAATGAAACTATTTTTTATATGAGCAAATAA
TTTTTTAAAAATCCAAATATTATGAAGCATATAAACAAAGGTTCTAATAATTAAGAGTTCTTGCTGAATGCAAAGCAACAATTCTCCTGTGTTTCAAGGA
GGAGAGGAAGAAGTGAATGAGATACACAGATGCCATTCAGTAGACCATCTAACAGGGTGCGCTGAGTTGTATTTAAGTGATTATAATGTGATATAATGAG
TGGTCATGAGTAATACTTCGAATGTGAATGCTTTTTAAAATTTTCAGTGTACTTTTAAAGAAATTATTTAAAAGTTAAATTATGACTAGTGTATTATTTT
TAAGTGTCTCATATAAAAGGCAATTTTGTCTCTGTGTGTTTCTGGCTCTGTTTTTCAGTAGTTGCTGTTCTAGAGAAATCTAATGTGAATATAAAAATCA
CTTAATCTATTAATAAGTATGACTATATAATTGTGGCTTTGTGTGTGATAGACGAAGTTTGAATTTTAGGATAAGTGTTTTCTTTTCTTTCTTCTTAGCC
ATCACCGCCTGTCCCAGTTACTAAAGGTACCTCTCTTTTCCTCTCATCAATTTTTTGTTTGAAAGATAAATGAGATCTTCAGTGTGTGCTTAAGTCATTT
TATAGTTATGAGTGCAAAAAATAAATTGCCATTTGAACTCCAGAGTTGAATTCAAATTTTTCAGAAATAAGCACATATTTTATTTGTTTTTTGAGACTTC
TTTGTTTTTCTCATTGTTGGGTGGGTAGCCTTTTTTATATATGCCTTCCAAAGCTTCTTTCCTGATTGTTGAATTACTTATATGTTAGTTTAATAGGTAC
ATTAATTTTTTCTATCTAATTGGGAGTGAAAGAAGACTGCTGTTAAACATGAGTTCTTAGTTATTGGTTGTTTTCATCTTTTAAAATTTTCTGATTTGAG
GAGAGGCAGATAGACTTGGTTAAAATGATGGATTATAAATATGTGAAATGTCTGAATGAGATCCTTTAACAAAGAAAATAAAAGGAATGATGATGCTTTT
TTTTTTTTGTATATCTAGGAATCTTTATTTCTGAAATGATTTATATTAATAAAGATAGTGTAGGAATGACTTTCTATATTCCTGCCTAGTATTCTTTCTG
TTAATTTATACTCTAGATGTTGTCACAGGAAATGACTTATAAAAATGTATTTATTATGCTTGCTTATATAAAGGAGGATTTTTAAAGTCTTTATTTTATT
CTTGTATGTGATACACTATTAAAAACATTGAAATATACATCTGCCGTTATCTTTTACTAGATTTTGAACTTCTTCCACATTTTAAAGATATCTACTNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNCTAAAAATACAAAAAGTAGCTGGGCATGGTGGCACGCGCCTATAATCCCAGCTACTCAGGAGGTTGAGGCAGAAGAATCACTTGA
ACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGGGCCACTGCACTCCAGCCTGGCGACAGAGCGAGACTCCTTCTCCAAAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAAAAAGAGTTGCTTAATGGATGAGAACGTTTCTTGAAACACTTATAAAATTAATAGCACATTTTCTTTTTGTAGCCAGCTTTGTGATTTTG
TCCCATATGTTTAAACAAATTAAATAGCATTGTTTAGGTTTTAAAATAGCAACATTGTTCTATTAGGATTGATTTTGATACATAAATTCATTATGACATT
TATTTTTCCATTTGCAATTGATTTCTGAGTCTTCCCTTTCATACCCTGAGCTGTCTCAGAATCATGCTTTCTTTCTTTTTAATAACATTTTGCATGTTAT
ACATTTTACATTTGTATGTGTTGCTTCTTATCATTAGTCTTTTGTCTTAAAATTAGAATGGCCAATGATTATGGTCTGTACTTGCCTGTGATCTTGAGCA
AGTTATTTAACCTCTCTGAATCTCATTCTGTAATCTGTGAAATTGGCCCAATAATGAGGGATCTATAAGACTGATTGTAAACATTAAATTAAATGATAAG
GATACATGTCTGGCATGGCATTAGAAATGTAGTAAATTCTTGCTAATCATGGTTATATAAACATGCCAGAGATGATTCAAATTACACTGACAGCAAGGGC
TGCCTGGTCTTTCAGGTTACACTGTGCTTCCCCTTCTATACACAGCTTCCCTGTAGCTCCCCTCTATACGCAGCTCCAAGCATGCCAGACCTAAGATAAT
TATTTCACTGTGGTTATTGTGACTTTTAACCTAACTTCTGTTGAGAGAAATTAAAAACAAGTCCTTAAGAATTGTTTGTTCACTGGATGTTAGTAGTGGG
TTGGCAAGCACTGTAATTGGGTTTTGTAGGACTTCTCTACACAAAGGGTGGAAGAGCCACTAAGCATCCTCTCAAAGTTTCAAATATATTTTCTGGCAGG
AGTTATTTTGTTAAATAATTCTAGAGGAGAGTTTACTAAGTAGCTTATTTTGCAAACTGTGAGGCTGCCACTCAGTCACTAAGTGTATCATTAATGTGGT
CTAATTATCTGAGCCCTCACAATTCCACACTGCACTGGAGGAGAAGTCCAAAGCCTTGAAGCTCACTGCCTCTTCTCTCATTTCAGAACCCAGTGATAGT
ATGCTTGAGAATTACTAAACATCAGGTATAAGGAGTCAGAGATGCTGAACAGAAATCACATGATTACCATTATTATTTTATATGATTTTTGCAGATTTTG
AGACATATTTGTTCATATTTAACCCTTAAATACCTCTGAGCCATTCTTTAACACAGAATGACTGATATTTTTCAAATTTTCCTAGCCACCGTAATAATGA
ATACCCTTCTAGTTACTTGGGTGAAACATCCAAGATCCATTTTTGCCTGCCTTCTGAACTTCATTCCTTACTTTTATTATGTTGTAATATCCTGCCAGTT
TCATGTCTGTCAACTCCTCCCTATGCTCGCAGTCGTAGTCCATCTAGTCATTCTCCACTCAGATGGTTGTCATGGTCCCAAAGGGTCTTCTCTTTCTAGC
CTCCCACTCTCTAATGAGTCTTTGAAATTGCCTTCAGAGTTACTTTCCTAAAATATGCACATCTGCAGTGTACTTATTTGGCATAGAAACTGGCTACTTT
GAATTTAATACATTAACTCAAATCCTATGTTGTCGATAATAATTATTTAGGACCTGTTTCAGTTTAAAAACACCGGAATCTCCCTTCTAATAAACATGGG
TGCCTTTATATGTTTTTAAAAGACATTGCATACTGTCTAGAGTAACATAATAAATTTTTAGGTACAACATATATTTTTGATGACATTTGAAAGGAAATAT
TATGTGGGTGGAATAGGGAAATAGTAAGTTATCTAGGAAATGAAAACAGTAAATTATTTAACACAGCCTAACAGTGCTATAACTGTAAATAACACTTTAG
TTCTGAAGTTAAAGGTCAGTGTTCAGAATGAAGGCAGACAAAATAGATATTCCCATGGCAGAACTGTTCTTTATGGACTTTCAGGAAACTCTAAATGACA
TTCTCTGCCAATAATGACTCTGGGAAATTGCATCTCCTTGTTTTCTGAATTTATTAATACTTCTATCTCCAAGTCTTCCTGGAAATCATATTTTAATCTT
TTTTTTTTCTGTTTTTTTTTCCTATCCCTGCCACATGTGTTAGCAAAACTCGGATTGTTTTCTCTTACATAACACTAATCATTCAGTATCCTCCATTATT
TTAGTTGTTAGGGTCATTTTTGTTTTTAGTATACCAGAACTTTGTCTTAAGAAAGAAATAATTGTGTTGATGGACTTGATGGCACAAAACAGGAGTTTTT
TAAGTGGGAATGGAAAATAGTTTTTATTTTGAATGTTGTTCTGACTTGAGGTGGAATACTATATTAAGAGGGACTCTGAGGCTCTGAGTTCAGTGGGAAA
GAGGGAAGTGAGAATTCATCATGTCTGAGTGGGACATCTAGTTGTAAAGGGGGTTGTGTCCCAGGGTTTCAAGTATGAACACTGTAATGAGAGGTTTGAA
CCTAGAACCACCTGATTACAAAGCTTACATCCTTTAATAGCTAGTCTGGATTACCCCTCATAAAAATTTGCAAATGGTCAGGAAAGTGTGTTATAATTTA
CAACACTTTTCCACTTGAAGTATTTTAGRCAGGACTAGGGAACAATGTAAGGATGTAAAAGTGGAGGTGGTAGAGATGGGGTTTATCTCTTTTCTTCTTA
AATAATAATCTTGGAATTATGAATCTGTATGCACGAATCTTGAATAAGCATCAAAATCTTTCTAAAACTTTCACAGTGCAATGCTGTGGGTTGCATTGTG
TCCTTTTCCCCCCAACCCGAATTGATATGTTGAAGTTCTAATCCCTTATGTGATGGTATTTGGTGAAGGGGCCTTTGGCAGGCAGTTAGGTGTAGATGAG
GTCGAGAGAGTGGGCCCTCGTAATGGGATTAGTGTGTTTATAAGAAGAGACACCAGAGAGCTTGAACTCTCTTTCCATGTCCTCACATGTGAGGACACAG
TAAGAAGGTGTCTGTCTGTAATCCAAGGAGCAAGCCGTCATTAGACACCATCCATGCTGCCACCTAGATCTTGGATTTCAAGTCTCCAGAACTGCGAAAC
AATAAATTTCTGTGTTTTAAGCCACCCAGTCTACAATATTTTGTTATTACAGCTTGAGCTGACATGCCCATTCCCAGGTTTTACCCTGGAGATTGATTCA
ACAGTTCTGGAGACCAGCCTAGCATTTGAACTCTTCAGAATCTCCATACGATTTTGTAACGTACTCTTAGGGTAGAGCGCAACCAAATTTTTAATTTGTC
TACAAGTGGTTTTCAGCCTTTTCTGCACATTAAAATCTTTGGAGCTTTTAACTATGATTGATTGAGAGGCCCCATCCGTGATCAATTAAATCCGGGGTAA
GGTCAGGTACTGGTGTTTTTTAAAGAGCTCCCCAGGTGAGTCTAACATGTAGCCAAGCAAAAGGAAGAACCACTGGCCTGAATTTATCCCTTTTCCTCTG
TTCTTCTGCTCCATAAATCCTAGTTTCTAGAAATACGGAGTCCAATCATGCTCTCTCTTCCCCTCTGGGTTCCCCTTACATCTCAGAGTGCCATTGCTAT
TATTTTCTGAACAGCAAATCCATAGTTTCAAAAACCATCTTTTTTCTGTTGCCTCAAGTTTTCCAGTACTTTAAATCTCAGAATGAGGACTGTAAAAGTA
AGAAAGTAAATTGATTTTCTAGGATGTTTGGATTCTGGGCAAATTGGTGTTATTTATTTAAAACTCCACATTTCAAAGATGTAATGGGTTTTAGATTTTA
TACCAAAACAATATTTGATATATGATGCCTTTCTAAAGGTTATCTTTCTGATTTTTTTCCCAAAATATATTTATTGAATACTTTTTTGTAATCCCTCCYA
GCTACTGTGTTGGCACTCAGGATGTAAATGAAATGGTAACATTTAGAATATTTTTTAACCAGCGTGGCATTGACGCGATTGGTCAGAAAGAACATTGATT
GTAARCCACCCTATGGTCATCCTGGTGCATTTTGGCTCTGAATTTAATACCAAAAGAGGCAGCTACATCCCCACCCTCTTAAGGCTTATGGTTCCTTGTA
AAGTCTTGTATTTGAATGTATGTTGACATGACCTAGATCATTTTTGGATACTACCCTAGAGTATCTGATACAGTGGATCAGAGTTGGGGCTCAGTAATCT
GCATTTTCAACATGTTTCCTAGGACACTGGATAGGAAAAGACAACCAGGAAGGGATTACTCAGTTGTTCCATAAAGCAATTCCCATTGTCTTCAGTAAAC
TCTAGCCAACTACTTGCATATTCCTTTTATTTCTTTCAGGGTGTTTTCTGTGGAAAATCTCTACGGTCTGATAGTTGGCATCCTGGCAGTTAATTTTATG
GAGAGTTAGCTTTTGTACATTCCTACAACATCGGCTCCTCCTTTCCCTCCCACTGCAAACCCCAGTCAGTAGGAGATTCTAGAAACTTGAAGAGAGATAC
CACTTTGTTTTTCTTCCTAAAGGTGCAACTATTTAGTTGGATGTAAAATCCTACACTCTTCAGTTGTTAAATCTGTCTCTGAATCTAGTCATCCCTCAGG
GGTTTTATTAATCTAAATGACCAMCATTATCACAGCTGCAACTCATCTTAAGAACTATTTCTCAGAAAAAAACAGTAAGTAGCTAGTGACTCTGTACACA
GAGAAAAAAATAAAGAACAGTTTAAATCATATCAGGGTTTCTTCTGAAATTTTTTTCAGTGTTGGAATGTGTAACTTTTAATCTCATTTTGGGGAATTTT
AAAATTTGGTTTGGATTAAAGAGCAAAATGTTGGAAAAGTAAACAGCTTATTATCTAAAGGCATTAAATATCTAAAGGCATTAAATGTCTAAAGATATTA
AAGAATGCATACTTTCAGATTCACCTTTTTAAATACATTGAAATTTTTATTCACCAWCATGGTAAATCTTTTAAATCTGTTYGAATTAACATATTGTAAA
TGATACTCAATATATACATATTGTATGTGATTTTATATGCAGTAAGTTATAAGACCCATGGCTTTTTGAACAATTGATAATGAACATTTAAAATGGTAAG
ATAGATCTTAGAAATGGTATCTGATTTCCTCTTACTTCTAGTGAGTTGTGTCATTGAATGTTTTAGATAAAATCTTTGAATTATGAATATTATGCACATG
AAAGAGTATATATAATATTGGTACAGTTTAAAGAATAGCAAACATTGGTGCATATTAGCCTCAAATTTAACACTGAAAGAGACATGTATCTCCCTACCCT
CTTAAAACTTACAGTCCCTTGTCGAGTCATATTTGAATGTATGTTGACAAGACCTACGTCATTCTTGAATACCAGCCCCAGAGAATCTAATTCAGTAGAT
TAGAGTTGGAGCTCAGGAATCTGTATTTTCAACATGTTTCCTGGTAGACTGGATTGGAAGAGACAACTAGGAAGGGATTACTCGGTTGTCCTATAAAGTA
ATTCAGTGTGTCTTCAACAAACACTAGCCAACTCGATGCATTTTCCCGTTACTGCTTTCAGAGTGTTCTACTATTCAGCTTAAGAAATAAAACATTATCA
GTGACTACAGTTTCCTGAGTGCTCTACCCTGATCCCATACTTCTCTCTTCCTTATACAGTTAACCTGTAGCATGAGTTTTAAGAAAATCATTCCATAGCA
TGGATCTCTTAAAAATAGAATTATATATATATATGTTTATTTTTGTCTATTTTTGAACGCGTTAGAATCATACTGTGTTTMTTCTTTGACTCATTTTTTT
CATTCAGGTTTGTTTTTGAGATTCAACCGTGTTGATATGTATAATTATAGTTCATTCATTTTCCCACTATATATTAATGCATTATACGAAGGTCCTATAA
CATTGATCCATTCTAGTATTGATGGGTTTTTGGATTGTTTTCAATACTTTTTTGAATATTATCAACAATATGAATAAAATTATATGTGGCTTTTAGTGCA
CATGTACAAGTATTTCTCTAAGGCATATACCTGGGAGTTAAATTGTTAGGTTAAATATGGTATGTGCTTGTTCAGCTTTCCTAAATAGAATCAAAGTAYA
CTCCAAAGTGATTGTAGCAATATACACTCTCCCCGGCAGGGTGGGTGAATTCTAGTTGTCCTATATACCGACAAATATGATGGGTGTAAAATGAAATTTA
CTGTGGTTTTAATTTTTATGTCTATGATGAATAATGATGTTGAAGCTCTTTTTATATATTTAGGAGTCATTCTTGAAATGCCTTTGTTTTTGTTCACTTT
ATTATTGTTGGTTTGTCTTCGTATTATTTCATAAGATTCCTTTACATATTTTCGATATGTGTCTTTTGTCGTCTAGATATATTGTGAGTGTTTTCTCGTA
GGATTTTTCTCAAATTTTCACTCTCTTTAAAGTGATTTTTAGGACAAAAATTATCTTTCAATTTTAATGTATGTGGATTAGTTTTCTCTGGCATCTATAA
CAAATTACCGCAAACTCAGTGGCTTAAAACAACACACATTTATTCTCTTTCAGTTCTGGAAGGTCATAAGCACGAAGTCAGTTTCACTGGGCCAAGATCA
AGGTTTCAGCAGAGGCTTGCTTTCTCAGGAGACTCCAGGGGAAAATTCTTTTCCTTTCCTTTTCCACCTTCTAGAGCTTCATTCCTTGCATTCCTTGGCT
CCTGGCCTCTTCCTCCATCTTCAAAGGCAGCAGTTTAGCATCTTGTTTCCATCTTCACATTGCCTCGACTGCTGCTGTCCTTAAAGTTTCCTCTGCTTCT
TTCTTCTGTGGACACTGGGGATTATATTTAGGCTCCATTCAGATAATCGGGGGAATCTCCCTATCTCAAAATCCTTAATTTAGTCTCATCCGCAAATTCC
CTTTTGCCCTATAAAATAACTTTGACAGGTTCAGGGATTAGAATGTGGCTATCTTTGGGGGCCATTATTCATCCTAACATAGAAGATAAATTTATCTTTT
TTTTTATTTTGGTGGAGATGGTAGTGAGACAGTGCTGTGACTGTTGAATCTTCAGAGGCCAGATTAGCCCAATTTTGTAAGTAGTCTCTTTAGGTCACTG
TTGATCAAAAATGAGTGACCAAATACTTCTGCCACTTAAAGATGGGGGAATATTTCTTTTTCCTTAACATCTATCACTTATACCAAATGTAGGAGAGGAA
AAAATGTGTGTGAKTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTTCCTTCTTTTAAAATTCCTGAGCTCCTCTCTTTCCTCCCATGT
TAAAATCGGTAGCATGTCCAAGCCTCTGGGCCTACTGCCTTCGGTTAGCTCACACTTGCTTTTTCATGTGAAGTTTGTTCTATGGCATAATCTTAGTAAA
GCGTTTTWAAAACAAAAAGATACGGAGGCTTTTTACAACCCCTTCGCCTAATTATATGATTCATTAAAAGAATCTTGGGGGTGGGCATGGTGGTGACTCA
TGCCTGTCATCCCAGCACTTTGGGAGGACGAGGCCAGCAGATCACTTGAGGTCAGGGGTTTGAGACCAGCCTGGCCAACGTGGTGAAACCCCATCTCTAC
CAAAAAATACAAAAATTAGCCAGACATGTTGGCACATGCCTGTGGTCCYAGCTACTCGAGAGGCTGAAGTAGGAGGATTGATTGAACCTCGGAGGCAGAG
GTTGCAGTGAGCCGAGATGATGCCAGTGCACTTCAGCCTGGGTGACACACCATACACACACACACACACATACACAATCTTGGTATGTAATGAACAGAGA
AAATGCTTTCAGTTTTGTTTTGTGCATCTGGAAAGAAAATGGGATTCAAATGGGCTGAAGAAACAGGCCGTACCCCTAAGAAAGAAAGAAACTGAGAGGC
AGATATTCTTGGAACTTTTGGTGCAGAATGCCAGAAGCTAGATAAGCACCCCAAGTAGAAACCAGAGGAAAGTGACTGGGGGCGAGAAGCCATAAGCACA
AGAATTGTTTAAATGCTTCAGTTTGCATTTTAGTTCATGCTACAAGTTATGTAGTTCATGCTACAAGTTTATGCCTGGAGCTTAAAATCAGGCATTTTTC
TCTATCTAAATTTCTTTGCTTTAACCATTGCATTTTAAATAATTTACTCTCCTTTCTTTTGAGATATAAAAGAAAGATTTTGTTCTTGCTTTTATTCTTA
TTTTGAGGATTGTGGCAACATGTAGAAAAACAGGAGTAGAGCATTGCTATTATTGACAAAATACTAATGTTACGAAGTTATTGACCTATAATGTCCTTAG
ACTGGGAAAAATCAATGCCTTGGTAATATCTATGCCAAGTGGCAAAAAGGAGACATCAGATATTTATGTTGTTCTACATAATATTTGATTTTATGATATT
TGAGTTTTGCGGGATATATTTGATGGATGTTATGATCTTAATAAGTAGAGATTGTCAACTCTTCTGTGAATGGCATATAAAAAATGATAAGAGAATGTCA
ACGGACATTTAAAGAAACCGAATAACTGAGTAAAATAAGTAATTCAATACTTCTGCCTTAAAGATGGGAACTTAAAATTTCATATAGTTAGTGTGTCTTG
ATTATTGCCTATTCCATCTTGTGGCATCATACACCCTGTAAATCTACAGCAGGAGAATACAGTTGGCATTGGAGAGGAACTGGTTTCATATGATTATCTA
AATTATCCAAGAAGAATGGACTATGAATCCCTTGAACATATGCTTGAGTCCACAGGGATTCAAACCAACGCCTGGGGTTTAGATGGAAAGGCCTTGCCCA
AAGAGCAAAAAGATATGACAACAAAATTATAACCCTTGGCAAATTCCATCAAATTGATTTGAATCYGTGGGCTGAAAATGTCAGTGCTTATTAAAGTATA
CATTGAAAATTATTAAGAATATGATTGCTGAATGTCCCATATTCTTTTGTGTCATTAACAATAAAGTGGCAGCTGAGCATTTGTCTTGTCTAACAGGATT
ACTGTTGGCTATGAATTAAAAAACAGAACGTGGAGGAATTGCCTTGTTAACTACTAATACTATTTCGTGGTTTAGTATAGATGGGTTAATCCTCATTCTA
TCTACTTTTATATACTCACTGCTAAGCCATATTTTGAGGCTGTTTCTCTAACAGATGCACAGGGAGCACTTTCTTATTGCTAGAGTACAAAAAAGGAAAG
ACATGTTTGTGATGTTTTCAAGAACTTCAGTGTCCGTTGCATATATAACCTTTTGAAACAAAGAAATCCTATGCATTTGACTAAGATTGCCTGTGAAATC
TGGCGCTGCTAAAAGAAAAATATGAGATAATATTTTACCATAAGTACTTCTTTTTCCTATTAAAAAATATCACAGCAAAAACAAACACTATGTGCCAGCA
AATTTATGCCCCTAATTATCCTGAGAATTATCATGCAGTTTGCAAGGAAGAAGGGRCTCTAGCTTTCCAGTTGCTGATCGGCAATAATGAACCCCTGCTC
TGTTGTTAAATACTTTTTTTTTGGTAGAGTCATAAAGAACAGCACTTCTAGCAAAGATGCAAAATGTTAAGGCCGTAAGTCAAAGGAATAATTCGATATC
TGGCTTGATAAACGGATTTTTAAAAATAACCTTGATTTCTGCTAAAATCTTTTCCCTTGAACATAAAAGGGAGTGAAGGATTTGTATATTTCAAGGTAAT
TAAAACATTACTGATTTAAAGGAATACTATCATGTATAAGACGAAGAAAACTAGAAAGATTTCTTTTTCTCTGTCATCCAGTATGTTAGCCTTGAGAGTG
AGACCCTTAAAGCAGCAACAGAGTGAGACTTTTTGAAAACGCCATAGCAACCTGGCCTCGTAGCCCATGCCTTTCTTTAGAACAACAAAGAATGGTGCTT
GAAAAGTCTTCTCATGATTCTTCTGCTTCAACAGCTTGCCTTTCTCCTTGTCACCAGAGTAAGCCATTCCKTCCAGATCGCATCTTCTGCCAGAAGCCAC
AAGTTTGGCTTCTTGAAATCTCAGAAGTACTCATTCCTCAAGTAATTAATTAAAACAAATAAATAAAATGTGTAAGGCTTTAAGCTTCTGCAGGAGGCTC
ATATTCTTCCAAAATAGTCTGTCAACAATTACAGTATTTATAATAATAATTGTGAGAGAAGGATAATTAGCTTTAGGAATTCTTCTTCATCTAGATTTTT
ATAAAGTGTTCTTAGGAATAGGGATGGTTTATTCCTATTGACAGCTTGTCCCATGTAGGGGAGTCATGTTTGAAGGCAACATACCAGATTGGAAGGAGCA
ATGATTCAAAACAGGATACTGAGGAAATAAACATACTGATATAGTATATAGTTGTAATAGCTGCAGTTGTAATCAGGCATACATAACCTAGGCAGCCATT
TACATTTTATACACCCTCATTAGAGCGAGCTTCTGGAAACACATTAGTCATATTATATAATTAATAAGTACTGGATCCAGAGCCAATAGGCTGAGCAATA
CACACCTGCCTTCAGTGAGCCCCTGATGACACTTATTCTTTTTGTTTTTCTTGTATTTTCAGTACCTACCTAGCACACTGCTTGACATTCAATAAAGACT
CAATAAATATTGGATGTATTAAACAAGATTAAAAACTGCCTGTAAACGTAATGGTGTAAATGTTTACTGTAAATGTAAACTTTTCCAGGAAATAATGCTT
TTCGTCCACCTGTTTTGAAATATAATTAAAATGACATTTTCCTTTTCATAATCAGGACAAGTGTTAATATTACAAAATCCTTATTAAGTCAGGACAATGT
CAATATTTTATGGGCTGTATTTCAACATTATTAATTCTAATGTAAAATAGTCACTCTTTGACTATAAATCTCAAATCATTTCCAGGTCAAAATTTTGGCA
CATTTTTTTGCCTAGATTTTTGGATAGTTGAAATGTCTACCAGCCTTCTGAATTTTCTCATGCATTTTTCTCACTGTCCTGATTAAAGAGCAGAAAATAA
TTACACTAATTTTAAAATATATACTTTGTGACATTTTTCAACATTTATTAAAACCCACATTTTATTATGGCCAGGCTTCTTATCTCTACTTTTGCTTAGA
AAAATGACAGTTAGTTTGGAATTCATTTTTGATTTTTCAGGTAGTGTTGCTGTATTTCTCAAGAATAATGGTTGAGTTATGGTATCGAATACTTCTAAAT
ATTCATCCTTGTTGAAAAGGTTTTAGTCATTCCCTTAAAAGGTTAATAGACATTGAAAAACACTGAATAATTCATTTTTATGTACATAAGCTGTATCAAA
TGTAGTGTAGTCTACAAGGTAACATCAGGGCTAAAGTTTCATTCCAGTGGGGACTGATGGACTGCTCTCTTTTTGTGGGTATAACGTGATTGTACTAGTA
AGCCCAGGGGACTTTACACCACTCCTCCTTGATCAGTCCTGAAGTTCATGTATTACCTTTTTACCTAAATTTCTTTCAGTGTTTTCTTCTCTGCTATCCC
TTGAGTATATCTCTTGAGCTTATCATGTGTCTTGGTTGTTGAGGGCCAGAACTGAAGAACTGTCCCTATCCCTTCTTGTGAGTTAAAAGGGAATTAAGGA
AAAGGAATCTCACTGCAGAAGAATGTTTTGGTTGTTCATCCTATATTTAATCTTGCTCCTTTRAGTTTATGGTCAAACATGAGCACATTTATAAAATGCT
TTCCTGGGGCAGCGTGGAAGAAACTGTGTTTGGAAAGTGATATTACACTGAGGACACTTGGGCAAGAGGCTTCTGCAGCTTCAGTCGCCATTGCTTTGAA
GATCATCACTCATTGCTCGAAATCTTCTATGAACTCCTGTAAGTTCAGATGTTAATAGCTGAACATTGTTCAACAAAGTCTTAAATTGATTTTAAATGGA
CTGGTATAGCAAAGCAATTGGAAGGTATACAAAAGAGCAAAATTGAGAAGCTGGGTGATCTAAGCCTGAAGTCCTCAAATATTTAAAAGACTTAGTTTGT
CAAGATTTAACCATCTTTTTCTGRGTTCTTTTCATCACTGTTGACAAAAGCAAGCACTGGAGAAAAATTTTTCTTTTGCCTATGGGGCCAGCAGTGAAGA
TGAGCTCATCTGTCCATCAAGCTCTTGCTGCTGCTACCTGGCCTCATTTAATAGCTGTGAGGCCAAATCCTTACTGTCTTTGAAGTCAGAACATGCAAAG
TTTGAGTATTTGATGTATCTTTGAGATGTGTCAGTGGCCAACCAATGAGAGGGATTTGGCAGTTAGTGTCAATGCTACAAAAGACAGTTAATTGTACGAA
AACCACAGGATAAAACTCCAAGTCAAAACAATAGAACATCATCCAGGTTATATATTTTTTAGCTATGTAGCAGGGGCCCTCTGCATTCAGGGCTTTTAAA
CTTATTTCCATTAACATCTTTATCATTTACATAGTAAAGCTTTCAGAATATAAAAATTCTTCTGATTATGGACAAGCTACTGTGTGTCCAAAGCATTGTA
TAATTTAACATGATCAACTACTTTTTCTAAAAATGTTATTTCTCAAAGAAATAAAATATAGCATTTGCAAAACACACACACAGAGGATCTTATTATTGAA
GAAATGCCTAGGTTATTTGCAAGTCTATTAGGAATAATTTTCCTTAACTTATTGACTGTTTTCATCTCATGGAAAGAAGTTTCCCTCCTGTCTTTGCTTT
GGATTATGTAACTTTGATTTTTCTTAAAGTAATGATTTGCCTAGAAGTGAATTCATTCAGCTTAAAAACCATAGTAGGGCAGTGTGAAAGGAAAATTTAT
GAATAACTTTTTCCACTATCTTTTCACAAAGATAAGTTCTAGTGGGAGAAGCTCTCAAAGTAACCAAACAAAACTAGCATTGACAGTGAAGGCAGAACGC
CATTCAGGTTCTGAAATGAAACCATAGGAGAAATTGTCTTCATTGACTTGACCTTAACYAACTTGCTAGMGTTAACCAGTGCTCTGGAGTCTTTCTGTTA
AAAATACCAACTGATGTYCATCAATTGTGGTGGTTACCTGGCCAGTTTATGCCACTTTTCCTTAGTGTTGTAATTGCAGAATTTAATTAAAAATTATATA
AACCACTGAAATATAAGCCAAAAATAWTGTTGTTGTTTCTATGAAAACTTGATTGAATGCTTTCTTTGAAAGACTTGATGAAGGCAAAGTAGATACAGCA
TATATGTTAACTGAGGTGTAGATGAAATAATTAGGGACTGTGGGTAAAACTGTAATCAAATAACTGTGCAGCATTACAGATGTTTAAATTACCTTTCTTC
TAAAGGTGACATGAAATAGAGAGTAGGAGACCTAAACCTTGCAGGATTTTAGCCCTTCATAGAAAGATTGGTGAATGAATGTCTGAATAATGAATGTTTC
AAGTTGAAACTGAATATTTATTATATGCTCATTTAATTATTAAACATGATTATTTGCTTTATGTGGCTCTTTCAACTGTATTTACTGACGTTGTTGTTGT
TGTTGTTATTAACTAGTCCTAGTCATTTGGATAAGAAGACTCTTGCCCTATTAGATCAATCCCTAATCATAACTGGGGTACTATAGGACCTACTCTTTGT
TAGCTACATATAGAGTAACACAATGAAACAGCCAGCAAAAATAAGTAAAGGAAGCATTTTAATATTTATGTATTTTTAAGAACATTGACATGAATCCCAT
TTATTGCTTAGAGCATCTCTTCACAAATCCCCCAAACTCTACAGATTTTCGGCTTCAACAATTTATTCAGATTCTCCACGTAAGTGACTTGGGAAATAGA
TTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGNNNNNNNNNNNNNNNNNNNNCGCCTCCCGTGTTCACGCCGCTTTCCTGCCTCAGCCTCCCGAGTAGCT
GGGACTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTGTATTTTTTGTAGAGACGGGATTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACC
TCGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCACGCTCAGCGAGAAATAGATATTTTTAACAAGGTCCCCAAGTAA
TTTTCTCTAACAAGTACAGAAAGCACAAGATTATTTCTCCCTGTTGTTTTGACTCGTGTGATTACATAATTGATCATTTAACTAAGAAATGAAAAGTATT
TTAGTGACTAAAAGTATTCATTGCACACATGTATTTTTTTTTCTGTAAAAAAAAAAAACCTGATGTAGAAGAATGTTTCTAAGCCATATAGGAACACAAA
TATTTTTGTTCCAGAATAACTTACCAGAAGGCCATGGCATAGAGAAATTCCCTCATTTCTATAAGTGTGCTTTTCTCTTGAATGAGCTTTACTTCAGTGT
TTTACTTGGGCACATGTAGGGAAAGAAAAAAATCATGTTCAAGTTGAGGAATAAGAAGAGTTTCAGATGAAGAGAAGCAGATTCTGGCACACAAAGTTGA
ACAGTGCAAAACATTGAAGCCCAGCTATACATAATCAAGCTGGCTRAGCTATAATACACATTAAAATAAAAGTTTTTTTCTCAATGGACAAAATTGGAAC
TAAGTATGTCTGACTGTTTTAGAGATAAGCACTTCTCAACTTCTAACATAAAAAGAGAAGCTGGTGTTTATGTGAAAGAATCTATGTAAAAGCCATATGG
AACTGTCTCTAATAAATATCCATTTAATCAAATGTCACTATGTTTTTGAATGTTTTGTAGTTTGATGCAGAGAATGTACTTTTATTTCTTCAGCAGCTGC
TCTTTTTAAATGGATGCAGCTGTACTACAGATTTAATTTGCAACAATTGCTTAATTTTTAGTTGGTTGCTTCTAGTCTTTCAAAAGCAATGTTTCATGTT
TCTGTGGAAAGATTTTTTTCCTAGAAAGTGCAAAGTACGATATGACGTAGGAATTAGGCAAATAAAAGTTTCTGCTTGATTTTTTTAAAACATAAAAGTT
GTATTTCCTCTCTTTATAGCACTGCTTTTCCTAGACATCCTTTTTTCAGACAACATTACTAAGGAGATTTGATGCCTACATATCAGTCTTCATCTCAAAA
CTTCTAAAAGAGGCCTTACGCGGTAGCTCACTCCTGTAATCYCAGCACTTTGGGAGGCCGAGGTGGGCGGATCGCGAGGTCAGGATATCGGGACCATCCT
GGCCAAAATGTTGAAGCCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGGGCGCCTGTAGTTCCAGCTACCGGGGAGGCTGAGCCAGG
AGAATTGTTTGAACCCCGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGTTGACATAGCGACACTCCATCTCAACAAAAACA
AAAAACAAACAAACTTCTAAAAGATTGTAAGCTGTAACAAATTCTGGCAARTGACTTGCAAATGAGAAGAAAAAAATCACGCTCATTCATGTAAAATGGT
ATCTGCTTTGAGAATAACCCAGTATCAAGTATGTGTTACTTGAATTAGAACTTTGACTTTTTAATATAGAGAGATACTTTTATCTTTGACGTATTTTATT
AAAATGTAAAGCACATGATGTTCCTTTCCTATTTCCTTATATTACTCTGTTTTTACTGTAATGTTTAGAAATCTACTTTCTAGTTTAATTGTTATGGAGA
AATCATCTTCCTGTATAGATTAAAATTCAATCTTTTTTGAACTCAAAGAAAAATTTGGAGGSAAAGATAAATATTAATGATGGATTATCTAATATTTGTT
CCAATCTCAACATGTTTTACTTCTCATAGCCTTTTATCTTCCAGATAAAATTATGAGCGCAGATGTATAGACATTTAAAATGTGATTTTAAAAATGTATA
ATGCTTTTAACTTTCCTCATGTAAGACTTGTCTATAGGGCTCTGGATGTGTGAGCAGGCTGCCTGGAACCTCCTAGCCTGCTGGTTCCTTTACTCCTCCC
ATATCCAACTGACTCATAGCTTAGTGAACAGTTTTTTGTTTTTGTTTTTTCTTTAAATTTTGCCTTCTTTCTGGAGTATTTTCAAAAATCTCCTTGTGTA
TATATTGGAATATTTTTAGCTGTTACCTAAGTACTTAATTTCTTTATATAGTAGGTCATGCAGACAGAATTCTGCAATACATACAAATTTGTATCTCCCC
TCCTCAAACTAGTCCCTCTGAGTTAAACAAAGTAGTTACTATAATTTCCTTGGGATTTTTATCTCTTAAAAGTATGCTATGCTTAGTGGTATGTATATAA
TTCAGTAATAGTCTGTTTTAATTTTTATATAAGGTTTTTCTTTAATATTTTAACTGTTGCTTATTAAATAAAACCCATTTGTAATAAAAACAGAGTTAAG
TATAATCAGTGTTCCCCCAAATCAACGTATCTCTCTTGTACAATTTCTCATCATATTGGGTAAGGGAAAATGTGATTTTTGGCGTATCTGTGATTTCTGA
AGGAAAGGGGTTTCTCTGTAGAACACAATGTGCTTATTCTTTTTCACTTTAACACTGGTATCTATTAATGGCTAATGAGCTCCATTAGGTTTAATCAACA
TTTCAGCAATTTTTGACTTGAATTTTGTTTAAACTTTCTGCTTTGTCTTTTACCTTTTGTTCTTTATTAYGTTAGCTCATTTAATTTTTATACGTAGGAT
AAAACATACACTTTGAAATGGCCTCAGAATTTGAAAGTATGGCTGTAAAGGGTGAAATCACTGATGTTAAGGGAACATAACTAATAATGGTCATTGACGT
ACGGATGACTAGAAAGGCCAGTTGTAATTCGTGTTTAAAAAATTACTATATCATCTTCAAAGATTTATTTATTTATTTTTGTTCCTTTTCTTGGTGTGGT
TTGTGTGTTGATGGGTGGTGAATTTGGAGGAAAGAAATGAGTCTTGAGAAAATACCTTGGTCATTCATTCTTAATATGTTTAGAGAATAGCAAACTTTCA
GCATATTTTATTGAGATCAAAAGTAGCATGTGAAATTAGACAATGAAATGTCAATTTTTGTATTAGTTTCCTGGGGCTGTTGTCACAAAGTACCAAAAAC
TGTGCTGCTTAAACAATAGGAATGCATTGTCCCACAGTTCTGGAGGCTGCAAGTCGAAGATCAAGGTGTCAGCAAGTTGGTTCTTTCTGAGGGCTGCGAG
GGAAAATCTATTCTGTGCCTCTCTCCTAGCTTTTGGGGACTCAAGCATTCCTTGGCTTGTAATGGCATTCTTCCCATGCCTCTTTTTATATGTCTGTCTC
TGAATCCAAATTTCTTTTTTATAAAGACACAGACATATTGGATTGGAACCTAGCCTAATGACTCCAACTTGATCATCAGCAATGACCCTATTTTCAAATA
AGGTCATGTTTATTCACACTGAGGATTAGAACTGCAAATATGTTTTTTTTTAGGGGGGACACAATTCAACCCATAAGAATTCTGAAACTTTGTTTTGTCC
TTTTTTGATTAGTGTTAATACATTTTCAGAGTACTTTATATTCTCAGGGCTTAGAATAAGACAAAGTAAGATTATTCATTCGAGTATACTGGGTTATTTA
GTAAGAAAATGGACTGAGATTTCATAATGAACTCTCTGCTGATATTGACATGAAAACTAGCACATTTTAAGGATTCACCTATCTACATTTACATGAAATC
AATGTTCTTATAACCTTCTGACATTTACTTACCTTTTTGTATTTACTTATATACTTAATTTTGCTTTTAAGTATTATTACTATCTTTAATGCATTTGTGC
TCTTTTTTAATATGGCAGGCTATGGAGTACAAAGATTTGTGTTTTTCTGGATTAGCAAAAAATAAAACAAAACTGTAAATCCAATCATTCAGATGAGTTC
TTTGGAACAACTGAGGAGTCTGTGGCCTGACCAACAAGACTAAGGACCTTACTTCACTACTATTTGGATGCCACGGCTTGAGGTTTTGTTAATATTTTAG
TGTTTCTCCTAATAAAATCCAAGGGATAGTTGTTCTTTTAGAGCACATTTATAAATTCTTATTTTAGCCTATCGCTGATAGACCTTTAAAAATATATTGC
CTTGACATTTATATTGATAGAGCATATATTAGTCTGTTTTCACACTGCTATAAAGAACTGCCTGAGACTGGGTAATTTATAAAGGAAAGAGCTGTAATTG
GCTCACAGTTCTACATGGCTGGGGAGGCCTCGGGAAACTTACAATCATGGTGGAAGGTGAAGGGGAAGCAATGCACCTTCTTCGCAAGGTGGCAGGAAGG
AGAATGAACACAGGAGGAACTGCCTAACACTTTAAAACCATCAGATCTCTTGAGAACTCACTATCATGAGAATAGCATGGGGAAGCCATCCCCATGATTC
AATTACATCCACTTGGTGTCTCCCTTGACACATCGGAATCATGGGGATTACAATTCAAGATGAGATTTTGAGTGGGGACACAGCCAAACCRTATCAGAGG
GATACATTCATTAAGATTAACAATTCTTACTTCCCAGTGTATATGTTCCTCATGTTTTTAAAAAGGAAAATATGATAGATGTGGTGATTTAGAAACTGGC
TGCTTCTATGTGGTTCACCTAATCCAAGATTTTTGCTTATTTGTTTGTTTTTTTGAGACAGAGTCTTGCTCTGTCACCTGTGCTGGAGTGCAGTGGTGCA
ATCTCAATCCACTGCAACCCCCGCCTTCCAGGTTCAAGCAATTCTCATGCSTCAGCCTCCCAGGTAGCTGGGATTACAGGCATGTGCCACCACATCTGGC
TAGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCCTGTTGGCCAGGCTGGTCTCCAGCTTCTGGCCTCAAGTGACCTGCCTGCCTTGGCCTCCCAAAG
TGTTGGGATTACAGGCATGAGTCACCACGCTTGGCTTAATCACAGATATTAAAATCACATGTTTGTTTGAGAGTTAGAGATACRTGTAGAGACTTTCAAA
GCATTACTTGAATTTTTTTCATAGTTTTTTAAAACTTTGTTTCTAATTATTGAAATAATCAATGCTTACTGAACAAATYTTAAAAAATAAAGAGAAGTAT
GTGAAGAGAAGTACTTAAAATCCAAGCATAATATAATATTAAATTTGACTGGCGTAGTGTCTATCTGTGAGTGTGTGTTCACATGCCTATGTGTAGAACT
AAAGAATAATTTAAATAAATTATGACTTATACAAATRTGAATGAATGTATGCCCAAAATTCCATTTAACTGATTGATTAATGAGGGAACCAGTAAGATGT
TACAACTGATTCAAATGAGAAGTTAAAGTATCACATACATTTAAAGTCAGRAAAGAAGTGCTAAATGAATTTACAAAAAGGTGCATAAGGCTGGACACGG
TGGCTCATGCCTGTAATCCCAGCAATTTGGGAGGCTGAGATAGGCAGATCACTTGAGGTCAAGAGTTTGAGACCAGCCTGGTCAACATGGTGAAACCCTG
TCTCTACTAAAAAAAAAAAAAAAAAAAAAAAAAAATTAATTCCAGCTACTTGGGAGGCTGAGGTGGGGGAATTGCTTGAACCCAGGAGGCAGAAGTTGTA
GCGAGCCAAGATTGCGCCACTGCACTCCAGCCYGGGCAACAGAGAGAGACTCAGGCTTAAGAAAAAAWAAAAAATAAAATAAAAAAAGTGGTCAGTTTCT
ACAAGGCAATATTCAATTGCATTCCAATGGATACAACATCCATTTCTATTTTTGTTATTTTTCTGTTAGTAAATGAGATTGCTGTCAGTTTCTATTATTT
TCAGAGTTGTAAAATGGCTCAAAGACAATAAAAGCCAGAGAAATGCATGAGCTAGTCAGGGAACCTACTAATTTGTCATGTTTTTTCTTTTTGCCCATTT
TGAAGTTTTTCACACAGTTTTTAATACAGCTCATATTGATATATATTCTCATCAGTTGGAATTATGTTTTTATGTTTCTTCACATAGAGCAAATATAATT
AAAAATAAAAGCATAATGCATATTCCTTCCTATTGACATTGATACTATCTATAGCGTTACCCAGGAGCATTATGAAATGCACAACACTTAAAACCAAATA
AAACAAAAATACCCTTTCCTTGAGCTCTTTACTCTTGGGGGGCAAGAGGGGCACTATATTATCCTTTTTACCTTCTTCCTCCCAGTCAACCTCTCTCTTT
TTCACGTACTCTACCAACATCCCCACCCAATCTCCCCTTATGCCTCCAAAATTAGTCCTATCCTGATTGTGGAGTTTGGGGTTTTCTTTGATTCAATGGA
TGATACCAGTCACACCATTTGAAAAAAGCATATGACAGTGTTGTTCAGTGTTGGTGAACAGGAATTCTTGATATTTATTTTTAAGGATTCCAWTTAATTG
CTAATTACAGATCTTTGTTAAATTAAGCCGACCTTCACTCACATTTAAAAAATTTAACTTTGTTTTGGTTTTCATGAGACAAATATCTCTCTTTAAGTGA
ACAAGCTTTTAAAAGAATTAGCTTCTTCAGTATGGAAAGCAAGATGCAATTCGCAGCTGGTGCAATGGCTTACACCAGTATGTAATCCCAGCACTATGGG
AGGCCGAGGGGGAAGAATCCCTTGAACCCAGGAGTTCAAGCCCGGGCTGAGTGACACAGTGAGACATCTTTACAACAACAACAACAAAAACAAAATAACA
ATAACAACAAATAATTACCTCAGCCTCTCGAGTATACTGTAGGTACAAAGCCACCACGTGTACCTGTAGTCCCAGCTACTCGAGAGGCTGAATAGAGGGA
TTGCTTGAGCCTGGGAGGTTGAGGCTGCCGTGAGCTGTAATTGCACCACTATACTGCAGTCTGGGCAAGAGTGAGTCCCTGTCTCCAAAAAAAAAAAAAA
AAGAGAAAAAGAAGCAGTTCCCCTAATGATTCTGGATCATTATGCCAGAAGTATCCAGGTTCAAAGCGATATTTTATATTTTAGTAAGTAGTTTTCACTA
ATAATTCTTCAGCAATCAACGAATAATTCTTCTGGAATACATCAATTGTTTGAGAATCATAAAAGAGATTTCCAAATACCGTACTCCAAAATCAGTAACA
CACTCTGAATCTGAATTGGGCTATGTAAATGTCTTCAGTTTACAGTTAAGTATAGATTTTTACTTGCAGTTATTTTCTCTTAGTCATTTCTTTCCTTCAT
TAAGGACTTCGTATTTTATTTTCATTTGCGTGCATGGACAAGAGAATGGATGCATTCATTTTGTTGTTTCTAGAGATGAATACAGAAAATGCCTAGTGAA
GACTGAGTCTGGCTGTGATTTACAAAGTTGGAGCGTTATAGCCAGTAAGCCTGTCAGGCAGCCCCTGACAGCAGAAGCAAGTCTTGAGGTGGGCATGAGA
AATGACAGCCTTCTTTATGCCAGAGTCTTATTACCATTTTGATTTAAAAAACATTGTTTTGGGTCTCAGTAAACTATTGTAGCCATGAAAATGAGATAAA
ATAACTATTTGGTTTGTCCTATGTATATTCTATATATGAAAGGAAGAAAAATCAGTACATGGCTATCAGTCTCTACAGAGGAGGGGAAATAATTTGTGCT
TAGATATATTAATGCCTAACTGATGTTTTATATATGTGATCATAAGATATGTCATTTACTTAAAATTTATAGTTAATCCCCTTTTTTGCCTCACCTACAG
ACAAAATGGCTTTATTCCAGCAAAATTAAGTCAGAAAATAATGTTCACTGATTTAGATGTTGATGACAGATGGGTCTTAGGTCAGGATAACAGCTATGGC
TGGGAGACATTGATTGTTAACATTTATGCCCCAATAATGAATGACCTGAATTTTTCCCACATGTTTGCTCAGGAAACACAGGGCTGTGGAGGTSTTGACG
TCATAGAGGCAGAAGGATTTGGGGCCAGAGTATATTCACTGCTGGCAGTCATTCATTAGTAAATCCTTGGTAAGAGAGTTGGATTTGAGTGACATCTGGA
GGCTTTCTATACCTAGAGATGGGGGAGTTCTGGGTTTGTATTTTTTTCTGGTAAGCTAGATTCATCTTTTAGGAAATACCATATATATAATTGATGGGTT
TAACATTTCACATTGAGAGGAGGTGAAAGATTGAAAGAATTGAAGAAGAAAGATTGAGTTTGTATGATTTTTTCCCCTGAATGAATTTGGTTAATTTAGT
GTTAGGTGCTAATATAAAACATTGCTTGAGCCATGTAGTGTCAGGAAAACATATCTGTTATTAGTTCTTGGTTGCCATTTAAAAATGGAKATTGAAATTT
CCTTTACCTAGCAGGAAAATTACAACAGTGATCCTTGAATATTTGGAAAGGACACATACATTCCAAAGTGTCTAGTGATGAGGCAAAATTGTTCATATTG
AATTCCTTTTTCTTGCTCAAGGCCATTTCTGGAGGAAACTTGTAATATTGGAGAAGTTACATGAGCACATTGTGTTTGCTGCATGGAAAGGAGAATATAA
GGCTTCTCAGCACAGTGGCTAAGCAGATCAAGAGTTGAGGTTAGGTTAGCAATCATGAGGCTGAGGTGCAACTTAGACTCCAGTCCCCTATAAAATATAC
CTTATAGAGTTTAGAGATTTGATGCAATTCAAAGCAAATTTACTATRTTGAACATCAGCAATGTCCCAAAGAAGACCATAAAATTCTGTGGTGGTTAAAA
TCTGTTGTTTAAACATTAGAAGTATAATATTAAACATTTCTTTCTGTTGGTTCTCGTCCCATTAGAAGAGCTAGATCCTAATAGCTCTTTGGTACCTTAT
CAAAACAGGAGAAACAATAATTTAATGATCCTTTAATCCAGGGGTGGTGGCTCATACCTGTGATTTCAGTTATTTGGGAGGCCCAGGATCACTTGAGGCC
GGGGAGTTTGAGACCAGTCTGGGCAACATAGTGAGACCCCGTCTGTACCAAATAAAAATTAGCCAGATATGACGGTATGTGCCTGTAGTCCTAGCTACTC
AGGAGGCTGAGGCAGGAGGATTACTTGAGCCCAGGAGTTTGAGGCCCACTGTAATCTAGCCTGGGAAACAGAGTGAGCCTGACTCAAAAAAATCCTTTAA
TACTTTTCTATTCAAGAATTTTTCTTTTCAGTCCAAGAAGATCAATATGTTACCAACAAAGCAATTTCCCATCAAAATGGCATCTTTGCCGATTCAGTGC
CACAAAACCAATACCCAAACCGAAAGTGAACATCTAGCAGTGCAGGCTTTATTGATGGCATGGGATTGAGAAGCTCAAGAGAGCTGGGAAGTCACAGAAA
CAGGCATCTCTAATGAAAGGGTTGGGTATTAAAAATAAGGGGACGAACATTCGTGTTTTCTTCTGGGAACGGGCAGAGAACTCCTCAAAACCAGAGTGCT
GCCTTCCCTCCCCCACCTTTTGTTTCAATGGGTTGTTGTCATGGTGATTGTAAACTGTCATGGTGCTGTGAGGTGTATCATTTAGCATGAAAATTAGATT
ATAAYGAAGTTAGAGTTTCTTCAGAGGTCAAGAAAGCTGCCATCTTGGATCCCGCTAGTCTTGGCCAGTTTGGTCACTAGGGGGACTTTTGACCTCAGGT
GTCCCATTTTTAAAGATAAACAGAGTTAAGGAAGGATAGAAATTCACCTATGTCATGTAGGCATCATACTGGGTAACAAACCTGCAACACATTGTCTAGA
CCTCTGTGTTAGAGAATGATTATTCATACTTTATGGAAAGACCTTGTAGTTAAGATTGTCAAGTAATATTTAACTACAAAGTGGATTGTCTGCCTTAGCT
AGGTTACTCTACCGGTATAATCGAATCTCTTTACAGTAGTAGTTAGTAGTAGTAAGTAGTGTCCAATGTTACTGCGTTTTTGTTTGAGAAATAATAAAAT
TCAAATGTTGTAGAACTATAAAATATACAGATTTAAATTCCCTGTTGTAATCTTACTTCCCAGAGAAAATTCCTGACGATAATTTAGTACAGAGAGTTTT
TTTTTGAGGCAGAGTCTCGCCGTGTTGCCCAGGCTGGAGTGTAGTGGTGCGATCTCAGCTCACTGCAACCTCCATCTCCCACGTTGAAGCTATTCTTATG
CCTCAGCCTTCTGAGTAGCTGGGATTACACGTGTGCATCACCACGTCCAGCCAATTCTTGTGTTTTTAGTAGAGATGGGGTTTCACCACGTTGTCCAAGC
TGGTCTCAAACTCCTTACCTCAAGTGATCCTCCTCCCACCTCGCCCTCACAAAGTGCTGGGATTACAAGTGTGAGCCACTGCAGCAGTCCTAGTAGTCTT
TCAATACTAAAATGACACATAGACCAGCATAGTGGGGGAGGCAGGAAGTATTGCAGGGTGAGTAGAAGCACAGCACAGCCTCTGGAGCCACAGTGTCTGG
GTTCGAATCCTGTCTGCTATTGTATGAGTCACAGTCTGGGCAGGAAATAGATGACTCAGGGGTCATTGAAGACTTTGAGGAAGTACCTAGTTATAGAAGT
ATTAAGAAAAGCAACAAGGAATGATGAGGCAACCTGGGTGCCCAAAAAGTGAAAGTGGTTATCACTAGGACCAAAGGCACGAGGAGAGGGAGGTGTAACT
GAGACCCAGTGAGAGCAGTRCCTGTGGGAAAGGGGCTACTGAACAGGAGCTGTGGCTATGGGTAGAGAAATGCAGCCACTATTGGATTACGCTGCTGCAC
TGAGCAGGTGGGGGCAGGGCAGCGAGGGGTGATTATAAATACTCACCTCAACCTCCTTTCTTTTATTCCACACTCACTGATGGTTACTGTCATGGGCTGA
ATCCTAACAAGATCCATGGACTCCAGAATCCAGGTGTTGTAATTTGTAAAATCAGCCTCTTTAGGGCAGAGGAAAAGGAAGGAGATGAGTAAGGGTGGGG
TGGTGGTGGCGGGAATAAAGACTTACAAGCAAAAAGCAAAAACACTTACTAGCTGTGTTTGCTAGCAAGGCACTGTGTTTCCTAGTAACTCTGTGCTTTA
TTTTCCTTATTGATTTAAAGAGGAGAATAATAGAACCAATAATATAGGGTTATTATGAGAGTTAAATAAGTTAATATGTATGAAATGTGTAGGTGAGTAC
CACCTGTATAGAAATTAGTCAGCAAATATTGTCAATAGTATCATTAACACTTTATAGATTAATTCATTTATGAATTATGAATTAATTTTACATGCACCTT
TTAGCTGTTTCTGATTTTTACTTAGCAGTGTATCTTGATCACCTCCTTCTCTGTCTGTATATGTACATATACATATATGGACAGTCAGCCCTCTGTATCT
GTGTGTTCTGCCTTTGTGGATTCAACCAATTGTGAATAGAAAATATTAGAAAAAATAACAGTACAACAATAAAATAATATAAATAAAAATAGAACTTACA
TAGCATTTACATTATATTATGTATTTTAAGTAATCCAGAGATGATTTAAAGCATATGAAAGGATGTGTATAGGTTATGTGCACATACTATGCTATTTATC
TATGAGGGTCCTAGAGCAAATTCCCCTGAGATACCAAGGGTTGACTATATGTACATATACAGACACACAAACACACACAGATGTGCCTCACTTCTCTCTC
TCTCCACACATTCACACTCACACCCATTCACAAACTACTTTTCTTTTTTTTTTGAGGTGGAGTTTTGCTCTTGTTGCCAAGGCTGCAGTACAATGGCGCA
ACCTAAGCTCACCGCAGCCTCCGACTCCCAGGTTCAAGCAATTCTACTGCCTCAGCCTACCAAGTAGCTGGGACTACAGGCATGCGCCACCAAGCCCAGC
TAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGACCTCCCAAAGT
GTTGGGATTACAGGCGTGAGCCAGCACGCCTGGCCGCAAACTACTTTTCAATGGCTTCAGAGTATTCCAATGTATGGATATACCAGAATACACTTAAACC
TTTCTGTTTACAAGGGGATTCAGACTATTTTCAGTATTTTACCATTATGCACAATGCTGTAGTAACATTTGAACTTCTAACCTCTAATTTTGGATTCAAG
TGAAGCAAGTGAGTTTTGTGTATTTTGAGTCATCTAGATTAAGTTGTCTTCAGGCCGCTCTCTGATGAGAAGGAATGTAAATGAGTGACATTAGTACAAA
TATTCAAGTGGCTGAAGCCTTTTATTTTTCTTGGTCCTAACCCAATTCAATTTTATAGAGAAAAAGTTTATAGAGTTTTTACATGACCTTTAACTTTATT
GAAGAAGAGCTTTTAAAATATTTTCTTGATACCACCATATGCCCTGCACTTAGGTTTCATATTGTTTATGAAAATATTGATAGCTGTGTAATCAAATTCA
GGGCCAAATATTTTCAGTGTTTGATTTTATTGTAATGTGGTCAGAGAAACATAATTATAGGTGAGTGACTTGAAACTCATGCTGTGTGTAGGTACATTTC
TTAACAGAATAATGTATCTCGTGAGTGTTATGTATGTGTGTCTCTGTGTGTGTTTGTGTGTCTCTGTGTTGTGTGTGTGTATAGTTTTGTCCTCAAACTT
ATTTCTCCTTACATGATAAATTATGACTTTCCTTTCCTATGGAATAAATGTTACCAGTTCAAGTTGACCAAGTGTGAAAACAAGTGACATTTATTTCCTG
CTTTCCTACTTCTGGGCAGAATTGGAGTGGAAAGTAATACATGTCGTTCTGCACTGAAATATTTAGGACTATTTTGCCCTGTAGTAGACAATTTAGGCTT
AATAAAAAGGTTTCCATCCAGTGTTTGCTAAAGGTAATTGAAGAGAATTGGAGAAAATAATATTTTAAACAATTCCGCAAAAAAAAAAAAAATACATAAA
TAGAAGCCSTATGTTTTGATGGCATTGATGGCAGTCTGTTCTAAATTCAGTACAACTGTGTTTCATCAGATAAGTTACTTAGCACAAATGTGATTCATGT
AAAGAAACCGATTCTGAATCATTATTTATTTATTTAAACATAGTGTCTGTCTAAAATCATTCAATTTGAGAATTCTTCCATATGGACAGTGGACAAGAGA
ATGTTCCATGAATTTTTATATACTCTCCTTTGCCCTAAGTCTGCCTGTTTGAAATGTGTTCAATCAATGCCTGCTTGGAGTTCTGCTATCCTCTTCTTTC
CTCTCCTGTTTTCTTGACCATTCTTCTTGTGGTCACCAATACAAGTTCTGTTCATCTAGTTGTCTGGGCTCTGGCTTGAACCTTTATTGCTGGCACTTAG
CATAACAGCTAAATACTTAAAATGCTTTCATTRTACCAGATTTTGGATTTCTTTAATTTGTGACCACAAGCTCAGTGTTTTGAAAGGTAGAATCATACAA
AGAAACAACTATAATCTAATTAACCTAAGATAAGTAGTTAATGTTTTATGTGTCTTCATCATTTTATATATTTTACATAGAACAATATACTTAATTTTGA
ATATTCCTTTTAAACTTGTCTGTTTCACAGGCATTTTTTTCTGTATTAAGTTTTCAAAAACATTTTTAATGGTCATGTGCCAATTTTTTTCTATGGCTAT
TACATAACATTCTCTCTTGTTAGACATTTTTGTTGTTTTCGACTTTTCCCTACTRCAATTAATAATGACATGAAAAGTTTTGTATAAAACACTTCAAGTT
GCAGAACATCTCTTTACAGAATATTCCTAGAAGTGGAATTATTAGGCCAAATGGTAGGAATACTTTTAAGCTTTCTGTATATGTTGCCAGATTGCTTTTT
AAGAAGGTTGTACCAATTTACACTCCCACTAGCAATGTAGGAGAGTGCCTGGTAACTTTTTAATTGGATTTCTTTGATAAGAAACTAAATGGACAACATT
TAACTGTTCATCAAAAAGAGAGAGGAGTTTGTTGAATTTCTGTTATTGCACTAAAGGAATTCTACATGTTAAAATAAATCATTTAATTTTTATTCTCATT
GTCATCAGACTATAATAATACTGAATTTGATTCACATTTCCCCCTCTTTCGTACTCTTAATGTCAGTACAAATAAGCAAAGGTTACAGAATACTGTGAGA
AATGGTGAGAAATGGGAGCTGATTCTGTGCTACTTACTCAAGAAATCATGTGCTGTTCTGTGCACACTATCTGTCTCATCAGTAAGGAGGAAAGAGATAG
ATGAGTGCCTGATACCAATTAAGTATTCCATATGTTTGATGTGTGGATGCATAAATGAAGTGATGAAGTGATAAGCTCAAAAACCTGCTATTATTGAAAG
GCCAGAGCCATCCTTTGCCATTGTGGTATAAGTGGACAAGCCCCCTTACACAGATGAAAACATGGTTGGCTAGTTACCATTATGCTCCTTAGAACTTGTT
CAAGAGGACTTCAGGTCACTGTAGTAGAACCACCTCCACAAACAAACCAACACAATTCTCAGAGATCTGACGTGACAGCTCTGATTCCTGATGTTCTCAT
GGACCTGGGTACTCCACATCCCACCCCCCACCGCCACCCCGCAACACCCCGAATTCTCTCTCTGCTACCTCATGGGCCAAATTCTTTTGGGATCCATACT
AAGAATTTATTTTGGCTCTTATCAATGAGCTGTCCACGTTCCGTTGTTGGAATTCATCCAAAATTAAGTGCCTGACTTCAGGGTTTAAGAAGTATACTTT
TTTAGATTTTGCTTTGCTTTGCTATGTTGGATAGAAAAGATATTGGTACTGAACTTTAGCTTCTATCTTTCACGAATATGGGCTTTGTGCTCAAAGAGAA
AAGTCTTCAACCATGGCTGCAGGATTTTTTAAAATATAGGACAAATAAATATATACTATATGAAAGTGACAGAGAAAGTTGAACAGATTCCAGAAGAGTG
TAATTTATCTTACTAATGATGCTCTTAGCAGGGAGATGAACTCAGGAAACATAAGAGAAGTTCCATGAGGACGCCTTGTACTTGAATTCCACTTGCTGTA
GTATCTCAAAGTTTCAGCGTTATCTTGGGTGTTTATGTTACGTGTTGAAGTGGGCGCTTATTCTATAATGGAAGCTATATTATTAGATMCTTCTTCTCAA
AAAGCCAGTCAAATCGCTTTAATGAAAACTGTAAGTAGTTGTGCTCTAAAGAGGATGCAATTATTTAGGAAACATTCTCATAAGATTTAAACCAAAAGCA
ACTTAATGTGATTCTGATACAACTGATTAAGTACTTTATAGTTGTCAATCCCAGAAACATAACTTATCTCAATTGAAAAATGTATATAACAGATAGTAAT
TTTTATAATTTATTACAATTGTTATATGAAGTCATATTTAAATTATAATAAATTATATATAAACTGATTATTTGAAATGTAATGAGTTCTTCATAATCTC
TTAACTGAATGGAGGGCTGTATTCTAAGAGTCTCCTCTATTTTAATGTTAACAAGATAAAGTCTTGGGCAGGTGTTTCTGCTATAACGTGATTTTAAAGT
TTTTAAAAAACATAGGTTCTACAAATTGTGCCCTAAAAAAAAAAACAGGATCATGAGAAAACATAATAATTCTAACCAAAATAATAGTGGCATTAGAAAG
ATATGTTAGTACAAATAAATAAATAAATAACTGATATAGTCAATATAAACCTAATCATAGAAAAAGAAAAGATGAAGGTGGATTATTCAAAAGAGATGGA
AAGAAGAGTTCAGAGGGTGGCAAATGCAAAATGCATCAAAATCAGGAAAACAAACATTGGGTATTTCCAATTAGAGACTCATTGATCAAATAGAACAAAG
AAGAATACTGTGCAGGTAAGGTTTATGGATTACTCTATATATTACTCTTTGCCCTGTTCTGTTCARTTGTGTTAGTATACTTTATGTTCTGCTGCTGTGA
TGACTTTGTGATTAAACATTAACCAGCTCTCAGGGAGTGGGGAGGAAATCATGTAAGTCAATATATCTTTTGCTATCCCACTGTTTACCAATTGCGTATG
AGCTAATTAACTATGCAGAAAYGTGTTATAGCAGAAAAGATTTAGTAGTGTTATAYGGTAGGCTAAAAGGAGTACTGGTTAGAAAAATTATCAAACTATA
TCCTATCATTTTTCCATTTATCCATATCAAGCATTTTCCACTATAATCTCTGTTATGTAAACTGGTAACTATACCTATGTTGTTAAAGGAAAATTTACCC
TAATGTTAAATAATATAAAATCCCAAGTCTCATAGATTGGTGGGCATTGTGGARCTTGCAGATTAAAATATACCGCCCACCCCCCCAACTGAAGGAAATG
TAGGAACTCTGTATAGTCAGCCTTCTGTATCCCTGGATTCTACATCCATGGATTCAACCAACCTCAGATGGAAAATATATTCAAGAAAAAAAGTGAGTGA
GTGTGTCTGAACTGAACATGTGCAGACTTTAAATCATTATTCCCTAGACAGCAGACTATACCAACTATTTACATAGCATTTACATTGAATTAGGTATTAT
AAGTTATCTAGAGATGATTTAAAGTGAACGGGAGAATGTGCATAGGTTATATGCAAATACTATACCATTTTATATCAGGGACTTGAGCATCCCTGGATTT
TGGTGTCTACAGGGTCCTGGAACCAATCTGCCATGGATATCAAGAGATGACTGTATTCTGTAACTCTTTTCTGTATCTCAGATTATTTCAACATAAGTTT
TTTTAAAAAGGCGTTTACTTCTTCAAGCTTTGTCTTACAGGTAGAACCTATCTCTTACTGGTAGAACCTATAAAATTGAACATTTTTTCACAGATAAAGA
GTATAATGATGGAAATGTTTCTTTTCCTGTTTTTCTTTTTCTCTTTCCTTGCTTTCTTTCCTTCCTTCTTCCTCTGCCCCTCTGCCTCAGTATGGATGCA
AAAAGGAACAGCAGTAAAGGCAAGAATGTAAAGTCATTGATGCCTCAAATTGTCATGAAAGAGAAGGACCAATGATCATCTGTATGTTATACTTTTTGGT
AGAAAATTGGCATATGCATGTGTTTTTGCACTTTTGGGGCCATGGAAAGTAAGGATTAAAAAATTATATCCTGTGGAGTCTGAGATGGGTCCTGTTGTGT
GCTCTGACATCAGCAACCCTGTGACCTTGGACAATTTACTTAGTCTAACGGTTCTACAGTTTCACATTTATATGGTAGATTKAAGACCATACTCCTGTAG
AATTGTTGGGAAGATTATAAGAGGAAATACTTGTAAAATGCTTAACGTTGTGCCTAAGGTGCAATAGTGTCTCATTGGCTACTGTGGACTTGTTTGAAAT
TATTAATCTTTAGTCATCTTTGTATATCATTTCCATGGACCCTTACAAAATGGTTAGAGATATGCAGTGAATAGAGAGACTTTCATAAGGATGCCGATTA
CAATTTGACTGTGGATTGTGCCCGAGGTTGTTCCTTGTATCTGTTTTAGAATTTATAATAACAAAAATGAAATTAACAAATTGATTTTTATGATATAACA
TATATTTAAGGGTCAACTGTTAGTATTCATATAATTAGACTAATGATGCAAAAACAAACATTTTAAACAAACCTTTCTTATTAACCTTGTTCAAGTTAAT
AAGATCCAGTAATAATGTCATCCAAGTAGTGTACATTTTTTCTTTCTCTCCACCCCGATTCTGCTACCTTTACATATATTCAATTTTCTTGTTATTTTAT
TGAAGTACAATTTGTATGCACTAATGCACAAGTCTTAAATGTACGGTTCAATTAGTTTGGCCAATGTATATAACCTGCATATATTTTCTCAGSTCATATT
ACTAGTTCCTTTATTATAATTAACAGCATGCAACACATTCTGAGTGGTAACGAAGGTCAAATGTATGTGGGGCATTTTAGCTGTACGCTTGTTAATCCTC
ACAACCCCACCTGTTTCCTACTATTATTCTAATTTTACTGATAAGAGCTGAGTTTAACAAGATTAAATGACTTGCTGAGGGCACCAGCAAAGCCTACCTT
AAAACACAAGCTTGGGCCCTTAACCAGCATACTACACTGTATCTCCTTCACTGCCGAAGAAGCAAGAGTCTCTGCCACCTGTCTAGGTTTCCAGAGTTTC
TTTTTCACTCTGWTGAAATTCACAAAAATTCTCTTACTCAAACTTATTAGTTATTGTGTATTATGAGAATATTTAAATCAAAATTGGATCCAAGTCAATG
TATAGGGAGACATTTAAGAGTTTTCCTGTAAGTCAAGGGTGTTCTTGAAAAGAGAACTCAGATACCGTATTAGATATGATAAAGTAGAATACATCAAGAG
CAAAATATTCTAATTCGAATTTAGTGCATTTTATCTTACTTGGAATATTATTGTCTATTATTTTTAACTGATGGCAATACATTTTGATGCTCAAATAGCA
TTTTGTGTACATTGTTAAAAAGAAAAAGATGATTATCTTTATACTCTGAAGAGAATACTTACCTATATTACTGAAAAACAGTTCATAAATCTAAACTTAG
TTCTCTAATCATTTTTTATTTAGACTTCAAATATTTTCTTCCATGTGATATCCTTTAAAATGTTTTCTTTTCTTTCTTCAGGATTTTTTTTCTATGTTTG
TTATTTGGGTCATTCTTCAGCCAAGTTGCTAAGCAGAAATCTGTAAAGTAGTAGTTTAATCAAATATGTTCCTCAAGTTGTTTTAAAAATATGTATATTT
GTATCTTGCTGCAGGACTTCTCTAATTTTTTAAAAAATTGATCGATGTGTAAGAGGCTTTCATTCTTTCTTTCTTTTTTTTTTTTTTTTTGAGACAAGGT
CTTGCTCTGTTGCCCAGGCTGGAGTACAGTGGCGCCATCTCAGCTCACTGCAGCCTCGACCTCCTGGGTTCAAGCAATCCTCCTGACTCAGTCCCTGAAG
TAGCTGGAACTACAAGTGTGCGCTACTATGCCCAGCTAATTTTTGTATTTTTAGTAAAGATGGGGTGTCATCATGTTGCCCAGGCTGGCCCTGAACTCCT
GAGCTCAAGCAATCTGCCCACCTCGGTCTCCCAAAGTGCTAGAATTATAGGCATGAGCCCCGGCAGCTGGCCAAGGCTTTTATTCTTTCMCTGTAGAGAA
TTTATAAGTATTACAGCTAAACAAGAAAATAACGTACTAATGTGGATTCATGGTTCAGGCATACAAGTTTTTTCTCTTAATACTAGGTTCTCTCAATTCT
GTGAACAAGGAGTTGTACTACTTTTCTCTTTGGGCTTATGAAACATCTAGAATAATTAAATCAGAAAAGGGAAAATATTTGTTAAGTCAAAGGAAGTATT
TTCTTCATCTTTGTAAACATAAGTCTCTACAGCACYGTAATCCATATAACCTCAGCGTCAAGTCAGATTTTTTTTATTGCCTGAAAACTGCTAAGTGAAC
ACATTATATGTAAAATTAAAGTAGTGGAAGTATACATGATTGAGCATTTAAACTGGTTATATGCAATATTACTACTCTAAATAGAAATAAAATTATTCTG
ACAACCTTGTTTGTGCCAAGTTTTTGGTTATTTAAAAGGAGTAAAACTTTCTATTTACTTCAATAGACGTGATGTGAAATTATTCGTAGAGCGAGGTAGT
TAAATTTTGTTTGCTTGTTTGCTTACCAAATCATACCARAAGAGTTACTTTTTGTTCATTTAATGAGTACTTATAAAAAATGAAGCTATTTTTTAGTGAT
TGTAAATATTTAAGTGATCATTCCAGACTATTTTGCAAAATTCAAGTTAGTTTGATGCTGTAGTAATACAATCAAAAAAGGATTCTAGATTTTGAGAACA
AAGATAATAGAAATGATTGCATCATGCTTTTGATGTATCAATTTAGCACATTAAGCTGTCATTATTCCAGTCTTATGCTAAATAACACCCCACTTCATGC
AGTGCATCCTGATATGATATTAAATATATACAGACTCATTCTGATTTTTATAAACTGTATTTGTTAAGCTTTCCAATTTGTATGAATGAACTTTGAAGCA
CTGGGGAATACGGATAATTGTTCACTAATTTACAAATGATACTTCACAGAGTAATATTAATCCAAAAGATAATAATCACATATATTTTGTGAGGCTATAG
AGGAGGCTAATACCTTAGATGTATTTTGTATGAATTACTGTATCAGTTAGGTACTTCCTATTAAATCACGTGACTGACTCCATTCCCAGATGGTAGATTT
TCAGTTTTATAGATTAGCAGGTCTAGGAAAGAGTAAGGTTCAGCTGAATGCTACTGATCACTTCCAACTTCTTTTTATTATCTAAAATGTATCACTTAAG
GTATGAGTCTCACAATCATACAGAAAAGTATATTTAGTCAAAAGGATGGCTAGTATGGTTAGACTTTAAAGGAACCATTGGAATGAATCCCCGCTACCTA
GAAAACTCTTCTACTAGGATATATGCCTATGACTTAATCTGTCATCTTATTTGCTCATAATTCAAATGTTCCTTGCCAGAAATACCTTTCCTGAAGTAGT
TCCCCCAAAAAATGTTTGTCTGTAGTCTGTCTTCCTTACTAGAGTGTGATCAGGTCAGGGACTTTCCCTACTTGGTTCACCTAGAGCAGGTCTAGCAAAT
AGAATGCATGTGTATTTGTCTATGGAATACATGACTGAAAAAGTGAGTGACTATAGAGGTAAAAAGAAGTTTTAACATCATCCAATCTAACCTTTCCAGT
TTATATCAAGGAAACTAAGACTATGTATAAAGGAAACTAATGGTTAACTGAATTCCTCAATTATTTCCATGGATTGAGGAAATAAATACCAGAATCACAG
TTCAGTGCTTAGGGACACTTCGGGACATTCACTCCTGCCAATAGAAGATGGTTAAGAAGTGGTGTTTGGGAGCTGGACAGACATAACTTTGGCCAGAGTT
TGAATCCTAGCTATACCACTTACTAGCTATGTCCCTTTGTGAAAGATATTTAATCTTTCTAAGTCATTTTCTTCGACTATAAATGGAGATGATGCATATC
TCGTTGGATTATTGTGAAGCCTAAATGAGATCATGTATCACAGAGCCTGGCACAAGGAAAACTGTTATAGCTGTCATTGTCATTATCATCATGACCGTTT
AGTCCTTATATAAATTATATAGGCATTTAATCCATGATTTTCTATAGTACCACGGTAGTATTTTTTCCCAAACTTAATGTATTTAGAACTTAGTTCACCA
CAGATGATATATGAAGTTTATGAGGTTGATATGCTAGTTTAGAATACTAGATAATACTAATATGAAATTTGGTTTCTATACTAGTTTATAATACCAGTTA
CTATTAAATACTCATCAATCTAGTGTTTCTGATGCCTGGACTTTAACAGGTATTCCATAGAAAGACTACACTTTTATCTGTAATAGATTTTTGATATAAG
AAGGATGCAAATTCAGCTACAGAGGTTGAAACTCTGTGGAAAAAAATAATTCAAGATAAAATGCTTTTTTCTCCTCCTCATCGATTTTTCTATCCACAAT
AGAAAAATTCCATCAGTCAGAAACCATTCAGGAGAAGATATGGGTAATGTCCTAGACATATAAATTATATAGATGCATATTGATCATTCCCTATTATATA
GAGTGATCTAATTTGAATTTCTATTTTTTGAGACTAGAGTCAGACGTAATAATATTATTTTAAAAAAGTTGTCCAGATGCATGTTATTATGTCATAACTA
CCTTATTTCAATACATTTCTGTGTTTGATAGTTTTGCTTATTTTAGGTTCTAATTTTAAAATATACATCATTTTTCATATTCTTTAGAATTTATAAACCA
CCCTAGAATTTATAAACCACCTTTAATGTGTCATCATTAAATTGTAGCTTTCAAATGTAACAGAATCTGTAATTTACTGTTACAATTAGAAGATATGAAT
CAATTCCTTAGCTTAAAATTTTTTGTTGAAAAAGAAAATACCATGACAACTGACTGTCTTCAGAATCATCTAGGGCTGATTGATTCATAATCTAAATTTA
GGGATTGTTCATATCAGAATCTAAGGAGGACTTCACRTTGCATTCATTTTGTTAATTCAGCAAAAGTAGTACTAGTTAGATCTGGGAAAGTGGATGTTAA
ACTTTATGAATGCCAGACTGGATTATAGTTTTCTCATTTGTACAGTTAGCTTAATGATTTCTAAAACCTTTTTTCCTTTATTTTCCTTTTCCTTCTCCTG
TTACTCTGTTGGTATTCTGCATGCAGATAAACATGTGTATCTACATGTAACATGTACACAGAAGCCAATTCATATATGTGAAAAAGCTATTCACTCCTGA
CCACAGAGAGCATGTCTTAGTTTTCTTTAATCCTGAATGCTGGAGTCTGATACATTTTAGACTTTCAGTGAATATTTCTTGAATAAATTTTAAAATATCT
CTACATCTATTAAAGAGACCATATTCTTCTAAGATGACTGTATTAGTTATCTATTGCTGCTATTACAAATTACTGTAAACTTTAATGGCATTAAAAACCA
CAAATTTATTAATTTTATAATTCTATATAACTATACAGAACTGTAGGTCAGAAGTCTGACATGGACCATACGGAGCTAAAATCAAGGTGCTGGCAAGGTC
TCATTCCTTTCTCAAGTATCTGAGAGGGATCTGTTTCCTTGCCTTTTCCAGCTTCTAGAGGCTGCCCAAGTTCCTTGGCTTGCGACCCTCTTTCTCCAGT
TTCAAAGCTGGCAAAGGTGAGTTGATTCCTTCTCACATCACATCACTATAATTTCTACCATCTTCACGTCTCTCACTATTAACTCTGGCCCTCCTGCCTC
TTCTTATAAGTACCTTGTGATAACATTGGGCCCACCCAGAAAATCAGGATCATYGCTCTAACTCAACATCCTTAATCGCATCTGCAAAGTAACTTTTGCC
ATGTACGATAACTTATTCACAAATTCTAGGGTTTAGAACATGGACATCTTTGGGGGCTGTTTTTCTGCCAGGCACTCTGAGTGTATGCCAGTAGCTGAAA
GCACCAGAGGTCTTTTCCTTGTAATTATACAGGGAAGTTGCTTTTTTGCTTAGCAAATACAAGTGCTTAGGCCAAACCTGTCTGAGGTTTTAGCTCAAAG
AGAAGTGCTCCATTCTTTTAAGTTTAGATTTCATTCCAAATGTGTAACCAGCAATTACTTTCTATAGTCCTATATTTATGGCCTATTACTTGAGATCCTG
GTACAGTAAATTCATAATGCATTAGGTCATTAGACAATGACAGGGTTCTGTGTGGTACATGGCCAATTTTTTGGAACTTGACCTAGGAGTCTCCTTTTCT
CCTACTGTTAACTTTGCAATCTCTTATGAATCATTGTTTTTGTCACTGTACCTCATTTGCTCATCTATAGATTGCAAATGATCACTCAATCTAATTCAAC
TGCTAGACTAGTAAGATCACAATGAAAAATGTTCTATAAAGTGTAGAGCTCTCTTTCCATATGTGGTACATTTTTAGGTCCTCTCAAGGGGGCTCTTTTG
TACTGAAGTGTTTTATTTACTTTAATGTAAGCATGTGCCATGGTGAATCTTTGCACATTACTGAAAAGAACTCAGTGTTTAATAAAATCATACCTAGCAC
TGCCTCAAATGTTAAGCTTTCTGGTAAATTAGACAAAGCAGATTTATCATGCCATTTCTTTTTTGAATGGCAGTGTTAGTCCAAGTTCCTGTTGATGGTC
TCACKATTCTTTCCATAGTTCTGTTACATAAATGTGAAACTTTAATACCTAAATAATTCTAAATATATTTTTAATGAGGAAGTCTTCAGGACAGTGGTTT
TCCAAGTTATTTTGTAGCAGAAGGCTTTTTGCAAGAAAATATTTTTGTATATGGCAGCATGGAGCTGCCATATACAAAACAAATATATGTGGAGCTACTC
TGGTTGTATAAGGTGATAAGGCRCCAAGTCCATTGGTTAGTGCCCCCAAAACACATATTCCAGTGTCTGCTAACTTCACTGGTTTCTAGGGACCATAGTG
GGTTTCAGTGGATAGGGCTATTTATTTGGAAAATATTTAATAAGTATTGAAATATGCCAAATAATATATATTAGGGTCAAGGAGCTATGGGAACTCTAAA
GGAAGGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTAGCAGGTTAAACAAATGAGTTCTCCAAAAATTTATTTTGTAAATGTTAATGCTAAGTCAGT
GTTTATTCTCTGAGCTAACCTCACCTATAAAACTGTAACCCATGTGAAAATTAACACTTCAGATTGTTTCCTTGGAAGTTATACTATACATTTAAAAAAC
AGGTGTTTTATATGTTGTTTCTATAATAATATGCACTATACACACAGTATTTCATTCCAGTATAACAGTCTGTATAATTTTGAAATTTTTTTCTGCATCT
GTCCCCCACAAACAGAGAATAGAGGCTGTGGTGTTGGGCATTTAATGTATGAATGAGTACATGAAACATTTTTATTAATCATCTTATGAAAGGATTATTT
TGCAAGAATTTTTTGTCATAACATGTAGATTAGTTTGTAATAAGAATCTTATAATTGTATTTTTTCTCAAACTTGATATATTTTGTAGTCATTTATAATT
TTATAGACGAATTTATAATTTGGCTCATACATATCTTCAGAAATGATATTTGATACGTTAACCTGGTTAATTGTCTAAGATGTGCATCTTGTGTAACTAT
GAATATACATAAARTGGATAAGAGAAGTAACATGAAACTTCTAAGGAAAGTATTTGGTAAGAGAGAGAATTCTATTTGTTTTTGAAAAATTATGGCATCA
AGTTAATTCATTATTTTTATGTAATGTTTTAGAGAAATTGATCACTTAATGTTTCATATATGTACAAAATTTAGCTCACATTTGTCATCAAAATAAAGTA
TTTTGTGAGAAACAGGTCATTTTTCAAGAAGACTACTTATTTAGTAAATAAAACCATAAAATATTTTAAAGATTTTGGTTGGAATTTTAAAAGACTGTGT
ATATTTTTATTCTTTATAAAAGGTTATTAAATTTAGTTTTAAACTTAATTCACATAAAGGGTATTTATTATGATCCGGGGGGTAATTGTGCACAGTTCCG
CATTCACTTTTTGGATTTATTTTTTTCCCCTCATCCCAGAAGCCAGAATGTAAGCTACATTTCTGTTTGTATTGGACCTTTGAGAGACTATGCTACATRG
CTAATGGAAAAACCTGCATACGAGTCCAAGTTCTGCCTCTTCTAAAATTCATTACCATAAAGGAAGTTGGTTAGCCACAGGGAGTTTCTTAGGCTTTCTC
AGTTTGATTTCTTAGTCCCTAGAAAGTTCAAGTCTGTAAAAACTAGAAGTTTTTATAAGGAAGTTATGAGAAGTAAATGACARGGTATTTGAAAGTACAT
GACATTGTGTATGGCATATGTTAATTGACCAGTGAATGCTTTACATCCCTTGATCTCTTAACTAGAAATTAAGTGGCAGACTGATAACTCCTARGTTCAT
ATCGACAGCTTCCCCTCTTCTGAATTCCACACTCATATATCCAATTGCAATAATTGGCTTCTTGACTTARATACCTAACAGACGCCTCATACTCCAAATG
TGCCAAATGGAACTTCCAATTATTGCCTCCAAATCTGCTCCATCCTTTCTAACAGCTGATGGCAACTCCAACCTTCCGCTTACTCTGTCAGAAATCCTGA
AGGCATCTCTGACTCCCYTTTCTCTGTTACACCTCACATCCAATCTACCATTAGTTCAACTTGCTAAATAATCCAGAATCTGGTAACTTCTCACCATCTC
TGCTGCTACAACTCTAGCCAGGCTGGCATCATGCCTAGCTCTGATTACTACAGAAACCTCGTAGCTGTTCTCTCGGCTTCCACCTCTCCTTCCTCACTGT
GTATTCACAACATAAATTAGCCCGAGTGATCCTTTCAGAACCTGAGTCAGTTAATGTCACTCCTCTGCTCAAAACCCTCCAATGGCTCCCGTGTTAGACC
TTACAGTTGCCTACATGGCCTGTGCAATTAGGCTCTTTTGTCTTTGTCATTACCTCATCTCTCATTACCTTTCTCCTCACTTACTCCAATGCAGCTATAC
TTATCCTTACCATTCTTTGTGTATGCCAGGCACATTCTCATTGCACTGGCTGTTTTCTTTGCCTGGACCACTTTGTCCCCAGTTATCCCCATAGCTCACT
TCCTCTCTGCCTGTGTCTTCAAGTTTTTGATTAAATGCAACTTCTATGTACCTGATCCCTCCCGCAGGACTCCCATTTCAAATGGAAACCCCACCCCCCA
TAATACCAGCCCTCTTTATGATACTCTAAAGCACTCATCTTCTAACACATGCTAAAATTTACTCATATATAATTTTTTTCACTTGAATTTGAGCTCTACA
ATGTTACCTGGTTTGTTTTTTTTTTTTAGTTTTGTCCTCTGATATTTCCCAATCATCTAGAACAGTGTCTGGTACATAATAGTTGCTCAATGAATATTTG
TGGAATGATTTGAGTAAACAGCAATTTGATCAGAAAAAAATGCATTCTTAGAGTTCTTTCATTTCAAGCAGTATTGCTTATTTAAAAGGAATCCATTTAG
ACGTCATACCCTTTAAAGTCGGCAGTTTGAAATTTGGCAAACAACTTGAAAGCAGCCTAGATGAAGCGGTTAGAATATGGTGGTAGCTTTGCAATTGTAC
TACCTGGGATCGATTCCTATTTTTGCCACATAAAAAGCTCATTGTGATGATCAATTTTCTGATTCTTTTTGTGAGCTCAAATACTTGAAATAATTAACCA
AGTAGTTGATACCAAAAAAAAAAAATCTGGGTTTCTGGGTTTTTGATTGTTTTCTTCAGTACTTTTTTTTTTAAGCATTAAAAATCCATACATATGATTA
TTAGTTTTATTCTTGGAGATGCCATTCTTACAGGTTAAGGAATTATATCTTTAAATGAGCAAAATTTCATTATAATTTGTTGATGCATGTATTTTTCGTA
TATAGCCAGCATTTTTCCCTCACCAACATGTGTATTCTGTTACCGTATCTCAAACTGCCCTTCTTATGCTGGATTTGTGACATTGTGCGTCATCAAGAGC
TGTTCTCAGAAACGCAGATTCAATTACGTCTAACAAACAGGCCAAATATCTAATCTGCCACCATTACAGCTATATTAATCTGCTTCTATCCAGTAGGGCC
TTGGCTTGGATTACAGTAGGAAACACCACATCTGTGTCCACAGCTGCTGCCTTTTAAACAGGACCCATAGCATGATATTCTGGACAAGGGCCTTTTAAGG
TGTCTAGTTTTAGGTGTTGGGCAAAGCCTTTCCTTTAGTGTTCTGGGCTTCTAGAGCACCACCCATTTTTCCCCTTACAGAATGTTCACTTTCTGTCTTC
TGGGTACCCCTACATTAGTTTCTGTTGCCCTAATTAAGACCTCTTTTCCAGAAGCAATCTATTATTTTTGTCCAGTGAGATCTATTTACCCTAGAAGTGT
TTGTTCTTATACCTTAATTTTTAAAGTTTTTKTTCAGTAAAAAACAGATATGAATAAGTTGGTAGGAAAACTATTTTAAAAGGGTATTTTTGGCCCTATA
AAAATCCCAGCAGGTATCTCTGCCTACTTTTTTGTTTTATAATGTCTAGCTCTGAAATTATTGTAGCCTCTGTTTTCTGTTTGTTACCAGATGATATTTT
AATGTTTTCCTTCCGGATGTTAAATGTCTTTTCTTCTCTTTAGTGCCACTTAGAAAACTTGGAAATAAACAAAAAATGAAGCTCATATATTTTTTTACCA
CTGTCTAGAAACCATTACWATAATGCTGGTCTTAATTCATACTTACTAGAATTGGGAGATGTATTTGACTTACTCATAAATTTGATAGGTGGAAAAAGTA
GCTTATTTATTACGAAGCTGAAAATGTAATGTTTTTTAGCCATTTGTATTTTTTCTCATGAATTGTCTTCTCATTTACATTTTAAATATTAATGATATTT
ATATGATAAAACATTTCAAATGTGCTTGACATACATTAATATAGTTTTCAAATGGAAATTTTTAATCATTTTATGGTAGACATTATTTCATTTAAAAAAT
TCTAAAATGGGCTTTATTTAGATAGCAACACATTTTATCAGTATTTTCTTCTAAATTTTTTCATTTAGCKGATTTTTAACATAGTTCTTTAATACTTTTG
GAATTCAGTTATACAAATGGTAGTTGCATATAATAAGCAAACTGTGAGTTTTTTTCTAAATTGCTATACAAATTTGTCAGCCAGTTTAATTGAATAATGT
ATATTCTTTTCTGTTGGTATGTAATATATTAGATCAACTAAAATAATCCACTAGAATTAGCAAACTAGGTAGAAATTGACTATATTTAATTAGAGCTAGA
AGCCAGATAGTACAGTAGAGAAATGGATGGCAGTTCAAAATTCTGGAATATGAAGAAAAATAGAAAAAGAGAGAAATAGCGGAAAGTAGTTTTAGAGATA
AAAATCTATATTTGAAAAAAGAGAGGGACTTGAGTGTGTATGCTGTGGACAAATTGAGGGCTGAGATGGAGAAGTTGAAGACACAGGATGGATTAGGCAA
AGGATTGATGAAACTATATATTGGAAAGGGCAAGAAAAGGGAGTGTAACTCCCAGATGGATCTGTCAACATGGGGTAGAGATGAATGCTGTTTCCATTGT
AGAAATAGAAGATACAGAGAGTTATGGTGCAGGTAGATTTGTAGGTAGGAGGGCCTGAAGTTGAGGAAGATTCCATAATATGTCCTCTGTTTCTTCTATA
AATTAAGAAGGGAAGCATTCTCTGAGAGTGAAGAGGAAGGAAGGTCATACATGTTATKTATATGTCTTCTCCTTCATTCATTTGCTCAAAAAAACACYTA
TTGAATGTTTCCATGTGCCATGTTCTGTGTTAAGACTAGAAGAAGCAACCAAAAATGAAGTGCACAGTGGAGTCTATCAAACAACTTCAGTCACGAGTCA
GCCAGGCAGCCACATGATGAAAAGGACTCTGTCACTTCTCCACTGCAACAACTAAGTCACCACTGAGTCAAAAATAGGATCTGCTTGACTAGGTGTTGCC
AGTTTGGGGAAAACATTTTCAGTTTGGTTGATGGCATCAAAATTTAAAAAAAGGCTTCATGTTGATACAAGTGGGTAGATATGAAACCAGGTGTTAAAAT
ATACACATATATTTCCTTGCTCCGCATACTGCAGTGTTCATTGYTACACTCCAGCAGCAAGGATCATACCCAGCACTGAGATCGTGATTTCTAATACCTT
TGCAAATTGAAGGAACCAGAGATCTGTGAAAAAGTGGCTTAATCTAGGGCTGGTTCAGGAATATACGAGAAAAGCTTGGAGTATCTTTTAGTGCCCATAA
ATTAGGAAGTGCTCAAATACACACACACACACACACACACACACATACACACACACGATGGTGATATGTCAGTTGGACACAGGAGCCAACTGAAAGAGTT
CCCAATGGCTAAACAACCTAAGAAACAAAATGAATAATGTATTAGATTATAACCCAAAGTATAAAATAAATATTCATGATCCTGTACTAATAGAAATGAT
TAAATAGATGGGCTAAATAGCTGTCTCTTATGTAATAAAATTCCAAATAGCTTATGTGGATATTGTCCTCCTTAAGGATGTATAGTGTAACTCGCCATTC
CTTAAGTGTGGGCTACTCACAGTGGTTCCTTCCAAAGAGAGACTTGGGCAAAGTCTTCTCAGGAGAGAAATGGGCAAAGAGAAAGAGAGACTGCATTGGA
GAAACCTTACAGACACTGCCTCAGCCAGATGATCAAGGTGACCATCACAATAAGTGGTGTTGATAGTATAGACCCATAATATGATGTAATTAGAATACCA
GTTTGCCTATGTGGTTGTCTCCTCAAAAATCCATAACTCCATCTTATGAAAAAAGTTCAGACAAACCCATTTGAGGGATATTATAGAATATACACGACTA
GCATTAAAAATGTAAAAGTCATCAAAAACAAAGTCAGAAAAAATTGTCAGTCAGGAGGAACCTGAGGAGACATAAAGACCCAAATGTATTATAACATCCT
AGATAGGACCCTGGAACAAATAAAAGACAATAGATAAAAACTATATCTGAGTAAAATATTGGTTGTGTGTAATAATACGTCGCTATTGGTCCATTAGTTA
TAACAATTGTACTATGCTAATATAAAATGTTAATAACAGAAAAGTGAAGGGGGCTAGTGGAGGGGGCACAGTATAAGAGACTATGCTATCTTCAAAAGTC
TTCTGTAAAAAGCCATCCTAAAATAGGAATTTTGTTTAAAAAACAAAAAATCCGCTCTGCAAATTATACACTCTTTAATTATTTTGAAGCTGCTCTTATA
CCAAGAGATGAAGACAAATCCAATAAGTACTATTTTGATTTGTCAAATGCCCCTTTGTAGAGGCCACGGAAGCTGATGGAGTAATATCTACTGTTGCTTT
CATATCTTTCAGCAGAGGAATCAGGTAAAATAGTCAACATTTTACAATGTTATTGCTTGGGGTTTAGGAAATTTCACCTCCCAGAAAGGTTCTATGTGCT
TATTTTTAATTACACAATGGAATATCTGGCAGAACATAAGACATTTTAAGCTGTAAGTAGAATGATTTTCCAGGARTTTCTGAGCATCTTAGAGCCTACA
TTTACCATTATCAGAGGCACCTGAGTACTGCTTCGTAAATTGCAACTTCGTTACGTTAGATAGTGTCCTATTTCCATGAGAGTGATGACAGATTCAGAAG
TGCCAGGCTCCAAGGAAGTTGTTCACTGGGAGAAAAAGACTCAATGTAAAGCATATTATTTATTATTATTGTGGTAACACCTATCATTATATAAATATAA
CCATTCAATAATGCCGTATTATTCATAATAGAAGTCACMAGATTCTTATCCATTCTTCGTACTCTGGGCTTCCTATGAGTAAATGTATTTTGTTCTTTTT
GCAGAATTAAGTAAACAGAATTATTTCTGCTTTGCCAAAGGATGTTGTCAAAGGCCTGCTCCTCTTCTGCCTATATATTTTTCTTTTAACATAATGTATG
CCCTTGAGCAGTGATTCTCAGTCTTTCGTGTTTTACATTTTGTCACATGCTATACTGAAAAATTTGGGTCCCACTGTCATAGAATCAAACCATGTTTATA
GTCATTCGATGCATATATGTTTTTATATTTCTAATATAAATTTATACGATTTTAGCAGTAAACTATGTTAATACAGTACGTTAGAAATATTTGTGGGTGT
TGAGTAAAACCAGAGAAAATAGGGGATTTGGTAAAATATTGTCTATTTCATAATATCTGCTGACTGACATTGCAACATCTCTAAAGAGAATTTGTTTTTG
AAAGGCAGAAAATAAACTATTTCATGAGTAATAGCAGCTTAGCATTGTCTAACAGCTACAAAATCCATCAATGACATATACTTTCTCTGGAGAAAGGTGT
TAGCCCTTGGGATGGTTGTAAGACAGGTTTTGTCTCATTTTCCTTAATCTACAAACTGTTGGATGTAGTTTTCCCAGTTGTATTAATTTCTCATGGAATT
TGTGGAAATATACACTAAAATTACTTTAGCATTTTCAAGATTTTCAGATTTTTTTATGACCTTTTCATCAGTGTCCTATGTTAGGAGATTGTGTTGATAT
GTTATATTAAACTGTAAGGACCACACAAGCAGTTTTGACACATCTGATAGAGATTCCACTGAAGTTTTACTGAGATGATTGAAACAATTTAGACAGATTT
CAGTCAATTTATCAGTCAGTAGGACTTTAAATGATGCCATTAAATGAGATTAAAATATTTCTGAATTTAATACTGCCAACTTAAAGTACTGTTAACTTTT
TTTGGCTTGTTTCAATTGGAAGAAAARAAGAGGTAGTGAATATAACACACATCTGGAACTAAGAAAACTAATTTGTAAGTCCCACCTCCTCCGCTAACCA
TCTGTAGTCTGTTACACTTGCAGTGGCTTCCAACCTTGGCTGCACATTAAAATAACATGGGAATAGGTAAAAATCCCAGTGCCCAGGTTTCACCCTAAAA
TAATTAAATCCACATCTCTGGGGTGAGACACAGGCATTTTATTTTTGTTTGAAATTTTCAAAGAAGATATCAAAATTTGCAAGGCATAATCAAATAAGGC
AATTAACATACTTTAGCCTATACCTMATATTTTGCTTGTTTTTAGTTTCAAATCATCCTAGGATATTATTGATTACTCAACTGATTGACATGGTTTGGGA
AATAAGGTATTTTGAAAGGAAWAATGTCTTCTTTTTATAAACTGTACAGGAACCTTCTATTAAATTCTGTAAATGTCATTGATCTCAAATCCATGCATCA
CATGTGTAAATTATATTATTTGTGTTGTGTTTGAAGTAAAGCATGATTGATAACATTTGATGTGAAAATATATGCAATGGCAGTAACGTTATCATTTCTA
AAAGAACAGAACCCTTGAAGACAAAGGGTAGAAGTAATGTCAGTCCTGTTTCTACAATATTTGAGCTATGTGACCTTGAGAAAGTCATTTAAACTTTCTG
ATTCTTAATTCCCAGGTCTATAATTGTTATACTTTAGCTTTGCAGTTATAGATTTGTTCAGTGTTAACATCACTTGTATGAATTATAAACTTATTGTTAG
TTAAACATGCTAGAAAAAGTTGAGAGACAGTGAAGCATAATAGAAAGCACATGGTTTTTGGAATTGAATTTGGCTTCCCACATTAGTTGTATCTTACTAG
CTGTGTGACTTTGGCATGTGACCTAACCCAAGTTTATGTAAAATGGTTTCAATAACATGTTCCTGTCTTAGCCCATTTTGTGCTGCTGTAACAGAATACC
TGACACTGGGTAACTTATAAAGAACAGAAATTTATTTCAAGAACAGTTCTAAAAGCTAGAAAGTTCAAGATTATGATATCAGTATCTGACAAGGACCTTC
TTGCTGCATCATCACATGGCAGAAGGGCAAAGAAAGGGCAAGAGGGGGCCRAACTCATCCTTTCATAATGGTATCARTCCCAGCCATGAGGGTAGAGCCC
TCAGGGCCCGTTCAACTCTTCAAATTACTACATCTTAATACTGTTACAATGGCATTTAAATTTCAACGTAAGTTTGAAGGGGACAGATACTCAAACCATA
GCACTTTATTAGAAGTTGTTTTAAGAATTTAATGAGACAATATATGTTAAGGGCCTACTGCCTGGCATATAGTAGATACTGAAGAAATGGTTGTTGATAG
TGATGATAATGTAATATACCACTAACATGTTAAATGTGTTTCTGAATGCATGACCTCAGAATATATGTCAAATATATACACTGGTTCCTTTTTACAAAAG
CAAGTGTTAATGAATGAGTGTAAAACTCCTTAGCTTAAAAAGTCCACTTTACACATCTATAGGTAGTGATTTGAGAAGTTCCTAGAGGACAGTTGATATG
GTGTGTTAGATAACCACAGATTGGAAATGCTAGCCCTCTGGACACTCAAACTTTAACTCTGGAAACTGGGTTACACTGGAAAGAATCTACAATAAACTGA
CCTTCCACKGGACACGTGGAGTATTCTAACTAATGCAGAAATCCGAAGCAGACTAGAGTATCCCTGATCTCCTTAGTGGTGTAGAATCTCACACTGTATT
ATWTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTC
GGCTCACTGCAAGCTCCGCCTCCCRGGTTCACGCCATTCTCCTGCCTCAGCCTCCCARGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATT
TTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGG
GATTACAGGCGTGAGCCACCGCGCCCGGCCTATTTTTTTTTTTTTCAGAACATGTTGGCTTAGTATTCTCTGGGCAGGAGGCCATGCCAAGGAAAGTTTT
TGACCTTTCAAAACCTCCCAAAGGTAATGGGAGAAGTGATAATTATTACGGAAATGTGAAGACAAGCATACTTTTTTTTCATAGATTCTTACTCAGACTC
ATTCAAAAAGGGATGGATTTTGAGTATTCATTTTGGTGAAGTCTCTGACCTTATTRGATAGTGATACCTCCAGGTCTTGCTTTATGTGGGGTCAATTACT
GAGCCGTTGATGAATTTCATTTATTTCTTGTTTAATAGAGTGGCACTTAAAATAAGTGGACATGTAAAAGAAAAATAGATTTGCTTGATTTGTATCTTTC
AAAATGGTAGTGAAACAATCCTGTAATTTACACGACCAGTTCTACTTCACATATATTTTAAATGTACTATGATCAACATAGTCATTACCTGGCATGTAGA
ATACCTATACATTTACACATGTAAAAAATGAAGCCTCAATGTCTTTGGTTTGTGCTGGATCATTTCTTTCAGGGTATGGCATTCTCAAGTTATTTTCTAA
TGAGGTTTCTTTAAATTTTTCAAGTTGCTTTCACTGCGATTAATTTAATAGTGAATATGTTTATAAAAGTCTGATTCTAGAGACAGGCTCTGAACCATTA
TGCTATGGCCTCTTTGACTACAAAAATCAAACGTTTTTATTTTCTAATTTGTTAAGTTAAATATTTTTCTATGTAGTGAAGCTTAACTAATTAGAGAGAC
CAGCAGGAATTGTAATGTCACCAATGTAATTTACATTGAGATAAGTTTTATTCAAAAGAATGAGCTAAAATATTTTATTCTGTGAGGCTAAAAACTATAA
CTAGGATGAGGAACTCTTTTCTCCCAATACAAATTATAGAATTTCAAAGCAGRAAGAGCATCTTGTTTTACCCCTCTTTGTACAGATGGGAAAAAGAGCC
CCAGGAGAGCACAAGATTTGCTCGTGTCTCACAGGCATTTACTGAATGGCAAAGTTGCCAGTAAAGCCCTGTAGTTTGACTCTGTCGACAGCAGAAATGT
GTTCTTCTATTTCATACTTTCCAATGCGGTTCTAGAAAATGATAAGTAATTTTGAAAGTTGGTTTATTTCTTTCAGAGTAGCTAGTGCCATTNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNACACTTTGAACAACGGGGAGA
AAAGAGGATACTTTCCCTCTGAGTATATTTGGATTGCTTGGTTATAAAAATGTTGTGTGATTATTGTAAACTCTTATTCAGAATGTTTTTTCTCCGTTGT
ATAATGGGCACCATGATGACATAAATAAGCTTCTTTATAAAATTTCTGCTGTGTTTCCTACAGCTCCCTCCTATGACAAACTGAGTATTTGTGATTTART
TCTACTGGATGATTTACTTCTACTGGATATCCTTAAGATTATATTTATTTACAAATAAGTAAAAATCACTGAAGTGGGATCCCTGGGTTTGTTGTTATAA
AACTTATTAATTATCTTAAATATCAGGTTTTCCTCTCTTCAGGCTCAGTCAGTAGGTCAGGGAAATGTCATGTGGGGCCATTTTCTCTTATCCCTGCCAC
TTTGACAATGGTTGTCAAATTAGAATGTGCACACCAATCTCTCGCTAACTTGACAAATGCACATTCCTAGGTCCCAACCTTAGGATTATGACTTAATAAG
CCTGGGATCCTGAATGTAGCCCACAGAAATCCACTTAGTAACACCCGTTTACAAAGAGACTCCTAATCTGCGTGGTCCAAGGCACATTTTGAGAAACACT
GACTGTGCTATGTTCTTTTCTGGAGACAGACAGGGACTCATGTCTCCCTCCTTGGCAACAGCTATTCTTTCATGGGTAATTCCTATGTACTATTTGAATA
TCAAAATATTTWTATCTCCCTAAGAATGGGGAGACACAACGTATTTGCCCCATAAGGGTAAATTGCAAACAAATTGCTCCAGTGCTTCAGAAAGGACTGG
TTATTCATTCCTGGGACTGCTTTATAAAGAGAGATCTTCTCAATATTCAAATGTATTACAGGCATAGAAAATTTTTTGCATGAATATATAAAGACTAAGA
ATCAGTTCTGTTTTTTACAGCCTGAGAGGACATATTTTGAAAGCTTTCTAATCCTTGCTATGACAATGACTGAACTTTTAGAGGGCTCAGAGTTAGAGCT
TCAAAGATATTTAATAATGGAGAAAAAAAAAAGATTCATTTGGGAGAAGATCTCCAAGTATAACCAAATTTATCCCTTTACCTGTGGCTAATAAAATAAC
TGAATTCAAAAAGAAAGCAAAAGCAATATATATTTTGAATAGAAGACTGCTTTTTAAAATTATGTAAACTATTCTGTCATTAAAAAAAAGCCTTCCTAGT
GTTGGATTGGAGTATTTCCATATTTGGAAACCAAGATTAATAGATGTTTCAGATCCGAAGTGTTTGTTCTTCCATCTTTTTTTCCCCCTTTTGCATGTAA
AAGAGAATGGTGACCAATTTTTTTGGTAAAAGAGTTAATAAATCACTTAATAATGGATTTAAATGAACAGAGGCATAATCAGATTTTTTTAAAAAAGACT
TTTATTTAATTCTCCAGACGCAACACTTAGATAGAACTTTCTGTACTGATGGATTTTTTTATAGCTATGTTGTTGAATCTGGTAGCCACAGTCACATGTG
GTTATTGCATCCATGAAGTGTAACTAGTGTAACTGAGGAATTGAATTTTTTAAAATTTGATTTCATTTCATTTAATTGAAATTGCTACATGTGGCAGATA
GTCATTGTATTGATCTGTGTTGCTAAAGAAGATTGTGTAAAATGGTTTTCATAACTTTGGGGTAGCAGTTGGCATTTTTATGAGACTAGGAAGTATATGA
TTATGTAGTGTTGTAGTTTATGTGACTAAATGTGGCTCCTTATGGAGGAGTTCTTTAACTTTGCCATACTTATAAAGATAGTTATTATTTATTCTCTCTA
CTTATATTTTGAAAGTCCCTCTCTTAAAGCAAGTAGATATCATGGAGTGAGTCTGGAAACTCCTGTTACAGAACACCAGGAGTGGCCAAATTATGACTGG
TGCCCCCTGGAGTTGTGCACACAGAGTCTGTGGCTACCCCTATAAGCTGAGTCACATCTCAAGGCAATGTCATATTCACTTTTATGTCTACAATGCTTGG
TATGGAATTGATTACTGACAAATCTTTGTTAAGTAAGGAATATATATCTCAATTTTGATATCCGCAATAATAAAGGATAGTGAATAAAAAATATTTTACT
RTGTGCTCATAGAACACATTGTATGAATTTGCCCTTTGATGTATATATTCATTAAGTTCTACATTTATGAAGTACGCTTTGTGGAAAGTATTAATTTAAG
TATTTAATACGAATATAATTCAGACACAGTATGTCTACTGCTGATTAATGAAGAAGGGAATGTAAAAATATGTGCTGCATCATAAAGTAACTGCACTAAT
GAACATATGTGCAAGATGTAGTTCCCAATAGCAAAGGAAGAGAAAGGGATTTTTGTTTGGTTGATTGATTTTCTCAGTCCTGTGGCAGAACAAAAAAGGC
ACATCAGAGAAGGAAGGCTGCCATCAGGGAAATGACTTTTGAGGCGGGTTTTGGAAGATGAGCTGGAGCTAGCAGAGGGGTGGTGAGGAAAGTAAGGCCT
GTGCTGCTCCAGGTACTTTGCTAAGGGACATCATCTCACATCGGTTTTCTCCATACTCCTCCAACGTAGATGTCCTTAATCCTCATTTCAATGATGATGC
AGCTGATTCGGATTTAAAGAAGTTTGCCTAAGGTGACATCGYTATTCAGTGAGGGTACTAAGCTTTGAACCTAGGTATGTTTAACGCTAAAGCCTGTGAA
TTGCACCATAGTCATTGGTATCAGTAATGAAAAATCCAACGTGTTTGGTGAAATTCAAGTAGTGTAGTATCGCCAAGCACATGATACAAAGAGAAGCAAC
TGAAGTGCTGGAATGGAGGCATGTGATAATAAAAAACCATCTATGCCATGACAAATACACTGGACTTTTTTCTGTAAGTAATGTGGAGCCCTGGGTGGGT
TAGTTTTAGGCTGGCAATGACATCATGATTCCTAAAGAAATTCAGGAGCTAAAATCAACAGCATATTTAGCTAATTATTTGACTTGAATTTCCATTCAAA
TTGGCTTTATTTTTTCCTGAATACGCAGTTGCTTAGAAGTGGTTGAGTTCCATCCTGGTGCGTGCTGGCTATCAACCAACATAGGAGTAAAAATTCACCA
TGAGTAGTCAGCCAAAAGACACATGCAGATGCTTAGGAAAATAAATTATAAATATTTCTTATGTCTGCCAGTAGCAATGAGAAGATTTTGCTATATTGTG
TTTTTTGATAGTTGGCTTGTTTTACTGTATGCTTATGAAAACATAAAGTAGCAGGACAACAGATCACATTGCCAAATGATTTCTAGGATTTGGCCCAAGG
TTTGATGATCCCTCTGCCGCTTCTTGGCTTTGTATGCTCAGAAGCACCCACCATCAGCTGTCAGCCCTGTGGCAAAAGGAGGAATGGGGTCAGAGTCAGG
CAAACAGAAGCCAGAGCCAAGTGTTGTTCTGAGAAATACTAGCATCTGTTTAGTGCAGTGAGTTCTCTGCTTTGTACTTGGCAACCCACTTGGGACTCAT
GCTGCAAAGGGGGCTGATGATTTAAAACTGAGGGAGGAGATCCAGAGGGGAGACCTTGGCTCATGAAACATCCTCTTCACCTCTGTGATGGGCCGTTCTT
CATGTCCTACAGTTTGAACTAAAGAATGGCCTCGGCTTCTCCTGTGGATGTAAACATATTTTGTTGCAAGTGCCATTCGTTTTATTTGTTGTATACCTTT
TCCTTCAAATATATTCCTGGCTAAACTCCTGGCTGTCTCTCCTGGAGTGTTTTTTTTTTTTTGTATTCTTGGGGTTGTAAGAATCAGGTTCATGTGGAGG
TGTCTAGAAACAGGCTGGCTGGACAGGAAGGAAATAGGTGGATATAGTTTTAAATTTATACACATCTTTTGGAGCCAGGAACTTCTACACAATCTAGCTT
CTATGAGATAAAATTTGTGGTACGAAAGAGGAGTGGTAACATGAATAATAAGAGATTTTTTTTAAGTCTAGAAAACCTTAGATGTTGGGAGTGTAATCAA
GCATTTTAGCCAGTCATTTTGAAAGGTAAGTGAGTTTAAATGAATTGAATACTCAGTTGTGAATTAGTGATACTGAACATGTACACTGTCTTATCAGTGT
GTTTCATAGTGATTGGTAATGCCCAGATTTCCAATTTGATACACAGTCCATTTTAAAAAGATATATGTGTGTATTTTATACGATGCTTTGTAGTTTTGAA
GTTTTGAGATAAATTATTTAGAATCAAATGCTCATGGAAATGTCTGTAATATTAAAATAGGTTTATTTCAAGATTATTAATTCATTTGTTCAACGAGTGT
TATTGAGCGTCTGTTGTGCCGAACCCTCATTAACCTCAATAGGGAAGGTACTAGGTTCAAGAGGCTGAAGAAGAGACCCCGAGCCAACAAAGGAGACATG
GAGTTTCATTAGGAGCTTACATACAGTGGAGAGAGTCAGTGGCAGTGGGCTGGACAGGAGAACCAACTTACCTACAGAAATGATCCAGTGGTGGCAGGCT
GGGCAGGAAAACCGCAACCACTTGCAAACAGCATGCAGTTTATGTAGCATTTTCACTTAACACTCTCTCCTTTATGACCTCCACCTGGCAACCCTCATTA
ACCCCAAACTCAGGGCCTCATTCCTCTGTATGGCCCATGTTCCATGGGATGGGATGGGGTTTCAGATGTTCCTCACAGACAAAGAACAAATCTTCGGGCT
GTCCACTAGATTCCCTAGCTTGGGACACACTTTCAGGTGTGTCTACTGTACAGGGTCATTCTAAGGGTTTGCTTAAGTTTACCCTACAGCATCATTCACG
TCTGCTCTCTCATGTGCTTGCGATACAGTGACCATCAACACAAGGGCCCTGGTCTCCAGGAACTTACACTCTGTAGAGCAGTGTTTTTCAAAGTGTGGTT
CCCAGATCATTAGTATCAGTGTGCTGGGAATTGCTAGAAATGCAAATTCTCAAGTCCCCGGCCTAGACCTATTGAATCTGAAACTCTGAGAGTGGGGTTC
AGCAATTTGTCTTTTAACAGGTGATTGTGAAAGTTTGAGAACTACTGCAAAAGACAGATAAATTAACTGATGATTATTAAGTATGCCAGAAAAGGCTGAG
TTTTACAAAGAAAATAAAACAGGGAAAGAAGATGGACAGTGTAAAAGTGTGTAGCTTTTGGGGTGTTGTCTTTGTCTTTGAGCACTTGACTGATGTGAGA
ATATCTGGGAGGAAAGCTTTGTGGTTATCTCGGTTAGAGATTTTAGTGAGTTGAGGCACGGTTGGGAATTGTGATGTCTTTAGAAGGGCTGAACCTCCAG
AATTTGCTGTTGAATAAATTGGAAATGGTGATGTGAGAGGGCAGAATGATCCTAAAGGTTGTTGATGGTACCTACTGATCTCTGATGTTACCTCATAGTA
AGATGGGAAAAAATGAAATGGGGTGGGGCAGGGAAAAGCAGACTTTGGGGGAAGAATAACACATTTTATTTTAGAAAAGTTGTTTCAAAAGCTCATTAGC
CATGTGTGAAGCTATATTTGTGAGTATGCCATTCATGGGGAAGGTTGGCACTGGGAATATTAACTGGGGAGTCATGGTCATATAAATGGTATTTTAAAAA
ACTAGTTAGCCTGAGATCACCAAGGGAATGAATGCACATGGAGGAGGTCTAAATACCAAGTCCTGGGGTATACCTGGGSGGTGGGGTGGGTGGCATTAGG
CTAAAGATAGTGAAAATTCTAATGAATGATAAGTAATATTTTGCTATGTTGATCTTGAGATTGATATGTTGAAATGGCAGCATCCTAGACCAATCCCAAG
TTTAATGCCTTCCTTGAAGTTGCCATGTTTCTGTTTCGGAGTCCTTGGTGCCACAGGTCCCYCTTGACTTTCACAGGCCAGGGCTTCTTGCCATACAGGT
AAGTGTTCTCCCTTCCCAGCTTATGGGATCCAGACTCATCAGCTGCCCGCTGTAGGTTGTCCTTAAAACTTAGAGAATATGCAGAGAGCATACACAATTC
TGCTTAGAGGAGGAGCACTCTCCTTTTCCTCTTGTCTCAGTTGTGATCTTGTCTTCTTTCTCTAATTTCCTTTTCCTCTATTGAACTTTCAACAGGCAAA
TTCTTTGGTCTGCAGAGCCAAAAGAATAATTGTCTTTCTTTTTAAGTTAATAGTACTTAGATCATTTTGACAGTTGTCTTATTTATTACCACTTACACAG
AGGCATTTCTTAATGTTGAATTCAAATGTTGATTTTTAGTGTCCTAGACCTTGATATTTTCTGATTTGAATACCCTGAGCTGTTGACCAAAGCAACAATG
AAATTTATAATTTCTTAACGGGTGTGTGATTCTTGGGATTTCTTTCAGAAAACAATACTTCCCTGATGTAGGAATGTATCACTTAAAGTAAAAAATGTTT
TTAAAATTTGAATTATAGAAGAGAATAATCAGTGGATGATTCACTTCGTAGAAAAGTTCTTTGCTTTAAAATGACTCATCAAGTGCTATTGGGAACATTT
AAAATGTTATTTCAATTGCACATACTCTTTAGGAAGATACAAGTTTATTRCTTTATATGTGTGTATCACTGATAAAAGGTATTTTCATATATTTAACAAA
AATTTAAAGGGAGGAATGGTTAAATGACTGTCTAAGGACTCATACCTCTTTAGTGGGCAACCAAGTCTTGAACCCTAGTTACCAGTTGTCATGTTTACTT
GTAGAACTACCATCACGGCCCCAGGGGAACAGCTTAAGAAAGGGATAGGAGGAATAAAATGGAAGCACTCTATAGAATAAGTCTTCATCTGTACTCCTGA
TTTAACAAATTCTGATATTACCCACTGTGTTTAGGTTTCAGTGACAAGTTTTCGTAGCAGTTGCGGCTGCATTTAGCTCTTCACATCCTCCCAATTCTAA
AACTGCAAGGTATTGTAACGATAATCTGTCCCATTTCCTCGTTTTTGAATGAGAAAACCACAGCCTAGAGTAGCCATTACTTGCCAAAGCTTTTTTTCTT
AGAAGAGAGGGGGGATCTTCAGTTATCTTCTAGAATGTGACAAAATTTTGCCAAGATCATGGTGCGTGCTCACTAAAAGATGATGAAGTTTATTGCCTAA
ATCTCAAATTCAGTCAAGATGCTACTTAGGCCAGCTTTTAAAATTTGTATAATAGCTAGTTTTTTATTTAAATTTTTAAATTGTGAAACAGATCACAAAT
TAAAGAGCACATATAACATATATAGTATTACATATGCATATCATTTAAAAATATTTTATATATAGCTATATATCTTATGTATGTTATTTTTACTATAAGA
ATAATAATAAAATATAAAATGAACACACAGGCATCAACCATTGAGTCTAAGAAGTAACCATTCCACAATCTTGGAAAGCCCCTGTGGGTCCCTAATCTGT
CTCACCCCATTCCTTGCCCTCAGAGGTAACCTCTGTGCACTACCCTCTTGTGGTTAGAAGATGGAGCTAGGCCGGGCTCGGTGGCTCACGCCTGTAATCC
CAGCAYTTTGGGAGACTGAGGCGGGTGGATCACCTGAGGTTGGTAGTTCAAGACCAGCCTGACCAACACGGAGAAACCCCGTCTCTGCTAAAAATACAAA
AAGCCAGACATGGTGGTGCATGCCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGTGGTGAGCCGAG
ATCCACCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCCAACAAAAAAGAAGATGGAGCTACATTACTGCTCCGGAGCCTTGGGCAAGTT
ATTATTCTCCCTGTGCGTCAGTTTCCTCATCTGTATAAAAGGAATAGYAATATATGTGTTGTGAGGACTGAATGAGGTCACCCAGGAAGTGTGCTTACAA
AAATATGTTGTGTAGTCATCATCGTTTACTATTCTTGTTACTATCATCATGTTCAGTTTTACATTTGAAGGACTTGTAATGTTGCCAACAAGATGGAGTT
TGAGGGACTAAAATTGATTTTAAGAATAATAATGTTGTTGTTCCTTTTTCAAATCTTTTAACATGGAAACATTCTGATTTGRTTGGGGGGGGGRGCTTTT
GACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGARGCAACAAGAAAATTGTTTTGAACAAAGACCCTTTAG
YGTCAGTCACTATTTCAGAATATAACACCAGTCATTGTTTATATGATTTACTCTTAATAGGATTTTGATATTCTGCTGTGTAACGTTGCTGCTGACTGAA
TGTCTTTGAAGACAGTAAAATTTGACCGACTACAAAATATTACTTCATTTTTGGGGGGTTTAGTCTGTTTGGTAAGGTTACTAAAGAGTACTTCTAAAAG
TATGAGAGGATAAAGGATTGAGATATAAGAGAAAAGTTGACAAAATCAGAAAACTGTGCAATGAGGTAATGAGTAACCAAAACTTGCTATCTTATCAGTA
CTGAGAACTGCAGAAAAATTTCTTACTTGGAGATTTGTGCTTTTCTTTGAGTATTCATAAATAAGAGTGAAAAACAATAATCACTTTTCTCAGTAAAAGA
AAACAACCTTATACTTGAGGACTTTTGTTTCAAAGTTGGTAAGGCTTTGGATACTAATATAAAATTCACCAGTAAAGTATTTTGAAACTCTTAATGCCAC
CTGTGCTTCTGAATTCATATGAAGATTATTGTTTGAGACCTCTGTGGTGACATGGACATCACACTTGAGGGGTGAGACATATCTTCACCTTCTTTACACA
CTGGCTCATCTTCTATTTAGTTGATACTATTGTTCCTCAATAAAATTATTTTTCTCTCTATTGATATTATTTTCAAGTTGACTTCTAGTCAGCAACTCTG
TAAGTATCTTTTTATTGGCTTTTAGATTCTGTATTTTAAATGAGCCAGCAATATTTCAATTTCATTGAGATTGCATTATATCATTTTGAAAACTTATTTG
CCTGTGATTAAATTTTTGAACAATGTCTGGGATCTAAAAACTCACTTGAAAATCATTTTTTAAATCAAATTTTTTTAAAAAAGTGTTACAATTATAGCAA
GTCATCATGGAAAAATAAAGTAATATGGGTATGTATAATATGCCTTCTAAACCTCTAAGCATCTGGAAGCAGAGATCCATGTTCTGTGAATGACCTACTA
ATCTTCTTAATGAGTTCATAGCAAGGCATGTGGTATTTGCGATAGAAAAGACTCAGTAAAAGCTGTCTTCCATTCAGTTTTTGAAAAGTGAATGGATRCC
AGTTTATGTTATTTCCTATAGTGCCTATCTTAAACTGATTTTTTTTTTTTTACTTGCTGAATCTCATTTCATGTCAATATGAGTTTTGTATTGGTAATAT
AGTGTTTGTAATTGATGATGTAGCCAACTCCTTTATTGAAGTAAACTGTGAAGCTAATAAAACATCTTCATGTTTTAAGGCCATTAGGAGACATTTTTTT
CTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGAGACCAAGTCTCACTCTTGTCCCCCAGGCTGGAGTGCAATGGCGCGATCTCGG
CTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCGGCCTCAGCCTCCCGAGTAGCTAGGATTACAGGCGCCTGCTGCCATGCCCGGCTGATTTT
TGTATTTTTAGTAAAGAGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCCAACTCCTGAGCTCAGGTGATCTGCCTGCCTCGGATTACAGGGGTGAGCCA
CTGTGCCCGGCCGTGTTTTTTTGTTTTGTTTTTGTTTGTTTGTTTTTTAACATAATGAATACTACAACAGAAACATAATTAAATAGCTTCTAAACATTTG
AGAAGATGAATGGATCACTCGTTTCTAAATGGATAGCCAGGAGAGTTAGTTAAGTATTTCTGATCTTATAGTGAATGATAATGTTTGTACAACCTAATAG
TTGCCCCTTTTCCTTTCTTTTTCTTCTCTAATARTAATAGCAAAAACATTGTTTCTGGCATTCAGTGAGTGCCAGATAAATAGAAAGGCTATGAGCTTGA
TGCACAGTTTCTTTTCTTTTTCCTGGGTCCTCTCTCCTCCCAACCTACATTTCTTGGCATCTTTCCGCTGTCTGTTTGTTAGAGTTCTGACTCTGACGTC
AAGGACTCACAGTGAGTGACCCCCGTGGCAAACCTGTAAAACATTATACAACATGAATAAGAACTTTCTTATTAGATCTGCAGCTGGCTGAGTACAGACA
TATGGCAGCAAGGATGTTTTGGAAGAAAGGCATTGCTTGACAAAGAACCCAGTCTCTTGAATAAAGGTTTATACTGGCACTCTTTGATGTTTATAATACC
CGATGCCAGGGGCAAAACTTTTTTCCCCCCATTATATTGTTATTTTACTGTTTAAACCCCATCATTTTATATGTTGCGGTGGCTAAAATGTAGAAGCAGA
CATTTTATGTGTGTCTGTATAACTTTAAAAGGAAAAAAAAAAAAAAGCAAAACTCAAAAAACTTTCTCAGGCTCTGTCTACCCGGCTGTAAGTGTTCGAT
TTTCTGAGGCTGAGACTCAGATTGAAAGTGAGGGAGTTTGTAAGAATGGGCCCAGTCCTTTTGAGCAGGTTTTAAAAGGATGATTAAAGGGTACATAGGC
TTTGTAATGCCCTGACAACTTTAATTGTTTCTTTTGGTGGTTGTCCTTTTTATCGTGAGTAGTTGTTCTCAGTTGCTAAAAATTTAGGCTGGGAATAATT
TCCAACCTAGGAGGTTGTCACACTGATTTGCATTTGGTTTGTTATTTCTTAGTCTTTTCAATGCAGCCCTGCTTTCATCTTACTCCCTTTCTCAAACCCC
AGCTACTGACATTATGTACATGGTTGTGTTTTGTGATCTGTGCTAGCACACTGGTGTTGAATAATATATTGTGAAATATTCTGATGGTGACAATTCGGTA
GTTGCCCCAGGAGGAATGATGACACTTTGAATCAGAGGCACAAGGACAGAGAAGTTCAACCTAGTGGAGAGCCAAGGTAAATGAATGAAAGCTTCTGCCT
CCACAAGGAATATCTAAGTCCTTTTAGCATGGTTCTTTGCAACCTTGATTATGTTTATAATGTTCAAAATCTTTGATGAGGCCATTGTCTTCCTAGTACT
TACTGCATCTACAATAATTTAGTCATAAGATATTGATAAATAAGGTATGCCCATTGGACATGCCTGATGGGATTTTAATTAACATCTGCCTTTGACAACT
GAAACAACTGAAGGGAGGGAGAGGTACATGACTTTTGCAGAGCACATATTATGACAGACGCTAGGGGTATAACATCTAGCAAATAGGTACTTGATGACAT
TTTTATGAATACTATGATTTATCAAAATAAGTATATCCTGAGAAGTATATATTTATAGATGAAACRGTATTTACAGAGAATAGACTCTAGTTTAGAGAAA
CTGAAGAGCATTAGTAAAAGTGTTAATAAGAATAATATTTTAAGTACTATGAGGGACTTTTTTCCTGGTTTTTAGGTTTTCATGTTAAAAATTCATGAGC
AGGACAGATATGTTTGTCTTGTTGATTTTATCTCTATAACGGGAATTCAAATTTTAAATATGTTCTAGAATCATGAAAGTCATGGCTAGAAAGGTCTTGG
AGATTATCTAATTGAGGAGTCCCAAATCTCTAAATAAAATCTACCAGAAGAATCATAGGTCAATTACTACATGTATAATTGTTCCAAATAGGTTTTTCCA
GAAAGTGCAGAAGGTAGCACAGTCCTCACCAAGTTCTTTCATTCAGCAAGTGCTATCAATACCACTTACCAAGCATATATTTTACTTGGAGAAAATGAAA
ATTGCTCCATCCATAATTGGTTGAGAGCCCCTTTAGGTATAATAATAATCTTCCCTATTATGTAGTTGAGAAAACTGAGACCCATATACTAAGAGTTGAA
TTGTGTTTTCCCCAAAAGATATGTTGATATCCTAAGCCCTAACACCTCAGAATGTTACCTTATTTGGAAATAGGGTCTTTGCAGAGGTAACCAAGTTAAA
ATGAAGTCATTATGGTGGGTCCTAATTCAACATGACTGGTATCATTATAAAAAAGAGAAATTTGGACACAGACACCCCTGGAGGGCAGATGGCCATCTGA
AGACAGAGAATTCTAATGATGCATCTACAAGCCAAGGAACCCCAAGAATTGCCAGCAAACCAAACAGAAGCCAGGGAGAGGCAAGGATTCTTCTCTTACA
GATGTGAGAGAGCATAGGCCTGTTGACATCTAGATTTCAGACTTCCAGCCTCTAGAACTGTGAGATAATAAATTACTGTTGTTCTAAACCACTGAATTTG
TTTACCTAGTTATGACAGCTCTAGCAAACTAATACATCATAGATATTAGTAGTCATGGTCTCCTGGAGAAGTAATTAGCAAGGTAGTCAAGTCTGGAACC
CAGTTTAATTCCCAGGTTCAGTGCTCAATGCCTGTCTCTAGAAATAAAACTTTTTAATTTCTTTTGCTGTAAAGATAAATGCACCGTAATTCACAAATTG
TTATGAGGACTATTTTTCTGTTGTCCATTTTTTTGGTTATCTTTTTACTGACTTATTTCATTTATAACACAATCTTGAAGTCTGATAATTTCAGGTACAG
ACTTCATTTATTAAAATAAAAACTCAAACTTGAGGAGACGAAAGTTATTCGATCATTTCTTTCACTTCCCACAGTTGGTTAATGAAATCTGGAGAATAAT
ATAATTGTTATATCTTTTTCTTTGCTTAGCGTAAACACTCAAACTATAAGTTATAGCTGATAACACTCAAATTATAACTTATAAGCTGTACCATAATTCA
TAGTAGTCAATGAATTAGTCAGCTAAACTTGAACATATTACTACAACTTATGGGCATACCCAACTCCAGATAGTAGAAATAAGACTCAGAGTATACATTT
CATGAGATAAATCTAATGTGAGTATCCAATAATAGATTCAAATATTTTTCAAGAATTGACTATGAGTCTGTGAATATATATTAATGACTATACAATACTT
TTTTTTTTTTTTTTAAGAGATGGGGTCTCACTGTGTAACTCAGGCTGGACTCTAGCTCCTGAGCTCAAATGATTTTCCCACTCTTAGCTCAGCCACACTC
TGCGTAGCTGGAACTATAGGTGTATGCCATCACGCCTAGCTTAAAATATATTTTATTAAGAATTGGTGCTATGGAAAAGTATTGCTTCAACCATTTCCCC
CTTTTCAAGCTAAAATTAATTAGTAATTTAAAAAGAGACATGAACATCAACAAATTAAACAATGGAACAAGGATCATTCAAGTCCTCCTATAGGCCTCTT
GATCTGTACATTAATTGGAATAATGGTCTGTTCTTTTTGTAGAAATTAATCATGTTCTTAAACACCTCCATKCAGTGTAAGTTCTGACTGTTTAATTAAA
ACTTTATAGTAAGCTCAAACTGGGATCCTGAAAATGAAAAGATATTTTTTGTTATCTGGTTCAGGTTTTTGTTAGGATGAGCACTCTCCCTTATGATAAT
CCAGAGGTCTGCTCCTTTGAAATGTCACCCCAAAGTAGGTTGCTTGAAGTTCCCAGAGGCTAAGAGGGTTCCCCCTATCAGGACATAGTTATGACACCTA
CACAGCTCCCCTCTTAGCTTCATCCCTCTTAGAAGAGTTTCTATTTATCTTCATATTCTGAGACGAAATTGTTCCATTTATTCTACTAACCTCAGCAAAA
GCTGGTTATGTTAAAAACAAACAAACCAAAAAACCTAACTGCATCTAGGTAAACATTTTCCCATATTTGTTCTTGCAAGATGGCTGATAAGGCATTATAA
GTGGTGATCCCTTTATTCCATCATTACAGGAAAAAATAATGTTTATTTGATGTGAAGGGGAAAAATTAAAATTAAAGATAATTCTATACTTCGGATACTT
GACCATATTAAATTTACAAAATGTATAGTTGAGTTTTAAAATCACAATATAAGTAGATTTCTTCTACTCACAATCATTATATTAGATAAGAAGGTACTCC
TCTTGATCTCTCCTTTGCTCCATCATAAAATCCTTACTAGATGGGTAAGACGGTAGTTGTGATAAGACAGTAGTAGCCTATCCTGTCTTATACGTTTCTG
TGAAGCCCAGAGAGGTGACATGAATTTCTGAAGGTTGCAGAACTGAGACTTAAAACTTAGTGTGAAATTTATTCTGTTGGAAAAAAAAATTGCACTGTAA
CTATTTCTTTGAACTTTGGGAAGTATATCCTTATTAGAGAATTACAGTGTCAAGACATTGCGCTATTATTAAACAAATGATACCACTATTTTGACAAGAG
TGGTACTTTCCAAAATACCTAAGAAGTTAATTGAAGACTTGGAATTATCAGAGGATTTATTTTATGTTGAAAATTCTGACTTATTTTTAAATTGTTTATT
CCATCTCATAAACTTCTATTTGTTATTTAATTTTAGGAACTTTGAAATAAAAGTTTTTTTTTTTAATATATCTTATGTCCTGTGTGCAAGTCTAATGGAT
AGATCTGTACCTTGAAGTTCCAACTTCTGCCCTCAGAGATGAAAGTGACAAACAGCAAAATATGGAGCAGATACATTGAAAACTTTAAGAAACTTAATTT
TTATTTAGTTTGTGCTTATTTACTAATATGTTCTCTGAATGCAAAGTAAGTATACATGTAGAGTCATCTTTATGAAAAGCTATATAAAGAGCTATAAATA
AAAGGGATAGATAGGTAAGACAAAAAAAGGCACACTGACAAAATCTGCGGTAAGAAATATAATGAGTTAGATTCTAGGCATTTGTCTTATTTAACATGGA
GTAATTTGTGGATATATATATATTGTGTGGGTATTTGAAATTTATGTAGTTATTTTAAATCATGTAATTTATTTATGCAATTATTTTATATTTATGTTAA
CTTATTTATGTAATGATTTTACATTTATTAAGCTGACGATTATGGTATATGGAACTTAAAGGTATAAATATACCCATTTATGGTATATGGAACTGAAAGG
AATAAATCTATCCATTTACCAATCAGTCTGAGAGATTCTCTGGTTTCTTACAAATACAGATTGGCAACACCGATGTGGTTAAACATGACAGGCAAATAAC
TACCATTCAATGTGAATATTAGCAATACTGACAAGAGAAATAACATTTGGGTTGAATAGATACATTTATGTCAGGTTTTTGTGTATTAGTTTCTCTCTCT
TTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACG
CCATTCTCCTGCCTCAGCCTCCCGAGAGCTGGGACTACAGGCGCCCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNATATTAAGCGTCCCATGCTATATTGAGATAACTTTCAAACATAATACAATTATGGTAGTAATAATAATTTGGAACTTCAACTA
TACTACTTGACATTTTAGCATTTATGTAATTAATTAGTTAACTAACTTGTAGGTGCCAGGCACAGCTAGGCCTACCATTAAGGAGTTTGCATTTTTTTCA
AGATAGTTATTTATAGTACAGTATGAAAAGTACACAAATTTTGAGCAGTATTTTCCTTTTTTCATGGCTTCCCTTATTCAACTTCTTTAAGTAAGTAAAA
TTCCACCTCAGAAATGGTTATCCATGTTCCCTATCTCCTCCATTCCTATTGTCTCTGCCTTGACTCAAGACCTCCTTATCTCTTGCCTGGATTATAGAAC
TGTGTCATAACAGGTCTTTCTGCTTGGAGTTACCCACCTTCACTTGACCACAATCTGTGATACCCAGTTTCTTTTTCTTTTTTTTTTTTTTTGTTTTGAG
ACGTGGTCTCGTCCTGTCACCCAGGCTGGAGTGCAGTGGCGCCATTTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCCCGCCATTCTCCTGCCTCAGCC
TCCCGAGTAGCTGGGAGTACAGGCGCCACCACCACACCCAGCTAATTTTTCGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCG
ATCTCCTGACCTCATGATCCGCCCCGCCCCCCTTTGGACTCCCAAAGTGCTGGGATTACARGCATGAGCCACCGCGCCCGGCCCCCACTTTCTTACACTG
TATCTTTCTAAAGAATAAGTCTGAACAAAGTAGTGACTATTTTAAACCAATAGTATACATTTACTAAATTCTTAGCCTGCCTTTCAAAATTACATTCAGA
TTTTTCCACCATTTTCTTTTTAGTGCATCTTAAGTACAGGTCATCCGTGCGCCCGTCTTTTTTCTGAGCAAATCACCTGTGTACTTTCACATTCTTAGCA
TCTGCCAGGGGTGTTCCATATACCTGGCATGATCCTCCAGCCCCCACTACCCGACCTACTTTATTTCTTCCTGGTAAAACCCTCTTCAACCTTCAAGCCA
CACGTTATGCAGCCTTTCCTCGCACTGAGAAACAGATACTTTAAGGGTTATGATATTTATTATATTGTAATTATTTACATGTTTTGTTTCCCTCTAGAGA
ATGAGAGTTCCTCCAAGGTGGAGACTCATTCAGCTTTTCGTCTCTCTTACATAACCTKTGCCTGGCAGGTTGTAGGTACCCAGTGATTATTGAATTAGTT
AATATACGCAATATGGATTTGCTTGTCAGAGCATGAGTATCCATGGCTTTCTGAAGTCCTTCAACCTTTGCTTGTGCTACTTCCTCTATTTTGGTCCTCT
TCAATAGGCGAGGTGATTATGATCTACCTCTAATGGGTCACAGTGACCCCAAAGGCAAAGCAATATATTGATCTCCCTTAAAAGGATGTATGCCACGAAA
TAAGTGTTTTTATCTTCTCATCCATATTCACATTTATACTTTAAGTGCAATGTCCTGAGTGAGACAAACCTTCACACTAATCTGTGTAATTAAAAATATT
GAAATCTCATTGCTTGGCAACCACTCTAGACCTTTGGACACATTTTCTGGCGCTGTTAAGGGGGCTCAGGCTGCAATTGAGATATAGATTACCTATTTAA
AGGAATCATATTTTTCCCCTTTGAAATGTCTGTCCTTTATCTCCTTTTGATGGATTTTCTAATTTATTAGGCTTTGCTTTTTTGGGAAGTAAATTATACC
TGTTGACACAGTTGCATCCTCATGCAAAAACAAAGATGATATCATTAATATTTTATGGCTTAATCATTAAATGTGAAAGGGTGAAATGCTTGTATTGCAA
TTGAAATGAATCTTGAATTGACCAGGTCTTTCTCTGTGGGAATAAAAAGAGAATAGGTATGAACTTTAATAAAAAATGGTGTTTAACTCTACATTTAGCA
GAGGTCTTCTAAGTAATTTTGCCATCAGTTTTCTTCCCACAAATTCTCCCATTACATAAATAATCTGCTATTATGTTGATAGACTCATCTTTCTGAAATA
TAGACATGTTCATATAATTCATAGTTTGAAGTGTCTGATGTCTCCTCTTGCCTTTAAAGAATACCCTGAACTCTTAAACTTCACGTATAAGGTTCCATCT
GTCTTGACCCCAATCTACCTAGGATTTCTCCTCATCCCTGGTAATCTATACATACCTTAAAACCCAACTCAAGCATTACATGCTTTCTTTAGCTCAGTTT
TCACTGATGCCCCAGCCTCTTAGGGAAGAATTCATTGTTTCCGTATTTGTGAATTATAGCACCTACCCATTCATATGTGGAGGAATAAAATGTAGAGAGT
AAGAGTTAGTGTTTCAAAGGCAGACCTTCTGGCTGTTTGCATTCTGTCTGTGGGACCTTCAGAGGATTCCACGGAGTAAAAGCACTCTATGTGTCCCAGT
TCTATCATTTATGAGAGAGGGGAAATAATACTGCTCCAGAAGGTTATTTTGAGGATTTTTAAAATAATGCATGAACAGTACTTAGTACATGCCTGGTACA
CAGTAAGGACTCAACCACTAATAAAAAAAATGTTTTGTGTGCTTACATTTTGTTTTGATATGCTTACATATTTTTCTTCCCTATTAAAATGAGATGGCCA
GAATTCTGTCTTCGTTGTACAGGCAGCATCCAACAGCTCTCAGCATATAATATTGGATATGTGATTATTAATATATGTAAAGGGTAACATATTGGTCAAA
ACATTAATTATTTGGAGAATTATTCGATTAATAAAATATGTTTTATACATATTAATGCTGAAATCTCTGCTCAAGTGTTTTAAGAGGGGATTTACTCACA
GAAAATAAAGGAAAATGAAAGCTACTAGGTGAACTATAGTTTAAAATAACAAATCCAAAAATGTTAGATATTGCATCTCTTCAGTGGAGTATTATGCCTG
GAGCCAATTTTGAAATAAAAACAATGTAAGTACTTACAAAATCTCCATTTGGTTCAGACTCTGCAGGTGGAACTAATGTAAGTGGAAAGATTCCTAAATA
ATTCCAAAGTCACTATGAATAGGAATAATGATCATCATACATATACTTATCACTTCTATTAGAAATAAGCCATGCTTATACATATTGTTTAATATAGCCA
AAATATCTTACACATAAAGAAGTTAGTTATAATTCCCTACTCTATTCCTCAATATTTTTAACAGTGCTTCTCAAATTTAAATAGGGATGACAAGACTGAT
GTTTATCAGGTTTTCCTCAAGGAGATCCTTTACTGTGAGGTGTGTGTGTGTGTGTGCATAGAGGTATTATTGAAATATGATTCACATACCATGTGATTTA
TCCACTTAAAGTATACAATTCATTGTTTTTTAGTATATTCACAAAGTTATGGAGCTATCGCCACTAATCCAGAACATTTTCATCATGTCCCCTAAAACAC
CTATGCCTGTTAACAGCCACTTCTCATTTCACCTACCTCTCTACTACTTCCAGGCTTAATCAATGACTAATCTATTTTCTATCTTTATAGATTTGCCTAT
TCCAGACTTTTCTTATAAAAGTAATCAAAATATTTGCAGTCTTTTGTAATTACCATCTTTCACTTAKCATAATGTTTTGAAGGTTTATCCATGGTGAAGT
ATGTATCAGTACTACTTCATTTCTTTTTGTTGCCAAATAATATTCCATTGTATGGATATACCATTTTTGTTTATCCATTGATTAGTTAGTAGACATTTTA
GTTGTTTTTGCTTTTTGGCTATTATGAATAATGCTGCTATGAACATTTGTGTTCAAATTTTTGTGTGGATATTTGTTTTCATTTCTCTGGAATATACATC
TAGAAGTGAAATTGCTGGATCATATGGTAAATCCTTGTTTATAAGTTTGAGAAACTGTCAAATGGTTTTCCAAAGTGAATGCATCACTTTGCATTTCCAC
TAGCAAATTATAAAGGTCCTCATTTCTCCACATCCTCAACAACACTTGTTATTTTCTATGTGTGTGTTTTAAAAATGGTTTTTATAGCCATACTGATGGG
TATAAGATGGTATCTCACTGTGGTCTTGATTTGCATGTCCACAGTAGCTAATGTTGAGCATCTTCTCATGTACTTGATGACCATTTGTATGTCTTCTTTG
GAGAAATGTCTATTTAATCCTGTGCCCATTTTTCAGTTAGATTATTTTCTTTTCATTATTGAAGTTTAAGAGTTCTGTATTTCATATACAAGCTTTCTGG
TATAAGTCTCATATCAGATTTATGATTTGACAATATTTTCTCTCAGTCCTTGTATTGTCTTTTCACTTTCTTAATGCCATTGTTGTGTGTGCTTATTTTT
AAAACAAAATCTGATGACAGATTATTCTAAAGGCTAGATTTTAAGGTTGATATTTGTTTTCATGATGCATCTACTATTATTTATTTTCGTATTTTCTGAA
ATTATTAGTTTTTTAATTACAGCTATAACATTTTGAACAATAAAATTCTTAATTTTAGTGTTTTCCAAACCGTGCTCTGTGGTACACAAGATGCTCCATG
ACTAAGGTAGATTGAGAGATGTTGTTTGCTTTATTTCTTACTCTGAGCACACAATATTAAAGGCCATATGATATTCTATTTTAAAAATAACATGTCTAGC
CCAGCATTTCCAAAAGCCGTTTTAATCTTTTTCCCTGAAACAGCTATTAAACCCAAGTTCTGTAATATATACTTCAGAAATATTGTTTTAATCTATTCTC
TGAACTAGTTTTACCTGGCTTGTAGGACTATCTGCCTTTGTTCTTAAAAAAAAAAAAAAAAACTTGTGAGAGTCTTTTTAAAATTCTATAGTCAGATCTA
TGACAACAAAAGAGACTGAGACAWCCACAAGTTATTTCTACCATGTTTGTTTAACTCAGGAGATTGAATTTGATGTGTTATATACATGGTATGAACCAAA
CGCATAATAGAAATTGGGTCTTCTCTACCAATCAGATAGTTAGAAAGATATGCTTTTACTTCAGAGAAAATTCAAAGTCAGCTAAAGTGTGTAGGTCTGT
TTCTTTTCAATTTCCAGGGCCTTTTCCATTATGTATTTGCTGCCTACCATTATTGCTACTATTCCATGAAAAATCGCACTCTGTGTGTGTGTGTTTAGAT
TTGTATATGTCTGCTCAAATAGAGCTTAATGGTGACATTTTTATGGCTTCAGGATGTTGGGGTGGAGGGAATTATCTTCCCCTCATGGTCGCTTTGTGTC
AGATGATCATTGCTTCATCTCTAGAATCCTATATTGCTTCTGGACAGGGAAAATAGGAAGGCAGAAAGGCAAAAGAGACAAGCTAGCTGAGTTTTCCCCT
TTTTAAAGACTTTCCTTAGAAGCTTCACACAGTGACTTCTGCCCGTATCTCATTAACCAGGACTGTGTTCCATGATCTCCTGATCTGTAAGGGAGTTAAG
GTTGGGGGAAATAGTTTCCTAGCTGGACCCATTGCCATCTCTATGAGAACCAGGGTTCTGTGAATAAGGAAGAAGAATACGACGTATTATAGGATGGACA
ACTAGCATTTTTGTCACACAAGGCATGGGATGACAGAAAATTCTGAGAGTGAAGAGCTAAAAATTCTTTACTACTTGTGTATTCAACAGTAGAATTTTAA
AAATCAACTCCTTATTGTAGCCTAAACCACCTGGGTTCAAGCAATCCTCCTGCCTCAGCCTCCCAAATAGCTGGGACTATAGGTGTGTGTCATCAGGCCT
GGCTAATTTCTAAAATTTTTTGTAGACGTGAGATCCCACTACATTGTCCGGGCTGGTCTTGAACTCCTGGACTCAAGCGATCCTCTGGCTTTGGCTTCCC
AAAATGTTGAGATTACAAGTGTGAACCACCACACCTAGCCTTATTTTTTTTTTTTCCTGGACAACACCAATCAGTTATTCTTTTTAAAAAGCATGTATTG
AATCCCTTAACACGTGCCAATTATATTCCACATAGCAAATAAGATCCATAAGGTTTCTGCTATCCTGAAACTTACTTTCTAAAATGGAAGATAGACAAAA
GCAAGTACCGGTTGAGAATCCCTTATCTAAAAGGGACCAAAACTGTTTGGAGTTTGGAATTTTTCAGATGTTCAAATATTTGCATATACATAATGAAATG
TCTTGGGGATGGGACCCACGTCTAAAACACAAAATTTATTTATGTTTTATGTCTACCTTATACACATAGCCTAAAGGTAATTTTATACATTTTTTAAATT
TTCTTTATAAAACAAAGTTTGTGTACATTGAACCATCAGAAAGCCAAGATGCCACTATCTTAGCCACCCATATGGGCATCCTGTGGCAAAAAAAGTTTCA
GATCTTGGAGCATTTTGGATTTTTGGACTAAGGATGCTCGAACTGTAATGAAATAATTACACAAGGTTATTTCAGATTGCAGTAAATGCAGGAAACACAC
TTGGTCATATGCTGAAGAGTGACAAGAGAAGATGAGGGTAAGACTGGCCACTTTTGTTCACTTAATAAAACCCAGCACCTAATACCATGCTTGGTGCAGG
ATAGGTGCTCAGTAAACGTTTGTGTTGGATGAATGGATAGATGGATGGATGGATGATCAGTCACAGAAAGTGTCCTGAGGAAGTGTTAYTTGAAGTGACA
CCCGAAGAATGAAAATGAGCTGACAATGCTAAGAAAATGGGAAAATGTATTCTAGGCAAGATGAACGGCATCCAAACCTTTAGGTTATATCAGTGAAATC
AAATTTAATTCTAAAACAAATGAGAAGCCATTGAAAGGTGTTACATTGATTATCTCATCTGGGCTTCACAAAAATTACGTGAAGTAGGTAGTCTTATTAT
TTCCATTTTGCAAATGAGGAAACTTAACCTAGAAATTATAAAATATCCAGATTCACAGAGCTGGTAAGAATGAAATTGGGATTTGATTATAAGAAATTCA
GCTCGAGTCCACCCTTAACCACTGTGCAATGTTGTAAACTATAAAAGTAAACTGTAACAGGACTAGATTGTTTAAACAGCAAGTAAAAGCCTGAAAAGAA
GATATCTGCCAATTTAATGGATTCAATTTTTAACCACATTGTCTATTAGTGACTCTTATGAATTGAATACATAGCACAGTTTCTCAGAGCCTCCACTGAC
CATCTTTCTCTTTCAAAGTAAAAATTGTCTTTGTATATTACATTATGGACTGGATTATTATAAAAGATCTAGTTTCTGGTTCTAATGAACGCTGAAATAT
GGAATTGCTAAAAAGTAAATTTAGTTAGAATAACAATAGCTTGATAGAGGAAAATCATTACAAACTCAAGCGGAGAATTCCAGTTTAGCTATGCCCTTGA
AGTTGTTATTATACTTTGCATATAATTTATTGATTCTGAAAAGTTGGATTTGCCATCTTCTGAGAATATTATCTTGGGCATATGGGGCACACCCTGCAAC
CAGAAACAGCACAGGAATAGTCATTCCTTCATGACAACTTCTACGAAAGTGTAAATTGAGGCTAACAGGRAAATCACCCTATTACTCCTGTAAAGTGACG
ATAGCTTTCAGTTTTCAAATGCGACTTTCTGATCATGTTTGAATGTGTTTCTGTTCATGTTTATGGAGAAATTTAAGAATTAGAATTGTGATTCTTAATT
CTAATTCTTAAATTTCTCCACAAGTAATAGGAAACTAAAGAATTTTTCTGTGGTAATTTCATTAGGAAAACTTTGGCTAGGACATGGTGATAATGTGCAG
ATATTTTGTTTGCCATGTCACATTCTTCCCCTTCTTTTCTGGAATGCAATCAATGGTGAAACATGTTTTACGGTAAAACATTTAATACTCCAAATTGTGA
ATAAAGCAAAGAGAATGTGTTTAATRTATTTTTTAAATCATATACTTTCTTTAAGACCCTCTCACTCCTAACATAAGCTAGAGTTTTCCGTTTCAATATA
TAATCAAAAAACCAAGTATCCTATTAAGTGTATATTRTTGACTCAAATTGACAAGGACATTGGTAACCTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTT
TTTTGAGACAGGGTCTCCCTCTGTTATCCAGGCTGGAGTGCAGTAGTGCAATCGTAGCTCACTATAGCCTCGAACTCCTGGGCTCAAGCAATCCTCTTGC
CTCAGCATCTAGAATAGCTAGGACTACCAGGTGCACAACACCACACCTGGCTAATTTTTAAAATATTTTTTGTAGAGACTGAGGTCTCACTATGTTGCCC
AGGATTGTCTCAAACTGCTGGCCTCCTCAACTGATCCTCTCACCTCAGTCTCTCAAAGTGCTGGGATTACAGGCACAAGCCACCATACCTACCCCTCTAT
TTATTTAGTTTTTGCCTTCAATCAAGGATACAGTACATCGCATTTGCTTGAAATAGAAAAAAAGAATGAGCAAGTCTCTCGGTTCTTGTACTTGTGGTAG
GAATAGAGACAGAGAAGTACCTGGTTAATTATTTCTGCACCTGCAATTCTAACGACCTCAGTTAACTACAGTTTTAGGTCATACTTTACTCTTCCTTTTT
TTCTATTTCTTCCTTTTTCCTTGCCACATCATCTATTCCACTTTATTTTCTTTTATTCCTAAATAGAGGTCTGCATAATATATCACTAAGAGGAATACAT
TTGCAATAAAACTTTTTTCTGCAAAAAAAGCATTGGTTTTATTGTAAACAAACCTCTGAAATTACTTTCAACATATCAAATGGGTCATGGACCCGTGAAG
AATTGAGGGGGAAGGTCAAATTTAGGGGCAGAGATGTACTGTAAACTTAGTCAAAAGAATATCTTCAAGTCTTATAATAAATTACTTTCTTCAGCATTTA
AGAACTTGAACACAAAATGCACATGTCTTGTTAAAATCTAATTGAAAGTGGAACTAAAGTAATTTTTGGCACAAATCGGCTTTAGAGGACAAATAAGAAA
GCCAAGGGTCGCGTAATGGGGCTAGTATATATTGTAGTCCGTCTATGCTTTTCTCAACAACCTCCCAAAGTCTAGCTGATTGGGGAGTAAGAAATAAGTA
GCAGGGAAAATGTTTGGAATTTTGTCTTTTGCTGAAGGTTTCTTGGCACTTATGAAAACTTCATTGAATGAAATAAGACTTTAAAAATTTTGTAAAAGAC
TTTTTGGAAAAACGTAACTTTCACATTAAAATTATATAAAAACCAATTCAGTATTTTTCTCATTTATAAGACTTAAAAATGAATTCAATGTTTTAAGTCA
CACCAATTACTGAGATATATTTTTTAAAATTACCTATTTATCAATTTTAAAGACCATTTCTAAAAAAGGAGTTTAAGTAGAGAATATTCCTTTGAGTTAG
ATAGTTTTTGGTATACGTAACAGCATACACACACACACACACATACACTTTTAATTTTCTTGGACTTATATATTTTAGGCCCATAAATGTAAACCATTTG
GATATCAAAGCAATGTTTATGTTTTTCAGCACGTAATTTTAATGCTACAGTCTGAGAAATTGTATGTTGTTTAAATGCAATACATCACAATGTTTGATAA
ATAAAAATAAAAACCGTTAAACCTATCCAAATGCAAGAACTCMTAAATATTGTTGAGTTAAAGCTTTTGATGCAGCTGAGGCTATGTCTGGATTTTATTA
TTTTCCCTAGGATTTCCAATTTTTTCTAAGAAAGGAGATCAATTTTATAGATTAGTCTCCTGAAGTTGTGCCAGTGGGTTCGTCTGAGTTTTAATAATTT
TCTGTAGAAAATAGCCTTGAATGTGTCTTTTCACGGGGCATGGTATGAATGAAACCTAAATATATAGGGAAACAGAGATATTAGCATGATCCAGTCATAA
AACAACAGGTGAAGAGCTAGAAATAATAAATGAGGCCTTTATTTTATTTTTTATTTCCTACTCATTTACTCAAATTGACATAAATAATGCAAGAGGTAGT
TTGACAAACTGTACAATACAGATTTATAGTCACATTAATTGGTGCTTAGGGGTTTGGGTTTCACCTGAAGTTAAGTTCATATAGTTAATAAAGTCATAAT
GCCTTGTTTAAATATTTCATGAGAAAATTGCATTTTGTTTTGTCTACTCAGAACCTAAAATCTGTTTTATTGTGGTTATTTTATAAATATTTGCATGGAA
TTTTTGGAGTAAGTTTATTTGGTTTGTTTGTTTTTTTTTTAAACAGGCCTAACTATCAATTGCATTGGAAATTTGATTGTGTTTCCAACTAACAAATAAT
AATACACCTGGAAGTGCAAGTCCTTTCCATATTGAACAGACTCTCTCTAGCTTTTCCTTAGCTGATCTTTTCAAACGTTTGCTATTTGGGCCTCTCTGGC
CCCAAAGAGTAGCCTTTTGCTACTCTTTACGCTTGAGGAAGATTAAGCTATCCCAGGCCTCTCATAACCAAGGGGATCCATTAATATTAAAATTTAGATT
TTTCCACTGTTAATGCAGAAAACCATTGATTCAGTAGACTTCATGGTCATGCACATGCGTTACATGTTACTCTGAGTAATGCTGCATGAAGTTTTAATTA
CAGATTGATCAAATTCTATAAATTGTGTTTTGGCGTGGCCAAGGAATGGGTTTTTCCTATTCTAGTTTAATAGAAAGTCATAATATATATCATGTGAATT
TTACGTTTCTCAATGAATTAGATTGCAACAATGCCTAAGTTTGATTATATACTTATTAATAGTGATAACAATTATAGCTCACATTTAGTAAGTCCTTACT
ATGTACCAGGTATATAAGGCTTTTTAAACCTAATGATTCATTTAATGCTTACAAAACCATACAAATTGGATGCTATTATTAGCTAAGTCATGGAGACATG
AAACTGAGGCACAAAGACATTATATAACTTGTCAAGATCAAGTATCTGGTAAGACTGAATATCAAGTCAGAATTGGGATTTGAACCAGTCTGGACTCTAG
AGCTAACATGCATAACATATAGCCTACACTTTTTAATTATTCAGAAGGTACTTCAAGACTCCTGTGGTGCCTTTGGGTTGGCAGTTTCAGTATTTTTTAT
GCTTACATAGAGCATAAGATATATAAATATAAAACATTATATATAATATATATTCAAATATATATTTTATATGTGTATATATATTTCCCTAATAAATATT
GAAAGAATGCACACATGAATGAGTGGATGGGTGAATACAGAAATGAAAAATTTGTATTGAGATGTGCTAATAGAGAATTTGGTATAACTAAACATCTGAT
ATATAATTTATATTTTGAGGTAACTCTTTAGCCAACATTTTAAARTATGATTAATTTATAGTACTTACGAAGGATTTTCAGAGACATTACATTTTTCTGT
TATTTCACTGTTTTAAACAAGATGGAGATTAGAGGGTGGAAAATGGATTCTGGAGAAATAAACCCATCATATTAACTATAACCATGAGTTCCTTGAAGAC
AAATCAAATCTGATGTCTTTTCTTTYTCCTTATGAATATACTTCAGTACGAAGGACCTGATACTTAGTTTGGACCCAGTAATTATTTATTGTTGTAAGTA
GCACAGTAAGAATAAAAACGTTTATGATTTGCAACCAGCCAACCTATATTTTAATCCATATTTAACCACTGGCTGGGTTATGTTACATTTCTCCTCTCTT
AACTCATTTCCATATCCATAAAATATGGAGCATATGCCTCTATGGTTTCTTGGTGATGAAATTATGTATTAAAAATTATAAAACTGTAAAAAATATATCT
CAAAATGTGTTTGTGTTCCATGGAAAACTGTAAATCTCTCTTGAAACAAAAAAGTTTCTATAATCACATACTTCTAGAAATATTTCATCTGAGTTCCTTT
AAAACTTCCTCAAGCTTTAACATGCTAACAGGTACTGGGACTATCCAAGGAGGGATGATATTTTGCAGAATTTCACAAGCTTATTTTACTTTATTACCAT
TTTTCATAAAATACCTCACAGGAAAACTTAAGCATGAGACTGATGTGATTACATTATTATTAATAGTCTCCAAAATTCAAATTAGCAATAGAAGTTGTAA
AAATTTCAAGTAATCAGGATAAACCAGATGTATTAAATGAAAATAATGGAAGCTTTGTAAGATTAGTGGCAGCATATAGGTTTAGAGGAATTATTATCAT
TGTGATAACAGGGACAGATACAGAATTATGGAAACATTCTAAAGCAGTATATAGGAAGATCATTATCAGAAATAGATAGAGAAATTGTAGTAGAGAGGCT
AGAATTTCAAACTCCAGAATATCTGAATTTGCCTCTATCTGAAGCCTTCTCATTCCCAGTGCTTATGAAATTTACACTGGCTGCTATATTGAAATGCTAA
GAATCAGAATCAGGGATTTAGTATCAATCAAGTGGATGGAATTTAGCTAGTTATCACCAACTGTGAAAGGAAAAATATCCGTTAAATTCAGTCACAATGC
TATATATCAGGCTCTCAGTGATTTTTTAAAGGAGGGTCAATTTTAAGAATTCTAAGGAATCTCTTTGTTCCTGCTAATTTGTCYGAAGGTTTACGAGGAA
TACAGGAGAAAGCTAAATTGTTTGGGGAACAGTAAGAGATTTAGATTCTGAGAAAGATCCTGGAGGAAAAGCTGGGGCCAGTATGCTGAAAAAGACACAG
TCCTCTTGCCCTACCCCAAGAGTAAAGGGCAAGAGGTAGTGGCTGCCAAAAAAAAAAAAAACAAAACAAAACAAAACAAAAAAACCTGAAAAAACAAAAA
AGTTTTGTGGAGAGATATCGAATGGATATTTATATGGCTTTTTGCTGTATTTTGTATAATGTAATGATGTCCTCTTGTCTCCCCATGAAATCGTCAGTGA
AATCAACATCACTTGCTAATACATTGTAGAGTGGGATTGATTTGAGGAGCGGGGAGATGTGATGAAGTAGCTGTAATAGAGGTATTGTGTTTATGAGACT
GTGGCTGCTAGTCACATCTGTTTTACCCACACGAGGCTGATGTGGTCTTCTAGTTTGTAAATTATGATATGCAGGCGGTTCCTGCCAGCAGAGATTTAAA
AAAAATTATGCAGGTGGGTAAGTCTTTTTCAGCACCACCTGTATTAGGTCTTTCTAGATCCCAAATCCCAGTATTGACGACTGGAGGGCTGATAAACAGT
ATATGGCAACCCCAGGAATTCTGTTAGCTTCTTTGGCCTAAGCCCCGGACCAAATGCAGACTTCCACTCTTACTTTTCTGAAGAGTGCAAGGTAATTTTG
ACATTCTTACTCCGTTAATAAGAAGAGACCCAGGAAAGGACCACCAAAAAAAAAAAAGAACAATTTCCCAAAATGACTAGACAGGTGCTGAGACTGGCCT
AAACTATCAGAGATCTTCCCAATCCAGAGCACTGACCTCTGCTAGAGCCTGCAGTCAGGGGAGACATACAGTTCAGGCTCATCTTCTCACATGGAATGCT
GCAGAGAGCAAATATAGGTAGCATAGAAATTAAGGAAAAAGAGTATGCCAAGGAARGAATCCAATCAAACATGCCCAGGTTAAAGAAGTGCTTTTAGTTT
CTTATCAAATCAAAAACCGTGTGCTCATCAGAGTAAATGTGGTTCTAAAAGGCAACCCCTGCTCTCATGCATTTTGTGACTCTTGAAAAACAAAACCCAT
ATGTAAAGGGACAATAAAATTGTACTATTTAGTATGACTAATATAAGGGTGTCTTTGTGGCATGTGGTGCATATTCTATAAATTCTTGTTGTATTGAATG
GAATTAAGTAAGAGTTTGGGGACAGAAGAATCCCTGGTGTATTAGTATTTCCCTAGATAATTTTTTCTTGTAATTTTGAATTAATGAAGCTAATAATTAA
CTTGTAGACCAATTTTATACTAAAGGAAAATAGTAAATACCAAATATATAGCTATGATCACAAAGATCCAATCCCTTTTTAAATTTAACATAGAGATGCT
TTGCTGCTCCTAAGGTACCATTCCTGCTCCCGCCTCAGAGCCTTTACATCTTCTATTTCCTCTGTCTGGCATGCATTTCCCCCAGGTTTGTGTGTCTGGC
TCTTTATACAATTATCTGATAAAATGTCACTTTTTTCAGAAAGGACTTTTTCGATCTACTGTACTTATATAAACTTACCTCTGCTTCCAGCCCCTACCAT
CCATTACCCCCACTTGTTCTCCCTTCGTTTATTCTATTCTAAGCTTCTTTATAGCTTTATCATCACCTGGTATACTATGTTTCTGTGTTTRTCTTCTTCC
TTCACTAAAATATAATAGCCAGGAGGCAGAGATACATCTTGTTTTGTTCAATGGCATACAGTTTGTGCCTAGAACAGTGCTTTGCACATAATATGCATAC
AATACATATTTACTTAATGAGTACATGATGAAATAGAAAGTGGACTGTGTGGTAACCTTTACATCCTTATATGTATATTAGTTTTATATGTCTTCAGAAA
TATGTTTTAGCCATCTTCAGCTGCTGTAAAAGAATAGTTTTCTTGAGAGTAGTGCAAAGATAACTGTGGTGACTATTACTTTCCATCGTTATCCTCTTTT
TTTCATATCTAAAACTTCTCACCTCTTTAAGGTACACACAAATAATAATTTTTTATTTCCCATCTAGTTACAGTCCTCCTTCAGCTTTCATCCCTTTAGT
AATAGTTGTGGTGAATTTTTTCTCCCGAGAAGCYCCTAAAAAGGCGTTCATTTTTACGTAAACAAACAACAGGAGAAAAACATATAAACATGAAAGCAAA
ATATTTTACCTACAGAAATATATTTTCAGCAATCTATTTCTCATGCTATTGTTAAAAATATCTCTRCTTGGATAGAACCTTTTTGTTTCCATGCTGACTT
CTTCTTTGCTTCTCCTGTGAACTTTTTAAATTCTGTGTTTGGCAGCAGTTTTGTTTTCCTTGGAGCTAAGTACTGTGTAACATACTGTTAGCTGAAGGCT
GTGATGTAGAAATTTATTATTAAAAATAAAAGACGGAGAGAAGAATTTATTCCATAAGGATCAAAATGACTTAGTGTCAAAGCAGTTAGGATTTTCAAAA
TGCTTTCTATAACAGATTGTGTTTCTTTTCAAGGAAGTTTACTTTGTTTGCCAGGAATAAATTTAAGGGTCTTCATTGTGCCTATCTTGGTTAATGAGAA
CTGAGAAGAGAAGAAACATTCTCTTTTAAAAAAAATTTTTTTTAGAGAATTTCTTCATCAGACGGARAGATTTTATTTGCCATTTGCAGGCATAACCTTG
GTGACCTATATATCCCCAGACCTTCTGGTAAGATGCTTATTAAAATGTCATTACCCAGAGGAGTAATCATAAACTAGCCAGAGGGTATTTTTTATAGATG
GTGAGAGACAAACATTTTTTTTCTCCCTGAATTAAGTAGTTATGTACTCTTATCAACTAGAATATATTTAAACTTACTTTTATTTATTTTTCCAGTCTCA
ATCTCTCCCTCTCTGTTTTATGTTTCTAGCAACTTTATGTAACTAATCTTAAAATCATTAGCATTCCTTCTCCAAAAAGAGTATCATATCATCTTAATAA
AGTTTCTCTTTTCCCAGAATTGCTTAAGTAGCATGCTGCTATTCATTTCTCTTGAAAKTTTAGTCAAAATGAATTATTTTGCAAAAAGGAAAATTCCACA
GTTTCTATTTCTTTTCCTCATTGTCTGTGGCCCATTAACGTCTTTTATCTGCTACTATGATAATGTCAAATGATTACTTTGGTCATCTGCAACTTAACAC
TAATCTTATCTGTTTAATTGAAAGGATGTTTTGACTTTCTCTTTGAAATAATATCAACATCATTTTGCACTTAATTCTGAAATTCATTGACCTCAATGTG
CAAGCTGTCTTCTTTACTATTTATTGTGAATAACCATTTTTTTTTATTTGTTGTAATCACACATCARGAAAGGGCTAGGGAGATGTCTTTGTGAAACATT
TATCCCTATGGTTCTGTTTAATAGGAGTACTTACCAGTAGCTAAATGCCTCATTTTATTTTAAATAATCTGTAATATTAAGTCAGTTTATCACACTATGA
GTAGTTTTTTTTAATGGATTCTGACAATATGCTGCTTATTGTAGTCTTTCATCCTTTATCTGAGAACWATGTTTTTATGACAGTAAAATATTTTTTATAC
AAATAGGATAAAAATTCATATGCTGTCATGCGCTAATATGAAGTTTATCCTTACATCTCCCACTCTCCACCCCATGCCCCATCTAGTGGCCAGAATGCTG
TAATCGTGGGAAGGAATAAAGCTCTGACACTATGCAGTCCCTACCCCCATCATTGCCTCTTTCTTTGCATTAAAAAAAAAAAAAAGAAAATACACTGAAA
TAATAAATGCTAAATTTTGGCTCAGATTATTTTAATTAGAAATGGAAGTTTAATGATAAACACTTTGTATTCTTCAAATCCAAAAGGAGAAATATCCTGT
TTACTTCCTTTGGTGCTCTTATTGACTGTAGAACATTACAGTATCTCATTTGTCATATGCAGAGTTCATTCTTTTTGAATATATTTCACATAGGATGTAG
ATTTCTGTAACATTTTTTATTACTTTGAAAAAAGTAGCCATAGTGTACATTTTAAAATACTACCACATTCTTGGTCAGCTCATACCTTTCAAATATAATA
TAAAGATGATATTAATATATAAATAAGAATGGAAAAGAATTTCTTTGCCCTGCATATTTCTCAGTTTGTTATATAATGCTAGGAAATAACTCTCTGATAC
ATAACACACTTGGCAAATTTTACTGTTTTATGCTTTAAAAGAAAAAGTCAAATTTAGATAGTGAATTTTTTGAAATGCATCTTACAAGCTCTGATTTGCA
AATTACCAAATTGATCTTATCTTCTGGAGTAAATGATGACCCAAATTAGTCTACATTTTGAGTGTTTTTGTTCTTTGACTAAAATCGTCATCGTTAAGAT
AATTAATGGCAGAAGGCAGTGAATTACATGCTTTCCTCATTTTAATTCTGGTCCTACAAAAATGTTTCCTTTTTGACTTACTGTCATCATGAAATATTCT
CTCTTAAATCAATATATTGTGGATTATAACTTGTGTTTGTAAGATTTATTTACCTCTTTTAGTTGTGATAGGAGAATTTACCACCTTATTTTGATCCTGT
TAGTTTAAACTCATTAGCAAGGAGGATAACAGTGTTAATAGTCAGCATTTTGTAAATCTTCCAGAAGATTTTGATAAATCATTTCACTAGAAGCCTATTG
CTCAATTTATTGCCACTTTAAAGTTGCCAAAAATAATGAGCTCATCTTCCTATTTTAATGTAAGGTATTGTCAATGTTTGAAATGTGTCAAGAATTGTTT
TTGATAGTTCTAGTGAACAACTAATGTTTCTAAATCATACTACTTATTTCATTAGTTAATTATTGCTTGTGAACCATATTATAATCATCTTTAGTATCAA
TAAATATTTTTGAGATGATATAATGCCARTAAATCCATAAATTAAAAAATTAAAGCATTAAAGAAATAYCTACTATGTAAGCATTCAATTTTATATAATG
ATTATCTGGGTCAGTGTACCCAAAATTGTGTGCTAGCCAAACTACAATTAAATCATCATGATAATTCCAAGGCTTAAAACAATTGACTATGTCTGTTAAA
AATGAGTAGCTTAAAATTCATTAAATTACTTTGTTATGTTTTTTACCTATTATACTGTGAACATTTCACATGTTCTTTTTTATAAAGGCCTTGGAAGCCA
AATTTTAATTGCTCTATGGTATCAYTTTGTATACCGTAATCTATTGAGTAATTTCCCTTTTGTTGGATAAACAATTAGTAGCACATTATAGTTACTGGAT
TTTTAGATCTTAGTTTACTGGTTCAAAGGGTATGAATTTTTAATAATATATGTATTATATATATTTTATATGTGTGTAAATATATATATACAATGTGTAT
AAATATATATTTGTTATATAGTAGCAATATATATGCTTAGTTTACTCCCTGTTTTCCAAATATTCAACATTATTAATTTGCAAATATAATAGGCAATAGT
AGTATCTTGTCATTGTTTATATTGAATTTCTTTTACTTCCAATAAAGTTAAATGTCTTTCCATAGATCTATTTATTTTGTAAGTTGTTCTCACTCTTCCC
TCAGTTTTTTACTAGGGTTGGGATTCTTTCAAATTTGTAAGAACCCTTGATATCTTGAAGATATTATTCTTTACCTAAGTTTACTACAGATATTTTACCA
ATGTGACATTTGTGCAAATACTCTAAAGTTTTATATAGCCAGATCAATTTGTCCTCTTTTGTAATAAAAAAAAAAAGTCTTTAAAAAAAGATTTACGGAC
AGGATTGACAGATTGATAGCTCTTTCTCGATTCCGTGGGTGGTGGTGCATGGCCGTTCTTAGTTGGTGGAGCGATTTGTCTGGTTAATTCCGATAACGAA
CGAGACTCTGGCATGCTAACTAGTTACGCGACCCCCGAGCGGGTCTGCGCCTGCCACCTGTGCGGGGGCCGGCAGGACCCCGACAAGCAGCTCATGTGCG
ATGAGTGCGACATGGCCTTCCACATCTACTGCCTGGACCCGCCCCTCAGCAGTGTTCCCAGCGAGGACGAGTGGTACTGCCCTGAGTGCCGGAATGATGC
CAGCGAGGTGGTACTGGCGGGAGAGCGGCTGAGAGAGAGCAAGAAGAAGGCGAAGATGGCCTCGGCCACATCGTCCTCACAGCGGGACTGGGACAAGGGC
ATGGCCTGTGTGGGCCGCACCAAGGAATGTACCATCATCCCGTCCAACCACTACGGACCCATCCCGGGGATCCCCGTGGGCACCATGTGGCGGTTCCGAG
TCCAGGTCAGCGAGTCGGGTGTCCATCGGCCCCACGTGGCTGGCATCCATGGCCGGAGCAACGACGGAGCGTACTCCCTAGTCCTGGCGGGGGGCTACGA
GGATGACGTGGACCATGGGAATTTTTTCACATACACGGGTAGTGGTGGTCGAGAGCTTTCCGGCAACAAGAGGACCGCGGAACAGTCTTGTGATCAGAAA
CTCACCAAYACCAACAGGGCGCTGGCTCTCAACTGCTTTGCTCCCATCAATGACCAAGAAGGGGCCGAGGCCAAGGACTGGCGGTCGGGGAAGCCGGTCA
GGGTGGTGCGCAATGTCAAGGGTGGCAAGAATAGCAAGTACGCCCCCGCTGAGGGCAACCGCTACGATGGCATCTACAAGGTTGTGAAATACTGGCCCGA
GAAGGGGAAGTCCGGGTTTCTCGTGTGGCGCTACCTTCTGCGGAGGGACGATGATGAGCCCGGCCCTTGGACGAAGGAGGGGAAGGACCGGATCAAGAAG
CTGGGGCTGACCATGCAGTATCCAGAAGGCTACCTGGAAGCCCTGGCCAACCGAGAGCGAGAGAAGGAGAACAGCAAGAGGGAGGAGGAGGAGCAGCAGG
AGGGGGGCTTCGCGTCCCCCAGGACGGGCAAGGGCAAGTGGAAGCGGAAGTCGGCAGGAGGTGGCCCGAGCAGGGCCGGGTCCCCGCGCCGGACATCCAN
NNNNNNNNNNNNNNNNNNNCGGGTCCCCGCGCCGGACATCCAAGAAAACCAAGGTGGAGCCCTACAGTCTCACGGCCCAGCAGAGCAGCCTCATCAGAGA
GGACAAGAGCAACGCCAAGCTGTGGAATGAGGTCCTGGCGTCACTCAAGGACCGGCCGGCGAGCGGCAGCCCGTTCCAGTTGTTCCTGAGTAAAGTGGAG
GAGACGTTCCAGTGTATCTGCTGTCASGAGCTGGTGTTCCGGCCCATCACGACCGTGTGCCAGCACAACGTGTGCAAGGACTGCCTGGACAGATCCTTTC
GGGCACAGGTGTTCAGCTGCCCTGCCTGCCGCTACGACCTGGGCCGCAGCTATGCCATGCAGGTGAACCAGCCTCTGCAGACCGTCCTCAACCAGCTCTT
CCCCGGCTACGGCAATGGCCGGTGATCTCCAAGCACTTCTCGACAGGCGTTTTGCTGAAAACGTGTCGGAGGGCTCGTTCATCGGCACTGATTTTGTTCT
TAGTGGGCTTAACTTAAACAGGTAGTGTTTCCTCCGTTCCCTAAAAAGGTTTGTCTTCCTTTTTTTTTTTTTATTTTTATTTTTCAAATCTATACATTTT
CAGGAATTTATGTATTCTGGCTAAAAGTTGGACTTCTCAGTATTGTGTTTAGTTCTTTGAAAACATAAAAGCCTGCAATTTCTCGACAAAACAACACAAG
ATTTTTTAAAGATGGAATCAGAAACTACGTGGTGTGGAGGCTGTTGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNTGCAAGTGCCTTTGATTCGTTCCTTCTTTCTAAAGACGACAGTCTTTGTTGTTAGCACTGAATTATTGAAAATG
TCAACCAGATTCTAGAAACTGCGGTCATCCAGTTCTTCCTGACACCGGATGGGTGCTTGGGAACCGTTTGAGCCTTATAGATCATTTACATTCAATTTTT
TTAACTCAGCAAGTGAGAACTTACAAGAGGGTTTTTTTTTTAATTTTTTTTTCTCTTAATGAACACATTTTCTAAATGAATTTTTTTGTAGTTACTGTAT
ATGTACCAAGAAAGATATAACGTTAGGGTTTGGTTGTTTTTGTTTTTGTATTTTTTTTTTGAAAGGGTTTGTTAATTTTTCTAATTTTACCAAAGTTTGC
AGCCTATACCTCAATAAAACAGGGATATTTTAAATCACATACCTGCAGACAAACTGGAGCAATGTTATTTTTAAAGGGTTTTTTTTCACCTCCTTATTCT
TAGATTATTAATGTATTAGGGAAGAATGAGACAATTTTGTGTAGGCTTTTTCTAAAGTCCAGTACTTTGTCCAGATTTTAGATTCTCAGAATAAATGTTT
TTCACAGATAAAAATAAAAAAATAAAAAAAAATAAAAAAAGATTTAGATTTATTTAATTTTTTTTTTATTTCCCAAGATAGGTTGAGTATTTACCTGGAT
TTTATTCTATTTTATATTTACAGTTTTGTCTTTTTAAAAATTTGTCTTTTAAATCTATAATTAATATTACCATTTATTATAAGGTTAGGCTTTAATTATT
TTTTACCCTCAAAAGTCTATTTTTCTTTTTCTTTCTTTTTTTTTTCTTTTTTTGTGAGACAGGGTGTCACTCTGTCATTCAGGCTGGAGTGCAGCAGCGC
GATCTCAGCTCACTGCAATCTTGGCCTTTCAGGTTCAAGCGATTCTCCTGCCTCAACCTCCCAAGTAGCTGGGATTATAGGCGTGCCCCACCACGCCCAC
CTAATTTTTGTATTTTTAGTAGAGAAGGGGTTTCACCATGTTGGCCAGGCTGGTCATGAACTCCTTTTTTTCATTAGTTGAATAATTCATCAAATACAAA
ATATTTTTGATGTTTTCTTGCTTATATTTTGTTAGCACACATACGTATATTTATTCCAAATTATTTCATTCATTTGCATTTTTAATGCTAAACCATTATC
CCCAAATTTGGTTAAGTTTTATAATATATCTTAATAACCAGAAAGGTATTTTCATCACTTGTAACATTTTCTAATGGATTCCTTTCTTTTGAGATGGAGT
CTCACTTTGTCTCCCAGGCTGGAGTGCAGTGGCGTGCGATCTTGGGTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCCCCCGCCTCAACCTCCCA
AGTAGCTGGGGCTACAGGTGCACACTACCACGCCTGGCTAATTTTTGTACTTTTAGTAGAGACAGGGTTGACCCGTCTGGTCTCGAACTCCTCACCACAG
GAAATCCGCCCGCCTTGGCTTCCCTAAATACTAGGATTACAGGCATAAGCCACTGCGCCCCGGCCTCTAATGGATTCTTTTTTATTGTATATACTTGAGG
TGTACAACATAATATTTTGATGYATATTTACAATGTAAAGTAATTACTAAGGTCAAGTAAATTAACATCGATCGTCTCTCATAGTTTTAACTTTGTGTTT
GGTGAAATCACCKAAAATCTACCCTCTTAGCAAACTTCAGCACACTGTATAACATCATGAGGTATAGTTCTCATATTCTGCRTTGTATCGCTACACTTAT
TCATCTGACATAACTGATTATATATGTTTATACTCTCCAATGAAATTTATATTCTTTCAAAATTAAAAATACTGTTAGCTTTTGATTGAAATCTAGTTAA
ACCTGAAATCTAGTTAAATTTGTTTGAGTAGAATTGAGCACTCAATAGTTTATAGAATTAAGTCTTCTTTACCAGTAGCACTGTATGTCTTCAGTAAACT
TTTACCATTTTCTGTATATGGTTATCAAACATTTCTTGATAATATTCAAAGGCATATTATTTTTGTTGCTATTGTGAACAGTTGTTTGTTGTTAAGTCTA
CTTAGGAGTCATTGCTGCTATACAGAAAAGCTAATAACGTACATAAATTCATTTATAGTCCATCTTATTGGTGTGCTAGCTTATTAGTTGTAAATACTTC
TTCAGCTGGTACTGATGACTAATAAGATTACTGACAGATGAATGGAGTTTCATTTCTCTGAGTCAATATCTTTTATTTCCTTAATATTCTTAATGTTAAA
TGTTATTTTCAATAAGTAAATATTCTTCTTTGTAAGCAAGGTAGCTCAGGGCTATTACCACCATAGGAATAACGTGATGATATTTTATAGGTTATTATTA
AAAATCTACGTTTTGTGACTATGTGGGCATATTTCATATTAAATATTTAATAATTTTACTCTTTAGAACTCTCAAGATTTTTATAGTTTTGAAGGAGGAT
TAAAAATTATTGAACTGATTTGGCCTTCTGGTTCTTATCATTTGCGGCAGTAGATTTAACTGCAGTAGTCATTTACCCAGAATATTTTCTTAAAAAGCTA
AAGGCTTAATAATATGCAAATAAAGCTTTACATGGTTTAACATCTATCTAGGATGTTCCTGACAGAGCTACACAGTAGCTTCTTTTATCACACAGTGATA
TTAAAATACTCTCAAAATGATTAGAAGTTGAAATATTAGCTATCAAACCAGGAGTTTGCTAYTAATTTAGGTATGTTAATTTATTCATGATAGCTATTTA
ATATATTACTAATAAAGATTGGAACAACCTGATTATTCTTTAAAATAAAGAAGAAAAATGTTTGTCAGGTAAAATAATCATTTAACTTATTATAATTTTC
ATCTTTCCAGCTCATGGGGCATTCAGAATGGGACCACAAACGAGGGCCAAGAGGATCACAGGTAAGTTTCTTTTCCTTTTCTTTTTCACGTTTCGTTTCG
TAACACTTTCAGCCACGGGTTTTCTAAAACTCAAGAGATAATAAAATGTAGAGCGAGGAAGAGGCAAAATAACCATGCCATTTGTTTTTATTTAAGTTAA
CTATAATTAAAGTCTGGATTTCAAATCCCAAAGGCAGATGCCAGGATATTCCTTCTAAGAGCTTTCTGGTATCCCAGATTGGTTGTGTTTATATGAATAT
AGATTTTATATTCATCTTGTCTCGGCAGAATACATTTTGATCAGCAACCCACTCTCTTTATTCATTTCCTTTGACAATTTTTCCGTGTATTTTCTTTTTT
CTTCAGCTTCCTGTTTTTGGTTAAATATTTTGAAATATAATCAGACTAAACTCTGAACTAATTACAAGATTTTGTCTCTAAATTAACTCTCTTCATCTGA
GGGAAACAGAAAGATGAAAGGACCTATTATTTTTGAAAAGAAACAAATTCTAAGTCTTTCTRTATTACCAGAGTGTTTTCATTGTCTTGCTTTATGTCTT
AGGCAAAGAGAAAAGCTTCCATGACGCATTTATGCTTTTTAATGACCTAATTAGACAATGTGGATTTGTTTTGCTTTCATAATTACTTTCCCTGATGGAA
TAAAGGCTGAGCTTTACACTGAGAAAATTATTTCTCCTCCTAGAGCACTTTGTGAAGAAATGTAAAAATAATTTCTCTCATGGCAGGCTATGGTTACCTG
ACTGTAAACATGCAAAATAAAAATTAAGTGGGTGGAAATTTTTGCTTCTATTGCACACATTTTGCATTTGCTACTAAAAAATATATAAATTACAAAGGGC
AGTTGAATGTGCAATACTGTAAATGAAAGTTCATTGGAAAGTGGGGGCTTCTCCCAAGTGTTTACAAAGCTGATTTGTTCTTGTGTTGTCATTAAACTTG
TGTGAATAACTCTATTTAATTCYGGTCACTAGGAAAACAAAACCAAGTCAATCAATTGTTTTAGTTCACATTTTAATGACTGATTTTATTTCTGTCCAGT
ATCAATTTGATTAGTAAATAATGTAAACCAATTAAATTAGGATCATCTAAAAGAATTTATGCCTTACTTTATTTCCCTCATTCTTATCTCCCCTTCATTT
TCTCTGAAAACTCTTCCTCTGTACACATCTATAAAATTTTAAATCAAAATTTGCTGCAAGGTCAGTAATGAAGGGATTAAATTAACATAGAGTAAATTCT
TCATGATTCGAAACCAGTAAAAATGTAAAGATAAGTGCAAATAAGAAGGTCCATGGTTTCTGATGATTGCCACCAAAACATTTTGATATTCAAAACATGC
CAAGCAAGTTGTTGAGGACATGTCTCTTCAAAGCAAGGGTAGTGTTATATATAGAAAATTATTGTTTAAGATATACATCATTTACTCTCTATTTTGCTTA
CTTTGGTATAATTTATCTTCAGGTTTAGATTGGTCACTATGTCAATATAAATTGACAAAANNNNNNNNNNNNNNNNNNNNAAAAAAAAAAAACCTCACAA
TTGTACAGTATGGTTTTTGTTAACTTTCAGTATAAAAAGGACAAAATTTTTAAAATTCCAAATATTGCATATAGCTAGAAAATGTGAGAATTCCACATAT
AAACAAAAGCTATTTTCATAAATAAAATTTGATTATATTTGAAAGCCTGAGGTGGTTCTAAAAAGCAAAAGCATTAAAATCGGCTTGCATGAATTACCAT
TATCAACATCAAGTCTTTTTTGGATCTCTTAACCAGCAAAATAGCTATTCTAAATATAGTATACCTTTGTCCCATTTTGATTCCTCAACTCAGATGAAAA
CTGTCAAAGTAAAAAACAAACACAACACACCAAAAGATAAGAACAATAAGAACCATAGCAAAAAACATTAAAAAGAAAGAGAATTTCCAAAGAATTTGGA
AATTTCAGGTAGATAAATTAAGTCTTAAGTAATAACCTCTTATCTGATTTCAATTCCCTGCTGACGAAATAATAATAATAATAATAATAATAATAACAAT
AATGTTTTCATGTTTTGGATAATTGATCCCTTCTTTTATTGCTATTATCTCCTTGGTCAATATGTCTAAAGCCTTCCAGCTTTTCAAGGGGAACTTCAGA
CAAGTTGCACTTGAACACAGACCTCTTAATAGTTTACTCCAAAGCCTTGCTCAAGTCCCATCTTAGTTAATTTAGAACTGGTTTCTAAGCACTTCCTATG
TTTACAGCACTGTGGTGGGTCTAACTGAAGACAACTGAAAAGACAAGTATACTGCTTTCCAAGAGCTCACAAATTATGGTTGGAAATACAGCAATATTTG
TATATATAATTCACATATAAGGCAATCTGATAGACGCAACATTACATACAGTATGTGGTGCATGATGACATATCTGTGAATGACAGTATATATGATGGTG
GTCACATAAAATTATAATACCATGTTTTCAGTATGCCTTTTCTATGTTTAGATACACAAATACCATTTGTTACAATTGCCTACATTTTTCAGTACAGTGA
CATGCTGCACAGATTTGTAGCCTAGTAACAATAGGCTACAGCATATAGCCTAGGTGTATAATAGGCTATACCATCTGGTTTGTGTAAGTATACTCTATGA
TGTTCCCACAACAAAATCCCCATCATTAAGTGACATATATACAAAGTGTAATAAGACTATATATATATATTGGGAGGCCGAGGCAGGCAGATCACCAGAG
GTCAGGAGTTTGAGACCAGCCTGTCCAACATGGTGAAACCCCGTCTCCACTAAAAATACAAATAATGATAATAATAATAATAATAATAGTAATAATAATA
AGCCAGGCATGATGGTGGGTTCTGTAATCCCAGATACTCGGGAGGTTGAGACAGGAGAATCTCTTGAACCCTGGAGGCGGAGGTTGCAGTGAGCCAAGAT
CATGCCACTGCACTCCAGCCTGGGCAACAGAACGAGACCCCATATCAAAAAAAAAAAGACTGCATATATACAAAGTGAGATAGGATTTAGGTGGAAGAGT
ATTTCTTACTCCCTAGTAGACTAGGAAATACCTCTGAGAAGTGATGATGTCTGAGGTGTGGCTTTAAGGATGGGTAAGCTTTCGAAAGTACAGAGGAAAA
GGTGGATGAAAAAGCTTTGGTAAAAGTCTGAACTGAGAAGAGTGTGGGACACCTTTGAATATATGTGAATTTTTTTATAACTTCTGTATAAATGCTTTTG
GATGGCAACTCTTACAGCAATTACTGTGAAGGGATAATCTGGAGAATGCTATACTTTATTGACTAGATAGGCAGAGGAAGTTAAGAGGGTCAAGAGTTTG
AAACTGAGTACTCTAAGAATTAGGACCATTAACACAGAACAGTTTAGATGAAAGATGATGACTTCAGGGTTGGCAATATTAAGTGACAAGTGAAGGTGAC
AATTCCAAAATGAAGTTTCAGGCACATACTCGAGGCCTGATTAGAACAAAGGGTGTCAGTTTGGGAATGCTAATCATACAGGAGATAATTGAGCTCCTCC
AGTAGATAGGCTTCCAGAAAAATATTAAAAGAAAAAACAGAATAAAAGTCTGATTTTTGGAAAATATGCTATAAAGACTAGAAACAAGCTGAGGAGGGAG
TTAATATGAGTGTGCATGATCTTACTAGAGACCAGGTGGAGGAGAAATGATTCAGAACCAAAAGTAGTTACACCAAGGAGAGGAATGAAATCACAGACCA
AGGTTCAAGAAAATTAAAAATGTAGCAGATGTCTTTGGGTTTAGTGATTAGGAGGACATTAGTGAACTTTCAAAAAACAGTTTTGAGAAAGAAGTGGTGG
AAAGAAGAATATAGAAGAGAATAGTGTAAGATACCAGAAGAGTCTCTTGGAAGAGCTTTGTTTTAAAAGAAAGTTGGGATTGCAGAAAGAGGTGGCAGCA
AGAGTGATTTATTTATTTACTTACTTATTTGTTTATTTTTAATGCTAAGGTGAGATGTGTGTCTTAATTACTGGCAGATGAAAAGAATTAGTGTGGAAAA
GAAAACACTGAAAATTCTCAATAGTGAGCTGATTCAGGACCGAGGAAATGGTGCGGTTCAGGGAAGGGAATGTGCTTTCTTCCAGAGTGGTCCTTTTGGC
ACTTCTTTATGTGTTTTCCTCGCCGGAAACCCACCCCCACCCCTACCCCATACCAGCCATTTACACTATATCAGAGAAACTGGCCCTGTTTGCAAATGAA
ATACTGGATAAATCCACCAAAAAGTACAGATGGGTAAGCTTTGAAAAGAAAGTAGAGGCCAGGGGCAGTGGCTCACGCTTGTAATCCCGGCACTTTGGGA
GGCCGAGGCAGGTGGCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAAGATGGTGAAACCCCACTTCTACTAAAGATGCAAAAATTAGCCAGGAGTG
ATGGCATGTGACTGTAGTCTCAGCTACTCGCAAGACTGAGACAGAATAGCTTGAGCCCCGGAGGCAGAGGCTGCAGTGAGCCAAGATTGCGCCGCTGCAC
TCCAGCCTGGGAGAAAGAGCGAGGCTCTGCTAAAAAAAAAAGATATTTCTAATAGAAAGAGAGAAAAGAAAAAATAAGAACAGATATTATAACATTAAAA
GGTATTATGAACCGATTGACTTCAGTTTTCTTGGTAGGATTGAGGATATAATAGTGAAAAATCTTGAATGCTAGAAAACATATGGAATAAATATTGTTTT
AGATATCTAAAAAAGGGAACTTGCTTGATTCCTGCCCAGTACAAAGCAGAGAGCTGTGTCAGATGTGAGTGTGCTAGCCTGCAAGATGAATTTTAACATA
TTTTACTTTGATTCGCAAAACATGGATATATGTCAGGTACTTTTTTTTAGCCTTTGAGGAATCAGAAATAGACAAAACGTTGGCATCTAGCAGCATCTAA
TTTTTTTTTTAAAGTCAACCTTAATTATTGCTAGGATAGAGTTAAGCTTCCCCTGGCTTCTCCCGGGATACTTAATAAATAAGTGATTTTCTCAAATTTC
CCTTTGTATTTCAAAATTGTATCATATATGCATTATCACAGAATTTAAGATGCACCATTCATATCAAATACTTGTCCTATAGAAAAATACCTATCTCTCT
TCTAGCAAATTCCAACCCTTAATTGCATATGACTTTTTAGACGCAGCAAGAATGTCATTCAAGCTGACTTATATTACTTTATTCTCAGTAATTCTCTTTC
ATAATTTGTCAGCTCACTCATAGCTTTCTGGCTGATTTTTCTTCTTTCTTTTTTTAAAAGTATATAACTCTCAAATAGTAGATCACCCAAATGTAGGAAA
GATGCTAAATGATAAATAAACTTCCAGCAGCATGCAGAACTCCTTTGTCTGGCAGTGTTCCCAGTAATACCAAATGAAGTCAGGGGATGAAATTCTCAGA
AGGCAATTACTTGTTGTTTTTTCTTCATTTTTATTTTTTATTCTTGAAGGAAAAGTTTTCCAGTGGGAAGTAAAGAGAGGCAACAGAAAATATGCTTTTT
TTTTTTTTTTTTGGAGACGGAGTCCGGCTCCGTGCCCAGGCTGGCGTGCAGTGGTGCGATCTCAGCTCACCGCAACCTCTGCCTCCCTGGTTCAGCGATT
CTCCTGCTTCAGCCTCCCAAGGAGCTGGGACCACAGGTGTGCACCACCACGCCCAGCTAATTTTTGTGTTTTTAATAGAGACAGGGTTTCACCATTTTGG
CCAGCATGATTTCGATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTACTGGGATTACAGGTGTGAGCCACCGTGCCCAGCTGCTTTTTTT
TTTGTTTTTTAAATGCTTAAAAACAGTAGGAGGACATTCCAAGGGGCCAATAATTTACTTATCACTTAGTGGAGGCTCCTTGTGGAAAAGATTAGTTCAA
TTTGTGAATTTGTAAACATCCTAACATTTTAATATTCTTGGAACCCTCAGGCCTTTATTTACCAATAGTGAAAAACTAGCAAGTTTTTAGTTATTTAGTA
TATTATTGGTATTTGACTACCAGCCAGACTGTATTAGCTGGACTTAAAAGTACTTACAAGAAACAAATTTTTGTGTTGTCCATCTGGTTTTCAAATGATT
GAAGTCTTTCTTTAGATAATAAAATTCTGGTTTGTATGATTCTAAATAATTCAAGTATTGTGTGTAAAATACTGGAAGATAGCTGAGTATTCCGATGGAA
AAAAAGTGATTAAATGCACACTAGACTATCATCAGTATGCTTACAAATGACCCATGGCCTATTTTGGAGCAGGTCTTTAGTGGTTTAACAAGTCCTGGAG
GCAACAAATTGTAAAAATTCTAGACTAAAAGCAACTACCTAGATCAGTGAGCCTTTATAGCATAATGTTAAGTCTCAAGGATGAATTTTGATGAGGAGTC
ATTGTGCTTTACTTTTTTGTCTGTAATTTCAAGGGAATGGATCTGATTGTAATACCTACTGAAGTTGATTAACCTAATCATTTGCCTACTAATGGCCTGA
TGCAGTGACAGGTCACTTCTTTTCTAGGTTAAATCATTTGTTTTTGATAAGAGAATGTGGAGAGAAATTTAAATGCCTTTTCATATTTATCTGGAGTAAT
GCCATATATATTTATTGAAGTTAATTCCTTTTAATACATTTTGGAAAGATGACCAGCCGTATTTCCCAGGAATTTGTTCCAAGGGATTAATGTGAGCAGA
TTGGGAGCTCATTATTACGTCTCTCAAATGTCCGACATGTTACCAGGGAATAATTTATGCCCTAGAGCTAGCTGCCAGTGCTACTTTTTCTACAAACATA
GTGTCTTTCACTTGCATTTCTTCCTCCTTTTTCATTTTTCCATATATCAACCTAACAACTATTAATATTCGTTCAGAAATTTTTCCAATAATTGTTTAAC
TTTTGGCAACTCTCCAAAGACAGTTTGGTTTTGGGGTTTTTCGTTTGCTTGTTGTTTTGAGAAATTTGTTTAAATTTTGCTTATACTAACGGGGACCACA
CAAAATATATTTGCCTAGGGCCTCACTTAGTGTAGGGATGGCTTTGTCATTGCATGTAATAGTGACAGGAAGGGACCTAAATATCATATCTATCTTCTCC
ATTAGGTCTTCCTATAGATATTTAAAATTTTATCCTTTAGTCAGTTCTGCACTATTGGACAATTATTTTTTACTCTTCCCCCACTCTTTGAAATTGCTTT
TATTTAGTTACTGTTTAGTATTATGTCTTTAATTTGCATTGACAAACTGCAAGACACAGTTTTTAGCAAATCTATCATAGTAGGGATATTGCTGACAATC
ATAGTAGGGATATTGCTGACAATGTCCACAGCACACACAGTGTCAAGAGGATGGGGAGACATTTCTCTCTGTCCTCAGAGAAGGGAAAACAGTGTTTCTC
TTTAACAACTGAACCCACTAGTATATTAGTTCTCTAGCATCCCTGGTCTCTACCTAGTAGAGGCCAGAAACAACACCCTCAGTCCCCAAACTGTGATAAG
AAAAATGTCTCTAGACATTGTCAAATGTTCCCTGGGAATCAAATTTGCTTCTAGATGAAAACCACTGAAATTACAGCATAATCTCATTGATAGGTGTATG
GAAGATAGTAAATAAATATTTAGTGATTAATCTTGACACTTTATGTAGGAAAATGAGAACATGTTTCTTCAAGCATTTATGCTTTCAGGTTTTCAGGTTT
CATCTTTAAGTCTATCGAATAGAAATTTTAAAGAACATATTCATTTCATTGTGAAGTAGTTTTCTCAGAGTGGAATTATGTCCAAGAAATCTAATGGCTA
GGTTAGGGGGGAATGTACTCTTCCCACACTTACACATTTAAGTGATTCGCAGGAGGAAAGAGAGTTTGGCTCTGTCCTCACAGTAGTTTCATGGAACTTC
TGTTTCAGGGAAACTGATGGATGACCTTCAGTAAGTGACTCTTTATTACAGGCCCTGGTCTCTTAAAAGAACATTGATGAACAGGAATCAAATCCACAGA
AATAAAAGGGAAAATTGCCACTGGCATTTATGCTTTTATTGTTTTCCCCATGTTTATAGATTAGTAGACATGTTGTTTAATACTTATTGAATGACCCTCT
TATGTTGGGGCCTGTGGACATCATTTCCATGACATGGGCACTACCTTGTGTGTGTTTAGCCAAATCACAACCTGTGGTACTTTATTTGAAACGAAACAAA
GCAATCAAATAAACAACCACTGATAATAGATGTTTCTCTGCAGGGACTGCAGATAGTTTAAGCAATAGTTAATTTTACTAAGTGTACAAAAGCATATTTT
GAGAGAGAAATAAAAACAAAARTAATACCTATTACTTTAAGCCACAGTTTCTGACCACTGTTGCAGTTGTGACTTTTCTTATATTCTTTCCCCCAGATAG
CTTATAGTACACATTAAGAAAATTAATGCAAGTATTTTGCACGTACGTTCTTGTAAAGCAAATATACACRTTCTGAAAAATTTCCAGCTCTCAAGTTTTG
CCTTCCACTTGAGAGAATAACAGGAGAAAAATATGCTAACTTGATAACAGTTAATTTTATCTTTGAATTGCAATATCTGACAAAGGGAAATAATTTTTAT
CTCACGCTGGGTGATTTTATACCATCAGCAGCATTGAGTAAGATCTTGTTTTTTATTAATCCTGACAACATACCCTAAAAGGGAAGTTCTGTGGGTGGAT
TTTTGATTTTTACTTCACTTATAGATAAAACTGATAAAAAAAGATTGTGCCAAAAATAATCAGCTTCTCATAGAAGATTAAAATCTAAGACTAGGATGTA
TTAACTAGAACAAATAATCAGATATAGAGGTAGGTAAAGGTGATATAGGGTGGAGGAGGTTATATGGAGTAGTAAGGACAGTTAACTGGAGAGGGTGAAT
TGAGGCAAAGAAAACGGGAAATGTTGATCTTTTAAGATGAATATTAACATCCATTTTCATATACTACCAAAAAAACACAGGATACAGGCTTTTAGTACAT
TCTTGGTACAATTTTTTTTTATTTGGGGAAATTGAATGTTTTAATTTCTTATTAACACATATCCAGGCTATATGTATAAATATGTGTTTCTAATAGCATT
AACATCTTATTTATGGTACAGGAATTTTTCTTTACAGCCACTCTAGGGAACAAACTAAAATAYTGTTTAATAGCATTCCTCACAAGATTTTATATTCTCA
TCAAAGGTGCTGATTTTCTTACAAAGTTTTACCTTGGGAGAACAAAGGTGGTTTAGCAGTTATGTTGTCAACATTAAGTGATTGTCCCACGTTATGTAAA
ATTCAGCCATCATGTAAACATCAGTAAACCCAAAGTTACCAGGGCTGACAACTACAAAGAAAAAGCCTGGAATAATATTAGCGATATTAACTAAAATTAT
CTTAAAAGTCACAAAAATGAAACTTCTTGTCAGATTTGATTTTCTAGATCACAGAACTTTGTTTTTGCTTTTTGGCGGAGTTTTTTTTTCTCCTTTTTTG
GTGGTGATGCATTGTGTAATAAGCGATTCTTGGAAAACTCTTAAGTGTTACAAGTTAAAGCTTATTCTTATTGGAAATCTGCAGGTTATCAAACTTGCAT
CAAAATAGTTTGCTCGCTGAGTTCTGTGGTGTTGTGTTTAAATACTTCTGGGTGACAATTTCCACTTGGATCTCTACAACTATTTCCATTTTAGAATTTT
GTAATCATATTCTTTGTTTTCAAATCATTTTAACCCTGAATTTAGAGAAAGTTGTTTACATAGTATCAGCGATACACACTTAAAAGGGTATTTTTTTTTT
TAAGTTTAGGAGGAAAAACCTCTCAGAAAATTGTGGGTGAGACAAACAGATGGAGTAGAAATCACAAAAATAAACTACATCATGATCAGTCAGGAAGATG
TAGCGCAAACAGATATAAAAGCTCTAGTTCTCAAAGGACTGGGAGCAGAGGAGAGGAAAGAAGTTGTCTATCAAAGATGATGATTGGAAAATATAGAAAA
GACCATCTCATGAAGCAAAAAGAACATGGCCATTGAAGCCATGTTGAAGTTAGAAACGTGCAGTGAATKTTTTTTTTGTTTGTTTGTTAGTGGGAATGAA
TGATGATTTGGGTGACCGACAGGTCTTAACTCCACTTTTACCACTCATTGTCCCTATTCAGGTGTACGGTGACTTAGTGCCATAACTTTGGTGACATTTC
TCTTCTGGTGCCTCAAAAATATGGTAGTATATGCACAATTATTGCATTTTCAGGCCTTTGCATGAGTTTTTAAAGAGTACTCCAATTAACTATAAGTTTA
GGAAATGTAATCCTAGGACAATTTAGTTTTCTTTTTCGTGGAGAAATACAGCATGACTTCAAACAAGTTTTGCTAAATAGTGAATTTGCAGCAGCCAGTT
TTGTTTTATAGTGATTATGGCAACCTTGTGTATAGTGAATTTTTAATTAATATTTCTAAAATAAATGAAAACATTATAATTTATGAACTTACTTAAGAGT
TTCATTTATTCAAGTAAGCTTTGCTGAACCAGTGTGTCTTGAGGAAATCTGTTAATCCATAATAAAATATAGCAGCCCTTGAGGAATTAGTGAAATTATA
TCTAAAGCATGAATAATAAAGCCAAGAAGCCTTTTGTTTTATTTATGCTATTCCCCTGCTTTCAGGCTTTTCTGTTTTGAAAGCGTACAGCTAAGTTGAG
ATTCCCAACTTTTAATGTCCATGATACCTTATTGTAGGACAGCATATTATTACTTTGACTGTAAACTGAAATTACTGGATGAGGAATAATTTGTCATGTT
GTCATTACTTAAGGAGAAGATAGTATTTAAATATTGACTTTTTCATACAGGAACATGTGTTCTCATTCTCTAGGCATGTGACTACTCCCCCCCACTTCCT
CCCTTTTTTCTTTTCTTTTTTTCTCTTATCACATGGAACTTTTGGGCTCAGGAGTGATTCTGTCTCATGCAGCTTAGGGATCTGAAATTTACATAAGGAC
TTTAATAGAAGCTTATGACACATGATATGACCAGGCTTTTCACTATGTTTTGCCATTTATTTGGCTTAAAATCAATGGAACAAACTGAACTTGGCATTAC
TATTTCTGTTCAAAAAGAAGAAAAATATATAATTTTACTGTTTTTTATGTTTTGGTCTTGGCACTGTGGCTTTTGTTTATGGAAAAAGACAAGAGAGGAA
AAAAGCATTATTTTAACTTCACATGATAAATAATCATACCAAACTGATATTTCCTTAAAAAGTATTTGTTCGTTTTTCTTATTACAATGAGTATTGCTAG
TAATTCAGTGCAAGTTTGAAATGATATACTGGTAATATCTTCTTTAAATAGCATTATAGGTTTAAGTACATCACCAACATCATAACTTTATAGAGATATT
GCATTAGAATTCATCTAGTTTCTGTACTTATTCATGAATAAGAGATGCTTATGTAGATGTTATTTCTTSTTGACAAATTCTATTAGCATAAAATAAAAGC
ATTAATATTTACTTTTAATAAAAGTCATAACATTTAGCGTTAAGTTCCTTTATAAGTAAGTGCTTTATGGACATTATTAACTAATTTAAAACATCAACTA
TTTTTATCTGGAGTGAATTTCTGCCAATATTAATTAGGAAAAATAGGGATATAAATAACGTCTATGGCTTCTAAATATTTAAAAGACATTCTATGTTCGT
CATTTTATGCACTGGTGGTTGTGGAACTTTTAATCAGTGGATACAGCATTGGAAGTAATATTTTTGGGAATGAACAGTGTTATACATATTATATGCATAG
CTAGAAGCATAGGAGAGGCTGTCATTTGTTATACTAGATATCAAATTGTTGAACCCGTCTCTCTTTTCATGTGACACAACATTTCAAACATGCAGCACAG
TATAGTGAATAATGTACAAAAGCTAGGTAGATTTAATGAATATTAAAATTTTCTGTATTTGATGCAGTATTTTTGTTGATAGCTATACGACTGCTTAGAA
ATAATCTCATTAAACTTTTTCATAATGTATACATTATTCCCATTAATAGATATATACTTCATTAAATTTATTTTACTATGTTTGACCTTTTGGGAATTTA
GAGAATATGGATAAAGAAGTAGTTTAGAGAGCATGGAAAAGAATTAGAGGAAATGGAAAGGATTAATTTTCAAAGAGACAAGCAAAATTGGTTGATTTTA
ATTTTTAAAGGCTGAGTACATTGATAAATGTGGATACAAGTAATAACTRTTTTAATACCACCTGGAAAAAGCTGGCATATGGCCACCACATTAATAAATA
TGTGTGTATAAATGGGTTATTCTAAATGAATGAGTGTTGTCATAAGCATGCCTTATATTAAAAATAAAATCATTATCTTTATGGAGATATAAAAAAAGTA
AGATATTTTATTAACATTATTCTTTTCCAAATATGCTAACTTTGGTAACCACATTTAAAGTCTTTTTGAAATCATGTTTTAAAAAATCATCCCTATGATG
GTCACCAGATTAACTTCTTAATATCAGCTTCATTTAGAGAAACTATGAAATTGGAAAACTGATATTATGTATTGCTTCACTGTCTTCTACAAATACTTTC
TGTACATTGTATATAAATCATGTGCTTAAAAGATAAAGATGTTCTATATATTTTTATTTTAAAAGTTTATTTATTTATGAGGGAATTAGGGTTACAATAG
TATGTCTCTCTCTTCTTTCATAACCTTGTAAGGAGTGTCCTGTTCGCAGCAGAATAGTTTTTGCAGAACAAAATCACAGGATAAGAGAAGAATTGTAAAA
CCCATTAAGGCATTACCCTATTTAATATTTTTATCATTAATTAATATGCCCCTCATAATGCACATTTACATTTTGACATCAAAAAGAAGAATATGTAGCT
AATGTATGAATGATAGAATACAGATTTAGAAAGCTTTCTCATTAACCTTCAGTTAAAATACTAAACTAAGAAGATTCAAGAGGAGAAAATAAAATTTTGC
ACTTAAGTTTTTAATAAAACTTCAGTGTGCAAAGTACCTGCGTATTTGTTCATAAGCAAATGAAGAAACAAAAAGTAAGATTTAAGAATCTGGATTGACG
TCAAGCCCAATATCATATGGCTTTTCTAACAGCAAGTGCCACTTTGGGCTTCACTAACGTATTTATGGCATACAGAACAGAATAATTAATTCARTAAATT
CTGCACTGGCCAGATGACCTCTGCAGTGTTGAATTCAGTTCTGAGTACATAATTTCAAGAAGGATATTGAAAAGCTGATGCACTCACATAAACAATAAAT
ATGTCTAGAAACAGTGTCCCAGATGAAGTGGAAGTTTAGCTTATGAAAGAGAACTTATGATGAAAAGCAAGAGAGGGAGAAAAATTGTGCTCTCTTAAGT
TATCAACACGGTGGCTCACGCCTGTAATCCCAGTGCTTTGGGAGGCCAGGTGGGTGGATCACTTGAGGCCAGTGATTTGAGACCAGCTTGGCCAATATGG
TGAAATGCCATCTCTACTAAAAATACAAAAAATTAACTGAATGTGATGGTGCATACCTGTAATCCCAGCTACTCGGAAGGCTGAGGCAGGAGAATCTCTT
GAACCCAGGAGGTGGAGGTTGCAATGAACCAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAATGCGACGCTGTCTCAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAAAAAGGTGTAAAGGGAGTGAAATTTTTCTCTTTGTCWTTCTGTAAGGTGATATTTGGACAAGTGAATAGAACACAGAGCAGTCAGATTTT
GCTTAAATATAAGGAATACATTTCTAGCCATTCAAATTGATTTAAAAATAAAATAAGGCAGTGGTTTTCCTAAATATGAAATAGGTTAAATGATTGTGCA
TAGAGAAGTGTCTGTTAGAGTAGATGAGCCAACTTCGTAAGCATTCATTTTTTTGTTTCTGAGCAGTCATGAACAGACCAAGATATGAAAATCTTAATCT
CCTAAATTATTGTGTGTCTCAGTGTACCTCAGAGAAGAGTCCTGTAACTATGCTCTTCATTTAATGGAAATTTCCAAATCTAGGCAAACCATGAGTCTTA
AGCTCAGATCTAGGCTGTCTTCTGTACAGACTAGAATTGTCAGCTCCCCTTGAGGAGCTGTTTTTAAAGCAGTCATTCCTATGGACTAGCAGTATCCATT
CAGTATCAGCTAGTGAACTTATTAGACGTTCTGATGGACAGTGTTTTAGATGAAACTAGAAAAGTCTTCCTTTTAAGAAGTTTCCCAGGTGATGTGACAA
GTGTTCATGTTATGATAGCATCAGCTTAAATGTGTCAGTATGGATGATGATTGGATTTCGGTACTTAAAGTAATCTTTGTATTGCTTCTGCCTAAAATTC
TAGAGTTAGAGCTAAATTTCTTTACTACTTCATGTTTGTTCATCCATGAATTGTGGGAGCTTATATTGTAAACTGATCTCAGTCATATATTCATTAGTAT
GGATGAAAGATAATGAGAATAATGTTTGATGAGGAAATGAGGGAAAATAAATGTGGGTACTGAGTACTGTGTTGAAAGACAGGGAAACAGCATTGAGGAT
TGATACAGGTCTCTCTTCTCACAGCCTCTGGCACCACAGCAATAATATTGTAAACTCTAAGGAGAGCCATTTACATTATAGTGTACATGAATGMTGACCC
CCCTGGAGTTGTGCAGCGCACAACACTCACAACTGCATACATGATCCTTTTAAGCCCTTTACATCTACTTCTGTACTTAGAATTACTTCCAAAGCCTAAA
CTTGAATCCTACATTCTGATTAACTCTCAGGAAAACAAAACAAGGCCTGTTTTTTTCTGACTCCTAGCTTTTCTACCAGTATCTTACCTCTCTGTCTAAA
GTAGATCAAATATCCTGTACTCTGGGTGKCATCATGTTATTTCACTCCTCTGGGCCTTTACAAGTACATTGTTTCAACTTTTAATAAATCTTAAATACAA
CTGAAACATTATTTGAGTCCCAGCTCTAAGCACTGTTTTCGTAACACATTTTACATCCATAATGCATTTATCATAGAACTTAGAACACTATGCAAAATTT
CCCACTAGACTAAAGCTTCTAGTATCCAAGTASTACTTCATTTGACTCTCCAATAGTGATTGCCACCCATAAGTTGTTCAGGAAATGTTGAATCAATGAA
TGAGAGTGGGGCATAAAATGGGAAATTTGAGCACACAGAACTTTCATTTAACCTACTTCACTATTTGACTATGGTGTGGCCTTGCTTTTAATTGGAGGAT
AGCTGGAGTTGCAATCAGTATTCATGAAARCATGTTTTTAAAAAAATGAGAATCAGTCTAACAGAATCTGAACTTTAAAGAACATCTCATTACTGATTAT
ACATGGTGACGATATTTTCCAAATCGTGGAGCTTCTACTGGGAAAAGGTATGAATAACCTTTTTGTTCTATAATGATTTTCAACAGAAATTATATTAGAG
AAGGACAGTTGAAAGCCTTTTAAAAATAAATTCATAAAGTAATCCAAATCAAGTTTATGATAAACTGGCTCAGTGTATTTATTAAATGTATTTTTAGTTA
ATTTTTAATGAGTTATAAAAATATGACCTGGGACCAAAAAACTTCCCAGTAAAAGTTCTAGAATGATTTTTTAAGATGTTACAAAACTATCTTAGAATGT
TAAACAGAATATTTTATTAACTTAGAACTGTTCACTAAACTCCCAAATGAAAACCAGATCTTTCCATCTCAGTAAAATACTAAAGTATCATGAAACTTTA
TAATCCTTATCTAGCACCAAATCTACATTTATCTAAAGATTGACAATGTCCATCCTTCTGCATTTTTTCCTATTTTCCTCGTGGATTAGTAGCATATTTA
GAATTTTTGAGGTTTCATGCTAAAATTTATGAAGGAAAATGAAATATATAATACCCCGTCACAGTAGAAGGGAATACTAAACATCTGTTCAAAGAATAAC
TCGTTGAGCAGACAAGTCATTTAAATATAAAATATGCAAATTATACAAGTGATTTTAGTGCTTTGGACAAGATTATTCACTGCCACGGTCCTTCCAATTC
TGAAGTTCGTGCATGTATTTTATGTTTTACTTAGAATAAGTTATTTTTGTAAATGTATGAAATACCAAATCAGAAATGCCAATATATAATATCTTCCCCC
CATACTGTACTGATTGGTATTCATCAGTAACTACCAGTCAAATGACTAGTCTACATTTCTAAACACACTGAAATTTCCAAACTTGGGAGTTGGTTCATTT
GAGAGTGAAGTGCTTAACTGGTGATACTTGTGTCTTTTTAAAAACTGACTTTGATGGTAAGTTTTTCGTATTTTATAAGTAATTTTTCATTGCTTCCTGT
AACAAAACATAAAAGATTTAAAATAAAATACTTAAAATATACCTTGAATTAATTAAAGGAAAAAGAAAGCAACATTAATTGAATATGTATTTTTGCCATA
TATTGTGCTAAGTACTTTTTTCACAGAATTTATTTTAATCTACAAAATAATTTCTGAGAATAGATAATTTATTTACTCAGTTAAGGTTTTGGGGCATCTC
CTGTGTGTAGGCACAGTGCTGGTGGTGAAGCAGTTCCATGGGAAACAGGACAGATGAACTTTTGGTTCTCATGAAGCTCGTATTCTAGAATTCTAGATAT
TATTATTATACCTTTACCTATGAAGAGACAGACTTGAATAGTTGTTATGACTTGCTGAAGTCACTGAGCTAGAAAGAGGTAAGACTGTGTTCAAATGCAA
GACTAAGATGCAAGACTGTTTTCAAATGCAGGACAAACGCAAGAGGTAAGACTGTTCTAATTTGAAAAAGCCACTTTCGTCTCTTCTGTGCTATATTCCC
TTCCCCAACATATATTTAAGATGTGATTTATCATGAAGATATCCAAACACTTTACCATATAAGGTCAAAATTCAGTTTTTTTATACTGATGCTAATTATG
ATCATTTAAAATAAATTCATTTTTATTTAATTATTTGCTAAACCTGAATTTTAATTAGAAACATAATCCCTATATTGTGATAGAGATTATAAATTGAGTC
TCAGAAATTTAAATAACTACAAGGTCAATCTTCGAGTAGTGGGTTTTCCAAACAGTCTTGTAAATGTGCAGGAAAACAAAAACATTTCAGAATTGCTTTT
CTGACAAAAAGAAAAAATGGAGATTTCAGCCCACGGAAATATAGCCCTGCATTTTCTGCTTCTAAGCCTGCCTTATGTAAATTAGATTTATTATGTCCAG
TACATGAAGAAATTCCATGCCAAACCTATATAGCTCTTTAAGCTTTCTACTTCACCACATTTGCAGCGGGACTGTTAAGTAAGTTAGTTTATTTGGAGTA
GAAATTACCTCTGAATATGAACTTTGGAAGACTTCTAAAAGTGATATAACCTCTCATTTAACCAGCACGAGGTCCATGGGGGTAAAATTWACTATACCTG
GTCTTCTTAAAGCTGCACATCTGTGAAAGCAAAAGGTTATAATTAAGTTTTTCTGGAATTTCATGAAATTACACATTTTAAAGTATAGTCCTGCAGGACT
TCACATTAACTGAAATCAAAGACAGCCTGGTACAGTGGTGAAGAGAATGATCTTTGAAATAATAAAAATTCCAAGTCCACCACTGAATGTATACGTGACC
TTAATGAGATATTTAACCTTTGGAAGTAATGCTTTTTCATCTAGAAAGTGAGTCAGTATCTACTTTGAAAGTTTGTTCTGTGGATACAATACRTTGGAAG
ACATTAAATTAAAAAGTATGTGGAATAAACACTCTTATTTAGATGATAGCTTTCATCATTATCATTATCATCACCATCACCATCAACATCATCATCTTGC
TCCCACCACCACCAGCTCCACCTGTATATCATGCTATACAAGTATGCTCAGCATGATGAGCCCAGGCCTTCTTTTCTCTGATCCTTCAGAAAATGACTTA
CATGATGCCCTTGGACCATAGAGGATCAACTTACAAGGTCACATTTGTCTCACTGTCCCTAATATAGCAATATGTAGCATCTTCTAATCTTTTTCTCCCA
CAAACGGCAAGATATCTCAATATCATCCTACAGTAAAGGGAGATTATACTGCCTCATAATCTATTCTACCAAAATGATTGTTAGGAGGATCCCACCATTA
CACAGATTTTTTGTTCATACTTTAGAGATGGCATCGAAACCAAGCCCCCAAATGGAAATATCTTCCTTCCAAGTTTCTATAAATGCCATTGGACATACTA
TTTATTGAGTTAACTTTGACTACATGAGTAAGACAAATTATTTGTCTTAAGTTGGAATGCCTGTTTTTCAAGTAATTTATGAGGAGGAATATAATATTAT
CCACAAAGTATTCCTTAGGAATTTTCAGTGGGAATAGTAATTTTGATGTCCTGTATCTTATTTTTATGAAAGAAATTAAGACAAAGTTGTTCTTACTAAA
ATTGGATTTACTTTTTAATCGACATTCTTATTAGTTAGCATCAAACAAAATGTTACTTAAGTAAATTTCAGCTTACCTAATTTATCTTATTTAACTCTTT
CATTATGGCTAATATAGTATTTGGAATTAAGCTATAAAATTAATTAAGATTAAGCTGTAAGAAAAAGTTCTGACTAAAATTAGGAGGGAAAAATAAAGCT
CTGATTAAATAAACAATTACAGAAAACYAAATTTTAACTCTAAGATAAATTTGCCTTGCAACTTGGTTTTGATGTACAATTTGTGTATTAGCTGATTAGG
TAACTTCAAAAGTCATCAGCTGTCTACTGGTTACAATACAGGGAACATTTGGGAATCTAACCTATTAACACATAATTTAATAGGTAACACATATTACTCT
CTAAGATTGTTTGGGATCATCTACAGACTTTCATCCAAGTGAAAAAGAGTTCTACTTCATTCTGAGTTAGGTCACAAGGTCCTGTTAATTTTAGCTGTTT
ATAAATTTTCACTGAGAAGCTGTTCTTTCATCCTCCTATTTTTTTTTAAGCTCAAAGTTCTTGATTTAATCTGATAAATGAGCTCAAGTTACAGATTCTA
ATCTGATAATTTTTAGTTTCTTATGCACCTGATTGAAATAAGGGTCTTTTTTAAAAAAATGTAGCACAAAACCCAATGCAAAACAACTAAGAAATTTGGT
CAATATTTGTATATGTACACAAAGAACTTACACCTAAAACCTATTGCTATATCTTAATTTGAACTTTTTAAAAAATTGATTAATTTTTGTGGGCGCATAG
TAAGTGTATATGTTTATAGGGTACATGAAATATTTTGATATAGGTATGCAATTCGTAACAGGCACATTATGGAAAATGAGGTATCCATCCCCTCAAGCAT
TTATCCTTTGAGTTAAAAATAATCCAATTATACTCTTTTAGTTATTTTTAAATGTAGAATTATTAATTTGCATTTTTATTATACTAATCTATAAAATGAA
TACTATTGAGAGAATTGCTTAAATTTTAGCATTACCAGTCTTTAAGTTTTCTAAATATGGTTTTGGAGTGAAATATTATCTTACCTTTCCAAAGCAAGGA
ATTTGCAAACAAGATTAGTCTCAAGTATTAATTGAAGTATGAGTACTATTTCATATGTTACAATTTTTATATTATCTATTGAATGTTAGATTGGCAGGAA
ATAGCAAAATTGACTAAAATAGAGATGTGAACATCCTGAAATAAAGACAGTACTATATACAACTAATTAAAAACAGAGGGATGAGTAGTTTGGCAGAAGC
ATTAAGATATCTGGAAAATGAAATAAGAATTGCCTTGGTCTTACATGATGTGAAAGGACTATATCCACTACTAGCAATAAACAGAAAAGAGAAACTGACT
TTCAGCATTAAGCATTCACTGGTGGAAATGAAGTTAGACAGTTTTCATTTTAAGTGTGCTCAATTTACGGATATTCACGGAAATATAATTTGTCAAGTAG
AACAATCTTCTTGTCAGTTACAGAAAAGATATTGATAATGAGAATGTTATTTATCTTCCCTTAGCCATGTGCTATTATGGGCTCAGATTGGCTTCTCGTT
TTTTAAATGGAATGTGTCCAGTTGACAGAATACAAGATTCAGCAACCTAGAGAGTAACATGGAATTTTACAAAGAAATAAAAGGATAAGTTGGAAACATG
AAGTTTTTTTTTTTTAAACTAAACCAGGTGAGGTCCCCCAAATACAATGAAGAGATTGAGGAGTTAGCACCCTCCAATACATCACAGGTGCAGCAAATGC
AATACCACTGTATTAGAAGTACTTTAGAGGGGGAAAATATTAAATCTTCCCATGGTAACAAGTAGAAACTGGAATAAAGACTACTCAGATTATACATGAA
CCACCCCCACCCCCAAACAAGGAATTACAGAAGAGTTTTCTAATTTTAAAGAGCTGGCTAGAGCCAAGTTACATGAATAGGTGTGAAACAGTGGTGCTTT
GGGCACCCAGTGACTAGGTGAGCATGGCCAAGAACAGCATTCTAGAGCACGCAATCCATGTGGGTCAAGAGTGTTGAAATATGATGAAATGGTGGGTTAG
GTAGGAATCACTGATACATACCTTGTTTGCCCTGCTAAGGACCTGGGAATTCACCCAGTAGATAATAAAGAACAATCAAAGGATTTTAAGTAAAGAAGGT
TTGCTACATTTAATGCCCCTCTCCTCACAGTGTTATTGAACTGTCAATAATATSAACACACATTAAACTGAACCGCATATTCAGTTTAATGTGTGTTTTT
GTATAATTTGAACAAGGCTGGAAACCAGGAGACCTGAACTCAGATTCCAGCTGGCTTAGCCCCAAATGAGCTGGGTAATCTTGGACCAGTCAAATAATCT
CTTTATGTTCATTATGTTGAACTAGTCAAATAACATCTTTATGTTCCAGTTTTGYTAATTTTAAAAAAGAATGAATCTAGCTTGGATTACCTCTACTATC
TCTTCTTCTTTTATTTTGTGGTTGTGTTCTGTGGCACAGAAATGGAATTTAACACATACAGGAAATGTGCAGTCATTTTATTTACCAAACACGGGACGGG
CCAGGGGAGAAGCATTTGTTTTCTTGTATAATTAAGAGAAAGCTGTTGAAAATATAAAGACAATTGAAGTAGTAGTTTTCAAAAGATGGGAAGGAAGTAG
AGGTGTGAATTCGGAAACAAGCTAGTAACAAACGTAGGTTTGAAAAATTTACCAGAGTGGGAGAGGGGCAGTCCTGTGAGAATTCCACTCATTTCGTTAC
ATGTTCCAGGGAGAAACTGGATAGGTTAGGGTCAATGAAGTCGGAAGAAATTCTTAAAGATCACTTATGCATTAGGTTTCACTTTGTCTCTAGGAGTTTC
ACACTATTCCAAAAGAGTACAAGGCAGGAGTTAGTCTAATATGCTCCCCAGAGAAGGCTTCATAAATAAGCTATATTCTTTATGATCTTTATTTTCAATT
CAAGGACCGTGTCAGGATAGACAAGGTGGTACTGCAGTATTAAACAGACCCCAGTTCTCAAAACAGGGAGGTTGATTTGTTGCTCCATACTTTGGCTAGG
GCTCTGTTCTGTATCGTCCTCACTCTGAGACAGAGATGGTGGGGCAGCCACCGCCTAAGACATTATTAATCACCGTGGCAGAAGGAAGGAGAATTCTATT
GGGTATGGCTTTGGCAGTTAAGTGTCACGTTCTGGAGTAATACAACTAATACACACACACACACACACACACACACACATGTAGTACTCACTAATGCGCA
GGTGGAAAATAGGATCATCACAATAAGCACTATCATTTGAAAGAGAAGAAAAGAACCCACACACCATCACTAACCTGAAGCAATTCCAAAATCTTACTGG
GAGGCTATTTGAAAGTCCCTTATCCTAGGGCTAGATACATTTTTAAATTATTATTATTAGATCTGGTTCTGCTTCCTGGGAGAAAGCCTCTGTCTATCGT
TCTCTGATCCCCTGGTCCCACTCTCCCTGGTCTCCCTGATCTGATTATCTTCTATGATCACCTATAAAGTGAGCATTGGAAAGGATGCCGTCCTGGGGGC
TTTGCAGTTTCATTTGATCACTTCCTATATGTAAGTCTTTAGGAGTTTAAGAGTTGTGTTAGGTACTGAATAGTGTTCTTTTCATAGTATAATACTCTCA
AAACCATAGCTCCTTTTAAAATTAATTCAGTACAGTTTTGTATGCTAATAACTACACCATCAGTTTTATTTTTTTTCTCGGATGTACTTTTAAGATTTGC
TGTATTTCTGTGTCCTTTAGGTGTTGTGCTTCTCACTCCCAATTTAGGTGATGATAATTTCAGACTGTCAGGCTTTGTTGGGAAACCCTAGAAGATTTTC
CATGAGAAAAGAATTTTTAGTCTCTTTTCCTTGAGTTATTCTATCCAACTGAAAAGATATATTGAGTCCTATAACCTTAATTTGATTTTGCTCTTAAACA
CTTTAATCCATTCATAGGATTTATAACGGGTGTGGTGACCACATCTTGATTAACCSTTACTGAGGCTGAGTTGAAATATGCATTTTTAGCTCAGTGCCCT
TCCCAGTTCTTCTSCTATTTAAGAAGGGAAAGCAGTTGCCTTTTCCGTGTTCTTGGACCTTTCTRTTCCCTTTTTTTTTATCCTTGCAAACAAATCTAGT
CTTTTCTGAGCTCATTTGTCTCTTATACCTTGTCAAATACAGATCACAGTAACCAATAAATGATACTTACATCCTGTTGTCCATTCTCTCTGGTAGAGCT
ACAAGTCCATTAGGTCCTTCATCTACCTTCGAAATATTGCAGACAGCAGTGTTACCATATGCTCCTTCTCTGTGTTCCATAGACCACCTCTTTCCAGCCA
CTAATGCCAGGTTCCTCAGCACCAGCTCTCAGGCCCCTCCCCTATTGCCTCATGTAGTTGGGATACTTCACAGCAACAGCCCACTCTGGGTACCAGTTCT
GAATAACTTTCTACTCTGCAATCAGCAGTATGTACAATGATTCAGAGTTGCGCATTAGGTAATGCTTTGGTAAAAATCAAAGGTTCTTAGGCTCAATCAA
AGGGATTGAGAAAAATCTMAGAGACTGCAGAGAAAACAATTGAAGAGCCATGTATTATAGAAATTGGAGTGGGAATGARCTCTCACAGAAAGAAAAGTAC
CAACTGAAAGGCTGGTCAAGATTTSATTAATTCACAAAGAAAATTACAAAAACTTTAGGAAAAAAACCTAGTATTTGGGATGTACAAATGAGACCATGCA
CGTTAGATCAAAATTTGGTAAATATAAAAACAAACATAAACATAAACTATAATCAATTAAAATTGTATAGTTAGCATCAGAGAAGTATTTCTTTAATTAA
ATTAAATCCACCTTGCCCATGATAGATTAATCATGTAACAAGCCACCTCTTAGGGGATTCTGTGCCAGTTTAAATAATTTCATGACTTGGGGGTAGAGAA
TTGTGAGGAGGGAAGAAAGATTTGCTGGGTAATTCCTGCAGGGTTCAAAAGACATGGCTCCTTACCTCAAAACTTACAACTTGTATTAAAAAATAATAAG
GCACACAAAAATTAGGAAGACATTTTAATGGTCTACTGTTGACTACAGTAGATGGAAGTTGAAGAGGAGAAAAATCTGTATAGACTGAAGCCTTCAGGGA
TAATTTCATATAAACTGGTGGCTTTAAAGGATAAATAAAAGTTGTTTGGGGTGGAAGAGAAGAAAAGGCTATTTCAAAATTCAAAAGTCATAACCACACT
GGTAATATTAAAAATATTCTCAGGTCCAAAAGCATTTAGTCAAATTAGGACTGTGATCATAGCAATCAATGAACTAGTGTGCATTTTGACAAGCAAAGGC
TTTCTGATTCTTTTCTGTTTCTCTTTCTATTGATCATGGGGCTAGGAAAATTGCTACAAATTATATTTTGCTATTTATTTTTTGTGACATCAAGAGCAAT
AATGTGTGYTAAGTCAGAGGAATAAATGTACAGCCTAGTATTAAAGTAATGCTCCTTTACCCCCTCTGCACACTCGCATGTTGCTKTCCTAACAAACACG
CAAATATGCAAGCGTTTCCTAGAAGTGACAGCTAATGGTATAAATTAACCTCTTGAATCTGGCATTTTCAAAACTACTGTAGCACATAAAAGATAGTGGT
GAAATATGAATAGTAAATGGAAGAATGACATGTCCTCCGCCTGCTTTCAGAAGCAAATAGAGGGTTTCACTATCAAGAAAATTATAGGCTCTAGGTTTGT
TTAATTACTGAGATTTTCAAACAACCTTTCTTACAATGAACTAATTTGGGTTTGAGGAAAAAAATAGCAGAAGACAGTTCTTTCTAAATTTTCTTTTAAA
ATTATGAAAAGCACTCAGAACATTGGACTTAATCATTAACAGAATAAAGGCAAACCAGAAATGGTTTATATAGTTTAATATGACGAATGCATTAAATTAG
AATAGCGGGTAAAAACTTAATGCCAAACAGAAGGCTTATTGCCCCAAATTCTCAGACTTTCATGACTTTGTGGCAAAATAATAGATTTTGGTTTTGGTTT
TGTTTTGTTTTGCTAAAGGGTCATCAAGCAGCACATGACTAAGTAATATTGATACAGGTAGTGGTATGAGAAAGTTGTAAGGAACTAAGACAGAGAACAT
GCTTCACAGCTTAGAACCAAATGTCTACTACCACCTCACCATTTACTTTTTTTCTCATGTTACAATTTGTTGTAAACCAGTTGAATACATCCATAGATGT
ATTTTCAACATTATAGACGTTACGACTTTTTCTTTGTTTGAAATTGAGCATGTAGTATGTACATGTACATAGATTTCTTTTCTTTTTTTTTTTTTTTTTT
GAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTACAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCA
GCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGRT
CTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGGTACATAGATTTCTAAATGTAAAATCTATAGAGAAACTGTGGAACACCAGAAT
TATAAAATTGGGCATAGCTTCATTGACTACCAGTATAATGAAAAGAAGCTCCTTTCAAAGATTTAATTCTACGTTCTAAAATATGTATTGTGTTATTTAG
GTTGGGATTTTTTTTTAATTTTCCAAACTCTTAGCAAGTTTTTGTTTTCTGATTCAGATTCCTCTAAAAAGAACTTTTAATAAAAAGACATTTGTCTCCA
AATTAAGAACTAAGGAAATATCCTTTTGTGGTTAATCACTTTAAAAATGAATATGAAATTATTATTATCGTTATTATTGAGACTGGGTCTCACTCTGTCA
CCCTGGCTAGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCAGGGTTCAAGTATTCTCCCACCTCAGACCCAAGTAGCTGGGAATACAG
GCATGCACCACCATGCCTGACTATGTTTTTTGTATTTTTTTGTAGAGATGGAGTTTCACCATCTTGGTCAGGCTGGCCTCGAACTCCTGACCTCAAGTGG
CCTGCCCGCCTCAGCCTTCCAAGATGCTGGGAGGATACAAAATTATTTTGATGGAAATAACACATGCTGCATGATTAATAATTATATTTTAAAATATTAC
AGAATATTGTAATAAAATTATAGTGATAAATATATATACGCTTATATAGTAGATAATTAAATTTAGAATGGTTTGTCATCATTGATCCATGTTGCAAGCT
AGACTCTGAAACCATATTTATTGCAACTACAGATATTGATATTTATAGGAATATGTTTTGAGACCATAGACTTTTTTCATTTTTGTGTTTGGTTTTGTCT
ATTTGTAAATGGAAACATTTATTTTTAATGTGATTCTTGATTGCACTCAAAAACAAGTGCACTGGTGGAGTCAATTTATGATGGAGTATAGAGGTGAAAG
AATAAAGGGAAATACATATAGAAATAGCATTCTCCCACAATCTTAATATGCAGAGGGAAAAATAGTTAATTTTAGAAATAACTGAAACTTAGCTGTTCTT
GAAAAACTACCCCTCAAATGAACTCTTGAATTCCAAGGAACAATTTAAAAATTACAGACTGATTCCCTTATCCTTCACTTTTTCCCTTCCCCCAATTGTC
TGATGTCTGGCTTTCTACTCAAATTCTACTCAGTTCAGTCAAGCCCCTGCCCAGAAACCTGGTTAGCTGGTTTGTTTTCCCTCAGAACTCAGATTCTGAA
ATACTCCCCTCTACTTTGYCTCATTCATAGAGTAAGTTTTTGAATATAAATAAAAAACTACACACTGGGTACAGTATACACTGCTCTGGTGATGGGTGCA
CCAAAATCTAATAAAAATTCAATTTTATTTTAAAAACTTTATTTTTTAAATCATTTTAAATCTCTCACAATGTCTGTAGTTTCAGTGAATAAAGAGTTTG
GAATTAGGAGGTCATGAAATTTAACTATATAATCTTCCCAGTGATTTCTATACTGACCTCAAGTAGTTGTTTCATTTGCCCTATCTTAATTCCTACTGGT
GATTTCATTAGGAATAAGGGTTTTGATAAGAATAGCKTTAAACTGGATTTCAGTAATGAGATGGTACTTTGTAGAAGCTAATGGTTAAGAGCACAACAGG
CTGTAGAGTTGCAGACTGCCTGGGATCACTTACTAGATGGGAGACCTTGGGCAACTTACTTAAACTCTATGAGCTAATCTGTAAAATACACATAATATTA
GTACCTACTTTTCTGGATCATAAGAGGACTAATGAAATAATCTATATAAAGTGCATAGACTGGGCCCTGGTATAAGATAAACCTTCAACAAATATTCATT
TTTATTTAATTTACTGTTACTAATTGGCTTTTTTTCATTGATCAATGAAAATTGTTTTAAGTAACTAATGTACCTACTTTGATTTTTATAGCCTRGAAAT
AGTAGGAAAAAAATCACAAGTGATGTGAAATATGTGTTAATTCTATTATAGAACAGGAAAGCTGTTCCATTTCTATGAAAACTGGGAAGTACAAAGAGTT
TGACTGATGAGGGCAGAACTAATGCTGATTGGTGAAGGTAGGTCTTGGCTCAGGTTCAGAGAGAGCCATCTAATGACCACAACCTTCAAGTTCTAGACGC
ACCTACTGTGTGAAAGGTGAATTCCTTTTTGCTTTYAATAAAGGAGAATCCAGAGAAAGACTGGTTGTGCTCTTGAGCAGGGTGGGACACCTAGGAAGTG
TCTCTTGTCAAAGACATAATCCTTGATTTTGCAGGTCCAGAAATTCATTTTGTGAGGTAACCTAGAAAATTAAAGTCTGAAATATTAGTTCATTAGAAAG
TTACAAATGAGTGAGATGAAACTTTGTCAACTCAAAAATACATAATAGGTTTGTCAGAAAATTACAGATTGTGATCAATAGCCCAGGGCATTCCAACAAG
CAGTACATGACACCTCTCAGAATCTCAAACTGTGATTCAGAGAGATGTAGAACATTAAATGAATGTTATGCTGTATAAGTCTCCTACCTCCAGAATGTTT
CTATTTATAAAGTTTAGTAGCATTTTCCCCAAATATCAGAACCTCCTTTTTACCAGGACAGGATTTATACGCATTGATTTTTCCTTGGGGGTTGGCAACC
TGTACTTTTAATTTAATGCAGAACGCCAGATTCTTGATTAAAATATTTTATTTTAAAAAAATTGACTATAAGACTGCTGAATAACTTCTATTGTCCCTTT
ATTACATTACAATCCTTAGGAATAACTCAGAAGAATATGGCTATGAATTTGAGATGTTTTATTTTGACCCAAGCTCAGACTTGTTCTTAGGCAAGATAAG
GCCTGTTCTGTAAAAAGTATCCATCTCAAGTGTGCCGTTAATATTCTGAATGTCTTCCTTTTCTGGCAATTTTCATTTTTTTTATGTCCTTGCTTTCCTT
CCCCTTAAAGCAAGCTACCTGTTTTCCGGGCAGTTTTACTCTCTGTTCTCTTGATTCCTCTGTTATTAAAAGAAAAATAAGTTTCACTTAAAGGTAGTTA
TGATTAGGCAAGGCACTCAGAACATTTTTCACTTCTTTGTTTCACTATAGAAAATACGTTAGAACTTTTTGCTCATTGATAAAAGCTTAAAAGTACAAAT
CTACTAATAGTACCTCAATCTTGTTCTTTCTCTAGTTGCTAATTTGACATTTTCCTCTGCCTGATTATGTYGGAGGATTTCTCATTTTCTATCCCTAAGC
CGTGCACAGCTCATAAAAAACAGTAGTTGCCAAGTGACAGGTGTTTTTGGAAAACTTGCTTAGTTTATAMGTTCAGAGAAGACATTGCCTCTAAATCAGC
AGCTACTAATGACCTTTTGTTCCAGGGAGTTGTTAGAGATCCAGATGAAGTCCTGTAATTGAAGCATAGTTTAGGCTTAGCCCAGAGTTGGTATTTTCCA
AATGTACTTTGTTGAGTTTTTGTCTCTGCCCTAAGCATTTATTCTTGGAATTTTCAAGATTCACACAGTTTCAACAATAGGTTATTCATTTTCTTGCCTT
CTCTTCCCATTCTCATGTTCTGCTTTAACCAAAACAACGTAAGTTATTGAATATCATGTAATGCTAGAGTGTCAACAGACCTGTGTTTCATTCTGTCCTC
ACCATTTGCCAACTGAGAGACCTTTAGTAAGTAACAAAACTTCTGTGAGTCTGAATCTCCAAATGTAAATGGTAATAACAGTCTCACTTATCAAGCTTTT
GTTCATTATTAAATAATTTGTGAAAATGTCTAGCATGCTACTAGACAGATAGTATATGTTCAATAAATTCTCATTGTTCTCCTTCAGCCTTAAGTTATCT
TTTGAGTGCTTTATTTTTTATTTTTCACTCTTTTGCTTTCTTTAGTAATGATATTTCAGTTTTGACTTTGGTTCATACCTTTTCCTTTCTGTGTCTTCAC
TGTGCTTGCCTTGCCTTTTCTTCTTTCCTTTCTTCCACAGACATATACTGAACACTCAATACTATGCTAGACACTGCGGATACAAAGGTGAATGATACTG
TTTGATGGAGTTCACGGTTTTATGGGAGCATGGATATGCACAATCAAATGTAGAATTTAAAATGAGGACAAGTGTACTGGGCATTTGCAAAGCAAAACAG
GTTAGCAAAGGCCTCCTGGAGGAGGGTAATAGCTGGAGTAAACCTTCAAGGGTGGGACTAAACCAGTGCACAAGGGGGTGTGTCTTCTGTGTAAAGGGAA
CATGTTCCAAAAGCAAAAAGGCAAGAAACAATCTGTTAAGAAGAAACCACAAAGATTTCCTARGAAGAGAGAATGGCATGAGTTGAGATGGAAATGATTG
GGAAAGGAGAGTTAAGTCATAGAGGGTCTGGGTTTAGATATGACACCCTCCCCTTTAAAGTTAGTCTGAGCAAACTTTCAAATTATACAGCACTCTTATT
ATTTCTTCTGACCTCCGCCAAACCTCTCACGTGCCCTTTACTACCTTAGCTATTTCTCCTAGTGGGACTGCGTCATATTCCTCATGTAAGTTGGAGTAGG
ATTAAAAGTTTATTAGATAAAAGGGAGCTCTTAAAAAAGATTTAGTCTTAAAGTGACATAGTCATATATGTACTTTAAAATCACTTCTCTAACTTATAGG
ATGAATGAATTTTCACGAAAAACTTAGATTCTGTATGAAGATGGCTCCGATCTACTAAAACTTTGTTTAACTTGAGGAACTCAGAGCTATGTGAAATTTG
TGAGGAATTATAATTGGAAAATAATGGTTTTAAAGGTTATTGTTAATATTAGAATGTTTAACTTTTTTTAAACAAAAAGTGAAAAAGCAAAACTTAGGAA
AGACGAAGGCTTAGGTCTACAGCAATGTAACTAAGCAATTCCAAGATTGCTTAGTACTTACTACTTAGCCTAATCTTTAATTTGATACATAATATTGTTT
CTCAAAAATCTTTTGCACTGATAGTGGACTAAGTAGCAAGGATCAGTAATATATAGAATCTCATTCAGATATGTATTTTTTTACCTTCAGGAGTGGTCCA
CTTGGTTGGCTTTTAATGAGGCCATTTTACTCTTTGCTGTTAATGGTATTTGCTCATTTGCAGGAACAGGCTAGGTATTGTATTTATCTTTTCCCTTATA
AAGAAAAAAGTGACAGTAGGCAATAAATAACTTAAAATTAGTAGGCTCTGCTGGGCGCAGTGGCTCAAACCTGTAATCCCAACACTTTAGGAGGTCGAGG
TGGGTGGATCATGAGGTCAGGAGTTCGAGACCAGCCTGACTAACATGGTGAAACCCCATCTTTACTAAAAATACAAAAATTAGCCAGGCGAGGTGGTTGC
GTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATCGCTTGAACGCGGGAGGCAGAGGTTGCAGTGAGCTGACATCACACCACTGCACTCCA
GCCTGGGCGACAGAGCAAGACTCCACCTCAAAAATTAAATAATAAGTAAATAAATAAAATTACTAGGCTCTTCTATACCATGTACAAATATTGGGATGAA
TTTTTTTTTTAATTAGGACTTCTGGAAAAGATTTGTGTTTCATAGTGTTTCTTCTAGAATTTTACTATTTCTTTGACAGAGAGTACAAACATTCAGTTGA
CCTGTTTGTCTTTTGTTCAGTAATTCAGAAAAATATATTTTTTATGGAACATATCTAAAGCAAAATAGCTTAATAGGTATATCATCTGATTTCAACTTCG
GAAAATATATAAATGTACATCTAAGCTTCTAGTGAATGGTTGAAAGAAGTATATATGGTGTGTAAGTTCTTAAGCCRATGGATTCAGCCTAGAGCAGCAG
ACCTGTTCCCAGCATTTTAACACTAGGTGTTTATTTACAGTGATCAAAGTGAGAATGTGTTACATCAGAAGTTAGATTAATAGTTTTCTTTAACACCTCT
ACTTTCACAATAAATGTGCTTTAAGTCCTGACATACAGATAGAAAAAGGCTTTAAAGTTGCTTTTTAATGTGATGATCTATACAACCTCTAACTGGAATT
TGAAAGCTGGGGCCAAATACCACTGCAGCTCAGATGCTAAAGCTGTTTCTTAAAATGARGCAGATAAAAAATAGAGAAAATCTTTTTTAAAGGCTACTTT
GCTCCTTTCCTTCTCCATAACTAAATGTTGGAGCTTTCTGCTGGGGAGGGGAGAGCAAAATTGGAGGTGGAAGAGAACCATGAAGAAGGCGGTAGGGGCA
GTTGTTTTTCTGTGCCTGCTGACGTCAACGAAATTGCCAGATGGCATTTGAATGCTTTGCAAAAAGACAGGAGCCTTTTATTACAGCTGTCACATGGGGT
TTCATTCATTTGCATTCCCAGAAGTGGTCTAAAGCTTTCCCTAATGTAGGAGTAATGAGGGCTCTGTACCTTCAGAGACCCAGAGGGCCTTTTGTAGGAT
GTTGTTACTTTAAGTGGCTCTGATAAGGGACACAGGCTCAGAGAATGCCATGTTTCACTGTCAGCTTCAGAGGACCATAAACTACTCAGCTTCAATTAGG
ACTATAATGTGATCATTCAAAAAATATTCTCTCCAGAAGGACTTTTCATGGATCGTGACAGCTGCGGAAACACATTCAGGGGGACCTGAAGGGTCTAGCA
TGGCAGTGGTGGGCTACAGAACAAAAATGCAGATTCCGTGAATTGACCCCAAGACTGAAAAATAACCAGTGCACAACAGACCTGAGCATACTACAAACAG
CTTTGCTCTTACCATTTTGCCCCATGCTGCCTTGTCAGCCCCTSCTCAATATGGGGGAAAAGTGGACCTTTCCGATAATCTGGGGCCCTATATGTAGGAG
AAAAAGAAGTTGAAGTGCCAGGAGCTGCTCTCAGAAGCTGACCCTGGGGACACATTCTCARGCCAGGCTGGCCTGTCCTGTCTATACCTCAACCCTTCCC
ACTGCCAGAAGTTTTCATGTTTTACTTATTTTTTGCCTGGAATTTGTCAAGCTTTTAATTCATGGGGTTATCCTTTTTGTTTGTTTGTTTGTTTTTGAGA
CGGGGTCTCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAACAATATTTTTGCCATGGTTGCTGTAAATTATATTGTTCATGGTAAGTAAATT
GACATATTAAGGGTGACCTAAGCTATGTTACCCAGCTTGTTTTCTTCCTAACCTTCATCTGAAATCAATGACCTGATAACTAACAGAAGTAGAAGGTTTG
CTGGCAATAGGTCTGTGCATTATGCTGAGATAAAAAGCAGCAAGTATACCAAGAGCTTTGGAGTCTGGAGACCAGGGAGACTTAAAAATTAGTTCACATG
GCCGGGCGCTGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGT
GAAACCCCATCTCCACTAAAAACACAAAAAAATTAGCCAGGCATGCTGGCAGGCACCTGTGGCCCCAGCTACTCGGGAGGCTGAGGCAGGAGAACGGCAT
GAACCCAGGAGGTGGAGCTTGCAGTAAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTGCATCTTAAAAAAAAAAAAAAAAAAA
GGAAAAAAAATTAGTTCACATTAGTTCATATGAAACATTACCTAGTTTCAATCTTATGCCTACACTCACGGTCATAATAGGTTACCTACAGTGCAACAGA
TCTAGTGAAAAATCTTATGCCACCTTGTGAGTTGGCAACGTATTACATGGATGTGAAGGCCACTGGCTTGAGTGATGGACAAACCTAGAATAGTTTTCCA
AGTGCTCTATTACGCAGCATATAAAACAAAGGTACTCTTACTATCCCGTGCTCCAAATGCATAATGCATAAGCTCAGCCATGGAATATTTTCCAAATGTA
AATAGTGGAACTGCTGCTGAGTGTATTCATTTCATTCTGATTTCTCTTTCTGATTCGGCTTCAGGGTTTGGGGAGATTTAGGAGATGATGGTGAAGATTA
TAAAATTTCAAGAAGCACCTTCCAACTTCCTCTGACCCCTTTTCTTCTCTCAACTGCAGGGGAAAGGGGCACAATCAGTATCTCGTATGTATGAGCAAGT
TCCAGACCTGAGTGAGAGGTGGCATGTGGTCAGTTTCAAGGAACGAGAGACCAACATCCAAGAATAGTCTGGAGGAGAAAGGACATATCAAGAAACACAA
CTCAAGCTGGGTGTAGTGGCTCACRCTTCTAATCGCAGCACTTTGAGAGGCTAAGTTGGGAGGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTAGGCA
ATATAAAGAGCCCTCATCTTAACCAGAAGAAAGGAAAGAGGAAAGGAAAGGAGAGGAAAAGGAAAAGGAAAGAAAGAAAACAATCTAAATGGTCAGAGTG
ATGGGAATTTTAAAAGGCAGCAGGCACACATTTAAATTATACATTCCCACCCTAGACAGTACAAAGATATGCAGATAGAATGGAAATTAGAAATGAATTC
ATGAATAAATGTTTCACCTCGGGTATACTTGGGCCTAAATCCCAAGAGCATGTAGGTTATGGTGGGTCTGTGATGTGTGTTTCATGTTTCTCCAAGAATA
AACCTTAGGAAAGCTGTAATGATAATAGCATTGTCCCACTTTGCACGTCCTAGCTCCCTGTCCACTTCGAAAGTGCAGAGCACTTGTACCAGGCATAAGT
ATTGCCATTGTTGATAGTATAATGGTTGTTATTATCATCACTACTCTGATATGTTAAGGTTTGCCTGAATATGAATTAAAACAATGTGTTTCTGAATGTA
ACTGCAGGTGATAGTCCTTTCTGGCATATTATGCCTTTCCCCCTAAAGTCCTAAAACAGTAAACCTAGGTCTCTTTTGTGTCTCAGCTACAGAAAAATAA
TGTTTTGTTAATTCATCTCCTTTAGCCACAAAATAAGTTTTTGATTGTACAGTAATATACTATATTTCATATGTTGGGCAGTGCTACAGTTCAAGGACAG
TATACAGCCAATGTACATACTTAACTCTGTTTTGAATGACATGAAATGACAAAGAAGTGAATAATCAATTGTCAGGCTACCTTAGGGTCAAACTGTCATC
TGATCTGACTTTAATAATACTATTTTTCAATTAGAAGAAATTAGCATAAAATATTTTAGGACCTAGCATCTCAATGCTCATGGCTTGTTCCAGAATACAA
TTACATTTTACAAGAAAGTAGCCACGGGAGTGGCTTCATGATAACACACAGATACAACCTTCTAATGCCGAAGGCAAATTGCCAAAATATGTGCATTGTT
AGGGATCAGAGGAAGAAAGAATGATACACTGTTCTGTTCTCTCATTTTGAGCCCCGTAAGTCCAGTCTAGGGGCTGGTAGAGAGGTGTTATTCTTTTTTC
TCAGACTCAAAAACTGTAAGCCTACCCAGAGAATTCAGGTTTCACAGAACTTAGGCATTTTAACTTATCTCATGAGAGGCTGATTAATAAACCAGAATGT
CAGTGTACTCATTTTTCTTGAGAACTGTCATAGCCAAACAGATTGTAATAATCGTGGTGGCTGTCCAGTATTTTGTTTTCAAAGTAAGAAAGTCTACCTG
GGCAAACACATCAGTGAATAAGTAAATGTATTTATAATTTGGCAAACATTTTTATGCACTTCATTATGATAAGCACTGGTGATATAATAAAGGGTTAAGT
AAAATACATGGTCTAACTTTAAAGAAAGATCTGCAAACAAATAATTCAAGGGCAACGATTAACATATAATTTTCAATATGGCACAGATAGCAGTATGTCT
TCCAAGCAGAAAGACAATAATTCATAGTCTTAGGTAGGTTACATTACTGAAAGCTGATAAATTGCATCTGTTTAAAGATGTTAGTTTGGATTTAAGGGGA
ATTTTTTTTAACCCTTCAAACCTAAGGAAGAAAGAATATTGTGTCTTAAAAGCATATGGAATGCCAGTGTACTAATTACAGTGGAAAGGTCAAAAGGTTG
TATTTGTTTTGAGGGAACAGAGAGATTGACTCTAGATTTTCAGAATTACCTTTCTTTAAAGGTATAAATTGTCATCCTGCAGTAAATAAAAGGAATTCGA
ACACCATATCCAATCATTATGTTTTTAAAAACTATAATATCAAACGACTATGCTAGCAATAAGTCAAAATTTGTTCACTCTATTTTTTTCCTTCAGTGTT
CTAGTGTTTTCCAATGATGTATGTGTGCTGTTATTATAACGAAAGCCACTTTCTGTGAAGTGTCCACCTATGCTTGAGTACTAATCATAGAAAGGAGCTC
TGAAAATAAGCAGYGGGCCTGTAGTCAGGGACTGCTGAAAATGAGGGAGAGCATCAGGGAAATTAGTGCACTGTGCCTCTTCTTTCTTCAGTACTCCTTT
AYGTTCATTGCTCATGGGGATCTGTGTTTGCCTGTTAATTGAGTGTGTTTATTGCAGGCAGTTGCCTTAAGTGACATGATACTCAGTAGGAGGTTGTGAG
GACTAGAAGGAGGTCTTGTTTGAATACAAGGGGTGGGGGAGTCACACTTTTCAGACCGATTAGAATAATGAGATTCTCTAAACAGTTGAGAACCATTTGT
AAGAATAGCACRTTGTGTTAGAAGGCAATTAGAGCTCATTCTTTTAATAATTAGGTTTTTTGAGTTCTTACAGTATGCTGAGTACTAAGATTATAAAAAT
GAACAAAAATTGTTCTCAAATGCATAATCTGGCAAGGAATTTAGTCATAATTAGCAATACAACAATATCATAATAGATGTTGAACAAAGTACTATGGAGA
CTTCGAGGCTGAAGYGATTAATTTGGTGTCAGTTTGAGAATGAAGCTGGAATGTTTTTATATATTAAAGTTGAATCTTGATAATCAATACTAAATAAAAG
AAATGAAGTGGTAGGCAGAAGTAACACCATAAACCAAAGCATAGGGTTGTGGCATCATATCTGTAAAGAGAATCCAGGTTAGCTGGAGGGATGAGGCATT
AGTAGAGCACGTGGAGATGTAACTGGAAAAGGGCGGCGGGTTAAAGGTTAAATGTTAACACACTTAAAGACAACCAAGAAGTTGAATGTTGTTCCCTAAC
TTCGCGGAGCCCTGAAGTGGCAGAGCAGCATAATAATATCTCTGCATTGGGAAAAGCCAAGTTTGTGGCAGGAAGAAACTAGAAGAAAAAAATATTGTAG
CCATCCTCGTGTGATATAATGAGAGATGGATTAAAGCAGGGATGAGAGGCTTTTTAAGGAAAAAAAAAAAATGTCAGTCTTGCATGTAAATTTCCAGATC
CACTGACCAATTTGATGTTGAAGGTAAGAAAGCAAAGAATAAATACAAATAAAACCTAAGAGTCAACGTGTCCAGTTTTGGTTAGTGATTTTGGTTTTAG
CCAAGTAGGAAATACATGAGGAAAAGATTTCCAAAGATAAAATATTTTCTTTTGGAAAGTTGAGTGTGAAATTGCTTTGGAATATCTGAGTGGAGCTGTC
CAGAAGCTCGAAGGAGTGGTCAGTGTTGGAACAACAGATTAGCGGGTACTGTATTCATTATAACATAGGGTGAGGGCTGGGAGGGAAGGGCACAGATTAA
TGTGGATAAAAATAATAAAAAGGAAAGCAGACAGTGAGTTTGTTCTCAGGCTGGAAAAAAGCTAGGCCAGAAGAAGAGGAGATGGCTGTGCCTGAGGTGC
TAGGCTTCAGTAATGTCTGGTGGTGAAGCAAGAAAAAGCCAGGAATGTTGTCATTAGATATTTTGATTAAGATATTTATTAATATTGATAGAGAATTAGT
GAGAGCAGAACTCTCTTTAAGGGCTTTCAAAATGTTAATAGATTATAATTTTTTAAAAAATGGTTAGCTCCTTAGAGATGGGGTCAAAGACCCTAATTTT
GTTAGTAGAGGAAATGCTAACAATGTTTTTAAGTTGCGAGGAAAAAGCGAGGAGGAAAAAGAGAATGAATAAGAAATGCACTAATTAAAACAAATATGCT
GTCTATTAGAAGGATGAAATTAAAAGTACAGTGGTAGGAGACTGGTATTAACCAAAAGAAAAAATATTATTTGCTCATTGAAACAATAGGGAGGAAGTCA
AGAATTAAGAAGTCCTTTCTATATTTAGAAATTCATATGAAGCCGAATTAAAGTCCTCAATAAAGATTGGATAGCTTATTTTTGTATATTTTCTGCCAAG
AAGAACTGGAGAAAAGAGAATTCATTTAAACTAATTAGGGGCTTTTTTTTTTTTTGCTGAGCCTGGTACCTGAGCAAAATGCTGTGGGGTTAGAAAATGA
GTATGAAATGACGCTCATCTTTAAGAAGCTTACAGAATCCAAACATGTCTGAAGTGCCTTTCTATAAGAATATTAAATGAGTAGCATTTTGATTATTAAT
TTGCCTCTAGGATTCAGATATGGATAGTATGTTGGGGGCTCGCTTGCAGAAATGAGTCACTTGGCTAAGAGAACTAGCTGGTGCTCATCACTCAGCCCTC
AGTAGGTTACCGTGTTTGGCTGAACCTAAGGTAATCATATTTTTTTATTGCCTTATAGCATTCTGAATATAATAAGATTATAACTAAAACTGTTCTCCTA
AACTGAAGTTATTAACCCAGACTTGTAGATCGATACATTATAAAATTTTATTATTACCACCTATTTATCTATACAGTTGGTATATTATATATATACAGTT
GGTAAAAAAAAATTATGCTGTATTAGAATATTTTCAACTGTAAATAAAAGAAAACTTTACTTCAACTAGTTGTAGCAATAAAGAGATGTTATTATTTCTC
ATGAATAGAAGGCCAAAGGAGGGAAGCCTTCAGGATTAGTGCATTTAGTGAATTCAGCAATGTTATAACGCACCTAGGTTTTTTATTCTCTCTACTCTGC
TACTGTCTATAGTATTGGTCTCATCCTAATGCCGATTCTACTTGTGATCCAAAAATGGCTGCTGGCAGCAACAAACTTTCTTCTGAAGAAAAAGGATTTC
CTTTTCTAGAAGCATGAAGCTAAGTTCCCCTCATATCTCATTGACTCACATTGACTTGGCCTACCCATTCTTGATCAAATCCCTRGCTTTGGAGTTGAAA
TTATCATGATTGGCACAGAGAGTCAATCATGATAGCCACTGCATATGCTTTGAAGACAGTTTAGAATTAGACATTTCCAAATGTCTTTGGACCTATTTGT
CTTAATATCAGAATGTTATCATAGTCCATAGGAAATTTAATGAGGCTGTCAATTGGTCCAGCAGCCACAAGACATGCTTGATGGATATTCAAGAAGCTCT
TATAATCTTTTGAGCCAGAGTAGAATGTAGCTGATGATAGAGATAATATAGCAAGTTTAAAGTATTTGTTTGAAGTATTGAAACTAGTAGGGAGACATTT
TGAAGCTCTTTTTAGTTAGACCTTATTCTGTCTTAATTATATATTCTTCAGTTTGCCAGCAGGGCCAGCACTTGAAAGGGGCCATTGCATCTGCTCTGTG
TCCATTTTTAAGATAAAGCTTTGCTTATTTGTTTTTATGGCATATTTCAATTAAAGCATTGCCACCCTACTTTAGTCCTTATCTCCCTATTTTAAGATGA
AATGAAATTAAAATTGACTGAAATGATGGTTAAAGACAAATTTAATATCAATGTTTTTCCTACATCCTCCTCCTTATTTTCAGAAAAAAACATATTTTTA
ATCAGTGCTTGTATTAATCTTATGATTATAATTTTAAAAGATTATTTTTGAATTCATTTTGTCCTTTTTTGCATAGATCTTTGTCTTAAAGAACATGTGC
TGAATTTCTGTAGAAATTGACTCTTCATATTCCATAAATCTGTTGGTATTACCATACAAACACTCTGTGGAAGCATTGACTGAACTAGCAATTATGTCTA
CAAGAAGAAAACAAATCTATGACAGAAATCCTGAGTGACTCACTATTATGACCAAATGACTTATTTACTTACTTAATTTCCTCCTTTATTCAGCAACACA
TTGTTGCTAAATGTGGAGTGGGGTATCATTTTGAAATACTTCCCATACAAAACCTTGATGATCCTGCCTGACATCTGCCCRCTAAATGTCTTGGTGAGCC
ACCATGTCTGCTGATCCTAGGATAATCATATTTTTTAATTGTCTCATAACATTCTGAATATAATAAGATTACAACTGAAACCAGTTTCTTAAACTGAAGT
GATTAACCCAGACTTGTAGACAGATACATCATACAATTTTATATTCATTACCACCTAAGAGGAAAATGAAGACGGATGCCTTCCTTTTAGCAATAGAAGT
CTCCACAAGAATCCACAAGTTTTTCCTTCCGGGGCAAACCATATGAACGATCTGGCTTAAGTATCAGAAATAGAGAGAATAAGTGGCATTTTTCTTGATG
GAAAAATATTAATAGTGGGACCTTTCCTAATACTTAGTTCTGGGAAGAGTCTAATTTGACATTTTCAAAGAAGATGTGAAAGAAGGGAGTCAACCATGAA
ATCTTGGAGTTTACTGATGATGTTAACAAGTTCCCCTTAATAATCTTTATCTACTTAGGCTCTCATTAATTGGAGGAAGTGTTTATTTAAAAAAAATACC
GTATAGCAAATTGGCAAGGATATTTTCATATCATTGAAGGTAAATGACTGTACATAGGAACGGTACCCAGTATTTAGCATTGTGAATAGCGTAGGGCTTC
GGATCCAGACYACCTGGGTTGGAATGTCATCTCTGCAGCTTAAGATCTTTGTAACCTTGGGCAAATTACATAACCTTTTGTGTGCACTGCTTTCAAATGT
TGAAAGTCACTCCCTTTACAATGTCATTGTTTAGATCTCTTGAGTTGCATCTTAGAAAATCAAGAAATTATATTACAAACTGTAGTGTATTACACCTACC
TGCCCTATATGTAAAATGACTTACAGATAAGCTTACTCCATTCTCAAAAACCAGTAAGCAAGAAGGAACCCTCAGGTATTCTGAGAGGGAAGGGAGTTTC
AAGTTCCCAACTCATTGCTGGGTGGATCAGAAGCTAGAAAGCCTTGAAGTCCATGTTTCAAAGATAAGACTTAGGTGTTGGATCTATGAGACTTATAGGG
GCTCAAGATTTTGAGGGAAATGCTATATTATAGTGATAAGTATGTTTGCTATCTGTCTTTCACCCTTCTCACAATTCTCTTTTCTGGATAATAGGCTTTT
TTGTTGGTTTTTTTCTTTTTTTGATCCTACTTTGAAGAGAGGTATGAATGATAATGGTGACTCTGTTCAGAGTGACCATTTTCAAAGTTTGGAAAAGAAC
CACATGGACAGATTCAGGTGTTTTAGGATCTGCACTTTGAGAAACAACTGTTTTCACTTTCAACCAACTTCTTTCACTCTTCTTATAACCAGGGGTACTG
GATACACCCACAGGGTTTTCTCCTTTATCCTCTAACCCCTTTCAGTTCCCTGAATGCCTTCCACTAGACTGCAAGCTACCTAAAGGTAGCAGCCCTGATT
CATTCATCTCTGTAGCCCTAAGGTGTAGATAGTACCAGGTACCCAATAGATTTCAGTTAATATTTGTCAAATGAATGAAGAAGAAATGGATATTTTTTCA
GTACCTCTGTATTCCCTTTGTGACATTATTGAAATAGGGTAAATTTGCAGTGGAAAACAAACAAACAAAATTCTATCATACTTATGTTTTTTTTGTGCTC
ATAAGCTTCAAAATCACTTCTAACAGTGTTTCTTTAGAGAAAACACACTCTGTTTTCCAAAAATATTTTTACAAGTGTTTTGAAGTTTGATCTATTTTTA
AGTTTGAAAACTTTATTATTCGATTGATGGAATCCTTGATTAGTTGTAGCAAATGAAATTTACTGACTTTTATTTCTTTTTTTAATTATTATTATTATTA
TTATTATTTTGAGATGGAGTCTTGCTCTGTCTCCCAGGCTGGAGTGCAATGGCGCGATCTCAGCTCACTGCAACCTCCGCCTCCTTGGTCCAAGCAATTC
TCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCTCCCACCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTTG
CCAGGCTAGTTTTGAACACCTGACCTCAAGTAATCTGCCTGGTCTCCCAAAGTACTGGGATTACAGGCGTGAGCTACCACACCAGGCCCTACTGACTTTT
AAAATACATTTATGAGGTGTTTAATGTTGTGTTAAAAAATTGGGGGCTATTGAAATCACCCGCCCCCTCAAATGTTTACACTGTGGAAGGCAATAGAGAT
TRTCAAAGGGGAACATTTTCTTAGTTGGTCAGACACAATATAGATTTTATTAACTCACAAGTGAATTATTCACAAATTATTTTGTGAAGCCTGGGGTACT
TAGAGATTTCTGAAAGAAGAAATTGAAAGAATACTGTAGACAGAGTAAAGAAGACTATTATAGGAATAAATCTATTTCATTTCTTATGTCGCCATATCTC
ACCTATTTCCAAGTGCAAATGATTCTCCTTAATGTAACTTTCACTCTTTTCTTCCTGGGACATTCATGCTGTGAATGGCCTTGTTTCCCATGTTTATTGT
TGTGGCAGCCTTGGTCAAATCAGCCTTCTTCTATGCCACACCTTAATCTTCCTCAAGCACTGCATACTGTTTGATTATATCATTTTCCTTGTCAGCCATC
TTTCGTCATTCAGTTACCAACTGATAGAATTAGAAATCTTTGTCTTTCATTATTGGGCATCTGAAATCTAGCCTCATACTTCCCTTTCAACCTTCATTTC
TGCTAATAAAAAGCAGTAACTTCCCCTGCCTGAGAGTCTAGTCTGCTAATGGACTTCTTTACCCATTCATCCTTCTTATGCAGTCCCCACGTGCTGCCTT
CATGCTTCTTCCAGCTTTTCTGCTCTGCCCCCCACTTACTCTCTCTAGACCTGTTCTTTCACCTCACCAGGATCTCCAGTCCAGTTGGCCAATCTTTCTT
TCCTGTCTGTCATACTTCTCCTGTTTTCTCTTTGTTGCCTTTTCAAGTCAAATTTTATGCTGAGTAACACTGGGAAGTACTCAACCGGGCCTTTGTATTG
CTTGAGAATCTAGCCAGCTCTTTTTTATCCCTCTTTCAAAACTTTTCATTCTCGTTTGTACTTCTAACCTCAACATTGCCCACATCACGTTTTCAGCAAG
GGACTCAGTGCCCAATTCACGGTGTAATTCACAGTGTAAATAAAAGTCAACGTATAAAAATTTGTTTAACTTCTCACCTATAAATCTGTATTCTTCTTTC
TTACTGTTATCATGGAAAAGGTATCTCCCATTGTGAAAGGTTACTCCTGTACCCCTTANNNNNNNNNNNNNNNNNNNNATTTTACAGCCAGTTTTCATGA
GACTTGTCTCTATGATCTTCATTTTTCTATCTTCCTTTCATTGCTCAATTTATTGCAATGTGGCTTGCTACCTCAGTGTTTCACTGAAACTGTAGTCTGT
AGAGTTGCCAGTGACCTTCCAAATACTAAACTCATAAACATTTTTCAAGATTTACTAATCTCTCAAACACTGATCCACTGCTGACCACTCCTTGCTTCTT
AACATTTCCTTGGTGCCATGGACACTACACTCCCAGTTCTTACTTGTCCCTTCTTATTTCCTTTTGTGGATTTCACTTCTGCCTGGCTTTTAAAAGTTGA
TATTGATTATGGCTCTAGCCTCAGTATACTCCTTTCTCTTCACACACTTTCATGGCAACATGCTGTTGAAATGACCATATATATGTCTTCAATGCCCAAA
TGTATATTTCCAGTTCAGAAGTCTCTCCTAATATGCCACTGGAATCATCCAATAAATACCTCAGTACCCTCGTCCAAACTGATTCCTTCTCTTTTGATTC
CTCATTCTATGAAAGACTCTTAGCTACGTATCTTCCCAAACCTTCATCCTGAAAGCTAGCCTGACTCCTCTCTCCACACATACTGATGATGCCAGTATTC
TACAGGACTTTCTTATTGCCCTTACTAGTTAATCAAAGCTCTTGAATATGGCTCATATTCCTGCCATGATCTGTTTCCTCAGACCTCTCCAGTGTCAACC
TTTCAAACTGAAGCACTGTGTACTTCACCTGAGCTTTGTCTTCAAAAGGCCATTCTTTACCTCCAGGCCTGTTAAGATCTTTTCCTTTTCCAGAAAACAC
ACCCTAATCCTTTGCTTACTCTTTTCATGTATGTACCCAATTGTGGAAAAATTTGTAGGATTGCTTTTTGTGTCAGTACTATTACTTCTCCTTGGCATTT
TCACTRTTTTCTGGACAGTGCTTATTCCAGAATCAGGTTGTTAAATAATAGTTTTTAATCATGACTCCAGTATTTCAGTGTAACAATTCTCAGTATACTT
TAAGTGTGAGATTAGAACATGCAATTGTGCTAGGAGGTTGAATGTTTTAAGATGGCTTCCAGAAAAGCAGTGATTTGTTTCAAAGAACTGTCTCAAACAC
TTTAATTTACTTGTCTTTTAAGGTACAGAATTGGAGAGAGGGCATTTACTTATCTTTGAAGGTTTGGAGTATGTTACTTATGCAGTCATCATTTCTCATA
TTATTGAGTGCCCACAAAGTACCAGATACCACACTGGGGGAATGAAACCTAGCATTGCCCTTGTCCTTGCACAACTTTGAGCCTGAAGGAGGAAGACAGA
CCATCACATATAGACATACCAAAAGCTGAATCGAGAATTGTGGCAGGTGCTATTGCAACGAGGATCTATGTATATATGTAAGATCTGGTCAGAGATGCAA
GGTTTCTCAAAAGGTATAGCTCCAAGGCTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTTTGGCTTGCTTTCGTTTCTGCTGTTTTCAGAGTA
TGAATGGAATATCCCAATAGGCATTAACGTGGAAATGTTTGTATGGTCCTGAAGCAGTCAGGGAAGATGTCCTGGATTAAGTGTAGAAGAGGCAAGTCAG
TAGCCTAGATAAACACCCATTGCATATGGGGCAGGAAAAAGTCTAGTGTTGATATGGATAAAACAAATGGCAGTAAAGTTCCACAAAACAGTGTGTTCAA
AGGCATTTGATGTTTTGTGTTAATATTTTAATCACAGTAGAAAATTACATGTGGGAAAATGTTAATCAAATTGTGCATGGGAAGAAGTCACGTTTCTAAT
ATGTCTTATAAAAATTGAGAAACGTAACAACTAAAATGTTTGCAACTTAGACAAATCATTAATTATGTAATTGTAATTTCACTTTAACAATGATCCTGAG
GGATAAGACACATTTTAAATTTTTTATTTCTACCAGTAGACTTATGTAAGTTATTCTTTTTTAGCTTTTTTTTTTGTTTTCTGTGAAAAAAAACTAAATT
CTGCCTGTTAATGAGGCAGTAGCACTTGTTTTAAAAGAGATGGTCAGATAATTCTTTTAAAAGGCAGAATACTGCCATCTGTTGTTCACTGAAGTTTTTA
GCCTAAGCAAACAGAAGCCTTAAGTTCAAATTTAATAGCAATTCTTGATATTTAACAGACAAAGACCAGCCCACATTTATCAGCTTTCTGAGTTCSTACT
TATTTCAGAGATTCTTAGTTATTCCTATCATTTTTTAAAACTCTTTCTCATATCAGAGAAGTGCTCACATCCAGTTAAGTTCTCTTTGCTTCCTGTTTCT
TCCAACAACAGAAATAATAATGTTTTTTATTTACAAAGTAATTTGTACTTAACCAAGCCTTCCCACATTTGTGTGAGCAGTCACATGAGTAGCTCATTGC
CTGAATTTATTATATCTTTGCCAGCTACATCATCTTTTCTAATTAAGAGAAAGAGAGAAAACCAGCGTGCAACTTAAAGACAGCTAAGGTTATCTTCTGA
AAGATGCGGGTTCTTACTAGAGTAAGTGATGAATAAGTATGTTCCATTTCCTAAATAATAAAACACTATTGTAAAATTGTTAACTTTGAGTTGTTACGTG
AGTTCGCTAGTGTCTGGAAAGTAGTTAGAAAATATAAACAAGACAGAATTTTTCACCAATTTTTGACTTGTTTGCTGATAGCTTGCAGGGACTTGTATAA
GGACAGAGGCCATGTATTCCATCTCATTTGGTGACTTGCAGTGCTCTTTGAACATCAAAAGAGAAGGATGTTAAGAATTCTGGTAACTAATGAAGTTTGT
TATGTTTCACATCTCACATGGAACCTGCCCACAGACATGTTGGGAAGCAGTTTGATGAAGGGCCCTATAGGTTTTCCTCCTACTGTACATAYATATTATC
TTAAGGAAAAAATCCAAATGTAAACTCATATTCCCTGCCAGAAAATTAAAATACGCAAACATCTGCTTCCTTAGGATGGCCTTTAGCCAAGGTTCAGCCT
ACAATGAGTTACTGCAAAATTTTCACATGATTTCATTTTTTAAAAATTTCCCAACCAACTTCAAGTCTAAAATTATAAATGGGTCCTATGAAAGTATAAA
CACATATGCAATTTTGCTGTCTCTGAGGTCAGAACCAGTAATGCACCAAAGATCATTGTATCAAATCCAGCTCATCTTCTAAATTAATGTAGTACATTAA
AGACCAAGATACCATTTCCTAGTATCACRGACAGCCTCCCAGAGAAAGAGTTGGAGGGATGGAGTGGCACGTAGTGCTACAGAGATGTAGGAGGAGACAG
CTTCCAAAAACTCATCACACATCTTTTCCCAGCATTGAGGACCAAAGTTGGATGAGAAAAGCCCCAGTGACTATTTCCTTTTTATGTGTCATCTCTTACA
CTGTTTATTCGTCTCTTATCCCAACTCCCTTTCCACCCTAAGAATATTCCTCCCATGCTGTGTTTGCCTCCCAGGGTGCCTCCCAGGATGACTAAATAGA
AAGAAAAAAATACTTCCAACAATGGAGCTATGATGCCTGCTTTTAGAATTCTTTTCACATCCTGTGTTATAAATCATTCCAATGCAATCAACCATATTAA
CTGAAACCAGGACTTCTGTACAATCACTTTTTAAGAACTTAAAATTAAAATCAGGACTATTATGAGTATTTTGCAGTAGGGAGTACAATATATCTGACTG
CATTTACCTAGAGTAAGAAGTGGAAATAGGTTTTTGTTTTTATTGTTTTATTTATTTATTTAATTTATTTATTTATTTTGGTAGAGAAATCATATCTCTG
TGCTATCTTCATTTATAAARGAACTACTGGCCCAGTTCATGTAGGGGACAAACACCCACGTGCACAACATACATTTCTTTGCACACACAATCTTTCTCAA
CAACAATGTTTCACCAACAATAATGATAATGTTGGTGATGTATAATACTTATCAAACATATATTTTGGACCACGCACTCTCACAAGTCTTTATGTTTATG
ATCTCATTTAATCATCAATTACACTATACAGTCGATATTACTATTAATCCCTTTTTAGAGAGGAGACAAGAGCTAAAGAAATAAAATGAGCCAGGCATGG
TGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACAAAGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGGGAAACCCTGTC
TCTACCAAAAATACAAAAATTAGCTGGGCATGGTGGCGCATGCCTGGGGTCCTAGCTATTCGGGAGGCTGAGGCAGGAGAATTGCTTGAAACCAGGAGGC
GGAGGTGGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCCATAGAGCGAGACTCCATCTCAAGAAAGAAGAAAATAAAAAAGGAAAGGAGAG
GAGAGAAGAGGGGAGGGGAGGAGAGGGGAGGGGAAAGGGAAAATTAAATGAATTTACTTTTTAAATAAAATAAAAATCTTAGCAGATCTGAAATTTGAAC
AGAAGCAGTCTAACTTCGGTTCTTGCCTCCTTAAAGACCCCATGTATTACCTCATATAATAAATATTTGATATTGATGAATGAAAAAAACTTTCTCTTAT
ATCCCAACGTTTTAAAACTCTGCTTTCCAACTTCCCACATACACAACCTTACAAATTATATATATGACAAAAATATGTTTTTCTACCTTTTTGCTTCCCA
AATGCTAATTCATAAACCAGGCTTAGCTTTCTAGCTCTTGTTCCAGGAATGTTAATGAATAGCTTTAACACCGCAATTACATTATGTCTCATTTTAAGGG
AAAGAAAATATTGAGTTTAAAATACTATGGAGCTCTCTTAACAGACATAATTAGGACAAATAGCTGGTCTGGGAATTTTAAAAAGTTTTTAAAGTAGAGA
ATCATAAAAATATGATATAAATTTTCTATAATTCTAGTAATATATTTTAACTTAATACATAGAGTATGCAGGTTTTTGCACATCTTTGATGAAGAGCCAA
GAATGTTTCTCTCAAGTATGTGTCCACTGAAGTGACTGGAGTTTCAGGTTGCCGTTCTTACTTACACCATACCCATATTTCCTATTTCATTGTACATGCT
TGCCAGTTTCCGTTTCTTTATAGTGGAAACAACTTAGGAACTTGGAAGCATTCTGAGTTGAAAAGCCTTTAGGTGTGTTGTGATTTTCTTTTTGAATCTT
TATAGTTGTATCTCCCCTACTTAAATCAAGGGAAATACATTCTTAGGCTCTCACCCTTATAAAATCTATTTATGAACTCTGTGTAAAGCTACCTGACTTC
GTTTTCAAGGGAACAATTCCATTTTTCTGCAGGTGTCATTTCTTTGTAGATATTTTGTTAGTCTATGTAATTTACAGTGACAAATATAACAGGCCTAAAG
AGATTTGGGAAGAAAGGAAACTGACACTAGGCAAATGCGTAACTTACCTATTGGGAGAAGTATATGGAAATTCCACCAAATAGCCTATTCCTTGTGATCT
ACTCAGTGTACACTAGGCAATTTACCATAAGAAGGAAACAGCATCAGTGACTCAATAACAATTTATAAGGTAGAGCTTGTGAAAGATTAGCAATTAATAC
AATAAGGACTTTTCTAAGTCTACATAATAATTTTAAAATCTTTTTTTAAATGTAAAATGCTTAAAGATGCCAAGATGTAATTTTAAAAYCTTTTTCTTTT
TTCTTATTTGATGGGGGTGTGTATGTGTGTGTGTGTAAATGTAGAGAAATGAATTACTTGCCCAATTGGAAGGGACCTTCAAAAGATCCCGCCCAGTTCT
CTGATTTCAGAGGAAAAGAGCCTGATTGCTCTGTTGGATACAGTATTGCCTATAAGGAAACCTGTAGGTTTGGTTTTGGAAGTCATCATAAAACTTAAGA
TATTTTTAAGTGGCCTAATTTGAAGTATATAGCATTTCTACTAGGTTATCTAGATAATTTCTCAATTCTAATGTTTCAGCATTTGTAACCTATCTTCAAG
TTTCATGTAGACTTACGAAGAGAGGCTTTTGGTGCTGCTTCTAATTCTTTTCCTCCAGTTAGAATAAATTAATTTCCAAAGCAAGTGACACGCCAGAATG
TTCACTGAGTCAGAAGACTGGAGAATTATTACATTTTCTGCCTGTCAGCCTATTTAATTAAGTTATCAATTTAATCTGTGATTTAAAATATGTAGAAAGC
AGAGTCATAACTTGACTATATTGGTGCTACCTCAAAGCAAATTTATCAAGAATTGGATGCATTATCTTCATCTACACCCCAGGTGCTAGATAATCTCCTT
AATCATTTTAAAGAATAAATTTATGTTGACCCTACCATTTCTCCAGTCTTTTTCTGATTTTTCCTTTGGGCACCTTTACTTTCTTTAAAAAAAATGATGT
GTATCTGCTTTTTTTTGTTTGTTTTCATTTACTCTTTTCACATAATTATTTCCTAAGCATTCTTAGATTTTATCTTTTAGAAATTCTCCAGTTCTCAATA
TTTTGGCATAAACTCAAACACAGCACCACAGCAAATAATCTGATATGTTACTTAATGATACATGATTTTATTTTACATTCTGTTCGTAACTTGGTTACAT
AGACTTGTTAGAATTTTTCATAGTTTGCAACTTACTTAGAAAATTTTAGAAACTTAGATGCCTTTTATAGCACGCAAATACCTTTTGACCTCCACACATA
TTCGAAGATTTCCCTTTTATCATATCAGTACTGCAATGTCAAAGTTTTTGCCCACTAGTAATAAAAATTAAAACAAATTGGCCGGGTGCGGTGGCTCACG
CTTATAATCCCAGGACTTTGGGAGGCTCAGGTGGGCGGGTCACCTGAGGTTGGGAGTTTGAGACCAGCCTAACCAACATGGAGAAACCCTGTCTCTACTA
AAAATACAAAATTAGTTGGGCATGGTAGCATATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGACAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTG
CAGTGAGCTGAGATCACGCCATTGCACTCCAGCCTGGGAGACAAGCTCCATCTCAAAAAAAAAAAAAAAAAAATTAAAACAAATTTTCTGTAATTGATTG
ATAGGCACACGTCTAAAAGTATGTATAATATTGATTATACTTGTTGTATTTTAAACTTCTTATCTATAGCATCAGACTTTCTGGGCCTTTGGTTTATGAT
GAGTGAAATAACTTAGAACCACTCTAGATTGTAATATACCAAGGCCATTAACAGTTGTGGTAGTCTAAAGCCAGGATTAGGTAGGACATCCTGGAAATGG
GAAAGTAGACTGGATGAAGATAAAAGAGGAAAAGGAAGTTGTTTAAAAACTGAGTACTCAGTCGGGCGCGGTGGCTAACACCTTTAATTTCAACACTTTG
GGAGGCCAAGGTGGGAGGATTGCTTGAACCCAGGAGTTCAAGACCAGCCTGGGCAAAATAGCAAAACCCCATCTGTACCAAAAATACAAAAAAATTAGGC
ATGGTGGTGTGAGTCTCTAGTATCAGCTGCTAGGGAGGCTGAGGTTGGAGGATTACTTGAGCCCAGGAGGCTGAGGTTGCAGTGAGCTGAGATCGTGCCA
GTGCACTTCAGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAGAAAAAAGAAAAAAAAACACATTGRAAAATGGTGAATTTACCAAAA
GTATCAGTTATTTTTGGCTTGATATATAAAACCGCACTTTCCTCCACTGTTTATCGTACTGAAATGCCACATTTTCTATTTAAAGGTGGCAATCCAAATT
TGGTTGCCATTTAAATAGTGTCTAGGGAAATACACTTGCATTTTCTGAAATGTTAAATATAAATATTTCTATTACAAGGAGAGTCTGTGAAGTAGAATGT
TTTATATTGCTTGGTAACTTTTTTTTTTTAAAGGAAAAGATTTGTTTGATCATCTGCACCATAAGAAGACTCAACTGCGATTTTGTGCTTAGTGTGGCTC
GTACTGCACTGAAAGATGGTTTCAGATTGTTAGTTTTAAGACTTTTCTTTAAACTGGCTTTTATATAAACTTAACATTTAGTATTTATTATCACTATCTA
AGATTTCACCAGTTAAATAAAACATTTCTGAGTACCATTGGTATACCTCAATATTTAATTATATTATTTTTTTCAAAGTTAATAGGCATGGAAAAAACTT
CTGTGTGAATCACACAATTTTTTCTCACTTTGTACATGATTTAAAAAACACTACCAAAAACCAAAACCCCTCTCCCTTAAAATTCCTTAATAGGGACATC
CTAGACATACCCATCCTTTGTAGCTTACCTGCTATTTATTGAAACAGCAGCCAGTCCATCTTTCTGTTTTTCACCATTTCATGTGTGGTTAGCCTTGGCA
GGTTTGCTGCAAACAAATCTGATTGTTGGTTTTAAATTGCATGCCTCATTGAAGCCTTTAGTTATTTGAGCAAAAAAGTGGTAATAACTTCTTACGTGTG
ATGTGTCTGTTGACTGTAACATAATTTTATTCTAGAATCATGAAAACAACAAAGTGAGGACCTGACTTAATGATACTAAGGATATTTTTTTTTCCAATAG
TAGAAGTGTTCACTTCAGTTTCTTAGCTAATTTCAATAAGGATAATTTGTCTCTCGGCTTGAATGTTGCTTTTGTTTTCACTTAAAGACCTTTGCTTTTG
CAAAAGCTACAGCATAATAGTAGCATCAAAATACATAATGTGCTTATTTTCTGAATTCTTATGTAACTGTGACATTGACTTATAAAGATGAGTTTTCAGT
TTCTATTTTAAAAAGTACTTTTTAAATGTTTACTATTTTTTCTATATATACAAGAAATACATCTATTACTTTAAAGAAAAAATAAAATGTATTATAAAAA
GACACACAATTTGATAATTATAAAAAAACTTGTCTTCTTCCCAATAATTTATTTAAAACTTGTAATTCTCATGAACATGTTCTACTTTTTCTTCAGATTT
GTAGATTTTGTATACTGAGAACATTTTAAGAGAACTTTGTAGTTATTACTAGAGAATAAACTTAATTTCATTGTCAAAAACATTTAAAATTTTGTCTTGA
AAACAAAGTTTGACTTAAAATTTCAAATTTGTATGGAAACAGTCCAGTTAATTGTTAGTTTATTAGAACAACATGGCTAAAAATAAACATTACTATTTCA
GAGGATCACACTGGATGAGATTTTCAGAAGCATAATGATTAGAGATGCACTTTAAAATACTTATTTCTAAAAGGGAATGTTAGCTAAGTGGCATTTTTAC
AAACATTAAAAAATTGAATAATGATATTATCTCTATTTGCAGATGACATGATCTTTATATGTAGAAAACCACAACAATTCTACACGCACAAAAATTGTTA
GAGCTAACAAATGAATTCAGTAAAGTTACAGGATTGAAAATCAACAGACAAAAATCAATAACATTTTTTATATACAAATAAGTCCCTAGCTGAAAAAGAA
TTAAAAAACACTCCCATTTACAATAGCATAAAAAATACTTAGGGATAAATTTAACCAAGGAGGTAAAAGATTTGTACATYGAAAATTATAAAACACTGAT
GAAAAGAATTGAACACAGAAATATATAGAAAAATATTCCATTACTCAATCAGAAGTATTGTTAAAATATTTATACTACCCAAAGAAATATAGAAATTTAA
TGCAATAACTATCAACATCGCAATGGTGTCTTCACAGAAATAGAAAAATGCAATCCTAAAATTTGTATGAAACCACAAAAAACCCCAAATAGCCAAAGCA
GTACTGAGGGGAAAACGGTTGAAGGCATTACACTTTCTGATTTACAACTATATTACAAATCTATAGTAATCAAAATAGCATGCTACTGGCATAACAACAG
AAACCTACACCAATRGAACAGGATAGAGAGCCCAGAAGTAAATTCAAGCATACATGTTCAAATAATTTTACACAAGGGTGCTAGGAGGACACAGGTGGAA
AGGGGAGTCTCTTTGATAAAAGGTGCTGAGAAAGCTGGATTTCTACATGCAAAAGAATGAAATCGTATGTTTATCTTATACCACACACAAAAATCAACTC
AAAATAGGTAAAGACTGAAATGTAACACCTGAAACCATGAAACTTACTTATAGAAGAGAACATGGGGGAAAGCTCTCGGACATTGACCTTGGCAATGAAT
TCTTGGATAACACACCAAAATCTCAGGCCAAAAGAGAAAAAATAAGTAAATGGGGCCACATCAAACTAAATAGCTTCTGCACAGGAAGGGAAACAATCAA
CAAAATGAAAAGGCAACTGACAGACTGGGAAAAAAATATTGGCAAAGCATGTATCTGATAAGGAATTAATATCCAAACTTTATAAATAACTCTTATAACA
CAATAGGGGAAAAATAACCTGATTAAAAAGTGGGCAAAGGACATGAACAGACATTTCTCCAAAGAAGACATGAAAGTGGCCAACATATATGTATGGAAAA
GTGTTTAACATCACTAAGCATCAGGAAATGGAAATTAAAACCACTATAAGATATCACTTCACTCCTGTTAGGATGGCTATTATTAAAAAGACAAGATATA
ACAAATGTTGGCAAGGGTGTAGAGAAAAGGGAACCCTAGAACACTGCTGTTAGAAATGTAGATTGGTACAGCCATTATAGAAAATAGTATAACGGTTCTT
AAGAAAATTGAAAATAGAACTATATGATCCAAATAAGATAAAATCACCACCTCATAAAGATATCTGCACTCTCATGTTCATTGCATTATTCACAATAGCC
AAGATATGTAAATACCATAAGCATCTGTCCATGAATGAATGGATGAAGAAAACATGGTATGTATATATGCACACACGTATATACATACAATGGAATAGCA
TTCACCCTTTAAAAAGGAAGGAGATCCTGTCATTTGCCATAACATAGATGGACCTGAAGAACATTATGCTGAGTAAAATAAGCCAGACACAGAAAAATAT
TGCATTATCTCACTTAAGTGTAGAATCTTAATTTTTAAAAAAGGTCGAATATTCAGAGATAGAGAATAAAACAGTCGTTACCCTGGGCAGAGTCAGGGGA
AGGGTCAGGAAATGGGGAGATGTAGGACAAAAGATACAAAGTAGCAGATATATAGGATGTATAAGTCTAGGGTATCTAATGTACATGAGGATTACAGTTA
ACGAAATTGTATTGTATTACAGATTTTTGTTAAATAAGGAGATTTCAGCTGCTCTTGTCACAAAAATACTATGCAAGACGCTAGATAATGTTAAYCTGTC
TCACTATAGTAACCATTTGACTATCTGTACATATACACATAACATGTTGTAAGCCTCAAGTATACACAATRCAAATTATTTTTAAAATAAGTAAATAAAA
TAAAATTCTACTTTTAGCTCAGAAAAATAAAATTAACCCTATAGATAACAAATATGACATATGCATGACTATGTATCCTAAAATTATTAATATTACACTT
AAATTTTCATATTGGTTCATAAGAGATATTTATGCCTGTGATCAGAGAACATGGGTACTAGTATTAAATTATGCATTAAGTAATTACAGATATATTTAAG
CACATAAAATTAAGATTTTCTGTTTTTGTTTTTTTGTTTTTCACCGTACTGGTTCAACACTTGAGCTATGGAATGAAGCTATTTTTCTTTGCAGCCTGAT
ATTTCCACTTTCCACCTGTCTGATTTTGGCAAGTTATTTGTGTCTAATGAAAGTGAAAGTAATAATAGTACTTACTAATACTTTGTAGACTTGTGGTTAA
TATATATCAACTTTACCATTATTATTATAGTTATTGTAATTCTAGCAGTAAAAGACATAACTTTTCTGTATGATAATTTTACAGAGTAATTTATTCATTA
CTTACAGGTATTGCAGGACTAGATATCTTTATGGATGTTAGGTGTCATGATATTTTTCTAATTACAAGAATAATATATATTCACTTTTTCTATAACATAC
TTTTCCAACCCACTGAACAATATTTTCTAGACAATAATTTATGAATCTACCCACATCTTTTAAACAAGGATAGACAACTTTATAATACAGATATAATGAA
ATTTAAAAAAAAAAATTTATCTACTTATATGTATCTCGGTTGTCGTTGCCAGAACACTGCTATACCCTTTGTGTTATTGTTTTTATATGTTTAGATATTT
GTAGAAGTATTTCTTTCGACCAGATATGTATGTTGTTTTGCTGGATCATAGAATATATACATTTAAGCTACTAATTGATAGGCTTAGCAAAGTTTCCTGC
CAAACATTTTGGATTGTTTTTCCTCACTACTCGTTTACCCAAACCATTACTAATGCTTGGTGTTATAAATCTTTTACTGTTTTGCCAATTTTGTAAATGA
AAGTTGTTTTTATTATGTTGATTTGCAATTTAATTATAGTGGACATAAGTGGCTTTATATATATATATATTGGTTATTTACATTTTGTTTGAATTGTCTA
TTCACTTCCTTTTTCAATTTTGTCCTTTAGTGATTTTTTAGAAGCTCTCTGTTTGGATATGTTTTATCTTCTCTGTGTGGCAAACATTTTCTCACAGACC
ATTTCCTCCTTTGCTTATGGTTTATTTTCTTATGTAGAAGTTTTTATCTTCATTTAGTCAGATACATTAGGAATATCCTTGGCAGTCTATGAATTCATAT
TATTTTTAAAGGTTATAATTTCAAGATTATAAAATAGTCCCTCATATTTTCTTTTAATCGTACAACTTTATACTTCTGTTTTTTCTCTCTTTGGAGTTTA
TTTACTTACTTATATAAGTAACTATATATAAGTAATATAGTTACTTATATAAGTAACTATATATAAGTAATATATAAGTAACTATATATAAGTAATATAG
TTACTTATATAAGTAACTATATATAAGTAATATAGTTACTTATATAAGTAACTATATATAAGTAATATAGTTACTTATATAAGTAACTATATATAAGTAA
TATAGTTACTTATATAAGTAACTATGTATAAGTAATATAGTTACTGATATAAGTAACTATATATAAGTAATATAGTTACTTATATAAGTAACTATATATA
AGTAATATAGTTACTTATATAAGTAACTATATATAAGTAATATAGTTACTTATATAAGTAACTATATATAAGTAATATAGTTACTTATATAAGTAATATA
GTTACTTATATAAGTAATATAGTTACTTATATAAGTAATAAACTATATGTAAGTAATATAGTTACTTATATAAGTAAATATATATGGCCTCTGTGTTTTG
TGCTCTTCGTTTCTGCTGTGAGGACAGAGTAATGACTCTGCTCTGATAGGCAGTTTGGCAGAATATGACAGATGTGCCACAGAATCCCAGAACTGAAATT
TCTATTCCAACCAACAACAGGAAGAGAGACAGATTGTGAACTAGCACACAAATGGAGTTTTTTTGTGTCTATCTCGAATAACATTCATTGAATAACTACC
ATTAGCAAAAATATTCATTGAATAAACACCAGGTTCAAGTGTCACATTAAAATATTACTAAAAATAACATTTTATGGTATATTAATGTTACTTTTGGAGT
GAAATTCCTAAAGAACATAGATGTAAAATGTTGAGCTCTTCATAAGGAGTGATATGAAGTTTTTCTTCCCCAGATCTCTGAAACTTTTTGCCTTTTAAAA
ACTAGTGTTCATCTTTTTAATTTCTTCAAATATGCTTGACCCTCCCCAAGTTCTAGCATTAAAAAATGGGCCACAAATGCAAAAAAGGGTGGCAGCTAGG
GCACATTTTAGCAGAATTTGAAATAGGTGGTGTGAATTTTACTGTACTGAAATCCTAAAGAATCAGCCCAATTCATTTCTTAGTGAAAAAGTCCAAATTA
ATGCTTTGTGCCTTCAGATTCAGGCCTTTTCTTGCCTGATCTTGTCTTGGTTTGTGTCTCAGTCTTCAGGAACCAGTATTACTGTGGACATCGCCGTCAT
GGGCGAGGCCCACGGCCTCATTACCGACCTCCTGGCAGACCCTTCTCTTCCACCAAACGTGTGCACATCCTTGAGAGCCGTGAGCAACTTGCTCAGCACA
CAGCTCACCTTCCAGGCCATTCACAASCCCAGAGTGAATCCCGTYACTTCGCTCAGTGAAAACTATACCTGTTCTGACTCTGAAGAGAGCTCTGAAAAAG
ACAAGCTTGCTATTCCAAAGGTAGGTAGTAATGACATACCCCTTAAAGGGTTAAACTATTTTTTTTAATTSTCTTCTAGGTCTCCTTCCTGTCACCTCAA
CTCCATCTGCAGATTCATATCAGTGACTCAGGCAAAATGTGTTGATCGTGGTGACAGAAGTAATAAATATTTAAACATAAAGACTTCTGTCCTTATACTT
GATAGTTTTCTATACATAGAAAATTTATCTTTTTATGTTACCTCTTTTATTTAATCTTTCATGTTACTTGCAAAACGTTTTCTCTTCTATATGCCAGGCG
CTTTTCTAAGGTGATAAGGATATTGCAACAACAACAACAAAACAAAGAAGGCAGAAATCCTTGCTCCTTTCTAGTGCAGATTCTGTTTAAAATTCATTGA
CTCCTAAAGCTAAAGGTTCTTTACTCTTTGATTCTCTTGAATGATATACTTCAAAATACCCTCCTGACTTTCCAATACACAATCAGTTTTGAACCCAGAA
CAGTTTTAGTCAATTATAGATTATTTAAAGTAAAATATATCCTTAGTGATTTCTATAAATATATATTTTATATGTAAAAGGAAGAAATTACACAAACATT
CTTTTTACATATATGGCATGAGTTTTATGAAAGTAAATTGTAGGAGGATCCTCACCCAGTTTAGATCTCAATATTAATTAAAAATAAGTCATATTAAAGA
CAAATCAGTGTCAGTGGTCTCTGGTATATTCAGCACAGTTATTTATTTAGTAAACAATCAGCTATCCCTTTGAGCTGGTGGTCAGTCAGTAACATCTGTG
CTTCTGCTGTTGTGAGTCTCTTCTCTCAGGAATGTGATCTTCATAACTTTGTCAATAACATATTTACATAGTTTCCTTCCAATATGAAATTCCCTGATAA
AGATATACCTAAGTATAATATGATAGTAAGGAAATGGAGAGAGAGATTAACTGGTTCCTTCAGGTCTCAAATTAGACCTGAGGTTAGTGACAGATTTAAG
GCAAGAAATCTGGTATTTAAGAGTGTTTGAGTTTTCTCTTCCAACTGAATTACCTTCTAAGATGCACATTCAGATGTTTAAGAGACACTGGAAACTATTT
AATATCAGAGCTATTCTTAAATCCCAAGGTGACATATAATTCACTTCTCAAAATTTTTTACCTTCTTTGGAAGAGCAGAATGTCTTTGTGAACTATGCCT
ATGTGGTTGGTTTATTAGGAGTGATTAGCCGCAGATAAAAGTGGGTTGTGGTTCTGTGTGTTATGACTGTTGCTGAAGTTATAGGAAAAAGACCTTCGGT
TTAACTTTTTCTTTTCTTTTTTCTTTCTCTCTTTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTACTCTGTTGCTCAGGCTGGAGTGCAGTGGC
GTGATTTTCGCTCACTGCATGTTGGCCAGGCTGGTCTCAAACTCCTCGTGACCTCAAGTGATCCACCCGCCTTGGCCTCCCAAAGTGTTGGAATTACAGG
CGTGAGCCACTGCGCCTGGCCCAGTTTAACTTTTAAGGTCAAGAACCACTTTAGAGTGTTGGTGCTCATCCTAGTGATCCCAGACTCTTGTCTCAGTGCA
GATGATGCTACATGTCCTGTTTAGGATATGGTGGGAGAAGAAATAAGAAGGGGAACAGCAGGTTGGCCAGCAGCGTCTCCTATTAAGAGGAGTTGACACT
GATGACATTACCCATATCTCTGTTGTCTAAGTTACATTAATCATAAGAGAAGTGGTGCATTTTATGAAAGACTTGAGCTCCTTTCATTTGTGAATGAAGA
TAATAAAGTCAATAATACTTGGGGGTATGACTGTGGTGCAAGGTGATATAAATTAATTCATGCCCCCAAACAAGTGACTTTTGAGGAAGAACTTCTCATA
ATAACTAATATGTGTGTATAGGTGTGTAAATCCTGTTGAATAAATATAACTATAAAATTATCCCAGAGGCAATTGACTCTCACTCCTATAATCACATATT
TGTATAAGCATTGAAATAAAGACCCTAAAAGGTTGGTTATGTATTTATTTATTTATTTATTAGACAGACTTCTGCTCTTGTCACCCAGGCTGGAGTGCAG
TGGTGTGATCTCAGCTCACTGCAACCTCCGCCTCCCAGTCTCAAGTGACTCTCCTGCCTCAGCCTCCCGAGCAACTGAGATTACAGGCACCCACCACCAC
GCCCAGCTAATTTTTGTATTTTTGGTAGACGGGGTTTCACCATGTTGGCCAGGTTGGTCTCAAACTCCTGACCTCAGATGATCCACCCGCCTTGGCCTCC
CAAAGTGCTGGAATTACAGGCGTGAGCCACTACGCCTGACTGCTTATTTTTATAATATGCATTCATTTTGGTCAGAGAGTCTTTTATTAAATTTCTGAGC
ACTCAAATTTTAGATAGGTGATATTAAACCAATGTAATTTAGTCAATTCACTTCTAATTAAAAGCTTGTTTCCTTCTATTATATTACATAAAATTTAAGA
GATATAAAATATTCTGGGTAATGAAGTCAAGTCTCTTTCCTAGCGCCTGAGAAGGAGTTTGCCTCCTGGCTTGTTGAGACGAGTTTCTTCCACTTGGACC
ACCACCACCTCGGCCACAGGTCTACCCACCTTGGAGCCTGCACCAGTACGGAGAGACCGCAGCACCAGCATCAAACTGCAGGAAGCACCTTCATCCAGGT
GGCATACGGCTCCTGCTGGTTTAATGTCTCTTAGAGAAGTTACTTGCCAAAAATGAGTTATAAATTACAGGAGAAGGAAGGCTAACCAATTACATTTGGT
TGGAGGTCAGCTTTGAAGATGGAAAGGGTACATGGTTCAAATGCAGAGCAGTATAGGGGTTAACATCAGATAATTAGGCTTAACATCTGTTGTGTGGCCT
TATATATAAGTGGAAAGAGTGACTTGATGTGATCTCTGCCATTGTGACCTTAGATGGGAAGGGTTAAGCCCAGGATAAAGGTAGGTAATTTTATCTRCAT
TGAGATTCATACCGAGACCCTTAAATCAAAAGCATACAACTTGACATTTGCATTTGATATGAGATCCCCCAGCCCAGTCATTAGCCTCCCACAAGACCAG
CTGTCTTAGCGTTGTACAAAAGACAAAAGAGCAAATCAAAAGTAGATCATCCTAAGAACACCTAGATATGTTCAAACATTTGGTAATTTAAACTTTTCTG
AGGATATTAATTCCAATTTTTGAAAGCAACTTAAAAGCCAGAATTATCAAAACTAAAGAAAAGGTTATATTAACATCTAAAAAGAATCTTGAAGAAAATA
GCTAAGGAAAGTGCATTTAGAGGGAGATACTGTGTCCTTTTCTATTTAGAATAAAAATATTATACTTATCTTACTTTATTCAAATTCRTTAATTGTGAGA
ACATTTACCGTATGATTTCAGGTTTTTGAAACACATGTATAAGTTTTATCAATGACCTAATGAATGAAAAAATATCCACATCTATGTCGTATTATATGAC
AGCAATATCAGAAGTAATTTTCTCCTGATCGTTAGCCTGGGATATAAATAAACCACCATACTGAGACTAATAGAAATATTTCAGATGATAAGAATTTAAT
GACTGCTGACCTTTCTTTTTTGATTAAAAATTTTTAATTGGTTTCTTCCATATTATTTGTATTCTAAGACATCTATAGAATTGGAAACAAACTCAAATGT
CATTGTATATTTTATATGTCAGTATAATCCCACTCCATCCTATTACCTGGACTTTTGTAAAACTTGTAAATGAGACAAGAAGAGATTATGTAGTGTTTCA
TGAAAATTTCCTGACGGTTGAAATTAATTAGAAGTCAATGATCAATATTTTTCTCTAAAAATATTGGTCATTGACAATTGCTACAGCAGCAAATACTGAT
AAATGCTAATAGTATTATAGTTAACTATTGCTTAATAAAATGAATTATGTTTTCAGCGTGTATCATTAGAGTCTGCCCATTTTGCCAGTGCAACTTGCTA
AGTTTCCTGTCATAGTATAGGTAATGCTTCATGATTTCCTTCCCATAGAATGACTCTATGAAAAATCCACTCATGCCTTCTCAAATGCCTTTTATTCTGT
TATTCTTTGTTACTTGTAGTCAAATCCTATCTCCCCTGCTTTTCTCTTCTCTTAGTCAATTAAATGAACTTGAGGGTTTAAATTGAAATGATGACAAGGA
AGGAAGTTCCAAGGACTTTTAAGAACTTAACGCCCAAGGATCTTGTCATTCTTCTTTGTAAAATGGATCATCCAAATATTTACAATAGAAATAAGGAAAA
TACTTACAATAGAMATAAGGAATAGCATACAATTCCATTCATTCTCATTCTCTCATTCCTGAAAATACTCGTAGATGTCTTGTCTGGACATTCATTTTCC
TCACTGCCTAATATACTATCTCATAATCTCACTGTCCTATGAAAAGTACTGATGTAAAAATCTGAAAGCAATATAATTCCTTCATCATTGTGAAGAAAGG
AAATTCATTCTGAATAGAATTTGATCCCTTTAAGGGAAAACTATTTATAAGTAAGTGGCAGTAGTACCACCACTAAATACAGCTAGTTTTGGCTTGATTA
TAAATCACAGTCAAAACCTTCTTTTGAGTTTTAGCCCTGAAATTGCTTCCCTTTTAGCCCTTTTATTTATTTATTCCTTTCCATATCTTTTCATTTATTG
GGTTTGCTTTGAGGAAGGACTACATTGATCAAAAGAAATAAGAATGAGAAATAATAAAAATTAGAAACACAACTTAACTCATATTCCTTTATATATACAG
CTGGATAATTTACCCCTGGGTAATTTTAAATACAGTCTGGTAGAAAGCACACTGGACTGAGAATCTGAAGGGTCTTGGCCCTACCAACCACTCAGAAATG
AAATGTACTGTGTTCTTAGAGGCAAGTCATTAGCCTGCCAGAATCTCTGTACCCAATTACAAGGAGTCATTAGGAAAAAGGGGAACTATGACATAATTGG
AGGGGTAAATTAGATGGAAGAATACAAGTAGGTGCTTAAAAAATAGGCTTTAGAGAAATAGGAAAAGCTGAAATAAATCAGACCCTAAATGATTCCAAGT
TGACCTTGGAATTGACCCCTGCCTGTGTATTCAGGCAAAAAGAAGGCAGTAAACTTGGCAAAAGAGACTGTTACCTGATCAGACTTTAAGGACTTAGAAT
GGAGTCATTACGGGGATAATAAGAGCATAAGACCACCTTTGGGAAGAAGATTGAGATCTTCCATCACAGGCACATAGATAATTTTCCTCTGCTGTGCCAG
CATGAGAAAACCGTGTAAAGCCTTTCCTAAGCTGTTCTGCTTTACAGAATCCAAATTATTTCATATTCATGAAATTTAAACAGGAATCAGGAAATAAAGG
ACAGCGATGAAAAGCTGAAAACTGTGAGGGTCTCACACAGCAATATATGAAAGCACCTGTGAACTATAATGCATTTATWTATAATACATTGATTTATTGT
ATTAATAGTAAAATACAATTATTTAGTGTATTAAGAATGTGATATGACTAGGATGTTATTTATCTTGAGTTCATTAAATCTGCATTTATTAAAGATACTC
TAGTGTATTTTGCAAACTTGAAAATGAACACATTTTAAATGTTTTTATTTGAAAAAAATAGTAAATTGTTGAGATAGCCTTCATAATATATCTTTCTGAT
ATATTAAAACATTCAGTTACTGTAAGGCATTGTCTTTAAAAAGGCTACTTAGAAAAGTAAAAGTAATAACCTATTCACTGTATTATGTAATGAGAACTGC
AAACATTTGGGCCACATATACATTACATAATATTTCTTCACAGTAATCAGTTAGTCAATCCAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNGGACCAGCATCACGAGAAAATAGTCAGTGTTGTTATCTGTTTCAGATCCAAAGTTTCTTTCAGCTCATTATTTCCTAAATGCCAAGAACTTGTGAA
ATACCTAGGATGTGCTTTCTGAGGAAGATGTCAAAGAAATATTTTTATGCCTTACTTAATTGCATTTTATAATTGCTGAAGGTCATACCACATTTCAAAT
GTCCTCATATATGGAAAACTGCTATTAGAAGTAAGGAGAAAAGATGAAGTTTTAAAATACCTGGGTCAGTAGTTGAAGAAAAATCTCTCTGAAATGGAAA
AAAAAAATTGAGATAACAAGTGTCAGAGTGTCAAATTGACCTCAACACAAATTACACATCTTACCCATTGCCGAATTTACTAGTAATTAATGGATACAGA
CAATAGTAAGACCCATGCTTAGCATTCTTTCCTTTGAGAGGTCTATTAGTACAATTTTCTGAAAGTCCCTTTATTCCACATTAGCACATGTTCTGGTTTG
GATTTAGCATGCAGTGTTCTAAGCAATGCATGCATAATATTACTTGCACAGAGGGAACCATTTTAGCTCTGGAACCTCTCCAAATTATATCGTATTAATT
ATAAGCTTATATGGCAATCTCCATGCATCCATGAGCCCATAATTCTATCAATTTTAGGTTTATTTACAATAGGCTACCCAGACAGACCAAGCACATCCTG
CTTACATTGCCAATCTAAGATTGGCAAAAGATCAAATTGTCAAATCATATTTACGTAAATTATAGATTGTACCCAGTACCAAATTTACTAGTGCTTGAAA
GGACACAGGTGTTAGCAAAACACAGACCAAGCACTTTTCCCTTGGAGCAGTCCAAGATTGTCAACACAACTTTCGAAATTCCCTTCTCTCCCACATTAGG
ATGGAGTCTATTTCAGATTCAACATGTRTAAGTTTTAAGCAACACATGCAGAGAAATTTTGTCTTGGAATACCTCCAAAATTTATATCACAATCATTGCA
TGACTTACATAACATTCTCTAGTTCAGTCTTCCATGAATCTATTAATTCCACATTTATTTGCAATAAGCAACCTAGGCAGACCAAGTACATCTTGGTAAA
AGCATTTGCTAGAGGAAGATTCTCCATTGCCTTTCTCCTAGTTCCTATCATCAGTGTGTTTAGCATCAGCTCCATTGTTGGCATGTCCCTTTTTACAAAT
TCCCTTGTAAAAAGGTAATTTGACTAGATCATTTCCGTCACAAGGAAATAATGCAAAAAAACACACCATTATTTATGAATGATTTCATGGTCATTCAATT
TTTGAATACAGATCCACCAAAAATAATAGAGTACTGAAGTAAACATTATGACACTTACAGCTTATGTAAATTCACCCGCATCTTAACCAGTTAATCTGTA
AGCCTCTTTTAGAAAATCTGTGAGGAACGTAATTTTAGAGTACAGTGAGAAGGTGTTTAATTTTTATTAATTGGATAATAAGAAAGTTATCTTTCCTCTT
TGTTAACCCAGTATGCTTGATGAGTAACTGCTATATCCCTGCAACAGAGATTGTTTTTACATAATCTGTTTCATCATTTGGAAGTACAGTGGTTCTGTCA
CTGAACCTGAACCAATACTCAGATTGGCAAATCTATTAGAGAAATGATGGTTGGGTTCTGGCAAGACTGGCCCAATAACTGATGAATAATTTGTTTAATT
TTCTTTTAATTCTGTCTTTCTGGTGCTTTTAGTCCTGATTCTTGGAATAATCCAGTGATGATGACCCTCACCAAAAGCAGATCCTTTACTTCATCCTATG
CTATTTCTGCAGCTAACCATGTAAAGGCTAAAAAGCAAAGTCGACCAGGTAAGTAACTTAACTGGAGAAGGGTTCATACTGTGAGTGTGGAGTTCTAGAG
TAAACCAGACCTTAAGCGTTGAAATATTCTGAGGGTGCCCTATATTCAGATATGTTTGGTTTGTCTGTTCTAATAACCAATTAGTTATTTTTTAGAAGTC
TCAATAACCAATTAGTTATTTAAATTTCTACCTTATGTGATGATACAGATTCCTTCAAAGTTGTTGTATCAGATTTCCTATCTTGAACTAATTAGATGCA
TAGGAAATCACTTTTACCATCAAGGATCATCTGTGGTAGCATCATCTCATAATAGAAATTCCAATTTTTTAGTGTCTGTTAAAATTATTTTTCAGGAGTA
TGATATATATGAATTCAAGAAAGTGTTTTATTTACTACACATGAGCTATGATAAGGAATTTAGATATCAAAATTAAGAATAATAAAGCTTTAAATGGGAA
CATGAAATGATATCRGGGAAGACTACCTCATTTGTTCAGGGTCCTTGCTCACCCAAAACTGTAAAAGGAGTTTTTGTCAGATTCYGTCTCTGAATTGCCT
TTCCCCTAGAAGCCCAAYTAAGAACCTGGGAGATTTCCTCTGACCTTTCCTTTTTGGAATCTAACTTCATGGTTTCACTTCTCAGTATTACAGAAAATAT
CAATGAGATTTTCAGTAACTTCCTGCTTAGTTTCTTAATCTTCTGCCTTTAGCAGTTTAAGAGTTCATCAAATGGTTAAAAGGAAAACTGCCCACTTCCC
ACTGAGATATGAAACATTCAAGTTCWGGCTTCCATGGCAACCCCAAACTCCAATTTTTATGTCACCAGCCTCATGACATTGCTAGAAGCTCTGCTGGCTT
GCCTCCCAAATAGCTGCACCCCTCTGTCTGGATCCTTCACTTCTTACTCCATGCCAATAGTCAGTAAATCATGCTATGAAGGSAAGAACAATTTGCAGGA
TTTTGGCTCACCTTTCTGAGGTTCTCTTCTTTATGGGAACCTAGTCCCTCAGAATTGTGTGCTTTGCCTCGATAGCTTTTTTGTACCATTTTATTGGAAT
TACATCAGTAAAATAGACCATTAAGGTAATCTACTTTTCCAACAACTAATCTGGTCCTCTCTGCTCTTTAGAAATGTTCATTAAATTTTGTCACTTAGAA
GTCATTATTGACCTGCTAATAAAATTGAGCTTTCATCAGGGCCAGGCAATGTAGGCTAATGTAGGCAAATACTTAAATTGAGATATTCCTGAAGGCAAAT
ACGGATTTGCTCAGTAATAAGGAGAATCATCTGGGACCCCAGCAAGGTAGAGAAACTGCATTTGAGAATTCCACATTAAACCCAAGACTCTTAAAGGGGT
GCTAAAGTGRTTTTAGGTATGTAGGACCCCTTGGCTCCCTACAAAAATATATATGGATACTTTTGGAAGGGAAGCATCACCAGTTAAGGGCCATGAGATT
TTATCAGATCAGATTCAAACATGGAGCTTACAACCAGGATCACTAATTGCACAAAGAAACACCATGAGTTTGAGTTAACAGAAACAAAAATAYAACTTTC
TAGATCTGTAAAAGGGTTAAAATATTTAAAYTAAAATTTAATTTAAAAATTTACATATTTAAGGAAAAATAATAGCAATGAGAAAAGACATAACTGCAGA
GCAGCTAAATGTAACTTTTGGAAATGTAGTCAAGGAAATATTAAATAGCATAGTAGACTACTGAAGAAAGAATTATTAAACTGGGTAGAGAAAGATCGGA
AGAAATTATCCAGAAAGCAACACAGATGAAGAATTGGGAAGTATAATAGATTTTAGGAGATATAGAAAAATGAGTCTAATGTACATGATATATGTAATCA
TAGTTTTAGTAGCAGATAGAAGACAAAAATACTTAGGTGAAGCCTAGTAAATGGAAAGAAACTCACACGTAGATACAAAATAGTGAAACTACACAACACC
AAAGATATACACAAACAAAAATCCTAAGGTCTACCAGAGAAAAGACAAATTTCCTTTTCAGAAAAGGCAGTCAGGCTGAGAGCAGAGTTGTCAGAAATAC
TGGCAGTCAGAACACAGCAGAATATTTTCTTCAAATTTCTGAAACAATATGGTAACCTAAAATTTTGTGCCTGGCAGATGCATCTTACAAGAATAGGAGT
GAACTAAAGACAATTTGAAAGAAGTCAAAACTTTACCACCCGCCAAATCTTTACTAAAGGAATTTATGATGGATATATTCTAGAAAGAATATATGATGGA
TATATTCTAGAAAGAATATATGATGGATATATTCTAGAAAGAATATATGATGGATGTATTCTAGAAAGAATTTATGATGGATGTATTCTAGAAAGAATTT
ATGATGGATGTATTCTAGAAAGAATTTATGATGGATGTATTCTAGAAAGAAGAAGAAGAAGAGAAAGTTTGAGATCTAATGAAAATGTTAAACAAATCTG
AAAACCATGGGTCAATCCAAACAAACATTAAATTCATAAATAATAGTATTTCCAGATTTGTGAATAGTTTTTATAAGATTTTTTAAGGACAGAACTAAAA
TTTCAGACAGTAATAATACGTAATTCAAGAGATGAAATATAAATTTAAGTGTTCTAAATCCATGTGTAGCTCAAAAAGGGGGTTCAGATGAGGAAACTGA
GGGAAAAGAAGGTTAAGTAATTTGCTTTCTCTGGGTCATGCAATTAATCCTGAATACTTTCTTTTGTCCTAATGACTTCATACTAGAAAAAAATGAGGAT
GACAAATTGTCATAATTTAAAACTAGGATATTTTGGGTTCTGTCCTTGGGTGGGTACAAGATAATGGAAGGGTTTGGTTTTCTCTTCCTGTTTCTTCGGT
TAAGTAATAACATAAAAAATATTGAATAACCAACATGATAAGATCAAGAAGCTGAAAATTATGGTTAGGGCAGACCCTGGAAATATCAGATCAAGTGATG
GAACAGCCTCATATTCCTGTGTCCTGATCCCCAGTTTGTATGACTKCACTCTAGAAGAAAGAGCAAAGGAGCAAAATGTAAAAGGGAAGGAATGTCCACA
TAAGATACCACATGGGCAGGTGGTAGGAATGAGAGCCACAGGCATAGCAAGAGCCCCCTTCCATTCTTGCCATCAAGTGCATAAGGCATTTCTATCATGA
TCATTTTGGAGYGGATTTTGCATTGTGGCATCTTTAGACAGCTGTCACAGCACAGCTAAAAGTTTATAAAATAACCTATATCCCAGGCATGCTGAATCCA
ACTAATTAAATTCCTAAAGTTCAGCCAAAAGAGACAAACACATCTATCAAGAATCAGAGAGCCTAAAGAGATTACAACCCTCCCTAATCAGATGGGCCCT
TCTGCTTTAAAATCCTTGCTTCCCTGTTTGGGTTGATGGAGCTAAGTGGTTGTGACWTGTTTGATGCAGTTGACTGTGATGCATCCTGGTTTTCCATAAA
CTCCATGGAAAGAAGCTGGGAAGAGCCCCCTCGTGGCAAAGAGTGTAAGCAAATGGAATCAAATGAAATGTGAAGAGAGTCTGAGGAAACATGTAGCAGC
AATAGGCAATGAGGCGGAGRGAAAGCGAGTATGAAGTAAGAAGAGGCATACAGAAAGATAAATACCCTGTTTCCAGAGAGGGCTAATGAAATCTGTTCTT
TGCGCAAATCAAGTAAACAGYGTGTCCTCTAGTTCAGTCAATCAATGTTAATTTTAAATAGCTGAAACACAAATTATTATGCAGTTACTAATATAAAATA
AATGAACGAAATCACATAGGACTCCTTTAATAAAAGCTTAAAAGCAGGAGATTCAAATATAATTTGTATTTTCAATTTTGCTCTTCTAGTATGAGTCACT
GACATTGTGGAGCTACCATGATATTATTCTGCTTTAAAAATTCCTTGAATTTATCGTTACTGTATTTGCAGTAGTCCTTTCCCGGATTCTTGTAAGTTTG
GCTGCCGACTGCAGTGATAAGAGATATCTCTACACCTATAATCTAGACTCTGTTTTTCCTATACAAAATTTGAAAATATAGAGAACTTTAATCATGGTAT
TGTGATTMTTYTTCTTTGGCATTCTCTTTAGATGCAATTTCTGCTTTGGAAAAAATATTCGGGCTATCCATTTTCACCTGGGCATGGAAAAAAAGAGATG
TCTTTATCAGACAAGCTGGTTCCTTTTTTGTTCCATTAAAATTAAACTGAGAGAGTTTTATAGCACAAAACAGATGGATTCACTTAAATAATTCCCCTGT
AGTATTGTTTATTTTCTCTCTTTGATTGCCCAAAATTCCTTGTGTCTTGACACACATTTTCTCATGCTCTCAGGAACAAGGAATTAAAGGCCGAATTACT
CAAAGGAGTTGGCATTTTAGACTTTATTTTTAAAATTATATTTTTAATTTTTTGTTTTTAAATGTTTTGATTTTAAGTATTTCACATTAGGACAGTTTGA
ATCATTCAAAAATTTATATTTCATGAGCTATGTCTTCTTCCTGGAATCTGCTAAAATTACTCAAATATGAAGTGAAGATAAACATTAATATACTTGAGAG
AATGCATGTTTATCGGAATCTCTTCACTCATGGGTGAGTGTGTAAATGTGTGAGTGTGCGATGTAAAATTAGATGAGATTTTCAAAGGTTTTAACGGTCA
TCCCTCTAACTTTAGACATGATTACATTGAAAGCATTTTAGAAAATTTTAAAAACTTCCAAAGGTTATTCATCCCTATTCCTTAGACTGTCCTCTTTCTG
TATCTGAAATAATTTATTTATAGTTTATCCTTTCTATAAAGAAAATTTGGTTATTATCTGCATTTATCTCCCTATCTTTTTGAAGACCGATACGGTCTTC
AAAATATGCATGCACATCCTAATTCTTTCTGTTTTTAAACTTTAAGTAAACTAAGATAATGCACACTAGGAAAAATAGTAGTTTGGCTTTGGAAAAAAAA
AAAAGAGAACTTATACTTTTATAACTTTAGCTTCTCACCTGCAGAATAGAAATATCCATGCTTCTCATGATTGTTGCCAAGAGTTACACTTTTTTTATAT
TTATTTATTTATGTATTTTTTGTGAGATGGATTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGCAGTGGTGGGATCTCAGCTCACTGCAACCTCTGCCTCC
TGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGTGGGATTGCAGGCATGCACCACCACATCAGGCTAATTTTTGTATTTTTAGTAGAGATGGGG
TTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCCTCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACCGCG
CCTAGCCGAGTTATGCTTTTAAAAGTGTTCAAAATATGTAGACAAACACTATAGAAGCAGAGCTTCTCTCTTACAGGTTTATTTTAAATTTCATCCCAGG
CAGTAAATTTGATGTCTTAAAATCTGCTTGTTTGTTTAAATTTAGTTAATCCGTGAGTTCCAAGAACTCTAATGGTTGTGTGAATTTTAAAATGTGTGTT
TGAGAGTGAATTGCATGTATCTGAAGCAATCAGCTGGCAGCTACTAAAACTTAGCAATGAAAAAATCACTCTTCTCATAAATTGCCTTCAGAAAAAACAG
GGTGTCAAGACAGAAATGGACAATGTTCTCATGGGCTTTGAACTATTGTTCTGTTAAAAAAAAAAAAAAAAAAAACTGTGTAGAAAACTGTCCCAAAACT
CACAGTTTACTATGAGAACAGCTAAGGAATTGCCTAACACAGTGTCTATCAGGAATCTCTTTTTCTTATGACACAGCAATTACTTTTAATTGCTGTTTTT
GCAATTACTTTTCATTGCAAAAACCACAATTACTTTTGCACCAACCTAATAAAACTTTGCCCTGGCCCTACCCAACCCTATCCAGACTTGCCCAGCAACC
TCTCTGACCACGTTCCCTGCCCCTCTTTTTGCTTTTTGCTAAGCTGCCAGCCACTGACCTCCTGACTGCTCCTCTGACATCCCCCAGGTATGTCCCTCTT
TCCTGAACATGCTTTCCCCAGCTACTTCTCTAAATGTCTTCTGTATTTCATGAGGCCTCTATTCAAATTTTACCCACCCCCACCCTTTCCCAGCCAGAGA
GGCCTTCTCAGTCCATCTTATCTAAAGAGCATTTCTGTTCTTCCCTGCCTTCTACTCTGTGCATTGTTTTCTTCCTATTACTTGAATTTAAGTTAATTTT
CTTTTTTATTGACTTTAGTTTTTAGTTTCTGTCTCCCCTAAAAAAGTGGGAGCTCCRTTAGAGCAGGGTTTTTATTTTATAACCTACTCCATCCGTGGAG
CAAGACTCACAATAACTACTTGTTGGATGAAGAAATCATTGAGATACTCAGTACAGATACCTCGGTAAACTTTCTACCACATCATACTAGGATTCAGCTC
CTTAACGGCTACAGTGCCTTTCTAAGATTATCTGGAGTCCCTGTCTAAATCCAAAAAGTGGTCAAAACTAGACCAACCCTTTTTAACCTTTACATCAGAG
CACCCATATATGTGTAATAGTATTTGTGAATATCGTAGCATTAGAGAAATGGGAAGGGATTTCAAGTTTGAAAACTAGACTTCCTTTATTTTATAAAATT
ATAATAAGAAAAACTAATTATGAGCTATTAGAGATAATATTAAAAATTGAGTTTTTTCTAGAGTTTCCAAATAAAATATTTCCTTTTTTAAAAATATTTT
CAACCATTAAATAATTCACAGCAAACTTATAACCCACTTGCTGTGCAGAATCATACATTGACTGGGAAATTCTGAGTTAAAACCTTTGTGAACTTAATTT
TTTGTTTTGTTTTTGGCTCAGGATACTATGTAATGTGAAGGTTTGTCGTTATCTTTGGAAAAATAAATGAGTCTTTTTAATAGACGTAGAAACCGAAATA
AAAACCATCAGGCATGACGTAAGGAGCAATGCAAACGCTGCCTAATACGCCATGGGTTTTACTTCCCCCTTGGATAGTCTCTGATAGAGGTACTGGTTTA
TAAGCTGCATTTTACTAAGAGTAGCTGGGTTTACTCTATATTCTCCCATGTACTAGTACTGTGACCTTGGGAGGGTTTTTTAACCTCTCTGGGTCTAAGT
GGTTTCGTTTGCTTAGTATAAAGGCTGGGAGGGGGTTGAGCTGCTGATTAGGAACTAACAATAGATATGTTGAGAAAGAACTAGAAGGGGTTGCTGCTCT
TCACACTGAAGCAAGGGGAGAGTGAGATTTCTCATCTTTAACAACAACAACGACAAAAAGAAATAACAGCGCCAACAAGAAATTRAAAAGAAAATTACAC
ACGAACACACAAAATCGTTCAACAAACTTAATATTCTTTTCAGTGGACCAGAAAACCTTTGGTATGACAACTCAAACTTTTGAGGAAGCTGGATCCTGGA
AGCAAACTTTGCTGTAAGCCAGCTGCCAGCTAACCACACACATAATTTGATGATGTGAAGGTGGATGGCTGTAAATGTTCCTAAGTGGTGAGAAATAGAC
AACGACTTTTAATAATTTCATTTCATTTGCCCTACATTACATTGTTCAGCCATAAAATCATGAAAACCAGTAAGCAGGTTGTTAGGCAGAAGTTATTTCT
CTCCTTTTTTCCATTTTAACTGCAGGCTGCCTTCTCTGTGTTTGGGAGAGAGTAACTTCAAAAGACATCGTCCTGGTCTTCCAACAGCCACGTTTTGAAA
TMTAAGCCAGTATCCTGTAAAATTCTTACAATCTAGAGTAAATACAGACAGTTTGGCCCAAATACCCATACTTGAAATGGAAACTTTAGGTCTATTGTTT
GCTCTGAAATGGATTATATTACATTTTAAAATGTTTTCTTCAAAAATTATTTTGATCAAAGCACTCTTTCACACCGAAAGGTCTTATTTCACTGAAACTG
CGAATGGTTAAGAAGGTTAATTTCCTCTCAGTAATGCATCTTCTGTATTTACATATTTTAAGCATCTGATGCCTGCTGAACTCTGCCCCCAGATACTGGT
TAACGTTTAAAACAATAGCAGATCCTGTTCCTGCTAAAACCTTCACAACCTAAGAGAAAGTAAACACATGAGAAAATTTTAACTATTATTTCCATGTCAG
AATGACAAGAAGAAACAAAAATGGGAGGAGAAAATAATATCCTTCTGTCCTGAAGTTACTCCACGACACCAGGGCTTTGGCTGTATGTGCCAACATTGCC
ACTATTTTTTTTATGATGATTCATTCCTCCCATTTAATGCTGTGGAGACACCCCAACCACACTGGCTTCAGATGTTGGTATGTGGAGGAGGCCAGCCCGG
TGACCTGAGCAGGCACGTGGTTGTTACTGAGTTTGTAAGAGTCCAGGTGAAGTTCAACAGTTGCAATTTTGCATTTTAAAGACATTTGTTTAGTTACTTA
ACTCTCATTCTTTCTCAGGTGCCCTCGCTAAAATTTCACCTCTTTCATCGCCCTGCTCCTCACCKCTCCAAGGGACTCCTGCCAGCAGCCTGGTCAGCAA
AATTTCTGCAGTGCAGTTTCCAGAATCTGCTGACACAACTGCCAAACAAAGCCTAGGTTCTCACAGGGCCTTAACTTACACTCAGAGTGCCCCAGACCTA
TCCCCTCAAATCCTGACTCCACCTGTTATATGTAGCAGGTAAGGATTTTTTATGAACTGAAGTTTAATAATAAAAMYGATGATAGTTTTCCCCTAGAAAT
ACCTACCACCAGCCCACGCAGCTTGGGGTAGGTTTGCCAAAGTATTAGACAACCAAGTATAGGATAATGTGATTTGTGTTGAATAGGCTACAATAAAAAC
TTATGTTTTAGTAGTTTTCTATTAATGAAGTTTAGAATCCATGCAGTTCATACAGCCAATCTTTAGAGAGGATACAAAACTGTTAGCTGTATATGTTGCC
TGTTTGCTGATGGGGAATATAGAAAATATATAACTAAAAAATGATATCAAGTATTCTGTTGTAATTCTTCATTTTGTTGGAATGTTTGTACTTGTTCTCC
AGGGAATGGGTTACATTGATATTAGGCATATTTAATTGTCAGTTTGCATTTCCCATTTTTGCAATTTTAAAATGTGWGAATAATACATTGCACAGGATGG
CTGGACTCAAATAGTTCTCTGAATGAAATTTAAGCAATTGTATGTGCTATTCTATCATGTTGAAACAAAATTACAAAGTGTTATCTATCACAGAGKTTAA
GAAAAAAATGGCCTAGCATGGCTGGAGTAATTATTTTGCCAATGTTGTCACGAAGAAATAATTATCTCTTCTTACTGGTTAATGTATTTTTATTGTTCTT
CAGTAACAGCTTGAATAATTTATCTTAAAGCATTATGRTATTTTTTAAGTAGAAAAACAGTTGAGTGTTTTTAACTATGAGAGTACCTTGAATAAAACAG
TATTTCATTTCTGAGGTTGATGAGGATAACTATTTGAATAAATGAGTAACTTGTTGGTTTTCTAGTATCAAATATTACCTCATAGACTCAGATTTTTTCA
TTGTATTCAGCTTTAAGAAATAGCAACTTATATTAAGCCTCATAATTTTCATTTTCATATTTTTTACTCATAAGTTCTGTAAATTAAATGAATGTTATTT
ATAATTTTTATTTTTACCTCCTTTATCTTTACCGGCATTTTTACATGAGAAATTATTTTCATTCGTTTGCCCAGAGCCAAAGTTATTCTACTATGCAAAA
GTTATTCTGCTGCCCTCTATGAGTTTTTTAATAAAATAATTTCTGCAGGATATTAATCTCATCTCTTTTCCACAAAAGAGCAAGTTCTGTAGTAAAATAT
TCAGAAGATATATCATACATCCCTGTTAGAAATTCACAACACACATGGCTTTATTAAAACCTCTGAGAAGCTCTGTTAAAAGAATCCCTCTTTATTTATT
TTTGTTGTTTCATTTAGTGTTTTCTGAATTTATTCGACCACAGAACCAATTTCTTTGGGTTAACACCCAAGAATTGCCCATGGATCGAATGTTTGGCAGA
ACACAATTAAGAAGCATTGTTTTATTGTATGCACCCTGAGCCAAGATGAAGCCCAGTGGAGTAATCTTCATCAAGGACATCTGGGTTCAGCATTTTTAGG
GAGAGTCTCCCACTGTGGGTTCCGGACTTTTGGGAAATAAGTCCCCTAAAGAAAGGAGAGAGATGTTCAGAAAAGCTCTACCACTCACGCAGCTTTTTTC
ATCATAGTGTATTTTTTTTTTTTTTTTTTTTGTATTCTTAGCAGGAAGAATGTAATGGGATTTGTATAAAAGGTTTCAGAGAAAAACAAGAGGATTTCAC
TGTCTACTTGTTCAGTAATGTTTATAAATCCAGTAGTGTGTGTTTTATTTGTTTGGGCTTTATAAATCTGTAATTCAAACCAGGTTTTATTATTGCCTTA
AAGGCAGCCACCCATGTAGGCACAGAGAGCTCCAGAAACACACAACTAATTGTTGTGGTTTCCCCTGCTGAACTTGAAGAGTTTGGCGTTGAATCCCAGT
CTCTTGGCTGCTGTAATGTCTATGCAACAAGCTATTTTTCTGGCATGAGAGCTGGCATATTTGAAGTACTAATTTAAATGGTCCTTTTAGGTATTATTTT
GCAATGAAAAAGTTTAAGGCTAATAAACTCGACTTCTCCTGAGCTTCGTCTGAGAATGTAAGCCTACCAATTGCATCTCCTTTCTTTTCCCTTTTTGTCC
TATCATTTTCTTTTTATTCTCTAACCCAAACTGACAGATTTAATAATTAGAAATATTTTACAGGTAACGTTTTTCTATTTACACTCAAGGGTTGAAAAGT
AAARTTACTTAGTATGCAGATACGGTCTACCTACCTCTTCTCTTAGTGCACACACGAGCACAATTCAGGAAAAAAAATGATGAGTTATTTAAGATATTAA
ACAATAAGCTATCACTACTTTTTTCATTTTAGAGTGGGTAGTCTGTGGTTAAATAACAAACAAAAAAATCCCCTGAGACCCTTTGTAATATCAGTCAGAA
GGAAAGAACCCAGCAGCAAATGCAGAATCAAAATCTAATCATGAAGTTTCTAAACAAGACAGAAGAGGGAAGAGCCAGTTTATGGCCTGTGCCAGGCCAT
TTGTGGGGTTACTGTTTAATATTTAAAACAGTCAAACTTCATTCCTCCAACACCCTCTGTTAGAGGGCATTGCTCACCTCTCTTACCTTTGTTTTTCTTG
GTGGTTTACGGTACTTCTAGGGCCTGTTTCTCTCAACCAGCATCCTATGTAGTCAGTCATCAAAATGCACCCCTCTTTTGTTCATTTCCTTAGGGCCTTA
ACAAGTAACTGATCGATCTGAAAAAAAGAAGTCAATTTTTATTTTTTAGCAAAACATAAAATTCATATACTATCATTCTATTTCAACCTATGCTGTCTTA
AAGTTCTGTTTAGACATAAAAATATCATAACCCAATTAAATAAAATAAATCTAATAATGAGGCTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTT
ACCCAGGCTGGAGTGCAGTGGTGCAATCTCCACTCACTGCAGCCTCCATCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCCAAGTAGCTGGTAT
TACAGGCATCCACCACCCTGCCTGGCAATTTTTGTATTTTTAGTAGAGATGGGATTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTGAGGTG
GTCCACCTGCCTTGGCCTCGCAAAGTGCTGGGATTACAGGCGTGAGCCCATAATGAGCTTTTAAGCAGCCTGGCCCATAATGAGGCTTTTAAGCAGACAG
AAAGGTATTTATTGGGGAAGATAACTTTTGTCTAAATATAGGTCAACACCTGCAAAATGGCTACTATAAGTAGGTAGCAGCCTATACCAGTATTCTCTAA
ATAATCTAACAAAATTTTACCATCACTTTCACCTCAAATATGATCTAGATAAAGGAGGAGGAGAATGAGAGTCAAATGAACTTTCTAATCCTTTGTATTG
ATTACTCTCTCACAAAAAAGAAAGTAGTACACTGCATATCAGCATTTATGTATCAAACAAAATGCATATTTTCACAAAACAAATAAGCAGAAGGTAGAAA
TATTTGACTATTGTTGTTTATCTTAATGTATACATAGATGGTATGTGCCTATGACTTTTTGAAAAGAGGAGGCTACACCTATAGCTCTTCCAATATTTTT
TAGCTGTGGCAGACCATATTCCCAAGGGAATCCTGCTGATGAGCCCCTGGAGAGAAGTGGGGTAGCCACTCGGACACCAAGTAGAACAGGTAATTCATTG
TTTTGGATTCTGTTGCCCAAAATGGAAATTGCCTTATTTTTGTTTTCCTGATCAAAACAGTGAYCTACATTTCTGATATTTTGKGGGGCGCTGGGAGAYG
GGGTCTCATGATGTTGGYCAGGTCGGTCTCAAACTCCTGGCCTCAAGTGATCCTCCYGCCTCAGCCTCTTGAAGTACTAGGATTACAGGCATGAGCCACT
GTGCCCAGCCTGATTTTTTAAATTATAGATTTAAAAGGACAAGGGAGAAAATTAAAATCATCTGTACTCCTACTCTCTAGAGTTAATCATTGGTAAAGTT
TGGGTGCAAAGCTTTCCAAAATTTTTTAATACATTTATACATGTGTATATTTTTAAAACACAAGAGGCCATTTTATATAATATATAGAACTATATAGAAA
TATTATTTTATCTTGCTACTTCTGACATTGGAAGTACTTTAAGTGGTTCCCAAAACATAGCAAATACTCAATAAACTTCCTTCAGKCACCTTAGTCAGCT
ATGAGAAATGTCACAGTTGCTCAGAGAGGATAGACTTCAGACTCTGGGTGTTTACTGATTGGTCTTTTAGTTAGCACAGTTTACTGCTGACTGAAATGGC
GACAGTGAAGAAGGACAGATGAGGAAGGAAGCCACAGGATTCCAAGAAATAGGATTGGATACATAGGATTGCCCATGCTCCCAAGCATATGCCATCACTC
TGTGCTACACAGAGAACTTTATTCCTGGGTGTGTCAACTCAGTTTCTCCCACCTCACGTGCCCGTTCTAGAGTGTTTTAGTCACTCAGTGGTTTAATGTA
TAGGGAGAGAAATAGAGAAAAAAGAAACATAAAGCTGTAGGATTTGTTAAAGGTATGAACTGTTGATCTAAAAAATATTATTGAGGGGTTATTGAATGTC
ATGCGGATTACAGATTATAATTTCCATCTGTTTTACTTTGTTAAGAGATGTGTGATGTTCTCCACCCTATGATCCTATGTTCTTGGAGTGCTCAGGAAAG
CAGTATTTCCCTAAACACTATATTTACCATATGCATCTTAGCAAAATTTGCTTAAATGAGCCCYCTTTCCCCATTGTAGATCTTGTAATAAGTTGTTCTC
TTTTAATTGTAGATGACACTGCTCAAGTTACCTCTGATTATGAAACCAATAACAACAGTGACAGCAGTGACATTGTACAGAATGAAGATGAAACAGAGTG
CCTGAGAGAGCCTCTGAGGAAAGCATCGGCTTGCAGCACCTATGCTCCTGAGACCATGATGTTTCTGGTAGTCCCATATCACTTAACTCACTCATTTACT
TGAGAGATGAGCTTCTGTTACAGATATTGGCTCAGAAATGAATCTTTGAGGCCAGGCAAGGTGGCTCACACCTGTAATCCCAACATTTTGGGAGGACGAA
GCGGGCAGATCACGAGGTCAGGAGTTCGAGACCAGCCTGACCAATATGGTGAAACCCCTATCTGTAATAAAAATACAAAAAAATTACCCAGGCATAGCCA
GGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGAGTATCACGAGGTCAGCAATGAGTTCAAGACCAGCCTGACCAACATGGT
GAAACCCCGTCTCTACTAAAAATACCAAAATTACCAAAATTAGCCGGGCGTGGTGGCACGCACCTGTATTCCCAGCTACGCAGGAGGCTGAGGCAGTAGA
ATCGCTTGAACCCAGGAGGTGGAGTTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGCGCAATAGAGGGAGACTCTGTCTCAAAAAAAAAAAA
AAAAAGAAATTACCCAGGCATGGTGGCAGGTGCCTGTAATCCCAGCTACCTGGGAGGCTGAGGGAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCA
GTGAGCTGAGATCATGCCACTGCACACCAGCCTGGGCAACAGAGTGCCACTCTATCTCAAAAAAAAAAAAAAAAAAAGAAATTAATCTCTGAAACATGAG
ATTTACAGATGTATTTCATCCGGATTAAACATGTATTACAGCCCTTCCCATACATATCAATATATTTTTTCTCTTTCCAAGCATTATTGGTCTCTTAATG
GTTCTATTATCTGGTGATTAGAAGCATAAGTATTTATAGTTATACAATAATTGCAGATATTTATTAACCCAATCAAAAAGTAAATATAGGAAAATGTATT
ATTTCATTCCTTAAAACAATATTTTATAAAGAAAGAAAAGAAAGATGAAGGAAGGGAGGGAAGAAGATATTCATTGTCTTAGGGCATCTGCTGGTTTTCT
CTAGTATCTCCTTGACTTAGAACATGAACCAATATTTRTTTTTCTTGTCATATTKTCAGGCATATATTGGCACTAGCCACCTATTAAAATATTCTTTAAT
GATTACTTACTTTGTGTATTTAAAAAGATCCATTTAAGGAGGATGGAAGCATATATTTGAGTCAGCTTCATTTTGGGGAGGTGGCAAGTGGTAGAAAACT
GTTGACTCTCAAGTGATCATCAATGGCTGCTATTATCATTTTTCTTTTACTGTATTTACTGTTTGTATTTCTAAGTCAGAGAGATCGTCAGGTAAAATAA
TGTATATGTTTCCCTATCCTCATTCTCTTTCTTCTTTTTTGGCAAATGTACTCTTAAGAACATCCTCGTTTGGGACCAATTATAAAAAACCTTTACTTTT
ACGTAGTACATGTTTCTCAAGAAACAGTAGGTCACATGAAATAAATTAAAATCCCTAAAAAATATGGCAATTGTTATTCTATAGGATTAATGTCCATTTT
AAAGCATTAATATAAACTTRATTAATAATAGTAGGAATGATCAGGTCCTACTACTCATGGATTTCTTTTGAGAGCTTAATTTAAGGAGGGAACCCTYATC
TCAGAAAAATTTACATGACTATGTAGAGATATAAATTTACATGTAATTTCAGAATATTCTGAAGTCTTTAAAACTTTATTTAAGAACCTTGCAGTAGTCC
CAAAGTAGTTATACTAACTTATAGAAGAAACATCCGTGTTTTTGCTGGAGTGTATATGGACCAGTGATAGGCAAGCACCTAATAGTGCAAAATTTATATC
TGAAATGGCATTTGTTCCTTTCCTTCTTACTTTGGCGTCAATGTCTCGTTCATGTTGACTTTTTTAAGCAAAGATCACTTATTCACCTTGGAGTTTTAAG
TCATTTATTTCCGATAGCCACAGTTGTTATTGAATTTAGCAAAGCACAAATTGCCCTGTAGAAAAACTGCATGCTGTTTAAGTATTTTAATGTTAAACAT
TACAGGACAAACCAATTCTTGCTCCCGAACCTCTTGTCATGGATAACCTGGACTCAATTATGGAGCAGCTAAATACTTGGAATTTTCCAATTTTTGATTT
AGTGGAAAATATAGGAAGAAAATGTGGCCGTATTCTTAGTCAGGTAAGAAATGCATTCATTCACACTAATTKAAATATAGGAAAAACAGTTCCTTTGTTG
CTTAAAGCTCTGTAAATTCTTGACACTTGTGGATAGGTGTTATGTGGAGAAAGGAAGTTTTAGAACACAACATTCTGTAGATTCCTTGCTGTGTGTTAAC
AAAAGAAACTGGAACTTCAAGTGAGTCGARTGTCATATTCTACAATTAAAATATGATATATTTTTAAAGACAAAGTAGGTGGGGATAGAGATATATAGAC
AAGGGACAAACGATCTAGAATTCATAGAATTAAGCAAAAGAAAATCTGACACAAGCCTCTAAAAGAAGAAAACTGCCTATTTAGAGATACTAATTTATTG
TCTGTAATTATTTTTGATGACTTTTTAAAAACTTTTGAATATTACAGAGCTTAGGCCTTATCAAAGATAATACATTGTGCCAAAATGTGTTTCCTCCTAG
TGTTATGAAAAACACATCACATAGAGTTATAGAATAATACTGTTGCTGCATAACCAGCCTTTGAGTATTGTTTTCTTTAGGCTAGACTACTCTCAAGGCT
TTTCACATAAATAATTACTTGTTTTGCTGAAGAAGAAAGAAAACATGTAGAAATTAAGAATTTGAAAATGTTTGTTTTAAACCATAAAACAAAATGATGG
ATTTGCTGTACTATGGAATAGCTATCGAAATACACACCCTTAATTAAATAAAGAGGATGGTGYGATAATATGTATCAGCTTATCTTCACATGTTTTAGGT
GTATTCTTATAAATTTGAATAAGTATCACAGCAGAGATAGTAAAGACCATCAAACTTGTGAATATAAGACTTAGGTAAGAATTCAAGACCCAACCCAGAT
CTACTGGGGCCACTAACACTTCTCTGCAAAACAATAGAAGAGAAATCACTGAAATGCTGATTTCTATGCAGTGCATCAGAGATGAGCTTTCTTTGGACCA
CTCAACACATGTCTCAATGTGGAACTTCGTTTGGGGTGAGAATCCTAATCTGTGAAGATTGAAGGGAAAAGATAGCAGGCCTTTCTTCTAGTGTTTGATT
CTACAAGCACATATGGCTGTCTAGTCTAGGGGTACACTAACATTATTGATGGAATATAAGACACAAAATTCTTACAAAGTCTGTAAAATATTCAATTATT
GCCTCTGCTAGACTCTATTCTGTCCATCACCATGTTGAGGAATATAATGGCAGCCCTTGCACTTTGCTAGGAGTTGAGAGTCCTGTTCCTCTTCCCTTCC
TTTCTTCTTGGTGCTAAGCAATGTCTCTTACACTAGCTGATCTTCAGGACAGATTTAAGGGTAGCTGTTCAGTCCAATTCACCTTAGCCTCATACTTTAG
GGATCCCCCTGGGAGATTGTGTATTTTCTTTCTGAAACCCATGGAAAACTGCAACTTTGAGGGAGTGATCTTTCCTGCAAATAAGCCTGTAACGGTGCCA
CAGGATGTGGCAATGAGTCAGGAAGCATTTTCTCTCTTGWTTTTATTTTTTTGCTAGGGAGTGTGTTCCCTGGTATAGAGAGACACATCTCATCTCATTT
TATATTTGATGTATATCTCACAGACTCTCGAAAACTTAATCTTCATAGTAACTTTAGTGCAGGTTTTTTTTTTAAATATGTATYTTATAGAAGAAGAAAC
TAAGGCTTAAAAGAGGCTATGCTACTCTTCTAAAGTCATATAGTAAATATTCAACCCAGGATTCCAAAGCAGATTTATCCATATCAGAAGCCTAGGGCTT
TTACATTCATTCAATTGCTTCTCATATCTTCATAAAACACCTTGACTTATTATGTCTTCAAGTTCTCCAAATGAGGATTCATACCTAGTAGAAAAGTGGT
TATGATAGCAGTCAGTTTTACAGCACAAATGACAGCATACAGAATTTCATTACAGGTACCAACCACTCCCTTGAAGTTCTGTGAGCTGGGAATGGGAGAA
AACAATTTGACCAAAATTGCTACAAAATATTTTCTAAGAGTCATGGATACCAGTAGACAATAAAAAGATTAAGGATAATTAACAATTAGATCCATGCAAA
ATTCAATAATGTATCTTTTGTTCCAATCATGTTCCAAAAACAGAGTAATATATTGATATATGATCCTTATTAGTCACTGTTTATGTTCCTAATTTCCCAG
ACATTAAACTTTGAACAAATGTAGTTTCATATGACTTGCTAAGTAGAACTTTTTGGGATTTTTCCTTTTATTTGAGTTTATAAGAACAAAAATCATGARA
TTTTCATTATGGAAAATATGTATATATTTTTGCCATAGTGAGACTTTAGGACAGCTGAAATGAATTAATGTGAACATTCCAATAAATCACCTTTTGGCTG
AGACTAAATGGAAAAAGTCTCATTTCAAAAGATTTTTAAGGAGACATGTGCAATGGAAATAAGTTCTCAGTTTCAATATACAGCCTGCCTTTTGATGACT
ATCATTTTAACCAACTTAAAAGGACACCCTTCAGATTTTGAAAAGGCATTTAATGTTTTCCGTTACCGATATTTACCTAGTTTCACCACTGTTCTCTTTA
TGTCTGACATACACATAGGGATGTTTCATAAGKCTTTGTCTTCTTTTACAGGTATCTTACAGACTTTTTGAAGACATGGGCCTCTTTGAAGCTTTTAAAA
TTCCAATTAGGGAATTTATGAATTATTTTCATGCTTTGGAGATTGGATATAGGGATATTCCTTGTAAGTATATGTGATTTGTGAAATAATACTTTTAAAA
TATGTCGAATTTGCTGTGGGTAAATGGGATAGTGAATCATTAGCAGGTAGCACAGAATTACACATGGTAGACGCTCAATATGGAGACATCATATGGTGAT
TAGGAAATATCGCCTGTGTGTTAGAATCCTGGCCCCTTTACTTTTCAGCTGTGTGAGACCCTAGGGTTTACTTAAGCTCTACATGCCTCATTTCTTAGTT
CATAAAATGAGAATTATAGTACCTGATTCATATGATTGTTAGGATCAAATAAGATTATAATTTTAAAGAGGTTATTTTAGTGCCTAGCACACAGTAAGTC
TGACATAAGTCCACTTTAATATGGCTATTTTTTGGAAATAAATAAATACTAAATTTATTGCCCATTTAATAACCCATCCCTTTTATTGGGTAAATTCAAC
TTTTGTTGTGGCATCTGAAGAGTTAAGTCACTATATATGTTTTCTCCACGTAAGATAAAGTTGGCTGGCGTTTAGAGGGACAGGAGGATGATGGTCTGAT
GAATAAAATAGAAAAGACATATGGAAGTGGTTATGGAAAAATGATAAGAAACACTTAAAAAATCAGGTAAATGGAAAGACCCAAGGAAAACACACAATCA
AGTATTCAAGCTTTGAGTCTTGTGGGAATAAGTTTCCCATTTATAACAACAAGAAATCGGAACACAGAGGAGATGTTAAATTTTCATTATGTAGCATTTC
AGGAATCATCGATTATAACACATAAGTAAAATGGTCCTATAGTGCTACGAAATATATGGTTTGGGAGACAGTGTCTATAGGTCGAAACAGGGAAATTGTG
GAGATGTTCAAAAATCATGTAACACATGAAGGAAATAAATATATAGAAAGAAAAATAATCAAACATAATATATTGATCGGAACATGTCTTGGAAATATGT
TATTTAAATCATATTTTAGCTTTTAAGCTTTTAAAAGTTTTAAAAGCTTTTATATTTGCTTATGCACCTCAGACTTCAGAGTCCCATAACTTTTTCKTAA
TTGTAAAGAGCTGAAATTACATTAAAAAATAATTAATACTAATAAAACACAAGTATTTCCAGGAAGGGGTATCACATCAACTTAGGGATTTATTATGAGC
ATATTTATTGTTTTCAAAATCCCATCCACCTGCTACATTGGAATGAATATACACAGCTGTTAGTGTRTCATAGAAAAAGAGAATGAAAAACTGAATCTAC
AAGTGAGATTTTCTGAAGAATRTGGGACCAAAATACAGACAGAGTAAGGCAGTTGGAGTACGKGAAAGAGGAGCTCAACAGTACCAGGGCCCCTGGGAAC
ATCTGGCTGACAAATCCATGGAAGTTGGAAGAGAAACATGAAAAAAGGGGTAGTTGGAAAGGATCTCAAGATAAGCCTTGCTTTCTTAATACAGTTTTCC
CAGGGCCCACCCTGGTTGGATGCCAGTGATTGACCTAAGTGTTCACGATTTCTCGAAGGTCAAGGAGTTATATAAATAAACTTTTATAGAAAGGAAGACA
CTAAAAACACTAAGGAACAGCTAATCACTAGACTGAATTTCCAAATTCATGTTATATTTTCAAATGTATTTTAATGATGTAATTAGCCATAGCAAAGTTC
CACTGAGTTCAAATTGATACTAAACTCCAYAGACATAACTACCAACTTTTTCACAGGTGGTATATCATTAAATCATAGTTGAAAGATGGCAAATGTTTAA
GTACAAAAATAAGTTTTCAGATTCTAAGATTTATTATTCACTTTTATATTTTCTTATTACATTTTTATATGTTACAAGTAATAGATATTTTTTACCCCTG
AAATAGTGGGTTCTTTATTCCAGGTGAAAAGAACTTGTTGTAATAAACCTGCTTGTTCTATTAGAAGTCCCAGATAGTCTCCATAAAGGGAATTTATTTA
CATCTTCTCATAGGAAAGCTCTAGCTTCATTTGTGATCACTTTTATCTAATAATATTTCATATGTGCTGAGATTGTAAATTAATATGAATATTTATTAAA
ATCTTCACTTATCATTAGTTATAATCAGCACATACAAAAATTTGCTGTATACCTACTTGTTTTAATATTTATTTTGGACTATATTTCTAATGGTCCTATC
TAAATAAATCCTTAGTTGAAAAGAAGCATAAGAGGAACCAAAGTTAAAATGGGGTTGGTTTAACTTTAATATGATAATGTGTGCAAATATTAGAAACTAA
ATTTCTTATTATAGTTCTAAGTGTACCTTTAACGGTTTTCAAGAAAAGAGGGTAAGTAGGAAAKCTTTTAAATTTGTAATTAGAATCCTTACAAAAATTG
AAGAATCTAGATTTAAACAGAGAATTAAAGTAATTTCATGGTAGTAGCAATAGAAAGACAAGAAATATGGTCAACTCAATAATATAAATGTGATAAAAAT
GTATTTGTTCAATCAAACTTAGGATAAATTAATGTATGGTGAATACCCAATTGCATAAGGAGATAAATAATGTTTGGTGTCATTCATAGTCCCTTTCAGT
TGGGCATTTTACTTAATAAAAAATCCATTCATATTCATTCATCGATCCAGTTATTTTTGAAGGTAGTTTTTATTTTCAAAGAGTTTCCTCTCTAAAGCAT
ATTCTCCCTAACACCTCTCATTCTGATTTAAGTTTGAGAAGTGGGGAGAATGCCTCAGAAGTACCTGTGATCATGTAGCTATTTCATGGCAGCAATGAGA
ATAGTCCTGCTCAACCTATATTTAGTTCAGTTCAATTCAGCTGTACATGATGTGCCCACTGATTTTAAAGCTAGATATTGAAGTGACATGGTACATGCTA
GAGGGGCAGAACTACCAGAGTATTAACTATATTCCAAAAGAAAAAAAAATATTTAAAGTGTTACCTCTATTCTTTATTACTTCTKCTTACCCTATGGTGC
ATAGGAGCATAGACAAAATTTTAAATACAAAATATATAAATTTGGATCTTAAAATCTGTGAATTTACATACAACTCCAACCCTCCATACCAGCTCACTTC
AACTCTGTGCTTGAGGGAAAAGGAGAAAGTTGAGAAAACAAGTGTATCAAGACGGAAGAGGGAGATGGGCGGACTCTGGGAAAGAGGTAGGGTGTACCAT
GTGCTAGTGTATGCATGTGCGTCTATATGTTATTAAAGAGGGCGAGGGGGTTGCCACATGAGTGAAGGTGTCATCGAGAAGGCTAGGGGTTTGTCCAAAA
TGCAGAGATGAAGGAAGAAGTATGATGAGAATAAGGATAAAATAAGGATAGCTCTGATAGCATTTCTTATCCTTCTCAGTTGCCTACCCTGGCCAGAAGA
AGAAGAGGAATCTTTGAGCATTTTTATGTATTACATAGAAACCTGTCAGTAACTTACATTGACCTTGCTAGCTTCTTTCCTGGGTGTCTTTGCTCCTGGG
TTGGGTTACCAGAGAATTAATGACAAGAACAATGGAGATGCCAGCACTTGGCATAATACTGAGTACATGCTAAGTGAATATTTGATTAATAAACATGTCA
CTGACTGCTAACAGGACAGATGGTTTTCTATTCTTCAATCTAAGTGATTGATGACAGTATTATTCTCCTACACATACACACATATAACTAGATGTATATG
TTTAGATAAGCAGCTGGATTTGGTTAGTGATTTTTTTTTATTTAGTACTTTTAAACCTGTACTCGAAAGCAAAAGGAACATGTTTAAATATACATACTGT
CTTTACCTAGTTTTTAAATCAAGATTGTACCAGCCTCATAAAATGAGTTTGGCAGCTTTTCTTCTTGTATTTTCGGCACTAGATTATTTACTTAGGATTA
ATTGCTTGTTGAAAGTTTGTTTTTTGTTTTTTTGTTTTTTTAAAATAAAACATTACCTATAAAGTTTTCTGGGCCTGGGCCTTGGGGTGGGGGACAGGGT
GGATTAGAGCTCAAAAGGATTAGAGCTCAAAAGCTGCAAGTTCACCTGGAATAGATGTTATCAATTCCTTACCCCAAACAGGCTCTGCCAACACTGTGAT
ACTGCCCCCCATCCACCTCCGTACTGCTATGCTCATGCACAGGTTTCTCTGACTTGCAACAATAATAGTAACTACTGGCATATAGTAATCTTCCCAGCTT
GCAACAGGAGAAGATAATTTAAGAAGCTGGCTTCCAACATATCTCCCAAAAGTGGAACCCTACTCCCAGACTGCCATTTTCCTACCATAACAGGTCATTA
CTATCTTCTACCGATGGAGGCAGAAGATATTTTATTTTATTCTTACAAATCCAGCATTGATTCTGGGAGAAAGCTGGTGATCTATACTAGTTCTGTCTTG
TTCTACAGCAGCAATTTATTTTACATGAATAATGTTTACACAAATTACAAATTCACCGTGTATCTGGCCCTTTAAAATATATTTCCTAATGTAATTGTCA
CAATTGTACCATGAATTTGGCAATATTATTCCCGTATTTTTAAGATAAATAAGACTTTTTACTCTGTCTTATTTTTAAGATAAGGAAGTGGATTTTAAGG
AACTCACCCAAGTTAGCATGGATAATATTATAGCAGAGGTAAAAGCACACCTGTCCCAAATCCAGAAAATTCTAGTATGATCAATTTCATAAATAGCCCA
AGTACAGACATAAAATATGATCGTAATTCTCTTGCCTGTGAATTATTTGTAAATGTAATGGGCTCATATCACTGGAGATGGGCTATACTCAGGGATATAG
ATGTCAATCTTAATAAAATTGCTCTTTCAAGTACCATATAATATTATTACTCATATTTACGATTGACACAGGTATACAAGTTTTGCTATTTTCTCCTCAG
GAGGCTAGGATTTGAGCCTCCTCCTCCTCCTCCTTCCCCTCCTCCTCCTCCTCCTCCCCCTCCTCCCCCTCTTCCCCCTCTTCCTCTTNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNCTGCCAGAAATTTAACACCTACCCAGGTGCTACAATTGCCACATTGACCATAGGTTTCCTCTTTCTTCTCTGACTAGGGAATAGGTGTTTCTCTCA
TATTCTCATTGTCATTCTTGTTCTCTCCTGTTTCTCTCTTCTCCTTATTTTAAGTATTATGAAGAAATGTAATCTCTTATACTAGAGAAGGAAACAGTAT
CATGGTTGGTTAGCAGAAATACAATATATAAAGTATAGGTATTTACAATATGTAAATACAATAGAATAAAGCATACTAATCAGTGAAGTATTATGAGGGG
TCTGATAAACAAAAAACTTGGAAGAATTGCACAGAAAAGGAAGGTGAGCCAAGAGCACACTGGGCACGTGGTTATGGTTTGAAAGAAGTTGAACTGCACA
TGTGGAGTATGACCCCCTTCCCTTGATGATGGCATTATGACCAGATGGCATTATCTGGTTAATGGCATCATCAACCAGATGATGGCATTATCTGGTTTTC
CTGTAGGTTTTAACTCTTCTAAATGGCTTAGCTTCCTACATTATTATACAAGAGGCTTTTCTTTTTCTTTTTAAGTATTTCTTAGAACTATATTCTGAAA
TTAGAATTTCTAGATCAGAGAATATAATTGATTGTGGCTTTGAATTTTGCTTGTGGATGAAATCTACATATAAAAGATATGTTATTGCAGTGCTTTAAGA
TTGATACAGAAAAATGGTATTATGTTCTATTCCCAGATTATTTTTGAGTACCATCTATCAGAGATGAAATATTATGTCTCATCTAGTTGAAGTATGTCAT
AGCTATTACATTTATTCTCATTCTCTGCATAGTTTTATGCAGGAGCATGAAAATAAGTACCAGAGTAAACATTACACTTTTTTCACACAGTATGTTTCCT
ATATACATAGTTTGTAGTCGACTGTTGACACAGATTTTTCCACTTCAGATACCTGCATGCATAATAAATGTTACAAGTAAGGTTTTTTTCTTGTTACGAT
GGATGTTATGGAGTTATGGAAGAGTAATCAAATAATATTTGTCCTAGAAAGTTTGGCCAACTTTCATGGAAATAGTAAAATGTTAGGACTAAACTGTTTG
TCCAGTAGATGGCACTCTTAGTTCTTGGACCCCAAAGTTCATAAACTGATGACTGTTCCTGTTCACTGGTTACAGATCATAACAGAATCCATGCCACTGA
TGTTTTACATGCTGTTTGGTATCTTACTACACAGCCTATTCCAGGCCTCTCAACTGTGATTAATGATCATGGTTCAACCAGTGATTCAGGTATGTACGAA
GTGAATCTGCACTGCCTTATGAAAGATGGGAACAAGGGTGTTTTTGTTTTTGTTTTTTTTCAAAAAGAAAGAAGTCAAGACAAATAATGTCAGTACTTTT
TTAAAAASTTCTTTGACTCTCATTTTCTCTTCTCAGATTCTGACAGTGGATTTACACATGGACATATGGGATATGTATTCTCAAAAACGTATAATGTGAC
AGATGATAAATACGGATGTCTGTCTGGGAATATCCCTGCCTTGGAGTTGATGGCGCTGTATGTGGCTGCAGCCATGCACGATTATGATCATCCAGGAAGG
ACTAATGCTTTCCTGGTTGCAACTAGTGCTCCTCAGGTAAATCTTTAGATTTTGGTTAGGAGAACTAATTTAAAGATTTCTCAAGAAAGTGAAGTTCAGT
GTGATTTATAACAGGCACCAAGTTAATATAAGCCAAACTATACATAGTCTTACGTTGAAATTCTCAGAGACCGTGCTAATTCTGAAAAGAAGCCATGGAT
TCTTCCAAGATTCTAATAGCAGGTATACAACTTTATTATCCATGGGAATCATTTCTCAGTTTTCTTCTTAGGAAGAAAACCTACTTGAATTCATGTTAAT
GGACCTCTTTAACAAACAAAAGGCAACCTATACAAAAGCCCCTTTCTGAAAAGATTAGAGAACCAAGCATTTCTTGGACTTTTAAGAATGTAAGGTTTCT
TTGTATATAAATACCATTCCTTTGAAATATATTCAATATAACAATTATGATTCTTATGACATTATCTATAGGTTGGTAGGATTTTAATATCAATTTATTT
CATTGGAGGATTTTTTATTTTTTTGCCTAAACATAGATTCCAAAAACAGTGAATAAATTTAAAGTTCATCTTGGTGTATAGTTCTAAGTAAAAAATTCAT
CACTAAGTATGTAGACATACCCATTTATACAATCAAATTTAGCCCCTCATTTATTTAATTAGCTGAACCCAAGTTGCTAAACATTCTGAGATCCTCTGTT
CTTCTACAAGATCTAGAGGCCAATTTCATTCAATATTGACTTTTCTGTTTTCTTCTTTGCCTCTTCTATCCCATTGCTGTTCATTTCCACAGCTCATCTT
ATAGGCTATTCTATAGTTTTTCTTGAATCTATATACAATAAAAATTATCTGATAATTTTTTCTTGACTATCTACCTTCTTTCCACTTGTCTTTCATACAC
CAGAATTATTTTTTCTAAATATAGGCAAAAATCCACTGGCCAGGATAATTTACCATTCAGATTATTTTACACGTCTACATTTTTATATACCTCTATGTTA
ATATTCTGTGCTTAGTGTTTTCTTTTTGTCCTATGTCTTTTTATTTCTCCATAGGCTATACTTGCACACTAGTGTTCAGGCATTTTGTAGGCAGCTTCCC
TTTTAAAAAAAAATCTCTAATAAANNNNNNNNNNNNNNNNNNNNAATTCTCTAATAAAACTTCTCTCTGCATTATTAGAGAATTTCAGACAAGTAAATGT
CATTTTATGTCTCCGAATACTAGATAAAAGGTGATATTTCCTGTGGAGTGGAGTGAGAATGTTTTAAGTCATGGACATTTTGGGTATTCCATTCATCTTT
AATAGCTGTATGTGTTTAAGAGGAGATAATGCTTATGCCAGAYAGAGAAAGTAACCTAGTTACCTCTTGAGGTATTGTGGCATTGGTATAATTATATATT
ATATTTATATTTACATATATATGTAAATATAATTTTTTTCTTTTTTCTTTCTCCCTCCTCTTTTCTATTTGTATATAATTTTTATGTTTAAATTCCTGTA
CCCTACAAAGAAATCTAAAGAAAAAATCTTTTAAAAAATATCTATTAAGATAGGCGAGTGCCCCCTCAAAAGAGTTTGGACTAAGTTTTCAAGGAAAGGA
ATTTATCTTACAAAAAGGGGAAATTTAACCAAGAAAAATAATAGAGTCATTGTACAGTAATAAGTGATTCTTAATAAGCAGGAGTTACGTGATTACATTT
CTTTGTTGTATGAATAAAAAGCAATTTCAAAAGCATTGCATATTCTCATGATTTTTGTGATTATTTTCTTAAAAAGTTGAACTCTTAACTGTCTTATTTG
CCTAGGCGGTGCTATATAACGATCGTTCAGTTTTGGAGAATCATCACGCAGCTGCTGCATGGAATCTTTTCATGTCCCGGCCAGAGTATAACTTCTTAAT
TAACCTTGACCATGTGGAATTTAAGCATTTCCGTTTCCTTGTCATTGAAGCAATTTTGGCCACTGACCTGAAGAAACACTTTGACTTCGTAGCCAAATTT
AATGGCAAGGTAAATAGAGCTGTACCCAGTTTTCTTTTTTTTTTCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGACTGGAGTGC
AGTGGCACGATCTTGGCTCACTGCAGCCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAACGTCCCGAGTAGCTGGGATTACAGGCTCATGCCACC
ACGCCTGCCTAATTTTTGTATTTTGTTTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGCTCTCAAACTCCTGACCTCATGATCCACCCGCC
TCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGGCACCRTGCCCGGCTGCATCAGTCTTCATTTTATAGACACATTGAAAGATATCATGGAAGCAAAC
TGTTGAACAAAACATGTTACTATGAACTCCCATATTTCAAATGTGAAAATGGAATACAATAAAATGTTTAACCAGAAGCAGACATATAGGTATTGATCTG
AATCTAGATGCCCAAGAAGCTGAGATGCTGTCTCTATAGATTCTACTCTGTGCTACAGAGGAATAACACATTCTGTCATTGTGGTTTTTGTTTGATTTAA
TTTGTTTTCATCTCTAYGGTATATTTGTATAAATTATCTGGCAGCAGTACAGATCAAAAACTTGAAGCAGAATTTTATACCTCAAAAGTAAATGCCCAAA
TATTAAGTTATGACAATTTTTTATGAACTGTAACTATATTATTTTAATAGTAATTGATAATAAGGCCAAGCACAATGGCTCACGCCTATAATCTCAACAC
TTTGGGAGGCCGAGGTGGGTGGATCACTTGAGGCCAGGAGTTCGAGACCAGTCTGGCTAATATGGCGAAACACCATCCCTACTAAAAATACAAAAATTGG
CCAGGTGTGGTGGCGCACCCCTGTAGTCCTACCTACTTGCGGGGGCTGAGGCAGGAAGATTGCTTGAACCCAGGAGGTGGAGGTTGCACTGAGCCAAGAC
TGGACCATGACACTCCAGCCTGAGAGAGAGGGCAAGACTCTGTCTCAAAAAAAGAAAAGAGAAGTAATTGATTATATATGCCAATTTAAAAAAGCATTTG
TTGCTAATTCAATAATTAATGATTTTTAAAATTTTCATTTTTGTAGGTACATGGTAGGTATATATATTTATGGGTTACATTAATAAATTCATATAATGTA
TAATAATCACAACAGAGTAAATGGGGTATCTGTCACCTCAAACATTTATCCATTGTGTTACAAACAATCCAGTTATACTCTTTTAGTTATTTTAAAATGT
ATAATTCAATTATTTTTGACACACTCACCCTGTCACCCATTATTATAATTTTATCCATAATTCGTTTACTTTTTTTGTGAACTATTTTTACCATTAATTT
ACACAGCCAATAACATTTTTAAGTAGCTAGAGGTTCCCAATTATTTGRTATTATGATCCCTATATAATATGAAGACAATAAATGTTCTATTGTTTTTCTC
TTCTCTTCAACTTTTGTTTTTATCAAAGCAAAACATATATTAACTTTATCTCTCAAATAGGTAAATGATGATGTTGGAATAGATTGGACCAATGAAAATG
ATCGTCTACTGGTTTGTCAAATGTGTATAAAGTTGGCTGATATCAATGGTCCAGCTAAATGTAAAGAACTCCATCTTCAGTGGACAGATGGTATTGTCAA
TGAATTTTATGAACAGGTAACTGACCACTGYTTAATACAGCTTAATCTGTACTTACAGGTTGCTCATGAATTGCTCAAAGCTTCTAACAGCTATGAAAGT
ATGATCACTCTATTTTATATTCATACTTTTGTCAGAAAATGCACTGGTCAATTTTGATCAGGAGACAAAAAGTGACGTATAAAAATTGGACTAAAATATA
ATCATAGAACTCTATGATAAAAGTTATTTGCAAGCATTTGGGGGGAAGAAGATATTGAGATAGTGGAAGTCAGATGTTAGGAAGATCCTTGAAATACTGT
TTTTTTATAGATTTATTTATTATCATAGAAGGTAGTTTAAATGTATATGGAGTAGCTTGTATGTATATGGTAGTTTAAATGTATATGCATATCACATTAA
TTTCACTTACTTTCCTWAAAAATTTATTTATTATCATAGAAGGTAGTTTAAATGTACATGGAATAGTTTATATGTATATGTATATGGTAGTTCGAATGTA
TCTGTATATTAGATTAACTTCACTTTTGTAAAAAAATTAATAAGAGCATTATGTGAAAAAGCTAAAMAGAAATAGACATTTCATTTGACATGATAACTAA
GAGTTAACAGACTACTCAGAAAGCTACCACAATTACATAAGCYGGGGGTGATCCTCCTGACATTACCCTACACCCATCAGAATGCACTTGAACCTTCCTG
TTTGGCACTGTGAACCACTCTTAAAAAGAATGTGGAGGTGAAGGAGCATGCATAAAGGACAGGAATAAGTGACAGAAAAGCATGTGGAAAAAAATGAAGG
TATTTACTCTTGGGGAAATATAACTGTCTTCAGATATTTAAAAGAGTGACATACTAATTTAGAAATCGGTTAATCAACATTGCTGTGGAGATTAAAGAAG
ATAAATTATATAACATACTTAGCACAGGATCTGATTCATAAAAAAAGTTAGATCCCTCTCTACTGCCCTAAAAAAGGTATGAATATACCAGTCTATAGAA
GTTATTGGGAGGTAGTGTTCAGGTCAATGTCAGAAAGAAATTTATATTGCTAAAGGTATCCAAAAAATAGGCTGAGACACCATATTAATGGTAATAAATT
GACTGTCATTGGACATGTTTAAACAAGAGATTAGAATGAAATTTTATGGTTACTATAGGTAGGATTCATATATAGAATGAAAGATTTGTTTTTTTTATTT
TATTATACTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATATATACATGTGCCCTGTTGGTGTGCTGCGCCCATTAACTCATCAT
TTAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTGTGATGTTCCCCTTCCTCTGTCCATGTGTT
CTCATTGTTCAGTTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGCGATAGTTTGCTGAGAATGATGGTTTCCAGTTTCATCCATG
TCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTSTTGGACA
TTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCTCAATAAACATACRTGTGCATGTGTCTTTATAGCAGCATGATTTGTAGTCCTTTGGGTAT
ATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATAGCCACACTGACTTCCACAGTTGTTGAACTAGTTTACAGT
CCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATYGCCATTCTAACTGGTGTGAGATG
GTATCTCGTTGTGGTTTTGATTTGCATTTCACTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAG
TGTCTGTTCATATCCTTCACCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGT
CAGATGAGTAGGTTGCAAAAATTTTCTCCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGCAAGGACTTCA
TGTCTAAAACACCAAAAGCAATGGCAACAAAAACCAAAATTGACAAATGGGGATCTCATCAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCA
GAGTGAACAGGCAACCYACAGAATGGGAGAAAGTTTTGTGTTTTTAAAACATCATGAAATCATGTATTGCCTTTCCTAAGAATGGGATTAATTCATAAAT
CTCGAAATATGGAAATGCAGAAAAATGTAAATTAAAGGGAAAATTCATGTATAATAATACCACTTCTTAGGCATAATTGTTGCTGATATTTTGGGATATT
TCCTTTATTAATTTTGCTAGATAACTGCTGGTTAAAAATCTCCCTTTTTTCCTCAGAAACATTTGAAGCACTTCAAAATAAAACATTTGTACAGTAATAT
TATTAAACATATAGATAAATAAGAATATCAGAAACCACACAATCACAGGAGATATATTAAAATTCAAACAAAATCTGGGATAAGGTAACCCCTTGAATTG
AGCAATAAATTCTTTAAAGCTTTCTGGAAGCCAAAGCAAAAAAAGGAAAATAGGCTACATTTATATATTTTTAAAAAAATTGTTCTCACTATTGCATTTT
TTTTTTTGAGATGGAGTCTCACTCTGTCACCCTGGAATGCAGTGGCACGATCTCAGCTCACCGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCC
TCAGCCTCCCAAGTAGCTGGGATTACAGGCACCTGCCACTACACCCAGCTAATTTTTTGTATTTTTAATAGAGACGGAGTTTCACCATGTTGGCCAGGCT
GGTCTCGATTTGCCCACTTTGGCATCCCAAAGTGCTGGGATTACAGGCRTGAGCCACCACGCCCAGCCTCACCATTGCATTTTCGTGCATTTATATTCTC
ATATAAAAGACACTGACTTGTGTGATTAAAATATCATCTACTTATACATTAGAATTTAGACTTTCTGTATTTCTCCTTGATAAAAAGCAAAAACCTCAAG
TTCAGAAAAGTACTAATTAGCAACAGTGTTTCTATAGGAACCTTAGCACTTGAGGTAGGATCCTTTAGCTGTCAAGTAAAGAAGTTTGTGCATTAATGCC
TGGGGTTTTACATATTTACAAATTTCAGATGCCAGGTGAATGTTGACTTCACTTGTATTTTATTTCTAGGGTGATGAAGAGGCCAGCCTTGGATTACCCA
TAAGCCCCTTCATGGATCGTTCTGCTCCTCAGCTGGCCAACCTTCAGGAATCCTTCATCTCTCACATTGTGGGGCCTCTGTGCAACTCCTATGATTCAGC
AGGACTAATGCCTGGAAAATGGGTGGAAGACAGCGATGAGTCAGGAGATACTGATGACCCAGAAGAAGAGGAGGAAGAAGCACCAGCACCAAATGAAGAG
GAAACCTGTGAAAATAATGAATCTCCAAGTAAGTTCTAAAACCTAGTTCTAATGTGTTTTCCCTGGGATTGCTTTCTTACTTTAGATGAATTTTATGCTT
CTTATGAAATACACAATACTTCAAGTCTAAACATCATTTGCGGAGTTTGACTACGGATAGCTCCCTTCCCCAATATCATAATAATAGAAATCCCAGACTA
TGGAATCTATAATAATAACACATATGATACAAAGATATCTTCTCCGTCATGAAGTCATGAAGTTAGAAAAAAATAATAATAAGGAGTTGAAGCCTATTCT
TCAGGGTATCTGGTTTTTTGTTTGTTTTTTGTTTTTTGTTTTTTGAGGCAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTC
ACTGCAAGCTCCGCCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCGCAACACTACACCCGGCTTTTTTTTTT
TTTTTTTTTTTTTTTGTATTTTGAGTAGAGATCGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCTGCCTGCCTCGACCTCC
CAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCTGCTTCAGGTTATGTTAGCGATTTAAAAGTGAAAGAATTTCAGTTACCATAAAGACCAGT
CATAGGTTTTTATTGGCTTGGTTAGGGGAACTCCATGTGAATAGATAGGAGGTAGTATTCATTTGTTCATTCAACAGACATTTATTGAGCATCTGCTCTG
TGCCAGGTATCCTTCCAGGTACTAGAGATAGAGTTGTGGGGAAAAAAAGACAAAAAATAAAATAAAATCCTTGCCCTTATAGAAGTACATTCTAGTGGGA
TCAGTAGACAATAAGCAAAACAAGTGAGTATATCTATAGTATGTTAAATACAGTATTATTTACTGTAGTGATAAATGCTGAGAAATATGAGAGTAAAAAT
AAAAGGAGGGAGATATGAAATATTATAGAGATAGGTTAAAATTTTAGGTAAGATATCCAGGGATAGGAAAGATGTAAAGCAGGGAAAGATTTGTAAAAAG
AAAAAGAAAAGACCTGCAAGAAGCAAGGGAGTGCTCCCTGGGGCTGTATGTGGAAAGAGGATTCCAAAGAGAGGAGAAAGCAACCTGTGCAAAGGTCCGG
GGATGTACATTGGGTGGGGTGTTCAGGGAGCAGCAGGAGAACTGGGATAGCTGGAGCAGCAAGACAGAGGCAGCCGGGAACGAACTGTCCAAGGGAGAGA
ATACAGTCATGGGTTCTTAGTTGCTGTTTCTGGTTGGGCCAGTAAAGCCCCTTCCTCATCCCACTGTTCTGCTTATCACTAGAGACAGAAACTAAAAACC
ATGGTTTCAGGTGCTAAAAGCCTAAAACAAAACAAAACAGAAGAACAGCAACAACAAATAAGTCAGCCTGGACAAGCTTGGAAGGTGGGACTCTGTAGGT
CACGGTAAGTGTTGTGGCTTTTACTCTGAGTAAGATGGGAAATCGTCAGTGGTTTTGAACGGAAGAGTTAGTAGACTCAACTTACATTTTAACTGGACTG
CTTCAGCTGCTCTATTGAGAATATGCTTGGGGTTGAGAAGGGAGCAAGGATAGACATAGGGCGGTCAGTTAGGAGACCATTGAAATTATCCAAGTGAGAG
ATGCCTGTGACTTTGAACCAGGGCAGTAGCAACAGTGACAGTGACAACCTATCACATGTGATAATTGGCTGGAGTGCATCATGTGGCCAATCTAACCTAT
TTAGCTTAATTGACTATGAAATCATTTTTATTTATGCCTCTAAAGCTACTCTCCTATTTATCCTGTCATGAAACAAATAGTGACTAATAGCATAATTAGT
AAAAATCCATGACCCTTGCAATGATATTGCACAAATACTGCTCCTAAGAACATAGTATGTGATTTCTGTCTACCTTTACAGATAAAGTACAATCTTAATA
TCCTCAAGGTTCTTACCAAAAATACAACCAGTGAAAGACATTCTGATCATTTCGTGCCTATTTTTATCACAGTCAGGATAATGCACAACTTGGTTCATTC
CAACCATCTTGTAAGGAGATTAACCTTCTACTGATCCATTTTGCTCTCATATAAGCACCTTGTTGTAGGCACACATAAGCAAACATAAAGAAGTCCTTAT
CAATTATGAACTTATGAAGTAAAATTTTGCAAATTGAGTTTTAGATCAGATCTGGCCTGTTAATTACTTTTTGTAGAATGGGGGAAAATTAAAGTTGTTT
TTCTTCAATATGCTACTGTCAAAGTAATTATATTTCATTTATCTGATGCAAATAAAAAGACTTCCATTAGAAAATTTGTACTAATCTTGAGATTCAGAGC
TAGAAGCCAAGACTTGGAATTCATGGGTTATTCATTCATTTTTTTCACTTAATAAACATGTATTAGTTTTCTCTTTTTGTTTGTTTTCATTTCAAAGAGC
CAGGTAGTTTGCTGTCTTACTAAGAATAAGACAGTTTTTCCACTGAATGAAGGTATTGTCAGCTTAGCCTCTGGAAAAGCTTTGTTCCCAGGGGCCCTGA
CTTACTGCTCTTTGAACTCAAACACATGGAAAATACAGACGCACAGATCCAGGCATTGGGAATTGAAGGACCCAGGCCAGGAGACTTAACAGGCTCAACT
TGTCAACCTAGCCTTTAGCAGCAAATGCTACAACCACATATTCCATTTCTTTCTGTTCTGTAGGGTTGGGTTGTCATACCTTCCMGTTTTTATCAAGTTC
ACTAAAGCAGGAATGAGAGACTTTTTGGGTTCTGTTTGCTCATGCCTTCCAAAAGTTAACTGACCACATTATATTACAATTTAAAAATATCCCATCCACA
ATGATTTGATACTGTAGCTTTGGAAATATTATCTTTAAAGTATTTCTTTACAACCAAGAAAATGATAAATATGGAGCAACATTAGTATTTACCAAATATT
GGCCACATAGAGTAACAGAATTTTAGAAATGAAGGGGGAATCAATGCTTATCAGTTAGCTGCCTCACTTTACATATATTAAACTAAGGCTCAGAAATTTA
AATGACATTGCAAGGTTGTAGAACCAGAAAGGGAACCTAGGTCTCTTAATTTTTAACTTCAATGCTTTTGGCTCTYAGTAATGTTAATATCAGAATTCAT
ACTGGCTAAAATGGTTACCTTGACTTTGCCTAATACTTAGGTTTCAGAAAAAAATAAATATGCACAGATAACKTCTGTAGTTTGTAAAACTTGGAGATGT
CCCAGGAAACAGAATAAAATGTTTCAATATGGTATCCTAGGAAAAGAAGGTTTTTATCCCACCTTATAATTAAATCTGAAAGATTCCTACAGTGAACTAA
GAGGTTYCTAATGAAGTACTAAGCTGCATTTAGAATTGGAGCAATGAAAGGCTCTTTGTTCTCCTTTCAAAAGGTTCCAGTACAGAACAATTTGGCTCCC
AATACAGGCATGTTTTAGACCACCTGCAGGCTCTAATCTACGCAAATTTATTTGGTACAAACTTTCTTCTACGTCACCTTCTTATTCAGTATAATTCCAG
AGAGGTTTATTGCTAACATTTAACAGTATTAATAAGAGAACAGTTGCTCTCATGGGGACTGCCCTGGAAGGAAAAAAGAGGAAAATTGAGCTTTTGTTAG
CTTCTTCCCTATGAATGCACTGCCATCAATGTGTATAACTTTAAGATGAAATAATCACCTTAAACTGAAGAGTGTTTGCTACAACTGTGATTCAAACCTG
TCCTTCAGACAGGGGTCCTCTGTAACTCTCTTGATTCAAAGGATTAGCTTAAAAAGTATATTAACATTTAAACATTTCTCAACAGAATTTGATTTATAAC
AAAAACGAAGTAGAAATAGACAAGTAGAGATAGAAGAGTAATTTTTAATTTGCTTTAAAAAATCTGATGTATTAATGTATTTTATTGACTTTCATAGAAA
GAATTCAAATTTAKTTAAATTTCAATTGTATCTACTGCCCTTGTTAGGAGGCTTTCAAATGGAAGAATTGATATAAGGGGTCTTGGCCTGTGCCCCATAC
ACTTTTGCCTATGTCCCAGTTCTTCAAACTTTGCTTGGAATACTGCTAGCTCCTTTTCACCCAGTGTTATTTAATTCTCATTACTTACATCCAGCCCAGG
TACCAGGTCCTTTAAAAAAAAAATTCTACCTAATTTTCCACAGTTTGTGTCATTTGTGTTGCCATGGTTTGATGTATCAAAGAGAAATTGCACCAGACAT
TTGTTAAAAATGGCAACGAAGGCGTTATTCAAGACTACTGTAATAGGGGAGACAGATTGAACTCTGTTGAAGCAAAAGGTGGGAGAATTGTTCAATGCTG
CTGTGAGCTAGTGAAAAAGTGCTGGAGGATGTTATGTGAGCATTGGTTAGTATGATTAAGCCACCTGTTAATTGGTACTTACTAAAGTTAGGCTCCTACC
TCCCAACAGAGACTAGGAGATAGGCCTGCCTGCTGGCCTACCTTTCTTCTTTCCTTCCATCCTTCCTTCCTTCATTTAAATCTTTTTTAAATTTTAAAAT
TTAAATTTTATTTTGTAAGACTGCAAAGCTAATTAGAGGCTGGGAGAAGATTTATCTATATTCCAGAGGGGCAGAGAAAGAATTTGCTATTACAGGTTTT
CTAAAGTAAATGTTCTAACAAGAGGGAGGTCAGGGGCCTATAGTCTAGAAGTCTAAAATAGTGTCAAACTGAGAGAAATGGCAAGCCCATCTTGGTCACA
AGAATATGTCTGTCATAAAACATAGCACATGTATTTCAGTTTTTGTCTTCTTGGCACTCTCTCTTACAGAGAGACTGTAAACTCCTTTAAGGCAAGATCT
GAGCTTAATTGATCTGTGTTTCCAAAGTATCCTGGAAAGTATTTGCCAGTTAGTTTGAGTCCATCTCATGAAGAAATTATGAATATCATAATTTTTTTTT
CCTTTTGACTCTGCCTGTGTTCATTTCCCTCAGCACTCATTCAATTTAATAATTGTCATTCTGTGTCTRTATGGTTCAAAATTAATTCAAGATAATTTAA
TGTCCTTTTTATTCACTRTGTTTTAAAAATTAATTTTATTCTGTACAGTACAAGAAATTTCTGCAGTATATCAAAATAAAACTGTTAAAAGAATGACTAG
CCCTTCCACAAAGATGTTGGCAGATGACCTCCAAGTTTCTTTGTCACCCCCATAGAAATTGGCTTTTTTTCTTTCATTATTGTGCTATTATTAAGACTTT
TCTTTTTTTTCTTGCTCCCAGAGTAAGTCATATCTACTTCATTAAATAGACCCAAATATCCCTTTTGATCTTCCTGCTAACTTGTACTGTTTTTTTTAAT
TGTTTATTTACTTTTGTAGAGACAGCAGTCTCACTTTATTTATTTCTGTAGAAACAGGACCTCACTATGTTTCCCAGGCTGGTTTGGAACCCCTGACGTC
AAGTGATCCTCTTGCTTCAGCCTCCCAAGTAGCTAAGATTACAGGCAGCATGAGCCACCATAGCCAGCATGAACTATTAACTCTTTAATGCAGTCTCAAT
TAGATCAGCATCTCCTGTAGACCACTTTTTCGTATTAGTTTTATTTTTACCACTTATCAATACTTCATCATTTACCTGGAAATGTGGAACAAAAACTAGA
GAGAAAATTATTCATTTAGTAAACTTTTACTGAATGCTTTAGTAAAGTCTAGGTCTTCACAGATATTACATATACACAAAAGTAAAGAGAAAAGTCCATA
TACCAGGTGATATGGTTTGGCTGTGTTCCCACCCAACCCTCATCTTGAATTGTAGTTCCCATAATCCCCATGTGTYGTGGGAGGGACCTGGTGGGAGGTA
ATCGAATCATAAGGGGAGTTACCCCCATGCTACTGTTCTCATGACAGTGAGTGACTTGTCACAAGATTTGCTGGTTTTATAAGAGGCTTTTCCCCCTTTC
CTTGGCACTTCTCTCTTTGTATGACCATGTGAAGAAGGATGTTTGCTTCCCCTTCCACCATGATTATAATTTCCTGAGGCCTCCATAGCCCTGTCAGTCA
ATTAAATCTCTTTTCTTTGTAAATTACTCAGTCTTGGGAGTTCTTTATAGCAGTGTGAAAATGGACTAATACAGTAAGTTGGTACCAGAAGTGGGGTGCT
GATATAAAGATACCCAAAAWTGTGGAAGCAACTTTGGAACACAGTAACAGGCAGAGATTGGAACAGTTTGGAGGGCTCAGAAGAAGACAGGAAAATGACA
GAAAGTTTGGAACTTCCTGGAGATTGGAGGGTCATATGGTTTGGCTGTGTCTCCACCCAAATCTAATCTTAAATTCCCATGTGTTGTGGAGGGACCCGGT
GGGAGATAATTGTATCATCRTGGCAAGTCTTTTCTATGCTGTTCTCGTGATAGTGAATAAGTCTCACAAGATCTAATGGTTTTAAAAAGAGGAGTTCCTT
TGCACAAGTTCTCTTTTTGGCTGCTGCCATCCATGTAAGATGTGAGTTGCTTCTCCTTGCCTTCCTGTATGATTGTGAGGCTTCCTGAGCAACATGGAAC
TGTGAGTGAGTGCTCAATTAAACCTCYTTCCTTTGTAAATTGCCCAGTCTCAGGTATGTCTTTGTCAGCTGCATGGAAATGGACGAATACAGTAAATTGG
TMCTGGTAGAGTTGGGTGCTGCTGAAAAGACAACCAAGAATGTGGAAACGACTTTGGAACTGGGTAACAGGAAGAGGTTGGAACAGTTTGGAGGGCTCAG
AAGAAAAAAGAAAATGTGAGAAAGTTAGTTTGGAATTTTCTAGAGACTTGTTGAATGGCTTTGACAAAAAATGCTGATAGTGATATGAACAATGAAGTCC
AGGCTGAGGTGGTCTCAGATGGAGATGAGGAACTTGTCGAGAACTGGAGCAAATGTGACTCTTGTTCTGTTTTAGCAAAGAGACTGGCAGCATTATCCCC
CTGCCCTAGAGATTTGTGGAACTTTGAACTTCAGAGAGATGATTTACGGTATCTGGTGGGAGAAATTTCTAAGCAGCAAAGCATTCAAAGGCAACTTGGG
TGCTCTTAAAGGCATTCCATTTTATAAGGGAAGCAGAACATAAAAATTCAGAAAATTTGCAGTCTGGCAATGCAATAGAAAAGAAAATCCCATTTTGTGA
GGATAAATCCAAGCGAGCTGCAGAAATTTGCATAAGTAATGAGGAGCCAACTGTTAATCCCCAAGACAATGGGGAAAATGTCTCCAGTATATGTCAGAGG
TCTTCATGGCAGCCCCTCCCATCACAGGCCTAGGGGCCTAGGAGGAAAAAGTGGTTTAATGGGCTGGRTTCAGGGTCCCTGAGCAGTGTGCAGCCTAGGG
ACTTGGTTCCCTGCATCCCAACCACTCCAGTTGTCACTGAAAGAGGCCAAGGTACAGCTTGGGCTGTTGCTTGAGAGGGTGGACGCCTCAAGCCTTGGCA
CCTTCCATGTGGTGTTGAGCCTGTGAGTAAACAGAAGTAAAGAACTGAGGTTTGGGAACCTCTGCCTATATTTCAGAGGGTGTACGGAAATGCTTGGATG
ATCAGGCAGAAGTTTGCTGCAGGGGTGGGGCAGTCATGCAGAACCTCTGCTAGGGCAGTGTGGAAGGGAAATGTAGGGTCAGAGCTACCACACAGAGTTA
CTACTGGGGCAGTGCCTAATGGAACTGTGAGAAGAGAGCCACTGTCCTCCAGACCCCAGAATGGTAGATCCACCAACAGCTGGCACCRTGTGCCTGGAAA
AGCCACAGACACTCAATGCCAGCCCATGAAAGCATCCATGAGGGAGGCTGTACCCTGTAAAGCCACAGGGGCAGAGCTGCCCAACACTATAGGATGCCCC
TCTTTGCCTTCCACCATGCTTGTCAGGTCTCTCCAGCCATGTGAAACTGTAAGTCCAATAAACTTCTTTCTTTTGTAAATTGCCCGGTCTTGGGTATGTC
TTTATCAGTAGCATGAAAACGGACTAATATGGAGGACTCAGAAGACAGGAAAATATAGGAAAGTTTGGAACTTCTAGAGACTTGTTGAATGGCACTGACC
AAAATGCTGATAGTGATATGGACAATAAACTCCAGGCTGAGGTGGTCTCAGATRAAGATGAGGAACTTGTTGAGAACTGGAGTAAAAGTCACTCTTGTTT
TGCTTACCCTGCAGAGCCACAGGGGCAAAGCTGCCCAAGAACACCTCCTGCATCATTTTGACCTGGATGTGAGACATGGAGTCAAAGGAGATCAGTTTTG
AACTTTAAGGTTTAATGACTGCCCTATTGAATTTTAGACTTGCATGGGGCCTGTAGCGCCTTTGTTTCAGCAAGGAAACTGGTGGCATTTTGCYCTAGCC
MTAGAGATCTGTGAAACTTTGAACTTGAGGGAGATGATTTAGGGTATCTGGCCGAAGAAATCTCTAAGCAGCAAAGCACTCAAGAGGTGACTTTGGTGCT
ATTAAAATCTCTCAGTTTTATGTATTCAGAAAGACATGGTTTGGAATTGGAACTTATCTTTAAGAGGGAAGCTGAGCATAAAAATTCAGAAAATTTGCAA
CCTGAGGATGTGATAGAAAAGAAAAACCCATTTTTTGAGGAGAAACTCAAGTGGGCTGCAGAAAATTTGCATAAGTAACAAGGAGCCAAATGTTAATCAC
CAAGACAATGGAGAAAATGTCTCCAGGGCATGTCAGAGACCTTAGTGGCAGTCCCTCCTATCATAGACCCAGAKGCCTAGGCAGAAAAAACGATTTCACA
GGCCAGGCCCCAGWCCCTCTGCTGTGTGCAGCCTAGGGACTTGGTGCCGTGAGTCCCAGCTGTTTCAGCCATGGCAGAAAGGGGCCAATGTACAGCTCAG
GTTGTGGCTTCAGAGGGTGCAAGCCCGAAGCCTTGGCAACTTCCATATCATGTTAGGTCTGTGGTGTGCAGAAGACAGAAATTGAGGTCTGGGAACCTCC
ACCTAGATTAAAGAGGATGTATGGCAATGCCTGGATGTCCTGGCAGAAGTTTGCTACAGGGGTGGAGCCCTCATGGAGAACCTCTGCTAGGGCAGTATGG
AAGGGAAATGTGGGGTTGGCGCCACCACACAGAGTTCCTACTGGTGCACTGCACAGTGGAGCTGTAAGAAGAGGGCCATTGTCCTCCAGACCCCGGAATG
GTAGATCCACCAACAGCTTGCACTGTRCACCTGGAAAAGCCACAGGCAGTCAATGCCAGCCTGTGAAAGCAGCTGGAGGGGAGGTGCTGTACCCTGCAAA
GCCACAGGGGCAAAGCTGCCCAAGGCTGTGGGAGCACACCTCTTGCATCATTTTGACCTGGATATGAGACATGGAGTCAAAGGAGATCATTTTTTAACTT
TAAGGTATAACAACTGCCCTTTTGAATTTTAGACTTGCATGGGACGTGTAGCCCCTTTGTTTTGGCAGATTTCTCCCATTTGGAATGATTGTATTTACCC
AGTGCCTGTACCATCATTGTATCTGGGAAGTAACTAACTTGCTTTTGATTTTGCAGGTTTATAGGCAGAAAGGACTTGCCTTGTCTCAGATGAGACCTTG
GACTTGGACTTTTGGGTTAATGCTGGAATGAGTTAAGACATTGGGGGACTTTTGGAAAGGCAAGATTGTGTTTTGAAATGTGAGGATATTAGTTTTGGGA
GAGGTGAGGGGCAGAATAATATGATTTGGCTATGTCACCACCCAAATCTCATCTTGAATTGTAGTTTACATAATCTCCATGTGTTGCGGGAGGGACCCAG
TGGGAGGTAATTGAATCATGGGGGTGGTTATTGTCATGCTGCTGTTCTTGTTATAATGAGTTCTTATGAGATCTAATGGTTTTGTAAGGGACTTTTCCCC
CTTTGCTTGGCACTTCTSTCTTCCTGCCACCATGTGAATTAAGGACATGTTTGCTTCCCCTTCCACCATGATTATGTTTCCTGAGGCCTCCCCAGCCCTG
TGGAACTGTGAGTCAATTAAACCTCTTTCCTTTATAAATTACCCAGTCTTGAGCAGTTTTTTATAGCAGCATGAGAATGGACTAATACACCAGGGAAATT
CACAATCTAATGGGAGGATCTTAGCTGAACTTCTGAACTCTTGGCTCAAGTCTAAAATCGTCACTTAGATGAGGGTACTGAGAGTTAAATGATATTCTGG
TTGCTTGGAAAAGAACAGACCTCTCTTCTAAGCTGTCTACCAGCTGCCTACTTTACCTCTCTACTCAGAGGTCTTCCAGACACTTCATGTTCAGAATACC
TCTATTCATTTTCTGCTGATATGGTTTTGCTGTGTCCCCACCCAAATCTCATTTTGAATTGTAGCTCCAATAAYTCTCATGTGTTGTGGAAAGGACCCAA
TGGGAGACACTTGAATCATGAGGGCAGTTTCCCCCATATTGTTCTCCTGGTACTGAATAAGTCATGGATCTGATGATTTTATAAGGGGTTTCCTCTTTTG
CTTGACTCTCTCATTCTCTTTTTGCCTGACACCATGTAAGACATGCCTTTTGCCTTCTGCCATGTTTGTGAGACCTCCCCAGCCATGTGGAACTCTTGAG
TCCATTAAACCTCTTTTTTCTTTGTAAATTATCCAGTCTCAGGTATGTCTTTATCAGCAGTGTGAAATTGACTAACACACCCTCAAATATACTCCTCATC
CAACCTTCCCTTTCTCAGTACATCTTACCAACATACTCAACTGCTCAGGCCAGAAAACAGGGTTGTCTCTGATTCCTCCCTCTTAATTCCCTACCTCTAA
TCAGTTGCCAAGTCCTGTTGATTCTCCCATACAAATATATCTCATATTTATTGACTTTTCTTCATTTTCATTACCCCTGTCCTAATCCAGTCACCACCTC
CATACAATATTGTACCAACTGGGCCATCTCCCTCCCTTTCTGCTGACTTTCAAAGACTCCATAAGACTCAGTATAAATGTACCTGCTTGTTCACTATTTT
CCTACTAGAGTAAAAGCCTGCTGCTGGCAAGCATCATATTTATCTTGTCTGTCAGAGGGTCACTAGAACTGAGGACAACATTTTGGTACATATCGGGTGA
TTCATAAATAGATAAGGAATTTAGAAACCTCAATAGTGAATGCTGACATTAAATAGTCTTCTTTGAAATATATTTTTTTCTGTTTAAATTGGGTTTATTA
TTTTTCCTCAATTAAAGGATGTAATTCTGTGAAAATTTTTCTTAATATTTGCATGTTGAAAACTTTGAATCATTTGGTCAAAGAAAATGTAATGTATTTC
TTTTTTAAATGCATACGTGCTGATGTATAAGATCTGTACAGGTTTGTCCAAGGCTCCCTCACAGACCCTATAGTCTAGAAGAGAAACTATTTGGAATATA
TGAAAATAAGATTTGAGTTTATTTTTTTTAAGTAGGGTACTCATTTATTCAGATTAATAGACAGAAGCAAATAATTTTCCAAAGTAGATGTAAAAAATGT
ACATTCCTATAAGCAATATATTAGTTCTAATTGTTAAATTCTTCGTCTACACTTGATTTTTTATAGTCATTTTCATTTTAGCTATTCCAAGTAGGCATAG
AGTGCTCTTATGTTATAGTTTTCATTTGCATTTCCCTGTCTTATGTAATATGCAACTTTTTGTATTTTTAATCAATATATATTTGTACATATTTATGTGG
GGCACATGATATTTTGCTACATTCATCAAATGTGTAATGATTAAATCAGGATATTTAGARTATCTGTCACCTCGAGTATTTGTCATTTCTTTTTTTTTTT
TTTTTTTTTTGAGACCGAGTCTCAGTCTGTCACCCAGTCTGGAGGGCAGTGGCACATTCTCAGCTCACTGCAAGCTCACTCCGTCTCCTGGGTTGAAGTG
ATTCTCCTGCCTCAGCCCCCCAAGTAGCTAGGACAGGCATATGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGG
CCAGGCTGGTCTTAAACTCCTGACCTCAAGTGGTCCATCCGCCTCRGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCCGGCCATATTTA
TCATTTCTATGTGTTGGGAAGTCCCCTCTTCCCACTATTTTAAAGTATGCAATACATTATTTTTAACAATAATCACCTTACTCTGCTATCGAAGAACTTA
TTTATTCTAACTAGTATGTTTGTGCTCATTAATCAATATCTCTTCATTCCTCCTAACCCCCAACCATACACCCTTCTCAGCTTCTGATGTCTGTCATTCT
ACCCTCACTTCCATGAGATCAACTTTTCTAGCTCCCACATAAGAGTGAGAGCATGAGATATTTGTCTTTATTTGCTAGACTTATTTCATTTAACATAATG
ATCTCCAGTTCCATTAATGATGCTGCAAATGTCATAATTTTATTCTTTTTATGTCTGAATATTATTCCATTGTGTATGTATACCACATTTTCTTTATCCA
TTCATCAGTTGATGGACACTTAGGTTGATTCCATATCTTTGCTATTGTGAAGACTGCTGCAATAAATATGGGGGTGCAATTATCTTTTTAATATACTAAT
TTCTTTTCCTTTGATAARTACCCAGTAGTGGGATTGCTAGATCATATGGTAGTTCTCTTTTGAGATTTTGAGAAATCTGCATACTGTTTTCCATAGTGGC
TATACCAACTTATATACCTACAAACAGTGTTATGAGTTCCCTTTTCTCCACATCCTTGCCAGCATCTGTTGTTTTTCTGTTTTTAGTAATAGCCATTCTA
ACTGGGGTAAGATGATATCTCATTGTGGCTTTGATTTGCATATTCCTGGTGATTAGTGATATTGAGCATTTTTTCATATACCTGTTGGCCATTTGTATGT
TTTCTTTTCAGAAATGTCTATTCATGTCCTTGCCCACTTTTTAATAGAATTTTTTTGTTTTTGTTTTTTAACTGTTGCTTGATTTTCTTGTATATTCTGG
ATATTAGTTCCTTGTTGTATGAACAATTTGCATATATTTTCTTCCATTCTATAGATTTTCTCTTCACTATGTTGATTCATTTGCTATACAGAAGGTTTTC
GTTTTTAGTTTAGTCCCATTTGTCTGTATTTGTTTTTGTTGCCTGGGTTTTTGAGGTCTTAATCATAATAATCTTTGCTTAGGTCAATGTCCTATAGAAC
TTCCCTTATGTTGTCTTCTAACAGTTTTATAGTTTTTGGTCTTACTTAAGTCTTTAATCTATCTTGAGTTGATTTTTGTATATAGTGAGAAATGGAGTCT
AGTTTCATTCTTCTGCATGTGAATATCCAATTTTCCCAGCACCACTTATTAAAAAAGATGTCCTTTCTTCAATATATGTTCTTGGCACCTTTGTCATAAA
TCAGTTGGCTATAAATACATGCATTTATTTCTGGAGTCTATGTTTTATTGGTCTATATGTCCATTTATATACTAACACCATGCTGTTTTGTTTACTATAC
CCTTGAAGCATATTTTGAAGTCAGGTAGTGTGGTGCCTCCATCTTTGTTCTTTTCGTTCAGGATTGCTTTGGCTACTCAAGCTCTTTTTTGGTTCCATAG
AGATTTTGGAATTGTTTTTCCTGTTTTTCTGAATAATGTATTGGTATTTTAAAAATAAAGATTGCGGGGGAGGAGCCAAGATGGCCGAAYAGGAACAGCT
CCGGTCTACAGCTCCCAGCRTGGTGGATGCAGAAGATGGTGATTTCTGCATTTCCATCTGAGGTACCGGGTTCATCTCTCTAGGGAGTGCGAGACAGTGG
GCGCAGGTCAGTGGGTGCGCGCACCGTGCGCGAGCCAAAGCAGGGCGAGGCATTGCCTCACTTGGGAAACGCAAGGGGTCAGGKAGTTCCCTTTCCCAGT
CAAAGAAAGGGGTGACAGATGGCACCTGGAAAATCAGGTCACTCCCACCTGAATACTGCGCTTTTCCGACGGGCTTAAAAAACGGCGCACCATGAGATTA
TATCCCGCACCTGGCTTGGAGGGTCCTACGCCCACAGAGTCTCGCTGATTGCTAGCACAGCAGTCTGAGATCAAACTGCAAGGCGGCAGTGAGGCTGGGG
GAGGGGCGCCCGCCATTGCCCAGGCTTGATTAGGTAAACAAAGCAGCCAGGAAGCTCGAACTGGGTGGAGCCCACCACAGCTCAAGGAGGCCTGCCTGCC
TCTGTAGGCTCCACCTCTGGGGGCAGGGCACAGACAAACAAAAAGACAGCAGTAACCTCTGCAGACTTAAATGTCCCTGTCTGACAGCTTTGAAGAGAGC
AGTGGTTCTCCCAGCATGCAGCTGGAGATCTGAGAACAGGCAGACTGCCTCCTCAAGTGGGTCCCTGACCCCTGACCCCTGAGCAGCCTAACTGGGAGGC
ACCCCCCAGTAGAGGAACACTGACACCTCACATGGCAGGGTACTCCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAAACAGAA
AGGACATCCACACCAAAAACCCATCTGTACATCACCATCATCAAAGACCAAAAGTAGATAAAACCACAAAGATGGGGAAAAAACAGAACAGAAAAACTGG
AAACTCTAAAAAGCAGAGCRCCAATCCTCCTCCAAAGGAACGCAGTTCCTCACCAGCAACGGAACAAAGCTAGATGGAGAATGACTTTGACGAGCTGAGA
GAAGAAGGCTTCAGACGATCAAATTACTCCGAGCTACGGGAGGACATTCAAACCAAAGGCAAAGAAGTTGAAAACTTTGAAAAAAATTTAGAMGAATGTA
TAACTAGAATAACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAACCAAGGCTCGAGAACTACGTGAAGAATGCAGAAGCCTCAGGAGCCG
ATGTGATCAACTGGAAGAAACGGTATCAGCGATGGAAGATGAAATGAATGAAATGAAGCGAGAAGGGAAGTGTAGAGAAAAAAGAATAAAAAGAAACGAG
CAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAATCTACGTCTGATTGGTGTACCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACA
TGCTGCAGGATATTATCCAGGAGAACTTCCCCAATCTAGCAAGGCAGGCCAACGTTCAGATTCAGGAAATACAGAGAACACCACAAAGATACTCCTCAAG
AAGAGCAACTCCAAGACACATAATTGTCAGATTCACCAAAGTTGAAATGAAGGAAAAAATGTTAAGGGCAGCCAGAGAGAAAGGTCGGGTTACCCTCAAA
GGGAAGCCCATCAGACTAACAGCAGATCTCTCGGCAGAAACCCTACAAGCCAGAAGAGAGTGGGGGCCAATATTCAACATTCTTAAAGAAAAGAATTTCC
AACCCAGAATTTCATATCCAGCCAAACTAAGCTTCATAAGCGAAGGAGAAATAAAATACTTTACAGACAAGCAAATGCTGAGAGATTTTGTCACCACCAG
GCCTGCCCTAAAAGAGCTCCTGAAGGAAGCACTAAACRTGGAAAGGAACAACCAGTACCAGCTGCTGCAAAATCATGCCAAGATGTAAAGACCATCGAGA
CTAGGAAGAAACTACATAAACTAACGAGCAAAATAACCAGCTAACATCATAATGACAGGATCAAATTCACACATAACAATATTAACTTTAAATGTAAATG
GACTAAATGCTCCAATTAAAAGACACAGACTGGCAAATTGGATAAAGAGTCAAGACCAATCAGTGTGCTGTATTMAGGAAACCCATCTCACGTGCAGACA
CACATAGGCTCAAAATAAAAGGATGGAGGMAGATCTACCAAGCAAATGGAAAACAAAAAAAGGCAGGGATTGCAATCCTAGTCTCTGATAAAACAGACTT
TAAACCAACAAAGATCAAAAGAGACAAAGAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAACTATCCTAAATATATATGCACCC
AATAAAGGAGCACCAAGATTCATAAAGCAAGTCCTGAGTGACCTACAAAGAGACTTAGACTCCCACACATTAATAATGGGAGACTTTAACACCCCACTGT
CAACATTAGACAGATCAACGAGACAGAAAGTCAACAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAAGCGGACCTAATAGACATCTACAGAACTCT
CCACCCCAAATCAATAGAATATACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATAATTGGAAGTAAAGCTCTCCTCAGCAAATGT
AAAAGGACAGAAATTATAACAAACTATCTCTCAGACCACAGTGCAATCCAGCTAGAACTCAGGATTAAGAATCTCACTCAAAACTGCTCAACTGCATGGA
AACTGAACAACCTGCTCCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAAGGAGAACAAAGACACAACATA
CCAGAATCTCTGGGACGCATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCCAAAATTGACACCCTA
ACATCACAATTAAAAGAACTAGAAAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAACTAAGATCAGAGCAGAACTGAAGGAAATAG
AGACACAAAAAACCCTTCAAAAAATTAATGAATCCAGGAGCTGGTTTTTTGAAAGGATCAACAAAATTGATAGACCACTAGCAAGACTAATAAAGAAAAA
AAGAGAGAAGAATCAAATAGACGCAATAAAAAATGATAAAGGGGATATCACCACCGATCCCACAGAAATACGAACTACCATCAGAGAATACTACAAACAC
CTCTACGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTCGACACATACACTCTCCCAAGACTAAACCAGGAAGAAGTTGAATCTCTGAATA
GACCAATAACAGGATCTGAAATTGTGGCAATAATCAATAGTTTACCAACAAAAAAGAGTCCAGGACCAGATGGATTCACAGCTGAATTCTACCAGAGGTA
CAAGGAGGAACTGGTACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATGAGGCTAGCATCATCCTGATA
CCGAAGCCAGGCAGAGACACAACAAAAAAAGATAATTTTAGACCAATATCCTTGATGAACATTGATGCAAAAATCCTCAATAAAATACTGGCAAACTGAA
TCCAGCAGCACATCAAAAAGCTTATCCACAATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAATATACGCAAATCAATAAATGTAATCCA
GCATATAAACAGAGCCAAAGACAAAAACCAAATGATTATCTCAATAGATGCAGAAAAAGCCTTTGACAAAATTCAACAACCCTTCATGCTAAAAACTCTC
AATAAATTAGGTATTGATGGGACATATTTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAGCAT
TCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAAGGCAATTAGGCAGGAGAAGGA
AATAAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGATGACATGATTGTATATCTAGAAAACCCCATTGTCTCAGCCCAAAAT
CTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAGCATTCTTATACACCAACAGACAAATAGAGAGCC
AAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAARGACCTCTTCAAGGAGAACTA
CAAACCACTGCTCAAGGAAATAAAAGAGGATAAAAACAAATGGAAGAACATTCCATGCTCATGGGTAGGAAGAATCAATATCGTGAAAATGGCCATACTG
CCCMAGGTAATTTACAGATTCAATGCCATCCCCATCAAGCTASCAATGCCTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAACCAAA
AAAGAGCCCGCATCGCCAAGTCAATCCTAAGCCAAAAGAACAAAGGCTGGAGGCATCACACTACCTGACTTCAAACTATACTACAAGGCTAGAGTAACCA
AAACAGCATGGTACTGGTACCAAAACAGAGATATACAAGAATGGAACAGAACAGAGCCCTCAGAAATAACGCTGCATATCTACAACTATCTGATCTTTGA
CAAACCTGAGAAAAACAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGAWCCC
TTCCTTACACCTTATACAAAAATCAATTCAAGATGGATTAAAGACTTAAACRTTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCATTACCA
TTCAGGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGACAAAATTGACAAATGGGATCTAATTAAACTAAAGAG
CTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAAAATGGGAGAAAATTTTCACAACCTACTCATCTGACAAAGGGCTAATATCC
AGAATCTACAATGAACTCATACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCRAAGGACATGAACAGACACTTTTCAAAAGAAGACA
TTTATGCAGCCAAAAAACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGACACCATCTCACACCATTTAG
AATGGCAATCATTAAAAAGTCAGGAAACCACAGGTACTGGAAAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAA
CCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTGGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGACTATA
AATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCATTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGA
CTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAA
AACATCATTCTCAGTAAACTATTGCAAGAACAAAAAACCAAAGACCGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGAACACATGGACACAGGA
AGGGGAATATCACACTGGGGACTGTTGTGGGGTGGGGGGAGGGGGGAGGGATAGCATTGGGAGATATACCTAATGCTAGATGACGAGTTAGTGGGTGCAG
TGCACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTAAAACTTAAAGTATAATAAAAATAAAAATAAAAAAAATA
AAAATAAAAATAAAGATTGCACTGAATCCATACATTGCTTGGGTAGAATGGTCATTTTAACAATATTAATACTTCAGATCCATGATCATGGGATGTCTTT
GCATTCRTGTGTGTTGTCTTCAACGTGTTTCATCAGATTTTTGTAGTTTTCCATGTAGAGGTCTTTATCCATCTTGGTTAAATTTATTTCTAATTTTTTA
TAGCTATTGTAAAAGGGATTGCCTTCTTAATTTCTTTGTCAGCTAGTTCATCATTGGTATATAGAAATACTACTGATTTTTTTGTATATTGATTTTTGTA
TCCTGCAACTTTACTCAATTTATTTATCAGATCTAAGAGTTTTTTGATGGAGTCTATGTTTTTCTAGATATAGGATTATGTCATCTACAAAGAGGGACAA
TTTGACTTCCTCTTTTCCAGTTTGGATGCCTGATTGTTCTGAGTAGGACTTCTAGTACAATTTTGAATAGCAGCAGTGATAGTGAGCACCTTGTCCTTTT
CTAGTTCTTAGAGGAAAGGCTTTCAACTTTCCACATTCAATATGATATTAGCTGTGGTTTTATTATGTGTGGTGTTTATTATGTTGAGGCATGTTCCTTC
CTAGTATTTTTAGTTTTTATYATGAAGTGATGTTGAATTTTATCAAATGCTTTTTCTGCATATATTGAGAGGATAGATGCAAAAAAGCATTTTTATGCGA
AGTCACCCAGTACTGAACTTTTTATTGTTGGGAGTCTTTATTGCTGATTTAATCTGATTACTTATTATTGGTCTRTTTAGGTTTTCTATTTCTTCCTGAT
TCAATCTTGGTATATGTGTCCAGGAATTTATCCATTTCATCTAGGTTTTCTAGTTTGCTAATACATACTTGTTCAAAATAGTCTCTGATACTTTTGTATT
TCTGTGCTATCAGTTATAATGTCTCCTTTTTCATTTCTGATTTTATTTTTGGAGGTCTTCTCATTTTTCTYGGTTAGTCTAGCTAGTGGCTTATTCATTT
TGTTTATCTTTTCAAAAAACCAACTTTTGTTTCCTTGACACATTGTACTTTTTAAATTTTTATTTTATTTAGTTCTCTTATCTTTATTATTTCTTTTATT
CTACTACTTTGTGGCCTAGTTAGTTATTGCTTCTCAAGTTCCTTGAGGTGCATTATTAGGTTGCTTATTTGAAACATTTTTAGTTTTTTGTTGTTGATAT
TTATTGTGTTAAACTTCCTTTTGACTACTACTTTGTGTTGTTTCCATTTTCATTTGTTTCAAGAAATTTATTGATTTATTCCTTAATTATCTCTTTGACC
CAAAGGTCATTCAGAGACWTTTTTTTTAATTTTCATGTATTTATACAGTTTCCAAAGTTTCTTTTGTTATTGATTTCTAGTTTTATTCATTGTGGTCTGA
GAAGAAACTTGATATAATTTAGATTTTTAAAAAATGTTTTGAGACTTATTTTGTATCCTAGCATCTGGTCTATCCTGGAGAATAGTTCCATGTGCTGACA
ATGAGTACTCTGCAGCTGTTCAACAAAATGTTCTGTAAATATCTGTGAAGTCCATTGGYCTAAAATGCAGTTTAAATCCAACGTTTATTTATTAATTTTC
TGTCTAGATGAGCTGTCTGGTTCTGAGAGTGGGATGTTGAATTCCTCAACTATTTTTGTGTTGAAGTGTCTCTCTCCCTTTAGATCTATTAATRTTTGCT
TTGCATATATCTGGGTGTGATACTGCTTCTCAGCCTTTTGGCTAAGATCAGGTTTAGTATCTGGTTGCTCTGGTATTGGTGCATATATGTTTAGAACTAT
TCTATCCTCTTACTGAATTGATCTCGTTGTCATTATATAATGACTGTGTCTTCTTTTTACTGTTTTGACTTAATTTCTGTTTCATCTAATATAAGTATAG
CTACTCTTGCTTTTTTGCTTTTGTTTGCATGAAGTATATTTTTCTGTCTTTCACTTCTAGTCTATATCTGTCTTTTCTATCTTTTACTTCTAGTCTGTAT
CTGTGTACAGGTGAGATGAGCTTCTTAGCACATAATTAAGTCATGTTCTTTAATCAATTCACCCATTCTATGTCTTGTGAATGGAAATCTTAGTCTGTTT
ACACCCAAGGTGATTATCGATATCTGAGTCTTCATTCCTGTCATTTTGTTAATTGATTTATAATTGTTATGTATATCTTTTGTTCCTTTCTCTCTCTCTC
TCTCTGTCTTATTGTTTATCATTGCAGTTGGGTGGTTTTCTGTAGTGCTAACATTTGATTCCTTTCATTTCCTTATTTGTGTTTGCTCTACCAGTGGGTT
TTATACTTTCAAGTGTTTTCATAATGATAGATATCATCCTTTTGCTTTCACATGTCAGCCTCCCTGAGGTATTTCTTGTAGTGCTGGTCTAGTGGTGATG
AATTCTCTGAGCTTTGCTTCTGTGAGAAAAGACTTTATTTTTCCTTCATTTATAAAGGACAACTTGGCTGGGTATATGGTTTTTTCTTTCAGTGACTTGA
ATATATTATCCCATTATCTCCTGGACTGAATGATTTCTGCTGAGAAATCTGTTAGTCTGATTGGAGTTTCCTTATAAGTTACTAGATACTTTYCTTTTGC
TGTTTTTAGAACTCTCTATGTCTTTGACTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCCCCCATGCTGGAGTGCAGTGGCGTGATCTCAGC
TCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACRCGCCACCATGCCTGGCTAATTTTT
TGTATTTTTAGTAGAGATGGAGTTTCACCGTGTTAGGCAGGATTGTCTCGATCTCCTGACCTCGTGATCTGCCTGTCTTGGCCTCCGAAAGTGCTGGGAT
TACAGGCGTGAGCCACCGCACCCAGCCATCTTTGACTTTTGAAAGTTTGGCTACAATGCACCAYGGGGAGGACCTTGAATTTTATTTGTGTGAGTTTCTC
TGAGCTTCCTGCATCTAGATGTCTAAATCTCTTTTTGTTAGACTTGGGAAGTTTTCACCTATAATTTTGTWAAACAGGTTTTCTGTCCCTTTTATTTTCT
TTTCACCTTCTGGGACACTGAAAATTCAAATATGTCATGCAAGCTTTGTTCATTATTATTATTTTTTATGTTTTTAGTGTTCATCTGACTGGGTTATGTC
AAAAGACCTGTCTTCAAATTCTGATTCTTTCTTCAACTTGATATAGTCTATTGTTAAAACTTTTGAATGTATTTTGTATTTCTTTCAATGAATTCTTCAT
TCCAGAGTTTGTCTTTGGTTCTTTGTTTTTATACCTGTCTCTTTAGTAAATTTCTCATTCATATTATGAATTGTTTTTCTGAGTTGTAGTCTATCTCACT
GAGATAGGCTTTAATATTGTTATTTTGAATTATCTGGGATTTCAAAAAATTCTTATTCATTGGAATCTGTTGCTGGAGGATTATTTTGTTCATTTGGAGG
TGTCATATTTTCTTGCTTTTTCACATCTCTTGTGTCTTTGCAGTGGTATCTGTGTATCTGGTGTAGCAGTTGCTTGTTCTAATTTTTTTTTCTTTTCTTT
TTATTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACCATCTTGGCTTACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCT
GCCTCAGCCTTCCAAGTAGCTGGGATTACAGGTGCCCGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTTACCATGTTAGCCAG
GATGGTCTCAATCTCCAGACCTCGTGATCTGCCTGTCTCAGCCTTCCAAAGTGCTGAGATTACAGCCGATTTATTAAATTATCTTTTGTCAGGGAAACTT
TTTCTTGAAGGTGTATCTATGCTGCCAGTTGGGTAAAGTTCCTTGGCTTTTGATTTTGGGTGCAGGCAGTAGCATAGTCTCTATGATTTATTTGACTGTA
AACAGTATCAGTAGTATCTATGATTCCTTCAGTGGCTTAGAGTGTGGTTATTAGTGGAAGCCTGTTGTAAAATTTTGCTGGGGACAGGGATGTGATGTGA
ATCAGTCTTTAGACCCCAGTGGTGGCAGCAGTGGGCCACATGTGCCTCTCCTAAGCTGCTCAGGACTTGGTGGATATGTGGGTCCTGGTGTGAGCTCCCT
CTCTGAAGCAATGCCATCACATGATTTCCAGGCAGCTCTCTGTATCAGTTTCAGAGACCACATGGGTTGACAGACTTCCCCAAGGCTAGGACTGCAGGAG
TACATGGTGGGAATGTGGATGGCTGGATTCATTCACTTAATCTTTCCTCATATTTTAGGGAGCCTCTCTAGGCTCATAGATGATGCTAGCTGAGCAGGCT
GCCTTACTTCTCTCTTCTTCCTTACCTTAGGCATTTCCTGTAATTTCTCTGTTGAATTCAAAATTATATTTTAGATGATAAGTCTGATTACCTACTCACT
CCATTGGTTCTTCTCTGTGGAGCAGGCAAGTACCAGATGCCTCTAGCCTACCGTCTTGAAGACACCCTCCAAGACAAGTTTCTTAAAGGAGGTATGCTAA
GGTAGAACCTTTTTTTTGTTAGAAGTTATAAAATTCCAATGGAATGAGTATATACAAAAAGAGAACATTATTGGTTCATGTAAACATGATGTTGGCTATT
ATCAGTGCTTACTTGTTCCTGCGTTTGTCTCTGCCTCACCTGCCTAACAGCTTGTTCTTTCAGCCTTGCTTTCTTCATGAAGCTGGAACTGTAGCCAGCT
CTAAGTTCACTTCATGCCAGATGCATAAGCAAAGGAGAAAGGATCTCCAATTACACCTCGCAAACCGACATTCATTCTGTGCAAATGAGAAATATCTCAG
GGGAGGACTCAGGCCCGACTTGGGCCACACACACACCCATTGGCCAGTCACTGTGAAACAATTTTGTAGACYGGTTGTGAGGGCAGAAGTAGAATTTAAC
AACCTTTTCTGGAACCACATAATTGAAGGAAGGGGGAAAAGTTCCCCCTAAATGATTTTGGACGCACAGTTACCAGAAGAAGAGATAAAGATAAGGAGAA
GAAAAAGGAAAAAATAAAAACAGAAACAGTATATACTCTAGGAGGTACATATGGAGTATCATGGGAATTTAGAAGAAAGAGATTATTTCTTAGAAGAATT
CAGTGAAATCTGATGGAGTCTTTAAAAAATGAAGGAATATATACTCTCAAGTGGTTGCAAAGAACATTTCAGGATAGACAATACCAGCTTGAAAATATGA
GTTCAGTGTAGATGTTTTAAAAATAAGAAAAGCAGAGTAGTTAAGTGTAGTTAACTACACTTTGAAATTAATTTTTAGTTTATTTTATTTTTTTGAGATG
GAATCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCTCTATCTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCCTCAACCTCC
TGAGTAGCTGGGACTACTGGCGCCTGCCACCACGCCTGGTTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCAAT
CTCCTGAGCTCGTGATTCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTCACAGACGTGAGCCACTGCACCCAGCCTGAAATTAATTTTTTAGTCCACAT
GAAGCAGATGAGGAACATCAAAACCATCTTTAAATATATCAGTCTTGTAGATGTTTGTGAATTAAATTGATTGACAGAGACAGACTAACAAGAAGTTATT
TCAGTGATCTATGTGGAAAGTCTTGAGAGCCTGAATGTAATGAGAATAATACCAAGATATAAGCAGAATCTTGCACTGAACATTGCCAAATATTAAATAC
TGTCCCTAGTTATTTGTCAGTGATATTTTAATGATTATTGCCATCTTCCTCTTTTTTCCCCATTCTCCAAAACTGCATTATTATAATATACAGTATTATA
ATATATATATTATATATATAATAATATATATATAATATAATATAATATAATAAGGTTATGGATTAACTCCTCTTAATTATCTGAAAAGAGATAACGTTCA
TGTGCTCAGCACACAACTAAGTAGTCTGATTTGGTGTTTTTTATTTTATTTATTTTAGAAAAGAAGACTTTCAAAAGGAGAAAAATCTACTGCCAAATAA
CTCAGCACCTCTTACAGAACCACAAGATGTGGAAGAAAGTCATTGAAGAGGAGCAACGGTTGGCAGGCATAGAAAATCAATCCCTGGACCAGACCCCTCA
GTCGCACTCTTCAGAACAGATCCAGGCTATCAAGGAAGAAGAAGAAGAGAAAGGGAAACCAAGAGGCGAGGAGATACCAACCCAAAAGCCAGACCAGTGA
CAATGGATAGAATGGGCTGTGTTTCCAAACAGATTGACTTGTCAAAGACTCTCTTCAAGCCAGCAYAACATTTAGACACAACACTGTAGAAATTTGAGAT
GGGCAAATGGCTATTGCATTTTGGGATTCTTCGCATTTTGTGTGTATATTTTTACAGTGAGGTACATTGTTAAAAACTTTTTGCTCAAAGAAGCTTTCAC
ATTGCAACACCAGCTTCTAAGGATTTTTTAAGGAGGGAATATATATGTGTGTGTGTATATAAGCTCCCACATAGATACATGTAAAACATATTCACACCCA
TGCACGCACACACATACACACTGAAGGCCACGATTGCTGGCTCCACAATTTAGTAACATTTATATTAAGATATATATATAGTGGTCACTGTGATATAATA
AATCATAAAGGAAACCAAATCACAAAGGAGATGGTGTGGCTTAGCAAGGAAACAGTGCAGGAAATGTAGGTTACCAACTAAGCAGCTTTTGCTCTTAGTA
CTGAGGGATGAAAGTTCCAGAGCATTATTTGAATTCTGATACATCCTGCCAACACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGA
AAGAGAGACAGAAGGGAATGGTTTGAGAGGKTGCTTGTGTGCATGTGTGTGCATATGTAAAGAGATTTTTGTGGTTTAAGTAACTCAGAATAGCTGTAGC
AAATGACTGAATACATGTGAACAAACAGAAGGAAGTTCACTCTGGAGTGTCTTTGGGAGGCAGCCATTCCAAATGCCCTCCTCCATTTAGCTTCAATAAA
GGGCCTTTTGCTGRTGGAGGGCACTCAAGGGCTGGGTGAGAGGGCCACGTGTTTGGTATTACATTACTGCTATGCACCACTTGAAGGAGCTCTATCACCA
GCCTCAAACCCGAAAGACTGAGGCATTTTCCAGTCTACTTGCCTAATGAATGTATARGAACTSTCTATGAGTATGGATGTCACTCAACTAAGATCAAATC
ACCATTTAAGGGGATGGCATTCTTTATACCTAAACAYCTAAGAGCTGAAGTCAGGTCTTTTAATCAGGTTAGAATTCTAAATGRTGCCAGAGAAGGCTTG
GGAAATTGTACTTCAGCGTGATAGCCTGTGTCTTCTTAATTTGCTGCAAAATATGTGGTAGAGAAAGAAAAGGAAACAGAAAAATCACTCTGGGTTATAT
AGCAAGAGATGAAGGAGAATATTTCAACACAGGGTTTTTGTGTTGACATAGGAAAAGCCTGATTCTTGGCAACTGTTGTAGTTTGTCTTTCAGGGGTGAA
GGTCCCACTGACAACCCCTGTTGTGGTGTTCCACACGCTGTTTGTTGGGGTAGCTTCCATCGGCAGTCTGGCCCATTGTCAGTCATGCTTCTTCTGGCCG
GGGAGATTATAGAGAGATTGTTTGAAGATYSGGTTATTATTGAAAGTCTTTTTTTTTGTTTGTTTTGTTTTGGTTTGTTTGTTTATCTACACTTGTTTAT
GCTGTGAGCCAAACCTCTATTTAAAAAGTTGATACTCACTTTCAATATTTTATTTCATATTATTATATATGTCATGATAGTTATCTTGATGTAAATATGA
AGATTTTTTTGTTTCTGTAGATAGTAAACTCTTTTTTTAAAAAAGGAAAAGGGAAACATTTTTATAAAGTTATATTTTAATCACCATTTTTATACATTGT
AGTTCTCTCCAAGCCCAGTAAGAGAATGATGATTCATTTGCATGGAGGTCGATGGACAACCAATCATCTACCTTTTCTAATTTAAATGATAATCTGATAT
AGTTTTATTGCCAGTTAAATGAGGATGCTGCAAAGCATGTTTTTTCACTAGTAACTTTTGCTAACTGAATGAATTCTGGGTCCATATCTCCCAGATGAAA
AACTGTTAACCAATACCATATTTTATAGTTGGTGTCCATTTCTTTCCAACACTGTTTGTTATGATTCTTCCTTSAGTACTTATATACAGACCTGCTCATT
ATCTAAACAATCTTACCTTCTAAGTAAACCTTGATTGTGATTTCCAGTTTTTATTTTCTCTGACGTAGTAGAAAGGAATGTTTACATTAAAAATACTTTT
GTTTCTCATAAATGGATATTGTACTCCCCCCTTTCAAAGCATTATTTTACAATAATTCATGGCATTTTAAAAAATAAGGCAAAGATAATACGACAAAAAA
TATACATGGTTTCAAGGCAAATTCTCCAATAAGTTGGAAAATGTAAAAAGGATCAAGTGGATGCAGCCTCTACCTAAATAATTAAAATATATTTCAGTAT
ATTTCTGAATTAACACCAGGTCTTCATTATTTAGAACTTACTAAATTGTTTTCATTTTCTTAGTTTTACCTGTGTATCTCCATGTTTGCAAAAATTACTA
TAAGTCAAATTTTGCCAGTGAATTTAACTATTTTTCTTTCCTTGCAATTAAGGGGAAAAAAGCATTTATCTTATCTTCTCATACCCCTTGCATCTAAGTA
CTTAGCAAAGTCAATATTTTCCCATTTTCCAAATGCGTCCATCTCTAACATAAATATTAATTGAACATAGAGCTATGTTTGGAGTGAGTGGACTGGCAGG
ACAGTTGGAAGTCCATCACAGTCTATTGACAGTTTCATCAAAGCTGTATAGTCCAACTAGTGGGGCAGCTTGGCTACTATGGTGGAAGTCTCAGCAAACT
GCCTGGTTTTGTTTGTTTGTTTTGTTTTAAGGTACAGGAAATAAGAGGAATAATAGTGGCCAAAGCAATTAGAACATCTTCATTCCAGAACTGTGTTCAG
CAATCCAGGCAGATTGATACATTTTTCTTTAAAAATAAATTGCTATTACAGCTAGACGTCAATTGGGATAAATAAAGGGATGAAGATCCACTAAGTTTGT
GACTTTCATACACACCCAGTACATCTCAAAGGATGCTAAGGGACATTTTCTGCCAGTAGAGTTCTCCCCCTTTTTGGTGACAGCAATATTATTATGTTCA
CATCTAACTCCAGAGCTTACTTCCTGTGGTGCCAATGTATTTGTTGCAATTTACTACATTTTTATATGAGCCTATTTATAGGTGCCATTAAACTCAGGTC
TTTCAAATGAAAGAGTTTCTAGCCCACTTAGGGAAAAAGATAATTGTTTAGAAAACCATAAAATCAATGGTAGGAAAAGTTGGAACTGGTTACCTGGATG
CCATGGTTCTCTGTTAAATAAAGTAAGAGACCAGGTGTATTCTGAGTGTCATCAGTGTTATTTTCAGCATGCTAATAAATGTCTTTCCGGTTATATATCT
ATCTAAATTAACCTTTAAAATATTGGTTTCCTTGATAAAAGCACCACTTTTGCTTTTGTTAGCTGTAATATTTTTTGTCATTTAGATAAGACCTGGTTTG
GCTCTCAATAAAAGATGAAGACAGTAGCTCTGTACAGGGATATATCTATATTAGTCTTCATCTGATGAATGAAGAAATTTTCTCATATTATGTTCAAGAA
AGTATTTACTTCCTAAAAATAGAATTCCCGATTCTGTCTATTTTGGTTGAATACCAGAACAAATCTTTCCGTTGCAATCCCAGTAAAACGAAAGAAAAGG
AATATCTTACAGACTGTTCATATTAGATGTATGTAGACTGTTAATTTGCAATTTCCCCATATTTCCTGCCTATCTTACCCAGATAACTTTCTTTGAAGGT
AAAAGCTGTGCAAAAGGCATGAGACTCAGGCCTACTCTTTGTTTAAATGATGGAAAAATATAAATTATTTTCTAAGTAATAAAAGTATAAAAATTATCAT
TATAAATAAAGTCTAAAGTTTGAAATTATTAATTTATAAAAGTGAACTAATTGTGTGATTATCAAATCCTGATTAATGAGAAGTGAATAATCTAAAAATC
ATTTATATTCTACTGTGGGAGGTATTCTTGGTGCTTCCATGTCAGTATCGGGCTCTCCATTGTCCTCATCATTTATAGTACTTCTAAAATAATAATGGAA
ACCTCAATAAGGGTCTTGTCCTCTTCTGTCATCCTAACCCTGATTCTAGTTTAATGCCTTTCCTGACTTATATGCCATTTGTAAATAAACTTCCTTTCAA
ACTGTTAGAACGCTCCAATAAAACAAAGTTCTATGAACTTTCATAGTCTAGAAAAACCAACAAGATCCCCCTTATTTAGAGATTATTAGCTAATGTGTGA
AAGAAATATCAATAGAAGTTCAAATGCTAATAGCTCAATTCCAGATAATTGAAAGCTAAAATATCTATGTACTTTGAAGCCAAACTGAGTTTATTTCATT
GATCGAACAAGCAGCAACACATTTTATGACCATTGTCCTAGGTCGTTTGTGTCTTTATGAATTTGCTGATATTGTCAGTCCATTTTTTAAATCTTCAACA
AAATTCAATTTTAAGATTAAGAAATCAGCAATTTTAGGTAAAGAATATTCCAAGATTAAATTGTTCTTTTTAAGAAATATATCAGTTTTAGGTCCTATGT
TCACACATCAATTTGTTCATCTGGAAGATATTCAAATTCTTATTGGGAATGAATTACACTACAAACAATGAGTTGAGCTAAAAACTATACATAACTTAAA
TTGAGATTTGCATACGTATTTGTGTGTTTCACACCAAAGACCCATGCTCAGAGAATGGTAACATATTTTCCAGTCTATGTTATGCACCATGGATGTTAGG
CAATGTGTGCTATTGCCAACACATGGTATTTGTTGAAATACATGTTGCTTTGACCTTACCTAATGGTGCTTTTACCTAACTTGAAGTGCTTTTTGTGTTC
CCACCAGCAAATCATTCTAACAGCAGGCTAACAATGGTGAAGTAAAATGAACATTTTTGGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTG
GGAGGCCAAGGCTGGTGGATCACCTGAGGTCGGGAGTTCGACACCAGCCTGACCAACACGGAGAAACCCCGTCTTTACTAAAAATACAAAATGATTCAGG
TGTGGTGGCGCATGTCTGTAATCCCAGCTACCCAGGAGGCTGAGGCAGAATCGCTTGAACCTGGGAGGCAGAGGTTATGGTGAGCTGAGATTGCACCATT
GCACTCCAGCCTGGGCAACAGGAGTTAAATTTTGCCTCAAAAAAAAAAAAAAAAAAAAAAAGAACATTTTTTGGCAAAATATGAAGACACGAAACTGAAG
ATAAAGGCTTCATTTCCATAGTGGAAATCAGTGTTTACCTGCTGATTCAAAAATACTGACCTAGTATCAGTGTAGGTAAGACCATAAAATACAGTGTATA
GAATTATATATAAATGGAAAACAAAATTAGCTTTTGACATATGTTTAAGTCTCTAAAAGGAATCCACATTTTCTTTCCAGATACAGCTAGTTTTTCTCCA
CATGTTTTTAAGGTTGATTTCCTTGACACACATTGGTATCCTTGGGTTTCTGCTTCCTTGAAAAGTTGTGGAGCACAGAAGAAAAGCCTTCTCTTTACAG
ATAAAAAATGTTGAACATGTTCATGTTCTGACAATGAAGCAATGATTTCCTCATTGCTTTGCATTAAGAAGTGGTTCTTTAGTTATGCAAATAATTCAAT
AACCAAAAATGCTTCAAAGAGTAATAATAAATCACCATAGGTAAGTATTCTCAAGAATGTTTAAATTTGGTTTATTTTCTTGAAGCAAAGTTATTTAATT
TTTTAATTTTTAACTTAAAATGAAACCCACAAAATGACATTCYGTGGTACTGAGTATTTTCACATAATCAGAACTGTAAACTACTGATTATTTTCATATA
CTCAGAGGCTGAATATTTTGATATAATAAGAACTAGTATCATATAACAGAAAACTAGAAAGAAGGTTTAATTCTTTTTCTAATATTCTACAAGCCTCATG
GGGAAAATGTTTTATGAAGGATTCAAATACATTAGATAAAAATTAGTGTCAATAATTTAACTTTGTACAAATTATAGTCTGAGATCTTCTGAGTTTTCCT
AAGACAAAGGAGTGTATTATCCAGCAATTTATTGTTTTGTGTTGTTATAAAATAAATGTTCTATTAATGTATATTTTATTTTACTAAGTTCTAACACAAA
AGGCCAAATACTTATCTTTCCTACTAAGAAAAATTAAACCTTACTAATCTTGACTTTCACAGATGAAACACTGACCAGTCAATAAACAACAGCCACTGCA
TTAATCTGCCCAGCATGATCAGATAGTAGGTTAGAATTTGAAATTCATTAATAAAAAATTAATAACAAAACTTTGTAAGCCTTAATGGTTTAATATTTCC
GTGTCATTGAAAGTTCCTATTTCAAATTAAACAAACTACAGCAGGATATTTTTCCTTTCCTGTTTCAAAACAAAAACCAGATGAAGAAAAAACAAAGACA
AACTCATAGGAGGAAAGCATGGCTTCTCTTCAATTATACTTCTCTTACTCAATATTAGTAACCAAAAAATAAGCAGAAATTCTCCTCTGCCATAATTAAA
AGAAAGAATGGCCTTCGACTTAAGTTCTAGTTCCTCAAGCCTGCTTTCCTTGTAAAGTCCATGGTACTAAGAAGCAAAAAATGCAGAGCTGTGGATTGGG
AGTGAACACTACATAAAATTTGCAGGGTATCCCAGGACACCCCTCAGTCTTTAATACAAACCAATTTAGTTACTCTGGAGTGAAATGACTTGTGGATACA
CTGTTCAACCATGACTTCCTTTATGACAAGGAGCACTTATACATGTTTCCAAATGTGAATTAGCCCTTGAATTAGTTTGAAAACTGCTACTTGAATAACT
TTTGAAGAGAAAGATTTTCTTTCCGGTAATTTTACTCCCTAAAAAAGGCAAAATACTCAGATGTTCAATGTGAAATTACAAATAGTTGTTTGAAGTATAT
ATACTTCAATAAATAGTTCTTTGTGTATATAAAGTGTTGGTTCATAGCAGTTTCCTTGTCCCTTTTCTTTTTAAAATTCCCAACTGATTATGGGTCAAAA
ACTCCATCTTATATCAGCGATGATTTCATTTTAACTATTTATAAGGATAATTTAGTATTATAGTATTGCTAACTTTAATAATTCTACCATATCTATATAT
TACCTGTTAGTGAGGTTTTAATGGCTTTACTTAATACATATTTGTTCATCAGCTTAAAAAATCACTAAATTTTTTATACTCTGTAAAATATTTGCATGGG
AATTTTAGCTTATTATGTTTGCTTAACTGGTGTTTTTTTCACTTATGACTGTCAGTTTATGTCTTAATGTATTCTCACAGAAGAATGCATACCATTTTTG
TTCCAACAAGAACAATCTGTTAGTTGATAAGCACTGGTAATAAATATCACTGAACCCACCCACCCCCTGATATTTCTTCCTCAAGTTTTCTATCATGCAA
ATCACAAAATGAAAATTGGTGCTTTTACAAATATTTGAAAGCTCTCAATGCAAAATAATAAAAATGAGATTCTCCCTGGCTTTCTATAATATATTAGGAT
ATGTGACTGAAGGAAATTTAATCTGAATTTAGAGTGTTTTAGGTTTTGGTTGGTTTGAATAATTTGATTTGCATTTTGGTATTAAAATGTGCTCTGATTT
CTGCGGGCATTTGTTCTGACCAGTCATTACCTCTTCCCAACAGAAAAAAAAAAAAAAAAAAAAAAACTGGCATTGGCAAGTTTTAATTAATATGGCCCAA
AAATTTGACCTTGAAGGATATTTGTAAACCAGAGAGTATTTAATTAACTAAATTTACTGTTTCTGAAAAGCAATATTTTCAAATAACTGCCAACCAAAGT
GACACTATAGGGATGTCATTTGTACATGACAATTTTTAACAATGTAATTCTTACCACTCTCGACAGACCTGAATATGTTTACTAATAACTTTGCCAAATT
TTTCAACTTCTAGAAAAACAAGAGTGAGTCTTTTGAACTTCATCATTTTGCAATTGAAATAAATCTTGTCCTTTCACCTATATCTTCCATTTAATATATG
TAGCAATACTTAGTATCATCCCATCACAAGTATTGTTAGGCGACTTAGTGGCGGAGAAATGTTTGTAAAAAGTAGAATCTGTACAGAAAAAAAACTAGAT
CAATTGTATTTATTTTTATTATTTTTTAGCTTAGATACTATGTTGA


SNP Information

Context             (SEQ ID NO:37222):
TATTAAATTTGACTGGCGTAGTGTCTATCTGTGAGTGTGTGTTCACATGCCTATGTGTAGAACTAAAGAATAATTTAAATAAATTATGACTTATACAAAT
R
TGAATGAATGTATGCCCAAAATTCCATTTAACTGATTGATTAATGAGGGAACCAGTAAGATGTTACAACTGATTCAAATGAGAAGTTAAAGTATCACATA
Celera SNP ID:            hCV447771
SNP Position Genomic:     124237
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37223):
GATTTCAAACCAATGCAATTTTATTTTAGTTACCTGTTAAGGAAAATTTTATATTTTTACCTGTGGTTTCAGGTAAATACAAAGGCATATGACTGTCTCC
R
TTAATGCATTTGTACCACTTAATGACAGCATTTTTTTGGGATGGATACAACATCATCCATTTTGATCTTAGTTGTCGAAAGAAGAGTCAAGTTTTTCACC
Celera SNP ID:            hCV228168
SNP Position Genomic:     10429
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37224):
GTTACCTGTTAAGGAAAATTTTATATTTTTACCTGTGGTTTCAGGTAAATACAAAGGCATATGACTGTCTCCATTAATGCATTTGTACCACTTAATGACA
R
CATTTTTTTGGGATGGATACAACATCATCCATTTTGATCTTAGTTGTCGAAAGAAGAGTCAAGTTTTTCACCACTGATGTGAGAAAGACACTTTTAGGAG
Celera SNP ID:            hCV228169
SNP Position Genomic:     10457
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37225):
GATACGTGTAGAGACTTTCAAAGCATTACTTGAATTTTTTTCATAGTTTTTTAAAACTTTGTTTCTAATTATTGAAATAATCAATGCTTACTGAACAAAT
Y
TTAAAAAATAAAGAGAAGTATGTGAAGAGAAGTACTTAAAATCCAAGCATAATATAATATTAAATTTGACTGGCGTAGTGTCTATCTGTGAGTGTGTGTT
Celera SNP ID:            hCV447772
SNP Position Genomic:     124079
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37226):
AATACTTGGAATTTTCCAATTTTTGATTTAGTGGAAAATATAGGAAGAAAATGTGGCCGTATTCTTAGTCAGGTAAGAAATGCATTCATTCACACTAATT
K
AAATATAGGAAAAACAGTTCCTTTGTTGCTTAAAGCTCTGTAAATTCTTGACACTTGTGGATAGGTGTTATGTGGAGAAAGGAAGTTTTAGAACACAACA
Celera SNP ID:            hCV25600110
SNP Position Genomic:     274172
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:37227):
AATACCATGACAACTGACTGTCTTCAGAATCATCTAGGGCTGATTGATTCATAATCTAAATTTAGGGATTGTTCATATCAGAATCTAAGGAGGACTTCAC
R
TTGCATTCATTTTGTTAATTCAGCAAAAGTAGTACTAGTTAGATCTGGGAAAGTGGATGTTAAACTTTATGAATGCCAGACTGGATTATAGTTTTCTCAT
Celera SNP ID:            hCV514933
SNP Position Genomic:     141037
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37228):
TCTACCATCTTCACGTCTCTCACTATTAACTCTGGCCCTCCTGCCTCTTCTTATAAGTACCTTGTGATAACATTGGGCCCACCCAGAAAATCAGGATCAT
Y
GCTCTAACTCAACATCCTTAATCGCATCTGCAAAGTAACTTTTGCCATGTACGATAACTTATTCACAAATTCTAGGGTTTAGAACATGGACATCTTTGGG
Celera SNP ID:            hCV514934
SNP Position Genomic:     141854
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37229):
GGCTTTTTGCAAGAAAATATTTTTGTATATGGCAGCATGGAGCTGCCATATACAAAACAAATATATGTGGAGCTACTCTGGTTGTATAAGGTGATAAGGC
R
CCAAGTCCATTGGTTAGTGCCCCCAAAACACATATTCCAGTGTCTGCTAACTTCACTGGTTTCTAGGGACCATAGTGGGTTTCAGTGGATAGGGCTATTT
Celera SNP ID:            hCV514935
SNP Position Genomic:     142923
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37230):
CGCATTCACTTTTTGGATTTATTTTTTTCCCCTCATCCCAGAAGCCAGAATGTAAGCTACATTTCTGTTTGTATTGGACCTTTGAGAGACTATGCTACAT
R
GCTAATGGAAAAACCTGCATACGAGTCCAAGTTCTGCCTCTTCTAAAATTCATTACCATAAAGGAAGTTGGTTAGCCACAGGGAGTTTCTTAGGCTTTCT
Celera SNP ID:            hCV514936
SNP Position Genomic:     144199
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37231):
TGGTCTTCATCCCTGTTTTCTGTCATACAGCTCCTAAAACCCTTGATAAGAATATCCTTTGTGTGCTAATAAGACGACTAGTGGCTGGAGGCCCCTTTGT
R
ACTTCTGGATGGGGGCTGGTCACCAGAATGGTCAGGGGATTGGGACTTTCAGCCCCATCTCTCAACCTCTGCAGGGCTGAAGGTTGTGTTGATTACTAAT
Celera SNP ID:            hCV28953389
SNP Position Genomic:     84273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37232):
AGTTTCTTAGGCTTTCTCAGTTTGATTTCTTAGTCCCTAGAAAGTTCAAGTCTGTAAAAACTAGAAGTTTTTATAAGGAAGTTATGAGAAGTAAATGACA
R
GGTATTTGAAAGTACATGACATTGTGTATGGCATATGTTAATTGACCAGTGAATGCTTTACATCCCTTGATCTCTTAACTAGAAATTAAGTGGCAGACTG
Celera SNP ID:            hCV514937
SNP Position Genomic:     144383
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37233):
GAGAAAAATAGAGAGTGTGCTCTCACTTAACCAAGAAAAAAATCTTTCTAGAAGAAAATATGATAGAATCAGAGAATGTAAACAGAAAAATCACTTTTAC
K
CAATCATTCCACCCAGTTTTTACGGTTCTGTCGAAGGAGAGTTAGCAGAATAGTACTAGCTGATTATGCTTGCGATGGTTAAGGTGACAGAGACTGGTAG
Celera SNP ID:            hCV11915791
SNP Position Genomic:     25833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37234):
AGTACATGACATTGTGTATGGCATATGTTAATTGACCAGTGAATGCTTTACATCCCTTGATCTCTTAACTAGAAATTAAGTGGCAGACTGATAACTCCTA
R
GTTCATATCGACAGCTTCCCCTCTTCTGAATTCCACACTCATATATCCAATTGCAATAATTGGCTTCTTGACTTAGATACCTAACAGACGCCTCATACTC
Celera SNP ID:            hCV514938
SNP Position Genomic:     144494
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37235):
TAAGTGGCAGACTGATAACTCCTAAGTTCATATCGACAGCTTCCCCTCTTCTGAATTCCACACTCATATATCCAATTGCAATAATTGGCTTCTTGACTTA
R
ATACCTAACAGACGCCTCATACTCCAAATGTGCCAAATGGAACTTCCAATTATTGCCTCCAAATCTGCTCCATCCTTTCTAACAGCTGATGGCAACTCCA
Celera SNP ID:            hCV514939
SNP Position Genomic:     144570
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37236):
AGCTCAATTTATGAAATGCCTAACAAGTGATCATTGTTAAGCTTTTGCCTAATCACTACCATAATAGGGAACTAAGTCCCCTTCCATGCCATTTTGTTCT
Y
CCCTTTTCCCCTCCTCTCTGTTTAGATATGGTCTTTTGAAATTGAGGAGTCCAGAATCTGGTACAACAGATATGGTATGACTGGAACAAAGCGAAGGGTG
Celera SNP ID:            hCV11915794
SNP Position Genomic:     28505
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37237):
GTACTCTGAGGTTGATACTGTTGTTCTCATTTTACAGCTGAAGACACAGGCACAGTGAGCCTGTCTCTATATATGTCTCTCTATATGTCTTTATATATGT
S
TCTATATATTCTAGTAAATCATAGTTAAAAATTTTTGTGCATATGAGTGCTAGACATGGTATCATGTGTTTATATACCTTTGTTAATTTTTGCCAGAAGA
Celera SNP ID:            hCV26985389
SNP Position Genomic:     34004
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37238):
GAATTCTGATACATCCTGCCAACACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAAAGAGAGACAGAAGGGAATGGTTTGAGAGG
K
TGCTTGTGTGCATGTGTGTGCATATGTAAAGAGATTTTTGTGGTTTAAGTAACTCAGAATAGCTGTAGCAAATGACTGAATACATGTGAACAAACAGAAG
Celera SNP ID:            hCV8874355
SNP Position Genomic:     317931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:37239):
CATGTGAACAAACAGAAGGAAGTTCACTCTGGAGTGTCTTTGGGAGGCAGCCATTCCAAATGCCCTCCTCCATTTAGCTTCAATAAAGGGCCTTTTGCTG
R
TGGAGGGCACTCAAGGGCTGGGTGAGAGGGCCACGTGTTTGGTATTACATTACTGCTATGCACCACTTGAAGGAGCTCTATCACCAGCCTCAAACCCGAA
Celera SNP ID:            hCV8874356
SNP Position Genomic:     318114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:37240):
GTTCTTTTCTGGAGACAGACAGGGACTCATGTCTCCCTCCTTGGCAACAGCTATTCTTTCATGGGTAATTCCTATGTACTATTTGAATATCAAAATATTT
W
TATCTCCCTAAGAATGGGGAGACACAACGTATTTGCCCCATAAGGGTAAATTGCAAACAAATTGCTCCAGTGCTTCAGAAAGGACTGGTTATTCATTCCT
Celera SNP ID:            hCV12099090
SNP Position Genomic:     155112
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37241):
AATATGAGAACAGCACCAAGCCATTCATGAGAAACCTGTCCCCCATGATCTCATCACCTCTAATCAGGCCTACCTCCAACATTGGGGATGACAATTCAAC
R
TGAGATTTAGAGGGGTAAGATATCCAAACTTTATCAAGGACCGTAATGGAAATAGACTTGTACTCATACAGCTTACATTTTATCCTAGTAGACATGCCTT
Celera SNP ID:            hCV232129
SNP Position Genomic:     74588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37242):
CTGTAGAATTGAAGCCTCTATGTAAAACCTAAAGGACAGGGTTCAGAGGACTTCTGGATAGCTGAACATGTGGAGGTTCCTAGAAGGTGGTACAACCACC
Y
AGGGAGGACATGGGAGCTCTGCACCCCTTCTCCTATACTTCACCCTATGCAGCTCTCCAACTGGCTGTTCATTCATATGCTTTGTAATTTTTTTATAATA
Celera SNP ID:            hCV28953390
SNP Position Genomic:     84498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37243):
AAGAACTATAATTGGCTGCTCATTCTTCTCTAATTACTGAGACCACCTTACACATTCACTTTTGAAAGATTTCAAACCAATGCAATTTTATTTTAGTTAC
Y
TGTTAAGGAAAATTTTATATTTTTACCTGTGGTTTCAGGTAAATACAAAGGCATATGACTGTCTCCATTAATGCATTTGTACCACTTAATGACAGCATTT
Celera SNP ID:            hCV12106221
SNP Position Genomic:     10362
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37244):
CATTCTCCAGGAGTTATTCGAAAGCTGAAACTTTCAGTGGATTGTGGGCCTGGGGAGAAGAAGGATTCCGAGGGTGGAATTGGGAAGAGCGTGCGTGCGT
K
TGTGTGTGTGTGTGTGCGCGCGCGCGCGTGGGTCGGGGCGGGGGCGTCGGGGGGCCACTGGGAATTCAGTGAAGAGGGCACCCTATACCATGGCAGTGCC
Celera SNP ID:            hCV12106222
SNP Position Genomic:     5932
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,6)   total(G,2|-,6|T,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:37245):
GGCAGTCTTGAGGGACTGAGGGGTGATGCTATGTCCAGGTGGATAGTGTTAGGATTGAATTGAATTAGACGATGCTCAGCTGGTGTCTGTTGAAGAATCT
K
GTGTCAGAAGTGTTGAGTGATGTGTGAGAGTAGGAGAAACAATGGTTTTTCCTACATTCTCTTACACTAATGGATTTGTATTCGGAGAGATTGGAAAGAT
Celera SNP ID:            hCV28953391
SNP Position Genomic:     84857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37246):
GCAGTCTTGAGGGACTGAGGGGTGATGCTATGTCCAGGTGGATAGTGTTAGGATTGAATTGAATTAGACGATGCTCAGCTGGTGTCTGTTGAAGAATCTG
K
TGTCAGAAGTGTTGAGTGATGTGTGAGAGTAGGAGAAACAATGGTTTTTCCTACATTCTCTTACACTAATGGATTTGTATTCGGAGAGATTGGAAAGATG
Celera SNP ID:            hCV28953392
SNP Position Genomic:     84858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37247):
TTTATGGTAGACATTATTTCATTTAAAAAATTCTAAAATGGGCTTTATTTAGATAGCAACACATTTTATCAGTATTTTCTTCTAAATTTTTTCATTTAGC
K
GATTTTTAACATAGTTCTTTAATACTTTTGGAATTCAGTTATACAAATGGTAGTTGCATATAATAAGCAAACTGTGAGTTTTTTTCTAAATTGCTATACA
Celera SNP ID:            hCV514941
SNP Position Genomic:     147170
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37248):
GTACAGGAAGCACAGGCCTTACTTTTTATTGTTGTATGGAGCAGAGTCCCAGAAGGACCGGCTGTGGAGTGCTGAATAAAATCCCTGTGAATGCACACCG
R
GTTCTCTGAAAATACAAGCTTCTAGTCATTTCTGGGTTAAGGTGTAGTCCATTTCGCTTTGCTATCAGATTACACATAAGTTATTGAGCAATAAAAGGAA
Celera SNP ID:            hCV176542
SNP Position Genomic:     57540
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37249):
TTAAAAAAAGGCTTCATGTTGATACAAGTGGGTAGATATGAAACCAGGTGTTAAAATATACACATATATTTCCTTGCTCCGCATACTGCAGTGTTCATTG
Y
TACACTCCAGCAGCAAGGATCATACCCAGCACTGAGATCGTGATTTCTAATACCTTTGCAAATTGAAGGAACCAGAGATCTGTGAAAAAGTGGCTTAATC
Celera SNP ID:            hCV514944
SNP Position Genomic:     148244
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37250):
AGAAAAGTTCTTTGCTTTAAAATGACTCATCAAGTGCTATTGGGAACATTTAAAATGTTATTTCAATTGCACATACTCTTTAGGAAGATACAAGTTTATT
R
CTTTATATGTGTGTATCACTGATAAAAGGTATTTTCATATATTTAACAAAAATTTAAAGGGAGGAATGGTTAAATGACTGTCTAAGGACTCATACCTCTT
Celera SNP ID:            hCV418644
SNP Position Genomic:     160950
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37251):
ACCTAATATTTTGCTTGTTTTTAGTTTCAAATCATCCTAGGATATTATTGATTACTCAACTGATTGACATGGTTTGGGAAATAAGGTATTTTGAAAGGAA
W
AATGTCTTCTTTTTATAAACTGTACAGGAACCTTCTATTAAATTCTGTAAATGTCATTGATCTCAAATCCATGCATCACATGTGTAAATTATATTATTTG
Celera SNP ID:            hCV514946
SNP Position Genomic:     151322
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37252):
AAGATACATATAAAGAATTATACTTATGGTATATCTCAAAACTGAGTTTGTTTCCTATAACCCATACTAAAAACAATTTATCAAGTTAATATAGTAATAT
R
TTGTGTAAGTATACATGTATAATATAGTAAGATGTATATGATAATATATGTTCAAGTTAATATAGCATAATTAGCAAAATCATAATTGGGTTCAAATAAT
Celera SNP ID:            hCV26985390
SNP Position Genomic:     34256
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37253):
GCGGGAAAAAGAAGGGTGTGTGAGAGGAGGAATTATTCAGTTATCACTGGTCTGGAGAAGAAAGAGCATGGCCCATTTGCAAAAATGATTCTTAGTTCAC
T
TTTTTTTTTTTTTTTGCCTTTAGTGATATTATGGGTAATAGCGATAAATTTTTATTTTCTCAATTTATATATATCAGATTTCTCACTCTGTGTCATCAAT
Celera SNP ID:            hCV26985391
SNP Position Genomic:     35030
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37254):
TTTTTGGTAGAACGATTGCTATATTTAGTTTAAAATTTTAGGGCGGCAGGCCGGGCGCAATGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGG
Y
GGGCGGATCACTAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGG
Celera SNP ID:            hCV176546
SNP Position Genomic:     58904
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37255):
CGGGAAAAAGAAGGGTGTGTGAGAGGAGGAATTATTCAGTTATCACTGGTCTGGAGAAGAAAGAGCATGGCCCATTTGCAAAAATGATTCTTAGTTCACT
T
TTTTTTTTTTTTTTGCCTTTAGTGATATTATGGGTAATAGCGATAAATTTTTATTTTCTCAATTTATATATATCAGATTTCTCACTCTGTGTCATCAATT
Celera SNP ID:            hCV26985392
SNP Position Genomic:     35031
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37256):
AAACTCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGGGAGAATGGCGTGAAC
Y
CGGGAAGTGGAGCTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAATTTAGGGTGGC
Celera SNP ID:            hCV176547
SNP Position Genomic:     59054
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37257):
AAAAGCTAGAAAGTTCAAGATTATGATATCAGTATCTGACAAGGACCTTCTTGCTGCATCATCACATGGCAGAAGGGCAAAGAAAGGGCAAGAGGGGGCC
R
AACTCATCCTTTCATAATGGTATCAATCCCAGCCATGAGGGTAGAGCCCTCAGGGCCCGTTCAACTCTTCAAATTACTACATCTTAATACTGTTACAATG
Celera SNP ID:            hCV514948
SNP Position Genomic:     152051
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37258):
TATCAGTATCTGACAAGGACCTTCTTGCTGCATCATCACATGGCAGAAGGGCAAAGAAAGGGCAAGAGGGGGCCGAACTCATCCTTTCATAATGGTATCA
R
TCCCAGCCATGAGGGTAGAGCCCTCAGGGCCCGTTCAACTCTTCAAATTACTACATCTTAATACTGTTACAATGGCATTTAAATTTCAACGTAAGTTTGA
Celera SNP ID:            hCV514949
SNP Position Genomic:     152077
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37259):
TTAACTATTCTTGATATCTTATATGAGTGGATTCATGATGTTTGTCCTTTTATGACTGGCTTAGTTTACTTGGCATAATGTCTTCAGAGTTCATCCATGT
Y
GTAGCACATGTCAGAATTTCCTTCCTTTTTAAGGCTGAATAATATTCCATTATATACGTATGCCATATTTTGTTTATCCATTTATTATTGATGGATACTT
Celera SNP ID:            hCV26985393
SNP Position Genomic:     35867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37260):
CCCATATTCTATATTCAGATCTCTGAAAAAAGTGGCCTTTCATTGATCAAAATATATTTATATAAAACATTTTAATGAAGAATACCTATTTATAAAATAT
S
CAGAGGAAATATATGCAGATGTAAAATTGAGCCCAATAAATCCTTGTGTTTTCATAGGTATGAAAGTTACAATAAATAATGGCAATTAGATATTGTGTGT
Celera SNP ID:            hCV176548
SNP Position Genomic:     59965
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37261):
GAGTCCTGCTGTCTAAAGGAGTAGCACAGCCAGACACTGATGAGGGTGGAGGTAGTAGCTGAGTCTTTTGTTATAAAAGCTCATGTTGACTCGTTAACAT
K
GGTTTTTTTTTTTTTTTTTTTTTTTTTGTTTTTTTTTTTTTTTGAGATGGAGTCTCGATCTGTCGCCCAGGCTGGAGTGCAGTGGCGCTATCACGGCTCA
Celera SNP ID:            hCV26985394
SNP Position Genomic:     37111
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37262):
TAGCACAGCCAGACACTGATGAGGGTGGAGGTAGTAGCTGAGTCTTTTGTTATAAAAGCTCATGTTGACTCGTTAACATTGGTTTTTTTTTTTTTTTTTT
K
TTTTTTGTTTTTTTTTTTTTTTGAGATGGAGTCTCGATCTGTCGCCCAGGCTGGAGTGCAGTGGCGCTATCACGGCTCACTGCAAGCTCCACCTCCCTGG
Celera SNP ID:            hCV26985395
SNP Position Genomic:     37132
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37263):
GACCTTGAATTTTATTTGTGTGAGTTTCTCTGAGCTTCCTGCATCTAGATGTCTAAATCTCTTTTTGTTAGACTTGGGAAGTTTTCACCTATAATTTTGT
W
AAACAGGTTTTCTGTCCCTTTTATTTTCTTTTCACCTTCTGGGACACTGAAAATTCAAATATGTCATGCAAGCTTTGTTCATTATTATTATTTTTTATGT
Celera SNP ID:            hCV29092114
SNP Position Genomic:     313971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37264):
CCACACGCTGTTTGTTGGGGTAGCTTCCATCGGCAGTCTGGCCCATTGTCAGTCATGCTTCTTCTGGCCGGGGAGATTATAGAGAGATTGTTTGAAGATT
S
GGTTATTATTGAAAGTCTTTTTTTTTGTTTGTTTTGTTTTGGTTTGTTTGTTTATCTACACTTGTTTATGCTGTGAGCCAAACCTCTATTTAAAAAGTTG
Celera SNP ID:            hCV8874360
SNP Position Genomic:     318731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:37265):
GCCAGACACTGATGAGGGTGGAGGTAGTAGCTGAGTCTTTTGTTATAAAAGCTCATGTTGACTCGTTAACATTGGTTTTTTTTTTTTTTTTTTTTTTTTT
K
TTTTTTTTTTTTTTTGAGATGGAGTCTCGATCTGTCGCCCAGGCTGGAGTGCAGTGGCGCTATCACGGCTCACTGCAAGCTCCACCTCCCTGGTTCACAC
Celera SNP ID:            hCV26985396
SNP Position Genomic:     37139
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37266):
CCAGACACTGATGAGGGTGGAGGTAGTAGCTGAGTCTTTTGTTATAAAAGCTCATGTTGACTCGTTAACATTGGTTTTTTTTTTTTTTTTTTTTTTTTTG
T
TTTTTTTTTTTTTTGAGATGGAGTCTCGATCTGTCGCCCAGGCTGGAGTGCAGTGGCGCTATCACGGCTCACTGCAAGCTCCACCTCCCTGGTTCACACC
Celera SNP ID:            hCV26985397
SNP Position Genomic:     37140
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37267):
AAGTATTCTCAAGAATGTTTAAATTTGGTTTATTTTCTTGAAGCAAAGTTATTTAATTTTTTAATTTTTAACTTAAAATGAAACCCACAAAATGACATTC
Y
GTGGTACTGAGTATTTTCACATAATCAGAACTGTAAACTACTGATTATTTTCATATACTCAGAGGCTGAATATTTTGATATAATAAGAACTAGTATCATA
Celera SNP ID:            hCV8874361
SNP Position Genomic:     323043
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:37268):
CAGACACTGATGAGGGTGGAGGTAGTAGCTGAGTCTTTTGTTATAAAAGCTCATGTTGACTCGTTAACATTGGTTTTTTTTTTTTTTTTTTTTTTTTTGT
T
TTTTTTTTTTTTTGAGATGGAGTCTCGATCTGTCGCCCAGGCTGGAGTGCAGTGGCGCTATCACGGCTCACTGCAAGCTCCACCTCCCTGGTTCACACCA
Celera SNP ID:            hCV26985398
SNP Position Genomic:     37141
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37269):
AGACACTGATGAGGGTGGAGGTAGTAGCTGAGTCTTTTGTTATAAAAGCTCATGTTGACTCGTTAACATTGGTTTTTTTTTTTTTTTTTTTTTTTTTGTT
T
TTTTTTTTTTTTGAGATGGAGTCTCGATCTGTCGCCCAGGCTGGAGTGCAGTGGCGCTATCACGGCTCACTGCAAGCTCCACCTCCCTGGTTCACACCAT
Celera SNP ID:            hCV26985399
SNP Position Genomic:     37142
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37270):
ATTACTGCTATGCACCACTTGAAGGAGCTCTATCACCAGCCTCAAACCCGAAAGACTGAGGCATTTTCCAGTCTACTTGCCTAATGAATGTATAGGAACT
S
TCTATGAGTATGGATGTCACTCAACTAAGATCAAATCACCATTTAAGGGGATGGCATTCTTTATACCTAAACACCTAAGAGCTGAAGTCAGGTCTTTTAA
Celera SNP ID:            hCV29092119
SNP Position Genomic:     318263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:37271):
TTTGTATCATCCATTTACATTTTGAGAAGCATAGTCAATCAGATAAACTTACTGTTTTAATTCTAAATTCACTGACTTTCTGTCAGTCTCTATGTTCCCT
R
TATGTAGCAGCTGGGTTAAGAATATAATTGTCTTGACAACAAATTATTGACATTTACGAGCTCAAAAGTTACCTCAGAAGCTTTTGAAATCAAAGAAATA
Celera SNP ID:            hCV25748842
SNP Position Genomic:     81381
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,9)   caucasian(A,25|G,15)   total(A,54|G,24)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:37272):
TCCCTATCCCTTCTTGTGAGTTAAAAGGGAATTAAGGAAAAGGAATCTCACTGCAGAAGAATGTTTTGGTTGTTCATCCTATATTTAATCTTGCTCCTTT
R
AGTTTATGGTCAAACATGAGCACATTTATAAAATGCTTTCCTGGGGCAGCGTGGAAGAAACTGTGTTTGGAAAGTGATATTACACTGAGGACACTTGGGC
Celera SNP ID:            hCV238886
SNP Position Genomic:     116663
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37273):
AAGAAAATCATTCCATAGCATGGATCTCTTAAAAATAGAATTATATATATATATGTTTATTTTTGTCTATTTTTGAACGCGTTAGAATCATACTGTGTTT
M
TTCTTTGACTCATTTTTTTCATTCAGGTTTGTTTTTGAGATTCAACCGTGTTGATATGTATAATTATAGTTCATTCATTTTCCCACTATATATTAATGCA
Celera SNP ID:            hCV238887
SNP Position Genomic:     110781
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37274):
TAAATGTCTAAAGATATTAAAGAATGCATACTTTCAGATTCACCTTTTTAAATACATTGAAATTTTTATTCACCATCATGGTAAATCTTTTAAATCTGTT
Y
GAATTAACATATTGTAAATGATACTCAATATATACATATTGTATGTGATTTTATATGCAGTAAGTTATAAGACCCATGGCTTTTTGAACAATTGATAATG
Celera SNP ID:            hCV238888
SNP Position Genomic:     109982
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37275):
GCGAGGAGATACCAACCCAAAAGCCAGACCAGTGACAATGGATAGAATGGGCTGTGTTTCCAAACAGATTGACTTGTCAAAGACTCTCTTCAAGCCAGCA
Y
AACATTTAGACACAACACTGTAGAAATTTGAGATGGGCAAATGGCTATTGCATTTTGGGATTCTTCGCATTTTGTGTGTATATTTTTACAGTGAGGTACA
Celera SNP ID:            hCV25762342
SNP Position Genomic:     317366
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,37|T,1)   total(C,64|T,2)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:37276):
AAAGGCATTAAATATCTAAAGGCATTAAATGTCTAAAGATATTAAAGAATGCATACTTTCAGATTCACCTTTTTAAATACATTGAAATTTTTATTCACCA
W
CATGGTAAATCTTTTAAATCTGTTTGAATTAACATATTGTAAATGATACTCAATATATACATATTGTATGTGATTTTATATGCAGTAAGTTATAAGACCC
Celera SNP ID:            hCV238889
SNP Position Genomic:     109957
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37277):
TCTCATATAACTCATTAGAGAACCACAAATAAATGCATTTACTTAATAAATAATTTATTTTAAATTATATGACAACCCTATGATTAAATTTAATATTGTA
T
TTTTTTTTTTTTTTTTTGAGACAAAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCTGTGATCTCGGCTCACTGCAACATCTGCCTCCGAGGTTCA
Celera SNP ID:            hCV12112720
SNP Position Genomic:     56525
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37278):
CCTGTTTTTCTGAATAATGTATTGGTATTTTAAAAATAAAGATTGCGGGGGAGGAGCCAAGATGGCCGAACAGGAACAGCTCCGGTCTACAGCTCCCAGC
R
TGGTGGATGCAGAAGATGGTGATTTCTGCATTTCCATCTGAGGTACCGGGTTCATCTCTCTAGGGAGTGCGAGACAGTGGGCGCAGGTCAGTGGGTGCGC
Celera SNP ID:            hCV27973485
SNP Position Genomic:     304920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37279):
TTTAAGAGCAGAAACAAAGTTTGGTGGGGATAAAATAGAGAACACTGAAATGGTAAAACCACAATAATATTGACAAATAGGATAGTTATATTAGACAAAA
M
CATGTTCCTTGAGTCTGGAAATTGTTAGTGTCAAGTTACACTATGTATTAAGGCACCGTAACATATTGTGGCACTGACTTTTAGGCACATATATTTGTAT
Celera SNP ID:            hCV12112727
SNP Position Genomic:     57913
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37280):
TGTATTAAGGCACCGTAACATATTGTGGCACTGACTTTTAGGCACATATATTTGTATATCTTTCTAATTTTTTTCAAAAGTGGATTTTTCTGCCATTTAT
R
TTTGCCATCGTATAAATAAAATTTTTATGTTTTGATGTTCAACAGCCATTTTATACTAATAGGAGCTCTAACTGTGACAATCAAATAAATTAATGTTTTT
Celera SNP ID:            hCV12112728
SNP Position Genomic:     58057
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37281):
TGTTGCCATCTATCTTAAGGGTTTATAACTCTGGTATAGAATAAGCAAATAGCATAAAACACTTGTACCTGTGTGTACTCCTCAGAGTTTTATTGGTAAT
A
AAAAAAAAAAAAAAAACCACCCATGCTCACTTTTGTGCTTGGGAACAGAATCTGTTTCTAACCTTTGCTATTAACAGGAAGTGGGAGAGGTGAAATGAGC
Celera SNP ID:            hCV12112729
SNP Position Genomic:     58386
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37282):
ACTTGCCTAATGAATGTATAGGAACTGTCTATGAGTATGGATGTCACTCAACTAAGATCAAATCACCATTTAAGGGGATGGCATTCTTTATACCTAAACA
Y
CTAAGAGCTGAAGTCAGGTCTTTTAATCAGGTTAGAATTCTAAATGATGCCAGAGAAGGCTTGGGAAATTGTACTTCAGCGTGATAGCCTGTGTCTTCTT
Celera SNP ID:            hCV29092120
SNP Position Genomic:     318337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:37283):
CTGAGAAAGATCCTGGAGGAAAAGCTGGGGCCAGTATGCTGAAAAAGACACAGTCCTCTTGCCCTACCCCAAGAGTAAAGGGCAAGAGGTAGTGGCTGCC
A
AAAAAAAAAAAAACAAAACAAAACAAAACAAAAAAACCTGAAAAAACAAAAAAGTTTTGTGGAGAGATATCGAATGGATATTTATATGGCTTTTTGCTGT
Celera SNP ID:            hCV26049267
SNP Position Genomic:     182648
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37284):
TCAACTAAGATCAAATCACCATTTAAGGGGATGGCATTCTTTATACCTAAACACCTAAGAGCTGAAGTCAGGTCTTTTAATCAGGTTAGAATTCTAAATG
R
TGCCAGAGAAGGCTTGGGAAATTGTACTTCAGCGTGATAGCCTGTGTCTTCTTAATTTGCTGCAAAATATGTGGTAGAGAAAGAAAAGGAAACAGAAAAA
Celera SNP ID:            hCV29092121
SNP Position Genomic:     318384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:37285):
TGAGAAAGATCCTGGAGGAAAAGCTGGGGCCAGTATGCTGAAAAAGACACAGTCCTCTTGCCCTACCCCAAGAGTAAAGGGCAAGAGGTAGTGGCTGCCA
A
AAAAAAAAAAAACAAAACAAAACAAAACAAAAAAACCTGAAAAAACAAAAAAGTTTTGTGGAGAGATATCGAATGGATATTTATATGGCTTTTTGCTGTA
Celera SNP ID:            hCV26049268
SNP Position Genomic:     182649
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37286):
GTGAACCATATTATAATCATCTTTAGTATCAATAAATATTTTTGAGATGATATAATGCCAGTAAATCCATAAATTAAAAAATTAAAGCATTAAAGAAATA
Y
CTACTATGTAAGCATTCAATTTTATATAATGATTATCTGGGTCAGTGTACCCAAAATTGTGTGCTAGCCAAACTACAATTAAATCATCATGATAATTCCA
Celera SNP ID:            hCV26049269
SNP Position Genomic:     187469
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37287):
TAGTTGACTTCTTTCTTGAGACTTTAAATTCTGAAATGTTTTACACTGCATGTACAGCTAAGATTAAAGTCTTCTTTTTAACAGTACACTTTTTATAATG
Y
CTTGAACTTGTTTCTCTGTGGCAGAGGAAAACAGCCTCATGCACCTGGACAAACAAAGGTGTTCCTTCAAAAACAGACTTTCAGAATCATTAATTCTGGT
Celera SNP ID:            hCV29092056
SNP Position Genomic:     60275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37288):
ACTGCATGTACAGCTAAGATTAAAGTCTTCTTTTTAACAGTACACTTTTTATAATGCCTTGAACTTGTTTCTCTGTGGCAGAGGAAAACAGCCTCATGCA
Y
CTGGACAAACAAAGGTGTTCCTTCAAAAACAGACTTTCAGAATCATTAATTCTGGTTTAGAAATAATTATGAAGGTTAAGTGGACTCTCATGCGTAAGAT
Celera SNP ID:            hCV29092057
SNP Position Genomic:     60319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37289):
GGAAATGGAAAGGATTAATTTTCAAAGAGACAAGCAAAATTGGTTGATTTTAATTTTTAAAGGCTGAGTACATTGATAAATGTGGATACAAGTAATAACT
R
TTTTAATACCACCTGGAAAAAGCTGGCATATGGCCACCACATTAATAAATATGTGTGTATAAATGGGTTATTCTAAATGAATGAGTGTTGTCATAAGCAT
Celera SNP ID:            hCV29092058
SNP Position Genomic:     205749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37290):
GTGAGATCATGTGGTATGGCTTATTTCACTTAGCATGATATCCTACAGGTTCACCCATGTTGTGCAAATAGTAGGATTTTCTCCTTTTTATGGCTGAATA
R
TATTTCATTGTGTATGCACACACATACATATACACACATCACATGTTCTTTATCCATTTATATATTGTTGAACACTTAGGTTGTTTCAATGTCTTGGCTT
Celera SNP ID:            hCV16103076
SNP Position Genomic:     42799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37291):
TGAGGATTGATACAGGTCTCTCTTCTCACAGCCTCTGGCACCACAGCAATAATATTGTAAACTCTAAGGAGAGCCATTTACATTATAGTGTACATGAATG
M
TGACCCCCCTGGAGTTGTGCAGCGCACAACACTCACAACTGCATACATGATCCTTTTAAGCCCTTTACATCTACTTCTGTACTTAGAATTACTTCCAAAG
Celera SNP ID:            hCV29092059
SNP Position Genomic:     208194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37292):
CTTAGCCCCAAATGAGCTGGGTAATCTTGGACCAGTCAAATAATCTCTTTATGTTCATTATGTTGAACTAGTCAAATAACATCTTTATGTTCCAGTTTTG
Y
TAATTTTAAAAAAGAATGAATCTAGCTTGGATTACCTCTACTATCTCTTCTTCTTTTATTTTGTGGTTGTGTTCTGTGGCACAGAAATGGAATTTAACAC
Celera SNP ID:            hCV209824
SNP Position Genomic:     214455
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37293):
TAAGCTATAAAATTAATTAAGATTAAGCTGTAAGAAAAAGTTCTGACTAAAATTAGGAGGGAAAAATAAAGCTCTGATTAAATAAACAATTACAGAAAAC
Y
AAATTTTAACTCTAAGATAAATTTGCCTTGCAACTTGGTTTTGATGTACAATTTGTGTATTAGCTGATTAGGTAACTTCAAAAGTCATCAGCTGTCTACT
Celera SNP ID:            hCV209825
SNP Position Genomic:     212228
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37294):
ACTCCAGCCTGGGCAACAGAATGCGACGCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGTGTAAAGGGAGTGAAATTTTTCTCTTTGTC
W
TTCTGTAAGGTGATATTTGGACAAGTGAATAGAACACAGAGCAGTCAGATTTTGCTTAAATATAAGGAATACATTTCTAGCCATTCAAATTGATTTAAAA
Celera SNP ID:            hCV209826
SNP Position Genomic:     207247
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37295):
GAACTTACAGGATATAACTTTCTTCAAAGTGGTAATCATTATACCCAGTCCTTCTTTCCGTTTTCTACTCTCACTGTCCTAGTTTATGGCCGTATCACTT
Y
GTAGTTGGATGGGCTGTTGCAGTAACTTCTCAACTGGTCTCCCTACCCTCATGCCATCTGAATATTAATTTATTCATTGAACTACCACACTACATCTTCT
Celera SNP ID:            hCV27925839
SNP Position Genomic:     37906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37296):
ATTGACGTCAAGCCCAATATCATATGGCTTTTCTAACAGCAAGTGCCACTTTGGGCTTCACTAACGTATTTATGGCATACAGAACAGAATAATTAATTCA
R
TAAATTCTGCACTGGCCAGATGACCTCTGCAGTGTTGAATTCAGTTCTGAGTACATAATTTCAAGAAGGATATTGAAAAGCTGATGCACTCACATAAACA
Celera SNP ID:            hCV209827
SNP Position Genomic:     206694
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37297):
TATTTATGTGGGGCACATGATATTTTGCTACATTCATCAAATGTGTAATGATTAAATCAGGATATTTAGAGTATCTGTCACCTCGAGTATTTGTCATTTC
T
TTTTTTTTTTTTTTTTTTTTGAGACCGAGTCTCAGTCTGTCACCCAGTCTGGAGGGCAGTGGCACATTCTCAGCTCACTGCAAGCTCACTCCGTCTCCTG
Celera SNP ID:            hCV12112800
SNP Position Genomic:     302990
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37298):
ACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTAAACTCCTGACCTCAAGTGGTCCATCCGCCTC
R
GCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCCGGCCATATTTATCATTTCTATGTGTTGGGAAGTCCCCTCTTCCCACTATTTTAAAGT
Celera SNP ID:            hCV12112801
SNP Position Genomic:     303246
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37299):
AAAGTAAACATAGTAGTCTTCTCAAGATTATTAGCAAATTTTCCTTAAAATGCTTGCATCTGAAAAGATGGCTTCAGCCTGATTATTTTAAAGCCTGTGT
R
GTTCATCAGTTTAAGTAGGGAAGTGGAACTTGGCGATCTCAGAGGAGTTCTGTAGCCTCCATGCCCCTGCTCCCCCCTTTTCATGGCTCACTACTGCCAT
Celera SNP ID:            hCV26766016
SNP Position Genomic:     97641
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37300):
TTATTAGCAAATTTTCCTTAAAATGCTTGCATCTGAAAAGATGGCTTCAGCCTGATTATTTTAAAGCCTGTGTAGTTCATCAGTTTAAGTAGGGAAGTGG
R
ACTTGGCGATCTCAGAGGAGTTCTGTAGCCTCCATGCCCCTGCTCCCCCCTTTTCATGGCTCACTACTGCCATTCACATAAGCAAACACTAGCTTCCCTC
Celera SNP ID:            hCV26766017
SNP Position Genomic:     97668
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37301):
GCAGATCTCACCTTGGAGCTAGGATGCTTTCATGTCCCTCCAACCCTCACTGATTATCTTTGTAACAGAGAGCAGGCCTCAGGCTAGGAGTGTTTGTCAG
A
AAAAAAAAAAAAAAAAAAAGAGGATCTTGTGAGAATTGAAAGAGATAGCATTGTCTTTCCTTGACTTTAGTTTTATGGCCACTTTGTACTTATATAAAGT
Celera SNP ID:            hCV26766018
SNP Position Genomic:     98127
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37302):
ATTACTTTGTTATGTTTTTTACCTATTATACTGTGAACATTTCACATGTTCTTTTTTATAAAGGCCTTGGAAGCCAAATTTTAATTGCTCTATGGTATCA
Y
TTTGTATACCGTAATCTATTGAGTAATTTCCCTTTTGTTGGATAAACAATTAGTAGCACATTATAGTTACTGGATTTTTAGATCTTAGTTTACTGGTTCA
Celera SNP ID:            hCV26049270
SNP Position Genomic:     187725
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37303):
TTGACTTTAGTTTTATGGCCACTTTGTACTTATATAAAGTATTACTGAGTTTCCATTTAAGTAGTGACATAAAGTTTTAAAAAATAAATCCAATTGGAAA
S
AAAATTTTATTTATAGAAGACTAAGTGTACAATATTATGGGTGGCTGGTCCATAACATGGTAGAATCACCAAGGTAATTGCTACATGAATAATTGAAATT
Celera SNP ID:            hCV26766019
SNP Position Genomic:     98288
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37304):
ACTTAGGTTGATTCCATATCTTTGCTATTGTGAAGACTGCTGCAATAAATATGGGGGTGCAATTATCTTTTTAATATACTAATTTCTTTTCCTTTGATAA
R
TACCCAGTAGTGGGATTGCTAGATCATATGGTAGTTCTCTTTTGAGATTTTGAGAAATCTGCATACTGTTTTCCATAGTGGCTATACCAACTTATATACC
Celera SNP ID:            hCV12112806
SNP Position Genomic:     303818
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37305):
GGAGTGCGAGACAGTGGGCGCAGGTCAGTGGGTGCGCGCACCGTGCGCGAGCCAAAGCAGGGCGAGGCATTGCCTCACTTGGGAAACGCAAGGGGTCAGG
K
AGTTCCCTTTCCCAGTCAAAGAAAGGGGTGACAGATGGCACCTGGAAAATCAGGTCACTCCCACCTGAATACTGCGCTTTTCCGACGGGCTTAAAAAACG
Celera SNP ID:            hCV12112807
SNP Position Genomic:     305084
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37306):
TGCGTTTTTGGTAGAACGATTGCTATATTTAGTTTAAAATTTTAGGGCGGCAGGCCGGGCGCAATGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCC
R
AGGTGGGCGGATCACTAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGG
Celera SNP ID:            hCV12112737
SNP Position Genomic:     58900
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37307):
CGCGCGTGGGTCGGGGCGGGGGCGTCGGGGGGCCACTGGGAATTCAGTGAAGAGGGCACCCTATACCATGGCAGTGCCCGGCGACGCTGCACGAGTCAGG
R
ACAAGCCCGTCCACAGTGGGGTGAGTCAAGCCCCCACGGCGGGCCGGGACTGCCACCATCGTGCGGACCCCGCATCGCCGCGGGACTCGGGCTGCCGTGG
Celera SNP ID:            hCV25600078
SNP Position Genomic:     6055
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,11)   caucasian(A,3|G,17)   total(A,10|G,28)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:37308):
CGATTGCTATATTTAGTTTAAAATTTTAGGGCGGCAGGCCGGGCGCAATGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGTGGGCGGATCAC
K
AGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGCACCTGTAGTCC
Celera SNP ID:            hCV12112739
SNP Position Genomic:     58916
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37309):
AGGAAAACAAAACAAGGCCTGTTTTTTTCTGACTCCTAGCTTTTCTACCAGTATCTTACCTCTCTGTCTAAAGTAGATCAAATATCCTGTACTCTGGGTG
K
CATCATGTTATTTCACTCCTCTGGGCCTTTACAAGTACATTGTTTCAACTTTTAATAAATCTTAAATACAACTGAAACATTATTTGAGTCCCAGCTCTAA
Celera SNP ID:            hCV29092060
SNP Position Genomic:     208429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37310):
CTGTTTTCGTAACACATTTTACATCCATAATGCATTTATCATAGAACTTAGAACACTATGCAAAATTTCCCACTAGACTAAAGCTTCTAGTATCCAAGTA
S
TACTTCATTTGACTCTCCAATAGTGATTGCCACCCATAAGTTGTTCAGGAAATGTTGAATCAATGAATGAGAGTGGGGCATAAAATGGGAAATTTGAGCA
Celera SNP ID:            hCV29092061
SNP Position Genomic:     208633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37311):
AGCACACAGAACTTTCATTTAACCTACTTCACTATTTGACTATGGTGTGGCCTTGCTTTTAATTGGAGGATAGCTGGAGTTGCAATCAGTATTCATGAAA
R
CATGTTTTTAAAAAAATGAGAATCAGTCTAACAGAATCTGAACTTTAAAGAACATCTCATTACTGATTATACATGGTGACGATATTTTCCAAATCGTGGA
Celera SNP ID:            hCV29092062
SNP Position Genomic:     208830
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37312):
TATTTGGAGTAGAAATTACCTCTGAATATGAACTTTGGAAGACTTCTAAAAGTGATATAACCTCTCATTTAACCAGCACGAGGTCCATGGGGGTAAAATT
W
ACTATACCTGGTCTTCTTAAAGCTGCACATCTGTGAAAGCAAAAGGTTATAATTAAGTTTTTCTGGAATTTCATGAAATTACACATTTTAAAGTATAGTC
Celera SNP ID:            hCV29092063
SNP Position Genomic:     210990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37313):
GATATATTGAGTCCTATAACCTTAATTTGATTTTGCTCTTAAACACTTTAATCCATTCATAGGATTTATAACGGGTGTGGTGACCACATCTTGATTAACC
S
TTACTGAGGCTGAGTTGAAATATGCATTTTTAGCTCAGTGCCCTTCCCAGTTCTTCTGCTATTTAAGAAGGGAAAGCAGTTGCCTTTTCCGTGTTCTTGG
Celera SNP ID:            hCV29092064
SNP Position Genomic:     216056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37314):
CAAGGAGGAGATAAATTAAATTTCCACCTACAAGATCAGTATAGCAATATTCTGAATTCAAAATTCTGTTGTTAAGGATGGTGTAACCATATATGACAAG
S
CTTTTACAAACTCCTTTTTGAACATTGCTTTAAGCAATCATTTGTGTATTTGTATTAATTTTCAATCTAATCATTCCAAATGAGGCAAAGTTTTGTGTAC
Celera SNP ID:            hCV12099402
SNP Position Genomic:     36583
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37315):
CTAATCTTCTTAATGAGTTCATAGCAAGGCATGTGGTATTTGCGATAGAAAAGACTCAGTAAAAGCTGTCTTCCATTCAGTTTTTGAAAAGTGAATGGAT
R
CCAGTTTATGTTATTTCCTATAGTGCCTATCTTAAACTGATTTTTTTTTTTTTACTTGCTGAATCTCATTTCATGTCAATATGAGTTTTGTATTGGTAAT
Celera SNP ID:            hCV422549
SNP Position Genomic:     163698
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37316):
CAATCAGCAGTATGTACAATGATTCAGAGTTGCGCATTAGGTAATGCTTTGGTAAAAATCAAAGGTTCTTAGGCTCAATCAAAGGGATTGAGAAAAATCT
M
AGAGACTGCAGAGAAAACAATTGAAGAGCCATGTATTATAGAAATTGGAGTGGGAATGAGCTCTCACAGAAAGAAAAGTACCAACTGAAAGGCTGGTCAA
Celera SNP ID:            hCV29092065
SNP Position Genomic:     216619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37317):
AAAGGTTCTTAGGCTCAATCAAAGGGATTGAGAAAAATCTAAGAGACTGCAGAGAAAACAATTGAAGAGCCATGTATTATAGAAATTGGAGTGGGAATGA
R
CTCTCACAGAAAGAAAAGTACCAACTGAAAGGCTGGTCAAGATTTCATTAATTCACAAAGAAAATTACAAAAACTTTAGGAAAAAAACCTAGTATTTGGG
Celera SNP ID:            hCV29092066
SNP Position Genomic:     216679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37318):
CTGCAGAGAAAACAATTGAAGAGCCATGTATTATAGAAATTGGAGTGGGAATGAGCTCTCACAGAAAGAAAAGTACCAACTGAAAGGCTGGTCAAGATTT
S
ATTAATTCACAAAGAAAATTACAAAAACTTTAGGAAAAAAACCTAGTATTTGGGATGTACAAATGAGACCATGCACGTTAGATCAAAATTTGGTAAATAT
Celera SNP ID:            hCV29092067
SNP Position Genomic:     216725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37319):
GACATCAAGAGCAATAATGTGTGCTAAGTCAGAGGAATAAATGTACAGCCTAGTATTAAAGTAATGCTCCTTTACCCCCTCTGCACACTCGCATGTTGCT
K
TCCTAACAAACACGCAAATATGCAAGCGTTTCCTAGAAGTGACAGCTAATGGTATAAATTAACCTCTTGAATCTGGCATTTTCAAAACTACTGTAGCACA
Celera SNP ID:            hCV29092068
SNP Position Genomic:     217586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37320):
TTCATTTTTATTTAATTTACTGTTACTAATTGGCTTTTTTTCATTGATCAATGAAAATTGTTTTAAGTAACTAATGTACCTACTTTGATTTTTATAGCCT
R
GAAATAGTAGGAAAAAAATCACAAGTGATGTGAAATATGTGTTAATTCTATTATAGAACAGGAAAGCTGTTCCATTTCTATGAAAACTGGGAAGTACAAA
Celera SNP ID:            hCV29092069
SNP Position Genomic:     220595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37321):
CCTGAACTCCTGAGCTCAAGCAATCTGCCCACCTCGGTCTCCCAAAGTGCTAGAATTATAGGCATGAGCCCCGGCAGCTGGCCAAGGCTTTTATTCTTTC
M
CTGTAGAGAATTTATAAGTATTACAGCTAAACAAGAAAATAACGTACTAATGTGGATTCATGGTTCAGGCATACAAGTTTTTTCTCTTAATACTAGGTTC
Celera SNP ID:            hCV518311
SNP Position Genomic:     138090
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37322):
GGAATGAAAGGAATACTGAAGGAAGGAAAAGAGATGAAGTGACGAAGCACTTCTTTTGGCCACTTTCCTGCTGCATGTCTCACTTTGGGTGCTACTTAGA
W
GTAGATAGAGTTGGCACCACCAAACAGGGTTATTACTAATCTTGGATCTCACATATAACTTTTAATTTTAGGTTGAAAATATGAGAAAAGTGTTCTTCTC
Celera SNP ID:            hCV26766020
SNP Position Genomic:     98924
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37323):
GAGAAAAGTGTTCTTCTCATTGACAAGTAATTAGCCCCAGAATTTCCAAATCAATTTTGAATATCAGGAAGATTAAAAATTGAACTACTAGAGGCCAGGC
R
CGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCTAAGATGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCAAAACT
Celera SNP ID:            hCV26766021
SNP Position Genomic:     99107
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37324):
TTTTAAAGCATTAATATAAACTTAATTAATAATAGTAGGAATGATCAGGTCCTACTACTCATGGATTTCTTTTGAGAGCTTAATTTAAGGAGGGAACCCT
Y
ATCTCAGAAAAATTTACATGACTATGTAGAGATATAAATTTACATGTAATTTCAGAATATTCTGAAGTCTTTAAAACTTTATTTAAGAACCTTGCAGTAG
Celera SNP ID:            hCV51607
SNP Position Genomic:     273597
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37325):
TGGATAGGTGTTATGTGGAGAAAGGAAGTTTTAGAACACAACATTCTGTAGATTCCTTGCTGTGTGTTAACAAAAGAAACTGGAACTTCAAGTGAGTCGA
R
TGTCATATTCTACAATTAAAATATGATATATTTTTAAAGACAAAGTAGGTGGGGATAGAGATATATAGACAAGGGACAAACGATCTAGAATTCATAGAAT
Celera SNP ID:            hCV51608
SNP Position Genomic:     274330
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37326):
CATGGAAAACTGCAACTTTGAGGGAGTGATCTTTCCTGCAAATAAGCCTGTAACGGTGCCACAGGATGTGGCAATGAGTCAGGAAGCATTTTCTCTCTTG
W
TTTTATTTTTTTGCTAGGGAGTGTGTTCCCTGGTATAGAGAGACACATCTCATCTCATTTTATATTTGATGTATATCTCACAGACTCTCGAAAACTTAAT
Celera SNP ID:            hCV51609
SNP Position Genomic:     275640
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37327):
CTCACTCTGTCATAGGGAATCCCCACTGCATTCCTTGTTACTGTAGAGTCAACTGTGAGATTCTTGGTCGTGGAACATTTTCATTCCATTACTAACATCA
R
TTATCTCTGACTAGCATTTGTATTCAGGTCGATTAAAAATATCCCTCTGCTGTTGAATGAAATCTTAGAATCTTAATTCTTCTACGTCATTCAATAGAAT
Celera SNP ID:            hCV28954438
SNP Position Genomic:     71999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37328):
AAATCCTCTTTTTAAAATATAAATAAATATCTTTAAAATAATATTTTAGGCCGGGCATGGTGGCTCATTCCTGTAATCCCAGCACTTTGGGAGGCTGAGA
Y
GGGCGGATCACGAGGTCAGGAGGTCAGGAGTAATCCCACATCGTTCAAGTCAGTAATGAATTTATTTGAATCAAAAGTGGATACATTTAAGGAATTGTTT
Celera SNP ID:            hCV28954439
SNP Position Genomic:     64714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37329):
AAAATAAAGATTGCACTGAATCCATACATTGCTTGGGTAGAATGGTCATTTTAACAATATTAATACTTCAGATCCATGATCATGGGATGTCTTTGCATTC
R
TGTGTGTTGTCTTCAACGTGTTTCATCAGATTTTTGTAGTTTTCCATGTAGAGGTCTTTATCCATCTTGGTTAAATTTATTTCTAATTTTTTATAGCTAT
Celera SNP ID:            hCV12112819
SNP Position Genomic:     311007
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37330):
CCACATGGTAATTCCTCCCTTAAAGAAGTCTGCTGTATATAATGTTAAGGCAGGGTTGTCAGGGCTGTTATGCTGTGTCCCAAGCCAAATACATTTCTCA
R
CATTCCAAGGTTATGCGAATACACAGAAATAATTATTTTCAGATGTTGACATTGCACTTAGTGATTTAGTAATATGAGAAAATATGGTTCAAAAGTTATT
Celera SNP ID:            hCV12112747
SNP Position Genomic:     75225
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37331):
TAGCCAGGAGAGTTAGTTAAGTATTTCTGATCTTATAGTGAATGATAATGTTTGTACAACCTAATAGTTGCCCCTTTTCCTTTCTTTTTCTTCTCTAATA
R
TAATAGCAAAAACATTGTTTCTGGCATTCAGTGAGTGCCAGATAAATAGAAAGGCTATGAGCTTGATGCACAGTTTCTTTTCTTTTTCCTGGGTCCTCTC
Celera SNP ID:            hCV422550
SNP Position Genomic:     164434
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37332):
TCGAAAGCTGAAACTTTCAGTGGATTGTGGGCCTGGGGAGAAGAAGGATTCCGAGGGTGGAATTGGGAAGAGCGTGCGTGCGTGTGTGTGTGTGTGTGTG
Y
GCGCGCGCGCGTGGGTCGGGGCGGGGGCGTCGGGGGGCCACTGGGAATTCAGTGAAGAGGGCACCCTATACCATGGCAGTGCCCGGCGACGCTGCACGAG
Celera SNP ID:            hCV25600089
SNP Position Genomic:     5949
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,3)   caucasian(C,16)   total(C,19|T,3)
SNP Type:                 TFBS


Context             (SEQ ID NO:37333):
AGGTAGGTCTTGGCTCAGGTTCAGAGAGAGCCATCTAATGACCACAACCTTCAAGTTCTAGACGCACCTACTGTGTGAAAGGTGAATTCCTTTTTGCTTT
Y
AATAAAGGAGAATCCAGAGAAAGACTGGTTGTGCTCTTGAGCAGGGTGGGACACCTAGGAAGTGTCTCTTGTCAAAGACATAATCCTTGATTTTGCAGGT
Celera SNP ID:            hCV29092070
SNP Position Genomic:     220836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37334):
TGACTTTTCTTATATTCTTTCCCCCAGATAGCTTATAGTACACATTAAGAAAATTAATGCAAGTATTTTGCACGTACGTTCTTGTAAAGCAAATATACAC
R
TTCTGAAAAATTTCCAGCTCTCAAGTTTTGCCTTCCACTTGAGAGAATAACAGGAGAAAAATATGCTAACTTGATAACAGTTAATTTTATCTTTGAATTG
Celera SNP ID:            hCV29092071
SNP Position Genomic:     201970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37335):
GTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCCGCCCCCCTTTGGACTCCCAAAGTGCTGGGATTACA
R
GCATGAGCCACCGCGCCCGGCCCCCACTTTCTTACACTGTATCTTTCTAAAGAATAAGTCTGAACAAAGTAGTGACTATTTTAAACCAATAGTATACATT
Celera SNP ID:            hCV422555
SNP Position Genomic:     170661
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37336):
CCACACAGAGTTACTACTGGGGCAGTGCCTAATGGAACTGTGAGAAGAGAGCCACTGTCCTCCAGACCCCAGAATGGTAGATCCACCAACAGCTGGCACC
R
TGTGCCTGGAAAAGCCACAGACACTCAATGCCAGCCCATGAAAGCATCCATGAGGGAGGCTGTACCCTGTAAAGCCACAGGGGCAGAGCTGCCCAACACT
Celera SNP ID:            hCV29092072
SNP Position Genomic:     298988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37337):
AGGACTATCTGCCTTTGTTCTTAAAAAAAAAAAAAAAAACTTGTGAGAGTCTTTTTAAAATTCTATAGTCAGATCTATGACAACAAAAGAGACTGAGACA
W
CCACAAGTTATTTCTACCATGTTTGTTTAACTCAGGAGATTGAATTTGATGTGTTATATACATGGTATGAACCAAACGCATAATAGAAATTGGGTCTTCT
Celera SNP ID:            hCV422557
SNP Position Genomic:     174824
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37338):
TATCTTGGGCATATGGGGCACACCCTGCAACCAGAAACAGCACAGGAATAGTCATTCCTTCATGACAACTTCTACGAAAGTGTAAATTGAGGCTAACAGG
R
AAATCACCCTATTACTCCTGTAAAGTGACGATAGCTTTCAGTTTTCAAATGCGACTTTCTGATCATGTTTGAATGTGTTTCTGTTCATGTTTATGGAGAA
Celera SNP ID:            hCV422558
SNP Position Genomic:     177470
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37339):
TTCCCCTTCTTTTCTGGAATGCAATCAATGGTGAAACATGTTTTACGGTAAAACATTTAATACTCCAAATTGTGAATAAAGCAAAGAGAATGTGTTTAAT
R
TATTTTTTAAATCATATACTTTCTTTAAGACCCTCTCACTCCTAACATAAGCTAGAGTTTTCCGTTTCAATATATAATCAAAAAACCAAGTATCCTATTA
Celera SNP ID:            hCV422559
SNP Position Genomic:     177826
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37340):
ATCAAAATTGTGAAATCTTTGATAGATGGAAGAAAGTAGTTGTCTTTGCTTGTAATGAATACTTTCAAAATAAAGTCGCTGAATAAAAATAGTGATCTTA
Y
GAAATATTATAGTTGGATATCATCAGAGAGGTGATATTATAAATCTTCTACCCCAGATAGTGATTTTTTAATAGTCTTTCTGTTGCAAATGTTTAGTCAC
Celera SNP ID:            hCV12099413
SNP Position Genomic:     46330
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37341):
TATAGGAAAGTTTGGAACTTCTAGAGACTTGTTGAATGGCACTGACCAAAATGCTGATAGTGATATGGACAATAAACTCCAGGCTGAGGTGGTCTCAGAT
R
AAGATGAGGAACTTGTTGAGAACTGGAGTAAAAGTCACTCTTGTTTTGCTTACCCTGCAGAGCCACAGGGGCAAAGCTGCCCAAGAACACCTCCTGCATC
Celera SNP ID:            hCV29092076
SNP Position Genomic:     299354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37342):
CACATCTCATCTCATTTTATATTTGATGTATATCTCACAGACTCTCGAAAACTTAATCTTCATAGTAACTTTAGTGCAGGTTTTTTTTTTAAATATGTAT
Y
TTATAGAAGAAGAAACTAAGGCTTAAAAGAGGCTATGCTACTCTTCTAAAGTCATATAGTAAATATTCAACCCAGGATTCCAAAGCAGATTTATCCATAT
Celera SNP ID:            hCV51610
SNP Position Genomic:     275784
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37343):
CTCTTCCACCAAACGTGTGCACATCCTTGAGAGCCGTGAGCAACTTGCTCAGCACACAGCTCACCTTCCAGGCCATTCACAAGCCCAGAGTGAATCCCGT
Y
ACTTCGCTCAGTGAAAACTATACCTGTTCTGACTCTGAAGAGAGCTCTGAAAAAGACAAGCTTGCTATTCCAAAGGTAGGTAGTAATGACATACCCCTTA
Celera SNP ID:            hCV25762514
SNP Position Genomic:     250545
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,30)   caucasian(C,3|T,27)   total(C,9|T,57)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37344):
AGACATTAAACTTTGAACAAATGTAGTTTCATATGACTTGCTAAGTAGAACTTTTTGGGATTTTTCCTTTTATTTGAGTTTATAAGAACAAAAATCATGA
R
ATTTTCATTATGGAAAATATGTATATATTTTTGCCATAGTGAGACTTTAGGACAGCTGAAATGAATTAATGTGAACATTCCAATAAATCACCTTTTGGCT
Celera SNP ID:            hCV51611
SNP Position Genomic:     276399
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37345):
AAAATGTCTCCAGGGCATGTCAGAGACCTTAGTGGCAGTCCCTCCTATCATAGACCCAGATGCCTAGGCAGAAAAAACGATTTCACAGGCCAGGCCCCAG
W
CCCTCTGCTGTGTGCAGCCTAGGGACTTGGTGCCGTGAGTCCCAGCTGTTTCAGCCATGGCAGAAAGGGGCCAATGTACAGCTCAGGTTGTGGCTTCAGA
Celera SNP ID:            hCV29092079
SNP Position Genomic:     300014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37346):
TCACCAATACAAGTTCTGTTCATCTAGTTGTCTGGGCTCTGGCTTGAACCTTTATTGCTGGCACTTAGCATAACAGCTAAATACTTAAAATGCTTTCATT
R
TACCAGATTTTGGATTTCTTTAATTTGTGACCACAAGCTCAGTGTTTTGAAAGGTAGAATCATACAAAGAAACAACTATAATCTAATTAACCTAAGATAA
Celera SNP ID:            hCV28954440
SNP Position Genomic:     132333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37347):
ATGTTATTTAAATCATATTTTAGCTTTTAAGCTTTTAAAAGTTTTAAAAGCTTTTATATTTGCTTATGCACCTCAGACTTCAGAGTCCCATAACTTTTTC
K
TAATTGTAAAGAGCTGAAATTACATTAAAAAATAATTAATACTAATAAAACACAAGTATTTCCAGGAAGGGGTATCACATCAACTTAGGGATTTATTATG
Celera SNP ID:            hCV51612
SNP Position Genomic:     277897
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37348):
CCACTTGCTGTAGTATCTCAAAGTTTCAGCGTTATCTTGGGTGTTTATGTTACGTGTTGAAGTGGGCGCTTATTCTATAATGGAAGCTATATTATTAGAT
M
CTTCTTCTCAAAAAGCCAGTCAAATCGCTTTAATGAAAACTGTAAGTAGTTGTGCTCTAAAGAGGATGCAATTATTTAGGAAACATTCTCATAAGATTTA
Celera SNP ID:            hCV28954441
SNP Position Genomic:     134089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37349):
GGGTATCACATCAACTTAGGGATTTATTATGAGCATATTTATTGTTTTCAAAATCCCATCCACCTGCTACATTGGAATGAATATACACAGCTGTTAGTGT
R
TCATAGAAAAAGAGAATGAAAAACTGAATCTACAAGTGAGATTTTCTGAAGAATGTGGGACCAAAATACAGACAGAGTAAGGCAGTTGGAGTACGGGAAA
Celera SNP ID:            hCV51613
SNP Position Genomic:     278067
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37350):
ACCAGCTCTCAGGGAGTGGGGAGGAAATCATGTAAGTCAATATATCTTTTGCTATCCCACTGTTTACCAATTGCGTATGAGCTAATTAACTATGCAGAAA
Y
GTGTTATAGCAGAAAAGATTTAGTAGTGTTATACGGTAGGCTAAAAGGAGTACTGGTTAGAAAAATTATCAAACTATATCCTATCATTTTTCCATTTATC
Celera SNP ID:            hCV28954442
SNP Position Genomic:     135022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37351):
ATCCTTTAATAGCTAGTCTGGATTACCCCTCATAAAAATTTGCAAATGGTCAGGAAAGTGTGTTATAATTTACAACACTTTTCCACTTGAAGTATTTTAG
R
CAGGACTAGGGAACAATGTAAGGATGTAAAAGTGGAGGTGGTAGAGATGGGGTTTATCTCTTTTCTTCTTAAATAATAATCTTGGAATTATGAATCTGTA
Celera SNP ID:            hCV147295
SNP Position Genomic:     107629
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37352):
TCCATTTTACAAAACTGAAACACTGTACCCACTAAGAAATTACTCCCCATTTCTTCCTTTACCAAGCCTCTGGTAGCCACCATTCCACTTTCTGTCCCTA
W
GAATTTGACTACTTTAGGTACCTTTTAGAAGTAAAATAGGACAGTATGTGTCTTTTTTTGTGACTAGCTTATTTTACTTGGCATAATGTATTCAAGGTTT
Celera SNP ID:            hCV12099418
SNP Position Genomic:     48082
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37353):
AGACTGAATTTCCAAATTCATGTTATATTTTCAAATGTATTTTAATGATGTAATTAGCCATAGCAAAGTTCCACTGAGTTCAAATTGATACTAAACTCCA
Y
AGACATAACTACCAACTTTTTCACAGGTGGTATATCATTAAATCATAGTTGAAAGATGGCAAATGTTTAAGTACAAAAATAAGTTTTCAGATTCTAAGAT
Celera SNP ID:            hCV51614
SNP Position Genomic:     278530
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37354):
AGTCAATATATCTTTTGCTATCCCACTGTTTACCAATTGCGTATGAGCTAATTAACTATGCAGAAATGTGTTATAGCAGAAAAGATTTAGTAGTGTTATA
Y
GGTAGGCTAAAAGGAGTACTGGTTAGAAAAATTATCAAACTATATCCTATCATTTTTCCATTTATCCATATCAAGCATTTTCCACTATAATCTCTGTTAT
Celera SNP ID:            hCV28954443
SNP Position Genomic:     135056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37355):
TATACCAAAACAATATTTGATATATGATGCCTTTCTAAAGGTTATCTTTCTGATTTTTTTCCCAAAATATATTTATTGAATACTTTTTTGTAATCCCTCC
Y
AGCTACTGTGTTGGCACTCAGGATGTAAATGAAATGGTAACATTTAGAATATTTTTTAACCAGCGTGGCATTGACGCGATTGGTCAGAAAGAACATTGAT
Celera SNP ID:            hCV147296
SNP Position Genomic:     108899
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37356):
AAGGCCTAAGGTTTTATTACTTTGCACCTGCGCTACTGAAATAATGTCCTAACAGGTCTCTGGAGATTCCCTCCCTGCTTACTGTCATAATCTGTAATGC
R
TGAATAGTCTTTATATACATGGCTTTCTTCTGGTTGTTGACAATAGGACTATCATGAATGGACCTCCATGGGTGGTTAGTGCAATGTAGAGGTCCGAGAT
Celera SNP ID:            hCV12099419
SNP Position Genomic:     48388
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37357):
CTTTAATATGATAATGTGTGCAAATATTAGAAACTAAATTTCTTATTATAGTTCTAAGTGTACCTTTAACGGTTTTCAAGAAAAGAGGGTAAGTAGGAAA
K
CTTTTAAATTTGTAATTAGAATCCTTACAAAAATTGAAGAATCTAGATTTAAACAGAGAATTAAAGTAATTTCATGGTAGTAGCAATAGAAAGACAAGAA
Celera SNP ID:            hCV51615
SNP Position Genomic:     279164
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37358):
GAGATGGGTCCTGTTGTGTGCTCTGACATCAGCAACCCTGTGACCTTGGACAATTTACTTAGTCTAACGGTTCTACAGTTTCACATTTATATGGTAGATT
K
AAGACCATACTCCTGTAGAATTGTTGGGAAGATTATAAGAGGAAATACTTGTAAAATGCTTAACGTTGTGCCTAAGGTGCAATAGTGTCTCATTGGCTAC
Celera SNP ID:            hCV28954444
SNP Position Genomic:     136182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37359):
CTGTGTTGGCACTCAGGATGTAAATGAAATGGTAACATTTAGAATATTTTTTAACCAGCGTGGCATTGACGCGATTGGTCAGAAAGAACATTGATTGTAA
R
CCACCCTATGGTCATCCTGGTGCATTTTGGCTCTGAATTTAATACCAAAAGAGGCAGCTACATCCCCACCCTCTTAAGGCTTATGGTTCCTTGTAAAGTC
Celera SNP ID:            hCV147297
SNP Position Genomic:     109005
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37360):
GACATGGTACATGCTAGAGGGGCAGAACTACCAGAGTATTAACTATATTCCAAAAGAAAAAAAAATATTTAAAGTGTTACCTCTATTCTTTATTACTTCT
K
CTTACCCTATGGTGCATAGGAGCATAGACAAAATTTTAAATACAAAATATATAAATTTGGATCTTAAAATCTGTGAATTTACATACAACTCCAACCCTCC
Celera SNP ID:            hCV51616
SNP Position Genomic:     279785
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37361):
TATTTTATTGAAGTACAATTTGTATGCACTAATGCACAAGTCTTAAATGTACGGTTCAATTAGTTTGGCCAATGTATATAACCTGCATATATTTTCTCAG
S
TCATATTACTAGTTCCTTTATTATAATTAACAGCATGCAACACATTCTGAGTGGTAACGAAGGTCAAATGTATGTGGGGCATTTTAGCTGTACGCTTGTT
Celera SNP ID:            hCV28954445
SNP Position Genomic:     136793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37362):
GAGTAAAACTTTCTATTTACTTCAATAGACGTGATGTGAAATTATTCGTAGAGCGAGGTAGTTAAATTTTGTTTGCTTGTTTGCTTACCAAATCATACCA
R
AAGAGTTACTTTTTGTTCATTTAATGAGTACTTATAAAAAATGAAGCTATTTTTTAGTGATTGTAAATATTTAAGTGATCATTCCAGACTATTTTGCAAA
Celera SNP ID:            hCV28954446
SNP Position Genomic:     138639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37363):
TATAATTTGGCTCATACATATCTTCAGAAATGATATTTGATACGTTAACCTGGTTAATTGTCTAAGATGTGCATCTTGTGTAACTATGAATATACATAAA
R
TGGATAAGAGAAGTAACATGAAACTTCTAAGGAAAGTATTTGGTAAGAGAGAGAATTCTATTTGTTTTTGAAAAATTATGGCATCAAGTTAATTCATTAT
Celera SNP ID:            hCV28954447
SNP Position Genomic:     143714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37364):
AATTATTGCCTCCAAATCTGCTCCATCCTTTCTAACAGCTGATGGCAACTCCAACCTTCCGCTTACTCTGTCAGAAATCCTGAAGGCATCTCTGACTCCC
Y
TTTCTCTGTTACACCTCACATCCAATCTACCATTAGTTCAACTTGCTAAATAATCCAGAATCTGGTAACTTCTCACCATCTCTGCTGCTACAACTCTAGC
Celera SNP ID:            hCV28954448
SNP Position Genomic:     144718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37365):
CCAACAAAAAAGAAGATGGAGCTACATTACTGCTCCGGAGCCTTGGGCAAGTTATTATTCTCCCTGTGCGTCAGTTTCCTCATCTGTATAAAAGGAATAG
Y
AATATATGTGTTGTGAGGACTGAATGAGGTCACCCAGGAAGTGTGCTTACAAAAATATGTTGTGTAGTCATCATCGTTTACTATTCTTGTTACTATCATC
Celera SNP ID:            hCV486002
SNP Position Genomic:     162248
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37366):
TTTCAACTTTCCACATTCAATATGATATTAGCTGTGGTTTTATTATGTGTGGTGTTTATTATGTTGAGGCATGTTCCTTCCTAGTATTTTTAGTTTTTAT
Y
ATGAAGTGATGTTGAATTTTATCAAATGCTTTTTCTGCATATATTGAGAGGATAGATGCAAAAAAGCATTTTTATGCGAAGTCACCCAGTACTGAACTTT
Celera SNP ID:            hCV12112820
SNP Position Genomic:     311521
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37367):
ACCTCCCAGAAAGGTTCTATGTGCTTATTTTTAATTACACAATGGAATATCTGGCAGAACATAAGACATTTTAAGCTGTAAGTAGAATGATTTTCCAGGA
R
TTTCTGAGCATCTTAGAGCCTACATTTACCATTATCAGAGGCACCTGAGTACTGCTTCGTAAATTGCAACTTCGTTACGTTAGATAGTGTCCTATTTCCA
Celera SNP ID:            hCV28954449
SNP Position Genomic:     149676
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37368):
CCCATTCCTTGCCCTCAGAGGTAACCTCTGTGCACTACCCTCTTGTGGTTAGAAGATGGAGCTAGGCCGGGCTCGGTGGCTCACGCCTGTAATCCCAGCA
Y
TTTGGGAGACTGAGGCGGGTGGATCACCTGAGGTTGGTAGTTCAAGACCAGCCTGACCAACACGGAGAAACCCCGTCTCTGCTAAAAATACAAAAAGCCA
Celera SNP ID:            hCV486003
SNP Position Genomic:     161906
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:37369):
AGATGCAAAAAAGCATTTTTATGCGAAGTCACCCAGTACTGAACTTTTTATTGTTGGGAGTCTTTATTGCTGATTTAATCTGATTACTTATTATTGGTCT
R
TTTAGGTTTTCTATTTCTTCCTGATTCAATCTTGGTATATGTGTCCAGGAATTTATCCATTTCATCTAGGTTTTCTAGTTTGCTAATACATACTTGTTCA
Celera SNP ID:            hCV12112821
SNP Position Genomic:     311675
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37370):
ACAGAGCTACACAGTAGCTTCTTTTATCACACAGTGATATTAAAATACTCTCAAAATGATTAGAAGTTGAAATATTAGCTATCAAACCAGGAGTTTGCTA
Y
TAATTTAGGTATGTTAATTTATTCATGATAGCTATTTAATATATTACTAATAAAGATTGGAACAACCTGATTATTCTTTAAAATAAAGAAGAAAAATGTT
Celera SNP ID:            hCV25600090
SNP Position Genomic:     193262
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:37371):
ACCACTTGTTCATGCATTTCACTGACCTCGCATGGCCTCACCAAATGTCAAGGAGACAGGGAAGCACCATCCTACCACGTGGCTGAAAGTGGGAGACGCA
Y
GGAAATACTTAGTTCACACCACTGCAATGGGTTAAAGATCTGAAATTGTAAGACAATTCTTTTGAAATTTATGTTCACTAGTAGTTTGTAATAGTGTCGA
Celera SNP ID:            hCV27904736
SNP Position Genomic:     79429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37372):
AATTTTGCATTTTAAAGACATTTGTTTAGTTACTTAACTCTCATTCTTTCTCAGGTGCCCTCGCTAAAATTTCACCTCTTTCATCGCCCTGCTCCTCACC
K
CTCCAAGGGACTCCTGCCAGCAGCCTGGTCAGCAAAATTTCTGCAGTGCAGTTTCCAGAATCTGCTGACACAACTGCCAAACAAAGCCTAGGTTCTCACA
Celera SNP ID:            hCV25600091
SNP Position Genomic:     266865
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,31)   caucasian(T,38)   total(G,1|T,69)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:37373):
GTTCAAAATAGTCTCTGATACTTTTGTATTTCTGTGCTATCAGTTATAATGTCTCCTTTTTCATTTCTGATTTTATTTTTGGAGGTCTTCTCATTTTTCT
Y
GGTTAGTCTAGCTAGTGGCTTATTCATTTTGTTTATCTTTTCAAAAAACCAACTTTTGTTTCCTTGACACATTGTACTTTTTAAATTTTTATTTTATTTA
Celera SNP ID:            hCV12112827
SNP Position Genomic:     311871
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37374):
TTTTGACTACTACTTTGTGTTGTTTCCATTTTCATTTGTTTCAAGAAATTTATTGATTTATTCCTTAATTATCTCTTTGACCCAAAGGTCATTCAGAGAC
W
TTTTTTTTAATTTTCATGTATTTATACAGTTTCCAAAGTTTCTTTTGTTATTGATTTCTAGTTTTATTCATTGTGGTCTGAGAAGAAACTTGATATAATT
Celera SNP ID:            hCV12112828
SNP Position Genomic:     312219
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37375):
TAGCATCTGGTCTATCCTGGAGAATAGTTCCATGTGCTGACAATGAGTACTCTGCAGCTGTTCAACAAAATGTTCTGTAAATATCTGTGAAGTCCATTGG
Y
CTAAAATGCAGTTTAAATCCAACGTTTATTTATTAATTTTCTGTCTAGATGAGCTGTCTGGTTCTGAGAGTGGGATGTTGAATTCCTCAACTATTTTTGT
Celera SNP ID:            hCV12112829
SNP Position Genomic:     312459
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37376):
ATCATATACTTTCTTTAAGACCCTCTCACTCCTAACATAAGCTAGAGTTTTCCGTTTCAATATATAATCAAAAAACCAAGTATCCTATTAAGTGTATATT
R
TTGACTCAAATTGACAAGGACATTGGTAACCTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCCCTCTGTTATCCAGGCTGGA
Celera SNP ID:            hCV422560
SNP Position Genomic:     177937
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37377):
GAAAAATTTGTATTGAGATGTGCTAATAGAGAATTTGGTATAACTAAACATCTGATATATAATTTATATTTTGAGGTAACTCTTTAGCCAACATTTTAAA
R
TATGATTAATTTATAGTACTTACGAAGGATTTTCAGAGACATTACATTTTTCTGTTATTTCACTGTTTTAAACAAGATGGAGATTAGAGGGTGGAAAATG
Celera SNP ID:            hCV422561
SNP Position Genomic:     181245
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37378):
TATTAAACTAAGGCTCAGAAATTTAAATGACATTGCAAGGTTGTAGAACCAGAAAGGGAACCTAGGTCTCTTAATTTTTAACTTCAATGCTTTTGGCTCT
Y
AGTAATGTTAATATCAGAATTCATACTGGCTAAAATGGTTACCTTGACTTTGCCTAATACTTAGGTTTCAGAAAAAAATAAATATGCACAGATAACTTCT
Celera SNP ID:            hCV29092151
SNP Position Genomic:     294376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37379):
AAATTCAGTCACAATGCTATATATCAGGCTCTCAGTGATTTTTTAAAGGAGGGTCAATTTTAAGAATTCTAAGGAATCTCTTTGTTCCTGCTAATTTGTC
Y
GAAGGTTTACGAGGAATACAGGAGAAAGCTAAATTGTTTGGGGAACAGTAAGAGATTTAGATTCTGAGAAAGATCCTGGAGGAAAAGCTGGGGCCAGTAT
Celera SNP ID:            hCV422563
SNP Position Genomic:     182484
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37380):
TCTCAGTAATGTTAATATCAGAATTCATACTGGCTAAAATGGTTACCTTGACTTTGCCTAATACTTAGGTTTCAGAAAAAAATAAATATGCACAGATAAC
K
TCTGTAGTTTGTAAAACTTGGAGATGTCCCAGGAAACAGAATAAAATGTTTCAATATGGTATCCTAGGAAAAGAAGGTTTTTATCCCACCTTATAATTAA
Celera SNP ID:            hCV29092152
SNP Position Genomic:     294473
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37381):
ACACACAAATAATAATTTTTTATTTCCCATCTAGTTACAGTCCTCCTTCAGCTTTCATCCCTTTAGTAATAGTTGTGGTGAATTTTTTCTCCCGAGAAGC
Y
CCTAAAAAGGCGTTCATTTTTACGTAAACAAACAACAGGAGAAAAACATATAAACATGAAAGCAAAATATTTTACCTACAGAAATATATTTTCAGCAATC
Celera SNP ID:            hCV422565
SNP Position Genomic:     184634
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37382):
ACAACAGGAGAAAAACATATAAACATGAAAGCAAAATATTTTACCTACAGAAATATATTTTCAGCAATCTATTTCTCATGCTATTGTTAAAAATATCTCT
R
CTTGGATAGAACCTTTTTGTTTCCATGCTGACTTCTTCTTTGCTTCTCCTGTGAACTTTTTAAATTCTGTGTTTGGCAGCAGTTTTGTTTTCCTTGGAGC
Celera SNP ID:            hCV422566
SNP Position Genomic:     184766
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37383):
GGGTCTTCATTGTGCCTATCTTGGTTAATGAGAACTGAGAAGAGAAGAAACATTCTCTTTTAAAAAAAATTTTTTTTAGAGAATTTCTTCATCAGACGGA
R
AGATTTTATTTGCCATTTGCAGGCATAACCTTGGTGACCTATATATCCCCAGACCTTCTGGTAAGATGCTTATTAAAATGTCATTACCCAGAGGAGTAAT
Celera SNP ID:            hCV422567
SNP Position Genomic:     185167
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37384):
GCACTTAATTCTGAAATTCATTGACCTCAATGTGCAAGCTGTCTTCTTTACTATTTATTGTGAATAACCATTTTTTTTTATTTGTTGTAATCACACATCA
R
GAAAGGGCTAGGGAGATGTCTTTGTGAAACATTTATCCCTATGGTTCTGTTTAATAGGAGTACTTACCAGTAGCTAAATGCCTCATTTTATTTTAAATAA
Celera SNP ID:            hCV422569
SNP Position Genomic:     185867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37385):
AAGGTTTTATTACTTTGCACCTGCGCTACTGAAATAATGTCCTAACAGGTCTCTGGAGATTCCCTCCCTGCTTACTGTCATAATCTGTAATGCGTGAATA
R
TCTTTATATACATGGCTTTCTTCTGGTTGTTGACAATAGGACTATCATGAATGGACCTCCATGGGTGGTTAGTGCAATGTAGAGGTCCGAGATAACCCCA
Celera SNP ID:            hCV12099424
SNP Position Genomic:     48395
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37386):
CCATCCATGTAAGATGTGAGTTGCTTCTCCTTGCCTTCCTGTATGATTGTGAGGCTTCCTGAGCAACATGGAACTGTGAGTGAGTGCTCAATTAAACCTC
Y
TTCCTTTGTAAATTGCCCAGTCTCAGGTATGTCTTTGTCAGCTGCATGGAAATGGACGAATACAGTAAATTGGTACTGGTAGAGTTGGGTGCTGCTGAAA
Celera SNP ID:            hCV9576007
SNP Position Genomic:     297827
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37387):
ATGAGGTCCTGGCGTCACTCAAGGACCGGCCGGCGAGCGGCAGCCCGTTCCAGTTGTTCCTGAGTAAAGTGGAGGAGACGTTCCAGTGTATCTGCTGTCA
S
GAGCTGGTGTTCCGGCCCATCACGACCGTGTGCCAGCACAACGTGTGCAAGGACTGCCTGGACAGATCCTTTCGGGCACAGGTGTTCAGCTGCCCTGCCT
Celera SNP ID:            hCV28948107
SNP Position Genomic:     189727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37388):
ATTACTTTGCACCTGCGCTACTGAAATAATGTCCTAACAGGTCTCTGGAGATTCCCTCCCTGCTTACTGTCATAATCTGTAATGCGTGAATAGTCTTTAT
H
TACATGGCTTTCTTCTGGTTGTTGACAATAGGACTATCATGAATGGACCTCCATGGGTGGTTAGTGCAATGTAGAGGTCCGAGATAACCCCATTCTTGCT
Celera SNP ID:            hCV12099426
SNP Position Genomic:     48403
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|T,1|-,7)   total(A,1|C,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37389):
ACTCAATGTAAAGCATATTATTTATTATTATTGTGGTAACACCTATCATTATATAAATATAACCATTCAATAATGCCGTATTATTCATAATAGAAGTCAC
M
AGATTCTTATCCATTCTTCGTACTCTGGGCTTCCTATGAGTAAATGTATTTTGTTCTTTTTGCAGAATTAAGTAAACAGAATTATTTCTGCTTTGCCAAA
Celera SNP ID:            hCV28954450
SNP Position Genomic:     149939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37390):
TTAAATGATGCCATTAAATGAGATTAAAATATTTCTGAATTTAATACTGCCAACTTAAAGTACTGTTAACTTTTTTTGGCTTGTTTCAATTGGAAGAAAA
R
AAGAGGTAGTGAATATAACACACATCTGGAACTAAGAAAACTAATTTGTAAGTCCCACCTCCTCCGCTAACCATCTGTAGTCTGTTACACTTGCAGTGGC
Celera SNP ID:            hCV28954451
SNP Position Genomic:     150927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37391):
AGACACAGGCATTTTATTTTTGTTTGAAATTTTCAAAGAAGATATCAAAATTTGCAAGGCATAATCAAATAAGGCAATTAACATACTTTAGCCTATACCT
M
ATATTTTGCTTGTTTTTAGTTTCAAATCATCCTAGGATATTATTGATTACTCAACTGATTGACATGGTTTGGGAAATAAGGTATTTTGAAAGGAAAAATG
Celera SNP ID:            hCV28954452
SNP Position Genomic:     151226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37392):
GCCTTATATATAAGTGGAAAGAGTGACTTGATGTGATCTCTGCCATTGTGACCTTAGATGGGAAGGGTTAAGCCCAGGATAAAGGTAGGTAATTTTATCT
R
CATTGAGATTCATACCGAGACCCTTAAATCAAAAGCATACAACTTGACATTTGCATTTGATATGAGATCCCCCAGCCCAGTCATTAGCCTCCCACAAGAC
Celera SNP ID:            hCV25762457
SNP Position Genomic:     253597
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,34|G,2)   total(A,68|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:37393):
GTGAAGACAAGCATACTTTTTTTTCATAGATTCTTACTCAGACTCATTCAAAAAGGGATGGATTTTGAGTATTCATTTTGGTGAAGTCTCTGACCTTATT
R
GATAGTGATACCTCCAGGTCTTGCTTTATGTGGGGTCAATTACTGAGCCGTTGATGAATTTCATTTATTTCTTGTTTAATAGAGTGGCACTTAAAATAAG
Celera SNP ID:            hCV28954453
SNP Position Genomic:     153256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37394):
CCCATGATTCAATTACATCCACTTGGTGTCTCCCTTGACACATCGGAATCATGGGGATTACAATTCAAGATGAGATTTTGAGTGGGGACACAGCCAAACC
R
TATCAGAGGGATACATTCATTAAGATTAACAATTCTTACTTCCCAGTGTATATGTTCCTCATGTTTTTAAAAAGGAAAATATGATAGATGTGGTGATTTA
Celera SNP ID:            hCV28954454
SNP Position Genomic:     123491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37395):
TTTTGAGACAGAGTCTTGCTCTGTCACCTGTGCTGGAGTGCAGTGGTGCAATCTCAATCCACTGCAACCCCCGCCTTCCAGGTTCAAGCAATTCTCATGC
S
TCAGCCTCCCAGGTAGCTGGGATTACAGGCATGTGCCACCACATCTGGCTAGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCCTGTTGGCCAGGCTG
Celera SNP ID:            hCV28954455
SNP Position Genomic:     123751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37396):
GCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGTCACCACGCTTGGCTTAATCACAGATATTAAAATCACATGTTTGTTTGAGAGTTAGAGATAC
R
TGTAGAGACTTTCAAAGCATTACTTGAATTTTTTTCATAGTTTTTTAAAACTTTGTTTCTAATTATTGAAATAATCAATGCTTACTGAACAAATCTTAAA
Celera SNP ID:            hCV28954456
SNP Position Genomic:     123984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37397):
GAAGAGCCCCCTCGTGGCAAAGAGTGTAAGCAAATGGAATCAAATGAAATGTGAAGAGAGTCTGAGGAAACATGTAGCAGCAATAGGCAATGAGGCGGAG
R
GAAAGCGAGTATGAAGTAAGAAGAGGCATACAGAAAGATAAATACCCTGTTTCCAGAGAGGGCTAATGAAATCTGTTCTTTGCGCAAATCAAGTAAACAG
Celera SNP ID:            hCV27964912
SNP Position Genomic:     261920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37398):
GAGGAATAAGAAGAGTTTCAGATGAAGAGAAGCAGATTCTGGCACACAAAGTTGAACAGTGCAAAACATTGAAGCCCAGCTATACATAATCAAGCTGGCT
R
AGCTATAATACACATTAAAATAAAAGTTTTTTTCTCAATGGACAAAATTGGAACTAAGTATGTCTGACTGTTTTAGAGATAAGCACTTCTCAACTTCTAA
Celera SNP ID:            hCV28954457
SNP Position Genomic:     119546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37399):
CTATGGCTGGGAGACATTGATTGTTAACATTTATGCCCCAATAATGAATGACCTGAATTTTTCCCACATGTTTGCTCAGGAAACACAGGGCTGTGGAGGT
S
TTGACGTCATAGAGGCAGAAGGATTTGGGGCCAGAGTATATTCACTGCTGGCAGTCATTCATTAGTAAATCCTTGGTAAGAGAGTTGGATTTGAGTGACA
Celera SNP ID:            hCV28954458
SNP Position Genomic:     126894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37400):
GTTAATTTAGTGTTAGGTGCTAATATAAAACATTGCTTGAGCCATGTAGTGTCAGGAAAACATATCTGTTATTAGTTCTTGGTTGCCATTTAAAAATGGA
K
ATTGAAATTTCCTTTACCTAGCAGGAAAATTACAACAGTGATCCTTGAATATTTGGAAAGGACACATACATTCCAAAGTGTCTAGTGATGAGGCAAAATT
Celera SNP ID:            hCV28954459
SNP Position Genomic:     127290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37401):
GATCATTCAAGTCCTCCTATAGGCCTCTTGATCTGTACATTAATTGGAATAATGGTCTGTTCTTTTTGTAGAAATTAATCATGTTCTTAAACACCTCCAT
K
CAGTGTAAGTTCTGACTGTTTAATTAAAACTTTATAGTAAGCTCAAACTGGGATCCTGAAAATGAAAAGATATTTTTTGTTATCTGGTTCAGGTTTTTGT
Celera SNP ID:            hCV28030073
SNP Position Genomic:     167872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37402):
GACTTTTAAGAACTTAACGCCCAAGGATCTTGTCATTCTTCTTTGTAAAATGGATCATCCAAATATTTACAATAGAAATAAGGAAAATACTTACAATAGA
M
ATAAGGAATAGCATACAATTCCATTCATTCTCATTCTCTCATTCCTGAAAATACTCGTAGATGTCTTGTCTGGACATTCATTTTCCTCACTGCCTAATAT
Celera SNP ID:            hCV206449
SNP Position Genomic:     254914
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37403):
AATTTTCTGTCTAGATGAGCTGTCTGGTTCTGAGAGTGGGATGTTGAATTCCTCAACTATTTTTGTGTTGAAGTGTCTCTCTCCCTTTAGATCTATTAAT
R
TTTGCTTTGCATATATCTGGGTGTGATACTGCTTCTCAGCCTTTTGGCTAAGATCAGGTTTAGTATCTGGTTGCTCTGGTATTGGTGCATATATGTTTAG
Celera SNP ID:            hCV12112837
SNP Position Genomic:     312594
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37404):
AATGATTTCTGCTGAGAAATCTGTTAGTCTGATTGGAGTTTCCTTATAAGTTACTAGATACTTTTCTTTTGCTGTTTTTAGAACTCTCTATGTCTTTGAC
T
TTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCCCCCATGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCAC
Celera SNP ID:            hCV12112838
SNP Position Genomic:     313529
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37405):
TCTGTAATATTAAGTCAGTTTATCACACTATGAGTAGTTTTTTTTAATGGATTCTGACAATATGCTGCTTATTGTAGTCTTTCATCCTTTATCTGAGAAC
W
ATGTTTTTATGACAGTAAAATATTTTTTATACAAATAGGATAAAAATTCATATGCTGTCATGCGCTAATATGAAGTTTATCCTTACATCTCCCACTCTCC
Celera SNP ID:            hCV422570
SNP Position Genomic:     186068
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37406):
TCTAAATCATACTACTTATTTCATTAGTTAATTATTGCTTGTGAACCATATTATAATCATCTTTAGTATCAATAAATATTTTTGAGATGATATAATGCCA
R
TAAATCCATAAATTAAAAAATTAAAGCATTAAAGAAATATCTACTATGTAAGCATTCAATTTTATATAATGATTATCTGGGTCAGTGTACCCAAAATTGT
Celera SNP ID:            hCV422571
SNP Position Genomic:     187429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37407):
AAGAAGCTGAAAATTATGGTTAGGGCAGACCCTGGAAATATCAGATCAAGTGATGGAACAGCCTCATATTCCTGTGTCCTGATCCCCAGTTTGTATGACT
K
CACTCTAGAAGAAAGAGCAAAGGAGCAAAATGTAAAAGGGAAGGAATGTCCACATAAGATACCACATGGGCAGGTGGTAGGAATGAGAGCCACAGGCATA
Celera SNP ID:            hCV422572
SNP Position Genomic:     261346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37408):
AATGGGGAAAATGTCTCCAGTATATGTCAGAGGTCTTCATGGCAGCCCCTCCCATCACAGGCCTAGGGGCCTAGGAGGAAAAAGTGGTTTAATGGGCTGG
R
TTCAGGGTCCCTGAGCAGTGTGCAGCCTAGGGACTTGGTTCCCTGCATCCCAACCACTCCAGTTGTCACTGAAAGAGGCCAAGGTACAGCTTGGGCTGTT
Celera SNP ID:            hCV29092161
SNP Position Genomic:     298568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37409):
GAGAGCCTAAAGAGATTACAACCCTCCCTAATCAGATGGGCCCTTCTGCTTTAAAATCCTTGCTTCCCTGTTTGGGTTGATGGAGCTAAGTGGTTGTGAC
W
TGTTTGATGCAGTTGACTGTGATGCATCCTGGTTTTCCATAAACTCCATGGAAAGAAGCTGGGAAGAGCCCCCTCGTGGCAAAGAGTGTAAGCAAATGGA
Celera SNP ID:            hCV422573
SNP Position Genomic:     261757
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37410):
TACTGAAATAATGTCCTAACAGGTCTCTGGAGATTCCCTCCCTGCTTACTGTCATAATCTGTAATGCGTGAATAGTCTTTATATACATGGCTTTCTTCTG
R
TTGTTGACAATAGGACTATCATGAATGGACCTCCATGGGTGGTTAGTGCAATGTAGAGGTCCGAGATAACCCCATTCTTGCTAAAAACATTACACATTTT
Celera SNP ID:            hCV12099431
SNP Position Genomic:     48421
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37411):
CTGTGCATTGTTTTCTTCCTATTACTTGAATTTAAGTTAATTTTCTTTTTTATTGACTTTAGTTTTTAGTTTCTGTCTCCCCTAAAAAAGTGGGAGCTCC
R
TTAGAGCAGGGTTTTTATTTTATAACCTACTCCATCCGTGGAGCAAGACTCACAATAACTACTTGTTGGATGAAGAAATCATTGAGATACTCAGTACAGA
Celera SNP ID:            hCV422579
SNP Position Genomic:     264657
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37412):
CTAATTTTTTGTATTTTTAATAGAGACGGAGTTTCACCATGTTGGCCAGGCTGGTCTCGATTTGCCCACTTTGGCATCCCAAAGTGCTGGGATTACAGGC
R
TGAGCCACCACGCCCAGCCTCACCATTGCATTTTCGTGCATTTATATTCTCATATAAAAGACACTGACTTGTGTGATTAAAATATCATCTACTTATACAT
Celera SNP ID:            hCV29092094
SNP Position Genomic:     290649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37413):
CCTAAATACTAGGATTACAGGCATAAGCCACTGCGCCCCGGCCTCTAATGGATTCTTTTTTATTGTATATACTTGAGGTGTACAACATAATATTTTGATG
Y
ATATTTACAATGTAAAGTAATTACTAAGGTCAAGTAAATTAACATCGATCGTCTCTCATAGTTTTAACTTTGTGTTTGGTGAAATCACCGAAAATCTACC
Celera SNP ID:            hCV154748
SNP Position Genomic:     192123
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37414):
TATTTTGATGTATATTTACAATGTAAAGTAATTACTAAGGTCAAGTAAATTAACATCGATCGTCTCTCATAGTTTTAACTTTGTGTTTGGTGAAATCACC
K
AAAATCTACCCTCTTAGCAAACTTCAGCACACTGTATAACATCATGAGGTATAGTTCTCATATTCTGCGTTGTATCGCTACACTTATTCATCTGACATAA
Celera SNP ID:            hCV154749
SNP Position Genomic:     192213
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37415):
TCCCTCCCCCACCTTTTGTTTCAATGGGTTGTTGTCATGGTGATTGTAAACTGTCATGGTGCTGTGAGGTGTATCATTTAGCATGAAAATTAGATTATAA
Y
GAAGTTAGAGTTTCTTCAGAGGTCAAGAAAGCTGCCATCTTGGATCCCGCTAGTCTTGGCCAGTTTGGTCACTAGGGGGACTTTTGACCTCAGGTGTCCC
Celera SNP ID:            hCV28954460
SNP Position Genomic:     128505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37416):
GTACTGGTTAGAAGCCATATTAACTAGATTTCAGTTTCTTGAAAATTTATACATTAGCAAGCATAGTGTAAATATGTATTAAGTGGGCAATAAATATTTG
Y
TGTGTTAGTGGCATTTTAATAGTACATGATGGAATAAATGATAGATGTGTTGTAAAAGCTTTTATTGCATGATTGCCAGTTTCTACCTCATTGTTGTTTC
Celera SNP ID:            hCV12099437
SNP Position Genomic:     48972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37417):
TATGGAATTGATTACTGACAAATCTTTGTTAAGTAAGGAATATATATCTCAATTTTGATATCCGCAATAATAAAGGATAGTGAATAAAAAATATTTTACT
R
TGTGCTCATAGAACACATTGTATGAATTTGCCCTTTGATGTATATATTCATTAAGTTCTACATTTATGAAGTACGCTTTGTGGAAAGTATTAATTTAAGT
Celera SNP ID:            hCV28954461
SNP Position Genomic:     156501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37418):
GTATAATGGGCACCATGATGACATAAATAAGCTTCTTTATAAAATTTCTGCTGTGTTTCCTACAGCTCCCTCCTATGACAAACTGAGTATTTGTGATTTA
R
TTCTACTGGATGATTTACTTCTACTGGATATCCTTAAGATTATATTTATTTACAAATAAGTAAAAATCACTGAAGTGGGATCCCTGGGTTTGTTGTTATA
Celera SNP ID:            hCV28954462
SNP Position Genomic:     154599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37419):
CGGTTTTCTCCATACTCCTCCAACGTAGATGTCCTTAATCCTCATTTCAATGATGATGCAGCTGATTCGGATTTAAAGAAGTTTGCCTAAGGTGACATCG
Y
TATTCAGTGAGGGTACTAAGCTTTGAACCTAGGTATGTTTAACGCTAAAGCCTGTGAATTGCACCATAGTCATTGGTATCAGTAATGAAAAATCCAACGT
Celera SNP ID:            hCV28954463
SNP Position Genomic:     157042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37420):
CATATAAATGGTATTTTAAAAAACTAGTTAGCCTGAGATCACCAAGGGAATGAATGCACATGGAGGAGGTCTAAATACCAAGTCCTGGGGTATACCTGGG
S
GGTGGGGTGGGTGGCATTAGGCTAAAGATAGTGAAAATTCTAATGAATGATAAGTAATATTTTGCTATGTTGATCTTGAGATTGATATGTTGAAATGGCA
Celera SNP ID:            hCV28954464
SNP Position Genomic:     160079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37421):
CTCAAATGCATAATCTGGCAAGGAATTTAGTCATAATTAGCAATACAACAATATCATAATAGATGTTGAACAAAGTACTATGGAGACTTCGAGGCTGAAG
Y
GATTAATTTGGTGTCAGTTTGAGAATGAAGCTGGAATGTTTTTATATATTAAAGTTGAATCTTGATAATCAATACTAAATAAAAGAAATGAAGTGGTAGG
Celera SNP ID:            hCV28954465
SNP Position Genomic:     229815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37422):
AAGAAAGATGAAGGAAGGGAGGGAAGAAGATATTCATTGTCTTAGGGCATCTGCTGGTTTTCTCTAGTATCTCCTTGACTTAGAACATGAACCAATATTT
R
TTTTTCTTGTCATATTGTCAGGCATATATTGGCACTAGCCACCTATTAAAATATTCTTTAATGATTACTTACTTTGTGTATTTAAAAAGATCCATTTAAG
Celera SNP ID:            hCV28954466
SNP Position Genomic:     273038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37423):
ACTGCAGTGATAAGAGATATCTCTACACCTATAATCTAGACTCTGTTTTTCCTATACAAAATTTGAAAATATAGAGAACTTTAATCATGGTATTGTGATT
M
TTTTTCTTTGGCATTCTCTTTAGATGCAATTTCTGCTTTGGAAAAAATATTCGGGCTATCCATTTTCACCTGGGCATGGAAAAAAAGAGATGTCTTTATC
Celera SNP ID:            hCV28954467
SNP Position Genomic:     262408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37424):
GCAGTGATAAGAGATATCTCTACACCTATAATCTAGACTCTGTTTTTCCTATACAAAATTTGAAAATATAGAGAACTTTAATCATGGTATTGTGATTCTT
Y
TTCTTTGGCATTCTCTTTAGATGCAATTTCTGCTTTGGAAAAAATATTCGGGCTATCCATTTTCACCTGGGCATGGAAAAAAAGAGATGTCTTTATCAGA
Celera SNP ID:            hCV28954468
SNP Position Genomic:     262411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37425):
GTGATCTGCCTGTCTTGGCCTCCGAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCATCTTTGACTTTTGAAAGTTTGGCTACAATGCACCA
Y
GGGGAGGACCTTGAATTTTATTTGTGTGAGTTTCTCTGAGCTTCCTGCATCTAGATGTCTAAATCTCTTTTTGTTAGACTTGGGAAGTTTTCACCTATAA
Celera SNP ID:            hCV12112840
SNP Position Genomic:     313864
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37426):
TCCTTTTTTCCATTTTAACTGCAGGCTGCCTTCTCTGTGTTTGGGAGAGAGTAACTTCAAAAGACATCGTCCTGGTCTTCCAACAGCCACGTTTTGAAAT
M
TAAGCCAGTATCCTGTAAAATTCTTACAATCTAGAGTAAATACAGACAGTTTGGCCCAAATACCCATACTTGAAATGGAAACTTTAGGTCTATTGTTTGC
Celera SNP ID:            hCV28954469
SNP Position Genomic:     266102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37427):
GTATATCATCTGATTTCAACTTCGGAAAATATATAAATGTACATCTAAGCTTCTAGTGAATGGTTGAAAGAAGTATATATGGTGTGTAAGTTCTTAAGCC
R
ATGGATTCAGCCTAGAGCAGCAGACCTGTTCCCAGCATTTTAACACTAGGTGTTTATTTACAGTGATCAAAGTGAGAATGTGTTACATCAGAAGTTAGAT
Celera SNP ID:            hCV27919600
SNP Position Genomic:     224477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37428):
AATTAAGACCTCTTTTCCAGAAGCAATCTATTATTTTTGTCCAGTGAGATCTATTTACCCTAGAAGTGTTTGTTCTTATACCTTAATTTTTAAAGTTTTT
K
TTCAGTAAAAAACAGATATGAATAAGTTGGTAGGAAAACTATTTTAAAAGGGTATTTTTGGCCCTATAAAAATCCCAGCAGGTATCTCTGCCTACTTTTT
Celera SNP ID:            hCV12112777
SNP Position Genomic:     146532
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,4)      total(G,4|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37429):
AGTTTTGAACTTTAAGGTTTAATGACTGCCCTATTGAATTTTAGACTTGCATGGGGCCTGTAGCGCCTTTGTTTCAGCAAGGAAACTGGTGGCATTTTGC
Y
CTAGCCCTAGAGATCTGTGAAACTTTGAACTTGAGGGAGATGATTTAGGGTATCTGGCCGAAGAAATCTCTAAGCAGCAAAGCACTCAAGAGGTGACTTT
Celera SNP ID:            hCV27919601
SNP Position Genomic:     299594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37430):
GTTAAATGTCTTTTCTTCTCTTTAGTGCCACTTAGAAAACTTGGAAATAAACAAAAAATGAAGCTCATATATTTTTTTACCACTGTCTAGAAACCATTAC
W
ATAATGCTGGTCTTAATTCATACTTACTAGAATTGGGAGATGTATTTGACTTACTCATAAATTTGATAGGTGGAAAAAGTAGCTTATTTATTACGAAGCT
Celera SNP ID:            hCV12112778
SNP Position Genomic:     146819
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,4)   total(A,3|-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37431):
AAGGGGTTGCTGCTCTTCACACTGAAGCAAGGGGAGAGTGAGATTTCTCATCTTTAACAACAACAACGACAAAAAGAAATAACAGCGCCAACAAGAAATT
R
AAAAGAAAATTACACACGAACACACAAAATCGTTCAACAAACTTAATATTCTTTTCAGTGGACCAGAAAACCTTTGGTATGACAACTCAAACTTTTGAGG
Celera SNP ID:            hCV422580
SNP Position Genomic:     265685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37432):
AGTAACAAGGAGCCAAATGTTAATCACCAAGACAATGGAGAAAATGTCTCCAGGGCATGTCAGAGACCTTAGTGGCAGTCCCTCCTATCATAGACCCAGA
K
GCCTAGGCAGAAAAAACGATTTCACAGGCCAGGCCCCAGACCCTCTGCTGTGTGCAGCCTAGGGACTTGGTGCCGTGAGTCCCAGCTGTTTCAGCCATGG
Celera SNP ID:            hCV27919602
SNP Position Genomic:     299974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37433):
TTGGAATGTTTGTACTTGTTCTCCAGGGAATGGGTTACATTGATATTAGGCATATTTAATTGTCAGTTTGCATTTCCCATTTTTGCAATTTTAAAATGTG
W
GAATAATACATTGCACAGGATGGCTGGACTCAAATAGTTCTCTGAATGAAATTTAAGCAATTGTATGTGCTATTCTATCATGTTGAAACAAAATTACAAA
Celera SNP ID:            hCV422581
SNP Position Genomic:     267477
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37434):
GATGGCTGGACTCAAATAGTTCTCTGAATGAAATTTAAGCAATTGTATGTGCTATTCTATCATGTTGAAACAAAATTACAAAGTGTTATCTATCACAGAG
K
TTAAGAAAAAAATGGCCTAGCATGGCTGGAGTAATTATTTTGCCAATGTTGTCACGAAGAAATAATTATCTCTTCTTACTGGTTAATGTATTTTTATTGT
Celera SNP ID:            hCV422582
SNP Position Genomic:     267596
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37435):
TGAAGGTTGTGTTGATTACTAATGGCCAGTGATACAGTCAGTCATACCTGTAGAATTGAAGCCTCTATGTAAAACCTAAAGGACAGGGTTCAGAGGACTT
Y
TGGATAGCTGAACATGTGGAGGTTCCTAGAAGGTGGTACAACCACCCAGGGAGGACATGGGAGCTCTGCACCCCTTCTCCTATACTTCACCCTATGCAGC
Celera SNP ID:            hCV26018711
SNP Position Genomic:     84451
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37436):
GCCAATGTTGTCACGAAGAAATAATTATCTCTTCTTACTGGTTAATGTATTTTTATTGTTCTTCAGTAACAGCTTGAATAATTTATCTTAAAGCATTATG
R
TATTTTTTAAGTAGAAAAACAGTTGAGTGTTTTTAACTATGAGAGTACCTTGAATAAAACAGTATTTCATTTCTGAGGTTGATGAGGATAACTATTTGAA
Celera SNP ID:            hCV422583
SNP Position Genomic:     267738
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37437):
TGATGAAGTAATAATCTGTGTTATTCCAGTTCTTTTAAATGTTAATTCATTTTAACAGTTGCTTCAGAAAATAAAATTTTATGAGGCAAAATACAGCAAA
R
TATTTCAACACCACATTTTTGTTTTTCCAACCAGAGTTTGTTTCATTTACAGACATTGTCATTTATTTTTTATTTTTATTCATTTTTTAGAACATCTTAA
Celera SNP ID:            hCV26018712
SNP Position Genomic:     86245
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37438):
TAGTTTTAACTTTGTGTTTGGTGAAATCACCGAAAATCTACCCTCTTAGCAAACTTCAGCACACTGTATAACATCATGAGGTATAGTTCTCATATTCTGC
R
TTGTATCGCTACACTTATTCATCTGACATAACTGATTATATATGTTTATACTCTCCAATGAAATTTATATTCTTTCAAAATTAAAAATACTGTTAGCTTT
Celera SNP ID:            hCV154750
SNP Position Genomic:     192282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37439):
GCATTTGAGGAAAATGAAATGAACTCCATTTGATATATGACCTATTGCACTTAAAAATATTCAGATCACTGGTTATTGCTGACTGCTTATAAGGCAAAAT
R
TTTTGATTTTACTGTATTGTTCATGCTGCGAGCAAAATGGGTGTCTGCTAAGTTTTTATTTTAAAATGCATATTTCTGTCTTTACCTTGTAGCCTTGCAA
Celera SNP ID:            hCV475466
SNP Position Genomic:     76413
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37440):
TTTAGCCAACTAGGTAAAAATAAATTTTCACATATTTCTATTGAGCCCACTGGACACCAATATACTTTAATAATTGTGTTTAAAATAGAAAACTCCTTCA
R
CTTGAAGCTGTCTTTTATTTGAGAAAAGTGAAAAAGAGATTCGTGGGATATTATAAAAGATGAACAAGATGCCTAAAATGGACAATGCTCCTTTACATGT
Celera SNP ID:            hCV26018713
SNP Position Genomic:     87408
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37441):
TTACAAGATTTTGTCTCTAAATTAACTCTCTTCATCTGAGGGAAACAGAAAGATGAAAGGACCTATTATTTTTGAAAAGAAACAAATTCTAAGTCTTTCT
R
TATTACCAGAGTGTTTTCATTGTCTTGCTTTATGTCTTAGGCAAAGAGAAAAGCTTCCATGACGCATTTATGCTTTTTAATGACCTAATTAGACAATGTG
Celera SNP ID:            hCV154751
SNP Position Genomic:     193962
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37442):
TACATGTTACTTTAACATTTGAGAGAATGCTATCAAAATGCAGAACTGGCTAAAAGTGTTAGAAGGAGTAGTTCAAGTTGTCTTCAACCAAGAGTCATCT
R
GAATTTGGCTGCACCCTGGTATATCAAATACGCTGTATGGGAATGTGCTTATATTTTGATGAGTAATGTGTTTTTATAACAAATGAAGATGCATGTCAGA
Celera SNP ID:            hCV26018714
SNP Position Genomic:     87602
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37443):
TTAAAATATGGGTGGCAGTGTCTTTAACTCAGATTTGGGATGCTTTATACAGTCATGGGAAATATCAGGGGATCAACTTGAAATTCTTTAAAAGTTAACA
R
AATTTTGGAACGATCAAGGAACATGGGAATATGGCCTCACCTTTTCTTTCTCACTGATGACATAAATGCCGCCCTCACTGTGTTGTTTATTGTTTCTTCC
Celera SNP ID:            hCV475468
SNP Position Genomic:     82461
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37444):
ACAGCCCTGAAAAGTGACTTTCATATTTAGGATTGAATATAAACTCATTCTAAGATTGTCTATAACCTATTTCTGTGTTGCTTAGCATAGTTCTATTTAA
S
AGAACTAAGACAAACATATAGAAATATGATGATGACAATGATGATATTATATTACTTTCCCAAGTGTCTGGCACTATGCGTATTTCACCAAGCATTTGTA
Celera SNP ID:            hCV26023321
SNP Position Genomic:     62433
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37445):
TCATTCAATAGAATTTAGGCTTGTCTTCCAGATTTAAAAAAAAATCATCTAAGGTGCAGTATGTACTGAAATAGTGAACCTGGAACAACCCCATATTCCA
Y
TGATATTCTTTTTTTTTCCTGGTTATACAACTGCTGGAACAATAGTGTAACAATGTCAAAGAAAATTTGTCTGGGAGGTAGGAAGATTGGTGATAGGAAA
Celera SNP ID:            hCV26023322
SNP Position Genomic:     72186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37446):
TGGGGTTGGGGTTGTTTGTTTTTTTCTTTTTTCTTCTTTCTTTTTTTCTGGTAGAGTTGGGGTTTCACCATGTTGGCCAGACTGGTCTCCGTCTCCTGAC
S
TCAAGTGATCCACCTGCCTTGGCCTCCCAAAATGTGGGATTATAAGTGAGAGCCACTGCGCCTGGCCTTTTTCTTGTAAATTTAAATTCCTTGTAGATTC
Celera SNP ID:            hCV12099371
SNP Position Genomic:     23305
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37447):
ATAGGAAAAGTACTATTATTATGGACAAGCTCTAGATTTGGGAGTCATAAGATTTGAGTATGGTTCCTGGATCTAATTCCTGGTAGTAAGGAGGCCATGC
R
TAAGTCGCTTACCTTGACCAATCTATTTTCTACTTTTCTAAAATGGTAATTCTATTTGCTCTGCTTAACTCACAGCTCTTGTAAGGATCACATGAGAAAT
Celera SNP ID:            hCV26023323
SNP Position Genomic:     72379
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37448):
TTCTTCTTTCTTTTTTTCTGGTAGAGTTGGGGTTTCACCATGTTGGCCAGACTGGTCTCCGTCTCCTGACCTCAAGTGATCCACCTGCCTTGGCCTCCCA
M
AATGTGGGATTATAAGTGAGAGCCACTGCGCCTGGCCTTTTTCTTGTAAATTTAAATTCCTTGTAGATTCTGGATATTAGACCTTTGTCAGATGAATAGA
Celera SNP ID:            hCV12099372
SNP Position Genomic:     23335
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37449):
TTATAATATTGAAAAGAACAATATCAACAGTAGAACAACCATATCAAGACAGTGGATCATGAAGCAATGACTATAGGATTCCCTCCTAAATTTCGTTCAT
Y
GTAACACCCACACTGTGTTCTGTCTCTGTGCACAGCACAACAAACTCACTTCAAAGCCAAATGAGGACTTGGCATACTCAGGAAATTCTAGTAATGAGAT
Celera SNP ID:            hCV26023324
SNP Position Genomic:     61609
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37450):
ACCAATAATGTCTGGTGGTAATGCGTGTTTTTTGGAGTAGTCTTTAATTACTAAACAAGGTGGTGACATACATAAAGCCAGTGGGTTTTTTTTCCACCGG
M
AGATGGGTGCTAAAGAAACTGAGCGATTTTATTTTTTTCATCATATAATATTTCTGATGGTCTTGCCTCCTTCAAGTCTCAACATGTGTCTCTTTAAAGA
Celera SNP ID:            hCV26023325
SNP Position Genomic:     62012
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37451):
GATGGGGGCATTTAAGTTATTGTCAGGATTAAATTCAATCGAAAGAATTAAGTGTTAGGAAACTGTGCCTTGCCTGTCAAATAGTGACTAGTCAGGAAAA
M
ACACACACACACACACACACACACACGCACACACACGCACGCACAAATGCATGCACACATTCCTCACTGCTATTTTGACGTATATGTACCTATAGTATGT
Celera SNP ID:            hCV26023326
SNP Position Genomic:     68334
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|-,2)   total(A,1|C,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37452):
TTCAATCGAAAGAATTAAGTGTTAGGAAACTGTGCCTTGCCTGTCAAATAGTGACTAGTCAGGAAAACACACACACACACACACACACACACACGCACAC
W
CACGCACGCACAAATGCATGCACACATTCCTCACTGCTATTTTGACGTATATGTACCTATAGTATGTCTAAATTTTTCATGGTATTAGATTATACTTCAA
Celera SNP ID:            hCV26023327
SNP Position Genomic:     68367
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37453):
TGGACACAAGGAGGCGTTTAAGAGGGTATTGTGAAAGTCCTGGGTAGAGACATTGAAGATTTATTAAGATAGTAGTGGTGGGCAGGAAAGGTGATTTAAG
A
AAAAAAAAAAAAAAACTGCAGTTGGGAGGATTAGCTTGTGATTGATAGTGGAAGGTGTTAACAAAGGGCATGAACGCCACTTAAAACTGTGAACCTGAGA
Celera SNP ID:            hCV12099376
SNP Position Genomic:     27191
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37454):
AGCAGCATGGTTTCTTTTTTTTACAAATCTTTTGCAAAGAGCAGTGATAATGTGCCAATGACAATGAAATATTTGAACAAGAAAAGTTGTTTTTATTTAT
R
GAGAAACAAGTAAAGGCCCTAAGGTGGTTAAATGATTGCTTAAAGTCACACAGAAGTGGCATGGCTCTGATTTCCCAGTTTACCAGATACTTAGATACTC
Celera SNP ID:            hCV26023328
SNP Position Genomic:     68831
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37455):
TGTCTCTTTAAAGAGAATATTTCACCTTTCAAAATGAAGTCTCCTAATGACTCACTTAAATGTTTATTGTTTTCTTGCCGTAAGGAACTTTGTGACTTGT
A
AATATGAATTTATGTATGCATTTTTGTATGAATAAATACATTTATAAAATTGATATTTAAAAAGAGCTAGCACTTAAGTTAGGCCAGACGTTTTTCTAAG
Celera SNP ID:            hCV26023329
SNP Position Genomic:     62199
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37456):
TACTATAACGTTTTGTGTAATAAAAGTTGGTTTTGAAATTTTATTTTGATATAAATGTCTTTATATTTTAAAATCTGTTTTAACAAGATGAAATTTTAAT
M
AATTTGTGTCATTCACATGCTCTTCCTTTTAAAGAGATGTATTTGCAGCTGATACTCTACCTATCTTTTTTAAAAATTTTAATTTAATTTAATTTTAAAA
Celera SNP ID:            hCV517627
SNP Position Genomic:     21182
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37457):
ATGAGATTTTATCAGATCAGATTCAAACATGGAGCTTACAACCAGGATCACTAATTGCACAAAGAAACACCATGAGTTTGAGTTAACAGAAACAAAAATA
Y
AACTTTCTAGATCTGTAAAAGGGTTAAAATATTTAAATTAAAATTTAATTTAAAAATTTACATATTTAAGGAAAAATAATAGCAATGAGAAAAGACATAA
Celera SNP ID:            hCV187179
SNP Position Genomic:     259893
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37458):
AAGTTGAGGAAGATTCCATAATATGTCCTCTGTTTCTTCTATAAATTAAGAAGGGAAGCATTCTCTGAGAGTGAAGAGGAAGGAAGGTCATACATGTTAT
K
TATATGTCTTCTCCTTCATTCATTTGCTCAAAAAAACACTTATTGAATGTTTCCATGTGCCATGTTCTGTGTTAAGACTAGAAGAAGCAACCAAAAATGA
Celera SNP ID:            hCV12112783
SNP Position Genomic:     147858
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37459):
ATAAATTAAGAAGGGAAGCATTCTCTGAGAGTGAAGAGGAAGGAAGGTCATACATGTTATTTATATGTCTTCTCCTTCATTCATTTGCTCAAAAAAACAC
Y
TATTGAATGTTTCCATGTGCCATGTTCTGTGTTAAGACTAGAAGAAGCAACCAAAAATGAAGTGCACAGTGGAGTCTATCAAACAACTTCAGTCACGAGT
Celera SNP ID:            hCV12112784
SNP Position Genomic:     147898
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37460):
ATCGATCCTGAGTTTGACAGATAAAACATGTGTCTGAATTGTAGTTACAGCCAAACTACAATCTATCAGCTTTTCCCTCAGGGTAATTATGCTTATTTTA
Y
CCCAAAACAAGGTAATTGTTTTGTGATAAAGTATTCAGTTCACTCGGAATAAGCCGTTGGCCTCCTTTTATCTACTTATTTATTTATTTATTTATTTATT
Celera SNP ID:            hCV12099450
SNP Position Genomic:     52056
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37461):
TTCTCCCATCTCAGCCTCCCAAGTAGCTGGGCTTATAGGCACCCGCCATCATGCCCAGCTAATTTTTGTATTTTAGTAGAGACGGGGTTTCACCATGTTG
R
CCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAGAGTGCTAGGATTACAGGCGTGAGCCACCATGCCCGGCTGGCCTCC
Celera SNP ID:            hCV12099451
SNP Position Genomic:     52381
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37462):
ATCTTTCAGTATGCTTTTTTTTTGTGCTGGAGTAGAAAACCCAACTAAAAATGATATACATTTTAATAACCAAAGTATATTATCTCACAGATGGAAGTCT
R
GAAGGTCTTAAGGGTGACTCCATCAAGGAGTTCTGGCTCCATTTTCCCAGGAATTCTCTTGATTTTGCCCTCCTCTAAATGAAACAATGTAATTGAAGCA
Celera SNP ID:            hCV26023330
SNP Position Genomic:     69688
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37463):
CTGTAGTAGACAATTTAGGCTTAATAAAAAGGTTTCCATCCAGTGTTTGCTAAAGGTAATTGAAGAGAATTGGAGAAAATAATATTTTAAACAATTCCGC
A
AAAAAAAAAAAAATACATAAATAGAAGCCCTATGTTTTGATGGCATTGATGGCAGTCTGTTCTAAATTCAGTACAACTGTGTTTCATCAGATAAGTTACT
Celera SNP ID:            hCV26023331
SNP Position Genomic:     131879
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37464):
GGTTTCCATCCAGTGTTTGCTAAAGGTAATTGAAGAGAATTGGAGAAAATAATATTTTAAACAATTCCGCAAAAAAAAAAAAAATACATAAATAGAAGCC
S
TATGTTTTGATGGCATTGATGGCAGTCTGTTCTAAATTCAGTACAACTGTGTTTCATCAGATAAGTTACTTAGCACAAATGTGATTCATGTAAAGAAACC
Celera SNP ID:            hCV26023332
SNP Position Genomic:     131909
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37465):
CACTGCACTCCAGCCTGTTGACATAGCGACACTCCATCTCAACAAAAACAAAAAACAAACAAACTTCTAAAAGATTGTAAGCTGTAACAAATTCTGGCAA
R
TGACTTGCAAATGAGAAGAAAAAAATCACGCTCATTCATGTAAAATGGTATCTGCTTTGAGAATAACCCAGTATCAAGTATGTGTTACTTGAATTAGAAC
Celera SNP ID:            hCV26023333
SNP Position Genomic:     120451
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37466):
TAGCTTGTGATTGATAGTGGAAGGTGTTAACAAAGGGCATGAACGCCACTTAAAACTGTGAACCTGAGAAACTAGAAAGATAGTGGCGCTGGTCACTGAG
A
AAAAAAGCATCAGATCAGTTTTTGTTTATTTTAGTTTCGGGGTGAAGGAGGGAAGATGATGTGTTTGGTTTGGACATATTCAGTGTATGTTACTTTTGCA
Celera SNP ID:            hCV12099382
SNP Position Genomic:     27323
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37467):
TCCAATTAGAGACTCATTGATCAAATAGAACAAAGAAGAATACTGTGCAGGTAAGGTTTATGGATTACTCTATATATTACTCTTTGCCCTGTTCTGTTCA
R
TTGTGTTAGTATACTTTATGTTCTGCTGCTGTGATGACTTTGTGATTAAACATTAACCAGCTCTCAGGGAGTGGGGAGGAAATCATGTAAGTCAATATAT
Celera SNP ID:            hCV26023334
SNP Position Genomic:     134866
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37468):
TGGGCCCTTAACCAGCATACTACACTGTATCTCCTTCACTGCCGAAGAAGCAAGAGTCTCTGCCACCTGTCTAGGTTTCCAGAGTTTCTTTTTCACTCTG
W
TGAAATTCACAAAAATTCTCTTACTCAAACTTATTAGTTATTGTGTATTATGAGAATATTTAAATCAAAATTGGATCCAAGTCAATGTATAGGGAGACAT
Celera SNP ID:            hCV26023335
SNP Position Genomic:     137113
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37469):
TATGAAAACTCAGAAGGCAACCTATCTGATTTCTTAAATTTAAATTTCCTGGTTAATTTATTTAGATTATTTGAAAATTCTTCTTTGCCCAGGTACCTCA
Y
ACATACATGGACTATACTACTTGGTCACTTTTAATTTAGAAGGAACTTCCTTTAGGAACAGATATTTTGTATAGCTGTAAATTATTTAAATTCACATGAA
Celera SNP ID:            hCV2131905
SNP Position Genomic:     53537
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37470):
CAAGTTGTTTTAAAAATATGTATATTTGTATCTTGCTGCAGGACTTCTCTAATTTTTTAAAAAATTGATCGATGTGTAAGAGGCTTTCATTCTTTCTTTC
T
TTTTTTTTTTTTTTTTGAGACAAGGTCTTGCTCTGTTGCCCAGGCTGGAGTACAGTGGCGCCATCTCAGCTCACTGCAGCCTCGACCTCCTGGGTTCAAG
Celera SNP ID:            hCV26023336
SNP Position Genomic:     137774
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37471):
CATTACTTCTTAAAGCCCTCAAGAAATTATGAAAACTCAGAAGGCAACCTATCTGATTTCTTAAATTTAAATTTCCTGGTTAATTTATTTAGATTATTTG
M
AAATTCTTCTTTGCCCAGGTACCTCATACATACATGGACTATACTACTTGGTCACTTTTAATTTAGAAGGAACTTCCTTTAGGAACAGATATTTTGTATA
Celera SNP ID:            hCV2131906
SNP Position Genomic:     53510
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37472):
AAGTTGTTTTAAAAATATGTATATTTGTATCTTGCTGCAGGACTTCTCTAATTTTTTAAAAAATTGATCGATGTGTAAGAGGCTTTCATTCTTTCTTTCT
T
TTTTTTTTTTTTTTTGAGACAAGGTCTTGCTCTGTTGCCCAGGCTGGAGTACAGTGGCGCCATCTCAGCTCACTGCAGCCTCGACCTCCTGGGTTCAAGC
Celera SNP ID:            hCV26023337
SNP Position Genomic:     137775
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37473):
GAATAAATAAAATCTTCTAAAGTTTACAGTTACTTTAAAGTACTCCAAATTTAAGCATACTTCACACGTGCTATATAAAACATAAAACAACTTAATTCTT
Y
ATTAGTGTGTATTTCAGTTGCATCTTTAGGCTTTTTCTGAATGCCTTCATTACTTCTTAAAGCCCTCAAGAAATTATGAAAACTCAGAAGGCAACCTATC
Celera SNP ID:            hCV2131907
SNP Position Genomic:     53362
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37474):
TTATGAAACATCTAGAATAATTAAATCAGAAAAGGGAAAATATTTGTTAAGTCAAAGGAAGTATTTTCTTCATCTTTGTAAACATAAGTCTCTACAGCAC
Y
GTAATCCATATAACCTCAGCGTCAAGTCAGATTTTTTTTATTGCCTGAAAACTGCTAAGTGAACACATTATATGTAAAATTAAAGTAGTGGAAGTATACA
Celera SNP ID:            hCV26023338
SNP Position Genomic:     138336
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37475):
CATTCAAAAAACATTTATTAAGCAGCCACTATGTGCCAGGAATAGTAGAATAAATAAAATCTTCTAAAGTTTACAGTTACTTTAAAGTACTCCAAATTTA
R
GCATACTTCACACGTGCTATATAAAACATAAAACAACTTAATTCTTTATTAGTGTGTATTTCAGTTGCATCTTTAGGCTTTTTCTGAATGCCTTCATTAC
Celera SNP ID:            hCV2131908
SNP Position Genomic:     53315
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37476):
TCAAATGTTAAGCTTTCTGGTAAATTAGACAAAGCAGATTTATCATGCCATTTCTTTTTTGAATGGCAGTGTTAGTCCAAGTTCCTGTTGATGGTCTCAC
K
ATTCTTTCCATAGTTCTGTTACATAAATGTGAAACTTTAATACCTAAATAATTCTAAATATATTTTTAATGAGGAAGTCTTCAGGACAGTGGTTTTCCAA
Celera SNP ID:            hCV26023339
SNP Position Genomic:     142705
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37477):
CTCAGTAATAAGGAGAATCATCTGGGACCCCAGCAAGGTAGAGAAACTGCATTTGAGAATTCCACATTAAACCCAAGACTCTTAAAGGGGTGCTAAAGTG
R
TTTTAGGTATGTAGGACCCCTTGGCTCCCTACAAAAATATATATGGATACTTTTGGAAGGGAAGCATCACCAGTTAAGGGCCATGAGATTTTATCAGATC
Celera SNP ID:            hCV187180
SNP Position Genomic:     259710
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37478):
CACAATTTAAAACAAGACCAGAATTAAGCATTCAAAAAACATTTATTAAGCAGCCACTATGTGCCAGGAATAGTAGAATAAATAAAATCTTCTAAAGTTT
R
CAGTTACTTTAAAGTACTCCAAATTTAAGCATACTTCACACGTGCTATATAAAACATAAAACAACTTAATTCTTTATTAGTGTGTATTTCAGTTGCATCT
Celera SNP ID:            hCV2131909
SNP Position Genomic:     53287
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37479):
CTTAGTTTCTTAATCTTCTGCCTTTAGCAGTTTAAGAGTTCATCAAATGGTTAAAAGGAAAACTGCCCACTTCCCACTGAGATATGAAACATTCAAGTTC
W
GGCTTCCATGGCAACCCCAAACTCCAATTTTTATGTCACCAGCCTCATGACATTGCTAGAAGCTCTGCTGGCTTGCCTCCCAAATAGCTGCACCCCTCTG
Celera SNP ID:            hCV187181
SNP Position Genomic:     259126
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37480):
GAAGACTACCTCATTTGTTCAGGGTCCTTGCTCACCCAAAACTGTAAAAGGAGTTTTTGTCAGATTCCGTCTCTGAATTGCCTTTCCCCTAGAAGCCCAA
Y
TAAGAACCTGGGAGATTTCCTCTGACCTTTCCTTTTTGGAATCTAACTTCATGGTTTCACTTCTCAGTATTACAGAAAATATCAATGAGATTTTCAGTAA
Celera SNP ID:            hCV187182
SNP Position Genomic:     258918
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37481):
AAGCTTTAAATGGGAACATGAAATGATATCGGGGAAGACTACCTCATTTGTTCAGGGTCCTTGCTCACCCAAAACTGTAAAAGGAGTTTTTGTCAGATTC
Y
GTCTCTGAATTGCCTTTCCCCTAGAAGCCCAATTAAGAACCTGGGAGATTTCCTCTGACCTTTCCTTTTTGGAATCTAACTTCATGGTTTCACTTCTCAG
Celera SNP ID:            hCV187183
SNP Position Genomic:     258885
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37482):
TCAAGAAAGTGTTTTATTTACTACACATGAGCTATGATAAGGAATTTAGATATCAAAATTAAGAATAATAAAGCTTTAAATGGGAACATGAAATGATATC
R
GGGAAGACTACCTCATTTGTTCAGGGTCCTTGCTCACCCAAAACTGTAAAAGGAGTTTTTGTCAGATTCCGTCTCTGAATTGCCTTTCCCCTAGAAGCCC
Celera SNP ID:            hCV187184
SNP Position Genomic:     258815
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37483):
CAAGCACTTTTCCCTTGGAGCAGTCCAAGATTGTCAACACAACTTTCGAAATTCCCTTCTCTCCCACATTAGGATGGAGTCTATTTCAGATTCAACATGT
R
TAAGTTTTAAGCAACACATGCAGAGAAATTTTGTCTTGGAATACCTCCAAAATTTATATCACAATCATTGCATGACTTACATAACATTCTCTAGTTCAGT
Celera SNP ID:            hCV187185
SNP Position Genomic:     257428
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37484):
TGTTTAGAAATCTACTTTCTAGTTTAATTGTTATGGAGAAATCATCTTCCTGTATAGATTAAAATTCAATCTTTTTTGAACTCAAAGAAAAATTTGGAGG
S
AAAGATAAATATTAATGATGGATTATCTAATATTTGTTCCAATCTCAACATGTTTTACTTCTCATAGCCTTTTATCTTCCAGATAAAATTATGAGCGCAG
Celera SNP ID:            hCV12101506
SNP Position Genomic:     120762
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37485):
ATGGGGGTGGTTATTGTCATGCTGCTGTTCTTGTTATAATGAGTTCTTATGAGATCTAATGGTTTTGTAAGGGACTTTTCCCCCTTTGCTTGGCACTTCT
S
TCTTCCTGCCACCATGTGAATTAAGGACATGTTTGCTTCCCCTTCCACCATGATTATGTTTCCTGAGGCCTCCCCAGCCCTGTGGAACTGTGAGTCAATT
Celera SNP ID:            hCV12112797
SNP Position Genomic:     301118
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37486):
TTTTTCAGACAACATTACTAAGGAGATTTGATGCCTACATATCAGTCTTCATCTCAAAACTTCTAAAAGAGGCCTTACGCGGTAGCTCACTCCTGTAATC
Y
CAGCACTTTGGGAGGCCGAGGTGGGCGGATCGCGAGGTCAGGATATCGGGACCATCCTGGCCAAAATGTTGAAGCCCCGTCTCTACTAAAAATACAAAAA
Celera SNP ID:            hCV12101508
SNP Position Genomic:     120142
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37487):
TTCCAGACACTTCATGTTCAGAATACCTCTATTCATTTTCTGCTGATATGGTTTTGCTGTGTCCCCACCCAAATCTCATTTTGAATTGTAGCTCCAATAA
Y
TCTCATGTGTTGTGGAAAGGACCCAATGGGAGACACTTGAATCATGAGGGCAGTTTCCCCCATATTGTTCTCCTGGTACTGAATAAGTCATGGATCTGAT
Celera SNP ID:            hCV12112798
SNP Position Genomic:     301574
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37488):
CTAATATTTTGCTTGTTTTTAGTTTCAAATCATCCTAGGATATTATTGATTACTCAACTGATTGACATGGTTTGGGAAATAAGGTATTTTGAAAGGAAAA
A
TGTCTTCTTTTTATAAACTGTACAGGAACCTTCTATTAAATTCTGTAAATGTCATTGATCTCAAATCCATGCATCACATGTGTAAATTATATTATTTGTG
Celera SNP ID:            hCV26023340
SNP Position Genomic:     151324
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37489):
TAATATTTTGCTTGTTTTTAGTTTCAAATCATCCTAGGATATTATTGATTACTCAACTGATTGACATGGTTTGGGAAATAAGGTATTTTGAAAGGAAAAA
T
GTCTTCTTTTTATAAACTGTACAGGAACCTTCTATTAAATTCTGTAAATGTCATTGATCTCAAATCCATGCATCACATGTGTAAATTATATTATTTGTGT
Celera SNP ID:            hCV26023341
SNP Position Genomic:     151325
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37490):
GGTTGTGACTCTGGATGTGATATTCAATTTCTATGTGTTTCCATTTCCTCATGTGTAAAATGAGATAACTACAAGCCTTTTGAAACTTTGATCCTGAAGA
Y
GTCGTTTTGGTAGATCTAAAATGAATACATGGTGGATCCCATCACTGTTTTATTTAGAAATACAAAATCAAGGTTATTAATTCTAAGATATGCATCCATA
Celera SNP ID:            hCV2131910
SNP Position Genomic:     52753
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37491):
GACCTTCCACGGGACACGTGGAGTATTCTAACTAATGCAGAAATCCGAAGCAGACTAGAGTATCCCTGATCTCCTTAGTGGTGTAGAATCTCACACTGTA
T
TATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCT
Celera SNP ID:            hCV26023342
SNP Position Genomic:     152699
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37492):
ACCTTCCACGGGACACGTGGAGTATTCTAACTAATGCAGAAATCCGAAGCAGACTAGAGTATCCCTGATCTCCTTAGTGGTGTAGAATCTCACACTGTAT
T
ATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTC
Celera SNP ID:            hCV26023343
SNP Position Genomic:     152700
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37493):
CTTGAAGAAAATAGCTAAGGAAAGTGCATTTAGAGGGAGATACTGTGTCCTTTTCTATTTAGAATAAAAATATTATACTTATCTTACTTTATTCAAATTC
R
TTAATTGTGAGAACATTTACCGTATGATTTCAGGTTTTTGAAACACATGTATAAGTTTTATCAATGACCTAATGAATGAAAAAATATCCACATCTATGTC
Celera SNP ID:            hCV9576119
SNP Position Genomic:     253988
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37494):
CCTTCCACGGGACACGTGGAGTATTCTAACTAATGCAGAAATCCGAAGCAGACTAGAGTATCCCTGATCTCCTTAGTGGTGTAGAATCTCACACTGTATT
A
TTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCG
Celera SNP ID:            hCV26023344
SNP Position Genomic:     152701
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37495):
GCCAAAAACAGATAATATTTGCTGAATGAATCAAACGGGTTTCTGAGACGATCAATTCTTTAAAGATAGAGACTCAGTTATTTGTCTTTTTCTTCTGAGC
S
AAGTACAAATACTTACATAACAATTATATTGAATTATTGTTATTTTTTTCTTGTAGCTATTTTTTCTCATGGTGTAAACTGAGGGCAATAATTGGCATTT
Celera SNP ID:            hCV2131913
SNP Position Genomic:     51488
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37496):
CTTCCACGGGACACGTGGAGTATTCTAACTAATGCAGAAATCCGAAGCAGACTAGAGTATCCCTGATCTCCTTAGTGGTGTAGAATCTCACACTGTATTA
T
TTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGG
Celera SNP ID:            hCV26023345
SNP Position Genomic:     152702
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37497):
CTCTTGAGTATTCAAATTTGTTAAAATATGAAACACAGTGCTTGGCCAAAAACAGATAATATTTGCTGAATGAATCAAACGGGTTTCTGAGACGATCAAT
Y
CTTTAAAGATAGAGACTCAGTTATTTGTCTTTTTCTTCTGAGCCAAGTACAAATACTTACATAACAATTATATTGAATTATTGTTATTTTTTTCTTGTAG
Celera SNP ID:            hCV2131914
SNP Position Genomic:     51444
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37498):
TTCCACGGGACACGTGGAGTATTCTAACTAATGCAGAAATCCGAAGCAGACTAGAGTATCCCTGATCTCCTTAGTGGTGTAGAATCTCACACTGTATTAT
W
TATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGC
Celera SNP ID:            hCV26023346
SNP Position Genomic:     152703
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,2)   total(A,1|-,2|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37499):
ACCTCCTGGCAGACCCTTCTCTTCCACCAAACGTGTGCACATCCTTGAGAGCCGTGAGCAACTTGCTCAGCACACAGCTCACCTTCCAGGCCATTCACAA
S
CCCAGAGTGAATCCCGTTACTTCGCTCAGTGAAAACTATACCTGTTCTGACTCTGAAGAGAGCTCTGAAAAAGACAAGCTTGCTATTCCAAAGGTAGGTA
Celera SNP ID:            hCV25762495
SNP Position Genomic:     250527
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,32)   total(C,1|G,69)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:37500):
CACATCTCTCTTGAGTATTCAAATTTGTTAAAATATGAAACACAGTGCTTGGCCAAAAACAGATAATATTTGCTGAATGAATCAAACGGGTTTCTGAGAC
R
ATCAATTCTTTAAAGATAGAGACTCAGTTATTTGTCTTTTTCTTCTGAGCCAAGTACAAATACTTACATAACAATTATATTGAATTATTGTTATTTTTTT
Celera SNP ID:            hCV2131915
SNP Position Genomic:     51437
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37501):
ATTTATTTATTTATTTATTTATTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCC
R
GGTTCACGCCATTCTCCTGCCTCAGCCTCCCAGGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGG
Celera SNP ID:            hCV26023347
SNP Position Genomic:     152825
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37502):
TCATCCAATCTGATATAATCAAAATGAAGATGAATGAAATGAAATTCTGTCAGACTGTATAAATTTCTCTAAGTCATGCATAGAAAGTCTCCTAAGTCTA
Y
GTTTCTTGTGTAGGTTTTGAAAAATACAATTCAGCTTCCTATTGATATTTTGTCTGAATTGAATTATATATTGCGAAGGTGTCAAAAATGTTTTCCTATG
Celera SNP ID:            hCV2131916
SNP Position Genomic:     51201
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37503):
GTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCA
R
GTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTC
Celera SNP ID:            hCV26023348
SNP Position Genomic:     152858
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37504):
TATAGCAGGAAAAAGTCTTGTACATCATCCAATCTGATATAATCAAAATGAAGATGAATGAAATGAAATTCTGTCAGACTGTATAAATTTCTCTAAGTCA
Y
GCATAGAAAGTCTCCTAAGTCTATGTTTCTTGTGTAGGTTTTGAAAAATACAATTCAGCTTCCTATTGATATTTTGTCTGAATTGAATTATATATTGCGA
Celera SNP ID:            hCV2131917
SNP Position Genomic:     51177
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37505):
GACTCAAGCATTCCTTGGCTTGTAATGGCATTCTTCCCATGCCTCTTTTTATATGTCTGTCTCTGAATCCAAATTTCTTTTTTATAAAGACACAGACATA
T
TGGATTGGAACCTAGCCTAATGACTCCAACTTGATCATCAGCAATGACCCTATTTTCAAATAAGGTCATGTTTATTCACACTGAGGATTAGAACTGCAAA
Celera SNP ID:            hCV26023349
SNP Position Genomic:     122338
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37506):
CACAAATGGCCAATAAGGCCACGGAATTAGACAAAATATATTGGGAGCTTGTAGAAAAAGAAGCACTCTTGAGAATACAAGTACTTAACAAGAGAGTAGA
R
GTGAATTTAGGGCAGACAACCATAGATTTCAAATCATATAGCAGGAAAAAGTCTTGTACATCATCCAATCTGATATAATCAAAATGAAGATGAATGAAAT
Celera SNP ID:            hCV2131918
SNP Position Genomic:     51040
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37507):
GACGGCAAAGAGGAATTCTGTGATATTATACATTATTGTATGTTAATATATAGTGTAATATTTATGTATACGTATATTTGATTATATGCCTATAGGATAC
Y
GATTTTGGAATCATCCCTCCACAAATGGCCAATAAGGCCACGGAATTAGACAAAATATATTGGGAGCTTGTAGAAAAAGAAGCACTCTTGAGAATACAAG
Celera SNP ID:            hCV2131919
SNP Position Genomic:     50920
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37508):
CACTCCCCGCCGCGGGGGTGGTGCTCAGCTGCTTGGCCGCCGCGACATGGCTGGTGCTGAGGCTGAGGCTGGGCGTCCTCATGATCGCCTTGACTAGCGC
K
GTCAGGACCGTGTCCCTCATTTCCTTAGAGAGGTTCAAGGTCGCCTGGAGACCTTACCTGGCGTACCTGGCCGGCGTGCTGGGGATCCTCTTGGCCAGGT
Celera SNP ID:            hCV25760899
SNP Position Genomic:     6681
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,2)   caucasian(G,34)   total(G,68|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:37509):
ACTTAGTAAATCAATATTGGAATTATTTTTTCAGCTCTCGCTTTTTATATCAATAACTTTGATATTGAGTAAGTTGTTTTTTCCCATTGCTTGGCTAATT
K
TTATCATAATTATCTTTTCTGTACTTCAGTATGATGACTGTCCTTCTGTAGGCCCAAGAAATATACTCTATATAAGTAAGATTTTCTTCTGGATGGCTAT
Celera SNP ID:            hCV397981
SNP Position Genomic:     101369
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37510):
CTTTCTCTAGGTAATGTATATTAAGCTTTGGGCCCAACCCAGTAACTAAATGGGATGATGGTGATGACGATTATTATTGATTATTGTTTTCTTAAAAGCC
R
TGATTCCTATTAAAATACTCTTGTAGCAAATTGTAATGAATTTTTCCCAGTTGGTTTACCAAGTGCGTAAGAATCAGATATCAGTAAAAATGTCAAAGTA
Celera SNP ID:            hCV397982
SNP Position Genomic:     98615
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37511):
GACCTAGTCCCTGTCATCCAGGGGCCAATAGGTCACAGATGTGAATTAGCCCTTTCCCTTGACTTTTGGGATTCCAATTTCAAAGAGGTTGTAAAAGAGA
S
AGTGCCATATTCTTGAACCTTTTAGCCAACTAGGTAAAAATAAATTTTCACATATTTCTATTGAGCCCACTGGACACCAATATACTTTAATAATTGTGTT
Celera SNP ID:            hCV397983
SNP Position Genomic:     87287
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37512):
GTCATTTCCTGAGATGGGAAGTCACAGCGAGGAGCCCATTAACCATATATTAAAACTCCATTAGTAATATTAAGACTGTCCATTCTAGAAGAGGTGGTGG
S
TCACGCCCGTAATCCTAGCTAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGATTTCGAGACCAGCCTGGCCAACTTGGTGAAACCCCG
Celera SNP ID:            hCV397984
SNP Position Genomic:     85064
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37513):
TGAGTGATGTGTGAGAGTAGGAGAAACAATGGTTTTTCCTACATTCTCTTACACTAATGGATTTGTATTCGGAGAGATTGGAAAGATGGATCTGTCATTT
M
CTGAGATGGGAAGTCACAGCGAGGAGCCCATTAACCATATATTAAAACTCCATTAGTAATATTAAGACTGTCCATTCTAGAAGAGGTGGTGGGTCACGCC
Celera SNP ID:            hCV397985
SNP Position Genomic:     84971
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37514):
TAGGATCTCTGATTTATAACTGGTTGGTCGAAATACAGGTCACAACCTGGGATTTGGAATTGGCATCTGAAGAGGGGGGCAGTCTTGAGGGACTGAGGGG
Y
GATGCTATGTCCAGGTGGATAGTGTTAGGATTGAATTGAATTAGACGATGCTCAGCTGGTGTCTGTTGAAGAATCTGGTGTCAGAAGTGTTGAGTGATGT
Celera SNP ID:            hCV397986
SNP Position Genomic:     84780
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37515):
CAAAAGAATGAGCTAAAATATTTTATTCTGTGAGGCTAAAAACTATAACTAGGATGAGGAACTCTTTTCTCCCAATACAAATTATAGAATTTCAAAGCAG
R
AAGAGCATCTTGTTTTACCCCTCTTTGTACAGATGGGAAAAAGAGCCCCAGGAGAGCACAAGATTTGCTCGTGTCTCACAGGCATTTACTGAATGGCAAA
Celera SNP ID:            hCV26023350
SNP Position Genomic:     153953
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37516):
GCCCAAAATTCCATTTAACTGATTGATTAATGAGGGAACCAGTAAGATGTTACAACTGATTCAAATGAGAAGTTAAAGTATCACATACATTTAAAGTCAG
R
AAAGAAGTGCTAAATGAATTTACAAAAAGGTGCATAAGGCTGGACACGGTGGCTCATGCCTGTAATCCCAGCAATTTGGGAGGCTGAGATAGGCAGATCA
Celera SNP ID:            hCV26023351
SNP Position Genomic:     124351
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37517):
TATGGAGAATGAAATGAAAGGAAGCCAGGAGTAAATGTGGGAAAACCAGCAGCCAGGACAGTGGAGGAGAGCATCTTTGACCAGTGTGATGGTACGGGAG
R
GTGAAAATAGATGGACTTTAGAGACGTTTAGTAATAGTTTTAAACTCATGTGCTGTAAATTCGATTTGATTTTAAGAGGTGACAGGAAGGCAGGAGGCAA
Celera SNP ID:            hCV2131920
SNP Position Genomic:     50611
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37518):
GCCTGTAATCCCAGCAATTTGGGAGGCTGAGATAGGCAGATCACTTGAGGTCAAGAGTTTGAGACCAGCCTGGTCAACATGGTGAAACCCTGTCTCTACT
A
AAAAAAAAAAAAAAAAAAAAAAAAAATTAATTCCAGCTACTTGGGAGGCTGAGGTGGGGGAATTGCTTGAACCCAGGAGGCAGAAGTTGTAGCGAGCCAA
Celera SNP ID:            hCV26023352
SNP Position Genomic:     124509
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37519):
TCAGTCTACTCCTATTGGTTTCAGTTTATAAATTCTGCCTGGAGTGGTCATCTCTTTCCTAACTTGGTTACAGACAGTCCATGGATTTCCACTTTTGTGA
Y
AGAAGATGGAAAAAGGTGAGGAGGAGGGGACAGCAGATCACATAGGCCATGAGGGGTCACTGCAAGACTCGTTCTGAGGCAGATGGGATACCATCAAAGG
Celera SNP ID:            hCV2131922
SNP Position Genomic:     20482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37520):
GGAATTGCTTGAACCCAGGAGGCAGAAGTTGTAGCGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAGAGAGACTCAGGCTTAAGAAAAAA
W
AAAAAATAAAATAAAAAAAGTGGTCAGTTTCTACAAGGCAATATTCAATTGCATTCCAATGGATACAACATCCATTTCTATTTTTGTTATTTTTCTGTTA
Celera SNP ID:            hCV26023353
SNP Position Genomic:     124668
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37521):
AACAATGCAAACAAATTTGCATTTGATTACAAAAACTCACAAGTCTTACAAAATATGAAAATTTAATGGAAGTTAATTAAAACAGTATTAGGGAGTTAAA
K
TGTAAGCAAAGCCACTGCCAAATGAGGCATCCTAGGAGCCAGATAAGGCAACAGTAGAAGGAGAGAGATCTGATAGGGACTTCAGATGCTTCGGGTGCTT
Celera SNP ID:            hCV2131923
SNP Position Genomic:     19719
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37522):
TCAATGGATGATACCAGTCACACCATTTGAAAAAAGCATATGACAGTGTTGTTCAGTGTTGGTGAACAGGAATTCTTGATATTTATTTTTAAGGATTCCA
W
TTAATTGCTAATTACAGATCTTTGTTAAATTAAGCCGACCTTCACTCACATTTAAAAAATTTAACTTTGTTTTGGTTTTCATGAGACAAATATCTCTCTT
Celera SNP ID:            hCV26023354
SNP Position Genomic:     125393
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37523):
AGATTTTGAAAAGGCATTTAATGTTTTCCGTTACCGATATTTACCTAGTTTCACCACTGTTCTCTTTATGTCTGACATACACATAGGGATGTTTCATAAG
K
CTTTGTCTTCTTTTACAGGTATCTTACAGACTTTTTGAAGACATGGGCCTCTTTGAAGCTTTTAAAATTCCAATTAGGGAATTTATGAATTATTTTCATG
Celera SNP ID:            hCV25762576
SNP Position Genomic:     276733
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:37524):
TATCTCTGAACTTTCTCTATTTTACATTGAATATTTGCTACATTGTAAGCATTACAGTATGACTAGATTCTTCTTTTTTTCTAACTTCTCCCCTGTTGAT
R
ATTATTCTTATATAACTATAATGCCATGTTAATCAAACTATTGTTTATGAATTATAACAGTAAATGCCCCTGGTTAATAGATTAATCAACCTGCCTTAGA
Celera SNP ID:            hCV2131924
SNP Position Genomic:     18625
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37525):
GCTGAATAGAGGGATTGCTTGAGCCTGGGAGGTTGAGGCTGCCGTGAGCTGTAATTGCACCACTATACTGCAGTCTGGGCAAGAGTGAGTCCCTGTCTCC
A
AAAAAAAAAAAAAAAGAGAAAAAGAAGCAGTTCCCCTAATGATTCTGGATCATTATGCCAGAAGTATCCAGGTTCAAAGCGATATTTTATATTTTAGTAA
Celera SNP ID:            hCV26023355
SNP Position Genomic:     125887
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37526):
AAGAAGACTAGATCAAAATCAAATGAATAATTCCTCAGTTTTCAAAAAATATTTTATGGTCTTTTGAGGGCATAATATTAGTGCATGTAAAAACTAGAAC
S
CTTTATGATTTGAAAAGAGGAGAAGATGCTGAGAGAGACACTCTTGGAAGCTGGGCAGGAAATCCAGCCATGCATTGCCTCAAGGTCTGTCATTAGATCA
Celera SNP ID:            hCV2131925
SNP Position Genomic:     18202
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,5)      total(G,5|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37527):
GGTATAACATCTAGCAAATAGGTACTTGATGACATTTTTATGAATACTATGATTTATCAAAATAAGTATATCCTGAGAAGTATATATTTATAGATGAAAC
R
GTATTTACAGAGAATAGACTCTAGTTTAGAGAAACTGAAGAGCATTAGTAAAAGTGTTAATAAGAATAATATTTTAAGTACTATGAGGGACTTTTTTCCT
Celera SNP ID:            hCV26023356
SNP Position Genomic:     165866
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|-,3)   total(G,1|A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37528):
AGTTGGCTGATATCAATGGTCCAGCTAAATGTAAAGAACTCCATCTTCAGTGGACAGATGGTATTGTCAATGAATTTTATGAACAGGTAACTGACCACTG
Y
TTAATACAGCTTAATCTGTACTTACAGGTTGCTCATGAATTGCTCAAAGCTTCTAACAGCTATGAAAGTATGATCACTCTATTTTATATTCATACTTTTG
Celera SNP ID:            hCV88444
SNP Position Genomic:     287631
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37529):
AACATTTTAGAAGCAAAATCATTTAACTTTGTTTGCATTTTGAGACAAGGAGCTAACTGTGTGTATCATCTTGAGTAGTGTCTGTTTTTATTCCTAGGGA
Y
TGTTTTCCCTATAATTGGAGTTGTTTTTTGCTAGGTAAGTAGGATCCAAATAACAGCATAGTTATTAAGGCAGTAGCCTCGTTTTGTCCACTTCTCGTCA
Celera SNP ID:            hCV2131926
SNP Position Genomic:     17732
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37530):
TTCATGAGATAAATCTAATGTGAGTATCCAATAATAGATTCAAATATTTTTCAAGAATTGACTATGAGTCTGTGAATATATATTAATGACTATACAATAC
T
TTTTTTTTTTTTTTTAAGAGATGGGGTCTCACTGTGTAACTCAGGCTGGACTCTAGCTCCTGAGCTCAAATGATTTTCCCACTCTTAGCTCAGCCACACT
Celera SNP ID:            hCV26023357
SNP Position Genomic:     167499
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37531):
TTTTAATTGTGATCAATTACAAAACAAAGTTTGAGATGGTTGCTTCCAGAGATGACATTGTGAAATTGACTTTTTAAAAATGTCATCCAACTGCCGTGCT
R
GTTCCATCATGTGGAATGATCTAGAAATTTGGTAGCATAATTGCAGAATCAAGTTGAACTGAAAAATCAGAAGCTTATAGGGTTTTATTGCAGTGATAAA
Celera SNP ID:            hCV2131927
SNP Position Genomic:     17049
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37532):
GATTTATTTTATGTTGAAAATTCTGACTTATTTTTAAATTGTTTATTCCATCTCATAAACTTCTATTTGTTATTTAATTTTAGGAACTTTGAAATAAAAG
T
TTTTTTTTTTAATATATCTTATGTCCTGTGTGCAAGTCTAATGGATAGATCTGTACCTTGAAGTTCCAACTTCTGCCCTCAGAGATGAAAGTGACAAACA
Celera SNP ID:            hCV26023358
SNP Position Genomic:     168954
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37533):
CCAACAAGATGGAGTTTGAGGGACTAAAATTGATTTTAAGAATAATAATGTTGTTGTTCCTTTTTCAAATCTTTTAACATGGAAACATTCTGATTTGGTT
G
GGGGGGGGGGCTTTTGACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGAAGCAACAAGAAAATTGTTTTGA
Celera SNP ID:            hCV26023359
SNP Position Genomic:     162485
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37534):
TTGTATTTTTAATCAATATATATTTGTACATATTTATGTGGGGCACATGATATTTTGCTACATTCATCAAATGTGTAATGATTAAATCAGGATATTTAGA
R
TATCTGTCACCTCGAGTATTTGTCATTTCTTTTTTTTTTTTTTTTTTTTTGAGACCGAGTCTCAGTCTGTCACCCAGTCTGGAGGGCAGTGGCACATTCT
Celera SNP ID:            hCV120563
SNP Position Genomic:     302960
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37535):
TGGGGTTTCACCATGTTGGCCAGGCTGCTCTCAAACTCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGGCACC
R
TGCCCGGCTGCATCAGTCTTCATTTTATAGACACATTGAAAGATATCATGGAAGCAAACTGTTGAACAAAACATGTTACTATGAACTCCCATATTTCAAA
Celera SNP ID:            hCV519405
SNP Position Genomic:     286241
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,4)   caucasian(A,6|G,4)   total(A,10|G,8)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,2)   caucasian(A,6|G,2)   total(A,8|G,4)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37536):
ATTTCTAATATTGATGATACTGGTGTTTCTTAAATTCACTAAAAAATTTTATTTGTAAAGGGTAACCTGCGTTACATTATTTAAAGTTTTTATTTTAAGG
T
TTTTTTTTTTTTTTGAGATGGAGTCTTGCTTTATTGCCCTGGCTGGTGTCAAACTTTTGGGTTCAAGCAGTCCCCACGCCCTAGCCTCCTGAGTAGTTGG
Celera SNP ID:            hCV9575260
SNP Position Genomic:     85648
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37537):
TGGAGTTTGAGGGACTAAAATTGATTTTAAGAATAATAATGTTGTTGTTCCTTTTTCAAATCTTTTAACATGGAAACATTCTGATTTGGTTGGGGGGGGG
R
GCTTTTGACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGAAGCAACAAGAAAATTGTTTTGAACAAAGACC
Celera SNP ID:            hCV26023360
SNP Position Genomic:     162494
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37538):
CTCCTTTATTCAGCAACACATTGTTGCTAAATGTGGAGTGGGGTATCATTTTGAAATACTTCCCATACAAAACCTTGATGATCCTGCCTGACATCTGCCC
R
CTAAATGTCTTGGTGAGCCACCATGTCTGCTGATCCTAGGATAATCATATTTTTTAATTGTCTCATAACATTCTGAATATAATAAGATTACAACTGAAAC
Celera SNP ID:            hCV26023361
SNP Position Genomic:     233081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37539):
ATAAATCTGTAATTCAAACCAGGTTTTATTATTGCCTTAAAGGCAGCCACCCATGTAGGCACAGAGAGCTCCAGAAACACACAACTAATTGTTGTGGTTT
C
CCCTGCTGAACTTGAAGAGTTTGGCGTTGAATCCCAGTCTCTTGGCTGCTGTAATGTCTATGCAACAAGCTATTTTTCTGGCATGAGAGCTGGCATATTT
Celera SNP ID:            hCV26023362
SNP Position Genomic:     268862
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,9)   total(C,1|-,9) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37540):
CATATACTATCATTCTATTTCAACCTATGCTGTCTTAAAGTTCTGTTTAGACATAAAAATATCATAACCCAATTAAATAAAATAAATCTAATAATGAGGC
T
TTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTACCCAGGCTGGAGTGCAGTGGTGCAATCTCCACTCACTGCAGCCTCCATCTCCCAGGTTCAAGC
Celera SNP ID:            hCV26023363
SNP Position Genomic:     269864
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37541):
AGAACTATATAGAAATATTATTTTATCTTGCTACTTCTGACATTGGAAGTACTTTAAGTGGTTCCCAAAACATAGCAAATACTCAATAAACTTCCTTCAG
K
CACCTTAGTCAGCTATGAGAAATGTCACAGTTGCTCAGAGAGGATAGACTTCAGACTCTGGGTGTTTACTGATTGGTCTTTTAGTTAGCACAGTTTACTG
Celera SNP ID:            hCV26023368
SNP Position Genomic:     271186
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37542):
TGAAAATGTTTGTTTTAAACCATAAAACAAAATGATGGATTTGCTGTACTATGGAATAGCTATCGAAATACACACCCTTAATTAAATAAAGAGGATGGTG
Y
GATAATATGTATCAGCTTATCTTCACATGTTTTAGGTGTATTCTTATAAATTTGAATAAGTATCACAGCAGAGATAGTAAAGACCATCAAACTTGTGAAT
Celera SNP ID:            hCV26023369
SNP Position Genomic:     274863
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37543):
TCACTCACAGGATGTTTTTGAGCAGAGTGAGCAATGTGTTCCTCCCAATTACTCTGTCTCATCTCACCCATCCCTCTCTTCAACCCTGCCTTTAAACTAC
Y
GAGATAAACCATTTGGAATTACAGATCTGATCATATAGTGCATGTGCTTATGATCCTCCGGGGCCCACAGCATGCATTTCTTGTTTCTTCCCATGGTGTA
Celera SNP ID:            hCV28029954
SNP Position Genomic:     78638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37544):
TCTTTATGACAGAACAGTTTATGTTCCTTTGGGTATATACCCAGTAATGAGATTTCTGGGTTGAATGGTAGTTCTGTTTTTAGCTCTTTGTGGAATTGCC
W
CACTGCTTTCTACAGTGGCTGAACTCCCACCAACAGTGTATAAGCGTTTCTTTTTCTCCACAGCCTCACCAGCATCTGTTACTTTTTGACTTTTTAATAA
Celera SNP ID:            hCV28949983
SNP Position Genomic:     91955
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37545):
AAGAACTGAACTATGCCCTGATTAAATTAATTAACGTGTCACATAGATTGCCATTTAGAAAGGTTATTTCCCTAAAATTGCTGCATTTTGAGCCTATCTT
Y
TCAGTAAGTTTTCACAATGTTATTTATACAGTTAGATATTATGATTACTTTTGTGATTCGTTTAGATACTAACTTTACTAATTGACAGATATGATCATTT
Celera SNP ID:            hCV28949984
SNP Position Genomic:     94805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37546):
GTGTATCATAGAAAAAGAGAATGAAAAACTGAATCTACAAGTGAGATTTTCTGAAGAATGTGGGACCAAAATACAGACAGAGTAAGGCAGTTGGAGTACG
K
GAAAGAGGAGCTCAACAGTACCAGGGCCCCTGGGAACATCTGGCTGACAAATCCATGGAAGTTGGAAGAGAAACATGAAAAAAGGGGTAGTTGGAAAGGA
Celera SNP ID:            hCV26023370
SNP Position Genomic:     278163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37547):
GCCTGGAATGTACTTTTTTCCAGTGTACACATAGATTATTTTTTCACTTCCTTGCCTGTGCTCCAGTTTTCCTCATGAATACGCTTACCCTCACCACTCT
R
TCTTTACCTAACTGTATTTTTCTGCAGTTACCAGCTGACGTGTTATTGTTTGTATTACCAGCTGACATGTTATTGTCTTATTGGCTGCCTTCTTTAACTA
Celera SNP ID:            hCV28949985
SNP Position Genomic:     91241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37548):
CAACCAGGATCACTAATTGCACAAAGAAACACCATGAGTTTGAGTTAACAGAAACAAAAATACAACTTTCTAGATCTGTAAAAGGGTTAAAATATTTAAA
Y
TAAAATTTAATTTAAAAATTTACATATTTAAGGAAAAATAATAGCAATGAGAAAAGACATAACTGCAGAGCAGCTAAATGTAACTTTTGGAAATGTAGTC
Celera SNP ID:            hCV26023371
SNP Position Genomic:     259931
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37549):
GATGAAGAATTGGGAAGTATAATAGATTTTAGGAGATATAGAAAAATGAGTCTAATGTACATGATATATGTAATCATAGTTTTAGTAGCAGATAGAAGAC
A
AAAATACTTAGGTGAAGCCTAGTAAATGGAAAGAAACTCACACGTAGATACAAAATAGTGAAACTACACAACACCAAAGATATACACAAACAAAAATCCT
Celera SNP ID:            hCV26023372
SNP Position Genomic:     260225
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37550):
TAAAGGAAGGCTGTCCTTGTTGCTTTGAGGAATGCAGATGACTGATTCCATTGGTTCTGAGTGCTCAGTTTGTGGCCTGACTGAATTATGTGCACCAGAT
Y
TGGTGGTAGGTTTTTGTGAATTGACCTCACCCCGGTTGCATCTTAGCTTTTCTCCACCTTTTAGGGGATATACTTTCCTCAGCCGTTTCATTTAAATTGT
Celera SNP ID:            hCV12099493
SNP Position Genomic:     55163
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37551):
GGTTGCAGTTGTACATGGCACACAGTTGTTTATTTAACTGTGTTTCATCCTTTCATCTTGTGTGGGATGCTCACACTTAACCGCATTTCTCTTCATTGCA
W
AGTGTAGCCCTGACTCACTGGCTCTTCATCTGATCAGTCTGCCTTGCTTTTGTATCTGAACAGTATCTCTCATCACCTGACCAAAATGCTCTGCTCCGAT
Celera SNP ID:            hCV28953935
SNP Position Genomic:     88854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37552):
ATAGGTGCTATATAAATATTTAAATTAGGATAGCTGATTGCTCTGTAAGTTAGGAGTTTGCTAATTCTACATTGTGGTTAATTTCTGATTATGAAACATT
K
TTTACATACTGCTTGGGAACAACAAAAGATAAGATATTTTAAAATGTGTGAAATGAAGAGTTTTTAAATCACATGGGAAAATACTTTTGATGAGTGGAAA
Celera SNP ID:            hCV2131870
SNP Position Genomic:     24499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,4)      total(G,1|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37553):
AAGACTTGAGTGTTTTAAGATTAGGTTGAGGAATTTGATATTTTATGTGTACCAAACATTATATTTTTTAACCAAAGAGTGATGTGAACAGATTAAACAT
R
ATTATTCTAGCAGTGGATTAGGTGGGGACCCAAATGGACACAAGGAGGCGTTTAAGAGGGTATTGTGAAAGTCCTGGGTAGAGACATTGAAGATTTATTA
Celera SNP ID:            hCV2131871
SNP Position Genomic:     27056
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37554):
TATTATATTGTAATTATTTACATGTTTTGTTTCCCTCTAGAGAATGAGAGTTCCTCCAAGGTGGAGACTCATTCAGCTTTTCGTCTCTCTTACATAACCT
K
TGCCTGGCAGGTTGTAGGTACCCAGTGATTATTGAATTAGTTAATATACGCAATATGGATTTGCTTGTCAGAGCATGAGTATCCATGGCTTTCTGAAGTC
Celera SNP ID:            hCV27535598
SNP Position Genomic:     171158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37555):
GCAAGATGGCTTTTGTCCATTTCCTCTTTGACTTGACTGTGCTACTGAGGAAACAGTAGGAAAGGAGTCAGGCTGCTAACTTTAACCCTGGGTATCATTT
K
TAATTTTTCCCATGGAGCCAACTCTAAATTCTCATTCAGCATTAGAAGACTGAATAATCAGATTGAGTGTCAGATGTGTAAATAACACAAAACTTGTTAA
Celera SNP ID:            hCV2131945
SNP Position Genomic:     13130
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,5)   total(G,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37556):
ATGAAAGTTCATTGGAAAGTGGGGGCTTCTCCCAAGTGTTTACAAAGCTGATTTGTTCTTGTGTTGTCATTAAACTTGTGTGAATAACTCTATTTAATTC
Y
GGTCACTAGGAAAACAAAACCAAGTCAATCAATTGTTTTAGTTCACATTTTAATGACTGATTTTATTTCTGTCCAGTATCAATTTGATTAGTAAATAATG
Celera SNP ID:            hCV12108081
SNP Position Genomic:     194423
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37557):
ACCAAACATTATATTTTTTAACCAAAGAGTGATGTGAACAGATTAAACATAATTATTCTAGCAGTGGATTAGGTGGGGACCCAAATGGACACAAGGAGGC
R
TTTAAGAGGGTATTGTGAAAGTCCTGGGTAGAGACATTGAAGATTTATTAAGATAGTAGTGGTGGGCAGGAAAGGTGATTTAAGAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV2131872
SNP Position Genomic:     27106
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37558):
AGAAAGAGTTATTGTTGTGAGTTATACTGTCCTGGATGTGTGAAGATAATCAATGCAACTATTGTATCATGCCTTTGCATTGGGCGATGGGGAAATGTCT
Y
ATGCTCCCGGAAGTGATGCATAACCCTACAGGTTTATGGTGAATTGTTTACTTAGCTGCCATATGTCTCCTCTTCAGTGGAGTCTTCCTGCTCCATTTCT
Celera SNP ID:            hCV2131947
SNP Position Genomic:     11715
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37559):
GGAATTAGTCAAATCCCTGCTCTGCCATGTATTAACTCTGTGGCTTTAGGTAAATTGTAATGCTTAATCTCTCAAAGCTTAGGTTTTCTTATATAGAAAA
T
TTTTTTTAAGCTACCCCAGAAAAATGTTTTGGGGATTGACTGAGATTATAAAGATGCTAATAATAATAACTTAATAAACCTTGTATGTTGCTTACTCTAA
Celera SNP ID:            hCV2131878
SNP Position Genomic:     33751
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37560):
ATTTTATCCATAATTCGTTTACTTTTTTTGTGAACTATTTTTACCATTAATTTACACAGCCAATAACATTTTTAAGTAGCTAGAGGTTCCCAATTATTTG
R
TATTATGATCCCTATATAATATGAAGACAATAAATGTTCTATTGTTTTTCTCTTCTCTTCAACTTTTGTTTTTATCAAAGCAAAACATATATTAACTTTA
Celera SNP ID:            hCV12101475
SNP Position Genomic:     287348
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37561):
GGTTTTCATTTGAAAAAACATATTACAAACTGAGACATTCACTATAAATTAAATTGAAATAATCAAAATATAATTAAGCTATTTGTGAGTTTACATTTTG
Y
AAAACATTTTAGAAGCAAAATCATTTAACTTTGTTTGCATTTTGAGACAAGGAGCTAACTGTGTGTATCATCTTGAGTAGTGTCTGTTTTTATTCCTAGG
Celera SNP ID:            hCV16237196
SNP Position Genomic:     17629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37562):
ATCTCTTGCCTGGATTATAGAACTGTGTCATAACAGGTCTTTCTGCTTGGAGTTACCCACCTTCACTTGACCACAATCTGTGATACCCAGTTTCTTTTTC
T
TTTTTTTTTTTTTTGTTTTGAGACGTGGTCTCGTCCTGTCACCCAGGCTGGAGTGCAGTGGCGCCATTTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTC
Celera SNP ID:            hCV12098914
SNP Position Genomic:     170378
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37563):
CTAATCTATTTTCTATCTTTATAGATTTGCCTATTCCAGACTTTTCTTATAAAAGTAATCAAAATATTTGCAGTCTTTTGTAATTACCATCTTTCACTTA
K
CATAATGTTTTGAAGGTTTATCCATGGTGAAGTATGTATCAGTACTACTTCATTTCTTTTTGTTGCCAAATAATATTCCATTGTATGGATATACCATTTT
Celera SNP ID:            hCV12098915
SNP Position Genomic:     173567
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37564):
GAGTGGGTTCTGAAGGGTGAGTGGAATTTGAACAGGGAGAGACCTGAGAAAGACGTAGTCGAAGGCAACATCATTAGTAGCAGAAGAGTGAAAAAAATAT
R
GTATTGAAGAAGAATAGTGCAATTATGTAATGGGTCATAAAATGGATTAGATTGACAAGTTAATTCTCACTAAGAGCCAGGTACTTTGCTAAAATAAGCA
Celera SNP ID:            hCV9577029
SNP Position Genomic:     78235
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37565):
CCCAGTGATTTCTATACTGACCTCAAGTAGTTGTTTCATTTGCCCTATCTTAATTCCTACTGGTGATTTCATTAGGAATAAGGGTTTTGATAAGAATAGC
K
TTAAACTGGATTTCAGTAATGAGATGGTACTTTGTAGAAGCTAATGGTTAAGAGCACAACAGGCTGTAGAGTTGCAGACTGCCTGGGATCACTTACTAGA
Celera SNP ID:            hCV27919598
SNP Position Genomic:     220237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37566):
TTGGAGGATTTCTCATTTTCTATCCCTAAGCCGTGCACAGCTCATAAAAAACAGTAGTTGCCAAGTGACAGGTGTTTTTGGAAAACTTGCTTAGTTTATA
M
GTTCAGAGAAGACATTGCCTCTAAATCAGCAGCTACTAATGACCTTTTGTTCCAGGGAGTTGTTAGAGATCCAGATGAAGTCCTGTAATTGAAGCATAGT
Celera SNP ID:            hCV27919599
SNP Position Genomic:     221970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37567):
AAATGATATAGCCTAATAAGAGAGCTTTACTCTAGTGGCCTTCATTATAGCCCATGTGCAGGATGATTCTGAAATATATAAATTAAATGAATGGAAACAG
R
CATGTTGACAAGTTTGTTTAGCACCAACGATTGGATATGCTATTCTTAAACCAAAACTTTTGTTTACTCATTCATTCCTAGAATTTCAGTATTTTAAGAA
Celera SNP ID:            hCV2131882
SNP Position Genomic:     35406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37568):
ATATAGCCTAATAAGAGAGCTTTACTCTAGTGGCCTTCATTATAGCCCATGTGCAGGATGATTCTGAAATATATAAATTAAATGAATGGAAACAGACATG
Y
TGACAAGTTTGTTTAGCACCAACGATTGGATATGCTATTCTTAAACCAAAACTTTTGTTTACTCATTCATTCCTAGAATTTCAGTATTTTAAGAAGTCTC
Celera SNP ID:            hCV2131883
SNP Position Genomic:     35411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37569):
CAATATTCTGAATTCAAAATTCTGTTGTTAAGGATGGTGTAACCATATATGACAAGGCTTTTACAAACTCCTTTTTGAACATTGCTTTAAGCAATCATTT
S
TGTATTTGTATTAATTTTCAATCTAATCATTCCAAATGAGGCAAAGTTTTGTGTACCAGTGATTGAATTAGAAGAAAGAACAAGTTATTTTGTATAGTCT
Celera SNP ID:            hCV2131885
SNP Position Genomic:     36627
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37570):
GTAGTTTGTAGTTGTTTTTTGCCTTTCAAATGAAATAAATACCTCCTTGTTTGGGATTCAGGACCCTCTCTAATCTACCCTTCTTAACATTCAGTCATTT
Y
AAACTGCTACTGCCTTCATCACATCAATTTTCTAGTGACTTTGAAGCGTGCCTTTTCTCTCTCAAGACAGAGATAGGTAGATCTCTTGAGGTCCTACTTC
Celera SNP ID:            hCV2131886
SNP Position Genomic:     38180
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37571):
TTTAGATTTCTACTTCAACTTCCTAATGAATTATTTTCTTTCAAAGGCTCTTCCTGGAATTTTTCTGTTTTTGGCAGGTATGTTTGCATATCTCAAGTGA
S
ACAATTTGGCCAGGTTTCTGAAAAAGAATACTTTAAAAGAAAAATGTAGGTTGGCTCTTAAGTGTTTTAATGTTATTTGAGATAAACTAAAATAGAGCAT
Celera SNP ID:            hCV2131887
SNP Position Genomic:     40788
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37572):
TGAGTTCAACTTTCTTAGATTCCACATGTAAGTGAGATCATGTGGTATGGCTTATTTCACTTAGCATGATATCCTACAGGTTCACCCATGTTGTGCAAAT
R
GTAGGATTTTCTCCTTTTTATGGCTGAATAGTATTTCATTGTGTATGCACACACATACATATACACACATCACATGTTCTTTATCCATTTATATATTGTT
Celera SNP ID:            hCV2131888
SNP Position Genomic:     42768
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37573):
TATACTATACAGTTTGGGATCAGCATAGATGTTGATTACAGGCTCTGTGATCTAGAGAAAGTTACTTAGCATCTCTGTGCCTTTTCTTTCTCTATTTAAT
R
GGGACAATATTTCCTATCTCCAAATGTTATTACTTAATCTTGAGATAATTTGCTTACAGCATCTGTCAAAGTGCCAAACATATAGCAGGTACACAATATA
Celera SNP ID:            hCV2131889
SNP Position Genomic:     43940
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37574):
CAGTTAACGAAATTGTATTGTATTACAGATTTTTGTTAAATAAGGAGATTTCAGCTGCTCTTGTCACAAAAATACTATGCAAGACGCTAGATAATGTTAA
Y
CTGTCTCACTATAGTAACCATTTGACTATCTGTACATATACACATAACATGTTGTAAGCCTCAAGTATACACAATGCAAATTATTTTTAAAATAAGTAAA
Celera SNP ID:            hCV166250
SNP Position Genomic:     247695
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37575):
ATGCAAGACGCTAGATAATGTTAATCTGTCTCACTATAGTAACCATTTGACTATCTGTACATATACACATAACATGTTGTAAGCCTCAAGTATACACAAT
R
CAAATTATTTTTAAAATAAGTAAATAAAATAAAATTCTACTTTTAGCTCAGAAAAATAAAATTAACCCTATAGATAACAAATATGACATATGCATGACTA
Celera SNP ID:            hCV166251
SNP Position Genomic:     247771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37576):
TTCTATGAGATGCTGGAAGATTTCTTAAAAGTGAAGAGGGTGAAATGGGGAGGTGTTAGTCAAAGGGTATACAGTTTTGGTTATGCAAGATGAGTAAGTT
Y
TAAAGATCTGTGTAGTATATTGCCTACAGTTAACAGTACATACTCTGTTGTAGACTTAAAAAGAGGGTAGATTTTATGTTGTGTTCTTATCACAAAAAAA
Celera SNP ID:            hCV228800
SNP Position Genomic:     69107
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37577):
CCATCCACCTGCTACATTGGAATGAATATACACAGCTGTTAGTGTATCATAGAAAAAGAGAATGAAAAACTGAATCTACAAGTGAGATTTTCTGAAGAAT
R
TGGGACCAAAATACAGACAGAGTAAGGCAGTTGGAGTACGGGAAAGAGGAGCTCAACAGTACCAGGGCCCCTGGGAACATCTGGCTGACAAATCCATGGA
Celera SNP ID:            hCV12101480
SNP Position Genomic:     278122
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37578):
CTATCCCTAAAGGAAGAGAAACTTTCTTCAGAAAGGTATTTGTTTTAATCAAGGAAGTTTCTGCTGAGATTAATAACTTGGTATCATCCCTTAGTTCCTG
R
TAAACATCATACCTTAAATGAGTCTTCTGTTTTTTAACTAGTTTTTCTTTTGTCTAAAACAAAATTGCCTCTTTTGTTTTAGAGATGAATTACTCAATTT
Celera SNP ID:            hCV228803
SNP Position Genomic:     67176
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37579):
GGAGGGAAGAAGATATTCATTGTCTTAGGGCATCTGCTGGTTTTCTCTAGTATCTCCTTGACTTAGAACATGAACCAATATTTGTTTTTCTTGTCATATT
K
TCAGGCATATATTGGCACTAGCCACCTATTAAAATATTCTTTAATGATTACTTACTTTGTGTATTTAAAAAGATCCATTTAAGGAGGATGGAAGCATATA
Celera SNP ID:            hCV12101481
SNP Position Genomic:     273055
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37580):
ATTGTCTATCAAAGTTAATAAAAATAACTGGCCTTTGAGAAAGAGTACACCTTTAAAATTTTTGAAGGCCAAATGATTTTTTTTTATTTTTCATCCAGAA
R
TATCTATCCCTAAAGGAAGAGAAACTTTCTTCAGAAAGGTATTTGTTTTAATCAAGGAAGTTTCTGCTGAGATTAATAACTTGGTATCATCCCTTAGTTC
Celera SNP ID:            hCV228804
SNP Position Genomic:     67072
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37581):
TTTGTACAAAGGCATTTTAAGAGAACAGTGCACTTAATCAGAGAACCTCCTTCAAGGTGACTCTACTGCTTAAACATGGTTTAAAAAAATTAAAATATTT
R
TGGCTCAGCATTGTTGTTTCATTGTCTATCAAAGTTAATAAAAATAACTGGCCTTTGAGAAAGAGTACACCTTTAAAATTTTTGAAGGCCAAATGATTTT
Celera SNP ID:            hCV228805
SNP Position Genomic:     66951
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37582):
GTTTTCAAAATAACCTTCCTTTGAGTTCTCAGTTTTATGTGAACTGTAGTTAAACTCTTTTTTTTCCATGACTTGTAGCATATGGTATTTAACTGTTTGC
Y
AGTATCGCTTTCTGAAATGAACCTATTTGTACAAAGGCATTTTAAGAGAACAGTGCACTTAATCAGAGAACCTCCTTCAAGGTGACTCTACTGCTTAAAC
Celera SNP ID:            hCV228806
SNP Position Genomic:     66825
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37583):
CTAAATCCTCTTTTTAAAATATAAATAAATATCTTTAAAATAATATTTTAGGCCGGGCATGGTGGCTCATTCCTGTAATCCCAGCACTTTGGGAGGCTGA
G
ACGGGCGGATCACGAGGTCAGGAGGTCAGGAGTAATCCCACATCGTTCAAGTCAGTAATGAATTTATTTGAATCAAAAGTGGATACATTTAAGGAATTGT
Celera SNP ID:            hCV228807
SNP Position Genomic:     64712
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,2)   total(G,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37584):
AGCAATTAGAAACTGTGTTATAGTCCAGACTTGAAAGAGATTATTTCCTGAGGCAAAGGGAGCATTCATGGAGTAGAGTAGTCATTGAGTAGGATCCTTC
R
TGGAGCAGATAGTCATTGAGTGGGTTCTGAAGGGTGAGTGGAATTTGAACAGGGAGAGACCTGAGAAAGACGTAGTCGAAGGCAACATCATTAGTAGCAG
Celera SNP ID:            hCV9577030
SNP Position Genomic:     78117
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37585):
TCAGCCATTCTGTATGAATATTACCAAGTTTAAGACATTGGTTTATGTTCAATTTCAGCAGTTTGTATAACTGATTTGAAAAAGCAATAAATAGGCTTCA
W
AATTTTATATTTTTTATAGGAAACAGGTAATTTAATACATTTAATACATTAATACATTTATAATGTATGTATTTTTTCATGAGGTAGACTATGTAAAAAG
Celera SNP ID:            hCV228808
SNP Position Genomic:     64385
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37586):
TAGAAGCTCTGCTGGCTTGCCTCCCAAATAGCTGCACCCCTCTGTCTGGATCCTTCACTTCTTACTCCATGCCAATAGTCAGTAAATCATGCTATGAAGG
S
AAGAACAATTTGCAGGATTTTGGCTCACCTTTCTGAGGTTCTCTTCTTTATGGGAACCTAGTCCCTCAGAATTGTGTGCTTTGCCTCGATAGCTTTTTTG
Celera SNP ID:            hCV12101486
SNP Position Genomic:     259283
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37587):
GCATGGATGGTTAAAATTAGACCTGATGGCACTATTGGTTATTCTAAGAAAGGAGCTAAAAGTCTATATAATTGGTTTACTTTTTATTCAGTCTAGTTTT
K
AAATCTTAAGAATGGATCAAGGAACATTGGATGAAGAAGGGACACAGGGTAATGTTATTTTCCCAAATTTCAGAAATTCTTCCAATTTAGGTTCAGCAGG
Celera SNP ID:            hCV228809
SNP Position Genomic:     63773
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,7)      total(G,7|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37588):
CTTGAAAGGTTGAAATGAACTAAATTGAGGGTTGTTTATATTAAATAAAGCTATTTTCCCCCAATTTTAGCTAAACCTCTTTTTATGTAAAGAAAAAGGA
T
TTTTTTTTTCCAGTAAGATTTACCAGTCAAAGCAGGAAATCATTTTGTTACAATTGTCTTACAAAGCAGCCCTGTGCAAGGCTGTTGCTAATGTTAAGAC
Celera SNP ID:            hCV26017119
SNP Position Genomic:     74800
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37589):
GCATCTGTCAAAGTGCCAAACATATAGCAGGTACACAATATAATTTTGTTTTCCTCATAAATACATGGTTAGGTTCAGCATGGTTATTCATGAAAAACTT
Y
TTTTAAAAAATTGAGCAACTGAATAAATTCTAATTGAATGGCTGAATTATTTGAAAGGCAAAAAAGGCAGGCAATAAAGTTAGTCTGAAGTATCTTCATG
Celera SNP ID:            hCV2131890
SNP Position Genomic:     44099
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37590):
CCAAACATATAGCAGGTACACAATATAATTTTGTTTTCCTCATAAATACATGGTTAGGTTCAGCATGGTTATTCATGAAAAACTTCTTTTAAAAAATTGA
R
CAACTGAATAAATTCTAATTGAATGGCTGAATTATTTGAAAGGCAAAAAAGGCAGGCAATAAAGTTAGTCTGAAGTATCTTCATGTAGGTATTCTTGGTG
Celera SNP ID:            hCV2131891
SNP Position Genomic:     44114
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37591):
ACGTGACCTTAATGAGATATTTAACCTTTGGAAGTAATGCTTTTTCATCTAGAAAGTGAGTCAGTATCTACTTTGAAAGTTTGTTCTGTGGATACAATAC
R
TTGGAAGACATTAAATTAAAAAGTATGTGGAATAAACACTCTTATTTAGATGATAGCTTTCATCATTATCATTATCATCACCATCACCATCAACATCATC
Celera SNP ID:            hCV26383226
SNP Position Genomic:     211293
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37592):
AATTTATTGCCGTTCTCTATCTTATGCTTTTAATTTTATTTAATGCATGTCTTAAGTTTTTCAACAGACTTTTCTAAATGCCATGATAATATTAAGCTCT
K
TGACAACATTAATTATGTGTACATATATTATTTCGATTGCACAGTTTTTGAGTGCAATGATGGATCCATTGAGAATGAGGATTCTGGAAAGCTCTAAAAG
Celera SNP ID:            hCV2131892
SNP Position Genomic:     45566
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37593):
ATAGGATTTATAACGGGTGTGGTGACCACATCTTGATTAACCCTTACTGAGGCTGAGTTGAAATATGCATTTTTAGCTCAGTGCCCTTCCCAGTTCTTCT
S
CTATTTAAGAAGGGAAAGCAGTTGCCTTTTCCGTGTTCTTGGACCTTTCTATTCCCTTTTTTTTTATCCTTGCAAACAAATCTAGTCTTTTCTGAGCTCA
Celera SNP ID:            hCV26383227
SNP Position Genomic:     216114
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37594):
TTCATGCAAATTCAATGAATGAATGGTAAAACAAATCTGATCCAAACTATTGACAGAAGTGGAGGCAGGCACAGAACTCCAGCCTCTTCATCATCTCCTC
R
TTTCCTCCTGAATTCCTTTTCATGTAGTTTCTTGGACAGATGCATCTGGAATCTGAAAGTAATATTTAATAGAGTATTCACATTCTTAATAGTTGTTATA
Celera SNP ID:            hCV2131893
SNP Position Genomic:     45856
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37595):
GCTGAGTTGAAATATGCATTTTTAGCTCAGTGCCCTTCCCAGTTCTTCTGCTATTTAAGAAGGGAAAGCAGTTGCCTTTTCCGTGTTCTTGGACCTTTCT
R
TTCCCTTTTTTTTTATCCTTGCAAACAAATCTAGTCTTTTCTGAGCTCATTTGTCTCTTATACCTTGTCAAATACAGATCACAGTAACCAATAAATGATA
Celera SNP ID:            hCV26383228
SNP Position Genomic:     216165
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37596):
ACTTTCAAAATAAAGTCGCTGAATAAAAATAGTGATCTTACGAAATATTATAGTTGGATATCATCAGAGAGGTGATATTATAAATCTTCTACCCCAGATA
R
TGATTTTTTAATAGTCTTTCTGTTGCAAATGTTTAGTCACTACTGAAATACATTATATGAAAGAGAGCTCACCACAAATCAAACCAATACAAAGGAGTAT
Celera SNP ID:            hCV2131894
SNP Position Genomic:     46390
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37597):
TTGAAATATGCATTTTTAGCTCAGTGCCCTTCCCAGTTCTTCTGCTATTTAAGAAGGGAAAGCAGTTGCCTTTTCCGTGTTCTTGGACCTTTCTATTCCC
T
TTTTTTTTATCCTTGCAAACAAATCTAGTCTTTTCTGAGCTCATTTGTCTCTTATACCTTGTCAAATACAGATCACAGTAACCAATAAATGATACTTACA
Celera SNP ID:            hCV26383229
SNP Position Genomic:     216171
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37598):
AAAATAGTGATCTTACGAAATATTATAGTTGGATATCATCAGAGAGGTGATATTATAAATCTTCTACCCCAGATAGTGATTTTTTAATAGTCTTTCTGTT
R
CAAATGTTTAGTCACTACTGAAATACATTATATGAAAGAGAGCTCACCACAAATCAAACCAATACAAAGGAGTATTACAAGGAAAAAGGCTTTGAATCCA
Celera SNP ID:            hCV2131895
SNP Position Genomic:     46415
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37599):
GAGCTCACCACAAATCAAACCAATACAAAGGAGTATTACAAGGAAAAAGGCTTTGAATCCAAGTGCACATTGGAGCAAGCTGCTATTCTTTTACAGATTA
R
CTATTTGTTATTGCGCATTCAGCAAATTCCTTAGCTTTTGGTCTTCTGTCTACTAAAGGAAAATTTAAATTCCAGCTCTGCAAGTTTGTTGAGTAATAAT
Celera SNP ID:            hCV2131896
SNP Position Genomic:     46555
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37600):
GTTTGTTTTGTTGTTGTTGTTGTTTTGGGTGAGAACCATTAAGATGTGTCCTGTGATATCATTTTTACTTGTCAATTATGTCTCCATAATTTTTAAAAGA
Y
GCTGTTCATTATAAGACCTTCCCAATTCAGAGGTATCAAAATGTGAAAAAAATACTTTAATATAGCAATCTATTTTGAAAACATCTCTGTTAAAATCTAG
Celera SNP ID:            hCV2131897
SNP Position Genomic:     47439
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37601):
AATAACAGAAAATCAATAGATGGGAGAGCCGGGATTGGAATTGCAGGCTGTCTGTCTCTGAAGTCCATTCTCCATATCACTGAGCTATTCTAGTTTTCCT
R
GGTAGAGAATCTAGGATGGCCAAAAAATGTCCCCAGAGCCTCCCTGTAAGCTGTCCTCCACAACAGACTTCTGGAATAGAAAGAAGTTGGCTTATGACCT
Celera SNP ID:            hCV176028
SNP Position Genomic:     54789
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37602):
ATTTACAGTAACAACAATAACAGTTGTCATTGATTTAATTATACATTATTATCCTAAAAATAACAGAAAATCAATAGATGGGAGAGCCGGGATTGGAATT
S
CAGGCTGTCTGTCTCTGAAGTCCATTCTCCATATCACTGAGCTATTCTAGTTTTCCTGGGTAGAGAATCTAGGATGGCCAAAAAATGTCCCCAGAGCCTC
Celera SNP ID:            hCV176029
SNP Position Genomic:     54731
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37603):
GAGTGCCAGAAGTCTGGAAATATGAGAAATGGAGGAAGTGGGACTGTATAGTGTAGAGAAGACTAATAGGAACTAAAACACTTGTCTCCAACTATTTATA
M
GGTTGTCATTTAGAAAAATGGACACGCTTATATATTGCCCTAGAAAACAAAGAGTAGAATCAATATAATGAAAGTACCATGTATATTTTTACTCAGTATT
Celera SNP ID:            hCV228810
SNP Position Genomic:     63379
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37604):
TCTTTGGCAGGTTATTATAAGAGGGACAGTGAAAAGTAAATGGATTTAGAATATATTTTAGAGACAGGATCAAGTGGATTTCCTAATCGACTAAAAGTAA
R
ACAAGATAAACAAAGGAAAGAATCAAGACCCGTTCCCTCTTCTGGGGCCTGAGCAACTAGGTAGATGGTTATGTTCTTTACTGGGATGTAACAAGATTGA
Celera SNP ID:            hCV8874854
SNP Position Genomic:     2403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:37605):
TTTAAAGAACTATAAAGTTTGTTTAGCTTTTAGTTTAGTCCTGACAACCCAGTGTCCGCAATACTGAGGCTGATTTTGTAGATGAGTGTGTCAAACTACT
Y
TTTTGGCTGCCAGTGTTAAGAAGGCAAGTGTCTGTTAAGGTGTGTGTATCTTTTCTAAGTGGACTTTCGCATCCCAGAGCAGATATGTCTCTCTCAAAGT
Celera SNP ID:            hCV8874855
SNP Position Genomic:     9984
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37606):
CTGTAATGATCCAGAAAATAACAATAGGACTTTTAAAAAGGGCTTTTCTTAGCTTTGCAAGAAAAGAGATAAGAGCAGAAAGGTTCACTTTTTGAAGAGA
M
CAAGACTCACTCAGTTGGAAAGTTACTCTAAATTTACTTTTTCCTAACATTGATTTATGACATTCAGTATGAATTTTGTCTGTTTATATCCACATATCAT
Celera SNP ID:            hCV26017120
SNP Position Genomic:     76094
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37607):
TCAGAACCAGTAATGCACCAAAGATCATTGTATCAAATCCAGCTCATCTTCTAAATTAATGTAGTACATTAAAGACCAAGATACCATTTCCTAGTATCAC
R
GACAGCCTCCCAGAGAAAGAGTTGGAGGGATGGAGTGGCACGTAGTGCTACAGAGATGTAGGAGGAGACAGCTTCCAAAAACTCATCACACATCTTTTCC
Celera SNP ID:            hCV12101494
SNP Position Genomic:     239629
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37608):
CTTTCATAAATAATTTATCAGTTAATGGTAGTGAACAGAGTTTGAATGAGTCAAAATTCTACAATGAAATGCTCCTGTATAGGTGTAAGTATATAAATGT
A
TATATAAATATACATATACAAATGTAAATATATAAATGTATATATTTAATGTGTATTTGCCCCTAGTTTAATTTGTCAGCAGTAACTGCTGGTTTTTATT
Celera SNP ID:            hCV26017121
SNP Position Genomic:     79919
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37609):
GAAGTTTGTTATGTTTCACATCTCACATGGAACCTGCCCACAGACATGTTGGGAAGCAGTTTGATGAAGGGCCCTATAGGTTTTCCTCCTACTGTACATA
Y
ATATTATCTTAAGGAAAAAATCCAAATGTAAACTCATATTCCCTGCCAGAAAATTAAAATACGCAAACATCTGCTTCCTTAGGATGGCCTTTAGCCAAGG
Celera SNP ID:            hCV12101495
SNP Position Genomic:     239292
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37610):
CAGGAATAACTGTTAGCAGCTGGGCCTGGGTGCTTTTTCCCTGCTTTGTCCTGGAAAGATTTCACATCTTAAGGGAAATGAACTACACACCTTGAGAAAA
T
TTTTTTTTCTATCATATTGTATAAATCTGTGTAAATCTCATTTTCCCCCTTTTTGGAGTTAAGTAGCATAATTAACTGTAAGGCTTTTCCAAATACTTTC
Celera SNP ID:            hCV26017122
SNP Position Genomic:     82160
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37611):
TGTATTAAAATATGGGTGGCAGTGTCTTTAACTCAGATTTGGGATGCTTTATACAGTCATGGGAAATATCAGGGGATCAACTTGAAATTCTTTAAAAGTT
R
ACAGAATTTTGGAACGATCAAGGAACATGGGAATATGGCCTCACCTTTTCTTTCTCACTGATGACATAAATGCCGCCCTCACTGTGTTGTTTATTGTTTC
Celera SNP ID:            hCV26017123
SNP Position Genomic:     82457
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37612):
CAAAAACATTTTTAATGGTCATGTGCCAATTTTTTTCTATGGCTATTACATAACATTCTCTCTTGTTAGACATTTTTGTTGTTTTCGACTTTTCCCTACT
R
CAATTAATAATGACATGAAAAGTTTTGTATAAAACACTTCAAGTTGCAGAACATCTCTTTACAGAATATTCCTAGAAGTGGAATTATTAGGCCAAATGGT
Celera SNP ID:            hCV12101497
SNP Position Genomic:     132655
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37613):
CAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATG
R
TCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGGTACATAGATTTCTAAATGTAAAATCTATAGAGAAACTGTGGAACACCAGAA
Celera SNP ID:            hCV26383230
SNP Position Genomic:     218599
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37614):
GCTCATTGATAAAAGCTTAAAAGTACAAATCTACTAATAGTACCTCAATCTTGTTCTTTCTCTAGTTGCTAATTTGACATTTTCCTCTGCCTGATTATGT
Y
GGAGGATTTCTCATTTTCTATCCCTAAGCCGTGCACAGCTCATAAAAAACAGTAGTTGCCAAGTGACAGGTGTTTTTGGAAAACTTGCTTAGTTTATACG
Celera SNP ID:            hCV26383231
SNP Position Genomic:     221871
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37615):
TGCTTTTTAATGTGATGATCTATACAACCTCTAACTGGAATTTGAAAGCTGGGGCCAAATACCACTGCAGCTCAGATGCTAAAGCTGTTTCTTAAAATGA
R
GCAGATAAAAAATAGAGAAAATCTTTTTTAAAGGCTACTTTGCTCCTTTCCTTCTCCATAACTAAATGTTGGAGCTTTCTGCTGGGGAGGGGAGAGCAAA
Celera SNP ID:            hCV26383232
SNP Position Genomic:     224759
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37616):
AGCTGTCACATGGGGTTTCATTCATTTGCATTCCCAGAAGTGGTCTAAAGCTTTCCCTAATGTAGGAGTAATGAGGGCTCTGTACCTTCAGAGACCCAGA
G
GGCCTTTTGTAGGATGTTGTTACTTTAAGTGGCTCTGATAAGGGACACAGGCTCAGAGAATGCCATGTTTCACTGTCAGCTTCAGAGGACCATAAACTAC
Celera SNP ID:            hCV26383233
SNP Position Genomic:     225085
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37617):
TGACCCCAAGACTGAAAAATAACCAGTGCACAACAGACCTGAGCATACTACAAACAGCTTTGCTCTTACCATTTTGCCCCATGCTGCCTTGTCAGCCCCT
S
CTCAATATGGGGGAAAAGTGGACCTTTCCGATAATCTGGGGCCCTATATGTAGGAGAAAAAGAAGTTGAAGTGCCAGGAGCTGCTCTCAGAAGCTGACCC
Celera SNP ID:            hCV26383234
SNP Position Genomic:     225444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37618):
AGTGGACCTTTCCGATAATCTGGGGCCCTATATGTAGGAGAAAAAGAAGTTGAAGTGCCAGGAGCTGCTCTCAGAAGCTGACCCTGGGGACACATTCTCA
R
GCCAGGCTGGCCTGTCCTGTCTATACCTCAACCCTTCCCACTGCCAGAAGTTTTCATGTTTTACTTATTTTTTGCCTGGAATTTGTCAAGCTTTTAATTC
Celera SNP ID:            hCV26383235
SNP Position Genomic:     225561
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37619):
GATACTGGTATATTAAAGAATATTTTACAAAATCACAGTATCAACCATAGCCTCGAGAGGTAAAACTTATCCTATTTTTAATTTCCAGTGGTAGCACTTT
R
TAAATAAAAATTATGGTGTATGTGCCAAAAGCCTGGACTTTTGTCTGGCAAAGGTTGTTTAAAACTTGAAGAGACATCAAGAAATATGTGAGTTCATCCA
Celera SNP ID:            hCV176030
SNP Position Genomic:     54228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37620):
CCAGGCTATATGTATAAATATGTGTTTCTAATAGCATTAACATCTTATTTATGGTACAGGAATTTTTCTTTACAGCCACTCTAGGGAACAAACTAAAATA
Y
TGTTTAATAGCATTCCTCACAAGATTTTATATTCTCATCAAAGGTGCTGATTTTCTTACAAAGTTTTACCTTGGGAGAACAAAGGTGGTTTAGCAGTTAT
Celera SNP ID:            hCV26383236
SNP Position Genomic:     202663
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37621):
ATCAGTAGTATTCATCCCTCCATGAGAATGACAGGTTTTTTTTTTTTGTTTTTTTTTTCGGGAGTACTGGCAATCACCATCTGATTCAGTCTAACGTTTT
Y
TGGCTGGGGCAGGAACTCTGAACTTTATTTCCAAATGAGTAATAATGATAAACAATCCTAGAGGAAAGTGGGAAAATGCCTGATGGCTTATTGGCGGGAA
Celera SNP ID:            hCV259491
SNP Position Genomic:     34836
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37622):
AGCAAGTCCCCAATTATATCTTTAGATACTGGTATATTAAAGAATATTTTACAAAATCACAGTATCAACCATAGCCTCGAGAGGTAAAACTTATCCTATT
Y
TTAATTTCCAGTGGTAGCACTTTGTAAATAAAAATTATGGTGTATGTGCCAAAAGCCTGGACTTTTGTCTGGCAAAGGTTGTTTAAAACTTGAAGAGACA
Celera SNP ID:            hCV176031
SNP Position Genomic:     54204
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37623):
AACTTTAAGGTTTAATGACTGCCCTATTGAATTTTAGACTTGCATGGGGCCTGTAGCGCCTTTGTTTCAGCAAGGAAACTGGTGGCATTTTGCCCTAGCC
M
TAGAGATCTGTGAAACTTTGAACTTGAGGGAGATGATTTAGGGTATCTGGCCGAAGAAATCTCTAAGCAGCAAAGCACTCAAGAGGTGACTTTGGTGCTA
Celera SNP ID:            hCV26383238
SNP Position Genomic:     299601
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(A,1|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37624):
ATTAAATCTGATAACAATAGTGTGGAATTTGGTGATTATCCCCAGTTGATGAATGGTACTTAGGAATTCACAGACATAGGTTCAGTATGTATCTGTGGAG
M
TTTGTGGATAGTTGTGCTGCTGGGGAAGTTGTTAGGTAGAAGTCCAAGTTAAACAGTAGGGAGCTAACAAGACCTCCTGGGAAATTGGATCCTGGATTTC
Celera SNP ID:            hCV3241486
SNP Position Genomic:     38789
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37625):
GTCTACTAAAGGAAAATTTAAATTCCAGCTCTGCAAGTTTGTTGAGTAATAATATAAATGGATTATCTCATAGACAAATGTTTTAAAATAAAATATTGCT
R
TAGGATACTTGCTATATTGAACCAAAAACTGCCTTGTAACTTTGACTCCTTTGTCCTAGTGTTTATTTTCTATCCTACATGTCTGTTAGGATTCCCAAGT
Celera SNP ID:            hCV3241487
SNP Position Genomic:     46703
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37626):
CATTGAATTCAACTGTCCATTGTCTGACCTCATTTTCATATTCCTTAAACATTGCTCTTCCCTGGGATGCACTAGTTAAATCTTATTGTGGTATTGGGCT
R
TCCTTTTTTGTAGCCATCCTCAGGGAAGCCACACTTGTTTGGCATGACCCTGTTGTCTTGGCTGCACTCAATTGTACGTCCCCAAGCTGAGCAGTGAGAT
Celera SNP ID:            hCV3241488
SNP Position Genomic:     46930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37627):
TGTGTTTTTGATTTGATTAGAGCTGTCATTTGTTATTTAGGAATCTGTGAATGATTATTAAAGCTTTCAAGTATAGCCAGTCCTGCTAACATAATAATAA
Y
ATTACATTAAGGGCACTCATGTTCTTTCCTCCTGAGAAGATGACTGGTTACAGGGGGCACATATTGTTTGCTGAAGTGTGTGTATGTGCATGTGCATGTG
Celera SNP ID:            hCV8874862
SNP Position Genomic:     13724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37628):
AAGCACATTTGGACAAAATGAAATAATGTGGATGCTGGCTCGCTTCTGGTAAAAGCTGACTTAATTTAGAGTTCTTGAAGAAGCTAGCTGAAGAATGAAA
Y
GTCATTGTAACACACATCTGTTTCTTGAAAGAGTTTATACTTGAATGTAACTAGTCACTGTTAGCTCTGGCTAATTTTGAAGTTGATTTAAATTAATATA
Celera SNP ID:            hCV8874863
SNP Position Genomic:     15438
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37629):
TTTCTTGAAAGAGTTTATACTTGAATGTAACTAGTCACTGTTAGCTCTGGCTAATTTTGAAGTTGATTTAAATTAATATAGAGGTTGTTCTGGTACTTTT
Y
TTTTTGGTCAGTCTTTTTCTGTTCTCCATCTCTATCTACATGCACATTTTCTTTCATTTCATTTTCTTTTTACCTAATAGAGTCTTCTCCCTCCGAATGT
Celera SNP ID:            hCV8874864
SNP Position Genomic:     15559
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37630):
CCCCTACCATCCATTACCCCCACTTGTTCTCCCTTCGTTTATTCTATTCTAAGCTTCTTTATAGCTTTATCATCACCTGGTATACTATGTTTCTGTGTTT
R
TCTTCTTCCTTCACTAAAATATAATAGCCAGGAGGCAGAGATACATCTTGTTTTGTTCAATGGCATACAGTTTGTGCCTAGAACAGTGCTTTGCACATAA
Celera SNP ID:            hCV27907532
SNP Position Genomic:     184191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37631):
CCCATCTGTACATCACCATCATCAAAGACCAAAAGTAGATAAAACCACAAAGATGGGGAAAAAACAGAACAGAAAAACTGGAAACTCTAAAAAGCAGAGC
R
CCAATCCTCCTCCAAAGGAACGCAGTTCCTCACCAGCAACGGAACAAAGCTAGATGGAGAATGACTTTGACGAGCTGAGAGAAGAAGGCTTCAGACGATC
Celera SNP ID:            hCV26383311
SNP Position Genomic:     305820
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37632):
GCTTGGTGCAGGATAGGTGCTCAGTAAACGTTTGTGTTGGATGAATGGATAGATGGATGGATGGATGATCAGTCACAGAAAGTGTCCTGAGGAAGTGTTA
Y
TTGAAGTGACACCCGAAGAATGAAAATGAGCTGACAATGCTAAGAAAATGGGAAAATGTATTCTAGGCAAGATGAACGGCATCCAAACCTTTAGGTTATA
Celera SNP ID:            hCV27907533
SNP Position Genomic:     176589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37633):
AGCTGAGAGAAGAAGGCTTCAGACGATCAAATTACTCCGAGCTACGGGAGGACATTCAAACCAAAGGCAAAGAAGTTGAAAACTTTGAAAAAAATTTAGA
M
GAATGTATAACTAGAATAACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAACCAAGGCTCGAGAACTACGTGAAGAATGCAGAAGCCTCA
Celera SNP ID:            hCV26383319
SNP Position Genomic:     305993
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37634):
ACACAGAGTTCCTACTGGTGCACTGCACAGTGGAGCTGTAAGAAGAGGGCCATTGTCCTCCAGACCCCGGAATGGTAGATCCACCAACAGCTTGCACTGT
R
CACCTGGAAAAGCCACAGGCAGTCAATGCCAGCCTGTGAAAGCAGCTGGAGGGGAGGTGCTGTACCCTGCAAAGCCACAGGGGCAAAGCTGCCCAAGGCT
Celera SNP ID:            hCV26383249
SNP Position Genomic:     300427
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37635):
GCAGTGAGCTGAGATCGTGCCAGTGCACTTCAGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAGAAAAAAGAAAAAAAAACACATTG
R
AAAATGGTGAATTTACCAAAAGTATCAGTTATTTTTGGCTTGATATATAAAACCGCACTTTCCTCCACTGTTTATCGTACTGAAATGCCACATTTTCTAT
Celera SNP ID:            hCV354066
SNP Position Genomic:     244079
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37636):
GAGAGGCAGTACAGGCTTCAGTGTTAGACAGAAATGGGATTCAGTCCAAACTTGGACACATACTAGGTTGTGACTCTGGATGTGATATTCAATTTCTATG
W
GTTTCCATTTCCTCATGTGTAAAATGAGATAACTACAAGCCTTTTGAAACTTTGATCCTGAAGACGTCGTTTTGGTAGATCTAAAATGAATACATGGTGG
Celera SNP ID:            hCV3241494
SNP Position Genomic:     52688
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37637):
GTGGAAATAGGTTTTTGTTTTTATTGTTTTATTTATTTATTTAATTTATTTATTTATTTTGGTAGAGAAATCATATCTCTGTGCTATCTTCATTTATAAA
R
GAACTACTGGCCCAGTTCATGTAGGGGACAAACACCCACGTGCACAACATACATTTCTTTGCACACACAATCTTTCTCAACAACAATGTTTCACCAACAA
Celera SNP ID:            hCV354067
SNP Position Genomic:     240220
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37638):
GACTTGAAAGTTGAGCAGGAGGTAGCCAGGCATAAAGGAACCCAGAGAGTTTTCCAAGTGGAGTTTTCCAAAAAGCATGTGTGAAGACTTGCAAGCTTGT
R
CAACCCACCATTTTTTTTGTTGTTGCTGTTCTGTTTTGTTTTGCTTTAGGATTTTAGCAGCCTGAAGCCATGGATCTTTGTTTCTGTCTCTAGTTTTAAG
Celera SNP ID:            hCV3241495
SNP Position Genomic:     50049
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37639):
GGCAAGAAGCAGATACTGTACAAATCAGTTCAATAATGAGGCATTGAAACACAAGTTACATACTGTGCTAGGAATAAAATGATAAACAGAGTAACACTAT
Y
CTGTCCTTTTGGATTTTTATAGTTTAGTAGGAATGTATTAAGTAATGACAAGTACATGAATATGATTAAAGGGATGTAAAATACTGAATAGCAAAGGGAT
Celera SNP ID:            hCV3241496
SNP Position Genomic:     49793
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,10)      total(C,2|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37640):
TAAAGTCTGTCGCTATATTAGCTCATACCACATATGTGGCAAGAAGCAGATACTGTACAAATCAGTTCAATAATGAGGCATTGAAACACAAGTTACATAC
Y
GTGCTAGGAATAAAATGATAAACAGAGTAACACTATTCTGTCCTTTTGGATTTTTATAGTTTAGTAGGAATGTATTAAGTAATGACAAGTACATGAATAT
Celera SNP ID:            hCV3241497
SNP Position Genomic:     49756
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,10)      total(C,2|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37641):
CCTTAATTTCCTCCTTTCTGTTAACATTGAAAACCATCATACTAACTGTAAAAATCAAATACTGTAATAAGAGTGAGGGAGTGCATGTTTTAAAGTCTGT
M
GCTATATTAGCTCATACCACATATGTGGCAAGAAGCAGATACTGTACAAATCAGTTCAATAATGAGGCATTGAAACACAAGTTACATACTGTGCTAGGAA
Celera SNP ID:            hCV3241498
SNP Position Genomic:     49666
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,10)      total(A,2|C,10) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37642):
TGAAATCAGAGACATATCTTTTGAGTATGTTAGGCAGATGATCATGACATTAGATGAACTAGGAATACAATATTTAGGAAAAAAGTGATTTCGAACCTTA
Y
GGTGTCAAGTTTCTTTTTATCTGTACATGTCAAGTGTTCTCACAGGCAGACTTTTTAGAGAGATTGCTATCACTGACAACTTCCAGAGTTTGAGAGTTTT
Celera SNP ID:            hCV8874871
SNP Position Genomic:     17397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37643):
TCCTCAGTTTTCAAAAAATATTTTATGGTCTTTTGAGGGCATAATATTAGTGCATGTAAAAACTAGAACCCTTTATGATTTGAAAAGAGGAGAAGATGCT
R
AGAGAGACACTCTTGGAAGCTGGGCAGGAAATCCAGCCATGCATTGCCTCAAGGTCTGTCATTAGATCAAAAGCACTCAGGGGACGATGGTCTGTGTAAG
Celera SNP ID:            hCV8874872
SNP Position Genomic:     18233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37644):
AACTTTTTAGCACATTTATCATTTTCACTTATACATGTATGCTAATAGCAATCTTATGTGAACTTTTACCTCTTATATGACCAGAATTGATTAAAAATGT
Y
GGCAAGTAAGTTTGTTATTTAATATCTCTGAACTTTCTCTATTTTACATTGAATATTTGCTACATTGTAAGCATTACAGTATGACTAGATTCTTCTTTTT
Celera SNP ID:            hCV8874873
SNP Position Genomic:     18502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37645):
TGTGTTGAAGAGCTGGACATCAGGTGTGGAGTGCATACTGGGTTGTGGAAAAGACAGGTGGAAAAGACATGTGAAAAAGACACATAGCCCTGCTTTTGTG
M
TGAGGAGTAGAGGTGGGATGCTGGGAAATTTTAAGAGGTAAGATAAGGGGGATGTGGGGCCGGTGTGGAGAGGGGAGCAGGATGAAGACTTGAGTGTTTT
Celera SNP ID:            hCV8874877
SNP Position Genomic:     26871
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37646):
CACAGTAACATAGGTATATAACTAGAAAATAATATTTGACAATTTGGGGAGACCTATAGAGATGCAACCTTCAAGACAGTAAACTAACGTTAAAAATGCC
R
AATTATTAACAGAGGTTATCAATGAGGTTCGTTAAAAAGAAAAAATATTTTCCCTTTTAAAATTTTTTATTCTTTTATTATTTTATTTTAGCGACAGGAT
Celera SNP ID:            hCV8874878
SNP Position Genomic:     32549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37647):
AAAATGCCAAATTATTAACAGAGGTTATCAATGAGGTTCGTTAAAAAGAAAAAATATTTTCCCTTTTAAAATTTTTTATTCTTTTATTATTTTATTTTAG
S
GACAGGATATTGCTGTGTCACTGTCACTCAGGCTGAAGTGCAGTGGCATGATCATAGCTCACTGTAACCTTGAACACTTACGCTCAAGTGACCCTCTGGC
Celera SNP ID:            hCV8874879
SNP Position Genomic:     32641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37648):
AAGCGAAGGAGAAATAAAATACTTTACAGACAAGCAAATGCTGAGAGATTTTGTCACCACCAGGCCTGCCCTAAAAGAGCTCCTGAAGGAAGCACTAAAC
R
TGGAAAGGAACAACCAGTACCAGCTGCTGCAAAATCATGCCAAGATGTAAAGACCATCGAGACTAGGAAGAAACTACATAAACTAACGAGCAAAATAACC
Celera SNP ID:            hCV26383322
SNP Position Genomic:     306738
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,9)   total(G,6|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37649):
AACAATATTAACTTTAAATGTAAATGGACTAAATGCTCCAATTAAAAGACACAGACTGGCAAATTGGATAAAGAGTCAAGACCAATCAGTGTGCTGTATT
M
AGGAAACCCATCTCACGTGCAGACACACATAGGCTCAAAATAAAAGGATGGAGGCAGATCTACCAAGCAAATGGAAAACAAAAAAAGGCAGGGATTGCAA
Celera SNP ID:            hCV26383325
SNP Position Genomic:     306975
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,10)      total(A,1|C,10) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37650):
TTGGCAAGGATATTTTCATATCATTGAAGGTAAATGACTGTACATAGGAACGGTACCCAGTATTTAGCATTGTGAATAGCGTAGGGCTTCGGATCCAGAC
Y
ACCTGGGTTGGAATGTCATCTCTGCAGCTTAAGATCTTTGTAACCTTGGGCAAATTACATAACCTTTTGTGTGCACTGCTTTCAAATGTTGAAAGTCACT
Celera SNP ID:            hCV354070
SNP Position Genomic:     233711
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37651):
AGCAATGGCAACAAAAACCAAAATTGACAAATGGGGATCTCATCAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACC
Y
ACAGAATGGGAGAAAGTTTTGTGTTTTTAAAACATCATGAAATCATGTATTGCCTTTCCTAAGAATGGGATTAATTCATAAATCTCGAAATATGGAAATG
Celera SNP ID:            hCV358287
SNP Position Genomic:     289917
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37652):
GAAGAAAAAGGATTTCCTTTTCTAGAAGCATGAAGCTAAGTTCCCCTCATATCTCATTGACTCACATTGACTTGGCCTACCCATTCTTGATCAAATCCCT
R
GCTTTGGAGTTGAAATTATCATGATTGGCACAGAGAGTCAATCATGATAGCCACTGCATATGCTTTGAAGACAGTTTAGAATTAGACATTTCCAAATGTC
Celera SNP ID:            hCV354071
SNP Position Genomic:     232085
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,9)   total(G,9|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37653):
CTGGCAAATTGGATAAAGAGTCAAGACCAATCAGTGTGCTGTATTCAGGAAACCCATCTCACGTGCAGACACACATAGGCTCAAAATAAAAGGATGGAGG
M
AGATCTACCAAGCAAATGGAAAACAAAAAAAGGCAGGGATTGCAATCCTAGTCTCTGATAAAACAGACTTTAAACCAACAAAGATCAAAAGAGACAAAGA
Celera SNP ID:            hCV26383327
SNP Position Genomic:     307030
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37654):
TCAAATTCTACTCAGTTCAGTCAAGCCCCTGCCCAGAAACCTGGTTAGCTGGTTTGTTTTCCCTCAGAACTCAGATTCTGAAATACTCCCCTCTACTTTG
Y
CTCATTCATAGAGTAAGTTTTTGAATATAAATAAAAAACTACACACTGGGTACAGTATACACTGCTCTGGTGATGGGTGCACCAAAATCTAATAAAAATT
Celera SNP ID:            hCV354072
SNP Position Genomic:     219919
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37655):
TATCAAAGATGATGATTGGAAAATATAGAAAAGACCATCTCATGAAGCAAAAAGAACATGGCCATTGAAGCCATGTTGAAGTTAGAAACGTGCAGTGAAT
K
TTTTTTTTGTTTGTTTGTTAGTGGGAATGAATGATGATTTGGGTGACCGACAGGTCTTAACTCCACTTTTACCACTCATTGTCCCTATTCAGGTGTACGG
Celera SNP ID:            hCV354073
SNP Position Genomic:     203569
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37656):
GATAATAGATGTTTCTCTGCAGGGACTGCAGATAGTTTAAGCAATAGTTAATTTTACTAAGTGTACAAAAGCATATTTTGAGAGAGAAATAAAAACAAAA
R
TAATACCTATTACTTTAAGCCACAGTTTCTGACCACTGTTGCAGTTGTGACTTTTCTTATATTCTTTCCCCCAGATAGCTTATAGTACACATTAAGAAAA
Celera SNP ID:            hCV354074
SNP Position Genomic:     201822
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37657):
GTGTCACTGTCACTCAGGCTGAAGTGCAGTGGCATGATCATAGCTCACTGTAACCTTGAACACTTACGCTCAAGTGACCCTCTGGCCTTGGCATCCCAAA
R
CACTGGGATTACAAACATGAGCCACTGCACTTGGCCTATTCTTCCATATTGTCATATTGCTTAATTTTGTTTTCAAAAAACATACATTCCTTTTGTAATT
Celera SNP ID:            hCV8874883
SNP Position Genomic:     32756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37658):
TGGAGCATCTAGCATTCTCCAGGAGTTATTCGAAAGCTGAAACTTTCAGTGGATTGTGGGCCTGGGGAGAAGAAGGATTCCGAGGGTGGAATTGGGAAGA
B
CGTGCGTGCGTGTGTGTGTGTGTGTGTGCGCGCGCGCGCGTGGGTCGGGGCGGGGGCGTCGGGGGGCCACTGGGAATTCAGTGAAGAGGGCACCCTATAC
Celera SNP ID:            hCV26078122
SNP Position Genomic:     5920
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2|T,2|-,5)   total(G,2|C,2|-,5|T,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:37659):
GCAAAAGTCACTGGTATACTATACAGTTTGGGATCAGCATAGATGTTGATTACAGGCTCTGTGATCTAGAGAAAGTTACTTAGCATCTCTGTGCCTTTTC
W
TTCTCTATTTAATAGGGACAATATTTCCTATCTCCAAATGTTATTACTTAATCTTGAGATAATTTGCTTACAGCATCTGTCAAAGTGCCAAACATATAGC
Celera SNP ID:            hCV8874884
SNP Position Genomic:     43926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37660):
AGCATTCTCCAGGAGTTATTCGAAAGCTGAAACTTTCAGTGGATTGTGGGCCTGGGGAGAAGAAGGATTCCGAGGGTGGAATTGGGAAGAGCGTGCGTGC
G
TGTGTGTGTGTGTGTGTGCGCGCGCGCGCGTGGGTCGGGGCGGGGGCGTCGGGGGGCCACTGGGAATTCAGTGAAGAGGGCACCCTATACCATGGCAGTG
Celera SNP ID:            hCV26078123
SNP Position Genomic:     5930
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:37661):
GCATTCTCCAGGAGTTATTCGAAAGCTGAAACTTTCAGTGGATTGTGGGCCTGGGGAGAAGAAGGATTCCGAGGGTGGAATTGGGAAGAGCGTGCGTGCG
T
GTGTGTGTGTGTGTGTGCGCGCGCGCGCGTGGGTCGGGGCGGGGGCGTCGGGGGGCCACTGGGAATTCAGTGAAGAGGGCACCCTATACCATGGCAGTGC
Celera SNP ID:            hCV26078124
SNP Position Genomic:     5931
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:37662):
CCACCTTCAACTCTCTAATCAATGCCTCCCACTGGCAGGACCTGACAAGAAGCCAGCTGGCTAAGGATAAAGAAAAATGTAGTTTAGAGTCTTCCTGCCT
Y
CTGTGAATCAGAAAGATGGGGATGGAGTTGATGGCCAATAAAGAGTTTGCACACATTTGTTCATTAATTCATTTTAGTAATTTTCTTCTTTCATACTGCT
Celera SNP ID:            hCV29227007
SNP Position Genomic:     97126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37663):
TCTCATTATATACCAGTGGTGCCATTATTCTCAAATGACAGGGACTTTCTGCTTATTAACTGTATAATACAGCTAAGCCCTGGCTCAGCTGTGGCCCTCA
R
TGGAAGGTAGTGAGTGTTTATTTTATCACATAAAAATATTCCTCAGGATGCTGTCTCTTTTTACCAGCTTCCACAGGGCTTTACTCTAGGCCTTAACCCT
Celera SNP ID:            hCV28009901
SNP Position Genomic:     20174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37664):
ATTTTTCTGTCTTTGCACTCTTGAAAAGCATGTTCCCTAGAGATCTATCCAAATAGTCACTGGAGTCCTGAGGCCCCACCCTTTGTCCAGTACACTGAAC
Y
GTGTTATGCAACATGGAAATTGTTCCCATTCCAATGCCTGACAGCCAGACTCTTGGAAGACAAGCAAAGAAACAGGATGCTTCTACGGAGCACAAACACT
Celera SNP ID:            hCV29227008
SNP Position Genomic:     103046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37665):
GAAGATAATTCCTTTATATAGAAACTTGAATCCTTTTGGTAATTACCTATATATACTTTCATGATAGGTAGTATTTTTTATTAAAGGAGATTTTTTGTTG
Y
TGTTTGTTTTTTTAGTAAGGCTACTATGGAATTGTTTTAACTTTGAACTGAGAATGTATGTTTGTGCTGTTATTGATATAAAATATACAGATTTGATCAC
Celera SNP ID:            hCV26078126
SNP Position Genomic:     12087
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37666):
TTATCTGTGCATTAGTCCTTGTGCTAAAAATCAAAAATAATATACAGATAGATGTGACACAGCATTTGTCTCTGCAAAGTTTAGAGCCTAGTGAGATTAA
Y
GAGAAGTGAACATAAGAAAAAGGGAAGTCACAGTGAAATATCTTAGATAATGGAGAAATGCATATAATAACTTGGAGCAGGTTTTTAACCTGGCTCCAGG
Celera SNP ID:            hCV26078127
SNP Position Genomic:     12495
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37667):
GTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTCTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCTCAATAAACATAC
R
TGTGCATGTGTCTTTATAGCAGCATGATTTGTAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTG
Celera SNP ID:            hCV26383400
SNP Position Genomic:     289254
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37668):
CTTAACAGGCTCAACTTGTCAACCTAGCCTTTAGCAGCAAATGCTACAACCACATATTCCATTTCTTTCTGTTCTGTAGGGTTGGGTTGTCATACCTTCC
M
GTTTTTATCAAGTTCACTAAAGCAGGAATGAGAGACTTTTTGGGTTCTGTTTGCTCATGCCTTCCAAAAGTTAACTGACCACATTATATTACAATTTAAA
Celera SNP ID:            hCV358292
SNP Position Genomic:     293985
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37669):
AAACAGAATAAAATGTTTCAATATGGTATCCTAGGAAAAGAAGGTTTTTATCCCACCTTATAATTAAATCTGAAAGATTCCTACAGTGAACTAAGAGGTT
Y
CTAATGAAGTACTAAGCTGCATTTAGAATTGGAGCAATGAAAGGCTCTTTGTTCTCCTTTCAAAAGGTTCCAGTACAGAACAATTTGGCTCCCAATACAG
Celera SNP ID:            hCV358293
SNP Position Genomic:     294607
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37670):
TGAAGAAATTATGAATATCATAATTTTTTTTTCCTTTTGACTCTGCCTGTGTTCATTTCCCTCAGCACTCATTCAATTTAATAATTGTCATTCTGTGTCT
R
TATGGTTCAAAATTAATTCAAGATAATTTAATGTCCTTTTTATTCACTGTGTTTTAAAAATTAATTTTATTCTGTACAGTACAAGAAATTTCTGCAGTAT
Celera SNP ID:            hCV358294
SNP Position Genomic:     296269
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37671):
TGTTCATTTCCCTCAGCACTCATTCAATTTAATAATTGTCATTCTGTGTCTATATGGTTCAAAATTAATTCAAGATAATTTAATGTCCTTTTTATTCACT
R
TGTTTTAAAAATTAATTTTATTCTGTACAGTACAAGAAATTTCTGCAGTATATCAAAATAAAACTGTTAAAAGAATGACTAGCCCTTCCACAAAGATGTT
Celera SNP ID:            hCV358295
SNP Position Genomic:     296318
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37672):
ACAAAAGTAAAGAGAAAAGTCCATATACCAGGTGATATGGTTTGGCTGTGTTCCCACCCAACCCTCATCTTGAATTGTAGTTCCCATAATCCCCATGTGT
Y
GTGGGAGGGACCTGGTGGGAGGTAATCGAATCATAAGGGGAGTTACCCCCATGCTACTGTTCTCATGACAGTGAGTGACTTGTCACAAGATTTGCTGGTT
Celera SNP ID:            hCV358296
SNP Position Genomic:     297076
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37673):
GAGATTGGAGGGTCATATGGTTTGGCTGTGTCTCCACCCAAATCTAATCTTAAATTCCCATGTGTTGTGGAGGGACCCGGTGGGAGATAATTGTATCATC
R
TGGCAAGTCTTTTCTATGCTGTTCTCGTGATAGTGAATAAGTCTCACAAGATCTAATGGTTTTAAAAAGAGGAGTTCCTTTGCACAAGTTCTCTTTTTGG
Celera SNP ID:            hCV358297
SNP Position Genomic:     297620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37674):
TGCACTGCCTTATGAAAGATGGGAACAAGGGTGTTTTTGTTTTTGTTTTTTTTCAAAAAGAAAGAAGTCAAGACAAATAATGTCAGTACTTTTTTAAAAA
S
TTCTTTGACTCTCATTTTCTCTTCTCAGATTCTGACAGTGGATTTACACATGGACATATGGGATATGTATTCTCAAAAACGTATAATGTGACAGATGATA
Celera SNP ID:            hCV25762007
SNP Position Genomic:     283708
SNP Source:               Applera
Population(Allele,Count): african american(C,23|G,1)   caucasian(C,36)   total(C,59|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:37675):
GTGTGTGTATGTGCATGTGCATGTGTGTACCTGTATGTGCATTTATGATTTGTGTGTGTGCATGTGTGATTTTCCCCTGGCAGAAAATTGCTTTGGTTGT
R
TCAATTTAGTGAAGAAACAGTGTCACCCAGTGGCTTTGATGAAAACAGTCCTATAAACATTATAGATAAGCACTGTCCAGTAGAAATACAACACAAGCCA
Celera SNP ID:            hCV305560
SNP Position Genomic:     13900
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37676):
ATGATGTATGTGTGCTGTTATTATAACGAAAGCCACTTTCTGTGAAGTGTCCACCTATGCTTGAGTACTAATCATAGAAAGGAGCTCTGAAAATAAGCAG
Y
GGGCCTGTAGTCAGGGACTGCTGAAAATGAGGGAGAGCATCAGGGAAATTAGTGCACTGTGCCTCTTCTTTCTTCAGTACTCCTTTATGTTCATTGCTCA
Celera SNP ID:            hCV9575488
SNP Position Genomic:     229314
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37677):
GAAAATAAGCAGCGGGCCTGTAGTCAGGGACTGCTGAAAATGAGGGAGAGCATCAGGGAAATTAGTGCACTGTGCCTCTTCTTTCTTCAGTACTCCTTTA
Y
GTTCATTGCTCATGGGGATCTGTGTTTGCCTGTTAATTGAGTGTGTTTATTGCAGGCAGTTGCCTTAAGTGACATGATACTCAGTAGGAGGTTGTGAGGA
Celera SNP ID:            hCV9575489
SNP Position Genomic:     229402
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37678):
CCAACAGACAAATAGAGAGCCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAA
R
GACCTCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAATAAAAGAGGATAAAAACAAATGGAAGAACATTCCATGCTCATGGGTAGGAAGAATCAATA
Celera SNP ID:            hCV26383348
SNP Position Genomic:     309180
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37679):
AAAATCCCCACGTTTATTGTATGCAAATTTTCCTAAACAGAGAAGTTGACAGATTTCTAAAACTACCCTGATCATTCCAAAAGACTCTTTAGGAAGTTAC
R
GCTTCAATGACAGCAGCTGCGAGATGTTTTAGCACCACCTGGGAGAACGGGGGATTGGGTGGGGGAGAGGGGCTATACTAAAAAACAAAACAAAACAAAA
Celera SNP ID:            hCV228797
SNP Position Genomic:     72987
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37680):
CAGATTCATTGTTTGTAGAATGTTTCTTAAGGCTTCACAGATATTGTAATTTCTTATAGATGGATTGTGGAGAGAGATCATGTGTAGATAGAATTCCTAC
R
TGGTCCCAGTGTTTTAAGTATAGTAGTCTTCTGCCACTCTAATATTGAATAAGAAGTGCTAGTGGAAAAATTGGGTGATCGATTACTTATTTCCACTCTG
Celera SNP ID:            hCV228798
SNP Position Genomic:     70625
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37681):
GAAGTCCATCACAGTCTATTGACAGTTTCATCAAAGCTGTATAGTCCAACTAGTGGGGCAGCTTGGCTACTATGGTGGAAGTCTCAGCAAACTGCCTGGT
T
TTGTTTGTTTGTTTTGTTTTAAGGTACAGGAAATAAGAGGAATAATAGTGGCCAAAGCAATTAGAACATCTTCATTCCAGAACTGTGTTCAGCAATCCAG
Celera SNP ID:            hCV26383422
SNP Position Genomic:     320008
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:37682):
TAGTATATTGCCTACAGTTAACAGTACATACTCTGTTGTAGACTTAAAAAGAGGGTAGATTTTATGTTGTGTTCTTATCACAAAAAAAGGTGGGAGGAAA
Y
TTCTGGAGGTGATGGATAGGTTTATGGCACAGATTGTGGTGATGGTTTCACAAGTATATATATGCTTATCTCCAAACTCATCAAGTTGTATATATTTAAT
Celera SNP ID:            hCV228799
SNP Position Genomic:     69220
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37683):
ATGTTCCCTGTATGTAGCAGCTGGGTTAAGAATATAATTGTCTTGACAACAAATTATTGACATTTACGAGCTCAAAAGTTACCTCAGAAGCTTTTGAAAT
Y
AAAGAAATAAAAGTGTTAATTCTCTCTGATCTGAACAAGCCAGGACTCAGTGTCAGCCCTTTATAGGTCAGGCTGTGGAAGGAATGCATAGGATGAAATA
Celera SNP ID:            hCV25748379
SNP Position Genomic:     81472
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,31|T,9)   total(C,45|T,31)
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:37684):
AAGTCCATCACAGTCTATTGACAGTTTCATCAAAGCTGTATAGTCCAACTAGTGGGGCAGCTTGGCTACTATGGTGGAAGTCTCAGCAAACTGCCTGGTT
T
TGTTTGTTTGTTTTGTTTTAAGGTACAGGAAATAAGAGGAATAATAGTGGCCAAAGCAATTAGAACATCTTCATTCCAGAACTGTGTTCAGCAATCCAGG
Celera SNP ID:            hCV26383423
SNP Position Genomic:     320009
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:37685):
AGTCCATCACAGTCTATTGACAGTTTCATCAAAGCTGTATAGTCCAACTAGTGGGGCAGCTTGGCTACTATGGTGGAAGTCTCAGCAAACTGCCTGGTTT
T
GTTTGTTTGTTTTGTTTTAAGGTACAGGAAATAAGAGGAATAATAGTGGCCAAAGCAATTAGAACATCTTCATTCCAGAACTGTGTTCAGCAATCCAGGC
Celera SNP ID:            hCV26383424
SNP Position Genomic:     320010
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:37686):
ATTAAACCCAAGTTCTGTAATATATACTTCAGAAATATTGTTTTAATCTATTCTCTGAACTAGTTTTACCTGGCTTGTAGGACTATCTGCCTTTGTTCTT
A
AAAAAAAAAAAAAAAACTTGTGAGAGTCTTTTTAAAATTCTATAGTCAGATCTATGACAACAAAAGAGACTGAGACATCCACAAGTTATTTCTACCATGT
Celera SNP ID:            hCV12098986
SNP Position Genomic:     174746
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37687):
ACCACTGCTCAAGGAAATAAAAGAGGATAAAAACAAATGGAAGAACATTCCATGCTCATGGGTAGGAAGAATCAATATCGTGAAAATGGCCATACTGCCC
M
AGGTAATTTACAGATTCAATGCCATCCCCATCAAGCTACCAATGCCTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAACCAAAAAAG
Celera SNP ID:            hCV26383351
SNP Position Genomic:     309304
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37688):
GTCCATCACAGTCTATTGACAGTTTCATCAAAGCTGTATAGTCCAACTAGTGGGGCAGCTTGGCTACTATGGTGGAAGTCTCAGCAAACTGCCTGGTTTT
G
TTTGTTTGTTTTGTTTTAAGGTACAGGAAATAAGAGGAATAATAGTGGCCAAAGCAATTAGAACATCTTCATTCCAGAACTGTGTTCAGCAATCCAGGCA
Celera SNP ID:            hCV26383425
SNP Position Genomic:     320011
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:37689):
GAAGAACATTCCATGCTCATGGGTAGGAAGAATCAATATCGTGAAAATGGCCATACTGCCCAAGGTAATTTACAGATTCAATGCCATCCCCATCAAGCTA
S
CAATGCCTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAACCAAAAAAGAGCCCGCATCGCCAAGTCAATCCTAAGCCAAAAGAACAA
Celera SNP ID:            hCV26383352
SNP Position Genomic:     309343
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,8)   total(G,4|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37690):
AATGCCTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAACCAAAAAAGAGCCCGCATCGCCAAGTCAATCCTAAGCCAAAAGAACAAA
G
GCTGGAGGCATCACACTACCTGACTTCAAACTATACTACAAGGCTAGAGTAACCAAAACAGCATGGTACTGGTACCAAAACAGAGATATACAAGAATGGA
Celera SNP ID:            hCV26383353
SNP Position Genomic:     309445
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,6)   total(G,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37691):
TTGACAAACCTGAGAAAAACAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGA
W
CCCTTCCTTACACCTTATACAAAAATCAATTCAAGATGGATTAAAGACTTAAACGTTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCATTA
Celera SNP ID:            hCV26383354
SNP Position Genomic:     309697
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37692):
GTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATCAATTCAAGATGGATTAAAGACTTAAAC
R
TTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCATTACCATTCAGGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAAT
Celera SNP ID:            hCV26383355
SNP Position Genomic:     309752
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37693):
GGTCTTGTTTGAATACAAGGGGTGGGGGAGTCACACTTTTCAGACCGATTAGAATAATGAGATTCTCTAAACAGTTGAGAACCATTTGTAAGAATAGCAC
R
TTGTGTTAGAAGGCAATTAGAGCTCATTCTTTTAATAATTAGGTTTTTTGAGTTCTTACAGTATGCTGAGTACTAAGATTATAAAAATGAACAAAAATTG
Celera SNP ID:            hCV9575499
SNP Position Genomic:     229612
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37694):
AGAGCATTATGTGAAAAAGCTAAAAAGAAATAGACATTTCATTTGACATGATAACTAAGAGTTAACAGACTACTCAGAAAGCTACCACAATTACATAAGC
Y
GGGGGTGATCCTCCTGACATTACCCTACACCCATCAGAATGCACTTGAACCTTCCTGTTTGGCACTGTGAACCACTCTTAAAAAGAATGTGGAGGTGAAG
Celera SNP ID:            hCV125889
SNP Position Genomic:     288243
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37695):
GTGAGTGAGTGCTCAATTAAACCTCCTTCCTTTGTAAATTGCCCAGTCTCAGGTATGTCTTTGTCAGCTGCATGGAAATGGACGAATACAGTAAATTGGT
M
CTGGTAGAGTTGGGTGCTGCTGAAAAGACAACCAAGAATGTGGAAACGACTTTGGAACTGGGTAACAGGAAGAGGTTGGAACAGTTTGGAGGGCTCAGAA
Celera SNP ID:            hCV26383500
SNP Position Genomic:     297902
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37696):
TCACAACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCATACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGC
R
AAGGACATGAACAGACACTTTTCAAAAGAAGACATTTATGCAGCCAAAAAACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCA
Celera SNP ID:            hCV26383360
SNP Position Genomic:     310066
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37697):
TGGTTCCATAGAGATTTTGGAATTGTTTTTCCTGTTTTTCTGAATAATGTATTGGTATTTTAAAAATAAAGATTGCGGGGGAGGAGCCAAGATGGCCGAA
Y
AGGAACAGCTCCGGTCTACAGCTCCCAGCGTGGTGGATGCAGAAGATGGTGATTTCTGCATTTCCATCTGAGGTACCGGGTTCATCTCTCTAGGGAGTGC
Celera SNP ID:            hCV26383290
SNP Position Genomic:     304890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37698):
TTGATTTAATCTATATTTTGTCTAGCATTATCCCAACATTAGAAGTAGTTAATGTATCCATAGGCAATTGTTAGATACATATGTAAGAAAGTGAAAAACC
R
ACAGACAGACAAAACCCACCTAAGTCAATAATATTGGCAATAGGATTTAGAATGCTGTTATGGCACATGAGATGCTCCACATCCTACCTACATGGAATAT
Celera SNP ID:            hCV15837507
SNP Position Genomic:     49279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37699):
CATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATT
S
TTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCTCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTGTAGTCCTT
Celera SNP ID:            hCV26383369
SNP Position Genomic:     289193
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37700):
CAAATTGAGTAAGTTTCAGAAATAATCACGGACTTTTAATTAAATTGTAGCTTCTACATTTCAGTAGTGTTACTCAGTTTATGGTGATTCAAAGAGCAAT
M
TTGATTACTTATGACTTGGTGACAGAATTAAAATTAATTAATGTCAATTTCTGAAAATACTGAAAAGGGAAAACAAGATTTCCTTATCCCTTGGGAAAGG
Celera SNP ID:            hCV28978636
SNP Position Genomic:     10827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37701):
TGTGGTCAGTTTCAAGGAACGAGAGACCAACATCCAAGAATAGTCTGGAGGAGAAAGGACATATCAAGAAACACAACTCAAGCTGGGTGTAGTGGCTCAC
R
CTTCTAATCGCAGCACTTTGAGAGGCTAAGTTGGGAGGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTAGGCAATATAAAGAGCCCTCATCTTAACCA
Celera SNP ID:            hCV12104174
SNP Position Genomic:     227225
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37702):
CATCACCAACATCATAACTTTATAGAGATATTGCATTAGAATTCATCTAGTTTCTGTACTTATTCATGAATAAGAGATGCTTATGTAGATGTTATTTCTT
S
TTGACAAATTCTATTAGCATAAAATAAAAGCATTAATATTTACTTTTAATAAAAGTCATAACATTTAGCGTTAAGTTCCTTTATAAGTAAGTGCTTTATG
Celera SNP ID:            hCV12100102
SNP Position Genomic:     204969
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37703):
ACATTGCTTAATTTCACCTACATATAATTACATATCATTTGACACTCTCTAAATCGAGCTGTTTATTGTAGTTCTCAAAATTTAGTGTGAATAAAAATTA
Y
TTGGGAAAACTATTAAAATGCAGACGTTTAAATACTAGATTATAGATCCTGTAACCTTCCAGATACTCTGATTTAGTTAAGTGTAGAGTGGGATCCTGAA
Celera SNP ID:            hCV28978638
SNP Position Genomic:     18846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37704):
AAGGGTATAAAAATATGTAAATAAAAGTGCCTAGATGCAAGAGTGATGGAAATAAGTCAAATGTTAGCAGTGCTTTCTTATCAGATGGAGAAATTATGGA
Y
GACTTTTCCTTCCCAGTTTAGTGTTTCTTTGTACCTCTGAAAATTTGTACAATGTACATCTGTTATTTATAATTTTGTACATTGAGTGTGTATCAAGTTA
Celera SNP ID:            hCV12104175
SNP Position Genomic:     95964
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37705):
GTGTCTACTGAAACTGTACAGGAAGTTCTGACTTTTGCAATCCAATTCAACAAACAGTTTAAAAGTGCTTGGCTCAGACAAGAAGGGTCAGTATCATGGG
R
AAAAACTATACACACGCACTATAGTTTATGAACCTATGACATTCATAAATGTTTCACTTTGATTTCATTTCTTTGAAGTTCAAAAAAACTTCATTGATGA
Celera SNP ID:            hCV28978639
SNP Position Genomic:     19107
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37706):
AGATTAGAGGGTGGAAAATGGATTCTGGAGAAATAAACCCATCATATTAACTATAACCATGAGTTCCTTGAAGACAAATCAAATCTGATGTCTTTTCTTT
Y
TCCTTATGAATATACTTCAGTACGAAGGACCTGATACTTAGTTTGGACCCAGTAATTATTTATTGTTGTAAGTAGCACAGTAAGAATAAAAACGTTTATG
Celera SNP ID:            hCV12099001
SNP Position Genomic:     181426
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37707):
TTAGCATTCCTTCTCCAAAAAGAGTATCATATCATCTTAATAAAGTTTCTCTTTTCCCAGAATTGCTTAAGTAGCATGCTGCTATTCATTTCTCTTGAAA
K
TTTAGTCAAAATGAATTATTTTGCAAAAAGGAAAATTCCACAGTTTCTATTTCTTTTCCTCATTGTCTGTGGCCCATTAACGTCTTTTATCTGCTACTAT
Celera SNP ID:            hCV12099008
SNP Position Genomic:     185558
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37708):
CCAGTGCACAAGGGGGTGTGTCTTCTGTGTAAAGGGAACATGTTCCAAAAGCAAAAAGGCAAGAAACAATCTGTTAAGAAGAAACCACAAAGATTTCCTA
R
GAAGAGAGAATGGCATGAGTTGAGATGGAAATGATTGGGAAAGGAGAGTTAAGTCATAGAGGGTCTGGGTTTAGATATGACACCCTCCCCTTTAAAGTTA
Celera SNP ID:            hCV9576385
SNP Position Genomic:     222963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37709):
CATTTTCTTTTTATTCTCTAACCCAAACTGACAGATTTAATAATTAGAAATATTTTACAGGTAACGTTTTTCTATTTACACTCAAGGGTTGAAAAGTAAA
R
TTACTTAGTATGCAGATACGGTCTACCTACCTCTTCTCTTAGTGCACACACGAGCACAATTCAGGAAAAAAAATGATGAGTTATTTAAGATATTAAACAA
Celera SNP ID:            hCV9579004
SNP Position Genomic:     269204
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37710):
AGAAACAGTAGGTCACATGAAATAAATTAAAATCCCTAAAAAATATGGCAATTGTTATTCTATAGGATTAATGTCCATTTTAAAGCATTAATATAAACTT
R
ATTAATAATAGTAGGAATGATCAGGTCCTACTACTCATGGATTTCTTTTGAGAGCTTAATTTAAGGAGGGAACCCTCATCTCAGAAAAATTTACATGACT
Celera SNP ID:            hCV9579005
SNP Position Genomic:     273520
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37711):
TTCCATGTGCCTTAGACCTGTCTTCCATCTAATAAGACTTCACACTGCTCACTTTTCCTTTCTGACACTGAATACACATAAACAACAGAGAGCAATGTCT
S
TTAAACCCATAAACCCATTCAAAAACCAAAACCAAACCAAATAAAATGAATTGGTTGTATTAATTTGTATCATCCATTTACATTTTGAGAAGCATAGTCA
Celera SNP ID:            hCV25749418
SNP Position Genomic:     81217
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,7)   caucasian(C,38|G,2)   total(C,67|G,9)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:37712):
TGTTTTGGATTCTGTTGCCCAAAATGGAAATTGCCTTATTTTTGTTTTCCTGATCAAAACAGTGACCTACATTTCTGATATTTTGGGGGGCGCTGGGAGA
Y
GGGGTCTCATGATGTTGGCCAGGTCGGTCTCAAACTCCTGGCCTCAAGTGATCCTCCCGCCTCAGCCTCTTGAAGTACTAGGATTACAGGCATGAGCCAC
Celera SNP ID:            hCV25761313
SNP Position Genomic:     270799
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,7)   caucasian(C,6|T,6)   total(C,21|T,13)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37713):
GACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGAAGCAACAAGAAAATTGTTTTGAACAAAGACCCTTTAG
Y
GTCAGTCACTATTTCAGAATATAACACCAGTCATTGTTTATATGATTTACTCTTAATAGGATTTTGATATTCTGCTGTGTAACGTTGCTGCTGACTGAAT
Celera SNP ID:            hCV12103600
SNP Position Genomic:     162601
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37714):
TGGAAACATTCTGATTTGGTTGGGGGGGGGGGCTTTTGACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGA
R
GCAACAAGAAAATTGTTTTGAACAAAGACCCTTTAGTGTCAGTCACTATTTCAGAATATAACACCAGTCATTGTTTATATGATTTACTCTTAATAGGATT
Celera SNP ID:            hCV12103602
SNP Position Genomic:     162564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37715):
TTGCCAACAAGATGGAGTTTGAGGGACTAAAATTGATTTTAAGAATAATAATGTTGTTGTTCCTTTTTCAAATCTTTTAACATGGAAACATTCTGATTTG
R
TTGGGGGGGGGGGCTTTTGACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGAAGCAACAAGAAAATTGTTT
Celera SNP ID:            hCV12103603
SNP Position Genomic:     162482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37716):
TGATATGTTGAAATGGCAGCATCCTAGACCAATCCCAAGTTTAATGCCTTCCTTGAAGTTGCCATGTTTCTGTTTCGGAGTCCTTGGTGCCACAGGTCCC
Y
CTTGACTTTCACAGGCCAGGGCTTCTTGCCATACAGGTAAGTGTTCTCCCTTCCCAGCTTATGGGATCCAGACTCATCAGCTGCCCGCTGTAGGTTGTCC
Celera SNP ID:            hCV12103606
SNP Position Genomic:     160262
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37717):
CTACATAAAATATTGGTATGGAATCTGCATACCTTAAATAAAAGCTTGTAGTTACAAAACTTTATATTCTTAGTAATATTGTATACTCTAGTTTAATTTA
M
ATGGCTGTTTGGCTCTGTTAATGATAGAAAACCCTTCATTATTAAGGACAGCACTTCACAGAAAATTGACTGAAGCTAACTTTAACTTGCAGATGGCGTT
Celera SNP ID:            hCV11915800
SNP Position Genomic:     45166
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37718):
TTTCTGAATGACCTTAAACTCAAGGTAGTCGTTGAGTGGGAGGGATGATTTTTAGCCATCTTTTTCCTCCAACTCAGGTAGATAGGATTTACCAGCTTGG
Y
CTTAATTTCCTCCTTTCTGTTAACATTGAAAACCATCATACTAACTGTAAAAATCAAATACTGTAATAAGAGTGAGGGAGTGCATGTTTTAAAGTCTGTC
Celera SNP ID:            hCV11915801
SNP Position Genomic:     49566
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37719):
AAGCCTTTTGAAACTTTGATCCTGAAGACGTCGTTTTGGTAGATCTAAAATGAATACATGGTGGATCCCATCACTGTTTTATTTAGAAATACAAAATCAA
R
GTTATTAATTCTAAGATATGCATCCATAGCTCTGCAGTATCCAAAGCACAGCATTAACTTTAGTTGCATGAAAATTTCCCAAGTTGGTATATGGATGTAT
Celera SNP ID:            hCV11915802
SNP Position Genomic:     52825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37720):
TTTTTCCACTTATTGAATGATCTTTCAGTCTAGTCTGAGGTAGTTATTTTGGTTTGGCCCTAGGAGCAGCAGGAGTCCTGTGGAGTCTCAGTCTACTCCT
R
TTGGTTTCAGTTTATAAATTCTGCCTGGAGTGGTCATCTCTTTCCTAACTTGGTTACAGACAGTCCATGGATTTCCACTTTTGTGATAGAAGATGGAAAA
Celera SNP ID:            hCV11917407
SNP Position Genomic:     20395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37721):
ACAGTTGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGAT
Y
GCCATTCTAACTGGTGTGAGATGGTATCTCGTTGTGGTTTTGATTTGCATTTCACTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTG
Celera SNP ID:            hCV26383460
SNP Position Genomic:     289477
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37722):
GGTATACAAAAGAGCAAAATTGAGAAGCTGGGTGATCTAAGCCTGAAGTCCTCAAATATTTAAAAGACTTAGTTTGTCAAGATTTAACCATCTTTTTCTG
R
GTTCTTTTCATCACTGTTGACAAAAGCAAGCACTGGAGAAAAATTTTTCTTTTGCCTATGGGGCCAGCAGTGAAGATGAGCTCATCTGTCCATCAAGCTC
Celera SNP ID:            hCV12103610
SNP Position Genomic:     117024
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37723):
AGGTCAGGGGTTTGAGACCAGCCTGGCCAACGTGGTGAAACCCCATCTCTACCAAAAAATACAAAAATTAGCCAGACATGTTGGCACATGCCTGTGGTCC
Y
AGCTACTCGAGAGGCTGAAGTAGGAGGATTGATTGAACCTCGGAGGCAGAGGTTGCAGTGAGCCGAGATGATGCCAGTGCACTTCAGCCTGGGTGACACA
Celera SNP ID:            hCV12103611
SNP Position Genomic:     112649
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37724):
AATGATGAGGCAACCTGGGTGCCCAAAAAGTGAAAGTGGTTATCACTAGGACCAAAGGCACGAGGAGAGGGAGGTGTAACTGAGACCCAGTGAGAGCAGT
R
CCTGTGGGAAAGGGGCTACTGAACAGGAGCTGTGGCTATGGGTAGAGAAATGCAGCCACTATTGGATTACGCTGCTGCACTGAGCAGGTGGGGGCAGGGC
Celera SNP ID:            hCV27905147
SNP Position Genomic:     129620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37725):
AAATACATTTATGAGGTGTTTAATGTTGTGTTAAAAAATTGGGGGCTATTGAAATCACCCGCCCCCTCAAATGTTTACACTGTGGAAGGCAATAGAGATT
R
TCAAAGGGGAACATTTTCTTAGTTGGTCAGACACAATATAGATTTTATTAACTCACAAGTGAATTATTCACAAATTATTTTGTGAAGCCTGGGGTACTTA
Celera SNP ID:            hCV27905148
SNP Position Genomic:     235302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37726):
GATAACCACAGATTGGAAATGCTAGCCCTCTGGACACTCAAACTTTAACTCTGGAAACTGGGTTACACTGGAAAGAATCTACAATAAACTGACCTTCCAC
K
GGACACGTGGAGTATTCTAACTAATGCAGAAATCCGAAGCAGACTAGAGTATCCCTGATCTCCTTAGTGGTGTAGAATCTCACACTGTATTATTTATTTA
Celera SNP ID:            hCV187696
SNP Position Genomic:     152609
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37727):
CACATGTACAAGTATTTCTCTAAGGCATATACCTGGGAGTTAAATTGTTAGGTTAAATATGGTATGTGCTTGTTCAGCTTTCCTAAATAGAATCAAAGTA
Y
ACTCCAAAGTGATTGTAGCAATATACACTCTCCCCGGCAGGGTGGGTGAATTCTAGTTGTCCTATATACCGACAAATATGATGGGTGTAAAATGAAATTT
Celera SNP ID:            hCV12103614
SNP Position Genomic:     111099
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37728):
ATGGGCAGGTGGTAGGAATGAGAGCCACAGGCATAGCAAGAGCCCCCTTCCATTCTTGCCATCAAGTGCATAAGGCATTTCTATCATGATCATTTTGGAG
Y
GGATTTTGCATTGTGGCATCTTTAGACAGCTGTCACAGCACAGCTAAAAGTTTATAAAATAACCTATATCCCAGGCATGCTGAATCCAACTAATTAAATT
Celera SNP ID:            hCV27905149
SNP Position Genomic:     261512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37729):
GGCTAATGAGCTCCATTAGGTTTAATCAACATTTCAGCAATTTTTGACTTGAATTTTGTTTAAACTTTCTGCTTTGTCTTTTACCTTTTGTTCTTTATTA
Y
GTTAGCTCATTTAATTTTTATACGTAGGATAAAACATACACTTTGAAATGGCCTCAGAATTTGAAAGTATGGCTGTAAAGGGTGAAATCACTGATGTTAA
Celera SNP ID:            hCV104941
SNP Position Genomic:     121670
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37730):
CTATCCCTTCAATGTAATTTCCGAGACCTTTACAATATAGGTAGACCCTTTAAAAAATTACCGTGTGCTTAAATTTATATTCCACCATTGTTAGCCAAGG
R
CCTTCATTTCAATTTTATAGTCATTTAATTTTCTCAGTGTTTATATCTGTGTCTTCTTCTTTTTGCCTTTAATTCCCCTCAGCCAAAAATTTCAGCATAC
Celera SNP ID:            hCV331636
SNP Position Genomic:     48644
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37731):
TCATTAAAACTTCACTATTGTTTCAGCCCTGTATAGTTCACTTAGTTACACGTGTAATTTTAAACACTGTTGTTGACTGTGTTGTACTGGTTAGAAGCCA
Y
ATTAACTAGATTTCAGTTTCTTGAAAATTTATACATTAGCAAGCATAGTGTAAATATGTATTAAGTGGGCAATAAATATTTGCTGTGTTAGTGGCATTTT
Celera SNP ID:            hCV331638
SNP Position Genomic:     48889
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37732):
ACTTTTTAGAGAGATTGCTATCACTGACAACTTCCAGAGTTTGAGAGTTTTTTGAATATACTACTTAAAAAAATCTCCATATGGTTTTCATTTGAAAAAA
Y
ATATTACAAACTGAGACATTCACTATAAATTAAATTGAAATAATCAAAATATAATTAAGCTATTTGTGAGTTTACATTTTGCAAAACATTTTAGAAGCAA
Celera SNP ID:            hCV11917411
SNP Position Genomic:     17547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37733):
ACAGTGACCTACATTTCTGATATTTTGGGGGGCGCTGGGAGACGGGGTCTCATGATGTTGGCCAGGTCGGTCTCAAACTCCTGGCCTCAAGTGATCCTCC
Y
GCCTCAGCCTCTTGAAGTACTAGGATTACAGGCATGAGCCACTGTGCCCAGCCTGATTTTTTAAATTATAGATTTAAAAGGACAAGGGAGAAAATTAAAA
Celera SNP ID:            hCV25761264
SNP Position Genomic:     270857
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,5)   caucasian(C,3|T,3)   total(C,16|T,8)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37734):
TAAGGCATTTCTTCATTAGCAAAAACAGCTGGTAATTTTTTTCACCTGTTATTTTGCAGTGTTTCCTTAGAATTTCATTAAAATATAAGTAAATAGGGTA
W
AATATCAGAGGAGGTCATGAAGAACATTACCATTTCGAAGATGGAAAGCTATTTGAGAGAAGTCACAAACTAAGCAATGTCTGTGTTTTTGATTTGATTA
Celera SNP ID:            hCV11917414
SNP Position Genomic:     13542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37735):
GAAAGCGAGTATGAAGTAAGAAGAGGCATACAGAAAGATAAATACCCTGTTTCCAGAGAGGGCTAATGAAATCTGTTCTTTGCGCAAATCAAGTAAACAG
Y
GTGTCCTCTAGTTCAGTCAATCAATGTTAATTTTAAATAGCTGAAACACAAATTATTATGCAGTTACTAATATAAAATAAATGAACGAAATCACATAGGA
Celera SNP ID:            hCV27905150
SNP Position Genomic:     262021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37736):
GACACTGATGAGGGTGGAGGTAGTAGCTGAGTCTTTTGTTATAAAAGCTCATGTTGACTCGTTAACATTGGTTTTTTTTTTTTTTTTTTTTTTTTTGTTT
T
TTTTTTTTTTTGAGATGGAGTCTCGATCTGTCGCCCAGGCTGGAGTGCAGTGGCGCTATCACGGCTCACTGCAAGCTCCACCTCCCTGGTTCACACCATT
Celera SNP ID:            hCV26985400
SNP Position Genomic:     37143
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37737):
TATAGGTAGACCCTTTAAAAAATTACCGTGTGCTTAAATTTATATTCCACCATTGTTAGCCAAGGACCTTCATTTCAATTTTATAGTCATTTAATTTTCT
C
AGTGTTTATATCTGTGTCTTCTTCTTTTTGCCTTTAATTCCCCTCAGCCAAAAATTTCAGCATACTTATGATCTATCCAAATATGTGTTCTGTGTATAGC
Celera SNP ID:            hCV26985401
SNP Position Genomic:     48679
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37738):
TGTTTGTGCTGTTATTGATATAAAATATACAGATTTGATCACTGAGAAAAAAGTCTAACAGATGTGCCTGAGTTGTAGTTTAGAGGAAGATGTGTTGTAT
R
ACAATCGTAAAAAATATTAGTTGACCATACCTGTTCATTGTGAATGTATACCACTGTTTTAAAAGAAGATGCTACCCATAGCTAATGTTACCCATTATCC
Celera SNP ID:            hCV11917416
SNP Position Genomic:     12246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37739):
ATAGGTAGACCCTTTAAAAAATTACCGTGTGCTTAAATTTATATTCCACCATTGTTAGCCAAGGACCTTCATTTCAATTTTATAGTCATTTAATTTTCTC
A
GTGTTTATATCTGTGTCTTCTTCTTTTTGCCTTTAATTCCCCTCAGCCAAAAATTTCAGCATACTTATGATCTATCCAAATATGTGTTCTGTGTATAGCT
Celera SNP ID:            hCV26985402
SNP Position Genomic:     48680
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37740):
CCCAGTAGATAATAAAGAACAATCAAAGGATTTTAAGTAAAGAAGGTTTGCTACATTTAATGCCCCTCTCCTCACAGTGTTATTGAACTGTCAATAATAT
S
AACACACATTAAACTGAACCGCATATTCAGTTTAATGTGTGTTTTTGTATAATTTGAACAAGGCTGGAAACCAGGAGACCTGAACTCAGATTCCAGCTGG
Celera SNP ID:            hCV15859397
SNP Position Genomic:     214254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37741):
ATATTGTTTAGCCCTATTTTTTCGTTTGTTTCTTTTGAACTACTCCGTTTTCCTTAACTCTCCTTATCTTTTTCTGAATGACCTTAAACTCAAGGTAGTC
R
TTGAGTGGGAGGGATGATTTTTAGCCATCTTTTTCCTCCAACTCAGGTAGATAGGATTTACCAGCTTGGCCTTAATTTCCTCCTTTCTGTTAACATTGAA
Celera SNP ID:            hCV26985403
SNP Position Genomic:     49496
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37742):
TATGGAACAAAGCTGCACGTTGTGTACAAGTACCCTAGAACTTAAAGTATAATACAAAGTATTATATTAATTATTAATTATATTAATTATTAATATATAA
W
ATATAAAATATATATATAAATATATATAAAATATATATATAAATATATATAAAATATATATAAATATATATAAATATATATAAAATATATATAAATATAT
Celera SNP ID:            hCV26985404
SNP Position Genomic:     22731
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,2)   total(A,1|-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37743):
TAAAATATATATATAAATATATATAAAATATATATATAAATATATATAAAATATATATAAATATATATAAATATATATAAAATATATATAAATATATAAA
W
ATATATAAATATATATATAAATATATATAAATATATATAAATATATATAAATATATATATAAATATATATAAATATATAAAAATATATATAAATATATAA
Celera SNP ID:            hCV26985405
SNP Position Genomic:     22835
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37744):
TATTTCTTGAAATGTAGAGTCCGTATCAGTGGTGGTATAAAAGATTGTTTTACATGCAACGAGATATGCTGGTATATAATATTAAGTGTTTTGCTAAATT
R
TTTGCCTTTCATTTCTACTCTAATGTTACTGATTAAGATAAGGGGAGCAGATCTCACCTTGGAGCTAGGATGCTTTCATGTCCCTCCAACCCTCACTGAT
Celera SNP ID:            hCV12103620
SNP Position Genomic:     97980
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37745):
ATATATAAATATATATAAAATATATATATAAATATATATAAAATATATATAAATATATATAAATATATATAAAATATATATAAATATATAAATATATATA
W
ATATATATATAAATATATATAAATATATATAAATATATATAAATATATATATAAATATATATAAATATATAAAAATATATATAAATATATAAAAATATAT
Celera SNP ID:            hCV26985406
SNP Position Genomic:     22843
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37746):
TATATATAAATATATAAAAATATATATAAATATATAAAAAATAAAAATATAAATATAAATATATTAATTATATTAATATATTATATTATATTATAGTATA
K
TATAGTATAATAAAAAAATACTAAAAAAAAATTGCCATTCTGACTGGCATGTGATGGTATCTCAATGTGGTTTTGGTTTGCATTTCTCTAATGATCGGTG
Celera SNP ID:            hCV26985407
SNP Position Genomic:     23019
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37747):
AAATAGACAAGTAGAGATAGAAGAGTAATTTTTAATTTGCTTTAAAAAATCTGATGTATTAATGTATTTTATTGACTTTCATAGAAAGAATTCAAATTTA
K
TTAAATTTCAATTGTATCTACTGCCCTTGTTAGGAGGCTTTCAAATGGAAGAATTGATATAAGGGGTCTTGGCCTGTGCCCCATACACTTTTGCCTATGT
Celera SNP ID:            hCV26383475
SNP Position Genomic:     295214
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37748):
AAATTAGGCTATATTCAATGATGCTAGCTAGCATCATCGTGTGTGTGTATGTATACATATATATAACATATATATTCTCATATATATATATATATATATA
Y
ACACACACATACATGCATTATACATATATATATATATACAATTCCGGACCGTTGACTCTGGATCAAGGGTCCGGAAGTGCAATCCACTGTTGATTCTTTG
Celera SNP ID:            hCV26985408
SNP Position Genomic:     28122
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37749):
TACTCTTCTAGACTTGTGTTTATATATCATAGTAAATTTTTGGAGGACTTTTTTTTTTCCGTTTATGTATGTGTTACTTTTCCTGAAAAACATCAGTGCT
K
TTGTATCACAGGATTGGAGGGAAATTAAAGGTAGAGCTCAATTTATGAAATGCCTAACAAGTGATCATTGTTAAGCTTTTGCCTAATCACTACCATAATA
Celera SNP ID:            hCV26985409
SNP Position Genomic:     28370
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37750):
TTTTTACCTGAGTAATGCATACCTAGTATAATAGGCTACAGTATTTCTTGAAATGTAGAGTCCGTATCAGTGGTGGTATAAAAGATTGTTTTACATGCAA
Y
GAGATATGCTGGTATATAATATTAAGTGTTTTGCTAAATTATTTGCCTTTCATTTCTACTCTAATGTTACTGATTAAGATAAGGGGAGCAGATCTCACCT
Celera SNP ID:            hCV12103624
SNP Position Genomic:     97939
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37751):
TTTTTTTGTTATTGCAAATTGTATTTGAAGGGGTGTCTCTCCATTCTCTTTATAAATAAAGAACTATAATTGGCTGCTCATTCTTCTCTAATTACTGAGA
Y
CACCTTACACATTCACTTTTGAAAGATTTCAAACCAATGCAATTTTATTTTAGTTACCTGTTAAGGAAAATTTTATATTTTTACCTGTGGTTTCAGGTAA
Celera SNP ID:            hCV9578305
SNP Position Genomic:     10304
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37752):
GAAATAAAAGTGTTAATTCTCTCTGATCTGAACAAGCCAGGACTCAGTGTCAGCCCTTTATAGGTCAGGCTGTGGAAGGAATGCATAGGATGAAATACCA
S
TGCATGCCTGGTGCACTAAAACTAAATGGGATTTCAGCAGATGAAGGGAAAGGGTGAGGAATCAAGCCTTAAATTGTCTGCCTCAGGCATGGTAAGAAGA
Celera SNP ID:            hCV25747916
SNP Position Genomic:     81576
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(C,1|G,37)   total(C,1|G,73)
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:37753):
CAGGGGAGACATACAGTTCAGGCTCATCTTCTCACATGGAATGCTGCAGAGAGCAAATATAGGTAGCATAGAAATTAAGGAAAAAGAGTATGCCAAGGAA
R
GAATCCAATCAAACATGCCCAGGTTAAAGAAGTGCTTTTAGTTTCTTATCAAATCAAAAACCGTGTGCTCATCAGAGTAAATGTGGTTCTAAAAGGCAAC
Celera SNP ID:            hCV28030910
SNP Position Genomic:     183456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37754):
TGCTACAGTCTGAGAAATTGTATGTTGTTTAAATGCAATACATCACAATGTTTGATAAATAAAAATAAAAACCGTTAAACCTATCCAAATGCAAGAACTC
M
TAAATATTGTTGAGTTAAAGCTTTTGATGCAGCTGAGGCTATGTCTGGATTTTATTATTTTCCCTAGGATTTCCAATTTTTTCTAAGAAAGGAGATCAAT
Celera SNP ID:            hCV28030911
SNP Position Genomic:     179543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37755):
AGCCACTCGGACACCAAGTAGAACAGGTAATTCATTGTTTTGGATTCTGTTGCCCAAAATGGAAATTGCCTTATTTTTGTTTTCCTGATCAAAACAGTGA
Y
CTACATTTCTGATATTTTGGGGGGCGCTGGGAGACGGGGTCTCATGATGTTGGCCAGGTCGGTCTCAAACTCCTGGCCTCAAGTGATCCTCCCGCCTCAG
Celera SNP ID:            hCV27986384
SNP Position Genomic:     270764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37756):
GAACAGGTAATTCATTGTTTTGGATTCTGTTGCCCAAAATGGAAATTGCCTTATTTTTGTTTTCCTGATCAAAACAGTGACCTACATTTCTGATATTTTG
K
GGGGCGCTGGGAGACGGGGTCTCATGATGTTGGCCAGGTCGGTCTCAAACTCCTGGCCTCAAGTGATCCTCCCGCCTCAGCCTCTTGAAGTACTAGGATT
Celera SNP ID:            hCV25761346
SNP Position Genomic:     270784
SNP Source:               Applera
Population(Allele,Count): african american(G,8|T,12)   caucasian(G,4|T,4)   total(G,12|T,16)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37757):
AAGTGGCTGGGGTGGGAGGATTGTTTGAGCCCAGTAGCTCAAGATCAGCCTGGGCAACATAGTGAGATCCTGTCTCATAAATAAATAAATAAATAAATAA
A
TACATAAATAAATAAATAAATAAATAAAATCTAGCTGGACATTATGGAAAACAGTATGGAGGTTCCTCAAAAAACTAAAAATAGAACTCCCATGTGATCC
Celera SNP ID:            hCV26985410
SNP Position Genomic:     29263
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37758):
TGACTTGAATATATTATCCCATTATCTCCTGGACTGAATGATTTCTGCTGAGAAATCTGTTAGTCTGATTGGAGTTTCCTTATAAGTTACTAGATACTTT
Y
CTTTTGCTGTTTTTAGAACTCTCTATGTCTTTGACTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCCCCCATGCTGGAGTGCAGTGGCGTGA
Celera SNP ID:            hCV1710032
SNP Position Genomic:     313493
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37759):
AGTGGCTGGGGTGGGAGGATTGTTTGAGCCCAGTAGCTCAAGATCAGCCTGGGCAACATAGTGAGATCCTGTCTCATAAATAAATAAATAAATAAATAAA
T
ACATAAATAAATAAATAAATAAATAAAATCTAGCTGGACATTATGGAAAACAGTATGGAGGTTCCTCAAAAAACTAAAAATAGAACTCCCATGTGATCCA
Celera SNP ID:            hCV26985411
SNP Position Genomic:     29264
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37760):
GCAAAAAAGGCAGGCAATAAAGTTAGTCTGAAGTATCTTCATGTAGGTATTCTTGGTGTAGAAGTGTAGTAACTCTAAATCTAGCAAAACAAGCTTTATT
Y
CCATATACTGTAGCTGATTACCAAGTTCCCAGAGGGAGGTTGGTGGTGCTTTGGGGTCCAGTTTATTAGATTGGATTAGATGGGGTAGATGCAAGAAGAT
Celera SNP ID:            hCV29303063
SNP Position Genomic:     44257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37761):
GTGGCTGGGGTGGGAGGATTGTTTGAGCCCAGTAGCTCAAGATCAGCCTGGGCAACATAGTGAGATCCTGTCTCATAAATAAATAAATAAATAAATAAAT
A
CATAAATAAATAAATAAATAAATAAAATCTAGCTGGACATTATGGAAAACAGTATGGAGGTTCCTCAAAAAACTAAAAATAGAACTCCCATGTGATCCAG
Celera SNP ID:            hCV26985412
SNP Position Genomic:     29265
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37762):
TGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCAC
R
CGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGAGTTTCACCGTGTTAGGCAGGATTGTCTCGATCTCCTGACCTCGTGATCTGCCTGT
Celera SNP ID:            hCV1710033
SNP Position Genomic:     313676
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37763):
GTTTATATCTGTGTCTTCTTCTTTTTGCCTTTAATTCCCCTCAGCCAAAAATTTCAGCATACTTATGATCTATCCAAATATGTGTTCTGTGTATAGCTTA
Y
CTTTTTCATTAAAACTTCACTATTGTTTCAGCCCTGTATAGTTCACTTAGTTACACGTGTAATTTTAAACACTGTTGTTGACTGTGTTGTACTGGTTAGA
Celera SNP ID:            hCV29303064
SNP Position Genomic:     48783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37764):
TGGCTGGGGTGGGAGGATTGTTTGAGCCCAGTAGCTCAAGATCAGCCTGGGCAACATAGTGAGATCCTGTCTCATAAATAAATAAATAAATAAATAAATA
C
ATAAATAAATAAATAAATAAATAAAATCTAGCTGGACATTATGGAAAACAGTATGGAGGTTCCTCAAAAAACTAAAAATAGAACTCCCATGTGATCCAGC
Celera SNP ID:            hCV26985413
SNP Position Genomic:     29266
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37765):
TCATTCTGTGCAAATGAGAAATATCTCAGGGGAGGACTCAGGCCCGACTTGGGCCACACACACACCCATTGGCCAGTCACTGTGAAACAATTTTGTAGAC
Y
GGTTGTGAGGGCAGAAGTAGAATTTAACAACCTTTTCTGGAACCACATAATTGAAGGAAGGGGGAAAAGTTCCCCCTAAATGATTTTGGACGCACAGTTA
Celera SNP ID:            hCV1710034
SNP Position Genomic:     315872
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37766):
CATGATCCTCCAAGGTAGATCCCTGAAATTTTAGATCGGCCTACAGACAATTTTTGTAACTTTACCTGAAGGTAGCGCTTTATGAAAATATATACATCCA
Y
GTGTATGCACATATATACCGAAACATGTTTCAGTTTTTACCAAGGCTTTTTGGTGTCTTTTTGTTTTAGACGTGGCAACAAAACTCTACCACGTCAACTG
Celera SNP ID:            hCV29303065
SNP Position Genomic:     25139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37767):
TATCATCCAGTTACCTGATTTGATTATTACACATTGTATACATATATCCAAACGTTACATATACCCCAAACTATGTACAACTCTGATGTATCAATTAAAA
W
GTAAAGAAAAACAAAACAGAAAAAAAGCTGGAAAAGGAAGGCTTGAGATTTGATGCACTAAATTCTGTGTACTTTTGGAAATAATATTAACATAAGGTGG
Celera SNP ID:            hCV26985414
SNP Position Genomic:     30377
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37768):
TATTACATTACTGCTATGCACCACTTGAAGGAGCTCTATCACCAGCCTCAAACCCGAAAGACTGAGGCATTTTCCAGTCTACTTGCCTAATGAATGTATA
R
GAACTGTCTATGAGTATGGATGTCACTCAACTAAGATCAAATCACCATTTAAGGGGATGGCATTCTTTATACCTAAACACCTAAGAGCTGAAGTCAGGTC
Celera SNP ID:            hCV1710035
SNP Position Genomic:     318257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:37769):
GTTTTGCTTTAGGATTTTAGCAGCCTGAAGCCATGGATCTTTGTTTCTGTCTCTAGTTTTAAGTGGAAAAGTGGGCTGAGGAAGGGGCTTCACTGGCCCA
R
CAAGAAACAGAAATTTGGAACCCATGACTGTATTTCTCCTGTGGACACCCCCTGCCTAGGACAAGAGAGAGCTGTGCTGTAGAATGCTGGGGAAATGGAA
Celera SNP ID:            hCV29303066
SNP Position Genomic:     50187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37770):
TGCAACTATTTAGTTGGATGTAAAATCCTACACTCTTCAGTTGTTAAATCTGTCTCTGAATCTAGTCATCCCTCAGGGGTTTTATTAATCTAAATGACCA
M
CATTATCACAGCTGCAACTCATCTTAAGAACTATTTCTCAGAAAAAAACAGTAAGTAGCTAGTGACTCTGTACACAGAGAAAAAAATAAAGAACAGTTTA
Celera SNP ID:            hCV26985415
SNP Position Genomic:     109624
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1|C,1)   total(A,1|C,1|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37771):
TCCACACGCTGTTTGTTGGGGTAGCTTCCATCGGCAGTCTGGCCCATTGTCAGTCATGCTTCTTCTGGCCGGGGAGATTATAGAGAGATTGTTTGAAGAT
Y
GGGTTATTATTGAAAGTCTTTTTTTTTGTTTGTTTTGTTTTGGTTTGTTTGTTTATCTACACTTGTTTATGCTGTGAGCCAAACCTCTATTTAAAAAGTT
Celera SNP ID:            hCV1710036
SNP Position Genomic:     318730
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:37772):
TTTGCTTTAGGATTTTAGCAGCCTGAAGCCATGGATCTTTGTTTCTGTCTCTAGTTTTAAGTGGAAAAGTGGGCTGAGGAAGGGGCTTCACTGGCCCAGC
R
AGAAACAGAAATTTGGAACCCATGACTGTATTTCTCCTGTGGACACCCCCTGCCTAGGACAAGAGAGAGCTGTGCTGTAGAATGCTGGGGAAATGGAAAG
Celera SNP ID:            hCV29303067
SNP Position Genomic:     50189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37773):
AGTGACCAAATACTTCTGCCACTTAAAGATGGGGGAATATTTCTTTTTCCTTAACATCTATCACTTATACCAAATGTAGGAGAGGAAAAAATGTGTGTGA
K
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTTCCTTCTTTTAAAATTCCTGAGCTCCTCTCTTTCCTCCCATGTTAAAATCGGTAGCA
Celera SNP ID:            hCV26985416
SNP Position Genomic:     112214
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,3)   total(G,1|-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37774):
TTCTGGGTCCATATCTCCCAGATGAAAAACTGTTAACCAATACCATATTTTATAGTTGGTGTCCATTTCTTTCCAACACTGTTTGTTATGATTCTTCCTT
S
AGTACTTATATACAGACCTGCTCATTATCTAAACAATCTTACCTTCTAAGTAAACCTTGATTGTGATTTCCAGTTTTTATTTTCTCTGACGTAGTAGAAA
Celera SNP ID:            hCV1710037
SNP Position Genomic:     319274
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:37775):
GGTAGCATGTCCAAGCCTCTGGGCCTACTGCCTTCGGTTAGCTCACACTTGCTTTTTCATGTGAAGTTTGTTCTATGGCATAATCTTAGTAAAGCGTTTT
W
AAAACAAAAAGATACGGAGGCTTTTTACAACCCCTTCGCCTAATTATATGATTCATTAAAAGAATCTTGGGGGTGGGCATGGTGGTGACTCATGCCTGTC
Celera SNP ID:            hCV26985417
SNP Position Genomic:     112408
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37776):
TCACATCTCTCTTGAGTATTCAAATTTGTTAAAATATGAAACACAGTGCTTGGCCAAAAACAGATAATATTTGCTGAATGAATCAAACGGGTTTCTGAGA
Y
GATCAATTCTTTAAAGATAGAGACTCAGTTATTTGTCTTTTTCTTCTGAGCCAAGTACAAATACTTACATAACAATTATATTGAATTATTGTTATTTTTT
Celera SNP ID:            hCV29303068
SNP Position Genomic:     51436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37777):
AAAAGAGAAAAAATAAGTAAATGGGGCCACATCAAACTAAATAGCTTCTGCACAGGAAGGGAAACAATCAACAAAATGAAAAGGCAACTGACAGACTGGG
A
AAAAAATATTGGCAAAGCATGTATCTGATAAGGAATTAATATCCAAACTTTATAAATAACTCTTATAACACAATAGGGGAAAAATAACCTGATTAAAAAG
Celera SNP ID:            hCV26985418
SNP Position Genomic:     246730
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37778):
TGGGAAACTTTGTTTCTGCAACTAGAATTCATGCTATAATGTGGACATTGTTAGTCTATAAGTTAATACGTGTAATTTAACCTTATCCCTGTACTTGATA
S
ATCATTAGTTAGCAGAGTTATTTATGTGACATTATGTGGCATGCCTTAATTTTTAGAACCAGTTTACTTTTTCAAAAAATACATTGCAGTACACAAAAGT
Celera SNP ID:            hCV29303069
SNP Position Genomic:     53903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37779):
TTGTAAGCCTCAAGTATACACAATGCAAATTATTTTTAAAATAAGTAAATAAAATAAAATTCTACTTTTAGCTCAGAAAAATAAAATTAACCCTATAGAT
A
ACAAATATGACATATGCATGACTATGTATCCTAAAATTATTAATATTACACTTAAATTTTCATATTGGTTCATAAGAGATATTTATGCCTGTGATCAGAG
Celera SNP ID:            hCV26985419
SNP Position Genomic:     247847
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37780):
TTGTAACTTAGGAAACTAAAAGTCACAAGCCTGCTCCTAGCTTTAATGGATGAAAATTGTAACAGTGTCTGTAAAGGGCTAACTTTTCACTACTGTTTAT
W
TAAATACCACTTTCATGGAAACACAATGAAAATGGTTCATTCTGTGTATAGAGCAGATTGGAGATTTTGATAGTGTGGAATTTTTAAAGTAGGAATTTAG
Celera SNP ID:            hCV9578311
SNP Position Genomic:     14822
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,7)   total(A,7|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37781):
CATTCTGTGTATAGAGCAGATTGGAGATTTTGATAGTGTGGAATTTTTAAAGTAGGAATTTAGATTAGGTGAGTTTTGGAGCCATTTTCTGAGTTCACTC
Y
GGTTTGCAATTTCAAACTGATTTCAGATGAAAAAGTCTGGAAATGTTTAATGTCATGTCCTCTCCATCACCTTTCCTTATACTCTATGAATTCGTTAACA
Celera SNP ID:            hCV9578312
SNP Position Genomic:     14960
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37782):
TGGACCATGGGAATTTTTTCACATACACGGGTAGTGGTGGTCGAGAGCTTTCCGGCAACAAGAGGACCGCGGAACAGTCTTGTGATCAGAAACTCACCAA
Y
ACCAACAGGGCGCTGGCTCTCAACTGCTTTGCTCCCATCAATGACCAAGAAGGGGCCGAGGCCAAGGACTGGCGGTCGGGGAAGCCGGTCAGGGTGGTGC
Celera SNP ID:            hCV28966450
SNP Position Genomic:     189009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:37783):
ATTTGGACAAAATGAAATAATGTGGATGCTGGCTCGCTTCTGGTAAAAGCTGACTTAATTTAGAGTTCTTGAAGAAGCTAGCTGAAGAATGAAATGTCAT
Y
GTAACACACATCTGTTTCTTGAAAGAGTTTATACTTGAATGTAACTAGTCACTGTTAGCTCTGGCTAATTTTGAAGTTGATTTAAATTAATATAGAGGTT
Celera SNP ID:            hCV9578313
SNP Position Genomic:     15444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37784):
TCCATCACGAATATCAGTTTTCCATGTGCCTTAGACCTGTCTTCCATCTAATAAGACTTCACACTGCTCACTTTTCCTTTCTGACACTGAATACACATAA
W
CAACAGAGAGCAATGTCTCTTAAACCCATAAACCCATTCAAAAACCAAAACCAAACCAAATAAAATGAATTGGTTGTATTAATTTGTATCATCCATTTAC
Celera SNP ID:            hCV25749455
SNP Position Genomic:     81198
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,3)   caucasian(A,32|T,2)   total(A,67|T,5)
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:37785):
ATTTATGTGACATTATGTGGCATGCCTTAATTTTTAGAACCAGTTTACTTTTTCAAAAAATACATTGCAGTACACAAAAGTCCTGTAGAAAAAGGTCATT
Y
GAAGTCTTATATTAGAATGATATAATTTCCTTTTTTGTTTTACTTTGAGTTTTAAAAATTGATTTATTTGGAAACAGATTAGCAAGTCCCCAATTATATC
Celera SNP ID:            hCV29303070
SNP Position Genomic:     54023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37786):
AACAGAAAATCAATAGATGGGAGAGCCGGGATTGGAATTGCAGGCTGTCTGTCTCTGAAGTCCATTCTCCATATCACTGAGCTATTCTAGTTTTCCTGGG
W
AGAGAATCTAGGATGGCCAAAAAATGTCCCCAGAGCCTCCCTGTAAGCTGTCCTCCACAACAGACTTCTGGAATAGAAAGAAGTTGGCTTATGACCTCTT
Celera SNP ID:            hCV29303071
SNP Position Genomic:     54792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37787):
CCAACCCACTGAACAATATTTTCTAGACAATAATTTATGAATCTACCCACATCTTTTAAACAAGGATAGACAACTTTATAATACAGATATAATGAAATTT
A
AAAAAAAAAATTTATCTACTTATATGTATCTCGGTTGTCGTTGCCAGAACACTGCTATACCCTTTGTGTTATTGTTTTTATATGTTTAGATATTTGTAGA
Celera SNP ID:            hCV26985420
SNP Position Genomic:     248505
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37788):
GAAATCATAAAAACAGAACAGAGTGTAGTTAGAACACTGAACTTCTAAAAGGATATCCCTGCCTTAGAGATGGTATATAATACTTTTTCATGAGTTGGGA
Y
AAATAAGAAACCTCTTTGTGGCACTTTGGGCAAGAAAAGAAGTTTTGCTGTAGTTAACATTGTGATGAAATGGACTATTAATCTGAAGAGTTGCACCTGG
Celera SNP ID:            hCV29303072
SNP Position Genomic:     31161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37789):
AACAGGAATCAGGAAATAAAGGACAGCGATGAAAAGCTGAAAACTGTGAGGGTCTCACACAGCAATATATGAAAGCACCTGTGAACTATAATGCATTTAT
W
TATAATACATTGATTTATTGTATTAATAGTAAAATACAATTATTTAGTGTATTAAGAATGTGATATGACTAGGATGTTATTTATCTTGAGTTCATTAAAT
Celera SNP ID:            hCV26985421
SNP Position Genomic:     256079
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,4)   total(A,2|-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37790):
CTGCCTGAAGATATTATTTAGTTTTTAGGACTTGAAGAGTGCTACTGGTTTGACATCTGCTAGGTAAAGTTCAGGAGTGTTGGTAAACATCCTACAGTTC
R
GAGGACAACTCCCTATAAGAAAGAATTATCTGACTCAAAATGTCAGTAATGCTAAGGTTGAGATATATCTTAGATTATTGTGCATTTATTTTAATCCATA
Celera SNP ID:            hCV29303073
SNP Position Genomic:     31622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37791):
AGCAATTAATACAATAAGGACTTTTCTAAGTCTACATAATAATTTTAAAATCTTTTTTTAAATGTAAAATGCTTAAAGATGCCAAGATGTAATTTTAAAA
Y
CTTTTTCTTTTTTCTTATTTGATGGGGGTGTGTATGTGTGTGTGTGTAAATGTAGAGAAATGAATTACTTGCCCAATTGGAAGGGACCTTCAAAAGATCC
Celera SNP ID:            hCV26985422
SNP Position Genomic:     242089
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1|-,2)   total(C,1|-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37792):
CTTTCTTTAGAACAACAAAGAATGGTGCTTGAAAAGTCTTCTCATGATTCTTCTGCTTCAACAGCTTGCCTTTCTCCTTGTCACCAGAGTAAGCCATTCC
K
TCCAGATCGCATCTTCTGCCAGAAGCCACAAGTTTGGCTTCTTGAAATCTCAGAAGTACTCATTCCTCAAGTAATTAATTAAAACAAATAAATAAAATGT
Celera SNP ID:            hCV29303074
SNP Position Genomic:     114971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37793):
AGCCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAACGTCCCGAGTAGCTGGGATTACAGGCTCATGCCACCACGCCTGCCTAATTTTTGTATTTT
G
TTTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGCTCTCAAACTCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTA
Celera SNP ID:            hCV26985423
SNP Position Genomic:     286125
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,3)   total(G,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37794):
AGTAACCAAACAAAACTAGCATTGACAGTGAAGGCAGAACGCCATTCAGGTTCTGAAATGAAACCATAGGAGAAATTGTCTTCATTGACTTGACCTTAAC
Y
AACTTGCTAGCGTTAACCAGTGCTCTGGAGTCTTTCTGTTAAAAATACCAACTGATGTTCATCAATTGTGGTGGTTACCTGGCCAGTTTATGCCACTTTT
Celera SNP ID:            hCV29303075
SNP Position Genomic:     117959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37795):
GCCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAACGTCCCGAGTAGCTGGGATTACAGGCTCATGCCACCACGCCTGCCTAATTTTTGTATTTTG
T
TTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGCTCTCAAACTCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTAC
Celera SNP ID:            hCV26985424
SNP Position Genomic:     286126
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37796):
AAAACTAGCATTGACAGTGAAGGCAGAACGCCATTCAGGTTCTGAAATGAAACCATAGGAGAAATTGTCTTCATTGACTTGACCTTAACTAACTTGCTAG
M
GTTAACCAGTGCTCTGGAGTCTTTCTGTTAAAAATACCAACTGATGTTCATCAATTGTGGTGGTTACCTGGCCAGTTTATGCCACTTTTCCTTAGTGTTG
Celera SNP ID:            hCV29303076
SNP Position Genomic:     117970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37797):
GTGGAGTGGAGTGAGAATGTTTTAAGTCATGGACATTTTGGGTATTCCATTCATCTTTAATAGCTGTATGTGTTTAAGAGGAGATAATGCTTATGCCAGA
Y
AGAGAAAGTAACCTAGTTACCTCTTGAGGTATTGTGGCATTGGTATAATTATATATTATATTTATATTTACATATATATGTAAATATAATTTTTTTCTTT
Celera SNP ID:            hCV26985425
SNP Position Genomic:     285243
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37798):
AAATTAATTCCAGCTACTTGGGAGGCTGAGGTGGGGGAATTGCTTGAACCCAGGAGGCAGAAGTTGTAGCGAGCCAAGATTGCGCCACTGCACTCCAGCC
Y
GGGCAACAGAGAGAGACTCAGGCTTAAGAAAAAATAAAAAATAAAATAAAAAAAGTGGTCAGTTTCTACAAGGCAATATTCAATTGCATTCCAATGGATA
Celera SNP ID:            hCV497077
SNP Position Genomic:     124633
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37799):
TGCACTGGTCAATTTTGATCAGGAGACAAAAAGTGACGTATAAAAATTGGACTAAAATATAATCATAGAACTCTATGATAAAAGTTATTTGCAAGCATTT
G
GGGGGAAGAAGATATTGAGATAGTGGAAGTCAGATGTTAGGAAGATCCTTGAAATACTGTTTTTTTATAGATTTATTTATTATCATAGAAGGTAGTTTAA
Celera SNP ID:            hCV26985426
SNP Position Genomic:     287840
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,2)   total(G,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37800):
GAAACCATAGGAGAAATTGTCTTCATTGACTTGACCTTAACTAACTTGCTAGCGTTAACCAGTGCTCTGGAGTCTTTCTGTTAAAAATACCAACTGATGT
Y
CATCAATTGTGGTGGTTACCTGGCCAGTTTATGCCACTTTTCCTTAGTGTTGTAATTGCAGAATTTAATTAAAAATTATATAAACCACTGAAATATAAGC
Celera SNP ID:            hCV29303077
SNP Position Genomic:     118018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37801):
GTGGTGGTTACCTGGCCAGTTTATGCCACTTTTCCTTAGTGTTGTAATTGCAGAATTTAATTAAAAATTATATAAACCACTGAAATATAAGCCAAAAATA
W
TGTTGTTGTTTCTATGAAAACTTGATTGAATGCTTTCTTTGAAAGACTTGATGAAGGCAAAGTAGATACAGCATATATGTTAACTGAGGTGTAGATGAAA
Celera SNP ID:            hCV29303078
SNP Position Genomic:     118127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37802):
CAACGCCTGGGGTTTAGATGGAAAGGCCTTGCCCAAAGAGCAAAAAGATATGACAACAAAATTATAACCCTTGGCAAATTCCATCAAATTGATTTGAATC
Y
GTGGGCTGAAAATGTCAGTGCTTATTAAAGTATACATTGAAAATTATTAAGAATATGATTGCTGAATGTCCCATATTCTTTTGTGTCATTAACAATAAAG
Celera SNP ID:            hCV29303079
SNP Position Genomic:     113866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37803):
TAAATTACTCAGTCTTGGGAGTTCTTTATAGCAGTGTGAAAATGGACTAATACAGTAAGTTGGTACCAGAAGTGGGGTGCTGATATAAAGATACCCAAAA
W
TGTGGAAGCAACTTTGGAACACAGTAACAGGCAGAGATTGGAACAGTTTGGAGGGCTCAGAAGAAGACAGGAAAATGACAGAAAGTTTGGAACTTCCTGG
Celera SNP ID:            hCV26383498
SNP Position Genomic:     297420
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,2)      total(A,1|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37804):
TCTTTTCTGTTTCTCTTTCTATTGATCATGGGGCTAGGAAAATTGCTACAAATTATATTTTGCTATTTATTTTTTGTGACATCAAGAGCAATAATGTGTG
Y
TAAGTCAGAGGAATAAATGTACAGCCTAGTATTAAAGTAATGCTCCTTTACCCCCTCTGCACACTCGCATGTTGCTTTCCTAACAAACACGCAAATATGC
Celera SNP ID:            hCV12100162
SNP Position Genomic:     217509
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37805):
CAAAATGGAAATTGCCTTATTTTTGTTTTCCTGATCAAAACAGTGACCTACATTTCTGATATTTTGGGGGGCGCTGGGAGACGGGGTCTCATGATGTTGG
Y
CAGGTCGGTCTCAAACTCCTGGCCTCAAGTGATCCTCCCGCCTCAGCCTCTTGAAGTACTAGGATTACAGGCATGAGCCACTGTGCCCAGCCTGATTTTT
Celera SNP ID:            hCV25761294
SNP Position Genomic:     270818
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,5)   caucasian(C,11|T,1)   total(C,30|T,6)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37806):
TAGCAATCATGAGGCTGAGGTGCAACTTAGACTCCAGTCCCCTATAAAATATACCTTATAGAGTTTAGAGATTTGATGCAATTCAAAGCAAATTTACTAT
R
TTGAACATCAGCAATGTCCCAAAGAAGACCATAAAATTCTGTGGTGGTTAAAATCTGTTGTTTAAACATTAGAAGTATAATATTAAACATTTCTTTCTGT
Celera SNP ID:            hCV497081
SNP Position Genomic:     127647
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37807):
CCTATTAAAAAATATCACAGCAAAAACAAACACTATGTGCCAGCAAATTTATGCCCCTAATTATCCTGAGAATTATCATGCAGTTTGCAAGGAAGAAGGG
R
CTCTAGCTTTCCAGTTGCTGATCGGCAATAATGAACCCCTGCTCTGTTGTTAAATACTTTTTTTTTGGTAGAGTCATAAAGAACAGCACTTCTAGCAAAG
Celera SNP ID:            hCV29303080
SNP Position Genomic:     114456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37808):
GTTCTGACTCTGAAGAGAGCTCTGAAAAAGACAAGCTTGCTATTCCAAAGGTAGGTAGTAATGACATACCCCTTAAAGGGTTAAACTATTTTTTTTAATT
S
TCTTCTAGGTCTCCTTCCTGTCACCTCAACTCCATCTGCAGATTCATATCAGTGACTCAGGCAAAATGTGTTGATCGTGGTGACAGAAGTAATAAATATT
Celera SNP ID:            hCV29303081
SNP Position Genomic:     250671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37809):
TTTTAGCCTAAGCAAACAGAAGCCTTAAGTTCAAATTTAATAGCAATTCTTGATATTTAACAGACAAAGACCAGCCCACATTTATCAGCTTTCTGAGTTC
S
TACTTATTTCAGAGATTCTTAGTTATTCCTATCATTTTTTAAAACTCTTTCTCATATCAGAGAAGTGCTCACATCCAGTTAAGTTCTCTTTGCTTCCTGT
Celera SNP ID:            hCV29303082
SNP Position Genomic:     238596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37810):
AATCCTTTGCTTACTCTTTTCATGTATGTACCCAATTGTGGAAAAATTTGTAGGATTGCTTTTTGTGTCAGTACTATTACTTCTCCTTGGCATTTTCACT
R
TTTTCTGGACAGTGCTTATTCCAGAATCAGGTTGTTAAATAATAGTTTTTAATCATGACTCCAGTATTTCAGTGTAACAATTCTCAGTATACTTTAAGTG
Celera SNP ID:            hCV29303083
SNP Position Genomic:     237306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37811):
AAGTCCCTAGCTGAAAAAGAATTAAAAAACACTCCCATTTACAATAGCATAAAAAATACTTAGGGATAAATTTAACCAAGGAGGTAAAAGATTTGTACAT
Y
GAAAATTATAAAACACTGATGAAAAGAATTGAACACAGAAATATATAGAAAAATATTCCATTACTCAATCAGAAGTATTGTTAAAATATTTATACTACCC
Celera SNP ID:            hCV29303084
SNP Position Genomic:     245980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37812):
ACGGTTGAAGGCATTACACTTTCTGATTTACAACTATATTACAAATCTATAGTAATCAAAATAGCATGCTACTGGCATAACAACAGAAACCTACACCAAT
R
GAACAGGATAGAGAGCCCAGAAGTAAATTCAAGCATACATGTTCAAATAATTTTACACAAGGGTGCTAGGAGGACACAGGTGGAAAGGGGAGTCTCTTTG
Celera SNP ID:            hCV29303085
SNP Position Genomic:     246315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37813):
AAGCTGAGATGCTGTCTCTATAGATTCTACTCTGTGCTACAGAGGAATAACACATTCTGTCATTGTGGTTTTTGTTTGATTTAATTTGTTTTCATCTCTA
Y
GGTATATTTGTATAAATTATCTGGCAGCAGTACAGATCAAAAACTTGAAGCAGAATTTTATACCTCAAAAGTAAATGCCCAAATATTAAGTTATGACAAT
Celera SNP ID:            hCV29303086
SNP Position Genomic:     286517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37814):
TTATTATCATAGAAGGTAGTTTAAATGTATATGGAGTAGCTTGTATGTATATGGTAGTTTAAATGTATATGCATATCACATTAATTTCACTTACTTTCCT
W
AAAAATTTATTTATTATCATAGAAGGTAGTTTAAATGTACATGGAATAGTTTATATGTATATGTATATGGTAGTTCGAATGTATCTGTATATTAGATTAA
Celera SNP ID:            hCV29303087
SNP Position Genomic:     288017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37815):
TTTATATGTATATGTATATGGTAGTTCGAATGTATCTGTATATTAGATTAACTTCACTTTTGTAAAAAAATTAATAAGAGCATTATGTGAAAAAGCTAAA
M
AGAAATAGACATTTCATTTGACATGATAACTAAGAGTTAACAGACTACTCAGAAAGCTACCACAATTACATAAGCTGGGGGTGATCCTCCTGACATTACC
Celera SNP ID:            hCV29303088
SNP Position Genomic:     288167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37816):
TGAAATATTCTTGCAAGAGGCAATATTTGACTCAGTATTTTCATTGGTCATTTAGATTTTACTTTTGACTTTAATTACTGGTATTCTAGCCTTCAATGGT
W
GACTGTTTCATGTTTCTCCAGAAAGTTAGGTTTCATTTTTATTTTCTATAGTTTATGAGTCCATGCTTGTAACTTATAGGGAAATCATAAAAACAGAACA
Celera SNP ID:            hCV9578331
SNP Position Genomic:     30980
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37817):
AACAAGTATTATAAATGAAAAAAACCCTCATAGCTCCCCAATATAAATGGTGAAAAATATAATCGTTAAAACATTCCTCTTCTAATTTATAAGGTTACCC
Y
TTTTTGCTGGTTTATCTCTATTAGTTGGTTTTCCTCTTCAGTCACCTTTCTAAAAGTGGATAAGCTGTAGGACCCATTAACATTTTACTGGCATGATAAA
Celera SNP ID:            hCV9578335
SNP Position Genomic:     32962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37818):
CTGATTAGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTAATGCTCAGTCATGTTGAGCTTTTTTTCATACGCTTGTGGCCACGTGTAC
R
TCTTCTTTTGAAAGTGTTTGTTCATGTTCTTTGCCCACTTTTTAATGGAGTTGTTTGTTCTTTTCTTGTGAGTTTAGGTTCCTTACAGATGCTGGATATT
Celera SNP ID:            hCV26008724
SNP Position Genomic:     92164
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37819):
TTACACTCAGAGTGCCCCAGACCTATCCCCTCAAATCCTGACTCCACCTGTTATATGTAGCAGGTAAGGATTTTTTATGAACTGAAGTTTAATAATAAAA
M
CGATGATAGTTTTCCCCTAGAAATACCTACCACCAGCCCACGCAGCTTGGGGTAGGTTTGCCAAAGTATTAGACAACCAAGTATAGGATAATGTGATTTG
Celera SNP ID:            hCV25600101
SNP Position Genomic:     267076
SNP Source:               Applera
Population(Allele,Count): african american(A,8|C,4)   caucasian(C,8)   total(A,8|C,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37820):
TACACTCAGAGTGCCCCAGACCTATCCCCTCAAATCCTGACTCCACCTGTTATATGTAGCAGGTAAGGATTTTTTATGAACTGAAGTTTAATAATAAAAC
Y
GATGATAGTTTTCCCCTAGAAATACCTACCACCAGCCCACGCAGCTTGGGGTAGGTTTGCCAAAGTATTAGACAACCAAGTATAGGATAATGTGATTTGT
Celera SNP ID:            hCV25600102
SNP Position Genomic:     267077
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,1)   caucasian(C,6|T,2)   total(C,11|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:37821):
ACCCTATGATCCTATGTTCTTGGAGTGCTCAGGAAAGCAGTATTTCCCTAAACACTATATTTACCATATGCATCTTAGCAAAATTTGCTTAAATGAGCCC
Y
CTTTCCCCATTGTAGATCTTGTAATAAGTTGTTCTCTTTTAATTGTAGATGACACTGCTCAAGTTACCTCTGATTATGAAACCAATAACAACAGTGACAG
Celera SNP ID:            hCV25600103
SNP Position Genomic:     271764
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:37822):
TGTACCACATTTTCTTTATCTAGTCTATCGTTGATGGGCATTTGAGTTGATTCCATGTCTTTGCTATTGTGAATAGTACTGCTGTGAACATAAACATGCA
Y
GTATTTTTATAATAGAATGACTCACATTCCTTTGGGTGTATTCCCAGTAATGGGATTGCTGAGTAAAATGGTATTACTGGTTCTAGGTCTTTGAGGAATC
Celera SNP ID:            hCV12106206
SNP Position Genomic:     21737
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37823):
GTCGCCCCACCCGACAGACTCCAGCATGTTGTTCCCCTCCCCATGTCCATGTGTTATCATTGTTCAGCTCCCACTTATAAGTGAAAACATGTGGTGTTTG
S
TTTTCTGTTTCTGCATTAGTTTGCTAAGAATAATGGCTTCCAGCTCCATCCGTGTCCCTGCAAAGGAGACGACCTCATTCCTCTTTATGGCTGCATAGTA
Celera SNP ID:            hCV12106207
SNP Position Genomic:     21522
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37824):
TATGTAAACTGGTAACTATACCTATGTTGTTAAAGGAAAATTTACCCTAATGTTAAATAATATAAAATCCCAAGTCTCATAGATTGGTGGGCATTGTGGA
R
CTTGCAGATTAAAATATACCGCCCACCCCCCCAACTGAAGGAAATGTAGGAACTCTGTATAGTCAGCCTTCTGTATCCCTGGATTCTACATCCATGGATT
Celera SNP ID:            hCV272681
SNP Position Genomic:     135254
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Gene Number:                 164
Celera Gene:                 hCG22866 - 79000076181130
Gene Symbol:                 KCNQ4
Protein Name:                potassium voltage-gated channel, KQT-like subfamily, member 4;DFNA2;KV7.4;Kv7.4
Celera Genomic Axis:         GA_x5YUV32W802(42290597..42359042)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12324):
CAATTCCCCATTCTTGCTTTTGGTGCTTGAATATGTACTTTTTTTTTCTTTTAATTATCAGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTG
GGAAGCCAAGGCTGGTAGATCACTTTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACAAAAAATAAAAATATTAGCCA
GGCATGGTGGTACACACCTGTATTCTCAGCTACTCGAGAGGCTGAGGCAGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCGGTAAGCCAAGATCACAC
CACTGCATTCCAGCCTGGGTGACAGAGCAAGAACTGGTCTCAAAAAAAAAATTTTTTTTTAATTTAAAAAATTATTTAGCACTTATCTTGCTTTGCACAT
CTAATATTTCAAAGAGGAGGAATTTAATAAGCGTTTAATCAAGCTTGACCTGGAAATCCTGGTCTCTGAGCCTTCCATCCCTGTCACCCAGTCTCTAGCC
TCTCTTTGGAGCCCCCATTCTCCTCCCTGAATCCCATCTCCCTTACCAGGTTGTCATCCTCTTTCTGAACCCCATTTCCTGCTACTCAACCTTCTGTCCC
TCCTACTCACGTCATCTCCCTCCCTGAGCCCTCATTCAAGTTTCTCCCACCAGGCGAGCATGGAAGTTCTTTTCCACTGCACACTCAGCAACTCAGAAAA
GTCCTTCCTTTTCATTTTTCAGCCAACTCTATTGTCCCAGTGGTTCTCACCGAGAACATGGAGTTAACCAGCAGGACCACAGCACTGTTGCCTTCTGCAT
GGTCTTCCAGAGGTAGAGGTTAGAGGAAGGATCTTACAGGAAGAATCCTGAAGGCAGAGGAGGAGCCCTGCAAGAAGGGAGGGCTTTGACCTTCATTTCC
ACGCCCCTTTCTCCCTCTGTGTCTCCTCTGTGTGGGCCCCCTCCAGCCCTGAGGATCAATGGGGGTTCACTTTCACTGAGCTCAGCAACACTGCTCCCTC
CCCACTTCCTGTGGCTCTGAGCTGACTGGCCTGCTTGGTCTAGGCTGGGGGCTGGTCAGTGCCACACCCAGATCTGGGGAAAAGAAATTCCTTGGCCGGC
GAGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGACGGGCGGATCAGGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCC
CGTCTCTACTAAAAATACAAAAAAATTAGCCAGGCATGGTGGCGGGCGCCTGTAGTGCCAGCTACTTGGGAGGCTGAGGCAAGAGAATGGTGTGAACCCG
GGAGGCAGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGACTGGGCAACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAGAAAAGAAAA
AGAAATTCCTTGGGCCCCTCCAGCACCTCTCGTCTGGTGGGTGGCCTAAGTCTCTTGTCCTTTCTGGGCTGCACAGGGAAAAGGAAGAAGGCCTTATCTT
TCTCTCATGCTTCCTCCTGCTCTCAGTAGAGGTGGGTTCCCAAAGGTCAATAATGTGATGCCATCACCCCCTGAGCACTCTCCACTCCAATCCCCTCCTA
GGAAGGCTTCCTAGATTGAGAAGAACTGCTAGGACCAGGGAATTCCCAGAGCATCTCCCTGCTCCACCTGAAACATGTACCTGAAGAGCAGTCAGACGAA
TGGGTCACGTGCGTACAGCCCCCTGCATGGTCTCTAACTTTTTCATGCATTATTGCATTCAGTGCTGATAGCCAGGGAAAGTGGGGAAGAGGTGGAGTGA
CTTGCCCAAGGTCCCCAAGTATTCCACAGGTGGAGCTAGGACTGGAAGCCCAGCCATGACTTGTAGTTTAGGGCTCTTTCTGCCCCTGGCACTGCCAGCC
TCTCTGGATGCTGGTGCCTCCCACTTCACCCATCCTGGGTTCTCTCCTAGGGAGCCACAGCCTCTGCAGCATGCCCAGCCTCAGGGCCTGGCCAGGCTCC
CTGTTTCTTATCAGGCCAAATTGGACCCTCCATCCTGGCATTCAAGTCCTCCTGCGTGCCCCTGGCTAAGCTTGCTCTTCCGAATGCTCTGTAACATTCT
TCCCACACCAGTACACACACACACACACACACACACACACACACACACACACACATTAAAGCAGCACCTGAGTGAATTAAAAGCCATACAAGGCAAGTCT
CTTCACTGAGCCTCAGTCTTCTTGAGTGTAACATGGGACCGTGAACAGTATTACCGCACAAGGTTGTGGGGATGCTGAAATAGACAATGCAGGTAAAACA
TCCTGCATAAGGCTTAGGATTGACTGCAGGCCTCATTAATGGTAGCTGCAGGCATTATTGGTTGTACTTCTCTGCGTCTCTCCCAGTCCTCCCCACTCCT
GTCCCCAAGAAAGCTCCCTCTGCCATTGCCTGTGGAGACTTCTCCCTCCTCTGAGCTCTAGCAACCCTTGGAGCTGTAAGAAAGCCCAGGGTCAGGTGGC
TAGCAGGCAGAGAGATTTTAGGAGGCAAGTGAGTGGAACCCAGACCTCCTCGCCTCGATTCAACTAGCGCACTTCTGCTCCAAAGCTTTGTACACATTGG
GGTGCTACCTTACAATTCTGTCTGTAAAAAGGATTCCATTGCTGATAAAGTCTAAAAATCACTGACTTAAACCACCCCACCTCTCACTCCAGGAAAGGAA
CCTGAGCCCTTGATTGACCTGGGGTCACAGTGGGAATCACTGACAGGCTTGAGCCTAGCCTGAGAGACCATAGTCCTAGCCACTTCCTGCCCTCCATCCT
TTCAGACCTGGAAGTTTGATCCCTTGGCACGAGTAAGTTCTAGAGAACAAGGATTGGCCGTGTATGGTTATCCTCAGCTCCCAGCACCCAGTGCCCAGCC
GGCAGGTGCCAGTCAGTGGAAAGCACAGGTCACAGTTCTGGGGGTCACCAATAGGCTGTGTAGACTTAGGTGAGTCCCTGTGCCTCTCAGAGCCTCAGCT
GTCTCAAGCAAGCTGCTGCTCTCTGGCCCAAAAGGGACTGGGCCTGGCACACAGATGGCACTCAGCAAATGGAAGCACTCGCCCTCCCACCCTTCCTCTC
ARTCAATACTTGCTCCATTGATGGCTGATGGGGACAGTGATGAATTACAGAAGATCTTGGAGCCCTGCCCACTTCTTGCACAGATGGGGAAACAAGTCCA
GGGTGGGGAAGAGACTTGCCCAGGTGGGAGTGAGTCTTAGTGAATGCGTCTCCTCAGTGGGGCAGGGAAGCTTTCGCAGTGTTACCAGGGTGGAGACAGG
GCYTGGGGGTGGAAAGGAAACTGCTGAGGGTGGGGTCAGGGGAACAGGTGGGAGAGGGAAGGAGGAGGGTAGGGAACCACGGTGTCCAGTCCCCTCCAGC
AGAGGGGCCAATTGAGGGAGCCTGAGACAGCTGTTTGCTCAGAAAAGTGTCTTAGTCACTAAAGGTTGTGGTGGGGAAAGTCCGTCCTCCCAGTCATGTC
CTGGGAATCCGGATGGCGCAGGAAGGCCACCCGGTGACCCTAAGAGTGGCCACCTGTCCTCTCTGAACTGGACTTTCTCTTCTGGCCCTTCCACTCTTCC
ATGTGTACACATATGCCAAGTAAATTTGCTGTGGCCTCCTGGAACCATCTCCCCCATCCCTCTCACCCCTTAGGAAGAGTTCTGTGTCCCTCCATTACCC
ATACGCCCGCAGGAGAAACAGGCTTCTATGCCCTATGAAAGTCCTTCCTGAGATCTAACTTCCATCCCTCTAGCTGCAACCACAGTCTCTTTCCTCTTTC
TGCTGCCTTTGAGCAGGTAATCTGGAGCTGGAGTTGGGAATGATGAGACACTCCCTGCAGTGAGGGCTCCTCACAAGGTGGGGAAGGGACCTTTGTAGTC
CCCCAGCTGGGAAGAGAGCCATGGGATCCAGAGGTGATGCTGAGCTTGAAGATTAGATTTCCCAGAACAGACCCAGTTTCAGATATTCTGGGTGTTAAGG
GCAACCTGAATTCAAATTCCATTTCTGCTACAGAACAAGAGCCTCAAAAAGACCCCCTAGAAACACCCCCAGGGCGCTTGCAACTGCTTTCCTGTGCACC
TTTCATGTCCTAGACCTTAGTCCCATTTCCCAGGATCTATGATTGAGAAGAACCAGCCAGGCAGTTCCACAGAGGGAGGACAGTGCTGCATATTTTGGGG
GTGCCATCTTCAGCTCATAGAGAGAAGATGGGTTAACTCAGCCCAGGCACCACATCCCTAGTGGGGCCTTGGGGTCCAGAAACTGTCCCCAGCTTCCAGT
AGAGGATCCGGGCATAACCTGCCCTGGGGCACCCGGCTCTGGCCCTGGGCACACCTGGACCAGGAGCAGCAGAAGAGATTCAGGTCAGACCCCAGAGGGC
ACCCCCAGCTAGGCAGAGGGGAAAGGATCACTATGGGGTAGGGGTGTGGGCCGGTTGCCAAGCCCAGTTTAGGGACCCCACAGATCCCTGCAGCCCACGG
CCCTGCCTCCCTCCCTCCCTCACTGGCGCTCAGCAGATCAATGCTGCCTTTGCTGACAGCTGAGAATCGAGCTCGCCTTCCCGCCCCTTCCCCCGCCCCT
CCCGCTCGGCTTCGTCCCTCGAGATCCTCCCGGAGGAACCGGGAAGAGTTTGCTGCGGAAGGCTCACCCTGGGGCAGGGCCTGCGGAGGGAGCGGCTGGT
GTGGCCGCAGCTTTCCGTGGAGGAAGAGGGAAAGAGGATCGGGAAACCCAAGTTACCAACCCTGTGCAGGGCCCAGGAGGGCTAAAGGAGAGGGACTGCC
CCCTATAGCCAGAGAGATGGAGGTCGGGGACTAAGAAAAACTTTCCAGCTGGAGAGGGAATGCCCTGGGACAAAGTATCCCCTTTTCTGGCTGGGATTCT
GTGGGCCTTGGGTAGGGGGTGTGTGTCCCCTCTAAGGCTGGCTTAGAGCTCATCTCCCAACACTCCATCTGCCCAAACCCAGTTCCCTGACCTGGGAGTG
GGGCAGGGGAGCAGGCCCCTCCATCGGGGAGGATCCTCTTCTGGGCAGGGTGGCTCTTCCCCCATCACGATGAAGGGAAGCTCAGAGGTGGCAGTTGGTG
GGAGAAAGACACACCCAGGCCCACTGTGTTCCACACACCCTGATGCTGCCTAGCAGCCCGTGGGCTCCAGGCCTTTCAGGTAAGAGCAGGACAACCGCCG
CTGCCCACCCAGCCACACACAGCACTGGGCACACTTTAAGCACCCGCACCAGGCACACAGTGCTCGACCCCARCGGACACACCTCATCCCCTTCGGACTC
CACCTCCACTTTCGCAGCCACCCACACCCGACCCATAACTCACACCTCACTGACTCCATCCCCGCACCTGGTAGACCCACAGCCACCCACCCTGCACACA
CAAGTAGACGCCGTTCCACCGGTCTACACCTAAACTCCACGGGACACTGCGTCCCTTCCCCTGCCGCCCGCGGCCACAACTCCACATTCCACTTTCCACA
AGCACACACGAGGCGTCCCACCCCGGGCTGGCCTTCGGGGCCACACTGCCCCACGCAGCKGTGGACACCACTTGCACGCGTCCGGCTTCCCGGCCCCGCG
CGCTGCCCCCGCCACGCGGTTCGGCCCAGGCACCAACTCGGCCGCCCGTGCGCCCTGCCCCGCCGCCTGCTCCGCGCGTTCCCTCCCTCCGCCTCGCCTC
GCTTGCTCGCTCGCTCCCTCCCGATTTGGGAAGGCGGCCGCGGGGCGGGCGGGGGAGGGGCGGGGCGGGGGAGKGTGACATGTGAGCGGCGCGCGCCGGT
GGCAGGTGGAAAGGCGAGCGGCATGGAGCGCGTAATAAGAGAGTTGGAGTCGGAAAGAGCAGCCCCAGTCGCCGGGGAAGCGGGAGGTCAGTGCGGGCTC
CGGCGGCCCCCAGGCTCCGAGCGCCCGCCCGCGGCCCCGGCCCGGCCCCTAGCCCCCGCCGCCCGCGCCCGCCCCGGGTCGCCCCTCTGGCCCCGGGTCC
GAGCCATGCGTCTCTGAGCGCCCCGAGCGCGCCCCCGCCCCGGACCGTGCCCGGGCCCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGCCCTTCCGCGTTTCCCCGCGCAAGCCTGG
CCTCCCGGGGCACGGCCGCCCCGCCCTGGCTCCGCCTTCTACCCCCCTGCCTCAGGGCCGACCCTCATCTCTCTCCCCCCAGGCCTAAGCCCGGTTTCTG
ATCCCCTCGCTGAGCCCGACCCTAAGCCCTGATCTCCCAGGCCTGACCCCTGCTTGACCTCGCTTCTGACCTCCCCGCACCGCAACTGCTTATTTCCATC
CTGACCGCCAATCTCTGCTCCTCTGTCCCAGGTACTCCCGACCGCCAGCTGCCTCCCCCAAGTCCGCTTGGCGAAGTCTGGGGCCCCTGGAGTGGGCGCC
CTTTTCCTCTTCCCCACCCCTGCCTCCCTGTGTCCCAGACACAAAGAGGAACCCTTGGCTCCCACACGCTTCTGTCACCTGCTCCCCAGCTCTGAGCTAT
GAAGGGCTCCCCTCAGGGGTGCTCCTCTCCAGGGCGGCCCTCATTCCTACCCCTGCCCAGCTGACTGTGGGTGTGTGGGGGTCCCTGTGGGCCCCCTGGG
CCCTGACACTCGCATATGCTGTGTCCSACTTGATCTGTGTCTTCGCTCAGTCTTCCCCTCCACCCTCAACTTCCCAGTGGCAACGGCGGCCGCCCTGCCT
GCCCTGCCCTACCCTGCCGGCTTGGCCCAGCTCGCCTGCCTTGTTGGCTGGCAGCACCAGGCCTGGCTCTAGGCACCAGGGGAAAAAGAAAGAGGAGAGG
GGTAGGTTTGGAAACACTGACGCTGCTGGGGCCCCCTCCTCCCTCTCACCAGGCTCCTACAACTTTCAAAAACACTGACCCCTCTTGGGTGTGAAGAGTG
AATTTTGGCAGCTCAGAGCTCAGTCTTGGGGTACGGCCTGGCCCAGCCAGGAACATGAGAGGCCCCGCAGATATCAGTTGAAGGGCTGGGCCTGACGCTG
GGACGCTCAGAGGTGCCCAGAGAGAGACCTCTGGTCCCTGGAAAATGTGTGGCTATTAATCCCTTTTTGCTGCCACCAGAGAGGGCCCTTTGGCGCTGGG
GTCTCCTGGGTGGCCCACCTGCCTGCCCACCTGACTGTCTAGCAGCCCTCCTGCTGGCCTGGCTGTCCCTCTGCCAGCCTGAGTTTCCACCTGTGTGCGA
GTTGGCCAGTCTGCTCACCCTTCCACCTAACTGTCCGCAGTCCTTCTGCTTGCCTGTTTCCATCCATCTGTGGCCTGTGCAGTTATCCGGGTGCCTGTCT
GTGCATCTGCCTATCCACCTGTCCACCTGACTGTCCACTCTTCCTCTACCTGTCTTTTCCACCTGTCTCTGGGTCTGTCCTTCGGCCTGTTTCTCGGGTG
CTTGCTGGCCTGCCTCTGCCCCATCTGAACTGGGCCCACATAATTTCAGAGGTGAAGGGGAGAAAGATGCGGCACAGGGAGGGGCAGGGGGGGAAGACAG
CAGGGCTCTCTCGGCCATTAAGTGCGTTGGGGGTGGCAACCTTGACTCTGTGCAGAGACCTCAGCTGGGCTAGGCTGGGGCAGAGAGTTGAAATTGCTCA
GGACATGAGGTCAAGCTTCGGTTCAGGGTCAACGGTTTGTAGTAGCCCAGTCCTTAGTGTCCATTGGGAGGCCTAGGATGAATATTTGTGGCTATAAAGA
GGCCCGTTGGAGTGAGGAAGGCCCAGGGCTGGTGGAGTTGGGGGTGAGGGGATGGGGACTACTTCTTAGGAGTGGCTACAGAGCAGCCTCCTTGAGTGCC
TAAGGAGGGTGAGACACCCCCCAGAGAACAACTGTGCCCTCCGTGGGCTCCTCTTGGGAAGGGACTTTTCCAAGGCATGGCAGGGCCTGGGGAAGCCAAT
AGGGCTCTGAGGTGGGGTCCTTACCCCCCCAGGCTTGGCCTTACAGCCCCCACAAGGGTCAGTGGAGGTGAAGGACCTGCCTCCTGTCCCCTGGCCAGCT
GCTGTTGGTGCCTCCTTTGAAAGGACCGCCCCTTCCTCTCCAGGAGCTAATCCACTGGCACCTTTGCCCCACATCCTGCCCTTTCCTGATGCCAGGAAAT
GCCCTCGCCAGGGCCGTGCTTGTCCTGACCACTTGTCCCCGGGAGCCCAGGGCCAGGGCATGTCTTGGGAACTCTGGGGGARGAAGTATGGTGTGAAAGT
GTCCTGGTGTTTAAGGATCTCAGGGAATTGGTCACCCATCTTAGAGGTCAAAGGGGACAGAGGTGTCAGGAACCCCACCTCTTATGTGCTCTGTGACGTT
GGGTTGATTGCTGGGCCTCTCTGAGCTTTAGGTCTGTAGGTTGTCAAAGCGGGTAGAAACCCCAACCTTGCGGCCTCTCTCTTGGATGAGGTAATAGAGT
GGGAAAGAGCTTGGTAAGCTCCAGGGGCCTGTCTGAGCTTGAAAGACGGTTGTTATTATTGGGGCTGGAGGAGGGGGCCCACACAGAAGGTCTCTCCTGT
TTGTGAGGAGCTCCAGATGTGGGGTTTCTCAGTCACACTGCAGGGTCTTGCCAGGAAGTACTTCCTGCTGTTGGACTCCTAGCCAGACCATTACACTTTG
GGTCAAATCCTTTCTCCTCTTCCCAATCTGCCTCAGTGGCAGCCCAAGTGAGGGGAGTCCAGGGAGTACTGTTAGCTAGGACCCCCTTCCCAGAGACGCA
GGCTGTGGCAGGAGGGGCCCCAGCAGAAGAGCCTGCAAGAGAAGGGCTCTGGGCSGGGCGCAGTGGCTCTCACCTGTAATCCCAGCACTGTGAGAGGCTG
AGGTGGGAGGATCGCTTGAGCCTAGGCAACATGGTGAGACCCCTGACTCTACAAAATTTAAAAATTAGCCGGGCATGGTGGTGCACACCTGTAGACACAA
TTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAACCCAGGAATTCTAGGCTATTGTGAACTGTGATTGCACCACTGCATTCCAGCCTGAGTGACAGGAT
GAGACCCTATCAATTAAAAAAGAGAGAGAAAGAGAAGGGCTCAGGAAGGAGGGAGCTGGGGTGAGAGGAGCGCATTCGCCCTAGGGTATGCCTCCCTCCC
ATCTGCCAGCCCGTCCCCTCTGAGCCCCACACAGAACCTGCATCTTTCTGGCTCCAARAGGTGGGAGATTGCCTAGAGTACAAGCCCAGATTTGGCCTGT
CCTGCGGCAGCTGCAAGCTCTGGGAAGAGAGGACTGCTGACTCCTGTCTTCTCCTGTTGGGATCCAGAATGAGGGGCCACTGAGCCCCTCTCCAAGCTTT
CCCTCTCTCTGTRGACCCTCAGTCTGATCACCAAGCTGCATCCCCCTCCTATGCCCCAGTCCCTGATTTAAGCCCTGAAGCCTTCACAGGCCCTGCTCTC
TGAATTTTAAGAAATACCACCTCGTGGCCCATCCTGCTCGCTGAGCCCTTATGGGGAATGCTCGCTGTCCCCTTGCTGCCCCCTCTCAAAGGCCACTCCA
GCTTCCCTTGAAGTCAGAGTGCTGGAGGGGGCTGAGCAAGACCCTATCTCCCTTCATCCTCCCCAGCCACTATGAGCCGCAGGCCTGCCGCTCCCAGCCC
CCAGGGCCCAGCAGACTTTCTCTATGTGAAGGTTTGCGGCTCTGTAAACATCCTCCCTCAGCCTTGTCCGTGGGGTCAGAAGCTGTGGGAATGGGGAGGG
GAGGAGGTGGCAGCAGCTTCTGGGGCCCGCAGACTCCTAACCCCCGAGCCCCCGACCTCCCACCCCGGCCATCTGAGAAAGAACATCGCCTGGGTTGGAA
ATCATCCCAGCAAAGTGTCCTCAGAACCCTCAGGCATCCCCGCTAGGTCAGTCGGTCCTCACATTTTGACAGCCCCATTTTACTTGTAAGAAAACTGAGG
CTCTGGAGACCAAAGTCACCTGGGAAATGAGTAGCAGATACAGCGGACTCTGTGCAGAGACCTCAGCTGGGCTAGGCCAGGGCAGAGAGTTGAAATTGCT
CCTGCYTCCTTGTCCAGGACTGTTCGCTCCGTTCCTAGTGGCCACCGGGCTTGGCTCTTGGAGTCTGAAATGAAATCTCTGGTTGTGTGTGCAGCACCAA
CTATGCACAGGGCACCCTGCTGAGCTCTCTCTAAACCGGTCTCATTGTGTCCTTCTGCAGCCTTGTGAGGTGGGCACTGTTMTCCTCCTCATTTGACAGA
TGGGGAAACTGGGACTCAGCAGAGGCCACCCAGTTAATGTGGAAGAGCCTCAGCCCGGAGCGGGGGCTGACTGGGAGCTGTTGCGCTCAGCACCACAGCC
TCAGCTAGCAGCACCCCAAGTCCAGGCTCCTCAAGAACAGCACTCCTGTGTCATCTGTCCGTCCATCCCAGCACCCCGCACACAGTCAGCAGGGGGTGGG
CAGTGATGGCATTTTGTGGAATTGAGTGGAAACTGCCAGCCTCACCCAGTGCAGCCACGTTTTAGTTGTAGACCACGTCACTGCTGCGTACCTGTCTGAA
TGTCTCACACATGCACTCACTGCAACATCGACACACATGCACAAACACACACACAGCATCCATCCAACAAAAAGAGTTCTAGTTTACAGCTGCCCCTACC
TTTTCCCTGACTTCACAGACACTCACCATGGACACACACCCGGGCCCGTGGCTCCAGCCCAGACCCCTAGGACAGAACAAAGCTTGCTCCTGTCCTTGAG
TTTTTGGCCTTCACCTATACACAACTGCAGGGCTGCCCTTGCGGGTCTGTGTGTATTTGTGTAGCCACCTTGGAGGGCAGCCTCAGAACTGTGGAGGAGC
GGGGTGGCTGGCCTCGTAGAACTTCGCTGGCGTTTGCTCCTCCTGGGGGGTCCTCGGGGGTCCTTTGATCTGACCTTGGGGTATACTGCTGGGTACACCA
AGACACAGAAAGGGGCAGCTACTCATCCAAGGTCACACCTAGTGAGTTAGTGGAGAACTGTGCCAGGAACCCAAGCRTTTTGTCYCCCAGATCAGGACTT
TAGATAACAATTTTCCTAACCTAGCCAACAGGGGAGATGGATGCTCTAAGAACTTTGCCCTTGTGATTGGGAAAGTCTTTGAGTGTGACCCAMATTTTTC
GTGCTGCTGTTTTTCAGCCCTAGTCCTTTTGCTTGGTCTTTGTAAGGAGCTGGGGAGACCATCCTGTTCTTATACTGCCTTCCTCCTCCTCCTTGCACTC
CCCTTCACGCTCCTTTGCCTCCTTCTTCTGAAGTTCTTTGGTGTCACTGGAGCCGGTTCGATCTCTCACTGACGGCCCACCCCACCCCAACTCCATAGTA
CGTTCATTCTTCCATTGAAGACGCGCTGCTAGATGTCTAACTTCAATCCCTATTGCTGCCGAAGCCCTTATCCTTGGGATATTTAAGCCAGGAGTGTTTC
AAGAGGTGGTTATTATTCTTGGGCTGATGGCAGCACTTTGAGTGGATGATTAATTTCAGGCTCTCTGAGCCAGTCAAAGGAGCTGGAACTGCCTGGGAGC
AGGGAAAAAGGAAGGCCGAGGCCCTGCCCACAAAGGAGGCTGCCCAGGGAACTTCCCCAGACTCCCTCCTACCTCCCTAGCACCAATGTGGGTCTTTGGG
GAAGGTCCGATCTTCTTGTGGGCTATGGAGCCCCCCAGCAGGGAATTCTGCATGTTTGCCCTGGGGGAAGCTCCTAGTGTGGGAGTTGAGAGGTTGAGGA
TGGGGGAATAGCAGGGACTTTTCGTTTCTCCAGAAGCTGTCCTGCGGGGAGTGAAGAGCACGGGCTCTGAGGCTGACAGATCTGCGTTCCTTCCTGGTTC
TAGCCTTAGCAGTCGTGTGTCCTTGGGCAAGTTACTTAACCTCTCTGGGCTTCAGTTTTCTCATCTGAAAAATGGGAGTAATCATAATACCTGCCTCTAA
GATTGTCAGGACTGGATGAGATAAGGCACCGAACACTGCTGGGCACTGTTAGCCATGATCATCGTTACTGTTATTATTATGCTGTTATCACTGTCCTCAT
TCTTCTCCTCCGGGGAGAGGTGTGGTAGGTGTGCTGGGCTCAGCAAGGTGAGTGTGTCTGAGTCTGCTCTGGAGAGAATAGGAGCTATGTCTGCCTGTGT
CCTGGGGCGAGTGGTTCTCCATGGGAGCTGAGGCTGTGTCTTTTCAGCCTCCTGTGGGCCCTGCCCATGAGAGTGTCTGACTTACATTCTCTCGTGTAAC
GCTCACAGCCATCTTATCAGGTGGGTGCTGTCTTCTTCATGTCACAGTTGAGCAAAGTGAGGCTGGGTGAGGGGATGTCACCCAGCTCATGAATGGAGCC
CAGCCTGGCTACCTAGCATGCTCACTGATTTGTTTCTTCCTTCATCTGGCAAACAGTTACAGAGCATCAGCTCCATACCAGGACCAGGGAGCCAGAGAGA
GCTAGACCATGCCTGTACCCTGCCTGGCAGAGTGGGGGATTGGGGGTCACTGTGAGGAGGTCGCAGAGTCTGCCGGGACCACTGGCCTCAGCTGCTTCTT
CTCCCAGGGAGAGGTTTGGAGAGAGGTCTGGTCTGTGTGTAGCTGTGAGTGTGTCTGTGAGTTATGGGGAGGACGGTGTATGCCAGAGGGCCACTGTGCG
GCCGAGTTTGGGCCTCATGGTCCAACCCTGGCAGCTGGCCTGGCCCCCGAGAGATAAAAGTAGAGCCATGGTGCCCAGAGAGACAGCCAGGGACTCCTGG
GAGAGGAGGGCACTCCCCCACTCTCTCCTGAGCAAATGATCATGGAGAATGAGGGCAGGGAATCCCAAGGGAGATTTAGAGATCTCAGTCCCCATGCTTA
CTGGGAAGGTGTCCACCCCCACTCCACCCCAGTTCCTGAGCCTCGGTATCTTCTTCTGTAAAATGGGCCTAACAGGAAAGTGGACCTCTCAGGGCTGCCT
GGCACACAGTCGTGGTGGGCAAATGAGAGAGACTGCTGTCTCAGGACCTTGAAATGCATAGGGTACCAGGTAGGGAGCTCTCTTCCAGCATCTTCTCTGG
GGGCCCCTCAGGTGACAGGGTGCCACTTCACAGGGCACTCAGGGGGCTGCCTGCCCCCAGTGGAGGCTCTGAGGGGCTGGAGAAAGGGTGCTGAGCCGAC
CTCAGTGGCTACACAGAGCCCCCAGGACTTCAGGTTCCCTGGGCAACCCTGTCCCTGGGGCAGGAGCTGCGTGCCCTGGGGATGAGGCACAGGAGGGGCA
GCCCCAGGCAGCAGACTAATTGGGCTGGGAATCCGTGGGCAGCGCCTGAGGAAGGGAGGCAACAGGAGCTCAGCGATTCCCTCCCTCCTCACCCCACGGA
GATTTGGGGGACAGTGGATAGAGCAGGGTCTCTAGCCTAAAGGATGGAGGGAAAATCTTGAGGCACATTCTCCTGAGACTCCTTGGACACCCAGGCCGGG
AAGGTGGGACTGGAGGAAAGCTCACTGGAAATAAATGGAGCATGGTTCCCATCAAAGCAGAGGAGATGGAGGTCAGACAGCAGGAAGGACTGCCCAAGAA
CCAGGAGGTGAATGAGATTTTCTGGGATATTGTTTCAAAAACTTGGAGCCCCCTGTCTAGCCGGGCTGGACAACATTTACTCGAATTGTCCCTATCAAGC
AAGGAATGGCTCCCTACTCCCACAGAGCGAAAGATGGAGGGGAGATGCCTGTTCCCTTTGAGCCCAACTTTGGCGGGGTGTGGGTCGGGGGTGGGGTAGG
GATCAGATCGGGTACCCACTGGCTTTTGGGCAGTGGTGGGAGGGTCACAGGCTGCTCCTCCTTCTCTGCCACTTCTCTCTGGGAGCCTCGGGCCTGTCCA
GGTTGCTGTCTTTGGGTTTATTTTTTGCTGGGCTTGGCTGTCCCCTGGGAGGGGAGGGGGCAGGGAGAGAAAGGAAAAGCAGGAACAGCTTTGTCAGCAC
AATCTCAGGCGCCTTCGCTACTGCCCGTCTTGGCCCAGCTGCCACCCTCTACTGGAGGGACCAGCCCCTGGGCACAGTGGGGATTCAGACCCTATGGAAC
TTCCTCGCTTASAGGCAGGACCAGCAGGAAGGGACTAGGCCTTTCTACCCCCATCCTCTCTCCATATATCCCTGCTATACAGAACCTCAGGTCTCAGCGC
TGGAGCAGATCCACGGGCTTCATTTCACAGGTGGGGAAACTGAGGCTAGAAGGGACCTGATGGCTCAAGGGCACAGCCCACACGGGGGCCTTTTCCACCT
TCCCTCCTTATGGAGTAACATGGGAGAAATGCTGCCTCCCTGCTGCCCGTTCCCTGGGTGAACTCATTCACTCATCTCATTTTCCAGCCTCTGGGGATTG
GTGGCAGTCTGGTGGGAGAGACGGGGGACGGGGAAAGGACAGTGTGACCCATGGCCCAGCAGAGGAAGGGAGGTACAACCTGGGGATGCACAGAGGCTAG
GTGGGGGTATCAATCCCTCCCCTATATGCTTTTTATCCTAAAAAAATACATTCGCCCTATTTTACAGACAGGGGGATTAAGGTGTAAAGAAGTTAATGAC
TTGCCCAAAGTCAACATAGCTGACAGGTGGTAGAGGCAGGATTTGAACCTAGCATGTGCATCTCTGGGAGCCATGCATTTGGCCACTCCACCATGCTGCC
TCCCCAAGGGGCCCCTGTGGGCCCTTCTTTCTTTTCTTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTGAAGCAGGGCCTCACTCTGTCACCCACGCTG
GAGTGCATGATCACTATGATCACTGCAGACTCAACCTCCTGGGCTCAAGTGATCCTTCCACCTCACCCTCCTAAGGAGCTGGGACTACAGGCGCACACCA
AGACACCCAGCTAGTTTTTAAATTTTTCTGTGGAGACAGGGTCTTGCTATGTTGTCCAGGCTGATCTCCAACTCCTGGCTCCAGCGATCCTCCCACGGTG
GCCTCGGGAGCCACCATGGCTGCCTGCTGGGCCCTTCCTTCTTGAATGCAACCCCCCTGGCTTTCCTCAAACCTGCCTCTGTGGCTTTTCTCTCTTGGTT
CTATCAGCAAGCAGCTCTGCCTCCTCTTTCTGCCCCTTGAATGTTGGGGCTTTGTCTCAAGTCCTCTTCACAGTACATAGTTTCAGGGGGTGGTCTCATG
CACTCCTACGACATCAGGGGTCACCCCTATGATGACAGCCTCCGCTCTGCAGTTTCATCCCTGCGCTTCCTGCCTGCTGACACCTCTCCTCCTCATTCCC
TGGGCATCTCAAACTCAGCATCTCCCTCCAAACCTGCCCTCCTTCCTCAATCCATGTGACAGTGACTCCCCGATCCCCAGTGCCCAAGTCAGAAATGCCC
TCCACACAAGCATCCTTTGCTCTCACCTAAGAAATGACTTACAGTGTCCCAAAGCATTGCGCTGTTTAGTGCTTCTGTGCTTTTCCTTCTGCCTGCAACT
CCCTCCCCTCTTCTGCCCACTGCATCATCTAGCTAACTCCTATTCATCCTTCAACTCCCAGTTTGAGCACCACCTCTTCTTGGAAGCACTCCCTATCCCC
ATTACCCCCAGGCTCAACTGAGGGCCCTTCAGTGCCCCCAGAGTTCTGTTCACCCAGCCCTGTGCGTTTTTTGCTTTTCTGCATGGGACTATGAGAACTG
GGTGTGTGGGGGTTGAACACAATTCTTGGCACATGGTCAGCAATGAGTGAATGTTTGATGAAGGTGGCATTGGGGCCAAGTAGTAAGGATGAGAAGGGTT
TTGCCAACTAGAGAGAAGTGGAGAAAAGACCCCTCAGCCCTCTGTGTGGAGCACTGAGCTGTGGGTGTTCATGATTTTTATCCCGAGTGAGCTCCAGGTG
AAGGGAACAGCAGAGCAAAGGCCTTGAGATGGGACTTCCTTCCCCTCACTCCTTTGCCCCAAGACCTGCAGAGCACAGGGCCTTGATTGACAGGCTGTGG
AGGTGGGCCTTACCCTGTGGGCAGTGGGGAGCCATACACGGTGACAGGCCAGGGTGGGGACACTGGATGGGAACCAGGGTTTGACTCTTTCTGAGTGAGT
GCTGTGCAGACGTGAGGTCATCTATTTTTTCCAGTACCCGCTAGGTAGCAGGCACTATTATTGTTCCCATTTTGCAGACAAGAAACTGGGGCTCAAAGAA
GAGAAACACCACATACTAAGTTACACAGCTTGTCTGTGGTYGAGTCAAGACTCAAACCCATGTCGGCATCAGGGCCAAGCCCGAGCTCTAAATGGTTCTC
AGCCTCGCCAGCTGACCCAAGGCAGTTTCCAGTGGCCTAAGGCAAAACTGAGGAGAATAAGGACGGGGTGGCGACTCTTTCATAAAGCTAAATTTATTCC
ACTTAAAGGACTGTCTTTTAGTATGAGATGATGTCCTTTCTTTTATGAAATGATGGGCTGGGAAAAAAATGTCCTTGCTTGGCAAAATAAAAAGTTGACA
ACCTTATGCAGTCCCCAAAGTGTTTTTGGAAATTTTACCGGTGGTGCGTGAAATCCCTGAGTCTGGGCGCCATCCCGGCTCCTCCCCACTGAGCTGTGGA
GCCAGAAGAGGGAGGGGTCTGGTAGGGACAGAGGGATCAGGGGACAGAGGAGCCTCAGGTCCCGCACTTTGCAGTGAGGACCAACCCAAGGCTCTTTCCT
AAGATTGGGTTGGGCGGGTGGGGGGGTGGGGGGCAGATCAGCCAGAATCAAGGGCTCACCCCTCAGTTAAAGGAGCACTGGACCGGGAGGCAGCAGGCTT
GGGCTCAGCTCCTGCCTCTGCTTCCTGGAGGCTGTGTGATGCCAGGCAGGTGACCCAACCTCTCTGAGGCACCAGCTTCCTTATACATAGAATGACAATT
GCCATCTGTCCCTGCTCACCTCACGGGGCTGCTTCCTATAGCAAGTGCTTGGTAAACTGCAAAGTGCTGTGAAGAACAGGGGGGTTGTGGTGGTTTTACC
TTTTTTTTTTTTTTTTTTTCCTTTTGAGACAGAGTCTTACTCTTTCACCCAGGCTGGAAGGCAGTGGTGTGATCATGGTTCACTGCAGCCTTGAACTCCT
GGGCTCAAGCGATCCTCCTGCCTCAGCCTTTCATGTAGCTGAGACYGCAGGTGCACGTCACGGCGCTAGGCTAATTTTTAAATTTTTTGTAGAGAGGGGA
TCTTGTTATGTTGCCCAGGCTGGTTTCGAATTCCTGTGCTCAAGCAATTTTCCCACCCTGGCCTCCCAAAGTGCTGAGATTACGGACATGAGCCACTGCA
CCCAGCCCTGGTTTTACTGTTCTTATCTTGCCATCAGAGGATCCCACTTCTCTAGGGTCCTGGGCCCCTCATCTCACTTTCACTTTTCACTTGCACTGCT
TTGAGCCCTGAGGAAGAGACATATGGGGGAGCGGGGCAGGTGGAATGACACAGGCCCTGTAAAAGCAGGGTGGCCACACTAGCAATTCCTGTCCTCAGGC
TCCCCTGGAGGACAGCTCAGAGATGCCCAGGCTGGAGACCTGGGGAACTCTAGGAAAAGAATGCACGAAGCTGGAGCCAGGCTAGAGTTCTAAGCACAGA
CTTTGTCACTGAGTAATAAGATTCATAGTCTAATCTCTACCAGGTATTGTGCTAAATATTTTTCACACTGCTTCATTTAATCCTTCCAAGAGCCCTATGA
GGTAGGTCCTATCATTATCCCCATTGGATGGAAGATGACACTGAAGCTTAAAGGTGAAACACTGCCCTTGTCACACAGCCAGGAASTGGTGAATGCCCAA
GAGGACGGGAGTTTTCTGGGCTCAGCTCAGACAACTGAGTGCCTGGAGAGGCCGAGTGTGCAACGATTCTGTGACATGAGAGGGTGGGAACGGTTTGCAG
GACTGTGGTGGGGGGCCGAGGGGGTAATCAGTGCACATCAGGGGCACCGGGTTGGGGTCRGAAGGCAAGAGACACGATCCTGCTGGCTAGCTTCTAGCAG
TCACCTCCCTCTCTGAGTCTCAGCCTCCCTCTCTGCTCTGGCTCTCAATAATAACAAAGATAATACTAGCAGGACCTTACTGAGTGCTTACCGTGGACCA
GATGCTGCTCTGAGAGCTTGCCACGCCTTCTATCACTTTTTCCTCTCAATGACACTATGAGGTAGGTACTGTTATTATGCCTACTTTTCAGATGAGGAAG
TTGAGGCACAAAGAGGTTACGTGACTTGCCTGGGTACATGTAGCAGGGCCAGGATTCTAACCACAAGAGTCTAGCTCTATAGGCTGTGATCTTACCCACC
TAACTCACCCGGACTATGTCTGCCTGCTTCTAATGGGGGGTGATATKAGGAGAAGTTGAGCCTTAAAGTTCAAGGTCCTGGGCCGGGCGCTGTGGCTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCAGGCAGACCACCTGAGGTCAGGAGTTCGAGACTAGCCTGGCCAACATGGTGAAACCCCGTCTCTACT
GAAAATACAAAAAATTATCTGGGTGTGATGGTGCGCACCTATAGTCCCAGCTACTTGGGAGGTTGAGGCATCAGAATCGCTTAAACCCGGGAGGTAGAGG
TTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGATGACAGAGTGAGACTCCATCAAATAAATAAATAAATAAATAAATAAATAAATAAATAAA
TACAGTTCAAGGTCCTGCTCCCACCCCGATTCTACCCTGGGGACTCATTCCTTCCCTCTCTCGCCCTTTCATTTGAGAAACCTTCACTTCTAAATGAAGT
TCAGCTGCTTATGCCAGTCTCCCCGGGCCAGGCCCTGTGCCAGACTCTGGGGACAGAGCAATGAATCAGACCTTCCTCTGCTCCCTGGGGGAGATGGGCT
GGGAAGCTGGCAGTTACCAGGCAGGGTGATAAGTGCCACTGTCCAGGCAGCACGGAGTCCAGTGGGAGCCCAGCACAGAGGGCCAAGCCCTGCCCCAATC
TGGGCATGGCTGGGAAGGCTTCCCAGAGGAAGAGGCTTAAGTTGAGACTGAAAGATGAGTAGAAGTAGGAGTTAGCTAGGTGAAAAGGAGCAAGGAACAG
TGTTTCAGGCAGAGAGAATAGCACAGGCAGAGACCCAGAAGTGAGGCTGAACAGGGCATTTGCAAAGAACAGCAAGAAGTCAGAAGAGCGGGATCCTAGA
GGAGGCAAGAGGTATCTGGAGAAGAGGCTGGGATGCAACAGGGCCAGGCTCGGCAGTGAGGACACCGGGCTGGGGAGCTGCAGCTTCCTGAGAGGGTGAT
GGGAAGGAAGTGATGTCAGGAGTAACATGGCAGATTCGTGTTTTAGAAACTCCTTTCTGGGACTGGCGAGGAGGATGCTGGAGGGGTAAGGACTCTGGCA
AGGAGCCCTGGGGATGCTACCAACTTGTCCCCCTTTTTCCTTTACCTTCCCCCCAGGGTCCAGCCTCCTGAGTGCCTCCTCCAGAGCTATTGACCAACCC
TGCTCAGGGCCTGGCTCAACCTGACCCGGAGCCCTAGGACTTTGCCTATAGGGAAAGTTCAGCTGCTTATGCAAACTCTGGCTTGGGGGGAGATGTGTGT
GGTTGAGCTGGGAGCTGGTGGTGTGTGGGGGTGGCCTTGGAAGCAGAGAGGGTGGGTGCAGGCGCCGAGGCTGTCTGGAAAGGGAGTCTGGGGATATAAG
CTTGGGGTCCATGGGGGTCCCTAGAATAGTGGCCTTATAATGGCTCCAAGAGGGTACACTGGGATTTGGCCCAGATAATGGAGGGACACCCTGGCGAAGG
GGCAGAGTCCTGGCAGTTCAGCCAGCCCCAGCTCTGTCTTTTTCTTGAAGCTCAACAGAGTATGGAAATCATTGGTCTCACCCAGCCCCCTCATTCTTCT
GAGGGGGAAACAGGCTCAGAACAGGGCAGGGACTAAACTCAGGTCAGCAGTAGAGCCCAGACCAGAACCCAGGCTCAGTCCAAGCATCTTAGTTGTCTCC
AATGATGATAAATAACAGTRAAAACCTTTCTGCAGAGCTTCCCAGGGGCTGGCCTGGGCTTAGGCACCCTCTGGATGGTCTTGGGCAGAYGTTTTTCACA
TCTCGAGCCTTAGCTCGAGGTCCAAAATACTACCTGTACTGGGAAGGAGGTCCTCTCTCCCACTGACAGTCCACAAAGCCGTTTTAGGCATGCTGGACCC
ATTGTGGGCTTTACTTATTGTTTGTTCAATGAATCCCACTGAATTCATGTAACAACCCTGGAGGAAGATRCTATTATGCTATTTTGTGCTGAGGCTCAGA
AAGGAGAAGTGACTTGCCCAAGGTCATTCAGCTGAGAAGTTGCTGACTTAGGGCTGGACTCCAGGGGTCCAGATGCCTGTCTAGGATCCCTGATGGACAC
AGCCCCATTTTTGAGCCTGCGCTCTCAGCGAAAATCAGTTGGTGTCTCAACGAGACCCATCGTCAGCTGGGCAGGGTGTGTGTATATATGTGGAAGCTGG
GCTGGGCTGCTGGCTGGAACTCAAGCCACACCAACCCCTGTGCCCCTGTGTTTGGACCTGGCTGCAGCTGCTGCCCGTGGGGGAAGGGGACCTTGCCACT
TGCCCTCCTGCATCAAGGGTTTTTTCTCCTTGGCCTGGCTGCCTGGGCAAAGGAGCTGGCTGTGGCATGACCATGTGGGCACCTGCCAGCCCCTCCCTTG
TTGGGGTCTGKTCATCTAATGCCCTTCACATGACAGGCATGGGGTGGGCCCTGGCTGGGGAGAGGGATTTGCACTCTCCTAATCCAAGGGCTGCAGCCCT
CCCTCTGTCTTGGCCAGGGCCGTGGGAGAGGTTTGTCCTTGCCCCATGCCCAGCAGCCCCAGCTCAGATCCCTGGCATACACCCAGTTCCTCTGCTTGGG
GCCTTCCCCTGTCCTGCTTCTGCTCCCCACCCTCCTACTCTGTGAGCAGAATCAGGAGCTAGGGGGCAATGCTGGGGCATTCAGGACTGATGGAGGTGCA
GTGCTACATAGCATGTGGGACTGAAGGATGGGGGCGATGTCAGGGAGGTTTAGGGCACATGTTGGGGCAAAGTTGAGGGAAGATGATTGGGGTGCAGAGC
AGGAGTGTTTGGGGCTCATCCTGGGCCACCCCTTCCTGGAAAAATTTGGCTACAAGTCAGGGAGGCAAATGTGTGGGCCATGCCCCYCCCCTCGCTAGGC
AGTAAACACTGCCGTCGCCTGGGAGACAAGAAAACATCTTGGTCCCCCCACGGTTGTTTATACCAGGACTCCCTCTCCTTCTCTGGCCTGGTCTGGCCTC
TCCACTCCTGAGCTGGGCTACCTGAGTYGAGGGTCCAGCCCCCGGTCATGGCAGGAGGCCCTGGCAGCACGCCCACTGGCCCCCACCAGGGACTGAGCAC
TCACCACCTCCTGGTGGCCTGTCCCATTGGAGGCCCTAGGTCTTATTGATCAGAAACGTGCTCCCAAGCCTTGGCCTCCACGAGGGAGGCCTGGGACTGT
GCCCTGGATTTGCTCCAACCCACTGCCTGAATGCAGTCACTGGCCTCCCGGTAACCTCAGCTTCCCATGTTCAGTAGCAGGCAGGATCTAGATTAGAGCT
TTTCAAACTGTTTCAAGTCATAGATCTGGTTCTTTGAATGACACCTGATACAGAAGCACAATATATAAAACAGATCAAAGTAGGGCTACTCTGGGTGGAG
TCAYGGGTTGGGGCCCAGAATTCTACCCACTCTATGCCAGCCTATATGGCCCTGGCATATCAACCCAGAGCCTGTACATGGTCCTCCTTGCTCTAGAACA
CATTCCAGGTAACCCTGGAATTCCCTGGCCAAATACTTATGCCTACTTCCAGGGTCTGCACAGGCCCTTCTCCCAGGGGCTGTCAGAGCAGCCCTAGGCT
CAAGGACGGCTGTTTGTAGTGGGTATAGCAAAAGCCCGGAAGAGCAGGCTGAGGCACCCCCAGGAGTGTACCCAAGGCCCCTCCCAGGGAGGGATGGGCC
CAGTGTGGGAAGAGAATCTGAGGATCGGAGGGTAGCAAGGGGCTGGCTGTCCCTTCCCTGCTGGATTCCAGCATGGGATTCCAAGGCATCCAAGAACTAA
AATTCAAACCTGGTCTTCTAGGTCATTATGAAGGTATATGTGTCAGGAAGGATAGAGCAAATTTTATTTAAAAGTTTGTTAACCTGATTGAAACTTTTAA
ATATTTAGACTTATGGTATGTGGGTCTCCATTTATACTCTCTCCCCAGTCCTGCCAGAGTTAGGGGTGAGCTTGCATCAATCCTCCTTCCACCCACCCAC
CTACCTCTGCAGCAACCCCAAGACAGCCTTACCCAGAACTCTCAGGCTTCACAGGACAGTGTGGAAGTCCCACTCGCTGAAACTCAAGGCCCTGGTGACT
GCATCTTTCTGTTCACTCCCCAGATACTGTCTGAGCATCAGCTGGGGCCAGCCTGGGGGTTGTGGAGGAGCCAGACTGGCCTTGCCCTAGAGGGATGGAT
CTCAGTGAGGAGTAAGCGGGTAGGAACACTCTCCCTCTTGTAGAATAGTGTGAGAAGGGGTGCCTGAGGGGGCCCACAGGGGCCCTGGAATCCTAACSAG
GGGCTAAAGAAGCTCCTCTATTCAAAGCCGATCATGGATGGATGAGGTGGAAGAGAGACAGCCCAAGAAGGGGAGACAGTACAAAAGCCACCAAGGTGGA
AATGTACAGGGAGTGGAGAAGTCGAGTGTCGCTGGTGCTTAGGATGTGTGTACAGCCTCAAACGCTGGTCTAAGGAGCTTGGGTTTTCTATTTTAACAGT
AAGAAGCTGTTGTAGGATTGTAAATGGGGTAGGGGCTGAGGAAGAGGCATTCAGACTGCAAGGTAAGTGGACTGGAGGTGGGGATAGGGGGCTGGAATTG
TGGTGGTCAGTGAGAGGCTGGCTGGGGGGAAGGGGAATGGGGGTGAGTCCTGGGCTGACCAGGAATGGGACTTGAGGGGCTAGGAAGAAAGAGGGGATCT
TAACTCTGCTTTCTGGGACCACATCTCCTATCTCCTCCTCCTTTGTTCTGTCTCAGTTTTTGTCTTCTTCTCCTGCTATTCCACTGCCCTAGGTCTCCAG
GCTGGGGAGAGGGGCACTCACCCTAAACCCCCTCTCCAAAGCAGGCCACTTCACACAAGTGGCCAGGCAAGAGGCCGCAGTTGTATAAGAGGCTTTTCTC
AGCTGGCTGGACTACTCATTCGTTCATTTATTCATTCATTCACTCAACATTTATTGAGAACCTACAATGCACCAGGCCCTGCACTAGGTTTTGGAGAGAA
AGTAGGAACAAGATCAAGTACCTGCATTCATGGAGYTTACATTGAGGGGGGCGGGAGAACCAGGAACTGTATCTATCCCCGGTGTCTACCATCTGGCACC
TGTGCCTGGGCTGGATGCCTGGGAACAGGGACTCTTCCCATTACCTACTCATTTGTTCCAGCTGCCCTGTGTCAGCACTCACCTCTCTGGACAATGACAG
AGGAGAAGGGGTCCCATGCCCAGGATGCCAGCCCCAGGGAGCACCTGTCTCTGTAAGAACAGCCTGGCCCTCGGGGCCAGGACCTGGGCTCAGGCCTAGT
TCTTCCTACTCACTCCTGACTTTGAGCCCTTTGCAAGGACCCGACTTTGATTTCTTTATCTGTCAGGTGGGATTTGGGGAGGTCCTGAGGAGGCGAGGGG
ACCAGAATACTGGACCTCAGCTCCAGTATTCTCCCTTGGTGGGCAACTCCTTTGGCTATGATGGGAGGGGGAAGGGGGCTTGGGACTCAATATTATCATC
ATTACCCATACAAGATAGTAATAGTTGCTACCTATTGTGTAATTTATTCCGCACTATCTGTATGGTCGGTGTGTCTTCTCTCCCCATTTTCCGGATGAGG
AAACTGAGTCTCCGTAAGGTGAAATGACTTACTTGAGGTCACACGTGAAACTACCTACTCCAAGAGCCCTTTAGGATGGTGCTGTGAGGTGGAAGGGCGA
GGCCGAGGCGGCGGTGGCGTCGCGTCCCCCCTCTCCGCCCCTGGCCTCGGGGACGCGGCGGCACCTTCACACTTTCCGCTTGGCCCGCTGCTCGCCTTTC
AGGCCGCCGCGTTTTCAATTGTTAATTTGGAAACGGAAAAAGTAGCCGGCCGGGCGGGGGAGGCCGCGGGGAGGTAAYCGGAGCCGCAGCACCGCCCCGG
CCCCTCCCGCTCTCGGGGCCTGGCATTGGCAAAGCCCCGCCCCTCCCAGGGACGCAAGAGCCCCGCCCACCATTCCCCGCCCCCGGCATGCCCCGCCCAT
TTCCGTAAGCCCCGCCCTCGCCGAGGCGGGCTGGGGGCACCTGGGAGTGCCGAGCAGTGGCGCCCCTGCTGAGGAGAAGGAGCCCGGGCGGGGGAAGGGG
GCCGAGGGCTGTGCTGGGGGAGGAGTCCCCCAGGAGCCCTCCCCGCAGGAACCCGTACCTCTCCCGAGAAGTCGCGCAGGGTGTCTGCTTCCCTTGTCCC
TACGTGAACCCAAGCCTTTCTGCAACCCCTCTGTAGGTTCACCCAGGGGAGACCCCTGCCTCCAGACTGCCGGACCAGGGATCATTGGTCCCATTAGAAA
GACGAAGAAACTGAGTCCTGAGAGGGACAGTTAACTTGCTAAAGGTCACACAGCCAAGGCAGAGCAGAGCTGAATTCAAGCCCATTCTTTTGACTGAGAT
ACATTTAGGGACTGTCTGCCTCATTTAGAAGAGGAGGGGGCATCAGGACCAGAGATACAATTTGTCCCCTTCCCCCTATCTCCAGCACGGTTTCTGTGGT
TAGTAAGTTACTGGAAGTTCTGCTTATCATTATTCAATTATGGGAGGGTTTTGGAGGTAGAAGGAGGTCCCTCTAAACTTTCCATGTAAATGAAATGTAA
AAGACCCTCTTCTGGGGACTCCCAGAACACAGAAGTCCCTGAGGACTGGCAGCTTCAGGAGCCGTCCACGGCCTTGCTTCCCATTAGGGAAGCTGGAATT
GCCAGTCCCAGATGGATCAGCAAAAAATAGGGCCCTCAGAGACTCCCACCCAATCCCTTCCTCCCACTGAGGAATAAGCTGAGACTCAGACACAGTTTCC
CAAGTCTTCAGCTGACTGGTGGCGGAGTCAGGAGACAGAACCCACCGACCCAGCTTTCTAGCTGTGTCCACGCCCTTCTGCTTCTCCCTCTGCTGCCCCC
CAATCCTGACACCTCTCTCACAGCCACCACTCAGGATCCTGCCTCCATCAGCTGGGCCTGCAGGCTGGGCAGCCTTTCTCTTTACAGGCGGAGGAAACTA
AGAAGAGTATCTGCAGRTGTCCTCCCAGCTTCCAGTTAAAGACCCTCCCAACCACCCTTCCACCTTAGCTGTGGGTCAGGCCCAGAGAAGCTGCGCTCCT
GGCCTCGAGTCACACAGCAAGCCTTTTCCAGCTTGCAAAGCCCACTGGATTCAGTCTGGCTGGTCCTGGATTTGGGGTTCCCACTGGGAGCATGGCTCTC
AGGGCAGCTGTAACCAGATGCCCCAGGTGTGGCCTGTGAGTTTGCATGCTGCTTTGCTTATTAGTAACAAAGGCATTGAAACCCCTCTTCCTCATTGTGT
CCCCAAACCACCCACTGGGTGGGGTCCTCAATGGCTGAGTCTACAGAACTCCTGGGCTGGGCTCAGTCTTGGCACCTGAGCTCCCCAGGGAACTCTGCCC
TCCACGGTGCTCCTCTTCGACCCTGTCAGCTCTTGGTGCTCTCTCTGCCCTGGAAGTACTGAGAACCCAGTGGCAAGGACTAACTCTTTCCCTTGTCTTG
GACTCTTCCCTCCCTCTCCCTCCCCCAATATAGTGCACAGGTTCTGCTGACTCAGAGGACAGAAGGCTCCTTTGAGGTTACCCTGACCCCTGCCAGGTTC
AAGTAGCTGGGAAACTGGGCAATGCTTGAACCCACTGCCACAAAGTCACATGCAGCAGGAAGGGCAGGGGCAGGTCCCATCTTGGCCCCAGGATGAGGGA
ATTTTTGAGGTGGGAGTGAGAGGCAGGTGCCTGAGTCCTTCTACAGACAGAGGAGAAATCCAAAGAACATTGCATTAGGAATCAGGAAATCTGGGTGCCA
GGCCCAACTCTGTCTCTGATCTACTGTATGATCACAGGTAAGCCAGGCCCCTCTCTGGGACTCAGTTTCCCCATCTATAAATGAGAAGGTTGGTTAATCT
CTAAGGGACCTTTCAGTGCCCAGATATAGCCAGTATCTGGTCATATCTTGCCACTTCCGCTTCCCCTCATACAAGTCACCATCATCAGCTGGTAGTGGCT
CATGCCTGTAAGCCCAGCACTTTGGGAGATGGAGGCAGGAGAATTGTTTGAGCCCAGGAGTTCGAGACGAGCCCGGGCAACATGGGGAGACCCTGTCTCT
ACAAAAAATAAATATAAATTAGTCGGGCATGGTGGCACCCACCTGTGGCCCCAGCTACTCAGGGGGCTGAGGCTGGCGGATTGTTTGAGCCCAGGAGGTT
GAGGCTGCAGTGAGCCGTGATTGCACCACTGCACTCCAGCCTGGGTAACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAGTCACACAGGGT
GAAGTGGCATGTGCCTGTAGTCTCAGCTACTCAGGCAGCTGAGGTGGGAGGATCATTTGAGCCCAGGAGTTCTGGGCTGTGGTGAGCTATTCCAATCAGG
TGTCCACACTAAGTTTGGCATAAATATGGTGACCTCCTGGGAACAGAGGACCATCAAGTTGCCTAGGGAGGGGTGAACTGGCCCAGGTCAGAAACGGAGC
AGGTCAAAACTCCCGTGTTGACCAGTAGTGGGATCACACCTGTGAATAGCCACTACAATCCAGCCTGGGCAACATAACAAGACCCCATCTCTTAAAAATA
AAAATAAACAAAACAAACAAACAAACAAAAAGTCACTGGCATCTCTTGCCAGGATTATACTTTCCAACTCACAATGGGGCAAACGTCATTGCTCCCTCCT
CCCCTCTCCCCCACCATAGTCCGTTCACTCAGCAGCCTGTGTGATCTTTTTAAACATAAGGAAGATTGAGCTACTCCCTGCTCAAACTCCCCATCTCACT
CAGAGTAAAAGCCAAGATCCTTACCATAGCCAGTAGATGGTCCGCTTTCCACCTCCCCTGCCTCTCTGCCCTCACCCCCCACCACTCTCCCCTTGCTCAT
TCCACTCTGGGATCACTCCTTTCCTGGTAGTTCTGGAACACAGAAGGCACCCTTCTGGCTCAGATGTGTTGGATTTGTTTTTCCCTCTGGAGGTGGGATG
GGGGTTAAGGGAGCATGAGGTGGGGGCTCYGACCTAAGCCTGCCAGTCTGAGCTCATGCTCAGACACAGCATGAGTAAAGGTGGGGAGGGGAAAAGAGCG
CGTTTGCCATTGTCAGGGACAGAGCTATGATAATGCAGTGCCAAGTGTCAGGTTGGGTACCGGCTAGTGAAGAGCAAGTTGGCCTGGTGGGTGGGGCTTT
CCTTGCAATCATGCTAAGGGGTTTGGGCCTGGGCCCACAACTCAGTGGATTTCACACTTTTTAAAAAAACAGCAAAGCTTTTTGTTCACATGAAATTTTT
TTTTTTTTTTAAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAGGCTCCGCCTCCTGGGTTCACGCCATTC
TTCTGCCTCAGCCTCTGGAGTAGCTGGGACTACAGGCGCCCACCACCACGCCTGGCTAAGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAG
CCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTCACATGAA
ATTTTTACGCCAAAGCCAGCATGTAAAACTGAGCCACCCGAATCTGCACGGAGCTGCTCAGTGGAACCGAGGGAAGGTTTCCACTAGCCATCTTGCTTGA
GTTTCTCAAATCCTGGCTGCCTAAATTCCACCCCATGTTTCCCCTTYCTTTCAATGGCATCCTGCTTGGGAGGGCCCACACCTCCCTGTTTGAGAAGTCA
GCTCTGTCTGGCCAGTCCCAACAGATGGATGCCCCTGTGTCCTCTTTGTTCCACTCTGGCTCTTGTCAACACATTGCTCAGCCCACTGACCTGGTGCAAC
AGGTAGGCAGGCTGGCACGGCAGAAGGAAGCAGACAGAACAAGTCGGAAGGTTTGGGGCTGGTGCAGGTGGGAGAGGAGGAAGCTATTCCTCATCAAACA
CCTTGTCTAGAAGACACTGCCTTTCATRTCCCGTGGGWCAGAAACCATTCAAGCTGGCTCAATAAAAACTGGCTTCTGTACTATTACATTTGGGATAAAG
AAAAAGAAAAATTGGCTTCTGGAGGTAGAGGACAGATATGGTAAGGAAAGAGAATTCTTTAGAGGCTTCAAGGCAGAAAGCACATTTTGGATTCATGGGA
TAGAGAGCAGGGGGATGAGGTTCCAGCGTAGTGCAGTCTCATGGCCCATCTCTCTGCACCTCTGCCAACTTTCCTCTGTGGTTCTTAGTTCCATTCCTGC
GAAAGACAATCYGATTGGCTCAGCCCAACCTATGGGTGGGCCCTTCTTGGGTCAGTCTCCAGCTCTCCATGAATCTGTGGCGGCCAGGAGAGTGCTGTGG
AGCCAACCGCAGGGCTGTCATGTGTCGCTCTGCAGTCTGGGCGCCACAAAGGGGCCGGCTGAGAGGGCTGAGGGGTGCTGGAATCCAGCCTATGCCCAGG
GGTGGGGCAGCCCAGGGGAAGGGATGCCTGTGCTAATGGGTCCGTCTAGAGGGGTCAAGTTTTTATAACTTGTCAGGCTAACGGGAATGCTTTTTTTCTA
AGCCATCCTCCAAGAGGGGGCATTTTTTTCATAGTTTGTTCTATGTGCTGGCGGCTGCTGTCCCTCCAGGGACAGCCTCAGGGAAACTCAGCTGAGGGCC
AACTCTCTCCTTTCTACCCCACTGCTGGAGAGTCACAAGGCGGAAGGGACTTTGGCCATTACTGAGTAGTGCTCCACCTACATGTTGCAGACAGGGAAAC
TGAGGCTCCATCAGGGCCCCATTGCAATTTCTAAGCCCCAGCGCAAGCCTCTGGCCCAGAGAAGCAGCAGCGGCAGTGGCGGCGGCCCTGGTGTGGGGCC
CTGGGTCACGTGCTCTTGCTCCCTTTGCCATATTTAGAATCGCTGGATCAGGGGAAACTTCTCCTCCCAGCCCCTGAGGATTCTTGGAAAGAGCCTCGCT
CTGAGGCCTGGCTTACTGCCCCTCCCCTTATTCCCCTGCAGGAGAAAGTAAGTGCCTGCTCTCTCTAGAAGAGTCTGGGGGCCTCCAGGCTGCCCCCCTT
GTCAGGAAGTGCCTGTCAAGTCTAGCTGAAGTCCCTTCTTCGGTATCAGCTCCGGTTTGGGGTTTAAGGAGCCCCTTTCTTCCAGAAGGTGATGGTGGCC
ATAGCTTCTGCCCTCTAGGGACCTTGGCTGAATGGAGGACAGACTGGCCTCAGGGTCCTCCAGCTGAGGGGAGACAGAGCCCTGCCTTTGGGCCCTGGTC
TAGGGGGCAAGGAAAGAGTCACGCGCTCCCCAGGCCAGATGCACAAATCACTTGAGCTTGGGGGTTGGAGACCAGCCTGGGAAAATAGCAAGACCTTGTC
TCTACTAAAAATCAAAAAAAATTAGCCAGGTGTGGTGGTCCCGGCTACTCAGGAGGCTGAGGCAGGCAGATTTCTTGAGCCTTGGAGAGTGATGCTGCAG
TGAGCTATGATTGCACCACTGCATTCCAACACAGGCAACAGAGCAAGACCCTGTCTCAAAAGAAAAGAAATCAGGGAAACTGCTGGTGGCTGGGCAGTCC
CCAGACACTGGCAGGGCTCAGTCTGGGAGGGACGCTGGAAAGACGAGGGAAGGAAGGAGGCTCTGGAGGAAGGAGGGGGCAAGGCCTGGATCTGTATTTA
CCTTGGCCTTGGTGGATACTTGGGGGTGGGGAGCGGTCCTCTTCTCACACAGGCTGCTTCCTACTGGATAATCAAGCCTTAAAAACAAACAGCAACAAAA
AACCTAAATAAAACCCTGAAATGCATGTGTTGAGTGCCTGTGATGTTCCAGGTCTGAAGAGCCATCCTCGCTGCTGAGGATAATGGTCCTGTGCTCCCAT
GGGACCCCTCTCCAGGCGTGGTCTTTTCTCCCACCTTCCTCTCCCAGCTCCATACCTCCTCCATCTCTTCAGATCCCCCACCCCACCCTCCTGCCCACTT
CTGAGAGTTGGGCCTTGCCTCTTCCCAGAGCAGTCCCCAGTGAGTAGGGGCTGTCGGCCTCCTCCCTTCCCACAGCCTCCTCCCACCTACATGCCTTCCT
GTCCCTGTGGAAGCTGGAGGGATCCTTCCTACTCCACACCAGCTCCTCCCTGGCTCTGGATCCCAGCCTCCCATCTTCCTTGGGGACTTCATTCCATTGA
YTACTCACTCTGTCTCCCCGCATCTTCAACTTCTCCTTCTTGATCTCTTGGCTCCTTCCACTCTGGCTCTCTCATCTTAAAAGAAAAGAAAAAGATTCCC
TATACCCTGCATCCTTCTCCARCTACGATCTCTGATCTCTTCTTTGCAGTCAAACATCTTCAAATTGTTAAACCTACACTTACTGTCTCTACCTCCTCAC
TGCCCCTCCCCTTTCTCACTTTTTCTGGGCCTGTTCTGGTCTTCCTCTCCTTCTGAGAGAAGGCTGCCCTTGCCAAGGGACCCAGTGACCAATGTGTCAC
CAAATCCAGAGGACATTTTTCACGCCTTATCTCACTTGACCTCTTGGCAGCATTTGACACTGTTGTCTACTCCCGCTTTGAAACATGTTCTTCACGTGGC
CTCTCTGACACTTCTCTCTTCTGCTTTCCCTCCCAGCTCTCTGGCTATCCCTCCCAGTCTGCGTAGAGGGCCTCTGTTCCTGCTGCACCGCTGGGGCTCC
ATCGGGTCCTCCTCTAACTTTGCTACAAGCTCTCTGGACTGTCTCAGCTGCTCCTGTGACCTCAGTCACCACCTCTACCCTGATGTCCCCCAGATCTGCA
TTTCCAGCCGGGTCTCTCTCTTCATACCCATGGAGTGTTTGCCCAGTGCCCATAGCCCTCTCTCTCTCTCAACATGCCCACCACCCAACACCTGCTCCTC
CAGTGGGGTCTCCCCCGTCCCATGAAGGCACTCATGGCACCTTCATCCATCCAATGCCCAAACCAGAAATAGAGAAGTTGTTCTCCTTCCTAGTTCCCGT
TTCCAGTTAATCACCGAGCCCTACTTCCTGCGGTGTTTTCCAACCCATCCACTCCTCTTCCCTGCTGCCACCACCCTGGGCCAGGCCACAGTCATCTSTC
GTCTGAGCTATTGTGGAGCTTTCTTGGTCTTTCTGCTGAGTCTTATCTCCTTTGATCTATTCTGTGTACTTCCCCAAGTGGTCCTGAGATGCAAATTGGA
CTGTGTCATTTCCTCTCTTAGAACTCCACAATTGGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACTTG
AGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAACTTAGCCGGGCGTGGTGGTAGTCACCTGTAATCCC
AGCTACTCGGGAGGCTGAGGCACGAGAATCTCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAACACCACTGCACTCCAGCCTGGGCGACAGAGTGAG
ACTCCGTCTCAAAAAAAAAAAAAGAACTCTACAATGACTCCCCATTGCCTTTGGGATCATGTTCACAGTGCCTGAGAATGCTACTCAAGGCCCCTGGGTC
TGGCCCTCTCTGGTTTTTCCACTGCCCCCTTCACTTTAGGCCACACCATCCAGAACTGCTGGCCGTTCTGGGCTGCCTCGACGGCCACATTCCCACTGCT
TGCACATCCTGCTTCCTCTGCCTGGGGCACCCCGACCCCTGTCCAGTTACCTCCTCCAAGAAGTCTTCACTGATCCCTCCACTTTGGTTGTGCGGAAGGC
TTCTTGGGACTCTCCCCGACCCCTTGAGTACACTGTCATGGCCTCGTCCATCCCGTCACCACTGTGTCATGTTCTGTGTTGTTAATTCCTTGGGACCTGG
ATTATTCATTTCTGGTTTTACAATAAACCTGGCTGAGTGTAGGTGTCTGAAGTGAATATAGCCCAGAGRGGTCAGGTGACAACCTCTTTTCTGCTGTGAG
ATGCCCTGCCATCTTTCCTACCCCCATCATATCCCCATCTCTCTGGCCTGGCCTCCCAGCAGCTGTCCCTCCAGGGACATGTTGGACATGTCGAGAGAGA
GAGCCGTGGACACTGGGCAAACGCCCAGTGGGTATGAAGAGAGAGACCTCAGCTGGATCCAGGGACATCCCCAGAGAATCTGGAGCTGAGCTGATGGCCG
ATCCTCTCCACCCCACTGCTGGRGAGTTACCAAGCTACAGGGACCTTAACCATCACTGAGTTGTCCCCGACCTTTGTGTGTGTTTCTGACAGGGAAATTG
AGGCCCAGAGCATTAGTAGGGCCCGGTGGTCCAGGTGGTCTTGGGCTCAGGTCCTGCGCTTATGACTTTGAACAAGTCATACCTTTCTTTTCTCATTTGA
ATAACAGCTTTATTGAGATATAATTCACATACAGTAAAATTCCTCCTTTTAAAGTGTTCAGTTCAGAGGATTTTAGTGTATTCACAGAGCTCTGCAGTCA
CCACAGTATACGCCTCTGAACCGCCCTCTCCTTATCAGGGTGATGATGGTACGGTTCCATGGGGTCACTGTGAGAACTCATTAAGAACATGCATTTAGAG
GGCTTGGCACAGTGTCTGGCCAATAGGAAGCCTTTGGCCAGCAGGAGCAGTTATGGTTATTACTTCAGGTCACCRCATGAGAGCCACCTCCCCAGCAGAG
CTTTCCCCCTCCTGCCCTGTGGCCGCTTCTGGACAGTGACTTGAGGAGGTATAAATGTGGAGAAGGCGGTGATTGCAGTTGTTTAAAAGCCCTGAGCTGG
CTAATAATTGAGTCAGCTGCAACTGCTCCCATCACCTAAGCCAGTGATTCTCAAAGTGTGGTCCCCATAACAGCAGCAATAGTATCACCAGGGACCTTTG
TAGAAAGGCATATTTTCCACTTCAAACTTACTGAATCAGACACTGTAGGAATAGGTCCCAGAAATCAGTATTTTAACAAGCCCTCCAGGTGACTCTGACA
CCCACCGTAGTTTGAAAACCACAAATCTAAGCAAACCATTCACTTTTTCATCTCTAATCCTCTTGCTCCCTCCTGAACGAGTGGGATAGTCATGGGATGG
GGAGAYGGGGGAAATGGAGAGGAAAGGTTGGATAAGCCTTGTGATCAGACCAGCTGGGGAGAGCCAGCCAGGCAACACCCGCCTGTCTCATTCTGCCTCC
TGGGCTGGGCAGGGAGAAAGAACATGGGCCACAACTTGCAGGCAGACATGATGGGCAAAGATGTCCTAGAAAGTGGCCGCTAGTCTGGCCTGTCTGCTGG
GGAGATTAGAGAGGGCCCAGGCCAGCCAGCACCCATGTTTCATCTATATTTGTATAGATGGAGAAACTGAGGTCCCAGAGGGGGCCAGAGAGAATCCTTA
GAAAGTCCTTTGWTGGATGAATGAAGCCACACCCTAGTTGTGGCAGGCATGAGACCCCAGCTAAGGGGCTCCTTCACCTTGTCTCCTCTACCCCTGACCT
CCAGATACTGATCTCTCTTCTGCTGTCCCTGTGTGAGGACCACCCCCACTCCAGGAAGGCCAAGGCAGCTTGAGGGTCAGCCTGAGCTGGGGTTCTAGCT
GCAGCTCTGCCACTGATTCACTGTGTGATCCTGAACAAGTCTATCCCTCCCTGAGCTCTATTTCCTCAGCTGGAAGATATGGATAATTATTCAGGTGCCT
GGAACACAGGATCTTTTCTTTTTTTGAGATACAGAGTCTGGCTCTGTCCCCCAAGCTAGAATGCAGTGGCGAGATCACAGCTCACTGTAGCCTCAACCTC
CCTGGCTCAAGCGATCTTCCCACCTCAGCCTCCCGAGTAGCTGGGACCACAGATGCACACCCCCATGCCTGGCTAATTTTTGTTTTGATTTTTTTTGTAG
AGACAGCATCTCACAATGTTGCCCAGGCTGGTCTTGACCTCCTGGACTCAAGCAATCCTCCCACCTTGGACTCCCAAATGTTGGGATTACAGGCATGAGC
CACCRCGCCTCGTCCCAGGATGTTTTCTATTAGTCCAAGTATATCCCTTCAAATGTAATGAGAGTATCAAGGGTATAGAAACTCTTAGCCAGTGGGTTAA
AGCAGGGAGAAGTGAAGTTTGGGGGCTTTTTAAGCAGCGTCCGCCAAATGGAGATGGTCAAGGTCAGAGGCGTTACTTTTTAGGAAAGACATGGGGCAGC
CAGAGGAGTCAGGGATGGATGTGCTTTGGGGACCTCTTCAGTGGGTACAAACTGGAGGCTTTGGCTTGGTAACATGGTGTTTTGATGTTTGGTTACAGTG
AACTCCTGCTATTCATTTACTTAGTCTTTCAATAGTGCTGTGAAATCAATCAAGCAATCGGTCAGTCAGAATAAGGGGCAAGAGAGTGGAGATGAGGCCA
TTCTTTCAGAGAGGGGATGGCTGGGGAGGCCCCTCCAAAGAAGTGGCATTGGAACAGACCTGGGTGAGGCAGAGGAAACAGTAAAGCAGGTTCAAAGCCT
GGAGGTGGAAATATGTTAGGTGTGTTCCAGGACTGGCAAGGAGGCCAGAATAAGTGGGGTGCAGTGAGCCAGCAGGAGAGTGAAGAAGGTCAAGTTTGGA
GGCGGGGGTGGAGGCACAGACCTTGCAGGGCCTTGTTGTCAGTGCCGAGGAGTTGGACTTTCCCTCTCTAAGTGCGATGGAAGTCCGACGAGAGTTTTGT
GGAGAGCGATGGTTTCCAGCTGTGCATTGTGGGAAGATGACCCTGGCTGCGTTGAAGGGAGTGGTCACATTCAGGCACAGTGGAGGCAGGGAGGCCAGGT
AGGTGCCAGATGGTGGCGGCTTGGTTGGGATGGTGCGACCTGGCCTGCCCAGGGATAGATTCTGAAGGTAGAGCCAATGGAATTTGCTCAGAAGGGGATG
TGCAGGGGGAGGGAAAGGAAGAATGAAGGAGCCTGAGCCCTGGGGGAGCCGTGGTGCCGTTACTGAGATGGGTAGGCTGGAGGTGAGGAGGACTTGAGGA
CAAATTGAGAACTGGTGTTTGGAGGTGTTGGGTTTGAGAGGCCACCAGACATCCAAGAAGAGTCATTGAGCAGGCATTTGGACACACGAGCTGGACACCT
GGGAGAGGCTGCCACATCCTCACTCCTGCTAAATGGCAGAGGCGACTGTGGTCAAGGGGTGGGGCAGGATCCAAAGTGGGCTTTTCTTGTTTTTGTTTTT
GTTTTTGTTTTTGTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAAGCTCTGCCTCCTGGGTTCA
TGCCATTGTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATCCGCCAGCAAGCCCAGCTGATTTCTTGTATTTTTAATAGAGACAGGGTTTCAC
CGTGTTAGTCAGGATGGTCTCGATCTCCTGACCTTGTGATCTGCCCACCTCGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCT
TTTTTTTTTTTTTTTTTTTTTTTGAGATGATGTCTTGCTCTTGTTGCCCAGACTGGAGTGCAATGGTGCCATCTTGGCTCACTGCAACCTCCGCCTCCCA
AGTTCAAGTGATTCTCCTCCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCTACCAACACGCCTGGCTAACTTTTGTATTTTTAGTAGAGGCGGGGT
TTCACGATGTTGGCCAGGCTGGTCTGTAACTCCTGACCTCAGGCTATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCAC
CCAGCCTGCATTTTAAATTTTATATTAGTTTGTTATTACCGAAACAACCCATGTTTGTTCCAAACAATATATTAGAAATACTGGCTGGGCGAGTGGCTTA
CATTGCCAGCTCTGGGAGGCAGAGGCGGGAGGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATAGTTCAACCCCATCTCTACAAAAAATT
TAAAAATTAGCCGGGTGTGGTGTCATGTGCCTGTGGTCTCAGCTACTCAGGAGGCTGAGGTAGGAGGATGGCTTGAGCTCAGGAGGTCAAGGCTACAGTG
AGTCGTGATCATGCTACTGCACTCCAGCCTGGTTGACAGAGTGAGACCCTGTCTCAAAAAAAAACAAAACAAAACAAAAAATAGAAAATACAGATAAGCA
GAAAGCAAAACAAAAGCCAAATCACTTAATTTTACCACCCATAGATAAGCCTTGCTGACTCTGGGTACGTGTGTAAAAACCATCTCTGTTTCAAACATTG
GGATCACATTGCCGTTAAGGTTTTATAATCTGCTTTCCTTTTTTTTTAAATTGTGAAGTGGAAATTTTATAGATGTGTAATTACTGACATGGCAAGAAAA
GTGTTAATGATGGCCAGGCTTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGATCAAGACCATCCT
GGCCAACATGGTGCAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCACGGTGGCATGTGCCTGTAGCCCCAGCTACTCGGGAGGCTGAGGCAGC
AGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGTAACAGGATGAGACTCCATCTCAAAAAAAAAA
AAAAGCAAAAGGAAAAAGAAAAGTGTTAATGAAACATTCAAGAAGAAGTCCCCAGAGTGGCCCACTGCTGCCTGAGCTTCTGAGGTCAGCTGAGAAACGG
GACTGGAGGGTGTCTGTCAAGGCCGGGGTAAAGTCTTAAAAAGTCCTGGCTGTGGCCATTCCCCGAGGAGAGGGCTGCATGAGATAACCTCATGAAGGAC
CCTTCTGGTCCTAAACCCTGCTTCAGCTGCAGTCCCGATGCAGGTACATGTGGCCGCTGCCTTTTTTGTGATTAATTATTGAACATGAGGAGCTGGTGCT
CTTCTCTTCTGTTCTCCCGTACCCCGTGTTTTTGCTGACTCAGCTCTGGTCTGGAACTGGCCGAGGAATAAGCTCTTCTCGAACTCATTCACTCATAACA
CTTTACCGACATCTGCCACCTACCTTCTCAAACCAGGGGTATTTGCTGGGATACACTTGCCCCCCAAAAAGGTCAGGAACCCCTGTCCAGGAGGTGTAAG
TGAGCCAGGGCAGTGCCACGCCCTTTGCATGTCTTCCTTCCATAGCCCCCACTTCATAGATAACGAGATGGCTCAGAGAAGGCAGGTGACAGTCTCAAAA
CCACACACACAAGCAGGACTGGGATCCAAACTCAGGTCTCTCTGACCCCGAGCTGCTGTCCTTAAGGTCACCACRAAACATGAATATAAATAAAGCCACA
TAGAAGGTGACTTGGGCCACACATAGGGAGGCAAGCATCGGGAGTTGGCAGTTCTGAAGGGGGGATAGTGGGGTGCGGGAATCAGAGGCTCCGTAGAGCT
TTGTAGCATTTGTGTTCCTGTAGGCGTGGACGATGAGCAGAGTCTCGCAGGCACAGACATGAGGTGTTCTGCGTAGCATGCACCGTGCCAGCAACGGTGC
AGAGGTGGGGAGACTGGGGACATCTGGGAAGGCTGGCGGGTCAGTACACAGAGATGTATTTCCAGAGAAGCCTGTTCCCTCCGGAGTCTCCTCCAGGGTG
TGTGCATGTTCAGCACACCCCCATCCTAAAGAGGGGTGCTCCTGGAGGCCACCTCATTCGCCTCTGCTGTGTCTGCAGCCTGTGACCTCTCACCTCGCTC
TCCTTCACCCATCCACATACCGCAAGGCCACCAGTTTCTCTCCTCATGCCCTTGGTCCTCTTCCCATCCACTGGGAGGTTGGGAACCCTGGCTCTAATCT
CAGCTCTGTCCTGGGCACACTGGGCGACAAAGGGTGAGTCCTTCTTCCTCTTCGGGCCTGTTTCCTCGTGGTGCACTGGGGGATGAGGGAAGTATTGGAT
GTGCTAGGGTCTAAAGTTCCTTCCATTTCTATGTCTCTGGTTCTGGGCCACTCTGTAGTTTCATGCTGTCTGCAGGGAAGTTCCTGGCCTCGATGGCCCA
GCTCCACACTGCCCAATTCCCCTCCCTACATCCTCTCCCTGCTGCATCATTCCTTCTCTACCTGTCCTCCATGATCCTCTTTCCTTTTCTAGCTGTCTCG
TTACTTAATTCCACGAAGGCAGGGGCAGTTGTCCCAATTCTGCAGATGAGGCCAGGCTCCTGCCACTTTGGAGTGCATAAGAAAGAAGGTCCCTCCTTCA
TCCGCTGACCTTCCCTGAGCCCTGGGCTGACCTCTGGGGCACTTCTCCCAAGACATCTTAAAACCAAGCTGGGGCCAAGGCCACCACTTGTGGATGGCTA
GACCTGGAGGAACCCTGAGTCAGTCTATTTCCACTGCCAGACCTGCTACTCACAGATGAGTGACTACCTCTCTGAGCTGCAGCCTGCAGCAGGGGGCAAT
TGAGATAGTTGTGAGGTCCAGTAGCTTGGGGCTTGAGGGCTGCTGCCTTTGGTGCCCAGCACAGAGCTGTAACTCCAGGGAATTCCAATTCTGATTTCCA
CATAATTTTCTGAAAATAATGTTCTCCTCTCTTGGCTCTGTAACCCCCTGCCAGGGGCACCTTGGCTGTCCTGTCCCTCCAACAATCTAACCCTCTCCYT
YATGTTGTAATTGCAGATTTTTGCTGGTCTTCAGCTGCCTGGTGCTGTCTGTGCTGTCCACTATCCAGGAGCACCAGGAACTTGCCAACGAGTGTCTCCT
CATCTTGGTAAGTGCTGGGAGTCCGGGACTGAGGGGGGCTGTGTGAGGTAGCACCTCTGGGCTGGGAGTCCGGGACTGAGGGGGGCTGTGTGAGGTAGCA
CCTCTGGGCTGGGAGTCCGGGACTGARGGGGGCTGTGTGAGGTAGCACCTCTGGGCTGGGAGTCCGGGACTGAGGGGGGCCGTGTGAGGTGGCACCTCTG
GGCTGAGGGCTGAAGGTGGAAAGAGGCTTCTCATACCATGGCTCAGAGAGCAGCTTGCTGTGCTGTGTTCCCTCAGCTGTGGCTGCCCCTCTCTGGGCAT
CATCTCCACTTTATAGCAAGTGTTGGGGGACCTCCTGCCTCTATGCAAGGGCTTATGATGGGTCCAGAATAGAAGTGAGTAGGCTCCACCCCTTCTCAGG
ACAAAATCTGCAAACTCCACGTGTGGTGGATTTTAGGTCAGTTTTTGCCTAAACACAAAACACCAAATGGAAGCCCCTCAGAGGGAGACAGCTGACAGCC
AGCAACCCCTTTTGTCACCAGGTCAGAGTTAGGGAGTCTGAGACAGCTGGGACAGGGAGGGCCTGTTGAGGAGCAGAAAAATCCGATCAKTTCATGGGGA
CCGGAAGGGGAGGACACACTAGGGCTTTTAGTCTTCTTGCAGGAGGCGGAGGGGGCCACCTGCCCTCCGGAATCGTCAAGTCCAGGAAACTCCAGGAGAG
GGGTCCGAGGAGGCCCTGGTCCCCCTAACCCAGGGACTCTTGGCTGGGTCCGCGCTGTGACCTGGGCCCCAGTTCTGGAGACTGAGGACCAGAACTCAGG
CCCCTGGTCCCACAGGAATTCGTGATGATCGTGGTTTTCGGCTTGGAGTACATCGTCCGGGTCTGGTCCGCCGGATGCTGCTGCCGCTACCGAGGATGGC
AGGGTCGCTTCCGCTTTGCCAGAAAGCCCTTCTGTGTCATCGGTAATGAGGCGCGCCCCGCCCGACCTGACCCCTGACCCCAGGAGCCAGGGTGACGCCT
TTACTCCCAATCCCGACTCTGACCCTGGAGACCCGCACAGATTCAGCGGACCCTCCCCCTCCCTCCCCAGTCCCCTGCCACATCCCCAGAAGTCCCCGSC
TCCGGGTCCGTGCGCGGGGTAGGCTGGCTGTGATCTCGCCGCCCCCGCCCCTGCAGACTTCATCGTGTTCGTGGCCTCGGTGGCCGTCATCGCCGCGGGT
ACCCAGGGCAACATCTTCGCCACGTCCGCGCTGCGCAGCATGCGCTTCCTGCAGATCCTGCGCATGGTGCGCATGGACCGCCGCGGCGGCACCTGGAAGC
TGCTGGGCTCAGTGGTCTACGCGCATAGCAAGGTGAGGCCTGCAASCCGCGCGCGGAGACCCGAGGGCGTGTCTGGGGCACGACCRGAGCGGGCAGGGCG
GAGAGGGCGAGGTCAGAGGGGCTGTCTCCGTGCTGGGAAGGGGTGTGGCCTGCGGGGGTTGGAGCCCTAGCAGGAGGCGAGGTCTAAGSGGGTGGGGCGR
AGTGGAKTCTGAATTAGGTAGGGGCGGGCCTAGGAGTCCGGACCGGATCAGGGGGCGGGGCCGGAGAGGCGGGGCTTGAGGGTTTCCCCTGGATGCTTCT
GGGTTTGAAGGGACCACTCGTACCACAAAGTGGGCAGCTGAGGTGGGACTTGAGGGTGGGGCTGGAGCGGGGCTAGGGTGGGCCCCAGGTGGAAGCCTGA
AAGTGGGACTTGGGGGACGGGGCAAGGTAGGCCGGGTGCTGGAGTCCTGAGCCTGGAACCTGGAGACTCAAGGCAGGCGGGGTGGGGGTGGGGGTGGGAA
TGGGGGTCGGGGTAGGGGGAGTGCTGGCGGTTTCGCGAAGGCCGGGGCAGGGTCGCCGTGATGGGAGGAGCTGAGAAAGAAAAGCGAGCCTGGGACTCCG
GGAGATGGGGGACCTTTATCCCTTTCCCGTGTGGAAGCCCCCCACATCTCCCAGGCAGGCACAGCGCTCCTCACCGCGCCCCTCCGCCTGCCCCGCAGGA
GCTGATCACCGCCTGGTACATCGGGTTCCTGGTGCTCATCTTCGCCTCCTTCCTGGTCTACCTGGCYGAGAAGGACGCCAACTCCGACTTCTCCTCCTAC
GCCGACTCGCWCTGGTSGGGGACGGTGCGTGAGGGTCTTTGTAGGGCTGCCCTTCTCCCTGGGATCCTCCCTGGGAACTTCCCGAGGTCTGCCCATCGTG
ACTCCTGACTCAGGGTTGAGCGGGCCTGCCCCTGCCCTCTCACTAGAGCTGGGACCCCCCTGAGACCAGCCCCAATGCTAACCCCCCAACCTGCTCTGGT
GGACCTGCCTCTGTCCCCAGCTAGCCCCGCACATCAAGACCTTGTGACTATACCCCTTTCCCCTGACCAGCCCAGGAGAGGGAGAATCCATCTATGACCC
TAACCAGCCCCCGTGGGTGACCAGGGGCCCCTTCCCTCATGATCAGGCTCCTACCTGCCTGTACCCCCAACAAGCCGTAGGTGGCCCCCGTGACCAGTCC
TGCCTGTAACCTGTTTGTGTCTCCAGATTACAYYGACAACCATCDGCTATGGTGACAAGACACCGCACACRTGGCTGGGCAGGGTCCTGGCTGCTGGCTT
CGCCTTACTGGGCATCTCTTTCTTTGCCCTGCCTGCCGTGAGTTGCCTCCTGCTCAGTTGGTGGGGGAGGCTGAGGGTGGGACCTGCTCACCCCTGTCAC
ACATTTGCCTGGGGAGCCTGGGGTACCTCAGAGGGGCAAGGATGGGGACACCCTTGCAGCCTCTTACTGCCCCACCACTGCYAGCACATTCCCCCAACCA
TGCCCTATCCCTCTAGGGCATCCTAGGCTCCRGCTTTGCCCTGAAGGTCCAGGAGCAGCACCGGCAGAAGCACTTCGAGAAGCGGAGGATGCCGGCAGCC
AACCTCATCCAGGTACAAGATGCCCGGGAAGAAGCCCTAGGAGCAGGGCCGTGTGACTGCACTGGTGTGTCAACCCTGTGTGCTGACCCATGTCCCCAGC
CCAACTGTGACACCACTTTGAAGCTCAAAAGGGCTATGTGACTTTCCTGGAGCCACATGCCAAGTCACACACAGAGCCAGGATGCTCACTGACAGTGCCA
GAAACTTCCCCCTGCACCAAATGCCTGGTTTAGGGCTAGCCAGAACTGCCCTATTGCCCAACTCCAGCCCAACTTCACAGGGCCTGGGGAGGGGCGGAGC
CCAGACAGGAGCTGGGAGGCCTCTGGTGGAGACCCACTGCTGCCCCCATCAGCTGTGCAGCAGTAAGCCTGCCCCACTTCCAGCACCTTCATTCATTCAT
TCATTCCACAAGCACTCACACAAATGAAGAGARGATGGTGCAGACAGGGCTTTTAGGAATCTCAACATTTAGCAGGTGGGTGGGCCTGCAAAGTTGAGCT
GGGCAAGGAGACAGAAGGAACAGCCAGAGGGGTGGGTAGGAAGCCAGGAGTGTGTGGTCTCAGTTTCCCTCTGTGCCATGGCGTGTTGTGACTGTGTGTG
GGCTGAGGCCAGGGCTCTGATTTTCTGTGACCCTGGGACTAGGCCTTGGCTTTTTCTAGTCAGGGGTGTGTGTAAGGGAACTCCTTGCAGGAAATGCTTC
AGGGAATACTGGCCCAGTCCACCTCTGCCTGCTCCCTAGCCTGTCACCCTCTGAGCCCCAAACCCAAGCCTCACTCAGCCCTTCCTTATCTCTCCTCCCC
AGGGTAGAACCCTCCTCCCTGTCGCTGTTATCTCCAGCCACCAGCTCAGCCTTTTCTTCTTAGCGTCCCTTGGGGCACAATGGCCACTGTCCCCTGGGAG
CTGGCCTTCTGAGGGGCATTGTAGGGGCAGGCGGCTGGCACTGTCCATGCCAAGAGACAGCTRGTATTGYGGTGCCCATAATTAATGAGACAGCTCTGGC
AGCTGCTCCCCAGCCCATGCCAGGGGCCTAGGCAAGCAGGAAGTAAAAATATTCCTGTCTTAGGAGGGTGCCTGGCTGGTGAGGTCAGCAGTGGCAGCCC
CTTAAGGACAAGAGGCATCCAAAGAAGGGAGGCGTCCAGGGCCCAGCTCTGCCTTGTCCTGCCTAGCAGCCTCCATGCCTCCCTGCTCTCACTGATGGCC
ACACTCACAGTCCCTCCCTGGCTCTTCCTACGTGGAGGGAGAGGGACAGTCTCTCCTCCTGTCTGACTTTCATCCCTCCTGCTGCAGAGGAAGCTCGGCA
AGCCCATGGATGCTGAGGGGTTGGTAGGTAATGCTTTTCCTCCCCTCTCAGTCCTTAGTATTCCCATGGGCAGTGACAGGCAGCTGGGAAAGATGGAGTG
GCATTGCTAGTAATAATAATGACATTCTGCAAACATTTGCAAAGCACCCACATGTGCCAGACACTATATTTGCACTGAGAATGCAGCGGTAACAAAGACA
CAGCTTGCAGTCTAGGGGGAGAGAAAGWTATCAGTCAAATACACAATGAATAGGTATTCATCAAATGTGATAAGGGGAATAACAGGAGTGTTTAACAGAG
GAACCTGGCATGAAGTGCCTACTATATACCAGGCACTGAGCTTGGCATTTAATATACAACTGTTCATTTAATCCTCACAACACCCTGGTAGGCAAGTAGT
GTTACATGCGTTTTACAGGTGAAGAAACTGAGGTCCTGAAGCTTTACTTAATTTGTCCTCACTAATAAGGGGCAGAGCTGGGATTGGAAACCCATGTCTG
CCTGACAACAAAACTCCAGCTCTTAACCTCTATGCTCTATGGCCCCTGGCTCTGACATTGATCTGCTTTGTCCCCTCGGGGAAGTCGTTTCTCCCTAGGC
CTTACTTTCTTGGCTGCCCCTGTCAGTGGCTGTGGAATTGGAACTGGCCTCTGGCTCTGGGTAACCCACAACTGGACCAAGGACTGGGTTCTTTCAGGGG
AGAGGGCTGGTGGGGACTGAGAGGCCTCACTGATGCCCCATCCCCCACGTCCCCCATACCACCAGGCTGCCTGGCGCCTGTACTCCACCGATATGAGCCG
GGCCTACCTGACAGCCACCTGGTACTACTATGACAGTATCCTCCCATCCTTCAGGTAGGTCCTGCTGGGGGTGGGGGTGGGTGGGGGGCTGGCAGCAATG
CCCTTTGAGGACAAGTGGCTGAGACTCAACCCTGGAGGGTGGAAAGGGGGTGATGGCTCCCAGGGGAGCACCCTGGGCTGGCTCTGCAGATCCTATGTAA
TTCAGAGCCTGGAGTGTCCTTTATTCCACTCTGCTATGCCCAGGGAAGAGGTGGATACTGGACATAGGGCATTGGTGAAGCCCTGCCCCATGGCTGAACC
CCGGCCCTGGAGTGCTGGCAGTGTGCATGCTCACCCATAGGTGATGCCATCTAGGGCAGTGATACAGCCAGCTCGTCTCCCCTCAGTCCTGAATGGGGGA
CAGAGTTAGTGGATATTGCAGCTGGTTGGAGAAAGTGTGGGATGGGCAGAAACATGTGTTCCAGACTTAGGTGCATGCTCCTACCCTGAACCCCCATGTA
GGAATATGTGCCCACTTTTACTGGGCCAGTCAGCAGCCTCAGGGCCCAGAAGTGGGTCTGCCCCACTGGCCCGGGCCAGGCTAAGACTGCATGGGGGTGG
CACCAGGAGAGGGATTATTAATAGCATCACAAAGGTGCGTGTGGCCAGGTGCCTGGCTAGGCCCTCAGGCAGGAATGAAAACCATGGAGCCCAGCTCGGT
CCCACGGGCAGGCGGGCATCAAGCTTGTGGCTGGGGCAGGATGCTGTGCTCAGCGCTTCTGCGGGTGCCTTTTTTGCCTCATTAGTTCTCCAGGAGAAGC
TGTTGCGCGATTCCACTCGCCTCTGCACCTGGCTTCCCCATCCCTGCGCCCTCCCAGCCCTAGGGGCTTCCCAGGGGAGAAGCAGGAGAGAAGGGGCCGG
GAAGAGGGGCTCCCAGCATCACACTGGTGCCCCCACATCTCTCCACCCGGCAGAGGCAAGCTCCTACCTCAGAGTGGGAAGGTGACTAGATTAGAAGAGA
GGCCTTTTGTTCAAGGCTGGGCATTCGAGAGTGGGGCAGGGCTGATTTGTAAGAAATACAATGTGTATGAGGGAAGATCTGGGGGTGGGGGTGGTCAGAT
GGTCTAGGACCTCTGCCCAGAGGAACAGAGCCTAGTCTGGAGATTCTGGATCCACTGGGCATCTGCTCCCTGGACCTTAGTTTGSTCATCCATRCAATGG
GAAGGCAGGCAGGAGAGAGGGAAGATACCCTCCTTGGCTCATGGCAGCAGAAAATGGCCTGGAGAGTTAGGAAGAAGCCACGGTCCCGAATCTAGTCTTC
AAAAACCCAGTGGCAAGAGTGAGTGCTGGAGGGGAAGGAAGCTRGGCTAGCCACCCTGTCACACYGCCCTCCTCACCTCCATCTCCCCTTAAAATCCAGA
GTCAGATCTGGAGGGAAAGGATGTCAGGGCCACTGCTGGCCTCTCTGAGGAGGCACGGCACGTTCAGGCAGTCAGCTTGATGGGCTGAGAGTAAGCTCCT
TGCACGGCTGCCCTTGAGCTGTGCCAGCCTTCACATCCATGCTTGGCATCCCTGGGAAYTGGGGGTAGAAAGGGAGTGGGGAAGGCCAGTCTCCCACTGT
CCACCCTGTCCTATTCTGGCCGGGCTGTCAGTGAACACCTCTAGAGCAGCAGGACCTGGCAAGATCTGAGCTCAGGAGCTCTGTGCCCACTGGGTGAGGG
GGGTGGTGCCATGGCCCTGCCTGCCACTGATGGTGCCCTCTCCTGCAGAGAGCTGGCCCTCTTGTTTGAGCACGTGCAACGGGCCCGCAATGGGGGCCTA
CGGCCCCTGGAGGTGCGGCGGGCGCCGGTACCCGACGGAGCACCCTCCCGTTACCCGCCCGTTGCCACCTGCCACCGGCCGGGCAGCACCTCCTTCTGCC
CTGGGGAAAGGTAGGGGCCCCGTGGGGCTGCCACCTCCTCTTGCTTCTCCTCCTCTTCTTCCATTCTCTGTCCTCATCCTCTCTCAGACCTGCCTTCAGC
CACTTCGTGGGTGTCTGGGCCTGTTTGGGGGACTCCTAGGCCGTCAGAGGGCCAGACAGGTACAGACTGAGGGCCTCTCTGGAGGGGTCAGGCTGGACTC
ACCTTTTTGTCCTGTGGGGCTCTGAGGGTCTGAGTGGGAGAGATGTCCATGCCATCCTTTCCCATCATCTCCTCCGTTCATGGCATTGTCCTCTTTCTTT
CTCTGTTCCCACGTYCCCCTTACTCCTCCATCCCTGCACCCCCATCCCTCCCGGGAAGCTGGACAGAGGAGGAGGCCACTGGCCACAGGTGCTTACGGCT
CAGGTAATCGTGGGCACCATCCTGGGGTGTGAGGGCAGGGAACCCCCTCCCCCGGCATGTTGCTCTAGGAGGGACTTAGTACTGAACTCGCCTCTTGGGA
ACGAGATGCCAGCTGGAAAGAGAGCTCTGTGATTAAGACCTCTGTAGGACCTGCGTAAACTCAGCCAGTGACTAATGTTCCTTTCTTGTGCAGCCCTTGT
CTGCAACTTTGCTAATCCCAGAGGGTCCTCTTGGGGTTCTGTTTCCTTCCTTACTGAGGTACACTTTGGCGCTCCCAGCCATCTCTTTCCCCTTGAACTG
TCTCTCCTGAAGCTTTTTACAAAATCTTGAAAGAAGAACAAAGAACAAACAATGCTTACCCCCACATAAACGTTCCTAAAGAGAAGAATTTCAGGCATGT
TTGGATAAGGGAAGCCCGTCCACTCACAGCATGGGAAAGTGGCTGCTCTTGTAGAGGTTTAGCTTTGAGGTCAGGGGTTAAATCCCCCTCATTCTTTTTC
CCTCGTCCTTTACCCATCTCTTTGTTTTGTCTCATCTTCACACATCACCCCTGAACCAGCCAAATGGACATCTGGCCTTTGAGCTTCAATGTCATTCTGA
GCCCCAGGCCCAGAACAAAGAATAGGAGAAGAGGCGAGCCGCCCAGTGATCAGCAGGGGAGGCGTGGTGGAAGCTCGCCTCTGCCACCCGATGCTGTGTG
TCCTGGAGGAAGCCTTCAGTCATTCTGAACCTGTGTGTCCTGGCGGAAAATCGGCAGTGTTTAGGCTGATTGGGGCTCTGGGTACTCTAGAGTTTCTGGG
CTGAAAAGGCCTAGGGAGGAGTTTTGGTGCAGAGGATGCAGGGAGCAGCCTCCCTTCCTTGTTCTCAGTGAGGGCACTTCTGGGCCAGGGGCTGAACAGG
AAGTGGGTGGAGAGGGAGAGTCCCTCCAGGTCTGGGGCTGGAGGGAGGGGAAGCGTGACTGCCAGGCCAGGCTGAGAGCTCCCTGGGAGAGTAGGGCCCC
TCTCAGATTCTCTGCCCGAAGGTCCCTCATTGTTACCTTCATCCCTACCAAACATAGTTTCCAGGCGGAAACTCAAGAGTTTTTGTATCCCAGCAATCCT
GTCCAGGACCTGAGCCAGGGCTCTCTGTGCTTCCAGTTCACTCTGGTCTCATTTTGACTGAATAGGAAGGCAAGGGGAATGGACATTAGCCTGGGGCCTA
GTACCTGTACRCTCCCCACGGCTCCTTTGGTCCCTGACACCCCCAGGGCCCAGGAACAGATTACTACTAAGGGCTTGGCTGTCACTGACTCCCAGCCTCG
TATCTATCTGCCTGGGAGGGGACTTGGCGAGTGTCTGGGACACAGGGTGATGGTAGTAAAGTGGCCCTTTCTCCCAGGGACCCCAGGGGGCTGAGCCATG
GTTTGTAGATCAGTCACCAGGCTCAGGCCCAATGGCCRTATCGTTAATCGTGGCTGTCTAGACYGCCAGCCAGGACACCCTTCCTCCACCAAAAACACAC
ACACATATACACACTCGGTTGGCCACACCTCTGGTGGTGCTTGGGGATGGACCTGGGCCAAGTGTGCCCACAGGAAGTGGTGCTAAAGGAGCAGGATTTC
CTGGGGGATGGCATTGCCAGGGCCAGCACCTCTCCTCTTCAGGGTTTTGCAATGAGTTTATCAAACCATGGTCTCCAGACCTCCTGCATCAGCATCCCAT
GGRGTGTTTGTTCAAAATGCAGATACCTGGACCTGTCTCCAAGCCCACAGGATCAGAATCTCTGGAGAAGAGACACAGCCTTCTGCATATGTAACATGGT
CCCCAGGGGATCCCTATGCAAAGTGTGAGAACATCTACGTTCTGGTGATGGGGCTGGAGGATGATTTAGGTGGGGGTCCTTCTTTCCCACCAGCTACCGG
AGGCCGGCCCCATCCCAGCAGCTCCCCACACTCTGCCCACAGCCCCTTTCCCGCTAACCTCTGTTCGTGTCTTATTCTCAAACTTCCAGCCAGATGTTTA
ATAATAAACGGAGTTTCTTTCGGATCCACGCCAGCTGGAGACCGAGGTACCCCCTCRCCTGCTCCTCCTGTCCCCACTCCTCCTTGCCCCACCCAATTTG
GGGGCTGGAGAGGGGACAGGATGGGCCAAGGACAAGGTGCATGTGCCTGCCGCCTGCCGTCTGCCTTGGGTGCCCAGTGAACCCCTCGCCTTTCTGGGAT
GCCTCTGCTAGGTCTGGGGCATGGGCCCAGGGTGCCAGGAGGGGCACGTGCAGGAGCCTTAAGGATGTGTGCTGGCTCTGCTGCTGATGCCCTCTGTGAT
CTTGGCCAAATTGCTTCCCTTCTTGGACCTCAGTTTTCCGTCTGTGGAATGGGCAGATTGAACTAGAGGACCTCTGAGGGTCCTTCTCACTCTGACTTTT
GCCAGGCCTTGGGCTTAGCTTTCTGTCTCCCTGCTACCCACCTGGGGACCTAGCAGATGCCTGAAGGAGCTGGGTTTGGCACCTTTGCCAGCTCCAGGAC
CCCAGCTCTTTTAGCGGCATCTCCATGGCATTCCTTGGTACCTGCCCTGTGCCAGGACTTGCTCTGTGCACTAGGGACACGGTGATGAATAAAACATCGT
CCTCGGAGAGTTGCAAAGAGTAATTGCAGCTCAGTGTGATGAGTGCAACAAAGGGAGGAAGCACAGGGGCTGTGGAGCCCGGGTCAGGCACACAACCCAG
AGGAAGCCCTAAAAGCAGTGGGTTTCAGGGAGGGCATTCCAGGCAGTGAAGCAGCACGGACCCAAGCAAGGAGGCAAGAGGGAGCACAGTGTGGGGAAAA
AAGCTGGCAGCCCAGTTTGGCCCCCCTGAGACTGGACATCAGAGCGAAGGTTGGGGGCAGAGCTGGGTYATGCAGAACCTAAAAGCCCAGTGTGAGCTTC
ACCCTGTTGGCATGCTTGGCAGCCTGAGCTCATGGAGTCCTGGGTTTCCAAAGGTGCCTCTGGGGCCCTGTGGGCTGGGGTCCCGGAGCTAGGAGATGAG
TGGCAGGGCTCCTGGCTGCCCATGTGTGCTTCTGCTGAGAGGTGTTTTTTCCTAGAAACGTGGGTTCTGGACCACAATCTAGCTACTACCCACTATTCRT
GTGTCCTTGGGCAAATCACCTGACCCCTTTGCACCTCAGTTTCCTCAGATGTAAAATGCAGATGTAAAYAGGGTCTGCTTCCACTAAAACTGGACCTGGC
TCCAATAAATATTGGCCTTATTTGATTTGGTATGTTCAGCAGTTAAGATCTTATTTACCTTAAAAGAAAATAGCTTAGAAACCATGGCTGTGGGCAATGG
TTTGAGCTGAAGCGTTGAGCTAAGGAGTYTCTGGGTCAGGCCCRCCATTTTGCAAGCCTCCTTTGGCTGTGGAGGGTGTGGACAGGAAGGACACAGCCAT
GGCAGAGGCCAGTGGCGAGGCTGTTTCCATAGTCCCTGAAGAGGGGCTGTATGTGGCTTCAGAAGTCGTAGGCTGCCTCTGTTCCCCCAGTGAGAGTGGC
CCTGGGAGGGCAGATCATGAGGCCCTAAAGAAAGTCCTTGTGGAAGTGAGTTCAAGGGGTTGGGACCAGCAGGGCAGCCTGGGCAGAGCTCGGCCTCCCC
AGCAGGGCAGCCACAGTCCAGCCCACCCCATCTTTCTCCCAGGTACCAACAGATCCTTAGCCAGAGTTTCTTGACCTTGGCATCATTGACATTAGATAAT
TCTTTGTGGATTGCGACTATCACATGCATGGTAGGATGTGGAACAGCACCCTTGGCCTCTACCTACTAGATGTCTACCTACTAGACATTGCCACATGTCC
CCTGAGTGGGGGAACTTGCTCCAGTTGAGAACCACTGCTCTACACCCTATCCTGATTGCTTGACCCAGAAAAAGAACATAGACTCTGAAGTCAGAGAAGG
CTGGGTTCCAGTTCTTGCTCCATCTCATAGGAGCTCTGTGACCTTGGCCAAATCATCTCACCTCTTTCCGTGTATATAAAATAGGGATGGTAAAGACCGC
CCACCACACACAGTGGCTGAGAGAACTGAAAGAACTAAGGCAGCCTGATGGGACCCTGCACGTTCTGGGAGCCTGGGAGGGGAAAGAGCTTTTTGGTGCC
CACTGTGTGCCAGGTTTTCTTCCACCTTCTTTTAGCTTTCAGACTTAGAGGAGCTGATATGAGCCATTTTCTGGGCCCTGCCCAAGGAACTGGAATCCAG
ACCCACTCCTGGGAAAACAGTGCCTTCTTGCATTAAAAAGGAGCTCAGGGCCTCTGGCTGGCTGGAAACTTACAGAACCCCACAAACCAGACTGGAAGCT
TCCTCAACCATCACAGAATCAGAGCTGGAAAGGGACCTTTCAAGGTCTCTAGTGCAAGCCCTCGAACTCCTTCCTCCATAAGTCCTGCTGAGTGCAAGCT
CAGCCTTGCTTGCATTACTTCTTTTGACAGGGAGGTTGCCCTCTTCTCCAGAACGCCATTGGAGCCTTATGTGGTGGGCGCAGTGATGTGGAGTTCCAGG
CCCTTGGCCAAAGTGTCAGGGCCTTCTCCACTCTCCTCTCTTCCTCTCCCTCTTGGAGGAGTGGAGGACAGGAGAARGGGTTGCACGGACCGGGCAGGGT
GGAGGGTGCTTGCCAGCATGAGGGAGCCTGCAGGAATGGCTCTGCAGAGGAAAGTTTGGGAGAGCCAACCTCAAACTTTGATTGGAATCTTTGGGATGTG
TCGATGGAGTCCTGGGCCAGTGGAGAGCATGCTGGATAGTGGGAACTGGGAACTGTCCCTGTCCTTTTGATACCCTCAGGGCCCCCATCCTTGACCTATT
AACCTCTCCCCTCTGGGCAGAGGCCGCCACCCCTAAGGATGGCCCTACATCCTGGCCACCTTCCTGAAGGTGCCCCTGGTTTCGAGGTCTCCCTCACTTC
AGCACCTTGGCTCCCTCCCCTCCACCCCATGCCCTGGGCATGGGAGACCCCAGTTCCCACCCAATACCGAAACCAGAATCTCTTCTCTGCTCAACCCTTG
AYCTGAAAGCCTCTGAGAGTAGGTGACACGGTGTCCTCCCCCAACTCCTGCCCCACTTCAGGTCTCCTCTAAGGCTGGCTGGTACTCTCTTGATCTGGGG
CCCCAGACATTTGGGGTGGGTCCCCCTGAACCCRAACCTGAACCTGTCGGAATCTCTAGTGGCAAACCACAGCAGGGGAGGCAGCGATGACGTCACAGGG
CATGGGATGGAGGACATTTGCRTAGGTCCTACCCCAACAGCCATAACATTGTCCTTGAACCTCTTGGACACAGAGTTACTCTACCAGATCATGGTTAACC
AGGGCTTGTCCTGGGGAATGAGGCCTCTGCTAACTTGTTTTCCTCCAACGTTTGGGGAACRTGGTGGGGAGTTGGATGCGGGAAGGGAAGTCTGAGTGCA
TGTGTAGACGTGCACGTACACGTTCACATGCACACAGACTGTGTAAATGCTGTTGAACCGGGAGCTCAGTAGGCAGTATSGGGGGGTAGATCTTTAGCGG
GGATCCAAGACCACACAGGCAGGATGTCAATCAAGGTGGGCTGAACTTAGGTAGGAGAGACCACAGAAGAACATGTTATCAAATAGAGACCCTCACTGAG
AGGGCAGGCACCAGGCATGGCCTGGGCATACATGTGGGCCCAGCAGCTAGAACCATGGGGCCGAGGCCCTCAGTAGGCCATCACGCTGCACRCCTCCAGG
GCACCACTGCATGGAAGTCTGTGTGATGGAGTCCTTATTTTGCAGTGCACTGCCTGCACAGCTGTACGAGGCCCTAAAACCCTGACCAGTGTGGGATCAG
ATAGCCGCAGCAGTGGGGAGTGGAGGAAAATATGAAATGACACATGTAAACACACGCCAACATATGTACACACACCAGTGCCTGTACACCCACACTCGCA
CATGTGTGTGCACAAGGTGTGTGTGTGCATGCGGGCGTGTGCACAGGCCTGAGCGCGCACACGTCTTCTGTGTTTGCTGTGAGGACTGGAGGCCTACCTC
CGTGTGCATGGCCAGGTGAGCTTCCGACCCTCAGCAGCCTGTCTGTGCCCAAAGGGGTCGCCACCCCCACCCTCTGCCCACTCACCTGCGCCAGGCCCAG
CTCCCACATCCTCCTGTCTGTGTCTCTGACTTTGGATTTCTCCCACTCCTTCCACTCTGACATCTGTCTCCTGTGCACCCCTTATCTGTCCGGGTGATGA
GGGGTGGGATGTGGGTGGTGGGGAGAGGATCTGCTTCGACTGACCCCGAATCAGCCTCTTGTAGGAGTGAGGGCCTCCCTTACCACATCCTTGTTCCATC
CCAAGAAGTCTCCGCTTGGCGGGGAATCCAGACCTAATAGCCACCCCCAAGTCCTAAGTCAGCTTTGTCCCCACTCACCCCCACCCCCAGCTCTGGCTAA
CTTGGCTCTCTCCCAACCTGCCTGCCCTGCCAGCAGCCGGATGGGCATCAAAGACCGCATCCGCATGGGCAGCTCCCAGCGGCGGACGGGTCCTTCCAAG
CAGCAKCTGGCACCTCCAACAATGCCCACCTCCCCAAGCAGCGAGCAGGTGGGTGAGGCCACCAGCCCCACCAAGGTGCAAAAGAGCTGGAGCTTCAATG
ACCGCACCCGCTTCCGGGCATCTCTGAGACTCAAACCCCGCACCTCTGCTGAGGGTAAGCCCCCGGGGGGCTGAGTCCGATCGAGGGCCRGCTGAGGGTG
GCAGGGCGGGGACAGTCTGGGCTGGGAGCAGAAAGATCTGGCTCGCGTCTCAGCTCTGGAACTGATGGACCGTCTTTGGGCTCTGGTCTTCTCATCTGTA
AAATGGGCATTATAATATTTGCTCTGCTATACAATGGACATCAGACTGTTTGGGAATCACGTGGAGGGTGGCATTTCATAGGGGTTAGCAGCACAGGCTT
TGGAGCGAGACTGCCTGGATTTGCATCCTGGCTTTGTCACTTATCTTAGGCGAGTGACCTAATTTCTCTGGGCCTCATTCTCCTCATTCATAAAATGGGA
ACAATAATAGCATCCACTTCCTAGGATTATTGTGAGGATTAAATGAGATAATCCATGGAAGGTGAACAGAAGACTTTTGGGAATATAGKAGGTGCTCAAC
AAATAGCTAAACACAAATGTACTTTGGAAGCGGCAGGAATGCATCCTTGATGAGCCCTGACTATGCACTGCCCAGCACTGGCTTATCTCATTTACTTCTC
CCAGTGACCCTGGAAAGTAGGTTCTGTTTTTGTCCCCACTTTACAGACGTGGGCACTGAGATCTCTCAGCTTGTGAGTGGCAGAGGTGCTCTCCTCAAGC
AGGTCTATTCAGCTCCAAAGCCCAGGCCTTCTGCCTACCCCTCTTCACCCAGCCCAGGCTGCAAGTATGAGACTGTGGACCATGCTGATGTCACTTTTCT
GAGTTTTGGCTCTGCTGGAGACTTCCACTGTGATTTAGGCAGGAGACTGCCCCTTTCCATGCCTCAGTGTCCTCTTCAGGAAAATGAGAGGGTTGGACCA
AGCCCCCTGGAAGACTTCTCCCAGCTTTGACATACTTTAGGCCCCTGGGTGGGGAGAGGTGGGGTGAGTGCACAAGGATGGGGGATGGGGACAGCTCCCC
CTTTGGCCTTGGAGGGAGGGGACCCAGCCATGCTGTTTCTGCCTGTGCTGTGTCAGCCCTCAAGATGCTGCTGGCTGACACCTCAGAGTTTACAGAACCC
CATAGACCAGTCTTTGAGAGGTGCTGCCCATAGAAGCCTGGGCACAGCTGGTGCCCAGGACCTCCCTTCCCTGTCCTGGAAGCTGTCCGGGCTCTTGCCA
CTGCTCCTGTGAGGCAAGGACAGCATCACCTCTCTGCGCAACACAGGGCACTAGCCTCAGAGAAGCTTCTCTCATTCAGGGAAGAATGGTTTGTTTTAAG
GGCCTTCCCTAGTAGCAGAGCTGGGCCTGGGAGCCAGCCACTTGGGTGTCCTTCCATCTTAGCTGAAGGAGAAGACTGTGTGCATGATTACATGCAGTGC
CATCAAACCCCTTATCTCTGGGGCTCACTGTTCTGCAAGGTGGAACCAGTGGGGCTTCCTCCAGGGCTTTGTGCAACAAACTTGCCCTGGACTAGGCCAG
CTGTGCCCTAAAGCAGCTCCCACCTACCCACCAGGCAGATGTTTACCCTGACTGGCCACCGGGGCAGATGGGCATGCAACACACTGGRGCTTTCCACCCT
GGGGAGGGCAGTGAGACACAGGAGCCCCCAAGAAGGTTCTGAGCCCTTTCTGGGCCTCTGTCTTCCTATTGGACACTCTACTGGTGGTTTGGCATACAAG
GGTCGGATGGGAGGTTGGGAGTGGCCCCTTYGGTGGGCCACTTGCCCCATACCTGCCTTTTCAGATGCCCCCTCAGAGGAAGTAGCAGAGGAGAAGAGCT
ACCAGTGTGAGCTCACGGTGGACGACATCATGCCTGCTGTGAAGACAGTCATCCGCTCCATCAGGTAAGACTGAGGCCTGAGGCGAGCACCCCCCTCCGT
GTGCCACCCACTGCTGCTCCCCATCTGGGCGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAA
AATACAAAAAATTAGCCAGACGTGGTGGTGGATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTG
CATTAAGCCAAGATAGTGCCATTGCACTCCAGCCTGAGCAACAAGAGTGAAACTGTATAAAAAAAAAAAATGTATTTTTTATGGTGGGTCTTGGTCAAAA
AAGTTTGAAAGCCCCTGCTCTACTGGCTGTCTCCATGCCTCAAAAATTAAGCAGGGACCAGGGTCTCCTAGGCCACGGCCTAGGCATGGATCTGGCCTCC
AAGCTCCTTGGTGTGCCGTCCTGGCCTAGTCTCCATCTCCAGCCTGCAGCTCTAGCTCCAGAAACCCCCTCAACCTCCAAGTTTTCTGGGCTCCCCACTT
TCTTCCCTGGCTGATACACCTGCCCACAAGCCTCTTTTCTTGTATTCCTTTTAAAATTAGAGTCAGGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAMC
ACTTTGGGAGGCTGAGGCAAGAGAATCACTTGAGGTCAGAAGTTCGAGACCAGCCTGGGCAGCATAGTGAAATCTTGTCTTTGCAAAAAAAAAAAAAAAA
AATTAAAAAATTAGCCAGGCATGTTGGTGTGCCCCTGTAGTTCCAGCTACTTGGGAGGCCAAGGTGGAAGGATGGCTTGAGTGCAGGAGTTTGAGGCTGT
AGTGAGCCGTGATTGAGCTACTGCACTCCAGCCTGGGTGACAGAGTGACACCTTGTCTCTAAATAGATAAATAGATAAAATCAGAGTCAGCTGGACCTGT
CCCCACTACCCCCCACAGTCTGAAGCCTCTGCTTACCCCCTTTTCACCCATCCATTCTCTCCCCTCCATGTGCCCAGTGTCAAGGACATAGTACCTGACC
TGCCACCTGACCCAAGCCAGCTCTCCTGGGCCACCCCACCGACCTCTCAGCCAGCATGCCCCAAACCTGCTCCTCTTCCTGGGCTGGTTCCCATTTCAGG
CAGTGGCACCACCATCCACTTGGTCACCCAAGCCATGGGAGTCATCCTGGACTCAGACCAGGGAGACTTTCAGCCCCACCTCCTGAACTGCTCCAAGCTC
TTCCATATCTCCTCCCCCATCCCCTAAAGCTAGTTTCCCTGCCCACGCCTCTGCCCCTCCAGGGTATTCTCCACACAGGCTGGCAGAGCTGGCATGCTAA
AGCAGAGTAACTGAGCCGGGAACAGTGGGTCACACCTGTAGTCCCAGCACTTTGGGAGGCTGAGACGGGCAGATCGCTTGAGTCCAGGAGTTCGAGACCA
GCCTGGGCAGCATAGTGRGACCCCCATCTCTTTAAAAAATAAAAATTAAAAAAAAAAAAAACAGAGTTATTGATGTGCCTGCCCCACAATGTCCCATTGC
CCAGTCTCTGCCAGAGATGCAGGGCTCTTCAAAGCACACCCCAGCCTCCTTCTCGAGGCTGATCTCCTGTCTTCTCATACCATGGCACCCTGAACCCCAT
CCTCCACCCCGGCTGGTTGATTAACCCCTTTCCATCTCATCCCTGTTTCTGCTACTTGGAGGTAGGGGAGGCTGGGAGACGCAGCAGAGGCTGTTCATGG
TGGCCAAGCAGGAGGTGCCCTGGTGCTGGACAAGGGGATAGCAAAGAGATGGAGAGGGTGCTGGGAAAGAATCCCTGCTCTAACAGGACACTCCCTCTGA
GCCCCCTCCCCCAACAGGATTCTCAAGTTCCTGGTGGCCAAAAGGAAATTCAAGGAGACACTGCGACCGTACGACGTGAAGGACGTCATTGAGCAGTACT
CAGCAGGCCACCTGGACATGCTGGGCCGGATCAAGAGCCTGCAAACTCGGTGGGTGCACCGGGCCTGTTGGGAGGCAGGGGCAGGGAGGCAGCGACCCCA
GCCCTGAATGAAGTCTGAGGCCAACCCCCGAGCACCCCCAAGGGCTCACTGCTGCAGCTGAGTTTCTAGACTGAGGAGGTCCCTGGCTTGCAGTGCCAGC
CTGAGGCCAGACCCAGCACCCGTCCCAAGGMTGAGAAACAACCCAACCATAGTTTCTCTGTGAGGTGGGTCCTCTGTGCAAGCCCTATTGACTCATAYGC
CTTGSGGGCTTTSTTTAGAATGACTGTTTCCTGGTCCTAAAATAATCAGCCTAAAATAATCACTGACCTCCCATCTCCCAAGAGAATAGGCAAATTGTCC
TCACTGCCCACCTCTTGCCTCTGGAATCCTCCCACATCTCTCTGGTAGACCCAGCATTAGGAAGAATCCTCACCCCAAGACCCACATCACCTGCACCTTG
CCCTTCTCCTCTTCTGGCCTGCATTTTCACTGTCCACTCATTCATTTAATCACTCGAGAAATAGTCAGTGGGCATTTACTACTTGCCAGCCTGTGGGGAT
ATGGCAGAAAGCGCAGCAGAGTTCCCACACTTATGGAGCTTTCATTCTAGTGGAAGGAGAATAAGTGATAAATAAGTAAAACTGGAATATGTCAGACAAC
GATAAATACTAAGGAGGAAAATAAGGGTCAGGCTGTTAGGGTTTGCAATTTTAAATAGGTGAGAAGGTTCTAGAGGGAACAGCAAGTGCCAAGGACTTGA
GAGGGGCAAGTGGCTGGAGTGTTGGCTTCAGCACAGCAGGGAGCCTGGTGTGGCTGCACTGGAGTGAGAGGTAGRAGGTGAGGTCAGAGGGCTAACGGCA
CTCAGAGAGTGTAAAGTCCTGTAGGCCCCTGCAAAGACGTTGGTGTTCATCYAGGATGAGCTGCAAGCATTGGAGGGTTTTGTGCAAACGACTGACAAGA
TCTGAATTGTCTTTTAAAAGGATCACCCTGGGTGCTGTGTTGAGGATGGACTTAGCGGAGTGAGGGTGGACACAGGTAGACCAATGAGAACCTGCTTCAG
ACTTCCACGCATGAGACCGTGGGGACTTGGAACAGAGTGGCAGCTGCAGAGGTGGGACAAGTGGTCAGATTCTAGATACATTTTGTAGGCAAAGTTGACA
GGGTTTTCTGATGGGGTGTTAAGAGAAAGAAGAGAGTCAAGGATGAAGCTAAGGTTTTTGGCTTCAGCAAGAGGAAAAATCGAGTTGCCATTTGTTGACA
TGGAGAAGGCAATGAATGGAGCAAGTTTCGGTCAGGAGATTTGGGAGGTGCCGGGTTTGTGATGCCTATCTGACATTCAAGTGGAGTGTTGATCTGGCAG
TTGAATAGAGAAGTGTGGAGTGCAGAGCAGAAGTACAGGATGGAGATGAAGATTTGGTGTCGAAAGTGTAGAGGAATTGAAAATTATGGATCTGAAGACA
TCAACTAGTGAGTGGAGTAAATAGAGAATAGAGGTCCCAAGAGTGAGCCTTGGATCCTGCAGTGTTTCCAGGTTGCAGAGATAGAGGAGGAACTAACAAA
GGAGACTGTAAAGGAGAGGTCAGGGAAGTAGGAAAAGAACTGGGAGAGGGTGGTGTTTCAAATGAAGAAAGGGTTTGCTGGAAGAAGGGGTGATCAGATG
TGTTGAGTGCTGCTAGTAAGTCAAGTAAAATGAGGACAGGAGTTGATCAATGGATTTAGCAACATGGGGTTATTTGGGAGCTTGACAACAGTAGTTTTGG
TGAAATGGCAGGGGTGAAAGCCTGACTGGAGTAGGTTTAAGAGAGAAGGGGAGGAAAGGAATTGGAGGTAGAGGATAGAGATAACACTTTCAAGAATTTT
GCTGCAAAGGAGAGCAGAAAAATAAGGTGAGGTCAGTTCTAGCCTTGTCCACCCACCTTAAAAGTCACATTCCCACGTGTCTCCACTCCTCCCATCCTCT
TTCCCCTTTTCCCCAATCCATCTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTGAGACAGTATCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTG
CAATCACAGCGCACTGCAGCCTCGACCTCTCCGGCTCAAGTGATCTTCCTGCCTCAGCCTCCTAAGTAGCTGGGACCACAGGCATGAGCTACCATGTCCA
GCTAATTTTTAAAAAATTATTTTTGTAGAGAGGAGGGCTTGCTATGTTGCCAAGTCTGTCTCGAATTCCTGGGCTCAAGTGATACCTCCCTACCTAGCCT
CCCCAAATGCTGGGATTATAGGCATGCGCCACTGCGCTGGGCCTCCTAGTCCACTATTTCCATTCCTCTTTCACCAGACGGTTGTTTTACTTGTCAGGTT
CGTGTGTGGTGCCTTTGCTTGGCCAGTGGAGAACCACCAGAGCAGGGGCCAGTCCCTCCACCCTCAACTCAGCCTCCATCTGGCAGGGCAATGGCCCCTT
CCCTCAGATTGCCTGTCCCCTCGTGGTGCCTTCTCCTTCATCAGGCAACCTATAATTCTTGTGGAAGGGAGGGACGGCGTGTCCCCGGGCCCTCTGATGG
TTCCCTTACCCTTAGGGTGGACCAAATTGTGGGTCGGGGGCCCGGGGACAGGAAGGCCCGGGAGAAGGGCGACAAGGGGCCCTCCGACGCGGAGGTGGTG
GATGAAATCAGCATGATGGGACGCGTGGTCAAGGTGGAGAAGCAGGTGAGTGTAGGATGGGGTGGCGGAGCTGGCCATACCAAGAAGCTCTGGGGGCCGC
GGTGACATGGGGAGGATGCGTTTCCCACAGCCACAGCCCAAGGGTCCCCGAGAAGACCTAAGAGCCCCCTCCCCGGCCGAAGCCCCCGCCCTCGCCGCCA
GACATTCCCATAAACCCGCCCTCTCCTGCTAAGCCCCGCCCCCAGGCTGCATAAGCCCGCCCATAACCTTCAGATAAGCCTACCTCAGTTCCCCCTACTC
CATTTGACCCCGCCTCTCAGTTGTCGCTGTAGCTCGCGGACTATCCCCATCGGTCACACCTAACCACCCCCCGGGTTATGCACCAGTGCCCAGCTTCGCC
CCTCGCTCTAGCCAAGCTCCACCTTTCCAGGCGGGATTTGTGCTTCCCAGATAAGCCCCGCCCACTCCACCGGCTAGGGTCCGCCCCGAGACCCAAGCCC
CGCCCCCGGCCGCGTCCCCTCCGGTCCCAGGCCCTGCTTCCCAGCTGCGCCCCGTCCCCAGGTGCAGTCCATCGAGCACAAGCTGGACCTGCTGTTGGGC
TTCTATTCGCGCTGCCTGCGCTCTGGCACCTCGGCCAGCCTGGGCGCCGTGCAAGTGCCGCTGTTCGACCCCGACATCACCTCCGACTACCACAGCCCTG
TGGACCACGAGGACATCTCCGTCTCCGCACAGACGCTCAGCATCTCCCGCTCGGTCAGCACCAACATGGACTGAGGGACTTCTCAGAGGCAGGGCAGCAC
ACGGCCAGCCCCGCGGCCTGGCGCTCCGACTGCCCTCTGAGGCCTCCGGACTCCTCTCGTACTTGAACTCACTCCCTCACGGGGAGAGAGACCACACGCA
GTATTGAGCTGCCTGAGTGGGCGTGGTACCTGCTGTGGGTGCCAGCGCCCCTTCCCCACCTCAGGAGCGTGAGATGCCAGGTCGCACAGAGGGCAGCAGC
AGCGGCCGTCCYGCGGCCTCTGGGCCCCCCAGTGCCCTGCCCACTCCATCAAGGCCCTATGTGGCCCACCTGGCAGGGGCACAGCCCCGGGAGTGGGAGC
GGGCGCTGGGGCCCTGGGCCCTGACCCAGCTTCCAGCTATGCAAGGTGAGGTCTCTGGCCCACCCTTCGGACACAGCAGGGAAGCCCTCCCGCCAAGTCC
CCGCCCCACTTGGGGGTGGGCCAAGGTGCCCCCACAGGTACCCACAAAGCACAGGACCCTGCCACAAGGCAGGTGGACACCATATATGCAAACCATGTTA
AATATGCAACTTTGGGGACCCCCATGGGGTCTCTCTGTCCCTCCCCCATTGGGAGCTGGGCCCCCAGCAGTAGCTGGTCTCAGGCTGCTTGGCCACCACC
CTGTCCCTATTCTTTGGCTTATCACTCCTTCCCCTCCCAGCATGGGGCCTGTTTCTCCCCTGCCCTCTCCTAAGGGCAATGCCTGGGCCTTTCTTCCCAT
TTGCAAGTGTCAGCTCCCAGGGGCTCCCTCCTCCTGCTGGGTGGCCACTCCCCTCCTTGGCCCTCCAGACACCACTCATAGTCAGCACAGGTTTCTGTAT
CCTCCCCAAAACTCCCAGACAGTGCTTCGTGGACGATCGCACAAACATAGCCTTTTAGTTTCTCCAGACAGGAAGAAAGCCTCTCACACTTAAACATGCA
ATGACGTGACACACTTGGAGACATGAGTGCAGAGCCACTCAGCCGCTCCTGGGCCTCTGCAGCAGATGCCAGTGGACTGGCCTTGCAGGGTGACGWCCAC
TAAGAGGAAGACCCCCAACTCCATCTGAGCAGGAGAAGGAGCTTTGAAGTAACCCGAGAGCTCTCCAGGCCCCACCCAGACCTTTACCCGCTCCCCTTCT
TCAAGAAGATCTCCTCCTCTCTGGTCCAGGAGCCCTAACCCACTGCCTCTGCCTGTCCCCAAGGGCCCGCCTCCGTGTCTCCACAGCACAACTCGGGCCC
AGGCCTGACACCACTGGAGAGACCCCAGGCCCACTTCTAGCCAGGCCTGTGCCTTCCTAGTCACTCTAACTCCCAGAGAGAATAAGAATGCATGTAATAG
CTATACCAACCGCGCATCCGGCTTTCACATGCACTGTCTCCCCTCCCTCCACACCCCACTTCTTCACTTCAATTGGCAGCGCCACATCCAGGCGTCAGCC
CCCATTCACTCCAGGAACACTTTCTTATCCCCACCCCTTTGCTCCTCTTCTGCAAAGCCAATGCAGGTGGCAGGAAGGTGAGGGGTAGTGGACCAATGGC
AACCCTCTGTGGGAACAAGGGGCCGAGGCCACGCTGCCTGCATCTCGTGCTGGGGACCTGCATGCGCCAGCACCAGGGCTTGGACTGGATCTTACTCAGT
CCATGGTGCCCAGCCTCTGCCCCAACATGCCCTCTGCATGTGACCGTCATGCCCTGGATGGAGCCACTCCTGGCTCACCCCACCTGCACTGCACTGTCCC
CAGAGAGCCACCCCTCCACCCACTCAGAGACAGCTGTGGAGAGGGCCAGGAGAATGGGATTACCCTATGACCAAGGAGACATGGGAAGAAGCCCTCCTTC
CTTCCACGATCGAGGTTCCGCCATCAACTCGGTTCTCGGATATGCAAGTACCTCACTTTGTTAACTTATTAACTTATTGGTTTCATTAAAGTTTTCAAGA
GGAGGTGATTGTTCTTGGTTTTGTTCAGTGGCTGTGAGGTGAGGCTCCTGGTTTGGGGGTGGGGACAAGGAGATTTGGATTGGTCGGGACTCTTTGTTGT
ATACAACAAAAACCCAACCCTGTATGGTTTAAACAGACAAACAAAAAGAAACTTATTGGCACAGAGAACTGAGAAGTCCAGGGGATAGATTTGGTTTCAT
GCACAGTGAGATCTAGATGCTTAAACGTGTCAGGACTCTTGTTTCCTGTAAGCCTTCCTTTCTGGCAGGCTGACCTCTCATGGTGACCAGTAAAATTGGC
CACCACTTTCCTAATAGTTTGCATCAGTCAAGATCAAGTCAGGAAGGCAGAAACAACACTAAGTTTTTCAGCAAAAGAATTTATTATAGGTAATGGGTTA
CACTGATGCAGGAGGGCTGAAAGAACAAAAGAGAATTTTCTCTAGGTGACTCTGAGATAGCCTAGAGAAAATAACTGCAGAAAGCAGTTACCACTCCCAG
AGCTGCAAGAGTATAGGAAACAGGTTGGGGTTATCAGAACCCACAAGCTTGCGGAGAGGGAGCCCGGTAGTGTTGGGGCTCAGAGATCTGAAAAGGAGGT
ACTCCCTGGCTGGTGCTAGTACCTCTTAGGGGACACAATGAGGCTTGTCTGGGAGTATGGGAAAAAAGCCGAAGTCTGGGATCAACTGTTGCAACCTGGC
TGTTGCTGATAAGGATAGGAAGCAAAGGAAGAGAGAAGTCTCCACTTTTCTTGCCTTCCAGTCTTCCCCTAGTGCCCCTTATTGTCAAAGCTAGCGAACA
AAGGAGTGATGTGGTTTGCAGAGTCCCAGCCCCAGTATCACAGAGTTAGAAGGCTGCACTTGGAACTGAAAGACAATAACATGGGCACGGGCCACCCCTT
TGGACACACAGTTTCCACAAACATCAATCCATACATACTTGAACCGCCATATAACGACAGTAGCTTCCACCTAGTAAGATGAAACTGTCCTTTATACAAA
TGAAGACACTCTAGTCCCCTCCCCCTAAATGGGAAAAACACAACGTCCCACGGTTCAACAGATGCATCCATCTCCAGGGGTTAGTCACTGAATCCATATT
TGGGTTAAGTATTCCTCTAATTCAGGCACAATTCCACCTACAACTAAACACTAAAGTAAAGTTGATCATCACATACAATGTTTATATAAAATATGGGAGA
AAGGAGGAGGGAGGAAAAAATAATATGTACAGTGCACACACACACATGCACACACATCCCAAGCAAGGAAGGAAGTACGCATAGCCGCAATCGACCTCTT
TCTGGTATCTCTGGTCACAGTGCCATGGTTGGTATGAATAATTTCCTTATTCCATTGCCCTTCCATGTTTCCTTTGCCCTCAGCCAACACCTCAGCTTTT
TAGGGACCTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTTGGTTGCCAGGCTGGAATGTAGCGGTGCGATCTCAGCTCACTGCAACTTCCACCTCC
TGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCCAAGTAGCTGGGACTACAGGCATGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGG
GTTTCACCATGTTGGCCAGGATGGTCTTGATCTCCTGATCTCGTGATCCACCTGCCTTGTCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGC
CTGGCCAGGGATCTTTATATGGTGGAGTGACCCAGATAATCATTCCTGAAGGGTCTGAATCCTCAGCGGTCCTGCATGGGTGGGTGTCACAGCTTTTCAT
TGACTTTTGCTATCATACATGGAAGTACTTATTATAGAAAGGCCTTAGAGAATCCCTTGGGTTCCAGACTTAGTCCTCCTTGCCCTGTTGTGTGGCAGCA
ACCAATTTCCGCTCGGTAATGAAGATCAGTCATGCAGCCAGTGTATTAACTCTTTATTTTTCCTGCTGGTTGAGTGGCATGAGGAGCCCACAATGGCCTG
GTTAAAGTTTAAACCTCCAATGTAATGAAAACTATGTTGCCTCCCTTCCCTTGAAAACTAAGACCTCCAAACTAGCAGAGCTCAATGCTACAGGGACCAG
AGGCAGAAGTTTTGTGAGTGGGTGGAGTAGGCTGAATAATAGCCATTCAAATATAGCAAGTTCTAATTTCTGGGACCTGCAAATGTTACATTATAAGGAA
AAGGGGCCTTTGCAGATGTGATTAAATTACAGATCATGATATGGGGAGATTATCCGAGACTGTCTGATGGGCCTAAATCCAGTGACAAATGTCTTTTTAA
GAGAGTGGCAGAGGGAGATCAAGTCACACAGAAGAGGAGAAGGTGATATGAACATAAAAACAGGGACTGGGGTGATGCTGCCACAAGCCAAGGAATGCCA
GCAGCCACAAGAAACTGGAAAAGTCCAGGAATGGATTCTTGCCTAGAGCTCTGAAGGGAGCACAGCCCTGCACACACCTTGATTTGGGCTCAGTGAAACT
GATGTTGAACTTCTGGCCTCCAGAACTGTGAGAGAATAAATTTCTGTTGTTTTAAGCAACCAATTTTACAGTAATTTGTTATGGTAACCACAGGAARCTA
ATACGGCGGATTATTTGGTGTCATAGTGAGAGAAGCCACTCTCACCAGCTCCCTTGGATTCCTGGAACCTTATATCCTGGCTATGTCAATGAGGATAAAC
ATACCTGCTTCATGATGGAAAGGGTCCAGTGGGATCGACCTGGCACCAAGTGGCTAGGTGGACCCTTGCAGAGGGATGATATACTAAGTACTTAGCATTT
GTCTTGGCTGGAGGCAGGTTGGACATACAGTGTGGCATTAGTCAGATCAGCCTTGACGAGTTACGTTCATGTTGTTGAACCTGTAAATAGTCTCCATTCT
GGCCACCATGACCACATTGTACATAAACATATGGAGAATGCGCTGGAGAGACTAGGGAGAGAGGCTGGCTGACATCCATCCAATGTGCCATCTTGTCCAT
CGAATTATCAAGAGCTGCCTCTGCCATGGATGACTTTGGGTGAGATTTTACTTGGAATACAAATATCTTCATATTCTGTGTCATTTCTGAAAGTCCATCT
ACTAGTCTCTCCCAGTTTTTCTTATGGCCAGTCCTCCAGTTCTGTGCTTTCTGAACCCCTGACCATCCAGCCAAACCATTAGCCACTGCCCATAAATCAG
TGTAGATCCATACTTCTTGTCATCTCTCAATCAGACAAAATGGACAACCAAATGTACTGAAGGACAGGTAGGATGGAGCCAGGCCTGGGAACTGGGGTGG
TGGCAGTGGTGGTGATGTTCCAGGAAAAGGCACAGTATGTGATAGGGTCCAGAGGCACCAGTGAGTGTGGTAGATGAAAGGAACAGAAAGAAATCCCGTG
GCTGGTCCCAGACAGCAACGGAGAGAGGGGTGCAAGATGGGACTTTAGAATTAGGGGTCAAAGTTTACAGGATTTCATTAATCATTCCAAAGAGATAGGA
CTTAGCCATGATAGCAGTGGGGAGACAATAAAAGATTTTTCTCAGGCAGCACACTGGGGTAGATTTGCATTTTAGAATTTTTTTTTTTTCCTGGGATGGA
AGATGTATTTGAGGGAGTAAGTGTGGGTGTGGGGAGAGCAGGTAGGAGACTGCTGCAGTCACCCGAGCAGGAGGTGCTGGTAACCCGAACAAGTCCCATG
ACATTTCACTAATTGAGTTAAATGTCTATTGAGCACCCGCTATATGCCAGACCCTGCCTCAGCACAATATACAGGATGAACAGACACGGGAGAACAAGTT
ACAGCCCTGAGGTCATCCAGCCCCTGGGGGAGACAGATGCACAATTAACCAATGCACAGCTACTGTTTATCTTCTAAATTTGCCTGGCTCAGCAAGGAGA
GTTTGCAGGTGGCTCTGGGAGTCCCCAAACTGTCATCAAATACGGCCTTGACAGCAGATACAATTTTAGCTTGGTGTGTCATTTATCTATTGCTTTGTAA
CAACTTATTTTAAAACTTAATGGTTTAGGACAGATGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACTTGAGGCCA
GGAGTTCAAGACCAGCCTGGCCAACATGATGAGACCCCCATCTCCTAAAAATTACAAAAATTAGCCTGGTATGGTGGCGTGCGCCTGTAGTCCCAGTCAC
TCAGGAGGCTGAGGCAGAGAATTGCTTGTACCCGGGAGGTGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGAT
TCTGTCTCCAAAACAAACAAACAAACAAACAAAAAACCACCAACAAAAAACCTTAATGGCTTAAAATAACAACTATTTTATTTTATTTACTCTTGATTCT
GTGGGTCAGCAATTTGGGGTGAACTCAGCTGAACAGCTCTGCTGGTCTCACCTGGGGTCACTAATGTGCTTGCAATCATCTGGCATCAACAGGGTCTAGA
TGGCCCAAGAGGGCCTTCCCCACGTGTCTGCAATCTGGTGTGAGTTGGTCTGCAGGCAAGACGGCTCATCTCTGTTCTATGGAGCTTCTCATCCTCCAGT
AGATTAGACTGTACTTCTTCATATGGCAAGAGGGCAAAAGCAGAAGCCATCAGGCCTCTGGAGGCCCAGGCTCAGAAGCTGTACCAAGGGGCTCAGCTCA
CTTTGATGGGTGCTCTGAATACGTTGCGATGTTTACACTCTTGTAGATCTAAAAAAACCCATGCAGTTATTTCTCTATTTAGATAATTTATTTCATGTAC
TTTTGTTTTTTTGAGAGTGCAGAGTGCAGTGGCCACTGCACTGGGCCATATTTCACGTACTTTTGACAGCTCCAATTGTTAAAACAGTTTCGTTTTCCCT
CTGAGAAGCTGAGAGGCACATCTTCCCCTACCACCCACCTCTGTGTATAGCAGGACCGTGATAGCTGCTACCACGGTGTGTTGGTCTGTGTGGGATGGCA
TAGCAAATATCATGGACTGGAAGGTCTAAACAACAGAAGTGCATGATCACACAGTCAAAGTTCTGGAGGCTGGAAATTCAAGACCAAGTTATCAGCAGGG
TTGGTTTCATTCTGAGGCCTCTCTCCTATGATTGTAGAGGCTGCCTTCTTCTGGTATCTTTGCATGATTATCTCTTGTTCTCTATGTACACAGGTCTGAG
GTCTCTCTCTGTGTCCTAATAATCTCCTCTTCCTCTTCCTCCTCCTCCTCCTCCTCTTCTTCTTTGTGTTCCTAGTTTTCTTTTTCTTTTCTTTTTTCAA
GTTTTATTTTAGGTTTGGGGACACATGTGCTGGTTTGTTACTAAGGTATATTGCATGATGTGCATGATGCTGAGGTTTGGGATACGACAGAACCTATCAC
CCAGGTAGGGAGCACAGTACCCAACAGGTCATTTTTCAACCCTTGATCCCCTCCCTCCCTCTCCCTTCTTGTGGTCTGCAGTGTCAATTGTTGCCATCTT
TATGTCCATGTGTAACTAATGTTTAGTTCCCATTTATAAGTGAGAACATGCAGTATTTGGCTTTCTGTTTCTGCATTAGTTTGCTTAGGATAATAACCTC
CAGCTGCTCAAGTTGCTGCAAAGGACATGATTTCCTTCTTTTTATGGCTGCATAGTATTCCATGGTATATACGCACCACATTTTCTTTATCCAGTCCACC
ATTGATGGATACCTAGGTTGATTCCATGTCTTTGCTATTGTGAAGAGTGCTACAATGAACATACAGTTGCATGTGTTTTTTTGGTAGAATGATTTATTTT
CCTTTGGGTATATATCTAGTCATGAGATTGCTGAGTGGAATGGTAGTTTTATATTTAGTTCTCTGAGAACTCTCCAAATTGCTTAACTAATTTACATTCT
CACCAAGAATGTATAATCATTCCCTTTCCTCTGTAACCCCGCCAA


SNP Information

Context             (SEQ ID NO:37825):
GCAACGATTCTGTGACATGAGAGGGTGGGAACGGTTTGCAGGACTGTGGTGGGGGGCCGAGGGGGTAATCAGTGCACATCAGGGGCACCGGGTTGGGGTC
R
GAAGGCAAGAGACACGATCCTGCTGGCTAGCTTCTAGCAGTCACCTCCCTCTCTGAGTCTCAGCCTCCCTCTCTGCTCTGGCTCTCAATAATAACAAAGA
Celera SNP ID:            hCV2001905
SNP Position Genomic:     18260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37826):
CCAAGAGCCCTATGAGGTAGGTCCTATCATTATCCCCATTGGATGGAAGATGACACTGAAGCTTAAAGGTGAAACACTGCCCTTGTCACACAGCCAGGAA
S
TGGTGAATGCCCAAGAGGACGGGAGTTTTCTGGGCTCAGCTCAGACAACTGAGTGCCTGGAGAGGCCGAGTGTGCAACGATTCTGTGACATGAGAGGGTG
Celera SNP ID:            hCV2001906
SNP Position Genomic:     18086
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   African American (pooled) - WICGR(C,29|G,71)   Asian (pooled) - WICGR(C,2|G,82)   Caucasian (pooled) - WICGR(C,4|G,92)   total(G,245|C,35) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37827):
GGCCAGGATTCTAACCACAAGAGTCTAGCTCTATAGGCTGTGATCTTACCCACCTAACTCACCCGGACTATGTCTGCCTGCTTCTAATGGGGGGTGATAT
K
AGGAGAAGTTGAGCCTTAAAGTTCAAGGTCCTGGGCCGGGCGCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCAGGCAGACCACCTG
Celera SNP ID:            hCV12107194
SNP Position Genomic:     18647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37828):
GAGCTTCAATGACCGCACCCGCTTCCGGGCATCTCTGAGACTCAAACCCCGCACCTCTGCTGAGGGTAAGCCCCCGGGGGGCTGAGTCCGATCGAGGGCC
R
GCTGAGGGTGGCAGGGCGGGGACAGTCTGGGCTGGGAGCAGAAAGATCTGGCTCGCGTCTCAGCTCTGGAACTGATGGACCGTCTTTGGGCTCTGGTCTT
Celera SNP ID:            hCV25942883
SNP Position Genomic:     53390
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,24)   total(A,2|G,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:37829):
CCAGCACCCGTCCCAAGGCTGAGAAACAACCCAACCATAGTTTCTCTGTGAGGTGGGTCCTCTGTGCAAGCCCTATTGACTCATATGCCTTGGGGGCTTT
S
TTTAGAATGACTGTTTCCTGGTCCTAAAATAATCAGCCTAAAATAATCACTGACCTCCCATCTCCCAAGAGAATAGGCAAATTGTCCTCACTGCCCACCT
Celera SNP ID:            hCV998479
SNP Position Genomic:     57413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37830):
AGTGGCAGGGCTCCTGGCTGCCCATGTGTGCTTCTGCTGAGAGGTGTTTTTTCCTAGAAACGTGGGTTCTGGACCACAATCTAGCTACTACCCACTATTC
R
TGTGTCCTTGGGCAAATCACCTGACCCCTTTGCACCTCAGTTTCCTCAGATGTAAAATGCAGATGTAAATAGGGTCTGCTTCCACTAAAACTGGACCTGG
Celera SNP ID:            hCV27478612
SNP Position Genomic:     49799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37831):
TTCCTGCAGATCCTGCGCATGGTGCGCATGGACCGCCGCGGCGGCACCTGGAAGCTGCTGGGCTCAGTGGTCTACGCGCATAGCAAGGTGAGGCCTGCAA
S
CCGCGCGCGGAGACCCGAGGGCGTGTCTGGGGCACGACCGGAGCGGGCAGGGCGGAGAGGGCGAGGTCAGAGGGGCTGTCTCCGTGCTGGGAAGGGGTGT
Celera SNP ID:            hCV26183100
SNP Position Genomic:     40746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37832):
CCCCCTGAACCCGAACCTGAACCTGTCGGAATCTCTAGTGGCAAACCACAGCAGGGGAGGCAGCGATGACGTCACAGGGCATGGGATGGAGGACATTTGC
R
TAGGTCCTACCCCAACAGCCATAACATTGTCCTTGAACCTCTTGGACACAGAGTTACTCTACCAGATCATGGTTAACCAGGGCTTGTCCTGGGGAATGAG
Celera SNP ID:            hCV8364760
SNP Position Genomic:     51922
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(G,378|A,1121)   total(G,378|A,1121)   (A,-|G,-)   African American (pooled) - WICGR(G,4|A,96)   Caucasian, from CEPH families, part 1 - WICGR(G,15|A,169)   Asian (pooled) - WICGR(G,22|A,62)   Caucasian (pooled) - WICGR(G,9|A,87)   total(G,50|A,414)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37833):
GCGTCCCTTGGGGCACAATGGCCACTGTCCCCTGGGAGCTGGCCTTCTGAGGGGCATTGTAGGGGCAGGCGGCTGGCACTGTCCATGCCAAGAGACAGCT
R
GTATTGTGGTGCCCATAATTAATGAGACAGCTCTGGCAGCTGCTCCCCAGCCCATGCCAGGGGCCTAGGCAAGCAGGAAGTAAAAATATTCCTGTCTTAG
Celera SNP ID:            hCV27474697
SNP Position Genomic:     43263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37834):
GCGGCACCTGGAAGCTGCTGGGCTCAGTGGTCTACGCGCATAGCAAGGTGAGGCCTGCAACCCGCGCGCGGAGACCCGAGGGCGTGTCTGGGGCACGACC
R
GAGCGGGCAGGGCGGAGAGGGCGAGGTCAGAGGGGCTGTCTCCGTGCTGGGAAGGGGTGTGGCCTGCGGGGGTTGGAGCCCTAGCAGGAGGCGAGGTCTA
Celera SNP ID:            hCV26183101
SNP Position Genomic:     40786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37835):
GCGGGCAGGGCGGAGAGGGCGAGGTCAGAGGGGCTGTCTCCGTGCTGGGAAGGGGTGTGGCCTGCGGGGGTTGGAGCCCTAGCAGGAGGCGAGGTCTAAG
S
GGGTGGGGCGGAGTGGAGTCTGAATTAGGTAGGGGCGGGCCTAGGAGTCCGGACCGGATCAGGGGGCGGGGCCGGAGAGGCGGGGCTTGAGGGTTTCCCC
Celera SNP ID:            hCV26183102
SNP Position Genomic:     40889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37836):
ATGTTCTGTGTTGTTAATTCCTTGGGACCTGGATTATTCATTTCTGGTTTTACAATAAACCTGGCTGAGTGTAGGTGTCTGAAGTGAATATAGCCCAGAG
R
GGTCAGGTGACAACCTCTTTTCTGCTGTGAGATGCCCTGCCATCTTTCCTACCCCCATCATATCCCCATCTCTCTGGCCTGGCCTCCCAGCAGCTGTCCC
Celera SNP ID:            hCV8363782
SNP Position Genomic:     32569
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37837):
GGAGAGGGCGAGGTCAGAGGGGCTGTCTCCGTGCTGGGAAGGGGTGTGGCCTGCGGGGGTTGGAGCCCTAGCAGGAGGCGAGGTCTAAGGGGGTGGGGCG
R
AGTGGAGTCTGAATTAGGTAGGGGCGGGCCTAGGAGTCCGGACCGGATCAGGGGGCGGGGCCGGAGAGGCGGGGCTTGAGGGTTTCCCCTGGATGCTTCT
Celera SNP ID:            hCV26183103
SNP Position Genomic:     40900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37838):
CTTTCAGGTAAGAGCAGGACAACCGCCGCTGCCCACCCAGCCACACACAGCACTGGGCACACTTTAAGCACCCGCACCAGGCACACAGTGCTCGACCCCA
R
CGGACACACCTCATCCCCTTCGGACTCCACCTCCACTTTCGCAGCCACCCACACCCGACCCATAACTCACACCTCACTGACTCCATCCCCGCACCTGGTA
Celera SNP ID:            hCV11864411
SNP Position Genomic:     5273
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 TFBS


Context             (SEQ ID NO:37839):
GGGAAGGGAAGTCTGAGTGCATGTGTAGACGTGCACGTACACGTTCACATGCACACAGACTGTGTAAATGCTGTTGAACCGGGAGCTCAGTAGGCAGTAT
S
GGGGGGTAGATCTTTAGCGGGGATCCAAGACCACACAGGCAGGATGTCAATCAAGGTGGGCTGAACTTAGGTAGGAGAGACCACAGAAGAACATGTTATC
Celera SNP ID:            hCV8364766
SNP Position Genomic:     52180
SNP Source:               dbSNP
Population(Allele,Count): SC_12_AA(C,4|G,19)   total(G,19|C,4)   (C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37840):
CTTTACTCCCAATCCCGACTCTGACCCTGGAGACCCGCACAGATTCAGCGGACCCTCCCCCTCCCTCCCCAGTCCCCTGCCACATCCCCAGAAGTCCCCG
S
CTCCGGGTCCGTGCGCGGGGTAGGCTGGCTGTGATCTCGCCGCCCCCGCCCCTGCAGACTTCATCGTGTTCGTGGCCTCGGTGGCCGTCATCGCCGCGGG
Celera SNP ID:            hCV16185034
SNP Position Genomic:     40499
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,196|C,535)   total(G,196|C,535) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37841):
CTCACTGAGAGGGCAGGCACCAGGCATGGCCTGGGCATACATGTGGGCCCAGCAGCTAGAACCATGGGGCCGAGGCCCTCAGTAGGCCATCACGCTGCAC
R
CCTCCAGGGCACCACTGCATGGAAGTCTGTGTGATGGAGTCCTTATTTTGCAGTGCACTGCCTGCACAGCTGTACGAGGCCCTAAAACCCTGACCAGTGT
Celera SNP ID:            hCV8364767
SNP Position Genomic:     52392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37842):
AGGAGGCAAGAGGGAGCACAGTGTGGGGAAAAAAGCTGGCAGCCCAGTTTGGCCCCCCTGAGACTGGACATCAGAGCGAAGGTTGGGGGCAGAGCTGGGT
Y
ATGCAGAACCTAAAAGCCCAGTGTGAGCTTCACCCTGTTGGCATGCTTGGCAGCCTGAGCTCATGGAGTCCTGGGTTTCCAAAGGTGCCTCTGGGGCCCT
Celera SNP ID:            hCV27505963
SNP Position Genomic:     49569
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37843):
GAGTCCAGGGAGTACTGTTAGCTAGGACCCCCTTCCCAGAGACGCAGGCTGTGGCAGGAGGGGCCCCAGCAGAAGAGCCTGCAAGAGAAGGGCTCTGGGC
S
GGGCGCAGTGGCTCTCACCTGTAATCCCAGCACTGTGAGAGGCTGAGGTGGGAGGATCGCTTGAGCCTAGGCAACATGGTGAGACCCCTGACTCTACAAA
Celera SNP ID:            hCV3180555
SNP Position Genomic:     9155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37844):
CATAAAATGGGAACAATAATAGCATCCACTTCCTAGGATTATTGTGAGGATTAAATGAGATAATCCATGGAAGGTGAACAGAAGACTTTTGGGAATATAG
K
AGGTGCTCAACAAATAGCTAAACACAAATGTACTTTGGAAGCGGCAGGAATGCATCCTTGATGAGCCCTGACTATGCACTGCCCAGCACTGGCTTATCTC
Celera SNP ID:            hCV8364768
SNP Position Genomic:     53789
SNP Source:               dbSNP
Population(Allele,Count): (G,-|T,-)   (G,-|T,-)   African American (pooled) - WICGR(G,49|T,51)   Asian (pooled) - WICGR(T,32|G,52)   Caucasian (pooled) - WICGR(T,47|G,49)   total(G,150|T,130)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37845):
CAAGCCGTAGGTGGCCCCCGTGACCAGTCCTGCCTGTAACCTGTTTGTGTCTCCAGATTACATTGACAACCATCGGCTATGGTGACAAGACACCGCACAC
R
TGGCTGGGCAGGGTCCTGGCTGCTGGCTTCGCCTTACTGGGCATCTCTTTCTTTGCCCTGCCTGCCGTGAGTTGCCTCCTGCTCAGTTGGTGGGGGAGGC
Celera SNP ID:            hCV25939738
SNP Position Genomic:     41971
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,31|G,1)   total(A,69|G,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37846):
CACGGAGCTGCTCAGTGGAACCGAGGGAAGGTTTCCACTAGCCATCTTGCTTGAGTTTCTCAAATCCTGGCTGCCTAAATTCCACCCCATGTTTCCCCTT
Y
CTTTCAATGGCATCCTGCTTGGGAGGGCCCACACCTCCCTGTTTGAGAAGTCAGCTCTGTCTGGCCAGTCCCAACAGATGGATGCCCCTGTGTCCTCTTT
Celera SNP ID:            hCV8363789
SNP Position Genomic:     28347
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   (C,-|T,-)   Caucasian, from CEPH families, part 1 - WICGR(T,30|C,146)   Asian (pooled) - WICGR(T,39|C,45)   total(C,191|T,69)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37847):
ACCTCTGTTCGTGTCTTATTCTCAAACTTCCAGCCAGATGTTTAATAATAAACGGAGTTTCTTTCGGATCCACGCCAGCTGGAGACCGAGGTACCCCCTC
R
CCTGCTCCTCCTGTCCCCACTCCTCCTTGCCCCACCCAATTTGGGGGCTGGAGAGGGGACAGGATGGGCCAAGGACAAGGTGCATGTGCCTGCCGCCTGC
Celera SNP ID:            hCV12107122
SNP Position Genomic:     48757
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   African American (pooled) - WICGR(A,2|G,98)   Asian (pooled) - WICGR(A,8|G,76)   Caucasian (pooled) - WICGR(A,4|G,92)   total(G,266|A,14) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37848):
CAGGACTTTAGATAACAATTTTCCTAACCTAGCCAACAGGGGAGATGGATGCTCTAAGAACTTTGCCCTTGTGATTGGGAAAGTCTTTGAGTGTGACCCA
M
ATTTTTCGTGCTGCTGTTTTTCAGCCCTAGTCCTTTTGCTTGGTCTTTGTAAGGAGCTGGGGAGACCATCCTGTTCTTATACTGCCTTCCTCCTCCTCCT
Celera SNP ID:            hCV3180557
SNP Position Genomic:     11493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37849):
TCCACAAAGCCGTTTTAGGCATGCTGGACCCATTGTGGGCTTTACTTATTGTTTGTTCAATGAATCCCACTGAATTCATGTAACAACCCTGGAGGAAGAT
R
CTATTATGCTATTTTGTGCTGAGGCTCAGAAAGGAGAAGTGACTTGCCCAAGGTCATTCAGCTGAGAAGTTGCTGACTTAGGGCTGGACTCCAGGGGTCC
Celera SNP ID:            hCV27989297
SNP Position Genomic:     20570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37850):
CGTAGTTTGAAAACCACAAATCTAAGCAAACCATTCACTTTTTCATCTCTAATCCTCTTGCTCCCTCCTGAACGAGTGGGATAGTCATGGGATGGGGAGA
Y
GGGGGAAATGGAGAGGAAAGGTTGGATAAGCCTTGTGATCAGACCAGCTGGGGAGAGCCAGCCAGGCAACACCCGCCTGTCTCATTCTGCCTCCTGGGCT
Celera SNP ID:            hCV27989298
SNP Position Genomic:     33706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37851):
TGCAAACATTTGCAAAGCACCCACATGTGCCAGACACTATATTTGCACTGAGAATGCAGCGGTAACAAAGACACAGCTTGCAGTCTAGGGGGAGAGAAAG
W
TATCAGTCAAATACACAATGAATAGGTATTCATCAAATGTGATAAGGGGAATAACAGGAGTGTTTAACAGAGGAACCTGGCATGAAGTGCCTACTATATA
Celera SNP ID:            hCV27989299
SNP Position Genomic:     43828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37852):
CTAGGTAGCAGGCACTATTATTGTTCCCATTTTGCAGACAAGAAACTGGGGCTCAAAGAAGAGAAACACCACATACTAAGTTACACAGCTTGTCTGTGGT
Y
GAGTCAAGACTCAAACCCATGTCGGCATCAGGGCCAAGCCCGAGCTCTAAATGGTTCTCAGCCTCGCCAGCTGACCCAAGGCAGTTTCCAGTGGCCTAAG
Celera SNP ID:            hCV16070253
SNP Position Genomic:     16541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37853):
GGGCCCAGGCCAGCCAGCACCCATGTTTCATCTATATTTGTATAGATGGAGAAACTGAGGTCCCAGAGGGGGCCAGAGAGAATCCTTAGAAAGTCCTTTG
W
TGGATGAATGAAGCCACACCCTAGTTGTGGCAGGCATGAGACCCCAGCTAAGGGGCTCCTTCACCTTGTCTCCTCTACCCCTGACCTCCAGATACTGATC
Celera SNP ID:            hCV2017636
SNP Position Genomic:     34013
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   WICGR7_african_american_pooled(T,47|A,52)   WICGR8_asian_pooled(A,11|T,72)   total(A,63|T,119)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37854):
AGCATCTCACAATGTTGCCCAGGCTGGTCTTGACCTCCTGGACTCAAGCAATCCTCCCACCTTGGACTCCCAAATGTTGGGATTACAGGCATGAGCCACC
R
CGCCTCGTCCCAGGATGTTTTCTATTAGTCCAAGTATATCCCTTCAAATGTAATGAGAGTATCAAGGGTATAGAAACTCTTAGCCAGTGGGTTAAAGCAG
Celera SNP ID:            hCV998480
SNP Position Genomic:     34605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37855):
GATCTCAGTGAGGAGTAAGCGGGTAGGAACACTCTCCCTCTTGTAGAATAGTGTGAGAAGGGGTGCCTGAGGGGGCCCACAGGGGCCCTGGAATCCTAAC
S
AGGGGCTAAAGAAGCTCCTCTATTCAAAGCCGATCATGGATGGATGAGGTGGAAGAGAGACAGCCCAAGAAGGGGAGACAGTACAAAAGCCACCAAGGTG
Celera SNP ID:            hCV29021224
SNP Position Genomic:     22898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37856):
GGGATGAGGTTCCAGCGTAGTGCAGTCTCATGGCCCATCTCTCTGCACCTCTGCCAACTTTCCTCTGTGGTTCTTAGTTCCATTCCTGCGAAAGACAATC
Y
GATTGGCTCAGCCCAACCTATGGGTGGGCCCTTCTTGGGTCAGTCTCCAGCTCTCCATGAATCTGTGGCGGCCAGGAGAGTGCTGTGGAGCCAACCGCAG
Celera SNP ID:            hCV998481
SNP Position Genomic:     28912
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(T,29|C,55)   African-American(T,20|C,62)   Asian (pooled) - WICGR(C,36|T,48)   total(C,153|T,97) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37857):
CTCACAGCCACCACTCAGGATCCTGCCTCCATCAGCTGGGCCTGCAGGCTGGGCAGCCTTTCTCTTTACAGGCGGAGGAAACTAAGAAGAGTATCTGCAG
R
TGTCCTCCCAGCTTCCAGTTAAAGACCCTCCCAACCACCCTTCCACCTTAGCTGTGGGTCAGGCCCAGAGAAGCTGCGCTCCTGGCCTCGAGTCACACAG
Celera SNP ID:            hCV29021225
SNP Position Genomic:     25617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37858):
AACAAGTCGGAAGGTTTGGGGCTGGTGCAGGTGGGAGAGGAGGAAGCTATTCCTCATCAAACACCTTGTCTAGAAGACACTGCCTTTCATGTCCCGTGGG
W
CAGAAACCATTCAAGCTGGCTCAATAAAAACTGGCTTCTGTACTATTACATTTGGGATAAAGAAAAAGAAAAATTGGCTTCTGGAGGTAGAGGACAGATA
Celera SNP ID:            hCV998482
SNP Position Genomic:     28638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37859):
AGAGAAGGCAGGTGACAGTCTCAAAACCACACACACAAGCAGGACTGGGATCCAAACTCAGGTCTCTCTGACCCCGAGCTGCTGTCCTTAAGGTCACCAC
R
AAACATGAATATAAATAAAGCCACATAGAAGGTGACTTGGGCCACACATAGGGAGGCAAGCATCGGGAGTTGGCAGTTCTGAAGGGGGGATAGTGGGGTG
Celera SNP ID:            hCV29021226
SNP Position Genomic:     37975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37860):
AAGCAGACAGAACAAGTCGGAAGGTTTGGGGCTGGTGCAGGTGGGAGAGGAGGAAGCTATTCCTCATCAAACACCTTGTCTAGAAGACACTGCCTTTCAT
R
TCCCGTGGGACAGAAACCATTCAAGCTGGCTCAATAAAAACTGGCTTCTGTACTATTACATTTGGGATAAAGAAAAAGAAAAATTGGCTTCTGGAGGTAG
Celera SNP ID:            hCV998483
SNP Position Genomic:     28628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37861):
TCCTCCCCCAACTCCTGCCCCACTTCAGGTCTCCTCTAAGGCTGGCTGGTACTCTCTTGATCTGGGGCCCCAGACATTTGGGGTGGGTCCCCCTGAACCC
R
AACCTGAACCTGTCGGAATCTCTAGTGGCAAACCACAGCAGGGGAGGCAGCGATGACGTCACAGGGCATGGGATGGAGGACATTTGCATAGGTCCTACCC
Celera SNP ID:            hCV29021227
SNP Position Genomic:     51834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37862):
TTGGGGCACAATGGCCACTGTCCCCTGGGAGCTGGCCTTCTGAGGGGCATTGTAGGGGCAGGCGGCTGGCACTGTCCATGCCAAGAGACAGCTAGTATTG
Y
GGTGCCCATAATTAATGAGACAGCTCTGGCAGCTGCTCCCCAGCCCATGCCAGGGGCCTAGGCAAGCAGGAAGTAAAAATATTCCTGTCTTAGGAGGGTG
Celera SNP ID:            hCV27496331
SNP Position Genomic:     43270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37863):
GGCCAGACCCAGCACCCGTCCCAAGGCTGAGAAACAACCCAACCATAGTTTCTCTGTGAGGTGGGTCCTCTGTGCAAGCCCTATTGACTCATATGCCTTG
S
GGGCTTTGTTTAGAATGACTGTTTCCTGGTCCTAAAATAATCAGCCTAAAATAATCACTGACCTCCCATCTCCCAAGAGAATAGGCAAATTGTCCTCACT
Celera SNP ID:            hCV29021228
SNP Position Genomic:     57405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37864):
GCTTGGCCCGCTGCTCGCCTTTCAGGCCGCCGCGTTTTCAATTGTTAATTTGGAAACGGAAAAAGTAGCCGGCCGGGCGGGGGAGGCCGCGGGGAGGTAA
Y
CGGAGCCGCAGCACCGCCCCGGCCCCTCCCGCTCTCGGGGCCTGGCATTGGCAAAGCCCCGCCCCTCCCAGGGACGCAAGAGCCCCGCCCACCATTCCCC
Celera SNP ID:            hCV8363796
SNP Position Genomic:     24478
SNP Source:               dbSNP
Population(Allele,Count): WICGR8_asian_pooled(T,0|C,83)   total(C,83) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37865):
CATCAAGGGTTTTTTCTCCTTGGCCTGGCTGCCTGGGCAAAGGAGCTGGCTGTGGCATGACCATGTGGGCACCTGCCAGCCCCTCCCTTGTTGGGGTCTG
K
TCATCTAATGCCCTTCACATGACAGGCATGGGGTGGGCCCTGGCTGGGGAGAGGGATTTGCACTCTCCTAATCCAAGGGCTGCAGCCCTCCCTCTGTCTT
Celera SNP ID:            hCV8363797
SNP Position Genomic:     21011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37866):
AAGAAAACATCTTGGTCCCCCCACGGTTGTTTATACCAGGACTCCCTCTCCTTCTCTGGCCTGGTCTGGCCTCTCCACTCCTGAGCTGGGCTACCTGAGT
Y
GAGGGTCCAGCCCCCGGTCATGGCAGGAGGCCCTGGCAGCACGCCCACTGGCCCCCACCAGGGACTGAGCACTCACCACCTCCTGGTGGCCTGTCCCATT
Celera SNP ID:            hCV3184306
SNP Position Genomic:     21628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37867):
CGGTGCACCCACCGAGTTTGCAGGCTCTTGATCCGGCCCAGCATGTCCAGGTGGCCTGCTGAGTACTGCTCAATGACGTCCTTCACGTCGTACGGTCGCA
Y
TGTCTCCTTGAATTTCCTTTTGGCCACCAGGAACTTGAGAATCCTGTTGGGGGAGGGGGCTCAGAGGGAGTGTCCTGTTAGAGCAGGGATTCTTTCCCAG
Celera SNP ID:            hCV25936085
SNP Position Genomic:     11385
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,35|T,1)   total(C,43|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:37868):
CGTTTCCAGTTAATCACCGAGCCCTACTTCCTGCGGTGTTTTCCAACCCATCCACTCCTCTTCCCTGCTGCCACCACCCTGGGCCAGGCCACAGTCATCT
S
TCGTCTGAGCTATTGTGGAGCTTTCTTGGTCTTTCTGCTGAGTCTTATCTCCTTTGATCTATTCTGTGTACTTCCCCAAGTGGTCCTGAGATGCAAATTG
Celera SNP ID:            hCV2017641
SNP Position Genomic:     31698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37869):
TCCCTCATGATCAGGCTCCTACCTGCCTGTACCCCCAACAAGCCGTAGGTGGCCCCCGTGACCAGTCCTGCCTGTAACCTGTTTGTGTCTCCAGATTACA
Y
TGACAACCATCGGCTATGGTGACAAGACACCGCACACATGGCTGGGCAGGGTCCTGGCTGCTGGCTTCGCCTTACTGGGCATCTCTTTCTTTGCCCTGCC
Celera SNP ID:            hCV25939786
SNP Position Genomic:     41933
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,17)   total(C,1|T,55)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:37870):
GTTCTGGAACACAGAAGGCACCCTTCTGGCTCAGATGTGTTGGATTTGTTTTTCCCTCTGGAGGTGGGATGGGGGTTAAGGGAGCATGAGGTGGGGGCTC
Y
GACCTAAGCCTGCCAGTCTGAGCTCATGCTCAGACACAGCATGAGTAAAGGTGGGGAGGGGAAAAGAGCGCGTTTGCCATTGTCAGGGACAGAGCTATGA
Celera SNP ID:            hCV27945966
SNP Position Genomic:     27630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37871):
GAGACCAAAGTCACCTGGGAAATGAGTAGCAGATACAGCGGACTCTGTGCAGAGACCTCAGCTGGGCTAGGCCAGGGCAGAGAGTTGAAATTGCTCCTGC
Y
TCCTTGTCCAGGACTGTTCGCTCCGTTCCTAGTGGCCACCGGGCTTGGCTCTTGGAGTCTGAAATGAAATCTCTGGTTGTGTGTGCAGCACCAACTATGC
Celera SNP ID:            hCV27989300
SNP Position Genomic:     10406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37872):
ATCTTCAACTTCTCCTTCTTGATCTCTTGGCTCCTTCCACTCTGGCTCTCTCATCTTAAAAGAAAAGAAAAAGATTCCCTATACCCTGCATCCTTCTCCA
R
CTACGATCTCTGATCTCTTCTTTGCAGTCAAACATCTTCAAATTGTTAAACCTACACTTACTGTCTCTACCTCCTCACTGCCCCTCCCCTTTCTCACTTT
Celera SNP ID:            hCV27945967
SNP Position Genomic:     30922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37873):
GCCCAGTGGGTATGAAGAGAGAGACCTCAGCTGGATCCAGGGACATCCCCAGAGAATCTGGAGCTGAGCTGATGGCCGATCCTCTCCACCCCACTGCTGG
R
GAGTTACCAAGCTACAGGGACCTTAACCATCACTGAGTTGTCCCCGACCTTTGTGTGTGTTTCTGACAGGGAAATTGAGGCCCAGAGCATTAGTAGGGCC
Celera SNP ID:            hCV27945968
SNP Position Genomic:     32823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37874):
AACTCATTAAGAACATGCATTTAGAGGGCTTGGCACAGTGTCTGGCCAATAGGAAGCCTTTGGCCAGCAGGAGCAGTTATGGTTATTACTTCAGGTCACC
R
CATGAGAGCCACCTCCCCAGCAGAGCTTTCCCCCTCCTGCCCTGTGGCCGCTTCTGGACAGTGACTTGAGGAGGTATAAATGTGGAGAAGGCGGTGATTG
Celera SNP ID:            hCV27945969
SNP Position Genomic:     33275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37875):
GCGAGGTCAGAGGGGCTGTCTCCGTGCTGGGAAGGGGTGTGGCCTGCGGGGGTTGGAGCCCTAGCAGGAGGCGAGGTCTAAGGGGGTGGGGCGGAGTGGA
K
TCTGAATTAGGTAGGGGCGGGCCTAGGAGTCCGGACCGGATCAGGGGGCGGGGCCGGAGAGGCGGGGCTTGAGGGTTTCCCCTGGATGCTTCTGGGTTTG
Celera SNP ID:            hCV16148829
SNP Position Genomic:     40907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37876):
GGCTGCACTGGAGTGAGAGGTAGGAGGTGAGGTCAGAGGGCTAACGGCACTCAGAGAGTGTAAAGTCCTGTAGGCCCCTGCAAAGACGTTGGTGTTCATC
Y
AGGATGAGCTGCAAGCATTGGAGGGTTTTGTGCAAACGACTGACAAGATCTGAATTGTCTTTTAAAAGGATCACCCTGGGTGCTGTGTTGAGGATGGACT
Celera SNP ID:            hCV16107815
SNP Position Genomic:     58052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37877):
AGCTGACAGCCAGCAACCCCTTTTGTCACCAGGTCAGAGTTAGGGAGTCTGAGACAGCTGGGACAGGGAGGGCCTGTTGAGGAGCAGAAAAATCCGATCA
K
TTCATGGGGACCGGAAGGGGAGGACACACTAGGGCTTTTAGTCTTCTTGCAGGAGGCGGAGGGGGCCACCTGCCCTCCGGAATCGTCAAGTCCAGGAAAC
Celera SNP ID:            hCV25936844
SNP Position Genomic:     39990
SNP Source:               Applera
Population(Allele,Count): african american(G,16)   caucasian(G,14|T,2)   total(G,30|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:37878):
GTGGGGGTGGTCAGATGGTCTAGGACCTCTGCCCAGAGGAACAGAGCCTAGTCTGGAGATTCTGGATCCACTGGGCATCTGCTCCCTGGACCTTAGTTTG
S
TCATCCATACAATGGGAAGGCAGGCAGGAGAGAGGGAAGATACCCTCCTTGGCTCATGGCAGCAGAAAATGGCCTGGAGAGTTAGGAAGAAGCCACGGTC
Celera SNP ID:            hCV8364747
SNP Position Genomic:     45585
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   Caucasian, from CEPH families, part 1 - WICGR(G,9|C,141)   total(G,9|C,141) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37879):
GTCAGATGGTCTAGGACCTCTGCCCAGAGGAACAGAGCCTAGTCTGGAGATTCTGGATCCACTGGGCATCTGCTCCCTGGACCTTAGTTTGCTCATCCAT
R
CAATGGGAAGGCAGGCAGGAGAGAGGGAAGATACCCTCCTTGGCTCATGGCAGCAGAAAATGGCCTGGAGAGTTAGGAAGAAGCCACGGTCCCGAATCTA
Celera SNP ID:            hCV8364748
SNP Position Genomic:     45594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37880):
GCGCGTTCCCTCCCTCCGCCTCGCCTCGCTTGCTCGCTCGCTCCCTCCCGATTTGGGAAGGCGGCCGCGGGGCGGGCGGGGGAGGGGCGGGGCGGGGGAG
K
GTGACATGTGAGCGGCGCGCGCCGGTGGCAGGTGGAAAGGCGAGCGGCATGGAGCGCGTAATAAGAGAGTTGGAGTCGGAAAGAGCAGCCCCAGTCGCCG
Celera SNP ID:            hCV27034901
SNP Position Genomic:     5774
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:37881):
GGCGCAGTGATGTGGAGTTCCAGGCCCTTGGCCAAAGTGTCAGGGCCTTCTCCACTCTCCTCTCTTCCTCTCCCTCTTGGAGGAGTGGAGGACAGGAGAA
R
GGGTTGCACGGACCGGGCAGGGTGGAGGGTGCTTGCCAGCATGAGGGAGCCTGCAGGAATGGCTCTGCAGAGGAAAGTTTGGGAGAGCCAACCTCAAACT
Celera SNP ID:            hCV27511899
SNP Position Genomic:     51277
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,88|G,1405)   total(G,1405|A,88) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37882):
GCAGCAGAAAATGGCCTGGAGAGTTAGGAAGAAGCCACGGTCCCGAATCTAGTCTTCAAAAACCCAGTGGCAAGAGTGAGTGCTGGAGGGGAAGGAAGCT
R
GGCTAGCCACCCTGTCACACCGCCCTCCTCACCTCCATCTCCCCTTAAAATCCAGAGTCAGATCTGGAGGGAAAGGATGTCAGGGCCACTGCTGGCCTCT
Celera SNP ID:            hCV8364749
SNP Position Genomic:     45744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37883):
ACCTGCTCACCCCTGTCACACATTTGCCTGGGGAGCCTGGGGTACCTCAGAGGGGCAAGGATGGGGACACCCTTGCAGCCTCTTACTGCCCCACCACTGC
Y
AGCACATTCCCCCAACCATGCCCTATCCCTCTAGGGCATCCTAGGCTCCGGCTTTGCCCTGAAGGTCCAGGAGCAGCACCGGCAGAAGCACTTCGAGAAG
Celera SNP ID:            hCV25938951
SNP Position Genomic:     42182
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,32)   total(C,68|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:37884):
GCACCTTGGCTCCCTCCCCTCCACCCCATGCCCTGGGCATGGGAGACCCCAGTTCCCACCCAATACCGAAACCAGAATCTCTTCTCTGCTCAACCCTTGA
Y
CTGAAAGCCTCTGAGAGTAGGTGACACGGTGTCCTCCCCCAACTCCTGCCCCACTTCAGGTCTCCTCTAAGGCTGGCTGGTACTCTCTTGATCTGGGGCC
Celera SNP ID:            hCV27490460
SNP Position Genomic:     51702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37885):
GCCTGGTACATCGGGTTCCTGGTGCTCATCTTCGCCTCCTTCCTGGTCTACCTGGCTGAGAAGGACGCCAACTCCGACTTCTCCTCCTACGCCGACTCGC
W
CTGGTGGGGGACGGTGCGTGAGGGTCTTTGTAGGGCTGCCCTTCTCCCTGGGATCCTCCCTGGGAACTTCCCGAGGTCTGCCCATCGTGACTCCTGACTC
Celera SNP ID:            hCV27862873
SNP Position Genomic:     41511
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37886):
AGTTAGGAAGAAGCCACGGTCCCGAATCTAGTCTTCAAAAACCCAGTGGCAAGAGTGAGTGCTGGAGGGGAAGGAAGCTGGGCTAGCCACCCTGTCACAC
Y
GCCCTCCTCACCTCCATCTCCCCTTAAAATCCAGAGTCAGATCTGGAGGGAAAGGATGTCAGGGCCACTGCTGGCCTCTCTGAGGAGGCACGGCACGTTC
Celera SNP ID:            hCV27498382
SNP Position Genomic:     45765
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,316|C,1173)   total(C,1173|T,316) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37887):
TACATCGGGTTCCTGGTGCTCATCTTCGCCTCCTTCCTGGTCTACCTGGCTGAGAAGGACGCCAACTCCGACTTCTCCTCCTACGCCGACTCGCTCTGGT
S
GGGGACGGTGCGTGAGGGTCTTTGTAGGGCTGCCCTTCTCCCTGGGATCCTCCCTGGGAACTTCCCGAGGTCTGCCCATCGTGACTCCTGACTCAGGGTT
Celera SNP ID:            hCV27862874
SNP Position Genomic:     41517
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37888):
CTCCAGGGCGGCCCTCATTCCTACCCCTGCCCAGCTGACTGTGGGTGTGTGGGGGTCCCTGTGGGCCCCCTGGGCCCTGACACTCGCATATGCTGTGTCC
S
ACTTGATCTGTGTCTTCGCTCAGTCTTCCCCTCCACCCTCAACTTCCCAGTGGCAACGGCGGCCGCCCTGCCTGCCCTGCCCTACCCTGCCGGCTTGGCC
Celera SNP ID:            hCV995734
SNP Position Genomic:     7027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37889):
TGGGGCTCTGAGGGTCTGAGTGGGAGAGATGTCCATGCCATCCTTTCCCATCATCTCCTCCGTTCATGGCATTGTCCTCTTTCTTTCTCTGTTCCCACGT
Y
CCCCTTACTCCTCCATCCCTGCACCCCCATCCCTCCCGGGAAGCTGGACAGAGGAGGAGGCCACTGGCCACAGGTGCTTACGGCTCAGGTAATCGTGGGC
Celera SNP ID:            hCV27498383
SNP Position Genomic:     46615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37890):
CCCTCATGATCAGGCTCCTACCTGCCTGTACCCCCAACAAGCCGTAGGTGGCCCCCGTGACCAGTCCTGCCTGTAACCTGTTTGTGTCTCCAGATTACAT
Y
GACAACCATCGGCTATGGTGACAAGACACCGCACACATGGCTGGGCAGGGTCCTGGCTGCTGGCTTCGCCTTACTGGGCATCTCTTTCTTTGCCCTGCCT
Celera SNP ID:            hCV27862875
SNP Position Genomic:     41934
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37891):
TTTCCTGATGCCAGGAAATGCCCTCGCCAGGGCCGTGCTTGTCCTGACCACTTGTCCCCGGGAGCCCAGGGCCAGGGCATGTCTTGGGAACTCTGGGGGA
R
GAAGTATGGTGTGAAAGTGTCCTGGTGTTTAAGGATCTCAGGGAATTGGTCACCCATCTTAGAGGTCAAAGGGGACAGAGGTGTCAGGAACCCCACCTCT
Celera SNP ID:            hCV995735
SNP Position Genomic:     8582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37892):
CTCTTGGACACAGAGTTACTCTACCAGATCATGGTTAACCAGGGCTTGTCCTGGGGAATGAGGCCTCTGCTAACTTGTTTTCCTCCAACGTTTGGGGAAC
R
TGGTGGGGAGTTGGATGCGGGAAGGGAAGTCTGAGTGCATGTGTAGACGTGCACGTACACGTTCACATGCACACAGACTGTGTAAATGCTGTTGAACCGG
Celera SNP ID:            hCV27498384
SNP Position Genomic:     52061
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,382|G,1111)   total(G,1111|A,382)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37893):
AGGCTCCTACCTGCCTGTACCCCCAACAAGCCGTAGGTGGCCCCCGTGACCAGTCCTGCCTGTAACCTGTTTGTGTCTCCAGATTACATTGACAACCATC
D
GCTATGGTGACAAGACACCGCACACATGGCTGGGCAGGGTCCTGGCTGCTGGCTTCGCCTTACTGGGCATCTCTTTCTTTGCCCTGCCTGCCGTGAGTTG
Celera SNP ID:            hCV27862876
SNP Position Genomic:     41945
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37894):
AGGGGCAAGGATGGGGACACCCTTGCAGCCTCTTACTGCCCCACCACTGCCAGCACATTCCCCCAACCATGCCCTATCCCTCTAGGGCATCCTAGGCTCC
R
GCTTTGCCCTGAAGGTCCAGGAGCAGCACCGGCAGAAGCACTTCGAGAAGCGGAGGATGCCGGCAGCCAACCTCATCCAGGTACAAGATGCCCGGGAAGA
Celera SNP ID:            hCV27862877
SNP Position Genomic:     42232
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37895):
GGGAACAGTGGGTCACACCTGTAGTCCCAGCACTTTGGGAGGCTGAGACGGGCAGATCGCTTGAGTCCAGGAGTTCGAGACCAGCCTGGGCAGCATAGTG
R
GACCCCCATCTCTTTAAAAAATAAAAATTAAAAAAAAAAAAAACAGAGTTATTGATGTGCCTGCCCCACAATGTCCCATTGCCCAGTCTCTGCCAGAGAT
Celera SNP ID:            hCV15778214
SNP Position Genomic:     56618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37896):
CACCCAGGCTGGAAGGCAGTGGTGTGATCATGGTTCACTGCAGCCTTGAACTCCTGGGCTCAAGCGATCCTCCTGCCTCAGCCTTTCATGTAGCTGAGAC
Y
GCAGGTGCACGTCACGGCGCTAGGCTAATTTTTAAATTTTTTGTAGAGAGGGGATCTTGTTATGTTGCCCAGGCTGGTTTCGAATTCCTGTGCTCAAGCA
Celera SNP ID:            hCV15830383
SNP Position Genomic:     17446
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37897):
TAGTTGTCTCCAATGATGATAAATAACAGTGAAAACCTTTCTGCAGAGCTTCCCAGGGGCTGGCCTGGGCTTAGGCACCCTCTGGATGGTCTTGGGCAGA
Y
GTTTTTCACATCTCGAGCCTTAGCTCGAGGTCCAAAATACTACCTGTACTGGGAAGGAGGTCCTCTCTCCCACTGACAGTCCACAAAGCCGTTTTAGGCA
Celera SNP ID:            hCV27913563
SNP Position Genomic:     20390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37898):
CTCTCTCCCAACCTGCCTGCCCTGCCAGCAGCCGGATGGGCATCAAAGACCGCATCCGCATGGGCAGCTCCCAGCGGCGGACGGGTCCTTCCAAGCAGCA
K
CTGGCACCTCCAACAATGCCCACCTCCCCAAGCAGCGAGCAGGTGGGTGAGGCCACCAGCCCCACCAAGGTGCAAAAGAGCTGGAGCTTCAATGACCGCA
Celera SNP ID:            hCV25935439
SNP Position Genomic:     53206
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,34)   caucasian(G,1|T,25)   total(G,3|T,59)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37899):
TCATTCACTCAACATTTATTGAGAACCTACAATGCACCAGGCCCTGCACTAGGTTTTGGAGAGAAAGTAGGAACAAGATCAAGTACCTGCATTCATGGAG
Y
TTACATTGAGGGGGGCGGGAGAACCAGGAACTGTATCTATCCCCGGTGTCTACCATCTGGCACCTGTGCCTGGGCTGGATGCCTGGGAACAGGGACTCTT
Celera SNP ID:            hCV27913564
SNP Position Genomic:     23636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37900):
AACAGGCCCGGTGCACCCACCGAGTTTGCAGGCTCTTGATCCGGCCCAGCATGTCCAGGTGGCCTGCTGAGTACTGCTCAATGACGTCCTTCACGTCGTA
R
GGTCGCAGTGTCTCCTTGAATTTCCTTTTGGCCACCAGGAACTTGAGAATCCTGTTGGGGGAGGGGGCTCAGAGGGAGTGTCCTGTTAGAGCAGGGATTC
Celera SNP ID:            hCV25936097
SNP Position Genomic:     11377
SNP Source:               Applera
Population(Allele,Count): african american(G,14)   caucasian(A,1|G,35)   total(A,1|G,49)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:37901):
TCTCAAGCAAGCTGCTGCTCTCTGGCCCAAAAGGGACTGGGCCTGGCACACAGATGGCACTCAGCAAATGGAAGCACTCGCCCTCCCACCCTTCCTCTCA
R
TCAATACTTGCTCCATTGATGGCTGATGGGGACAGTGATGAATTACAGAAGATCTTGGAGCCCTGCCCACTTCTTGCACAGATGGGGAAACAAGTCCAGG
Celera SNP ID:            hCV2017652
SNP Position Genomic:     3102
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,5|G,25)   total(A,5|G,57)
SNP Type:                 TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:37902):
CAAACTGTTTCAAGTCATAGATCTGGTTCTTTGAATGACACCTGATACAGAAGCACAATATATAAAACAGATCAAAGTAGGGCTACTCTGGGTGGAGTCA
Y
GGGTTGGGGCCCAGAATTCTACCCACTCTATGCCAGCCTATATGGCCCTGGCATATCAACCCAGAGCCTGTACATGGTCCTCCTTGCTCTAGAACACATT
Celera SNP ID:            hCV28032973
SNP Position Genomic:     22004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37903):
GTCCCTGTGGAAGCTGGAGGGATCCTTCCTACTCCACACCAGCTCCTCCCTGGCTCTGGATCCCAGCCTCCCATCTTCCTTGGGGACTTCATTCCATTGA
Y
TACTCACTCTGTCTCCCCGCATCTTCAACTTCTCCTTCTTGATCTCTTGGCTCCTTCCACTCTGGCTCTCTCATCTTAAAAGAAAAGAAAAAGATTCCCT
Celera SNP ID:            hCV28032974
SNP Position Genomic:     30801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37904):
GTTGTGTGTGCAGCACCAACTATGCACAGGGCACCCTGCTGAGCTCTCTCTAAACCGGTCTCATTGTGTCCTTCTGCAGCCTTGTGAGGTGGGCACTGTT
M
TCCTCCTCATTTGACAGATGGGGAAACTGGGACTCAGCAGAGGCCACCCAGTTAATGTGGAAGAGCCTCAGCCCGGAGCGGGGGCTGACTGGGAGCTGTT
Celera SNP ID:            hCV28032975
SNP Position Genomic:     10582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37905):
GCAAGCTCTGGGAAGAGAGGACTGCTGACTCCTGTCTTCTCCTGTTGGGATCCAGAATGAGGGGCCACTGAGCCCCTCTCCAAGCTTTCCCTCTCTCTGT
R
GACCCTCAGTCTGATCACCAAGCTGCATCCCCCTCCTATGCCCCAGTCCCTGATTTAAGCCCTGAAGCCTTCACAGGCCCTGCTCTCTGAATTTTAAGAA
Celera SNP ID:            hCV8363805
SNP Position Genomic:     9713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37906):
AACTGATGTTGAACTTCTGGCCTCCAGAACTGTGAGAGAATAAATTTCTGTTGTTTTAAGCAACCAATTTTACAGTAATTTGTTATGGTAACCACAGGAA
R
CTAATACGGCGGATTATTTGGTGTCATAGTGAGAGAAGCCACTCTCACCAGCTCCCTTGGATTCCTGGAACCTTATATCCTGGCTATGTCAATGAGGATA
Celera SNP ID:            hCV28032976
SNP Position Genomic:     65097
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:37907):
GACTGAGGGGGGCTGTGTGAGGTAGCACCTCTGGGCTGGGAGTCCGGGACTGAGGGGGGCTGTGTGAGGTAGCACCTCTGGGCTGGGAGTCCGGGACTGA
R
GGGGGCTGTGTGAGGTAGCACCTCTGGGCTGGGAGTCCGGGACTGAGGGGGGCCGTGTGAGGTGGCACCTCTGGGCTGAGGGCTGAAGGTGGAAAGAGGC
Celera SNP ID:            hCV26183099
SNP Position Genomic:     39527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37908):
GGGGTGAGAGGAGCGCATTCGCCCTAGGGTATGCCTCCCTCCCATCTGCCAGCCCGTCCCCTCTGAGCCCCACACAGAACCTGCATCTTTCTGGCTCCAA
R
AGGTGGGAGATTGCCTAGAGTACAAGCCCAGATTTGGCCTGTCCTGCGGCAGCTGCAAGCTCTGGGAAGAGAGGACTGCTGACTCCTGTCTTCTCCTGTT
Celera SNP ID:            hCV8363806
SNP Position Genomic:     9558
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   (A,-|G,-)   Caucasian(A,8|G,72)   African-American(A,7|G,75)   Asians(A,38|G,46)   total(G,193|A,53)   (G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37909):
CCTTCGCTACTGCCCGTCTTGGCCCAGCTGCCACCCTCTACTGGAGGGACCAGCCCCTGGGCACAGTGGGGATTCAGACCCTATGGAACTTCCTCGCTTA
S
AGGCAGGACCAGCAGGAAGGGACTAGGCCTTTCTACCCCCATCCTCTCTCCATATATCCCTGCTATACAGAACCTCAGGTCTCAGCGCTGGAGCAGATCC
Celera SNP ID:            hCV28032977
SNP Position Genomic:     14412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37910):
CACATAATTTTCTGAAAATAATGTTCTCCTCTCTTGGCTCTGTAACCCCCTGCCAGGGGCACCTTGGCTGTCCTGTCCCTCCAACAATCTAACCCTCTCC
Y
TCATGTTGTAATTGCAGATTTTTGCTGGTCTTCAGCTGCCTGGTGCTGTCTGTGCTGTCCACTATCCAGGAGCACCAGGAACTTGCCAACGAGTGTCTCC
Celera SNP ID:            hCV25937367
SNP Position Genomic:     39299
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,29|T,9)   total(C,59|T,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:37911):
GGGAACAGCAAGTGCCAAGGACTTGAGAGGGGCAAGTGGCTGGAGTGTTGGCTTCAGCACAGCAGGGAGCCTGGTGTGGCTGCACTGGAGTGAGAGGTAG
R
AGGTGAGGTCAGAGGGCTAACGGCACTCAGAGAGTGTAAAGTCCTGTAGGCCCCTGCAAAGACGTTGGTGTTCATCCAGGATGAGCTGCAAGCATTGGAG
Celera SNP ID:            hCV16107822
SNP Position Genomic:     57975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37912):
CTCCTCACCGCGCCCCTCCGCCTGCCCCGCAGGAGCTGATCACCGCCTGGTACATCGGGTTCCTGGTGCTCATCTTCGCCTCCTTCCTGGTCTACCTGGC
Y
GAGAAGGACGCCAACTCCGACTTCTCCTCCTACGCCGACTCGCTCTGGTGGGGGACGGTGCGTGAGGGTCTTTGTAGGGCTGCCCTTCTCCCTGGGATCC
Celera SNP ID:            hCV27967719
SNP Position Genomic:     41467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:37913):
TTGGGGTGCAGAGCAGGAGTGTTTGGGGCTCATCCTGGGCCACCCCTTCCTGGAAAAATTTGGCTACAAGTCAGGGAGGCAAATGTGTGGGCCATGCCCC
Y
CCCCTCGCTAGGCAGTAAACACTGCCGTCGCCTGGGAGACAAGAAAACATCTTGGTCCCCCCACGGTTGTTTATACCAGGACTCCCTCTCCTTCTCTGGC
Celera SNP ID:            hCV12107188
SNP Position Genomic:     21487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:37914):
GGACACAGGGTGATGGTAGTAAAGTGGCCCTTTCTCCCAGGGACCCCAGGGGGCTGAGCCATGGTTTGTAGATCAGTCACCAGGCTCAGGCCCAATGGCC
R
TATCGTTAATCGTGGCTGTCTAGACCGCCAGCCAGGACACCCTTCCTCCACCAAAAACACACACACATATACACACTCGGTTGGCCACACCTCTGGTGGT
Celera SNP ID:            hCV8364750
SNP Position Genomic:     48138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37915):
TGAGCCAGGGCTCTCTGTGCTTCCAGTTCACTCTGGTCTCATTTTGACTGAATAGGAAGGCAAGGGGAATGGACATTAGCCTGGGGCCTAGTACCTGTAC
R
CTCCCCACGGCTCCTTTGGTCCCTGACACCCCCAGGGCCCAGGAACAGATTACTACTAAGGGCTTGGCTGTCACTGACTCCCAGCCTCGTATCTATCTGC
Celera SNP ID:            hCV27478609
SNP Position Genomic:     47911
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,730|G,763)   total(G,763|A,730) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37916):
CCCACTGCTGCCCCCATCAGCTGTGCAGCAGTAAGCCTGCCCCACTTCCAGCACCTTCATTCATTCATTCATTCCACAAGCACTCACACAAATGAAGAGA
R
GATGGTGCAGACAGGGCTTTTAGGAATCTCAACATTTAGCAGGTGGGTGGGCCTGCAAAGTTGAGCTGGGCAAGGAGACAGAAGGAACAGCCAGAGGGGT
Celera SNP ID:            hCV28011202
SNP Position Genomic:     42733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37917):
AACAGGGCAGGGACTAAACTCAGGTCAGCAGTAGAGCCCAGACCAGAACCCAGGCTCAGTCCAAGCATCTTAGTTGTCTCCAATGATGATAAATAACAGT
R
AAAACCTTTCTGCAGAGCTTCCCAGGGGCTGGCCTGGGCTTAGGCACCCTCTGGATGGTCTTGGGCAGACGTTTTTCACATCTCGAGCCTTAGCTCGAGG
Celera SNP ID:            hCV8382826
SNP Position Genomic:     20320
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   WICGR7_african_american_pooled(A,2|G,98)   WICGR8_asian_pooled(A,1|G,82)   WICGR6_caucasian_pooled(A,0|G,95)   total(G,275|A,3)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37918):
CACGTTCAGGCAGTCAGCTTGATGGGCTGAGAGTAAGCTCCTTGCACGGCTGCCCTTGAGCTGTGCCAGCCTTCACATCCATGCTTGGCATCCCTGGGAA
Y
TGGGGGTAGAAAGGGAGTGGGGAAGGCCAGTCTCCCACTGTCCACCCTGTCCTATTCTGGCCGGGCTGTCAGTGAACACCTCTAGAGCAGCAGGACCTGG
Celera SNP ID:            hCV27513792
SNP Position Genomic:     45959
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   JBIC-allele(T,368|C,1113)   total(C,1113|T,368)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37919):
GGTATGTTCAGCAGTTAAGATCTTATTTACCTTAAAAGAAAATAGCTTAGAAACCATGGCTGTGGGCAATGGTTTGAGCTGAAGCGTTGAGCTAAGGAGT
Y
TCTGGGTCAGGCCCGCCATTTTGCAAGCCTCCTTTGGCTGTGGAGGGTGTGGACAGGAAGGACACAGCCATGGCAGAGGCCAGTGGCGAGGCTGTTTCCA
Celera SNP ID:            hCV28011203
SNP Position Genomic:     50029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37920):
ATGCAATGACGTGACACACTTGGAGACATGAGTGCAGAGCCACTCAGCCGCTCCTGGGCCTCTGCAGCAGATGCCAGTGGACTGGCCTTGCAGGGTGACG
W
CCACTAAGAGGAAGACCCCCAACTCCATCTGAGCAGGAGAAGGAGCTTTGAAGTAACCCGAGAGCTCTCCAGGCCCCACCCAGACCTTTACCCGCTCCCC
Celera SNP ID:            hCV28011204
SNP Position Genomic:     61596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:37921):
GGACCACAATCTAGCTACTACCCACTATTCGTGTGTCCTTGGGCAAATCACCTGACCCCTTTGCACCTCAGTTTCCTCAGATGTAAAATGCAGATGTAAA
Y
AGGGTCTGCTTCCACTAAAACTGGACCTGGCTCCAATAAATATTGGCCTTATTTGATTTGGTATGTTCAGCAGTTAAGATCTTATTTACCTTAAAAGAAA
Celera SNP ID:            hCV27513793
SNP Position Genomic:     49869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37922):
AGCCTGAGGCCAGACCCAGCACCCGTCCCAAGGCTGAGAAACAACCCAACCATAGTTTCTCTGTGAGGTGGGTCCTCTGTGCAAGCCCTATTGACTCATA
Y
GCCTTGGGGGCTTTGTTTAGAATGACTGTTTCCTGGTCCTAAAATAATCAGCCTAAAATAATCACTGACCTCCCATCTCCCAAGAGAATAGGCAAATTGT
Celera SNP ID:            hCV2011953
SNP Position Genomic:     57398
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(T,28|C,42)   total(C,42|T,28)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37923):
GCCCTTTCTCCCAGGGACCCCAGGGGGCTGAGCCATGGTTTGTAGATCAGTCACCAGGCTCAGGCCCAATGGCCATATCGTTAATCGTGGCTGTCTAGAC
Y
GCCAGCCAGGACACCCTTCCTCCACCAAAAACACACACACATATACACACTCGGTTGGCCACACCTCTGGTGGTGCTTGGGGATGGACCTGGGCCAAGTG
Celera SNP ID:            hCV8364758
SNP Position Genomic:     48164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37924):
GGGGGATGGCATTGCCAGGGCCAGCACCTCTCCTCTTCAGGGTTTTGCAATGAGTTTATCAAACCATGGTCTCCAGACCTCCTGCATCAGCATCCCATGG
R
GTGTTTGTTCAAAATGCAGATACCTGGACCTGTCTCCAAGCCCACAGGATCAGAATCTCTGGAGAAGAGACACAGCCTTCTGCATATGTAACATGGTCCC
Celera SNP ID:            hCV8364759
SNP Position Genomic:     48403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37925):
CCTGCCGCCCGCGGCCACAACTCCACATTCCACTTTCCACAAGCACACACGAGGCGTCCCACCCCGGGCTGGCCTTCGGGGCCACACTGCCCCACGCAGC
K
GTGGACACCACTTGCACGCGTCCGGCTTCCCGGCCCCGCGCGCTGCCCCCGCCACGCGGTTCGGCCCAGGCACCAACTCGGCCGCCCGTGCGCCCTGCCC
Celera SNP ID:            hCV16070240
SNP Position Genomic:     5560
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,2)      total(G,2|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:37926):
GTGGGGAAGAGACTTGCCCAGGTGGGAGTGAGTCTTAGTGAATGCGTCTCCTCAGTGGGGCAGGGAAGCTTTCGCAGTGTTACCAGGGTGGAGACAGGGC
Y
TGGGGGTGGAAAGGAAACTGCTGAGGGTGGGGTCAGGGGAACAGGTGGGAGAGGGAAGGAGGAGGGTAGGGAACCACGGTGTCCAGTCCCCTCCAGCAGA
Celera SNP ID:            hCV16070241
SNP Position Genomic:     3303
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,16)   caucasian(C,1|T,11)   total(C,7|T,27)
SNP Type:                 TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:37927):
AGCACCCCCAAGGGCTCACTGCTGCAGCTGAGTTTCTAGACTGAGGAGGTCCCTGGCTTGCAGTGCCAGCCTGAGGCCAGACCCAGCACCCGTCCCAAGG
M
TGAGAAACAACCCAACCATAGTTTCTCTGTGAGGTGGGTCCTCTGTGCAAGCCCTATTGACTCATATGCCTTGGGGGCTTTGTTTAGAATGACTGTTTCC
Celera SNP ID:            hCV2017622
SNP Position Genomic:     57331
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   Caucasian (pooled) - WICGR(A,48|C,48)   total(A,48|C,48) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37928):
TTTCTTCCCTGGCTGATACACCTGCCCACAAGCCTCTTTTCTTGTATTCCTTTTAAAATTAGAGTCAGGCTGGGCGTGGTGGCTCATGCCTGTAATCCCA
M
CACTTTGGGAGGCTGAGGCAAGAGAATCACTTGAGGTCAGAAGTTCGAGACCAGCCTGGGCAGCATAGTGAAATCTTGTCTTTGCAAAAAAAAAAAAAAA
Celera SNP ID:            hCV2017623
SNP Position Genomic:     55799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37929):
AGAAGGTTCTGAGCCCTTTCTGGGCCTCTGTCTTCCTATTGGACACTCTACTGGTGGTTTGGCATACAAGGGTCGGATGGGAGGTTGGGAGTGGCCCCTT
Y
GGTGGGCCACTTGCCCCATACCTGCCTTTTCAGATGCCCCCTCAGAGGAAGTAGCAGAGGAGAAGAGCTACCAGTGTGAGCTCACGGTGGACGACATCAT
Celera SNP ID:            hCV2017625
SNP Position Genomic:     55031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(T,193|C,1310)   total(C,1310|T,193) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37930):
TGGACTAGGCCAGCTGTGCCCTAAAGCAGCTCCCACCTACCCACCAGGCAGATGTTTACCCTGACTGGCCACCGGGGCAGATGGGCATGCAACACACTGG
R
GCTTTCCACCCTGGGGAGGGCAGTGAGACACAGGAGCCCCCAAGAAGGTTCTGAGCCCTTTCTGGGCCTCTGTCTTCCTATTGGACACTCTACTGGTGGT
Celera SNP ID:            hCV2017626
SNP Position Genomic:     54888
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   (A,-|G,-)   Caucasian(A,19|G,63)   Caucasian, from CEPH families, part 1 - WICGR(A,35|G,147)   African-American(A,27|G,51)   Asians(A,14|G,66)   total(G,327|A,95)   JBIC-allele(A,278|G,1215)   total(G,1215|A,278)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37931):
CCTGAGTGGGCGTGGTACCTGCTGTGGGTGCCAGCGCCCCTTCCCCACCTCAGGAGCGTGAGATGCCAGGTCGCACAGAGGGCAGCAGCAGCGGCCGTCC
Y
GCGGCCTCTGGGCCCCCCAGTGCCCTGCCCACTCCATCAAGGCCCTATGTGGCCCACCTGGCAGGGGCACAGCCCCGGGAGTGGGAGCGGGCGCTGGGGC
Celera SNP ID:            hCV15877070
SNP Position Genomic:     60812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;SILENT MUTATION


Context             (SEQ ID NO:37932):
TAAGATCTTATTTACCTTAAAAGAAAATAGCTTAGAAACCATGGCTGTGGGCAATGGTTTGAGCTGAAGCGTTGAGCTAAGGAGTCTCTGGGTCAGGCCC
R
CCATTTTGCAAGCCTCCTTTGGCTGTGGAGGGTGTGGACAGGAAGGACACAGCCATGGCAGAGGCCAGTGGCGAGGCTGTTTCCATAGTCCCTGAAGAGG
Celera SNP ID:            hCV27521458
SNP Position Genomic:     50044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37933):
CATAATTTTCTGAAAATAATGTTCTCCTCTCTTGGCTCTGTAACCCCCTGCCAGGGGCACCTTGGCTGTCCTGTCCCTCCAACAATCTAACCCTCTCCCT
Y
ATGTTGTAATTGCAGATTTTTGCTGGTCTTCAGCTGCCTGGTGCTGTCTGTGCTGTCCACTATCCAGGAGCACCAGGAACTTGCCAACGAGTGTCTCCTC
Celera SNP ID:            hCV25937370
SNP Position Genomic:     39301
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,29|T,9)   total(C,60|T,10)
SNP Type:                 INTRON


Gene Number:                 165
Celera Gene:                 hCG22870 - 30000023468320
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(42107102..42126743)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12325):
TCCATCTCAAAGAAACCAAAAAACCAGCTTCTGCCTTAGTGTATCAGGCTGTAATGAGGTCACCTATTCTCCAGGCCTTGGAAAAGAATCCAGGGTATTT
TTTGCCCACGTGCCAAGGATTTGTCTCTAATCTTACCAGGCTACCAGTCTCTCTAGAAATGGTCCCCCAGAGCCAAGGCAAAAACAGCCCCACTCACCAG
GCCCCCCAGACACCCAAATAGTCCCCTTACCATGTTGGTACCACTGTCTCAGGTTTGGGCTGAATCATAGCCTCAATGCAAAATTTCTTCTGGCCATTTC
CAAAAATCAGATCTACCCTTAAAAAACAAAGATTTGGCTTTCCCTTTGTGAAGAAATGCTTCCCTCCCCCAGCTATCTCCAGTTCCTCAGCTCATCGTCT
GGCACTACTGTGAGCATCACCTAGAAGGCCACTGAGATGTGCCAAGGAGAGTGGTGGGGATTTACAAACCAGTCCCCGCCCTTTATGGTAGGTGCCCTCC
TGTCCTGCAGGGTCGGACCGATACCTGGAGAGCCGCGATGCCTCTCGACTGAGTGGCCGGGACCCCTCCTCATGGACAGTCGAGGATGTGATGCAGTTTG
TCCGGGAAGCTGATCCTCAGCTTGGACCCCACGCTGACCTGTTTCGCAAACACGTAGGTGCTGCTGCCTGACCTCTCAGTAGGAACMTGTGTGGAGAGCC
TCACCTGGTGGGGACAATACGAGATGTTTGGGGAGGAGGGATGCTTAGAGACAAAGGCTGAGGAGAACAGGTAGGCTTCAGCATCACAGCAGGTGAACTG
GACTCCATGTGGCGGGCACTTCCCAGGATGGCCTATAATCAGAACCTGGGGTGGTCAGACCAACCAGGACTCTGATGGTGCCTCCCTTCCACTTCTGCCC
ACCTCCCCACCCCCCAGGAGATCGATGGCAAGGCCCTGCTGCTGCTGCGCAGTGACATGATGATGAAGTACATGGGCCTGAAGCTGGGGCCTGCACTCAA
GCTCTCCTACCACATTGACCGGCTGAAGCAGGGCAAGTTCTGAACCAGGAGAGGCAGCCTAGACAACCAAGTGGCAGCAGGTGGGGGCATTCTTCTAGGA
ATGAGGGGCATCAGCCCACCCCAGGCACCTCAGTGGGGTTCCGGGCCACCTCAGGACTCYAAGAGGCTGTGTGGAGCCACCACTCCTAGCCACAGCTGCC
ATGATAAGTCCTTCCATGAAGGACTGAGGAGGGAGAGTGGGGGTCCAGGGCTGGTGCTGCTCTTCCCTCAGCTCTGCCGGGGCTCTAAGGTCCCTCTATT
TATTTCTCAACCCTGGCTGGCCTCTCACCAGGAGTTTAGGCTGAATGCCTTCCACGTGATGGAGGAAAAGGCCAACTCTGTCCTGGTCTTGCTGTGGCAC
CCCATCGCCCCACAGCTCGTACCTTCTCACCAGATTCCCCTGAATCCAAACTCGTGGTGCAAACCTCTACCTTTTTTACAAAAAGATCTTATTGTTAATT
TATTGTTTCTGGCACTTGGGCAAACCCTGTAGTTAATACTCCTCCCACACTAGACACTGGGTTTCAGGAGGAGGGAGACTGCCCTGCTTTGGTCCCAGAG
AGGCCCTCTGCAGATAGGCGTGGCCCCTCTTCAGAGGACACTACCCTAGGGCACTTTCTCTTTGAGGTGGAGAGACCCATAAAGCCTTGACCACATCACT
CCATATGGGGAGGAGAAGGATCCCTGTCACCTTCTCCTCTCTTCACGGGGCCCTTTTGCAGCCCTAGGCCTCATCTGTGGGAAGGGAGTCCCTGGCTTAT
ACTGCCCCCACCACAGCTCCTTGCCCTGGCCAGAACTGCTGTCGAAGAAAATCAGGCCGGAAGGCCAAGAAGGCGCTAAGGGGGATGGGAGGGCAGGTTT
TCCAGGCTGGAGTCGGTTCCACCCACTCGCCTGTCCACAGGCTTCCTTGTAAGCAAGTCAGCAGCACAGCTACTCACGCTGCCATCTGGACTTATTTTAT
GTCAATCTGTTTATAAATAAAAACCAATATAGATACCAGTGTCTTTTTAATCAGTTAACAGCCAAATCACTACGCATTCATTGGACCAGTCATTCCCCTT
CTCTTGGTCTTAGTTTTCTCATACATAAAACGAGGCCGAGCACGCTGGCTCATGCCTGTAATCCCAGCACTTTGGGACGCCAAGGTGGGAGGATCTCTTG
AGCTCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAACCCCAGCTCTACAAAAAAAAAATACAAAAATTAGCCTGCTGTGGTGGCGCACACCTGTAG
TCCCAGCTGCTTGGGGAGCTGAGGTGAGGGGATGGCTTGAGCCTAGGAGATCGAGGCTGCAGTGAGCCGTGTTCGCACCACTGTACTCCAGCCTAGGTGA
CAATTTGAGACCCTGTCTCAAATAAATAAAATGGAGAGCTTGGAAAAAATGATTCCTAAGCGTCCTTCTAATTCCAGCAGTCCCTAAAGAACAGGTGGTC
TTCCGAATGTCCACCAGAGCCCCAGCATCACACAGGCCCCTTGGAAAGTCAGTATGTGAATCCAGTCTCCACCCTCAAAGGGCTTTGCTCTGGTGCAGCT
AGACAGTAGTAAGCACAGCAGCTATGCAAAGCCAGAGCAGGAGGGAGCAATCTTACATCAGCAACTCCTAGGAGCCTCAGTGGCTGGGCATATCCTCACC
CATATAGGGTGGGGAAAGATGCAGGCCAGCACAGCCAGGTCAGGCCTGCACTGTACCCCTTGTGCTGACCAGGGGCCAGGCACACAACTCCAGGGCCACA
CGTCGTGTTTATAATTGGAGTATAGGGTTTGCAGGAGGAAGAGAAGGCATAGGGGAGCAGCAGGTCAGTGCAGTATAACCTGATAATAACCACCACCAAC
ACTTATATCACTGTGTGCCACATGAGCTGCTTACATGAATTAGAACTATCTCACTTACTCTTCACAACAAACCCATTTTATGGATAAGGAAACTTAAGCT
CAGGTCACACAGGCAGGAAGTGCCAAAGCAGACATTTGACTGCAAGGCTGAGGTTCTAGCCAGCCCACCTATGTGCCAGGAAGCTTTGGGTGGGTCATTT
CCTTTCTTTGGGCCCATCTGGCTATGGGGTATTTGCATGAGGAGACTTGTGAAGGCCCTTCAAGCTTTCACCAGTGACAAGTTCCAATATCATAACTTAC
TTAGAATATATTTTCTACTTGGCCACTGTGAGGTTCTAACCATGGTCACTGTGAAACAGTCAGGGTCAAGGCTGCCAAACAAGTTGAGGCCCTCATTTTC
TACCAACTCCTTGACACTGGGGTTTTTTTTTTTTTTTTGACAGTGTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCCCTGCAACCTCC
GCCTCCCGAGTTCAAGTGATTCTCATGCCTCAGCCTCCCAAGTAGCTGCGACTACAGGCACACGCCACCATGCCTGGCTAATTTTTTGTAGTTTTAGTAG
AGTTTCACCATCTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCGCCTGCCTTGGCCTCGCAAAGTGCTGGGATTACAGGCCTGAGCCACCG
CACCCGGCCAACACTGGGATCTTGTAGACTGTGCTGTTCATTCAGGGTATTCCCAATGAGCACCTTGCTGAACCCTAACAACAAACTTCTAGATGTGACC
CTCAAGACACAGGGACTAAAGGTGACACTGGCATATGTAGGCAGGCCAGACATGCTGCAAAGCTGGGCACCCACCCCACCTTACCCTCTTCGCCAAGAGT
ATGTAACTTCCTACTGAGCATTGTTGTGAGAACTCATTGTGCTGAGTTGTTTTTCTACACTATCCCACTGAAACCTCACAACAGTCCTATAGTATAACTA
CTGTTTCCCTATCTTACAGGTGCTTAGAGAGGTTAATTCCATAGCTGTTAAGGGGTACATGTCCTGCTGCCTGCAACTCTCTCCCGTGGGCCTTTGTCTC
AGATCCAGCTACCATTCAGACTCCAGACCCCTGCAGGCTACACTGGGCATGTCATTAACTTTGAAGACTGTCAAACAGAAATGGCCTGGCTGCAGGGCAG
CGGGAAGCAGCCCTCTTCAGGGGAGGAGGGCAGTCCTCACAGAGCCTCTGGTCATCAGGAGTTATTCTCCTTGGTTGCCCAGGTGACAGCTCAGGTACAA
GGGAATGAGACACATCAGGGAGAAGGGGGTTGGTTCACTGTGGCTTAGAGGCATCATTCCCCAAAGGAGCTCATATCTCTTTGAACAACTCAATAGGCAT
AGCTTTCAGGGACCCCATAAGCCACATACCCAATTGAGTCATTCCACATAGGACGCCCAACCTTATGGCTTTTTAACAAGTGTTTATAGTTCACACAGAA
AACTCCAAGTGCTGATAATTTACAATTAGGAATCATGCTTACCATAAGTAATGTTGCACTGAAACAGCTAACATACTTTTATCTGGTTTCCAGACAAAAA
GAACTAGAAAGGTAACCAAATGTCAAGTTCTGCAGGAAAGGAGAGGATGATTCACGCTGCCATAACCTCTGGGGTCAAAATTAAATGTTGTTTAAGAAAG
AAAAAAACCCCTCAACTTTGGAAATTGTTTCAAAAGCCAAAAGCCTTCTAATAGTGACCCAGAATCATTAAAAGCACTCGAACGGGCCTCAGACCCAGTG
CACACATGCTGCAGTGTTGGAGAGGCCACTCCGTGAACCCCAGCAGTCCAGTAGCCCACCAGGTGGAAAGGCACAGGTGCCAGAGGTCTCATGGCATCAG
CTTCATGTGCTCACCCTCAATGGGGGGACAGGGAGATGACACTGACTTTGTGCTGAGCTCAGGAGGGAAACACCAAACACTTTGGGAGGTAACAGAGATC
TAGGCCCCACCTAAGGCCGAATCCATGGGAGTGTGGGGCATTTTTCTGGAACACTCCGCCCTCCCCAGCCGTGGCTCCACCCTGCCTGCTGGCCGTGGAC
TGCATTGTCCAGACACTCTTTGTGGGGGTCTTATGGGACTCCTTAAGATTGATCCCTGAGGTGTAGCAATGGTGGGCCAAATGGACACTGTTCCGGCCCT
CACACTGGTGCCACACTCCCTCGTTGGCAAGAGCCTGAAGGTGAATCATCCCTCCTTCTTTACCACCAAAACAAAAAGTGTGGGAAACCTTGAGAAGAGG
GTCCCAACACTTCTCCCCTCAGCAGCCCTCAGCTTTTTGCAGCCTCTTTACCTAAGTACCCTGAGTCACTGGACATGGTCTTGCCACCACATTCCGTCAG
GGCAGAGCCACAGCTTCCAGCCTTCAGCCCAGAGGCAGTCACAGCCAAGCATCAGAACTGCGGCTCTGTGCCTACAGTGCCAAAGCCACTGCAGGTGCTC
ACAGAGGCTGGCAGCCCACAGTACCCAGGGCACAGACACTAGGCTGGAGCCACTCAAGTCAGAGATACTCTGCAGTAACTGGGGCTGGGCCCTGTCAGAG
CCAGGTGGGGATCTACAGGCTGGAGGCAGCACGCTAGGGGAGGGCTTGAGACCAAGGGAGGCTGGAGTGATGTGGGTCCCAGGACCTGGAAAGCTATGTT
TGTAACTCTGCTCCCCAGAGTTCGCTCTTCTTGATCATCCTTGTTCTCTCCTGCACCTGGCTGGGCTCATTCCTCTTCCCTATCCCTCTGCCCCTTGACT
GGCCTTCCTGGGCAAACAGCAGATTGTGAAGTGGGAGCTGTGGGGAAGAGGGGATGGCATGCCTGCTGTGGGTTCAGGGATTGTGGCCATGTGGGCCACC
CAGTGGACACTGTCCAGATAACATGAAAAGAGGCCATCCACAGCGGCTCAGCTCTCTGCCCCTCATCTTTGGGCCCCACCTCACATTCATAAAGAGGCTT
AAATTCTAGGGTTTTTTCCTTCAGTTCAAGATGAGGTTTGTCAGTGAGGTCACAGACATCCAGCAAGAGGGTTAACGGGGCTGCTTATCCCCCCACTGGG
AACCCACCACTCCAAGCTGCCTGCAGAGCACCTATACTTTCTAATACTATTACCTAATACTAGAGAGCCAGAGACACCGTAAATAACCTTGTTATCTTAT
ATTTATGTATTTAAAAGATGGTTCATAAATGTGTTTAGTGCTTACCATGAAAGACAATTTTTACCCCCATCTCCAAAAAGAAGTAGAACTGATTCAGCTC
ACAGAAGGCTGTTAAAGGCGCCAGAGAAATATGTGATGCAGTGGCTTAAAGAGACTGCCAGGAAGAGTGGGGAAAGTTGCTGCACTCAAGTCAATTTGGG
AAATTTCATGCAGAACAGCCACCCAATAGCAAGGCCTCTAGGTAAGTAGGGAGAACGCCTCTGGTCATGTTCAGGTGTTTCGTCTGTCAAGGTGCTTCTC
CCGGACAGCTATTTCTGCACAGTTCAACACGACTTGAGTTGGCCATCTCAAAACAGCTATAGCCTCAGTTGCTGTGAGGGCACCTCATGGATGACAGAGG
CAAGAAAGGCTTGAGGGAGAGGGGGTGAGGCAGGGGGAGCTTGGAGCCGTCATTCTCTAACCCTAAGAGCTGTGGACACAAAGCCGAGCCCAACCTGGCT
GCTGCCCGGGCGGGCAAGGAGAGGGCACCGAATGCACTCTCCCCAGAGCCTCGCACTGCCACCAGTTGAGGCCTGCGCCCCTCTCTTCCCCGCACACCAT
AGCCTCTTTTCTTGAGTGCTCTACCCAAACTACTGCCTCACCCCCTAGGAAACAAACATTTGGTAACATCTTCAGAAAGGCTGCTTTCAAGGAAGGCAGC
TTCTCTACGCTGTCAAACAGCTTTCTTAGTTGAAGCATCTAACTGTGGCACCATCCTTACTGCCCCCAATTGGGGCTTCCAGAAGCAGTGTGGGCAAGCG
CTGCCAGCCTTCTGCAGAATGATGAGCACTGGTCAGTCCTGTGCTGATAAAGACTGTGTGTCACCCACGTCTTGGTTTCTCCAACAGCAGGTAACAACCT
CATCTTCCCAAAGAGATAGATAGCTACGCCTGACCTATTTTTCAGGGCTCTTCTGGACAGCAGCCTCTGTCTCCAGCACAGAGAAGGGCCTGGCGTCAGG
GGGAGCCCTGGAGCCTACCATGTGCCTCCTGCTCCATCTTGGGAGCAGCTGGGCCCTGTCAGTACTCAGTAGAGCCTGGGATTGGTGACTGACTAAAGAG
GGAGGTGGAGGCTTTAGGCAGCAGCGCTGAAAGAGGTGGCAAGAGGTGACCTGCATGGGAACTGGGGCCTGAAGAGACATCACTAAGKGGGGAAGTGTGT
CCCACAGCCAAGCTGCATGGTGGGTGGGCCGCTGGGTCTGCTTCCAGTGTGTGGTGGGACCCACAGGGAGCTGAGTTTTCCTGTTTGATTTCCCGCACCC
AGCCTGCCTGTGGCTGGCCAAGAAGGCATTGTTGAAMCTCATGAGATCACAGAGGTAGCTGTGCAGGCCCCGCCCACTTCCTATAACCCTGGTTCTGGCY
GTCCMTGTGCCAAGCCTCCAAGTTCCCTGAGAGCTACCGGCCAGGGGTCGGSAGGCTATGGGAGCTCAGGGMAGGCACCTCCCATGCTCCCGCGGGAGCC
ACCAGGACATGAAGGTCATAGGCCTCTCCTCTCCTCCTCTTCCTGTTTGACCTGAATGCCCCCAGGCCAACTGCCTCAAGGATTCCATTTGAGAAGATGC
AGGCTGGGTGTGTGGGGAGCAGTAGAGGGGCTGGTGTGTGCACATATGTGCACAGCTCAGGACAGAGGCTCCCTGGACTTGGGGCGGGGGCACTAGGGCC
CCAACTCTAACCCTCGTTCTGCCCTGTTGACCTCTGCTCTCTGGACCAAAAATGGAGGACTCAGTCTAGACTAGTTCTTAGGGTCTAGGAGCCACCTTAA
GTTATGTTTATATGCAAAGGCCATTTTTCTGAGAGGCCATAGCTTTCATCAGTGTGCCAAAAAGCGTGAGATCCTCTGCTCTAAAAGCCTCTGCCCCAGC
GCTGCCTAGTTTCAGAGCCCCCGATGGCCTCACATGGGGTTTTAGAGCAGGCAGAGAAGCTGCAATGGGGCCACCAGCCAGTCCTCAGAGTCCTGGGTTA
AGGCCTCCTCTCCAGGAGGCCCTGTGTAAAGGTTTTCTCTGTTGCCTGGAGGCAGGAGTGAACTGGTAGGCAGGAAACCCTGAGGGTACCTAGGAGGCCC
CTAGCCTGTGGGTTGGGGAGGGAAGACAGGACCCCTGGGGCCACTGAAATGGTGGAGCTCTCAGAGACCTGAGTTCTGGTCCCTTCTGCCACTTTTTGGG
CAGATCCCGTCTTCCCACAGGCCCTGTGTCTTGCTCAGTCCACGTGACTCTGCTTTCTCATCCTAGGCCTCAGGTGGGTGGCAGGCCCTTTCCTGCTTGC
CCTCTGCCCTCCCTCTCTCTGGCCCTGCCCAGTCTCTGCCAATCTGTGTACCTCCCAGGAGCCGGGACACTCCCTGAGTCCTCTGGGAGCCCTTAAGCCA
YACTGAGAACACAGACCCTGGGAGAAGCAGCCAGCAGTGAGGAATCCTGGAACCCCTTCCCAGGGAGAGCCTTCCCATGACCCCCATGAAGAGATCAGTG
CAAACACAGGTGTCAGAGCCCTTCATGGAGTCCTGGGGTGAGGAGTCCCTGCCGGAGCTACCCRCAGAGCAGTCCCTGACGGAGTACTCTGACCTCGAGG
AGGCTCCCTCGGCGCACACTCTCTATGTGGGCCATCTGAACCCCCAGTTCTCAGTGCCGGTGCTTGCCTGCCTGCTGCGAGACACCCTGGAGCGGCTGGA
GATGCCGGTGGCGCGGGAGCACATTGAAGTGGTGAGGCGGCCGCGGAAGGCCTATGCACTGGTGCAGGTGACTGTCCACAGGGACACCCTGGCCTCCCTC
CCCTGGCGCCTGCAGACGGCCCTGGAGGAGCACCTAATCCTCAAGGAGCTGGCAGCCCGTGGGAAGGACCTGCTAYTGAGTGAGGCCCAAGGRCCCTTCA
GCCACASAGAGGTAAGTGGGACTTTTCCCAAGCAAGCTCCAAAGCCTCACCCCAAGGGAGAGCCTCTGAGTGGGAGTGGCCTGCAGAGTGGGGATGGAGG
GGTGTCTCTGGGGAAGCAGGGACAAATCTGCAAACTTGGGGGCTGCCACTCAAATGACCATGGCTTGCGGCTGGTACTGCCAGCTTTCTCTGGGAAAAAC
AGTTTGCCTCAAGCTCAAGCCCGACGTTTGTGTGAAGAAAGGCCACGAGGGGACCTCCTCTCCTTAGGTCCTTTTACATTCCAGCCTCTGGGCCTGGGAG
ACCCTAGAAGACACAGGGGKCCCGATTTTCTCCTTGGCCCAACTCATTTGTTCAATTGACAAACATGAACACCCCCTCTGTGCCAAGAGTAAGGCAGGGA
TGAGAGGCCCAGCCAGGCCCCCAGGAAGCCCTGCATCTGTGGCCAGAGCTGGACAGCCACCCRCCGAGCTGCAAGGTGGCTGCGCTCAGAGCTGTGAGAG
AAGACAGGAAGGTTTGCCCTGCTCTCTGGGGACAGATTAACAGGGGAAGTGAAATCCAGGCCGGGACTTAGGGAGTTGGACAGGCACTTGCAAGGGAGGA
CATTCCAGGCAAGGGACACAGAATATGCAGAGGAACCTGGGGGCTTAGAGGGAGTGTCATGTCTGCAGAAGGGCAAACCATTTGGTGTCCCTGGAGCTCC
CACTAAAGGCTGCAGGGGGTGCTAAGGAAGGAAGTTGGGCCAGAAGGTAGGGTAGGGGCCAGGTCACCAAGGCTATCATCCAAGGCAAGGCTGAACTGCT
GGCTTTATTGGGTGGGACATGGGACGTTAGGRTAGGTCACTCCATGAGACAGGTGATTTTGGTTTCTTTTGGTGTGAAAATGATGGTGTTTAAACTGTTG
CAGAACTAAAAGGCTCTGTGGCTTACATTTCAACTCAATTTCACATTTGTATGAAGTTTATCCTGTTTCTAAGACTGATAAATTCATCTTCTCTGGGGAG
CTGCAGGGCTGGTAGGGAGGTGCCTCAGTCTCCTCACCCCAACCCACGCTCATGAAAGAATTGTGAGGAGTAACAATCTGCCTTGAAGTTAGCGTCACTA
AGGAGGGTTGGCTGGGCGCGGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATGGTGA
AACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGGGCSCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCTTGA
ACCCGGAAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCATCCAGCCTGGGTGACAGGGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAA
AAAAAAAACAGGAGGGTTGACATGAAAGGGTGAGCCTGGAAGCAGGGAGGTCAGGGAGGGGCTCGCTGGGGAGGCCCAGACTAGGAAGTGGCCCCGAGGA
GGCTCACACCAAGCCCTCGAGCAGAGCCCAAACCATGAAAGGAGATTCAGGAGGCGCAGAAGAAAGTGGGGATTAGGGCGGACTTGTCAATAGCCCAGCA
AGTAGTGGGCAAAGGTTTGAAATCAGGAAGTGGGTGGGGTACCTGGGAGTCCCTCTCCATTCAGGGTACTGCAGCTCTGTCACAGGGTGCTGAGATACCT
GCTGGAATGATCTGGTTCTGGGCCTCAGGGGCCTGTCTGCAACCCAAGTAAGAAAAAMTGGGCCCACACATGTCCCAGCACCCAGCCCTGAGAAGCAGAA
ATCTCTTCTTCCCCACCAGGCATCCCACAGCTCACCTGGGAAGGGCCCAGCTTGGCAGGGAAAGGAGCGCTGACTGGAACCCTCGATCCAGCAGGGTTTC
CTGCCTCGGCTGCAGGAGGGTGGGCAGAACTGGGCCCCTCGGCCTGGTGAGGGGCATSAGGATGTCCGTAAGAGTCAGGCTGCAGCAGGGGCCTGACTGG
GGGTTCTTGCAGTCCTTCTCAGGGTCAGGGCTCCCATTTCCTGGCTGGACCCATACATTCATTCTTGACTACCACCCTAGGAGAAGGAGGAGGAGGAGGA
GGACAGTGGCCTGAGCCCTGGCCCCAGTMCAGGCTCTGGTGTCCCGCTGCCCACCTGGCCTACACACACGCTGCCTGATAGGCCCCAGGCCCAGCAGCTG
CAGAGCTGCCAGGGCCGGCCCAGCGGCGTGTGCTCCGACAGTGCCATTGTGCACCAGCAGATCGTGGGCAAGGACCAGCTCTTCCAGGGTGCCTTCCTGG
GCAGCGAGACCCGCAATATGGAGTTCAAGCGGGGTAGCGGCGAGTACCTCAGCCTGGCCTTCAAGCACCACGTGCGGCGCTACGTGTGCGCCTTCCTCAA
CAGCGAGGGCGGCAGCCTGCTCGTGGGAGTAGAGGACAGCGGCCTGGTGCAGGGCATCCGCTGCAGCCACCGTGACGAGGACCGCGCACGCCTGCTGGTG
GACTCCATCCTGCAGGGCTTCAAGCCTCAGATCTTTCCCGATGCCTACACTCTCACCTTCATCCCTGTGATCAGTACCTCGGAGACCAGCGTCCCCCTCA
AGGTGAGCCTGCAGGACAGGAGGGCCTCTGGGCCTGTCATCTGTCATCACTCAGTAAGACGATGGCCTGCACTCCTGCCAGGCAGTGCTGGGGCAGGGAC
GGGACTGGGGGCCACAGGAGAAGAGGCTGGGGATGGCCCCTGTGCCAGCCCTGCTGGCCTGCCCTAAGGAATCAGTGAGCAATGCTGAGCAGCCTGGCAG
GATGGGGGCTGCCGACCGTGAGGGGCGGCGCCTCCAGAGCTGCTGTTGCCCCTACCAAGGTGATCCGCCTGACCGTGCACACCCCCAAGGCCCAGAGCCA
GCCGCAACTCTACCAGACAGACCAGGGGGAGGTGTTTCTGCGGCGCGACGGGAGCATCCAGGGCCCGCTGTCTGCCAGCGCCATCCAGGAGTGGTGCAGG
CAGGTACGGAAGCTGAGGCCAGTGGGTGGGGTGGAGCGGAGCTGACCCCAGACCCCTTCAGCCACCCACTGAGCAGCCCAGGGCAAGCCACCATGGTTCC
CTGGGTCCTGCATCACCCCGTTGAACCCAAGGGGTTGGAATACAATCACACCACATCCCATACTCCGCGGGTAGGTGGCTGGTGGGAAGGAAGAGGCCCA
AGCTCTCTCCTTTTAAAAATCTATGCAGTGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGATGAGGCGAACAGATCACAAGGTCA
GGAGTTCGAGACCAGCCTGGCCAACATRGTGAACCCTCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAGTTCCAAATAC
TCGAGAGGSTGAGGCAGGAGAATCGATCGAATCTGGGAAGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGACCGAGA
CTCCATCTCAAAAAAAAAAAAATCCTATGCAGTATCCTCCCTTCAGGGGTGCCTGAAACCCCTCACCCTCTACTTGGGCAGTTAACACACTCGATCTTGA
GTGAGGGAGCAGAGAGACTGGAATGTTGAGATGTCACCAGAAAACCCCAAAGACTATACACTGCATTTTAGGGGAGGCCCTAAAGCGGCAGAGGGGGCAA
GACACAGTCCCAAGGAAGAGCTTTTTCAAGAGGGAAACAGAGAATGGAGGACAAGGGACCAACAGTGAGGAGGCACATGGCCTGCCCAGCACGGAGGAGG
CTCCCTTCCATGGCTGGCAGCCGGCAGCTTCCCTCAGGCTGACACGGTTGAAGGTGGCAGCAGGCCGAGGGGCCTGACTTTTCCCCTAGCTGAGAAAGCT
CTCAGGCTCCTGGGCTTTGCCTTCCTCCCTCAGTTTGGCCCCAGGTGGAGGACGGACAGGCCCGAGACCAGGCGGGCTTGGCCACATGCTTTTCCCATGT
CCCCTCAGAGGTGGCTGGTGGAGCTGGGCAAGCTGGAAGAGAAGATGAAGGCGCTGATGATGGAGAAGGAGCAGCTCCAGCAGCAGCTGCAGCAGCACGG
GCCTGTGTCCTGCACCTGCTGTGTCCTGTGAGGGCCCTGGGGAGCAGGCAGGACGGCACGGCACTCTCCACCTGAGACCCAGGGATTTCCTGTTTGAGTG
TAAGGCCAACCAGTAAAGCCCATGCGGGCTGCTGAGAGGCGGACAGGGACTCCTTCAACATGGCACATGAGCAGGCACCCATGTGGCTTCAACCCTGACA
GACCCATCTGTGTAGCCAAGAAACTGCTCTCAGCCCTGTCCCCAAATGACCTTACTTTCAGAAASAATGTGTAAAACCCTGCCCAGAGCTCCCCTAGGGC
TAAGCTATAAGGGATTGTCCTTCTCCCTAAAATGCTCATTTGGCCCAGGCTGAGGTCTGTGACTCCAGTTGGCTACACAGTGCCAGAAAGGAATCTGTCA
TCTCAGGAAAGCCCCTCAAAGATGGCGAGGCATATTTGATGACTGTGGTTACAGGGCAAGAGGCCACCCTGCAGCCCCCACCCCTGACTTGCTGGAACTT
GTGACTGTCAAAGCTCCATTAATAAATTACATGCACCTGGGACAAGAATGGTTCTTTCTAGGACACTGGGTCAGCCGGTCAGATGCTGCAGGGTCATGAG
TCCCAGGCCCAGCCCACCTCTGTCCAGGAGGCAGAGGACAGACCTGCAAGGGCAGGGAGCCCAGCCCCTCAGACTCCAGTCCAGCTCTGTCTTAAAGACC
AGGGACCGTGGGGCAAAGTGCTATGCCTCTGTGCTTCAGTTTCTTCATCTATAAGACAGTGACAATGGCCAGGGGCATTTTGTCACCATCGGGCCAGTGC
CCTGTGTCTACGCCAGCTGTGGCACAGAGCAGCACCTCACACTAAGGGTCTCAGTTCCTTTCCAAGACCCCTCTGGTCCAGTAAGACCGTTAGCTTAAAA
CAAACAAAAAAAACCAGACTCCTCCAGCTGCTTCCTGCCTCTGGCCGTTTCTCCTGCTGTCTCCACCAGCTGAGCCAGAGGCTGCAAAGCCAGAGTCTGA
TCACACTCATGCCGCACCTGCACCCATAGCCCTCCAAATTCTTCAAGAGCAAAGCCCAAACTTGATGGCCTACATGGTTCTCCACCACCTAGCCCACCCA
ACCTCAATGTCTTCCGCCCCTTATGTAAGCCACTTCAGCCACGCCCACCAACTTGTTTCATTTGCACTCCTGCCTCGGGGCCTCTGCGCTACATAGCGGC
CTATTTCCTTTCCTCTTCACCTTCAAGTCCATGCTTAATTTCCCACCCACCCTATTTTAAAGACACCACCTCCCAGCACTGCCACTCCCCTGCTCACTTC
CACCCTTGGTCTCCATCTATGAACTACCACACTCTGTAGCTTATATTTGGTGCTTCCCCCACTGAATAACTGCTCTGGGGGACAGGGGTTTGGGTATGGC
TGGCATATGGTAGACACCCAATAAATACCTGCTGGTGAGACAATTAAGGATACTCCTAAATTTGGGGTCTGAGCCACCAGAAAATCACCAAACCTTGTTG
AACAGGGCATTTCACAGGACTAGTGTTCCACAGAACACACTTCAGTTGATCCCCTAAAACTTGAAGACCCTGGCCACATCCACAGCAGACACAGATGAGA
ACTTTGGAACCCCCAGCCCCTCCACTCACCAGCCAGGTGACATTTTCTGGGTGATCACAACTGCTCTGAGACCTGGTTTTCCCACTTAGCAAAGAGCACA
CAACCCCTGCCTCGGCTGCCATTCATGCTGGTTAGGGACCAATGTGATCACAGACACCTATATGGTGGCAGGTTACCAAACTCCTGCTGCTCACCCCCCG
AGCTGCCCCAAGGTCACCAAGACTGTTTGAAAACTACACAAATGTGTTACTCAAGAAGGAGGAGTGGCATTTCTGAGCACCTTCCACGGTCCAGGTACCA
TGCTAAATGCTAGTCCAGGCACCACAATCCTCGGAAATGTTTTTSGGGGGAAAAGAGCAGATTTCTACAAAGGAAGGGTGAAGTCAGGCTTCAGCCCAGC
TGCTCCAGACTGCTAAGAACTGCCCAGATCCCCTGGACTGAAGGGAAGTTCCCTGGACTGAAGGAAGTTACTGAAGGGAAGTTACACATAGCTGTGCCTA
TTGTTAGGTCACATTAAGAAAGGAACGAGGAATGTGACCAGCTTTCCTCCCCATGAGGGAGAAGCCTCCGGGGACGGGTCAGTAAACACTGGGCACAGGT
TGCCCTCCTGTAAATCCAGCTTCAGCCCTATCCTGTCTGCCACAGCCAGCGTGGCGGGGCTGCTCGAGCTTTGCAAGCTCTGGAGAGCCATCTGGGATCT
CTTTTTTCAGAAACCTTACATTATGTGGCCAGCACTTGACAAGTGATCAGCCAAAGTGATCTTAAACATAGGGGCAGGAACTTAATTACTGGGAGGCTTT
TTCACACCACCCACACACCCAGCCATTGTGGGGGACCATGATGTCAACAACGGGCGTGTCAGACCCTCAGTTTGGGGAATGTTTGAAAAAAAACGGGCCA
GACGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGACGCTGAGATGAGCAGATCACGGCCAGCCTAGCCAACATAGTGAAACCCCATCTCTACTAAA
AATACAAAACAATTAGATGGGCGTGGTGGCAGGCACCTGTAATCCCAGCTACTTGGGAAGGTGAGGCAAACAGAATCACTTGAACCTGCGAGGTGGAGGT
GGCAGTGAGCCAAGATCACGCCACTGTACTCCAGCCCAGGCAACAGTGTGAGACTCCATCTCAAAAAAAAGACTATTGACCAGGTGCAATGGCTCATGCC
TATAATCCCTGCACTATGGGAGGATCGCCTGAGGCCAGGCGTTCAAGACCAGCCTGGCCAACACAGCGAGACCCTGTCTATTAAAAAAAAAAAAAATTTA
ATTAGCTGGGCGTGGTGATGTGAACCTGTAGTCCCAGCTACTTGGAAGGCTGAGGTGGGAGGATCTTATGAGCCCAGGAGGTCTGCAGCAAGCCGTGCTT
GTGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACCCTGACTCAAAAAAATAAATAAATAAATAAATAAAATTTAAAATGAAGACAATCTCCTGGTAC
CACCAGGTGGGAGAAGAGGTTAGAATTATGCTCAATCAGCCACGTTCAAAGTACCATAACAAGCAGTTCTGCTGGTGAAGACAGTCTGGCCCACTGCTCA
CTGGCTGTGTATATGGGGTACCCACGTCCAGTGCCTGGCAGAGGAAAGGACCACCTTCCTAAATCATGCTTATCCCTCCCCTTTCTCAGTCATAAATAGC
ACCATAATAGCACCCATGCACCTTTTCATCTCGCTCTACATGCTGAGAACCTGTATTTGAAGCTTTATGAAAAATTCTGGTTCCTATTAAAAAGAAAGCC
TCATTTCTTAGTTTTTAAACAAACTCTCAGGTTGTCTGCTGAGTCAAGGCTGCTCACCTGCAGGAGCACCCGGCACTGACAATTCAGCTGACTGCACACA
AGCAAGCCAGCAACGTGCTCAGACGCTTCCCATCTGGCCAATGACATAAAGAGAATGAGAAGCAAAGCATGTCTCTTGTTCTGCCTTACTGATTTATTTC
TTAAGTTAGAGTACACATCGAGTCTGGCCAGAATATAGTGCCACGTAGCTATGCCTATTGCTAGGTCACATTAAGAAAGTAACTTCATATTGCCCTTTCA
ACTGCAGTAACACCATCCTGGAAGAAAAATGGACCCTCCAGTCAAAGCTGTCTATATATGAGAGGGTTTTAGAGGAAGTTTCCCCCAAAAGATTCTTTGT
TCTGTAAGTGACCCCTTGATGCAAGGAGTGTTTCCCAGCCCTAGAAATAGGAAGCGCAGCCACAGGCATGGGGATTTTAAAATCACGCTTCAGAGACAGA
CATCTTGGTGTTTCATGTTGACACCAAACTGACCGTCCCTTTGAATGAGGACCAGCCACAGTTGGCACTGAGAATTCCCCCCAACTCAGGGCAGTATAGA
GATTTTGTCTCTGGTTTCATGGCTTAGTGGCAAGCAATACCCTGAGGTTCCCAGCACCAAGTGTTCAAATCCTAGCTAAAATCCTCTCTCCATGCTCGGT
AAGTCCATGTGGCACACTTTATAACGGTCTAGGTATCCAAGGGAAAGCGACAGGCAACGCGCTAGCATCTGCAATGATGCGAGGTAGTTGAGAAACAAGG
TGACCGATGGGGCACTCTGCAGCCCCACCCACCATCGGTTCCCATCGCGATGTTCTGCCGCAACTCAAGAACTGCAAGGAGAGTGTCACGCAACAGGCAG
ACACCACAGAGGAGCCAGTACACGTGATGGGACATGCAAGTGACAAGTTTCCCAAATACCTTTCCGCATAATAAAATAATCTTAATAAAAACATAATTTA
AAGAAAGTCTCCAAAGCCGAGTGTAAAGTCAGAGCTGTAAACTCTACCCAAGTTTGAAGGGTCTCTTGAAGAATCATCCCTGTTTAAAAGAAAAAAAAAA
GTGGGAATTATATGATGTACATTAAAGTAGAAAAGTTAGAATTTCTAGTCAGCTGCCATGGGAAACTAAGCCTGTTTTTCATGGCAGAGCAGTAGAAGGA
GCCTACTGGGAATAATTAGACGCTAAATTTATAATTCCTACAGAATCAGACCTTTTCAAGACCTCACACATCGACTTCTACAACCACCCAATGCAAGCAT
TCTTTCTCCACAGCACCTCGTAACAGTGTCACTAACGGGCAATTCTCCACTTGCGAGGCAGTCAGAAATTCCATGTAACTGACCAAATATCTACCTCCTT
CACTGGTAACAGTTCTTGTTGTATCAGCTCCTTAAGACTGTGAAACAGCCTATAGCAAACTCCCTGGTCAGGGGATTAATGAGTCCATCCGTGTTAAACG
CTTACCTAGCACACAGGCCCTCCTCCTGATACTAACTTCTCATGCCTACCCACCACCTACTTAGGCTATGCCAGGACAGGGGGTCAACCAACCAAGGCAG
GAGGGGAAACAGCTGGGATCAGCAGGTCAGACCGGCACTGACCCAGCACCAGAGGCCCACTGGTGATGAACACACGGTGTGCAGGATTCAGGGAGGTCCC
CCTGCCCAGGCCTTAGGGCAGGAGCGGTGGAACCACACACCCATACCCCTGGTTCTTATTCCAGACCCCAGATGACTGACACTCCCTCATTTGATACCTC
ACCAGCAGAATGCGTACTTCTGCCAACACAGTCCACACAGTTATCTCAAAGGACATTTACATTTCGTGGCAGTGCCCACAGTTATTGCACTTTATGAACC
TACAAACCCTGTCACTTAATAGACAAACATTCGACGTCTATTTGGCAATTGTTCCAACTTTGAAGGAATTCCAGAATAAGCAGCAATCAACAAAAAAAAG
TTCTCTAAGCAGTGTCAGTTTTAAAGTACTTCCTGATGAAAACCTGAGGCTCTGCAGAAATGACAAGTGCCACATTGTTGTATCTGTCCCTTCCTTCAAG
ATCTCCAAAATTTACAGCTACATCAAACAATAGGGTCTAAGAATTCAGACCCTCCCCTTCCCCGCCCCAGAACTGGTCAGACTGGCACCAGAATGTAGTA
ATCAGTATTGAGACAACTGCCCAGTGACCATGCTCCCCAAGCTGTCATCCCCAGGGCAGGACTGGGAGGTGCACTGCAACTTGGAGGAAGGGCTGCCCAT
TTGATACCCACAATGACCTCACTACTTTCTTTTCTCTCTCAACCTCTGGATTATATTCAAGACCTCACCACTTTCATTCCTGGCAGATAAAAATTTTCAG
CCCTAAACTTCCATGATATTCTTGCAATCGCAGTGTGTTATCACCATGTTTTTAAAAACTAAAACTTTAAAGTACCACTTACGCTACAAGATCAGTCATG
ATTTATTGATGGAAACTTCAGTTCGGTGATTTCAGAGTCAGGGGAGCTGCTTCCACTCCTGTCACTATAGGTGTCCCTGTAGAATTCAGATGGTTTACGC
ATCATCTCCCACCAAAAACTCACTTTACGTCCCTGTTTTTGTAACCACGGTTCCTACAGGGACACTTGCCTGCACATGGCAGGAATCACAAAGACTGTTT
GCTACATAATATATTTAACATGAAACTGCAGAAAGATTTCCTTCTTCTAGCTACAAAAGATATACATTCCATTTATACTTCAGTCACACACCCTACCACC
AACTCTGAGTACTGGTTCTGGATAAAGGTGGCAATGGGACATAAACCTACCCATTGTGGCTTACTTCCCAGGAAAAACTAGTTCCCCTTAACATGGACCA
GAGGGTCCTACGCCAAGTGTGATCTGGTCAGCACCACCAGAGCTCAGATGCTGCAGAAAGGGGGACCTGGCCAATATGCCAGGGAAACACCGTGAGAAAG
CTCCGGGAAAGGAGAGGAAACTTTCACCCCAGGCGCCTGTGGCTTTTTTTTCTTATGACTGACTGTGACGTGTTGCTGTAATGAATCAGCGACCACCTAA
AGGACTAGAGAAGACTAATGGATTACTGAAGCAAAGAGTGC


SNP Information

Context             (SEQ ID NO:37934):
TAGACAACCAAGTGGCAGCAGGTGGGGGCATTCTTCTAGGAATGAGGGGCATCAGCCCACCCCAGGCACCTCAGTGGGGTTCCGGGCCACCTCAGGACTC
Y
AAGAGGCTGTGTGGAGCCACCACTCCTAGCCACAGCTGCCATGATAAGTCCTTCCATGAAGGACTGAGGAGGGAGAGTGGGGGTCCAGGGCTGGTGCTGC
Celera SNP ID:            hCV25987907
SNP Position Genomic:     1160
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,29|T,7)   total(C,63|T,11)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:37935):
CGCCTGCAGACGGCCCTGGAGGAGCACCTAATCCTCAAGGAGCTGGCAGCCCGTGGGAAGGACCTGCTATTGAGTGAGGCCCAAGGGCCCTTCAGCCACA
S
AGAGGTAAGTGGGACTTTTCCCAAGCAAGCTCCAAAGCCTCACCCCAAGGGAGAGCCTCTGAGTGGGAGTGGCCTGCAGAGTGGGGATGGAGGGGTGTCT
Celera SNP ID:            hCV25973714
SNP Position Genomic:     9007
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,32)   caucasian(C,8|G,28)   total(C,12|G,60)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,215|G,1054)   total(G,1054|C,215) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:37936):
CAGCCTGCCTGTGGCTGGCCAAGAAGGCATTGTTGAACCTCATGAGATCACAGAGGTAGCTGTGCAGGCCCCGCCCACTTCCTATAACCCTGGTTCTGGC
Y
GTCCCTGTGCCAAGCCTCCAAGTTCCCTGAGAGCTACCGGCCAGGGGTCGGGAGGCTATGGGAGCTCAGGGCAGGCACCTCCCATGCTCCCGCGGGAGCC
Celera SNP ID:            hCV27843486
SNP Position Genomic:     7500
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:37937):
GGAGAGCCTTCCCATGACCCCCATGAAGAGATCAGTGCAAACACAGGTGTCAGAGCCCTTCATGGAGTCCTGGGGTGAGGAGTCCCTGCCGGAGCTACCC
R
CAGAGCAGTCCCTGACGGAGTACTCTGACCTCGAGGAGGCTCCCTCGGCGCACACTCTCTATGTGGGCCATCTGAACCCCCAGTTCTCAGTGCCGGTGCT
Celera SNP ID:            hCV11740026
SNP Position Genomic:     8664
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,6|G,32)   total(A,10|G,64)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:37938):
AAGTTGGGCCAGAAGGTAGGGTAGGGGCCAGGTCACCAAGGCTATCATCCAAGGCAAGGCTGAACTGCTGGCTTTATTGGGTGGGACATGGGACGTTAGG
R
TAGGTCACTCCATGAGACAGGTGATTTTGGTTTCTTTTGGTGTGAAAATGATGGTGTTTAAACTGTTGCAGAACTAAAAGGCTCTGTGGCTTACATTTCA
Celera SNP ID:            hCV42610
SNP Position Genomic:     9832
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37939):
CCTCTGCCCTCCCTCTCTCTGGCCCTGCCCAGTCTCTGCCAATCTGTGTACCTCCCAGGAGCCGGGACACTCCCTGAGTCCTCTGGGAGCCCTTAAGCCA
Y
ACTGAGAACACAGACCCTGGGAGAAGCAGCCAGCAGTGAGGAATCCTGGAACCCCTTCCCAGGGAGAGCCTTCCCATGACCCCCATGAAGAGATCAGTGC
Celera SNP ID:            hCV42611
SNP Position Genomic:     8501
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,1)   caucasian(C,14)   total(C,29|T,1)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;JBIC-allele(T,362|C,1109)   total(C,1109|T,362)
SNP Type:                 UTR 5


Context             (SEQ ID NO:37940):
CCACAGGGACACCCTGGCCTCCCTCCCCTGGCGCCTGCAGACGGCCCTGGAGGAGCACCTAATCCTCAAGGAGCTGGCAGCCCGTGGGAAGGACCTGCTA
Y
TGAGTGAGGCCCAAGGGCCCTTCAGCCACAGAGAGGTAAGTGGGACTTTTCCCAAGCAAGCTCCAAAGCCTCACCCCAAGGGAGAGCCTCTGAGTGGGAG
Celera SNP ID:            hCV25973647
SNP Position Genomic:     8976
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,39)   total(C,1|T,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37941):
TGCCTGTGGCTGGCCAAGAAGGCATTGTTGAACCTCATGAGATCACAGAGGTAGCTGTGCAGGCCCCGCCCACTTCCTATAACCCTGGTTCTGGCCGTCC
M
TGTGCCAAGCCTCCAAGTTCCCTGAGAGCTACCGGCCAGGGGTCGGGAGGCTATGGGAGCTCAGGGCAGGCACCTCCCATGCTCCCGCGGGAGCCACCAG
Celera SNP ID:            hCV42612
SNP Position Genomic:     7505
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,35)   caucasian(A,10|C,28)   total(A,13|C,63)
SNP Type:                 UTR 5

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:37942):
ACATGAGCAGGCACCCATGTGGCTTCAACCCTGACAGACCCATCTGTGTAGCCAAGAAACTGCTCTCAGCCCTGTCCCCAAATGACCTTACTTTCAGAAA
S
AATGTGTAAAACCCTGCCCAGAGCTCCCCTAGGGCTAAGCTATAAGGGATTGTCCTTCTCCCTAAAATGCTCATTTGGCCCAGGCTGAGGTCTGTGACTC
Celera SNP ID:            hCV8361260
SNP Position Genomic:     13365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:37943):
AGGCTGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGGGC
S
CCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCTTGAACCCGGAAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCATCC
Celera SNP ID:            hCV26064262
SNP Position Genomic:     10253
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37944):
GCCCACTTCCTATAACCCTGGTTCTGGCCGTCCCTGTGCCAAGCCTCCAAGTTCCCTGAGAGCTACCGGCCAGGGGTCGGGAGGCTATGGGAGCTCAGGG
M
AGGCACCTCCCATGCTCCCGCGGGAGCCACCAGGACATGAAGGTCATAGGCCTCTCCTCTCCTCCTCTTCCTGTTTGACCTGAATGCCCCCAGGCCAACT
Celera SNP ID:            hCV27849423
SNP Position Genomic:     7572
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,31)   caucasian(A,7|C,33)   total(A,12|C,64)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:37945):
CCTCCCTCCCCTGGCGCCTGCAGACGGCCCTGGAGGAGCACCTAATCCTCAAGGAGCTGGCAGCCCGTGGGAAGGACCTGCTATTGAGTGAGGCCCAAGG
R
CCCTTCAGCCACAGAGAGGTAAGTGGGACTTTTCCCAAGCAAGCTCCAAAGCCTCACCCCAAGGGAGAGCCTCTGAGTGGGAGTGGCCTGCAGAGTGGGG
Celera SNP ID:            hCV25973692
SNP Position Genomic:     8993
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,40)   total(A,3|G,73)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:37946):
TGTTACTCAAGAAGGAGGAGTGGCATTTCTGAGCACCTTCCACGGTCCAGGTACCATGCTAAATGCTAGTCCAGGCACCACAATCCTCGGAAATGTTTTT
S
GGGGGAAAAGAGCAGATTTCTACAAAGGAAGGGTGAAGTCAGGCTTCAGCCCAGCTGCTCCAGACTGCTAAGAACTGCCCAGATCCCCTGGACTGAAGGG
Celera SNP ID:            hCV62242
SNP Position Genomic:     15045
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:37947):
CATTCAGGGTACTGCAGCTCTGTCACAGGGTGCTGAGATACCTGCTGGAATGATCTGGTTCTGGGCCTCAGGGGCCTGTCTGCAACCCAAGTAAGAAAAA
M
TGGGCCCACACATGTCCCAGCACCCAGCCCTGAGAAGCAGAAATCTCTTCTTCCCCACCAGGCATCCCACAGCTCACCTGGGAAGGGCCCAGCTTGGCAG
Celera SNP ID:            hCV62238
SNP Position Genomic:     10758
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37948):
GGGAAAGGAGCGCTGACTGGAACCCTCGATCCAGCAGGGTTTCCTGCCTCGGCTGCAGGAGGGTGGGCAGAACTGGGCCCCTCGGCCTGGTGAGGGGCAT
S
AGGATGTCCGTAAGAGTCAGGCTGCAGCAGGGGCCTGACTGGGGGTTCTTGCAGTCCTTCTCAGGGTCAGGGCTCCCATTTCCTGGCTGGACCCATACAT
Celera SNP ID:            hCV62239
SNP Position Genomic:     10958
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37949):
GTGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGATGAGGCGAACAGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACAT
R
GTGAACCCTCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAGTTCCAAATACTCGAGAGGGTGAGGCAGGAGAATCGATC
Celera SNP ID:            hCV11304083
SNP Position Genomic:     12328
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37950):
AGACCAGCCTGGCCAACATGGTGAACCCTCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAGTTCCAAATACTCGAGAGG
S
TGAGGCAGGAGAATCGATCGAATCTGGGAAGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGACCGAGACTCCATCTC
Celera SNP ID:            hCV11304084
SNP Position Genomic:     12409
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37951):
TCTGCTTCCAGTGTGTGGTGGGACCCACAGGGAGCTGAGTTTTCCTGTTTGATTTCCCGCACCCAGCCTGCCTGTGGCTGGCCAAGAAGGCATTGTTGAA
M
CTCATGAGATCACAGAGGTAGCTGTGCAGGCCCCGCCCACTTCCTATAACCCTGGTTCTGGCCGTCCCTGTGCCAAGCCTCCAAGTTCCCTGAGAGCTAC
Celera SNP ID:            hCV27839592
SNP Position Genomic:     7437
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,40)   total(A,1|C,75)
SNP Type:                 hmCS


Context             (SEQ ID NO:37952):
TGTGATGCAGTTTGTCCGGGAAGCTGATCCTCAGCTTGGACCCCACGCTGACCTGTTTCGCAAACACGTAGGTGCTGCTGCCTGACCTCTCAGTAGGAAC
M
TGTGTGGAGAGCCTCACCTGGTGGGGACAATACGAGATGTTTGGGGAGGAGGGATGCTTAGAGACAAAGGCTGAGGAGAACAGGTAGGCTTCAGCATCAC
Celera SNP ID:            hCV25987463
SNP Position Genomic:     687
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,23)   caucasian(A,9|C,17)   total(A,18|C,40)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37953):
GGCTCCCATTTCCTGGCTGGACCCATACATTCATTCTTGACTACCACCCTAGGAGAAGGAGGAGGAGGAGGAGGACAGTGGCCTGAGCCCTGGCCCCAGT
M
CAGGCTCTGGTGTCCCGCTGCCCACCTGGCCTACACACACGCTGCCTGATAGGCCCCAGGCCCAGCAGCTGCAGAGCTGCCAGGGCCGGCCCAGCGGCGT
Celera SNP ID:            hCV25968842
SNP Position Genomic:     11129
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,40)   total(A,1|C,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:37954):
ACTGACTAAAGAGGGAGGTGGAGGCTTTAGGCAGCAGCGCTGAAAGAGGTGGCAAGAGGTGACCTGCATGGGAACTGGGGCCTGAAGAGACATCACTAAG
K
GGGGAAGTGTGTCCCACAGCCAAGCTGCATGGTGGGTGGGCCGCTGGGTCTGCTTCCAGTGTGTGGTGGGACCCACAGGGAGCTGAGTTTTCCTGTTTGA
Celera SNP ID:            hCV28972833
SNP Position Genomic:     7288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:37955):
CCCGACGTTTGTGTGAAGAAAGGCCACGAGGGGACCTCCTCTCCTTAGGTCCTTTTACATTCCAGCCTCTGGGCCTGGGAGACCCTAGAAGACACAGGGG
K
CCCGATTTTCTCCTTGGCCCAACTCATTTGTTCAATTGACAAACATGAACACCCCCTCTGTGCCAAGAGTAAGGCAGGGATGAGAGGCCCAGCCAGGCCC
Celera SNP ID:            hCV28972834
SNP Position Genomic:     9320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:37956):
GAGGTAGCTGTGCAGGCCCCGCCCACTTCCTATAACCCTGGTTCTGGCCGTCCCTGTGCCAAGCCTCCAAGTTCCCTGAGAGCTACCGGCCAGGGGTCGG
S
AGGCTATGGGAGCTCAGGGCAGGCACCTCCCATGCTCCCGCGGGAGCCACCAGGACATGAAGGTCATAGGCCTCTCCTCTCCTCCTCTTCCTGTTTGACC
Celera SNP ID:            hCV27851393
SNP Position Genomic:     7552
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,33)   caucasian(G,40)   total(C,3|G,73)
SNP Type:                 UTR 5


Context             (SEQ ID NO:37957):
ACATGAACACCCCCTCTGTGCCAAGAGTAAGGCAGGGATGAGAGGCCCAGCCAGGCCCCCAGGAAGCCCTGCATCTGTGGCCAGAGCTGGACAGCCACCC
R
CCGAGCTGCAAGGTGGCTGCGCTCAGAGCTGTGAGAGAAGACAGGAAGGTTTGCCCTGCTCTCTGGGGACAGATTAACAGGGGAAGTGAAATCCAGGCCG
Celera SNP ID:            hCV28972835
SNP Position Genomic:     9463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 166
Celera Gene:                 hCG22884 - 145000147690296
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W0QP(46751153..46793598)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12326):
GCAGATTGCCAGTAAGAGAAAAAGGCAGCTCCAAAGCTTCGCCTTTAGGCGGCCAGCAGAGCTGCACGTTCACTTCCAAGGCAATCTCCTGCTTTGTGAG
CCCCTCCAGTACGATATTGCAGAGAAGTTCACCATCCTCTCTGACCTGTCAGCTTTTGTGTCTCCCCAAAGTTTTGTCTTCTCCAGGCTTAATGTGCCCC
TCATTACTACATATTTCTCAAAAGTGAGCAAAACCACTTAAGCATATTATACTTCAATGAACTGTTTTTTTTTAAAGTCAACAAAACCCTTCAGATGTGC
TCTGAGATGGACTACCCACCTTCCTGGAACTCAAAGAAATTTGACTAATATTCCTAAGACTGCCCTAGCTTTTCTATGAGCCCAGTGAATTCATTCCCTC
ATTCCTGCACATTTCCTGAGAATCTAATCTCAAACACGAAGATGATGCAACATGGTCCCATAGCCTTTAGGACAAGACAGTAATCAACTAAAGCCTTTCG
TGATCTTCAGCAAGATAAATGTGCTATATTCAACAACTGAGTTTTTGAACCTAAATGCAACTATTCATGCTGTCATGTTATTTCAGGATCATCCTTGCCA
TGTCCTGTGTCCTATGGAAGTTCTCCAATATGATCGTCCCCATCACAATCATGTCATTTGGGCATTTATTATATGATCAGGAATTGAGGTAAGCATTTTA
CACAATATAAGATAGGTATTAACAAGTCCCCTTCACAGATGAGAAAGCTGACGCTTACGGAGACTGATTAATTTATGCAAAATGATAGACTCAGTTTGTG
TCAGAGCCTCACCAGCACACCTCAATGACAAATCTTACTGATAATAATATTTCATGAGTTCGGCTCAAAACCAACCCATTTATGAGAGCTCCAAAGGTTC
ACTGTTATCGCTAATATTCAAAATACTATTCCCTTGCACTGATAAAACATACGCATGTAAAGGTTTTATTTTTTGGCCTTTTAAAAGTATAGTTATTTTG
CTGGCTTTGTCCAAATACATAGGAGGAGCTGCAGGTTAAATTTGGGACATGGGCAAAACTTCCAAAAGAGCTTCCATCCAGTCCACCATATCTGCAATGC
CACATTTTTGTTGCAGGGAAAAACGCAGAACCATGAGGTGACCATGACATGCAGCGAAGCTAAATTTTTACAAACAACAAATCAAAAATGTTATTAGACA
CTAGTAAATATTTTATGGTAAAAGCAGCTTTTATAAGTATTTGTCAACACTAATCTTTACTTCCTCTCAAATATGTGTAATAGAAAACTGCTGATATTGA
AAAGGCATGTCTATTTTCTGAGACTGAACATTGTAAACCATTTAGTCGGAAGACTTTCTTAGACCTGTTATGTCCTGATGAATTGTATTCTTAAAAAATG
GAACGTGAAACTCAGGATCATAGATAGTAATAAACCTAAGTGTATATTTTATTAAGAGTTCTATGTATCATATATTTTTGTCAATTAAAAACTAAAAATA
AAAAGTTCCGTGTAGACACTTGATTATCTACATTCTCTAGACAATTTTTTTTGTCCTTCTAAAAAACAGTGGAAACATTTCTTCCTGCTCTGTCCCTCTG
CCCTCCCCTACTTCCCCATCCCAGTACTGAGGTTAGGCTTGCAAAAGGCTAATGATTCACTTTGGCTTAGTAATCAGTAGATCCCTTTCAAAATCTTAAC
TTCAAAGATAGATGTGTCTTCCATTGTCAACCAAGACTGTTTGGACTCACTAGTTCACTTCTACTTGGAAAGTACTTGATAGAAGAAAAAAAAAATTGCA
AAGTCTTAACTTTGGTATTTGAATTTTATAATCATTTGGAATCAGTTTTCTTCCATTCAAATTTATCTCAGTCGAAACTGTTCAATATCTGTGTTTTTAT
CTCGTTTTTACAGTCTGTTTATATCCAAAACTTAGAGGAGACTCCCAAGTGGAAACGGGGTCAACACAGCTAATCTCTGGCTTGAGTTAAAAAGCAAGAC
TTCTTAATCTTGCAGATGCTAAATTTTTTTTCAAAAGACTGTTAAGTAACTTTTTAAAAAGCCAAGTCTCAGCCCAGTGCGGTGGCTCACGCCTGTAATC
CCAGCACTTTGGGAGGCTGAGGTGGGCGGATCATCTCAGGTCGGGAGTTCCAGACCAGCCTGACCAACATGGAGAAACCCTTTCTCTATTAAAAATACAA
AATTAGCCAGGCGTGGTGGCGCATGCCTGTAATCCCAGCTGCTCAGAGGCTGAGGCAAGAGAATGAACCCAGGAAGCAGAGGTTGCGGTGAGCCGAGATC
ACGACATTGCACTCCAGCCTCGGCAACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAAAAGCCAAGTCTCAACTTCTTTGTAATAGGAAAATATATTA
ATATATATTAATATTTTGATAGAAATTTTTTACCTTGAGAGTAAATATTATGTAAATTAATTCTATTTGCATATCAAATTAGTTAACCTCTCCAATTTAT
GAATAGAAAAATGAGATGATAAAAGGAAATCCAATGACAGAAATCCATTGTAAAGGCAACAGAAGTGAAAACTATAGAAAACTGAAAAAGCAAGACTCTT
TATTCTAATACTCTCGACTGGTTAAATATGACCCAAAACAAACTGTTACCCAGATAAACACTTCTATGACTATAGCAGGAGAGAAAAGATGCACGGCTAA
TCAAAAGATTTTTCACTGATAAAAAAAGGGCCCAAAAATAAGGGTAGGTAATTGAGAAAGCAAATATTATAACTGGCCACAAGCAACATCCAAAGTAATA
TAAGAATAAAGATAAGTTCACCGTTCTGTTAAAAACATTTAATGCCATAGCAATAAATGACTCCGAGTTCTCTTTGAGGGAACAAAGTCACCACTCCATT
CCCAGGACTTCGGTCCAAGGGAAAGAAACACACTTGAAACTCTTCCTCTCCACCCTCAACAGAAGCACAAGGCACAGCAGCCAGGGAACAGGCAAACCAG
TCTCTAAAGATAAATAACCTCTCAGAGAAGGATATTCATCCAACTACACAAAAGAAAGATACAGTATTACTAGTTACAGTTCTAAACCCTACTTCGGATT
TGTGATAAGAAAAAAGACTCTATGTAATTAAAACATTGAAGAAAACTGGTACGCCTCAAACTACACTGACATCTAGTCACAAAGCATTCAGAGTAACCCT
GACTTGGAGGTAGGATTTTTGCTCATATTTTTACTACAACTCTACACAGCACAAACTATGCACCTGGTTTTCATTGAATTCAATGATTGTCTACTAAATA
TTCACTCCAAGCAAGCCTCCGTCGCTGATGGTCATACCTTCCCCGGCGCCGTCATCCTGTCATTCTCCTCCAGGCAGGAGAGTACTGTGTTCCAAGGAGG
CTGTTGTGACCGTTTATCAGAACTCTCAAAACCAAAACAGTTGTCCAGTGGTTAAGCTTTAAATAGGAAAAATATCACCTCCATATTTTTCTCATTATCC
AGTGGCTTCTAAAGCAAAAGCTTAATTATCATTTAAAATGTGGCCTAAATGTCCACGGCACGGAAGAGCAGCGCAGCAGCCATCACTTTCTTACTGACAG
TCACTGTGCTCTTACGAGAAGCTTTCGCTATAACCGTACATACAGACATAAGACGTTCTAATCTTCAAATCCAACACCACTCCAATTCCAGGAAAAAAAA
GCACTGAGATGTTAGCACACTGGAGAAGCAACCATTTTACTCCTTCAGACTACAGTTCCATTTCAGATATTAACTTACAATCACTTGGAGGGCAGACAGG
AAAGGGGTAGCAGAAGGCTAAAATCCAAGGTTGTCTGGGGTCCCAATAAAGAGGTTCTGTAGCTGTTTGAGAACTTGGCTTTGCAAACTACTTTCTTAGG
CCGAAGAAAAACTCCTCGGTAAACTGTTGGAATTTCACCAAAGTATCAATCACGGCAGCCCTTGGGACTAATCCAGTACTGCTGGACTTTCACGCATGGT
AGCCCGTATAAACACAGTACATACAGCAAGGTTCAAGCAAGTCTTGGCAAATTTTAACAGTGGAGAGGAAGACTGCTTTATTTTGCTATATTCTTGGGTT
AAATGTATTCGCTTAAAATAATAAACACTTCTCCGAGATTATTACTGGTTAGTTCAGTTTTGAAATACTGGCAAGGTCATTTCAAGAAGAAAAACGGGAG
AGGGAGAGGTATATTTTACATAAGATAAAATTCACACTTTTCAGTGTCCGGTTCTGAGTTCTGACAAACGCATTTATAGTGGCCTCATCAGCACCACAAT
CAGGCTACGAAGATGGGGTAACTCTTCGAGGATTCTTAAAAGCAAAATTGATTTGTCAGCATACTTTAAAAGTATTTTTGCTTTTGAAACATCACCTTAT
TTATTTAGAAAAGCAAAATAACACGGTCCGAGTGGTCCTAACCCGCGAATGCCTTTGCAACACTGAAATGCCCTCCTCCCAACACCGGCCGGGCAGGGGT
GAGCCCCGCAGCCAGGGGCGCGCGTCACTGTCAGCTCCTTTTCCCAAGTGGAGACCGGGAAAAGACAAGAGTTGCATCGCCGGGCTGGAGCCACGAGGAG
GAAGAGTTAACGCCGGAATGACAAACTCTAAAGCACCGAATTGCCTCTCCCTAGTAGGGCACTGCGCGTGTGGAGCACGGCCAGGGGCGCGTGGGAAGAA
AGACGACCTATTTCCTACGTCCGTCTTCCTAACTGGACGGCGCGGGAGGAGGCGGGGGCTGGTCCCCGGGCACCCTGGTGGGCACCGAGAACTCGCAGAG
AGGAACATAAAACCGCACAGCCTTCCCCGAGCAGCGGGKTGACGGGAGGAAGGAAGGAAATGGGAGCGCGACCCGGCCGCGCGCAGAGCCGAGCCGACTA
GCGCGAGGGGCCCGGGCCCCACCCGAGAGCAGGCGCGAGGGCCGGGGACAGCGGGGCAAGCTCGGGGAGAGCGCTGCCTGCACCTGGCACCACCTCGAGA
CCGGGTGGCGCGGGGCCCGGGAGCGTGGGCGCCAGAGGGGACAGGGCAGCGGCGAGCGCGCGCCTCTCGCCCCGCAGGGCGCCCGGGCAGAGGCCGACCG
GCGCCCTCCGACCCCGCCGGGCCCTCCTCGCCCTGGCCCCCGAGCGCACACCTGCCCCTTCAAGCCCCGGGGCCACAGCGGCCGGCGGGGACCCTGGCGG
GGGCGCGGGCCGGACTTCGGCCGAGGGGCGCTGGCCAGGGCGAGGGACGGCCTCGCAGAGCTCGGAGACGCGGCGCGAGTTTCCCCCGCGGGCCGCGCGG
GCGCAGAGACCGCCGCCAGCACTCACCTGCCCGCTTCCCCTAGCGCAGCGGGAACGACGTACTCCGGCCCGGACCCCGCCGTCCGCCTCAACCAACCCCC
AGGCGGTGGCGGCGGTGGCGGCGGCGGCGGCCGGACGGGAGGGGCGGGACGGCAGCCTGAGACGGCCCCGCGACCGCGGCCCAACGCTTCTCCTCCCGCC
CCGGACCCCGCCCCCGGGCCGCAGCCGCCGCCGTTCATTGGCCCACGCTTCGGACGCATRGGCGCGGCCCCGCCCCGCCACCCAGCCGGCGTTCCGTTCG
GGGTCCTCCCCAGCCAGTGGGCTGGCAGCTCCCGGGGGCAAGAGCGGCCGGCTCAGCCGCCGCCAACCACGATGTCGCAACTGGCTGCGTTCGCCCCCGC
CAGAGCTTTGATTGGACGAATCTCGACCCGGGCCCCGCCTACGCGCCCAAGTTCCGTTAGCAGGTTCGGTTGCTCCAGAATGCCTTTTCGCCCCGAGGGG
CGGGACCGACGGGATGGGCCCTGTGGCTGGCTCCTCCCTCTGTAAGCAGCAGCCACTGACCCGCGGGGCGGGCGGGGAGGAGAGCGGCGGCTCGTTCCTC
TTTTGAGAGCTCTGCTTTCTTCCCATTGGTTGACAGGCATCCTACTCTCTCCGCCCCTCCGGTCGCTTGGTGGCGTCTCAGGACGCAGCGTGATGACGTA
GGTCCCCGACATTCCATATACAAGATGGCCGCAGTCGGCAAGGAGAGACGTCGCTGAGGGGCTTGCCTGAAGCGAGGGGTGAGTGACCCACCGACTGAGG
GCAGCGCCGCCCACCTCCCGCGTATCTGGAGGTCGGAGTAGGTTATGGCCAACCGCCGCTATCCACTGGCGGAGTCTCTCTTTCCGGATTCTGCCTCCCT
CCGCTAACCTCCGGTACACATTGAACTTTGCGGGCGACGCGGGGTTGTGGGGCGGGCGTGTAGAGAGGGTCTGAGGCGCCGGGGCGGGGCAGGGAGGCCG
GACTCACCCTAGAACTGGTAGCGGCCCTCGCACTGGGGGGCAGTCAGAGTTGGGGAACTTTCTAGGGGTTGGGCAAAAGGGGCAGCGGTGTTAACCGCGC
ACAGTCTCACAGCCACAGACTTCTCATATCTCCCCGATTATTTCGCGGCGTATTAGTCCCAACCTTGGCTAGGCCTGAAACTTTTTGGAGGTTGTTCCAT
GTCTAGGGTACTCCGACTTTGGAGTTTTGGAGAGCCACGTAACGAGGGTGCGGCTAAGATGAGGAAAAGGCACTTCCGGGATTAGATTTCGTTCTTGCCC
AGACATCGTCTTTACGGASCCGCTCCTGGTGGTTGATTTGGTTTGTTATGAGAGAAATTGTTCTTTAGAAAATTGGAGCGTAAGTCTAGAGGTTATGTGA
CAGCTCCTAAACGATTGTCTGCCCAAGATAGGCTCGGTAATGCTCCCTAAATTTAGACTGCCAGTTAAACGGAGCTTTCGCTAAGTCATCTGAGGTTAGG
AACTATTTCTAAGAGCATTTCTTAAGGGTGGTCTTCTGTGTTTTTARGAGAAACTTGGTGATGTTTGTGTATCTCGATCTAAATCGCTGTTTACAGATAC
CTAGCACAATGCCTTGCAGTTGTAGGTGCCCGCTAAAGGTTTGTATGAATGATGTTGCTAGAATGAAAGCGAGGAGCTTTCAGCGCCTAGAACACTGCCT
GACGTTTAATAAGCCCTCTGTATTGCTGAATGAAAGAATGGATGGATGATGGTAGTGGTAGTAGTATTGATAGACATTTGGATTAAAGTGCCCTTAGGAT
GCTTACCTGTTAAATAATCTTGACTATGAATATAATAATTATCCAAGATTGTCTTATTCAGAGTGACCACCGCTGGTGTCTTTTAGGGTTTTTTTCCCTC
TTTTATCTCATTTCGATTATATTGTGATGCATTATTCAAGCATATTAGTTGATTTCTGGGCAAATCCTGTTTAAATTTGTTCCATTTTGAAAATGTAGTT
TGCACTAACAAGCAATAAAAACTATTCGAGTTGTTAATGAGGTTCTTAAATTTTAAATGCTGTTTCTAAAATTGAATGTCATAAAGAAAAATTGGTCATA
GCTGTGGCCTATAAAATGGGCTAGTTCATTTCAGGACATTATATTTGAAAGCAGTGACTCTGCTGAGTGTCTGAAAGGGAGGACAGTGTTTTCTGCTTGT
TTTCTTTAAAATTGGATAAGGACAAAAAAATCTAGAGGAATTAAATTCAAGGTAATTGAGGAGATTACAGAGTGATCATATTTTTAAGCTCAGGTAAATT
GTATACCAGAGTATTTGCAGATGACTTTATAAAATCGTTATTCTTAGATTTTGAAAAATCCTAAAAGTACAGTTAATGATAGAAGACTAGAATCTGGTAA
ATGTCTGTTTTCACATAGAACCATTCGATGGCTCTTGGCTACTAGGAACCTATTAATAATCTGTTTTAGAATCTTGTTGGAAGAGCCAACAAGTTTATGA
GTACTTGGGAAAGGAGAGCTGATTCCCTGAAGCCAGCAGAGCTTCAGTGAGAAAAGGCCAGGTGAGGCCAGAGGTGGTGGCTCACGCTTATAATACCAGT
ACTGTGGGAGGCCAAAGCTGGAGGATCACACAAGCTCAGGAGTTCAAGACCATCCTGGGCAACATAGTGAGACCTCACCACTACAAAAAAAAAATCAAAA
AATTAGCCAGATGTGGAGGTGCATGCCTGTAGTAGCTACTTGGGAGACTGAGGCAGGAGGATCACTTGAGTCTGAGAGATCAAGGCTGCAGTGAGCCGTG
ATCGGGTGACTGCGCTCCAGCCTGGGCGACAAAGCAAGACCCTGTCTCAAGAAAAAGCCAGGTGACACAAATCATATTTCCTTTTGTTACAGTTTACTAG
ACTGGTGGTGATTGGGGATTGTTGGACATAAGTTCATTTAAGTTTATTTAGGACATAGTCTTCCAACAAGATTCTAATACTGTGTGTAGACACAAGAGTT
AAATGTGCATTGGATAAGGTGTGGTTAGATGGATTTATATCCATGCAAATTACCAAACCCGAAATGTTGATTAATGAGTTGATGTAAGCCTGGGGAGATG
TCTTTGGAGATATGCTGCAGGACTCTGGTCTTGCCCTTACTCGGATTAACACTTTCTTAATACCAACTTTAAATAGATAAGCAGCGTGATTCTCAAGTTA
ATAAATGCACTCAAACCATGTAGTGATAATGAGCACATTAGATGACACTCAGAAATCAAAGATTTCTTAAAGGCTGAAATATAATAATAGGCCAGAACTG
GCCAGATATAAATTTACTAGGTGAGATTGTCTCAAAAAAAATAAAAAATAAATAAATTTACTTGGTGTGATTACATTTACAAAACCTGAGTTTTCCTGGC
TTGACAAAAGTGGTTCTAGGATGTAACATTCCACTTAAACAGAAGAAAAGCAGTGTCTAGATTGAGGGAAGGCAGTATCTTGGTATAAAGTAAGACTAGT
TGTGATGCTGCTTGCTAGCTGTGAATTAGTCAGGTTGTTTCGTGTCTCTGGCTCCATTTTCTCAGTGATAAATTGTGAGGATAAGAAAACTAGCTTGCAG
ACATGCTGCAACGCAGCAGACACACAATGGACATGTTACTGCATGTTAGTTACCACCCCCCTCCCATGTGCTATGCACATCATATCTGTTTTGATTCCTA
ATATTTAGGGAGGACTTGAAACACTAAAAAAAAAGAAAAATCATGATGAGAAAAATGGTTAGATTTGTTTACCCTAGAGAAGAGAATGTAAAAATTGCTT
TTACCTGTTTGAAAGACAATCAATAGATAAGGGAAATGTATTTTCAAGGCTTAGTTTAAGGACCCTGGTAGAAGTTAAAGAGTCGCTAAAAGGTAGATTT
CATTCATGCATTATTTTATGCCATCTGTGTAGCAGATCTAGGGGATGAACAGGACAGATAAAAATCAATATAGRAATACAGGAATTATGTGAACACCAGT
TATTGATACCCAGCAATGCCATAGGCTGTTTTGTAAACTAATGAGGTTTCATTGATAAGTGGCCAAATATTACTAAGAGGGGATTTCGATATTGGGTGAG
ATAATTGAGTGGTGACATTTACTATTGTTTCCATAATTCTAAATGTTGAAAATATATTTAGTCTTTTATGATGTAAAATGATATTTATGAAGCACATTCC
TGAAAGGTGCTGCTAAAATGCCTTGACAGGTTGCTTGTTTATGGATTTTCATTTTGCAGAGTTCATAAATCTCAGTCATTTTCAGAGGAATCACAAGCTA
CTAATGAGAAAACTTACAACTTTAGGGTCTTGTGAAAAAATAATTGAAGAGTAATAGGGAACAGGTTTATAGACCTGAGGCAAAAACTTTTTCAGGGAGT
TCTACGATTTTGAGGACTGTCTCTATTCTGTTTATGTCCATAATATTTTCACTACATTTCATGAATTGTTTATATTCTGCCTTGGAACCTAAAGGGACCA
GGAGTTTGGCCAGTTACAGAAGGTAAAACAATTGAATATACTYACGATTTATCCGCTTGTGGACCGAGGTTCTTTTCCATTCCAGTTTCATCCCTACTGG
GGTATTCCTAACACTGTTCCCCGTTCTGCCCCTTTCCCCTCAACAGATATCTTGGCATTATACTTCCTAGAGAATATGGAGGTACTCTTGAGATTTTTTA
GTTACTTCCTCCCCCTTAAAAGATTATTTAAAAATATCTTTCTCAAACTTTTCCTTCCATTCTCAGGGGAAGAAAGAGCTTTCTTTCTAAGGTTAACTTT
CTTGCTGTGCTTTTTATTATCCCTTGACCAGTTAGCCTCCCTTGTTCTGACTCCTCTAGTGATTCCTTTTTGTTTTTACTGGCTGCAGACATTTTTCATT
CTCCTTTATGCTGAAAAATATATAAAAACCAAAACAATAACAAAACCTACTCCCTACTATTCCCTGTTACTCTCTTTGAGAACAGATGCCTCAAAAGAAT
AACCTATTTCCAGCCAGGCACGGTGGCTTATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCTGGAGGCGGGAGGTTGC
AGTGAGCACCACTGCATTCCAGCCTGGATGACAGAGGGAGACTCTGTCTCAAAAAATTAAAAAATGAATAAAAAAGAATAACCTATTTCCTAGTCTGTTC
ATTCTTTACCACCCCTTGCAGTTTCTACACCTTCTGCCCTATTGCACTTCTAAAAATGTTATTTTATTTATATGTGTATATATGTATTTTCTTGAAATAT
AATCCTATACCGTACAAATTACCCATTTAAACTGTACAAATCAGTCGTTTTTAGTATTTGCAGAGTCATGAAACCATCACAATTTTCAGTGTCTCTAATA
AACAACTAATCACCAATTAAAGTAAACTTTCCTTAGTTCCTTGTCCTTTAACTTTTCTTTAGCATTTGTCACTGTTGACTACCATCTCTGGTTTAAAGCT
GACATCCCATGGTTTGTTTTGCAACAAAGGATGCAAATTTCCCTACTTCTTGGACCAGTCTTTTTCCCTTTCTCTAATTTGGTGATTCTTAGTCTGCAAG
TGGGTAAATCATAAGTGCATTCAAGTCTGTTTTACCTTCCTGTCACTGGGCAAACGCTCGCCTTTGGTGATTCTTCCTACTTGGTACAAGTTCACAGAGT
TCTGTACCCAGACCCCTTCCTTCTTCACTCTCCATCCCTCCATCCGTCAACATGACTTTATAGTTATCACCTCTGTGTAGATGAACCCCAAGTAGATATG
TTCTGTAGAGACTTCAACTGGCCTATTTATCTGTCTGATAGATATTTCCACAAAAGGATCTTAAAGTTCTTCAAGCTTAGTATTTATAGAGCCAAATTCT
TTTCCTCCCTCCTTATCAAAACCAGCTTTTTCTCTTGTCTTATCCATTTGTCTTTTTAGTATCACCCTCTGTGTCAGTCAAACTTGAAATCATCTTTTTC
CATTCTTTGCCTCATGGCCAATTATGACACACACACCCCTTGTTCCAGCTGCCATTGTGTGGAGACAGGTGTATTAGGCATTACTTGAACTGCTACTATA
ATCTCCTAACTCTTCCTCTTTCTGCATACCTCTAAACAGCCCTTACCTCATTATGTTCTCTCCCCTTACATGCGTTATTATTTGTGGCACTTGATTCCCT
GACAAATATTCATATATTTCTTTCTTATTGTCTCTCCCACTAGAATGTAAGCTTCCTGGGGCAAAGACCTTACTTATCTTGTGCCCTGCCATGCCATTAA
GGCCTGGCTCATAGTAAATGCTCAGGAAATATTTAAATGAAAAAGTACATGGAAAACTGTTAGGCGTATGTATATTAAAGTAGCAATTCCCAACTGTGAA
TAAATTGCTAAGATGTGCTAAGATATTGATTCCCTCAGCCAACTGTCCAGTTGCCTTCTGTTCTATAAGAATATATGTACATGTTTAACACTTATTAATA
ATCAAACACCAGAAACATTTACATGCCCAAACAGTAGAATGTATAGATAAAGTGTGTTGCATTCATAGGATATAACTGTACTGTACAGCAGACTTTCTCA
GCTTTGGCACTATTGACATGTTGGACCAGATAATTTCTTGTCATGGGGGATTGTTCTGTGCACTGAGGACATTCAGCAACATTCCTGGCCTCTACCCACA
CTAGATGCCAGTGGCAACCCCCCAGTTAGGAAAACCAGAAGTGTCTTCAGACATTGCCAAATGTCCCCTGGGGGGCAAAATTGTCCCAGGTTTAAAAACC
ACTGCTCTGCGGCAGTGAGAATGAACAAATACTGCTTTATGCAACAACAGGAATGAATCCCAYGAACTTAATATTGAGCAGAAGAAACCAAATGTAAAAG
TGGTACTGTGTCATCGCACAGTCCTTCAAAAACAGGCAAAACAAATTGATGGAAATAGAGGTCAGAATAGTTATCTTTGGGAGGATAGTCACTAGGAAAG
AACGAAGAGAGCTTCTGGAATGTTGGTACTGTTCTCTTTCTCAACTGAATAGTGTTAACACAGGTGTGTTTACTTTGTGAAAAACAATCAGCCATACACT
TATAATTAGTTCACTTTTCTTTTTGTATGCTATAATTCAAATCACAGTGTTGTAATTTATGAAAGCAGTACCCACACATAAGCAAGTATTCCTTGGCTAT
CGAGGGATTGATGAAGATAAGGAGTCCTCCTGGTCTCCTATTCAGTCTCATCTGACTTTTTCCCCAACTTTTTATTGTATGAAAGAATAGTGCAATGACA
ACTTATTTACCTGTGGACACATGTTCGTTTTTTGCCATGTTTACTGTGTGGTTGTGTTTTAGCTGAACCATTTGAAAGTAGGTTGCAGACATCATGACAC
TTTACCCAAAATACTTCAGCCTTCATCTGCTAAGAATAAAGTCATTCTCCTGTGTAATCACAATATCATTATTACCCCCAAAGAAAATTAACTGACAGTA
ATTCCCTCCCTAATACCCTCTAATATACAATTTATACTTAAATTTTTCCAAATTGTTTGAAATTTCTTTTTTTTAAAAAAAAAAAAAAAGCAGGATCTAA
TCAAGGTTCACACATTGCATTTTGTTGTAGCCCTCTTTAGCCTTTTTAAATCTAAGACAGTCTCTCAAAATGTTTTTTCATAACACTGTTTTGAAGAGAC
CGGGTCAGTTGTTGAGTAGAGTGTCTCACCTTCTGGATGTGACTGATAGTTTCCATGTTGTGCTTTTTTCACTTACTCTTGTACCACCAGTATTTATTGT
AAACTGGAAGTTCGGTCAAAAGTTTGCTTAAATTTAGGTTAAGCTTTTGGGGGACAAGAATACTACATAGGTAGGTGATATTTATTTCACATTGCATCAC
ATCAGAAGCCATGTAATGTCAGGTTTTCACCCTATTAGTGATGTCAAGTGTGATCATTTTGTTAAGGATCAACTGTATTTTTTTTACAGTAGTTAATATC
CATGCTAGCAAAGTCGCATTTATTATCAGTAGCATTTTATTATCAGTAGTTATCAGTGCTAGCAAAGTATTATTCTCTATATGTATTAATATTATGGACA
CTTGGATTGTATGTTCACTATTTTATGATCAACCACAGTTATTTTTCTTTTTGCTATTCAAATTACCTTGGATTAGTCCAGTGGGCACCCATCATGGTGG
CTCCTATGTCTTTTTTTTTTTTTTCCCTAGCAAATCATTCCTTCAGCAGTCCTATGTCTTTTGATAAGCTTTGATTAGTCTGAGTACATCCCAGGCAGGC
TCCAACCCCAGACTGGAAAGAAACCTGCTTCCTTTTAGAGGGTATTGGTATTGAAAAAGTTAAGATTTCAGAATTAGGAGTGTCATTCCTTCTTGGTACT
TGAAAAGGACAGAAATGGGATACATATATATATATWTTTTTTTAACCATGATTTATTTTGATATCTTCAGTTAAAGTTTAACATTACAGATTTGTTTCTT
AACATTTGGTTTTCTGCATGTGTGCATTTGTTTTCTTTGCACTGAAAATCTTGGTTCCTAACAACATTAGCATTTACATATTTGCTTTATTCCACAACAT
GCAAAAAAAAATGTGTTTGAAAATTACAACATTAATGACACTACTAACAGTACACTAATGAAGTTTTAAAATTTCGTTGGGGCCAGCCACTGTGGCTCAT
ACCCATAATCCTAGCACTTTGGGAGGCTAGGCGGGAGGATCGCTTGAGGCCAGGAGTTCGATGCTGCAGTGAACTAGGATCATGCCACTGCACTTATAGC
CTGGGTGACAGAACAAGACTCTGACTCTAAAATAAGTAAGTAAGTAAATAAATAAACAAATAAATAATTCTTTTCAGTTATTTTTGTCCTTAGAATATAT
CTCACTAAGCATGTAACAATATCAGAAATTACTTGGAAGTAAGTTTCTGTGTGATTTTGTTGCCCATTTGGTTTGAGTTTTAGGATTTGCTTTTTTATTT
TTAGTTAAGTGTATGAGTATGTTAAATATTTACATGATTCAAACATCAAAGTTATAAAAGTACTCTGCAGGGAGTCAAGCTGAAAGAGCACCTAATGGCC
ACATTGGAATAATTTGAGCAACAAAATAAATAATGATAGTATTGGATTATAACCCAAAGAATAAAATACTCATGTCTGTACTAAAGTAAATAAACAAATG
GGAGAGAAGAAACAAATATTAACAAAATGATTCCAAATAATAAATGTTGAAGCAGTGAAGGAAATAGAAAGTCACCATTAGAACACCACAGTTGTAATCG
TCTCAGGTGAATGCTAAAATTAGTAGATGAAACTTGAAGGAGAAATAGACATTTGTATAGTATTTTGCATTGTAAAATATTTCCCCCAAAATATTTACTT
ACTAGTGGGTGGTTTTAACATATGTCCACAATTTCTTTGATATCTCTGCCTCCAGAAAGTAGAGCTTAATTCCTTTACCCTTGAGTGTGGGCTGGACCTC
GTGACTTGCATCTAAGGAATAGAAGATAGGAAGGGAAAAATAATAATTTACAGTGAGAAACCTGGTAGACTCCATCTTAACCAAGAGCTCATGGTTAACA
GCAGTAAGTTGTTCTGATATCACCTGCACCCAAATATGATGTGTAGTTAATAGTGGTTATACCAAAGTTAATTTCTTTTTTTGGATAAATGAACCATGGT
TATGGAAGATGTTTACATTGGGGAAGCTAAGTGAAGGGTATAGACAAAACTCATCTATCTTTACAGCTCTTCTGTAAACGTACAATTAGTTTAAAATAAA
AGCTTTCATAAAAAGGCAAAGCTGTATAAAAAGATATATACATAGAGAAGTCTTGTTTCCATTCCTGTCTTTTCCATCCTGTTTTTCCCCATTCCTTATT
GGTAAATATTTTTTGAATTACTTTAAAAAAATAGAGATGTCTGGCTGGGCGCGGTGGCTCACACCTGTAATTCCAGCACTTTGGGAGGCCGAGGCAGGCG
GATCACGAGGTCAGGAGCTCCAGACCATCCCGGCTAACACGGCGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCCAGGCGTGGTGGCGGGCGCC
TGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTAAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCATGCCACTGGCACTCCAGCCT
GGGCAACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAGATGTCTGTTTTTTCCCCTCCTTTCTTACATAGATGCTAACATACTGTGTACACTA
TCCTATACCTTGCTGATCTGGAAATTTCTCCATCCAGTACTTAACGATGTTTCTCATTCTTTTTAATAGCTGTGGGGTATGCTATTGTGTGCATGTGTCA
TATTTTACTCAGCCAGTCCCCTGATGATGGGCGTTTGGGTTGTTCATAGTTTTGCCATTATAAATAACACTACAGTGAATAATCTTGTGCACATGTTGTT
TCATAGTTGTGACATTTCATAGTTAGGACAATATTTTCAGAGTCGATTCCCAGCAGTGGGAATCCTGGGTCAAAGAGCAAATGCATGTGTAATTTTGTTG
GATATCGTCAACTTCTCTGTGACAGTTGGACCATTTTGTACTCCCACCAGAAGCTTATAAGAYCACCTGCTTCTCTATAGCTTTGCCAACAGAGCAAATT
GTCAAACTTTGGGATTTTTGCCAATCCAGTAGGTGAGAATTGTATCTCAGTGTGATGTCTGATTATGAACAGGTCATATTTTCTGAGGTTTTAATTAACT
GGTCTCCCCCGCCCTTTGAACAGTGCCCAATTTAATCAGTCACACACAAAAATGTAAATTATTAGTTCAAGCTTTTCTCCAGGTAMWTAATTCTTCCTCT
TGGAGGGAAGATCAGATTTCCTTCAGAGCTACCAGGTGCAAGGAGGAGAATATTCAGCCCCACCATGTCACCTTCCCCACCAGAAATGAGGCAGATACAC
AGAAAAGGTTAGGTTTCCAGATGAACTGGTGGGAGCCCTGGCCCAGAACCTGGCCACAGAGCTGCTGTTTTCTTGCTAACCAGACTAACCTGGCTCCAGC
CAGCTCTTTCAGAACCCTTTTGATACCTTATTTGAAAGTATCTGCTGTCTCTGATCCAGGTTACAAATGACTTATTTCTAACAGTGGTCTCTAGATGAGA
TCCTTCGTTGTTGTTGTTTTTTTCTTTCTTTCTTTCTCTCAGCATGGAGCTTTTGGAGAGTGTCTTTATTCTGAGTGAAAGAAAAGGAAGAGGATGAAAA
AGCAAGAACAGTTTAAAGGAGCTCCTTCTCTCATGGACCACTTCCATCCACCCACTCCCCAAATCACAAGATGCACATTTGGTTTACATCAGTGAATTCA
GTGATTTGTGCAGATGTGAATTAACCCAATCCCATGACTTGTCTAAGTGAAAGTGCCTACATGGAATAAACTGAAAAGGGGTGCTGGATGGAAGAGATGS
TTAGTTTTAGAACATAAATCTTTGTCAAGATTAAGACAGGCCCAGGTTTTGCTGAAGAATGGAATCTGGACCAGCGTTAGAGGACCTGTATGTCTAGTGA
AGAAAAACCAGAAGAAAGTGAGATATACTTCGTTTCTTCCAAAACTTTGTCAAATAAGGTTAACCCTTTAATCTCAAGAGAGAGGGAGGAAATAGTCTTA
TTTTTAAACTACCATGAAATTTGAGATTTATTAATATTAGTACTGGGGTCATCTTACAGTATTGTGTTAAATTGGCTCTGGAGTTAGCCCGGGCTTGTAA
CTGGCAATTGACAGTGTGGTTTCTATAGGAAATAGTGATCCCAAACCAGGTACAATCTATGATTCTAGATTGCTTATAGTATGGAGTATTCCTTTCCAAC
TTTGTTTTTCTCTTTCTCATAGGATTCTAACATTTTCAGAGAACCTTTTGGAAAGAACAAGCCTACTTCAATAAATGAAGGAGAATAAAGAAAATTCAAG
CCCTTCRGTAACTTCAGCAAACCTGGACCACACAAAGCCATGTTGGTACTGGGATAAGAAAGACTTGGCTCATACACCCTCACAACTTGAAGGACTTGAT
CCAGCCACCGAGGCCCGGTACCGCCGAGAGGGCGCTCGGTTCATCTTTGATGTGGGCACACGTTTGGGGCTGTATCCTGACTCTCCTTGGAATCTGTTAC
AGATAGGCTCCCCACTCACCACCAAGAAATAATTAGATTCTGTAGACAAAATATATAGTAATTTCTCTGTACCAGAGCAGTTCTTAAATATCTGTTTGAA
TGTTGTTTCTGGTGGGGGTTTTTCTCTTTCTGATTTGTCATTTTAAAGGTGTAGACTTAGCCACTGAGGAGGTGGCCAGCCAGGAGGATATGAGGCACCC
ATTAGGATCACAGTTGAGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCTAGACAGGAGCATCCCTTGAAATCTGGAGTTCGAG
ACCAACCTGGGCTGCAGTGAGCCAAGATCACACCACTGCACTCTAGCCTGGGTGACAGAGATGCTGTCTCAAAAAAAAAAAGATCATAGTTGAAGTGTTT
CTAAAGGGTGTTAAAAGTATAAAACTTCAGCTTGCTAATTCTTGTACCAGAATTCTGACACCCTGAGATTCCCATCTCATTACTTTGCCACTAATAYTGT
TTACTTTACCATTGATTTTGTTGTTGTTGTTTGTCTTTTTGTTTTTCTACATTTAACTAAGAGTATAACCTGTAAAAGTTATTGGTTAGAGTCCTTAACC
AGAACAACAGACACTATGATACCCTGGCAACTGGAATAATTTATTTTCATCGCTTCTATATGTTTCATTCCTTCAAGCAATTCCCAAGATATGTAAGTGT
TTGAATTTTATTGTAATTCTCTGTCATATGTTATTATTTCCACACAGTTTGGTGGACTAATTATAAGCTCTATTTTTCTCATATTTTCCAGAAAGTATTT
ATTTTTATATGGTATATACTGCATATAAACAAAATCAAGTTTGAACTTTTTTTATTCCAATTAGCCATGTTCAAATCTTTTCACTTAGGCCAATATGGAC
CATAGTCATATTGCGCTTTGTATGAAAGTTTACTCCCRTGGTACCTTTCCCAGCATAAATTTGGGCTTATAATTGAGACTCAACAAAGACCAAGAAAGCA
AAATGGAACAGAAGTTGTCTMTGCCATATCACTCATTCTTCRGTTACTCCTCAAGACGTGCATTGTGTCTTACTCTCTGTGGGAGATAGAGTAGCTTTCA
GTCCAGGATAAGTGGTATGACATGCACAGAACACGTGATGGAAAGTGAGGCCATCAGAAGATACTGATAAAAGAGTTGTGGCATTCAAGGAGGAGACAAC
TTACATCTTGGAGAGAGCAGGGAAAGTGCTAGGAAGAAGGTGCCAGCATTAAGGTAAGCCTTAAACGTACATAGGGCATAGCCATGCCGTGATGGGCTAG
GTCAGTGGTCCAACAGAAGCTAGCATAAGCAGAGGCAGGGGGAACCATGTGACACATTGTCAGCCCAGCCAGGAGCTTGATTTGGCAGGAAGGAAATGAT
GAGACCCTGGGTGGATAGGTAGACTGGGTCAGACCACGATAAGCCTCGAATGCCAGACTTCAGAAATTTGGCTTCAGTGGGTGAACAATGCAGTAATTAA
AAGGTTTCGTGAAAATGACAGACTTAACATTAAAGTCATTGTGTTGATTTGTTAGCTAAGATTTTAGTTAGATTTATATACATGCCTTCCTCACTGGTTG
TGAAGTTCTTGAAGAAGGAGACCATGTTGGAATCAGTTTTGTACCCCCGGCAGAGTGTCTGACATCTAGTGTGATCAGGATTATGTGAGGAGAGTGGCAT
GTAGGAAGGATTGGAGTGGGCAAAGAGAAGCTGAAGACAGAGCAGTTCAGACCCCAGTGATATAGGGACTGAGCTAAGGTTGAGGCAACTGGAGGGACAG
TTTCTTCATCCATTCAGGCTGCTATAACAATATGCCTTAGACCCAATAATTTACACACAACAGAAACTTAACTCTTCACAGTTGTAGAGACTGGGAGGTG
TAAGATCAAGGTGCTGGCAGATTCTGTGTCTGGTAAGGGTTTGTTCCTCATAAAAGGGCTCCTTGCYGCATCCTCAAATGGTGGAAGGGAGGAACAAGCC
CYTTGGGCCTCTTTTATAAGGGCAGTAATCCCATTCAGAATCATTTCCCAAAGGCCTCACTTCTTCATACCGCCACCTTGGGAATTAGGTCTCAAGCTAT
GAATTAGGACATAAACATTCAGACCATAGCAGAAAGAAAAGGAAGCATGGGCAGTGCTGAGATGGATTCCACAGGACTGTGCTAGAAGGAAAAGGAAGCA
TGGGCAGTGCTGCTGAGATGGATTCCGCGGRACTGTGTTTAGTTGTGCTCTTTCTTTTTCCACGGCAAAGCTTGCTGTTTAGGGAGTTAATTTCAGATTG
GAATATGAGAAGAAAATTTATTTATGTGACTCTTTTCCTTTTTGGCATTTTCTTTGTTTACATGACTTTTTTTTTAAGAAAGTTAAATTTTAAATAATTT
ATGAAGCTAGAGTTTGGGGGATTTATATRTATAAAATTTCCTTCAAGCTTCTAGAGTATCGGAGTATTTGTGAATGATAAAAAGAAAGGTAGGGGAATGA
GGAAGACCAGTTTATTACGAAGGCCAAAATTTATTGTATCTATTTCTGTGTGACCTTTGATAACAAAAATCAAGAACTTTTGTTTCCCTYTTAGGTGACA
GGAGCCTGTTGCCTCTTTCTGGCTGGGAAAGTAGAAGAAACACCAAAAAAATGTAAAGATATCATCAAAACAGCTCGTAGTTTATTAAATGATGTACAAT
TTGGCCAGTTTGGAGATGACCCAAAGGTAAGAATGATAATAACTTCCTGCCTTCTGGTCTTGATTCCTTATGGTAGTATTGTACAGTTCCACATGTTGAC
AGTGCCTGTAGCCCTTGTGTCTGCCAGTCTCTTGAGTTCCTAAGAGGGCCTTCTGTAGAAGTTACTTGATGCTTTTGTAAGAAAGGAGGGAAGATCGTGT
AGCCTACACTTACTCAGTGCTTCCTTATGTGCCCAGCAGTATTCTAAGTACTTTGGGGCAGTGGCACATTTCATGGATATGAGCAAAAATCCTCTTAATT
GCCATTAGGACTCTGCTTCTTAAGTGCAGTGGTGATGGCAGGGTTACAACTCCAGCTAGCTTCTGGGTCAAACAAAAGTATGTATGCTGTATGTACACAT
ACACATGCCTACATATGCCATGTGTCTTTTGCTTCTAAAGAATGTTGGAAGGTATCAACATTTGCAGCATTTTTATGCACCCAGAGCTTGATACTGGTCA
CACCAGCCATCCTATCTTTTCCATACAGCTCACGCCAGTGTCAGCAAGTGGTGCTCAAATAATTGTACATATTTTGTTGTGTTTTTAAAATACCACTTTT
AGGGACCCATGGCAGTGTTCCTCCACTCCCATTCGCATCAAGTTCCCCTTGTTGCAACCTCAGTAACACCTGTTAATTATCCTTCATAACATTTATCACA
GTTTGCAATTAAATAGATTTTCAAAAATACTTTAGGCCAAGCCGGGCAGATTGCTTGAGCCCAGGAATTCAAGACCAGCCTAGCCAACATAGCGAAACCC
CATCTCTACTATATAAGAATAAACTGGCCAGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACGAGGTCAGGAG
ATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAACCGGGCGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCG
GGAGGTTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATGGCACCACTACCCTCCAGCCTGGGCGACGGAGCAAAACTC
CATCTCAAAAAAAAATAAATAAACTAATATTACTTTAAAAAAAAAAAACCTTTATTATTTTTTGCTGGGCATGGTGGCACGCACCTGTAGTCCCATCTAC
TTGGGAGGCTGAGGCAGGAGAATTGCTTAAGCCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCGCTACTGCACTCCAGCCAGGACGAGAAAGCAAGA
CTCCACCTCAAGAAAAAAAAAAAATGCTTTTTTTTTTTTTAGAGCAGTTTTATGTTCACAGCAAAAATGAGTGGAAAGTACAGAGATTTCCCATATACCC
CCCACCCAACACATGCACAGCTTCCCCCATTTTCAGCATCCCCCCGACCAAAGTGGTACATTTGCTATGACTGATGAGCCTGCATTGACACATCACCCAG
AGTCCAAACTTTACATTAGGGTTCATTCTCAGTGTTGTACATTCTGTGGGTTTGGACATACGTATAGTAACATGTAGCCACCATTATAGTATCATGTAGT
CTATTTTCATAGCCTTAAAAATTCTCTGTGCTCCACCTGTTTGTCTCCTTCTCCCCGCTAACCTCTGGCAACCACTGATATTTTTACTGTCTCTATAGTT
TCACCATTTCCAGAATGTCATCGAATTGGAATCATATAGGATGTAGCTTTTTCAGATTGGTCTCTTTCACTTAGTGGTGTGCATTTAGATAGTAGTATCC
ATTAGATGATTTTTATCAAATTATCACACACATAACTCCCTCCCCTTCTCAGCTGTAAGATGCATGAAAGCAAAGACTATCTGTTTTGTCTAATGCCTCA
TTCAGTGGCAGGACAGAGTAGGCATTCAGCAAGTACTCGTGGAATAAATGTCAAACTAATGGTCTGAGGAAATTTCTAAATCACAGTTAAAGCTAAAGCG
ATGAAGTTCAGCCCCATTCATGGTGTTGTTTTTCCTAACTAGCTTGTATTGTCTCACAATAGTTATCTTTTTCTCTGCCAAGCATTATGTATGTATATAC
AAAATGTATAGTCATTCTCCTCATTGCTTTGAGGAGTTAACAAGGGCCCAGAACACTTTTATACATATTGTGGTTGTGATTAACACTAGTATTTTCTAAG
TATTGCCAATGTGGGTAACTCTTTTGAACTTAATTATAAATCCATTAATCTGTTTATAAACATTTGAACCTATTAGGAACTCATATTAACTATAACCAAA
AATGCAGTTTTATAGAAATAATTTCACCATCAGATAATGTTTTCAATGTGCATGGGTATTTGATTTTTACTGAGTAGTGGGGCCCTGTGTCCTAACGTGA
TAAGTCTGATTGTAGGAACATGCTGTGGTTCAGTCACACCCCCGTCACAGGGGCAGGTGAACCTTGTGGCTGGCAAGCTGTGCTTAAGGATAAGGCATCA
CACAGATCTGGGACCACAGCAGGGCATGGACTCGTGGCAGCTGCTGGTTTGTGCCATCCCAGSGTGCCTTGGAGAAGCCCCCTTTACTTTTAGCCTTTAC
CCACTGTACCATGAAGTCAGGAAACCAAGCCCCAGTCCAGGAACAGTGAAAGTAGAAGTTCTGAAGCTCCTGTGCCCCAGAAAATGGGAAAAGAGGGGTC
ACCATACCAATTAGGTCTGAATGGGGGAGGGGGCTTTGCAACCTGCCCCCTGCCTCTCTATCTCGCGCAGTCTTCCCTGGTCGGAGTCGGGGCCAAAGGA
AAACACCTGGAGCTGGGAGCAGTGAAGACATTGGGGAAGATGTTTTCCTCTGCAGACAGGAGGGCAATTCTTTAGTGGAGGCAGTATAAGTATTTAGGAA
AAATAAGATCATGAGTCCCATGGAACATTTTTTGCCTTAATTAGCTTTATTTTAATTGTGTGGCTTTTCTCTGTAATATTCGTTTCAGCCTTTGTGTTGG
GCACTAGACATGAGGCACGAGGCAGAACAGACATGGTCTCTGCTCTCATGGACTCTGCAGTTGAGTGGCAGGATAAATTTTAATCAAATGAGTATATAAC
TATTTGATGATGAGTTGTGGTGTACGCTGTAAAAGGTCATTTAAGGTGCTGTGATAGCATTCCACCCAGGGACCCAGGCAAGTCCCCCGGATAAATAGGG
GCTGAGGGAAGGCGTTCCTGAGGAATGATGTTTGCTCAAAGACCTATAATGACCCCATTAATTGAATATTTGGAAGACAGAGGGAGGGCAGGCCCTGGGC
TATCCTGTAACAGTATGTGGGCTACAGCCTGCAAGCCAATTGGTACACTTGGTAAAAAGAATTGTTTCTAAATTTAGAGGAAGTGTTGAAGCTTCTGGGA
AGCAGGTGGTGACAATGACATTCAAAGAAAAAAATTGTTTTGTTTTGTTTTTTGAGATGGAGTCTCACTCTTGTTACTCAGGCTGGAGTGCAGTGGCACA
GTCTCAGCTCACTGCAGCCTCTGCCGCCCAGGCTCGAGCGATTCTCCTGCCTCAGCTTCCCAAGTAGGGGACTACAGGCGCCTGCCACCATGATTGGCTA
ATTTTTATATTTTTGGTAGAGGTGGGGTTTCAGCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCTGCCCGCCTCGGCCTCCCAAAGTG
CTGGGATTACAGGCATGAGCCACCATGTCCAGCCCAGTTTTTTTTACACTGTGTGAAAGTTTCTAAGATTTTAAAAAACTTTCATGAGAAAATGCTTGGG
AAACTAAGATTGAAAAACCTTAGTCTTGCCATGTAATTTGGAATAATAATTATAGAATCATCTCTGTATCCTATAAAATAATACCATGCTTCTAAATGAA
AGCCAGTGACCTGTGGGTCTCTGCACCTGTTGATGAGATTTACAGTCCTCTACAACGCCCTGTCTTTGATGCCAAACAAGGAATTCTCTCAAATTGTCCT
CCCCGCACACAGTGTCTTGGTTGTGGTTTATGTTGTCTTTAAGCAGTAGGTACAGTCGGCTGTACAGGGGCTGAGTTCAAGACATTAGTTAGAGAGTATC
ATCAAAGAGGACATTCCATTAACGATAGCAACAGTAAAATATCCAAGGTTAAACCTTGTGGAAACCTCGTTAGTGGGGTGGAAAGGACTTTAAAACAACT
AAAGGACTGAAAAGATATTAATAAATTTTTGGAAGGAAACTTCAATATGGTTAAAAATCTCCATTCTCCCTAATTATTCTATAAATCCTCTGAGTTTCCA
ATGAGAATATTAATAGCATGTATGTTTTCTGTAATGATACTAAGTAAAATGGTTACTAAAATTTGAGTGAGGGGGACATGCAGAACCCAGAAACTGTTTG
AAAAAGAGAAGTAATACTGGAGCTATTGTATCCCACCCAAATCCCTTTGATCCTGGTCCAGGAGTAGACAGGCAGATCAGTGAACAGAAAAGATAGTGTG
TGTGTAGGCAGACATACACACGTAGTTTAGGAGGTGATTTAGGTAGCATTTTAAATAAAATTGGAAATGATCATTTATTCAGTAAGTGTTGTTGGGATGA
TTTATTTCAAATAAATGAAAGATTTAAACACAAAATTGATTTGCCCCCATTTGCACGTAATACACTATATGTGTACATGAGTATATATACACACACATAC
ACACACACTGGTACAATTTATCTCTGAGTTTTCATGAGGCTGGCTATCATAAACTCTTTCTTGCTTAAAATGTTTTCAATGAAAATTCCTAAAAGATTGC
ATTTTTAAAATTTGAGGTCTTGAAAGAAATTACAATTTAGTCAAATTATCAATAACGTAAAGATCTGTTTTGTAAAGGGAGACTCATGTATGTATTGAAA
ATAATAATATTTTTAAGGATCTTTTGTTTTCAGTATTTTTTTTTACATTACACCTCTGCTTTGTCTTCCTGTTTGAGATCTTTTCAGAATTTATCAGTGT
CTCTGAGCATGTTAAAAGTCTGAGTGGGAGAGAAAGGAAGGAAAGGCAGTTGCTAAAATATAACTTGAAGAGAGAATAAATAGACAGGAAAGCTCACTTT
TGTAATGCTGCTTGAGACCTGCAATTGTAATTACTGTCCTAACATTTGTGATTGATTTTTAGGAGGAAGTAATGGTTCTGGAGAGAATCTTACTGCAGAC
CATCAAGTTTGATTTACAGGTAGAACATCCATACCAGTTCCTACTWAAATATGCAAAGCAACTCAAAGGTAAGAAGAAAGTTTTCAGAAGAATTTTTTCA
TTCTGAAATCAAGTCTTTATAATTTGATGACACTCAAATTACGCTTCTCAAAAGCGGAAAACAAAGTTTGATGTGTGAAATACCAAGGGCATGGCTTGCT
CAGTCAATTCAGCATTGCAGCTGCTAATGCTGTTTCCTTTTATGTATAAACAGGCTCTGTCATCCAGTTGCCAAGTGATGGGAGAGGCAGGAAAATGAGG
CAGAATTTTTTAAATGGACTAATAAACTTAGCCTTGGAGCCAGGTTTTCCATACATGGTGGTTCAGCGTAGGTCATGAGGAGGARGAAGGGGTAGGATGT
GGACCCACATCATTCATCCTTGTTTCCCACGCAAAAGCTCTTTGCTGTGTATTTGAGTGGTGCTGAACACGTGGTAGGTTTTTAATAAATACTTGATGCT
GCCTGTGAATTTTTCTATTGCTATTAATTTACCTTTTTGTCCCCATTTCTAGGTGATAAAAACAAAATTCAAAAGTTGGTTCAAATGGCATGGACATTTG
TAAATGACAGGTATACATGTTCAAATGTTGATTAATTACAGTATTTTAAAATAGGCAGAGACTTTATGGACCATTTCATCTAAACCCCTCATTTTGTGTC
AGAAGAAACTGACTTGCCCTGGCTTGAGGAGCCAGTTAATGGCAAAGCTGGGGCTGACGTCCAGGTCATCTGCTTCCCGGCAGAGGGTTTCCTTCTGCCC
TGCCGTGTCATGGTGTTGTGAGGTGCYGAAATTTTATCACCAGTCTGAAACATAARTCCAAAACAATACACTGGAGAATTTTGAAAACTAATTACTTAGA
GCCCATTTGGTTTTGCAAAAATATACTTCCTGGTATAGTTTTAGAGCCTTAACACTCTTTTGAGAGGCCAGGGATCTAATGAGGGGCCGTGGTGGGAAAC
AGAATGCCTGTGAATGGAGTTGCTGCCAGCCCCATCCCACTGCAGTCAGTGAAGCTTCTCTTACATTTGACTTCCTCCATAAGATTTCATTTGAAGAAAC
AGTTGAGTGGCTAGGATTTCAACAGTTTAAATAACATAAGTCATTTTCATTGGTGTAGCAATTTTTGGATGTGCTAGAATTCTTCTGATTCTTTAAGGAA
TAGAGAAATTACTAACTATGGTTAAAGTAACTTAGTYGGGTACCTTTAGAAGAGTAAAGACGAGTTTATTTATTTATAGTACTTTAATTAAATTTAGGGG
AGAATAAGCAAATTAATGGTTAGTTATGGCATCTCCRTGCACTGGTTTAATCATAAATATTAGATCATATTATCTAACCTTTTTTTTTCTTGTTGAACTA
GTCTCTGCACCACCTTGTCACTGCAGTGGGAACCAGAGATCATAGCAGTAGCAGTGATGTATCTCGCAGGACGTTTGTGCAAATTTGAAATACAAGAATG
GACCTCCAAACCCATGTATAGGAGATGGTGGGAGCAGTTTGTTCAAGATGTCCCGGTCGACGTTTTGGAAGGTACCAGGCATGCTAAGCGTTCTCGTGAG
GGTGTTCCATGTTGAGATGATTCTTCCATGTGTACCCTGAGTCCCAAGAATGGATTTTCCCAGATAGACRTATGTGAGCAATATTTCAGAAGCATCATTA
ATTAAATTATCTAATAGTTTCCACTTTGTCCAAACACATACTTTTGGTAAACTAAAAATACACACCAGTGTTGCACACAACGAAGATGGGGTGAGTTGTA
AATGTGATTCATGCTTAGGTCCTCGTAGGGGTATCATAACTGATTCTTTATCCAGGTAAAATTTTATTTAAAATACCAATTTGTGTAAAATGTAATTGTT
GGCTATCATTTAGACATCTGCCACCAAATCCTGGATCTTTACTCACAAGGAAAACAACAGATGCCTCATCACACCCCCCATCAGCTGCAACAGCCCCCAT
CTCTTCAGCCTACACCACAAGTGCCGCAAGTACAGCAGTCACAGCCGTCTCAAAGCTCCGAACCATCCCAGCCCCAGCAGAAGGACCCCCAGCAACCAGC
CCAGCAGCAGCAGCCAGCCCAACAGCCCAAGAAACCCTCTCCGCAGCCCAGTTCTCCCCGACAGGTTAAGCGAGCCGTGGTGAGTGGGCTAAAGCAGGCC
CTGGGTAGAGCAGGCWTTCCAGGTGGCGGCAACACCTGAGCACTGTTCCCATTTCTAAGCGAGCACAGGGAACACCGGAAGCAGGGGGTGTTCGCCGAAA
CTCGCAGTCCGACTGCTTGTCGGTGGGGAGCCTGAAAACAAAGGTGCTCCAAGGACAGGCTGCCTCTGAGAACCAGGAGGGGGCTCTCTGCCCGGCTCCA
GCCCTGCTGCCTGTTTCATCCCTGCCAGGGTTCTGAAGCCTGTCGGTGTCGTTGCCGTGTCCTAGCAGTGTCGTTGTGCATGCTGCTTCTGTGCAGCTGC
CTGACCCCAAACAGTGGACCGTTTCCTGCACCCAAGTGGTCCTGAAACTTAGTGTTTACTCAGAACTCACCATTCAGGAAAGCTAGTCATTCTGTCTTAT
TTGGTAAATGGAAAGAGGAAGGGAGCAGAAATGATGATCTGGTAGGTGCCGTGGTTTGCCCTGAAAGTTCAGGCTAGAAATAATTTTTGTCCGAGGCTGT
TCACAGTGACTGCCGTCGCTGATTCTGGTGGTACCTGGATAATCCATTTTYTTCTCATCATACTCAGGATCCCAGTTAACAATTGTGTATTTTCTTTTGT
AACAGGTTGTTTCTCCCAAAGAAGAGAACAAAGCAGCAGGTAATTTCCTGTTCTGATGTTTTTTTAGTTTTATGTGTTTATATGCAAAACTTTAAATTCT
TAGCCAACATTGTTTCTTTTCAGATCTAAATTGGCCTTAAATCTTAACTTTAGAGCTCATACAAAACTTTTCCATCAGCATTGTCTTTCTGTTCATCACC
TGATCATAGATTCTAAAATTGTGCTCTTACGAAGCTATCAGTACAGAAAACATTACTGGCAATAAAAATGTACTCAGTAACATATATAAAAGTATAATTA
TGGCTGTAGGAGAACTGTTGCTGCAATTTTATTTTTAGAGACTATTTACCCCCATCACAGCAGCAGGAGTCCTCTCCCAAGCACCAAGCCACAGCAGATG
CGGGGGGGCAGTAGGGGGTGGTGTGCTGCCCGGACAGCACCAGCCCGGCCCAGCCCAGCTGCCCTTGCAGGCAAGGCCTCTTTGAAACACACTTGGGTTG
AGGTGCTGTCACATGTCTAGAACCCAAAGTTAGTTCATGTCAATATTGGAAATAAACAGAAGGAGTGAGCAAAATTGGAACAATTACAAAACAGAAAGTT
AGAAATGTTTTGTCACAGGGTCAGTCCACCTATCATACTGAACTCTTTGAAGGCACAGACCCTATTGACTCATTTGTCTTTCTTTGTTACTTGGTTCTTA
GTTCCAGTAGTTCCTGGTTCTTAGAACCATGTTCTCGGTTCTTAGTTCCATTCATTAAACTGCTGTGAAATCTTCCAGTTATGATAGAGCTACTTTTTTT
TTTTTTCCAGTATATTTGAGGGAATGATGAGTTCAGTACAGGTGAATTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGC
AGCGGTGCAATCTTAACTCACCACAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCACCACC
AGGCCTGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCAGGTGTCAAACTCCCGACCTCAGGTGATCTGCTCGCCCCAGCC
TCCCAAAGTGCTGCGATTACAGGCATGAGCCACCGTGCCCAGCCTACAGGTGAATTTTTTAATTAGCTTCAAATTGACCGACATTAAATGTTAGACACAA
GAACGGGCTACACTCCATGCCACATGAAATGCAATTGAGTTGACGTGCAGGTCTGTCAGAGGCAGGAAACAAACTATATATGACCTTGAAGGAAGAGTTG
CATTTGAGCAGCGAGAGCAGAGGGGGAGGATGGAGCARTAAGTTGGAAGTAYGCAAGTGAGCAAAGGAATTGAGAATCAGGGGAAATGGAGAGGAGTCTT
TCTGGAATGTGATGAATTGAAAGGCAATAGCTTCTGATAGGATCTAAAATGTGGGTTAGGACCAGATCACAGAGTTTACCTGGAGGACTGTGAGTTTGGC
AGAGGCAAGGGAAGCCATTGGAGATTTAGCAGGGGAATGGCAGAGTCTAAATTCATTTGAGAAGGAGTCCCCTGGCAGCAGTAAATAGGGCAAGTGGTTA
GGAATGGGGAGAATCTTGCTGGCACTCATGGGAAACATGGTGGCCTCAGCATGCTGGCTGCGGGGCAGGAAGGGCAGATCCGGAGGAAGCTTTATAGAGG
AACTCAGCTGCACTGTGCCATGCCGAAGGCTACTGGCTGCAGAGGGCTGCAAGCACTCGAAATGTGACTGGGTCAAATTCTGAAGCACTGACAATGCAAA
ATACACAGAGATTTCCAAGAAAGGAGAACGTAAGACATCTCATTAGTAAAGCTTTATATTGGTTACATGTTGAAATAAAATTTTCGATCTATCGGGTTAA
ATAAATTTTTATCCTTTTTCCTTTTATTTCCAGAGTCTTGCTCTGTTAATGCAGGCTGGAGTGCTCCTTTTTCTTGTTAAAGTGGTTCCTGGCACACTTG
TAATCCCAGCACTTTGGGAGGCCAAGGCATGCTTTGAGCCCAGGAGTTCCAGGCCAGACTGGGCCACATAGGGTGACCCCATCACTACACAAAACTTAAA
AATCAGCTCGGCGTGGTGGCGCCACACCTATGGTCCCAGCTACTTGGGAGACTCAGGCAGCAAGATCACTTGAGCCTGGTTGGTTGAAGCTGCAGTGAGC
CATGATTACATTACTACACTCCAGCCTGGGTGACAGAGCGAGACCCTGTCTCAAAAAATAAAATGGCTCCTGGAAAGTTTAAAATTGTAGATATGTGGCT
CTCAGTTATATTGCTGTTGGACAGCCCTGATGTAGACGGCTTTAGCTAACTATTACCAGCTGTGGAAAAAGGCAGGAGGTGGGTCCCTGAGGTGAGAGTA
ATAGCAGTTATAGGATACAGAGGCAAAAGGTAGWGTGTGAGGTGCTGATTGGTGGGTCTAGGGATGGGCCATGGTTTTGGTGGCAAGATGGACGCTAGAA
ATGTAGGTTTGTAGTTGWCCACTTAGAGAGGGGCTTTGGACTCTGAGGAAGAGGGTGAAGAGAGAGGAAGTCCCTGGAACTTAAATTGAGCCTGTATTTG
AGATGGAGGAAATCCAGAGAAAGAGGCCAGTGATGGCAGAGGAGACTCAGATCTGAGTGGTGTACAAGCCAGAAGAAAGTACATTTCAGGAAGAAAAAGC
CTCAGCATGCAAACAGAAAAATAGGGTTCTTTTTCAGTTGTGATGTGCACGCTGCCTTCTTAAACGGATGAGATTGGACTTCCCTTGGGCTGCCTTGGAG
ACCTAGTGCTGTCATTGTGGATTCTGGCTGCGTGCCGCTGCCTGACCCCGGAAGGGTGGGCTGTTTCCTCCACCTCAAGGGGTCCTGACTGCTGGGCTTT
TGTGAGCGGCACATTCTTCCTGCCATCAGTGTGTCAACCTCCAGAGCTCTGCTGACTCCAGTTAATGTGCTGCTTCTGACATGCTGCCAACTGGAAGTCA
GTATTTGGGAAAGAGAGAATAAACTATGTCTAAGAATGAAAAGATAGAGATTCTCTTGTGGAACCCTCAGGGGACTCAGTGACATGATGTTGCTACTCTG
GACCCTTCTTTGTGTCCTCTGTACCAGGGAGGACTCCAGATAGGTCATACATGCTCATGAAGACGTTGCTCTGCTGGTCTCACATGGTCGGAAGGACTTG
AGTGAAGTGGTCAGCAAGGAAACTTAGGTAGACATGGAAAATGGGCTGCCTGTGGGAAGCTCGCAGGTCTTTTGGAGGGAGGTGGCATTTAATTTGTTAA
CAGGATTCATGCATAATGGTTTAGCTGAAACCTTCTTCAAGTTCCCTTAAAGCCTTGGTCATCTCTGTTGTTTTTCTCCCAAAGAAATCTCTGCCAGTAC
ATTTTTCTTTATGACATGCTTATTCATGTGAAGAAGTATGAGTGGTTTTCTAATCTGCTTTTTCTTTGTAGAACCACCACCACCTAAAATCCCCAAAATT
GAGACCACTCATCCACCGTTGCCTCCAGCCCACCCACCTCCAGGTAAGCATCTGCTGAAGCAGCTTGGCCAGCTGTGCACATCGCCTCTGAATGTTGGAC
GCAGCAGGTCCTGGGAACTTAGAAAAGGGAGACTGGGGCCCAGATTGACAATGTCAGCCACAGGCAGGAATCTTTGCAAAATTGTTCTTGGGCTGGGCAC
AATGGCTTGTGTTTTTGATCCCAGCACTTTGGGAGGCGGAGGCAGGAGAATCACCTGACCCCAGGAGTTCGAGGTCAGCCTGGGCAACAAAGTGAGACCC
TGTCTAAAAAATTAGCCAGGTGTGGTAGCACACACCTGTAGTCCCAACTACTTAGGAGTCTGAGATGGGAAGATCATTTGAGCCCTGGGCAGTCAAGGCT
GCAGTGAGCTATGATTGCACCACCGTACTCCAGCCTGGGTGAGAGGGAGACCGTGTCTCAAAGTTCTGATTTTGACCAGGTATTTTGAGAATGTTGTAAA
TTGTTAAGTATATCTGAATATTTTCCGACCTCTCACATCCAGAAATGCTAAACTACACATTGTATTAGAATCAGTTTTAGGAAAGAAAGCCAAACCCCGC
CTTCTGAGATAGAGGCAGGGTTACTGTGGCTACTAGGCTCCGGCCGCCCCTACACCTGCTTCCTATTGGCAGTGTGTCGTCTTAGTGCATTCTGAAGAAT
AAGCAATTGTACAGAGAGTAAATGAAAGAGTGAAAAGTTCTCAACAAGTAGTACATGGTAAGCTGGAAAGCCTCTCTGATACCGCTGGCAATAGAGGAGA
AAAGCTGTAAAGTAGATGGCATTCTTTACCTGTGGCACCATTTCAGAAGGTGATGCGCTAGAGAAGGCCAGAGTGACCTGTGCTTGCTCTCCAAAAGGTG
GTCGATACTCCGGAGGCTTCCAAGCCTCTGTCAGCAGCTCCTCCAGCCTGCTACACTCACTGTTGGTCGGTGCACGTGGCTCACACTGGGGCTGACAGCA
CTGTGTGCCCGTAACAGATGTGCCACAGATTACATTTCTGTTCCTACTCAATCATGATAGTGTTTGTGCTTTGGGAGAACAGAGGCGTCATTTTCCACTT
TGGGGCCAAATCCCAAAACCCCCAATTCAATATGAACCTTACTTAAATGCCTGTGGTTGCTCATGAAGCATTTATGGAGCACCTCCTCGCCAAGTGCAGT
TCCCCTGGTCCGAGCCTGGGGCTGTGCCTTCACTGAGGAGATGGGTGGTTTATCTGGGGAGCCTGGGGCAGCCACAGGGGTGCTGCTACCTCCAGGGCAC
TGAGTAGCTGCTGTGGAGGCCTCAGAGCTCTGCTCCCTCCCCCATTACAGATAGCCAGGAGTAGGCCTGGGACTTGAGTGGGACCTGGGTGCCAGATACA
CTGCCAGGAGGCCATGGCTGAAGAGAGCAGGGCCTGGGAGGCGCAGTAAAGCTGGGCCGTGAGGAAGGGAGGGAAGTACGCTTCCTGGGAGGCCCTAGGC
CATGGGAAGAGGCATTCAGGTCAGCAGTGATGTTTAGGGAGCAGTTTGGTGGCAGTGTGTGGGACTTGGTCAGGAGCAAGTGTACAGAGAGGGAATGGGG
TGCCCAGGAGAGACCCCCACTTGCTGTTCCAGCTCAGTCACACAGCACAAGGGCAGGCACACTGGTGACTTGAAGATTCAGGCTACAGGGTCGAGTGTTG
GAAAAGTTGATTTCTGCAAGGTGGAGGAGCAGGCCTGTGGGCCCAGGTGGCTGTGGAGTGACACACAGGAGGCATTGAAGGGTGTCAGCACTTTTCTGCA
CCTCTTTTTTAGTCAGCTCCTAGAACCACAGGGCATCTGGCCCTGACCTGGAGCCAAAGCCAGTTATCTAAGGCCAGGCACATATGACCTTCCTACCCGG
TAGGCTGGCGGGGTGCTGATGTGGCACACCAGTGGCACACCTGTTACCGACCTGATGAAATCCTGCTCATGCTCGCTTTGGCAAGATCAAACGGGTTGTG
TGCCAATGGCCACGTCTACCCAACCAGGATGTCGTGCTGTGCCTTGCCTAACCCAAGTGCCTGGGGAACCAGAAGCATCTTCGTGGCTTTGTCCTCTCTA
TGTTCTCTGGAACCAGAAATGTTGCTCCTGTGGTCTGTCTCCTGGGCTGCCTTGGGAAAGGACACTCATTCTGTGTGTTTGGCTACCTGTGGTGGGGTGT
TGCGATGTCATTTTCCAGTGGTCTGACGGTGACCCGGGATCACAGGCCAAAACATGTTAAATAAGGCTTTGGCAGAAGGGGGCGTGAGGGCTCATGGGTT
GGGAGGCGCTGTGGGAGGGGCCTGAGGCTGGTTCTGAGCACGAGTATCTTGGGCGTGCTCAACACCTAGTGCTGCCTGTCCCTGCTGCACACGCAGCACG
CACACACACGCAGCACGCACAGACATGCAGCACGCACGCAGCACGCACACGCACACACATGCACACACTCCTCTCAAGGAGGCTGCTATCTGAGAGCACA
CAGTGGGGTTTGATGTAGCCTCTCTTGAGTAGAATAGAACCTGAATTGCTGCTTCGATGGGTACACCGGGAATGTCAGAGACTTGTACAGAATTGTTTTA
AGTGCCATCACATTCATTTGACTAACTCTGAGGTTTTCTGCAAAATGCCACTGCTGCAGACAGGAGTTCAGTGTGGCCCTGACCCCTGGGGTCAGTTTCT
GAAGGCAGAAAAACAGAGGAGCCCCCACACGTTTTGCACTAGGAAGAGGGGGCTGGGGCCAGGGCACAAGGGGGCTTCGGGTGCTGCCGAGACTGCCTGT
AGGTGGTGTGGTCAGGGCTGAGGGAGGGAAAACCCCAGGTCGTCGCAGACAGGGTGGAGGGCCTTCTTGACAGATGGTGGGGAGACATCTGGTGGCATCA
GGACATGGGGCATGGGCCCATGCGTTGGGCCACAGAGGAGGCGGGCAGCTGCTCCCTGCTCCTCTGTAAAGATGGCCCTGAAGGGCCAGGAGGCACTGAA
AAAGCAACCATTGCTGGCGGAGGCCGGGCACTGATGCGTCTCTCTCCTGCAGACCGGAAGCCTCCCCTCGCTGCTGCCTTAGGTGAGGCTGAGCCGCCGG
GCCCTGTGGATGCCACTGACCTCCCCAAAGTCCAGATTCCCCCTCCGGCCCACCCGGCCCCTGTGCACCAGCCACCGCCGCTGCCACACCGGCCCCCGCC
CCCACCCCCCTCCAGCTACATGACCGGGATGTCCACCACCAGCTCCTACATGTCTGGAGAGGGCTACCAGAGCCTGCAGTCCATGATGAAGACCGAGGGA
CCCTCCTACGGTGCCCTGCCCCCCGCCTACGGCCCACCTGCACACCTGCCCTACCACCCCCATGTCTACCCGCCCAACCCGCCCCCGCCACCTGTGCCTC
CTCCCCCAGCCTCCTTCCCCCCACCTGCCATCCCACCCCCTACTCCTGGCTACCCCCCACCCCCACCCACCTACAACCCCAATTTCCCACCCCCACCCCC
ACGCCTCCCGCCTACCCACGCAGTCCCCCCTCATCCTCCTCCAGGGTTGGGCCTGCCGCCAGCCAGCTACCCACCTCCTGCCGTCCCCCCTGGAGGACAG
CCTCCTGTGCCCCCGCCCATTCCCCCACCCGGCATGCCTCCAGTTGGGGGGCTGGGGCGGGCAGCCTGGATGAGATAACGTGAGCCTTTTTTCCCTCTTT
GTTTTTTTAACAAGATTTTCTAATCGACTTGCAGAGTAGTTGAAGTGGGTAAGCAGCAGGGTACCTTGTATAATGCACGACAGTTGCAGTATGGGAAGAA
TGGACCGGGCCCCTGGGATAAAATCAGAGTGGTCCTCACACCTAGAGGACGGGGACAACCAGCTTTCAGAGTAGCCTCATCAGTGCCCTTGCAGTCTGAC
TGTGTACACTTGGTTCAGCTAATGTCTGAGAGTCCTGCACTGGGTTACTTTATAMTAGTGAGGACGTTAACCAGCCATATTGGCTCAATAAATAGCTTCG
GTAAGGAGTTAATTTCCTTCTAGAAATCAGTGCCTATTTTTCCTGGAAACTCAATTTTAAATAGTCCAATTCCATCTGAAGCCAAGCTGTTGTCATTTTC
ATTCGGTGACATTCTCTCCCATGACACCCAGAAGGGGCAGAAGAACCACATTTTTCATTTATAGATGTTTGCATCCTTTGTATTAAAATTATTTTGAAGG
GGTTGCCTCATTGGATGGCTTTTTTTTTTTCCTCCAGGGAGAAGGGGAGAAATGTACTTGGAAATTAATGTATGTTTACATCTCTTTGCAAATTCCTGTA
CATAGAGATATATTTTTTAAGTGTGAATGTAACAACATACTGTGAATTCCATCTTGGTTACAAATGAGACTCCTTCAGTCAGTTATCCAAATAAAAGCAG
TTCTGAAACTATCCCTTTCTTTGTTATGGGTGGAAGGTGGGGCTCCAGGCCTTCGCAGTCTGTGGCTTATAAAATGTGCAGAGGCCCTCCTTCCAGACCC
TGGGGACGCGGGAGAGGCCTGGCTGCAGCTCACAGCAGCCACAGCCAACCCCACTGCCTCCCAAGGCACTCTGGGTGGATCCGCACAGCTGCCTGCCAAG
CCAGCCTGCCCCCATCCTGTGCCTGCCTTGGTTTCCTTTGGAGGACCTGGTTGAGTTCCAAACCAGTTTGAAACTTTGAAGCCTTGCTGCGTAGAACRCA
CACAGGAACCCGGGGGCTTGGATTTGAAACCCTTTCCACTTCTGGCCTGTGATGAGACAGAGGCAGCTGGAGGAGCAGCGGCCTCACTGTCCACCTTGAG
GGGCCACGGCTCTGTCTGTGGAAGGGGCCCCGACTGAGCCCCCATCTGCGGTGCTTGAGGGGCCTTGGCCCTGTCTCTGCCTGCTGACCCTGCCACCCAC
GACAGAAACAAGCACTGAGCACCCAGCCAGGAGGCTCACAAAGAGGCCTTTATTTATCTAGCTCAAAGTAGACACTATCACAATCTTGTTTGTTACTCCT
TTTACTAAAATAGTTCAAATCAATGTTTTTACCACACTATMAAAAAGTTCTATTTCTTCTTGTCTCCCCACGTCAGAGTGGTTGAATAGAAGGTAGAAAC
AGGCCGGGAGTCCACGGGCTCCCAGCTCTAAACGGCGCCAGGGCAGGAAGGGGTGGCTCCAGGTCTCACTGTGGCACCTTCTACAGAAAATAGACGTAGC
TGCCGGGCCCGGGGACAGAAACCAGACGTTCCAGTCCATCTCCAAAAAGCAGCACAAATACTTTGCCCCACAGTATGAAAAATATACACCTCTACCGCTC
TGCAGTCATGCATTTAGTTTTAAGAAAAAAAAAAAATCAGTAGTATGTATCTTGTTTCCTCAAGTTTCAAGAAAAAAAAAATGAAAGGTCACTTTTTTCT
CTTTAAACACTGATGTGTAGCTAGTAACTTGGATAAAAAGGTGCCACCCTACAAAATGTGCTCAGCATGTTCTGAGGCCAGGATGGGCTTGGCCACCTGG
GCTGGGGCGAAAGGAGACCTCCATCTGTCACAGTGGAAACTGAAGCCGAGTGCCAGTGCCGCGTCCGGCTTCAAGATCAAGAGTCAGAGCCTTTGAAATG
GAAAGGGGGCATCTGAAAGGGCACCCCCACTGGGGGCTTTCAGAGCTAAGGCTCCAGAAGGAAGGGGGTCGCCCTGCTAGTGACGGAGCTGGGAGTCACC
CTGAGCTACAGCACGCCCAGATTTCCCCTGTGGGAAGCCCCATCTGACCTTCTACAGCCCACGGCTCTGCAACTGCCACCTGTACTCAGGTACATGGCGT
CGCTGCTGCTGGCTTTTAAAATCAGCTATTAGTTTGAGATGTGACAGTCGCCGACAGGGTTCTGTCCTAGAAAGCCATCCCAGTGCCGTGTTGGCTCAGG
GGTCACCAGCTTTGTGCTGCCTCCGTAACAGCAGGAGGGTTCTCAAAGCAATGTTCCACTGATCCCTGGATGCCACTGCAGCATTAAAGACAGGGTCAGT
CCCCTTGAGGGGAAAGGTGGCTTCAAGGCTGTTCTCTGGGCCTGTTTGCAGGAGATCCGCAGGTACCAGGAGCCCGTACTTATTGCTTATTTCAGTGGTG
GCCACGCCAACCTGACCCAAACATGATGCACACGGGCTCCCAGACTTGGCTGCCACTCAAAATGGACCCACAGCCCTTGGGCTACTCTGCGGTTCTTTGG
ACTGCAAGACCCAGAGGGGCCTCTGCTCAGCTGCCCACTCGGGCAAGAATCACTGGGTACCATGAGCAGCAGGTGTTCACCCAACTTCACGTGTACACCC
CTAGTGACCGGGAGCGCACCACCTGACYGGGCGACACTCCTTCCCAAAGAGCCTCCTGGCAACACCCACGGCAGGAGCGCCACACCATCCCATCACCAGC
ACCCACTTACCCCCCTGGGGCTAAGATGGGGGGCGTGAGCCTTTCCCCTGAGAGCAAACGGGCAGCAAGAACTGCTCAGAATAGAGCCGCCAGCTAGGGA
GAGGGACAGGGCGRCCATCTCCCTCCTCTTGCCTGCATCCCCAGCCCTGGGCCTGCATGAGACCTGCTGGGTAGGAAGACAGCCTCTCTGGGCTCTTCAG
GTGGGGCTGAGCAGCCCCTGGAAGAGCACAGGAGTCTGACGAGGASCTGGTGAGGTCCTGGACCCAAGAGCTAGGGCTGCTTACAGTGGCATGAGCGGAT
GTGGGGAAGCGGCCTGTCCCCGTGCTGCAGCTGTGGGATCTCCCCTGTCATGTGCCACACATCACCCCCTCTAGGCCTTACTTTCCTCACACACACAGTT
TTCTATTGCACTTTACAGTTTATACATGGTCATTTACACTGAAGATCTCACTTGATGCCAGAATCCTGTGAGGAGGGCCTTATGCTGCCCATTTTACTAC
TGAGGACACGGGCTCAGAGTGGGGAGGCAACTCTCCACCCGCAGCGACTGCAAGGCAGCAGAACTCAGCTCCACCCGGCCCGCCCTCAGCCGTCGGCTGT
TGGCTCACGCCCCCTCAGTGAGGACCCCTGCCCTGTGGCGCTGGATGACCTGGAGCCATAAGCATGGCCGAAAAGGAACCTCAGAGACCTGTTTCCACCA
AGAGCCCAGACAGGCTGAGTGAACTGCTAAAGGTCACACCACAAACTAAAGGCAGAACCTGGCCAGACACGCTCCTTCCCAAAAAGAACAGAACTCTCAT
CTGCAGCCTACACAGCTCTGTCCACAGGGACCCAAGATGCAGCCAGGCCCTGGGGGAGGTCACAGCCAACCAGAGCCCCAGCTGTGGCCCAGTGCTGCCC
ATCAGGAAAATCACATGTGGCTCAGCCCAGAAACTCTCCCCAGGCCCTTCCTGTTACTGGCCTGTCATGTAAACCACGAAAAGGGACGTGCCTCAGGCAT
GGGGCAGGAGGAGCCCAAGAAGGGCATAGCCTGGACAGGGTGGCAGGGGGACATTGCAGAGACTGGGGGGGAGGGGGATGACCTCCAAAAGCAAGGAGCA
GCGGGCATCGGGTGGCTGAGCACAGATCCCCAGGTGTGAGGGCACCCTGACCTCCAAGGCTGAGGGTCACAGGAAGGGCCCAGGGCAGCCTCCAGCCAGC
CACAGATGTGGTGAGTGGCCTTGTCCACATGCCGGGGACCCAGTGCTTGGGGGGCCTGGGCCCAGGCCACGGCATTTGGGCAAGAAGTGGTGCCACCTGC
GTCAAGACCCAGGTAGTGGTGGTCTCTGTCCAGTGTGGGTGGCAGCCGGGGAGTAGAGGGTTTGATGAGTGGCCCCTCCATCCCAGGCAGGACAGAGGAG
CCTGGACAGTTCCCAGGCTGGATCTCAGAAGCAGCCTGCAGCCTCTTGCTCATGGAGCCCAGGGCCCAGAGGGGGAATGAGGCGTCCGGGCCGCTCTGCT
GCAGGAACAGTCGCAGCGTCTCGTCTTCCCAGGTTGCTGGTGTATGAGGCGGGAGATGGCGGCTTGGGCCAGTGCATCGGACCCATGGCAGCTGGGCCAG
GGCGGGCAGCGTCCTATGTACAGTTCACCACAGAGGAAGAAGACAGGGGCTGGGCTGGAGGTCCTGCCCGTGTCTGGGGCCTGAAACTCCCCCTGGGGAC
CCCCAGCAGGGCCAGTCCACGTCCACAGAAGAGTGGCCCTACAAAGGCCCCTTGAACTGGTTCCCAGACAGGTGCTGCCGTATGGAGGGCTTGGAGCTGG
CTGCATCTCCCAGCTTTCTCCAGACCACCTGTGGAGAGGAGAGAGATGTGAGTGGTGGGACTCACCCGCGTCCACCTGCCGCCTATGCACATCCGCCGCC
TCATCACGGCAGAATCACCCACGTCCTCAGAGCCATGGGGCCAGGAGGGACACGGAGGCCACTGCAGGCCCAGAGACACCCACACCAGGTCTTTGCATGC
CGCGCTAACTATCGGGCCTGAGCAGGTCACTGCTGGGGTGTGGCTCAGCCTTGCAGCTGTCCAGTGGGGTCCACAGGCCCCACTAGGTGATGCGGGGGAG
GGGCTGCACAGTTCAGAGCCTCTCGCCCCCCCTTTAAGTCCTGGGTTCAGACCCTATGAAACTCCTTCCCCGATGGCTCCTGCAAGCACCCCCAAGGAGA
CCGCCGATGGTGCTCAGCTGGGTCGGGCACGGGGCTCTCCTGGGCAGCCCCAGCCTGGTGGGCTGGAGGGTTCCACCTGGACCTCCTGCTCTGAGCACCA
TCTGCCCAGCCAGCAGCCACAGGGGGCACCAGCAAGCTGAGAGGCCCGGGGGCCAGCACCCAGGGAACACCTGGGGTGAACAAACCAGTCCCGGGGGGGT
GGGGGGCTCAAGCTCTATCCAGAACCCCAGGCACGGCACTCCTGGGGAGGGCGGATCTGCAGACACCAGGGGCCCTCTGGGAAGGGCAGGGGGCAGCGAG
ATGACAACGGGCCAGGGCTCCTAGCACCTCTGAGGCCTCCCCCCAGCTATCCAAGGTCACCCAGCCTTCGCTGAGCATTCGAGAAATGGAGTCCCACATG
GGGAAGGGTATGGCCATGCTGGGTGGCCCTGGTCGCACTCCCAGTGCCAAGCCTCTGCCCCCCACCCCTGGAAGCCTCACGTTGCACATCTCGCGAACGA
TGGCCTTCTCCTTCTCACTCAGGTCCTCCTCACAGCTGTCCTGGAGCTGCCGGTCCAGATTCTCGTGTACCTCCAGGACCTGAAGGGAACGGGTCTCGGG
GTCAGGGGCAGAGGCCACCGGCAGACCTCGGGCAAGTCACCTGGCCCCTGATCCTCAGCCTCCCCTGCTGCGAACCAAAGCTGAGGACCCTGAGCCGCTG
GGCCCCTGGGGACAAGCGTGGAAAAAACTGAGGGGCAGGTTGTCATCTCACCCTGCTGACACTGGATGCCCTACRAGGGAAGCAGCTCATGGCTGGGCCA
CCCGGGAGGAAGTAGACAGGCTGGGCAAGGAAGACCCTCAGACAGGTGGACTCACTGCAACCCAGGGCCCGCTGGAGATGAGTGGGCACTCGCCACGTGG
AGGGGGTGTGAGTAGGCGTGGCCGTGCATGCATGTGGGATGTCATGGGGCACGTACGTAGGAGGAAGRGGGGCATGGGAGTGGGGACTGTGCTCAGGTGT
GCACAGCCTGGAGGAACCGGAGCCCATCGGACTCACCAGTCTGCACCTGCAGAGGCTGGGCCTGGCAGACCTGAGGTTAGTTCTAGCCCCACTCCTGCCC
CTCTCTCTCTGGCCTTAGTTGGGTGCCTGCCCTCCCCGACCCCAGGCCTCAGTCTTGTTAGGTGCAGTAGCTCAGGGATGGCAGACAGGTGACACACTTA
TGACTGCCACCTCTGAGTTCAACCTCACAGTGCTCCAGGCAGCCATGGTCACCCAGCCACCCACACACAGATGAAACCTCCCACCCCTGCCACTTGGATA
CCCCTAGGTGCAAAGGTCCCACAGTCTCACAGTGCACCCAGCATCTGAGGACTTCTGAGGGAGCGGGTAGTGGCCCTCACCTTCATGGCATGCACGACAG
CCTCGGGCTTCTGTCCTGCAGGGCTGTAGCCAGCAGAGGGGGGCGAGGGCAGCTCAGGTGCGGGGCAGGCCGGGCCCTGGGGAAGGCAATCACACATCTC
AGCTCACCCTGGCTGGCTCCCACAGGAATGACCGGTGGCTCAGACAAGGCCCCCATTCTGAGGGGCCAGGGCCCAGGCAGGAGGAAAAGGGGACCGGGGT
GAGGCAGAGGAGGCAGGTGTGAGGATGGAGACCCAAGGAGCCCACAGCCAGTCTGGCCAGTCCCGCCCACCAGGTCTTCTGCAGATGAAATGGTCCCTGA
TAGCACAGAGGCAAGAGGGGCAGTCCAGGGCCCACCCACACCTCTCAGGCTCCTCTACAACACCCCACAGATAAGACCTAGCGTCTGTTTTGCAAGGAAA
GTAAGTTCAGCCTAGGGAGGGCAAGAGACCCAGATCACAGCAAGACCAGGAAGGTCTGGACTTAACCCTGGCACCTGACTCCAAACTCCCTTCCCCTGCC
CACCCTGGAGCCACCGGTGGGCGAGGCCGGCTTCGCCCTGAGCACTCCCTGGGGCCTGCCTCCCAGCTGCCACCTCCCAGCCCTGCGGGATGAATTGGCT
GCCAGGTGCCCAGCTCCCACATCAGGCCTTGGGGAGGGGACCCAGCCTCTGTCAGAAGCTGCATGTCTACCCAGGGGCAGGCAGTCCCACCCCCAGCTTC
CTGCCTGGAAGGGTCCATGTGGCTGGGAAGCCAGGTGCAGGGCTT


SNP Information

Context             (SEQ ID NO:37958):
CCTGGGCCTGCATGAGACCTGCTGGGTAGGAAGACAGCCTCTCTGGGCTCTTCAGGTGGGGCTGAGCAGCCCCTGGAAGAGCACAGGAGTCTGACGAGGA
S
CTGGTGAGGTCCTGGACCCAAGAGCTAGGGCTGCTTACAGTGGCATGAGCGGATGTGGGGAAGCGGCCTGTCCCCGTGCTGCAGCTGTGGGATCTCCCCT
Celera SNP ID:            hCV12062254
SNP Position Genomic:     38346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,8)      total(G,1|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:37959):
TGGGTACCTTTAGAAGAGTAAAGACGAGTTTATTTATTTATAGTACTTTAATTAAATTTAGGGGAGAATAAGCAAATTAATGGTTAGTTATGGCATCTCC
R
TGCACTGGTTTAATCATAAATATTAGATCATATTATCTAACCTTTTTTTTTCTTGTTGAACTAGTCTCTGCACCACCTTGTCACTGCAGTGGGAACCAGA
Celera SNP ID:            hCV15859169
SNP Position Genomic:     26737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37960):
AAGATCAAGGTGCTGGCAGATTCTGTGTCTGGTAAGGGTTTGTTCCTCATAAAAGGGCTCCTTGCCGCATCCTCAAATGGTGGAAGGGAGGAACAAGCCC
Y
TTGGGCCTCTTTTATAAGGGCAGTAATCCCATTCAGAATCATTTCCCAAAGGCCTCACTTCTTCATACCGCCACCTTGGGAATTAGGTCTCAAGCTATGA
Celera SNP ID:            hCV27515811
SNP Position Genomic:     19502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37961):
AGGTTTTAATTAACTGGTCTCCCCCGCCCTTTGAACAGTGCCCAATTTAATCAGTCACACACAAAAATGTAAATTATTAGTTCAAGCTTTTCTCCAGGTA
M
TTAATTCTTCCTCTTGGAGGGAAGATCAGATTTCCTTCAGAGCTACCAGGTGCAAGGAGGAGAATATTCAGCCCCACCATGTCACCTTCCCCACCAGAAA
Celera SNP ID:            hCV26475777
SNP Position Genomic:     16186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,10)      total(A,1|C,10) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37962):
TCTGTCAGAGGCAGGAAACAAACTATATATGACCTTGAAGGAAGAGTTGCATTTGAGCAGCGAGAGCAGAGGGGGAGGATGGAGCAGTAAGTTGGAAGTA
Y
GCAAGTGAGCAAAGGAATTGAGAATCAGGGGAAATGGAGAGGAGTCTTTCTGGAATGTGATGAATTGAAAGGCAATAGCTTCTGATAGGATCTAAAATGT
Celera SNP ID:            hCV26475778
SNP Position Genomic:     29552
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37963):
AGCCCAACAGCCCAAGAAACCCTCTCCGCAGCCCAGTTCTCCCCGACAGGTTAAGCGAGCCGTGGTGAGTGGGCTAAAGCAGGCCCTGGGTAGAGCAGGC
W
TTCCAGGTGGCGGCAACACCTGAGCACTGTTCCCATTTCTAAGCGAGCACAGGGAACACCGGAAGCAGGGGGTGTTCGCCGAAACTCGCAGTCCGACTGC
Celera SNP ID:            hCV25601349
SNP Position Genomic:     27616
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,40)   total(A,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:37964):
CTTGTGGCTGGCAAGCTGTGCTTAAGGATAAGGCATCACACAGATCTGGGACCACAGCAGGGCATGGACTCGTGGCAGCTGCTGGTTTGTGCCATCCCAG
S
GTGCCTTGGAGAAGCCCCCTTTACTTTTAGCCTTTACCCACTGTACCATGAAGTCAGGAAACCAAGCCCCAGTCCAGGAACAGTGAAAGTAGAAGTTCTG
Celera SNP ID:            hCV8431239
SNP Position Genomic:     22763
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,4)      total(G,4|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37965):
AAGAGGCCTTTATTTATCTAGCTCAAAGTAGACACTATCACAATCTTGTTTGTTACTCCTTTTACTAAAATAGTTCAAATCAATGTTTTTACCACACTAT
M
AAAAAGTTCTATTTCTTCTTGTCTCCCCACGTCAGAGTGGTTGAATAGAAGGTAGAAACAGGCCGGGAGTCCACGGGCTCCCAGCTCTAAACGGCGCCAG
Celera SNP ID:            hCV26475779
SNP Position Genomic:     36741
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:37966):
GGTTTTAATTAACTGGTCTCCCCCGCCCTTTGAACAGTGCCCAATTTAATCAGTCACACACAAAAATGTAAATTATTAGTTCAAGCTTTTCTCCAGGTAC
W
TAATTCTTCCTCTTGGAGGGAAGATCAGATTTCCTTCAGAGCTACCAGGTGCAAGGAGGAGAATATTCAGCCCCACCATGTCACCTTCCCCACCAGAAAT
Celera SNP ID:            hCV15793864
SNP Position Genomic:     16187
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,1|T,10)      total(T,10|-,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:37967):
GGCGCGGGAGGAGGCGGGGGCTGGTCCCCGGGCACCCTGGTGGGCACCGAGAACTCGCAGAGAGGAACATAAAACCGCACAGCCTTCCCCGAGCAGCGGG
K
TGACGGGAGGAAGGAAGGAAATGGGAGCGCGACCCGGCCGCGCGCAGAGCCGAGCCGACTAGCGCGAGGGGCCCGGGCCCCACCCGAGAGCAGGCGCGAG
Celera SNP ID:            hCV29132963
SNP Position Genomic:     4839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37968):
GTTAAAGAGTCGCTAAAAGGTAGATTTCATTCATGCATTATTTTATGCCATCTGTGTAGCAGATCTAGGGGATGAACAGGACAGATAAAAATCAATATAG
R
AATACAGGAATTATGTGAACACCAGTTATTGATACCCAGCAATGCCATAGGCTGTTTTGTAAACTAATGAGGTTTCATTGATAAGTGGCCAAATATTACT
Celera SNP ID:            hCV29132965
SNP Position Genomic:     9274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37969):
TAGAGGGTATTGGTATTGAAAAAGTTAAGATTTCAGAATTAGGAGTGTCATTCCTTCTTGGTACTTGAAAAGGACAGAAATGGGATACATATATATATAT
W
TTTTTTTAACCATGATTTATTTTGATATCTTCAGTTAAAGTTTAACATTACAGATTTGTTTCTTAACATTTGGTTTTCTGCATGTGTGCATTTGTTTTCT
Celera SNP ID:            hCV29132966
SNP Position Genomic:     13736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37970):
CCAAAGCTGAGGACCCTGAGCCGCTGGGCCCCTGGGGACAAGCGTGGAAAAAACTGAGGGGCAGGTTGTCATCTCACCCTGCTGACACTGGATGCCCTAC
R
AGGGAAGCAGCTCATGGCTGGGCCACCCGGGAGGAAGTAGACAGGCTGGGCAAGGAAGACCCTCAGACAGGTGGACTCACTGCAACCCAGGGCCCGCTGG
Celera SNP ID:            hCV25943307
SNP Position Genomic:     41075
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37971):
AGGAGCCAGTTAATGGCAAAGCTGGGGCTGACGTCCAGGTCATCTGCTTCCCGGCAGAGGGTTTCCTTCTGCCCTGCCGTGTCATGGTGTTGTGAGGTGC
Y
GAAATTTTATCACCAGTCTGAAACATAAATCCAAAACAATACACTGGAGAATTTTGAAAACTAATTACTTAGAGCCCATTTGGTTTTGCAAAAATATACT
Celera SNP ID:            hCV29132967
SNP Position Genomic:     26227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37972):
CAGAGGCAAAAGGTAGTGTGTGAGGTGCTGATTGGTGGGTCTAGGGATGGGCCATGGTTTTGGTGGCAAGATGGACGCTAGAAATGTAGGTTTGTAGTTG
W
CCACTTAGAGAGGGGCTTTGGACTCTGAGGAAGAGGGTGAAGAGAGAGGAAGTCCCTGGAACTTAAATTGAGCCTGTATTTGAGATGGAGGAAATCCAGA
Celera SNP ID:            hCV29132968
SNP Position Genomic:     30718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37973):
CAGCTGCCCACTCGGGCAAGAATCACTGGGTACCATGAGCAGCAGGTGTTCACCCAACTTCACGTGTACACCCCTAGTGACCGGGAGCGCACCACCTGAC
Y
GGGCGACACTCCTTCCCAAAGAGCCTCCTGGCAACACCCACGGCAGGAGCGCCACACCATCCCATCACCAGCACCCACTTACCCCCCTGGGGCTAAGATG
Celera SNP ID:            hCV29132969
SNP Position Genomic:     38028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:37974):
TAAGTCATTTTCATTGGTGTAGCAATTTTTGGATGTGCTAGAATTCTTCTGATTCTTTAAGGAATAGAGAAATTACTAACTATGGTTAAAGTAACTTAGT
Y
GGGTACCTTTAGAAGAGTAAAGACGAGTTTATTTATTTATAGTACTTTAATTAAATTTAGGGGAGAATAAGCAAATTAATGGTTAGTTATGGCATCTCCA
Celera SNP ID:            hCV25473916
SNP Position Genomic:     26637
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,16)   caucasian(C,31|T,9)   total(C,49|T,25)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37975):
TTCAGCAAGTACTCGTGGAATAAATGTCAAACTAATGGTCTGAGGAAATTTCTAAATCACAGTTAAAGCTAAAGCGATGAAGTTCAGCCCCATTCATGGT
G
TTGTTTTTCCTAACTAGCTTGTATTGTCTCACAATAGTTATCTTTTTCTCTGCCAAGCATTATGTATGTATATACAAAATGTATAGTCATTCTCCTCATT
Celera SNP ID:            hCV1259090
SNP Position Genomic:     22225
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,5)   total(G,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37976):
TTTTGTTGTGTTTTTAAAATACCACTTTTAGGGACCCATGGCAGTGTTCCTCCACTCCCATTCGCATCAAGTTCCCCTTGTTGCAACCTCAGTAACACCT
G
TTAATTATCCTTCATAACATTTATCACAGTTTGCAATTAAATAGATTTTCAAAAATACTTTAGGCCAAGCCGGGCAGATTGCTTGAGCCCAGGAATTCAA
Celera SNP ID:            hCV1259091
SNP Position Genomic:     20872
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,11)   total(G,1|-,11) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37977):
TAGGGGAATGAGGAAGACCAGTTTATTACGAAGGCCAAAATTTATTGTATCTATTTCTGTGTGACCTTTGATAACAAAAATCAAGAACTTTTGTTTCCCT
Y
TTAGGTGACAGGAGCCTGTTGCCTCTTTCTGGCTGGGAAAGTAGAAGAAACACCAAAAAAATGTAAAGATATCATCAAAACAGCTCGTAGTTTATTAAAT
Celera SNP ID:            hCV1259092
SNP Position Genomic:     20090
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,15)   caucasian(C,25|T,5)   total(C,38|T,20)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37978):
GTCCCCTGGGGGGCAAAATTGTCCCAGGTTTAAAAACCACTGCTCTGCGGCAGTGAGAATGAACAAATACTGCTTTATGCAACAACAGGAATGAATCCCA
Y
GAACTTAATATTGAGCAGAAGAAACCAAATGTAAAAGTGGTACTGTGTCATCGCACAGTCCTTCAAAAACAGGCAAAACAAATTGATGGAAATAGAGGTC
Celera SNP ID:            hCV1259093
SNP Position Genomic:     12163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37979):
AGTGATTTGTGCAGATGTGAATTAACCCAATCCCATGACTTGTCTAAGTGAAAGTGCCTACATGGAATAAACTGAAAAGGGGTGCTGGATGGAAGAGATG
S
TTAGTTTTAGAACATAAATCTTTGTCAAGATTAAGACAGGCCCAGGTTTTGCTGAAGAATGGAATCTGGACCAGCGTTAGAGGACCTGTATGTCTAGTGA
Celera SNP ID:            hCV15859117
SNP Position Genomic:     16800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37980):
TTGTGATTGATTTTTAGGAGGAAGTAATGGTTCTGGAGAGAATCTTACTGCAGACCATCAAGTTTGATTTACAGGTAGAACATCCATACCAGTTCCTACT
W
AAATATGCAAAGCAACTCAAAGGTAAGAAGAAAGTTTTCAGAAGAATTTTTTCATTCTGAAATCAAGTCTTTATAATTTGATGACACTCAAATTACGCTT
Celera SNP ID:            hCV15859150
SNP Position Genomic:     25446
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:37981):
AGTTTGAACTTTTTTTATTCCAATTAGCCATGTTCAAATCTTTTCACTTAGGCCAATATGGACCATAGTCATATTGCGCTTTGTATGAAAGTTTACTCCC
R
TGGTACCTTTCCCAGCATAAATTTGGGCTTATAATTGAGACTCAACAAAGACCAAGAAAGCAAAATGGAACAGAAGTTGTCTATGCCATATCACTCATTC
Celera SNP ID:            hCV15859136
SNP Position Genomic:     18438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37982):
TATGAAAGTTTACTCCCGTGGTACCTTTCCCAGCATAAATTTGGGCTTATAATTGAGACTCAACAAAGACCAAGAAAGCAAAATGGAACAGAAGTTGTCT
M
TGCCATATCACTCATTCTTCGGTTACTCCTCAAGACGTGCATTGTGTCTTACTCTCTGTGGGAGATAGAGTAGCTTTCAGTCCAGGATAAGTGGTATGAC
Celera SNP ID:            hCV15859137
SNP Position Genomic:     18521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37983):
GTGGTTTGCCCTGAAAGTTCAGGCTAGAAATAATTTTTGTCCGAGGCTGTTCACAGTGACTGCCGTCGCTGATTCTGGTGGTACCTGGATAATCCATTTT
Y
TTCTCATCATACTCAGGATCCCAGTTAACAATTGTGTATTTTCTTTTGTAACAGGTTGTTTCTCCCAAAGAAGAGAACAAAGCAGCAGGTAATTTCCTGT
Celera SNP ID:            hCV15859170
SNP Position Genomic:     28151
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37984):
GACGTCCAGGTCATCTGCTTCCCGGCAGAGGGTTTCCTTCTGCCCTGCCGTGTCATGGTGTTGTGAGGTGCTGAAATTTTATCACCAGTCTGAAACATAA
R
TCCAAAACAATACACTGGAGAATTTTGAAAACTAATTACTTAGAGCCCATTTGGTTTTGCAAAAATATACTTCCTGGTATAGTTTTAGAGCCTTAACACT
Celera SNP ID:            hCV16074774
SNP Position Genomic:     26256
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,38)   total(A,65|G,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): P|R90(G,5|A,175)   total(G,5|A,175)   (G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37985):
AGGTACCAGGCATGCTAAGCGTTCTCGTGAGGGTGTTCCATGTTGAGATGATTCTTCCATGTGTACCCTGAGTCCCAAGAATGGATTTTCCCAGATAGAC
R
TATGTGAGCAATATTTCAGAAGCATCATTAATTAAATTATCTAATAGTTTCCACTTTGTCCAAACACATACTTTTGGTAAACTAAAAATACACACCAGTG
Celera SNP ID:            hCV16189883
SNP Position Genomic:     27070
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,38|A,1449)   total(G,38|A,1449) 
SNP Type:                 INTRON


Context             (SEQ ID NO:37986):
AGACGGCCCCGCGACCGCGGCCCAACGCTTCTCCTCCCGCCCCGGACCCCGCCCCCGGGCCGCAGCCGCCGCCGTTCATTGGCCCACGCTTCGGACGCAT
R
GGCGCGGCCCCGCCCCGCCACCCAGCCGGCGTTCCGTTCGGGGTCCTCCCCAGCCAGTGGGCTGGCAGCTCCCGGGGGCAAGAGCGGCCGGCTCAGCCGC
Celera SNP ID:            hCV15884481
SNP Position Genomic:     5560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:37987):
AAGCCAGCCTGCCCCCATCCTGTGCCTGCCTTGGTTTCCTTTGGAGGACCTGGTTGAGTTCCAAACCAGTTTGAAACTTTGAAGCCTTGCTGCGTAGAAC
R
CACACAGGAACCCGGGGGCTTGGATTTGAAACCCTTTCCACTTCTGGCCTGTGATGAGACAGAGGCAGCTGGAGGAGCAGCGGCCTCACTGTCCACCTTG
Celera SNP ID:            hCV25988912
SNP Position Genomic:     36398
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,6)   caucasian(A,1|G,37)   total(A,3|G,43)
SNP Type:                 UTR 3


Context             (SEQ ID NO:37988):
TCCTGGGTCAAAGAGCAAATGCATGTGTAATTTTGTTGGATATCGTCAACTTCTCTGTGACAGTTGGACCATTTTGTACTCCCACCAGAAGCTTATAAGA
Y
CACCTGCTTCTCTATAGCTTTGCCAACAGAGCAAATTGTCAAACTTTGGGATTTTTGCCAATCCAGTAGGTGAGAATTGTATCTCAGTGTGATGTCTGAT
Celera SNP ID:            hCV15793854
SNP Position Genomic:     15963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37989):
CCCGCTGGAGATGAGTGGGCACTCGCCACGTGGAGGGGGTGTGAGTAGGCGTGGCCGTGCATGCATGTGGGATGTCATGGGGCACGTACGTAGGAGGAAG
R
GGGGCATGGGAGTGGGGACTGTGCTCAGGTGTGCACAGCCTGGAGGAACCGGAGCCCATCGGACTCACCAGTCTGCACCTGCAGAGGCTGGGCCTGGCAG
Celera SNP ID:            hCV26475787
SNP Position Genomic:     41268
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37990):
CTTAACTCTTCACAGTTGTAGAGACTGGGAGGTGTAAGATCAAGGTGCTGGCAGATTCTGTGTCTGGTAAGGGTTTGTTCCTCATAAAAGGGCTCCTTGC
Y
GCATCCTCAAATGGTGGAAGGGAGGAACAAGCCCCTTGGGCCTCTTTTATAAGGGCAGTAATCCCATTCAGAATCATTTCCCAAAGGCCTCACTTCTTCA
Celera SNP ID:            hCV1160989
SNP Position Genomic:     19467
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:37991):
AGACGGCTTTAGCTAACTATTACCAGCTGTGGAAAAAGGCAGGAGGTGGGTCCCTGAGGTGAGAGTAATAGCAGTTATAGGATACAGAGGCAAAAGGTAG
W
GTGTGAGGTGCTGATTGGTGGGTCTAGGGATGGGCCATGGTTTTGGTGGCAAGATGGACGCTAGAAATGTAGGTTTGTAGTTGTCCACTTAGAGAGGGGC
Celera SNP ID:            hCV8900148
SNP Position Genomic:     30634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)   P|R90(T,5|A,173)   total(A,173|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37992):
TTTCTCTTTCTCATAGGATTCTAACATTTTCAGAGAACCTTTTGGAAAGAACAAGCCTACTTCAATAAATGAAGGAGAATAAAGAAAATTCAAGCCCTTC
R
GTAACTTCAGCAAACCTGGACCACACAAAGCCATGTTGGTACTGGGATAAGAAAGACTTGGCTCATACACCCTCACAACTTGAAGGACTTGATCCAGCCA
Celera SNP ID:            hCV15859124
SNP Position Genomic:     17307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:37993):
GTTTCTAAAGGGTGTTAAAAGTATAAAACTTCAGCTTGCTAATTCTTGTACCAGAATTCTGACACCCTGAGATTCCCATCTCATTACTTTGCCACTAATA
Y
TGTTTACTTTACCATTGATTTTGTTGTTGTTGTTTGTCTTTTTGTTTTTCTACATTTAACTAAGAGTATAACCTGTAAAAGTTATTGGTTAGAGTCCTTA
Celera SNP ID:            hCV15859125
SNP Position Genomic:     17997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37994):
AGTTGACGTGCAGGTCTGTCAGAGGCAGGAAACAAACTATATATGACCTTGAAGGAAGAGTTGCATTTGAGCAGCGAGAGCAGAGGGGGAGGATGGAGCA
R
TAAGTTGGAAGTACGCAAGTGAGCAAAGGAATTGAGAATCAGGGGAAATGGAGAGGAGTCTTTCTGGAATGTGATGAATTGAAAGGCAATAGCTTCTGAT
Celera SNP ID:            hCV1259089
SNP Position Genomic:     29538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;(G,-|A,-)   no_pop(A,-|G,-)   P|R90(A,1|G,177)   total(G,177|A,1)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37995):
TTGGAGTTTTGGAGAGCCACGTAACGAGGGTGCGGCTAAGATGAGGAAAAGGCACTTCCGGGATTAGATTTCGTTCTTGCCCAGACATCGTCTTTACGGA
S
CCGCTCCTGGTGGTTGATTTGGTTTGTTATGAGAGAAATTGTTCTTTAGAAAATTGGAGCGTAAGTCTAGAGGTTATGTGACAGCTCCTAAACGATTGTC
Celera SNP ID:            hCV28035367
SNP Position Genomic:     6619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37996):
TACCTTTCCCAGCATAAATTTGGGCTTATAATTGAGACTCAACAAAGACCAAGAAAGCAAAATGGAACAGAAGTTGTCTATGCCATATCACTCATTCTTC
R
GTTACTCCTCAAGACGTGCATTGTGTCTTACTCTCTGTGGGAGATAGAGTAGCTTTCAGTCCAGGATAAGTGGTATGACATGCACAGAACACGTGATGGA
Celera SNP ID:            hCV15859144
SNP Position Genomic:     18542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:37997):
ATATTTTCACTACATTTCATGAATTGTTTATATTCTGCCTTGGAACCTAAAGGGACCAGGAGTTTGGCCAGTTACAGAAGGTAAAACAATTGAATATACT
Y
ACGATTTATCCGCTTGTGGACCGAGGTTCTTTTCCATTCCAGTTTCATCCCTACTGGGGTATTCCTAACACTGTTCCCCGTTCTGCCCCTTTCCCCTCAA
Celera SNP ID:            hCV27920790
SNP Position Genomic:     9843
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37998):
AGAAAGAAAAGGAAGCATGGGCAGTGCTGAGATGGATTCCACAGGACTGTGCTAGAAGGAAAAGGAAGCATGGGCAGTGCTGCTGAGATGGATTCCGCGG
R
ACTGTGTTTAGTTGTGCTCTTTCTTTTTCCACGGCAAAGCTTGCTGTTTAGGGAGTTAATTTCAGATTGGAATATGAGAAGAAAATTTATTTATGTGACT
Celera SNP ID:            hCV15859145
SNP Position Genomic:     19731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:37999):
ACAACCAGCTTTCAGAGTAGCCTCATCAGTGCCCTTGCAGTCTGACTGTGTACACTTGGTTCAGCTAATGTCTGAGAGTCCTGCACTGGGTTACTTTATA
M
TAGTGAGGACGTTAACCAGCCATATTGGCTCAATAAATAGCTTCGGTAAGGAGTTAATTTCCTTCTAGAAATCAGTGCCTATTTTTCCTGGAAACTCAAT
Celera SNP ID:            hCV27920791
SNP Position Genomic:     35655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:38000):
ACTCTTTTCCTTTTTGGCATTTTCTTTGTTTACATGACTTTTTTTTTAAGAAAGTTAAATTTTAAATAATTTATGAAGCTAGAGTTTGGGGGATTTATAT
R
TATAAAATTTCCTTCAAGCTTCTAGAGTATCGGAGTATTTGTGAATGATAAAAAGAAAGGTAGGGGAATGAGGAAGACCAGTTTATTACGAAGGCCAAAA
Celera SNP ID:            hCV15859146
SNP Position Genomic:     19929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38001):
CCTGGGGCTAAGATGGGGGGCGTGAGCCTTTCCCCTGAGAGCAAACGGGCAGCAAGAACTGCTCAGAATAGAGCCGCCAGCTAGGGAGAGGGACAGGGCG
R
CCATCTCCCTCCTCTTGCCTGCATCCCCAGCCCTGGGCCTGCATGAGACCTGCTGGGTAGGAAGACAGCCTCTCTGGGCTCTTCAGGTGGGGCTGAGCAG
Celera SNP ID:            hCV27920792
SNP Position Genomic:     38214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:38002):
AGGCAGGAAAATGAGGCAGAATTTTTTAAATGGACTAATAAACTTAGCCTTGGAGCCAGGTTTTCCATACATGGTGGTTCAGCGTAGGTCATGAGGAGGA
R
GAAGGGGTAGGATGTGGACCCACATCATTCATCCTTGTTTCCCACGCAAAAGCTCTTTGCTGTGTATTTGAGTGGTGCTGAACACGTGGTAGGTTTTTAA
Celera SNP ID:            hCV15859164
SNP Position Genomic:     25785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38003):
CTAAATTTAGACTGCCAGTTAAACGGAGCTTTCGCTAAGTCATCTGAGGTTAGGAACTATTTCTAAGAGCATTTCTTAAGGGTGGTCTTCTGTGTTTTTA
R
GAGAAACTTGGTGATGTTTGTGTATCTCGATCTAAATCGCTGTTTACAGATACCTAGCACAATGCCTTGCAGTTGTAGGTGCCCGCTAAAGGTTTGTATG
Celera SNP ID:            hCV12062250
SNP Position Genomic:     6847
SNP Source:               dbSNP
Population(Allele,Count): P|R90(G,81|A,89)   total(G,81|A,89)   no_pop(A,-|G,-)   (G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 167
Celera Gene:                 hCG22893 - 83000099462430
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY6P(11436760..11464627)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12327):
ATCTTGTAGATATTTTCACATATTTGTGAAATAATGTTATATACAAGGTAAGTCATTACGACATCATAGCAAAACTGGAAACAATGTAAATGTCTTTAAG
TAGAGGACTGGTTAAATGACTTGTGATATATCTATATTATGGACTATGACATGGCTATTAAAACAAATATATATATATACACTGGTAAGAAAAATATTCA
AGATGTGTGCTAAGTGTAAAAGGCAAGATACAGGGCCAGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGTCAGGCAGATCACGAG
GTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAAATACAAAAAATTATCCGGGTGTGGTGGCAGGCACCTGTAATCCC
AGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGCAACAGA
GAGAGATTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGCAAGATACAGAGTACTGTGCATATTAATGCCTTCATTTGTATAAAATAAGAAAA
TTACATATATGTTTTGTTTGTATATGCATAAAATAACTGGAAAGATAAGGGAAAAAATAATATTGGTTGTAAAATGGATGGTTTGGGGACAGGAAGGAGA
GGAAGACTTTTCCTAGAATGTCCTTTATACATTTGAAAATTTTTTTTTTTTTAGCAATAGCAAGGTTTATTGTTTATTGTGAAGAGCGAAAGGACAAAGC
TTCCACAGTGTGGAAGGGGACCCGAGCAGATTGCCCTACATTTGAAATTTTTAAACTGTCGTTGTGTTAACTGTTGAATTAAAATTTAAGTGTTTGGTCT
GAAAGTATTACTTCTGTTTCTTTGAATCTYGAGGTACTCTAACATTTAATGTTTATCATATATTCAGATGAGTATGGAATAAGATCATGTATCATCTATG
TTATTTAACTATGTCCATATTGTAGTTTTCCAAGCTAAATTATGACAATTATACTCTATATCTGTGGTTTTTAAAAAAATGCTACTGTCAGAGCACATCA
CATTATGTATATAGTAAGCACTTTGTAGATACCTGCCAAATTTATTTAAATACCTTACATTTGGCTTCCCTACCAGAGCAGTGCCTGCAGTAGAACAAAT
TGAGCTTATTGTCTAAAACTCTTAGTAATTGTACAGTTACTCAGGAAGTCACTGGAAGAGGAAACGACAATGGTCCTAAAAATTAGACGAATTATAGCAA
AGTATGACTTTTTAAAATTTTACTCAAAGCAGTGGGAGAATATAATACATTTTTAAAGGATTATTGGCTGGATGCAGTGGCTCACACTTGTAATCCCAGC
ACTTTGGGAGGCCGAGGTGGGAGGATCAGTTGAAGCCAAGAGTTCAAGACCAGCCTGGATAACATGGCAAGACTCCATCCCTACAAAATTTTTTAGAGCT
GGGCGTGGTAGCTCACACCTGTAATCCCAGCATTTTGGGAGGCCAAGGCGGGTGGATCACTTGAAGCCAGGAGTTTCAGACCAACCTGACCAACATGGTG
AAACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGTGCACCTGTAATACCAGCTATTTGCATGACTGAGGCACAAAAATTGCTTGA
ACTGGGGAGGTGGAGGTTACAGTGAGCCGAGATTGCACCACTGCACCCCAGCCTGGGTGACAGAGCGAGACCCCGTTACGGCGAGCTGAGATCGCACCAC
TGCACTCCTGCCTGGGTGACAGAGCAAGACCCTGTTTCACATGGCGGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCGCCG
TAACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNTGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCTCACCTGGCCAGTACTTTTTTTA
AAAAAAATTAGCTGGGTGTGGTAGCATGCACCTGTGGTTTCAGCTACTTGAAAGGCTGAAGCAGGAGAATCACTTGATCTCAGGAGTTTGAGGCTGCAGT
GAGCCATGTTCAAGCCACTACATTCCAGCCTGGGTGACAGAGCAAGACTTGTGTCAAAAAAAAAAAAAAAAGAATTATTAGTAAATGGTTAAAATTTTTA
GTTTTGAAGTTGAAAGATTAAACTTGTTATCTTAGAGATTGACTGATAGACTCTGTCACCAATCATATTAAAAGATCAGCAAATAAATTTTAGTGTCTAC
TATGACCCAGTTTTATACTAGGCCCTGAGGATACATTGGTGAGCTAAAACAGAGGTAGTTTTACACTCATTGAACATACAGCCCAGTGAGGGAGACAGAC
ATTAAATAGTAATGTTCATGTTTGATTAATTACAAATGAATTAAATGCTCTAACAAAAAGCAACAGATTTTCTTATAGTGTGTATAAAAGAAATCTGATG
TAGATATATGGTATCAGGGAAGATGTAGTGCTTCTGGACCTAAAAAAAAAAAAAACAGAGGCTGTGCAGAGTCCACATCATGCTGTCCATGTTAGGTATT
TCAGTCATTTCCAGATTTATCAATGATCTATTGCTGTGTAACAAACCACACCCAAACTTGGCAGCTTAAAACAACTCCACAATTCTGTGAGTTCACTGGG
TGATTCTTCTGCTGGTCTTGCCTGTGGCGGCTGCATTCAGCTGGGGGCTGAGCTGGGGGGCTGGTCTTCCCTATTAGGCCTCTTTGGTCTGGTGGTCCCA
GGATTCTCAGAAGGTAGACTGAAGCTGCAAGGCTTCTTGAGGCCTAGGCTCTAGAACTTGCACATCACCACTGTTGGTTAAGGCAAGTGAGAAGGCTAGT
AGTCTAGATTCAAGACTGAGGAGATAGATTCCACCTCTTGGTGGATGGAATTTGTGGCCATATTTTTCAATTTACCAGTCTATCAAGTAACTAATTAATA
AATAGTTATTTACTAAGCATTGTTTTAAGAACTGGAAATCAAACATGAATAAGAGACAGTAATATATAAGTTGCCTTTTTTCCTTTTCTGTGGAGTACAT
GGTATTTGCTCATTGTCATTCCATTTTCCATAGAGATCAATATTTGTGAATGTTTTTTTCCATAGTAATGAATGATGAAATGAATAAAATATAAACAGTA
GAGTCTTAACCTAATTAGAGAAGAGGAGGAAAATCCCTGGGGATTATAAGTAATTTTTAGTCTTTCCAAATTTGCATAAAGAAACATATTTTGTAGTCAG
AAAAGAATTAGTGCTATGCTGGTGTAGCCATGCAGTTATAAATGATATCTATAAGCACAAAAATTAATTTAGTAGTGATAATCTTAGGGAACTCAAATTT
TTCTTTCTAGTTATTATCACTTTGCTATCAGGTTTATTTTAGCTACTTTTCTTTTCTTTCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCA
CCCAGGCCGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCCGCCTCCTGAGTTCAAGCAACTCTCCTCCCTCAGCCTCCCGAGTAGCTGAGATTA
CAGGCATGCACCACCATGCCTGACTAATTTTTGTATTTTTAGTAGAAGTGGGTTTTCACCATGTTGGCCAGGCTGAGCTTGAACTCCTAACCTCAAGTGA
TCCACCCGCCTCAGCCTCCCAAAGTACTGGGATTATAGGAATGAGCCACTGTACCCCACCTCTTTTAGCTACCTTTTAAAGGTGGTTTCTTCCTAGCTCA
AACTTTACCCTTTTGAATAATTCTGAATTAATGAATAAACATTATATGTAAAACTAATAACAAAGACATTAGCTACCTGGAATTTTGTTTTTGCAGGAAA
CATCCCATAACAACAAAAGTATTTGATTTGCTTAGAGAGTTATTTTATTAGCAGTAATAGCATCTAACTTTCCAATTTTTTTTTAAATCTAAGAATGATA
AGAATGCTGCTTTTCTTCTGATGGAAAGTGACAGGCTAATCATCAGTTTACCCAGAGTGAAGTGGACGGAAGCAGCACTGACCATGGCGTCTCAGCTTCA
AGAAAAATGTATTGCATTTATTGTAGACAACTTCTCCAAGATTATTCAGAGTGAAAATTTTGCTCTTCTTTTACAGGTACTATGCCTAAATTATATCCTA
TATTTAGTTCCATCTTTGTGTTCTGATTTCAATTATGTAAGAGCTTTTAAATGCAGGTTGCTTTTGATTAAATTAATGTGATTTAAATAAACTCCATAGC
AGATGGCATGTTTACATAGGATTTAAGGCAGTGATGGACAGGATATTTGGCTCACAAGATGAGAAAGGCGAGAGGGACAGGTTTGAGTGCCCTGGCAAGG
CACAGTGTAATTCTGGCCAACTCTAGCCCTCCCTCAGCAAGCCACATTTTAGAAACCAAAGTCATAAAGGTACTGTTTTGGCCAGTAATACAATTATGAT
CCATGCAGAATTCTCTGTCTTATTGGGAAGCTACTTTCTCTAAAATTATTCACAGAATAACTCCTATTGTTTATTTCTAGGTTCTGTATTTAGGGCTATG
TTGGCTTTTAAAAACTGTGTGTCCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCATATGCACCCTAGAACTTAAAGTATAATAAAA
ATAAATAAATAAAAATAAAAGCTGCGTGCATATGCATATATGCGAATTTTTTAACAAAGGGAAAAAATACGATTTCTGGTTGACTTCATACAGCTAGTTA
TAATGATCTGTTACGCCAGACTTTCACATTTCTTGTGCATTTTATATGTATTCCTCTTAAATATTAATTTCTGTGTTTTATAGTCACAAGCAATGAGCAG
CACAGCCGATCTGTTGGACACAATTTTAAAAGCAATTGAAGAAAATATCACCACTGAAAATAGCTGCTCTCTTCTTATGGCTCTGGACACACTGCTGAAC
TCTGACAGTACAAAGGAAATGGTACTGAATGTAATGAAATTTATTAAAATAATGCAATATTTGAACTAAGATTTTTAGATGTATGTGCATTTTAAATGTT
GCAGGGTCATTGAAGCTAGGCAGTGGATACCTAGGGGTGGATTAAGGTCTCTACTTTTGTATATGTTTGGAATTTTTTATAATACTAAATTTTAAAAATT
CCGTTTGTCTCCAAATGGACTTCTTATAAAAGTTTAGAAATTGRCAGTTTGGCTGGGTAATTTTAAATTTAGTGTGATATTTAGCAACATTATTTGGCAC
AGCATAACTCTCGTATTTCTCCCTGGTCCTACAGTAAATTTTCTAGATATAAAATGTATATTTTAGATATAAATGTATATTTTAGAGTTTTTAATCATCA
GTGTCTTTTATTTTTATAATCTTAATTTTTCTCTTCAAAAAATCATATTTTAAAATTAGGCTGGGAAGCAAAATTAAAATATTTATTTTTAAATACAATT
AATCAGTGGCCATTAATTAGGTAATTACAAATTATTGGCATTCTGTATTTGTTCGACAAGAATGGTTTTTAAAATGTATCATATTTATTACTATTCCATA
GAGCATTTGACCTTGTAATGTCATAGTTGATATGAAAAGGCTGTGGAAGGTGTTCATATCAAGGGCATTGGTGTTTTAAAATAACATTTGGTTGAAAAGA
TGAGATTTTTTAGCTTTGTGTTCATTTATAAAATTTTGTTATTAATAAGTCTTCATAAATAACATGTACCCAACGATCTTAAAAATCTAAATGATGACAT
CATTGATCTAGCTTAGGAGTAAGTAGATTCTGAAAGGAATAATGACTGGTTGCTATGACAATGTGGCTCTCACCAGCTGCTGATTTGTTGCTTGAACACA
GGGTTTTACGTGCAAGATCCAGGCTCTGCGTGATAAGCTGTGGATCTTCCTGGTTCAGTCTTTCTATGCTGTTCGTCACACAGAAAGCTGGAAGCTGATG
AGCACAGATGATCAACAGAAAATCCAAGCAGGTACGTTAGCCTTGAGATATTTCAATTCTTATGTAATGATCATTGTGACMGCAGATATTTTGAGGGCAT
TCTGRTAAGTGAAAAGGTTAACATTTGTGTGCTTCTGTTGGATAATAGGATAACTGAAACTGGTGCTCATATGTTTAGGCAGTTTTAATAAATCATGCTT
TTTAGCTGTTCTTAGAAAATGAAACTCATTTCCTTTATATATATATATGTTTCTAATCTTACTATACATTAGCAACAATGTTCTAGGCAAATTTGCTTAC
AAGCATTCTTGTGAAGAGATTAAAAGTGTAAGAAAATGTAACCCACATAGAACAGAGTATCGAACATACTTTTTCCTCCTTTTTAAATATGTTTTGTCAT
AAAGCTTTTCCATCTTTTTCATAAGACACCCTTTCTTGTGGTTTTGCCTGGAATAGATGGCTTTATTTCACAACTGATTGGTTCAATGATGTGGAGTGTG
CTATTGCGGACTGTCCCTCAGGAGCTGCACAGTGGTCTGTGACATTTAATAGGTATCATCTGAAACATTAGCATTAAACAAAAGATGTATATRGCTCAGA
ACATGTGTTTAAAAAAAATATCAAAATAAAAATTTGAGGGTGTGGAACTGAAAATGTCTTCATGACTATTTTTGGGTTAAAGCAGGTGCCTTAGATAAAA
TATTGGCATATTCAGTGTGTATACTTTTTAAAACATTTTAAGAGACTGAATTTTATGAAGCAAACATTTTAGTACTGTAAACATGGAAGCCATGTCTGTT
AAAATATATTTTGAGAATGCATAAATATTTAAATTCTTTAGTGGTATCATCAGAATAGGATCTGCTTTTACATTATAAGCATTACATGATAGTGTAGCTA
GATGTGATATGAAGAGCACTTTTCAAAGAAATTCCATTATTTTAAACAAAAATTATGAGAAGAATCTCTTAGAAATTGGACATTTTTTTCCTTGTGACTA
TTTCTGTGCTGATTTTTAAATGATGGTTTATTTTTACAAAATTTATGTAATGTAAAGTAACAAGATAAGATCAGCATTCCTTCAGTAGGTGTCTTCAGCT
CTCTTCCGATTAGTAGCAAACTTTGGTTTTCTCTATTTTAGAGGATTTCATAGTTAAGTTGAGCTTCTGTGTTCTTTAATTCTTCAAAGTGCTAATTAAA
AATACATGTAAATACCCATATTTAAATAAAATGTTATTGGTAATCCAACTATCCAGCTAATCCAACAATCCTTTTTGAATTGTCAAAAAGGACTTTTCGT
TCTGTTACATTATATCAGTGTAATAATAATGTTTTAATCTTAAATAAGTTGAATTATAATGAGTTCTGACTTATGCATAATTACTTCATTGGGAAACCCA
GATAAAGGAATGGTTCTGGGTTGTCTGTTACTACATTTCGTATGTCATAGTTGAGTTACTGACCTTTGGGAGAAATTTTTTAGTTTAATTTCTTCCTGTG
TATTATTGTGCAGAGTCATTTGCTTACTGCAAATCAGTCCTATAGTGCCATTTTCAGGATCCTGCTTTGTCTTATAGCACATATCCTATAGAATAGAGAT
CATGGAAGATGCATGGTAGTTACAGATAATTTAATGTATTTTTTATTAGCTGATTTAATAAAAATCAAATAATTTTCAGAGATTGTATATATTTCTTCAA
AATATGTCTTAAATCCCAGTAACCTTCAAAAGAAATACATTTGCTAAACTATATTTGTAGCTCTCATATAATTATTCCAGCCTACATATTTTCCTGACAT
TCAAATTCTTATTTGAAGAGCATAGACATGAGTTCTGCAATAAATTCCCATATAAACCTAACTTATAAAATGAATTTTTATTTAATTATAAAAAGAATAT
TTTGAAGATKCTTATTTTATTTTCAGTAGAACCTTATTTTTTTATTTTCTCTTTCCTCCTTCCTCATTATATATCTGCAAAACCAGAAAATATTTTTAAT
TTCAAGAGTATTTTTACATTTAGTATAAACATTTTCTCATATTTAATAGCTTGTAGAATGTTACATTTGCTATAATCTGTAATTTTTTGTAATTTGGAGA
ACTAAATGAAACCAATTATCTAAAATGTCACAGTTTGAGAAAATTCTCATGTTTTTCTAAATGTATGAATCTTCTCTGTGAGATTGTACAGTTCTTATTT
ATTAATTTTAATAACATAAAACCTAGGGGCCAGAGAATAAGATAGAAAATGAGGTTCTTTTAAAAAAATTCTAAAATATAATAGGGAGTTGTTTTGTATA
CTAGATTGGTTTCAGGTTTATTAAGTTATTTCCATCAAAATATAACCTTTTTTCTACTGACATACTATTTTTCCTTTACTTCTAAGGTAATAATAATGTT
CCTTATAAAAACAAATTGCTGTTTCTTTCTACAGCTGCATTTGACAAAGGTGATGATCGAAGACTTGGCAAAAAGCCTATATTCAGTAGCTCGCAGGTAA
ACTTTCTAAATTTTATAGGTACAAATGAAAAAGATAACAAATTATTTAAAGCTTATTATTTTATATTTCAGAAAAAGTTTTAAAAATCTATTCATTAATT
GAAGCTATTTCTTAATGGAAAATTTTTCTTTTTCTAAATCAAGTGAACATTTAATAAATGTTTTAAAGTGAATTTTTTATATCCAGTTGGCACTGGAAGT
ATCTACCTTTTTCATTTCCTTGAAAACCTTTTTGGCAGCTAACGTATTAGAGCTATTTCAGTCTATTAGAAGTTGTTTAGAACTCTAGACCTAATTCAAT
GTCTRTTTTTCTAATTAGCCTACTTCTTAAAAAAGAAGATTTTAGGCTAGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGA
TGGATCACCTGAGGTCAGGAGTTCGAGAGCAGCCAGGCCAACATGGTGAAACCCCATCTTTACTAAATACACAAAAATTAGCCAGGCATGGTGGTGCACA
CCTGTAATCCCAGCTACTCGGGAGGCTGAGGGAGGAGAATTGCTTGTACCCGGGAGGCAGAGGTTGCAGTGTGATGAGATTGCACCATTGCACTCCAGCC
TGGGTGACAAGAGCGAAACTCCATCTCAAACAAAAAAAAAGATTTTAATTCACATAATGTATTTTTGGTGTTTTTGAAAAAAGCAATTAGTACTAAGAGT
ACAACTGTGTTTTACTTTAAAAGTTACTTGGTATACTTTTATGAGGTATCTAAAGTAGTTGAATTCTTAGAAGGTAGTATTGTGGTTGCTGAAAACTAGA
GGGAGGGAGAAAGGGGGAGTTGTTCAATGAGTACAGAGTTTCCATTTTGCAAGATGAAAAGTTTTCTGTTGTGCAACGAAGTGCATGCAGCTAACATTAC
TACACTGTTACTGAAGTGTATTAAAGAGTACTTAAGTGTATTAAATGGTTAAGATGGTAGATTTCATGTTTTGTGTGTTGTTTGTTTGTTTTTGACCACC
CACAAGGTTATTTGGTGTTTTTCTTATAACCTGAAATAAATTTGTCTTCCCAAAAATGTTATTAATTATGGTTAGGGTTCCTAGCTGACTTACAGATGTT
CACTTAACCAATAATATATTCAAAGTACAAAATTATTCTAACCTCTGTGTGGTACAATGATAGACATACATTGAGAGTTCCAGTTTGGAATGCAATGAAC
GTATTGCCCTAGCAGAGTGGAATAGGAAATCCTTTTTTCTTCCTCATCAGCCAGTTGATAGGAACTAATGCAGCTCCAAGCCACAACTGAGAGTTGTCAT
GGCTTGAGGAAGAGGTCAAGCTCCAAATGTCTTGAGTGAGAAACTGGGAGACTGGAGTTTTTGCCAATTAACCTCTTAGGATTGTTTCCAAAGTGGGTTT
CACAAGATACGAGCTCCATCTAGCATCAACTATAAGTTGGAGAGTAGCTACACACCATAGCTCCTCTTTTTATTTTTTGAGACGGAGTTTCGCTCTTGTT
GCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACCACAACCTCCGCCTCCCAGGTTCAAGCAGTTCTCCTCCCTCAGCCTCCCRAATAGCTGGGATT
ACAGGAATGTGCCACCATGCCTGCCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGTTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGA
TCTGCCCGCCTCGGCCTCCCAAAGTSCTGGGATTGCAGGCGTGAGCCACCRCGCCCARCCCCATAGCAACTCTTTATAGACCGACGATGCATATTATACC
TTGAAAGTGCTGAGAAACACTAAAGAATACTTTTGAATTGTTGCATCCAAAATTTTCCCCAATGTTATAGCTATGGAATACGACTAGGGTCCCGACAACC
CTTTTAAAGCATATTATACGATTCCACAGAACATACTCTAGGAAATGGTGCACTAGGACATTTTTTTCTGTGTTYCCTGTTATCCCCGTGTTTTTTAAAG
GCCCCCAGGAATTAGCCTACTTGCCTTCCTATCCCCTRCTACTCACCAGGCTTTTCTGCCTTCCTTGCCTTACTGCAGAATAGAACAAAGTTTCATTATT
TTTCCTCATCCTCCTGACTTTGTGGTTGTCTAAGTCTTTTTTCTGTTAAGAACAATGGGAAGGAAGGAAGTTTCCCCCAGAAAGACAGTGATATGCTGAA
ATGGATGCTGGACACAAAATCAAAAGAGTTCAAATTTTGGCTTTGCATTTATTATGTGTCATCTGTGAGTCTTAGTTTGCTTATTTATAAAATGGAGTAA
TAAAACCTAGCAGGATTATTGTGAAAATTAGGTGAAATAATTTATGTGCAATTATCTGGTATGTAGTAAGTGCTCAATAAATGTGGAGCAAATAAATGTG
TTTTCCAAACAGGGATGAGCTATCTAGGAGGTGGGAGAAAGTTAATCAGATAAGACAGGGAAAGAGGTTTTTTGTTTGTTTGTTTTGTTGTGGTGGTGGT
TGTTGTTGCCTGCTTCATTTTTCCTTCATAGAGCGATTTAAGAAGAATGCTTAGTACCAAAATACTTAAGGATAAAATATATGATATCTGGGATTTGCTT
CAAAATAAAATGGGGGTGGGTGTGTATGAAATAAAATTGGAATTAATAATGAATTAATAATTTTTAGAGCTGGCTATTAGGTACGTGAGGATTCATTATA
CTCTTCTGTCCTCTTATGATTATGTTTAATTTTTCCTATTTTTTGAGACAGGGTCTCACTCTGTCACCCAGGCTGGAGTGGAGTGACACAATCACAACTC
ACTGCAGCCYTGACCTTCTGGGCTCAAGGGATCCTTCCACCTCTGCTTCCTGAATAGCAGGCATAGGCCCAAGCTACCATGCCTGGCTAATGTTTGTATT
TTTTTTTGTAGAGGYGGGGTTTTGCCATGTTGCCTAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCGCACCTGGCCTATTGTGAAATTTTTCAAGGC
ATACAGCTATACCATATACTATATAGATTTCACCCATAGCGTAATACTTCAAGATGCATAAATTCAAGGATAGAATAAATTAAGTAGATTCAGTGTTAAG
GGTGGGAAGGAGTTCTAAAAGCAGAAGTCAGCCTGGTTTTAGGTATTAAAAATAGAGAAATGTTTTTTTTTTGAGCTAAGATTTGAGCAAGAAAACAAAA
AATGAGGACCAAGCCTATCTGAACGTTTTAAATGTTAGAATCCTAGAAGACTGCTGTGAATAGGACCAGTCTCTACGCTGTGGACAGGCATAAGCTGAGA
CCCAAAGCTGTTAATAATTTCTGAAATGTCCCAGGCTGGTTAGAAGCAAAACTAGGACAAGAATCTAGTGGTTGTTTTATCACCGTGCTTTCCTTTTTTC
TAAATTTAACCAAGTTATTTATTGTGTATTTTTTTGTGTGCACCCACATTCATATATGTTATTTTATCTTTGACAGCTTTTAATGTAATTGGAAGCTTTT
CATATTTAAAAATAGACCTTAAACTGCATATCAAAATATGCAATATATGCCCAGCATTAACAACATTGATTACGTTTTTTGTTTGTTTGTTTTTTGAGTA
TCCAATATGTGACATGGTGCCGAGGGATACAAAAGATGAAGAGAGCACAGGCTCTGCCTCAGACCTCTACAATCTCATACAGCTTCCAAAGGAAAAAAAA
AACCGTTTGCATACTTACATAAAGAATGACAATAGGACGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTAGGAGGCTGAGGTGGGTGGATCACGA
GGTCAAGAGATCAAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGCATGCCTGTAGTCCCA
GCTACTCGGGAGGCTGAGGCAGGGGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGTACTCCAGCCTGGCAACAGAGC
AAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGAATGACAATATCGGCCGGGCACAGTGGCTCATGCCTGTGATCCTAGCACTTTGGGAGGC
CGAGGCGGGTGGATTGCCTGAGCTCAGGAGTTCAAGATCAGCCTGGGCAACACGGTGAAACCCTCTCTCTACTAAAATACAAAAAAATTAGCCAAGTGTG
GTGGCATGTGCCTATAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGATTGCTTGAACCCAGGAGGCAGAAGTTGCAGTGAGCCAAGACTGGGCCACTGC
ACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAGAAAGAAAAAAGAAAGAAAAAAAAGAATGACAATATGATCTTAAAATATTATCCTAGAA
TTTCTACCAACTTAAAAATTTTCTTTGTTCCCTTTCATATCAAGGTTGGTTCTAAGGAAAATGATGAAGTAGGTATGTTTATCTTCAGTGCCATTTTATT
TGTCCCTTTTTAGCCTATTTCAGCTATTTTTAGGATCCCTTTTCCTTCGCTTCCTATAGCCAGCCAGTGCTATACTAGTATCTTATTTGTACAAAAACCA
AGCTTTGCAGATGTAGTGTATTGATGTGCTGTGCTTCCTAGGAGCTTTTAAAAAAAAAWTTTTTTAAATAAGGACTCCAAGAAGTAAAGGATTCTTCCCA
CAGAGGATTAAGTCTTTAATGATAAAATTTCTGGCACTTGGAATAAGGTTGAAGAGAGAATTTTTATTGAAAATCTTTATAATGTCCCTCAAATTATGCT
ATATAGATGACTTCGGTGTGAGGTTAAAAAATGAGCTCAAGTCCTGATTCCATCCCTCATCAGCCTGAGACCTGGGGTAAATCACATACCTACTTTAATC
CTCAATTTCTTGTCTAAGAAATAGAAACAGCCACAGGAGCTAGTTCATGGGACTGTTGTGAGGATTAAGTGGGATGATGTATACAAAAGATGTAGTATAA
AACATGGGAGTAAGCCTTCTAAAAAATCATGGATATTATCATTCCTCAGGGCATCCTGAATCTTTATAGACATTAATCTCTATCAAAACTTCATACATTA
AAAAAGCYTTCCTTTTATTTATTTATTTACTTTAATAGATAGAATAGCATGCCTTTAAAATAAACACTTATGCTGTATTTCAGATTTGATTACGGTAATC
TAAGACAAAGTTTTGATCCAAATGATCAAAGACAGTTCAAGCTTTGACCTTAAATCATAATATGAACTTTTCTATTTTTTTTCTTTGAAAGACTGGCTTT
TGGAAACATAAAATATTATATGTTAAAGATTTCAGTCAAATTACAAAGTATTTTTTTTCTTTTTTATAGCAAAGGAAACAAGTTTCTGACTCTGGTGATA
TAAAAATCAAATCTTGGAGGGGAAATAACAAGAAAGAGTGTTGGAGTTATCTCTCTACTAATAAAAAGATGAAATCTGATGGATTAGGAGCATCTGGACA
TTCGTCAAGTACCAATAGAAATAGTATAAATAAAACTCTGAAGCAAGATGATGTAAAGGAAAAAGATGGTACAAAAATAGCATCTAAGATTACAAAAGAA
CTAAAAACTGGGGGAAAAAATGTTTCTGGAAAGCCCAAAACTGTAACAAAATCCAAAACAGAAAATGGTGATAAGGCACGGTTGGAAAACATGTCACCTA
GACAAGTTGTAGAAAGATCAGCAACAGCAGCAGCAGCAGCAACTGGACAGAAGAATTTACTAAATGGAAAAGGAGTGAGAAATCAGGAAGGGCAAATTTC
AGGTGCCAGACCCAAGGTACTCACAGGAAACTTAAATGTGCAAGCCAAAGCAAAGCCTTTGAAGAAAGCTACAGGGAAGGATTCACCATGCCTCAGCATC
GCAGGACCCTCCAGCAGATCCACAGATTCAAGTATGGAATTCTCAATTTCCACTGAATGTCTGGATGAACCGAAAGAAAATGGATCAACAGAAGAAGAAA
AGCCTTCTGGACATAAACTATCCTTTTGTGATTCTCCAGGACAGATGATGAAAAACAGTGTAGATAGTGTCAAAAATTCCACTGTAGGTGGGTTTTAGCA
CTGTAATTTTTAATATCTCCTGACAGTTAAATTTCCTTCAAAAAACAAAAACCTAAACCTGTATTTGGGCTTTTATTTAGTTTCAGATGCCAACAGAATA
CTTATGTATATGTACTTATGCAAACAGAGAAAATGGTAGTCCTTCCCACTTTAATATTTCATTTTGTTTATAGTGTCTAACCAGTAAACTTACACGTTTG
TTACATATTTAATGTATTCTCTCTTATGACTCACTTTTTCTTAATTTATAGCCATAAAATCTCGACCTGTTTCAAGAGTTACCAATGGAACTTCCAATAA
AAAAAGTATTCRTGAACAAGACACTAATGTAAATAACAGGTAGGTCTTCATTCAGTGTTTTAACCTATCTGTTAGCTTTCTCTCAAAGTTAATTATATAC
TAACTGCTAGCTAAATATTTTTAAAATATCTTTTATTTTTTGTTAATGTATTTACATAATATTTTAACACAGTTTTTTATTTATTAAAAGAAATTAGTAT
ATGCAAAATGATTGAGGCACAATATTTAAAAGAATATATTAATGTGTACTATGGCATATGATTATACCTTGCTTTATTATACTTGATCTACAGTTTTATA
AACTTAAAAAGACTTATGAGCATATGATTTTTCTATTTTCAGGAGAGATGTATTTTTTATTTCTTGAAAAAAACTGTTTCAGGTATTGGTCTTTTAAAAA
GTTCATGTTTTGGAATCTAAGTGTAATACTGAATGCAAATAATTTTTTTTAGTGTACTAAAGAAAGTCAGTGGCAAAGGATGTAGTGAGCCAGTACCACA
GGCAATTTTGAAGAAAAGAGGAACTAGCAATGGATGTACTGCAGCTCAGCAGAGGACAAAGAGTACCCCATCTAATCTTACTAAAACTCAAGGTAAAGCT
GAAATAGTACTGGATATCTTGAAATTATTTCCTTGTGTAAACTGGATAAGCCAAACTCTGATTTGCAACTTCAGTAGCAAATAAGCAAAATATGGTTTTA
CTCATTTTATGTTTGTTTCACACCATAGAGATGAGATTGTAAACTTTTACTTTTCAGACAGGTGTTTTGGGATGTAGGTTTGGTTTTTGTTGTTCTGTTG
TTGTTATTGTTGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTACAGTGGCATGATCACACTGCAGTCCTCCTTCCTCTSCCTCCCAAAGTGCTGGG
ATTACAGGCATGAGTCAACACACCTGGCCTCTGTTTGGTTTTCATTGTCTTTTRTGAGAGAAATAATTAAGGGAGTCACTAATTTATCTGCATTTCTGGT
CCTTTTAAATATTATGCCCATGTTTCTTGAAAGTTCCATTGATAATTATAGGAATTTCATTTGTAAAACTGGCACTAAAGAGCTCTATAAAAAGTAATAG
TGCAGGCTAGGCGCGGTGGCTCACGCCTGTAATCCAAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCA
ATATGGTGAAACCCCATCTCTACTAAAAACACAAAAATTAGCCAGGTGTGGTGGTGTGTGCTTGTTGTCCCAGCTACTTGGGAGGCTGAGACAGGAGAAC
TGCTTGAACCTGGGAGGCGGAGGTTGCAGTCAGCTGAGATCTTGCCTCTATACTCCAGGCTGGGCGACAGAGCGAGACTCTATCTCAAAAAAAAAAAAAA
AATTGATAATGATAATARTAGTGCAGTCTAAACAACTATAATACATAAGGAGGAAGAATTTCCCTTCCAGAATCTGTGTGAGTCCATTGTTTTTCAGTGT
TCTGAAAACGAAAAGAGTACTGATCAGATTGCATAATTTGCTAAAATAATAACCAATTTTCAAAATTGCTTTTATGTATCAAGCATTAACATATGTAAAA
GCAGTTCKTAAAATGCTAAAAACAGTTTTGATTTAGATTATGAATTATTACTGAAAATCAATTAAAAATAAGGTAGAGAAAACATTTTCATATCCTAGTA
ATAACTAAATGTTAAACATTTTAAAATATTTGATAATTCTGTTTGGCAGATTTGAATGTCCAAAATATCATCTCTAAGACTTTCACCAGTATAAACAAAT
GGATTCCCCAAATTAATCCCCTTCTTTCCAGTCAGCAGTTTTAGTTTCCACTGGAGATCTAAGTTGTTAATCCTAATGAGCTACAGTAATAATAATCTGG
TTATGACAAGTAAATTGGTTTTATTCATGTTTGAAGAAAACAACTGCAACAATTTTAACAGTTCTATTTATTTTATATTTAGCTTGATTCTCCTTTTCAG
CTATGTAGAGCACACTATTTTTTTTTCTCCAAAAACTTCAAAGGGAAGACCTTTCTTGCTCCTTTGATAAAAGAAAATCCGATTTTTTCACCCTCATATA
TTTTTGCAAATCCAGTTTTGGCATAAAAATCAAGTCTSTTTACTTGAGGAAGAGAGATCCTATTTTAGTAATTTTTACTGGGACCCTGGAGTAGTCCCTC
TATATTTTTAATTGAAAAAATTTTTTTATTTTATCATGTAACTGATTCCTAATCTGTGCTTGTCCATTTGATCATAGATATGTTACCCTTCCATTGTGTT
CTTGATTTTATTTTTTCTGAAGTAATTTTAAAACAAATTACTAAATTTTACTCACAAATTGGAGGTGATATTACATTACTGAATATACCCTCTTACTTTT
CTTAGGATCCCAAGGAGAGTCACCAAACTCAGTAAAATCTTCAGTCTCTTCAAGGCAGTCTGATGAAAATGTGGCAAAGTTGGACCACAATACAACTACA
GAGAAACAAGCACCTAAGAGAAAAATGGTCAAGCAAGTACACACAGCTTTGCCTAAGGTTAATGCAAAAATAGTGGCAATGCCTAAAAATCTAAATCAGT
CAAARAAAGGTGAAACTTTGAATAATAAAGATTCAAAACAGAAAATGCCTCCTGGACAGGTTATATCAAAAACTCAGCCTTCCTCCCAAAGACCTTTAAA
ACATGAAACATCTACTGTCCAAAAAAGTATGTTTCRTGATGTGCGTGATAATAACAACAAGGACAGTGTTTCTGAACAGAAGCCTCACAAACCTCTCATT
AATCTTGCATCTGAAATAAGTGATGCAGAAGCACTCCAGTCATCCTGCAGGCCTGACCCACAAAAGCCATTAAACGATCAAGAAAAAGAGAAGTTGGCRT
TAGAATGCCAAAATATTTCAAAGCTGGATAAATCATTAAAACACGAACTGGAATCAAAACAGATTTGTTTAGATAAAAGTGAAACAAAATTTCCCAATCA
CAAAGAAACAGATGATTGCGATGCAGCTAACATATGTTGTCATTCTGTTGGGAGTGATAATGTAAATTCAAAATTTTATAGCACCACAGCCCTAAAATAC
ATGGTTTCAAATCCAWATGAAAACTCCTTGAACTCTAATCCAGTTTGTGATTTAGACTCAACAAGTGCAGGGCAAATCCATTTGRTATCAGATAGGGAGA
ACCAAGTAGGGAGAAAAGATACAAACAAACAATCAAGTATTAAATGTGTGGAAGATGTTTCACTGTGTAATCCTGAAAGGACAAATGGTACCTTAAATTC
TGCTCAAGAAGACAAAAAATCGAAAGTTCCTGTGGAAGGACTGACAATTCCTAGTAAGTTGTCAGATGAATCTGCTATGGATGAAGACAAACATGCTACA
GCAGACTCAGATGTATCTTCCAAGTGTTTTTCGGGACAGCTATCAGAAAAAAATTCTCCTAAAAATAYGGAAACATCAGAATCTCCAGAGAGCCATGAAA
CTCCAGAAACTCCATTTGTGGGTCACTGGAATTTGAGTACTGGTGTTCTGCATCAGCGAGAGAGTCCTGAATCTGACACTGGCAGTGCTACCACCTCCTC
CGATGACATAAAGCCCAGATCTGAAGACTATGATGCTGGAGGGTCTCAGGATGATGATGGGTCAAATGACAGAGGTATCTCTAAATGTGGCACTATGCTG
TGCCATGATTTTCTTGGAAGAAGTAGCAGTGATACCAGTACTCCTGAAGAATTAAAAATTTATGATAGTAATTTAAGAATTGAAGTAAAAATGAAAAAGC
AAAGTARTAATGATCTTTTCCAAGTTAATTCAACGAGTGATGATGAAATCCCTAGGAAAAGGCCAGAAATTTGGTCTCGATCTGCAATAGTTCACTCTAG
GGAAAGAGAAAATATTCCACGAGGCAGTGTCCAGTTTGCTCAGGAAATAGATCAGGTATCTTCTTCAGCAGATGAAACAGAAGATGAAAGATCTGAAGCT
GAAAACGTTGCAGAAAATTTCTCTATATCTAACCCAGCTCCTCAGCAGTTTCAGGGAATAATTAATTTAGCTTTTGAAGATGCAACTGAAAATGAATGTC
GTGAATTTTCTGCAAMTAAAAAGTTTAAAAGGTCAGTTTTACTTTCAGTCGATGAATGTGAAGAGCTGGGATCAGATGAAGGAGAAGTCCATACTCCCTT
TCAGGCTTCTGTAGATTCTKTTTCACCTTCTGATGTTTTTGATGGCATTTCTCATGAACATCATGGAAGGACCTGCTATTCCAGATTCTCACGAGAAAGT
GAAGATAATATTTTAGAATGTAAACAAAATAAAGGCAATAGTGTATGTAAAAATGAAAGCACTGTCTTGGATCTTAGTAGCATTGACTCTTCAAGAAAAA
ATAAACAGAGTGTTTCAGCCACAGAAAAAAAGAACACAATAGACRTCCTATCCAGTAGAAGCAGACAGCTTCTTCGAGAAGATAAAAAAGTAAACAATGG
AAGCAATGTGGAAAATGACATTCAGCAACGCAGCAAATTCTTGGATAGTGATGTAAAATCTCAAGAAAGACCATGTCACTTGGATCTTCATCAAAGAGAA
CCCAATTCTGACATACCAAAGAACAGCTCTACAAAATCTCTAGACTCCTTTCGGAGTCAAGTTCTGCCTCAGGAAGGTCCAGTGAAAGAGAGCCATTCTA
CAACTACTGAAAAAGCTAATATTGCTTTATCTGCAGGTAATGTACAGAAATAGAAATGCTAAATGCATAAGAAAATAAGTTTATAAAATTTTAAAGTTGT
ATGAAGCCCTGAATGTTATATTTTAGTCAGATAGAATAATTACTTAAGCAACAGATTAAAATTTTAAATGAAAAATGTCTTAATATGAAAATTACTCATT
CTTTATTGTTCACTTAAAATCCTAATGAAGAAGTAATATCTAGTAAAAATTTTGATTGTTATATAGAGCTAACCTACTAAGAGATTTTAAATGAAAGAAT
AAAAAGAAAAACTTAGTTTGCTGCTATTTAGTTATTTATGTATAATTTAACACAAGAATTCTTGACTATTAGAAATTTTATTATACATTGGATATGATTT
ATAGACTTGATAGTATATAAGAGGCCTGTGCAATAACTCTAGTAATATGTAACTAAAAGCACTGAACTATTTTAACAACTAGATTGATTATTACAATTTA
TATACATTTTACAGAGATTAAAATTTTCAGGATCTGTCTATTCTAAAGTTTTCAAATAAAAAGATAAATTTCCTAAGAGATTATATTTAGAAGCAATGAT
AATATATGAAAAAAGCCCAGGCTTATTTCATATTGTTTAGATGATTTTCTGTCTAATTGTTTTGTGTTTTTTGTCTTCCTTATTATAGTAATTCAGACTA
ATGACCCACATTTAAAATATGCAATAGTGGCTGACTGAGTAGCTATTGTGTATTATAACTAAGAAAAATACTGATCAGTAGTTTCCTGTTCAGCAAAATC
GGAAGAATAAGGAGGTCTTTAAAGTTGTACTTTTTCGTTTGTTTGTCCTTGCTTGCATCTTCCTTTGCATGTGCAATATACAAATAAGCCTTTAGGTGAA
ATGTATTTATCCCTGCCTTTTGCAACGGACTTACCCTAAAAGTCATCATCAAAACACTAWGTCTTTTTTTTTTCTCTTTTTCTATTGTAGTGAATTAGAT
ATATGTGCACATTCTATGTTTATGTTTAAATGATTTATGTTTTCTGTATCACAAGTTTTCAAATTAAAGTATGGAGAATTATTGTTAGTTGCCTATGTTG
ATTTTGCTTYTAAACATTACCCTTGAATTTTAAACACATAAAAATGCCTCAAAAATCTTGTCAATTTTGTATAGAWGTTATTTTTCCCATTCTGTGTTTT
TTTTTTTTTTTTGACTATCRCTGTTATATTGTGTTAATATTCTACAAAACTCTGAGGGTACCAACGTGCAATTTTTACATTGTGTAGTATTATGAATTAT
TTCAGGAGACATAGATGATTGTGACACACTGGCACAAACCCGCATGTATGACCATCGGCCTTCAAAAACCCTGTCTCCAATATATGAGATGGATGTAATA
GAAGCATTTGAGCAGAAAGTGGAATCAGAAACACATGTTACAGATATGGATTTTGAAGATGACCAACATTTTGCAAAACAAGATTGGACACTACTAAAGC
AACTGCTCTCTGAACAGGATTCAAACTTAGATGTTACAAATTCCGTTCCTGAAGACTTAAGTTTAGCACAGTATCTAATCAATCAGACACTACTTTTAGC
ACGAGATAGCTCAAAACCTCAGGGTATAACACATATTGACACTTTGAACAGATGGAGTGAACTAACATCTCCACTTGATTCCTCAGCGAGCATCACCATG
GCTAGTTTTTCCTCTGAAGATTGTTCGCCTCAAGGCGAGTGGACAATTCTGGAACTGGAAACTCAGCATTAAGTGTTAACATTTTGGAAAAATTTATGCY
ACTCCTTTATTTTTTGATGCCTATATTATATCCAAATGATAATTGCATTAGCCGGATATAAACTTTCTTTAATATTGAGTCTTTCCAATTTAATGAGGTA
AACATAGTTTATTTATTAATATATCACATATAGAAAAATGTTTTTCTAAAGTTTTTGAGCATGTTTTCTCTAATTATTAGAGAAATTAGAAGACTTATAA
GGAAACCCTAGCTTCAGTTTTCCTTTCCTAGCTGATGATTTGTTCACTTAATCATTATTCAAGAATTTAAAATGTGAATGCAGAAGTAGATCAGTCCCTT
TACTTTTTGCTCTGCATAGGGTAACATAGTAATTTAACAATAAAAACTTACCGTGCTTGTGTCCATTCATGTAGAGTTTTCTGTGACTAACATTCAAACT
CACATTTAGGTGATTGAGGCTGATAGCTGAGTGTTGGGGAAAATCTTAGCTTTCCCAACAATTCAGGCCCAGGAAATTCTGAAGCAAGTACATCTCAAAT
TTCAACCACATCATTACTAAAACAAGAGAAATGGAATTTCCTGTCTCTCTCTTTTGGGGATATATCCACAGAAGGGAATCTGCCCTTGTTCAAAAGCATA
GACTTCCTTTACAGGTAGTCACTCATTCTCCATTTTCCATTCCATGTTAGGGATATGTTGGAACTGCACCTGCAATAAGCCAGCACTAAATATAAACTTG
AAAATGAGTATATAAGGCAATTGAGTTACGGAGTTTAAATTGTGTGTATGTGTATGTATGTGCACACACACGTTTGCTTTCTTGGTGTGTCATTAGACAC
CAGTTCCTTATTTCCTGGATCAGATTGTCTTTCAGTCTGTAATTTTGGTAGTAAGTCAAAGATAAAAACCTTTGCTACAAAATGCTACCTGGTAGCGAGT
ACTTGGGTACTTTTGATATTGCCAATGGGATTATGAGATTTCATAAATAAGCCTCTCTCAAAGCTTTGTGACTCATAATTCTCTGAAATATGTCTGAAGC
AAGGAAATAGTTTAGAACTCCTTTTCTAAATTAGTAAAGTCTTCAAAAAATAATATGATCTATAACTGTATTGAATACCAAGTCATATTAATGCACAATT
ATTTGTTCTAATAACATAGTTATGTTACGGTTAGCTGCTAACCTATTATACCATAAATTTGCTATGCCTTTTTTTAAACTAGCTCTGTGAAGAGGGGCAC
TCGTTCAAGAAACGGTTACTAACTCATTCATTCAAAGTCAAGAAACAGGCTCTGGATTTAGGCACTTGGGTGTAAAGAAAATAAGACTTGATTCCTGCTC
TAAAAATATATAAATAAATAAATAGTTTAGTTTCTAGTAAGAGGACATGGGGGTATAATGTAAGAAAAAGTTCAAAATATAGTATTACAAAAACTTTGTA
ACTTAGAGCTGGATGGGAATTTAGAGATTATTTCGTTTTCTCTCTTCAAATTCCAAAGAAGGGCTCTGATGCCCAGAGGAATTAAGAGCTTGCCCAAGAT
CCCACAGCTAATTTGTGGGCTAGGATTCAATATCTGTAGCCCACAATAATACCACTTTGGTATTATTTCTACCACACAACACACTTTATTTTTCTCACAA
ACCTGCGATCAAATACATTTACAGGTAGTTTGCAGTATAAAGAAGTATTATATGATAGAGTCAAAGACAGCACAAATTCCCAAGACACTGTTTTCTTTTT
CTTCAAATATGAAACTGTTAAGTGTTATTTTCAAAAAACTTCCTCAGAAGTTCACAAATTTATAATTGAAAATTTCTTTTCCCAGCTTTGAGGTCTTAAA
ATCTTCTTAAACTGCTAAACATTAAAATCTACTCAGTTTCACATCACATCTGCAAGTAGATAACTAACTAGGAAGGCATTTTGCTTATGTAATAACCACC
CAGAGAATTTCAGGACATATTGTGTTTTCATAGCATGCTCTTTTGTGAACCACACATCTACCAGTCTGTTTGCTGTGGGACTCTTTGTACTAGTGCCTCA
TCATTCAACAAACAAAAATTGAAAAAGAATTGCTGACATTGATATAGCACTTACAACATGCTAGATGCTATGCTAAGTGCTTTAAGTACGCATTAACACA
TTTAATTCTATGAGATATGTCTTCTTATCTTTATTTTACACGTAAGGAATCTAATGTAGAATCCTTAACCTGGATGTGCTACCATTGTAGAAGAAACCAA
AGGAGAAAGTAACACACTACACTATTGTTTGTATGGGAGCCCAGAAGGACAGCTTGTCAGGAAGAGGTTAGAGAAAACTTCTTAGGGCAAGTAATAGTCT
GTGACTGCTTCAGAATTTCTGTGGAGGAGTTTTATTAGCTGCAATCTAGTTGAAAGTTAGGCCAAGGGACTTATCTTGAAGATGCACTTGTATAGCGAGT
ACTTTGCTTTTACTTAGTATGTTGCAGATAATAAAAATACAAATCTTTTTAAAGATGCTTTTTGTACATAGTTTACATGAGATTGCAAAACTCCATCCAT
ACGAAATATTTTTTTAAATTTTGATTTGGGTTGCTTAGGGAGGACTAATGAGATTTATGGAAAGGGTTTAAAGCCCCCATTATACCATGTTTTGGTGAAA
CCAGGTAACATCTGATGCTGGCCCAAGGATGAATAAGAATTTGCTTGGTGACAGGGCAGTCTAGATATGGCACTACATTAAGGAATAGTGACCAGGGTGG
GTACTGAGTATAGGTAGAAGAATAGTAGGAGATAGGGCTAAAGAGTTGAGCTGGTGGGCCGGTCATGATGGCTCACGCCTGTAATCCCAGCACTTTGGGA
GGCTGAGGCTGGTGGATCACAAGGTCAGGTGATTGAGACCACCCTGGCTAACACAGTGAAACCCAGTCTCTACTAAAAATATAAAAAATTAGCTGGATGT
GGTGGCACGCACCTGTAGTCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCTGTGAGCCGAGATTGCGCCACT
GCACTCCAGCCTGGCGACAGTGAGACTCCTTCTCAAAAACAAACAAAAAAAAAAACAGTTGAGCTGGTGCTGGGTTCCCAAAGTTGTTACTATAAATGCA
ATCTTCAAAGTGTTTAAGCCTTGGATTTGGTGGGTATTATGTCTTCTTTATTATGCATTCATTTATTTAGTTTAACACAATGTATTTCCATGTTCTTGGG
AAATAACCACCTACAACTCACAATGAGTAATGATCAAAGTTGTTTTTTAAGTAGTTAGGTAACATAACCAGATGTGTTTTAGAAAGATAACCGGCAGTAA
TGAAGATGGCCAAGTATGGAGAAGTGCCCTAAACCTGTCAGGATGCAATTATGATAGTTTTGTTGACCTTAGAAATAGGGAATTGAGAAGGATTTGGTAA
TAGAGACGTTAGGTGGGTTGAGACTAGAACTTGGTGAATGATTACATGGTGTCAGAAGATGGAAAGGAATTTTTAAATTGTTGTCAGAGGCTGGACACGG
TCACTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGACGGATTGCTTTGAGCCCACGAGTTCAAGACCAACCTGGGCAACATGACGAAACTGC
ATCTTTAAAAAAAAAATTTTTTTTTTAACTAGCTGGGCATGGTGACACGCGCCTATAGTCCTAGCTACTCAGGAGGCTGAGGCAGGAGGATCACTTGAGC
CCAGGAGTTAGAGACTGCAGTGAGCTGTGATTGTACCACTGTACTCCAACCTGGGCAATAGAGCGAGACCCTATCTCAAATAAATAAATTGCTATCAGAA
ATAACATTCGTTCCACACATTGAGGGCCTACTATGTTCCCAAAACTTTGCTAGTGCTGGGAAGAAAAAGATAGATGACATAGTATCCATCCTTGAGCATC
TCAATCTAATAAGGGAGATTGTTAAATAAAAATTGCAAAATTGCAATGTTAAGTGTTATAATAAAGCTGAGTATAAAGTGTAATTTGGAGTGCTTGGATG
GGCTCCTTTGCTCTCTAAGGATTAGTAGGAATTCATAAAAAGGCACACTCTTGGCAGAAAAAGTTCAAAGGCAGTGGGGAATTCTGTTCTGTATGGCTAG
AGAGAGAAGGAAATGGATTGGAAGGGCAGGGGATGAAGTTGGACAGGAAAGTAGAATCCAGAGATTAACAGGATCAGGTTTGCATTTTAGATGACTGGTA
GCAGGATGTAGGATGGAATGGAGCATTGTGACAAGGCAAGGGGACTAATGAGTCGATTGCAATAATAAAAGCTTGAATAGGGCAGTGGCAGTGGAGACAG
AGGAGTGGACGTGTTTGAGGGATTTAAGAGGTGGAATTGAAACCCTTGGTGAGTCTTTGGATGTGGGAAATGAGAGATGGGAATCATCTTAAAAGACAGT
TTTCTCACTAGGGTGCCTGGGTGGTTGATGATGTCATTAACCAAAAACAGGAGCAAGTGTAGGAGTGAAGATCAGTTTAATTTGGGACACACTGAGTTTG
AGATGCCTGGGGGGACATTCAGGAGGCTGAGGACAAAATGCTGTGGAATAGTCAGAAAAAGAAAAGCCTGAGACAGAGACTGAACCGGCACATTCAGAAG
TAGAAGTAGGAGGCCAAGGTGAGGAGAGATTAATGTTTTGTTTGTTTTGTTTTGTTGAAGCAGGGTCTCAGTCACCCAGGCTGGAGTGCAGTGGCGCAAT
CATCACTGCAGCCTCAACCTCTCGGGCTCAGGTGATCCTCCCACCTCAGCCTCCTGAGTAACTGGGACTACAGGCATGCCAGGCTAATTTTTGTATTTTT
TGTAGAGACAGGGTTCCGCCATATTGCCCAGGCTGGTCTCAAATTCGTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCTCAAAGTGGTGGGATAACAAAA
GTTTTTTTTTTGCTTTTTAAAAAATTCAATGTTAGCAAGAGAATGATAAGTTTGGGAGCTTCATATGATGCTTTAGAAGTGTAAATTTCCTTTCTGATAA
GCAGCTAAGCAAGCTATATCAGGAATGTAGCTTTTTGGTTGTTTTTTGAGATGGTCTTGCGTTGTTGCCCAGGCTTTGAGTGCAGTGGCATGATCATGGC
TCACTGCAGCCTCAACCTCCCTGACTCAAGCGATCCTCCCACCTCAGCCTCCCAGGTAGCTGCGACTACAGGCACGCACCACTCCACTCGGCTAATTTTT
TATTTTTTATTTTTGTAGAGACAGGGTCTTCCTATGTTGCCCAGGCCAGTCTCTGAACTCCTGGGCTCAAGTGATCCTTCTGCCTTGGCCACCCAAAGTG
CTGGGATTATGGGCGTGAGCCACCATGCCAGGCTTGTAGCTTTATATCTTTAGCCCTTTCTCCTCTTGGGATCTACCATTAAGGAACAAGGCCTGTTTAC
CGCCATACCACCCTGAATGCGTCCAATCTCATGTGATCTTGAAAGAAAGAAGGCCAGACATGGTGGCTCACACCTATAATCCCAGCCTCCCAAGTAGCTG
GGACTACAAGGCACCTACTGCTGCACTTAGCTTTATCTTTTAACTCATATTTTAAATGTCTTCTACAAGGCACAGAAAAATAAGTAGTTGTGTTCATTTT
TAAGTAAATAGTAGTAAACAGTTTCAAATGCTGTTTGAGATGTTAATTAAGGCACACACTTAGACTAGTCCATTTGATTTGAAAATTAGGATTTTATTTG
TGCTTTTTGTTAATTACTGGCTTTTAAAAGATCAGTAGTGGGGCAGAAACTAGACTAGTGGGTTGAAGGGTGAATAGGAAATAAGTAATACTTATTCTTT
CAAGGAGCTTGACTGAAAAGGAGACAGTGGTAGTTTGAAGATATTGCTGTTTTTAAGATAAAAATGATTTCAGCACTTTAAAAATAAAAAGTTGGAAATG
ATCAATGAATCAAGGATCATCAAGAAAGAGGCAAGAGGAAGTAAGATTAAGCACAAAGAGTATCAACTGATAGGTGGCATTTCAAGGAACTTCAGGTGTT
GAATATCTAAAGCACCAAATGCGTGTGGACAGCAGTGAAGATAAAGCTGGAAATGCGCCGGCAGACCAACACATGATGAGCCCTGTAGGTGGTGGACAAA
GACTATGAGCAAGCCATTTAGGCAAACATCTGAAGAATTTAAAAATCAAAGGCAAACAAATAGGACTGTTTCATTAAGATCACTTGCATTCTAACAGGTT
ATGATGAATGGAAAGCTGATGGTTCCTGGTTGGAAAAAAGATAATTTTCAATTTGGACATGTCACATTTGAGATGCAGTTGACACACCCAAGATACATAA
TATATTGTCTTTCAAAATTCAGAAACCTAATAAACCATGATCTTAATAACCGCCACTCCATCTCCTG


SNP Information

Context             (SEQ ID NO:38004):
CTTCTGGGCTCAAGGGATCCTTCCACCTCTGCTTCCTGAATAGCAGGCATAGGCCCAAGCTACCATGCCTGGCTAATGTTTGTATTTTTTTTTGTAGAGG
Y
GGGGTTTTGCCATGTTGCCTAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCGCACCTGGCCTATTGTGAAATTTTTCAAGGCATACAGCTATACCAT
Celera SNP ID:            hCV1917700
SNP Position Genomic:     11515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,8|T,9)      total(C,8|T,9) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38005):
CATGATCACACTGCAGTCCTCCTTCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCATGAGTCAACACACCTGGCCTCTGTTTGGTTTTCATTGTCTTTT
R
TGAGAGAAATAATTAAGGGAGTCACTAATTTATCTGCATTTCTGGTCCTTTTAAATATTATGCCCATGTTTCTTGAAAGTTCCATTGATAATTATAGGAA
Celera SNP ID:            hCV1917704
SNP Position Genomic:     15954
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38006):
ACGAAAAGAGTACTGATCAGATTGCATAATTTGCTAAAATAATAACCAATTTTCAAAATTGCTTTTATGTATCAAGCATTAACATATGTAAAAGCAGTTC
K
TAAAATGCTAAAAACAGTTTTGATTTAGATTATGAATTATTACTGAAAATCAATTAAAAATAAGGTAGAGAAAACATTTTCATATCCTAGTAATAACTAA
Celera SNP ID:            hCV1917705
SNP Position Genomic:     16608
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,6)      total(G,5|T,6) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38007):
TCAAAGGGAAGACCTTTCTTGCTCCTTTGATAAAAGAAAATCCGATTTTTTCACCCTCATATATTTTTGCAAATCCAGTTTTGGCATAAAAATCAAGTCT
S
TTTACTTGAGGAAGAGAGATCCTATTTTAGTAATTTTTACTGGGACCCTGGAGTAGTCCCTCTATATTTTTAATTGAAAAAATTTTTTTATTTTATCATG
Celera SNP ID:            hCV1917706
SNP Position Genomic:     17138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38008):
CAGAAAGCTGGAAGCTGATGAGCACAGATGATCAACAGAAAATCCAAGCAGGTACGTTAGCCTTGAGATATTTCAATTCTTATGTAATGATCATTGTGAC
M
GCAGATATTTTGAGGGCATTCTGATAAGTGAAAAGGTTAACATTTGTGTGCTTCTGTTGGATAATAGGATAACTGAAACTGGTGCTCATATGTTTAGGCA
Celera SNP ID:            hCV25992622
SNP Position Genomic:     6181
SNP Source:               Applera
Population(Allele,Count): african american(A,22)   caucasian(A,32|C,2)   total(A,54|C,2)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38009):
AACAAGCACCTAAGAGAAAAATGGTCAAGCAAGTACACACAGCTTTGCCTAAGGTTAATGCAAAAATAGTGGCAATGCCTAAAAATCTAAATCAGTCAAA
R
AAAGGTGAAACTTTGAATAATAAAGATTCAAAACAGAAAATGCCTCCTGGACAGGTTATATCAAAAACTCAGCCTTCCTCCCAAAGACCTTTAAAACATG
Celera SNP ID:            hCV1917707
SNP Position Genomic:     17605
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,2)   caucasian(A,19|G,1)   total(A,25|G,3)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,4)   caucasian(A,28|G,8)   total(A,40|G,12)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38010):
GATACTGTGCTAAACTTAAGTCTTCAGGAACGGAATTTGTAACATCTAAGTTTGAATCCTGTTCAGAGAGCAGTTGCTTTAGTAGTGTCCAATCTTGTTT
R
GCAAAATGTTGGTCATCTTCAAAATCCATATCTGTAACATGTGTTTCTGATTCCACTTTCTGCTCAAATGCTTCTATTACATCCATCTCATATATTGGAG
Celera SNP ID:            hCV25991628
SNP Position Genomic:     6693
SNP Source:               Applera
Population(Allele,Count): african american(A,8)   caucasian(A,30|G,2)   total(A,38|G,2)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,10)   caucasian(A,27|G,1)   total(A,37|G,1)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38011):
TTAATCTTGCATCTGAAATAAGTGATGCAGAAGCACTCCAGTCATCCTGCAGGCCTGACCCACAAAAGCCATTAAACGATCAAGAAAAAGAGAAGTTGGC
R
TTAGAATGCCAAAATATTTCAAAGCTGGATAAATCATTAAAACACGAACTGGAATCAAAACAGATTTGTTTAGATAAAAGTGAAACAAAATTTCCCAATC
Celera SNP ID:            hCV25991482
SNP Position Genomic:     17899
SNP Source:               Applera
Population(Allele,Count): african american(G,10)   caucasian(A,1|G,35)   total(A,1|G,45)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:38012):
GGCTAGTTTTTCCTCTGAAGATTGTTCGCCTCAAGGCGAGTGGACAATTCTGGAACTGGAAACTCAGCATTAAGTGTTAACATTTTGGAAAAATTTATGC
Y
ACTCCTTTATTTTTTGATGCCTATATTATATCCAAATGATAATTGCATTAGCCGGATATAAACTTTCTTTAATATTGAGTCTTTCCAATTTAATGAGGTA
Celera SNP ID:            hCV25999475
SNP Position Genomic:     21500
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,1)   caucasian(C,24)   total(C,35|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:38013):
CCCTTGAATTTTAAACACATAAAAATGCCTCAAAAATCTTGTCAATTTTGTATAGATGTTATTTTTCCCATTCTGTGTTTTTTTTTTTTTTTTGACTATC
R
CTGTTATATTGTGTTAATATTCTACAAAACTCTGAGGGTACCAACGTGCAATTTTTACATTGTGTAGTATTATGAATTATTTCAGGAGACATAGATGATT
Celera SNP ID:            hCV953700
SNP Position Genomic:     20920
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,3|G,17)   total(A,3|G,25)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38014):
TTGCGATGCAGCTAACATATGTTGTCATTCTGTTGGGAGTGATAATGTAAATTCAAAATTTTATAGCACCACAGCCCTAAAATACATGGTTTCAAATCCA
W
ATGAAAACTCCTTGAACTCTAATCCAGTTTGTGATTTAGACTCAACAAGTGCAGGGCAAATCCATTTGATATCAGATAGGGAGAACCAAGTAGGGAGAAA
Celera SNP ID:            hCV26000004
SNP Position Genomic:     18116
SNP Source:               Applera
Population(Allele,Count): african american(A,10|T,2)   caucasian(A,40)   total(A,50|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38015):
ATGTAAAAATGAAAGCACTGTCTTGGATCTTAGTAGCATTGACTCTTCAAGAAAAAATAAACAGAGTGTTTCAGCCACAGAAAAAAAGAACACAATAGAC
R
TCCTATCCAGTAGAAGCAGACAGCTTCTTCGAGAAGATAAAAAAGTAAACAATGGAAGCAATGTGGAAAATGACATTCAGCAACGCAGCAAATTCTTGGA
Celera SNP ID:            hCV937540
SNP Position Genomic:     19445
SNP Source:               Applera
Population(Allele,Count): african american(G,6)   caucasian(A,1|G,37)   total(A,1|G,43)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:38016):
ACCTTTTTCATTTCCTTGAAAACCTTTTTGGCAGCTAACGTATTAGAGCTATTTCAGTCTATTAGAAGTTGTTTAGAACTCTAGACCTAATTCAATGTCT
R
TTTTTCTAATTAGCCTACTTCTTAAAAAAGAAGATTTTAGGCTAGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGATGGAT
Celera SNP ID:            hCV1917694
SNP Position Genomic:     8905
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38017):
CACAGCCCTAAAATACATGGTTTCAAATCCAAATGAAAACTCCTTGAACTCTAATCCAGTTTGTGATTTAGACTCAACAAGTGCAGGGCAAATCCATTTG
R
TATCAGATAGGGAGAACCAAGTAGGGAGAAAAGATACAAACAAACAATCAAGTATTAAATGTGTGGAAGATGTTTCACTGTGTAATCCTGAAAGGACAAA
Celera SNP ID:            hCV25999857
SNP Position Genomic:     18185
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,1)   caucasian(A,38)   total(A,49|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:38018):
AAACAGAAAATGCCTCCTGGACAGGTTATATCAAAAACTCAGCCTTCCTCCCAAAGACCTTTAAAACATGAAACATCTACTGTCCAAAAAAGTATGTTTC
R
TGATGTGCGTGATAATAACAACAAGGACAGTGTTTCTGAACAGAAGCCTCACAAACCTCTCATTAATCTTGCATCTGAAATAAGTGATGCAGAAGCACTC
Celera SNP ID:            hCV25995805
SNP Position Genomic:     17736
SNP Source:               Applera
Population(Allele,Count): african american(A,6)   caucasian(A,29|G,1)   total(A,35|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:38019):
TTCCTTTGCATGTGCAATATACAAATAAGCCTTTAGGTGAAATGTATTTATCCCTGCCTTTTGCAACGGACTTACCCTAAAAGTCATCATCAAAACACTA
W
GTCTTTTTTTTTTCTCTTTTTCTATTGTAGTGAATTAGATATATGTGCACATTCTATGTTTATGTTTAAATGATTTATGTTTTCTGTATCACAAGTTTTC
Celera SNP ID:            hCV953697
SNP Position Genomic:     20660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38020):
CATTCTATGTTTATGTTTAAATGATTTATGTTTTCTGTATCACAAGTTTTCAAATTAAAGTATGGAGAATTATTGTTAGTTGCCTATGTTGATTTTGCTT
Y
TAAACATTACCCTTGAATTTTAAACACATAAAAATGCCTCAAAAATCTTGTCAATTTTGTATAGATGTTATTTTTCCCATTCTGTGTTTTTTTTTTTTTT
Celera SNP ID:            hCV953698
SNP Position Genomic:     20810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38021):
GAATTATTGTTAGTTGCCTATGTTGATTTTGCTTTTAAACATTACCCTTGAATTTTAAACACATAAAAATGCCTCAAAAATCTTGTCAATTTTGTATAGA
W
GTTATTTTTCCCATTCTGTGTTTTTTTTTTTTTTTTGACTATCGCTGTTATATTGTGTTAATATTCTACAAAACTCTGAGGGTACCAACGTGCAATTTTT
Celera SNP ID:            hCV953699
SNP Position Genomic:     20876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38022):
AAAGTTTAAAAGGTCAGTTTTACTTTCAGTCGATGAATGTGAAGAGCTGGGATCAGATGAAGGAGAAGTCCATACTCCCTTTCAGGCTTCTGTAGATTCT
K
TTTCACCTTCTGATGTTTTTGATGGCATTTCTCATGAACATCATGGAAGGACCTGCTATTCCAGATTCTCACGAGAAAGTGAAGATAATATTTTAGAATG
Celera SNP ID:            hCV25996687
SNP Position Genomic:     19220
SNP Source:               Applera
Population(Allele,Count): african american(T,4)   caucasian(G,4|T,20)   total(G,4|T,24)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38023):
GAATCTGCTATGGATGAAGACAAACATGCTACAGCAGACTCAGATGTATCTTCCAAGTGTTTTTCGGGACAGCTATCAGAAAAAAATTCTCCTAAAAATA
Y
GGAAACATCAGAATCTCCAGAGAGCCATGAAACTCCAGAAACTCCATTTGTGGGTCACTGGAATTTGAGTACTGGTGTTCTGCATCAGCGAGAGAGTCCT
Celera SNP ID:            hCV25994430
SNP Position Genomic:     18468
SNP Source:               Applera
Population(Allele,Count): african american(T,10)   caucasian(C,1|T,33)   total(C,1|T,43)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38024):
ATGTATTCTCTCTTATGACTCACTTTTTCTTAATTTATAGCCATAAAATCTCGACCTGTTTCAAGAGTTACCAATGGAACTTCCAATAAAAAAAGTATTC
R
TGAACAAGACACTAATGTAAATAACAGGTAGGTCTTCATTCAGTGTTTTAACCTATCTGTTAGCTTTCTCTCAAAGTTAATTATATACTAACTGCTAGCT
Celera SNP ID:            hCV15829056
SNP Position Genomic:     15012
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38025):
ATTGCCCTACATTTGAAATTTTTAAACTGTCGTTGTGTTAACTGTTGAATTAAAATTTAAGTGTTTGGTCTGAAAGTATTACTTCTGTTTCTTTGAATCT
Y
GAGGTACTCTAACATTTAATGTTTATCATATATTCAGATGAGTATGGAATAAGATCATGTATCATCTATGTTATTTAACTATGTCCATATTGTAGTTTTC
Celera SNP ID:            hCV1917683
SNP Position Genomic:     930
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 hmCS


Context             (SEQ ID NO:38026):
CAGATGATCAACAGAAAATCCAAGCAGGTACGTTAGCCTTGAGATATTTCAATTCTTATGTAATGATCATTGTGACAGCAGATATTTTGAGGGCATTCTG
R
TAAGTGAAAAGGTTAACATTTGTGTGCTTCTGTTGGATAATAGGATAACTGAAACTGGTGCTCATATGTTTAGGCAGTTTTAATAAATCATGCTTTTTAG
Celera SNP ID:            hCV25992584
SNP Position Genomic:     6205
SNP Source:               Applera
Population(Allele,Count): african american(A,20)   caucasian(A,31|G,1)   total(A,51|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38027):
GGAATACGACTAGGGTCCCGACAACCCTTTTAAAGCATATTATACGATTCCACAGAACATACTCTAGGAAATGGTGCACTAGGACATTTTTTTCTGTGTT
Y
CCTGTTATCCCCGTGTTTTTTAAAGGCCCCCAGGAATTAGCCTACTTGCCTTCCTATCCCCTGCTACTCACCAGGCTTTTCTGCCTTCCTTGCCTTACTG
Celera SNP ID:            hCV937531
SNP Position Genomic:     10575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38028):
CTAGGAAATGGTGCACTAGGACATTTTTTTCTGTGTTCCCTGTTATCCCCGTGTTTTTTAAAGGCCCCCAGGAATTAGCCTACTTGCCTTCCTATCCCCT
R
CTACTCACCAGGCTTTTCTGCCTTCCTTGCCTTACTGCAGAATAGAACAAAGTTTCATTATTTTTCCTCATCCTCCTGACTTTGTGGTTGTCTAAGTCTT
Celera SNP ID:            hCV937532
SNP Position Genomic:     10638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38029):
GCTTGAACCTGGGAGGCGGAGGTTGCAGTCAGCTGAGATCTTGCCTCTATACTCCAGGCTGGGCGACAGAGCGAGACTCTATCTCAAAAAAAAAAAAAAA
A
TTGATAATGATAATAATAGTGCAGTCTAAACAACTATAATACATAAGGAGGAAGAATTTCCCTTCCAGAATCTGTGTGAGTCCATTGTTTTTCAGTGTTC
Celera SNP ID:            hCV26896271
SNP Position Genomic:     16402
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38030):
GCCAGCCAGTGCTATACTAGTATCTTATTTGTACAAAAACCAAGCTTTGCAGATGTAGTGTATTGATGTGCTGTGCTTCCTAGGAGCTTTTAAAAAAAAA
W
TTTTTTAAATAAGGACTCCAAGAAGTAAAGGATTCTTCCCACAGAGGATTAAGTCTTTAATGATAAAATTTCTGGCACTTGGAATAAGGTTGAAGAGAGA
Celera SNP ID:            hCV937534
SNP Position Genomic:     13259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38031):
AGAATAAATTAAGTAGATTCAGTGTTAAGGGTGGGAAGGAGTTCTAAAAGCAGAAGTCAGCCTGGTTTTAGGTATTAAAAATAGAGAAATGTTTTTTTTT
T
GAGCTAAGATTTGAGCAAGAAAACAAAAAATGAGGACCAAGCCTATCTGAACGTTTTAAATGTTAGAATCCTAGAAGACTGCTGTGAATAGGACCAGTCT
Celera SNP ID:            hCV26896272
SNP Position Genomic:     11772
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,6)   total(-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38032):
GAGTAAGCCTTCTAAAAAATCATGGATATTATCATTCCTCAGGGCATCCTGAATCTTTATAGACATTAATCTCTATCAAAACTTCATACATTAAAAAAGC
Y
TTCCTTTTATTTATTTATTTACTTTAATAGATAGAATAGCATGCCTTTAAAATAAACACTTATGCTGTATTTCAGATTTGATTACGGTAATCTAAGACAA
Celera SNP ID:            hCV937535
SNP Position Genomic:     13708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38033):
CCTCTTATGATTATGTTTAATTTTTCCTATTTTTTGAGACAGGGTCTCACTCTGTCACCCAGGCTGGAGTGGAGTGACACAATCACAACTCACTGCAGCC
Y
TGACCTTCTGGGCTCAAGGGATCCTTCCACCTCTGCTTCCTGAATAGCAGGCATAGGCCCAAGCTACCATGCCTGGCTAATGTTTGTATTTTTTTTTGTA
Celera SNP ID:            hCV26896273
SNP Position Genomic:     11410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38034):
GTTTTTGTTGTTCTGTTGTTGTTATTGTTGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTACAGTGGCATGATCACACTGCAGTCCTCCTTCCTCT
S
CCTCCCAAAGTGCTGGGATTACAGGCATGAGTCAACACACCTGGCCTCTGTTTGGTTTTCATTGTCTTTTGTGAGAGAAATAATTAAGGGAGTCACTAAT
Celera SNP ID:            hCV937536
SNP Position Genomic:     15883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38035):
TCCATGTTGTTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGGCGTGAGCCACCGCGCCCA
R
CCCCATAGCAACTCTTTATAGACCGACGATGCATATTATACCTTGAAAGTGCTGAGAAACACTAAAGAATACTTTTGAATTGTTGCATCCAAAATTTTCC
Celera SNP ID:            hCV26896274
SNP Position Genomic:     10358
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38036):
GGGTTTCTCCATGTTGTTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGGCGTGAGCCACC
R
CGCCCAGCCCCATAGCAACTCTTTATAGACCGACGATGCATATTATACCTTGAAAGTGCTGAGAAACACTAAAGAATACTTTTGAATTGTTGCATCCAAA
Celera SNP ID:            hCV26896275
SNP Position Genomic:     10351
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38037):
CGGAGGTTGCAGTCAGCTGAGATCTTGCCTCTATACTCCAGGCTGGGCGACAGAGCGAGACTCTATCTCAAAAAAAAAAAAAAAATTGATAATGATAATA
R
TAGTGCAGTCTAAACAACTATAATACATAAGGAGGAAGAATTTCCCTTCCAGAATCTGTGTGAGTCCATTGTTTTTCAGTGTTCTGAAAACGAAAAGAGT
Celera SNP ID:            hCV937537
SNP Position Genomic:     16418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38038):
TAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGTTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGT
S
CTGGGATTGCAGGCGTGAGCCACCGCGCCCAGCCCCATAGCAACTCTTTATAGACCGACGATGCATATTATACCTTGAAAGTGCTGAGAAACACTAAAGA
Celera SNP ID:            hCV26896276
SNP Position Genomic:     10326
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38039):
GATTTTCTTGGAAGAAGTAGCAGTGATACCAGTACTCCTGAAGAATTAAAAATTTATGATAGTAATTTAAGAATTGAAGTAAAAATGAAAAAGCAAAGTA
R
TAATGATCTTTTCCAAGTTAATTCAACGAGTGATGATGAAATCCCTAGGAAAAGGCCAGAAATTTGGTCTCGATCTGCAATAGTTCACTCTAGGGAAAGA
Celera SNP ID:            hCV937538
SNP Position Genomic:     18807
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,15)   caucasian(A,6|G,32)   total(A,7|G,47)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   no_pop(A,-|G,-)   TSC_42_C(A,36|G,47)   TSC_42_AA(G,1|A,82)   total(G,48|A,118)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:38040):
GTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACCACAACCTCCGCCTCCCAGGTTCAAGCAGTTCTCCTCCCTCAGCCTCCC
R
AATAGCTGGGATTACAGGAATGTGCCACCATGCCTGCCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGTTCAGGCTGGTCTCGAACTCC
Celera SNP ID:            hCV26896277
SNP Position Genomic:     10187
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38041):
AATTTCTCTATATCTAACCCAGCTCCTCAGCAGTTTCAGGGAATAATTAATTTAGCTTTTGAAGATGCAACTGAAAATGAATGTCGTGAATTTTCTGCAA
M
TAAAAAGTTTAAAAGGTCAGTTTTACTTTCAGTCGATGAATGTGAAGAGCTGGGATCAGATGAAGGAGAAGTCCATACTCCCTTTCAGGCTTCTGTAGAT
Celera SNP ID:            hCV937539
SNP Position Genomic:     19116
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_AA(C,2|A,81)   total(A,81|C,2)no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38042):
TATTTGAAGAGCATAGACATGAGTTCTGCAATAAATTCCCATATAAACCTAACTTATAAAATGAATTTTTATTTAATTATAAAAAGAATATTTTGAAGAT
K
CTTATTTTATTTTCAGTAGAACCTTATTTTTTTATTTTCTCTTTCCTCCTTCCTCATTATATATCTGCAAAACCAGAAAATATTTTTAATTTCAAGAGTA
Celera SNP ID:            hCV26896278
SNP Position Genomic:     8010
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,3)   total(G,1|-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38043):
AAGGTCTCTACTTTTGTATATGTTTGGAATTTTTTATAATACTAAATTTTAAAAATTCCGTTTGTCTCCAAATGGACTTCTTATAAAAGTTTAGAAATTG
R
CAGTTTGGCTGGGTAATTTTAAATTTAGTGTGATATTTAGCAACATTATTTGGCACAGCATAACTCTCGTATTTCTCCCTGGTCCTACAGTAAATTTTCT
Celera SNP ID:            hCV8362742
SNP Position Genomic:     5344
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,1|G,39)   total(A,2|G,72)
SNP Type:                 TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS;hmCS


Gene Number:                 168
Celera Gene:                 hCG23027 - 145000147122095
Gene Symbol:                 COL6A3
Protein Name:                collagen, type VI, alpha 3
Celera Genomic Axis:         GA_x5YUV32VWPT(42854264..42957276)
Chromosome:                  Chr2
OMIM number:                 120250
OMIM Information:            COLLAGEN, TYPE VI, ALPHA-3;COL6A3


Genomic Sequence (SEQ ID NO:12328):
CCCACACCCAGCAACTTTTTGTATTTTTAGCAGAGACAGAGTTTCACCATGTTGGCTAGGCTGGTCTTGAACTCCTGACCTCAGGTGAGGTCCACCCATC
TCGGCCTCCCAATCCTGCCTGTTTTGATGAGAAAAGTTTTTAAGAAAAGTCAAGGAAAATCAAGAATAGCTACACTTTTACCACAGCAGAAGAAATCATG
GAATTACAGTGGGAATTAGTGTAATGGCTTGACTGATCTGCTAGTCCAGGACTTATTTCAGAAATGTGTCTTCTTCAAACAGATTGTATTAGTGCACCAG
GCAGGACTTCTTTGGTTGTAAGTGTTGGGAACTTAACTTGAACTAGTATAGAAAGGATGTCTGAAATCAGAGAGCTGATTGCATTCTCTTTCTCTCCTCT
CCACTTCTCTCTGCTTTGATCTCCCTGACTGGCTTCCTCCAAATGGTAGCAAATATGGCAGCTCCTGGTATTATCAGAGAGGGCTCAAGACTGGCTGGCT
CTAAGATGTAAGCAGGCAGACCTGGGGATGAGCTTACCAACTCTGGATCACCTGGTAGAGGAGATGCTAGAAGGTTCTTCTGGAAGATGGCAGCTCTCAT
TTGAACCCCTGGTCAAAGTAGGGGATGGGCATTCCTGAAATAAGAGAAGTGTTGGTCTAGACACATGACCCAACAGCTTTCTGTGCATGGCTGGCACTAC
GTTTTCCTTCATAGCCTGGTGTGTTTTAGTAGCATAAAGTGAAGTGCTATTTGGTTTTAGACTCTCGAAAATCGCAGAAACAGCATCATTTGTGCAGTAG
AATAGAGTAGGAAAAATTCACACCAACATGTCCATATGAAGTGTTTAGGGAATGGGGAGGGGCAGCTGGTCCATCTTTGTTCCTGAGCCCGGGTCTCAGT
GGGACTGAATCTAGAGGTGGGAGCTTTGAAATGTGCAAATTGGGGCAGGGATAGAAGTTGAGGCTAGAAATGAGGCAGAGACGAATATGGCTGATGCAGC
CCAGATCCCTGAGGGGTTATTGCTGGATGATTCTGGACATTATTGAGCACAGCTACCACTCACTCTGCAGAAGAGAAAACAGAGTTGCAGGAAGCTTAGT
TGACGTGCCCAAAACCTGTGGTGAGTTAGTAGCAAAGAAGGCACTAGGGCCTCATTCCCAGAGATCCGCTCAACTTTCCACTCTGACACTCGAGGAGGCT
TAAAACAGGCACAGGGATGGAATGAGAAACCCCAGCTGCCCTCTGGCTGTGGGGTCAGTGGAAGCCTCAAGTCCTCTTCCTTGATTGGGCTTCTAATCCT
TCTTGTCTTGAAACAGGCCTAGTTGCCTCAGTGGAGCATTTTACTTTAAGCTGATTTTGGAATGTCACATACCTCCTCTTCAATAAGAGGAAACTCCAGC
CTCACTGCAACAAGCAAATCTATTAACATGATTGCAGATCCATCACTGGGAGCTGGTTGGGAGGGTGAGAAGAGTGGACTTGAGCTGGCCCTCCAGGAAT
ATCTCCCAGGATATCCCAGCATAAACCCTCTGGTCTATTCTGGGAGGCAGGGAAACAGGAGCCTGCCCCGGAGAGACTGAACTTAGGAACACACTGCACA
GCCGCAATCCAGGGTTTACAGGACAAAGATCGAGGCACCCTTCAGCAGCTGTCTGGATGCTGGGATGCGGGGTGTGGCAGATGCTGCTGCTGTGGCTGCG
ACTTCCCTTTGAGTCCTGGAGACTGTGATGGAACTCGGATGCTTAGTCTGTTACACAGTCTGCCACTGCCTCTTAACATTCAGGGAGCTGGAGTCTTCAT
ATTGGCTTCTCTATGACTGTGTGTATGTTCAAGTTCCTTCTAGCAGAGCCTGAGACAGGGTGTTGTGCAAGCGATTACTGAGGGAGAGCTCCCAGGGGAA
ACCTAGAAGGAAGGCAGGAAGAAGGATGAGGGCAGGAGAAGAAGCCAGGCAAGGAGTGGGTTCTGAGAAGTCAGGCTGGTCCCATGGCAGGTGTTCTGCA
GTGAGAATCCTCTTGCCAAGTTTTTCTGGCCCAGAGGCAATGGACTGGAGTGTCACATCCCACATCAGACATCACTGGCTGTGGGCCACCCCAAGGGAGA
TGGGCTATAACCCTGTACTAGTTATCAACTGCTGTGTAACAAATTGTCACAAAACTAGCAATTTACGACAACATGCATTTAGTATCTTGGGTCAGGAGTT
CAGGCTTGGCTTCACTGGGTCCTCTGCTGGGGTCTCAGAGGCTGAAACCTCCGTTTGGGAGACTACATTTCTTTCTGAAACACGGAGTCTTTTCAAAGCT
CACGTAGATGTTGGCAGAAGTCAGGCCCTTGTGGTTGTCGAGTTGGGGTTCCTGCTTCCTTGCTTGTTAGGAGCTGCTCTCAGCTCCCAGAGGCCCCCAC
ATTTCCTTGCCATTGGCCCTCACAGGATGGCGGCTCACTTTGTCAAGGCCAGTGTCTTAGTCCATTTGGATGGTTGTAACAAAATGTCTTAAACTTGGTG
GCTTAAACAACAAAAATTGATTTCTCATGTTTGGGAGTTTGAGAAGCCCAAGATCAAAGTGCCCGCAGATTCGGTGTCTGGAGAGGTCCTGCTTCCTAAC
TCGTGCACTGCACCTTCCCTCTGTATCCTCACATGGTGGGAGGATGGAGCAGTCTCTCCATATCCTCTTTTATAAGGCACTGATCCCATTCATCAAGGCT
TCTCCTCTACGACCCAATAACCTCCCAAAGGCCCCATCTCCCAATACCATCACTTTGGGGGTTAGAATTTCAACATATGGATTTTTGGGGGACATGACAT
CCAGACCCCAGCAGCCAGCAAGATAATCTCTCCCTGCCGTTTCCTAAGACAGAGTCTTCTGTGATCCCTGGGTGACTTCCCACGACCCAACTGTAACCTA
ATCCAGGAAGGGACACCATTCATTTTTGTCGTGTTCAAAGGCTGGAATCAGGGCTCAGCTTCCATTTGCACGCAAGGGGGGTGGATTACGCAAGGGCTTG
ACTCCTGGGGGTCATCTTGGAATTCCACCCACCTCACACACCCCAATGTGTCCAGAAGAGACAGATCCCAGCATCCACGAACAGTCCTCCAGGAAAGGGC
GTGGGTGTGAACCACTAACATTTGACTCTCATCTGAGGGGAGTCTTGCAGAGGCACCCATGGGACCTTCCACACTGTCCTTGCCCGCAGGAGAAAGGGCA
GCCAAAGTCTCAGAAAATCGCCATCCCTCAGGCCACCTTCCAATCCCATAGCCGTGTATCTGGATGGGGAGGCCCCATCCCCATCAGGGCCACAGCTACA
AGGGAGCTTGGAAAATGGAGTTCTGAACTTGCTAACTTGTGTAGTTAAGGACAAGATAAGGGAAGAAAATGGGAAGAGGTGCCAAGAGCCAGTTCAAGCC
TGCAGTGAAGGGGAAACAGAATTGAGATATTCCGTGACTTATGAGGTGAACTGAGAGATTCAGTGACTTATGAGGTCCCACCGATGGCCGGGCCTAGATC
CAGGACTCAGGACGTTTAGGGCAGCTCAAACTTTTGAGGTTGTTTTCCTCCTGGGATCAGGTAGCAGAGAGGAACTGGAAATGTAAGTGGGAATCCACAT
AGTGGTGATTAAGGAAGAAAGCTGCCATAGAACCCAAATTCTCTCTTGTTAGCACAAGGGAGGTTTACCATGAGTTTCTGGAAGTTTCTAGAGCCATGGG
CAGTGCTGAAGAGGATCTGGATCATCAATGAGTAGGTGCAGCTAAATATTAAAGATTATGGTTTCCTACTGAATGGGAGCTTTTATTTCTTTAAATCATG
TTCTAAATGATTTCTTGCCCTTGCTGTTTAAATATAGCCATCCATTGGTATCCATGGGGGACTGATTCCAGGAACCTCCATGGATACCCAAATCCACAGA
GGCCCCAATCCCTGAAGGAAGGTGGTGTAGTATTTGCACATAACCTATGCACATCCTTCTGTGTACTTCAAGCCATCTCTAGATTACTTATAATACCTAA
TACAGTGTAAATGCCATGTAAACAGTTGTTATACTGTGTCATTTAGAGAATGATGACAAGGAAAAACATCTGTACATGTTCAGTATATATGCAATCATCT
ACTTTAAAAAGCATTTTTGAACCACAGTTGGTTAAATCCATGGATGCAGAACCCATGGATACGAGGTCGACTGTAATAGAAACTTTCAATACCAAGGAAT
GCATCTGCCTAGCGATTTTGCGAAAAAGAGTGTATTTGTATTTGAAAGAAACCGTGGAGTGGAAACACCTAAAACGTGCTTGTTCAGTTAACCTCAGTTT
GCTGAGCTGCTTGGAGCATGGGGTTGTAATCAAAGGTTGTCTTCTTCGCAGCAGACAATGTTCTGGGAGAAATAGTCCTCCTTAGTGCTGAAGTTGCAGA
CTCTAACCAAGGGGGTGGCAGCAAGTATCCCCGGTCTCTGTAGGGGCTTGAGTCAACGCCTGCACTGTGCAGAGAGGATGAGGGCAGAGAATTGGATGCC
GCTGGAGGGGCGTGTTGTCCTTCTACATGTCATGCAGGCAGCGCGGTTCTATACTCGGAGCCTCTGCTCAGCGTGTCTTCACCTAAGAACCCCATAATTC
AGGTTCCATCCTTGTTCCCTACTCCAGTGCTCTGCAAGTGAGCCCTTTGGTTTAGAGATGGGTTGGGCTTCTTTATGGGAGAGGAAGGGAGCCCTGGAGC
TGCAGAGGGGAGCAGGCATTCTCTCTGGGGTGCTGTCTCCTTTCTTCCCTAAATTGGAGGGAGATAATCCATGGAAAGGAGTTAATGATTTCTTTGCTCT
TCAAACTTGGTTTGGAAGGATCTCTCAGTCAAAAAGAACCTTTCGGATGTCTCTTGATATTTCACATTAATGGACTTTTCATAAGGACCACATGATGGGA
GAGCAGTGAGAAGTTTGGGGATGGCCAAAGCTGGGTTGTCATTTGAGCTCTGTTACTAACCCAGACTGGACAATGACGATGTCACTTACTCTCTCGGAAC
TTCTTTTCTTTTCTTCTTTTCTTTTCTTTTCTTTTTTTCTTTTTTCTCTTCTCTTCTCTTCTYTTCTTTTCATTTCTTTTCTTTCTTTCCTTTTTCTCTT
TTTTGGAGTCTCACTCTGTTGCCCAGGCTAGAGTGCAGTGGCGCCATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTGTCCTGCCTCAG
CCTCCCAAATAGCTGGGACTACAAGCGCCTGCCACCATGCCTGGCTAATTTTTATATTTTTAGTAGAGATTTAGTAGGGGTTTCACCATGTTGGCCAGGC
TGGTCTCCAACTCCTGACCTTGTGATCTGCCTGCCTTAGCCTCCCGAAGTGCTGAGATTACAGGCATAAGCCACCGTGCCCAGCCTGTTTCTTTCATCTG
TAAAATGGGACCACAATTTCACCTAATAAAAGAAGACATCTTTCTATTTAAAAGGGCTTAGGGTGTTGATGTTTGTGATAAAGGAGAGAATGTATATTGA
AGTGTTTTGAAATGTGCAAAGCTTTCTAGAAACAGAAGTTCTTACTCAAGTATTTTCCCGAAGCTTTGGCAAGATAACCATTTTTATTACCCCGTCTGTG
CCTAGAATGGGCCTATAAGCGCCACAATCAGAATCATTAGATATAGAAATTAAGAGAAATGTAGCCTCCTTTTTTTTGCCGGTGAACAGAGCTTTGGTTA
ACAGAAAACCAAGGCGATTTTAATTGCTGGTTTTTCTATTTGAAGGGGGAAGTTATTAGTAGAAGTCTCAATTCAGAAACTTCAAGAAGAAATGGGAGGG
TGTGGTGAGGGTAAGCGGGGGACTGCATTTCCTGTTTTCCTTTCAGATGGTGTTGGAAAACATTGCAGGAAAACCATGGATACCCACGAAGAAATTCCAA
AATTTATTCTTTTTGACGCCAAGGGCCCAGCCCAAAAGGTGACGAGTAGGAGTGGTCAATTTTTTTTTTTAAGAGTTGGGGCTTGCAGGAGTCCAGCTAA
ACGCTTGTAGGGTGAAGACAGAATTCAGAGGGTGACATCAGCCTGAGCGGGGGCCAGAAGAAACAGAGTGGAGGAGTCTGGTTTCATTTACAGTTTTGGG
TCAGTTCTGCAGTGAGGAGGGGGAGAGGAGGGGTCGGGGAGGGAGGAGGAGGAGGAGGAGGAGCTGGAGGAAGCCCTGACTGGTATCCCTGGCCCCAGTC
CAGTTTGGAGCTCAGTCTTCCACCAAAGGCCGTTCAGTTCTCCTGGGCTCCAGCCTCCTGCAAGGACTGCAAGAGTTTTCCTCCGCAGCTCTGAGTCTCC
ACTTTTTTGGTGGAGAAAGGCTGCAAAAAGAAAAAGAGACGCAGTGAGTGGGAAAAGTATGCATCCTATTCAAACCTAATTGAATCGAGGAGCCCAGGGA
CACACGCCTTCAGGTTTGCTCAGGGGTAAGTGTGATTTCTCYTCTGTTTTTCCAGGTTTGGGGCTAGAAGGAAATGCTCTTAACCTGAAGTGATCCTTTC
TAGGTAGCGTTAGTGGCTCTTACGTTCATGCTGATCGCCAGTTTTCTGTACATGTTTTAGGTCTCTGGAAGATTCCGCTGATTTTTCTTTCTCACTTTAT
GGCAATGGGATTTCCTTAAATTGGTTAAGGTCATGATTGCCTAAGAGTGTGAGCACTTTTCCACCGCGTGTCTGTGGCTGCTACACGCGCCCTGTGCATT
CCGGGCGGCAGTGTGTTTCGGCCCATGATTTATTTAAGTTACTGCCGCCTTCTAAAACCCATTCGGGATCCGCTTTGTTTGCAGAAGCGTCTTTGCTGAG
GACTAGCATAGCTCCCTGCCGGGCGGCTCCGCTGGGAGATGTTCTCTGAGCTCTCTGGGTGGTGACACTAGGTCAGGGTGCAACAACCTGCATGGGTTTT
CTGCCCAGGGCCGCCCATGGGAAGGTCCTGGTGGAGCACATTTGCTGCTTTCACAAGATTGGAGTAACTCTGGTGCTCAGGATCAGGGCCAAGTAAAGGG
TCGCTCAGTCATTGCCGTCAAGCTTTCGTCTTTCCAGGAACCTGAAGTCTCTATTGGAGACTTTGTCCCTTGGGGTTGCTTAAAGGAGTTGCAGGGGTCA
GAGGAGAAGAAGGAATTGGGCATTTGGGCAGCATGCTGAGTGTCTAAGGCAGGGCCCCTGGGGCTGCAGGGCCAGCCCATGCTGCACAGAGGTGAGGCCA
GTGCCGAGCTGGGAGGCCCCGAGGGCTGTTCTCTGGCCCGGAGGATGCAGGGTGGGGCTCGGGCCCTCTCTTGCTGAGGATGGACACGTTCGCTGACAGT
GGCCAGCCTGTTTGGGGAACCTGTTTCAAGGGGMCTACTATGTTAGATAATGAACGGGTATTGAAGTATGGGTGGGGTCACTGGGAGGGACTAGGGAGTG
GTTAAAGAAAAATCTGCTTCCACAGGAAGCYCCAGGAGCCAGTTTCGAGGCCGGTGCAGACCCCAGGAGCAAACCCCTCTGAGCACAGGGGAGTCTGCTG
TGCTGGATGGGGAGGCAGGGCTGTGGYCCCGGCTGACTGGCTTCTCTCCCCACATACAGCTCACCCCGGCGAGGACCACAGGGTGCTAGAGCTGCAGGGT
GCTCAGAGCTCACGGGGATGGTGGATGCTCAACCTGGGATCCCCCAGCTCCCCAGGGTCCCATTCTTAATGCTGTAAAAAACAACCGAAATGGCTTTAAA
ATCGAAGTTACATTGCTCCTAAGCAAAACTATATTGAAAACTGAGTGGGTGGCCGTTGATGACATTACTGGGACTTCTGAGGTTTTTGTTGGGCTAAAGA
TAATGGAAKAGATTTTTGGTCAGAAGCCACTGATGCAGTAGTTTCCTGGTTTTCAAAATGAGCAACCAGGGGCTCTGAGATGCGGAATTCCTTGCCCAGG
CCAGGGAGCGAGTGCCTGAGATGGCAGTGAAATCCTTCCCCATTGAAGGAGAGCAGACAAGCCAGTGACGGAGGATCCCAAATAACTCACATCTCGTTGG
GAAAACTGCTTTGGGCTCACTAAGACTCTACCAATGAACCGAGAAAGAAGGGAGGTGGACCGTGGGGCGGGGGCATCGGTTCCGTGACCGGAATACCGGG
GCTGGCCGCCCTGCTCAGGCCACCTCCTGGGGGTGGAGGGCGCTGAAGGAGGGGACCTGTATGCTCTTCTTTCTGAAGTGGGCTTGTAGCTGAGGATGAA
AGCCTGGGTGGGGAGGCGTGGCTTTTACAAAGATCAGGATSTAGGAACAGCTGCCTGTCTGGACTTCTTTGTTTAGGGGGTTTCTTGCTACCCAGAGGTT
TAGTTCTCTCCTTTCCTCACTCATGGTCGAGAGAAGCCAGGAAGCAGACACTGAGTGGAGCAGAGGGCTTGGGAAGGAATTCCATGTTGGGGTGAAGTGA
GGCTGTCCTGGCTTTTCCTATCCAGGCATTGGAGGGTGTGGCTACAGCACCTTTCTGGGAGGTGGCTGGGGAAGCCTCTAGAATGTTAGCCCTTGGCCCC
GCTCTTTCCCTGCTTGGCAGGGAGCGTGTTCCACCCCACTATAGTTGTGGCCCACAGGTGAGGGGACATGTGGCAAATGTCCAAACCTGGGGTCTGAATG
ATATTTTTGATACGAGGTAGGCACCTTTCTGAAAAATTGTCTTTACTTCMCACTTCATTTTATTTCTAAAGCATTCAGGACTCAGCAAATTGCACTGACT
TTATCATCAGTGCCTTTTGTGATTTCCTATCCTAGAACTTAATACGTCCCCGATSAGAAAGTAGGAAGAAGCTCCTCTCTTCAGTCGATTGTTGATTTAT
GGTTCCAATGAGGCTGCTCATCCTGACCTTAGTTTCAGGAACGGAACCCATAGACCTGGATGCCTAAAGCCAGCTTGAAACAAGACCGCCTTCTTTGGAA
GCTTTGGAAGCTGGCAGTGACTTTTTGCCAGCGAGGTTTCATTTGTTTCCTTGCTCAGAGTGTTCAGACAACTGGATCAAGCGTAGTCTTCACCAGCGGT
TGATATCACCTCCCACTTATATGTGAAATTCCATGTTTAGGACTTAAAATTCACCGGCAAGTCGTGAATACTATTGCGTGACACTTCCTTGCAGGCGCAG
TAACAGCTTTAGCAAAAATTTTTATTTGAAAGTTCAGTTTTGTCACTGCTCTTTTTGGAAGAAGCTGAAAATCTGCTATCTCTTGGGGGAAGGATTGCAG
GCGGTTTCCATCTGACAGGGATGTTGTGTACCAGGCAGCTTTTCCACCCTGACTTACGGGAGCAAACTTTTCATGGTGTCCTGGCTGCAGCAAGCAGGCA
GTAAAAAAYACATCACTGCTACATAAATAGCTGACGATTTGAGGAGGGACCTGACATTTAAAGAAAATCCTATTAGCTCTAGCTAAGAAAATGAAAGCCG
CAAACCCTCCAAATTTTAAAGTGGGGGAGCTTTAAAGTTTCCTACTAATTCAGACAGCCATGAACTAGACAAGAATGGTTATCTTCATTCTCCCGTTTCT
AGATACAGCTTCTCTGTTTCCACTGTAAAACTTCAGTGGAATTCAGTGTAAAAATTCAGTGCAAAGAAAGGACAATCCTATTCTTTAAATAAAACATGTT
GCTTGCCCCCTCTAATGTGTGGTCATGAATGTCTTATTTCCAGGGAGTATTCCACAGGTCCTGATTTTGCAGAGATATTCCCTTCAACAATTCACTTTGT
TAATTTTGAAAAATATAATTTTTAATACATTCTGGTCTTATAGTCCATTTTGGGAAAGAGATGAAATTTTGAGGGCTGGGCACTGTGGCTCATCTCTGTA
ATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCGCTTGAGCCCAGGAGTTTGAGACAAGCCTGGGCAACATAGGGAGACCTTGTCTCTACAAAAGCGT
TTTAAAAAATTAACCAGGCATGGTGGCATGTGCCTGTAATCTCAGCTACGAGGCTGAGTTGGGAGGATCACTTGAGCCTGGGAGGTTGAGGCTGCAGTGA
GCCGTGACTATGCCACTGCACTTCAGCGCCTGGGTGACAGAACCAGACCCTGTTTCAGAAAAAAAAAAAAAAAAAAAGAAAAGAAATTTTGAGTTAGCAC
GTTCATCCTGGTCTGTTTTTGAAAAGGCAGTTTGGTTTTCTTTCCTCTAGAGGGAGGTGTATCTCTGCGAGCTTCAGAAAAATCTCTGAAGTGGTGCCTG
GAGTCTCCCAGGGTGGAGTTTCAGGGTTTGTAGTAACTCAGTGATGACCATCTCAGCAGAGCTTGCGGGCAGTTTTAGGACTGATATTTCAATACATGAT
TGTCATTATTATATTTATTGTGGCTGTTCATAATAACGGAAGTGTACATACGTTAGAGCTTTGTTTTTCTTCTCTGCTCAGGTGTAAGTGTATTGAGATG
AAATTGTGCCATCAAAGGAGGCATCTTTGTTCCCAAACAATTGCATTACAAGGGTATTCAGCAAATAAGACATTTTATAGGAAGCATTTTACCCATATCT
AATTACAGAGGTTTAAATGAACAGTCGGGTGCTTGAGAACCAAAGTAGGTTTGCATATTCATGCCATTGCGTATCCCTGTAGAATTACCGGATTTTAGAA
CTGTAAGGGTGCTCGTGACATGTCCTTTGATACTTTCCCCTAATAATGGACAATGGGTTTTAACATACTTTTAAAAATTCACACAAGCTATGATTATGAA
TGTCTCGTCTTGAATATTTATTAATACAAATATATATTACTGACTCTCAGATTTATGTCTGTTCGCTTGAGATAACCAGCATTAAGACTCTGAGGGAGAC
AATTCTAGCTCAGAGCAAAACAAACAAACAAACAAACAAACAAAAAAAACAAAAACCTAACCCTTTGGTTGGTCTTTGTGTTCTCATGTTTACTTAAGTT
TAACAAGACCTATTGTGCATCATGGCCTTGAGCCCTGAGGTTCAGGGAGGGGATATATCCCYAATGCTAAAWGACGAGTTGATGGGTCCAGCACACCAAC
ATGGCACATGTATACATATGTAACAAACCTGCATGTTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATAAAATAATAAAAAAAGAGAATACAT
TCTTGGGGAATATTAAAAAAATGACTAAGACATAGCCCCCTCTCTTCTGGTTGGCAAACATATAATTTCTGTTTGGCTAATTGAAATATCAAAAAAACKA
CTACCTTGGTGGATGGTTTCTCCACGCCCTTTATGCTTCAGATGAAGAAAGAGAGCTCAGAGAGGTATGCCCAGTGACAGGGCCACAGAGCTAGTAGCAG
AATTGTCTGATGTTTCCAATATGCAGACATCTTGGAATCTGGACATTTCAAGGGGGACAAGCCTTTAAGAGTGTATTTTAGGGTGCCATGTGGAGAAAGG
TACTCTTCCCATTCCCAGTCTTCCTTGGAGTAGCCTCTTTTAAGTTGATTCAGCAGAGGAGTAACTGTTGCTTAAAAAAATCTGGAAAGAAAAAGGAGAG
AAGAAAAAAACAAATACGAAAAGTTCTGCCAAACCTTCTCCCAAAGGCAAATTGTTAGTCTTGTAGGGGTCTGGCTGCATTCAGCATAGTATGATCCTAC
TGTTCTCCTGAAGTTTAAACTCATGAAWTACAGAGAAACATTTGAGAATTGCAAGTGGCCAGGGAAAAGTACAATGGGAAATGTTTCTGTAAAACCCCCT
GTGTGTGCTATACATTAGGTTTTCAGGAACCCAGAGCATCAGGAATTGGTCACTGGAAGGAAGAGCTCATGGCTCGGTTTAATTTCAAAATTAAAAATTG
AACAGCAGCTGGAGTTGACTCAGATCTCAAGGGAAACCATTCCAGGAAACTGGTTTTTCACTTCTGGAATCTTCATTAGTTGATTCAGCAGCCCAGGGCC
GGTACCCAGAGTTAGCGCCAACTCAGCTAAACCCACAGCYGGCCCGGCGGTGCACCAGGGTGCTCTGTTTCTAACTGGGGCTGCAGAAAACCCATCATTC
ATCAGAGCCCAGGGCAACAGATGGAAGAGAGCAGTCGCAGGACTATGGCCTGTTCGAGCAACAGGCARGGAGCCTTCTTTTACACAAAAGGGAGGCTGGG
AGAGATTGGCCGACCATTGCTGACAGAGGCAGTAAGGAAGTAGAATTTCCCAGGTTACTGCAATAAATCCAGCATGGATGATATTTTATCAGATGTTCCA
ACTTGATTTTTGAAAAGGTTTCTGTTTTCAAGAATGATTTTATCTTCTCTACTTGATTATAAATTAGACTAGAAAACAGACAAAATATCTAACTTTTCTC
TTTACAAAGAGAGCACCTTTCAGCCACTTTAATCATTTACAGTGGAACACCACAGTTTTGGAAAGGTCAGTAGCACCTTAGTTCATTGCCAAGAAGGAAA
AGACAGGAATAAGTGCCAAGCTCCAATTTGGATCCAGCAGCGTCACGTGGCAAGGAGTTGGAATGGAGTGGGCATTTGTGCAATATTTCTTGAAGCATTT
TCTAATGCACCTTTCTTCTTTAATGTTGAAATGGAACTAGTCTCTGCCTGATGTTTATAATTAGCAGTATAAGTGCAGACAAAATCTTGTCTGGCTGCCG
TATATTTCAGAATGTGGAATGTGTTTTACATTTGCATGGTGGCGTCTAGCTTTTCAAATCACACCAGATATGGAACTTTCTGCCTCATGGTTATTATCTG
CAATGCTAGGAATATGTTTTAAAGTAATTTTTTCAAATATCTGGGTAATTAATCTGGAGTTTCTTAATTGCCTTTGTAATGGGAAGGAGACCCACCTCTG
AGGAGCTTGGCCTAAGCCTGGCTGCAGGTCGGCATATTCTTACAGGTGCTCTCATTCACAGAGGGAGGGCATTGGTAGGGGATGTCCAGGCCTTCTCTTT
CTGCATTGCTTTGTTATAATCCACAAGTTGCAGAACAGGTGTTGCTTTGTTAGATTTTACCAGGAAGAGTTGAAGATCTCGAATCCGCTACTCCATATCT
AACAAGGACCCCCGTAAGTGACAAAGGACCCCAGTAGGTGACAAAGGAGGTCTAGTTACCCTGCCTGATGAGAAGAGTTTTAAAATGTTGCTATCACAGG
ATACACATTCAGTTTGAGTCAAACAGATTATTGTTCTAGAGTATTTTCATAGAATAGAAATTCAAAGGCCAGGTGTAGTGGCTCATGCCTATAATCCCAG
CACATTGGGAGGCCAGGGCAGGAGGATCCCTTGAGCCCAAGAGTTTGAGACCAGCCTGGGCAATATAGTGAGATATTGTCTCTACCAAAATTCAAAAAAA
ATTAGCCAGGCGTGGTGGCGCACACCTGTAGTCCTAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTTGATCTCAGGAAGTTGAAGCTGCAGTAAGCTC
TGATCATGCCACTGCATTCCAACCTGGACAACAGAGCTATACTCTGTCTCAAAAAAAAAAAAAAAAAAAAGGGAAAAAAGAAAGAAATGTGAAATCCAAG
TTGTTAAATAAACAGTAAAAAAACAAAATTTGCTATATTTCTTTGGAGGTTTCTTGGAGCTCTTCCAAAACATTTTCTTTTGAGGATTCTCCTTTGGGTC
TTTCAAACACCAAGAGCATATTAAATTCCACTCTCCTCCTACCCTAATTGCAGGACTTAATAAATCCTTTCTTAGCTTCCTCCCTGAGGAAAAGAACGGG
GACTCCTTTCCCAGGATTCGTGCAAAAAGAGAGAGAAAGAGTGAGAAAAAGAGAAAGAAATGGGGCGCTCCTTCTTGCAGTCTAGGAATGGGCGTGGCAA
AGGCAAGGGTGGATGAGTGCCTCAAATTTACTGAAATTTGACTTTCTATTTCACAGTCAGTGTGCACGGCTCTCCCACTGTGGTCTTTGACTATTTCCAC
TGCTCCCATTTTAAACAGGACAATTAGGAACTAACAGAAGTCCCAGAACTTGATAGGAGGGACAGGCTGATTTTAAAAAGCAGTGCTTGGAGAAAACCAA
ATAAATGACTTCAAAATGGAAGCTCTGGATTTATTTGAGTCTTTGTTTTCAAACTATTTCCTTGTGTGCATGCGTGTGTGTCTCTTTCTTAAAAAAGATT
TCCAGACATGGAAAATGAAAAAGGTTTTGAGTAGGCTAAATGAAAACTAATTTACAGAATTGCAAAATAGCTTGGGAAATCATATTCATTGGAATATGAT
TGAATATGATTTCAGGTTGAAGGGCCATGTAGGGCAATCTTTCTRATGAAAGGTATCCTTTTAAATTTCAAAGGGATAGAAACTAAACGGAAAAAGGCAC
CTCAAATCCTTTTTAGAATGAGGCAGAGTAAACAAAAAGATGAATAATCCTAAACAGAAAGATGAGAATGAAAATGTGATGAATGTCTCTTATTGAATCT
GTTTCCTTTAGGACACAGAATCTAGGATGAAGGAACAGACCCCTTCCAGCCCAAGGATCTCAAGCAGCCAATTCTGAGTCTTTTTTTCATATTTGAAAGA
ATGATAGTAGACAGCCGACTTCCATTGACATAGAATCTGTGGTGTGTCACCACCAAGGAAGTCTATTTTTTCCCCAAAAGGCATGGGGAGTTTCCTTGAG
ATCTGGGCCAAATCTGGCACAGCCTCTAGGGTTTCCCGGGGTTCTTCCCATGAGCTTTGGAAATGCTAACTTGGGTTAGGGTTCTGGTTCTATSTTGTTT
TTATCTATGTAGCTTTGAACAATCACTTTGCCTTGCTGGGGTTTCAATTTCTCAGCTATAAAATGGAGGGAAATCAGCCATCGGATGGTTGGGAGGAGGG
CGTGAAATCCCACCCACAAGACAGAAGCCCAGGAAACGTTACCAGCACTCTCCTCTCTCCTTCCTCCGGGAGGGTGGTGTCGGGGAATGAGCGCGGATGG
CTGCCTCATTCCCTCTTGTTGAAGAGGGCGGGTGGTCATCTGGKGAGATGGTGTTTGACATCTTTTAATAATCTAAATGAAAAAGTTCTCCAAAATTTGC
TGCCAGGGAATTTCGTTTTTTTATAAATGGAGACTCCAGGACATGACAAACAATAGAAGAGAGTTAATTGCAAACGAAAATATCAGCAAATATTCAACAG
CTGGGCTAGGAGCCCACGAGCCACAAGACCTGCTTCCCGCATGATGGCAGGAAAGTGTGTGGGGCCAAAGGCGTTTTTCCCACCTGGGAATTCAGCTCAG
TCAAACCATATGGGTTCTGAATCATCAGTGGAGCCTGGATAACGCATTGTCCTACAGGCATTATCTCCCGTCCTTTTCAGAGCTGGAAGGGCTCCTTTCC
TTCTCTTCCCTCCCCTCCTCTTCCCTCAATATCTGGATATATTCTGGATAAAATAATTCCTGTGCACAGTGTATTTATCCCATTACTTTGTGTTCCAATG
GGAAGTATCTCCACTGAGGGGGCTACTCCTCCAAAGATTCACATCTTGAAAATAAAAATCTTTACATATGATTTTCAATGAACTAAAAGTTCATTTTACT
CAGAATGGTTGAAGTAAGTGAGTGATGTCTTAGACTTCCCGGATTTTATTTTGTAACTATTTAGATTGTATTGAGCACTCTGGAAGATGAGAAATGTAAT
TTTGGAATTGCTCCAGAGTGAGCCCACTCAATGCTTTATATGTGACAGAATCAGTGGATTCAAAGGCTTTCACTGTGTGAGGTATGGGAATGATTAAGAA
AACCATTAGCAAAACCTGCTCAAGGCATAATTCACTTGTGCTCTTTGTCAATGCTCCCTGCACAGGTGTCTGCAGCTCTTCCCATCCCAGACTCAACAGT
GAGGAGACAGCTCTCATCTTATCAYGTCCTATTTTTTCCACCTGGATTACAAAGCCGAATGCTTTACAAAGAGCCTCTATAATACTCTTGTGTTCTCATT
CACAAACAAAAATACCACTTAAAATCATGCCTCTTGAACATGGATTAAACATTTAAAGTAATCGAACTGGATCTTCCAGAAGATTTGCATTAAAATTTTT
AATTGAAGCAGTGATGCTTAAACTTTTGGGGGGTGAGGAGTGGCACAACTGCCTTTTAGAATCACATACAAACATGGACCCTTATCTCCAGAAAAACCCT
CATCCATAGATGCAATTTTGCACTCAACTGTGGGAGGATCATAGACTCTTTGAATCTGTTGATCCCGTATTAAAACATTGATCTGGACCAGTTACAATAA
TACAGGTTGTTTTGGAAAGAACAGGCCATTTTCTTAGAAAGAATCTAGCAGGAAGCTTACCTTTGCTAAAAAAAAATTGACGCTCAAGCTTGATAGAACG
AATCAAGAATAGCACATATAAAATGTACTTTTATATTATTCTGAAGTGTATATCATTATTTAATTGAGGTCATACAAAAAATTAGATATTGCAATTGCTT
TTTTTTTTTATTTGAAGAAACACTCAGGAATGGGTCTAACAGACTGTAGGGAAGAAAGGTAGAGCTTGGTGGAAAAGTCTGGAAGGTTCCCAGGGTTGCA
TGGGCTTGAGGGATTCCTAGAGAGTGAAGGGGCAAAGTTGGGGCTGTGGCACGGTGGGGGTAGGGTCAACCTAAGTGGAGGGAGGAGAACAGGCAGTCCA
GCCTGTCGGGGGTCCCTGAGCCCTGCTGTGCTGCGACCGGGCTAAAGCTTGGGAGCATTATCAAACCACAGCACAAGCACTGGAGACTGCTCTTCTACAT
TGTGTTAACATATATCCATGTCCAAAAGGCAGTGACCATTGCAAGGSAAAAAAAATCGGGCTGAGCTTTTGCAATACTGCCGCTATCACCACTCATTGCT
GTCACTTTGTTGCAGAAAAATATCTGTTCTGTTGATAACTGGCCTCCTGAGCATCATTAGAACAGCATTCCTTTCTCACTGTTGATGCATTTCCAAGAGA
CTGCTGTATTGACAGGTGGTTCTATTTTAGCTGCTGAGATCATGGCTTCAAGTTCTCAGAATCTGAATCACAGGGTACATTTGTTTCATCACAGGTGGTA
CTTTTTGTTGACTTTCTTTGGAAATCCAAAGCCACATGGGTCCTGGTGTTCATTCCCTTGTTTGTGGCTTCATCTGTCTCCATCTCACCAATTTTTGGCG
GGTCAGGCCTAGGGCCCACACTGTGTTCCGTCTTCCTCATAGCTGGGCCGCAAGATTTGGACTCCAGCTTCTCCCTCTGGGCCTGACCTCAGGCAGGAGG
AATTTCACGGCAAATCCACGGGACTGAGCTTCAGGTTTCCTTTGCACCCACTTAGCTCCTGTCCTTGACTGGCAGCCTCAATCACTCTCTGTGGCTCTCC
CTGTACCTTTGCTAAGTGGTCCATCTGGACACTAGTCTGCTGCTCCATTCATGGCAAAGTTACATCACTCATCAGCYGGACAGACTCTCCTCTGCTATCA
ATCTTCAGRTGGCAAGGCTGAGAACATTAGATCATCCTCATCCCTGATTTCATTAGCTGTATGGGGAAAATGGAATTCCTGTGCTACACAACAGACAACC
ATGAAGACTTGCAGAGCCCATGGGGGCACCTGTGGAGAGAGGAAGATTAAGATAGAGATACAAAAGCTCAGGCCTTGGGTGGAGCCGATTCCAAAGCTCA
GAGGATACTAGTCAAGGCAGAAGCCATGTTTGCACCAGGTCTGAATGTTCATATTAGATTCTTTCCCACTTTCATGAGACTCTGATCTTCTTTGCCAAAC
CCTAACATTTTGCATGACATATACTCTTTTCTTATTTCTTTCCAAATCTTATTTAGAAGTAAGGGCAAACATTGTGTTATTTGAATACAGCGGCATGTAG
ACACACTTTAGGATGTTTAGTTGTACTGTTTTTTCCTAGTAGCTCTTAAACTCTATCACACCTCAAAAAAGAGATGCTGCACTTACATCATTCCTGTTAA
ATTGATGGCTACATTTTAGGGGTAGTTACCCATGCTTTTAAAACCTGGCAAATGATATTTCCTGTCCTCATTTCTATTTTAATTGTGGTAAAAACCATAT
AACATAAAACATACTATCTTGACTATATTTAAGTGTACAGTACAGCAGTGTTAACTATACGCACCTTGTGCTACAACAAATATCTATAACTTTTTGATCT
TGCAAAACAGAAGCTCTATACCTATGGGACAGTAACTACAACTGCCTCCCTCCTGACAGCCCATGGCCAACACCATTCTAGGTTCTTTTTCTAAGACTTT
GACTACTTTAAATACCTTCACATAAATGGAATTATAAAGTAATGCATTTGTCTTTTAGTGACTGGCTTATTTCACTTAGCATAATATCCTCAAGATTCAT
CCATGTTGTAGTAGATAAAAGGATTTCATTCTTTTATAAAGCTGAATAATATTCCTTGTATGTGGCATGTATAAGACTTAGTATAATACAGTAGGCCGTG
CACAGTGGCTCACGCCTGTAATCCCAGCACTTAGGAAGGCTAAGGTGGAAGGATCTCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATGGCAAAA
CCCTGTCTCTACTAAAAATACAAAGCTTAGCTGGGTGGGGTGGTGTGTGCCTGCAGTCCCATTTACTCAGGAGGCTGAGAAGGAAGGATTGCTTGGGCCT
GGGAGGTTGAGGCTGCAGTGAGCTGTGATCGTGACACTGCACTCCAGTCTGGGTGACAGAGKGAGACCCTGTCTCAAAAAAAAAAAATTACAGTATAAGT
GGTGTAATAACAGTGCAAAGTCCTAGGAGAACTGTAGGAATAGCAGTTAATGAATTTAACAAATATTTATTATACACCTACAATGATACAGACAGGCATT
TTGCCATACTCTGTGCTCAGAGTGTGGCTGAGCTTCACAGTCCTGGAAGACTCTTTGTTTATGATAAAGCAGCCTTGGAAATCTATAATCAATTTCATAA
TTGCAAAAAATTCCATTGTGTGTGTATATATACATATATATACTTAACCAAGGAAGAAAAAAACCTGTGCACTAAAAACTATAAAACACTGTTGAAATGA
ATTAATTTCTTTATTCATCTCATCTATTGATGGACTTTTAAGTTGTTTCCATCTTTTGGATATTACAAATAATGCTGAAATGAACATGGGTGTGCACATA
TATCTTTGAGATCCTGTTTTCACTTCTTTTGGATATACYCAAAAGTGGGATAGATGAATTATATGATAATTCTGTTTTCAGTTTTTTGAGGAACATTCAT
ACGATGGAGGCTAGCCTTTCCCCACTGTGTAGCTTTGTTGAAGCTCAAAGATCATATACATGAGGTTTTATTTCTGGGCTCTCTATTCTGTTCCATTGGT
TCATATGTCTGTCTTTAAGTCAGCATCATATTGATTTCATTACACCATTTTGTAATATGTTTTGAAATTATAAGTGTGAGGTCTCAAGCTTTGCTATTTT
CCACCCCTTCATTCTGTTAATGTGGTGTATCACATTGATTGGTTTTCATACGTTGAAACATCCTTGCATTCTAGAAATAAGTTCCACTTGGTTAGAGTGT
ATAATCCTTTTAATGTGCTGTTGATTTGGTCAGCTAGTATTGTGTTGAGAATTTTTGCATCAGTGTTCATCAGGGATATTGGTCTGTATTTTTCTTTTCA
ATATTGGCCTTATAAAAATGAGTTTGGGGGTGTTCCTTTGTCTTTAATTTTTTTGAGAAAAGTTTGAGAAGGATTAGTGTTAATTCTTCCTTAAGTGTTT
GGAAGAATTTTCCAGGAGAGACATCTGGTCCTGGGTTTTTTGTTTTTTTTTTATGGAAGGTTTTTGATTACCGATTCAACCCCATACTAATTTTAAGTCT
GTTCAGAATTTTTTTTATTGCTTCATGATTCAGTCTTGGTGGATTGTATATTTCAAGCAAATATCTATTTTTTTTCTAGGTTATCCAGTTTCTTGGTGTG
CTATTTTCCTCACTTCTTACAGATCTCATGTAGTCTTGTCAGTCTTTCCAAAGTCTTGTATAAACAATTTCACGTGCCTGATTTGCTCTCATTTCCCCTT
GCTTTCTTCAGGGAATTGCCAAATTATTCCTGATGCAGGGGATATAAAACCAATCTGTAAGCATTTGGAGTTTTAGAATTATAAGATGAAAAAAGTCACA
TTTCAAAATCTGACATATACTTGATACCCAGAAAGATGTTTTTGATTTTCATTCACACTGATGCTGAATGCCTTTACATGCTGTAATCTGTGAAACAGAC
TTCTTTTTAACCTTCAAACCCTAACAGTGAAATGATGATGAAAACTCAATCTCCCTAGATTATATGTATTTCAGTTTCTTAAGTCAAATGGAATTTCTAA
TTTAACTGTAGTCTACACTATATCATTTCCAATATCAAATAATTCTTCCTGAAACTCAATATAAGAAAAAATGACAATATTAACTAGTGTCATGAAAGTT
CATGCTGATAATGAGATTGAGTCTGGTCCTTCCCCTGGGCTTCTCCGGGGAAATGTCAGTCGTCTACCCATTCTAATTCTCTCACTTGGTCACAGGGAGG
CAGTGAGCTCCACCATCAAGGGACATGGGTCCCACTTACAGTTAATGGAGTCCGAGAGAGCAGATATTTGCAAACCCAGTGATCTGGGCTCAGTGGAGGC
CTGGGCAGGTGGAGATGCCTTTGGTTGCTGCTTCAGAGGAGTAAGAGCTTAGCAAAATTAGACATGGAGAGGAATAGCCCATGAAATGTGTTTGGGGAAT
TCTGGGTTAAATCAAGTACAGCAGGTTTCTTTACTTTATTTTTCAGAACTGCTATATATTAAGGTATATTGTAACTGTTCCAGAAGGAGGCTTGGTATTC
AGCACTTTCCAAACTGCGTTGCTCATGGAATGCCTGTTTTTCCCCTTAGAACATCGAATGGAATGGGTGTTCCATGAAATGTGCTTTGGGAAATGCTGAT
GAATGAAACGTTGCTGGAGAATGGTAGTTAGAGTTCACTTACCATCCATTCCGCGTCAGGCATTTACCAAACAGGCTACCACATGCTCCTCACAGAGGGC
TGGAAGAGAGGCATGGCTATCATTGTTCTGTGTTATAGAGGAGGAAATGGAGGCTTTGAGCAAGTATACCACCTGCCTGAGGTAGGGTATGGTGGATCCA
GGATCCAGATTTATCTGATTCCAAGCACCTTGTCTTTCCCCAACATCTCTGGCTCCTTTTCTGATTCCTAAAAAGCCCAAATTCAGGCTGGTGAACTTGA
TTGAAAAGTTGCTATGGAATCGTGGGGTTTTCATGGAGAAATAAAAATGTTCTTCTTATCCTCTCATCTTATGAACCCTCAGTGTGGCAGGTGCTATTGA
GCACCAAGGTGTCTGAATAGTTGTGCACCTTGGCCACTTATTCTCTGCACCCCCATTTTTTCCTGTAAGCATGAGGATCAGCATCTACCTCTAAGGATAA
TGTAAAGATAAATAACACACATTATGAAAAATTATGAAAAACTGCAATGATCACATAGTAGATGCTGAATAACTTTTGATAACATGGCACCCAAAACAGC
GGTTTAATAACATCCTAGCCTACCTGTGTCGCCAATGGCCTTGTTCCCCAGTACTGTTACCCAAACCTCTGAAAAGGGAACCCCTGACCAGAGAGCTCCT
AACTGGGGAACCCCTGGCCAGTCTGGGTAAGAAGAGTCACTGACATGCACATCATTGCAAAATGAAAATGAGCTTCTCGTTCAAATGTTTTAAGAATTCC
AAGATAGCAACATCAAAGCATCAAACTGAGCATGGGGCCCTTCAGAGCACAGGGTCCTGTGGGCAGCCCCGTCTGTGGTCTAAGAAAAAGTTAAAGGAAA
CCAGAATCCTGCATTAAGGAGAGGAGAAAAAAGATGCTGTCCTGGCAAGGGGACTTCAGCCTAGACAGAAAGACCCTAGCTCTCTGGAGGGGTCTTAAGG
GAGACCCCAGCCCCCAAGCTGATCTCTTAGATTGGAGATTGGAGAGTGAAGAGGCTGTCACAAGATCTTGTGGTAGGAAGAAAAGGTGTTGGCAGGGGAA
AGGTCTGATGGCGCACGCTACTGAGCTGAAGTGAATGTGAACTTGGCTGGTGGGGCATCATGTGTGCGGCCCCCAGAGGCGCGTGGGTATGGGAGACTCT
GCATCAGGGCAGTTAGCCTCCAGGTCTGGCTTCACAGTCTTACTAATTAAATCACCCCAGGCTCATTCCACTGTGAGATTGGAGGTTGGCATATGGCAGA
TTTTCCTTGGAGGAAAAGTGCTAAATATTAATAGAGAATATGGACAAGGCTTGACATGGTCCCAGCTGCTGTGGTTGGGTTGCATTTGGTGTAATTTGGG
CAAAGCCCGTTCTCTCCATAAACTGAAACTTTCCTCTGAGSTTCTTTTAAACATGACTTACAAACTTAAGCTGGGTGTCAAAACCTGATGCCTTGTGCCT
ATGAGTGCTTTTACTCCTGACCCATTTCCATTCTGCTCTTTGCTTAGGAATATGCTATTTCCAAATTGCTGCGTACATCACTTAGGGAGGAAAAGAAGGT
TTAATTGCATAGCTTTTTAGCTGTGGCCAAAGTAATAGTCACTAGATTCAAAAATTCTCATTTATATGTTTAATCAAAACTATCTTTCATAATGGATAAA
TTTTTCATTCATTAGTAATTTGAAAAAGAAAGAGAATATTTTCAGATTGTGGAGAAACTACTATGAATGCCTATTTTCTAAAAATGTAATTGTGTTCTTT
GAACTATGTTTAAGAATGTCCAGAGAGGAGAGTGAGCAGTGCCATTACAGGTGACCTATGTTCTGCTAACAAGAAGAGGTCTGAGGTCCCTTTAGACAGA
GAGCTCTGCCTATTCACTTCTCACTTACCTATTCTTTACCTTCCTCCCACCTTCCCACCTTGCCTCCTCCCTTCCTCCCTCCCTCCTTCCCTCTCTCCCT
CCCTCCCTCCCTCTCTCTCTTTCTTTCTCTCTTTCTTTCTTTCCTTCTCTCTTTCTTTCTTTCCTTCTCTCCTCTTTGTTTTTCTTCTGCTTCTTTCTCT
TCTTCTCCTTCCTTCCTTCCATCCTTCCTTCCTTCCCTCCTTCCCTCCCTCTCGCCTTCCTTTCTTTCCCTTCCTTTCCTTCCTTCACTTCTTCCTTCCT
TCCCTTCTTTCACTTCTTCCTTCCTTCCCTTCCCTTCCTTCACTTCTTCCTTCCTTCCCTTCTTTCACTTCTTCCTTCCTTCCCTTCCCTTACCTTCCTT
CTCTTCTCCCTTCCCTTCCCTTCTCTTCCCTTCCCTTCTCCTTCCTTCCTTCCCTCCCTCCCTCCTTCCTTCCTTTTATATATGCATATATGTGCGCATG
TATGTATCTGTATAGATTTTTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCATCTATCTAACTGTCTATCATCCATCCTTTTGCTGC
TGGTTCAAAGAATGAATCAGATACAAAGTCTTCTTGGAAGTCTAAAAAGGAYGTAGAAAGCATGGGATTTTGAGAGATTTTGCATAATGAGAGTCAAAAA
CTGATCATTCCCTTTGCCCTGTTTTCTCTTTTAGGTTCATATTTGGTGCTTAGACAAATTCAAAATGAGGAAACATCGGCACTTGCCCTTAGTGGCCRTC
TTTTGCCTCTTTCTCTCAGGCTTTCCTACAACTCATGCCCAGCAGCAGCAAGCAGGTAAGAGCCAGAAACGTCCTTGATTTTGTAAAAAGGAATATCATT
CTTTGATTTTAGATCTTAGACATCAGGCACTGACATAGAGCTTAGATATGTTCTTAAGGTAGCTAAGCCATTTATTATAGGATAGTCAGATAGGATAGTT
YTAGGATTTATAGRCCTTTTCAGATACTCTTTATCCAGTGAGAGATGACCTATTTTTATTAAAACTTGGGTTTGGTATCTTGGAATTGGCTTGAAAATGA
TTTGTTTTTACATTGGATGTGAACGGAAAGTTTGTATCTCAAATGTTTTACCACCTGAAGGGACTTTCCACATTTCTGGCATTGGCTGGTCTCTGAGCAC
ATAAAGTAGGGAGAAGTCAATGATTGAGAGTAAAAACTATTTTCCCTGAAAAATACAAAGATCACCCTCTCTCTCTAACTCCAGATGCAGGAAGGCATTT
TTCATCTAGGATCCTTGAATCTTTAAGATTTCTGTTTCCCAAAACGAATTAAAAGCATGGGTTCTAATTAACTCTATTAARAATTTGATTTCAGAGTTTT
AGAAAAGTGGGAAATGCTTCATGCATTGCAAGCTGGAAAGGACTCAGGTGGGTCTCCCTCTCCTTGACCCAGAGAGCTTGGCCTCTGAGGGATTCTTYCT
CCAGGCCAGGTTGCTCTTAGATGGAGGGAAGTCTAGTGTCACTTCAATGGAAGAAGAACGTGGGTTGGGGCATCAGGTCAGCCTGAGGTAAGTAGAGTCC
AGCAGCAAGCCTGGCTCACAGCTGCAGAAGGGCACCTCCTGGGGCCACTGACAGCCTGATACCCTGAGCTCCCACCCTTGAGGGAGAACTGGGTTCATCT
GGAAAYGAGATAGATAATGTTTGACATCTATGGAGACTTTTCTGGCTCTGAAAAATATGCAGTAACTAATAGAGTACAGTTTGTTCATGCTCAAAAAATC
TGGAAAAAATAAGTCTTTTCCCTTCTCTACATTTACACAAGTCCTCCTCGCTTAAAGAACATGTATTTATTATATTTATTTTTCACGCAAATTACCCAAA
GCATTGGGGGTTAGTGAATGGAAAATAGCAATTTTTACTTTTCCYTTTTTGTCAAGGCCCGGTTTTGTATTCCAAACTAAAGAATGAATTTATAAAATGA
TGGTTGGTTGTCTGTGATAAGACTTCCTTCTGGTTTAATCAGGTGGGTCTTGGGGCTCAAACTGCCACAGGGAATCATACTTGAGTTAAAGACAGCCCAG
GAAATTGTTTCCCCAATCTGGAGCATGCTACTGGCCCATTCATGATGGTCTCTGAGTATGGAACTTGGGCTAGTGACTGGGCACCAGCAGCTATTGAGTG
CATGGGCTCAGGTCCCTGGTTCCCAGGTAAGTGAGTCTACCTTCCTGTATTATCAGTGAGGTGTGAAGTGTTTAGTAGMAGTATAGTGTAAACCAAATTT
GTTTAGGAAGGCTTTGCAYTGATAGGAAGTAATTGCTTACATAGTAGAAAAATCTAAACCAATGTCTTTTTTTAAAGATGTCAAAAATGGTGCGGCTGCT
GATATAATATTTCTAGTGGATTCCTCTTGGACCATTGGAGAGGAACATTTCCAACTTGTTCGAGAGTTTCTATATGATGTTGTAAAATCCTTAGCTGTGG
GAGAAAATGATTTCCATTTTGCTCTGGTCCAGTTCAACGGAAACCCACATACCGAGTTCCTGTTAAATACGTATCGTACTAAACAAGAAGTCCTTTCTCA
TATTTCCAACATGTCTTATATTGGGGGAACCAATCAGACTGGAAAAGGATTAGAATACATAATGCAAAGCCACCTCACCAAGGCTGCTGGAAGCCGGGCC
GGTGACGGAGTCCCTCAGGTTATCGTAGTGTTAACTGATGGACACTCGAAGGATGGCCTTGCTCTGCCCTCAGCGGAACTTAAGTCTGCTGATGTTAACG
TGTTTGCAATTGGAGTTGAGGATGCAGATGAAGGAGCGTTAAAAGAAATAGCAAGTGAACCGCTCAATATGCATATGTTCAACCTAGAGAATTTTACCTC
ACTTCATGACATAGTAGGAAACTTAGTGTCCTGTGTGCATTCATCCGTGAGTCCAGAAAGGGCTGGGGACACGGAAACCCTTAAAGACATCACAGGTAAT
GGCAAYGCCACCAAGCTACGCCCTGCCCTGCTGTTCTTGGGAGATGAGCTTGGCAACTGCTGGCCTTAAAGCAACAGCTAGGATGGYGGGYGGGCCAGGG
AAGAGATGAGTGTTCACAGGTTTAAAAACAAAGGTTTGATTTGGAATATTCTTCCATAGTCTTCTCCCCAAGTAGGGCATTCACCTACATACAAGAAGAG
TCTTTTTTTAAACAACTAATATTTTCAGTCTAAAAAAACCCACATTCTAATATTATGATCCCACAAAATACCTCTGCCTTCCTTAGAAAAGAAAGCCTCA
GAGTGGTGAGGTGTGCATCTGATCAAACTCCTCTATTTGGTGTTGGGATCTGTTTCCTTTAAGGAAAGCTCCCTGTTGGAGAGTGCGTGAACTGAGACGG
GAGYGAGGGCATCTGTTTTTGTGTCCAGTGGACTAGCAGAGAGCTTCTCTCTTCTACTTTACGGAGTTAATTTAAGAGTGTTGGTAGAATCGGAATTACA
AGAAACCTCAGCTATGATCCAGTCTAGATTGATTTTGGAAAAAATTTAGTCCTGAATGGTTAGTGACAGCCGGAGCTGGAGGCTGTGCATTTGGGCTGTG
GGTCTGGTCTTCTTATTTCTTCTCCATGCGGTAATCATGGCTGTGCCCACAGAGACTCTTCTAATTCTAATGGAGTTGATGAGAACCACTCTGGAAGTAT
TGAGAGCACACGGACATTGCATCGATGTGTCATGTGCAGTTGCATGTACAGAGCTAATTGGCCGACAGGTTATTTAACCAGTTAAGCCTGTTAGCTCTCC
TTCCAGGGCTAAGTGCCTAAATGGCCAATGGGGAAGGAATTTGACAAGTACAATTTCAAACTCTACCATACCACAGCAACTGTRATGAGTGCCCAGAGCT
TACTCATCAGCGATGGGCAGAGCAGAGGGACCTCCCCTTGTTAGAAAATGAGTCCATGCAGCCATTTGATAGTTGGTAGCAGAGAATTCTGGGTGGAATG
AGCAGGAAATGAGAGAGGAATCCAGGGGGAGAGTTGAGCTCCAGAAAGGAGACACACATGTTCTCTGAGATGGAGGGAAGGCATGAGAAAAGGGGCTGTG
TTTCCAAGATATTCAGGTGGATAAGAGGCACATTGAGAGAGTTCAAGTTGAGTTGACATCCATCATCTCAATAAAGGAGGGAAGCAGTGGGGCTTGGGGG
CTTGGAGGGATTGAAGTTATTTTTGATCAGCTGCTATAGGGATGTGAAGAGGGGTCACAAAACATTCAGGAAGCAACTGCTGATTTGAAGTGGCATCCAG
TTGCTATCAGAGATTACAAGTCAGTGGGTGTCTCCATTAGTGTGGATCCCTGCCTTTCTGCAGATATCTCAGGCACTCCCAGGATCAAAGGAGTTCCCAG
AACTGGAACTTGCAAAGAGGGAACAATAGAGAGGACAGAAGAAAATTTTCTCAGTAAGGAAATCCAGAGTGGTAGCTAGTAAATTCCTGAAACAGCCTGC
CATGGTGTCCTAGCTGCATGGGGAGCTAATGAGAGCTGGAATGGGCCAGGAGACCTCTGAAGAGCCAGAGGATGAGAGGCCAGGTCTCGGAAGGAGAGTC
CTGGAGACAGCTGAGTGTGCAAGTTGGAGACGCTGCTGGTGTGTAGACAGGGAGACCTCTGAGGGCCAATCGCGGGGCTGGAGGAGTTTCCAATGGTGCT
CAGTGTGGTCCTCAGATGTGTAGGAACTATAGAGAGCCAGCCACTGCAGAAACCAGAGAGGGTGGTGCTCACAAAGGTTGTCCATACAGACCTTAAAGTC
TGGAGATGACCACAGAGTCTGCAGTGTGAACGCAGGCTGAACATAATGTAACTAAATCATGTAGGAATGTTGGAGACTCTCTTCTGTGTATTTAGTAGGC
ATGAGGAAGTGGATAATTCTTTGAATCAAAAAAGAATGAGTGGGCAACCACATGGCATAGGGGAACTGATCATAGGAAGCAAGATTTATGAACAGATTTT
TCTCCTACACTTTTAAAAATGGTTACCACCAAGATGGCCAYTGGGACAGGAGGTAGGAGGTGAGGTGACTGATGGAGAGTCAGTCTCTTGTGAATACACA
TGGATGGTGGGGCAGGAAAAAGAGAGTTGAGGCTTGGAGGCACACATCACTCTACAGGACCACATCGGAGGGACAGCAGAAGAATTGCAAGATTGCAATC
AGAATRCTGGAGCAGTTGCAGAGAAGCAGTACCAGATGTCAGTTTTTCATAACAAGGATTCAGAAAGCAGGAGCTGAAGAGAGATGACCCAACATCAGCA
GAAAGGAACTAGCTGTCTTGAGCAGGCAGAACTTGATGAAGAAGAGGGTTTCAGAACTAGCCAGCTCCAGGGTGTTTCAGAAGTTTGTTCATAAAATGGT
TTTCCCAGTGGTTACTCCTGATTTCAGCTTTAACGGGGCTGGCAGTGCTGATGCCCTTACCTGTGGGTCTGCTTCTCCATAGGAAAGAGTGAGAGGCAGT
TCAAACACTGCAAAGTGTTCCCTGCTTCCAAATGACAGGCCTCACCCCTGGCATTACCACACAGGCATCAGTCCTGCCAAATGACAGGAAAAGCTGGGTG
TCTCCAAGAGCACCCCAAACCAAACACTCAGGTTACCAGGAAATGACAAGAGGGTATCTACAAYGAACTGCACTSCTCGCTACGATAGTCTCAGTATCAT
TAATTCCCTGATCCATCACATTTCGGAATATCGGGATAATAACAAAGACCTACCAAAAAATAGTGAAAGGGGCTCACGCCTATAATCCCAGCACTTTGGG
AGGCTGAGACGGGAGGATCATCTGAGGTCAGGAGTTTGAGACCAGCCTGGTCAACATGGTGAAACCCCGTCTCTACCAAAAATACAAAAATTAGCCAGGT
GTGGTGGTGGGCGTCTGTAATCCCGGGAGGCTGAGGCAGGAGAATCGCTTGAATCCAGGAGGTGGAGGTTGCAGTGAGCCAAATTTGTGACACTGCACTC
CAGTCTGGGTGACAAGAGTGAAACTCTGTCTAAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAGTGAAAGGGACCAGTAGAGAAAT
GGAACATCTTTTATTGACGTTTTGTTATACTCACAAAAATAGCTGAGTTTGCCTTTATGTTTAACCATTATGTAATGGACAAACAATGAGATTACCATAG
TGAATGCTAAATGAAACTACCAACATCGTGTGTTTCCACACAGATGATAAAACCTTTGTTTTTATGCCAAGAAAGCATCTCTGTCTTCTAGTGTCCAAGC
CACTAGCAGCACCAGGGCAGAAAATTAATCCATTCATGTGTCTTTTCTAATTAACATCACTCTGCAGTTCCTCCTAGTACCACGTCCCGCTGCATGTTCC
ACGGCAAAAACATAGGATAATAATCTTAGGAAGAACAGTACATCTCTGCTTATAGTTTTTTGGAAAGCCAGTTAGAAGAGCATTATAGAGATTGCTAATT
AGTTAGGGCTGCCTCTTCTTACTACCTGTCTGCTGGGTAACTTCCCCATAGAGTGTTCTTGATTATAAAACACACATATGTGTAAAATATGAACGATCAC
CACTGTTGTCAATGAACTCTACTCAAATAATCAATCTCTAATGGTTGTGTTTTTAAAAATCCCTCTGTCATTCTTTAAAAAAATGAATATACCTGAGATA
TAAAACCTTTATTTTAAAACAAAAGCTAAAGGTGACAGGGAGGATTTTGGCATCAGCTTTCTTTTCTCTGTAAAGGATGAAGATTTTTAAAATTTGTAAA
ATATATATACAATTTTGTGTTTTACATAGGAAACAAGAATGGGAACTTGTTTTTCTTAATGAAAGGAGGCATCACATGAGCTAAGAAAGGCATTGTGCCC
ACACCAGTGAGCTCGGGAAAAGAGCTTCCAGGGATGTCAAAGGAAACTGTGAATTTTCCTTGGACACTGTAAAACTTTTCTGTAGAAAACACCACAGAGG
ATGTGATACATAAAGCATAGAAGCAGAAAACCAGACAATTTTAAAGCTTTTAAATTGTGCATAGATCTGATTCCTTGTAACATTAACATTGGTCATTGGT
CCGCCTTGCTGTACACAAGCACACATGGCCCCTGTGTGCCCTTGAGGCTTCAGCTCTCTTGAATAACAAAGCATGCCCTTGTATGTCCCATTATTGTGTG
TGTAAGAGGATAATGTTGTTATTCAGTGATGACAAATTATCCAACGTGTTTCTATGACTGGCCACTGTAGATGTTCAGTCTTTTACAAGAGAATGTTCAA
GGATTTTCCCTCAGGGTCCATTTATCTTATTTGCATGACTATAAATTTCAACCCAAAAGTAAGTTACAAATGGAGAAGAAATAGTGTTATCCTGCGACTT
AGGGATCATTTTTAAAAGCTTGACTGTATTGATCATATTTAATCCTTCTTTTAAACGTCTTGATATGCTGAGGAAGTGGCAAATCCTTCCGTGTCCTTTG
AGGTCATTGGTTTAGGCCTGGGAAATGTTGAGGAATTTTGTGGAATTTGTGGAGCCTCTGTATTATGCAATGATGTAGGCCATTTCTATGGCCTTCTGTG
TAATTCACACCCCCTGGCACCACACTCTCTTGAAGATCCTTCAGGAATCTTATATTTTGGCTGAACAGTGGCAAATGCTTTGGGCCCTAATCAAGGGCCT
AGTCTTATATAAAACTTTTGTGTGGCAATTACTAAAAACACAAGATCTTAATTACTGTAGCACAACAATTATCCTACTCATTGTATCTTATAAGAAGGAT
TGTGATAGCAATGTTGCCAGGTTAATATATTTCCCTATGCAAAGAATTAATCTGCAAATATATTGTTAGGAACTTTCTTGTATATTAGGAAGGGAAGAGG
GCAGTTCCGAACCTGGCAATCTCTGTTTCAGTTCACACAATGAGAAGAGCTTGGGTAAGAATGTAATTTCACTAGAGCAGAACTCTTCAATTTTGTGAGA
CAAGCTTTGGATCCTTTTCTACAGTGAGAACAAAAACAATTTTGTTGGCACAAGGAAACATTAATTTTAAATATAAAATGTTCACTGTCATTGAAAAGAT
CAGAGATCAGAGTGAATGGTCTTACCTATAATATTACCATCATTTAAAAATGATACCCTGAGTGTAGTTTTCTGGAATCCCAGAATATAAATAGATAAGC
TCAAGCTCACATATAATCTCTTCTTGTCCCTAACACATACTCAAGTTATCAAAAACATCGACTAGAATAATTGTGCTCCTCCTTGAGTTTAAATCAGCCA
AATTTAAACATTCGAACTGATGCTGTGAAATCTCTGGCCCTGACTTTTAGATTTCTCGATCCCTATTCCTCCCTCAGGGCTGCTATATAACCCCGTTCTC
AGCATCAGGTTGGGAATTCTCTGTTTGCCATTATGGGGGAGAGAAGAGGTCTTGGTCAGCTGTTTTTCTGCCCTTTGTATAACCCCAGGCTAATTCTAAT
CAGGGTTTATTCGATGCTCATGGTCCTTCTAGGTAACTAGTTTAGGATGTCATAAAAACAAGGTTGGATAATTATGTCATGACCGGTTTCATATCACTCT
GCTTAACATTGTTCTGCATTAAGTGACTGAATATAGAGGCAATGACAAAATAAATGAACAAAACATCCTGCCCAATCCCAGACCTGCATTTGAGTTTTAT
GCAACTAAACATCATTTGAGAAAAAAGAACAACAAAAATTTCATCAAAGTATTTTTTACATGAAAACTTTAAATGTAGTTTGAGTTCTGATTCACGAAGT
TGCATGTACAAGGTCATTTTGGTTTTTAAAGAAAAGAGAAGAAACAATAGTTTCTGAAGGCATCCAGCAACATACTGGGTTGAGGAATCACCAAATCGTG
ACTCTGTTTTGTAGCTGTGGATTTGTATAAAAAATTATTCTAATCATTTGAGGAGGCAGGAGAAATGACCAAAAATTAGAAATCATCTCTAAAGTTTTGG
TAACCTACTCATTGATTTTCCCTGGTAGGTTTGGTAGTGGACAATTCATGCTACTACTTTTCCCTCCAAATTTAGTGGAAATTTCTAGAATATGTACCCA
AGATTGTCCCCTSAGAAAAGTGAATATGATGTTTGGAAATTTAACTATGAGGATGGCACAAATGAAAAATTGCTATAAATGTCCCTTTTTTACACCATGA
TTTCTAAGAGGTTGCCTCTTATCCATTCAGAATGCAGAACTGAAAGAGAATTTCACATTCCTTCATCAACATGTGTTTTGTTTGCCCATATTTCGTGTTT
CTTATTGGTTTCCAAAGAAACATGTCAGAACACTGAATAATGCATGTGGTCACTTGTTCTAATGCTTTCACATTTTTTGCATTTCTTTCTTTTAAAGCAC
AAGACTCTGCTGACATTATTTTCCTTATTGATGGATCAAACAACACCGGAAGTGTCAATTTCGCAGTCATTCTCGACTTCCTTGTAAATCTCCTTGAGAA
ACTCCCAATTGGAACTCAGCAGATCCGAGTGGGGGTGGTCCAGTTTAGCGATGAGCCCAGAACCATGTTYTCCTTGGACACCTACTCCACCAAGGCCCAG
GTTCTGGGTGCAGTGAAAGCCCTCGGGTTTGCTGGTGGGGAGTTGGCCAATATCGGCCTCGCCCTTGATTTCGTGGTGGAGAACCACTTCACCCGGGCAG
GGGGCAGCCGCGTGGAGGAAGGGGTTCCCCAGGTGCTGGTCCTCATAAGTGCCGGGCCTTCTAGTGACGAGATTCGCTACGGGGTGGTAGCACTGAAGCA
GGCTAGCGTGTTCTCATTCGGCCTTGGAGCCCAGGCCGCCTCCAGGGCAGAGCTTCAGCACATAGCTACCGATGACAACTTGGTGTTTACTGTCCCGGAA
TTCCGTAGCTTTGGGRACCTCCAGGAGAAATTACTGCCGTACATTGTTGGCGTGGCCCAAAGGCACATTGTCTTGAAACCGCCAACCATTGTCACACAAG
GTATGTATCCTCTTCTCACCATCTGTGTGGGAGTGGGGTGTTGTGTGTGTTGGTTTACATAGACGTAAGGTGGGTACCAGCATGATTCGCCACGGGAGAA
GCTGTAAGTACCCACAGTCCAGTCCTTCCCTGATGAGCTGGGTCCTGGATGTCATGTTTGTGATGTCATGTGTGCGGAAAAACTAAAGACCAATGAGTGA
GTGAAAGCTCTTACGAGAGTATGAGTTGCTGAGAAAGCGTGCTTTTAAGGCTAATTCAACAAACCTGTTGCTTTGAGATTATTAAACATCACCGTATTAA
CTACTTATAATCCAGTCTTCCTAAAAATGGGCTTGAGGGGCTCATTACAGTTCTGAGAAAGTTACTCCAGGACYATGGCATTGAGCTCTAAAAGTCAGTG
TTAGAAGTGTGCTCATAGACAGAGTATCTTTCCAAAAGCAAAGATGGAGTGAGGGTGTCTCCTCAAAGTCATTTTGTGCTAGGGTGCTGAGAGTTATACT
TCTGAAGGTAAGAAATAACAGTGTAATCACTTGATGAAATATTTATGAAGTTTTTTTTTTCTTGTGCTTGTGAAGTGTAGGAGTAATTCTCCTGAGTGGC
AATATTAGGATACAAGCTCAAATGGAGGGCCTTTGGCAAAACAGCCAATTGGAGTGGTTTAAAAAACAAAAAAACCAACCAAGTCACATAACAAATATGC
ACTTAACAAACATAGGAGGTATGGTGGGGGCATCAGGATGCATAGCCTCCTCTACCTTTTGAACTGTTTTCTGAGACATCAGTCACTTTTCAGACCTATC
AATTTCATTACCTAGGTCAGGCCAATAGGATGCCATTTGGTAAATCAGGGACACAGTGGCCCCCAACAGTTTCCAGAAACACCCAACTCACTTCCAGTGT
TGCTTACACACTGGGATGCTCTAATGAGATTAGTCCTTGACTATAAGACCTTATTCTTCATTTTCCTTCCAGAGTATGGGCTCAATGAAAATTGGTGAAT
GGATACCGAGGCTCCTATAAGACTCTGATTATCATCTGCAACMAATCATCTAAATTTTCTTGGGTGAAATAACACATTGTYACAACTCTTATTTGCTAAC
TTTATAAATAAAGTCTGGGTCTACAAGATAAATATTGTAATAAGATACTGCTTTACCCATTGTATCAATTACAATTGATCAAGGGAGGTTTTCCTTTGAT
AAAGGAGTGAAAATAATTTAAAARTAACCATTTTGGAGAATATGCCATTGTATGAAATTAAGAGTAGAAGATTTTAAAGTCTTAATTAAAAACATCACTA
TCTATTTATTTAAGGAGCTGACCTCTACTTAATAGTGCCTTGCTAATCATTAGTTCTAGTTGCTGCATTCATGTAAAGGCAACACACCACATTTCCTTAC
AAGGGTTACAAAATTCACACTGAGTTAGATTGAACTTGCCTCAAATGATTTTAAACCACAGCTTTTGTTGTAATAAAAATTACAGGTAGAAAGCTCAGGC
TATGGCATCTCTACTTAATCTGTGCATTGGAACTGTGACCAGGTGATGTAGCAAGAAAAGTATATGTGAGTGTTGCCTTCTGGAGAAGGCTGTGTCTGGC
ATTTATTTAAGTTTGAAAGGTCAATTCTGTGTGGCTTAGCTTTTGCTGCATACAGTTTTCCAGCTTTTCCTCTCACTTGATGGGACCATAAAATTGGCCC
AAATCCTCCAGATGAGCTAATAGAGAGACTAGAATTTTGAAAATAATGTTCTGAATGCAAATGGACATTGAGAAGCAATGGAAACAGTGTRCAGGACTAC
ATGCCCGGTGCCTGGAGCTGCTCATGCTCATTCCATCATGGTGCCGTTTTGTGACTCTGGCAATTAAGAAAACAATCAAGTGAAAATTTATGACCTGCTG
AGGTTTCTCTGAGCTTGCATACTATTGGTGTGCATCCCAAAGTATAGAAGCCCAGAGATTTCCCTATGTTTTGCAGACACCGACGATGCAACATGGCTGT
AGATGGGAAAGCTGGTCTCTGGTCTTGGGTCTTCTGTGGACCTGCCATGTGATCCTGGGCAGGTCATGCAACCTCTCTGGGTTTCGATTTCTTGAATTTA
TGACAAAGGAGTTGCACCAGATGAAGATATGTCTGTACCAGGAGAAGTTTCAACTTTTTAATGAAAATGGGCAGCACATGACCCTTGTTTCAGATTTTCC
CTAGCCAAGTAGAGTTTCAACCCCTTGATTACAAACATCATGTTTAATATCAATGATTAACTTGTAAATATTCAACAAATATCCTTGACTATCTGGCATG
TGCCAGACACTATGCCAAGCACTAGAGATATGGTGCTGTTTAATGAGACAGATGTGGCTGCTCGTCTGTTACAGGATAATGGGGAAAGAGACAATAATAA
TATAAACTAGTGACCAGGCAAAATATTCTGAGCATGATAAGTTGCATTGGGGCATTCAACAGGGCTGTGATAGGAAGACTGGGGAAGGGAATTTTAGATC
AGGTGGATGGAAGGCCCTGAGAAGGTGTGGAACCGAAGGCAGATGAGCATGCRGAGAGCAGGGGGAAGAGTGGTCCAGGCAGAAGGAAGAGCAGGAGGGG
TGGCCCTGCAACAAGAAGGCACTTAGTCCCTTCCCAGAACTGTCAGAAGGCAGTGTAGCTGGAGCACACTGGACAGGGAGCCTGAGGTTCAGACTCCCTG
GATGCATGGAAGCTGGAGAAGCAGCTGCTGTAGGGGGATGAGAAGCCACAGGGAGTGGAGCCTGTGGGTTGGGAGCCAATGGCAGAGGAAGGTAGGCTGT
GGGTTAGTGGTGGGGGCAGGGGCTCTCCTCTGAGGGCTTCTATTTTCTCAGAGACAGATGAGGAGGCCTTGGAGGCAGTGGCAGAGGGCTGAGCAGAGAG
CACAGCCATGAGACAGTCATTCTGGAGGACAGGACAGCCAACTTCCCAAGGAGGCATGGGAGGATGGTGGGCAGGCACAGGTCTCCTGATGGGGGTCTGG
AGTTCCGAGCGTGGCATGCAGGTACCTTGTTGTGTGGTCTTCTCCAGGAATGTCCACTGCTTGGGTGATGCATGAGGAAGACTGTGGGCCTGATGGAGGC
TTTCAGGAGAGTCTGATGGAGGTGCAGGGATGAGGCATGGAGGAAAACAGAGAGAGGCGTGGGAGGAGGGCTGAAGAGGGTTGTGCCATGTTGGTGAGGA
GTAGCAGGACCTTCAAGTTCATCTCCCAACAAGGCAGTGAAGTCAGGCCCTGCAGAGCCACATTAAAGAGATAAGACAGCTGTGTTTGGGTTGATATTTA
TGTCAAGTGGAAGGAAATGCGTATGCATCCCTGACGTGGCTCACAGAAGAGTCAGCTGTGAGAATCCCAAGGTTTTTATCACTGGGTCAGAGGAGATTCA
TGGTGCAGCCCCCAGAGAAATGAAATGATTCTGCAAAGCCTAGGTGAATTGCGTCAGAGTCATGAAGCAAACATAGGAATTCAGTTATTCTTCCAGTTAC
TCAATATTTTTCAGTGTTTACTATATTTGGCTAAGCATGGTTCTAGGCATATCATCTGTCATGAGCTCCCATGACTTGAATAAAAATCAAACGTAAATGA
CCTCTTACCTAATCAAAGGGGACTCTGGGACAGAGCCTCTGGGAACCAGAGGTGCATTTCAGGGTTCCCAGAGCTGAATCCTTGTTGGGTGCAAGGAGAC
TAGGCCACTTGTTTCATTAGATCTAGAAGGTATTCCTTCCCGCTGGCTCATCGGGAGAACTTTTAGTGATGCAGTGGTAGGGGGAGGGAAAACGTGGGAG
GGTAGGGGATGATATTTATCTTCTCCCACCCCAAGAGTTGTGCCATTGCTGGTACTTATAAAGAAGAATATAACAATCTGGGCCACTTGGTATAGGAGCA
AGTAGCTTCTCAGGTCATTGTTATATGAGTATTTGTCTATTTTTCTGTCATGTGTGATATACATAGTAAATACATGAGTGGTAGATTCATGGTATAGCAT
ATATGGAATTTATATGTGTCTATATACGTGTATGTGTGTATCTATATACATATATATTCTCTCTAATGGTACAAAGGTATAAGTCTTCTAGAGATCTACA
CATTAGTTTTATCTGCAAAGATATTTTAAATCAAAATGAAGGGGTAGCCCAGAGAGACAGCATGTTCTAAATTAAATGAAGGAAGGAAAGCCCAGAATGG
ATGTTCATAACAATGACCATGAAATATTGAGAAAAGGTTCAATGATGTTCTGCACACATTGTTACACCAGTAGGCAACTGTGTTATTGTATTAAGGACGT
TGGTGCATAACATGTTACCCTTCTCTTAGAACATAGACCTTGTCTTGATGCTACAGGTGAKYACCCAGATGAGGCACTGCTGTCTTCATTTGGCATGTAT
CAGCGATTCTCACCCCAGGCATCACGCTCCCAGCTTCTGGTCCAAACAACTAGAAATGAACTGCATTTCAAAAATGTGTTCTAGGCTGGATGTGGTGGCT
CACCCTTGTAATCCCAGCACTGTGGGAGGCTGAGGCAGGTGGATCACTCAAGGTCAGGAGTTTGAGACCAGCCTGACCAGCATGGTGAAACCCCATCTCT
ACCAAACAAAACAAAACAAAACAAAAATTAGCCGGGCGTGGTCGTGCATACCTGTAATCCCAACTACTCAGGAGGCTGAGGTGGGAGAATCGCTTGAACC
CAGGAAGCGGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTGATAGAGTGAGATTCTGTCCTAAAATAAAAATAAAAATAAAAATA
TGTTCTAGAAGGTAGCTCTGATTCTTAGAAAGTTCTTCCTTACCTTCATCCCAAACTTTGTTTCCTTTGTCTGCTTTTACAAAATCAACTTGCCATGCAA
TCTATCTGATGGAATACAGTAACAGAGGACTCTTTTGCAAAACAGTCCATCTCAGGTTTAATCATTTATGTTCCTCTACTTCTTGGAATCTCTGTCAGGT
TTTTGGGTTAGGTGTTGTGGTCTTAACAGAGTTCATGGTTCTTGCAATATGGGCAGGGTGCCTGCACATGGATACAGCAGTTCACAGTCACTGTGAGACA
GTTATCTTATTGAGATGTTTTTGCTTTATGGTTTGCCTTTAAGTTATCACTGTCATATTACTTAGGATCTTTAAAAACAGGTTTTTTGTTTTTTTTTTGG
AGATGAAATCTCACTCTATCACCCAGGCTGGAGTGCAGTGGTGCAATCCCGGCTTACTGGAACCTCCTCCTTCCAGGTTCAAGTGATTCTCATGCCTCAT
CCTCCTGAGTAGCTGGGATTACAGGTGTCTGCCCCCACGCTCGGCTAATTTTTGTATTTTTAGTAGTGATGGGGTTTCCCCTTGTTGGCCAGGCTGGTCT
TGAGCTCCTGAACTCAGATGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCAAAACGCAGGTCTCTTAAG
TGAAAAATGTTTGYGGCACTTGCTGGCTTTGATGCTGATTTCCTTTTTATACGTTTTATGTTAAGTAATTCTTTCGTCTGTCAAATGAAGACAGGGAATA
TAGAACTGAAGAGAACAGGGATGTGCAGGCTCTTTCAGCTTTTGCACTTGACAATGAGCATTTTGAAATSAAGACTGTGAGGCAAAGGGTTCTCTGAGCA
GACATCAGTGGTTTCTTTAATTATTCAAGCAATGACTTCACTCTGGCCAAGTTGTGTATTTACGGCAGAAGAGAACTTATTGAATTTTCAGTGACAGCAT
ACAAAACAGGTGGCTACTAAAACTAAATTTGTTTTTGTGCAACTATTTTGTAAAAAGTACTGACTGGGCAGGGTGGAAGGTGAGCCAGCTTTCCTCCAGC
AGGTGGGGAGGCAACCATAACTTATGTGTTCATTAGGACAAATTCCCTTTGGGGTGGCCCTGTGGTCACGTTGGCCACAGTAAATGAGGGTGTCCTTTAA
ATGGAGTTAGCTTTGTTGAAAGTCATTGTTGATTGTGCTTGGTAAGGCCATTCTAATTGCCTTATRATGTTGCCACCTACAGTCATTGAAGTCAACAAGA
GAGACATAGTCTTCCTGGTGGATGGCTCATCTGCACTGGGACTGGCCAACTTCAATGCCATCYGAGACTTCATTGCTAAAGTCATCCAGAGGCTGGAAAT
CGGACAGGATCTTATCCAGGTGGCAGTGGCCCAGTATGCAGACACTGTGAGGCCTGAATTTTATTTCAATACCCATCCAACAAAAAGGGAAGTCATAACC
GCTGTGCGGAAAATGAAGCCCCTGGACGGCTCGGCCCTGTACACGGGCTCTGCTCTAGACTTTGTTCGTAACAACCTATTCAYGAGTTCAGCCGGCTACC
GGGCTGCCGAGGGGATTCCTAAGCTTTTGGTGCTGATCACAGGTGGTAAGTCCCTAGATGAAATCAGCCAGCCTGCCCAGGAGCTGAAGAGAAGCAGCAT
AATGGCCTTTGCCATTGGGAACAAGGGTGCYGATCAGGCTGAGCTGGAAGAGATCKCTTTCGACTCCTCCCTGGTGTTCATCCCAGCTGAGTTCCGAGCC
GCCCCATTGCAAGGCATGCTGCCTGGCTTGCTGGCACCTCTCASGACCCTCTCTGGAACCCCTGAAGGTATGGTGGTGATGGCTTCAGACACACAATGGG
GTGGTCTCCAGGCAGGGCCTTTAAGAACAAAACAAAATGAAGTGTGTTTGTGTTTAGCTAAGAGACAACAAATGATGAAAACAGCAGCAACGAACATGAT
TTATTCCAGGTTTCCTTTTGCACTGGGTTCAGGATTGTATGGTTTACAATGTCATGCAATGAAATTTCATATAAGAACCATATGATTTAAACCACAGGAC
CATGGGCCACCACCTGTCTTTGAAGCTTCTGGCCGAGGAGGTCACATCTCAGTTCTTATCGCTTGTCAGATCCCTGTGTTCTTCTGTTTCTACTGGTGAT
TTCTGTCCAGTCTCCTCCTCATCACCAGGATGTAGCTTTCCTTTCCTGAGTTGTCCATCTACTTCTAAACAGCCCCAGTCTGAGCTGTTTAGGGCACAGT
GTCCTCAGCTTTTAATCCCTCTCTTCTCTCTCGTTAAGGGATTACCCTCAATGGGAAAGCATATTGAATGGCTAAGTGTGGAGTTCAAACCTAGTGGTTC
TTCAAATCCCTCATTTAATATGATTGCCAGTGGAGAGTTATTTTTAAAGACATTATACAGATCTATGAGCTAATGAGTTGAAGAAATACAATTCACTGCC
CTTAATGAAGAGAAGATGAGCATCACAGAATGATGCTTTCCCACCTTGCAGACTCGATCACTAGAGGATTGCCTGATGCAGGCATGACCCATGCTGCCTG
GATGCATGCTTTCTCTTCACACTCCCTGGTCTTCTATATCCATCTCTTTCTCTCTCTTTTAAAATTTTTCTTAAAACTTTTAATCCACACTTTCATAGCC
AAAGTTCAACTTAGGATACAATTAGTTGTGAGGTCTAAATTACAGTAGGGCATCAGGGAAGAAATAAAAAATAAAATTTTAAAGGCACATGGTAAATGTG
TTGGGTCAAATACACTATTTTGAGAATTATACTTTTTATTCTTGATGTGTATAAGTTTGGCCAAGCCTAGCAACTAGTCTCCTTCTATTTTGCTGTGTAT
TTACGGTCCCATCATCTCACTTTGGGGGAATTCCCCTGTTGGATGATTGCCTAGCAAGACTGTGACTTCCTAATAGGAGAAGAGTCCCAGTGGAGAATGA
CAAACGGGGAAGTCTGAAGAAGACTTCAATATGAGACCAGCCTACTTTTGCTATTTTTTTTAGCCTTAAGGAACTCGTTTTCTCAGGTTAGTGAGGGCTA
ACTGCTTCTGAGCTATGGATGGAAGACCCTCTGTTTGTGGGTAGAGGTGAGCCCCAGAGGATCCAGCCAGGCAAACTTAAACCTGGCTGGGATGAGTGAT
ATGGACTGATGCAGCACCTTCATAGTATTCATTTTTAGGGAAGGAGTGTTTGGTTTCAAGGATTCTGATCACTTTTGTTGTCTGTAAACATTCTAACTTT
GATGTTGTAGCTCTCTTTGAGCCAACTTGGTTTTGTAAACTCGGCTACCAATATGTCTCACAAACACCAGCCACCACCAGAGGAAAATATGCAGCCATCT
GCCATATTTTACAAGATGRACATGCTTTGCCATGCTGACTTTCTCTGTGTTCTAAATGTTGGCATGTGTGCACGTGTTGTAGGCACACATGATAAAACTC
TCCGTGGTTGTGTATGTCTCACTTTTTTTTCTGTGCTTCACTGCAGTTCACTCAAACAAAAGRGATATCATCTTTCTTTTGGATGGATCAGCCAACGTTG
GAAAAACCAATTTCCCTTATGTGCRCGACTTTGTAATGAACCTAGTTAACAGCCTTGATATTGGAAATGACAATATTCRTGTTGGTTTAGTGCAATTTAG
TGACACTCCTGTAACGGAGTTCTCTTTAAACACATACCAGACCAAGTCAGATATCCTTGGTCATCTGAGGCAGCTGCAGCTCCAGGGAGGTTCGGGCCTG
AACACAGGCTCAGCCCTAAGCTATGTCTATGCCAACCACTTCACGGAAGCTGGCGGCAGCAGGATCCGTGAACACGTGCCGCAGCTCCTGCTTCTGCTCA
CAGCTGGGCAGTCTGAGGACTCCTATTTGCAAGCTGCCAACGCCTTGACACGCGCGGGCATCCTGACTTTTTGTGTGGGAGCTAGCCAGGCGAATAAGGC
AGAGCTTGAGCAGATTGCTTTTAACCCAAGCCTGGTGTATCTCATGGATGATTTCAGCTCCCTGCCAGCTTTGCCTCAGCAGCTGATTCAGCCCCTAACC
ACATATGTTAGTGGAGGTGTGGAGGAAGTACCACTCGCTCAGCCAGGTAAACCTCCCCTGTTGCCGGGAACTCCCTCTCCTTCCTCAGACACCACCCTGG
AGGGTAGTTTGCCAGTCTGAACTCAAGAGCACTGTGGACTGTACAAAGACAATTGGCTCCCTTCCATTGAAATAGTTTGAATGGGGACTTGAGACACTGT
ACCAGCAAGGCTGGACTCTGTCTAAAGGGTGTTCACGAAGGAAAGTCTAGAACATCCAGCTTATGTTCTGTCCATTTTGCCTCACCCTTTATTCAGAAGG
ATTTTTTTTCCTCTAATGACTGTGAGGATTCTGGAGTTCGAATCCAGATTTGGGGATCATGGGGTGGAGGGAGACAGAGAGAGATTTTTCTTACATGAAT
ATGCCTTGGGATTATTTAAACGTTGAAATTGTATTTTTACATGATTTTTAAATGTTCAACATCTGCTGTATCTAGAAAATTATTTGTTATAAAACAAACA
AAGGGTRCATCTTCATGCAATGGTAAAATGGTTTMTAGGGGAAGGCTAACTTATTATTATTATTGCAAATTATTATGGTGGTAAGATATGGTTGTATCAG
ATCTACCAGTCTGCTAACATCACACAGATGAATGGCAAGACTAAACCAATTGAAACCTAATCAAAATAGTTCTAAGAACTGTTTTAACTGAGAATGTTAT
TTACATTACACRTTGCGGTGCCATAGGGCCTGTCATCTGTGTTTCCTATTGTCTCATTACAACAGAWTGGGAAGCATTGACAAGGAGCCTGACCCACACA
GCAGTAATGGGCACTATTGTGGGTCTTGGCCCGTAACCTCAAATTTAATGATTTGATCATTCAATTACAGCAGATTCATGGCAACCCAGTTATCTTTGAG
TGGTTGACCCATATCAGCCCCCCCTTTTTTTTTCTAGAGATTGAGATCAATTTTTTTAAGCAAAGGTATATTAAGGGCCATGTTTTCAATACTTTTATTT
GTAACAGTTTGAAACTGCTGTCTGTTTTCCTGGAGCGATTGCCACCTGATGTAAGAACACAACCCAGTGGGGCTTTTCCCTGGCTTGCTTTATTGAAGAA
GCATGATGCTAGATGGGATAGGCTGTTCTAGTTACTAGCTTTGCAAATATGCACTGATTTGAAATAGGACATTTTCAAGACAAGTGGTATGAATTTGGGT
TTTCTCTTCTCTTGCTGGCACAGTGGTCATCAGATGAGTTTCACCAACTCCTGTTGTCAAATGGTGCTGGGCTGAAGTCGCTTTGGTTCCTGTTATGCTC
TCGTCCCTCATTGTATCCTAATCTACCTTCATTGCAGAGAGCAAGCGAGACATTCTGTTCCTCTTTGACGGCTCAGCCAATCTTGTGGGCCAGTTCCCTG
TTGTCCGTGACTTTCTCTACAAGATTATCGATGAGCTCAATGTGAAGCCAGAGGGGACCCGAATTGCGGTGGCTCAGTACAGCGATGATGTCAAGGTGGA
GTCCCGTTTTGATGAGCACCAGAGTAAGCCTGAGATCCTGAATCTTGTGAAGAGAATGAAGATCAAGACGGGCAAAGCCCTCAACCTGGGCTACGCGCTG
GACTATGCACAGAGGTACATTTTTGTGAAGTCTGCTGGCAGCCGGATCGAGGATGGAGTGCTTCAGTTCCTGGTGCTGCTGGTCGCAGGAAGGTCATCTG
ACCGTGTGGATGGGCCAGCAAGTAACCTGAAGCAGAGTGGGGTTGTGCCTTTCATCTTCCAAGCCAAGAACGCAGACCCTGCTGAGTTAGAGCAGATCGT
GCTGTCTCCAGCGTTTATCCTGGCTGCAGAGTCGCTTCCCAAGATTGGAGATCTTCATCCACAGATAGTGAATCTCTTAAAATCAGTGCACAAYGGAGCA
CCAGCACCAGGTATGGTAGAGAAATGCTAGTTGCTCTGCCACTCAGTTCTCTAATGCATGAGTTGAGGGTAGGCTGCTGGCCACTGGTCCTTAGATAGAA
GCCCTCCTTGAGTTTACAGGAAAGGTGGAAAATTAATCACCTGCTGGTTTCAGCAGGAACAATAGAATATGAGATGTCCCTCCTTACTTTGATTCTCTAG
CTGCTCTCTCAGGAGAATGAGGGTGAGTATTTTTAAGGGCATTAGATTATTTCATAGTAAGACATGTTATAAAGATTTAGATATCAGTGGTTAAAATCCT
TTTTTAAAAACAGTTTTTATGGTATGCATAATAAAAGCCATATCATATGGTTACATTGTACCTAAAACAGCCTTCATCTTCATATTCACCCAATGCCTTT
ATATTGTTATAATTCCTTCATTACATTCATTAAAAATTAAAGGAGTAGAAGAGGYAGATAACTTTCCACCATAAACTCTGCATTAAAATCCCCCAACTGC
TAATTGACACTGCCATGACTTTTCATTTAACCCCTTTAATTTAGTGATAAAAATGCAGTGAAGAGAGTAATTTCCCCTGTATGCCTTTTGATGAAAAATG
AAGACTCCAGAGCCTCTCCTTTGATTACTGGGCCCATTGGCCGTTGGCTTGGGATGGTAACTCCGACATCTGGGTTCYGTTTCCTCCCATTAACCCACTT
GTGACTYGCAGCAACTCAATTGAAACCTCCCATCGATAAAATGCTAGTGGTTGTGCAGGTGCTGCCATCTCATGTCTCTCCTCCCATCCCAAGTTTTTTC
TTGAATACATCTTTGAAAGCTAACAATACTCTTCAAGCATTGAAAAGTTCCAAAATAAAAGGGGTCCCTATATTGGTGTATTAGTTTCCCATTGCTGTTA
TAACAAAGTAACACAAATTTAGTGGCCAAAAACAAAACAGGCYGGGTGCGGTGGCTCACACCTGTAATCCCAGCACTCTGGGAGGCCAAGGCGGGCCCAT
TGCCTGAGGTCAGGAGTTGGAGACCAGCCTGACCAACATGGTGAAACCCTGTCTCTACCAAAAATACAAAAATTAGCTGGGTGTGGTGGCGGGTGCCTGT
AATCCCAGCTACTCTGGAGGCTGAGGCAGAAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTCTAGCCTGGGC
GACAAGAGCGAAATTCTGTCCACCCCCCGACCCCTCCACTGCAAAACAAAAACAAAAACAAAAACAAAAATCCTTATTATCTGACAGTTTTGAAGGCTGG
AAATTGGAAACCAGTGTYGCTAAGCTAAAATCAAGGTGTCAACAGGCTGTGTTCTTTCTGCAGGTTCTAAGGGATTCTTCATCTGCTCACCTTTTCCAGC
CTCCAGGGGCTGCCTGCATTCCTTGCCTCCTGGCCCCATCCTCCATCCTCATTGCCAGCAGCTTGGCACTTTCTCTCCTCTCTGACTTCTGTTTCCATCC
TTACATCTTCTCTCTAACTCTGACCCTCTTACCCCCTCTTATAAGGACACTTGTGATTGATTACATTGGGCCCACCTGGCTAATTCCAGGGTAATCCCCC
CATCCCCAAATCCTTACCTGAATCACATCTGCAAAGTCCTTTTCTCAAGTTCGGGGATTTGGACTTGGACATCCCTGTGATGCTCTTATGCAGCCCACCT
CGTTGATATGAAATTGCTGCTCTGATGTCCTGTGTGAGTTACCAGGCTGTCCTCCTCCCAGTTTCAGGTGAAAAGGACGTGGTGTTTCTGCTTGATGGCT
CTGAGGGCGTCAGGAGCGGYTTCCCTCTGTTGAAAGAGTTTGTCCAGAGAGTGGTGGAAAGCCTGGATGTGGGCCAGGACCGGGTCCGCGTGGCCGTGGT
GCAGTACAGCGACCGGACCAGGCCCGAGTTCTACCTGAATTCATACATGAACMAGCAGGACGTCGTCAACGCTGTCCGCCAGCTGACCCTGCTGGGAGGG
CCGACCCCCAACACCGGGGCCGCCCTGGAGTTTGTCCTGAGGAACATCCTGGTCAGCTCTGCGGGAAGCAGGATAACAGAAGGTGTGCCCCAGCTGCTGA
TCGTCCTCACRGCCGACAGGTCTGGGGATGATGTGCRGAACCCCTCCGTGGTCGTGAAGAGGGGTGGGGCTGTGCCCATTGGCATTGGCATCGGGAACGC
TGACATCACAGAGATGCAGACCATCTCCTTCATCCCGGACTTTGCCGTGGCCATTCCCACCTTTCGCCAGCTGGGGACCGTCCAACAGGTCATCTCTGAG
AGGGTGACCCAGCTCACCCGCGAGGAGCTGAGCAGGCTGCAGCCGGTGTTGCAGCCTCTACCGAGCCCAGGTACGCAGGGAACTCTTTGCATCCTCACTC
AGTGTCATTGTCTGGGGCTACTTGTCTGGACTGTGGGCCACAAGGTGTTCTCAATTTTGCTTTTCCTGCCATGTGAAGTGAAAACTAAAATTACAGGAAA
ATTTAGGAACCCACATGCCCTTTTTGGCCTCGATGGGCAGAAATGGCAGAGGTTCAAGGGGGGAGATGCTAAGATTCATGTTTTGGGGCAAATTAAATTC
TCCAAAAGGGACATATGTGCAGCTTGGAATTCAGGACTCCTTAACTTTGCATGAAAGCTTCTGTCTAGATATCCAAAGGGAGGGGCCGTCTAACTGATAA
CGCCTGTTGCGTATCAGTCCTGCGACCCCTGGTAGGTTTGGTCAGCAGCCTTCTGTGAGGCAGGAAGGAGTCTGACCAGGGACACTCTGCAAGCTGGGAC
ATAGACTCTGAAATATTGGTATCTCCAGAGCCAAGGTGTGAAGATAATTTTGACTTTGCTTGGTGCTGAGAAGTGTCTTAACTGGCAGGAAGGCCACCTG
GCTCTTATGACCATAGTTTATTCTATTTTCTTTTTCCTGTTCCCTCTTTCTAGGCCTGGTACAATAAACTAAAAAATGGTGGGAGCCCTGGTGCTGAGAA
GGAAGGAGGAAAGATATATCTACCTCTCAATAAATGTCCTCCAAGGGCCACTCTCCCGGGTCACTCGGGTGGGGGGGGTTCACAGTGGCGAAGGAGGCAG
ATGCGGCCTTGCTCCCTCATATGCACTCACTTGCCTGCTCTTCCAAGAGGAGAGAAAAGAAGGAAAGTTGGGGAGGAGCGGAGGAAGGAGTAAAAGCAAG
TGAAAGGAAATCACTGCAGGATACAGTGGGTGATGAGGGAGGTGAGGATGATTATTTGGGTGCAACTGAGAGGGGCTTGGTTTCTCCTCGCTGGTGYCTG
GGGAAGAGAGCAGTGTGGCCCACCAGGTTTCTGTGGGATGTTCCTGAGCATTTATGATCAGGTAAATTTGGGCAACAGTGGGATAAACAAAGTGAAAGAG
GCTTTCTTTCTTCCTAACTAAGGCGCTTTGTGTGTCTCCAACACAAGAAAGGAAATGCAACATTTCCAAAATGTATCTGCCTRCAGGAGGCCTCTGTGAT
GCTGTGTCTTGGCCCCAGATTGCCGAGGATGGACTTTGGGAATATTGTCACAGTGCGGGTGCAGCTTCTGTTGTCAGGAACGTACATTTCCACAACGCTG
TGGCTCTTTGCCCACTCACTCTCCTGCGCTCCAGAACAGCCTCCCTCTTTCCCCCTTCTCCCCATTCGGAGGCTTCTCTCACACCTCTCCTGACCCACCT
GACTCTCAGCTGGTAATCTTGAGTCCTRTTTCTCCAAGAAAATGCAAGTAAACCCAAAGAGAGCTGTCCCCGGCCACGTCATCCCGTGGTTCCTTGGGTG
GCCTGYCTCCGCTTCCTCAGCTCCCTTTCCTCTCACCTGCTCAGTGGCACCATCTGCAGTTCCCTTTCTTGCTCTTGTGTCACCCTTTCTCCACTGTGCT
GGATGGTTCCATCCATGATAAAATGCATTGCTTCTTCTCTCTTAAACACCCTCTCTGATGCGCCACTTCCCCTGCCAGCAGCACCTGTCTCCTAAAGACT
TATCTATACTCTAAAGTTCCTTTCCTCCCATCCTCTCTGAGCCCACCCTACTTTGTCATTCACCCTTGCTCCTCCCCCAAGTGCTCCAGTTGAGGTCACT
CCATCTGACAAGGTCCCTGTCTCTGGCGAAGCCCAGTGGCTGACCCTCGGGTCCCTGAGCAGCACCTGATGCAGTGCAGGTCACGTCCTTCCCAAGTACC
ATCCTCGCTGGTGCTGATGAGGCTCTTCTGATTCTGCCTCCGTCGGGTTTTTCATCCTTTGCTCCCCTTCTCTTTGATGTGTAAACACTGAAATGCCCAG
GACTCCCACTTCTTGGACTTTTAACAGTGGTGATTGGTGTTAGGATCCCCTGCCTGTGAATCCATGACAAACTGGGCGGTGGCTCATGAACGCTAAGAAT
TTGGTGACGATGAAGGTGAAGCCATGCTCACATTTGTTTCGCAGGTGTTGGTGGCAAGAGGGACGTGGTCTTTCTCATCGATGGGTCCCAAAGTGCCGGG
CCTGAGTTCCAGTACGTTCGCACCCTCATAGAGAGGCTGGTTGACTACCTGGACGTGGGCTTTGACACCACCCGGGTGGCTGTCATCCAGTTCAGCGATG
ACCCCAAGGTGGAGTTCCTGCTGWACGCCCATTCCAGCAAGGATGAAGTGCAGAACGCGGTGCAGCGGCTGAGGCCCAAGGGAGGGCGGCAGATCAACGT
GGGCAATGCCCTGGAGTACGTGTCCAGGAACATCTTCAAGAGGCCCCTGGGGAGCCGCATTGAAGAGGGYGTCCCGCAGTTCCTGGTCCTCATCTCGTCT
GGAAAGTCTGACGATGAGGTGGACGACCCGGCGGTGGAGCTCAAGCAGTTTGGCRTGGCCCCTTTCACGATYGCCAGGAACGCAGACCAGGAGGAGCTGG
TGAAGATCTCGCTGAGCCCCGAATATGTGTTCTCGGTGAGCACCTTCCGGGAGCTGCCCAGCCTGGAGCAGAAACTGCTGACGCCCATCACGACCCTGAC
CTCAGAGCAGATCCAGAAGCTCTTAGCCAGCACTCGCTATCCACCTCCAGGTGAGATGGGGGCGTCRGAGGTTCTCCTTGGAGCATTTTCCATATGAAAA
ATAACAGGCTCAAAGGCCATGGTACTCATAATAAATTAAATTAAAATAAAGGTTGTATGCCCTTACCTTTATGGTTTTTATTTTGAGACAGGGTCTGGCT
CTGTCGTCCAGGCTGGAGTGCAGTGGCATGATCATAACTCATTTTAACCTCTGCCTTCTGGGATCCAGCCAACCTCCCACTTCAGCCTCCTCAGTAGCTA
GGACTACAGGTTCATACCACCACGCCCGGCTAATTTTTTGTATTTTTTGTGGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAGCCCCTGAGCT
CAAGTGATCCACCTGCTGCGGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGACACCGCGCCCAGCACCTTTATGTTCTTCATGCCCACCAGCCAGACCC
CACCAGGACACACCTGCGACTGAACAAGTTGGGTCTATTGCTCATGGCATCCAGGGAGAATGCATACCGTGGCAAAGCATGAGGGCATCTCCATAGGAGG
GTGGCCGGAAGGACTGGGGGGACTTGAGCTAGTGGCAGGTCATTTTGTGGAAGGCTTAAAGAAATGGAACTGTGGCCTGGATTGGATGTTGTCAAGACGT
GGAGGTGATTCTGTAGCTGTATCTTAAGTCTTACCTAGAAGCAGGATGGCCTTGGTATAGATTGGTAGAGAAGAGCAGTCACTCTTATTAACCAGGACAG
GGAGTGTTTTTGTCCTTTTTGTGGTTTGCACCATGTTTTTCTTTTTGTCTGTGTTCAGATAGGGTTACAATGTGGTCTCATTTTCATCTTGCCCCATTGT
GATCACAGAGTAGCCTTGTCTGTTGTGGGGGTCCTGTGAGATCATGTGTGCTCAACAGGAGARCCCCAAGGCCATGTGTGCTGGACCAGCTCCCCAATGC
GGGGGCTGATTCTCTCTTTCTTAAACAGCTCCATCACAAGAGCTGCTCAGCTTCCACTATGCTGCATTTACACCGTAAATTGCCCAATTGTGTATGAGGC
AAAGGGCAGGTTGAAATGTGTGGAGTAGCAACATACAAGTTTAATAAAATAGCATCTGAGGAGTACCTAAAATTCTAACTAATAGGAAAATGTGGCTCAT
CTTTCTCAGGATCTTTTGATTAATTTTATTGTTAAAAATGCACTAGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGG
GCTGATCATGAGGCCAGGAGTTCGAGACCAGCCTGGTCAATATGGTGAAACCCCATCTCTACTCAAAATACAAAAATTAGCTGGGTGTGGTGGCACACAC
CTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGATGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCT
GGGCGACAGAGCAAGACTCCATCTAAAAAAAAAAAAAAAAATTAAACCAGTTATTTAATAGAATTAAATATTTTTAAAAATGCGCTAATGTAAAGAAAAT
GAGTCAGGGTGGGTGGGGGAAGCTGGGCATGGCGGCTCATGCCTATAATTCTAGCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGGGCCCAGGAGTTC
AAGACCAGCCTGGGCAACACAGTGAGACCCTCATCCAAAAAATTAAAAAAAAAAATTTTAATGAAATTTAAAAAATAAAGGCACAGGCATGGTGGTTCAT
GTCTGTAGTTCCAGCTACTTGGAGGATAAGGAGGGAGGATTGCTTGAGCCTGGGAGGTCAAGGCTGCAGTGAGCTGTGACTGTGCAACTGCACTCCAGCC
TGGGAGATAGAAAGAGACCATGTCTCAGAAAAAAAAAAAAGAAAGAAAAGGAAATAGAGGAATAATAGTGAAAAATAAAAACTTCATATAAATGCTAGAG
ATGTGTGAGCAAAAAGGAAATACGAGGGCACAAATGCCTGGGGAGCATTAATGTGACCCCTTGGATATGGCACTGTGTTATACGTACCCTGCCCCCATGG
GCTGAGATTGCGCAGCATGCTGGGATGGTGTTGGGCTCCTCAGGGGTCTCACTTGCTAAGTGATGGCCTTGGACAAGGCGAGAACCTTTGGCCTCAGCTG
TTTCTCTTCTTGTACAACAAAGATATAGATCCCAGTGGCCTTGGTCTCTTCTGGTAGCAACAGTTCATGATTCTGTAGATTAYGGTAGCCCAAGATTGAT
TTCTAAATGCTCCTTACATTTTAGAAATCAGTAGTAACCCAGACCACAATGCCAAAATTTAAATAGAGTAAATTCAGAAAGACACGTTTTGGATAACTTC
AAATATTTCAAGGAGCAGAAATTGTTTTGGTGTAAAAGGTCCAATTTTTAACGGCTAATTTCAAAAAGCCCGAGATACAAACAACACAGGCATCTTGGGA
TATAATCTTAAGGTTGATTAGGATTATGGTGCAAGGTGCACACCAAACCTGGGTGAGGGCTACTTACACACTGAATGTTTCCCTTTTTCTTCTTTGATCT
GCAGCAGTTGAGAGTGATGCTGCAGACATYGTCTTTCTGATCGACAGCTCTGAGGGAGTTAGGCCAGATGGCTTTGCACATATTCGAGATTTTGTTAGCA
GGATTGTTCGAAGACTCAACATCGGCCCCAGTAAAGTGAGAGTTGGGGTCGTGCAGTTCAGCAATGATGTCTTCCCAGAATTCTATCTGAAAACCTACAG
ATCCCAGGCCCCGGTGCTGGACGCCATACGGCGCCTGAGGCTCAGAGGGGGKTCCCCACTGAACACTGGCAAGGCTCTCGAATTTGTGGCAAGAAACCTC
TTTGTTAAGTCTGCGGGGAGTCGCATAGAAGACGGGGTGCCCCAACACCTGGTCCTGGTCCTGGGTGGAAAATCCCAGGACGATGTGTCCAGGTTCGCCC
AGGTGATCCGTTCCTCGGGCATTGTGAGTTTAGGGGTAGGAGACCRGAACATCGACAGAACAGAGCTGCAGACCATCACCAATGACCCCAGACTGGTCTT
CACAGTGCGAGAGTTCAGAGAGCTTCCCAACATAGAAGAAAGAATCATGAACTCGTTTGGACCCTCCGCAGCCACTCCTGCACCTCCAGGGGTGGACACC
CCTCCTCCTTCACGGCCAGGTATGCACCGTGTGACCCATGACTACAGAGTGTGACATCAACATTTTTTTTTTAGTTAAAAAAGTAATCAGTAGTCATTTT
TAATAATTTTCTTCTCTCTGGGTTGTTTCTTCAGATAATATTAGAAATTAAATACTGGAAAAGTAGTTCCATTGAAATTGCAGAAGGAAGCATATTATTG
ATCTTCCATCACTCCTGAGACTAATCATAGCCCCATTGAAAGGTTCTGCAGTGTTGCACTGAGATAATTACAAACTCATTGGCTCTCAGAATAGGATGGC
ATCTTTGAAATCAGCCAGTCCATGCCCCACTGAATGTGACTTTGAAGTTGGCCCATGCCTACTGGCCAGATGCCCAATAYAGTCCAGGTCCCCTCATTCC
TTGGCCTGGTGGGACCATCAGGGAGCACCTTCCTGGAAGACTTGCAGTCGTCCACCTCAGCTTCTACCCCGTGCTCCTGGTTCTCGTCTTTGGGGCTGCA
AAAGCAAAGTGGATCTCTCCACCAGCCCATATTTTTCTTTGTCCCTCCTCCAAGTAATCGCCATGTAGACATCTGAAGCAAACCATTAGGGTTGGTTCTT
CAAAGGGGAGCAGTATGCCTGTTTCCCTAGCTCACTGCTCCCTACCAGGCTGCCTGTGGCACATCTCACATCCCTCACACTGTCTCTCATCCTTTCTCCT
CTCTATTCCAGTCTCAGTTGCTTAATTATAATCAAGAAATTACCCTCCACACCACTGATATTCAGCCAGCTCCTACAAAGCTCTCAGACCATCATCCAAA
GGTTAAGGGGCCTCTTCCTATTTTCCAATCTGTTTCTCCYAGTCCTTCCTTGCTTTGCACCTCACACACATCTCTTCACTTCCAGGAACYATTTAAAATT
CTTGACCACAAAGGAAACTTCTAGTGGCATTTCCTAAAACACTTGAGATCACAAATGTCAAAGCCAGGTCCCTATTGAATTCTTGTCACAATGCCATTTT
GCACGGGATAACTGAAGTTCTCTGTCACTGAGTTTTCACAGAGTGTGACATCAAATAATTTTTCTCCTTTCCTTTTTGTTTAGAGGATTTATCATTCATC
TTCTTGTATTTAGCATGTTTGGGAGCTGCAAATTCAGGAACTACAGGCTAAAGAGGCATGGATTTGAGTGAAGGTTTCACTGTGAATAAATTATTAGGAA
TGTCTTATTTCAGTTATTTAATTTTACCTTTTGTGTATTTATGTTCTGGGTCTGGAAACCTAATCTCTCCTTATTTTCACTTTAATCACTTCTAGAGAAG
AAGAAAGCAGACATTGTGTTCCTGTTGGATGGTTCCATCAACTTCAGGAGGGACAGTTTCCAGGAAGTGCTTCGTTTTGTGTCTGAAATAGTGGACACAG
TTTATGAAGATGGCGACTCCATCCAAGTGGRGCTTGTCCAGTACAACTCTGACYCCACTGACGAATTCTTCCTGAAGGACTTCTCTACCAAGAGRCAGAT
TATTGACGCCATCAACAAAGTGGTCTACAAAGGGGGAAGACACGCCAACACTAAGGTGGGCCTTGAGCACCTGCGGGTAAACCACTTTGTGCCTGAGGCA
GGCAGCCGCCTGGACCAGCGGGTCCCTCAGATTGCCTTTGTGATCACGGGAGGAAAGTCGGTGGAAGATGCACAGGATGTGAGCCTGGCCCTCACCCAGA
GGGGGGTCAAAGTGTTTGCTGTTGGAGTGAGGAATATCGACTCGGAGGAGGTTGGAAAGATAGCGTCCAACAGCRCCACAGCGTTCCGCGTGGGCAACGT
CCAGGAGCTGTCCGAACTGAGCGAGCAAGTTTTGGAAACTTTGCATGATGCGATGCATGAAACCCTTTGCCCTGGTGTAACTGATGCTGCCAAAGGTAAC
TCCCATTATGTGCATATTTTCCATCCTTTCCTGTTGACATTTGTGCCTCTTTAGCTGTCTGGTCCCTGGTGCTGACCTCTGGAGTCCTTAGGCATTTGGT
TGCTTCATACATTTACTTATACCCACTGGGACTGGTCCTGACACCCACCTCACCACTACCTAGGGCGTTCTTCCAAGACAAGAGTAGAAGTCTATCATAT
TTTGCTTTTATAAGATTTACTTTTCTCCCCTATTCCTTAATCCCTCAAACAATTCAGATTTATTGATTCCTGTGTCTAATTATAGATTTATTAGATCAAG
TATTTGAGATCAGAATATTTGATTTTCAAGTGCTTTTAATTTAAAGCACAAACTTGGGGTGCATCTAAACACCAGTGGTGTATCATCACACCAAAGTTAA
TTAACACCACCAACAAAGCTGACTTTTTAAAATAGCTTACTATTTGGCACCTAACAGCTACCCTCATTTCTCTCTGTGAGAGGGGTGGATAGAATTKCTT
CTCAAAGCTCACACACACAGGATCTCATTTTGCACTTGAGTGCGATGCCCTGGTCCTCTGCCTGGGTTGTCCCTACTGCTGGTATAAGTAGAGTTCGTCT
CCTCAGCCCCAGCTGAGAACTCATCACCTGCATTTCTCCTTTCCAGCTTGTAATCTGGATGTGATTCTGGGGTTTGATGGTTCTAGAGACCAGAATGTTT
TTGTGGCCCAGAAGGGCTTCGAGTCCAAGGTGGACGCCATCTTGAACAGAATCAGCCAGATGCACAGGGTCAGCTGCAGCGGTGGCCGCTCGCCCACCGT
GCGTGTGTCAGTGGTGGCCAACACGCCCTCGGGCCCGGTGGAGGCCTTTGACTTTGACGAGTACCAGCCAGAGATGCTCGAGAAGTTCCGGAACATGCGC
AGCCAGCACCCCTACGTCCTCACGGAGGACACCCTGAAGGTCTACCTGAACAAGTTCAGACAGTCCTCGCCGGACAGCGTGAAGGTCTGTGGGGCCAGTT
GGTTCAGGTGCTCCCTGGGAAATTTCCAAATTTTTACTGGAAAGGAGGAAGCCCTTCCCCCAAGTTAAATCCTCTTCATGTTTCACTGGATTGTTAGTGT
CTATATGGAAAATCCCTTAGTTATTAACTGATCTAATGTCATGTACTGTCTTCCTCATTTTGGTAGTCTTACGTAAGCTCTAAAAGAATCCTGGAAATCA
GTAGTTTAACTTGAATGAGTTGAATTTGTGATTGATTTATGTTTAATTATAGTCCAGTCAGGTACGTTCTCCACTTTCATTTCTCTGTGTGTATGTGTGC
ATGCATGCATGTGTGTATATACATGCATATATATTGTGTAGACACACACACCATGTGAGTTTGCTAGGGATCATCATGAAGTACTACAGCCTGGCGGGCT
TTTGGAACAGACATTTATTTTCTCACAGTCTTGGAGGCTTGACATCCTCGAGGTGTCGGCAGGGCTGTTTCTCCTGAGTCTTCTCTGCTTGGCTTGTAGG
CAGGGGTCTTCTCCCTGTGTCTCCACATGGCTTTCTCTCTGTGCATGTCTGTGTCCAAATCTCCTCTTCTAAAAGGACATCAGTCATACTAGATTAAGGT
TCACTCTAAAGATCTCATTAACCTTAATTACCTCTTTAAAGACCCTATCTCCAAATACAGTCCCATTCTTACGGTACTGGGGTTTAGGACTTAACATACA
AATTTTGAGGGGACACAATTTAGCCCATAACACATGCACACATGCACACACGCACACACACCCACAGACATGCACCCACATACATGCACGCACATGCACC
CATACACATGCACACACATACGCACCCACACACATGTACACCCACACACCCACACATGCACACACAATGCACCCATACACACACATATGTACCCACACAC
ATGCACACACATGCACGCACACATGCATGCACACATATGCATATGATTCGCAGAAACTACATCTTAGAAATATGAGAATGAGATAAAAATTGTTTTTATT
GTCATTGCTGCTTGTCTTTTTTAAAATAAATTAAGCACTCAAATATACTCCTCCATTTTAAGTGCAATATCAAAGTCTTGTGAACATGGGTAATCATTCC
TCAACTTGGGCCCTCAGTTTCCTTAAGTGTAAAATGAARGGCTTGAGACAGCGAGTCTCTCAGTTTTCTATCAGCAGTCTGCAACACTCCTTTTTAGTTT
TCCTGGGATTTGACAGCTCTCTTATCTGCAGGTGGTCATTCATTTTACTGATGGAGCAGACGGAGATCTGGCTGATTTACACAGAGCATCTGAGAACCTC
CGCCAAGAAGGTAGGTGCCAAGGCTTTCTAAATATGASAAGTAAACCCTGGTGAGGCGGGGTGTACTGCTCTGCTGGAGAGAAACCTCTCTGCTAATGCA
GCGCCCCAAGGGAGCAGCGTTGTCTTGGGAGACTCTTCCTCCCAGCGTTGTGGCCCTTCATCACCTGCTTGGAGCTGTGGGATGGAGCTAACAAAAATTC
CTTCTGTACTTAGACAGCTTTACTGTTGTGTTGTGGCTGTTCAGGTGGTAGAATGTTCAGAAAGCATGATGCTTTTGCAAAAGATCATGACGTATTGATT
CATTTAACTTCATCACATAAACTAGGAATTAGTTACTAATAAAAATACATTGCTCTATTTTTGGTTTGCAGTTATCACAGTTCAACATTTAATAACACTA
CACCCAAATAATACAAAGAAAATAATGTAAGCAATGACGTACCAAACATAAGGTGACAGCCATGCCTATTATCAGATGTGATCTTTGACTATTCACTTGC
TTTGGCGTTTGGTAGCACTGACTATCAGAAAGTGGATGCCATTACAGAAGTGTAATTTATCCTAAGAACTTTCTATTTATTAGCTTACTTTTCCCAAGCA
ATGGAGATGAGGCTGCTATTATCTGATTTTGGAGGTGTTAGTATTTCAATACTTCCCACAGCATACTCGTGTTACAGAGGGCCTGAGTTTGAGAACTCAT
GCATGAATACACTTCATGGATGCCACTTCCTATATTTTTAGTAATAGGTTTAGTTATTGACATACCGGAAACAATTATTCAGCAGAGTCCAAAGTTTGAG
TATTTCAACAATTCAGAGTAGCCAGTAAACTTGATTAAATATATTTAAGTTAAAAGCTAAATTTTACACTGAAGTTTTCTTTAAAAATGTAGTCAGGAAA
AAAGGACATTGCATTTTCCACATGCCTAGGTGAGCTGTATTAAATGTGTCTTTCTTTGCAGGAGTCCGTGCCTTGATCCTGGTGGGCCTTGAACGAGTGG
TCAACTTGGAGCGGCTAATGCATCTGGAGTTTGGGCGAGGGTTTATGTATGACAGGCCCCTGAGGCTTAACTTGCTGGACTTGGATTATGAACTAGCGGA
GCAGCTTGTGAGTTTTTTTTATGTCTTTATACACAGACCAGTGTAGATACCACACCTTTTGGCATTTCAAGAGAATGAAGTTAATTATCAGCAGGTGAAT
GGAGGTGGGGGGGGGGCCTTGGTAGATAGTTAAATTTATTTAATTCACTTGGGAACTGCCTTGTTGCCATAACACATGTGAATCTGGAAATGGAGATAGC
AAATCGCTGGAAATCCAGCGAGCTGGAAGGGGATCCTGGGCGCGCTGAGGTTGTGGCCTTAGCATTTTCTCTGCTCCCTTAGCAACGGCCTCTTTTAACA
CCATTGCAGGGATGCAAACCATCGAGATTGTCCATCCTCCAATTGGAAACTGTGTCAAGAGCATCTGAAATCTTGCATGATAAAAACAACATGCAGGAAA
AGAAAGGCTGTTTCTGGGTGGAGAAGTGCTTTAATTGCCCTCCCTAGTTTCCCTCTGTGTCAATGAAGCTCCCTCTGAGGCTTCCTCATTCTCCCCAGGG
CCAGCCTCTCTCAGCTGGAGGTGTGACCTCCTGGGTTTAGACTGGGGATGGAGCTTTTGGAAGATGTGGGGCTGAGCTGCGAACTCAGAGATTCTTTGAT
GGTAGCAACAGTGGACTGTGGCTATGAGAATGGGAGGAATGGACCTTCCTTTCTTCCATRCTTCTTTGCAGGGYTAGAATCAGGATTTTTTTCCTAGTGG
AAGTAGGTTGAGTTAGCTCACAAATCTGGGATATGGGAGAAAGGGAAAGCTCTTGGAAGCTCGTTGGAAGAAAGTGCATGTGCCCACCATTAGTTTAGCA
GATGGAAATGTATTTGGGCATGCCCTTTCCCACATAAGGTCAGGGGCCAGATGGGATGAGAATGTAGAGGGTGTCTGTGTGACCTGGAGTTGAGAAGCTT
TTGGCTCCGAGGCCAGGACCACTTGTGCCTGCTCCCACCATGGCTGCTCTGGAAGCCTCTTTCTGGGCTGGTACCATATCCCATGACTCTCACCCTGGTT
CCAAGGAAGGGTGGTCATGGATATCTGTTCTGGAACCACCTTCAGTCTTGGCCATCTGCCATTTGCTTGGCTTTGCACTTTGGAACTGGAACATATGTAA
GTTATAGTTAAGATCTGATGATGGAAACTTCTAGAAATAAGGTCCAGCCTGCAGTGATATTGTGGATAAGATCTATYTTACTTTGGTTGTTCTTTACTTT
CCTATTGGTGACCTCCCATCTGCACCCCGACCGCCAGGAGCTGGGCCCTCCTGACTTCGCTGGCAATTTCTATCATATCGTCAGTCGTCCAGCAAATGTC
ACCTGGAGGGACTTCATCTCACACCGTGAAACCCCCACACATCCGATTTTGACCCTTRAAGCGCATTTATGATTTTCTGCTGGGCATTTCTTGAGATCTG
AACATTTGGTTTCTCTTCCTTTCGGTAGGACAACATTGCCGAGAAAGCTTGCTGTGGGGTTCCCTGCAARTGCTCTGGGCAGAGGGGAGACCGCGGGCCC
ATCGGCAGCATCGGGCCAAAGGTAYGGTGGCTTTACCCTTGCCCACGCCTGAGATGAGGTGTCAGAAGCCCGACRTTACTTTGGTGGGGTAATTTCTCTA
ACAGAAGAGTGTGGAGATGAAGGAGGAGACGAGAGACCATTTCTTATGTTAGAAGGAGGAGCTCTGAGGGGCAGACCTGCGTGCTGTTCTGCTGGGGCCT
GTTCCAGTGAAGATGGTTCAGGCGGGACCCTCCTTTTGCACAGGATAAGGGGATCTGTGCTTTAACAGCTTGGTCCTTCATTTCATAAAATAATGTTAAA
GGCAGCTGGCGTCCCTGACAGCAGCCTGGCTGCGAATGGCAGCTGGAACTCATAGCATTTGCTCTGAGTCAGTAGGAACTAACAGGCTTTCTTGGCAGAG
CAGGAGCCTTAGAGATCCTGATAGAGAGAATCGTGACATGGTGTACTGAGGGGAAAAGCAGTAACAGGGAAAGCCATGCTGAGTTTTAGTGCTGCTCTGC
CAAATGAAGGGGGACCACAGGGATTCTTACTSTAGAGCAAAGAAGACCACGGGATTAAACAGAGGACCCRATTACTTTGTTTCAGGGTATTCCTRGAGAA
GACGGCTACCGAGGCTATCCTGGTGATGAGGGTGGACCCGTAAGTAAAAATTGTTTTAGTCCCTAAAATTTCACCCCCTCCTTGATCCTTACCCATTGGG
ATTGCATTGTGGATTTCATCATTTGTTCAGTTGCTGATGGCTTTCCCTTTGGGAGAAAAATTAATTTATACTTTTCTTAACAACTTTGCCTGGATGTCTA
AGTACGATAATTGAAGTATGACAAATGTGGGCATGAAGGGTGGGATTTGTTCTTACTCTGTTTCAGAAGGAGGGATTAATTGGTTTCTGAGCCAGAGGGA
CACCGAATTTGCACACCCAGTATCTACTAGATTAAGACATGCAAGTAGAGATGGGAGTGAGCTGAGGGGCAGGGACACAGCAGGAGACCTCACCAGGGCT
TTAGGGGTTACCCCGTTAAGGGTAGTCCCTGGAGGGGATGTTGCTGGATCAGATCATCAGTATCCGAGGGTCTTGGGGATGGACAGACCCCAGTAGCAGG
GTCCATGGGAGCAATGCCCAAGACAGACACCTGTCTGGGGAGCTTTGGGACCCTAGATCAAGGTCCAGCCCTGGGATAGGGGACAGAGGGGCTCACGAGG
AACAGTGTGGTCACCAGGGCCCAGCCGGCAGGGCTCGGCTAGAGAACTGGGAATCAAGCATCACTTGGAGGAGCTGTCAGCCYGGTGGGTCTTCCCGGGA
TTCAGCACCCACAGAGACACAGTGCTGGGGGCCACCCACCCTTGCCCCACAGGGCAGTGCTGTCTGCGCTGCTACCCTCCCAGATCTCATTCCCTTCAGG
GAAACTGCAGGTTCCAGGCCAGGCCTCATGCAGGGGCCCAAGAGGCTCCCTGGCTCACGTAGCCTCGATCGRCGTTCCCCATGGTGAAATCTGCTTTCTG
CTGCATGCTGTTCACAGTACCCTTTACGCTGCTGCAAGCCCGGCAGAGAAAGGGTGATGAAGGGCTCCAGCTTGCAAAATGCCTTTGTCTCTCACAAYAG
GGTGAGCGTGGTCCGCCTGGTGTGAAYGGCACTCAAGGTTTCCAGGGCTGCCCGGGCCAGAGAGGAGTAAAGGTGAGGCGTGGGTGATGGGGTTGCTAGC
GTGGGGAGGGGTCAGGTGACTYGCAGTTTCTCCAGATGCTGCCAGGGAGGGAGGCGCTGGTCCAGGCTTCTTGACCTCAGCATTCAGCAGCCCGTGACCT
CTCATTGGAAGGCAGTTCTGAGCAGGGTGGGTTCAGGAGCAGGGGCTGCAGCTGGTGGGGAGCCTGAGAATGGAGAAATAGTTTCCTGTGGAAACATGAA
GAAGCCAGGAAACCCTCACAAGGAGAGAACATGGGCCAGGGCGGAGGGKAGGCTGGTGCCCACGGCCCCGGCCCTGGACCGTGGGAGCAGTCAGGGAAGG
GAGTGGAGTGAGAGGACAGCAGGTGGGTTGAAGGCTGGTGAACTTGCTTCTCTGTTTGCTGAAGTTTGAAGGCAGGTGCTGAAGGGAAGGGCTGCAAAGT
TACAAAGTCAGCTCCTTGCCCTGGGTTTTGGGGTCCACCCCCGCCGGCCCAGGGAGCCAAGACCACCCAAGCATTCAGTTCTAGTTTTAGTTTTAAAACA
TCGCACGTGGTGGTGAGAGAGGAATCCAAAGGGGTAGGACTCTAATATTACATTTTCAGACACTGCAACATTCAAATGGGGTGGAGTGGGGGAACAGCCC
TTGGCCTCTTCTGCCCGAGGGACCAGCCCTGCAGGAAAAGCTAATGCTTCCCCTATCGCCTTGCCTTCTAGGGCTCTCGGGGATTCCCAGGAGAGAAGGT
ATGCAAGCTTGGTTTTGTTTTACAAATGGAAAACTCTCCCAGTATTTCTCATTTCTTCCTTTGCCAGAATAGCTTTCTATACTTACCTGTCCGCCTTATT
CCCTCTTAGGGCGAAGTAGGAGAAATTGGACTGGATGGTCTGGATGGTGAAGATGTAAGTGATTTTACTCTAAGTCCAAACTGCTTTTGGTTCTGAAGAT
TCCAGAAACTAACAACTCAGTCTGTGATAGAAATTGCAGCAGGTGTGACCTTTAATCCTTGTCTTTGGCAGGGAGACAAAGGATTRCCTGGTTCTTCTGG
AGAGAAAGGGAATCCTGGAAGAAGGGTAGGTGTATTTCCACGGTGGTGCTATTATGGAAAGAATATCAACATTTCATTTAGGGAATAGTTATTTTCTTTC
CTCATATACATCAAGCCCGCTTCCTCCAGGCAGCCTTCCCTGACCTCCCCTGTGAGTGCACCCATTACATCCCCTCTCAGCTCTGACACATTACAGTACA
TTTTCTTGTTTCGAGATCACATCCCATAGGGCAGGGACTGAGTTTGTTTTGTTATAAATAAATCTCCAGTGCCTGGCACAAAGTGGGTCCCCAATAAATA
TTCATGGATTTACTAAACGAATGAAAAATATGTGGAAGTGAATTTGCCTTCATGGTGAATGAGTAAATTGTAAACATTGTTCTAGTTAAGATTTATGAGT
TGAAGAATGTGATTTTTAGGGTGAGATAAAAATGGAAACATCTAGTTTTTAGCATCCACTTGTGCTTTTTCTTTAGGGTGATAAAGGACCTCGAGGAGAG
AAAGGAGAAAGAGGAGATGTTGGGATTCGAGGGGACCCGGTAAAGATTTCTTTATTGACGATTTCAGACCTGAGCCTGGGGAAGAGGGTTGTTGGGAAAG
GGGGATGAAAGGAAGAATTCTACTTTTGAAATTGCTTTAAAACAYGTTGATAAAATATGTGCTTTGTCTTTTTCTTGCAGTTTGGGGGTTTGGGGAGATG
TGTTGGTTCTCTTGCTAACCAGATAATCATTTGCAAGTCCTGTTATACAAATATCTGAGAAGTTTCCAAAAATGTGGTATCAGGGCACTTCAAATTTGCT
TTTGGAAAAGAGAAGAGTTTGCAGCTTTTCTCATTTTGTGTCTCTGTAAAACGTTTAAGCAAATGAGCAGTACAAGCTAGCCTCTTCTTCCAGTCCATCC
TGCCTCTGTGGCCAAGGATAAGCAGGAGTGAGCCTGGGGCATCCTCCTCCCTGGGGAAGAACGATTGCACCTGTTTGGGGCTAAGAGTGCTTTGCTGATC
CCGTGATTGGGTTTCGTAAGACCTGCATGGATGTTACCTGGATGGGTTGTGGCCGAAGGGCTTGTCCCTYGAAGCCTTGCATGCAGGTCCTTGCTAATAT
TTCCCTGACCATCCAGTCCAGTGGCAGCTGCTTTCCTTCCATATGTGGCTCATTTCCCTTTCCCATGTTGCTTTCAGGGTAACCCAGGACAAGACAGCCA
GGAGAGAGGACCCAAAGGAGAAACCGGTGACCTCGGCCCCATGGTAAGGTGCTGCACATTCCTAGACTCTCCCTGTACTGAGGGCAAGAGAAAGGACACA
CTTCTCGGCTCATCAGCAGCCACAGAGGCCAAAGAYGTGGCCTTTAACACTGCAACGTAGCCTAAGATTAGCAGCAGAGTCCCCGTGAAGGAAGTCTCCG
TGGGGAACCAGAGTGACCCTTGCCAAGTGGGGCTTCTCAGCAGAATCTGTGCCTSTTAGATATTTACGGAAGGTGCTTGTTAAGCCAAAGGCTTGTAGAG
GTGGGAGTGTACTGAAGTCCGGTGCATCCTGCAAAGTGTGCAACTGTCCTGCAGACRGGCTCTTCCTCTGTGAATCGACCCCTTKCCCTGCAATGTCTTG
TGCAGCATTTCAGAGCTAGACATTCTTCTCTGCAGATGAGAATCTCATGCTAATTTTCCCCACACCAGGGTGTCCCAGGGAGAGATGGAGTACCTGGAGG
ACCTGGAGAAACTGGGAAGAATGTGAGTGCCATTAGGGCTTTGGGGGGCTCTGTGACAATTCTTAGTGCCATAAGATCTGCCCAACATGACCTGGTGCAT
GGTTAGTCCACAGCTCTGCAGTGAGTGAATGTAAAAGGATTTCTGAAACGGTTGTTACTCCAATCTATTTTCATTCTTATAATTTCCCTGGTGCTTCATC
TCTTCTCTCTCCCCAATTCTTGCTCTCCCCAAAAACATACTGAACAGATACTTTTAAAAATAATATCTTTGCTACTTTCAAATATCGGGCCAGGTTTGAT
CCAACTAAATATTTAAGAAACCCAAATGGAAATCCTAATACTGGGGGAGGGAGGGAATAAGGGGCAAGAGGGCTGAGGGAGTTGTGGATTTGTTGTTTTT
GTAATTATCTGTGGGTTTTTGGGGGGATGMTGTAAGTGAAATAAAAAAACTAGATTTCTTCTTTTTCTGGCATATTGCATCTTGCAATTTCAAGACATTT
CAGAAATGTCTGTAGCAGAATAGCTCCTTGTATGCCTAATCCTCAGTCTTGTTGAATAAATGCTAAAGTCAAAGTGATGTGAATGATCTTTCTGAAGCCA
ACCAAAAGCTTCCAAGGTCCTCGGGCACAGACAGCATCTGCCTTGTAGCTGGGAGAAGACCAGTGGTGTAGAAGTTTGTAACCTCTCAGAGGAAATTCAG
GATGCTGGTGGGTGCCTAGGGGAGGTCTCTGCTCRGAAATGAACAGAGCACAAAGGCTGCAAGCTGGGGCTGGGTGCTGGGAACTGGGCCCTCAGCCACG
CCCTGAGGGGCAGTGGCTCGTTCGGCCCGGCACTTGGGCCAGTAGAGTTCGCTGGGGTGAGGGGCTTTCAAAAGGAGCGACTCACCAAAATCAAATTGAT
GGACTATGGGCATCATTTTGCTTTGAAAATTCAGAAGAAAATAGAAATTTKGAAAATATCATTTTAAAATGTTTGAGCACTATTTATTTATTTATTTTTA
ATAAATTGTAAAGACCTGGATCAACTGCTTGGAAGTGAGCATTATTTTTGAATAATGCTATATAATGAAAAAGAAGCTATATAATGAAAAAGAAGAAATA
CTCATCAAATGTTACAATGGGCTATTACAACTCAGCGTGTGAGCAGAGCCAAAACTTGGTTTCATGAAATGACTTAAAATTGAGTAGTTCATACAATTAA
TTTCAATTCTACACACAAGGTAGAAACTGGATTTGAATTCGGTTTCAGTCACGGGCTCTTGAGGACTCAGTTCTTCCTTTTGTGGTCTAATGGCCTGCTA
TCCCTTCCCTTAGGACCACAGTGCCAGGCTCAGGCCAAGCTGAAATGTGTCCCTCCCACTGGGCTTCAGCATGCCTACATCCCCTTTCTAGAGTCTCCGC
AGGCGGCCTCTGGCCTGAGCAATGTATCACTGAGTGCTGCTGGACTCTCATGGAACTCTAGCATGTCTCTTTTGGGAGGGGCCAGGCCAGATTGTTGGTT
TGTAGAGGAGAACAGTGTCCCCTTGTCTCAAATTTTCCATGGAAGGTGGCCAAGATCTTCCGCTGAAGCAGGTGGCATTACAGCGAATAATGGCAAACTG
GTCACCGCAGATCACTGGGCTGGTCCATTGGAAGTGGAGAGTGAGGTTCCTAGGTTGATGTAGCAGATGACTGAGCCCCACAACAGAGCTAGTCGGTCAC
AGCCTCTGCAACACCAACCCTAACTTTGCAAAGACCGCCTGGGACATTCATAAAGTCCCACCCCAAACCTTTCTACTGCTGAGGAAACAATTTTGAGGTG
GAAATTAATGGATTACTTGTGAAGTAAGCCCACATGTTTGAACTAAAGGTCACCTCTGGAGCATCCAGGAAGATGTTGCCAAGTCGTGAGCCCTACCTAA
GTACACGAGACGTTTAGGTGCACATGTGTGTGCTTCAGRTATTTTACTTAACCGAGTGTGTGTTGTGTTTGGCCGGGATCACTTGGAGAACCTGGGACTC
CCTTCCATTATAATTAATRTATTTCATGACTTCTCAGTACAGTTGGGAAGGTGGAAGAAAAATAGACAGGTTGACATTCCCTTTTCACATTCCTCATTTG
AAACTGGCTGGGATCGTGCAGCCAAAAGGAGTCATTATTTTGCTTGGCAGGTCTGCAGTAATTCTCAAAACTTCCATTGGGTGATTAACAGGAGCAGCAA
GGAAGCAAAACTTCACCCGGATGAGGGTGGAGGAAGGGTGTCTGTGTGTGCGAGTTTCCCCAGGGCTGATGAGGTGTGGTTTCTGGTTCTTGGCACGATG
TGGGTGCTTGGGAAGATTCCCCTGAGTAACCGCAGAATAAGAGGGTGAAGTCTGAAAGAGCTCTAGGCCCCATGCCCAGCGTCCCATGCTCCCCCTCACA
GTTTGTGGGACTTTTTCTTCCACAGGGTGGCTTTGGCCGAAGGGGACCCCCCGGAGCTAAGGTGAGCCTCATGCAGTGCCCCCTGGAGACTCTCTTCAAA
CAGCCCAGATGCCGCCCAGCCCAGGAGTGAAAAACACTCTCTCCTGTGAACCCAAAGCTTCGGAGACAGATACCAATCAATTTAGAAAGTTGATTTCGCC
AAGGTTAAAGACATGCCCGTGACACAGCCTCAGAAGGCCCTGATGACACCTGCCCAAGGTGTTCGGGGCACAGCTTGGTTTTACACATTTTAGGGAGACA
TGAGACATCAATCAATATGTGTGAGATGTACATTGGTTCGGTCCAGAAAGGTGGGACAACTCGAGGCAGGGGAGGAGGCTTCCAGGTCATAGGTAGATAA
GAGACAAAAGGTTGCATTCTTTTGAGTCTCTGATTAGCCTTTCACTGAATACACAGTTTACCAGAACAGTCACCTATGCCTTAGTTAGGCTTAGTGAAAA
ACAGGGCGAAGGAAGCAATTGGATATGCCTTTGTCTCCCATGAGCAGAGGGATGACTTTCAGTTCTGTCTGTCCTTTGTCCACAAGGAATTTCCCTGTGG
GCAGAATGTGAGGGAGGTATKCAGCTTAAAAAAAAAAAAATCTGGCCAGGACGGTGGCTGATGCCTGTAATCCCAGCACTCTGGGAGGCTGAGACAGGCG
GATCACCTGAGGTTGGGAGTTCGAGACTAGCCTGACCAATATGGAGAAACCCCGTCTCTACTAAAAATACAAAATAGCCAGGCGTGGTGGTGCATGCTTG
TAAGCTTGTAATCCCAGCTACTCAGGAGCCTGAGGCAAGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCATTGCACTCC
AGCCTGGGCAACTAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAATTCTTTGTAGCTATCTTATTTRAGAATAGAATGGGAGGCAGCTCTGTCTGAT
GCAGTTCCCAGCTTGACTTTTCCCTTTGGCTTAGCGATTTTGGGGTTCTGAGATTTATTTTTCTTTCATCCTCCTTGGGCTGTTCTGGCTCCCGAGGCTC
TGTCAGCCGTCTCCTTAAACAGCCTCTTCTGCAGAGTCTAGAGAAAATGGTGCCCAGYGGGGACTTGGGGTCCAAGTGCAGGAAACATGACTGAGGCAGT
AGTGTCCCGGGCGGGCGCCTCTTCCAGAACGTGCTCACCTATCTGGCCATCAGCAACCCGCAACTTCCCGGTGTCTCGGTCCTCTGCTTTAGGTCTAAAT
GATCCCTGTTTCACAAAGCTGTCCGAGGAGAGGTGAGGCAAGAGTGAGRAACAATTGTAGAAGTGCAGGGAGACAGCTGGCTCCTGTGCTCAGTGTCTCA
CCTGGGGTTACCGCTTTGATCATCTGTTACCTCTGGAAGAGCTGAGTTTTCCCTGGTTGCTTTCCAAGTCCCTGGCCCAGAAATGACTGTAGAGCAAAGA
GCTGACATTGACAGGAACCATCCTGACTCCTCCCTGCATCTTCTCTTATTTCAAAGGGCAACAAGGGCGGTCCTGGCCAGCYGGGCTTTGAGGGAGAGCA
GGGGACCAGAGGTGCACAGGTGAGTGCTTCCGTGTGTGACTGTGTGCCCTCTGATATYTCACAAATCATTTAAAAAATGATTGGGTGGCATTTATATCCG
GAAAGTTAACCATTTTAAAGTGAACAATCCAGTGGCATTTGGTACTTCCACARTGCTGTGCAATCATCACCTCTATCTAGGTTCAAAACACAGTCTCGAA
GGAGACCTGTACCCATTAGCAGTCACTCCCCATCACCCTCCACCCCGAGTCCCTGGMARCCACTAATCTCTCTCTCTTTATGGATTTGCCCACTATGGAT
ATTTTGTATAAATGGAATCATTTACTAGGCAGCTTTGTGTGTGTGGCTTGACGGAGCATCATGTTCTTGAGCTTCATCCACATTGCAGCATGTAGAAGCA
CTTCATTCCTTTACATGRTGGAAGGATACTCTGTTGTGTGGCTACAGCACACTTTGTTTATCCACTCATTGGTTGATGGAGATTTAGGTTGTTGCCATCT
TCTGGCAATTGTGAATGATGCTTCTGTGAAGATTCTCCTACACGTTTTTGTCTGAATGCTTGTTGCTTGTATACATTTTAAGCTCACTTGCCTATTCACG
ATCTGGATTGAGGCAGCTGCTACTGCAGCTAAGACAGGATAATTGTGGGTTTTGGTGGCCRTTTTTGGCCAGCAGAAGTGAGGTTCCAGGCCCTGTGGGA
TGGGCAGATGCCATGCAGAGGCTTCTCATGGAAAGTCACCTCATTAGCACTCACGATGGTCTTTTCCTTCCTCAGGGCCCAGCTGGTCCTGCTGGTCCTC
CAGGGCTGATAGGAGAACAAGGCATTTCTGGACCTCGGGTAAGCCTGTCCTAATACCAGCCCCCTCTCTAGCTGAACAGAGGGCACATTKYCAAGCAGGC
TGAGAGAGTTTCTCGGATGATGCTATTGTAGACAGACCTCCCTTTAGCTCTCCTCTTTGGCAACAAAAACCCCAGATTTAACCTCAGGCCTTGCAGTGAC
TGGCTACTTCACCCCAAGAAAGTAAGAGTTTCCTTTTTTGGTGCTCCATGGGCCTCTAAGTCTCAATTCTGCTCCTTCCAAGTGTCCCTGGGTGGAAATC
AGGGGATATGCCTCAGGATGGAATCCTGGAAAATCTAAATCTACCAAAATGCTTAGATTCTGCAAGGTGTTTCMCCTTTGGTCCCTGGAGATAGCCCCTT
GTGCTYATGTATTTTGTATAGTGAGTGCCTCAAGTTCACCCATGAGTTCAGCACAGAAGATGGCCCTTAAACTTGCTGTGACTGCAGATGTTATCTTGCA
AWGCAGCTATCAGCAATGATGAGCAGAGACACACTGTCATTGCTGGGCTAGGATCAGGTGTCACGGAATTACRTATTCGGGTTTCCCTCATGKCTGAGAT
GATATTGAGGGAGGCATCCTATCATTTATTACCAAAAAATGACTAATAAACTGGTAACGAGCTCAATATGTTGCTACATAAATGTACAAAAATATTTTAT
GGTGGAAGCAGGCAAGAACTTGCTTAGAAAGTCCTTCTCTAGCTTGAAAGCTGAYAAATACATATCTTTAGACGTTTTTAAAAAACATTTACTTAACTTG
TAATTAATCAACAATTTAAGATGGTATAGATGCAAAGCTATTCAAATAGTTATCCAGTAGCTCCAGAAACATTTATTAATTTGCACTTTTTCACCATCTC
TTTTATGTTATTTGTGGGTTGSGTAGACTGTACCACATTTTAAGAGTTAATTTCATCCATCAGTTTATTCATTCACCTAACAGGCTTTAACATGCCCATA
TGTACCAGGTGCTCACTGTGAGGGTGTGAAAAGGGAGGCAGAATAAAGTCACATAAAATCTGGGAGCTTGCCGTCCTGTCAGGAACCTAGGATATGTACA
TTAATAACTGCAACATGCATTAATTTGTGAAAACTGGCACTGAGAGGTAATACTCATGTTTTAAATTTGTGCATGCCATTTCTGTGCATGTTTATATTTG
AGTCCGTAGCCCCGTGCTCAGAGCTGAGTGCTTGGGATTTGCAGGTGGGACAGGTTCCATGCCCCTGGCGGGCTCTGACTTCCATGCAGGGGAGAGTCAG
GTTTCAGAGACCAATTTGCCTGGACGGTTGGCCACTTCACTGACACATTCCTCCCCTCCTGCTCCAGGGAAGCGGAGGTGCCGCTGGTGCTCCTGGAGAA
CGAGGCAGAACCGGTCCACTGGGAAGAAAGGTTTGTCTTTAGAAAGGTAGAGCTTTCCTGAGGACAGGGACCAGCCAGGCACACATGCCCCTCTCCCTCT
TTGGTCAGTCTGTCTGTCCCTCCTCTTYAGTACTACTGGTTCCCACTCCAGCCTCCCCTGTTGATCGCGGCTTGGCCAGTGGAATCATTGTCCCCCAACA
ATCCCCACCATAATTCCCACCACCATCCCTGCCACCAACCATCTCTGCTCAGAGGGCTGGCTTTCTCCTGGCCACAGCCCTCCATCAGCTGCCAGGTTTT
CTGCTCCTCTCTTGCTTGGCTTGTGCCAATAGTGCAGCACCCTCTGAGCCATCAGAGCAGCCGGGCAGTGCTTGGTACAGTTTCAGTATAATATGGAACG
AGCAGTCTTTAAACAYGGGCAGTGCACGCACAGTGGCTCAGCTAATCACATTTAGATCATCCAAGAGCCCCGACCCTGACTGTCCTGGATAACAGCAAGT
CTGCTGTATGAAGGCTGCCTGAGAACCTCCTTTCTATCAGCTTTGAGATAAATTACAATTTGTCATAACCAGTCCGAAAAGACTGCATGTTCTCTGTAAA
AGAAATGAGTTCCTGTGAATCCACGATGGTCTCTGCCTGGAGAGTGTTTTGGGGTTTTATGCTGGGCTCAATGCCCACCGCCTTCCRTGCCTTCTTCTCC
CAGTTGTTACTCTCTCTTCTCATCAGCCCGTCCCCCATGCCACGCTGGTGAAAAGGACAAACAAAACCCTCCTGGATTCTTTTCCAGGAGTTTGCACATG
AATGTTGCAATTTAGAAAATCATTCCACCGAAATCTCAAAGRTGAAGTCAGCATGTTGCAGCACCCTTACCTAGAGCAAAAGCATGGCTTGGCATCACAC
TGTAAGCCAGCCCCAGGCCACAGGGTCTCAGCCATGTTTCTCATGTCTAGGGTGAGCCCGGAGAGCCAGGACCAAAAGGAGGAATCGGSAACCGGGGCCC
TCGTGGGGAGACGGTAAGGTCACAGCGCGCTTGGGGTCAGGCTGTCGCTGACTCTTTGCTGGAAGGTGCAGGAAGCCAGGAGAGGGTTCCAAATAAAGAT
GAGCCTTGCTTCTTGTATTATTGGGGATACGGCTGGAAATACTGAAACTTGCTCATCTGCGGCAAATTAATTTAACAAGTTTTATTTTATTGGCAGGGGT
AGAGAGGTGGGGCGGGCCGTGGGGAGAGACATTTTTTCCCCTGTGTTTTTCCTGATACAAGAGAATGTAGAGGCTAATGAAGCTTAAACTACCTTCATCT
TAGGTCCCGCAAATGCTTTGCAAGCATAACTAGATGAAGCTTTTCTGCAAAGAAGTAAATGTCATTTGGGTTAAAATGGAATTGGATTTGATTAGGTCTC
AGTCCAGATGGAAACAATTTCTTTTGAATGAGACATCTTAGGAATAGAAATTATTACCTCAGTAACTCGTTTTTTAAATGCTATTTAAAAATGCCCCAAA
AACTCACCAACAATAATTTTGTRATGTACATTTCTACGTTACAAAAGAATAAAGAAATCTACGGTCCATTGTGACTTTTTCCAAAAGGAGTCATGGCACC
TAACACTGTATAAAAGGACCAGGTTGATCTGACTGTTTTAATTCCAAGCATCAAAATATTTTTCTGTCTTTCATTTTTGTCTTTTCAACTAACTGAAGTT
TAAAAACGAATCTGTTTGTATTACTTTTAATCTCAGAAGCACAGGGAAAAAATCAGACTTCAAACCATTGAAGGAAATCTCTTCCTGATTCTGTTTCTAG
TAATTTGGGTCAACAGATCTCTAGTTGTTGATATCTGTTGAAAACTGTAAATTAACTAAGTGGCAATTCCTACATATGTTAGAGATAGTAATGTACAATT
CACACAMGTTCTTCTGATTCTTCTGATTCATAATTAATGACGTCCAGTTCTGAATGCTCCTCATGAGAGAGCAACAGGAACAGATCTGAGCATGCTGGGG
GGAGGTGTTGGAAAGGAGGGGGTCTAGGGGTGATGACTTGGAAGGAAGGGAAGGGATATGGGGAGGGGGAATATGACCTGGGCCTGAGAGATGGAGTTCA
GTGTTTTGGTTTTGAAGTAGAATCAAAGACTTACGGATGCATAGAATCAAAGTAACCATCAAGATTCCTGTCAATTCTAAGATTCTTGGGGTTGACGAGT
CTTTGATTCTACATCCAAACAGAATCTTTACCAAAAGCAACCAGCAGTTCTTTCTATGTTAGTCCGCCRGTGCCATTTTGCTACGGGAGTCCTTTGAGCC
CACCGCCTACAGAAATGGTCTTGTTCACACTTGGAAGATAGGACAGGAGCAGGAAGTGTGCCTACTCCTGTACCTTAGTCTGCAAACATTTCAGGAGCTC
AAGGATCCACTTCTCAGGGGCAGCGGCAGGGCAGAGACGGTGGTTATGGYGTGCCAGGCATGGCGACCTACAGTCACATCTCTTTCCCACTCTTAGGGAG
ATGACGGGAGAGACGGAGTTGGCAGTGAAGGACGCAGAGGCAAAAAAGTACGTATCTGCTGAGGATTATCCAAGYGTCCTTGCTGCCAGSAGGCTCCAAG
GACAACTTCTGATGTGTTGTGTTTTAAAAGAATTATTTCTTTAAAAATTGTCTTTGTATTTGAGTGAGTGTTTTCKTTTGATGACTCAGCAGACATTTCT
TTCTTTCAAGGTCAATTTATTTTASATGAATTTAAATTAGAACCAAGTATTAAATAATCTATTTTTCCTTTATAGGGAGAAAGAGGATTYCCTGGATACC
CAGGACCAAAGGTAAATAATCCCTGGTCGGTGAAGCATCATCATGATTTTGGGATGGCTCTGGTATGTCCATGGACTGAGAATCAGAATATCTTGGCATT
AGTCTTGGGTCAGCCACTCAGTTAACTGGGCTACCCTGAGAAAGACCCTTCCTTCCYTAAAATACTCTCTCATCTGTYAAGTGGAGGTCATAATACGTAC
TTGTCCTGGTGTTTATGAGATTTAAATAAAATATGCTGCAATCAAAGTACTCTGTAAGCTGTGAAATGCTATAACCTACATGATAGTATCATTACTGATT
AATTAAATTAAGACCATCTGCAAATACCACAAATATAGTAGTAACCCACTGGAAAAGTGAATCAAAACTAACCACTTGGCTGCCCGGGAAAAGTGTGACC
CACACGTCTCCTGGATGTCTTACCCCACGGRCCCKCAGTGAGATCTTCTGTTCCAAAGCTTACTGTGCCACTTCTCGGCTTTCTTCCCAGGGTAACCCAG
GTGARCCTGGGCTAAATGGAACAACAGGACCCAAAGGCATCAGAGGCYGAAGGGTAAGTTTGCGTGGGCCTTGGCTGCAGGTGAGGAATGAGAACGTATG
TCTCAATGTGATTAACTGCTGAGGCTTTGACAATTATCCTTCACTTGCACCCTGGCCAGGGATAGCACAGGGTGGAAGGAAGGGAATCCTGAGCCCCAGA
CCAATGTCCTCAGGGTGCCACCATGGCTGTGGTCCATGGCTCTCCTCCTGTAGGTGTATTCCTCTTCCTCCAACTCACCTCCAGGGTCGCCAGCCCAGCT
CACTCCAGGCACAGCACCCACCTGCAGTCTCRAATCTCATTATGGGTGACTGGGAAGTCTGTGCAGTCACTTTGGGCCATGCCCACCCAGACGGCCAGGC
AATGGGAGTGAATGAGGCATGGCAACTGCTTCTGAAGCCTCTAGGCTTGCAAGCGAGCCAGGCCAAGGCCATGGGCTCCTCAGACTACTGGTGCTGAGAT
TCCTCTTCCTTAAGCTACTTTTAGCCCTGATAGCTCTTTTCTTTTTATTCTTTGTGTGTGTGTGTGTGTGACAAGGTCTCACTCTGTTGCCAAGGTCTCA
GTCTGTCATCTGGGCGGAGTGCAGTGGTGCCATCTTGGCTCACTGCAACCTCCATCTCCTGGGATCAAGCGATCCTCCCACCTCAGCCTCCCAAAGTGCT
GGGATTACATGCATGAGACACCACACCTGGCCAGATTATTCTTCAATGGATGTTTACTCACCCTCTTAAAATGGCAGAGTCTTCAATTAGCAAATTGTGG
CCTAGATCTGTGTAAATGTTGCTAACAGTTATTTTCAGCCTGAAATGTAGTTTAAAAAGAAACATAATTATCTTATTAATTTGATCAGTGAAGACAGTCA
AACTAGATCATTTAATATCCCAAAGAGCTTTAAAACATTGGATGATTATCTACACTGAACGCATTAGCTAATTCACTGTCTGTTACCTATTCTCCTGGGA
GTCCTTAGTAATCATATTAGTGGTTCTTGGGAAAGCACCTGTCTTACCTTAGCCTGGCAGAGAACACAATATACAACACCTCTATAGTTGGTGGGGGACT
CCCATTGGCTTTGTTGAGGTTGCTTGTCCCTAAACTTGAATTTAAGAGACATTTTAGCTCCCTTAAAGTGAGAGATTTTTCGTGGTGATGGAGTCCCTTG
GGTTAGATCACTTTTACYGTACCTTCCAACTATAGGAGCCTTAAATTCTCCACTTTCTGACACAGTTGAACAATGTTTGTTCTGCTCCCTCTAGGGAAAT
TCGGGACCTCCAGGGATAGTTGGACAGAAGGGAGACCCTGGCTACCCAGGMCCAGCTGTAAGTATTTATCCAGTTCTGACCCRGCCACCTGGGGCTGGGT
GCTTTACACGTGGTCCCTGAAAACTTCCCACCATCTGCTTTGCTCACAAGAAAATGTGCTCTCTTTGTATTTGCTTGGTTGTCAAACCGCCTCTCTGACA
TCATGATGCAGCAAAGAGATTTTGAATTTTAGAGTAACAAGAAACTTTAAAAAAATAGGTTTCATGGGATATCCTGTCATCTAGGGAGTATTGTAATTTG
CCTTTATAGTTTCCTGGCATAGGTGCATTTGAGGTTTGTGTAGAGGAGAAACCAAAGAGGGGAAATCTAAATACCTTTTGCTTGCATCTTGTAGAAGCAG
TGTAATTATGCCAGGCCTTGGTTTGACAATGCTTCCTGTGGTCTATGAAATCCCCAAGGGAGCTCCTGATTTGTGGTTAAATCCCACTAGTCATGCTGCC
ACCAGGAGCCAGGAGGGCATCCTCCCACAGCCCTTCCAAACCTCTTTATTGCTAATACCTTTGTTTTCTTATTTGAATTTCTCCATATATTGTCCCTCAA
TATTGAAATTGGTGAGTTTCAAAAAATAATGGAAAAGATAATTCAGGAGTTGGAAAATCATTCCTAGAAGGAAAGGTTCAGGGCTTAGTTTGGTTGAATT
AGGGAAAAGAAAGCTGGTCAGGTGGGTCTGATTGCTGTCTTTAAGTAGGTGAAGTGTTGGGGGGAGCACATTAAGCCAGTTCCTGCAGAAGACCAAGCAG
GCAGAAATAGCCTCCTGGAAAGACAACTAATGGCCCATGAGATGCCTGCTGGGCTGTCAGGGTGGTGAGGTTTAGGCATGGGACACTGAGGGAAGCCACG
AGTCAGTCCCTAGAGCTCCTCGGGGTGGAATTCAGCTGGGATGCTTTAGACACGGAGGGAGCCAGGGCAGCTCAATGATCTCTCACTGCCCCTTCGGCAG
GGGACAGCGTATCAAGCGTGTGAAAGGGAGCTCTTTTCTCAAGAGAAGCAGAATCTAGACCCAGGTTCACTCGTGGGCTTTACATGGATTGGTGGTGAGC
TTCCTGGTTTCAGAACATGAGACTATTTCAAAGGCCAAATGACCTCCCAGGGAAACACATTTGCTCCAGAATCTTCTCTTTTTTGCTTTGCAAGGGATAA
GATCAGGTTTAGAGGGAGAGGCTGTAAACAATCAAGGTTATCCAGGGGCCCCTTTGTCTTGCTCTGTGTATTYCTGGGGGCCAAAGCCTGTTTATTCGAA
TTCCCCATCTGCTGTGCCTCTCACCTTTCGTTCCTTGGTTTTACAGGGTCCCAAGGGCAACAGGGGCGACTCCATCGATGTAAGTTGCATGTGTCCAGAA
TGACTCATTAACCTCATGAGCCTTTGATTTGCTCTCTTTACATATTCTTTTATTTTCTTTTAAAGCAATGTGCCCTCATCCAAAGCATCAAAGATAAATG
CCGTAAGTACATGATTTTCTGTTGTCTCACAATGCATATTTTTACATTCGAAATTCTCACATGGTAGAGTAGTCTCTCACCCTTTCTTCTCTTTGCTTCT
TTTCTAGCTTGCTGTTACGGTAAGTTGATTTTGGTGACTTTCTCCTAAGGAAAGGAAGCCTCCCTTTTGTAGTAAGTACARTTTRTCTTTAACCCTCCAC
CCTCTACTTTCCACAGGGCCCCTGGAGTGCCCCGTCTTCCCAACAGAACTAGCCTTTGCTTTAGACACCTCTGAGGGAGTCAACCAAGACACTTTCGGCC
GGATGCGAGATGTGGTCTTGAGTATTGTGAATGACCTGACCATTGCTGAGAGCAACTGCCCACGGGGGGCCCGGGTGGCTGTGGTCACCTACAACAACGA
GGTGACCACGGAGATCCGGTTTGCTGACTCCAAGAGGAAGTCGGTCCTCCTGGACAAGATTAAGAACCTTCAGGTGGCTCTGACATCCAAACAGCAGAGT
CTGGAGACTGCCATGTCGTTTGTGGCCAGGAACACATTTAAGCGTGTGAGRAAYGGATTCCTAATGAGGAAAGTGGCTGTTTTCTTCAGCAACACACCCA
CAAGAGCATCCCCACAGCTCAGAGAGGCTGTGCTCAARCTCTCAGATGCGGGGATCACCCCCTTGTTCCTTACAAGGCAGGAAGACCGGCAGCTCATCAA
CGCTTTGCAGGTCTGTGCTCTGTGCGTGCTSTTGGCATCTCCCTTTCTTCTGGGGCTCTGAGAAGGTTCTCAGACACGTCCATGCTCCTTTGTGGCTTCA
TGTCVCATAGCTCCTAAAAYGTCCCCAATGAGGCCATCTGCCTGAGAACTTCTCTTGTGAGGTCTCCAGGACAACCTCGTGGCTCCAGCACTACAGGGAC
GCCTACATGCTTGTAGCACTGCCCCCAGGTCCCTCCTCACATGTTGACAGCTCTTGCCGGTTAGTGATGCTAGTGTTGGTGACACTCTCTATCTACTAAC
AAGGTGGTGTGACTTGTTTGCTTTATTCATGAGGACCTGGACGTTTGCATCCTTCCTGTCTCCTCCCAAGATGGCCCCCTGTGCACACTCTGAGCTGTGT
CTTACTGTGTACTGGGCATTTGCTTCCCATAACTGGCTGGTGAGGTTTGTATCATCAGTCTCACCTCATGGATAGGAAGATCCTGCTGTTAGTGAGGTGC
TCGTGAGAGGCTAGGACCCTAGTCCATTAGACTCTGAAACCCATGTGCTGATGATACCCATTCCAGTCTCCACTCTGTCCCAATCGGCCCTGAAGGTGAA
TATCCAGGGTGGCCCTGGAGGCCTGTAGTCTCTCAGTGAGGTCCCCAAAACTATGCCGACTCAGCACCCCCAATYTACACCACACCACTGTGCAAAGCTT
TYTTCAGTGAGGCCCCAAGGGTCAGCCCATGGAGAGGCCAAGTGTCGCTTGTAATTCTATTAAATAACTGGTTTAAWTGTGGGGTTTTTTTTTTTTTTTT
TTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTCACTGCAACCTCCACCTTCCAGTTTTAAGTGATTCTC
CTGCTTCAGCCTCCTGAGTAGCTGGGATTACAGGCACTYGCCACCATGCCTGGCTAATTTTTGTATTTTTCTTTCTTTTTTTTTTTTTTAGTAGAGACGG
GGGTTTCACCATATTGGTCAGACTGGTCTCGAACTCCTGACCACGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGGTTACAGGCGTAAGCCACCGC
ACCCAGACAACTAGTTTAATTCTTACATCAATTAATATTTATTCAGTGCAGTTCTGGCGATACTGTTCAAGACAGATGGGTGATGGGTAGGAAGGAGTCC
ACCCGGGAGTCAGGAGGCCTTGGCCTGGTTCCACACTCCCCCCACCCATTTAAAGTAATGTGCACGCCACTTAGCGTCCCTGCGTCTCAGATTTTTCACC
TGTAAATTGAGACTGGGGCAGGATGATTGCTAATGTCTTYCCTTCCACATTGGATATTCTATGCTTTTACCACAGCCTGTGTCGGCGAAAGACATTGGGT
CATCACTGCCATTCCTCAGGGCTTGTTCTGCCGAACACAGGATGATTTGTGCATAGAGCGCTGGGCTTGGGAATTCAGTGTTGAAGTTGGGCTACCGGCC
ATGTGCTCTTGATGGGGGGATTCATTCACATAAGTCTGTCCTTGTGTGGGCTGAGGGACCCAGAACCACGTGAGTTTCTTAGCATGGTTTCAACGAGATC
AAAAAATTGTTCATTCATTAATTATTTGCTCATTCATTCATTCAAACTAGCTATTTGTTAAATGAATAATTACTAATCGTGTGCCAGGTACGGCGATAGA
CAGGACTCTTTGCMCCCACTGGGAGTGATTTTGTTACTTGCTTTAACCACACCTGAGAGGGTGGGGAAGGGATGGAGCTCCCATATTGTTGCTAAAAATA
ACGATAAGATTAAGTTCCTACTATTTGCCAGAGGATACACCAGTTACTAACATTTATTATCTAATTTAACCCTCCAAATGACACCATTAGGAAGGTATTA
CCCCCCATTTTACAGCTGAAAAAAACTGAAACCCATTTGAACGGGATATGAACTCCAGCTCACCCTAGTAGAATAAAACCTATGTCTTTCTATTATACTC
AGAGCCTAACCCCACCCCCAAATGAGAAGATATTCCCAATACTGCCCTATTGGGAAGTTAATCTATTTTATTGATGTAGCTTTGATTTACTCCTCTGCCA
TATTTTCAGATATTACTGATCATGTAYGCCCCTACCAAAATTGTTCTTTTGTTTAAACCAGATCAATAACACAGCAGTGGGGCATGCGCTTGTCCTGCCT
GCAGGGAGAGACCTCACAGACTTCCTGGAGAATGTCCTCACGTGTCATGTTTGCTTGGGTAAGCTGTTTCTCTAACAGGAAGATCTGCTCAGCTGCAATT
GCAAAACATAATATCCATGGGAGAGTGAGAGAATAATGATGATCTGTAAAAAGAGCTTGAGTTYAATTGATTCACAAAGCCTCGTATTTACCAGAGTAAA
TACTACTGCAGCAGTTTCTATATTAAAAATGGACCTCCCAAAACAGAGCTTCTCTTTGATGGCGGATAATTCATTTTATAGGTAACAAAGGAGGAGGCAG
TTTCTGCTTAAGTTTTGACATTAGAATCTAGAATGAAAACATTGGCACTAGTGACTTTCTAGAACATATTTCTTCAAAGAGTGGCAGAGAAGTAATATAA
TTTTTCATTTCTTTTAAAAATGCCAGCACATGGTATGCTACAAAGATTTTAGGTTAGTGATTTGTTTCATCTACTAAGTATTAGGTGATAGAAACTGAAA
TCTGGCCATAATCAAATCAAGGCAAGATATAAATTGGTTTTGGTTGTGATGTTTTTTTTTTTTTTTTTTTTTTTTTTTTAGACAGAGTCTTGCTCTTGTT
GCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGCTTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCAGAGTAGCCTAGATT
ACAGGCATGCGCCATCAGGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGATCTCGATCTCTTGACCTCGTGAT
CCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCTTCCGGCCCGCTTTTGATCTTATGTGATCATTTTAATCGCCCAAGTCTC
CCAGCAGATTGATGAGCTGTGTATCCTGCTGTGGGTGTCACAGAACAAATAGGCTGCCATGCTTCTTTCTAGACATCTGCAACATCGACCCATCCTGTGG
ATTTGGCAGTTGGAGGCCTTCCTTCAGGGACAGGAGAGCGGCAGGGAGYGATGTGGACATCGACATGGCTTTCATCTTAGACAGCGCTGAGACCACCACC
CTGTTCCAGTTCAATGAGATGAAGAAGTACATAGCRTACCTGGTCAGACAACTGGACATGAGCCCAGATCCCAAGGCCTCCCAGCACTTCGCCAGAGTGG
CAGTTGTGCAGCACGCGCCCTCTGAGTCCGTGGACAATGCCAGCATGCCACCTGTGAAGGTGGAATTCTCCCTGACTGACTATGGCTCCAAGGAGAAGCT
GGTGGACTTCCTCAGCAGGGGAATGACACAGTTGCAGGGAACCAGGGCCTTRGGCAGTGCCATTGAATACACCATAGAGAATGTCTTTGAAAGTGCCCCA
AACCCACGGGACCTGAAAATTGTGGTCCTGATGCTGACGGGCGAGGTGCCGGAGCAGCAGCTGGAGGAGGCCCAGAGAGTCATCCTGCAGGCCAAATGCA
AGGGCTACTTCTTCGTGGTCCTGGGCATTGGCAGGAAGGTGAACATCAAGGARGTATACACCTTCGCCAGTGAGCCAAACGACGTCTTCTTCAAATTAGT
GGACAAGTCCACCGAGCTCAMCGAGGAGCCTTTGATGCGCTTCGGGAGGCTGTTGCCRTCCTTCGTCAGCAGTAAGTCCTGCGTGGCACAGCATGTGCCC
TGGCCTGGCTTTATGCTCGGGCCAGGAGAAGTGTAGGAACAGTCATGGAAAAGACAACCGATGTGTTGACAGGAACTGTTTCATTCATTGAACAGACATA
TATTGACACCTGCCATATGCCACAAATGCTTTTAGGAGCCAGAGTAAGCAGGGAACATGCAGACAGTATCCTTGTTCTCATTGATTCCTTTATTCCACCA
CATTTGACCAAGCGCCACCTAGTCATAAGGCACTCTTGGTGTCCTTAACAGTTTACAAATGGGTGGGCAAATGGATCAAATGCACATTTATTACGCATGA
CATAATAGGCTGGCATGTCGCGAGAGAAGTGATTTCTGTTAGGGGCACCGGGGAAAGCTTCTAGAAAGAGTTGCTTTGATCGGGGCTTAGCCACCAGCCC
CGTGCTTGGATACCACTGGGTCTTTGCTCATGGGGCTCCCCCTCCCTGGAATGCTCTCCACCGCACTTCAGCAGCAAACCCATATTCATCTTCAAAGTTC
AATTCCAATGGCTTCTGCTCGCCGTGGAAGCTGCTGCTCCCAAGGCCTGCTCATGGTTAATCCGGACACCCTATTTAGGGCATCTATTACCTGGCCTGTT
GATCATTTATTTGTGGGTCTGTGGTCCCCTAGACTGCTCTTTGAGGAGGTGCAGCCTATTATAGTTTCCAGAGCCTGTGTACAGTGTGCAGCCCAGGGTC
AGTACAGGCAAGGCTTGGAACAGATGAGGGGGATTTATAAAGTATAAATAAACATGTATATGCTAAATGTTTATTATTTAAGGCAATGTTGAGGTCTATG
AAAACAGTATTCACATTTGTGAAGGTCTGGCCCCCAAAAGATTCAAAGAAAAATGTGAAGCAAAGGTAATCCCCCAGGTTCACCCACAGGTCACTGTTCC
TGTCTTCCAAAGATTAAAAACAAAAGCTTTGTTCAACAAAGCATTGAGAAAATCTGAAAAGCAGTTGCATTATAATCTGATGTCCAAGAGTCTAGAACTT
GTTGAACTCTCCACTTGATTTTTCTTCTATCCCTGTCTTCTCTCTCATGTTGGATAAATATATCTTTAACTTAATCACCCAAATATTGCCAAATAGAACA
TATTGGCTTACCATGTTTTATGGATCCAATGCCATCATACTTTATGTTTAAAATCACTGGACATAGTTTGTCTGATATAGTTAATTCAACAATAATTATG
GGCTAAATAAATGTTATGTGATTCATTTAACTTGTTGACAGATTAATTTTAATTTTCATGTTATTAGCATGCGGTTCAATTGTTTTCTTTGTTTTTTTTC
TTTAGGTGAAAATGCTTTTTACTTGTCCCCASATATCAGGAAACAGTGTGATTGGTTCCAAGGGGACCAACCCACAAAGAACCTTGTGAAGTTTGGTCAC
AAACAAGTGTAAGTGATTATAATTATTGTCTTAAAAATTGTAGCGCTGCAGGGAATGCACAGGTCCTCCAACCACCTCCTGACTTTATGGGATGAGGACC
TTGAAATCCAGAAAATGTGACTTCCCAAAGGTAATGTGGGTCATGCTTCTCAAATAATCTGTTTTATCAGTTAGCTTTTGCCATGTAACAAGCTACCCAA
AACTTAGTGGCTTAAAACAACAACCACCTATTTATTTTCTTACTTAATTTATTTAGAGACAGAGTCTTGCTGTGTTGCCCAGGCTGGACTGCAGTTGTGC
AATCTTGGCTCACTGTAACCTCTGCCTCCTGGATTCAAGCAATTCTCATGCTTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCATGCAGCCATGCCTGG
CTAATTTTTGTATTTTTTTTTCAGTAGAGATGGGGTTTCGCCATGTTGTCCAGCCTTGTCTAGAACTCCTGAACTCAAATGATCTGCCTGCCTCAGCCTC
CCAAAGTGCTGGGATTATAAGCATGAGCCACTGGGCCTGGCCAACAACCACTTATTTAATTTGCAATTCTGTGGGTTAGCAATTTTTGTTTGGGCTCAAC
TGGGTGGTTCTTCTGTTTTCTCYTTGGATCCCTTATGTTTGTGGTCAGCTGCTTGTCAGCTATAGAGCTGCTGGTCTAGAGTGGTCTCAGATGGGCTGGC
TCATCTCTGCTCCATGTGGTCTCTCATTCTCAGCAGGCTAGCTTGGGTTTGTTCACCAGGTGACCTGGCAGGGTTCCCTGAGAGAAGACAAGTGTGCAAG
GCCTCTTGTGACCTAGGTTAGAACTGGCACACTGTTACTTCTGCCACGTTCTATTGACCAAAGCATGTCCAAAGGCTAACCTAGATTTAAGAATGGAAAA
CTAGGCTTGATGGAAGGACTTGCCACATTACATTGAAAGGGCATGGGCAGAGAGAAGGTAGATAATTGAGACCATAGTTCCAAACAATTTACCGTATCTG
GTGTGAAATGATTACGTAAAAGAAGGATTGGATACATCAAAAAATAGACTCCATGTCTTCTTAAAATTATTAATGCTGTGATAACATGTAATGATGGTAA
TAATAGGAAGTCATGTGCATGTTCTATGAAGACTGACGGGAGGGGTGGGAGTGGGCAGGACTGTGGCACCCATGCCGATGCTGCTGCCTGGCCCATGTGC
CRTGTTTCATGCCCTGCTCCATCTCGGGTGCCAACCCTAGGAGCAAAGAGGGCAGTGGGGGCATGTAACAGAGGGCTAGCTGGGGTGATGTGGCTGCAAG
AACTGAGCCCCTGCAGCGTGTCAGCAATGTGTGCTCCTTAAGAGAATGTCACAGTGTGTCATGCTTTGGAGGGAAGTGCAGATTCTGCAGATTCTGAACT
TCGTACACAGATGAGATGTGAACGCAAATGATCCTTGAAAAATGACTATCTGGCYTACGACTAGCTGACTCTCAAGATGGGGAAAGAGAGCCCATCTCTT
CCTACTGCAGACCCTTCTGTCTATCACCACTTAAGTCCTTCAGCTCTTTCTTTTGACCTCAGAAGGAGTGGCTTTAAATCTCAGCATAGCAAGAATGAAT
ATCATTGCTAAGGCCACTAGGACCCTTATCGTGGCACTGGATGCTTCATTTAGCTTTGTAGCCTCCATTTTTCTAGGCTCTAATGATTCGTATTTTTTCT
CTGAAACCTTCCCTGAAATTGGCTCAACCTTTTTATCTTTAGGAAAACAGAATGAATGAAGTAACCTAGTATTTGAAGTCTTATGATATTAACTTGAAAA
TATATTAATACTTCCTAGGACAAGTAGCAAGATATGACTATAAAATAATATATTTTCTTCTAAGATCAAGAAAGCTATGAAGTGTGGGTCCTTGTTGTTA
TGTCTGTTTGATTAGGCTGCTATTCTCTCTAGATATTGGTAATAGATCAAGAAATTGTAAAAAAAAATACACATACACAAAAATTAAGAGAAATAAAAAA
TATATATACTCCCAGTAATAAGCCCTGGGAGCAAAATAGTACATGCTAACTTTATAATTTTCCAGCTCAACATAGCATTTGATTGAGTGGATATTTTCTT
ATAATGTAAGTAGCTAACTACTGATTTCATTTAATTTTTGGTGTATGTTTTGGTTGGTTAATTGCTATAATGAGAACATTGTTGGATATTATTCATTATT
GTCTCTTATTTTCTCTCTGCCTTTATTTTAGAAATTGAAAGATGTTTTTGTAGAACAATATAAGCTTCATTTTTAATGGTTCTATTTTTCAATATGCTGT
TCCATATCTTTTTTTAGGGAGGCACAGATCCTTAAAAGAAGGAATTTAATATATGCACTGCTATACATAATCTATAAAAACTATTGCATGCATTTTGCTA
AAACAAATTTAATGTAGCTCATGGGGTTATGTCTTTATTTATTTTAGATAGCAGGTAAAAGTAGAGGTAATATTTAATTTGTCTTAACAGAAATGTTCCG
AATAACGTTACTTCAAGTCCTACATCCAACCCAGTGACGACAACGAAGCCGGTGACTACGACGAAGCCGGTGACCACCACAACAAAGCCTGTAACCACCA
CAACAAAGCCTGTGACTATTATAAATCAGCCATCTGTGAAGCCAGCCGCTGCAAAGCCGGCCCCTGCGAAACCTGTGGCTGCCAAGCCTGTGGCCACAAA
GAYGGCCACTGTTAGACCCCCAGTGGYGGTGAAGCCAGCAACRGYAGCGAAGCCTGTAGCAGCAAAGCCAGCAGCTGTAAGACCCCCCGCTGCTGCTGCT
GCAAAACCAGTGGCGACCAAGCCTGAGGTCCCTAGGCCACAGGCAGCCAAACCAGCTGCCACCAAGCCAGCCACCACTAAGCCCRTGGGTAAGAAAGCCC
TTGCTAGGGCTGCCATCTTGTGACATCCTCATTTCCTGCTCCAGGGTGTGTTCCTYAAAGCCTGCATGTAACACACTCAGAATACAGTCCTTGATCTGGG
CTTGTACACCTGGATGATGTATTTTAAGAGGTGTTGGTTAGGGATTCCAGCCTCCCACTCCCCATCCTGTGCCCTCAATCCTGTCTTGCGRTAGGGATGG
GAAGCTSTCATTCTCTCTGGAATGTCAGTGGGGGCACAGYTCACCTCACCTGAAAATTGAGTTGTCTTAAACTAAAGGGAAAAGTTTCCGTGTTGAAATA
AGGTTTTAGCTCCTATTTAGGGAGTGAGAGAGACAGAAAGAAAAACGCTGCAGTTGGTTCTTAGGCAGCAAGGCAGATGTTTCTGGGCTGGTGTATGGAG
CCGGACTCGCCTACCTTAGAACATGCCTTGAAAAGGTCTGGGGGAGCCCTTTGCAACTGCAAACTTTGTCTCTGCCTCATACCCACAGAAAAGGGGCCCT
AAGCTGTGTGCTGTGGCAATACTGGGTGTTCAGTCCAGCAGCTTGAAAAGTCAGAGCCTGGACCATCAGTCATTCCCCAAGSCTCAAATCTATGCTCATG
CTGACCATGAGAAAAATATTGAAAGCAATGGCAAAAACCACAATGACTCTGCACCAACTTAATATATTTCAGACTGAATTAGATACAAAAGGTAGATGGC
TTTAATGAGACCAAGAGTATGTTATTTTATCATTTTCCTAAAGAAGATACTGGAAGACACTACCGAATGTCACAAGCTGTAAAGGAAGGCTCATGATAAA
ATGGAAATTATCTTCATTTGATGAACAGTATGAGAGAGAAAGCAGAATTCCTTTAAAAGAATTTCATGTCATACCCTAAAATTTTATGACTTAATATATT
TTAAATTATGGGGCTCATTTTGTAGCAAACACAACTTAGGATTAGTATGCTGCATTTCCAAAGTATCTTCTTAACAGGCGAGATTTTTAATAGAAAAAAA
AGTTGATGAATAATGAGATTTTTCATTACTGTGAATTTCACATTTCATGTATGCTGATAGATTATAAGAGCAATGTTTTTTAGGGGCTTGAACAAGAAAT
TAGTTCCCCRCCTCAGCTAAATTTCAAGTCAATTTGTCTGTTAACACATCCCTTTCAGATTTCCTCTCTCGCTCATGCACTACAGTCATGGAGGATTTTA
TTTTTTATCTTCACGCTCTGATCTATCTTTCAGTTAAGATGTCCCGTGAAGTCCAGGTGTTTGAGATAACAGAGAACAGCGCCARACTCCACTGGGAGAG
GSCTGAGCCCCCCGGTCCTTATTTTTATGACCTCACCGTCACCTCAGCCCATGATCAGTCCCTGGTTCTGAAGCAGAACCTCACGGTCACRGACCGYGTC
ATTGGAGGCCTGCTCGCTGGGCAGACATACCATGTGGCTGTGGTCTGCTACCTGAGGTCTCAGGTCAGAGCCAYCTACCAYGGAAGTTTCAGTACAAGTA
AGTACATGATCAGTACAAGTCGGTACCTGATTTCTATGTAGAGTATCAAAYAGGACACAAAGGAGACACTTACTTATTGAATCTATTCTGAAATAACCAC
AAATTCRAAAAACAACAACAGCARCAACAACAAAACAACTCAGCCTGGGTGCTTTGGTGGCAGCCTAAGCTTATAAAACACAGAATGGAAATGGGATTCC
ATGTGGGATGCAGTCCTGCCCTCTGGGTCCTGGGCTACTTTTTGGAGGAAGCCAGATCCACGTCGCCTGAGCACAGCCCTTTCCAACATTGCACCCGGGA
AAGATGGCCACGTCTCCCGGTGAGGGCTCCTGGTTGCCCACCACCCCGTCCAGGTTTCCATGTTCAGGAAAACACCAGCCAGTCACTGGCTCCTTAGGGA
GTAATGGAGGTGTCCCTGAAGTCTCACCGCCCCGGGGGTGGAGGATGTCGATAGCTGAGTCTCCCTGCCCTGATCTCACCATAGTTGGGCTCTGCCCTTG
GCTGGCTGTTGTCCCCAGGGGCCCCCCCATTTCACTGAGGCCTGCACTTGAGTGCTGTCACAGCTTTTCTTAATTATTCATGGTCCCCTCTCTCATCTTT
CTAAATTCTTCTGGGTTCCCCCCTCCCATTCTTCTTGACCCCCACTGCTCCAGGAATGTGAAGGGAAGGCTCCTCTTTTCTTCAGGCCAATGCTATTCAG
ATCAAGGAACCAGCTTGAGGAAAGGGAATTCCCACCAGTGCCATGGATTAGGCCCATAGAGATATGAGTCCAAAGACCCAGTCAACCCTAGGGCTCTATT
TTCCTGGACAGCAGCAGAAGAGGCTGTCTGGGAAGTGAGAGGATTTGTTCAGAAGTTCAGGGATCCCCTCCCGTCGCTTATTAGCTCATGGATCCAACTT
GYAGCCCACAGCATAAGTCGTGGATGTAGAGGTGTCTTGGATCTGTGTCTTTCAATCACCACTCCCCAACATAAGACATTAATCACAGCAGGCAACCTTA
TATCAGTCACTAAGGATTCCCAAGCCCTCCTGTTTCTGATTTACCTACGAGTTGCATATATTTTTCTTTTATAGAGAAATCTCAGCCCCCACCTCCACAG
CCAGCAAGGTCAGCTTCTAGTTCAACCATCAATCTAATGGTGAGCACAGAACCATTGGCTCTCACTGAAACAGGTGAGTTGTGAAACTATTAGGTCCATT
AATGGCACTAAGAAAATACCCATCTTGATTCCAATTTAACTTCCTGGGTTCTAAGTCTTAGCCCAGGCATGACTTCTATGGGGGAAAAGGTCCACGTCAG
CTCTGTGCAGCCCAACATCATCTTATTCTGCATAATCCCAGGTGTAAATGGAGTCTTACTTTACCTGTGATCAGACTCAGTGAAAATTTGATGGGAGGTG
CTTTTGGGGCTATCACTAGAATTCACGTATCCATTAGACATTTCTCCTGTGCCTCATACTGGGACTCGAGTTGATTTGTGGTCTGTGATGCTGTGAAGAT
TGGCGTTTCATTTACTCAGTGATTTAATCTAATAAAAAAACTGCTTAGAAGAACACAAGACAAATTTGGCTGGAATCCATGAAATGCATGGGTTTGGATC
TGACCCATGGGGTGTTCTGGTCCGGACATCCTAAGCACACACCCCAGCTTAGTGTGTGAGTCTGTGATACTGTCTCTCATGTGCTTGAACCCCAGAGTGT
GTGCATAGTCTATGCTAAGTTAGTGACTGGTTAGGTGTAATTCAGGAACTGACAGCTGTTACTTGCTTTTGTTCTTGGGCAGTGAAACTCTGAGAGACCT
GGAATCTCTCATTCAGCAGAATGTGGACTTGGCTTGTTCATCGGTGAGAAACTGATTATTAAAATAGTTGATAGGCTTTGCTTAAGAGTGTTCAGCAAAG
AATGATGGTACTAACATAAAAAATGGAAATGCCATGGGAATTTAGATATAATACTGTTTTATACACCTGAAGCAAAAGCTTTCTGCTAACTAGGGGACAA
TTCATTATTTTTTGGTGTATCGTCTACTGTCAGGAGGAGGAAAGCATTTCTCTTCACAATGCTCATTTCTGTAATTGATTTTAAAGGTGTTTGTTGAGTG
AGCCTGTTAGGCGACCCCACCATGGTGCTTGAGCTCAAAGAGAAGCCACAAAGAACACAGTAGATTTTCCCCAAAGGTGTGGGTCAGGACAGATTCAACT
CTAACTTCAAAGTTGCTGAAATCTGTGTATGTCATTTCTCACTCATTGGTTAACTTCTCCCTGAATACAGTGTGGGAAATAGAAAAATTTTAGCCAATTT
AGTGCTTCATTGAGAGAAAAAGACTTGGAGTAAACTAGAGATCAGAGATCAATAATGAGTAAACTAGACAGCAAGATTTGGGGATGTTTTTGATTCTCTT
ATGTGTGGTCCAAAAGGGACAAGATTGTATAAACAGTGCCTAGTTCATATAAACAACAATGTCTTTCAGCAAGGGTCTGGCTGGGCTGTTTTGTTTTTCT
TTTCACATATATATATATATATATATATATATATATATATATATATATATATATATATATATATGTAGAGAGAGAGAGAGAGATGGGGGGAGAGAGTTGT
GAGGTTCAGAATTAAGAAGGTGCTTTTGATCCAGACCTTTAACACTGAGATCGCCTGTCTACCTGTGATAAAGAGAAAAGAGCTTTTGAAATTGGGGCTT
GTGTTTCTTTCAAGGCTGCAAGTAGTTGATACAGATGAATCTAAATAAAACCTTTCTCCTTCATACTAATTGGGGCATAACCCTCAGACCCAGGATGTGA
ATGTCCTCTCACCATTTCATGTGTGTGTGTCTGTGTATGTATGTGTGTACACATGCATATGTGTGTTTTCCTTCCCAGGGTGAAGACATAAATTACCTTT
TTTTTTTAAAAAAAAAGAACAAGGCCCTGCATAATTGATCTCTGATCTCTTAAACTTAATGACTTCATAGTAACAAACAAGCACTTAACCTGCCTTGGCC
TGATGAATATATGTTGGTGTACACACAGTTATGGCATTTTTGAGAGCTCTTTTTGAATTACTAGGTTGGTGCGAAAGCAATTGCAGTTTTGCCACTGACA
GTAATGGCAACAACTGGAATTACTTTCGCACCGACCTAATAAATGGGACATTTACTTAAAAATGTCTAAAATTCAAAATGGATAACCAGAATTAGGAGAG
GAATCCTTATCCTCCCCACCCCTACCAACCTCTCTCCCTCCCCTCCTCACCTTCTCCTATAATTGTCATTTTAACTATTTCCCCTGGGGTGGGGGGAAAA
TTTTTTAATGGTTTTTATATATTTGGATATAGGAAAAGGAGTGACAATGAACCACTCTTTATTAAATAACTAAAAAAAGATAATAACTGCATGCTTACTC
AGTAGTTGCATGTATATTTTGCATCCAAATTCCAATGACCACGATATGCATTATTTCTCCAAATATACATTTTCTAGACCATTCAGGCAAAATGAAGTTT
TAAAAATATATTTTTTATATTTACATGTGTCCATTTTCATTCCTCTTACTTTCTGCAGCATCCATTAATTAGAAACATGTTTACAGAGATGGGTCCCTTT
CTTAGTATTAAATAGTAGATGCTACTGTTTGCTTTTTTACTTCTGTGAATAAAAGATGCTGTCTTAAGAATCTGTATTTTTCATAGTTTATCATGTTAGA
TTCTGGGAACCTGGTGACCTGTGTTTGAATCTGTGAAGGAATTTGTAGGTAGAAACACTCTGAAATGAAAAGGTTCCTAGTCCTGGGCACCTAAGGCAGG
GGAAGAGGAGAGGACCAGTGTTACCATTGGTTTTCRTTTGCATATGTTAATGTTTGCCCATTTTGACAGTCACATTGAATAGATGCTTGTTTATCAGGAA
TGTGAGTCAGGCATGTAATGCGAGGGCAGTCTGGTTGGGGCATTTTTTGTCCTCCATAAGATCTGGCCCTGTTTGGTATGTGGCAGGGAGACTCTCGCCT
TTGAGATGAAGGTTGATTCTGTTAACAGGCCTTGATTCCATTAATATACCTAGGGCATCGTTAGCAACCACTCAGGATTCCAGCTTTACAATATTACATG
ATTTGATTTTCAGTGGTTAATATTTGTATTTTTTWAAATAAAACCAAATGAACCCCCACAAAAACATCTCACTCCACTTTTTGCTTTGCTCGGCATCTAA
AAGAATTATGCTCCAGCCACTTTTCTGTCACACATCTGCTGCCTGTAAATGGCAGTGAGCAGCAGTGGATCTTTCATTCGTTACCGTGGSCYCCTGAAAG
CATGGGTGTGCTGGGCCTTTCTGCCACCTGCTTTGTCGCTGCTGATTTTGACAGTGCTACGTAGTTGCTAATTTTGGTTTCAGGCTTTTGTTACCACCTC
CCTCTTCTCCCTTCTCATTTTTAGCTAAGGAAGCTTTGGATAGATATTTTCTATGCATATTACTATTAAAGCTAAGACTGTCTAGAATTTCTAAACAACA
ACAACAACAACAAAAATCTAACTTAAAATTTACTTTTTGCAGTATTRCAAAATGAATCCTAAATTATTGGCTTAATCACCTGTGTTAAAGAAGTTTCAAT
GCAGAAACTAGACAAAACAACTAACAAAATCATCATGTCCTTTATTATTTATTCTTGAAATTAGCAATCTGTAGAACTGATCACATTTTGTCCGAGTAGA
CATGACTGGGCCAATTGTATAGCCCTGAAGGAACCATCATTTTGTGTTTACTAACGTTTTACTTATTGATTCTAAGATGCACAATTTTCTTCTCATKGGG
ACACTTCTGAAACTGAAATGTGACTTAGAATTGACAATATATCATGGTTTATTGGTAGCATTTTGTGTTACTTAGTGGAACATAAAATAATGGTGCATCA
TAAAATTAAGAGCTCTTATATTGGATACAATACAGTATTTGGTTGGCCATGTTCCATGTGAATATATATCATCAATTAGCATAAAATGGTATATTTGGGG
GAAATACCTGACTTTATGTTAATAATAATTTAAAGAACAAACTAATCCCACAGCTGAAGTAAGTTAAATAGCTACAGGGATTTAGGAAATGGTCCTCTCC
AGGCTGTCTGTTGTTCATCGCTGTGTGAGGATGTTTTCTGGTTAGTTGTCATGTGTGGGTTATGATGAGCCCAAAGGAGTGTTTTTTATCTTGAAGTCTT
AAAAAATAGAAGTCTGTTGGTCAAGATCTGAAAGAGTAAAATTTAACCACAGCTACATTTTAAAATAAAGTTAAAAATTGGCCGGGTGTGATGGCTCATG
CCTATAATCCCTGCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTA
AAAATGCAAAAATTAGCCAAGCATGATGGCTCATGCCTGTAATCCAGCTACTGAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTG
CAGTGAGCTGAGATCATACCACTTCATTCCAGCCTGGGCAACAGAGTGAGACTCAGTCTCTAAATAAGTAAATAAATTAAGTAAGTTAAAAATTTGGTAA
GTTTCCTTGGTACCCTTTGAACTGACCAATGCTCAAAATGTAGACGGCGGAAAGTGTTTTCATTCAGGCAAATCATACCTGCATCCAAGGTATGGAAGTA
CTTTATACTGTAACAACAATGCCGAGTGAGAAGGTGATTGAATTTTCTTGTTTTGGGGACCATTAAACTGATGAGGAACATGTTGATGATTGCAGCATAA
ACACCTCTCAGTCTGTCTTCCTTCAGTTTGCTCAAGGAAGTACTTACATCGTGATTTGGAAATCAATATGTTTGGGAAATGTCAAAGCTGATGCCTTTAA
AAATGCATTGAAACACTATGGGAATATCAAACTATGAAAAAGACAAGATTTTCCAATCAATATGTTTTCCACTTTGAAGAATACATATATTTTTTGCTGA
TTATAAAGTTAACAGATATGCATTGTCAAGCATTCAGGAGGTACAGAGAAATATATTACACGATTCTCATTGTGACAGCATTGCTGGCTTTTGATGAAAA
CCAATAGTGACCCGATGCATAGCCTTCCTATTTTTTTCTATGAATATTATTGCTTGTGGGAAGGTGCATGCATCGCACATGCACATCCACTCCTGCACAT
CATTATTACAAAAATGGACTGTGGGGCTTAGGGTGCCTTGCGCCCCAGTGTTTTTGAATGGTTGTTTTTAGGATGTTCTAGGTAGGCACCTGTGGCTTCT
GGGAACAGGTGGGATTCCCAGAACAGGGTTTTAACCTAACATTGTGCTTGCCTCCRTTTCCTCTCTTCTATTTGGTTACTTTCCTGAAGCCCAGTGACCA
ATAGTAAGGAAGTTTCAGCAGACAGTGGTCTGAGTCAGGCAGCCTTTCCCCTCTCTGTTTTCCAAGCAAACTTAGTTACATTGGTATTCTAGGTTAGGAA
GCCGGGGAAGGTTGTGGATAATTTTCAGTCCCCATTGTCTTTTAGGCTCCCACTAGGTTCTCAATAATAAAGAAGAGCAAATTAAGGAAGACTCAGCCAT
GCGCTCCTCTCACATAAAGAGAAGGCTCTAGCTTCCTACAGGTTATACCTGGGGGGCAGACTGATTTCAGAGGGAAAAGATGAACAACTATTGCATCCAA
AGACGTGTCGTTCTAGGGAAAAGTCCAGGTTAAGTTCAACGAGGGCCAGCCATCTCCCTTGGTACTCCAGGACATTTAAATACTTTTTTTTTTTTTTGCT
TTAAAACAGTTGCTTTAACATATGCACTCATAGCTGAGTAGAGTCCAGCCAAAACGACATGTCTCAGAAGTCAAGATTATGTGGAGTTTGCATTAGAAGC
CTTCTTAAGAACATAAAATCCTCCGTTTTCATGCTTCAGAAGTAGAGAAGTACAGGTTTTTGTCTTTGAATAGTGCCGGGTTCTCACCTCACTAATATAT
TTCTCTTGGTTTTYCAARTATCTKCTTGTCCACAGTAACAGYGTCCTTATTTTCCACTAGTAAATCTTACAGGGTCTCAGTAGTGACTCTCACTGAAATA
AGGGCAGAAAACACCAGTGCCGTGGTGTGGAACTGGAGGGCTAGGGTGGAGGGCCAAGGAAGCTGGAGAAGCCAATCAGACGGGGAGTGGAGTGTGCTGC
TGTGAGGCCACTCATGGGCTGGGTGTCCGTGGCTCTGGGCAGACCTCTCGTGACTGGTTCAGCAGAGCCCAGGGGACTGGGAATTGAACAGCTAAACACA
GATGGTCAGGACTGAAGTGCACTTGAAACAAATAAAATAGAGCAAATAGGGTCCATTGGCCAACGCTCTGGGAAGGAAGGAAGAATAGGGAGATCATTTG
ACGCCGGCCTCACGCTAACAGGGAAGCCACCAGTAAATGAGGAATAAATTTTGATGGTTAAATTACCTTGCCTTGTCAGTTCTCTCCAGGACCTTCCTTG
ACAGCCAGGCATTTTCCTTCAGTTATTGGCATATTTGAGAGAAAGAAGGTTGTTTTTGTAAATTGTCTTCATTTTATTCTGACTTCCTGGAGTCTTCAAA
GGCTCTCGTGGGGACCACTGGCTTTCTGGGCCCTGAGAGCGTCTGCAACTAGGAGGTGTTGTAACTGTGGAGCCACCAGCCACCAGCCTGGAATTTGGGT
GACAGCAGCAACCAGGAAATGTTTTAGACCAATTCTGAGCCTCAGTCCTGTGCACCTTTGAGTCTGGTCCATCGTGGGTGATCCAAGCTATGATTATCCA
CTGAAGACTTAGGTTTTCCTTGTCCTTTTTGGTATCTATCTGAAGCACAGATGCTCACCACCTCCGCAGCTGTGAGCAGCCTGCCTCGCTGGGGACAAAG
GAGATGGAGAAGCATCTCTTTGTAGGGGAGAGCTGGATAATTCCAGCCTGTTAGCTACTCACAGGAACATGCAGAATTATTGGCTCCAGGGAGTTTTGGA
GAAAGAAGGTTTACGTTTTCAAACTTACAGATAACAGTTGACATCAATGCTTCTCTTTCCCAGAACAATCTGGAGTTTGCCAGAAAACTCTGTAAACAGG
AGTCGTGCTGTGTGTGAACTGTAAACTCTTCTCTCCAGGCGTCGAGGGGACCTTTGCTTTACTTTGCAGCTGGGCTACATCAGACGTGTGCATTGGAAAC
ATAAACTTCCTTAACTGGGAAAAGAATGCTTCTCTGTCTTCAAAATAGTTCTGCTATGTGACATTTTTGCCATCATGAATTTTACATCAGTGCTAGCTCT
TTGTTTTACGTGTTTCATTTGGCAGGTCACAAAGGCTCTTGGCTACCACACATACGTGCATACACACACACACACACACACACACACACTCATAAAGGAT
TTTCTTTTCTGCTTTACCTTTAATTTTCAGTCTACTTGGCTTGTAATGAAAGGTAGAGCCTTATTTTTGAACTATATCCCAACAGAATCGAATTTCCATT
TTGCCAAGAATTATAAAACCCTGAGGTTTTAAAATTCAGTTTCTTTTCTGGGGATTTAACATGGAAGGACTTGGAGGGCAAATGGCCCAGTGATTGGAAA
GGGGAAAAACAATTCATTTCATTTAAAATTATTCAATAACCATTGCCAGCATTTGGGATTCTGAGTGCTGTTTATGAAGCCCTTTCATTGATATAATTTC
ATCTATCTCTCACAAGGCTGTAAGCAATTCCTATGTCCATATGGCAGTGAGGAAATGGAGATTTGAGCAGGTTAAGGGAGTTTTCACCTGGAAGCTCTTC
TTTTTTTTCCTTCTGCCACAGTAGGGTCATCAGACTGTCAGCCCCAGCACTGGGAGCCGAGTAACACGCATGTTCTCATTAATATCCTTTTCTCATGTTT
TTATTAAAGATATATGCAAGTTGCCGAAAGACGAAGGAACTTGCAGGGATTTCATATTAAAATGGTACTATGATCCAAACACCAAAAGCTGYGCAAGATT
CTGGTATGGAGGTTGTGGTGGAAACGAAAACAAATTTGGATCACAGAAAGAATGTGAAAAGGTTTGCGCTCCTGGTAAGTGATTCTTCCTTGTGTTTATG
GCTTCTGCAAATAAGAGATTCAGGTCAATAAGTCACCTTGAAAAATATTAGAAGTGCAATGATTATGATACATGTGAAAAAGAAGATAAAGTGTATCCTC
AGATAAGGAAGACGTTCAAATACAACCCATGAAATGTCTTTTTGAATTCCTATTTTGGGTTTCTAAAAACATATTGTCCCTTGTCATTCTTCAGAAATGT
TACTAAGTTGCTGTTATTTGTAAAATATTGCACCAAAAATGATTCCTGGGAAGATAATATAATGAACAACTACAGATAACGCCAAAGATAAACAACCCCC
ACAAATTTATCTTTTAAATAGTTTTGCTTCCTATAAATAACAATGTTGTCACTGGGGCCATCCAGTATCTCCATTATATTGTGCAGTTCAACTGGTAATA
AAATAAACACTTTGAACAGAGCCTGGGGTCAGTGCCAGAATGGGGAGAGTTCAGTTCGTATAAAGGCCTGGTAGATGGTGCAGGGCAAAAGAATGGGATC
AGATTTCCCAGACATCCCTGGGCCCCGGGGCCCCAGGCCAAGAACGTCACAGAGGGCCTTTGATGGTACTGAGTAGAAAAGTGGGACAGGTGATGGAAAC
CAGAGGCTGCGGGACTGTGTCATGATAATGACAGTGCCCTTTTGGGTCAGTAATGTGGCTTTTCCTCTCTTCTCTCGGCTCCTCACCTCACCCYACCCAC
CCCCTCTCTCGACGCTCAGTGCTCGCCAAACCCGGAGTCATCAGTGTGATGGGAACCTAAGCGTGGSTGGCCAACATCATATACCTCTTGAAGAAGAAGG
AGTCAGCCATCGCCAACTTGTCTCTGTAGAAGCTCCGGGTGTAGATTCCCTTGCACTGTATCATTTCATGCTTTGATTTACACTCGAACTCGGGAGGGAA
CATCCTGCTGCATGACCTATCAGTATGGTGCTAATGTGTCTGTGGACCCTCGCTCTCTGTCTCCAGGCAGTTCTCTCGAATACTTTGAATGTTGTGTAAC
AGTTAGCCACTGCTGGTGTTTATGTGAACATTCCTATCAATCCAAATTCCCTCTGGAGTTTCATGTTATGCCTGTTGCAGGCAAATGTAAAGTCTAGAAA
ATAATGCAAATGTCACGGCTACTCTATATACTTTTGCTTGGTTCATTTTTTTTCCCTTTTAGTTAAGCATGACTTTAGATGGGAAGCCTGTGTATCGTGG
AGAAACAAGAGACCAACTTTTTCATTCCCTGCCCCCAATTTCCCAGACTAGATTTCAAGCTAATTTTCTTTTTYTGAAGCCTCTAACAAATGATCTAGTT
CAGAAGGAAGCAAAATCCCTTAATCTATGTGCACCGTTGGGACCAATGCCTTAATTAAAGAATTTWAAAAAGTTGTAATAGAGAATATTTTTGGCATTCC
TCTAATGTTGTGTGTTTTTTTTTTKTGTGTGCTGGAGGGAGGGGATTTAATTTTAATTTTAAAATGTTTAGGAAATTTATACAAAGAAACTTTTTAATAA
AGTATATTGAAAGTTTCCTGGGTGTGACGTTCTTGGCAGTCTTGTTTCCATAGCAGCGATTGTCAGAATCACCCCTAGGCTGGGGAAACTGGGTTTGGTT
CTGGCCCCATGGAGCTGTGCAACAGCCTTTCGTTTCCAGTGGAGGAGGCAAAAGAGCTTTATCAGCCAGTGTGCAAAGAGACCGGCTGGAGACAAGCATC
CCCCGCTTTGTGGATTCAGCCCCACATGCTCCAGTGCTCCATGGCCGAGCGGAAGGTGTTCCTGCTGTTGGGTCCCGGCAGTGTTTCTGATTTTCAGAGT
CAGGCTGGCTTCTATCTTTTCCTCTGACTCTTGGTTGGCCCTCAGAGCCTCAGCCTCCTCCTGTCTTCCTCTCCACAGTGATCCTTTCCCAGGGGGTTGA
TTTGCTTCCTCTCACAATGGCTGAGAGATTCAGTGTTGCCCCACGACCCCCAACCCCTTTTCTGGAGTCTCAAAGCACAAGGTCTTTCATTTTTTTGTTT
TTCTTAAAGACTGTTTTTTTCTCTCTTCAGAAATAATACAAGAAACCAACAAATACATATTCAGGTGGCACTTGAGTTCCACTTACAAAGGAAACAACTT
ATTGGATAAAATACATATGTCCTGACAAGTGCTGAGGGTAGAATTACAGGAATCTTGGGTGTCAGCAGAAATGTTTTATGTAAAATCGGGATGAATTTGC
CAGTTGGTCTATTGGGAAAGGAGAGAGGAGTGTGGCCCTCTTCAGAAGCGCCACTTAGTCCCCACAAGGTCGCCATGACCTCCTCCCCAGTCCTCTTCTA
TCTCGGCAGCTACCATGGGGTGCTCAGGTCAGTGTGCTCTGAGCTGTGACCCTTGGTGACCAACCCTGGGATCYGCCAGGCACCCAACACCAGCCTCTTG
CAGGAACTTGCGGAGCAGAGAGCTGTGGGCCCAGCTCCCATAGCGGTGGGCTGAGTGCTCCACTTCCCAAGGGATCCCTGCCCCCGCCACCCCCATTGAC
TTGATCTGCTATGGACCTAAAATGAGCATCACAATCTGGTTTTACTTTTTGGGTTCCTCCGGAAGCAGCCCTTAGGACTAAGGATATGGGTGTGAGTAGT
TTATTTGGGAGGTGAAGGAAGTCACTGAGTGGCTGAGAAGTGGGGAGTGAGACAAGCAAAGGGAGAGCACTGTTAAGAGGTGTATAGTCAGCGTCCACTG
TGGGTGCCCAGAGCCCAATCCCTCGGGGAAACCCTGGGAGGTGCACCTGTGGCACTGCACCTCGTAGGCCAGCAGAGGGCTGAAGGAGTTTGGGTAGTCA
TACACCTGTTTCCACGGGTCACTGAGGCATTCATGCTCTGGTCCTCTTGGCTTGCAGGCACACTGGCAAAGGGGCCTTCTGTAGTGTAAGAAAATGTTCT
TGGCAAAGACCTGCAGATACTCCCATGTGGAACTTGGGGGAGTAGTCAGGCCCAAGGTACAGGAGTAGGACACCAATATTTGTAACATACCTAGATGGTC
TGCTCAAGGTGTGTTACAATAGACTGGGGCAGGGCCCATCACTAGGAGACTCACTTCCAAGGGCTCCAGAACCCTCTCTCCCTTTCCACCTCCTGTTGCC
AGCATGCCCATCCCTGCCATTCTTGGTTCACTCTATCTATGCATTGCTTCTCTGTGTGTGTCCCTTGGCTGCTCAAGGTTGCTGGGACAATCACACCCAC
CATCTCACCTGACTCAGGAGAAGCAGGAAGTGATGTAAGTCCAGGTGAGTGGCTGGTTAAGCTGTGTGTGCTGCTAACTTAGGGTAAGGCAAGGTGCTCA
GGTGGTGGATGGGCAGTTTCTCCCATTTATTCCCACAGAGCAAATAAAACAAAATCCTTTGTTACATTGTCTGTCCTAACTTAGGGTTCAGCAAAACATG
ATCTGAGCTGCAGGATTCCTGACCCCTTGACAGCTCGTGGATTTCTCTTCCCAAGACATTCTTCTGCCAGACTATGCCAAGGACTCTGTGTCCTTTCTTG
AACCCTGACATGTCCCTGACCCTCATATCCACTCAGCTCTCTCTGGGGAAGCCTCCAGCCTGGCCCGTGGAAGGTGGCCTGCCAATAAAGAAAACCTGTT
TTGGATTTTGTGACTAAGAAATAAACTTCTATTGAAGTAAGAGACTGAGGTCTTGGGCTGTTCTAGCAGCTGGTGTGACCGTAACGAACACAGCGCACCT
TTATCCAGAAGCCTTTGTGGGTCAGGTGCTGTACTAGGTGTTTCACACACATCTTAGGTGGTGCCGTTCAGTAGCGGTCATTGTTCCAGTTTTAAAGATG
ATGAAACAGAGGGTCAGAGTGGTCCTTTTCACCCAGCTATGTTCTAATGGAGGATCTGGGCAAGTTATGGTGACCCAGAAGCCCTCTCAGAGTTCCAAGG
TTGGCTCCTGTGGGACGCTCACTGCCATTCTCTAGATGTTTCTGGCTCTTTCTCTGGAAGTCAGATCTAAGCCATGTGTCTTTTCCCAGAACAAAGCATG
CCCTCCACATGACCCTCCCCAAGACCTTCCGTCACTCTTTCTCAGACAGCAAGTCTCTATCCTTCTCCTTCCTTTCATTGTAGTCTTTTCCATCTCTTCT
CATTATCCTGAGCTGCTCTGGCTTAGGAAAGAACTTGGAGAAGCTGGGGGCTCTGGCACGCATTGAGGGCTTGCGCAGAAGGTGGCCTGGGCTGAGTATG
GCCTGCCTGGGCTCCAAGGCCGAGTCACGAGGACGTCTATTTGTGCTCAACTGTGAGCACATCTCAATCCTTTCAACAGCAGCTTTGCTGGATTTTTAAA
TACAAGTGCTTTATACTTTCATTCCCTCAACGATTTTCTGCATAATTAAAAAGAAATCACAGCACTTATGAATGGGTGCCAGGCTTTTTGTAGAAAGCCA
ATGTTTTGAACCCTCAAGAACCATTTTAAATTTCTTTCCCCATGGTGGTTCATTTTTAGGAGATGGTTCGTATTTTCCTGCCAAATTTCCATTGTTGTCA
GATTTCCAGCTGGACCTAGCTGCTCTTCATGAGCCAGGCTCTCAGGGTTCCACCTATCTGGGTGTGGCTTCCGGAGAAGTTGGGGACTGCTGACACTGCC
AGGCCAGGGGGCCCAGTCCAGAGGCTGCCCTCTGCCATACCCCTCCTCGGTTTAGTTTGGGTCTGAGCTTTGCCGCTGCCTGTGCCTCCCCTTCCCTGGG
AGATGAATACTGATGGTGAGCTGCTGTAAGAGCCATGGGATTCCTGGGGTCTTCCTGCTTTCTTGGAATCATGCTCTCCAGCTTTGGGCCACCCCTCAGC
ATTCCTGAGATCCCATGCAGAGCCAGTTCAGAAATCCTTTTCCGTGGTATTCCCTAGTCTTCCACCCAACTTTATGGTGGGTATAAATCTGCTAAAGACC
AAAACACCAAAGAAGTAGTATTTTGGAATCTAGTAGTCAAAGCTTGAAGGCATTTGGTCATGAGTGATGGGAAAAGGCCAGTGATTCAAGGGCCTCTGTG
CATGATGGTGACACCACCCAAGTATCGCTCAACCTGGAAAACTGATATTGTTTTCCTGCCTATGTCAGATGTCTCTGTGAAAACCATGCTGCTGTTGCAA
AAAGTCATCTAAGAGAAGGCATTTGGGCATCTGCAAAGGGAGCTAGCTATGCATGTTTGATTTCAAGAGACTAGTAAATTCCCAGCATTTACATGAATTT
TATAAGAGATGTTAGAAACAGAAATAGCACAATAAAAAGAAATTGTCAGAACTTGTATATCTGGGAAAGAATATTTGTTTTGAAAGACCCCATTTAAAAC
AGTTACATTTGATAGGAGTTGTAGTTGAAGAAGCTGACTGGTCATTCATAAACCAGTCTTATGTTGAGTTCCCCGAAAGCAGATCCTGACCAAGTTTTGG
CTGCAGTCATTTGTTTCGGAAGGTGTGTGGGAAGCACAAATGAGGCCACTGAGAAGCAAGACAAAGAAGTTGGCAAGTCAAGGGATGGTGCATTAACTAA
AAGCATGTTACCCTTGAGAGCAACTGGGGCTCAGTCTCCCTGGAAACCCACTGAGAAAGTGGGGAGAATGCTACGAGGAACAGAAAGCTGGACGTTTATG
GACTGACCCTCATCTCTCTTTGGTTGGAGGTTGTAGTAGTCACCATTATCTAGAGGGACAGGACTAATAGGATAGACATATATATGAAAGGGAGTTTATT
AAGGAGTATTGACTTACACGATCACAAGATGAAGTCCCACAATAGGCCGTCTGCAAGCTGAGGAGCAAGGAAGCCAGTCTGAGTCCCAAAACCTCAAAAG
TGGGGAAGCTGGCAGTGCAGCCTTCAGTGTGTGACCGAAGGCCCGAGAGCCCCTGGCAAACCATTGGTGTAAGTCCAAGAGTCCAAAAGCCGACGAACTT
GGAGTCTGATGTATCAGGGCAGGAAGCATCCAGCACGGGAGAAAGACGAAGGCGGGAAGACTCAGCCAGTCTAGTCCTTCCACGTTTTTCTGCCTGCTTT
TTTCTGGCTGCACTGGCATCAGATTAGATAGTGCCCAAACAGACTGAGGTGGGTCTGCCTCTCCCAGTCCACTGACTCAAATGTTAATCTCCCTTGGCAA
CACCCTCACAGACACACCCAGGAACAATACTTTGTATCCTTCAATCCGGTCAAGTTGACACTCACAGGGGTTGACCTGGGGGCGTTACACGCCAGCATTT
TGAGGCTGCCCTGCACACACTGTTGCTAGAAAAGTAAAGCAGAGAAGAAGAGGGATGYGGGCCACTGAGGTGGAGTGCTGTCAGCACACCTGGAAGCAGC
CAGCACAGCTGCAGGGGAGCACAGAGGCGGGCCGAGGAGCAAGGTATAAACAGCATCAGCAATCAGCCAGTTTGAACATGAACCTATAGAAATTGAAGTG
TCTTTAACATGAAGTTGATTAGAGAGGGTTGCCTAGATGAGGATGATAATAGAGACATATTGTCCACTCCTGATTACTCTGATGGAAAGAAATGAGGTGA
TTTATGGATTAAGCACAGCTTCTGAGCTCTTAAACTGTAGCCCACGGTATGCCCAGCCCTCTACCAGATGGGGGTCAGCAAACTTCTGGTAAAGGACCCC
ACCAGCGTCCAGTGGTTTTGGGGCTCCAGCAAGAGCCATCGAGCCTGTGCTGTGTCTGTGAATTTCAGTGGTGGCTCGGGCTGCCCAACTCCCTTGTTCC
TTTCCATTTGTGGAACTGAACCTGATTTGCTAGCCTTCCCATTGTTGCTATAAACTACTCAATATTTTTCCAATAATTCAATTTTCTTCATATGTTAACC
AGAGTAAGTTTCTGTCCCTTGCTGCCTAGAGCCTGGACAGGTACACAGTCTTTCATTCAATCACTTATTCAACAAACATTTGCTGAGCACCTAACATGTG
TCAGGTATTAGACAAGGCACTGGGGATGCAGGGGTGGGGTGGACAGCACACATGTCTTCCTCTTGTGTTCCTTACACGGCAAGGGAAGTAGGTGGCAAAC
ACACAAAACCCTCGGTAAATAAGGACGTGTGAGCTGCAGTGGAGGCTGTCTGATGAGGTACTGCATGTTTAAGGCAAGCCTTTCTGAAGAGTTGATTTAT
GAGCTAAAAAAAAAAAAAAAAAAAAAAACCCAAGAGAGGCCAGCACGGTGGTTCACGTCTGTAATCCCAGCACCAAGGGAGACCGAGGCAGGTGGATCAC
TTAGGAGTTCAGGACCAGCCTAGCCAACATGGTGAAACCTCTCTACTAAAAATACAACAACAACAACAAAATTAGCTGGGCATGGTGGCACATGCTTGTA
ATCCTAGCTAGTAGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGACAGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGTAA
CAGAACAAGACTCTGTCTCAAGAAACAAAAAACAAACAACAAAAAATCCCAAGACAGCCACCTTTGGGAAGACCTGAAGGAAGATTCCAGATCCAGAGAG
GGCCTGGATCTGAGATCCTGGGTAGAGAAATGACTGTGACATGTTTGAGAAACAGCAAGATGGCCAGTGTGGCTGGAGTCAAACAAATAAGCGGATAAAT
TTTTGGAGTTGAAGTCTGAGAGAGAATGGCCAAGTCAGGCCCCAAAACTCTTTCATAACTAACGAGTTGTGGATTGTACTTTAATGTGATGGAAAGCCAT
TGGGAGCTTTAAGCCGGGCAGTCCTGGGTGTGACATGTGATTCTTTGAGGAGGCGGGGTAGTCAATCAAAAATTCTGCCATGCGTATTAGAACTTAGGAT
GCTATTGAACTTTGAAGCGGTGATATGAGGAAGACAGTTGAAGTTCAGAGGAGAGGGTGGGGCTAAGGATATACATTCAGCAGTTTGGAAATATACCATA
TTCGAAGCCTAGATTTATGGTGCGATTTCATTGCTTGAGAGTATAGATGAAGAGGGACAGGGAGTCAGGAGAGGCCTGTCTGTGCCCTGGCGGTTAGAGG
TTGAGCAGAGAAGACAGGCTTGGTGAAAGAGGCTGAGGAGGAGTGTTTGTAGAAATAAGAAGAGAATCAGTAGAGACAGGTGTCATGCAAGGACAGCGTT
GGCAGAAGCTGTGTCAAAATGAACAGAGCAGTCACCTGTGCTGAATGCTGCTCATGGTTTAGAAAACAGAGAGCAGGAAGGAGAGAGTATTCTTGGGGCT
GTGGTATGTAGT


SNP Information

Context             (SEQ ID NO:38044):
TTTTCTATGCATATTACTATTAAAGCTAAGACTGTCTAGAATTTCTAAACAACAACAACAACAACAAAAATCTAACTTAAAATTTACTTTTTGCAGTATT
R
CAAAATGAATCCTAAATTATTGGCTTAATCACCTGTGTTAAAGAAGTTTCAATGCAGAAACTAGACAAAACAACTAACAAAATCATCATGTCCTTTATTA
Celera SNP ID:            hCV464398
SNP Position Genomic:     90247
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38045):
CTCTGCCAAATGAAGGGGGACCACAGGGATTCTTACTGTAGAGCAAAGAAGACCACGGGATTAAACAGAGGACCCGATTACTTTGTTTCAGGGTATTCCT
R
GAGAAGACGGCTACCGAGGCTATCCTGGTGATGAGGGTGGACCCGTAAGTAAAAATTGTTTTAGTCCCTAAAATTTCACCCCCTCCTTGATCCTTACCCA
Celera SNP ID:            hCV27861656
SNP Position Genomic:     59195
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38046):
ATAATGAGATTTTTCATTACTGTGAATTTCACATTTCATGTATGCTGATAGATTATAAGAGCAATGTTTTTTAGGGGCTTGAACAAGAAATTAGTTCCCC
R
CCTCAGCTAAATTTCAAGTCAATTTGTCTGTTAACACATCCCTTTCAGATTTCCTCTCTCGCTCATGCACTACAGTCATGGAGGATTTTATTTTTTATCT
Celera SNP ID:            hCV11536011
SNP Position Genomic:     85310
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38047):
CAGCTGGTGGGGAGCCTGAGAATGGAGAAATAGTTTCCTGTGGAAACATGAAGAAGCCAGGAAACCCTCACAAGGAGAGAACATGGGCCAGGGCGGAGGG
K
AGGCTGGTGCCCACGGCCCCGGCCCTGGACCGTGGGAGCAGTCAGGGAAGGGAGTGGAGTGAGAGGACAGCAGGTGGGTTGAAGGCTGGTGAACTTGCTT
Celera SNP ID:            hCV270580
SNP Position Genomic:     60549
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,8)      total(G,5|T,8) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38048):
ATCTTGCAATGCAGCTATCAGCAATGATGAGCAGAGACACACTGTCATTGCTGGGCTAGGATCAGGTGTCACGGAATTACGTATTCGGGTTTCCCTCATG
K
CTGAGATGATATTGAGGGAGGCATCCTATCATTTATTACCAAAAAATGACTAATAAACTGGTAACGAGCTCAATATGTTGCTACATAAATGTACAAAAAT
Celera SNP ID:            hCV1470365
SNP Position Genomic:     68393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(G,2|T,7) ;JBIC-allele(G,358|T,1099)   total(G,358|T,1099)no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38049):
TTTGGTTCTGAAGATTCCAGAAACTAACAACTCAGTCTGTGATAGAAATTGCAGCAGGTGTGACCTTTAATCCTTGTCTTTGGCAGGGAGACAAAGGATT
R
CCTGGTTCTTCTGGAGAGAAAGGGAATCCTGGAAGAAGGGTAGGTGTATTTCCACGGTGGTGCTATTATGGAAAGAATATCAACATTTCATTTAGGGAAT
Celera SNP ID:            hCV270581
SNP Position Genomic:     61286
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,23)   caucasian(A,4|G,34)   total(A,13|G,57)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38050):
TAACGAGCTCAATATGTTGCTACATAAATGTACAAAAATATTTTATGGTGGAAGCAGGCAAGAACTTGCTTAGAAAGTCCTTCTCTAGCTTGAAAGCTGA
Y
AAATACATATCTTTAGACGTTTTTAAAAAACATTTACTTAACTTGTAATTAATCAACAATTTAAGATGGTATAGATGCAAAGCTATTCAAATAGTTATCC
Celera SNP ID:            hCV1470366
SNP Position Genomic:     68555
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;JBIC-allele(C,749|T,752)   total(C,749|T,752)
SNP Type:                 INTRON


Context             (SEQ ID NO:38051):
GATTTCTTTATTGACGATTTCAGACCTGAGCCTGGGGAAGAGGGTTGTTGGGAAAGGGGGATGAAAGGAAGAATTCTACTTTTGAAATTGCTTTAAAACA
Y
GTTGATAAAATATGTGCTTTGTCTTTTTCTTGCAGTTTGGGGGTTTGGGGAGATGTGTTGGTTCTCTTGCTAACCAGATAATCATTTGCAAGTCCTGTTA
Celera SNP ID:            hCV270582
SNP Position Genomic:     61945
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,25)   caucasian(C,20|T,18)   total(C,29|T,43)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38052):
AGGGATTCCAGCCTCCCACTCCCCATCCTGTGCCCTCAATCCTGTCTTGCGGTAGGGATGGGAAGCTCTCATTCTCTCTGGAATGTCAGTGGGGGCACAG
Y
TCACCTCACCTGAAAATTGAGTTGTCTTAAACTAAAGGGAAAAGTTTCCGTGTTGAAATAAGGTTTTAGCTCCTATTTAGGGAGTGAGAGAGACAGAAAG
Celera SNP ID:            hCV11536016
SNP Position Genomic:     84440
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38053):
TGGTATAGATGCAAAGCTATTCAAATAGTTATCCAGTAGCTCCAGAAACATTTATTAATTTGCACTTTTTCACCATCTCTTTTATGTTATTTGTGGGTTG
S
GTAGACTGTACCACATTTTAAGAGTTAATTTCATCCATCAGTTTATTCATTCACCTAACAGGCTTTAACATGCCCATATGTACCAGGTGCTCACTGTGAG
Celera SNP ID:            hCV1470367
SNP Position Genomic:     68722
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,5)      total(G,5|C,5) ;JBIC-allele(C,460|G,1001)   total(G,1001|C,460)
SNP Type:                 INTRON


Context             (SEQ ID NO:38054):
CACCTGGATGATGTATTTTAAGAGGTGTTGGTTAGGGATTCCAGCCTCCCACTCCCCATCCTGTGCCCTCAATCCTGTCTTGCGGTAGGGATGGGAAGCT
S
TCATTCTCTCTGGAATGTCAGTGGGGGCACAGTTCACCTCACCTGAAAATTGAGTTGTCTTAAACTAAAGGGAAAAGTTTCCGTGTTGAAATAAGGTTTT
Celera SNP ID:            hCV11536017
SNP Position Genomic:     84407
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,5)   total(G,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38055):
CCCCGCTGCTGCTGCTGCAAAACCAGTGGCGACCAAGCCTGAGGTCCCTAGGCCACAGGCAGCCAAACCAGCTGCCACCAAGCCAGCCACCACTAAGCCC
R
TGGGTAAGAAAGCCCTTGCTAGGGCTGCCATCTTGTGACATCCTCATTTCCTGCTCCAGGGTGTGTTCCTCAAAGCCTGCATGTAACACACTCAGAATAC
Celera SNP ID:            hCV11536018
SNP Position Genomic:     84185
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38056):
GTCCTTGCTGCCAGGAGGCTCCAAGGACAACTTCTGATGTGTTGTGTTTTAAAAGAATTATTTCTTTAAAAATTGTCTTTGTATTTGAGTGAGTGTTTTC
K
TTTGATGACTCAGCAGACATTTCTTTCTTTCAAGGTCAATTTATTTTAGATGAATTTAAATTAGAACCAAGTATTAAATAATCTATTTTTCCTTTATAGG
Celera SNP ID:            hCV22275391
SNP Position Genomic:     71876
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,13)   caucasian(G,32|T,8)   total(G,57|T,21)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,112|G,1367)   total(G,1367|T,112) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38057):
CCTTTCTTCTCTTTGCTTCTTTTCTAGCTTGCTGTTACGGTAAGTTGATTTTGGTGACTTTCTCCTAAGGAAAGGAAGCCTCCCTTTTGTAGTAAGTACA
R
TTTGTCTTTAACCCTCCACCCTCTACTTTCCACAGGGCCCCTGGAGTGCCCCGTCTTCCCAACAGAACTAGCCTTTGCTTTAGACACCTCTGAGGGAGTC
Celera SNP ID:            hCV25602727
SNP Position Genomic:     75481
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38058):
GGTTGCTTGTCCCTAAACTTGAATTTAAGAGACATTTTAGCTCCCTTAAAGTGAGAGATTTTTCGTGGTGATGGAGTCCCTTGGGTTAGATCACTTTTAC
Y
GTACCTTCCAACTATAGGAGCCTTAAATTCTCCACTTTCTGACACAGTTGAACAATGTTTGTTCTGCTCCCTCTAGGGAAATTCGGGACCTCCAGGGATA
Celera SNP ID:            hCV25602728
SNP Position Genomic:     73718
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,6)   caucasian(C,32|T,2)   total(C,60|T,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38059):
TTTTTCTTTCATCCTCCTTGGGCTGTTCTGGCTCCCGAGGCTCTGTCAGCCGTCTCCTTAAACAGCCTCTTCTGCAGAGTCTAGAGAAAATGGTGCCCAG
Y
GGGGACTTGGGGTCCAAGTGCAGGAAACATGACTGAGGCAGTAGTGTCCCGGGCGGGCGCCTCTTCCAGAACGTGCTCACCTATCTGGCCATCAGCAACC
Celera SNP ID:            hCV64963
SNP Position Genomic:     66558
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38060):
CACTTTCTGACACAGTTGAACAATGTTTGTTCTGCTCCCTCTAGGGAAATTCGGGACCTCCAGGGATAGTTGGACAGAAGGGAGACCCTGGCTACCCAGG
M
CCAGCTGTAAGTATTTATCCAGTTCTGACCCGGCCACCTGGGGCTGGGTGCTTTACACGTGGTCCCTGAAAACTTCCCACCATCTGCTTTGCTCACAAGA
Celera SNP ID:            hCV25602729
SNP Position Genomic:     73851
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,40)   total(A,77|C,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38061):
AAGGTTTGTCTTTAGAAAGGTAGAGCTTTCCTGAGGACAGGGACCAGCCAGGCACACATGCCCCTCTCCCTCTTTGGTCAGTCTGTCTGTCCCTCCTCTT
Y
AGTACTACTGGTTCCCACTCCAGCCTCCCCTGTTGATCGCGGCTTGGCCAGTGGAATCATTGTCCCCCAACAATCCCCACCATAATTCCCACCACCATCC
Celera SNP ID:            hCV22273214
SNP Position Genomic:     69328
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,13)   caucasian(C,25|T,13)   total(C,50|T,26)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;JBIC-allele(C,697|T,802)   total(C,697|T,802)
SNP Type:                 INTRON


Context             (SEQ ID NO:38062):
GGCATCAGTCCTGCCAAATGACAGGAAAAGCTGGGTGTCTCCAAGAGCACCCCAAACCAAACACTCAGGTTACCAGGAAATGACAAGAGGGTATCTACAA
Y
GAACTGCACTCCTCGCTACGATAGTCTCAGTATCATTAATTCCCTGATCCATCACATTTCGGAATATCGGGATAATAACAAAGACCTACCAAAAAATAGT
Celera SNP ID:            hCV27965730
SNP Position Genomic:     28464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38063):
CGCTGAAGGAGGGGACCTGTATGCTCTTCTTTCTGAAGTGGGCTTGTAGCTGAGGATGAAAGCCTGGGTGGGGAGGCGTGGCTTTTACAAAGATCAGGAT
S
TAGGAACAGCTGCCTGTCTGGACTTCTTTGTTTAGGGGGTTTCTTGCTACCCAGAGGTTTAGTTCTCTCCTTTCCTCACTCATGGTCGAGAGAAGCCAGG
Celera SNP ID:            hCV27965731
SNP Position Genomic:     8241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38064):
GGTGGAAAGCCTGGATGTGGGCCAGGACCGGGTCCGCGTGGCCGTGGTGCAGTACAGCGACCGGACCAGGCCCGAGTTCTACCTGAATTCATACATGAAC
M
AGCAGGACGTCGTCAACGCTGTCCGCCAGCTGACCCTGCTGGGAGGGCCGACCCCCAACACCGGGGCCGCCCTGGAGTTTGTCCTGAGGAACATCCTGGT
Celera SNP ID:            hCV9081822
SNP Position Genomic:     45553
SNP Source:               Applera
Population(Allele,Count): african american(A,30|C,2)   caucasian(A,36)   total(A,66|C,2)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,31|C,3)   caucasian(A,40)   total(A,71|C,3)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,13)   total(A,13|C,1) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38065):
ATATGCCTCAGGATGGAATCCTGGAAAATCTAAATCTACCAAAATGCTTAGATTCTGCAAGGTGTTTCACCTTTGGTCCCTGGAGATAGCCCCTTGTGCT
Y
ATGTATTTTGTATAGTGAGTGCCTCAAGTTCACCCATGAGTTCAGCACAGAAGATGGCCCTTAAACTTGCTGTGACTGCAGATGTTATCTTGCAATGCAG
Celera SNP ID:            hCV27507133
SNP Position Genomic:     68206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38066):
TAGACATGACTGGGCCAATTGTATAGCCCTGAAGGAACCATCATTTTGTGTTTACTAACGTTTTACTTATTGATTCTAAGATGCACAATTTTCTTCTCAT
K
GGGACACTTCTGAAACTGAAATGTGACTTAGAATTGACAATATATCATGGTTTATTGGTAGCATTTTGTGTTACTTAGTGGAACATAAAATAATGGTGCA
Celera SNP ID:            hCV28967070
SNP Position Genomic:     90497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38067):
CCTTCCAAGTGTCCCTGGGTGGAAATCAGGGGATATGCCTCAGGATGGAATCCTGGAAAATCTAAATCTACCAAAATGCTTAGATTCTGCAAGGTGTTTC
M
CCTTTGGTCCCTGGAGATAGCCCCTTGTGCTTATGTATTTTGTATAGTGAGTGCCTCAAGTTCACCCATGAGTTCAGCACAGAAGATGGCCCTTAAACTT
Celera SNP ID:            hCV27507134
SNP Position Genomic:     68174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38068):
CCCACAGAAAAGGGGCCCTAAGCTGTGTGCTGTGGCAATACTGGGTGTTCAGTCCAGCAGCTTGAAAAGTCAGAGCCTGGACCATCAGTCATTCCCCAAG
S
CTCAAATCTATGCTCATGCTGACCATGAGAAAAATATTGAAAGCAATGGCAAAAACCACAATGACTCTGCACCAACTTAATATATTTCAGACTGAATTAG
Celera SNP ID:            hCV28967071
SNP Position Genomic:     84782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38069):
GTAGAGAAGTACAGGTTTTTGTCTTTGAATAGTGCCGGGTTCTCACCTCACTAATATATTTCTCTTGGTTTTCCAAATATCTTCTTGTCCACAGTAACAG
Y
GTCCTTATTTTCCACTAGTAAATCTTACAGGGTCTCAGTAGTGACTCTCACTGAAATAAGGGCAGAAAACACCAGTGCCGTGGTGTGGAACTGGAGGGCT
Celera SNP ID:            hCV27965734
SNP Position Genomic:     92742
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38070):
GCTCTGGTATGTCCATGGACTGAGAATCAGAATATCTTGGCATTAGTCTTGGGTCAGCCACTCAGTTAACTGGGCTACCCTGAGAAAGACCCTTCCTTCC
Y
TAAAATACTCTCTCATCTGTCAAGTGGAGGTCATAATACGTACTTGTCCTGGTGTTTATGAGATTTAAATAAAATATGCTGCAATCAAAGTACTCTGTAA
Celera SNP ID:            hCV28967072
SNP Position Genomic:     72157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38071):
CGTTTTCATGCTTCAGAAGTAGAGAAGTACAGGTTTTTGTCTTTGAATAGTGCCGGGTTCTCACCTCACTAATATATTTCTCTTGGTTTTCCAAATATCT
K
CTTGTCCACAGTAACAGTGTCCTTATTTTCCACTAGTAAATCTTACAGGGTCTCAGTAGTGACTCTCACTGAAATAAGGGCAGAAAACACCAGTGCCGTG
Celera SNP ID:            hCV27965735
SNP Position Genomic:     92724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38072):
CCAGATGCAGGAAGGCATTTTTCATCTAGGATCCTTGAATCTTTAAGATTTCTGTTTCCCAAAACGAATTAAAAGCATGGGTTCTAATTAACTCTATTAA
R
AATTTGATTTCAGAGTTTTAGAAAAGTGGGAAATGCTTCATGCATTGCAAGCTGGAAAGGACTCAGGTGGGTCTCCCTCTCCTTGACCCAGAGAGCTTGG
Celera SNP ID:            hCV16080993
SNP Position Genomic:     24181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38073):
ATGAGCCACTGGGCCTGGCCAACAACCACTTATTTAATTTGCAATTCTGTGGGTTAGCAATTTTTGTTTGGGCTCAACTGGGTGGTTCTTCTGTTTTCTC
Y
TTGGATCCCTTATGTTTGTGGTCAGCTGCTTGTCAGCTATAGAGCTGCTGGTCTAGAGTGGTCTCAGATGGGCTGGCTCATCTCTGCTCCATGTGGTCTC
Celera SNP ID:            hCV27965736
SNP Position Genomic:     81923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38074):
AAAAGTTCCAAAATAAAAGGGGTCCCTATATTGGTGTATTAGTTTCCCATTGCTGTTATAACAAAGTAACACAAATTTAGTGGCCAAAAACAAAACAGGC
Y
GGGTGCGGTGGCTCACACCTGTAATCCCAGCACTCTGGGAGGCCAAGGCGGGCCCATTGCCTGAGGTCAGGAGTTGGAGACCAGCCTGACCAACATGGTG
Celera SNP ID:            hCV9081828
SNP Position Genomic:     44543
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38075):
TTGCTGTGACTGCAGATGTTATCTTGCAATGCAGCTATCAGCAATGATGAGCAGAGACACACTGTCATTGCTGGGCTAGGATCAGGTGTCACGGAATTAC
R
TATTCGGGTTTCCCTCATGTCTGAGATGATATTGAGGGAGGCATCCTATCATTTATTACCAAAAAATGACTAATAAACTGGTAACGAGCTCAATATGTTG
Celera SNP ID:            hCV114112
SNP Position Genomic:     68373
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38076):
AATAGGAAGTCATGTGCATGTTCTATGAAGACTGACGGGAGGGGTGGGAGTGGGCAGGACTGTGGCACCCATGCCGATGCTGCTGCCTGGCCCATGTGCC
R
TGTTTCATGCCCTGCTCCATCTCGGGTGCCAACCCTAGGAGCAAAGAGGGCAGTGGGGGCATGTAACAGAGGGCTAGCTGGGGTGATGTGGCTGCAAGAA
Celera SNP ID:            hCV176826
SNP Position Genomic:     82502
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38077):
AAACTGATCATTCCCTTTGCCCTGTTTTCTCTTTTAGGTTCATATTTGGTGCTTAGACAAATTCAAAATGAGGAAACATCGGCACTTGCCCTTAGTGGCC
R
TCTTTTGCCTCTTTCTCTCAGGCTTTCCTACAACTCATGCCCAGCAGCAGCAAGCAGGTAAGAGCCAGAAACGTCCTTGATTTTGTAAAAAGGAATATCA
Celera SNP ID:            hCV27855315
SNP Position Genomic:     23598
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,22)   total(A,1|G,57)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38078):
TAGATATTTACGGAAGGTGCTTGTTAAGCCAAAGGCTTGTAGAGGTGGGAGTGTACTGAAGTCCGGTGCATCCTGCAAAGTGTGCAACTGTCCTGCAGAC
R
GGCTCTTCCTCTGTGAATCGACCCCTTTCCCTGCAATGTCTTGTGCAGCATTTCAGAGCTAGACATTCTTCTCTGCAGATGAGAATCTCATGCTAATTTT
Celera SNP ID:            hCV16049860
SNP Position Genomic:     62857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38079):
AAATCCTAATACTGGGGGAGGGAGGGAATAAGGGGCAAGAGGGCTGAGGGAGTTGTGGATTTGTTGTTTTTGTAATTATCTGTGGGTTTTTGGGGGGATG
M
TGTAAGTGAAATAAAAAAACTAGATTTCTTCTTTTTCTGGCATATTGCATCTTGCAATTTCAAGACATTTCAGAAATGTCTGTAGCAGAATAGCTCCTTG
Celera SNP ID:            hCV16049861
SNP Position Genomic:     63430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38080):
TGTGTCATGCTTTGGAGGGAAGTGCAGATTCTGCAGATTCTGAACTTCGTACACAGATGAGATGTGAACGCAAATGATCCTTGAAAAATGACTATCTGGC
Y
TACGACTAGCTGACTCTCAAGATGGGGAAAGAGAGCCCATCTCTTCCTACTGCAGACCCTTCTGTCTATCACCACTTAAGTCCTTCAGCTCTTTCTTTTG
Celera SNP ID:            hCV176827
SNP Position Genomic:     82755
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38081):
GCCGCTGCAAAGCCGGCCCCTGCGAAACCTGTGGCTGCCAAGCCTGTGGCCACAAAGACGGCCACTGTTAGACCCCCAGTGGCGGTGAAGCCAGCAACGG
Y
AGCGAAGCCTGTAGCAGCAAAGCCAGCAGCTGTAAGACCCCCCGCTGCTGCTGCTGCAAAACCAGTGGCGACCAAGCCTGAGGTCCCTAGGCCACAGGCA
Celera SNP ID:            hCV176828
SNP Position Genomic:     84045
SNP Source:               Celera
Population(Allele,Count): (T,1|C,12)   total(C,12|T,1)Caucasian(T,1|C,283)   Chinese(T,0|C,60)   Japanese(T,0|C,20)   Tfrican(T,5|C,95)   total(C,458|T,6)    
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38082):
TAAGTTGTTTCCATCTTTTGGATATTACAAATAATGCTGAAATGAACATGGGTGTGCACATATATCTTTGAGATCCTGTTTTCACTTCTTTTGGATATAC
Y
CAAAAGTGGGATAGATGAATTATATGATAATTCTGTTTTCAGTTTTTTGAGGAACATTCATACGATGGAGGCTAGCCTTTCCCCACTGTGTAGCTTTGTT
Celera SNP ID:            hCV73287
SNP Position Genomic:     19139
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38083):
CAGCCGCTGCAAAGCCGGCCCCTGCGAAACCTGTGGCTGCCAAGCCTGTGGCCACAAAGACGGCCACTGTTAGACCCCCAGTGGCGGTGAAGCCAGCAAC
R
GCAGCGAAGCCTGTAGCAGCAAAGCCAGCAGCTGTAAGACCCCCCGCTGCTGCTGCTGCAAAACCAGTGGCGACCAAGCCTGAGGTCCCTAGGCCACAGG
Celera SNP ID:            hCV11536021
SNP Position Genomic:     84043
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,3|G,35)   total(A,3|G,73)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,2|G,36)   total(A,2|G,66)   
SNP Type:                 UTR 3;SILENT MUTATION;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 UTR 3;SILENT MUTATION;TFBS


Context             (SEQ ID NO:38084):
CAGTGAGTGGGAAAAGTATGCATCCTATTCAAACCTAATTGAATCGAGGAGCCCAGGGACACACGCCTTCAGGTTTGCTCAGGGGTAAGTGTGATTTCTC
Y
TCTGTTTTTCCAGGTTTGGGGCTAGAAGGAAATGCTCTTAACCTGAAGTGATCCTTTCTAGGTAGCGTTAGTGGCTCTTACGTTCATGCTGATCGCCAGT
Celera SNP ID:            hCV15966388
SNP Position Genomic:     6442
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   JBIC-allele(C,553|T,922)   total(C,553|T,922)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38085):
CACCTGGTCCTGGTCCTGGGTGGAAAATCCCAGGACGATGTGTCCAGGTTCGCCCAGGTGATCCGTTCCTCGGGCATTGTGAGTTTAGGGGTAGGAGACC
R
GAACATCGACAGAACAGAGCTGCAGACCATCACCAATGACCCCAGACTGGTCTTCACAGTGCGAGAGTTCAGAGAGCTTCCCAACATAGAAGAAAGAATC
Celera SNP ID:            hCV25602803
SNP Position Genomic:     51646
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,39)   total(A,2|G,76)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:38086):
ACGTAGCCTAAGATTAGCAGCAGAGTCCCCGTGAAGGAAGTCTCCGTGGGGAACCAGAGTGACCCTTGCCAAGTGGGGCTTCTCAGCAGAATCTGTGCCT
S
TTAGATATTTACGGAAGGTGCTTGTTAAGCCAAAGGCTTGTAGAGGTGGGAGTGTACTGAAGTCCGGTGCATCCTGCAAAGTGTGCAACTGTCCTGCAGA
Celera SNP ID:            hCV1470373
SNP Position Genomic:     62755
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,16)   caucasian(C,23|G,15)   total(C,43|G,31)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,7)      total(G,2|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38087):
CCTCATAGAGAGGCTGGTTGACTACCTGGACGTGGGCTTTGACACCACCCGGGTGGCTGTCATCCAGTTCAGCGATGACCCCAAGGTGGAGTTCCTGCTG
W
ACGCCCATTCCAGCAAGGATGAAGTGCAGAACGCGGTGCAGCGGCTGAGGCCCAAGGGAGGGCGGCAGATCAACGTGGGCAATGCCCTGGAGTACGTGTC
Celera SNP ID:            hCV25602804
SNP Position Genomic:     48224
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,26)   total(A,61|T,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,40)   total(A,77|T,1)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:38088):
TCCCGCAGTTCCTGGTCCTCATCTCGTCTGGAAAGTCTGACGATGAGGTGGACGACCCGGCGGTGGAGCTCAAGCAGTTTGGCGTGGCCCCTTTCACGAT
Y
GCCAGGAACGCAGACCAGGAGGAGCTGGTGAAGATCTCGCTGAGCCCCGAATATGTGTTCTCGGTGAGCACCTTCCGGGAGCTGCCCAGCCTGGAGCAGA
Celera SNP ID:            hCV25602805
SNP Position Genomic:     48472
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38089):
CTGGCCGAGGAGGTCACATCTCAGTTCTTATCGCTTGTCAGATCCCTGTGTTCTTCTGTTTCTACTGGTGATTTCTGTCCAGTCTCCTCCTCATCACCAG
G
ATGTAGCTTTCCTTTCCTGAGTTGTCCATCTACTTCTAAACAGCCCCAGTCTGAGCTGTTTAGGGCACAGTGTCCTCAGCTTTTAATCCCTCTCTTCTCT
Celera SNP ID:            hCV11536024
SNP Position Genomic:     39829
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,5)   total(G,1|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38090):
TTTTTATCTTCACGCTCTGATCTATCTTTCAGTTAAGATGTCCCGTGAAGTCCAGGTGTTTGAGATAACAGAGAACAGCGCCAAACTCCACTGGGAGAGG
S
CTGAGCCCCCCGGTCCTTATTTTTATGACCTCACCGTCACCTCAGCCCATGATCAGTCCCTGGTTCTGAAGCAGAACCTCACGGTCACGGACCGCGTCAT
Celera SNP ID:            hCV22274459
SNP Position Genomic:     85502
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,25|G,13)   total(C,58|G,14)
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38091):
CCAGAGCCTCTCCTTTGATTACTGGGCCCATTGGCCGTTGGCTTGGGATGGTAACTCCGACATCTGGGTTCCGTTTCCTCCCATTAACCCACTTGTGACT
Y
GCAGCAACTCAATTGAAACCTCCCATCGATAAAATGCTAGTGGTTGTGCAGGTGCTGCCATCTCATGTCTCTCCTCCCATCCCAAGTTTTTTCTTGAATA
Celera SNP ID:            hCV11533336
SNP Position Genomic:     44307
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38092):
GTTACACCAGTAGGCAACTGTGTTATTGTATTAAGGACGTTGGTGCATAACATGTTACCCTTCTCTTAGAACATAGACCTTGTCTTGATGCTACAGGTGA
K
CACCCAGATGAGGCACTGCTGTCTTCATTTGGCATGTATCAGCGATTCTCACCCCAGGCATCACGCTCCCAGCTTCTGGTCCAAACAACTAGAAATGAAC
Celera SNP ID:            hCV369481
SNP Position Genomic:     37161
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38093):
TTACACCAGTAGGCAACTGTGTTATTGTATTAAGGACGTTGGTGCATAACATGTTACCCTTCTCTTAGAACATAGACCTTGTCTTGATGCTACAGGTGAG
Y
ACCCAGATGAGGCACTGCTGTCTTCATTTGGCATGTATCAGCGATTCTCACCCCAGGCATCACGCTCCCAGCTTCTGGTCCAAACAACTAGAAATGAACT
Celera SNP ID:            hCV369482
SNP Position Genomic:     37162
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38094):
TGGGATTATTTAAACGTTGAAATTGTATTTTTACATGATTTTTAAATGTTCAACATCTGCTGTATCTAGAAAATTATTTGTTATAAAACAAACAAAGGGT
R
CATCTTCATGCAATGGTAAAATGGTTTCTAGGGGAAGGCTAACTTATTATTATTATTGCAAATTATTATGGTGGTAAGATATGGTTGTATCAGATCTACC
Celera SNP ID:            hCV15983873
SNP Position Genomic:     42207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38095):
GTCCACCCCCCGACCCCTCCACTGCAAAACAAAAACAAAAACAAAAACAAAAATCCTTATTATCTGACAGTTTTGAAGGCTGGAAATTGGAAACCAGTGT
Y
GCTAAGCTAAAATCAAGGTGTCAACAGGCTGTGTTCTTTCTGCAGGTTCTAAGGGATTCTTCATCTGCTCACCTTTTCCAGCCTCCAGGGGCTGCCTGCA
Celera SNP ID:            hCV369485
SNP Position Genomic:     44918
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38096):
TGATTTTCCCTGGTAGGTTTGGTAGTGGACAATTCATGCTACTACTTTTCCCTCCAAATTTAGTGGAAATTTCTAGAATATGTACCCAAGATTGTCCCCT
S
AGAAAAGTGAATATGATGTTTGGAAATTTAACTATGAGGATGGCACAAATGAAAAATTGCTATAAATGTCCCTTTTTTACACCATGATTTCTAAGAGGTT
Celera SNP ID:            hCV11536029
SNP Position Genomic:     31913
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38097):
AAATATAGTAGTAACCCACTGGAAAAGTGAATCAAAACTAACCACTTGGCTGCCCGGGAAAAGTGTGACCCACACGTCTCCTGGATGTCTTACCCCACGG
R
CCCTCAGTGAGATCTTCTGTTCCAAAGCTTACTGTGCCACTTCTCGGCTTTCTTCCCAGGGTAACCCAGGTGAACCTGGGCTAAATGGAACAACAGGACC
Celera SNP ID:            hCV25602736
SNP Position Genomic:     72431
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,30)   total(A,63|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38098):
ATAGTAGTAACCCACTGGAAAAGTGAATCAAAACTAACCACTTGGCTGCCCGGGAAAAGTGTGACCCACACGTCTCCTGGATGTCTTACCCCACGGACCC
K
CAGTGAGATCTTCTGTTCCAAAGCTTACTGTGCCACTTCTCGGCTTTCTTCCCAGGGTAACCCAGGTGAACCTGGGCTAAATGGAACAACAGGACCCAAA
Celera SNP ID:            hCV25602737
SNP Position Genomic:     72435
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(G,1|T,27)   total(G,1|T,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:38099):
CGTCTCCTGGATGTCTTACCCCACGGACCCTCAGTGAGATCTTCTGTTCCAAAGCTTACTGTGCCACTTCTCGGCTTTCTTCCCAGGGTAACCCAGGTGA
R
CCTGGGCTAAATGGAACAACAGGACCCAAAGGCATCAGAGGCCGAAGGGTAAGTTTGCGTGGGCCTTGGCTGCAGGTGAGGAATGAGAACGTATGTCTCA
Celera SNP ID:            hCV25602738
SNP Position Genomic:     72505
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38100):
TTTGAATGAGACATCTTAGGAATAGAAATTATTACCTCAGTAACTCGTTTTTTAAATGCTATTTAAAAATGCCCCAAAAACTCACCAACAATAATTTTGT
R
ATGTACATTTCTACGTTACAAAAGAATAAAGAAATCTACGGTCCATTGTGACTTTTTCCAAAAGGAGTCATGGCACCTAACACTGTATAAAAGGACCAGG
Celera SNP ID:            hCV16050843
SNP Position Genomic:     70723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38101):
TTGCTAAGTGGTCCATCTGGACACTAGTCTGCTGCTCCATTCATGGCAAAGTTACATCACTCATCAGCCGGACAGACTCTCCTCTGCTATCAATCTTCAG
R
TGGCAAGGCTGAGAACATTAGATCATCCTCATCCCTGATTTCATTAGCTGTATGGGGAAAATGGAATTCCTGTGCTACACAACAGACAACCATGAAGACT
Celera SNP ID:            hCV16049871
SNP Position Genomic:     17409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38102):
GCTTGGGAGCATTATCAAACCACAGCACAAGCACTGGAGACTGCTCTTCTACATTGTGTTAACATATATCCATGTCCAAAAGGCAGTGACCATTGCAAGG
S
AAAAAAAATCGGGCTGAGCTTTTGCAATACTGCCGCTATCACCACTCATTGCTGTCACTTTGTTGCAGAAAAATATCTGTTCTGTTGATAACTGGCCTCC
Celera SNP ID:            hCV16049872
SNP Position Genomic:     16747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38103):
CATCTGACAGGGATGTTGTGTACCAGGCAGCTTTTCCACCCTGACTTACGGGAGCAAACTTTTCATGGTGTCCTGGCTGCAGCAAGCAGGCAGTAAAAAA
Y
ACATCACTGCTACATAAATAGCTGACGATTTGAGGAGGGACCTGACATTTAAAGAAAATCCTATTAGCTCTAGCTAAGAAAATGAAAGCCGCAAACCCTC
Celera SNP ID:            hCV16049873
SNP Position Genomic:     9309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38104):
AAGATATTCCCAATACTGCCCTATTGGGAAGTTAATCTATTTTATTGATGTAGCTTTGATTTACTCCTCTGCCATATTTTCAGATATTACTGATCATGTA
Y
GCCCCTACCAAAATTGTTCTTTTGTTTAAACCAGATCAATAACACAGCAGTGGGGCATGCGCTTGTCCTGCCTGCAGGGAGAGACCTCACAGACTTCCTG
Celera SNP ID:            hCV22274609
SNP Position Genomic:     78127
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,35|T,3)   total(C,65|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:38105):
TTGGCATCACACTGTAAGCCAGCCCCAGGCCACAGGGTCTCAGCCATGTTTCTCATGTCTAGGGTGAGCCCGGAGAGCCAGGACCAAAAGGAGGAATCGG
S
AACCGGGGCCCTCGTGGGGAGACGGTAAGGTCACAGCGCGCTTGGGGTCAGGCTGTCGCTGACTCTTTGCTGGAAGGTGCAGGAAGCCAGGAGAGGGTTC
Celera SNP ID:            hCV22274538
SNP Position Genomic:     70189
SNP Source:               Applera
Population(Allele,Count): african american(C,23|G,15)   caucasian(C,18|G,22)   total(C,41|G,37)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,423|C,824)   total(G,423|C,824)   (G,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38106):
CCGCATTGAAGAGGGCGTCCCGCAGTTCCTGGTCCTCATCTCGTCTGGAAAGTCTGACGATGAGGTGGACGACCCGGCGGTGGAGCTCAAGCAGTTTGGC
R
TGGCCCCTTTCACGATCGCCAGGAACGCAGACCAGGAGGAGCTGGTGAAGATCTCGCTGAGCCCCGAATATGTGTTCTCGGTGAGCACCTTCCGGGAGCT
Celera SNP ID:            hCV25602812
SNP Position Genomic:     48455
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38107):
TGAGGCCCAAGGGAGGGCGGCAGATCAACGTGGGCAATGCCCTGGAGTACGTGTCCAGGAACATCTTCAAGAGGCCCCTGGGGAGCCGCATTGAAGAGGG
Y
GTCCCGCAGTTCCTGGTCCTCATCTCGTCTGGAAAGTCTGACGATGAGGTGGACGACCCGGCGGTGGAGCTCAAGCAGTTTGGCGTGGCCCCTTTCACGA
Celera SNP ID:            hCV25602813
SNP Position Genomic:     48370
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,30)   total(C,64|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38108):
TGGTGAGGTGTGCATCTGATCAAACTCCTCTATTTGGTGTTGGGATCTGTTTCCTTTAAGGAAAGCTCCCTGTTGGAGAGTGCGTGAACTGAGACGGGAG
Y
GAGGGCATCTGTTTTTGTGTCCAGTGGACTAGCAGAGAGCTTCTCTCTTCTACTTTACGGAGTTAATTTAAGAGTGTTGGTAGAATCGGAATTACAAGAA
Celera SNP ID:            hCV11536033
SNP Position Genomic:     26204
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38109):
CTGAGGAACATCCTGGTCAGCTCTGCGGGAAGCAGGATAACAGAAGGTGTGCCCCAGCTGCTGATCGTCCTCACGGCCGACAGGTCTGGGGATGATGTGC
R
GAACCCCTCCGTGGTCGTGAAGAGGGGTGGGGCTGTGCCCATTGGCATTGGCATCGGGAACGCTGACATCACAGAGATGCAGACCATCTCCTTCATCCCG
Celera SNP ID:            hCV25602814
SNP Position Genomic:     45737
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,36)   total(A,1|G,63)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38110):
GTTCCCAGGTAAGTGAGTCTACCTTCCTGTATTATCAGTGAGGTGTGAAGTGTTTAGTAGCAGTATAGTGTAAACCAAATTTGTTTAGGAAGGCTTTGCA
Y
TGATAGGAAGTAATTGCTTACATAGTAGAAAAATCTAAACCAATGTCTTTTTTTAAAGATGTCAAAAATGGTGCGGCTGCTGATATAATATTTCTAGTGG
Celera SNP ID:            hCV11536034
SNP Position Genomic:     25119
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,18)   caucasian(C,10|T,28)   total(C,28|T,46)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,9)      total(C,5|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38111):
TGGACAAGGCTTGACATGGTCCCAGCTGCTGTGGTTGGGTTGCATTTGGTGTAATTTGGGCAAAGCCCGTTCTCTCCATAAACTGAAACTTTCCTCTGAG
S
TTCTTTTAAACATGACTTACAAACTTAAGCTGGGTGTCAAAACCTGATGCCTTGTGCCTATGAGTGCTTTTACTCCTGACCCATTTCCATTCTGCTCTTT
Celera SNP ID:            hCV11536037
SNP Position Genomic:     22341
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38112):
GAGAATCAGAATATCTTGGCATTAGTCTTGGGTCAGCCACTCAGTTAACTGGGCTACCCTGAGAAAGACCCTTCCTTCCCTAAAATACTCTCTCATCTGT
Y
AAGTGGAGGTCATAATACGTACTTGTCCTGGTGTTTATGAGATTTAAATAAAATATGCTGCAATCAAAGTACTCTGTAAGCTGTGAAATGCTATAACCTA
Celera SNP ID:            hCV25602745
SNP Position Genomic:     72178
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,38|T,2)   total(C,67|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:38113):
TAAAAGAATTATTTCTTTAAAAATTGTCTTTGTATTTGAGTGAGTGTTTTCGTTTGATGACTCAGCAGACATTTCTTTCTTTCAAGGTCAATTTATTTTA
S
ATGAATTTAAATTAGAACCAAGTATTAAATAATCTATTTTTCCTTTATAGGGAGAAAGAGGATTCCCTGGATACCCAGGACCAAAGGTAAATAATCCCTG
Celera SNP ID:            hCV25602746
SNP Position Genomic:     71925
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,2|G,38)   total(C,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:38114):
CACATCTCTTTCCCACTCTTAGGGAGATGACGGGAGAGACGGAGTTGGCAGTGAAGGACGCAGAGGCAAAAAAGTACGTATCTGCTGAGGATTATCCAAG
Y
GTCCTTGCTGCCAGGAGGCTCCAAGGACAACTTCTGATGTGTTGTGTTTTAAAAGAATTATTTCTTTAAAAATTGTCTTTGTATTTGAGTGAGTGTTTTC
Celera SNP ID:            hCV25602747
SNP Position Genomic:     71775
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,3)   total(C,75|T,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38115):
GGTTCCATCAACTTCAGGAGGGACAGTTTCCAGGAAGTGCTTCGTTTTGTGTCTGAAATAGTGGACACAGTTTATGAAGATGGCGACTCCATCCAAGTGG
R
GCTTGTCCAGTACAACTCTGACCCCACTGACGAATTCTTCCTGAAGGACTTCTCTACCAAGAGGCAGATTATTGACGCCATCAACAAAGTGGTCTACAAA
Celera SNP ID:            hCV27529362
SNP Position Genomic:     53231
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38116):
ATGTTCTCTGTAAAAGAAATGAGTTCCTGTGAATCCACGATGGTCTCTGCCTGGAGAGTGTTTTGGGGTTTTATGCTGGGCTCAATGCCCACCGCCTTCC
R
TGCCTTCTTCTCCCAGTTGTTACTCTCTCTTCTCATCAGCCCGTCCCCCATGCCACGCTGGTGAAAAGGACAAACAAAACCCTCCTGGATTCTTTTCCAG
Celera SNP ID:            hCV25602748
SNP Position Genomic:     69887
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,21)   caucasian(G,26)   total(A,1|G,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:38117):
AAATTGGCCCAAATCCTCCAGATGAGCTAATAGAGAGACTAGAATTTTGAAAATAATGTTCTGAATGCAAATGGACATTGAGAAGCAATGGAAACAGTGT
R
CAGGACTACATGCCCGGTGCCTGGAGCTGCTCATGCTCATTCCATCATGGTGCCGTTTTGTGACTCTGGCAATTAAGAAAACAATCAAGTGAAAATTTAT
Celera SNP ID:            hCV217048
SNP Position Genomic:     34591
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38118):
AAGGAATTTGTAGGTAGAAACACTCTGAAATGAAAAGGTTCCTAGTCCTGGGCACCTAAGGCAGGGGAAGAGGAGAGGACCAGTGTTACCATTGGTTTTC
R
TTTGCATATGTTAATGTTTGCCCATTTTGACAGTCACATTGAATAGATGCTTGTTTATCAGGAATGTGAGTCAGGCATGTAATGCGAGGGCAGTCTGGTT
Celera SNP ID:            hCV8684620
SNP Position Genomic:     89536
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38119):
TTAAGCGTGTGAGGAACGGATTCCTAATGAGGAAAGTGGCTGTTTTCTTCAGCAACACACCCACAAGAGCATCCCCACAGCTCAGAGAGGCTGTGCTCAA
R
CTCTCAGATGCGGGGATCACCCCCTTGTTCCTTACAAGGCAGGAAGACCGGCAGCTCATCAACGCTTTGCAGGTCTGTGCTCTGTGCGTGCTGTTGGCAT
Celera SNP ID:            hCV8684621
SNP Position Genomic:     75938
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,3|G,29)   total(A,8|G,62)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,13)      total(G,13|A,1) ;no_pop(G,-|A,-)   JBIC-allele(A,193|G,1278)   total(G,1278|A,193)    
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:38120):
TGAGATTATTAAACATCACCGTATTAACTACTTATAATCCAGTCTTCCTAAAAATGGGCTTGAGGGGCTCATTACAGTTCTGAGAAAGTTACTCCAGGAC
Y
ATGGCATTGAGCTCTAAAAGTCAGTGTTAGAAGTGTGCTCATAGACAGAGTATCTTTCCAAAAGCAAAGATGGAGTGAGGGTGTCTCCTCAAAGTCATTT
Celera SNP ID:            hCV9081840
SNP Position Genomic:     33174
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38121):
ACAAGATTAAGAACCTTCAGGTGGCTCTGACATCCAAACAGCAGAGTCTGGAGACTGCCATGTCGTTTGTGGCCAGGAACACATTTAAGCGTGTGAGGAA
Y
GGATTCCTAATGAGGAAAGTGGCTGTTTTCTTCAGCAACACACCCACAAGAGCATCCCCACAGCTCAGAGAGGCTGTGCTCAAGCTCTCAGATGCGGGGA
Celera SNP ID:            hCV8684622
SNP Position Genomic:     75854
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,26)   total(C,55|T,3)   
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,21|T,1)   total(C,51|T,3)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,11)      total(C,11|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38122):
CTCTTAGGGAGATGACGGGAGAGACGGAGTTGGCAGTGAAGGACGCAGAGGCAAAAAAGTACGTATCTGCTGAGGATTATCCAAGCGTCCTTGCTGCCAG
S
AGGCTCCAAGGACAACTTCTGATGTGTTGTGTTTTAAAAGAATTATTTCTTTAAAAATTGTCTTTGTATTTGAGTGAGTGTTTTCGTTTGATGACTCAGC
Celera SNP ID:            hCV8684623
SNP Position Genomic:     71790
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,33)   caucasian(C,2|G,38)   total(C,7|G,71)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   JBIC-allele(G,99|C,1402)   total(G,99|C,1402) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38123):
CAGACATTTCTTTCTTTCAAGGTCAATTTATTTTAGATGAATTTAAATTAGAACCAAGTATTAAATAATCTATTTTTCCTTTATAGGGAGAAAGAGGATT
Y
CCTGGATACCCAGGACCAAAGGTAAATAATCCCTGGTCGGTGAAGCATCATCATGATTTTGGGATGGCTCTGGTATGTCCATGGACTGAGAATCAGAATA
Celera SNP ID:            hCV8684624
SNP Position Genomic:     71990
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,36|T,2)   total(C,66|T,6)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,36|T,2)   total(C,70|T,6)   
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:38124):
AGCAGAAACTGCTGACGCCCATCACGACCCTGACCTCAGAGCAGATCCAGAAGCTCTTAGCCAGCACTCGCTATCCACCTCCAGGTGAGATGGGGGCGTC
R
GAGGTTCTCCTTGGAGCATTTTCCATATGAAAAATAACAGGCTCAAAGGCCATGGTACTCATAATAAATTAAATTAAAATAAAGGTTGTATGCCCTTACC
Celera SNP ID:            hCV27483571
SNP Position Genomic:     48667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38125):
TCACGGTCACGGACCGCGTCATTGGAGGCCTGCTCGCTGGGCAGACATACCATGTGGCTGTGGTCTGCTACCTGAGGTCTCAGGTCAGAGCCACCTACCA
Y
GGAAGTTTCAGTACAAGTAAGTACATGATCAGTACAAGTCGGTACCTGATTTCTATGTAGAGTATCAAATAGGACACAAAGGAGACACTTACTTATTGAA
Celera SNP ID:            hCV15958163
SNP Position Genomic:     85681
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,34|T,2)   total(C,67|T,7)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38126):
GTCATGGAGGATTTTATTTTTTATCTTCACGCTCTGATCTATCTTTCAGTTAAGATGTCCCGTGAAGTCCAGGTGTTTGAGATAACAGAGAACAGCGCCA
R
ACTCCACTGGGAGAGGCCTGAGCCCCCCGGTCCTTATTTTTATGACCTCACCGTCACCTCAGCCCATGATCAGTCCCTGGTTCTGAAGCAGAACCTCACG
Celera SNP ID:            hCV15958165
SNP Position Genomic:     85485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38127):
TATAATGTTGCCACCTACAGTCATTGAAGTCAACAAGAGAGACATAGTCTTCCTGGTGGATGGCTCATCTGCACTGGGACTGGCCAACTTCAATGCCATC
Y
GAGACTTCATTGCTAAAGTCATCCAGAGGCTGGAAATCGGACAGGATCTTATCCAGGTGGCAGTGGCCCAGTATGCAGACACTGTGAGGCCTGAATTTTA
Celera SNP ID:            hCV27859768
SNP Position Genomic:     38963
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38128):
CTGTTCCAAAGCTTACTGTGCCACTTCTCGGCTTTCTTCCCAGGGTAACCCAGGTGAACCTGGGCTAAATGGAACAACAGGACCCAAAGGCATCAGAGGC
Y
GAAGGGTAAGTTTGCGTGGGCCTTGGCTGCAGGTGAGGAATGAGAACGTATGTCTCAATGTGATTAACTGCTGAGGCTTTGACAATTATCCTTCACTTGC
Celera SNP ID:            hCV27859769
SNP Position Genomic:     72548
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38129):
TCAAATATACTCCTCCATTTTAAGTGCAATATCAAAGTCTTGTGAACATGGGTAATCATTCCTCAACTTGGGCCCTCAGTTTCCTTAAGTGTAAAATGAA
R
GGCTTGAGACAGCGAGTCTCTCAGTTTTCTATCAGCAGTCTGCAACACTCCTTTTTAGTTTTCCTGGGATTTGACAGCTCTCTTATCTGCAGGTGGTCAT
Celera SNP ID:            hCV16135482
SNP Position Genomic:     55839
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38130):
GCAACAAGGGCGGTCCTGGCCAGCCGGGCTTTGAGGGAGAGCAGGGGACCAGAGGTGCACAGGTGAGTGCTTCCGTGTGTGACTGTGTGCCCTCTGATAT
Y
TCACAAATCATTTAAAAAATGATTGGGTGGCATTTATATCCGGAAAGTTAACCATTTTAAAGTGAACAATCCAGTGGCATTTGGTACTTCCACAATGCTG
Celera SNP ID:            hCV22275630
SNP Position Genomic:     67058
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,4)   caucasian(C,4|T,10)   total(C,6|T,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:38131):
CGCTGGCAATTTCTATCATATCGTCAGTCGTCCAGCAAATGTCACCTGGAGGGACTTCATCTCACACCGTGAAACCCCCACACATCCGATTTTGACCCTT
R
AAGCGCATTTATGATTTTCTGCTGGGCATTTCTTGAGATCTGAACATTTGGTTTCTCTTCCTTTCGGTAGGACAACATTGCCGAGAAAGCTTGCTGTGGG
Celera SNP ID:            hCV11533350
SNP Position Genomic:     58458
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;JBIC-allele(G,347|A,1146)   total(G,347|A,1146)
SNP Type:                 INTRON


Context             (SEQ ID NO:38132):
CTCATGTTTTTATTAAAGATATATGCAAGTTGCCGAAAGACGAAGGAACTTGCAGGGATTTCATATTAAAATGGTACTATGATCCAAACACCAAAAGCTG
Y
GCAAGATTCTGGTATGGAGGTTGTGGTGGAAACGAAAACAAATTTGGATCACAGAAAGAATGTGAAAAGGTTTGCGCTCCTGGTAAGTGATTCTTCCTTG
Celera SNP ID:            hCV26050678
SNP Position Genomic:     94692
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:38133):
TTTCTAACTGGGGCTGCAGAAAACCCATCATTCATCAGAGCCCAGGGCAACAGATGGAAGAGAGCAGTCGCAGGACTATGGCCTGTTCGAGCAACAGGCA
R
GGAGCCTTCTTTTACACAAAAGGGAGGCTGGGAGAGATTGGCCGACCATTGCTGACAGAGGCAGTAAGGAAGTAGAATTTCCCAGGTTACTGCAATAAAT
Celera SNP ID:            hCV11536040
SNP Position Genomic:     12068
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,10)   total(G,10|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38134):
ACACCGGGGCCGCCCTGGAGTTTGTCCTGAGGAACATCCTGGTCAGCTCTGCGGGAAGCAGGATAACAGAAGGTGTGCCCCAGCTGCTGATCGTCCTCAC
R
GCCGACAGGTCTGGGGATGATGTGCGGAACCCCTCCGTGGTCGTGAAGAGGGGTGGGGCTGTGCCCATTGGCATTGGCATCGGGAACGCTGACATCACAG
Celera SNP ID:            hCV25602822
SNP Position Genomic:     45711
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,40)   total(A,1|G,71)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38135):
TTCCAGGAAACTGGTTTTTCACTTCTGGAATCTTCATTAGTTGATTCAGCAGCCCAGGGCCGGTACCCAGAGTTAGCGCCAACTCAGCTAAACCCACAGC
Y
GGCCCGGCGGTGCACCAGGGTGCTCTGTTTCTAACTGGGGCTGCAGAAAACCCATCATTCATCAGAGCCCAGGGCAACAGATGGAAGAGAGCAGTCGCAG
Celera SNP ID:            hCV11536041
SNP Position Genomic:     11940
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38136):
GGCATCTAAAAGAATTATGCTCCAGCCACTTTTCTGTCACACATCTGCTGCCTGTAAATGGCAGTGAGCAGCAGTGGATCTTTCATTCGTTACCGTGGCC
Y
CCTGAAAGCATGGGTGTGCTGGGCCTTTCTGCCACCTGCTTTGTCGCTGCTGATTTTGACAGTGCTACGTAGTTGCTAATTTTGGTTTCAGGCTTTTGTT
Celera SNP ID:            hCV26050679
SNP Position Genomic:     89992
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   Caucasian(C,21|T,63)   African-American(C,13|T,71)   Asians(C,4|T,80)   total(C,38|T,214) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38137):
AGATCGTGCTGTCTCCAGCGTTTATCCTGGCTGCAGAGTCGCTTCCCAAGATTGGAGATCTTCATCCACAGATAGTGAATCTCTTAAAATCAGTGCACAA
Y
GGAGCACCAGCACCAGGTATGGTAGAGAAATGCTAGTTGCTCTGCCACTCAGTTCTCTAATGCATGAGTTGAGGGTAGGCTGCTGGCCACTGGTCCTTAG
Celera SNP ID:            hCV25602823
SNP Position Genomic:     43594
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,38)   total(C,74|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:38138):
ATTCTTGGGGAATATTAAAAAAATGACTAAGACATAGCCCCCTCTCTTCTGGTTGGCAAACATATAATTTCTGTTTGGCTAATTGAAATATCAAAAAAAC
K
ACTACCTTGGTGGATGGTTTCTCCACGCCCTTTATGCTTCAGATGAAGAAAGAGAGCTCAGAGAGGTATGCCCAGTGACAGGGCCACAGAGCTAGTAGCA
Celera SNP ID:            hCV11536042
SNP Position Genomic:     11199
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38139):
TTGGATGGATCAGCCAACGTTGGAAAAACCAATTTCCCTTATGTGCGCGACTTTGTAATGAACCTAGTTAACAGCCTTGATATTGGAAATGACAATATTC
R
TGTTGGTTTAGTGCAATTTAGTGACACTCCTGTAACGGAGTTCTCTTTAAACACATACCAGACCAAGTCAGATATCCTTGGTCATCTGAGGCAGCTGCAG
Celera SNP ID:            hCV25602824
SNP Position Genomic:     41279
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:38140):
AATGACTGTAGAGCAAAGAGCTGACATTGACAGGAACCATCCTGACTCCTCCCTGCATCTTCTCTTATTTCAAAGGGCAACAAGGGCGGTCCTGGCCAGC
Y
GGGCTTTGAGGGAGAGCAGGGGACCAGAGGTGCACAGGTGAGTGCTTCCGTGTGTGACTGTGTGCCCTCTGATATTTCACAAATCATTTAAAAAATGATT
Celera SNP ID:            hCV22275637
SNP Position Genomic:     66982
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,37|T,3)   total(C,68|T,10)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38141):
CCTTTGGTTGGTCTTTGTGTTCTCATGTTTACTTAAGTTTAACAAGACCTATTGTGCATCATGGCCTTGAGCCCTGAGGTTCAGGGAGGGGATATATCCC
Y
AATGCTAAATGACGAGTTGATGGGTCCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCATGTTGTGCACATGTACCCTAAAACTTAAA
Celera SNP ID:            hCV11536045
SNP Position Genomic:     10962
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38142):
GCTGGGGTGAGGGGCTTTCAAAAGGAGCGACTCACCAAAATCAAATTGATGGACTATGGGCATCATTTTGCTTTGAAAATTCAGAAGAAAATAGAAATTT
K
GAAAATATCATTTTAAAATGTTTGAGCACTATTTATTTATTTATTTTTAATAAATTGTAAAGACCTGGATCAACTGCTTGGAAGTGAGCATTATTTTTGA
Celera SNP ID:            hCV1471199
SNP Position Genomic:     63951
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,6)      total(G,2|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38143):
CCTGTTTGGGGCTAAGAGTGCTTTGCTGATCCCGTGATTGGGTTTCGTAAGACCTGCATGGATGTTACCTGGATGGGTTGTGGCCGAAGGGCTTGTCCCT
Y
GAAGCCTTGCATGCAGGTCCTTGCTAATATTTCCCTGACCATCCAGTCCAGTGGCAGCTGCTTTCCTTCCATATGTGGCTCATTTCCCTTTCCCATGTTG
Celera SNP ID:            hCV11533357
SNP Position Genomic:     62370
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,3)   caucasian(C,14|T,12)   total(C,25|T,15)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38144):
ACGCTGGTGAAAAGGACAAACAAAACCCTCCTGGATTCTTTTCCAGGAGTTTGCACATGAATGTTGCAATTTAGAAAATCATTCCACCGAAATCTCAAAG
R
TGAAGTCAGCATGTTGCAGCACCCTTACCTAGAGCAAAAGCATGGCTTGGCATCACACTGTAAGCCAGCCCCAGGCCACAGGGTCTCAGCCATGTTTCTC
Celera SNP ID:            hCV25602755
SNP Position Genomic:     70042
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:38145):
TTTTTTCTGTGCTTCACTGCAGTTCACTCAAACAAAAGGGATATCATCTTTCTTTTGGATGGATCAGCCAACGTTGGAAAAACCAATTTCCCTTATGTGC
R
CGACTTTGTAATGAACCTAGTTAACAGCCTTGATATTGGAAATGACAATATTCGTGTTGGTTTAGTGCAATTTAGTGACACTCCTGTAACGGAGTTCTCT
Celera SNP ID:            hCV25602829
SNP Position Genomic:     41225
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(G,38)   total(A,2|G,68)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:38146):
TACATTGCTCCTAAGCAAAACTATATTGAAAACTGAGTGGGTGGCCGTTGATGACATTACTGGGACTTCTGAGGTTTTTGTTGGGCTAAAGATAATGGAA
K
AGATTTTTGGTCAGAAGCCACTGATGCAGTAGTTTCCTGGTTTTCAAAATGAGCAACCAGGGGCTCTGAGATGCGGAATTCCTTGCCCAGGCCAGGGAGC
Celera SNP ID:            hCV11536049
SNP Position Genomic:     7809
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38147):
GCTGGTCCTCCAGGGCTGATAGGAGAACAAGGCATTTCTGGACCTCGGGTAAGCCTGTCCTAATACCAGCCCCCTCTCTAGCTGAACAGAGGGCACATTT
Y
CAAGCAGGCTGAGAGAGTTTCTCGGATGATGCTATTGTAGACAGACCTCCCTTTAGCTCTCCTCTTTGGCAACAAAAACCCCAGATTTAACCTCAGGCCT
Celera SNP ID:            hCV25602756
SNP Position Genomic:     67891
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,6)   caucasian(C,12|T,4)   total(C,20|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38148):
CATGACCTCCTCCCCAGTCCTCTTCTATCTCGGCAGCTACCATGGGGTGCTCAGGTCAGTGTGCTCTGAGCTGTGACCCTTGGTGACCAACCCTGGGATC
Y
GCCAGGCACCCAACACCAGCCTCTTGCAGGAACTTGCGGAGCAGAGAGCTGTGGGCCCAGCTCCCATAGCGGTGGGCTGAGTGCTCCACTTCCCAAGGGA
Celera SNP ID:            hCV454518
SNP Position Genomic:     97174
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:38149):
CTATGTGCACCGTTGGGACCAATGCCTTAATTAAAGAATTTAAAAAAGTTGTAATAGAGAATATTTTTGGCATTCCTCTAATGTTGTGTGTTTTTTTTTT
K
TGTGTGCTGGAGGGAGGGGATTTAATTTTAATTTTAAAATGTTTAGGAAATTTATACAAAGAAACTTTTTAATAAAGTATATTGAAAGTTTCCTGGGTGT
Celera SNP ID:            hCV454519
SNP Position Genomic:     96225
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,8)      total(G,8|T,3) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:38150):
TGCTGGTCCTCCAGGGCTGATAGGAGAACAAGGCATTTCTGGACCTCGGGTAAGCCTGTCCTAATACCAGCCCCCTCTCTAGCTGAACAGAGGGCACATT
K
TCAAGCAGGCTGAGAGAGTTTCTCGGATGATGCTATTGTAGACAGACCTCCCTTTAGCTCTCCTCTTTGGCAACAAAAACCCCAGATTTAACCTCAGGCC
Celera SNP ID:            hCV25602757
SNP Position Genomic:     67890
SNP Source:               Applera
Population(Allele,Count): african american(G,8|T,6)   caucasian(G,12|T,4)   total(G,20|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38151):
ATCAGCAACCCGCAACTTCCCGGTGTCTCGGTCCTCTGCTTTAGGTCTAAATGATCCCTGTTTCACAAAGCTGTCCGAGGAGAGGTGAGGCAAGAGTGAG
R
AACAATTGTAGAAGTGCAGGGAGACAGCTGGCTCCTGTGCTCAGTGTCTCACCTGGGGTTACCGCTTTGATCATCTGTTACCTCTGGAAGAGCTGAGTTT
Celera SNP ID:            hCV16049813
SNP Position Genomic:     66749
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,3|G,37)   total(A,8|G,70)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38152):
TGAACTAAAGGTCACCTCTGGAGCATCCAGGAAGATGTTGCCAAGTCGTGAGCCCTACCTAAGTACACGAGACGTTTAGGTGCACATGTGTGTGCTTCAG
R
TATTTTACTTAACCGAGTGTGTGTTGTGTTTGGCCGGGATCACTTGGAGAACCTGGGACTCCCTTCCATTATAATTAATGTATTTCATGACTTCTCAGTA
Celera SNP ID:            hCV27907621
SNP Position Genomic:     64939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38153):
ATAAGACCTTATTCTTCATTTTCCTTCCAGAGTATGGGCTCAATGAAAATTGGTGAATGGATACCGAGGCTCCTATAAGACTCTGATTATCATCTGCAAC
M
AATCATCTAAATTTTCTTGGGTGAAATAACACATTGTTACAACTCTTATTTGCTAACTTTATAAATAAAGTCTGGGTCTACAAGATAAATATTGTAATAA
Celera SNP ID:            hCV27907622
SNP Position Genomic:     33843
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38154):
TGCTTATGTATTTTGTATAGTGAGTGCCTCAAGTTCACCCATGAGTTCAGCACAGAAGATGGCCCTTAAACTTGCTGTGACTGCAGATGTTATCTTGCAA
W
GCAGCTATCAGCAATGATGAGCAGAGACACACTGTCATTGCTGGGCTAGGATCAGGTGTCACGGAATTACGTATTCGGGTTTCCCTCATGTCTGAGATGA
Celera SNP ID:            hCV27487144
SNP Position Genomic:     68302
SNP Source:               dbSNP
Population(Allele,Count): (T,-|A,-)   JBIC-allele(A,462|T,1023)   total(A,462|T,1023)   no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38155):
TGCCAAATGACAGGAAAAGCTGGGTGTCTCCAAGAGCACCCCAAACCAAACACTCAGGTTACCAGGAAATGACAAGAGGGTATCTACAATGAACTGCACT
S
CTCGCTACGATAGTCTCAGTATCATTAATTCCCTGATCCATCACATTTCGGAATATCGGGATAATAACAAAGACCTACCAAAAAATAGTGAAAGGGGCTC
Celera SNP ID:            hCV27907623
SNP Position Genomic:     28475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38156):
GATATTTCACAAATCATTTAAAAAATGATTGGGTGGCATTTATATCCGGAAAGTTAACCATTTTAAAGTGAACAATCCAGTGGCATTTGGTACTTCCACA
R
TGCTGTGCAATCATCACCTCTATCTAGGTTCAAAACACAGTCTCGAAGGAGACCTGTACCCATTAGCAGTCACTCCCCATCACCCTCCACCCCGAGTCCC
Celera SNP ID:            hCV26050609
SNP Position Genomic:     67153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38157):
TTTAGAAAAGTGGGAAATGCTTCATGCATTGCAAGCTGGAAAGGACTCAGGTGGGTCTCCCTCTCCTTGACCCAGAGAGCTTGGCCTCTGAGGGATTCTT
Y
CTCCAGGCCAGGTTGCTCTTAGATGGAGGGAAGTCTAGTGTCACTTCAATGGAAGAAGAACGTGGGTTGGGGCATCAGGTCAGCCTGAGGTAAGTAGAGT
Celera SNP ID:            hCV27907624
SNP Position Genomic:     24298
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38158):
ACAAAGCCTGTGACTATTATAAATCAGCCATCTGTGAAGCCAGCCGCTGCAAAGCCGGCCCCTGCGAAACCTGTGGCTGCCAAGCCTGTGGCCACAAAGA
Y
GGCCACTGTTAGACCCCCAGTGGCGGTGAAGCCAGCAACGGCAGCGAAGCCTGTAGCAGCAAAGCCAGCAGCTGTAAGACCCCCCGCTGCTGCTGCTGCA
Celera SNP ID:            hCV22273604
SNP Position Genomic:     84003
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,5)   caucasian(C,21|T,17)   total(C,42|T,22)   
SNP Type:                 UTR 3;MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,23|T,15)   total(C,55|T,21)
SNP Type:                 UTR 3;MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:38159):
TTGCAGGTCTGTGCTCTGTGCGTGCTGTTGGCATCTCCCTTTCTTCTGGGGCTCTGAGAAGGTTCTCAGACACGTCCATGCTCCTTTGTGGCTTCATGTC
V
CATAGCTCCTAAAACGTCCCCAATGAGGCCATCTGCCTGAGAACTTCTCTTGTGAGGTCTCCAGGACAACCTCGTGGCTCCAGCACTACAGGGACGCCTA
Celera SNP ID:            hCV264990
SNP Position Genomic:     76105
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,15)   total(A,1|C,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38160):
TGCAGTTCAGCAATGATGTCTTCCCAGAATTCTATCTGAAAACCTACAGATCCCAGGCCCCGGTGCTGGACGCCATACGGCGCCTGAGGCTCAGAGGGGG
K
TCCCCACTGAACACTGGCAAGGCTCTCGAATTTGTGGCAAGAAACCTCTTTGTTAAGTCTGCGGGGAGTCGCATAGAAGACGGGGTGCCCCAACACCTGG
Celera SNP ID:            hCV22275065
SNP Position Genomic:     51452
SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,12)   caucasian(G,30|T,10)   total(G,56|T,22)   
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,12)   caucasian(G,31|T,9)   total(G,57|T,21)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:38161):
ACACTCACAGGGGTTGACCTGGGGGCGTTACACGCCAGCATTTTGAGGCTGCCCTGCACACACTGTTGCTAGAAAAGTAAAGCAGAGAAGAAGAGGGATG
Y
GGGCCACTGAGGTGGAGTGCTGTCAGCACACCTGGAAGCAGCCAGCACAGCTGCAGGGGAGCACAGAGGCGGGCCGAGGAGCAAGGTATAAACAGCATCA
Celera SNP ID:            hCV91811
SNP Position Genomic:     101058
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:38162):
TCGGCATCTAAAAGAATTATGCTCCAGCCACTTTTCTGTCACACATCTGCTGCCTGTAAATGGCAGTGAGCAGCAGTGGATCTTTCATTCGTTACCGTGG
S
CTCCTGAAAGCATGGGTGTGCTGGGCCTTTCTGCCACCTGCTTTGTCGCTGCTGATTTTGACAGTGCTACGTAGTTGCTAATTTTGGTTTCAGGCTTTTG
Celera SNP ID:            hCV26050680
SNP Position Genomic:     89990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38163):
ATTCCATTAATATACCTAGGGCATCGTTAGCAACCACTCAGGATTCCAGCTTTACAATATTACATGATTTGATTTTCAGTGGTTAATATTTGTATTTTTT
W
AAATAAAACCAAATGAACCCCCACAAAAACATCTCACTCCACTTTTTGCTTTGCTCGGCATCTAAAAGAATTATGCTCCAGCCACTTTTCTGTCACACAT
Celera SNP ID:            hCV26050681
SNP Position Genomic:     89835
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,11)      total(A,2|T,11) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38164):
CTGCCACCAAGCCAGCCACCACTAAGCCCATGGGTAAGAAAGCCCTTGCTAGGGCTGCCATCTTGTGACATCCTCATTTCCTGCTCCAGGGTGTGTTCCT
Y
AAAGCCTGCATGTAACACACTCAGAATACAGTCCTTGATCTGGGCTTGTACACCTGGATGATGTATTTTAAGAGGTGTTGGTTAGGGATTCCAGCCTCCC
Celera SNP ID:            hCV26050682
SNP Position Genomic:     84256
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38165):
GGTTACAATGTGGTCTCATTTTCATCTTGCCCCATTGTGATCACAGAGTAGCCTTGTCTGTTGTGGGGGTCCTGTGAGATCATGTGTGCTCAACAGGAGA
R
CCCCAAGGCCATGTGTGCTGGACCAGCTCCCCAATGCGGGGGCTGATTCTCTCTTTCTTAAACAGCTCCATCACAAGAGCTGCTCAGCTTCCACTATGCT
Celera SNP ID:            hCV489693
SNP Position Genomic:     49563
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38166):
ACGGCCACTGTTAGACCCCCAGTGGCGGTGAAGCCAGCAACGGCAGCGAAGCCTGTAGCAGCAAAGCCAGCAGCTGTAAGACCCCCCGCTGCTGCTGCTG
C
AAAACCAGTGGCGACCAAGCCTGAGGTCCCTAGGCCACAGGCAGCCAAACCAGCTGCCACCAAGCCAGCCACCACTAAGCCCATGGGTAAGAAAGCCCTT
Celera SNP ID:            hCV26050683
SNP Position Genomic:     84102
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,10)   total(C,10|-,3) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:38167):
GACGGCCACTGTTAGACCCCCAGTGGCGGTGAAGCCAGCAACGGCAGCGAAGCCTGTAGCAGCAAAGCCAGCAGCTGTAAGACCCCCCGCTGCTGCTGCT
G
CAAAACCAGTGGCGACCAAGCCTGAGGTCCCTAGGCCACAGGCAGCCAAACCAGCTGCCACCAAGCCAGCCACCACTAAGCCCATGGGTAAGAAAGCCCT
Celera SNP ID:            hCV26050684
SNP Position Genomic:     84101
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,10)   total(G,10|-,3) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:38168):
AGACGGCCACTGTTAGACCCCCAGTGGCGGTGAAGCCAGCAACGGCAGCGAAGCCTGTAGCAGCAAAGCCAGCAGCTGTAAGACCCCCCGCTGCTGCTGC
T
GCAAAACCAGTGGCGACCAAGCCTGAGGTCCCTAGGCCACAGGCAGCCAAACCAGCTGCCACCAAGCCAGCCACCACTAAGCCCATGGGTAAGAAAGCCC
Celera SNP ID:            hCV26050685
SNP Position Genomic:     84100
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,10)   total(T,10|-,3) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:38169):
TTCATTAATTATTTGCTCATTCATTCATTCAAACTAGCTATTTGTTAAATGAATAATTACTAATCGTGTGCCAGGTACGGCGATAGACAGGACTCTTTGC
M
CCCACTGGGAGTGATTTTGTTACTTGCTTTAACCACACCTGAGAGGGTGGGGAAGGGATGGAGCTCCCATATTGTTGCTAAAAATAACGATAAGATTAAG
Celera SNP ID:            hCV26050687
SNP Position Genomic:     77714
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,6)      total(A,5|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38170):
CATGTGTGCACGTGTTGTAGGCACACATGATAAAACTCTCCGTGGTTGTGTATGTCTCACTTTTTTTTCTGTGCTTCACTGCAGTTCACTCAAACAAAAG
R
GATATCATCTTTCTTTTGGATGGATCAGCCAACGTTGGAAAAACCAATTTCCCTTATGTGCGCGACTTTGTAATGAACCTAGTTAACAGCCTTGATATTG
Celera SNP ID:            hCV25602830
SNP Position Genomic:     41163
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,38)   total(A,1|G,67)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:38171):
TCCTGGACAGCAGCAGAAGAGGCTGTCTGGGAAGTGAGAGGATTTGTTCAGAAGTTCAGGGATCCCCTCCCGTCGCTTATTAGCTCATGGATCCAACTTG
Y
AGCCCACAGCATAAGTCGTGGATGTAGAGGTGTCTTGGATCTGTGTCTTTCAATCACCACTCCCCAACATAAGACATTAATCACAGCAGGCAACCTTATA
Celera SNP ID:            hCV25602831
SNP Position Genomic:     86602
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,29)   total(C,1|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:38172):
CCCCACCCATTTAAAGTAATGTGCACGCCACTTAGCGTCCCTGCGTCTCAGATTTTTCACCTGTAAATTGAGACTGGGGCAGGATGATTGCTAATGTCTT
Y
CCTTCCACATTGGATATTCTATGCTTTTACCACAGCCTGTGTCGGCGAAAGACATTGGGTCATCACTGCCATTCCTCAGGGCTTGTTCTGCCGAACACAG
Celera SNP ID:            hCV26050688
SNP Position Genomic:     77340
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38173):
GGAGTGCAATGGCGTGATCTCGGCTCACTGCAACCTCCACCTTCCAGTTTTAAGTGATTCTCCTGCTTCAGCCTCCTGAGTAGCTGGGATTACAGGCACT
Y
GCCACCATGCCTGGCTAATTTTTGTATTTTTCTTTCTTTTTTTTTTTTTTAGTAGAGACGGGGGTTTCACCATATTGGTCAGACTGGTCTCGAACTCCTG
Celera SNP ID:            hCV26050689
SNP Position Genomic:     76939
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38174):
TGCACATGTGTGTGCTTCAGATATTTTACTTAACCGAGTGTGTGTTGTGTTTGGCCGGGATCACTTGGAGAACCTGGGACTCCCTTCCATTATAATTAAT
R
TATTTCATGACTTCTCAGTACAGTTGGGAAGGTGGAAGAAAAATAGACAGGTTGACATTCCCTTTTCACATTCCTCATTTGAAACTGGCTGGGATCGTGC
Celera SNP ID:            hCV11533363
SNP Position Genomic:     65019
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38175):
GCAGTGAGCCAAGATCATGCCATTGCACTCCAGCCTGGGCAACTAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAATTCTTTGTAGCTATCTTATTT
R
AGAATAGAATGGGAGGCAGCTCTGTCTGATGCAGTTCCCAGCTTGACTTTTCCCTTTGGCTTAGCGATTTTGGGGTTCTGAGATTTATTTTTCTTTCATC
Celera SNP ID:            hCV11533364
SNP Position Genomic:     66370
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38176):
CTGGAAGAGATCGCTTTCGACTCCTCCCTGGTGTTCATCCCAGCTGAGTTCCGAGCCGCCCCATTGCAAGGCATGCTGCCTGGCTTGCTGGCACCTCTCA
S
GACCCTCTCTGGAACCCCTGAAGGTATGGTGGTGATGGCTTCAGACACACAATGGGGTGGTCTCCAGGCAGGGCCTTTAAGAACAAAACAAAATGAAGTG
Celera SNP ID:            hCV25602835
SNP Position Genomic:     39444
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,36)   total(C,1|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38177):
AGATGAAATCAGCCAGCCTGCCCAGGAGCTGAAGAGAAGCAGCATAATGGCCTTTGCCATTGGGAACAAGGGTGCCGATCAGGCTGAGCTGGAAGAGATC
K
CTTTCGACTCCTCCCTGGTGTTCATCCCAGCTGAGTTCCGAGCCGCCCCATTGCAAGGCATGCTGCCTGGCTTGCTGGCACCTCTCAGGACCCTCTCTGG
Celera SNP ID:            hCV25602836
SNP Position Genomic:     39356
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,38)   total(G,71|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38178):
TGCTGATCACAGGTGGTAAGTCCCTAGATGAAATCAGCCAGCCTGCCCAGGAGCTGAAGAGAAGCAGCATAATGGCCTTTGCCATTGGGAACAAGGGTGC
Y
GATCAGGCTGAGCTGGAAGAGATCGCTTTCGACTCCTCCCTGGTGTTCATCCCAGCTGAGTTCCGAGCCGCCCCATTGCAAGGCATGCTGCCTGGCTTGC
Celera SNP ID:            hCV25602837
SNP Position Genomic:     39331
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|T,1)   total(C,71|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38179):
CCAAAGGCTTGTAGAGGTGGGAGTGTACTGAAGTCCGGTGCATCCTGCAAAGTGTGCAACTGTCCTGCAGACGGGCTCTTCCTCTGTGAATCGACCCCTT
K
CCCTGCAATGTCTTGTGCAGCATTTCAGAGCTAGACATTCTTCTCTGCAGATGAGAATCTCATGCTAATTTTCCCCACACCAGGGTGTCCCAGGGAGAGA
Celera SNP ID:            hCV25602765
SNP Position Genomic:     62885
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:38180):
GGATATGCCTTTGTCTCCCATGAGCAGAGGGATGACTTTCAGTTCTGTCTGTCCTTTGTCCACAAGGAATTTCCCTGTGGGCAGAATGTGAGGGAGGTAT
K
CAGCTTAAAAAAAAAAAAATCTGGCCAGGACGGTGGCTGATGCCTGTAATCCCAGCACTCTGGGAGGCTGAGACAGGCGGATCACCTGAGGTTGGGAGTT
Celera SNP ID:            hCV26050610
SNP Position Genomic:     66021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38181):
TGTTGCTTGTATACATTTTAAGCTCACTTGCCTATTCACGATCTGGATTGAGGCAGCTGCTACTGCAGCTAAGACAGGATAATTGTGGGTTTTGGTGGCC
R
TTTTTGGCCAGCAGAAGTGAGGTTCCAGGCCCTGTGGGATGGGCAGATGCCATGCAGAGGCTTCTCATGGAAAGTCACCTCATTAGCACTCACGATGGTC
Celera SNP ID:            hCV11533369
SNP Position Genomic:     67661
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,4|G,34)   total(A,5|G,71)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38182):
GCCCCATGGTAAGGTGCTGCACATTCCTAGACTCTCCCTGTACTGAGGGCAAGAGAAAGGACACACTTCTCGGCTCATCAGCAGCCACAGAGGCCAAAGA
Y
GTGGCCTTTAACACTGCAACGTAGCCTAAGATTAGCAGCAGAGTCCCCGTGAAGGAAGTCTCCGTGGGGAACCAGAGTGACCCTTGCCAAGTGGGGCTTC
Celera SNP ID:            hCV25602766
SNP Position Genomic:     62636
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38183):
TGTATGCCTTTTGATGAAAAATGAAGACTCCAGAGCCTCTCCTTTGATTACTGGGCCCATTGGCCGTTGGCTTGGGATGGTAACTCCGACATCTGGGTTC
Y
GTTTCCTCCCATTAACCCACTTGTGACTTGCAGCAACTCAATTGAAACCTCCCATCGATAAAATGCTAGTGGTTGTGCAGGTGCTGCCATCTCATGTCTC
Celera SNP ID:            hCV26050611
SNP Position Genomic:     44278
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38184):
CAGAACCTCACGGTCACGGACCGCGTCATTGGAGGCCTGCTCGCTGGGCAGACATACCATGTGGCTGTGGTCTGCTACCTGAGGTCTCAGGTCAGAGCCA
Y
CTACCACGGAAGTTTCAGTACAAGTAAGTACATGATCAGTACAAGTCGGTACCTGATTTCTATGTAGAGTATCAAATAGGACACAAAGGAGACACTTACT
Celera SNP ID:            hCV277090
SNP Position Genomic:     85674
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,14)   caucasian(C,23|T,11)   total(C,47|T,25)
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38185):
CTACCCTCCCAGATCTCATTCCCTTCAGGGAAACTGCAGGTTCCAGGCCAGGCCTCATGCAGGGGCCCAAGAGGCTCCCTGGCTCACGTAGCCTCGATCG
R
CGTTCCCCATGGTGAAATCTGCTTTCTGCTGCATGCTGTTCACAGTACCCTTTACGCTGCTGCAAGCCCGGCAGAGAAAGGGTGATGAAGGGCTCCAGCT
Celera SNP ID:            hCV25602767
SNP Position Genomic:     60072
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:38186):
ATTGTACCTAAAACAGCCTTCATCTTCATATTCACCCAATGCCTTTATATTGTTATAATTCCTTCATTACATTCATTAAAAATTAAAGGAGTAGAAGAGG
Y
AGATAACTTTCCACCATAAACTCTGCATTAAAATCCCCCAACTGCTAATTGACACTGCCATGACTTTTCATTTAACCCCTTTAATTTAGTGATAAAAATG
Celera SNP ID:            hCV26050612
SNP Position Genomic:     44055
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38187):
TCATTTACTAGGCAGCTTTGTGTGTGTGGCTTGACGGAGCATCATGTTCTTGAGCTTCATCCACATTGCAGCATGTAGAAGCACTTCATTCCTTTACATG
R
TGGAAGGATACTCTGTTGTGTGGCTACAGCACACTTTGTTTATCCACTCATTGGTTGATGGAGATTTAGGTTGTTGCCATCTTCTGGCAATTGTGAATGA
Celera SNP ID:            hCV16049823
SNP Position Genomic:     67418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38188):
GTCTTTGTGTTCTCATGTTTACTTAAGTTTAACAAGACCTATTGTGCATCATGGCCTTGAGCCCTGAGGTTCAGGGAGGGGATATATCCCCAATGCTAAA
W
GACGAGTTGATGGGTCCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCATGTTGTGCACATGTACCCTAAAACTTAAAGTATAATAAT
Celera SNP ID:            hCV519551
SNP Position Genomic:     10972
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,9)   total(A,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38189):
GATCTCAGGAAGTTGAAGCTGCAGTAAGCTCTGATCATGCCACTGCATTCCAACCTGGACAACAGAGCTATACTCTGTCTCAAAAAAAAAAAAAAAAAAA
A
GGGAAAAAAGAAAGAAATGTGAAATCCAAGTTGTTAAATAAACAGTAAAAAAACAAAATTTGCTATATTTCTTTGGAGGTTTCTTGGAGCTCTTCCAAAA
Celera SNP ID:            hCV26050615
SNP Position Genomic:     13470
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38190):
TTGATCTGGGCTTGTACACCTGGATGATGTATTTTAAGAGGTGTTGGTTAGGGATTCCAGCCTCCCACTCCCCATCCTGTGCCCTCAATCCTGTCTTGCG
R
TAGGGATGGGAAGCTCTCATTCTCTCTGGAATGTCAGTGGGGGCACAGTTCACCTCACCTGAAAATTGAGTTGTCTTAAACTAAAGGGAAAAGTTTCCGT
Celera SNP ID:            hCV27907632
SNP Position Genomic:     84391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38191):
AGACTGGACAATGACGATGTCACTTACTCTCTCGGAACTTCTTTTCTTTTCTTCTTTTCTTTTCTTTTCTTTTTTTCTTTTTTCTCTTCTCTTCTCTTCT
Y
TTCTTTTCATTTCTTTTCTTTCTTTCCTTTTTCTCTTTTTTGGAGTCTCACTCTGTTGCCCAGGCTAGAGTGCAGTGGCGCCATCTCGGCTCACTGCAAC
Celera SNP ID:            hCV26050619
SNP Position Genomic:     5063
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:38192):
TGCAAGGTGCACACCAAACCTGGGTGAGGGCTACTTACACACTGAATGTTTCCCTTTTTCTTCTTTGATCTGCAGCAGTTGAGAGTGATGCTGCAGACAT
Y
GTCTTTCTGATCGACAGCTCTGAGGGAGTTAGGCCAGATGGCTTTGCACATATTCGAGATTTTGTTAGCAGGATTGTTCGAAGACTCAACATCGGCCCCA
Celera SNP ID:            hCV1471208
SNP Position Genomic:     51230
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,18)   caucasian(C,10|T,30)   total(C,30|T,48)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:38193):
ACATCACAGGTAATGGCAACGCCACCAAGCTACGCCCTGCCCTGCTGTTCTTGGGAGATGAGCTTGGCAACTGCTGGCCTTAAAGCAACAGCTAGGATGG
Y
GGGTGGGCCAGGGAAGAGATGAGTGTTCACAGGTTTAAAAACAAAGGTTTGATTTGGAATATTCTTCCATAGTCTTCTCCCCAAGTAGGGCATTCACCTA
Celera SNP ID:            hCV27476449
SNP Position Genomic:     25887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38194):
AACCTTTGGCCTCAGCTGTTTCTCTTCTTGTACAACAAAGATATAGATCCCAGTGGCCTTGGTCTCTTCTGGTAGCAACAGTTCATGATTCTGTAGATTA
Y
GGTAGCCCAAGATTGATTTCTAAATGCTCCTTACATTTTAGAAATCAGTAGTAACCCAGACCACAATGCCAAAATTTAAATAGAGTAAATTCAGAAAGAC
Celera SNP ID:            hCV1471209
SNP Position Genomic:     50883
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38195):
GCCCACAGGTGAGGGGACATGTGGCAAATGTCCAAACCTGGGGTCTGAATGATATTTTTGATACGAGGTAGGCACCTTTCTGAAAAATTGTCTTTACTTC
M
CACTTCATTTTATTTCTAAAGCATTCAGGACTCAGCAAATTGCACTGACTTTATCATCAGTGCCTTTTGTGATTTCCTATCCTAGAACTTAATACGTCCC
Celera SNP ID:            hCV22471
SNP Position Genomic:     8650
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,8|A,9)      total(A,9|C,8) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38196):
ACACCACACCACTGTGCAAAGCTTTCTTCAGTGAGGCCCCAAGGGTCAGCCCATGGAGAGGCCAAGTGTCGCTTGTAATTCTATTAAATAACTGGTTTAA
W
TGTGGGGTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTCACTGCAACCTCCA
Celera SNP ID:            hCV26050690
SNP Position Genomic:     76777
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38197):
CTCTTCTCTCGGCTCCTCACCTCACCCCACCCACCCCCTCTCTCGACGCTCAGTGCTCGCCAAACCCGGAGTCATCAGTGTGATGGGAACCTAAGCGTGG
S
TGGCCAACATCATATACCTCTTGAAGAAGAAGGAGTCAGCCATCGCCAACTTGTCTCTGTAGAAGCTCCGGGTGTAGATTCCCTTGCACTGTATCATTTC
Celera SNP ID:            hCV22273474
SNP Position Genomic:     95567
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,25)   caucasian(C,2|G,38)   total(C,9|G,63)
SNP Type:                 UTR 3;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:38198):
ATCCAGGGTGGCCCTGGAGGCCTGTAGTCTCTCAGTGAGGTCCCCAAAACTATGCCGACTCAGCACCCCCAATCTACACCACACCACTGTGCAAAGCTTT
Y
TTCAGTGAGGCCCCAAGGGTCAGCCCATGGAGAGGCCAAGTGTCGCTTGTAATTCTATTAAATAACTGGTTTAAATGTGGGGTTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV26050691
SNP Position Genomic:     76702
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38199):
CTGTCCCAATCGGCCCTGAAGGTGAATATCCAGGGTGGCCCTGGAGGCCTGTAGTCTCTCAGTGAGGTCCCCAAAACTATGCCGACTCAGCACCCCCAAT
Y
TACACCACACCACTGTGCAAAGCTTTCTTCAGTGAGGCCCCAAGGGTCAGCCCATGGAGAGGCCAAGTGTCGCTTGTAATTCTATTAAATAACTGGTTTA
Celera SNP ID:            hCV26050692
SNP Position Genomic:     76675
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38200):
CATTCAACAGGGCTGTGATAGGAAGACTGGGGAAGGGAATTTTAGATCAGGTGGATGGAAGGCCCTGAGAAGGTGTGGAACCGAAGGCAGATGAGCATGC
R
GAGAGCAGGGGGAAGAGTGGTCCAGGCAGAAGGAAGAGCAGGAGGGGTGGCCCTGCAACAAGAAGGCACTTAGTCCCTTCCCAGAACTGTCAGAAGGCAG
Celera SNP ID:            hCV8738891
SNP Position Genomic:     35353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38201):
TCTTAGACATCAGGCACTGACATAGAGCTTAGATATGTTCTTAAGGTAGCTAAGCCATTTATTATAGGATAGTCAGATAGGATAGTTCTAGGATTTATAG
R
CCTTTTCAGATACTCTTTATCCAGTGAGAGATGACCTATTTTTATTAAAACTTGGGTTTGGTATCTTGGAATTGGCTTGAAAATGATTTGTTTTTACATT
Celera SNP ID:            hCV8738892
SNP Position Genomic:     23814
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,8)   caucasian(A,22|G,18)   total(A,52|G,26)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;(G,-|A,-)   no_pop(G,-|A,-)   JBIG-allele(G,266|A,1211)   total(G,266|A,1211)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38202):
CTCAATCACTCTCTGTGGCTCTCCCTGTACCTTTGCTAAGTGGTCCATCTGGACACTAGTCTGCTGCTCCATTCATGGCAAAGTTACATCACTCATCAGC
Y
GGACAGACTCTCCTCTGCTATCAATCTTCAGGTGGCAAGGCTGAGAACATTAGATCATCCTCATCCCTGATTTCATTAGCTGTATGGGGAAAATGGAATT
Celera SNP ID:            hCV8738893
SNP Position Genomic:     17377
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38203):
CGTGACATGGTGTACTGAGGGGAAAAGCAGTAACAGGGAAAGCCATGCTGAGTTTTAGTGCTGCTCTGCCAAATGAAGGGGGACCACAGGGATTCTTACT
S
TAGAGCAAAGAAGACCACGGGATTAAACAGAGGACCCGATTACTTTGTTTCAGGGTATTCCTGGAGAAGACGGCTACCGAGGCTATCCTGGTGATGAGGG
Celera SNP ID:            hCV22275438
SNP Position Genomic:     59132
SNP Source:               Applera
Population(Allele,Count): african american(C,13|G,21)   caucasian(C,2|G,34)   total(C,15|G,55)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,151|G,1352)   total(G,1352|C,151)   (G,-|C,-)   no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38204):
CACAGGTAATGGCAACGCCACCAAGCTACGCCCTGCCCTGCTGTTCTTGGGAGATGAGCTTGGCAACTGCTGGCCTTAAAGCAACAGCTAGGATGGCGGG
Y
GGGCCAGGGAAGAGATGAGTGTTCACAGGTTTAAAAACAAAGGTTTGATTTGGAATATTCTTCCATAGTCTTCTCCCCAAGTAGGGCATTCACCTACATA
Celera SNP ID:            hCV27511273
SNP Position Genomic:     25891
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38205):
AAAAGGGAAGTCATAACCGCTGTGCGGAAAATGAAGCCCCTGGACGGCTCGGCCCTGTACACGGGCTCTGCTCTAGACTTTGTTCGTAACAACCTATTCA
Y
GAGTTCAGCCGGCTACCGGGCTGCCGAGGGGATTCCTAAGCTTTTGGTGCTGATCACAGGTGGTAAGTCCCTAGATGAAATCAGCCAGCCTGCCCAGGAG
Celera SNP ID:            hCV25602841
SNP Position Genomic:     39183
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,36)   total(C,72|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,2)   caucasian(C,36)   total(C,46|T,2)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38206):
TCACGTTGGCCACAGTAAATGAGGGTGTCCTTTAAATGGAGTTAGCTTTGTTGAAAGTCATTGTTGATTGTGCTTGGTAAGGCCATTCTAATTGCCTTAT
R
ATGTTGCCACCTACAGTCATTGAAGTCAACAAGAGAGACATAGTCTTCCTGGTGGATGGCTCATCTGCACTGGGACTGGCCAACTTCAATGCCATCCGAG
Celera SNP ID:            hCV25602842
SNP Position Genomic:     38866
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38207):
ATTCGGCCTTGGAGCCCAGGCCGCCTCCAGGGCAGAGCTTCAGCACATAGCTACCGATGACAACTTGGTGTTTACTGTCCCGGAATTCCGTAGCTTTGGG
R
ACCTCCAGGAGAAATTACTGCCGTACATTGTTGGCGTGGCCCAAAGGCACATTGTCTTGAAACCGCCAACCATTGTCACACAAGGTATGTATCCTCTTCT
Celera SNP ID:            hCV25602843
SNP Position Genomic:     32716
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:38208):
TTCTTTTTCTGAAGCCTCTAACAAATGATCTAGTTCAGAAGGAAGCAAAATCCCTTAATCTATGTGCACCGTTGGGACCAATGCCTTAATTAAAGAATTT
W
AAAAAGTTGTAATAGAGAATATTTTTGGCATTCCTCTAATGTTGTGTGTTTTTTTTTTGTGTGTGCTGGAGGGAGGGGATTTAATTTTAATTTTAAAATG
Celera SNP ID:            hCV11936094
SNP Position Genomic:     96166
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:38209):
TTGGCTTGTGCCAATAGTGCAGCACCCTCTGAGCCATCAGAGCAGCCGGGCAGTGCTTGGTACAGTTTCAGTATAATATGGAACGAGCAGTCTTTAAACA
Y
GGGCAGTGCACGCACAGTGGCTCAGCTAATCACATTTAGATCATCCAAGAGCCCCGACCCTGACTGTCCTGGATAACAGCAAGTCTGCTGTATGAAGGCT
Celera SNP ID:            hCV11533374
SNP Position Genomic:     69616
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   JBIC-allele(C,101|T,1400)   total(C,101|T,1400)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38210):
TGCAATCATCACCTCTATCTAGGTTCAAAACACAGTCTCGAAGGAGACCTGTACCCATTAGCAGTCACTCCCCATCACCCTCCACCCCGAGTCCCTGGCA
R
CCACTAATCTCTCTCTCTTTATGGATTTGCCCACTATGGATATTTTGTATAAATGGAATCATTTACTAGGCAGCTTTGTGTGTGTGGCTTGACGGAGCAT
Celera SNP ID:            hCV28966967
SNP Position Genomic:     67259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38211):
TTCTCGACTTCCTTGTAAATCTCCTTGAGAAACTCCCAATTGGAACTCAGCAGATCCGAGTGGGGGTGGTCCAGTTTAGCGATGAGCCCAGAACCATGTT
Y
TCCTTGGACACCTACTCCACCAAGGCCCAGGTTCTGGGTGCAGTGAAAGCCCTCGGGTTTGCTGGTGGGGAGTTGGCCAATATCGGCCTCGCCCTTGATT
Celera SNP ID:            hCV25602844
SNP Position Genomic:     32370
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:38212):
TGTGCAATCATCACCTCTATCTAGGTTCAAAACACAGTCTCGAAGGAGACCTGTACCCATTAGCAGTCACTCCCCATCACCCTCCACCCCGAGTCCCTGG
M
AGCCACTAATCTCTCTCTCTTTATGGATTTGCCCACTATGGATATTTTGTATAAATGGAATCATTTACTAGGCAGCTTTGTGTGTGTGGCTTGACGGAGC
Celera SNP ID:            hCV28966968
SNP Position Genomic:     67257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38213):
CATCTGCCTTGTAGCTGGGAGAAGACCAGTGGTGTAGAAGTTTGTAACCTCTCAGAGGAAATTCAGGATGCTGGTGGGTGCCTAGGGGAGGTCTCTGCTC
R
GAAATGAACAGAGCACAAAGGCTGCAAGCTGGGGCTGGGTGCTGGGAACTGGGCCCTCAGCCACGCCCTGAGGGGCAGTGGCTCGTTCGGCCCGGCACTT
Celera SNP ID:            hCV28966969
SNP Position Genomic:     63735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38214):
TCTTCTCTTTGCTTCTTTTCTAGCTTGCTGTTACGGTAAGTTGATTTTGGTGACTTTCTCCTAAGGAAAGGAAGCCTCCCTTTTGTAGTAAGTACAGTTT
R
TCTTTAACCCTCCACCCTCTACTTTCCACAGGGCCCCTGGAGTGCCCCGTCTTCCCAACAGAACTAGCCTTTGCTTTAGACACCTCTGAGGGAGTCAACC
Celera SNP ID:            hCV22274856
SNP Position Genomic:     75485
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,26)   caucasian(A,2|G,38)   total(A,8|G,64)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,2|G,36)   total(A,8|G,68)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,2|G,38)   total(A,8|G,70)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38215):
CTTCTCTTTTTTGCTTTGCAAGGGATAAGATCAGGTTTAGAGGGAGAGGCTGTAAACAATCAAGGTTATCCAGGGGCCCCTTTGTCTTGCTCTGTGTATT
Y
CTGGGGGCCAAAGCCTGTTTATTCGAATTCCCCATCTGCTGTGCCTCTCACCTTTCGTTCCTTGGTTTTACAGGGTCCCAAGGGCAACAGGGGCGACTCC
Celera SNP ID:            hCV11533378
SNP Position Genomic:     75073
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,2|T,38)   total(C,6|T,72)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(T,-|C,-)   JBIC-allele(C,100|T,1399)   total(C,100|T,1399)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38216):
CTGCTGCATGCTGTTCACAGTACCCTTTACGCTGCTGCAAGCCCGGCAGAGAAAGGGTGATGAAGGGCTCCAGCTTGCAAAATGCCTTTGTCTCTCACAA
Y
AGGGTGAGCGTGGTCCGCCTGGTGTGAACGGCACTCAAGGTTTCCAGGGCTGCCCGGGCCAGAGAGGAGTAAAGGTGAGGCGTGGGTGATGGGGTTGCTA
Celera SNP ID:            hCV25602775
SNP Position Genomic:     60198
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38217):
ATGACATAGTAGGAAACTTAGTGTCCTGTGTGCATTCATCCGTGAGTCCAGAAAGGGCTGGGGACACGGAAACCCTTAAAGACATCACAGGTAATGGCAA
Y
GCCACCAAGCTACGCCCTGCCCTGCTGTTCTTGGGAGATGAGCTTGGCAACTGCTGGCCTTAAAGCAACAGCTAGGATGGCGGGTGGGCCAGGGAAGAGA
Celera SNP ID:            hCV25602848
SNP Position Genomic:     25806
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38218):
TTTAGATGGGAAGCCTGTGTATCGTGGAGAAACAAGAGACCAACTTTTTCATTCCCTGCCCCCAATTTCCCAGACTAGATTTCAAGCTAATTTTCTTTTT
Y
TGAAGCCTCTAACAAATGATCTAGTTCAGAAGGAAGCAAAATCCCTTAATCTATGTGCACCGTTGGGACCAATGCCTTAATTAAAGAATTTAAAAAAGTT
Celera SNP ID:            hCV8738462
SNP Position Genomic:     96074
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:38219):
CGCTGCTGCAAGCCCGGCAGAGAAAGGGTGATGAAGGGCTCCAGCTTGCAAAATGCCTTTGTCTCTCACAACAGGGTGAGCGTGGTCCGCCTGGTGTGAA
Y
GGCACTCAAGGTTTCCAGGGCTGCCCGGGCCAGAGAGGAGTAAAGGTGAGGCGTGGGTGATGGGGTTGCTAGCGTGGGGAGGGGTCAGGTGACTCGCAGT
Celera SNP ID:            hCV25602776
SNP Position Genomic:     60227
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38220):
GGGCACCAGCAGCTATTGAGTGCATGGGCTCAGGTCCCTGGTTCCCAGGTAAGTGAGTCTACCTTCCTGTATTATCAGTGAGGTGTGAAGTGTTTAGTAG
M
AGTATAGTGTAAACCAAATTTGTTTAGGAAGGCTTTGCATTGATAGGAAGTAATTGCTTACATAGTAGAAAAATCTAAACCAATGTCTTTTTTTAAAGAT
Celera SNP ID:            hCV25602849
SNP Position Genomic:     25079
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,31)   caucasian(C,40)   total(A,5|C,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:38221):
GTGAACGGCACTCAAGGTTTCCAGGGCTGCCCGGGCCAGAGAGGAGTAAAGGTGAGGCGTGGGTGATGGGGTTGCTAGCGTGGGGAGGGGTCAGGTGACT
Y
GCAGTTTCTCCAGATGCTGCCAGGGAGGGAGGCGCTGGTCCAGGCTTCTTGACCTCAGCATTCAGCAGCCCGTGACCTCTCATTGGAAGGCAGTTCTGAG
Celera SNP ID:            hCV25602777
SNP Position Genomic:     60322
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,35|T,1)   total(C,68|T,4)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38222):
TTTTACATGATTTTTAAATGTTCAACATCTGCTGTATCTAGAAAATTATTTGTTATAAAACAAACAAAGGGTGCATCTTCATGCAATGGTAAAATGGTTT
M
TAGGGGAAGGCTAACTTATTATTATTATTGCAAATTATTATGGTGGTAAGATATGGTTGTATCAGATCTACCAGTCTGCTAACATCACACAGATGAATGG
Celera SNP ID:            hCV16150381
SNP Position Genomic:     42235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38223):
GCCAAACCTTCTCCCAAAGGCAAATTGTTAGTCTTGTAGGGGTCTGGCTGCATTCAGCATAGTATGATCCTACTGTTCTCCTGAAGTTTAAACTCATGAA
W
TACAGAGAAACATTTGAGAATTGCAAGTGGCCAGGGAAAAGTACAATGGGAAATGTTTCTGTAAAACCCCCTGTGTGTGCTATACATTAGGTTTTCAGGA
Celera SNP ID:            hCV8738469
SNP Position Genomic:     11628
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,8)      total(A,8|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38224):
TCAGATGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCAAAACGCAGGTCTCTTAAGTGAAAAATGTTTG
Y
GGCACTTGCTGGCTTTGATGCTGATTTCCTTTTTATACGTTTTATGTTAAGTAATTCTTTCGTCTGTCAAATGAAGACAGGGAATATAGAACTGAAGAGA
Celera SNP ID:            hCV28009202
SNP Position Genomic:     38314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38225):
CTCTGATGTCCTGTGTGAGTTACCAGGCTGTCCTCCTCCCAGTTTCAGGTGAAAAGGACGTGGTGTTTCTGCTTGATGGCTCTGAGGGCGTCAGGAGCGG
Y
TTCCCTCTGTTGAAAGAGTTTGTCCAGAGAGTGGTGGAAAGCCTGGATGTGGGCCAGGACCGGGTCCGCGTGGCCGTGGTGCAGTACAGCGACCGGACCA
Celera SNP ID:            hCV1470345
SNP Position Genomic:     45420
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,5)   caucasian(C,22|T,10)   total(C,47|T,15)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,24|T,12)   total(C,53|T,17)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,10)   total(C,10|T,4) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38226):
GTCCATGGCTCTCCTCCTGTAGGTGTATTCCTCTTCCTCCAACTCACCTCCAGGGTCGCCAGCCCAGCTCACTCCAGGCACAGCACCCACCTGCAGTCTC
R
AATCTCATTATGGGTGACTGGGAAGTCTGTGCAGTCACTTTGGGCCATGCCCACCCAGACGGCCAGGCAATGGGAGTGAATGAGGCATGGCAACTGCTTC
Celera SNP ID:            hCV222986
SNP Position Genomic:     72832
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(G,-|A,-)   JBIG-allele(A,103|G,1386)   total(G,1386|A,103) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38227):
CAGGAAGTGTGCCTACTCCTGTACCTTAGTCTGCAAACATTTCAGGAGCTCAAGGATCCACTTCTCAGGGGCAGCGGCAGGGCAGAGACGGTGGTTATGG
Y
GTGCCAGGCATGGCGACCTACAGTCACATCTCTTTCCCACTCTTAGGGAGATGACGGGAGAGACGGAGTTGGCAGTGAAGGACGCAGAGGCAAAAAAGTA
Celera SNP ID:            hCV222987
SNP Position Genomic:     71650
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,27)   caucasian(C,3|T,35)   total(C,14|T,62)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   JBIC-allele(C,93|T,1390)   total(C,93|T,1390) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38228):
CTCAATGAAAATTGGTGAATGGATACCGAGGCTCCTATAAGACTCTGATTATCATCTGCAACCAATCATCTAAATTTTCTTGGGTGAAATAACACATTGT
Y
ACAACTCTTATTTGCTAACTTTATAAATAAAGTCTGGGTCTACAAGATAAATATTGTAATAAGATACTGCTTTACCCATTGTATCAATTACAATTGATCA
Celera SNP ID:            hCV27943860
SNP Position Genomic:     33881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38229):
TGTCAATTCTAAGATTCTTGGGGTTGACGAGTCTTTGATTCTACATCCAAACAGAATCTTTACCAAAAGCAACCAGCAGTTCTTTCTATGTTAGTCCGCC
R
GTGCCATTTTGCTACGGGAGTCCTTTGAGCCCACCGCCTACAGAAATGGTCTTGTTCACACTTGGAAGATAGGACAGGAGCAGGAAGTGTGCCTACTCCT
Celera SNP ID:            hCV222988
SNP Position Genomic:     71469
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38230):
CAAGCCTGGCTCACAGCTGCAGAAGGGCACCTCCTGGGGCCACTGACAGCCTGATACCCTGAGCTCCCACCCTTGAGGGAGAACTGGGTTCATCTGGAAA
Y
GAGATAGATAATGTTTGACATCTATGGAGACTTTTCTGGCTCTGAAAAATATGCAGTAACTAATAGAGTACAGTTTGTTCATGCTCAAAAAATCTGGAAA
Celera SNP ID:            hCV27943861
SNP Position Genomic:     24506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38231):
GGGTCAACAGATCTCTAGTTGTTGATATCTGTTGAAAACTGTAAATTAACTAAGTGGCAATTCCTACATATGTTAGAGATAGTAATGTACAATTCACACA
M
GTTCTTCTGATTCTTCTGATTCATAATTAATGACGTCCAGTTCTGAATGCTCCTCATGAGAGAGCAACAGGAACAGATCTGAGCATGCTGGGGGGAGGTG
Celera SNP ID:            hCV222989
SNP Position Genomic:     71107
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38232):
CTGGGCAGAGGGGAGACCGCGGGCCCATCGGCAGCATCGGGCCAAAGGTACGGTGGCTTTACCCTTGCCCACGCCTGAGATGAGGTGTCAGAAGCCCGAC
R
TTACTTTGGTGGGGTAATTTCTCTAACAGAAGAGTGTGGAGATGAAGGAGGAGACGAGAGACCATTTCTTATGTTAGAAGGAGGAGCTCTGAGGGGCAGA
Celera SNP ID:            hCV28966970
SNP Position Genomic:     58675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38233):
ACTTTGGAACTGGAACATATGTAAGTTATAGTTAAGATCTGATGATGGAAACTTCTAGAAATAAGGTCCAGCCTGCAGTGATATTGTGGATAAGATCTAT
Y
TTACTTTGGTTGTTCTTTACTTTCCTATTGGTGACCTCCCATCTGCACCCCGACCGCCAGGAGCTGGGCCCTCCTGACTTCGCTGGCAATTTCTATCATA
Celera SNP ID:            hCV28966971
SNP Position Genomic:     58277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38234):
TGCTCAAGCTCTCAGATGCGGGGATCACCCCCTTGTTCCTTACAAGGCAGGAAGACCGGCAGCTCATCAACGCTTTGCAGGTCTGTGCTCTGTGCGTGCT
S
TTGGCATCTCCCTTTCTTCTGGGGCTCTGAGAAGGTTCTCAGACACGTCCATGCTCCTTTGTGGCTTCATGTCCCATAGCTCCTAAAACGTCCCCAATGA
Celera SNP ID:            hCV11533380
SNP Position Genomic:     76031
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,38)   total(C,1|G,75)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,15)   total(G,15|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38235):
CTTTGATTTTAGATCTTAGACATCAGGCACTGACATAGAGCTTAGATATGTTCTTAAGGTAGCTAAGCCATTTATTATAGGATAGTCAGATAGGATAGTT
Y
TAGGATTTATAGGCCTTTTCAGATACTCTTTATCCAGTGAGAGATGACCTATTTTTATTAAAACTTGGGTTTGGTATCTTGGAATTGGCTTGAAAATGAT
Celera SNP ID:            hCV25602850
SNP Position Genomic:     23801
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,3)   total(C,73|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:38236):
TAAAATCCTCCGTTTTCATGCTTCAGAAGTAGAGAAGTACAGGTTTTTGTCTTTGAATAGTGCCGGGTTCTCACCTCACTAATATATTTCTCTTGGTTTT
Y
CAAATATCTTCTTGTCCACAGTAACAGTGTCCTTATTTTCCACTAGTAAATCTTACAGGGTCTCAGTAGTGACTCTCACTGAAATAAGGGCAGAAAACAC
Celera SNP ID:            hCV27943865
SNP Position Genomic:     92714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38237):
GAGCTGCGAACTCAGAGATTCTTTGATGGTAGCAACAGTGGACTGTGGCTATGAGAATGGGAGGAATGGACCTTCCTTTCTTCCATACTTCTTTGCAGGG
Y
TAGAATCAGGATTTTTTTCCTAGTGGAAGTAGGTTGAGTTAGCTCACAAATCTGGGATATGGGAGAAAGGGAAAGCTCTTGGAAGCTCGTTGGAAGAAAG
Celera SNP ID:            hCV28966973
SNP Position Genomic:     57774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38238):
CCTGAGGTCTCAGGTCAGAGCCACCTACCACGGAAGTTTCAGTACAAGTAAGTACATGATCAGTACAAGTCGGTACCTGATTTCTATGTAGAGTATCAAA
Y
AGGACACAAAGGAGACACTTACTTATTGAATCTATTCTGAAATAACCACAAATTCAAAAAACAACAACAGCAACAACAACAAAACAACTCAGCCTGGGTG
Celera SNP ID:            hCV25602851
SNP Position Genomic:     85751
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:38239):
GAAGATGTGGGGCTGAGCTGCGAACTCAGAGATTCTTTGATGGTAGCAACAGTGGACTGTGGCTATGAGAATGGGAGGAATGGACCTTCCTTTCTTCCAT
R
CTTCTTTGCAGGGTTAGAATCAGGATTTTTTTCCTAGTGGAAGTAGGTTGAGTTAGCTCACAAATCTGGGATATGGGAGAAAGGGAAAGCTCTTGGAAGC
Celera SNP ID:            hCV28966974
SNP Position Genomic:     57760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38240):
AGAGGCCTGAGCCCCCCGGTCCTTATTTTTATGACCTCACCGTCACCTCAGCCCATGATCAGTCCCTGGTTCTGAAGCAGAACCTCACGGTCACGGACCG
Y
GTCATTGGAGGCCTGCTCGCTGGGCAGACATACCATGTGGCTGTGGTCTGCTACCTGAGGTCTCAGGTCAGAGCCACCTACCACGGAAGTTTCAGTACAA
Celera SNP ID:            hCV25602852
SNP Position Genomic:     85597
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,5)   caucasian(C,36|T,2)   total(C,63|T,7)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:38241):
TCAGCTGGTAATCTTGAGTCCTATTTCTCCAAGAAAATGCAAGTAAACCCAAAGAGAGCTGTCCCCGGCCACGTCATCCCGTGGTTCCTTGGGTGGCCTG
Y
CTCCGCTTCCTCAGCTCCCTTTCCTCTCACCTGCTCAGTGGCACCATCTGCAGTTCCCTTTCTTGCTCTTGTGTCACCCTTTCTCCACTGTGCTGGATGG
Celera SNP ID:            hCV28966975
SNP Position Genomic:     47406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38242):
GCTCCAGAACAGCCTCCCTCTTTCCCCCTTCTCCCCATTCGGAGGCTTCTCTCACACCTCTCCTGACCCACCTGACTCTCAGCTGGTAATCTTGAGTCCT
R
TTTCTCCAAGAAAATGCAAGTAAACCCAAAGAGAGCTGTCCCCGGCCACGTCATCCCGTGGTTCCTTGGGTGGCCTGTCTCCGCTTCCTCAGCTCCCTTT
Celera SNP ID:            hCV28966976
SNP Position Genomic:     47328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38243):
ACTGGGAGAGGCCTGAGCCCCCCGGTCCTTATTTTTATGACCTCACCGTCACCTCAGCCCATGATCAGTCCCTGGTTCTGAAGCAGAACCTCACGGTCAC
R
GACCGCGTCATTGGAGGCCTGCTCGCTGGGCAGACATACCATGTGGCTGTGGTCTGCTACCTGAGGTCTCAGGTCAGAGCCACCTACCACGGAAGTTTCA
Celera SNP ID:            hCV25602853
SNP Position Genomic:     85591
SNP Source:               Applera
Population(Allele,Count): african american(G,16)   caucasian(A,1|G,37)   total(A,1|G,53)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38244):
CTGTTTCTCTAACAGGAAGATCTGCTCAGCTGCAATTGCAAAACATAATATCCATGGGAGAGTGAGAGAATAATGATGATCTGTAAAAAGAGCTTGAGTT
Y
AATTGATTCACAAAGCCTCGTATTTACCAGAGTAAATACTACTGCAGCAGTTTCTATATTAAAAATGGACCTCCCAAAACAGAGCTTCTCTTTGATGGCG
Celera SNP ID:            hCV11533384
SNP Position Genomic:     78364
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38245):
GAGCCAACTTGGTTTTGTAAACTCGGCTACCAATATGTCTCACAAACACCAGCCACCACCAGAGGAAAATATGCAGCCATCTGCCATATTTTACAAGATG
R
ACATGCTTTGCCATGCTGACTTTCTCTGTGTTCTAAATGTTGGCATGTGTGCACGTGTTGTAGGCACACATGATAAAACTCTCCGTGGTTGTGTATGTCT
Celera SNP ID:            hCV28966977
SNP Position Genomic:     41019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38246):
TACCTGATTTCTATGTAGAGTATCAAATAGGACACAAAGGAGACACTTACTTATTGAATCTATTCTGAAATAACCACAAATTCAAAAAACAACAACAGCA
R
CAACAACAAAACAACTCAGCCTGGGTGCTTTGGTGGCAGCCTAAGCTTATAAAACACAGAATGGAAATGGGATTCCATGTGGGATGCAGTCCTGCCCTCT
Celera SNP ID:            hCV25602854
SNP Position Genomic:     85824
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,33|G,1)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38247):
TCCTCGCTTAAAGAACATGTATTTATTATATTTATTTTTCACGCAAATTACCCAAAGCATTGGGGGTTAGTGAATGGAAAATAGCAATTTTTACTTTTCC
Y
TTTTTGTCAAGGCCCGGTTTTGTATTCCAAACTAAAGAATGAATTTATAAAATGATGGTTGGTTGTCTGTGATAAGACTTCCTTCTGGTTTAATCAGGTG
Celera SNP ID:            hCV28966978
SNP Position Genomic:     24745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38248):
TGATCAGTACAAGTCGGTACCTGATTTCTATGTAGAGTATCAAATAGGACACAAAGGAGACACTTACTTATTGAATCTATTCTGAAATAACCACAAATTC
R
AAAAACAACAACAGCAACAACAACAAAACAACTCAGCCTGGGTGCTTTGGTGGCAGCCTAAGCTTATAAAACACAGAATGGAAATGGGATTCCATGTGGG
Celera SNP ID:            hCV25602855
SNP Position Genomic:     85807
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,36)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38249):
TTTACTCAGGAGGCTGAGAAGGAAGGATTGCTTGGGCCTGGGAGGTTGAGGCTGCAGTGAGCTGTGATCGTGACACTGCACTCCAGTCTGGGTGACAGAG
K
GAGACCCTGTCTCAAAAAAAAAAAATTACAGTATAAGTGGTGTAATAACAGTGCAAAGTCCTAGGAGAACTGTAGGAATAGCAGTTAATGAATTTAACAA
Celera SNP ID:            hCV28966979
SNP Position Genomic:     18662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38250):
CAGCCATCTGTGAAGCCAGCCGCTGCAAAGCCGGCCCCTGCGAAACCTGTGGCTGCCAAGCCTGTGGCCACAAAGACGGCCACTGTTAGACCCCCAGTGG
Y
GGTGAAGCCAGCAACGGCAGCGAAGCCTGTAGCAGCAAAGCCAGCAGCTGTAAGACCCCCCGCTGCTGCTGCTGCAAAACCAGTGGCGACCAAGCCTGAG
Celera SNP ID:            hCV25602856
SNP Position Genomic:     84027
SNP Source:               Applera
Population(Allele,Count): african american(C,12)   caucasian(C,37|T,1)   total(C,49|T,1)   
SNP Type:                 UTR 3;MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,1)   total(C,73|T,1)
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:38251):
TTGTTGACAGATTAATTTTAATTTTCATGTTATTAGCATGCGGTTCAATTGTTTTCTTTGTTTTTTTTCTTTAGGTGAAAATGCTTTTTACTTGTCCCCA
S
ATATCAGGAAACAGTGTGATTGGTTCCAAGGGGACCAACCCACAAAGAACCTTGTGAAGTTTGGTCACAAACAAGTGTAAGTGATTATAATTATTGTCTT
Celera SNP ID:            hCV25602857
SNP Position Genomic:     81232
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,30)   caucasian(G,32)   total(C,2|G,62)
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38252):
AAAGCCATGCTGAGTTTTAGTGCTGCTCTGCCAAATGAAGGGGGACCACAGGGATTCTTACTGTAGAGCAAAGAAGACCACGGGATTAAACAGAGGACCC
R
ATTACTTTGTTTCAGGGTATTCCTGGAGAAGACGGCTACCGAGGCTATCCTGGTGATGAGGGTGGACCCGTAAGTAAAAATTGTTTTAGTCCCTAAAATT
Celera SNP ID:            hCV25602784
SNP Position Genomic:     59170
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:38253):
AGCACTCTCCTCTCTCCTTCCTCCGGGAGGGTGGTGTCGGGGAATGAGCGCGGATGGCTGCCTCATTCCCTCTTGTTGAAGAGGGCGGGTGGTCATCTGG
K
GAGATGGTGTTTGACATCTTTTAATAATCTAAATGAAAAAGTTCTCCAAAATTTGCTGCCAGGGAATTTCGTTTTTTTATAAATGGAGACTCCAGGACAT
Celera SNP ID:            hCV8738900
SNP Position Genomic:     14944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38254):
AGCAGCAGCTGGAGGAGGCCCAGAGAGTCATCCTGCAGGCCAAATGCAAGGGCTACTTCTTCGTGGTCCTGGGCATTGGCAGGAAGGTGAACATCAAGGA
R
GTATACACCTTCGCCAGTGAGCCAAACGACGTCTTCTTCAAATTAGTGGACAAGTCCACCGAGCTCAACGAGGAGCCTTTGATGCGCTTCGGGAGGCTGT
Celera SNP ID:            hCV25602858
SNP Position Genomic:     79753
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(A,1|G,39)   total(A,1|G,65)   
SNP Type:                 UTR 3;SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:38255):
TGCTCCCTCTAGGGAAATTCGGGACCTCCAGGGATAGTTGGACAGAAGGGAGACCCTGGCTACCCAGGACCAGCTGTAAGTATTTATCCAGTTCTGACCC
R
GCCACCTGGGGCTGGGTGCTTTACACGTGGTCCCTGAAAACTTCCCACCATCTGCTTTGCTCACAAGAAAATGTGCTCTCTTTGTATTTGCTTGGTTGTC
Celera SNP ID:            hCV22275300
SNP Position Genomic:     73883
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,26)   caucasian(A,4|G,36)   total(A,16|G,62)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,101|G,1398)   total(G,1398|A,101) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38256):
GTAGGACAACATTGCCGAGAAAGCTTGCTGTGGGGTTCCCTGCAAGTGCTCTGGGCAGAGGGGAGACCGCGGGCCCATCGGCAGCATCGGGCCAAAGGTA
Y
GGTGGCTTTACCCTTGCCCACGCCTGAGATGAGGTGTCAGAAGCCCGACATTACTTTGGTGGGGTAATTTCTCTAACAGAAGAGTGTGGAGATGAAGGAG
Celera SNP ID:            hCV25602785
SNP Position Genomic:     58625
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38257):
CTATCTATCTATCATCTATCTAACTGTCTATCATCCATCCTTTTGCTGCTGGTTCAAAGAATGAATCAGATACAAAGTCTTCTTGGAAGTCTAAAAAGGA
Y
GTAGAAAGCATGGGATTTTGAGAGATTTTGCATAATGAGAGTCAAAAACTGATCATTCCCTTTGCCCTGTTTTCTCTTTTAGGTTCATATTTGGTGCTTA
Celera SNP ID:            hCV27851374
SNP Position Genomic:     23452
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,24)   total(C,59|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38258):
TGATTTTCTGCTGGGCATTTCTTGAGATCTGAACATTTGGTTTCTCTTCCTTTCGGTAGGACAACATTGCCGAGAAAGCTTGCTGTGGGGTTCCCTGCAA
R
TGCTCTGGGCAGAGGGGAGACCGCGGGCCCATCGGCAGCATCGGGCCAAAGGTACGGTGGCTTTACCCTTGCCCACGCCTGAGATGAGGTGTCAGAAGCC
Celera SNP ID:            hCV25602786
SNP Position Genomic:     58570
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38259):
ACACCTTCGCCAGTGAGCCAAACGACGTCTTCTTCAAATTAGTGGACAAGTCCACCGAGCTCAACGAGGAGCCTTTGATGCGCTTCGGGAGGCTGTTGCC
R
TCCTTCGTCAGCAGTAAGTCCTGCGTGGCACAGCATGTGCCCTGGCCTGGCTTTATGCTCGGGCCAGGAGAAGTGTAGGAACAGTCATGGAAAAGACAAC
Celera SNP ID:            hCV25602859
SNP Position Genomic:     79858
SNP Source:               Applera
Population(Allele,Count): african american(A,32)   caucasian(A,33|G,3)   total(A,65|G,3)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38260):
TAGTTCTAAGAACTGTTTTAACTGAGAATGTTATTTACATTACACATTGCGGTGCCATAGGGCCTGTCATCTGTGTTTCCTATTGTCTCATTACAACAGA
W
TGGGAAGCATTGACAAGGAGCCTGACCCACACAGCAGTAATGGGCACTATTGTGGGTCTTGGCCCGTAACCTCAAATTTAATGATTTGATCATTCAATTA
Celera SNP ID:            hCV11938428
SNP Position Genomic:     42467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38261):
TGCTAACATCACACAGATGAATGGCAAGACTAAACCAATTGAAACCTAATCAAAATAGTTCTAAGAACTGTTTTAACTGAGAATGTTATTTACATTACAC
R
TTGCGGTGCCATAGGGCCTGTCATCTGTGTTTCCTATTGTCTCATTACAACAGATTGGGAAGCATTGACAAGGAGCCTGACCCACACAGCAGTAATGGGC
Celera SNP ID:            hCV11938429
SNP Position Genomic:     42412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38262):
TGGCTCTCAGAATAGGATGGCATCTTTGAAATCAGCCAGTCCATGCCCCACTGAATGTGACTTTGAAGTTGGCCCATGCCTACTGGCCAGATGCCCAATA
Y
AGTCCAGGTCCCCTCATTCCTTGGCCTGGTGGGACCATCAGGGAGCACCTTCCTGGAAGACTTGCAGTCGTCCACCTCAGCTTCTACCCCGTGCTCCTGG
Celera SNP ID:            hCV16049847
SNP Position Genomic:     52180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38263):
GAGCGGCAGGGAGCGATGTGGACATCGACATGGCTTTCATCTTAGACAGCGCTGAGACCACCACCCTGTTCCAGTTCAATGAGATGAAGAAGTACATAGC
R
TACCTGGTCAGACAACTGGACATGAGCCCAGATCCCAAGGCCTCCCAGCACTTCGCCAGAGTGGCAGTTGTGCAGCACGCGCCCTCTGAGTCCGTGGACA
Celera SNP ID:            hCV287451
SNP Position Genomic:     79336
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(A,14|G,26)   total(A,27|G,51)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,18)   caucasian(A,10|G,12)   total(A,16|G,30)   
SNP Type:                 UTR 3;SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,9)      total(G,6|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:38264):
TTACCCTCCACACCACTGATATTCAGCCAGCTCCTACAAAGCTCTCAGACCATCATCCAAAGGTTAAGGGGCCTCTTCCTATTTTCCAATCTGTTTCTCC
Y
AGTCCTTCCTTGCTTTGCACCTCACACACATCTCTTCACTTCCAGGAACTATTTAAAATTCTTGACCACAAAGGAAACTTCTAGTGGCATTTCCTAAAAC
Celera SNP ID:            hCV16049848
SNP Position Genomic:     52640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38265):
CATCATCCAAAGGTTAAGGGGCCTCTTCCTATTTTCCAATCTGTTTCTCCTAGTCCTTCCTTGCTTTGCACCTCACACACATCTCTTCACTTCCAGGAAC
Y
ATTTAAAATTCTTGACCACAAAGGAAACTTCTAGTGGCATTTCCTAAAACACTTGAGATCACAAATGTCAAAGCCAGGTCCCTATTGAATTCTTGTCACA
Celera SNP ID:            hCV16049849
SNP Position Genomic:     52690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38266):
TGGCCCGGAGGATGCAGGGTGGGGCTCGGGCCCTCTCTTGCTGAGGATGGACACGTTCGCTGACAGTGGCCAGCCTGTTTGGGGAACCTGTTTCAAGGGG
M
CTACTATGTTAGATAATGAACGGGTATTGAAGTATGGGTGGGGTCACTGGGAGGGACTAGGGAGTGGTTAAAGAAAAATCTGCTTCCACAGGAAGCTCCA
Celera SNP ID:            hCV1470351
SNP Position Genomic:     7334
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38267):
GGGCCTACTATGTTAGATAATGAACGGGTATTGAAGTATGGGTGGGGTCACTGGGAGGGACTAGGGAGTGGTTAAAGAAAAATCTGCTTCCACAGGAAGC
Y
CCAGGAGCCAGTTTCGAGGCCGGTGCAGACCCCAGGAGCAAACCCCTCTGAGCACAGGGGAGTCTGCTGTGCTGGATGGGGAGGCAGGGCTGTGGCCCCG
Celera SNP ID:            hCV1470352
SNP Position Genomic:     7431
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38268):
AAGCTCCAGGAGCCAGTTTCGAGGCCGGTGCAGACCCCAGGAGCAAACCCCTCTGAGCACAGGGGAGTCTGCTGTGCTGGATGGGGAGGCAGGGCTGTGG
Y
CCCGGCTGACTGGCTTCTCTCCCCACATACAGCTCACCCCGGCGAGGACCACAGGGTGCTAGAGCTGCAGGGTGCTCAGAGCTCACGGGGATGGTGGATG
Celera SNP ID:            hCV1470353
SNP Position Genomic:     7527
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38269):
ATAAACAAAGTGAAAGAGGCTTTCTTTCTTCCTAACTAAGGCGCTTTGTGTGTCTCCAACACAAGAAAGGAAATGCAACATTTCCAAAATGTATCTGCCT
R
CAGGAGGCCTCTGTGATGCTGTGTCTTGGCCCCAGATTGCCGAGGATGGACTTTGGGAATATTGTCACAGTGCGGGTGCAGCTTCTGTTGTCAGGAACGT
Celera SNP ID:            hCV282229
SNP Position Genomic:     47083
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38270):
ACAGAGGGGCTCACGAGGAACAGTGTGGTCACCAGGGCCCAGCCGGCAGGGCTCGGCTAGAGAACTGGGAATCAAGCATCACTTGGAGGAGCTGTCAGCC
Y
GGTGGGTCTTCCCGGGATTCAGCACCCACAGAGACACAGTGCTGGGGGCCACCCACCCTTGCCCCACAGGGCAGTGCTGTCTGCGCTGCTACCCTCCCAG
Celera SNP ID:            hCV270579
SNP Position Genomic:     59883
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,8)   total(C,8|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38271):
AAGCCTGTTAGCTCTCCTTCCAGGGCTAAGTGCCTAAATGGCCAATGGGGAAGGAATTTGACAAGTACAATTTCAAACTCTACCATACCACAGCAACTGT
R
ATGAGTGCCCAGAGCTTACTCATCAGCGATGGGCAGAGCAGAGGGACCTCCCCTTGTTAGAAAATGAGTCCATGCAGCCATTTGATAGTTGGTAGCAGAG
Celera SNP ID:            hCV28030945
SNP Position Genomic:     26684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38272):
AACTAATTTACAGAATTGCAAAATAGCTTGGGAAATCATATTCATTGGAATATGATTGAATATGATTTCAGGTTGAAGGGCCATGTAGGGCAATCTTTCT
R
ATGAAAGGTATCCTTTTAAATTTCAAAGGGATAGAAACTAAACGGAAAAAGGCACCTCAAATCCTTTTTAGAATGAGGCAGAGTAAACAAAAAGATGAAT
Celera SNP ID:            hCV28966980
SNP Position Genomic:     14245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38273):
CAAGTGAAAGGAAATCACTGCAGGATACAGTGGGTGATGAGGGAGGTGAGGATGATTATTTGGGTGCAACTGAGAGGGGCTTGGTTTCTCCTCGCTGGTG
Y
CTGGGGAAGAGAGCAGTGTGGCCCACCAGGTTTCTGTGGGATGTTCCTGAGCATTTATGATCAGGTAAATTTGGGCAACAGTGGGATAAACAAAGTGAAA
Celera SNP ID:            hCV27501741
SNP Position Genomic:     46897
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,82|C,1405)   total(C,1405|T,82) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38274):
GCATAATTCACTTGTGCTCTTTGTCAATGCTCCCTGCACAGGTGTCTGCAGCTCTTCCCATCCCAGACTCAACAGTGAGGAGACAGCTCTCATCTTATCA
Y
GTCCTATTTTTTCCACCTGGATTACAAAGCCGAATGCTTTACAAAGAGCCTCTATAATACTCTTGTGTTCTCATTCACAAACAAAAATACCACTTAAAAT
Celera SNP ID:            hCV28030946
SNP Position Genomic:     15825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38275):
TCATTTTATTTCTAAAGCATTCAGGACTCAGCAAATTGCACTGACTTTATCATCAGTGCCTTTTGTGATTTCCTATCCTAGAACTTAATACGTCCCCGAT
S
AGAAAGTAGGAAGAAGCTCCTCTCTTCAGTCGATTGTTGATTTATGGTTCCAATGAGGCTGCTCATCCTGACCTTAGTTTCAGGAACGGAACCCATAGAC
Celera SNP ID:            hCV28966981
SNP Position Genomic:     8755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38276):
CTGGGCATTGGCAGGAAGGTGAACATCAAGGAGGTATACACCTTCGCCAGTGAGCCAAACGACGTCTTCTTCAAATTAGTGGACAAGTCCACCGAGCTCA
M
CGAGGAGCCTTTGATGCGCTTCGGGAGGCTGTTGCCATCCTTCGTCAGCAGTAAGTCCTGCGTGGCACAGCATGTGCCCTGGCCTGGCTTTATGCTCGGG
Celera SNP ID:            hCV25602860
SNP Position Genomic:     79821
SNP Source:               Applera
Population(Allele,Count): african american(A,24|C,8)   caucasian(A,38)   total(A,62|C,8)
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38277):
TTAATTAACACCACCAACAAAGCTGACTTTTTAAAATAGCTTACTATTTGGCACCTAACAGCTACCCTCATTTCTCTCTGTGAGAGGGGTGGATAGAATT
K
CTTCTCAAAGCTCACACACACAGGATCTCATTTTGCACTTGAGTGCGATGCCCTGGTCCTCTGCCTGGGTTGTCCCTACTGCTGGTATAAGTAGAGTTCG
Celera SNP ID:            hCV9081811
SNP Position Genomic:     54197
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,8)      total(G,8|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38278):
CTGTGAAGGTGGAATTCTCCCTGACTGACTATGGCTCCAAGGAGAAGCTGGTGGACTTCCTCAGCAGGGGAATGACACAGTTGCAGGGAACCAGGGCCTT
R
GGCAGTGCCATTGAATACACCATAGAGAATGTCTTTGAAAGTGCCCCAAACCCACGGGACCTGAAAATTGTGGTCCTGATGCTGACGGGCGAGGTGCCGG
Celera SNP ID:            hCV25602861
SNP Position Genomic:     79552
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:38279):
ATAGGCTGCCATGCTTCTTTCTAGACATCTGCAACATCGACCCATCCTGTGGATTTGGCAGTTGGAGGCCTTCCTTCAGGGACAGGAGAGCGGCAGGGAG
Y
GATGTGGACATCGACATGGCTTTCATCTTAGACAGCGCTGAGACCACCACCCTGTTCCAGTTCAATGAGATGAAGAAGTACATAGCATACCTGGTCAGAC
Celera SNP ID:            hCV25602862
SNP Position Genomic:     79249
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,37|T,3)   total(C,67|T,3)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:38280):
CTGTGCGTGCTGTTGGCATCTCCCTTTCTTCTGGGGCTCTGAGAAGGTTCTCAGACACGTCCATGCTCCTTTGTGGCTTCATGTCCCATAGCTCCTAAAA
Y
GTCCCCAATGAGGCCATCTGCCTGAGAACTTCTCTTGTGAGGTCTCCAGGACAACCTCGTGGCTCCAGCACTACAGGGACGCCTACATGCTTGTAGCACT
Celera SNP ID:            hCV25602863
SNP Position Genomic:     76120
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,3)   total(C,73|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:38281):
CAAGATAAATATTGTAATAAGATACTGCTTTACCCATTGTATCAATTACAATTGATCAAGGGAGGTTTTCCTTTGATAAAGGAGTGAAAATAATTTAAAA
R
TAACCATTTTGGAGAATATGCCATTGTATGAAATTAAGAGTAGAAGATTTTAAAGTCTTAATTAAAAACATCACTATCTATTTATTTAAGGAGCTGACCT
Celera SNP ID:            hCV27987213
SNP Position Genomic:     34024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38282):
GGTGGGGCAGGAAAAAGAGAGTTGAGGCTTGGAGGCACACATCACTCTACAGGACCACATCGGAGGGACAGCAGAAGAATTGCAAGATTGCAATCAGAAT
R
CTGGAGCAGTTGCAGAGAAGCAGTACCAGATGTCAGTTTTTCATAACAAGGATTCAGAAAGCAGGAGCTGAAGAGAGATGACCCAACATCAGCAGAAAGG
Celera SNP ID:            hCV27987214
SNP Position Genomic:     28006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38283):
TGGGCAACCACATGGCATAGGGGAACTGATCATAGGAAGCAAGATTTATGAACAGATTTTTCTCCTACACTTTTAAAAATGGTTACCACCAAGATGGCCA
Y
TGGGACAGGAGGTAGGAGGTGAGGTGACTGATGGAGAGTCAGTCTCTTGTGAATACACATGGATGGTGGGGCAGGAAAAAGAGAGTTGAGGCTTGGAGGC
Celera SNP ID:            hCV11938432
SNP Position Genomic:     27841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38284):
CCTTGAGATCTGGGCCAAATCTGGCACAGCCTCTAGGGTTTCCCGGGGTTCTTCCCATGAGCTTTGGAAATGCTAACTTGGGTTAGGGTTCTGGTTCTAT
S
TTGTTTTTATCTATGTAGCTTTGAACAATCACTTTGCCTTGCTGGGGTTTCAATTTCTCAGCTATAAAATGGAGGGAAATCAGCCATCGGATGGTTGGGA
Celera SNP ID:            hCV27987215
SNP Position Genomic:     14694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38285):
ATTCATTTTACTGATGGAGCAGACGGAGATCTGGCTGATTTACACAGAGCATCTGAGAACCTCCGCCAAGAAGGTAGGTGCCAAGGCTTTCTAAATATGA
S
AAGTAAACCCTGGTGAGGCGGGGTGTACTGCTCTGCTGGAGAGAAACCTCTCTGCTAATGCAGCGCCCCAAGGGAGCAGCGTTGTCTTGGGAGACTCTTC
Celera SNP ID:            hCV25602793
SNP Position Genomic:     56038
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,35)   caucasian(C,3|G,37)   total(C,6|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:38286):
GGATGTGAGCCTGGCCCTCACCCAGAGGGGGGTCAAAGTGTTTGCTGTTGGAGTGAGGAATATCGACTCGGAGGAGGTTGGAAAGATAGCGTCCAACAGC
R
CCACAGCGTTCCGCGTGGGCAACGTCCAGGAGCTGTCCGAACTGAGCGAGCAAGTTTTGGAAACTTTGCATGATGCGATGCATGAAACCCTTTGCCCTGG
Celera SNP ID:            hCV25602794
SNP Position Genomic:     53575
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38287):
TGGACAAGATTAAGAACCTTCAGGTGGCTCTGACATCCAAACAGCAGAGTCTGGAGACTGCCATGTCGTTTGTGGCCAGGAACACATTTAAGCGTGTGAG
R
AACGGATTCCTAATGAGGAAAGTGGCTGTTTTCTTCAGCAACACACCCACAAGAGCATCCCCACAGCTCAGAGAGGCTGTGCTCAAGCTCTCAGATGCGG
Celera SNP ID:            hCV25602867
SNP Position Genomic:     75851
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,2|G,26)   total(A,2|G,60)   
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,21)   total(A,1|G,57)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38288):
ACACAGTTTATGAAGATGGCGACTCCATCCAAGTGGGGCTTGTCCAGTACAACTCTGACCCCACTGACGAATTCTTCCTGAAGGACTTCTCTACCAAGAG
R
CAGATTATTGACGCCATCAACAAAGTGGTCTACAAAGGGGGAAGACACGCCAACACTAAGGTGGGCCTTGAGCACCTGCGGGTAAACCACTTTGTGCCTG
Celera SNP ID:            hCV25602795
SNP Position Genomic:     53295
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38289):
TGGAAACCAGAGGCTGCGGGACTGTGTCATGATAATGACAGTGCCCTTTTGGGTCAGTAATGTGGCTTTTCCTCTCTTCTCTCGGCTCCTCACCTCACCC
Y
ACCCACCCCCTCTCTCGACGCTCAGTGCTCGCCAAACCCGGAGTCATCAGTGTGATGGGAACCTAAGCGTGGGTGGCCAACATCATATACCTCTTGAAGA
Celera SNP ID:            hCV9078303
SNP Position Genomic:     95494
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,18|T,6)   total(C,48|T,10)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38290):
TCTTTCGTCTGTCAAATGAAGACAGGGAATATAGAACTGAAGAGAACAGGGATGTGCAGGCTCTTTCAGCTTTTGCACTTGACAATGAGCATTTTGAAAT
S
AAGACTGTGAGGCAAAGGGTTCTCTGAGCAGACATCAGTGGTTTCTTTAATTATTCAAGCAATGACTTCACTCTGGCCAAGTTGTGTATTTACGGCAGAA
Celera SNP ID:            hCV27965729
SNP Position Genomic:     38470
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38291):
ATCCTCCGTTTTCATGCTTCAGAAGTAGAGAAGTACAGGTTTTTGTCTTTGAATAGTGCCGGGTTCTCACCTCACTAATATATTTCTCTTGGTTTTCCAA
R
TATCTTCTTGTCCACAGTAACAGTGTCCTTATTTTCCACTAGTAAATCTTACAGGGTCTCAGTAGTGACTCTCACTGAAATAAGGGCAGAAAACACCAGT
Celera SNP ID:            hCV27987218
SNP Position Genomic:     92718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38292):
CAGTTTCCAGGAAGTGCTTCGTTTTGTGTCTGAAATAGTGGACACAGTTTATGAAGATGGCGACTCCATCCAAGTGGGGCTTGTCCAGTACAACTCTGAC
Y
CCACTGACGAATTCTTCCTGAAGGACTTCTCTACCAAGAGGCAGATTATTGACGCCATCAACAAAGTGGTCTACAAAGGGGGAAGACACGCCAACACTAA
Celera SNP ID:            hCV25602796
SNP Position Genomic:     53254
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,37|T,1)   total(C,71|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38293):
GAATGGTTGTTTTTAGGATGTTCTAGGTAGGCACCTGTGGCTTCTGGGAACAGGTGGGATTCCCAGAACAGGGTTTTAACCTAACATTGTGCTTGCCTCC
R
TTTCCTCTCTTCTATTTGGTTACTTTCCTGAAGCCCAGTGACCAATAGTAAGGAAGTTTCAGCAGACAGTGGTCTGAGTCAGGCAGCCTTTCCCCTCTCT
Celera SNP ID:            hCV28967069
SNP Position Genomic:     92056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 169
Celera Gene:                 hCG23215 - 79000076095452
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W0QP(51354776..51393703)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12329):
TGGAGTGCAGTGGTGCGATCGCTGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGACATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGACTACAGGCGT
CCGTCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCT
GCCTCGGCCTCCCAAAGTGCTGGTATTACAGGCGTGAGCCACCACGCCTGGCCGATTTCCTTCCTTTTCTATGGAGATACCACTTTGCTTATCCACTCAT
CTGTGGATGCACACAGGTTGCTTCCACCTCTTGGCTTTTGTGAGCAGTACTGTTATGAACGTGGGTGTGCAAACATCTTTTTGAGACCTTCCTTTCCAAT
CTTTGGTCTCTGTTCTCAAATGGAATTGCTGGACGCTATGGTAGTTCTAATTTTAATTTATTGAGAAGCCTCTACTGTTTCCCATAGTGGCTGTATCATT
TTATAACCCCACCAGCAGTGCACCAGAATTCCAATGTCTCCACATCCTTGCAAACACTTATTTTCTGTTTTTTTTTTTTTTTTGATAGTAGCCATCCCAA
AGGGTGAGTGGGGACACCACGTGGCTTTGCTTTGCATGTCCCTGATAATTAGTGATGTTGAGCATTTCTCGTATGCTTCTTGGCCAAGTGTATATCATCT
TTGGAGAAATGTCTGTTCAAGTCCTTTGCCCTTATTTATTTATGAGACGGGCTCGGTCTATTACCAGGCTGGAGTGCAGTGGTGCGATCATAGCTCATAG
AGTGACCCTTCAGTGCTTTCCCACACTCCCCTGGGGTCCAACCTTCTGCCGAAGATGCCCCAGCTCTCTGCAGTTCCCTGCCCAGGCCCCAAGACTCCTT
TCCCTGTCGGAAAGTTTCTTAGGCTTCCTCTCTCTGGGGTCCCCACACACCTCTGTTCCCCTCCAGCACACTGGCCCAGGCCGGGCCAGCCTGCTTCAAC
ACAGTGTCAGGAACTCCTGTGGTGTCCACAAGCCCAGTGCCAGCGCTTGCCTGCCGTGGGACGCACTGTGTGCCTCAGGCCCCTCACTCGCCAAATAGGA
CAGTTATCCTCTGCCTCGGTGTGGTCACAGGGGTGAAATGTGCCTGGATTTGCAGGGTGGCTGCAACAGCGCCTGGCCCATAGGCAGTACCATGAAGACT
CACAGTGTAGGGCAACAGACGACGCCTGAGCGGCTGAAGAAGGTGGGCTCCCAGGGCCTCCCTGCCCAGGCCTGCTGCCACGGCCAGAACCCAGGGGGGC
ACCGTGTACCTCGCCAGTGGCCTCAGCACTGCGCCTTGCCTCCAGGAGTCTTGGCTTGTTTGTGTGGAGCTGGGGACTGGGAGAGCAGAGCTTGTGACCT
GAGGCCCCCCAGCCTCAGGGTGGAGGTGACCACCCTGGACCAAGGCCTGCCCCAGTTAGTGGCTGAGGACAGACAGGAGTACGTGTGGCATTCCTGCGGC
CCCTTGCTCGGCACCCAGGCACTTCCTCCTGCCCCTCTGCCTCTGGAAGGCCAGCCATGGCATGGCCACGGGGGCCTGCCACCTGGCACCTCCCCAACAC
AATACATAAATGAGTGGGTGTGGCTGTTCCAAGAAAACTGTGTTTACACACACAGGTGCGCCAGGCCTGGCCGTCGAGCCCTGGTTTGCCGGCCTTTGTT
CGAGACCAGTGGTTCCCAAATGTGCACCTGTATCAGCATCACCCAGAGCGGGGTCAGAGTCTGGACTCCTGGGCCCCACGCGGAGTTGTTGTCAGGGGCC
TGGGCTTTGCATTTCCACAGGTTCCAGGTGCTGCTGCTGGAGCGGAGGCCACGCTCTGAGCACCCTGCTCTAGAAGAAGAGATGCAGAAAAGACAGGCAG
GGCTGCAGAAAAGGTAGGCAGGGCTGTAGGGTGGTCCGGACCACCGGGCACTGTCAAATGGCAGATGTCCCTCCGCTCTGCTCTGGGTGGGGCTGGGGCC
GGAGTGGATTTTATAAACACTCTGGGAGGGTCCCACCCAGAACTCTCCTGCGCTGTGTGGAAGGAGGGCCACTGGGGAGGGTGTAGATGGGAAGTGAGAG
AGAAGAGGGGACGAGGAGACCCCTGGGTGGCCAAGGAAACACTTTTCTGAACAATCAAAAATAAAGGAGGGGCAGGCAGAACGTGGGGACTTGGCTGGGG
CTGCCTAGGTTCCCTGGACTCACCTCCTGGCACTACACTGCCTGGGGAGCCAGGGGGCCAGGAGCCAGGGAGCGACTGGCACACCCCACACCTTCCTAAC
CCAGCCCCTGGTGGGGAGCCCTTCCTTCAGCAGCAGGCAGCACAGCGATGGCCAAGTGTCCCTCCAGGGGGACAGACGTTTGCCCCTCCACGCCACTCAC
CCGGGGTGAGGCCGCAGCACCCTCCACCTTGCTCCACCGTGGCCAGCTTCTGGCCTCCCCTCACCAAGCCCCGGGACTTCACGTGAAGATCACTTACTGG
CCTTCTCCCCTCGCGGTCCTGGGTTCTCTCCTCCTCCTGGCCTCTGAGGCCAGAATGCTGAGGCTCAGACTAGGGCCTTTGTCTCTGCTGACACCTCGCT
GCTGTCACGACTTTGTGGTCCCTGTGCCACTGACTGCAGGACGCGCASSTGAGTCTCCTTGGACCTGCCCAGGTGGCCCCCAAGCAGGATGTGTCCAACA
CACCTTGCTTCCCTCTGCCTGGCCCCAGGCCCCACTCTGGCCCCTGCTTTCTCAGTAAGGACATCCCCACTCCGTGGCTGCTCTGGCCAAAGACAGGAGA
GTCACCCTTTCTCTTCGGCGCGTACCYCTCAAGCTCCAGCTTGTGCTCCCAGCACTCCCACCTTGCACTTCCCCATCCCCAGCTCCTCCCCACCCTGCCC
AAAGCCCTCCTGAACCCATTCTTGTCTCAGTCTCCGCACATAGCAGCCAGAGATTAAAACAAACCAGCCCAACCCTCGGTGGGGCTGGTGTTCACCTTTG
GGGTTAAATTGAAAGTCCTTGCGTGGCACCACAGTCACTCAGCGGGCATCCCCTCCCTCTGAGTGCTCTCGCCCCACTGACCTGGGCACTGTGGGGCCAT
GCTCACTCCTGCCTCGGGCCTCAGCACCTGTCCCTTCCTGGCAGCCTGTCCCGCCTGGCATGCTGGCTTTGCTCCAATGCCAACCCTTCGGAGAGGCCTT
CCCTGGCCACCCTGTTGTAAACAGCACTGCCTGTCTCCGTGTTCCCTGAGTGTTCCTCCAGGCACTGTCACTGCCAGACGCTGGTATTTTTGTCTACTAT
GGCCCCCACCCTGGCTGGTACACTCAGAAGGACGGGCTGCGTCCCCTGTGCCTAGAGAGGCWTCTGGCACAGAGCCAGCCTTCAACATATATTGCATGAA
AGATTCCGTCCAAGGACGCTGTAGATGTAGGTGGACGCAGACAAAAGCAAAGCAGGACAGTGGATTCGTCCAAAGACCGGCAGTGTCTTCAGGTGAAGCT
GCAGCGTCGAGTCCTGGTGCTTGCAAGGTTTCAGCAGCAGAAACCTGATGGGGCTCCTTGCACCTGGGAGAAAAGCCACTCCAGTGAGGATTATTGCCAG
TGAAGGCTGCCCTGGCCCCAGACAAGTTTTCCTAGAATTTATGGTAGCAGGCGGGTTGTTAAAGGATGATTCCCGAAAGGGCCAGACATGGTGCTCACAG
GGATGCAGGGTGAGCATGCGTCGAAGAGCTTCCCTAGCCCAGGCAGCTGTGAGGACCAGCTCAGAAGAGAAGTCCTGAAACAGACACTTACAGATGAGGA
ATATTGACATGATTGTGCAAATGGACMTGAAACTGGATTTTCAGGGGGCTGTGATGGGCTGGATTGTCTCCCTTAGATTCTAATGTTGAAGTCCCCCACA
CCCCAGTGTCTTAGAATGCAACTGTATTTGGAGGTAGACTTTAAAGAGATGGTTGAATTAAAATGAGGCCCCAAATTCAATCTGACTGGTATGTCTATAA
AAAGAGAAAGTCTGGACATCTGGAGATACATCAGGGATGCGTGACTGCTCAGAGGAAAGACCCTGTGAGGCACAGCAAGAAGGCACCATCTGCTTGCCCA
GGAGACACCAACCTGTGACACCCTGACCTTAGACTTCCACCCCCAAGAACTGTGAGAGGTAGACCTCCTTGCACTGTAAATCACTCGTTCTGTTACTGCA
GTCCCAGAAAACTAACACAGACCTTTGCTGGGCAGAATGCCTTTGCTTCTCTGCAGACAAGATTACTTTTGCACTATTGCACTGTTGTTATCAAAATAAT
TATATGGGGCTGGGCATGGCGGCTCACACCTGTAATCCCAACACTTAGGGAGGCTGAGGTGGGTGGAGTACCTGAGGTCAGGAGTTCAAGACCAGCCTGG
CCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAAAAAGAAAAAAAAATTAGCCTGGTGTGGTGTGCACCTGCAATCCCAGCTATTCGGG
GAGGGGGCTGAGACAAGACAATTGCTTGAACCTGGGAGGCACAGGTTGCAGTGAGCCAAGATCTTGCTACTGCCCTCCAGGCAACAGAATAATAATAATT
TTTATTATGGAATCAGTGTCAAATGCTGGTGCCTTCTGGGGGCAACACACAGTTTCCCACCAAAGTGCATCAGTGCCCCAGGCAGTCAAGGTGCCAGGAG
ACGAGGAGGCCGCGGATCTTCTGTCCACCTGGGAGCAAGCCTGCAGCTTGGGACCCTCCTGGGACCCTGCACCCGCCAGTGCCCTGCCCTCCTGGGCTCT
CATGGGAGTGAAGGAGGGTGGGCTCTGTAGGAGTTAAAGAAAGAGGAAAGAAACATGAAAAGCGGCTCAACAAAGGCAGGTTTATTTTGGAGAATAAACC
TGAAAGGGACTTCTGGCCGATTTTGGTCAGGAGCCATCTCTCCTACAGACTAAGGATCTTTAAGGGTTTAGGAAGTGGGGAGCTTATCGCAGGCTCGGAA
TGTTTCTATGTGAGGGAAAGTTTATTGCGGGCTTGGAATGTCTCTGGTCGGAGGGGAGGTTATCTCGAGGTTGGCATGTTTCTGATTGGAGATGTTATTT
GTGGTTTACGGTCGTGCTGACATTAGCTATTGGGCTGATGTGTTTTGGGCTGGATTTAGGCAGCTTTTTAATCAAAGGGAACCTAAAATGGCGGTGTTTG
TCCAAGAAGGCCATACTCCTGCTCTGTCCCGCTCCAGCCCTTGGGGGCCCCTCGGGCTCTTCTCTTGGATGGTGTGTGAATGGGCACATGTGGAGGGGCT
GGTCCAGCTCTGCCTGCCTCTGGCCATCCAAAGGAGGGACAGCAGGGCCTGGGCAGCAATGCCGGCCTTGGAGCCCCGGGGCTGTGGAGGCTGCTTGACA
GGACACGGAGCCCCCTCTGTGCTCAGGTCGTGGAGGGCCTCGGGCACTACGGTCTGCCAGGCACCACATGTCACAGCTACTCAAACACCCAGGGCCGCCA
CGGAGGGCCAATGGCCGCAGGATGGCTCAGGACCCGCCCCACCCCTGTCGCTGCCTTTCTGGCTGCCCCCTAGTCCCTGGACAGGCGCTCCCCAGCCCCA
AGCAGGCCCCAGCCAATCTCCTGCCCAGGCAGGAGCTCCCCCTGCCGCCCTCACAGACCTCACCTCTTCCTACACGTTTCCAAGGCCGCGCCCCGCCSCG
CACCCCGCCAGGCCCCGCCCCGCACCCCGCCAGGCCCCGCCCCGCACCCCGCCAGGCCCCGCCCCGCACCCCGCCAGGCCCCGCCCCACCCGCCAGGCCC
CGCGCCAGGCCCCGCCTCTCTCTCCGACCCTGGACAGTCCCCGGGACCCACCCCGCCCCCAGGTCCTGCCCCCGCCCGCCTCCGCGGGGCCTCCCACCCT
CCCGGGCAGACTCCACTCCCGCCCCCTCCCCGTGGGTGCCCCCGCCGGCCCCGCCCTCCCAGGCTGCCCCCGGCGCCCCGGGCCTCCTCCGCGCAGTCCC
TGAGTCCCGCAGGCCCTGCGTCCCCGCTGCACACCCCCGTCCACTCCCGTGGTCCCCGGTCCGGCATGGCGCGCGCGGTGGGGCCCGAGCGGAGGCTGCT
GGCCGTCTACACCGGCGGCACCATTGGCATGCGGAGTGAGCTCGGCGGTGAGTCCGAGACCCTGGGCGGGGTAGGCCTCTGGACCTGGCCGCGACCGGGA
GCCTCGGACCCTCCTGCACCCACGGGGGTCGTTGGGGAGTCAAATCCGCGCCTGGATGGGGGGTGCGGGCTGAGGTCGCTCTCCTCCGGTTCCGGCCACC
GGCGTCCCCACGCATGGAGCCCCGACCTGGACAGAGGAGRTTGCGGTGGGTTCTCGCCGTCGCGGTGCTCCCGGGAGCGCCCTGCGACCCTGGGGCCAGG
CCCCCTGTGCTGCCGCTGCGCCCCTGAGGGCCAGCGTCCTGAAGTCCTGGAATATGGGGCGGGAGGGCCCCAGGGCATTGGCCTGCCGCTCCTGCTCTGG
ACACAGAAGGCTTAGGAGGCTGCCCTGGAGAAGGCTTAGGAGGCTGCGAGGACCCCTCAMCTGCGACACCCAGGAGGGTGTCCCCGTCCCCTGGGGTCCT
GGTCAGGCAGCAGTGGTTGGCACGATACTGGGGCTACCTGGCATCTGCGGGGACGCACGTGTTCACACCCGAGGTGGCCTCAGAGCCCTGCTTCCTCTGC
CCCTGTGTGGACCTGGTTGACCAGAGACCAGCGATTGCGTCTGGACTGAGTYCTGCCTGGGTGGGGTCAGGGCCTGGGACAGGCACCGAGCTCTGTGGTA
CTCCAGCACAGTGCTGCCAGCCTGGGCTGGGCACAGGAAGGATGGTAGCTTGGGGAGCCTGAGGCCACCGGGATGGGGAGAGGACGGTTGCACTGGAGCC
TCCAGAATGCCTGGGTGTTCCCCAGGAGGGCAGGACACTGCCTGGGGCCCCCAGATGGGCTCTGCTGTGATGTGGGGCCTCCCTTGGGGCCAGGACAGCC
CCCTCGCCCCGTCTTGAACCTGTTTGCGACCCTCCATGGGCCACTGCCTGCCTTTCCCTCAGGAGCCCTTTCCACTCCTCCTCCTCCCACTCCCTGCTGC
CCTGGCCCCTCCCCACACTCCTGCTTGTGTCCAGCGCAGCTCTCTCTCCTGGGACGGCTGGGACCCTCTCCGGCTCTGCCAGAGCCCAGGGCCTCCCCTG
GCATGACCAGAACATTCTCTTGTCCCTTGCCCATCTGCCAACCACTTCCCCGCCCCTCCTATCCCCACCCCCTCTCACGGCCTGTTCCCTGGCAGCTGCC
CCTCCTGGCCACCCCTTTCTGCTGAAGTGGCTGCTCAGAAGCCACCAGCACTCTGTCGGTGCTCTCAGATTCCACCCACCACACTGTGGCCGGTGCAGAC
CCCTCTGGAGGCCCACTCTGCGCCCAGCCCAGGAGACAAAGCCTAGTGGGGCTCGTCCACGAGGGACTCAGGTCCCCARGAACGTGGCTGTCCAGGCTGC
CGGGAGCCTCCTCTGCACTTCTCCTTCTGCCTGTGAATGGAACAAAGTCATTCACAGCTTGGCAAACGCCCCTGTGTGACACTCCACTGACACAGAGTGA
CACAATTCCTGTGCTTGGCCCTCACAAGCTAGAGAGAGAGGCTGCCATTGAAGGGATGGCATGCATTAAGGAGCTAGTCCCAGGGGCAGGATCTGCCAGG
GCCCTGTAGGGGCTGTGGGCTGATAACAGGGTCTGAGCTGGGTGTGTGGATGGTGTGGAGTTTGGAGGCAGCCCAGGGAGGGCTTCTCTGAGGACACAAG
GCCTGCAGGACAAAGATGGGAGAGGGCCAGGCCAGGAGCAGCCCTGCAAGGTGCAGGAAAGAGGAGTGGGGAGCCCAGCAGGGCCGGAGCCTGCCAGAGC
TGCCCCCGAGTGGGGACAGGACCTGGGGACTCTGTGTGGGGCCTCGTCCGACGCCCCTGACGCTACCCCTTCAGGCTTGGAGTGTGGCCAACTGCAGTTT
CRTTGAGCTCAACATGTAGTTCTTGAGTGGTCCGAGCTGCAGGGGCAGGTGGACTCTGTAACCCCACCACACACCCGTCTCGCTTGGCCCCCGCGTGCTC
GCCGCAGCAGCCTGTGGGTGCACTCACACGCGTGCACCGCATTTCTGAAAGAGGCTGTGAGGTCCTGTGTCTGGGTGGGAAACAAGAGACTTGGAGGCTG
GAAATTGGGTGTGGGGCGTCAGTCTTCAGACCTGAAGCAGCCTTCTGAGATCCCTTGGTGCTCTGTGCACTGGGGTCCTGGCTTCTGCTCAGCAGCCCGT
CCTCGTGTGGCTGCGAGGTCACCCCCAGCTGTTGCTAGCTGACCCATGTGGGGCATCCACTTCCAGGAACCTGCAGGAATGGGCTSCCCCAACCCCTCGT
GAGGTTGGAGCAGCCAGACTGTCAGGCGTCAATGATTTACTCCCTCCACACTGCTGACGTGGGCTCTGGCCTTCCCTGGGGAGGTGAGAGGGGAGTGGTG
GCTTTGCCCTAGTAAAGCTGTTTGATTGTCGCTGTTGGAACGGCTTCTGCGCCTGCTGGTAAACAGTGACCTGTGGGTGGAACGCTGCACACCTGGAGCC
CTGCCAGAGTTCAGGGAGGGCAGAGGTGATGCCAGTGGGGACGCCCCTTGACCCATCCCTTCTCTGAGTTCATTGAAGCTATCACAGGTCAAGGGGCATA
GCGAATCCAAACACGGCTGATAACCCCAAGCCCAAGCTGGCATCAGTGGCCACGTTCTGTACACCCGAGAAACTTGAAGACTTCCTATGTCAAACTGGGA
ACCCCACCTGCTTGCCGGCCTGTCCCAAAGTCCCTCCTGAGCCCGGCTCCTTGCAGGCACAGCAGGGAGGGCAGAGATYTGGGGCCAGGCAGCTGAGAGA
AGCTCCCTGCCCGGTGACCACACGGGTCCCAGCAGTCGAGAGTGTCAGTGGAGTGATGCCCATGGCTTCTTGGTTACTGCAGTGGCGTCTGTGCCCTTGG
CCTGGACCTCCTTCCTGAATGGGTGCTACACGTTCACAAGTTTCTAAGCCTAAGCTTGACTTCGCTGGTGACAGTGGGGCCCATTGTCTTAGAGAGCAAA
GCCTCCTTTCCAGGTGTTTGGCAGGGGGCTGAGGAGTTTCCAAGTCACCAGCAAACTCAGGCACCTGCCTGGATGGGCCAAGGAAGAGGTTCCAGGCAGG
GCTGGAGGGTTCAGATTCTGCAGCCCTTGAAGCTTTTGGAGGGCCCTCATTGAGAAAAGTAATACAAGTTACAAAATCRTAGTTAGGTGTGAAAGCCGGT
GTTTGTTTATTTTTTATTTATTTTTATTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGACTGGAGTGCAGTGGCGCGATCTCAGCTCAYTGCAAGCTC
TGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCGTGCCCGGCTGAAAGCTGGTGTTTATTTAA
AATAACAAAAGAAATTGCCCCAGCTGACTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGATCGGG
AGTTCAAGACCAGCCATGGACAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAAAAATTAGCCAGATGTGGTGGCAGATGCCTGTGGTCCCAG
CTACTGGGGAGGCTGAGGCATGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCTCGCCACTGCACTCCAGCCTGAGTGACAGAGT
GAGACCCTGTCTCAAACAAACAAAAAAAACTGATGCCACTACATACCTGTTAGAATGGCTGCTGACGTACAACACATTGACTGCGGGGTGAGTGCTGGAG
CCCCAGAGTTGGAAAGTGGTCCACTCGCAGGTTGGTAAGAAAACTTTACTGGCGACAGTATAGGTTTGAAAAAGGAACGTTTGGCCAGACATGGTGGCTC
AGGCCTGTAATTCCAACACTTTGGGAGGCCAAGGCGGGTGGTTCACTTGCCTTGCTAACATGGCGAAACCCCGTCTCTACTAAAAATAAAAAATTAGCTA
GGTGTGGTGGTGCATGCCTGTAATCCCGGCTACTCGGGAGGCTAAGGCAGGAGAATTGCTTGAGCCSGGTGGGTGGAGGTTGCAGTGAGTCGAGATGGCA
TCACTGTACTCCAGCCTGGGCAACAGAGTGAGACTCTGCCTCAAAAAAAAAAAAAAAAAAAAAAAAARGGAAGAAAGGAGAAGAAAAAGAAAAAAGAAAG
AAATTGGCCAGGCTGGTTTTGAACTCCTGGGCTCAAATGATCTTCCTGCATCAGCCTCCCAAAATTCTGGGATTACAGGTGTGAGCCATAAAAACCACTG
CAAAAGCACATATGGAGTGWTTTGCTTGAGAGAAGAGGACACCAAGAGAGTTTAGTCTTGTCTTTGGCTGATTTCGCCTGTGGTGCCCACACATGCCCCC
AGCAGGGACAGCAGGGCCCATATCCACGCCTACCACTCTGCAGCATTCCTGGAAGTTTCTGGAAGCTGTTCCCCCACATGAGTCAGCAGCAGCTGGAGGT
GACCTTGCACAACGTGAGCATGTCCCACAAAACCAAACCAGATATGCCCCCTCCACCTTTCCCATAAGGCACCCCAGCTTCACCCGCCGTGATGAGTGGA
GAGTGACTTTTTGTTTCCTGTGGCCACTGTGCCGGGCGGCTGAACATCACAGAAGTTCGTTCTGGGTTCTGGAGGCCGAGGCCTGAGAGGGGTTTCCCCG
GGCTGAGCCAAGGTGCTGCAGGGCACCGCTCCGTCCTGACGCTCTGCGGGAGGAGCCACCCCTGCCACCTCCAGTGTCTGGTGGCTGCTGCAATCCTTGG
CTTGTGGCCGCATCACTCCAGTCATCCAGGCCAGCATCTCCAAGGGCCGCTCTGCCCTGTCGTCATATGGCCTTCCCCTCCCCGTGCCCTGTGGCCTTCC
ACCTGTGAGGAAACACGAGAGGGCGTTTAGGGCCCACCTGGATTGTCCAGGGCCACCTCCCGCCCCATGACCCCTAATATCACATCCGTAAAGACACTTC
CATATGAAGTGACACCCACAGGTACCGGGGATTGGGATGTGGACATCTTTTTAATTTTTATGTATTTATTTAATTTTTTGAGACAGTCTCATTCTGTCAC
CCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCCGCCTGCCAGATTCAAGTGATTCTCCCGCCTCAACCTCCCAAGTAGCTGGGATTAC
AGGCACCTGCCATCATGACCAGTTAATTTTTGTATTATTCGTAAAGACAGGGTTTCACCATGTTGACCAGGCTGGTCTTGAATTCCAGACCTCAAGCAAT
CTGACACCTCGGCCACCCAAAGTGCTGGGATTCCAGGCCTGAGGCACTGCGCCCGGCCCTGGGATGCGGACATCTAGGATGCTTTTTCAACCCACCATAC
ATGAGACAGGGACACTTGGACACCGGTGTGGGGTGGACCCTGAGCCCCCTGGATGCCCAGGGTCTGAGGTTGGGTCCTTGGGGTTCACAAGGCTGGTGAA
TCCAGACCTTTGTTCCGGCAGCCCGTGTCCTGGCTGTGCTCTGGGCGCCTCGGAGGGCAGACGGGCAGACAAACATGTGCGGGCTCCGCCTCCCCCGTCT
GCTGGCTGAGCCCTACTGGCGGGGTGATTTTGTCAGCGGCTGCACCTCAGCCGGCCTGCATCTTCCAGTCCTCTGGCAAACGTCCCCGGGGCTCCACAGG
CCTTTGTGTAAGGCCAGAGGAGGATCACGGGTGCCATAAACCTTCACGGGGCCAAGGGCTGGTGTCCCGGGGCTGGTGACTTAACAGGCAGAGATGTGGA
GACCAGGGTGAGCCCAGCAGTGGAGGGCGATGTCAGGGAGGGGTGCGGCTGGAGGGATATTAGAGGGGGCTGCTTTAACTTGCCAAGTTTGGGGTTAATT
TGTGAGCCAGTGATAGGCGATGGGTACAGCTGCAGAGGGCGAGGGGGGAAAGCAGGTGACCATGGCTGGGATCTGCAGGATAGGATGGGGCATTGCTGCT
GGGGGAGGGAAGGGAGGGCCGGGAGGGAGCTTTGGGACTTGCTGGAGGCCCTGGAGGGGTGGCTGAGGGGTCAGGGCTTTATACTGAGCAGCTGGCCCCA
GGGAATGAGTGGTGTGGCCAGGTCTCCATTTAAGGGACAGAACTGAGATGCAGAGGCTGCAGGAAGGTGGCAGAGYTGCTGGGGGTGGGACCAGCCCGTC
TGTGCACTTGCTGTGTGCTAGGCCCTCCAGGTCGGGGAGCTGGGGAAGGGGACCTGGGCTGGACCCTGAGGGAGTCACACAGTCCGTGCCCTTTGGGAGC
TCGAGGGCCAGTGAGGGAGAATGTGGGAATAGCACTACAGCCTGGGCATCTGGGAGGGCTTCCTGGGGGTGGTGTCCCAATCTGGGCCTTGAGGCACCTA
CTGGGTGAGAAGTGGGGACGAGGCAGGACTTCCAGGCAGAGCCCACAGTATATCCACAGTGAGGCAAAGGCTGAGCCCCGTGGGCCTTGGTGGGGAGTGT
GGACTAAGCATTTGGAGAAGGAGGTGGGAGCAGGGGCAGGGCCTGGGTGGAGCAGCTAGAGACCTGGGCAGAGCTCCTGGGGCCGTCCAGGTGCGAAATG
AGGAATCACCACGGGCTCCAAGGCAGGAAGCCATGGCTTCCAAACGCGGGTCAGCCGCCTGCCCTCTGAGGGGKCCCAGGGGCAGCCATAGCCCTTCCTC
CCAGCCTCTGACTGTCATAAGACCGGAGCCCCATCCCACCAGCTCTGGTCCTGCCCCTCAGTGAGGGAGGAGGCGGCCATGGCTGTCAGCCCCTGACCCC
AGCATCCACCTGGACTCTGCCTGCAGTGCTTGTGCCCGGGACGGGCCTGGCTGCCATCCTGAGGACACTGCCCATGTTCCATGACGAGGAGCAYGCCCGA
GCCCGCGGCCTCTCTGAGGACACCCTGGTGCTACCGTGAGTGTGGGCTCCTCCCAGTCCCGGACAGGGCATGGCTGCTGAGGGGCACCGATCCTGAGGCT
GGGCACTGCTGGCCAGGCCCACGTGAGCCATTTGCTCACYCCTGTCTCTAACATCCCCTCAGCTTACAGGGCTTTAGGACTGACCAGCAGTCGCCTTCCA
CCAGAGCCTGAACCTCTGAGGGTGCCCCGTGCCTGGTCCCACCTTCCCTCCCCACCCTCCTCCCACACCCCCAGCCAGGCTGCTTYGGCAAGTGTGATGA
GGGCGCCCCGTCTAGGGATCCTGTATATCAGGAGCCAGCTGGCCCAGGTGGCCTTGCCCCCAGCATAGAGGTCCTTCCATTTCTCAGCTCTGGGCCCAGC
TCCCTGATGTCCCCCACAGCTGGGGGTGAGCTGGGAGTTGCCCTCGTGGTGGCTGACCACCAYAGCCGCCACAGGCGAGCCTCCTGCAAGCATCCTCTCC
TGCCTGGGSATGGCTGGTCCCAGCCCCCCTCTTCGAGCTGGTGTGGGAAGAAGACTGCTGGGAGTGGCCCATCCTGACCYACGTCCTTGCCTCTGTGGGG
AGCTYCAGGTGGAAGGGGGGCYGGGCCCCGTACCTGGGATGCTGAGAACTTGCTATGTGCGGAGCCCTTGGCGTAGGGGCCCCAGCTCTGCCAGAGGGGA
ACAGAGCGGGTCAGGGCATTTAGAGCAGGAGGAGGTGCAGAGCGGGAGCCTGCTGTTCCGCCTCCTGCTGTTTCTGTCCCGCAGCCCGGMCAGCCGCAAC
CAGAGGATYCTCTACACCGTGCTGGAGTGCCAGCCCCTCTTCGACTCCAGTGACATGACCATCGCTGAGTGGGTTYGCSTTGCCCAGACCATCAAGGTAG
TGGGGCTGGGGAATGCTGGGTGGGGCTGTGGTGTGTGGGTGGGGCTGAGGTGTGTGGGTGGGGCTGTGGTGTGTGGGTGGGGCTGTGGAGAGTGGGCAGG
GCTGTTGGGTGTGAGTGGGGCTAGGGAGCACGGGTGGGAATGGGGAGTGTGGGTGGGGCTTGGAGTGTGGGCGGGGCTGTGGAGTGTGGGTGGGGCTGTG
GAGAGTGGGTGAGGCTGTGGAGTGTGGGTGGGGCTGTGGGTGTGGGGTGGGCTGTGTTGTGTGGGCAGGGCTGTGTTTTGTGGGTGGGGCTGTGTTGTGA
GTGGGGCTGTAGGGTGTGGGTGGGGCTATGAGTGTGGGCGGGGCTGTGGGTATGGGCGGGGCTGGTGGATGGGCAGTGGCCGGCAGAAACACTCTGGGAC
GGGTGAGGAGCTGCAGGGTCTGGGGTGGAGTCGGCCTGCCCAGCCTGGGGCCTGGGAGCATCTGGGAATGGCAGCTTCAGGAAAGGGCAGGGTCCACGTG
TCAGAGCTGCGGGCAAGGCTCTGAGTTCCTCTCCCCCATGCAAGCTGGGGGTGGGCGTATAGGGCCAAGTCGACTTCCCAGATGAGGACACAACGGGAAC
AGTTGTCTTAGCCTGTCCCAGTTAGTATCTGGGGCGCGGTGTGTGGTGTGTGATGCTACCTCGAGGGCCAGCAAGCTCCTTGTGCGTGGCTGGTGACCTG
CTCACTGCCCTCTGTCCGTCCCCGCCCAGTTGGAGTCTTAGTGGATTTAGTGGAGTCTTGGTTGGAGTCTTAGTGGACCACAGCACCTCTCAAAGACTCT
TGTGGTTTACAGCGACCTGTGTGCTCCCCCTGCAGGCAGAACCACCCCCCGCCCCATCAGCTTTTCTTCTCCCTTCTCCCCCATCACAACACGCTCCCAT
GTTACCGGAGCTGCCTCCCCTAGTAGRGGGCCTCCTGCCCGCTCCAGTCCCAATTCTCACCTGCTTCCCTTACGAACCCCCTGCTCCCCTGAGTGGGAAC
ATCTAGGCTTCCCCTTCCCAGCAGCAGGGTGGCAGGCAGCACCACCCAGGACAGGACCCTCCATTTGTRGCCGGCAGCCCTCACCGGGCAAGGCGTGACT
GCTTTTTGAGGCCCACGAAGCTGCCCTGCGGTCCTTGCTGCAGGGAGCAGCCCTGGGCAGCCTCACAAAGGCCTTCTCGGCTCAGGTGGCCCAGCCTGCC
GTCTTGCCGCGAGTGGCCAGCAGAGGGCGCCCTTCCCCTCCTTGGCCTCCGCTCCTCTGCAGTTCCCAGGCCTACGGGGCTTGGTCTTTTAATGGCCCCC
CGGGCAGGCCCAGGCTTCGTATGGAGCCCTGGGCTCTCGGAACGGTGCCCTGGCAGCCGCAGCCTGGGCCAGCCACCCTCCAGGGGGTGGTGGCCGGAGG
ACGTCCCTGCATGGCCAGCTTCACTGCTGCCCTTCGGTGTCCTGCCCGGCCGCCCAGGTCCAGATCCAGGCAACCTCCAGGATCACCTGCTGGTTCCCGG
CCATGGCTGTGCCTTGACCCTGCAGGCGTCCTTGTGCCCACCGTTGTGTTCTTGCCTGACCCGCGGTCTGGGCTTCGAGGCTCGTGCACCACCACAGCCC
CCTGCTGCCATGGAGAGGCGCTCTCCCGCCCTTGGGGAGTGTGCAGAGGCCCCTTGGAGGGACTCATTCTCGAGTGCTCTGAGGGGAGCCTCAGCGTGGT
GGGTGCACCCGAGTGGCATGGAAGCCTCGGGGCAGGGAGAGCGTGGGAGTCCCAGGACTCCACGCCAGGGGCTAATCTTCCAGAGAGGGACTTCCAGGCC
AGGGTCCCACGGGTGCCTCCCCTGAGTCCTCCTCTCTGCATCCGGACCCTTTCCCCCATGCTGCAACCTCCCCCACACCTGCTTGCGAGGGGCTGGCCTG
CCTGAGCATGCGCCCCTCCTGCAGAGGCACTACGAGCAGTACCAYGGCTTTGTGGTCATCCACGGCACCGACACCATGGCCTTTGCTGCCTCGATGCTGT
CCTTCATGCTGGAGAACCTGCAGAAGACTGTCATCCTCACTGGGGCCCAGGTAAYCCCAGGGGCCCGGGGCTCCTAGGAACAGGGGCTTCCTGAGGCCAC
AGGGCAAGTCAGCGCTRTGGGCGGCCGCTGCGGGACCCCGGGCTTCCTGCTCAGCCCAGCAGCTCCTGAGGTGGCTGCTGCAGGGCCCGTGCTGGGGCTC
GCAAATGCTCAGGTCCTGCCCGGGTGCCAGCACCACCTGCCCCGCRGGAGGGGGGTCATCTCCTGCTGGTGGCCCTGGGAGCTGTGAGGCCCTGGAGCAC
CCAGAGCCAGGCCCACCTCGGCCCTGGGGGTGCCAGGCATCCCTTCCTCTCCTCCCGATGCTTCCTTGCGGCTGCTGCCCACCTCTCCATCTGGCGCATC
AGGGTGGCCGCGCACAGAGCCGCACCAGGAGGCCCCGGCCATGTCCCTGCCTTTGTCCCTCTCTTTGCTCCGCCCACTGTGGGTCTAGGCGATGCCATCC
TGGGGGCCCTGGCACACGATTTCCCTGCCTCTCTCACCCTAACCCAGCACAAATCCCATAAGCCAAGGCCAGTAGAGTGTTCTGGAAAACTGGATTTGAG
GGGATGTGGCAGGGGAGGTTGGCTAGAAGCTGACTAGGGGTCCATGTTGCCTGCGGGTGGCAGTGGGCACCTGAACCCCTTGGGATCCTTTCCCACGGCT
GAGGCTAAGGTCTTGTATGGGAAACCGGTACCTGTGTCCCTTTGAGCTTGGTGGCAGTTCCAGAAAGCTCCATGGAGGCCCTCTTAGGAGGTCTGCGGGG
AGCAGTCCGGGGAGGTGGCTCAGCCACCCCACTCTGCTTGCCTGGCGCCGTCTCCCTTGTCCCTCCAGRGTCTCCCCAGGGCCCACTGCACACACCTGTT
AGCGGTGGAGCAGTGCCTCCCGCCCCAGAACTCGAGAAGGAGGGACAGGGCTCCAGCTGGTTCTCCTCTTCCCAGACCTTCCCGAGCCCTGGGGGAGCAG
AACATCCCGTGGACCTCTCTAGGGGATCAAGGGCACAGTTATGAGCACCGCAGGACCCACGAACGTTCACATGCRTGTTGTCCTCACTCTGATGTTGGCC
TGTGCCGGGACATCCTTATCCCTGTTATACCTGTGGGGAAACTGAGGCTTACAGGCTAGGGGCTCACCCACAGCCACGTACCACGTGAGGGCTGAGCCAG
GGAGCACCCAGGACCCAGGACTGCCACCCCCTGCCAGGGCTCTCTCCCTCCAGAGCCTCTGACTGACCACTTCCCGGCCGCCTCCTCCTGAAAACCCTGG
CCTCTGCACCGCCACCTGCGCCCTCCTGGGACGCGCTGTTCAGTCAACCATAGCACAGTCGCCCATGCTAGACACAGGCAGCTGTGGGAGGAGCTGTACT
GTGCCTGGCATCCCGAGGCAGTTCCTTTCTGTCACAGCCCACCCACCCCTCACCCCCACCACCCTCCTTCCAGCCCATAGTTCTGCTGGGGTAGCGAGGG
AGCTGGGCAGGGCAGCTGCGGTGGGAGGCCTGTGATGCGTTCTCCAGTATGGGGACCGGCTGGCCCCTGCTGCCAGCACTGGGCTCTTGGACCTGTAGAG
GGAGCTGGTGGGTGGGTTGAGGCCCTGGGTGCAGGCTGGCATGGTCTGCAGCCACAGCTGTTGGTGGGTGGGTTGAGGCCCTGGGTGCAGGCTGGCATCG
TCTGCAGGGACAGCTGTTGTTGGCGGCCTTGGAGACAGSCTTACTGCCCAGCTCCTCTGAGTGCCCCGTTCCCCCAAGGCACCCATCTCCAGGCTGCCTG
CTGCAGTCCAAGCCYGCCTGTCCTTCTCTTTCCCACACCCGCCTGGGGCTCCTGGGCTGGGCCTGGGGGTTTACCTGGAGAGATGAGCCAGACATCCCAG
GCTTCTGGGCTTCCCAGGCCTCAGCTACTCYGTGGCCTCTCCCCCAGGTGCCCATCCATGCCCTGTGGAGCGACGGCCGTGAGAACCTKCTGGGGGCACT
GCTCATGGCTGGCCAGTATGTGATCCCAGAGGTACCTGCCTGGTGCACGTGGAGGCGGGGCAGGTGGGGTGGGGGCAGGAGCCCAGACAGCAGCCAGGAA
ACAAAGTCCCCCCAGCCCCTCCCCAGACGCCACTGCCAATAGCTGGGTGCACTGTCTTCTAGATCTTATGTTGTGGATATTTACATTAGAGGTACGTATG
GAAGTTCTACGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATGCATATGGAGGTTCTRCGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATGCG
TATGGAGGTTCTGCGTTAGAGATGCGTATGGAGGTTCTGCGTTAGAGATGCGTATGGAGGTTCTGCGTTAGAGATGCGTATGGAGGTTCTGCGTTAGAGA
TGCGTATGGAGGTTTTGCGTTAGAGATGCGTATGGAGGTTCTACGTTAGAGATGCGTATGGAGGTTYTSCGTTAGAGATGCGTATGGAGGTTATRCSTTA
GAGATACGTATGGAGGTTCTACGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATGCGTATGGAGGTTTTAC
GTTAGAGATACGTATGGAGGTTTTACATTAGAGATAGGTATGGAAGTTTCTATAAAAACAGGTTGCAGCCAGCAGGGCTCTGAAGGGTGTCACTTTCCCT
CCCCCATGTCTTTCCCTGTTTCCTGTGGCGTCCCAGGAAGGAGTGTGCAAAGATCTCCCCCACCCTGGGGCAGTGGCTTTACCCAAGGCTCTTGAGCAGC
TTGACTAGAGCCCCCACACGGGCTCCTGAGCAGGGGCCTCAGGGACTCCCATTCACCGTGGGCAGGGGCCTCCAGCAGCTGTGCTCGCTGCACCTTTGGG
ATGAGTTCCCAGGGCTCTGTAAGAAGCAGGGTTGGGGGCAGTGGGCAGGTGGGAAGGGAAGGAAGTACGGTACCCTCCTGCCACCCAGCCACTTGCACGC
CCCAGGCCCTGGGGTCCCCAGGCCCCTGCAGGCTCCGGTTAGCCCACGGGTAGGTGGCAGGGCAGGAAAGGGCCCGAGAGGGGCAGTACCTGCTCCCAGG
AAGGTCTCTGCCTGCGGTGGGTGGGGTTACAGTCCCACCTCCCCCTGGGTCTGGGCACCTCATTGATGGCAGGGAGGAAGCTGGAGGGCAGATGGGTCGG
GGACAGGGTGGCCGCTGCTCTGAACTCTGTCGCTCCGTTCCCGCAGGTCTGCCTTTTCTTCCAGAATCAGCTGTTTCGGGGCAACCGGGCAACCAAGGTA
GACGCTCGGAGGTTCGCAGCTTTCTGCTCCCCGAACCTGCTGCCTCTGGCCACAGTGGGTGCTGACATCACAAGTAAGCCCCGCAGGAGCAGGGCCAGGT
GCCTGCCCAGTGCTGGTGCTGGGCGAGGGGCTGCTGCAGGGAGCTCGTGGCTGGGACTCGGCAGAGTTTGAGAGCACCATGCTTGGTTCTGACTTGCCCT
GGCTTGGTTCTGCCCTGGGCTGTGGAGAAGCCAGGGCTGCGTGGACAGGGCTGCTGCGTGGCCACAGAGGTGGGGGCCTCCTCAGGTCCCTGCAGGCTCA
GAGGCGGGAGGCCTGGAAGAGAGGTTTGGGGCATCTGGCCCTCATGTGTCCTGCCCAACCACTCGCCCCAGGCCTAGGAGGTCCCCAGTGACCACCTGGC
TCTGCCACACCTCTGTGTGCCGTAGCCTCGTCCCCAGGAGTTTCAGGGAGTCTTTCTGTCCTCTGGTTCCGGCGGGCAGCCCAGCCATCCTTGTGGGGCT
GACTCGAGCGATCCTGTGTCCTGAGGCTTCCCCCTKGGGGGGCCAAGCCCGCCCCCTGGCCCTGGCTGTAGGAGCAGCCTTGGAGCTTGTTCTCAGAGAC
TGGTGCCCTGCCAGGCCTCACCTGAGACGCAGGGCCACTCCAGTGGCCTGCCCGGAAGTCACTCCCTGGCCTACCGTCKCTCCGTCTGGGGTGTGCTCCT
GCTGAGGGAGCCCCTGCTTCCTGGACTCTACCCGGCCCCTGCCTGYTCCAGGTCCACGGCCAGCATGGCCAGTCCTGACCCCACGCCAGCACCCCTCCCT
GAGGCAGCGGGAGCATCCCCTCCCTCCTGGGAGATGCATCCTGCCTGCCCTGGCCCCCTGCTGTTTCAAGGCAGCYCCAAACCTGCCCTGTGTCTCATCC
TGACTGACTGAGGTGGGGTCCAGCCCCGGGGAGGCTCCAGGGCTTGGCAGCACTGGCCTTCCTTTGGGGGCATTTGACACCTCACCCGGGGCTGGGTGGG
GCTGCCTGCCCAGGACCAAAGCAGCTGTTCCTGTCTGGGYGGGTGGGGTGGAGGCGCCCCCTCACCCACACTGGGCTTCTGTCCAGGCCTGGGCCATGGC
GGGCTGGTGGGTCAAGCCCACAAGGTCACTGGACGCCTGGGGAGGCCCTTCCTAGGGAATCTCCCGGTGCGGCAGAGGCTCCCCACTCCCCCATTTTAAG
GAGGAGCAGACCCTCCTGGAGAAAGGGTTGGGCTATGGGCTGCTGGGGCACAGCTTCCTGGAAGAATCCCCAGACACAGGCAAGGACCCTGGGGAGCTTC
AGGGCCTGGCATGAGGGGGCCCTGGGAAGGGTCTGGCAGGGCAGGGGCCTTCCTGGAGCATCTACCAGAAGTCGGGGGACAGGAGGGGCTCTGGGCATGT
CTGGCTGTGGGGCCGTCAGCAGAAGCGGGTGGAGGCAGCGTCTTTGGATCTCAAGACAAGGCCTGTGTGTGGGAGTCCGGGCTCGGTGGCTGACTTGCTT
GTTGCCCCAGGGCCCCTCAGCAGGACRGGACAGAGGAAACTGCCTGGTTCTACAGGTGAGAAACGGAGGCAGAGAGAGGCAGGCTCCCACAGGGAGGCAC
CGACTCAAGCCTGTGCGCTGTCTCCTGTCCTGGGCTCACACCCCGTCCCTTCTTCCTGCTGTTCCCTCYTGTCCTGGGCTCACACCCTGTCCCTTCTTCC
TGCTGCTCCCTGGAGCACCTTCTAGGGAGTGTGAGGCCCAGAACACATCAGTGTGTCTACTGTGTGTGCAGCACACCGGGTCTCAGGGGCTTGGGCAGGG
GCCCACTTGCTCACCGAGGGCCAGGGCAGCCCTCAAGGCTTCTTGGAGGAGGTGGCTTGTGAGCTGGTGCTGGTAGGGTACTGGCTTGCTTGCCCATGCT
GGATGCTGGCACTCGGCCCCTCCAGCCCAGGGAGAAGGAGCAGCAAGAGGTGTGGGTGGTGCCCTGCAGGCCCGGCTCCCCCATGGGGCCTGATTCACAC
CTTATCTGGGGCTCAGGAGTGGAGCTTCTGCTGGTGGGTGGACCCCGCCCCAACAGTGCACAGAGGACCGTGCTCTGGATTCCAGGGACTCCGCCAGCAC
CGGGTGCTAAGCCCGGGCAGGCCACGAGGCTCAAGACACACCGGCCTCAGGCCCAGGGCCGTGGGGCAGCTCCTGGGCRCAGCACTAAGGCTGGTCTGGG
TGGGAGGCTGCCCTGGCCCCAGCCCCCCACCCCTGAGTGTTTCCCACGTGCGTGTGGGTGTGGGAAMCTGATGCCGGGCTGYCGGGCCGGTTCTGGCACC
CAGTGTTGAGAAACCTCAGGCCTTGCCCAGGGYGTGGCTGCTGGGGCCCCTGGGGAGGGGCACAGGTTGGCAGTGTGCACCCTCAGCCTCTCTGAGCCAS
CTGGGGGTAGCAATGCCGGCCTGGGCCCGGGTGCCAGCTGCCAGCACCCTGTCGAGGGCTTGTCCTGGGCTTTTTACCYACTGTCTGGGAAGTGAGGGGC
TGGGCTGGTCCGGGAGTCATGGGCGGGCTTGGTGCTCCTGTCCACAGTCGGCTCGGCGCCAAGGGGTGGGGGGATGCGTGGGAGGCTGGAGGAGGCCCTG
CTGGCCCTGTCCTTTCCATGTGTCTCAGGAGACCACACTGTCACCCCCAGGCAAATCCTGCACCCTTACCCTTCTGTGCTGARCCCTGRCCCCGGCCCAC
TCTGCTGGGGCCCTTGGAGCAGAGGAGGGTGGAGAAGGGGATATGGCTGTGGGGTCAGGCCAGGCCTGTCACTCACCAGCCATGGGTCCTTACGCTGGGT
CACCCCAAAGCAGAGCCCCAGAGCCCTCCTCTGTGCACTGGGAGAAGCCACCTCCCTCCCAGACGTGACCCAGCCACCCCAGCTGTGCCGCATCCAGCTT
TGAGGCCGCAGACTACACCCTTCGGCTCCTGTGCTGAGCTCCCGTATCTGTAGAACAGGGCCATAGCCCCTCTTGGGGGTAAGGGGCTGAGCCTGCAGGC
CTCACCTGGCCATGGAGCCACCAGCGCTCCTCTCTGCCCCCGGGTGTGGGGTCACGATTCCCCTGGCCTCTAGCAGGCCTGGGCAGGAAGGACTGGGATC
CCAAGGGTGGCATCCACAGACTCTCAGGAGGCGGGAGGTCAGTGCGGGGTGGGTGTGGGCCCTCTTTGTCTCTGTGTAGCCCCCTCTCAGCCATAACTCT
TTGCCAGTGGCAGCGGTGCCCCCTCCTTYCCTGTGCTGATGCCTTATCTGCTTGTCCGGCTGAGACACACGCCCTCAGTTAAAGGGCATCTCACGCTGCC
ATCATGTGGGGCTGACTGATGCTGTGGGCTCTGGTGGGGGTGGAAGACTCACTGCTGGGGGCTCCGCTCCCCMCTCTCTCATCCCCAGCACCCCACATCT
CCCCCCTTCAGCTCCACCATGCCAGGAAAGTCCTTTTTATCGCATGCAAGCTGCTCTAGCGGAAGCGGCCGGAGACATGTGGGTGACATCTCCCTGTGGG
CAGGAGGAAGAGCCCTGTGCGGGGGTCCTCCTGCCCAGGTTCCTGTCCCAGCACCGTGCCGGGCTCTCCAGGCGCCCAGGCCCTTCCCCACCCCTGGGCC
TCGGTTTTCCTGGGCTGGGCTCTCCAGCCTCCAGGGTGTTTACTGCCCTGGGCAGCTCTGACACCTCACAGTGTGGTGGGAGTCCCCAGTGTCCAGCCCT
GCTCTGCTGGAGGCTGCCATGAGTGTGGAGAGGGGCAGAGGGAATGGACCTCAGCCTTGGCGCTGGCCTCTGAGGGTTTGGGGGCCGGGCCTGTGGCATC
AGCCTCCCACCCCCACCCACATGGAGCGGGAAAGTCGGCAGAACCCTGGGGGCTCAATTGCTGCCAGAGTGGCGGCCTTCAGCTCGAGGACAAGCATGTC
CTCTGGGGAGCCCCTCTGCATGGACGGGTTCAAGGGGCACTGACCCCAAATAGCCATCCCTCCCCACTTCACCTGGGGCCTGCACCTCCACCATCACCCA
CCCTGGGTGTGGGGAGGGGGTGATGGGCACACATTAGGATTTTGGGGTGAACTGGATGGAGGCCTTCTCTCCCCAGAGGTGAGGGGTCCGAAAGTCCATT
TGTTCGCTCATTCAACCACTGACCCGGTGGGCAGTGGGCACAGTGGGTGCCTGGCAAGGGGCAGAGGAGGCTGGCTGGTTCGACGATGCTGCCCCATGCC
TGTAACCCAGCGCAGTGACTGCTGGTGGCTCCCCAGCTGGGCATGCCTGCCCTCCTCGCCTCTGCGCTCGCCTGACGCCCCCATGCGGCCTGCAAGACAC
AGCCGGGCCTCCATCTCTGCAGGACCCTCCTGCCCCTCGCCTGGCCAGCGGAGTTTCCCTGGGCTTCACCCTTGAGACTGTGTTGCCCATTGCTCGGCCA
TCGGTCTCTCGCTGGCCAACGAGTGCCTCCTCCCACAGCCCCGTGCACGCTGCGGAGCCTGGCACRGGCCGGACTGCGCGGAAGCCCGGGAGGATTTGCC
TGCGGGAGAGGAGGCAGGGCGAGGGGGCTGAGCCGCGAAGGCTCAGGGCTCTGAAAASAAGGGAGGAGGCGGCCTGTGCAGAGGGCCAGGCACTGGGCTG
GGGTCTCGGCTGGCAGGAGGCCTGAAGGCACCACACAGGCCCTTCCCTGTCCTCAGTCAACAGGGAGCTGGTGCGGAAGGTGGACGGGAAGGCTGGGCTG
GTGGTGCACAGCAGCATGGAGCAGGACGTGGGCCTGCTGCGCCTCTACCCTGGGATCCCTGCCGCCCTGGTAGGGACCGCCCCGGCCATCCTGCCCCTGC
AGCCCTGAGCCCCAGCCCTCTGCAGCTCCCACGGCCCTCAGGCTCCCTGGGGCCCTCACCAGCCAGTGCAGASCCCGCGTGGACCTGAGATGTCTGCAGT
GTGGCCCCACCAGCCCCAGGCCCTGTCCCCTGTCCTCCGTCGTGGTGCTTTCCAGCCTCTCGGGGAGTGGGCAGGGTTGGGGCGCGGCTCACAGCCAGAA
CGGGGTCCTCCATGCTTTTCTAGAGGCAGCGTCCTCCCGCAGATTCCAGCTGGCTGGGAGCCGCCCCTGCTGTGCTGGACAAGGGTGTTTGCTCTGGGGC
CTCTGATGGCCTTCTTGGCTCCTCTCCCACCTCTCTGAAGTGTTTCCACGGCGTTCTGCCACACAAAGCCTTCGTCCCTACAGACAGGGCGACCCTTTGG
GAGAATGTGGGGGGAGCAGCCCCCTCCAGGTGCCAGCAGCCATGCACGTCTGCCAGGAGCCCCACTGTCCCGGGAGCAGAGCAGGCACCAGCTGCCCCTG
GCTTGGGGTCCCTCTCCTTGGGAGGGCATGGGGCGAGTCTCAGTGGTGCTGAGGGCAGAGACCCTCACCATCCAGCCCCCACCCCACCGCCCCACAGGTT
CGGGCCTTCTTGCAGCCTCCCCTGAAGGGCGTGGTCATGGAGACCTTCGGTTCAGGGAACGGACCCACCAAGCCCGACCTGCTGCAGGAGCTGCGGGTGG
CCACCGAGCGCGGCCTGGTCATCGTCAACTGTACCCACTGCCTCCAGGGGGCTGTGACCACAGACTATGMAGCTGGCATGGTAGTGCCGGGAGATCAGGG
CCTAGCGGGGAAGGGGACAGCCTGAGGGCCTGGCAGAGGTGGGCTCTGACCCACCCCTCAYGGGCTGGGGGCCGTGGTGAGTCGCCCTTCCTGCCCACAC
GCCCCCTCCTCACAGGCCATGGCGGGAGCCGGCGTCATCTCAGGCTTCGACATGACATCGGAGGCCGCCCTGGCCAAGCTATCGTATGTGCTGGGCCAGC
CAGGGCTGAGSCTGGATGTCAGGAAGGAGGTGCGGGCGCTCTCGGGCTGTGGGCAACCCTCGGTGTGCACAAGCATGTCAGTTGGCTCCCAGGGGCATGT
CTGGGGCGATGCCGGAAGAGCCTGGGGGCCGGTCCAGGGTGTGTCCTGTTTGGGAAGGGGAGGGATGTGGCTCCCTATAGTGGGGAAGGGCAGCTCTGGG
CCCAGGCTCCCCACAGCCCTCACTGGACTCCCAGCCCAGGCTCCGCCTGTCCTTGTGCCTTCTCAGACTGCATGGAGACCTGAGGCTCCCCTAACTGTCG
CCAGGAAATCCTCTCCTGCTCTCCACTCTTCCTCGAGGGTGGGGTTCAGACACAGCTGGCCCCAGACCCTTGGGTTGCCAGCCTCTGGGGCTGGAYGGAG
GCTTTTGGGGCCCCTGGAGACCCTGAGCTGGTAGGGCCAGGGAGTGGGGCTGGCCTTGGGAGGGGACCCAGCCCGCTCTGGCCCGAGGGATGAAGCACAC
ACGGCCGAGGCTCAGGCCAAGGGCAACCCCTGACTGTGCCCGGGTAGCCCGACCCTCCAGGCTGTCCTGGGCTGCCCATCCAGCCCTGGCAGAGCCACTT
CACCTCTGTTCTCTCCACCAGCTGCTGACCAAGGACCTTCGGGGGGAGATGACGCCACCCTCGGTGGAAGAGCGCCGGCCCTCACTGCAGGGCAACACGC
TGGGCGGTGGGGTCTCCTGGCTCCTCAGTCTGAGCGGCAGCCAGGTAATGSCGTGGGACACGGGCCTGAGTGGCAGSTGGGGRCTGTGCACCCTCTTGGT
CACCCTGGGATGCACCAGGCAGGCACGAGCCCCTGTAGCCATCACTCGAGCCCAAACAGTTAGGCACACCCGGGTTCTGGGGCCCAGGAGGAGGGTTTGG
GGTCTGCAGCAAGGAAGGTTTGCAGGGTCTATAAGGCAGGAGGCAGGAAGGGCCAGGCGGTGGGCACACAGCAGGGAGGCCTTCTGACTGGCGGCGCTGC
CTTAGTGCGGGGCTGCCTCGGGAGCTGCCTGTCCAGAAGAAGGGCGGGTGAGTGGGGGCGGTGCTTGCTCTGGGCTCTCCCAGGCTCTGAGCACCAGGGG
TTCCAGGTGAGGAACCCGGAGGTGAGGGCCAGCCTTTGAGCACGTCCCCTGCACAACTGAGGTGCCCAGACCTAGGAAGGGGGGCTTTCGAGGCCTGGGG
TCTGCAGGGGGATGGGGCCTCCCTGGACCCCGCAACATGCCCCCTTGGCTGCTGGGCCAAACATCCAGGCCTGACATGGGGCCTGGCAGGCCAGACAGCC
TTGCTCCCCACTGTGTGGGGTCCTGCCCCGGCCTCAGTGCCTCGGTTTCCCCCTACAGGGATGGACCTGTCTTGTGAGCCATGTGCTGGAACTGCCACTT
GCTGGGGCGGGTGATGGGCAGATGGAAAGGACTGGCGTGCATGGCCTGTTATTAGGGTGGCTGCATAGGGCCTGAATGCTGTAGGGAGGCAGGCCAGAGG
CAGCAGCCTTGTCACCAGGCCACGTTGTACCCGCTGGGTGTGGTGGCACCTGTGGGGCCTCTGCCAGGACCGCTGGGTGTGGTGGCCCCTGTGGGGCCTC
TGCCAGGACCGCGGCCTTTTGGCRTCTTGGGGAGCTCCTGGTGCCCGGTGCTGGGGGCAGGTGGCTCTTCTGGGAAGGTGCAGCCGTGGGAACAGGGCCT
TCCTTCCAGGGGAGGGGTCTGGCTCTGCTTCCCACGCTCTCCTTATGTGGGTGACCATTCCGTCCCGACGGCGGTGGGAGCAGACGGGGGAGTCTGGGAG
GGTGGGTAGCAGGTACTGGCCACACACCCGTTGGGGACAGGGCTGGATGGTGGTCTCGTGGCCTGGCCTTAGCTCCAGGGGAAGGGGTCCTAGGTGGGCC
TGGATGGGGTGGGGTGGTGAGGCTCAACCCCAGGCCTTCCGATGTGGCAGCTCAGGTTCCTTCTCACCCACGCCCTGGGATCTGCGGGCCCTTGTGTGGG
GGCTGGCAGGGGTCATACAGCACCGGGGACTGCCAGTTCCACCAGATGCCAAAGGGAGGCGTGGGTCCCAGGGTGCCGCCTTCCCCACCTAGGAGGCAGA
TGCCCTGCGGAATGCCCTGGTGCCCAGCCTGGCCTGTGCTGCTGCCCACGCCGGTGACGTGGAGGCGCTGCAGGCGCTTGTGGAGCTGGTGAGCCTCCCC
CACCCTGGGGGCCCAGCCCCAGCCACGCCTGGCCTGGGGGCTCTGAACCCTGTAGGCAGGACGGCCTTTCATCCACCCACTGACCACACTAAGCCCTTGT
CAGCCAGACTGGGCAGCAGGACTGTCCTGCCAGCTTGTCAGGTCTCACTGAGGCTTTGAGGGTGGGCGCAGGGGCTGTGCTGGGCCCTACCCTCAGAGGG
ACCCCACCCTCCCCATGGCCTACCTGGCCCCGCCTGGGTCTCCCTCAGGGGTCGCATGTCCTTGTGTTACTCCAGGGCAGTGACCTGGGCCTGGTGGACT
TTAACGGCCAAACCCCACTGCACGCGGCCGCCCGGGGAGGCCACACAGAGGCAGTCACCATGCTGCTGCAGAGAGGTGTGGACGTGAACACCCGGGACAC
GGATGGCTTCAGCCCGCTGCTGCTGGCCGTGCGGGGCAGGTAATGGRGCTAGGGCTGCACAGAGCTGCCTTGGACAGGTGGGCGCAGAGAGGCTGTGGGC
TCCTGCACTCAAACAGCCTCCCGGGGCTGGGCTGGGAGAGGTGGAGGACACCTGCTTCCTAAAGGCTGCCCCCGCAGCCCGGGGCCCAGTAAGACCCCGG
CCCAGAGTTCCTAGAAAACAAAAATGTTGTGGACAAAGCTGGGAGGACACGGTGCATCTCTGTGCACCTGTGGGTATGGGGGGCTGGGGTGGAGGTGGGG
CAGAAGGTCCTGGCCCAGCAGCCAGACGCGGTCAATAAAAAGCAGGCTACGTGGCAGCAGATCTGGGGCTGTGACAGGCAACTCGGGCCCTGGAGGACAG
GCCCAGCCTGTGCGTGTGGGGGTCCCCTGCCCCACCAAGCAAGCCCTGGCTGGTGTCTCTTCCCAAAGTCCAGAGCAGCAGCAGAGACGGAGTGTGTGCC
TGTGCCCCTGCGTGGGGGGCGGGGCCAGCACTGGTGGGATCTGCGTCCCGTCTCCCCTTCCTACTCTTTATTGCCCCAGCCTGGGAAGGCCAACGACCTG
TCTGCTGGTGCCGCTGCCCGGACCCATGGGCTGCTCAGAGATCCCAGGGCCCCTGGGGATTCCTCCCTGTGGGTGGGAGGACTTGGCCTGCAGGACCCTG
GGTTCTTTTCGGGGAGGGAGTGCTCAGGAGTCCCATGGAGAGAAGGCCGGGGTGTCTGAGCCTGGGGTCATGTGACCCTGACGTGTTCAGTTGTGGGTTC
CCCTCCCCAGCGGTGAAGCGGTGAGCCCTGGGGTGGGGTGTGGCACCTTTTGTGAAGTGGGTGACTGGGGTAGAAGGTTCTTTCCAGCCTCCTGTGATCA
TTGACAGGGTGCTCAAAAGAATAGGAGAGAACAGGGTGGTGGACAGGAGGGGGCGGGGCTGTGAGGGTCCCCCCGAGCAGGGCTGGGGTGATCCGGACTG
GAGCTTCTAGACTGGGCGTCCTTGGGTGTGGGTGGGTGGCGCGGAGACGAGCTCACACAGTCCCGCCCCCTCGTCTCCTCCTGACTCACAGGACCAGGCT
CACAGCACGCCCCCAACCGGTCTCCCAGCCTCGCTCCGCTGCCAGGCTCCCTGAGGCCGCCTGCCTGGCCCTGCTGTGCCTGAGTGGGGTATGGGGAGGC
CACTGCCTCATACCTATTCCCAGGCTCCCTAAATGGGGTGATGGGRGGATCTGTGGTGCTTTGCAGGGGTGGGGGCACGGCCAGCGATTATGGCACAGTC
TTTAGGTCACCCTGTACAATGGGCTGTGTGGCCTCCGGCCTCGGGCCTTTGTGCCTCTGCTCCTCCTTGCTAGAGCCCCGACCCCACCCCCACAGACTCC
ACTGTCCGGGTGCCCTGCCCCCACTCCTACCCAAGGGCAGTCGGCCGGATTGATTCAGTGTCCCCTGCGCCTGGCTGAGGAGGTCAYCACGGGGTGTGAT
CAGCGTTTGGGTGTGCAGTGGGGCCGGTCAGCTCATGTAAGGCTGTCCTCTGAAATGGGCTGTCCCYTTGGAATGGGTTGGGGAGACTGCCCTGGGAGGA
GCTATTCTGCTAGCACCAACTAATGCCCTCCCCTGGGTGCTGGGTGCGGGGCTGCCACAGAGTTGACCCCACCCCTTGCAGAMCTCAGCTGCCCTAAGAA
GGAGTACTGGACAAATGGAGGTGGTGGGATCCCGGGATGATGTCACATGGGCCTAGGCAGAGGATGGGGGGATGGGCCCTTGTCTGAGGCTAGGGCTGTG
GGGTCTTGGGCCGGCCGGTCCCYGTCCCTGTGCACAGGACATGAGCTCTGCTGGCTCCTGAGTGAGGTGCAGCGGGGCTGGGCTGGCSAGGGCAGAAGGT
CAGCATGCTCATTCTCACACAGGCATCCGGGTGTCATTGGGTTGCTSCGGGAAGCCGGGGCCTCCCTGTCCACCCAGGAGCTGGAGGAAGCAGGGACGGA
GCTGTGCAGGTGAGTGCAGCTAGAGCACCTGCTCTTCCAGGGATGTGGGGGACACAGCTTGGGGAAGCGAAGCCAGACCTGCTGGGAGGGACAAGTGAGT
CAGGGTGTGGGGGCTTTCAGAGGCGAGGCCCGCTGACCTCAGTGTGCACCAACCTGGCTGATGGGAAGAGGTGTCTACCCTGGACCATGTCATGGGGCAG
GGGAAGGAGTTGTTCTCAGCTGAGCRAACAGTCCAGCAAGGGTGTCTCTGTGTGCACATGTGTGCATGTGTGTATGCATGTGTGTGGGTGCRTGTGTGTG
TGTGTGGTGGGCTTGAGGAGGGGTATGGGAATTGGTTGTCGGGTGTGAGAGGGGCTGGGGTGTGGACTGGGGGGTGGCTGGGGCTGCATTTGGGGAGGTT
GGGGCAGGTGGGGCACAGAGGAGCTGAAGCCCCTGGCAGGTGACAGGTCTCGTGAGCTCTGTTCTCCCCAGCGTGGTTCCTGTCCTGGGATAAACTGACC
TAGGCCCCGCCTCCACCTGCTGGCCGCATGGCACCAGTGGCCAGTGTGCCTTCCGATCTCATGCTGCCGAGTGACCACCGAGGCAGGCTCAGGCCTTCTG
ACATCATGTTGTTGTTGGGGAGACTGAGGCGCAGGGAGGCCTTCGGCGAGGGTGTCGGTTGTGGGTGGAGGTGGGCCAGGGATGCAGGGATCCTCCTCTG
TCCGCCACAGCCAGAATCGCTGCCCCCCACCCCATGCCTTGTGCCTGGTGACTTGGCGCTGCCTCCTGTGCCCAGCCTGGGCTGCCCGAGGCCAGGACGA
CTCCRAGGGACCCAAAAAGGAGAGTCGGAGGCAGGAGACCTGGGCCGGGTGCAGGTGGTGGCTGGGGTGGGGGTGCTGTGAGTGGYGGGGTCTGTGCGCC
TGTAAGTCCAGAGTCCCAGGCTTGGGGAGTGGGTGATGGCGGGGGCTCGGCTCACTGGCTGGGAGGGGGTGGGTGCAGGCGCCTGCCCAGCAGGAGGAGG
ACTAGCAGCTCTGGCTTCTCCTCTGGGACCGGCCCACAACCCCTGGTCTTGCTTTTGAAGGGACTTCYGGGGTGACTTGGTCAAGATTTGCACTCCAGAC
AGGCCTTGCTGGCTCCATTGACAGATGGGGAAACTGAGGCAGTAGTCAGGTCCTGTGGGAGCTGGGACCAGAACCCTGGTCCAGGACTCTGCTTGGAAGT
GGCCTGGCCAGCCTGAGCTGCTGGCTGGACTTGAGCCCCTCGGCTAGGCCTTCCTAGGGGCCGGTGTGTGTGTGGGGCTTGGCCTCTTGGAGCAGGTCCA
GGAGGGGCCAGTGAGGCCATCCAGCAGATTCGCTGCAGAGATTACCCAGTGCCACTGCAGGGCTGCTGCTGTTTCCTGGGTAGGCGCAGAGTCCCTAAGG
GCCCTCCAGAGGAGGGGGCAGCCCCTTCCTCACCAGGCCACTTCCCCCAGCCCCTGCACACCATGGGTGGGTGGAGCCTTCCCTGCCRGRTCCCCACCTG
GCCTGCTCCTGGCCTCCCCAGGTGGCGAGTGAGTTCTTCCCAGGAGGGTGGCAGGGTGAGGAGGAGCTGGTGAGGGCCTGGCAGGTGCTCCCCACTCCAG
GGCAGGTGGGCCCAGACCCCTGTCCCAGCCAGGACCCCCCCATGCAGTCTGCCGGGGTCCAGGGCCAACCGTTATCCTGGGTTGCCTCCTGTGTCCCCCT
CTCTGAACCACTGGGCTGCCTCAAACTTTCCTTCCACCTTTGCGGACCCCGCCCCGGGAAGAGCGGTGTGTTGTGTAACACGAAACTGGCGTGGGCTGCT
CGGCAGGTGGGCGTGCATATGTGTGTGCAAAGGCGCATGTGCTCATGTGTGTGTGCACATATGCTCGTGTGTGTGTGCATGTGTAGGTGTGTGCTTGTGT
GCTCCTGTGTGTGTACATGTATGCTGCTGTGTATGCTGCTGTGTGTGCATGTGTGTTCATGTATGTTTGCGCATGTGTACCCGACTTGAGTCGCAGTCCC
ACCCACTGGGTGAAACCAGGCTCCAGGCTGCCCGATGGCCCCCAGTGACTCCTGCCCCAGGACCAGGTCGCTGCTGGGTCAGCTGTTTGGGGCTGGCTTT
GTAAGAKCGTCCAGGCCACCTGGGGGACAGGCACGTGGGCAGATGGACAGGTGCCCAGCAGGCCCCAACAACTCCTCCTCTGCCCCCACCCCCAGGCTGG
CATACAGGGCCGACCTCGAAGGCCTGCAGGTGTGGTGGCAGGCAGGGGCTGACCTGGGGCAGCCGGGCTATGACGGGCACAGCGCCCTGCACGTCGTGAG
TGCCCCCACCCCCTGCACCCTCTCCAAAGGCTGCCACCTCCAGGAAGGACACCTGGACAATTCACCAGCTCACTGCTCTGCCCCTCCCCGCTCTGCCCCT
CCCCCAAATGCCTGGCCCTCCCCATGCAGGACCCGCACAGACTGGGTCCCCTTCCCGGGGCTCTGAGTGGTGGGGGTGACGAGAGTGGAGGAGCTGCTGG
GGCCCTGTGTGTGTGGGCTGGGGACAGGGGAGGGCATCCTGGGGATGGGGATCCTTGGGCCAGGCTGCTAGTCAGTGGCCCCAAGGCAGCCCCTCCCCAC
TGCTTCCCCATAGGCAGAGGCAGCCGGGAACCTGGCAGTGGTGGCCTTTCTACAGAGCCTGGAGGGTGCGGTTGGTGCCCAGGCCCCATGCCCAGTAAGT
CCCCACCCCAGGCGGGGCTGACACCCCCCAGTGAGCTTCTAGTGCAGGGCTGGATCCTGGCTCGGGGGGGCGTAATCAAGGGGAACAGAACCGGAGGAGG
CTGAGATGGGTCCCAGCCAGTTTAGGGTCTGCAGAGCCCCTCCTGGGGATGTCCAGGGTGGAACACAGTTTAGAGGTGAGGAGAAGGAGAAAGGAGCAGT
CAGGGAGGGCTTCCTGAAGGAACTGACCAGACTTGAGCACTGAGGGCCCAGCCAGGGCTCAGCATCCCCTTACCCACCCCTGCCCCTGCGCCCTGCCCCA
CCGGGACCCCCTAGGCTGGGTGCTTCCGCTTGTCTCCCWGGCCAGTTCCCAGCTGACACCCCCATTCCCACTTGGTTGTGTGGCCCTCCCATAGTCTCAA
GCTGGGTTTGCTCAGGCTCTTGGGCTGTGCCGTACAGACGGGGTGCCTGGGCTTGTCTCTCTGCCCTGCCTTCRCACTCTACCTGGGTGTCCTTCTCAGG
AGCCCTCATGTTTTCAGGAAGTGCTGCCTGGTGTCTAACCTGAAGGCGTCCTGCTGCAGTATAAGCCATTCCTTCCTCCCATGACCTGCTGGAGGGGTCT
CAGGCATGACCCCACTGCTGGGGCTGCTTCCCAGCCTGCTCTCATGTAAAGCCTGAAGGCCTTTGTTGGGCAGGACGGCAATAAAGTCTCTGACATCCCC
TCACCAGGTCTGTACAGCCTGGCTCTGAGAGGCTCTGTCTGGGTCCGGGACTGTGGATGTGTGTGGGGAGTCAGGCCCAGGCTCTGTGGGGTCTCTGCGG
GGGTCACTTGGCCCATCCTTCCGGGGGCAGCTGTGCGTGTGAGCTGGGCAGGGTGGGGTGCATGGAGGTGACTTGGCCAAGTGGTCCTTTCCCAGCTGCC
MCTCCCCCTTCCTGCCACCCTGCCTTTGCCCAGGCTGGTCCCTCCTCCAGACACCCTCTGCCCATCTCCTTACCTCCTGCGCCTTCATTCTGGAGCTTGA
AGTCCCCTCCCCCAGGCAGCCCTCCAACCCCTGGATGAGCATGCTGCCCCTGCTTAACTCTTTAGTCCTCACAGTCCCGTCCCAGTTGCTGTCTGGTTTT
CTGTCACCCCAGTATCGCTGCACCCGGCCCCCCTCTCAGGCCAGGGCCACACCAGGGCTCCATAGGGCTGCGGAAGCCTGTGAGTGTCAAGGGGGCTTCA
CACTCTGGTGGTGAGCCCCTGGGGACCATTCCAGCCCCTGCTCTGCCTGAAGCTCCTGATGCAGCCTCCACCGTGAGCCAGGCCACCCTGTAAGGGAAGA
GGTGAGCTGTGCCTGCCTGGTTGCACAGCCTGGGCAGGTGGGCGGGTGGGGCGGGCCCTGCTGCTGCCCGGTGGGGGTGGTGCTCCAAGGCCAAGGGCAG
CCTCGTGCCTTCTTTCAGCTGGGGCTGAAATCGGGGGTGTGGACCCCTGGCCCCCATCATGTGTGCATGCACTGGCCTGGGATGGCCAGGGACTCCCTGC
TGCTGCCCCCAGCCCCTGACCCCTTCTTGCTGGGTGTGAGGAGCATGGGGGCTGCCTCCCTCCAGGCCTCTCTACCTGCCCAGGTGACGGTTCCTTTTGT
CCCTCTGTTTGGCTGGCCTCTGGACTGGAGCCCCAGGAGGGCAAAAGCATGACCCCAGAGCTGGCCCTTGGCACCTGGGCATACCCCAGGCTCCTCAGCC
TGGTTCCCAAGCCTGGCTGGTACTGCCGCTGGCATCCTTGCTGTCCTCACCCCGACACAGGTGTGCCTGGGCCTTGCACAACAAGGTGACGCCATGCGAG
CGTGGCAGGGCCGGGGAAGCCTTTGCTCCTCACCCTGGTGAGGCCCATGAGGGGCTGCAGGTGGAGGGAGGGTGGCACCGGGCCCCAGAGCCAGGAGCCC
CTGCTGTCCCCGGATGGCCGAGACCCTTGGAGGGCCTTGGGAGAGGCGGTGGGGCATCTGGACAAATGCCTGGTGCAGGTGAGAAGGGGTGGGACTACCT
CCGGCATCCCTGGGCTGAGCCCACCTGGTCTCCCCGGTTGCTCCTGCACAYGGCAGTGCCCACCTGCTTCCCTCAGCTCCTGAGGGGCTGGGCAGAGCCT
GTTGCTCACGCCACCCCACTCAGTGCTGCTCCGGGTTGTGAAAGCTGCAGGTGGCTCACGTTAGCCCACATGGCAGCACCCTCCCAGAGCAGGTGCCAAC
CTGCCAGTGTAGACACACCGACTGATGCCGGGGGTGAGTGTCCTGTAGTGTAGAAACGCCCACTCATCCTGCTTGTCCCGCAGAGAGCATTTGTCAAGCT
GGCCTTTCTCCAACTGGGTCACTGATGGAGTTCGGCAGAGACGGCTTGGGGGCCACGGGCTGGGCAGATGGGGAGAGCTCCTCACAAGGCTGGGCAGCCA
GACCCCCATTGTCAGTCCCCTCCAAACCCTCGTGGGATGTAGGGCCCTACCACAGGGAGCCCCGGGACTGGGCCAGTGTCTCAGGAGGCTGTGAAGAGTC
ATAGGCTTGAGTCTGGGAGCTTTCTCGGGGGCCGTTTTGTGCCCCTTGGGGAGAGGCCAGAGGGGCCCTGGGTAAGGGGACTCCTCTAGAATCACCCAGA
AGTGGCAGGAGGTGCAGGGCCACTGCTCGGGGCTCCCTGGGCTCTGAGCTGGGCAGTGACCTGGCCCCAAGGCCTCTGGCTCTCTGGCGTGCAGTGGGAA
CAGCCGGGACAGACAGGCTTGGAGCGTTCGTGTCCTGCGCCGCGTTGGTGTGTTTCGTCCCCACTGTGCCTGTAGGAGGGCACCGGGTCCCCGTCTATCC
TACTTCATGGCTGAGGAAGCTAAGGCACAGAGTGGCCCCGTCCTGCGCCCAGGGCTCTGCGTTGGCACAGGGCAGAGCTGGGCTGTGAATCAGGGCCGCC
TTGTCTCTTGCTGTGGTGTGAGGCTGTGGGAGACTCAGGAATGAGGCACAGCCAGGTGCCCAGTGCCCGTGGGACCCGCCTCCCCACAGTGGGGTGGCGC
CGCTCACACCTGGTAATTTCACGCTGGGGGAGGCCTTGGTTCCTATAGCCCATCTCGAATCACCTGGATCCCAGGGCTATCTCTGGGGAACATCTCCTCT
CCATCACGACTACTGTCTTTTTCACCAGCATTTTCTATCCTAAAATCAGACTCCTCAGCTGAGGGCCCTCCAGGACCGCCCTTCCCCAGCTGGAGGTAAC
CAGATTTCTCGTGTATGCTAGGAAGTTCCCCTTCTGGTCACACCTCAATATTTCCTGCTGCTGGTGGGAACTGCAGGTGCTTGTACTTGTCACCTTCTCC
CCGTCCTCTCTCGTCAGTTCCCTTGGATGCTGGACACGGGAGCCACCTGGGCGAGGGGAGCCCATCCAAGTGGCTGTGCGTCGGGAAGAGTCTGCCCAGG
ACTGGGCTAGACCAGAGCTTAGAATTAAGGAGTGGTGGCCAGGCTTGGTGGCTCACACCTGCAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATAGC
TTGAGCCTAGGAGTTTGAGAACAGCCAACATGGCGAAACTCTGTCTCTTAAAAAATAAATAAAAACATTAGCCAGGTGTGGTGGTTTGTGTCTGTGGTCC
CAGCTACTTGGGAGGCTGAGGTGGGAGAATCGCTTGAACTGGGAAGATGGAGGTTGCAGCGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGCAACAC
AGCAAGACTAGGTCTCAAAAAAAAAGAAAAAAAAAAAGAAAAGAAGAGAGGTGGGTTCTTCTTGCCCATGCAGTTGTGTTGGGGGAGGAGCTCCCAAGCT
CCTGTTCTTGATCTCAAGCTCCCCTATGCCCACTTCCATCCCCACCCCCATGCCGCAGCCCCTCGGACTCCACACCCAGGCACTGAGACCCACAGATGCA
GCGATGGCAAGGCCTGTCATCCCTTCTCTACCACCAAGAGCTGTGCAATCCCCAGAAGTCACTGTCCCTCCCTGAGCCTCAGTTTCCCCAACTGCAAAAT
GAAAATAACAAAACCTTTCTGATTCCCTTTCCAGGGTGGCTGCGGTGGTTGAGCCACACGCGGCCCATGTGGAAATGTCTGGGGGGTCCCTCAGATCTGG
TGGCTGTGTTCTGGTCTGGGGCTCACCTTGGCTCCTGAGCACTTGGCTCCTGGCTGGCTGGGCGGGTGGTGGGATGGCGTGTCACCGCCCTGCACTGGAA
TGAATGGTCACCACCCTGCTGCCCAACCCCATACAGACACACTAATGGCTCCAGACTTGGGGCAAGTGCTGAAGGGGGCTCTAGGGTATTTCCTAGAGCC
TGAGCCCTCCCCTCAGCTGCCATGTTCTGCTGAAGCAGAGTCCCTGGGAGGCGCCACTGGTCAGGCCTGGACACCTCCAGGTGACTAAGTGGGTAGGACC
GGCAGGGCCAGCTGCGCCAGGACGTTCGGGGCTGGGCTGTGAGTGGGGGGAGCGAGGCTCAGGCCCTTGCTGCGTGAGGGGGTAGGGCGTCCCTCCCCCC
GCGTGGGAAATGAGGAGGCAGGTACGGGGCTACCCCTGTGGGCTGCGGGGTGGGGGTTCAGGGTCTGAGAAGCAGAAACCTCCCTCCCTCCAGTTTCACT
TTCTCTTTACCCCTCCCCTTCCCCCTCCCACGAAGTTCCCTTTGAAGTGAGAGGGGCTGGGGTGGGTGTGTCCAGCCCAGCCCCCACACCCACCGGAGAG
CTAGCGCGGCCCTGGGCTCCTGTCGGGCGCTGGTCCTCACCTGTTCCGGCCACCCTGGGCCTCGACCCGGCCAAGGTGGAGCCCCGGGCCCTCCGTGCGC
CCGAGCACCCCCGGCCCAGACGAGACGGTTCGGGCGTGGCCCGGCGGGGACCCAGAACCCGGGAGGCCAGGTGCGCCCAGGCCAGGCGCTGGAGGCTGGG
GCGCCGGATGGGGCGGGGCGGCCGCTGAGTCAGGGCCACCCCCGCGCGGGCGCGCGGAGCAGGTCCCCGGGCCGTGGAGGATCAGTCGCGGGACCTATGG
GCCCGGGAGCCGCCCCGCCCGGAAAAACCGGTCGGGCCAGCGCGGCGCGGGCACATTCCGGCGCCGGGAAGGGCGGCTGCGCCGCATAAAAGGCGCCGCC
GCGCTGGCCACCGCCGCTCGGAGCTCAGCCGCCCTGCCACGCGGGGCCCGCGGGACGAGGGGACGCCGGGGCCAGCGAGGACGCGGCGGGGCTGGGCTTG
GCGGCTGGGATCCCCCAGCGCCAGGCGAGGGCGTCTAAGGCGTCCGGTACGGCGTCGGGGCCGGGTGGCTGCAGCAGGGCAGGGGGTGCGCGACCAGCGG
GGATCTGGGCGCAGGGGCCGGTCCCCGGGATCCGCAGGCGACGCGGGCGGTCCCAAGGGCGTCGGGGGCTCCTCTCTCCGCAGCTCGGCGAACCGACGGT
GTTGGGGACTCGCGCGCTGGGTCCAGTGGTTCTTAACAGTTCAACAGTTCTGTAGCGCAATTGTGAAATGTTTAGGACCACTAGACCCGGCGGGCGCGGC
GACAGCGACGGAGCGTCCCACGCGCGGCCTGGAGTCAGAGTCACAGTCAGGGGTGCGCCGGCGACCAATCCAGGGGAGCCCACGGACCGGCTCCGCGCTC
CAGGTCGGCCGCCCCATGCGCCGCGCCCCGCAGTCCCCAGGGCCTGGCTGGCTCCACCTGCTGCCAGGGAAGACCCTCGGCCGGAGAGCCAAGTGCTGCT
GGGAGGTGGCCGGGCGTGGCCGGGCTGTGCTGTGGGAACCGCTGGGTGGGGGCGCGCTGGGTTGCCCACGCTCCTGGCGCGCTGCCGGCCTGGAGACGCC
GCCGCCGCCCTCTTGCACCCCGAGGGCCCGCACCTCGAAACTCCGTGGAATTCCCAGCGAGGAACTGGCGGTGGGCCCGTAGGGTTGAGGAGCGCTCCTT
GCCCTGGGCTTCCTGGGAGCTGCCCATCAGGCTGCCGGCAGCCGCACCCTGCTGGGCGGCCGATGGTTCCCGCTGCCGGCTCCCCGGAGCGTCTCCACTC
ACTGAGGCCTTAGGGAGCGCTGCGCGGCTCCTACGAGTGCGCGCTAAACTCGTGAAGGACCTCGAGGCACAGGAACTGGGGGTGGGGAGGAAGTTTGCAG
ACTACACCCAGGTAGAGGAGAAGCGGCGCCCATGATGACAGGTGCCTTCGCCGGAGCCTCCCTGGAACCTCGTGGTAGCTAGCGCCCACAGGAGAGGTGT
GCGCGTCAATCTGCGTGTGAAGCCCCGGGCGGCCCTGGGAGGGACTCAGCAAAGGGTCGAATCTGTCCCCACCTCCAGCCAGGGGCCGGGGTCTTCTGCC
TGGTGCTGCCTGGCCTGCTGTGTCCTCTGGGGTGGAGGGTCCCCCTCCAGTCCCCACCTCCTCACCCAGTGTTTAGAGAGCTGCGGGGAGTCCTGGGAGA
TGGGTCAGACAGGCCTGGGTTTGAGGCCTGCTAGGGTGGCCTTGGGCCAGTCACCTGCCCTCTCTGAGCCCGACCTGCACACATAGGGGGTTGATGTGAG
GAGACAGGAGGTGACTGTGGAGGGCTGTTCCAGAAGAGGGCCAGCAGCAGGACAGCAAGGTCCCCTGGCCACCCAGGTGGGGGGAGTGGAGTTCCCGGGA
GAGCATCCACCACTGGCCAGTGCCTCC


SNP Information

Context             (SEQ ID NO:38294):
AACCCCGTCTCTACTAAAAATAAAAAATTAGCTAGGTGTGGTGGTGCATGCCTGTAATCCCGGCTACTCGGGAGGCTAAGGCAGGAGAATTGCTTGAGCC
S
GGTGGGTGGAGGTTGCAGTGAGTCGAGATGGCATCACTGTACTCCAGCCTGGGCAACAGAGTGAGACTCTGCCTCAAAAAAAAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV26352486
SNP Position Genomic:     10167
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38295):
CTTACGAACCCCCTGCTCCCCTGAGTGGGAACATCTAGGCTTCCCCTTCCCAGCAGCAGGGTGGCAGGCAGCACCACCCAGGACAGGACCCTCCATTTGT
R
GCCGGCAGCCCTCACCGGGCAAGGCGTGACTGCTTTTTGAGGCCCACGAAGCTGCCCTGCGGTCCTTGCTGCAGGGAGCAGCCCTGGGCAGCCTCACAAA
Celera SNP ID:            hCV1604079
SNP Position Genomic:     14969
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,8)      total(G,6|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38296):
GGTGGGTGGAGGTTGCAGTGAGTCGAGATGGCATCACTGTACTCCAGCCTGGGCAACAGAGTGAGACTCTGCCTCAAAAAAAAAAAAAAAAAAAAAAAAA
R
GGAAGAAAGGAGAAGAAAAAGAAAAAAGAAAGAAATTGGCCAGGCTGGTTTTGAACTCCTGGGCTCAAATGATCTTCCTGCATCAGCCTCCCAAAATTCT
Celera SNP ID:            hCV26352487
SNP Position Genomic:     10268
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38297):
GGGACCGCCCCGGCCATCCTGCCCCTGCAGCCCTGAGCCCCAGCCCTCTGCAGCTCCCACGGCCCTCAGGCTCCCTGGGGCCCTCACCAGCCAGTGCAGA
S
CCCGCGTGGACCTGAGATGTCTGCAGTGTGGCCCCACCAGCCCCAGGCCCTGTCCCCTGTCCTCCGTCGTGGTGCTTTCCAGCCTCTCGGGGAGTGGGCA
Celera SNP ID:            hCV26352488
SNP Position Genomic:     24073
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38298):
TGGGGCAGGGGAAGGAGTTGTTCTCAGCTGAGCAAACAGTCCAGCAAGGGTGTCTCTGTGTGCACATGTGTGCATGTGTGTATGCATGTGTGTGGGTGCA
T
GTGTGTGTGTGTGGTGGGCTTGAGGAGGGGTATGGGAATTGGTTGTCGGGTGTGAGAGGGGCTGGGGTGTGGACTGGGGGGTGGCTGGGGCTGCATTTGG
Celera SNP ID:            hCV26352489
SNP Position Genomic:     29893
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38299):
ACTGAGGGCCCAGCCAGGGCTCAGCATCCCCTTACCCACCCCTGCCCCTGCGCCCTGCCCCACCGGGACCCCCTAGGCTGGGTGCTTCCGCTTGTCTCCC
W
GGCCAGTTCCCAGCTGACACCCCCATTCCCACTTGGTTGTGTGGCCCTCCCATAGTCTCAAGCTGGGTTTGCTCAGGCTCTTGGGCTGTGCCGTACAGAC
Celera SNP ID:            hCV25999721
SNP Position Genomic:     32639
SNP Source:               Applera
Population(Allele,Count): african american(A,13|T,1)   caucasian(A,34)   total(A,47|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38300):
GTCCCGCAGCCCGGCCAGCCGCAACCAGAGGATTCTCTACACCGTGCTGGAGTGCCAGCCCCTCTTCGACTCCAGTGACATGACCATCGCTGAGTGGGTT
Y
GCCTTGCCCAGACCATCAAGGTAGTGGGGCTGGGGAATGCTGGGTGGGGCTGTGGTGTGTGGGTGGGGCTGAGGTGTGTGGGTGGGGCTGTGGTGTGTGG
Celera SNP ID:            hCV7504720
SNP Position Genomic:     13876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38301):
CCGCAGCCCGGCCAGCCGCAACCAGAGGATTCTCTACACCGTGCTGGAGTGCCAGCCCCTCTTCGACTCCAGTGACATGACCATCGCTGAGTGGGTTTGC
S
TTGCCCAGACCATCAAGGTAGTGGGGCTGGGGAATGCTGGGTGGGGCTGTGGTGTGTGGGTGGGGCTGAGGTGTGTGGGTGGGGCTGTGGTGTGTGGGTG
Celera SNP ID:            hCV7504721
SNP Position Genomic:     13879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38302):
GTCATCCACGGCACCGACACCATGGCCTTTGCTGCCTCGATGCTGTCCTTCATGCTGGAGAACCTGCAGAAGACTGTCATCCTCACTGGGGCCCAGGTAA
Y
CCCAGGGGCCCGGGGCTCCTAGGAACAGGGGCTTCCTGAGGCCACAGGGCAAGTCAGCGCTGTGGGCGGCCGCTGCGGGACCCCGGGCTTCCTGCTCAGC
Celera SNP ID:            hCV7504722
SNP Position Genomic:     15955
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,9)   caucasian(C,24|T,12)   total(C,49|T,21)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38303):
TGACCCCAGCATCCACCTGGACTCTGCCTGCAGTGCTTGTGCCCGGGACGGGCCTGGCTGCCATCCTGAGGACACTGCCCATGTTCCATGACGAGGAGCA
Y
GCCCGAGCCCGCGGCCTCTCTGAGGACACCCTGGTGCTACCGTGAGTGTGGGCTCCTCCCAGTCCCGGACAGGGCATGGCTGCTGAGGGGCACCGATCCT
Celera SNP ID:            hCV25957629
SNP Position Genomic:     12994
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,33|T,1)   total(C,65|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38304):
CAGACTATGCAGCTGGCATGGTAGTGCCGGGAGATCAGGGCCTAGCGGGGAAGGGGACAGCCTGAGGGCCTGGCAGAGGTGGGCTCTGACCCACCCCTCA
Y
GGGCTGGGGGCCGTGGTGAGTCGCCCTTCCTGCCCACACGCCCCCTCCTCACAGGCCATGGCGGGAGCCGGCGTCATCTCAGGCTTCGACATGACATCGG
Celera SNP ID:            hCV7504762
SNP Position Genomic:     24861
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,1)   caucasian(C,32)   total(C,51|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38305):
CACTGCAGGGCAACACGCTGGGCGGTGGGGTCTCCTGGCTCCTCAGTCTGAGCGGCAGCCAGGTAATGGCGTGGGACACGGGCCTGAGTGGCAGCTGGGG
R
CTGTGCACCCTCTTGGTCACCCTGGGATGCACCAGGCAGGCACGAGCCCCTGTAGCCATCACTCGAGCCCAAACAGTTAGGCACACCCGGGTTCTGGGGC
Celera SNP ID:            hCV7504763
SNP Position Genomic:     25783
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(G,38)   total(A,4|G,70)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38306):
AGAGGCAGTCACCATGCTGCTGCAGAGAGGTGTGGACGTGAACACCCGGGACACGGATGGCTTCAGCCCGCTGCTGCTGGCCGTGCGGGGCAGGTAATGG
R
GCTAGGGCTGCACAGAGCTGCCTTGGACAGGTGGGCGCAGAGAGGCTGTGGGCTCCTGCACTCAAACAGCCTCCCGGGGCTGGGCTGGGAGAGGTGGAGG
Celera SNP ID:            hCV7504764
SNP Position Genomic:     27647
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,24)   caucasian(G,36)   total(A,4|G,60)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38307):
AAGCCCGACCTGCTGCAGGAGCTGCGGGTGGCCACCGAGCGCGGCCTGGTCATCGTCAACTGTACCCACTGCCTCCAGGGGGCTGTGACCACAGACTATG
M
AGCTGGCATGGTAGTGCCGGGAGATCAGGGCCTAGCGGGGAAGGGGACAGCCTGAGGGCCTGGCAGAGGTGGGCTCTGACCCACCCCTCACGGGCTGGGG
Celera SNP ID:            hCV25996281
SNP Position Genomic:     24770
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,25)   caucasian(C,34)   total(A,1|C,59)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38308):
GGGTCACTTGGCCCATCCTTCCGGGGGCAGCTGTGCGTGTGAGCTGGGCAGGGTGGGGTGCATGGAGGTGACTTGGCCAAGTGGTCCTTTCCCAGCTGCC
M
CTCCCCCTTCCTGCCACCCTGCCTTTGCCCAGGCTGGTCCCTCCTCCAGACACCCTCTGCCCATCTCCTTACCTCCTGCGCCTTCATTCTGGAGCTTGAA
Celera SNP ID:            hCV7504769
SNP Position Genomic:     33201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:38309):
CTTGGAGCTTGTTCTCAGAGACTGGTGCCCTGCCAGGCCTCACCTGAGACGCAGGGCCACTCCAGTGGCCTGCCCGGAAGTCACTCCCTGGCCTACCGTC
K
CTCCGTCTGGGGTGTGCTCCTGCTGAGGGAGCCCCTGCTTCCTGGACTCTACCCGGCCCCTGCCTGTTCCAGGTCCACGGCCAGCATGGCCAGTCCTGAC
Celera SNP ID:            hCV1604080
SNP Position Genomic:     19879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,4)      total(G,4|T,4) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38310):
GCCTGCCCGGAAGTCACTCCCTGGCCTACCGTCTCTCCGTCTGGGGTGTGCTCCTGCTGAGGGAGCCCCTGCTTCCTGGACTCTACCCGGCCCCTGCCTG
Y
TCCAGGTCCACGGCCAGCATGGCCAGTCCTGACCCCACGCCAGCACCCCTCCCTGAGGCAGCGGGAGCATCCCCTCCCTCCTGGGAGATGCATCCTGCCT
Celera SNP ID:            hCV1604081
SNP Position Genomic:     19946
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38311):
CCTGCAGAAGACTGTCATCCTCACTGGGGCCCAGGTAATCCCAGGGGCCCGGGGCTCCTAGGAACAGGGGCTTCCTGAGGCCACAGGGCAAGTCAGCGCT
R
TGGGCGGCCGCTGCGGGACCCCGGGCTTCCTGCTCAGCCCAGCAGCTCCTGAGGTGGCTGCTGCAGGGCCCGTGCTGGGGCTCGCAAATGCTCAGGTCCT
Celera SNP ID:            hCV25973889
SNP Position Genomic:     16017
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,24)   caucasian(A,2|G,36)   total(A,8|G,60)
SNP Type:                 INTRON


Context             (SEQ ID NO:38312):
TAGAGATGCGTATGGAGGTTTTGCGTTAGAGATGCGTATGGAGGTTCTACGTTAGAGATGCGTATGGAGGTTCTCCGTTAGAGATGCGTATGGAGGTTAT
R
CCTTAGAGATACGTATGGAGGTTCTACGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATGCGTATGGAGGT
Celera SNP ID:            hCV27918990
SNP Position Genomic:     18395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38313):
TGACCCCACGCCAGCACCCCTCCCTGAGGCAGCGGGAGCATCCCCTCCCTCCTGGGAGATGCATCCTGCCTGCCCTGGCCCCCTGCTGTTTCAAGGCAGC
Y
CCAAACCTGCCCTGTGTCTCATCCTGACTGACTGAGGTGGGGTCCAGCCCCGGGGAGGCTCCAGGGCTTGGCAGCACTGGCCTTCCTTTGGGGGCATTTG
Celera SNP ID:            hCV1604082
SNP Position Genomic:     20076
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)   (C,-|T,-)   Caucasian(T,19|C,63)   African-American(T,31|C,47)   Asians(T,32|C,48)   total(C,158|T,82) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38314):
GCAGAGAGAGGCAGGCTCCCACAGGGAGGCACCGACTCAAGCCTGTGCGCTGTCTCCTGTCCTGGGCTCACACCCCGTCCCTTCTTCCTGCTGTTCCCTC
Y
TGTCCTGGGCTCACACCCTGTCCCTTCTTCCTGCTGCTCCCTGGAGCACCTTCTAGGGAGTGTGAGGCCCAGAACACATCAGTGTGTCTACTGTGTGTGC
Celera SNP ID:            hCV1604083
SNP Position Genomic:     20869
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38315):
CTGAAGGAACTGACCAGACTTGAGCACTGAGGGCCCAGCCAGGGCTCAGCATCCCCTTACCCACCCCTGCCCCTGCGCCCTGCCCCACCGGGACCCCCTA
G
GCTGGGTGCTTCCGCTTGTCTCCCAGGCCAGTTCCCAGCTGACACCCCCATTCCCACTTGGTTGTGTGGCCCTCCCATAGTCTCAAGCTGGGTTTGCTCA
Celera SNP ID:            hCV26352490
SNP Position Genomic:     32614
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,18)   total(G,18|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38316):
ATTCCAGGGACTCCGCCAGCACCGGGTGCTAAGCCCGGGCAGGCCACGAGGCTCAAGACACACCGGCCTCAGGCCCAGGGCCGTGGGGCAGCTCCTGGGC
R
CAGCACTAAGGCTGGTCTGGGTGGGAGGCTGCCCTGGCCCCAGCCCCCCACCCCTGAGTGTTTCCCACGTGCGTGTGGGTGTGGGAACCTGATGCCGGGC
Celera SNP ID:            hCV1604084
SNP Position Genomic:     21379
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38317):
GCACTAAGGCTGGTCTGGGTGGGAGGCTGCCCTGGCCCCAGCCCCCCACCCCTGAGTGTTTCCCACGTGCGTGTGGGTGTGGGAACCTGATGCCGGGCTG
Y
CGGGCCGGTTCTGGCACCCAGTGTTGAGAAACCTCAGGCCTTGCCCAGGGTGTGGCTGCTGGGGCCCCTGGGGAGGGGCACAGGTTGGCAGTGTGCACCC
Celera SNP ID:            hCV1604085
SNP Position Genomic:     21482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38318):
CACAGGCCATGGCGGGAGCCGGCGTCATCTCAGGCTTCGACATGACATCGGAGGCCGCCCTGGCCAAGCTATCGTATGTGCTGGGCCAGCCAGGGCTGAG
S
CTGGATGTCAGGAAGGAGGTGCGGGCGCTCTCGGGCTGTGGGCAACCCTCGGTGTGCACAAGCATGTCAGTTGGCTCCCAGGGGCATGTCTGGGGCGATG
Celera SNP ID:            hCV25971385
SNP Position Genomic:     25011
SNP Source:               Applera
Population(Allele,Count): african american(C,20)   caucasian(C,27|G,3)   total(C,47|G,3)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38319):
CTGAGTGTTTCCCACGTGCGTGTGGGTGTGGGAACCTGATGCCGGGCTGTCGGGCCGGTTCTGGCACCCAGTGTTGAGAAACCTCAGGCCTTGCCCAGGG
Y
GTGGCTGCTGGGGCCCCTGGGGAGGGGCACAGGTTGGCAGTGTGCACCCTCAGCCTCTCTGAGCCAGCTGGGGGTAGCAATGCCGGCCTGGGCCCGGGTG
Celera SNP ID:            hCV1604086
SNP Position Genomic:     21533
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38320):
ACCCTCAGCCTCTCTGAGCCAGCTGGGGGTAGCAATGCCGGCCTGGGCCCGGGTGCCAGCTGCCAGCACCCTGTCGAGGGCTTGTCCTGGGCTTTTTACC
Y
ACTGTCTGGGAAGTGAGGGGCTGGGCTGGTCCGGGAGTCATGGGCGGGCTTGGTGCTCCTGTCCACAGTCGGCTCGGCGCCAAGGGGTGGGGGGATGCGT
Celera SNP ID:            hCV1604087
SNP Position Genomic:     21679
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38321):
AGGCTGGAGGAGGCCCTGCTGGCCCTGTCCTTTCCATGTGTCTCAGGAGACCACACTGTCACCCCCAGGCAAATCCTGCACCCTTACCCTTCTGTGCTGA
R
CCCTGGCCCCGGCCCACTCTGCTGGGGCCCTTGGAGCAGAGGAGGGTGGAGAAGGGGATATGGCTGTGGGGTCAGGCCAGGCCTGTCACTCACCAGCCAT
Celera SNP ID:            hCV1604088
SNP Position Genomic:     21883
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38322):
GAGGAGGCCCTGCTGGCCCTGTCCTTTCCATGTGTCTCAGGAGACCACACTGTCACCCCCAGGCAAATCCTGCACCCTTACCCTTCTGTGCTGAACCCTG
R
CCCCGGCCCACTCTGCTGGGGCCCTTGGAGCAGAGGAGGGTGGAGAAGGGGATATGGCTGTGGGGTCAGGCCAGGCCTGTCACTCACCAGCCATGGGTCC
Celera SNP ID:            hCV1604089
SNP Position Genomic:     21889
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38323):
GCTTTATACTGAGCAGCTGGCCCCAGGGAATGAGTGGTGTGGCCAGGTCTCCATTTAAGGGACAGAACTGAGATGCAGAGGCTGCAGGAAGGTGGCAGAG
Y
TGCTGGGGGTGGGACCAGCCCGTCTGTGCACTTGCTGTGTGCTAGGCCCTCCAGGTCGGGGAGCTGGGGAAGGGGACCTGGGCTGGACCCTGAGGGAGTC
Celera SNP ID:            hCV773280
SNP Position Genomic:     12276
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38324):
CCTGCTCAGCCCAGCAGCTCCTGAGGTGGCTGCTGCAGGGCCCGTGCTGGGGCTCGCAAATGCTCAGGTCCTGCCCGGGTGCCAGCACCACCTGCCCCGC
R
GGAGGGGGGTCATCTCCTGCTGGTGGCCCTGGGAGCTGTGAGGCCCTGGAGCACCCAGAGCCAGGCCCACCTCGGCCCTGGGGGTGCCAGGCATCCCTTC
Celera SNP ID:            hCV7504732
SNP Position Genomic:     16146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38325):
TCCATGGAGGCCCTCTTAGGAGGTCTGCGGGGAGCAGTCCGGGGAGGTGGCTCAGCCACCCCACTCTGCTTGCCTGGCGCCGTCTCCCTTGTCCCTCCAG
R
GTCTCCCCAGGGCCCACTGCACACACCTGTTAGCGGTGGAGCAGTGCCTCCCGCCCCAGAACTCGAGAAGGAGGGACAGGGCTCCAGCTGGTTCTCCTCT
Celera SNP ID:            hCV7504733
SNP Position Genomic:     16769
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38326):
AGCAGTCGCCTTCCACCAGAGCCTGAACCTCTGAGGGTGCCCCGTGCCTGGTCCCACCTTCCCTCCCCACCCTCCTCCCACACCCCCAGCCAGGCTGCTT
Y
GGCAAGTGTGATGAGGGCGCCCCGTCTAGGGATCCTGTATATCAGGAGCCAGCTGGCCCAGGTGGCCTTGCCCCCAGCATAGAGGTCCTTCCATTTCTCA
Celera SNP ID:            hCV773281
SNP Position Genomic:     13286
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38327):
GACCTTCCCGAGCCCTGGGGGAGCAGAACATCCCGTGGACCTCTCTAGGGGATCAAGGGCACAGTTATGAGCACCGCAGGACCCACGAACGTTCACATGC
R
TGTTGTCCTCACTCTGATGTTGGCCTGTGCCGGGACATCCTTATCCCTGTTATACCTGTGGGGAAACTGAGGCTTACAGGCTAGGGGCTCACCCACAGCC
Celera SNP ID:            hCV7504734
SNP Position Genomic:     16975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38328):
GCCAGAGGGGAACAGAGCGGGTCAGGGCATTTAGAGCAGGAGGAGGTGCAGAGCGGGAGCCTGCTGTTCCGCCTCCTGCTGTTTCTGTCCCGCAGCCCGG
M
CAGCCGCAACCAGAGGATTCTCTACACCGTGCTGGAGTGCCAGCCCCTCTTCGACTCCAGTGACATGACCATCGCTGAGTGGGTTTGCCTTGCCCAGACC
Celera SNP ID:            hCV25959272
SNP Position Genomic:     13790
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,23)   caucasian(C,38)   total(A,1|C,61)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38329):
GAGATGCGTATGGAGGTTTTGCGTTAGAGATGCGTATGGAGGTTCTACGTTAGAGATGCGTATGGAGGTTCTCCGTTAGAGATGCGTATGGAGGTTATAC
S
TTAGAGATACGTATGGAGGTTCTACGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATGCGTATGGAGGTTT
Celera SNP ID:            hCV27991182
SNP Position Genomic:     18397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38330):
GCATGGTCTGCAGCCACAGCTGTTGGTGGGTGGGTTGAGGCCCTGGGTGCAGGCTGGCATCGTCTGCAGGGACAGCTGTTGTTGGCGGCCTTGGAGACAG
S
CTTACTGCCCAGCTCCTCTGAGTGCCCCGTTCCCCCAAGGCACCCATCTCCAGGCTGCCTGCTGCAGTCCAAGCCCGCCTGTCCTTCTCTTTCCCACACC
Celera SNP ID:            hCV9689430
SNP Position Genomic:     17639
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,15)   caucasian(C,8|G,6)   total(C,9|G,21)
SNP Type:                 INTRON


Context             (SEQ ID NO:38331):
TCAAATCCGCGCCTGGATGGGGGGTGCGGGCTGAGGTCGCTCTCCTCCGGTTCCGGCCACCGGCGTCCCCACGCATGGAGCCCCGACCTGGACAGAGGAG
R
TTGCGGTGGGTTCTCGCCGTCGCGGTGCTCCCGGGAGCGCCCTGCGACCCTGGGGCCAGGCCCCCTGTGCTGCCGCTGCGCCCCTGAGGGCCAGCGTCCT
Celera SNP ID:            hCV7504666
SNP Position Genomic:     6340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38332):
CGGGAGGGCCCCAGGGCATTGGCCTGCCGCTCCTGCTCTGGACACAGAAGGCTTAGGAGGCTGCCCTGGAGAAGGCTTAGGAGGCTGCGAGGACCCCTCA
M
CTGCGACACCCAGGAGGGTGTCCCCGTCCCCTGGGGTCCTGGTCAGGCAGCAGTGGTTGGCACGATACTGGGGCTACCTGGCATCTGCGGGGACGCACGT
Celera SNP ID:            hCV7504667
SNP Position Genomic:     6560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38333):
TCTGCTGGCTCCTGAGTGAGGTGCAGCGGGGCTGGGCTGGCGAGGGCAGAAGGTCAGCATGCTCATTCTCACACAGGCATCCGGGTGTCATTGGGTTGCT
S
CGGGAAGCCGGGGCCTCCCTGTCCACCCAGGAGCTGGAGGAAGCAGGGACGGAGCTGTGCAGGTGAGTGCAGCTAGAGCACCTGCTCTTCCAGGGATGTG
Celera SNP ID:            hCV25998214
SNP Position Genomic:     29547
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,27)   caucasian(G,38)   total(C,1|G,65)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38334):
GACCCTTTCCCCCATGCTGCAACCTCCCCCACACCTGCTTGCGAGGGGCTGGCCTGCCTGAGCATGCGCCCCTCCTGCAGAGGCACTACGAGCAGTACCA
Y
GGCTTTGTGGTCATCCACGGCACCGACACCATGGCCTTTGCTGCCTCGATGCTGTCCTTCATGCTGGAGAACCTGCAGAAGACTGTCATCCTCACTGGGG
Celera SNP ID:            hCV25973133
SNP Position Genomic:     15845
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38335):
TCCCACACCCGCCTGGGGCTCCTGGGCTGGGCCTGGGGGTTTACCTGGAGAGATGAGCCAGACATCCCAGGCTTCTGGGCTTCCCAGGCCTCAGCTACTC
Y
GTGGCCTCTCCCCCAGGTGCCCATCCATGCCCTGTGGAGCGACGGCCGTGAGAACCTGCTGGGGGCACTGCTCATGGCTGGCCAGTATGTGATCCCAGAG
Celera SNP ID:            hCV9689436
SNP Position Genomic:     17831
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,7)   caucasian(C,15|T,19)   total(C,38|T,26)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38336):
TGTTGTTGGCGGCCTTGGAGACAGGCTTACTGCCCAGCTCCTCTGAGTGCCCCGTTCCCCCAAGGCACCCATCTCCAGGCTGCCTGCTGCAGTCCAAGCC
Y
GCCTGTCCTTCTCTTTCCCACACCCGCCTGGGGCTCCTGGGCTGGGCCTGGGGGTTTACCTGGAGAGATGAGCCAGACATCCCAGGCTTCTGGGCTTCCC
Celera SNP ID:            hCV25969723
SNP Position Genomic:     17715
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,34)   total(C,64|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:38337):
TGCTCAGCAGCCCGTCCTCGTGTGGCTGCGAGGTCACCCCCAGCTGTTGCTAGCTGACCCATGTGGGGCATCCACTTCCAGGAACCTGCAGGAATGGGCT
S
CCCCAACCCCTCGTGAGGTTGGAGCAGCCAGACTGTCAGGCGTCAATGATTTACTCCCTCCACACTGCTGACGTGGGCTCTGGCCTTCCCTGGGGAGGTG
Celera SNP ID:            hCV29078508
SNP Position Genomic:     8386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38338):
CCTCAGTTAAAGGGCATCTCACGCTGCCATCATGTGGGGCTGACTGATGCTGTGGGCTCTGGTGGGGGTGGAAGACTCACTGCTGGGGGCTCCGCTCCCC
M
CTCTCTCATCCCCAGCACCCCACATCTCCCCCCTTCAGCTCCACCATGCCAGGAAAGTCCTTTTTATCGCATGCAAGCTGCTCTAGCGGAAGCGGCCGGA
Celera SNP ID:            hCV1604090
SNP Position Genomic:     22573
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38339):
GTTAGAGATGCGTATGGAGGTTCTGCGTTAGAGATGCGTATGGAGGTTTTGCGTTAGAGATGCGTATGGAGGTTCTACGTTAGAGATGCGTATGGAGGTT
Y
TCCGTTAGAGATGCGTATGGAGGTTATACCTTAGAGATACGTATGGAGGTTCTACGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATACGTATGGAG
Celera SNP ID:            hCV27508125
SNP Position Genomic:     18367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38340):
CCTGGCACGGGCCGGACTGCGCGGAAGCCCGGGAGGATTTGCCTGCGGGAGAGGAGGCAGGGCGAGGGGGCTGAGCCGCGAAGGCTCAGGGCTCTGAAAA
S
AAGGGAGGAGGCGGCCTGTGCAGAGGGCCAGGCACTGGGCTGGGGTCTCGGCTGGCAGGAGGCCTGAAGGCACCACACAGGCCCTTCCCTGTCCTCAGTC
Celera SNP ID:            hCV29078509
SNP Position Genomic:     23758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38341):
TCACCCTTGAGACTGTGTTGCCCATTGCTCGGCCATCGGTCTCTCGCTGGCCAACGAGTGCCTCCTCCCACAGCCCCGTGCACGCTGCGGAGCCTGGCAC
R
GGCCGGACTGCGCGGAAGCCCGGGAGGATTTGCCTGCGGGAGAGGAGGCAGGGCGAGGGGGCTGAGCCGCGAAGGCTCAGGGCTCTGAAAACAAGGGAGG
Celera SNP ID:            hCV1604091
SNP Position Genomic:     23666
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38342):
TGTCGCCAGGAAATCCTCTCCTGCTCTCCACTCTTCCTCGAGGGTGGGGTTCAGACACAGCTGGCCCCAGACCCTTGGGTTGCCAGCCTCTGGGGCTGGA
Y
GGAGGCTTTTGGGGCCCCTGGAGACCCTGAGCTGGTAGGGCCAGGGAGTGGGGCTGGCCTTGGGAGGGGACCCAGCCCGCTCTGGCCCGAGGGATGAAGC
Celera SNP ID:            hCV1604093
SNP Position Genomic:     25396
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38343):
GCTCCCTGAGGCCGCCTGCCTGGCCCTGCTGTGCCTGAGTGGGGTATGGGGAGGCCACTGCCTCATACCTATTCCCAGGCTCCCTAAATGGGGTGATGGG
R
GGATCTGTGGTGCTTTGCAGGGGTGGGGGCACGGCCAGCGATTATGGCACAGTCTTTAGGTCACCCTGTACAATGGGCTGTGTGGCCTCCGGCCTCGGGC
Celera SNP ID:            hCV1604094
SNP Position Genomic:     28846
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38344):
CCCCCACAGACTCCACTGTCCGGGTGCCCTGCCCCCACTCCTACCCAAGGGCAGTCGGCCGGATTGATTCAGTGTCCCCTGCGCCTGGCTGAGGAGGTCA
Y
CACGGGGTGTGATCAGCGTTTGGGTGTGCAGTGGGGCCGGTCAGCTCATGTAAGGCTGTCCTCTGAAATGGGCTGTCCCCTTGGAATGGGTTGGGGAGAC
Celera SNP ID:            hCV1604095
SNP Position Genomic:     29087
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38345):
GCGCCTGGCTGAGGAGGTCACCACGGGGTGTGATCAGCGTTTGGGTGTGCAGTGGGGCCGGTCAGCTCATGTAAGGCTGTCCTCTGAAATGGGCTGTCCC
Y
TTGGAATGGGTTGGGGAGACTGCCCTGGGAGGAGCTATTCTGCTAGCACCAACTAATGCCCTCCCCTGGGTGCTGGGTGCGGGGCTGCCACAGAGTTGAC
Celera SNP ID:            hCV1604096
SNP Position Genomic:     29167
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38346):
TGAACTCCTGGGCTCAAATGATCTTCCTGCATCAGCCTCCCAAAATTCTGGGATTACAGGTGTGAGCCATAAAAACCACTGCAAAAGCACATATGGAGTG
W
TTTGCTTGAGAGAAGAGGACACCAAGAGAGTTTAGTCTTGTCTTTGGCTGATTTCGCCTGTGGTGCCCACACATGCCCCCAGCAGGGACAGCAGGGCCCA
Celera SNP ID:            hCV7504700
SNP Position Genomic:     10420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38347):
GGCTAGGGCTGTGGGGTCTTGGGCCGGCCGGTCCCTGTCCCTGTGCACAGGACATGAGCTCTGCTGGCTCCTGAGTGAGGTGCAGCGGGGCTGGGCTGGC
S
AGGGCAGAAGGTCAGCATGCTCATTCTCACACAGGCATCCGGGTGTCATTGGGTTGCTGCGGGAAGCCGGGGCCTCCCTGTCCACCCAGGAGCTGGAGGA
Celera SNP ID:            hCV1604097
SNP Position Genomic:     29488
SNP Source:               Applera
Population(Allele,Count): african american(C,22|G,4)   caucasian(C,30|G,8)   total(C,52|G,12)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|G,7)      total(G,7|C,6) ;no_pop(C,-|G,-)   JBIC-allele(C,218|G,523)   total(G,523|C,218)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38348):
AGGCCCGCTGACCTCAGTGTGCACCAACCTGGCTGATGGGAAGAGGTGTCTACCCTGGACCATGTCATGGGGCAGGGGAAGGAGTTGTTCTCAGCTGAGC
R
AACAGTCCAGCAAGGGTGTCTCTGTGTGCACATGTGTGCATGTGTGTATGCATGTGTGTGGGTGCATGTGTGTGTGTGTGGTGGGCTTGAGGAGGGGTAT
Celera SNP ID:            hCV1604098
SNP Position Genomic:     29826
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38349):
ATGGGGCAGGGGAAGGAGTTGTTCTCAGCTGAGCAAACAGTCCAGCAAGGGTGTCTCTGTGTGCACATGTGTGCATGTGTGTATGCATGTGTGTGGGTGC
R
TGTGTGTGTGTGTGGTGGGCTTGAGGAGGGGTATGGGAATTGGTTGTCGGGTGTGAGAGGGGCTGGGGTGTGGACTGGGGGGTGGCTGGGGCTGCATTTG
Celera SNP ID:            hCV1604099
SNP Position Genomic:     29892
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,1|A,8)      total(A,8|-,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38350):
CCAAGCAGGCCCCAGCCAATCTCCTGCCCAGGCAGGAGCTCCCCCTGCCGCCCTCACAGACCTCACCTCTTCCTACACGTTTCCAAGGCCGCGCCCCGCC
S
CGCACCCCGCCAGGCCCCGCCCCGCACCCCGCCAGGCCCCGCCCCGCACCCCGCCAGGCCCCGCCCCGCACCCCGCCAGGCCCCGCCCCACCCGCCAGGC
Celera SNP ID:            hCV11662813
SNP Position Genomic:     5698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:38351):
GGCCAGAATGCTGAGGCTCAGACTAGGGCCTTTGTCTCTGCTGACACCTCGCTGCTGTCACGACTTTGTGGTCCCTGTGCCACTGACTGCAGGACGCGCA
S
CTGAGTCTCCTTGGACCTGCCCAGGTGGCCCCCAAGCAGGATGTGTCCAACACACCTTGCTTCCCTCTGCCTGGCCCCAGGCCCCACTCTGGCCCCTGCT
Celera SNP ID:            hCV7504634
SNP Position Genomic:     2648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:38352):
GCCAGAATGCTGAGGCTCAGACTAGGGCCTTTGTCTCTGCTGACACCTCGCTGCTGTCACGACTTTGTGGTCCCTGTGCCACTGACTGCAGGACGCGCAG
S
TGAGTCTCCTTGGACCTGCCCAGGTGGCCCCCAAGCAGGATGTGTCCAACACACCTTGCTTCCCTCTGCCTGGCCCCAGGCCCCACTCTGGCCCCTGCTT
Celera SNP ID:            hCV7504635
SNP Position Genomic:     2649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:38353):
AGGCCCCACTCTGGCCCCTGCTTTCTCAGTAAGGACATCCCCACTCCGTGGCTGCTCTGGCCAAAGACAGGAGAGTCACCCTTTCTCTTCGGCGCGTACC
Y
CTCAAGCTCCAGCTTGTGCTCCCAGCACTCCCACCTTGCACTTCCCCATCCCCAGCTCCTCCCCACCCTGCCCAAAGCCCTCCTGAACCCATTCTTGTCT
Celera SNP ID:            hCV7504636
SNP Position Genomic:     2827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:38354):
GCATAGAGGTCCTTCCATTTCTCAGCTCTGGGCCCAGCTCCCTGATGTCCCCCACAGCTGGGGGTGAGCTGGGAGTTGCCCTCGTGGTGGCTGACCACCA
Y
AGCCGCCACAGGCGAGCCTCCTGCAAGCATCCTCTCCTGCCTGGGGATGGCTGGTCCCAGCCCCCCTCTTCGAGCTGGTGTGGGAAGAAGACTGCTGGGA
Celera SNP ID:            hCV7504709
SNP Position Genomic:     13463
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,3)   caucasian(C,29|T,3)   total(C,30|T,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38355):
CAGACATCCCAGGCTTCTGGGCTTCCCAGGCCTCAGCTACTCCGTGGCCTCTCCCCCAGGTGCCCATCCATGCCCTGTGGAGCGACGGCCGTGAGAACCT
K
CTGGGGGCACTGCTCATGGCTGGCCAGTATGTGATCCCAGAGGTACCTGCCTGGTGCACGTGGAGGCGGGGCAGGTGGGGTGGGGGCAGGAGCCCAGACA
Celera SNP ID:            hCV7504743
SNP Position Genomic:     17889
SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,7)   caucasian(G,32|T,2)   total(G,55|T,9)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38356):
AGGAGTTTCAGGGAGTCTTTCTGTCCTCTGGTTCCGGCGGGCAGCCCAGCCATCCTTGTGGGGCTGACTCGAGCGATCCTGTGTCCTGAGGCTTCCCCCT
K
GGGGGGCCAAGCCCGCCCCCTGGCCCTGGCTGTAGGAGCAGCCTTGGAGCTTGTTCTCAGAGACTGGTGCCCTGCCAGGCCTCACCTGAGACGCAGGGCC
Celera SNP ID:            hCV7504744
SNP Position Genomic:     19736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38357):
GGGTGGAGGCAGCGTCTTTGGATCTCAAGACAAGGCCTGTGTGTGGGAGTCCGGGCTCGGTGGCTGACTTGCTTGTTGCCCCAGGGCCCCTCAGCAGGAC
R
GGACAGAGGAAACTGCCTGGTTCTACAGGTGAGAAACGGAGGCAGAGAGAGGCAGGCTCCCACAGGGAGGCACCGACTCAAGCCTGTGCGCTGTCTCCTG
Celera SNP ID:            hCV7504745
SNP Position Genomic:     20727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38358):
CCTCCTGCAAGCATCCTCTCCTGCCTGGGGATGGCTGGTCCCAGCCCCCCTCTTCGAGCTGGTGTGGGAAGAAGACTGCTGGGAGTGGCCCATCCTGACC
Y
ACGTCCTTGCCTCTGTGGGGAGCTCCAGGTGGAAGGGGGGCCGGGCCCCGTACCTGGGATGCTGAGAACTTGCTATGTGCGGAGCCCTTGGCGTAGGGGC
Celera SNP ID:            hCV11466835
SNP Position Genomic:     13580
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,7)   caucasian(C,26|T,14)   total(C,45|T,21)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38359):
GTGTGGGCTCCTCCCAGTCCCGGACAGGGCATGGCTGCTGAGGGGCACCGATCCTGAGGCTGGGCACTGCTGGCCAGGCCCACGTGAGCCATTTGCTCAC
Y
CCTGTCTCTAACATCCCCTCAGCTTACAGGGCTTTAGGACTGACCAGCAGTCGCCTTCCACCAGAGCCTGAACCTCTGAGGGTGCCCCGTGCCTGGTCCC
Celera SNP ID:            hCV25958840
SNP Position Genomic:     13140
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,28)   total(C,59|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38360):
GACGCACGTGTTCACACCCGAGGTGGCCTCAGAGCCCTGCTTCCTCTGCCCCTGTGTGGACCTGGTTGACCAGAGACCAGCGATTGCGTCTGGACTGAGT
Y
CTGCCTGGGTGGGGTCAGGGCCTGGGACAGGCACCGAGCTCTGTGGTACTCCAGCACAGTGCTGCCAGCCTGGGCTGGGCACAGGAAGGATGGTAGCTTG
Celera SNP ID:            hCV7504677
SNP Position Genomic:     6752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38361):
GACGCCACCCTCGGTGGAAGAGCGCCGGCCCTCACTGCAGGGCAACACGCTGGGCGGTGGGGTCTCCTGGCTCCTCAGTCTGAGCGGCAGCCAGGTAATG
S
CGTGGGACACGGGCCTGAGTGGCAGCTGGGGGCTGTGCACCCTCTTGGTCACCCTGGGATGCACCAGGCAGGCACGAGCCCCTGTAGCCATCACTCGAGC
Celera SNP ID:            hCV29078510
SNP Position Genomic:     25751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38362):
GGTGGGATCCCGGGATGATGTCACATGGGCCTAGGCAGAGGATGGGGGGATGGGCCCTTGTCTGAGGCTAGGGCTGTGGGGTCTTGGGCCGGCCGGTCCC
Y
GTCCCTGTGCACAGGACATGAGCTCTGCTGGCTCCTGAGTGAGGTGCAGCGGGGCTGGGCTGGCGAGGGCAGAAGGTCAGCATGCTCATTCTCACACAGG
Celera SNP ID:            hCV11662786
SNP Position Genomic:     29423
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,25)   caucasian(T,38)   total(C,3|T,63)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38363):
CCACACTGTGGCCGGTGCAGACCCCTCTGGAGGCCCACTCTGCGCCCAGCCCAGGAGACAAAGCCTAGTGGGGCTCGTCCACGAGGGACTCAGGTCCCCA
R
GAACGTGGCTGTCCAGGCTGCCGGGAGCCTCCTCTGCACTTCTCCTTCTGCCTGTGAATGGAACAAAGTCATTCACAGCTTGGCAAACGCCCCTGTGTGA
Celera SNP ID:            hCV7504678
SNP Position Genomic:     7479
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38364):
GTTGTACCCGCTGGGTGTGGTGGCACCTGTGGGGCCTCTGCCAGGACCGCTGGGTGTGGTGGCCCCTGTGGGGCCTCTGCCAGGACCGCGGCCTTTTGGC
R
TCTTGGGGAGCTCCTGGTGCCCGGTGCTGGGGGCAGGTGGCTCTTCTGGGAAGGTGCAGCCGTGGGAACAGGGCCTTCCTTCCAGGGGAGGGGTCTGGCT
Celera SNP ID:            hCV29078511
SNP Position Genomic:     26624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38365):
GCCCCCGAGTGGGGACAGGACCTGGGGACTCTGTGTGGGGCCTCGTCCGACGCCCCTGACGCTACCCCTTCAGGCTTGGAGTGTGGCCAACTGCAGTTTC
R
TTGAGCTCAACATGTAGTTCTTGAGTGGTCCGAGCTGCAGGGGCAGGTGGACTCTGTAACCCCACCACACACCCGTCTCGCTTGGCCCCCGCGTGCTCGC
Celera SNP ID:            hCV7504679
SNP Position Genomic:     8002
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,10)      total(G,10|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38366):
CCGAGGCCAGGACGACTCCGAGGGACCCAAAAAGGAGAGTCGGAGGCAGGAGACCTGGGCCGGGTGCAGGTGGTGGCTGGGGTGGGGGTGCTGTGAGTGG
Y
GGGGTCTGTGCGCCTGTAAGTCCAGAGTCCCAGGCTTGGGGAGTGGGTGATGGCGGGGGCTCGGCTCACTGGCTGGGAGGGGGTGGGTGCAGGCGCCTGC
Celera SNP ID:            hCV29078512
SNP Position Genomic:     30486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38367):
GGTGGGTGCAGGCGCCTGCCCAGCAGGAGGAGGACTAGCAGCTCTGGCTTCTCCTCTGGGACCGGCCCACAACCCCTGGTCTTGCTTTTGAAGGGACTTC
Y
GGGGTGACTTGGTCAAGATTTGCACTCCAGACAGGCCTTGCTGGCTCCATTGACAGATGGGGAAACTGAGGCAGTAGTCAGGTCCTGTGGGAGCTGGGAC
Celera SNP ID:            hCV29078513
SNP Position Genomic:     30668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38368):
GAGACTGCCCTGGGAGGAGCTATTCTGCTAGCACCAACTAATGCCCTCCCCTGGGTGCTGGGTGCGGGGCTGCCACAGAGTTGACCCCACCCCTTGCAGA
M
CTCAGCTGCCCTAAGAAGGAGTACTGGACAAATGGAGGTGGTGGGATCCCGGGATGATGTCACATGGGCCTAGGCAGAGGATGGGGGGATGGGCCCTTGT
Celera SNP ID:            hCV16188106
SNP Position Genomic:     29283
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,220|C,1265)   total(A,220|C,1265) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38369):
AGCCCCCCTCTTCGAGCTGGTGTGGGAAGAAGACTGCTGGGAGTGGCCCATCCTGACCTACGTCCTTGCCTCTGTGGGGAGCTCCAGGTGGAAGGGGGGC
Y
GGGCCCCGTACCTGGGATGCTGAGAACTTGCTATGTGCGGAGCCCTTGGCGTAGGGGCCCCAGCTCTGCCAGAGGGGAACAGAGCGGGTCAGGGCATTTA
Celera SNP ID:            hCV25958018
SNP Position Genomic:     13622
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,40)   total(C,65|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38370):
GTCCCCCACAGCTGGGGGTGAGCTGGGAGTTGCCCTCGTGGTGGCTGACCACCACAGCCGCCACAGGCGAGCCTCCTGCAAGCATCCTCTCCTGCCTGGG
S
ATGGCTGGTCCCAGCCCCCCTCTTCGAGCTGGTGTGGGAAGAAGACTGCTGGGAGTGGCCCATCCTGACCTACGTCCTTGCCTCTGTGGGGAGCTCCAGG
Celera SNP ID:            hCV7504710
SNP Position Genomic:     13509
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,20)   caucasian(C,1|G,35)   total(C,9|G,55)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38371):
GGTCAGGGCATTTAGAGCAGGAGGAGGTGCAGAGCGGGAGCCTGCTGTTCCGCCTCCTGCTGTTTCTGTCCCGCAGCCCGGCCAGCCGCAACCAGAGGAT
Y
CTCTACACCGTGCTGGAGTGCCAGCCCCTCTTCGACTCCAGTGACATGACCATCGCTGAGTGGGTTTGCCTTGCCCAGACCATCAAGGTAGTGGGGCTGG
Celera SNP ID:            hCV7504711
SNP Position Genomic:     13809
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,1)   caucasian(C,4|T,30)   total(C,13|T,31)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38372):
CCACAGCCAGAATCGCTGCCCCCCACCCCATGCCTTGTGCCTGGTGACTTGGCGCTGCCTCCTGTGCCCAGCCTGGGCTGCCCGAGGCCAGGACGACTCC
R
AGGGACCCAAAAAGGAGAGTCGGAGGCAGGAGACCTGGGCCGGGTGCAGGTGGTGGCTGGGGTGGGGGTGCTGTGAGTGGTGGGGTCTGTGCGCCTGTAA
Celera SNP ID:            hCV1604100
SNP Position Genomic:     30405
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38373):
GCACTGTCACTGCCAGACGCTGGTATTTTTGTCTACTATGGCCCCCACCCTGGCTGGTACACTCAGAAGGACGGGCTGCGTCCCCTGTGCCTAGAGAGGC
W
TCTGGCACAGAGCCAGCCTTCAACATATATTGCATGAAAGATTCCGTCCAAGGACGCTGTAGATGTAGGTGGACGCAGACAAAAGCAAAGCAGGACAGTG
Celera SNP ID:            hCV7504644
SNP Position Genomic:     3362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:38374):
AGAGTCCCTAAGGGCCCTCCAGAGGAGGGGGCAGCCCCTTCCTCACCAGGCCACTTCCCCCAGCCCCTGCACACCATGGGTGGGTGGAGCCTTCCCTGCC
R
GGTCCCCACCTGGCCTGCTCCTGGCCTCCCCAGGTGGCGAGTGAGTTCTTCCCAGGAGGGTGGCAGGGTGAGGAGGAGCTGGTGAGGGCCTGGCAGGTGC
Celera SNP ID:            hCV1604101
SNP Position Genomic:     31088
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38375):
AGTCCCTAAGGGCCCTCCAGAGGAGGGGGCAGCCCCTTCCTCACCAGGCCACTTCCCCCAGCCCCTGCACACCATGGGTGGGTGGAGCCTTCCCTGCCGG
R
TCCCCACCTGGCCTGCTCCTGGCCTCCCCAGGTGGCGAGTGAGTTCTTCCCAGGAGGGTGGCAGGGTGAGGAGGAGCTGGTGAGGGCCTGGCAGGTGCTC
Celera SNP ID:            hCV1604102
SNP Position Genomic:     31090
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38376):
AGCTTCCCTAGCCCAGGCAGCTGTGAGGACCAGCTCAGAAGAGAAGTCCTGAAACAGACACTTACAGATGAGGAATATTGACATGATTGTGCAAATGGAC
M
TGAAACTGGATTTTCAGGGGGCTGTGATGGGCTGGATTGTCTCCCTTAGATTCTAATGTTGAAGTCCCCCACACCCCAGTGTCTTAGAATGCAACTGTAT
Celera SNP ID:            hCV7504646
SNP Position Genomic:     3827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:38377):
GGGCTTGGCAGCACTGGCCTTCCTTTGGGGGCATTTGACACCTCACCCGGGGCTGGGTGGGGCTGCCTGCCCAGGACCAAAGCAGCTGTTCCTGTCTGGG
Y
GGGTGGGGTGGAGGCGCCCCCTCACCCACACTGGGCTTCTGTCCAGGCCTGGGCCATGGCGGGCTGGTGGGTCAAGCCCACAAGGTCACTGGACGCCTGG
Celera SNP ID:            hCV15997181
SNP Position Genomic:     20240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38378):
TGGGTGAAACCAGGCTCCAGGCTGCCCGATGGCCCCCAGTGACTCCTGCCCCAGGACCAGGTCGCTGCTGGGTCAGCTGTTTGGGGCTGGCTTTGTAAGA
K
CGTCCAGGCCACCTGGGGGACAGGCACGTGGGCAGATGGACAGGTGCCCAGCAGGCCCCAACAACTCCTCCTCTGCCCCCACCCCCAGGCTGGCATACAG
Celera SNP ID:            hCV1604103
SNP Position Genomic:     31707
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38379):
CAGCTCCTGGGCGCAGCACTAAGGCTGGTCTGGGTGGGAGGCTGCCCTGGCCCCAGCCCCCCACCCCTGAGTGTTTCCCACGTGCGTGTGGGTGTGGGAA
M
CTGATGCCGGGCTGTCGGGCCGGTTCTGGCACCCAGTGTTGAGAAACCTCAGGCCTTGCCCAGGGTGTGGCTGCTGGGGCCCCTGGGGAGGGGCACAGGT
Celera SNP ID:            hCV7504754
SNP Position Genomic:     21467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38380):
AGATCTTATGTTGTGGATATTTACATTAGAGGTACGTATGGAAGTTCTACGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATGCATATGGAGGTTCT
R
CGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATGCGTATGGAGGTTCTGCGTTAGAGATGCGTATGGAGGTTCTGCGTTAGAGATGCGTATGGAGGT
Celera SNP ID:            hCV15997182
SNP Position Genomic:     18161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38381):
CCAGTGTTGAGAAACCTCAGGCCTTGCCCAGGGTGTGGCTGCTGGGGCCCCTGGGGAGGGGCACAGGTTGGCAGTGTGCACCCTCAGCCTCTCTGAGCCA
S
CTGGGGGTAGCAATGCCGGCCTGGGCCCGGGTGCCAGCTGCCAGCACCCTGTCGAGGGCTTGTCCTGGGCTTTTTACCTACTGTCTGGGAAGTGAGGGGC
Celera SNP ID:            hCV7504755
SNP Position Genomic:     21600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38382):
GGTTGTGTGGCCCTCCCATAGTCTCAAGCTGGGTTTGCTCAGGCTCTTGGGCTGTGCCGTACAGACGGGGTGCCTGGGCTTGTCTCTCTGCCCTGCCTTC
R
CACTCTACCTGGGTGTCCTTCTCAGGAGCCCTCATGTTTTCAGGAAGTGCTGCCTGGTGTCTAACCTGAAGGCGTCCTGCTGCAGTATAAGCCATTCCTT
Celera SNP ID:            hCV1604105
SNP Position Genomic:     32774
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,26)   caucasian(A,8|G,28)   total(A,10|G,54)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,8)   total(G,8|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38383):
AGGCGGGAGGTCAGTGCGGGGTGGGTGTGGGCCCTCTTTGTCTCTGTGTAGCCCCCTCTCAGCCATAACTCTTTGCCAGTGGCAGCGGTGCCCCCTCCTT
Y
CCTGTGCTGATGCCTTATCTGCTTGTCCGGCTGAGACACACGCCCTCAGTTAAAGGGCATCTCACGCTGCCATCATGTGGGGCTGACTGATGCTGTGGGC
Celera SNP ID:            hCV7504756
SNP Position Genomic:     22429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38384):
GGGGCATCTGGACAAATGCCTGGTGCAGGTGAGAAGGGGTGGGACTACCTCCGGCATCCCTGGGCTGAGCCCACCTGGTCTCCCCGGTTGCTCCTGCACA
Y
GGCAGTGCCCACCTGCTTCCCTCAGCTCCTGAGGGGCTGGGCAGAGCCTGTTGCTCACGCCACCCCACTCAGTGCTGCTCCGGGTTGTGAAAGCTGCAGG
Celera SNP ID:            hCV1604106
SNP Position Genomic:     34351
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,11)   total(C,11|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:38385):
CAAGGAAGAGGTTCCAGGCAGGGCTGGAGGGTTCAGATTCTGCAGCCCTTGAAGCTTTTGGAGGGCCCTCATTGAGAAAAGTAATACAAGTTACAAAATC
R
TAGTTAGGTGTGAAAGCCGGTGTTTGTTTATTTTTTATTTATTTTTATTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGACTGGAGTGCAGTGGCGCG
Celera SNP ID:            hCV7504689
SNP Position Genomic:     9279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38386):
GGCCCTCACTGCAGGGCAACACGCTGGGCGGTGGGGTCTCCTGGCTCCTCAGTCTGAGCGGCAGCCAGGTAATGGCGTGGGACACGGGCCTGAGTGGCAG
S
TGGGGGCTGTGCACCCTCTTGGTCACCCTGGGATGCACCAGGCAGGCACGAGCCCCTGTAGCCATCACTCGAGCCCAAACAGTTAGGCACACCCGGGTTC
Celera SNP ID:            hCV15878124
SNP Position Genomic:     25777
SNP Source:               Applera
Population(Allele,Count): african american(C,16)   caucasian(C,30|G,6)   total(C,46|G,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,217|C,1286)   total(G,217|C,1286) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38387):
CTCCTGGGGCCGTCCAGGTGCGAAATGAGGAATCACCACGGGCTCCAAGGCAGGAAGCCATGGCTTCCAAACGCGGGTCAGCCGCCTGCCCTCTGAGGGG
K
CCCAGGGGCAGCCATAGCCCTTCCTCCCAGCCTCTGACTGTCATAAGACCGGAGCCCCATCCCACCAGCTCTGGTCCTGCCCCTCAGTGAGGGAGGAGGC
Celera SNP ID:            hCV25960011
SNP Position Genomic:     12774
SNP Source:               Applera
Population(Allele,Count): african american(G,8|T,18)   caucasian(G,1|T,21)   total(G,9|T,39)
SNP Type:                 INTRON


Context             (SEQ ID NO:38388):
TGGGGATGGCTGGTCCCAGCCCCCCTCTTCGAGCTGGTGTGGGAAGAAGACTGCTGGGAGTGGCCCATCCTGACCTACGTCCTTGCCTCTGTGGGGAGCT
Y
CAGGTGGAAGGGGGGCCGGGCCCCGTACCTGGGATGCTGAGAACTTGCTATGTGCGGAGCCCTTGGCGTAGGGGCCCCAGCTCTGCCAGAGGGGAACAGA
Celera SNP ID:            hCV25957980
SNP Position Genomic:     13605
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,1)   caucasian(C,40)   total(C,55|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38389):
GACTTCCTATGTCAAACTGGGAACCCCACCTGCTTGCCGGCCTGTCCCAAAGTCCCTCCTGAGCCCGGCTCCTTGCAGGCACAGCAGGGAGGGCAGAGAT
Y
TGGGGCCAGGCAGCTGAGAGAAGCTCCCTGCCCGGTGACCACACGGGTCCCAGCAGTCGAGAGTGTCAGTGGAGTGATGCCCATGGCTTCTTGGTTACTG
Celera SNP ID:            hCV1604075
SNP Position Genomic:     8879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38390):
GAAAGCCGGTGTTTGTTTATTTTTTATTTATTTTTATTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGACTGGAGTGCAGTGGCGCGATCTCAGCTCA
Y
TGCAAGCTCTGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCGTGCCCGGCTGAAAGCTGGTG
Celera SNP ID:            hCV26352484
SNP Position Genomic:     9391
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38391):
CCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGATCGGGAGTTCAAGACCAGCCATGGACAACATGGTGAAACCCTGTCTCTACTAAAAATAC
A
AAAAAAAAATTAGCCAGATGTGGTGGCAGATGCCTGTGGTCCCAGCTACTGGGGAGGCTGAGGCATGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCA
Celera SNP ID:            hCV26352485
SNP Position Genomic:     9655
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38392):
CCCCTGCAGGCAGAACCACCCCCCGCCCCATCAGCTTTTCTTCTCCCTTCTCCCCCATCACAACACGCTCCCATGTTACCGGAGCTGCCTCCCCTAGTAG
R
GGGCCTCCTGCCCGCTCCAGTCCCAATTCTCACCTGCTTCCCTTACGAACCCCCTGCTCCCCTGAGTGGGAACATCTAGGCTTCCCCTTCCCAGCAGCAG
Celera SNP ID:            hCV1604078
SNP Position Genomic:     14827
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38393):
TAGAGATGCGTATGGAGGTTCTGCGTTAGAGATGCGTATGGAGGTTTTGCGTTAGAGATGCGTATGGAGGTTCTACGTTAGAGATGCGTATGGAGGTTCT
S
CGTTAGAGATGCGTATGGAGGTTATACCTTAGAGATACGTATGGAGGTTCTACGTTAGAGATACGTATGGAGGTTCTGCGTTAGAGATACGTATGGAGGT
Celera SNP ID:            hCV27524506
SNP Position Genomic:     18369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Gene Number:                 170
Celera Gene:                 hCG23227 - 104000116630266
Gene Symbol:                 PTPRJ
Protein Name:                protein tyrosine phosphatase, receptor type, J;CD148;DEP1;HPTPeta;R-PTP-ETA;SCC1
Celera Genomic Axis:         GA_x5YUV32VW1T(2668207..2870197)
Chromosome:                  Chr11
OMIM number:                 600925
OMIM Information:            PROTEIN-TYROSINE PHOSPHATASE, RECEPTOR-TYPE, J;PTPRJ


Genomic Sequence (SEQ ID NO:12330):
TTAGGAGGGCTTTGGAGAATGGTTTGCTCATGGTGGCTTTTAAAATACACTGAGGGTTGCCAGGCTGAATGGGATCCCTGCGGGGCTGGTGACCTGGTTC
TAGGCTGGTGCTCAGCAGAGCTGCCTCCTGGTGGGTTAGTGGACTTGTTAAACATAGTTGCCTCTCCTATTCCCTGTTCTTGGGGGATGAAGAAGAAAGT
CTTGTACTCTATCCCTTCCCATTCTAAAATTGGGGTAACGGAGGCCCAAGAGAGTAATAATATAAGAAATAAGAGCCAACACAGATCACTTTATGTTAAC
TTGTCTACAAATGTCAAGGGGAGGAACATCATGGCATAGTGGCAAGAAAGATATAGTTTTAGATCCTGGTTTTTGCCAGTCTGAAACTGTGTGACCTTGT
GTAAGTAAGTAAGCCTGAGACTCAGTTTCCTTATTTGTAAAATACTGATGATGATGCCTATTATACAGCATTGTTGTAAGGAGTAGAAATAATGGATGTA
AAGTACCTGGATGAGTGCTGGCATCCAGTGGGTACCTGATAAGTGGTCTGTATTTATTTATTTATTTATTTATTTTTGAGATGGAGTCTCACTCTGTAGC
CAAGGCTGGGGTGCAATGGCACGATCTTGGCTCACTGCAACTTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTTAGCCTCCTGAGTAGCTGGGATTAC
CGGCATGCACCACTACGCCCAGTGTGTTTTTGTATTTTCGGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTCACCTCAGGTGAT
CTGCACCTGCCTCGGCCTCCCAAAGCGCTGGGATTACAGGCATGAGCCACCGTGCCCTGCCTTCTTTCCTTTTTTTGAGATAGGGTCTCACTCTGTCACC
CAGGCTGGACTGCAGTGGTGCAATCTCGGCTCATTGCAACCTCTGCCTCCCGGGCTCAAGTGATCCTCCCACCTTAGCCCCCCAAGTAGCTGAGACCACA
GGGATCCACCATTATGCCTGGCTAATTTTTGTATTGTTTTGTAGATGGGGTTTAGCCATATTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGTGATCC
GCCTGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGCTGTAAAATTTTTCCTTTTAGAGAACAGGGTCTTGCTGGGTTTGC
CAGACTGGAGTGCAGTGGCTATTCATAGGCAATGACCGTGGCATACTATAGCCTGGAACTCCTGGGCTAAGGTGATCCTCCTGCTTCAGCCTCCTGAGTT
GCTGGGACTACAGGCACCCAGCAGATAAACAATGTTTTGTAATCATGCCTGACAGTAAGAATTTTCCAACGGCTAGTTAAAAATACAGATTCCCTGGCCA
GGTGTGGTGGCTCACGCCTGTTATCCCAGCAGTTTGGGAGGCCGAGGTGGGCACAGATCACTTGAGGTCAGGAGTTCAATACCAGCCTGGACAACATGGA
GAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCGGGCACCTGTAATCCTGGCTACTAGGGCAGCAGAATCACTTGAACCTGGGAG
GTAGAGGTTGCAGTGAGCCGAGATCGGGCCACTGTACTCCAGCCTGGGTGACAGAACAAGACTTTGCCTAAAAAAAAAAAAAAAAATACAGATTCCCAGG
CTTCACCCTCTACAGTCTATGGAAAGGCATGGGAATCTATATTATAACAAGCCATTGAGTTTCTTTTTCTTTTTCTTTTTTTGAGACAGAGTCTTGCTCT
GTCACCTAGGCTGGAGTGCAATGGCGTGATCTCAGTTCACTGCAACCTCCGCCTCCTGGGTTCAAGTTATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGG
ATTATAGGCGTGTGCCGCCACCCCCAACTAATTTTTGTATTTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCAGACTCCTGACCTCA
TGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCTGGCACTGGGTGGCTTCTATGAGGAAGTTTTGGAATGCATCCAGGAGCCCT
CCACTCCAGGTTCTTGGTTTATTAGCCTTTTGGTCCTCTATTTATCTAGCCCTCTGTTCAGTAAAGCTTTAGGTTTGTTTGAAGGAGACATGATTAGAAG
GTCAAATATTGTATATTCTCAAGGCGAATGTGTCCTGAACTTTGCATAGTAGAATTTATTCCTGAAAAGTTGTTTGCAGATGGAATTTGTTTTGTGCGTG
AGAGAACAGGCATATACAGAATACCTTAGTTTGCTATTTAATTTAAATCAATATTATCTGAGTGACTGTTATTTGCTGAGGATACAATGATAAACAAGAT
GCAGACCCCATCTTCAAGGGTCTTAGAGTCCAGCGAGGAAGGTGGTCAAATAAACAGGCAATTACAAAATTGTGGTTAGATAAGGTTAAGCACAGGGAGC
TATGGTGGATGGAGGAGGAAGTGCACCCAACTCAGTGTTGGGGCATCTTGGAATTTCTAGGTGAAGTGACATGTGATGGAGAAACCTATAGACTGGAATA
TAGTCTCAAATCCATTGCAAAGGGAATGATCCTTCCCCAACTTATCTTCGTGGAAAAATAAACTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTATTGAGA
TGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTTACTGCAACCTCCGCCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCT
CCCGAGTAGCTGGGACTGCAGGTACCTGCCACTGCGCCTGGCTAATTTTTTCTACTTTTAGTAGACGGGATTTCACTGTGTTAGCTAGGATGGTCTCCAT
CTCCTGACCTTGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCGAAAAATAAACTTTCACATCATGTT
ACCCCTGGATACATTTTTGTGGCCATGCATCTGCACGAATATTCAATCCCTGCTACAGGCAAGACACTGAGTGGGAYGTTGCAGGGCTACCAAGGTGAGG
AGGTCCCAACCCCTGTCCTCAAGGAGTTGATGTAACACCTACCCAGGATTAATTTCATTTCTCTCAGAGGTCATTAATCCAGTGTGATCTGTTTATGGCT
GAAGAGGTAGTTTATTATTCAGGTCTTCACTCCCTTTCCTGAAAAGGCTGTTTATTTTGTTTCATCACTGTGCAGTGGCGAAATCCAGTTCCAACCAATA
CTTAAGCTGGGCATACATTTTACCCAGGAGAAAACTGAAGGGCGTGCAGGAGTTCACAGAGCTGTTTGCTGACCCAAGCCATGAATCTGTGGAGACCTGG
GTCGGTCTTCAGGGTTAGTAGGGTCTGTAGGGTCTGTGAGGATCCGAGGCAGCCTGCAGACCTACTATCATCTTCTTTTTCTTTTTTATAATTGGCAATC
ATCCTTGGCTACCCAGTAGCATCTTTTTTTTTTTTTTTTGAGATAGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCCATGGCGCGATCTCTGCTCACTG
CAACCTCTGCCTCCTGGGTTCAAACGATTCCCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACTACACCCAGCTCATTTTGTATTTT
TAGTAGAGACAGGGTTTTTCCATGTTGGTCAGGTGGTCTTGAACTCCCGACCTCAGGTGATCCGCCCACCTTAGCCTCCCAAAGTGCTGGGATTATAGGC
GTGAGCCACTGTGCCCAGCCCCCTGGTAGCATCTTAAATCAAGCTTTCCTTCCCTCTGGGTATCATGGACATGAACACCTTTTATGTCTCTGCCTCAAGA
GGGGAGGAGGCACAGAGGAACAAAAATCCTTGTGAATTATGATAATTACATAGTGTTTAAATGAAGGGTGGCAAGGTGTGTAAGTCCATAGGTAAGGTTT
CTTTTTTCTTTTTCTTTTCTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGTCTC
CCGGGTTCAAGCGATTCTCCTGCCCTCAGCCTCTGGAGTAGCTGAGATTACAGGCACGCCATCACGCCCAGCTAACTTTTGTATTTTTAGTAGAGATGGG
TTTTCACCATGTTGGCCAAGCTGGTCTCGCACTCCTGACCTCAAGTGATCTGCCTGCCCCGGCCTCCTGAAGTGCTGGGGTTACAGGTGTGGTGTGAGCC
ACCACGCCCAGCCTCTTCTTTTTTTTTTTTTTTTTTTTGAGACAGGTTTTCACGTTATTCCCCAGGTTGGAGTGCAGTGTTGCCATCTTGGTTTACTGCA
GCCTAGGTTCAAGCCATCCTTGTATCGGCCTCCCAGGTAGCTTAGTCTACAGCTGTGTGCCACCACACCCGGCTAATTTTTGTAGAAACTGGGTTTCACC
CCGTTGCCCAGGCTGGTTTCGAACTCTTGAGCTTAAGTGATCTAGTCACCTTGGCCTCCGGAAGTGCTGGGATTACAGGCGTGAGCCATCGTGCGGCCTG
GCAAAGTTTCTTTATCCTCAGTGCTTGTCTGGGTGTGTTGTCTGGTGGGAACCACTTAGACCCTGTAAGTGAATGTGTATTCCCATCTTGTAGATGGTAA
CCTGAGGCCCAACGGGTGTCTGGAGGTAGTGTTGGACACCTCGTGGTCTGCATCTTGCTGCACACAGAATCCAGCCTAGACTCATTATCCTGGCCTTTGA
AGTCTCCCCCAGTATGAATCCCCCAGCCTCCCATTCCTGTTTCTCCGAAGGCCAAGCTCGAAGCATCTGCTGCCTCGTTTCTGCCAAGTTGGCCCCACCT
CCTGAGACACTTCTCCCCTCTACTGGCCTGGTGAAACTCAACACATCCTTCAAAGCCCAGCTCAGGTGTCACCTCTCTCCTGGTTGGAATTAACCTCTTC
CTCCTTAGCACTCTCTGGTTTGGCCCTTTCTCTTGCGGCTTCTCCTGGGCAAGTGGCATAGCCTCCCTGATCCTAGTGTCTTCCTCTGTGCATGGGCACA
GGAGTAATATCTGCTGTGATCTTTAACTCCTGTCAGTTCATTGACCTCTTTAACAACGTGATGAAAGCTTCCAGAAGAGCTAATGTATGTGGAGTCCCAC
GATGTGTCAGGCTAGGTGTTTAGGACTTTACTAACTACTGTCTCGTTTAATCGCGAATGCAGTGGACCTCTCTCTCCACACGTCCTAGTACGATCTTTAT
TTCACACGGGAGGAGAGGAGGGTGGGTGGGGTCGGCCAGAGAGGAGAAATGCGTCTCCAGAGTTCACAGGGCTGGTACTACCAGCAGAGCCCCGTCCACC
ATATGCCACAGCTGGGGTTCTAATCCCTGGACTGGCTTGTACTGGGCTCTCTGCCTCCCTGGCCGGCGCTCGGGGGCTGGGGGACAGAACACAATGTACA
GCGTGCCTTCTACAATTTCGGGGTTCACGCACCCCCAAGCCCACCCAGGGCCAGGTCAAACGCGCCTTCGCCGGGTTGCTGTCTACAATCAGGCTTGGCT
GCGCTCTCAGTAGGGGTCTCGGTCAACCTCTGCCCACCCGAACCCGGCGCCGTGGACCTGGTGTGAGGCTGGGGAGCCCGTCCTGAGGGGTGCCGGCTCG
AGGCGCTAGAGCCACGGAGCCTGGTCCCGGGCTCCAAGTCCCAGGAATGTGGGAGGGCTGGGCGGAGGGGCGGGCGAGGCGGGAGCGCTTCCTCTGCCCG
CGGGAGGGGATCCGCGGCCGGCTCGGAGGGGGCGGGGGCAGCGGCGGGCGGCGGCGAGGGGCTGCGGAGCTCCGCAGCCGCCGGGCCGGCCGGGGCGGGA
GGAAGCGATGAATATTCAGAGGGGGAGGGGAAGGGAGGGGGCCGAGCGCTCGCCGCGGCTCCCTGCAGCCCCAGCCGCATGACGCGCGGAGGAGGCAGCG
GGAGCAGCCGCGGGAGCCGGGACCGGGTAGCCGCGCGCTGGGGGTGGGCGCCGCTCGCTCCGCCCCGCGAAGCCCCTGCGCGCTCAGGGACGCGGCCCCC
CCGCGGCAGCCGCGCTAGGCTCCGGCGTGTGGCCGCGGCCGCCGCCGCCGCTGCCATGTCTCCGGGGAAGCCCGGGGCGGGCGGAGCGGGGACGAGGCGG
ACCGGCTGGCGGAGGAGGAGGCGAAGGAGACGGCAGGAGGCGGCGACGACGGTGCCCGGGCTCGGGCGCACGGCGGGGCCCGATTCGCGCGTCCGGGGCA
CGTTCCAGGGCGCGCGGGGCATGAAGCCGGCGGCGCGGGAGGCGCGGCTGCCTCCGCGCTCGCCCGGGCTGCGCTGGGCGCTGCCGCTGCTGCTGCTGCT
GCTGCGCCTGGGCCAGGTAAGCGCCGGGTGGGCTCGGGCGGGGGGCAGGAGGCTGGGGCGGGACTGGCATTGACTGCACCTGCCCGAGCGTACCCCCCCG
GGGGGTTCCGGGGAAGGGGGCGGGGGTCCGGATCCCCGGATCCCCGGAAGGCGACTTGCGGGGACCCCGGCCGGCCTCKCACGCCGGCGATCGATCCCTT
TTCCGGCTGCCCAGGATCGGGGGAGAGAGGCGGGATCCGGGTGCCGCGGTGCCCGAGCCTCCCGGGGAAAGCCTCCGCGCGGGCTCCAGGCCGTCCCTGG
CCCGGCTCTTCCCGGCGCTGGGCACATCTGGCGGGCACGGGCCCGGCTTCCTAGCCGGAGGCGGCCGGAGGGGGCGTGTTTGCGGAGGTCTGGGGACGCA
GAGCCGGGCGGCCTGGCTGAGCCTTTGCCGACAGACCTCCGACCCGGCCTGCAGGGGCCCGAGGGGCGGCGGGGGCGACAGGGCAGGGCCAGGCGCTGGG
CAGTGGGGCCCTGGGCGAGGCGCGGGACTCCGGGCCGAGGGCCCTGTTCCTGGGGAAAGTTCCCAGGCCGGGGAAAAGGTGGCCGCACGCTGGCTTTTCT
CAAGGCAGCCGGCCCTCTTGGCGTCGTGCTTGATTTCATGGGTGTTTAATWYGTGCTTTGTGGGCGCTGGCTCCCCCTCCCCACCCCACCCTCACCCTCT
TTTCTGGCTTCACTTTTCAGATAATGCTGTCCCTGGCGTTTTGGTGACCGACCTTTCCCCTTCCTGGCATTTCCATAGGGGCTGAGGCAGAGCAGYTGAA
GGGGCATTCCCATTTCACAGATGGGGAACTGAGGGAGAGAAGTGAAAKAGCGGAGCACCCAGCCCGTGCCATGGGAGCTGAGCCAGCGGGCACGTCCTCT
TAGCCTCTGGAGCCTGTTGGGGTTTGAACCCGCAGGGGAAGCGGTCTAGGGCTGCCTTGCTGTGCGTTTCTGCAAATGACCATCTTGCTTGTTTTATACA
GACACCATCTCTGAGGAAATGAGTTATTGGCTGGGGATGGAACCTGGTTTCAGGGAAAACTTCTCCAGCGCGAATACAGGAGAGAGCAGAAGCATCACCC
TGGGGCAGCAATGCCGCCTAGCAGGCTGTAGGAGAAGGGGGCTGGGGCCTGGGGGCTGCGTGACCCTCGGCACCCAAGGGTCTCTCCTCGCAGTTTCCCC
AGCAGGTTCTGCACAGGCTCTCCTGGGGGCCAGAAGGCAATGTGACCTCCTGCAGAGAACCTGGGAGTAGATGTCAGGAGACTGGCTCCAGGGCCGGGCC
ACAGGGCTGGACTTGCTCTTCAGGCTTCTCTACCCTCAGTTAACCGCATCTGTAGAATGAGTATAGCACCCTCTGCCCAATGGAATTGTTTGAGGGGCTT
CCACTGGCCAATGTCTAAAAGAACTTTGTAAATATTAAGGGTTTCCACATGGGATTCTCATTATTAAGGTACAGTGCCTGTGGGGGCTGTCTTCTCCCTG
TCCATGTAAGGAAATTCAGGGAAGCAGTGTCTGAAGTTAAAAAAGCCTTGTATTTGAAGATTTCTTGTATCAAAAGTTTATGCTAAAACAAAAACCACAA
AAAACAGAAAACCCCCAAACTTAAAGCTTCATTTATTTTTAAATGTATAATATATGTAATTTTTTTTTTGCTTCAGCAAAAAAATTTTAAATTATATATA
TATAAAATTTATTTATTTTTGCTCCAGCCATAGTGGTTGCTAGCTGTGTTCTCAATCAGCAAAAAGTTTCTTGGGTAAATTTATTGCTTGCTCAATCCTT
CCTTGTATTTCATTAGCATATTGCCACTCTACACTTGTCCTGTATTTAGATATTTCCTTCCTCTATGGTTTGTTCTGTAGAACCTCAAAAGGACTCTCTT
ATTTCTTTTTTTTTTGGACACATTATGAAATAGGAAGTCTAAAAGGCTCCCAGAAGAAGCATCTTCAAAATCCACATTCAGCAGTTCATTTTGATAATGG
ATATTTCAGGGAATCAGTGCATTTTTGAGCTGGACCAGACTTTCAAGAYAGCTGAAACCCCTCAGAGCTCTTAGATGAGGATATTGATGTCCAGAGAAGA
CAGGGAGCAGGCTGAGGTCACCCAGCAAGGTATTAGAGAAGACAAGATGGGAACCTGGGTCACCKGCCTGGGCCTCATATTTTCAAAGTGCTATTTTTTT
TTTTCCCGTGTTTTCACTTTGATCTTACTTTTAATGATAGGGACGTATCACTGTGTCTTCTCAAAATGGTGGGTGTGAATGGAATTTTTCAAAGTTGAAT
CAATTTGAGATATTTCTGAAGTTTGTTTAGGAAACAAGTATGTGACTACCTTCCTAAGAGCTGACTGGTTTTTTGAGGCCTGGATTGTGTGTGTATGTGC
TTATGTGTGTGTTATAAAATGGAATCAACTATACCAGGTTAAACAAATGGACAAGTCATGGAAAAGACACAGCTCTGTTTGGACATTAATAAGGGCGGGT
GTGGAAGCTGGAAAGCTGAGATGCCGGAAGGCTCAGTGCTTAGTAGGCCCGGAAAAGCAATTTTTGAACTGGCATCTCATTCCCCTTTTCTAAGACAGGA
AGGACGGTCAGAGATGATTCCAACATGAGGACTTTGCTAGTTGCAGTGTCTGACTCCTCCCATTCTCATAGCAGTTTTGCACAGTAGTTTTGGTTTGTGT
GTATGTTTTAGGCAATGTGACAAAGCAGTTTTCCTCCTGCCTCCTTGAGAAATTTAATCCTGACAGGTTCTTTAAGAAATCAGCTTGATGTGGGCTGATT
TTAAAAGAATAAATGAAAAAAAAAAGCTGGTGACTGATAGCTGTTTTATTGGTCTTGTAGTGTTTTGGTTTTGTTTTATCTTCACTTTCTTGTTTCCTGG
TGAATAATAACTGGGTTTATTATCTCTCATGGCTAATCCTTAAGCCTGATTCCTTACCTGTTCCATCCAGAGTACAAAGTATATTTTGACTCCTCTTTAA
ACTGCTTGTTAGATTCTCATATGAGTGACTTTAAATATTTTTGTTTTGCTTCAGGACAACGGGAAAACCAAACGATTATGTTTTGTTTGCAGACAGTTTA
CGAAAACAGCAAATTGGTTTATGGTTAGACCGTGACTTTGAGCTGACTTCAAGTTGGGCCCCACGATAAAGATAACCATGGAATACCCAAGCTTTCCTAA
GCAGAGAGGATCCTGGCTTCCAAATGAGCAATTTTGGTCAGCAAAGGGGTTATTTAGCTCCTAAAAGTAATTTTTGCTTGAGGTTGGGGCTGAGGCAGAG
TGGCTGAACAACCGTAGGCCTGGGTGTAGCCAGAGGATCATCAGTAATTACTTCTCAGTTCATTCACTTCTTGGGCTAGGGAATTATTTTGAGTGCAGGA
TAAGAGGCAATTTTCTGTGTGTTTCCCTTCTAATATAATGCCACTGATGATATTATAATTAATAGGTAACATTATGCATGACAGGCACTGTGTGCTAAGG
GTTTTAATGCATTATYTCATTTGGCCATTTCAGAAATACCAAGAGGTAGGTGCTGTTCTTGTTTATTTGTTTGTTTTTTTTTTTTGATAGGGAGTCCCAC
TCTGTCACCCAGGCTGGAGTGCAATGGTGCAATCTTGGCTCACCGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCTTACCTCAGCCTCCCGAGTAGCT
GGGATTACAGGCGTATGCCGCCATACCTGGCTACTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCG
TAGGTGATCTGCCTGCCTTGGCCTCACAAAGTGCAGGGATTATAGGCGTGAGCCACTGTGCCCGGCCTTTTTTTTTTTTTGAGATGAAGTCTAGCTCTGT
TGCCAGGCTGGAGTACGGTGGTGTGATCTTGGTTCACTGCAACCTCCGCCTCCTGGGTTCCAGGGATTCTCCTGCCTCAGCCTCCCAAGTACCTGGGATT
ACAGGCACGTGCCGCCATGCCCAGTTAATTTTTGGATTTTTATTAGAGACAGGGTTTCAGCATGTTGGCCAGGATGGTCTTGATCTCCTGACCTCATGAT
CTGCCCACCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCTGTTTTTGTTTTTAAGAGACAGGGTCTTGCTTTGTCACCCA
GGCTGGAGTGCAGTGGTACAAACGTAATTCACTGCAATCTCAACCTCCTGGGCTCAAGGGCTCCTCTCGTTTTAGCCTCTCAAGTATCTGGGACTAAAGG
CGTGTGCTACCATTCCTGGCTAATTTTTTTTTTTAATAGAGATGGTGTCTCGCTATGTTGCCCAGTCTGGTCTTGAACCTCTGGGCTCAAGTGATCTGCC
CACCTTGGCTCCCCAAAGTGTTGGGATTACAGGCATGAACCACTGCACCCAGCCATGTTTTTATTTTATCTGAGAGAAAACTGAGGTTCAGAACTTAACT
GTRTACTTCTGGAATCTTCACAGAGAAATAAAAAAAAAGAAAAATAATTTACTATAGATTCATTAACTACTACGTGGCGGAGCCAGGGCTGATGTCTCCA
CTGCCCCAATTTACCATCCTGTGCTGTAAAAAGTCATGGAGAAGGTTTTCTGTGTGCAGCTAAGAGAGGAGGTGGCAGACATTTATTTATTTATTTATTT
ATTTATTTATTTATTTATTTATTTATWGAGACGAAGTCTCACTCTGTTGCCTGGGCTGGAGTGCTGTGGCACGATCTCGGCTCACTGCAACCTCCATCTC
CCGGGTTCAAGCGATTCTCCTGCCTCAGCCTGCTGAGTAGCTGGGATTACAGACGTGCGCTACCATGCGCAGCTAATTTTTGTATTTTTAGTAGAGATGA
GGTTTCGCCATGTTGACCAGGCTGGTCTTGAACTCCCAACCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGCCACCG
CACCTGGCCCAGACATTTTTTAGACAGTCTTGCTGTGTTGCCCAGGCTGGACTCGAACTCCTGGGTCCAGTTGACATCCCTCTTCATCCTTCCAAGTAGC
CAGGACTGCAGGGACATGCTACCTTTATTTTGGGTTCTTTGTGTCCTAAACCCTGTATGATCTGCTCCATTTGTAACACAGAGAACCCAGGTGCCCTCTT
TCCTGCTTATATTTCTTTGGGGCCTCAGTTTACAAGGCAAGTCTGCCTTTGTGGAGATAGACTGGGGTCTGGGATGGAAAGACCTGGGTTTGGGTCTTTG
CTCTGCCACTGCATAAACTCAGCAAGTCACTTAACCTCTGTGACTTCTCATTTCCTTATCTGGAAAATGGGACTAACACTTCCTGCTTCACTGGGTGGTT
GAGAGGATCAAATAAGATAGAAAAGGAATTGCTACGTAACACCTAAAGCAAGGCCCAACTGCTAGTTGTGGCTGCTGCTGTTACTTGGAGAGAAGAAATG
AGGCCCCAGATCATTAGTTCATATGACAATTTTTTCTTTTTTTAAGACGGAGTCTCACTCTGTTGCTTAGGCTGGAGTGCAGTGGCGTGATCTCCACTTA
CTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTACTGCCTTAGTCTCCTGAGTAGCTGGGACTACAGGCACGCTCCGTCATGTCTGGCTAGTTTTTGTA
TTTTAGTTGAGACGGGGTTTCACCACATTGGCCAGGCTGGTCTTTAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTAC
AGTCTGAGCCACCACGCCTGGCCCATATGACAAATATTTATGAAGTGTTTTCCACAGAGTAGTATGGAATAACTCTGGGTGTGTGCAAGATGAACTGAGC
TCAGTCACAATACTTTTTTTTCCCCTAATGTTAAGAATTATTGGCTGGGCAGGGTGACTCATTCCTTTAATCTCAGCACTTTGGAAGGCAGAGGTGGGAG
GATCAGGTGAGCCCAGGAGTTTGAGACCAGCCTGGATGACAAAGTGAGACCTTGTCTATACAAAAAATTAGCTGGGCATGGTGGTGTGGACCTGTGGTCC
CACCTACTTGAGAGGCTGAGTTGGGAGGATGGCTTGAGCCCTGGGAGGTTGAAGCTGCGGTGAACCTTGATAGCGCCACTGCACTCCAACCCAGGCAACA
GAGTGAGACCCTGTCTCAAAAAGAAAAAAAATAAAAAATAATTTATTTTAGGGGGTCTTAGTAAAGAAAGACCCCCAAAAGTCCATGATTTTATAGGTCG
AATGAGGTGAAAAGTGGTATCATGATAAATAAATTTGTTTAAATATCATAAAAAGTTGGTCTAAAGAAAAACATTGGGTAAATAATTATGTGAGTATGAT
GTGGTTATGACCAAATTGTAAAGATGATCAGTTTCTTAAGTCTGGGGGACAGGCACTGAGCAGAGGCCGTGGTGGGGAACAGGAGCCTGTCTTCATGGCT
CTTACTGGCCACTGGGCAAGACTCAGATAGYACCAACCAACCAGTCACAGTTGTGATGTAGGATGTGACTGTGAATGACATCCCTGCTGCCYGCTTCAGA
GAAAGGGCTGCCACTTGCCAGAGAAGGAATGGTGATAATGAGGGACAGCCAGTCCCTAAGTGGAGATCCCTGAAAGTGGTGAATATCTTAGACCAGAGAA
GCCCAGAGCAGTTTTTTTACCACCTTGTATGGCTGGTTTTCCAGTGGCTTTACTGGTGCCCCCTCGGAGGACAGGGGCTGTAGGAAGTTTGTTATTACTT
CCTTATTAGTGACAGCTGCAGTCATCCTATTGTCTCAGAATTTCCCTGGCATGTAAATGGTAGGATAAGGGGTGGTGGTAAGCAGATGGGGGGCATTTTG
AAAACGAGGCAGTGTCAGCTCCCACAGAAGGTCTAATTTTAAACATGCAAATAATTTTCAGTTCCACTTTTCCTTCTTCCTGTTAGAGGGAAGYTGTCCC
CTGTTGCCATTTCTGAAACTTGGGCGGACAATGTCGTTATTGTGTTACAAACGATTTGCGTCTCCAGGGCAGGAGTTGGGTGATATTTTTCTGGGAGCCT
GTGCCAGGGCGTAGCCCAGTGTTATCTCATGGTTTCTGAGTGAATGAGTGAGTGAGTATTAAAACTTCATATCAACATGGAGCCTATAACACAGTGGTTC
TGAATCTTTCTTGGGGGGGAAAAGAAGAGATACAAGACCCCTAGAGAGTATAGAGAGTATGTAAAAGGGAAGAATCCTTCCCCAAAAGGGAATGCACATA
TTTACAATATTGTATCCAATTTCAGAAGGTTTTTTTAAAATTTTTAATTTTATTGTTTTTTTTTTGAGACACGGTCTCAGTTTGTACCCCAGCGTGGAGT
GCAGTGGCATGATCTTGGATCTCGGCTCACTGCAGCCTCTGCCTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCACAGTGCTGGGATTACAGGTG
TGAGCCACCATGCCTGACCATGACTAGTGTTTTGATGTGTGGATTTACTACAATTTATTTGACCATTCTCCTATCAATGGACACTTTAGTTGTTTTAGTA
CACCTCCCTGTCCCGTCACAAATCATACTTTGTAATGTTTCTGGTGGATATTTCTTGTAACCTTCACAAGTTTATCTGTAGAGTAAATTTCTAGTTTCAG
GATTACTGGATTGGAAGATGCATGCATTTAAAAGTGTGATTGCTGTTGTCAGGTTGTCCTCCAAAAGTGTCCCCTCAGTTTGTACCTGTATCCATAGGTT
TGGAGAGTGTCTGTTTCTCCATACCGTCTCATCTGAAATGAAAATTTTTACATGTTTGCTAGTCTGAAAGGTGAAAAATTGTATCTTGTTTTTTTTTTTT
TTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCTGGGCTCACTGCAAGCTCCGCCTCCCAGGTTCATGCCATTC
TCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCAAGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGAGGTTTCACCGTGTTAG
CCAGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCTGGCCGTATCTTGT
TATTTTTATTTATATCTTTAATTTTGAGTTAGTTGAGTTTTTTGGTCATTTGCCTCTGCTTCTTCTTCTTTTTTTGTTTTCTTTTTTTTTTTGAGACAGA
GTTTTGCTCTTGTTGTTCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCTTTCT
GAGTAGCTGGGATTACAGGCGTGTGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGACTTGTTCCTTAGGAACCATGTTGGCCAGGCT
GGTCTTGAACTCCTGATCTCAGGTGACCCACCTGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACTGTGCCAGGCCCCATTTTTTGTTTT
TTGGTTAACTCCCTGTTCATTAAAAAAAAAAAATCTRTATCTATAGATAGATAGATATAGATATAATCTTTGTTATCAATTTGTATAAGCTCTTTGGAAA
TTAGTCCTTCGATTGTCATTTGTATTGCAAACACATTCCCCCTCCCCCATGCCAATTATTTTAGATGTAGCACTTGTTCCTTAGGAACTCAGAGATAAAT
AAGACCCTAGGGTGGTGAAGAGAGCATAGAATTTGGAACAAGACTCCTTTGTTGGAGTCTTGGCTCTACCACCTCATTAGCTGTGTGATCTTGGGCAGGT
ATCTTGACCTTTCTGATCCTTGCTCTTCATATTCCAAAAATGCTAATAATAGGAGTACCTCTGACACAGGGTAGTTGGAGAAGCTAAGTGTGATCATATT
ATGCTAAAATTCCTTGTAAATGGCTATGGAAACATAAACACAGCATTTTATAAAATACCACGAGGTATTCCATTTACTGAAGAGTTACATCAGAAGAGTA
TTTCTGATTGTGCCACTGCACTCCAGCCTGGGCGACAGACTGAGATTCCATCTCAAAAAACAAACAAACAAAAAACTAGCCAGTCATTTATAAGAATGAG
TTACAGCTATAGGTGCAGGCGGTAAATACTCTCCAAGATATCTAAATAAATTAAAAGGCTATGTAGAGAACAATGTATATATAATGTTACCTTTAAAGTG
ACAAAAAAAGGTGAATATAGATACTTGTGTATCAGAAGAGAGAGGTATTCCATTTACTGAAGAGTTAGGGCAAAGACCATAATATTGTAATTATCAATAA
TTATGAATTGTCAAAATTATGTCATGAAACCTCTTTTTTTCTTTTTTTTGAGGGGGAGTCTTGCTCTGTCACCCAGGCTGGATTGCARTGGTGTGATCCT
GGTTCACTGCAACCTTTGCCTCTGAGGTTCAAGTGATTCTTCTGCCTCAGCCTGGGATTACAAGCATGCGCCACCATGCCTGGCTAATTTTTGTAGTTTT
AGTAGTGACAGGGTTTCATCATGTTGGCCAGGCTGGTCTGGAACTGCTGACCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGTTGGGATTTTTTTT
TTTTTTTTTTTGGAGACGGAGTCTCACCCAGTCACCCAGGCTGGAGTTCAGTGGCGCAATCTTGGCTCACTGCAAGCTCCACCTCCCGGGTTCACGCCGT
TCTCCTGCCTCAGCCTGGCTGGGACTATAGGCGCCCGCCACTATGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCATTGTGTTAGCCAG
GATGGTCTCAATCTCCTGACCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGACCGGCGGAAAGTGTTGGGA
TTACAGGTGTGAGCCACCGCGCCCGGCCCCATGAAACCTCTTATATTGGGTTTGAGATTAAATCCACAATGGATTGTGTGTATTATATATACACACACAG
ACACACGCAAATGTATTAAAATGTATAATATGAAGCAGTGGAACTTCCCTGATAGCACAATTTAAATATTTCCTTTTTGACAAACGTGCATAGTTAAATA
AATTAAGTGACCACCAGGTGTGACTGAAGAGTGGCCAGTGTCTATTCCTAGCCCCGAAGGAGCACAGGGATATTGACTGTGTCCCTTAAAAAAAACAAAA
CAAAACGTAGGGCTTTCTTTGTATTGGTTTGAACATTTCTCTTTATCTTGTGACCTGGCCAACTCTGGCTATGGCTGCCTCCTGTCTCTCGGTACATTTT
CTGTGGCGGTCAAGAGGAGTTATTTTAAGCCACCAATGGGAAAGTTTAAAGACATAATCCTTGGCTGTAATTGCGGGAGACGGGAGGCTGAGAGTCTGTG
CTGACTTGCCACCTGTTTCCACGGCAGCAAGGTGATTGTGCATTTCCTGCTGCTGGCTGAGGGGCCAGCAAATTTTCATGTCGTTGTGTCATGGGGAAGT
TTTCCTGTCTCAATGAGAGCACACCGTGCTTGTGGTCTTGTTCCTGTGACCAGGACATGGAGAACTATGGGGAGATTGTTCTGGGTGTGAAGGGAAATTG
CTGGCCAGTGCTTAGTGCACGGGCTTTGGAGTCAGAGCCAACTTCTCCACCTCCTACCTGTGTGACCTTGGGCCTATCCTTCTAATGCTTGGAGTCTCTT
CTGTCCTCATCTGTATGATGGGGATAACAAGAATACCTACTTTATAGGATTGCTGTGGAGGATTAAATGGATCTGCATGACAAATGCTTAGCATGAAAAA
AWCCCTCAACAGATATTGGCTGCTATTTTATTATCTTATTGTGCTGAGACACTGGCATAATTTACAATTCAAAAATTAAATTTTTTTAATCTTATACTGT
AGTTTACAAGGCCCTTTCACATATATGAGCTTGTTCAATCCTCACAGCGTCCTTGAGTTTGTCATTGTTATTGCCATTTAAAAAGGTATGACTCAGAGTG
GCTGTAATTGACTTGTCCAATTCAGGTTTCATCTGTCTTTTGCAGAATAATAATCATGTACGTTCATAGTATAGGCCACCTCTTTTTTTTTTTGTTTTTT
AAGACATAGTCTCGCCCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGTAACCTCCGCCTTCTGGGTTCAAGCGATTCTTGTGCCTCA
GCCTCCTGAGTAGCTGGCATTACAGGAGCCCGCCCACCATGCCTAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGT
CTGGAACTCCTGACCTTGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGAATTACAGGTGTGAGTCACCGCGCCCAAGTATAGGCCACTTTTAAGAAT
TACTCAGAGTTAGCTTATAAGAGGCGAATCAGTGGAGTCCTCCAGTTTGGTTCACACATAATTATTAGGTTGAACCATATAAAGTTACTGTTTTTGGTCC
TGTGAATATTAGTATTTATATATGGTTCCAATCTGATATGTTCCAGAAAATACACACTTAAGTAAAGTTTGGAAAACCAAATCATAGACTTACATACTGT
AAGGCGGTGTATTTGAAACTGGGATGTAAAATCAATTTAGTGAGTTATGACCTGCATTAAAAAAATGGTAGAATATCAGAGTTTGCTGGTAAGTATTGTA
AAAATACCAGAGTTTGCTGGTGAGTATTGTCCATTTCAGTTATATATGTGCGCACGTGTGTGTGGTGTGTATGTGTGTATACTAAATTGCATATAAAATG
AATTTCTTATCATGGGTTCACCTGTTGCCAGAAAACACTGGAAGTCACTGTTCCAGGGAATGGAATGGTGGAAGATGCCTGGTGGGGGATGGAGGTGGAT
TCTGTTTCCAGACACAGTAAAAAAAACCAGTATAAAGTCCCCAATTATGCATTGTCAGTGTCTCTATGTGTAGCTGGAAACCATTCCTGCAGCAGGTAAG
CAGGAAGAACCAAATTGTCGAGAGGCACTTCAGGAAGGGAAGTGGGCCGACTGAAAGCTTTGGAGGCCTGCCTTTAAGTAGCTGCTTTTCTGGAAACTTC
AGGGTGACCAGCCTAGTGAACAAGCTATGGGTCAGCGTTGTGTGTTCCTTTGGTAAATGGATTTGGTAGAGAGCTAACACTACTGCATTTGTAGTTTATT
TGTTTGTTTGTTTTCTTTTTGAGACGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGTTGCGATCTCGGCTCCCTGCAGCCTCCACCTCCTGGGTTT
AAGTGATCCTCCTGCCTCAGCCTCCTGAGAAGCTGGGATTACAGATGTGCACCACCACACCCAGCTAGTTTTTGTATTTTTAGTAGAGACGGGGTTTCAT
CATGTTGGCCAGGCTGGTGTTGAACTCCCGACCTCAAGTGATCCTCCCATCTTGGCCTCCCAAAGTGCTGGGGCTATAGGGCTGAGTCACCGTACCCAGC
CTGCGTCTGTAGTTTAAATGATAACTTAATGACCACCATCCAGTAGCTGAGGCTCTAAGAGGGAGGTCTGAATAGTGGGTGACTCAGCTCAGCCCTGCCT
GACCTCTAGCTCTAGGCTGTGCTGTCTCTAGGCTCCGGCACTGATTTGCATGGGCCTGAATGAACCTTCTGGAGATTGTTAGCCCAACTGGCTGAAGGAT
CCTGATCCCCAGGTTAATTTGATTCCCATCAAACAGTTCATTTTTTTTTTTTTTTGAGAGGCAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCGGTGGTGG
GATCTTGGCCCACTGCAAGCTCTGCCTCCCGGGTTCAAGCAGTTCTCCTGCCTCTGCCTCCTGGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCTGAGTAG
CTGGGACTATATGTGCAGGCCGCCACACCCGGCTAGTTTTTTGTATTTTAGTAGAGACGGGGTTTCACCATGTTTTCCAGGCTGGTCGTGAACTCTTGAG
CTCCGGCAATCCACCCGCTGCAGTCTCCCAAAGTGCTGGGATTACAGTTGTGAGCCACTGTGCCTGGCCTTTTTTTTTTTTTAATATAAAAAAATTGAAA
ATACAGATAAAAGGAAACAAAATTACCTGTAATCTCCACTCATCCAGGTTAACTCCTGGTACCTTTTTGATGCGATTTCTTTGTCTTTTTAAATGCATGT
TCTGTCTATTTATACTACAATAGGATAACCTCCTACATGTGCTTTGTAACTTACATCTTTTAATTTTTAACAGTTGAGGTGGGCCGGGCACCGTGGCTCA
TACCTGTAATCTCAGCACCTTGGGAGGCCAAGGCAGGCGGATTGCCTGAGCTCAGGAGTTAGAGACCACCCTGAGCAACATGGTGAAACCCTGTCTCTAC
TAAAATACAAAAAATTAGTGGTGGTGCACGCTTGTGGTCCCAGCTGTTTGGGAGGCTGAGGCATGAGCATCACTTGAGCCCTGGAGGTGGAGGTTGCTTG
AGTCCTGGAGGCGGAGTGAGCCAAGATTGCGCCACTGCACTTCAGCTTGGGCTGYAGGGTGAGATTCTGTCTCAAAAAAATAAATAAATAAATAAATAAA
ATAAAAAAACAATTGAGGTGGATGTCTCCCTAGGGGTACCCCAGGAAGCCACAGGATAAAAAGCAGGCATCTTGCTGGAGGGTCTCTGTTGCTCAGTAGA
AATTATTTTGTAATGTTTTTTGAAAACCACAAACATGGACATATTATGGACTRGATACCACATTTGCATCAGGATTTTTTTTTCAACCAGTACAGTACAT
AACAAAGAAATCTCTACCCTGCAGACCCTCTGGGGGTGTGAGAGCGCTCCTTGCTATTCTCAGGGTCAATGTATGGCAATCTGTGAAGGACTGACAATAT
ATTGCAAACGTTTCCCCCTGCCAGTAAATATTCTTCTTTTGTATAACTGTTAGCTGTTGCATCCATTCCATTATGTGGAGGTACCTTAATTTATCTAATA
AGTCCTGTGATTAGTCTTATAGTTTGTTTTCAAAATTTTTTTTGTCACGATAGGCCCTATTCAGTTGACTTTGTGATCAGCTCTGAACATATAATCTGGT
GATTGCCTTAAGATAAATTGAATAATAAAAGTAACAATAGTAGCTACCATCGGTTGAATATTTATCATCAACTGTTGTGAGCACGTTGTACATATTAACT
CATTTAATCCTATGACGTAGGTATAGGGAAGGAAACTGAGGCTCAGAACCTCTGCCAGCTAGTTGTGGGCTTCCTTTGAGGCACAGGGGAGCTGAATGGG
AGGGTCTACATAGGACAGGGCGTGTCTGAGTCCAGGAAGGACAGCTGGACTTGGGCCAGTCTCACAGGTGGGAAGGCTGTCTTTCTGTGAGGATGGGTGA
CTTGTTGACCTTTGATCCTCAGAGCCCTGATGCAGCAGGAGTGAAATGATTCCCAGAGCCACAGAAAACAAGAGTATCTTTGTCTTGGATTTTAGATCCT
GGAGCTATCAGGTGGTAAGAAGGCTGTCTGACCCAGATTAAGTGATGTCATGGTATCATGTTGGGGTGTGGGCCTTCCTGTTGTAAATTATTTGGGATTT
CATAGAGATCGAAGTCATGTGTGGATGACATGACTTCAGGATGTCCCATTAGAAGAGGAACGTGGGGGTCAGGCGTGGTGGCTCACGCCAGTAGTCCCAG
CACTTTGGGAGGCTGAGGCGGGCGGATCACGAGGTCAGGAGTTCAGGACCAGCCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTA
ACAGGGTGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAAGTGCTTGAGCCCGGGAGGCACAGGTTGTGGTGACCTGAGAT
TGTGCCATTGCACTTCAGCCTGGGCAACAAGAATGAAACTCCATCTCCAAAAAAAAAAAAGGCTGGGTGCGGTGGCTTACGCCTGTAATCCCAGCACTAT
GGGAGGCCAAGGCGGGTGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAATTAGCT
GGGCATGGTGGTGGGTGCATGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGATCGC
ACCACTGCACTCCAGCCTGGGGGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGAGGAACTTGGGAAAGAGCATGGGCTTTGGTGTCA
GCAGAAGCATGTGTCCAGTTCCATGCTCTTCCCTTATAGCTGTGTGACCCTGCTATCTGCACAGGGACTTGAGCCTCTCAGAATCTGTTACTGCATCTGG
AAAATGGAAATCTGGAAATGTCACTGCATCTGTAGCAAYAACCAGGCCATTTTGTTACTAGGTTTAAGTGAGGGAAGGCATGTAAGGCACTCAGTCCAGA
TCATGGCACTTAGTAGGCCTGAGCACATTTGCTCCCACCTCAGTGACCTCCTTGTTAACACGACATCTCCTGACTTTGGGGCTGCAGAGTGATGCAGAGC
ACTGGCCAGTGTTGCCATGCACCCAGGGTGCAGGGAGACCTGTCTTGCAGGTGTTCAAACAACTTTTGTCAGCCTCAGTGTCAGGGACTTTTGTTGCGTA
GAGCAGTCACCRAATCCTATGGTGAGAAGAGAAATCGTTGGAGATGGGGGTGCAGGGGTGGAAGCTCTTATTTCAGAAGACCTGTTGTGAGGTAAGACTC
AGACCCTCAGCTTCTATCCGGCCACAGAGTTTGGGACCAGCCTTTCGATGTCTTTTGGAAGATGCACATGGAATGCTTAGCCTTTGCTCTTCCCTGGAAC
CTGGCTTAGGCTTTGCACCTATCCCACCATGTGGTTGGGGTGAGTGAGGACAACTTCTTTTCCTCCAGAACATGGTTTCTCCATCTCAGCCCTATTGACA
TTTTGGGCTGGATAACTCGCTGTTTTGGGAGGCTGTCCTGTGTGCCCCGTAGGATGTCCTGCAGCCTCCCTGGCCTCTGCCTGCTAGGAGCCAGTAGCGC
CCCCTCCCCCACAGACAAAAATGTCTCCAGATATTGGCAGATGTCCCCTAAAGGGCAAACTACCCTTGCTGTAGGTAATACTTGCTTTGAAGTACTGGTG
TGGATGGCCTATGCCCTGGCAGTCTTACTAGGTGGGACTGGCTGTCCTCTCATTCTCATGGGAWTGGCCTCATGCTGGTAGCTGACTTCCTCCCCGTGAG
ACCGTAGGTCTAAACTAACAAGGTTTACACATGTGACAAACATCCAGGTTGCCAGGGCTCAAAAGAGGGTTCACATCGACTCCCTTCTCATTCACTGAGT
CCTTTTTCRGGAGCTTTGGCCGAGTTTGTGCTGCGTCTGGGCATCTAGGTGTCGAGTTCTTCCCTAGTGTTTTCAGCCTCGGCTTCCTCCTCTGTAAAAT
GGGAGTAACTGATACTTTTCCTGTCTGGGTGGGAAAGGAACCCCGTGCTAATGTGATTGATGGTGTGGTGCTAAGCTCTGCTGCAAGGGATGTGAAGTTG
AGGGAAAGGTTTACCATTTATTAGGAGCTTTGAGACCAAGTTCCTTCCACACAAGAGATATGCCCTGTCAAAGGGAGATCCCATTGCAAAGAGATTCACT
GCCAAGTTCCCCCTCCCACTAGCTCCCTGGAGCAATTTTCAGCTTTTAGAGTGTTTAGAGGCCTCAGGGTGTAAAGCGAGAGAGAGAATGCCTTCCAGCC
AGCGAGAGAGAATGCCTTCCAGCCGGTGACATTGAGAATAGCAGGAAAGAGGCAGAAGAAGAAACTGACTTGAAGGGTGATGCCAGCCAGGGGTGAGTGG
AGTGAGGTAGGATTTGCTTTCTGAAAACTGGGATGTGCACACAACCTATCAAGAATACTTCACTTTGTGAGGCCCAAAAACAGCTCCTAGCACAGTGTAG
AGCAGACTTGGTCAGAACTTCAATCCTTGAYTTTTTTTTTTTTTTAACCCGAATTTCATGAGGTTTTTCTGAGACATCCACTGGACTGTCATATACCGTG
TGCTGGGCTCTCATTTTATCCTTACAATTATTATGTTCATTTTAAAGACCTCATGTTAGCTAGATCAGTAGGGTGACTACAGTTTACAGTAATCTACTGT
ATATTTCAAAATAGCTAGAAGAGAACAATTTGGTTCTAGCATAAAGAAAAGACAAATATTTAAGGTGATACATATCCCAAGTACATTGATTTGATCTTTA
CAAATTGTGTGAATGTATTAAATTACCACATGTGCTCCAAAACTGTGTTCTTGAAAAAATTATCACGCCCATTTTAGAGATGAGGCACAGAGAGGTGGAG
GGACTTGCCCAGATCCAGGTATGTGGCTCTCCTGTAATCKCGCTTCTATTGCTTTGTGATCAGCAGCAACTTAGTAGCTTTCAAAGCTTCAATTTTCTTG
TGTGCCAAATGGGGCTAATAAATACCTTAGAGGATTGTGATCAAGATTCCGTGAAAAAATGTATGCAGTGCCCCCGGCAAGGTGCCTGGCATACAGAAAG
TGCTCTGTACGCACCAGCTGCTGTCATTATTATTGTTTCAACTACCAGTGATCATAAAGGATGCCTGCTTTGATGAGCTTTTCCAGGAATATGGACTGGT
CTGCCCTGATCTACTTGAATAATCTGTCTCAGGCCCTATTCGGTAAATACATGTAGGAGGTGCAGCTGCCAGGGAAGGGAGGGATGTTACCTGGAGAGGA
CAGAGTCTGAAGTTCAGGAAATACAGCAAGAGCCTTCCTCAGGGATGAAACATGTGATCTTATGGTCTGACTAGCCTCAAGCCAGCTGAGCTCATTGCCR
TGCAACTTGGTAGTTAATGATTGCTAGTAAGAAGTTTAAAAGGATCATCCCCTCAAAGAATGTCAGAGTTGGAAAAGACCTTAGGGACATTAGGCTAGGA
AAGACAATGTCCTAGTGAGTGACTGCTTGGGCCCTGTATAGAAGGGATTCTCAGATCACTTGGGATGTCCTGGCTCAGCAGGAGGCTAAGGTGGGATCAA
TTAGTGATGTCTGCCATGGCCACAAGAGAGGCAAGGAGTGGCACATGTGCTGTTTATTTGCTGTCTTTGGCTGCAGCTGAGGACACTGAGGCCCAAGACT
TGCTTGCTTACTGGACGATCACCCAAGTCATTAAACCACAAAAATCTCTTTTGGAAGGAATCTGTTAAGAATGTCTGATTATAAGAGTTGCACCTTTGAG
CAAGTATTTTTTGCTTGATAGTCTTCAGTGAGGAGGAACTGTCTTCAAAGAGCACATTCTGTCTTTTGGCAATTCTCCCAATTAGAACTTAGACCACTGA
GGTAGAAAGGCCTTAGAAGCCCCTTTAAGTGGGCTCTTCTCAACTGGGGCTGCACCTGAGAAGCTTTTGGAAAATACCAGTTGGAGGCTCCCTCCCCAGA
CCAGTGGATTCTGGATATCTGGGTGTATGGACACCTCTTGCCCCCATTGGTGTTTTATTTTCCAAGCTCCTCATGTGTTGTTAATATGTAGCCAGGGTTG
AGAACCACTGAGACCAAAACTCTTTGGAAACAGAGACCCAGAAAGGGAGAACATGATTGTCTATGGGTATGTAGGGCTAGTGGCACAAGGAGAAGGAAAA
CTAGGGGGGAAAAGGCCTTTATCAAATGCCACCCATATGCTAGTCTCTTTTACTTTCATGCCGAGATTCTTCTTTTTTTTTTTGAGTCAGAGTCTCGCTC
TGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAACCTCCGCCTTCTGGGCTCAAGTGATTCTCTTGCCTCAGCCTCCTGAGTATCTGG
GAGTACAGGCTTGTGCCACCACAGCTGGCTAAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGCCCTCCTCACCT
CAGCTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGTATGCCTGGCCCTTTTTTTTTTTTTTTTTTGAGATAGGGTCGTGTTCTGTTGCCCAGGCTGGA
GTGCAGTGGTGTGATCACAGCTCATTGCAGCCTCAACTTCCTGGGCTCAAGCGATCCTCCTACCTTACCTGCCTGAGTAGCTGGGACTACAGATGTGTGC
CACCTCTCCTGGGTAATTTTAAAATTTTTTTTTTGTAGAGATGGGGGTCTCACTATGTTGCCACAGCTGGCCTCCAAGTCCTGGGCTCAARCGATCCTCC
CGTCTTGGCCTCCCAAAGTGCTAAGATTATAGGTGCAAGCCACCTCTCCTGGCTTGCTTCTTTCCCGTAAATTGAGGTGTGTTATTCCACTGCTTAAAAG
CCTACATGGCTTCATATCGCTSTTAGTATAAACCCAAACAGTGGTCTGCAAGACTCTGAACCTTAGATYAGGATGATCAGACCCCTCCCTCCCCTCCACC
CTCCGACCTCATCCTGGCTACCCACTCCCTGTTCACAGACTRCAGTCACCTGGCTCTAGTACAACAGACACTTGAACCTACCCCGCCCCTCTCCCTCAGG
GCCTGGTACTATCCTCCTCGCTCCTTCTTATCACTCAGGCCCCTCTATCCCATCATCCTCCTTCATTTCCTCCCATCCTTATCACCTACTCATTTCTGTC
TGTCTCCCCACCTCTTGGATTATGAGTTCAGGGGAGTGGGACCCCCTATGTCTGATTTCCTTATGTGTAGGACAGAGCGTGCCTCAAAAGCATGCTTGCT
TGGTGAATGAATTGAAAGAACCACCCTGACATGGAGCTGGTATTATCCACAGGTTACAATGGACTGGACCTCCTCTTCCAGTCCCATATAATTTTTTTTT
TTTTTTTTTTTTTTAAATTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTCGAGTACAGTGGTGATCTTGGTTTACTGCAACCTCTGCCTCCCAGGTTC
AAGCAATTCTCGGTCCTCAGCCTCCCCAGTAGTTGGGACTACAGGCATGTGCCATTACACCTAGCTAGTTTTTGTGTTTTCGTAGAAACAAGGTTTCACC
ATGTTTGCCAGGCTGGTCTTGAACTCCTGGACTTAAGTGATCTGCCTGCCTTGGCATCCCAAAGTGGTGAGATTACAGGCATGAGCCATTGTACCTGGCC
CCATATCACTTCTTATTATCTCATAATATTCTTACCTTTTGCAGTGACAGCCCCAAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TTTGGGGTGGGGATCATAATAATCCTGCAGGTGGGGTTTAGCTCTGGTGAAAAGAGCACAGATCCTTTGATTTGGGTTTGAATCCCAGCACTTCCTCTTA
CTAAGCTGTGTGATCTTGGGACATTACTAACCTCTGTGAGGTTCAGTTTTTCTTGGCTGCAAAATGTAAGCACAATACTAATAAGTAACTGACAGATGCT
GTGCTTCTGCCAGACACTGTACCCAGTGCTTTGTGTGTATTGGCTGAGTGAATCCTCATGACACCCTAATGAGGTAGGTCTCTTCTCTTCTTGCTTTCAT
TTTACAGGAGAGGAAAATGAGATGCAGAGAAGCTAAGCAACCAGCCTGAGGCCACACAGCCAATCAGTTGAGAGTCAGAGTTCAAGCCTAGGCTGCTTGC
TGCCAGAGTCAGAGTGTTAGGTAGGACTTTATGAAATCATGCCCACAGGCCCCGGAACAGGTAGTGGTGCAGACACTTGGTAAACCGTAGTTACCCCTCC
CACTTTGACATTTACTCTCCTGGTGACATTTAAGTTTTCTGACTGTTTTGTTGTTCAAGTTGGTGACAAAAGTACCAATTTCCTGCCTGCTCACTTCCAA
ACACAGCTTCTGTTGATGAGAACTAAGGGAGTACAACTTTTCAGGCCGGGGGTGTGCATGGTGTTTTGGGCCTTGGTGCTCAGGAAGTGTGGGCACTCCC
TTAAATTTTTTAAATGGGCAAATGAGTGCATTTTCCTATTTAAATTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGC
GGTGGCGCCATCTCAGCTCACTGCAACCTCTGCTTCCCGGGTTCAAGTGATTCTTGTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGAGGCTGCCGCC
ACACCTGGCTAGTTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTGGAACTCCTGACCTCAACTGATCTGCCCACCTCGGC
CTCCCAAAATGCTGGGATTACAGGCATGAGCCACCATGCCTAGCCTCACTCCCTTAAATTTTTAAAATGGGTAAATGAGTGCATTTTCCCATTTGAAACA
TTTTCTGCTTCAAATCCTTATTGAGCACTTTGTGCTAGGCATTGTGACTATGATCAGTATAAAAACCCCAAGAAAACAAAAAAACAAAAACAGTAATTCA
CTGTCCTGTCACCCCCAACTCATCAATCCTTTGCTTTTCCATAACTGGTTACCTGGGTGCTTTTCTTCGTTGTGATTATTTTTTATTGGAAATGCAGATT
TGTGACTGTGATGGGCCTGAGGTCAGGTCACCTTGCTGAGGCGAGTTTCCTGGGCGGCTTTGCCCTGTTTTGATAAACAGAAGAATGAGCAGCTGGAGCT
GCATTTCAAGTGGCTGCTTTAGTTGAGGCAGGCAGGCCTCAGTGTTTATGTGACACCGAGCAGCTTCAAAATGAGCTTGGTCATTTAAAAAAATTTATTT
TTTCCTAGTTAGGTAACAGTGGTATAACAACATTAAAAGAAATGTAGAAACTAGAGAAAGGAAAAAAAAAAGCCCTTTATCCCCCCCATCACAAAACTAT
TATAATTTCAAAATAGTTACAAGTACAATGTATTCCAAGTGGCTTCTTATTTAAGATAATTATATTCACAGAGCAGGGACCGTTTCAGGTCCTTTAATGC
TGAAAGGCTAAATAAAGAGAACTTTTTATTTTTTCCATGTTAATACATGGATGATATTAACCATGATGTTTAATAGCTACAGAATACTGCATGAAATGGA
KGTACTATAATTCATTTAGCCTTTTTCGTATTTAGAGATTTAAGCAGTAGCCAATTTTTCACCATTACAAGTGGTGCAAGGACCAATATCTTCATGAATA
CAGCATTTTCTGTAAAGCAGAAATTCTTTCTTCAGGATTAATTTCCAGATATCTTTYTGGTATTAGACACATACCACTTGCCTAATAACGTTCCAAAAGG
AATTCATTGTTTACATTGCTATTAGAACATAYGAGATTGCCTGTTTCATTAYGTCCGTCCCAGCACTGGGTATTATCATTAAAAAAAAAAGATTTTAAAT
TTATTTATTGAGTTATTTACTTGAGACAGAGTTTTGCTTGTCTCCCAGGCTGGAGTGCTGTGGCACGATCTTGGTTCACTGCAACGTCCGCCTCCCAGGT
TCAAGCGATTCTCCTGCCTCAGCCTTCCAAATAGCTGGGATTATAGGCACCCACCACCATGCCCAGCTAATTTTTGTATTTGTAGTAAAGATGGGGTTTC
ATCATGATGGCCAGGCTGGTCTCGAACTCCTGACCACAGATGATCCACCCACCTTGGCTCCTCAAAGTGTTGGGATTACAGGCGTGAGCCACCGTGCCCA
GCCAATATTTTAAATTTAATGTTTACATTTGCACACATGCCAATTGGGCWTCATGGTGGCTGCCTCACACCACTTTTTGTCCGTGTGTGAGACTCACATA
KAGGCTGTTTTCTGTGATCCTTTTTTAAAAAATAATTACATTTTTTTAATGCTCAGGGAAAATGTCAAATAATTGTTTATGTTTTGTACTGAAATCTGCA
CTGGTCTGATGGTACCCAGAAAAACTCTTAACTGTAGCCAGAAACCAGCTGAGCCTAGTTGTATGCAACCTGACTGCAAAGGTCATCAGGTGCTCTCATT
TTATTTTTAGAGCTATATTTTAGCTCTAACGTGATTGTTGGGTGAACACTTGCAGAATGAAATATGACTGACACCTACCAGCTGTCTAYACATTCCTGGT
TATATCTTAGGAAGGCAGTGTGTGCTAGCACCTTGGGAAGAGAATGTTGAGTTCAAATCCTAGTTTTGCCCCTTGCACCAATACCTTGATCAGATTCCTC
CCCTGCGTCCTCCCTACCCTTTCTTCAACTTCACACCTTAGTTTCTTTACTTGTAAATTGGGTTGATAGTGGGCTGCTGTCAGAATTAAGGACATCGTTT
TGTCAAGGATTTTGCATACRGGAAGTCATGGTGACAGCTGTTGTTACTGTTGTCCTGAGGAGTGGGGACAGGAGAGGAGGAAAACAGGCTGGTCCAGGTG
TCTTTCCTTAAAGGAGGCTCCAGCTTAGTTGGGGAGATAGATGGGCTGGTCAGAGTTTCAAGTCATAGGCAGTGCAGGCCTCAAAGGAACAGCCAGGACT
TGAGACAAGAATCAGGCCAAGTGAGTAACTGTTGCTGCTGTGGCAGTGAATGTTAGCAGCCCAGGCCTGCAGGGGGGAAGACTCATTTGGGGTACAGTGA
GAGGTCTTGCTGGGCAAATGCAGGGTGTTTGCGGCAAGGTAGGCTGGGGCTGGACTTGGAGGATGCCTGCGTGATTTAGATTCTATCTTGTAGAGAATGA
GGTATCATGGAAGGATTTTCTTTTCATGTTGTAAATATTAATCATTTTATTGTTTTGTATTTTTGATGGCAATATAAAAATACCAGCTTTGTTGAGATAT
AATTTACATACAGTAAAATTCATCCATTTAGAAAGTATACAGTTCAAAGCTGGGCGCAGTGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCTGAGGT
GGGTGGATCACTTGAGGTCAGGAGTTCAAGATCAGCATGGCCAACATGATGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGTGG
GTGCCTCTAATCCCACCTGCTTGCGAGGCTGAGGCTGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCAGAGATCATGCCACTGCACTCCA
GCCTGGACGACAGAGTGAGACTCTATCTTAAAAAAAAAAAAAGCATACAGTTCAGTTGTTTTTAGTATATTCAGAATTGTGCAACCATCACTGCTGTCTA
GTTCCAGAATATTTTCGTTACTCACAAAAGAAACCCCATGCCCACGAGTGCTCACTCCTGATTTCTCCCTCCCCCACCTCCTGGCAACCACCAATTTGCT
TTCTGTTTCTGTGAATTTACCTGTTCTATGTATTTCATGTGAGTAGAATCATACACTGTGTGTCCTTTTGATTCTGGCTATTTCGCCTAGCATAGTGTTT
TCAAGGTCCATCCATGTTGGAGCAGGTATCACTGCTTTGTTCTTTTTTTATGGCTGAATGATATTTCATCACAGAGAGATACCATGTTTTGTTTATCCTT
TTATGAGCTGATGGTCGTTTGGGTCATTTCTACTTTTTGGCTATTGTGAGTGACACTGCTATGAACGTTTGTCTACCAGTGTTTGTGTGGCCACGGGTTT
TCAATGTGGGAGGATTTTGAACTGGGGAGTGGTGTTTGGAGCCTTTGGGTGGGGTGGGCTGTGAGGAGCCTGTGTGTGTGTCTGCCCTTACTGGGCTGGG
TTTAGGGCAAGCTTCATGTGCTTCCTTTCTTTTAAGGGACTCTCTGAGACAGGGTTATTATCCCCTTTTTGCAGATGAGGGCACTCAGGCTCAGTGAGGT
TAAATAAGCTGCATGGCTAGACAATGGCAGATAGCAGCCCTGTCCGGCTCTTAGCCAGCTTGCAGCCACCTGCCCCTGCTGGGCCAGGCGATTGCAGTGG
TCTTGGCTGGGAGGGGCCCAGAGGCTGTGTGGTGCTGGAGAGAGGCAGCAGGCTGGACCTGGTTGGGCAAGGCTGAGTGGTTGTGGGATAAGAGGAGATG
TTTCAGAGCAGCACCCACAGAACCGCTGTGATGGGAGAAACAAGACTTCGAGTTAGGAGAGTGGGTTGGACTCTTGGTGCAGCCTATGTGACCTTGGGCT
GATCTTGTCTCTTTTGAGCATCACTTTCCTCATCTGGAACCTGGGGCTCTTGTGGCTTCCTGCCTCTCTCAAGGGTGATTCGGGAGGAAGAGTGGGAGAG
AGAGAGAGAGAGGGAGAGGATGGAGGCGAGAGAGGTGGAGTGGGAAAGGAGGGCAGAATCTGCTAGAACCTGCAGAGCTCATAATCTAGGGGCGGGGAGG
GACATGCAGCAGGTGCAGGCAGGTGTGGGAGGAAGTAGCCTGGTCATCTGGATGGACATCCCTGCCCATTCAGAGAAGCTCTGAACCCTGCAAAAGCTCC
CACGTGGAGGCCAGTGAGCTGGTTATAATCCAGAGACTGTCAGTTTTTCCTAGTACATATTTGRACYTGAGCCTTTGTTTCTGCAAAGAGTCTGGTACTG
ACTCACACAGTGTCAGCAGCCCCCTTCCATCCCCTGGCACACCCCTCCCTCATTCCTACTGAGCATTACCTTAAAACCAGTGAGGTCTTTCTGGGTCTTA
AAGGTCACCCAGTGTCCTTGCCTATCTGGGCCTGTCTCTGTTCAAGTGGCAAGGCGGACCATCCCCTTTATCACTGACTTGCAGCTTGCCTGGGTTTTGT
AAAAAGCTTGTCATTGCCAGTTAGAAAATAAAGACAGAAACCTCCCCTTTGGCATTGGTATCGTGATGACTTGCTCTTGTTCTGACTCTATTTTGCTGGC
TTGTTATGAGTCAGTCATTTTTTTTTAATGAAATGAATACCTTTGTCTTAATATGAAGCTAGGCATATATGATAAAGGTTAGATGATTTTTCAAATATGA
AATCAGAATTCTACCCATACTCCCAAATTAGAGAGCAGTCTGATGTGTTCCCCTTTACTGTGACCAGTGGCTTCATAGGGGACCTAGTTATGAGTCCTGT
TTCTTTTTTTTTTCTTTTTTTATTTTGAGACTGAGTCTCGCTTTRTCTCCCAGGCTGGAGTGCAGTGGCGCAATCTCKGCTCACTGCAAGCTCCGCCTCC
CGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCCACCACGCCYGGCTAATTTTTTGTATTTTTTTTTTTTTTAG
TAGAGATGGGTTTTCACCATGTTAGCCAGGTTGGTCTCGATCTCCTGACGTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGA
GCCACCACACGGGGCCAGGCCTTTTTCTTTTCTTTTTTTTTTCCTCACTGTGTCACCCAGACTGTAGTGCAGTGGCACAATCTTGGTGCAACCTCCGTCT
CCCAGGTTCAAGCGATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGGATTACAAGCATGTGCCACCACACCTGGCTAATTTTTCTATTTTTAGCAGAGATG
GGGTTTTGCCATGCTGGCCAGGGTGATCTTGAACTCCAGACCTCAAGTGATCTGCCCGCCTCCCAGAATGCTGGGATTACAGGTGTGAGCCACTGCACCC
GGCTGAGGCCTTTTTCTTCTGTGCGTTCCTGCTGTCTTCCCTCCAGGCAGCAGCAAGCTGGTAGGAGCTGTACTTGTGAGTTGACATCATGATGTACAGT
CACTGGTCACTTATAAAACTGGGCAGGCCCAGAGCAGGAAGGGTCATTGAGGGTCATCTAATGCAAACCGTTTACTTTAGAGATGTTGAAACCAAGGCGC
AGAGAGGGGAAGTGACTTGCCCAAGACCACACAGCTAATATCACTGTGAGCCCAGGTTCCTGGCTCCAGTTCCTGGTTCTTTCTGCCCCCTTCTTCCCGA
CACTAAAGATACAGTGGTGAGCACACAGGGTATTCAGTAACGTATCTATTTTTGACCTGTTTTTAATGGAGGCTGAATTGGGCTTTTAGGGTTGAGTTCT
GACACGTGCCAGGTGATCTGCTGGAGGGAAATCTGTTACTTCTGGGGAAGAGTTGAAGGTGTCTTCTGAACTCTGGAATCTGTTTTGAGGGGAGGCTGAG
CCCATGCGTGGACCCTTAGGCTGAGCCCATGCCTGCTTCAGATGTTCCACACCTTTCACCACAATTTATTTATTTATTTATTTTTTGAGACGGAGTCTCG
CTCTGTGGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTTAAGCAATTCTCTGCCTCATCCTCCCGAGTAGCA
GGGATTACAGGCATGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTTCTGACCT
CGTGATCCAACTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCTGGCCTATTTATTTATTTTTTATTTTTTTGAGTTGAAGTT
TTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGTGGTCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGTCTCCCAAG
TAGCTGAGATTACAGGCATGCGCCACCACGCCCGGCTAATTTTTGTATTTTTCATAGAGGTGGGGTTTCACCATGTTGGCCAGGCTGATCTAGAACTCCT
GATCTCAGGTGATCCACCCACCTCAGCTTCCCAAAGTGCTAGGATTACAGTCGTGAGCCACCATGCCTGGCCACACCCCGGTTTATTGCATTTGCTTCTA
ATAGAGAAATCAACCCAGTAAACAAATGAATTATTGTTAGCAAAACTGGGGGGTGGGTTGGGAAAGGAAAGTAGTTCCTTCTATAATAAAACTTGCTGAT
ATTTCGTTGAAAGTCATTGTCTTACTCATCCTTGTATAAGATAAGTCACACAATGAGTGGTATCAGGGTTGCAGGGTTTCCCCCTGTGAGGACACRATGG
GATGAACCGTGTGTGGGATGGTCTGTTAAAGAAAAACAAGAAGCCATGTGTTGGAAACAACCTAAGTATTGAGCGGTGGAGGATTGCTGAAATTGTGGAC
TACTATGCAGTCATTACCAACGCACTGAAAAAATGTTCCATGATATGGCAGGATGTTTATGCTATAAGAAATTTAAAGACGCGAGCTTCAAAGTAAAGTA
TAAACCTAATTTGGTCAAACAGGCTGGGCGCAGTGGCTCACGACTGTAATCCTAGCACTTTGGGAGGCCGAGGCAGGTGGGTCGTTGGAGGTCAGGAGTT
CGAGACCATCCTGGCCAGTATGGCGAGACCCCATCTCTACTAAAAATACAAAAACTAGCTGGGTATGGTGGCTCATGCCTGTAATCCCAGCTACTCAGGG
GTCTGAGGCAGAAGGATCACTTGAACCTGGGAGGCGGAGGGTGTAGCGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCAATAGAGCGAGACTCTGT
CTCAAAAAAAAAATATTGGTTAAAGAAACAAACGTTAGACTTGAAGCCGTGCTTTATATGGATATGTGGTGCACTATAATGTGGTGCTTAAAAAGCAACT
TAGGCAGACCTGGGCCAAGTCTGGGCTCTGCCACGTAACTGCTATGTGCCCCTGGGCAAGTCACTGGATCTTTCCCAGTTCAGGCTTCTCAGCTGTTAAG
TGGGACTAGTACCTTATCTCTTTGGGTTGTTGTGAGAATTAAATGAGCTATCTGGGCTTTCAGAGAAAGGGCTTCATGTGCCGTGGCTCTGATCAGACCA
AACAAGTTATCTACTGCTCTAAGCCATCAAGGCCCCCCATGCCTGTTGGATACTGTTGAGTTATTTGGGTTGGCATGTAGTGCAGCGTTTCTGGACATAC
ATACTCTGGGGACTCCCCATCCCAAATTTCTTACAGTCTCTCCAGTGTGCCACACGCTTTCTTGCCACTAGGTCCTTGCATGTGATGGAGTAACTCTTGT
ACCTCTGTCTCCCTAAATAGACGGGGTTCTCCAAGGACATYGTGCCACAGGGCCTGGTAACCCAGTAGGTGCTCAGTAATTTATTTATTTATTTATTTTT
TTTGAGACAGAGTCTAGCTCTGTCGCCCAGGCTGGAGTAGAGTGGCGTTATCACGGCTCACTGCAACCTCCCACTCCCAGCTTCAAGCAGTCCTCCTGCC
TCAGCCTCCTGAGTAGCTGGGATTACAGGCGGGTGCCACCACGCCCGGCTTATTTTTTATATTTTTAGTAGAGATAGGGTTTCGCCATGTTGGCCAGGCT
GGTCTCAAACTCCTGACCTCAAGTGATCCGCCCGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGGTGAACCACTGCGCGGCCCATTAGGTGCTCAGTAA
TTTGTTGAATGAATTGAAGACATGGGACTTGARTTAGGCTTTTATTATTATTATTATTTTTTGAGACGGAGTCTCACTCTGTCACCCAGTCTGGGAGTGC
AGTGGCGTGATCTTGGCGCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGTCTTAGCTTCTTGAGTAGCTGGGATTACAGGCATGCCACCAC
GCCCAGGTAATTTTTGTATTTTTAGTAGAGATGAGGTTTCATCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCT
CCTAAAGTGCTGGAAATATAGGTGTGAGCCACCATGCCTGGCCTATTATTATTATTATTATTATTATTTTGGAGATAGGGTTTTTCTGTGTGGCTCAGGC
TGGACTTGAATTCCTGAGCCCAAGTCATCCTTCCGCTTCAGCCAATTGAGTAGCTGGGATTACAGGTGCACTGTCCSTCCCAGCAAGTTGGGTCTTTAAA
TAAAGAGTGGGGTTTGGTGAGCAGGGTGGGTGCACTGTTCTAGGAGGTGGGCAGGACAGAGGTCAGTGGTGGTCCCTACTGCCTATTCAGGGACCAGGGC
CCCTGGGCAAAGGCAGAGATAACATTGGCACAATCTGCCTTTCAGCTTTCATTGTCATGCGGGAGTCACCATGCTTTGTAAGACATTTAATCTATAAGAC
TTGATTAGTTTTGCTACCTTTCATAGCTTGGGGCTGTGTATGCCTGTTTGTAAGAGAGATCCATCCAGATCAAGCCTGTGCAGCAATAATGTATGTGCAC
AAGGCCTCTTGTGTTGTGCTGATGGTAAGATAGGAGCTGGACTTGGAGGCAGGAGGTGGCCTGGGTTCTGTTTCTGGACTTACCACTTACTAGACGGGTA
CTCTTGAGTGGAGTCACTTAAGAAAGTAATGCCGATCAGGGGCTCAGAGTGTCCCAAGTGTTTTCTCTTGCCTTATTCTCATTAAACAGAAGTACAGCTC
AGAATATGATGGGCCAGTCTTATGTGATTGGTGTTAATAAGGCAGTAGAGAGTTGGGGGTACTCTGGCAGACCATGAGAACCTGCCCTGTTTGAAGGAGA
ATGCTGCCTCCTCTTCCTCCTTTTAAAATTCACACATATGATGCTCACTAAGTGTCTGGCACCCTTTTTTCTTTTTCTTTTTGGGGCAGAGTCTTGCTCT
GTTGCCCAGGCTGGAGTGCAGTAGCACAAACACACCTCACTTACTGCAGCCTCAAACTCCCTGGCTTTAAGTGATCCTCCCACCTCAGCCTTCCAAGTAT
CTGGGACCACAGGCACATGTCACCACACCTGGCTAATTAAAAACATTTTTTTGTAGAAATGAGGTCTTACCAGGTCGCCCAGGCTGATCGTGAACTCCTG
GGCTCAGGTGATCCTCCTGTCTTGGCCTCCCAAAGTGCTGACATTATAGGTGTGAGCCACTGTGCCCCGCCTCAGTTTTTAAAAATACTTGCTTAAGGAG
AGAGCACTGAAGGAAGATTTAGATCTGCTCTGTTGAAGTGACAGAGTACGGTGGTTTCCATTTATGCGTATTTTGTAGTTCGGATGGCTTCTTGTGGGGA
GTCCTGTGAGTTCACACTTGGGGGCATGGTGTGGGGGACCTGTGAAGTGGGTGTTCTGGGGTGAGTGCGATGCTAGTCACTGTCCCAGTTTTCTTCTCAT
TTCTTTTTTTGTGAGTGCTTGGCTAGTGGCAGCCTTGCAGATCAGCTAGTTTTGACCCACATCCTCCCTCTAAGTGGTGCTCATTGAATTGAGCCACAGC
CCCAAGGTCATGTTTTCAAGGTTGGCATTTGGGAGGCCTTGTCAGAAGGTCTTATACCATATTCCAGTCACCCARAGTGCTGCCCGCCATGCCTGTTCGT
TCAGCAGGATTTCCCTGAGCACCTGCTCTGTGCCAAGCCCTATGCTAAGCACCAAGGGAGTAAATATGGAGGGCAGTGTCCCCAGAGTCCAGGAACTCGT
GATCTAGTCGGGGAGGAGAGGGGTACCTACTCTGTCTTTTACACAGCAAGTGTAACCTCTGAAGAATGATGTTCCAGGAGGCAAGAGCAACCCTGGCGGA
CTGGTGGAGCTGGGAAGGGAAAGATGCTTCTGGAGGGGCCTTGGGAGAAGAGTCCTCCAGGGTGAGCCCCTTGAGAGAGGTTTCAGAGCTCTCATCCATC
TTCATATCCTGGCACTTAGCCCAGGCACTAAAATTTGCATATTTTTGATGGCAATTAAAAAAATACTAGCTTTACTGAGATATAATTCACATACAGTAAA
ATTCACCCATTTAAAAAGTATACAGTTCAAGGTTAGGCACGGTAGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGG
TCAGGAGCTTGAGACCAACCTGGCCAACATCGTGAAACCCCATCTCTACTAAAAATACAAAAATTAACCGGGTGTGGTGGTGTGTGCCTGTAATCGTAGC
TACTTGGGAGGTGGAGACAGGAGAATTTCTTGAACCGGGTGGGGGAAGTTGCAGTGGGCTGAGATTGTGCCACTGCACTCCAGCCTGGRCAACAGAGTGA
GACTCTGTGTCAAAAAAAAAAAAAAAAAAAGGTTCCATTCAAGATGTCAAGCCCCACGGGACTGAGGGTAACATGAGGGTAACAGACAGGTGATGTTAAA
TTCCATTTGGGCTCATGTTCACCCCCAGGCCCCTTATTTTCTTTCAAACACATGGAATGGGCATTTAGAACTAGGAAGATCATGAATCTGGTGGCTGTGT
AGATGCCATACCAGGTATGGACCACAGGCTTGGAGCGCAGCAGCATACAGGGGTCAGAGGTCAAGGCCAGTGGTCTATCAGAACCCAGTTCCTGCAGGAG
CCAGTGCCGGTACTAGGTAGACTCAGATGACTGAATGGTCCTCGGGATCTGARGGCCAGTGGGGGAGATGAGGCCTGGCCTCCCGGAAGTGCTCAGTAAA
CATTTGTTAATCATTTCCTGCCTAGGGAAGCTCTGTGGTATGCTCAGGAGAATCTTGCTTCTCRTGGGGGAATGGGTGGTTGTCATTTGGGTGGCCTGAC
TGCCAGCCTGCTTGCTGGCTCTCTGGGAGTTGGGGTGGTGGCATCAACCTGCAGAGGCGGGGCAGTGGGGCAGCTCACGGCTGTGTGGGTAAGTAAGCAG
TGAGCACAGTGAGGGAGCTGTTGCCAGGAGCCTCTTGGCTTAGTGAGCCAAGCAGAACCATGTGATGCACCCTGTGGGCGGCCACCTGGGGACTCAGGAC
ATGCACCCAGATCCCTCCTCCCCTACCCACTTCAAAGAAAGTGCTGCCCTCCCAGTGGTGATGAAGACCTTCCGCTGGCCCCAGCCTCTGGGATCTGGCC
TTTACTTGGGTATTCATGTGGCCCTGGGRGTTGGCTTTGCTGAAGTTGGGCAGAGCAGGTGGGTTCTGGAATGTGCAGGGGCAACCAGAGTGTCCATCTG
TTTGGGTGAAGCCAGCTGTTTAGGTCTGAAGGATCTGTTTGATTTTTAGAAACATGATGTGTTCCAGAGTTAGTAGGTGGTGGTGATGGAGGGTATTGGC
GTGAAGAGTGTGGATGCTCTTCGTTCCTTTGCTGTTTTGGGACTATCTCTCTATGGGGTAGTGGCCCCTTTCCTTGTTAGGATCATTTAGAACCCCCTGG
GATCATGAGAATGAATGTGGGTCTATCCTTCCTTCTGTGTGAGGAAAAGGGGAGGTATTGTGGTTAAGCAAGTTTGGAGAACTCTGGCCTGAACAAAATC
AAACAGATGTCTTTCTTGCAGGACTTAGAAGAAACTTAAATCTGTTGGTAACTCTTTAAGAGGGAAGGGGATATAAAACCCTTGTTTTCCCTAGATTTTT
GTTTTACTCTATAGCTGTCTCTTTTTAGAAGCATCTCATGAGACTAATGTTTTTAGGAACCTGCTGTAGGAAATTCATTTATTCAAAAAATATTTGTTGA
GCATCTGTTATGTGCTAGTGACTGCTCCAGGTGCTTGGGATACAGCAGTGACCACCTCCAACCAAGATCCCGCTTTCAAGAACTTCCATTCTAGCAGAAG
TGATGAACTCATTTTTATGGAGCACCTACTGTGTATTAGGCATGTGAGTTATCACACATTATCTGCTTTACCCCTCACAACAGCCTGGTGAGGTAGATGG
ACTATTTTATTTTATTTTATTTTATGACAGTGTTTCACTCTTGTTACCCAGGCTGGAGTACAGTGGCGCAATCTCGGCTCACTGCAACCTCCAGCCTCCA
CCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCCGGCTAATTTTTTTGTAGTTTTTAGTACAAA
TGGGGTTTCACCATGTTGGCTAGGCTGGTCTCGAGCTCCTGACCTCAGGTGATCTGCCTKCCTTGGCCTCCCAAAGTGGTGGGATTACAGGTGTGAGCCA
CTGTCCCAGGCCAGATGGACCATTTTAAAGATTAGGTAACTGAGCTCTAGGGGTCAAGAGACTTGGCCACTTTGGCAGCTGCATTGTCGTTTTTGGATTA
TGTCATCAAATTGCAAGGGGAGGTGGTGAAATAAGGAATTTCTGCAACAGAAATTGGAGTCTGCGGTGGGGATGCTGCAGGCCTTAGCTGCTGTATCACT
GTGTCCGTTTATGAAGGCCCGATGGAGAAGAGGCTCTGAATCAGGCCGGGAAAGAGGTATTTCTCTGGAACAACTGGTTTGTTTCTGTGTTATGGGCACC
GAGAAGCGTGTGGCTCATCATGTTTTCCTTTGGCTTTGGTTACTAAGCACCTGAGAGCTAGATTTGTGGCCCATCTTGACACTTCTGCAGGATGGGACCA
TATGGCATGCATTTCTATGTGCTGATCTTACCCCAACCTCCCGCCCTCCATCCCGCTTTATTATTTTCTCTATACTCATTTTTGCCTTGCCTGGTTCTCT
TGTTTGTTTTATTCTTTTGTGTTATTTGTATTATTCTAAACCACCACATATACTTGGTGGGATGGAGCTGGGTATAGTTAAATTTTAAAAATAATGGTGA
GGGCCAGGTGTGGTGGTTTATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGTGTGGCCAGCA
TGGTGAAATTAGCCGAGTATGGTAGCGTGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCCCTTGAACCTGGTGGAGGTCGGAGGTTG
CAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAATAATACTAATGATG
AGATGACTTGCATAAGATCCCCCAGCTACTCTGTGGGGAAGTCGGGCTCCAAGCCAGCTCTCCTGGCCCCACCCTCTTTCCAACATACTCAGTGCCTTTC
TGGATTAGGATCCACTGCAAGGTTCCTTTGCAGTGGGAGCCAGGTCTGTTTGGCTTTTGCAGCCATTGTGTTATGGGTTCCAGTGGAAGCTGGGCTGGCT
GGATTGGAGGTGTTGAGGGGCTTGGATTGACCTAAGTGTCACCTGTGGCTCAAGCAAGGCTCTGGACTGTGGATTCCTTCTTGGTGAGGGCTGTTCAGCC
TCACCCAGGAGAGAACCCATACCTCTGCTTCTTGCTTGTGAGGCATCAGGTTTCAAGCAGGGGTCAGACCAGATGAGCACTGTTATGTTCTTCACAGCTG
CTTCCCACTCGTTATCCTCATAGTAGCCCAGGGTAGAAAAGGAGAGGATGAGTGGGTGGTATTGATGAAGAAACGGAGACCTACAGAGGTGAAATGACTT
CACCCACCAGGTGATGGCTGAGTCTGCAACCCAACAAAAAACTCTGGCTTGCTGGCATTTCTCAGGCCAGACAGTTCCAATGTGAACCCACGGTACCTTC
TGCGGGAGAAAAGGTGGCATGGGAAGCAGGAAGAGCCTAGGATTTGGGAGTTGGATGCCATGGACTTGAGTCCTGGCCACTACTATGTGCATATGGGGAA
GTCACTTTTCTGAGCCTCAGCCGCCTCATCTTTAAAATGTGGGCCCTAATTTCTGCCCTGCCAGCCTCACAGGATGGTCATGAGAAACTGAATGAGAAGA
TGAACATGGAAGCCTTTTGTCTGGCATTAACCACATGTGCCTGTGTGCTGGGTTCTGTCTGCATTGTGCTAATGATGGTGGTGATGGTATTAATAGTAAT
AATAGTGAACATTTAAGGAACACTGCCTCCTATAATAGTCACCATGGTAAACTTTACATACATTATCTTAATGAATGCAGAAAACAAGCAGATGAGCAGG
GACCGTCTATTATTTTCCCATTTATTTTTGTTTATTTTTAATTTTTTTTTTGTAGAGACAGGGTCTCATGTTGTGGCCCAGGTCTTGAGCTCCTGGGCTC
AAGCAATCCTCCCACCTCGGTTCCCCAAAGTGCCAGGATCACAGGTGTGAGTTACCTCACCTGGCTGTATTTTCCCATTTTTACAAGTGGAAACAGGGGG
TTCAAAAAAGTTTATGTAATTTGCTTAAGGTTGTAGAGATGTTACATAGTGGAGTCCAGATTTGATCCCAAGTAGGTGACCCTACTGTGGTATCACTGCT
ATCAGATTGGAAACAGCAGAAGTCTAGGACCTTTTTGGTTTGGTTGATGACATCTGTGCACATCATTCTGGTAGGTAGGGGCCATCTGGGGGCAGGAAGT
TGGGTGTGGGTAGGGGTTGGCCCTGGAGAGGCAATAGAAGCTGGGGCTTGGCTGGATAACAAGCCTGGCACACTGAGTTTGTCTCTGAGGTTTAGTTTCT
CACCTGTAAGATGATGATATAATAATGTGCCTCATGGGATTAAAGAAAATAAGAGATGCCTAGATACTTATACATTGCTATAAAAATGTCTGTGTTATAA
GAGTGACATGGCATTCCACAAAATGCAGTGTAGATGTAAATTAGTTGGAATGGTGACCTCACCCCTGCTAGGTAGCACTGGCTTATGTCCCACCTGAGAG
TAGTAGCATCTGAGGGCTAGCCACACTGAACAAGCCACACACCTGACCTCAGCATCCTCTTCTGTGAGGGGAATGCTCTCTGCTCTTCTACCTGCATGCA
CCGTGTTTGTGGAAGTGCTCTGTGTAGGACAGGGAAAGCACCTTGCAGAGAGCAAGGGCCCACTGGCTGCAGAGAGCCTGGTGGGTGATGGACCAGAGAT
AAGGGTGAGGGACAGTTTAGAGTGTCACAGTTTCTCATAGAGCTTTGGGCAGTGACACCAGTATTAGTCTCAGGACCATCATTGACTCCTGGTTAGTTTT
TCTGTTTTCAAAACACTTTATCAGCTGTAAAGCACTTAAAAATGTAAATTAGTTCCTGCAAAAACAAAATGCACAAAAAATGATGGCTCTGCCAGGCTGG
GTTGGGAGATGAATGTGTATGCATGTGTGAATGGATTCATTTCTGATGATAAAAATACTTTATGCTTATTTATGTGAAACTTGGAAAAYAGAGGAAAAGT
ATAAAATTGAAACTAAAAGTCATCCATAATCCTTYTAAGTAGCTTTATCATTTAATGTTTTAGTATATTTCCTTCCTGTTTTTTTTTTTTTCCTTAATTC
TGGGTGTATGCAAAGGATTTTGTAACCCTTTACATTCTGGAAACTGTTCAACATGACTTCTTTTTTTTTTCTTTCAACCAATTTGTGGAGAGTCCATTTT
GCAAAGCCTTAGCACAGTGCCAAGCACAAGCTACACACCCGGGATGCTGCTGAATGCAGATGAGAGCATGCCARCTCTGCTGAAGTTGGGGGCTGGGGGC
AGTGGATGGCTGTGAGTGGTGTGAAGCYCCGGGCCACAGTGAAGACCCTGGAATGGCTGAGAGACTGGGATTCCAGGAGACCGAGGTTTGAGGGGAGGCT
TTTCATTGTTTGATTAGCTCTTTTTTTCTTACCACATGTAAGTCATCATAATACTTAAAAAATTGCTGTAAAAAGCAGCTAATTAAAAATATAAATACAG
TCTTTTTGGAGACTAGAAACAGTCACAAGAGAAGCAGTTTCAGTGAGAACCAGATCCTTTGTCAGTGTCAGCGAGGGGGAGGGGCGTCGGGGCCCAGCCA
GCAAATCCTTCCCTCCGAACTGGGGGTGCGGAATGTGGCACTCCCTTTAGTTAGACTTGATGAGCTTTGGATTTGAGTAAGTGACAGCCCCTTTTATTTC
CTGCTTTGTTCTCTCCCAGGTACCAGTTGACCACAGTTTTCATTCATGCAAATGGAAGCTGACAGCTGCCCAGGGAGGGTTAGATACCTGGGAGGATAGA
GCAGAGGCCCTCCTTCTCCCCGACCCCTCGCCTCTGCAGGCTGGTGGGGAGGGGGGCAGGGGAGTCSAGTTACCCTCTCTCCACGCTTTCTTCTTGTGTA
TGTGTGCGTGTACGTGCGTGTGTGTGTTGTGTGTGTGTGTCTTGGGGGATGGAGAACCCCTCTCAGGAGGGCCTGTGGAAAGGCTGGGGTAAGTGGAGTG
AGCCCGTGGGTCCTGCCCTTCCAGGCTGCCAAGAGTTTAAGTTGCTGCCTCCCGGTCTCTGTGCCCTTTTCCTGCCTGTGGAAGGCCCTCTCTCTGTTTA
GGAACGTGGATGTGGCAGGGGCTGGGCGGGCACTTGGCCTTTATAACAACAGAAGAGGATTTTCAGTGACGAGGAAGCATCCCGCCCTTCTGGTTCCCTG
TCTTCCACCTGGCCCCACTGCGACAGCCTCTCCAGGCCTCTGACTTCACTAGAATCTGCCCCTCCACCCCACCTTCCCCCGAACCCCACCTCCTTTCTCT
GAGCCTGAGAGGAGTTAATTGTGTTAGAGTGCACTGAGAAACCTCCAGGAAGGGGCCCTAGTCCCTGTGTTGCCTGTTCAGCAATCACATTTGCTCACGT
CTAGAAAGTACAATATAATGACTCAGGTTAAGGGGTGAAAAAATGTGGTGGACATTTTGCCAGGGTACTGTGTTAACTGTTCCAAGGTATCACCCTGTGT
GAGACTCAGGAACATTCAGTGTTTTGGTTTCCCCCCTATTGTACTGAATGCCGGCAGCTTTCCCCTTCTAATTATTTATCTTAATAATTTGAGGAAAGTT
GATTTGCTTTTTAAAAACTGGCATCCAAGCGTACCCTATCGCACTGCACACAGCTGAGAGATTAAGGCAGTTCTTTAGAATTCCTAGTCCGTGTTGTGTA
CACAGCGATAGGCTGGGGTAGTGGTTCTGGGTGCAACTGGGGACAGGCGAGGAACCATAAATTTGGCAGGAAAGATTTGTGTTGGTACCCTGTTATATTT
GCTTTGCATCACATATTGTTTAAAAAGAGCGATATTTTCGTTAAAGGAAAAGGAACTGTGTATTTGAGATAAGAAGTAGAATAAAATGAAATGAATAGTT
GGGTTTCGTCCTGTGGCCTTCAAAATGGCGTTATTTCTGAGATCCCTGTTTCTATGCTGTTCCAGTATTTATACGGAACTTATAAAATACAAAGTATAGG
CATGTCCCGAGATCCTGGCGAGGCTGTAATTTATAGTGTTGTTCTTTTTCTTTTGTTTTACAGAGCTGAGTTTGGTGAAACTTCAGGAGGTTTTAGCTAG
TGGCGATCCAAAGACATTAAATATTGCTTTGTGGGTACGWCTCCACCTTGYGTCTTACTTGGTGACTGTTCAGTGGTAGGCAAATGTCAGAACCCAGTAT
GCAAATGTGGAAGTGGACAGATTTGAGTCAGTTATCTCAGCTGGTGTTATGAAATACRGAAATTTTTGGCGTTGGTGGTGGAGGGCGTTGGCATAGGAGG
CGTGAATGCTCTTTGTTTCTTGCTGTTATGGGAGTATCTCTTGATTGCCCCATCATCTTGTTTGGTGTGGCCCCGTTTCCTTCTAGAAGTTGAGTTCCCT
GGGCTTGTGAGAACCCTTGTACATCTGCCTCCATTAAACTCACATTTGGAGATCTCGTAAATGAACSCAGTGCAGTCCGGGGGCAGAGTGAAGGCTCAGA
CTGCAGCCGGACATGGCTCAGTTACCCTAGGTGGGTTAGCAGCTGAGCAGGTACTGGTCTCAAAACCCTCTGAAGCGAAGCTGCCTGTCGATTCCACAGT
TGCCAGCTTCCAGCATGGAGCTTCTGGAAGTATCACGGACTGAGTTGGGTCCCAATGCTGGATGTCCCTACTCTTCCTCCTGCCCCTCCCACGTTTGGAT
GGGCAAATGCACTAAGAACAGCCCGTGGGCAAGTGAATGAAACCAAAAAGCAGCAAGGGATTTGGACAGTCCACCTCAGAGTATCTGACTTTATTTTGAG
GGGCATGTGTCAGAGTTGGGTGAAGAAAGAGATTCTCAGATGGAGATAGAGAAAGATCCCCAAAAGGGCAGGCTGGCTACCAGTGATTTATTTTTATTTT
TCTTACTTTTTTAAGAGAATGCAGGGCATTTTACTCTTCTGTGGTAGGAGAGTAGACTGGCCACAGCCCAGCCCAGAACCCTTAACAAAAGGTTAAGCTG
CTGGGCATGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCAGAGATGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGTCCAACATGG
TGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGTTGGCATGTGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCGCTTG
AACCCAGGAGGCGGWGGTTGCAGTGAGCCAAGATCACGCCATTGCACTCCAGCCTGGGCGGCAAGAGCAAGACTCCGTCCCTAAAATAAATAAATAAATA
AATAAATAAATAAATAAWTAAATAAATAAAATAAAATAAATAAAAAAAGAGGTTAAGGTTTATACGCAGGCCATTTCTAATAGATGTTATGGAAGCCCCA
GGKTTTGGGGCATCAGGGTTGGAAAGGAAGCCAAAAATGGGTGTGTCCAAAGGACAGATGCATTGAGAATGGGTTGTAAAATTTCAGCCATTGTGTAGAT
TAACCAGCACGGCACCCTGCCCCTCAGCCATTGTGTAGATTAAGGAGCACTGCACCCTGCCCCTCCTCCCCCAAGCATGCAGCACCTGAGAAAGAAATCT
GACAAAGATGCTTTAATATGAGTCTAGCGCTTTGAGCCTTTCATTGTCATCTCCAGTGCAATTGTCTGTGGGTTTTGTTTTGTTTTGTTTTGTTTTTTCA
TTTTTATTGGACTTTGCTTTGCCTTTTAAGGGAAACTCTGGATGATATACTTCATTATTTCACTTGTCAGATGGTTAGTAATATGGTATTGCCATTCCTG
ACCTAAGGCAGCAAGTGATTCCTTCTGGCAAACTCTTTAAGAAACATGGGCATGGAGCCTGGCTGCCTGAGTTCAAACCCCTGCTCTGCTGCTTACCAGT
TGGGTGACCTTGGTCAAGTTACTTAATCTCCGTGCCTCAATTTCCTACTCTGTAAAATGGAGATAATAATAGAACCTGTGTCATTACATTATTGTGGGAA
TTAAATGTGTTAGTCTACGAAGAGGGGTGCCTCAGGCCCATGGTAAATTTTATGTAAGTGTTGGTTGTATATAAGATGATGAAGTCCGGGCGCGGTGGCT
CATGCCTGTAAATCCTAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGAGAAACCCCGTCTC
TACTAAAAATACAAAATTAGCCAGGCCTGGTGGTGCATGCCTGTAATCCCAGTTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGA
GGTTGCAGCGAGCCGAGATCGTGCCATTGCATTCCAGCCTGAGTAACACGAGCAAAACTCCATCTCAAGAAAAAAAAAAAAAATTAAGATGATGAAGATG
CAGCGTGGGGCCATGAGAAGAGTCCTGGTCTGGTGAGTTTGGAAACCTGGCTTCTGGCCTGTTTCTAACACTGTATGTCCTTGGGCCAGACCCTTTCCCC
TGGGGTGCTGATTTCACACCTGTAAAATGAAGAAGTTTGACTTGCACAGTGCTTTTCTTAGACTGTGGTAAGGGGTGGATGTGGGGGTAGTGCCAAGACC
AAGTGAAAGAGGCTTCTGGACCTCCATCCTTGCTTCAGCCAGAGCAGCGTGGGTTCATTTCATTTTTGGATTTTGGTTTGTGGGAAGAAAGGGTTCTCTT
GCCGGTGTGTGTGTTTCTGATAAACAAAGAAGTGTGGAAGTGGCTGAATGAGATGACCCAAGGACTCTTTCTGGGAAGATGCAGGAGGAAGTAGGTGAGC
TGAGGGGAAGCTGGTGGGGATAGGCCTGGTGGGGCCTGGGGAGAAGGATTTGAAGGCTCAAGTCACACGGTGCAGGATGGGACTCAATATAGGGTGGGAT
AGGGCGGTGGGTAAAAGCCGTTACAATTTTGTCCAAATGGTATGGGCTGATTTACTTATTAGGGAGGTACAAATGGCTTCRTGTTATAAAGTGTCAAGAT
CCTTATTTGGATAAGGCAACCAGAGTGTAGACGAGAGAGTAAGAGTAAGAAAACAAGGAGAAAAATGAGTGTCTTAAGGATGTAGAAATTTAGTTTGCTG
GAAGTCTCTGCAGCCTGAACAAAACAGCTGTTAGGTTTGCCAGAACTTAAACCAGAGGGTGCCTGCCAGTGGTTCATATTCTTGCTACCTCTTCCTCCTC
TTGTCTTGTTTTTCCTTTCCATTCTAATAATCACGATGAGTTTCCCTGACATGCACGCCCCTTCATTCATTTGTATGATCACTTAGAGATGAGGAGCTGC
CTTGCCAGGTAGAAAAACCATTCTCAGGATGAATCTTTGGCTTTCTGAATCAGAGTTTTCTTTGGGTTTTAGAACTTCATTCTTATTAAAGTGGGAATTT
ACCGGCCGGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCCAATCGTGAGGTCAGGAGTTCGAGACCACCCTAGCCAATA
TGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCGCGCCTGTAGTCCCAGCTACTTGTGAGGCTGAGGTAGGAGAATCAC
TTGAACCTGGAAGGCAAAGATTGCAGTGAGCCGAGATCACACCATTGTACTCCAGCCTAGGCGACAGAGTGAGACTCGGACTCAAAAATAAATAAATAAA
TAAATAAATAAATAAATTGGAATTTAATATCTCTTATCATTTCTTCAATTCCAGTTTTTATTAGATCCACAACTTTTTTGGTCAAAACCAGAATTTTGAT
TATGTGTGCCATCCTAGGCTACCTCACCATCCAAAAATCCTCTTGGAAAACCCCACGCTTATCAGGAAAAGGAGATGGAAGTGAAAAAATAAAAATATAT
ATAAAAAAAGGAAAACCTAGTGTTAGCACCCCTTATSCAGCAGGCCCCCCACCTGGACCCCCACCTGTATTCACATTCCTCCCACACTTACAGTCAGTGG
CTTCATTAATCTCTAAGGTTCCATGTTCTGCTCCCCAAATAGACTGTTTGCTCATTGAAGACAGGCACCACACTTACATTTTTTTTCTTTCTTTCTTTTT
GTTTTGAGATGGAGTCTCACTCTGACGACCAGGCTGGAGTGCAATGGCGTGATCTTTGCTTATTTCAACCTCCGCCTCCTGTGTTCAAGGAATTCTCCTG
TCTCAGCCTCCCGAGTAGCTGGGACTACAGACGCATGCCACCACAGCCGGCTAATTTTTGTATTTTTACTACAGGCAGGGTTTCACCATATTGGTCGGGC
TGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTTGCCCTTCCAAAGTGCWGGGATTACAGGCGTGAGCCACTGTGCCTGGTCTTATATTTCTTTT
CTATTTTTCTACCCTGATCAACCTTTTCTTTTCTATCTCTCTCACTGTTTCTACGATCAAAGTAGTGGAGTCAGTTTCCTTGCATCTGTCCCAAGCAGCC
GTTGCTAATGGGAATGAGTGTCAGGCACTGTACATCAGCCCTGTTTTGAAACTCTGTGCCTGCTGCCTCATTGACTAGCTGGAGAGTGTTGAACATTTGG
TTGTAGAATGTATGTGGATTGCTGAGTTTCACGCATGAGCTGTGTTGTCATTTCATTCATTCTGAGTGGCATCTGCGCCAGGGCTACCTGGAGTTTTTCC
AGCTCCCCAGGCCTAGCAAAGGCAGGGATCCTGTCTCATTCAGCTGCATTTCTTGAGCTGTGCTTAGAAGGCCTGCCACACAGTAGGGAATCAGGAACAG
TCGCGTTTACAGAGCTCTCGGGTGATAGAAGGGAAAGTAAAGGTATATTAAATTTCTTCTAGGCTTGCTGCCTAATCCCCTAAGGGGCCTTCTCATTTCT
TTCAGCAGTGCCATCTGGCAGGCCTGAGAGTATATGGGAATAAGTGGGGTGCTGGATCTTGTGGGCAGGCTATGGGATCTGGGAAAGGGGTTAGCACCTG
GGCCTGGAGGGACCTGGAATCTAGGGGGGSCATACATCTAAGCTAAATGTGGCTGTGGCTTGCAAACTCAGAGGCCTTTCGGGCAGCCTGGTGAAATGAT
AAATGGGCAGTTGCTGTTTATTCTCAGTCCTAGAGATTAAAAAGAGGTGCCCCCATTGGAAACTGGAGGTTACATGTTCTACCCAAAGGGAGCAGCTGCC
AGTCGGCTTCTTGCGATGTGAAAGTACAGCCCCAGAAAACCCAGGTTAAGTGATGTCCCCTAATTTTTAAAAGTTGGCAACCAATTCAACTATAAAATCA
TGCCTGCTGGCCTCTGAGCAGTAGGCAGGGCTGGTGTATGCCGGAGGCCACCAGGGGACATAACACCTGCCATAGGGTCAGAATAGGTGGGTGTTAGTCA
CCATCCAGATGGTCAGATACCGGAATTGCCACAGAAATGAACATGACATGCAGAGCAGGCAGAGCAGGTGCCAAAAGTTGGTATCAAGGAGGCGAAGGTC
AAGTTCTTTGCCCACCAGAAAGCCTTCTGTTCCTTGTCTCCTTCCCTTCCTGCACCTCCAAGGACTCTCCACTGCTCCCTACAGCTTAAGTCCAAATTTC
CCTGTCTGGCATTCAAGGTCTTCCATACCTTCCTTACAAGTGCCCTTTAGGCGCTCTAAATGGCGCGTCAGCTCCTATGTGTGGCCTCAGCTTAGCAGTC
CAGTGTTCCCTCCCCCTGAATCCCTCCAGACTGCCCAGGCTGCATCTGCCTCAGACAGCCGGGTGTTCCCAAGACATGCTGCACTTTCTTCCCTCTCTGA
TTTGCTCATGCTGCTCCTCTTCCTGGAATGCTCATCCCCCCAATTATGGAAATCCCACTCCCCACTCATCCTTCAAAAGGCTCTGGACAAAAGGCACATT
CTCCCTGAAGTCGGCTACCCTCCCGACTCTGTAAATTTGGAATAAATCACATCTTTCAGCTTCTATAGCACTCACCCTGCATCTCCACCACAGCCCTTAT
GACATAGCTGTTGAGAAAGGTCTGTCTTCCTTGGTAGATGATGAGGTCATTGTGGAAGGTTCGAGTCTTACTTACTGTGTCCACAGCATTTGGCTCAGGG
CAACAGTCAACAGAGGCTTAGTGACTTAGACACTTGATGGTAGAGTATGGAAAACTGATTCTCATGAGGAAGGTGCTTAAGGTCTTTGGTAAGCCTGGGA
AAGGGGCAGTTGGCTGGAACAGAGGGTGTGAGAGGAGCAGGTAAAGCTGGATCCAGCTCTCTTTCAGCCCAAGGCAATACCTAAAACCCTATCTCTGACT
TGGAAAGGCAGTATCCTGCTGTCTTCCTGCTGTGGCCATGAGCCTCACTGGGGCTTGACTTGAATGTTAGGACTTTTTTTTTTTTTTTGAGACGGAGTTT
CGCTCTTATTGCCCAGGCTGGAGTGCAATGGTGCGATCTTGGCTCACCGCAACCTCTGCCTCCCAAGTAGCTGGGATTACAGGCGCCCGCCACCATGCCC
AGCTAATTTTTGTATTTTTAGTAGACATAGGGTTTCACTGTGTTAGCCAGGATGGTCTCCATCTCCTGACCTTGTGATCCGCCTGCCTTAGCCTCCCAAA
GTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCATGAGTAGGTTCTTTAGTGGTGATTTGTGAGATTTTGGTGCACCCATCACCTGAGCAGTATAC
ACTGAACCCAATTTGTGGCCTTTTATCCCTCACCTGCTTCCCACCCTTTCCCTCTGAGTCCCCGAAGTCCACTGTGTCATTCTTAATGCCTTTGCATGAG
AGGGAAGGCTTTTTAAAGGGCCCTTTTCAAGGTTTGAAATAAGGCTCCATGACAATGGCCTGATTTGGATGGGTCTTGGAATACCCTTTTTTTTTTTTTT
TTTTTTTTTTTTGAGACGGCGTCTCGCTTTGTTGCCCAGGCTGGATTGCAGTGGCGCGATCTCAGCTCACTGCAAGCTCTGCCTCCCAGGTTCACGCCAT
TCTCCTGCCTCAGCCTCCAGGGTAGCTGGGACTGCAAGCACCTGCCACCGCGCCCAGCTAATTTTTTTTTGTATTTTTAATAGAGATGGGGTTTCACCGT
GTTAGCCAGGATGGTCTTGATCTCCTGACCTTGTCATCCGCATGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCRTGAGCCACCGCGCCCGGCCCGGA
ATACCCTTAAAATATAGCCAGAAAGGGCTGAGGATGGGTAAGAACCCAGGATATAGAGTCTTCCCATAAAAGGGAGGGCCATCATGCAAGATGAACAACT
TGGTCCTGATATGGATGGGGCTAGAATCTCCGTATTGTTGCTAATAAGGTGGAACTGAATCCCCTCCCTGTTCCCCAACACAATAAAACTTCAGTGTCGT
CTGGGTGCAGTGACTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCCGGCCAGTGTGA
TGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCACATGCCTGTAGTTCCAGCTGCTCAGGAGGCTGAGGCGGGAGAATTGTTT
GAACCTGGCAGGTGGAGGTGCAGTGAGCAGAGATCATGCCACTGCACTCTGGCCTGGGCAACAGAGYGAGACTCTGTCTCCAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAAAAATCTTCAGTGCAGGGCCTGTCTGCTCTCCAGGGAAGGCTGCAGTATTGTCAGGTTTGTTTCTTTTTCCCCACAAAACTGCTTCGGAG
AGCTCTTAGGTCCCAAGTTTGCCTGCATCCAGGGTCCAGATGCTTCCAGGGTCCAGATGCTTCCAGGGTCCAGGCAGTGAGTGGAAGTGAAGGAGGCTCC
TCTAGTGAAAGAAAAAGGCATCCAGTGTTAATAGTATTTCTTCCCAGTTGCATGGGGCTTGCATATTAGAGATAAAGGAAACATCTTWGCTACTACTGAG
CCATAAGTGGTCTCACCTTTCTTGAAACATAAGGCCGTCTTGGTTTGTTGTTCTGTTTTGTGCTTTTCACAGAGGCATGGACACTGAAAGACGTTTCTCT
GACAGTGGAGATATAGGACTGAAGAGTGACATGGCTTGCAGAGCACTACCTGTCCCCCTAATCCACACTGTCCTCTCTCCTCATGGGCAGCCTGAGAATG
TGGACCCAAGGTAGCCCATCATGCAGTTCTTCATGAAATCTGGAAATCTTGGCATTTCATGGGAAATCTCATCACTGCTAAAGTAGGCTTAGATTTGTTT
TAAAACCTTGTGTGGGCTGGGTGCAGGGCATTTTACTCTTCTGTGGTAGGAGAGTAGACTGGCCACAGCCCAGCCCAGAATCCTTAACAAAAGGTTAAGC
TGCTGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGCTCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACGT
GGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCGGGCACCCATAATCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATTGCT
TGAACCCAGGAGGCAGAGGTTGCAGTAAGCAGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCGTCTCAAAAGCAAACAAACAAA
CAAAAAACCTTGTGTGGGTGAATCAAACACGTCTGCAAGCCTGATTCAGCCTGTAGCCCACCAGTTTGCAGCCTTTGTTTAGATCCGTAGTGGAGAAAGA
GGTTAAAGCTACAAGTTAGGACCCCTGAAAATGAAAGATGGTTTGGAAGTGAATCTGAAGTAAATTGTCACTGTATGGTTTCAGACCGTTTTCTGGTAGT
ATGTGCTGTGTGACACAGGTTGTCCCTGTGTTGTGCAGTGGTTTTGAGCACAACATTGGCCCTAGGCCTGCAGTGTGGGGTGCAGGCCCTCTGCTGAGGG
CTGCAGATGCTGCCGGGAGTGCAGTGGATGAGGTCCTGCCCGCACAGCCTCATTCGGCGTTGATACCCATGCCTGGAGGATGTGGGCTCATCTTCTTGGG
TCAGGTGAGCCTCTTACACCTGTGTTCATTGCTTAGCTCTTTTGATGTCATTGCATATTGGTTCAATTACTTTTCCCTTTTCAGAGCCATGAATAATAAC
TATGATTTTGCTAGAGGGAAAAAATGAAATGATCAAGGTAATGCATTTACATGTTACATAAAATTCATATCATACAGAAAGGCAGAAGGAAAACAGGGAG
AATTACTTGTTCCCTTTTCTCTCTTCCCCTCCCARTTCCTTTAACAGGAAGAATGTCTCACTAGTCATGTGATCTACAGCAAATCCTTTAACCTCTTCAA
ACCCGCATCTCTTATATGTTACAGGACAGTAATAAAACTTAACTCATATTATTGTTATTTTTTATTTAATGTGGATTAAGTTAGTTGGTATGAAATTCTC
CAAATCCTATGCATATATAAAGGGTGCTCATAGAGCTTTTTTCTTCTTTTTTGTATATCCAGGATTTCTTTAGCGGTCTTTTGTAATTATAGTAAAAGCA
CTGAGGTTAGATTTATGGGTTTTTTTTGAGGAGGATAGACTGAATCCCTTTCCCGCCTCAAGGCTATAGTGGGTCGGCACAGTTTGTGTTTGCTAAACAT
ATCTTTAGCTGCGTAAGAGAAAGAAGGAAAATAGTAAAGATGAACAGTACTGTTTTCTACTTGAAGTTCTAGTTGGCCCCCMCTCCCTTCCATGTAGGAA
CCTTAGCTTGCTTTCCACACCCTCCCACCACTGGACTCACAAAGGCCCCTGATGAGTGCCTCCGGTAAGACAGGGGGAAATTTTTATCTTAATTAGAAAA
AGGCTTAGTATCTTGATTGTATGTTCTCTGGAGCCAGTGATAGAGATAGTATAAGAAATTCTGGACATTCAAATGTAAAACAGATTAATTTGTAGGAATG
TTGGATTTTTATCTGGACAGATGTTTTGTCTTTTATGGAGTTGGTTGGGATTAAGAAGTGGGGGCAGGGTCATGTTGGTATTTTATTTTTGCTTTGGGCT
TATGTTACTTAGGATTAACTTTAGCTGTGTATAACAACAGCAACAAATCAGATTTATAGTCAGTTAACGGAGGCTTAAGTGATGTAAAGTTTTATTTCTC
TCTCACATAGAAATTAGTTAGAGGTAGTAGTTTAGGGCTCTTAGAGSSCCCAGGCTGTCATATTCTACCTGCTTACACATGGCTTTCAGGATCTAGGTCA
CCTCACAGTCCATGATGGCTGCTGGGGCTCCATCCCCCTTGTCTGAGTCATATGTTGGCAGAAGGAGGAAAGGCACAGATCAAGAGGAGGCCTTTCAGCT
GGGCGCGGTGGGTCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAGCATGGCGAAACACCATCTCTACTAGAAATACAAAATTTAGCCGGGCATGGT
GGTGTGTGCCTGTAATCCCAGCTACTAGGGGAGCTGAGGCWGGAGGATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCA
CTGCAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAATAAATAAATAAATAAATAAAATAATAAAGAGGAGGCCTTTCCTGCTGCATCAGCTCTCTCT
GAGCAGCGTTCCTGGGAAGTTCCATGGAACACTTCTGCTTATCTCATTGGTCATAACTCAGTCAGATGCACACACTGAGCTGCAAGGGAGGCTGAGAAGT
ATAGTCTCTTAGTCCCAGATACAATATGTATAAAATTCAGAACAAGGGTCCTTTTACTAAGGAGGAGGAAGAGACTGGATGTTATGGATATGGGCAGCAA
GCAGTGTTTTCAAAGTACTGAAACAGATTGTAGAACTTTGTAAACTGGCTGCCTTTCTACTCCTCTGCTCACCTCTAACCAAAGAGCCACCTAATTGTTC
TGCATGGTGACCATTRCCTGTTAGATTCTTGGTGAATAGATTCCTAGCCTCATCTTTTKTTATTTTTATTTTTTTAATAAATGGTAGAATGAGGATGCAG
GAAACTTGGAAAAGCAGAGTCAAAGTTCAACTAGCACAGGAGCAGAAGGTAAATTCTGTTGGCTTATAGAATGAGCCCAGACCCTGGTGTCAGAAGACCT
GGGTCAGTTCTGGTCTGTCCTCTCCTGGGACTCAGTAAAGTCTCTTGGCTCTCTGAGCTTTCCACATCAGTAAGATGGGGAATGACAACCCTTATGGGAC
TGCAGTGAGGCTTAGCCAAGTTGGTGCTGTGGAAGGCCCTACTGGATTCCAAAGCATGATACRGATGATGAATACTTTATGTGGCTGAGGTGCTTCCAGC
AGGCACGTGGGAAGCATCCATGTAAGATTGGGGTCATGCAAAATGGGGTGGGATCACATCGCGGGATGAAGCACTTGGATGCAAAGGCCTGTGTGGTCCA
GCCTGAGTCTGGCTCAACACACAGGGTYGGATCCTGGCTGCGCTCCTTACTGCTGTATGTACAGATTTGGCTCAGAGGGAATGCAGGATTGGCAACATGC
ATCTAGTCTTTCTTGTGGTCTCCTGGTGCCTCTCATGGTGTGCTTATTCTTATTCTGCTACGGAGAGTGTGACTTAAGCATGTAATTTGCATATAGCGTG
GCTCCTGAATGCAAGCCACTAACCCATTATTTTACTTAGTAAGTTCCAGTGTTGGGGCTTGGGGGATGGTGTGTCCTTTGCCAGTGAATGCTTATGTTGG
TACATTTCAAGGGTTATTTTGCTTATGCACCCTCCCCACCCCCGTCAACGTTAGAGCTTAGCATCATATGAAAGGCAGTGTCCCTGTGACTGTATCATAG
GGTTGATGAGGATGAAATGAAGTAACTGCAGGCAGTGTCCAGCCCAGTGCCCAGTGCTCTGTCCAGGCTCAGTGAGTGACCTTTGCTGCTGCTGCTGCTA
CTGCGTCCAGCTGGCTACATGGGGCTGGTGGCAGAGGGTGACTCAGTTCTCAGTGTGTCTTTTCCTGCCCCCTGCCAGGTTGCTTCCCCTAGCCTAGTTC
CCTTTTTTTGTGAAATGCTCATCCCTCAGCTCTGGACTTCAATGTACTGTTGGTTTCAAAACCTTATGAAACACAACATCAATGGGGGAAGGGAGAAGAG
AGAAGCTGAGAAGCCTAACCCAACTCTGACAGCTGAGCGGCTACAGAGGACTTCTCAGTTGGGCTTCAATACTTCTTAAGAACTTTCAAGTTAGGCCTCA
GATGTGATTTTGTTTGCTGACTTTCTCTTTGCTACCTTGGCTTCTATTTAGTTAACAAATCTAGGCCGGGTGCGGTGGCTCACGCCTATAATCCCAGCAC
TTTGGGAGGTGGAGGCAGAGGTGGGTGGATCGCCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACAAGGAGAAACCCCATCTCTACTAAAAATACAGA
ATTAGTCGGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATTGCTTGAATCTGGGAGGCGGAGGTTGCAGTGAGCCA
AGATCATGCCATTGCACTCCATCCTGGGCAACAAGAGCAAAACTCCATCTCAAAAAACAAAACAAAAACAACAAAAAACCCCAAATCTAATTCATTCATT
CAGCGTGCACAATTTATTCAACACAGTTTGTTCCAAACACTGGGGATATGCCCCAAACAGACCAAGTTCCCTGTTTCATGGAGCTTACGTTTGGTGGAAG
AGAGACAAATATAGAAACAAAAGTGTAGGCTGGGTGCAGTGGCTCACGCCTGTAATCTTAGCACTTTGGGAAGCCGAGGTGGGGAGATCACTTGAGCCCA
GAAGTTCAAGATYGGCTTGGGCAACATAGTGAGACTCCGTCTCTATTAAAAAAAAAAAAACAAGTCTAACATCAGGTAGACTTCAGGGCTGTGAAAGAAG
TGACATAGGGTAAGGGAATACAGCGTGTTGAGGGGATGGGTGCTATTTTCCAAGGAAAGCCCCTCCTGGTGGGGGGCCATAGGAAACAGCTGGTGCAAAG
GCCTGGAAGACTCACTGGCATCTTTCTGGAATARCAAGGATCAGCTTGGTGGGAAGTGGAATGAGCTGGGGGTGGAGTGGGGTGGGGTGGATTTTGGAGT
CTGAGCTTGAGATACCTGCTTGGAGATGCTGAGCAGTCTGCAGGAACCAGGAGCCCGGAGCTGAGGGAGGACATGAAGGCTGGAATTGTAAGTTTGAGAG
AAATCAGCTTTTTGAAGCTGTGGGACGGGGTAAGATCACCGTCATGTGAGAGGATGGGACTGGCCAGGTGGTGCATGTGTCCAGGCTCAGCGGATGTTCC
TGGGATACAAGTACCTGTTCATCTTGTTGACATCTAATCTGTATCTGCGCATAGTGACCAAGGATAAGCCACTGAGCTGCTCCAAACGTGTGCTATGGGA
TGGATTAACTGTGTGGGTGTGGAAATCCCTCAGAATGATGAGACAGGGAGCAGTGGAGAGGAAGACAGTCGATCATTGATCGGTGAGCCTGTACTTGAGA
TCTGGCCTGGATAGTTGTGATGGTAGGTGGTACCCACAATGATGGCCCTTCAGGGGATTTGAAGATTGTGAAGGAGGACCAAGAGGAGCTGTTTGGACCA
CCTGTGATCCAAGGCRGGAACTAGGAAGACACCTACCGGAAGTCTTTGTGGATCTTTTGGGATTGGATTGGATTAGCAGATACAGARCGTTTGACCTATA
GTAACCAGCTGACTGTTCAGCAAACGCTTCACTTCCTAAAAGGCTTCTTCTTTCCAAGGCAAACTGGGGCATGTGAGGAACAGGAACTTACAAGAGCTTC
TAGTCTGAACTCCAGGTGCTGACACTGTTAACAGTTGCTGAGTGGAGTCCTTCTCACTTGGGTGGAAAGTAACCTGTAAACTTGGCCCAAGTCTCCCTTT
TCCTGTCCTTTGGCCCATGCTGTTCTGGTGCTAGATGTTGGCTCTGGCCTTTGCACTGACCATCTCCTCGAGATGGCACGTGGGGAGGATGTGCTGTGTT
GAGAAGAACTTGGCTGGATAGGCAAAGACTTGAGCTAGAAAAAGAACAAGTGGTTATTCATTTGGTGCTTCCCTTTAACCAGGGCCTTTTTTTTTCTTTT
ATTTTAAAGGAAACCTTTAAGAAAGGAGGGCTCTCAGGCCTTTCTTAGAATTTAGGTCTCAGTTTTACATCATGGGATTCTGTTTTTCTTGGGTTTCCAT
TAGAAGATTAAATAACATAGTGGCTATGAAAGCATACTATAGATACTAGGAACTGTTGCTTTGATTGTGTTAAAGGATACCTCTATTCCCCAGGTCCTTT
ATTGATTCATCTTATTTTTATTTGTATAATAAATCATTAGAATAGTGCCTGGTGCTCTATTGCACTCACKTGCATATACTGTATAAAGCTTTGTACATAT
TACTTGTTTAGTCCTCACAGCAGCCCTAGGAGGTAGGTACTATTATTTTGCTCATTTTGCAGGCAAGAAAACAGGCACAGACAGTTAAATAAGGTCACCC
AACTAACAAGCAGTAGAGCTAGGATTTGAACTGGGGGAGCCTGGCTCCATGTTCTAGGTTCTTCACCATTATACTCCAAGGCCTGTCGGTTTTCCCATCA
ATCTCTACTGAAGAACAATGGCGATGGCCATACTGGTAATTGTTGTGCTTTATATGCTGTGCACTGTGTTGTGTATTTCAGATGCACGAATGAGAATCTT
CATCCCCGCAAGATATTAAGAGCCCGTTTTACAGAGGAGGAAATGAAGGCTCAGAGAATTGAGTAACTTGCTTGAAGTCCAAAGCTGAGGAGTGGAGCCA
GAATTCAAACTCGAGTTTGTCTGGCTTCCGAATCSTGCTATTTCCTCAGCACAGTGGCCGTCCTCCAAGGCTGTCACATGTTCCTTCCCTGGTGATTCAC
GGCACCTGGCTACCTCCTTTTAGACTCACTTTGTGGCCCATGGCACCCAGTTGTGTCATGACAGGACAGTGGCTCCCATTTCTCCGGGCCTGACTGTGAG
GCCACATGAGCCACCCCAGGGAGGCCAGCAGAGTCAGAGCTTGGCTTTGAAAGCTGTTAATCGACCTGAGCCCCTCCATGTCCCTTGCTCCATTTTAAGC
CTAGGGCTTTCCTAAAGCACCGCAGATCTCCTTTTCTTGTGAGAAGAGATTAGGCAGATGTATACATACACGGTAATGTGCAAGTGTCTAGTTTCTTGTC
AGCATCGGGATGAGCTGTTTGTAGTGAAGAGCCTGGGCCTGGTGAGCCCCCGGGATGATGGGTGGGGACCATCTGTGCTCTCCTGGAAAGGAAATTGTGG
TTTCTTTCTTTTCTTTTTTCTTTCTTCTTCTTTTTTTTTTTTTTTTTTTTTTTTAGYTTATGGGAAAGGGAGACTTGTGTCTCAATTGAGTCTTTGTGGC
GTTGTATTACAGAGAGTCACAGAAAATGTTCTATGTAAATGACTATGTGCTCTGATTAGAGCCTCAATGGGCACCATTGTGTCATATTGCTATTATTGGC
GATTGCAGGATACTAAATGATATTCTCATCAGGCTGAAAAACTTCAGTGTTAGCAGTGAAACTCGGGGTTAATTATACTGCTCTGAATTAGAGCATGGAA
TTAAGTTGTAGGGAGAGTAAGCCTATTGCTTTCTTCCCCCTCTGTCTTCCTCTTCAAGATTCTTGCTGGGGGTTTGATCAGAATAGTTTTTAACCCATGT
TCTATATCTGTACTACTGGCATTTTGTTCTCCATGAGTTACTACCCCATTTGGGGTTGGGAAACACAGGACCAATTTATAGGACAGTGGGAGAAGGGGAG
ACATGGTCTACTTAATAGTGCATTCTTCTCAGTCAATAGCTGGGTAAAAAATAGCATGAAGATTGAAGTCTTAGGGGAATGCTGGACTCTCTAGAGGGGC
CTCTTTAATTTAGCTCTTGTCTCTTCTGCCTTTGAATTCTCATCTCTTCTGATCCTGACTCACCTCTTTGAAGAAATGACACACTGACCTACATCTTGGC
TGAAACAGATAGAAGAGTCTATCTCTGTTCTGCCCCTTCTTGGCATTCCCAGCACAGCCTCCAAGGGAGTCTGTCCCAGAGCTGAGGCAGGCCCTCTCGG
GTTGCATGCCATTGACTTCTCAGCTTTGTTTTAACTGCAGAGTTTCCAGTGCTCTGCTCTTCTTGAATTGCTCCTGATTGTCACCTTCTTGCATTCCTTT
CTCTCATTTCTTTTTCTGTAAATTTCATGTCACTGGTATCAGGTTTAAAGTCGTATTTTTTAAATCCCTTTCAATGTTACGTGGGTTGTAAATGTAATTG
TTAATATTATTTAAAAATTTTTGAAAAGTGATTTTTAGTGGTGGCCTTATCATATCTACATATTATTACTCCMCCATTTTGGGATGTTTAGGTCGAATCC
TGGTTTTTTCTTCTTTTGCTGTTGTAAGTCATGTATATTGGCAATTAGCCTAGGAGAGATTCCTAGAAATGAGTTCACTGAGAATATGAGCTTAAGAGAA
AGTGAGGATTTAAAGCCAGATCTGTCTGCCTTCAAATCCAGCGCTCTTTMTACTGATGTGAGTTCTCCTGTCTTTTTTACCTATCAGAATTCTAGAACTC
TCCCAGAGAAACCAGGCAGATACTGCTCCACACCGGTGAGCTGCTTCTCACCTGGGTAGTCTAGGGTGGTTTGCTCCAGAATTGTATTTCTGCTTTTTCT
TTTTTTAACTTGGCAGTGGTTAACCATTCCCTGGAGCAGCACCAGGTAAGTCAGCTTGTATCAGAGTCATCTGCTTTACCTGACATGAGCACACGTTGTC
ATATATTTGCACATGCAGATATCATATGTTAAACAATATCACATTGTTGAAGAAAATTACACTGGAAAGCGTAAAATATAGTTTGGATGCCATATTGAGT
GTAACTTAATCCACCCGATTCAGAACTTTTGTAGAGTGCCTCGGAGTTCCTATTTGGAAATATCAGTTAGCAGTTTTAGTCAGTAGAGTAACATATTTTC
TATATTTATGATATATCAAAGAGACTTTCTGAAGCAGAACCCTGATTGACTCAAGAGTCTTTTCCAAATTCTGTATTCTCTCAGAACCAGGATTTAATAG
GAGGTGGGTGGGGGGTGGTCCTTGGTCAAACTGGGGAAAAGCCTCATAATGAGATTGCCAAAGCGCTTACAGCATTTGAAGGCTCAGAGAGATGCCGTGG
TCAGGAAGCTTGTTTGAGTCTGTCTGGAAGCCAGTAAGTCCCACAGAATACCTACTGATAATCCTGTGGAATAAGCAGCATATGGAATGTTGCTGAGCTA
GAATTAAAGTCCACACACGGCCAGGCGCGGTGGCTCACGCTTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGCGGATCACTTGAGTCCAGGAGTTCGA
GACCAGCCTGGCCAACATGGTGAAACCTCATCTCTAATAAAAATACATAAAATTAGGTGGGCGTGGTGATGGGCATCTGTAATCCCAGCTACTCAGGAGG
CTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAGGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTGCC
TCAAAAAAAAAGAAAAAAATATATTCCACACACCTAGTTTTTCAGCCCTATACAGGCTGACCCCATACCTGCCATCTCCTTTTCACTTCCTGTTCTTTCT
GGCCTCCGTGAGTCCACGTGTGCCCTTGTCTCTGCTTGCTGTGCCTTTCTCTTTCCTCCACGTTGCTAAATTCCGTCCATTTTTCAAGGCTCAGTTCAGA
TCATYCTTCTTTGCTTTATCATTTTACATACTGTGTATGGTTTGGCCTCTTGGTCTGCTGCTCTCTGTGTCTGTTGTATGGAGCGCTTTTCTATCTGGTA
TTACGGTTATTTGTGTGCATGTCTTTTGATTCATCTACTTGAAGACAAGAGCTGGTCTTGGGCTGCCATTCCTGCAGTGTAGGCTCTCACATTGCCTTGC
ACGTAGTAAGTGCTCAGTAAATGCTTGGTGAACAAGTGTTCATGGCGTAACTTAATACTTCCAGTGGTGAGAGTTCCTGTCAAGAGTGTTGGCAGTGAAG
TTGTTCCCCTTGGCAATTTCTATGCTGATCTCGGGTTACTGCATGAGACACAGAATCTGCGTTTCCCTCCCTTCAGCATCACTGGGGAGGACAGCCTTAC
TTTGGAGTTTTTTTTCTGATCAGTTACATGATGGTTTCATCTTTAAGACTACTGATAACAGGCAGCTCTGCCTATGGAGTAGCCATTCTTTTTTTTTTGA
GATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCGCCTCCCGGATTCAAGTGAATCTTCTGCCTCAGC
TTCCTGAGTAGCTGGGTCTACAGGCGCACGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTAGCCAGGCAGTAGAC
CTGCAGATCTCATATCATCGCCACTGTGGTGCAATGCCCTCCCAAAGTGCTGGGATTACAGACATAAGCCATGGTGCCCGGTGGAGTAGCCATTCTTTAT
CCCTTTACTTTCCTAATAAACTTGCTATCACTTTACTCTAAAAAAAAAAAAAAAAAGACTGACCAGGTGTGGTGACTCATGCCTGTAATCCCAGCACTTT
GGGAGGCTGAGGCAAGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCCGTCTCTACTAAAAATACAAAAATTAGCT
GGGTGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACCTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCAT
ACCACTGCACTCCAGCCTGGGTGACAGAGCGAGAGTCTGTCTCAAAAAAAAAAAAAAAAGAAAAAGACTATTGGTAACAACCCTCATTTTTTTGAGCACT
TGCTATGCTGCTAACTGCTTTATGCACACTATTTCTTTAATCCTTAACACTATTTCTTTAATCCTTATATCTACCCATGAGATAGGGTTTTGTTATTCAG
GCAGTGGCAAAACCTGCGGCTTAGAGAGGTTAAAAAAAAAAAACAACAAACTGCCTCAAACAAAGTCATATAGTAAATGGCAGTGCTGGAGATTAAATTT
AGGTCTGTCTTGTTCTGCAGTCCATATACCATATAACTTTGCCAAATACAACACTATGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGCAC
ATGTGTGGCCTTTATTGAACACTGTGGTGTGTGTGTATGCACGTGTGTGGCCTTTATTGACTTATTGAATTGATCCTGAATCTTCCCTACTCCTTTCCTG
TCTCTTTTCTCTTTCTGAATAACATCATTTCTTTTTCTCTACTGGACATGGTCTCTGTGGGTTTCACCCCTCACCCCTCTTATTTTTGAAGTTTTATTGA
GGCACTGGTTGAGGCTTTAGGGCTCCCACTGTTAAGTTTGACAGTAATAGGTAAGTGTCCCCCCAGTCTCCCTTTTGCCCTTTCTTTTTTTTTTTTTGAG
ACAGAGTTTTGCTATTGTCATCCAGGCTGGGGTGCAGTAGTGTGATCTTGGCTCACTGCAGCCTCGCTTCCCGGGTTCAAGCGATTCTTCTGCCTCAGCC
TCCCCATTAGCTGGGAATACAGGCGCACACCACCATGCCCAGCTAATTTTTGCATTTTTATTAGAGACGTGGTTTCACCATGTTGGGCAGGCTGGTCTTG
AACTCCTGACCTCAAGTGATCTGCCCGCTGCAGCTTCCCAGAGTGCTGGGATAACAGGCGTGAGCCACACCGCCTGGCCGCTTTTGCCTTTTCTTGACAT
TGCCAATGCATCCTGTCCCCGAGCGTCTCTGAGTTTTAAGTCTCAGATTTGTTTTCTTTGGAGACAAACTGCAGGTAGGTGTTACTTCTCACCGAAGTTC
CCAGATAGCACAGGCTTTGCTAAACAACACAGCACCAGGAACTCCATCATAGAGACCGCAGGATGCTGTGTGCGCGCACATGCGTGTGCACCTAGTGAGA
TGTAAACATTTACCTGGAGTAAAAGAAATTCTTTCCCCAGAGCCCAAATTTGGCTAGTCTCCTTATGTACACAGCTTTGACAGGGATTCCATATGTTTTG
CTCATCTTTGCTTTTTTGCAGCCTCCACAAATTTATTTTCCGTACCACTGCCACTAAACAGAGTTGTTTCTAAAGTGCAGATCTGGTTGTGCCATTCCAC
CGTCAAAAATTATTTTTTGGCTCCTTGTTGCCTTCAGGGTGATAGGACAGGTGACTGCTCACCTCTCCAGCTTCTCTTACTTTCTTTCTTCTTCTTCTTC
TTCTTTTTTTTTTTTTTTTGAGACGGAGTCTTTCCAGGCTGGAGTGCGATGGTGCAGTCTCGGCTTACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTC
TGCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCACCTGTCACCATGCCCGGCTAATTTTTGTAATTTTAGTAGAGATGGAATTTCACCATATTGGC
CAGGCCGGTCTCAAACTCTTGACCTCAAGTGATCTGCCCGCCTCGGCCTCCCAAAATGTTGAGATTACAGGCGTGAGCCACCATGCCCCTCTTACATTCT
TTTCTTCTGTTCACTACAGCCGTGGAGAGCTCCGGGTTGTCCTGCACATGTGCACTGCCCTCTCTTTTATGGACCTTTTAGGCTGGCTGCACCCTCCGTC
TGTGTCACCCTCCTGCTCCTCCTCCACCTGGCTAGTTCCTGTTGGCCACTTTTGGAAATTCATGCCAGTCCAGTCCACCCTGAGTACATCCTCKTTCTGT
GTCACTGAGCTCACTATGCTGGGTTTTATCTATGTCTCCCTCGCAACTAGATCATTCACGTCTTGAAGTTAGGCATCATGCGTTCTTCATTTCTGTACCT
CCCAACTCAATGCTTAGCACCCAGCAGGGGCTCAAGACTGTGTGTGGAATGAAGGATTCGTGTGAAAATGCAGGGAGATGGAAGGCTGAGCGTTTCTGTT
CCTTGACCATTCCCGGGTTTGACTAATAACTCTCATACACACTGCTACTCATTGAAGGCCTACTGTGTGCATGCATTCCATGTGTGCTATACAGTTTATT
TATTGTTAACCCACGTAGAATTCCCAGACACATAGCGTTACTACAAACTTCATCACAAAAATAAAGAAACCAGGGCCCTGTTTCTCTTTGTTTCTCAGAT
GAGAAGTCTCACCAGAGTTGACTGTGGCTTCTGAGCATTATGAGGCACATGTAGGATTTAAAGCTGAAAGGCTTTATCCCTGAGACTCAGGGAAATATGA
CAATCTTTTATTTTGTTTTAATTAATATTTTTTGAGTCAGCGTCTTGCTTTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCATGGCTCGCTGCAGCCTC
AACCTCCTGGGTTCTAGCGATCCTCCCACCTTAGCCTCCTGAGTAGATGGGACCACAGGCACGTGCCACCATGCCTGGCTAATTTTTGTACTTTTTGTAG
AGATGGGGTTTTGCTGTGGTCTCAAATTCCTGAGCTCAAGCAATTGGCCTGACTCAGCCTCCCAAAGTGTTGGGATTACAGGTATGAGCTACCGCACCCA
GCCTGACAATTTTTTAAACAGAATTTTAGGTGCTTGGGCCCTGGAAGGTTCCCAGTTGTCCAACTCTTGAGGTGGGGGGTGGGTGGGGGGTGGAGAGAGA
GAGAGAGAGGAAGGCTTTTCCTTCTCAAATAGTTTGCATTTACACGAAGGCCACGGTGTACTTGTTTATTGAATCAATAAAGATACAATCTCTTTGAATA
GTTCAGAATCTGATATCCCTGTTAGACTGAGTTCACCTTTTGTGAAGGACACAGGACTGCTGGATAGGGTGTTGCAGCAATGAGGAGTTATGTTATAAGG
GGTCTCTTCAGTGTCTTTTTGGTCATATGAATTTTATTTGCCCAGTAGAACATGACTGATGAGGCTCTGAATAGTCAAAGAAAACATCTCTCTTATGTTC
TGCTCATGAATAGAACACTCTGTGTCCTGAATTGTTGCTCCACTGGGGCCAGCACGTGGTGTATTTTTCTAATGTTTGAACCAATGGGCTTTTTCATTTT
GGGGCAATCAAGGTAAAGATTTTCTGGTGCTCCTGTGTGACAGGGAAAGCATGTCTTGTATTTTCTCTCTCTTTCCCTTCTGTCTTTTGAGTTTGGAAAA
TTATATTTTGAGTTACATGACTAATTACATGAGTAATTTTAGCAAATTTACTAGAAATTGATGTTCTGCCAATGATTGGAAATCCCTTCCTCCCCTCCAC
TCTTCTAAACCAAAACAGTGCTGTGTCCTGAAGCTAGAGGGGTGAGTATTCAGTATTGGAGTACAGCGGTTTAGAACATTGGAGACATTTACAAGGATAA
ATCTATGGCCCTGGGTTCTGACTTTCTTTTGCCTGTGTGTGTGTGTAGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGAGAGAGAGAGAGAGAGAAAGAGA
GTAAGAGAGAGCGAGCTGGGTTTGGGGCTGGGAAGGAAGAATGATTGATTAGGAAGCTGTTGTGCAGAGTAGAACAGGACTTCCTGAAATGTAAGACCCA
AAGAAACATAGATAGCCATATTTTCCAGTCCTGGAATCAGACTCAAGTCTGATAAAAGGTTTTCTTTTGATTTGTGATTCTGATAATATGAAAAGTCTTA
CAAAAGTATAGAATTGTAGCTGGTAGGCTGCTTTATGAGAAAGAAAATAAACTCCCACAGAGTGGGCATTGACCTGGGAGATCTGGAGCCTGGTGCAAGT
GCAGACCATGGTTTTCACAATCTTTGATCACTTTCCTTTTGTGTTGAACTTTCTCTTTTAGCTCCATATTTATAAATGGGGTCATATTTAGCCAGATATT
TTATTTTTATTTTTATTTTTAAAGAGAGGCAGGATCTTGCTGTGTTGCCCAGGCTGGAGTGCAGTGCCATGATCATAGCTCACTGCAGCTTCGAACAGGG
CACAAGCCATCCTCCCATTTCAGCTTCCTGAGTAGCTGGGATTACAGGCAGGAGCCACATTTCCTGGCTTCTAGTTGGGTTTTTTTGTTTCTGGAAGAAC
AGAACCATACTCCTCAGGCCAGGAAGACCTAGGTAGAGCAAGACCAGCAACCTCTTGGCTAGAGGGCTGTGGGAGCTGAGCATCAGTGAGTGAGGGGAAA
GCAGTGGTTTTTTGTCTTGAGAAGAAGTTCAGCGCTCAGTTAACCAGAACAAGTGCCACCTGTATAAGACAGCAGACGGTCAAAGCAGAAGAGGGAAGGA
AATGGTTGAATAATTCTTTTTTTCCTTTTGTTCCTTCTCTGCCCTGAGTCTCCCCCACCCCCAAAGAGATATCTCAAAATGTCAAGGTCCAGTGAAATGG
ACGGTGGGATCCTTGAGGAGGGGTCTGTGGGGTGGGGGTCTCTGAAGGGGCTAAGCCATGGTGGGCTAATGGCTCTGTTTACCGAGTGCATGCCCTATGC
CTGGCATTGTGCTTCTTTCTCGAAACCATCCTACAGGTGGAGGAAGCGGGGGTTTAAAGGGAGCCAGCAGCCAGCGACTCTCTATCTTACAGCTTCTAAT
TGGCTTTGAAACCACACAGGCTGCTGCTGGAGGAACCTTTGACATCCTCAGTGTGCAGCCCTCTCCCCTCCCTCTGAAGGGAGGCATACTCCTTCACTGT
TGCTTTGACACTCTAGGATGTTCCAAAACTAGGTGGTCAGCTTACTCAGAAGGCTCTGGGCATTTTTCCTCCTGCAGGAGGGACTGCGCACATGCGAAAG
ACATGAGGAAGCTCTGATGCTCAGGGCTGTGGGGGCTTTGGCCTTGGCCCGCACAGCCTTCTCTGGTATAGTGAGGTCTCCTTTTGGGTTTTTCACTTGT
GTTTGTTTTGAGGCGTATGTGCTTCATATGGTTGAACTCATTCCTCGCCCAGCTGGACATAGAGTTGACTGCCTCAGTGGGTCCCACCTCGGGGGTGGGA
AATGTAACCTCATGAGGGCCACTGTATGGTTGGGCAGATTCACAGCTGCTCTGAGGTCAGGCCTGGCAGGTGGCGAGGGCCTAAGAGGAATTGGATCACC
CTGGAACCTAGCTGGGGCTAGGATGGTTGTTGCATGTGATTTTCAGCAGGACTCTAAGGGATCTCCAAAGCTGGTTGGCTGGCTAGYGAGGTTGGGCGAG
GGAATAACTCATTTGCTTAACTTTTCATATGTAACAACTGGGTTTTGGGTTTCACAAGAGACAAGGTAGGCAGGCAGGCTCAGGTGGTTCTGTATACCCC
ATTTCATACATGAGAAAATGGAGACTTGTTTCAGATCGTAAGGTAGTTGGACCGCAGCTACTCTTCCAAGACTGGTATTCGTTCCTCTACTCTGTTAAAG
CCAGAGAGAGGATGCAGGCCAAGTCAAGTGACCAAAGCTAAAGGGGAAGGAAGGGCTGGCTGGACTTAGCAGTGACCACAGACAGAGTTGAAGCCTTCAC
GGTTGGCGTTGGYCTTGTTCACTGCTGTGTGCCAAGCTGCTGACAGCATCTGGCTATCGCAGGTTCGTAATAAGTGTTTGCTGAGTGAATGAAAGAATAT
TGGTGTTGGGGATGATCTCTTTTTCACTTGCTCAGCACCTTCCAGAATTTTGTTCTTCTCTTTGCCACTCCCTTTTTTCTCCTCCCTGGGTAACACCTCT
TATTGCAGGAGTAGGATCAGGTTTTGAGTAGCACCTTTGGGGTACCCATTCAGTTCCTCTTTTCCCCCGTAATTATGGGATTTGGGATTGCCCTTTGGGA
GAATTAGGTAACTTTAGGTTCTGTATGTTAATTTGAGGCCTGGATTTTGAACTTCCTTCTGATGCAGATAGACCTTGGAAGGGAGTCCTTACTTAGAACC
TCTTTATTTTATCTCCTCACTGGGAGAGTAGATCCCAGACAGGTTTTGGGAACCACCTGGTGTCCCCAAGCGAGCAGAGGCAGAGTTGGGCTTGAATCTC
CTCCTTCATTGCAGTGCTTTCTCTGCCCTGATCCCATTGGGTGACCCTGGACTATGAATATGGATTATGAGTGGGCCCTGAGAGTGATCAGAGACATCCT
TCAAGATTGAAGCTGCTTTGGTTCCTGCCACATGGAACTGAGTGGGAGAATGTCTCAATTCAGGATGGTGGGAGTGTCTCTTTGTCCAAGTAATAAATGG
AAACCGTTTGCTCCCGACTTTTGCAGATATCAAGGGCTTGTCTTTCCAGAGTTTGGTTTTCTTCCCTTCTCTCCGCCTCCCTTTTCTCTGCCCGCCTGTG
GTTTTGAGCCCCTCATGGCTATCTGGGCAGTGATGGGTGGAAGGGAGCTGGTGCAGTATTCGAGTAGAGAAGTTCTGCTGCAGTGAGTGTGGGGCAAGTT
TCCCAGACCCTTGTTGGGTCAGGGCAGGTGGTTGTGGCCCAGTTGTTTGGCCTTCTGCAGGCTGCACCCCTGCCCTGCTGCCTGCCAGTGGGGTGAGGGC
CTGGCCACCTGGTACTTAACAAGTTTGGTTCTACATGTGTTCCCGTGAGTGGAGGACAAAATGAAAATACCTCCTGATCGTGTTCAACCATTAGTTGAAC
AACCATTTGAAATGGTTATTGCAACCATTTCAGAGTTTTCTTCTGTTTGTGATGTCATCTGTGCCTTATAAGGGGTGACTTGCTACCTTATGGAGCACCT
AGGTTGAGGCCCGGGTTGAGCACAGTTCCATACGTTAGCTCATTTATTTATTTTGAGACAGGATCTCACTTCTGTGGCCCAGGGTGGAGTGCAGTGGTGC
AATCACAGATCACTGTAGCCTTGACTTCCCAGGCTCAGGTGATTCTCCCACCTGAGCCTCCCGAGTAGCTGGGACTACAGCTGTGTACCACTATGTCTGG
CTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGCCCATGCTRGTCTTGAACTCCCGGCCTCAAGAGATCCTCTTGTCTCCAAATCGCTT
CGCAGAAGTGCTGGGATTACAGGTATGAGCCACCATGCCCAGCCAAGTTAGTTCATTTAATCTTCACAGTGGTACAATGGGCTAATATCTCTGTCTTATA
GGTAAGGAAATGGAGACTAAGAGCTCTTTGCCAAGGGTTGCTGTCATCCATTTATTCATCAACAGGTAGTTATTAGGTATCTACTCTGTGCTGGGCCCTG
GCCTGAACTTGGCTTTGGTGGATGAGACTGACAAGTTCTCTGTTCTCACAGAGCTGAGAGTCTGGGGATAAAGATCCCTTATTATGGTTTCTTTTGTGGT
GTTGTGGGGAGAGGGTGATGATTAGGGTTTGGGTACTGGAGAGAGAATTAGGATTTTAGCTCATTTTACTCAAATGCTTTATATTGCACCATGTTACTAC
ATTTTCCCCTGTGCTTCCCCCCTACCCTATGTGGATTATTACAGTTTACTTGTGTGTAAACTTAGGCTCAGAGAGGCTGGGTAACTTATCCCAGCTTGCA
CAAAAGAGGACCTGAATTTGAGCAGACCGTAGGTTGAATTCTGTCCTTCTATGCTGCCTTTCTATGAATAATATGTTTACATATATATATATATATATAT
ATATATATATATATATATATATATATTTTTTTTTTTTTTTTTGAGATAGAGTCTTGTTCTGTCACCCAGGCTGGAGCGCAATGGTGTGATCTCAGCTCAC
TGCAACCTCTGCCTCCTGGGTTTAAGTGATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCGCACCACCACGCCTGGCTAATTTTTGTAT
TTTTACTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGCACTGGGATTAC
AGCATGAGCCACAGTGCCAGGCCTTACATAAAAATTGTTTAAAAAGCAGTTTGCAGAAGAATTATCAATCCTTTTGTTAACATTTTGGTGAACTCTTGAA
CACATTTTTTAAAAAGTTGAGAGTTGCTAACAAGTAAAGTGAAGTCCTGTGCCTGTTGTAATTTGGACTGAGGAGTGTGAGTTGTCTTGGTCTAAAGGTC
AGAGTGAGGGTCTCTGCCTGCTGCAGGGGTCTCCCGGTTAGGGTTAGGGTGAAAAGCTTTTTAAAATAAACCTCTCAAATTTGTTGTCAACATTAACCTA
TGGTAATTTTTTTTTTTTTTCTTTTTTTTGAGACAGGGTCTTACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGGGATCTCAGCTCACTGCAACCTCTGCC
TCCCGGTTCAAGCGATCTTCCTGCCTCAGCCCCCCAAGTAGCTGGGACGACAGGCGCGTGCCACCATGCCTGGCTAATTTTTGCACTTTTTTGGTAGAGA
CAGGGTTTTGCCATGTCACCCAGGCTAATCTCTGGTAATTTTTAAACTCTGCTCAAAGTTTTAGAAAACATAAGTCTGGAAATTCCAAGTTGAGCCACTG
GTGACTTGTGAGCATGAGTATGGCATGGGATTGGGGGTGGGGTGGGGCTGACGTGGCCTGGGGCAGATGCCGGGTGGTTCTGTTTGGAAACAGAAGTTCC
ACTGCACATGCAGCCTTCACGTCTTGTGGGGGCTTTTGTGGGGGCTGTGTACTTCCCAGTTTGGTTATTAGTAACTTTATTTGGTTCTGGTCATTAACGG
CTTTTGGGGGCGTTTTGGGGGCCTGTTTGAGGCCCCTGAACATGCATTTTTCAGTTGTCGTTGTCCATGTTATTAAAAGGATATGTTGGAGGGGGTTGCA
GTTTAGTCTGCTGCTGTTTCGAATCCTTTTCTTTGATAGTGTTTGCCTTCCTCCCACCAAATGCTGCACTGAGAGTCTCTGGTACCTGGGTCCCTCCTTC
CCTTGCCTTTGCTTGGGAGGTCAGTGCCTTCATCCAGGACATCTTTGGGCATACAGGTAATCCCAAGCAGCTCTGCTCAGTTGTTGATACCCCTTCTCAC
AGAACCTGATCTGCCTCAGCTCTCCTTGCCTCCTAAGTGGCAGTGCCCCGCTGCTGGGAAGACTCCTCTCTCTGCTGGATGCTTCTTCAGGCCTGCTGCT
GCACAGCTTACGGCCATGATGACTGCTGCAGTGCAGAAGGCATTTCAGTTGGCTGTTTGTTTTTCATGCATTTTGTGTTTGTAGTGTGCTGGCCACGGGA
GCACTCTAAACACATTATGGGCCGGGCGCAGTGGCTCCGGCCTGTAATCTCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACTTGAGCCCAGGAGTTCG
ACACCAGCCTGGCCAACACGGCGAAACCCCGTCTCTACTAAAAATACAAAAATTAACCGGGTGTGATGGCGCGTGCCTGTATTCCCAGCTACTAGGGAGG
CTGAGGCAGGAGAATCTCCTGAACCTGGGAGGCAGGGACTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCT
CAAGAATAAAAATAAAAACAAAAATAAACATAAAAATAAACACTTTATGTACACAATCTCACATCACTTTCACAGTCTTGGAAGGCAGATATTTCTGTTA
TCCTCATTTTACAGCTGAYGCCTATCTAAGGCTTGTATAAAAGTCAGTCACTGTCCAGGCTCACACAGCCAATGCTGGAGGGCTGTGTGGCACCCAGAGA
GCACAGTTGCTGCTTGGAATAAACCTTCACTTATAGTCCGGAGCAGGGTGGTTCTAAAGCTCCCTTAGCTTTCCCACTAGTAAGCTTCCAGGTTCTGGTA
CAGTTTCTCAGCCTCGGCACTACTGACGTTTGGAGTCTGATGAGTCTTTGTTGTGAGCGCTGTCCTGTGCATTGCAGGATGTTAGGAGCATACTTGGCCT
CTATCCACTAGATGCCAGTAGCACCCCCCTCCCAACTCTGCCCAGTTGTGACAGCCAAAATGTCTGCAGACATTGCCAGATGTCCCCTGGGGGACAAAAT
CTTGCCTAATTGAGAACCACCGAGTCATGGCAACCATTTCAAACCCTAAGCCAGGATGTACGTGGAGATGGAGAAAGGTACAACATTTAGAATTGGTACT
GTTGGCTGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGACGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAA
TGCGGTGAAACCCCGTCTCTACTAAAACAAAACAAAACAAAACAAAACAAAACAAAACAAAACAAAACAAAACAAGTCGGGTGTGGTGGCGCACTTTTGT
AATTCCATGTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGATTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGC
GACAATAGTGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAGAATTGGTACTATCTTAGAAAACCTGGAGCACCCTGCTGCTTTAACTGCAGCCCTCTG
TGTGGGCAGACAGATTGACAGTGGGCTTAATGTGGGGTAACCTTTCATCATGAAAATTAAATTACACTGCAGGCCTTTTGTAGCCCTCCTATATGAAACC
CTCTTAAAATATTTTCTTTTTGCAATGGAAGCTTGGGGGAAAAATCATAGTCTTAGATTTATTGAAGTTTTGTGGATAAAAGCACTTTTTATTAAAAAGA
ACCAGGTGAAAACTAGAAGGGCCTCTTTTGAGTCTGCTGACAGACACGTGGAGAATATATAGTCAGCGGAACATTCCTGTGCTTTCCGTAAAGCTGTGGA
TGAACCTGCCTTTCAGGTTTCGTAGCCTCTTCAGTCAGATGGTTTGAGAATGCGTGTTTTGTGGTGTATGCACACAGACTGTATGAGTTTGTTTTTTTAC
ACATGACTAGTAAACCTGTCACATTTTGTCAAATGTGATTTTCTTTCTTTATTAAAATAGATTTTATTTTTAGAGTAGTTCTAGGTTCACAGCAAAATTG
AGCAGAAGGTGCAGAGATATCCCATATACCCCTGGCCCCCACATATGCACGGCCTCCCCCGTTAGCAACACCCCCACCAGAGTGGAACAATCAATGAACG
TACATTGACATATCACTATCACACAAAGTCCATAGTTTCTGTTAGAATTCATGCATAGCATTCTACATTCTGTGGGTTTGGACAAGGTATGATGACATGT
AACTGTGATTTCCTCAATTCAATATGTATAGTTCCTGTTCACACATTTCTTCACACATTTGTTCCTCAGTGCTCAAATGCCTGCTGTATTCCAGGCTGTA
TTTGAAGCCCCTGAGCCTTTATTTGGAGAGTTCATTGAACATTAGAGCATGCAGTTTGCTGAGATGTCTTGTACTTAGAAAATCCAATTTATAAAAAACC
TCAAATAGAACAGTAAATTTAGGGAATTTTTTTTTTCTGATGATAAAATTAGATAACTCTGTTGCATGGATTCTGTAAAACACAGCTCCCTCCTGTTACG
CCATGAATTGGGTTCAATTTACAACACCCCTTTAGGCATACTTTTTCAGCAACACATGTCTGAGCCGAGGTGCACTGTGCCTCTTTCTGTAGCAGGCAGC
TTTTAGGGGGTGTCCTAGTGGTCTTATGTTTTATACATCTCATGGGAGTGGCTGGTTTCTAGGAAATAGCTCACTTGCCAGTTTTGGTAACCCTAACAGA
GCTGTTTTGCCAAGGCGTCTGGTGAATATTTCTGTCTTCCAGTCAGGACTAATATAGTACTTTTCAGAGGTGATAGCCAGTTAACTGATGACTTTTTTTT
TTTTTTTTTTTTTTTTTTTTTGAGATGGAATCTCGCTCTGCCACCCAGGCTGGAGTGCAATGATGCGATCTTGGCTTACTGCAACCTCTGCCTCCCGGAT
TCAAGCGATTCTCCTGCCTTGCCTCCTGAGTAGCTGGGATTACAGGTGCGCACCACCACGCCTGGCTAATTTTTGTATTTTTGGTAAAGTCAGGGTTTTG
CCATGCTGCTCAGGCTGGTGTCGAACTCCTGGGCCCAAGTGATCTGCTCACCTCGGCCTGCCGAAGTGCTGGCATTACAGGCGTGAGCCATTGCACCTGG
CCGTGTTTTCTGTTTTTTATTTAGAGGAAGTCACTTGATCATGCTTTTCCCCCCACCCATGGCATAGGAAAATGATTCTTTTGCTGATTGTGCTGATTAA
ATGTGATGTGGAAAAACCTACTCCTGGTGTTCAGAGAGGTTTTCCAGGTCACAGTGGGGTGGGTCTCATCTGGACATCAGAATCATTATGTTAATGATAA
CTAAGAGCAGTTGACTGCTTACTATAAGCCAGCCACTGACCTCAGGGCATTGCATAACTGGCTTCCTTTACTCTTCACATCAGCCCTGTGGGCTTGGGAG
TGAGACCTCTACCTAGTTTTTAAACAAATTACATAAACTTTTTGGGGCTCAGCTCCCTCATCTGAAAATCAGAAAATGATACTTCTCTGGCATTTTGAGC
ATGAGTTCAGGAGTCAGACTTCCTGGGTTTGAATTCTAGCTTCTTCTATGACTTTGAGCAAATTACTTTAACTTTGCTAAGCCTCAGGTTTCTCGTGTTG
CATAGGCAGATGATAGTCATATCTGAATGTAACGAGAATCAAATGCAACCTGGGACACAGTGAACACTTGGTGAACGTTAGTGCCTTGGTAACAGTGATG
ATAGTGACAATAAAGATCGATGATGATGATGATGGCGATGGTGCTTAACCCAGTATGAAGGTGAAGTGTCTAAGCTTCTTGAGGGCAGAGTTTTGTCTTC
TTCTGCACTTTCTTTCTAGTGTCTAGAATTGCCTGTAGGTTTACCCCTGGATCCCGTCAGGATGGGGCTAAATTTAGAATTTTTGGAAAGATGTGAGCTA
GCCCGTCTACAGTGACATCCAGCTCAGTGTGTATGTTTGGTCTGTGAACATAGTAGAGGCATGATTCAACTGTGAGTTTGTGCTGGGAGCATAGATGGAT
GCTTTTCAGGCTCTTGAAATGTGCAAGTGTGGTTCCCTTGCAGCAGGCATTGCCTCTCCCTCGTTAATCAAGATCTTTTCCTTGCCAGGACTTCAGGAGA
TCCTGGACATCCTCTGGAGCCCAGGGGTGGCCTCACCCGCTCCTTGCTTTAGCCTGGAATGCAGGCCCTCAACATTCCAGCCTTGGGTTAGTGCCAGAGC
TGTGAAAGCAGGGCAGGCATTTCCACCTTGCTTGACAAAGGCTTTTGCTCTCTGGGTGGTTGGGGGTGCCTCTGAAGCCAGGCGAGACCAGAGATCTCAT
GGGTTTGTGTTTCTTCATTGATACTTTTAAGGGGAGCAACTTAATCAGTGGGAAACCAGATCTCAAAGGATGGGACAGATAAACSCAGGGTACAGAGAAG
AGCTTGGGGGAGTGTCAAGCTTATTTGCCCAAAAGGGCTGACCCTACCTTACCGCCATTAATACATGTCCTTCATGCATCCCTGGGTAACAGGGAAGTAG
TACCAAAAATCTTACAGTGCAATAAACACTTGGCAGAAATGGAGAAACTAGTAATGGCTGAGCAGCTGTGCCCTCTCCACCACCTCACTATGCAGTACGT
GGGCCACCAGCCGCTAGGGGCCTGGCAGCCACAGAGATGAGGGAAGCATGCTGAGGACCCTGGTGTGGAGTTGGAGGGGTCATGTCCTCTGAAAGGTGGC
CACCACTCATCGCCAGCCCTTACTGTCATGTGAGAATGTGGCTCTGTGTTTCCAGATATTGTTTTTTTTTTTCCCCTCCAACAGAAGCAGGAAATATAAA
AAATTTATATAATATATATAAAATATATTATATATAAATATATAAATATATAAAAATAAATATATATTATATATATAAAAATATATAAATATATATAAAA
ATATATAAATATATTATATATAATATATTAAATATATTATATATAATATATTTATATAATATATATAATATATTATATAAATATATAAATATATAAAAAT
ATATAAAATATATAAATATATAATATATATTATATATTAATATATTATATATTATATATAAATATATAAAAATATAATATATATAAAATATATATAAAAA
TATATGATATATAATATATATAAATATATATGTATAAAATATATATTATATATTATATACTATATATTATATATAATATATAAAAAATATATATAAAATA
TATATATAACTTCACGGAAACTCTGAAGGAGAGGTCAAATATAATATTATATATTTTATATATATAATTTATATATATATAAAACTATATATATATATTT
TTGAGAGACAGTCTTGCTGTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCATTGCAACCTCTGCCTCCCAGGTTCAAGCGCTTCTCCTGCCT
CAGCCTCCCAAGCAGCTGGGATTACAGGTGTGTGCCACCATGCCTGGATAATTTTTGTACTTTTAGTAGAGGCAGGGTTTCACCATGTTGGCCAGGCTGG
TGTCGAACTCCTGACCTCATGATCCGCCCACCTTGACCTCCCAAAGGGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCAGGAAATTATATTTTTAT
GAGAAATATTCTGTTGTTTAAATTCTGGCACCTCGTTCTTTTTTTTTTTTTTTTTTGAGACGAAGTTTCACTCTTGTCGCCCAGTCTGGAGTGCAGTGGC
ATGATCTCAGCTCACTGCAGCCTCTGCCTTCTAGGTTCAAGTAGTTCTCCTGGCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCACGCCT
GGCTAATTTTTGTATATTTAGTTGAGATGGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACACCTGACCTCAGGTGATTTGCCCGCCTTGGCCTCCC
AAAGTGCTGGGATTACAGGCGTGAGCCATGGCGCCCGGCCCTAGTTCACAAAATATATATGGCCAAACAAAACATGTCTGGGGCTAGACTTGGACAGGGG
GCCCCATTGTGCAACCTCTTATATAGCAAATTAGAGTTTACCAGGAAGTTTCTGCCCTTCAGGCCCTCTGCTCTCACAGAAACTCTATGAAGGAGAGGTC
ATCTTGTCTATGTTTGTAAGAAGTCACATTGAGAGAAATGACATCTTAGCTCCTCTTATGTGCCAAGTAGTTTGTCTGCGTTATCTTCTTAGATTGGCTC
CATCTCTCAGGTGAGGAAACAGACTTGGAAAGGTGAAGTGACTTGCCCACCTAGTTAGAAGCACATCATCTTCTGATTCCTGTCTCATTTCATTTCACCG
CTTGTTTGCCCTCTCTGTGGTCTTGCCCACGGACTTGTAGTCCCTGATGTACGCCAGGCCTCTCACAGTGTGGCCCCCGGGATTCCCTTTTATGAAAAAA
AGTTGAGCATGAGCTGTAAGTTAGAGTAGGTTTTAATTCTGTCCTACCACGGAGTCTGTTTTATATGAGAACAAGTTATTTAACTCCTCTGAGTGTTAAT
TTCCTCATTTTTTTCCTTTCTTTCTTTTTTTTTTTTTTAAAGGGCCAGTCCCCATTCTCACAGGGTGTTTGGAAGGAGTAACTGAAGGGGGGTATATAAA
GCCGCTGGCAGCCAGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGCCTGAGGCAGGCAGATTGCTTGAGTCTAGGAGTTCAAGACCAGCCT
GGGCAAACATGGTGAAACCCTGTCTCTATAAAACATGCAAAAATTAGCCAGGCATAGTGGTGCATGCTTGTAATCCCAGCTACTTGGGTGGCTAAGGTGA
GAGGATTACTTGAGCCAGGGAGGTTGAGACTGCAATGAGCTGTGATTGCGCCACTGCACTCCAGTTTGGGTGATGCAGTGAGATCCCATCTCTAAATAAA
AAAAAAATAAATAAWGCCCCTAGCATGGTGCCTGGCACATGGTAGGCCCTCAAAAGATGACCCTCCAAAGTGGCCAGGACTCACCATGCATTCAGGGAAT
ATGGATTCTTTTGGTGGCAGCAGGCTGCATTTTTGCCTGGCTGAATGCCTGCAAGCATGGGAACTTTTGATGCAACAGTAATCCTTGGGGTCTGAAAGGC
CCCAAATCTCCCGCCAGATCTCTGAGGTTAACATCCAGTCAACCTTTTGCTTTTCATTCTTGGCCTCTTTCCTCCTCACCTCCACCAGTGTGACAGTCAT
ATCCTCTCTATGTTTCTGGTAAGTTCTGGCCTTGAGGGCTGGTCTTATGACTGACAAGTGAAGAGCAGTGCCACCCTCTACTCCACATTCTCAGAAGCGT
CTCTAGGTTCCATACTTTAAGGCAGGCTAGCTTCCAAGGCATACTGACAGACATCCCTGTGCAGTCCTGGGGGCACGAGGGTCCCATTCCACCCTGGGGC
TTCAGGGTCAGGTGAGGAAGGTAGATCCCTGAAGTTGGGTCCAGAAAAGGCCACTGGGCTAGCCTGTCTCTCGTTCTGGTCACTGACCTCAGGATCCAGC
AGGACGCTGCTAGCTTGCTTGGCTCAGCTCTGCGAGTGCTGGGAGCAATAAGCAGTGCTGAAAACGCGATGCATTTCAACCCAAAGCACTCTGATCCCTT
TCCAGGCTTTGGGAGAATGTTTTTTCCAGCTCGGTTACTTGCTGGCATGCATAGGTCAATATACAAGGTGTTCTCAGAGAAGCCGGAGCTGAATGTTGAC
TTTTGTGCTCCCTGGGGTGTGTTCTGGGGAGGAAGTGGGTTTTCAGGTTGTGGTGCGTGTAGGATGTGGTCTGGGATGATTAGTATCACACACTGTGGAT
AAAGTTAACACGCATTGTGGAGCTTTTTTCCTCTTTTGTACTTTTGGGCGAAGGTGCCTCAAAAGCAGCTTTGTTTATCAAGGAGGTGCCCTTGATTCTG
TATGCATTTTTAACATCTGAATAGAAGTTAGACGCACACATAATTGCTTTACTTGATGCAGTAAATACGTTTCAGCCAGATAATCCATAAGACCCTAGTT
CAGATCCTGACTTTGATCCCTCTTAGTTGTGTGAGCTCTCACCAGTTTACTTGACCTCACTCTCTGAGCGTCAGATTCCTGAGTGTAAAATAGGTACAAA
AACTCAGATTGTTGTAAGGTTTCAGTGAGTTGTTGCGTGTAAAGCATTTAGTATACAGTTCTTGTCACAATGTTTAGTAATGGCAGCTATTATCTTAACT
ATTAGAGCGGCAGTTTGGCGTGGCACTAATAATGATGATGGTGACAGTTTCACTGAGTGCTTACTACCTCAGCTATTCTTCCAAGTACTTTGCATCACTT
AGCTCATTTAACCCTCACAATAAAGCGATAAGGTAGGTGCTGTTCTAATCTCTGTTTTACAGATGCTAAAACTCGGCAGCCAGGTGTGGTGGCTCATGCC
CGTAATCCCAGCACTTTGGGAGGCCGAGGTAGGCGGATCATCTGAGGTCAGGAGTTCGAGACTAGCCTGGCCAAAATGGTGAAACCCCGTCTCTACTAAA
ATACAAAAGAATTAGCTGGGTGTAGTGGTGCATGCCTATAATCCCAGCTACTCAGGAGACAGAGGCAGGAGAATCGCTTGAMTCCGGGAGGAGGAGGTTG
CAGTGAGCCGAGATTGTGCTATAGCACTCCATTCTGGGCGACAAGAGCGAAACTCTGTCTCAAAACAAAACAAAACAAAACTCAGGCACAGAGAGGTTAA
GTAACTTGCCCAAGGTAACCCAGCTCATAAATATGAAAAGAGCAGGGACTTTAGAGTCAGAAGACCTGGGTGGCACGCTTGCATGCCGTGTCCTGGTGGT
GTGGCCTACCGCAGAGTGACTGACTCTGATTGCCTTCCCAACTGTAAAATGGTGCTAATGATACAGACCGCCCCCCATTGCCTGGTGTGGTGCGCGGCTG
TGAGTGCTTAATAATAGGTGCTTAGGCATCATTTGCTAATTAACTGACTGTGTTAGGTTATTAGGAAGTTCCAGTGGGCTAATAAAAGCTCTGGGTAAAC
GTTAGTTGTTCTTTTAAATGTCCTGAGGTGCTTATGATTGGAGTTTAAACAGCACACCTGTTTTTCAGATTTCGGAACCACTTAAGAGAGGCACAGTGTA
AAGAAGGTGGAGATGAGAATATCACCTTTACTCCTGATACAGTCTTGGAGAATGCAGCTTAGTTGTGGGGCAGCATTAGCTTTCTGATATGAAGCTGAGA
TTAGGTGGATGTACCAGGCCAGTCACGGGCAGCCTTGGGTACCCAGAGGCCTTCTCACGTGGGTCGAGGCAGGTGGTGGAGGTGGTGGCAGCGGTAGCCC
CCATAATACTTCTAGGTGGAAGAACAGACCACCTGAGTGAGAGAAATCACTCCTGAGCCCTGGGGGAGAACTGTGTGGAGGGGCAGATGGGAGCCTGGAG
TTTTGAGGGAAAAAAAACTTTCCTTTTGGAAGCCAGACGTAGGGAAGAAGCATATTGATCACAATGACTATTAAAGAAAGCTCCCCAACACCCCAGCAAA
ACACCCACAAAACAAGAAACTACTTCTGCCAATGGTTCTAGCCAGTTTTCTTCACCACAGTTCATGACTGCTTCATCCTTTTAGGTGATCACACCCAAAA
CTTTTGGGTCTTCCTGCCTTTTTTTTTTTTTCTTTTGAGACCAAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAATGGCACGATCTCGGCTCGCTGCAGC
CTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCATGCCTGGCTAATTTTTGTATTTTTAG
TAGAGATAGGCTTTCACCATGTTGACCAGGCTGGTCTTCAACTACTGGCCTCAAGTGACCCACCTGCCTCTGACTCCCAAAGTGCTAGGATTACAGGCAT
GAGCTACCACACCCAGCCTTTTTTTAAAACAAAACCAAAACCAAAAGAGACAGGGTCTCTGGTGTGCAGTGGTGTGATCATAGCTCACTGCACCTTGACC
TCTTGGGCTCAAGCAATCCTCCTGCCTCCACCTCCTGAATAGCTGGGACTACAGATGTGTACCATCACACTCATCTAATTAAAACAATTTTTTTTTTGGT
AGAGATGGGATCTCGCTATGTTGCCCAGGTTGGTCTTGAGAACTCCTGGCCTCAAGCGATCCTCCTGCCTTGGCCTGCTAAAGTGCTAGGATTACGGGTG
TGAGCCACTTTACCCAGCCTTGGGTCTTCCTTGACTCCTGACTCTCAAACCTCATATTCAGTCCATCTGCCAGTCTGTGGGTTCAATCTTCAAAGCAAAC
CCAGAACCTTACTACTTCTCACCTCTCCCCAGCCACCGCTCTGGTCCAAGCCACCATCGTCTCTCACCTGGATTAGTGCGGGGCTCTCTTCCTGGTCTCC
CCACTTCTGCCCTTGTCCCTCTTCAGTCTATTTCTATGAGGCCACCAGAATTATCTTTTTTAAAAACTGAAGTCAGATCATGTTGCTCCTCTGCTCAAAG
CCCCGCAGTGATTCCCTGGCACGCCGAGGGGAAAAGGCAAGATCCTCCCAAAGGCCTGTACGATCTGCCCCCGGCAGCTCCCTGGCCTCTTCATTTTGTG
CCTCCTCTGCCCCCTCTGCAGAGCCACACTGGCCCTGGTAGTTTCTAGAACACGTCACGTTCATGCCTGCCTCTGGGCTTTGCATGGGCCTTCTTCCCAG
GCACAACGTGGGGCTCTCCCCACTTCTTCCACCCTACAGAGAGGCCGGCCCTGATCAGCTGTTTTATAATAGCTCCTCCCGATCAGTACTCCTGATCGCT
CCCTACTGTGCTGTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGGCAGAGTCTCACTCTGTCCATTGCCCAGGCTGTAGAGCAATGGCGTGATCTCAG
CTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGAACACAGGTGCCCGCCACCACATCCGGCTAATTTTT
TGTATTTTTAGTAGAGGTGGGGTTTCATCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGG
ATTACAGGCGTGAGCCACTGCGCCTGGCTGCTCTGCTTTTTACCCATAGCTCTGGCTCTAATATATGACACTGCCCCTCCCTGAATTAGAATGGAGGCTA
CAGGGGGATGCTGGTCTGTTAGTTGACTGATGCATCTTCAGCACTTAAGACAGTGTCTGGCACAGAGTAGGAACAGAATATGGTCCTGTAACAAATACTG
AAGGTTGTGCTCTGTGCACCTGGGATAGAGCAGGAGCAAGACACATCATTCCTGCCCTCACAGGGTTATGGTCTCCTAGGTGACAAGGTAGTGCACACTT
CCATAGSTCTTACTCTGGGACAAGTACTGTGCCAAATGCTTCCTCCCAGCCGCCTGATGAGGTAGCTACTGTTAGTTATCAAGTCTGATTTACAGGTGAG
GCAAAGAAAGGATAAGTAATTGACCCAAGGTCACACCTAGCAGGTGGTGAAGCTGAGCCATGGGTCTTGGCTTCAAGAATCTGTGCTCTTACCCACCATA
CCTGCTGCTGCCGGATTCAAACCCGAATTGCATTAAGGAATCATCATAACCTGTTTGATTGAAGCTATAAGGGAACTTTGAGCATGGTGAATGGGGCGCT
CTATGGAAAAGGGGTTCTGGGAAGCCTCTGTGGAAGGGAGGTTTTGTTAAGTGAACTCCCCTGGTAAACGGAGTGATTGGCCCCCAATTAGCTTGCTGTT
CGGATTAACTGTARTACATCACACTTTCGAAAGTGAAGATATGCCTATTTTTTCCCCTCTAGGTCTATAAAGTAGATTTTTGCCATTAGTAAAATTTAAA
GTGATTGGGGGCTATGGTTACTGAGAATTCAAGAGGTAGATTGACGAAATAATATTTGAATGCAATTTTATTTTTTGAAAAATGTTTTCGAGATGTCCTG
TTTTTAGCCAGGAAGCAAACTCCAGGAAAACTCTCTTTTCCATTAAAGTGTGGATGGTGTACTGTAAACAAAGACTAGCTCTCTTGAGCTGCCACGTTTC
TATAACTTATAGAAACAGAAGCTGTTTTTTTTTTCTAAAGATCCAAACTCATGTTGCCACACAAACAACAAAATAAACCAGTGTGTTCCAAAAACAAGCA
TTTGCTCTACCCACACGCACAGTTGGAAAGATGCAGGTTTGATTGAAGAAGTCGGAAGCCAGTGAGGTAATGGCAGATTCTTTTAGGGGCTCCTGTTAAT
TTTAGTAAGCTTGGAAGAAGCTTCTAGGTTGTTTAGTGTTTCTATTAGAACCATCACCTCAACGAATTTGTTATTGTAGAGATTGATTAGGGGATCTGCT
TCCTTTGAGCAGCCAGGATCCCCCAGCTCCAGCTTCTAGCCTGCTTTTCTTCCTCATCTCTACTCTTTCAGAATAATGCATGGCTTTCAAGTCCTGTGTG
ATAGGTGGCTTCTTAGCGGGCCTCTGAAGGGGCTGAGATTTGTTCCTGGGGCTGAGACTTTGTTCCTTTGAGGGTGCAGAGGCTGCTACCTGCTCAGGCT
GCCCCCAAATTGCTCTTGTGTGCAGTGTGCTGCTTGGGGACCAGTCCTGGCTCTGCCACCATGGCGGACACTACTGGCTTCCTCTTAATCTCAATCTCTT
CTTCTCCTTTCTTTCTTTTTTTTGGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCTATCAATCGTTCAAGCGATTCTTCTGCCTC
AGCCTCCCAAGTAGCTGGGATTACAGGCATGTACCACCACACCTGGCTAATTTTGTATTTTTAGTAGAGACAGGATTTCACTATGTTGGCCAGTCTGATC
TCGAACTCCTGACCTCAGGTGATCCGCCTACCTCGGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCCTCTTCTCCTTTCTAACA
CAAGCCTGCTTCTCAGTTTCACGCACACATAGGAGTGGCCACCTGACCCTGTGTTGGCAAATGATTGCAGGCTGTTGTCACCGGTGGGGCTCCTGGAAAA
GCCCTCTATGGGGGATTGACTCTGGCATGACTGGGGTGTGGATGCTGTGCTCAGAGGTGCTGCAGTAATGGTTCTGCTGCTGCTGATAGTAACACAGGCA
GTGCTGTGTCATGCACAGTAATCCTGTAAGGGAGATACTATCATGATCTCTGTTCGGTGGATGAGGAAACAGTCTGAGGAAAGGCACCTGACCTGTTCAG
GCCACACACTAAGTACAGAGCTGGGATCCTGGCACCAGCATTTGCTCTCACCACCTCTCTGTTATGTACCTCTCACACAGGTGCGAGTCCCACCCCAGAG
GGGCCTTGAGAGGCTGCAAGTGTCCTGGGTGGGCTGCCTGCTTCAGGAGGACTTATTATTGGGGAAAAATACCCCCMCTACTTATTACTAAGGGCCGAAT
GCTTTATGTTCACACAACAACTCCATGTTGTGTGACTTTGGACATGTTCCTTAACTTTCTTTATCTTGGTCTTCTCATCTCTGTAAAATTGGGATCATAA
TGGCACCAACTTATAGTTTTTTTTTTTTTTTTWTTTCTTTTGAGTCAGGATCTCACCCTGTTGCCCAGACTGGAGTGCAGTGGTGTGATCTTGGCTCAGC
CCTTGGGCTCAAACGATCCCCCCACCTCAGCCTCCTGAGTAGCTAGGACTACAGACATACACCACCATGCCTGGCTAATTTTTTTTTTTTTTGGTGGGTT
TTGCTATGTTTCCCAGGCTGGTTTCTAACTCCTGGACTCAAGTGATCTGCCTGCCTCGGCCTCACAAAGTGCTGGGACTACAGGCATGAACTACCATGCC
CGGCCAAACTTCTAGGTTTCTTAAAAAAGTGCCTGGCAGGCCAGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATC
ATGAGGTCAGGAGATCGAGACCATCCTGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAATAATTAGCTGGGCGTAGTGGCGGGCGCCTGTAG
TACCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCGA
CAGAGYGAGACTCCATCTCAAAAAAAAAACCAAAAAAAACAGTGCTTGTTGTTCTTTTGTTGTTATTGTTAAAGGATCATTATCTCATTATCAACAACAT
TGGCAGGTAATTGAGCAACTGTTTGTCTCCTTGTCAATGTGGAGATAGAAAATTGCCTACGAGGTTGGACAAGGTGCTGGAGCAGCGTCAAGGAAGAGAG
ATCGAACAAGAAGACTGCTTTGCCCTTGGACAGCTTTGTTTCTGAAGCACTTTCTCATATTCTCCCATTTAATCATCCCCTCCCTGCCAACTTTTCCAAC
AGGTGCATACTTAGGTAGAGCTATTCTTTATCAGCCTGGGGCTAAGATTTGTTCCTGGGCAGGTTATCTTTGTCTCTGCCTGGATAGAGGCAGGGGCAGT
AGAGTTGTCATGCATTCCAGACTACTAGCTATGCAGAAGCAGGAGCAAGGTAAGAGCAGATTTGTATGAATGAGGGTGTCAGGGAATATCTTAGATGTCC
ATTTAGTTGTTAAAAAAGAGAACTGATGCCTATATTTCAAAACCCAACTTTGATCTGGATGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCC
GAGGTGGGTGGATCACCTGAGGTCGGGAGTTTGAGACCAGCCTGGCCAATGTGGTGAAACCTTGTCTCTATTAAAAATATAAAAATTAGCTGGGCGTGGT
GGCACACGTCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAATTTGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCACCAATGCA
CTCCAGGCTGGGCAACAGAGCAAGACTCCATCTCAAAAACAACAACAACAAGAACAACAAGAACAAAAGAAAAAACCCCTAACTTTGGAGAGGTTATCTC
CTGAAAAGGAGGGTTTTGGTCTCTTTCTCGCACTGCTCTAAAATAGTGACTGGCACATAGTAGGTAGTCAGTAAATATTTGTTGAATGAATGAATGAATG
AAAGGTAATTGGCCTTCCCTGCTCAGTTCTCATTAAAAATTCTGGTTTTCACATATATGGGCAGTGTCCCAACAGGCTGCTGGGGGGTGGCCGTTTGTGA
TGGCCTCACCAGTCTTTCCCAGAGAGGGAAGTGCACATTTTTARGCTACTTTTGCTCTGACTGATACACTTGGCTGCCTAACAAAAAGCCAGAGAAGAAC
TAAGATTTTTAGCATCATTCAAAATGCTTGCCATTCCTTTTGCTTTGTGAAATCATGAGCTAGTTATTTTGAGTTCACATAAAGGTCAGAACTTGATCTG
GGGAAGGAGGTTCCCCTTGGTTTATGTGAGGGGAACTTTTTCGCCCTTCTGTTTATTTTATCCAAAGGCTTCTGTTTTTCTCCCAAGCTAAAATCTGGCA
TTTGTTGTAGAAAGTTCTCAGCTTATGTGTGTGTGTGTGTGTGTGTGTGTGTTTTTAAAAAGAGCTCATATTTTGGCTTTAGTTTTGATTCTCAGTGATT
TTTTTTTTCTGCCTGAGAGTTGATTTTCTGCTTCTTCAAAGTCCAGCTCTCAAGTGGGTGCCTAAAGTTGTTTCGTTTTAGAGGTGACTTAATCATTTTT
TAGGCCTTTAAGTGCTGCTCCCAGCTTGTGTTTCCTTCTGTTTTTAGTTTTTATGTGGGGCAGGGTCTCCAAAGTACACGGGCTCTTTTCCCCACCCCTC
TACCCTCATTTTAACTGTGCATCAAATGGGTCCTGTTTCTTCTTCATGTATAATTTTGTGAGTCAGGGAAGGTGGTGAAGGCCCTTGAACCCTGGCTTTG
TCATGGCCCTTCCTTAAGGACCTGAAGGTCTCTTCTCCTAAGGGCTAGGTTGGTTCAGAAAGTGAGAAGGGCTGGACCTTTTGTGGGGAGAGGATACAGC
AGGGTCCRAACAGCTGGGCTGAYACCGGGCAGCAGCCCAGCAGCAGTCGGAGCTGCAGGGTCAGCTCACCATGGGCTGAACTTGGGCATTGCCTGTTTAG
GCAGAGTCTGCCCGAGCCTTTCCTGCTCCCTGAGAATCCTCAGCATGTTTTCCTGCTGAGCAAGGAGTGAGGAATGAAGCCCACTACGAAGCCCGAGCTG
CAAATGTATTTATTTATTTATTTATTTAGAGACAGAGTCTTACTCTGTCGCCCAGGCTAGAGTGCAGTGGTGAGATCTCAGTTCACTGCAACCACCGCCT
CCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCCACCACGGGCCCGAGAACTGAGTCTCGCCCATCTAATTTTTG
TATTTTTAGTAGAGACAGGGTTTTGCCATGTTGGTCAGGATGGTCTCGAACTCCTGACCTCAGGTGATTCACCCACCTTGACCTTCCAAAGTGCTAGGAT
TACAGGCGTGAGCCACTGCGCCCGGCTCTGAGCTGCAAATTTAATAGGGAAACTGAAGGAAGAGGTTCTCCACAGCACCAGTGGGGCTGAGACCTGTTTT
CCTCAACTACCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGCTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCATCTTACTGC
AACCTCTTCTTCCCAGGTTCAAACGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGCACCACCATGCCTGGCTAATTTTGTATTTTT
AGTGGAAAAGCGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCTGCCTCTGCCTCCCAAAGTGATGGGATTACAGAT
GTGAGTCACTGCGCCTGGCCAACTGCTTTGGTTTCTGAGTCCTCCCTCCTCTAAGCCCGCTCAGTGTGTGTCATTCCTGGGAGGCGGTGGCTCTCCCAGG
ACCCCATGCCGAAATCTGCCTTCTTCTTGTCTTCATTCCCCCACCTGGGGTACCCCTCAGTGTTTTCCCATTACACAGATTCACGTTTACATGTTCTAGA
AACATCTGTAAGTCTTTTTCCTGTTTGTAAATTGTATATCCTCTGTTAGATTAAAAAACTTTTAAAAGTAAGTGTCTTTCTCTGTGGTGACCTATTTGTG
TGGCATAGTATAGGTTACAAAGCCCTTTTCATGCATTGTTTTACTTATAAGTAATGTTTATAGATGATACCGAGGTAGACCCTATGGGGTGCTTACTATG
CCAGGTCTGTTCTAAGAATGTTATACACATTACCTTACTAACCCACCCCAACCATCCATTGTGTTATTGTCACCCCTGTTACAGGGTGGAGAGAAGAAGG
CAGAGAGAAGTGGAATGACACTCCTGAGGCTAGGCATTTGCCAAGTGAGGTCTGGGATTTGAACCCAGGCAGCTGAACTTCAGAATCCTGGTGTTTAACC
ACTATACCATGCTGGCCTTCATGTTATTGAGCAGGATAAGGAATTGTCACTCTTGACTTGTTTTTGAAACATGAAAACCCTTCTCTTAAATTCAAAAGTA
ATACATAGCTGGGCACGGTGGTGTGCACCTGTAGTCCCAGCTACTTAGGAGGCTGGGGAAGAGGATAGTTTGAGTCCAGAAATTTGAGACTGCAGTGAGC
TCTATAGTCATGCCACTGCACTCTAGCCTGGGTGGCAGAGTGAGACCCTGTCAAAACAAAGCAATAACAAAAAAAACCAAAGTAATGCGTATTGCAGCAA
GTACTTAAATAATGTAGATGCATAAAAGCAAAAAGTGAGAATCCCCACTCCTCCTCCAGTGCTCTGAGATAGACTGAAGTAACTCTTCAGGGATGAGTGT
AAACACAAGGGATGTCCTCGAAGACTTTCCACTTGGAAAGCTTGTGTATTTTATACATTAAGTATCATAAATATGTAGTTACCCTAATGGGTCCCCGCCA
TTGCTCTGCAGGCAGTGGGCTGAGGTTCAGGAGTTAAGTCAGCCCCAGGGCACAGGGTGGTGCAACAGAAGAGCCTGAGTCGAATCCAGATCTCCCCTCT
CCACTGTGACTGTTTCCTGGGAAACTAGTCAGGGGCTGGTTTTATAGGAATTATCCAGTCGTATTATTATTATTATTATTATTATTATTATTATTATTAT
TATTATTGAGACTGAGTCTCGCTGTGTCGCCCAGGCTGGAGTGCGGTGGTGCCATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCC
TGCCTCAGCCTCCCAAGTAGCTAGGATTACAGGCTTGAGCCACTATGTCCAACTAATTTTTTTATTTGTAGTAGAGATGGTGTTTCACCATGTTGGCCAG
GCTCATCTGGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCCCCCAGCCTTCCAGTCGTA
TTCTTGACAAATGGTTTTCCATGAAGTTGTGGACACCTTCCAGGGTCACAATTAAATGGTTAAATGAGTCACGATTAAATAATGATTGTGGGTACCTCCC
AGAGTTTCAATGAAAAAGGGAATTAACTTTGGACACAGACAGAATAATGCAAATCTTCAGTTTTGGTTTAGAAAATCTGAAACCTGCAGTGGGGAATACA
GAAAAGAAGGAAGTAGAAGGAGTCTGTCCCCAACCCCGCCCCTTCCTTTTTTCTCTCCTCTGGAGAGAGAAGGGATTAGGAGGCCTCCTGGAAAGGAGTC
CCTTTCCTGTGATCAAACTCACCCCTTCCCTCCACCAGAGCAATTACAGAGCCTCCGGCCTGGAACCTTCCTCACCGGCCTGGAGGAGACACCATTCTGC
GGACAATGGGGGGAAGGAAAGGAAAGCAATGCCGCTGCCAATGGTGCGGATGACTTCCTCAATGCCAGACTTGCTTGCACTTTCAAAGTCCCTCCTCGGA
GGTCCCCTGGTAGGACCTGGAGATAGGATGTGCTTTCACTCTTTACAGACTATTGTCCAGGAAAGAAAGTTTCAGACTTTCTTAGGCAGGGAAGGGCCCT
CTGACTGTGAATTTATTTGGAAATTTGAAAGAGAAGAGAGTCTTATCCTAGGAAGTGTTCTTTTTCTTTCCCCCTGGATTTGACAGGCCAGGCAACAGCA
ATTATCCAAACCACTGCTCTGCACCAAGAGGCAAACCACAGGAAAAAGAAACCCGAACAAGCAAGGAGAATAGAAGTTCCCCAAAGCATGCCTTCTTGTT
TTTCTCAGAGGACAGTCTTTTCATTCATGTTTTACAGATTGGTCCAACAAGTGCAGTTCTTCTAGTCTCCTATCTAGATAAGCAGGATATTAGAAGGAAT
AGGAGAGGCCTGCAAAAAGCTATGATAGGGTGGAAATAGGATAGGAGAAACTGAAAAAAGGGGAGGCGTGCGCTCCAACACCTCCATAGCCCTTGGGGAC
GGGCTTAGTTTCTAATGAGAATACAGAAGGCCCATGTCTCAATAGGCCCCGAAAAATATTAATCCAGCCCAATATGAACAGTCTGCTAATTATATGACTG
GGCCTGCTTAGGAGATCAGGGCAATATTACATTCAGAGTACTCAGTTTAGGAAGATGACACAGTGTAATACATACAGATTTCCATCATTTCTTTTATTCC
TCATTTGGAGAGGCAACAGGGCTGAGATAGACATGTTAGCGATGGCTAGATTGATTGATTTATTGACTGAATGAATGGCCTGCTTTAGGCAGCGGGAACA
CTGAATGAACATTTTAAAATCAGCTGGTATAGGTCAGGAACTGTGCAGGTTGCTGGGAATGGGTAGATGAAAAGACATTGCTATGGTTTGGCTGTGTCCC
CACCTAAATTTCACCTTGAATTGTAATCCCCATGTTTCAAGGGTGGGACCAGGTGGAGATAATTGAATGGGGGGGTGGTTTCTCCCATACTATTCTGGTG
GTAGTGAATAAGTCTCACGAGAGCTGATGGTTTTATAAATGGGAGTTCCCCTGCACAAGCCCTCTTGCCTGCCACCATGTAAGATGTGACTTTGCGCCTC
CTTCCCCTTCCACCGTGATTGTGAGGCCTCGCCAGCCATGTGGAACTGTGAGTCAATTAAGCCTCTTTCCTTTATAAATTACCCAGTCTCAGGTATGTCT
TCATTTGCAGCATGAGAACAGACTAATACAGACATGGACCTTGGCTGTAGGGAGTTTGCACTGTAGTGACGGCAAGAGCTCACGTGATCCATTTTAAGAT
AGAAGAGCGAGCTCAGGCAGAGGAACACAGAGCCAGGATGGTCCATGCACGGAATCTGGCCCTGCCCTTACTTTCTCCAGGAGCATGGGCTGGGTCCCTC
TCCTCCCTAATCCTCACTTTGCTCATGTGTGAAATGTAGATCAAGTAAGTTCTACACTCAGAGGTCTCTTGTGAAGATTAAATGAGAAAAGGCATGGAAA
CTGCCTTTGCACACAGCCTGGTATATCCTGATGTCTGCTGATACTCTTATTTTTATGTTCCTTGACATTCCAAATCTGCCCCAGGGAGAATTCCAGGACA
GCTCTGGAGAGGAAGTGATCTTTGAATCCAACCTTGAAATCACCCTAGGAGATGCAAAGAAGGTGACACCAGTTAAGAATAAGATGTGTACCCATTTTCA
AATGTTCTTTTTTTTTTTTTTCAGATGGAGTCTCGCTCTGATGCCTAGGCTGGAGTGCAGTGGGGTGATCTCGGCTAATTGCAACCTCCGCCTCCCGGGA
TAAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTGTGTTTTTAGTAGAGATGGGATTTC
ACCATGTTGGCCAGACTGGTCTTGAACTCCTGACCTCAAGAATCCACCTGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGCATGAGGCACTGCACCTGG
CCCAAATCTTCTCAGTTCTAAATGGCTGTGATAAAAACTACATTGACAATTTTTTTTTTTTTTTTTTTTTGGAGATGGAGTCTCGCTCTGGTGCCCAGGC
TGAAGTGCAATGGCGCAATCTTGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGATGGGGCTACAGGCGC
CTGCCACCACCCCCGGCTAATTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCC
CACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCCTCTGCGCCTGGCCTTGCATKGACAATTAATTTGTTTATGGAAAGCCAGTTATCCAATGATGGTGA
ACAAATGCAACTTGACTGTATAATACTTATTTTGGTTTTGGACCAAAGTCACCATTAAATATGCCAAGTTCTTGTTCAAGGAAACAGCTAATGTCGTGGA
CTTGCATCTCATTTGTAGTTGGTTCTCCCTGAAAAGTCAGTGGTGTGGGAGAAATGATACTTAGTCAAAATCATCAGTGAAAATCATTGCTTGGATCATC
CCAAAATATAATGAACAAAAGTGATATTTATCTGCCACATTGAGAAACATTCACCATATCTCAATAAGCTCTCCTCAGCCAGTTGGTCCTTTTGTGGTTG
AAAAAAGTGCCATATCTTTGGTTGGGCATCCAATAAAATAYGGTATTTAGGGGCTACCTGTATGGAAAATCCATATCCTTAAAGGTTAGCTCACCAGGAG
GATGTTGAGAAATGGCACAGGGGGCTGGGCGCGGTGGCTCATGCCTGTAATCCCAGCATTTTGGGGAGGCTGAGGTGGGTGGATCACTTGAGGTCACGAG
TTCGAGACCAGCCTGGCCAACATGGTGAAAGCCCATGTCTACTAAAAATATAAAAATTAGCCAGGTGTGGTGGTGGGCGCCTGTAATCCCAGCTACTAGG
GAGGCTGGGCAGGAGAACTGCTGGAACSCAGGAGGCGGAGGTTGCAGTGAGCTGAGATTGCACCACTGCATTCCAGCCTGGGTGACAGGCAAGACTCTGT
CTCCAAAAAAAAAAAAAAAAAAAGGCACACAGGAATTGGGTTGGGACTCAGTAGATCAGTAGATTTAGATCTCCCAGCTTAGTCTCATCTCCATAGTGTG
GGTGGAGTAGTACTCACACTATTTAAATTATTTTTATTTCACTACCTGAATCCCCTCAGCAAGTATAGTTTAATTCACCTGAGTAATACGCTTATGCGAG
GGGATTTCTCCATGGGCCTTTTGTTTTTGCTCCTGCTGGTGATCTGATTTTAAATGTGAACGTGCCATTGCTAAGAGTTTTTGTTCTATGTATTATTCTG
TGTGGAAAATTTCTTAAATGGGATTATTGAAGTATACTTCATTATTTATCTTCTGGCAATTTATCAACAACAGCAAATATCATTCATTATTGTTTGGAGG
ACAGAACTATTTTTATATTCTTTAATTAAAAATGGCTTTGACATTTTCAAATTCAGAGGGAAGTTGATAATTTAGTGCTGTATGATAGGACCTTTAGTTG
GTCTGAATGTCACATAATTGTACAAATTGCTGTTAAAGTATATTATTACTTATTTTCTGAGAGGTAGAGGGACTTGGTTATCCTGGGATTGCATAATTAT
TGGTTCACTAGAACTACAGATGAGTGAAAAGAAGGGTTAGATACTCTCTAGTTCACTTTTCTTCCAGTGCAGGGAACATTCTATGGGGTTCCGAACAGAT
ATAATAAGCTCATAATAACAGTGGCCATTGATTGAACTCTTTCTATCAAACAATGTGAAAAACATTAGTAGAGGTGATATCTTAGTCTGCTTTTGCTGCT
GTAACAGAATACCTGAGACTGAGTAATTTTTTTTTTTTGAGATGGAGTCTCACTCTTCTGCCCAGGCTGGAGTGCAGTGGCGCTATCTTGGCTCACTGCA
CCCTCCGCCTCCCGGGTTCACGCCATTCTCCTGTGTCAGCCTCCCGAGTAGCTGGGACTACAGGCTCCTGCCACCACGCCCGGCTAATTTTTTGTATTTT
TAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGACCTCGTGATCCTCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCAC
CGCACCCAGCCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGTGCAGGCTGGAGTGCAGTGGCGCCATCTTGGCTCACTGCAACCTCC
ACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCTCCAGTAGCTGGGACTACAGATGCATCACGCCCAGCTAATTTTTGTATTTTCAGTAGAGACGG
GGTTTCACCATGTTGTCCAGGATGGTCTCGATCTCTTGACCTCATGATCTACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTACCAYG
CCTGGCCATTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCGT
CTCCCGGGTTCAAGCGGTTCTTCTGCTTCAGCCTTTTGAGTACTTGGGATTACAGGCACCTGCCATCATGCCTGGCTAATTTTTGTATTTTTGTACAGAC
GGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAGCTCCTGACCTCAGGTGATCCACTCACCTCATCCTCCCAAACTGCTGGGATTACAGGTGTAAGCCAC
TGTGCCCAGCCCCAAGACTGAGTAAGGGGTGAGCAGAAATTCACTGGTTCACAGTTCTGGAGGCTGGGAAGTCTCGTATCAAGGTGCCAGCATCTGGCCA
GGGCCTTCTTGCTGTGCTATCCCATGGCAGAAGTACAGAAGGGCAAAGAAAGAGGGCTGAACTTGCCCTTTTATAATGGCACCAACCCCACCCATGAGGG
TGGAGTCCTAATGGCCTAATCAGCTCTCTGAGATCCCATCTGTTAATACTGTTACAATGGCAAYTAAATTTCAACATGAGTTTTGGAGGGGACAGACATT
CAAACCATGGCAGGTGGCAAGAAGTATCAAACTACTAGATCCTTGGGATTGTGCTTTGTACTGGGGTGTATTTTTTCCAACAATCCTAAAAATCATTTGA
ATAGAGATAGCAATATATATCTTACCCATTTGGAAATGCACAGAGATTCAGGAGTGTTCACATAGAAACAGAAGATCATTGGCTTTTGTCCATTCCCAAC
GCCAGTGATCTGTTTTTCTTGACTCTTTTTGATCTGTGTTTCTGAATGTGTTGATATACTGCGCTACTGGTGTGCAGGATGATTTTAAATGTTGCACAGA
TGAACATTAATAGTCATCTATTTTAATATGTATTAGGAAAAAGCCCATAAAACAATGAAGCCCATTAAAACCCCATGGTTTCTTGGATAGTATTACATAG
GGTGAAGCTAATTTTATTTCAGTAAAAAATATGCAGGTCAATTTAAATAAAAAAATAGATAATAGTATAAATGKCTTGTGGCTACAGTAAAAATGATGAT
GGTACTTGAATGTCCAAATTAATTTAAGTGATATATGTGTTCATAGATACCATTTCATTTTAACGTGGTTCTGCTGGTCAGAACAGTCTTACGATGGGGG
TGGTCTCCAGGCTTCACCTTGTGCCCACTGGCTCTGTTTGGTTCCTCTGGGCTCACACACAGGGAGCTACGTATGTCTCTCTCATTTCCTTTGGTATGTT
CTCTGGGTTAAATGTCCCCAGCTRTCTGATCTGTTCCCTGCGGGCCTTGGCCATTCCTGTCCTGGCCTTTACTGGCAGTCTCTATTCTAAAATGTGGGCA
TCCCACATGAGGTCCAGCTTCTCCTGAGATCCCYGGAGGTGCAGCTGCTGTGATGGTGACCTTGTTTAGCAGATGCTCCCTGCAGTCCAAACTCCCACCC
ATCGTCCTGCCCTTTGATCCATTTCCCATGAACTGCTTACCTCAGTTTTCTCATCTGTAAGATGGAGAGATAACTGTAAGTGCTTAGCACAGTGTTTACT
AGCACAGACTACTGCTATTACTGTCAAGTCACTTTTCCTTTGCTGCCAATAGGTCATTTTCTGTTTATGGCTTCTTCAGTATGAACTGATCAACTGTAAC
TTGAAAATTTCCAGACTTAGGACTTTTGGACTCATAGTGAAAGGATCCTTTCCCAATTCCCTTGATCGGTTTTTCCTTTAAAAAAAAAAAAGATATTTGA
CATCTTTTCACTTTCAAGTTCAGTTTCTCTTCTCCTTTTTTTCTGGGTGATGGTTTATTATTTAAAAAATTTCTATGTATATGTGATTTAAAAGTAAACC
CACGTAGCTGAAAATGTCTCATAGGTTTTTCTTGCATTTTCAGTTGACCCATTCACTTTGCAAATCTTTAGAGTATTATATTTAAGACAGCTTGCAGCTG
TTTTCTTATATATATTTTACATGACAAAATTATATTTAAAACATATTAAACTTTAAAAAACCATAGTTTATAATTTATAAGCCATGTAGCATATTTCTRT
TTTTGAGACAGGATCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGCTCGATCATGGCTCACTGCAGCCTTGACCTCCTGGGCTCAAGTAATCCTCCTGC
CTCAGCCTCCCAAGTAGTTGGGACTACAGGCACATGCCACCATGCCCAGCTAATTTTTATATTTTTTGTAGAGATGGGGTTTCACCACGTTGCTCAGGCT
GTAATTTTTAAAAACTAAAAAAAGAAAAAAAAGTGTTTACAGGACTTTAAATTGAGAAACTTAAATATCTTTACATATTCTGTGTTCCTAATTTATTTTT
GCAGCAGTAATTATTTCAGCTGTCTTTAGTATTGACATGTTGGAACCTCGGATTAATTTGTGCATGGATATATTTAGAGCCTTTTACTTGACAAGAATCA
TGTATATCATGACTGAATTTGTAATTTCCCAGCATGAGACCCAAATTAATAGACAGTATTTAGATTCTAGGCAACGATGCATTATATAAACCAGCATCAT
TTAGGGAGTGGCAAAGACTCTCTCCCCACCAGTTCTGTGAACTTGGGCAAGGTGTGTAATCTTTCTGAGCCTTAATCTAATTAGACCCTTTCTCCTGTAA
CCCAGAGGGGGTGTTAGTAAAGTTGGTGTGAAAAAAGTCAATTATTGTACTGATGCAATTTGGGTGAAACTGTGAAGTTCAGTGTTCACATGATGGTTGT
GGAGACACTGAACCTTAATCCTTAGGCCAGGGATTCAAAGTTTTTTTTGACTCTCATGTTGAACGTTGTCTAAAGTGCAGTGTGCCCTAGTTTTTAGGTA
ATTCTGAGAATTCTAAGGCCCTTGCTGGAATAATTAATGAGAATATGAGATTTCAGCAAATTAGGGCCAGGAGTCAGTGCTCTCAGCATGGAAGAATCTC
ACCTCCAAAAATTTTATGTGGGTTTTACACATTAAGCAAGCATAGGTGAGGTGCAGTGAAGGGGAAGTGATGGCTGTCAGTCGTTTGGCCAGGTTCCTTT
GCATACAGGGGAGCTAGTGGGTGTATACCAGCTGAGACAGCTGAAGGAGGAGAACATGAAGAATAGTTGGAAACTATTGAACCTCCAAGATTTTTCTGTC
TTTGTTAACAACTAGCAGTTACATGCTAGCATTATTTATTTATTTATTTAGTTAGTTAGTTAGTTCTTGAGATGGAGTCTCACTCTGTCACCCACGCTGG
AGTGCAGTGGCATGATCTCAGCTCACTRCAACCTCTGCCTCCTGGGTTCAGGTGATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGGGCCCG
CTACCACGCCCAGCTAATTTTTGTATTTTGAGCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTGATCCCCCTGCCTCGGCCTCCCARAGTGCTG
GGATTACAGGTGTGAGCCACTGTGCCTGGCCTTATTTATTTATTTTTGAGACAGGGTCTCACTCTATCACCCAGGCTGGAGTGCAGTGGTGCAGTCATAG
CTCACTGCAGCTTGGAACTCTTGGGCTGAAGTGATTCTTCTTCCTTAGCCTCCCCAGTAGCTAGGACTATAGTGCCACCATGCCTGGCTAATTTAAATTT
TTTTTKTGTGTGTGTGTGTGGTGGAGATGGGTTCTCACTGTGTTGCTCAGGCTGGTCTTGAACTCTTGGGCTTAAGCGATCTTCCCATCTTGGCCTCCCA
GAGTGCTGCGATTACAGGCGTGGGCCACCACACCTGTCCTGTGCTAGGCTCTTAACGTCCTTCCCAGATGTTATGTCCCTTCCCTTGGTGGCTGCTGCTT
TCTGCCACATTTTACCTTGCCGTTCCGCACCTTCTACCATGTCTCCTTTTCCAGCCTCATTCCCTGAGATGTAGCCGGAGTTCCAGTTCAGCCAACCTGC
CCGTTGTTTTCTCTCCTGGARCTGGGTGTTTGAGYCTCCTGCATGGAGTGTTCTTCCTTCCCAGCTAAAGTCCTGGTCATCCCATTTCCATCTGAAAGGC
CCCCTTGTTCATGAAGCCTCTCATGGTCCTTCCCCCTACCCCAGCCAGGTATACTTTCTCTCCTCTTGGAATTAYCCTATAGGAAGAACATGGTGGCTTG
ACCTGGGTTCCAGTCTCACCCATCTGTTTACCTGGGGAGTGATCTTGAGTGGGTCAATTTATGTTCTCAGTGCCTTACAAAATGGGGCAGAGGATACCTA
ACCCCCAGGAGCTGGTGTGGCTGGGGTACCTTACACAGGGCCTGACTGTAGTAGCTTCTCTCCAAGCATTGGTGTCTTACCTCTTCTGTTTCTCTAATGG
TGTTTTGCACATTCATTGTTGTATTAGAGTTTGTTTTTTTGTCTTACCTTGTTTTAATAAATTATAATCTTATGGGAGATGACACTGTCTTTTCTTTGTT
TCRTATATAAAAAGTGTTTTGCTGATATACGTAGAATCAAGTTGGTCTGGAGTTACTCTGGATAAGGGATGAAATCAGGGAGCTCTTGTGTTCAAAGGGG
CCTTCTTCCCTTTTTTGGTTCTTTCTCCTCATTTTTTAGCTTCCATTTTTACTTCCTTTAGTATTGAGAAAGTACCAGGCTCACTTCAAAGAGTTGACTT
CAAAGCTCCCACCAGCTCAGAMATACTTGCSACTGAAGCCTGTAGGAATTGGCATCAATGGAAGACCCTGTGGCGGTTGCATTTAAGATTTTTTTTGGGA
CTTCTATTTTTATAATTCTTTTAAATGGTAAAGGRGGAGGGTTACAAAATATCTGCGCCTTTAAGATATCAAACATAAGCCAGTGAAGTTCCAAAAAAAA
AAAAAAAGATGTCTTAGAGAAATGAAAAGGATTTTACAATTGGTAGAAAAGAACAACTCTTTTTTCTTTTTCTTTTTCTTTTTTTGTTTTTGAGATGGAG
TTTCGCTCTTGTTGTACAGGCTGGAGTGCAATGGCGCCATCTCAGCTCACYGCAACCTCCACCTCCCCAGTTCAAGTGATTCTCCTGCCTCAGCCTCCCG
AGTAGCTGGGATTACAGGCACGGGCCACTATGCCCGGCTAATTTTGTATTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCC
GACCTCAGGTGATCCACCTGGCTTGGCCTCCCAAAGTGGTAGGATTATAGGCATGAACCACTGTGCCTGGCCAAGTCTTTTTTCTTTAAAAAAAAAAAGG
TTACTTTTACTGTTTTGTCCTAGTTACAAGATCTTAGGACAGAAATAAAGCCTTAACTTGTATGTAACATTTTCCAAGATGGCTAAGTGGAGTTGCAGGT
TACATAGCAGAAAACAGAGGCTTGGGCCTGTTGAGACCTCACACCCAGTTCTTCTTGGAGCTGTGGGTGTGGGCTGAAAGAGAAGACAGGGAGATTAAAG
ACCAGTGATTTCCCTCCATGGACCCTTTGATGCTCTTGTTTGTTGACTTTTTGAGGCTTGGAGTGACCGACTCTTCCAGGAATGAGAAATGGAATCCCTC
CCAGTTTTGATGGTCGTCCCAGGACATATTTCCTGAAGGCCTACTCTGTGTCTCAGCACCATTCCAGGACTCCCCCCGACAGCCTTACGGAGCGTGCTAC
AGTCTTCCTGATCCAATATCCTGCCACCTGCCCACTCATTCACCCTCGGCCCTACCCCATGCCTTTGCACGAATCTTTCCAGCCTGAGCAGCCTGAGATG
GGTCTTTTTCCCTGCTCCGAAATCCTGACCTCATAATGGCTCATGAATCCCTATTCAACCTTCAAGACCTGGTTCAAGGGTTAAATCCTTTAAGGAGACT
TCTCCTGATTTTTCCCCAGCTGGTTGCTTTGTTCTCCAGCGATTTGTAACCTTGTGAACAAATATTCTACTCATTTTATTCTACTGGAATGATCTATTTA
CACTTATCTCCCTGCAAATTGTATCCTGCCCTTCAATGGCTAAGTGAATGGCATAAACAGATGCTATAGGAATTGAGACTAAGTTGGAGCTGGGTGATCA
GGGAAGGTTTTAAGGAAGAGATCTGGGACAAATAGCTAAAGATGGATTCAGTGTTTTTTTTTTCTTTTTCTTTTTTTTTTTTTGAGGCGGAGTCTTGCTC
TGTTTCCCAGGCTGGAGTGCAATGGTGCGATCTYGGCTCACTGCAACCTCTGCCGCCCAGATTCAAGCAATTTTCCTGCCTCAGCCTCCCAGGTAGCTGG
GATGACAGGAGCCCACCACCACGCTTGGCTAATTTTGTGTTTTTAGTAGAGACAGGTTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAG
GTGATCCACCCACCATGGCCTCCCAAAGGGCTGAGATTACAGGCATGAGCCACCGTGCCCGGCCTGATGGATTCAGTTTATGTGCAAAATTTAAGAGGAT
GGGTTTCGGCAGTTCAGGTTGTTAGGAGACAAGGGTGGAAAGGTGTCCTGGAGCCCTACAGAGATGGGCTTCAAGTGCCAGCCAAGGTGTTTGACCATTT
TTAGAAGAGGAATGAGATGATTAAAGTGGAACTTTTAGGAAGAGTAGGAGTGAGCGGGATGGATTTAAAAGGCGGAGTGAGAGGCATCAGGAAGGCTGGG
TAGGAGAGCATTGCTACAGTCTAGGAGGGAGGTGGCAGGGGTGTAGACCAGGGATCACAAAGCAATGGCTTGCCATCTGCTTCTGTATACCCAGAGAGCT
AAGAATGGTTTGTACCTTATTAAATGGTTGAAAAAATCAAAAGAATATATGCTGTGATATGTGGAAATTCTGTGAAATTCAAATGTCAGTGTCTGTAAAT
AGTTTTTTTTTTTTTTTTTTTTTTTTGTGGAACACAGCCATACTTTTCATTTATGCATTGTTTGTGGTTGCTTTCACACAATCATGCCAGCCCTGAGTAG
TTGCTGCAGAGACCATATGGCCTGCAAAGACTAAAATATGTACTTATGTACTATCTGGCTCTTTCCAGAAAAAATCAGCAGACCCCAGGTGTAGACCAAC
CAGGGTGAATGAGTGTATGACTGGAAATGCAAAGACGGGCAGGATCAAGGGACAGTTTAGAGCAGGGGTGTCCAATCTTTTGGTTTCCYTGGGCCACACT
GGAAGAAGAATTGTCTTGGGCCCCACATAAAATACACCAACACTAACAATAGCTGATGAGCTAAAAAAAAAAAAATCACAAAAAATCTCAAAATGTTTTA
AGAAAGTTTATGAATTTGTGTTGGTCTGCATTCAAAGCCATGGTGGGCTGCATGCGGGCCATGGGTTGGCCAAGCTTGGTTTAGAGGCGGAYGCAGTACG
GGAGAGTTTTCCCTTCTCTTCTGATGTAACTCCATGTCTTGGTGGCGGTGTTCTAGATGTAGGCATCTTTAGGCAGGGGAGTGTGCGTGGAAGGGTGAAA
GGGTTGTGCCTTCATGACGCTCGTGTGTGTGTGTGTGTTTGTGTGTGTGAGTGATGCTGAGCTAGTCTTAGAGTAAATGCAGACACTGGATGGTAGCGAG
TTCAGTGCAGTTTTTATGGAGGGACAGCTTGCTGCCTGCTGATGAAGCCGGACAAGACTGGGTAGTGAAGTCAAAGGCCCACACCTAACTCTGAGGCTCT
TGGGGGCAACTGTGTTGTGCAGAGAAGGTAGGAGGGCAGAGGAAGAGGAGGAGCGGCCCCTGGGAGAATGCCTTCTACCCAGCTGCAGCTTCTCAAGGGT
GTGTTTGCGTCTGACCTAAGGTGTTGGAGCTCTTTGTTTCTGGCTGTGTTCAGGCTTTCCCCCGCTTGCCTTTAGGGGAAGCTGATGACTGCTTTAGCGT
AAAGAGAGGGCCAGGAGGTCAACTTCCCTACAGTCCCGTGCCTGCTTCTGGGTTGGGGCTGGGGAGAGTGCTGCCCACTGAACTCTCTAAATGTTAAAAG
ATACAAAGAGGAAGCACAGAGTGAAAAGGGAGACCCCAGAGGACAGCAGAACATCCCGAAGCATATCCCCCATCAGAGAAGAGGCATGATTTTCACCTGG
CTTGCAGGTGCAGGATGGGCATCTCAGATGCTGTGAGTCTGAGGGCAGATGCCCATCAGTCCAGGACAGTTCCTGGGGACAAAAGCCTCTTCTCACCTTT
AGAGAAATTAAGTCWTATTGGTAGAAAATATTTTAGAGAGGTTCTGGTCTAAGCCTCTCATTTTGCAGATGAGAAACYACCCAAGGCCCAAGATGGATGG
ATTTATCAAAGCCGGTTGGTRCTGGAACTTGGATTTAATTTCAGGTCTTTTATTATTACTATGGAACAAATCTTAACTTTTTCAAGTGCATACCATGTGC
CCGGCTATGTGCTGGATGTAGATGCTTTATCTGCAGGTTTAATCTTCACTACAACTATGGGAAGTAGCTATTGTCTCTCTTTTGCAAGTGTGAAGAGTGA
GGCTTAGAAAGGCCAACTTGCCTGTGATCGGGTAACTCAAGAGGGAAATTGGATCAGAGTCCATCTGAGACTGACTCCAGAGCCAATGTTCTTAGCCAAT
AGGGGCACATAAAACTGTTCTGAGTGGCTTCCTAGCTCCTGTTTCCAGTGTCCAATCCATTCTCGGTTTCTGTTCATTCATCAGATGTGCACTGAGTACC
TGCAAGAAGTCAGAAGGGTGTTGGGTTGGTGAGGACAGATTGTATACCATCTTGGCTTTGGCCGAGCCAAACAGAATGCCAAAGATCGGCAAAGATAGGG
AATGATTGTTCTTGGCCTCAGCTCCACGCTCCCCTCCTCTGTAAAACTGCCCCTGACACCCCGGCAGGATTGAATTCCTCCACCTTTAAGCTCCCAGAGT
ACCTCAGCTCTGTCTTTAGCACTTCACACTGTGTCATGCCTCCCCTTGGGCCCTAAGGCCAAGAGCATGTGCCATTTATTTTTGTATTCCTACTTCTATA
GCCCAGTGCATATTGGGGGCACTCAGGAATTGTTGAGCGAATAAAAGAATGAATGAATACAGACCCAGATTGTCAATGATTCTCAAACCTTATTTTACAA
AAGAATCACTTGAAAAGCTGGTTAAAGATCAAAACTCCTGAGCCCTACTCCTGGTGATTGACTCCTAGGTTTGGGGTGGGACCCCAGAATCTGAATTTCC
CGGAAGCGCCCAGGTGTTTCTGATGCGGGTGGTCTGCAAACCACACTTGCAGCAACCCTGGCACAGGTGCCCAGCCTTCTGGAATAAAGACAGGAACTAA
GCATTAAAAATAGCACGCCATTCATTTGCTTGTGCCGAGCCGCCAAGTGCCCCCTCCTGCYGGCGACAGGTCCGGATGTGGGCCAGTTCTCAGCCCAGGG
AAAATGAACAGTGTCTTCTCCRTGGTGCCCAGAACAGTCTGAGTCAGTGGAATGTGCTGGCCAGTCAGGCAGAAGGGAACTTCCACTTCTTTTTTAAAAC
CTTGGTGGAAACTGTGCTGGCAAGGCAAACAGGGAGGAGAGGAAGCTCCATGTGGGGCTTGGGCTTGGCGGACGACTTGGGGCTGGCCGGACTTTGGGTG
GCCGCCGAGGACCATTGCTAAATATGCCCCTTTCGTCCTGAAATAGTCACTTCCCCGGCTGGCTTTTGTGTTGGTCGGTCGCCACAAATGTGTGGCTGTT
GTTCAAGGAGGCCTCCTGGGATATAAAAAGAGAGAATGGGGCCAGGCTGCGGCCAGGGCTGTGTAGGAAGACAGGAGAGCTGCCTTTTCTCCTGTCCCAC
CACGGACTCATTGTAAGATTCAGAGGGAGTGGCTTCTGGGCCCTGGGTTTACTTTTCCATCTGTAAAATGGGTGGGGGGAAGGGGCAGCATCATAAAGCT
TCTTTCTTCTCCTGAAAGGGATGTTTTAAGGCCCATGTCAAGATTGAACACAGGGCTCTGTTGTTGGGCTGATGCTACTGATGAAGTCTCAGGAAGCTCG
AAGTTTGTAGTTAACTCTTTCAGGGTAGATGTGGTGAATAGTCTCTTGGTATTGTGTTGATGGTGGCCCACTAGAACAGAAGGTCCCAGAGGGCAAGGGC
TTGGTCTTTCTTCTTCCTCTCTGTATCCCCACTGTTTAGAACTGGGCTGGGTGCAGAGTAGTCTCCATAAATGTTTATGGGGCCAATATCTCCAAATATT
GGCACCTACTAAGCGTCAGTCCCATCTCTCTTTTGTCTTCTTCACAGGTTTAACTTGCTGTTTGAGAAGAGGCGATATGAGGAGCAGGGCATTTTTGGAG
GAAGAAACTTTACCTCTGTTTTCAACGTTTCATCCAGTTTCTCTTCTTTTTACTTATTTGGAGACATGGTCTTACTTTGTTGTCCAGGCTGGAGGCTGAA
GTGCAGTGGCACAATTATAGCTCACTGCAGCCTCAAAACACCTGGCCTCAAGTGATCCTCCTGCTTTAGCCTCCTGAGTAGCTGGGACCACAGGCTTACA
CCACCATACCTGGCAAATTTTTTTTTTTTTTTTTTTTGGAGAGGCAGAGTCTTGCTCCGTTGTCCAGGCTGGAGTGCAGTGGTGTAGTCATGGCTCGCTG
CAGCCTCTGTCTCCTGGGCTTAAGCCATTCTCCTGCCTCACCCTTTGAGCCTCCTTAATTTTTTATTTATTTATTTTTTTTTTGTAGAGACAGGGTCTCA
TTATGTTGTCCAGCCTGATATKGCTATTTTTTTTTTTTTAATGGCGATGTAGTAATCTTGCTTTGTTGCCCAGGCTGTTCTGGAACTCCTGGCTTCAGGT
GTGTGCCACTGTGCCTGGCCCAGTTGCTCTTTACATGGTGGAATATCAGAGGTTAAAGACTTGGTAAAAATTCATGCGGTGCAATAAACCATGTATTACA
TAATAGGGGTGACACTTGTTAACTTCTCCCAGGCTCAGTTTCCTCATGTGTAAAATAGGTGAATAGTATCTACCCTCCAGGAGTTGTACAAGGCTCATGT
ATACATAGTGTATGTGAATGTGCTGTATGGGTGCAAGGGGTTGCAGAAGTGATAATGTGTGTAAACAGATGGTGTGGTTGGCTCATTGGAGGGGTGGAGG
CCCTAAGTGGGATGACCTCTGAGGTTTACTCTTCCTAGAGTAGTTGGAAAGCAATTCAGCCTCAGTGGTAAGCTCTCAGCTCTTCTAGGGCAGGTCCCTC
TTCCACCACCCTGTGTCTGCAAGCATTTTGGTATTAAGTTGTTTTTCTAAGGCTGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTTGGAGGCCGA
GGTGGGTGGATCACCTGAGATCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCATATCTCTACTAAAAATAAAAAATTAGCTGAGCGTGGTGGT
GTGCGCCTGTAATCCCAGCCAGCTACTTGGGAGGCTGAGGCTGGAGAATCGCTTGAACCCGGGAGGCGAAGGTTGCAGTGAGCTGACATCATGTCATTGC
ACTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCAAATAAAAAATATTATTTTTCTAAAAAGCTCTTATTTTATTGTGAAACACTTAAATTAGCAAAT
CTCAGGCTTGCTGAATAAGGCTTCCCAGGCAAACCACATCCCACATGTGCAAATGTCTGGTGACACAGTGCTTCATTTTTTTCCACTAGTACTTACTACT
ACCTGACATTATAGTGTAAGTTTACTTGTCTATTTGTGTATGGTCTGCCTCTCCTATGAGAATGTGAGCTGCATGAGGTCAGGACATTGTTTTGTTCACT
CATGAATTCCCAGCACCCAGGACAGTGTCTGGCATGTAGTGAGTACCCAGTAAATATTTGTGGAATGAATGAATGAATACTTAAGTGGGTGGGAAGTTCT
TGGACCTTAGTCTAGACCCATGGTTCTCAAAGAGTGGTCCTGGGACTCTTGGGGATTCCTGAGATCCTTTTAGGGATCTGTGAGGTCTGTGAGGTCAAAG
TATTTTTATAATAATAGTAAACTATTTGTCCTTTCACTCTCATTCCCTCATGTATGCAAATCTCAGTGAACTGATATTTTCCAAATAACCAATGCATAAG
GCCACAAAGCCATGCAGGGTAAAAAGAGCTATGAACAAAAGTTTTCTAGAGAAGAATTTGGAGGAAAGAGAGTTTATTCTAGTGAACAGATCGCAAACTG
GGAGATGCTGCGTTGGTGTAAAATGAAGGTGCATTCCAGAGAGCAAAGAGAGAATCTAGTTTTTTGTTGTTGTTGTTGTTTTGTTTTTTAAATTTTGAGA
TGGAGTCTTGCTCTGTTTCCCAGGCTGGAGTGCAGTGGAGTGGCGTGATCTTGGCTTATTGCAACCTCTGCCTCCGGGTTCAAGCGATTCTCCTGCTTCA
GCATCCCGAGTAGCTGGGACTACAGGCACTTGCCACCACGCCCACACACCCTACTAATTTTTGTATTTTTAGCAGAGACGGGGTTTTACCATGCTGGCCA
GGCTTGTCTCGAACTCCTGACCTCAAGTGATCTACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGGCAGAATCTAGGTTTTTATAGCAAAAT
TTCTGGCCCATGTCCCCAATCAGGTTTGATTATGCAAATGAAGGGGGCGGGTCAAACTTGCTTAGTTCTGATTGGCTGACACAGCTGAGTTCTGATTGGT
GATACAGCTGAGCCCTGATTGGTTGATACAGCTGAGCTCTGATTGGCTGAAGCAGACGAGCTCTGACTGCTTGGTTCATGTGAGCTCTGAAAGTCCCAAG
TCAAAAGGGTGTGGGGTTTTGGGAAACTCGGAGTACGTAGTGTGACCTCTAGTCAGCAAATGGCCACTTGGCTGTATTTTAAATTTAGGTACACTTTGCT
GCTTGGGGTCCATCTTGAGGGGATTGCCTTTTTYAGGTTCATGTTTGTTCACAGAGCCATTCAAAGTGCAGTGGATACATTATAAATTGTACAATTATTT
GTAATTAAAAAAAGAACAACAGCAAAAAACCCAAAGTGCARTGGATGCAAAGACCAATGGATTTTCATGTAACAGAATATGAAAAGTTCACCGACACAGT
TTCACATTCCACGATGCAGAGAAGTTTTTAATAACTGCCATCCACATGTTGAGTTTTGGTGTAACAGCAAAGAAAAATATCCACAACTACTGAAAAGGCT
GAGAAAATACTCCCTTTCTCAACTGCATGTTTTTGTGTGAGTCCAGAATTTCTTTACATTATTGTAACAGAGTGAACGCAGAAGCAAATATGAGAATCCA
GCTGTTTCTTACTAAGCAGACATTAAAGAGATTTGCAAATATCTAAAATAATGCTATCTCTCTCACTTTTTTTTTTTTGTATTGGAAACATCATTTTCCA
TACAATGTCATTTATGTTAACAGGTGACAGATTTATTTATTTTTATTTTTTATTTTTTTGAAACGGAGTTTCACTGTGTCACCCAGCCACCCAGGCTGGA
GTGCAATGGTACAATCTTGGCTCACTGCAAMCTCCGCCTCCCGGGTTCAAAGGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCGC
CACCACACTTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGTCT
CAGCCTCCCAAAGTGCTGGGATTGCGGGCTGGGATTGCGGGCATGAGCCACCATGCYCAACAACAGATTTATTATAAGCAAAAGCTCTTTGGGGTCCTCA
ATAATTTTAAGAGCATAAAGGAGACCAAAAAGTTTAAGATGTGCTGGTCAAGACAGAGCCCTGTGGACTATGGAAGGGATTGAAGCCATTCTGTGGATCC
TATAGGCTTCTTTTCTAAGCGAATGATTAGTGTTTATTCAGTARCCCTATGTCAGGTGGTTTCTGTATGAATGAGAGGTTTGCCTTTCCAGCTGCGGCGG
GGCTTTGGGCAAGTTGCTGTCTCTGTGCTCCTTCGTTTGCTCATGTGTTAAAAACTGGCCCAGGGGTCTGGGGGTGGGGTGGTAAGAAAATGGGTTGAGT
CTCCTTCATCTCTAACATTTTCATGTTTAATTCTTGGAACCTCCACTTGTTAGCTCTGTTCACTCCTCTGAAAGAGATTGGTGAGAATTGAAACAGTGAA
AGAAGATTTTAGAGAAAAGGTGACATGTAAAGCTGAACAAGGGTTGCCTGTGAGGCAGGCAAAAAGGACATTTATTATATTTAAAAAAAATTTTTTTTTT
GAGACGGAGTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCATTGCAACCTCTGCCTCCCGGTTCAGCGATTCTCCTGCCTCAGCTTCC
CGAGTAGCTGGGATTATAGGCACACACCACCATGCCTGGTTGATTTTTGTAGTTTTAGTAGAGACGGGGTTTCACCATGTTGACCAGGCTGGTCTGGAAC
TCCTGGCCTCAGGTGATCCACTCGCTTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCCAGAAAGGACATTTATATGTGGGG
ACCACTGCATCTTGCAGATGGGTAAACTGAGGTAGCGACAGGTGAAGGCTCAGTTACATTCATCCTGGGTCCCAGACTGTCTCCAACCTGTAGCCTGAAG
CTTTGTTTCCTTCCTCCCTAGCCCAGGATGACAGCAGTGACCTTCCATGGGATCTTTTCCTGGGATTTATTGAGCCACTGAGGTCATTGGCCTCAGGCCA
CCTGCGTCTCTCGACTGACCAGTTATTCTTCAAGGAAGACACTGTGTGTGTGTGTGTTTTAGTTGCTCTTCTATAACTTCCGGGTGCTCTTCTCAGAGCA
GCAGTGCTTTAAAAAATGTCTGTGTGTGTATTTCCCCACTTTGAGCCATGAAATATGTTCAGTCTGTTTTTTTTCTAGTCCAAAGTATTTCCATATCATT
GTGCACCTGAGGAAATGCATACTTTGATAGAAAATGGACAAAAAAGTTGTATTGGTAGAATTAAATGAACTAATGCATGTCAAGCACTGAGCACTTTGAC
TCAATAGTAMTAATAATAATAATAACACAATGTATCATTATGATAGTGTTATATCTCTTTAGCAATCTTGATAGTTGACTTGTATAATTCACAGTACAGA
AGCTTATTCTAAAACTAAAATGCTTTGGTTCTCCTGTGTGCCAGGAACAGCAGTAAACTTTATGTCCTAAGATTAGTATGGTTGGAAATGCATGTGGCAG
TGGTTCCCAAACACTGGTGTGYAGATGGAACACAGCCCGTGAAGTTTTCAGCGGTCCTTGTTAAAAAGAGATAAAGGAAAGAGATAAAGGATAAAGTGCT
GAGATTCTCGTGAAGCTAAATGAAGCTAAATAAACATCCTTCAATGAGAATATGTCCTTCCTATAGTTTTTGGAGGAAAATATTTCCTTTTGTGAGACAA
AAGTGTTAGTAGGTGGTAAGTACTTTTTATTTAGCATAGTACAAAGTTGTGGCCCTCTGTCAACCCTTCACATTTTGGTGTGTGTAATGTTTGAAACTGC
ATTGGTCTGTAAAATCCCAAACCCAGGTAGATAAAACCAAGAAGTGACAGGGCTGGAAGGGATCTTAGGAATTAGTTCATAAAGAACTTCAGGCTCAGAG
AAGRCATGTGAGTTGCCTAAGGTCACACAGCAAATCTGAAGCAAATCAGGGCTAGAAACCCATAGACGATGGTCATGAGCACTGGTTTTGAGTCATCCAT
TTGAACACACCTGTGTTCAGATTCTACCTCTGTTACTTATGAGCTGATTTCTTACCTGTGAAAGTGGGATACCTACCCAAGGGGTTCACGGGAGGATTTA
ATAAGATGATTTGGATTAGGAAAAACTGACAAATTTCCCCTTCCTTCTTCTCCCTGCCTTCCCCTCACCTGTTAATAAATAGATCCTTGTGAAAGGTCAG
TGAGCAGCATCAGCCAGAAGGGCTTTGTTTTCAGCAAGGTCCCTGCATGTATGATTACAATCCTAAGTAATATCAGCTGTTGCTTGCGTTGGTTTCTCAG
CTCTCTCTTGGTGATCTCTCTCTTTAGCTGTTGAATGAGTTCAAAGATCTGGGAAGAGCTTTGAAACCCCTCTAGCAGCATTTCTGTCTCCAGTCCCAGC
ACAGGTCTTTGGAGGATGAGATAAAAAGGGTTTTGCCCAGGGTCAAATGCTGTGTACACGCTTGGTCACTCTTCCCTTTCTTGAGATGACATGTCCCCTT
CTTGGAGACCCAAGATGATTGACAACAATAACATTCCTTTACAACRTTTTCTTCTCATCTAGAGCACTGGGAGGCTGCCTTTTAACAGAGATATCACAGA
GTAGCAAGCATGCAGACATTCTCATGACATCCTGGCAGATATCAAGACCAAAGAACATCCCATGTTCCCTCTTGAAGGCTTGTAATAACTGCCATAAATT
RTCTTGTGGGAATGGAGTGGCCCTGGCCTAAGCTGTGCTGTACCGGACTCTCCTGGTGACAGTTTTAGTGGCTGCATATGTTTGCAGAAGAAGGAAGCGT
GGTAACTTGGCAAACAGCTCCAAACGCTCCTGGCTTGCTGCCACAGGATTGTCCTTGAGACTTGGGCACAGTGATGTGTGAAAAATGCCCACCTTTGCTC
TTGGTGTCCAGTGGGCCTTCTATGGGCCCTCTATAGAGGTCATCACCTGGGGATTCCTGACTCTGGCCAGGTCCTGAGGTCTTTCCATGTTACTCTCCAT
GTTACTTGAGTAACATAAGAGCTTCTTATGGCTCTTATGTTCTGCAGGACGGATGAACTAGGTACCCAGGACAGGTCTGTTTGTGCACAAGGCTGTCTCC
TTCTCCCCCTCCTTGGTTTYTCTACTGAGGCTTTGTTGTGCTTGGCTCAGGGTGATGTTAGCAAATGCACTCTCCACCCTGCTGTGCCACATTAAGGAAA
CGCATGTTGTATTGGCTTCTGCCAAGTCAGCTCACATGCTTTGTTTTAGTGACTCTGTGAAGAGCTCATCATCTATTATTTATTCAGGTAACACACTTCT
ATCTCCTAATTTCGGTGCTACTCCCATTTTTCATCCCCGGTTAGCGTGCTGTGCGGCCAGGAGGGCTGCCTGTTGTCTTTAAGAACCACTTTGAACATTT
TTGCTTTGGTTATTTATTCATACCAACATGTTGTTGTTAAATGACGTGAAATAAAACCCCATTTTAAAAAGAAATTGTAAAAGGAAGCTATGTCCTGTGT
GGAAATCATGACAAGCCCAGAAACATGTTACAAAAACATTAACCAGGAGCGGTGGCTCACGCCTATAATCCCAGAACTTTGGGAGGCCAAGGTGGGCAGA
TCACTTGAGACCAAGAGTTTGAGACTAGCCCGGGGAACATGGTGAAGCCCATCTCAACTAAAAATACGAAAACTATCCAGGCATAATGGTGCAGGCCTGT
GATTCCAGCTACTCAGGAGGCTGAGGCAGGAAAATTGCTTGAACCCGGGAGGCAGAGGTTACAGTGAGCCGATATTGTGCCACTGTACTCTAGCCTGGGC
AACGGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAACAAAAAAACCCCACACACAACAAAAAATAAATATTGCCTGTACCTATCACCTGAGGAGCCCAT
TGTTAATGGTTGTGTGTCTTTTTAGTCTTTTAAAAAATGTGTTAAAAAATGTAGTTGTCATAATGTCCGTATATAAATTTTTAAGTGGAGTTGATAGATT
TCATTTGAAGGGCTGCTGTGTCATAAATGTAAAATGCTTAGCAAGGTGCTTGGCACCTGGAGCTGTTCACAGTAAATGGAAGGAATTTTTATGGAGGGTG
TAAGGTAGAGTGGGCTCCTGAGCCAGACTGCCCTGTTCCAGGCCTGGCTCTGCTATATCTGGCTGCTAGAGCCTCGAGCCAGCCATTGAAGTGCAGTGCC
TTCATTTCCCCACCTGTAAAATGGGGGTAATTATCATATACCCCAAAGTGCTGTCATAAGGATTTAATGAAATATCCCATGTAAGATCCTTAGAGCACTG
CTGCCGGATGGTCATCTCATAGTAGGTATTGGTTGTTATTATTCAGGAAAATGTTGGAAAACACATTTTTAAACAAAGCTGGTGTTCAGTCCCCTCCCTC
CCCCCAACCAAGGAAACTCTCTTTAATTCCCAGTCTGCTGTGATTCAGTGCTGGCCTGGGAGCAGCCCTCGAGGGCAGACACAGCACTTGTCCCCTACCC
AGCACAGCACCTGCCTGTGCATCCTTAGCTGATGAATGAGGCTCACAGCCCCAGGCGCCCTGCATCCTTCCCTTCTTTCTGGTACCCTCTTTTGTCTCCT
CCAAACACTTGCTACTCAGGCTTCAGGGAGGAAGTAGGAAGTAGGAGGTGGTTTCTCCCTCCCAGACCCCCAGCTCACACTGGTCTTGAAGGGCGTGGCA
TCTGACAGAGCCCGGTGGCTGGTTTTCACGTGTCTCCTGAAGCCACCCCTAAGGAGAAGGCTTCGATGTCATCTTCTGGTCAGAGCCGAGCACAGTGGTC
CTCTTCAGAGACAGATCCRTGCAGCAGGATGGCACCTCTGTTGTCCTCCCAGACTAGCAGTAGGTACACGTGGGCTTCGCAGGCTGTTTTCTGCCCTGGA
ATGCTGCTGTTTTTTAGACCCAGCATACCTCAGTGTCAGAGAAGGCTGGTTTGTTTGAAACGGTCAGAATGTCATAAATACCTTATGATGAACATTTTCC
CAATTCGCTTAAATTCGAGAGGCCAGGAGTGTACCTTTCCCTTTCCTGAGAAGAGCATGGGCCACTGGCTTTTCCATCTTTGGTTCTCTCAGGTGCCTGT
GCCCTGGAGCTGTCCGTCCCCTGGTCCTGCCCGCCTGGTCCTGTGGCCAGCACTCTCCACTGTGAGTCATTCAGGCCCAGTCCTTGTCCTGGTGGTGCAT
CTGCCTCATGATGTCAAGCAYTGTGGGAAAGGCACCCAGCCTGCCCCACTCCAAAGGATGAGTATGGGGAGGTGGTGGTGCTTCTCAAACCCAAGGCTGT
TTGTCATACCACATTCCGAAGACTTCAGATGAGGGCATTTACCTGTTTGCCTAGGAGGGGTTCTTCAATCTGCAATCCAGCAAACCCCTCCTTGATGAAA
GGCGGAGGGTGTGTGGGCTTTTAGGGAACAGTTGTGCCCCGAGGAGGAAGGCGGGGCAATGTTAGGAGCCTCTGTGCCTTGGAGCTGCAGGCGAGTTGTC
TGGTCTTGGGTGATTCCCTTCCTATGTTTGCATCTCAATTTTCCCTCTTGTAAAATGGAGCTGAGAGCATCCCTTATATCACAGGAATGTCATTAGGATT
ACTTAAGGTGTTGGAATGTTTCCTGGCCTAGGGGAAGAGCTCAGTAGAAGCTTGCTATTGCCCTAATATCATTACTATCCCAGATATGCATTTTCTTGTT
ATTTCCCTGTTAGGCGTTAAGTGTGTGAAAGTGTGTGTGTATATTTAAAAGGTCAAAGTAAAATTCTTTAGAACCTTAGGGCAGGATAGCTCTTGTTTAG
TTAGGGGTGTTTGGTGACTGCTGGAGAAGTCACCTACCCAGCTGATCTTACAATTACTGTCTGCTTAAAGGCAGCTCTTGACTTGGCCTTCTCTAGGGGA
AAAACATGTAGTTTATGCAACTTTTCTTTTCCCTTTCTGCTCTGGATTTGACCTTTTGTTCCTTCAGGTGATTGAAAAAATTCGRAAAGTCACCTGTTTC
CTCAGAATTGCTTTAAGACAAGACTAAGTGAACCAACAAGAATGAAGTCAGCTTTTTGGAAATACCTCCCAAGAGGCCTTGCTCTTTATGCAGGACTGTT
ATTTCAAAGGATGGTGTCCCCTCCCCAACCATAAGAACGATCCAAACCTGTTTTCTGGGGCCCAGAGTTTGCTGAGGATAGGMCTGGGCTGAAGCTTTCA
TTGCTGGTCTGTGGGGTAGAGGTAAGCCTCCCCTGTGAAGCTGGTAGGTTACATGCTTTGGCAACATGAATTGTTATTTCTGGAGTCCCCTGGGTGCTGT
TTAGAAATGCAGGTAGGTGGCTGGGTGCGGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCCAAGGCAGGCAGATTACTTGAGCTCAGGAGTTCGA
GACCAGCCTGGGCAATATAGTGAAACCCCAACTCTACAAAAATACAAAAATTAGCCAGGGATGGTGGTGCATGCCTGTAATCCCAGCTACTCAGTAGGCT
GAGGCAAAAGAATTGCTTGAACCTGGGAGGCGGGGGTTGCAGTGAGCCGACATCGCGCCACTGCACTCCAGCCTGGGCCACAGAGCAAGATTTCATCTCA
AAAAAAAAAAAAAAAAAAAAAAGAAAAAGAAWAAAAGAAATGCAGGTAGGTGCTTCTAGCTACTGCTGTGGGATAGCAAGGTAGTTACCAAACTGATAAG
GGTAGCATCTTACTTACTGCTGAAAAATTCAGTGTCTTTTTTCTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGAGAT
CTTGGCTCACTGCAACTTCTGCCTCTTGGGCTCAAGATATTCTCTTGCTTCAGCCTCCCAAGGAGCTGGGATTATAGGCACTCGCTACCACACCCGGCTA
ATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCTAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTG
CTGGGATTACAGGCGTGAACTACTGCGCCGGGCTTGAGTTTGACTTTTTGAAAATATTCCACCTATAAGTGAAGTTGTGCAGTGTTTGTCTTTATGTGTT
TAGCATATTTCACTCAGCATAATGTCCTCCAGGCTCTGATGGGCACTTGGCTTGTTTCCATGTCTTGGCTATTGTGAATAGTGCCGCAATGAACATGGGC
AAATTGCCGTGTTGAGTTAAGGAAGCTCTTTTCCAGTCTGAGTTTGCAAATAGCTTTTCATATATGAGCGTTGAATATTATCAAATGCTTTTCTGCATTC
ACTGAGATGACTTTATGTATTTAAAAAAATCTGATGGCCTATATTTTCTATTTCTAAACTACTCGTGTATTCCTGGTATAAATCAACTCAGTGTGTTACT
CTCGTTTTTATACATAGCTGGATTCGTTTTCACTAATATTTTGTTTGAGATTTTTGCCTCAGTGATCATGTATGTGATTGCTCTGTAACTTTTCATTCAC
ATTTTGTCCTTGTCTGTCCTGGTATCAAAGTTATATTGGCTTCATAGAATGAGGGAAATGTTTATCCTTCTAAAAATATTTAGTAGAGTGGTCTAAGATG
AGAGTGTAAGTGAGTAAACTTTCTCAATCAAATATTTTGTGATATGTTTCAGGAATTTCATTACATGTTTGGTTCAATTTTTAAAGCATTTCTTTTTATT
ATTTAAAACTTTTAGCATTGGTGACCATCCATGTGCTGCTTTTATTGCCAGCTTAACTTGTTTTTATGACATCTTCAGGAAGAAAACCTCTGCTGTCTAT
TTAATGGAGATGAATTGTTAAACTTTTACCATTTGCAACTAYACGTCTCTATGAGTCAGACTTTTATTGATCGTGTACAACTAAATGAAACCCGGAAATG
AAGGAAATGTAACAAGCGATTTTATGTATTTTTTGTTTGCTCAAATTGCCTTTATAAAATAGATTGATACTCTATAATAAGCAAATGTTGTGAATTTGGA
ATTTTCAAATTGAGGCTTACTAATAATGTTAWCTATTTTATCCGAGTTTATTTGGGTTTCTTATAAAATGTAATTTCTCAAGAAGATTTTGCTGCCCTAA
AAAAAAAAAAAAGAAAAAGAAAAAGACAAAAAGGGAAGCCACTGGTTGCTAATGGCTCCTGCGGCTCTGACGATCCTCGATGAAGTGTTCTTTGATTAAG
TGTCAAGATGAGTGGTGCAGACCTTTGACAGACACATGATTGTGGTTGGAGAAAGCCCAGCATTAACTGCTGACCTTGCCATCTGTGAGCAGGTGTTGAA
TGAGCTCAGTTCCCTCCCAGCCCTTCTTTTTCCCTGGTGGGTCATTGGCTCCTGAGTARGATAGATGCATGCAATAGAAGAGCTGTTAATAGCATTTACT
CTTTCTTAATCCTTATTAATCCCATTCATATTTCAGTGTCTGAAACTTGGCAGGATGTCAAGAAGCCACAGTGCAAGTAGGGAAATTGAACAGCAAGGAC
CAAGTACAATGTTCCCCTGATATTTAATTTGCTAAAACATGTAAGAAGAAGAAAGTTCTTACATTGTTAGGTCCCAAAGAGAGTGCCACYAAGCAACCTT
GCCAAAACCACCTTGCTGGAGCTTCTTATTATCTTTTTTTAGCGAATGGCAATAAAGTCATTTTGTCAAGCTAACCAAGTACCATAATGAGATCTTTGTG
GCATAAATTAACCGAGTGGGGAAATAACTTTGACAGGGGTTGATGTCCGAAATGAAGTGTTGTTTGTCTGATGTCAAGCCTGTGGGGAATTTGAACCTTG
CACTCTTTCCTGATAAGACATTAACCTCTGCATGGGCTTGCTGGCCCAACCTTTTGATTAACTGGACCTATTTTCTTGTAGATCTAATACAAGGATTTGG
AGAACCCCAGTAAAATGCTGGAGGGACTTAGACTCTGATCTCTATTGGGATGTGTCAAATTGGAGATTTGGTGGGCTTTTCTGCCGTGTTTACTGCGATG
GGTGTGTGTATTTGAAGTCTGTATGTGGCCTTTAAGGATGTGTTTGGGGCGCAGAAGTTCTGGGTAACAGAGAGGCTCTCAAACGTTAGATTTTGGATTA
GACTTTGGGTCAACTTCAGGGTAGCAAGAGGATGGATACCCGAGAACATGTTTTCTCCGACTTCCTGGCCCCTGTCTTCTAAGTTCTGGGTAGTGATGGG
TCTTTGGAGGGGCAGCCCTTTCTGCCATGTGAATCTTTGCCCAGCCCTGAGGGGGTGAGGGCTGGCCAAGGGAGCCGGGCCATGGTCGGAGAGAAGGCTG
AGGCTCCTTGAGAAGCATTTGGAGTTTGAGTCAGTTGTGTCTTTTAAAAAAATTACCCATTTTGGACTTGCCTGTGGAAGCAATTAGAGAGATCACAGGA
CCGTTTCTGATTCCCAATTCTGTCCAGTGTCTATTCAGAAAAATAGAAAACAGTCAACTGGAACAGGGGATTATTTGAGCACACACAGAGTCCTGTTGTC
TCAGCAGCGTGCCCTCAGACAATTTGCCTTTTAGTGAAGTTTAAGCCCATGAAAGGAAATAAAAAGTGTTTTATTAGATGGCAAAGAAAGATGGACTGGA
CTTATGAGACTTTGAGAATTTTTGCTTTTTCTTTGTTAATGCAAACTTTGGAAGAGAGCAACTCTTTCTGTAATGCAATTTATTTGTACAATGTGGTAGT
TATTGTTAATAGCTAATAATGATCTTCAACTGGGTAAAATACCATTGTGTGTTTGAGAGGGAGAGAGAGAGAGAAGGGTAGGAGGAGAGGGAGAATATCT
TTTGTTCAAAGCCAAATGTTGCTACTTCTGAAGACGAGTGCACCTTATGGGTATAGCCAGCTATAATGTTTATCAAACATATACTTTTTTTTTTTTTTTT
TGAGATGGAGTTTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTTCTCCTGCC
TCAGCCTCCCTCGTAGCTGGGATTGCAGGTGCACGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTG
GTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCTGAAAGTGCTGGGATTATAGGCATGAGCCACCATGCCCTGCCTCAAGCATCTATTTT
GTGCAAGAGCTTGCAGAAGTTCTTTCCTGCYACAGCCGTGGTTGGCCACATTGCTCCCCCATGAATATGTGGAAACTGACACTTCAGGAGAATTGGTGGC
TCACCCATGGCATTCAGCTAGTGGGTTATGGGGCAGAGACTCAAACTCAGCCCTGACTCCCACAGCATTGTTCTTTTTCTGTAAATTGCTGACTTACTCA
GTTGATCACAGTTCATTGCCGTTTACAGAATTTGTCTGCACCCATTGTGCCTTTTAAGTGTCGATTTTCTTTCCTGAAAGCACACAAAGCAAAGCACGGC
TCTGCAGTGTGACCCACCGTGTGCTGTGTGGACAGATGATGCTGGTCAGCAGGCAGGAAAACGATCTGCYAGGCGCTGGGGGTGGGGCAGAGGATTGTTC
TTCCTGACCTTGGTATGAAAACCGTRTGGAGTTCTTAGTGAGGAAAATCACTCTTAGCCCAAATTCCTGCGAAGGCCGATGGGATTGTTTTTAAGATTTG
TTGGATTGCTGGATTTGTTGAAGGGAGAACTGGAAGAAGCTATCAGAAGTTTACAGGGCATCGGAGGGAGACACTCCCTTTGGCCACTTTCTCCGCCAAA
ACTATCCTGGTTTTAGCCCAACAGTTTCCCACGCCCGCCCCCACCCCCACAACCTTGTTTGTTTAAAGACCATTAAAGAACGTCTTCAATTTATTCTGGA
TTGAGTTTTCCTCAAACCAAACCACCCCTCAGTTCACCCCCCAGAGCTGTTSAGGCCCTTCCTGGGGGCTTGTGGCTGTGGCTGCCTCAGATCAGAGCAG
ACCCTGGGCTGCATCATCCTTCCACATTGTCTCTCTAAAGTACCTGAAGCCAGTAGTTCTCAAACTTTGGAGAGGGTTTTGAGTCACCTCGAGAGCTGAT
AAGAACAGAGGCCCAGATTGAAGTTGAATAGTGCTGGGCCTTTGTTTTTACCAAGTTCCCTGGATGGTTCTGCTACCTCCTAGCCTGTGAGAACTACTCC
TTTGTGATTTCTTGCCATTGAAATTTTTTCTCACCTTCTTCTTGGCTTGAGTGCTCTTCTGGGTTCCTTCCGGCTGTCCAAATCAAATTTAATTTTCACA
CCCAGACCTTGTCCCTGCTCTCATCCTTCAGCCCACCCTCCTGTTCCCCATTCAGCYAGACCCCCTGCCAGTCAGTTCAAGTGCTAGGCATGGGGTATCG
AGTCTCAGGCCGGTCCACAGACATTCCAGCACCTGGTGGTAAGAGGTGAGTGCTGCGTGGACCCACTGAGGAAGGCTCTGGCTGTGCTGGGGGAGGGGAG
TTTATGCTCRTCCTCATAGAAGGATAAGCAGGAATTAAGTGGGCAAAGGAGGGAGTGAGGAAGCTCTCACTTTCTAGGTAGTAGGACCAGCATGAACCAA
GGTAGGGGATGACAACATGGCTCATTCAGGGAATTTGAGGTATGTTGATACATGGAAAAATGTACCTGAAATGTGAGTCCTGCTTTTGTGACTCACCCTT
TCCTTTACATAAGCATTGATTTACATCTGTTGTTTTTTAAGATAGKGTGTATGTTGAAAAGTTCAGAACAAGATCAAGTGGAGACATAAAATGGTAAGAT
GTGAAAAGTTGTTCTTGCCAGATTAAATGGTTCCACCTGAAGAAAATTTTTTTTTTTTTTGAGATGGAGTCTCACTTTGTTGCATGGGCTGGAGTGTAGT
GGCGTGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTATACACTGCCAAG
CCCGGCTAAGTTTTTGTATTTTAGTAGAGACGGGGTTTCACCGTGTTGCCCCAGGCTAGTCTCAAACTCCTGAGCTCAGGCAATCCCCAGCCTCAGCCCC
CCAAAGTGCTAGGATTACAGGCATGAGCCACCGCACCCGGCCTGAATTTTTTTTTGTTTTGTTTATTTATTTCTTGGTTTTGCTGGCCTTTAAGCAACCC
AAGACTAGGGGGCTTTCACTCCGTCCTTAGAGAGCTCAAAGGGCCTGACTTAGGGGACACAGTCAGTGAAGGGGATGAATGAATGAGTTTCAGATCCAGG
TGTTCTGGATAAGTCACTTTACCTTTCTGGGCCTTTTTCCTCAACTCCAAACAGAGGATGTCGGTATAGACAATCCCTAGGATCTTGTCCCCTTTATGAC
TGATCACACAGTTCCACTGCTTGCCCTTGAGGCTTTGGTGTCCRCGCATGCCTATTCAGTCTGACCCACAAGAGGCCAGGCCAGCTCTGTTCCAGGYSCT
GAAAATCCCATTAAAACTCCACTCACTAGCCTGTTCCCTGGGGGTGCTGAATCAGCATTTAATGGGGAAGGCCACGAGCTAGGCTCTGGTGGGTAGGAAG
TGTGTGACTTCTCTTACCTCAACAGTTTCTACTGTAACTAGCGGGATAAGGTAAATCTATGGAAATGCAAGGCTTATGCCGAGGCTCACAGAGTGGGCCA
GGCTGCATAAGTCCTGGACACCACAGGGCCTGCTTTGAGAAGGCAGCTGTGGTCCCACAGCCTTGACCACCAGGCACCATCCTCTGTTGCCAGTGGACCC
ACATTTCAAATCATTTTATCTCTTAAATAACCTGTATTCATTTGTTCCTTCCCATGTCTTATCCACCAAAAATCTCCAATTGGAAATTCAGACAAGGATT
GAGACCCTGTGTTCTTAAATTGGGTTGATTGAAATCTAGAAACAATGATAGTAATAACAGAGTTATCTTCTCTCGAACATCTGCCTCCTGCCTGATGTTA
TTTCGCTTAATTCTCTCAAGGGCTTGAGGAGAGTCCTGCCATAATCCTTCCTTTCAGAGGGGAAGATCGAAATTTAGCTCAGATCTCAAGCTAGTAATCA
TCAGAACCAGGATATAGAATCAGGACTAGACCACATGGTCCCTGCTCTGAGCTGCTGCGGGTCCATCCCTGTGGCTCTGTCCAGGGTAAATGGATGATTC
AGGGGAAGGGTCAGCAAACTATAGCCCATGGGCCAAATGCAGCCACTGCTTGTTTTTGGGTGGCCCAAGAGCCAAGAATAGTTTCCACATTTTTAAATGG
GTGGAGAAAACAAAATCTACAAAGAATAATGTTTCATGACACATGAAAATTATGTAAAATATACATTTAACGCTTGTAARTAAAGTTCTGTTGGAACTCA
GCTACAGTCGTTAGTTTACATATCATCGATGGCTGGTTTCGCAGTACAAGGGCACAGTTTAAAGCCTGCCAGGCCTAAAATGTTTACTGTCTGGCCTATT
ACAGAAGACGTTTGCTGACCCCTGATTTAGGGCATTCATGAGGCTTGATGAGATGTTGAAAATCAGCTGTCTCCTCCCGYCACTCTCTTCTGATTGTGGG
TAGGCTCTGGTGCACCAGCTCTCCAGTGATCTCCTATCTGATGCTCAGAGTTCTTTTTCCATTGCATGGATGTCAAATAAAAGTGTCTGCTTTGTGGCAT
TTCTGGCTTGAGAGTACCTGCCCAATGTGATTTGCCAAGGTGCCATTTTATCAAAAGTCTTAGGATGACTGGATGGGTTTGCCTTGAATTTGTTTTGCCT
TTGCTGATGGTTGTATTTAGGTTATCATTGAAAGAGGATTGCAGAACAGCGGCAGTTTCCTGTGCTGTCTGGATTGAAGTTGAATAATGCCCTAACTTTT
AATTGAAAGGGACTGTTGTAGGCGGGAGACTGTCTAAGAGCTGACCTGTCACCACCACCTGAGATGTCTGAGCCCACCCTTGGACTTTCTTGGCACGTGG
GGAAGAGGGGGCCTGGGTCCTGGGCTCCCACCTAAACTCAGCAGACCCCACTGGCAGGTGTGTGTTGTGGGGGTGATGGAGGCTTTTTGGAGGGCATTGA
GCTCCTTGGGTGGAGGTGGGGTGGCTGCCTTGGGGGCTCAGTGCAGCTCTGGCCATGATGGACAGAAGGAGACAAGAATGTAGCTTCTTGTTCTGAGAAC
TTCAGCCCAAGTTCCTCCTTTCATGCAGCAGAATCCAAGACACTGACTTGCCCCTCTCTGCTGTTGAGGCTTCTGTGTTGCAGAGATACCTTCTGGCCCT
GCTTTATCCTAGTGAGGCAGCTCACCTCTCCCGTGTTTCACTGCTCGAACTCTCCTTCCCAAGGCTGTGCTAGTGGTAGTGATGACAATAATAGCTACTA
TTTATTGTGTGCCCCTCGTATGCTAAGTGCTTCACGTAGATTATATAATTTAATACTTGTCACAACAGTCTTATGAGGTAAATACTGTATATATATTTAA
AAAGACTATTTTTAGAGCAGTTTTAGGTTCACAGCAAAATGTAGAGGAAGTTTCACAGAGATATCCCAAGCACCCCTTGCCATTTTCTCTTAGTTATGAA
AATGATCAAATGGGCTGGGTGTGGTCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCGGAGGTCAGGAGTTTGAGACCAGCCTAGCCAACATGGTG
AAACCCTGTCTCTACTAAATACAAAAAATTAGCTGGGTGTAGTGGCACATGCCTATAATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATTGTTTGAAC
CTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTACAGCCTAGGCAACAAGAGCAAAACTCTGTCTCAAAAAGAAAAAAAAAAAAAAAA
AGATCAAATAGACTTCCAAGTGCCCATGTCTCAGGTTCAGTACTGATCAGCATTTTACCCTCCTTTGCTTCAGCTCCCTCCTGTCATTGCTCATTGCTGA
GAGTGGGTAAGGGGCTTTCTCAGGTTCCTGTAGCTGGTAGGATCCCGCTGTCCTCAAAGTTCCTGCACTCAGTGGCTGACGGTGCCAGGTGACTCCCCCT
TTTGGGGTCCATGACATTTGCTGCTGTTTCTAAAGCCCCTACTGTGTGCTGCTAATCCCCTCACCAAGCTTGCAGAGCGGATGGTAACTGACAGGTGAAA
AAATGCAAGAAGTTAGGTCACGGGTCCGGGGACATCCTGCTAATAGGTGGTGGTGCCAGGCTTCAAACTCAGGCCTGACTTCAAGTCCCGCAGCTTCTCT
GCCCCACCCTGTCTCTGTCCTCCTCACCTCTGTAGTGTGGTGGGACTCGGTGGGGTGGTCGTTTGACTGTGGGAACTTCTGTTTGCAAAGCCTTGGAAGG
ACCCAGGTGACTGCAGATAGTTCCGTGAGAAGCATCTGGGACTGTTGACCTCACTGCTGATCTTCCTTGTGAGCCTGTGATAGGGCTAACCCTTGGCTTT
CTGGCCAGAGTGTAGACAGAGACCCGATTAGCATTTTGTGGTCAGTCAGAGGCAGTTTGTGAACCTGGAACTTGGAAGCTGGTTTCCTCCTCTGGGAGGG
ATGTGGAGCCTGGGGAGCCAGGAAGGCATGGACTGAATATACACCCAGCTGGGCAGTGGGGAAGGGAGGATTCCGTGGGGAGCTAGCCCTGAACACAGCA
AGCATTTGGTAAATGGTGCCTGTTAGCTGTTTTTATCCGTATTCTAAGGTGGACGAGCGGCGCAGGAGAGAACTGGTAGGATTAATGGAGTGGTTTCATT
ATTCAGATTTAAGTGCATGCAGCCAGAAGTCTTCAACTGAAGAATTGAAACTCTCTGCTCTTTTTTGGGGGTCATGGTGGCAGTGTGAGGGGCTGGTTCA
TGAGTGAGGAGAAAAGGTAGTGGCAGGCAGAATGGTACATTTTATATTCATATTGTGCACATTATTCACACCTGACATGGGCCAGAAATCCTCTCCTAAG
AGAGACACTTGGAAAGTAAACAGTTTGTTAATCATTTCAACCCGTGGACTTTGGTTGCAGGGTGCATTTTGATCAAGGGTTACAAACACCAATGTCTTCA
GGGACATTTGGGGACATAAATAAAGGGAATGGACAAAAAGATGGAAAAGCATACTGCCTCTCAGTCTTTCGCATGCTCATGTTTGATAGAGAAAATCAAC
ATCGTGGGGGCAGTGTTGCTTGGCAACTGCCATTTGTCCTCAGCGTTGGGGTGACATTACTAGGGAATGGCTGTGAACTCCAAGCACTTCCCCCCGGGAA
GCGAGGCTGACACTCAGATCCAATTCATGTCTTTAATGTGGCCAAATGAGAAAGCCAGATGTATTTCTGAGAAGCCAAAAAACAAGATTTAAAAAATGCT
ATCTCCCTAATTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGGACAGTGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAGG
TTCAAGCGATTCTCCTGCGTCAGCCTCCCGAGTAGCTAGGATTACAGGCCACCATGCCCAGCTAATTTTTGTATATATATTTTTTTCAGTAGAGACGGGG
TTTCACCATGTTACAGGCCAGGCTGGTCTTGAACTCCCTTGAACTCAGGTGATCCACCTGCCTCAGCCTCTAAAAGTGCTGGGATTACAAGTGTGAGCCA
CTGCACCTGGCTTCTATCTCCCTAATTTTTAAATACTTAAGATTTTAAGAAACATCACAGGTCAAGCAATGCATGGCAGTGGGCTAGATTCAGACAGGGG
AGCCTCAATTTAGGACCCCCAGATTTATCATACAAGGTGGAGGAAGGGTTCAGATAGGGACTTGGGGATTGCCAACTCTGACCCTCTCTTCAGATGAAGA
GATTAGCCCTGTGGAGGAGTCCAGGATTTGTATTTTAGTCTTGGTACTGGGTGTTCTGGGTTGAGTTGCTAGACCATTCTGGGACAAGTTGCTAGACCAT
TCTGGGACTTACTTTCTTCCTCCATAAAGTCAAAGGGTAGGTAGATCACACATTTTTAAAGTGTGCTCCTTGAGGTGTGTCAGGGGTTCCATAAGCATTT
GCTTTCAGTTTTATTAAAAGCAGCCTGTACTCTCAAATTTGAGTATATTTGAAATTGTAATGAGAGCAGTTGCTCAGGATGGAGTGTGGTGGCTCATGCC
TGCCCCACACTTTGGAAACCTGAGGTGGAGGAAACCTTCAGGCCAGGAGTTTGAGACCAGCCAGGGAAGTATAGGGAGACCCCATTTCTACAAAAAACAA
AAATATTAGCTGGGTATAGTGGGACACATGTGTAGTTTGAACTACTCGGAAGGCTGAGGCTGGGGGATCGCTTGAGCCCAGGAGTTTAAGGCTGCAGTGA
GCTATGATTGTGCCATTGTACTCTGGCCTGGGCCACAGAGTGAGATCCTGTCTCAAAAAAACAAAAAACAAAACAAAAACAAATTAAAAAACAAAACAAA
CCAAAAAAACCAACCAACACATTTGCCCAAATAGTGAATCACATCAAATTTTAAAATTCGCTGGAAACTATCTGCTTCTTAATTTGATTATACATCAATT
ATGTTCAAAGTAAAAAACAAGGTAATTTGAAACAGCTGCTTTTATCCAGGTGTATACACGGTGTATACATACACAGATATGTATGAAATGTGGAACTCTA
TACCCGTATGTATGGAGTTCCTCMTAAGAGTCTTTTTGAGAAAATAGTTCCATTGCTAAAAATACCCAATGGAAACTTCTGGCCTGGGATTTCCAAGTTC
ACCCTCGGCTGTGCRTCTCAAAGTCCACACAGCCTCACCAAAATAGCCCTTCTGGGTACTTTTTTCTGTGTGTTCTTGGAGGAGGCCATCGTGCCTCCAG
CTCCCTAAGGCGGAAGATGAGCCAGCGGGGATCTTTGCAGGGTGGTTGGTTCTCGTTCCTTCCACCGAAGCCTTCCATGGCATTTTTGGGACCTGGAATT
GTGAATTATTCTGCCTCTTCCCCACAGTCCCTGATGACAGCATGAAGTTCAGAGAGTTTATTTGCAGATGAGGCAGGGAAGCCGGCCTGTTCTCATCTTG
CTGTGCCTGATGCCTTGTGCTTGGGGCACTGTTCACTGTGCTGCCTGCTGGCCTGCTTGTCTCTGCCTTTTGGAYGGGAGATAGGCCACCCCACAGTGCC
ACACCTGCCTTCAGGGAAGCTTTTGGGTGTTCCTTGTCTGGCTTCTGGGTTCAGTGGGAGGGCCCACCCAGCCTGTCATTTTAATGATTTACCTTAGAGG
AGCCAGTTTTATAGGGAGTTGTTGGATAATCTTCACAAGGCAGATAAATGGGAGAGCAGGAAGAATGATGGCCTTTCAGAGTTGAAATCTGTGCTGCTCC
AAATCCCATAAACTGCTATTTGATTTTAAACATTGCTTGAAGCGGTTCACATTTTGGTTAATTACGTCAGTGGGTAAAAATAACTATTGTCATATGGTGT
GTGGGCTTGGCTTTAGAAGGATAAAGAGTCTATTGTTACCCATTGTGCTATTCAGTCACTTATTACCCATCCTTAAAAGCCCAACGTGGATAACAGAAAA
CCTGGAGAGCTTTGTCACTTGCTGAAATCCAAGCTGCCCTGTGAATTTATCCCCAAACACTGCTCCTTTTGAGAAACTTGTACAAGCTGCCTTAATTYAG
TCAATTCAAATGGGTTGATGGGGGCTGTTCCCAAGGCCCAGGACAGGCAGGGGTTTGTGACCTGCAGCCCTGGAACTGCCTTTGGGTTTCATGGTCTCAG
TTGAGACCTGCCCAGGGTTGAACCAGCTTAGTGCTCCCTGGGGGTGGTTAAGTTCAAGGACTTCAGGGTCCGATTGACCTTGGGCTGAATCTTGACCTGG
GGCTGTAAGATGCTCGGTCAGGACCTTAACTTTTCCAAGGCTCGGTGTCTACATCTGGAAAATGGGGATAAACACAGTTCCTCCCTGCTGGGATTATTGT
AAGGCTTGAATGAGATGATAAATACAACATCTGACTTGCGACTGGACGGTAGCAAAGGGTTTAGTTAATATTATAATAAGTAGAATGGAACAGCATTAGA
TTCTCACACAGGGTCACTATGTTGTTTTCTCCCATTCTACCCCTGCATATTACCCTGAAGCACCCCCAAGCCTCTCCCTCCCCATCCCTCAAGCCCCTCC
CTCCCCATCCCCCAAGCTCACCAGGTCCTGGCGCACCCAGATCTTTCACTGCTTTTCTTGCCTGTGAGCTCTTGGGGAGTCAGGACCACCTTAAGCACCC
TCTGCATCTTTGGCACCTAACCTGGGGCCTGGGGCCCTGCAGGGCCACAATTAGCAGCATGGACAACAGCATGGACGGAGAGGGTCTCAGAGCCTGGAGA
GCTCCTAGGGGCTGGAGCAGTCACAGGAAGTCACCAAGTGAATTGAAGGGTGGTGGCTTTGGAGGTTCAGTGAGGCAAGAAGAAGGCTGTTAGGCTGGGA
ATTAAGGAACCTTGTGTTGTTCGAGTCTCAGGACAACTCAGATATGGGGTCTGTATTGCAAATGCCCCTGCGTCATTTTACAACTGATGAAAACAATGGC
TCCACGAGACCCTCAAGTGCCAGAGCTCATGAGTGACAGTGGAAGTTGAACTAACCTTTTAACCACCCTAGTCCACACCTGTCAGGCTGACGGGCTTTCA
GTGGTGATGTGTTGGGAGCTCTGTGCCGCAGATCTCTGTGTGCTCCTGAGACTCTGCCCGCCTGTCTCTACCCTGCTGTGCCCACTAGGAGGAGGCTGAC
CTTTATGTTCTACACCAGTGGGTGCCCTTGGTCTCCAGCTTCCAGTGGGCCAGTCTGGCGAGAGACCCTAGCTGGAGATGAGGGGAGGTAGCCTTGGCCT
CTCTCCTTGCCCTTCCTCRCTGCTGCTACCCCAGGATTCTTGCCCATCCCTTACTGGTTTTCCTTAACCCCACCCTCACCCTTGAAAACAGACTCTTTAA
AACTCTCCTCACTCACCCTCATTGAGTGTGTCATCTGCTCCAGCTAGGATATTGGCTAATACCGCATGTTTCAGAAAGAAAAATTCGCAGTTCTATTTAT
TTTTTTACTGTGGATTGAAGGGAGAGGCAACCAGGTATATGGATGAAGGAGTAGGGCCTGGCTGTCACCACTGGTGTTCACAAAAGGCTCCCGTTTAAGT
CCTCTTATATTCCAAATGAGGGGTTATAGGTCGAGTCAGGGCGTTGCTCTAACAGAAGCAAAACCAAAAATACACGGCCGTAGATACAACCCTGTTCTGG
TACTTCCTAATTTTGTGTGTACATGTGTGCACCTGGAGCTTCAAGAAATGAAAATGGAAATGGCCTGAGTGTTTCTCAGCCCTAGGATGAGGCTGTTTCT
GTGATTTAGGGCTGGAGGTTATGAAGACTTGGTTTACAATATGCACAGTACAGAAGCGGGGAAGTCAAGGTGTGCTGGGCAAGGAAACATCTTTATGTGA
CCCACAAAGAGTGAAGCAGAGGGAAGAACCAGAAGTTATTCTGGTTTGCAGACTGGGAGACAGGTTTAATGACACAGTCATGTCAGAGAGAGGGGAAGAG
GAGAATACGTAGGGGGTCTGTTTTGATGTGTAWGTACATGTAGGATTTTCATGTAGAGGAGTTGGGGAAAATTTTAGAAGTTTTAGGTGTAAATGCAGCT
GGTAAGATCCTTATGACTTAGTTTCTTTYTTTTCTTCTTTTCTTTTCTTTCTTTCTTTCTTTYTTYTTTTTTTTTTTTTTTTAAGACAGAGTCTCACTCT
GTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCGTCTCCCCAGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAGAGTGCTGGG
ATTACAGGTGCATGCAACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGTTGGGGTTTCACCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAG
GTGATCCACCTGCCTTGGCCTCACAAAGTGCTGGGATTACAAGTGTGAGCCACTGCTCCCGGCCTTAGTTTTTGAGTGGGAAGAATCTAGTGTTCAGAGT
GGACCACTGATGTCATAGCTGCAGGTTTGGCTGAATTGGGATGGTGCAGAAAGCCGTGTTAACCATTTCTTTTTCTCTGAGGCCTGGAGGAGGAKCCTTG
TGACTGGAACCACAGTTGGGACTGGCAGTGGTTTTTCCTGCTGGCAAGGAAAAAAAAAAAGAGAAAAGAAAGAGTTCGACTTATCAGCACAAAGAAAGGA
GGATGTGAAACTAGAACCATCTCTAGGGCAGTTCTAGCAATGAACAAGGCTGGAAGGCTCACCGGCGAGGGGTTTCCCCTCAGGAAAGGGGACAGAGAAG
CTTCCACCTCCTGGGTAGCATTGGGTGTTCCTGGGCACATCTGGGTGACTAACGGGTTTTCTGCCACACAACTGGGGTATATAGGGAAGTCTTTGGCCAG
AACTGTGGGCCGTACTGCATTCTTCCCGTGTCTGTCACTGCTGAGTCGTGAGCTTGATCTCTTTTCTTAGTGTTTGCTCCTTTTGTCCAGCTATGGGGGC
CAGCAGAAGCTTTGGGTCATCTGTACCAGTGACTTTGCTGTGAAGATGTAAGGGAGAGTGGTTGAGGTCAAGATCTGGGTTCTGGTTCTTGTGCCTCCTC
TCTGGCTGTGTGTCCTTCAACAAGCTGCTTACTGTCTCTGGGCCTCYGTGCCCTCTGCAACTGGGTTGTTGGTCTATTTAAATACTTGGAGAAAAAAGCT
GGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCCAAGGTGGGAGGATTGCTTGAGCCCAGGAGCTTCTGACCAATCTGGGCAACAAAGTG
AGATGCTGTCCCCATACAGAAATAAAAAAATTAGCTGGGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTTGGGAGGCTTAGGTGAGAGGATCGCTTGA
GCATGTGGGATCAAGGATGCAGTGAGCTGTGATTGCACCACTGCACTCCAGCCTGTGACAGAGTGAGACCTTGTCTCTTAAGAAAAAAGTTATTCAAAAA
ATACTTTGGAAAACAATGCTGGGGAGAGTATGAGCTTCAGATTGCACATTGGTTTCTATCAGGAGGATCTGAGCCTCGGTGGTGTTACCTGTAAAATGGG
GATAAAAATACCTCACAGGGTTGCAGTGAAGATGTAAGGATGATGATGATGACAACAGCAGCTCAAATAGATCATTTAACTTAATTCTCGCCAAAGCAAG
GCAGRTACAAAGATCATCCTGTTGGCAGATACAGACAGGGAGGGACAGAGAGGTTAATTAAGCAAGCTACCTGCCCGCAGTTACATGGCCAGMAGCAGTG
GCACTGAACGACTTCCTTCAGGCGGTCTGAGTCCAGGTCTCAGCTCTTAGCCATCACTCCATGGTTCTGTGCTGAGACAAGGGATGTAGAAAGCCCAGCA
CAGTGTCTGTTACATAGTAGGTGCTTAGTAAGTTAGACTTCCTTTTTATCCTCAGAATGCGTTTGCAAGTATAGCCTCCCACAGTGCTTTTACTTTAATC
TTTCCCCTTACTGGGCAAAAAAATGTTTGCTGCCCTGTGCGACTTGCCTAGCTATTGACTTCTCTTTTTTCTGCCTCTCTCCTATGATCCATCCTAGACT
GTGGATTGAGGCTCAGCCTAGATTAAAGGGCAGGGGCTGGAGGAGGAAGATGAGCTGAAAAAGGGTAGGCCTGAGGCGCGAAGGAGTTGATGGTAGGGTG
GAAGGTGGGAATGGGAAGTTTGAGAATTGGAGGACCTGGGGGCAAGACTTTCCCCCTCTGGGCTCGTTCTTTCCTTCCTGTGCCGTTTATTGAGTGCCTA
CTGGGTCCACCATTCTAGGCATGGGGCACAGACAAGATCTCTGTTCTCATGGAGCACACAGTGTGGTTGGAGGAGTCAGTGATGGACAGAGAGTGAGGGG
TGTTGGTTTCCATGGCTGCTCGGAGAAGGACTTGCTGAGGAGGTGGCGTTTTGGGCAGGCCATGAAAAGGTCTGGGCAGAGTGTGTTTGTGGGAGGGAAT
AAATATGTAAAGGCTCTAGGGGAGAATCAGTTTCGAGAATGTGAGGGGGCAGTGAGACCAGAGGGGCTAGTGGGCTGTGGCTGAGTTTGAATTTTATTCT
AAGTGTCATGGAAAGTAGGAGGACGGTTTTTTCCACCAGGGTCCTTTTTGATTATTTTATTCTTCGTGACGATCCTACTTAAAAAAAAAAATCTTATTCA
CCAAAAAGGTGTGTTTGTGAAACAATAGAGTGTACAACCTTGAATCACTTTAGATTTTTAAAGTATAGGGAAACAATTATGGATCACAATGAATATCCTT
GAGGGCTGCTCCCCTCCCCAGCTGACACTGTCAGCTAAACCTTTAAGGCCTCTTGTGTGTCAAGCATTAATTCTTCCCAAAGCTGCTTGACATGTGATTA
AAAATTTTTACTGCCACCTACTGATGGAAAGAAGAAGATGAATTTTTGTACAATGAAAATCCCAAACACAGTGGATTTCTGGTTTCCACTGTGCTGTCAG
GACTGGGAAATGGGTCTGGGGAAGGGGTGTGCTGGGCTTGGTATCCCCCCCACCCAACCCCCTTTTTTTGGCCCTGACAATCTGGTCTCTGCTTCTGTGT
CCTTCTGCTTCAGCTCATCGCACAGTGGGTGGAGGGAGGTGCTGACCTGGGGAGTTGCTCCGGGGAGAGGGCTGGAGGTGGGGGGATGTGTCTGGGGAGA
AACACTGGGCACTGGGAGTCAGCAGCCGCCAGCCCCCACATAACCCAGTTAATCCTTTGTAATTGACCCCGAGGTTGCAATGATTCCCTGTGTTTAATGT
CCCAAGACGGCCTAACCCTGACCAGCAGACCTTTGCTTAATGTGCTTCTTACCACCCCACCCCCATTATTAAATCCTCAACTGCTTTATTTCTGATTTGC
ATTTTCCATGGCTGAATGAATCTGCTGACTTCCGTTTTCTTTTTCTGTTTCAGATCYTGTGCGCAGGTGGCAGTGAGTACCCTTTTCCTCTCTATTCTTG
TGTTGTTCGCTACTGCCCCCTAATGGACACACAGCAACATTAACAGCAATGTGAAATGCTAATTTATTAAAACCTGCTCGGTTTCCAATTTTTCTTTTTC
TTTTTCTTTTCTTTTTTTTTGAGTTGGAGCCTCGCTCTGTAGCCCAGGCTGGAGTGCAGTGGTGCCATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTT
CAAGTGATTCTCCTGCCTCAGCCTAGCAAGTAGCTGGGATTACAGGCACGTGCCACCATGTCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGCTTC
CCCATGTTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCCGCCTTGGCCTCCCAAAGCGCTGGGATTACAGGCGCGAGCCACCACGCCCGGCCCCAATT
TTTCTTTAGAAGTAGGAGTGAGGGTGGAAACAACAAATGAAAGAAAAAATTTTAATTAATTGTGCAATCATGATGAAAATTTATATTTTCTGTAATTTTT
TTCTAGCCTCATCTGTGGGCGATTTAACTTAGTTGAAATTRTAATACATTATTTGTATATTGTTTATGTGCTGTTATCCTTTAAGTATTTTCTTGTGTTG
CTACATTGCCCTTTTGTTGCTACATTGCTACATTTAAAGAATGGGGTGGAAGATCGTCATAACCTTTGGAAAATGAGACCTGGACTCCCGCATGTTTTGC
TTTCATGCACAGGGCTGAGTCCCAACTGCTGACAGTGCTGGTTCATTCCCTGGTAATAAAATGAGAAAAATAAGGATATGACTAGAAGTTTTTTAAGGAA
GCTTAAATATATTCAGTTGAAAGCACCATCCATCCCTGGATTATGTCCTTACTAATTTTTTGGTCATAAAACATTTCTATAAGAATTGAAGGCCGGGCCT
GGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAATTCAGGAGTTCGAGACCAGCTTGGCCAACATGGTGAAACAC
CATCTGTACTAAAAATACCAAAAAAATTAGCCAGGTGTGGTGGCATGCACCTGTAATCCCAGCTACTTGGGAGGYTGAGGCAGGAGAATCGCTTGAGCCT
GAGAGGTGGAGGCTGCAGTGAGCCGAGATCACTCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAT
TAAAAATAATAGTAGTTGGTAGTTTTTAAAAAAATGTACCTTTTAGGAAAAAAAAAAAAACCATGGTTTTTGTTTCTCCCCAAAATTTGGGAACTTTTTT
TTTCCTGATTGGTAAAATCTCAGTTTGTGAGATAAAATAATTAGATTGTACTCATGGAAGCATATATGGGCAGATCTTGCTGAAATCTTCTAATAAAGCA
AATCTCAATTAATAATGGTAATTAGAGCCTGTGCAAACAATGGGAAGAGTACTGCCGTTGGTTTTTCTTCCTGTTAATTAGTTTAATAAATAAACTGGTG
GGTACCTTGTACAGGCTTGAATCACTGCTGCAGAAGAACACTTCTATTCAAACATCTACCGTAGGTAGTAGAATTGCGGGAAACAGAAATCATGAGCTAT
TTTAACTGAAAGGATTTACCCTGGGAAGTGAGAGTTTACAGAGTCATTGGAAGGGCCGCTGTATTAGTTTGCCAGGGCTGCTGTAATAAGATCAAGGTCT
TGGGGGTTAGGACTTCAACATATGAATTTGGGGGTGGCRGAGCACAAGTCAGCTCATAACAGCTGGGGAGGAGGCTTTAGGCCTGGCCCTGAGAAATTAC
TCCCAGACTAAGGCTGCAGAACTGACCCCCTAGAGAGTCACCACCTTGGTCATAGACAGCAAGCAGARAGGGAGGAATCAGGAAGTCCCTGCTGTAGTTG
CTGGATCCAGCGGTGAATGTTCTGAGCTGTGATCCTGGGATCAGGAAGCTGCAGCCACTGCCACAGTGTTGGTTCTAGAGCCAGGCAGCATGAGATCCAG
TCATCGCATCCACACTACAGCTATAAGAAGGAGGAAGGGCAGAAGGTTGTGCTCCACCCTTTAAGGACACTTGCTAGAAGTCAGACAGAACGTCTGGTCA
CACTCTGTTTGACAGAAGTTAGTCACATGCAACATCTAGCTGCATGGGAGGCTGGGAAATGTGGTCTTTGTTCCCAACAGCTATGCATATACAGGGCCAA
AAATCTCCAGGAGTATGATGAAGGGAAAATGGGGGAATGGAGTTTGGGGGTCAAGAGTGGTCTCTGCTGCACCTCCCTGAACAGAGACTCTAGGAGACTA
GTAATGAATTCAAGATAAAGCAGCCAGTGTGGCCAAGGTTCTCCTTCAGTGCCTGAGCTCTTGGCCATAGGAGCTCACGCCTCCTCTCCTTTCCTGTGAA
TGACTGTGTGCAGTGTAAGCATGGAGCTTCTGCACTCTCGTGGCCAGGTACTCTCCATGTGGCCAGAAATGGCAGTTTCTGAGGGGCTCATGTTGTAGGT
GATGATACAAAGAAGAGAAAGAGAGGGATCAGTTTTTCCAAGTGTGSATTTCATTTCAGTGTAAATATTKTGTGAGGTGGGGCATCCCTGTCTCCTGGAG
AARTATATTTTTAATCTAATTGTTTACTTTCTTTGCATAGCCCCTAGTCCAATTCCTGACCCTTCAGTAGCAACTGTTGCCACAGGGGAAAATGGCATAA
CGCAGATCAGCAGTACAGCAGAATCCTTTCATAAACAGAATGGAACTGGAACACCTCAGGTGGAAACAAACACCAGTGAGGATGGTGAAAGCTCTGGAGC
CAACGATAGTTTAAGAACACCTGAACAAGGATCTAATGGGACTGATGGGGCATCTCAAAAAACTCCCAGTAGCACTGGTAAGCATAGGCTTTTCTGCCAG
TCATGTTTCTTAAAGGAAATCGGTAGAATTTATAAATGTCATGTTTTCCAAATACTGTTCTTCTTTTAATTACCTAAGAAAATCTTTTWAAAAATTTTTA
TAAAGATAGTAATGCATATTCATTATATAAAACATAGACAAGAAAAGAATAACAAGTAAATCATTAACTGGAGATAACCATTGATCACTTGATATACGAG
TTTTATAATTTTAAGATATATGCATGCCTGTGTGCATATGTATATACATATATATGTTTTATTTTGTTTTACAAATATCAAGGTCATCCTTTACATGTAG
CTTCTCACCAATATATTACAAATATTCTTCCCTGTTAGTATATACATTTCTACAGGACAGTTTTAATACCTGCCTGGCATTCTATTTTCTAAATCAGGGT
TGGCAGATAATAATGGTCCTTGGGCCAAATATAGATCACTTTCTGTTTTTGTAAGTAAAGTTTTATTGAGTCTGCCTATGGCTGCTTTCATGCTAGAATT
GAGTAGTGGCAATGGAGAATTTGTGGCTTGTAAAGCCTGAAATATTTATTCTGTGGCCCTTACAGAAAAACATTGCTGATACCTGGGTTAGATAATTGAT
TCTAAAACTGTGGTTCAGAGATCTCTAGGGGTCTCCTAGATTCTTTCAAGGTATTTCTGGGTATTGTTTTCATAATACTACTAACATGTTATTTGGCTTC
TTTACTCTCATTKTATCATGAGTGTACRGTGGAGTCTTGCAGATTCTATATGATTTGGGATGACACTGTCACTCTTACAGCTAATGGAATGTATGCTTTC
ATATTGTTTAAAAAACTTTATCTTTTTTATTTCTAATACAGTATGGTAAATATTAATCAATATAACCCATATAAACAAAAATTCTCCGGGAGCCTTAATA
ATTTTTAAGAAGTTAAAAGGGCCCTGAGACCACAGTGTTTAAGAATTACTTGTCTAAAAGCATTGTAAATTATTTAACTGCTCCCCTGTTGTTGGGAAGG
TAGATTATTTATTTATAATTTTTCATAAAAAACATTGTGATACAATAGTTTTGTTAGTTCTAGAAGTATTGATAAAATCACATACACAGTTAAAATAAGT
CATTGAATTATTTCTAGGGTAATATGAGAAACTTTTAGAAATTCCTAAGGGGCTGGGCACAGTGGCTCATGCCTGTAATCACAGCACTTTGGGAGGCTAA
GGTGGGTGATCACCTGAGGTCAGGAGTTCAAGGCCAGCCTGGCCAACATGGCAAAACCCCGTCTCTGTTAAAAATACAAAAATTAGCCGGGTGTGGTCAT
GCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGTGGAGATGGTGCCACTGCACTC
CCGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAAATTCCTAGCAAGCTTATGTTAATTATTGTTACAAAAATTTGGG
CTTAGAGGTTGGGACCATACCAGATGGTCTTCCCAGAAATCACTGGACAGGCTTACTGTTGAAGGGCATTTCCAGAGGAAGCCAATCTACAATGATTGGA
ATAAGAACCTACTTCTTCAAATATACAGACATCAACACAGAGTCACAAGGATCAAGAATAATCAGGGAAACGTGATATTACCAGAGAAACAAAATAAAGT
GCAAGTGGTTGACCATAAAGAGATGGGAGATGTATGAACTGTCTGACAGAGAATTCAAAATACATGTTTTAAGGAAGCCTAGCAAACTTTAAGAAAATAC
AGATAAAGAATTCAAAGAAATGAGGAAAACAATAAGTGACTAGATTGAGATATTTAACAGAGAAGCAAACAGAAATTCTGAAGCTAAAAAATACTTTGAA
CAAAATGAAAAATGTAATAGAGAGCACCAAGAGTAGAACTGATCAAGTAGAAGAAATAATCCTTGAACTTGAAGACAGATTATTTGAAAATATACAGAGG
AGGAAAAATAAAAAAGTGGATAAAAAGGAATGAAGAATGCCTATAGGATTTATGCAACAGCATCAAAAGACGTGGTATTTGAATTGGAGTTCATCTAGGG
GAAGAGAAAGATAAAGAGGTAGAAAGCTTATTTAAAGAAATAGTAGCAGAAAACTCTCCAAACCTGGAGAAAGATATAAATATCCAGGTACAGGAAGGAC
AAATGACTCCAATCAGAGTCAATTCAAACAAGACTACTCCAGAACATAATCACACTGTCAAACATCACAGACAATGGGGATTTGGAAAGCAAAAAGAGAA
AAGAAGCAAATAACATGTAAGGGAGCTCCACTTCAGCTAGCAGCAGACTTCTCAGCAGAAACTTACAGGCCAGGAGAGAGTGGGATGATATATTCACCAT
GCTGAGGGAAAACAACCTGCCAACCAAGATTRCTATACCCAGCAGAACTGGCCATCAAAAATGAAGGCAAGATAAAAGACTTTACCAGAGAAACAAAAGC
TGAGGGAGTTCATCACCACTAGACATGTCTTATAAGAAATGCTAAAGAGAGTTTTTAAGCTGAAAGAAAAGGACACTAGTGATTAATTGAAAACATATGA
AAGGATAAGACTAGTAAAATAAATACACAGTCAAATTCAGAATACATGAATACTGTAATGGTCATACATATCTTTAATATGAAAGTTAAAAGATAATACT
TAAAAAATAATAACTACAATAACTTGCAGGGGGGATATGCAATATAAAAAGATGTAAATGGTGACATAAACAATTCATAATATGAGTGGGGAATGGACTA
GAAGTGTAGAGGTCAATTTGTGTGTGTGATCAAAGTTGTCATCAGCATAAAATAACCTGTTATAACTATAAGATTCTTTTTATAAGCCTCATGGTAACCA
CAAAGAAGAACCTTTAGTAGATACACAAAAAATAAAAAGCAAGGAATCAAAACATACTACTAGAGAATATCACTTAACCTCAAAGGAAGATAGTAAGAGA
GGACGGAAGGAACAAAGAGTCTATAAAACAACCAAATGGCAGTAGTAAGTTCTTACCTATCAATAATAACCTTGAAAGTAAAGGGTTTAAATTCTCCAAT
CAAAAGACATAGAGTGCGTGAATGGGTTAAAAAAAAAAACCGATCTCAATAGTATGCTGTCTACAAGAGACTCACCTCACCTGCAAGGACATGCCTAGAC
TGAAAGTGAAGGGATGGAAAAAGATACTCCATGCTAATGGAAATCTAAAGAGTGGCAGGAGTAGCTATACTTATGTCAGATAAAATAGACTTTAAGTTCA
AAACTTTTAATGGAGACAACAAACATCATTTTATAATGATAAAGGGATCAATTCATCAAGAGGTCTTAACAATTATAAATATATATGCACCCAGCATTGG
AATGCCTAAATATATAAAGCAAATATTAATGGATCTGAATGGACAGATTGACTGCAATGCATTCATAGTAGAGGACTTCCACCACCTTACTTCCAGCAAT
GGACAATGATCCAGACAGGAAATCAATAAGGAAGCATCAGACTTAAACTACAGTTTAGACCAAATGGATGTATCAGACATATACAGAACATTCCATCCAA
CAGCTGTAGAATACACACTTTTCAACTGCACCTGGAACATTCTCCAGGTAGATCATATGTTAGACCACAAAACAAGTSTTAACAGATTTAAGAAGTGTGA
AATCATATCAAGTATCTTTTCTGATGATGGCATCAAACTAGAAATAAATAACAGGAGGAACTTAAGAAAATTCACAGATATATGGAAATTAAACAACATG
CTCCTGAATAACTAATGGGTTGATGATGAAATTAAAAGGGAAACTAAAAAATATCTTGAGACAAACATCACTTCTTAAGCAATTTTGTTAACATATTTCT
TTTTCTTCTTTAAAATGGTGCCATAACCTCCTTCATGAAATTGCTGTGAGACATAAATTAGAAAATGCTTGTACAGCCCCTGGTATAGGATCTGTCCCCA
GGTCACTTACAGCAGGTCCCCAGCAGGGGTCATGCTGATCTTGCCATCTCCCACAGTAACTATTGTTAATTGTTTTGTCACAAATGCCCCTGAACAATCA
ATGGGTCAGTGAAGAAATTAAAAGGGACATTTAAAAATTTCTTGAAGCAAATGAAAATGGAAACACAATATACTAAAGCCTATGGGATACACCAAAAGCA
GCCCTTCCAAGAAAGTTGACAGCAATAAACTCCTACATCAAAAAAGAAAGCTCCCTGGGCACAGTGGCTCGTGCCTGTAATCCCAGAACTTTGGGAGGCC
GAGATGGGCGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTAGT
GACACACACCTGTAATCCCAGCTACTAGGAAGGCTGAGGCAGGAGAATTGCTTGAACCCAGAGGGCAGAGATTGCAGTGAGCCGAGATCGCACCACTGCA
CTCCAGCCTGGGCAACAGAGCAAGATTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCAAGCTCATACCTCCAGCCTGGGTTTTGAGAG
CCTGTCTGAAAAAAACAAAACAAAACCCTCAAGTAAAYAACCTAATGTAGCACGTTAAGGAACTAGAAAAATAAGAACAAACTAATCTTCAAATTAGTAA
AAGGAACAAAATAATAAAGGTCAAAGCTGAAATAAATGAAATAGGCACTAGAAAAACAATAGAAAAGATCAATAAACTAAGTTGTTTTTTTGAAAACAAA
GAACATTGACAAAGCTTTAGCTAGACTAAGAAAAAAGAGACGCTACTCAAATAAGAAAATCAGAAATGAGACATTATAAACTGATACCACAGAAATACAA
AGGAACAATTATGAACAATTATATGCCAACAAATTGGATAACCTAGAAGAAATGGATAAATTCCTTGCCATATACCATTTACTATGATTGAATTATGAAG
AAATAGAAAATCTGAATAATCCAATAATGAGTTAGGAGATTGAATCAGTAATAGACCATCTCCCATTTCTATTTATTACTGTTGTTATTCTAAGAGACAG
TGACTCCCTCTGTCACCCAGGCTGGAGTACAGTGGTGTGATCATAGATCACTGTAAGTTGAACTCCTGGGCTGAAATGATCCTTCTGCCTTAGCCTCTCA
AGTAGCTGTGGCTATTGGTGTGCACCACTACATCCAGCTAACTTTTAAAATTTTTTTGTAGAGATGGGGTCTCACTGTGTTGCCCAGGCTGCTCTTGAAC
TCCCAGCCTCAAGTGACCCCCACCACCTTGGCCTCCCGAAGTGCTGAGATTACAGGTGTGAGCCACCCAGTCCTCTGCCAAACCTTTAAAGAAGATCTAA
TGACAGTTCTTCTCAATTGCTTCCAAAAATTGAGGAGGAGAGAATACTTCCAAACTCATTTAACAAGAGCAGTATTACCTTGATACGAAAACCAGACAAG
GATACAACCCAAAACACTATAGGCCAAGATGCAAAAATCTTTAACCAAATACTAGCAAACCTAATTTAACAGCATATTAAAGAGATCATTCACCATGATC
AACTGGGATTCTTCCTAGAAATACAAAAAGGGTTCAACCTGTGCAAAACAATAAATGTGCTACACCATATTAACAGAATGGAGGACAGAAACCATACAAT
CATTTCAGTAGATGCAGAAAAAACATTTGACCAAAAAATATTGTTAACTGTGCTTTCTTTTCTGAACTTAAGAACTTGCTTTTCCAAAACCTTMCCAGAA
TCCCTGTATGAATCAACAAAATTTAGTTCTTAACACATTTCTCCTTCTTTAAAATGGTGACATTAGCTGGGCATGATGGTGTGTGCCTTTAATCCCAGCT
ACTTGGGAGGCTGAGGCAGGAGAATCGCCTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCACTACACTCCAGTCTGGGTGACGAGCAAG
ACTTCGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAATAATGGTGCCATACCTTTCTCATGAAGTTGTTGTGAGGCATAAATGAGAACATACTTGTACAGC
ATCTGGGACATGGACGGCCTCTCAAAAGGAGTGCTGCTGTTCTTGCTACCTGCACCACTGTAACTGATGTTGTTTCATCATCCTCGTCACCATCATTGTT
ATTGATTGTAAATGGAAGCACAGTGGTCATCTTCCAAATATGCCACTCTGACTCTGTGAACTTGTCACTTTATAAAGAGGAAATTCAAGCTTGGAGGGGC
CTTCTGGCATGACGTTTATTGAATTGTGGGGCACAAGATRCTTCCCTGCTTGTTCCATTTTCCTTTCTCTTGTTTATTCTCCTGCCTTATTTATTTATTT
TTTCTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGTTCACTGCAAACTCTGCCTCCTGGGTTCAAGTGATTCTC
CTGCCTCAGCTTCCCGAGTAGCTGGGATCACAGGTGGCTGCCACCATGCSCAATTAATTTTTGTATTTTTGGTAGAGACGGGGTTTCACCATGTTGGCCA
GGCTGGTGTCGAACTCCTGACCTCAAGTGATCTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCAGTGTGCCTRGCTTCCTG
CAGTTTTTTTATTGATTGGATGAATGTTTGTATATCCCATGAGCCAGATGAGGCACACTGTCCATGCACATAGCAAGATGGTAACACTTACACCATCTTT
ACTCTTTTGGGATTAGTCCCAAGCTCCTTGAGAATGACTGCCGTATCACCTGGGTTTTACTCTTCGGTTTCTGGTTGTTACTCCTCAGTCTTCAGCTCAA
TTAGGATGCATCCATTTGGTAGTTTTACAGTTAGTAACCCTGATGGCTTCCACTGGTTTACGATCTTGTACATCTAAGATGATGAAACTAAGGTTCAGAG
AGGTGAGATGACTTTGAGTAAAATTGCATGGTGAGCAACTAGCAGAATTGGACCCTGAAACCAGATTTCTAATGTCCAAATCTTGTCCCTTGTTTATCAT
ATCATGGTGGTTCAATAATAATTCTTCGTGTTTAGTGTGGTGTACTAGAGCTATCAACAGAGAAACTTGAGACTGAGAGGTTTGAAGGGACTAATTCTAG
GTCACACAGCTAATGGATGGAGCAGGTCTTTAATCCCAGATCTGGGTTCCAAGACCAGTCCTTTTCTCTTTACGCTGCTCTGYCCCTGCTATCTKTATGT
CAGAAAACCACTGAGCTTCCTTCTAGATGTCAGGGTTTGGCAAAAAAGTTATCATGTGCTTCTGCGTCATGCAGCGTTTTCTGAGAATGGGGAGAGGGAC
TCATTTTGCATCTTTGATCTCTCTTTTTTATTTTGAGATGGAGTCTCGGTCTTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACC
TCCACCTCCCGGGTTCAAGTGATTCTACTGCCTCAGCCTCCCGAGTAGCTAGGATTACAGGTGACTGCCACCACACCCAGCTAATTTTTTTTTGTTTTTT
TTGTTTTTTTAGTAGAGGTGGGGTTTCACCATGTTGGCCAGGGTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTTGACCTCCTAAAGTTTGGT
CTCTTTTTGTATCAGCTTCTATACAGACTTAACCCCATTTTTAAGTCACAGCCAGCATGGTCAACTTCTGTCAGTTTTGCTTCTGTTCCAAAGGCTTCTG
TTTTACTAACATACACACATACATGTATGCATATGGATTTAAATAAATTCTGGTGCAGGGAAGTCTAGGAGGCAAAGAGAGATAAAACTCTGTGATTGGA
AAGTCACTTCTGGAAACTAGACATATAGAGCAGACCTCACTCTTACATTTCTTTTTGAAGTGCAATAATTTTTTTTTTTTTTTTAACAATATAGGGCCCA
GTCCTGTGTTTGACATTAAAGCTGTTTCCATCAGTCCAACCAATGTGATCTTAACTTGGAAAAGTAATGACACAGCTGCTTCTGAGTACAAGTATGTAGT
AAAGCATAAGATGGAAAATGAGAAGACAATTACTGTTGTGCATCAACCATGGTGTAACATCACAGGCTTACGTCCAGCGACTTCATATGTATTCTCCATC
ACTCCAGGAATAGGCARTGAGACTTGGGGAGATCCCAGAGTCATAAAAGTCATCACAGGTAAGATGACTGGCTCCCAGGGATGATGACAAACCATTTCTT
ATTATGGTGTATTCTAGGGCCTTGTCCGTTCAAGTTGCCTGTTGGAAAGAGAATGGTTTTCATAAACTAGAAGAGGAGAAAAGGTGCTATGTTGTTTCAA
GCCTGGGATTTCTGGTGGCCACATCATTCAGTATTAAGGCCCTATGTGTTTTGGGAAGTTCTAACTACTTCTGTTTGGTTTTTAAAATCTTTTGTTATTG
TTGGTTAACACCTACCTTTCTGTTAAGACTCAGGAGTAGAGACTTCCTTAAAAACGCGTGTCTTCATGGTAATTACCAGCCTTTTAAGCTCCCAGGAAAT
TGATGCTGTGTTTATATTCCCAGGAGTTTCTGTTGGGCAGGAAAGTTTGGTGTATTTTATAGGGGAGTGTGTGTTTCAAATGAAATAAGAGTTTGATGAT
ATTTAAATTTTAATTCAGATTTGACAGTTTAGATTTTGATTTATCTTAGATGTCAATACCGAAGCCATCTATTATAGCTGCAAACTTAGCTTTTTTTTTA
AGCTGAAAAGAACCAAACATTTTAAAAAACAGGTGGAGAAACTTTTTTAAGGTGAGGAGAACCAAAAATTGAAGAAAGAGGTCCTCTGTTAGTTTTCTGA
TCTAGGGGGCTGGGGAGTGTGATCTCAGGGGCTGGAGTCGGCCATGGGCGCCTGAGCTCTTGGAGCCCACGGCTGGAGGTGAACGAGGTCCAGCGTGGAG
CAGCAAATATGAAACCAGTGGCTTCCGACATTTTAAGTCAGGAAACTATTTCTTTAAACAAAACCTTGCCCAGGAGCCCAAAAAGTAAAAATAAAAAACT
GGAGAGAAAAGAGCCAAAGAAATGGGAGTCACGGGCACCCTGACAAAACTCCTGGAGCTCCTCAGAGCACTATTTTAGGGGGGAAMACCTGCCATAAAGG
TTTGCTCTGTTACATTGTGAAAGAGAGGGAAAGGAGAGCACAGAGAGATGACAGAAGAGAAGAGAATGAGAGAAAAGAGCATAGAACTTGGAAATGGTCA
TGAGGACAAGGTGACCCCGAGGGGGTGGCTGTGGGAAAGGGGATGCGGAGGTGCAGGAAGCACCGGTAGAGGGGCTGAGTGTCCTTATCTAGCTTAAAGC
CCTGAGCACAGGGCTGCATGGGAGCAGGTCCATCAGCTGCTGCGTATTGAGCACGGCACATGTGCCTCTCTGTCCTTAATGTTATTTTGTCCTCACAGTA
ACCCTGGGGGCTGCAGCAGAAGACACTGTAATGTGGAGAAGTTAAGTTTCTTCCGGTGTCTCAGAGTTACTGAGTATCAAGTGGTGGGGCTGGAACCCGG
AGTCTAACTCTAGACCACTGTGGTGCAGTGATGTTCATAACAGCTATCCACAGTCACCGAGCTRGGAATTTATTGGTTCTGCATTACTTAATAAAACAAA
AAGACGCATGACTGACCTGATTTAGAACTCTTTGCATGAGAGACATGTGCTGTGAAGAATCATCTTACCGTTTCGGAGCTGGACRGTGCCTTAGAATCAT
CTAGGCCGATGTCTTTACCTTCAGGCCCCTGCAGCCCTCAGGAGGGGTTTTGCTCTATCTGCAGCACTACCTGTGCTTTTCTGTACATGAAGCTGCAGCC
CTGGGTTCTCCTGTCCCCACTGCTACCAGGAGTGTGTGTTCTTGAGCAAGCCCCCCTGCCTCTCTGGGTCTTCGTGTTCTTATTGGAAAAGTGAGGGGAG
TGCATGTCATTTTGGGTGAAGTGGTTTGACTTATGTCACCATCAACCAAATAACGCGATGGGAGGAAGGTCCAGGATATAGTGGAGATGGAACGTCTTCT
GAAAAATCCCCTTGGTGCTGGGATATTGAATGTGCTGCTTACTTGAAATGTCTTGGTAATTTAAAATGATATTATTTGCATTATCTTGAATTGAGACCTT
TAGATTAGTAAACAGTCACTTTATTTGAGGCTTTGTTCCTGATATCTAAAACACATACAATTAAATGCTACCATTTAAAAGGGACAGTTTAGAAGAGTGT
CCAGTCACTATTGGGGTTAATCTTGGAGAACAGTGTGGATCCTAAACAATTTCAGTTTTAAGGTTTTTTTCTTCTCTTCCGTGTTATTATTTTCTCCCCC
AGCCCTGCTGTGAAATGATGGAAATGCATTGGGCTCTGATAGAAAGGAAGTATTTTTAGTGAGTCACATTGGGACATCAGTGACCTCAGTCATTCTTTCT
TTTTTTCTTTTAAAACCCGCTCCCAGCACTGAACCCCAGTCATTCTTAATGAAGGTGACTGCATATATCTTGTTCCATTAATGCATGTTGTATTTTTAAA
ATAGARCCGATCCCAGTTTCTGATCTCCGTGTTGCCCTCACGGGTGTGAGGAAGGCTGCTCTCTCCTGGAGCAATGGCAATGGCACYGCCTCCTGCCGGG
TTCTTCTTGAAAGCATTGGAAGCCATGAGGAGTTGACTCAAGACTCAAGACTTCAGGTCAATATCTCGGGCCTGAAGCCAGGGGTTCAATACAACATCAA
CCCGTATCTTCTACMATCAAATAAGACAAAGGGAGACCCCTTGGGCACAGAAGGTGGCTTGGGTGAGTTACAAAGGGTACCTTCYGTCTCCCTTACTGGT
TCTTACTTTCAGTAACTAAATGTTCTAAAAAATAAATTGCTCTTCCATGTGTATGGAGATTTAGAATTTATAAAGGGCTTTTCCTCCACATTTTAGTTTG
ATCCCCCACCTGCATGAGGAAGGAAGGAAACGTGTTCTGATTTTACAGGGGAACACAYTGGGGCTGAGAACAGCAATAGGAATTGAAACTTTTTAGAGTC
TGGCACCCAGGAAAGTTAGAGGCCCCTTTAGCTTTCTATCTAACAGCTGTGTCAACCCAAGTTGGGCCTTCAGAGGAACTTATCACGTCTGCTGGTTGAT
GTTGGCGTTGTCATTTGCAGGTTTCATAGCATTTGCAGAGGATCCCCAGGATAACTCCATGAGGAGGACAGGCACTTAATCTGCATTTTATACTTAAGAA
AACAGAGCTACAGAGTGGGTGTCAGGATCCTTGCTTGCGAGTGACAGAAACCAGACTTTGGATAGCTCAGACAGAAGGAACAATTTATTGGCTCATGTGG
ATTTTCCTGCTAGCGGGAGGCCTTAGAGAAAGAGATGAGGCAATTCTCATCCCTCCCTCTTGCTTCTTTCTGTTCATCAGCTTCATTCTCAGAGCAGCTC
CCTCTGCACACTTAAGGAGCCCAGCTGCTCCYGTTTCACACCCTGCAGCTGCCYCACCAGCCAGCTGCCCCACCAACCAGGGTCTGGTCCAGGGAAACGT
GTCTTGAGTGGGGTCTGATTAGCAAAGTCTGCTTCACAGAGCTGTCCCTGGAAATCCATGCTGGGACAGGAGAAGATAACAACCCAAAGAAGGGAGAATG
ACCTGAAATAAGCAGAGTTTGAAAGAGAAGCACCAGATATCTGTGGTGCTACTGGAATAACAGTACAAATGGAGATGGAGCTATCAGGCCTTTTTATGGG
GCTGCCTCTCTCTCTGGAGGAGGAAGGGAGCAGATATTGATGGAGCACCAACTGTGGCCACTGTCTGATGGCCATCTGATGGGRTTGGGGCTCCGAAGGA
AAATGGGGGATGTGTCCCTCTTGTGGTTGATGTCTTTTTGTCTCCTGTGCTTGAAACAGATRCCAGCAATACAGAGAGAAGCCGGGCAGGGAGCCCCACC
GCCCCTGTGCATGATGAGTCCCTCGTGGGACCTGTGGACCCATCCTCCGGCCAGCAGTCCCRAGACACGGAAGTCCTGCTTGTCGGGTTAGAGCCTGGCA
CCCGATACAATGCCACCGTTTATTCCCAAGCAGCGAATGGCACAGAAGGACAGCCCCAGGCCATAGAGTTCAGGACAAGTAGGTTGAACTTTGTAAAATG
GTGGCAGCCAGAGTTTCCTAGCACAATGTTCTGTCTCCTGTGATTCTGATTCTGAGTGATTTCTTGCATAACAGCTAGTTTTGATGTCAGAGGGAGCTTC
CTGGAGGAGATTTTGGACAGAGCAGATCTGCTCAGTTTCTTCTTAACTCCATGGGCAGTGCACATCTCTCATTAAGTGAAATCAAATACATGGAGCAGCC
CCTGTGTGCGGGCACCAGGCACTGCCTCACGCCATCTTTCACAGCTTTGCGTGGTGGCTGATGAGACAAACTGGCATCATACTTTCCTCTTAAAAACAAA
TAATCATTGCTTGTTTTTCCTTTGCTTTGAGTTAAGAAAGTTATGAAAGTGAGTTTCATTTTTTCACCCGCCTTGTAATTCATACCGATCTTTCTGTTGA
AATGCTTGTTGACATGCACATTGCTGCTTCCTCGCTATAATTTATCAGCACTTTCACTCTGTAAGTTCACCAATATTTGGAGGCTTTGGTGAAAAGAGCG
GGAGGTGAACACATTTGGGAATACTTAGAGGTAGTTACTGGCCAGGCTGTGTTACTTGTACAGGGCTAGAAGTTTTGGCAAGACATTGGTGAGAAGCCAT
TCTGTAAGGAATGACAGTTTTTCCTGGTATCCATGTTGAAGGAGGGTCCATTTGTGTCCTTCCTTCCCTTTGTACTTGTTTTGCTAATGTGGGAGTGGGT
GGGGAGGATGCGGCCGTAGGACAGGCTGCCTGACCTCATGGGGCCTGCAGTGACCTGGCAGGAGTGGCAGGTGGGAGGCTCTCGGGTGAGGAGGGCTTGG
ATTCCAGAGGGTGGGTTAGTTGGAGGAGGAGGAAGGGGCTCCTATGTGGGTGCGGTTGGCAGTGGTGGGGTGTCCTGCACATGGTAAGCTTGCGTGAGAG
AGTGAAAGGGGCTGAAATCTGGTCTGTGTGCCCTGCATCAAGCCATGCACCCAGGGCTGGGTCCAGCCAGGGGAAGGTCCCTTTGACTGATTTGCTAAAA
GGACTTGTAGATTTGTGTGGGCCTGGGGTCCCTGCTTTTTAAAGCAGTTTGAGCAAAAGCAAAGTAGTAGTGATTACATCTCAGGCTCTTGGTGGTGTGA
ATTCACACACATCCTGCTTTGGGTTGAACTGTCTTCATGCTTGGTAAATAATCATTATAGTAGCCTTTCCCTCTCTATAAGGGGCGAGTGTGTGTGTATA
GATAAGTCTTAGTCAGTTTGGGCTGCTGTAACAAATGGCCATGCACTAGATGGCGTAAACAATGAACATTTATTTCTCAGGGTTCTGGAGGCTGGAAGTC
TGAGACTGGGGTGCAGCATGCCTGGGCTCCGGGTGAAACACCCTCTTCCTCTTCCAGGTTGCAGACTCCCTGGGTCTTCACGTGGTTGAAGGGGTGAGGG
CGTGGTTTCTCTCCAGCCTTTTTGATAAGGGCACTAATACCATTCAGGAGGGAGGTAATTCATGATCTAATTACCTCCCAAAAGCCCCGCCTCCTAAAAG
CATCACATCAGGGGTTACAATTTCAACATAGGAATTTTATGGGGACAGAAACATTCAGTCTGTTGCAACACACACACACACACACACACACACACACACA
CACACACACATACAGATAAACAAACACACATTTCCACCCACCCCAGAGCACCCTGCACTTTTCAAGTGACTAGTTAGGTGGGGCAGGGTTAAGGAGACCA
TCAGAGGACATTGTTGAGGCACCCAAGACACGACAGAAAGCCACCTCTAGGGCTGAAGGGCTAGAGGAGGACAGGGTGTTTCTGGAGCCCAGTGAGAGCT
GGGGCAGTGGTGGACACAGCTGTGTCAGGACAGGAGGCCCAGAGCAGGAGGYGATGGAGGAAGGCACTGACTCCTTTCTCCTGTGGCCCTTCAGGGGCCT
GCCCATTGGCTCATAGTGGAACCCGGTCACAGCCCATGTGGCAAGACCCCCCATGATGCCTTGCACAAGGTCAGCCTCCTGGGCCCAGAGCAGGTGAGGG
AAGGGCAGTGGATATGTCGGGAGGRTGGAGTGGGCAGGTGGTGAATAACTGGCACTCGGGTTATCTTTTCTTGAGGTTAGGATTGCTCTCCAGTTTTATA
GGTGAGGAAGCTGAGCTCAAGTGGTTTTCCTGTGGCCCACCTGGGTGTCATAGCAGAGTGAGCCCTGGAAYCCAGGCCTGCCTCRTCCTGACTTCTGTGA
TCTCGGGCGATCACATAGATCGCAGTGTTCGCTCTTGCATCATGTGTGTTTGACAACTTTTCTGGGTGCCCCTGGCCCTAGGGTAAGACATGCATAGAGT
CCAAGTCATCATTTAGGTCAAATCTCTAAAGTCAACTTACAAAAAGGAACAAAGAATAACCCTGCAGGTGCCATTGGCCAGGTTGTTTCTTCACCGCCCA
ATGATGCCTGACTTTGGCTGGGACCGTCATGCTTTCCTAGCCACGGTTGATGGTGCAGAGGAGGAAGGAACACTCCCCCAGGAGAGTTTGCTGGGCTTGA
CAGCATGCCCTGATGACCTCTCCCTCCCTCTGCCTTGGCCGTTCTGGTTATTTTGAACTCCTCTTGTGTTCTCACAGATGCTATTCAGGTTTTTGACRTC
ACCGCTGTGAACATCAGTGCCACAAGCCTGACCCTGATCTGGAAAGTCAGCGATAACGAGTCGTCATCTAACTATACCTACAAGATACATGTGGCGGGGG
AGACAGATTCTTCCAATCTCAACGTCAGTGAGCCTCRCGCTGTCATCCCCGGACTCCGCTCCAGCACCTTCTACAACATCACAGTGTGTCCTGTCCTAGG
TGACATCGAGGGCACGCCGGGCTTCCTCCAAGTGCRCACCCGTGAGTTCATGCCTGGCTCTCACCACCCTTTCCTGCTGTCCTGCTCCGTGCCAGGCCCA
GACACAGGATGCATGATGTAGTAATGGTGACTGTTGGCTGACCACACGCCAAGCTTCGTGTGACATGCTTTCCTTGCACTGGCACATTGTATGCTCACAA
YAGCCCTGTGATGTGGTTGGAAGTAGCCTTATTTTATAGATAGGAAGCCAAGGCTGAGAGAGKTGCTAGACAGGTATCACAGCTGGAAAGTGGCAGAGGT
GAGATTAAGCCTCTGGTATTTCTCACCTGGAGCCTGCGCTTGTAACTCTCTTTCCAGTGTGGAGGAGACCTAGAGTGAATTGATACAGGGAGACAAAAAT
GACCTGGTATTCATATCCCCTTGTGTCTTGGGTGCTGACATTATAACGAATCACTGGCACAGCTGTATCTCATCTTTGTTTGTTTAAATGTCCCTTAAAA
ATAAGATTTTATGCAGCAAATAAAAAGCTTTAGGTTTCAAAGAAGGTCCGATAATGTAAAATAAAACAGTAATGGTGCACTAGTAGTACAGTGGTATAAT
ATTGATTATATACTATTAAACAATAGTAGTGACACCAGCACTGCATTTTGCACTGTGCCATGAGATTTATAGACACTGTAGTGGCCTCCGAGGTAGGTAT
TGGGGTCCCCTTTTACAGATGAGGAAATGACACCCTGATGGCTGAACAGTTTGCCCAAAGCCACAGAGCTAGTGAGTAGCAGAGCAGGACTTGAACTCAG
GGGTGTGTGGCTCTGGACCCAGGCTTATCCCACAAGAATGTCCATTCCTTCGCAGGAAGCACACCTTAGCATTCTTATAGATGTATTTTGGACTGGATCT
TTGGGAAAATGAAATATGCTTGCATTTCTTTACCTTTTACTCTTTTACTATTTATTAGTTAGGATTAGGTTCAGCCACGAATAACACCACCAAAAACAAC
AACAACAAAACCCAAGTATCCRTGGCTTAAACAAGACAGGGGTTTATTTCTCTCTCCTGTAACAGAAGCCCAGTGCTAGGCAGGATGGGGATGATAGAGG
TTATCCAAGGCTCAGTTGTATGAAACAGAAACTGTGAGCTATTTTAACCAAAAGGGACTTATCCTGGGAATTGAGGTTTTGCAGAATCATTGGAAGAGCT
GGTGTATTAGTTTGCTAGGGCTACCAGAACAAGTACCAAAGGCTGTGTGGCTTGAACAGAAATATACTTTCTCATAGTTCTGGAGGCTGAAGGTCAAAGA
TTAAGGCAACGGCAGGTGTGGTTTCTTCTGAGGCCTCCCTCTTGGCTTATAGATGACTGTCTTCTCCCTCACATGGTTGTCCTTAGTCTGCGTGTGCCTA
TGCCCTCATCTCCCTTTATAAGGACACCAGTCTTGCTGGATTAGGGCCTACCTTCATGACCTCACATTAACTTAATTACCTCTTTGAAGACCCTGTCTCC
AAAGACAGCCACATTCTGAGGTCTTGGGGGTTAGGACATAAACATACACATTTGGGGGTGAGGGAGCACAAGTCAGCTCATAACAGTTGAGGAGCAGGCT
TTAGGCCTCGCCCCAAGAAATGACTCCTGGACTAAGTCTGCAGAACTGACCCCCTGGAGAGTCACCACCTTGGTCACAGACAGCAGAGGGAGGAATCAGG
AAGTCTCTGCTGTAGTTGCGGGATCCAGGGGTSTATGTTCTGAGCTGTGATCCTGGGATCAGGAAGCTGCAGCCACCGCTGAGGTTTTGGTTCTAGAGCC
AGGCAGCGTGAGCTCCAGTCATTGCATCCACACTACAGGTATAAGAAGGAGGAAGGGCAGAAGGTTGTGCCCCACCCTTAAAGGACACTTCCTAGAAGTC
ACCCAGTACCTCTGCTCATGCTTCGTTGAGCAAAACTTAKTCACATTGCAACATCTAGCTCCATGGGAGCTGGGAAATGTGGTCTTTGTTTCCAACAGGT
ATGCACACACAGGGCTAAAAATCTGGGTGGGTATGATGAAGGGAAAATGGGGGAATGGATTTTGGGGGTCAAGACTGGTCTCTCTCTGCTGTCCCTCCCT
GAACAGAGGCTCTGGGAGGCTAGTAATGCATTCGAGATAAAGCAGCCAGTGTGGCCAAGGTTCTCCTCCAGAGCCTGAGCCCTTGACCACAGGAGCTCAC
GCCTCCTCTCATTTCCTGTGAATGATTGTGTGCAATGTAAGCACAGAGCTTCTGCACTCTCATGATMAAGTGCTCTCTCCATGGCCAGAAACAGCAGTTT
CTGAGGGGCTCATGTTGTAGGTGATGATACAAAGAAGACAGAGAGAGGGATCAGGTGTCCTAAGTGTACATTTCATCTCAGTATTTTCTGAGGTGGGGCA
TCCCTGTCTCCTGGAGAAGTATATTTTTAATCTAGTTGTTTACTTTCTTTGCATAGCCCCTGTTCCAGTTTCTGACTTCCGAGTGACAGTGGTCAGCACG
ACGGAGATCGGCTTRGCATGGAGCAGCCATGATGCAGAATCATTTCAGATGCATATCACACAGGAGGGAGCTGGCAATTCTCGGGTAGAAATAACCACCA
ACCAAAGTATTATCATTGGTGGCTTGTTCCCTGGAACCAAGTATTGCTTTGAAATAGTTCCAAAAGGACCAAATGGGACTGAAGGGGCATCTCGGACAGT
TTGCAATAGAACTGGTAAGCAAATAGGCTTTTCTGTTAAACCATCATGTTTCTTAAAGGAAATCAGTATAATTAATAAACATAATGTTTCCAAATATTGT
TTTTSTTTTAATTATCTAAGAAAAAACTTTAAAAATTTTCATAACACTAATGCTTATTTATTATATGAAATACAGACAAGTAAGTAGAAAAAACTTACAT
GGAAACCATCAAGCAGAGATAATCACTTTTGATGTATGACATTTTACAATTTTTAAACATATACATATAGATACACAAATATATGTGTGAGTATACATAT
ATTTAATACATATATATTTAATATTTAATACACACACACACACACACACAYATATATATATATATATATWTTTTTTTTTTTTTTTTTTTTTTTGAGACAG
TCTTACCCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCATCTCCTGGGTTCAAGTGAAGCGATTCTTGTGCCTCAGCCT
CCTGAGTAATTGGAATTACAGGTGTGCACCACCATGCCTGGCTAATTTTTATAGTTTTAGTAGAGACAGGGTTTCGCCATATTGGCCAGGCTGGTCTTGA
TCTCCTGATCTCAAATGATCTGCCCACCTCAGCCTCCCAAAGTGCTTGGATTACAGGTGTGCGCCACTGCACCCAGCCCACAAATATATATTTATTTCTT
TCACAAACATTGAGGCCATCTGTACATGTGGTTTTGTAATCTGCCTTTTCCCCAACTTGCCAATTAATTATGAATATTCTTTCCTCTTAATAAAATATTT
CTACAGGATGATTTGAACACCTGCCTGGAATTCCATCATCTGAAACAGAGTTGGCAGATAAGAATGGCCCCTATGCCAAATTTGGCTCATTGTCTGTTTT
TGTAAATAAAGTTTTATTGGATCACAGCCATGTTCATTTGCTTATGTACTGTCTATGGCTACTTTGGTGCTAGAATTGAGTAGTGGCAGCAGAGAACGTG
TGGCTTGTGAAGCCTGAGATATTTATTTTCTGGCCATTACAGAGAATGTTTGCTGACCTCTGGGCTAGATCAGTGGTTTTCAAATTGTGGTCCAGGGCTC
TCTAGGGATCCCTAGGTTCTTTCAAGGGGTCTCCAAGGTAGTATTATCATAACAATACTAAAATGTTATTTGGCTTTTTCATTCTCATTCTCTTTTGGAG
TTTTCCAACTTTGATCCGATATGGGATGACATTGTCTCTCAGGTCTAATGGAATATATGCTGTGGATTCTTACATTTTAAAAATTTCTTCATTTTAAATC
CCTGATATAGTAAATATTAATAAATATAACCTATGTAAATACAAATTCTCTGAGAGCCTTAATAACTTTTAAGATGGTAAAGAAGTCCTGAGAGCAAAAA
GTTTAAGAACCTCTGGTCAAGATGTGTTAGAAATTAACTACTGTGCTGTGTTGGGCAGGTGGACTGTTCACAGTCTTTCCTAAACAACACTGTGATGAGA
TACTTTGTTAGTTCTAGAAGGCTAATTGAAATTGATAAAATCATTTTATAGTCAGCTACGGTGGCCTGCACCCATCGTCCCAGCTACTTGAGAGGCTGCG
GCAGGAGGATTGCTTGGCCCAACAGTTGCAGACTAGCACCAGCCTGGGAGACCCTGTCTCAAAAAAAAATTTTTTTTTATAGAAACAGTTTAAATTATTA
AATTRTTTCTAGGCCTACAGGAGAAACTTCTGGGAAATCCTAGAGAGTAATGTTCATTATTGTTGTTTTAAAATTTTGAAATAATTGTTTTTTGGAAAGG
TTGAAAAACATACAGTCTTCCTTGATCTAAGATTCAAGATAGTTGAAATCTTTTATACAGAGGGTAGAATAAAGATATACCTAATGTAAATGATGAGTTA
ATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTRTAATAAAAACATATAT
ATATATATAAAAGAAATGGGACAGATTCCTTGAAACACACATGAAATGAGTTACGCTTTTGAGATTCTCCTTGAAGAAGCTTCTTCAACTGTGCTGGTTG
GGTTAAGCACCGATAGTCACTCAGAGGATCTGCTTCTGAAATAAGGGATCTACTAAAATGCATCCCTCAGATGAAATGCAGTATTCCCTTTGCAAATCTG
CATTTCAGACTGTTGACATGACGTCTTAACGTCAACATGTTTCTTCTGTCTTTTAAGGATGTGGATAATGGTAAGAGGATCACCACTGAGGGAGATGCAT
GATGTTGTGCTACTTGCTATTGCCCAGAACTTACTGTAACAATAATATAATATGCTGGGGGTCTGCGAAGTGCTGAGTGCTCTCATACTGCATTTTACAT
TTTTAACACAACTTCATGGAGCAGGTATTATTATCATTTCTGTCTTACAGAGTAAGAAATGGGGGCTCTGCAAACTTAAGTAACTGGCCCAGAGTGACAA
GGTGGCAAACTGACCTGTGTCTGCTGTCTAAGACCAAGTGCTTAACCACCATGTAGATTGACACTTTGATGTGGTACAGCAGTAAAGTTTAGTATTAGTG
AGGAGAGGGCATCTCTTTTACTATAGTTTATTGTGAATATTCTTTCCTCTTAATATCAGTATTTCTACAGGGTAATTTTAACACCTGCCTGGAATTGCAT
TGTCTCAAAGGACCCGTTTCATTCAATGGTCCCATTGAATGAAAGTCAAGAAGGCTTGCTATAAGATCTAAACTCTTAGGGGGGTTACCTTTCTATTATC
AAATAACCTTTATTGTTATTGGAAAAAGTCAGCTTAACAGCATTAAAAGCAATTTCAAAAAAAGGAAACGAATACCATATGATCCAGTAATTCCAGTCCT
ATGTATATCTCCAAAAGAATTGAAAACAGGCCCCTGGACAGTTATTTGTACATCAGTGTTCATAGTAGTAGCATTGTTCACAGTAGCCAAAGGTGGACCC
AAGATCCCATCAACAAATGAATGGATAGATAAAATGTGGTTCATCCATACAACAAAATACTATTCAGCCATAAGAAAGAAAGAAATTCTGATTTATGGTA
CAACATGGATGGATCTTGAGGACATTATGCTAAGTGAAGCCAGACACAGAAGGACAAATACTGGATGATTCCACTTACATGAGTACCTAGATTAGGCAAC
TTAATATTCTACAGAAATTAGAATAGAGGTTACCAGGGGCTGTTCAGAGGAGGGAGTGGGCATTATTGTTTAATGGCTACAGTTTATGCTGGGGATAATG
ACAGTGTTTTGGGTACAGGTAGTGGTGATAGTTACACAACATTGTGAATATTGATGATACCGAATTGTACACTGACAAATGGTTAAGATGATAAATATTA
TGGTATGTATGTTTTACCACAATAAAAATGAAAAGGAACAAATATCTCTATTTTTCTAACCCAACTGAATTCCTTTTCTCTCTGTGTCCACAGTCATACA
TTTTGCTTGTATACTGTAATTATTATACAAATACTTTTATTTTGTATTTGAATTTCTTTTTACTCAGTCTATACCACAACTTTCCCCTATAGTTAGCATG
GCCTTCATATTTTTAGTGGCTAAAGAGTATTTCATCATGCAGCCAGATCACAGTGCCCACAGCCCTCCCCATGTTATTGAATATTTAGGTTGTTTCTAGG
TTTTTATGTTTATAGACAAAGGCTGCCTTTCATGGGCTTTTGTCTGTGGAATCCCTTTGACATCAGGAATCTGCTGGTAGGAAACAAAGGCTCCTCCCAG
TGGCTTCTCTGTAAGGAGAATCCACTTAAAATTAAAAAAAAAATTAATTTTGGAGTAGATAGTACGTAAACATGRCACAATTTTTTTTGTTTTTTGGACA
AGGTGTTTGCAGTGAAAGCATTTCCCTTTTTTGTCCCCTACCTGCCCATTTCCTCTCCCTGGAGGTGACGTTTGTTGCCAGGTAAAGAGAGACAGGGTTG
AAAGCCGCGGTAGAAAATAGGCCCAGCCTCCGCGGTTACTTCCGGGCCTCTATGTAGGCATCCCTGGTGCAGGTGGCTGAGTGGGCAGCGGGAGATGATC
GGAGGATGGGCTCCTGTGGGAGATTCCATTTCTGACTCTGCTCTGAAGGTGCAGGGTGTGCCTGTTTTCTTCCCTTCCTCATCCGTCCTCAAATGCTGCA
ACTTAGTAAAGGTCAGCTCTCCATTTCAGTTTTCCTCTTTGGTATGTAAGGCTGTGTCACGGGAAGATGTTTCCTTCTGAGTGACTGATTTAAAAAACAC
AACAAAACAAAAAAACCTCTTTATTGAGATATAATATACATACCGAAAAGGGATGTATCCTCAGCACATAGCTTCATGAACTTTTACAAACTGAACACAT
CTTGTTACCAGCACCCATATAAAAAAACTGAATGTGATTTCCACTTCAGATGACCCCTTGAAGGGCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTC
GCTCTTGTTGCCCAGGCTGGAGTGCGATGGCGCGATCTTGGCTCACTGCAACCTCTGCCTTCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTA
GCTGGGACTACAGGCATGCACCACCACGCCCGGCTAATTTTGTACTTTTTTTGATAGAGACGGGGTTTCTCCATGCTGGTCAGGCTGGTCTCAAACTCCC
GACTTCAGGTGATCCGCCTGCCTTGGCTGCCCAAAGTGCTGGGATTACAGGCGTGATCCACCGCGCCTGGCCTTTTTTTTTTTTTTTTTTTTTTTGAGAC
AAACCCTCATTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATATCGGCTCACTGCAACCTCTGCCTTCTGGGTTCAAGCGACTCTTGTGCCCCAGCCTC
CCGAGTAGCTGGGATTACAGGCGTGTACCACCACACCCAACTAATTTTTGTATTTTTAGTAGAGATGGGTTTTCACCATGTTGGCCAGGCTAGTCTCGAA
CCTCTGACCTCAAGTGATCCATCTCGGCTTCCCAAAATGTTGGGATTACAGGCATGAGCCATTGCACCCAGCCTAAGGGCTCATTTTTAAGACAACAACA
AAAAACTGGAGAACTGGTAAGATAAACTGGGAAGTTCATGTGCGTCACAGAAGAGCTGAAATTCTTGAGAGCACTGAGTGTGTGCATTTCTCAGCTCGAT
TTTGGAGTGTGCCTTTTGTGAACTCATTAGAAAGCGTAATGGCAAAAGAGCAGGTCCTCTCGACAGCACTTGGAGAGGAAGCTGGGCGTCATGATAGTAA
CAGTTTTCCCTTCTCCTTCCTTTCTTCTGAGCAGTTCCCAGTGCAGTGTTTGACATCCACGTGGTCTACGTCACCACCACGGAGATGTGGCTGGACTGGA
AGAGCCCTGACGGTGCTTCCGAGTATGTCTACCATTTAGTCATAGAGTCCAAGCATGGCTCTAACCACACAAGCACGTATGACAAAGCGATTACTCTCCA
GGGCCTGATTCCGGGCACCTTATATAACATCACCATCTCTCCAGAAGTGGACCACGTCTGGGGGGACCCCAACTCCACTGCACAGTACACACGTAAGTCT
CTTAGGATGCCCYTCTAAGGAACAGCCTCTCTAACTGTCTCTTGGAGGAGGCACTGGTTAAATGATGGCCAGTGTGCTTCTGGGATCCAGGTTGACTCTG
AAACTGCTGAAGTTGAAAACATTGGTCTCAGCAATGGTTCTGCTGTCACCATGGGGCACTGTTCTTCAAGCTATGTGAACTTAGAATTGTCATTAGAAGG
AAGAAATGATTCCTTGGGAATGGTGACTGAAATGGTTCTAGTCATTCCTTGAGAATACAGAGTAGAGAAGGGTCACCTTGTCATGTTGGTATTGGAAGAT
ACTGCCCAGATGAGGAGCTTCGCCTGCAACAGTTAGGGAGGTGTTTTGCGAAYATTTGAATTAAATACATGGTAAAGATGTTAGTTTGTAATATGTTTTT
AGTATATTTTTCTCCATCTATTAGATTTAAAAAACAGATTAGAAATTAAATGTTAAAAATATRTTTGAAATAAACTTGAAGTATTAAAAGAAGCCTAAAT
TAAACTTCTTTTGAGACTTAATCTGTATAATTATTTTCTTGATGTGTTTTTGGGAAGTTTTCCATCTTTTGAGCCAGCAAATACTAGTTTTATTCATTCT
TTCTAAAACGAGCCAGGCTATTTTTGGATATAGTAAATAGTCCTGGAATTCTACTTAATCTGTGCTTTTACATGAATTGCCTTTTTTTTAAAATCAAGGG
CCCAGCAATGTGTCCAACATTGATGTAAGTACCAACACCACAGCAGCAACTTTAAGTTGGCAGAACTTTGATGACGCCTCTCCCACGTACTCCTACTGCC
TTCTTATTGAGAAGGCTGGAAATTCCAGCAACGCAACACAAGTAGTCACGGACATTGGAATTACTGACGCTACAGTCACTGAATTAATACCTGGCTCATC
ATACACAGTGGAGATCTTTGCACAAGTAGGGGATGGGATCAAGTCACTGGAACCTGGCCGGAAGTCATTCTGTACAGGTGAGTGTAGCCCCARCTGCCTC
TTGGACTCCTCCCTGAGTGGTGCTGACCTTGCAGGTCAGTCCTCCCAAGTCTGTAGTTTGTCTGGTTTTGTGTGATGTGCAGTGATGGACATTGAGCTTT
CCGAGGCATCCTGTTAGCTTATCGGTGCTGTCTCGATGCCCTCATCATTTCTGCATTCAATAAATATTTATTGAGCATATACCATATGCCAGTCAAGTCC
TTGCCTTCTTGGAACTTTTCGAAGGAGGAAGTGGGATGTTTACCTAGAGTGCTCAGGAAAGGCCTCAATGACAAGGTGACTTTTGAGCAAAGATCTGAAT
GAAGGGAAGGAGCCAGCCATGTGGATATCAGGGCATGAGAACATTACAGGCAGAGGCCTGTGCAGAGGGGCCTGTGCAGCATCACCACTGTATCTGGAGG
CTGGAGGAAGAGCAGGAGGCAAGGGTGGGAGGAGTGGACCCGCAGGAACAGGAGGATATAGGTGGGAGGTGAGGCCTGAGTGGGGCTGAGCCAGGATGTG
GATGATATCTGGCATTGGTTTGTCTTTTGTGCTGGAGAAGATGAAAAGTTTATTGAAATGATGCCCAGCCTTTGCATCCTTCTTGATCCTCACCTATCTC
ACAACTGAAAATGTGTGATAAAGAGAAGAGCCCTCTGTGTAATTGAGGATGCTTTCAGGGCAGCCCAGGAAAGGCTTTGCAGACAGTGGTGGGCACTTCT
GCTCACAGTGCTGACTGTGGCACCTTTATCACTCAGCACCCGTGCACTACTCATTTTCTGCCCTTCTCGCTCCTACCTCTTCCCTTTTTAGCCCAGGCCA
TTCAGATATGTTCAGGCTGATTTGGAAGTGATGGTCTCATGGGATCAGCCTCCCTGGTAGTATAGGAGCTCCAGCCTTGATGGCCTCTGGCTTTTCAGTG
GTGAGTGGGGTGGCCACAGAAATCCCTGCAGCTTTGGGTCACTTCTGCTCCATCCCACCTGGTCTAGACACCCATCTTTGATATTTGGGTGCCTTTCATT
GCTGATATTTATCTTAGCTATAGTTATTTGTAGCCTATAGCAAGAGAAAAACTGTATCTGAGCATTTATGACTGGGTGTGGGTGGAACAGGAGCTGTAAA
AGTGGGTGCAGTGTTCAGGTTACCTTTCCAGGCCCTGGGTGGCAAATGTGGGTGTTGCACTAGGTGCCTTGGTAGAGCTTCTCCTGCTCTAAAATTCTGT
GACATTCAATTAATGATAATACTGTCCTCCAGTTGTAATATGGAGTTTTCTATTTACATCAGTTTGATGTTAGTCCTCAGTAAAAATCTAATGGCCCTCA
GATAGAGACAAATAACACTCTATTTTGAAGATGAGGAAACTGATGCATCATCAATGGATGATGCAGTATGTTATGTGAGTAGAGAGTGTCTTGAACTTAG
ACTTAGAAAACCTGGGATCTAGTTTTGGCTTCACCACCTGCCATGTCATCATCAGCCAATTACTTAACCTCTCTGAGCCTCTGTGGATTTATCTGCAGAT
GGGACAGTATAGGCCTCACCTGTCTCAGAAGTATCATCAAGAGGGCCTTGGCTGGGCTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGG
TGGGTGGATCAGGAGGTCAAAAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCATGTCTACTAAAAATACAAAAATCAACTGGGTATGGTGGTGCA
TGCCTGTAGTCCCAGCGACTTGGGAGGCTGACACAGGAGAATTGTTTGAACCCGGGAGGTGGACGTTGCGGTGAGCTGAGATTGCGCCATTGCACTCCAG
CCTGGTCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAGGGGGTCCTCATGATGAGATGGTGCAAGTGAGGAGGTTGCTACTTCTCACAGGATGATACAG
CTGACTCTCATGGAGCCCTGGTCTCTTCCAGGCGTCTTTCTTGGTGCCTGACATCATTGTTCAATTTACTCTTCAAAGAGTCCTGCAGCTGAGGCTCAGA
GCAGTTGGGTGACTGACCCAAGCTCACACAGTTTGGTGTTGCCCAATTTAGGGTCAGCCCCTGCCTCTTCCACCACATCACCCACCCACCTTCTCATCCC
CAGGATTCTGCTACTCCCTATTTCCATGTTTGCAAAGGCAAAAGTCCCGGAATCTCATGCTGTGCTGTACTTGCTTTGCAGATCCTGCGTCCATGGCCTC
CTTCGACTGCGAAGTGGTCCCCAAAGAGCCAGCCCTGGTTCTCAAATGGACCTGCCCTCCTGGCGCCAATGCAGGCTTTGAGCTGGAGGTCAGCAGTGGA
GCCTGGAACAATGCGACCCACCTGGAGAGCTGCTCCTCTGAGARTGGCACTGAGTATAGAACGGAAGTCACGTATTTGAATTTTTCTACCTCGTACAACA
TCAGCATCACCACTGTGTCCTGTGGAAAGATGGCAGCCCCCACCCGGAACACCTGCACTACTGGCATCACAGGTGGGCTACAAGGCAGGGGCTGGTCAGT
TGGCACTGTGATCACTCCTGGAGCGGCTGACCCACAGTGGGTCTGCACGTGTGGACTAGAAATCTGTTTTTGTTTTTTTATTTCCCCTAAAATATTTGCT
TTTACTGACATAGACTGGTTTCTCATTCTATAGAAATCAATCTAAAAAAGCAGAGTAAGAGGGGCTCATTTTTTACATTCTAAAAGATTCCTTTTCTTTA
CAGCATAACTCATTGCCTCATTGCCATGTTTTCTTTTATATTTTTTTGAGATGGAGTCTTGCTCTTGTCACCCAGGCTGGAATGCAGTGACGCAATCTCA
GCTCACTGCAACCTCTGCTTCCTGGGTTCAAGTGATTTTGGTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGACACATGTCACCACGCCTGGCTAATTT
TTGTATTTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCGCCTTGGCCTCCTAAAGTGTTGGGATTA
CCCACGTGAGCCACTGCGCCTGGTCGTCTTTTARCCCACATCTGTTGGTGGCTTACTGTGTGCTATGGTGAGGGATACTATGGTGAGTAGGGGCGACAGG
GCCCCTGGAGCATAGGACTGAGAAGAGCATTGAGAGGGAGAGGATTTCCAGGTCTGGTGGTGGGTGAGCTAGCATGCTGCTGCCARTTTTGCAGCAAGGA
CCTGGGGATGGACCTTCTCTGGCCAGCTACAGGGTATAGAGCTGGTGGGAAATGCAGGAGCCTGTGCTAGCAGTTGACCATTAACATGGGAAYGCCACCT
CCCAGCGGGCACTGCTGCCGCATACTTGCGAGGTTGCTGAAGCTTGTAGTTYAGAGCAGGACCATCCCACTAGATGTGCAATGTGAGCCTCAGGTATAAT
TTAAAGTTTTCTAGAAGCCACACTGAAAAAAAAGTGAAAAGGAATAGCYGAAATTGGTATTAATAGCATTTTACTTAACTTAGTATATTAAAAGTATTAT
TTCAACATGTAATTTCTGTGAAGTATTAATGAGTTATTTTATGTCTTCTTTTGTACTAAGTCTTTGATATCTAGTCTGTATTGTGTGCTTGTAGCAYATC
TGAATGCAAACTGGTCACCTCTCAGGGGCTTGGCAGCYGCATGTGGCTAGAGGGCTGCTGTATCAGCACAGGTTTAGACAATTATGTTGTGGTTGTTTTG
GAGTTCAGATTTCTGTCTCCTTGAATCTTGAATATATATAATAATGAGAACAGGCTGGGCGTGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCT
GAGGTGGGAGGATTGCTTGAGCCAGGAGTTTGAAACCAGCCTGGGCAACATAGCGAGATCCCATCTCATTTATTTTTTAAAAATATATAAAAAAAATGGG
AATAACCCAAACTGTATGTGTGAGATGAATTTAGGTAGAGAGAGAGAGTGTGTGGAGTGGATCATCTTTAATTCAGTGTGTTCTTTCTTTTGTGTTAGTT
CAGAGAGTGGCTCCATACCCTGGCTTGGAAAGGGGGGGTGTGCACAATCATGGAGGCCATCCATGGAGGGTCCTGTGGGGGCTTTTCTGGTTTCTGGGAA
GAGGATCTGTTGGGTTTCTCTAGGTGGTATTTGAGACCAACTCTGGGAAAAATGTGGGGACTGTTTATGAAGAACACAGAGAAGTGCTGTGCCCAGGTCT
CAGCAGAAAGTGTGTTCTCTCCCACCTCATCTGTGATTCTTCTCCTTGGACATTTGCTCCGTCTTTGCTCTCAGCTGACCAGCTGATCCTGGGGCCAAGC
CAAGTCCATGTGGTGTCATTGTGCAGCTCCCAAGGCCACACCTTAGAGTTCCACCACAGTCTCTTTCTCACTCTCCTTCTTCCACCCCAGATCTCAGGAT
AATGAACCCGGCTCATCTTGAGTCATATGGGACTGGGGGAGAGGACAAGGGCAGGTTAGCTTCCTCATGCAAGGATACTAGCTTCTTACTCTAATGATGG
TTTCTTTTACTGTGCAAAACCTTTTCAGTTTGATTTAATCTTGCTTGTCAATTTTTGCTTTTGTTGCTGTGCTTTTTGTGTGGTATCCAAGCAACCATTG
TAAATACTATGTCAAGAAGCTCTTCCCCAATGTGTTTTTTTTTTTTTTTAAACAAATTTTACAGTGTACAGCTTTAGGTCTAATGTTTAAGGCTTGAATC
TATTCAGAGTTTATTTTTGTGTCTGGTGTAAGATAGAGGTCCAGTTTTATTATTTTGCTCACGGATACACAGTTTTCCCAGCACCATTTGTTGAAGAGGC
TGTCTTTTCCCCATTGTGTCTTCTTGACATCCTTGTTGAAGATAAGTTGACTGTATATGTGAGAGTTTAATTCTGGGCTCAGTATTCTGTTCTATGGGTT
GATGTCTGTCTTTATGCCTTTAATATACTGTTTTAATTACTGTAGCTTTGAATAAATATATCTTGAAATCAGGAAGTGTGAGGCCTCCAGCTTTATTCTT
TCTCAACGCTACTTTGGCTATTCCTGGTCTTTGATTGTTCCATGTGAACTTTAGGATTTTTTTTTTATATTCTGTAAAAATTGCCATTGGGATTTTGATG
GAGCATTGAATTTATAGATCGCTTTGAGTAGTGTCAAGTCTTCCAACAATGTGAAGTCTTCCAATCCATGAGCATGGGATGTCTTTGCATGTATTTGTGT
ATTTGTATCTTCTTTATTTTATCGATGTTTTGTGGTTTTCACTCTACAAGTCTTTCATCTCCTTGATTGTATTCTAATTATATTTCAATCAATCTGTTAA
AAAATAAAATAAAAGCATGTACTGTTCAAAACAACAATAGCAAAACCAAACAAGGCTGCTGGGTGCCTGCCCTGGGGATTTGGCTGGATGCCCTGAAGGG
GTCATTGTGAGCTAGGTGGGTTTCCCAGGATCTGCTGTCTCTGCTCCTCACCAGTTTCCTTCCCTGCCTTTTGCTTCTGGATTTGCTGTTTTGCACGAGC
CCAGCATGTAGCTTCCAGAGTAAGATCTTGAGGAGGTTGCTGAAGCATGTTCTCTACCTAATGTGTTGCTTTGGTTTTCAATATTGGGTGATCATGTTTT
GTTTTGTTTTGTTTTAGATCCCCCTCCTCCAGATGGATCCCCTAATATTACATCTGTCAGTCACAATTCAGTAAAGGTCAAGTTCAGTGGATTTGAAGCC
AGCCACGGACCCATCAAAGCCTATGCTGTCATTCTCACCACCGGGGAAGGTAAGGAGAGGCCTCCGTGGGTTAAACAGCCCATGAGTGATGCAGTGACCA
GAGCTTTCTCTGTGCCCACTGAGGCATGTGAGTAATGCAGACACACGCCTGTCTTCTCACTGCAGCCYATGCTGTGTACTCAGACAGAGAAGGAGGGTGA
GGTATTTGCCTGATGGTTGACAAACTTTCTGGAAAGGGCCAGATTGCCAATATTTTAAGCTTTGCAGGTGGTATAGAGTCTGTTGCAAGCATTYGACTCT
GCCATTGTAGTGTGCAAGCAGTCACAGAAGATACAGAAGGAATGAGTGGGACCATTCCCACTAGATGTTATTTACCATGGCAGGTGGATTTGGTTTGTGG
CCCATAACTTGCTGATCTGTGATCTAGGTTTTTCTTCTCTTTTACCTCACTGGGCCTTTTAGGTGGTAGAATATTAGTTTTAACCAACTCTGTCTCTCTC
TCTCACTCTACACACGTACACACATGCCATCCTCAGAGGATGACTTTCCTTTGAAAGAAAATAGAAAAAGATTTGCATTTGCTAGTGGGAATTTGCAGAG
TATCTCCTTAGCTGAGAGAAGAGGTGGATTAAAAGCTGCTTTTCCTTAAAGGGCTCTGTTACATTCTTTTGTGGTAGGAAAGGAATCATTCGAGAGTCTC
TTCGGTAGCTGTGTTTGAGTGCTTGCATAAGGCCTAGATTTAAAAGCCCAAGTTTTGTTGGGGGGGTTCCCTCCTCCCCCTCCCCTCCTCCCCCTCCCCT
ATCATCATCGTCCCATTGTCCTCCACCCTCCCCTCTCCTCCTCCTCCCCTTCTCCCCTTCTCCCCTTCTCCTTCCCTTCCCCTTCCCTCTTTCTTTCTTT
TAGAGACAAGATCTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGGACTCAAGTAATCCTCCCACCTTGGCCTTCCAAAGTGCTGGGACTAGACTACA
GGCATGAGCCTCTGTGCCTGGTCTGGGAGATTCTTTATGCATGAATAATGCAGTGTTTCCTCTGCCCACTCTCTCCTACTGTGGTGCTGTCCTCATGTCC
TTGAGGAGGATAGAGACCAAACACACTGTCGGGGTTAGGGATCTGGGAGGATAGAAATTTGCTGGTGCCATAACCTGTGGCAAAATTTCAAAAAGTGAGG
TTGAAATCTCTATCTTTTAATTTTGGGTCTGTTTCCAGCTCTTAGTCATTTTGCTGTGATGCTTGTCAGCAAGTCCCATTGAGGAAGGCCATGTTGCATA
GCAGCCAGACTGACCAGTGCTGGCCTGTGATTAGATGAAACCTTGGGCTCTGAGCCCGATGCCCTGGATTGGGAACCCAACTCTACCTCATAGGCAGTGT
GACCTTGTGCCTGGTCCTGTTAGCCTTTTGTACCTTCGTTTTCTTGTCTGTAAAATGGAGACAATAAGCTTATGTGATGGGATTCATGGGGATGAAGTGA
GTTACTGTAGGTGAAACCCTTAGAATTCAATGTAAGTCAAACCTGGCACAGAGAGATACTTGAGAGATGGTTGCTGATCACTATCACCCAACATCACCAC
CATGTAGATATGCAGGAGAAGAAATCTCTCTGCCATCACTTTCTTATGATTCTCCTTCTGTGTACCTTTCTTAGCTGGTCACCCTTCTGCAGATGTCCTG
AAATACACGTATGASGATTTCAAAAAGGGAGCCTCAGATACTTATGTGACATACCTCATAAGAACAGAAGAAAAGGGACGTTCTCAGAGCTTGTCTGAAG
TTTTGAAATATGAAATTGACGTTGGGAATGAGTCAACCACACTTGGTTATTACAATGGGAAGCTGGAACCTCTGGGCTCCTACCGGTAATGTCTTCTGGT
TCTTACTCTTTGGGGGCTGAGCCTCATGAGCATAAAGCTCTACATGCCTGCGGTCAGACACGTCTCAGGGACCTCTTTTTGCTCTTTGTTATCCCACAGG
GCTTGTGTGGCTGGCTTCACCAACATTACCTTCCACCCTCAAAACAAGGGGCTCATTGATGGGGYTGAGAGCTATGTGTCCTTCAGTCGYTACTCAGATG
CTGTTTCCTTGCCCCAGGATCCAGGTAGGGAGAAGACAACAGTCCTGGCACTGGTTCAGTGGCATTTTGCTCCACGTGTCCATAGAAGGCCAGCTGTGTA
CATGCCTCCCTCAGACCTTCAGGAGGGTTGGTGTGCCCAGCTCTCCCCTCCCAGAGGTTGAGATGTCACTGGGTCACCGGGCTTACTGGGCTTCCTCCTC
CGAGGTCCCACAGCCTGGACCCCACACTCTCCCTTCTCTAAGTGCCAGTTGTTCTTCCAATCTGCAAAGATTATTGACTCCCCTTATCTATGTGTGGTCA
CTTGTGGGCCCATATGCCAGGTGCACAGTTTGACACATTGCATTGAATCCTTAAATAGTAGAATCAGAGGAAGCCACATAAATTGTCTTGTTCAATCCTC
TGTTTATTTTTCTTCATAATTTTAATTATGTTTATTGATTTGTTTATTTTATTTTATGTTTTTTTTTTTTTTTTTTCAGACAGAGTCTTGCTCTGTCACC
CAGGCTGGAGTGCAGTGGCACGATATCTGCTCACTGCAACCTCTGCCTTCTGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACA
GGTGCCTGCTACCATGCCCAGCTAATTTTTGTATTTTTAGTGGCGACGGGGTTTTGCTCTGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATC
TGCCCACCTCGGCTTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCATGTCCAGCCTATTTATTTTATTTTTGAGACGGAGTGTTGCTCTGTTGCCCA
GGAGTACAGTGGCATGATCATAGCTCACTGTAACTTTGAATTCCTGGGCTCAAGGGATCCTCCTGCCTCAGCCTCCCAGGTGGGACCACAGTTGCTTACC
ACCATGCCTGGCTAATTTTTTGTAGAGATGGGGTCTTGCTATGTTGCCCAGGCTGGTCCTGAACTCCTGGCCTCAAGCCTCCTTCCACCTTCTTCCAAAG
CTCTGGGGTTACAGGTGTGAGCCACTGTGCTCTGCCTGCTTTTTGGAAGTGAGACTTTTAAGGCCTAGAGAGGGGAAGTAACTTGTCCAGGGTTACACGA
TGGCTTTAGAGGCAGGCCTGAAATTCTGGTCTTGGACCCTTGTTAAGTGCTTCTACCCTTTATCACATAGACCTAAGTGATACAGGAGCTTCAGGGATCC
AAGAGGGGTGCATCCCCTACCTTCAAGCCAGAGGCTAATGGACTGGCTGGTTTGTTAGTTTGTCTGCTTTTCTTTCCTAGTTGGTGGTTGTTGGGCGCAG
GAAAGAATGCCTGCCCCAGAAGCAAAGTTTAGGGAGTCCCCACATCCTTCCCCGGTAAACAAATGGGTTTCCTGTCACCTGAGCATGGATGCTGCTGTAG
GTACCTCTGCTCATATGTGGGTGCTAGTCTCAAAATGTCAGAGGTGGCAGGAAAAATATCTGAAAATCCAGCCCAGTTCCCTAAATTTGCAGTTGAGGAG
ACAGACCTGGAGAGGAACAGTAACTTTCTCAAGACCATCCAGGTAGTAGTGGATTGGGAACAGGAACCTGGCTTCTGCATGCATAGACTAGTTTTAGGTC
CAAAGCTATTTAACTCCCTTGTGTGTGTGTGCGCCTGTGTGTGTGTGTGCATGCATGTGTGTGTATGGTATACACACTTTAACTCTCTGGTGTTAGGGTC
CCAGGCCAGTTTTTAGCACATTGTGTGGTCTGCATGAACACCTCTTGAAGTGTCTCCCATTTGGACTTTTCTCAGGTGTCATCTGTGGAGCGGTTTTTGG
CTGTATCTTTGGTGCCCTGGTTATTGTGACTGTGGGAGGCTTCATCTTCTGGAGAAAGAAGAGGTGATATTGCTTATGCTAATAATAATACTCTGGTATT
TAAGGAAGCTTTCTATTAAGGAACATTTCAAACTTTGACAGATTCAGAAGGAATGATATGATGAGCGCCATGTTCCCTTCACCCATAGTGTTCTGCATTT
GGCCAGTCCTAKTTCCTCTGCGCCCCCAGCTGGGCGATGTTAATGTGCTCCCAGCTGTCACATCAGGCCACTGATAGACGCCACAGTGTGGGATGCTACT
TTCAAATGATATGTTCTTGTTTACAAGTCAGTTTCATAGTATTATGATGTTAAGAGATTTCATTTCAGAGGTAGCTAAGTTTGAACACCAGCTCTGTCTT
TGACCAGCTGTTTAGGAAGCTTAGCCTTAATGTCCTCATCTATGATAGGAGGATAATCATTGTGCCTAACTTGTGAAGCTGAGGAGGATTGAATAAATAA
GGCACTTCTCAGTGTCTTGTGCCTTGTATGCTATTACTATTATTTTATCTGTACAACTACCCTGTGAGGTCATTAAATGGTAAAAGTAGCAGCCCTGTTT
TGAGTGCTCACCGTGTGCCTGCATCTGTGCTTTCTGTGAATTATCGCATGCATGAGGCTCTGCGAGGCAGGTCCAGTAAGTCCCTTCCAAGGATGCAGAA
GCTGAGTCAGGAAGTGTGGAAATAGAACTTGAACCTGGTCCTTGCACTTCATGGCACGCCCTCTTGTCTGTGTAGTGTGTGAAGCCTGTGTGTGTTAGTT
GGGATTTCTTTGCTGTAAGGTGCTGCCAACCAGGGAATCTCCATCCTGCCTTAGGGGTCTTCATGCGGCCCAGGCCGGTTCCTTGTGCTGCCACCCTGCC
CTGTTGGAGTGACAGGCAGAGCTCATGCTCCAGCTTTTAGGTTAGGTTCTGTTTTTTTTTTTTTGAGATGGAGTCTGGCTCTGTCCCCCAGGCTGGAGTA
CAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCTGGTTCAAGTGATTCTGCTGCCTCAGCCTCTTGAGTAGCTGGGATTACAGGCACCGCCACCA
CACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGGGATCTGCCCGCCTCAGCC
TCCTGAAGTGTTGGGATCACAGGCGTGAGCCCCTGTGCCTGGCCAGATTAGGTTCTGATTTTGGRGGGGGAAATGGATCAGTCAGTGGCTGGATAAAACA
GTTTTATTGTTTCTTGTTAAAAATAAGAGTAATACATGCTTATGGCAAAAAATATAGAAAAGAAGAGCAAAAATAAATAGGAAATCTGCAATCGCAGAAC
CCACACAAAACTACTCTTAACATTTTGATGTGACCAAACTCACACACAAATGTGTGCACACACATGGAATCATGTTACATGTTAGAATCAAGCCTGCTTT
ATTCAGCTTAGACATTGTTGGCAGCTTCATTTCATCACAATTTTTTTTTTTTTTGAGACAGAGTTTCGTTCTTGTTGTCCAGGCTGGAGTGCAATGGCGT
GGTCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCCGCCACCATGCCTGG
CTATTTTTTTTGTATTTTTAGTAGAGATGGAGTTTTGCCATGTTGGCTGGTCTTAAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCTTAAAGTG
CTGGGATTACAGGCATCAGCCACCGTGCCTGGCTCATTTCATCATCATTTTAAGTGGCTACAGAGTATTCAACTGTATGACAGTACCATGATCTAGTTAA
CCAATTTCCTAGGTGTTTCCAAGTTTTTTTTCTTGGCCACAGTTACTTATCCTTGTGCCTAAATCTTTGGGCACATTCACGATTATTTCCTTAGGCTAAA
TTCCAAGCTAGGCAAGTGCTGGGTCAGTGGGTATGCGTGCTTTCAGTTTTGATACATACTGCCAAATTACCTTCCAGAAAGTTTTTCTTAAATACCAATG
CAGAGTTGAGTCAACAGTGCAGGAGTGTRCAGATGCCTCACCAACTTGCCAGTTCCGGATCTGATATGTTTTTTGGTTTATTGCATTCATTTATCAGAAA
AGCTTTCTCAAAAACAAAGTATGAAATAACAAGTCTTGCTTTACATTAAAGTAATGCCACTGCTATATATTTGCAAGGAAGTTCTTAAAAGTGACTTGGA
TATGATTTTTTTCATTCTTTTAGATAGTACAAAAGAAAATAACTTCACAAATTTGTAATTAGCATTTGCAGCTTGGGTCATTAAGTTTAGTATTAGGGGG
CAGGATTTGGTGTCAGCKGTGAACTAATGCCTGAGGAAAAGGTGTAACACCTTTATTTCATAGATGACATCAACTCCAGATACACAAGGGAAAAGCACAG
GAAGGAATCCTTTTTTGTCTAATGGGTCTCTTTTCTCTTAAAACAGGAAAGATGCAAAGAATAATGAAGTGTCCTTTTCTCAAATTAAGTAAGTCTCTCA
AATTATGAGCTTTATTTTAAATCCTCCAATCTGTTCGGTGACTATCTATAAATAATTTTTGATGGAACTTGCTGTCATTTTTCCTGATTGRCACATTTTG
ACCATGACCATCTGGAAGTTTTTGCTAGCTCTGTTTTCTGCAAGGAATCTATGTTTTATTAGTCTCCTGAAGYTGGCTTCCTTGTCATGTTCTACTCTTC
TACCAATAAATACGGATTTCTTGATTAAAAAAACGTCAAATAGGTTATCAAGATCCAGGGGAGAGAAGAACTTACTTAAAGTCACAAAACCAATTAGTTA
CAAAGTAGGGTCTAGAAATCAGATTTCCTGAATCATATTKTAGTGTTTTGTGAATAATAGTACTCTGACCCCCTCTTGCCAAATTATRCCCTGGGTTTTG
TTGTTTTGGGAAGATTGTTTACTRTCATTTCTAGAGTATGAATGAGTCTTTCTAATTGCATATTTTTTCTTTCCCTTTCTATCRTGAAGACCTAAAAAGT
GAGTAATCTCTTTATTTTTTTTAATAACTTGTACTTTTCTATTGAATATGGACTTCACTGAATGTAAAAAATCCTGATAAGTTTTGTTTTCTTAGATCTA
AGTTAATCAGAGTGGAGAATTTTGAGGCCTACTTCAAGAAGCAGCAAGCTGACTCCAACTGTGGGTTCGCAGAGGAATACGAAGTATGTTGCTGTAAATA
CTGTTTTTAATTGTGTCAGGTTCCAACCCAAGCTGGGATCYGAGGGGAGTTGGTGGATGGGTGGCAGGTAGCTGAAAGAACACTCGAGGGACTGTAGGCA
GTTGGGACATGGCTTTATTCTCTCTCCTACAGAGTCAGCAGTGCAGTTATATTACTCACAGACAATAGTGGCTCAAAGCCAGGTATGAACTCACACAAAC
AGGTTACATTAAATGGCTATATAACGCAAGGGGTTGTTGCGCTCCAAACCCTTTGCGTCATACTGTCCTGGATGTCTACCTYGGACTACTCCTGACTGAA
GCACAGCCACTTTCCTTAGAAATTGGCTTGTTTTTCCTGAAAGTTAGAAAACTGTTAACAGAAACTAGGAATTCAAGTCAGGGAACTGTTAGCCACAATA
CTTAGGAAGCTATATGAGCTGGAAAGAAACCAAATGGGCATGTAGAGGTCTGGGGCTTGATGGCAGTGTGGCCTAGGATGGCTTGTGAGGCTCACTTCTG
AAGCCCTGCACAAGGAMTTTCTTGGCCAGTGTCTGCCTTTCAGTTCCCCATGCTGTGCTCCAACCAGCCCAGGAACCAGCCCTGCTCAGAGTGACCATGC
ACACTCGTCCTCCTGTGCTGCCCTGTCCAGCATCTCTGCCTTTGCTCTCTTGAAATCCTGCTCAGCACTCAGCACAGTGCACATGCTGCTTCCTCCATGG
GCATTCTGGGATCCCATTAGGAGGACTTGAGTTCTGTGTGCTCAGACTGCCTTGTTTCCCCTGTTGCTTGTTACCAATATTCAGCATTTCTTTAATTCTG
CCTTTTTGTAATGTTAGTTTTTTCTGTGTACAGTACACCTCTCCTCCAGGTTGCAACTGCTTGAAGGCAAGGGTTATCCTTTTTCCTATATTCTAACCTT
TGTATTAGTTCTCTAGGCTGCCATAAAAAAGCACCACAAACTGGGAGGCTGAAAACAACAGAAATTTACTGTCTAGAGGCCACAAGTCCCAAATTAAGGT
GTGGGCAGGGTCACACTCCCTTCTAAACCTCTGGGCAGCGCCCTTCCTTGCCTCCGCAGCTTCTGGGAGCCCCAGGCGTCCCTTGGTTTTGTGGCAGCAA
CACTCTGATGTCTGCCTCTGTGTTCACATGGCCATCTCCCCTCATGTGTCTATGTCTCTTTGTCTCTTTTCCTCCTATAAGGACACTAGTCATATGGGAT
TCAGGGCCCACTCTAATCTAGTATGATCTCATTTTAATTTGTTTACATTTGTAAAGAGCCTTTTTTTTTTATACTTTAAGTTCTAGGATACATGAGCACA
ACATGCAGGTTTGTTACATATGTGTACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCATCATTTACATTAGGTATATCTCCTAATGCTATCCCTCC
CCCCACCCCATGACAGGCCCCGGTGTGTGATGTTCCCCTCCCTGTGTCCAAGTGTTCTCATTGTTCAATTCCCACCTATGAGTAAGAACATGCGGTGTTT
GGTTTTCTGTCCTTGCGATCGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACCTGAACTCATCCTTTTATGGCTGCATAGTA
TTCCATGGTGAATGTGTGCCACATTTTTCTTAGTCCAGTCTATCATTGATGKGCATTTCRGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAAT
AAACATACATGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTTC
ATATCCTTGAGGAATCACCACATTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCCAACAACAGTGTAAAAGTGTTGCTATTTCTCCACATCCTCTCC
AGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGCTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGA
TGATGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCGCCCACTTTTTGATGGGGTTGTTTGAT
TTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGTTTCTGGATATTAGCCCTTTGTCAGATGGGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCC
TGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGTCTTTTGTTGCCATTGCTTTTGGTGT
TTTAGACGTAAAGTCCTTGCCCATGCCTATGTCCTGAATAGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTGACATTTAAGTCTTTA
ATCCATCTTGAATTAATTTTTGTCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATTGGGAATCCTTTCCCCATTGCT
TGTTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTATTATTTCTGAGGGCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTA
CCAGTGCCATGCTCTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGACGTCAGCTAGCATGATGCTTCCAGCTTTGTTCTTTTGGCTTAGGATTGTCTTG
GCAGTGCAGGCTTGTAAAGAGCCTATTTCTAAATAAGATCCCACTCATAGGTATTGGGGGTGAGAAATCCAACATATCTTTTTGGGGCACAGTTTAACCC
ATATCACCTCTACATTTCCACTTTGTTCTTTTGCTACCAAAACACCACGGGTTTGGTCTAGGTCCTGCTCCTCACCTTTACAGAAAGCCAATCACTGAGA
TGACAAATATTGCCGGGGAAGAAAGCTTTAATCGGGTGCTGCAGCCAAGGAGATGGGAGCTGAATCTCAAATCCATCTCGCTGACTGACTAAAACCAGGG
GTTTATACAGCAGGAAAGAAATGTAACAATGTGTAAGAAAACAGGAACTAGGGGCTGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCC
AAGGTGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTG
GTGGGCGTCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGACCGCGCCACTGCACTCCAGCCTGGGYGACAGAGCGAGACTCTGTCTCAAAAAAAA
AAAAAAAAAAAAAAAAAAGAAAACAGGAAGTAGGGAGGGGCAAGGAGGCATCTGGTGCAGTGATCTGACTAGTTTCAGTTCTTTGTTACTCCCTGAAGGY
CCTTTCCTGAGAAAGGAACTCAGATAAAACAAATACAAGTTTCAGGCTTTAATAGCAGAAGGGTAAATTTCTATGTTTATTCAAAAACAACTTGTCTATG
GGACTGTTGGGCTGGTTTCACTGTCATATGCTATGCTAAATATGAATAATATTTGAAGACTAAATAAATGAACACCTCATTTGTTTTGTTTTCAGGATCT
GAAGCTTGTTGGAATTAGTCAACCTAAATATGCAGCAGAACTGGCTGAGAATAGAGGAAAGAATCGCTATAATAATGTTCTGCCCTGTAAGTTATTTTAT
CTACAGCATCTTCTCTGTGTTCCATCAGTGGCCATCACATCTCTAAGTGTAGAGGGGAGGGAATCAGTGATCCTAAGTAACCACTTCCACAACCATTCAT
TAGTCACCTACTTCCACAACCATCCATTATTCACCTACTATGTGCTAAGCACTATATTTAGGTGCATTCTCTTAAATCCTCACAACAGCCTTATGAAGTA
GGTAGTAGAATATTTGTTTTGCAGATGAGGAAAATGCACAGAGTGGTTAGGTGATCTTTCCAAGGTTACACAGGTAGTGACGGGAAAACTCGGCTTTGTA
CTAGGTCTGTCTGTCTCAGTAAGGGAAAAGGCCAGAGTCTGTGTTCTTAACCCCTCTGTCTCACAACTATTTATTTCARTTCTATAATTCTGGAATGAAA
GTGAGCAGAGGGAGACGGGGAGTCACACTCTCTGTGTCCAGACACATGGGCTGAGTGAATTCCACAGCTAAGTATGACTTATATTTAGCTCATTTCCTGT
TTTTGAGAATTAACAATGTCTGCATCTTAGTCAACAGGATTACAGCAAATTGAGTTTAAAATAAGAATTATTTATTACATCAAACCATTAGATGAAATGT
AAATAATTCTCCATTGAAAGTTCCTTGTAATCTCTCTTTTGGGTGGGGATTAGGGCACAGAGAGGAGCATAAGCAGATTGTAGCCATGTTCTGATGGAGC
TGAAATTGATAGACTTTGCAGATAATTTTTACATCAGGACGTCATCATCTTTATTCGAAGCCGTGTTTTTCATTCCTGGACTAAAACATTAAGTTCTTTT
TAAATTCAGCATTTTCTAGTTCTTGGGTTCTTTCTCTCCATTTATTTCCTTGTACTTGACAAGGARTATTGGCCCATGTTCTGAGGGAAATGCTTTTAAA
ACTAGGCTGGGGGTATTGCCCTTGTAAGGGTAATTTGGGATTATTGGCCCCTTTTTGTGAATGTCTGTGGAGATTCTCAGATCTGGAGTGGGAGCTGGGA
AGTGGGTGTTTGGGTATTGTTCTTATTGGGAAGCCTTTAGGCTGAGACTCAGGTCAGTACTAGACTTAGCATTGTTATGTTATTTTGTCCAGAGGAGGGT
GAGGTAGTACAATCAGAGACRGGGAAACTGAGGTGGTGCTGCTTCTGGCTCAKCCTGACACTTGCAGTTCTAAGGTTATTATTTCATCTCTTAAGTTGGG
CAAGTTTGTGTGTATGCTTTTGAGATGACAATAATATTTATAAAACATAATTCTGTGTTTTAGACCCTCCTACTCATAGTAGTCTTATACATTCAATTTA
TACTTGAACTTGGTACTCTGTTTTTATAACAACTTGTTTATATGAGAATAGAGGCAGAGTAGAATGGTTAACCTAGGGACCTACCCCGTCCTAGTGGAAG
GGGCACTAGATTTGAATTTTGACTGCCCCTCACCAGATATATGAACTTGGAGAAGTCACTTAATCTCTGTAACCCTCAGTTTCCTCATCTGTGAAACAGG
GCAGTGGCTTGTAGGGTGGTTTTGAGGAGTAAATAAAATTGTTTAGCATATTCCCTCATGGTAGACACCTGAGGATGCTAATAGTAACAGGTTCATTTTA
TGTGAGAAGGCATCTGGTGTGGTTAAGATCTTGGGTCCTGGTGTCAGGCTGCAGGTTCAAATCCTGGCCCTGCCACTCATTAGCTCTGCTCTGGTGATCA
TGTGACTTCTCTGTGCCACGGTCATATAGAGTGACCATGAGGATTAAATGAGGTGGTCTATATGAAATGCCACACTGTGCATCTTCAAAGACACAAGTCC
CAGTTTTGCCATTTTGAATTTCATTTTTTTTTCTGTTTTGTGTCCAACTTTACTAAAACATTTGCTTATAATGGGGACCTTTTTTCTTTTAATGTCACAG
ATGATATTTCCCGTGTCAAACTTTCGGTCCAGACCCATTCAACGGATGACTACATCAATGCCAACTACATGCCTGTAAGTTGGGGGACGGTCTCACAGCA
CTGGACTGTTTCGATGAAATCTTCAGTGTGCTTTGCTTCTTTCTGTTTCTTTGAGGTTGACTATGTGCTGTTTCCCATTTTTAGGGCTACCACTCCAAGA
AAGATTTTATTGCCACACAAGGACCTTTACCGAACACTTTGAAAGATTTTTGGCGTATGGTTTGGGAGAAAAATGTATATGCCATCATTATGTTGACTAA
ATGTGTTGAACAGGGAAGAGTAAGTATCTTTTTTAGTTTTTAAAATTTAAAATTACATTAATTGCTTTTTATTGTGGCAGAAGGGTATCTTAAAAACCAT
TTGTTTCTTTAAAAAAACTCAAACATTAGCACTTTATTCTTATAAACTTGTTTTCTGTCTTTTTTTCCCCRTAAGAGAAATGTTTAAAAACATTCTTTAA
ACAATTCTATTTTGTCATTATCTTTTTTTTGGACAAATATCAGTGTCTTCTGTTTATTACGTTGCTGCTGGAGTTAGTAAATAGCAAAATCTCCCAGGCC
TAGTGCAAGATGCTGTTCACGGTGTGGCTCTGTTCTTCATTGGCCCCATGAACACGGACAAGCCCATCATGTCTCTAAGCAACCGGTGTCTTCATCTGTG
AGATGAGGGTTTTCATCAGCTCCATGATTTTCAAATTTAGGTTGAGCACTGAACCCCTCCTGCCTCCACCCCAGGTTTTTTTTTTTTTTTTTTTGAGACA
GGGTCTCCTCTGTCAGCCAGCCTGGAGTGCAGTGGTGCGATCATGGCTCACTACAGCTTTGAATTCCTGGGCTCCCTCCCACTTCAGCCTCCTGTGTAGC
TGGGACTACAGGCGTGCACCACATGCCTGGATAATTTTTTTTATTTTTAGTGGAGGCAAGGTCTCACTGTGTTGCCCAGGCTGGTGTCAAACTCCTGACC
TCAAGTGATCCTGCTTCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCATCACACCTGGCCTGGAACCATTTCTTTAAGCAAAATCTCAGACT
TATCCCTGGATAAGCCTCAGCAGCCTCCTCTCTCCTGCAACGTCCTGAAATCCCTCTTCTGCTTCCATCAAAGATAAGATTTTTTTTTTTTAGATGGAGT
CTCACTCTGTCGCCAGGCTGGAGTGCCGTGGTGTGATCTTGGCTTTTGCAACCTCCGACTCCCTGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTA
GCTGGGATTACAGGCAGGCGCCACCATGCCCAGCTACTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGATGGTCTCAATCTCCTGA
CCTTGTGGTCCACCTGCCTTGGCCTCCCAAAGTGCTGGATTGCAGATGTGAGCCACCGCCCCTGGCCAATATTTTTTATAGTAATAAAATTCTGCATTTC
CATGAATTGATGTGAAGAGAACTGAAAAACACATGCTAATCTAAAAAAATGCTGTGCCTTAGGAATGGGACTTAATGTTGCTTTATGAGTTGTTTTTAAG
TGTAGGTTCATTGCTTGAGGAATAGGATTCGATTCCTTAAGCCAGTGGATCTCAAACTTTAGCATCCATCAGCATCACCAGGAGGGTGGTTCTACCCTCA
GAGTTTCTAATTCGGAATTGCGTTTCTGCCAGTTTCTGGGTGATYCTACTGCTGTGGCACCAGGGTGCACACTTGGAGTGGTACTGTCCCCAGGATAGTG
GGAGCCCTTCAGGCATCATTTCTTTTATTGTTCTTTAATTCATGGTAAGCTAGCAGATGTTTATCCAGCCCCTGGTATATGTAAGATCCTGTGCTAGGGG
CTGAGGATGGAGGAGGGAAAGATAACAGAGCAGTAAGAGATGACGCCCATCCTCATGTTGCTTGTGATAGAGGGTGGGCTCCTTACCCTCTTGTTGAATC
AGGAGAATAGGCTGTAATAGAAATAAAAGCGTTTTTAAAATGAATGCTGATAGGCTGGGTGCAGTGGCTYACAGCTGTAATCCCAGCACTTTGGAAGGCC
ATGGTGGGCAGACCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCATCTCTACTAAAAACACAAAAATTAGCCAGGCGTGGTG
GTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCCTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCACCACTGCAC
TCCAGCCTAGGCAACAGAGCAAGACTCTGTCTCAAAACAAAACAAAACAAAAAAAGAAGAATGCAAATAAGCTTTTTAATACTGTTGAGCCCAGGGCCTT
ATACATGAAACATTCTTATAAATCTATCTGTTAGACAAACAAAAATGACATAATTACATTAATGGAGAACATGAAGATGAATTTAAATGGTCTTTTGTTC
ATCTAAAATCAAGATTGAAGTTAGTCTTAGTGACCCTGGGTGAATGGGGAAGGGAGTGTATTTTCTGCACTAGATTCTCCATATATGTTATTTTTTTTCT
GTAACAACCCTGTGAGGTATTATGATTTCATAGATGAGGTAACTGAGGCTTGGGGAGTTTAAGAACTTGCCCACAAGGTAGGAACAAAAATATACCTGGT
AAGAGGCTGAGCTGGGAATCAACTCCATGTCAGTGTGTATCCAGATCCTGGGTTGTTTCTTTGGAACCTGGGTCTTTAAAGAAATACAGATCCCGCAGCC
AGAGTCAGAATCTCTGGAGGTAGAACCCAGGCATCTCTTTTTAAACAAAACAAGGCCAGGCACAGAGGCTCAGGCATGTAATCTCAGCACTTTGGGAGGC
CAAGGTGAGAGGATCACTTGAGGCCAGGAGTTCAAGAACAGCCTGGGCAACATAGTGAGACCCCCATCTCTACAAAAATACAAAATAGCTGGGTGTGGTG
GCACGTCTCTGTAGTCCAAACTCCTCTGGAAGCTGAGGTGGGAGGATCACTTGAGCCTGAGAGGTTGAGGCTGCAGTGAGCCGTGATCGTGCCATTGTAC
CCCAGCTTGTATGACAGAGTGAGACTGTCTCAAACAAACACACAAACAAAAAACAGAAAACAAAACCCAAAACAACTCAAACTTCTCAGGTGAGTCAGAT
AATCAATTAGCTTTGAAAACTACCAGCAGTAGAGCACACCTTAGAATACTGAGTGTGTGTGCGTGTGTGTGTATGTGGGGGGTGTGTGTGTGTGTGTGTA
TGTGGGGGGTGTGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTCATTTGCCAAATGGGTATTCAGATATTCTTGGAGAGC
AGGTGTTTCCTGGTTATTTCTGTTCACATCTGCCCACCAACTTTATAGAAATCAAAGACCCCAGAATGATTTAATTTGATTTTCTTTATTGGTGTGTGTA
TTTGTATTGCAACCGATGTATATCTGAAAGCCTTGGGAAAAAGTCCTCATTTCTTCCAGCTGTCTGGGGTTATGGGAGAAGATGAGGTCAGTGAACAGTT
GTGGTGGCTACTCTAGGGGCAAAGGGAGCTGGATGGGGACTGTGTCCTAGGTCAAGGGACAGCTGCTGCTCTGCTCTAAATCAATTTTCATGCTGAAAGC
AGGGCCTRTTGTAGGCAGATCTGATTTTTAAAGAGAAAATAAGTCTGGATTTTTATGAGAAATTTTAAGAGTTGGCAAGAATTGTAAATTAAAAAAAGAA
AAAACAATTCCAACAGGTGCTGTGGTGTGCCCATAGACCCAGCTACTTGGGAGGCTGAGGCATGAGGATTGCTTGAGTGCAGGAATTGGAGGTGGTAGTG
TGCTATGATCTCATTTGTGAATAGCCACCACACTCCAGCCTGGGCAGCATAGTGAGACCCTGTCTCTATAAAATAAAATAAAAAAATTCGAAGGGTCAAA
CAAAACCCAACTAGAAGGTCTGATTCCATCTCTGATGCCAGTTTTCAATAGCCAGTCTCCCTTGTGAGGTTTTAGTGATGGCAGATGGCATGATCTGAGT
CTTCTTATAAAAATGCAATTTTGTTCTAGACCAAATGTGAGGAGTATTGGCCCTCCAAGCAGGCTCAGGACTATGGAGACATAACTGTGGCAATGACATC
AGAAATTGTTCTTCCGGAATGGACCATCAGAGATTTCACAGTGAAAAATGTAAGTAAGAAGTCAGGATCAGTTGAGCTCATGTAATTACCATATGTTAAT
TTGGGGGTGATATGTTTTAGGTTGATATTAACTAATATGTTTTCCTATGCAGTGAGAAATGTTTTGCTKCTTTCCTTTCAGAACAGAACAATCCATATGC
ATGTATACTCCAAGGCAACCCCTTGACTTTTCTGGGAAATTTACTTTCTTGGGAATAACCTAAGTTATTKCTGAATAAAATGAATCTTAAGAGCATGGCT
CTACATCAGGAACTCTTTCCTTTCTTTCCACTTCCAGGTGACTTGCTCATAGATTTTACAGAACAAACTGTAGCCTTTTGGATTATTTGGTTAGAAATAT
GGCATCAGGAGCGGCCACTTGCTGTTAGGAGTAATTGATAACAGTTACATTAATAGGATTCCAGGGCATATGCACATGGCCTYCCTTCCCCTCAAAATTT
ACAAAAGCAAATCCAATTAAATTGTGCAGGCATTCTAGGAAGTCAAGTTTATGTGCYTTTTTTCTTTTTCAAGGATGCTTTGAAAATAGAGGCAGTGCCA
TGAAGCAGCATTGGTATCTGTTGATGGGTGTGTGCATTGGCATAACTCTCTGCTGTTTATATCACAGGCCTAAACATTAGGCATRTGCTGGCTTGAAGTC
TGAGACTATCCTAAGGAAATAATCTGAAATGCAACCAAAGGCTTATTCAGAAAGACGAGTCTCAGCATTATTTATAATAGAGGAAAACTTTGGAAACCAT
GCAGACATGGTTTTGTAGCTTTTGTAGCTTTTGCAGAATGGATAACTTAACTATGACTCGTCTGCTTATAATATCATTATTCAGCTATTAGAAATGATGG
CCCAGGTGCGGTGATTCTAACCTGTGAGGCTAAGGTGGGAGGATCGCTTGAGCTCAGGTTTGAGACCAGCTTGGGCAACATGCTGAAACTCCACCTCTAC
AAAAACAAAACCAAACCAAACCCAAAAATTAGCCAGGCATGCTGGTATACACCTGTAGTCCCAGCTACTTGGAAGGCTGAGGTAGGAGGATGGCTTGAGC
CCAGGAGGTCGAGGCTGCAGTGAACCGAGATTGTGCCACTGCTGCACTCCAGCCTGGGTGACAAAGCAAGACCCGGTCTCAAAAAAAAAAAAAAAAAAAA
AAAAAGATAAATAAGGGATGGGTAGACTATATAATTACCATGGGGACATGGTAGGATGTAATGTAAGAGAAACATTCTAGGAGATGAAAATGTATGCATA
TTATGAATAGTGCATAAAAGGAAAGCCGGGAAGTATAGATTCACTGGAGTTGAATCTTGAATCTTTTGGGTGGGTTTTGGGGGTTGATGGGTTAGGGTCT
AGTTTATGAGATTATCCTTGAAGATTCCACAAGTCATGGATAAAGTATAGTATATTAAGTAGTAATTCTTTACTAATTGCTGTGTCTCAAAGGGTCTGGC
CTCAATATTTCAGTTCCTCCTCTGGAGATGCCATCAAAGCTGTTACCATGATCTGGCCACCTAAATAATGCAGCTCACAGTAGTAGAAAAATGTCATGCT
TATTTCTTTTCTTTTCTTTTCTTTTTTTTCTTTTTTTGAGATGGAGTCTCTCTCTGTCATCCAGGCTGGAGTGCAGTAGCACAATCTCAGCTCACTGCAA
CCTCTGCCTCTCGGGTCCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGCCACCATGCCCAGCTAATTTTTTTTGTATTT
TTAATAGAGATGGGGTGTCACCATATTGGCCAGGCTGGTCTTGAACACCTGACCTTGTGATCCACCTGCTCGGCCTCCAAAAGTGTTAGGATTACAGGTG
GGAGTCACTGTGCCCGGCCTGTCATGCTTATTTCTATAGATTTTGCTCATTTGAACTGACTGGCTTCTCCTTGGTTGCCTCCACTGCTTGGGGCTTACCT
TGTGGAGGGGAATTTAGGATGGAGTTGTCCACATCATTTTTAAAAATTGCTGTTACTATGATTATTATTTTTTATTAACTAAACTCCAGACTTTATTCAG
ATTTCATGTTTTTCCACTAAAGCCTTGTTTTGTTCCTGGCTCTGATCCAGGACACCACATGGCATTTAGTACCATGTTATTTTTTAATTATACAAAATGC
CTGAATACATTTTCCTTTAGAAAATCGAGAAATTACAAACAGAGCTAAAGATTTCCTTTGACTACCACCCCTAACCTGAGCCCCTTTGCCCCTCCACGAA
GATAATACTAAGTATAACCCTCCTCACTTCTCCCTCTTCCTCTCCCCCTCCTTCTCCCCTTGCCCGCTCCCACTCCCTTTCCTCTCCCTCCTCCCTCTCC
CTCCTCCCTCTCCCTCCCTTTTTCTTCCTCTTCCCCCACCTCCATCTCTCACAGCTGGTTTCTGTCTTTGGATCAGTACTTCTGGTTAAATGTGTGAATG
TTAACTTTATCTGTGATGAGGTCTTCTAGCACCTCTCCCTTCACTCTGTCTGTTTTTCCTGTTTTCCAAATTTTGAATACTGCACATTCTTATCATGAAT
ATACATTTCAAAAAATGAGTGTCAAAGGGCAGCTGTCATAATGGAGATGGAAATGCCTGCAGTGCAGATGTAGGTCACATGGGTACGGATGTAGGTCACA
TGGGTATGGTCATTCCCTGGTATGGGCATAACGAGTACAGCTGAGTCAGGGACAGGACTCGCCCCAGCTGGGGTGGGCTTCTGGTGCTTCAAGGTATATG
CTTTGGTATGAGGTAGGGAACCAGTCTGTGTAATAATGAGCTCTATTGTCTTTCAGATGTTGAAATGGATGGTTTTTTGGGGGAGTCCTTTCTCAGCTCT
CTCCAATTCTAAATATTTGCATGGTGCTTGCTAGTGGCCTGTCACTTTATTCACTTCTCTAGGGGACATAGTGAATTATGAGGCCATTCTTGCCTAGAAG
GCACTGATTATCATGGTGTATTTGAGTAAATTATTTTTGGTTTTATTGTCAGTGACATTCCCAGGGGGGCTCGGGGATGGGGCTCATGCAGCTCTAAGGA
GGTGCAGGTGTAAGAATGTGAGTTCATTATTGATAGGCAGCTGTGGCAGGAAGGGAAGGATCTGAATGCAGAATTGGAGGATGAGGGACTTCTGTTGCAT
CTGAAATCAGTGTTGRGGAAATGACTTCACTTCTGTGAATCTCTGCTGCCTCATCTTTAAAGGGGGATAATAAACTCTCCTTCTTGAGCATATTGTGAGG
GTTTGATGAGCAAGCACTTTATCAGCTGCTGTGCAAATGTAAAGTTTAATTTTTAGTCATTACAACTCCTGGTTAGTACTCAGGCTCTGCTTGATTTCCC
CTGCCTTTTTGATGTTGTTAGGCAGCCTTTCTGTCTGKATCTAAATCATTTTCTGGGCTTTTAGATCCAGACAAGTGAGAGTCACCCTCTGAGACAGTTC
CATTTCACCTCCTGGCCAGACCACGGTGTTCCCGACACCACTGACCTGCTCATCAACTTCCGGTACCTCGTTCGTGACTACATGAAGCAGAGTCCTCCCG
AATCGCCGAYTCTGGTGCATTGCAGGTACGCAGATGGCACGTCACGTGTGACAGATTTCAAATGTCATTATATATTTATGAGCACTTTACAAAAGCAAAG
CCTAAGAGGGAATGTAATAGGCATTTATGAATTCAGGAAAGGTTTGGATAAGGAACCATGGACTTACTCCCTAAGCCCTGAGCTTCCAAAACAGGGGTTG
GCAAACTGTAACCCATGGATCAAATCTGGTCAGCTGCTGTTTTTGTAAATAACATTTTCTAGGAACACAGCATGCCCATTTATTTATATATTGTTTATGG
TTGCTTTTCTGCTACAGTGACAGAAAGAGACCATATGGTTTGCAAAGCTTAAGATGTTAACTATCTGGCCCTTTACTGAAAAAGTTTGCCAACCCCTAAC
AATAAGAAGTTAGCTTTGAAGCTAAAGGAATTAATTTAGGACAGAAGACAGGAGGGGCTCTGTTGCCCAGTGGGGAAAAAATGGCTAAAATGTGCCGCCA
TCCTGGGTTATGGGCAACTTGAATGGAACTGAGATTGAAGAAGCTTGAGCAAAGGGTTATATGTGTGGCATCTGACTCAAATGTGAGTTTGGGACTTAGG
CCCCAGTCCCAAGCTAGTGCTGTCTGACTTGCTGAGGCTTCAACTGAGCAAATGTGTACTGATCCTGTGCATTGCCCTCAAAGTGTGACAGTGAAGGAAA
GCAAGATATATGTACAAATGAGGAACTCTAAGAGGGTTGCAGTCGAGGGAACCCACTGTAATAGGCTTATTTCTCTTTTCTCTCAGTGCTGGGGTCGGAA
GGACGGGCACTTTCATTGCCATTGATCGTCTCATCTACCAGATAGAGAATGAGAACACCGTGGATGTGTATGGGATTGTGTATGACCTTCGAATGCATAG
GCCTTTAATGGTGCAGACAGAGGTGAGGCCAAGATCTGTATTTGACATTCCACCCTTCCCCTCCATTTNNNNNNNNNNNNNNNNNNNNTTTGACATTCCA
CCCTTCCCCTCCATTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTGCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGC
AACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCTGCCTCCCAAGTAGCTGGGATTACAGGCACRCACACCATGCCCAGCTAATTTTTGTAATTTT
AGTAGAGACGGTGTTTCTCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGCCTCAGTGTCCCGAAGTGCTGGGATTACAGGC
ATGAGCCACTTTGCCTGGCCCTTCCCCTCCATTTTTAAAAGGTTGCATTGTGTCATGCACTTGTGTTAAAATATGTCACCCTTCCAGATCTTTCCAGCTC
TTGGCTGTGAACTAACACTGGATTTCTTTGCAGACTTTAAGCTGACTTGGAATTAAATTACCCAATACAAGTGACATAGTAGTACTGATGTCAGTAATGG
AACTACTACTGAGATAGTGTCAGGATTCTTTACCTTGCTGCCTCTGACTCATTAAATAATCTTAGGACATCTTTGAACTTTGGCTTCCAGGTTTTAAACT
CATAAAACTGGTATTTTCCAGTCTTTGTTTCTAAGAAGGTCTGACCATCTTTAAAATAAGCTAATGAAACAAACTCATCAAACATTAATGATGTGACRTA
TCATAATGCTGCTTAAATGTTAATACAGCAATTTATCCTCACCCAGACTTGTACATTTTAAAGACTATCAATTATCATAGCTACAGAAGGGTGGCTGACC
AGCGGAGAAAAGGAACACTTAATATCYATGGTATAGTTTCTGTACTACTGCTGGATTTGGTTTTACCCAAAMTGTTACTGAGAAGTGTTTTTGAGGCATG
TTTTCAACAGAACATATTGCAAAGTTGCTTTCCTCAAAGGGGTGAATGTTCCTTGACCAGGATGAGAGCAGAATATTAATTTTGTATCAGGCTATCGTCC
TGTACCGATTTAGAACTCTATGAATATGTGCTGTGTTTTTGAGTCTAGCAGGGAATGTTCTAGATGCCTGGGTACATTGCRTGCTCTGGGGTGAGCTTGG
TGGTTGTTGTGGAAAGAGTGAAATTCAACTCCTGTGTTGGTCAAAAGAGAGATTTTCTTTTTTCTGCTATAATTATATAAAGTAGTATTTCTCAATCTTT
TATCCTTTTTTGAGAAACATAGAACTCTTATCCCTGCTACTAGAGTCTAATCTCTTTTTTATATTTTGAAAACAATACTTATTCATATGAAAGCATTTGA
CAATATATTTTTCTCTCCTCTTTTTTTTTTTTTTGAGACGGAGACTTGCTCTGTCACCGGGCTGGATTGCAGTGGTGCGATCTCGGCTCACTGCAACCTC
TGCCTCCTGGGTTCAAGCGATTCCCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGTGTGCCACCATGCCCAGCTAATTTTTTTTTTGTATTTTA
GTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAATTGCTGGGATTACAGGTGTG
AGCCACCGTGCCTGGCCTCAATATATTTTTCTCTGACTCTTCCTTCCCCAATCCTGCTTCCTGGAGGTAGCCAATGTTTATAGTTTGGTGTACATCTTTA
TAAGACTCTTTATGTACATCTGTAAACACACACACACACACRCRCACACACAGTACTTTGAAAAAATTGGATGCTGTTTTTTTTTTGAGATGGAGTCTTG
CTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCCATCTCAGCTCACTGAAACCTCAACCTCCTGGGTTCCAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGC
TGGGATTACAGGTGTGTGCCACCACGCCCAGCAAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGATCTCGCACTCCTAACC
TGAGCCGATCTACCTGTCTTGGCCTCCCCAAAGTGCTGGGATTACAGACAGGAGCCACCGCGCCTGGCCAGATCCTGTTTTATGTATGTTGCTTCTCTGT
GATTTTTTTTCTCCTCTTATAATATCATGGATATTTTTCTGTGTCAGCTTATACCCTTGTTTCCTCTTTTCTTCATCACTATCCACAGATTCTGATATAC
CTACCTGAAGGATAGTCCTCATCCAGCTCCACCTGATCATCTCCTTTTAACCTCGCTCCTCGGTTGAGCATTACAGTTGATTCTTACTCTGTACAGTCTC
ACTAGCCAAGGCAATCTTGTTGGACATTTGATTGTTCGAATGTGTGTGTGCATTTTTTCCTCTACATTTCCTCCTTCCTTTGCCCTTCCCTGAGACTGTG
GCATTTTTCCTTGGGGAGGGGAGGTGTGGAGTGTGCTCTTCTGGTTGAGAATCATTGAGGAAGGACATCTTGCTTCTGTGATTTCAGATTTCACTGCAAT
GTTGTTACCTCTTGAAACATGTTCGCTTGAACCGTTTGCTGTTGGGTGGATGGGGTTTGGGAGTTGGGCGGGGGAATGACCTGTTTGAAAATAATTTTGG
GTGCTAATTTCTGGGACCCATGTTCATTTTCTGTCTCTCTCTTTCGTTTTYCTATCAGGACCAGTATGTTTTCCTCAATCAGTGTGTTTTGGATATTGTC
AGATCCCAGAAAGACTCAAAAGTAGATCTTATCTACCAGAACACAACTGCAATGACAATCTATGAAAACCTTGCRCCCGTGACCACATTTGGAAAGACCA
ATGGTTACATMGCCTAATTCCAAAGGAATAACCTTTCTGGAGTGAACCAGACCGTCGCACCCACAGCGAAGGCACATGCCCCGATGTCGACATGTTTTTA
TATGTCTAATATCTTAATTCTTTGTTCTGTTTTGTGAGAACTAATTTTGAGGGCATGAAGCTGCATATGATAGATGACAAATTGGGGCTGTCGGGGGCTG
TGGATGGGTGGGGAGCAAATCATCTGCATTCCTGATGACCAATGGGATGAGGTCACTTTTTTTTTTTTTCCCCCTTGAGGATTGYGGAAAACCAGGAAAA
GGGAKCTATGATTTTTTTTTCCAAAACAATTTCTTTTTTAAAAAAGACTATTTTATATGATTCACATGCTAAAGCCAGGATTGTGTTGGGTTGAATATAT
TTTAAGTATCAGAGGTCTATTTTTACCTACTGTGTCTTGGAATCTAGCCGATGGAAAATACCTAATTGTGGATGATGATTGCGCAGGGAGGGGTACGTGG
CACCTCTTCCGAATGGGTTTTCTATTTGAACATGTGCCTTTTCTGAATTATGCTTCCACAGGCAAAACTCAGTAGAGATCTATATTTTTGTACTGAATCT
CATAATTGGAATATACGGAATATTTAAACAGTAGCTTAGCATCAGAGGTTTGCTTCCTCAGTAACATTTCTGTTCTCATTTGATCAGGGGAGGCCTCTTT
GCCCCGRCYCCGCTTCCCCTGCCCCCTGTASATTTGTGCTCCATTTTTTCTTCCCTTTTCCCTCCCAGTTTTCTCCAAAGACTCTTCTGTTGGCAACATT
TTCAACCCATTGGTTGGGTGAGAATGGCGACTCAAATATCACCTTGAGAATTTCTGTGGGTGGGAATGGGAGAAGCAGAGGAATCCTACAGTGGCAGAAA
TCCTTTTCTTGTCCCTGTATTATCCTTTTTCTCATGTCTGTATTTGGTATGAAGGATTATTTAAAGGTGCAATATGTGAATTAGTGATTCATGATGTTCT
AGGTTTTTAGTAACGTTTTACTCAGGTTGGCATTTTATGTGTCTGTGTCTGTATGTGTGTGTGTATGTTCAGAAGCGTGGCAATCTGTGAACACTTCAGC
GTGAATTCAGTGTCAGATTAATCCCTCCTTCCCCAAAGTCCACTGGCTTTCGTCTCTCTCTGCCGTGACACATATCGGAATCTACTGTATATATATATAT
ATATATATATATATATATATATATATATATATATRCACTAAGCTCTCAAAAACAGTCATTCCTATGAATTGAGGTGTACAAAGTTTGAATTTGTATCAAA
GATGTAATTATTATTTTTAAAACCTTTTCACTATACTGCTGCTGTAATTACTTTGATTTTTAAAATGTAGATTAATTTTTTTTTTTTGCTTCAGGTGTGT
ATCCACCAAGAATTTCAAATTTATGTGGATTTATTTTATTGGTACATAATCTGTAAACTTCTTAAGGCATTAACATGAAAAGATTTTTTCTTTTTATTTT
ATATTGTGGCTCAGGTTATATTTTGAAGATGTTTTGAGTTTATCCTCCAATAGGCAATGAAGTTGACAAGGTTTTATGAAGGAATAACCAAGTCCCTGGA
GTCCTGTGGCTGTTGCCACAGTAATGYGTCCTGCTGTAAACAGGACAGGTGTGTCCTGTTGAGAATGTGAGCGGGCTCTTCCAGCCTCCTGGTCCCTCCT
GACTCTGCCACGCCCCTCACCTCACTGGCACTTCGATAACTGACTGGACGTGTTAATGGGTCTTTTAGGGTTCTAAAGGGTGAACCACACTTTTAAAGCC
CCGGCTGTGGTTCGGAGGGTTAGTGCTGTATGCCTTTTATTTCCCTTTCCCTTTGAGGTACTGAAAGGATGAAAAGGTGGTGTCATGTTTTGGGGAGAAT
CTTACTTCTCAAATGGAAATTGCACTTTTTGCTGAATCCTTTGCATTTTTTTGGTAGTAAGCAGTTCATTGAGTATCAGGTCCTCAAAGGAATGAGTTGG
CCCGGCTAGGGTGGGCCCTCTTGACCTAACTTCAGAGGGGGCCTTGGCTCAGTAGGTGTGAATCAGGGAAGCCACATTGTCCTCAGGGTGCTGTATGAAG
CTGGGTGTGGGCGGATTCCTCCCACACCTTCACACTGGCCTGCCTCCAACTCATACAGATCTCGGAGCGGTCGGTACTTCATTCATAGGTCCCTGTTCAG
GCAGCAGTTCTGTGGGCTGTGGCCCTCTCCCCTCCAATATGTCCGAAACCATTGTGATGGGTGGCAAATCCCAGGGAGCTCCTAAGCCCTGCTCTGCCCA
CATCACTGCCACAGAGAAGTCAGAGGAAGGGACTTGTTGCTAAAAAATCCTTTAAAAGGTTAAATACTTTAAAAGATTAAAGCAACATAACTGTAAACAT
ATYGTATAAAAATGAAAAACACAGGAACCCTCTTCCCTTCCGCCTGGTGTGGGCTTGGGAAATGGGCAAGCGGCCCCAGCAATCATGGGAGGAACTCTTG
CGGGGGAGCGGTCTGGGATTCCAAATGGGCAGGTCACACGAAGGTCACGATGCTTCTCTGCATCCTGAAAAGGGCTGGGGACAGGGCCAGTGGGGGTGGT
AAGGGTATTTATAGCACAGTGCTTGAAAAGGGAAGATTAATGTGTAAATATAAAGGACACACAGGCTGGGGGTTGGTCAGAGGCAAGAGGAGGGTGCCTC
TGAGCTTCAACCCCTCCCAGGAACAATGAGCTCAAATTGGAAGAGTCCAGTGGAATCGGGGGGATGGTGTGAGCRCCCCTGTTCAGTCTTTGACAATTGC
ATACAGAAAAGCAGCTGGTATGGGTTTGGGTGTCAATGAAAGGGCCAAAGACTGGTGGCCAGCTGGTTTGGGGGATTTGGGCCATTGATAGCATCTCCCA
GGAACAACGACTTTTTGCCTCCAAAGTTGGATCTAGTGATGATCAGCACCAGCAGGAAATGACATTTGGTGTCTGCCCACTGCAGCCATACTGTGACCTC
CAGCCAGACTTCCGCCTAATTGACTCCACTGGATTTGTGCTCTGTTGAGTCAGAGGCTCCCGGGGGTTGGGGATCGAGGGGCGGGGGTCAGCTATGCAGC
CCATCACGTGTGTTTTTCATCTGGGATGAAAAAGCCTGGTTCTCTTTTGAAATGCTTGATTGTACTTATTGAGCTAAACAAGTCTTGGTGACTGTTGTTG
ATTTGCCTCAAAAGTTTTAAGTCCTGGGTTTTCAGACTACTGTGTAGCAGCTGTGTGTTTAACATACTGTAGCTTTTTCTCCCTTGGGGGCACATACAAA
TAGGATGTGTTGATGTGGACTCTAAACTGTAATTTTCCTGTAACTATTTTGGAATGATGCATATTTCTAATGTTTGTTATACTTGTACAGAGTATTGCTG
TTGGTTGCTTTTTTTTTTTTTTAAGGAAAAAATGGCCTGAAAACATTTTTTTAAAGACTTACAAATACCAAATATAAAAAAATGTCAATGCATTATGCCT
TTGCTTCTTTCTTTCTTCTTTTTTCCTTCTTACAATGTGCCAAGCAGTTTACTGGCCTGCATTTTACTTGGGCATCCTTAACAAAAACACATTTCTCTTT
GGGATTTCCGGATTGTTTTAGTTTTCTAGGGCTGTTGTAACAAGTACCACCAACTGGTGGTTTAAACAGCAGAGATTTACTTCCTACAATTTTGGTGGCT
GAAATCCAGATGTGGGCAGGGTTGGTTTCCTGTGAGGCCTTTTTTTTTTTTCTTTTTTTGAGACAGAGTCTCACTCTGTTGCTCAGAGTGGAGTGCAGAG
GCGTGATCTCAGCTCACGGCAACCTCTGCCTCCTGGGTTCAAGCAGTTCTCCTGCCCCAGCCTTCAGGCGCCTCTCTTCGTAGCTTGCAGATGGCTGTCT
TCTCCCCATGCCTCCACATGGTCTTCCCTCTGCTTGTCTGTGTCCTAATCTCCTTCTTTTTTTTTTTTTTTTGAGATGGAGTCTTGTTCTGTCGCCCAGG
CTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCTTCTCGGGCTCAAGCGATTCTCCTGCCTCAACCTCCCGAGTAGTTGGGACTACAGGTG
CCTGCCACCACACCCAGCTAATTTTTTTGTATTTTTAATAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTGTCGAACTCCTGACCTCGTGATCCACC
CGCCTTGTCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCTCCCGGCTAATCTTATAAGGACACGAGTCATACTGGATCAGGGCCCACCCTATT
GACCTAATTTTACCTTAATTACCTCTTCAAAGACACTCCAAATGTAGTCAAATTCTGTTTTAGTGGGGGTTAGGACTTGACCATATGAGTTTTGGAAGGG
ACCCAGTTCAGCCTGTAACACATATTCAGGGCAATTTAGTGAAGAGGAGGCTTGGAGGAAGTGGCTGTGTGTCTTAAGATTGTGTGTGTTCCCAGAAGGT
TGGAGGTATGAGCCTGCAGGTGGATGGATACCCAGTTGGTTGGGGGTGTGTTATGATATAGTTAGCTCTCCTGGGCTTTCTGCTTAGGGACAGCGCTTGG
GCTGCGGATAAAGTATCCATCATCTTCCTGTTTTGATTCAGGCCAAAGTTGTCCCAGAACTTTTCTGCCCACAGTGTTGGTTTAGAGGAGGCAGGGAGAC
ACTGTATTGCTGACCTGTTATCTGCATACTTAAAAAAAAAAAAAACCAAACTAGGCTACCCTGCAAAATAGCACAGCATTCTCTGCTCCTAGCACTTAGT
TTGATAAAAACTACCTTACCCAGGTATAGCCTAGGAATTGAGATATTGTGGGAAAGAAAAACCGAATGATCACCTGTGGTTTTATAAAATGTAAAGCTTA
AGTGAGAAAACAAATTCATAGAACTATAAACAGAGAACAATCCCAATAAGAATTAAATAAGTGCATAGAAGAAAAGAAACACAACTCTAGAATAATATAA
TAGTGGGATTAGGAGTGGATTTTATTTTTATATTCACCTGTTTATAGTTTCTAACTTCTCCCAATGAATATGGAGTACTTAAGAGTAACTAGTTTAAAAC
TTAGCACTTTTCCCTCCTTGCCTCAAAAAAGTGAAGCTACAGTATAGTTTTAAATTTACTAGTCAAGTTACAAAATTCTTTTTTTTTTTTTTTTTTTTTT
TTTGGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGC
CTCAGCCTCCCTAGTAGCTGGGATTACAGGCGCCCGCCACCATGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGG
ATGGTCTCCATCTCCTGACCTTGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACGACGCCTGGCCAAGCTTCCAAGTTC
TGATAGCCATCCCATCCCTTCTGGGGTTTCACAGCTCTATTTGGGGCTGAACGTGGCAGATCTCTGGGGCCTCCAACATGAGAGCTTGGGCTTTACATTC
CTGCAGGCAGGTGAAGCCTCCTGACCCAAAAGGTGAGTAGTGGGCCCCTGTTGGGGCCAGCAGTTTTGGATGATGCCACTAGATGGCGGCAGAGAACTGG
GCTGTGGAAGCAATCCTTGGCTAGGCTGTGGCAGGGCAGTGGAGCACATAGGATTGGAAAAGAAACCAGGAGGTCCGTAAGGCAAGGCTAAAAACCAGCA
ACAGGGCGAAGGAAGCGCCCTTGCCAGCAGCTGGCAGCTTTCCGTATAATTTGTTAGATAATATGTTCATGGTAAAAAAATTTAGGAAAAGAAGGAAAAT
AAAAAAATCCTATGTTGTCACCATTCAACAAGATGTCCCCCAATAATCCTCCCGCCTGGTATTCACATTTTTGTGTAGCCCCTCCTCCACTGTAGCAGGG
TTGGTCTGTGTGACTGGTAGATTGCAGAGAGGTGATGGCATCCCACTTCTGAGATAAAACTGTGCAGTTTCTCTCTCGCTGTCTCTCTCCCTCCAGCCCC
CCTCCCACGGCACTCTCTCCAAAACCAGCTGGCATGTTCTGAGCAGCCTTGAGAGAGGCCCACGTGGTGGGCTTCTTCTGAACCTCCTGCCAACAGCTAC
ATGAGTGGGCCTGGAAGCAGATTCTCAGGTCAGCCTTTGGATGACAGTAGCCCTGGCCGACAGCTTGACTGCAGCCTCCTGGGAGACCCCAAGCCAGAAC
CTACCCAGACTCCCTGACTTGCAGAAAGCATCTGAGATGATAAATGTTTACTGTTTCAAACTGCTCTGTTTTGGGATAATTTGTTACACAGCAAGAGATA
ACTAATATGGGCTAATATATCCCACCACATAGGAAATACCACTGTTAACATTTTACTGTAAATAATTCTGTAACCTTTAGAATTCTCACAAACACCACAC
ACACACACCCCCCATATGTGCACACATGCATACATCTTCATCTTCATGTATTTGCTTTCATCTTTTTGCAAAACTGGAATCAAACATGTTCATATTTCTT
TTTAAGATTAACATATTTCTTTGAGTAATATTTCTACTGAAGCGTAATACAGACAGAAAAATGCACTAATCATAGGTTGGCTGTTTGAATAATTGTCCAA
AAATGAACACACCCATATAACCAGCACCCAAATTAAAAAGTATATACGACCAGCATGCCATAAGCCACCTTGGTGCCCCCTTTCAGCCACACCCTGGCAA
AGCTAACCACTATCCTGGCTGCTAACCTTTTAAGTTGGTTCTGTGCTCAATTTTTTGAAACTTGCTTCTTTTTTAAAATTAAAAATTTTTATTTTTAGAG
ACGAGGTCTCACTCTGTCATGCAGGCTGCAGTGCAGTGGCACTGTAATGGCTCACCGTAGCCTCAGACTCCTGGACTCAAGTGATCCTCTCACCTCAGCC
TCCTGAGTAGCTGGGACTACAGGTGCGTGCCACCACACCTGGCTAATGAAACTTGCTTTTTTTTTTTTTGAGACAGAGTTTCGCTCTTGTCACCCAGGCT
GGAGTGCGATGGTATGATCTTGGCTCACTGCAACCTCTGCCTTCCGGGTTCAAGCAATTCTTCTGTCTCAGCCTCCCAAGTACCTGGGACTATAGGCATG
TGCCACCATGCCTGGCTAATTTTTTTGTATTTTTAGCAAAGACAGCGTTTCACTGTGTTGGCCATGCTGGTCTTGAACTCTTGACCTCAGGTGATCCGCC
CACCTCAGCCTCCCAAAGTGTTGGGATTACAGGCCTGAGCCACCGTGCCTGGCTGAAACTTGCTTTTTATACTTGACATATTGTGAACTCTTTCTGTGTT
ATTAGGTATTCATCCTGTTCACCATTTTAAGAGCTGCATAATACTCCATAGTATGGACACATACCACTCTCGAGTTAACTACTCTTTTATTGATTGCCAT
TAGATTATTTCTGATTTTACTCTCCTGTGAATAAGGATGTGGCATCTATCACAGTAGCCAGATCTTTGCAGACATCACAATTAATTTCTTAGTAAACTTT
TCTATAAAATTAATGAATCGAAATATATAAAAAGGTAGGGCTTTAGGCTGGTCGTGGTGGCTGATGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGCAG
GTGGATTGCCTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAACAAGGCAAAACGTCATCTCTACCAAAAAATACAAAAAATTAGCCGAGTGTGGTGGCAC
ATGCATGTTGTCCCAGTTGCTTGGGAGGCTGAAGTGGGGGGGATCACTTGAGCCTGGGAGGCAGGTTGTGCCAAGATTGTGTCACTGCACTCTAACTTGG
GTGACAGAGTGAGATCCTATCTCAAAAAAGAAAAAAAGGTAACGCTTAGATGAAATTCTGCTAAATTTTTCTCTAGATAGCAATTTACACTCTCATTATA
GTGTGTGAGAATGCCTGTTTCTTTACAGCTTCATCCACAATGAACATTATAATAATGAACACCCYGCCCCCCTCCTTTTGTAACTTGAATAGGCAAATGA
AAAAGAAGCAAACTGTGCTAGGCCTTTCTTGGATTGCTGTAAAGAAACACCACCTGAGACTGTTTAATTGATAAAGAAAAGAGGTTTTAGTTTGGCTCAT
GGCTCTGCAGGCTATACAGGAAGTGTGGTGCTGGCATCTGCTTCTAGTGAGGGCCTCAGGAAGCTACAATCACGGAGGAGGGTGACCGGGAGCCAGCATG
TCACATGGCAAGGGCAGGAGCAAGAAAGAGAGGGTGACAGATGGGGGGACGTGTCACATGCTATTAAACAACCAGATCTTGCGTGAACTCGGAGGGAAAA
CTCGCACTTCACCAAGGGGATGGCTGTGAGCCATTCACAAGGGATTCGTCCCTATGATTGGAGCACTTCCCACCAGGCCCCATCTCCAACACTGGGAATT
ATATTTCTTCCTTTTTTTTTTTCTTTGAGGCGGAGTCTCCCTCTTTTGCCCAGCCTGGAGTGCTGTGGCGCGATCTCGGCTCATCACAACCTCCGCCTCC
TGGGTTCAAGTGATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCTCCCACTACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGG
GTTTCACCGTGTTGGCCAGGCTGGCCTCAAACTCCCGACCTCAAGTCATCTGCCCATCTTGGCCTCTCAAAGTTTGTGATTACAGGTGTGAGCCACCATG
CCCAGGAGGAATTACATTTCAACGTGAGGTTTGGAGGGGACAAACATCCAAACAATATCACAAACTCAAAACTTCTGGGAGCCTTTATATGGAGTTGGGA
GCACCGGTTCGAGTCTCCCACTTAGTGAGGGCCACACATCCAGGATCTAAGGAATTCTGTCCTGTGTTTCCACAGCTGCAGTCTTGGGTGTGAGACCAGG
TGTCATATCAGGAGACCAATTTTGTTATGTCAAAATTGCATGCTCAGGGGTCATGGTTGTGTCTTGGACAACCTGATCCAGACTCATAGGCCCTGATGCT
GCAGCCTTGGCAGTGTGAGGGTCCTTCTGAGGCATTTCATGTTCCCTGACATGGGCCATAGACTCCCTAGATGGGAAGAATCCGTGAAGGCCCTTTCAAC
AAATCCACTGGTCCTATCCACTCCACCTAGCCTGGAGGCTTAATTACTTCCAGAACCTTTAGAGGGAGGGAGATGGCATGGCTCTTTCTTGGAAAGTCTG
GAAGGACACCATGGGCTAGAGGGGACAGACACATGCCTCATGTGGCCTCACAGGTCAGCCTAGGACCTGTGACAGTGACAGGGAGACAGGTTTGGCTTAA
CACAAGGAAGGGCCTTTTGAGGAGCAAACTCCCCTGAGGGGTCAGCCCTCTCATGGGAGCAGCTCAGGGGAGAAGGCTCAGCCTTGGCTG


SNP Information

Context             (SEQ ID NO:38394):
CAGTTGAGCTCATGTAATTACCATATGTTAATTTGGGGGTGATATGTTTTAGGTTGATATTAACTAATATGTTTTCCTATGCAGTGAGAAATGTTTTGCT
K
CTTTCCTTTCAGAACAGAACAATCCATATGCATGTATACTCCAAGGCAACCCCTTGACTTTTCTGGGAAATTTACTTTCTTGGGAATAACCTAAGTTATT
Celera SNP ID:            hCV25943685
SNP Position Genomic:     185269
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,34)   total(G,1|T,71)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38395):
CCTGCCCGAGCGTACCCCCCCGGGGGGTTCCGGGGAAGGGGGCGGGGGTCCGGATCCCCGGATCCCCGGAAGGCGACTTGCGGGGACCCCGGCCGGCCTC
K
CACGCCGGCGATCGATCCCTTTTCCGGCTGCCCAGGATCGGGGGAGAGAGGCGGGATCCGGGTGCCGCGGTGCCCGAGCCTCCCGGGGAAAGCCTCCGCG
Celera SNP ID:            hCV8890386
SNP Position Genomic:     6579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38396):
TGGGGAAAGTTCCCAGGCCGGGGAAAAGGTGGCCGCACGCTGGCTTTTCTCAAGGCAGCCGGCCCTCTTGGCGTCGTGCTTGATTTCATGGGTGTTTAAT
W
CGTGCTTTGTGGGCGCTGGCTCCCCCTCCCCACCCCACCCTCACCCTCTTTTCTGGCTTCACTTTTCAGATAATGCTGTCCCTGGCGTTTTGGTGACCGA
Celera SNP ID:            hCV8890387
SNP Position Genomic:     7051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38397):
GGGGAAAGTTCCCAGGCCGGGGAAAAGGTGGCCGCACGCTGGCTTTTCTCAAGGCAGCCGGCCCTCTTGGCGTCGTGCTTGATTTCATGGGTGTTTAATT
Y
GTGCTTTGTGGGCGCTGGCTCCCCCTCCCCACCCCACCCTCACCCTCTTTTCTGGCTTCACTTTTCAGATAATGCTGTCCCTGGCGTTTTGGTGACCGAC
Celera SNP ID:            hCV8890388
SNP Position Genomic:     7052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38398):
TCAGATTTATAGTCAGTTAACGGAGGCTTAAGTGATGTAAAGTTTTATTTCTCTCTCACATAGAAATTAGTTAGAGGTAGTAGTTTAGGGCTCTTAGAGG
S
CCCAGGCTGTCATATTCTACCTGCTTACACATGGCTTTCAGGATCTAGGTCACCTCACAGTCCATGATGGCTGCTGGGGCTCCATCCCCCTTGTCTGAGT
Celera SNP ID:            hCV15899866
SNP Position Genomic:     55748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38399):
ATCAGATTTATAGTCAGTTAACGGAGGCTTAAGTGATGTAAAGTTTTATTTCTCTCTCACATAGAAATTAGTTAGAGGTAGTAGTTTAGGGCTCTTAGAG
S
CCCCAGGCTGTCATATTCTACCTGCTTACACATGGCTTTCAGGATCTAGGTCACCTCACAGTCCATGATGGCTGCTGGGGCTCCATCCCCCTTGTCTGAG
Celera SNP ID:            hCV15899867
SNP Position Genomic:     55747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38400):
CTGGTTTTCACGTGTCTCCTGAAGCCACCCCTAAGGAGAAGGCTTCGATGTCATCTTCTGGTCAGAGCCGAGCACAGTGGTCCTCTTCAGAGACAGATCC
R
TGCAGCAGGATGGCACCTCTGTTGTCCTCCCAGACTAGCAGTAGGTACACGTGGGCTTCGCAGGCTGTTTTCTGCCCTGGAATGCTGCTGTTTTTTAGAC
Celera SNP ID:            hCV252944
SNP Position Genomic:     115919
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38401):
CTTTTCTGCCAGTCATGTTTCTTAAAGGAAATCGGTAGAATTTATAAATGTCATGTTTTCCAAATACTGTTCTTCTTTTAATTACCTAAGAAAATCTTTT
W
AAAAATTTTTATAAAGATAGTAATGCATATTCATTATATAAAACATAGACAAGAAAAGAATAACAAGTAAATCATTAACTGGAGATAACCATTGATCACT
Celera SNP ID:            hCV25944057
SNP Position Genomic:     138189
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,36)   caucasian(T,40)   total(A,2|T,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:38402):
GGCCTTCTCTAGGGGAAAAACATGTAGTTTATGCAACTTTTCTTTTCCCTTTCTGCTCTGGATTTGACCTTTTGTTCCTTCAGGTGATTGAAAAAATTCG
R
AAAGTCACCTGTTTCCTCAGAATTGCTTTAAGACAAGACTAAGTGAACCAACAAGAATGAAGTCAGCTTTTTGGAAATACCTCCCAAGAGGCCTTGCTCT
Celera SNP ID:            hCV252946
SNP Position Genomic:     117085
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38403):
ACAGGTGCGAGTCCCACCCCAGAGGGGCCTTGAGAGGCTGCAAGTGTCCTGGGTGGGCTGCCTGCTTCAGGAGGACTTATTATTGGGGAAAAATACCCCC
M
CTACTTATTACTAAGGGCCGAATGCTTTATGTTCACACAACAACTCCATGTTGTGTGACTTTGGACATGTTCCTTAACTTTCTTTATCTTGGTCTTCTCA
Celera SNP ID:            hCV309736
SNP Position Genomic:     87177
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38404):
TGCCCTTTTATAATGGCACCAACCCCACCCATGAGGGTGGAGTCCTAATGGCCTAATCAGCTCTCTGAGATCCCATCTGTTAATACTGTTACAATGGCAA
Y
TAAATTTCAACATGAGTTTTGGAGGGGACAGACATTCAAACCATGGCAGGTGGCAAGAAGTATCAAACTACTAGATCCTTGGGATTGTGCTTTGTACTGG
Celera SNP ID:            hCV11665814
SNP Position Genomic:     97864
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38405):
TGATACATGGAAAAATGTACCTGAAATGTGAGTCCTGCTTTTGTGACTCACCCTTTCCTTTACATAAGCATTGATTTACATCTGTTGTTTTTTAAGATAG
K
GTGTATGTTGAAAAGTTCAGAACAAGATCAAGTGGAGACATAAAATGGTAAGATGTGAAAAGTTGTTCTTGCCAGATTAAATGGTTCCACCTGAAGAAAA
Celera SNP ID:            hCV11665747
SNP Position Genomic:     122846
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38406):
TCACTGCCACAGAGAAGTCAGAGGAAGGGACTTGTTGCTAAAAAATCCTTTAAAAGGTTAAATACTTTAAAAGATTAAAGCAACATAACTGTAAACATAT
Y
GTATAAAAATGAAAAACACAGGAACCCTCTTCCCTTCCGCCTGGTGTGGGCTTGGGAAATGGGCAAGCGGCCCCAGCAATCATGGGAGGAACTCTTGCGG
Celera SNP ID:            hCV28969033
SNP Position Genomic:     194903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38407):
GAATATACGGAATATTTAAACAGTAGCTTAGCATCAGAGGTTTGCTTCCTCAGTAACATTTCTGTTCTCATTTGATCAGGGGAGGCCTCTTTGCCCCGAC
Y
CCGCTTCCCCTGCCCCCTGTACATTTGTGCTCCATTTTTTCTTCCCTTTTCCCTCCCAGTTTTCTCCAAAGACTCTTCTGTTGGCAACATTTTCAACCCA
Celera SNP ID:            hCV28969034
SNP Position Genomic:     193209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:38408):
CCCTGGGCTGCATCATCCTTCCACATTGTCTCTCTAAAGTACCTGAAGCCAGTAGTTCTCAAACTTTGGAGAGGGTTTTGAGTCACCTCGAGAGCTGATA
A
GAACAGAGGCCCAGATTGAAGTTGAATAGTGCTGGGCCTTTGTTTTTACCAAGTTCCCTGGATGGTTCTGCTACCTCCTAGCCTGTGAGAACTACTCCTT
Celera SNP ID:            hCV11665748
SNP Position Genomic:     122202
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38409):
ATTGTGGCAGAAGGGTATCTTAAAAACCATTTGTTTCTTTAAAAAAACTCAAACATTAGCACTTTATTCTTATAAACTTGTTTTCTGTCTTTTTTTCCCC
R
TAAGAGAAATGTTTAAAAACATTCTTTAAACAATTCTATTTTGTCATTATCTTTTTTTTGGACAAATATCAGTGTCTTCTGTTTATTACGTTGCTGCTGG
Celera SNP ID:            hCV11665676
SNP Position Genomic:     181371
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:38410):
CCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCCTCTGCGCCTGGCCTTGCAT
K
GACAATTAATTTGTTTATGGAAAGCCAGTTATCCAATGATGGTGAACAAATGCAACTTGACTGTATAATACTTATTTTGGTTTTGGACCAAAGTCACCAT
Celera SNP ID:            hCV47989
SNP Position Genomic:     95155
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38411):
TAATTATCAATAATTATGAATTGTCAAAATTATGTCATGAAACCTCTTTTTTTCTTTTTTTTGAGGGGGAGTCTTGCTCTGTCACCCAGGCTGGATTGCA
R
TGGTGTGATCCTGGTTCACTGCAACCTTTGCCTCTGAGGTTCAAGTGATTCTTCTGCCTCAGCCTGGGATTACAAGCATGCGCCACCATGCCTGGCTAAT
Celera SNP ID:            hCV9640282
SNP Position Genomic:     15888
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38412):
TCAGGCCTTTTTATGGGGCTGCCTCTCTCTCTGGAGGAGGAAGGGAGCAGATATTGATGGAGCACCAACTGTGGCCACTGTCTGATGGCCATCTGATGGG
R
TTGGGGCTCCGAAGGAAAATGGGGGATGTGTCCCTCTTGTGGTTGATGTCTTTTTGTCTCCTGTGCTTGAAACAGATGCCAGCAATACAGAGAGAAGCCG
Celera SNP ID:            hCV25943690
SNP Position Genomic:     149984
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:38413):
AAAAATACAAAAAATTAGCCAGGCGTGGTGGTGGGCGTCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGACCGCGCCACTGCACTCCAGCCTGGG
Y
GACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAACAGGAAGTAGGGAGGGGCAAGGAGGCATCTGGTGCAGTGATCTGACTA
Celera SNP ID:            hCV11665679
SNP Position Genomic:     178571
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38414):
CCTCTTTTCTGGCTTCACTTTTCAGATAATGCTGTCCCTGGCGTTTTGGTGACCGACCTTTCCCCTTCCTGGCATTTCCATAGGGGCTGAGGCAGAGCAG
Y
TGAAGGGGCATTCCCATTTCACAGATGGGGAACTGAGGGAGAGAAGTGAAATAGCGGAGCACCCAGCCCGTGCCATGGGAGCTGAGCCAGCGGGCACGTC
Celera SNP ID:            hCV8890396
SNP Position Genomic:     7196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38415):
CCTTGGCTCCCCAAAGTGTTGGGATTACAGGCATGAACCACTGCACCCAGCCATGTTTTTATTTTATCTGAGAGAAAACTGAGGTTCAGAACTTAACTGT
R
TACTTCTGGAATCTTCACAGAGAAATAAAAAAAAAGAAAAATAATTTACTATAGATTCATTAACTACTACGTGGCGGAGCCAGGGCTGATGTCTCCACTG
Celera SNP ID:            hCV8890397
SNP Position Genomic:     10903
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38416):
TTCATGGCTCTTACTGGCCACTGGGCAAGACTCAGATAGCACCAACCAACCAGTCACAGTTGTGATGTAGGATGTGACTGTGAATGACATCCCTGCTGCC
Y
GCTTCAGAGAAAGGGCTGCCACTTGCCAGAGAAGGAATGGTGATAATGAGGGACAGCCAGTCCCTAAGTGGAGATCCCTGAAAGTGGTGAATATCTTAGA
Celera SNP ID:            hCV8890398
SNP Position Genomic:     12992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38417):
GCTGAGGCATGAGCATCACTTGAGCCCTGGAGGTGGAGGTTGCTTGAGTCCTGGAGGCGGAGTGAGCCAAGATTGCGCCACTGCACTTCAGCTTGGGCTG
Y
AGGGTGAGATTCTGTCTCAAAAAAATAAATAAATAAATAAATAAAATAAAAAAACAATTGAGGTGGATGTCTCCCTAGGGGTACCCCAGGAAGCCACAGG
Celera SNP ID:            hCV15873093
SNP Position Genomic:     20055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38418):
GGTCAGAGGCAAGAGGAGGGTGCCTCTGAGCTTCAACCCCTCCCAGGAACAATGAGCTCAAATTGGAAGAGTCCAGTGGAATCGGGGGGATGGTGTGAGC
R
CCCCTGTTCAGTCTTTGACAATTGCATACAGAAAAGCAGCTGGTATGGGTTTGGGTGTCAATGAAAGGGCCAAAGACTGGTGGCCAGCTGGTTTGGGGGA
Celera SNP ID:            hCV27907968
SNP Position Genomic:     195275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38419):
TGAGAAACATTCACCATATCTCAATAAGCTCTCCTCAGCCAGTTGGTCCTTTTGTGGTTGAAAAAAGTGCCATATCTTTGGTTGGGCATCCAATAAAATA
Y
GGTATTTAGGGGCTACCTGTATGGAAAATCCATATCCTTAAAGGTTAGCTCACCAGGAGGATGTTGAGAAATGGCACAGGGGGCTGGGCGCGGTGGCTCA
Celera SNP ID:            hCV47990
SNP Position Genomic:     95541
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38420):
TCTTTATGCAGGACTGTTATTTCAAAGGATGGTGTCCCCTCCCCAACCATAAGAACGATCCAAACCTGTTTTCTGGGGCCCAGAGTTTGCTGAGGATAGG
M
CTGGGCTGAAGCTTTCATTGCTGGTCTGTGGGGTAGAGGTAAGCCTCCCCTGTGAAGCTGGTAGGTTACATGCTTTGGCAACATGAATTGTTATTTCTGG
Celera SNP ID:            hCV11665751
SNP Position Genomic:     117283
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38421):
AAAGCCCATGTCTACTAAAAATATAAAAATTAGCCAGGTGTGGTGGTGGGCGCCTGTAATCCCAGCTACTAGGGAGGCTGGGCAGGAGAACTGCTGGAAC
S
CAGGAGGCGGAGGTTGCAGTGAGCTGAGATTGCACCACTGCATTCCAGCCTGGGTGACAGGCAAGACTCTGTCTCCAAAAAAAAAAAAAAAAAAAGGCAC
Celera SNP ID:            hCV47991
SNP Position Genomic:     95828
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38422):
CTACAAAGGACCTGAACTCATCCTTTTATGGCTGCATAGTATTCCATGGTGAATGTGTGCCACATTTTTCTTAGTCCAGTCTATCATTGATGGGCATTTC
R
GTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAATAAACATACATGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACC
Celera SNP ID:            hCV11665680
SNP Position Genomic:     176960
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38423):
CTGGTCCTGCCCGCCTGGTCCTGTGGCCAGCACTCTCCACTGTGAGTCATTCAGGCCCAGTCCTTGTCCTGGTGGTGCATCTGCCTCATGATGTCAAGCA
Y
TGTGGGAAAGGCACCCAGCCTGCCCCACTCCAAAGGATGAGTATGGGGAGGTGGTGGTGCTTCTCAAACCCAAGGCTGTTTGTCATACCACATTCCGAAG
Celera SNP ID:            hCV11665754
SNP Position Genomic:     116321
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38424):
AGCTTCTTATGGCTCTTATGTTCTGCAGGACGGATGAACTAGGTACCCAGGACAGGTCTGTTTGTGCACAAGGCTGTCTCCTTCTCCCCCTCCTTGGTTT
Y
TCTACTGAGGCTTTGTTGTGCTTGGCTCAGGGTGATGTTAGCAAATGCACTCTCCACCCTGCTGTGCCACATTAAGGAAACGCATGTTGTATTGGCTTCT
Celera SNP ID:            hCV11665755
SNP Position Genomic:     114220
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38425):
GAACTCCTGACCTCAAGGGATCTGCCCGCCTCAGCCTCCTGAAGTGTTGGGATCACAGGCGTGAGCCCCTGTGCCTGGCCAGATTAGGTTCTGATTTTGG
R
GGGGGAAATGGATCAGTCAGTGGCTGGATAAAACAGTTTTATTGTTTCTTGTTAAAAATAAGAGTAATACATGCTTATGGCAAAAAATATAGAAAAGAAG
Celera SNP ID:            hCV11665683
SNP Position Genomic:     173265
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38426):
TTTATGTCTTCTTTTGTACTAAGTCTTTGATATCTAGTCTGTATTGTGTGCTTGTAGCACATCTGAATGCAAACTGGTCACCTCTCAGGGGCTTGGCAGC
Y
GCATGTGGCTAGAGGGCTGCTGTATCAGCACAGGTTTAGACAATTATGTTGTGGTTGTTTTGGAGTTCAGATTTCTGTCTCCTTGAATCTTGAATATATA
Celera SNP ID:            hCV11665684
SNP Position Genomic:     166038
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38427):
TGACAGCATGCCCTGATGACCTCTCCCTCCCTCTGCCTTGGCCGTTCTGGTTATTTTGAACTCCTCTTGTGTTCTCACAGATGCTATTCAGGTTTTTGAC
R
TCACCGCTGTGAACATCAGTGCCACAAGCCTGACCCTGATCTGGAAAGTCAGCGATAACGAGTCGTCATCTAACTATACCTACAAGATACATGTGGCGGG
Celera SNP ID:            hCV15851318
SNP Position Genomic:     152898
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,38)   total(A,3|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38428):
CCACCCCCATTATTAAATCCTCAACTGCTTTATTTCTGATTTGCATTTTCCATGGCTGAATGAATCTGCTGACTTCCGTTTTCTTTTTCTGTTTCAGATC
Y
TGTGCGCAGGTGGCAGTGAGTACCCTTTTCCTCTCTATTCTTGTGTTGTTCGCTACTGCCCCCTAATGGACACACAGCAACATTAACAGCAATGTGAAAT
Celera SNP ID:            hCV25943916
SNP Position Genomic:     135157
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,22)   total(C,55|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38429):
TGTCTGATGGCCATCTGATGGGGTTGGGGCTCCGAAGGAAAATGGGGGATGTGTCCCTCTTGTGGTTGATGTCTTTTTGTCTCCTGTGCTTGAAACAGAT
R
CCAGCAATACAGAGAGAAGCCGGGCAGGGAGCCCCACCGCCCCTGTGCATGATGAGTCCCTCGTGGGACCTGTGGACCCATCCTCCGGCCAGCAGTCCCA
Celera SNP ID:            hCV15851319
SNP Position Genomic:     150062
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:38430):
ACAGCAAGGACCAAGTACAATGTTCCCCTGATATTTAATTTGCTAAAACATGTAAGAAGAAGAAAGTTCTTACATTGTTAGGTCCCAAAGAGAGTGCCAC
Y
AAGCAACCTTGCCAAAACCACCTTGCTGGAGCTTCTTATTATCTTTTTTTAGCGAATGGCAATAAAGTCATTTTGTCAAGCTAACCAAGTACCATAATGA
Celera SNP ID:            hCV317405
SNP Position Genomic:     119690
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38431):
AGCATTAACTGCTGACCTTGCCATCTGTGAGCAGGTGTTGAATGAGCTCAGTTCCCTCCCAGCCCTTCTTTTTCCCTGGTGGGTCATTGGCTCCTGAGTA
R
GATAGATGCATGCAATAGAAGAGCTGTTAATAGCATTTACTCTTTCTTAATCCTTATTAATCCCATTCATATTTCAGTGTCTGAAACTTGGCAGGATGTC
Celera SNP ID:            hCV317406
SNP Position Genomic:     119459
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38432):
GGCTCATCATACACAGTGGAGATCTTTGCACAAGTAGGGGATGGGATCAAGTCACTGGAACCTGGCCGGAAGTCATTCTGTACAGGTGAGTGTAGCCCCA
R
CTGCCTCTTGGACTCCTCCCTGAGTGGTGCTGACCTTGCAGGTCAGTCCTCCCAAGTCTGTAGTTTGTCTGGTTTTGTGTGATGTGCAGTGATGGACATT
Celera SNP ID:            hCV25943773
SNP Position Genomic:     162393
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,34)   total(A,69|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38433):
TTATTTCAACATGTAATTTCTGTGAAGTATTAATGAGTTATTTTATGTCTTCTTTTGTACTAAGTCTTTGATATCTAGTCTGTATTGTGTGCTTGTAGCA
Y
ATCTGAATGCAAACTGGTCACCTCTCAGGGGCTTGGCAGCCGCATGTGGCTAGAGGGCTGCTGTATCAGCACAGGTTTAGACAATTATGTTGTGGTTGTT
Celera SNP ID:            hCV11665688
SNP Position Genomic:     165997
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38434):
TTTGTTTGCTCAAATTGCCTTTATAAAATAGATTGATACTCTATAATAAGCAAATGTTGTGAATTTGGAATTTTCAAATTGAGGCTTACTAATAATGTTA
W
CTATTTTATCCGAGTTTATTTGGGTTTCTTATAAAATGTAATTTCTCAAGAAGATTTTGCTGCCCTAAAAAAAAAAAAAAGAAAAAGAAAAAGACAAAAA
Celera SNP ID:            hCV317407
SNP Position Genomic:     119132
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38435):
ATGTGAGTTCATTATTGATAGGCAGCTGTGGCAGGAAGGGAAGGATCTGAATGCAGAATTGGAGGATGAGGGACTTCTGTTGCATCTGAAATCAGTGTTG
R
GGAAATGACTTCACTTCTGTGAATCTCTGCTGCCTCATCTTTAAAGGGGGATAATAAACTCTCCTTCTTGAGCATATTGTGAGGGTTTGATGAGCAAGCA
Celera SNP ID:            hCV245309
SNP Position Genomic:     188316
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38436):
TTATTGCCAGCTTAACTTGTTTTTATGACATCTTCAGGAAGAAAACCTCTGCTGTCTATTTAATGGAGATGAATTGTTAAACTTTTACCATTTGCAACTA
Y
ACGTCTCTATGAGTCAGACTTTTATTGATCGTGTACAACTAAATGAAACCCGGAAATGAAGGAAATGTAACAAGCGATTTTATGTATTTTTTGTTTGCTC
Celera SNP ID:            hCV317408
SNP Position Genomic:     118942
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38437):
AGCTGGAAAGAAACCAAATGGGCATGTAGAGGTCTGGGGCTTGATGGCAGTGTGGCCTAGGATGGCTTGTGAGGCTCACTTCTGAAGCCCTGCACAAGGA
M
TTTCTTGGCCAGTGTCTGCCTTTCAGTTCCCCATGCTGTGCTCCAACCAGCCCAGGAACCAGCCCTGCTCAGAGTGACCATGCACACTCGTCCTCCTGTG
Celera SNP ID:            hCV27877825
SNP Position Genomic:     175817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38438):
GGTATGAACTCACACAAACAGGTTACATTAAATGGCTATATAACGCAAGGGGTTGTTGCGCTCCAAACCCTTTGCGTCATACTGTCCTGGATGTCTACCT
Y
GGACTACTCCTGACTGAAGCACAGCCACTTTCCTTAGAAATTGGCTTGTTTTTCCTGAAAGTTAGAAAACTGTTAACAGAAACTAGGAATTCAAGTCAGG
Celera SNP ID:            hCV27877826
SNP Position Genomic:     175582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38439):
CTACTCTAGGGGCAAAGGGAGCTGGATGGGGACTGTGTCCTAGGTCAAGGGACAGCTGCTGCTCTGCTCTAAATCAATTTTCATGCTGAAAGCAGGGCCT
R
TTGTAGGCAGATCTGATTTTTAAAGAGAAAATAAGTCTGGATTTTTATGAGAAATTTTAAGAGTTGGCAAGAATTGTAAATTAAAAAAAGAAAAAACAAT
Celera SNP ID:            hCV11380971
SNP Position Genomic:     184608
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38440):
TTGCCATGCACCCAGGGTGCAGGGAGACCTGTCTTGCAGGTGTTCAAACAACTTTTGTCAGCCTCAGTGTCAGGGACTTTTGTTGCGTAGAGCAGTCACC
R
AATCCTATGGTGAGAAGAGAAATCGTTGGAGATGGGGGTGCAGGGGTGGAAGCTCTTATTTCAGAAGACCTGTTGTGAGGTAAGACTCAGACCCTCAGCT
Celera SNP ID:            hCV27877827
SNP Position Genomic:     22212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38441):
TTCAGCTAGCAGCAGACTTCTCAGCAGAAACTTACAGGCCAGGAGAGAGTGGGATGATATATTCACCATGCTGAGGGAAAACAACCTGCCAACCAAGATT
R
CTATACCCAGCAGAACTGGCCATCAAAAATGAAGGCAAGATAAAAGACTTTACCAGAGAAACAAAAGCTGAGGGAGTTCATCACCACTAGACATGTCTTA
Celera SNP ID:            hCV27877828
SNP Position Genomic:     140532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38442):
CTGGTCAAGACAGAGCCCTGTGGACTATGGAAGGGATTGAAGCCATTCTGTGGATCCTATAGGCTTCTTTTCTAAGCGAATGATTAGTGTTTATTCAGTA
R
CCCTATGTCAGGTGGTTTCTGTATGAATGAGAGGTTTGCCTTTCCAGCTGCGGCGGGGCTTTGGGCAAGTTGCTGTCTCTGTGCTCCTTCGTTTGCTCAT
Celera SNP ID:            hCV27877829
SNP Position Genomic:     111244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38443):
AAAATACCTCACAGGGTTGCAGTGAAGATGTAAGGATGATGATGATGACAACAGCAGCTCAAATAGATCATTTAACTTAATTCTCGCCAAAGCAAGGCAG
R
TACAAAGATCATCCTGTTGGCAGATACAGACAGGGAGGGACAGAGAGGTTAATTAAGCAAGCTACCTGCCCGCAGTTACATGGCCAGAAGCAGTGGCACT
Celera SNP ID:            hCV27956064
SNP Position Genomic:     133405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38444):
AGTTTCCACATTTTTAAATGGGTGGAGAAAACAAAATCTACAAAGAATAATGTTTCATGACACATGAAAATTATGTAAAATATACATTTAACGCTTGTAA
R
TAAAGTTCTGTTGGAACTCAGCTACAGTCGTTAGTTTACATATCATCGATGGCTGGTTTCGCAGTACAAGGGCACAGTTTAAAGCCTGCCAGGCCTAAAA
Celera SNP ID:            hCV28020848
SNP Position Genomic:     124480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38445):
TGCAGCTTGGAACTCTTGGGCTGAAGTGATTCTTCTTCCTTAGCCTCCCCAGTAGCTAGGACTATAGTGCCACCATGCCTGGCTAATTTAAATTTTTTTT
K
TGTGTGTGTGTGTGGTGGAGATGGGTTCTCACTGTGTTGCTCAGGCTGGTCTTGAACTCTTGGGCTTAAGCGATCTTCCCATCTTGGCCTCCCAGAGTGC
Celera SNP ID:            hCV462098
SNP Position Genomic:     101006
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38446):
TACCATGTCTCCTTTTCCAGCCTCATTCCCTGAGATGTAGCCGGAGTTCCAGTTCAGCCAACCTGCCCGTTGTTTTCTCTCCTGGAACTGGGTGTTTGAG
Y
CTCCTGCATGGAGTGTTCTTCCTTCCCAGCTAAAGTCCTGGTCATCCCATTTCCATCTGAAAGGCCCCCTTGTTCATGAAGCCTCTCATGGTCCTTCCCC
Celera SNP ID:            hCV462099
SNP Position Genomic:     101335
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38447):
GTAGCAAGCATGCAGACATTCTCATGACATCCTGGCAGATATCAAGACCAAAGAACATCCCATGTTCCCTCTTGAAGGCTTGTAATAACTGCCATAAATT
R
TCTTGTGGGAATGGAGTGGCCCTGGCCTAAGCTGTGCTGTACCGGACTCTCCTGGTGACAGTTTTAGTGGCTGCATATGTTTGCAGAAGAAGGAAGCGTG
Celera SNP ID:            hCV11665760
SNP Position Genomic:     113801
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38448):
AATGCTGTGTACACGCTTGGTCACTCTTCCCTTTCTTGAGATGACATGTCCCCTTCTTGGAGACCCAAGATGATTGACAACAATAACATTCCTTTACAAC
R
TTTTCTTCTCATCTAGAGCACTGGGAGGCTGCCTTTTAACAGAGATATCACAGAGTAGCAAGCATGCAGACATTCTCATGACATCCTGGCAGATATCAAG
Celera SNP ID:            hCV11665761
SNP Position Genomic:     113646
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38449):
GCTTTGGTTCTCCTGTGTGCCAGGAACAGCAGTAAACTTTATGTCCTAAGATTAGTATGGTTGGAAATGCATGTGGCAGTGGTTCCCAAACACTGGTGTG
Y
AGATGGAACACAGCCCGTGAAGTTTTCAGCGGTCCTTGTTAAAAAGAGATAAAGGAAAGAGATAAAGGATAAAGTGCTGAGATTCTCGTGAAGCTAAATG
Celera SNP ID:            hCV11665762
SNP Position Genomic:     112622
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38450):
TGTAAAGTTTAATTTTTAGTCATTACAACTCCTGGTTAGTACTCAGGCTCTGCTTGATTTCCCCTGCCTTTTTGATGTTGTTAGGCAGCCTTTCTGTCTG
K
ATCTAAATCATTTTCTGGGCTTTTAGATCCAGACAAGTGAGAGTCACCCTCTGAGACAGTTCCATTTCACCTCCTGGCCAGACCACGGTGTTCCCGACAC
Celera SNP ID:            hCV245310
SNP Position Genomic:     188538
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,16)   caucasian(G,1|T,3)   total(G,13|T,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,6)      total(G,6|T,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38451):
TGATACAAAGAAGAGAAAGAGAGGGATCAGTTTTTCCAAGTGTGCATTTCATTTCAGTGTAAATATTTTGTGAGGTGGGGCATCCCTGTCTCCTGGAGAA
R
TATATTTTTAATCTAATTGTTTACTTTCTTTGCATAGCCCCTAGTCCAATTCCTGACCCTTCAGTAGCAACTGTTGCCACAGGGGAAAATGGCATAACGC
Celera SNP ID:            hCV25943851
SNP Position Genomic:     137803
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,38|G,2)   total(A,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:38452):
GCTCTCCAGTTTTATAGGTGAGGAAGCTGAGCTCAAGTGGTTTTCCTGTGGCCCACCTGGGTGTCATAGCAGAGTGAGCCCTGGAACCCAGGCCTGCCTC
R
TCCTGACTTCTGTGATCTCGGGCGATCACATAGATCGCAGTGTTCGCTCTTGCATCATGTGTGTTTGACAACTTTTCTGGGTGCCCCTGGCCCTAGGGTA
Celera SNP ID:            hCV11665693
SNP Position Genomic:     152485
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38453):
TCCAGAGCCTGAGCCCTTGACCACAGGAGCTCACGCCTCCTCTCATTTCCTGTGAATGATTGTGTGCAATGTAAGCACAGAGCTTCTGCACTCTCATGAT
M
AAGTGCTCTCTCCATGGCCAGAAACAGCAGTTTCTGAGGGGCTCATGTTGTAGGTGATGATACAAAGAAGACAGAGAGAGGGATCAGGTGTCCTAAGTGT
Celera SNP ID:            hCV25943854
SNP Position Genomic:     155367
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,35)   caucasian(A,1|C,35)   total(A,4|C,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:38454):
ATCTGGAAAGTCAGCGATAACGAGTCGTCATCTAACTATACCTACAAGATACATGTGGCGGGGGAGACAGATTCTTCCAATCTCAACGTCAGTGAGCCTC
R
CGCTGTCATCCCCGGACTCCGCTCCAGCACCTTCTACAACATCACAGTGTGTCCTGTCCTAGGTGACATCGAGGGCACGCCGGGCTTCCTCCAAGTGCAC
Celera SNP ID:            hCV25943927
SNP Position Genomic:     153037
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:38455):
GAGATGAGGCAATTCTCATCCCTCCCTCTTGCTTCTTTCTGTTCATCAGCTTCATTCTCAGAGCAGCTCCCTCTGCACACTTAAGGAGCCCAGCTGCTCC
Y
GTTTCACACCCTGCAGCTGCCCCACCAGCCAGCTGCCCCACCAACCAGGGTCTGGTCCAGGGAAACGTGTCTTGAGTGGGGTCTGATTAGCAAAGTCTGC
Celera SNP ID:            hCV11665697
SNP Position Genomic:     149632
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;JBIC-allele(T,293|C,1204)   total(C,1204|T,293)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38456):
GTCAGAGGTCAAGGCCAGTGGTCTATCAGAACCCAGTTCCTGCAGGAGCCAGTGCCGGTACTAGGTAGACTCAGATGACTGAATGGTCCTCGGGATCTGA
R
GGCCAGTGGGGGAGATGAGGCCTGGCCTCCCGGAAGTGCTCAGTAAACATTTGTTAATCATTTCCTGCCTAGGGAAGCTCTGTGGTATGCTCAGGAGAAT
Celera SNP ID:            hCV8892800
SNP Position Genomic:     38853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38457):
TACTTAATAAAACAAAAAGACGCATGACTGACCTGATTTAGAACTCTTTGCATGAGAGACATGTGCTGTGAAGAATCATCTTACCGTTTCGGAGCTGGAC
R
GTGCCTTAGAATCATCTAGGCCGATGTCTTTACCTTCAGGCCCCTGCAGCCCTCAGGAGGGGTTTTGCTCTATCTGCAGCACTACCTGTGCTTTTCTGTA
Celera SNP ID:            hCV11665699
SNP Position Genomic:     147885
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,7)   total(G,7|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38458):
GGAGATGAGGCCTGGCCTCCCGGAAGTGCTCAGTAAACATTTGTTAATCATTTCCTGCCTAGGGAAGCTCTGTGGTATGCTCAGGAGAATCTTGCTTCTC
R
TGGGGGAATGGGTGGTTGTCATTTGGGTGGCCTGACTGCCAGCCTGCTTGCTGGCTCTCTGGGAGTTGGGGTGGTGGCATCAACCTGCAGAGGCGGGGCA
Celera SNP ID:            hCV8892801
SNP Position Genomic:     38964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38459):
ACTTCAAAGAAAGTGCTGCCCTCCCAGTGGTGATGAAGACCTTCCGCTGGCCCCAGCCTCTGGGATCTGGCCTTTACTTGGGTATTCATGTGGCCCTGGG
R
GTTGGCTTTGCTGAAGTTGGGCAGAGCAGGTGGGTTCTGGAATGTGCAGGGGCAACCAGAGTGTCCATCTGTTTGGGTGAAGCCAGCTGTTTAGGTCTGA
Celera SNP ID:            hCV8892802
SNP Position Genomic:     39329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38460):
TGGGGTTTGGGAGTTGGGCGGGGGAATGACCTGTTTGAAAATAATTTTGGGTGCTAATTTCTGGGACCCATGTTCATTTTCTGTCTCTCTCTTTCGTTTT
Y
CTATCAGGACCAGTATGTTTTCCTCAATCAGTGTGTTTTGGATATTGTCAGATCCCAGAAAGACTCAAAAGTAGATCTTATCTACCAGAACACAACTGCA
Celera SNP ID:            hCV25943788
SNP Position Genomic:     192351
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,29)   caucasian(C,1|T,39)   total(C,10|T,68)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38461):
AGGATAAAAAGCAGGCATCTTGCTGGAGGGTCTCTGTTGCTCAGTAGAAATTATTTTGTAATGTTTTTTGAAAACCACAAACATGGACATATTATGGACT
R
GATACCACATTTGCATCAGGATTTTTTTTTCAACCAGTACAGTACATAACAAAGAAATCTCTACCCTGCAGACCCTCTGGGGGTGTGAGAGCGCTCCTTG
Celera SNP ID:            hCV8892732
SNP Position Genomic:     20253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38462):
CCTTGCTGTAGGTAATACTTGCTTTGAAGTACTGGTGTGGATGGCCTATGCCCTGGCAGTCTTACTAGGTGGGACTGGCTGTCCTCTCATTCTCATGGGA
W
TGGCCTCATGCTGGTAGCTGACTTCCTCCCCGTGAGACCGTAGGTCTAAACTAACAAGGTTTACACATGTGACAAACATCCAGGTTGCCAGGGCTCAAAA
Celera SNP ID:            hCV8892733
SNP Position Genomic:     22764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38463):
AACACCTGGCCTCAAGTGATCCTCCTGCTTTAGCCTCCTGAGTAGCTGGGACCACAGGCTTACACCACCATACCTGGCAAATTTTTTTTTTTTTTTTTTT
T
GGAGAGGCAGAGTCTTGCTCCGTTGTCCAGGCTGGAGTGCAGTGGTGTAGTCATGGCTCGCTGCAGCCTCTGTCTCCTGGGCTTAAGCCATTCTCCTGCC
Celera SNP ID:            hCV11665770
SNP Position Genomic:     107837
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38464):
GATGGGTGGGGACCATCTGTGCTCTCCTGGAAAGGAAATTGTGGTTTCTTTCTTTTCTTTTTTCTTTCTTCTTCTTTTTTTTTTTTTTTTTTTTTTTTAG
Y
TTATGGGAAAGGGAGACTTGTGTCTCAATTGAGTCTTTGTGGCGTTGTATTACAGAGAGTCACAGAAAATGTTCTATGTAAATGACTATGTGCTCTGATT
Celera SNP ID:            hCV1953957
SNP Position Genomic:     60957
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38465):
TGGCAGTTTCTGAGGGGCTCATGTTGTAGGTGATGATACAAAGAAGAGAAAGAGAGGGATCAGTTTTTCCAAGTGTGCATTTCATTTCAGTGTAAATATT
K
TGTGAGGTGGGGCATCCCTGTCTCCTGGAGAAATATATTTTTAATCTAATTGTTTACTTTCTTTGCATAGCCCCTAGTCCAATTCCTGACCCTTCAGTAG
Celera SNP ID:            hCV25943931
SNP Position Genomic:     137770
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,35)   caucasian(T,40)   total(G,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:38466):
AGGAGGAAATGAAGGCTCAGAGAATTGAGTAACTTGCTTGAAGTCCAAAGCTGAGGAGTGGAGCCAGAATTCAAACTCGAGTTTGTCTGGCTTCCGAATC
S
TGCTATTTCCTCAGCACAGTGGCCGTCCTCCAAGGCTGTCACATGTTCCTTCCCTGGTGATTCACGGCACCTGGCTACCTCCTTTTAGACTCACTTTGTG
Celera SNP ID:            hCV1953958
SNP Position Genomic:     60435
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38467):
GGATGGGTGCTATTTTCCAAGGAAAGCCCCTCCTGGTGGGGGGCCATAGGAAACAGCTGGTGCAAAGGCCTGGAAGACTCACTGGCATCTTTCTGGAATA
R
CAAGGATCAGCTTGGTGGGAAGTGGAATGAGCTGGGGGTGGAGTGGGGTGGGGTGGATTTTGGAGTCTGAGCTTGAGATACCTGCTTGGAGATGCTGAGC
Celera SNP ID:            hCV1953959
SNP Position Genomic:     58634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38468):
TCTATTAAGGAACATTTCAAACTTTGACAGATTCAGAAGGAATGATATGATGAGCGCCATGTTCCCTTCACCCATAGTGTTCTGCATTTGGCCAGTCCTA
K
TTCCTCTGCGCCCCCAGCTGGGCGATGTTAATGTGCTCCCAGCTGTCACATCAGGCCACTGATAGACGCCACAGTGTGGGATGCTACTTTCAAATGATAT
Celera SNP ID:            hCV27492549
SNP Position Genomic:     172212
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,133|T,606)   total(G,133|T,606) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38469):
TCATTTGCTTGTGCCGAGCCGCCAAGTGCCCCCTCCTGCTGGCGACAGGTCCGGATGTGGGCCAGTTCTCAGCCCAGGGAAAATGAACAGTGTCTTCTCC
R
TGGTGCCCAGAACAGTCTGAGTCAGTGGAATGTGCTGGCCAGTCAGGCAGAAGGGAACTTCCACTTCTTTTTTAAAACCTTGGTGGAAACTGTGCTGGCA
Celera SNP ID:            hCV11665777
SNP Position Genomic:     106722
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38470):
ACCTTGTTTGTTTAAAGACCATTAAAGAACGTCTTCAATTTATTCTGGATTGAGTTTTCCTCAAACCAAACCACCCCTCAGTTCACCCCCCAGAGCTGTT
S
AGGCCCTTCCTGGGGGCTTGTGGCTGTGGCTGCCTCAGATCAGAGCAGACCCTGGGCTGCATCATCCTTCCACATTGTCTCTCTAAAGTACCTGAAGCCA
Celera SNP ID:            hCV440186
SNP Position Genomic:     122052
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38471):
TTCTGGGTTCCTTCCGGCTGTCCAAATCAAATTTAATTTTCACACCCAGACCTTGTCCCTGCTCTCATCCTTCAGCCCACCCTCCTGTTCCCCATTCAGC
Y
AGACCCCCTGCCAGTCAGTTCAAGTGCTAGGCATGGGGTATCGAGTCTCAGGCCGGTCCACAGACATTCCAGCACCTGGTGGTAAGAGGTGAGTGCTGCG
Celera SNP ID:            hCV440188
SNP Position Genomic:     122457
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38472):
CCGGTCCACAGACATTCCAGCACCTGGTGGTAAGAGGTGAGTGCTGCGTGGACCCACTGAGGAAGGCTCTGGCTGTGCTGGGGGAGGGGAGTTTATGCTC
R
TCCTCATAGAAGGATAAGCAGGAATTAAGTGGGCAAAGGAGGGAGTGAGGAAGCTCTCACTTTCTAGGTAGTAGGACCAGCATGAACCAAGGTAGGGGAT
Celera SNP ID:            hCV440189
SNP Position Genomic:     122610
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38473):
CTGCCAGGCTGGGTTGGGAGATGAATGTGTATGCATGTGTGAATGGATTCATTTCTGATGATAAAAATACTTTATGCTTATTTATGTGAAACTTGGAAAA
Y
AGAGGAAAAGTATAAAATTGAAACTAAAAGTCATCCATAATCCTTCTAAGTAGCTTTATCATTTAATGTTTTAGTATATTTCCTTCCTGTTTTTTTTTTT
Celera SNP ID:            hCV8892811
SNP Position Genomic:     43489
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38474):
ATTCATTTCTGATGATAAAAATACTTTATGCTTATTTATGTGAAACTTGGAAAATAGAGGAAAAGTATAAAATTGAAACTAAAAGTCATCCATAATCCTT
Y
TAAGTAGCTTTATCATTTAATGTTTTAGTATATTTCCTTCCTGTTTTTTTTTTTTTCCTTAATTCTGGGTGTATGCAAAGGATTTTGTAACCCTTTACAT
Celera SNP ID:            hCV8892812
SNP Position Genomic:     43535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38475):
TGCCCAGGGAGGGTTAGATACCTGGGAGGATAGAGCAGAGGCCCTCCTTCTCCCCGACCCCTCGCCTCTGCAGGCTGGTGGGGAGGGGGGCAGGGGAGTC
S
AGTTACCCTCTCTCCACGCTTTCTTCTTGTGTATGTGTGCGTGTACGTGCGTGTGTGTGTTGTGTGTGTGTGTCTTGGGGGATGGAGAACCCCTCTCAGG
Celera SNP ID:            hCV8892813
SNP Position Genomic:     44367
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38476):
AAACTGTGTTCTTGAAAAAATTATCACGCCCATTTTAGAGATGAGGCACAGAGAGGTGGAGGGACTTGCCCAGATCCAGGTATGTGGCTCTCCTGTAATC
K
CGCTTCTATTGCTTTGTGATCAGCAGCAACTTAGTAGCTTTCAAAGCTTCAATTTTCTTGTGTGCCAAATGGGGCTAATAAATACCTTAGAGGATTGTGA
Celera SNP ID:            hCV8892741
SNP Position Genomic:     23940
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38477):
GTTGTATTTTTAAAATAGAGCCGATCCCAGTTTCTGATCTCCGTGTTGCCCTCACGGGTGTGAGGAAGGCTGCTCTCTCCTGGAGCAATGGCAATGGCAC
Y
GCCTCCTGCCGGGTTCTTCTTGAAAGCATTGGAAGCCATGAGGAGTTGACTCAAGACTCAAGACTTCAGGTCAATATCTCGGGCCTGAAGCCAGGGGTTC
Celera SNP ID:            hCV15959195
SNP Position Genomic:     148787
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(C,22|T,18)   total(C,27|T,51)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,569|C,932)   total(C,932|T,569) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38478):
ACAGAGTCTGAAGTTCAGGAAATACAGCAAGAGCCTTCCTCAGGGATGAAACATGTGATCTTATGGTCTGACTAGCCTCAAGCCAGCTGAGCTCATTGCC
R
TGCAACTTGGTAGTTAATGATTGCTAGTAAGAAGTTTAAAAGGATCATCCCCTCAAAGAATGTCAGAGTTGGAAAAGACCTTAGGGACATTAGGCTAGGA
Celera SNP ID:            hCV8892742
SNP Position Genomic:     24400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38479):
TCTTTTAAAACCCGCTCCCAGCACTGAACCCCAGTCATTCTTAATGAAGGTGACTGCATATATCTTGTTCCATTAATGCATGTTGTATTTTTAAAATAGA
R
CCGATCCCAGTTTCTGATCTCCGTGTTGCCCTCACGGGTGTGAGGAAGGCTGCTCTCTCCTGGAGCAATGGCAATGGCACTGCCTCCTGCCGGGTTCTTC
Celera SNP ID:            hCV15959196
SNP Position Genomic:     148706
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,2|G,38)   total(A,7|G,71)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,268|G,1233)   total(G,1233|A,268) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38480):
AGATGTGTGCCACCTCTCCTGGGTAATTTTAAAATTTTTTTTTTGTAGAGATGGGGGTCTCACTATGTTGCCACAGCTGGCCTCCAAGTCCTGGGCTCAA
R
CGATCCTCCCGTCTTGGCCTCCCAAAGTGCTAAGATTATAGGTGCAAGCCACCTCTCCTGGCTTGCTTCTTTCCCGTAAATTGAGGTGTGTTATTCCACT
Celera SNP ID:            hCV8892743
SNP Position Genomic:     25791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38481):
TTTTTGTATTTTTACTACAGGCAGGGTTTCACCATATTGGTCGGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTTGCCCTTCCAAAGTGC
W
GGGATTACAGGCGTGAGCCACTGTGCCTGGTCTTATATTTCTTTTCTATTTTTCTACCCTGATCAACCTTTTCTTTTCTATCTCTCTCACTGTTTCTACG
Celera SNP ID:            hCV26877600
SNP Position Genomic:     49855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38482):
AGTCTACGAAGAGGGGTGCCTCAGGCCCATGGTAAATTTTATGTAAGTGTTGGTTGTATATAAGATGATGAAGTCCGGGCGCGGTGGCTCATGCCTGTAA
A
TCCTAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGAGAAACCCCGTCTCTACTAAAAATAC
Celera SNP ID:            hCV26877601
SNP Position Genomic:     47612
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,8)   total(A,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38483):
TTGCAGTGAGCCAAGATCACGCCATTGCACTCCAGCCTGGGCGGCAAGAGCAAGACTCCGTCCCTAAAATAAATAAATAAATAAATAAATAAATAAATAA
W
TAAATAAATAAAATAAAATAAATAAAAAAAGAGGTTAAGGTTTATACGCAGGCCATTTCTAATAGATGTTATGGAAGCCCCAGGTTTTGGGGCATCAGGG
Celera SNP ID:            hCV26877602
SNP Position Genomic:     46818
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,8)   total(A,2|-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38484):
TACTAAAAATACAAAAATTAGCCGGGCGTGTTGGCATGTGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGG
W
GGTTGCAGTGAGCCAAGATCACGCCATTGCACTCCAGCCTGGGCGGCAAGAGCAAGACTCCGTCCCTAAAATAAATAAATAAATAAATAAATAAATAAAT
Celera SNP ID:            hCV26877603
SNP Position Genomic:     46715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38485):
CCACCATGCCCGGCTAATTTTTTTGTAGTTTTTAGTACAAATGGGGTTTCACCATGTTGGCTAGGCTGGTCTCGAGCTCCTGACCTCAGGTGATCTGCCT
K
CCTTGGCCTCCCAAAGTGGTGGGATTACAGGTGTGAGCCACTGTCCCAGGCCAGATGGACCATTTTAAAGATTAGGTAACTGAGCTCTAGGGGTCAAGAG
Celera SNP ID:            hCV26877604
SNP Position Genomic:     40360
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38486):
AACCAATTAGTTACAAAGTAGGGTCTAGAAATCAGATTTCCTGAATCATATTTTAGTGTTTTGTGAATAATAGTACTCTGACCCCCTCTTGCCAAATTAT
R
CCCTGGGTTTTGTTGTTTTGGGAAGATTGTTTACTGTCATTTCTAGAGTATGAATGAGTCTTTCTAATTGCATATTTTTTCTTTCCCTTTCTATCATGAA
Celera SNP ID:            hCV25943507
SNP Position Genomic:     174988
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|G,1)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38487):
CGCAATCTCTGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCCACCACGCC
Y
GGCTAATTTTTTGTATTTTTTTTTTTTTTAGTAGAGATGGGTTTTCACCATGTTAGCCAGGTTGGTCTCGATCTCCTGACGTCGTGATCCGCCCACCTCG
Celera SNP ID:            hCV26877605
SNP Position Genomic:     32669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38488):
GGGGACCTAGTTATGAGTCCTGTTTCTTTTTTTTTTCTTTTTTTATTTTGAGACTGAGTCTCGCTTTGTCTCCCAGGCTGGAGTGCAGTGGCGCAATCTC
K
GCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCCACCACGCCCGGCTAATTT
Celera SNP ID:            hCV26877606
SNP Position Genomic:     32578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38489):
GTGTTCCCCTTTACTGTGACCAGTGGCTTCATAGGGGACCTAGTTATGAGTCCTGTTTCTTTTTTTTTTCTTTTTTTATTTTGAGACTGAGTCTCGCTTT
R
TCTCCCAGGCTGGAGTGCAGTGGCGCAATCTCTGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGA
Celera SNP ID:            hCV26877607
SNP Position Genomic:     32545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38490):
ATGAGCTTGGTCATTTAAAAAAATTTATTTTTTCCTAGTTAGGTAACAGTGGTATAACAACATTAAAAGAAATGTAGAAACTAGAGAAAGGAAAAAAAAA
A
GCCCTTTATCCCCCCCATCACAAAACTATTATAATTTCAAAATAGTTACAAGTACAATGTATTCCAAGTGGCTTCTTATTTAAGATAATTATATTCACAG
Celera SNP ID:            hCV26877608
SNP Position Genomic:     28371
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,12)   total(A,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38491):
CCCCATATCACTTCTTATTATCTCATAATATTCTTACCTTTTGCAGTGACAGCCCCAAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GTTTGGGGTGGGGATCATAATAATCCTGCAGGTGGGGTTTAGCTCTGGTGAAAAGAGCACAGATCCTTTGATTTGGGTTTGAATCCCAGCACTTCCTCTT
Celera SNP ID:            hCV26877609
SNP Position Genomic:     26799
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38492):
AGAAACAAAAGTGTAGGCTGGGTGCAGTGGCTCACGCCTGTAATCTTAGCACTTTGGGAAGCCGAGGTGGGGAGATCACTTGAGCCCAGAAGTTCAAGAT
Y
GGCTTGGGCAACATAGTGAGACTCCGTCTCTATTAAAAAAAAAAAAACAAGTCTAACATCAGGTAGACTTCAGGGCTGTGAAAGAAGTGACATAGGGTAA
Celera SNP ID:            hCV1953960
SNP Position Genomic:     58413
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38493):
GTTTGTGTTTGCTAAACATATCTTTAGCTGCGTAAGAGAAAGAAGGAAAATAGTAAAGATGAACAGTACTGTTTTCTACTTGAAGTTCTAGTTGGCCCCC
M
CTCCCTTCCATGTAGGAACCTTAGCTTGCTTTCCACACCCTCCCACCACTGGACTCACAAAGGCCCCTGATGAGTGCCTCCGGTAAGACAGGGGGAAATT
Celera SNP ID:            hCV1953962
SNP Position Genomic:     55282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|C,8)      total(A,7|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38494):
TGAAGGAGGCTCCTCTAGTGAAAGAAAAAGGCATCCAGTGTTAATAGTATTTCTTCCCAGTTGCATGGGGCTTGCATATTAGAGATAAAGGAAACATCTT
W
GCTACTACTGAGCCATAAGTGGTCTCACCTTTCTTGAAACATAAGGCCGTCTTGGTTTGTTGTTCTGTTTTGTGCTTTTCACAGAGGCATGGACACTGAA
Celera SNP ID:            hCV1953964
SNP Position Genomic:     53488
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,3)      total(A,3|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38495):
ACTCCAAACAGAGGATGTCGGTATAGACAATCCCTAGGATCTTGTCCCCTTTATGACTGATCACACAGTTCCACTGCTTGCCCTTGAGGCTTTGGTGTCC
R
CGCATGCCTATTCAGTCTGACCCACAAGAGGCCAGGCCAGCTCTGTTCCAGGTGCTGAAAATCCCATTAAAACTCCACTCACTAGCCTGTTCCCTGGGGG
Celera SNP ID:            hCV440190
SNP Position Genomic:     123544
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38496):
GGTCTGTAAAATCCCAAACCCAGGTAGATAAAACCAAGAAGTGACAGGGCTGGAAGGGATCTTAGGAATTAGTTCATAAAGAACTTCAGGCTCAGAGAAG
R
CATGTGAGTTGCCTAAGGTCACACAGCAAATCTGAAGCAAATCAGGGCTAGAAACCCATAGACGATGGTCATGAGCACTGGTTTTGAGTCATCCATTTGA
Celera SNP ID:            hCV255025
SNP Position Genomic:     113004
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38497):
TGACTGATCACACAGTTCCACTGCTTGCCCTTGAGGCTTTGGTGTCCACGCATGCCTATTCAGTCTGACCCACAAGAGGCCAGGCCAGCTCTGTTCCAGG
Y
GCTGAAAATCCCATTAAAACTCCACTCACTAGCCTGTTCCCTGGGGGTGCTGAATCAGCATTTAATGGGGAAGGCCACGAGCTAGGCTCTGGTGGGTAGG
Celera SNP ID:            hCV440191
SNP Position Genomic:     123597
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38498):
GACTGATCACACAGTTCCACTGCTTGCCCTTGAGGCTTTGGTGTCCACGCATGCCTATTCAGTCTGACCCACAAGAGGCCAGGCCAGCTCTGTTCCAGGT
S
CTGAAAATCCCATTAAAACTCCACTCACTAGCCTGTTCCCTGGGGGTGCTGAATCAGCATTTAATGGGGAAGGCCACGAGCTAGGCTCTGGTGGGTAGGA
Celera SNP ID:            hCV440192
SNP Position Genomic:     123598
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38499):
CTTGGTGACTGTTCAGTGGTAGGCAAATGTCAGAACCCAGTATGCAAATGTGGAAGTGGACAGATTTGAGTCAGTTATCTCAGCTGGTGTTATGAAATAC
R
GAAATTTTTGGCGTTGGTGGTGGAGGGCGTTGGCATAGGAGGCGTGAATGCTCTTTGTTTCTTGCTGTTATGGGAGTATCTCTTGATTGCCCCATCATCT
Celera SNP ID:            hCV1953967
SNP Position Genomic:     45758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38500):
ATTTTTCTCTAGATAGCAATTTACACTCTCATTATAGTGTGTGAGAATGCCTGTTTCTTTACAGCTTCATCCACAATGAACATTATAATAATGAACACCC
Y
GCCCCCCTCCTTTTGTAACTTGAATAGGCAAATGAAAAAGAAGCAAACTGTGCTAGGCCTTTCTTGGATTGCTGTAAAGAAACACCACCTGAGACTGTTT
Celera SNP ID:            hCV152546
SNP Position Genomic:     200565
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,7)   total(C,7|T,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:38501):
TGTAATCGTAGCTACTTGGGAGGTGGAGACAGGAGAATTTCTTGAACCGGGTGGGGGAAGTTGCAGTGGGCTGAGATTGTGCCACTGCACTCCAGCCTGG
R
CAACAGAGTGAGACTCTGTGTCAAAAAAAAAAAAAAAAAAAGGTTCCATTCAAGATGTCAAGCCCCACGGGACTGAGGGTAACATGAGGGTAACAGACAG
Celera SNP ID:            hCV1953968
SNP Position Genomic:     38489
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38502):
TGGTGCTCATTGAATTGAGCCACAGCCCCAAGGTCATGTTTTCAAGGTTGGCATTTGGGAGGCCTTGTCAGAAGGTCTTATACCATATTCCAGTCACCCA
R
AGTGCTGCCCGCCATGCCTGTTCGTTCAGCAGGATTTCCCTGAGCACCTGCTCTGTGCCAAGCCCTATGCTAAGCACCAAGGGAGTAAATATGGAGGGCA
Celera SNP ID:            hCV1953969
SNP Position Genomic:     37775
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38503):
GCAGCAAGCTGACTCCAACTGTGGGTTCGCAGAGGAATACGAAGTATGTTGCTGTAAATACTGTTTTTAATTGTGTCAGGTTCCAACCCAAGCTGGGATC
Y
GAGGGGAGTTGGTGGATGGGTGGCAGGTAGCTGAAAGAACACTCGAGGGACTGTAGGCAGTTGGGACATGGCTTTATTCTCTCTCCTACAGAGTCAGCAG
Celera SNP ID:            hCV25974327
SNP Position Genomic:     175341
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,1)   caucasian(C,38)   total(C,61|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38504):
TGTTCTTTTTCTTTTGTTTTACAGAGCTGAGTTTGGTGAAACTTCAGGAGGTTTTAGCTAGTGGCGATCCAAAGACATTAAATATTGCTTTGTGGGTACG
W
CTCCACCTTGCGTCTTACTTGGTGACTGTTCAGTGGTAGGCAAATGTCAGAACCCAGTATGCAAATGTGGAAGTGGACAGATTTGAGTCAGTTATCTCAG
Celera SNP ID:            hCV8892823
SNP Position Genomic:     45640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38505):
TTTTGTTTTACAGAGCTGAGTTTGGTGAAACTTCAGGAGGTTTTAGCTAGTGGCGATCCAAAGACATTAAATATTGCTTTGTGGGTACGTCTCCACCTTG
Y
GTCTTACTTGGTGACTGTTCAGTGGTAGGCAAATGTCAGAACCCAGTATGCAAATGTGGAAGTGGACAGATTTGAGTCAGTTATCTCAGCTGGTGTTATG
Celera SNP ID:            hCV8892824
SNP Position Genomic:     45651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38506):
GTGGCCCCGTTTCCTTCTAGAAGTTGAGTTCCCTGGGCTTGTGAGAACCCTTGTACATCTGCCTCCATTAAACTCACATTTGGAGATCTCGTAAATGAAC
S
CAGTGCAGTCCGGGGGCAGAGTGAAGGCTCAGACTGCAGCCGGACATGGCTCAGTTACCCTAGGTGGGTTAGCAGCTGAGCAGGTACTGGTCTCAAAACC
Celera SNP ID:            hCV8892825
SNP Position Genomic:     45967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38507):
GGCCCCATATCACTTCTTATTATCTCATAATATTCTTACCTTTTGCAGTGACAGCCCCAAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GTGTTTGGGGTGGGGATCATAATAATCCTGCAGGTGGGGTTTAGCTCTGGTGAAAAGAGCACAGATCCTTTGATTTGGGTTTGAATCCCAGCACTTCCTC
Celera SNP ID:            hCV26877610
SNP Position Genomic:     26797
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38508):
CCTGGCCCCATATCACTTCTTATTATCTCATAATATTCTTACCTTTTGCAGTGACAGCCCCAAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTGTGTTTGGGGTGGGGATCATAATAATCCTGCAGGTGGGGTTTAGCTCTGGTGAAAAGAGCACAGATCCTTTGATTTGGGTTTGAATCCCAGCACTTC
Celera SNP ID:            hCV26877611
SNP Position Genomic:     26794
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,7)   total(G,7|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38509):
TACCTGGCCCCATATCACTTCTTATTATCTCATAATATTCTTACCTTTTGCAGTGACAGCCCCAAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTGTGTGTTTGGGGTGGGGATCATAATAATCCTGCAGGTGGGGTTTAGCTCTGGTGAAAAGAGCACAGATCCTTTGATTTGGGTTTGAATCCCAGCACT
Celera SNP ID:            hCV26877612
SNP Position Genomic:     26792
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,10)   total(G,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38510):
GCTGTGTGACCCTGCTATCTGCACAGGGACTTGAGCCTCTCAGAATCTGTTACTGCATCTGGAAAATGGAAATCTGGAAATGTCACTGCATCTGTAGCAA
Y
AACCAGGCCATTTTGTTACTAGGTTTAAGTGAGGGAAGGCATGTAAGGCACTCAGTCCAGATCATGGCACTTAGTAGGCCTGAGCACATTTGCTCCCACC
Celera SNP ID:            hCV26877613
SNP Position Genomic:     21939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38511):
TAAGATTATAGGTGCAAGCCACCTCTCCTGGCTTGCTTCTTTCCCGTAAATTGAGGTGTGTTATTCCACTGCTTAAAAGCCTACATGGCTTCATATCGCT
S
TTAGTATAAACCCAAACAGTGGTCTGCAAGACTCTGAACCTTAGATCAGGATGATCAGACCCCTCCCTCCCCTCCACCCTCCGACCTCATCCTGGCTACC
Celera SNP ID:            hCV8892757
SNP Position Genomic:     25922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38512):
TAAAAAGTCATGGAGAAGGTTTTCTGTGTGCAGCTAAGAGAGGAGGTGGCAGACATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTAT
W
GAGACGAAGTCTCACTCTGTTGCCTGGGCTGGAGTGCTGTGGCACGATCTCGGCTCACTGCAACCTCCATCTCCCGGGTTCAAGCGATTCTCCTGCCTCA
Celera SNP ID:            hCV26877614
SNP Position Genomic:     11127
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,7)   total(A,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38513):
GGAGCAGGCTGAGGTCACCCAGCAAGGTATTAGAGAAGACAAGATGGGAACCTGGGTCACCGGCCTGGGCCTCATATTTTCAAAGTGCTATTTTTTTTTT
T
CCCGTGTTTTCACTTTGATCTTACTTTTAATGATAGGGACGTATCACTGTGTCTTCTCAAAATGGTGGGTGTGAATGGAATTTTTCAAAGTTGAATCAAT
Celera SNP ID:            hCV26877615
SNP Position Genomic:     8604
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38514):
TGAAAGGCTAAATAAAGAGAACTTTTTATTTTTTCCATGTTAATACATGGATGATATTAACCATGATGTTTAATAGCTACAGAATACTGCATGAAATGGA
K
GTACTATAATTCATTTAGCCTTTTTCGTATTTAGAGATTTAAGCAGTAGCCAATTTTTCACCATTACAAGTGGTGCAAGGACCAATATCTTCATGAATAC
Celera SNP ID:            hCV8892758
SNP Position Genomic:     28601
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38515):
TCAGGATTAATTTCCAGATATCTTTCTGGTATTAGACACATACCACTTGCCTAATAACGTTCCAAAAGGAATTCATTGTTTACATTGCTATTAGAACATA
Y
GAGATTGCCTGTTTCATTATGTCCGTCCCAGCACTGGGTATTATCATTAAAAAAAAAAGATTTTAAATTTATTTATTGAGTTATTTACTTGAGACAGAGT
Celera SNP ID:            hCV8892759
SNP Position Genomic:     28832
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38516):
CAATTTTTGCTTTTGTTGCTGTGCTTTTTGTGTGGTATCCAAGCAACCATTGTAAATACTATGTCAAGAAGCTCTTCCCCAATGTGTTTTTTTTTTTTTT
T
AAACAAATTTTACAGTGTACAGCTTTAGGTCTAATGTTTAAGGCTTGAATCTATTCAGAGTTTATTTTTGTGTCTGGTGTAAGATAGAGGTCCAGTTTTA
Celera SNP ID:            hCV26877619
SNP Position Genomic:     167049
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38517):
CGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGGTGAACCACTGCGCGGCCCATTAGGTGCTCAGTAATTTGTTGAATGAATTGAAGACATGGGACTTGA
R
TTAGGCTTTTATTATTATTATTATTTTTTGAGACGGAGTCTCACTCTGTCACCCAGTCTGGGAGTGCAGTGGCGTGATCTTGGCGCACTGCAACCTCCGC
Celera SNP ID:            hCV1953970
SNP Position Genomic:     35933
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,10)   total(G,10|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38518):
TCCAGTGTGCCACACGCTTTCTTGCCACTAGGTCCTTGCATGTGATGGAGTAACTCTTGTACCTCTGTCTCCCTAAATAGACGGGGTTCTCCAAGGACAT
Y
GTGCCACAGGGCCTGGTAACCCAGTAGGTGCTCAGTAATTTATTTATTTATTTATTTTTTTTGAGACAGAGTCTAGCTCTGTCGCCCAGGCTGGAGTAGA
Celera SNP ID:            hCV1953971
SNP Position Genomic:     35541
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38519):
TGTCCTCATCTGTATGATGGGGATAACAAGAATACCTACTTTATAGGATTGCTGTGGAGGATTAAATGGATCTGCATGACAAATGCTTAGCATGAAAAAA
W
CCCTCAACAGATATTGGCTGCTATTTTATTATCTTATTGTGCTGAGACACTGGCATAATTTACAATTCAAAAATTAAATTTTTTTAATCTTATACTGTAG
Celera SNP ID:            hCV1953975
SNP Position Genomic:     17302
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38520):
TCGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACTGTGCCAGGCCCCATTTTTTGTTTTTTGGTTAACTCCCTGTTCATTAAAAAAAAAAAATCT
R
TATCTATAGATAGATAGATATAGATATAATCTTTGTTATCAATTTGTATAAGCTCTTTGGAAATTAGTCCTTCGATTGTCATTTGTATTGCAAACACATT
Celera SNP ID:            hCV1953976
SNP Position Genomic:     15037
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38521):
GTTTCTTAAGTCTGGGGGACAGGCACTGAGCAGAGGCCGTGGTGGGGAACAGGAGCCTGTCTTCATGGCTCTTACTGGCCACTGGGCAAGACTCAGATAG
Y
ACCAACCAACCAGTCACAGTTGTGATGTAGGATGTGACTGTGAATGACATCCCTGCTGCCCGCTTCAGAGAAAGGGCTGCCACTTGCCAGAGAAGGAATG
Celera SNP ID:            hCV1953977
SNP Position Genomic:     12931
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38522):
TGTGTGTTTCCCTTCTAATATAATGCCACTGATGATATTATAATTAATAGGTAACATTATGCATGACAGGCACTGTGTGCTAAGGGTTTTAATGCATTAT
Y
TCATTTGGCCATTTCAGAAATACCAAGAGGTAGGTGCTGTTCTTGTTTATTTGTTTGTTTTTTTTTTTTGATAGGGAGTCCCACTCTGTCACCCAGGCTG
Celera SNP ID:            hCV1953979
SNP Position Genomic:     9916
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38523):
TGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCTGCCTCCCAAGTAGCTGGGATTACAGGCAC
R
CACACCATGCCCAGCTAATTTTTGTAATTTTAGTAGAGACGGTGTTTCTCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGC
Celera SNP ID:            hCV25943885
SNP Position Genomic:     189869
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,19|G,17)   total(A,24|G,50)
SNP Type:                 INTRON


Context             (SEQ ID NO:38524):
TAAATAAATAAATAAATAAATAAATAAAATAAAATAAATAAAAAAAGAGGTTAAGGTTTATACGCAGGCCATTTCTAATAGATGTTATGGAAGCCCCAGG
K
TTTGGGGCATCAGGGTTGGAAAGGAAGCCAAAAATGGGTGTGTCCAAAGGACAGATGCATTGAGAATGGGTTGTAAAATTTCAGCCATTGTGTAGATTAA
Celera SNP ID:            hCV8892833
SNP Position Genomic:     46903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38525):
TCTAAACTAACAAGGTTTACACATGTGACAAACATCCAGGTTGCCAGGGCTCAAAAGAGGGTTCACATCGACTCCCTTCTCATTCACTGAGTCCTTTTTC
R
GGAGCTTTGGCCGAGTTTGTGCTGCGTCTGGGCATCTAGGTGTCGAGTTCTTCCCTAGTGTTTTCAGCCTCGGCTTCCTCCTCTGTAAAATGGGAGTAAC
Celera SNP ID:            hCV16277830
SNP Position Genomic:     22909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38526):
AGATGTTTTGAGTTTATCCTCCAATAGGCAATGAAGTTGACAAGGTTTTATGAAGGAATAACCAAGTCCCTGGAGTCCTGTGGCTGTTGCCACAGTAATG
Y
GTCCTGCTGTAAACAGGACAGGTGTGTCCTGTTGAGAATGTGAGCGGGCTCTTCCAGCCTCCTGGTCCCTCCTGACTCTGCCACGCCCCTCACCTCACTG
Celera SNP ID:            hCV16083085
SNP Position Genomic:     194127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38527):
GACTCAATATAGGGTGGGATAGGGCGGTGGGTAAAAGCCGTTACAATTTTGTCCAAATGGTATGGGCTGATTTACTTATTAGGGAGGTACAAATGGCTTC
R
TGTTATAAAGTGTCAAGATCCTTATTTGGATAAGGCAACCAGAGTGTAGACGAGAGAGTAAGAGTAAGAAAACAAGGAGAAAAATGAGTGTCTTAAGGAT
Celera SNP ID:            hCV8892834
SNP Position Genomic:     48481
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38528):
GGATGTGCACACAACCTATCAAGAATACTTCACTTTGTGAGGCCCAAAAACAGCTCCTAGCACAGTGTAGAGCAGACTTGGTCAGAACTTCAATCCTTGA
Y
TTTTTTTTTTTTTTAACCCGAATTTCATGAGGTTTTTCTGAGACATCCACTGGACTGTCATATACCGTGTGCTGGGCTCTCATTTTATCCTTACAATTAT
Celera SNP ID:            hCV16277831
SNP Position Genomic:     23531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38529):
CTTTCCTTTCAGAACAGAACAATCCATATGCATGTATACTCCAAGGCAACCCCTTGACTTTTCTGGGAAATTTACTTTCTTGGGAATAACCTAAGTTATT
K
CTGAATAAAATGAATCTTAAGAGCATGGCTCTACATCAGGAACTCTTTCCTTTCTTTCCACTTCCAGGTGACTTGCTCATAGATTTTACAGAACAAACTG
Celera SNP ID:            hCV15883983
SNP Position Genomic:     185370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38530):
AAAAGTGAAAAGGAATAGCCGAAATTGGTATTAATAGCATTTTACTTAACTTAGTATATTAAAAGTATTATTTCAACATGTAATTTCTGTGAAGTATTAA
T
GAGTTATTTTATGTCTTCTTTTGTACTAAGTCTTTGATATCTAGTCTGTATTGTGTGCTTGTAGCACATCTGAATGCAAACTGGTCACCTCTCAGGGGCT
Celera SNP ID:            hCV26877620
SNP Position Genomic:     165930
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38531):
AAAAAGTGAAAAGGAATAGCCGAAATTGGTATTAATAGCATTTTACTTAACTTAGTATATTAAAAGTATTATTTCAACATGTAATTTCTGTGAAGTATTA
A
TGAGTTATTTTATGTCTTCTTTTGTACTAAGTCTTTGATATCTAGTCTGTATTGTGTGCTTGTAGCACATCTGAATGCAAACTGGTCACCTCTCAGGGGC
Celera SNP ID:            hCV26877621
SNP Position Genomic:     165929
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38532):
TCTTTCTGGTATTAGACACATACCACTTGCCTAATAACGTTCCAAAAGGAATTCATTGTTTACATTGCTATTAGAACATATGAGATTGCCTGTTTCATTA
Y
GTCCGTCCCAGCACTGGGTATTATCATTAAAAAAAAAAGATTTTAAATTTATTTATTGAGTTATTTACTTGAGACAGAGTTTTGCTTGTCTCCCAGGCTG
Celera SNP ID:            hCV8892765
SNP Position Genomic:     28852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38533):
AAAAAAGTGAAAAGGAATAGCCGAAATTGGTATTAATAGCATTTTACTTAACTTAGTATATTAAAAGTATTATTTCAACATGTAATTTCTGTGAAGTATT
A
ATGAGTTATTTTATGTCTTCTTTTGTACTAAGTCTTTGATATCTAGTCTGTATTGTGTGCTTGTAGCACATCTGAATGCAAACTGGTCACCTCTCAGGGG
Celera SNP ID:            hCV26877622
SNP Position Genomic:     165928
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38534):
CACCTTGGCTCCTCAAAGTGTTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCAATATTTTAAATTTAATGTTTACATTTGCACACATGCCAATTGGGC
W
TCATGGTGGCTGCCTCACACCACTTTTTGTCCGTGTGTGAGACTCACATAGAGGCTGTTTTCTGTGATCCTTTTTTAAAAAATAATTACATTTTTTTAAT
Celera SNP ID:            hCV8892766
SNP Position Genomic:     29250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38535):
TGGTAGGAAACAAAGGCTCCTCCCAGTGGCTTCTCTGTAAGGAGAATCCACTTAAAATTAAAAAAAAAATTAATTTTGGAGTAGATAGTACGTAAACATG
R
CACAATTTTTTTTGTTTTTTGGACAAGGTGTTTGCAGTGAAAGCATTTCCCTTTTTTGTCCCCTACCTGCCCATTTCCTCTCCCTGGAGGTGACGTTTGT
Celera SNP ID:            hCV26877623
SNP Position Genomic:     159675
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38536):
ATAGGTTATCAAGATCCAGGGGAGAGAAGAACTTACTTAAAGTCACAAAACCAATTAGTTACAAAGTAGGGTCTAGAAATCAGATTTCCTGAATCATATT
K
TAGTGTTTTGTGAATAATAGTACTCTGACCCCCTCTTGCCAAATTATACCCTGGGTTTTGTTGTTTTGGGAAGATTGTTTACTGTCATTTCTAGAGTATG
Celera SNP ID:            hCV25943454
SNP Position Genomic:     174940
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(G,1|T,39)   total(G,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:38537):
GATACACAAATATATGTGTGAGTATACATATATTTAATACATATATATTTAATATTTAATACACACACACACACACACACATATATATATATATATATAT
W
TTTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTTACCCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCATCTCCTGGGT
Celera SNP ID:            hCV26877624
SNP Position Genomic:     156170
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38538):
GCCAATATTTTAAATTTAATGTTTACATTTGCACACATGCCAATTGGGCTTCATGGTGGCTGCCTCACACCACTTTTTGTCCGTGTGTGAGACTCACATA
K
AGGCTGTTTTCTGTGATCCTTTTTTAAAAAATAATTACATTTTTTTAATGCTCAGGGAAAATGTCAAATAATTGTTTATGTTTTGTACTGAAATCTGCAC
Celera SNP ID:            hCV8892767
SNP Position Genomic:     29301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38539):
TTTTAAACATATACATATAGATACACAAATATATGTGTGAGTATACATATATTTAATACATATATATTTAATATTTAATACACACACACACACACACACA
Y
ATATATATATATATATATTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTTACCCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTG
Celera SNP ID:            hCV26877625
SNP Position Genomic:     156151
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38540):
TTATACCCTGGGTTTTGTTGTTTTGGGAAGATTGTTTACTGTCATTTCTAGAGTATGAATGAGTCTTTCTAATTGCATATTTTTTCTTTCCCTTTCTATC
R
TGAAGACCTAAAAAGTGAGTAATCTCTTTATTTTTTTTAATAACTTGTACTTTTCTATTGAATATGGACTTCACTGAATGTAAAAAATCCTGATAAGTTT
Celera SNP ID:            hCV25943456
SNP Position Genomic:     175084
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,40)   total(A,74|G,4)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,40)   total(A,74|G,4)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38541):
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCAAGCTCATACCTCCAGCCTGGGTTTTGAGAGCCTGTCTGAAAAAAACAAAACAAAACCCTCAAGTAAA
Y
AACCTAATGTAGCACGTTAAGGAACTAGAAAAATAAGAACAAACTAATCTTCAAATTAGTAAAAGGAACAAAATAATAAAGGTCAAAGCTGAAATAAATG
Celera SNP ID:            hCV9654456
SNP Position Genomic:     142738
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38542):
CCTCTGCTCATGCTTCGTTGAGCAAAACTTAGTCACATTGCAACATCTAGCTCCATGGGAGCTGGGAAATGTGGTCTTTGTTTCCAACAGGTATGCACAC
A
CAGGGCTAAAAATCTGGGTGGGTATGATGAAGGGAAAATGGGGGAATGGATTTTGGGGGTCAAGACTGGTCTCTCTCTGCTGTCCCTCCCTGAACAGAGG
Celera SNP ID:            hCV26877626
SNP Position Genomic:     155109
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38543):
AAAACTCTGTGATTGGAAAGTCACTTCTGGAAACTAGACATATAGAGCAGACCTCACTCTTACATTTCTTTTTGAAGTGCAATAATTTTTTTTTTTTTTT
T
AACAATATAGGGCCCAGTCCTGTGTTTGACATTAAAGCTGTTTCCATCAGTCCAACCAATGTGATCTTAACTTGGAAAAGTAATGACACAGCTGCTTCTG
Celera SNP ID:            hCV26877627
SNP Position Genomic:     146084
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38544):
TAAAACTCTGTGATTGGAAAGTCACTTCTGGAAACTAGACATATAGAGCAGACCTCACTCTTACATTTCTTTTTGAAGTGCAATAATTTTTTTTTTTTTT
T
TAACAATATAGGGCCCAGTCCTGTGTTTGACATTAAAGCTGTTTCCATCAGTCCAACCAATGTGATCTTAACTTGGAAAAGTAATGACACAGCTGCTTCT
Celera SNP ID:            hCV26877628
SNP Position Genomic:     146083
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38545):
ATAAAACTCTGTGATTGGAAAGTCACTTCTGGAAACTAGACATATAGAGCAGACCTCACTCTTACATTTCTTTTTGAAGTGCAATAATTTTTTTTTTTTT
T
TTAACAATATAGGGCCCAGTCCTGTGTTTGACATTAAAGCTGTTTCCATCAGTCCAACCAATGTGATCTTAACTTGGAAAAGTAATGACACAGCTGCTTC
Celera SNP ID:            hCV26877629
SNP Position Genomic:     146082
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38546):
GAGCTCTTAGATGAGGATATTGATGTCCAGAGAAGACAGGGAGCAGGCTGAGGTCACCCAGCAAGGTATTAGAGAAGACAAGATGGGAACCTGGGTCACC
K
GCCTGGGCCTCATATTTTCAAAGTGCTATTTTTTTTTTTCCCGTGTTTTCACTTTGATCTTACTTTTAATGATAGGGACGTATCACTGTGTCTTCTCAAA
Celera SNP ID:            hCV1953981
SNP Position Genomic:     8565
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,11)      total(G,11|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38547):
CCCAGAAGAAGCATCTTCAAAATCCACATTCAGCAGTTCATTTTGATAATGGATATTTCAGGGAATCAGTGCATTTTTGAGCTGGACCAGACTTTCAAGA
Y
AGCTGAAACCCCTCAGAGCTCTTAGATGAGGATATTGATGTCCAGAGAAGACAGGGAGCAGGCTGAGGTCACCCAGCAAGGTATTAGAGAAGACAAGATG
Celera SNP ID:            hCV1953982
SNP Position Genomic:     8449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38548):
AAAAATAAACTTTCACATCATGTTACCCCTGGATACATTTTTGTGGCCATGCATCTGCACGAATATTCAATCCCTGCTACAGGCAAGACACTGAGTGGGA
Y
GTTGCAGGGCTACCAAGGTGAGGAGGTCCCAACCCCTGTCCTCAAGGAGTTGATGTAACACCTACCCAGGATTAATTTCATTTCTCTCAGAGGTCATTAA
Celera SNP ID:            hCV1953985
SNP Position Genomic:     3077
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:38549):
AATAGAACTGGTAAGCAAATAGGCTTTTCTGTTAAACCATCATGTTTCTTAAAGGAAATCAGTATAATTAATAAACATAATGTTTCCAAATATTGTTTTT
S
TTTTAATTATCTAAGAAAAAACTTTAAAAATTTTCATAACACTAATGCTTATTTATTATATGAAATACAGACAAGTAAGTAGAAAAAACTTACATGGAAA
Celera SNP ID:            hCV25943890
SNP Position Genomic:     155905
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38550):
TGAGATTACAGGCATGAGGCACTGCACCTGGCCCAAATCTTCTCAGTTCTAAATGGCTGTGATAAAAACTACATTGACAATTTTTTTTTTTTTTTTTTTT
T
GGAGATGGAGTCTCGCTCTGGTGCCCAGGCTGAAGTGCAATGGCGCAATCTTGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTC
Celera SNP ID:            hCV11661809
SNP Position Genomic:     94870
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38551):
ATCCTCTTGGAAAACCCCACGCTTATCAGGAAAAGGAGATGGAAGTGAAAAAATAAAAATATATATAAAAAAAGGAAAACCTAGTGTTAGCACCCCTTAT
S
CAGCAGGCCCCCCACCTGGACCCCCACCTGTATTCACATTCCTCCCACACTTACAGTCAGTGGCTTCATTAATCTCTAAGGTTCCATGTTCTGCTCCCCA
Celera SNP ID:            hCV8892843
SNP Position Genomic:     49437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38552):
CTCATAGAGCTTTTTTCTTCTTTTTTGTATATCCAGGATTTCTTTAGCGGTCTTTTGTAATTATAGTAAAAGCACTGAGGTTAGATTTATGGGTTTTTTT
T
GAGGAGGATAGACTGAATCCCTTTCCCGCCTCAAGGCTATAGTGGGTCGGCACAGTTTGTGTTTGCTAAACATATCTTTAGCTGCGTAAGAGAAAGAAGG
Celera SNP ID:            hCV11661301
SNP Position Genomic:     55127
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,12)   total(T,12|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38553):
GTATATGGGAATAAGTGGGGTGCTGGATCTTGTGGGCAGGCTATGGGATCTGGGAAAGGGGTTAGCACCTGGGCCTGGAGGGACCTGGAATCTAGGGGGG
S
CATACATCTAAGCTAAATGTGGCTGTGGCTTGCAAACTCAGAGGCCTTTCGGGCAGCCTGGTGAAATGATAAATGGGCAGTTGCTGTTTATTCTCAGTCC
Celera SNP ID:            hCV8892845
SNP Position Genomic:     50530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38554):
TTTCCTGAATCATATTTTAGTGTTTTGTGAATAATAGTACTCTGACCCCCTCTTGCCAAATTATACCCTGGGTTTTGTTGTTTTGGGAAGATTGTTTACT
R
TCATTTCTAGAGTATGAATGAGTCTTTCTAATTGCATATTTTTTCTTTCCCTTTCTATCATGAAGACCTAAAAAGTGAGTAATCTCTTTATTTTTTTTAA
Celera SNP ID:            hCV25943532
SNP Position Genomic:     175024
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,38)   total(A,2|G,76)   
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,38)   total(A,2|G,76)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38555):
GGTGCTCTCATTTTATTTTTAGAGCTATATTTTAGCTCTAACGTGATTGTTGGGTGAACACTTGCAGAATGAAATATGACTGACACCTACCAGCTGTCTA
Y
ACATTCCTGGTTATATCTTAGGAAGGCAGTGTGTGCTAGCACCTTGGGAAGAGAATGTTGAGTTCAAATCCTAGTTTTGCCCCTTGCACCAATACCTTGA
Celera SNP ID:            hCV8892773
SNP Position Genomic:     29589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38556):
TTTCTTCAACTTCACACCTTAGTTTCTTTACTTGTAAATTGGGTTGATAGTGGGCTGCTGTCAGAATTAAGGACATCGTTTTGTCAAGGATTTTGCATAC
R
GGAAGTCATGGTGACAGCTGTTGTTACTGTTGTCCTGAGGAGTGGGGACAGGAGAGGAGGAAAACAGGCTGGTCCAGGTGTCTTTCCTTAAAGGAGGCTC
Celera SNP ID:            hCV8892774
SNP Position Genomic:     29820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38557):
CCAGCTTGGCCAACATGGTGAAACACCATCTGTACTAAAAATACCAAAAAAATTAGCCAGGTGTGGTGGCATGCACCTGTAATCCCAGCTACTTGGGAGG
Y
TGAGGCAGGAGAATCGCTTGAGCCTGAGAGGTGGAGGCTGCAGTGAGCCGAGATCACTCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCT
Celera SNP ID:            hCV26877630
SNP Position Genomic:     136275
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38558):
GGGTATGCGTGCTTTCAGTTTTGATACATACTGCCAAATTACCTTCCAGAAAGTTTTTCTTAAATACCAATGCAGAGTTGAGTCAACAGTGCAGGAGTGT
R
CAGATGCCTCACCAACTTGCCAGTTCCGGATCTGATATGTTTTTTGGTTTATTGCATTCATTTATCAGAAAAGCTTTCTCAAAAACAAAGTATGAAATAA
Celera SNP ID:            hCV491063
SNP Position Genomic:     174129
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38559):
GCCCATTCAGAGAAGCTCTGAACCCTGCAAAAGCTCCCACGTGGAGGCCAGTGAGCTGGTTATAATCCAGAGACTGTCAGTTTTTCCTAGTACATATTTG
R
ACCTGAGCCTTTGTTTCTGCAAAGAGTCTGGTACTGACTCACACAGTGTCAGCAGCCCCCTTCCATCCCCTGGCACACCCCTCCCTCATTCCTACTGAGC
Celera SNP ID:            hCV8892775
SNP Position Genomic:     31964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38560):
GGAAAATTTTAGAAGTTTTAGGTGTAAATGCAGCTGGTAAGATCCTTATGACTTAGTTTCTTTTTTTTCTTCTTTTCTTTTCTTTCTTTCTTTCTTTTTT
Y
TTTTTTTTTTTTTTTTAAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCGTCTCCCCAGTTCAAG
Celera SNP ID:            hCV26877631
SNP Position Genomic:     131866
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38561):
TGGGGAAAATTTTAGAAGTTTTAGGTGTAAATGCAGCTGGTAAGATCCTTATGACTTAGTTTCTTTTTTTTCTTCTTTTCTTTTCTTTCTTTCTTTCTTT
Y
TTTTTTTTTTTTTTTTTTTAAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCGTCTCCCCAGTTC
Celera SNP ID:            hCV26877632
SNP Position Genomic:     131863
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38562):
TGTAAGTACATGTAGGATTTTCATGTAGAGGAGTTGGGGAAAATTTTAGAAGTTTTAGGTGTAAATGCAGCTGGTAAGATCCTTATGACTTAGTTTCTTT
Y
TTTTCTTCTTTTCTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTAAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGA
Celera SNP ID:            hCV26877633
SNP Position Genomic:     131829
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38563):
TTTGTTCAAAGCCAAATGTTGCTACTTCTGAAGACGAGTGCACCTTATGGGTATAGCCAGCTATAATGTTTATCAAACATATACTTTTTTTTTTTTTTTT
T
GAGATGGAGTTTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTTCTCCTGCCT
Celera SNP ID:            hCV26877634
SNP Position Genomic:     121001
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38564):
GTGGATCTCAAACTTTAGCATCCATCAGCATCACCAGGAGGGTGGTTCTACCCTCAGAGTTTCTAATTCGGAATTGCGTTTCTGCCAGTTTCTGGGTGAT
Y
CTACTGCTGTGGCACCAGGGTGCACACTTGGAGTGGTACTGTCCCCAGGATAGTGGGAGCCCTTCAGGCATCATTTCTTTTATTGTTCTTTAATTCATGG
Celera SNP ID:            hCV26877635
SNP Position Genomic:     182645
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38565):
TCCCTCTTGCTTCTTTCTGTTCATCAGCTTCATTCTCAGAGCAGCTCCCTCTGCACACTTAAGGAGCCCAGCTGCTCCCGTTTCACACCCTGCAGCTGCC
Y
CACCAGCCAGCTGCCCCACCAACCAGGGTCTGGTCCAGGGAAACGTGTCTTGAGTGGGGTCTGATTAGCAAAGTCTGCTTCACAGAGCTGTCCCTGGAAA
Celera SNP ID:            hCV15968694
SNP Position Genomic:     149654
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,251|C,1220)   total(C,1220|T,251) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38566):
CCTGGGAGGCGGGGGTTGCAGTGAGCCGACATCGCGCCACTGCACTCCAGCCTGGGCCACAGAGCAAGATTTCATCTCAAAAAAAAAAAAAAAAAAAAAA
A
GAAAAAGAAAAAAAGAAATGCAGGTAGGTGCTTCTAGCTACTGCTGTGGGATAGCAAGGTAGTTACCAAACTGATAAGGGTAGCATCTTACTTACTGCTG
Celera SNP ID:            hCV26877636
SNP Position Genomic:     117722
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38567):
ATTTATTTATTTTTATTTTTTATTTTTTTGAAACGGAGTTTCACTGTGTCACCCAGCCACCCAGGCTGGAGTGCAATGGTACAATCTTGGCTCACTGCAA
M
CTCCGCCTCCCGGGTTCAAAGGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCGCCACCACACTTGGCTAATTTTTGTATTTTTAG
Celera SNP ID:            hCV26877637
SNP Position Genomic:     110831
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38568):
GCAGAAGCAAATATGAGAATCCAGCTGTTTCTTACTAAGCAGACATTAAAGAGATTTGCAAATATCTAAAATAATGCTATCTCTCTCACTTTTTTTTTTT
T
GTATTGGAAACATCATTTTCCATACAATGTCATTTATGTTAACAGGTGACAGATTTATTTATTTTTATTTTTTATTTTTTTGAAACGGAGTTTCACTGTG
Celera SNP ID:            hCV26877638
SNP Position Genomic:     110678
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,7)   total(-,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38569):
GATTCCAGGGCATATGCACATGGCCTCCCTTCCCCTCAAAATTTACAAAAGCAAATCCAATTAAATTGTGCAGGCATTCTAGGAAGTCAAGTTTATGTGC
Y
TTTTTTCTTTTTCAAGGATGCTTTGAAAATAGAGGCAGTGCCATGAAGCAGCATTGGTATCTGTTGATGGGTGTGTGCATTGGCATAACTCTCTGCTGTT
Celera SNP ID:            hCV9497134
SNP Position Genomic:     185657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38570):
AAGCCATTCTCCTGCCTCACCCTTTGAGCCTCCTTAATTTTTTATTTATTTATTTTTTTTTTGTAGAGACAGGGTCTCATTATGTTGTCCAGCCTGATAT
K
GCTATTTTTTTTTTTTTAATGGCGATGTAGTAATCTTGCTTTGTTGCCCAGGCTGTTCTGGAACTCCTGGCTTCAGGTGTGTGCCACTGTGCCTGGCCCA
Celera SNP ID:            hCV26877639
SNP Position Genomic:     108022
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38571):
TTATTTGGTTAGAAATATGGCATCAGGAGCGGCCACTTGCTGTTAGGAGTAATTGATAACAGTTACATTAATAGGATTCCAGGGCATATGCACATGGCCT
Y
CCTTCCCCTCAAAATTTACAAAAGCAAATCCAATTAAATTGTGCAGGCATTCTAGGAAGTCAAGTTTATGTGCCTTTTTTCTTTTTCAAGGATGCTTTGA
Celera SNP ID:            hCV9497135
SNP Position Genomic:     185583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38572):
TGGGTGGGGAGCAAATCATCTGCATTCCTGATGACCAATGGGATGAGGTCACTTTTTTTTTTTTTCCCCCTTGAGGATTGTGGAAAACCAGGAAAAGGGA
K
CTATGATTTTTTTTTCCAAAACAATTTCTTTTTTAAAAAAGACTATTTTATATGATTCACATGCTAAAGCCAGGATTGTGTTGGGTTGAATATATTTTAA
Celera SNP ID:            hCV9497136
SNP Position Genomic:     192805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;INTRON;hmCS


Context             (SEQ ID NO:38573):
GGTTTTCACATATATGGGCAGTGTCCCAACAGGCTGCTGGGGGGTGGCCGTTTGTGATGGCCTCACCAGTCTTTCCCAGAGAGGGAAGTGCACATTTTTA
R
GCTACTTTTGCTCTGACTGATACACTTGGCTGCCTAACAAAAAGCCAGAGAAGAACTAAGATTTTTAGCATCATTCAAAATGCTTGCCATTCCTTTTGCT
Celera SNP ID:            hCV11661811
SNP Position Genomic:     89044
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38574):
TGTAAGGGAGAGTGGTTGAGGTCAAGATCTGGGTTCTGGTTCTTGTGCCTCCTCTCTGGCTGTGTGTCCTTCAACAAGCTGCTTACTGTCTCTGGGCCTC
Y
GTGCCCTCTGCAACTGGGTTGTTGGTCTATTTAAATACTTGGAGAAAAAAGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCCAAG
Celera SNP ID:            hCV431470
SNP Position Genomic:     132847
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38575):
CCAGGGAGGTTGAGACTGCAATGAGCTGTGATTGCGCCACTGCACTCCAGTTTGGGTGATGCAGTGAGATCCCATCTCTAAATAAAAAAAAAATAAATAA
W
GCCCCTAGCATGGTGCCTGGCACATGGTAGGCCCTCAAAAGATGACCCTCCAAAGTGGCCAGGACTCACCATGCATTCAGGGAATATGGATTCTTTTGGT
Celera SNP ID:            hCV11661816
SNP Position Genomic:     80615
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,8)   total(A,2|-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38576):
GTAGCTTAGCATCAGAGGTTTGCTTCCTCAGTAACATTTCTGTTCTCATTTGATCAGGGGAGGCCTCTTTGCCCCGACCCCGCTTCCCCTGCCCCCTGTA
S
ATTTGTGCTCCATTTTTTCTTCCCTTTTCCCTCCCAGTTTTCTCCAAAGACTCTTCTGTTGGCAACATTTTCAACCCATTGGTTGGGTGAGAATGGCGAC
Celera SNP ID:            hCV26055515
SNP Position Genomic:     193231
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:38577):
GTTCTGGGAAGCCTCTGTGGAAGGGAGGTTTTGTTAAGTGAACTCCCCTGGTAAACGGAGTGATTGGCCCCCAATTAGCTTGCTGTTCGGATTAACTGTA
R
TACATCACACTTTCGAAAGTGAAGATATGCCTATTTTTTCCCCTCTAGGTCTATAAAGTAGATTTTTGCCATTAGTAAAATTTAAAGTGATTGGGGGCTA
Celera SNP ID:            hCV474668
SNP Position Genomic:     85514
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38578):
TGGAATATACGGAATATTTAAACAGTAGCTTAGCATCAGAGGTTTGCTTCCTCAGTAACATTTCTGTTCTCATTTGATCAGGGGAGGCCTCTTTGCCCCG
R
CCCCGCTTCCCCTGCCCCCTGTACATTTGTGCTCCATTTTTTCTTCCCTTTTCCCTCCCAGTTTTCTCCAAAGACTCTTCTGTTGGCAACATTTTCAACC
Celera SNP ID:            hCV26055516
SNP Position Genomic:     193207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:38579):
TTCCCCAATCCTGCTTCCTGGAGGTAGCCAATGTTTATAGTTTGGTGTACATCTTTATAAGACTCTTTATGTACATCTGTAAACACACACACACACACAC
R
CACACACAGTACTTTGAAAAAATTGGATGCTGTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCCATCTCAGCTCAC
Celera SNP ID:            hCV26055517
SNP Position Genomic:     191444
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38580):
ATGCAGGAGCCTGTGCTAGCAGTTGACCATTAACATGGGAACGCCACCTCCCAGCGGGCACTGCTGCCGCATACTTGCGAGGTTGCTGAAGCTTGTAGTT
Y
AGAGCAGGACCATCCCACTAGATGTGCAATGTGAGCCTCAGGTATAATTTAAAGTTTTCTAGAAGCCACACTGAAAAAAAAGTGAAAAGGAATAGCCGAA
Celera SNP ID:            hCV505681
SNP Position Genomic:     165752
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38581):
ATACAATCATTTCAGTAGATGCAGAAAAAACATTTGACCAAAAAATATTGTTAACTGTGCTTTCTTTTCTGAACTTAAGAACTTGCTTTTCCAAAACCTT
M
CCAGAATCCCTGTATGAATCAACAAAATTTAGTTCTTAACACATTTCTCCTTCTTTAAAATGGTGACATTAGCTGGGCATGATGGTGTGTGCCTTTAATC
Celera SNP ID:            hCV33359
SNP Position Genomic:     143894
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,8)   total(A,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38582):
TTCCCTGCGGGCCTTGGCCATTCCTGTCCTGGCCTTTACTGGCAGTCTCTATTCTAAAATGTGGGCATCCCACATGAGGTCCAGCTTCTCCTGAGATCCC
Y
GGAGGTGCAGCTGCTGTGATGGTGACCTTGTTTAGCAGATGCTCCCTGCAGTCCAAACTCCCACCCATCGTCCTGCCCTTTGATCCATTTCCCATGAACT
Celera SNP ID:            hCV86169
SNP Position Genomic:     98734
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38583):
CCTTCCCCAATCCTGCTTCCTGGAGGTAGCCAATGTTTATAGTTTGGTGTACATCTTTATAAGACTCTTTATGTACATCTGTAAACACACACACACACAC
R
CGCACACACAGTACTTTGAAAAAATTGGATGCTGTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCCATCTCAGCTC
Celera SNP ID:            hCV26055518
SNP Position Genomic:     191442
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38584):
GTTTAGAGCAGGACCATCCCACTAGATGTGCAATGTGAGCCTCAGGTATAATTTAAAGTTTTCTAGAAGCCACACTGAAAAAAAAGTGAAAAGGAATAGC
Y
GAAATTGGTATTAATAGCATTTTACTTAACTTAGTATATTAAAAGTATTATTTCAACATGTAATTTCTGTGAAGTATTAATGAGTTATTTTATGTCTTCT
Celera SNP ID:            hCV505682
SNP Position Genomic:     165849
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38585):
CATTCAGAGAAGCTCTGAACCCTGCAAAAGCTCCCACGTGGAGGCCAGTGAGCTGGTTATAATCCAGAGACTGTCAGTTTTTCCTAGTACATATTTGGAC
Y
TGAGCCTTTGTTTCTGCAAAGAGTCTGGTACTGACTCACACAGTGTCAGCAGCCCCCTTCCATCCCCTGGCACACCCCTCCCTCATTCCTACTGAGCATT
Celera SNP ID:            hCV8892782
SNP Position Genomic:     31967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38586):
AAATGGACCTGCCCTCCTGGCGCCAATGCAGGCTTTGAGCTGGAGGTCAGCAGTGGAGCCTGGAACAATGCGACCCACCTGGAGAGCTGCTCCTCTGAGA
R
TGGCACTGAGTATAGAACGGAAGTCACGTATTTGAATTTTTCTACCTCGTACAACATCAGCATCACCACTGTGTCCTGTGGAAAGATGGCAGCCCCCACC
Celera SNP ID:            hCV25943542
SNP Position Genomic:     164744
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38587):
TAAGTCTGCAGAACTGACCCCCTGGAGAGTCACCACCTTGGTCACAGACAGCAGAGGGAGGAATCAGGAAGTCTCTGCTGTAGTTGCGGGATCCAGGGGT
S
TATGTTCTGAGCTGTGATCCTGGGATCAGGAAGCTGCAGCCACCGCTGAGGTTTTGGTTCTAGAGCCAGGCAGCGTGAGCTCCAGTCATTGCATCCACAC
Celera SNP ID:            hCV142450
SNP Position Genomic:     154833
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38588):
TAAGCCATTCTCCTGCCTCACCCTTTGAGCCTCCTTAATTTTTTATTTATTTATTTTTTTTTTGTAGAGACAGGGTCTCATTATGTTGTCCAGCCTGATA
T
TGCTATTTTTTTTTTTTTAATGGCGATGTAGTAATCTTGCTTTGTTGCCCAGGCTGTTCTGGAACTCCTGGCTTCAGGTGTGTGCCACTGTGCCTGGCCC
Celera SNP ID:            hCV26877640
SNP Position Genomic:     108021
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38589):
ACATGCTTTCCTTGCACTGGCACATTGTATGCTCACAATAGCCCTGTGATGTGGTTGGAAGTAGCCTTATTTTATAGATAGGAAGCCAAGGCTGAGAGAG
K
TGCTAGACAGGTATCACAGCTGGAAAGTGGCAGAGGTGAGATTAAGCCTCTGGTATTTCTCACCTGGAGCCTGCGCTTGTAACTCTCTTTCCAGTGTGGA
Celera SNP ID:            hCV142451
SNP Position Genomic:     153363
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38590):
AGCTAAAGATGGATTCAGTGTTTTTTTTTTCTTTTTCTTTTTTTTTTTTTGAGGCGGAGTCTTGCTCTGTTTCCCAGGCTGGAGTGCAATGGTGCGATCT
Y
GGCTCACTGCAACCTCTGCCGCCCAGATTCAAGCAATTTTCCTGCCTCAGCCTCCCAGGTAGCTGGGATGACAGGAGCCCACCACCACGCTTGGCTAATT
Celera SNP ID:            hCV26877641
SNP Position Genomic:     103534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38591):
GGAGAAGAAATCTCTCTGCCATCACTTTCTTATGATTCTCCTTCTGTGTACCTTTCTTAGCTGGTCACCCTTCTGCAGATGTCCTGAAATACACGTATGA
S
GATTTCAAAAAGGGAGCCTCAGATACTTATGTGACATACCTCATAAGAACAGAAGAAAAGGGACGTTCTCAGAGCTTGTCTGAAGTTTTGAAATATGAAA
Celera SNP ID:            hCV25943544
SNP Position Genomic:     169815
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,32)   caucasian(C,22|G,18)   total(C,24|G,50)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38592):
GACACAGGATGCATGATGTAGTAATGGTGACTGTTGGCTGACCACACGCCAAGCTTCGTGTGACATGCTTTCCTTGCACTGGCACATTGTATGCTCACAA
Y
AGCCCTGTGATGTGGTTGGAAGTAGCCTTATTTTATAGATAGGAAGCCAAGGCTGAGAGAGGTGCTAGACAGGTATCACAGCTGGAAAGTGGCAGAGGTG
Celera SNP ID:            hCV142452
SNP Position Genomic:     153301
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38593):
GCTATAGGAATTGAGACTAAGTTGGAGCTGGGTGATCAGGGAAGGTTTTAAGGAAGAGATCTGGGACAAATAGCTAAAGATGGATTCAGTGTTTTTTTTT
T
CTTTTTCTTTTTTTTTTTTTGAGGCGGAGTCTTGCTCTGTTTCCCAGGCTGGAGTGCAATGGTGCGATCTCGGCTCACTGCAACCTCTGCCGCCCAGATT
Celera SNP ID:            hCV26877642
SNP Position Genomic:     103463
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38594):
AGCATTATTTATTTATTTATTTAGTTAGTTAGTTAGTTCTTGAGATGGAGTCTCACTCTGTCACCCACGCTGGAGTGCAGTGGCATGATCTCAGCTCACT
R
CAACCTCTGCCTCCTGGGTTCAGGTGATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGGGCCCGCTACCACGCCCAGCTAATTTTTGTATTT
Celera SNP ID:            hCV26877643
SNP Position Genomic:     100628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38595):
AAATTGAGGTGTGTTATTCCACTGCTTAAAAGCCTACATGGCTTCATATCGCTGTTAGTATAAACCCAAACAGTGGTCTGCAAGACTCTGAACCTTAGAT
Y
AGGATGATCAGACCCCTCCCTCCCCTCCACCCTCCGACCTCATCCTGGCTACCCACTCCCTGTTCACAGACTACAGTCACCTGGCTCTAGTACAACAGAC
Celera SNP ID:            hCV16262575
SNP Position Genomic:     25969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38596):
TGTTTTCTTATATATATTTTACATGACAAAATTATATTTAAAACATATTAAACTTTAAAAAACCATAGTTTATAATTTATAAGCCATGTAGCATATTTCT
R
TTTTTGAGACAGGATCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGCTCGATCATGGCTCACTGCAGCCTTGACCTCCTGGGCTCAAGTAATCCTCCTG
Celera SNP ID:            hCV26877644
SNP Position Genomic:     99399
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38597):
TGGTCTGCAAGACTCTGAACCTTAGATCAGGATGATCAGACCCCTCCCTCCCCTCCACCCTCCGACCTCATCCTGGCTACCCACTCCCTGTTCACAGACT
R
CAGTCACCTGGCTCTAGTACAACAGACACTTGAACCTACCCCGCCCCTCTCCCTCAGGGCCTGGTACTATCCTCCTCGCTCCTTCTTATCACTCAGGCCC
Celera SNP ID:            hCV16262576
SNP Position Genomic:     26042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38598):
CCCTCTCCACTGTGACTGTTTCCTGGGAAACTAGTCAGGGGCTGGTTTTATAGGAATTATCCAGTCGTATTATTATTATTATTATTATTATTATTATTAT
T
ATTATTATTATTGAGACTGAGTCTCGCTGTGTCGCCCAGGCTGGAGTGCGGTGGTGCCATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAAT
Celera SNP ID:            hCV26877645
SNP Position Genomic:     91995
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38599):
CCCCTCTCCACTGTGACTGTTTCCTGGGAAACTAGTCAGGGGCTGGTTTTATAGGAATTATCCAGTCGTATTATTATTATTATTATTATTATTATTATTA
T
TATTATTATTATTGAGACTGAGTCTCGCTGTGTCGCCCAGGCTGGAGTGCGGTGGTGCCATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAA
Celera SNP ID:            hCV26877646
SNP Position Genomic:     91994
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38600):
AATGAGAAGACAATTACTGTTGTGCATCAACCATGGTGTAACATCACAGGCTTACGTCCAGCGACTTCATATGTATTCTCCATCACTCCAGGAATAGGCA
R
TGAGACTTGGGGAGATCCCAGAGTCATAAAAGTCATCACAGGTAAGATGACTGGCTCCCAGGGATGATGACAAACCATTTCTTATTATGGTGTATTCTAG
Celera SNP ID:            hCV25943549
SNP Position Genomic:     146317
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,36)   total(A,63|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:38601):
TCCCCTCTCCACTGTGACTGTTTCCTGGGAAACTAGTCAGGGGCTGGTTTTATAGGAATTATCCAGTCGTATTATTATTATTATTATTATTATTATTATT
A
TTATTATTATTATTGAGACTGAGTCTCGCTGTGTCGCCCAGGCTGGAGTGCGGTGGTGCCATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCA
Celera SNP ID:            hCV26877647
SNP Position Genomic:     91993
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38602):
GGGCTGTCGGGGGCTGTGGATGGGTGGGGAGCAAATCATCTGCATTCCTGATGACCAATGGGATGAGGTCACTTTTTTTTTTTTTCCCCCTTGAGGATTG
Y
GGAAAACCAGGAAAAGGGAGCTATGATTTTTTTTTCCAAAACAATTTCTTTTTTAAAAAAGACTATTTTATATGATTCACATGCTAAAGCCAGGATTGTG
Celera SNP ID:            hCV9497144
SNP Position Genomic:     192785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;TFBS;hmCS


Context             (SEQ ID NO:38603):
TCAGGGACCTCTTTTTGCTCTTTGTTATCCCACAGGGCTTGTGTGGCTGGCTTCACCAACATTACCTTCCACCCTCAAAACAAGGGGCTCATTGATGGGG
Y
TGAGAGCTATGTGTCCTTCAGTCGCTACTCAGATGCTGTTTCCTTGCCCCAGGATCCAGGTAGGGAGAAGACAACAGTCCTGGCACTGGTTCAGTGGCAT
Celera SNP ID:            hCV25974290
SNP Position Genomic:     170165
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:38604):
ATGCCACTCTGACTCTGTGAACTTGTCACTTTATAAAGAGGAAATTCAAGCTTGGAGGGGCCTTCTGGCATGACGTTTATTGAATTGTGGGGCACAAGAT
R
CTTCCCTGCTTGTTCCATTTTCCTTTCTCTTGTTTATTCTCCTGCCTTATTTATTTATTTTTTCTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGG
Celera SNP ID:            hCV33360
SNP Position Genomic:     144440
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38605):
CTAGGAGAGATTCCTAGAAATGAGTTCACTGAGAATATGAGCTTAAGAGAAAGTGAGGATTTAAAGCCAGATCTGTCTGCCTTCAAATCCAGCGCTCTTT
M
TACTGATGTGAGTTCTCCTGTCTTTTTTACCTATCAGAATTCTAGAACTCTCCCAGAGAAACCAGGCAGATACTGCTCCACACCGGTGAGCTGCTTCTCA
Celera SNP ID:            hCV11381044
SNP Position Genomic:     62150
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38606):
CCCACTGGCTCTGTTTGGTTCCTCTGGGCTCACACACAGGGAGCTACGTATGTCTCTCTCATTTCCTTTGGTATGTTCTCTGGGTTAAATGTCCCCAGCT
R
TCTGATCTGTTCCCTGCGGGCCTTGGCCATTCCTGTCCTGGCCTTTACTGGCAGTCTCTATTCTAAAATGTGGGCATCCCACATGAGGTCCAGCTTCTCC
Celera SNP ID:            hCV86170
SNP Position Genomic:     98624
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38607):
AATGTTACGTGGGTTGTAAATGTAATTGTTAATATTATTTAAAAATTTTTGAAAAGTGATTTTTAGTGGTGGCCTTATCATATCTACATATTATTACTCC
M
CCATTTTGGGATGTTTAGGTCGAATCCTGGTTTTTTCTTCTTTTGCTGTTGTAAGTCATGTATATTGGCAATTAGCCTAGGAGAGATTCCTAGAAATGAG
Celera SNP ID:            hCV11381045
SNP Position Genomic:     61973
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38608):
CATGGTTTCTTGGATAGTATTACATAGGGTGAAGCTAATTTTATTTCAGTAAAAAATATGCAGGTCAATTTAAATAAAAAAATAGATAATAGTATAAATG
K
CTTGTGGCTACAGTAAAAATGATGATGGTACTTGAATGTCCAAATTAATTTAAGTGATATATGTGTTCATAGATACCATTTCATTTTAACGTGGTTCTGC
Celera SNP ID:            hCV86171
SNP Position Genomic:     98374
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,5)   total(G,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38609):
AAGTCTCTCAAATTATGAGCTTTATTTTAAATCCTCCAATCTGTTCGGTGACTATCTATAAATAATTTTTGATGGAACTTGCTGTCATTTTTCCTGATTG
R
CACATTTTGACCATGACCATCTGGAAGTTTTTGCTAGCTCTGTTTTCTGCAAGGAATCTATGTTTTATTAGTCTCCTGAAGTTGGCTTCCTTGTCATGTT
Celera SNP ID:            hCV25943986
SNP Position Genomic:     174691
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:38610):
CTGATATTTCGTTGAAAGTCATTGTCTTACTCATCCTTGTATAAGATAAGTCACACAATGAGTGGTATCAGGGTTGCAGGGTTTCCCCCTGTGAGGACAC
R
ATGGGATGAACCGTGTGTGGGATGGTCTGTTAAAGAAAAACAAGAAGCCATGTGTTGGAAACAACCTAAGTATTGAGCGGTGGAGGATTGCTGAAATTGT
Celera SNP ID:            hCV8892792
SNP Position Genomic:     34496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38611):
AGGGTTTTTCTGTGTGGCTCAGGCTGGACTTGAATTCCTGAGCCCAAGTCATCCTTCCGCTTCAGCCAATTGAGTAGCTGGGATTACAGGTGCACTGTCC
S
TCCCAGCAAGTTGGGTCTTTAAATAAAGAGTGGGGTTTGGTGAGCAGGGTGGGTGCACTGTTCTAGGAGGTGGGCAGGACAGAGGTCAGTGGTGGTCCCT
Celera SNP ID:            hCV8892793
SNP Position Genomic:     36377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38612):
GGGGTTTCACCATGTTGTCCAGGATGGTCTCGATCTCTTGACCTCATGATCTACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTACCA
Y
GCCTGGCCATTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCG
Celera SNP ID:            hCV48142
SNP Position Genomic:     97299
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38613):
GAATACAGAGTAGAGAAGGGTCACCTTGTCATGTTGGTATTGGAAGATACTGCCCAGATGAGGAGCTTCGCCTGCAACAGTTAGGGAGGTGTTTTGCGAA
Y
ATTTGAATTAAATACATGGTAAAGATGTTAGTTTGTAATATGTTTTTAGTATATTTTTCTCCATCTATTAGATTTAAAAAACAGATTAGAAATTAAATGT
Celera SNP ID:            hCV25943488
SNP Position Genomic:     161753
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:38614):
GGTCACAGCCCATGTGGCAAGACCCCCCATGATGCCTTGCACAAGGTCAGCCTCCTGGGCCCAGAGCAGGTGAGGGAAGGGCAGTGGATATGTCGGGAGG
R
TGGAGTGGGCAGGTGGTGAATAACTGGCACTCGGGTTATCTTTTCTTGAGGTTAGGATTGCTCTCCAGTTTTATAGGTGAGGAAGCTGAGCTCAAGTGGT
Celera SNP ID:            hCV27934285
SNP Position Genomic:     152325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38615):
TGACTTTGGACATGTTCCTTAACTTTCTTTATCTTGGTCTTCTCATCTCTGTAAAATTGGGATCATAATGGCACCAACTTATAGTTTTTTTTTTTTTTTT
W
TTTCTTTTGAGTCAGGATCTCACCCTGTTGCCCAGACTGGAGTGCAGTGGTGTGATCTTGGCTCAGCCCTTGGGCTCAAACGATCCCCCCACCTCAGCCT
Celera SNP ID:            hCV26877589
SNP Position Genomic:     87333
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38616):
AAAGCAAGGCAGATACAAAGATCATCCTGTTGGCAGATACAGACAGGGAGGGACAGAGAGGTTAATTAAGCAAGCTACCTGCCCGCAGTTACATGGCCAG
M
AGCAGTGGCACTGAACGACTTCCTTCAGGCGGTCTGAGTCCAGGTCTCAGCTCTTAGCCATCACTCCATGGTTCTGTGCTGAGACAAGGGATGTAGAAAG
Celera SNP ID:            hCV27934286
SNP Position Genomic:     133493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38617):
AAAAAAAAAAAAAAAAAAAGAAAACAGGAAGTAGGGAGGGGCAAGGAGGCATCTGGTGCAGTGATCTGACTAGTTTCAGTTCTTTGTTACTCCCTGAAGG
Y
CCTTTCCTGAGAAAGGAACTCAGATAAAACAAATACAAGTTTCAGGCTTTAATAGCAGAAGGGTAAATTTCTATGTTTATTCAAAAACAACTTGTCTATG
Celera SNP ID:            hCV9497085
SNP Position Genomic:     178700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38618):
TGAACATTAGAGCATGCAGTTTGCTGAGATGTCTTGTACTTAGAAAATCCAATTTATAAAAAACCTCAAATAGAACAGTAAATTTAGGGAATTTTTTTTT
T
CTGATGATAAAATTAGATAACTCTGTTGCATGGATTCTGTAAAACACAGCTCCCTCCTGTTACGCCATGAATTGGGTTCAATTTACAACACCCCTTTAGG
Celera SNP ID:            hCV162288
SNP Position Genomic:     76136
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38619):
TCAACCAATTTGTGGAGAGTCCATTTTGCAAAGCCTTAGCACAGTGCCAAGCACAAGCTACACACCCGGGATGCTGCTGAATGCAGATGAGAGCATGCCA
R
CTCTGCTGAAGTTGGGGGCTGGGGGCAGTGGATGGCTGTGAGTGGTGTGAAGCCCCGGGCCACAGTGAAGACCCTGGAATGGCTGAGAGACTGGGATTCC
Celera SNP ID:            hCV16167597
SNP Position Genomic:     43774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38620):
TTTCACCATTACAAGTGGTGCAAGGACCAATATCTTCATGAATACAGCATTTTCTGTAAAGCAGAAATTCTTTCTTCAGGATTAATTTCCAGATATCTTT
Y
TGGTATTAGACACATACCACTTGCCTAATAACGTTCCAAAAGGAATTCATTGTTTACATTGCTATTAGAACATATGAGATTGCCTGTTTCATTATGTCCG
Celera SNP ID:            hCV15837461
SNP Position Genomic:     28757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38621):
ATGTTTGTTCACAGAGCCATTCAAAGTGCAGTGGATACATTATAAATTGTACAATTATTTGTAATTAAAAAAAGAACAACAGCAAAAAACCCAAAGTGCA
R
TGGATGCAAAGACCAATGGATTTTCATGTAACAGAATATGAAAAGTTCACCGACACAGTTTCACATTCCACGATGCAGAGAAGTTTTTAATAACTGCCAT
Celera SNP ID:            hCV312541
SNP Position Genomic:     110341
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38622):
CATTTTGAAAACGAGGCAGTGTCAGCTCCCACAGAAGGTCTAATTTTAAACATGCAAATAATTTTCAGTTCCACTTTTCCTTCTTCCTGTTAGAGGGAAG
Y
TGTCCCCTGTTGCCATTTCTGAAACTTGGGCGGACAATGTCGTTATTGTGTTACAAACGATTTGCGTCTCCAGGGCAGGAGTTGGGTGATATTTTTCTGG
Celera SNP ID:            hCV8890403
SNP Position Genomic:     13394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38623):
TACGTAGTGTGACCTCTAGTCAGCAAATGGCCACTTGGCTGTATTTTAAATTTAGGTACACTTTGCTGCTTGGGGTCCATCTTGAGGGGATTGCCTTTTT
Y
AGGTTCATGTTTGTTCACAGAGCCATTCAAAGTGCAGTGGATACATTATAAATTGTACAATTATTTGTAATTAAAAAAAGAACAACAGCAAAAAACCCAA
Celera SNP ID:            hCV312542
SNP Position Genomic:     110234
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38624):
CTTTTCCATTAAAGTGTGGATGGTGTACTGTAAACAAAGACTAGCTCTCTTGAGCTGCCACGTTTCTATAACTTATAGAAACAGAAGCTGTTTTTTTTTT
C
TAAAGATCCAAACTCATGTTGCCACACAAACAACAAAATAAACCAGTGTGTTCCAAAAACAAGCATTTGCTCTACCCACACGCACAGTTGGAAAGATGCA
Celera SNP ID:            hCV26877590
SNP Position Genomic:     85835
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,6)   total(C,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38625):
CAATGGCGTGATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGAACACAGGTGCCCGCCACC
A
CATCCGGCTAATTTTTTGTATTTTTAGTAGAGGTGGGGTTTCATCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAGGTGATCCACCTGCCTTGGC
Celera SNP ID:            hCV26877591
SNP Position Genomic:     84684
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38626):
CAAAAATAAACATAAAAATAAACACTTTATGTACACAATCTCACATCACTTTCACAGTCTTGGAAGGCAGATATTTCTGTTATCCTCATTTTACAGCTGA
Y
GCCTATCTAAGGCTTGTATAAAAGTCAGTCACTGTCCAGGCTCACACAGCCAATGCTGGAGGGCTGTGTGGCACCCAGAGAGCACAGTTGCTGCTTGGAA
Celera SNP ID:            hCV26877592
SNP Position Genomic:     74319
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38627):
TTAAATTTAGGTCTGTCTTGTTCTGCAGTCCATATACCATATAACTTTGCCAAATACAACACTATGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TATGCACATGTGTGGCCTTTATTGAACACTGTGGTGTGTGTGTATGCACGTGTGTGGCCTTTATTGACTTATTGAATTGATCCTGAATCTTCCCTACTCC
Celera SNP ID:            hCV26877593
SNP Position Genomic:     64893
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,4)   total(G,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38628):
TCCGTGAGTCCACGTGTGCCCTTGTCTCTGCTTGCTGTGCCTTTCTCTTTCCTCCACGTTGCTAAATTCCGTCCATTTTTCAAGGCTCAGTTCAGATCAT
Y
CTTCTTTGCTTTATCATTTTACATACTGTGTATGGTTTGGCCTCTTGGTCTGCTGCTCTCTGTGTCTGTTGTATGGAGCGCTTTTCTATCTGGTATTACG
Celera SNP ID:            hCV26877594
SNP Position Genomic:     63405
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38629):
CCATGTCCCTACAAAGGACCTGAACTCATCCTTTTATGGCTGCATAGTATTCCATGGTGAATGTGTGCCACATTTTTCTTAGTCCAGTCTATCATTGATG
K
GCATTTCGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAATAAACATACATGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGG
Celera SNP ID:            hCV26877595
SNP Position Genomic:     176952
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38630):
CCTGGCCAGCATGGCGAAACACCATCTCTACTAGAAATACAAAATTTAGCCGGGCATGGTGGTGTGTGCCTGTAATCCCAGCTACTAGGGGAGCTGAGGC
W
GGAGGATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTGCAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAATA
Celera SNP ID:            hCV26877596
SNP Position Genomic:     56041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38631):
GTCAGTACTAGACTTAGCATTGTTATGTTATTTTGTCCAGAGGAGGGTGAGGTAGTACAATCAGAGACGGGGAAACTGAGGTGGTGCTGCTTCTGGCTCA
K
CCTGACACTTGCAGTTCTAAGGTTATTATTTCATCTCTTAAGTTGGGCAAGTTTGTGTGTATGCTTTTGAGATGACAATAATATTTATAAAACATAATTC
Celera SNP ID:            hCV9497092
SNP Position Genomic:     180153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38632):
AGCTGCTCAGGAGGCTGAGGCGGGAGAATTGTTTGAACCTGGCAGGTGGAGGTGCAGTGAGCAGAGATCATGCCACTGCACTCTGGCCTGGGCAACAGAG
Y
GAGACTCTGTCTCCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATCTTCAGTGCAGGGCCTGTCTGCTCTCCAGGGAAGGCTGCAGTATTGTCAGGT
Celera SNP ID:            hCV26877598
SNP Position Genomic:     53167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38633):
ATTGGAAGCCATGAGGAGTTGACTCAAGACTCAAGACTTCAGGTCAATATCTCGGGCCTGAAGCCAGGGGTTCAATACAACATCAACCCGTATCTTCTAC
M
ATCAAATAAGACAAAGGGAGACCCCTTGGGCACAGAAGGTGGCTTGGGTGAGTTACAAAGGGTACCTTCCGTCTCCCTTACTGGTTCTTACTTTCAGTAA
Celera SNP ID:            hCV288149
SNP Position Genomic:     148915
SNP Source:               Applera
Population(Allele,Count): african american(A,32|C,4)   caucasian(A,30|C,10)   total(A,62|C,14)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;(C,-|A,-)   JBIC-allele(C,273|A,1218)   total(A,1218|C,273)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:38634):
TTAATAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTTGTCATCCGCATGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGC
R
TGAGCCACCGCGCCCGGCCCGGAATACCCTTAAAATATAGCCAGAAAGGGCTGAGGATGGGTAAGAACCCAGGATATAGAGTCTTCCCATAAAAGGGAGG
Celera SNP ID:            hCV26877599
SNP Position Genomic:     52677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38635):
AAAGTCCACTGGCTTTCGTCTCTCTCTGCCGTGACACATATCGGAATCTACTGTATATATATATATATATATATATATATATATATATATATATATATAT
R
CACTAAGCTCTCAAAAACAGTCATTCCTATGAATTGAGGTGTACAAAGTTTGAATTTGTATCAAAGATGTAATTATTATTTTTAAAACCTTTTCACTATA
Celera SNP ID:            hCV11385348
SNP Position Genomic:     193735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:38636):
ACTCCTCTGCTCACCTCTAACCAAAGAGCCACCTAATTGTTCTGCATGGTGACCATTGCCTGTTAGATTCTTGGTGAATAGATTCCTAGCCTCATCTTTT
K
TTATTTTTATTTTTTTAATAAATGGTAGAATGAGGATGCAGGAAACTTGGAAAAGCAGAGTCAAAGTTCAACTAGCACAGGAGCAGAAGGTAAATTCTGT
Celera SNP ID:            hCV8890410
SNP Position Genomic:     56559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38637):
CACATCAGTAAGATGGGGAATGACAACCCTTATGGGACTGCAGTGAGGCTTAGCCAAGTTGGTGCTGTGGAAGGCCCTACTGGATTCCAAAGCATGATAC
R
GATGATGAATACTTTATGTGGCTGAGGTGCTTCCAGCAGGCACGTGGGAAGCATCCATGTAAGATTGGGGTCATGCAAAATGGGGTGGGATCACATCGCG
Celera SNP ID:            hCV8890411
SNP Position Genomic:     56863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38638):
TTGGGGTCATGCAAAATGGGGTGGGATCACATCGCGGGATGAAGCACTTGGATGCAAAGGCCTGTGTGGTCCAGCCTGAGTCTGGCTCAACACACAGGGT
Y
GGATCCTGGCTGCGCTCCTTACTGCTGTATGTACAGATTTGGCTCAGAGGGAATGCAGGATTGGCAACATGCATCTAGTCTTTCTTGTGGTCTCCTGGTG
Celera SNP ID:            hCV8890412
SNP Position Genomic:     57028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38639):
TCCTGGCCAGACCACGGTGTTCCCGACACCACTGACCTGCTCATCAACTTCCGGTACCTCGTTCGTGACTACATGAAGCAGAGTCCTCCCGAATCGCCGA
Y
TCTGGTGCATTGCAGGTACGCAGATGGCACGTCACGTGTGACAGATTTCAAATGTCATTATATATTTATGAGCACTTTACAAAAGCAAAGCCTAAGAGGG
Celera SNP ID:            hCV25943717
SNP Position Genomic:     188710
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(T,32)   total(C,3|T,67)
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38640):
GTGCTCTGTGCACCTGGGATAGAGCAGGAGCAAGACACATCATTCCTGCCCTCACAGGGTTATGGTCTCCTAGGTGACAAGGTAGTGCACACTTCCATAG
S
TCTTACTCTGGGACAAGTACTGTGCCAAATGCTTCCTCCCAGCCGCCTGATGAGGTAGCTACTGTTAGTTATCAAGTCTGATTTACAGGTGAGGCAAAGA
Celera SNP ID:            hCV11381641
SNP Position Genomic:     85107
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38641):
TGTGATGGTAGGTGGTACCCACAATGATGGCCCTTCAGGGGATTTGAAGATTGTGAAGGAGGACCAAGAGGAGCTGTTTGGACCACCTGTGATCCAAGGC
R
GGAACTAGGAAGACACCTACCGGAAGTCTTTGTGGATCTTTTGGGATTGGATTGGATTAGCAGATACAGAGCGTTTGACCTATAGTAACCAGCTGACTGT
Celera SNP ID:            hCV8890417
SNP Position Genomic:     59216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38642):
AGCTGTTTGGACCACCTGTGATCCAAGGCGGGAACTAGGAAGACACCTACCGGAAGTCTTTGTGGATCTTTTGGGATTGGATTGGATTAGCAGATACAGA
R
CGTTTGACCTATAGTAACCAGCTGACTGTTCAGCAAACGCTTCACTTCCTAAAAGGCTTCTTCTTTCCAAGGCAAACTGGGGCATGTGAGGAACAGGAAC
Celera SNP ID:            hCV8890418
SNP Position Genomic:     59287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38643):
TTAAAGGATACCTCTATTCCCCAGGTCCTTTATTGATTCATCTTATTTTTATTTGTATAATAAATCATTAGAATAGTGCCTGGTGCTCTATTGCACTCAC
K
TGCATATACTGTATAAAGCTTTGTACATATTACTTGTTTAGTCCTCACAGCAGCCCTAGGAGGTAGGTACTATTATTTTGCTCATTTTGCAGGCAAGAAA
Celera SNP ID:            hCV8890419
SNP Position Genomic:     59970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38644):
GGTCATCCCATTTCCATCTGAAAGGCCCCCTTGTTCATGAAGCCTCTCATGGTCCTTCCCCCTACCCCAGCCAGGTATACTTTCTCTCCTCTTGGAATTA
Y
CCTATAGGAAGAACATGGTGGCTTGACCTGGGTTCCAGTCTCACCCATCTGTTTACCTGGGGAGTGATCTTGAGTGGGTCAATTTATGTTCTCAGTGCCT
Celera SNP ID:            hCV462100
SNP Position Genomic:     101475
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38645):
TTTTGCACATTCATTGTTGTATTAGAGTTTGTTTTTTTGTCTTACCTTGTTTTAATAAATTATAATCTTATGGGAGATGACACTGTCTTTTCTTTGTTTC
R
TATATAAAAAGTGTTTTGCTGATATACGTAGAATCAAGTTGGTCTGGAGTTACTCTGGATAAGGGATGAAATCAGGGAGCTCTTGTGTTCAAAGGGGCCT
Celera SNP ID:            hCV462102
SNP Position Genomic:     101803
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;(A,-|G,-)   Caucasian(A,21|G,63)   African-American(G,13|A,71)   Asians(G,84)   total(G,160|A,92)
SNP Type:                 INTRON


Context             (SEQ ID NO:38646):
TTTCTCCTCATTTTTTAGCTTCCATTTTTACTTCCTTTAGTATTGAGAAAGTACCAGGCTCACTTCAAAGAGTTGACTTCAAAGCTCCCACCAGCTCAGA
M
ATACTTGCCACTGAAGCCTGTAGGAATTGGCATCAATGGAAGACCCTGTGGCGGTTGCATTTAAGATTTTTTTTGGGACTTCTATTTTTATAATTCTTTT
Celera SNP ID:            hCV462103
SNP Position Genomic:     102022
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38647):
ATTTTTTAGCTTCCATTTTTACTTCCTTTAGTATTGAGAAAGTACCAGGCTCACTTCAAAGAGTTGACTTCAAAGCTCCCACCAGCTCAGACATACTTGC
S
ACTGAAGCCTGTAGGAATTGGCATCAATGGAAGACCCTGTGGCGGTTGCATTTAAGATTTTTTTTGGGACTTCTATTTTTATAATTCTTTTAAATGGTAA
Celera SNP ID:            hCV462104
SNP Position Genomic:     102031
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38648):
AAACCCCGTCTCTACTAAAATACAAAAGAATTAGCTGGGTGTAGTGGTGCATGCCTATAATCCCAGCTACTCAGGAGACAGAGGCAGGAGAATCGCTTGA
M
TCCGGGAGGAGGAGGTTGCAGTGAGCCGAGATTGTGCTATAGCACTCCATTCTGGGCGACAAGAGCGAAACTCTGTCTCAAAACAAAACAAAACAAAACT
Celera SNP ID:            hCV461599
SNP Position Genomic:     82282
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38649):
GAAGCCTGTAGGAATTGGCATCAATGGAAGACCCTGTGGCGGTTGCATTTAAGATTTTTTTTGGGACTTCTATTTTTATAATTCTTTTAAATGGTAAAGG
R
GGAGGGTTACAAAATATCTGCGCCTTTAAGATATCAAACATAAGCCAGTGAAGTTCCAAAAAAAAAAAAAAAGATGTCTTAGAGAAATGAAAAGGATTTT
Celera SNP ID:            hCV462105
SNP Position Genomic:     102135
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38650):
GAACAACTCTTTTTTCTTTTTCTTTTTCTTTTTTTGTTTTTGAGATGGAGTTTCGCTCTTGTTGTACAGGCTGGAGTGCAATGGCGCCATCTCAGCTCAC
Y
GCAACCTCCACCTCCCCAGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACGGGCCACTATGCCCGGCTAATTTTGTATTT
Celera SNP ID:            hCV462106
SNP Position Genomic:     102351
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38651):
AGACCAGAGATCTCATGGGTTTGTGTTTCTTCATTGATACTTTTAAGGGGAGCAACTTAATCAGTGGGAAACCAGATCTCAAAGGATGGGACAGATAAAC
S
CAGGGTACAGAGAAGAGCTTGGGGGAGTGTCAAGCTTATTTGCCCAAAAGGGCTGACCCTACCTTACCGCCATTAATACATGTCCTTCATGCATCCCTGG
Celera SNP ID:            hCV29266569
SNP Position Genomic:     78085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38652):
AAGTTATTCTGGTTTGCAGACTGGGAGACAGGTTTAATGACACAGTCATGTCAGAGAGAGGGGAAGAGGAGAATACGTAGGGGGTCTGTTTTGATGTGTA
W
GTACATGTAGGATTTTCATGTAGAGGAGTTGGGGAAAATTTTAGAAGTTTTAGGTGTAAATGCAGCTGGTAAGATCCTTATGACTTAGTTTCTTTTTTTT
Celera SNP ID:            hCV1478461
SNP Position Genomic:     131733
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38653):
TTCAATACAACATCAACCCGTATCTTCTACCATCAAATAAGACAAAGGGAGACCCCTTGGGCACAGAAGGTGGCTTGGGTGAGTTACAAAGGGTACCTTC
Y
GTCTCCCTTACTGGTTCTTACTTTCAGTAACTAAATGTTCTAAAAAATAAATTGCTCTTCCATGTGTATGGAGATTTAGAATTTATAAAGGGCTTTTCCT
Celera SNP ID:            hCV25944019
SNP Position Genomic:     148985
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38654):
ATGTAAATGATGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGT
R
TAATAAAAACATATATATATATATAAAAGAAATGGGACAGATTCCTTGAAACACACATGAAATGAGTTACGCTTTTGAGATTCTCCTTGAAGAAGCTTCT
Celera SNP ID:            hCV148441
SNP Position Genomic:     157784
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38655):
GAGTTACTGAGTATCAAGTGGTGGGGCTGGAACCCGGAGTCTAACTCTAGACCACTGTGGTGCAGTGATGTTCATAACAGCTATCCACAGTCACCGAGCT
R
GGAATTTATTGGTTCTGCATTACTTAATAAAACAAAAAGACGCATGACTGACCTGATTTAGAACTCTTTGCATGAGAGACATGTGCTGTGAAGAATCATC
Celera SNP ID:            hCV11665700
SNP Position Genomic:     147764
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38656):
GAGGATTGCTTGGCCCAACAGTTGCAGACTAGCACCAGCCTGGGAGACCCTGTCTCAAAAAAAAATTTTTTTTTATAGAAACAGTTTAAATTATTAAATT
R
TTTCTAGGCCTACAGGAGAAACTTCTGGGAAATCCTAGAGAGTAATGTTCATTATTGTTGTTTTAAAATTTTGAAATAATTGTTTTTTGGAAAGGTTGAA
Celera SNP ID:            hCV148442
SNP Position Genomic:     157505
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38657):
TTCTAGGTCACACAGCTAATGGATGGAGCAGGTCTTTAATCCCAGATCTGGGTTCCAAGACCAGTCCTTTTCTCTTTACGCTGCTCTGTCCCTGCTATCT
K
TATGTCAGAAAACCACTGAGCTTCCTTCTAGATGTCAGGGTTTGGCAAAAAAGTTATCATGTGCTTCTGCGTCATGCAGCGTTTTCTGAGAATGGGGAGA
Celera SNP ID:            hCV11665701
SNP Position Genomic:     145395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38658):
AGGAAATGCATACTTTGATAGAAAATGGACAAAAAAGTTGTATTGGTAGAATTAAATGAACTAATGCATGTCAAGCACTGAGCACTTTGACTCAATAGTA
M
TAATAATAATAATAACACAATGTATCATTATGATAGTGTTATATCTCTTTAGCAATCTTGATAGTTGACTTGTATAATTCACAGTACAGAAGCTTATTCT
Celera SNP ID:            hCV1478463
SNP Position Genomic:     112410
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38659):
AATAGAGGCAGTGCCATGAAGCAGCATTGGTATCTGTTGATGGGTGTGTGCATTGGCATAACTCTCTGCTGTTTATATCACAGGCCTAAACATTAGGCAT
R
TGCTGGCTTGAAGTCTGAGACTATCCTAAGGAAATAATCTGAAATGCAACCAAAGGCTTATTCAGAAAGACGAGTCTCAGCATTATTTATAATAGAGGAA
Celera SNP ID:            hCV1478464
SNP Position Genomic:     185785
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38660):
CCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGTCTCAGCCTCCCAAAGTGCTGGGATTGCGGGCTGGGATTGCGGGCATGAGCCACCATGC
Y
CAACAACAGATTTATTATAAGCAAAAGCTCTTTGGGGTCCTCAATAATTTTAAGAGCATAAAGGAGACCAAAAAGTTTAAGATGTGCTGGTCAAGACAGA
Celera SNP ID:            hCV477178
SNP Position Genomic:     111057
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38661):
TGTTGGCCAGGCTGGTGTCGAACTCCTGACCTCAAGTGATCTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCAGTGTGCCT
R
GCTTCCTGCAGTTTTTTTATTGATTGGATGAATGTTTGTATATCCCATGAGCCAGATGAGGCACACTGTCCATGCACATAGCAAGATGGTAACACTTACA
Celera SNP ID:            hCV11665704
SNP Position Genomic:     144792
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,10)      total(G,5|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38662):
GGGGTCTCCTAGATTCTTTCAAGGTATTTCTGGGTATTGTTTTCATAATACTACTAACATGTTATTTGGCTTCTTTACTCTCATTGTATCATGAGTGTAC
R
GTGGAGTCTTGCAGATTCTATATGATTTGGGATGACACTGTCACTCTTACAGCTAATGGAATGTATGCTTTCATATTGTTTAAAAAACTTTATCTTTTTT
Celera SNP ID:            hCV8895435
SNP Position Genomic:     138828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38663):
GTGTGATCTTGGTTCACTGCAAACTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGATCACAGGTGGCTGCCACCATGC
S
CAATTAATTTTTGTATTTTTGGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTGTCGAACTCCTGACCTCAAGTGATCTGATCTGCCTGCCTCAGC
Celera SNP ID:            hCV11665705
SNP Position Genomic:     144650
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|G,7)   total(G,7|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38664):
AAACCTGGAGAGCTTTGTCACTTGCTGAAATCCAAGCTGCCCTGTGAATTTATCCCCAAACACTGCTCCTTTTGAGAAACTTGTACAAGCTGCCTTAATT
Y
AGTCAATTCAAATGGGTTGATGGGGGCTGTTCCCAAGGCCCAGGACAGGCAGGGGTTTGTGACCTGCAGCCCTGGAACTGCCTTTGGGTTTCATGGTCTC
Celera SNP ID:            hCV8895438
SNP Position Genomic:     129798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38665):
GCTGAAGGGCTAGAGGAGGACAGGGTGTTTCTGGAGCCCAGTGAGAGCTGGGGCAGTGGTGGACACAGCTGTGTCAGGACAGGAGGCCCAGAGCAGGAGG
Y
GATGGAGGAAGGCACTGACTCCTTTCTCCTGTGGCCCTTCAGGGGCCTGCCCATTGGCTCATAGTGGAACCCGGTCACAGCCCATGTGGCAAGACCCCCC
Celera SNP ID:            hCV8895365
SNP Position Genomic:     152152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38666):
TGAAGGGACTAATTCTAGGTCACACAGCTAATGGATGGAGCAGGTCTTTAATCCCAGATCTGGGTTCCAAGACCAGTCCTTTTCTCTTTACGCTGCTCTG
Y
CCCTGCTATCTTTATGTCAGAAAACCACTGAGCTTCCTTCTAGATGTCAGGGTTTGGCAAAAAAGTTATCATGTGCTTCTGCGTCATGCAGCGTTTTCTG
Celera SNP ID:            hCV1478469
SNP Position Genomic:     145383
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38667):
GTGTGGACAGATGATGCTGGTCAGCAGGCAGGAAAACGATCTGCCAGGCGCTGGGGGTGGGGCAGAGGATTGTTCTTCCTGACCTTGGTATGAAAACCGT
R
TGGAGTTCTTAGTGAGGAAAATCACTCTTAGCCCAAATTCCTGCGAAGGCCGATGGGATTGTTTTTAAGATTTGTTGGATTGCTGGATTTGTTGAAGGGA
Celera SNP ID:            hCV8895439
SNP Position Genomic:     121726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38668):
TTGAGGTTAGGATTGCTCTCCAGTTTTATAGGTGAGGAAGCTGAGCTCAAGTGGTTTTCCTGTGGCCCACCTGGGTGTCATAGCAGAGTGAGCCCTGGAA
Y
CCAGGCCTGCCTCGTCCTGACTTCTGTGATCTCGGGCGATCACATAGATCGCAGTGTTCGCTCTTGCATCATGTGTGTTTGACAACTTTTCTGGGTGCCC
Celera SNP ID:            hCV8895366
SNP Position Genomic:     152471
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38669):
TATAAGAAGGAGGAAGGGCAGAAGGTTGTGCCCCACCCTTAAAGGACACTTCCTAGAAGTCACCCAGTACCTCTGCTCATGCTTCGTTGAGCAAAACTTA
K
TCACATTGCAACATCTAGCTCCATGGGAGCTGGGAAATGTGGTCTTTGTTTCCAACAGGTATGCACACACAGGGCTAAAAATCTGGGTGGGTATGATGAA
Celera SNP ID:            hCV8895367
SNP Position Genomic:     155040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38670):
GGGTTAAACAGCCCATGAGTGATGCAGTGACCAGAGCTTTCTCTGTGCCCACTGAGGCATGTGAGTAATGCAGACACACGCCTGTCTTCTCACTGCAGCC
Y
ATGCTGTGTACTCAGACAGAGAAGGAGGGTGAGGTATTTGCCTGATGGTTGACAAACTTTCTGGAAAGGGCCAGATTGCCAATATTTTAAGCTTTGCAGG
Celera SNP ID:            hCV8895368
SNP Position Genomic:     168268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38671):
AGGGTGAGGTATTTGCCTGATGGTTGACAAACTTTCTGGAAAGGGCCAGATTGCCAATATTTTAAGCTTTGCAGGTGGTATAGAGTCTGTTGCAAGCATT
Y
GACTCTGCCATTGTAGTGTGCAAGCAGTCACAGAAGATACAGAAGGAATGAGTGGGACCATTCCCACTAGATGTTATTTACCATGGCAGGTGGATTTGGT
Celera SNP ID:            hCV8895369
SNP Position Genomic:     168394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38672):
AAATACATGGTAAAGATGTTAGTTTGTAATATGTTTTTAGTATATTTTTCTCCATCTATTAGATTTAAAAAACAGATTAGAAATTAAATGTTAAAAATAT
R
TTTGAAATAAACTTGAAGTATTAAAAGAAGCCTAAATTAAACTTCTTTTGAGACTTAATCTGTATAATTATTTTCTTGATGTGTTTTTGGGAAGTTTTCC
Celera SNP ID:            hCV25943658
SNP Position Genomic:     161863
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,39|G,1)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38673):
CTCCGTCTGTGTCACCCTCCTGCTCCTCCTCCACCTGGCTAGTTCCTGTTGGCCACTTTTGGAAATTCATGCCAGTCCAGTCCACCCTGAGTACATCCTC
K
TTCTGTGTCACTGAGCTCACTATGCTGGGTTTTATCTATGTCTCCCTCGCAACTAGATCATTCACGTCTTGAAGTTAGGCATCATGCGTTCTTCATTTCT
Celera SNP ID:            hCV29266570
SNP Position Genomic:     66494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38674):
AAGGTAATGCATTTACATGTTACATAAAATTCATATCATACAGAAAGGCAGAAGGAAAACAGGGAGAATTACTTGTTCCCTTTTCTCTCTTCCCCTCCCA
R
TTCCTTTAACAGGAAGAATGTCTCACTAGTCATGTGATCTACAGCAAATCCTTTAACCTCTTCAAACCCGCATCTCTTATATGTTACAGGACAGTAATAA
Celera SNP ID:            hCV29266571
SNP Position Genomic:     54835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38675):
AAGCTACACACCCGGGATGCTGCTGAATGCAGATGAGAGCATGCCAGCTCTGCTGAAGTTGGGGGCTGGGGGCAGTGGATGGCTGTGAGTGGTGTGAAGC
Y
CCGGGCCACAGTGAAGACCCTGGAATGGCTGAGAGACTGGGATTCCAGGAGACCGAGGTTTGAGGGGAGGCTTTTCATTGTTTGATTAGCTCTTTTTTTC
Celera SNP ID:            hCV29266572
SNP Position Genomic:     43828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38676):
TTTTAGATAGTACAAAAGAAAATAACTTCACAAATTTGTAATTAGCATTTGCAGCTTGGGTCATTAAGTTTAGTATTAGGGGGCAGGATTTGGTGTCAGC
K
GTGAACTAATGCCTGAGGAAAAGGTGTAACACCTTTATTTCATAGATGACATCAACTCCAGATACACAAGGGAAAAGCACAGGAAGGAATCCTTTTTTGT
Celera SNP ID:            hCV29266573
SNP Position Genomic:     174418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38677):
GGAATTGGATCACCCTGGAACCTAGCTGGGGCTAGGATGGTTGTTGCATGTGATTTTCAGCAGGACTCTAAGGGATCTCCAAAGCTGGTTGGCTGGCTAG
Y
GAGGTTGGGCGAGGGAATAACTCATTTGCTTAACTTTTCATATGTAACAACTGGGTTTTGGGTTTCACAAGAGACAAGGTAGGCAGGCAGGCTCAGGTGG
Celera SNP ID:            hCV499822
SNP Position Genomic:     69887
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38678):
CCGACCTTTCCCCTTCCTGGCATTTCCATAGGGGCTGAGGCAGAGCAGCTGAAGGGGCATTCCCATTTCACAGATGGGGAACTGAGGGAGAGAAGTGAAA
K
AGCGGAGCACCCAGCCCGTGCCATGGGAGCTGAGCCAGCGGGCACGTCCTCTTAGCCTCTGGAGCCTGTTGGGGTTTGAACCCGCAGGGGAAGCGGTCTA
Celera SNP ID:            hCV29266574
SNP Position Genomic:     7248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38679):
TGAGCCTCCCGAGTAGCTGGGACTACAGCTGTGTACCACTATGTCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGCCCATGCT
R
GTCTTGAACTCCCGGCCTCAAGAGATCCTCTTGTCTCCAAATCGCTTCGCAGAAGTGCTGGGATTACAGGTATGAGCCACCATGCCCAGCCAAGTTAGTT
Celera SNP ID:            hCV499823
SNP Position Genomic:     71653
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38680):
AGCAAGGACCTGGGGATGGACCTTCTCTGGCCAGCTACAGGGTATAGAGCTGGTGGGAAATGCAGGAGCCTGTGCTAGCAGTTGACCATTAACATGGGAA
Y
GCCACCTCCCAGCGGGCACTGCTGCCGCATACTTGCGAGGTTGCTGAAGCTTGTAGTTTAGAGCAGGACCATCCCACTAGATGTGCAATGTGAGCCTCAG
Celera SNP ID:            hCV29266576
SNP Position Genomic:     165693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38681):
GCATTTCTTTACCTTTTACTCTTTTACTATTTATTAGTTAGGATTAGGTTCAGCCACGAATAACACCACCAAAAACAACAACAACAAAACCCAAGTATCC
R
TGGCTTAAACAAGACAGGGGTTTATTTCTCTCTCCTGTAACAGAAGCCCAGTGCTAGGCAGGATGGGGATGATAGAGGTTATCCAAGGCTCAGTTGTATG
Celera SNP ID:            hCV29266577
SNP Position Genomic:     154122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38682):
CAGAGTCATTGGAAGGGCCGCTGTATTAGTTTGCCAGGGCTGCTGTAATAAGATCAAGGTCTTGGGGGTTAGGACTTCAACATATGAATTTGGGGGTGGC
R
GAGCACAAGTCAGCTCATAACAGCTGGGGAGGAGGCTTTAGGCCTGGCCCTGAGAAATTACTCCCAGACTAAGGCTGCAGAACTGACCCCCTAGAGAGTC
Celera SNP ID:            hCV67262
SNP Position Genomic:     136939
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38683):
AAGAAAAAATTTTAATTAATTGTGCAATCATGATGAAAATTTATATTTTCTGTAATTTTTTTCTAGCCTCATCTGTGGGCGATTTAACTTAGTTGAAATT
R
TAATACATTATTTGTATATTGTTTATGTGCTGTTATCCTTTAAGTATTTTCTTGTGTTGCTACATTGCCCTTTTGTTGCTACATTGCTACATTTAAAGAA
Celera SNP ID:            hCV29266578
SNP Position Genomic:     135741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38684):
GAGGAGGCTTTAGGCCTGGCCCTGAGAAATTACTCCCAGACTAAGGCTGCAGAACTGACCCCCTAGAGAGTCACCACCTTGGTCATAGACAGCAAGCAGA
R
AGGGAGGAATCAGGAAGTCCCTGCTGTAGTTGCTGGATCCAGCGGTGAATGTTCTGAGCTGTGATCCTGGGATCAGGAAGCTGCAGCCACTGCCACAGTG
Celera SNP ID:            hCV67263
SNP Position Genomic:     137068
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38685):
GAGGGTGGGCTCCTTACCCTCTTGTTGAATCAGGAGAATAGGCTGTAATAGAAATAAAAGCGTTTTTAAAATGAATGCTGATAGGCTGGGTGCAGTGGCT
Y
ACAGCTGTAATCCCAGCACTTTGGAAGGCCATGGTGGGCAGACCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCATCTCTAC
Celera SNP ID:            hCV309999
SNP Position Genomic:     182970
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38686):
AGGGAAGCCGGCCTGTTCTCATCTTGCTGTGCCTGATGCCTTGTGCTTGGGGCACTGTTCACTGTGCTGCCTGCTGGCCTGCTTGTCTCTGCCTTTTGGA
Y
GGGAGATAGGCCACCCCACAGTGCCACACCTGCCTTCAGGGAAGCTTTTGGGTGTTCCTTGTCTGGCTTCTGGGTTCAGTGGGAGGGCCCACCCAGCCTG
Celera SNP ID:            hCV29266579
SNP Position Genomic:     129275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38687):
TTTCCTGAAAGCACACAAAGCAAAGCACGGCTCTGCAGTGTGACCCACCGTGTGCTGTGTGGACAGATGATGCTGGTCAGCAGGCAGGAAAACGATCTGC
Y
AGGCGCTGGGGGTGGGGCAGAGGATTGTTCTTCCTGACCTTGGTATGAAAACCGTGTGGAGTTCTTAGTGAGGAAAATCACTCTTAGCCCAAATTCCTGC
Celera SNP ID:            hCV8895440
SNP Position Genomic:     121670
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38688):
CCACCTCGGCCTCTGAAAGTGCTGGGATTATAGGCATGAGCCACCATGCCCTGCCTCAAGCATCTATTTTGTGCAAGAGCTTGCAGAAGTTCTTTCCTGC
Y
ACAGCCGTGGTTGGCCACATTGCTCCCCCATGAATATGTGGAAACTGACACTTCAGGAGAATTGGTGGCTCACCCATGGCATTCAGCTAGTGGGTTATGG
Celera SNP ID:            hCV8895443
SNP Position Genomic:     121331
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38689):
TGTCATTTTTCCTGATTGGCACATTTTGACCATGACCATCTGGAAGTTTTTGCTAGCTCTGTTTTCTGCAAGGAATCTATGTTTTATTAGTCTCCTGAAG
Y
TGGCTTCCTTGTCATGTTCTACTCTTCTACCAATAAATACGGATTTCTTGATTAAAAAAACGTCAAATAGGTTATCAAGATCCAGGGGAGAGAAGAACTT
Celera SNP ID:            hCV8895370
SNP Position Genomic:     174773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38690):
TAAAAATAAAAAACTGGAGAGAAAAGAGCCAAAGAAATGGGAGTCACGGGCACCCTGACAAAACTCCTGGAGCTCCTCAGAGCACTATTTTAGGGGGGAA
M
ACCTGCCATAAAGGTTTGCTCTGTTACATTGTGAAAGAGAGGGAAAGGAGAGCACAGAGAGATGACAGAAGAGAAGAGAATGAGAGAAAAGAGCATAGAA
Celera SNP ID:            hCV8895371
SNP Position Genomic:     147286
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38691):
GGGGGTTGCAGTGAGCCGACATCGCGCCACTGCACTCCAGCCTGGGCCACAGAGCAAGATTTCATCTCAAAAAAAAAAAAAAAAAAAAAAAGAAAAAGAA
W
AAAAGAAATGCAGGTAGGTGCTTCTAGCTACTGCTGTGGGATAGCAAGGTAGTTACCAAACTGATAAGGGTAGCATCTTACTTACTGCTGAAAAATTCAG
Celera SNP ID:            hCV8895444
SNP Position Genomic:     117732
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,3)      total(A,3|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38692):
GATTTAGAATTTATAAAGGGCTTTTCCTCCACATTTTAGTTTGATCCCCCACCTGCATGAGGAAGGAAGGAAACGTGTTCTGATTTTACAGGGGAACACA
Y
TGGGGCTGAGAACAGCAATAGGAATTGAAACTTTTTAGAGTCTGGCACCCAGGAAAGTTAGAGGCCCCTTTAGCTTTCTATCTAACAGCTGTGTCAACCC
Celera SNP ID:            hCV8895372
SNP Position Genomic:     149158
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38693):
GCCAGCAATACAGAGAGAAGCCGGGCAGGGAGCCCCACCGCCCCTGTGCATGATGAGTCCCTCGTGGGACCTGTGGACCCATCCTCCGGCCAGCAGTCCC
R
AGACACGGAAGTCCTGCTTGTCGGGTTAGAGCCTGGCACCCGATACAATGCCACCGTTTATTCCCAAGCAGCGAATGGCACAGAAGGACAGCCCCAGGCC
Celera SNP ID:            hCV8895373
SNP Position Genomic:     150162
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(A,11|G,29)   total(A,24|G,54)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:38694):
ACAGAGCAAGATTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCAAGCTCATACCTCCAGCCTGGGTTTTGAGAGCCTGTCTGAAAAAA
A
CAAAACAAAACCCTCAAGTAAACAACCTAATGTAGCACGTTAAGGAACTAGAAAAATAAGAACAAACTAATCTTCAAATTAGTAAAAGGAACAAAATAAT
Celera SNP ID:            hCV11665714
SNP Position Genomic:     142715
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38695):
GTTCAGAGATCTCTAGGGGTCTCCTAGATTCTTTCAAGGTATTTCTGGGTATTGTTTTCATAATACTACTAACATGTTATTTGGCTTCTTTACTCTCATT
K
TATCATGAGTGTACAGTGGAGTCTTGCAGATTCTATATGATTTGGGATGACACTGTCACTCTTACAGCTAATGGAATGTATGCTTTCATATTGTTTAAAA
Celera SNP ID:            hCV11665715
SNP Position Genomic:     138813
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38696):
AGTAGGGGCGACAGGGCCCCTGGAGCATAGGACTGAGAAGAGCATTGAGAGGGAGAGGATTTCCAGGTCTGGTGGTGGGTGAGCTAGCATGCTGCTGCCA
R
TTTTGCAGCAAGGACCTGGGGATGGACCTTCTCTGGCCAGCTACAGGGTATAGAGCTGGTGGGAAATGCAGGAGCCTGTGCTAGCAGTTGACCATTAACA
Celera SNP ID:            hCV11387476
SNP Position Genomic:     165586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38697):
CCTTCCTTAAGGACCTGAAGGTCTCTTCTCCTAAGGGCTAGGTTGGTTCAGAAAGTGAGAAGGGCTGGACCTTTTGTGGGGAGAGGATACAGCAGGGTCC
R
AACAGCTGGGCTGACACCGGGCAGCAGCCCAGCAGCAGTCGGAGCTGCAGGGTCAGCTCACCATGGGCTGAACTTGGGCATTGCCTGTTTAGGCAGAGTC
Celera SNP ID:            hCV505947
SNP Position Genomic:     89808
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38698):
TGAAGGTCTCTTCTCCTAAGGGCTAGGTTGGTTCAGAAAGTGAGAAGGGCTGGACCTTTTGTGGGGAGAGGATACAGCAGGGTCCGAACAGCTGGGCTGA
Y
ACCGGGCAGCAGCCCAGCAGCAGTCGGAGCTGCAGGGTCAGCTCACCATGGGCTGAACTTGGGCATTGCCTGTTTAGGCAGAGTCTGCCCGAGCCTTTCC
Celera SNP ID:            hCV505948
SNP Position Genomic:     89823
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38699):
TGCAGGCCAAGTCAAGTGACCAAAGCTAAAGGGGAAGGAAGGGCTGGCTGGACTTAGCAGTGACCACAGACAGAGTTGAAGCCTTCACGGTTGGCGTTGG
Y
CTTGTTCACTGCTGTGTGCCAAGCTGCTGACAGCATCTGGCTATCGCAGGTTCGTAATAAGTGTTTGCTGAGTGAATGAAAGAATATTGGTGTTGGGGAT
Celera SNP ID:            hCV11661290
SNP Position Genomic:     70213
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38700):
TATCCCACAGGGCTTGTGTGGCTGGCTTCACCAACATTACCTTCCACCCTCAAAACAAGGGGCTCATTGATGGGGCTGAGAGCTATGTGTCCTTCAGTCG
Y
TACTCAGATGCTGTTTCCTTGCCCCAGGATCCAGGTAGGGAGAAGACAACAGTCCTGGCACTGGTTCAGTGGCATTTTGCTCCACGTGTCCATAGAAGGC
Celera SNP ID:            hCV25943593
SNP Position Genomic:     170190
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,6)   caucasian(C,39|T,1)   total(C,69|T,7)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:38701):
AATTTGAAACAGCTGCTTTTATCCAGGTGTATACACGGTGTATACATACACAGATATGTATGAAATGTGGAACTCTATACCCGTATGTATGGAGTTCCTC
M
TAAGAGTCTTTTTGAGAAAATAGTTCCATTGCTAAAAATACCCAATGGAAACTTCTGGCCTGGGATTTCCAAGTTCACCCTCGGCTGTGCATCTCAAAGT
Celera SNP ID:            hCV29266580
SNP Position Genomic:     128824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38702):
GCACAGGTGCCCAGCCTTCTGGAATAAAGACAGGAACTAAGCATTAAAAATAGCACGCCATTCATTTGCTTGTGCCGAGCCGCCAAGTGCCCCCTCCTGC
Y
GGCGACAGGTCCGGATGTGGGCCAGTTCTCAGCCCAGGGAAAATGAACAGTGTCTTCTCCATGGTGCCCAGAACAGTCTGAGTCAGTGGAATGTGCTGGC
Celera SNP ID:            hCV29266581
SNP Position Genomic:     106661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38703):
GACAAAAGCCTCTTCTCACCTTTAGAGAAATTAAGTCTTATTGGTAGAAAATATTTTAGAGAGGTTCTGGTCTAAGCCTCTCATTTTGCAGATGAGAAAC
Y
ACCCAAGGCCCAAGATGGATGGATTTATCAAAGCCGGTTGGTGCTGGAACTTGGATTTAATTTCAGGTCTTTTATTATTACTATGGAACAAATCTTAACT
Celera SNP ID:            hCV29266582
SNP Position Genomic:     105578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38704):
TACTGAAACAGATTGTAGAACTTTGTAAACTGGCTGCCTTTCTACTCCTCTGCTCACCTCTAACCAAAGAGCCACCTAATTGTTCTGCATGGTGACCATT
R
CCTGTTAGATTCTTGGTGAATAGATTCCTAGCCTCATCTTTTGTTATTTTTATTTTTTTAATAAATGGTAGAATGAGGATGCAGGAAACTTGGAAAAGCA
Celera SNP ID:            hCV11661296
SNP Position Genomic:     56516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38705):
TTTTTCATTCCTGGACTAAAACATTAAGTTCTTTTTAAATTCAGCATTTTCTAGTTCTTGGGTTCTTTCTCTCCATTTATTTCCTTGTACTTGACAAGGA
R
TATTGGCCCATGTTCTGAGGGAAATGCTTTTAAAACTAGGCTGGGGGTATTGCCCTTGTAAGGGTAATTTGGGATTATTGGCCCCTTTTTGTGAATGTCT
Celera SNP ID:            hCV29266583
SNP Position Genomic:     179866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38706):
TCTTATTGGGAAGCCTTTAGGCTGAGACTCAGGTCAGTACTAGACTTAGCATTGTTATGTTATTTTGTCCAGAGGAGGGTGAGGTAGTACAATCAGAGAC
R
GGGAAACTGAGGTGGTGCTGCTTCTGGCTCAGCCTGACACTTGCAGTTCTAAGGTTATTATTTCATCTCTTAAGTTGGGCAAGTTTGTGTGTATGCTTTT
Celera SNP ID:            hCV240115
SNP Position Genomic:     180121
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38707):
GACGGGAAAACTCGGCTTTGTACTAGGTCTGTCTGTCTCAGTAAGGGAAAAGGCCAGAGTCTGTGTTCTTAACCCCTCTGTCTCACAACTATTTATTTCA
R
TTCTATAATTCTGGAATGAAAGTGAGCAGAGGGAGACGGGGAGTCACACTCTCTGTGTCCAGACACATGGGCTGAGTGAATTCCACAGCTAAGTATGACT
Celera SNP ID:            hCV240116
SNP Position Genomic:     179379
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38708):
TTTGTATCAGGCTATCGTCCTGTACCGATTTAGAACTCTATGAATATGTGCTGTGTTTTTGAGTCTAGCAGGGAATGTTCTAGATGCCTGGGTACATTGC
R
TGCTCTGGGGTGAGCTTGGTGGTTGTTGTGGAAAGAGTGAAATTCAACTCCTGTGTTGGTCAAAAGAGAGATTTTCTTTTTTCTGCTATAATTATATAAA
Celera SNP ID:            hCV461186
SNP Position Genomic:     190781
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38709):
TTATCATAGCTACAGAAGGGTGGCTGACCAGCGGAGAAAAGGAACACTTAATATCTATGGTATAGTTTCTGTACTACTGCTGGATTTGGTTTTACCCAAA
M
TGTTACTGAGAAGTGTTTTTGAGGCATGTTTTCAACAGAACATATTGCAAAGTTGCTTTCCTCAAAGGGGTGAATGTTCCTTGACCAGGATGAGAGCAGA
Celera SNP ID:            hCV461187
SNP Position Genomic:     190572
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38710):
AGCAATTTATCCTCACCCAGACTTGTACATTTTAAAGACTATCAATTATCATAGCTACAGAAGGGTGGCTGACCAGCGGAGAAAAGGAACACTTAATATC
Y
ATGGTATAGTTTCTGTACTACTGCTGGATTTGGTTTTACCCAAACTGTTACTGAGAAGTGTTTTTGAGGCATGTTTTCAACAGAACATATTGCAAAGTTG
Celera SNP ID:            hCV461188
SNP Position Genomic:     190527
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38711):
ACTCATAAAACTGGTATTTTCCAGTCTTTGTTTCTAAGAAGGTCTGACCATCTTTAAAATAAGCTAATGAAACAAACTCATCAAACATTAATGATGTGAC
R
TATCATAATGCTGCTTAAATGTTAATACAGCAATTTATCCTCACCCAGACTTGTACATTTTAAAGACTATCAATTATCATAGCTACAGAAGGGTGGCTGA
Celera SNP ID:            hCV461189
SNP Position Genomic:     190398
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38712):
CAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCGCCTTGGCCTCCTAAAGTGTTGGGATTACCCACGTGAGCCACTGCGCCTGGTCGTCTTTTA
R
CCCACATCTGTTGGTGGCTTACTGTGTGCTATGGTGAGGGATACTATGGTGAGTAGGGGCGACAGGGCCCCTGGAGCATAGGACTGAGAAGAGCATTGAG
Celera SNP ID:            hCV11387481
SNP Position Genomic:     165434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38713):
GGGCACCTTATATAACATCACCATCTCTCCAGAAGTGGACCACGTCTGGGGGGACCCCAACTCCACTGCACAGTACACACGTAAGTCTCTTAGGATGCCC
Y
TCTAAGGAACAGCCTCTCTAACTGTCTCTTGGAGGAGGCACTGGTTAAATGATGGCCAGTGTGCTTCTGGGATCCAGGTTGACTCTGAAACTGCTGAAGT
Celera SNP ID:            hCV462706
SNP Position Genomic:     161413
SNP Source:               Applera
Population(Allele,Count): african american(T,10)   caucasian(C,13|T,3)   total(C,13|T,13)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;JBIC-allele(T,564|C,925)   total(C,925|T,564)no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38714):
AGAAGTATATTTTTAATCTAGTTGTTTACTTTCTTTGCATAGCCCCTGTTCCAGTTTCTGACTTCCGAGTGACAGTGGTCAGCACGACGGAGATCGGCTT
R
GCATGGAGCAGCCATGATGCAGAATCATTTCAGATGCATATCACACAGGAGGGAGCTGGCAATTCTCGGGTAGAAATAACCACCAACCAAAGTATTATCA
Celera SNP ID:            hCV11387482
SNP Position Genomic:     155615
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38715):
AAGACTCAAAAGTAGATCTTATCTACCAGAACACAACTGCAATGACAATCTATGAAAACCTTGCGCCCGTGACCACATTTGGAAAGACCAATGGTTACAT
M
GCCTAATTCCAAAGGAATAACCTTTCTGGAGTGAACCAGACCGTCGCACCCACAGCGAAGGCACATGCCCCGATGTCGACATGTTTTTATATGTCTAATA
Celera SNP ID:            hCV25943747
SNP Position Genomic:     192511
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,39)   total(A,1|C,77)
SNP Type:                 UTR 3;SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:38716):
GAGTTCCTCATAAGAGTCTTTTTGAGAAAATAGTTCCATTGCTAAAAATACCCAATGGAAACTTCTGGCCTGGGATTTCCAAGTTCACCCTCGGCTGTGC
R
TCTCAAAGTCCACACAGCCTCACCAAAATAGCCCTTCTGGGTACTTTTTTCTGTGTGTTCTTGGAGGAGGCCATCGTGCCTCCAGCTCCCTAAGGCGGAA
Celera SNP ID:            hCV165956
SNP Position Genomic:     128915
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38717):
TGGGTGCCCTTGGTCTCCAGCTTCCAGTGGGCCAGTCTGGCGAGAGACCCTAGCTGGAGATGAGGGGAGGTAGCCTTGGCCTCTCTCCTTGCCCTTCCTC
R
CTGCTGCTACCCCAGGATTCTTGCCCATCCCTTACTGGTTTTCCTTAACCCCACCCTCACCCTTGAAAACAGACTCTTTAAAACTCTCCTCACTCACCCT
Celera SNP ID:            hCV165957
SNP Position Genomic:     131019
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38718):
ATGTTTACTGTCTGGCCTATTACAGAAGACGTTTGCTGACCCCTGATTTAGGGCATTCATGAGGCTTGATGAGATGTTGAAAATCAGCTGTCTCCTCCCG
Y
CACTCTCTTCTGATTGTGGGTAGGCTCTGGTGCACCAGCTCTCCAGTGATCTCCTATCTGATGCTCAGAGTTCTTTTTCCATTGCATGGATGTCAAATAA
Celera SNP ID:            hCV475169
SNP Position Genomic:     124680
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38719):
GTGTAGACCAACCAGGGTGAATGAGTGTATGACTGGAAATGCAAAGACGGGCAGGATCAAGGGACAGTTTAGAGCAGGGGTGTCCAATCTTTTGGTTTCC
Y
TGGGCCACACTGGAAGAAGAATTGTCTTGGGCCCCACATAAAATACACCAACACTAACAATAGCTGATGAGCTAAAAAAAAAAAAATCACAAAAAATCTC
Celera SNP ID:            hCV248980
SNP Position Genomic:     104489
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38720):
AATGTTTTAAGAAAGTTTATGAATTTGTGTTGGTCTGCATTCAAAGCCATGGTGGGCTGCATGCGGGCCATGGGTTGGCCAAGCTTGGTTTAGAGGCGGA
Y
GCAGTACGGGAGAGTTTTCCCTTCTCTTCTGATGTAACTCCATGTCTTGGTGGCGGTGTTCTAGATGTAGGCATCTTTAGGCAGGGGAGTGTGCGTGGAA
Celera SNP ID:            hCV248981
SNP Position Genomic:     104692
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38721):
ATGGGCATCTCAGATGCTGTGAGTCTGAGGGCAGATGCCCATCAGTCCAGGACAGTTCCTGGGGACAAAAGCCTCTTCTCACCTTTAGAGAAATTAAGTC
W
TATTGGTAGAAAATATTTTAGAGAGGTTCTGGTCTAAGCCTCTCATTTTGCAGATGAGAAACCACCCAAGGCCCAAGATGGATGGATTTATCAAAGCCGG
Celera SNP ID:            hCV248982
SNP Position Genomic:     105515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,6)      total(A,5|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38722):
GTAGAAAATATTTTAGAGAGGTTCTGGTCTAAGCCTCTCATTTTGCAGATGAGAAACCACCCAAGGCCCAAGATGGATGGATTTATCAAAGCCGGTTGGT
R
CTGGAACTTGGATTTAATTTCAGGTCTTTTATTATTACTATGGAACAAATCTTAACTTTTTCAAGTGCATACCATGTGCCCGGCTATGTGCTGGATGTAG
Celera SNP ID:            hCV248983
SNP Position Genomic:     105621
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38723):
GCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAG
Y
GAGACTCCATCTCAAAAAAAAAACCAAAAAAAACAGTGCTTGTTGTTCTTTTGTTGTTATTGTTAAAGGATCATTATCTCATTATCAACAACATTGGCAG
Celera SNP ID:            hCV474005
SNP Position Genomic:     87906
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38724):
CGCGCTGTCATCCCCGGACTCCGCTCCAGCACCTTCTACAACATCACAGTGTGTCCTGTCCTAGGTGACATCGAGGGCACGCCGGGCTTCCTCCAAGTGC
R
CACCCGTGAGTTCATGCCTGGCTCTCACCACCCTTTCCTGCTGTCCTGCTCCGTGCCAGGCCCAGACACAGGATGCATGATGTAGTAATGGTGACTGTTG
Celera SNP ID:            hCV25944049
SNP Position Genomic:     153136
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,38)   total(A,71|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38725):
CATATACAGAACATTCCATCCAACAGCTGTAGAATACACACTTTTCAACTGCACCTGGAACATTCTCCAGGTAGATCATATGTTAGACCACAAAACAAGT
S
TTAACAGATTTAAGAAGTGTGAAATCATATCAAGTATCTTTTCTGATGATGGCATCAAACTAGAAATAAATAACAGGAGGAACTTAAGAAAATTCACAGA
Celera SNP ID:            hCV27977597
SNP Position Genomic:     141778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38726):
ATCTTGAGTGGGTCAATTTATGTTCTCAGTGCCTTACAAAATGGGGCAGAGGATACCTAACCCCCAGGAGCTGGTGTGGCTGGGGTACCTTACACAGGGC
C
TGACTGTAGTAGCTTCTCTCCAAGCATTGGTGTCTTACCTCTTCTGTTTCTCTAATGGTGTTTTGCACATTCATTGTTGTATTAGAGTTTGTTTTTTTGT
Celera SNP ID:            hCV11665802
SNP Position Genomic:     101642
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,11)   total(C,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38727):
CAGAGTGGACCACTGATGTCATAGCTGCAGGTTTGGCTGAATTGGGATGGTGCAGAAAGCCGTGTTAACCATTTCTTTTTCTCTGAGGCCTGGAGGAGGA
K
CCTTGTGACTGGAACCACAGTTGGGACTGGCAGTGGTTTTTCCTGCTGGCAAGGAAAAAAAAAAAGAGAAAAGAAAGAGTTCGACTTATCAGCACAAAGA
Celera SNP ID:            hCV11665733
SNP Position Genomic:     132295
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,7)      total(G,7|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38728):
CGTTCCGCACCTTCTACCATGTCTCCTTTTCCAGCCTCATTCCCTGAGATGTAGCCGGAGTTCCAGTTCAGCCAACCTGCCCGTTGTTTTCTCTCCTGGA
R
CTGGGTGTTTGAGCCTCCTGCATGGAGTGTTCTTCCTTCCCAGCTAAAGTCCTGGTCATCCCATTTCCATCTGAAAGGCCCCCTTGTTCATGAAGCCTCT
Celera SNP ID:            hCV11665808
SNP Position Genomic:     101321
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38729):
GGGGCCCGCTACCACGCCCAGCTAATTTTTGTATTTTGAGCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTGATCCCCCTGCCTCGGCCTCCCA
R
AGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCCTTATTTATTTATTTTTGAGACAGGGTCTCACTCTATCACCCAGGCTGGAGTGCAGTGGTGCA
Celera SNP ID:            hCV11665809
SNP Position Genomic:     100793
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38730):
GGTACTCTCCATGTGGCCAGAAATGGCAGTTTCTGAGGGGCTCATGTTGTAGGTGATGATACAAAGAAGAGAAAGAGAGGGATCAGTTTTTCCAAGTGTG
S
ATTTCATTTCAGTGTAAATATTTTGTGAGGTGGGGCATCCCTGTCTCCTGGAGAAATATATTTTTAATCTAATTGTTTACTTTCTTTGCATAGCCCCTAG
Celera SNP ID:            hCV25943823
SNP Position Genomic:     137747
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:38731):
TCAATCAGTGTGTTTTGGATATTGTCAGATCCCAGAAAGACTCAAAAGTAGATCTTATCTACCAGAACACAACTGCAATGACAATCTATGAAAACCTTGC
R
CCCGTGACCACATTTGGAAAGACCAATGGTTACATCGCCTAATTCCAAAGGAATAACCTTTCTGGAGTGAACCAGACCGTCGCACCCACAGCGAAGGCAC
Celera SNP ID:            hCV25943824
SNP Position Genomic:     192475
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,3|G,37)   total(A,8|G,70)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Gene Number:                 171
Celera Gene:                 hCG23340 - 146000220662295
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY6P(14236618..14265569)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12331):
TTTTCCTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAAGCTCTGCCTCCCAGGTTCACAC
CATTCTCCTGCCTCAGTCTCCTGAGGAGCTGGGACTACAGGTGCCCGCCACCACACCCGGCTAATTTTTTTGTATTTCTAGTAGAGAGAGACAGGGTTTC
CCCCTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACCGCACCTGGC
CCAGAATTTTACATTTTTAACACAAGTCTTTGTCTGAATAGAGTATTCAGATTAGTCTACCACACTCCCCAAATCCTCAGCCTAAGTTATTGCCAAAACT
CATGTCTGCTCATTCTGCCACTTGCTTCTGTTCTCAAATCCATTTAGCAGTGCAGCCATGGTAGACAGTCCCAGCATGCTGCTATGTCCTCTGTAGAGAG
TCTTTCTCCTTTTCTCACTCAGATGTTTCTCCAAGCTGTGAAAGGGTGTCTATTTTGCCCAAGGGCAGCTTGTGAATTCAAAATAGTTAAAGTCCCTGGG
GATAAGTCTCAACCAATGGAAACTGTGGGTTGTTGGATAAATAGTCCACATCAAGGGTCCCAAACCCCCAGAGCATGGTCTGTTAGAAACTGGGCCACAC
AGGAGGTGAGTAGGGAGAGAGCACTAAGGCCTGAGACCTGCCTCCTGTCAGATCAGCAGCAGCATTAGATTCTCATAGGAGCTTGTACACTGTTATGCAC
TGCACATTCCACCTTCTATGTCCATGTATGCAGATTTTTTAGCTTCCACTTATGAGTAAGAATGTGGTATTTGACTTTCGGTTTCTGAGTTGTTTCACCT
AAGATAATGAACTCCAGTTCCATCCATGTTGCTGTAAAAGACATGGTTCATTCTTTTTTTAAACCAGTAATATCTTTAGCTCTCTCTCTTTCTCTCTCTC
TCTTCTGTGTGTGTGTGTGCATGTGTGAACACATTTAAAATATCAAAAGTTCTTCACTAACAAAAGACCCCAGAACTCAAGAATTCCCACTAAGAGAAAA
ATGCTTAAAATATTCTTGGTTTCTAAGGCTTTGCTTATGTGACTACTGTAGATTTCCTGTTTTTCTTGTGTGCCTAGGAAACTAAAGCCACCTGGGAACG
GTATCAAGAAGAAAGCCTGTGAAGCCTTCTAAGATGGGAAAGACAAAAGAAAGCTGGCAGGATTGTGCTTGCTAAGGTGTGACTGTGCAGTATCTGTGGC
TTTTTCTGACCTCCTCCCACCCCTGCACCCAACACCCATCCTCAAACTCACATCGGATGATTCAGGCATGGCTCTGCTAACACTTTATTAAAAGCATGGA
TTAATTTTACTTCCAAGTTTATTTTTACTGCACCATCCCATTTGTGGAAACAACTAGCTTACTCAGCTTTTTTTTCCTTTTATAAAGGAAAGAACAGAAA
AGTAAAAGGAGGAAAGAAAACAAGAGGTGAGTGAGGCAACTGAAAACTGTTCTTGGACCTGCGGTGCTATAGAGCAGGTATGTTCACTTTCTTTTAAATG
CAACTTAGTTCCTAACTCAAGACTTGGTTTCTGATTCAGAGTGGTAACTGAGGAATGGGCAGGAAGGGCAGGGTGCCTGCTGCCTGGCCTGCAGGAGTCT
GTGGCTGGCTTTAGTTCTGGGGAAGCTCAGCTTCTCCACTTGAACCAGTGACAGCCGGGCACGCCGCGTCCCCCTGGATGTGCTGTTCCCTGATCATCAA
CTCAGGACAGCAGTGAGTGGCCTGGAATGAGCCCTGGTGGGCGCCTGCCTGGCTATCTCTCTCAGGTCCTGCGGCAAGCCCCAGAATGCAGAGAACAAGG
AGCTTCCAGGCAATTATACCGGAAGGGAGAGTTTCTTGTCTATCTTTCTAGTGGTCACACTTAGGAAAGCTTCAGAATAAGAGCTCTATAAATCTCTATG
TAGAAATAAACTTAGGCCCCACATCACTGGTCTTTATTACTTAAAAATAATTATATAGTCCAAACTCTGTGTGTGCGTGTGTGTGTGTGTGTGTGTATGT
GTGTGTGGGGAGGGGGTGGGGGAGGAGGGGGGTGTTAGTTTCCCATAGGAACATCAGAGTCTCTTGTAGCTCTTGCTAAACAGATGGATACTTAGGCCTG
GGAATCTGGGTTTGAACAATCCTCTCAGTTGATTCTTTAAAAAAAAAAAAGATGAAGAATAGACACTATGTTTAAAATAAAAAAGATTTTTTTAAAAACC
ACCATGTCCCATGGTGGTTTGCTGCACCTATCAATCCGTCATCTAGGTTTTAAGCCCCGCATGCATTAGGTATTTGTCCTAATGCTCTCCCTCCCCTTGC
CCTCCACCCACTGACAGGCCCCAGTGTGTGAGTTTCCCACCCCCACCCCCAGCGCCAACCCCCCGCCGCCCGTGTCCACATGTTCTCATTGTTCAACTCC
CACTTACCAGTTAGAACACGCAGTTTTTGGTTTTCTGTTCCTGTGTTAGTTTGCTGAGAATGGGATCTAATTAAAGAGCTTCTGCACAGCAAAAGAAACT
ATCATCAGAGTGATCAGGTGATTCTTATGTACATCAGAGTGTGAAAACCAGTCCTGAATAGGATTGAACAGCTGTATTTCATTTAGTAGAAGTTAAAAGG
TCTGTGGTTCCCACACAGCTAAGAAACCAGAGACCTGGTTTATATAAAGTTGTTTGCAGGAGCAGCCACATCTTCCTAGAGCTGCCTTTATTGTTCACTT
TAAAGAAGGGACTGTACAGTTGCAGTCACTGTAATGTGATGAACACGTTACACATCACATTACAATGCATTTCACTGTGGAAATCAGGACCTCGTGTTTG
ATCTCCATTTTCCTTACTCCCCTCAGTGAAGAATCAGACAAGAGCAGGTTGTACAGCAACAGCGTGCTTGAACTTTACAGTTTTGCTTCCGTGAAAAATT
TATTTGTAGTTTTTGTTTCTTAGTAACTTATAGTTTGTATATTTTGTTGAAATATATAATCTAATGGACCAATTGTTATTGTAATTATTGTAGTAACCTC
CATTTAATTCAACATTTACTGAAATCCTATTGTGTGGTGCATGCTATGCAAAGATATAAACTTATAATGTCTCGTTTTATTATCAAAACACCCTCCAGGT
TGGATGTATGATTTAACTCACAGACCCCTATAATTAACAGGCTCAGCTAGCTTGACCTCCTTGGTCAAGGCCACATAAGTAGTGAATGATAGAGCTGGTA
TTTTTGGTGGCATTAGATGCATCTTGAGTGTCTGACATATCAATTCTAAACTGAGTATTTGAGGCATTTGAAGACAATATTATGTTTACATTTTTCTAAT
TATAAGGAAATACAGGTATCATAGAAAACCATTTTAATATAATGGCAATAAAAATGTGCCAGGAGACCTACAGAATAATTGTACTTTCAATACTAAATTT
ATGGAATTAAACTTCACCTCTAAAAATATTACAATTAAATCCCATATGCCTTTCACCTCGATTCACCCAAAAGTGACATTGACTTTATCTCTCAAAAAGA
AATCTCTCTAACTTATCTATTAATATGTATGTACATAATTTATCTCTCTCTCTAGATATCTATAATTTATCTCCATAAATAATATGCAATATTATATGTA
TTGTTATTCTTATTCTTTTTCTTATTCTTGTCTGTGGGAGTAAATTGCAGAGAACCTGACCCTTCTAGGCTACGTATTTCAGCCTGTACTTGAATTCTTT
AGATTCTGGACATTCTCCTGCTTCCCTTTTGGAAAGATAGCCTGTATTCTCTAGAGTTTTCTCATCCCATAGTGGATCCTTTCCCTTCTCCCTTCTATTC
CCATCACTCTTCCAAACCTGTAGATAAAAGACAAACATATAAGGTCACACTGATGCATTAGAGAACAAGTTTCAGTATATGATGATCATTAAAAAGTTAC
TGCAGGTTGTCGATCAAAAACCTTATAGCATAACCACTGTCTTTGAGGTAGGTTATTTTGACAGATAAGTGGTTGCAGTAGCATAACACAGAGGAATAGG
TTGCCCGATTATCCAGGCTTTTGTCTTTTACTCTCTTTTTTGTTGGTAAAATATACATAATAAAATTACTATTTTACTAATTAAGAAAATACTTCGGTGA
CATTAGTTGTGCAGCTATCTCCAGAACTTCATCATTGTAAACTGAGACTCTCTACCTTTAAACAATGATTCTGCATTCCCTCCTCCCCCAGCCCATGGTA
GCTACACTTCTACTTTCTGTCTCAATGTATCTGATTATTCTAGTACCTCATACAGTATTTGTTCTTTTGCGCCTGGCATATTTCACTTGGCATAATGTCT
TCAAGGTGATCCATGTTGTAGCATGTGTCATAATTTCCTACATTTTTATGGCTGAATAATAGCTGATTGTAGGTATATACAACATTTTGTTCATCTATTC
ATCTGTTTAGAGTCATTTGAGCTGTTTTCATCTTTTGGCTATTGTGCATAATGCTGCCATAAACATTGATGTACAAATATCTGTGTGAGTCCCTGCCTTT
AATTTTTTGGAGTGTATATGTAGAAGTAGAATAGCTTGATCAAATGTTAATTGTATGTTTGGTTTTCCAAGGGACCATCATACTGTTTTCATAGTGACAG
TACCAGTTTGCATTCCATGAACAGTGCACACAGGTTCCAAATCCTCAACATCCTAGCTAACACCTGTTTTCAGTTTTGAAGTTTTGGGCTTTTTAAAAAA
AATAACAGTCCTAATGGGTGGGTCTAACATGTACCTCACTGTAGTTTTGATTTTCATTTACCTAGTGATTAATGATGTTGAGCATGTTTTCATGTGCTTA
TTGGCCATTTCTTCTTTGGATAAACGTCTAGTCTACTCTATCCATTTTTGAATTTTTATTTTTGGCTATTGTTGCTATTGAGTTTTAGGAGTTCTTTATG
TGTTCTATCAGAAACATGATTTGCAAATATTTTCTCCCTTTCCATAGATTGCCTTTTTACTCTGTTGATAGTGTTCTTTGATGCACAAAAGTTTTTAATT
ATGATGAAGTGTGGTGTATCTAATTTTTTTCACTTGTTTCCAGTGGTTTTGATATCATACACAAGAAATCATTGTGTATGACATACCAGAAATCCAAGGT
AGGCAGAACAGAAACCAGAACAGGTAGCTCCCAGTCAGGTTAGTGTGTTACAAATAAGGTCTTCTTTGCTCCCTCCACTTCAAGGGAGAGAACTGGGAAG
TGAAAAACCACCTCCTCCAAACTAAGACTATGTCACTGAGTGGAGTGGGCAGAACTGGCAAACAAAATGCCATGAAATCGCCTACCATTTTGAATATGCC
TTTTAAAAATATTGGACATTTGCCTGGTTGCTATAGACTTATGACTGTTTTCCAGAGCTCCTATAAGATCATTTTAGCCATTTTTTTAAAGTTGTTTTGT
GATGTCTCCAAGGAGAGAAAGACTTAGAACTTCCTAGCCTGCTATTTTAATCAATTGTCCAGGTTTGTAAGCCGGGTTCTATGATTTCTGCATTCATCCT
TTGTAAGACTCGTGATATCATTTGTGTATTTGTGGCTATAATAATCTACAACTTGCAGATTTTTGTGTCAGTGGGGTTGGATACTTAAGGCATGCATCAC
AGGACTTGGAGTATTAGTGGGCCCCCTATTATGGTAACAATTACTTGGATTTTAATAGTACTACTGAAGTAAAACTTTAAAGAAGATAATGTTCCATGTT
TCATCACTTAATATCATTACAGATTTGGGAGAGTGATAAAAGAAGCCTTGTGCAGTCAGCTAATGCTAGATTACATGTTGTCCAGTAGAAACACAGAAGT
CTCATTAGTCCTATGTTGATGGGTGCTTGGGAAACACTGAGACAGAGAATGACAATGTAACGTTATTTCTACTGGGAGGCTCTTCTAGGTTGGCAGTTGC
CATGGAATCTGGACCCAAAATGTTGGCCCCCGTTTGCCTGGTGGAAAATAACAATGAGCAGCTATTGGTGAACCAGCAAGCTATACAGATTCTTGAAAAG
ATTTCTCAGCCAGTGGTGGTGGTGGCCATTGTAGGACTGTACCGTACAGGGAAATCCTACTTGATGAACCATCTGGCAGGACAGAATCATGGTAAGTGGT
ATCCTGGGACACAGGCCAGTTGCTTGATTCCAGCTATATCTCAGCTTCTTGATTCTCTACCCCAGAGCACATGAAGGTAGACTCCAATTCCTTTCAATAA
ACCAACCTTCTCATTCCAATTCTTACCACCAAACCACTACCTTACGATAATCCATTCTCATATTTTTTCCCTCATTCCCATTAAGGAAACTCTACATTAC
TAGTGCCCAGAATCCTACCTTCCCTTGTGTATTCAAGTCCTGGGCTCCTGTAATTGTGTCTCCTTTGTCTTATAACATATTTTGCTTTCCTCATGTAATA
TTCCCATCAACATACAAAGATGTTTTAATCTATGTAATCTTGAAAACGCTTCCTGAATTCCACATCCCATGTGGCCACCAACTTCTGTTTTGTTTTTGTG
TTTGTTTTAGTTTTTAATCACTTTTCAATGCAAAAAAAGATCTCAATTTCCCTTTTTGAGTTTTTTCCTTCTCGTGTCTTTCTTCAACCCACTCTTCTCT
GACTTTGAACCCCACCACTTTTCAAGATGTTCCTGTTATCAGTGACCTCCTCTTTGTCTGATTCATAGATTTCTCTTTGTCTCCATTTTGAGCCGTTACT
TGGCATCATTCTCACATTTAATGTCCCTCGCTTTTTTATATAGATTATTCACAAAGTAAGCCATTCTTGAGGAAATACAGAAAGGACCATCATGTATGTT
GGGGTAGTTACAATCCAACCAGTCTGATGCTGTGGCCCCAGGGCGGCTTGGCTGCTCTGCTGTCCCTGTGCTTAGCTTCCTCCTCTTCCCTGCAGGCTTC
CCTCTGGGCTCCACGGTGCAGTCTGAAACCAAGGGCATCTGGATGTGGTGCGTGCCCCACCCATCCAAGCCAAACCACACCCTGGTCCTTCTGGACACCG
AAGGTCTGGGCGATGTGGAAAAGGTAAGACAGAGAGTCATAGACAGGTTCCTTTTATTCCAGACGTGATCCTTGTAATTAAACTGTTGTGATCTATTTGT
GCAAACTAGAAATCCAACTATAGCAAATAAGGCAAACTTTGACCTGTTTGAATCACACTTCTAGACAAGGTTAGATATCATGGTATATTAGGTAAAACAT
TCTTTTATTTCTTGGCACAGTGGTGAATGATTTGATTCAATTTGATAAAAGGTTGTTAAGCAGTTGAGTTCCAGGCCTTGGGGCTGAGTAGCATAGACAT
TGGTGAACAAAGTAAAGGTCCTGCCCACAAAGAGCCTTCAGGATGTAGTGTGACTGGGAAAGAAGCAGGTTGCTGAGAGGGAGGAGATGGGAATGCAATG
CAATCCCTGCCCTCTGTCAATTCCATAGGGAACTCTGTGGCTGGAATGGCCCTTTTGAGTTATCATGTTTTGGGACAAGGGTGCTAGGCCTTCATCCCTG
GTGCTGGTCAATCACTGGAAGTCTGCCCTGGAAAACTTTCTCATTAAGAGAGCTGACACCTGTGATCCAGGCAGCACCTCACAGCTTTCACCACATACAG
TTGTGTATAACAGTGCTTTGATAAGAAAGAGAAGAGGTATTGACTCCAATCTCAGGAGATGAGGAGAGGCCTCTCACCCACCTTCTGAGCTACCATGTGA
AGAGTACATTTGAGGGYTGGAATTAGGAGAGTTCAGTTTATATTTCTCATGATGAAGCTCATCAATTACCCACAGAGCATTCTGGAAGGCTTTGAGACAT
TTCTGATTGTGCTCATCATAAAAAAGTATTTGTTCTTCCTACAATAAACATTATAAGATGAATTTTTGATATTTAGCTTCTTATGAATGGGTGAAATAAA
TAATTTCTCTCTTTTATTGTCTTACTTTGAGAGTTATTTGGGAATGGGTTCTAAATTTCTATACACTTTATTTTTGCCCAAACAGGYGTTAGAAATTCTG
TTTATTTTTCTGCTTTAGTGTTGTATAATTGACAAATAAAAATTATATATAATTAAGCTGTACAACTTAATGTTTTGGTATGTGTATACACTGTGAAATG
ATCACCACAATCCAGCCAATAATATAGCTGTTACCTCACATAGTTACCGTTTTCTTTTTTCTATGCTCTCTTTTTATTTTTTGGTGTGGTAAGAACAATT
AAGATCTGTCCTCTTAGCGGAAGTGAAGGTCACAATCAATATAGTATTGTTACTTATAGTCACACTGCTGTACGGTAGATCTCCAGAGTTTATTTATCTT
TCATAACTGAAATTTTGAACTCTGTCACCAACATTTCTTCATTTCTCGCATCCCCAGCCCCTGGCAACCACTATTATACTCTGCTGCTATGAGTTTAACT
ATTTGACTATTTTAGATTCCACAAATAGGTGAGATCATGCAGTATTTGTCTTTCTATGTCTGACTTATTTCACTTAGCATAACGACCTCAGTGTTCATCT
ATGTTGTTGCAAATGACAAAATTCCCTTTTTTGAGATTGAATATATATAGACGGATTCGCAGCTGAATTCTACCAGAGGTACAAGGAGGAGCTGGTACCA
TTCCTTCTGAAACTATTCCAATCAATAGAAAAAGATGGAATCCTCCCTAACTCATTTTATGAGGCCAGCATCATCCTGATACCAAAGCCTGGCAGAGACA
CAACAACAAAAAAAGAGAATTTTGGACCAATATCCCTGATGAACATCAATGCAAAAATCCTCAATAAAATACTGGCAAACCGAATCCAGCAGCACATCAA
AAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAACATATGCAAATCAATAAACATAATCCAGCATAAAAAGAGAACC
AAACACAAAAACCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATCCAACAGCTCTTCATGCTAAAAACTCTCAATAAATTAGGTATTG
ATGGGACGTATTTCAAAATAATAAGAGCTATTTATGTCAAACCCACAGCCAATATCAGACTGAATGGACAAAAACTGGAAGCATTCCCTTTGAAAACTGG
CACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATAAGGCAGGAGAAAGAAATAAAGGGTATTCAA
TTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGATGACATGATTGTATATCTAGAAAACCACATCATCTCAGCCCAAAATCTCCTTAAGCTGATAA
GCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCTTACACACCAATAACAGACAAACAGAGAGCCAAATCATGAATGA
ACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGTGC
AATGAAATAAAAGAGGACACAAACAAATGGAAGAGCATTCCATGCTCATGGATAGGAAGAATCAATATTGTGGAAATGGCCATACGGCCCAAGGTAATTT
ATAGATTCAATGCCATCCCCATCAAACTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAACCAAAAAAGAGCCCACAT
TGCCAAGACAGTCCTAAGCCAAAAGAACAAAGTTGGAGGCATCATGCTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAATAGCATGGTAC
TGGTACAAAAACAGAGATATAGATCAATGGAACAGGACAGAGCTCTCAGAAATAATACCACACATCTACAACCATCTGATCTTTGACAAACCTGACAAGA
ACAAGAAATAGGGAAAGGATTCCCTATTTGATAAATGGTGCTGGGAAAACTGGCTAGCCATATATAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTA
TACAAAAATTAATTCAAGATGGATTAAAGACTTAAATGTTAAGCCTAAACCCATAAAAACTCTAGAAGAGAACCTAGGCAATACCATTTAGGACATAGGC
ATGGGCAAAGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAA
AAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCAATTGACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGA
ACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCAAAGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGCACCCAGC
AGACACATGAAAAAACGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAATTAGAATGGTGATCATTA
AAAAGTCAGGAAGCAACAAGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACCGTAAACTAGTTCAACCATTGTGGAAGAC
AGTGTGGCGATTCCTCAAGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCTCATTACTGGGTATATACCCAAAGGATTATAGATCATGCTGCTAT
AAAGACACATGCACATGTATGTTTATTGCGGCACTATTCACAGTAGCAAAGACTTGGAACCAACCCAGATGTCCATCAGTGATAGACTGGATTAAGAAAA
TGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGCACATGGATGAAGCTGGAAACCATCATTCTCAG
CAAACTATCACAAGGACAAAAAACCAAACACCACATGTTCTCACTCATAGGTGGGAATTGAACAATGAAAACACTTGGACACAGGGTGGGGAACATCACA
CACCAGGGCCTGTCGTGAGGTGGCAGGAGCAGGGAGGGATAGCATTAGGAGATATACCTAATGTAAATGATGAGTTAATGGGTGCAGCACACCAACATGG
CACATGTATACATATGTAACAAACCTGCATGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAAAAATATATAAATTATATATATATTCAATAAATA
TATATATGCATGCTATGGATAGTTTGGCTGTGTCCTCACCCAAATCTCATCTTGAATTGTAGTTCCCATAATCCCCGCATGTCGTGGGAGGGACCTGGTG
GGAGGTAATTGAATCATGTGGGTGGTTTCCCCATGCTATTCTCGTGATAGTGAGTAAGTTCTCATGAGAGCTGATCATTTTATAAGGGGATTCCCCCTTT
ACTTGGCTATCATTCTTCTCTCTCCTGCTACCATGTGAAGAAGGATGTGTTTGCTTCCCCTTCCACCATGATTGTAAGTTTCCTGAGGCCTCCCTAGCCA
TGCTGACCTGTGAGTCAAACCTCTTTCCTGTGTAAATTGTCCAGTCTCGTGTATGTCTTTATTGGGCAGCATGAGAACGGACTAGAGCAATGCACATACA
TGTACTCTACATTTTCTTTTTCTGTTCATGCATTGATGGACATTCGGGTAGTTTCCATATCTTGGCTATTGTGAATAATGCTGCAATTATTATGGATATA
TTTAAATATTCATACTTCCATATTTAAATATAAATATAAATATGAAAGTACAGATATCTCGTTAAAATACTGATTTAATTTCATTTGGATTTATACATAA
AAGTAAGATTGTTGGATCACATGGTAGTTCTATTTTTAATTTTTTGAGGGACCTCCATACTTTTTCCATAATAGCTGCATGAATTTACACTCCAAAAAAC
AGCAAATGTTCTCTTATTTTATATTCTTGCCGACAATTGTTATTTTTAACTCCTTTGGTAATAGCCATCTTAAATGTGTCAGGTGATATCTTATTTTTGT
TTTAATTTGCATTTCCTTGATAATTAGCTATTTTGTACACCTTTATATATACATATTAGCCATTTGTACGTCTTCTTTTGAGAAATGTGTATTCAGGTTC
TTTACTCATTTTTTTACTGTTTATTTTAACTGCAGCGGTACATGTGCAAGATGTGCAGGTTTGTTACATAGATAAACATATGTCATGGGGGTTGGTTGTA
CAGGTTATTTTATCACCCAGGTATTAAGCCTAGTATCCATTAGTTATTTTTCCTGCTTCTCTCCCTCTTCCCCTCCCACACCCTCCCCTAATCCCCAGTG
TGTGTTGTTCCCCTCTATATGTCCGTATGTTCTTATCATTTAGTTCCCACTTACAAGTGAGAACATGCAGTGTTTGGTTTTCTGTTCCTGCATTAGTTTG
CTAAGGATAATGCCTTCCAGGCCCATCCATGTCCTTGAAAAGGACATGATTTTGTTCTTCTTTACAGCTGCATAGTATTTTATTGTGTTTATGTACCACA
TTTTATGTATCCAGTCTATCATTGATGGGCATTTAGGTTGATTCCATGTCTTTGCTATTATGAACAGTGCTGTAATGAAAGCAAGACATACATGTGGCCA
ACAATCATATGAAAAAAAAGCTCAACATCACTGATCATTACAGAAATCCAAATGGAAACCACAGTAAGATACCATCTCACACCAGTCAGAATAGGGTATT
AATAAAAAGTCAAAAAATTACAGATACTGGTGAGGCTGTGGGCTTTTACACCATTAGTGGAAGTGTAAATTAGTTCAACCATTGTGGAAGACAGTATGGC
AATTCCTCAGAGAGCTAAAGACAGAACTACCATTCAACCTAGCAATCCCATTACTGGGTATATACCCAAAGGAACGCAAATCATTCTCTTATAAAGACAC
ATGCATGCATAAGTTATTGCAGCACCTTTGCTCATTTTTAATGAGGTATAAGGATTTTTTTTTTGCTATTGAGTTATATAAGTTCCTCATGTATTTTGGA
TATTAGACCCTTATCAAATATATGGTTTGCAAATATTTTTCTCCTATTCCATTGGTTGCATTTTCACTCCGCTGACTGTTTCCTTTGTTACCTGAAGCAT
TTTAATTTGACGCAGTCTCACTTGTCTAATTTTGCTTTTGTCACCTGTGCTTTCGGTGTCATATCCAAAAACATCATTGCCCAAACCAATGTCAAGTTTT
TTCCTTGTATATTCTTCTGGTATTTTTACGGCTTCATATCTTTTTTTTCCCCTTCTATCTAACTAAAATTTTGTATCCTTTGACTAACATTTTCCAACCT
TCCTGTTCCCCTCTCCACTAGCCCCTCGTAACCATCATTCTACTTTCTACTGCTATGAGTTCAACTCTTTTAGATTTCACATATAAGTAAAATCATGCAG
TGTTTGTCTTTCTGTGCCTGGTTTATTTAACTWAGCTTAACATCCTCTAGATTCCTCCAGGTTGTTGCCAATGACAGGATTTCCTTCTTTTTGAAGGCTT
AATAGTATTTCATTGTGTATAGATTTCACATTTTTTAAAATTCATTCATCTGTTAATGGAAACAGATTGACTCCATGCCTTGGCTATTGTGAATAGTACA
GCAATAAATATAAAAGAACAGATATCTCTTTGACATAGTCATTTCATTTTCCTTGGATATATACACAGCAGTGGGATTTCTGGATCCAGTTTCTGGTTTT
CCATTTAAGTCTTTAATCCATTTTCAGTTGTTTTTGTGTATGGTGTGCAATAGGATCAAATATTGCTCTTCTGCATACATGTGGATATCTGTTTTCCCAG
CACCATTTATTGAGGGGACCATCCTTTCTTCAATRTAAGTTCTCAGCACATTAGTCAAAAATGAGTTCGCTGTGGATGTATACATTTATTTCTGCATTGT
CTAGTYTGTTCCATTGATCTATATGTCTGTTTTTATGCCAGCATCATACTATTTTGACTACTGTGGCTTTGCAATATATATTGAAATCAAGAAATATGAT
GCCCCCAGCTTTGTTCTTCTGGTTCAAGATTACTTTGATTATTCAGAGCATTTTGCGATTCTGTATTAATTTTAGGATTTTTTTATATTTATTTAAGAAT
ATTATTGGGGCCAGGTTGAGACAGCGGAGGTGGCTTGAGGCTAGGAGTTAGAAACCACTGTGGGCAACATAGTGAAAGCCCATCTCCACAAAAAAGAATA
ATAATAAACAAAATGTCTTTGGGATTTTTATAGAAACTTTAAAGTCGTCTACCAAACAGTGATATACTCCTGTCTAAATAGTTTATTGTTTGTCACGAGT
CCCACTTCTAAGAAGAATCCTCATTGATTACTTTTTTAAAAATTAAGGAGTGGGGGACATAAAAAAATGAATAGGCTATTCTTCCTACCTCCAAAATCCC
ATATAGAATCTCCTGGAATTATGTAGAAATCTCTAGATCTCAGTTTTTATATTTGCTTTAGGAACCAGTTACACATGCTTTTTAGGATAGAAATAATTCC
TGGACTATGTATAATTTAGACATGCTATAGTTTATAAAAACAAATTTAGCCTGACCTTTAGTGTCCTTAATCAACCAGGTACTGGAGCTCCCTATTCAGT
CTTATCTTCTGCACTTACCCTCTGCTCAGTCAGGCCAATAAACTCTATTCTTATTGCAAAGACTCCTGAAATCTACAATCTCTAATTTTGTTTCTGTGGG
TCTTTCTACTTGCAGAATCACCTTCATTTCTTCAAATCCACATTCTATCGATTTTTTAACATTCAGCTCGTGACTTCCAGGAAACCTTCATATCACATAC
ACTCTTCAATTTTCATAGCTCTTATCTTCCTGGATAGACTTGTAATTTTTAATTTAACATTATAGCTATGGGTTCCACTTCTTATGTACATTACTAAGAT
GTTATCTATAAATATTGCCATTTTTATTGAATTCATCATTATGAATGTTTGTCACAGCTTTGAAATAGTCATCATGACAGTAAATTTATTAAATTTGCTT
TTCTAAACATAAGAACAGTGAGAAACATTCTTCAGTTTCCTATAAGTGTTTGCTGAATTTAATTGAATATAATTACAATCCCCAGTTATGCATACTATGG
TATGGTTTTTATATGTGATGCATGGCCAATAAATATGTGTAGACTGAAGAAGTGTTAACACTCATCATGAATATCCAACTGAAAACCAGATATTGTACTA
GTTTTTCCATATATGCATCTTATTTCATCCAACTGAGGAAAAGAAAAACCCTATGAAGATTAGAATCCTTTTATATGTAAAGAAATTGTGATTAGAAGAC
ATATTGTAACAAACTGTTGTTTACATTCATGTCTATGTTCTTTGTACAGCAAGTACATTAGCTGAAATCATAAGTGAAAGACTGACAAAATAAATGTCTC
AGTGAATTTCTAAAGACTACACTCCTAAGTCCTTTGCTCTAATGTGCTTTTTAGGGTGACCCTAAGAATGACTCCTGGATCTTTGCCCTGGCTGTGCTCC
TGTGCAGCACCTTTGTCTACAACAGCATGAGCACCATCAACCACCAGGCCCTGGAGCAGCTGCAGTATCCTTCCAGGAACAGAACAGAACCACCAGGTTT
CATTGACTTTATAGGAATGGAGATCAAGTCATTTCCTCCTTCCCTTTGATGTAATTACCTGTGGTGCAGCACAGGGAACCCAAGACAAAAGAGAGTGTTT
ATAATATTTTTATAAAAGAAATGTGTGAATTGTGGGCAGACAGTTGCTTTTCCTTACCTAAGTCCTAGTTATGTGACGGAGCTCACAGAACTAATTAAGG
CAAAGTCCTCCCCAAGGCCTGATGGAGYAGAAGATTCCACAGAGTTTGTGAGTTTCTTCCCAGACTTTCTTTGGACAGTACGGGATTTCACTCTGGAGCT
GAAGTTGAACGGTCACCCTATCACAGAAGATGAATACCTGGAGAATGCCTTGAAGCTGATTCAAGGTATCAGAATGTGGCCTGGGCTGTGGGTGGTCCAC
TGGGTGTGTGATCTGCTAAACACTGCCCATCATCTCTGGGGTTTCATTTGTATTTGAGACTAGATTGAGGTCTGTAGAAACRGGGACTGAGGGGTATGTT
GAAGAGCTCTAGGAATGGAGCCTAGTTCACTTAAGAAAAGTAGAGTCTAAAGTGCAGATAAATTATTCAAGACAGATTTGTTCTTTGTACAATTAGTACC
TCAGCATTCAGATTACAATGGGTGCTAAGACTTTCTAATAACAAGATGCTTGTGATCTGTGTTTTGCCCTCTGCTTTTCTGTGTTTAGAAAATGATTGAC
CAGATAATTGTTAGACATGAAATTACAATGAAAAGCCTATCTAATAAAAATATAAATGTGTGTGTTAGTCCATTTTGCATTGCTATAAAGGAATGCCTGA
GCCTGGGTAATTTATAAAGAAAAGAAGTTTATTTGGCTCATAGTTCTGCAGGCTGTACAAGCATGGCACCAGCATCTGCTTCTAGTCAGGACCCCAGGAA
GCTTTTATTAATGGTGGAAGGTGAAGGGGGCAGCTGGTGTGTCAMATGGTGAGAAAGGGAACAACAGAGGGGGGTGGTCTCAGACTTTTAACAACCAGAT
CTTGTGTGAACTCATTACCACAAGGATGGTAACAAGGTATTCATGAGAAATCTGCCCCTGTGACCCAAACACCTCCCACTAGGCCCACCTCCAACATTGG
GGGGGGGTCATATTTCAACATGAGATTTGGAGGGGACACACATCCAAAATACATCAACATGTTACACAGATATTATTCTTCTCATGGAGGGATATAACTT
TTCAATATCCATATAGTTATATCATCTACAAAAATGATTTTGTTTTCTAAAGCAACCTGAAGAAGCACGTCTTTACAATCTGTGCCTTTTCAAAATTTCT
GATAATTGTCGGAATRTTCATTTTACTTTCTATGTTATGATTTTTCTCTTAAACCCAACATATGTATCCATGCTAGAATTTCATAATAATTGTTTTAATG
GGTTACATTTATCTGAGTGTGTATCTGATAAAACCTTATGAGAAATATCAATTCCAGTGAACTCRTTGTTGCTTTCATTTTTCTATTTATGCTTTCTTGA
AACATTTCTTAAAAATTCATAGGCAGAAGAGCAATACTGTCAAATCGAATACAGTCTTTTAAGAGTTTATAAAGAAGTGATGATTATCTTAAAACTACCT
TCTTGGCTGGGCAAGGTGACTTGCACCTGTAGTGTCAGCACTTTGGAAGGAAGAGGTGAAAGGATTATTTGAGCTCAGGAGTTTGAGACCAGACTGGGCA
ACATAGTGAGACCCTGTCTCTATAAAAACTAGAACAAATCAGCTGGTGTCATGGTGCACACCTGTAGTCTCAACTACTAAAGAGGCTAAGGTGGAAGGAT
CACTTGAGCCTAGGAAATCAAGGATGCAGTAAGCCGTGATTGTGCCACTGCCCTCTAGCCTGGGCAATAGAGCAAGACCTCGTTTCGAAAAAACAAAACA
ATACAAGATTATATTCTTGTTACATTTAGTCTTCAGAGGATTTTACTAAAAAATAGCTAACATTATACAAATTCTTTTAGCATCAATGTGCACAGAAGTA
TTTAATTTTTATGTTAAAGGAGGTCTGTAAGCATAGAAGATGGCAAAAAGACAATACACCCTATCAAAAATACCTTTAGCTCCCTTATACCAAGACTGTT
TTCACTATATTCTCTGTTTTTTTWATCCCTCAGGCAATAATCCCAGAGTTCAAACATCCAATTTTCCCAGGGAGTGCATCAGGCGTTTCTTTCCAAAACG
GAAGTGTTTCGTCTTTGACCGGCCAACAAATGACAAAGACCTTCTAGCCAATATTGAGAAGGTGTCAGAAAAGCAACTGGATCCCAAATTCCAGGAACAA
ACAAACATTTTCTGTTCTTACATCTTCACTCATGCAAGAAYCAAGACCCTCAGGGAGGGAATCACAGTCACTGGGAATCGTGAGTCTCCTTTTTACTTTT
CTGTGGGGCCTCATGTGTGTTGAATATATTGTATAATGTGTTTCTCAGAATTTTTGTTAGATTCCATATAGAAAAACTACGTGTATACAGGTATTCACAC
TCAGTGAAGAAATGTGTATAATTATCACACTTATTGCAATTTACAAATTCCTCTCCAATATTGCAAACTCTGTCACTGATATCTGTGGCTTCCACATATC
TGAAAAAAATCCCCCACTGATAAAATAACTAACTGAATATAAAAACATCTATAATATTTTCTTAGGGGAAATATTTTCTAAGTCCTATGTGTTCAGTATT
CTTTGCCAAGAGAATAGAAAAGATATGTTCAAGTTTAAAAACCTCTAGAAGGCTGAGGGTGGTGGTTCACACCTGTAATCCCAGTACTTTGGGAGGCAGA
GGCACGCAGATCGCTTGAGCTCAGGAGTTTGAGACCAGCCTGAACAACATGGTGAAACCCCATCTCTACAAAAAATACAAAAACTAGCTAGTCATGGTGG
CACATACTTGTATTCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATCACTTGAGTCTGGGAGGCGGAGGTTGTAGTGAGCCGAGATCACACCACTGCACT
CCAGCCTGGGCCTCAAAAAAAAAAAAAAAAAAAAAAGTCTAGAAATAAATAAATATTAGCCCATAATTCCCTGAAAATACATTGGTAGCTTCAGAATTAG
GAATAAATGTGATATGATTTACCCTGCCTCATTTTATCTGTGTAAACTACTTTTCTTGTAATTTTTTAAATGAGAAATTGTACTTCCTGCATACCCTCTA
GTATGTTAGATACAAGTAGATATTTAAATTTTTTAGCACTGTGGACTGGAGATCCATAAAATTGAAGAGTCATTATGAAAATAAGAGTGATAATAGCAGA
AGGAGGTAGGGATGTGGGTGTATGTGTTTGCATGTGTGCACRCGCGTGTATGTAAGTGCATGTGTGTGCTCAGAAATGTAGCCTAGGATCCCACTGAGCT
TTAATTTCATATTTAGCCCCTAAATCTCCTGGTTCATTTAGGTCTGGGAACTCTGGCAGTGACTTATGTAGAGGCCATCAACAGTGGAGCAGTGCCTTGT
CTGGAGAATGCAGTGATAACTCTGGCCCAGCGTGAGAACTCAGCGGCCGTGCAGAGGGCAKCTGACTACTACAGCCAGCAGATGGCCCAGCGAGTGAAGY
TCCCCACAGACACGCTCCAGGAGCTGCTGGACRTGCATGCGGCCTGTGAGAGGGAAGCCATTGCAATCTTCATGGAGCACTCCTTYAAGGATGAAAATCA
GGAATTCCAGAAGAAGTTCATGGTAATTTGCCTTAGTCATTACTGTTCATCATCCTTCCCCTTGAAGAATGAAGCCTATAGTTGCCTTTATTGTCACCAA
TGCTCATCTGTCACTGAGGAATAACTTATTGTGGATTCTCATGAGGGATAGAGTTTCAAAAGACTACATATAAGCACTTAACTAGAAAATCTTCTGATAA
CTGAGGTAAAATCAATACAGATCACTTAAGATCCTCAAGTGAACACTTCTAAGGATTCCAGGCCTGCTCTGAACACGCACAAGTCATCCCTGAGCAGTGC
ACTTTTTCTGTGCATAGTTTACCTTTCCCAGGAAACAAAGATTCTCTTACCAGATCGTAATTCCGGGCCATTGTTCAACTTACATTGCTCCTTCTTGTAT
CCTTGTACCATTGAGGACAGGAACACAGGATGATACCATTGCAACAAACCATAGAGATTATGGAATGTAGTCTCATCATGTCACAGATAAGGAACCTGAA
GCTCAGGAAGATTAATGAACTTTTCCATAGCCTTGAAGAGAATTTCTAGCATTGTAAATGTATGAAGTTTTGTGTTTCTGATTCCACATCTACTCCACTA
GAATGTTTTTCTCATGAGGACCACAGTTAGATTGACTCTACCACCAGATTCTTTAGAATTTCATCTCCTCCATGTTTCTTCTGGTGACATCTCTCTACAT
TTCCCTTGCAGGAAACCACAATGAATAAGAAGGGGGATTTCTTGCTGCAGAATGAAGAGTCATCTGTTCAATACTGCCAGGCTAAACTCAATGAGCTCTC
AAAGGGACTAATGGAAAGTATCTCAGCAGGAAGTTTCTCTGTTCCTGGAGGGCACAAGCTCTACATGGAAACAAAGGAAAGGATTGAACAGGACTATTGG
CAAGTTCCCAGGAAAGGAGTAAAGGTAAGGAATAAGGGGAGCATGGGGAAGTTTATAGGATAGAGTGAATGGAGTCTTCAGCACCAGCCGTGGGTAATAA
GAGAGCAGAGGGATAGCATAACGCCTTAGCTTTCAATGTCCACTACTTAATATTTATTTCTTAGAATAAAAATTTTTATTCCAAAACAAAGAGTATAGTA
TTCAGAAATCCAGGAGAGACAGAATGAAAATTACCACCTAGGTGGTGGTAATAAACATAATAGTAGTAATAATACAACTAACTCACGAGCTGTTATTACC
TACAGTATACTGTTAAATTCTTCCCCAGACATTTTAATTTCATCTTCCTAATGACTTTAAGAAGCACCTTTATTTTGGAAATTTTACAGATCTGAACTTA
GTACCCAAGGATGATTACATAACTTGCCTAAAGTTCTAGCCAGCAAGTGGCAGGAGAAAGCAACAGCATAGATTAGAGGCAGCATTGCACACTGGAAGAC
AGACATGTATAAGCATCAGAGATTGGGAGTTTGTACACCTGTGCACATAGTTCTGCCTGGCCGGAACCCAAAACGGGTACAGGGAGATATTACAGCAGTG
GGAAAGGCACTGGAGGGAGACAGGAAGCAGGAATTGAGGAGGGGCTCTGGTCACCCTAAAGAGCCCGCACACTTTGTAGGGGGCCACTTTAGAATTTTAG
GCATAAAGCAAAAGTTACAAGACCATAATTGTTCTTGCAACACTAATACCCAGAACATAGATTTTCAAAGAAATCTAAGTGCTTTTTCTTSCTTCCATAG
GCAAAAGAGGTCTTCCAGAGGTTCCTGGAGTCACAGATGGTGATAGAGGAATCCATCYTGCAGTCAGATAAAGCCCTCACTGATAGAGAGAAGGCAGTAG
CAGGTATGGGGCAGGGCTCAGCTTACACAGGAGGGGTACRTTTATACAATGCCCTCTAACAGATCTAACAGGAAAACCTTCCCAAAATGAGGAATTTCCT
CTTCTGTGGAACACACACTCTGCTAAATCTKAAAATAACAAGGGGAGCTATGATTGTACATCAGCCAGACAGGCAGAGCCTTTCCCATCACATTCTCAAA
TGCGCTCTTAATGGTGTGGACCTGGGTGAATTCTGTGATTTCTCACCCTGCCTTTCAGATTTGRTTTAGTCTCAGCTCAGAAAAGTGGAGATGAATCTTC
ACCTATTATTTTCTTCTCTTTCTAATACCTTCATGGAGCAGTGGATCGGGCCAAGAAGGAGGCAGCTGAGAAGGAACAGGAACTTTTAAAACAGAAATTA
CAGGAGCAGCAGCAACAGATGGAGGCTCAAGWTAAGAGTCGCAAGGAAAACATAGCCCAACTGAAGGAGAAGCTGCAGATGGAGAGAGAACACCTACTGA
GAGAGCAGATTATGATGTTGGAGCACACGCAGAAGGTAAGTCTGCCCTTGGCCTCAGCAGGCCAGACGGTCCTCACCCAGGTACCTCAGGAAGGGCTGGT
GAAGGTTACAGCAACATCATGAAAGGAAGCACATCACCATTTGCTGCTTGGCAATCACTAAAAGCCCTGAATCCTTTTTTTCTTAATTGTTTCAGTAAGA
CTTGGAATTCTTCTCTATATTCTCTATACTTAGATTCTGGAGAGGTAAGGTTGACTATGATCCCTACAAGTCCTTGGGGAATATAAATAGGGTCGAAGCT
GCTGWTTTGGGAGATTTTAAAAGTAATCTCAAGAAGTTAAACATATGTTCCACACAGTGTATTTGATGTGAACAGCAGCTGGTTTCCTTCACCAAGACCA
CATATTACCAGGAGCTCTAGTACCATCCAAACACCCTGAGGTAGATCCATGCTGACATACAACTCTTAGAAATTTCCAGACTTAAAAGGACAGGAAAGGG
ACAGTTTCTAAACTTGCTGCAGTTGTCACCCTGTATARGTAGCCTGCCCAAATTAGCACACAGTGTAGGGAGAATTCTTGCATTGTCCATCTGAAAGTTC
TCTCATAAGGGATTTCTACATCAGCTTATAAGTTTTTGGTATTCCTACAATATGGGTGACCATGCTGCCCAACTGGGACTGAGAATTTATGCAATCAGAC
CAATGGCTACCTCCTAACTGGCATCTTTTGGGCAGGAACATGTAGAATTTGTCCTCATACCTAGGTTAGCACCATAGCAAAACCATAATGGTGGGTGGAT
ATTAGTAAAGTTATAAACTATGCTTCCTCACAATGTCTAGGTCCAAATTCTCCTCTAATAACTGAGAAAATGTTTTTAGGAGTAAAATAAAGTTTCACAC
AGGTTTTAAATACAAAATGTAAGTCTTAAAAGAATAGGGATTTTTAAAAATTTACTTTCCTTCCTACATTGTCTTTAGGTCCAAAATGATTGGCTTCATG
AAGGATTTAAGAAGAAGTATGAGGAGATGAATGCAGAGATAAGTCAATTTAAACGTATGATTGATACTACAAAAAATGATGATACTCCCTGGATTGCACG
AACCTTGGACAACCTTGCCGATGAGCTAACTGCAATATTGTCTGCTCCTGCTAAATTAATTGGTCATGGTGTCAAAGGTGTGAGCTCACTCTTTAAAAAG
CATAAGCTCCCCTTTTAAGGATATTATAGATTGTACATATATGCTTTGGACTATTTTTGATCTGTATGTTTTTCATTTTCATTCAGCAAGTTTTTTTTTT
TTTTTCAGAGTCTTACTCTGTTGCCCAGGCTGGAGTACAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGAGATTCACCTGCCTC
AGCCCCCTAGTAGCTGGGATTATAGGTGTACACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTGGTC
TCGAACTCTTGACCTCAAATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGTTTACAGGCATGAGCCACCATGCCCAGCCCTCATTTAGCAAAGTTTT
AAACATAAAAAGTGCTTATTAGAGGATATCAGTGCCTGGCCCACATGAGAGAACAGATCCATACACACTTTGAAAAACTTTGTTCACTTTTAGGAAATAT
AATTTTGAAAAATCATTTACATACAAGAGGTCCACTGAGGCATTGCTTTTAATGGCAAAATATTGCAATGTACTTGAATGTCCTTCACATTAGATTGGTA
AGATAAATTTTAGTATGTGCATGTACTGGAATATTATATAGCCAGTAAACAAATTGACAATGAAGCTCTATTTGTACCAGTAAAGAATGGTCTTGAAGAG
ACATTGTAAAATGAAAAAAAAAAAAACCAAGTTGTAAAGCAATGTAGATTATCTTATCAGCATGGAAAAAATGCAATTATTATATGGAAGCATGCAAATA
TATCTCTGGAAAGATTAATCAAAATCTATTATTATTGGCTCCTTCTGGGAAGAACCAAGTGAATGTAGGGGTTGAAGGAACACATACTCTTCACTTTATA
CTCTTGAATTTTGTAAAGAAATCTTATTTTACCGATTCAGAAATAAATAAGAAAATGTAAGAGACAATGCTAATAATGATAACAATAAAAAAATAGTGAA
ATTGGCTATCAGATGATGAAATTCCTTGTTGCTTCTAGGAATTACATCAGCCAGCCCAATGAGGGGTCTAAGACTAAGATCTGAGTACTAGAATGCAAAA
AATTTGCATCATATTCTTGTTTTCATTTTGGCCTGGTTTTTCGATCCCTTCTATTTGTTTTGAGACTAAGGCATACACTTTTCTGTGGCCTTTGAAATCT
CAGCTACAGTAGCCTCTACTTCCTTTCTCTGAATTCAAGTTTTAAGGTGTTAGAAGCATAAATTACCAAACATTAAGATTAAGCACTGATAGGAAGGATC
CTGCCAACCTTGTCAGTAGTGGTCTTTTTGCGGTAGCCTCAGATAGAAAGGACAATGTGCCTTTCCAGAACTGAACCCCCTGATGGGGGATGATAGACCC
GGACACATAGAGGCCTGGTGTTGACCCTTAATTGTTAGAATCTAAGAAGATTCAGTTATAGTAATGAGTGGCAGACTGCAAGGCCTGATGGAGATAATTC
TGAAGATGGCCAATACAATGGACCAGCCATAGGGTTAAATGGGACGGGGAGAAAACAATCAAGTGAAGTAAATGCTGTCTATCAGGATGTTGAGAGGTAG
CCCTGATAAAGTGTCACATCCATAGCCTTGATCTGAGCTAATTTCAGACCCTGAACTCAGTTGGAGTGGAGGGCAGTACCCCAGGAAAGGACACTGCAAC
TCCAGGACCCAAATAAATGATAATGATTTCCCAAGTTCTCCTCCTAGGAAACGTCTGGAGCCATTTACTAGATATCCATATACTAGGGAAATACAAACAC
CCAAATATTTCAAGGACCCTTGGAATCAGGATCCAAGTTGCCCATGGTACCTAGATCATGGAGAGTCATCGTAAAATGCCTGTTAAAATAGGGAATTAGG
GCCTCCAGGTTGTAATTATAGTCTTGGCACACATGAACTTATTGCAATATAGTATTTGTTTGAAATGTAAAGGTAAAGTTTGTTTGAAGACAGATACCTT
ATTTTTCTGTACATCTCCTTGGGAGTATGTTCAGGCATAGGTTGTGCTAAATAAGCTTCTTTTATAAAAACAATAGGCTGATGCATGGGTGATTATTTTC
AATTGATAAAATATCATGAACTTTCCAGAGATCAGTGGTAATAAGTTGTTTGAATTTTCGACACCAGATTAAGGTCTCTGAGGTGGTTTAAAGGCTATGA
GGCCAGGTGCAGTGGCTCACGCCTATAATCTCAGCAACTTGGGAGGCCGAAGCAGGCAGATCACTTGAGGTCAGAAGTTTGAGACCAGCCTGGCCAACAT
GGCAAAACCCTGCCTTTACTAAAAATACAAAAATTAACCAAGTGTGGTGGCACACGCCTGTCATGCCAGCTACACAGGAGGATGAGGCAGGAAAATCACT
TGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCCGGGCAACAGAGCCTGGGCGACAGAGTGAGGCTCTGTCTCAAAA
AATTAAACTAAATTAAAGCTATGAGAAGAAAATAAATTTTCCTGGTATAGTGTCCTTCTCTAGACCTCATGTCCTACAGTCTCTGTGAAACTGGGCCAAA
GATAGAATTTTTTTTTCTGTGCTTTATACAGTGACTCAGACAAACCTATGACCTCACACAAATCTGTAACTTCATGTATCACAGTCTCTATAAAACTATA
TCAAAGAAAGAATTTTTCTCTGTGCTTTATAGAGTGGTTCACCCAGATCTGTAAAGAAATGAAGACAATTTTAGAGCTTTCAATATCCTGTATTGCATAT
CAGGTCAAATCTGATACTTTCAAAACTGGATAGATCTATTTCAGATATCTTTGATGCTTTTAACAAGAATCCCATTCAATGTTATCTAAGGACTATAGTT
CAAGAAGACTAAGACACTATTCAGTCGGGGCACAATAAGACCACCTTATAAGCACCACTCATCCTTCCTTTTCTGAGCATGCTTTTGCCATGTTTCAATG
ATTCAGAGACATTCTAGTGAATCCCATTTTGACAACAAAGTGGGATCAAGAGACCCCAAGGCCATCCTCAGGTTCAATGACTCTTTAGAAGACATGGAAC
TCAGAAAAAAATTTTTTTGGGGGGGTTTTCTTCTTTTTTTTTTATTTTATTTATTTTTCTTTTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAT
TGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTCGTGCGCTGCACCCACTAACTCGTCATCTAGCATTCGGTATATCTCCCAGTGCTATCCCTCC
CCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAGTTCCCACCTATGAGTGAGAATATGC
AGTGTTTGGTTTTTTGTTCTTGCAACAGTTTACTGAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGC
TGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGT
GCCACAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTCTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTT
CTAGTTCCAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAATAGTGTAAAAGTGTTCCTATTTCTCCACA
TCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGATTTTGATTTGCATTTCTCTGATG
GCCGGTGATGGTGCGCATTTTTTCATGTGTTTTGTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTTGCCCACTTTTTGATGGGGT
TGTTTTTTTCTTGTAAATTTGTTTGAGTTTATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAGTTTTCTCCCATTTTGTAGGT
TGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTACAGAAGCTCTTTAATTAGATCCCATTTGTCAATTTTGTCTTTTGTTGCCATTGCTTTTGGTGTT
TTAGACATGAAGTCCTTGCCCACGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACGTTTAAGTCTTTAA
GCCATCTTGAATTGATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAG
GGAATCCTTTCCCCATTGCTTGTTTTTCTCTGGTTTGTCAAAGATCAGATAGTTGTAGATATGCAGCGTTACTTCAGAGGGCTCTGTTCTGTTCCATTGA
TCTATATCTCTGTTTTGGTACCAGTACCATGCTATTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCT
TTTGGCTTAGGATTGACCTGGTGATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTAAAGAAAGGCATTGGTAGCTT
GATGGGGATGGCTTGAACTCAGAAAAATTTTATGCTCACAGTTAGAGCTTATTATATCGAACAGTACAAATTGAAACCAACAAAAGCAAAAGGGACATGG
ACCAGAGTCTGAGACCCAGGATAGGCTTGCATTTGTGTTTTCTCCCTTGAGAGTTGCACAGACATTATCTAATTCTCTCACAAATAATGTGTGACATGTG
TCAACCAGGGATGGTCACACAAACTTTAGTGTTTTTATTAGAGGGAAGTCATGTAGGAATGGGGTGCTCATGTGGCTGATATTATTTACTTAGACTCCTG
TCCCTTCAGAGCTCAAACTGGTATGGTATCACTTAAGACTTCCACCACAAATCACATTTTTAGCATAAAGTACCTGGTGTCGACCAAGCCCTCAACATGT
CCAAAGCATTATTATAAGGCTAGTTGTTCTAAGGGCTTACCTGTTATGTCCCAGGAACAAGTTGAGGGCCAGACCTTTCTTACAGAATTAACCTTTTATT
AGATAGTGTTAAAGAATGAAGAAGGTGATAACATGAGAAAGACAAAATAAAGATTTTTATTGTCTTACTGGAAGAATATGTCTATTTTTTTCTTGACTTT
TTAAAGTATCAATATTCTTTCTCTGAAAGACGTAACTGTCTAGGCTCTAGTAAAATATGCTGCAAGTACATGTTTTTAAAAGTAGTTTATTTTATTTCTT
GTTATTCTGTGCTTAGCAACTTCCAATCTGATTACAGCTGACCCTTGAACAGTGCGGGTTTGAACTATGAGTTCACTTAACATGGACTTTTTTCAACTAA
ACACAGTATGAAAATACACTATTTGAGGAATGTGAAACCCACATATATGGAGGGCCATCTTTTGGTATATATGAATTCTGCAGGGCCACTGCTGGACTTG
AGCATGCAAGGATTTTGTATGGATTATCCACAGTGGTCCTAGAACCAATTCTCTATGTATACTGAGGGATGACTGTAGTTATTTTTCTTGATATAAAAAA
GAAAAAGTATTTAATAACGAATATATGTATATGAGCCTTAAGAAGTTATCACAGTGATTGTAATCTGGATATGGTACAAATTTTATGGTACTAATGGGCC
TACAATCACTTGATCCAACATTGGGCCTAAATTTCCTTAATGTGCTCAAACTCAAGCTGCTGGAGTTTCTCAAGGAATAGTAACCCATGAAAATAAATTA
TCAATCACCTTTCAACAACCAGAAATCACCACTGAAACAGGCTTTGATCAAGTCTTAAATAAAAATTGACATCAAATTTTTAGGTTGATTCCCACCTCCT
GCTGAATTTTCTACCACCAAGGTCATGCTCTGTCACCTCGAATCAGTTTAA


SNP Information

Context             (SEQ ID NO:38732):
CTTCTAGCCAATATTGAGAAGGTGTCAGAAAAGCAACTGGATCCCAAATTCCAGGAACAAACAAACATTTTCTGTTCTTACATCTTCACTCATGCAAGAA
Y
CAAGACCCTCAGGGAGGGAATCACAGTCACTGGGAATCGTGAGTCTCCTTTTTACTTTTCTGTGGGGCCTCATGTGTGTTGAATATATTGTATAATGTGT
Celera SNP ID:            hCV25994795
SNP Position Genomic:     18041
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,16|T,4)   total(C,24|T,4)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38733):
CCCAGCGAGTGAAGTTCCCCACAGACACGCTCCAGGAGCTGCTGGACGTGCATGCGGCCTGTGAGAGGGAAGCCATTGCAATCTTCATGGAGCACTCCTT
Y
AAGGATGAAAATCAGGAATTCCAGAAGAAGTTCATGGTAATTTGCCTTAGTCATTACTGTTCATCATCCTTCCCCTTGAAGAATGAAGCCTATAGTTGCC
Celera SNP ID:            hCV25963477
SNP Position Genomic:     19386
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,38)   total(C,65|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38734):
CATCATTCTACTTTCTACTGCTATGAGTTCAACTCTTTTAGATTTCACATATAAGTAAAATCATGCAGTGTTTGTCTTTCTGTGCCTGGTTTATTTAACT
W
AGCTTAACATCCTCTAGATTCCTCCAGGTTGTTGCCAATGACAGGATTTCCTTCTTTTTGAAGGCTTAATAGTATTTCATTGTGTATAGATTTCACATTT
Celera SNP ID:            hCV15835257
SNP Position Genomic:     13533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38735):
AATTGTGGGCAGACAGTTGCTTTTCCTTACCTAAGTCCTAGTTATGTGACGGAGCTCACAGAACTAATTAAGGCAAAGTCCTCCCCAAGGCCTGATGGAG
Y
AGAAGATTCCACAGAGTTTGTGAGTTTCTTCCCAGACTTTCTTTGGACAGTACGGGATTTCACTCTGGAGCTGAAGTTGAACGGTCACCCTATCACAGAA
Celera SNP ID:            hCV25997756
SNP Position Genomic:     15928
SNP Source:               Applera
Population(Allele,Count): african american(T,8)   caucasian(C,1|T,37)   total(C,1|T,45)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38736):
GAGGTAGATCCATGCTGACATACAACTCTTAGAAATTTCCAGACTTAAAAGGACAGGAAAGGGACAGTTTCTAAACTTGCTGCAGTTGTCACCCTGTATA
R
GTAGCCTGCCCAAATTAGCACACAGTGTAGGGAGAATTCTTGCATTGTCCATCTGAAAGTTCTCTCATAAGGGATTTCTACATCAGCTTATAAGTTTTTG
Celera SNP ID:            hCV29207663
SNP Position Genomic:     22238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38737):
TCTGCAGGCTGTACAAGCATGGCACCAGCATCTGCTTCTAGTCAGGACCCCAGGAAGCTTTTATTAATGGTGGAAGGTGAAGGGGGCAGCTGGTGTGTCA
M
ATGGTGAGAAAGGGAACAACAGAGGGGGGTGGTCTCAGACTTTTAACAACCAGATCTTGTGTGAACTCATTACCACAAGGATGGTAACAAGGTATTCATG
Celera SNP ID:            hCV11643111
SNP Position Genomic:     16645
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38738):
ATAAAGAAAAGAAGTTTATTTGGCTCATAGTTCTGCAGGCTGTACAAGCATGGCACCAGCATCTGCTTCTAGTCAGGACCCCAGGAAGCTTTTATTAATG
G
TGGAAGGTGAAGGGGGCAGCTGGTGTGTCACATGGTGAGAAAGGGAACAACAGAGGGGGGTGGTCTCAGACTTTTAACAACCAGATCTTGTGTGAACTCA
Celera SNP ID:            hCV11643112
SNP Position Genomic:     16614
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,10)   total(G,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38739):
TAGATTTTCAAAGAAATCTAAGTGCTTTTTCTTGCTTCCATAGGCAAAAGAGGTCTTCCAGAGGTTCCTGGAGTCACAGATGGTGATAGAGGAATCCATC
Y
TGCAGTCAGATAAAGCCCTCACTGATAGAGAGAAGGCAGTAGCAGGTATGGGGCAGGGCTCAGCTTACACAGGAGGGGTACATTTATACAATGCCCTCTA
Celera SNP ID:            hCV25998916
SNP Position Genomic:     21158
SNP Source:               Applera
Population(Allele,Count): african american(T,8)   caucasian(C,1|T,27)   total(C,1|T,35)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38740):
ACCCAAAGGAACGCAAATCATTCTCTTATAAAGACACATGCATGCATAAGTTATTGCAGCACCTTTGCTCATTTTTAATGAGGTATAAGGATTTTTTTTT
T
GCTATTGAGTTATATAAGTTCCTCATGTATTTTGGATATTAGACCCTTATCAAATATATGGTTTGCAAATATTTTTCTCCTATTCCATTGGTTGCATTTT
Celera SNP ID:            hCV26711138
SNP Position Genomic:     13064
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,11)   total(T,11|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38741):
GCCAGACAGGCAGAGCCTTTCCCATCACATTCTCAAATGCGCTCTTAATGGTGTGGACCTGGGTGAATTCTGTGATTTCTCACCCTGCCTTTCAGATTTG
R
TTTAGTCTCAGCTCAGAAAAGTGGAGATGAATCTTCACCTATTATTTTCTTCTCTTTCTAATACCTTCATGGAGCAGTGGATCGGGCCAAGAAGGAGGCA
Celera SNP ID:            hCV8362308
SNP Position Genomic:     21464
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,20)   caucasian(A,24|G,10)   total(A,40|G,30)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38742):
TCTGTAAGCATAGAAGATGGCAAAAAGACAATACACCCTATCAAAAATACCTTTAGCTCCCTTATACCAAGACTGTTTTCACTATATTCTCTGTTTTTTT
W
ATCCCTCAGGCAATAATCCCAGAGTTCAAACATCCAATTTTCCCAGGGAGTGCATCAGGCGTTTCTTTCCAAAACGGAAGTGTTTCGTCTTTGACCGGCC
Celera SNP ID:            hCV25996227
SNP Position Genomic:     17824
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,4)   caucasian(A,1|T,19)   total(A,5|T,23)
SNP Type:                 INTRON


Context             (SEQ ID NO:38743):
CATGGAGCAGTGGATCGGGCCAAGAAGGAGGCAGCTGAGAAGGAACAGGAACTTTTAAAACAGAAATTACAGGAGCAGCAGCAACAGATGGAGGCTCAAG
W
TAAGAGTCGCAAGGAAAACATAGCCCAACTGAAGGAGAAGCTGCAGATGGAGAGAGAACACCTACTGAGAGAGCAGATTATGATGTTGGAGCACACGCAG
Celera SNP ID:            hCV8362309
SNP Position Genomic:     21632
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,32)   caucasian(A,5|T,29)   total(A,9|T,61)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38744):
GACTTATGTAGAGGCCATCAACAGTGGAGCAGTGCCTTGTCTGGAGAATGCAGTGATAACTCTGGCCCAGCGTGAGAACTCAGCGGCCGTGCAGAGGGCA
K
CTGACTACTACAGCCAGCAGATGGCCCAGCGAGTGAAGTTCCCCACAGACACGCTCCAGGAGCTGCTGGACGTGCATGCGGCCTGTGAGAGGGAAGCCAT
Celera SNP ID:            hCV25964119
SNP Position Genomic:     19261
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,29)   caucasian(G,4|T,24)   total(G,5|T,53)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38745):
TTTGATAAGAAAGAGAAGAGGTATTGACTCCAATCTCAGGAGATGAGGAGAGGCCTCTCACCCACCTTCTGAGCTACCATGTGAAGAGTACATTTGAGGG
Y
TGGAATTAGGAGAGTTCAGTTTATATTTCTCATGATGAAGCTCATCAATTACCCACAGAGCATTCTGGAAGGCTTTGAGACATTTCTGATTGTGCTCATC
Celera SNP ID:            hCV11644129
SNP Position Genomic:     7817
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38746):
TGAGAACTCAGCGGCCGTGCAGAGGGCATCTGACTACTACAGCCAGCAGATGGCCCAGCGAGTGAAGTTCCCCACAGACACGCTCCAGGAGCTGCTGGAC
R
TGCATGCGGCCTGTGAGAGGGAAGCCATTGCAATCTTCATGGAGCACTCCTTCAAGGATGAAAATCAGGAATTCCAGAAGAAGTTCATGGTAATTTGCCT
Celera SNP ID:            hCV25963602
SNP Position Genomic:     19333
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,27)   caucasian(A,13|G,23)   total(A,16|G,50)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38747):
TGTGTATGGTGTGCAATAGGATCAAATATTGCTCTTCTGCATACATGTGGATATCTGTTTTCCCAGCACCATTTATTGAGGGGACCATCCTTTCTTCAAT
R
TAAGTTCTCAGCACATTAGTCAAAAATGAGTTCGCTGTGGATGTATACATTTATTTCTGCATTGTCTAGTTTGTTCCATTGATCTATATGTCTGTTTTTA
Celera SNP ID:            hCV8362276
SNP Position Genomic:     13935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38748):
TTTATTGAGGGGACCATCCTTTCTTCAATGTAAGTTCTCAGCACATTAGTCAAAAATGAGTTCGCTGTGGATGTATACATTTATTTCTGCATTGTCTAGT
Y
TGTTCCATTGATCTATATGTCTGTTTTTATGCCAGCATCATACTATTTTGACTACTGTGGCTTTGCAATATATATTGAAATCAAGAAATATGATGCCCCC
Celera SNP ID:            hCV8362286
SNP Position Genomic:     14006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38749):
TGGGCTGTGGGTGGTCCACTGGGTGTGTGATCTGCTAAACACTGCCCATCATCTCTGGGGTTTCATTTGTATTTGAGACTAGATTGAGGTCTGTAGAAAC
R
GGGACTGAGGGGTATGTTGAAGAGCTCTAGGAATGGAGCCTAGTTCACTTAAGAAAAGTAGAGTCTAAAGTGCAGATAAATTATTCAAGACAGATTTGTT
Celera SNP ID:            hCV8362287
SNP Position Genomic:     16182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38750):
TCTGGAGAATGCAGTGATAACTCTGGCCCAGCGTGAGAACTCAGCGGCCGTGCAGAGGGCATCTGACTACTACAGCCAGCAGATGGCCCAGCGAGTGAAG
Y
TCCCCACAGACACGCTCCAGGAGCTGCTGGACGTGCATGCGGCCTGTGAGAGGGAAGCCATTGCAATCTTCATGGAGCACTCCTTCAAGGATGAAAATCA
Celera SNP ID:            hCV25964059
SNP Position Genomic:     19300
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,26)   caucasian(T,12)   total(C,2|T,38)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38751):
GAATTCTTCTCTATATTCTCTATACTTAGATTCTGGAGAGGTAAGGTTGACTATGATCCCTACAAGTCCTTGGGGAATATAAATAGGGTCGAAGCTGCTG
W
TTTGGGAGATTTTAAAAGTAATCTCAAGAAGTTAAACATATGTTCCACACAGTGTATTTGATGTGAACAGCAGCTGGTTTCCTTCACCAAGACCACATAT
Celera SNP ID:            hCV1806547
SNP Position Genomic:     22005
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,6)      total(A,6|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38752):
TGGACTGGAGATCCATAAAATTGAAGAGTCATTATGAAAATAAGAGTGATAATAGCAGAAGGAGGTAGGGATGTGGGTGTATGTGTTTGCATGTGTGCAC
R
CGCGTGTATGTAAGTGCATGTGTGTGCTCAGAAATGTAGCCTAGGATCCCACTGAGCTTTAATTTCATATTTAGCCCCTAAATCTCCTGGTTCATTTAGG
Celera SNP ID:            hCV8362288
SNP Position Genomic:     19042
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(A,2|G,36)   total(A,3|G,61)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38753):
TATCCATGCTAGAATTTCATAATAATTGTTTTAATGGGTTACATTTATCTGAGTGTGTATCTGATAAAACCTTATGAGAAATATCAATTCCAGTGAACTC
R
TTGTTGCTTTCATTTTTCTATTTATGCTTTCTTGAAACATTTCTTAAAAATTCATAGGCAGAAGAGCAATACTGTCAAATCGAATACAGTCTTTTAAGAG
Celera SNP ID:            hCV28036375
SNP Position Genomic:     17165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38754):
ATGGGTGAAATAAATAATTTCTCTCTTTTATTGTCTTACTTTGAGAGTTATTTGGGAATGGGTTCTAAATTTCTATACACTTTATTTTTGCCCAAACAGG
Y
GTTAGAAATTCTGTTTATTTTTCTGCTTTAGTGTTGTATAATTGACAAATAAAAATTATATATAATTAAGCTGTACAACTTAATGTTTTGGTATGTGTAT
Celera SNP ID:            hCV1806549
SNP Position Genomic:     8087
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38755):
AGAATTTTAGGCATAAAGCAAAAGTTACAAGACCATAATTGTTCTTGCAACACTAATACCCAGAACATAGATTTTCAAAGAAATCTAAGTGCTTTTTCTT
S
CTTCCATAGGCAAAAGAGGTCTTCCAGAGGTTCCTGGAGTCACAGATGGTGATAGAGGAATCCATCTTGCAGTCAGATAAAGCCCTCACTGATAGAGAGA
Celera SNP ID:            hCV8362297
SNP Position Genomic:     21091
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,5)   caucasian(C,7|G,19)   total(C,8|G,24)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   (C,-|G,-)   Caucasian(C,11|G,71)   African-American(C,5|G,75)   Asians(C,21|G,59)   total(G,205|C,37)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38756):
GTTATATCATCTACAAAAATGATTTTGTTTTCTAAAGCAACCTGAAGAAGCACGTCTTTACAATCTGTGCCTTTTCAAAATTTCTGATAATTGTCGGAAT
R
TTCATTTTACTTTCTATGTTATGATTTTTCTCTTAAACCCAACATATGTATCCATGCTAGAATTTCATAATAATTGTTTTAATGGGTTACATTTATCTGA
Celera SNP ID:            hCV28036376
SNP Position Genomic:     17016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38757):
GTGATAGAGGAATCCATCTTGCAGTCAGATAAAGCCCTCACTGATAGAGAGAAGGCAGTAGCAGGTATGGGGCAGGGCTCAGCTTACACAGGAGGGGTAC
R
TTTATACAATGCCCTCTAACAGATCTAACAGGAAAACCTTCCCAAAATGAGGAATTTCCTCTTCTGTGGAACACACACTCTGCTAAATCTGAAAATAACA
Celera SNP ID:            hCV8362298
SNP Position Genomic:     21240
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,2)   caucasian(A,21|G,5)   total(A,27|G,7)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   (A,-|G,-)   Caucasian(G,12|A,72)   African-American(G,6|A,78)   Asians(G,22|A,62)   total(G,40|A,212)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38758):
GAGGGGTACATTTATACAATGCCCTCTAACAGATCTAACAGGAAAACCTTCCCAAAATGAGGAATTTCCTCTTCTGTGGAACACACACTCTGCTAAATCT
K
AAAATAACAAGGGGAGCTATGATTGTACATCAGCCAGACAGGCAGAGCCTTTCCCATCACATTCTCAAATGCGCTCTTAATGGTGTGGACCTGGGTGAAT
Celera SNP ID:            hCV8362299
SNP Position Genomic:     21331
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,2)   caucasian(G,14|T,4)   total(G,18|T,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 172
Celera Gene:                 hCG23448 - 104000117819631
Gene Symbol:                 PGM1
Protein Name:                phosphoglucomutase 1
Celera Genomic Axis:         GA_x5YUV32W802(19463140..19542136)
Chromosome:                  Chr1
OMIM number:                 171900
OMIM Information:            PHOSPHOGLUCOMUTASE 1;PGM1


Genomic Sequence (SEQ ID NO:12332):
GAAAAATGAAGACATTCATTATCTCTTGAAAAATGTCCTTCACAATCTGTATTTTTAAAAATCTTATCTTTTGCCATTTGAAATATTAATATTTGCATAT
CAAATATTCATATAAATTAATTCAGACTGATATCCTTTATAGAAGATTCCAAAAATGAATTCTAAGGAAAAAGTCCAATTTATCACATATATCAATCCTT
TTCACACATAGCCTCATGAATAACCACTTGACACTGAAACATGAATTCAGAAACTATTATTATTTTGGCACAGGAACAAACTTCAGAATCACAGCATGCA
GATATCTATTAACTTTTATTCAAGTAAAAGTTTTAAACACCTGAATAACTTATGGATACAAACGGACATCGGTTTCATATTGCTTCCATATGTAGGAACT
AGTCATTTCAGCAAATTACAAATAGATCAGGATTTAATAAACTGAATCTGCAGTCAAGAAGAACCTATGATTTAGACTGCATAAATGAACTAAAATGACA
TTTGCAATATTGTTCAGCATTAATTTGGGTTGATATGGAATTGTCAATTATTTTCCAGTTACAAATAACTGTACATTCTTATAGAAGATTATTTACAACT
GACTTACTCTATTAGAGCTCTGTTAACTGAGAGACTAGTCTCTAGTTAGAGACTAGTTTAGGACATTCTAGTCCTAAACTGGAGACATCCTCAATATTCC
TCAATATAGATTATTCCACCATTACTTGACACCACCAGACAGGAAGATGAGGATACATAGATATAGAGCTGTTTTGTTTTTAACAATAACATGATACATG
CTTTTATTGTATGCCAAATAGGTGCCTGCTAAGGCTTTGTCTATATGTTGTTAATGAATTACTTTTCAATATTTCTCACTTTGATAATTGGTTTCTATAT
AAGCCATGTAACTAATAACTGTTAAATGTTAATGCCACTATATCACCCACTTCACCATCCAGTATTTTCATTATAAACTCCATACATCTTTTTTATTATA
AATTTCACATACATACCATTGATTATTTGTTGCAGTCATCAAAGATTGCTATCCTATAGTAAATACATTTCTTTAAATCATTGCAATTGGAATGCAAATG
AAGGATAAATATGATTGTACTTGAGAATAGTAAAATTCATAGAGACAGAATAGTGGTTTTCAGGGGTAGGAGGGAGGAGGGAATGGGGAGTTACTGTTTC
ATGGGTACAGAGTTTCAGTTTGCGAAGATGAAAATGTTCTGGAGATGGATGGTACAATGGTTGCACAACAATGTGAATGTACTTAGTGCCACTGAATGTA
CACTTAAAAATCATTAAAATGGTAAATTTCATTACGTATGTCTTGCCACAATGAAAACAAAATGCTTTTGTTTGTTCACTGCTGTTATGATAAAGATCTC
AACACCTGACATCCCCTACAAGGCCCAATATGATCAGACCTACCATTCCACCCCGAGGTTTTTATACTCCAGTTACACTAACTGTCTTTTTTCAAGTTAT
TGATGACACTAGATTCCTTCTTACTTTAAACTTCCCTTAACGTTCTTTCTGGAATGAAATGCTCCTCCTCTCTTTTCACCTGGCCAGGTACTATTACTCA
TTGTTTTATCCCTCAGCTTACATAGCACTTTCTCCAGGATATTGTCCATGACTCTCTCCAATGATAGATCCTTCTATTTACAATCTAACAGCACCTATAC
TTCTTTGTTGCACTTATCACAATTATGATTTATTATTCAGTATCTGTCTCCTGCAACATATTGCAAGATCTGTGAGACCAGAGACTATTTTGCTTTTTTT
TTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCCTGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATCCTC
CTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGCCACGACACCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGTTTTTACCCTGTTAGCC
AGGATGATCTCGATCTCCTGACCTCATGATCCGCCCACCTTGGCCTCCCAAAGTGCTAGGATTATAGGCGTGAGCCACCGCGCCCGGCCGAGACTATTTT
GTCTTATTCATCAAACACCTTTCAAAGAGCTGTCATTTAGTACAAGTTCAAAACATATTTATAGAGTTAATGAATCAATACACGAACGAATACATCTAAA
TGGTAAAGAATAATTCATTAATGAAATAATGAGGGCCGGGTGTGGCGGCTCATGTCTGTAATTGCAGCACTTTGGGAGGCCGAGGAAGGCAGATCACTTG
AGGTCAGGAGTTCCAGACCAGCATGGCCAACATGGCGAAACGCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATAGTGGCATGTGCCTGTAATTCC
AACTACTTGGGAGGCTGAGACACGAGCATTGCTTGAACCCCAGAGGTGGAGGTGGAAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGTGATGGA
GTGAGACTGTCTCCAAAAAAAAAAAAAAAAAAAAAAAAGTAAGGATTACCACTTAAAAGGTATTTCAAAGAAAAGGAAAATACATAATATGTACTTATCA
TTTTAAAAATAATACAAATTCCCTATAGAAAACCTGGAAAATCCAGATAAAATATAAAGAAAATAAACATTGCCCTATCTTGCAACTCAGTGGTAATCAT
TGTTGCATATCTTGGTATATTTCCAATGGCTTCTTTCCCGATTTCAGTGCTACCCACAGGGGAATAAGACTCCTTCTCTTGCTTTTCATAAATACTACAA
CTTGGAAATCTCTGCAAGTCAATTTTTGAACGTGGGTAGAACCTGTGAATACGATGATACATTACTCCTATGAACACGTTACAAAGGGAGATTATCCAGG
TAGGTCTAATCTAAGAAATGGGGACCTCAATCCTACAACTGCAAGGAAATAGATCCTGCCAGCAATCTGAATGCGCTGTGTTAAAATCAGATCAAACTTT
AAAAATTTTTAAAAGTTTAGCATGCATACAAAGAACAGTTTACAAACTGGAAGACATCTAACCAAAAGTGGCAAGAAGCCCAGCTCACAGCAGTTACAGT
ACAGCTTATAAACATTGAGGAAGAAGTATTTTGACCTTCGTTACATTCTTTTTAAGGCGAGTAGAGCTGTTAAGCTGATTTGTCTATAGCTGATTGGTTT
AATTTCATTGACTCACACTGTCAAGGACATTTTGTGTTTTGTTTATGTCTAGAGCAAGTGTTTCAGGGAAATAAGGATGACTTAAGTTTTGGCTACCTGG
CTATGGGTGGTTGGACTTAAAATATCTAAACTGGAGCCTCTATTTTTATTTATCTTTAACACTTGAAAGAAATTCTTCCCAGAGCCTCCAGATAAGAAGC
CAGCTTGGCTCTTGACTTCAAATCAAGGTGTTCTTCCCAGAGGCTCCAGATAAGAACGCACCAAGCTTGGGTGGGTTCTTATCTTGAGGCTCTGGGAAGA
ATTCAATGAAATTAAACCAACTGGCTATAGACAAATCAGTTTAAACAGGTATGCTTGCCTTAAAAAGAATTTAATGAAGGTCAAAATACTTTCTCCTTGA
TGTTTATAAGCTGTTATATATCCGTGATTACCAGGATTGAACCTGGCCAAACCTTTTGATCTATAGAATTGGGACTTCTTATCTATAGAATTGTGACATC
ATAAATGGGTGTTGTTTTCAGCTGTTGAGTTTGTGGTAATTTGTCATACAGCAGTAGAAAAGTACGGGTTGAGTATCCCAAATCCAAAAATCCCAAACCC
AAAATGCTCCAAAATCCAAAACTTTTTGAGTGCCAACATGACACTCAAAGGAAGTGCTCATTGGAACATTCTGAATTTGGGATTTTTGGATTTGGGATGC
ACAACCATTGTAATGCAAACATTCCAAAATCCGGAACAATCTAAAATCTGAAACATTTCTGGTACCAAACATTTCGGATAAGGGATACTCAATCTGTAAT
ACAAGGGGATTGCATAAAGGCATGATTATCAGGAGGCAAGGAACATGGGGATCATGTTAGGTCTGTATAAGGGGCCACAGTAACCCTGTCCAGAACAGCA
GAACTGCCAGTTAACTCATAGAATCATGAACTATAATCATGAATGGGGGTTGTCTTAAGCCACTCAGATTTAGACTGGTGTGTTATGCAGTTAAAGCTAA
TTGTTACAACTTCTGGGGTGAGAGAAGTATAGATCAATTCCTCTTAAATGAAAAGCTCCATCATATTTCCAAAGATACTGAAGAATATAGAAAGGGCATG
AGATCTGAATTTGGGCCCGTGACTTTACAAGTTATCATTTATTGATGACTTACTTATTAGCACTGTGGTAGGAGCTGTATATTCACTATCTAAACCATAC
AACTCTAAGGTAGGTATTTTGAAGGCTCAGTGAATCTATGCTATATTTTCATTTTGTGGAGTTAGATAACCTTGATTACATTCACCATCCAATCCTCAAT
TCTCTCGTCTATAAAATGGGCTTGATTATATTATTTAATTCACAAGATTACACTGCTCTGTAAACTCCTGTGCAAATATTAGAACTCATTACTAGCAGTC
CAGGGTTCCGTTTTCACATAATATTTGCCACCGAAACTCATCTATAGTGACTACATCAACACACTGTATCTACATAGCATGTACTATATGAGCATGTATA
TCAACACTTGGTTTGTGAGAGTCTGCACTCTTATGGGTCTGTTCGCCTCCCTGCTTGATCAAGACATACCAATTAACTACCAAAAGAATATAATTCACAG
GTGAATGATATGCTCTGGTTTTGGAATTGGGGAAGGGGAGCTAATATTTTTGAAGGCCTCTATGTTTCAGGCACCAGGCTAGATGATTTACTTCTAACAG
CTGATTATGATTGAATTTGTTTGGACTGGGTCATTTAGAAACCACCTCAAGTAATTCTACTGTGAGCATGGGTCACAGTAGGATTCTACTGTGTATCCAT
GACTGAGAATTTCTGACATACAAAACCCCATTAAATCTTGCAAAAATATTCCAAAGTAGGTGATATGTTTATTTTACAGTAAGGAAATTGATGCCCACGG
ACATTAACTAACTTTCCCAAGAGCACACATCTTGTAAAGCCAAGTTTTTTGCCACTTTACCAAAATGACAGGTTTCTTGAACAGAGGAGACAACCACTCT
CATCAAATTAAGGGAGATACTAAACCGAAAAGCAAGAAAGACTGAAGATTCCTACTTAATAATCAAATCCCCTTGGTTGACCTTGCTATCCCCCGTGAAA
CTTTTCCAGCCATGTCAGTCCTTGTTTGTTGATCTCCTCACTTTATTTCTATTACATGAGTAACTGGCTAATTTTGATGGTGTTCATACTTATCCTTACC
ATATATTTGCTCCTACATTTGTCAAGTCCTGCTTGTACATTTCCTAGTTGCCAACCTGGTGTCACAGCGGGCAAATCATGGGAAGAGCCCTGGTTTTGGA
GCCAGACCACCTGAATTGGCCTCCCGCATGGACTTAGCTGTGTGGCAATGAGACAAGGCATTTTATTCTTTGAATTTCAGTTTTGTAAGCATAAAAAGGG
GAAAAATAAAACCCAGAGTTTAGTAAGGTTTAGAAACGCTACACTCAGCAAGTCATAGCTAAGTCACCGTCACCAATGGTAGTCAAGTGTGTGGTGCAGC
AGGAAACATTTGGAGTCGACTCCTTTACGGAACTCAAATGCCCTCACATTTAGGGAGAAATAGAAAGAATTACGACTCATGAAATCGAGCTGGGGCTGGC
ACTTCTGACCCTCCCAACAGGTTTCCAGAAAGCTATTTACACACGATGCATTCGCCAAACCACTGGAAATCATTCTACCCTGTACTTTTTTCCACCCTGC
CTCACGTCCTTGCCCTATGACCGGGTTCCTACCCCAACCTCTGCCCCAACACTTAGAGGAGGAGTTGCGGGCCTCTTTTTACAGTGGATAGGATTCCGAA
GGGGAGAGTAAATCAGTAAGGCTCCACCCATTTCACAGGAGGCCTAGAGACCGGCGCTCCCCTTTCCCCTCCCGCCGGACCTGCCAGGAGGTGGGCTGGC
GCGGAGGGAGGGCCCTGTCCCCTGTCCCTTTAAGGAGGAGGGCCAAACGCCGGCCTAGAGTGCGGCGTAGCCCCCACCCGCCGTGCCCTCACCCCAGAGC
AGCTGCAGCCTCAGCCGGCCGCCCCTCCGCCAGCCAAGTCCGCCGCTCTGACCCCCGGCAGCAAGTCGCCACCATGGTGAAGATCGTGACAGTTAAGACC
CAGGCGTACCAGGACCAGAAGCCGGGCACGAGCGGGCTGCGGAAGCGGGTGAAGGTGTTCCAGAGCAGCGCCAACTACGCGGAGAACTTCATCCAGAGTA
TCATCTCCACCGTGGAGCCGGCGCAGCGGCAGGAGGCCACGCTGGTGGTGGGCGGGGACGGCCGGTTCTACATGAAGGAGGCCATCCAGCTCATCGCTCG
CATCGCTGCCGCCAACGGGGTAAGGGATGCGCGGCCCCGCGCCGCTGTGCACCCTGGCGCGTGTGCGACGTGCGGCCCGCGGCGCYCTCCCTCGCTCGGG
GCCGGCCGCTTCCGCGCGCTGCCGCCTCGGTTTCCACCTCCCGCTCCTCCCTCTCCTTCGCGCTCGCTCTTCTGGCCTGGAGGCCCGACGGAGGTCGCCG
GGCTGGGGAAAGTGGCCACGGGACCCGGCAGACCTGCTCGCCTGACTCCCGGGGCGCSGGGAGGTGCGGGCGCGGAGCCTCCCAAGGTCACGCCCGACTC
TCCGTCTCTAGCCGCTGCCTTCCCTCTCCCCGTCCCCCGCCCCTCYCGAGGCGTCTGACATTTGCCCTAACCTTGCAGCCTTGGAAGATACGATTACGGC
GCAGAGTGCTGTCGCCTTAAGCAGGAAAGGTTAGACTGCCGCCGCCTCGCCCAGAGCCCCCTCGCATCCCGCCCGCTCCTCTGCTATTCTCGGCTAGGAC
TGGCGCTTCCCGCTGGCTCGGAGCCCGACACTGTGGGGCAAGGGTGGCGAGAGCACCCATCCCCCTGGGGCGTCAGGTTGGCAGATCTCAGCAGGCGGGT
GCCAATCTTTTCTCCCCGCCCCCTAGTTTGCCTTGGTTCCGAACTCCTGCCCTTTGCGCGGCCTGCTTGCTGGGGGGCAGGCGTTTGAAACATCTAGTCT
CTGCCCAGTGGTGCCCGGGATCTGTTCCACCGACGGGGCTGGAGCTGAATTTTCATTAGAATGGCAACATACCCAAAGACGCCCTTACGCAAGCAAGCAG
TCGTGGCAGGCCAGGAAATTACCGCAACACCTTGGTTCCGCCCCCGGCCAAGGAAAGTTAACTGACTTGATTGGGCGGGTCCACTCGGATAGGGGAAATT
AAAAAAAAAAAGTTTTTCAGTAAATCTGATATATGGAAATGTGGGGCCGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGGTGG
TGGATCACCTGAGGTCAGGAGATCGAGCCCATTCTGGCTAACACGGTGAAACCACGTCTCTACTAAAAAATMCAAAAAAAAAAAAAAAAAAAAAAAATTA
GCCAGGCGTGGTGGCGGGCGCCTGTAGTCTCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCTGAGAT
CCCGCCACTGCACTCTAGCCTCGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAGAAAAAAAAAGTGGATTGATAAGTTGGGGCTAATTATT
CACTTACTTTTGTAAAACATTTCTAAGGAGTTCTGAGGACCAAGTTTTCTTTCTATATTTTAAGTGAGATTTGACTTATGCCCAATTCTTCTGGAACGCA
TCCCCTGAAATGGATATTTTTATTCATTTTAATAGTACTTTATTTATCTTATTTTGTTGACATTGAGTACTATTTGCCAAGCACYATGGTAAGCGCTTCA
TTTCTGGGTCTCATTTATCCTCCTGCAGCCCTATAAGGTAGATGCTATTATGGGTATCTTCAAGTTGCCAACGAGGACGCTGAAGCTTAGGTAGGTTAAA
TAATTTACAAAAACTATAATGGCAGCACTAAGAGTCCAATATAGATCTGCCAATCCCAAGAACTTGAACAGCTCCTGAGAATGAAGAATGAACAGCCCTT
GATCTTGAAGATCTGTTTTCCAGGCTCCAAAATCTAAACTGGGCTCTATCTAYATCTGCCTTCCTGGGCCAAACATTTATAAGCATCAGTGAGAGAAGAT
TGCCTGGATTTGTTTACTTTGTGGTCCTGAATTTTCAGACAAGCGCAAATTCCCATGAAAGAAGAACAGACAATAGCTGTATCCCAGTAGATCATTTCCC
TGTTACCACCTGTGCTGAATTTGCATTTCATTCATTCATTCATTTATTCAGTCAGTCATTCAACAGATCCTGTTGAATACCATGTTCAGAGAAATGTGTG
GACTAAAAGGATGATGCAGACCCAAGASTTGTCCTTAAGGAGCTTACAGCAGAGTGGGAATTTTAGGTGCCCAGATGGAAATTTGTCCATTTGGGAGTAG
TGTGGGGTGGGAAGGAAAGAATTAGTTAAGACTAAAARAAAAAGTTCTTAAAACTTCATCACCCTTTAGCCATTGCCCTATTGCTCTTCTCTCAGCCAAC
CTTTGTAAAAGCTTTCTGCATTCACTATTTCTCATTCTCACCTCCGGTTTACTCGCCATTTCACTGCTTCTGCCCCCTCCACTACTCCAGTAGAATTGCT
CTTGCCAAAGTTACTAGGGACTTGCCAGTTGCTAAATTCATGGAATACACTCTGGTCTAATCTTATTTGGCCTTTCTGCTGCATTTGGCAGTGCTGATTT
TGTACTCTTGTAAAGTTCTTCCTCCCTTGGCCTTGCTTACTCTCCTGATTCTACTCACACTTTTTGGAAGTTCCTTCATGGGCTGCACATTGACTATCCC
CTAGGTTTCTTTCTTCTTTCTTTCTTTCTTTTTTCTTCTTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTACTCTGTCGCCTAGGCTGGAGTGC
AGTGGCGCAATCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCGCCTGCCTTAGCCTCCTGAGTAGCTGGGATGACAGGCATGCACCACCAC
ACCTGGCTAATTTTTATATTTTTAGTAGAGATGAGGTTTCACCATCTTGGCCAGGCTGGTCTCGAACTTCTGATCTCAGGTGATCCACCCTCCTCGGCCT
CCCAAGGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCCTATTCCCTAGGTTTCTACGCTCAGGTTGTTCTCTGATTTTGTTCACTCTCTCTACTC
ACTCGGGATTTAAATATGCTACTCTTTCTCTTGTGATATGATTCAGTCCAGATGGCATCTTCAGAAACCTTTCTTGACACCCCATCCCTACCACTCTTCT
CCACCTATTAAGTGCTCCTTTCCCATAGATAATTCTAGAATATATATATTAAATTCTAGTGAAATTTTCCGTTTACATGTCAACGGCCTCCAACTAGAGA
GTAAGCTTCTTTAAGTCAGACCTGTGTTTTACCTGTATCTGCAATGCCTAGGACTATGTAGCATTCAATGAATTCTTGTTTATTTGCTCTGAACTGTGAG
TCACTTTTGTATTCTAGCACTTGATTTAAAGCCAGCATGTAGCTGGTGACCAATAAATTTATTCACATCAAACATTTATTATGTGCTTGCTTTGCCTCAG
ACATTGTACTTGAGATACAAAATATTTTTGCCCTTGGGAAAGACATAGTCTGGGAGGGGTGGTATACAGGAGTAAGCAGACAGCACAATGTGTCAGGTGT
TGTGATGGAGGGATGTGCAGGTGTCTTTAACCTGAGGGGCTGTACTTGGGAGGGGAAGATGAAGGGAGGGAGGCTCCATAGAGGGGTGGTAGCCGAATTG
AGTCTTAAAGAATGACTTGGAGTTCCCAGAGTGGGTTTGTCTGGTAGGAGGAATTCTTAGCAGAATGAATACAAATTGAGGGAGTTTAGATTAGATACAA
ATACAAATTTCTAGTCCTTTTTTGTTTCATCCACAAAGGTTGGGAATAATACATACCTGAAGAGCCTGTTGTGAGGATTAGATGAAACAACATATTTACA
AGTACCTCACTTGGAAACTGTTCGAATGATAGGTGTGTTATCAATGTTTTGTTGGTATTAGGACACAATCCAACGTGATGCAGATATGAGCCACCCAGAT
GGTCTCCCACCTTCCTCTAATCCTCAACAGCCTCAACCAATATAGAGGGGTTCCGTGTTAGTCAGAGCCCAATTGGGTACAAATGACAAAAACCTTACTT
GGATTACTCCAAGTGAAAAAGGAATTTTATTGGCCCATGTTACTGAAAAGTCCAAGAGAATCCCAACGAATTCTTTAGTTGAAACTATTCCTGGTCTCTA
AAAATCACTTCTGGGTCTAATGATCTGCAAATGACCAGCATCAGAAATTGAGGAGAGTTTAAGCTCACAAATGAATGTGTGCATGTTTTGAAGGATGATT
TATCACCACCCTAAGCAAAATAAAATAAATACCTTTGTGGGAACTTATGAGCAAGGAGGGTATTTGTTGTTGTTGTTGTTGTCAAGTTACAGGGATTCTT
TTGTCACGGCTCCTTTGCTACTCATTTGTGCAAACTGTGGAGCCCCTTCTCAGAATATATATTTTTAAAAATTTGAGACATGGTCTTACTCTGTTGCCCA
GACTGCAGCACAGTAGCGCGATCGTGGCTTACTGCAGCCTCAGTCTCCCCAGGTTCAGTTGATTCTCCCACCTCAGCCTCCTAAGTAGCTGGGGTCTACA
GGTGCATGCCACCATGCCTGGCTAATTGTTTTATATTTTTTGTAGAGATGGGGTTTCACCAAGTTGCCCAGGCTGATCTCGAACTCATGGGCTCAAGCGA
TCTGCCTGCCTCGGCCTTGCCTCCCAAAGTGCTGGGATTACAAGTGTGAGCCATCGTGCYGGGCAGAGTATTTTTATTTTTAAGTGAATAAAACAAAATA
CAAACCATTACAAAGGAAGCAAAATTATATTGAAGTATAATCAAAATATTAAAAAACCAGATTTGTGATATATCAAGATAATGCTTCTTTACTGACATAG
GAAGATTTGTGGAGGATTTAATACTGCCTTACTTCAAAGTAGTGGTGAGTATAAATGATGTTTTGAGACGTCTGCAATCTCAGTATTTTGAGATAACTAT
AATAGGATATGAAAATATAATTTTTATTGATGATAAATTCCTAGGTAGTAGTAGTAATAGTAGCAGTAGTAGTAATAATACTGTGGTTTGCTTCCTACAT
TTATAATAAAAGGAGGTGCTAAATTTCAGTTAGATGTTAGTGAAAATAAAGATTGTTTTGTTTATTTTGTCATTCATATTCATGGATCCCATTRAATTCT
ACCCAAGGACCTCTTGAGGTAGGGGAAGGGGATGTAAGCATCCCAAGTTAAGAACCCCACACTAAACAATGATCCTTTTTTAGCATCAGGTGATGCCTGC
ACCAAAATGGACCTCAAACACATGACCCAGAGGTTAAGGGTCTCATGTTCTCAGAGCAAACTAGTGGGACTTTGCAAACTTCGCCTTATAGTGGAGGAAC
TCCACKGTCTCCCGCTTGAAGTGAACCACCCTTTTCTGAACTTTCATGAGATCCATCTGCAAACACTGCTGAAGGAACATGTTTCTGGCTATAGCAGTTC
ACATTTCTTGAAAAGGAAATAAAAGAACACTGAGCAGGAAGGGGAAGGTTTTGAGACTCTTGGGTAGTTGGAGTTAGGTGGAGACACCTTGCTACYTTAA
CTTTAAACCTTATATCCCTGGGGCAGGGATGACTTGGCAGAGAAACACCTTCAAGTCACTTTTTTTTTTGAGACACTGTCTTGCTCTGTTGCCCTAGGCT
GGAGTGCAGTTGCAGGATCTTGGCTCACTGTAACCTCCGCCTCCTGGGTTCAAGTGATTCTTCTGCCTCAGCCTCCTGAGTAGGTGGGACTACAGGCGTG
CACCACCATACCCAGCTAATTTTTGTATTTTTAGTAGAAACGAGGTTTCACCATGTTGGCCAGGATGGTCTGGATCTCTTGACCTCRTCATCCGCCCGCC
TCGGCCTCACAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCGGCCCAAGTCACTTTTTAACATGCTGTAACCCCCACTTTAAAAAAAAAAAAACC
ACTTTTTAATTATGGTGGGGCCGGGCATGGTGGCTTACCGCACTTGAGTGGGTCACTTGAGCCCAGGAGTTCCAAACCAGCTTGGACAACATGGTGAAAC
CCCTTGTCTACAAAAAATAAAAAAACTTAATCTGGTGTGGTTTCGGGCGCCTGTGGTCTCGGCTACTTGAGACACTGAGGTAGGAGGATCACATTCACCC
TGTGAGGTCAAGGCTTCAGTGAGCTGTGATTGCACCACTGCACTCCAGCCTTGGCGATGGCAAGACCCTGTCTCAAAAATAAATAAATAAATAAATATAA
AATGAATTATGGTGGGCTTTGAACAATTGTTCTCCCCTTGTTTACACTTTCTGATTTTGAATCAGCACTGAATGCCAGTATGGATAACCTATTGTCCTTT
CCATCCAGGAGCATACAATCTTTTGGGGGAGATAAGACAGAAGAAACACATAGACATACAAAGAACAGAATTAGAAAACATGCTGAGCTCAGCGAGAGAG
AGAACATTTTGGATTGGGAAAGAAGAGGTGCCTGCACCTAAAACCAATTATGTCTTGAAGAGCGGATAGTGTGCGATAGAAGATGGGGCTACCCTTCAGG
AAGGGGACCTGCCGAGAGAAGTGAGAAAGAGRGAATAGGCAGGACTCTTTTTTAGAGCCGGACACTTAGTCACTAAACAATCTTTGTTACATAAAATACT
TAAATCAGCTTGCTTGGGACTTTTTCTTTCTTGGCTTCACTAATGCTCTTGGTGAAACMTCTTTTTCCTTTTTCTTTTTTAATCAAATCTAATGCTCATG
AAATTTTGTAGAAGAAAAAGAAAAACGTTCTCCCTTTCTGAGATAGAGGGTTTGTTTTGTTTTTGTAAACAAGATAACAGGGAAGAGTGCTCYACTGTTT
TGGAAAGAGTGACTCATTCAATAAATATTTATTGAGCACCTATTAGGTTCTCGGTACTACGGATACAACAGTGAATTGAACAAAGTTTCTGCTCTACAGA
GCTGTGGGGTTCTCGTTGAGCCTGACAGATGATAAACGTGTCAAATGAAGATAAGTTCTCTGAAGAAAAATAAAACCCAGTAAAGGGGACAGCATTAGAG
GATGGGCTGCTCTTTTTAGTGCAGCAATTGGGATGTCTGATAAACCTCATGAGAGCAGAGACCTRAATGAAGTGAAGGAGTGAGCCATGCAGATATCCGT
GAAAAGACTTCCAGACAGAGGAAGAGTTAGATGGAAAGGATAAACACATATAATCATTTAATGTTATAAAATTATGCCTCAGGTAAATAAATGTAGCATA
CATTTTATCGTACAAAGGGTCCCAATATACTATGACATTTTGCATATAGATTATAAGTATTATTCTATTATAAATTTATCTTGGGATAATAAGATGTGTA
ATCAACATTGATCRAATATTTAACAATAATTTTTTTCTCTCTTGGACTCTAGGGTAGGGAAAACTTTTCATCTACCCTCCTAGGTTATATACTRGGGGCT
TGCAAATTAAATGTAAAAGACAAATGAGCAACAAAAAGACATTTGTGGGAGTTTACAGAAAAATGTGACAGGAGGCAGTTAGACTTGGGGGCCTATACAT
CATCTCAGTAGGGGAAGGCGGAAGAGGAGAAGAGCATTTGCTGGAAACCACGACTTTAGGAGAGATAAATCAGCCCTTAAGAGACTAGATAGGAGATGTG
GTAGTTTTATGCCAGTGTCTATTTAGTTATGGTAATGAGTCGATCTTCCCTGGTTGTGAAACTCCAGAGTTCCTTTGGGGCACACTGCTTTTAAGACAGA
TGAAGGAGTTTAGTAAAAAGCCTATTTTTAAATGACTGGCTCAAAATAATTTTTATGTCACAGTGGTGTAGTCTGGACCCCTTTAGACTTTAGAAGAGCT
TTCAGCAGATTGATTTGAGTGAGCTRCACTTCTAAGAAAGTGAAGCAGGAAAGTTTGAACTGATCCCTTTATTCTCCTCCAAGTTCCCTTGAGGCCCACA
CAGACATAGCCAGTTATTCTGCTGACTTTGAAGCTGTGCTCACAGTTGGGATCCACCTTTGAAAAATGGCTCCTGAGTGTGTTAAGTAAGTAATGGCTAG
CCRAGGGCTTCAGTTGGGAGGACTGCGGAGAAGACTTTTCTCCCCTGGGGTCCTCAAAGGGGAAAGAAATCACAAGGGGGCAGCATAGGGAGTTGTTTGG
AAAGGGTGAGAAGGCTGTGCTTAGTGTTGGGATACGCGGATGGATGTAAGCTGGGTTTTGTTTTGTTTAGTTTTTTAAACTTCAGCTGTTGGAAGTCCTC
CTTCCCATAGCTTCTCCAAATCACCACTGAGCTGATTCCCCAAGGCATAAAGACAGCCCTGAATTAACACAGTGGGGAATGCTAATTAAGTCATGCCAAT
AAAGATTTAATCATGAATCAGAAACACTTGGAAAATTATGTTTTCATATTGGAAAGATGTTCTTTTTTTCTCTATGAGTACCCCAAAGTGTTTTTGAAGG
ATGAAATGCGATAGGTGGTAGGACAGAAATATTTGGTTGACTTGTCCAGTATGCTAATGGTGTTGGAACAGGGACTCCAGTCTTCTGATATTTCATCTGG
TTGGTCTTTTCCATAAATAAATATATCCCAGAGCAAGTAGTTCTGGGGATTGTTATAATATGCTGGTTAATAGCATGGAGAAACTGGCTTGGGCAATGTT
AAGTAGGAGTTTCAGAGCTTTTAATATATGAGTACTGAGAGTTTGTAAAAGGACCCCAAACAGAAGAATTTTGGGAAATACCAATCTATACCATGCTGGG
TTGATAGGACCATCTATATTATACAAGAATCTTCKCAGATTTAAGTTTCTTCTTTTTAAACTGCCATTAAGGGCATGCAGGGAAGGTGAAATTTTGTTTT
AATATCCATGTATACCATATGGCTTATTTTGGCAACTAATATATGAATTTGTTCTTGGCTGCTTTGAGTGTGATTGATTCAGCCCAATAAGTATTTTCTA
ACCAGGTCACCACATGTAGAGTTATGAGGTAAGTGACAAAAGTCCTTCTGACCAAATATTAGTCCTGTATGTTGTACTCCAATGTGCTCACAAGCATCTC
TGTTGCTCAAGAGTGAATTGAAATGGCTACTACATTGTGTGAGTCCAGAGGGCTTAATCTGCATGGTGTCATAGCCATTTGGGGGCTAAACCGACARGTG
TGAGGATTGTAAACTGGCAGGGAGCTCAAAATGAGCTGATTGGTGAAACTTCATGGTGATCTCGTAGGTTGCAGCAGAGAACAATACAGGCCCAGTCCTC
ACATGCTTGGGACTTAAGGTGAAGGTTTGTGTTGGAGGCTAGGTGGGTTACGGACAAGCAGAGAACTGCCACAAGGTGCTGTCAGCACTGGGATGGAGGT
GAGCAAAGGAGGCTAGGAAAGCATAAAGGAGGCGTGCCTGGTTCCAGCAGAGGGAGTAGGGAAGTGACAACTAAAACCAGACCTGAAGGTGAAGAGCAGA
GAGGAATGTTCCAGGCAGAACCATAGGTGAGAGAATTTGGCATGTTTAAGAGAAAGCTCCCCTCACTGCCCCCCAACTCCGTATTTTTGTTTCATACTCT
GCAAGGAGCAACTGCACTAAAAATGTACCTCATGTTTTCTATTTTACAAGTTACTGCCACATGCATGGCCTTATTTCCTGTCTACAACAAACCTTTCAGG
TGTCCCAGGTCACAAAGTCAGGAAAAGAGCCTGGGAACTGCCCCCACTCTTCCTAGAATGTAAGGGGTGTTGGGCCATGTTCCAAATACCAGGTTCCCAC
TGAGAGTGGCTGAGGATAATGCTAATCTGGGCAGTTTTAAGCAGGAAATGAGTATGTGGAGTAGGGAAGTGCGGAGATCTTGCTATGTAAGTCAGAGCTA
TTTTTCTCACTACTGGGTTGAATTAAAACCAGTTTCTGGAATCACAATGTAAAACAAGAGGCAAAATCCACCTCGAGGCACATTGGTTTTTATTCCTTAA
ATGTTCCACATAAAAAATGAAAACTGAGTCAGTAGAACAGAATCGTAAGACCAGATGGCTTCCCAGGATCAATGGGGGCAAGCCATTAACTATCATCTAG
TTAATAGAGGAAATTGCATTTTACAGTGGGATGGGTTCTAGAGTTCGRGTGGAAGATGAAACTTCAGTCAAAATCATCCTTAAAGTCCCATAGGAAAGTA
CCACATTGGAGAACAACATGTAACACAACAGGTATGTCTTTAAATAGCAGAAGTGCACTCAAGATACCCATACTTTGAGAAGCACGTGGGGACTAAGACT
GAGCARGGGCCTGTGGTCACTGGGTGAAATGGTGGCAGAATTGCCCATGCTGTTTAAATTTCACTCTTGTCTTCTTTGTCTCCCTGGAAGTTCTATATAC
AACAGTTACATTTGTGCAAGATRAATACTTGTATGATGTGACTACACTGCACATTCTTGATGCTACTCAGAGTGCACATATGAGAATCATCTCAATCATG
ATTCATCACCTGCAACTTGGAGCACTTATGCCCTGTGCCTTTCTACCGGGCTTATATTTGAAATCTCAGATTTCCCTGTCAAGGCTTGATCTTACCGCTG
CAGATCTGTTTGGACCACTCTGAAAGAGTATACTTTGAGGTGCCTTCCAAAGTGAATTTGATGTACACCACGTAGCCTATAAGGAATTTTTACGATTTTA
TAGGTTCMATCAGCTGTTGTAACAGACACTCAAAACAACAGTGGATTAAACAAGATGTTTTTCTGTCTTGTGGAATATTGTGGGTCAGCAGGCCAAGACT
AGCATGATGGATCCATGATGTTGGGACCCAGCCTCTTTAATCCTGTTGCTCTGCCATCTTGAAGGTGTTGCCCTTGCCCATCTGGTTGCAGATGGCTTCT
ACTACCACATCCATGTTTCATCTAGTGGGCACAGGGGAGAGATGGGGCAGAGTGTCTTCCCCCTTTAAAATCAGGAAATTGTGTACCTGACTATTGCTCA
CAATCCACTGGGAAGATCTAACATGCAGGCCACATTTACTTGCAAGAAGGGCTGAAAATGTAGACTCTATATTGAGAGGCATATGGCCCCCTGAAAATGA
GTGGTTCTGTTACCTTAAAGAAGAGAAGGAACACTAGAAATATGTGCCATGGTCCACCTCTTTGGCCATGAAGACAGCCATGCCCATTGTTCTTCCTGCC
CATTGAAACACAGCACTCCTTTCCAGTGGAGGCACCCCAGATTCCTTCCAGTTACCCAGTCAGTACTCAGTGTTCATAGTTCTCTCCATCAAGCCCATGT
GTGGCTCCTTGTGTAAAGTTAAAGACAAATTATCAGGCCCCCTGTCCCCACTACATAACTATGTATAACTATATATATAGGGAGGGAGTTACATAACTCT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTKTAAAGAGAGGGGATATAGTTGTATATTTACATATGTAGACCAGTCACTAGCCATAGGAG
TGTTCACATTGTCGCATTGTCCTGGCTGGGAATGCACACTCCTGTCCTGGCAGTGGAGTAGGTCCACAGGGAACCCTGGTTCCACCCTCAGGGAGGAACT
CTATCCACCTGCTCATGTAAATATATTTATTGAGTAAGAGTGGACATTGGAGAAGGCCCTAAAAGTCCTTTTGGGGCTGTACAGCTTATGTAACCTGCTT
CCTGCTGATGAAAGTTGGAGGAAAAGAGGCAGGGGTGACTTTTGCAGGCCAGGCTCCTGGCTCTTTCACTGTACAGTACCTTCACAAATTTAGTAGTCTT
CTGGCCTATCCTGATCAGTTCCATGTGCTGGTAATCACAGTGAAAGTTCTCACCTAGATAGTTTTGAAACCTAAAAACTTTGACTTGTATTTATTGGATG
CTTTGTGCCTCCCTTGATTTCTCTATTACTGATGGCTACCTTGAGACAGGTGGAAAAGATAGGCTAGTACGAAGGCAGTATCCTTAATCTGATTTTGCTG
GTGGGCTAGTTCCCATTGTCTGACAGAGAATCCTGGGGAATATTTTATTTATTATTATTTATTATTTTTATTTTTTTGAGACAGGGTCTCACTCTGCCAT
CCAGGCTGAGTGCAGTGGTGTGATCATGGCTCACTGGAGCCTCGAATTCTCAGGCTCAAGTGATCCTCCCACCTGAGCCTCAGCCTGGGACTACAGGCAT
GCACCACTACACCTGGCTAATTTTYTGTATTTTTGTAAAGATGAGGTTTTGCCATGTTGCCCAAGCTGGTCTCCAGCTTCTGAGCTCAAGCAATCCACCC
ACCTTGGCTTCTCAAAGTGTCAGAATTACAGGTGTGAGCCACCGCACCTAGCCCTGGGAAAGATTTTAGACACAGCCTTCTCTGCTAAGCCTGCTGCTTA
CTGTATAGCTGATTTAACTTGGTTTCACAAATAGTTGTCATCTCAACTCTGTGATGGCACAAATTCCTGGACTTGGACGGTATCATTTGCAGGCCACAGT
AAAAACAAAAAACAAAACTTCCCTTAGCAGAACCCAACCTGCCTTTATTTCTCTCTGCAGAATGGCCAGCCCTTGCCTGAGCTCCCGTCTTTATTGTAGC
AAGAGGTAGTTGACAAGCACTCATGTTCTGAATTCTGCCAACCATTTGTCTCAAGCTACAAATTTGGTTGGCCAGTGGTCTGCCTTCCATGCTATCAGAG
GCAACAAATTTTTCCATGCCATAAAAAGCATGCTGATGCCAATGTTTTAGATTCTGTTTTGGTACAGAATACCAACTTTTTTGTTAAAATGTAGGTTTGG
CTGCTGTTAGCAGAGTTTCCAAATAAAGTACTTAAAAGTTGATAGTAATGGAACCCTTCCTTTCATATCCTGGGTGTGGGCAGTCCAGGGCTGATGTGTG
GCTCCATTATACACAGGGACCCATGCCCCTTTTCTTCTGTTGTGCAGCCTTCCCTGGAGTGTTGCTCTTATCTAGGTCCGGGATGGCTGCCCACCACCTT
ACCTTCATGCCAGCTAACATGCCAACAGGGGAGAAAGATGGAGGAAGGCACACCTTTCTCAGAGATTGAACATATCTGTTGCACTCATGTCGCATTAATC
AAAACTTAGCTAAGCCTACCTCTAGCAGCAAGGAGGGCTGTGAAATATCAGTCTTATTCTGGGTGTCATCTGTCAAGCTAAACATTGGGGATTTGACAAA
CCAAATGAAACAGAGAATTGATGTTGGGAAACAACCAATAGTTTATACTGTCCTAAGCATTCCCTCCAAATCTGGTGAAAATCACTGTCATTTTCAAGTG
GTAGTGTTACAGAGAGAAGACAGAACTTAATTTTATATGGGCAGCTAGATTTTTGGAAGAGACCTTGGCCGTCAATTATTCCAACCCCACTTTAGAAAGG
AACCAAGGCACAAACATTGCCATTGTACGAGTCTTAAACTACTTTATTGAGGTATGATTCACATACTATATAATTTACCCACTTAAAGTGAATCATTCAA
TATTTTTTAGTCTATTCACAGAACTGTACAACCATCACCACAATCTAACTTCAGAATATTTCCATGATCCTAAAAGAAACCCCTTACATTAGCAGCCAAT
CTCCCTTGCTTCCCTACCCCTTCAGCCTTAAGCAGCCGTTAGTCTACTTTCAGTCTCTACGTTTGTGTGGGTAGACTTTACATGGACCAAATGTCCAGTT
TTGGTTGCCAGGCAGGGGAAGTTCCATTTACCAAGTGAAACCACAGGATCATGAGAAGCAAAGTAAGGGCTGTGTCAGGAGCAGTGGAATTAGTATCCCA
TGCTTCTGTGTGCCTTGTCCTGAGCATGGGAGGGTTAAAGATGTCCTCATTCGCAAGGAGCTGCCAGTTGAATGGGGAAGATTGACACATGCAAAACCAG
ACAGTAACCATTAGGTATTATAAAAGCTAACACAGAAGGAAAAAGAGATGGTCATGGGAGCTCAGGGCCAGCCTGGGATAGGCGAGTGTGCCTGGGATGG
GTGGTGTGCCCAGCGAAGGCGTTCTGCAGAAGATAAGTGTGTCTTTCTTGGCAGACTCTCTGTCCACAGCAGACCAGGCTGTCAAAAAAAGGAGGCGACA
TTTCTCCAGAATAGCTTCTTCATTTTCGTGAGGGTAAGCAATCAGATTTCTTTTTTTATAAACATATTTGAACTTATATATCCAAATTAGTATCGTAMCC
TGCCAAATCGCCACTCTGGGAACCRTGCACGCACTCCAGTGATGCGTGTAGTGCTCAAAGCATTTGAAACTCCTCTATGGGAATTATCTTTCAGCCAGTC
AGTTTATGGGTCACCTAGGAAAACCAGTCACATTATTTTATAGTCATGCCTCATTTTTCACCTAAAGCGATGTAACAAGATTTGATCACCCACTTTATTC
ATTAGACATGGCTCCAGCCAATTTTTGTCTTTTTCCAAAGTTCAAATCTATTCTCAAAGGATGAGATTTGTCATGACTGAGGACTTTCAAAGAAAGTGCC
GCAGACAGTAAAAACAGTTACCCACTAAAAGAGTTAGAGAGGTGTCAGCATTGTTTGAATAAATATGTTGTTTCCCAAGGTGATTGTTTTGAAAGAGATA
ATGCTAATTGAGATGAATGTACTCAACTGGCATAACTGTTTAAAGGGAGTTACTGTATTTTATACTGTTCAAGCACATTGACCTGTAGAGAGGAGCTTAA
GAGACAGTTCTTGCTGAGGCAGAGTCYGGCATTCTGCTTTCTGCAGCCTACCGCAGTGGCCTGGGGATACAGTTCTCTTCCATTCTGGTAAACGTTTAAA
CCTGCTTTGGTGAGGCATTTAGGAGCTGTACAAAATGGGAAGGTTTGTTAAAATATAAACCGACAAAATGGCCAAATACCCGGCCCTGACYGAGGAAGAG
AGTCCTGTCAGCTCTAAACCATAGAACTTGAAACCCAAATGCTAAGCCAGTGCCCACCTCGACTGTGTGAAATTGTCCCCTGACTTCAGAGGCCAGAAAA
TGGATCTGGGATGGTATAACTGGGTGGRGACAGGGAAAGGCCTTTTGATTTAGCAATAAAACTATTAGGTTATACCACCTCCATGGGGACTTTGAAAAAT
GCATTCTGTGGAACAAGATGAAGTGCTTTTTAAAGGAAGATTTTGAAATGAAGCAAAAGGGAAATCAGTGTAGAAAACTCAGATGGAATCAGGGATAAGA
CTGGCACCTGTCATGAAAGCCCAGCTTCCTCTCTGGGCTGGGCCACAYAGTTCACTCTAACCGCTTTGTGGTCAAATCCATGAGAAAATCACTTACCCCA
CAGTTTGCCATAGACAGCTCCTCCATATGTAGAAGTGGTATTCGAAAGAGTAATCGTAATATCTGCCTTGAAAGATTCTTGTGAGGATGAAATAAAATTT
GTGAAGCACTTGTTATAGGGCCTGACATTGTAACTGGTTAGTAAAGAGAAGATTCTGATGATTCTATGATTATTATGATTATTCCAAATACTGAGGCCAT
TGGAAGGCAGAGGGAGGGGATAAGAAGATGGGCCTAGGGAGRGTCTTTGTGCCTCTTACCACCCTCACTTTTTGGCTGTCCTATCCTGCCTCTGTCCACA
CATTATCCCTTGGACTTTTTCTGTCAGGCAGAGGTTCACAGTTGCTCTAAATCTCAGCCACAGGCCCATCAATCTGAGATCTTCACCTGTTTTGAGTCAC
CAGCTAGCAGTGGCTAGCTAAGGATGGATATTTCAGGATGGATCTGTGGAATGGTTACTGGGCCCAGGCCAATGTCTTGCTGCAGATGGGAAGCTGCAAG
AAATGTATGCTGGCATTTCTGGAAACCTCCTGGGACATGTGAATGTGTTCATTTGACAAGCATTGCGGAACACTTTTGTATGCCAGGCACTGTGCACAGT
GGTTGGGGGTACAGGATGAGTAAGACAAAGTCCTTGTGCTTAGGGTGCTCATGCTGGTGGRGGAGAYAGGCACTCCATGGGTAGTTACAAYAGGGTGCGA
ATTCTATTACAGTCAGTCCTTGACTTACCATGGAATGATGAATTACAGTTGTCCAACTTTACAGTGGTGTAAAAGTGATACACATTCAGTAGAAACCATA
CTTTGGATTTTGGATTTTGATCTTTTCTCAGGCTAGCAAAATGCAGGATGATACTCTAGGAGTGAGCCACACCTCCCAGTCCACCACGCGGTCCCGAGGG
TAAACGACCAATAATGTACAATACAGGGTACTGTATTTAATAAATTACACGAGATCTTCCAACATTTTAWTATAAATTAGGCTTTGTGTTCAATGATTTT
CCCTAACTTTAGGCTAAGGTAAGTGTTGTGGGCCCATTTAAGGTAGGCTAGGCCAGGCCATGATGTTTGGTAGGTTAGGTGGATCAGATGCATTTTTGAC
TGATGATATTTTCAACTTACAATGGGTTCCAAATGGAAGTCAGACCACTTGGTGGCTACCTAATTTTACCACATAACCTCAGTTCATAGTAGTGGGTTGG
AAGTGAAGACTTTGAGATTTTGCTTCAAATTTCAGTTTCATAATTAATTGTACAATATCATGTATACTGCTTAACTTAYCTAAAACTGTTTTCTCACCAG
TAAAGTGGGATTAATTCCAATATATGCTATATCAGAGAATTTTATGAGGATAGAATGAAATAATGTACATACAAAGGTTTTGTGAATTCTAAGGTGCCAC
TCAAATATGAATTATTTGGTTGTTTTTGAAACTGTAATGTTGCTTCAGGAAAGTCATTCCACTGGACTAATGTAAGCCTCTTGCCAAAAACAAATCTCTA
CACACAGTTTCGTCTAGTTCTCTCAAAGTCCAAAATTCAGATGTGCTAAAGAATAATAAAAAAAAAAGTTACAGGCGTTTTGCCATTTTGAGAATCTTAG
TGGAATATCAAAATTACATCTTTTATGTTAAAATTTATGTTAAAAGTATATATAATCTTTGGTGTGAGATCTGAGTTTGATTCCTGGACATGGTAGTTAT
TAGCTGTTTAATCTTGGGCAAATTGCTTGAGCTGCTTCTTTACTCATTTGTGAAATTAATATGTTGGGGGTTTTGATGGGAAATACAGACACTTTAAACT
TCTTGCAAAAGGTTTCCCGGCCATTACCCCCTCATTTTAACTTCTCTTCTTCCCAGATTTGCCAATGACCTGTCAAGATGCTCTACACCTATTAGCTTAT
AAATTTCAGAACAGAAATATCTTTCTTACAGAGAGTGTTTCATGCACAGAGCCTGGGGGGAGGGAGAACTGTTCTGTATAACTTTAGGTTTTCAGTAATA
TGTCGTCAGCCTGATACTTAAGTTTTCTCAAAAGAACACAGCAGCCAGCCCCAAAGTAAGCAAAATTGATCCTGAGTAGCTTAAGTACTGGTTACGGTGT
TTGGTGTTTGTATGCCAGGTCTACCCCTTATGGTTTTAGGATAGTGGTTCTGGTRAATAGTTGATTAGGTCCACTTGCTCCAGAAATCTCCGTGAATAAG
ATTTGATGGGGTGCTTTCCATCCCTGAAACATTTACTGAATGTTTTCTTATTGCTTAATACAGTGCTGTGTATTTGGGGCATGCAGTAGTGCATAAAACG
GTCTCCGCAAGTGGGCATTGCAATATAGTGTGAGAAGTGCCTCGTTAGGGTGTATTGGGGGCCCTAGGGAGGGGAACACGCAGGGGTGGTCAGAGGAAGC
TTCCCAGGGGAGATGTGTTTAAGCCAAGTCCTGAAGGATGATAAAGAGGAAGCCAGGAAAAAGTGTAGACATGGGGGTATGAAGAAGACATTCTGTGTAG
TGGGAGCAGCCCTTGCAAAACAAGGAGATCCTTGTAGAAAGTAAAAGCACAGCCTTAGACTGTAAAGTAGGACTCATCCTAACTCCAGCATTGCAGGAAG
GGAAGAGGGAGGCCGCCGGTGACTCAGCTGCCTTAACCCCTGAGGTCACACAGGTCCTTAACCCCTGAGGCTTTCTTTTATACACAGGCCAACATAAGAC
CCAGTCTGGGAATTATCCTAAGGCCCAGCCTGGGAATTCTCTTATGGCCCTGAGGGAAGGGAGGATTTTGGAGACAGGATCAAAAACCTAAAAAGCTATC
TGTAGGCCGGGCGCAGTGGCTCTCACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACAAGGTCAAGAGATCAAGACCATCCTGGGCAAC
ATGGTGAAACCCTGTCTTTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACATGCCTGTAGTCCCAGCTATTCGGGAGGCTGAGGCAGGAGAATCG
CTTGAACCAGGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAACCTGGCAACAGAGCGAGACTCCTTCTCAGAAAATGCTATTTGT
AAGGAGGATTGGGTTGAAGTATTTGCCCAGTAACATATTAAGGCTATCAGGAGCTGGACGTGGTGGCTCACGCCTGGCCTGTAATCCTAGCACTTTGGGA
AGCCAAGGTGGGTGGATCACTTTAGGTCAGAAGTTCGAGACCAGCCTGGCCAACATGGTGAAGCCCCATCTCTACTAAAAATACAAAAATTAGCCGGGCA
TGGTGGCGCGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGTTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACACCAT
TGCACTCCAGCCTGGGGAACAAGAGCGAAACTCTGTCTCAAAAAAAAAAAGGCTCTATCAGTTTGCTCTGACTCTCTTTCTTTAACCAGCAGGTTACGTG
ACACGTGACACCATCTGCATGTGACCTACTGTCTTCACTGGGACAGGCCTTCTAACTTGGGTCAACTGGCCTGAACCCATACGTAGAATGATTGATATAT
AGTTCACTAAGTTAAATTATACATTTATAGACGCAAAAAAAATTTTGACATACAGTGTGGTTGTGTTGTATCCTACTGCTCTAATATTAGGAAAGGGGCT
GGGATGCTAGGTCAGCTGGGACCCTCTTTTTCTCRCTTGCATTCATCTCTTTTTCTCTCTTACTCTCACCACTTTTCTACCTCATGTTGAGTAGCGCCAT
GAAGACCCCTCCTTCATCACTCTGCCTGCAGTTATCCTGGGAAGCAATTATAAGCTTTCAGCCTCAACCATGCAGACTAACTGGCTCTACTTCCTTCACT
ATTGCAGTTTCTAGTTCTGTTCGTAATTGTTGCACRAGACTTTGTGCTATTGCAACTACTTGGAATGCCAGTTCCAGGCAGAGTGCCCTCTGTTGTAGAC
ACCTTGTGCTTTGGGAAGTTGTCTGTGATTAGGGGAGTAATTTTCTATTTGAGGTTGGTCTCAGGAAGGGAAACCACTCCTGACTCCTGCCTGAAAACTC
GCCTCCTTGCTCAGAAACACTAATTACAGGGGTCGTTTGATGCTCTCACTTAAATATTTTAGTCACTCACACATTTATTGACTATCTGTATGTGCCCAAC
CCCATTCCAGGTACTGAGGTTAAAAATGAGTGAGATGCAGTCTCTCCATACCACAGAGCAAAGGAGGAAGCTTGTTTGTGTATATGGAGCATGGCCCATG
CAGGGTTACTTAATGCTAGAAACCAAACACTCTGAGGCAAAGAAAAGGTGTAGGGGGTTGGGGGGCAGGGTAGAGGAATAGTCTACCCAGACTGCCTGTC
ACTCAGACCAGCCACTCTGCTGCAAAAGGAGTTGGCTTATCTTTTTTTTTTTTTTTTTTTTTTTAAGCACTTAGCAGTTTCCTAGGGCTGCTATCTGCTG
TAACAAACTGTGTGGCTTAAAACAATGGATATTTATTCTCTTGCACTTCTGGCAGCTTARAAGTCTGAAATCGAGGTGACAGCAGGACCATGCTCCCTCT
GAAGGCTCTAGGGGAGACTCTTTCCTTGCCTCTTCCTAGCTTCTGGTGGTGGCTAGCAATCCCTGGTGCAGTGTAACTTCAATCTCTACCTCTGTCTTCA
CGTGGCATTCTTCCCTATGTATCTCTTCTGTCTCTGTCTCCAAATTTCCCTCTCCTAAATCCTGTCATTGAATTTAGGGCCACCCTAATCCAGTATGCTC
TCATTGTAACTTGATTACATCTGCAAAGACCCTATTTCCAAATAAGGTCACATCCCCAGGTTCCTGGGTTAAGACTTCAATGTATCTTTTTTTTTTTTTT
TTTTTGGAGGGGGYGGGAGTAGTGCACCATTCAACCATGACATCTATACTCTGTCCACCAAATGCAGGTGGGTTTTGTACAGACACCAAAGCACATATAC
TTTGCACTTGGGCAGTAGCCCTTTGGGAGTCACTTGGGATCTATTTCCTCTTAATTTTCTTCAAGTTTAAACAAATTTGATCATCCAAAGGAGCCATACA
TAGCCCAATGATGAGAAACRTGAGCTTTGGCTTTAAAACTGGTGTTGAAGCCWGCCTTTCCAATTTATTGTGAGTCCTGGAGCAACTCRTGTAACTTCTT
TAATCCTCAGTTTCCTTATCAGTAAAATGGGAATAGTGAGAATACCTACACCACTGAGTTGTTATTAAGCCTGCATGAAAACCTACATGTAATGATATTC
ACTGTGCTGAGCACTTTACATGATCTCATATAGTCTTTTCAACAACTCTTAATTGATTGGTATTTAGACTTCTGTTTTACAGATGCAGAAATAGAAGCTA
AGTGATTCGCCCAAGATCTCCAAGATACTAAAAAGTATCAAGAGTTGGAATTTGAACCTGGATTTCCACTGTGCTCTATTCCTCAAGACCCTTTTTAATA
GTTATGTAGCGCTACAGTCTAGGGGTTCCTAAACTTTTTAAGGAAAGTCCAACTTTTTATATCCCTAAAGCCTTGCTCTCACTGAAGCCTTGATTGAGGC
CAAGAGAGAATGCCTTGCTGCTGCCCCCAYGAGCCACTGCCCATCTMAGGAATTCCCACAGATGCCCACATTTACCCACATGCTTTAAAAGCTCTTGTTT
ATTGAGTCTTTGCTGTTCACCTGGCTGCATATTACATTACAAGGCAAGGTAGCATGATAGTTACATGTCTGGGCTCTGGAGACAGACTGCGTATGACCTG
GTGTCTTCTTAGAGCAAGCCTTCTAACTTGGGTTGGCTGAATCAAATCTATATGTAAAATGAATGATATACAGACAGTTCACTAAATCAAAGCCCATCTC
CACAATCTACCTGACCTCGGACAGATGACATAATCTCTGTATCCCCCATTTTCCTTATCCCTAGGATAAGGGCTGAGAATAATAAGCCCCTATACAGTTG
TTGTGAAGATTAAATAAGTTAATGCTTGTAATGCATTTGAAACATGACCCAGCACATTGTGGCCTACTGAATTTATCTTCTACTACCTTTGAGCAGGCAT
CATTGTCCTTACTATTTTACAAATAAAGAAACTGAGGCCAGAAAGGCCATATACCACTAGAAGGTTCGAGCAAAGCAAGGATTCAGGCTCAGGCCTGTTT
GACTCCAGAGCCCAGTGGTTACAGCAGGGACTGTACTTGATTCTTTAAATCCTCCTTCTGCTACCTGTCCCATTCCTCCAGTGCCTGGACCATTGGAGAT
GTTTAATCAGTATTTATCCACAGATAAACCCATTGCATCTATGCCCTCCTACCTAGGCTTACCTGCTTTCGAGATCAGGGGATGTGTTAGAAGGATGTGA
TCAGTCCTTATCAATACCCTTTCTGTTTTTAGTAGTTTGGATAACATTTATTGAGTGTCTACTATATGGCCAGGCATTGTGAGAAGCATTTCACACATAC
CTTTCCTCATTTACTTTCAGAACCTTYTAAAGGAGGCTTCACTCTCTGCATTTTATGGAAACTCTGGCTTACAAGGACCCCATYGAAAAGGATGTTCCCT
CTTTGTGGCCACCTTCTTTCATGTCCTTTACAGCCGGACATCCTATTTTGGCCAGACCATATAATTGAAAATGATYTTAATAATGAGACAGACAGAAAAT
AACCTCACCATTTCTCTCCTCTTCTTCTTCTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGCCTTACTCTGTTGCCCAGGCTGGAGTGC
AGTGGCGCGATCTCGACTCACTGCAATCTCCGCCTCCCGGGTTCCAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCCCTGCCACCA
TGCCTGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTTACCATGTTGGCCAGGCGGATCACTTGAGGTCAGGAGTTCTCTCCTCTTCTTAAAAGCCCC
AGAGTCCCACCATATTTTAATTATTTGATGGAGGGCCAACCACTGCCTGCCACAAAACTTAAAGGGGCACAATTTCCCTTGTGATCTTGGTGAAGGGAGC
CCATAGAGTTGTGCAAGGCTGCTCTGGGCAGAGGTGAGTGAAGCACTGCCCCTTACGAGGCTGCTGGCAATCTTGCTTGTTTTTCCATTTTCCACCACAA
GAGGGCAACATATGACCATGAATGATTTGAAAATAAAGCGATTCCTTAACTGGTTCTCTTTTTACCAAAGAATTTTAATAATTGTGCTCCTGGTAAGTTA
GAATGGGGAAAGTTCTTCTGTTAGCGCCAAGTGAATATTCTTAAGGGATTGAAATTCAAATTGTCTTGAGAATTCTCCAAAAAGGAAATAAAAGACATAG
AAAAATGTTATATGAACCACATAAATGGCTGTTTTTATAGGTCAAAATGTTTGAATATGGGTCATTTCTGATAAAACAGGAGACTCCTTCACACGTGCCT
TACTTATGAAAAGGGGTTCCTAAGCCTTGCACATCTTCAAATTGAGGAGATTGTTTTCAGACGTAACCACATGGGTTCAGAATGGCAATTATGCAGATGG
AGAATGCCTTCCATGGCTTCTTGTCTGCCCTGTGAGTGCTCATAGCTCTCTTGTAGGCTCCCAGATGAGTACTTTTTACTCCATTTTAAAATGATTTGTT
GGCTTATCTATCTCTCCTTCTGCACCAAAAGTTTCTTGGCAACTTGAGTCTTCCTGAGGTGTACAGTGCCTGGTGAAATGAATACAACACRTCGGTCTAT
ATAGGACATATTGGGTAGATGGATGGGTGAACAGATGGACAGCCAACTGACGCGTGCTAAAGGTTGTACACTCTCTGAGGCAGAGGCAGCTGTTATGTTT
GTTTTTATTTTCAAAATCTACTTCAGGAGTCTCTGTGAACATGGGATTCTGTAGAGCTCTAAGCCATCTGGCCCTTGTAATTCTTCTGACCTTGTACCTT
CTTCCAATTTTAATGTAATTTCTCCTTTTCTTTAGRGAACATTTCCTAACTCTACTAAAATGCACATAGCCAATGGCCCGTCCCAATTGTTGGGTATGAA
ACACGCCTGCTTGTTTTCAGATTCAGAGCAGTGCTAAAGGCTAATACTTACGCAGGGCTTGCAAAGCACTAGAACCAGCTGGTGCTAAGCTCTTTACATT
TGTAAACTCCTGTCTCTTAATACAACAAATCTATGCAGTAGCTACYACTTTCAATCCCTGTTTCAAAGGTGAGAAAATAGAGGCACAAAGAGCCTACATC
CCTTGCCCACGGTCCCCTAGTCAGAAAATGGTACTCGGCCTGTCTCCTTGCTGTGGACTGAGGGAGCTCAAAGGAGAAGGGGAGGAAGTGTTCTCTCTTC
CTTTTCTTGCCTGTACTGGACAGCAGGTGAGGCCTGGCTCACAGCTGGCAAACAGGACCCAGGTACTACGGAGCCCTGGTCAGCCCTGTAAAGAGATGTA
AGCAGCTATAAGTAGCAGAAGCCCAATTAGGGTTCAGTGAGCCCCTATGAGGCCTGACACACAAGGACTGCACACAGAGAGAGGGGCGTCTCCTGCAGCC
ACAGGCAGTGGTGGGGCAGATGGACTTCAAGACCCTGAGACACATTTTGGGAGGCCAGGCGGGCAGATCGCTTGAGATGAGGAGTTCGAGACCAGCCTGT
CCAACACAGTGAAACCCTGTCTCTATTAAAATTACCAAAATTAGCAGGGCATGGTGGCACACACCTGTAATCCCAGCTCAGGTGGGATTGAGGCTGAGGC
ACGAGAACTCAGGAGGCTGAGGCACGAGAATTGCTTGAACCTGGAAGGCAGAGGTTGCAGAGATTGCACAACTGCACTCCAGCCTGGGAGACAGAGTGAC
TCTGCCTCCCCMCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGACCCTGAAACAAGAGGAACCCAGGCAGCGTCTCCTGGTTGTCTCAGCACATCTGTTT
CATTTTCCTCTCTCTCTGCTGACCCATTTGTCAATGGAAATTAGGTTTCTCAGTGTGTGTGGTTTTTTTTTTACAAACTCATTTAATCAAGCACCTATGA
ATATTTCAAATTTTTAAGTCAAATATTTGTTTTCTTTTAAAATTCCTTGTCTAATAAGGAAAACTTTTCAAGTATTCAAGTTGTTCTCATGTAATCAAAT
AATAACAGCAGATCCTTGTACAGGGCATACTATAGCCACCCTGGTTTCAGAACTATCTGTAAATTGCTTCATTCAAACTTGACTACAACAAGTAAAGTAG
AGCTGCTATCATTATCTCCATCTTGACAGATGAGGAAATGGAAGCACAAAGAGGTTAAGTAACTTGTCCAAGATCATATTACTAGTAACTGGTAGAATAA
GGGTTCAGACCCTGTCACTTTGGCTTTAGAGGCCATTCCCTCAAGTACTATAGTATACTGTCTGCATGTGATGACTTAAACTTATAAATATAATACAGTC
CAAGTTTTCTGGAATGTTCCACTAATGTTTATAATTTTGATAAAATTCTTCTCATAAAATTCTTCTCATACCTCCTTAAACTTAAAATCCTGTCTAAATA
AGTAACACAACCTGCACTTAATTATAAACTGGAACCACAAGGCTAATCTTTAGATAAACTAATATCCCACATTTCTTAAATGTATTTCAAATGCCAAATA
TACCTAGTTTTCCCCCCCTTACTCCAAAAATATTAATACTATGTTCATTTTATTATTTGTATCCTATGTGATATATTTCATCATCTGTACACTTAATTTT
AAGAGAGTATGTTTTAAAATGCCTACTTAAAAAACCATTCTCTCACCTCAAGTGATGAGGRGTTACCTTTCCAGTTGAATTGGGGTGACACCAGCTGGGT
GAGGTGTGGCTCGGCCAAGGGTCTGGATGTGGAGGCACCGAGTCCAGAATACCAGCGCCAAAAGGGATTCTCCAGTGGCTTGTGTTCCCAGCCCCTGTTC
CCRATTCTCAGGTCTGATGAATCTGCAAGCCCTACCTACGTGAGAAGATTCATCTAACCTATTTTCTGCTTGATACTATTTCGAATTCTTTTCTGATTCT
TCCCGTACATCAGATCCACAACTCTTAGAGATGTATGAATGATCCCGAGTTGGATCCTGCATAGCTGTCACGGACTCTCACATATTGTCAGGCTGTCAGC
AGCAGTTCTGTGGATATTCTCATGCCTCAACTGTTCTTGCCCCACAGCTCATAAGTTTACCTGTCTTTCTGGTTCAAGGGCTAACCTAATCTGGCTAGTA
CACTTTTGAGTCCCAATTCTAGATTCCAAGGAGAGAAAACATGAGTGGTCCAGCTTTAGTCAGGGGTCTACCCCWTTTGCTCATGGCCTGGAGTCAGGGT
CCTGGAGTAGACACCTGGCCTCAGGCCTTCACTCTCATGGAATAGTTGGGGGACAGTTCTCAGAGAAGAGAGGAGATGAGTAGAAAGCACAGTATGGAAA
AAGGGTCAGAGGAAAGAGGTTGTTCAAGGAGTATCTTCACAGTAGGAGAGGAAAAAAACAAAAGCAGTGCTCAAACTGGGCCAAGAACTCAGAGTTGAAG
TTGTGTGTAGAAAGCTGGCAGAGGAACAGTGCTGGACAAGATCACATTGACTGGGACCCTCAAAGCCACCCCAGCTAAGGATGGGACCCTTTTTGCAAGC
CTTGGTTAATCTTTTTCCACTCTTATTTCTCCAAGCCATTCAAGGCATCACTGCCAGCCAGTCAACTTTCCAAAAACATATTGGTTTATATTCTTTTTGC
TTACAAATTTCCATAGTTCCCCAGCACTTTCAAAATAAAGTTTAGCACRGTTCACAAGGCTCCATAGACTTGCCCCAACTATTTCTCCAGTCTCATCCCT
GTCACTGCAACCTCTTCAGAGCCGCAGCTCTGTAAACACACCTTCAGGATAGCACCAAGGCCATCCCGCTATGATGGCTCCTTTCTGATGTGAACTTTTT
TGAGAACAGAGGCCCATCCACCTTTGTTTCTATCTCCAACCCCACTCAGAATGTGAGAAAAAAAATTGTATCTTTACATCATTTTCCAGTTCATAAAGGC
TTTCCTAGACATTAACTGAGGCAATCTTCGCAAAAACCTTGGGAGAGAGGTATTATTTCATGAAGAAATTGAGGCTCAGAAGGACAAGGGGGCTGACAAT
GACCGATAATCTACCTTATACCAGGCACAGTACTGGGTGTTTTCACATGTGACCTGTTTTCAGTTTTCTGAACAAACTTCAGAGCTATCCCCATTTTATA
GGCTCAGATGAGTTAAGTAACTTGCTCTAGATTGTACCTCTCATACATTTTACAGTGAAAGATTTGAGCCCTAGTTGTATCTGGCTGCTGAACCTGTGCC
CTTCCCGTTAGAATGTAGTGCCTTGCCTGGGGCTGAGCATTTACTACCTGCTTAGTTACTGGTGGCTGGAGAAATGAATAACCGTTTTCCACTCTTGGGG
ACAAACACTTCAAGCCCTCTGGAACAGGCACCTGCAGCCATCACAAGCATAGGGCCTTGGGCTGGAGTGTCTGATTAACCCTGCTGCTTTAAGCCAAATT
TCTGCCTTTCTTTCTAGTGCTTATGCCTGGAAATAGGGTTATCAGGCTCATCCCTTATGCCCACTCCTGGGACATTAGCTAAGAAAGAATTCTTGGTGTG
AAGAGGTGAACCCATTCAGGCCAGCCCTCAYATGGGGCCTGGGACACCATTATTAACTGTCCATTAAATATTTTTTAAAGAAACATAGAAAAGAAAGAGT
GAATAAAGGATTGGTAAGTCTACGGTTTCTGCTATGCTCTACTGGGAAGGTATCACTGCTGATGCAAATGGAAGCTGGAGTCTTTGCAAGGCTGGGAGCG
AAGGGGTTCATAACTCTGCCATTGTGAAATTGATTGGACCCAAGACCAGTATGAAAGTTCCTTGTCTGAAGGGAGTAATCCTTAAATCCCCCATATGGTT
TAAATGTAATTTGTGTCATTGTGAAGGAGTACTGGCAATGCAGGCGAATTCATTAGGCCAAATTGGGTTCGCTATGCTCGACAGTAACGTTTCTGAAGAT
GAAGTTCAACCTTTGCTGGAGAGCTAAAACAAATGAGTTTCTTAATAGCTGCCCCACTTAGTCTGAGTGTCTTAGGAAGCTTAATGTTTTTAATGTCTCT
TCTTTTTTACTATACTTCACAGTCCATCTAACATTGCTGCTTCTGGTAATATTTTTATATGGGGTTGAGTTCTATAGTGTTCATAAAATTATGATCAGGC
CCATTTTTAGAATAGAAGCTTTTCTAGGGCAAGGATTATGTTCTTTTGGTATAGTTTTGCATATTGACAAACACCATGCCTGGCATGTGTCGTTGCTTAA
AATGTTGCTCTCRTAATTCTGCCCTCAGAAAGAACTTCACCGAGAGACTGGGAGGCTGCCAGCAGAGACTATGCTGGAGTGTGGTGTATTATGTGGGCAG
AGAGGCTTTGGTATGGGATGTGGGAATATCCTTGTGCCCAAGTACCCCCAAATTTACCCTGGGATTTCAAGATCTCATTAAGAAAACTACCAATTATGTG
GTTGGCTGCTCTGTTATTCCAATGAAAAGATTATTGGAATGATATTTTATAAATCTGGATCTATTATCGGATATGTCAAGACACACATGCCAGCCTAATT
CACAAGCCCATATAAAACCAGGGAAAACTTGGCACAGAACTTACAAAATAGGAATTTAAAAAATCATTTATAGTACGTTGAAAAACAGTGGTTATGTAAA
CTGTTAATAAAGCATGCTTGCTTTTTCAATTAATTTCTAAAGAATTTGACTTTTAAAAACAAATTAAGAGCCCAAAATAAGCTATAAAAAGTAGTCGTCT
TTTGGCTGACTGGTTTTCAACATAATAGATGTGTTTTGTGAATTGTGTTAATGTTRTGTCTCGAGGTATTTCCTGCACATGGGCCAGGCCCATTTGTCAT
TTGAAGGGGCTCCCTTGCCAGTGGCCTACTTTCTGCTTGTGAGCYTGTTATTCCTGCTGGTCTTGTGCAGAGCAGCCCCGGAACACAGCGGCATTCTTGA
CAGAGGGCAGTTGGCAGCTACCAGTGCCTGTCTACTTTCGGATGCTACTTGACAAGTTAGTATAAAAAGACTCAGATTTTGTTGCTCAAGGGATGATTCA
CTTTTCCCTTCAAAACCTTAATTCCTCAGTGCATGTTTGGTCTGTTGTCCAGGCTGGAATACAATGGCACGATCTTAGCTCACTGCAATCTCAGCCTCCC
AGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGTGACTACGGGTGCACGCCACCATGCCTGGCTAATTTTTGTATTTTTAGCAGAGACAGGG
TTTCACCATGTTGAACAGACTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCCACTTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATG
CCTGGCTGAGAACACACATGTATGTATTTAAATAGATCATTAATAAAATCTCAGGGATCAAATGGAATTAGATATGAAATTTATTTAGGTAAAATATTTT
TAAACATCCTAGTTTCTTCAAATACAAAGGACTTAAACTGCTTCCCTAAAAACATTTTATTAAAAGTCAAGTATGCTTAAAACTGAGAAAATGTTAAAAA
CGAATCTCATGTTCATATTATTTTTCTAAATAAAAACTCGATCCAACCCTGTGTACTCAGAAAAACATATGTATATTTTTTCCGTGTTTTGCTTACATTT
TTAAGGACTTGGTGCATCCTCACGCCTGTTTTTTTGTATATTCAAAGGAATGACCAAGCTGTTGGTTATTCAGGGCAACTTTGGAGGTATCTGTTCTTCT
AGAACTGAACACTGTTTTCTTAAATCTTTGGTGGCCAATGAATAAATCTGTTAGATAATTTTTTTCCTGATAGATTGCATGTGTGAAGTAAAAATAATTT
CTTAGGTTTCAAAATGACAGTGATGTAAGAAAACCAGGGGTAAATTAAGCTCCCTCACTTCCATTTTAAGATTGACCTTTAACTTGCTAGGTGGCATGGG
GCAACTTTAGCTGCAGATGGCCTTCTCAGAGATGAATGCCCAGAGAGGCTCTGGTTTAAGGGATGGCAGGAGCAGTGAGAGCCACACCAGGGTGTCTTGT
TCACAAATCTGCTTCGTGGGACTGCATTTGCCCTCTTTGCCTGGGCTCTGAGAGTGGAGCCTGTCAGCCACCTGGTGTTTACAGCTGAAGTTGGCTGCAT
GCAGCACTCCTTGGAGCTATCTCTACCCTAACGGGGAAATGAGACAAAAATAATTGAAGGGTATTTGGCTTGGTTAAGTGGGCAGAAGTGTCCTCATCAA
AACAACTTTGAAGACCTGCTTTGTGTGTGGGTGCGAGTGGGTGTGTGGCCCTTAACTTGTTCACAAGGGACAACAACAACAAGGAATTAACCAAGCTTTC
TCATTGAGAGTGATCGTCCATGCAAACCCTCTATTTTAGTTACTCATACGACACTGTTGCAGCTTCAGGTTGGACAGACCTATTTTGGAGTCCCTTGACT
GCTTTCTGGACACCCTCACTGAGCCAGTCGGTGGAAGTGAAGGATGAGTGATTTTGAAGAATGGATTTCTGGGACATATAGAAAAATGGAAGAAGGTCCT
CTCCCTCTGTTGACTTTTGCTACAGCTCCCTACCACGATCAGAAACCAGGAACAAGTGGATTACGGAAGAAAACCTATTATTTTGAGGAAAAGCCATGCT
ATCTGGAGAATTTCATCCAGAGTATATTCTTTTCCATAGACCTAAAAGATCGCCAGGGATCATCACTGGTGGTTGGTGGAGATGGGCGGTACTTTAATAA
ATCAGCAATAGAAACAATAGTGCAGATGGCAGCTGCCAATGGGGTGGGTATATGATAAGTATTGTTATGTTTCTGGCTCTCCAAATAACCTTAATTTTAC
AGAAGTATACAAACGTACAAGGATTTATATGTGGTATACACTTCAATTCTACTAACATCCAGCTAAGTTTCATTGTAACTTCAGTGATTGTATATTGTGA
AAATACTTCAGAAATTACATTAGCCACACTGGGATACAGGAATGTTAAGTTCAGCTTCTTAGGTATTATGCTGTGTTCTGTTGCTTGACAAAGTACCTGT
TGCTTTTTAGACATTTAAAGCACACTCCCGGTCTTAAGCTGTTTTATCTACATTCTAACTAGCTTCAAGGGGCACCCTGTCCTGTGTAAGAGGGCTCTAC
TGAATGGTGGAGAGAAGAGGATTTTGTTTTCTTTCAATGGCTTTCTTGTTGAAGTTCAGTCACTTGTCAAACAGGAAAACAAAAGCCAGGGCATGCTGTT
GTTTATGGATCCTGGTAGTCACGCAGAAATGCTAGGAGGAGGTTGGAAAATGTTAGGTGTGAGCCTTTTGAGGGGACCTGTTACAGGGGCACCTGCTTAT
AATGACCTTGGACACAAAGAAGCCGTGCGCATGGTGAATTTGTGCAGCAGGGTAGAGATAATAACTCCTGTAAGACTATAGTATGAGGCGGCTCTGCTAA
ACCTCTGCATCGTGAAAAACCGTGTTGGCTGGATTAAGCAAATGAGAAGGAAYATTGTACCAGAACGCATTGATCTTGATAATCTAACARTTCGTGCAGC
CCACTGGTTTCCAGGAAGGTGGGCATCAGGACATTGATGTTTTTGCTCTGCAAATTCCTCAGTGGGACCAGAAATACATTTTTAGTGTTTTAGATAATGA
TTAGCAATTAGTTGGAGCACATAGTCCTTCAGTACCTGCAAATTTTAAAATCTGGTGTATTTCTTTTCTGGAAGAGATTCTGATTCTTGSTAGATAAAAT
GTAGTATTGCAACTAAGTGTGTTAGACATTCATTTTCAGTGTATTTTCAAAATATGCTGAGCAGGTATGTTTGCAGAAGCAAAATTAAAGCAAAACAAAA
TAAAATGTACCACCACACTAAATTTTAAAGTGTTTGTAGATCCTGTTGTTTATAATTAGAGTTTTCCTGATACTCAGTTTCAGAATCTGAATGCCTCTCA
TGTAAAAGTTGCTGATAAAGCACTCAAATATGAAATTATTATGAAGCATACACATTTTTAAGATAAAATGTGACRTGCCATAAATTTTTTCTTTGAGGAG
AGCTGCAAAGGGAACAGTATTAAGATGCTTTTAATCTTTTGAGAGGGAACGAATGGAACATTATTTCTCCACATATATCTAGACTGTTGAGTGGATCTGG
TACACTGTCCCCTTTGCTGTGATATATTTGGCTCCATTTCATTTTTGTGTGGAGCTGAAGAATGTGGAAGAAGTGGTAGGAATGTGTAATTCAGGCACAC
CCTACAGACTTTCTCAGATTTGCCCTCTGAAGGTTTGCTAAATAATACATTTAARTGATAATTGACTAAATATGGTAGCTGCCTATTTGTTAGAGCTGTT
GGCAGCCCAAGCAATATTTTCAAGTCTTTTCAAGGTAAGCTTAGAGGTGAGAGCCACCTTATTAAAAATAGCACTGCATTTAAAACAGTCATGCTAACCA
ACTGAATTGCTTAAAATATTAGTGGACTGGATAAAGCACTTCAATCGGATGCGCTTTAAACCTGTGAAATTCTAAAGGGTTTGATTTCTTCTCTTTCTAA
CATATCCTAAATTCTGACTGTTTTAACATGCCTTTGATTGTGGGTGGGACTGCAGGGAGGAAATCTAAAGGAAGGATAATTATTACCACAGATTTTGACA
AAAGTCAGTGCTCCTTTCTCATTTTCTTTAATACCCACTGTGCCCATAAGCTGATTYTTGGAGGGCTTTTCAGCCCACTGAGCTAAATGGAGATCATTTT
ATTTTTTTTCCCTTTACCATACTTTATCTGGTGCATTTATGGGTTATAAGTTTCTCTTCATTTTTTATTTACATAGAGCTCTCTGCTTTTAAAGGACGTT
TTATTGCACAAAATAAGATATTGACGGGCCCCTTTTAGAATATTGATATCTCATTCAGTCCCCAGAGCTCTAAACTGAGAGGTAAGTTTAGAGGTAAGAG
CAGGACCCATGTGCATGATTACAGGACAAAGAAAATGGAACTTGTTTTTTAAATAACCTAAGAAAATACCAAGCCCTGTTTTCAATTAAAAGGAATATTT
AAAGTTTACTCCCTGCCATGTTTGACTATTAGATGTTTGGAGAACAATGAGRTACCCATTTTGGTGGGGAGGCGTGAGTTTTAAGGAAGGAAGTCGTGGG
AAAGGAAGGCAGGCAGGGGAGGCCATTTGAGGATGGACTCTTAGTGCCTGGCTGAGGGGGTTATCTCTAACTTGGGAGCCAGGAAAGGTAAAATGTACAT
AACATCAGATTTACCATTTTAACCATTTTCAGTGTATGGTTCCCTGGCATTAATTACACTCACAATGTTTTACAACCATCACCACTATCCATCTCCAGAG
CCTTTTTTAAAAATCATCCCATACAGAAACTCTGTACCCGTTACACAATCATTCCCCATTTCCACTCCCACCAGCCTCTGGTAACCTCTGTACTACTTTC
TGTCTTGATGAATTTGCCTATTCTAGTTACCTCATAGAAGCAGAATCAGACAATCCTTGTCCTTTTGCATCTGGCTTATTTCACTTAGCATGATGTTTTC
CAGCCTTATCCGGGCTGTAGAATGTGTCAGAATTTTATTCCCTTTTTTTAAGTTAAAAAATATTTATCCTTATGACCTGGCAGTCACATGAGAAAAAAAA
AGAAAAAAAAAATTATCCTATATATGTCCTTCCAATCACATCCATATCTATAGATTGCAATGTCATCTTTGAGTACAGTGACAAATTCTTTAAAAAGTTT
TAGTTGTGGTAAAAACATGTAATAAAATTTACCACCGTAACCATTTTTAGGTGTATGGTTCAGTGATGGTAACAAAACATTGTTGTGCAGCATATCTCTA
GAAAGTTTTCATCTTGCCAAACTGAAAGTCTRTGTCCATTGAACAACTCCCCATCTTTCCCTCTTCTGAGCCCCTGMCAACCACCATTGTATTTTGTGTT
TCTATGGTGTTGACTTCTTTAAATACCTCATGTAAGTGGAATCATACAGCATTTGTCTTTTGTGACAAATGCTGTATGACAAATTTCACTTAGCATAATG
TCCTCAAGGTTCATCCATCTTGTGGCATATGGCAGGACCCCCCCCCCCCCACACACACACRCACTTTTAAGGCTGAATAATATTCCACTGTATGTATACA
CAATATTTTGTTTATCCATTCACTTGATGATAGACGTTAGCGTTCTTTCCACCCTTTGACTTTTGTGAGTAATACTGCTGTGAAATTTGGTGCTTAAGTG
TCTGTCTGCGTCCTGCTTTCAATTCTTCAGGTATATACCTAGAAGTGGAATTTCTGGGAGGGTTTTGGAGTCAGAAAAGGGACACAGAATTATGATTTAG
AAAGATAAACTAGATGGGTTTGAGTAGGTCAGATGGATCCAGCCAGGGTCRAGTAAGAGAGAATCATGTGGGACAGAGGCAGGGGAGATTGAGTTAGGAG
CTGTTGCAGTGGTCCAGGCATCTTTAAGGGAAGGAGGGTAATAGAGCAGTGTCTCTCCTGTATCAGATCGAGAGCAATATTCCTGAGGGTGATTCCCAAG
AAAGAGCCTGATCTGGAAGGGGAGTTCTTCCACCAGATGTACCTCTTCTTGGGCTCAAGAGAGAAGCTACCTTGCTTCTATCTCTCAACTTTCCTTCTTA
CTCTTACCCCTGGCATAATCCCCTCAGCCTGGAACCATTGCAAATCTCACCATAAGGAATGGTAGAATTAAGGGGTGACATGGGTGGTGTAGCTTAATAT
CACCAGCCTCTCCTTCCACACCAAATACAATCTATATAAAAATTGGTATGCTTGGTGTGTAAATACAACTCGACAAGCCACCCCTAAACCCCTCCTATGG
ACATTCTGGAACTGCCCRAACATAGGCTTTTATTCTCATCACAACCACACCTGGAAACTGCTGGAAGGTGAAATGTCACTGTGTTGAGTCAGGACGTTTC
AATACTTTCCCCCACCATGGCCGCTAATGTGCTGTGTGGCCTTGTCGTGTCATCTACGCCAGTGTCTGCCATAGTACCTTTCCATTAATGCTTGTTATTA
YTGCTGCTGGATGGAGGCAAGAATGAATGAATKGGCAGGATCATGATAACTCTGGACCTCAGCTTCTTCATGTTTGCAGTKGTACTTGGGAAGAGCAAAT
GTGGGAATGGATCAAAAGTACCATGGGATGTAGAAAGCACTCTGTAGCTCAGTAACAATCATCRGTWTTGATTTCACACTATCTGCAGGTTCCTGTAGTC
TAAAAAGCAGCCTACTGACAGCATCCACCCTGGTGGTTACCATTTCCTGGGGAAGGCAGGATATAACCAATATATTAGGGGAGCTACAACAAAAATTGTT
YGGAGATTGACATATGAGAGCCAAGAGGTAACTGAAGGGAACCAGGTGCTCCYTGGGAGGTGGTTGGTAGTGGAGTRGTTGACGGTTTTCAATGGGCTAT
GGAAGGGTGGCAGAGCCAACAGTCCCAGAGAAACTCTCCCCAGGGAATCCAGGTATCTCACGGACATTTTCAACAYTAGAAACACATCTTCCACCATCAA
GTTGTTTCTTCAATCATGTTTATCTTGGGTGAAGCAAAAAGAAATAACAAATGGAAAATGTAAAAAAATCCCTGTTTTTTAAGAGGAACTGACAGCACCT
CAACCTTCTTTTCCAACTTGAGTCATGTTGAAACAGATATAAATTACTGTCATTTTAGCAAAAAAGATTTAGGAGCAGTACTGATACCATCTGTAAGAGA
TATGGGAAGGTAAGTTAAGAATGCAACAGAAGTCCCATCTGTCGCCCTTTCATGTAGGTCATTCTGACTGGTTTACTCAGGAATAACTCCAGCATTCTTG
TCTTAGGCCCAGGAGGTAACCCAGGTACACTGTAACAGAAGTAGGTGTGTCTTGCTTTGAGGAAACCCACTATATGAAAAAGCCAAGCTTGACTGGAAAG
ATAAATTGATGAGTCATTTTTCAWTAATCTTGATATAAAATTTGCCCTTTTTACTTTAAAAAAGCCTTCTCTTTGGGTAGAATCCCTTTAATTAGCTAAA
CCTTTTCTTTTCTCCCGTTGTGGATTGAAAGTATGATTGAATTGGATAAAAATGTGGGTTTTCTCATATTCTTTCAATGCATCCAAATTGTGRCCCCGAT
CTGGAAAGGCTCTTTTTAATATGCTGTGTTTTCATGCTGGAGCCTTACAGTGCACACAGACCACACACTTCTAAAACTACAAAGTCCCGAAAACCATCTG
AAGGAATTTGTTCAACATTGCTGATTCTATTTCAGTAATATGGTGGAGACATCCAAGCTGCAGATTTTTATTAAATAAAATCTTTTCTTGTCCAACAGAT
TATTACTATTATTTTTTTGTCCATCTGCCTGTTGTCTTGGTGTTGTTTCTGAGCKGTGACTCTGGATGTATTGATGTTAAAGAGTGTGTTCTGGATTTCT
TCTCCTAGATCGGTCGCTTGGTTRTCGGACAGAATGGAATCCTCTCCACCCCTGCTGTATCCTGCATCATTAGAAAAATCAAAGCCATTGGTGGGATCAT
TCTGACAGCCAGTCACAACCCAGGGGGCCCCAATGGAGATTTTGGAATCAAATTCAATATYTCTAATGGAGGTGAGTTTGCTGTCATTTTGAGGACAGGT
AAGTTTACATTCAGTAGGACAAATCAATACCTGGAGCCTTGGGAGACCAGGGTTTTGGTTCTGATCCTTTGCAGGGGGTAGGGAGGTGCTCTTTGCTTCC
TTTCAGTGACAGTGAAATGCTTCTCATTTGACTGTACCTGAATATGAAGAGCCATGCGCAAATCTTCCTTAACATGATATTTTCTTTTAGAAAAATCCTG
CTACTYTGCTGACTGAATGATGAAATGGTAGATGTGCTAGTGAAGAGGAACTGATGAGCTTTGGATTCTTTGTATTTCCATGTGAGCTGCACGAAGTAAC
CCACTGTTTGCTGTTTGGTTTCCAGGTCCTGCTCCAGAAGCAATAACTGATAAAATTTTCCAAATCAGCAAGACAATTGAAGAATATGCAGTTTGCCCTG
ACCTGAAAGTAGACCTTGGTGTTCTGGGAAAGCAGCAGTTTGACTTGGAAAATAAGTTCAAACCCTTCACAGGCATGTTTACTTTCCTCCTCTTTCTGCC
CACTCCTATTTCCAAGTTGAGCGATTTTCCTTTCAACGTTTTAGTAGAGGGTCTTCAGCTTTGGAAAGATTTCCGTGAGTGCTCTGTAAGCTTTGCAAGT
GTTAGTTAATTAACAAGTCTGGAATTAGGTTTGGGAGACCAGAGACCTGGGCTCCCTGGGCCCTGCCAGGGATCAGCTGCATGACATCGAGTAAGTCATT
TCCAGCACTCTAGGCCTCAGTTTTCATGCCTTGACTAGAAGACCTGCAGGATTACATTCATAGTTAACTTTTATTGACCTCTTGCTACATGCCAAGGTCT
TTACACGTGTTAATCCATTTTATTCTCACAGTAGATCTGTCAGGGCAGCACTGTCAGCATTCACTATTATAGATGAGGAAACAAAGGCTGAGAGAGATTA
AGTAACAGGCTCAAGGTCACAGTCAGTGAATGGCAAAACGAAGATTTCAACTCAGGTTTGAATGATTCGCAAGACTACACTTTCCATTTTAGTTTTCCTC
ATTCAGTAAAATCAATCAGACTATTTTGGGGGGACCAAATTGCAACTCCCTACATAGGCAGCTGTGGCTAACATTTTGTTGTTGAATTATTGTAATAATT
GACAGAATAAATATTTATAAAAGTATTCAGATTAATAAAATGAGGATGAGATGATTGGCAATGAACTTGCATTTTGACTTTGCCCTAACATGTTTTCTTT
CTTCTGGATTGCAACTTTATGGAATGCATTTTATTAGTCATTTAGTTCCTGGCTAAAGGATGGATTGCATTTTTTTGTTTGAACCTACTCAGGGAGAGCT
GACAATTGCATCCTAACAAAGATAAAGTGACACTTTGGTCATCTCGAAGACATTCTTGAGGTTCAGAAGATTCCAGTAGGGAGTTTCTTAAATTCTTCAT
ATTTTGAAAATGTTCAGAACCCCTGAATATCCAGCAGTTTTGAAAATGTTCAGAAGCCTTGAACATCCAACAAGAACAACAATACTAAGTTCTTATATTT
ATATAAGTTTTATTTTTGTTTTATTCCTTAAGCAGTACCTGTGAAAAGTGATTCATTAAAAAATTTCATTTTCCACTTAGTACCATTAAGTCTTGATGAC
AATGGACTTGGAAAAAGAAAAGGAAAGAAAAGTGGGGATTACATTTTCTACTCTCTATAACACCAAAACACACCTCTCAAGATGACGAATGGGGAAGCAC
TGTGGTGGCATAGCAGAATTTATACAACCTCTGTTGAAAATCCCCTGTGTGCCTCATCCAAGCTGTGTGGGCAAGTTTCTTAACCCTTCACACGTCGAGT
TTCCTCATCTATCAAATAGGACTAATAACATTTACCTCTCAGGAAAATTGTTAGTATTGGGTAAGGATTGGTAGTATTAGATAGTATCGGATATCACTTA
ACAGCCGTATTATTGGAGCTGTTCAATAATTGTCCTTTTAAAATAGCAATAGCAGGTTTACAGCAATATAGTCACATCAGAATATAATATTTCTAAATGT
GTTTAATCCTTCCATCTTTTGATGTTGCTTGTTCTCACAGTGGAAATTGTGGATTCGGTAGAAGCTTATGCTACAATGCTGAGAAGCATCTTTGATTTCA
GTGCACTGAAAGAACTACTTTCTGGGCCAAACCGACTGAAGATCYGTATTGATGCTATGCATGGAGGTATACAATCATTTCTTTTCAATTCCCATCTCTT
GAGGATAGGAAGTTGCCCTCTTCTGTGTGTATCATGATGCTTCAACAAGCCTTTTCTCAAGTCTCTCTGATGGTTTTTAAATAGAGTTATTTTGCAACCA
GAGCAATATTCACACAGATAAAAATCTAATTGTATGTAGCAAAAATAGTAGAGACACTCCTCGTGGTAAGCTCGTGTGAAGGTCAGTGTTTCCACCTTAA
GCATCAGGTTCTGAGTAACATGCAACTGCTGTTGTGGACTCTCCCTCCCCCTCAGAAGATACCTTACATTCTTGCTGCATGCCCCCATGTATTTCTGAGA
GGACGGTCATTTGGGAGATGTGATAAACATACTCCTGAGCCCCACACCCCCACTCACCTGCCCCCAAATGCTCGTTTTCTTAGAAGAGGGCAAGAGCAAG
CTGAGGATTAAATTCAGGAGCAACATGATGTGTACAGCCCTCTCTTCTTCCTCCGTGGGTTGTGTGGTCAGGTCCATAGAGAGGGCAGCTATCACTGTGA
ACCAGAACCACGAGGGTTTTCTCAGACATGTAGGTATATGAGAATCCCTGAAACCTATACACATACATCTGCCTGGTYGGAGAAGCCTTTCTGCCTGCAA
CTGAACCCTTTTAGTGATGCAATTCGGGGATTCCTGTGACACTGCAAACCACAGAAAGTCTTCTGCTGGTGAACTAAAACCTTCCATCCTTGAAACTTCT
YCCCTTGGGTCCTAGCTGGCCTCTGGACTCCCATAGAATGGATCTACTTCCTTACTCAGACAAAAGCGATTCTGTCATTTTAAACCATTCAACAGATGTG
TATTGCATACCTGCAAAATGCATGCCTGGGGAATAGGCAGGAACTGGGCAGATTACTTTCTTCAAAGAATGTGCAATGTTTGGGGAGACGAAGTGGGTAA
AAAACTAACCCCGGGGTYGGGCGCGGTGGCTCACACCTGTAATCCCAACACTTTGAGAGGCCAAGGCAGGTGGATCATGGGGTCAGGAGTTCAAGACCAG
CCTGACCAACATGGTGAAACCCCATCTCTATAAAAGTCTCTATAAAAATACAAAAAATTAGTCGGGTGTGGTGGCACATGCCTGTAATCGCAGCTACTCA
GGRGGCTGAGGCAGGAGACTAGCTTGAATCCGGAAGGCGGAAGTTGTAGTGAGCGGAGATCACACCACTGCCCCCCAGCCTGGGCGACAAAGCAAGACTC
CGTCTCAAAAAAACAAAAAATCCCTAAAAAACTAACTCCTGCCAGGCCAACAAAATGAGAGTTGGAATTTCAAGTATTCTCTTTGGGGTTGGAAGAAGGC
ATAATTTGACTAGGTATAAAGAAAGGTTTCCTGGAAGAAGTGGCATCCAACTCAGTTCTTATGAAAGAAAGATCTAGAGTGATGAAAAATCAAGCAATGG
TCATTCTCATGGAGTCGGTGGCYGTGGCAAAGGCATGAAGGCTTAAAAATGGATGTCACATTAGGGAAACGAGAGGCCTGGGCTGGCTGGATAATGGGGC
ATGTGAGGAGGGCATTGGGTAAGAGGAGCTTCTCCGGAAGAAGACTACTTTTCTCCAGGTCTTTTGGCTGTTCCTCTAATGCTTTCGTTTCTATATCCCT
CACAGCCCTGGCTGCCTTGACCTCATTCTGTGGTGTGTCAGTAACCTGCTTAATAGGTGATGCCTCATAGGACACATTTATTCTACAGTGTTATGACCTC
TGGGGCATGTACTGTATTGGGATTAGTACCATCCTTGATGAAAATACTCTCTCAGCATTTCAGAGATGCGTGTTCTTGGTAGTTATATAAAATGTCACTG
TAAACATATGTAACTGGCTTCTCCTGTTGTTTGTTKTTGGTGGTGGGTTTTTTATTTTCTTTTTTTTTTGAGACGGAGTCTTGCCCTGTTGCCCAGGCTG
GAGTGCAGTGGTGCAATCTCAGCTCACTGTAACCTCCGCCTCCGAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCC
GCCACCAGGCCTGGCAAATCTTTGTGTATGCATGTGTGTGTCTGTGTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TATATATATATATATATTTTTTTTTTTTTTTTTTTTTTTTTTTTAAGTAGAGACAGGGTCTCACCATGTTGGCTGGGCTGGTCTCAAACTCCTGACCTCA
TGTGATCTGTCTGCCTCAGCCTCCCAAAGTACTGAAATTACAGGTGTGAGCCACCGTACCTGGCCTGTTTGTGTTTTTTTAATCAGTTTGTCAGCTAGCT
TGTCATAATATAAAGATAACAGCTCTGAATCCCAATTCCCACTTTTCCTAGCCATGTAAGTTTGGGCAAATGTCTTTACCTCAGAACACCAACATTCCAA
TGTATCTGTAAACTGCAGGTGATAATCATAATATAAACATTTATAACATATCTGCCAGGTACTATTCTCAGTACTTCATAGCTATTAACTCATTTAATCC
TTACATCAATCCTGTTAAGTAGTTAGCATTACTACCCTCATTTTGCAGATGGAAGAGACTGAGGCACAGAGAGTTTAAATAACTTTCCCAAAATTATTAT
ACAGCCAATGACTGGCAGAGCTGGGATTTGAACCCAGACACTCTGATTCCAGAGTCCAGGCTCTTAAGCTCTAAGCTGTACAACCTTCTGAGCTTTTCTG
AAGGACTGAATGGGAAAGCACAGGTATACCGCAGGGCCTTTATAATGGTTGGTTTCCTTTCCTTTCCCCACTCTGCCCTTCATGAACTGGCCCCACCTTT
TCCAACATAATCTCTCATTGTTCCTTTTTAGAGAACATTCTTCTCCAGTCAGGCGTATCTCTCCACTAGTCCCTGAACACATTTCACACATTCCTGTTGT
TTCTCATGCCATTCTTCTCCCCAGAATGCATCCACCTCACCCCTGAATCCTCACATACTTTAAGGAGTTTTATTTTCTGATTCTGCATAYWTTTATTCCA
TGCTGTATATAGTTGTGGGACCGTATGTAAAGAAGATCCTCTGTGAAGAACTCGGTGCCCCTGCGAACTCGGCAGTTAACTGCGTTCCTCTGGAGGACTT
TGGAGGCCACCACCCTGACCCCAACCTCACCTATGCAGCTGACCTGGTGGAGACCATGAAGTCAGGAGAGCATGATTTTGGGGCTGCCTTTGATGGAGAT
GGGGTGGGTATAAGTGCATTTAAGTGAACTCTGGTGCAGGCCAGGCCTGATCCTGCAGATGGGGAAAAAAGTGGGCTGCTTCTGCCAGACCCAGGGAATA
ACTGTTAAGGATCCCTCATTCTGACCCGAGGTCAGAACTAAATTATTAGAAGCCCCTCTTGAACAGGAATAGGAGTCATTGAAATGAAACCCAYACRTTT
AATTTCAGACATCCATACTTGCTAACAATGGCACGATGATTAGGTTCTGATTATGATAGAATGACTGGTATTTCCTGAGCTGGGTGAGTTCTAGATGCCT
GTCTTAAGGTGGGTTTCTGCTCTCAACCAGCAGCTGGCTACTTATTTAATCTCTGGACAAGATTTTGGTCTTATAATACACCCATTCATTCATTCACATG
AGCTGAATATTGAAGCTGTAATTTCATTGCCTATATGAAGATGATATTGAGAGAATTAACATTTTAATCATTCTCTACCATTAAAATGTTTAGAAATAAG
CTGTTTTATTTACAAGGGTGACTATGTACCAGACAAGGAAGAGATGTGTCTTAGGTTTATATCCCTGGTATCTCACTGATGGTAGGCACTGTATACATTT
ACTTAGTTGAAAATATATTTTTGTTGTTGCTAGTGTTACCATTAGCTAGAATCCACTGTTTCCTGAAAAATGATTTTTCCCTTATCAAAATGTTGGGAAA
TTAAAGGGGTTCCAGCAGACATTATTCTGTAGTACATCTTTGTGATGAGTGCATTCTGGGAGTGTTTTTTGGCCACCCTCCCAGTTACTGTGGTACACAG
ACTGTGGTACACAGTTTACCCAGTAGACCTACCAAACTATGTAAACAGCCAATATTTCTTCTCTCATTGCATTTTCCCCTCCCCTGGGAAAAAGATGATT
GGTTCCAGAGTCTGAAAAAAGTCTAGGAGGTTAAAGTTAGCTGGCCTCTGGAGGGAGAACAGAGGACTCAGCTCAAAAGGAGGTTGTGCTTGGACTTTAA
TTGAAAACAGTTTTAACTTTTTGGCATGGAGGTGCCTTCGGCCCAATGGTACTGTATAAACTCATTGAAAATAAAACCCAGTGTTAAAAATGCAGTATGG
AAAGGAGATCAATTTCAAATTTTATAGTTTTACATTTTATAAAACCCCCATGAAAGATAGTTTGATTTCTTATAGTTTGATTAAAAGGTCTTTCTTTGAT
CCTCTCTTCTCCCCAAGGATCGAAACATGATTCTGGGCAAGCATGGGTTCTTTGTGAACCCTTCAGACTCTGTGGCTGTCATTGCTGCCAACATCTTCAG
CATTCCGTATTTCCAGCAGACTGGGGTCCGCGGCTTTGCACGGAGCATGCCCACGAGTGGTGCTCTGGACCGGTAGGTGTCTCCATTCCCTTGGCCTTCC
TGTCTTAGGTCGTCCCAGTCTTCACCRTACCCTTCACTGTGCCTGGAACACGTGTCCTTCCCTTTCAGCATGGGCATCTGATGCATAGAGTGTGCTGAGC
GATTCTTGTGTGAGGGGATGGTTGGCTTTTTCTGGATTCAATGCCCCTCTCCGCACTCCCTTGGCACCCTGGGCCTCCTCCTCCTGGCACTTACCACACT
GTGTTCTAGTAGCTGTTTTCTTGATGGGCTGCCCTGCTAGACTGTATACTTCTGCAGAGAAAGGACTGTTTTGTTCACCATCTGGACTCTGCCTGACCAT
AGCGTGCCTGGCACATAGTAGGACAAACACACACACACACATACACGTATAATTTTTTAAAGTTAATGAATAGTTGAGTGTTAATGAATAACAATGGAAG
TACTCAAGACATCATTCTGGAGGATCACTTTTCTTTTGCAGTGTGCACAGAGTGTGGGTGAAAGAGCAGTTTGAAGTAATTTTAGAGTTTCAACGACTGG
ATCGCTCTTGCCCACACAAACACAGTGAATGTTTATATATCACTTCATTGTACAAAGGCTTTGAGGTGGCTTGTTAGATCACACTTAAAAAGTTGAAAAA
TGAAAGTCATAACAGATGAGGACCAGGGAAAACATTAGTTAGAATATGTCAGGTGTGCAGGAAATGTTTGATGAATAAAAGGTAAAGAATGAATGAATGA
ATAAAAGGTCAAGGCCAGGGAGGAAAGTAGGCTGTAATATATCTCTAGGCTCTTATAATAATAGCTGATATTTATTGAACATTACTTTGTTGTAGACACT
AAATATTTTGCATGTTTTAATTCATTTACTTCTCAGATGAACCCCATGAGGTAAATGCTGTATTTAACACCATTTTTCTGGTGGGAAAACCAAAGGACGA
AGAAGTAACTTACCTGAGGTCACCCAGCTGGTAAATGGCTGACTCAGGATTTGAACCCAGAGCCTTTGCTCCCACTCACTGGGCCATGCAGTTGTTTTCT
GTAGAGGGGAGATGGTTATAGAATTGGTGCTGACTTTGCTTCAGCTAACAAGAAAATAGCCACTAATATCCATATAGTGGTTTGTAGTTTGTATAGTGTT
TTTTTACATTCACCATCTCAATTGATCCTCACAGCAGACCTCATTTTAAGGAAGAGGAAATGGAAAGTCAGGGAAGTTAGCAGTCTTGTCCAAGATCTCA
CCACCAAATTAGAGCTAGCATTTGAGCCCAGCACGTCTACCATCAGGTCCTGCATTTGAAATTATGAGCTGGTTTGAGGTCACACTATCATATGTTAGGC
CTGTCAGGTCCTGGAATACCTTCTATGTCATCCAAGAACAGTGTAATTCCAATTTTTGGAAAAATTGATAATCCACATATAGAATCACAATTGAAGTACC
TCATTACCCAGATAAAAGTTTATTGTACTTTCATAGTTTTCAAAATCATAGATTTGATTTTTCCTCAAATATCAGAATGCAAAGCTGACATTGCTTTCCT
GGAAATAAGGCAAACATTCTGGGAAGCAAATCTCGCTCAAACAGTGAATGGAACTTATCAGGTAACTTTTCATGTTCAAAGGGAAAGGAATTTTTTTTTA
AGTCACTCAGAGGTTTTAAATAGTTTAAAGATACCTAGAGAGAAATAAAAGACGTGTTAGAAGGGAAGGGGAACCACTAATCAGTGTGGGTGAAGCCAGT
ACTTAGGGGAGACCCCACTGGGCGTTTCCCCTGGGGAGACTTCTGATGAGACAAAAGCAGCACTGACCAGAGAGCTGAATACTGGGCGGTCGGTCATCCT
GGCTTTGTGACCTTTGTCTGATCACATAACATTCTGGGCCCTGTTTCCTTCTCTGTAAAATGCTAACTGCCCAGACCCAGTATGTCATGATTCTGTGATT
ACAGGTGCATCAAAACATCATTCTTCTCTTCTTTATAGATTGATTATAGATGCAGTCTGTATCCAAAATGTGGATTTAAATAGCTTAAACAGCAGCCCTG
AACATTTTACTRCGGATGCTTCTTCTAAAATATTAAACTCCATGATCTGAATTAATTCTTTCTTCTTCCGCCTTCTCTGAATCCACATATAATAGCCCAT
TGTGCACAAGGTTTCTCTTATGATTTTCCACCAATCTTAGAATTATGTATGACTCTGAGCAATGCTAAATGGGACCCTTGATTACAATAACGATTGCCCT
TTTCCGTCCCTCACRTGGCYACGCTAACAGTCCTGCTGTGATGTAACTTTGATTTCATGCCTTTGAAGGGTGGCTAGTGCTACAAAGATTGCTTTGTATG
AGACCCCAACTGGCTGGAAGTTTTTTGGGAATTTGATGGACGCGAGCAAACTGTCCCTTTGTGGGGAGGAGAGCTTCGGGACCGGTAAGTCACACTCCTG
TGCTAGCATTTTCCTCCCTGTAACCACTATTTCCAGTAAAAGCTTAGACTGCTAAGGYAGCACTGAAATACCAACGGTAGCCGATGTGTCCTAAATCAAG
GCACAAATTATTTATAACAACCCTGATGAAATGTGCACATTTGAAAAGGGGTGAGCACATTCAGCCAGAAAGGCTAATTTTACTTTCAGAGGATCATATC
GACTCAGACAGGAAGTTGGGGGGCCTCCTCAGCAGCGTGGTCATTGAGTCTGCAGGGATTAAACAGAGCGATAAACAGATTTTTCTTCCTTCGGTGGTCA
AAGAAACCTTTATAAATGTTTTCATTTCTGAGAAGAAATACGGTGGAGCAAGTCGGTTTTTTGTTTTTATTTAAGAAGAGGTTTCAGCACAGCATTAAAT
CTTTCTCTTTTATAGGCCCAAGTTTTCTATAGCAGAGTAATCAAGGCTAAATGAAGGAAGACCATGAGGGTGGAACTAAGTTGCTAGGTGATCAAGAAAT
TAAAAATACATCGTTGTGCCTGAGGATGTTTGTGTAATTGTATTAATATTAGAGTGAAAGAAGGGTACATAGTATTCTCAGGGGATGACCCCAGACCTAT
AGACCTCACTCTCTGCGCTCTCCTTCCTCCTCTCTGCTTGTCCAAATATTGACCCGAACTCCCACCTCCTTCACGACCTTCTCTGCTACCTCATGCTGCC
TGTATCAGTCTCTCTTTCCTAAAAGTCTGTTCAGGTGTGTGGCCCTGTCCCATGTATCAGTCTCCGGCCAGGTTATAAGGTAGTTAAGTGACTGCATCTC
TTCTCCTTTTATTCCCTCTACCCAATATTTTTAAGTAAATRTGCTGATCTTGGTCCTATAGTACTCTACTGTCACCCTTTAGTGAAGAAAAGAAGATCAA
AATCAAGCATTCTCTCAGCTTTGCAATTGAGTTGCAATTCATGCCAGGTTAAACAGAACAGAATACTGACTTCATTTCCTTTCCTATAAGTCTGGAGGTA
GAGCAGGTAGAATGAGCTGCTAAATTGGAGGCACATATTTACAGAGTTCTAAGCAACTTGATATTTTCGAGAGTGGTAATATTCCTTGGCAATGAACTGC
CTTGATAGAATTGGAAGGTATGAAGAAGGCTGGATGAGTCTTGGGGTTGAACAACTTCCACAACAAAGGCTAGACAGTTTCCCAAAGTTGTGGGTGTTTA
AATCAGAGATTACAAGGCCACTGCTTAGTCCTTTTCTACTTCATATAATGGGCATGGTGCCATGCTATTCTGAGGGATACTACATGARTGCCCAATGAGC
CTATGAGGTGGYCTTCTCCCATGAAACTCCCCACAGGGTCATCTAGTTCAGGCCTGGCTTCAGTCATTCTTTATGAATGAAGATGTCTTTGAAGGCAGCA
ACTGTGTCAAAACCTTTGTTTTCCTGTTCTCCTGTACCAGTATCAGTGTTGAGCCTAGTGAAAAGATAAAAGTCTAGAGTCAGGTTTCCCAGAGCATGTG
AGTATGTGGAAGAATACTAGTTCCATGAGAGGGTTCTAGGGGTCAAGAAAAATTGGAAAAATTGGACCACACTTCTCTGTTTTGGATATTCACAATGATA
TTAGCATTTGAAGATTCCAGAACATTCTGCCATAAAGAATCCTGTTAGTACAGTTTTGCCTAAATATAGTTTACCACTAYATATAATAATTATGATGATA
TGATACAATATCATCACCACAATAATGATTATTATTATTATCATTTCGTAGTATGTACAGTAACTTCTTTTTCCACAGACCCATGTGGGAAGCCTTGGTC
AAGAGGGATCAGAGCCCCAGAGCCAAGTAGGAATCCCTGGTGCTGACCCACAGGGAACAGGCCTGAAGACAGGATAGCACAAGCTGCTCCTCTTACACAA
CAGGCCTTCAAATACAAGAAGCAGCTCTCAGGTCCTTCCTTCTTCAGGCCGTCCATCTTTGTTTCCTCCAGTCATTCCTCATTTCACATTGTTTATAGAC
TCAGTGCCAGACTCTAGGTGCTTCTGAGTTTGCCAGTGCCACTCTTAGAAGGTGATGCCCAGAACTGAGCCCAAATCTTCCAGGGTTGGCCTGGCAAGTG
AAGAGTGGGGTGGGATGATTATTTCTAGTGATTAGGACACTGTATTTTTCTTGACATAACTTTCCTTTATGTTAGTTTTTAGGAAGTTGCATAATACTGT
TTAGCCCACATAAGGTTGTGGGTAATTAAACCCTTAAAGTTTTTACCTAGAACTATTTGCCAAGGGAAGTCTCTCATGTTATGTTTGTGGAATTGATTTC
TTTGAACCAAAGTATTAGACTTTAGACTAYTGTTAAAGTTTGTTCTCATTTATTAACACATTCAACAAATACCTAGTACCAATCATGGTTTTAGCTTCTC
CTTGGTATATTTCATGTCCAAAGAGAGAATGCTCTTCATTATCATGAGGATAATCACAAGCTCTTTCTCTCTCTCTCTCTTCAAAAAAAGAAAATTTTTG
TGTAATATTTCTGAGATAAACATTTAAACAGCCAGGCTGCRTAGCCATAGATCGCTGTTGTGAACGAGTGCAGCTGGGCTTATTTAACTGAACTCCTGAT
CTTCTTATTTATAGAGGAGTTAATTTTTAGCAACCACGCCCCTTGCTAGTGAATGTTTCCAACAGTTCTTTCATAGAGTTTCTCAGGGTAGACATTAGTG
ACTCTATGAACTTTGAAACATTTGAATTCTATAGCTTAATTGAGCACAGAGTGCTTTATTTCTGTATTTTTCCAGGCGATAGGAGAGACAATTTCTYAAA
AACGTTTCCTTGACCTTTCAGAGTGGGCCAAATCCCCTGATTATTGGCTCTTGTGGCACCATGTACCTCTTCTTTGTTGTACTTGTTGCAGCTGTGATTT
TACAATTACTTATGGTTATTTGATTAATGTCTGTTGGCTGTATATGCCATGAGGACAGAGATCTTATGTGTCTTATCCTGCATTGTGTCCCTCGAGCCTC
CCGYAGAGCCCAGCATAGAACAGGTGCTCAGTAAACGCTTGTTGAATGAGTTCATGAACACTATTCACTTGGCACCTTCCATTTAGACAGATTCCTGCTA
TTGGAAAAGAAAGAACTTTAAAAGGTATCTGATGTAAATTCYTGTATGATGCTGGAACCATAGTGACTGGTCACTGCTTTCTGGCTGAACCACCCACCTC
AATGGAGAATCCACACCTCACCTCTTGCCGTAGTCTGGGACCCTTGTAATGACTCAACACCACTTCCACTCCACAGTCCAGGGTTGGGAACCCCAGGGTC
TTTGCGGGAAGAAATGCACTTTTACAAAAGAAAAGAAGTTTGCTTGCAAAGAGGTGCAAAGGAGTCTAACTTCAGGACTGGTCCACCGAGTAAAACAAAC
CACTARCATCTGCAGAACAATCTTGGAATATTACTAACATTATACATTAGTCTGTTTGTATACATTATACATTAGTCTGTTTGTGCTGGAGGAGCAGCAG
CTTTCTCACCTGGATATGGTAACCACAGAAGCTAGGTCACTTACTTCTTCAGAGGTCAGCATTACAAACACCAGGGATAAATGGGGACCAGAACTGGACA
GGATAAGCCTGTTGTTGTTTGTTGATCTCATGGTACAAAGCTGTTTTTTCTTCCTAACCGTGGATGATTATGTACATGTTTATACACAATGGTAGAGGGC
AGACTGTCAGTTCCATCCCACCTTAGAATTGTTGGGACTTTGAAAGTGAAGTCACTGAATAGTATACAATACCATGCATTTGAACCCTTCCTCAGGAAAA
TAGGGGGCTTGGGAAAGAGCGATGGGAAACCAGGTTGATGATGAACTTGGTATCACTTAGAGATATGTAAGTTATGATCTGGTCAGGTCTAGAGGCTAGC
AATATTTTTTCCCTGTCCTRTCTTTAAAGGTTCTAGTGCTAATGTATCATACAGGAGTGATAACTTAAAGAAATACAGCATTAACACTTTGCAAATTTCT
TTTAATTTTTAGTTTCWTATGAAAAGTCCTTCATGTTTGCACATTTTGCATTGATTCATTCCTCAAATATTTATTGAACTTTGATTTTATCCTGGATACT
GAGTTAGACTCTGGGACACATGGTGAACAAGGCCTTCTCATAGAGGGCTCCATGAATTACAGGTGTGCAAAGCAATAGAAGGTGAAGTACAGGGRTACTT
CGGGAGCTTTATTCTCAGGGTGCCTAACTTGGTTCTGTGGTGTAGGAGATCAGATTTTCTTTCTGGCTTTCTGCCCATTCTAAYTTGCATAGCTACTGAG
TACATTTCCCTGTAGGCAAAGCCCACAGGGGAAGATTGTAGCACCCCATGTCTGGGGATAGCCTAGACAGAATACGCCAGTAGAACTAGGCTTATACCCT
AATTATAACTCACTCATTTAAAGTGTTACCTGCCTGTCTGTCTCCCTCACCTGTATGTCTGTGCTCATCTGTGAGGGCAGGGGATACGCCTTGTGCATCT
TGGTATCTTCTTATGTGCTTGGTACATGCTGGCACTGATTCACATTTGTTGAGTGTAAAGTGAAGTTTGTGTTAGGACAGAGTTCCTGCTTATCAGGCAC
TTAAACTACCTTCTTCCAAAGGCACCTTATGGAAAGGAAACCAAGTTCCAGGGGCAGTAATGAGGCAGGTCAGGCCTCATTGCTAAGTGGAAGGCCTGAC
AGTTCCTGGGGCCAGCCTCCTGGGGACTGGAGTGGTCTGGAGAAGGCTTTCTGAGGAGCTCACCTTCCTTTCCAAGYGAAGTTGTTTGTGCAGTGGAAGA
CCAAGAGGACAGGACTGCAGACACAGCAGGTCAGCTGAGCCTCCCAGCCAGTCAACTGGGGCCCGGCCATTSTTTGGGCAGACTGTCTTAACAACTGACT
TTGGGCCAACCCCTGTTTGGGGAGTACAACTCATAGTCTAGGATACGGCGTGATCACAGGGAGTGGTAGAAGCACAGAGGGCATGGGGAGGGCATCCTGG
ATAAGACTGAAGTTGAAAGTAATTGCAGGACATGTTAGCCAGGCTAGTAGGTGTATGTGGAATGGGCTTTCCAGGCAGTGAGAACTGTATGTTCAGGGGG
CTGGAGGAGAGAGAGAAATTGACAGAAAAAGAAAGAGACAGACAGACACTGGTACTTTCAGGGAACTCCATGCAGCTGTTTTTCAGCTGTCATGCCCCCA
TCCTCAGGCCTGTCACCTGGCAGGGGCAGAAGCCAGGACAGCTCCTGAGATGCCCATACTGGTAAATGTAACCCAATCCCTAAACTGTTAGCTCTTGGCT
CCCTCAGGAATGGTTGACATTTTTCTTGGCTGAGACCCAGGATGTGCCCTGGCTGAGCCGAGTATGTGCTTATCACAAGGTGCTGATTAGGCCGAAGTAA
AGTGACAGGTGTTTGAAGATGCTGAAAGGGTAGAATTCCTGTCCCTGAGCGGAGCAAGGGTGAAGAGACCCAGTGCAAAACCCACCACTGTCTTTTGTGC
CAGCTGGGACTAGAAGTCCTTGCCCAGAGTGTTTTACCTTTCTCACAGTTAAATGAGCTTGGCTTCATTCTCTTTCTAAAATTAAAACATAATGAAACAA
GTAATTTATGTTCATTATGAGAAATAAGGAAGGAGGAAAAAAACACTAATCCCAGTGCCCAGAGGAAAGAGCATATTAGGTTATATTCTTCCATTTTCTT
CTCCAATATGTACAATCAAGGAGCATTATTTTTAAAAGCATAATAAAGTCAGTGGAAAATGTAATAATTTTCCATAAAAGCCTTTTATTTTTCCCTTTAT
TCGAAACAGTATCTAGTAGTTACATTACACCTCACAATGTATAAACTATTTCTACTTGCTTTTTCGTAGTAATTTCTCACAGTTATGAGAGAGAAGTTAG
CATTATTTCTGTTTTGCAGTTGAAGAAACTGAGGCTCAGAAAATGTGATTTGTCCAAATTCAAGTAGTTTACAAGTAACAGAGCCTCAAATTCAGGTTTA
TCTGATTCTTAAGTATCAAGCTTTATCTGCTGAGCCACAGAAAATGTGATTTGTCCAAATTCAAGTAGTTTACAAGTAACAGAGCCTCAAATTCAGGTTT
ATCTGATTCTTAAGTATCAAGCTTTATCTACTGAGCCACAACTGCAAAAAGAATAGCTTTAGAAACACGTACCTGCACCATTGGTATTTTCCACTGGAAA
CTTGGCATCATTCATCAGAACCCTGAAGAAAATGAAATTTGCTCCAACTTCCTGAGTATTAATTGAATTACCTGGAATTTTTGATACATCCAAGGTGATT
AGTGATGAACCAGAATATCCAAAGAGGCTGAGGATTATGCAATTGGAATTGGATATTTGTTTATGTTACCCAGGGCAGGTATTTTGTTTATAGTATTAGG
TGTATGATTTAGTTATCTCCAAGTAACTTGGCCAGAGTTGGGTAAGATTTTTAGATTTTATTTTCATTTCCACATAAAAGAAAAAATCAAATTCCTTGCT
TAGGGCAGGAAAAGCCACAAGGAACACTGCCTTCTATGCTTTCAGTCTAGCCAAAAGAGAAAAAAGAAAAAAAAATTAAGGAGAAAAAGAAGGAAGAAAA
AAACCCAGTGGGGCACAGACAAATAATTCCAAGCTGTATATGCTGTCATGAATTCCCAATATATTAGGGAAGCTGCCAGAATCTTGCTTCTCAGGATGAA
CTGTTGCCAAAACATATCATTTGCAAAAGCCGTAAGAGCCAGAGAGCTTTTTGCTCCTTAAAATAGCAGTAAGGGCAAATAAAAGTCTAAAGATAGTAAA
ATTAGGTAAACATTTTTAAAATATGTTATATAAAGCACTAAAAATATTGCCTACTCTCTAGTTTTGCCTGCATCCGGGTTTTGAGGACTGTTAACTTCTA
AAAGTAGTATCCTATTGAAGAGAAAAGTCTTTTGAAAGAAAAAGTCATGTTTTTTTAAGAACCAAAAATAGAAAGAGAAAGTGTTGGAGTAAATTGATTG
GTTGATTCATTCACACAGTCTTTCATAATTAGTTATTTACCGTATTCCTTGTGCTATGCTRGTCACCAGACTTAATTACAAGGATAAATAAGAGATGCCC
GTAAGAAGCACACAGTTAGTGGGGAGAAAGGCTCACAAACAGATGGTTGAGACTCGAGGAGGCTGATGCCACCCCAGATGTTTTGTGCAGGTTGCTACAG
GAGAAGAAAGAGAAGGGAGTTCATGACTGCCTAGGGAAGTTGGGAGCTAGTCTTAAAAAAGAGAGGACATTTGAGCTGGGTCTGAAAAGATGAAGAGAGG
AAGGAAAAACACCACGTGCCTCCTGCATACCCAGCATGGTGCTAGATACTCTAACAATTCCAAGAAGAATAAGACCAGYGGGAAGTGCAGTAGGGCAGGC
ACATAAAGAATTCAACATAGGATAATGTGAGAGCATGATTATAGAGCAATTGTGTACAGTTCTATTCAGAAATCAGAAAATAAGGCTCCATGTAGACTGC
TTTCTTTCAGAATAAAGAGTTTAAAGGCAAAAAAATGAGAGTTGTGTTCCATATCAGGCTCTTGGAAAAGGGTGTCCATGCATATAAGCACATCCTCCCG
AGAAGCCCATTTTAAAATTTTGTTAAAGATTTTAGCAAGGACCTTAGCAGGAGACAGATGTCTCCTTTAAGAGACATCATTAAGGTTTGTTTAACCAAAC
CTTAATGGTTAAAGAACAGTGTCTTGGAGTTGCTGGATCCATGAGTAGGTCCAATTTGAAGGSTTTGATCCTTTTTTGCCAAATTGATGTCCAGAAGGAT
TGTGCCAGCGTCCACTCCCACCAGCTCTTTGGTGGAATCCCGTTTCCCTTTTATTCTCCTGGCACTGGCTGTTCGGATTTTTACACTTGTGGATTTTTAC
ACCTTTTGTCAAGCAAGTAGCAGTTTCTCATTGTGGTTTTAACTTTAATTTTTCTTCTTAAAAATAACACCAGCTTTTTATTATACTAATTGGTTGGGTG
TATGTGTCTATGTGTATTGTTTGGCAAATCGCCTATTGATATCCTTGGCCTGTTTTTCTATTGAAATTCTTTTTTCTTATTCATACATAAGAATTTTTTC
TATATTGAATGTATTAAACATCTGCCTTAAAATATATCAAATGTGGCCGGGCATGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCGGA
TGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTACTAAAACTACAAAAATTAGCTGAGCATGGTGGCGGGCA
CCTATAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAGCCTGGGGGGCAGAGGTTGCAGTGAGCCAAGATCATGCCACTTTACTCCAGCC
TGGGCGAAAGAGCGAAACTCCGTCTCAAAAAATAAAATTTTACATATATATATATAGTATATAAATATATATATATATAGATATATATCCACTTTTAAAC
AACCAGATCTCTTTAATTTTTTAAAGTTTGTCAATGGGCTTTTAATTTTGTCCATAGTAGTTTTACACTATAGAAATGCTGATTTTTAAGTAGATAAATA
CATCAGTGTTTTCTTTTATGAATACCGAATTTACATTATTTATCACCCCTAAGATTTATATATATAAATATATAAAAAGACATGTATATTAATATAATAT
ATACTAGTATTTAAAAGCTTTCAGGTTTTACATTCGAATTTTTAGTTCAACTGGAATTATTTTTGTTATGGTGTTTTATAGGGAAGAAAACAATTTTTTA
AAGCTATTTATCCAGTTATCCAAACGCCATTTAAAAAGTAATCTACTCTTTTCCCACAGCCTTGCAGTGAGACCTTTGTCATACTCAAGCCTCWTGTGTG
CTTGGATCTCTTTCCAGATGCACTCTTGTTCTATTAAGCTACCAGACTATTTGAATTATTGAAATTTTGTAATGGTCATGTTCTTCTGCTGTTTGTTCAT
TTAAGATCTATTGTGTTTTCTCTTCACATTAATACTTTATAACTGATATATCAAATTCCACCTAATTATCTCACTGACATTTTTATTGACTTATGCCTTA
CATTTCTAAATCACTTTGGGAAGCATCAATTTCTTTTCAGTATCATGTTGCCTACTTAATATGTGATTCCTCCTGTATACCCAAGTCCTCAGTCAGGCAG
TGTGACTCTTTTATTTGGGTCTGCACACCTACTGTTGAGTACTGTATTAGTCTGTTCTCACACTGCTATAAAGAACTACCTGAGACTGGGTAATTTATGA
AGAAAAGAGGTTTAATTGACTCACAGTTCTGCAGGCTGTACAGGAACCATGGCTGGGAGGCCTCAGGAAAYGTACAATCATGGCAGAACAATGAAGAGGC
AGCCGGCACCTTCTTCACATGGCTGCAGGAGAGAGAGWGTGAAGGGGGAAGTGCTATATACTTTTAAACAACCAGATCTCATGAGAACTCACTTACTATC
ACCAGAACAGCAAGGGGGAACTTTGTCCCCCATGATCCAATCACTTCCCATCACGTCCCTCCCTCAACATGAGATTTGGGTGGGGATGCAGAGCCAAACC
ATATCAAGTACCTTCTCAGGTACTGGGAGAAAGCACGTTTCTTACAGCAGCTTGCTGTCCCCCCTCCAGGTTCTGACCACATCCGTGAGAAAGATGGACT
GTGGGCTGTCCTTGCCTGGCTCTCCATCCTAGCCACCCGCAAGCAGAGTGTGGAGGACATTCTCAAAGATCATTGGCAAAAGYATGGCCGGAATTTCTTC
ACCAGGTGAGCYACAGCCCAGCTGGGGTACAAGGTAAGGTGGGGAAGTGGGCAGAGAGAATTCTTGCGCATCCACAGCCTCTCCTGTCTTAAGTGCTAAT
AAAACCCTAGKTCATCCAGCCTCTCTCAATTGGAGACTTTAAAAATAATCTGGTCAGGGATGAAATGAAGTCAATTTTTATGTCAGCCATAAAGAGTGAG
GCTTTAAAAGTTTAGCTAACATAATCAAAAGAATAAATGCTTTATAAGCATTTTAAATGTGTCCATTGGGTGGACATGATCATAACATTGGATTTGGATT
CAGAGAAATGGATTAGAATTTTATTTCTTCCCCTTACTAGAYTGGGGAGCCATTTAGCTTTTCTCTGTACTCAGTTTTGTCATCTGTAGAAATGGGAATA
ACAGTCCAGCTGTTGAGAGGATTAAATGAATAATGAGTCTGAAAATGTTTTGTTAACTTTGGGGCACTGAAAGCCTAGAAACTTTTTTTCATAAATTATA
GAAACAGTTATGCTTAGTCCACATCGACTTTTCTGCCTTGTGAAATAGGTCCCCAAGGGCTATATACTTGTCAATAATTTTTTTAATTTATTCAACAGAT
ATTTACTGTATACCCGATTTCCATCGGGTACTTGGAATTCAGCAGTGAACAAAATACTTAGAATACTTAGTAATTATTCCTTATCATGCGTACTTCTATT
TTTAAAAAGCATTAAAAAATTTTTGACAGTAGTACTTTTCACTAATTCCAATTTGCCTTTCCCCCAGTTAGTGTAAAAATCTAACAAGAATTTTTCTGGA
CCTCAGTATTCCAATTATAGAGAGAAAATATGGTAAAAAGGATATTAGATGAATTGTTTATGTATAAGAAATGAATAGGTGTAATTTCTCTGGACCTCAG
TTGCCTGTTCTATAAAATGGGTGAGTTAGACTAGAGAATTTAAAAAATATATCCCAGATTTTATAGTCCGTGATCTCTGGATAGTCAAGAAAGAATTCAA
CTAAGTAAATTAAGCTCCTTAATCAGAATTATTTTATTAACTTTGGACGGATTCATTGATCTCTTTCTCTCTCACGTTACTGTTTTGTGGAAGGAATAAG
TAATAACTACCTGACACCACACAGTAGCCCTGGGAACCAAGGCAAAAAAATCCCTACTTTATAACAGACAGAAAAACCTGGTCATTCAGAACAGCAGTCA
TGAACTGTCTAGAACCTAGAGTATCATAAAAACAAGGCCATGTCTGTTTTTGTGCCCTAAGCACCCAACTCATAGTAGAGACTGCATAAATACGTTTTGA
ACCGATAAATGAATGAGTTAACAGGTGAACAATAGCCAGAGTAGAATAAGGTTAGGAGGGGTTGTTCAGAGAAAGGGTCACACCCTTGAATTAGTCACAA
TCCTCCATATAAAAACTATTTTAACATGATTTTATTAATTATCAAATATAATTGCTAACCAAGTATTACAAATCAAATCCTTAGTACCTGCATTTATGAT
TAGTTAAAACTCCATTATACCTTCCACTTACTGAACAAAAGCGCTAGGCACTTTTGCATGCATTGTCTCACTTTAGCCTCAAAACAGTTATTGATAAGGT
AGCTGAGATTCTGAGAGATAGGGCAGCTGGCCCTGTAGTCACACAATTAATAGCCAATAGAGGCTGGATTCATAGCTCATCTGTCTGATTGCAAAACCCA
GACTCTTCTATTCCACCCCTCTGTGCCTAGGGTTTAGAAAACATTTCTCTGGAGTACCCAGAGGTCAAAAATGTAAAGCACAAACACCTGGTTGTAATTT
CTTGTTGTTTATCATGTTAACTAGGGGAAAGAGCTGACTTTAAGATTAAGGGGACTGTTTGGCCCTTGATTCATAGAATCCTGGAGCCAGAATAGGCTGG
CCTTAATTCCTCAGCATTTCTCATGTCTCAGAGGTGTCATCTTGCATATATGATATCTATTTCACGATTACAAATAAATATAGACTCTGCTATCTTGAGC
TTCTAAAAAATAACTCTCTCAAGAGGGTGTATGCCACTAGGTCAAGAAAAGCCACCTGTACAAGTCTTTAACATCATAAGAAAGAAGTCAAAAAGAATTC
TTGAAGGAAAACTCATCTTTATAGAATTTCATTTGTGATGCACTTTTTTCCTTGGCCCTTTTTCATCCGCACTGGGCCTCTTCTGTCAGGGTGAACCCAA
AGGACCTTGGACCAAAATCCACTGCCACTGAAAGGAGGGAGGCAGAACTTAAAATAAAACAAAATTTAAAAAAAAAAATTGGGAGAGCATCAGGATAAAC
AGCTAATGCATTTGGGGCTTAATTCCTAGGTGATGGGTTGATAGGTGCGGCAAATCACCATGGCACATTTACCTATATAACAAACCTGCACGTTCTGCAC
ATGTATCTTGAAACTTACTAAAATTAATGAAAAAAAAAAAGGCATTTTAGATGTAAAGAGTCAGTGTTTGGCGTCTTCATCTGGTCGGTGAAAACTTGGC
CCTGCTTTAGGAAGCTCCTGTGGAGCTGGAACTCTGCTTAGTCAAAATCTCAGCAGCCTCAGGCAGGTCTCAGGCTGGGAGCAGGCCCAGCATTCACCCC
AGAGAAGCCCAGGGAGCTTGGAGGAGAAGTGCCTGAGTCACGTGCTCCTTTCAAGAGAGTTCTCCAGAGATAACATTGCTTTTCATTTTACCTCCTCAGG
ATGTGGTGACTAAATGTTAGATAGCATCTTTCAAAAGCCTTTGAAACATCTTAGAGCTTTATTCTGTAGAAATGCCAAGATGGGTGTTTTCTGCTTATTC
AGAAGCTCATAACCCTTCCCTGAAATCCTCCAAACCCTTCCTTTCATCCCTGGCCTGTTCCATCCCCAGTGACTGACAGGCCTGTATTTTTTTTGCCAGC
TTCTTCTGAAGTTAGATAGTTTTGCGGGAGGGCCAAACAAATGATGAAGAAAGTGCTGACTGATAGGCCTTGGTGTGATCTGCAGTCAGCCCGTGGGCCT
CAACTTCGTGACTTCTTCCAGGTATGATTACGAGGAGGTGGAAGCTGAGGGCGCAAACAAAATGATGAAGGACTTGGAGGCCCTGATGTTTGATCGCTCC
TTTGTGGGGAAGCAGTTCTCAGCAAATGACAAAGTTTACACTGTGGAGAAGGCCGATAACTTTGAATACAGCGACCCAGTGGATGGAAGCATTTCAAGAA
ATCAGGTAGAAACAGACCKGTGTGTAAGTGAGAGAGAGACCTCAGAGCTTCATCTCTGACATCTCAAGGGAAAAATTAAAAAGTTCCTGTTGGCTATTTT
TCTTTTGCTGCTGTGTTTTTCTAGGGTAGCTGTTCTTACCTGGTTTTCTGCTGTCCCACGTGACTCTCACATGCACTCGTTGGGACAGTGGTTTATGCCC
TTGTTCTGTGCACTGTCCARTACCCTCATTCTGGGATTCTTAACCTGGACTCCAGAGGGATTTTTGCACTCTCTGGAATGATATGCAAGATGATGTGTCC
ATTGTACATGCAGAAAGGAGCCCCAGAATCTAAGAAAGAGGGAGAACTGTGGGAACTTAGATGTCAACTCCTCTCTTTTCTGTCAGCAGATTATRGCAGA
GTGACAGCATGTAAGTGGCATTATACTTATACGTTTCTCTCGTATGTTCTAATTTCTAAAGGAGAGAAAAATAGATGAGGCATTCCCAGACTTAGAAACG
TTGACCATCGTCATTCGCAGCACATGAGTGGCACCCCACCTAACACAGCAGTACCTGGCAAGACGCCACAGTTTAGGACCTGGAGCATCTCTAGATGTGG
ACAGAATTGTTAGTGCTTCCCTTACTGTGTGCCGGGTACCCTAGGCTGCAGGCTGGGTCAGGCTTTCTCCTGGCTTCTCATGAACACTTACGCMCCAGGG
TTCTCTCACCTCTGCTTCTGTTGCCTGTTGKCACAGAGTAAACTCATCTCTCACAATTCATAATAGAATAAAGAGCAGGATGAAGATTCTGTTACAACCT
CCCAGTTTACTTTTTTCCAATTGACCCAGATTTTTGGCCTGGTCCTTGTCAAGGCATCTCATAGGGTTTGGAAGGGCCGGGCCGTGGGATTTACTGGAGG
CTTCCCTCTGGGGAGCAGGCAGTGAATGGATGGATGGGCCACAGCAACCCTCAGTGCCTGGAGTCTCCCCTCCTCAACTTCTAGCACAAGTGGTTTCTCA
TCCTTGTGCCTGTTTGCCATTTGTGAGAACTTGGGGTCCAGTTTGGATGATTGTAAATTATGCCTGAGATAATTAGAAGAGAGACCTGTGGTTGAGGAAG
AAAGGGGTGTAGAAAAGGAGTGGAGCTGAGGGATGGCAGAGTGGGACAGAAGTTTGTGTCATTAAGCCTTCAGAGACAGAAGGGAAGTCAAGGAAAAGTA
AATCCCAGCTCTGCAGTGCCTCTGGCATCTGCCAGGAGGGAGAAGAGGTGTAAAGGTGTGTATAGGAGACAGTGGCCTAAGCYCGAGAGCTGCCCTCTGT
GCTGTAAAGAAAGCAGCTGCCCCACTTTCTGTAATCAGAAAATCCAAGCATTTTGATGTGAGACCAGATAGGAGGGAAAAATATGATCCAACATATRTAG
ATAGAACATCTGCAATCTAGTGAAAAGAATTTTAGAGGCTTCAAGTTGAAGCTGTGARGAAAGGAGACCAACCCTGGTGTGTTCCTAGAAAGCAAGAAAT
GGTCAGTGAAAATGGACCGTATCCTTCCCATAGTGACTAACTGTGGCATATCCTCTGTGTATTTCATCTACTGTCTTCACTAATCAGTGCTAATGAATGG
CACCATTAAACACCAGATGGGGATTGGTGACGAACAGCAGGTGAAGAGCAGCATCTTTTTGGTCAGTCTTTGGTGTTATGCAAGGTTCTCCTTTTTACAG
AGGATGGATAGACTCATAAAGACTGAAGAGTCCTCAGGCAACTTCTGTCCCAGCCTTCTTCCCTCAGGTTGGGAAATATCTACCCCAGAGTTCCCACACA
TTTTTCCCCAAGTGAGAAGATAATTGAYGTCCAGAGATACCGCTGGGGAGGAAAAAGAGAGGGCAGCAGAGAGAAGGATGGGCTTGGCACTTCACACGGA
CCTCGCTTTGGGTCCATCAGGGATTGGCAGGAGATTGGCCACTGGCTCCTGCTTGTTAGGTTGGGAATAGCCAGTCTCTGCCATTTGGGACCTCTGACTT
CCTGTTCTCTTTTGAGGACCTTTGCTAGTGGTTTGTAAGAGTCCTTCCCCTCATCTGCCTGAAACCTCTTCAGCTCTGGTTTCAGCCCCTTTGGTCCATG
TTTCCCTCTTGATCTGGGGGCTGAATTTTTGCATCTAGCAGCTTTATGTGCTTCATTATTAAGCTTCAAACTGGAATGGTTAGTCCATAAATCACAGGGA
AGTGGGGAGAGGAGGGAAGCCCTCACATCACCCAGCATCACTGAGGTCAGGTCTCCCCTGACCCTGGAAATGCTTCTCCCACCGTAGCTAAGCCCCCATC
AGCTGGATGCAGAGAGGGTGACGGAAGGCAGGCTCACAAGGTGCAGCTGCTGCCATTTATCAAGGATTTAACCCTCCARTGAWCAAGTATGGATGAAATT
ACATCCCCAAATAGACCCCTCATAATTTGCCAGCCTTCAGTCTCCCAGCATTTGGGGAAAAAAATCTCTGCTTATCTTTTCCAGGGCTTGCGCCTCATTT
TCACAGATGGTTCTCGAATYRTCTTCCGACTGAGCGGCACTGGGAGTGCCGGGGCCACCATTCGGCTGTACATCGATAGCTATGAGAAGGACGTTGCCAA
GATTAACCAGGACCCCCAGGTAACGCCYAGCCCTGTGCCCTGGTTAGTTCTTTCTGTTCAAGGGAATGATAGTTTCCCATTGAGCCTGTGTTTCAATGCC
CATTTCTCAAATGACTCAACAAGGTACCAGCTGTGCTTACTTTCTTCCATGTTTCTTTCTCCATGTCAACATTATAGATAATAATTATAATAATAAAAAT
AGGGAGGCTGAGGTGGGAGGATCACCTGAGCCCAGGAGGTCAAGCCTGCAGTGAGCCAAGATCACACCACTGCACTTCAGCCTGAGCAAGAGTGAGACCT
TATATCAAAAATTAATTAATTAATTAATTAAAAATAAAAAATTTTCTGAGCATTTATGGTTTGCCAGGCTGTGTTGTAAGCCCATTATGAAAATATACTC
ATTTAATTCTCAAATAACTTAGACTGTTATTCTCCCTGCTACAGATAAGGAAACTGAGGCACAGAAAAGTTAAGCAACAGTTAATAGGTTTACATGCCTA
GTAAGGATAATGAATCTCTCTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTCAGCTCACTGC
AACATCCACCTTCTGGGCTCAAGCAATCCTCCTACCTCAGCTACCTGAGTAGCTCGGATTACAGGCACGTGCCACCATGCTCTGCTCATTTCCTTTTTTT
TTTTTTTCTTTTTGTAGGGAGGAGGTCTTAGTACATTGCCTAGGCTGGTCTTGAATTCCTAGCCTCAAGTAATCCTCCTACCTCAGCCTCCCAAAGTGCT
GGGATTATATGTGTGAGCCACTGCACCCAACCCAGGATAATTGGTCTTTAAATCAGCCCCTCATCTGGTGTTCTGCTCTGTCTGCAGCATTTTGTTGCTT
TGTTTGGTCTGATCACCTGCTTGGGCAGAACACACCACTGGGTCTTAGATTTGGTGGGGGCAGGGAGAGGCAGTTTCATGTGTCTTCACAGAACAGTCTG
CAGACCTGCAGCTTGGTAAGCTGGGTTCCTCAGCCATTCCCCCAAAAGTCTTCAGAAGTATATCAGAGTAAGGAGGGACTCTGGGAGCAAAGGGTGGGAC
AGTGAACTTGAAGGACAACCCCCAAAAATGGAGGAGCCAAGGGGAAGCAGTGAAGGACAGGACAGTTTCTTTAAGTGTTTTTCACAATCCTTATCTCAAC
CAGAGCTCCATAGCTTAAAAAAAAGTTGGGGAAGTGTTGTGGTATATTAGCCCCTTCTTGGTGATTCACAGCATACAATGCAATGCACCATAAAGGCTCC
AAGATTTCGGACATGGTGGCCTRCACCTGTGGTCCCAGCTACTCAGGAAGCTGAGGCAGGAAGATCACTTGAGCGTAGGAGTTCTGGGCTATAGTGTGCT
ATGCCTGTCGGGTGTCTGCACTAAGTTTGGCATCAATATGGTACCTCCCGAGAGGGGAACCACCAGGTTGCATAAGGAGGGGTGAACCGGCCCAAGTTGG
AAACAGAGCAGGTCAAAACTCCCATGCCGATGAGTAGTGGGATTGCACCTGTGAATACCCACTGCRCTTCAGCCTGGTGACATAGCAAGACCCCATCTCT
AAAAAAAGAAAAGGAAAGAAAAAAAGAGGGTGCTGAGAAGACTTGCAGTAAAGGTGCCTGTTTACATAGCATTTGCTGAAGGACATTTCTCCAAAGAAAA
CATACAAATGGCCAACAGGCGTATGAAAAGGTGGTCCACATCACTAATCATCAGGGAARTGAAAATCAAAACCACAATGAGCTGTCACCTCACACCTGTT
AGGATGGCTGTTCTCAAAAAGACAAAAGATAACAAGTRTTGGGAAGGATGTGGAGAAAAGGGAACCATCAGACACTATTGGTGGGAATATAAATTGGTAT
AGCTATTTTGGAATAACCAAAATATGGAGGTTCCTCAAAAAGTTAAAAATATTTTAGTACTAATATACGATCCAGTAATCCCTCTTCTGGGTATATATTC
AGAGGAACTGAAATAAATATGTCAAAGAGATATCTGTTCTCTCTTGTTCATTCAATATTATTCACAATAGTCAAGATATGGAACCAGCCTAAGTGCCCAT
CTACAGATGAATGAAGACATTGTGGTGTGTGTGTGTGTGTGTGTGTGTGKGTGTGTGTGTATACCACAATGGAAAATTATTCTGCCTTAAAACAACAAAA
ACCAAAATCTTGCCAATCTTGCCATTTGCAATAACATGGATGAACCTGGAGGACATTATGCTAAGTGAAATAAGCCAGACACAGAAAGGCAAATACTGCA
TGATTTCACTTGTATGTGGGATCTAAAAAAAGTGAATCTCATAGAAACAGAGCAGAAAGGGGCTTACTAGGGGGTAGTGAATGGGGRAAATGGAGAGATA
TTGGTCCAAAGGGTACAAAATTTCAGTTATGTAGGATGTAGCAGTTCTAGAGATGGAATGTACAACATGATGGCTATAATGAATAACACTTGAAATGTAC
TAGGAGAATAGATCTTAATTGTTCTCACTATCACCACCACAACAAAAAAGGTAAGTAGGTGACAAGATTGATAATGTTAGTTGGCTTGACTCTAGTAATC
AGTTCACTATGTATTTGTATATCAAGACATCATATTATATACCTTAAACATAAACAATTTTTATTAAAAAATTGAAAGTAAAATAAAATAAATAGCATTT
GCCATGCTTATTTTTCCACAAAGGCTTTTTTCTTTTAACACCTAATTAAAATCCTGTGAAACTCATTTGGAAACCCCTGGCATAGTGGTTTTGAGCAAAG
TTAAAGAGATCTTGTTTTAAATTCTWTTCCTGCCACTTAATAACTGTGTGTCCCTGGGTAAGTTGTTACAATTTTATGAATCTTGGTTTCCTTGTCTGTC
AAATGGCAGAGTAATACCTACTTCATCTAGTTGTTACCGGGGTTTAAGGAGATAATAAATGTAAAATGTTTAAACACTGTGGCTGGCATATAGGATTAAC
TTTTCAGAATAAGCAGCACTCTTAGTTTTTTTAGTCTAAYTTTAAGTGTAACATAATGCTATTATAACCATTTTTAAGTATATAGTTTAGTAATGTTGTA
CRTATTCATATTGTTGTCCAACGTATCTCTAAAACTTTTTTCCCCCAAAACTAAAACTCTRTACCCATTGAACAGCACCTCCCTGCTTCTCCCTTTTCAC
AATCCCTGGTACCACCTTTCTCCTTCCTGTGTCTGTGAATTTGACCATTGTAGGTACCTCACATGAGTAGTATAGTTGCTTTTATTACAGAAAGTGGGAG
ATGAGAGAATGCTTCACTTTTACATTTTTTCCAGTGGCCAGGCCCCAGTTTCAGTCATCACCAGTACCTTGTTGTGTTGTAGGCATCCCTAAAACTTCAA
CCAAAGGCAATGGGGTCTGCATTATAGACACTTAATAGCACAAGAGAAAAGGAAGAAGGAAATTGTGTTTGTCTTTTGATCATCAAGATAAATGCCTGGC
ACGTGGTAGATTCAAAGAGTGAATGAAATTTGTTTCCTCTGAACCATAGTCCTCAGCAGGTGGAATGGCAGTGGATGGTGTGAGGTTCCCACAATGCCCA
GGTGTATCACCATCTAGCCGGGGAGCTGCCTTTCCTTATTCTGCAGCTGCTAGGCCATCAGCACTTTGTGGGGACTGCCCAAGCCCTAAGGGGAAATGTG
GTAGTTTCAGCAGGTGGAGTTGATTCTCCTTTTCCAGGTATAATGGATCRGTGGAGATTTAGATAAGAAAAAGTAGCAKTCAGCAGTAGAAAATGTACTA
CTCCTGGCTCTGCTATTGAGTCATTTAGTCAAATCACTTCATCTCTTTGGGTATCAGTTTTCTCATCTGTAAAATGGGCAGTTMAACCAGATTAGTAGTT
TTTTTTTTTTTTTTAATATTGAAAGCAYTTATTAAGCAACAGAATTCTCTCTTTTTTTTTTTTTTCTTTAAGCGAGAAGTAGATGTGGGGAGGGGTTGTT
GCATTTTTAAAGATTCCTGTATTAGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTCGGGA
GTTCAAGACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCCGGGCGTGRTGGCGCATGCCTGTAATCCCAGTCACTAGA
GAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGCCAGAGATTGTGGTGAGCCAAGATCGCAGCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTC
CATCTCAAAAAAAAAAAAAAAGATTCCTGTATTAGTCTGTTTTCACACTGCTGATAAAGACATACCTGAGACTGGGCAATTTACAAAAGAAAGAGGTTTA
ATTGGACTTACACTTCACGTGGCTGGGGAAGCCTCACAATCATGGTGGAAGGCAAGAAAGAGCAAGTCATGTCTTACATGAATGGCAGCAGGCAAAAGAG
AGAAATTGTGCAGGGAAACTCCTGTTTTTAAAACCATTAGATCTCATGAGACCCATTCACTATCATGAGAACAGCACAGAAAAGACCCACCCCCATGATT
CAATCATCTCCCACCGGGTCCCTCCCACAACAYTTGGGAATTATGGGAGCTACAAGATGAGATTTGAGTGGGGACACAGAGCCAAACCACATCAGTCCCA
TTGGGWACAGTRTGGGAAAGAAATTGGAAGATGCACAAGTGGATGTGGAGGCACTCACTGCTCCAGGTAAGAGACAGGACATTGACTTAGCAAGACTTAA
CAGCAGGAGAGWGGAGAGAAAAGGGGGCCATGGAGAGAGATTTAGCGGGGAAAAGTCATTKAGGCCTGCTCATGGACTGGGCATGGGGAAAATGCAGAGG
AAGATGTCAGGAGCAACTCCTAGTTGTTCACTTTACATGAAAGACTGTAGTGTYGATCCACTGAAATAGAAACTGCTGGAACTAGGTATTGGGGGAAATA
ACATGTGTTTGTTTTTGGATTTGTGGAGTKTGAGGAGCCTTGGAGACCTGGAAGTAGGCAGTCAGACGTACGGGTTTGGAGCTAAGCATCTGTGTTTAGA
GGAAGTGATGGAAAAKCTTCTCTCTATGTCTTCCTCAGGTCATGTTGGCCCCCCTTATTTCCATTGCTCTGAAAGTGTCCCAGCTGCAGGAGAGGACGGG
ACGCACTGCACCCACTGTCATCACCTAAGAAGACAGGCCTGATGTGGTAYGTCCCTCCACCCCCRGACYCATCCAAGTCATCTGATTGAAGAGCATGACA
GAAACAAAATGTATTCACCAMGCATTTTAGGATTTGACTTTTTCACTAACCAGTTGAYGAGCAGTGCATTTACAAGGCACTGCCAAACAAGATGCCCTTG
GGAGCTGTGAGGGAAAGAGGACCTGYGGGCTTAGATCAATCTCAATTCCTTTTCATGCCCTCCTGCATTGCTGCTGCGTGGGTATTTGTCTCCTTAGCCA
TCAGGTACAGTTTACACTACAATGTAAGCTATAGGTGGAGCATCAGCAGTGAGTGAGGCCATTCTTCATCCTTAGGATGTGGCAATGAAATGATGGTGCA
AGTTCCTTTCTCTTTTGTGAAWCTTTCCCCCCATTTCCTGTTTACATGTAACCCAACAAAATGCAATTTCTAGTGCCTTCTGTMCAAYCAGTTCTTTCCT
CTGAGTGAGACGTACTTGGCTACAGATTTCTGCCTTGTTTTGCGACATTGTCCCATTCACACAGATATTTTGGGATAATAAAGGAAAATAAGCTACAATT
GCTTGTCGTCTTTTTTTCTTAACTGCAAAGTACTTTTTTGATTTTAGAAAGAAAAACAATTTTTTTTTTAGAAGGAGGGGAGTATTGTATTTTGTTTTCA
TGTCCTAGTCAGAAAATGAAATGGTCTCTAGGCTAGGTTGCAAATCCTTAGACTCAAGAACTRTAATTTTTTTTATTGTCCTGAATATTCTAAAAAGTAA
CATAAATTTTAAGAGAATTGTAATTTAAAATCTTAGCAGGGTCAACTGAGCTCTGGATTCTTCCAAGGTAGACAAATCAAGCTTGACATGGTTAACTTGG
AACAAGGGAAAGGAAGAGTGATTTTCCTCTTCCTAGTGCTTAAATAGCAAAGCACTGGTACGTGCTCTGCAGTGCGGAGATGCCTTGACGCTTATTGAAG
GGATGGAGGCAGAACCCTCAGAATCTGAGAGCAGGGTTACTGACATTTGGCCAAAAATCTGAGCCCACTGGCATCTTATTCAGCTCAGAACACTTATATT
CCATCCATGAGTATATTATAGTTAAATAAGCGTAGACTTGAGAGCCAACAGACCCAAGTTTGAATCCCACTTGAGACCCTGAGTGACTTTTGAATATCAT
TACCCTATCCTTAAAGTGGGGATGAAAGTAGTTCTACCTTTATGAATTGTTGAGTACCTTAAGTGAGTACATTTGTGTAAAGCAGTGAGCACAGTATCTA
GTGCATGGTACATTGTTAAATAAGTGAAAACTAGAATTATGTTTATGATACCATTTTTAGATTTTAAAGTACTGTATATACAGGAAAAACAAAAACTGTA
ACACTAATATTTGTAACACATTTTACATTTCCAAGGTACTTTCACAAAGTCACCTTGCCATATGGGCTATTCTAAAAAGTCAGCCCAGCTCTGTACCCCT
CCCCTACTCAGTATGGACTCCCTGATACAGGTGGCAGGATCTTTATCTGGGGTAAGATTTCCATTGTTGCCAGCTCAGCAAACAAAACTATGCTTTGACA
ATGATGACAATGATGGTGGTGGTGGTGATGAGTTTGTCTGGAACGTTAACCCCTTGCCAGGCACTTTCCATATATTCTTTCTGAGCGCTTTCCATATATT
CTTTAAATCTTCCTGACAACTCTGAGGTAGGTACTCTGAATATTCCCATTTTACAGATGAGGTTCAGTTACTCAACCAAGATCACACTGCTGGGGAGTGG
TAGATGCTCCCAGACAGTGCAGCTCCAGCCCTACAGGGTTCAAACCACTTCAGATTTCTTCTACGGACTGTCTACTTCTAGGCTACACCTAACGTGGAAG
AAAGGTGTGCAAATGCCCCTGTGCTTTACGCATTAAAGGGGGATACTGTGTGCTCTGGATGCCAAAGAATCTGTTATTTTGGCATTATATTAGCTCCTGC
AGAGATCTGGATATCTGGATGTATCAGTCAGCCCGGAAATATGTATTGATCCACATTAAGTGTGAGGTGCTTGGGAGGAAGAGCTGTATAACACAGAGCC
CATGCCATCAAGCTGCCTGTAAGACTTGCCAGGGGAATCGAATCTAGCACAAGTAGAAACTGTATGGGATAAATGTTATGAGTTGTGTAGGTAAAACCTA
CATATTCTCCAAGCACCTATTCTATCTCAGATGTTGGGCTAGATGCTTTCCAGTAACCCTCGAAGCAAGACATCATTCTTCTCGCTTTCCAGTTGAGGCA
ACTGAAGCTCAACAGAAGCTCATTAATTTGCCCCAGGTTCTCAGCTACCGTGTGATGGAACTGGAATTCTGACCCTAAGTATCGTTCATGTTTCCTGACC
CTTTTCTGCCTCCTCATCTCTTGAATCAGCTGCGGATACTCCCAGTTCTGTGGCCCCTGGAATGGCTTCAAAAATTTCCTCCTCCCTGATCGTATTTCAA
CTGCTTTTCCTGCCTCCACTTGGCAACAGCTTGGAAGTTAAAAGCTCAGGGGAGGAAGAAGGAGGTGGCTGGAGCCATGGGGCAGTGGAGGTGGGTGTGG
GTAGTAAGGATCACTGTGTCTCTCCAGGGCTTCCAAAGAGATGCCGCAGTGTGTGTGCCCCAGGGAGTGCGGGAGAGGAGTCCTGAGAGGCGGGCAGCAG
CACCCAGCCAGGCTTCCCCGCCTTCCAGCGTTGATGTGGTCTGTGAGTCAGGCTTGTTTTCTTTGGGGTGTGGTGAGAATTACAGTGAGAAAATTGGGTT
GGAACTGTTTGGGGCCCAATTCTGAAATTTCACTTTTTCTCTCCCTCTTGACATTCAGCTATTCTCTCAGAGAAGCAGTTTCCTGTTCAGCGATGTGCCC
CAGGCCTACACAGTGGCCAGGCTTCCAGTGGCTGGGCTCTGCCTCATAGGGAGTGAAAGCAGAGGCCAAGCTCACTGTGGTTCTGGGGAGTGTCATCTCC
TTGGCCCTTCAAGGCCAGGCTTGAGGACAGGGTCCCTCTGCCTCCTCTGCCATGCTGCTTTCTTCAACGTTTCTTGTTGACTCATTAGAAGCTGGCCTTG
CTTATAAGAATTCTCCAGAAAACATATTACCATGAGTAAGAGGTGCCCCCCTTGTGTTTCTGCGTTCTGAACCCCCCCAGCAGAGGGGGTTGGATATGAG
TATAACAGCCTTCATGCAGGACTCACTGCATGGCCTGTGGGCTTTGGCGGGGGCACCCCATGGCCTTCTGGCCTTCCCACTTGCCCCTTCTGATCCATTC
TCCACACCACCAGCTAAGTACTCTTTCAAATGTTGAAGTGCAGAGGCCTTTGTGTAGCCTCCAGGTCCGTGTGACTCACCTGCCTGTCACTTCCCGCTCC
TCTCCCCCTACTCACAGCCTTACATTCCAAGCTTCAGTCGTGGGGAACCATGGCACCTCCCTCCTGCCCCCAGGCCTTGGAAGCTGCTCTTCTTTCCACC
TGAATCACCTTTACCCTCCATCCCACCCTCCACTACATTCTCCACCTTTCCCCTCCATTCCACCATCCGCCATATTCTCCCAACTCCTACTTGTTCCTCA
GGTCTCAATTTAAACATCGTTTCCTCCAAGAAGTGCTTTCTGAGCCTCCAGTGTCTGGTTTGGGAGCTTTTTCTGGTGTTCCTATCACCTCTATTTCCCC
CTTCGAGGCGCTTATCCCATTCTATGTTCATAACCTGTTTACTTTCCATTTCTTCTACTGCCCTGGGAACTCCTACATGGCAGAGACTGCCTTTTTCACC
AGTGTTTACCCAGGATCTAGGCCTGTGTCTGGCACATAGCAAAAGCCCCATTAAATATTTTCAGAATGAGTGAATGAAATCTACTAGTTGCACGGCAGAA
TGTTTCATTATGCTGGAATCTCCCTGACCTATAAGGCAGGATTGTCTCAATTTTACAGGTGACAAGTGATTTGAGCAACTTCCATGCTAGTCACTGGTTA
ACCAAGAACTCTTTCAAAAAGTGTTAGAGGCTGCAAGTGAGAAAGCACCCAGGAGAGGCGGGCAGGAGGGTACTKGCAATAGATGGGAGTTATGTGTCAT
GGTCACTTTGAAGAAAATGTTTAATTTAAATGATAAAACACATTTTATCTCCCACTGCTACAAAATTAATTGGGAGGTATAGTTGGGGAAGAGTTCTACT
GAATACAGAAATGAGTGCTTTAAGGAACAGAATCAATAAAACCAGCCTCAATCCCCAAAGCCCCCCTCTGAGCAGATTCACGGAAAGGAACCCATGATGG
GTAAAGTGGGTACCCTGGCACTGGGCGTCATGCTGGCATGGGGATCCTCCTCTGAGCATCTATTTCTGGAAGTCTGAGAGGCTCTTCTCAGTTCCCATTA
TCAGAACAAGAAGCATTCCCACAAGTGTGTCATTATCCAAAACAAGTGAGGTCACTGGCGGGAGCATGTCTCATGTCTGTCTGATCGTCCTATGGAAACC
GTGGAGGGCTTTGGTTTGGTTTTCACCAAATATGAAAGCTCCACCTCCATCCAGTAAGTTGTCATTGTGGGTGTGGGTTAATAACTATTTTCCAGAAAGC
ATGTCTTATTGAGTGCAGCTCTCCAATTAACAGAAAGGCTAGTTACGAGTAGCAATCTCTTTGCTTCTCATGACGGTGTCATTTCATAAAAGCTTCATCT
TCATTGGTTTCTGACTTCATTTTTACATGATGGTAGGAGTGCTATTATTATCCCAGATAAAGCAATGGAAGTTGTGAGAGTTTATGTGATTTGTGCAGAG
TCCCACTAATGATGAAGGAGAAAGCAGACCAGCCACCTCCAATCACCCTTGGATGTTTGGATTTTTTTTTTTTTCTGTTCAACCTTTGCTGTATAACAAA
GTACCCCAAAATCTAATGGTATTAAACTTTTGCATGATTTTATGATGCTCACAGACTCTGCGGGTCAAGAAGCCAGTCAGGGCACAGTGGAGATACAAGC
TTGTCTCTGCTCCACAATGTCTGAGGCCTTATCTGGTATCTTTGTCTGTTTGGGCTGCTATAACAAAATACTGTAAGCTGGTGGTTTTGTAAACAATAGA
AATTTCTTACAGTGCTGAAGGCTGGGAAGTCCAAGATCAAGGCACCAGCAGATTCAGTGTCTGGTAGGGGCCCACTTTCTAGCTCATACATGGTGCCTTC
TTGCTGTGTCCTCCCATGGTGGACGGGGCAACAGGTCTCTCTCAGGCCTCTTTTATAAAGACACTAATCTCCTTCATGAGGGCCCCACCCTCATGACCTA
ATCACCTTCCAGAGGCCCATCACCCACTGCCATCACCTTGGGGATTTAGATTTCAACATGAATTTTGGGAGGACACAAACATTCAGACCGTAGGCTTTGG
TCCTGGGTCCCCAAATTTCATGTTCTTCTTACATGCATAATATACTCATTCCAACCCATTAGCCTCAAAAGTCTTAATTTATTCTGTCATCAACTCAAAA
GTCTGAAGTCCAGAGTCTTTTCTAAATATCAGCTAAATCAGATATGGGTGAGGCTTAAGGTGCAACTCATCCTGGGGCAAATTTACTCTCCAGCTGTAAA
CCTATGAAATCAAACATGTTATGTGTTTTCAAAATACAGTGGTAGGATAGGCATAGTATAGACATTCCCATTGTAAAAGGGAGATACAGGAAAGAAGAGG
GGTAACAGGTCTCAGGACCCAGGTCTGAAACCTAACCTGGCCAACAATGTTAAATCTTAAGACTGAGAATAATCTTTGGTTTGCCATCCAACCTGCTGGA
CATGCTGGGGCAGGGATTGGGACCTCAGGCTCCAGATGGCCCTACTTCCGTGGCTTTGCTGGGTACAGCCCATGCTACAGCTCTCGTGGGTTTTAGTCAA
GTGCCTACAGTTCTCCCAGGCTGGAATCACATATAGGCGGTTCTACTGGTCTGACAGCAGCTCTACTAGACATTGACCTAGTAGGGACTCTGCAGTGGCC
CAGCCCTCTTGGCAGCCCTCTGCCTGGGTCACACACCTGAGGCTCTGGGTAGTTCCATCCTTTGAAATCTTGATGGAGGGAATAATGCCTCCTTGGCTTG
TATACTCTATGTGCTGGTGAAGGTGGCATCTTGTGGACACTCCCAAAGTTTACTCTCTGTGCCCTCTGGAGGAGGAGCAGCTACAGAGTACCACTATGCA
CTTGAATTCACTAGAGCTGAACTTGGGGCAGCCAAAGAGCTTGGCAAAGAGCAGAGCCTTGAAATTGTTCTGTTCCCCCAGTCCCTTGCAGTCTGGACCT
GTGAAGTGAGGGGGCAGCCTTGATGATCTCCAAAATGCCTTCGGGGTTATTCCATTGTCTTGCACAATAGGTCCTGGCTTCTGTTTAGACGGGAGTCTAA
TCTCCCCATTGTCTGGATGAATAGCTTCTAGCTTTGATTGAGATGGCCCCTCTGAACTAACTTCCTTATCAAACTTGGCCACACCCTTCATGTTCTCTCT
CAAACAAGCTTTCTGATTTTTTCTAATATGGATAGGCTGAGAATTTTCGAAATTTTTAGGCTCTGGTTCCCTTTTGGTTAACAGTTTCATTAACTT


SNP Information

Context             (SEQ ID NO:38759):
TAGCTAAACCTTTTCTTTTCTCCCGTTGTGGATTGAAAGTATGATTGAATTGGATAAAAATGTGGGTTTTCTCATATTCTTTCAATGCATCCAAATTGTG
R
CCCCGATCTGGAAAGGCTCTTTTTAATATGCTGTGTTTTCATGCTGGAGCCTTACAGTGCACACAGACCACACACTTCTAAAACTACAAAGTCCCGAAAA
Celera SNP ID:            hCV1270707
SNP Position Genomic:     41893
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38760):
GTGAGACCAGATAGGAGGGAAAAATATGATCCAACATATATAGATAGAACATCTGCAATCTAGTGAAAAGAATTTTAGAGGCTTCAAGTTGAAGCTGTGA
R
GAAAGGAGACCAACCCTGGTGTGTTCCTAGAAAGCAAGAAATGGTCAGTGAAAATGGACCGTATCCTTCCCATAGTGACTAACTGTGGCATATCCTCTGT
Celera SNP ID:            hCV15876276
SNP Position Genomic:     66058
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,200|A,1069)   total(G,200|A,1069) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38761):
GGTACACTGTAACAGAAGTAGGTGTGTCTTGCTTTGAGGAAACCCACTATATGAAAAAGCCAAGCTTGACTGGAAAGATAAATTGATGAGTCATTTTTCA
W
TAATCTTGATATAAAATTTGCCCTTTTTACTTTAAAAAAGCCTTCTCTTTGGGTAGAATCCCTTTAATTAGCTAAACCTTTTCTTTTCTCCCGTTGTGGA
Celera SNP ID:            hCV1270708
SNP Position Genomic:     41724
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38762):
CTGTGCTGTAAAGAAAGCAGCTGCCCCACTTTCTGTAATCAGAAAATCCAAGCATTTTGATGTGAGACCAGATAGGAGGGAAAAATATGATCCAACATAT
R
TAGATAGAACATCTGCAATCTAGTGAAAAGAATTTTAGAGGCTTCAAGTTGAAGCTGTGAAGAAAGGAGACCAACCCTGGTGTGTTCCTAGAAAGCAAGA
Celera SNP ID:            hCV15876277
SNP Position Genomic:     65997
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,227|A,1248)   total(G,227|A,1248) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38763):
TGGTTGACGGTTTTCAATGGGCTATGGAAGGGTGGCAGAGCCAACAGTCCCAGAGAAACTCTCCCCAGGGAATCCAGGTATCTCACGGACATTTTCAACA
Y
TAGAAACACATCTTCCACCATCAAGTTGTTTCTTCAATCATGTTTATCTTGGGTGAAGCAAAAAGAAATAACAAATGGAAAATGTAAAAAAATCCCTGTT
Celera SNP ID:            hCV1270709
SNP Position Genomic:     41276
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38764):
TGGCCTTGCTTACTCTCCTGATTCTACTCACACTTTTTGGAAGTTCCTTCATGGGCTGCACATTGACTATCCCCTAGGTTTCTTTCTTCTTTCTTTCTTT
C
TTTTTTCTTCTTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTACTCTGTCGCCTAGGCTGGAGTGCAGTGGCGCAATCAGCTCACTGCAACCTC
Celera SNP ID:            hCV27033540
SNP Position Genomic:     9028
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38765):
CACCGGGTCCCTCCCACAACACTTGGGAATTATGGGAGCTACAAGATGAGATTTGAGTGGGGACACAGAGCCAAACCACATCAGTCCCATTGGGTACAGT
R
TGGGAAAGAAATTGGAAGATGCACAAGTGGATGTGGAGGCACTCACTGCTCCAGGTAAGAGACAGGACATTGACTTAGCAAGACTTAACAGCAGGAGAGT
Celera SNP ID:            hCV16092134
SNP Position Genomic:     71912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38766):
ATTCTTCTGGAACGCATCCCCTGAAATGGATATTTTTATTCATTTTAATAGTACTTTATTTATCTTATTTTGTTGACATTGAGTACTATTTGCCAAGCAC
Y
ATGGTAAGCGCTTCATTTCTGGGTCTCATTTATCCTCCTGCAGCCCTATAAGGTAGATGCTATTATGGGTATCTTCAAGTTGCCAACGAGGACGCTGAAG
Celera SNP ID:            hCV27033541
SNP Position Genomic:     7985
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38767):
ATCCCAGCACTTTGGGAGGCTGAGGGTGGTGGATCACCTGAGGTCAGGAGATCGAGCCCATTCTGGCTAACACGGTGAAACCACGTCTCTACTAAAAAAT
M
CAAAAAAAAAAAAAAAAAAAAAAAATTAGCCAGGCGTGGTGGCGGGCGCCTGTAGTCTCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCG
Celera SNP ID:            hCV27033542
SNP Position Genomic:     7572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38768):
GATTTTGAATCAGCACTGAATGCCAGTATGGATAACCTATTGTCCTTTCCATCCAGGAGCATACAATCTTTTGGGGGAGATAAGACAGAAGAAACACATA
G
ACATACAAAGAACAGAATTAGAAAACATGCTGAGCTCAGCGAGAGAGAGAACATTTTGGATTGGGAAAGAAGAGGTGCCTGCACCTAAAACCAATTATGT
Celera SNP ID:            hCV11281600
SNP Position Genomic:     12753
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,11)   total(G,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38769):
ATCCCAAGAACTTGAACAGCTCCTGAGAATGAAGAATGAACAGCCCTTGATCTTGAAGATCTGTTTTCCAGGCTCCAAAATCTAAACTGGGCTCTATCTA
Y
ATCTGCCTTCCTGGGCCAAACATTTATAAGCATCAGTGAGAGAAGATTGCCTGGATTTGTTTACTTTGTGGTCCTGAATTTTCAGACAAGCGCAAATTCC
Celera SNP ID:            hCV11281606
SNP Position Genomic:     8253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38770):
ACACCAAATACAATCTATATAAAAATTGGTATGCTTGGTGTGTAAATACAACTCGACAAGCCACCCCTAAACCCCTCCTATGGACATTCTGGAACTGCCC
R
AACATAGGCTTTTATTCTCATCACAACCACACCTGGAAACTGCTGGAAGGTGAAATGTCACTGTGTTGAGTCAGGACGTTTCAATACTTTCCCCCACCAT
Celera SNP ID:            hCV27521350
SNP Position Genomic:     40618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38771):
ATCCCGCCCGCTCCTCTGCTATTCTCGGCTAGGACTGGCGCTTCCCGCTGGCTCGGAGCCCGACACTGTGGGGCAAGGGTGGCGAGAGCACCCATCCCCC
T
GGGGCGTCAGGTTGGCAGATCTCAGCAGGCGGGTGCCAATCTTTTCTCCCCGCCCCCTAGTTTGCCTTGGTTCCGAACTCCTGCCCTTTGCGCGGCCTGC
Celera SNP ID:            hCV11281608
SNP Position Genomic:     7066
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38772):
TTAGATAATGATTAGCAATTAGTTGGAGCACATAGTCCTTCAGTACCTGCAAATTTTAAAATCTGGTGTATTTCTTTTCTGGAAGAGATTCTGATTCTTG
S
TAGATAAAATGTAGTATTGCAACTAAGTGTGTTAGACATTCATTTTCAGTGTATTTTCAAAATATGCTGAGCAGGTATGTTTGCAGAAGCAAAATTAAAG
Celera SNP ID:            hCV8905001
SNP Position Genomic:     37490
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;no_pop(C,-|G,-)   ;JBIC-allele(C,639|G,848)   total(G,848|C,639)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38773):
GAGGAAATCTAAAGGAAGGATAATTATTACCACAGATTTTGACAAAAGTCAGTGCTCCTTTCTCATTTTCTTTAATACCCACTGTGCCCATAAGCTGATT
Y
TTGGAGGGCTTTTCAGCCCACTGAGCTAAATGGAGATCATTTTATTTTTTTTCCCTTTACCATACTTTATCTGGTGCATTTATGGGTTATAAGTTTCTCT
Celera SNP ID:            hCV8905002
SNP Position Genomic:     38457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38774):
AAGCTGCAGATTTTTATTAAATAAAATCTTTTCTTGTCCAACAGATTATTACTATTATTTTTTTGTCCATCTGCCTGTTGTCTTGGTGTTGTTTCTGAGC
K
GTGACTCTGGATGTATTGATGTTAAAGAGTGTGTTCTGGATTTCTTCTCCTAGATCGGTCGCTTGGTTATCGGACAGAATGGAATCCTCTCCACCCCTGC
Celera SNP ID:            hCV8905003
SNP Position Genomic:     42155
SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,7)   caucasian(G,26|T,2)   total(G,53|T,9)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38775):
CTCCCGGGGCGCGGGGAGGTGCGGGCGCGGAGCCTCCCAAGGTCACGCCCGACTCTCCGTCTCTAGCCGCTGCCTTCCCTCTCCCCGTCCCCCGCCCCTC
Y
CGAGGCGTCTGACATTTGCCCTAACCTTGCAGCCTTGGAAGATACGATTACGGCGCAGAGTGCTGTCGCCTTAAGCAGGAAAGGTTAGACTGCCGCCGCC
Celera SNP ID:            hCV29321531
SNP Position Genomic:     6846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38776):
GTTTGGACCACTCTGAAAGAGTATACTTTGAGGTGCCTTCCAAAGTGAATTTGATGTACACCACGTAGCCTATAAGGAATTTTTACGATTTTATAGGTTC
M
ATCAGCTGTTGTAACAGACACTCAAAACAACAGTGGATTAAACAAGATGTTTTTCTGTCTTGTGGAATATTGTGGGTCAGCAGGCCAAGACTAGCATGAT
Celera SNP ID:            hCV599213
SNP Position Genomic:     17008
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38777):
TCTGCCTGTTGTCTTGGTGTTGTTTCTGAGCGGTGACTCTGGATGTATTGATGTTAAAGAGTGTGTTCTGGATTTCTTCTCCTAGATCGGTCGCTTGGTT
R
TCGGACAGAATGGAATCCTCTCCACCCCTGCTGTATCCTGCATCATTAGAAAAATCAAAGCCATTGGTGGGATCATTCTGACAGCCAGTCACAACCCAGG
Celera SNP ID:            hCV8905006
SNP Position Genomic:     42224
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,6)   caucasian(A,32|G,4)   total(A,60|G,10)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38778):
CCTGCATCATTAGAAAAATCAAAGCCATTGGTGGGATCATTCTGACAGCCAGTCACAACCCAGGGGGCCCCAATGGAGATTTTGGAATCAAATTCAATAT
Y
TCTAATGGAGGTGAGTTTGCTGTCATTTTGAGGACAGGTAAGTTTACATTCAGTAGGACAAATCAATACCTGGAGCCTTGGGAGACCAGGGTTTTGGTTC
Celera SNP ID:            hCV8905007
SNP Position Genomic:     42361
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(T,34)   total(C,3|T,65)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38779):
AAGGCAGGATATAACCAATATATTAGGGGAGCTACAACAAAAATTGTTCGGAGATTGACATATGAGAGCCAAGAGGTAACTGAAGGGAACCAGGTGCTCC
Y
TGGGAGGTGGTTGGTAGTGGAGTGGTTGACGGTTTTCAATGGGCTATGGAAGGGTGGCAGAGCCAACAGTCCCAGAGAAACTCTCCCCAGGGAATCCAGG
Celera SNP ID:            hCV11281397
SNP Position Genomic:     41153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38780):
TCGCGCTCGCTCTTCTGGCCTGGAGGCCCGACGGAGGTCGCCGGGCTGGGGAAAGTGGCCACGGGACCCGGCAGACCTGCTCGCCTGACTCCCGGGGCGC
S
GGGAGGTGCGGGCGCGGAGCCTCCCAAGGTCACGCCCGACTCTCCGTCTCTAGCCGCTGCCTTCCCTCTCCCCGTCCCCCGCCCCTCCCGAGGCGTCTGA
Celera SNP ID:            hCV599217
SNP Position Genomic:     6758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38781):
GGTCTGAAAAGATGAAGAGAGGAAGGAAAAACACCACGTGCCTCCTGCATACCCAGCATGGTGCTAGATACTCTAACAATTCCAAGAAGAATAAGACCAG
Y
GGGAAGTGCAGTAGGGCAGGCACATAAAGAATTCAACATAGGATAATGTGAGAGCATGATTATAGAGCAATTGTGTACAGTTCTATTCAGAAATCAGAAA
Celera SNP ID:            hCV27487117
SNP Position Genomic:     58979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38782):
AGGGGAGCTACAACAAAAATTGTTCGGAGATTGACATATGAGAGCCAAGAGGTAACTGAAGGGAACCAGGTGCTCCTTGGGAGGTGGTTGGTAGTGGAGT
R
GTTGACGGTTTTCAATGGGCTATGGAAGGGTGGCAGAGCCAACAGTCCCAGAGAAACTCTCCCCAGGGAATCCAGGTATCTCACGGACATTTTCAACACT
Celera SNP ID:            hCV1270710
SNP Position Genomic:     41177
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38783):
TAAAAAGCAGCCTACTGACAGCATCCACCCTGGTGGTTACCATTTCCTGGGGAAGGCAGGATATAACCAATATATTAGGGGAGCTACAACAAAAATTGTT
Y
GGAGATTGACATATGAGAGCCAAGAGGTAACTGAAGGGAACCAGGTGCTCCTTGGGAGGTGGTTGGTAGTGGAGTGGTTGACGGTTTTCAATGGGCTATG
Celera SNP ID:            hCV11281398
SNP Position Genomic:     41101
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38784):
GTGTTAATGTTATGTCTCGAGGTATTTCCTGCACATGGGCCAGGCCCATTTGTCATTTGAAGGGGCTCCCTTGCCAGTGGCCTACTTTCTGCTTGTGAGC
Y
TGTTATTCCTGCTGGTCTTGTGCAGAGCAGCCCCGGAACACAGCGGCATTCTTGACAGAGGGCAGTTGGCAGCTACCAGTGCCTGTCTACTTTCGGATGC
Celera SNP ID:            hCV27487118
SNP Position Genomic:     34645
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,249|C,1246)   total(C,1246|T,249) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38785):
GTGTCCATTGTACATGCAGAAAGGAGCCCCAGAATCTAAGAAAGAGGGAGAACTGTGGGAACTTAGATGTCAACTCCTCTCTTTTCTGTCAGCAGATTAT
R
GCAGAGTGACAGCATGTAAGTGGCATTATACTTATACGTTTCTCTCGTATGTTCTAATTTCTAAAGGAGAGAAAAATAGATGAGGCATTCCCAGACTTAG
Celera SNP ID:            hCV15876285
SNP Position Genomic:     64995
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,513|A,976)   total(G,513|A,976) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38786):
AATAACCTAAGAAAATACCAAGCCCTGTTTTCAATTAAAAGGAATATTTAAAGTTTACTCCCTGCCATGTTTGACTATTAGATGTTTGGAGAACAATGAG
R
TACCCATTTTGGTGGGGAGGCGTGAGTTTTAAGGAAGGAAGTCGTGGGAAAGGAAGGCAGGCAGGGGAGGCCATTTGAGGATGGACTCTTAGTGCCTGGC
Celera SNP ID:            hCV1270718
SNP Position Genomic:     38852
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   JBIG-allele(G,297|A,592)   total(G,297|A,592) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38787):
CCAAGTGAAGTTGTTTGTGCAGTGGAAGACCAAGAGGACAGGACTGCAGACACAGCAGGTCAGCTGAGCCTCCCAGCCAGTCAACTGGGGCCCGGCCATT
S
TTTGGGCAGACTGTCTTAACAACTGACTTTGGGCCAACCCCTGTTTGGGGAGTACAACTCATAGTCTAGGATACGGCGTGATCACAGGGAGTGGTAGAAG
Celera SNP ID:            hCV15876286
SNP Position Genomic:     56472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38788):
CTGAAGAATGTGGAAGAAGTGGTAGGAATGTGTAATTCAGGCACACCCTACAGACTTTCTCAGATTTGCCCTCTGAAGGTTTGCTAAATAATACATTTAA
R
TGATAATTGACTAAATATGGTAGCTGCCTATTTGTTAGAGCTGTTGGCAGCCCAAGCAATATTTTCAAGTCTTTTCAAGGTAAGCTTAGAGGTGAGAGCC
Celera SNP ID:            hCV1270719
SNP Position Genomic:     38055
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38789):
TCATTGCTAAGTGGAAGGCCTGACAGTTCCTGGGGCCAGCCTCCTGGGGACTGGAGTGGTCTGGAGAAGGCTTTCTGAGGAGCTCACCTTCCTTTCCAAG
Y
GAAGTTGTTTGTGCAGTGGAAGACCAAGAGGACAGGACTGCAGACACAGCAGGTCAGCTGAGCCTCCCAGCCAGTCAACTGGGGCCCGGCCATTCTTTGG
Celera SNP ID:            hCV15876287
SNP Position Genomic:     56377
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,240|T,1261)   total(C,240|T,1261) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38790):
ACATCACTAATCATCAGGGAAATGAAAATCAAAACCACAATGAGCTGTCACCTCACACCTGTTAGGATGGCTGTTCTCAAAAAGACAAAAGATAACAAGT
R
TTGGGAAGGATGTGGAGAAAAGGGAACCATCAGACACTATTGGTGGGAATATAAATTGGTATAGCTATTTTGGAATAACCAAAATATGGAGGTTCCTCAA
Celera SNP ID:            hCV11726921
SNP Position Genomic:     69038
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38791):
TCCTTTAAGAGACATCATTAAGGTTTGTTTAACCAAACCTTAATGGTTAAAGAACAGTGTCTTGGAGTTGCTGGATCCATGAGTAGGTCCAATTTGAAGG
S
TTTGATCCTTTTTTGCCAAATTGATGTCCAGAAGGATTGTGCCAGCGTCCACTCCCACCAGCTCTTTGGTGGAATCCCGTTTCCCTTTTATTCTCCTGGC
Celera SNP ID:            hCV11726923
SNP Position Genomic:     59363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38792):
CCTGGGAAGCAATTATAAGCTTTCAGCCTCAACCATGCAGACTAACTGGCTCTACTTCCTTCACTATTGCAGTTTCTAGTTCTGTTCGTAATTGTTGCAC
R
AGACTTTGTGCTATTGCAACTACTTGGAATGCCAGTTCCAGGCAGAGTGCCCTCTGTTGTAGACACCTTGTGCTTTGGGAAGTTGTCTGTGATTAGGGGA
Celera SNP ID:            hCV11726925
SNP Position Genomic:     25536
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;JBIC-allele(G,107|A,1376)   total(G,107|A,1376)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38793):
ATTGGAACATTCTGAATTTGGGATTTTTGGATTTGGGATGCACAACCATTGTAATGCAAACATTCCAAAATCCGGAACAATCTAAAATCTGAAACATTTC
T
GGTACCAAACATTTCGGATAAGGGATACTCAATCTGTAATACAAGGGGATTGCATAAAGGCATGATTATCAGGAGGCAAGGAACATGGGGATCATGTTAG
Celera SNP ID:            hCV11281615
SNP Position Genomic:     3960
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38794):
ACCATTAGATCTCATGAGACCCATTCACTATCATGAGAACAGCACAGAAAAGACCCACCCCCATGATTCAATCATCTCCCACCGGGTCCCTCCCACAACA
Y
TTGGGAATTATGGGAGCTACAAGATGAGATTTGAGTGGGGACACAGAGCCAAACCACATCAGTCCCATTGGGTACAGTATGGGAAAGAAATTGGAAGATG
Celera SNP ID:            hCV9754348
SNP Position Genomic:     71833
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38795):
ACCAAAAATAGAAAGAGAAAGTGTTGGAGTAAATTGATTGGTTGATTCATTCACACAGTCTTTCATAATTAGTTATTTACCGTATTCCTTGTGCTATGCT
R
GTCACCAGACTTAATTACAAGGATAAATAAGAGATGCCCGTAAGAAGCACACAGTTAGTGGGGAGAAAGGCTCACAAACAGATGGTTGAGACTCGAGGAG
Celera SNP ID:            hCV27517050
SNP Position Genomic:     58661
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,268|A,1233)   total(G,268|A,1233) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38796):
AAAACAAATTAAGAGCCCAAAATAAGCTATAAAAAGTAGTCGTCTTTTGGCTGACTGGTTTTCAACATAATAGATGTGTTTTGTGAATTGTGTTAATGTT
R
TGTCTCGAGGTATTTCCTGCACATGGGCCAGGCCCATTTGTCATTTGAAGGGGCTCCCTTGCCAGTGGCCTACTTTCTGCTTGTGAGCCTGTTATTCCTG
Celera SNP ID:            hCV27483563
SNP Position Genomic:     34556
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,383|A,1118)   total(G,383|A,1118) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38797):
GGTGTGGCTCGGCCAAGGGTCTGGATGTGGAGGCACCGAGTCCAGAATACCAGCGCCAAAAGGGATTCTCCAGTGGCTTGTGTTCCCAGCCCCTGTTCCC
R
ATTCTCAGGTCTGATGAATCTGCAAGCCCTACCTACGTGAGAAGATTCATCTAACCTATTTTCTGCTTGATACTATTTCGAATTCTTTTCTGATTCTTCC
Celera SNP ID:            hCV1270720
SNP Position Genomic:     31603
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38798):
TAAACTTTTTAAGGAAAGTCCAACTTTTTATATCCCTAAAGCCTTGCTCTCACTGAAGCCTTGATTGAGGCCAAGAGAGAATGCCTTGCTGCTGCCCCCA
Y
GAGCCACTGCCCATCTAAGGAATTCCCACAGATGCCCACATTTACCCACATGCTTTAAAAGCTCTTGTTTATTGAGTCTTTGCTGTTCACCTGGCTGCAT
Celera SNP ID:            hCV1270723
SNP Position Genomic:     27230
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38799):
CCTTTGGGAGTCACTTGGGATCTATTTCCTCTTAATTTTCTTCAAGTTTAAACAAATTTGATCATCCAAAGGAGCCATACATAGCCCAATGATGAGAAAC
R
TGAGCTTTGGCTTTAAAACTGGTGTTGAAGCCTGCCTTTCCAATTTATTGTGAGTCCTGGAGCAACTCGTGTAACTTCTTTAATCCTCAGTTTCCTTATC
Celera SNP ID:            hCV1270724
SNP Position Genomic:     26720
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38800):
ATTACATCTGCAAAGACCCTATTTCCAAATAAGGTCACATCCCCAGGTTCCTGGGTTAAGACTTCAATGTATCTTTTTTTTTTTTTTTTTTTGGAGGGGG
Y
GGGAGTAGTGCACCATTCAACCATGACATCTATACTCTGTCCACCAAATGCAGGTGGGTTTTGTACAGACACCAAAGCACATATACTTTGCACTTGGGCA
Celera SNP ID:            hCV1270725
SNP Position Genomic:     26514
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38801):
TTCATGTTTGCAGTGGTACTTGGGAAGAGCAAATGTGGGAATGGATCAAAAGTACCATGGGATGTAGAAAGCACTCTGTAGCTCAGTAACAATCATCGGT
W
TTGATTTCACACTATCTGCAGGTTCCTGTAGTCTAAAAAGCAGCCTACTGACAGCATCCACCCTGGTGGTTACCATTTCCTGGGGAAGGCAGGATATAAC
Celera SNP ID:            hCV11281400
SNP Position Genomic:     40967
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,9)      total(A,2|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38802):
CCTGTCTTTAAAGGTTCTAGTGCTAATGTATCATACAGGAGTGATAACTTAAAGAAATACAGCATTAACACTTTGCAAATTTCTTTTAATTTTTAGTTTC
W
TATGAAAAGTCCTTCATGTTTGCACATTTTGCATTGATTCATTCCTCAAATATTTATTGAACTTTGATTTTATCCTGGATACTGAGTTAGACTCTGGGAC
Celera SNP ID:            hCV15876294
SNP Position Genomic:     55617
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,651|T,844)   total(A,651|T,844) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38803):
TTTTTAAGCACTTAGCAGTTTCCTAGGGCTGCTATCTGCTGTAACAAACTGTGTGGCTTAAAACAATGGATATTTATTCTCTTGCACTTCTGGCAGCTTA
R
AAGTCTGAAATCGAGGTGACAGCAGGACCATGCTCCCTCTGAAGGCTCTAGGGGAGACTCTTTCCTTGCCTCTTCCTAGCTTCTGGTGGTGGCTAGCAAT
Celera SNP ID:            hCV1270727
SNP Position Genomic:     26160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,12)      total(G,12|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38804):
TTCTTCATGTTTGCAGTGGTACTTGGGAAGAGCAAATGTGGGAATGGATCAAAAGTACCATGGGATGTAGAAAGCACTCTGTAGCTCAGTAACAATCATC
R
GTTTTGATTTCACACTATCTGCAGGTTCCTGTAGTCTAAAAAGCAGCCTACTGACAGCATCCACCCTGGTGGTTACCATTTCCTGGGGAAGGCAGGATAT
Celera SNP ID:            hCV11281401
SNP Position Genomic:     40964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38805):
CGATGGGAAACCAGGTTGATGATGAACTTGGTATCACTTAGAGATATGTAAGTTATGATCTGGTCAGGTCTAGAGGCTAGCAATATTTTTTCCCTGTCCT
R
TCTTTAAAGGTTCTAGTGCTAATGTATCATACAGGAGTGATAACTTAAAGAAATACAGCATTAACACTTTGCAAATTTCTTTTAATTTTTAGTTTCATAT
Celera SNP ID:            hCV15876295
SNP Position Genomic:     55520
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,721|G,776)   total(G,776|A,721) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38806):
TCCATTAATGCTTGTTATTATTGCTGCTGGATGGAGGCAAGAATGAATGAATGGGCAGGATCATGATAACTCTGGACCTCAGCTTCTTCATGTTTGCAGT
K
GTACTTGGGAAGAGCAAATGTGGGAATGGATCAAAAGTACCATGGGATGTAGAAAGCACTCTGTAGCTCAGTAACAATCATCGGTTTTGATTTCACACTA
Celera SNP ID:            hCV11281402
SNP Position Genomic:     40881
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,8)      total(G,8|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38807):
AATTACTTATGGTTATTTGATTAATGTCTGTTGGCTGTATATGCCATGAGGACAGAGATCTTATGTGTCTTATCCTGCATTGTGTCCCTCGAGCCTCCCG
Y
AGAGCCCAGCATAGAACAGGTGCTCAGTAAACGCTTGTTGAATGAGTTCATGAACACTATTCACTTGGCACCTTCCATTTAGACAGATTCCTGCTATTGG
Celera SNP ID:            hCV15876296
SNP Position Genomic:     54604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38808):
TCAGTTCATAGTAGTGGGTTGGAAGTGAAGACTTTGAGATTTTGCTTCAAATTTCAGTTTCATAATTAATTGTACAATATCATGTATACTGCTTAACTTA
Y
CTAAAACTGTTTTCTCACCAGTAAAGTGGGATTAATTCCAATATATGCTATATCAGAGAATTTTATGAGGATAGAATGAAATAATGTACATACAAAGGTT
Celera SNP ID:            hCV1270729
SNP Position Genomic:     22879
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38809):
TGTGTGGCCTTGTCGTGTCATCTACGCCAGTGTCTGCCATAGTACCTTTCCATTAATGCTTGTTATTATTGCTGCTGGATGGAGGCAAGAATGAATGAAT
K
GGCAGGATCATGATAACTCTGGACCTCAGCTTCTTCATGTTTGCAGTGGTACTTGGGAAGAGCAAATGTGGGAATGGATCAAAAGTACCATGGGATGTAG
Celera SNP ID:            hCV11281403
SNP Position Genomic:     40833
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38810):
GCAACTTCCATGCTAGTCACTGGTTAACCAAGAACTCTTTCAAAAAGTGTTAGAGGCTGCAAGTGAGAAAGCACCCAGGAGAGGCGGGCAGGAGGGTACT
K
GCAATAGATGGGAGTTATGTGTCATGGTCACTTTGAAGAAAATGTTTAATTTAAATGATAAAACACATTTTATCTCCCACTGCTACAAAATTAATTGGGA
Celera SNP ID:            hCV1270657
SNP Position Genomic:     76475
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   ;SC_12_A(T,0|G,23)   SC_12_C(T,1|G,20)   SC_12_AA(T,10|G,13)   SC_95_C(T,23|G,160)   total(G,216|T,34)
SNP Type:                 TFBS


Context             (SEQ ID NO:38811):
AATACTTTCCCCCACCATGGCCGCTAATGTGCTGTGTGGCCTTGTCGTGTCATCTACGCCAGTGTCTGCCATAGTACCTTTCCATTAATGCTTGTTATTA
Y
TGCTGCTGGATGGAGGCAAGAATGAATGAATGGGCAGGATCATGATAACTCTGGACCTCAGCTTCTTCATGTTTGCAGTGGTACTTGGGAAGAGCAAATG
Celera SNP ID:            hCV11281404
SNP Position Genomic:     40801
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38812):
TAGAGATAATAACTCCTGTAAGACTATAGTATGAGGCGGCTCTGCTAAACCTCTGCATCGTGAAAAACCGTGTTGGCTGGATTAAGCAAATGAGAAGGAA
Y
ATTGTACCAGAACGCATTGATCTTGATAATCTAACAATTCGTGCAGCCCACTGGTTTCCAGGAAGGTGGGCATCAGGACATTGATGTTTTTGCTCTGCAA
Celera SNP ID:            hCV11281405
SNP Position Genomic:     37253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,10)      total(C,2|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38813):
CAAGTTGCCCAGGCTGATCTCGAACTCATGGGCTCAAGCGATCTGCCTGCCTCGGCCTTGCCTCCCAAAGTGCTGGGATTACAAGTGTGAGCCATCGTGC
Y
GGGCAGAGTATTTTTATTTTTAAGTGAATAAAACAAAATACAAACCATTACAAAGGAAGCAAAATTATATTGAAGTATAATCAAAATATTAAAAAACCAG
Celera SNP ID:            hCV8904942
SNP Position Genomic:     11060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38814):
CCTACATTTATAATAAAAGGAGGTGCTAAATTTCAGTTAGATGTTAGTGAAAATAAAGATTGTTTTGTTTATTTTGTCATTCATATTCATGGATCCCATT
R
AATTCTACCCAAGGACCTCTTGAGGTAGGGGAAGGGGATGTAAGCATCCCAAGTTAAGAACCCCACACTAAACAATGATCCTTTTTTAGCATCAGGTGAT
Celera SNP ID:            hCV8904943
SNP Position Genomic:     11494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38815):
ATCATGAGGATAATCACAAGCTCTTTCTCTCTCTCTCTCTTCAAAAAAAGAAAATTTTTGTGTAATATTTCTGAGATAAACATTTAAACAGCCAGGCTGC
R
TAGCCATAGATCGCTGTTGTGAACGAGTGCAGCTGGGCTTATTTAACTGAACTCCTGATCTTCTTATTTATAGAGGAGTTAATTTTTAGCAACCACGCCC
Celera SNP ID:            hCV15755817
SNP Position Genomic:     54141
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,257|A,1224)   total(G,257|A,1224) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38816):
ACCCTTAAAGTTTTTACCTAGAACTATTTGCCAAGGGAAGTCTCTCATGTTATGTTTGTGGAATTGATTTCTTTGAACCAAAGTATTAGACTTTAGACTA
Y
TGTTAAAGTTTGTTCTCATTTATTAACACATTCAACAAATACCTAGTACCAATCATGGTTTTAGCTTCTCCTTGGTATATTTCATGTCCAAAGAGAGAAT
Celera SNP ID:            hCV15755818
SNP Position Genomic:     53930
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,257|T,1226)   total(C,257|T,1226) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38817):
GGGAATAACTGTTAAGGATCCCTCATTCTGACCCGAGGTCAGAACTAAATTATTAGAAGCCCCTCTTGAACAGGAATAGGAGTCATTGAAATGAAACCCA
Y
ACATTTAATTTCAGACATCCATACTTGCTAACAATGGCACGATGATTAGGTTCTGATTATGATAGAATGACTGGTATTTCCTGAGCTGGGTGAGTTCTAG
Celera SNP ID:            hCV15755819
SNP Position Genomic:     47994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38818):
ATGGGAAAGAAATTGGAAGATGCACAAGTGGATGTGGAGGCACTCACTGCTCCAGGTAAGAGACAGGACATTGACTTAGCAAGACTTAACAGCAGGAGAG
W
GGAGAGAAAAGGGGGCCATGGAGAGAGATTTAGCGGGGAAAAGTCATTGAGGCCTGCTCATGGACTGGGCATGGGGAAAATGCAGAGGAAGATGTCAGGA
Celera SNP ID:            hCV9754355
SNP Position Genomic:     72012
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38819):
ATCTCCCACCGGGTCCCTCCCACAACACTTGGGAATTATGGGAGCTACAAGATGAGATTTGAGTGGGGACACAGAGCCAAACCACATCAGTCCCATTGGG
W
ACAGTATGGGAAAGAAATTGGAAGATGCACAAGTGGATGTGGAGGCACTCACTGCTCCAGGTAAGAGACAGGACATTGACTTAGCAAGACTTAACAGCAG
Celera SNP ID:            hCV15920375
SNP Position Genomic:     71906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38820):
GGAACACTTTTGTATGCCAGGCACTGTGCACAGTGGTTGGGGGTACAGGATGAGTAAGACAAAGTCCTTGTGCTTAGGGTGCTCATGCTGGTGGAGGAGA
Y
AGGCACTCCATGGGTAGTTACAACAGGGTGCGAATTCTATTACAGTCAGTCCTTGACTTACCATGGAATGATGAATTACAGTTGTCCAACTTTACAGTGG
Celera SNP ID:            hCV1270730
SNP Position Genomic:     22267
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38821):
CATTGCGGAACACTTTTGTATGCCAGGCACTGTGCACAGTGGTTGGGGGTACAGGATGAGTAAGACAAAGTCCTTGTGCTTAGGGTGCTCATGCTGGTGG
R
GGAGACAGGCACTCCATGGGTAGTTACAACAGGGTGCGAATTCTATTACAGTCAGTCCTTGACTTACCATGGAATGATGAATTACAGTTGTCCAACTTTA
Celera SNP ID:            hCV1270731
SNP Position Genomic:     22261
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38822):
TAAAGAGAAGATTCTGATGATTCTATGATTATTATGATTATTCCAAATACTGAGGCCATTGGAAGGCAGAGGGAGGGGATAAGAAGATGGGCCTAGGGAG
R
GTCTTTGTGCCTCTTACCACCCTCACTTTTTGGCTGTCCTATCCTGCCTCTGTCCACACATTATCCCTTGGACTTTTTCTGTCAGGCAGAGGTTCACAGT
Celera SNP ID:            hCV1270732
SNP Position Genomic:     21842
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38823):
ATGAAGCAAAAGGGAAATCAGTGTAGAAAACTCAGATGGAATCAGGGATAAGACTGGCACCTGTCATGAAAGCCCAGCTTCCTCTCTGGGCTGGGCCACA
Y
AGTTCACTCTAACCGCTTTGTGGTCAAATCCATGAGAAAATCACTTACCCCACAGTTTGCCATAGACAGCTCCTCCATATGTAGAAGTGGTATTCGAAAG
Celera SNP ID:            hCV1270733
SNP Position Genomic:     21548
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,14)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38824):
TTGAAACCCAAATGCTAAGCCAGTGCCCACCTCGACTGTGTGAAATTGTCCCCTGACTTCAGAGGCCAGAAAATGGATCTGGGATGGTATAACTGGGTGG
R
GACAGGGAAAGGCCTTTTGATTTAGCAATAAAACTATTAGGTTATACCACCTCCATGGGGACTTTGAAAAATGCATTCTGTGGAACAAGATGAAGTGCTT
Celera SNP ID:            hCV1270734
SNP Position Genomic:     21328
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,9)   total(G,9|A,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38825):
TTTAGGATTTGACTTTTTCACTAACCAGTTGACGAGCAGTGCATTTACAAGGCACTGCCAAACAAGATGCCCTTGGGAGCTGTGAGGGAAAGAGGACCTG
Y
GGGCTTAGATCAATCTCAATTCCTTTTCATGCCCTCCTGCATTGCTGCTGCGTGGGTATTTGTCTCCTTAGCCATCAGGTACAGTTTACACTACAATGTA
Celera SNP ID:            hCV1270662
SNP Position Genomic:     72626
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   ;(T,-|C,-)   POOLE|_CEPH(C,36|T,152)   total(C,36|T,152)   SC_12_C(T,3|C,21)   SC_12_TT(T,9|C,12)   SC_95_C(T,26|C,161)   total(C,194|T,38)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:38826):
AACGTTTAAACCTGCTTTGGTGAGGCATTTAGGAGCTGTACAAAATGGGAAGGTTTGTTAAAATATAAACCGACAAAATGGCCAAATACCCGGCCCTGAC
Y
GAGGAAGAGAGTCCTGTCAGCTCTAAACCATAGAACTTGAAACCCAAATGCTAAGCCAGTGCCCACCTCGACTGTGTGAAATTGTCCCCTGACTTCAGAG
Celera SNP ID:            hCV1270735
SNP Position Genomic:     21191
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;no_pop(C,-|T,-)   ;(T,-|C,-)   SC_12_C(C,1|T,16)   total(C,1|T,16)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38827):
TCACCTAAGAAGACAGGCCTGATGTGGTACGTCCCTCCACCCCCGGACCCATCCAAGTCATCTGATTGAAGAGCATGACAGAAACAAAATGTATTCACCA
M
GCATTTTAGGATTTGACTTTTTCACTAACCAGTTGACGAGCAGTGCATTTACAAGGCACTGCCAAACAAGATGCCCTTGGGAGCTGTGAGGGAAAGAGGA
Celera SNP ID:            hCV1270663
SNP Position Genomic:     72521
SNP Source:               Applera
Population(Allele,Count): african american(A,27|C,3)   caucasian(A,30|C,4)   total(A,57|C,7)
SNP Type:                 UTR 3;INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(A,-|C,-)   ;POOLE|_CEPH(C,39|A,149)   total(A,149|C,39)(C,-|A,-)   JBIC-allele(C,185|A,900)   total(C,185|A,900)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:38828):
CTGGCATAACTGTTTAAAGGGAGTTACTGTATTTTATACTGTTCAAGCACATTGACCTGTAGAGAGGAGCTTAAGAGACAGTTCTTGCTGAGGCAGAGTC
Y
GGCATTCTGCTTTCTGCAGCCTACCGCAGTGGCCTGGGGATACAGTTCTCTTCCATTCTGGTAAACGTTTAAACCTGCTTTGGTGAGGCATTTAGGAGCT
Celera SNP ID:            hCV1270736
SNP Position Genomic:     21027
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38829):
CCCCCTTATTTCCATTGCTCTGAAAGTGTCCCAGCTGCAGGAGAGGACGGGACGCACTGCACCCACTGTCATCACCTAAGAAGACAGGCCTGATGTGGTA
Y
GTCCCTCCACCCCCGGACCCATCCAAGTCATCTGATTGAAGAGCATGACAGAAACAAAATGTATTCACCAAGCATTTTAGGATTTGACTTTTTCACTAAC
Celera SNP ID:            hCV1270664
SNP Position Genomic:     72450
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,34|T,4)   total(C,67|T,7)
SNP Type:                 UTR 3;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   ;(C,-|T,-)   POOLE|_CEPH(T,24|C,164)   total(C,164|T,24)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:38830):
TGTAACTTGATTACATCTGCAAAGACCCTATTTCCAAATAAGGTCACATCCCCAGGTTCCTGGGTTAAGACTTCAATGTATCTTTTTTTTTTTTTTTTTT
T
GGAGGGGGCGGGAGTAGTGCACCATTCAACCATGACATCTATACTCTGTCCACCAAATGCAGGTGGGTTTTGTACAGACACCAAAGCACATATACTTTGC
Celera SNP ID:            hCV11281412
SNP Position Genomic:     26505
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38831):
TTCGTGAGGGTAAGCAATCAGATTTCTTTTTTTATAAACATATTTGAACTTATATATCCAAATTAGTATCGTACCCTGCCAAATCGCCACTCTGGGAACC
R
TGCACGCACTCCAGTGATGCGTGTAGTGCTCAAAGCATTTGAAACTCCTCTATGGGAATTATCTTTCAGCCAGTCAGTTTATGGGTCACCTAGGAAAACC
Celera SNP ID:            hCV1270738
SNP Position Genomic:     20525
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38832):
AGTCATTGAGGCCTGCTCATGGACTGGGCATGGGGAAAATGCAGAGGAAGATGTCAGGAGCAACTCCTAGTTGTTCACTTTACATGAAAGACTGTAGTGT
Y
GATCCACTGAAATAGAAACTGCTGGAACTAGGTATTGGGGGAAATAACATGTGTTTGTTTTTGGATTTGTGGAGTTTGAGGAGCCTTGGAGACCTGGAAG
Celera SNP ID:            hCV1270666
SNP Position Genomic:     72154
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,15)   caucasian(C,7|T,31)   total(C,20|T,46)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38833):
ACATTTCTCCAGAATAGCTTCTTCATTTTCGTGAGGGTAAGCAATCAGATTTCTTTTTTTATAAACATATTTGAACTTATATATCCAAATTAGTATCGTA
M
CCTGCCAAATCGCCACTCTGGGAACCATGCACGCACTCCAGTGATGCGTGTAGTGCTCAAAGCATTTGAAACTCCTCTATGGGAATTATCTTTCAGCCAG
Celera SNP ID:            hCV1270739
SNP Position Genomic:     20498
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38834):
CTCCAGGTAAGAGACAGGACATTGACTTAGCAAGACTTAACAGCAGGAGAGTGGAGAGAAAAGGGGGCCATGGAGAGAGATTTAGCGGGGAAAAGTCATT
K
AGGCCTGCTCATGGACTGGGCATGGGGAAAATGCAGAGGAAGATGTCAGGAGCAACTCCTAGTTGTTCACTTTACATGAAAGACTGTAGTGTTGATCCAC
Celera SNP ID:            hCV1270667
SNP Position Genomic:     72061
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38835):
GCCAAGGCAGGCAGATCACCTGAGGTCGGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCCGGGCGTG
R
TGGCGCATGCCTGTAATCCCAGTCACTAGAGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGCCAGAGATTGTGGTGAGCCAAGATCGCAGCATTGC
Celera SNP ID:            hCV1270668
SNP Position Genomic:     71370
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38836):
AATGGACCTCAAACACATGACCCAGAGGTTAAGGGTCTCATGTTCTCAGAGCAAACTAGTGGGACTTTGCAAACTTCGCCTTATAGTGGAGGAACTCCAC
K
GTCTCCCGCTTGAAGTGAACCACCCTTTTCTGAACTTTCATGAGATCCATCTGCAAACACTGCTGAAGGAACATGTTTCTGGCTATAGCAGTTCACATTT
Celera SNP ID:            hCV8904951
SNP Position Genomic:     11706
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38837):
AGTGACTCTATGAACTTTGAAACATTTGAATTCTATAGCTTAATTGAGCACAGAGTGCTTTATTTCTGTATTTTTCCAGGCGATAGGAGAGACAATTTCT
Y
AAAAACGTTTCCTTGACCTTTCAGAGTGGGCCAAATCCCCTGATTATTGGCTCTTGTGGCACCATGTACCTCTTCTTTGTTGTACTTGTTGCAGCTGTGA
Celera SNP ID:            hCV15876303
SNP Position Genomic:     54397
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,245|C,1238)   total(C,1238|T,245) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38838):
CTGCACCTAAAACCAATTATGTCTTGAAGAGCGGATAGTGTGCGATAGAAGATGGGGCTACCCTTCAGGAAGGGGACCTGCCGAGAGAAGTGAGAAAGAG
R
GAATAGGCAGGACTCTTTTTTAGAGCCGGACACTTAGTCACTAAACAATCTTTGTTACATAAAATACTTAAATCAGCTTGCTTGGGACTTTTTCTTTCTT
Celera SNP ID:            hCV8904952
SNP Position Genomic:     12932
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   ;JBIC-allele(A,555|G,925)   total(G,925|A,555)
SNP Type:                 INTRON


Context             (SEQ ID NO:38839):
TGCTCATGAAATTTTGTAGAAGAAAAAGAAAAACGTTCTCCCTTTCTGAGATAGAGGGTTTGTTTTGTTTTTGTAAACAAGATAACAGGGAAGAGTGCTC
Y
ACTGTTTTGGAAAGAGTGACTCATTCAATAAATATTTATTGAGCACCTATTAGGTTCTCGGTACTACGGATACAACAGTGAATTGAACAAAGTTTCTGCT
Celera SNP ID:            hCV8904953
SNP Position Genomic:     13193
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38840):
TAGAAGCTTTTCTAGGGCAAGGATTATGTTCTTTTGGTATAGTTTTGCATATTGACAAACACCATGCCTGGCATGTGTCGTTGCTTAAAATGTTGCTCTC
R
TAATTCTGCCCTCAGAAAGAACTTCACCGAGAGACTGGGAGGCTGCCAGCAGAGACTATGCTGGAGTGTGGTGTATTATGTGGGCAGAGAGGCTTTGGTA
Celera SNP ID:            hCV15755826
SNP Position Genomic:     34013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38841):
AAATAGGGTTATCAGGCTCATCCCTTATGCCCACTCCTGGGACATTAGCTAAGAAAGAATTCTTGGTGTGAAGAGGTGAACCCATTCAGGCCAGCCCTCA
Y
ATGGGGCCTGGGACACCATTATTAACTGTCCATTAAATATTTTTTAAAGAAACATAGAAAAGAAAGAGTGAATAAAGGATTGGTAAGTCTACGGTTTCTG
Celera SNP ID:            hCV15755827
SNP Position Genomic:     33331
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,519|T,968)   total(C,519|T,968) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38842):
AAAACATCATTCTTCTCTTCTTTATAGATTGATTATAGATGCAGTCTGTATCCAAAATGTGGATTTAAATAGCTTAAACAGCAGCCCTGAACATTTTACT
R
CGGATGCTTCTTCTAAAATATTAAACTCCATGATCTGAATTAATTCTTTCTTCTTCCGCCTTCTCTGAATCCACATATAATAGCCCATTGTGCACAAGGT
Celera SNP ID:            hCV8905104
SNP Position Genomic:     51212
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38843):
AAAGGGTCCCAATATACTATGACATTTTGCATATAGATTATAAGTATTATTCTATTATAAATTTATCTTGGGATAATAAGATGTGTAATCAACATTGATC
R
AATATTTAACAATAATTTTTTTCTCTCTTGGACTCTAGGGTAGGGAAAACTTTTCATCTACCCTCCTAGGTTATATACTGGGGGCTTGCAAATTAAATGT
Celera SNP ID:            hCV8904956
SNP Position Genomic:     13714
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38844):
CGGACACTTAGTCACTAAACAATCTTTGTTACATAAAATACTTAAATCAGCTTGCTTGGGACTTTTTCTTTCTTGGCTTCACTAATGCTCTTGGTGAAAC
M
TCTTTTTCCTTTTTCTTTTTTAATCAAATCTAATGCTCATGAAATTTTGTAGAAGAAAAAGAAAAACGTTCTCCCTTTCTGAGATAGAGGGTTTGTTTTG
Celera SNP ID:            hCV15755828
SNP Position Genomic:     13059
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,326|A,1139)   total(A,1139|C,326) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38845):
GGCCCTGTCCCATGTATCAGTCTCCGGCCAGGTTATAAGGTAGTTAAGTGACTGCATCTCTTCTCCTTTTATTCCCTCTACCCAATATTTTTAAGTAAAT
R
TGCTGATCTTGGTCCTATAGTACTCTACTGTCACCCTTTAGTGAAGAAAAGAAGATCAAAATCAAGCATTCTCTCAGCTTTGCAATTGAGTTGCAATTCA
Celera SNP ID:            hCV8905105
SNP Position Genomic:     52441
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38846):
CTGAACCCTTTTAGTGATGCAATTCGGGGATTCCTGTGACACTGCAAACCACAGAAAGTCTTCTGCTGGTGAACTAAAACCTTCCATCCTTGAAACTTCT
Y
CCCTTGGGTCCTAGCTGGCCTCTGGACTCCCATAGAATGGATCTACTTCCTTACTCAGACAAAAGCGATTCTGTCATTTTAAACCATTCAACAGATGTGT
Celera SNP ID:            hCV15876308
SNP Position Genomic:     45301
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,362|C,939)   total(C,939|T,362) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38847):
ATGTGTAATCAACATTGATCAAATATTTAACAATAATTTTTTTCTCTCTTGGACTCTAGGGTAGGGAAAACTTTTCATCTACCCTCCTAGGTTATATACT
R
GGGGCTTGCAAATTAAATGTAAAAGACAAATGAGCAACAAAAAGACATTTGTGGGAGTTTACAGAAAAATGTGACAGGAGGCAGTTAGACTTGGGGGCCT
Celera SNP ID:            hCV8904957
SNP Position Genomic:     13794
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   JBIC-allele(A,589|G,870)   total(G,870|A,589)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38848):
TTTTTTAAAGCTATTTATCCAGTTATCCAAACGCCATTTAAAAAGTAATCTACTCTTTTCCCACAGCCTTGCAGTGAGACCTTTGTCATACTCAAGCCTC
W
TGTGTGCTTGGATCTCTTTCCAGATGCACTCTTGTTCTATTAAGCTACCAGACTATTTGAATTATTGAAATTTTGTAATGGTCATGTTCTTCTGCTGTTT
Celera SNP ID:            hCV8905106
SNP Position Genomic:     60494
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38849):
TTTCTGGGAGGGTTTTGGAGTCAGAAAAGGGACACAGAATTATGATTTAGAAAGATAAACTAGATGGGTTTGAGTAGGTCAGATGGATCCAGCCAGGGTC
R
AGTAAGAGAGAATCATGTGGGACAGAGGCAGGGGAGATTGAGTTAGGAGCTGTTGCAGTGGTCCAGGCATCTTTAAGGGAAGGAGGGTAATAGAGCAGTG
Celera SNP ID:            hCV15876309
SNP Position Genomic:     40151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38850):
CTGAGAGTTTGTAAAAGGACCCCAAACAGAAGAATTTTGGGAAATACCAATCTATACCATGCTGGGTTGATAGGACCATCTATATTATACAAGAATCTTC
K
CAGATTTAAGTTTCTTCTTTTTAAACTGCCATTAAGGGCATGCAGGGAAGGTGAAATTTTGTTTTAATATCCATGTATACCATATGGCTTATTTTGGCAA
Celera SNP ID:            hCV8904958
SNP Position Genomic:     15135
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38851):
TGCTCTGAAAGTGTCCCAGCTGCAGGAGAGGACGGGACGCACTGCACCCACTGTCATCACCTAAGAAGACAGGCCTGATGTGGTACGTCCCTCCACCCCC
R
GACCCATCCAAGTCATCTGATTGAAGAGCATGACAGAAACAAAATGTATTCACCAAGCATTTTAGGATTTGACTTTTTCACTAACCAGTTGACGAGCAGT
Celera SNP ID:            hCV25601161
SNP Position Genomic:     72465
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:38852):
CACCCCCGGACCCATCCAAGTCATCTGATTGAAGAGCATGACAGAAACAAAATGTATTCACCAAGCATTTTAGGATTTGACTTTTTCACTAACCAGTTGA
Y
GAGCAGTGCATTTACAAGGCACTGCCAAACAAGATGCCCTTGGGAGCTGTGAGGGAAAGAGGACCTGCGGGCTTAGATCAATCTCAATTCCTTTTCATGC
Celera SNP ID:            hCV16066942
SNP Position Genomic:     72558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:38853):
ACTTTACATGAAAGACTGTAGTGTTGATCCACTGAAATAGAAACTGCTGGAACTAGGTATTGGGGGAAATAACATGTGTTTGTTTTTGGATTTGTGGAGT
K
TGAGGAGCCTTGGAGACCTGGAAGTAGGCAGTCAGACGTACGGGTTTGGAGCTAAGCATCTGTGTTTAGAGGAAGTGATGGAAAAGCTTCTCTCTATGTC
Celera SNP ID:            hCV16066943
SNP Position Genomic:     72230
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38854):
CATGGCTCACTGGAGCCTCGAATTCTCAGGCTCAAGTGATCCTCCCACCTGAGCCTCAGCCTGGGACTACAGGCATGCACCACTACACCTGGCTAATTTT
Y
TGTATTTTTGTAAAGATGAGGTTTTGCCATGTTGCCCAAGCTGGTCTCCAGCTTCTGAGCTCAAGCAATCCACCCACCTTGGCTTCTCAAAGTGTCAGAA
Celera SNP ID:            hCV1270740
SNP Position Genomic:     18525
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,18)   total(C,1|T,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38855):
TTGGAGAACAACATGTAACACAACAGGTATGTCTTTAAATAGCAGAAGTGCACTCAAGATACCCATACTTTGAGAAGCACGTGGGGACTAAGACTGAGCA
R
GGGCCTGTGGTCACTGGGTGAAATGGTGGCAGAATTGCCCATGCTGTTTAAATTTCACTCTTGTCTTCTTTGTCTCCCTGGAAGTTCTATATACAACAGT
Celera SNP ID:            hCV1270741
SNP Position Genomic:     16606
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)   JBIC-allele(G,340|A,1139)   total(G,340|A,1139) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38856):
GACATAGCCAGTTATTCTGCTGACTTTGAAGCTGTGCTCACAGTTGGGATCCACCTTTGAAAAATGGCTCCTGAGTGTGTTAAGTAAGTAATGGCTAGCC
R
AGGGCTTCAGTTGGGAGGACTGCGGAGAAGACTTTTCTCCCCTGGGGTCCTCAAAGGGGAAAGAAATCACAAGGGGGCAGCATAGGGAGTTGTTTGGAAA
Celera SNP ID:            hCV1270742
SNP Position Genomic:     14403
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;JBIC-allele(A,297|G,990)   total(G,990|A,297)
SNP Type:                 INTRON


Context             (SEQ ID NO:38857):
TTTTAAATGACTGGCTCAAAATAATTTTTATGTCACAGTGGTGTAGTCTGGACCCCTTTAGACTTTAGAAGAGCTTTCAGCAGATTGATTTGAGTGAGCT
R
CACTTCTAAGAAAGTGAAGCAGGAAAGTTTGAACTGATCCCTTTATTCTCCTCCAAGTTCCCTTGAGGCCCACACAGACATAGCCAGTTATTCTGCTGAC
Celera SNP ID:            hCV1270743
SNP Position Genomic:     14226
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38858):
GAAAAATAAAACCCAGTAAAGGGGACAGCATTAGAGGATGGGCTGCTCTTTTTAGTGCAGCAATTGGGATGTCTGATAAACCTCATGAGAGCAGAGACCT
R
AATGAAGTGAAGGAGTGAGCCATGCAGATATCCGTGAAAAGACTTCCAGACAGAGGAAGAGTTAGATGGAAAGGATAAACACATATAATCATTTAATGTT
Celera SNP ID:            hCV1270744
SNP Position Genomic:     13465
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38859):
CAGTAGAAAATGTACTACTCCTGGCTCTGCTATTGAGTCATTTAGTCAAATCACTTCATCTCTTTGGGTATCAGTTTTCTCATCTGTAAAATGGGCAGTT
M
AACCAGATTAGTAGTTTTTTTTTTTTTTTTAATATTGAAAGCATTTATTAAGCAACAGAATTCTCTCTTTTTTTTTTTTTTCTTTAAGCGAGAAGTAGAT
Celera SNP ID:            hCV1270672
SNP Position Genomic:     71084
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,7)   total(A,4|C,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38860):
CCAAGCCCTAAGGGGAAATGTGGTAGTTTCAGCAGGTGGAGTTGATTCTCCTTTTCCAGGTATAATGGATCAGTGGAGATTTAGATAAGAAAAAGTAGCA
K
TCAGCAGTAGAAAATGTACTACTCCTGGCTCTGCTATTGAGTCATTTAGTCAAATCACTTCATCTCTTTGGGTATCAGTTTTCTCATCTGTAAAATGGGC
Celera SNP ID:            hCV1270673
SNP Position Genomic:     70979
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,6)   total(G,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38861):
CTAGGCCATCAGCACTTTGTGGGGACTGCCCAAGCCCTAAGGGGAAATGTGGTAGTTTCAGCAGGTGGAGTTGATTCTCCTTTTCCAGGTATAATGGATC
R
GTGGAGATTTAGATAAGAAAAAGTAGCATTCAGCAGTAGAAAATGTACTACTCCTGGCTCTGCTATTGAGTCATTTAGTCAAATCACTTCATCTCTTTGG
Celera SNP ID:            hCV1270674
SNP Position Genomic:     70950
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38862):
AGTTCACATTTCTTGAAAAGGAAATAAAAGAACACTGAGCAGGAAGGGGAAGGTTTTGAGACTCTTGGGTAGTTGGAGTTAGGTGGAGACACCTTGCTAC
Y
TTAACTTTAAACCTTATATCCCTGGGGCAGGGATGACTTGGCAGAGAAACACCTTCAAGTCACTTTTTTTTTTGAGACACTGTCTTGCTCTGTTGCCCTA
Celera SNP ID:            hCV1270748
SNP Position Genomic:     11896
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38863):
ATTATAACCATTTTTAAGTATATAGTTTAGTAATGTTGTACATATTCATATTGTTGTCCAACGTATCTCTAAAACTTTTTTCCCCCAAAACTAAAACTCT
R
TACCCATTGAACAGCACCTCCCTGCTTCTCCCTTTTCACAATCCCTGGTACCACCTTTCTCCTTCCTGTGTCTGTGAATTTGACCATTGTAGGTACCTCA
Celera SNP ID:            hCV1270675
SNP Position Genomic:     70361
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38864):
TTTCAGAATAAGCAGCACTCTTAGTTTTTTTAGTCTAACTTTAAGTGTAACATAATGCTATTATAACCATTTTTAAGTATATAGTTTAGTAATGTTGTAC
R
TATTCATATTGTTGTCCAACGTATCTCTAAAACTTTTTTCCCCCAAAACTAAAACTCTGTACCCATTGAACAGCACCTCCCTGCTTCTCCCTTTTCACAA
Celera SNP ID:            hCV1270676
SNP Position Genomic:     70302
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38865):
GGGTTTAAGGAGATAATAAATGTAAAATGTTTAAACACTGTGGCTGGCATATAGGATTAACTTTTCAGAATAAGCAGCACTCTTAGTTTTTTTAGTCTAA
Y
TTTAAGTGTAACATAATGCTATTATAACCATTTTTAAGTATATAGTTTAGTAATGTTGTACATATTCATATTGTTGTCCAACGTATCTCTAAAACTTTTT
Celera SNP ID:            hCV1270677
SNP Position Genomic:     70240
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38866):
AGGCAAATACTGCATGATTTCACTTGTATGTGGGATCTAAAAAAAGTGAATCTCATAGAAACAGAGCAGAAAGGGGCTTACTAGGGGGTAGTGAATGGGG
R
AAATGGAGAGATATTGGTCCAAAGGGTACAAAATTTCAGTTATGTAGGATGTAGCAGTTCTAGAGATGGAATGTACAACATGATGGCTATAATGAATAAC
Celera SNP ID:            hCV1270678
SNP Position Genomic:     69587
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38867):
TGGATTTGTGGAGTTTGAGGAGCCTTGGAGACCTGGAAGTAGGCAGTCAGACGTACGGGTTTGGAGCTAAGCATCTGTGTTTAGAGGAAGTGATGGAAAA
K
CTTCTCTCTATGTCTTCCTCAGGTCATGTTGGCCCCCCTTATTTCCATTGCTCTGAAAGTGTCCCAGCTGCAGGAGAGGACGGGACGCACTGCACCCACT
Celera SNP ID:            hCV11281284
SNP Position Genomic:     72316
SNP Source:               Applera
Population(Allele,Count): african american(G,19|T,19)   caucasian(G,32|T,8)   total(G,51|T,27)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38868):
TGTGACAAATGCTGTATGACAAATTTCACTTAGCATAATGTCCTCAAGGTTCATCCATCTTGTGGCATATGGCAGGACCCCCCCCCCCCCACACACACAC
R
CACTTTTAAGGCTGAATAATATTCCACTGTATGTATACACAATATTTTGTTTATCCATTCACTTGATGATAGACGTTAGCGTTCTTTCCACCCTTTGACT
Celera SNP ID:            hCV15876310
SNP Position Genomic:     39861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38869):
AAGTTGGGGAAGTGTTGTGGTATATTAGCCCCTTCTTGGTGATTCACAGCATACAATGCAATGCACCATAAAGGCTCCAAGATTTCGGACATGGTGGCCT
R
CACCTGTGGTCCCAGCTACTCAGGAAGCTGAGGCAGGAAGATCACTTGAGCGTAGGAGTTCTGGGCTATAGTGTGCTATGCCTGTCGGGTGTCTGCACTA
Celera SNP ID:            hCV8905110
SNP Position Genomic:     68523
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38870):
TCTCTGTTGCTCAAGAGTGAATTGAAATGGCTACTACATTGTGTGAGTCCAGAGGGCTTAATCTGCATGGTGTCATAGCCATTTGGGGGCTAAACCGACA
R
GTGTGAGGATTGTAAACTGGCAGGGAGCTCAAAATGAGCTGATTGGTGAAACTTCATGGTGATCTCGTAGGTTGCAGCAGAGAACAATACAGGCCCAGTC
Celera SNP ID:            hCV8904963
SNP Position Genomic:     15497
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38871):
ACATTGTTGTGCAGCATATCTCTAGAAAGTTTTCATCTTGCCAAACTGAAAGTCTATGTCCATTGAACAACTCCCCATCTTTCCCTCTTCTGAGCCCCTG
M
CAACCACCATTGTATTTTGTGTTTCTATGGTGTTGACTTCTTTAAATACCTCATGTAAGTGGAATCATACAGCATTTGTCTTTTGTGACAAATGCTGTAT
Celera SNP ID:            hCV15876314
SNP Position Genomic:     39677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38872):
AGACCAGATGGCTTCCCAGGATCAATGGGGGCAAGCCATTAACTATCATCTAGTTAATAGAGGAAATTGCATTTTACAGTGGGATGGGTTCTAGAGTTCG
R
GTGGAAGATGAAACTTCAGTCAAAATCATCCTTAAAGTCCCATAGGAAAGTACCACATTGGAGAACAACATGTAACACAACAGGTATGTCTTTAAATAGC
Celera SNP ID:            hCV8904964
SNP Position Genomic:     16448
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   JBIC-allele(G,572|A,873)   total(G,572|A,873) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38873):
CAGTTTCAGAATCTGAATGCCTCTCATGTAAAAGTTGCTGATAAAGCACTCAAATATGAAATTATTATGAAGCATACACATTTTTAAGATAAAATGTGAC
R
TGCCATAAATTTTTTCTTTGAGGAGAGCTGCAAAGGGAACAGTATTAAGATGCTTTTAATCTTTTGAGAGGGAACGAATGGAACATTATTTCTCCACATA
Celera SNP ID:            hCV15876315
SNP Position Genomic:     37775
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,220|A,1087)   total(G,220|A,1087) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:38874):
GGCTCTGCTAAACCTCTGCATCGTGAAAAACCGTGTTGGCTGGATTAAGCAAATGAGAAGGAATATTGTACCAGAACGCATTGATCTTGATAATCTAACA
R
TTCGTGCAGCCCACTGGTTTCCAGGAAGGTGGGCATCAGGACATTGATGTTTTTGCTCTGCAAATTCCTCAGTGGGACCAGAAATACATTTTTAGTGTTT
Celera SNP ID:            hCV15876316
SNP Position Genomic:     37290
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,222|A,1087)   total(G,222|A,1087) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38875):
GGTGAAATGGTGGCAGAATTGCCCATGCTGTTTAAATTTCACTCTTGTCTTCTTTGTCTCCCTGGAAGTTCTATATACAACAGTTACATTTGTGCAAGAT
R
AATACTTGTATGATGTGACTACACTGCACATTCTTGATGCTACTCAGAGTGCACATATGAGAATCATCTCAATCATGATTCATCACCTGCAACTTGGAGC
Celera SNP ID:            hCV8904968
SNP Position Genomic:     16723
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;SG_12_A(G,9|A,15)   SG_12_G(G,11|A,12)   SG_12_AA(G,3|A,18)   SG_95_G(G,67|A,110)   total(G,90|A,155)   no_pop(G,-|A,-)   JBIC-allele(G,583|A,882)   total(G,583|A,882) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38876):
TTTTTTCTTTTAACACCTAATTAAAATCCTGTGAAACTCATTTGGAAACCCCTGGCATAGTGGTTTTGAGCAAAGTTAAAGAGATCTTGTTTTAAATTCT
W
TTCCTGCCACTTAATAACTGTGTGTCCCTGGGTAAGTTGTTACAATTTTATGAATCTTGGTTTCCTTGTCTGTCAAATGGCAGAGTAATACCTACTTCAT
Celera SNP ID:            hCV8905116
SNP Position Genomic:     70026
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38877):
CCTGTCCCCACTACATAACTATGTATAACTATATATATAGGGAGGGAGTTACATAACTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
K
TAAAGAGAGGGGATATAGTTGTATATTTACATATGTAGACCAGTCACTAGCCATAGGAGTGTTCACATTGTCGCATTGTCCTGGCTGGGAATGCACACTC
Celera SNP ID:            hCV8904969
SNP Position Genomic:     17741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38878):
ATGTAAGCTATAGGTGGAGCATCAGCAGTGAGTGAGGCCATTCTTCATCCTTAGGATGTGGCAATGAAATGATGGTGCAAGTTCCTTTCTCTTTTGTGAA
W
CTTTCCCCCCATTTCCTGTTTACATGTAACCCAACAAAATGCAATTTCTAGTGCCTTCTGTCCAATCAGTTCTTTCCTCTGAGTGAGACGTACTTGGCTA
Celera SNP ID:            hCV8905117
SNP Position Genomic:     72822
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:38879):
CTGAAAGTGTCCCAGCTGCAGGAGAGGACGGGACGCACTGCACCCACTGTCATCACCTAAGAAGACAGGCCTGATGTGGTACGTCCCTCCACCCCCGGAC
Y
CATCCAAGTCATCTGATTGAAGAGCATGACAGAAACAAAATGTATTCACCAAGCATTTTAGGATTTGACTTTTTCACTAACCAGTTGACGAGCAGTGCAT
Celera SNP ID:            hCV25601171
SNP Position Genomic:     72469
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:38880):
AATGAAATGATGGTGCAAGTTCCTTTCTCTTTTGTGAATCTTTCCCCCCATTTCCTGTTTACATGTAACCCAACAAAATGCAATTTCTAGTGCCTTCTGT
M
CAATCAGTTCTTTCCTCTGAGTGAGACGTACTTGGCTACAGATTTCTGCCTTGTTTTGCGACATTGTCCCATTCACACAGATATTTTGGGATAATAAAGG
Celera SNP ID:            hCV8905118
SNP Position Genomic:     72884
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:38881):
GACTGAGCGGCACTGGGAGTGCCGGGGCCACCATTCGGCTGTACATCGATAGCTATGAGAAGGACGTTGCCAAGATTAACCAGGACCCCCAGGTAACGCC
Y
AGCCCTGTGCCCTGGTTAGTTCTTTCTGTTCAAGGGAATGATAGTTTCCCATTGAGCCTGTGTTTCAATGCCCATTTCTCAAATGACTCAACAAGGTACC
Celera SNP ID:            hCV25601172
SNP Position Genomic:     67228
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38882):
CATAATTTGCCAGCCTTCAGTCTCCCAGCATTTGGGGAAAAAAATCTCTGCTTATCTTTTCCAGGGCTTGCGCCTCATTTTCACAGATGGTTCTCGAATC
R
TCTTCCGACTGAGCGGCACTGGGAGTGCCGGGGCCACCATTCGGCTGTACATCGATAGCTATGAGAAGGACGTTGCCAAGATTAACCAGGACCCCCAGGT
Celera SNP ID:            hCV25601173
SNP Position Genomic:     67121
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(G,40)   total(A,5|G,73)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38883):
TTTTAGTAGTTTGGATAACATTTATTGAGTGTCTACTATATGGCCAGGCATTGTGAGAAGCATTTCACACATACCTTTCCTCATTTACTTTCAGAACCTT
Y
TAAAGGAGGCTTCACTCTCTGCATTTTATGGAAACTCTGGCTTACAAGGACCCCATCGAAAAGGATGTTCCCTCTTTGTGGCCACCTTCTTTCATGTCCT
Celera SNP ID:            hCV16066951
SNP Position Genomic:     28127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38884):
ATCTGTAAAATGGGCAGTTCAACCAGATTAGTAGTTTTTTTTTTTTTTTTAATATTGAAAGCATTTATTAAGCAACAGAATTCTCTCTTTTTTTTTTTTT
T
CTTTAAGCGAGAAGTAGATGTGGGGAGGGGTTGTTGCATTTTTAAAGATTCCTGTATTAGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAACACTTTG
Celera SNP ID:            hCV27033513
SNP Position Genomic:     71165
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38885):
TCATAATTTGCCAGCCTTCAGTCTCCCAGCATTTGGGGAAAAAAATCTCTGCTTATCTTTTCCAGGGCTTGCGCCTCATTTTCACAGATGGTTCTCGAAT
Y
GTCTTCCGACTGAGCGGCACTGGGAGTGCCGGGGCCACCATTCGGCTGTACATCGATAGCTATGAGAAGGACGTTGCCAAGATTAACCAGGACCCCCAGG
Celera SNP ID:            hCV25601174
SNP Position Genomic:     67120
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38886):
CATCTGTAAAATGGGCAGTTCAACCAGATTAGTAGTTTTTTTTTTTTTTTTAATATTGAAAGCATTTATTAAGCAACAGAATTCTCTCTTTTTTTTTTTT
T
TCTTTAAGCGAGAAGTAGATGTGGGGAGGGGTTGTTGCATTTTTAAAGATTCCTGTATTAGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAACACTTT
Celera SNP ID:            hCV27033514
SNP Position Genomic:     71164
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38887):
GTCAAATCACTTCATCTCTTTGGGTATCAGTTTTCTCATCTGTAAAATGGGCAGTTCAACCAGATTAGTAGTTTTTTTTTTTTTTTTAATATTGAAAGCA
Y
TTATTAAGCAACAGAATTCTCTCTTTTTTTTTTTTTTCTTTAAGCGAGAAGTAGATGTGGGGAGGGGTTGTTGCATTTTTAAAGATTCCTGTATTAGGCC
Celera SNP ID:            hCV27033515
SNP Position Genomic:     71128
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38888):
TATTGAGTCATTTAGTCAAATCACTTCATCTCTTTGGGTATCAGTTTTCTCATCTGTAAAATGGGCAGTTCAACCAGATTAGTAGTTTTTTTTTTTTTTT
T
AATATTGAAAGCATTTATTAAGCAACAGAATTCTCTCTTTTTTTTTTTTTTCTTTAAGCGAGAAGTAGATGTGGGGAGGGGTTGTTGCATTTTTAAAGAT
Celera SNP ID:            hCV27033516
SNP Position Genomic:     71114
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,8)   total(T,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38889):
AGGAGCTTACAGCAGAGTGGGAATTTTAGGTGCCCAGATGGAAATTTGTCCATTTGGGAGTAGTGTGGGGTGGGAAGGAAAGAATTAGTTAAGACTAAAA
R
AAAAAGTTCTTAAAACTTCATCACCCTTTAGCCATTGCCCTATTGCTCTTCTCTCAGCCAACCTTTGTAAAAGCTTTCTGCATTCACTATTTCTCATTCT
Celera SNP ID:            hCV1270750
SNP Position Genomic:     8638
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38890):
AATATTATTCACAATAGTCAAGATATGGAACCAGCCTAAGTGCCCATCTACAGATGAATGAAGACATTGTGGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GTGTGTATACCACAATGGAAAATTATTCTGCCTTAAAACAACAAAAACCAAAATCTTGCCAATCTTGCCATTTGCAATAACATGGATGAACCTGGAGGAC
Celera SNP ID:            hCV27033517
SNP Position Genomic:     69354
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38891):
TCATTCATTCATTCATTTATTCAGTCAGTCATTCAACAGATCCTGTTGAATACCATGTTCAGAGAAATGTGTGGACTAAAAGGATGATGCAGACCCAAGA
S
TTGTCCTTAAGGAGCTTACAGCAGAGTGGGAATTTTAGGTGCCCAGATGGAAATTTGTCCATTTGGGAGTAGTGTGGGGTGGGAAGGAAAGAATTAGTTA
Celera SNP ID:            hCV1270751
SNP Position Genomic:     8528
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,7)   total(G,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38892):
CAATATTATTCACAATAGTCAAGATATGGAACCAGCCTAAGTGCCCATCTACAGATGAATGAAGACATTGTGGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTGTGTATACCACAATGGAAAATTATTCTGCCTTAAAACAACAAAAACCAAAATCTTGCCAATCTTGCCATTTGCAATAACATGGATGAACCTGGAGGA
Celera SNP ID:            hCV27033518
SNP Position Genomic:     69353
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,8)   total(G,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38893):
TGTTTACATAGCATTTGCTGAAGGACATTTCTCCAAAGAAAACATACAAATGGCCAACAGGCGTATGAAAAGGTGGTCCACATCACTAATCATCAGGGAA
R
TGAAAATCAAAACCACAATGAGCTGTCACCTCACACCTGTTAGGATGGCTGTTCTCAAAAAGACAAAAGATAACAAGTGTTGGGAAGGATGTGGAGAAAA
Celera SNP ID:            hCV1270680
SNP Position Genomic:     68959
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38894):
TCAATATTATTCACAATAGTCAAGATATGGAACCAGCCTAAGTGCCCATCTACAGATGAATGAAGACATTGTGGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GTGTGTGTATACCACAATGGAAAATTATTCTGCCTTAAAACAACAAAAACCAAAATCTTGCCAATCTTGCCATTTGCAATAACATGGATGAACCTGGAGG
Celera SNP ID:            hCV27033519
SNP Position Genomic:     69352
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38895):
GAGTCCTCAGGCAACTTCTGTCCCAGCCTTCTTCCCTCAGGTTGGGAAATATCTACCCCAGAGTTCCCACACATTTTTCCCCAAGTGAGAAGATAATTGA
Y
GTCCAGAGATACCGCTGGGGAGGAAAAAGAGAGGGCAGCAGAGAGAAGGATGGGCTTGGCACTTCACACGGACCTCGCTTTGGGTCCATCAGGGATTGGC
Celera SNP ID:            hCV1270681
SNP Position Genomic:     66428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38896):
CCAGCTCATCGCTCGCATCGCTGCCGCCAACGGGGTAAGGGATGCGCGGCCCCGCGCCGCTGTGCACCCTGGCGCGTGTGCGACGTGCGGCCCGCGGCGC
Y
CTCCCTCGCTCGGGGCCGGCCGCTTCCGCGCGCTGCCGCCTCGGTTTCCACCTCCCGCTCCTCCCTCTCCTTCGCGCTCGCTCTTCTGGCCTGGAGGCCC
Celera SNP ID:            hCV1270755
SNP Position Genomic:     6586
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38897):
GATGTGGACAGAATTGTTAGTGCTTCCCTTACTGTGTGCCGGGTACCCTAGGCTGCAGGCTGGGTCAGGCTTTCTCCTGGCTTCTCATGAACACTTACGC
M
CCAGGGTTCTCTCACCTCTGCTTCTGTTGCCTGTTGTCACAGAGTAAACTCATCTCTCACAATTCATAATAGAATAAAGAGCAGGATGAAGATTCTGTTA
Celera SNP ID:            hCV1270683
SNP Position Genomic:     65294
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,9)      total(A,9|C,1) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38898):
TTATAAGCATTTTAAATGTGTCCATTGGGTGGACATGATCATAACATTGGATTTGGATTCAGAGAAATGGATTAGAATTTTATTTCTTCCCCTTACTAGA
Y
TGGGGAGCCATTTAGCTTTTCTCTGTACTCAGTTTTGTCATCTGTAGAAATGGGAATAACAGTCCAGCTGTTGAGAGGATTAAATGAATAATGAGTCTGA
Celera SNP ID:            hCV1270685
SNP Position Genomic:     61742
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38899):
CCACAGCCCAGCTGGGGTACAAGGTAAGGTGGGGAAGTGGGCAGAGAGAATTCTTGCGCATCCACAGCCTCTCCTGTCTTAAGTGCTAATAAAACCCTAG
K
TCATCCAGCCTCTCTCAATTGGAGACTTTAAAAATAATCTGGTCAGGGATGAAATGAAGTCAATTTTTATGTCAGCCATAAAGAGTGAGGCTTTAAAAGT
Celera SNP ID:            hCV1270686
SNP Position Genomic:     61511
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38900):
GCCGGGTACCCTAGGCTGCAGGCTGGGTCAGGCTTTCTCCTGGCTTCTCATGAACACTTACGCACCAGGGTTCTCTCACCTCTGCTTCTGTTGCCTGTTG
K
CACAGAGTAAACTCATCTCTCACAATTCATAATAGAATAAAGAGCAGGATGAAGATTCTGTTACAACCTCCCAGTTTACTTTTTTCCAATTGACCCAGAT
Celera SNP ID:            hCV11281360
SNP Position Genomic:     65331
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,9)   total(G,1|-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38901):
TCAGCAAATGACAAAGTTTACACTGTGGAGAAGGCCGATAACTTTGAATACAGCGACCCAGTGGATGGAAGCATTTCAAGAAATCAGGTAGAAACAGACC
K
GTGTGTAAGTGAGAGAGAGACCTCAGAGCTTCATCTCTGACATCTCAAGGGAAAAATTAAAAAGTTCCTGTTGGCTATTTTTCTTTTGCTGCTGTGTTTT
Celera SNP ID:            hCV11281361
SNP Position Genomic:     64619
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,10)   caucasian(G,30|T,8)   total(G,58|T,18)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;JBIC-allele(T,188|G,1113)   total(G,1113|T,188)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38902):
CCGTGAGAAAGATGGACTGTGGGCTGTCCTTGCCTGGCTCTCCATCCTAGCCACCCGCAAGCAGAGTGTGGAGGACATTCTCAAAGATCATTGGCAAAAG
Y
ATGGCCGGAATTTCTTCACCAGGTGAGCCACAGCCCAGCTGGGGTACAAGGTAAGGTGGGGAAGTGGGCAGAGAGAATTCTTGCGCATCCACAGCCTCTC
Celera SNP ID:            hCV1270687
SNP Position Genomic:     61383
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,32)   caucasian(C,6|T,26)   total(C,12|T,58)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): (C,2|T,9)   total(C,2|T,9)Caucasian(C,59|T,249)   Chinese(C,23|T,37)   Japanese(C,7|T,13)   African(C,12|T,74)   total(C,101|T,373)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38903):
GTACAGGAACCATGGCTGGGAGGCCTCAGGAAATGTACAATCATGGCAGAACAATGAAGAGGCAGCCGGCACCTTCTTCACATGGCTGCAGGAGAGAGAG
W
GTGAAGGGGGAAGTGCTATATACTTTTAAACAACCAGATCTCATGAGAACTCACTTACTATCACCAGAACAGCAAGGGGGAACTTTGTCCCCCATGATCC
Celera SNP ID:            hCV1270688
SNP Position Genomic:     61038
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,11)   total(A,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38904):
AAGAACTACCTGAGACTGGGTAATTTATGAAGAAAAGAGGTTTAATTGACTCACAGTTCTGCAGGCTGTACAGGAACCATGGCTGGGAGGCCTCAGGAAA
Y
GTACAATCATGGCAGAACAATGAAGAGGCAGCCGGCACCTTCTTCACATGGCTGCAGGAGAGAGAGAGTGAAGGGGGAAGTGCTATATACTTTTAAACAA
Celera SNP ID:            hCV1270689
SNP Position Genomic:     60971
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,11)      total(C,2|T,11) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38905):
CACTGCCAGCCAGTCAACTTTCCAAAAACATATTGGTTTATATTCTTTTTGCTTACAAATTTCCATAGTTCCCCAGCACTTTCAAAATAAAGTTTAGCAC
R
GTTCACAAGGCTCCATAGACTTGCCCCAACTATTTCTCCAGTCTCATCCCTGTCACTGCAACCTCTTCAGAGCCGCAGCTCTGTAAACACACCTTCAGGA
Celera SNP ID:            hCV15876320
SNP Position Genomic:     32449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38906):
CAAGGGCTAACCTAATCTGGCTAGTACACTTTTGAGTCCCAATTCTAGATTCCAAGGAGAGAAAACATGAGTGGTCCAGCTTTAGTCAGGGGTCTACCCC
W
TTTGCTCATGGCCTGGAGTCAGGGTCCTGGAGTAGACACCTGGCCTCAGGCCTTCACTCTCATGGAATAGTTGGGGGACAGTTCTCAGAGAAGAGAGGAG
Celera SNP ID:            hCV15876321
SNP Position Genomic:     31975
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   JBIC-allele(T,252|A,1247)   total(A,1247|T,252)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38907):
ACTTACGCAGGGCTTGCAAAGCACTAGAACCAGCTGGTGCTAAGCTCTTTACATTTGTAAACTCCTGTCTCTTAATACAACAAATCTATGCAGTAGCTAC
Y
ACTTTCAATCCCTGTTTCAAAGGTGAGAAAATAGAGGCACAAAGAGCCTACATCCCTTGCCCACGGTCCCCTAGTCAGAAAATGGTACTCGGCCTGTCTC
Celera SNP ID:            hCV15876322
SNP Position Genomic:     29846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38908):
TGTGCACAGTGGTTGGGGGTACAGGATGAGTAAGACAAAGTCCTTGTGCTTAGGGTGCTCATGCTGGTGGAGGAGACAGGCACTCCATGGGTAGTTACAA
Y
AGGGTGCGAATTCTATTACAGTCAGTCCTTGACTTACCATGGAATGATGAATTACAGTTGTCCAACTTTACAGTGGTGTAAAAGTGATACACATTCAGTA
Celera SNP ID:            hCV8904972
SNP Position Genomic:     22291
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38909):
AGTAAGCAAAATTGATCCTGAGTAGCTTAAGTACTGGTTACGGTGTTTGGTGTTTGTATGCCAGGTCTACCCCTTATGGTTTTAGGATAGTGGTTCTGGT
R
AATAGTTGATTAGGTCCACTTGCTCCAGAAATCTCCGTGAATAAGATTTGATGGGGTGCTTTCCATCCCTGAAACATTTACTGAATGTTTTCTTATTGCT
Celera SNP ID:            hCV8904974
SNP Position Genomic:     23755
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38910):
TGAACATGGGATTCTGTAGAGCTCTAAGCCATCTGGCCCTTGTAATTCTTCTGACCTTGTACCTTCTTCCAATTTTAATGTAATTTCTCCTTTTCTTTAG
R
GAACATTTCCTAACTCTACTAAAATGCACATAGCCAATGGCCCGTCCCAATTGTTGGGTATGAAACACGCCTGCTTGTTTTCAGATTCAGAGCAGTGCTA
Celera SNP ID:            hCV15876326
SNP Position Genomic:     29636
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,107|A,1394)   total(G,107|A,1394) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38911):
GGAAGTCAAGGAAAAGTAAATCCCAGCTCTGCAGTGCCTCTGGCATCTGCCAGGAGGGAGAAGAGGTGTAAAGGTGTGTATAGGAGACAGTGGCCTAAGC
Y
CGAGAGCTGCCCTCTGTGCTGTAAAGAAAGCAGCTGCCCCACTTTCTGTAATCAGAAAATCCAAGCATTTTGATGTGAGACCAGATAGGAGGGAAAAATA
Celera SNP ID:            hCV15775376
SNP Position Genomic:     65883
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38912):
AAATGATGGTGCAAGTTCCTTTCTCTTTTGTGAATCTTTCCCCCCATTTCCTGTTTACATGTAACCCAACAAAATGCAATTTCTAGTGCCTTCTGTCCAA
Y
CAGTTCTTTCCTCTGAGTGAGACGTACTTGGCTACAGATTTCTGCCTTGTTTTGCGACATTGTCCCATTCACACAGATATTTTGGGATAATAAAGGAAAA
Celera SNP ID:            hCV8905123
SNP Position Genomic:     72888
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:38913):
GTCCAACTTTTTATATCCCTAAAGCCTTGCTCTCACTGAAGCCTTGATTGAGGCCAAGAGAGAATGCCTTGCTGCTGCCCCCATGAGCCACTGCCCATCT
M
AGGAATTCCCACAGATGCCCACATTTACCCACATGCTTTAAAAGCTCTTGTTTATTGAGTCTTTGCTGTTCACCTGGCTGCATATTACATTACAAGGCAA
Celera SNP ID:            hCV15876327
SNP Position Genomic:     27247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38914):
TTTTTTTAGAAGGAGGGGAGTATTGTATTTTGTTTTCATGTCCTAGTCAGAAAATGAAATGGTCTCTAGGCTAGGTTGCAAATCCTTAGACTCAAGAACT
R
TAATTTTTTTTATTGTCCTGAATATTCTAAAAAGTAACATAAATTTTAAGAGAATTGTAATTTAAAATCTTAGCAGGGTCAACTGAGCTCTGGATTCTTC
Celera SNP ID:            hCV8905124
SNP Position Genomic:     73163
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:38915):
AGGAGCCATACATAGCCCAATGATGAGAAACGTGAGCTTTGGCTTTAAAACTGGTGTTGAAGCCTGCCTTTCCAATTTATTGTGAGTCCTGGAGCAACTC
R
TGTAACTTCTTTAATCCTCAGTTTCCTTATCAGTAAAATGGGAATAGTGAGAATACCTACACCACTGAGTTGTTATTAAGCCTGCATGAAAACCTACATG
Celera SNP ID:            hCV15876328
SNP Position Genomic:     26789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38916):
TTCAATATTATTCACAATAGTCAAGATATGGAACCAGCCTAAGTGCCCATCTACAGATGAATGAAGACATTGTGGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTGTGTGTATACCACAATGGAAAATTATTCTGCCTTAAAACAACAAAAACCAAAATCTTGCCAATCTTGCCATTTGCAATAACATGGATGAACCTGGAG
Celera SNP ID:            hCV27033520
SNP Position Genomic:     69351
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,8)   total(G,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38917):
ATTCAATATTATTCACAATAGTCAAGATATGGAACCAGCCTAAGTGCCCATCTACAGATGAATGAAGACATTGTGGTGTGTGTGTGTGTGTGTGTGTGTG
K
GTGTGTGTGTATACCACAATGGAAAATTATTCTGCCTTAAAACAACAAAAACCAAAATCTTGCCAATCTTGCCATTTGCAATAACATGGATGAACCTGGA
Celera SNP ID:            hCV27033521
SNP Position Genomic:     69350
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3|-,8)   total(G,3|-,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38918):
GGTTGCATAAGGAGGGGTGAACCGGCCCAAGTTGGAAACAGAGCAGGTCAAAACTCCCATGCCGATGAGTAGTGGGATTGCACCTGTGAATACCCACTGC
R
CTTCAGCCTGGTGACATAGCAAGACCCCATCTCTAAAAAAAGAAAAGGAAAGAAAAAAAGAGGGTGCTGAGAAGACTTGCAGTAAAGGTGCCTGTTTACA
Celera SNP ID:            hCV27033522
SNP Position Genomic:     68766
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38919):
CGTAGCTAAGCCCCCATCAGCTGGATGCAGAGAGGGTGACGGAAGGCAGGCTCACAAGGTGCAGCTGCTGCCATTTATCAAGGATTTAACCCTCCAATGA
W
CAAGTATGGATGAAATTACATCCCCAAATAGACCCCTCATAATTTGCCAGCCTTCAGTCTCCCAGCATTTGGGGAAAAAAATCTCTGCTTATCTTTTCCA
Celera SNP ID:            hCV25601184
SNP Position Genomic:     66983
SNP Source:               Applera
Population(Allele,Count): african american(A,31|T,7)   caucasian(A,40)   total(A,71|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:38920):
CCACCGTAGCTAAGCCCCCATCAGCTGGATGCAGAGAGGGTGACGGAAGGCAGGCTCACAAGGTGCAGCTGCTGCCATTTATCAAGGATTTAACCCTCCA
R
TGAACAAGTATGGATGAAATTACATCCCCAAATAGACCCCTCATAATTTGCCAGCCTTCAGTCTCCCAGCATTTGGGGAAAAAAATCTCTGCTTATCTTT
Celera SNP ID:            hCV25601185
SNP Position Genomic:     66979
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:38921):
GGGCAGGGTAGAGGAATAGTCTACCCAGACTGCCTGTCACTCAGACCAGCCACTCTGCTGCAAAAGGAGTTGGCTTATCTTTTTTTTTTTTTTTTTTTTT
T
TAAGCACTTAGCAGTTTCCTAGGGCTGCTATCTGCTGTAACAAACTGTGTGGCTTAAAACAATGGATATTTATTCTCTTGCACTTCTGGCAGCTTAGAAG
Celera SNP ID:            hCV27033525
SNP Position Genomic:     26063
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38922):
TTGCCTGGCTCTCCATCCTAGCCACCCGCAAGCAGAGTGTGGAGGACATTCTCAAAGATCATTGGCAAAAGTATGGCCGGAATTTCTTCACCAGGTGAGC
Y
ACAGCCCAGCTGGGGTACAAGGTAAGGTGGGGAAGTGGGCAGAGAGAATTCTTGCGCATCCACAGCCTCTCCTGTCTTAAGTGCTAATAAAACCCTAGGT
Celera SNP ID:            hCV25601186
SNP Position Genomic:     61412
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38923):
CACCTCCCAGTCCACCACGCGGTCCCGAGGGTAAACGACCAATAATGTACAATACAGGGTACTGTATTTAATAAATTACACGAGATCTTCCAACATTTTA
W
TATAAATTAGGCTTTGTGTTCAATGATTTTCCCTAACTTTAGGCTAAGGTAAGTGTTGTGGGCCCATTTAAGGTAGGCTAGGCCAGGCCATGATGTTTGG
Celera SNP ID:            hCV27033527
SNP Position Genomic:     22570
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38924):
AAAAGAGTTAGAGAGGTGTCAGCATTGTTTGAATAAATATGTTGTTTCCCAAGGTGATTGTTTTGAAAGAGATAATGCTAATTGAGATGAATGTACTCAA
C
TGGCATAACTGTTTAAAGGGAGTTACTGTATTTTATACTGTTCAAGCACATTGACCTGTAGAGAGGAGCTTAAGAGACAGTTCTTGCTGAGGCAGAGTCT
Celera SNP ID:            hCV27033528
SNP Position Genomic:     20927
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,7)   total(C,7|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38925):
GAAGTACAGGGGTACTTCGGGAGCTTTATTCTCAGGGTGCCTAACTTGGTTCTGTGGTGTAGGAGATCAGATTTTCTTTCTGGCTTTCTGCCCATTCTAA
Y
TTGCATAGCTACTGAGTACATTTCCCTGTAGGCAAAGCCCACAGGGGAAGATTGTAGCACCCCATGTCTGGGGATAGCCTAGACAGAATACGCCAGTAGA
Celera SNP ID:            hCV1270690
SNP Position Genomic:     55884
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;JBIC-allele(C,233|T,1250)   total(C,233|T,1250)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38926):
GATACTGAGTTAGACTCTGGGACACATGGTGAACAAGGCCTTCTCATAGAGGGCTCCATGAATTACAGGTGTGCAAAGCAATAGAAGGTGAAGTACAGGG
R
TACTTCGGGAGCTTTATTCTCAGGGTGCCTAACTTGGTTCTGTGGTGTAGGAGATCAGATTTTCTTTCTGGCTTTCTGCCCATTCTAATTTGCATAGCTA
Celera SNP ID:            hCV1270691
SNP Position Genomic:     55795
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38927):
TAAAAGAGTTAGAGAGGTGTCAGCATTGTTTGAATAAATATGTTGTTTCCCAAGGTGATTGTTTTGAAAGAGATAATGCTAATTGAGATGAATGTACTCA
A
CTGGCATAACTGTTTAAAGGGAGTTACTGTATTTTATACTGTTCAAGCACATTGACCTGTAGAGAGGAGCTTAAGAGACAGTTCTTGCTGAGGCAGAGTC
Celera SNP ID:            hCV27033529
SNP Position Genomic:     20926
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38928):
GGGAAGAAATGCACTTTTACAAAAGAAAAGAAGTTTGCTTGCAAAGAGGTGCAAAGGAGTCTAACTTCAGGACTGGTCCACCGAGTAAAACAAACCACTA
R
CATCTGCAGAACAATCTTGGAATATTACTAACATTATACATTAGTCTGTTTGTATACATTATACATTAGTCTGTTTGTGCTGGAGGAGCAGCAGCTTTCT
Celera SNP ID:            hCV1270692
SNP Position Genomic:     55006
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;JBIC-allele(A,247|G,1234)   total(G,1234|A,247)
SNP Type:                 INTRON


Context             (SEQ ID NO:38929):
TTGAATGAGTTCATGAACACTATTCACTTGGCACCTTCCATTTAGACAGATTCCTGCTATTGGAAAAGAAAGAACTTTAAAAGGTATCTGATGTAAATTC
Y
TGTATGATGCTGGAACCATAGTGACTGGTCACTGCTTTCTGGCTGAACCACCCACCTCAATGGAGAATCCACACCTCACCTCTTGCCGTAGTCTGGGACC
Celera SNP ID:            hCV1270693
SNP Position Genomic:     54742
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   SC_12_A(T,1|C,16)   SC_12_C(T,1|C,22)   SC_12_AA(T,3|C,21)   SC_95_C(T,5|C,174)   total(C,233|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38930):
TTTTGGATATTCACAATGATATTAGCATTTGAAGATTCCAGAACATTCTGCCATAAAGAATCCTGTTAGTACAGTTTTGCCTAAATATAGTTTACCACTA
Y
ATATAATAATTATGATGATATGATACAATATCATCACCACAATAATGATTATTATTATTATCATTTCGTAGTATGTACAGTAACTTCTTTTTCCACAGAC
Celera SNP ID:            hCV1270694
SNP Position Genomic:     53280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38931):
TTGTGGGTGTTTAAATCAGAGATTACAAGGCCACTGCTTAGTCCTTTTCTACTTCATATAATGGGCATGGTGCCATGCTATTCTGAGGGATACTACATGA
R
TGCCCAATGAGCCTATGAGGTGGTCTTCTCCCATGAAACTCCCCACAGGGTCATCTAGTTCAGGCCTGGCTTCAGTCATTCTTTATGAATGAAGATGTCT
Celera SNP ID:            hCV1270695
SNP Position Genomic:     52888
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38932):
ATGATTTTCCACCAATCTTAGAATTATGTATGACTCTGAGCAATGCTAAATGGGACCCTTGATTACAATAACGATTGCCCTTTTCCGTCCCTCACATGGC
Y
ACGCTAACAGTCCTGCTGTGATGTAACTTTGATTTCATGCCTTTGAAGGGTGGCTAGTGCTACAAAGATTGCTTTGTATGAGACCCCAACTGGCTGGAAG
Celera SNP ID:            hCV1270696
SNP Position Genomic:     51420
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,40)   total(C,69|T,5)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38933):
CTCTTATGATTTTCCACCAATCTTAGAATTATGTATGACTCTGAGCAATGCTAAATGGGACCCTTGATTACAATAACGATTGCCCTTTTCCGTCCCTCAC
R
TGGCCACGCTAACAGTCCTGCTGTGATGTAACTTTGATTTCATGCCTTTGAAGGGTGGCTAGTGCTACAAAGATTGCTTTGTATGAGACCCCAACTGGCT
Celera SNP ID:            hCV1270697
SNP Position Genomic:     51415
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38934):
AATAACTGTTAAGGATCCCTCATTCTGACCCGAGGTCAGAACTAAATTATTAGAAGCCCCTCTTGAACAGGAATAGGAGTCATTGAAATGAAACCCACAC
R
TTTAATTTCAGACATCCATACTTGCTAACAATGGCACGATGATTAGGTTCTGATTATGATAGAATGACTGGTATTTCCTGAGCTGGGTGAGTTCTAGATG
Celera SNP ID:            hCV1270698
SNP Position Genomic:     47997
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38935):
TTCCTGTTGTTTCTCATGCCATTCTTCTCCCCAGAATGCATCCACCTCACCCCTGAATCCTCACATACTTTAAGGAGTTTTATTTTCTGATTCTGCATAC
W
TTTATTCCATGCTGTATATAGTTGTGGGACCGTATGTAAAGAAGATCCTCTGTGAAGAACTCGGTGCCCCTGCGAACTCGGCAGTTAACTGCGTTCCTCT
Celera SNP ID:            hCV1270699
SNP Position Genomic:     47591
SNP Source:               Applera
Population(Allele,Count): african american(A,9|T,23)   caucasian(A,24|T,12)   total(A,33|T,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,9)      total(A,9|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38936):
TCCGCGGCTTTGCACGGAGCATGCCCACGAGTGGTGCTCTGGACCGGTAGGTGTCTCCATTCCCTTGGCCTTCCTGTCTTAGGTCGTCCCAGTCTTCACC
R
TACCCTTCACTGTGCCTGGAACACGTGTCCTTCCCTTTCAGCATGGGCATCTGATGCATAGAGTGTGCTGAGCGATTCTTGTGTGAGGGGATGGTTGGCT
Celera SNP ID:            hCV25474738
SNP Position Genomic:     49227
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,24)   caucasian(A,23|G,11)   total(A,35|G,35)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(A,609|G,864)   total(G,864|A,609)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38937):
ACAAGGCCACTGCTTAGTCCTTTTCTACTTCATATAATGGGCATGGTGCCATGCTATTCTGAGGGATACTACATGAATGCCCAATGAGCCTATGAGGTGG
Y
CTTCTCCCATGAAACTCCCCACAGGGTCATCTAGTTCAGGCCTGGCTTCAGTCATTCTTTATGAATGAAGATGTCTTTGAAGGCAGCAACTGTGTCAAAA
Celera SNP ID:            hCV15962293
SNP Position Genomic:     52912
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,502|T,1001)   total(C,502|T,1001)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38938):
AATTTTCTTCAAGTTTAAACAAATTTGATCATCCAAAGGAGCCATACATAGCCCAATGATGAGAAACGTGAGCTTTGGCTTTAAAACTGGTGTTGAAGCC
W
GCCTTTCCAATTTATTGTGAGTCCTGGAGCAACTCGTGTAACTTCTTTAATCCTCAGTTTCCTTATCAGTAAAATGGGAATAGTGAGAATACCTACACCA
Celera SNP ID:            hCV15876332
SNP Position Genomic:     26753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38939):
AAAAAAAATTTTGACATACAGTGTGGTTGTGTTGTATCCTACTGCTCTAATATTAGGAAAGGGGCTGGGATGCTAGGTCAGCTGGGACCCTCTTTTTCTC
R
CTTGCATTCATCTCTTTTTCTCTCTTACTCTCACCACTTTTCTACCTCATGTTGAGTAGCGCCATGAAGACCCCTCCTTCATCACTCTGCCTGCAGTTAT
Celera SNP ID:            hCV8904984
SNP Position Genomic:     25335
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;SG_12_A(A,6|G,18)   SG_12_G(A,0|G,23)   SG_12_AA(A,5|G,18)   SG_95_G(A,14|G,169)   total(G,228|A,25)
SNP Type:                 INTRON


Context             (SEQ ID NO:38940):
AAGCATTTCACACATACCTTTCCTCATTTACTTTCAGAACCTTCTAAAGGAGGCTTCACTCTCTGCATTTTATGGAAACTCTGGCTTACAAGGACCCCAT
Y
GAAAAGGATGTTCCCTCTTTGTGGCCACCTTCTTTCATGTCCTTTACAGCCGGACATCCTATTTTGGCCAGACCATATAATTGAAAATGATCTTAATAAT
Celera SNP ID:            hCV8904985
SNP Position Genomic:     28184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38941):
GACCCCATCGAAAAGGATGTTCCCTCTTTGTGGCCACCTTCTTTCATGTCCTTTACAGCCGGACATCCTATTTTGGCCAGACCATATAATTGAAAATGAT
Y
TTAATAATGAGACAGACAGAAAATAACCTCACCATTTCTCTCCTCTTCTTCTTCTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGCCTT
Celera SNP ID:            hCV8904986
SNP Position Genomic:     28276
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38942):
AATTGTGGATTCGGTAGAAGCTTATGCTACAATGCTGAGAAGCATCTTTGATTTCAGTGCACTGAAAGAACTACTTTCTGGGCCAAACCGACTGAAGATC
Y
GTATTGATGCTATGCATGGAGGTATACAATCATTTCTTTTCAATTCCCATCTCTTGAGGATAGGAAGTTGCCCTCTTCTGTGTGTATCATGATGCTTCAA
Celera SNP ID:            hCV25473504
SNP Position Genomic:     44545
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,12)   caucasian(C,26|T,8)   total(C,50|T,20)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:38943):
GTGACAGTGAAATGCTTCTCATTTGACTGTACCTGAATATGAAGAGCCATGCGCAAATCTTCCTTAACATGATATTTTCTTTTAGAAAAATCCTGCTACT
Y
TGCTGACTGAATGATGAAATGGTAGATGTGCTAGTGAAGAGGAACTGATGAGCTTTGGATTCTTTGTATTTCCATGTGAGCTGCACGAAGTAACCCACTG
Celera SNP ID:            hCV25471546
SNP Position Genomic:     42606
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(T,40)   total(C,4|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:38944):
CTAAAAGAGTTAGAGAGGTGTCAGCATTGTTTGAATAAATATGTTGTTTCCCAAGGTGATTGTTTTGAAAGAGATAATGCTAATTGAGATGAATGTACTC
A
ACTGGCATAACTGTTTAAAGGGAGTTACTGTATTTTATACTGTTCAAGCACATTGACCTGTAGAGAGGAGCTTAAGAGACAGTTCTTGCTGAGGCAGAGT
Celera SNP ID:            hCV27033530
SNP Position Genomic:     20925
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38945):
GCCTCGGCCTCACAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCGGCCCAAGTCACTTTTTAACATGCTGTAACCCCCACTTTAAAAAAAAAAAA
A
CCACTTTTTAATTATGGTGGGGCCGGGCATGGTGGCTTACCGCACTTGAGTGGGTCACTTGAGCCCAGGAGTTCCAAACCAGCTTGGACAACATGGTGAA
Celera SNP ID:            hCV27033532
SNP Position Genomic:     12298
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38946):
GGACTACAGGCGTGCACCACCATACCCAGCTAATTTTTGTATTTTTAGTAGAAACGAGGTTTCACCATGTTGGCCAGGATGGTCTGGATCTCTTGACCTC
R
TCATCCGCCCGCCTCGGCCTCACAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCGGCCCAAGTCACTTTTTAACATGCTGTAACCCCCACTTTAA
Celera SNP ID:            hCV27033533
SNP Position Genomic:     12187
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   ;SC_12_CA(A,10|G,10)   SC_12_A(A,9|G,9)   SC_12_AA(A,9|G,9)   total(G,28|A,28)
SNP Type:                 INTRON


Context             (SEQ ID NO:38947):
TTTGGAAGTTCCTTCATGGGCTGCACATTGACTATCCCCTAGGTTTCTTTCTTCTTTCTTTCTTTCTTTTTTCTTCTTCTTTTTTTTTTTTTTTTTTTTT
T
GAGACGGAGTCTTACTCTGTCGCCTAGGCTGGAGTGCAGTGGCGCAATCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCGCCTGCCTTAGC
Celera SNP ID:            hCV27033535
SNP Position Genomic:     9063
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38948):
TTTTGGAAGTTCCTTCATGGGCTGCACATTGACTATCCCCTAGGTTTCTTTCTTCTTTCTTTCTTTCTTTTTTCTTCTTCTTTTTTTTTTTTTTTTTTTT
T
TGAGACGGAGTCTTACTCTGTCGCCTAGGCTGGAGTGCAGTGGCGCAATCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCGCCTGCCTTAG
Celera SNP ID:            hCV27033536
SNP Position Genomic:     9062
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38949):
TGCTTACTCTCCTGATTCTACTCACACTTTTTGGAAGTTCCTTCATGGGCTGCACATTGACTATCCCCTAGGTTTCTTTCTTCTTTCTTTCTTTCTTTTT
T
CTTCTTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTACTCTGTCGCCTAGGCTGGAGTGCAGTGGCGCAATCAGCTCACTGCAACCTCTGCCTC
Celera SNP ID:            hCV27033537
SNP Position Genomic:     9034
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38950):
TTTGTGGGGAGGAGAGCTTCGGGACCGGTAAGTCACACTCCTGTGCTAGCATTTTCCTCCCTGTAACCACTATTTCCAGTAAAAGCTTAGACTGCTAAGG
Y
AGCACTGAAATACCAACGGTAGCCGATGTGTCCTAAATCAAGGCACAAATTATTTATAACAACCCTGATGAAATGTGCACATTTGAAAAGGGGTGAGCAC
Celera SNP ID:            hCV25601197
SNP Position Genomic:     51658
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:38951):
ATTCCTGTTGTTTCTCATGCCATTCTTCTCCCCAGAATGCATCCACCTCACCCCTGAATCCTCACATACTTTAAGGAGTTTTATTTTCTGATTCTGCATA
Y
ATTTATTCCATGCTGTATATAGTTGTGGGACCGTATGTAAAGAAGATCCTCTGTGAAGAACTCGGTGCCCCTGCGAACTCGGCAGTTAACTGCGTTCCTC
Celera SNP ID:            hCV25601198
SNP Position Genomic:     47590
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,40)   total(C,72|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:38952):
TTGCTTACTCTCCTGATTCTACTCACACTTTTTGGAAGTTCCTTCATGGGCTGCACATTGACTATCCCCTAGGTTTCTTTCTTCTTTCTTTCTTTCTTTT
T
TCTTCTTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTACTCTGTCGCCTAGGCTGGAGTGCAGTGGCGCAATCAGCTCACTGCAACCTCTGCCT
Celera SNP ID:            hCV27033538
SNP Position Genomic:     9033
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38953):
CTTGCTTACTCTCCTGATTCTACTCACACTTTTTGGAAGTTCCTTCATGGGCTGCACATTGACTATCCCCTAGGTTTCTTTCTTCTTTCTTTCTTTCTTT
T
TTCTTCTTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTACTCTGTCGCCTAGGCTGGAGTGCAGTGGCGCAATCAGCTCACTGCAACCTCTGCC
Celera SNP ID:            hCV27033539
SNP Position Genomic:     9032
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38954):
CCACCGTAACCATTTTTAGGTGTATGGTTCAGTGATGGTAACAAAACATTGTTGTGCAGCATATCTCTAGAAAGTTTTCATCTTGCCAAACTGAAAGTCT
R
TGTCCATTGAACAACTCCCCATCTTTCCCTCTTCTGAGCCCCTGCCAACCACCATTGTATTTTGTGTTTCTATGGTGTTGACTTCTTTAAATACCTCATG
Celera SNP ID:            hCV1402385
SNP Position Genomic:     39632
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38955):
CTGGAAATAAGGCAAACATTCTGGGAAGCAAATCTCGCTCAAACAGTGAATGGAACTTATCAGGTAACTTTTCATGTTCAAAGGGAAAGGAATTTTTTTT
T
AAGTCACTCAGAGGTTTTAAATAGTTTAAAGATACCTAGAGAGAAATAAAAGACGTGTTAGAAGGGAAGGGGAACCACTAATCAGTGTGGGTGAAGCCAG
Celera SNP ID:            hCV11281384
SNP Position Genomic:     50799
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38956):
TGATGAAAATACTCTCTCAGCATTTCAGAGATGCGTGTTCTTGGTAGTTATATAAAATGTCACTGTAAACATATGTAACTGGCTTCTCCTGTTGTTTGTT
K
TTGGTGGTGGGTTTTTTATTTTCTTTTTTTTTTGAGACGGAGTCTTGCCCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGTAACCTC
Celera SNP ID:            hCV1270702
SNP Position Genomic:     46436
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,4)      total(G,1|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38957):
ATGATTTGTTGGCTTATCTATCTCTCCTTCTGCACCAAAAGTTTCTTGGCAACTTGAGTCTTCCTGAGGTGTACAGTGCCTGGTGAAATGAATACAACAC
R
TCGGTCTATATAGGACATATTGGGTAGATGGATGGGTGAACAGATGGACAGCCAACTGACGCGTGCTAAAGGTTGTACACTCTCTGAGGCAGAGGCAGCT
Celera SNP ID:            hCV8904993
SNP Position Genomic:     29391
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   JBIC-allele(G,607|A,882)   total(G,607|A,882) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38958):
AAGGTTTCCTGGAAGAAGTGGCATCCAACTCAGTTCTTATGAAAGAAAGATCTAGAGTGATGAAAAATCAAGCAATGGTCATTCTCATGGAGTCGGTGGC
Y
GTGGCAAAGGCATGAAGGCTTAAAAATGGATGTCACATTAGGGAAACGAGAGGCCTGGGCTGGCTGGATAATGGGGCATGTGAGGAGGGCATTGGGTAAG
Celera SNP ID:            hCV1270703
SNP Position Genomic:     46023
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;SC_12_C(C,6|T,17)   SC_12_AA(C,7|T,7)   total(C,13|T,24)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38959):
TCTAGGGTAGCTGTTCTTACCTGGTTTTCTGCTGTCCCACGTGACTCTCACATGCACTCGTTGGGACAGTGGTTTATGCCCTTGTTCTGTGCACTGTCCA
R
TACCCTCATTCTGGGATTCTTAACCTGGACTCCAGAGGGATTTTTGCACTCTCTGGAATGATATGCAAGATGATGTGTCCATTGTACATGCAGAAAGGAG
Celera SNP ID:            hCV29321529
SNP Position Genomic:     64820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38960):
GGAGGCTGAGGCACGAGAATTGCTTGAACCTGGAAGGCAGAGGTTGCAGAGATTGCACAACTGCACTCCAGCCTGGGAGACAGAGTGACTCTGCCTCCCC
M
CAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGACCCTGAAACAAGAGGAACCCAGGCAGCGTCTCCTGGTTGTCTCAGCACATCTGTTTCATTTTCCTCTC
Celera SNP ID:            hCV8904994
SNP Position Genomic:     30512
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38961):
TGACCAACATGGTGAAACCCCATCTCTATAAAAGTCTCTATAAAAATACAAAAAATTAGTCGGGTGTGGTGGCACATGCCTGTAATCGCAGCTACTCAGG
R
GGCTGAGGCAGGAGACTAGCTTGAATCCGGAAGGCGGAAGTTGTAGTGAGCGGAGATCACACCACTGCCCCCCAGCCTGGGCGACAAAGCAAGACTCCGT
Celera SNP ID:            hCV1270704
SNP Position Genomic:     45703
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38962):
ATCCTATGTGATATATTTCATCATCTGTACACTTAATTTTAAGAGAGTATGTTTTAAAATGCCTACTTAAAAAACCATTCTCTCACCTCAAGTGATGAGG
R
GTTACCTTTCCAGTTGAATTGGGGTGACACCAGCTGGGTGAGGTGTGGCTCGGCCAAGGGTCTGGATGTGGAGGCACCGAGTCCAGAATACCAGCGCCAA
Celera SNP ID:            hCV8904995
SNP Position Genomic:     31461
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;SC_12_AA(A,0|G,23)   total(G,23)
SNP Type:                 INTRON


Context             (SEQ ID NO:38963):
ATGCATGCCTGGGGAATAGGCAGGAACTGGGCAGATTACTTTCTTCAAAGAATGTGCAATGTTTGGGGAGACGAAGTGGGTAAAAAACTAACCCCGGGGT
Y
GGGCGCGGTGGCTCACACCTGTAATCCCAACACTTTGAGAGGCCAAGGCAGGTGGATCATGGGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAA
Celera SNP ID:            hCV1270705
SNP Position Genomic:     45518
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38964):
AGAGAGGGCAGCTATCACTGTGAACCAGAACCACGAGGGTTTTCTCAGACATGTAGGTATATGAGAATCCCTGAAACCTATACACATACATCTGCCTGGT
Y
GGAGAAGCCTTTCTGCCTGCAACTGAACCCTTTTAGTGATGCAATTCGGGGATTCCTGTGACACTGCAAACCACAGAAAGTCTTCTGCTGGTGAACTAAA
Celera SNP ID:            hCV1270706
SNP Position Genomic:     45178
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;JBIC-allele(C,316|T,1169)   total(C,316|T,1169)
SNP Type:                 INTRON


Gene Number:                 173
Celera Gene:                 hCG23811 - 83000099044099
Gene Symbol:                 PIAS1
Protein Name:                protein inhibitor of activated STAT, 1;DDXBP1;GBP;GU/RH-II
Celera Genomic Axis:         GA_x5YUV32VYLS(24105287..24474765)
Chromosome:                  Chr15
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12333):
GGCGAGCCAAAGGGCGGTCCTGGCACTGGGAGCGGCGGCGGCGGCGCGGGGACAGGCGGGGGTGCGGGGGGCCCGGGAGCCAGCCACTTGCCCCCGGGGG
CAGGGGCGGGCCCGGGCGGCGGCGCCATGTTCTGGGGGCATCAACCCTCCGGGGCAGCCAAGGACGCAGCGGCAGTGGCTGCAGCGGCCGCCGCCGCCAC
TGTGTACCCGACGTTTCCCATGTTCTGGCCAGCAGCAGGCAGCCTCCCGGTACCGTCCTACCCCGCTGCTCAGAGCCAAGCCAAGGCCGTGGCGGCAGCC
GTGGCGGCGGCAGCGGCGGCGGCAGCGGCAGCTGCTGGCAGCGGTGCCCCAGAGCCCCTGGACGGTGCCGAGCCAGCCAAAGAGAGTGGCCTCGGCGCGG
AGGAGCGCTGCCCGAGCGCTCTGTCCCGCGGGCCCCTGGACGAAGACGGCACGGACGAGGCGCTGCCACCGCCCCTGGCCCCGTTGCCCCCGCCGCCCCC
GCCGCCCGCACGCAAAGGCTCCTACGTGTCGGCCTTCCGGCCGGTGGTCAAGGACACCGAGAGCATCGCTAAGCTCTACGGGAGCGCCCGGGAGGCGTAC
GGCGCGGGGCCTGCTCGGGGGCCGGGACCCGGCGCTGGGAGCGGCGGCTACGTGAGCCCGGACTTTCTGAGCGAGGGCAGCTCCAGCTACAATTCCGCCT
CGCCCGACGTGGACACCGCGGACGAGCCCGAGGTGGACGTGGAATCCAACCGCTTCCCCGACGACGAGGACGCCCAAGAGGAGACCGAGCCCAGCGCACC
CAGCGCAGGGGGCGGCCCAGACGGTGAACAGCCCACTGGACCCCCTTCCGCCACCTCCTCTGGCGCGGACGGTCCCGCAAACTCTCCCGACGGCGGCAGC
CCCCGCCCCCGGCGCCGCCTCGGGCCACCCCCAGCTGGCCGGCCCGCATTTGGGGACTTGGCAGCCGAAGACTTGGTGCGGAGACCTGAGAGGAGCCCGC
CAAGCGGCGGCGGCGGCTACGAGCTGCGAGAGCCTTGCGGGCCCCTAGGAGGCCCCGCGCCGGCCAAGGTGAGCCCCGCGCCCGCCCCGCCAGTGGCGCC
TTCCCACCTACCCTGTGCGCGGCAGGGCTGCGGGGCCGGGCGGAGAACGGGAATTTTGTTCCGCGCAGGCGTGGGAGCAGCAGGCCTCGGCCACTCTCCG
CAGGCCCAGCCTTGGGCGCGCTGCGAAACTGGGCCCACCCGCACCCTCCAGTGAGGGTTTCGAAGGGAAGGGAAGCTGGGGGCGGCGGGAGGACTGGGGA
ACTTGTGTGCTTTGTTTTTGTTGATGGGAATGGGGAGGAGACCGGCTGAGACTGCCAGACACAGAGACAGAAAAGGGGTGTGGAGAAAGAAAGAGGAGGT
AAGAAAGGAACCCAGAGCCAGAGAAAAGCGCTCGCCCGGGTGGGCATCAGAGCCCCAAGGAAGAGGAGAAGAGAGGACAGTGTGGCCTCTCCCTGAGTCG
GGCCCCAGCAGTACCGGGTCCCCGGAATCTCCCACCACCCCAACTCGCAGTTTTCCGAGTCTCTTCGCACTCCCGCCTTGGGAACCACAGGGTTCGTTGC
TGGGAAGCTGTCTCGGGACCGCGTGCGGAGCGGGAGGGGGGCTCTCAAGCTGGCAGGGCCGGGGCTTGAGGGGCAGGATGCAGCCAGGCTGGAGTCGTTG
GCCATTTTGAAAGTGAGTGCGCATACCTGTACATTCGGTTCATTAAAACACGAATCATTAACCGGATGCGAAAGGCGTCATTTATGCCGCGGACGGGGCA
CTGGCGGGAGGGAAAATGCCTAAAAGGAGGCGGGTGCAGAGGGTGGAGGACACTTTGAACGCCCCTCGGCTTGGGAGCCGCTTTGTGTTTAGAGTAATTT
TCCCGAGGGCGCTAACAATTACCCTGAATCTACAAGGGGGCAAGGGTGCGCCGCGTGCGTCACTGTGCCCGCTCAAGTCCAGCGGGCGCACCAACCTTTG
CCACTCCGTCGGCTTTCCCTCTTGGCCGCGGGGTAGGGCTGGGCGTCTTTGGGCCGCCGCAGGGCGCCMCCCTAATCGCCTGTCATTTCTCGGCCGTCGC
AGGTGTTCGCGCCCGAGAGGGATGAGCACGTGAAGAGCGCGGCGGTGGCGCTGGGGCCCGCGGCCTCCTACGTCTGCACCCCCGAGGCCCACGGTAACGC
CTGTCGCGGCCGCTGGCCACTGTAATGGGGGAACCGCAGACAGAGGGCCGGGGTCAAGGAAGGCCTGCGAAGGAAGACAAGGAGAGAGACGCAGAGAAAG
AGGGAGAGGGAAAGAAAAATAATGAAAACAAGGAAGCTAAGCTAGTACTCCCAACAACTTCCAATCTTTAGTTACTTAAAAACAACAGTGACAACGCCCT
CTCCACCACACGCACACACATGCTGCAGTACACCCAGACACGGCGTTAAACCCTTAACAAAATCACGCCCGACACGGCCTTCAAATCCTCTCATTTATTC
AGCAAGTGTGTTTGGCCGCGGGGTCCCCTTTGGCTAGGCCGGATCGGGGCGGAGGATGGGGGCACATGGCCGCGCGCTTGGGTACCCCAGAAGCGCCAGG
GTAGCTGAGGCCCATCGCGGGGTGGTGGGGGCCGCCCTGCACTTGCGCGCCTTACCAGGTTCCTCACAGAGGAGGGGTTGGGGGCAGCGGAAAATCGGGC
AGGTCGAGGCAGCCGAACCCCGGACGATGTCCCCCCACCCACCCCGAAGGTCGCAGCCTGGGCCGCGTTCTCAGCAGGAGTCGGGCGGACAGACCCGGCG
GCCACGCGCGCTCGCGGTGCCCCAGTATCTGCGCGCGATGTAGGTCGCTCGTCCCTGGTGGGCTCGGCTGCTCGCCTAGCTCTTTTCCAAGGGGCTGGGG
CGGGGGCCTGAAGCCCGGAGATGAGCAGACCAGGCRCGGGGGTGGGGGGTGCCCGGCCCAAAGCCTCAGGGCGCGCTCCTGGGCGCACAGCCGGGAACCA
GAGGCGGCCACGACGCTTTTAATTAGGGCTGGGGCGCCCCGACCGCGGCAGCTCCGGCAGTATCCGGGTCACGGTTTCTTTGCCTCTCTTGAAAYTCGGT
TTGTTGCCTTCAAGAGCCAGATAAGGAAGACAATCACTCGCCCGCCGATGATTTGGAAACGAGGAAATCCTATCCAGACCAAAGGAGTATCTCCCAGCCA
AGTCCTGCAAATACAGACAGAGGTGAGCCAGCCCTTGAACCCATCGCTCTCCACCGCACCCAGGAGCTGGGACCCAGGTCGCCCAGGTTCCCAGAGGCTT
GCGAGAAAGGCTTTTAATCAAGTGTAAGCGGCTGCCAGTCTTCTTCCTCGGCGAGCAGATAAATATTTAACGCGAGCAGGGTGCAGGCCAGGTTTTCTGA
ATTGCTGCCTCCTTGGTGGGTTTGAGGTTCTTTCAGGTAAGGGCAGAGGATGTACTAAAAGGAAATGGAGGGACGTCCTCACCCACATAAAATAGGTCAA
AGGGCATTTCCTGCCCTTAGATGGCCCATCTTCCCTGGGCCGTCTCCTCCAGGGGTCACTCTCCTACTCTCTACTGTAATGTCCTAGAAGGTGGATAGTA
CTGGATTCCTGTAACTGTCTCCTCTAAAGGCAGAAGGTCTAGGGTAGGTCCCTGATTCGATGTGGTTCCTGGGAAGCTCACYCCTCCCCTCTCAAGGGCT
TTCCTAGGACAGAACCCCTCTTACCTGCCCCTGTATCCCAGGCGAAGATGGGCTTACCTTGGATGTCACAGGAACTCATTTGGTGGAGAAAGATATCGAG
AACCTGGCCAGAGGTGAGGATAAATTTGTGAAAAAGGTGTACGCTGTGCTTGAGAGTGATGGGTCATTCCTGTAGAGGGGTGTTATCCCTGTAGGGGGTG
AGTGTGGAAAAGACACTCACCAAGGCCTTGGGGGCATGAGTTTTCCTTTCTTTGGGTGGAAAGTAAGATCCTCTGGACACATTACCCTGGCACAGAGGTA
TGTATGTGTGGGTAGAGCATGGGAGTAAAACAAACCCCCAGAAGTTTATTGGAAGTTTGGGTTCCCAAGGCCCGGGTCTGTCTGAATAGCCTTGCCAGAA
AGAGAAATGAGTAACGATGATCAGAATTTTTGATGCCTGTGGACAATCAGACAGGACAGTCTGGGTCCGCTGAATTCAATGGAAAACAGGATTTCAATGC
AGGATTGCAGGAAAGCATTTATTTTAGGAATGTGAGAGGTGTTTTCCTTTCTCCTGGCATTGAGGTATAACCACCTCCACCTTACCCTAAATGGAGTGTG
GATGGAGCTTGTTTGCAGAATGGGGATCCCTGTGTTACTGCTCAGCCTGTAAGGAGGAGACTATGGCTTGGGGTGCAGAGTAGGGGAGTCCCTAGCCCCA
CTTTGCCCTTCTACCTTCCATTCTTGCATTTCAGAGGAGCCTCTCCTGGAGGAGGGCCCAGATACCAATGACCTCATGGTCAGGGCAGTTGCCACATCTA
TCCCTCTGGAGTTGGTTCTGAGGGCACTAACAGAGGCCTCTACACCTAGCTCCCTGCCCCTCAACTAGCCCATAGATGGTCTTGGGAATTTGTGGCAGGA
GGAAGACAAGCATTGGTGGTCTTCCATTCTTCCTAGTTACAGATTTACAGAAAATGCCATTACCTTCAAAATCACTGGTGCTTTATAGTGAGGGTTCTTA
GCATGGATTTGGCAGTCTTCAGACCTCCTGAAATTGTAGGCAAACTGTTGTATGTGTATTTTTCTGGGAAAGGTGTCCAAGGCTCTGACCAAAGCCTCCC
TGATTTATATTGAAAGGGCGGCGGTGCGSGGGGGGGAGGTCGGGGCCGGGGCGGGGGCGGGGTCTGTCACTTGAAGTGGGAAATCAAGTTTCCGTGGGCC
AGCCTCTTAGGTTAGGGAGTGAGGAACAACTTAAAGCAGTTGCCCAGCTGCATAGTTCCTGGAGCCAGGGCCTAGATTCCACCGTCCTGAATTTATTCTC
CTGGGCATCCTACCCACAGCCCAGTTTCTTCACCCAAATCCTTTGAATGCAGTTGGTAAAGCCAGAGAGCGGAGGGCCTCCACCTACTGGTCATCCTTCT
CAACTCTCCTTTCAGGGTTGTTGGCCAAGGCAGAACCTGAGCTCCAAATAACCCTGCTTTACCTCCCACTTTACCTCCCACTTTTCCCCTTTCACAGAGG
AATTGCAAAAACTGCTCCTGGAACAAATGGAGCTCCGCAAGAAGCTGGAACGGGAATTTCAGAGTCTCAAAGGTACCCACTGCCATCCTGCCTCACCCCA
CCTCATCACCGAGCCTTCCACCAGGGTGCCCCGACCTACTCCGAAAGCCGGGTGCCAGGCAACTGGTACTAGGTGCCCTGCAGGAGACAAGAAACTGTCC
TTTTCCAGGGCTGCAGGCGAATGGCTGGGTGGGAGTTGCGGGTAGGGGTGAAAGGGGGGGCCAGGAGTGAGAAAGTGGAGCCGGGAGAGGGGGCTGTGCG
TAACAGCTCTCACTTAATCAATTTGCACAGATAATTTTCAGGATCAAATGAAGAGGGAATTGGCTTATCGAGAAGAAATGGTGCAACAGCTGCAAATTGT
CAGAGGTAAGACGGGAGTCAGGTGAGCTCGTGCACGGGCCGTAACTGCCTCTCGTCTGGCAGGAGCCGCAATGTTGGCTCAGTCATTTGGATTTAAATTG
AAGGTAATTTAACAATTATTTTTTTATTTAATATGCTTTGTATACTCTGATTAGCCTCAGAATGGCAAGCGAGCCCAGCAAACGGCTTGCAGGCATCATT
ACATGGAGTGATTGAACTTCTTATCGCGGCAATTTCCATGGTTTCTAAATTAAAAATCGAGGCGTAAAATTACCTGGGAAGTAATGCCTAAGTTTGCTTT
AATTTTGGTTAGATCCATCTGCCTTTAAGCGCCATCCCAGGCCATTTCCTTCCTCCGCCAGTCTGCAGTTAGGAGCTCCGGTACCCCCTCCCCCATCCCT
GGAGTTGTTTCTGCGCGGAGCTTAGCCCTGGGGAGAGGAGGAAGCCCGGGCTGTGACCCCGGCCTTTCGGAGGGTGGTCTGCGTTTCCTCACTGGCCCCT
CCCCTTGTCTTCCAGATACCCTGTGTAACGAACTCGACCAGGAGCGGAAGGCGCGCTATGCCATCCAGCAGAAATTGAAAGGTGCGGAAGCCGGGAAACA
AAGATAGGAGGGGTGCTGGGTGCCGGCCGTGCTGTCGACTGAATGAATGAATAGTGGGACTAGTGAGGAAGGCCACGATCCACGTGGATCAGGATCTGTG
AGGGAGAAAAGTGGGAACTGATTTTAACGGGAAGATTATTCTAGGATGGTGGGGGTAAAAAGAAAGAGCCCCTTGGGCTTTGGACGTCAGAAAAATCTGC
CTTCTRTTACCAATTCTGGCTTTGAGCAGGTTGACTCCTCTCTTACTGTGCCTCAGTTTCCTTTTCTGTAAAATGGGGCTACTGAACCAGAGCAGTGGTT
CTGAATCACCAGCTTTTGTCCTACCCTCCTGCCTCCTCCTGATCCGCTCGGTTGAGATTCCCTGACCCCAAAGGGTTGGTAAGGCCGGGGAGGGGAAAGG
GTGGACTGCGCGGTGAGGTGAGCCTGGAGAGGCGCCCAGAGTGACCCTCGCGACTGTCTYCCCAGAAGCCCACGACGCCCTGCACCATTTCTCCTGCAAG
ATGCTGACGCCCCGCCACTGCACTGGCAACTGCTCCTTCAAGCCACCGCTGTTGCCCTAGGGCCGGCCTGGCCGCACCCCTGCGCCCTCAASCCATGCTG
CTCCTTGTAAATACCCGCTGCTGCGGTGGCCCTGAGCGAGGAACAAGCCATTCGGACCCGACCGATGTAAATACAGCCGCCCGTCCGCCCGCCTTCCTCC
CGGGCTCCCCGGMCTTGCCCGCCCCCTCCCGGGCGTCCCTGTCCAGGGCCCCGGCTTGGTTTCCAAGTGTAAATACCGCCTCGCGCCTCAAATCCCCCTA
CCCCGTGTGAACTCTAGGGCATCGGACCTCAAGGGGTTAACTGGACAGACGGGGGGCGGGAGGGGAGAGCGCCCCCTCCCATTGTATAGCCTTGAACCCG
ATTGTGAATACAATGTAGCAACTTCGCTGGCGCCTGCCCCGCACTCCCCGTCCCGTCCACTTCTGAAACTCCTGTTCCTAATGACAAAGTGGCTATGTGC
AATGGATATAAATGTACTGTGAGTCTCTCGGTTCAGTATTAGGTTCACTTTAATTTATTTRTGCTGTAAGTTATTTTTGCTTCCTTCTCCTGGACCCACT
TCCAGTCCCGTTTTGCATTCCCCTTTGGATTTTGCTTTGGCTATTTTTTGTTGTAACCTCTTGATGTAACAGCACTTTAAAAGGGCGACAACTGACTCAC
GAGATGGCAACCACCTGGAGCCTGTTTGGGGAGACCACCCTGTACCCGTGACTTTCGTTTTTAAWAATAATAATAATAATAATAAAAGATGTCACTTCTG
GGGCTACGGAGGTGGGAGTGCACCGGCGGAGCGGGGCGGCGGAACACCGTGCAACAGGTGGGGGTGGGAGSSGCCCCGCGGGTTCTGGGGCTCCCAGGGT
CAGAATCGGGCCTGCTCAAGTGGGCAGCAGCGAGCACTCAACCTCTCCACTGTGCCCTCCAGACACACTCAGTTTTCCCCCACAGGGCACTCCCTCTCCG
CGTTTAGGACCCTCCCTTGGGCCCGGRATGGAGGAGGGGCATTACGTCACGGTCCTTAGCGCAGCGGTCCCGGGCTCTTTCCTCAAGAGCTCGAAGGCGC
CGAGGGTTCATCCATGCCCATTTCCACGCCTGCCACACCGGGGAAGTTACCTCCGGGGCGCTCACAGACAGGGCGCCCTGCCGGGAATCCCAGGTTCAAC
CAGAATTGTCCCTTTAGATGGCGCGGGCACCGCCGGCCTGGCCTGGCCTGGGAGCGCTGCGGCAGGGCGGAGGTCTCAGGGAGTAAGGTGGTCTCCGCCG
GGCAGGCTTGGAAAGGAAGGCGGGACTTGGAGAGCTCGGTCACAGACGGCCTCCCGTCTGCCCCGCCGCTACCCGAAAGGAGGGAGCCCCGTCCGCATTT
TCTGTTCGGTCCATTTTAGTTCGAGAGGGGCTAAGGACTCGCCGGGCCTCGGCTGGGGCGTCCGACGTCCGGGTCACGGTTGGCAAGGCCTCCCAGCGGC
CTCAGTTTCCACAGCGCACCTCCTGCTTGGGCTACAGACGACGCTGCAAATTGCAGAACACTCTTTGCAGGGAGGAGAGTGTGGATGGAGTGGGAGAGAG
CTCACGGCACAGGGAATCATTCAGCCTTGGCTTTCATTTCTCGCCCTCGGCTGGCTAGYGGGGGTCCCGGGTTGAGCCCTTCTTTTATCTTTCCTGGGTC
TCCGTTTCGGCCTCTATGAAATAACACGCAGGCCTCCGTCCATGCGGCTCGTAGAAGGCGGGCGGCAGGCCCCGCGCCACCGGCCAGCAGCTCGGGACCG
GGAGCCCTGGGCTGAGGGGGCCGGGAAGTTTCGTGGCGGGTTGTCTTGGTGGGCCTTGGACGGAGCCGGCTAGTAGGGGCGTGCTCTGGGCCTCCCCGAA
GCTGTGCAGACGAGGAGTCCCGCTGCGCGGTACAGCCAGGAAGCCAGTCCCTAGAGTCCTTTGCGCTGGGGGTCGGAGCCTTGGAGTCCCAGGATGTTCC
GASGGCTAAGACCAGAGCGGACACAAAGGAGATAACAATGAAGAGGGCGCCGGCAAATGGCGAAGCATCGCCTCCGGACAGGCCATCTCCGGGCAGGGCC
CCTCTAGGGAGCGGGAACGTTTCATATGCATGGGACCCACCAGATCCGCTTTCCGCTGGACCKGTGGCGAAACTGAGGTCCAGAGAGGAAGAGACTGGAG
TCTCCAGGCCGCGCCAGGGCCCGCGGAACTGCGACGGGGCGGGACAGCGCGGGTGTGGGAGTTTGCCGGCCCCTTTCCCCACCGCGGATTGCACCTTTGG
AAGCTGCACTTTTCTTCTCTGTAAAATGGGCATMACCATTACCACCCAGGCAGGAAGTTCCGTGGCTGCRGCTCGACAGAGGAGCCAGGCAAATGCTCCT
TCCCACCCTTCCTTCCCAACTCCCCCCAAAGTGGAAAAGCTCCTAGGCAGCTGGGGCCCTCCGGAAGGGACGCCCCATCTGGGCAGGAATCTCTGCGGAC
TGGAGTCGTAGGCGGATCCGACCCAGAAAGCTCAGTCGCAAAAACCCTCCCGGGCTTCGCGTCCCTTCAGAAGTGGTTTGTTCCCCCCAAAAATGTTAAT
AACCAAACGATTGGTATGGATGTAATTATCAATAATTATACTAATTATTGCTGATTGCGGGGCTCGTAGCTACTTTAATTAGTTTACCAGATTCTAATTA
AGTTAAATGAAACATTAATAGGGAAAATATGCTTTGAAAAAAAAAACCCAGGATTTAAAAAAAGTCTATTTCTCGCCACAATGTTGCCACCTTGCGACAG
ATTTTAAGCATTACAGCCAACGCCCGAAGGCCCAGACCAGGGTGCCTGGGGTCCCAGGGAGAAAAAGTGGGGCCTGGAAGTTGGAGGAGGCAGTTGAACA
CAGAATATCCTGTGGGCTGTTCTCCTGGAGTGTTTGGTTTGGCCTGGTCCCCAGCGGTGCCTACAGGAGGTCTGGCTCTGGAGTCCCAGGTCTGGGGTAA
GGGACAAGAGTGMACGGAAGCCGGGGCCCCTCTTGGGATCCGCAGTGGGAAGATGATCTCTATCCCCACCTGTTCTGGCAAATCCAGAGTGAGAGACTGA
GCAAAGTTGGAGCCGCCGTTGGAGACAGCATCAAGTGGGTTTATTTTTCACCCCCACGGGAGAAAGCAGTAAGTCCCTTCCSATCTCCATTTCCTCTGCA
AATCAGGGTAAMCTGTGTGCAAAAGCACCACTTAGAAGACCCCTTAACTCCTGGAGCACAGGTGACTCTGTGTTCTAGTGGCACTCGGTTCATGAGGCTA
GCAGGGCACTCACCTCCCTTTGTTATTCTTGGTTGTAAGTGTCTGTTGCCCTAAGACTGAAAGTAAGTCCACAGCAGGGGTCACACCTTGCTTTTCCTTG
CAATCTTCAACACAGGGCCCAGGGCTCCACAGGCACACAACACATGTGTAGATGAAAGGCTTCCAACTTTGCGGTTCATCTAGGTGCTGAAAATGTCTGA
GGGAAGGAATCCCTAGGTGCTTCTGGACAACAGCCACTGATAAGCAATTAAGCTCATTTGCATAAGGTTAATTAAACACAGGTTTACTGCTCAGAAAGAA
GATCCTTCATCAATAGGATTCGTTTTGGGAGCAGGTATCAGRTAAGTGATTGTTAACCTAGAAAAGGAAAACTTTGTTCCTGTTCCAACTGTGTCCTAAA
GGGGGTATTCCTTCACTCCGTCATACTTTTCCAGGTCACTGGCACACAGGTCCACCCATTCGTAGCTACCCTGCTCTAAAGCCTTGATCCGTTRCAAACA
TGTGACTCCTGCCTTGAATTCAGAACACCAACAAAAGCAGAACTGGATCTGCATGCTCTTCCCATGAATTCTAAACAGCCTCATCTCCTCTCTCCATCCT
CAGATGCTTGGCTAAGAGCACAAACTCTGGAGCCAGATTTACTGAGGTCTCAATGCTGCCCTGTCATTGATGAGTGACATTGGGCAAGTTGTTGAATCTC
TCTGTGCCTTAGCTTCCTCATCTATAACATAGGGAGATTAACAGTACCTACTTCATAGAACTGTTTTCTGTTAATATATGTAAAGCACTGAGAACAGCTC
CTGGCATACAAGAAGTGCTATTGTATTGGTGTTTGCAAAGATTACAACTCCCTCTGAATTCACTTTCCTGAGACTCAAGCCAGGAATGCTTTTAGAGTCC
CAAAATGTACCCCAGTCCATCACCCTCCTCTCCTCCAGGGGCCCAGAAAGGGGGCCCAGAAAGGAGGACAAACCGGTGCTTTTTCAAGCCTGGACTATTG
AGCTTTCTGAAGACACATTCATAAGAATCTACAAGCACAGAGGTTGGAAGGGCATCCTGCAACGCCAATGCATGGACTATTGAGTTTCTGGAGACACATT
CATAAGAATCTAGAAGCACAGAGGTTGGAAGGGCATCCTGCAACGCCAATGCATTGACTCTATGTGTCCAAAGAGGCGAAGACTTGCCCAAGTTCCCTCA
GCAGGTTAGTGCAGAGGAAAGGAAGTCAGCCAGGTCTCTGGATTTTCTGGGGCTAGGAACTGCCTGTCTYTTTCCTAATTTCTGTTCTAATCTTTTCTTT
TCTTTTAAGTAGCGACAGGGCTTCACCTTGTTGGCCAGACTGGTCTCGAACCCCTGACCTCGGTATCCTCCCAGCTCAGCCTCCCAAAGTACTAGGATTA
CAGGCGTGAGCCACTGCGCCCGACCAGTTTCTTTAGAACAATCTCAACAGTCCTTTTTGGGCCAAGTCCTTCACTCTTGGATTCTATTTTACTCCCCATA
ACACCCCCTTCCACATACGTAGACTAATAATATTCCAGTCTGATGGGTTGTCTGTGCTGAAAGAGAGGGAGCCACATCGACATTGGTCGTTTTCTTATTT
GGCATCCCAAGGGAGACATTTAAAACTACTCACCCAATTGCCCAAGTGGCCTCCAAAGAACCAGATATCTCTAGGGGAAGAACAGAAATCCAGCCAACAA
AGATTGTCCTCTAACGCCTTACATCGAAGGCCCAGAGCCAAGGAAGAGGCGGAGATGTCCCGCAGTCCCCTATKCTCGGCTGTTACCTGGAAAGGATCAT
TTCACYTCCACTGAAGAGAAAAGGAATGAGTCCTGAATGGAATGCTGCCCGGCAGCTCCCAGCGCCCGCTGGTAGAGTACCCGCCGCTGTCCCTGGGTGG
CTCCGGGGCTTCGAGCCTAACAGTCCTCCTGCGGCGCGCCTGGAGGCTGGGAGCTGTGCGGCCGCTCCCGGCAGATCGACTGAGGTCCCAGTGGCCGCAG
GGCCCACGTGCATGCTGAAGCACTAGCAAAGCAGTTGCACCATTTTTCTGTTGGAAAGATATTTCAGAAAACATTGCCTAAGTCATCGCAGGAAATCTGA
ACGTGGTTGGACTTTGTTTCCTCTTTGTCTTACCACTCGGGACTGTGTTTTTGTAACTCAATTACCTGAGACCTGGGTCCCGATCTTTTCAGGGTCTGTG
CCTCTGTAAGTCTTATCAGGCTTTACCTCTCAGTGATTGGTGTAAAATGATGACAGTAAAACAGTAAAACCCACAGGGTGGGGCTGTCAGGAATTTTTTA
AACATTATTTTATTTTTCTGCCCCCTCCCCCTTTTCTTTTTTTCTTTTATTATTTATTTATTTGGTCTGGAATATTTCAATGAAATATTGGTGAAGCCCT
TGACATATGGTAGATACTCATTAAGTGGTGGCTTTTTTTTTTTTTTTGATTCAAAGGATTCTGTCACTCTTATTGCAAGTTCCTCATACGTTTATCGTTG
CACTAGTTCCTGTTATGTTTCGGAGCTGAAATGGATCAACTTTGGCAAGACGAAATTTCCTTAAGTGTAAGGTACTGCAATACTCAGGATTGTGCAGAGG
GAAGCAGAGGCAAGATGGGAAAGATCGCAAACTAGGGCCCGAGGGCCAGAGGCAAAATGCACCGCAGAGATGAATCTGCCTAGGCCCCACCTCCTTCTAT
TCCGTCTCCTAGGACTACTACATTTTATTTGTGTTAAAAGATATCACCTGTAGATGAAAGGTGTTTTCAGTGGTAAACCGTGCACCGGCGTATAAACGTG
GTGTAAAAAAAAAACCAAACAGAAAAACAACCTGATGTAAAAACAGAAAAACAACCTGATGTAAAAATATGGAACGCTTCACGAATTTGCGTGTCATCCT
TGCGCAGGGGCCATGCTAATCTTCTCTGTATCGTTCCAATTTTAGTATATGTGCTGCCGAAGCGAGCACGGTGTTTCGTCCTTTCCACAAGATATATAAA
GCCAAGAAATCGAAATACTTTCAAGTTACGGTAAGCATATGATAGTCCATTTTAAAACATAATTTTAAAACTGCAAACTACCCAAGAAATTATTACTTTC
TACGTCACGTATTTTRTACTAATATCTTTGTGTTTACAGTCAAATTAATTCTAATTATCTCTCTAACAGCCTTGTATCGTATATGCAAATATGAWGGAAT
CATGGGAAATAGGCCCTCTTCCTGCCCGACCTTGGCGCGCGCTCGGCGCGCGGTCACGCTCCGTCACGTGGTGCGTTTTGCCTGCGCGTCTTTCCACTGG
GGCCGGGGMGGCGCGGAGGGTTCAGACGCGGGCTCTTACTCAAACGCTGATCCCCGAAACTACCGAGCAGTGTCTGCGCGACGCGAAAGCATTTTTGGAG
CGAGGGGCCATGGTGCCCATGGGATTCCCACGGGTGTTGGACTCGGGACCCCGAAAAGGTTGCGAGTCGCTGGTTGGACCCTTCCCTGCGCGGGGACCCG
AGAGACGTGACCCTAGCGAGGCCTGGGGCCACCCACTGTGGGCTGGAAGGGGCCGACAGGGGTTGCGGCGGGGGATCGTGGGGAGGGTTGGCCAGGGCGC
GCCTTCAGCTTCCCCTCGGCTTCTCGGAACTAGCTCTCTGCATTCGGAGCCAAGGCGATGAGGGTGTCTGCTTTGGGACGCAAACTTCCAGTAGTGGTGG
AAGTCTGGGAAGGGTCACCACCGTTTGAGCCAACATTTAGAAAGAGCCAGGCGCTTAACCTAAATGGTATCATTTCCCCCATTTTGCAGTTTAGCAAACA
GGCTCTGGGAGGTTAAACCATCTGCTCCAGTGATCCTGCCACTGGTTAAAGTAGTTGGGATTTGGATGCGAGTCTGGTTTCAAAGACTTTTTTTTTTTTT
TACGCAGTGGAGTTTGGAAAAGATTTGAGACCACAAGTGCAGCCTCCGCTTTCCTTGTTAGAGTTACTCCAGAAGCCCTGACCAGCTCAGACTTTCCTTC
CTACTTCCATTCCTTCAACAAATATTGAACATCTGTGGTGTCAGCACCCGGGCTTCAGGGATGCGTGAGTGGGCAGGGTTGCTATGGTCATGGAGCTCGG
TTCCAGCAGGGGAGCCAGGCAGACATGAAAGAGCCCTCTGGATGCCGAGACGTGTGCTGTGAAAGTGTGGCATAGAAAGTGCCTGGGRGATGATGGCCAC
TTCAGTGGGGCAAGAGAGAAGGTGACATTGGAGCTGTCATTGATGATAACGGCGGCAGCGCTGAGGGGACGGGGACCGAGATCCAGGCAGAGGACCTTGC
AACCACCTGACTCAGTGTCACCCATCTGGGCCAGCCCTTCCCGGGAGACCACTGTGGTGGTAGTTGCTGCTCCCAGCAGTGCTGTGGCTCAGTACTGAGA
GAGGGGAGGGACCTGGGGAGCCACTGCCAGGGAGTTCGGGCTTTGGAGGCTTSAGTTCTCCCCACTCGGTACGCCTCTTAAGTGAAATGGAAGTCATTTG
ACTAGCTTCTCATCTGACCTTACTAAATAAGCAGTAGGCAAACGCAAACCTCAGAATGCTAATATGGCCTTTACTGAGTGAAAAGAGCTAATTTGGACAA
TGATGTTTACCTCAGATTTACAAAAGAGAATTGCAAATAACCAAAAAGCACATTAACATGGATGGGAGATGATGCTAATCTTCAATTAGCATCCACATTT
TTATTCATTTATTTAGAACAGGTAGGGCTGGTGGTTTCATAAATGCCTTATTGTGGAAACTAGCATGAGATACACCTAGTTATTGGTTCAACATTTCTGG
CTACATGAGCATGTGTTACTTTGAGCCAGAGGTAGATTTTTTGTTGTTGTTTGTTTTTTTGAGATGGAGTCTCGATCTGTCACCCAGGCTGGAGTGCAGT
GGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCACCATGCCAGGCTAATTTTTGTATTTTCAGTAGAGAC
GGGGTTTCACCATGTTAGCCAGGCTGGTCTGGAACTCCTGACCTCAGGTGATCCACCCACCTTGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
CATGTCTGGACTCTTTTTTTTTGAGATGGAGTCTCACTTTGTCACCCAGGCTGGAGTGCGGTGGTGTGATCTTGGCTCACTGCAATCTCTGCTTCCTGGG
TTCAAGAGATTCTCCTGCCTCCACCTCCCAAGTAGCTGGGACTACAGGCTCACTATCATGCTGGGCTAATTTTTTTTTTTTTTTTTTTTTGAGTCAGAGT
CTCGCTCTCTTCAGCAGGCTGGAGTGCAGTGGCATCATCTTGGCTCACTGCAACCCCTCCTCCCAGGTTCAAGCGATTCCCCTGCCTCAGACTCCTGAGT
AGCTGGAACTACAGGTGTGTGCCATCACCCCCGGCTAATATCTGTGTTTTCAGTAGAGACAGGGTTTCGCCATGTTGGCTAGGCTGGTCTCAAACTCCTG
ACCTCAAGTGATCTGCCTGCCTCAGCCTTCCAAAGTGCTGGGATTAAAGGCGTGAGCCACCGCGCCCCGCCAATTTTTTGTCTGTTTTTTCTTGTTGAGC
AATTTTGCAGAGGAGAAAGATCTGAGTTCTAGTTCTCATTCCACCTGGAACTGTTTGTGACCTTGGCCTGCTCCCTGTACCTCTCTGTCTCTGGTTCTGT
TTTAGCTTCTGCAAAGTGAGGAAACTACCCTAGAGATGATCCTTGACATTTTTCAGCATTGAAATGCTGGCATTCTTGCAGCTGGATAACTGAAGGACGT
TTTTGGATAATTGTAATTTTCTGATATTCTGCATTCTCCCAGTACCATGAAAAAAAATAATAATTAGCAAGATGTAAAAATTCAAGAGGGTTTTTGTTTT
CTCTTTGAGAAGGGCGAAGCAAACTGGTCATCCTGGAGCCATGGAGGGCCCCAGGATCAGCCCCCAGGGGCGGCTGTGGATCTAGGGCCTGGGACCTGCT
GAACCGTATCACAACATGCCTCTGAGCTCCAAAGGCCAGTACAGACGAAGCGGGAGGCTGGTGAAGGGGAGGGGATACATTGAATGTAGCATGGAGGTGG
AGGAGAGGAGGAAGCATGGAGGGGCTCAGGGAGGGGAGAGCCGAGTGGACCATGACTTCATGGGAAGTCCCAAGCCCCCACAGGCCTTGAGGGAATAGGC
ATTGCAGGCGAGGAGAGTGTGGGTGCCAGAGAGGACTGGACTGGTGGGCAGGCTTGGAGTTGCAGTGGGAGCCGGCTCCTGCCGCCTTCAGAGTTGTTGG
CTTCTCTTCACTCTGCAGTCCTGAAAAGAACTGAGTCCTGGCAGTCTTCCCTGAATGTTCTGGACTACAGAACCCCAAGAGATGAGGAGTGGTCCCCCTA
TCCTGTTTGAGGTGGTACTTCCCACTACCTGAGTAGGAGAGAGCAGAGCCAACTTTATTTCGAACAATTAAGAAATGGGCTGTTTCATATGGAAAAAATG
TCAGTGAAGACATGAACTCTTAGCATTCTCTAAAATTATGTAGTGTTTCTCTTACAGCCAGAGAGCATTGCATGTTTTCGTGTATCATTTTATTTGAAGC
AGGAAGGGCTGGGGACTCCCAGCAGCCCCACCGGAGGGAAGGAGGGAGGAAGGAGCGGGGATGTGGAGAGAGGCCCCTGTGACCYTGTTTATGTGCAGGC
CTGGGAGGAATGGCATTAGTGGTTTCAGGAGGTGTTGCCCTGGGAYTGTAGCACAGGGACAATGCGCTGAGTTCACATGCCTGACCCTGAAGCTCCAAAG
GCCTCAGACACAGAGCATGGCCAGAGCAGGGTTGGAGGAGGCCTGAGTGTGGGGGAGGACCCACTCCCCCAGGCTGCCAGAAATTCCTGTGAGCTGCTTA
TGCTCTGAGTTAAGCCTTGTTCTTATAACATCTCTTTTGAAGTGCACTCTGTCACCTAATTCACCTCAATGTGAATGAGTTTTTCCAAAGTTAAGCTGAA
GGGGGGTGGAGTAGGCAAATCGGTCTGTGTGCCCACAGCTCAGAGGGTGGCCTGGGGGAAGAGACAGGGTCAGCTGTGGCCAGCTGACCTCTCAGAGGGA
GTTTCTTTCAAGACTTGTAAGCCTGGTGTGCCCAGAGCCCTTGCTCTGCTGGGGTGGCCCCTGGTGTGTTGAGATCAGTTCTAATCCATCCCAGATGCCG
GGCCTCAGTGGAGCCCTCTGGTCCCGCCCCTCCCCCTGCATAGCCCAGGCTGCCCCTTTTACTCTCCCCCAGATCTCATATTTGTGCCCAGAATGTCTTA
AAAGATCTGTTTCCTCACCTGTGGGATGGTGATTGTGCTGCCTGCTTTGCAGGGTCATTTGAAGGTTAAATGCAGGATTGGGTGTGAAAGGCCCTAGCAC
ATTGGATGAGCTGATTGATGCCAAGTGTTTACAATAGTCCTGGGCTATTCTAATGCTCAATACATAACCACTTACTTATTCTTCTTTTCCTTCGTCTTGC
AACTATCTGCATGAAATAAACTTTCTTTAAGGTAAAAATAGCAGGGTAGGGAGGAGTCCCTAAGTTTTGCTCCTTTTAGCCACGACGGGGAGTATTTTTG
CCCAGATGTCTTTAATCCTTTGGATTTGAGTTTCCAAAGGCCCTGGTTAAGATGCAGTTATGTTTTGAGACGGGACACTACATAGACTCAGTAATACCTG
TTTACGTAGCTTAGTACGATTCCTTGCCCTTTAAGACCAACACAGGGTCTTCTGGCATCCTATTTCATGTGAGTATCTCTGAGACATAAGCATGGGGGTG
CAGGGGTAGTGCTGGTTATTATTCCTCTTTTACTGATAGGGAAAGGCGAGGCCTACAGAGGTTAGGTGACCTATCTAAGGACACAGCTAGTTAGTGACGG
TCCTGGAATTTGCTCTCGGATCTCTCTGACTCCGAGGGCTCACTTTACACCTACATGTAATATGGGAGTACAGTTTGAGGGGTTCTGGAGTGCTTTCTCC
AAATAATCTCTTACTGCTCTTACTCTTGCCTTAAATCCTGCCACTGATGCGTCATTATTTTGAGCTGTTGCTGTATCGAGGGTTCACTGTAATTTATTTC
ATCAAGACCTTTTTTTCTGGCAGTCCCAGGATGGCCTAAGGGCATAAGGCGCTTAGGTTTAGGGTGTGGAGGACTTGCTCAGAAAGAAGGTGCAAAAAGA
GGAATTGCCAAGTCTGAGCATGGGGTCTGCCAGCTTCTCTCTAGCTCTCAGTTTCCCTGTATGGGATTGCAAGGATGGGAGGAAAAGTGTCACACCTCCT
CCAAATCCTGGCTGCCCTGGAGTCCAGACATCGCTCCCTGCCAAGGCTACAGTGACYGCAGCAGTGGTACAGGGGAAGACTGCAATGGCTTTCAGCCAAG
AAGGTCCATATTTATGTCTCATCAACTGTGACTAGGTGGGTCACCAGTCTCTTCCAGTTGCTGACCCTGTTTTCTCGTCTCTAAAATGGAAGTGATGATT
TTTYTACTTACCACACAGGGTTGTGAGGCTCCATTGAAATGCCACTGTAAATTGCTATACAACAAAAGACAGGAATATCAGTATTGTCAGACACCCATTG
GAGCCTCAGGCAGCTCAGCATTCCCCTTACCTGGTGAGTGAGGCATTTGTGCATTAGGAACAGACCTACAAAATCAGAGCACCAAAATGAAACATCACAC
TGTATTAATATTTTCACACCACTTAGCTCTCATTAAAATGTACTTTGCTGAATTTAATATGTGATTTCAAATGACACAACATATTAAGTGCTTAATATAC
TAGAAATTATGAAACTATTATAGTTGATGCCATATGAAATAATTACACTGAATTAAACTTTAGCAGCCAAGTGAAGGAAAGACTTCAACTTAAAACGTCT
TAAAGAAGCTTAAGCCACCACTGTAATCCCCAAAATAAATGTCCAGAAATTAGGATCTTTAAATAAAAACTGGAACTTAATCTGTACTTACACCGGGAAG
CTCTTCTGGGCTTTGGTGATGTGCAGCATTGTTCCCTTGGGGAGGTGAGGGGCCCTGGGACCCACTGCAGGCCAGGGTGTTGGGATCAGGGCTTCAGCGG
GCTCGCTCCATGGGCCTGGCTGGGGGTTGGCTCAAATGGCCTGGAGTAAAGCCTTCTACCGAAGTGACAGATTAGTCTTTGCTCGAGATTAGCCTATTGA
CAAGTTAAAAATAAAAACAAACCCACCTTATGGAACATCTATTCAGTGCTTCCTTTGTGCCAGCCATTTTATATGCATTTCCTCATTTAATCCTCACAAT
ACATCTGTTTTAAGAGCCACTGTTTTTCAGATGAGGAAACAGGCTCAGAAAGATTAAATGAATAATCCAGGGCCTTAAATCAGAATCCATAGTGTTCACC
CCTGCATCAGATTGCCTTTCTCTAAACTCTTCAACCTCCTCATTAGTGTATGTGTATGCATGCATGTATGTACTACCTCCTATTTTAATAATGATTCAGT
GACTGATATGGTTTGGCTGTGTCTCCACCCAAAATCTCATCTTGAATTGTAGTCCCCATAATCCTCACGTGTCAAGAGAGAGACCAGGTGGAGGTAATTG
AATCATGGGGGCAGTTTTCTCCATGCTGTTCTTGTGATAGTGAGTGAGTTCTCACGGGATCTGATGGCTTTATAAGTGTTTGGTAGTTTCTCCTGCATTC
ATTCTCCTTACTGCCGCCTTGTGAAGAAGGCGCTTGCTTCCCCTTTGCCTTCCACCATGATTGTAAGTTTCCTGAGGCCTCCCCAGCCATGCAGAACTGT
GAGTCAATTAAACCTCTTTATAAATTACCTAATCTCGGGCAGTTCTTTATAGCAATGTGAAAATGGACTAACACAGTGACCAAACACATTAGCCTGCTAT
ATGACAGTGACATTACCTATATCTTTATCTCATTCCAGTCATGGAGACTAGGGACCATGGCTTGAGAGTTTCACCTTAAACTGTCTCGATACACTCAGTC
TGGCTAACTTAGACAGGAAGAGCTCTGTGGATACTTGCTGTTAATTCAATTAAAGAAAAATGAATTCATTACCTCCTCAGTATCCTGACATATTACCTTT
GTGTGCTTGCTTAAATAAGATATCCTCTTATAAAGAGCAAGGATACTTTCTATCATAGGGAATACCAGTGTCTTAGCTACTTAAGGCCCTATGTCTCAAT
TACTTATATCACATGAAAATACCCAATGGGCTGTTTGAAAAATATAAATTTTAGTGTGGACATTTAAATGTATTATCATTTACTGACCAGCAAAAATGAT
TTTCATAGAGACAGGAAAATTTGGCTCAACCAAACACATGTTTGTAATGAACTGAAAACATGTATTTCTCGTTAAGAGTCAAGATTAGGCTCTGTTTTGT
ATCATAGAAAAGCAAATAACAGTGGCTTTAAGATGATAGAGGTTTATTTCTCTTTCACATGAAACAAGTTGTCTTTTAAGGACTTGTCTGGTAGCTCCAT
TGTGGCAGACAGCCAGGCTCKTTTATCCTTTAGGGCCACAATTCATGGTCCAAGATGCTTGCTAGAGCTCCAAGTTCCAAGCAGGAAAGGCAAGGGGGAG
GCCATTACTGCCCCGAGTAAAATCCATAACTCAGCATACCACCTAACACTCAGGAGCACTCAGTACATGGTACTCTTGGCTGTTGCTCATCTTCCGTTCT
GCACAACAACAAGAAGGAGGAAGGGAAGTCRTATTTACTAATACCATACAGGGTTCTCAGGACCATGCTGGACATTTACACATGATTGCATTCAACTTTC
ATAATCCAGTGAGGGTGGTGTAGCAGCAGGTTAAGTAGGAAGTGAGGCTGTATCCACATGTGGAGGTAGGAAATTGGAGGGGAAGGGTGGAATGTTTCCA
TAAGAAGCCGAAGGGCTTTCAAGAAGGAAGGGATGAAGCCTCCAACACTTGCTCTCTGAGATTCAAGTTAATACACATTTTCAGTGTGGATCAAATGGTC
CTGACGAAGGTGCAGTGGCAGGAAAGTGTTAATTATGCTCTTAGAATAAAATTGCCATGASCATAGAAAGTGAAGAGATTAACAAATTTTAAAAAGACAT
TAGAAAAGCTAGCAAAAGACTTGAACAGGTGCATCGCAAATTAGGAGCTCCAAATGGTGAATGTRAAAATGTMCTCAAYATCTTTAATCATCAGGGGAAT
ACAAAACCACCTCACAATTAACACTGAGAAGTCTGATAATGCTGTTAACTAAAAACTCAATCAWTATATAAATTTGGAAAGGAGAGCTTTGTTTCTTATA
AAGGGTTATAGCCAGCAAGGTGGCCATTCTGACAGGCTGGGAAGTGTTAGCCTTGGTCGAAGCCCAGAAACACACTTCAAGGGAGAGAGGGAAGGGTAAG
ACAGGAATTTAAGCTGAATGGTTGGCCAAGTATAGGTATTCAACAGGATACAGGAGGAGCTATGAATATTCATGGAGGTGGTCCTAATACATGCATACTT
GAATAAACATGCATATTACATATGACCCATGTTCTCTTTGCAGTGGAGACTTTTAAATGTAACATTTAAATGTAGTACAGTTAGGTTCTATATGTCAAAA
GGTCTTTTCAGGACACAAAGGCACTCAAGTGTGCAGTCTCTGTAAACCAGCCAGACCAGTCCATGGTTGGTGGTCTTCTCATCAGGAGAAAGTTAACTGA
AATAACTCTTGTCCAATCAAAGCTGTAGTTATGTCTTGTGGAACAGGGGGTCAGTTAGGTAGCATCTGGCGATGGATTGAGTTGCAGATTATTTTAATAT
TGCTTATTTCAAGGGCAGTGCTTGTTTAGCTGCTGGAGAAAAAGAAAAACATTGTGGCAGTTGGAACAGAGTTAATTTTTTAAGTGTAGGGGAGCGTAGT
GACTTAACCCTTGCATTGCATGGCCTTAGGTGTTGTTTATAGTTTGATATAGTCATAAAGAGTCCATTCTATCAGTCTTATTATCTCTATTTTAACATTA
AAGCTGATCAGTTGGGCTGGATGCAGTGGCTCACACTTGTAATCCCAGCACTTTGGGAGGCTGAGGTGAGAGGATCACTTGAGCCCAGGACTTGGAGGCT
GCAAGGGAATTATGGTCATGCAACTTCACTCCAGACTGGGTGACAGAGTAAGACCCTGTCTCTAAAAAATAAATAAATAAATACAATGCTGCTCAGTTAT
TGTGTCCAGATTGCAATATGACCTCTTGTCTCGTCATGACCAGGAACTCAGTTTTTAAGTCCTGTTGGCCAAGAGTGGGGGCTCCATTCAGTCAGTTGGG
GGGCTTAGAATTTTATTTTTAGTTTACAATGCCAAGTGCTGATGAGGAAGTAGAGCAACCAAGATATGAGAATATATGTCTGGGGAGTGGGGAGATTGGT
GCAACCACTTTGGAAAATGGCATACTCCTAAAATTGAAGATAAGTATACCTTATGACTCAGTTGTTCCTTTCTAGTTACATGCCCTAGAGAAACTCATGC
ATATGAGCACCAAGTTACAGGTAAAAGAATGTTCAAGGTAGCATTGTCTGTAATGGTCCCAAACTGGAAACAACTCAAGTGCCCATCAACAGAAGAATGG
ATATCCACACTGTGGTATATTCATGCAATAGAATACTATGCAGTCATGAAAATGAATCAACTACAGTTATTAGGTTGGCGCAGAAGAAATTGTGTTTTTT
TGCCATTGAAAGTAATGGCAAGAACCACAATTACTTTTGCACCAACCAATACCTCCAGTGTTAGGGGCTGAATTATATCCCCCACTTCTACCTCCAAATT
TGTATGTTGAAATCCCAACCCCTAGTACTGYAAAGTGTGACCATATTTGGAGATTGGGTCTTTAAAGGGGTAATTAAATTAAAATGAGGTTATTGGATGG
ACCCTAATCCAATATGGCTGATGTCCTTATTAGAAGAGGAAATCTGGACACAGACATGCACAGAGAAAAGRCCATGTAAAAACAGAGAAAATGTAGCTGT
TGACAAGCCAAGGAGAGGACCTTAGGGGAAACCAACCCTGCCAACACCTTGATCTTGGGCTTCTAGCTTCCAGAACTGTGAGAGAATTAATTTCTGCTGT
TTAAGCCACCCAGTCTGTGGAACTTTGTTAGGCACCCCTAACCCCCCAGCAGACTAACACACCAGCAATGTGGACAGATCTTGTAAACATGATACTGAGT
GGAAGAAGGCACTAATAACATATACAGAACTATACCATTTATATAAAGTTCAAAATTAGGCAAGACCAAACTATTGTTTAAGGTCGTATATACAAATGGT
AAAATGATGAAAGCAAGGAAGTTACCAAAAATAAGAAAATGGGAGGCGACACATAAAGGCTTCTGGGAGTGGGGGGTTGGGGTCGCCTAACAGTTCCACA
GACTGGGTGGCTTAAACAGCAGAAATTAATTTGCCTGTTTCTTCACTTGGGTGCTGGTTACTCAGGTGTTCTCCCTAGAGTTGTGCACTGAACTGAACAT
TTATGTGTTGTGCACGTTGCAGTATTTATAATAAAATGCTGTAAAAGGAAGACAGAAGCAGGTGGGGGAAGAGGAGAAGCAGAGAGAGAAGGAACGAGGA
GGGGGAAAAGGAGGGAAAGGAGGAAGGACGAGAAGCGGGAGGGGAAGAAATAAATCAGTGGGCTGGCCTCTTACCAAGTGGTGTGGTCTAAGAGCTGTGA
GACCACAGCTGTCAGTTAAAGGTGGGTCCCAAGCTCAGGTGCTGCCTCTGAGTGTGAACCTGAGCCCAGAATCTCTCCCCTAGAGAAGGGCTTAGAAACT
TTGTAACCTTGGGAAAGCCAGAGTATTTTTCTGAGATTTGTTTCTACATCTTTAGACCGGGGAAGATAAACACCTCTCAATAAATGTAAGGCTCTTCCTT
TTACTAATTCAGGTCTCTGCTCTCATGTCACCTCCTCCAGGAAGCCTTCCCTAATGATCTTTTGAAAATAGCACCTCTTGGCTGGGTGAGGTGGGTATGC
ACCTGTGGTCCCAGCTATTTGGGAGCCTGAGGCAGGASAATCGCCTGAGCCCAGGAGGCTGGGGTTGCTATGAGTCATGATTGCACCACTGCACTCCAGC
CTTGGCAGCAGAGCGAAACCCTGACAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAAAATAGCACCTTGATGTGGCTTGGCTCTGTGTCCTCACCCAAA
TCTCATCTCAAATTGTAATCCCCACATGTTGTGAGAGGGGCCTGATTGGAGGTGATTGGATCATGGGCAGACATCCCCCTTGTTATTCTCCTAATAGTGA
GTCAGTTCTCATGAGATCTGGTTGTTTGAAAGTGTGTGGCACTTCCCCCTTTGCTCTCGCTCTCTCTCCTGCTCTACCATGGTCAGATGTGCTTGCTTCC
CCTTCGCCTTCCACCATGATTGTAAGTTTCCTGAGGCCTTCCAGTCTTGCTTCCTGTTAAGCCTGCAGAACTGTGAGTCAGTAAAACTTCTTTTCTTCAT
AAATTATCCAGTTTCAGATAGTTTTGTTTTGTTTTGAGACAGAGTTTCCCTCTGTCGCCCAAGCTGGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAAC
CTCCACCTCCTGGGTTCAAGTGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCACCACCATGCCTGGCTAATTTTTGTATTTTTAG
TAGAGATGGGGTTTCACCATGTTGGCCAGACTGGTCTTGATCTCCTGACCTCAAGTGATCCACCCACCTTAGCCTCCCAAAGTGCTAAGATTACAGGCAT
GAGCCACCGTGTCTGGCCTCAGGTAGTTCTTTATAGCACTGTGAAATGGACTAAGTACCTCCTTTCATTCTTTTTCCATTTATTTTTCTTTACAGTACTT
AATACTGTTGATAARTATTTATCACTGAAATTATGTCAAGTATTTGTGCATGAGGAGGAGCAGGATTTTTGTTTTGCTCCCCATTGTATTCCTAGTGCCT
GAAACAGTATCTGACACATAGTAGATGCTCAATACATATTTGCAGTTAGTTTGGGTGTGTTGGCTCACATCTGTAATCCTAGCACTTTGGGAGGCCAAAG
CAGGAGAATCACTTGAGGTCAGAAGTTCGAGACCAGCCTGGCCAACATGGCAAAACCCTGTCTCTACTAAAATACAAAAATTAGCCAGTGTAGTGGCACA
CGCCTGTAATCCCAGCTACTCCAGAAGCTGAGGCATGAGAATTACCTGAACCTAGGAGGCAGAGGCTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAG
CCTGGAGGACAAGAGCAAGACTTCGTCTCAAAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAAAATTTGCTGTTACAAACATTAGATAATAATTTT
GTGATGCCAGGCACCTGAGGCACTCAATAAATGCTCGTTCTCTCCTCCCCTTTTAGCTGAGAACCTCACCCTCATTTCCTGGAGCTGGCAGCCCCTTATC
TTTTTCCTTCCCCCCTCCAACCTGGGACTGAGAAAGTGCCTACAACTGACGCCTCTGATCAGTAGCAACATTTCACCCCCTGGGGCCAATCTGGCCCATC
ATCTGTCCCCTCCCCACACCCTTGCCAAGGGTCACAGTCTCCCTGCCCCAGGGGAGGGTCCCTTTCCCTCAGAGGGGCCGAGCTGCCCCTGGGTGACCCA
GGCTCCAAGTGCTTACAGCACTTTGGGTGCATGGACTGTTGCCTCCATTGATAATTTACTGTTGTGGKCTTAGAGTGAGGCCCTGAAAACCCGCCATAAA
GGTTTCTCTCACTCCTTCACCCTCATTAATTGCTCCCGCCTCCCTGTTCTTCCCACTCAGATGCCTATATTTAGTGCTGATTTTCTTCTGCCTTGTTTAG
AGTTAGTTGTTTACTTGTTTGCTTCCCCTGCCACCTCCCAGACCATGAACCCAGCTGTGAGGGGCCAGACTTTATTCATTGCTGTACTCCCAGTGAAGTG
GCACCATTCGCCTGGGGGGATACCTGAGGTTCATTGTCTCATGCCAGGGAAATCAAGGACATGGACACACAAGGAGTGAGGTTGAGAGCGGAGGTTTAAT
AGAAGGAGGCCAGGCATGGTGGCTCACACTTGTAATCCTAGCACTTTGGGAAGCCAAGGTGGGTGGATCACGAAGTCAAAAAGATCGAAACCATCCTGGC
CAACATGATGAAATCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACGACTGTAGTGCCAGCTACAGGCTGAGGCAGGAGAATCAC
TTGAACACGGGAGGTGGAGGTTGTAGTGAGCTGAGATCACACGACTGCACTTCAGTCTGGTGACAAAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAA
AGGCGAAAGAAAGAGAAAACCTTTCTCCTACAAGGAGAGGGGTCCTGAGCAGGTTTCCAGTCCACAGTGAAATGCAGGGTTTTATAGATGAGCTTGAGAA
GGTAGCGTCTGATTTACATAGAGCACGAAAGAGTGCTTGGACCAGGTGTGCCATTTGCATAAGGCATGAAAAAGTGGTTAGGACTAGGTATGCTATTTGC
ATAGTGTGTAAAAGTCTGGCCACCCCCACCCTAATCTTTTATTATGCAGATGAGCTTTCTACCTGGCTGGCACCATGTTGCCTGTTCCTTTACTGTACAC
ATGGTGACAAAAGGGAAGTTGAAGCCTCCATATTGAACATACCTGGCCCTCAGGTAACCCTTTTCTATTGGCACAGGTGCTGGCATTCGCCCGTGCAAGC
TTCCAGCTTGCTTATCTGTTTGCAGCTCGATTTTTCAGGCTGCTCTTTGTTAGAAAAGCAATGATTTTGGGCTGCTTTTTGTTGAAAGGGAATTTCTGCC
GAGGACTCTTACCCTCACGATCTGCCTGAATAATTTCTTTCTGTCTCCTGTATCACCAGCACCTGGCACAGCACCTGAATTTTAAATCTTATTTATTTAT
TTATTTATTTATAGAGACAAGTTCTTGCTCTGTCGCCTAGGCGACACTATAACATCAACCTCCTGGCCTCAAGTGATCCTCCCACTTTGGCCTCCCAAAG
TGTTGGGATTATAGGTGTGAGCCACCACACCTGGCCTTAATAGACACATTTTTTTCTTTAAAGCTTCTGTTACAAAGGACAGATAAGAGGATTTCAAGAG
TTAAGATGACCACAGATCAAACTTCCTTGATGTGCCATCTTCCAACTTAAATTCGAAAGCTACTTGAGACACAGAAAAAGACAAAAACTGAGAACCATTC
RGAAAACTTAGTGGTCAGTTGTTGGCCAGAGTCCAAGATGGAAATTTCCCTAATAACCTGCCACTGGGGCTGGGGGAAGTCACATGGTAGGTGGCCTGTG
CATACTTTGCCCTCTAAAGTGGCCCAGAACCTGCAGACAGGAAGCTTGCAGGGAGAAGCTTAGGCCCTCATTCACTGTACAGGGCTGCACTCACCAGCAA
ATGGGCAGCACACTCCTAACACTCAAGTATGGTTTTCTGAGGCAGTCACTTCTGTCCACCCTCACCCCTTCCGTTAGACTGTCTCTGCCTGTGTCTGTGG
GGACACTGTGGCACTCAGTACCTCTGAGCAGGGAGCAGGGCAGGACTGATGAGGAGGTGGCCTAAAAGGCACGCTCGCCTAATGCAGGGACCCTACAGAT
GGAAAGAGTGCGGTTTTATTTCAAAATATCTGATACACAGTAATATAGATACCTTGTAGTACTTAAATCGTATTAACCCAGTTTGAAGGTCTTTGGCTTT
TAGTATCATGCGTTTATTTTTATGTTGGCATGTTTGGTTTTATTTCTTTTATTTTGGTTTATGCCTTCTCTTTTTCATGTTTGTTTTTGTTTTTGCCTTC
TATGATAAGCAAAATTGCATGATGATGTATTTTTTATTTATTTATTATTTTTTTGAGATGGAGTCTAGCTCTGTTGCTCAGGCTGGAGTGCAGTGGCACA
ATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCACCACCATGCCCAGC
TAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTGGCCAGGGTGGTCTCGAACTCCTGACCTGATGATCCGCCCACCTCGGCCTCCCAAAGTG
CTGGGATTACAAGCGTGAGCCACCGCGCCTGGCCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAAGACAGAATCTCGCTATGTTGCCCAGGCTGGAGT
GCAGTGGCGCGATCTCAGCTCACTGCAACCTCCGCCTCCTGGATTCAAGTGATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCGCCTGCCA
CCGCGCCCTGCAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTGATCCACCTGCCTCAGCC
TCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCAGCCGATGATGTATTTTTTTAGAGTCATGGTCTCGCTATGTTGCCAGGCTGGACTTGAAC
TCCTGGTCTCAAATGATTCTCCAGTCTCAGCTTCCTGAGTAGCTAGGAGTACAGGTGCACCATTGTACCTGGCTGATGATTTGTTTTTATCTTCTGTAAT
TTGAAAAGTATATAGCTATATAGCCTATTGTTTTAATTCTGCCAACACCTTGAAGATTTTTAAAAACTTTTTTGAACCCATGTAGTATAGTTTGGACTTC
CCCTCCAAATCTCATGTTGAGATGTAATCCCCAATGTTGGAGGTGGGGTCTGGTGGGAGGTGTTTGAGTCATGGGGGTAAATCCCTTGATGCTTTCCCRG
AGATAGTGAGTTCTCATGAGATCTGGTTGTTGTAAAGTGTGGCACCTCCCCCACGCTCTCTCTTGCTCGTGCTCTGCCATGTGAAACAGCAGCTCTCCCT
TTGCCATCTCCCAGGAGTAAAAGTTTCCTGAGACCTTCCCAGAAGCCAAACAGATGCCTAGCACCAGGCTTCCTGTACACTCTGTAGAACCATGAGCCAT
TTAAACCTCTTTTCTTTATAAATTACCCAGTCTCAGGTGTTTCTTTACACAATGCAAGAACATCCTAACACACCATGTTTCTCTATCAGATTGAAAATAA
ATCTACCATGTTTGCCTCCCTTCCAATATAAAGTGAGAAGTTTTTCAGGCCCTCCTTCCATATCTCTTCATTAGAGGCCTAGGTTATCACACCTCTCTTT
TTTAAAATGATATAGGTCTTCTTTTTACAAAAAATTGGTTTTAAATTTGGGATCCAAATTTTAGCCATGTTTATCATTATTTATTTGATACTCTGTGTTT
AAATGGTTTCCACATTTCCTGCAKGCTCCACTTACTATGGCTGYAAAACAAATTAGCCCCAAACAGTGGCCAGGTGCAATGGCTCGTGCCTGTAATCCCA
GCACTTTAGRAGAGGCCGAGGAAGGCCAATCACTTGAGGCCAGGAGTTGGAGACCAGCCTGGCCAATATGGCGAAACCTCGTCTCTACTAAAAACACAAA
AATTAGCCAGGCAAGGTGGTGTGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGAAAGCAGAGGTTGCAATGAGCC
AAGATTGCGCCACTGCACTCCAGCCTGGGTGACAGAGAGAGACTGTTTCAAAAAATAAAATAGGCCAGGTGCAGCAGCTCATGCCTGTAATCTTAGCACC
TTGGCAGCCCGAGGCAAGTGGATCACCTGAGATCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGC
TGGGTGTGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAAACAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGTAGTGAGCCGAGACCA
CACCACTGCACTCTAGCCTGGGTCACAGAGTGAGACTGTCTCAAAAAACATAAAATAAAAATTAAAATTAATTATCCTAAAGCTTAATGCTTAAAACAAT
AATCATTTATTACCTCTTGCTCTTTCTGTGCATTACAGTTTAGACAAGGTATAACAGGGATGGCTTATCTCTCCTCCAAAGGAGATGTGAAATGTCTGAG
GCCTCGCAGTAAAACTCCAAAGTTGAGCCTCTAGCTTGTCTAGAATCATCTGAAGGCTTGCTTACCTGAAGTTGGTGCTGGCTGTCACTCAGCTGGAGGC
CTCGCTGGGGCTATTGACCAGAACACCCACACATGGCCTCTGGTGTGCCTGGTCTCCCTCACAACATAGTGGCTGAGTTCCAAAGGCAAGCATCTAGAGA
GAGCGAGCCAGGTGGAAGCCATTGCCTTTTATGACCTAGCCTCAGAAATCATTCAGTGTCACTTCTGCTGCATCCTGGTGGTTGGGACAGGTACAAAGTT
CTGCCCAACTTCCATGGAAGTGTGTCAAGATCACTTTGTAAGATGAACATGTGCGGGTGCCCACATATGTACACACGTGTGTGCATGTATACACATGTAC
ATGCATATGTATATGCTGATATGGTCATCTTTGAAAAAAGACCATCAGCCATACTGTATTTCCTTAAATTCTTGATTTTCAACTTATGTTTCAGGCAGTT
GCAGAGTGTCTTTGAGTAACTTTCAGGAAGATTGCATGCTATGAGTCTCAATGTGCAGTATGTAAAACGGCCATCTTCTTTCTTATTTTAAAATTCATAG
CCAGGTGCGGTAGCTCACCCCTGGAATCCCAGCACTTGGGAGGCCGAGGCAAGTAGATCACCTGAGGTCAGTCTCTACTAAAAATATAAAAATTAGCTAG
GGGGTGGGGCGGGAGGAGTGTAGGAATGGCACATGCCTGTAGTCCTAGCTACTGGGAAGGTTGAGGCAGGAGAACTGCTTGAACCCAGCAGGTGGAGGTT
GCAGTGAGCCGAGATCACATCACTGCACTTCAGCCTAGGCAACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAATCACAAGGCCAGCCATGGTGGTTCA
AGCCTGTAATCCCAGCACTTTGGGAGGGCAAGGTGAGAGGATCCCTTGAAGCCAGTGGATGCTCAATGCACTTGCCTCCTGCACTGTGGAAGAAGCCAGT
TTTGTCTCCATTTGCATATGCATTTCAATCTTCCTGATCTATATGTGTGTCTGTTCTTTGCATTCTCTTTTGAACTGGTTGTAGGCTCCTACTGGGTCCC
TCATTAATAATGAGTTAAATAAAATCCAGAACACATGTATATTTTAAATCTGCATGAGAATCATAATCTTTTTTGAAATTATCCTTTAACATTCCTTTCC
TGAAAAGTTGAGAAACGATGTATTCGACACTATCTATGACAATGTAACAGCCATGATTTAATGATACTGATGGACAGTAGAATGTACATATGCAGATATA
GTGTRGTTAGAACTACATTTAATATTAAGAAAAAAACACTYGAAAAGATAAAATGTGTTGAATTGTTTAACATTTTTCTTTATTATATTTTCCAAAAATT
TAAAAACAGGCTGATGCTACCTTGGTAGAGAAATCCAGTGAAGCTAAACTCTAAGCCTCTGTTTTATTGAGGGATTAGTAATTTTTTTTTTTTTTTTTTG
AGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGACCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCACACCATTCTCCTGACTCAG
CCTCCCAGGTAGCTGGGACCACAGGCACCTGCCACCACGCCCGGCTAATTTTTTTTGTATTTTTAGTAGAGATGGGGAGTAATTGTTTTATGGTTCTTGA
AGGGCTGGGAGGGGCTTCCTGGTCTCTGCATGTCACTGGGGTCAGTGGGAGTGCTGCTGGAAAGTGAGGGAACATATGATGATTAATAGTAATAATAATA
ATAAATCAGTACTTGTAATGTCCCAGGARTTGTGTCAAGCAGTATCTCATTTAACCCTTACAACAGCCCTTTGAAGTAGATACTGGTAGATGGTATTTCC
ATTGGCTAGGTGCGGTGGCTCACGCCTATAATCCCAGGACTTTGGGAGGCTGGGATGGGAGGATTGCTTGAGACCAGCCTGGCAACCTGGTCAGACCTTG
TCTCTACAAAAAATAAAAAAAATTAACTGGGCATGGTGGCATGCACTCGTGTAATTGCAGCTGCTGGGGAGCCTGAGGCAGGAGGATCCTTTGAGCCCAG
GAGGTCAAGATTGATGTGAGCTGTGATCCCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAATGGTATGCCC
ATTTTACAGATGAGGAAACTAAGGTTAGGAAACTTAAGTGACTTGCCCAACTAGTATGTGGTGGAACCCAGACTGAGACATGGGCTCTTAACCCCCCTGC
TACTGTGTGTCATGTGAGAAATGTTGGAGAGGAAGTCCTGGGATCTCCTCCTGAAGAAATTGTCCCCACTACTGGATCCAAGCCCTCAGAATCAATTCAT
CCGTGAAACATTCACTGAGCCTCCTCTGTGTTCCAGGCCCTGAGGATAAAACGTGATCTGAGTCTTCAAGTAACTCAGGAGCCAGGGTGAACAGCCAGGG
ACGGGAGTCGGCCAAAGGAGGGGCCTTGGCAGGGGTAGGGAGGGTGAGGAGGTGCTTCCAGGAGGTGGCGGCAACCTGCTTGAGTCTTAAAGGACAGGAA
GAGCCAGGCTGGTAAAGGGGTGAGGGTTGGGAAAAGGGCATTGAGGGCAGAAGGGCTTGAGCACAGAGGGGAAAGAAACCCCTGAGAGACACCATCAGCA
CACTCATTTCAGCTCTGCGGCTCACCTGCCTCCACTGTCCCCGCTTCTGCCGCTGCCCTGGTTACCAGAAGTCGTTTTGTTCAGTGGGAAGGTGGGCACA
GGTCACTGCTAGGGGTGGGTACCTGAACATGCCAACCAGAGCCTCCTTTTTCCAAGATGTTTGAACATGGGTCAGATGGTCTCTCTCCAGGGCCTGACGG
TGAGAGGTGCAGCCTGCAGAAGGCCTTAGCAGTGGGTGTGCAGGGGGCACCGTGAGAGTGGGCAGACCAGGCTGTCTGAGCAAGGACTCAACACACCTCT
GAGGTCCCGCTGCATGCTCAGCATGGGTCCCGGGACACATGCCAGGGCCTTCTTAACACATTTCTTGTTTCCTTTAGATTGTCCAAATTGGGTTTCTGTC
ACCTGTAACCAAAGATCCTTGCTGACACAGCCCCTGAGTTGGTCAGACTCAGGAGAGGGACATTTAAACTAAGAGAGGCTCACCTATAGATCAGGAAGCC
AACTGACTCATTTCCCGTGAGAAGTGTCACGGCTCAGTGGGTCAGCCTTTCACATCATTACTGCCGGTGTCTCCTTTCCCTGGAGAAAAGCCATCTGGAT
TGACAACTGGCCTCTTGGAGCAGGCCCCAGGCCCAGCAAGGATCTATAGCTAGAGGCATCAAGCAAGGACTGCCCAAGGGTCCAAAAACTGTTTCTGTTA
AGGTCCAGACAGTGAATATTGTAGACTTTGCAGTCTCTGTTGAAACCATTCAACTCTACCACTGCAGTGTGAAAACAGCCACAGACAGCACATAAATACA
TGAGCATAGCTGTGTTCCAATAAAACTTTACTTATAAACATTGAAATTTGAATTTCATACAGTTTTCATGTGTCCTGATGTATTACTCTCTCTTTTTTCT
TTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTTACTGCAACCTCTGCCTCCTGAGTTCAAGTGATTCTCCTG
CCTCAGCCTCCTGAATAGCTGGAATGACAGGCACACACCACCACACCTAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGC
TGGTCTGGAACTACTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGGGCCACAATGCCTGGCCAATATATTACTCT
TCTTTCAACTTTTTTAAGAACATTAAAGCCATTCTTAGCTCTCAGACCAAGCAGAAACCAGTGGTGAGGGACCAGATTTAGCTTTGCAGCCTGTAGTCTG
CCTGCTGTTGGCCTAGGGCATGAACACGTATGCTGAGAAAGAAGATGGTTGACAAGGAGGCTGGACAACTGGGTCCATGGGCCAGGCCAGGGACACTTCT
GGGGCTGCTATGCAGGCTTGTCACTCTAGCTGCTTCTTCTCTAGCCATTCAGATCACCCTCTTCAGTCTACACCCTCCTGAAGAAGAAGCTCAGGACCCA
TGAGTGGGCTTAAGTGCTTGGAAATGATGACATGTCTAGTCTTGCCTTCCAAAATTTAGCCTTGGACTGCCTTGATGCAGCCGCTCCTGACGCTTCTAGG
GGCAGCTGTCCTGCCCCTATCCCCTGTGAAAAGCAGATTATGAAAGCCCACTCATCCCACCCCACACAACCCAGGACCCAGAGGCCAGGGAGAGAATAGG
CTGGCTGCAGCCGCTGACTCATGCCCTGGCATGAAGGCATGAACTTGTTCGAGAGGGATCTTAAAAGATACAGTAGGAAGCTGCAGTTACAAGTGGGCTC
TGTGGCTGGGTGTGGTAGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAA
TATGGTGAAAACCYATCTTTACTAAAAATACAAAAACCAGCAAGGTGTGGAGGCATGTGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAATT
GCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGGAACAGAGTGAGACTCTATCTCAAAAAAAAAAAAAAA
AAAAAGTGAACTCTGTGACTGGAAGGTTGAGTAGATTCAGGGACCAGGGTAGTTGTAGGAGGCCAGATGTCAGTTGAAGTTGGGGGAATGGAGATTGGTG
GAAGAGATAACAGTGGGTATCCTGGAGACAGAGATTGACCGACTGACTGGCTGAAAGAGAGACAGACACAGCAGGTGAATCCCAGACCTGCCTTGTTTCT
GGCCCTTCCTGAGGCTTGACTAGGGGGTCTTCACTGTAACTTCATAGCCCCCTTCCCCTATACCTGGGGTAATCTGGGTAATCCCAATGCTTCTCCAATA
CGTTCTATCAAACCAGAAGCTGTGGAGCAGGTAATTTCTTTCTATTTATTTATTTTTGGATTGGTATAAATTTATGGGATACAAGTATAATTTTGTTACA
TGCACAGAATTCGTAGTGGTGATGTCAGGCTTTCAGGGTATCCATCACCCAAATAACATACATTGTACCCATTAAGTGAATTCTCATCATCCATCCCCAC
ATCCCCTTCTCTGCGTCCACTATCATTCATACTCACACCCATATGTATACATTATTTAGTTCCCACTTATGAGTGAGAACATGAGTATTTGTCTTTCTGT
GTCTGACTTTTTTCACCTAACAACCTCCAGTTCCATCCATGCTGCTGCAGAAGACACAATTTCATTCATTTTTGTGTCTGAACACGATTCCATTGGGTAT
ACAGATCATATTTTATTTATCCAATCATCTGTTGATGGAGACGTAGGTTGATTCCATGTCTTGGAGGACGTCATTTCCGCTGTTGGCGGAACTCATCCTG
AGCTTCTGATCTTACTCTCCAAGGGAACTCTGCACTTCATGTTGGGGACTTTTTGCTGTCTTGGTGTCTGCAGGTTGGAATCTTGCTTCAGCCACAAAAT
TTCACAGTTGGGTGGTCTGGGTCTCACTTCCCTCACCTCTTAAATGGCTGTCCTGCATCATGCACCATTTACTATGACAATGTTGACCTTTATCTGAGCC
CTGTGCCTCCAGAAGGCAGCGACGATAAAGTTCTCCAACCTCTTTAAGTTCCAAGGAAAGAGCTAAGCCACAAAGGACCACCTTAAGCTCGCATCCCAAG
GAAATACGGATCTCCATCCTTTCTTACTATTCCCTAAGATTCGCTGATGACTCCATTGTTTACCTGCCTCTCTAAAACCCCAGTCCCCTTTGAGATGCTC
CTCATTAATGAACGTTCTCCCTATTGCAATGGCCTGAATGAAATCTTAACTGTCTGGGGCTTTTGGCGTTCACAATGACCATAATTGTGCTRTTGTAAGC
GTCAATCGGGGGCGCAGCCGGAGTCCCAGGTCCCAGTCCTGGCTTCCCCATGTCAGGCTTCCCCTTCGGGCCGGTTTCAGGTCTCAATTGGGAGCTCCCT
AAGGGCCCCTGGCTTAGAATATGTGTGAGTGGCAACCCAGTCCCTCAACCCCTGCGCGGGGAGCCGGGGCAGAGCGAACTGCTGTAACTTTCGCWCGCCG
CCACCAGAGGGCGGCGGCTCCGCGGAGGAGGGCCCCAGCCTCTGCGCCGGCTCGCGCCCGCAGTGCCTTTAAAACGTGCGTTGGAAGTAGACGCCACGCA
GCCTGCTTTCCAGAGTCCCGGCGTTTCCCCTCTTCCRCCGCTGCACTCCAGGGGCCTCCCTTACGCGTCCGCACGCGGCGAGTCCTTCCACTATGCAGGG
CGCGCCGCAGGACTCTTGAGTGGGCGGGAAGGCTGGAAAGCCAGCCTGGAGCTTCTGGTCTCTAGTGCTGTGCAGGGCACAAGGTCCCTGCCCCTCCCGC
GGCCGCTGGCCTCTCTTCTCCTTAAGCCAGGTCGAAGGATTCCTGAGGCAGCGGGAAATGGGGAGGAGGGACAGGAGTCCCAAGACCACTGTCTTGGGTG
CGGGATTTAACCAGTCACACCCGTCAGCCCCTTGGAACGTCACAGTGTTCCCTTAAAGTGGGCAAGACAAGAACTGTTGCCCCGTCTGAAAGTGGGCAAA
CGGGCTCCCAAAGAAAAAAGTTGATTAGGAGAGCTAGTAAATGGCAGAATTAGGACAGGAACTCAGTTCTCCTAGGCCCAGACTTGGAGCTCTTGGGGTG
GGGCAGCACAGAGATGGCTGTCTGCCTGGCGTAAGTAAACTGGTCCCTTCAGCAGAAACGGGCGCTGCACATCCTCTTCCCGCAGGACGGCGACCCCTGG
ACATCAAAATGCAGCCACTTTTGGACTCAAATTGTAGAGTTCTTTTTTGTTGTTGTTGTTATTTATGTATGTATTTATTTATTGAGACGGAGTCTCGCTC
TGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGTGTCACTGCAACCTCCRCCTCCCGGGTTCAAGCAATTCTCTTGCCTCAGCCTCCCGAGTAGCTGG
GACTACAGGCGCCCGCCACCACGCCTGGCTAACTTTTGTATTTTTAGTCGAGACGGGGTTTCACCATGTTGATCAGGCTGGTCTCGGACTCCTGACCTCG
TGATCCACCCGCTTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCCAAATTGTAGAGTTCTATGTACAGCCACGTTTCCATG
ATCTTTTTTTGTTGTTGTTTTTGTTTTGTTTTTGTTTGAGACACAGTCTCACTCTGTTGCTCAGGCTGGAGTGCAGTGATGCGATCTTGGCTCGCCGCAA
CGTCCGCCTCCCAGGTTCAAGTGATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCCACCACCACGCCTGGCTAATTTTTGTATTTTTA
GTAGAGAGGAGGTTTCACCATGTTGGCCAGGCTGCTCTCGAACTCCCAGCCTCAAGCGATCCACCACCTCGGCCTTCCAAAGTGCTGGGATTACAGGTGT
GAGCCACTGCGCCCGGCGTGTTTGCTTTTTAAAGTGCATATGTCTACATACACATTTTAGAGGCAAATAGAAATACAAAAGCCAAACTGTCCACAGTGGC
TGTCTGTGGCAGTTGGAGTAGCAGTAATGGAAATTGCATTTTCTCTGTATTGTCCAAAATATTCACTACTAGCATATATAAATCAGAAAGAGGAGCAATG
ATTCAGGACTTCTGTTTGACAAAATGATAATAATAATAATTCCTCTTTAAATAATTGGAAAATACAGGCTGGATGCAGTGGCTCATGCCTGTAATCCTAG
CACTTTCGGAGGCCGAGGTGGGAGGATCCCTTGAGCCCGGGAGTTTGAAACCAGCCTGGGCAACATGTCAAAACTCCATCTCTACAAAATAAAAAATAAA
AATAAATAAAAATGGGAAAATAAAGAGAATGAAGAAAATAAAATTCATCAGTACCCCCTGCCAAATATTGGTATTTTTCTTTCTGGTTGGTTTCTTTCTC
TACAAAATGTGAATAACGGTATTAACTGTACAGGAATGTTGTGAGGATTGAGTGAGAGAACGTATRTAATAGTTAACATTCCAGAAGTGTTAGCTATTTT
TATATGTAACAAAATCAGCACCAGACTGTATCTACTGTTTCTGTGCTGCCGTCTTCACAGCCAACATTGCTTCATGAACAGTTTCCCATTCAATTATGCT
TTTTAAAATTGTATTTTTAGTGATAGTACAGTATTTTATTACATTTAAGTACAATTTATTTAAGTTATCCCCTATTGTTAAGCCTTTAGATTGTTTCCAA
TTTTTGCTGTTAAAATAACAGAGAGATTAACATCTTTAAACATCTACCTTTGTCAGCATTTCTGATTATTTCCTTAGATGAATTTTTTAGAGGTAGGATT
ACTGGGACAAAGGGTGCAAATATTTTTCAGGCTTTTGACTCAGGTTACCAAATTGCTTCCCAGAAAGATCTTGCCAATTTACATTCCCACCTGCAGTGCG
TGAGAATGTCTGCCCCACAGCACACAAAGGAGGGATTTTATTTTGGGATGGGTGAGATTTGAGTCTGTTGCTGAACCGAGGAAAATGAGCCCCCCAAGCC
CCATAGCGAGGTAGAGTTTAAACTTCGGGACAGAGAGGGGATGTCAAAACAGGCAAAGTCCATGGGAGAAAGGGAGGGGATTTGGAGCAGGTTTACAGAG
ATTGTCTTGGATTTAAGAAGGGACACCTTRTGTTTGGAGACTGATGGAAAGAGGTATGATTGGGTGTAGACAGAATCATTGTAAGGAGGTAGGTGGATTC
AAGAGGCTAGTCCCTAGTGGCTACCTTTTCTCAGTCAAGTAGGAGGTTGGGTCATCTATCCAAAGGTAATAGGTGAGCCTGAGAAGGGGACTTGAGGAGA
GAGGTGCGACCCTTTAACTTGAGGACAATAAAAGAGTTGACTGTCCAGTTGAGGGTGATGACTTTGAGTTTGTCATGGCACCATTCTGCAGAGCTGTGGG
TACTTTCTCTACAGCACGCAGTCACCTGGGGAAAGAAAAAGTCATACATATTAATTTAAACCAAATCTTTCAAAATGTGGTCAACAGTAGAAAACTATTT
TTGGGGAGCTGGAGGGATTCATGGTAATGAAAAACTTGTGGGTTTCTGGAGTTGTACCGAACTTTCAAGGATCAGTTAATTTCTATCTTATATAAGTTGT
TCCAGAAAGTTAGAAAAGACCAAAGTTGCCCAGATCATTTTATGAAACCAATATAATCTTGATTCCAAAATCAGTAAGGACAAAGCAATAAATAAATGTA
TTAAGTTCATTTCACCTATGAATGCATGTATAAAAATCCTGGCCAGACACGGTGGCTTACACCTATAATCCCAGCACTCTGGGAGGCCAAGGCAGGCAGA
TCACTTGAGGTCGGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCATGCACCT
GTAATATTAGCTACTTAGGAGGCTGAGGCAGGAGAAACGCTTGAGCCTGGGAGGCAGAGGTTGTAGTGAGCCGAGATTGCTCCATTGCACTCCAGCCTGG
GCAACAGAGCGAGACTCTGTTAAAAAAAAAAAAAGAATCTTAAATAAAATAGCAACTAATCTAGTTATATGTTTTTTGAAAGTAGGTTTATCCCAGGAAT
TCCAGCTCAACATTGAAAATCACCCCACTTTAATAAAGGACAAAAATCACATGAAAAAAATCACATGAGTATCTCAAATGGTGAAGAAAAAGCAGCATAT
TGATAAAGTTTTTCMCCTATTTTTTATTTATGAATAACTCAGCATATGACTTCCTTGAACTTATGAAAATGAAAAAAAAAAAAAAACTTAGCAAACTGGA
AATAGGAAAGGTGTGTTTAATTTGATAAAGGTTATATAGGGCCAGGTGCAGTGGCTAACACTTGTAGTCCCAGCACTGTGGGAGGCCAAGGCAGGAGGAT
TGCTTGAGCCCAGGAGTTCGAGACTAGCTTGGACAACATAGTGAGACCCCATTTCTACCAAAAATACAATAATTAGCCAGGGGTGGTGGCACATGCCTAT
AGTCCTAACTACTTGGGAGGCTGAGGTGGGAGGATGGCTTGAGCCTCAGAGGTCGAGGCTGCAGTGAGCCATGATTACACCACTTCACTCCAGCCTGGGA
GACACAGCACGACCCTGTCTCAGAAAAAACTGGTTATATAGCAAAAACTTAAAGCAAACACTACACTTAATGAAGAAACTAGGAGCATTCACTTTAACAT
CTGGAACAAAATAAGGCAYCCAACTGTACTGCTATCATTTACTATATAATAATAGAAGTTCCAGACAAAGCTATGAATGAAGAAAAATGTAAGACATACA
GGATGAGAAGAAATAAAATTGTCACTATGTGAAGATATTTTCATTTGTCTTGAAAAGCAAAGAGAATCAGCATAGACTTTTAAAATTAAGATAATTCAGT
CATTTAGTAGATAGAAGATTGACCAAAAATAAATCCTTAACATTTGTCTTCACCACAAACAACATCTATTCACAACAGCAACGACAAAGTATAAAAAAAT
CTAGTAATGTACTTAATTAAAAATATCTATGGAGAAAACATGAAAATGCTAATTAAGGATGTAGAAAATAACCTGACTAAATGGAGAGAAATTTTATGTT
CTTGGATGAAATGATTGAATATTATATAGGAATCAGATCTTTATGAGTTAATCTATAAGTTCAATGGAATCCCAATAAAAATTCTAGCTCTATTTTCCAG
GAACTTGATAAACTCACTCTCAAATTTGTGTGGACAAACAGGACTAAGTCAACCTTAAAAAAATAAAGAGCTAGAATTTGTCCTACCAGATATTAAGCAC
ACTACAAAGCTATGTCAAACCAAACCAAATCAAACAACATTGTTTTGGCACCAAAACAGACCAATAGACCATGGAATGGAATAGAAAACTGAAAGTCAGA
CCATTAGCATACAGGTGGGAGACATCACAAATCAATGAAGAAAGCAGATTAAACCCGTTCGCTATGTGGGGGGAAAATCTAGAATCCCTGCCTTACACCA
AAGGGAAAGGTATATGCTGTGTGGTGTTCTGATATATATATTGGTTTTCGTCCATATATTGGCTCCTAACTCCCATAGCCCTTGTTACAGTCTTGTTAGA
ATGTTCAGTGTGTGAGGCCTCAGGAAACACAATCTCTCTTCTGCCCTCCTTTCACCTGCCCCAAGGCAGACATCTAATCTATCCCCACTTTTCTGATTGT
GGGTCTTAAGACCCTCCCTGAGCGGATTCCACCTCATACCCTGAGGGGCAAGAATGTTTCCATAAAAATCCAAGAGGACTGGGTTCAGAGAGATCCAGAT
AGCTGAACACATGCAGGCTGACAGGAAGAACGCATTCATGGGCCTGGAGGGTGGTGTAYCCCAACTCCATGGGGACAGAAGCTCCTGTGCTGGAGACCCT
TCCAGAACTCGCTAGAGGTCTCTTCATCTGGCTGTTTATTTGTATCCTTTAAAATATCCTCCTTAGTAAACTGGTAAATGTGTTTCCCTGAGTTCCGTGA
GCTGCTCTAGCAAATTAATCAAGCCTAAAGAGACGGGCGTGGGAACCCCAACTTGAAGTCAGTTGGTCCGAAGTTCTGAGGCCTAGAGTTGTGGCTGCGG
GGAAGGAGGGAGAAGTCTTGGGAACTGAGCCCTCAACCTGTGGGATCTGACACTATCTCCAGGTAGATAGTAWCAGATATGAATTGGAAGACACCAGCCA
GGTGTCTGCTGCTTGGTGGTGGGGGAAACCCACACACATCTGGTCACAGGAGGTTCTGTGTTGATGATTGTTGCTGTGTGATGTAAAACACTAAGTGATG
TAAAACTTTAAGGTGAGAAATAAAACCAAAGTTAATAGAAGAAAATATAAGGGACTATCTTTGAAACTTGGGCTGGGAGAGGGACTCATTAAACAGAACT
TCAAAGGCACAAACCCAAAGGCAAAAAATGCATTAATTTGATGACATCCAAATTAACTATTTCCATACAAAAGAGGATACTATGGACAATAGGTGACAGA
ATAGGTGAAGATATCTGTAAATCTAAAAATGATAAGGGATTAATACACAGAATATGCAAGTACCATTGACACAGGCTTTTATTCTCAGTCACTTTGCAAG
CCAGGAACCTCTGGCTGGCAATGCCCCACCCAGGCCTCCCTTGACCACACTACCTGTTGCAGGAGATGGCCTGCCCACTTGGCCCACCCATGCTGAGTAT
GGCTTGCACACCTGTTYCTGAGTTCTTGTCCTGTGCCCAAGAAGAATGAGGATGCACTGACAGTCAAAGAATGAGCAAGGCAGGGAATTTTATTGAGTGA
TGAAACAGCTTTCAGCAGAGAGGGGATGCAGGGGTGGTCCGCCTACCCGAAGGCTGGAAAGTCCCCATAATATGACTAAGTCCGGGGCTTTTTACAAGCT
CAGAATGGGGGAGGGGCAGGCCACAGGTAGTATTGGAAAAAGCAACATTCTATTGGTTAAAAGGCATTCAGAAAGAATCAGTTGGGAAAGGGAGGCAAAA
AGAACAGAAGTTCTCATTCTGGGTTGCAGTTTCATCCAGGACCAGCAGTCCAATCTTTCAGCCTTCAGGCTGTTTTTGGCTTTAGGTGGGGTTTCACCGG
GGACCTGCCCCTGTCTGCCTAGGCTGCCCCCTGTTGCTGTCACTGTCATCCCTCCATATCCATTGGGGATGGGTTCTASGCTCCCCCTCAGGTACCAAAA
TCCAGGACTGCTCAAGTTCCTTATTAAAAATGGCGTAGTATTTGCACAAAACTTGTGCGCAACGTCCTGGATACTTTAAATCATCTCTAGATTGCTTATA
GTATCTAATATAACGTAAATGCTATGTAAATAGTTGTTATACTGTGTGTTTTTTAAGTCATTGTATTGTTGTTGTTGAGACAAGGTCTCACTCTGTCCCT
ACAAGAAATTTAAAAATTAGCTGGGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGTAGGCTGAGGTGAGTGAATCATTTGAGATCAGGA
GTTTGAGACCAGCCTGACCAACAKGGTGAAACCCAAATTAGCCAGGTGTAGTGGTGGGCGCCTGTAATCCCAGGGACTCGGGAGGGTGAGGTATGAGAAT
TGCTTGAGCCTGGGAGGTGGAGGTTACAGTGATCTGAGATCATGCCAGTGCACTCCAGCCTGGTTGACAGAATGAGACTCCATCTCAAAGTAAATAAAAA
TTAGATGGGCATGGTGGTGTGTGCCTGTAGATCTAACTATTTGAGTGGCTGAGGTAGGAGGATTTCTTGAGCCCAGGAGATCAAGGCTGCAGTGAGCTGT
GATTGAGCCACTGYACTCTAGCCTGGGTGACAGAGCAAGACCCTATCTCAGAAAAAAAAAAGACTCAATTATATTGTTGTGTAAAATATACCCACTTTAA
ATATAAAGATCCATATAGACTAAAAGTAAAGAGATGGAGAAGGATAAGAAAGATATACCATGCTAACACTAATCAAAGAAAGCTGGAGTAGGTATATTCA
GACAGAGCAGACTTCAGAGCAAGCAAATTAAACAGGGATAGGAGGGGCATTACATAATGACAAAGGGGTTGATTCTCCAGGAAGACATAATCTTTAATGG
GTATGCCCCTAACAACAGAGCATCAAAATACATGAGGCAAAAACTGATAGAACTGCAAGGAGAAATAGATGAATTCATTATTTTAGTTGGAGACTTCAAT
ACCCCTTTGTTGAAAATGGACTGATCCAGCAGTCAGAAAATCAGTAAGGACATAGTTGAACTCAACAGCACCATCAATCAACAGGATATAATTGACATCT
ATAGACTACTTCATCCAAAACAGCATAATACACATTCCTCACATGTACCGTTCACCAAARTAGACCACATTCTGGGCCACAACCTGCACCCTACCTAATT
TAAAGGAACAGAAATATTACAATGTATGCTCTCAGACTACAATGGGATTAAACAGAAAGATAGCTGGAAAATCCCCCAAATACTTGGAGACTAAACAACA
TACTTCTAAATGACATATGGCTGAAAAAGAAATCTCAAGAGAAACCAAAAACTATTTGCAACTAAATGAAAATGAAAACTCAAATTATCAAAATTTGAGG
GATGCAGTAAAAGTGCTTAGAGGGATATTTATGACATTGAATGCATATATTAGAAAAAAGTTCTAAAATTATAATTCAAGCTTTCATCTTAGAAAAAGAA
CAACAAATTAAATGCAAGGCAAGGAAAAGGTAGCAGATCCCATAGAAGAATGGACAGTTTATCAAGAGAAAACTTATAAAAGTGGTAACCCAAACAGGCA
AGTTAAGGGAATTATTAAAAATTAAAATCATTAGTAATCAAAGAAATTCAATTTTAAACAACAATGAAATATCAGCCTTACACCTAGAAGACTGGCAAAA
ATTGGAAAGTTGGAAAATGTCAAGTGTTAGCAGGTAAGTGGAGATATAGTTTCCTTCACATGCTGCTGGTGGGAATGCAGATTGTCAACCATTCTGGAGA
GCAGTCTGATACATTAGATATACTAGATAAATTAAATATATGCACAGCCTGGGACCCAGCAGATCTACTCCTGGGTGTATATACACTCAGGATAAGTAAT
CATACAGGTCCATCAGGGAATACAGATTAGAACATTGGCTGCTGTGTCAGTTCTGCTAGCAGGCAATTGGAGACAAGCAGTTGTCCATCTGGAGAGGAAT
AAATGGGTGAAATGTGAATGATGCATGTAGTAGAGTGCTTTAGTCTGTTTTATGCTGCTGTAACAGATACCACAGATTGGATGATTTGCAATGAGCCAAG
ATTTATTTCTTACATTTCTGGAGATGGGAAGTTCAAGATCATGGYGCCGGCATCTGGCAAGAGCCTTCTTGCTGCTGTATCATAAGATGGCAGAAAGCAT
CAGATGGCAGTAGAGCAAAGAGAGGGTTAGAGAGGGCCAAATTCACTCTTTATCTTTCATTTTTATTTTTTTGAGACAAGGTTTTGTTCTGTCACCCAGG
CTAGAGTGCAGTGGCATGATAATAGCTGACTGCAGTCTTGAACTCCTAGGCTCAAGGGATCCTCCCACCTCAGCCTCCCGAGTAGCTGGGACCACAGGTG
TACACCACCACACCCAGCTAATTTTTTTTTTTTTTTTTTTTTTTTGTAGAGATGGGGTCTCACAATGTTCCTCAGGCTGGTTTCGAACTCTTGGGCTCAA
GCAATTCTCCCACCTCAGCCTCCCAGAGTGTTGAGATTATAGGCATGAGCCACTGTGCCTAGCCCCTAAACTTGAACTCTTGGGCTCAAGCAATTCTCCT
GCCACAGCCTCCCAGAGTGTTGAGACTTTGGATTGTCTGTAATGCTCATGCATTACAGGCATGAGCCACTGTGCCTAGCCCCTAAACTCACTCTTTTATA
ATAGCACCAATCCCACTCATGAGATGGAAGCTGTCAAGTTCTTAAAAGTCCCACCTCTTAATACTGCTACAATAGCAATTAAATTTCAAAATAAGTTTTG
GAGGGGACAAACTTTCAAACCATAGCAGATGTATACATAGCAACATGAATGAATCTTAAAAACAGCCCTCAGTGACAAAGGTAGGAAGCATAATGAGATA
ACTTGATACCATTTATAAATTAAAGTAGATGCACATATTTTTGTAATTTATTGTATATGTTACCAATTTTAAAAATGCATACACACAAAACTTGAAATGG
ATCATAAGCCTAAATCTGGAAGCTGAAACTGTAAAACTTCAAGGAGAAAACATGGGAAAATCTTATGATTTGAGGTTAGGCAAAGATTTTAGGATTAAAA
AAGCATGAATGAAAAAAGAAAAATGAATGAATTGGCATCATCAAAATTAAAAGCATCTGCTTTTCAAAAGGCACCATCAAGAAAATGAAAAGACAAACTG
TAGCTTGAGAAAAAATATTTGCAAAACACACAAATGATAAAGGGTTTTGTGACAGTCATCAACTTATTGCTTCTTGGCTCCAAATTCACCCTTCTTTACC
TGCTCTGTGATAATGGAGGTGGGTTAAATAAATATTTTTCTTTGATACATGATGTTAAGCCAGTAGTAGGCATGGGAGGAGGAAGAAATTGTCTCTTACT
CTTTCCCTTTTCCTGAAAAGGGCAGCTTCTCCAGCTCCCAGTTCTGGCAGTGCATGGTAACCTTCAGTGCCCAGCTGACAGAAGCTTCCCTCAGCATCTT
CTCTAAGTGGTGTGCCACTGGCAAGGCACCTGACCATGAACGGCTTCCCCCAGCACCCCATCACCTGAAGAATTTGCAGCAAGTTTCAAGGTATGGCACT
TCTCTGTGGACAACACCCCCTAGTACCCTAAAGGGAAGATTCCACTATTACACTGTGAGCCACTTCAGTGTCTTCTCCACCACCCAGGATGCCATGCTGT
GCTCTCCCCAGCAGGGTCTGGAGTTCTTCCTTGGACACTCTATCCTGCTGGCAGCGGCTGTTCCCTGTATTTGCCATTCTTGCATTCATCAGAGTTCTCT
ATAACTCTTATGAGTCGATTTCCCATTACTCAAATCTCCTGTTATTTCTTTATGTTAAACTTTACCTGTTTTCCATTTCTTGATTGGACAGTGATACCAA
ATTCTATCCAGAATATATACAGAAACCTCCCAACTCAATAATAAATAAAAACACTGACTTAAAATTGAACAAAAGATTTAGAGCTGTTTACCAAATAAGA
TATAAAACAAACACTAACTTAAAAATAAGATATAAAACAAAAGATTTAAAGCTACTTCGCCAAATAAGATATAAGCACATAAAAAGATTCTCAACATAAT
TAGTCAATAGAGAATTGCATATTAAAACCACAATGAGATACCATTAACATCACAAAATGCTCAAATTTTAAAATCTTGACAATACAAGCTGAGGATGTAG
AGCAACTGAAGCTCTTATTTCTTTTTCTTTTTACCTTTCCTTTTTTCTTCCCTGGGATGGATCCTGAGCAACTAGAACACTTATATATTGCTGATGGAAA
TGCAAAATGGGACATYGGTTTGGCAATTTCCGATAAAGTTAAATATATACTGATGTATATATCTCATTGTTTTAATATGCAATTCCTTAATGACAAATAA
TGTTGAGCATTTTGTTGTTGTTGTTGTTGTTGCTGTTTGACAGAGTCTTGCTCTGTTGCCCAGGTTAGTGCACTGGTGCAATCACAGCTCACTGCAGCCT
CGATCTCCCAGGCTCAAGTGATCCTCCTGCCTCAGCCTCTCAAGTAACTGGGACTACAAGAGTTTGCTACCACACCAGCTAATTCTTAACTTTTTTGTAG
AGACGGGGACTCGCTCTGTTGCCCAGGTGGGTCTCAAACTCCTGGGCTCAAGTGATCCTCCTCGGCCTCCCAAAGTGCTGAGATTACAGACGTGAGCCAA
CCCCACCCAGACATTTTTAAATGCTTATTTGCCATCTGTTTATCTTATTTGTTGAGATATCTGTTCAGATGATCCATTTTAAAATTGGTTTCTTTGTTTT
TGTTGAGTTTTAAGAGTTCACTGTATGTTTTGGATACAAGTACTTTATCAGATACATGTTTTATAAATAATTTCTCTGGTCTGTGACTTTTTCATTCTCT
TAACAGTGTCTTGTGCAGAGCAGAAGTTATTAATTTTAATAAAGTTTGACATCAATTTTTCTTTCATGAATCATGCTTTTGGTGTTGTATCTGAAAATTC
ATAGCCAAATCCAAAGTCATCTAGTCTTTCTCCTTTCTTCTTCTAGAAGTTTTATAGCTCTGCATTTTATATTAAGGCCTATGACCCATTTTGAATTAAT
TTTTGTGAAAGGTCTAAAGTTTGTTTCTGGATCCTTTTTTTTTTTTTTTTTTTTTTGCATATGGTGATTCCAGAGCAATTTGTTGAAAAGATTAACCTTT
TCCTATTGAATTGCCTTTGCTCCTTTGTCAAAGATTGGTTGGCTATTACTGAATGTAAATTATACCTTAATAAATTAACATAAGAAATACATATTTTCCA
AAAATACAAAAACATTTACTGTAAACATAGTAAAGTGGTTGCCAAGGTATATGAGAGAGTGTGTAATATGAATATAAAAGAGAATGGGCTGGGCTCACGC
CTGTAATCTCAGTACTTTGGGAGGCCGAGGCGTCGAATCACCTGAGGTCAGGAGTTCGAGACTATCCTGGCCAACATGGTGAAATCCTGTCTCTACTAAA
AATACAAAAATTAGCTGGGCATGGTGGCACATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGNNNNNNNNNNNNNNNNNNNNGAAAGAGGCAGG
GGAATAGACGAAATGTTCGTTAGTAGGAAAAGGAAAGAAATAGTACGTTTGGGAGGTGGCGTGGGTGTCAGTTCGGCCCCAGGAAGCAGAGGGCAGGTTT
GTGTGTGTGGAGGCAGAGGGCGGGGGCCTGGGAATAGGTAGGGGTGATGACACCAACGCGCCGGAACCGAGGGCCTGATCGAAGGGACATGGCAGAAAAG
GAAAAGAAAGGGAATGAATACCGGGATGGAAACAAGTGAGGGGCCTTGCACGCAATTATAATTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTC
GCTCGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGTTCACTGCAAGCTCTGCCTCCCAGATTCACGCCATTCTCCTGCCTCAGCCTTCCAAGTAGC
TGGGACTACAGGCGCCCGCCACCACGCGTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGATCTCGATCTCCTGAC
CTCACCTCATGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCGTCTTTATTCTTAATCTAATCGGGCAAC
ATGTAACCTAACGAAAATATCAGTGTTCCTCTAGGATACATATTTCTTTGTAGCTGTACCTTAGCAATCCATCTCCATGTGGGATAGTATAATTTTTTGT
TTCTTTGCTTGTTTTGCTTGGGAGCAGTATGGTAAACATCTTGGACTTAGAGCAGAATAAATATGTAATTTATCACACATACTGTTACTCAGAAGTCCAG
ATTTGGTCTTCTTTAGTGTCCATTTTGAATTGCAGCTGATTCTATTACTAGTTTTATTAGAATTTGTTGATGATGTGCTGATTTTCTTTTGTTTATCGGC
CCTTTTCACCCCAGCAACTTACATGGTGAATGACATTCATACACAAGGCACATTCTCCTGGCCATAACCATTTTTTTGTGGAATATTAAACATTTTATGG
AGAAGTAAGGTGAATAGCCCCTCAGATTTTTTTTGGCATGAGATTTATCAAAGCATTTTATAAACATATTAGTGGTGTAAAATCAGCCCTTTAAAGAACT
TTTAAAAGCTCTGTCATTTTATAAGAAAAAGTACACAAATATAACCAATCTAATTTTTTAAARCATAAAGCTTTATTTAAATTAAAATTTTTTAAACAAG
TTTAACATTTTTCCATGTCTTTCTAATACAATAGATAACATCAGGAAAGGAACAAGTATGCACTGTTGCAGAATAAACATGAATTAATCTTATTTTACTA
TTTAAAACGATAACAGAATTTATGTATATATATCAATATGACTATGATTATGAGAAATAGCACTTAACCATCAGTTTCTCTCCTTTTGATTTGGTAATCA
TTGCTGTTGTGTGGTTTATAACAGAAATTATCCCTGGGTCATGCTCTCTCCTGTGTCTCCTAGACGTGGATGTAGTCTTTGTGTCTGAGTTGTCTCCCCT
GCCTCTTTCCATATTAAGAATTCATCTATGGGTACGATTAACAAGAAAATTAAAGTAAGTATAAAAATCATGCTGGGCACAGTGCCTCACACCTGTAATC
CCAGCACTTTGGGAGACCAAGCTGAGAGGATCAGGATTGCTTGAGTTCAGGAGTTTGAGACTAGCCTGGGCAACATAGTGAGACCTGGTCTCTACAAAAA
AAAAAAAAAAAAAAAAAAAATCAAAAAATTTGCTGGGCATGGTGGCATATGTATTTTTTAGTCCCAGCTAATCAGGAGGCTGAAGTGGGAGGATGGCTTG
AACCCAGGAGATCGAGGCTGCAGAGAGCTGTGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAAATATTGTCTCAAAAAATAAATACATAAATT
TAAAAAAATAAAAATCATGACTCCCAGGCAGCAAGTTTTTAAATTTATTTGTGGTGCAACTGTCAGGGGTACTAGCCACTAGCTGAAGCAGAGATAAGTT
GTGGGTCAGGTGAAAGTCTGGGTACCTCATTGTACCAGCCATATCTCTGCTTCTCCAGAAAGCAGATGGTAATTCAAGGGAGTGAGAGTGCCTTATTATA
TTTGAATGCACTCTAATTTTTCACAGTTAGTGATATGGTTTAGGTCTGTGTCCCTGCCCAAATCTCAAGTCCAATTGTAATCCCCAAAGTTGGAGATGGG
GCATGGTAGGAGGTGATTGGATCATGGGGGTGGATTTCTTCTTTGGCGCTGTTCTCATGATAGTGAGTAAGTTAATGTGAGATCTGATTTTTTTTTTTTT
TTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCCCCTGGGTTCAAGTGATTCTCCTG
CCTCAGCCTCCTGAGTAGCTGGCGTGCACCACTATGCCTGGCTAATTTTTTTGCATTTTTAGTAGAGACATGGTTTCACTATGTTGGTCAGGCTGGTTTT
GAACTTTTGACTTCGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCATCTACACTCCCAAAGTGCAAATTAGCCGGCCGTAGTGGAGCATGTCTGTGGTCC
CAGCTACTTGGGAGGCTGAGGCAGGAGGATCCCCTGAGCTGGAGAAGTCAAGGCTGCAGTAAGCTGAGATCATACCACTGCACTCCAGCCTGAGTGACAG
TGTGAGACCCCAACTCAAAAAAAAAAAMCAGAAAAACCCATTACAGACACAGTGAAAATTTCCTTAAAACACATCCCCCCTCCATTATTGAGGTATAGCA
TAGATGGTTAATTTATTTTTAACAAATACTGTTCAAAATTCAGTTACTGAAGCACAATTTATGATTTATTTCTTGAGACAACTTTGCCTTTGATGATGAC
ATAACAAGGTGTTGTTATGTCATCCAACAGCAGGACTGTTGGAAAATGTATTTCTCAAACCATCAAATTCATGAAGGAAACAGTCTCTTTTGATTTTCYC
TATTGAAATATAACTTCACCAGACCAATCTGGTTCAAYTGTAASAAAGGTTAAGTAACCTGAGCATACCCAGTGTGCATGAACCAAGCGTGCAATCACCA
GAGGAACCTAAGTGCTCAAACCCAAGGAGCGGGGAGTGAATTAAGAAGTGGACACCACATGGCAGGATCCAGGATCCAATCAGATCAATCCCTGCTGTCA
CCTCATGGCAGGATCCAGTCAGATCATGCCTCCCAGCATCACTTCATTGCAAGATCCAATCAGATAACACCTTATTACCCTATACTTATAAAACCCAGCC
CAGGCCCCCAGCTTGGGGGAGACAGATGAGCATTTTCCCATCTCCTTGCCAGTTGACTCAATAAACCTTTCTTGCTGCAAAAACTCAGTCCTTCAGTGTT
TGCCTTTCCATTGCATGAGGGCAAATGGACCTGGTTTGGTGATGTAATATGTCATTTCCACACTTTTTTTGTTGAATATATAAATGTAAATTCAGCATTC
AAAAATATAAAAGACTACAAATGAAAAGCAAGTTTCTTGTCCAGTGTTGTCCTGAAATCACTCATAATTTGTCCTCCCAGGAGGCAGCTAAGACTACAGT
TTCTTGTGTGTACTTCCAGAGATATTTTATGTATTCAATGAATTTTCACAATATAAGTATCTCTCATAAAACAGAAACGCAACTATCCTGGCTTAACCAA
GCAGGAGTTTGGATTTCTCTAATGAGAGGTCTGGGGTGGGTGTAGCGTCTCCACTGTATCATCAATGTCCCGGCTTCTATCCATGTTTCTACTCAGTTAC
GCTTAATGTAACTGAGTAGTTACGTTATCTTGCTTATTAAGTCTTACGGTCACGGTCACGAGTTGACTGCTCCACCTTCACTCTCACATCTGCGTCTCAG
AAATGAAGAAGTAGCAGGGAAGAGGGAAAGGTGGTTCCTGTATTAAAGCAGAAATGTCCTCAGATCTCCAGCTGTCTCCCATTTATATCTCTGTGGCCAC
AGTGGTGTCACATAGCCACTTGGAGGGAGCCTGGGGAGTGAACTATTTTATCTAGGCCCATTCCACTCTCAACAAAATTTCTCTTAGTAAAGAATGACAG
CAAATAATTGCATACTATATATTAATCCTACCTTGCTTTTTTCACTTACCTACTGTATGTGACTCAGCATACGTGTCCTTCTCAGATAACAATCAATGTC
ATTTATTTATTTATTTCAATTTGTCATTTATTTATTTATTTCAATGCCATTTATTTATTTATTTGAGATGTGGTCTCACTCTATCACCCAGGCTGGAGTG
CAGTGACACGATCATGGCTCACTGCAGCCTCGACCTCCTGGGCTGAAGCAATCCTCCCACCTCATCCCCCCAAGTAGCTGAGATGACAGGCACATGCCAC
TAAGCCCAGCTAATTTTTGTATTTTTTGTGCAGACAGGGTTGTGTCATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGTGATCCACCTGCCTTGG
CCTCCCAAAGTGTTGGGATTATAGGTGTGAGCCATAGTGTCTGGCCCCATTTATTTCTTCATTCATTTAACATAAGAATCTGTTGCTAATTTATGTAGTG
GAGAGTAACTGCCTTATATCTGTTTCTGCTGGGTTTTTTTTTTTGTTTTAAGACAGGGTCTCGCTCTGTTGTCCAGGCTAGAGTGCAGTCACACAATCAT
GGCTCACTACAACCTTAACCTCCCAGGCTCAAGTGATCCTCCTGCCTCAGCCTCATGAGTAGCTGGGACTACAGGCATGCATCACCATTCTGGGCTATTT
TTTTTTTTTTTTAAATCAAGACAGGGTCTCATTATGTTGCCCAGGCTGGTTTCAAACTCTGGAGCTCGAGTGATCCTCCCACCTTGGCCTCCCAAAGTAT
TGAGATTACAGGCAGGAGCTATCATGCCCAGCCTGTTTCTGCTGTTTTTAGAACACAGATTATTAACTGGACACAGGCACCCAGAATAAGACTAAATTTC
CAAGCATGCTTCTGACTAGGTGTGGCCATGTGTCTAAGTTCTCGCCTATGGGATGAGAACAGAAGTAAAATGTGCCTTTGAAGAGGATGTGTGCCTTCTC
CTTCCTCTTTTTTCCCTTCCTGCTGGCTGCATTGTGCACTTGGCATTGCTCCATCATGCAGATGAGAGGTTGTATGTAACAGCAGCCAAAACTACATCCT
GACTAATACCTGTGTTAATGGGCCAGACACTGCACTAGGGGCTCAGGACACAAAAACCAATACAATTAAATTTCTACATTCCAGGAGCTCAAAATCTTGG
GTAGAAGACCAAAGGGTAAGCAAACACTTTTGAAGTCAGCACTGTGGTAGCCCCAGGGCCTCTGGAGCACGGCATAGCCAATCACCTACCATGTCTATCT
ATCCATTTGTGCATCTCTTTAGCCATCCGTGCATTTCTTAATTTACCCACCTACCCATAGATCAGTTCCTCTCTCATCTATCTGTTCATGCTTGCATTTA
TTCATCCATCTCTCCCACATATCTCATGAGGATCCTGCAGGGTTTTTGTTGTTGTTGTTTTATGAGACAAGGTCTCACTCTGTCACCTAGGCTGGAGTGC
AGTGGTGTGATCATGGYTCACTGCAGCCTTGACCTTCTGGGTTCAAGTGATCCTCCCATCTCAGCCCCCTGACTAGCTGGGACCACAGGTGCATGCCACT
GCACGGGCCTAATTTTTAAAATGTTTTGTAGAGATCAGGACTCACCATGTTGCTCAGGCTGATCTTGAACTCCTGGYCTCAAGTAATCCTTCTGCCTCAG
CCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATACCARGCCTCTGCAGTTATTTTTGTTGAGAATTATATAGGGCCCGTTCAATTGTATTTTTCT
CAAATTCAAGCCAATCAGAATGGCACCTTTCACCTCAATTTTAACAGATACCAGGAACCAAGATCACCACACACACGCAATATAATGATGAAATTTCATG
TTCAAATCACATAACTAAATGCTGATTTGTGAACATTTTTAGATTTTCCTAGGTGATAAAAATGATACAGTCATTAGTTTTTTTCAAGGACAGTCTCCCA
CTTCTCCTGAGTTGGATGTGCCACCAGCCCACCTTAGAGCCAGCCCTGGGGAAATGCAGAGGGAGACAGAGGGCAAATTCGGTGTTTGTTATAATCATGT
GTGATGCTATGTAAGAGCTATCTTTAGCTGTGTACCTCCCTTATTCTTGAGGGGTAGAGTAAGGTGGGGTGACCACCAAAGGAAGCCAGCAGGCTTCGTT
CGCCTCCAGGGAATGAGATTCCTTGTCTCCCTCTCTTTCTTACTTTGGCCACTGAAATTTCTCCAAAACTCTTCTTAGGAATAAAGAAAAAATCAAGGGT
GCAGATTATGGCAAGAACATAGTTAAGGTATGCAGTTTTGTTTCATTTAATGAGAAAATATAGTGGTTGTGTTAAGAAATTAAATGGCTCACACATTGAT
CCTCATTGATATATATTGAATGTTGTTTATCAAAAACATTGTGAATTTATTTGGTTTAAAACAAATATCAAACTTCAAATCAAACTTAAGTAGTAAGTCT
AATATTAATGGAGATGAACTAGGATTCGAACTGAGCAAGGAGGGGGAAGGGATGGAGGAAGGAGGACTTTTTCTGTTTAAAATCTAAGGAGCCCTGGAAC
TTACAGAAATTCAGCCCTGTTTTTGGTACTAGGGAGATACAAAGATCAGATCTCTTCTGCCCCTGCTTGTAAGGCAGGAAATTTTCTGTCTACTTAAGTA
GATGAGACACAAATCTGCAAAGTCATATAGCAGAACAGGAAGCTACTGTCAAGAGATGTTACAAAGGGGCGGGGGAGAGTAGGGAGTTGAGGTGGCGGGT
AAGGATATGCCAAGTGTCAAGTAGATAGTGCAGGAAAGAAATGCACATTTCTCCAAGGGGGTGGTATCCACAATGGGTTGGAATGGCCAGGGAAGCTATT
CTCTCCCCTTCCCTTCCTTCCTTCCAGTTCTAGGCATTGGGGGATACAGTGGTGAAGAAAACAGAAAGAAATCCTGCCMTTCTGGAATTTACATTCTAAT
GGGGGCAAGACAGACAACAAATGAAATAAATACAAATAACAGTGTGTAAGACAGTGATACGTGCTATGGAAAAAATAAAACAGGGAAAAGGAATCAGGAC
TATTGGGAGAGTGTAATTTAAATATTATGGTCAGGGAAGGCCCCACAGAAAAGGCGACGTGAGTAAAAACTGAAGGAGATGAGGGAGGGAACCATGTCAG
TATTCAGAGGAAGAACATTCGGAACAGAGGGAGCAAATATGCAAAGCACTTATTCGGCACCTACTGCATGCCCACATGACAGCAATAGCAATATGTGGCT
ATTTGCCAAACTGTCTTCATTCGTGAAACATTTAAGCTTACTACAGAAGATAAGAGTTTTTTTCTTTCCCATGAGGTTGAGAATATATGGAGGATGGGTT
GCCCAGAAGCAGTGGCAACATTTGCATTAAAAGAAGGCAGCCTTTTAACCCGAGGAGGAGGCTGAGAATCCAATGACTTTTCTGTCATACGATTGAGGGG
ACAGGAGCCTAGTGATAATGGGACACGGAGCTTCGGCTGCAGAGCTCTCTTTTGTCCACAATTTAGGGCAACTGTCTTGCACTCTGCCTCCATCCTCTGG
GTAGACTCAGTGGAGGAAACGTTTCCACAGGCACCAGGCAACCGGGCTCCTGGAAGCAGCAGACCCGGGAGAGGAGAGCAACTCCCCAGCTTGGTGTTAG
ATATCATCTGAGACTCCTTACACCCTCGCAGCTTAGAAGCTCCTCAGATTACCAGGCAAGGCAAAGTTGATTTTGACAATGTCTGGGGAAGGAAGGGCTG
CTCTTCCTGGCTGGCTGGCATAATCAGACTCTGGAGGAGTCGGCCTGCCTATCAAAGGAGGTGAGAGCTAAGTTGTTGCTGCCTTTCCGCTTCAGGATGA
ATGGATTCCACCCCATTGAACTGGAGTGACCTGGYGCCTGGATTCTTTCATCTCTAAAATGGGAAAAATAATTGTTGCACATATATGGTGTTGAAATTAT
GGCCCTCAATTGGTGATAATTATCATTACTTAGTATTAATAATTATTATTTGTGAAACTTCTCCCAGAATTGCTGCATGGATTGCAATGTCCAAATAAGC
TTATAATGGGGCTTCCAGACACTAGCAGTGAGGCAGTTTCTGTAGAGGTTGAGTGGCGGCTCTTCACCGACTAACTGGGTTTGCGTCCCCYGCCTTTTTG
TTTTCCTTTTTTAAAATAYATTTTTTAAATATCATGGAGTGTCACTATGTTGCCCAGGTTAGTGTCGAACTCCTGAGCTCAAGGGATCCTCCCACTTTGG
CTTCCCAAAGTGCTGGGTTTGCATCCTGGATGGCCTCTTAGGAGCTGTGTGCCCTTGGGCAAGTTGTTTAACCTTCCTGAGCTCCTGYGTCCCTATCTTT
AAAGTGAAAATAATAATAGCACGTTTTACTACTTGGAAGGAGGCTGGACCAGGTTTTCTACAGCCAGACCATCTACGCTTTCCAAAGGGCCTGGGCAGCA
AGTGAGTATTAGTCTACTAAGAGTGTAATTATGTTATATTAACAGCACCTACCTCCAAAGGTTGCTGCGAGCAGAGAGCACCTCACAGTGCTTTACAGCA
GTGCCCGGCTATAACCATCACAGCATTATTATTAATGTGATTAGCCTCATTTTGCAGATGAGGAAATATAGGCCCAGAGAGGTTAAGATACCCCACGCAG
GGACCTGCAGCTAGTCGGTGGCAGGGATGGCGCTGGAATCCAGGGGTTCCCTCCAGAACCCCACAGCGGCCCATGCTGAAAACCAGACAACGCCCGCCCC
CGCCAGAAGGCACCCTGGGAACGGAAAGCTGGCAGCCTTCCAAGTCCCAGGACGCGCTGGGGCCCAGCCCCCGCTCCGCCCTCCCCCATCCCTGGAACAA
AGTACACTTCTGCCGCAGGAACATTCCAGCAAACTGAAGGCATCGCGGGCGCGGCCGCCGCCCCCGCCTCCCCACAGCTGCACRGAGCGTCCACGGCCCC
AGGCCGAGCCCCACTGTGCCCCGCTTCCGACCCCGCCCGCCCTGCCGGCTCCCCGTCGCCCGCCGCGTGTGCAGACGCAATCGCACCGGAGGAATTCTCT
GGTCTCTTTGCTAACCTCGGGACCCGCAGTTGCAAAGGCTGAGGGACGGGGTGGGCGGAGCAGACGCTGAGGACTGCGGTGCCCTTAGGGGCACGGAGTC
GCTTGGCAGCAACCGCTCCTGGGCCCGCTGGTCCCCGGTCCTGGGCAGCCCCCACTGCCCCACTTTACTCCTTTACAGGATAAAGGCATGCTGTTGTTAA
TAACAAGTAGAACTAGGAGAAAGATCTCTATTAATCCCACCAGGCTGAGACAACTGCTATTAATTCTGGTTATGTCCTTCCTGACTTTTTGTGTACACAA
AAAACACAGATGTACATTAACACGAAATATCCTGCGATGATACTGTTTGTTTCTAAATTAACGAACTTTAGTTGTTAGAGCAGTTTTCAGTTAACAGAAA
TTTGGGAAGCTAGTGCAGCGTTCCCATATAACCTCYCACCGCTCCCTCAGTTTCCCCTGTTATTAATATCTTGCATTTGTCACAATTGATAAACCAGTAT
TGATATATTAGTATTCACTACATTTCATGGCTTATATTAAGGCTCACTCTTTGTGGCGTGAAGTTCTTTGCGTTTTGACAAATGCATAATGTCGCATATC
CACCATTACAGTATCATACAGAACAATTGGCCCAAAAAATCCCCTGTGATCCCCTTGTTCACCTCTCACCCTCTAATCCCATGCAGTCACTGATCTTTTT
ACTGTTTCTATGGTTTGGCCTTTTCCAGAATGTCATATAGTCGGAATCGTATAGTCTGTTGCCTTTTCAGGCTGGCTTCCTTCACAAAACAATATGCCTC
TTAAGATTCCTTCATGTCTTTTTGTGGCTTGATGGCTCATTTCTTATTTATAGCTGAATAATATTCCATAGTACTGACGTACCACAATTTGTTTATCCAT
TCACCTTTTCAATTGCCTCCAGTTTTTGGCAATTATGCAAAAGATGCTATAAACATTTGTGTGCAGGTTTATTTTACTGCTTTCTGGCTTGCTTTTAAAA
ATTATTTCAGTCCAGGTGAGGTATGGAGTAAAGAAACAAACAAACAAGTCATGAATGTCATTCAATATAAATGTAGATCTATATCATCATTTTAATGGCT
ACATAAGATACTATCAGAGTTTATTTAACCAGCCCCAGTTGTACAACATAGATTGCTGTCTTCTTTGATTCTGACCTCATAAACCTGTAACAACTTGGTC
TACACTTGATAGTATCTTGTAGTTGTTAAGGCTTAGTTGCTTGTGTCCTGTGTTCAAATCCCAGCCACTCCACTTAATTACTTGGTGTCCCTGGATAAAG
TATTTAATTCCTTATGAGTCAGTTTCCTCTTTGTGAAGTGGGAATAATAATGGCACTTATTGTGAGGATTACATGAGCTGATACATGTAAGATGTTTAGA
ACAGTTTAGAACCTAGAGCAATACAAACTCATAATAAAATTTAGCTCTTTTTATTATTTATTTATTTTTTTAGAGACAGGATCTCACTCTTTTGCCCAGG
CTGKAGTGCAGTGGGGCAATCATGGTTCCCTGCAACCTCAACCTCAAGCAATCGTCCTGCCTCAGCATCCTGCATACAGGTGCACACCACCACGCCTGGG
GGTTTCGCCGTGTTCCCCAGGCTGGTCTTKAACTCCTGAGCTTAACAAAATGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCC
CCTGTGCCCAGCTAAATTTTTATTTTTATTTATTTATTTATTTATTTGAGACGGAGTTTTGCTCTTGTCGCCCAAGCTGGAGTGCAGTGGCGCGATCTTG
GCTCACTGCAACCTCTGCCTCCCAGGTTCAAATGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGGGCGTGCCATCACGCCTGGCTAATTT
TTGTATTTTTCGTAGAGGTGGGGTTTAGCCAAGATGTTAGCCAAGATGTTCTGGATCTCCTGACCTTGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTA
GGATTGCAGGTGTGAGTCACTGTSCTCAGCCTATTTATTTTATTTTATTTATTGTTTTTGGAGACAGAGTTTCACTCTGTTGCCCAGGCTATAGTGCAGT
GGTGCAATCTTGGCTCACTGCAACCTCCACCTCCTGGGCTCAAGTGGTTCTCATGCCTCAGCCTCCTGGAGTAGCTGGGATTACAGGTGTGTGCCACCAC
ACCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCACGTTGCCCAAGCTGGTCTCGAACTGCTGAGCTCAGGCAATCTGCTGGCCTCGGCC
TCCCAAAGTGCTAGGATTACAGGTGTGAGCCACAATGCCCGGCCTTTTTATTTTTTATTAGAGACAAGTCCTYACTRTATTGCCTAGGCTGATCTTGAAC
TCCTGGGCTCAAGGGATYCTCCCACCTTGGCCTCCCAAAGTGCTGGAATTACAGGCATGAGCCACTGCACTTAGCGCTCTTATTTATTGTCTATTGAGCA
TCTACTTTGTGTCCTGAGCTAGGCTTGGGGAAGTTATCAAATACTAAATCCTATGTATAGTTTTTTTAATTAAAAAAATATTAATTTATAGAGACAAGGT
CTCACTATGTTGCCCAGATTGGTCTTGAACTCCYGAGCTCAAGCAATCCTCTTGCCTTGGCCTCCTAAAGTGCTAGGGTTACAAGCGTGAGCCACTGTGC
CTGGTCATATGTGTAATGTTACCCTCAAAACACTTTAGTTTGGCTCCTGCTGGGGGATAATGCAAAGCACAGTAGTACTAACTCTTTATGTTGTTTTCTC
TGYGCCAGGCACTGTTCTGGACCCTGGGAGTAGCAGGGTTGGAATTTGAAYGCAGGGGTCTGGTTCTAACCACCCTGCCTCTCTGTACAAGTAATCCCAG
TGCAAAAGACAAAGCAAGATGTGTTCTAATAAAGGGGAGATGAAGAACTATGAGAATTCAGAGGACCCAGTGATGGCTTCCAGCTGGGCATACCAGGGAA
GGCTCTTTGTTAAACTTCACTTAGTGAACACCTATGGAGCTTTTATAGACAATACACATCCCTAAGCACTGGGGGAGTAAAGAAGCACATAAAACCAATG
GGAAACATATAATTTGGTGGGAGAGAAAGAAAACAGACTCAACAAGCAAATGTCAAATGGCAGGTTGTGACACAAGCTACAAAGGAAACACAGGCTTCCT
TGACGATAATACTCGGGGTGTGGTGGGGATTGGCACCTTGGTCAGGACAGCCTTGGAGGAGGCAGCTCTGAAACACTGAGCACTGTGAGACGAGGAGCCA
GCCATGGGAGGAACTGTGGGGGATATTCTAGGTGCCAGAATGAGCAAAAGCCTGGAGGCAGAAGGGTGTCTTGGTATTATATGTTTTAAATACCATCGGA
AGCTAATATGGAAGGGACACAGGGAGCAAGGAGCAAGTGGCTAAAGATGAAGTTGCAGAGTAGATACRGGCCAGTTTCTAAGAACTTTCTAACCTAAAAG
AACTTCCTGAAAGTGGCTGAATAGCCTGGAGGTAAGGACAAGAACATCCACTCCACGTGCAGCTGTGATGGACCAGGCTCTATACATGCTCTTCACACAG
TGTTGTATTCAAACTTGCCTACGACTCACTTGGCAAGATAGGGAGCTGAGGATTGGGTTTTATTCCCAGTGTGTAGGGAAGCCACTGAAGGGTTTTAAGC
AAGGAAGTAGCATGGCTGGATTGATATTGTAGAAAGATCCTGTGGGCTGCTGTGGGAATGGAGTGAATGTTTGCAAGGGAGGAATGGGGGGACCAATTAC
CTGACTACTGCAGTCACCTGGGCAAGAGAGAGAATGGAGATTTGGCTAGAATGATGGCAGTGGACAGGAAGAGAGATGGATTTGAATTATATTTCAGAGG
TGAGGCTGAGAGAAGATGTTGATGGATTAGATTAGGGTGGGGTAGGGAGAGGAAGGAAACGGATATATGCTCATTTTAAGTGACTCAAACAATTCAGAAA
AGTATAATGAAGAAACCATTTAAAATCCTCTAAAATCCACTTGCCCAGAGAGTACTATTAACTTGATGGAGACACCCTGCTAGACAGCTTTCTAYCCCCA
AACATAGGGAATAARTGGGCTCCTTCAGTTGAAAACCACAGAGATCCACTGAAGCTGACTTATGTACCAGATACTTTGTTTCGAGGACTTAGGGGTGTCT
CCTGGAACTGCACACCAGTCAGCTTCATGAAGAACTGGAAGCAGTGCAGAAAGCCRGGAATACAGGGGCCTCTTTTTTCTCTCTGGGGCTTACCATCTAM
TTCTCCCTGCCTCCTCTAGTCTTCTCTTCTTTGGCTGACTGACCTTGGTGTGCACACTCCATGTGGCTGCCCTCCCTTGCTTTGTATTACTCCCCAACTC
CAGCATCTAACAAGATGTGCTGATGGCCTTGAGTCACAGATCCCATTTTCTGGGAGAGAAAATGGGATCCAGCACACTGACGATGAAGTGGTCCATTCTT
TGTGTATTGGTCTGTTTTCACATTGCTATAAAAAACTATCTAAAACTAAGTAATTTATAAAGGAAAGAGGTTTAATTGACTCACAGTTCTGCATGGCAGG
GGAGGCCTCAGGAAACTTACAGTCATGGTGGAAGGCAAAAGAGAAGCAAGGTATGTCTTACATGGTGGCAGGAGAGAGAAAACGAGCAGGGAACTGCCAC
AYACTTTTAAACCATCAGATCCAGATCTCTTGAGAACTCAATCACTATCATGAGAACAGCATGGGGGAAACCACCCTCATGATGCAATCACCTCCCACCA
GCTTCCTCCCCTGATTACAATTTGACATGAGATTTGGGTGGGGACACAGAGTCAAACCATATGACTTTGCAGGATGGAGAAAGGTCACTGGTACAGATGC
AGGTAGGCTGTTTCCTTTGGTGGTGGGAAGATGAGGTGGCTCTCCTGGATGCTGCTTTTATTTCAAAGGAATGGGYGAGGTTGTCAGGTGTGAAGCTGAG
AGTGGATTGGGGATGGGATGGGATGTTTTCTAAAAAACAAGAAGATATGAAATAATTTGTGTTTGAGAGTAGAGACATGAATGAGTGCTGATGGCCCACT
TGAGGTTTGTGGTCATAAATGTAAAGAGAGATTAGTGGACAGAGTTGTTTTCTTCCAGTCACATSTAGCTGCTCAGGTGAAGGGAATTTGCTCTGGCCAT
TTTTCAGGACAATATAATGAGGAAGAGAGGGGCCAGGAGTGGTTATTGTGTTAGAATCTAAAGGGATAATTAAGAAAGTGAGAAGATAAGTGAAGGGATA
GGTAGTGAAAACATTAGGAACTCTGGCTGGGRTTGAAGAGTTATTGAGTCAGGATACTAGAGTGAGAGAGCTGGAAATATTGGAAGGGTTGGCCAAAGAG
TGAGGTGGGGTGCTAAAAATGATGATTTTAAGGTGGTGAAGCAGTCATTGCTGACAGTCCAGGGCCTGACCATGGCAGCAGGAGACTGAGGCCATAATGA
GTACAAGACAGCTGGAGAGGAAGAGATCAGGAGTCTGGGCAGCCAGCCTCCTACCTGGCCCTAGTGGTTCTCATGAGGTGTATTCACTCCCCTTGACTAG
TCCCTCCTGTGCTCATTGGGGCTGGCATGTGTAATAATAACTGTATGTCTTCTGAGGCTGTGTTCTAAAAGACATTGCAGCTTCTGTCTTTGTTCTCTTG
GATTGTCTCAGGGAAGCCAGCCACCAYGCCATGAGGACACTCAAGCAGCCCTGTGGAGAGACCTACCTAGTTAACCAACCAGCACGAATTTGTCAGGCAT
GTGAGGGAGCCACGTTGGAAGCTAATCCTCCAGCCCCAGTCAAGCCTTCGGATGATTGTGGCAGCCCCAGGAGATAGGCTACAGCAGCATCRGAGACTCT
CAGCCAGAGTCATCTGTCTCTGGCTCCCCAAAGCCTGCCCATAGAAACTGTATGAGATCATAAGTGCTTATTGAGTTGTTTTGTTAATTTGGTTTTTGTT
TGTTGTTGTCATTGTTGAAACAGAGTCTTGCTGTCATCCAGGCTGGAGTGCAGTGGTGCGACCTTAGCTTACTGCAACCTCCACTTCCTGGGTTCAARYG
ATTCCCCTGCCTAAGCCTCCCTGCTTCAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAATTTTTTTTGTTTTGTTTTGTWTGTTTGTTTGTTTA
GTACAGACAGGGTTTCATCATGTTGGCCAGGCTGGTCTCGTACTCCTAACCTCAAGTGATCAACCTGTCTTGGCCTCCCAAAGTGCTGGGATTACAGGCG
TGAGCCACTGTTCCCAGCCTATTTTGTTAATTTGTGATTTGTTACACAATAGATAAGTAATACAGAACCTGAAAATCTAGGATGTTRGATGGGTTTTTGA
TACCGGAGTTGGTTGAAATCACAAAATGGTGAGTACTGCTGATGGTGAGAGAGGCTAAGAGCCAGCATCTAAAATCTTCAGGGAGTAAGGGAGATTATCC
AGGAGGCTTCAATGAGAACAGTGAGTGGTATAGCCTAAGGACACGAACTTCAAGGGAACAGAATTTTGTAGARAAAAGGAAGGATAATTAGTCTAGAAAA
GGCAGTGTACAGCCAGGAGGGTACCTACCCCTCCTCCAGGTCTGTAGTATATGGGGTGTAGGAGAAAAACCAGCCCCTGCTTTAAAGGGCCACAAAAAAG
CAACGTCCTCAGGCACAACCAGATTTTAGTGAAAGCAGGAAGGGGAAATGAATGTTTGGAGRAGAGGTTGAGGATTGAGGACATTTTCCTGAGGGTGGAC
CATGAATTTCAGGGTCACAGTGGAAGAATGGAGGAAGTAGGGAAGGGTGGGAAACTGGTTAGATTAAGGGATGTGATAAGAGTCTGGGTGATGATGGATT
ACCTCAGAGTCTTGGATATGGGGCGGCTATTGAGATAAATAGGGATGTGAGGCATGCGGGTGAGTCTGGAGGGTCTCAGAGAGGAAAATGGGTAATTAGT
TTCTTCTCAGGGTTCATGCTTTATGCAGTTTCCAATGGTGAGACAAAAGAGAGCTGGTCTTCCCAGGAACACTAAAGACCTCTTTTCTTTTGACAGGGTC
TTACTCTGTTGCCCAGGCTGGAGTCCAGTGGCATGATCTTGGCTCACTGCAGTCTCGACCTCCTGGGCTCAAGCGATCCTCCCATCTCAGCCTCCCAAGT
AGSTGAGACTCCAGGCATATGCCATCATGCCAGGAGCCTTTAGCAGGCATGTCCTGCTAAAATTTTGGTTGTATTTTGTAGAGACGTGGTCCCACTATAT
TTCCCAGTGTGCGTCTTGAACTTCTGAGCTCAAGCAATCCTCCTGCCTTGGCCTCCCAAAGTACCGACCGGGATTAAAGGTGTGAGCCACCAAGCCCAGC
CAAAGACCTCTTATAAATGCTGTTATAGGTAGTGTAGGGGCCATGAAAAGAGTTTTGCAAAAAGAAAAATTGTTCATATTTGAGAAGAAGTTCTTTGTCT
TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCC
ATCTCCCAGGTTCAAGCAATTCTCATGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCTGCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAG
AGAGGGTTTCACCATGTTGGCCAGGCTTGTCTCCAACTCCTGACCTCAAGTAATCTGCCTGCCTTGGCCTCCTAAAGTGCTGAGATTACAGGCCTGAGCC
AATGCGCCTGGCCTGTTGGATCCTTTTATCTTTTTCTTATTGCTTTATAAATGATTTATATATTCTGGCTACAAGCCCTTTGTCAGTTCTATGTGTTGTA
AATASCTTCTCCCATTTCATGACTTGCATTTTCACTATCTTAATGCTGTCTTGAAAAACAGAAGCTCCAATTTACCAATCTTTTCCTTTATAATTAGGGC
TTTTGTATATCTTGACCAAGAAATCTTTCTTTACTCCAAAGTCTGAAAAACATTCTGGTATATTATATTCTAAAAGTTTTATTGGTTTGCCTTTCATATT
TAGACTGTAATACATCTGGAATTTATTATTCTGTGTAGTGTGAAATAAAGGTAATTTTCATTTTTCCTATATAAATATCTAGTTGACCTAGTACCATGTA
CTGAAAAGACTTTCCTTTCCCTACTGCAGTACAGTGCCACCTTTGTGGTATATCATATGACAACAAGTTCATGTRTCTGATTCTGGGCTTTCAATCTGTT
CTGTGGTCTATTTGTTTGTTCTTGTTCCAATACTACACTGTTTTAATTACCATGGCTTCATGAGTCTTGTTAATTGTTTGTAACTCCTCCCATTTTGTTC
GTCTTCTTTAATAATGTCTTGATTATTTTAGGCTCTCTGAATTTTCAGATACATTTTAGAATCAGTTTGAAAATCTTGGCTTGGCGTGGAGGCTCATGCC
TGTAATCCCAGCACGTTGGGAGGGTGAGGCGGGAAGATTGCTTGAACCCAGGAGATTGAGACCAGCCTGGGCAACATAGTGACACCCCATCTCTACAAAA
AATATAACAATTAGCCAGGTGTGGTGGCACATGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATTACATGAGCCTGAAGGTCGAGGTTGCA
AYGAGCTGTGATTGGGCCACTGCACTCCAGCCTGGGTGACAGGGCAAGACCCTGTCTCAAAAAAGAAAAAAGAAAAAAAGAAAATCTCCACAATAACAGC
CTATTAAGATTGGCACTGGGGTTGCATTGGCCCTGTAAATTGATTGGGGGAGAACTGACCTCTTTATGTTATTCAGTAGCCAATCCATGAATATCCAGTC
CATAAACATCCTACATCTTTTTGTGTAGAAATGTAAGTGATGTTTGTAAATTGATTTTATACCTAGCGTCCTTGCTAAATTCACTTATTAATTCTAATAA
TGACAGTTTTGTTTCTTTCTATCCAGGCCTCATATCTCTCACATATATATATATATATATATATATATATATTTTTTTTTTTTTTTGCCTTATTATACTA
GCTATGACCTCTGGTACAATGTCTTAAGTAGCTTTATTCATGGTCGCAAAGGGAACACTTTCAACATTTCACTGGTAAGATTGATATTTGGAAGCCGAGG
ATAGCCTGTAGTCTCAGCTACTTGCAGCCACTTGGGAGGGTGAGACGGGAGAATTGCTTGAGCCCAGGAAGCAAAGGTTGCAGTGAGCCAAGATTGCCCT
ACTGTGCTCCAGCCTGGGGGACAGAGCGAGACAAAACAAAAAATTTATTGGCTGACATTTTTCTTACTTCCTGAGGTATATGCTTAGGTAATTGATTTTC
AGCCTTTCTTGTTTTGGGATATATGTGTTTATAAGTCTATACATTTCTCTCTAAGCACAGGAAGTTCTGATATGTCATACTTTCATTATCATTCATCTCA
AAATATTTTCTGATTTCCACCATAACTTGTTCTTTAACCATCCTGGTTCAATTAAGAAGCATTCTTAGGCCATGCGTAGTGGCTCATGCCTATAATCCCA
GCACTTTGGGAGGCCAAGAATCACTTGAAGCCAGGAGTTTGAGACCAATCTGGTCAACATGGCGAAACCCTGTCTCCACCAAAAATACAAAAATTAGCTG
GATGTGGTGGTGCAGCCTGTAATCCTAGCTACTCAGGAGGCTGAGGAATGAGGACTGTTTGAACCTGGAAGGCGGAGGTTGCAGTGAGCCGGGATTGCAC
CACTGCACTCCAGCCTGGGCCACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAGAAGAAGAAGCATTCTTAGTTTCCAGATACATGAGAGTATTC
CAATTTCCTTTTTGTTATTAGTTTCTAGCTTAATTGAAGTGTAGTCAAATTTACTCCTTATGATTTCAATGTTTTAGAGGTTGTTAAGACTTATTTTATT
GCGTAGCATGTAGTAAATTTTAATAAATGTTCTTTGTATTCAATTACATGATTCCATCTTGTTTATTGGGTGCAGTGTTCTACAGTTGTCAATAAGGTCA
AGTTTGCTAATCATATGCAAATTTTCTATATCCTTCTAACTTTTGACAGCTTGTTCTATCACTTAAGGAGAGAAGTGTTTTAAAGTAAGCCTGTGTGAAT
ATGTCTTTTCTCCTTTTTGTTTCTATTTTTGCTTTATGTACTTTGAGGCTAAATATTGAGTATAAATAAAGTTAGATGTAYTTTATCTTTCTAGAATCAA
ATTTTTTTCATTATGGAATGTTCCTCTTTATTTAGTAATGCTTTTTTGCTTTGAAGACAATTTTGTCAGTTTTAACTTTCAAACTTTCTGTATTCTTATA
TCTTACAGTTGTTTCTTGTAAACATACAGTAGGGCTTTGTTGTTTTTTATATAGCCTGACAATCTTTGTCATTTAATTGGAGCATTTAGTCCATTTACAT
TTAATATAATGTAAATGGTCATTGATTTTTCATCACTTTTTGTTAGTTATTATTTTTATTTAATTCTAACATTAATTATTTGCTTGCAACTTGTTCCTCT
GTTTTATGTTCTTTCCCCCCCATTCCTTCTTCTCTTCCTTTGAAATGGCTTTTAAAACTGTTAATAGAACTATAATGTATGTACAGAAAAAGGCCTAAAT
CTTAAGTGCATACCTTGATGAACTTCATCAAGTTAGCTTCATAAGCTGAGCAGACATAAAAGACCACATAAACTGAGCACATGTGTATAACTGAGGCAGG
AGAATAGGGAATTAAGGTAGCCAAGGATTGGGTAATAAGCAAAGCAGTTAGGTTGGAGCATAAGCAAAGGAGTAGCAGGTGCAGCCAGTTCACAGAAGCA
AGAAAACAGCAGGTGCAGCCAGTTCTAGGCAAGATTGGGCAGCATACAGGCCACCTCTTTACTCCTGTGATAAGACAGAAGTTTCCACTTCGGCCTCTGA
TTGACTGGTCCAAGCCTCCACTTTAGCCTCTGAATAGTCACAGGGCAATCCTTTATAGGTTGTAACCAATTGRAGGCCTCTAAAAGCACCTAGGGGTGTT
GCCAAAGTCCTTTGGCTTCATAAAAACCCCGGGGAGCATTGCGGTGAAGAAGCGCTTGAGCTGCTTGTTTGAGCTTTCTCCCGCTCTGTGAGTTGTACTT
TCGCTTCTTCGATAAATCTGTGCCTTTATTACTCTGTTCTTTTGTTGTTTTGTTTGTGCATTTGTTGCTTCTTTTGTTGCTTTGTGTGTTTTGTTTACTC
TTTGCACAACACACCAAGAACCTGGACAACTCACAGTCAAGACCTTCTATCCAGTAACATACTTTGGTGGGCCAGCCAGAAGGTAAGCCCAAATTTTGGG
ATTTGTTTTTCCTTTTCTTTGTCAAAGCTGTCATTTGTGGGCATGAGTTGAACAGATAAAAGCCAGTAGGGTGCCCGTCGCTTGAAGTCTTCTGTGACAG
GATAACTTGGTCATAGAACAGGACACTTAGGTCCTGCTGAGATCAAGACAAATTCGTGCAACAGACAGGTTTTTGTTTGTACGGCAAAATGTCTTTGAGG
AGGTTAGACCCCTCAGGCCAGGCACGGTGGTTCATGCCTATAATCCCAGTACTTTGATAGGTCGAGGCGGGTGGATCACTTGAGGTCAGGAGTTCGAGAC
CAGCCTAGCTAACATGGTGAAACCTCATCTCTACTAAAAATTCAAAACTTAACCAGGTGTGGTGGCACATGTCTGTAGTCCCAGCTGCTTGGGAAGCTGA
GGCAGAATAGCTTGAACCYGGGGGCAAAGGCTGCAGTGAGCTGAGATGGTGCCACTGCACTCCAAGCTGGGCGACAGAAAGAGACTCTGTCTCAAAAAAA
AAAAAAAAAAAAAAAGGAGGTTAGACCCCTCATTTTCTGATTCCTATACTGGTCTTGTTGATGATTTGTCGGGAAGTAGTAGTGCAGAATTACTTTTCCA
CTTATTTATATTCCTCTTTAAGAGTGGGGAAAGAGACTGCTGTTTCATGAATTCTTTATATTTCTCTTAGAGTGGGGCAAAGGATTCCTGTTTTATGCAG
AATTCTGYTTTCATGAGAACCCGGAATTTTTAATGGTTTGTAGGGATAAATCCGAGACTTTATTGTTAATGGTTTTAAGGTACATTGCAAGGTCTCTTGT
TTCATGAGGGTTACAGGCTGAAGAAGGATCACATGAGTCCAGGAATTCAAGACCAGACTGGGCAACATGGTGAAACCCCATCTCTATTTTTTTTAAAAAA
AGTAAATAATGTAATAAAATAATCATAGGCCAGGTGCGCTGGCTCACTCCTGTAATCCTAGCACTTTGGGAGGCTGAGGTGGGCAGATTACTTAAGGCCA
GAAGTTTGAGACCAGCCTGGCTAAYGTGGTGAAACCCCGTCTCTACTAAAAATGCAAAAATTAGGCAGGTGTGGTGGTGCATGCCTCTAGTCCCAGCTAC
TCAGGAGACTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCATTCTGGGCAACAGAGCAAGA
CTCTGTCTCAAAAAACAACAAAATAAAATAATTAGAAACATGTTTGTGTCTGTCTCATTTTGCTCAAAATTATTTGTAAAATTAATCCATGTTTGTATTA
GTCTGTAAATCTGCCATAGCAAAGTATTAGACTTGGGTGGCTTAAACAATAAAAATTAGTTGTTCTGTAGGCAAGAAGTCCAAAATCAAGGTCTATCAGG
GTGGTTTCTGGTTAGGCTTCTCTTCCTGGCTTGCAGACAGCTGCCTTCTTGCTGTGTCCTCAAGTGACCTTTCCTTTGTGTGTGTGCAGAAAGAGATTTC
TGGTCTCCTCCTCCTGTAAGGACACCCGTCCTATTGGATTAGGGCCCCATCCTTATGACTTCATTTAAACTTAATTACCTTATTCAGGGTCCTATCCCCA
AATACAGTCACACTGGAGGTTAAGGCTTAAACACATACATTTTGGTGGTTGGGTAGTGGTGACATAATTCAGTCCAGTACAATATTATTGCATGTTTGTT
ACTTTTCATAGCTGTGTAGAAATTCTTCGTGTGCATATACTATACTATGTATATGTATACATGGTATGCATATACTATGTATATGTATGCATGGTATGCA
TATACTATGTATATGTATGCATGGTATGCATATACTATGTATATGTACGCATGGTATGCATATACTATGTTTTATTTGTGCTACTATCAATGGGTATTTG
ATCGGTTTCCAGTTTGAGGTTATTATGAATAGTCTTCTGTGAACATTATATGTGTTTTGGGTGAATATTACAGATTTCTGTTTGGTATATACCTAAGAAT
TGCTAGGTTCATGGAATATTCTTGTTTTCAGCATTACTAGACACTAACAATTTTCCCATAAATCAATTTAGACTCCCACCAGCAGTTACGCAGAGTTCTT
TTTCCTCTACATCTTTGTAAATATTTGTTATTATCTGACTTTATTTCTTCATTTTAATCAATTCTGGAGGTTGTGTGGAATATCTCATGATTTTAATTTA
TATTTCCTTCATAACTAATGAAGTTAATTACCTTTTCTGTGTTTATTGGCCATTTGGATATGATTTGTTGATTTATATTTAAATATAAATTATATTTTAT
GAGACAGGGTCTTGCTGTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCACAGCTCATTGCAGCCTTAACCTCCCAGGCACAAACAATTTTCCCACTTCA
GCTTCCTGAGTAACTGGGACTACAGGCATGCACCACCATGCCTGGCTGATTTTTTTTCTTTTCTGTAAAGATGGGGATTCACTATATTGCCCAGGCTGAT
CTTGAACTCCTGGCCTCATGCAATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGGCTTCAGTCACCAYGYCYGGCCTATTTAATAATTTATAT
GATTATTGTGAAGTGCTTGTTCAAATCTTTTGTCCAGTATTCCATTGTTTCGTCATTCTGTTATTGATTTGTGGGAGTTTTAAATGTATTCTTGCCACAT
GAATACAGACTTGTAACTGTAATAGATTTGTTGCCTGATGCATACAGCAAGTCAATATGCCAAGACACTGGCTTGCAGCAGAGAAAGAGGTTTAATCATA
AGGTCACCAAAGGGCTTGGCGCAGTGGCAGCAGCCTGTAATCCCAGCACTTTGCAAGGCCAAGGCAGGCTGATCACTTGAGGCCAGGAGTTTGATACCAG
CCTGGTCTACATAGCGAAACCACCTTTCTACTAAAAATACAAAAATTACCCTGGTGCCATGGTACGTGCCTATCATCCCAGCTACTTGAGAGGCTGAGGC
AGGAGAATTGCTTGAACTCAAGAGGCAGAGGTGGCACTGAAATCACACCACTGCGTGCAACTCCATCTCAAAAAAAAAAAAAGTTACCAAACGAGTTAAC
TTTGGGAGGAAACCTCAAATCCATCTCCCTGAAGGAGTTTGGGGGTAAAGTTTTTAAGGGTTTTGGAGTGGGCCAAAGTGTAGAGATTGTTGATTGGTCA
AAGAGGCAGAGTGAAGACATACTGATCCCATTCCTCTGTGGGAGTCTTCTAACTGGTTGATATCAGCTGTTTTACTAGAACTTCAGGCAATCCTTAAACA
AAAGCCTTATGATTCTAATGTCAGAGATCCTGTCATAGGAACAGTRGAGATGCAAATAAATTATTAAACAGTTTTATGACCCTACTGTCAGAAATCCTGT
CTATAGGAAGAACGGGGATATAAATGGTCAGGAGCTAGTGCTACGTGACTTTTAGCAACAAGGAAGTGAACCAAAGGTCAGCCTGATTAATGCTTAATTA
GAACTATATTTCTATCCAGAACCCAGCATTCAATTCTTGTCAACCCTGTGGGGCAGTTTCAGCCTCTGTTGTTGCAAATACCTTCTTATACTCGGTGGTT
TTGTTATCGGAAAGGGGTCCTGATCCAGACCCCAAGAGAGGGTTCTTGGATCTTCTCCAAGAAAGAATTCAGGACGAGTCCATAGAGTAAAGTGAAAGCA
AGTTAGAGAAGTAAGGAAACAAAAGAATGGGTACTCCATAGTCAGAGCAGCAGCATGGGCTGCTTGACTAAGTTATACTTACGGTTATTTCTTGATTTAT
TTACTTATTTATTGTTTTTTTTTGAGACGTAGTCTTGCTCTTGTCCCCCAGGTTGGAGTGTGATGGCATGATCTCGGCTCACTGCAACCTCCACCTCCTG
GGTTCAAGTGATTCTCCTGCCTCGGCCCCCCAAGTAGCTGGGATTACAGGTGCCTGCCACCATGCCCGGCTAATTTTTGTATATTTAGTAGAGATGGGGT
TTCACCATGTTGGCCAGGCTGGTCTAGAACTCCTAACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCAC
CCGGCCTATTTCTTAATTCTTGTTTAGACAAGGGGTGGATTATTCATAAGTTTTCCAGAAAAAGGGCAGGGATTTCCTGGAACTGAGGGTTTCTCCTCTT
TTAGATCGTATAGGGTAACTTCTGGACATTGCCATGGCATTTATAAACTGTCATGACGCTGGTGGGAGTGTCTTTTGGCATACTAATGTATTATCGTATA
ATGAGYAGTGAGGACAACCAGAGGTCACTTTTGCTACCATCTTGGTTTTGGTGGGTTTGGGCTGGCTTCTTTACCGCATTGTTTCATCAGCAGGTTCTTT
ATGACTTGTATCTTGTGATACCAGTCCTGACCTCCTACTCATCCTGTGACTAAGAATGCCTAACCTAGGAATGCAGCCCAATAGGCCTCATCCTCATTTT
TATCTAGGCACTATTCAAGATGGAGTTGCTCTGGTTCCAGTGCTTCTAACAGTTTGGCATTTTACTGTCTTTCAATAAGCAGACATTRTAAATCTTAATA
GAGTCCAATTTATTATTTTCCYTTAYATAGTTGGCCCATTTTTGGGGTCTTGTTTAAGAAACTTTTGCATACTACAAAGTTGTGAAGATATTTTCTTATG
TTTCCTTCAAAAAGCTCTATTGTTTTTTCATTCATATTTAGATCTACTGTCTGGTGGATTTATTTCTTATGTGTGGTGGGAGATAGGGACCAGAATTCTT
TTTTTCATATGGACATTCATATAATCCAACACCATATATTTGTTTTTAAGAAACCCACAAAACCTTAGACAAATTTAATTTAACAGATTTTATTTATTTA
TTTTTTTGATAGAGTCTTGCTCTGYTGTCCAGGCTRCAGTGCAGTGGTGCAGTCTCAGCTCACTGCAGCCTTGACCTCCCCAGACTCAGGTGATCCTCCC
ACCTCAGCCTCCAGAGTAACTGGAACTGCATGTGCTCTCCTCTACCACTAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTCACCCAAG
CTGCTCTCAAACTCCTGGGTTCAAGCGATCCACACACCTCAGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCACACCTGGCTAATTTAACAGAC
TTTAATTGAGCAAAGAATGAGAACCTGGCAGCCTCTTAACAAGAATAACTCCAGAAAGGTTCCAGTGYGGCCTTGAGGTGGAAGATTTATGGACAGAGAA
AGGAAAGTGACATATAGAAAACCGAAGTAGGGTACAGAAACAGCTGGATTGGTTACAGCTCAGTAAGTTTGCCTTAKTAGAGCATGGTTTGAACAGTTAG
CCACCTTTGATTGGCCGAAACTTGGTTATTGGCACTGGAGTAGGTTACAGTTTATTTATTTATTTACACATCCAGTTAGGTTGCAGTTCACTATGTATGG
AGAAGGCTTTAGGCAGAACTTAAAATATGAAAGGAGGCAGCTTTAGGTGAAACTTAATTGAACATATTAAAAGATCTTCTTTTTTCCACATRGTATTAAA
ACATACCTATTTAGTCTTTGTCCCTAATTCCTGATACAGAGCTACTAAAACCCAAGGAATTTCCTGAGTGATAGGAATATCTTGTTATTCAGAACAAGCC
CTTTCTATCACACCTAAGTTTACGCTACTAAGGTGACAGGGTGGAGCCTATAGATAGCATCAGAATGGGGCTGGTCACTAGAAAACCCAGTGATTAGAGT
GTTGGAACTTTCAACCCCACCCATCAACCTCCAGGAATGAGGGGAGGTGGAGATTAAGCTATATAAAAACTTTGAGCAATGAGATTTGATAAGCTTCCAG
GTTGGTGAATGAATCCACTTGCTGGAGAGTGGTGCACCCCAACTCTGAAACCACCATTGCAAAATTATAACTGAGACAGCAAAAGAGATCTGASCTAACC
AACTCTATCTTGCTTGTAACCTCCAAGCCATCCTTGTTTATTCCTGGGTATAGGTTGAACTAACTTTGGGAATAACTTAGTTTATAGTTTAAAACAAAGA
CAATAACAGCCCTTTCCCAAAACAAACCCTCTTCTTGCCTTGGGGATAGACTGCCTTTGTATGACTAACAAATTAGCTAAAAGATTAAAAATTACAGTTT
AGGAGTCATGCAGCAGGAGGCTACAAGATTCTGACCTTCTCCTGGGGATAACATCTTTATTGTAAGACTAAGATCAGTGCTTGAGATATTTTGCAGACCT
TGCACTTGATGGATCAGCTGGCACCACCCAGATCGATAAACTGGCTCATCCAATGTTGTGGCGGTCACACAGGAASTGACTCAGCGAAAGYGGACAGCGT
CTAATTTCTATAATTTCATCTCTGACCTGACCAATCAGCACTCCYGACTTACTGCCCCCACCACCCGACCCACCAAATGAACCTTAAAAWCTCTGATCCC
CCAGTGCTCGAGGAGACCGATTTGAGTAATAATAGGATTTGAGTAACAACAGCCGGCTGTGCATGAATTACTTTCTCTATTGCAAATCTCCTCTGTCTCT
GCAGCAGGCAAGGTGAGCCAGCTGGGTGGTTACAAATCAAGGGTAAGCGCCTGAGGTCAGGACCCTTCCAGGCCTTGCCTGTGTGCTTCTTCATCTGTGA
TAATAAACCGGCAAACATAAGTAAAGTGTTTCCCTGAGTTCTGTGAGAAATACTAGCAAATTATCAAACCCAAGGAGGGGGCTCATGGAAACCCAAATTT
ATAGCCAGTCTGTCTGAAGCATGGGTCACAGCCTGGAATTTGTTCTTGGCATCTGAATTGGGGGCAGTCTTGTGGGAGTGAACCTTTCACCTGTGGGATS
TGACGCTATCTCTAGGTAGATTATGTCAGAATTGAATTGAAATACAGGACACGAAGATGGTGTCTGCTGGAAAATTCCTTGGTGTGTGTGGGGAAAACCC
TCACACATCTGGTACGAAAGTGTTCTGTGTTGTGAGAGTACAGCAAGAGAAAAAGTGTTTTTTTCACCCCAATGTATTGCAGTGTTAATTTTGTTATAAA
TTAGATGACTAAATATGGGTCTAACTTTATTGGTTTGTCTGTTAGGGTTGATATGTTTTGTTATTCTATTTCTACCCTATGACTTTTTTTTTTTTTGAGA
TAGTGTCTTGCTCTGTCACCCAGCCTGGAGTGCAGTGGTGCCATTACAGTTCACCGCAGCCTCAGCCTCCCACACTCAAGCAATTCTCCCACCTCAGCCT
CCTAAGTAGCTGGGACTACAGGCATGCACCAATGCACCCAGTTAGTTTTTTTGTTTTTTTTTGTAGAGACATTTCAAGAGCCATGTTTCCCAGGCTGGTC
TTGAACTCCTGGGCTCAAGTGATCTACCTACCTTGGCCTCCCAAGGTGTTGGGATTGCAGATGTGAGCCACAGCATCAGGCCTGAATCTGTGACTTATTA
AAGTCTAACATTATTTGGTAGTTTTACCTCCTTCCTAGGTGTAAGAGAGGAAAGAAACACAAACTGCAGCTCATCAGTAAAGACAGGTTTACTTTAGATA
AAATATGAGAGGGGCTTCTAGCTGATTTTTTTTTTTTTTTAGTCAGGAGTGCTTTCTCTTACAGACTAAGAGTAGACATTGGTTTTAGGGTGAGGGGGCT
TATCACAAGCTTGGAATGTTTCTATGTGAAGGAGAAGGGTTTTTTGTTTTGTTTTGTTTGAGACGGAGTCTAGCTCTGTCACTTTGGGCTGCAGTGCAGT
GGAGTAATCTTGGCTCACTGCAACCTCCACCTCCAAGGCCCAAGCGACTCTCCTGCCTCAGCCTCTCATGTAGCTGGGATCACAGGCACCCTCCACCATG
CCCAGCCAATTTCTGCATTTCTACCAGAGATGGGGTTTCACCATGTCAGCCAGGGTGGTCTCAAACTCCTGACCTCGTGATCCACCCACCTAGGCCTCTC
AAAGTGCCAGGATTACAAGCATGTGTCATCGCGCCCAGTGAAGGAGAAGTTTTATGGCAGGGTTGGAATGTCTCTGGGAAGAGGGGAGTTCATCTTGGGG
CAGACATCTTTCTGGTCAGAGGGGGTTATCTCGAGGCTGGCATCTTCCTGGCTGGAAGGGGGTTATCTCAGGGCTAGCATGTCTCTGGTTGGGGAGGAGT
TTGGAACGTTTCTGGTTGGAGATGTTATTTGTGGTTTATGGTCATGTTGACCTTAGCCATTAGGCTGATGCCCTTTGGATTTAGGTGGTTTTTTATTAAG
GTGAACTTTAGAATGAGGGGCTTGTCCAAGATGGCAATGCTCCTGCTCTGTCACCAGGAATGCAAGGAACTTGCATTCAACTAACTTCATTTATTAGCCT
CCTCAACTTAGATGCAATTTTTAAAAATGTATTTTAGTTTTGTATATACTTTAAACCTCATGAGATATTGTTGTGGTGGTGGTTGTTTTAGCRGTTAAGA
GTCAATTTGACTATTTGATTCATCCCTATATTTGCTTATATTGTTGCTCTTTAATCTTTCCTGTATCTCTGTGCTTTCATCTGGTATCTTTCCCCATTTG
CCTGAAGAATACAAAATTTCCTTTGAATCAAATCTGCTATTAATTGATTCTYTTAAATTTATTCTTCTCTCTTTCTTTTTCTTTCTTTCTCTCTCCCTCT
TTCTCTCTCCCCCCTTCTTTCTCCCTCTTTCTCTCTCCCTCTTYTCTCTCTCCCTCTTTCTCTCTCTCCCTCTTTCTCTCTCTCCCTCTTTCTCTCTCTC
CCTCTTTCTCTCTCTCCCTCTTTCTCTCTCTCCCTCTTTCTCTCTCTCCCTCTTTCTCTCTCTCCCTCTTTCTCTCTCTCCCTCTTTCTCTCTCTCCCTC
TTTAAATAGAGACAGGGATCTTACTATGTTGCCCAGGATGGTCTTGAATTCCTGGTCCCAAGAAATCCTCCTGCCTCAGCCTCCCAAAGTGTTGGGGTTG
CAGGTGTGAGCCATCACAGCTGGCCAATTCTCTTAATTTTCATTTGTCTTTTTTTTTTTAAGAGATGGGGTCTCACTATGTTGCCCAGACTCAATTTTGA
AAATGTTTTTATTTTAAAAAAAGCTTTTTATTTCATCTTCCATCTTGAAGTGTATCTCTGCTGGGTGTAGGATTTCAGTGTTCTAATATTGTATTTTGAG
CTCCATTGTTTTGTTCAGACTTTACATGTCATTCTAATTATTGCTCCTTTGAAGGAAATCTGCTTTCCTAAGATATTCATTGTGTTTGAGTTTATGATTT
GTCTGGAAGTGGTTTTCTTTTYTTTTTTTTTCATTCTGTTGGGCATTTGTAAGAATTATTGCATATGTGGCTTGATGTCTTTAATCAGTTTTGGAAAATT
CTCAGGCATTATCTCTTCAAATATTGTTTCTGCACCAATTCTCTCTCCTCTCTGTGTGGGACTCCATTTACATATATGCCAGGCCTTCGCATTGTATTGC
CTGCCTTCTATATTTTACTTATTTTTGACTCTCCATGCTTTATTCTGATTTTTTTTCAGATCTGTTTTTTAATGCATTTCTTCTCTCCTCAGCTTTGTCT
AATCTGCTGTTAATTCCACACACTGAGTTCTTATTTGTTGGTTGTGGTGTTTTTTTATATCTAGAATTTCCATTTGGTTAATTTTTATGGTTTCCAGTTA
TTTGYTGAAGTTCTGGGGGAATACAAATACTTGCTCAGTGTATTCATGAGCAGGTAGACTCTTTTGCTCTGGGACTGGCTTTGGAACCACTTAAGGAGCT
GCCRGAACCTATTGTAACATGGACGGTGCCCTATGAATGCTCTCTATTGATCAACAAAGAACTTCTTAGTTTATGGATGGCAGTTCGAAAGTGAACGGAC
AGCATTCTGCTCAAAAGGCTGCCACTCTGATTTAAAAAGTAAAAAGAAATTAACTCATCAAACTGAATTGCATACTGTTTGCCCCAGTGTTTTACTGACT
CATGAGCAGTGGTCAATGTCCTGGCCTTATGGTCAGGCAGAAGAGCAATGGAAAAGTGGCCTCTTAAAGAGATGCCCATATGGGGCCCACCTYTATGGAA
ACCACTAGGGGGAACTTGAGGGATGCATTAAAGTAGAACATGTTGATGCCCATCTTAGTGTTTGGGTCATAATTTATAAAGGTGACTGAGTAACAGCACC
TAGAGGCTAGTTTCACTGAAAGAAGATTTTTATTCACATTTCCTGAGAGGAGGGTCATGTTACACCATTCTGGACCACATAGGGAAGCACCAGTATTGAT
CAGGAGGCAGAAAGGAGTGAGGGGAAGGCATAGACCACAGGCAATATTGGGGTTTCCATGAGAAAGGCAAGACAGGGTAAAGTAAACAGCTTAGGATTGG
CTAGTTTGAATAATTCCAGTGGGTTTTGGGGTATTTGGGATTTTCCTAGTTGTTTGGTACCTAGTTCAGTGTTGGTTTAGGATTGGGAAATATTGGCTTG
GGGTGTGAGCATCAGATGAGGAGGATGATCAGCGTATGAATTCGTAAACAACTTGGCCATTAGTTTGGTCCTATAATTAATGAGTGCTAAATAGACAAAT
GTGGGATCTAAAAACACTCAGTGAGATGCGAAATATCAAAAGAAGTCCCTTCAGGATAAGAAGGTCATTGGTGTCAGTGAGTGGATATCTTGATATGTTC
ACTTGAGGTGATCACCTGGGTCATGAAACAAGTRGACATTGTGGGGTGGGGGCTGTAGCAATGCAAAGATGGGCTAAATTTAGGCATATTCCTTTTGCAC
CCTCTGAGGTGCAAAATGCCAGTAAGTACAGTTCTGTCTGCCAACAAGAGAGACAGACTCAGATGGCTATGGGACAGATTCCCTGGGGGGAAGGCCCAGC
ACATAGCTGGCAAGTGGGAGTGATGCTGGTAGCACTAGAGGCTATAAATGGGTCCTTAAAGWAATAGATGTACACGCTGGACTGGGTTTTGCATACCCAG
TGGTAGATGCAAATGCTCAGATACTATAAAAGAACTGGAACAGAAGATACTACACCAATTTGGGTGGTTGAGTCACATTTATTCAGACCAAGGGACACAG
TTTCAGCATGTAATGTCCAATAACGGACACAGAGATGTCCTCCTTAGAATAATAGTTTAATAGAGAATTGGAATGGGCATTTAAAACATTGGTTGGCCAA
AATGGAGGGAGATATAGGCATGAAGGGCTGATTTACATGCCTTCATGAGTGTATGCTCACACCTAACATCAGAGTGCCAAGCCAGTGCCCCACTAGCTAG
AATCCTCTGCTATTTTTGTGGATCTGAAGATGAGGGGGTGGGAGATATGCTGGTATAACTATGCAGTTCTTCCCACGAAAGGAATGTGCTGGTATGACTA
TACTTTTTTCTTTCTTCCCTATAGGATCTTAACTGCTTTTTTTATTTTTAATTTTTTAAAATAAAAATAGAGACAAGGTCTCACTATGTTGCCCAGGCTG
GTCTTGAACTTCTGAGCTCAAGTGATCCGCCCACCTCAGTCTCCCAAACTGTTGGGATTATAGGCATGAGCCACCGTGCCCAGCCTCATCTCAACTTCTT
TTTCCTACCTAATGCAGTGGTCCCAGGCACAGGGCTGTAACAAGTGCTGGAAGCAAAGATAATTCCTAAGCAAGAAACCATAACCATAMTTTTAAACCTT
TATGTCAGAATTCCTAAGGGCCTCAGGGAGCAGGTTGTATCTTGATCCCAGGTAGCAAARCTGGGGTTAATAGTGGATGTAGCTACGTTGCTTAATGGTA
GAAATAGCTGAGTTCTGTACCTTTTATAACCCTATCCTAGATGAGATGAGATGAATGACAGTGAACTGAGGAAGGCACTTGCTAGACTAGTATTGCTGCC
TGCAATCTAAACCAGCACTGTAGCTAAAGCTAACCTCCCTTCCAAAGATGGAAAAGTTAGGGCATAAATAGAAGTAGGAATAGTAGCTGTGAGTAAAGGA
ATGGATAAATGTGTTATGCAATGAGGGAAGATTCAATATTTCATTAATACTTTGAAAGAAGCTCCAAGTAAGAGATGACGTTGTCTCTTAGCTCACTTAT
ACAAGATGCCTGAAAGGGTGAAATCATATATTGCTGAGACCACCCCTCTTTATGGAACCATGCAAGATAAAATAGAAGCTTGCAAACCTGAGCAAACTTA
CCCTGGGAGACATTTGGTCATACAATATGATGACTGGACTAATCAGTAACTGAATGGGACTCTAGCAAAGTTCCAAATATCATTTTTTATTTTTCAGGTT
GCATCTACCACAGTGTGATAATGATATAACACTGGTATTGTTCACAGGATTATAATACTGATGTTGATGGTCAAATGTATAAGGAAATTGAATTAAAAGC
CTCCTATCCCTATCCTACACTGGTGCCTCCAAATGTTAGGCATATTCATGTTGGTACTGTGGCTGTGTAAGAGGCATTCAAACCAGAGTGACTCCATGTT
GAATAGGGACTGGGTAAAATAAGGCTGAGACCGACTGGGCTGCATTCCCAGGAGGTTAGGCATTCTAAGTCACAGGATAAGATAGGAGGTTGGTACAAGG
GACRGGTCACAAAGACCTTGCTGATAAAACAGGCTGTGGAAAAGAAGCCGGCTAAAACCCACCACAGACAAGGTGGCAATAAAAATGACCTCTGGTCGTT
GTCACTGCTCATTTATGTGAATTATAATGCATTTGCATGCTAAAAGACACTCCCACGAGCACCATGACAGTTTACAAATGCCATGGTGACGTCAGGAACA
TACCTTATGTGGTTTAAAAAGGGGAGGAACCTTCRGTTCCGGAAATTGCCCACCCCTTTCCCAGTAAACTCATGAATAATCCACCCCTTTTTTAGCATAT
AATCAAGAAATCACCATAAAAATAGCCAATCAGCAGCCCTCAGGGCTACTATGCCTATAGAGTAGCCATTCTTTATTCTTCTACTTTAATAAACTTGCTT
TCAATTTTCTCTGTGGACTGGCCTGAATTGTCTCTTGCACAAGATCCAAGAACCCTCTCTTGGGGTCTGGATCAGGACCCTTTTCTGGTAACAGTGGTAT
ATGTTATATTAATGCTACACCAAATRTAGGTGCTCAGATAGGTTTGATGGTTTTGCTATAAGATAGCCATAACCAATGACCAGAGGGTAGCCTGTTGTAT
GATAAAGAATTTGTCTTTGTCCCAGGTTTCTGGCTTCTAAAACCCTGGGCATTTCCCAAGTGATCAGAGTGTCTTTGTTATTCATGGACCCCTTGGAGCA
CACCTGAGTTTATGCTAATGAGGTGACACGTGGTGGGCCTCTAGTTAGCTTCAGGACAGGGCCTGTCATGGTTTAAGCCATGTCATATGAGCCTGACCTC
CCAACCTCCAGGAATGGAATAGAGCCTGGAGATTGAATTCGATCATGTGGCTAATGATTCAATCAATCATACCTATGTAATGAAACCCCAATAAAAACTC
TGCTCACTGAGCTCTGAGGAACTTCCTGGTCAGTGAACACGTTGATGTGCCAGGAGGATGACACACTCTGACTCTGTGGGGAGAGGGCACAGAAGCTCTG
TTTGGGACCCTCCCAGACCTCACTCTGTAAGTCTCTTCGTTTGGCTGATCGTGACTTGTATTCTTTATCATAAAATTGCAGCTATGACTATAGGGCTTTC
CTGAGTTCKGAGTTGTTCTAGTGAATTGTCCAACATGARGGGGTCATAGGAACCCCCAACTTTGTAGCCAGTTAATCAGAAGTGCAGGTGGCCCTTGAAG
TGTGGCTGGCATCTGAGGTAAGGAAGGTCTTGTTGGGGAGCAACTGTGCCTTTAACCTGTAGAGTTTAAGGCTAATTCCATATTGTTAGCATCAGCATTG
TACAGGTGCTTCTCAACTTACAATGGGGTTGTGTCCCAATAAACCCATTGTAAATTGAAAATATTATAAGTCAAAAATGCATTTTAAAAAATTAGCTGGG
CATGGTGGTACATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTAGGAGAATTACTTGAGCTCAGGAGTTTAGGACTGCAGTGAGCCCTGATGGAGCC
ACTGGACTCTAGCCTGGGTGACAGAATGAGACCACCYCTTAAAAAAAAAAAAAAAGAGAATACATTTGACACACCTAACCTACCAAACATCATAGCTTAG
TCTAGCCTACCTTAAACATGCTTGGAGCACTTACATTAGCCTACAGTTGGGCAAAATCATCCAACACAAAGCCTATTTTATAATGAGGTGTTGAATATCT
CATGATATAATTTATTGAATCCTGTACTCAAAGTGAAAAATAAAATGGTTGTATGTACTCAAAGTGGGATTTCTACTGAATGTGTATTATCTTTGCACCA
TTGTGAAGTTGAAAAATTGTTAAGTTGAACCATAGAAGGTCAGGGACCATCTGTATTTTGGAACAATAACTGGTGTCAGAAAAGACTCCAATTATTTATC
CTTAGCCCCAAAAGGCTGTCAAATACTCTGCTTAGCTTCTCAGTCTTTCTAATGCCTCTTCTAGACTCATCTGATGCCCGCTGGGGAAAGGTAACACTAA
ATACTGAGATTCATTCCCTAGGTTTTCTTCTGAATTTTGGTCCTATAATTTTTCAYTGGCTTGTTAGCTCTTGAGTCCTTCAATCAGATGTTCTTCATAT
TCTGCCCAGATTTTCAAATTGTCCTTAGTAGAAAGTTTGGTCTGAGTTATCCAGTCTACTATTAATAGAAACACAAATCCCTCTTCTCAGTGACTTATTT
TTCATTGTGGTTATATATACATAAAACATAAATTTTGTCATTTAAATCATTTTAAAGGCCAACATGGTGGCTCACACCTGTAATCTCAGCACTTTGGGAG
GCCTAGGCAGGTAGAATGTTTGAGCCCAGAAATTCAAGGCCAGCCTAGGCAACATGATACCCTGTATCTACAAAAAATATAAAAATTAGCCAGGTATGGA
GGTGTGCACCTGTAGTCCCAGCTACTCCCAACTACCTGGGAGGCTGAGGTGTGCTGTAGTGAGCTGTGATTACACTACTGCACTTCAGCCTGGGTGACAG
AGTGAGCACCTGTCTCAAAAAAAAAATCATTTTAAAGTATACAGTTCGGTGGCATTTAATACATCCTCAGTGCTGTGCAACAACCACCACTCTCTATTTC
CAGAACATTTTCATCACCCCAAAAGGAAACTCCATACTCATTAAGCAGTGACTTCCCATTCCCTCTCTCCTCAGCCCCTGGCAACCACTAATCTGTTTTC
TGTCTTTATGGATTTGCCTATTCTGGGTATTCATATAAATGGAATCATATAGTGTATGGCCTTTTGTGTCTGGCTTCTTTCACTTAGCATGTTTTCAAGG
TCATTGATTTTTTTTTTTTTTRTATGTGCTGTTTTCTTTGTCTAAATATTCTACAGTTACTGTTTTGATTTCTTCTTTGACTCAAAGCATTTAGGAGATT
GTTTTTACATGTTCTATTTTTATTACTTTCAGTTTTGKTGCACTGTAGTCAGAATATGACTGCTTCTGTTTCAATTTTTTGTAAATTTTCTTTGTGGCCT
GTTGTACTATCAAATTTTGAAATATCTCATGGGAACTTGAGAATAAGATATAGTTTCTATATTCAGAATATAGACTTAAATACTCTTTACCTGTCCGGCA
AGCTAGTTAACTAGCTATCATCTATTATCAATCTTATTAAAAATATCATTCAAAATCTCAAYTATGTTTCCTCTATTTGATTCGCCATCGTCTGAGAGGT
GAGTTAAAGCACCTTGTTGCAGTTGATTTCTGTGCTTAGTTGAGTATTGCATCCTGTAAATAAACCCTTATAATTTTTATATTTTTACTTTATGTATTTC
AGTGCTATTAACTTATTGTAATATATATTTGCTTGCATGCAGCCTGTCATTGACAAAACTCTTGCCTACTTTTTGTTTGGATTTGCCTGGAATATGTTTA
CTCCTTCATTAATTTCAACCTTTGTGGGTTCTGTTGTTTTAGGTATATCTCTCATTGATAACATATCAATGCCTCCCATTTTACATTCAAAAGTGAGTTT
ATATCAGTTTTATTCAAGCCTATAACAGACAGGTTTAGTCTACTTCTGTCATATTTTTGTATTCTCAGCTTTGGYTTCTATGTGATCTGTTTTTGTTTGT
TGCTTTCAAATATGGAACGTATTCAAGCTGTTTTTTAGTTCTACTGGTAGATATCTTTGTGATTGTAAATAATATGTTTAGGCCAGGCACAGTGGCTTAT
GCCTATAATTCCAGCACTTTGGGAGACCAAGGCAGGTGGATCACTTGAGTCCAGGAGTTCAAGACCAACCTGGGCAACCTAATAAGAATCCATTTCTACA
AAAATTTAAAAATTATCTGGTTGTGATGGCATGTGCCTGTGGTGCCCAGCTACTCAGAAGGCTAAAGTAAGAGAAYTGCTTGAGCCTGGGAGGTTGAGGC
TGCAGTGAGCTATGATTGCATCACTGCACTCTAGCCTGTGTGACAGAGTTAGACCCTGTCTCCAGAAAACAAACAAATAAATAAAAATAATATRTTCAAT
CAGTATTTCTCAATTTATAATCTTCAAAAAAGAAACAGTACCATTTATTCCCTCTTAAAAAAAAAAAAAAAAMGGAAATTGGCGATTTAAAAAAATCACC
CTTGCAGCAGCCACTGTGGAAAACGGTGTGGTGATTCTTCAAGAAATTAAACATAGACCAGGCACAACAGTGCACGCCCGTAGTCCTAGCTACTCGGGAG
GCTGTGGTGAGAGGATCACTTGAGCTCAGGAGTTCAAGGCTGCAGGGAGGTGTGATCGTAGCCAGGGCATTACACCTGGGTGACAGAGTGAGACCCCATC
TCTAAATAAATAACTAAAATTTTAAAMAGGARATTAAACATAGAATTATCATATGATTCAGCAATTCTACTCAAAAGAAGTGAAAGCAGGGACTTATGTA
TTTGCACACCCATGTTCATAGCAGCATTATTTACAACAGTCGAAAGATGGAAGCAACCCAAGTGCCCATTAACAGATGAGTGGATTAACAAATGCTGTGT
GTGTGTGTATATATATATATATGAAATGAAATACTCAGCCTTAAAAGAGGAGGAAATTCCCATAAATGCTAGAACATGAATGAACCTTGAGGACGTTATG
CTAAGTGAAATAAGACACACACACACACACACACATACACACACACACACACTGTATGATTCCCCTTATTTGAGATATCTAGAATAGTCAAAAATCATAG
AGACAAAAAGTAGAATGGTTGTTGCCAGGGGTTAAGGAAAGAGAATGGGGAGTTAGTGTTTAGTGGGTATAGAGTTTCAGTTTGGGAAGATAAAAGTTCT
GGAGATAAATGGTGGTGATCATTGTGCAGCAGTGTGAATGTACTTAACACCACAGAACTGGTCAATTTGGCCAGGCATGTTGGCTCACACCTGTAACCCC
AGCACTTTGGGAGGCCATAGTAGGAGGATTGCTTGAATCTAGGAGTTTGAGACCAGCCTGAGCAACATAGAAAGACCCAATCTCTACMAAAAATTTAAAA
ATTAGCTGGGCATAGTGGTGCACATCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTCAAGTCTGAGAGGTTGAGGCTGCAGTGAGCCG
TGATTGCATCACTRCATTCCAGTCTAGGTGACAGAGCAAGACCCTATCTCCAAAAAAGAGTAAATCTGATGTTATATATATTTTGCTACCATAAAAACAA
ACAAGCAAACACCAATCTCCTTTTCCTTCCATTCCTTCTTTAATTATAGTTTTAGGAATTTCCCCCATATGTTCTATTATCAACAACAGCAATGATTAAC
AAAGAAACATTTTGTAGAGTGTTTTTTTTTCCCACAATAACTATAACGATTATATTATTTTCCAGTAAATGTGATCATTACGGTTATATAGGCTTTCATG
TTCAAACACATTTAATGCTTACCACCAGCCTGTTTATACCTCAGTTTTCTCCTATGTCAGTTCTAAATTTGGATTCATCATCTGTCTCTAACATGTCCTC
AAGTAGAGTGATATATTTCCTGGTGAAATAATGATGAGAAGCTATGTCTTAYGTAATGTCTTTAGAGGAAGACCTTCAGGTCTCAGTGGTAACAGCTCCT
CCCCTGTGGCTGCAGGCTATGGGATTGTAGCACCATCCTCTTGGTTTCCCTTAACTCTTGCCTATACCTCGTCAATAATCCCTTTACTAAACTCTCTTCC
ATTACCAAGCTTGTGAGTGGCTTGTTTCCAGCTGGGACTATGACTGATACAGCCTCTGCCGCCTCTGCTCTCCAAGCACCCCTTCCTTCCTATCTCCTCT
CCCTCTCTTTCTTTTCCTTTTTCCATCTTCCACTCTTATCCCTCCTTATTCTTTTCCTCCTCCTCCCTTTTGGAGTGAGGTGACATGTGGGCTATGTAGG
TTAGCATATCACGCTCCGCATCTGGCCCCTGGCTGCCCTTGTCCCTGGGTGGTCAAGAACAGAGTATTCCTTCTTTCTGAGCTGCTCAGTGTTCTGGCTG
CTTTTCAGAATGTGCAGCCCATCCCCCAGCCTCTCAGAAGCCCCACCCCAGCCAGCAGCCTGACAGAGCTCACAATTCTGTTTTAAGCTTACTCCCTTAC
AACTAGTTTTATTTCCTAGTCTGACATCTTGGGAGGATGGGTGAGACCAAATCTGTTACATCAGTGTCTAGATGGAGCATTCGCTAGTTCAGGCCAAGAC
ATTATGAGTTTCATTTTTATGGCTCTCCCAATCCTTGTGTGTGCAGATTTTATTGTGTTAGGAGTTAAAAATGTAATAAGCAAGGAGAAAAAAAAAATTA
AGTCACTTCAGCTAAAGACTACAGCCTAACAAAATCCTTAACAGACGCTTGTTAGTCCTGTTGCTGGGAAGTATTTGTCCAGCAGACCTGGAACAGTTTA
AAAAAGGAGTGGGGGTTTGGTTAACATTAAAGAAACACAAAGATTTTTCATCTGGCTCTGGGGGAGACCAGAGCCACAGAGGGAACAAGAAAAGAAAGAG
GGGATTGAACATTTTTGCAAACAAATGATAAAACTGCCTTTTAAAGAAGGAGGGGGGATCCCTTGTCCAAACAAGACTTCTGCCAGGGTAGGAAATCATT
TCTGCAATTGTTTACAATGCTCAGGCAGCCGGTCCTAAGTCAACATGGCCTGGGAGCGTTGCCCTGGAGCCTCCTGCCTTTGCCAGCCGCCTGCCATCTC
GAGCTCAGCTATTTCTGGGACTTAGCTCCCTCCCTTGAAAAACAAACCGTGGCCCTCACTGTCATMCCCAATAAACCCCCCAGTTTGTGCAGCCTTAATC
ATGTTTTCCAGAAGAGTTCTCCAACTGACGGCCTGGATGCAATGTGTTGGGCTCAGGAGAGCCAGTATGTGTGGGGGAAGGGAAGCTCTCATTTGTGGAT
GCCAAGATGGAAATTTCCATTGCAGTACAAGATGGCTTCACCTGTGGCCAAGGAAACCTACTTCATCTCAAAGAGGAGAACTTGGCTAATGAACAGCCTG
AAATTTATGTCCTTTCTTAGTTTGTTCCATAAACCCAGAGCAAAGTTTGCTTTTACTAAAAAGCMCCGTAATTACTAGTCATAACCCTTCACATCTGGTT
GTCACTTAGTGTAGAAGTCTTTTCACTTCTGTTATCTCATTTGTTCTCCMCCATGAGAAAGGCATTATTAGTCCCATTTATTTACCYTTTTTGAAAAAAA
AAAAAAAAAAAAAAAAGATGAGATCTCACTATGTTTCTCAGGCTGGTCTTGAGCTCCTAAGCTMAAGTGATCCTCCTGTCTTGGCCTCTCAAARTGCTAG
GATTACAGGTRTGGACCACTGTACCCAGTCAATCCCATTTATTTAATTAATCCATCTATTTGTCTCCTTATTKGGKGTTAATAATACAGTCATGTGGCTT
GAAAATTTTAAATTCCAGKGAAAAGATGTCTTCTCTTCTACTCTTYCACAATTCTTCTGGTCTCTATCTGCCCACAGGTAACCACTACTGTTCATTTTTC
TGTGTATCTCTCCAGAGATGCTTTATGTATATCTAAGCAACTTGGGGTGGTACAAGGAGAAAGAGTATTGCAGAGAGACAGAAAAGTCCCAGGCACTAGG
CCTAGCTCTGTCTCCAGTTGGCTGTTTGACATTGTGCATGCTACTTTCCCTCTCTGAACCTCACTTACCTCACTTACGTCATCTGTGAAAATGAGAATAA
AAGCTAACATTCATTAGGCTTATATGTGCCTGCCACTGTGATAAGTGTTTTTATATGTGTTAGTTGAATTAAGCTCRCTACAGTCCTATAAGGAGGCACT
GTAAGTCCCATTTATCCATGACAAACTGAGGCACAGAGAAATTAAATATCTTGCCCAGGTCCTAGTTAATTAGAGGGAGAGCCTGGGTTTTATGAAGCTA
GGTAGTCTAACAGTAGAGCTCATTCACCACTTAAACCCCTGCGCTATATACGGCCACTCATTTATGATACTGGCACTACCAAATGATGGCTTGAAACAGG
AGGCTGCCCCAGAGTGGTTCCTCCCAATTTAGGTATCTAAAATCCTATGTCCAGTTCCCATAAAACCCTGGCCAGGCAGCTCTGAGTCACTCAGCCCCAT
TCAGATGGGATGGTGACAGCTGGCAAAGAGCAGCAGACAGCAGGGCAAGGCTCAGGCATGAACCCTGATGTCAGACCAGTGCTTCCCCCTGTGTCCCTCC
AGGGGAATCAGGACAACTCCTTAATAAGAATTTCTTATTTTTTATCARAGGTAGTAACGCACGTAATTTAAAAAGCCAACTCATATTCAGAGACAAAAGA
CAGCAGCCCAGAACAAACACTTTTAACTCCTTTGGTTAGTTCTGTATATATTTATCTCCCTTATTCTTGTCAACCTTAAATAATATTCAGAAAGTATGAT
TAAATATAGAGTTCATTTGAGCCCAAAGCTTGAGGATGGCCACCCAGGAACATGGATTCAAGTTGCCCTGAATATACATTCTAATTAGCAGCACCTACAA
ATGGGTTTTTAAAGGGAAAAAAAGAAGAGGCAGTTCCTAAGTTGTTTAACAAGAATTTACATTAAAGTAACATAAGCTATTAATTGGTTATACATTGTTC
TTTGTATCACAAATTCTAGGAACATGAAGATAATGGGTGAGGCCAGCTAGTCAGGAACAAAATGCCTTTAAACAATTGCCCCCAGGGCATGGGCGGGATG
CRGAGGTGGGGGTGAGGGATGAGAGTAGGGGCCTGACTGAAGTCCCAGGTCTCTCTGAGCCAAGTAAATTTTGCATACCTCTCATAGCTTACAGCAGTCT
GAGCTATTTTTCTTTTTTCATTCTAAACCTAGATAGTAAATATTTTCAGCTTTGTGAGCCATACAATCTTTGTTGCAATTTCTCAACTGCCTTATATCTA
GAAAGCAGTCAGGCAATATATACATAAATGGACATGGCCATCTTCCAATACAACCTTATTTACAAAAACAGATTTTTAAAGCAAAAACAGATTTGACCTG
TTGATGCGGGATTTTTCTCGGTCACTTTGCCAGCCAGAGACCTCCAGCCAGCAATACCCCTGGCCCAGGCCTTGCTCGGGCCTGGGTTCACCACAGGAGA
GGCCCCATCTACYGCTGGGCTATGCCYGGCTTGCACTCCAGTGTGGGTGCTGTGTCTGCTGTGACTGTGCTGGCAGGAGGGGATGTGTGAGCCAGTGACA
GCAGGGTCCAGCCAGCTGTTCTAAGAGCCGGCASAGGAGTGGGATCCATGCAGGGCTTGTGGCTGAACCAGGTGTGTCACAAGCGACTCCTGTGGTAGAC
TCTGGTGTCCAGACGAGGGGAATGTGGTGGCACCCAAGCAGCGGTGCCCTGGACCCTGAAGCCCAGAGGGTGTGTTACAGTGTGCTAATTAGCTCTTTTA
GTCCCATTTTCCGTGGCCCAATGGATGGCAGTGTGTTAACAGCTCTGTCAGCCCCGTTGACCCGCTCCAGCCCGTGGCTCGGCCTTGCTGCTKCTTCCTA
TTGTTTAGGGCAGCTGCCTTCTGCTGGCAGAGGGCAGAAGGCCACAGTGTTACAGCCTTCTTTGTACCTGCATTCAGTGGGTCCTGAGTTCTTGTTTCAC
ATCCAAGAATAATGAGGTTATGCTGACAAAGGGTGAGGAGGGCAGAGAAGAATTTTATTGAGCAATGAAAACAGCTCTCAGCAGAGCAGGGACACAAGGT
TGGTCCCCCACTTGAAATCAGGTGGTCTTTCAATCAATGTGGCTGGGTCTGAGGCTTTTATGGGCCCAGAATGGGAGAGYGCATGCTGATTGGTTTGTGA
GTACGCAAGAAAGCCTAAAACGAAGGTACCACTCAAAGGTGGGCATGACGGTGTAAAATCCCAATTGAGGAAGGGTAGATACATGTAAAATAGGTGAAGG
GTAGGGATCAATCAGGGGAARGCACACCAAATGGGAAGAGAGGTTCTCAATCTGGTCCAAGGATTTACCCAGGACTTGTAGCTAGGGTTCAAACAGTCTT
TGGCTTGAAGGTCAGGTTTCACTGGGGACCTACCTCTGTCTGACTAGGATTTGTCTGCTTCCTGTTGCTAATCACTGTGGGATGTAGTTTACTGATATCT
GTTGTAAATTCTTAAATTTCTGTTTCTTAATTTATAAATTTTAATTAATTTTCTATTGTGGTCAATAAAAATTTCTTTTTCTTCATTTCTATTTTTATTT
TTTGAGACAGGGTCTCACTCTGTCACCCAGCTGGGTGACAATCATTACTGACTGCCTGGAGTGCAGTGGCACAATAATGGCTCACTGTGGCTTCAACATC
CTGGGCTCAGGTGATCCTCCTACCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGTGCACCACCACGCCTGGCTAATTTTTTGTATTTGTTTTTGTAGAG
ATAGGGTTTCACCATATTTCCCAGGCTGATCTCAAACTCTTGGGCTCAAGCAATTCTCCTGCCTCTATCTCCTGAAGTGCTAGAATTATAGGCATGAGCC
ATTGTGCCTGCCCCCAAGAATTTRCCTTTCTTAAACAGCTCTCCTCTCTGCAGTTGTTTACCCTCCCAACTCATCCTAATAGAGTTATATTGTAATTATC
AGTTACATTAATATTCAATGTTTATATTATGACTAGGTAAATACTGTTCTCTGTTGAGCCAAACAATATACCATCTCCTTTCTCATACGGCCTTTGTTTT
TACCTGGAGTTAACTATTTCATTCTTTTTTTTTTTTTTCATTTGCATGGTGTATTTGACTTTCAACAGCCTCTCTCAGAATTTTCTACATGGTTTAACAC
CTCTTTTTTCCAGTGCTACTGTTTTGCTGGAGGAGGCCCTCCTACAGCCTTCCAGACTGCCACTCCAGTGTAGACTGGGATTCCCTGGGCCTGGGCTTAT
CTCTTATCCTAAAACTTTCTTTCTCCACTATCCTGGAAATCTACTGGATCTCTTCTCTATATTGGATCTCTTTTTCCTAGATCCCATGTCCTCCTCTGAT
TTACTTCCTCATTTTCCTTAATCCACTATCATTTTTTTTTTTTTTTATGGAGTCACACTCTGTCACCCAGGCTGGAGTGCAATGGCACGATCTCTGCTCA
TTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATCTGCCACCACGCCCGGCTAACTTCTTGT
ATTTTTAGTAGAGATGGGGCTTCACCATGTTGGCCAGGCTGGTCTTAAACTCCTGACCTCAGGTGATCCACTTGCCTTGACCTCCCAAAGTGCTGGGATT
AAAGGTGTGAACCACCGCACCCAGCCCACTATCACTCTTGAATGATAGTTTTGGAAGGGCTAGTATTCTAGACAGGAAATAATTTTTTCCCCAATATTTT
GAAGCATATAAGTTGTTAGAAGTCTGATATGTTTTAAATTCTTAATCCTTTATATGCAATCTGTTTTTCTTCTCTAGAAGTTTTTATAATCTTCTCTTTA
TTCCTAATGTTCTGAAATTTCAGCATGATGTTGTCAGAGGCATTTGAACCAGAGCAACTCCATCTTGAATAGGGCTTGGGTAAAAGAAGTCTGAGACATA
TTGGGCTGCATTCCCAGGAGGTTAGGCATTCTAAGTCACAGGATGAGATAGGAGTTCGGCACAAGATACAGGTCATAAAGATCTTGCTGATAAAACAGGT
TGTGTAAAGAAGTCGGCCAAAACCCACTGATACCAAGATGGCAATAAAAATGACCTCTTTTTTTTTAAGCCTCATATTCATTTTCTGYATTACCTTGTGC
CTCTAGTTACTGAGCCTTTTTGAGTTTCTGCAGGGTAAGTTGACTTGCTTCACATGGTATCACCCATGCACAGTCTATTAAGAGTCAGCCGCTTCTAGTC
TGATAAGACACCCTSGATGTCTATCGACTTTTCATCCTCCTAGCGCATGTTGACGACTCTTTCCCCCATTGTTTCCATTCTTGTCCTCTTTGTCCTTGTG
AACTTAGTTTGTTCCTATTGCAGTGCCCCCAATTGGTCTTTGTTTCTATCCTTGTTCAATCTTTGTCCTTTTACAGTGTATTTTCCACAGAGAAGCAAAG
GGGTCTTTAAAAATGTAAGTCACAAATTCAGAACATTTGTGGACATTCCATAGGACAACTGCACTAACCTCTTTAATAGTCAACAGCATGAAAACACAAG
GCAAAGGGATAGGTAGGGACTCTCCTACTACATTAAAAAATATTTAGGAGGCAGGCCAGGTGTGGTGGCTTACACCTGCAATCCCAGCACTTTAGGGGGC
CAAGGTGGGTGGATCACAAGGTCAGGAGATTGAGACCATCCTGTCTAACACTGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTCAGCCTGGTG
GCATGCGCCCGTAGTCCTGAACCCAAGAGGCGGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTGTCAAAAA
AAAAAAAAAAAAAAAAACTAGGAGGCATATCAAAAGTTGTAATGTGTGGTCACGATATAAGCAAACCAATTGTAAAAAGACATTTGTGGACTATTGGGGA
AATCTGAGTAAAGAAATTTAAAAATTATTAATTTTGTTAGGTGCAATAATAGCATTACGGTTATGTAGGAAATGTATTTTCTAGAGATTCATATTGAATT
ATAAAATATGATGTCTGAAAATTTGCTTTCAAAAGCTCAGCAAAAAGATGAAGCAAACATAACAAAATATTTATTTATTTATTTATTTTATTTTATTTTT
TTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGGTCTCGGCTTACTGCAAGCTCCACCTGCCAGGTTCATGCAATTCTCCTGCCT
CAGCCTCCTGTGTAGCTGGGACCTACAGGTGCCTGCCACCGTGCCCAGCTAATTTTTTTTGTATTTTTAGTGGAGACGGGGTTTTACCACGTTAGTCAGG
ATGGTCTCAATCTCCTGACATGGGGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCACTGCACCCGGCCTTTTTTTTTGTTTT
TTAAAGACAGGACCTCATTGTCTTGCCCAGGTTGGAATGCAGTGGTGAGGTCATAGCTCACTGCAGCCTTAACCTCCCAGGCTTAGGAGATCCTCCCACC
TCAGCCTCCCAAGTACCTGGGATTATAGGCATACACCACCATGGCTGGCTAATTCTTAAATTTTTTTGTAGATATGAGGTCTCCTTATGTTGCCCGGGCT
GGTCTTTGTAGATATGAGGTCTCCTTATGTTGCCCAGGCTGGTCTTTGTAGATATGAGGTCTCCTTATGTTGCCCAGGCTGGTCCCCTGGGTTTCAGTGA
TCTGCCCATGTCAGTCTCCCAAAGTGCCTGGGTTACAGGCATGAGCCACCACACCTGGCCTCTTTATGGCACTTATTATCACTGGCTTTTACATTTTTGT
GGTTAAATATATTTATCTTTTTAACCTTTTTTTTTTTTTTCCTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCA
CTGTAACCTCTGCCTCCCAGGTTCMAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGATCACAGGTGTGTACCACCAGGCCCGGCTAATTTTTGTA
TTTTTTATAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTTGTGATCTGCCCACCTCGGCCTCCAAAAGTGCTGTTTAACCA
TTTTTAACTACACATTTAATTGGCACTAMGTGCATTTACATTGTTGTGCAACCACCACTATTATCTATTTCCAGAACTTTTTTGATCATCCCCTACTGAA
ACTCTGTACTCAATAAACAATAACAATATGTTCCTCTCCCCAGCCCCTGGCAACTATCATTCCACTTTTTGCTTCCATGTATTTGACTACTCTCAGTACC
TCATATAAGTAGAATCATGTAATAGTTGTCCCTTTGTCTCTGGTTTATTTCACTTAGCATAATGAATGTCTTCAAGCTTCATCCATGTTGTAGCTGCATA
TCACCTGCCATTTTATACATTTGTTTGGTCATTCGCTTTTTATCGTCTGCTCTCCCGACTACCCAAAAGGTAAGGTCGTTGGGGGCAAGAGCTTTGTCTG
TTTTGCTTGTTCATCTAGAACAGTGCCTGGGCACAGAATAAGTACTCAAATATTTGTTGAGTAATTTGCCTCCTGTTGGGACAATCTCCTTTTTTTGCAT
AGAGTTGGCCTTCTTTTCTGAACACGATGTGTCCATTTAGAAAGTAATTTTTAGCTCCCGCTGTGCAAAACACTTTGGGGGACAGGAAGATAAGGCAGCG
AAGCGAGTTAGAGTGGTGCAGCTGACGGGGTTAGAGTGGTGGAGTAGACATCTGTTTTCATTGTTTTGTTTTGTTTTCCCTGCCCAACATTTACTCCCCT
TCTTCTGATATTAGCAGTGGGATTTTCCTTTGGGATATCTCCCTTCCCCATTCTCAGTCTGTGTGGTTATAAAGGATCCATCTCATCCTCTGGCTTCAAG
GCAAGATAAGTAACCCAGGCCTGCCAATAAGACCCAGGCATGAGACTTCTGTTGCAATCATTACACTGAGCCTACAAAACTGGGAGAATGTGAGCCTGGA
GTTCTGATGCCTCACTACGTTGAAATCTTATATTTGAGAATGAAGACAACACAGAAGAAAATAGAGTTCAGAGATGGACAAAAGGGAATAAAGCCCTGAT
CACATTATTTGAGCTCCTGAAACCAGCCATGCCCGAAGTCAGAGATCCATTTCCTGGACTTTTCAGCTTTGTGAGCCAATAACTTCTCAACGTCTTCCCA
TTTATTTGTTTATTTCATCTTATTTTGATTTGAATTGGACTTCTGTCGCCTGCTGCCAAAATATTCCTAATATAAGGGAGACAGACAAAAAGGAAAGAAG
GTAGAGAGACTCAACTTGTGGGGTTTGGAGGCTCAGCTGTTATCTAGGAAAAGCATAAAGGATTTAAGATGTTTACCTCAAAGAAGAGAAGCCTCTGGAA
GACAGGGCTACATCTTTAGATATGTAAAGAGCTGTCATATGGGAGAAGAATTAAATTTGCTCTAGATAATGCAGCAGGAAATACCAGGWCCAGCAGCTAA
ATATTTTTAGGAAAAAAAGTTAATTCAGGAGGRAGGAAAATGTAGAGGCCCCAGAAGCAGCCTAGAGGTACTGTAGTGAAGTGGAAGTGAATGAGCCCAA
GGTGGGGAGACACAAATGGTATACACTGGTGAGAAAAAGGGTAGCCCTGCATGGGGCCTCATTGTAGATAACCCTTAAGGTCCCTGTCTTGGGAACTCCC
CACTTGTGCTGACTGATGTAAGCAGAGATTGAGTTTGTCACCTGAAGGCATTAGACACATGGCCCCTCCTCCTCAACCCTGGGCCTCCTACTCATGCCAG
AAGCTAACTACAAGGTTGCTCAAAAACACAGTTGATAGGGGCTGACCATTATGTTAACCCATGGAGTATAAGATATGTTAGTCTGTTCTTGTGCTGCTAT
AAAGGAATACCTGAGGCTCGGTAAATTATAAAGAAAAGAGGTTTATTTTGGCTCATGTTTCTGCAGGCTGTACAGGAAGTGTGGTGCCAGCATCTGCTTC
TGGTGAGAGTTTCAGGAGGCTTACAATCATGGTGGAAGGTGAAGGGAGAGCAGGCTTGTCACAGGGTGAGAGAGAGAGAAGGAGGTGCCAGGTTCCTTTT
AAACTATCAGAGATCAAGGTAACAGAGTGAGAACTCACTCATTACCATGGGGAGGGCACCAAGACATTCCTGAGGGGTCCACCCCCATGACCAAAGCAGC
TCCCACTAGGCCCCCCTCCAACATTGGGGATTACATTTCAACTTGAGTTTTGGAGGGGACARATATCCAAACTATATCATGGGAGAAGTGGGCTTTCTCA
AGGAATTTGAAAAAAATTTTTCTTGTCAGCCTCTTCTGTAAAAGAATATCCAGCACCAAAGCATGTGCTGTGGTTTTGTTAAAAATTGTTYTGTAATTTG
AAGAGTCTGGGTCACAGCCCCAGAGAGCTTCTGGATGGCAACTGCATCACAGTCCTGAAATAAAAGATGCTGTCAATATGCTGCCATCCAGTGCCCACGC
CACCCTTTCCCGTGGCAATGTAGGAAGTCTACAAAGACTTCCTCGCCTGCCTCCCGTTCCGGGCCTTCCCTCTTCACCCACCGGATATCTTTTCCTTTCT
TGCCTTTTCCTGTCCCCAGATCTTGCTCTTGGACCAGYGCCTAATTTTCAGAAGGTATTTCCAGATAAGAAAAGCTACAGTGACAAAGAAAACGCATCAG
TCTAGGATCACTGTGGTGGCACAGGGAGAGTTTGGGCTTTGGGATCAGAAATGAGTTTTTTTACTTTTTAAAAATTATTTATTTTTTAAAAGCTTTTTTT
TGGTTTGTTTTTAAATGAGATGTAGATATGCCTTAGAAGTCAACCAAGTTTAAGTTCTGACTCTACCTTACATGGAAAACTCAATTTTCCTGGGTTTCAA
TCCCCTCATGTATAAAGGAAGGATAATGATACTTTATTTTGGGGAGTCTCGCTCTGTCACCCAGGCTGGATTGCAGTGGYGCAATCTTGGCTCACTGCAA
CCCCTGCCTTCCAGGTTCAAGCGATTCTGGTGTCTCAGCCTCCTGAGTAGCTAGGATTACAGACGCGCATCACCATGTCTGGCTAAATTTTTTTTTTTTG
TATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAAGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGTAT
TACAGGTGTGAGCCACCACGCCTGGTCCAATACTTTCTTAATAGGGTATTTTGAGAATTAAAGATGTTTCTGTTAGGTGCTTAGTACAGAGAATGGATAG
TAATTGAAAAATGACAAATATTTAAATAATGATTGCTAAAAGACCAAAGGACCTTCAAAACAACCAAAGAATTTAAATGGTTGGTTTAAGTGGTTGGACC
CTTAAATGGTTTTTAAGTACAAGGAGAGATTAGTGAGAGAGGTGTGTTTTTTTGTTGTTGTTTGTTTTTTGAGAYGGAGTCTYGCTCTGTTGCCCAGGCT
GGAGTACAGTGGCGTGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTAGAGGTGTG
TGCCACCATGGCCGGCTAATTTTTGTATGTTTAGTRGAGGTGGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCGTGATCCGCCTGCC
TCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGTGCCCGGYGAGAGGTGTTTTCTTAAGAGGAGGTCAARGAGAGTATGAGGAATGCTTGGA
GATTGTCAAGGCTTTGTGCCGGAGGTTCCGCTACTACCTACAACAGTCCATCTCCCTTCTTTCCTGGGCTTATAGCCAAGATTATATTTTCCAGCTCCCC
TTTCAGTTAAGGGTGGCCATATGACCACATTCTCTCCAGTGAAGTGTAAGTGATGTAATGACATGTGGCATTTAAGGGGCTAGGGCTTAACATTCTCCTC
CTCTTTTTCCTTCCCATTAGCAGCAACCCAGATATGGCTGCTAACCCGGCGTCAACCATGCAGWTGAGAACTGGGCTCTTGGAATGGCAGAACAATAACT
TGGAAAGAGCCTGGGTCTTGAGGGACTATGGGCTGCAGAGCTGCCAGCCTTCAAGGACTATACTGTGTAGGAAAAATAAATTCCTTTGCTCCCTAAGCCA
TGGTTTAGTTGGATCTCTTTGTTATAGCAGATGAGCCTTATCCTAAATGATATGTCAGATATGGACCATCTTGGTATAGGGCATCCATTTCTCAAACTTG
GGTTCCTTTTAATAAACAATAGGCAGTTGAGGTAGACTAGGAAAAGCCCTGGACTCAAAGTGAAGAAATTTGGCTGCTCAGTGAAAATAATTAACATTTT
GTGCTTTGCATCATAGTTGACCAAGATTTCCTCTGAGAGACCTAGCTTCTTTTTTTTTTTTTTTTTTTTTGAGATAGAGTCTGTCACCCAGGCTGGAATG
CAGTGGTGTGATCTTGGCCCACTGCRACCTCCACTTTCCGGGCTCAAGCCATTCTCCTGCCTCAGCCTCCTGAGAAGCTGGGACTACATGTGTATGCCAC
CATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCGTGTTGACCGGGCTGGTCTCAAACTCCTAACCTCAAGTRAACCACCTACCTCAG
CCTCCCAAAATGCTGGGATTACAGTTGTAATTTCTTTATAAAATAGCAACCACAGAGGTATGAGGAGTGTAAGTGAAACTTTTAAGTTGTCAAGTGTYAT
GCAAACATGMGGGCCTCTCAGCATCTGGGGCATTGGAGGGCACTAGACGTGTTCTGTCTCAGCTGAGAGGCAAGGTGGGGTCCTCTGAAGGAGGGGCCAG
AGAGCAAAAGTGGGCACAGTCTGCTGCCKCGTCTCCTGGACAGATTGACATGCAAGAGGCCCACGGTGGAATATACTCCTAGCCAACTAATTGTAAAAAT
ATGCAGAATTATAGATACAGAGAGAGCCTATATAATACCCCACATGACTAAGAGCAATCTCTGCAGAGGAGCACTGCATTAAAATAACAGCCGCGGCAGG
CATGAGGCCGCCTTCAGAGATAAGTGCTGGAGTTTGGCTCTAAATGCCAACATCCTTAGCTAATCTAAGTAATGCATGAGCAGGAAGAATTCCGTGGCTG
GGAGCCCAAGTGGAGTTGTTTAAAGAACTCTTAAGAACAGCTAGTAACCTCCAAGCAGTAGGCCCAAGTGCATGATGGGGAATTTAACATTTAATAGAAT
CTGAGGGGTGAGGGGCTGCCGAGAGGGCTGGGGGTGGGGACTTGGATCTCAATGAGAGGCACGCTGTTAAGGGGCTTCTGGCAGCGCCWCCACCATGCCA
TAGTTGGTTTCTGTCTCTGGTTCATTTGTTTTGTGCAAGATCAACTCGAATCAGGAATCCCAGGTTAGAAAGTCCACCATCCTCTCATTAAAGAGGCCAG
GAAGGGCTTGACCAGAAAGTTAGGGGAAAAGATGTCACTCCTGTTGAGAAGGGAGGCAGCCTCCTACCTCTGACATTATGGCTCTATGATTTTTGGAACT
GGAATATTCACCTAGAGATTGTCTCATATATTCTCCACCTCCCCACCCCCATCGCCAACTCTCATGTTATAGTTGGGGAAACTGAGGCCCAGCACAGGGG
AGCAAAGCTCCCAAAAACACGCAGTGAGTCGGGGGCTGTGGAGATCACCTCCTCCAATCAGAACCACTGCCTACTTCCCACCCACCCCATTATTTCACAA
ATGCAGATAAGGAGGTGCAGAGGGAGAAAGTGACAATGTCAAGGTTTCATTCATTTCAGGGCAGAAGGGTGAGTGGCAGCTAGGCTACCTGGTTCAAAAC
CRTAAGATTTTGACCACCACGTTTCAGCATCTTATCAGCTGAGAGTGATGACTAGCAAAGGCCTCTCTCCTGGTCTGGCTCACCAGGACTTTCTGCASCT
GTTGCACTGGGATGGGCTTCCAAGCTCACCCCCGAGGTTGCTGGCAGAATTCAGGTCCTGGGGAGCTGTTGGACTGAGCAGGCTCCTCTCAGGTCCTTGC
CTCATGGGCGTCTCCTACACGCTGATGGGGAAACAGAGCATGCAAGCCAAGTTGGATGTCCCTGGCTTTTATAATCTCTTCTCAGAAGAGACAGCCTATC
ACTTTTTTATTCTTTTTTGAGGCGAGGTCTCACTCTGTCACTCAGGTTGGAGTGCAGAGGTGCTATCACAGCTCACTGCAAACTCCACCTCTTGGGTTCA
AGTGATCCTCCTGCCTCAGACCCCAAGTAGCTGGGTAGGTGAGACCACAGGTACATACCACTACACCTGGCTAATTGTTGTATTTTTTGTAGAGATGGTG
TTTCTCCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGATCAAGCGATCTGCCCTCCTCAGCCTCCCAAAGTGCTGTGATTACAGGCATGAGCCATTGCT
CCCCACCCACTTTTGTTGTATTCTAGTTCTCAAAAGTCATTAGGTCCAGGTCCCCTACSCCATACACCTAACCATCACACAGATGTGCACGCACACATAC
ACACACACATGGAGAGGTCTACACAGGGCATGAATACTAGGAGGTGGAGGTCACCAGGTGCTTTTCAGAAGCTGTTGACCGTAATTCTCTAGCAGTACAT
AAAAAGCATCCTGGTCTTGGCCGGGTGTGGTGGCACAGCCTGTAATCCCAGCASTTTGGGAGGCCGAGGCGGGTGGATCACRMGGWCAGGAGATCAAGAC
CATCCYGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCCTGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGA
GGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGTTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGACACWCCACCTCAAA
AAAAAAAAAGCATCCTGGTCTTGTAGCAAACTCCCATCATATGGAGGACCCTTGTCCCTTCAACCAGGGCTCTCCTGGTAGGTTCATGACTTCATGTCTT
TGACCTCCACTGGCTGGGAGGCTCATGGGGGCAGGGGAGTCATTGCCTATGGTGCATGCAGTAGATGCTCTGCTAATACTGTACTCTTTAGGGTAAGTGG
AGGGTAGAGAAAGGTTTCTCAGTTCTGCCTTAATTCAAGAGTGCCCCAGGCAATAAACTGTTGCTTGTTCTTATAGAATGGCAGTTGCTTTGGACAAATG
TTTTGGAAGATTTTTGGAACTCCAGAGTACTGCAGAGAGTACTTTCAGACAAGGTTGTCGATTGGAAAAGAAACTGAAAAGGGCCTGGACCAGGCTGGGC
TGGACACATAATATATCCACAATATCCTGGACTGAACTTGAGCCATTGTGTATTTATGTAATTGTCCTGCTGTTGGCAAAGGGCAAGTCCAAGCCTGAGG
AGTGGGGTAGATTCCACTGAAGAAATGTTCCCATGCCAGTCATCTTGGGAGGAAGTTTGTCCTGGGGTAGAAATTGAGAACTCAAGATGTGGACCTTTGG
GGTGAGAAAGAAGTGTGTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCAACAAAGTTGGGTCTGCCCTACAAGGGAAGACATGTTCCAGG
CAACCTGAGAGAAGGAGCTGGGCTGGACCCTGCTGATGGGGAACAAGCTGGGGCTGAACAGCTAGGTGGTCCTATGAGATTATCTGGGTACCAACCTGGG
CTCTGAKAAAATCCACATTGGTCACTGTGTTGAGTATGTATTTCTTTGTATTTTATTCTTCTTCCATGGTGCCCARATTTAATCAGCTCCTGCTAGACAC
TGCATCTGGTTTCTGTTGAGTATGATGCACTGAGGGGAAGGCTCTGGCCATGCTTGGGGCTGAGTGGCCACCATACCTGGCCTGAACATTTTAATAGAAC
TTTTCACTTTACAAAACAATATCCCACTCAGAATGCTGGGCTCGGTGCAGGGACAGACAAGCTCAGCAGTGTGGGAAATCGCAGCAGGTGTGCAGACTAA
GGAAGCTGGAGGGGGAGAACATAAGGGCAAGTTCTGGGGCAGTGGTAACTTAGCACCTGGGGCCTCTCCAAAATAGCTAGGGATGGTCCTGCAGGGACTG
AGTTCCTATGTGGGCCAGTAGGGTTCAAAGGAAATTGTAGCTTGAGCATTAAATGGAGATAAGGCAGTTTATTTTCATTGGCTGGGGAGGCCTGAACATA
GTTGTTCTATTAGATGTTGTGGTAGTAAAAATAGATAACAGCAATAATCTAGTATGTCAACATGTGAGGTTTTTTTGTTTTTTTGAGACAGGATCTTGCT
CTGTTGCCCAGGCTTGAGTGCAGTGGTGCATTACAGCTCACATAATGCTTGAACTCCAAGGCTAAAAGCAATCCTCTCACCTCAGCCTCCTGAGTAGCTG
GGACTACAAGTGTGCCCCATCATGCCCGGCTAATTTTTGTGTTTTTTGTACAGATGGGATCTCATAATGTTGCCTAAACTGGTCTTGAACTCCTGGGCTC
AAGTGATCCTCCTACCTCTGCCTCCCAAAGTGCTGTGATTACAAGTGTGAGCCACCATGTCTGGCCTCAACATTTTAATAGAACGTTTCACTTTTACAAA
ACAGTTTCCTATATATCCATTTCTAGTTGATCCTCAAAATAATCTTATATGTAGAACAGGCATTAGATTGCTAATTGTTCTTATTAGTTACAAGGTTAAA
CTATATGAAATTGCCATATTAATAAGTCAAACACTGTTAAATGTAAGCAACTTTGTATGGTTTATCCTCATTACATAAATCATAACTATTATAAATAACA
ATAATAGTGTCTTAGTCCATTTTGTGTTGCTGTAACAGAATACCATAGACTGGGTAATTTATTTTAAAAAGAGATTTATTTCTTACAGTTCTAGAGGCTG
GGAAGTCTAAGATCAAGGGACTTGCATCTGGCAAGGGCCTTCATGCTGTGTCATCCTGTGGCAGAAGATGGAAGGGCAAGAGAGCCTGAGAGAGCAAGAG
GGGACGAAGGCCAAACTCATTCCTTTTATCAAAAAACAAACTCCTGAGATCATGAACCCACTCCTTCAATAGTGGCATTAATCCATTCATGAGGGCAGAG
CCCACATGACATATCACCTCTTTTTCTTTTTTTCCTGGAGACATGACTCACTGTGTTGCCCAGACTGAAGTGCGGCGGTGCAATCATAGCTCACTGCAGG
CTTGACCTCCCAGGCTCAAGTGATCCTCCCACCTCCTTAGTAGCTGGGACTTCAGGCATGCACCAGCACACCCAGCTGTTTTTTTTTAAATTATTTTTTG
TAGATACAGGGTCTCCATATGTTGCCTAGGCTGGTCTTGAACTCCCAGGCTCTCAAGCAGTCCTCCCACCTTGGCCTCCCAAAGTGCTGGAATTACAGGC
ATGAGCTATCATGCCTGGCCACTAATCACCTCTTAAAGGTCTAACCTCTCAAAACTGCTGCATTGGGGATTGAGTTTTCAACACATGAACTTTGAGGGAC
ACATTCAAGCCATATCATGTAGGAACTTAAAAAATATGTACCTGGCATATTGCTAAGCTCTCTTCACACATTTTATCTCATTCAGAGATGCATATTCTAG
TGGATATAGCAATGTTCCTTTCAGATTCCTCTTCAGAGCCCACACACTCATTCCCAGCTGCTGGGAATATTGGCTACTTCCCTCACTGGGAATTGCCCTT
GGCCACAAGTCACTGCTTCCACCAAGGTGATGCCCAGACCCCAAGGGTAGTCATTAGGCTGTGACTGGCTGACGTGAGGATATAAAGCCTGGGCCCCTTG
CCTCAATTTGGGACCCTCTGAAGGGCCATGTGGCTCAGAGCTCCCTGTAGGATTGGCTCTTCCTGGTTGCAACCACATTGGGGGTCATCTTCTCCCTCTT
CTCARTCCTGCCCTCTCACTTACGTACAGGTGTATCTCCCAAAATTACTGCCTAAGAAACCTTCTGCAGACAGAAACCACCTCCATCTCAGAGTCTGCTT
CCAGGGAACCCAAACTTAGGACAGTTGGTGTCAGAGGGGTTCAAGGTGGCAGACTCTAAAGTGGGAGTTTGGAGAGGGATCACTTGCTAGTCAGCTCTCC
ATGAACTGGTATAGGAGTGGTAAGGATAGTCCCTGCCATGCTGTAACTGCATGATGGCTAAAACTTGCATTTCTGGTGAACTGGGGCGTGATGGGATGCA
GAAAATGCTGCTTCAAATAATAACACCTTGGAAATTGAGAAAATAGTAGAAACAGGAAGGCTACTCTCACCTTCCCCTCTACCTTCTTCCCTGAAGCAAG
GCCATAAAACTTAGGAAGGTGACAATCTGACCTTCTCCCACCCTTCTCTCCTGAAAACCCTCAGGTGACAGGTGTCCTGCCCTATACCTTGAGGGAATGT
CACACAAGAACGGACAAGAGTCTAAACAAAGAGGCCTTGTGAAGATCCCCCTCTGCAGTTTATCACTATTAGATCATCTCCCCTTTGTCCCATTAGACTT
CTGCAGGACTGTTCATTCTTCATCAAAGCCAAGCATAAGGATACACAGGTTTCCCTSTTTCTTTGAGTCTTCATTTCTGAAGGCTCCTGTGTCATGTAAA
ACTAATATTAAATACATATGTATGCTTTTCTCTTGTTAACCTGTCTTTTGCTACAGAGTCTCAGCCAAGAACCTAGCAATGAGTAGGAAGATAAATCTTT
TCTCCCCTACATATGGTATATGGGTGGAAGGGGTCACACTCATTGGTGTAGTATCTCTGGCAACTGGGGGCCGTAGTGACTATAAGGACTATGGAAATGA
ATGACCATTGCTGAGTCCATTTACTTGCTAAAGAGACTTAATGATAGCCTCAGAGTGAATAATCACCAAGGTAAAATGTTAAAGCCAGATGGCCTCCTGG
GCAACTGTTAAGGAAATCCCTCCTGCAAAGGGAGGATCAGGCATAGGATTTAATGTTAAAAATAGCAGAGCTTTGGAGAAGGTTTGATTTTTCAGCCCTG
ACAGGCCTCCAATGCCAGGGTCAGAGCCATAATAGGTGAGGACTGGGAACCTGAGACTTGGGTTGGGGATATATGAGTAGATGCAGTCAAGCACCTTGAA
TTCTCAGGTCCTTCTGAACCCACTGGGTTTGCAGAAGTGACACACTTCTTGTTGGCAAACAGTGGTGCCCCTTATTTGAAGATTGCACTAGTCTGTTCTC
ACATTGCTATAAAGAACTACCCAAGACTGGGTAATTTACGAAGAAAAGAGGTTTAATTGGCTCACAGTTCCACAGGCTGTACAGGTCTGGGAGGCCTCAG
GAAACTTACAATCATGGCAGAAGGTGAAGGGGAAGCTGGCATGTCCTACATGACTGGAGCAGGAAGAAGAAAAAGACGGGGGAGGTGCTACACACTGTCA
ACCAGAACTCGTGAGAACTCACTCACTATCATGAGAACAGTAAGGGGAAATCTGCCCCCATGATCAAATCACCTCCCATTAGGCTCCTTCCCTAACACTG
GGGATTACAATTCAACATGAGATTTGGGTGGGGATGCAGAGCCAAACTATATCAAAGATCATACAAGGTTTCCAGTGAGGCAGGTGCCCTACATGAGAAT
GCTTGTCCTCCTCAGAACCCAACTTTACTTCCTTCCTGGCGATCTAATAAAAGTTAAATCCCAGCTGTGCTGAGCATGCTAAGGGAGGAGAGGCACTATA
TGCTGCAGGAGCCACAGGATCTAGCTAATACATTTAAGCAAGCACTGTGCACAGAACAGGGTCCTGAGTAGGCTGGATCAAGAGGGGAGGAAGGTAAAGG
TGGATAAGAGCAGGTGTTAATATGGGAGTACTCTCCATGATACAGAACTTAACACTCTGGCAAGGAACCCAGGGTAAGGGGGTGAACACACTTCAGAGAT
GGATTTTAGAAGCTTAGGAAAAGCAATGGTTCACACTAAGTAAAGTAGAAATATTAGAACTGCTGTGGCAGATAGGAGTTCAAGTCTTGGAGWAGTAGTC
CAGGTATGGTGGCTCATGTCTGTAATCTCAGCACTTTGGGAGGCTGAGGTGGGMGGATCACTTGAGGACAGGAGTTGGAGACCAGCCTGGMCAACATGGC
AAAACCCGTCTCTACTAAAAAATACAAAAAAAAATTAGCCAGGTGGGGTGGCCTGTACCTGTAACCCCAACTACTCAGGAGTTTGAGGCAAGAGAATCAC
TTGAACCTGGGCCAGATTGTGCCACTGCACTCCAGTCTGGGCAACAGAGTGAGACTCTATCTCAAAAAAAAAAAAAAAAAAAGAAAAAGTAAAAGTCTCA
GACAAGTGGGCCTGCTAGAGTGTTTGCAGCACATAAAGCCAGAAAACCCATCAGCCAACTCTGTTCTGTGGGAGGCCCTGGAGAACACTCTATTTACTGA
AGCAATAAGGAATGAGTCTGTGGGAGCTAGAGGTGGCACCAGCTTCACTGACAGTAGGAGGTGCTATTACAGAACTGGGCTCCCTGATGCCCATAGGTAT
GATAGAATCCCAAAATAACAGAGTTCAGGTGGTGGTGCTTGACCTTTAAACCAAGGTGACTGCAATTGCAATGAACAGCAAAATTGGATCCTGACCCACA
GAGCACTATGGAGATGGCTAATAGAACACAGTGTTCCTAGAAGCAAGATAGATGGGTGGCCAACAGTGCATTGCTTAATTTAGACAGTCAAAAGAAATCA
AGGATGGATGATCAGGGGGTTGAAAGCAGCCACCCCCAGTAATACATCATGATTTCTTATCCTGTTTCTGACCTGAGCCGTTGACTAAAGGAGAGGTTAG
GTCTCTGTGAGGAAGGATCTGTAACATCATGGCAAATGTGTTCAGTAGTAATGCCCCAGTCCTTTCCTAAAACAATCTATGGCCATTTACTGTGTATCAC
CATGAGAAAGGGGGAATTCTGAGGGCTTTGAAGGACTATTAGCCATGGGGTCTAACTCAACACTGATATCTGGTGACCCAAAGTGCTTTTATATCCCTCC
CTCCCATCAGAATGAGGGAGTATGGGTTCCAGGTGACAACGAAGCCSTGATCCTGCTCTAATTCACAGTGAGTCCAGTTGGGTGCGTCCACCAACCCACT
GTGGTCCTATCCCTGATTCCTGAACGCTTCGGAATGGACATACATGGTAGTTGGTAGAACCCTAGCATTGATTCCTTGAGTCTCTAAAAGTGCCGACTCT
CCTTTGCCATGATAGTAAATCAAATACAAGATTGTTTTTTATTCCAGGAGGAATGGCAGGAATTAGTTCCACCTTCAAAGATTAAGGAAATACAGGGATG
GTGGTTTTTGTTGTATCCCCATTTAATTCACCAATCTGGTCCCTACAAAAATTGCATAATCATGGCGACTGAGAGTACACTCCCACAAACTTAACCAAGT
AGTATCCCTACTTGTGGTTGTTGTGCTACACACGGCATCTTCCTGGAGCGGATGAATACACCCTCCAGATGCGGTACATGACCAATCATCTCCTTATTGC
CTTCTTTTCTATCCCTATCAGAAAGGAGGATCAGAAGTAGCTCACATTCACACGGAGCAGACAATTAGATATATTTACATGTTGCCTCAGGGCCATGTTA
ATTTTGCTGCCTTTATCATAATGTCCAAAAGGACCTGGCCCATCTGGATTTTCCATGGAATATCTAATTAGTGCAGCATATCAATAACATCATGTTAATG
AGACCAAATGAGCAAGAAATGACAAGTATATTAAAGACTGTGGCATGACACATTCACTCCAGAAGGTGGGAAATAACTCCTACCCARATTTAGGGCCCAG
ACACATCACTGAAATGCATAAAGGTCTAGTGGTCTGGGCATAAAGGTAAAGGAGTGCTGGAGCTCTGAGGTAAAGAATGTAAAGAACAGGGCAACCCCCT
CGGGTCCCCTTCCACGCTGTGGAAGCTTTGTTCTTTCACTCTCCACAATAAATCTTGCTGTTGCAAAACAAACAAACAAACAAAATGTAAAGAACAAATG
GTGAGCCATCACATTTGTACATCAGTACAAGGATGGCATGAAATTTTCCTCCACAGCTGCAGCTGATACCACAGGGAGGCTGAGGGGATGTGATACAGGG
CACTTGAAGTGTCTACTCTACCCCATTTTACAGATGAGAAACTAAGTCTCTGAGAGGTTAAATTGCTCAAAAACACAGTGCTGGCAAGTGGTCGATCTAA
GGTTAAAATCCGGATCTGTCTGACTTGAAAGCCCATGTTCTTTAATACCTATATTGTACAGATAAGGAGGCTGGGAACAGAGAGATTAAGTGGCCTCTTG
TTGCATCTTGGACTTYCTGGGAGGTAGATTCTGAGACAGATTGTCATGCAGGAAGTGTATTGGGAAGTGTTCCCAGGATCAACACCCTGAGGGGGAGTGG
AGAAGGCAGGACTGGGCAGAGGGAGAGGCTGGGCTGTGATGCTATCACTATACCTCTGGAGTGCTCTGCAGAGGTGTCCCCTGTTGGCAGCAGGGGGCGG
AGCCTTGATATTCCTGCACAGAGGCAGTCCTTGGGCTGCCCCAGGAAGAGGACATCACCTTGAGAGAGAAGCTCCTCTTCAGCCAAGGGCAGTTCCCCTG
GGAGACTCTGCCTACCACTGTCAGCCTTTGATACTTCCGGCTGCTGGGGGGAATGACTGCTTCAGGCCTGGTAGAGGGGATCTGGGGTGATGTACCCCAG
CATCCACTATCCCTCTTTAGGGTCCTTCAGCTAGTGGGCAACACAAAAGTAGGTCCTCTGACTCTAAAACTAACATAGTCCTGCTTTTCCAGCTCCATAA
TAGGTCCACTATCTCCGAGTGAACAACCAAGACTATGGGATCATTGATTGGAAAAGAACTGTAATCCACTCAAACTTGATCAAATTAGAAGGAGAGAGTG
TTGGTAATAGGAATCTTAGCTGAGGAGAGGGAAAAGATTTCATTCATTCAAAAATATGTATTGAGTGATTACCATACACCAAGCTCCATTCTCAGTGTTG
GGGAGACAACAAGAATAATCAAAGCTCCTGCTCATGCAGAACCCTTTCTAATGGAGAAGGTGTCGGGGAAGGCCCAGTCCTCCTGGAGACCAGGAACAAC
CTGCCTCCTTAAGAGATGGAGGAGCCAAATCTGTGTCTCATCTTTTCGTAAATGTCTGTAGGAGAATAATACTGAGTTAATTTCTCATCTGTTTATCTGC
CATATACAAGTAAATGCATAGGGAAAGGTTGGTAACAGTTGTTACCTCTGGGGTGGGAGTAAAATGGATGGAACACGGGAGTAAAGGAGAGCTTGACTTT
TCTCTCTCTCTTTGCTGCCCCTCCTTTCTTTTCGCTAGTTCCTCATTTTGCTAGTGTACCCAGGTTCTAACTACTGCGTATAAAGGCAGTGTCAGAGACG
GCCCCTGCTTTCTTCCCAGCTCTAGTTTCAGGCCTGAAACGGCAGCTGGAATTTCCCTGCCCTGTCTCCTCTTTTCTTCCTCTCTAGAGACTCCTCTTGC
TGTCAGCTGAGAAGGGGGAAGCAGTCACCTGGAGATTCTGTAAAATAGGCCACACATTTGGGAGATTTGGGAAAATAGAAGAGAGTCATTTTGCAGGCTT
TAGTCCTTTATATATTTCTGCATTACTTGAATGTTTCATAGCAAGTGTGATTTGTGCATTATACATTTAGCTGTTGCTGTTGTGGAGGTTTTTAGTTTTT
TGGGGTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGTAGTGGCATGATCTCGGCTCACTGCAACCGCTGCCCCCTGGGTT
CAAGCGATTTGCCTGCCTCAGCCTCCTGAGTAGTGGGAGGGATTACAGTGTGCACCACCACGGCTGGGTAACTTTTGTATTTTTAGTAGAGGGGTTTCAC
CATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACGCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGC
CAGTTGTAGAGGTTTTGTCTGTTTGCTTCTGCGTTTTGACGTTGCAGATGGAAGACTCTGGCTGACAAACCAGGCCTGGCTCGAGACTTTCTTTTTTTTT
ATTTATGTATTTTTTAATTATACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCAC
CCATTAACTCGTCATTTACATTAGGTATATCTCCTTACGCTATCCCTCCCCTTTCCCCCCACCCCACGACAGGCCCCGGGGTGTGATGTTCCCTACCCCG
TATCCAAGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGGAGTGTTTGGTTTTCTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTTCCA
GCTTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTTATGGCTGTATAGTATTCCATGGTGTATATGTGTTACTTTTTCTTAATCCAGTCTA
TCATTGCTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATACGTGTACATGTGTCTTTATAACAGCATGATTTATA
ATCCTTTGGGTATGTACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGA
ACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTAATGATCACCATTCTAACT
GGTATGAGACAGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAATGATGATGAACATTTTTTCATGTGTCTGTTGGCTGTATAAATGTCTT
CTTTTGAGAAGTGTCTGTTCATATCCTTCGCCCACTTTTTGATGGGGTTGTTTGATTTTTTTTCTTGTAAATTTGTTGAAGTTCTTTGTAGATTCTGGAT
ATTAGCCCTTTGTCAGATGGGTAGATTGTAAAAATCTTCTCCCATTCTGTAGGTTGCCTGTTCACTGTGATGGTAGTTTCTTTTGCTGTACAGAAGCCCT
TTAGTTTAATTAGATCCCATTTGTCAGTTTTGGCTTTCGGGACTTTCTATGGTAAAGACCTCTAGGCCTAGCACCTGCTTGTGGCGAAATTGTGAAAGTG
GTCAGGCTACCTCTGGGAACCTTTTGTGGCCATACCCCMTCCTGTTCTCCTGAATGGTTCTAATTCTGATTGTGGGTTATCCCRCAGAGGTGAGGACTAA
GCTCTGATTTTTTGATCTTGCCCAAATTCTTATCTAAGGGGTCTGGGGAATCATGCCCTACAAACCATACATTCTTATCAGATGAGTTTTATTTAACCCT
GTATATCATGACTKACTTTCCAATCTGACTCTCATATAACAAGAAAGAAAATCAAAATATTTAACCCTAAATATGTTTCCTAGCCATTTCTTGAAATTGC
CCTGCAAAGTCTCTTGTGGGAAAAATCCACATTCTATAAAGAATCTCTTTTCCCCTTTGTTTTCCTTCCTTCCTTTCCAGATCCAGGAGATAATCAGCTA
GAACCAGACACCCTTTTAGGTCTGATAAGAAACATTTTACAACTTGCTCTCTCTGAAGTCTGCTATCTGAGAGCTTCCTCTATACAATAAAACTTGGTTT
CCGCAATCCTTTATTTTAACCTGAACATTTCCTTTCTATTGATCCCAGATCTTCAGATAAACTCAACCARTTGTCAACCAGAAAATGTTTAYATTTACCT
ATAGCCTGGAAGCCCCCACCTTGACTTGTCCCTCCTTTCTGAACCAAACCAATGTATTTCTTAAATGTATTTGATTGATGTTTCATATCTCCCTAAAATA
TATAAAACCAAGCTCTACCCTGACCACCTTGGGCACATGTTCTCAGGACCTCTTGAGGGTTGTGTGACGGGCCATGGTCACACATATTTGGCTCAGAATA
AATCTCTAAAAATGCTTTACAGAGTTTGACTCTTTTTGTCAACAGAGGACAAGTGTGTCTCCAGGTAGGCTTTCTTCCCTTGGGCTTTTGAACTTCACAG
TGGACCTTCTTGCTTGGGGTGAGAGGCCTGTGTCCTGAGGAAGGAACATGCAGCAGCAGCTGGTGACGCTGGTGATTTGGTGATGGCACATTCTCCCTAG
AGATGACCCGTGAGTCCCCTGGGGAGAGCGAGGCTGGCTTTGGAGAAAAGTCATGGGATCCATAGTGGATAGGCATGAACTGCTCTTGCTCAGCACTCAA
TGGCCACTTTTCTGGTGACAGCACTACAATTTTGCTTTAGTGATTGACCTGTCTTGCATTTAATACAGCCTTGGTAAGATTGCCATTCAAGGGACCCCAC
TACCCTGGGCCAGGAAATGGGCCATGTGACCTAAATTAGGTCAATCAGATGCTGTCTTCTAGGAACTTGAATTTTGAGGGACTGATACAAAAACAGAAAA
TGTTTGGGGCCAATTCATCCTAATTCTGGCAGTCCAAGGCAACAGACCACTGGTTGCTGCTTTCCAGATTCCTCAAACTGCCCTCCTGCCTGTCCTTCTG
GAGCATGGRGCTTCAGCTTTTCCTTCATCTTTCTGTTGCCTCACTCTTCCAATAAAGAACTTTCAAAGTAAGTTACCCAGAATCGATTTCTGTTGCTTAC
TACCTAAGACCCCTGACTAATACAGCATCCATACCATCTAGGCCTTTGAAGACCTATCACCTCCCCAAAAAGCTCAGGCTTTTCAGGTGTGCTGTGTATG
TTTCATGGTGTTTTATGTATGCTGTGGATATGGAGTGGTCAGGGGATGAGCAGGGCAGGTTGGGTGTTAGGGACTAAGAGAGATGTCAGTGTCAGCCAGG
TTCATATCCCACATTCCTGAGCCATGCTGTCAGACTGGGAGGTGCAACACCCACGGGAGGGGTCCAGGGCTGAGTATAGGCAGAGCATGAAACCACAGGC
TGAACACACTACGTTTTCTGGAGGTGCCAATTTGAAGATTTTATGGCAGGTGGGGAGACACAGGTTTTTTTTTTTTAATTTAAAATTGAATATGTATATA
TTTTGGCATAGAATACAAGAATCTGTGGGAATTTTTATGAGAACACAAGCATGCACTAAGAAATTTCCATCTGGCAGAAAGTCAATTCCATATACGTATC
TAGACCTCTTGGCAGTACACATTTGCTCTGCAACTATAAAGGGTTCTTTGGTGGAAATTTAGAGAAACACAGACCTATGGTATTGAGAGCTTCAACTAAA
CCACAGACTGTTCTAATGTAGGTGCCTCCTCTGTCTGCCCTCAGATTCCTTTTAGGGTTGGACTAGAAGTGGGGCCTCTCAGTCCTGTTAGCTTTGATAT
CTTTTCACAGACCCTAGTTACTGCTACTCTCATGTACAACCTTGTTAAAAATCATTCACCAAGGAAAGACATCCCCTATCTCTGTGGGTAAATGCAAGAA
ACTTAAAATCAGGGAAGTGGTTCTCATGATGGAGGAGAAGGAAGTCAGTAAAGAAAACYTGATCTCGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAGC
ACTTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAGCCCTGTCTCTACTAAAAATACAAAAAATGA
GATGGATGTATTGGCGGGCGCCTTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCAGAGCTTGCAGTGAGCTGAGA
TTGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAGAAAAGAAAAGATAAAAGAAAACCTGATCTCTCTT
TTGGCATGTGTGAGATTCCAAATATATGGATTTCTATTATGTGCTAGGTATTTGTAATGTTTCATCATTATAACCCCAAGCCAAAGATGGTATTATAATA
TCATGGTATGGATGATGATTGTTATGAGCTGAACACTTTTCATCTCCCCAAATTTTATGTGTAGAAATCTTAACCCCCAATGTGATGATATTAGGAAGTG
GGGACTTTGGGAGATGATTAGGTCATGAGGGTAAAGCCCTCATGAATGGGATTAGTTCCCTTATAAAAGGGATCCCCAAAGAGCTCTCTGGATCTCTTTC
TGCCACGTATGGATATAAGAGGTTGGCAGTCTGCAACCCTGAAGAGAGCCCTCACCAGAACCCAACAATGCTGGTACCCTGATTTCAGACTTCTGTTCTC
CAGAACTGTGAGAAATAAATCYCTRTTGTTGATAAGCCACGCAGCTTATTGTGCTTTGTGAYAGCAGCCTGAATTGACTAACACAAYGATCCCAGGGCCC
AGTGAGGTTGAATAACTCACCCAAAGTCACACAGGTATTTAGGCCACTTATTGTAGACATCATTCTTGTTCCAGGTCCCCTTTTGAGATTGCTCTCCTGA
CCTGAATACAGAATAAATCAGATCCACAAGACTCTAGTCCGAATAGGTTTATTGTCTGTGTCCCTTGTCCTAATGGGGAGGCCTCTGCTCACCAAGAGTG
TCCTGACCACCTGGGGCTAGGGGTGCTGGAGAGGAGCACAGAGAGGAGGAAGGGCCTGAAGATGATTTCCCCAACAACTCTGTACTGTGGGGGTTAAGAG
TGTGGGCTCTGAGGGTAAACAGAGCTGGATTTGAAGCCCACTCTCCTCCTACTCATGGTATAGATAAGAGGGAAGGAGGGGGTAGAGTGGGAGGGAAACC
ACCAACCYCAGCAAGCCACAGACTCCAGGAGGCCACCAYTGGGTCCCGAACCATGCTCCTATTGTCTTTACAAAGGGGAATGGCAGCTGCTCCACCTCCC
ACAACATCCAATCAGGCATCCTGCAGACGGTGGCAAATCACAGAGAAGCAATGGCAAAGGGGCTGTGGATGGGCCTGACTGTCTGGACATGGCCAAATCT
GCTGCCCAGCCACTTGCTCTTGTGACYTCATCCTGACCTGAAGYGTCTGCCTACAGGTGCTCCTGCCTCTCCCCTGGCCCAGCAAGGACCGCAGGATGCC
CTTCCTTAACTCCTGGGTAGGAGCCCACAGTGGTGACTGATCCACGTGAGGTCCCTTAGGTGGTAAAAGCGTCTCCACCCCCAGCCTTCCCGGGACGTCC
TGTGCAGCAGGAGTTGATAACGCTGTGTACAGGCTGATGGGGGTAGACACGCTCTTGTTGCCAGGCCCTGGACRCTCTGAACCCCAGCCTGGGCTCCTGG
CCTTAATGGGGCAGGGAGGGGACCATCGGGGCACAGAGCCAGGGATCCTGTTACTCTCTACATAGAGGTGCCAAGTAGGCTACTTWTTSAAGTTTTCTTT
TTTAAAAAAACTTTCTTTCCATTCTATGACTCTTTAAGGGAAGAAATTCCATTGTGCACTGTAACACTGAGGACTTTTACACCAGAGAGTCTCACGGGGA
ATATTCAGGCCTTGGAGAAACCACTAGAGTTTCTGTTGCTGGAGGACAGGGGCCCTGTCTTAGATTCTCTTGCTCAGGCCTGGAAAGATACTTAGGGATG
GTCTAGTTCAGTCTGAGTCAGTGTGAGCCTGGCCTCATCCCAGACAGACAACCATCTCCCTACAAACAGCACCAKGATGCCTTGTTGAGTTCATGGTCCC
GCCTGCTCCAAGGCACTGCTGGATGATCAAAATAAAGGTCCTTCCTCTTACGTGCTGTGAGTCTTTAAGGGGGTGAAGAAGTCARGCACTGAGTGGGAAG
TACACCTRGAGGCGCAGTGTCCACTGGGCTGCATGTCAAAGTCTGTCATGTGTCTCCTGGGTGACGCTTAACAAATTGCTTAGCCTCTCTGGGCCTCTGA
TGGCTCATCTAGTGTTAATAAGAWAATAAGCCAGGCGTGGTGGCTCACACCTGTAATCCCAGCAATTTGGGAGGCTGAGGCAGAATGATTGCTTAAAGCC
AGCAGTTCAAGACCAGCCTGGGCAACATAGGGAGACCCCATTTCTTTTTTTTTTTTTTTTGGGAGACCCCATTTCTACAAAACTTTTTTAAAAAAATTAG
CCAGATGTRGGGGYGCATGCCTGTAGTCCTAGGTACTCAGGAGGCTGAGGTGGGAGGATGGATTGAGCCCAGGAGATCGAGGCTGCAGTGAGTTGTGATT
GTACCACTACTACACTCTGGCCTGGGTGACAGAGTGAGACCCTGTCTCTAAAATAATAACAATAATGTTATAATACTACTAATAATACAGTAGTGTTAGG
TCCTTGTGGCTGCAATACACTTTGTAGTTTACAAATCATGTTTGCATACCTGGAGTCTTAGAGCTTCCCTACAGACTACTCAAAGCAGATATTTTTAGCC
CTATTTTTGAGTTGAAACTGAGCTCTAGAGAGGACTAGTGACTTTGTCAAGATCACAAGTGACCTTGTGCTGTTGCTGTTTCGAGAGAGTGTGTAATCCT
GTTGCTGTTTAGAGAGAGTGTGTTTTAGATTTATGTGACCTAGAAGCACCAGCACGGGATCTTTATCCTGATGTTCTTGAGCCACCACCAGCTCTCCTCC
AGGCCCAGGCTTTTGTGAATTACAGTGAAGAAAATGCAGACCAGGCGACTTGCTGAGTGACATGGTCACGTATGGTGGGGAATCATCCAATACCTTTAAA
ATATTTTTTTGAACCTTGGTGGAAAAGTGTGTTTCTTCATTCATTCATTTCTTCATTCATCTGTTCATCAAAGTTTTGCGAGGCTCTAAATGTGTGCTAG
GCATGATGCAAGGAGTGGGGACAAAATGGAACCAGCCATGACTACTGCCCTTGAGGAAGTCACAGTAGGTAGGAAGATGGACATCGAGACATAAGTACAG
CAGAAAGTCATTTATTTATTCCTGTCATTTGTGAATCCTCTTCCATCTTCCAGTAGTCCTTACGGAAAAAGCAAATACCCATAAAAAGATCTCTTAAGGC
GACTGGGGGCACACACGGGGTGGGGGTGGGAGTTTGGGGACAAACTTCAGCACCTCACAGTCTTGTGGTGGGGCCTGCATGCATATGTGGGTGGGGCATG
AGGAGGAGCACGTGTTCTTAGAGCTCAGTGTCCCTCCCACCACATTCCCCTGTGCGTTGCCCCAGGCACAGGAACTTTGTAATCACATCCAGCCTGGGAY
TATAACCAAACACAGCATTCCACCACCCTCTGCAACCTCTTTGTTTGATCTTCCCCCTGGAGACACAGGTCAAGAGGAAGAGAAGGGGAAGGGGGGCAAA
CTGCAGGGAGAGTGTGTGGGGAGCTTCCTTTGAATTGTCTTTTAATTCAGAAACAGAAAACAAAGATGCCATTTCCCAAGGCCTGAGATACCGCCGCTCT
GCATTAAAGGGGTTCAGTCTCAGAATCCTGGAGCAGGGTCCACCTGGGAGGTCACTAGTCTGACCCACCTGGTTTACAGAGCCCAGGAAGGGACCATAAC
TTCTTTGATGTCACACGGCAGAGAGGGGCAGCATTGCAGTGTGATGTCACAGCAAAGAGGGGTAGCTACTCATGGAGAATGACTCAAGAAGCCTGGGGGA
AAGCCTTCCCCACCAGTTGCTCAGTAACACCTAAACTGCCTTGCCTGTGGGACCCAGCCTTGTACTGCATCATCAGAGATTAGCCTGACAAGCAAATGCA
CCAGGGAGGAAGCCTGGTAATGGGGGCTCATTTATGCTAGGGCGTGGATGACTGATATCAGGGTCTTTCACACCAAGAGGCTTAGCCGGAGGCAGAGGAG
AGGAGATCAGAAGGGCACTGGAGACTGCAAGGGCAAGAGGTGACTGGGGCTAAGCCTAGAGGGAAGAGGGCATGGAGCTGAGAGCTTCAGGCACAAAAGA
GAAACTTAATACCTGCTTTGTAGGCCCCAGGTCCTGTGCCTGATTTTCTCTTTCCTCTGAGAAAGAAGCTGTGAGGTTTCTGAAGTGTCAAGTCACTCTT
CATGTCTAATCCTGTTGCTGTTTAGAGAGAGTGTGTTTCAGATTTATGTCTGAACTGCATCTAAAGGTATCAGCAAAGTCGTTAATTTCAGCCACCTGAA
TCTGGTGGCTGCCTCTGCTTACGCACAGCAACACTTCCTTCCTCCAGTCCTGTGGGAAATAAGGTATTTCTTCGGGTGAGGTTTTTGTTTTGTCTTGTTT
TTTAATAATTTAAGCTTCCTGTTTTATGTATCTAATCTCTTCATATTTTCAGTATGAGGGTACTACTAAGGGGCATTTTACATTCTCGAAGTATGCTGTA
ATTGTTGTTTATAATTTAAATTTAATCTTTTTCTTTAGTGTTTTTAATTACWTAAGAAATACATACTCATTGTAAAGGATTCAAAAGATAGAAAAGTACA
TGAAATAAAAAGCATCACTTTATCGCTTTCTACTGCTAAAGGTAGACACTTAACATTTTGGTTTTCTTTCTTTCTTTCTTTACTTTTTTCTTTTTTTTTC
AGCAAAAAAGGTATTATATGCCACGTCAGCAGGTCTGTGAATTCATGAAGATCCCTGAGACCATTTCAGGGGTCCACAAGGCCAAAGCTATTTTTATAAT
AACACTAAGACAAAATTTGCTTTTTTTCCCACAGTGTTGACATTTGTACTGATGTTGCAAAAAGTAAAAGTGGGTAAAAACTGCTAGTGTCTTAGATCAA
GGAGGTGGCTCCTTGAACTGTCCTGGTGGGTATTCTGTCCTTCACTACTACACTCTCAGAGGAGCCGAAATGCCAGTTTCTTAAAGAATGTCCTTAATGA
AGTAGTAAAGATGATAAATTGTATTAAATTTCAACCCTGGCGTACCTGCCTTTTTAAGATTCTGCATGAAGAGATGAGAAGTATGCTTAAGCCCTGCTGC
ATTCCAAAGTCCACTGACCATCCGAGGAGACACTCGTGCAGCTGTTTGTGTTGCAAGCTGAATTCACTGTCCCCCAGTCGCCCTGTCCCCCACCAGGGAA
CATCATTTTTACTCGAAATAATGACTGACAAACTATGGTTGTTCAGATTTGGGAATTTTCAGACATTTTCTCAAAAAATGAATGAAATGAACCTGTCATT
TCAAGGAAACTGACAGTATTTGTTACTAATGATGAAGTTTCAGCTTTCTTTTATTTTCTTTTTAACTTTTAAGTTAAGGGGTACCTGTGTAGGTTTGTTA
CATAGGTAAACTTGTATCATAGGGGTTTGTTGTACAGATTATTTTGTCACCCAGATATTAAGCAAAGGACCTACTAGGTATTTTTCCTGATCCTCTCCCT
CCTGCCACCCTCCATCCTCCTACAGGCCCCAGTGTGTGGTATTCCCCTCTATGTGTCCATGTGTTCCCATCATTTAGCTCCCACTTATGAGTGAGAACAC
GTAGTATTTGGTTTTCTGTTCCTGTGTTAGTTTTCTAAAGATAATGACCTCCAGCTCCATCCATGTCCCTGCAAAGACATAATCCCGTGCTTTTTTATGG
CTGCATAGTACTCCATGGTGTATATGTAACATGTTTTCTTTATCCAGACTATCGCTGATGGGAAAGTTTAAGCTTTCAAGCAAACATTAGAATTTCCAAA
GACTTATATTTTCCACTGTGAGTTGGACAGCTTCCCAACACTTAAAGACTTTAGTGATGAAAGGGGTGGTGATAATAAATGTGATTTTTGATGCTGTTAA
TAAAATGTGTTAATATTAGAGCTACATAACTTAGTGAACCAATATTTTTCAAAGACTCATGCATAATGTTATAAAATCATTTGTGGAAGATAAACCAATG
GATTTTAATGTAACGGTATAGATTGTTCATTGATATGATTTATTTTTTATTTTTATTTTATTTATTTATTTATTTTTGAGATGGAATCTCACTCTGCTGC
CCAGGCTGGGGTACACTGGTGTGATCTTGGCCCGCTGCAACCCCTGCCTCCTGGGTTCGGGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAC
AGGCACCTGCCACCACACCTGGCTAATTTTTGTATTTTTAGTGGAGACGGGGTTTTACCATGTTGGCTGGGCTGGTCACGAACTCCCGACCTCAAGTGAT
CTCCCCACGTTGGCTTCCCAAAGTGCTGAGATTACAGGCTTGAGCCACCGCACCCGGCCTCATTGATATGATTTAGAATCCACGTTGCCACTAACCTTTC
AGAAACTACCACTTGTCAAATTTTGGTAAACAATCAAAGAACAATAGCCATAATAATCTGGAAAGACTATTAAAATAATCCTCCTTTTTCAACTACGTGT
GTTTGTGAGACCAGATTTTCTTCATGTACTTCAACCAAAACAACATATCACAACAGATTTAATGCCAAAGCAGATATGAGAATACAACTGTCTTATATTA
AGCCAGATATTAAAACACATTTGAAAAAATGTGAGACAATGCCAGTCTTCTCACTAAATGTTTTGATATAGTTAACTTTCATAAAAAGGATATGATTTAT
AGTAACATGCAATGAGTTTATTACCATTATTTAAAATTAAGAAACTCATTTTTTGAAATTATCTTAATGTTTAATACAATAACTATTGATAGACATAGCC
TACATAAGAAAATCTCCAGCCAGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGACAGGCAGATCACGAGGTCAAGAGATCAAGAC
CATCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCGTGCCTGTAATCCCAACTACTCAGGAGGCTGA
GGCAGGGGAATCACTTGAATCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCACCCTGGTGACAGAGTGAGACTCCGTCTCAAAA
AAAAAAAAAAAAGTCCCTTGGGATCCTCAATAGTTTATAAGAGCATTAAGAGGGTACTGAGACCAAAAAGCTTGAGAACAGCAGCTCTACACATTATTCC
ATACTTAATCATTATTACAGCGCTACAGATTATTCTATACTTGATCACTCAAGTATGTAGGCCCCAGCTCCTCTGCATGCTTTTTTGAAAACTTAACCTT
TCCCCTATTGATGGATATTTAGATTAGTTATAATTTTTCATTATTGTTTATAATGCACAACAAATATCTTTTGTACTTCTTACACAATTTTGCAAGTCTT
TATGTCAGACAAATGACTAGAAGAACTATTGAATCAAAGACTATTCATATTTAAAAACTTAATACTTTCAAATTACATCCTAAAAAGGTGATATCATTTT
AAACTTCTGCCAAAAATGTGTAAGAGGTTGGGCATGGCGSCTTGTGCCCATAATCCCAACGCTTTGGGAAGTCAAGGCGGGAGGATCCCTTGAGGCCAGG
AGGAGTTTGAGACCAGCCTGGGCAACAGAGCAAGACCCTGTCTCTACAAAAAAATTTTTAAAAAATTAGCTGGGCATGATGGTGCATGCCTGCAGTCCTA
GCTACTCAAGAGGCTGAGGAGGGAGGATCTCCTCAGCCCAGGAGGTTGAGCCTGCAGTGATCCATGATTTCACCACCTCACTCAAGCCTGGGCAACAGAG
TAAGACCCTGTCTCTTAAAAAAGAAAAAAAGTGTAAGTGTCTATTTTCTCATCATCTTTTTTTCCTGTCTTCTTAAATTAAGTATTTTATGACTATTTTT
TCTCTTCTTTTTTTTGACTCTTTTGCCTCAAAAAGCATTAGAGTGAGCTTAAAATGAAATTCGGGAACATAGACAAATTAACAAAAGCAGGTAAGGAGGG
TTATACTAAAAATCTAGATGAATGGAAGACATGTAGCTAAGCACTACGTTTAACTCTGTGCTTTCAGGCAACTGAGGTGAAAAAGAAAAACAGTGATTTA
CATATCTATGACTATCTACTAGCAGGAAGTCAATGAGTACCCAAAAAGAGAGCAAAATCTATGATCTATCCCTTTTCTTTTTTTTAAGAGATGGGCTCTC
ACCATCTTGCCCAGGCTGGTGTCAAACTCCTGGATTCAAGCAATCCTCTCATCTTGGCCTCCCGAAGTACAGCGATTACAGGTGTGCACCACCACTTCCA
GCTAATTTTTAAAATTTTTGTAGAGATGGAATCTTGCTAGGTTGCTCAGGCTTGTCTCAAAGTCCTGGCCTCAAGTGATTCCTCCCACCTTGGCCTCCCA
AAGTGCTGGGATTACAGGCATGAGCCACCATGCCTGGCCTATATGAGATACTTAGTCAAATTTATAGAAATAACAAGTAGAATGGTGGTTACCAAGGACT
TAGGGGAGGGGGAAAAGGGGAGGGGTTGTTTAATGGTGATATGGTYTGGCTGTGTCCCTACCCAAATCTCATCTTGGATTGTAGCTCCCACAATTCCCAC
GTCTCATGGGAGGGACCCTGTGGGAGGTAATTGAATCATGAGGAGTGTGGGTCTTTCCCGTGCTATTCCTGTGATAGTGAATAAGTCTCAGGAGATCTGA
TGGTTTTATAAAGGGGAGTTTCCCTGCACAAATTCTCTCTTGTCTGCAGTCATGTAAGACATGCCTTTCACTTTCTGCCATGATTGAGAGGCTTCCCCAG
CCACGTGGATCTGTGAGTCCATTAAACCTCTTTTTCTTTATAAATTACCCAGTCTCAGGTATGTCTTTATCTGCAGTGTGAAAATGGACTAATAGAAATG
GGTATAGAATTTCAGATTTGCAAGATGAAAAAGTTCAGAAGATCTGTTTCACAATAATGTGACTATACTTAACATTACTGAACTAGACACCTAAAAATGG
CTAATTTTTTCAAAAAATGGTACTGGAACAACTGGACATCCACATGCAGAAAATGAATCTAGAAACAGACTTTACACTCTTCCCCAAAATTAATTCAAAA
TAGATCATAGACTGAAATGTAAAATGTRAAATGTAAAACTACACTACTCCTAGAAGATAACATAGGAGAAAACCTAGGTGGCCTGGGCTATGGTCATGAC
TTTTTAGATACAACACCAAAGGCACAATCCATGAAATAAATAATTGATTTGCTGGATTTCATTAAAGTTTAGAACTGCTCAGCAAAAGACAATGTCAAAA
GAATGAGAATACAACCATAGACWGGGAGAAAATATATGCAAAAGATATAACTGATAAAGGACTGTTACCCAAAATATACAAAGAACTCTTAGAACTCAAC
AAGGAAACAAACAACTTGATTAAAAAATAGACAAAGACCTGAAAGATATCTCACCAAAGAAGATCTACAGATGGCAAGTAAAAGCACATGAAAATATATT
AAGCATCATACATCATTAGGAAATTACAAATTAAAATAACAATGAGATACCATTACATACCTATTAGAATGTCCAAAATCCAAAATACTGACAACACCAA
AAGCTGATGAGGGTCTGGAACAGCAGGAACTCTCATTCATTGCTGGTGGGAATACAAAATGGTACAGCCACTTTGGAAGACTTTTTGACAGTTTCTCACA
AAACTATATATACTCTTACCGTATAATCAATCAATTACACTTCTTGTTATTTACCCAAATGATTTGAAAACTTACATCCACACAAAAACCTGCAACAGAT
GTTTATAGTAGTCGGCAGCTTTATTAATAATTGCTAAAACTTGGAAGCAATCAATATGTCCTTTCATAGGCAAATGGATAAATAAACTTTGGTATATGCA
GACAATGTCAAGTGATTCAACACTAAAAAGAAATGAGCTATCATGCCATGAAAAGACATAGAGGAAATTTAAATGCATATTACTAATGCATTTTCCAATG
TGAAAATGTTGCAGACTGTATAATACCAGCTATAGAGCATTCTGGAAAAGCCAAAACTATGGAGACAGTAAAAAGATTAGTGGCTGCCAGGGGTTAGAAG
GGAGAGAGGTATGAATAGGCAGAGCATGAAGGATTTTTAGGTCAGTGAAACTATTCTGTGTGATGCATGTCATTATACATACGTCATTATACATGTATAC
AATGGTAGATACATGTCATTATATGTATGTCAAAATCCATAGAATGTATACCACCAAGAGTGAATCCTAATGTAAACTATGAACTTTGGGTAATAATGCT
GTACCCATGAAGGTTCACTGCTTGTAACAAAGGTACCATTGTGGTATGGGATGTTGATAGTGGAAGGCTGTGCGTACGTGGGGACAGGAGTGGGGATGGG
AACTCTCTGTACTTTCTACTCAGTTTTTTTGTGAACCCAAAACTGTCCTAAAAAGTAAAGTTTATTAATTTTATAAAATGGTTAAGATGGTAAATTTTAT
GTTATTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTAGCACAATTTAAAGAATCTAGAACTGGGCATGGTGGCTCACACCT
GTAATTGCAGCATTTTGGGAGGCCAAGGCGGGAGAATCACTTGAGCCCAGGAGTTCAAGACCACCCTGGGCAACATGGTGAAAACTCCATCTCTACAAAA
AAAAATACAAAAMTTAGCCAGGCATGGTGGTGCATATGTCACCAGCTACTCAGGAGCTGAGGCCAGAGGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTGT
GACTGCACCACTGCACTCCAGCCTGAGTGACTAAGCAAGACCCTGTYTCAAAAAGAAAAAAAAAAAATGAAAAGGGAAATTAAAATAAAAAAAAAAAACC
ACACACACTGCAAAGTCTCACTTTCATTCCATCCTGTTCTTGTCGAAGAGGCAACCATTTAAATTTATCCTTTCAGTGTTTTTATGCAACTTCCACAAAT
ATAAGTAATGCATATGTTTTTCTCTTCCTTTCATTCACAGAAAGTAACATCCTATATACACTGGTCTACACTTCCTGTATATTGTGTTTTCACTTAACAA
TCTATCCTGGAGATCTGTATTAAGCAGTGCTGTCCAATAAAATAGTCACTACCCATATATGGCTATTAAGCAAAAATTAAATACAATTAAAATTTAGCTG
GGTGCAGTGGCTCACGCCTGTAATCCCAGCACTGTGGGAGGCTGAGGCAGGTGGATCACTTGAGGCCAGGAGTTGGAGACCAGCCTGGCCAACATGGCAA
AACCCCGTCTCTACTAAAAATACAAAAATTAGCCAAGTGTGGTGGCACGAACCTATAATCCCAGCGACTGGGGAGGCTGAGGCACAAGAATGGCTTGAAC
CCAGGAGGCAGCAGTTGCCGTGAGCCAAGATAGCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTTAAAAAAAAACAAGATTAGTTCCT
TAGCTGAACTATTCACATTTCAAGCAGTCAATAACCACATGCGGCTGATGGCTACCATTTGTCCAAGAATAGAATATGTCCATTATCACAGAAATTTCTT
TCAGAAAGCACTGGTTATAAACATCTTCCTCCTCCTTTTTTACAGCCATATAATACTCCACTGTGTAACAGTTTATTCTACCAATCCCTTCCTGGAGACA
TTTGAGTTGTTTGCACTATTTTGCTGTCATAAACAGTGCCCTATCATCACATGAGTTTTTGTGGAATAGGTTCTGCACTAACAAAAGGCATGGTAAGATA
AGGCTGTGACCTGAGGCAGTGATTGCTCTGCAGGCAGGCCATACCAGGGTGGGATTTCTACTTCCGTGGATCTACTCAGTCCTTAGCTATGCAAATCTGG
AAATGTTCAGGCTGATGTCACATTAGCCACACTCATAAGACACTATTGGGCATCAAAAATGAGCAATTACTTGATATTAAATGGAGGTAGTTSTTTAGAT
TTAGTGAAATCCTCGTGTCTGCTGCCTAAGACATTGCCTTCCCAGAAGGTAAGCCTTGCCCAGGGGAAATGGATAATTCTGACACATATTTCATCCAGAC
ATGACAGGTTCCTGTTCCTAAACCAAGTATGCCTCTCCTTTTATCGGRAAGCTTGTGTTCACTAGGAYCACCATTTCCTGTGCAGCATTTTCCCCTGGGC
CATCTTTGCACAGATGCCTGGGAAACTATTCCTCTTCTGCCAGCTCTTTCTTCAGGCAGTACACMGTGTGCTCGGGAGGTTTCACCTTGTTTGGTGATGG
TCATGTTTCAGTGCAGTTTCAAGTCCTCCCCAAATTCTTCAGTTATATAACCACAATGTCTTCAATATTGCTATTGTGACATATGGTGGTTTTAAAATAC
GCCTAAAAATTCTTTACTACTCTGCTCTTCAAGTGATGAAATTAGCTGAGCATGGTGGCATGYACCTGTAGTCCTAGCTACTCAGGAGACTGAGGCAGGA
GGATCACTTGAGTCCAGGAGTTCAAGTCTGCAGTAAGCTATGATCATGCCACTGCACTCCAGCCTGGGCCACAGAGCGAGACCTTGTCTCTTAAAAAGAA
AAAAAGATGGAACTTAATTCCCTTCCTGTTGAGGGTGGACCGGACTTTGTGACGTACTTGTAATGAATAGCATGTGGCAGAAGTAACAGTGCGTGCAGCT
TCTGTGATTAGGTCTTAAAAGGGAATGTGGCTTCCTCCCTGTCTGGCTTTCTTGAATTATTCATTCAGGGTAGGCCAACTGCCATTTCATGAAGACACTC
AACTAGTCCTGTGGAGAGGTCCACGTGGTGGGAACTGAGGTTTCCTGCTAAAACCCAGCACTAACTTGCAGGGTGAGTGTCTTCATGCATTTTGTGCTGC
TCTAACAGAATACCTGAGACCGGGYAATTTATAAAGAGCAGTAATTTATTTCTTCACAGTTCTACACACTAGGAAGTCCAAGATTAAGACAGCGGCATCT
GGCAAGGGCCTTCTTGCTGTGTCATCACATGGCAGCAAGGCAAAGAGAGAGAAAAAGAGGGGATGAACTCATCCTTTTGTAACAGTATCAATCCCACCTC
TGAGGGCAGAGCCATTACGACCTAATAACCTCTTAATGTTCCACCTCTTAATACTATGACAATGTCAGTTAAATTTAAAGACAGATATTCAAATCATGGT
GCCAGGTGCAAGAGCCACCTAGGAAGTGGATTCTCCAGGCCTCATCCAGCATTCGGACGATTGCAGACCTGGTCAACTTCTTGAAAATCTCATGGGAGAC
CGAGTTAGAACCGCCCAGCCAAGCTGTTCCTGACCCACAGAGACTGTGTGAAATACTAAGTGTTTATTGTTTTATGCTACTAAATTTGGGGAAAATTCAT
TAGCAGCAACAGATAGCTAACATATCTAGATGGCTGAGATCATCCGTTTTTGTTTTGATCCTTATTAATTTCCCTCTTGCAGGGTTATCTTGACTTCTAA
TCTACAGGGACACTCGAGAACACTAACCTGTGAACCATCATTTTCTTATCTGTAAAATGCAAGATTGGTATGAAGGGCACAAAGCAGGGACTTAAATGGA
AATGATTAATATTGTTGTCGATGCTCATTAATAATGGAAGCCTTGGGTATCTTCCATTTGCCCCTCCATATCCATGTCCATTTCCAATCTTTTCTCACCC
TACTCTGTGCCCCAGGAGGGGCTGACTTCCATGGACTATGTCAGTGGCCTCTCTGGTTCTCAGCCTTCCGGTAGAGTTTGGCAAATGAGAAATACTGGCA
GGAGATAGGAGGAGGGCCAGAGGAAAGGGATGTATTTCCTTGGTTTCTTCCTTTCCAAGTCACCATGCTTTATCTTCATTCCTCTACCTCAGGCCACCCT
GTCTTGGTACTGGTAACTACTGTCTCCTCTCTCCCCTCCAGGCCTCTGAATGATAACTGCTCCCCTCTTTTGCTAGCCCCAGGGTGTGTCAGTGTCCTTT
GGTGGGCTCCCTAAGCTCTGTCTGCACAACTTTGTAAATAGTCCCTGTATTAAACTCACCTCAAATTGTATAGATCCCCTGCAGGGATCCTRAATGAGAA
TGGCTAGTTTTAGTTGCTTTTAATAATGATCCTGGATTTTTTAAAAGAAACAAACATTCTATAACCAGAAAGATTTCTGAGAATCCAAATAGATACAAGA
TTGASCTTAGAAAAATCTAAAGAAATGGTTGTTTAGAATATCCCAACTTGAATTATCTGGCAAATGTACGTATCACAGATATGAAAGGAACCTTGTTTCC
CTCCTGAGAGCAAAACCCAGRACCTCCAAGCAAAACCCAGGACCTCCAAAGTCGTCTGTGGAAGGAGTATAGCTGGAGTAAGACAGCAGGGAGAGCCAGG
CGCCATGGCTCACACCTGTAACCCCAGCACTTTGGGAGGCTGAGGTTGGCGGACCACTTGAGATCAGGAATTTGAGACCAGCCTGGCCAACATGGTGAAA
CCCCATCTCTACYAAAAACACAAAATTTGTTGGGTGTGATGGCGCATGCCTGTAATTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTC
GGAGGCGGAGTTTGCAATGAGCCAAGATCTCGCCATTGCACTCCAGCCTGGGAGACAAGAGCAAGACTCCATCTCAAAAAGAGAGCAGTAAGACCAGTGG
GAGAGGGCRGTTGGCCAGCCTTGACAGTGTTTCCTGAGAGGACACTTCTCACCCTGAATGCTACTGCCTCCTGCCCACAGGGTGTTGCTGCTTCTCTTTC
ATGCTTTCCCTAGAACTTCAACAACAGCAACAAAAGCTTTATAGATATTTAAGGAGACCAAAAAGGAGAAAGCCTGAGGAAGAGCCATCCACTTARGCTG
CTCCTCATCCTACTGGAATGAGGAAGTGTAGCTTGGATTCCCAGCCTGGCTGACTTCTCCAAGCGTTGACATCTGTCCCACCCCATGGGGCCAACACACC
TTCCCAGGCACCTGCCTGAGTTTCTCATCTTCKAAGTGGGCATAATACTATATTGAGAGGGTTCATCTATGTAAAGTGCCTGGGACAGTGTTGACACCCT
GTATGTGCTAATTTTAATAGCAGCAGCAGCAGCTGTAGTTATTAGTGAAGATAATGGGTGTGGAACATGAACATTTGTTTTGACATGTAGGGTTGAAATT
TATGCCAAGAGCCTCTGCCTAAACCCAAGAGTCCCAAGAGTGTCTGGGATAGACTATGAAAAAGCATTAAAAGCCTGATGTCTGTACAGAGATCACACAA
ATTGGCCTGTAGATGATTTTTGTTGAAGGGGTGGTGACAGAGCAGTAATAAAAAACYTAAGTTGTTCTTATCCACTGAGTTGAGTCTTTAGAACCCAGCT
TAATATTTTCATGGCTCAGATTTATTTTGAATCTTAGCTTTTATTTAGTGCTTTAAAATGGGAGCAGATTGGGCTTACGAAAGGATGCAAAACTTGCCCT
GACATTAAATGGCCCCAATTGCTAGCCTCTTCAGTTCTTATATCTCAATTATAATTTTTTATATTATAATTGTTGGCCTGTTTCCTCACGCTATGCTTTT
AGCAGCCAGATCTTATTGCTTAGAAAGTGATTAATAAATGTTGGTTCATTAGTAATGTTTGGTTAATGACTGTAAATGCTTTCTCATTTTCCATTTCCCC
TCTTTATTGTTAATTGCTTCTAATCTATAAACTGGGAAGACAGATGTCAAATCTTGTAGTAGTGTATGCAGCTGGAACAAGTCAGTACTGGGAAACAGAT
TATTTTACTCTTGGAGCACCTGCCCATGTGGAGCTCCTTTTGAAGAAAGCCGATCATTTGACCCTGCCACCATGGAGCAGAGATGGACAGCAAACCCAAC
AACAGTTGGCTATAGACTGAAAGCCAAGGAGTCAGTCTCCAAAGAACATCAGAAACCAATGGAACCAATCAAATCCTCTCTTTTGGAGAGTTTGAATGTG
AGTCTCAAGAGGACATCCCATGCTGAGGAGGTTGAGGCTAACCCATGCAGAGATAAGGCAGCAAGCAAGCCCTTAGGTAGAGCGAGGCTGTAGGAGGAGT
AGCCGTGGAGGCAGAGTGGCTTTGTTGCCTGATGGTGRAACCTCAGAGTCAGGGGCCACTGGGCAATGCTGCCAGCATGGAGCTACAGTAATTCCAAATG
ACTCCTAACCATGTCCTGCTGACTTCCATGACTGTTAGAAGGAAAGTTGGTGCTGCCTAGTTGTTCCCTTGCATGTGGCTGTGTGGGCTGTTTTGGTTTA
TTTGTTTAAGAGGCAAACTGTGGAGAGGTAAAGAACTTTCACTTACTCTAACCAGAGTATCCTTATTTTCTAGAACACTTTTTAAAAATTTAAGCATTTG
ATATATGGAACCTGGTATAGATATTAAAATGCACTCAAGAGGAAACATGCTTTTGAGCTGAGGTCCTATTTTCCAGCTTCTTTTCCTTTTTTTTTTTTTT
TTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCACCTCGCTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGC
CTCAGCCTCCAGAGTAGCGGGGTTTACAGGCAYGTGCCACCACAYTCAGCTAACTTTTGTACTTTTAGTAGAGACGGGTTTTCACCATGTTGGTCAGGCT
GGTCTCTAACTCCTGACCTCGTAATCTACCCGCCTCAGGTTCCCAAAGTGCTGGGATTACAGTCGTGAGCCACCATGCCTGGCCAGTTTCTTTTCCTTTT
ATTTTGGGTCTGGCAGGAGGCTTTTATATTGTCTCCCAGGTGTGAGGACTAGTCACTGTATCATGCTTGTAAAGAATGAAATGGGTTTGGAAAAAGAAAA
AAAAAACAATTTCAAGTTGCTACTGGCTTTAAAAATCCTACTCAGAGTATCAGCTAGCACAGCTTTTAGATGCTCAGGTCAAGGTCATGGAATCTCTCTT
TCCTCTTCTTTGCTTTCTCAACTCTTCAGGTACACACACCCCCATCCACTTCTTCCACTGACTTCTCAGACTGTCTTCCCTCCTTAACTCTTTCCATTCT
CTGTGTTCTTCTGACACAATGTAATACTTCCCAGCACCAAACATTATTACACTGTGTTGATAGATAAAGAACCCAAGGTGCTGGCCTGAGAGACAGAGCC
AGGCTCAGTGAGGACATTCATTGCCAGCTGTCATGGGAGAGTGGATGGAGATTGTAGCAGTGGGCTCAAGAAAGTCAGAAAACAAAGGCTTTCTAAACAA
GTGGAGGAGAAATCTAGAAGTCATAAAGGAAAAATGAACACATCTGACTACATAAAATATCTTAAAACTATAAGTGGAAAAAGATACCATAAACAAAGTC
AGAAGGCAAATGACAGAGTGGACAAAAATATTAGCAACACATGTAACAGATAAAAGGTAAATGTCCTTCCTATACAAAGAGTGCTCTACAGTTTAAAAAG
GAAATATGAAAGGTCCAATAGAAAAATGGTTTGAGGTTTGAATAGACAATTCACAGAGGAGAAAATGCATACCTCCAGAAGACATAAAATTATGCTTAGC
ATTACTTTAGTCAAAGACGTATGACATAAAACAATCAGGTTTTTGTCTGTCAGATTGGATAAAACTAAAATGACAGATAAGAGTAAGAAAATGGCTGCAT
TGATATAGTTAGTGGAGGGTACATCACACAACCTTTTGGAATAGAGTTTGGCCATGTCARTTAACATTACCATGTGCCCTACTCAGTGATCCAGCAGATC
TACTTCTAGAAATCTGGCATACAGAAAAACTCATGCACATGCATAAAGATACATGGATGAGATTTTCATTGTAGCTCTGGGATATAATAGCAAAAATGGA
AAACTGAAATGTTAATAAGGGAATGTTTAAATAAACCATGCATGGTGCATGGTTAACCTAGGCAGTAGATAAAAAGAATGAGGTGGCTCTACAGACACTA
ACCTACAAAGATGTTCATCGTATATTAAGTGTAAAAAGCCTGTTGAAAAATTGGATAAACAGCATGAATCAATTTCTACACTTTTTTTAAAGTATGAAGA
AATAGTGATTTATGGGTAGGTATGCAGGGATAAATACAGAGCAAATGGTTAACAGCAGTTTAATCTGAGAAGTGGAAAGTGGGGTCTTGTGAGACTTTGT
ATAGTTCTTTCTTTCTAAGCACAGTTGAGTTATGGGAGGTTTTGCTTTATGTGTTTTTCACTAACTTTCTAAAATATCTCAATGACAAAATATGGTACAA
TTGTAAGGACATTTGTGATAACTGATCGATCTGTTATATGCCTATTTTGCTTTAGGCACTGTACTAGAGTGATTCCACAAGCTAATTTTATCTTCATCAC
TCCCTATGCAATACATATTATTATTAGAACCATTTTGCAGGTGAAGAATATGAAACTTAAAGAGCTGAAGCTACTTGTACACAGACTCTGGCTGTGGTCA
TGGCTTATAGGCAATTTGAAGCAAAGATGTTGGCAATAATGTAACACCCAGGGTGCTATAAGGACTAGATTGAAAGTCTGCCATCTGAGGAACTCTCTTT
AAAGCACATGAATAGTCCTTAAAAACTGGGTCTCAATACATCCTTCCCCAGCTGTGGTCAAGTCCCCCTTCTTTTGGCTTTTGATGTCCTGGCTTTGTAG
GCTTGCTGTACTCTAGACAAGGAATGCAAATGAGTGTTGAATGAGAGTAGGGGTTTGAAGTCCCAAGCACTAGAAGGCAAATTTACCTTCCCCCACTTAA
TCCTGGGTAAGCAAAACTGAATGGTAGCCCAGGTATGTCAGCTGCCCTCATTCTCGGCAACACTTCCAACTCCTTTTCTGCCTCTTTCACAGGACAAATC
TCCAGCTGYGAAGTCCCCAGAGACACCTTCCACAAAGCTGGCAGCCTTTGCCCAGGGCTGTGGCAATTACTCCAAATGTTGGGAGAGTCCAAACCTCSTC
TTCTAACTTTGTGTATAGGGGATCTCTGTCTTCCATGCTGGGGGATGGGAGAAAGGGGTTGAGTCTGCATAGGGCTGAAGCTGCCAGCAAGAGCTGGGAC
CCAGGAGAGCAGGYGAGAAGGGAGGGGTCAGGGCAGCCAGAAAACTTGTGGTTCTGAAATGAATCTGCATGAGTCATTTGTTTAAAAAGGGCGGAGTTTC
TGGAGCCCCCAGATAAWCCTGGGGAATAGAGTAGACCAGAAAAGACAAAATACAATGAAAGGATCAAGGGACAGCTAAATGCCTGAGATAGGCCCTTGGC
TTGTGCTTAAATGATCCGTGTAGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTAGTGAAGTCTGCCAAGCTCTCAT
GACTTGATTCAAGTATCAGGTCACCTGTCCCACCAATCAAATATCCTTATCTTTCGGTTGGAGAATCTTCCCTCCTCCCTGATTCCACTCCCCAGTGCAG
GCTACCGTCCCAGCTTTGTTAGGGGATAGGCAAATTGCTCAAGATCATTCAGTCTCRCCTACCAAGTCAGGACTGCTTTCCTAGAGCAGTTAGCCCGCCT
CAGCTCAGCTCAGGTGGCCTTTGGAAAATCCCTGGCTGTTACCAGATCACGGCCTTCAATTTTTTTTTTTTTTTAACTGCAACCCTTAGTAAGAAATACA
TGTTATATCATAACCCAGTTCATAGGTGTGCATGGCCACACATACACACAAACGGACACAGAAGTTTCAACAAACAGTACTTACTTAATACTTAGCCCAA
TTATCTGATTCTTTTCCATTCTATTCTTTAATTTTTCATTTAAAAAAAATGTTTGTAGGCCGGGTGAGGTGGCTCACGCCTGTAATCCCAGCACTTTGAG
AGGCCAAGGTAGGTGGATCGCTTGAGCCCGGGAGTTTGAGATCAGCCTGGGCAACATGGTGAAACCCTGTTTCTACAAAAAAATACAAAAATTAGCCAGG
TATGGCGGTGCGTGCTTGTAGTCCCAGCTCCCAGCTACTCAAGAAGCTGAGGTGGAAGGATTGCTTGAGCCCAGGAGGTYAAGGTTTTAGTGAGCCCTGA
TCACATCAGTGCACTCCAGCCTGGGCAACAGAGTGAGACTTTGTCTCAAACAAACAAACAAACAAACAAACAAAACGAACCAAACAAAAGTAACAACTTG
CAATTCATTCAGTTAATTTCAATACCTATGRGTTAAGATGAGCRGATTGAAATACACATTCAAGCCTAATCTCTGAATTATGCAGAGATTTTGAGAATAT
TCCTTCATTAGCCACAGCCATGTGTGCCACACAGGAGAAACCAGGTTGACGGGCAAGTCGTGGTCCAAGGTCATCCATGGACCCTCATTGGTGAGAGATA
CTCCCTCACCAGAGAGTTGAGTGTATTGAGTCATATGATGAATGGGGCCACTGTAGTTTTAGAATAAAAATATGATTTATTTTCTTTCTTTCTTTCTTTT
CTTTCTTTCTTTCTTTCTTTCTTTCTCTTTCTTTCTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTCTTTCTTTCTTCTTTCTTTCTTTCTTCCTTTT
CTTTCTTTCTTCCTTTTCTTTCTTTCTTTCTTTCTTTCTTCTTTCTCTCTCTTTCTTTTTTTTCTTTTTATTTTTTTGAGACAAAGTCTGGTTCTGTCAC
CTAGGCTGGAGTACAGTGGCACAATCACAGCTTAACTGCAGCCTCAACCCCTGGACTGAAGCGATCCTCCCATTTCAGCTTCCCGAATAGGTAGGACTGC
AGACATGCACCAACACACCTGAATAATTTTTGTAATTTTTGTAGAGACGGGGGTCTCATCATTTGCCCAGGCTGGTCTGGAACTCTAAGGCTCAAGCGAT
CCACCCACCTCAGCCTCCCAAAGTTCTGGGATTACAGGCTTGAGCCACCCTGCCCAGCCAAGATTAGCTACTGAGAGCTTTCTATGTGCCAAGCATTGTT
CTAAGCACTTTACACGAATTAACGTATTTAATCCTCACAATACCACCATGCCATATGTAGTATTATTAATCCCTGATGTATGGACAGTTCGGGAATTTAA
CATCCAGAAAATAGTTACTAAATATGGATCCAGGTATCAAAGCCAGGCAGACTGGCTCCAGAGCCCCCAGCTCTTCTGCATCACATGTACCTCCCCACTA
CAGCAGGCCTTCTCGGACCTTCCACGACTGGCTCACTTTGCCATCTTTTCCAAGGATAGTGTCCAGTGCTGAGCTCAGCAAGCTGTGGCCAGAATTCCAC
AGAGGACTTGGACTAGAGCTGGAGCTCCAGTGTGGTCACCAATCCAGGTGATCATTTCATTAGATCAGTCCAGCAGAGCATTCGTTCAACACCCACTTAC
TAAGCCTTCAAACCCAGAAGTTCAGGGCTGGAAGACACTCCAGAAATTTCCAACTACTTAGGGACTTTCATACAGGGTAAAAGGGACACAGGGATCTCTC
TACTCCAAGACTTCCACTTTTATCTGTTTCAGAGATAGAGTTTCTGCATAAGCTTATACTTGAAAAAAAATAGTCTTGCTGTTAAAACAAGTTTATTTTG
GGGGAGGTGAGAGAAAATTTTAAGGAATTAGCAGTCTTTTGGGAAATAATTGATGACACGTTTTTTAGAGTGGTAAAATACATATAATGTAAAATTTACC
ATGAATGACAGTGCAGTCACAGTATTGTACAATATTCACCACATTTTCATCTCCCCTACGGAAAATCCCATACCCGCTAGGCAGTGATTCCCCATTACCT
TTTCTCCTCAGTTCCTGGAAACCACTAATTTACTTTCTGTGTCTGTAAAATTGCCTCTTCTGGACATTTCACATAAACAGAAWCATATAAAATGTGGCCT
TTTATGACTTGTTCTTTTACTTAGTATAATGTTTTTTWTTTTYGAGACAGAGTCTCACTCTGTTACCCAGGAGGCTGCAGTATAGTGGCATGATCTTGGC
TCACCACAACCTCCACCTCCCCAGTTCAAGCAATGCTCATGCCTCAGCTTCCCTAGTAGCTGGGATTACAGGTGCATGCCACCACACCCAGCCTCACTTA
GAATAATGTTTTCAATGTTGTAGCATGTATCTGTACTTCATTCTTTGTTATGGCTGAATAATATTCCATTGTTTGAGTACATATTTGTTTATCTGTTTAT
CAGTTGATGGACGACTGAATTGTTTCCACCTTTTGGCTGTTGTGAATAATGCTGCTTGCTATGAGCATTTGTGGATGCATTTTTGCTCGAGCACCTGTTT
CAATTCTTTCAGTTATATTATTTTTATTTATTTATTTCTTATTGAGACAGGGTSTCAATCCGTCACCCAGGCTGGAGTGCAATGGCATGATCTTGGCTCA
CTGCAACCTCAGCCTCCTGGGCTCAAGTAATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATAAACCACTATGCCTGGCTTATTTTTGTA
TTTTTTGCAGAAAGGGGTTTCACCATGTTGCCCAGGCTGGTCTTGTACTCCTGGGCTCAAGTGATCTGCCCTCCTCAGCTTCCCAAAGTGCTGGGATTAA
AGGTGTGAGCCACCGGGTGTGGCTAATTCTTTCAGTTACATACCCAGGAGAGGAATGGCTGGATCACAGGGCAATTCTTGTTTAAGTTATTGAAGAAGTG
CCAAATTGCTTTCTACAGTGGATGCACCATTTTACATTTCCACCAGCAACATATGAGGGTTCTAACTGCTCCACATCCTCAACAACACTTGTTATTTTCC
TTTATAAAAAAAATTATAACCATTCTAGTGGGTGCAAAAATAGTGTCTTATTGTGTTTGTTTATTTGAATTTCCCTAATGACAATGATACTAAGCATCTT
TTATGTGCTTCTTGGCCATTGTATAACTTCTTTACAGAAACGTCTATTCAAGTCCATTGCCCATTTAAAAATTGGTTGTCTTTTTGTTGTTGAGTTGTAG
GAGATTTTCATATATTCTGGATACTACAAGTCCTTATCAGATATATGATTTGCAAATATTATCTTCCATTCTGTACATTGTCATTTCACTCTCTTAAAAG
CATCTTTTGATGTTTTTGATTTTGATGAAATCCAATTTATCTAATTTTTTCTTTTTTTTTCCTTTTATTTATTTATTTATTTATTTATTTTTTGAGGCAG
AGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAATGGTGCAACTCTCGCTCACTGCAACCTCTGCCTTCTGGGTTCAAGTGATTTTCCCACCTCAGTCTCCT
GAGTAGCTGGGTCTACAGGCACGCGCCACCACCCCCAGCTAATTTTTGTATTGTTAGTAGAGACAAGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACT
GCTGACCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGATSTGAGCCACCATGCCCAGCCTCTAATTTTTTCTTTTGTTGCTTGT
GTTTTTTGTGTCATTTCTTAAGCCAATGCCAACTCTGAGGTCATGGACATTTACCTTTATATGTTCATGTAAGAGTTTTATGGTTTTAGCTCTTACATTT
AGGTCTTTTGTCCATTTTGCATTAGTTTTTGTATATGGTGCAATGTAGGGTTCCAACTTCATTCTTTTGCGTGTAGATACCCAGTTTTCCCATCATAATT
TGTTGAAGAGGCTCTTCTTTCCCTTTGAATGGTCATAGTAGTCTTTGAAAATCAGTTGACCATGGATGTATGAATTTATTTCTAGACTCTTAATTCTATT
TCATTTATCTGTATGTCTGTCCTTATGCCAGTACATGTACCTGATGATTACTGTAGCTTTGTACGAAGTTTTGAAATCAGGAAGACTAAGTCCTCCAACT
TAGTTCTTTTTCATGATTGTTTTGGCTATTCATGGTCCCTTACAATTCCGTATGAATTTTAGGATCATGTTGTCTATTTCTGCAAAAAGGCCTTTGGGAT
TTTGATAGAGATTGCATTGAATCTGTAGATTGCTTTGTGTAGTATTGCCATTTTAATATTAAGTCTTCAAATCCACAAACTCAGGATGTTTTTCCATTTA
TTTAGATCTTCTTTATTTTAACAATGTTTTCATTGTATTAGTCTCACATCTTCTTGRTTAAATATATTGTTAAGTATTCTATTTTTTAAAATTGTTTAAA
GTTTTTTTTGAGACAGGGTCTCATTTGCTTGAGACAGGGTCTCATTCTGTCACCCAGGCTAGAGTGCAATGGCACCATCTGGGATCACTGCAACCTCCAC
CTCCCAGGTTCAGGTGACCCTCCCACCTCAGCCTCCCGAGTAGCTGGGACCACTGGCATGCCCCAGCACGCCTGGCTAATTTTTGTATTTTTTTATAGAG
ACAGAGTTTCACCATGTTGGCCAGGTTGGTCTCAAATTCCTGGGTTCAAGCCATCCGCCTGCCTCAGCGTCCCAAAGTGCTGGGATTACAAGCATGTGCC
AAGGTGCCTGGCATATTCTATTTTCCACCCCCCTACAAAGTAATAGACCTTATTTTGGGAGGGCAGTTTTAGGTTTACAGAAAAATTAAGCAGAAAGTTC
CAGTATACATCTTTTAAAAAAATTTTTTTTTTGGTGATATTATACAACGAAATTGTTTTCTTAATTTTCTTTTTTGGATTGTTCATTGCCTTACATGTAC
AGAAATACAGCTGATTTTTGTGTGTTGATCTTGTACTCTGCAACTTTGCTGAATCCTTCTATTAGTTCTAATTGCTGTTAATATTTGACGCTTGCCCTAG
TCCATATACCATCTCCCTGCCATTTAATTGTTGAAGAAACTAAGTGGCTAGGACTTGCCCAGGGTCCTGCTGCCTTTTATGGCTGAGCTTGGGACAGGCT
TAGCACTTTTTCCCTTCAGAGCTCCAACTCACTCCTTAAATTGAACCCCARTTTTTCAGTGTAATTTGCAGGTACAAATTTCAGCCAGTTGCCTCTACAA
AGCCCCTGTCCATTCCTTCCAAATCCCTGATCTCTTCCTATTCATTTGCCCCCATATGCCCATTATCATGAGCCCAGCGTGGACTCCCACGCGGACCCAG
GCCCCCAGCCCTGGCCACAGGGTCACAGAGATAACTCCGTGGGAAATTATACCCCAKGGCCCTTTGCTCCTGACTCCCCACGTGGAGCAGAGAACCACTC
AGATGCGTGCTTCCAGCCCCCACCTCGGACGACCCGCTGTCCCCCTCTCACGGCTGTTTGCCCGGGCGTTCTAGGATGCTCTGGTATTAGAGCACCCTGC
CTGTTCCTGGCCCCCTGAGCACCAACAAGCCCGTCTCAGGCCTCCAAAGCTCTGCATACGTTGCCCTGGCAAGGTCAGACCCTTTGGCTGCAACACGTCC
GTCAAGAAGCCAGGCAAATCTAGCATGCAAACTAGGATCATTTTCGGGCGTTGGGGCCCCCCCGCTTGAAATCTGGTTTCCATGTTCACAAAACGCAGCC
CGACTGGTGGAACTCGCGACTCCAGACGCAGAGAAGCTGTGGGCAGAGGCGGAGGCAGAGGGTGGGAATGCAGCCTGGCGTTGGAGTGGGGAGAAAGGGG
AGGGAGGAACCGCGCGCCCAGGCCCCGCCCGGTTGCCTAGGTGACGGGGAGCGAGAGGAAGAAGTGGGGGCTGAGCTGATCCGAGCATTTCAGATCTTAA
TACTGAACAGCTCAGCCCCCCAAGAGGGAGTAGGATGGAAGCCCCAAGCCAAGGGAGTCATCTTCATTATTTTACCCTGGTACCTAGTGTTCTGCTGCTC
ATGGAGAAACAGAATGTCAGTCCTGGAAAAGAGCTTGCGAAGTCTCCTTGCCCAGTGGTTTTCAAGCAGGTTTGTAGCTAAAGATTCTCGTTTCAAAGAA
AACCTTACCAAGAACCTCAGTTTGCRAAACAGACCTATAGGGAGCTAAGTCACCCCACTTCACCTTCCCAGATTGTGGAAAAACTCTGGTCTGGGCCCAA
ACCCTCCTTGTAGAGATGGGAAAACTGAGGTCCCCAGACAGGCACTGCATTGCCCAGGGACACCCAGGACATAAATTCGCTGCAGAACCAGGATTGGAAA
CGATCTCCCAGTGATCACCATAGAGCAAGCATGAAGAAGCGGATCCTTTGAAGTAGCTGGGAAGAGAAAAGGCACACAGGATGTTTTAGGAACCTGGAAT
TTCCAGACCTGCTGAGACAACACAATCCCCTTATTTTACAGACGAGGAAACTGAGGCCCAGAAAGGAGGCAGTGGCAAGTTAGTAGAGTGGTCCTAAGTG
GAGTAATATTCCCTTAGAAAGAAGATGCATTTGAGCATTTGGCTTTTTGGCTAGCTCAAGCAATAAATCTTTGCTGAAATTCTGAGGTGCCAGATGGCGC
AGGGGAGGAGCACTGGCCTGGGAGTTTCATCCCCCTCTGTTACTGACGAACCCCATGACCTTGGGAGATTTATTTTAAAGAGTCAAAGGGATCATCCCCA
GGTTTGTAAGAGGTCCAGAAGAGTAATAGGATTAAAYGGTGCTTCAGAGTGTTTTATATTGTTTCTAAATGTCAGGGCCTCTTTGGGGGAAGGGAAGTAA
GCACACTGCTCTTTAAAGACTGAATTTGACAGTGGGTTTTTTAAACGCTCTTTATTTTTCTTTTTCATTTTTCATGGCTAATTATAAAGTAACACATGGC
CATTTCAGAAAATGTGTAAAGTACAGAAAATGAAAGGAAAAAAAAGCAGAAAGGAAAATCACCCATAAACACATCACCCAGAGGCAACCATTGTTATACA
TTGTTGTACATTTCCTTTCAGTCTTTTTTCTCTAATTTTTTTCTTGTGCAGCGTAAATTGTATTTTTAATTATGTTGTAATTTTTAATAATTTCATTTAA
TTGTTTAATAATTAATATTAAACTTAGAATATTAAAGCTAAAGATCTGTCTGATCACCACCCACAGCCCTGGGTTCTTTGATGTATTAATTTTGCAGACC
ATTTAATTTTTTTCCCACTTATTTACACTCATTTTTCATTTATTTATACCTATTTCATTTATGTAGACCCACAGGAAATGTACAGTGTAATAATAAATGT
ATATATATATATTATATTGTATATGTGTTTTACACAATGGTATAATGTTTTCTCTGCAATTTGCTTTTTTCTTTTTTGCTCATTTGACACCTATATTATT
CAATCTTATGTATAAGCCACTTTGTATCTACCCATTTTGTTCTTGATGAGCATATACATTGGTTCCAATTTTTTGCTACTGTGATAAATTCTACAATGAA
TAACCTTTGCATGTTCTTCTGCACAGGGGCTAGTGTTTCTCTGGTGGTAGATGCACGGAAGTAGAATTGCTGAATATGCATTTATTTACTTTTAATCCAC
ACTGCCAAATTGCCCTCTAAAGCTACTGCGTATAATGAGCATCCTTGTTAGCTTATAACACTGCTTTGCTTGATTATAAGACTTCACTTTTTTAAAAAAA
CTTAAATTTTTTAGAATCTACTGAGTGAAAATAATTTATTTTTGTATGATTTTCCTGATTATTAGTATGATTAAGCATATTGTTTACTGGCTATTTAAAA
AATTAGTTTATAGAGTTGCTTTATATATTTAGGCCACTATCTTTTTTTCTGTATCTATCACAAGCATTTTCCTCAGTCTGCTGATTATTTTTTAATCTTG
TTTGCAATGTCTTTTGACATGCAGAATTTTAAATACTTAATATGGCAAAATTTATGTATTTTCCTTTATAGATTTTTGTTTTTTGTTCAAAAAGATTTGA
TCTACGTTTTTCACTAATAATTTWAAGTATCTATTTACTTATCTTTTTTTTAAACATTAAAACATTGACTCCATCTGGATTTATTTTGGTGTATGTATGT
GATAGGAATCTAATTTTGTTGCTTTGCATATGGGTCGTTAATTGCTTTAATACCAATTATTGAATAGTCTTTTTTCCACTGATTTTGAATACCACCTCTA
TCATATACCAAATCCCCATATAAACGCAGATCTATTTCCTGACCCTTTACTCTTTTCCATTTATCCATTTATCTCCTTTTCTATTTTTATGCAAATACTA
CACTGTTTTGACTATTGATTTATAATGTATCTTAACAGCTGATGGGCAATTTACCCACTTTTTCTGTTTCATTGCCTTGGTTCTTCCTGTACATGTATTC
TTCCATACGAATTCATTTATGAAGGTCTGTGAAAAGTCTTTTGAGTAATTTGATTGTTATTGCATCAAATTCATACCTAGATTTTGAGAAATGTATCTCG
AATATAGCGTCTTTCTATCCAAGAATCTGACATGTTGATTTATTGGGTCTTTTAAAATGTGTTTTAGTCAAGTTTAAAATCACCTTCATAAAGATCTTTT
ACTAAAATTTTTCCTAAAGACTTTATAGTCTTTGTTACTATTGTTTTTTTCCAATTACATTTTCTCATAGCTTATACTTGTAAGTAGAAAGGCAATTAAT
TTTGGTACATTGGTACTATTAATTCTGACAGTTTGTTCATTGGTTCTTTTAGGTCTTCTAGAGAAGGCAACCAAATCTCATCTGTATATAATTAATGCTT
TGCTTTGTCTTCTTCTCTTCTAATATTTATATGTCTATTTTGGAGGTAATCTTATTGCATGAAGTTGGGTATGATGAAGAAGGGGAATAGTGGGTATTCT
AATCTTGCTCTTGACATTAATGAGAATACATCTAATGATGTACCTTGTTAGTAGGCTCAGTGCTGTAACAGAAAACTCCAATACCTCAATGGCCAAACAC
AACATACTGGATTAAGGTGGGCCCTAAATCCAATATGACTGGTGTTCTTATAAGAAAAGAGAAATTTGGACCCTGAGACAGACACACAGGGAGAATGCCA
TGTGATGACTGAAGCAGAGATTGGAGTGATGTGTCTATAAGCCAAGGATTGCTGGCAATCATCAGAAGACAGTAAGAGGCTAGGAAGCCACCTCCTTCAG
TGAGAACATGGTGTCACCAACACTTTGATTTCAGTTCTAGCCTCCAAAACTATTAGACAATAAATGTCTATTGTGTTAAGCCACACAGTGTGTGGTAATT
TGTTATGGCAGCCCTAGGGAACCAATGCAAAAGCTAAGTTAATTCATCATTAGTCTTTCTTGCTTTATAGTAAGTGCAAGTAAGTTTATATATTTCCCTG
AAGACTACTTTAACGTCATCTTAAAGTAGTACTTCAGTTAATTCTAATTTTATTGTAGTTTTTTGTCAACTCATTAATTATTTAGACCTGTGTTTTAAAA
CTTCTCGGTGTATACAAATTTCTAGCCATCTTCCTGTTGTTGTTGACATAAAATTTTATCATTAAATGTTTTATATTATTTCACTTTACTTACTTACTTA
TTTTTTGAGATGGGGTCTTGCTATGTTGCTCAGGCTGGACTCAAACTCCTGGGCTCAAGCAATCATCCTACCTCCTCCTCCTAAGTAGCTGGGACTGTGC
CCAGCTATATCACTTAAAAAATTTTTTTGGAACTTACTGTGCAGTTAAATACTTAGTCAATACTTAGTCAATTTTTATAAATGTTCCATTTGTATTTGTG
AAGAATGTACATTTTCTATTCAAAGTTCTACATATATCCATTACATTGACAGGTCGTCTGTTCTTTGCTGTGTTAAAGACTAGCTAATTGATGAACAAAC
TTGTTCCCCTTCCTCCTGGGCACACAACTAGGCTACATTTCCTGGACTTTTTGCAATTAGATGTGGTCTTGTACTGAGTTTTGGCCAATGGAGCATGAGC
AGAAATTATGTGTGCCACTTCCAGGCCCAGCTTACGTGTGTTTCTCCTTTCTGTCTGTCACTATGAATGCCAAGATCTCAACACACAGAGTGACCTTGGC
AACTACATGTTGAAGGTGGCAGAGTTTCTATCAGCTTGAATTCCTGGCAGAGACCCTTCCTCCGTGCCCCACAACCAAACATTGAACTTTACRTGAAAAA
GAAATTAACCTCGATTGTCTAAGTGTTCAGCTACTCTTAGTTAAAAGTTTATTTGCTACAGTTGCTAGTGTGACTTAAACTAATACTGTTTTGCTCTTTA
GATACTCTATACTTTTTTGTCTTCTTGATTTGTCAGTGTCTGATGAATGTGTGTGAGTCTCTCAATATAAATATAGGTCTAGGCTGGGCACAGTGGCTCA
TGCCTGTAATCTCAGCATTTTGGGAGGCAGAAATAAGAGGATCACTTGAACCCAGGAGTTTGAGACCAGACTGGGTAACAAAGTGAGACCCCATCTTTAC
AAAAACTAAAAAATTAGCCAGGTGCAGTAGTCTGTGCTTGTAGTCCCATCTACTTGGGAGGCTAAGGCAGGAGGACCCCTTGAGCCCAGGAGTTCAAGGT
TATAGTGAGGTATGATCATGCCACTGTACTCCAGCCTGGGTGACAGAGCAAGAATCTGTCTAAAAAAAAAAAAAAAAAAAAAGACCGGGCACGGTGGCTC
ACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTCAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTA
CTAAAAATACAAAAATTATTCGGGCATGGTGGTGTGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGATAATCGCTTGAACATGGGAGGCAGAG
GTTGCAGTGAGCTGAGATTGCACCACTTTACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAATACACAGACACACACACACACA
CACACACACACACACACRCACACACAGACACACACAGCTATATGATTCCAATTGTATACAAATTATAAATTATTTAGTAATYCATAAACTCTTGCTGTAT
ATTTCAAAGCTATGTTGTTAGATATGTAAACTCGTGTTATAATTTTTTGGAAAAGTATTCCTTTTATCAGCATGAAAATTATTTTTGCTGATATTTGCCA
GGTTTTAACCAYTTTATTTATTCATGTTTTGGAAGCACCAGGGTCCACTAAGACATTTTATTTATAGGTATGTATTACACCCCTAGAAAAAGAATCCCAG
GATTTTCCCTCAAATGTGTTATTGTCTTGCTTTTTCTTATGGTCCATGATGCCAGCTGAGGTTGTTAGTACAATGAATTGAAACTGGTGGGATGAAAGCA
GGTTATTCTGCCGTTTTTCTAGATCTTTGAGTTGGACATTGATATGGTTTGGATGTGTGTCCCGCTCCAAATCTCATGTTGAAATGTGATCTGCAGTGTT
GAAGGTGGGGCCCAGTGGGAGGTGTTTGAGTCATGGGGGCAGATGACTTAAGAATGGCTTGGTGCCCTCCTTGCCATAAGGAGTGAGTTCTGGCTCTGAG
AGTTCATCGAGATGGGATTGTTTRAAGGAGTGTGGCCCCCTCCCTCCATCCCTTGCTTCCATTCTTGCCATGTGATGTGCCTGCTCCCACTTCACCTTGT
GCCATGAGCGGAAGCTTCCYGAGGCCTTCACCAGAAGCAGATGCCGGTGCTATGCTTCTTGTACAGSTTGCAGAACTGTGAGCCAAAATAAATCTCTTTT
CTTTATATATTACCCAGCCTCAAGTATTTCTTTATAGCAATATGAAACGGACCAACACACATCAAATCTGGGGCTGATCACTCCACACTTGTTTAACCTG
CCTGTGAGGTTCACTATTTTCTCAGCTCTGTGATCATCAATGGTTTCAAATCACCAATGTAGCCATGCTTCATYATCACAGTTAGAAACTGGATGATGAC
TTTGGAGAACGGCCTAATAAGAACCTGGCATTTACTCCTCTTCTCAGCATTGTTGATGCTCTTGAGAGCATCAACCAGGACATTCATGTGCACCATTATG
GCTGCTGGGTAGCCTCACCCTCCCAAGCTCCCAGTAAAGCCCCAGCAATGAGAAGCTGCACTGCCCACCTGGCCACAAATCCCCAGTGCTGCCTGCCCCA
GGCCAAGGCACTGTCTTAGTTGCTAAGAGGAGCCAGGCACTGCAGTATAAGCCTGGGCTACCGCCTTTCTGGGCGGTTGAAAGTTCCAGCTCTCACCAGT
GCTGCAGCCTGCACTTCATGGACCCGGGTCCCCAGAATGTGGAGCATGGGGTGTCTGGACATGGCTCTCCTCTATGCCTGTCTAGGGCCCTGCAAGGCCA
GGATTCCTGCCCAGTGGGGCCCAGTGTCCTTGAAGAGCACTGAACCTGAGCCTTAGATTGCAGGATGGTGCCAATGACTGATGATCTTAACCATTTTGAA
GTGTAAAGTTCAGTGGCATTAAATACATATGCATTGTTGCACAGCCATTACTACCATCCATTTCCAGAAAGTTTTCATCTTCCCCAACTGAAACTCTGTA
CCCATTGAACGCTAATTCCCCATTTTCCCCCTCCTGCCCTCCCAACTGCCATTTTACTTTTTGTCTCTATGAATTTCACTACCACATATAGATGGAATCA
TACAATATTTAGCCTTTGTGCCTGGCTTATTTCACTTCGCATAATGTCTTCAAGGTTCATTCATGTTGTAGCATGTGTCAGTTCTTCATTTTTTTTGCTG
AATAATATTCTATTGTAACATTCTTTTCTTTAAAAAAACAACAGGTTGGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGG
CAGGGGGATCACAAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGTGCG
TGCCTGTAATCTCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGACCCTGGGAGGTGGAGGTTGCAGTGAGTTGAGATCACACCACTGCACTCCAG
CCTGGGCAACCGAGCGAGACTCCATCTCAAACAAAAAAAAGGTTTATTAAGATACAATTCACATACCATAAAATTCACCCTTTTAAAGTATCTAATGATG
GCCAGGCACAATGGCTCACACCTGTAATCCCAGCACTTTAGGAGGCCGAGATGGGCAGATCACTTGAGCCCAGGAGTTTGAGACCCAGCAACATGGAGAA
ACCCCGTCTCTACCAAAAATACAAAAAAATTAGCTGGGTGTGGTGGTGTGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTTGAA
CCCATAAGGCAGAGGTTGCAATGAGCCTTGATTGAGCCACTGCACTCCAACCTGGATAACAGAGTGAAACCCTGTCTCAAAAAAATAAATAAAATTTAAA
AATTAAGTATATATTGGGCATTTTTTCATACATTTACAGAGTTGTCCAACCATTACCACTATCTAATTTCAGGACATTTTCATCACCCCTGCAGCCATTA
GCAGTCACTTCTCATTTTCCCCTCCCTCCAGGACCTGGCAATCATTAACGTATTTTCTGTCTCTGTGGATTTTCCCCTTCTGGACATTTCATGTAAATGG
AATCATACACAGCTGGGCATGGTGGTGTGCACTGGTGGTCCCAGCTGAGGCAGGCAGATTCTTGGAGCCCCAGAATTTCCAGGCTGTAGAGCGTGATGAT
CATGCCTGTGAACAGCCACTGCACTCCAGCCTTGGCAACATGGTGAGACACTGTCTCTGAAATAAGTAAATAAATAGGGTCGTACAATATATGGCCTGTT
GTGTTTAACTTGTTTTGCTTATAATATTCCCAAGGTTTACTTGTTATAGCATGTATCAGTACCTCATTCCTTTTTATTGTTGAATAATATTCCATTGTAT
GAGTATACCACATTTTGTATATCCATCTACCAGCCAACGGACATTTTAGTTGTTTCCAATTTTTAGCTATTATGAATAGTGCTGCTATGAACATTTGTAT
ACAGATTTTTGTGTGAACATATGTTTTCACTTTTCTTGGGTATGTACCAGGAGTAGAATTGCTGGATTATATAGTAACTCTATGTTTAACATTTTGAGGA
ACCGCCAAATAGTTTTCCAAAGTGGCTGTACTATTTTACAATTCCATCAGCAATGTATGAGGGTTCCAATTTTTCCACATCCTTGCCAATACTTTTTATT
GKCTATCTTTTTTATTATAGCAAGCCTGGTGGGTGTAGTGAGGTGCCTCATTGTGGTTTTTATTTGCATTTCCCTAATGACTAATGTTGAATTCTTTTCA
TGTGCTTATTAACATTCATTTTTAATGCACATATGCAAGTATATTTTAAAGAACTAATTGGTATCTATGTCTTCACTGTCAAAAGACAAAATTACAACAA
ATTTAGTTTAAACATCTTAATTGGCTTTATTCGCATTTCTAGAATCAGGCAACACTTTATTCCACAAAATAGAATAAGTATTCTGATGAGCTGAGCAGAA
GAGGTTGGTTTTTATAGGCAGAGAAGAGCTGAAGAAACCAGAAACAAAGAATGAAAAGTGGACTGGTAATTTCACAAAGTTACTTTTTTTGTAAGGCAGG
GACAGAGAGAAAGAATAGTGGAAAGGTAACTGATTGGTTAACTTCAGGTTACTTTTTTGGTAGGGATTAAAGTGGAGGGAACTTCATTATCAGCTGATTG
TAACTGGCCTATTTGGGGAATTGGCTGTTATCTCTCTCCTCTTGTTACCAAAAGGTAACAGGTCTAGGTCCTTGGTCTAGGTCCTGCTGCTCACAGCACA
GAAAGCCAATGACTGAGGCAAAAAGTGTTGCCAAGAAAGAAGGATTTAACTGAGAGCTTCAGCTGAGGAGAAAGGAGATCAGTCTCAAATCCATCTCCCT
GATTGACTAAAATTAGGGGTTTATATAACAGGGAAGAAATGTAACCACAAGTGGGAAAACAGGAACTTGGGGTAAGGACACAATCATGATGAATGAGGGG
CCTGTCATCTCATTGTCTGAATACTATGATCTCTTGAGTTTCATTTATTTGATACTTCTTGAGAAGCCAGGGGTTTCTTTCCTGAAGAAGGAACTAATAA
AACAAATGTACGTTTCAAGCTTTAAGRCCAGAAGTGTCCATTTCTATGTTTATCAAAAAAAATCTATGGGACTGTTGGGTCGGTTTCATCCTGATTTCTC
AGAAGGTCCGATAACAACTTACTTTCTGTTTGGTGAGATGGAACTTTAGCATGGGTGACTCCATTTTGGTTTTTAGCCTGGCCTGTTGAGGCCTAGGGCA
GGAGCTTTGTTCAAAACAATGGCCTCCCATCATTATGTTTTACCATCACCCAAACAAGGCAAAAATATTAACAGGAAGCTTAATTTCATTACCTCCACTT
TTTGTGGAATRTTCCTATGCATACTCAGTATGCTAACCTCAAATTTTAGTTCCAGGTTGTTATAACTTTTCAGGAAGTTATTTAGATAAAAATAAGATTT
ATTCAATCATTTTAAGAAATTCACAGCTGAGTGTGGTGGCTCATGCCTATAATCTCAGCACTTTGGGAGGCYGAGGCAGGAGGATTGCTTGAGTCAGGGA
GTTCAAGACCAGCCTGGACAACATGGTGAGACCCTGTTTCAACAAAAAATAAAAAATAGCTGGGCATGGTGGTGCACACCTGTGGTCCCAACTACTTGAA
AGGCTCCCAGCTACACCCAGGATTGCTTGAGCCCAGGAGTTCAAGGTTGCAGTGAGCCATGTTTGTGCCACTATACTCTAGTCTGGGCCACAGAGAGAGA
CCTTGACTCAATAAAAGAAATTCACCTTTGGTTTTTGCATGCCACTGTTTCCTCTTGGGTTTTTTTCTTAACTAGAGTACAACATCTAATTGCTTTTCTT
TTTCCCCAAAAAGGATCTGGAAGGGAAGGAGTGAGTAAATCTTCTGAGTATTTTTATGTTTGAAAATACCTGTATTTCATCCTCACATTTAAATATAATT
TGGCTATAAAATAATAAACTGAAATATCCCTTACTTTAGCATTTTGAAGGTATTGAATTTATGTTGCTAAAAACATCTGATATTATTCTTTTCTAGTGGG
TACATCTAATTTTTTTTTCTCTGAGCATTTAGAATTTTTTCTTTATCTTTGATGTTGTGCAGTTTCACTATGATGAGTCCAGATGTGGGTTAAAAAATTA
TTTTATTGGTACCTAGTGAAACCTTTCAATYTGAGAACCTACTTTTTAAAAAATACTGGAAAATCTCTAGTTATTATTTCTTTAAATGATACTTTCTCCC
TGTTATCTCTGGCCTGTAATTCTAGAACTCTTATTAGATGAATATTGAATCTATTCGCTATATCTTTACCTTTTGTTTCTTTTTAAAATCCATCTCTCTW
ACTTCGTGTTGCATTCTGAAAGAATTCCCATACCACATCTTCCAGTTCCCTGATTCACCCTTTAACTGTGTTCATTCTGCTACTAGCCCATGTATTTTTT
ATTTCAATAATTATATATTTTATTACAAAATTTCTGTTTCTTGTTTACAACCAGCTATTCCTGTATCATGAATAAAATACTTTCTTATCTCTCTGATGAT
TTATAATCACATTTATTTTTAAGTCTAGTTCTGGTTTTCCCTATTAACTCTCTTTCTTCAGGTGTGCATTTGTCCATCTGCTGGATCTGTGATCTCTTTT
TTATAGTATTGCACTCCTCATGCATTTGGTGATCCTTGACTGTGTGCATTTTTGAGTTGCAATGTCTTGTTAGGCTGACAGCTGCCTTTGGTTGAGCTGC
CTGTGTATAGAGAAGAGCAAAACAGTTACTGAGCTTGTGCCTCCATACAATGTTGATAGGCAGGACCTGCTGCTAGGTGGGAAGCTCAGCAGCTGGTCTT
TTAGGCTTGGATGTTTCTCATTCCTCCCAGATTTTGACAGCCACTCAATACATGACCCCTTCTCATTAATCCAAGTCCTTGCCCCCTAAACTCTTACATG
CAGGGTAGGTGGAGAAATCCAAGGCTGATAGGCCTGGCTGCTCCTGCTACAGGTCCCCAGTTAATTCCCTTGTCAATTTCCCYGGAGTATCTTTTGTTCC
AACTTTCTTCCATCACCTCTGGACATGGGACATCTTAGTGTTGCTCCTCCTTTTGAGGTGGTTCACTGCAGCTACTGTATCCTGGACTAGAAGAAAAAAA
TTTTCCTTTTGCTATAAAGCATATTATTAGGACAATAATGAGTTTATGTCTGTGGATTAAGTAATGGTGATATGGTGTCATATCATCATTAATTTCCTGA
TTTTGATTATTTTCAGGTTTAAAAAAATCTCTATTTTTAGAAAAAACACATTAAAATATTCAGGGATAAACAAACCAGAACACACACACACACACACATA
CATATTTTTATGCCATTAAAAACTCTTCCATAAACATCCATTGTAAGGCCTGCCTAAGACTCCACTGGCTGGGTACATTATAAATTGCTTAATTATGACC
TTCATTTTGCCATTTCTATTATTTCTCATTTGTCTCTATGACAAGTAATCCTGAAATGAACACTCATATTTAATACTTTGTCTACATTTCAGATTTTCTT
CCTTTGAATAAATCCATAGAAATGTTAACTACTGCCTAGGGGTATGAACATTTTAAGATTCTTGGGCCAGGTGTGGTGGCTCACACCTGTAATCCTAACA
CATTGGGAGGCCTAGGAGGGAGGATTGCTTAAGCCCAGGAATCCGAGACAGGCCTGGGCAACATGATGACACCTCACCTCCACAAAAAATACAAAAACTA
GCCAGGTTTGGTGGTGTATGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGTAGTCGGACTGGTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCTGTCAT
CACACCACTGCATTCAAGCCTGGGTGACAGAGTGAGATTTGTCTCAAAAAAAAAAAAAAAAAAAAAAATCCTTAATACATACTTGATTAATGTGAATTGG
AATAACTCAATCATGTTCGTGCATATTCTCATTCATTTCATTTAAAAGTTTTGCTAATTTGAGGAGGAAAAGGGAAATTATATTTCATGTGGTTTTAATT
GGCATTTCCTTTATCCCTAGAGGGGGTGATTTTTTTTCTCTTAAGGTAGTGGATTTTGTAAGTGTCTGCTCCTGGTTCCTGAGGGGATTTGTGACAGTCA
CATATTCCTCTCAGGGTTGGGAACAGCAAAGCTGTTTGTAACTTCTAAGAAGTAATACATGGTGATTATCATACTAGAACATGCAGTCAAATCACTTGTG
ACATATCCATATTACAGCACAAGATTAAATCGACAATTTATTTAGACTCCTAGAATGAGAAAACACAATGTCCCCAGGGAAGGATAAAGAGTGGGTGACA
GAAGGAGGTAATTTCTTTGCCTGCTTGTTTACCTACTCCCCTCTTTTCTTCCTCCCATCTCTCTTCCTTATATTATATGCATATATAATATATTGTATAT
AGATATACATCTAATGTGTACATTCTCATATATATTATAATTATAATGGAATTATAAATAGTCCACGATAATATAATATATGCATGACGTTTCCAGGCAT
CAAGAAGATTTACAGCTATAAAGCCAGCTGTCTTTCCTCTGGGGCATATACTGTAGTGAAGGCAAGAAGACACATGCCTCAGGATTGCAATGCAAGGGGG
CTAAGCTTGGCTTCAGCACCTTTACAAGCATTCTCACCTTACCTACCAACCTGAGCTCCACCTTTTCTCTGAAACCCTCCTTGCTTTTCTTGCTCAGCCC
CTTGCTGTGCCTGGAATTCCCTTATCTTATTACCTCTCATCTAACCTAATTATCCTTCAAGGGCTGCTCAGATGCCACCTCCTCCAGGAAGCCTTCTCTG
ATCCCCTACTCTTAGATGCAAGGCTGTCTCTTTCTGCACGCTCCACCTCTCCAATGGGCTTGGCACTTTAAACTTGGCATTGTGGCTGTTGCTGTACTTG
TCTTGTGTCCTCAATTCTAAACTCCTAGAGGGCAGGACCTGATCTGATGCAGCTCTGTATCCCCATGTTACATACCTCAGCTCCTAGCATAGAAAAGGCA
AACTGTAAATCTTCTGATAAAGGAGAGAATGAACACATCTATACAGTGTCCTTCAATTTCACAGTTTTCCCACATTATCTGCAATGTGTGCCTTGTGTGT
ACCAAATGGGTAAATGTTAAATGAGCACCCCTCGGTGACTGCACAGAGGTTGGTCCATGGGCAAGTTCCCAAAATGAAAGCAGGAACTGGGCATGTGAGT
GTAGAATGGGCACAGGACTGGGAATCAGGAAGGTGCCGGGTTTCTACCCCAGCTCGGCCTCTACCCAGCTGTGTGACCTTGGAAGTTCATTGCCTCCCCT
CTAGGCTTTGGTCTACCCATCTGTAGAATGGGACTTGGGGGTGACCTCCAATGCAAGGGTCTTTCCTTCTTACACATTCACCCTTCTAGCACAGAGTGTG
TGTCAACTGCCCTGGCAGCCCCTGAAGGCTCAGTATTCAGAAAAGAGAAAGTAGCTGGGAGATACCAGGGCTGACATGTGCTSTCTGTTTTCTAGAAGGC
TATGGAGCTTCCATAAAGATATATTTCATGTGAAACCTTTCCCCTTTTAGATTTCATAAGTTATTTTATTTACATACACTTATATACATGTGGCCTGTCT
TAAAAAGTTATCATGAATGAAAGGCAACCCTCAGGCACAGCCCAGAAGATTAACTGTCAAAATGTAAAGATGAGTTCATTTTCTATGGAAAAAAATGTAA
ATGCATAAGAAAGGACAGAGAAGTTTCCACACCTAACTAATAATAATGGTCTCCTTTGGGGAGGTGGGGAGGAAACTGAGGTTAGGGGCTCCAAAAAAAC
TTTAGTTTTATCAACATTCAATTTTTTAAGGAGGATATGCATATAATTTTATGATTAAAAATTAAATAATGAATAAGTTAAAAGGCCCAAGTGGTATTTA
ATGCTGCACTAATATAATTTTGAGTCTTGATACCTGTAAGGGTATTTATCTTTATTTTTATTTCCCCAGTTCCCTCTCTCTCTCTCTCCTGTCTAAATGT
GAGGATTGGAAATCATTTCTAGCAAGAAGAGCTTGATTAAATAAAGGTGCTTGATATGGTTTGAGTCTGTGTCCCTACCTAAATCTCACGCCAAATTATA
ATCCCCAGTGTTGGAGGTGGGGCCTGGTAGGAGGTGTGACTGGACCATGGGGGTGGGTTTCCCATTTGGTGCTGTTCTTGTGATAGTGAGTTATAAGATC
TGTTTTTTGTTGTTGTTGTTTGTTTGTTTATTTGACACAGGGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACATC
CACCTCCCGGGTTCAAGTGATTCTCATGCCTCAGCTTCCCAAGTAGCTGGATTACAGGCGTGCGCCACCACACCCAGCTAATTTTTGTGTTTTCAGAAGA
GATGGGTTCTTGCCATGTTGGCCAGGTTGGTCTCGAACTCCTGGCCTCAAGTGATCCCAAAGTGCTGCAATTAGAGGCATGAGTCATCATGCCCGGCCAA
GATCTGGTTGTTTAAAAGTGTGTAGCATCTCTACCGTCTTTTTCTTTCTCCTGCTCCAGCCATGTAAGATGTGCCTGCTTCTCCTTCACCTTCCCTTATC
ATTGTAAGTTTCCTGAGGCCTCCCAAGCCATGCTTTCTGTACAGCCTGTGGAACCATGAGTCAATTAAACCTCTTTTCTTTATGAATTACCCAATTTCAG
GTATCCCTTTATAGCAGCACGAGAATGGACTAATACACTGCTTTAATTTACAAGAACACTTTGCAAGAATTAGGACTCCTATCTCCTAAGATTATATATT
TGCATGGAAAAGAAGCAGGTTGCTTGAAGAAAAGAATCAAGAATCAAAACTTTGCAATGAAGGATAAACTTGAAGTAAGAATAATAAAATAAAGAATGTG
GCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTACCATGGT
GAAACCCCGCCTCTGCTAAAAATACAAAAACAAAATTAGCCAGGCGTGGTGGCAGGTGCCTGTGGTCCCAGCTACTTGGGAGTCTGAGGTGGGAGAATGG
CGTAAACCTGGGAGGTGGAGCTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAATTCCAGCCTGGGCAACAGAGCGAGGCTCCATCTCAAAAAAAAAA
AAAAAAAAAAAAAAAAAATGCAGTTCAGGAAGAGGAGGTTGCAGACATACTTACAGAAGAGGTACCATGYTTTCTGGGACTGGGCATCAAGCCTGCTTCT
GAAAGTCCTGGCAGCCAGGGAGGGAGAAAGAAAAATGCGATTTCTTCCATAATGCTTCTCATCAGAAAGAAGAATGCATTATAATTATACTGAGGGGCAA
AGCTTGCCATGATATGCTAAAAGAATTTTATGTAGGTATCATTATTATTGTCCCACGAAGAAACTGAGGCTCAGAATGATTTAGCATCTTGCCTAATATC
CCCTAGACAGCAAGTGGGATGGCAAGATATTAACGTGGTGCTTTTCCGTTAATTATCTTTTTCAATCCTAGTGACAGCAGTAAGAAATAGGCATTATTGT
CCCTGTTTTAGAGATAAGGACATGGTAGCTTCCAAAGGTTGATGTGCTCAAGGGCATATAGGGAAAAGGCAAACTTGGATGCAGGCCCACATCTTAGGAC
TTCAGTGCCAGGAGTTCACAAAAGGCCTCTGCAGCACCTCCTCTCCCATTATCATGCCCTCTCTACCCCTCCAAGCCMCTTTGTCCAAATACTCAACTGC
TTGCTATTCTGCAGACACACAGTCCTTTTTGCCTACAATTCCCCATCACTGGAGTGCCCGTCATCACTGCCCTTCTTGGAAAAGCCTTCTCATTCTTCAA
CATCTCAATCAAATTTCATTCTTTCTTTGCTCTCCCTTGTATTCATGATCATAACATCATTTGAGCACTTCTCAGTATGCACTGTAGTTTTATATTTTAA
AAGTATTGTTAGCTGGGGGAGGTAGCTTAGGCCTTGTAATCCCAGCATTTTGGAAGGCCAAGGTGGGAGGACTGTTTGAGCCTAGGAGTTCGAGGCTAGC
CTGGGCAACGTAGCAAGATCATCCCCATCTTTACAAAACATTTAAAAATAAACCAGGTGTGGTGGTACATGCCTGTGGTCCCAGCTGCTCTGGAGGCTGA
GGTGGGAGTATCACTTGAGCCTGGGAGGTAGGGGCTGTAGTGATCTGTGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACCCTATCTCAAA
ACCATTGTGCTGCTTTTTGAGTTGCCATCTGCCATGGAACAATCACCGAAATGCATATTTTCATAAAAAGTTTTACAGAGAAGACCATCCACTCTTGAGG
TTGAACCCTCAGATATGATGAAACATGCAAAGGTCAAGATCAGGAGAAGGAAGGAATTCCTCCTGATCAGCCTTTGCTGATCTTTGTTGGCAAGCACCTG
GGAGATTGTATTCATCCGTTCTCATGCTGCTGTAAGGACATACCTGAGACTGGGTAATTTATAAATGAAAGAGGTTTAACTGACTCACAGTTCCACAGGG
CTAGGGAGGCCCCAAGAAACTTACAATCATGGCAGAAGGGGAAGCAAACACGTCCTTCTTCAAATGGCGCAGCAAGGAGTACAGAGCAAAGGGTGGGAAA
AGCCCCTTAAAAAACCATCAGATCTCGTGAGAGTTCACTATCATGAGAACGGCATGAAGTTAACCACCCCCATGATTCAGTTACCTCCCACTGGGTCCCT
ACTATGACACGTGGGGATTATCGAGACTACAGTTCAAGATGAGATTTGGGTGGGGTCACAGCCAAACCATATCAGAGATTAACATGCTTTGTCTGTCTAC
CACATTTGCAAAGAGTCCACTCTCCATCTTGTGTTGAGATTTCACAATGGTGTTAAGAAAATGAAGTCTTGTTGGCCGGGCACGGTGGCTCACGCCTGTA
ATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACA
ACAGATTAGCTGAGTGTGGTGGTGGGTGCCTGTAGTCCCAGCTATTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGTGGAGCTTGCAGTGA
GCTGACATCATGGGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCCTCTCCAAAAAAAAAAAAAAAAAAAGAAAAGAAAATGAAGTCTTATGCA
ACTCCCATGGAGACCAAAGAGAAAGAAGGTTAAGCTGGCTGTCCTGAAATACCATAAGGTGGATGAGAATGGCAAAATTAGCTGTCTTTGTAGGGAGTCC
CCTTCAGATAAATGTGGTGGTGACATTTTTAAGGCCAGTCACTTTGACAGACATTATTGTGGGAAATGTTGTCTGACTTATTGCTTCAACAAACCAGAAG
ACAAGTAATTGTGTATGAGTTAATAAAAGACATGAACTAAGAATAAAACAAAATAAATAACTCTTGTCCTCTCCAGATTCTGAGTTCTGTGAAGATCTGG
ATTTTATCTGAATCATCTTTATATGTCCAGTGCCTAGCATTGTGTCTGGCACATAGTAGGTATTCAATAAATGTTTGCTGAATAGATATGTAATATCAAT
GAAACTGCCCTTGTCCTGGATGGTGAAAGGCACACCATGACATTTGACAGTATGCCTATCCCAGAATAATTTATAATTTCATTGAAAATATGAGAAGTGA
CACCCATGAAGAAATTAGAGAACAAAATAGGTATAGTCAGATGCCATATTGTGTGGTTTAAATTCTGAGTGCTGAGGGGGAAAAGAAAGATGACATCTTT
GGGGTGCTAGAGGGGGCTTTGGGGATGTGAACCCCCAAGGTGTGGGATGAAGTTCCCCCCTGTAGTAGGTTCCATGATAGCTATGCAACAGCATTAGTTG
CTCAAATAAATTGAAGAAAGGCTGTTTCTTTGATACATTGATGGGCAGAGTGACTCTCAATGGGACCATGGAATCTTAGACCCTTTAGTAAGAAGGATAA
TAAAAATTGTTTTGCCAAACAAAAAAGGAAGGGGAAGCCCAGAGAAATTCACCTCTGTTGATTTCAACCAATGTTCTTTTTGTAAAATTTAATTTGTGTA
AAATGTTTAAATGCATGATTTAATTTTTAATGCATGATTTAAGTTTTAATGCATGATTTAAATTTTAATAATTAATAACTTTAATGTCTATGATTGAAGG
TTAAAATTTGATAAGCAATTTAATTTCTAAGCCTGATATTTCTATTTTCTCATAAAGTAAAATATGATGGGATTAAAGGCAGGACAGACTCACCCTTCCT
GGTTTGTGATTGAGAAGGTCACCGATGGTCATAATTGCCTCCTTTTTTATGTGCTGTTGCCCTGCTAAGACATTTCTTGAAACACTTCATACTGTACTCA
CCCAAGGTTTCTAAAGCTGTCAATGTCAATTGCTTTTGTTCTTACCCTAACACATGTTGTCACATGAGAAACATAAAGCCTTTCTTGTGAAGATAAGGTG
AGCTATTATGGGTGCCTAAAAAGACTTGGAGATTAAGGATACCCTCTATGACAGTCAGGTCATGGCAAGAAGCAGAATGCACCCTAGATGGATCAAATGA
AGACACTTGAAAGAAAAAGATACTTACACATGAGCCGATAATAGGGCACCAACAGTGGATGTTAGGGCACTCAGAGACTAGCATCTGAGGGATGGGGGGA
GGGAAGCTGTTATTACCCTTATATCTGAAGGAACAAGGAGAGTAAATAGTGTTACTGGAGCCCAGTATGAGCTGCACCAGGAAGAAAGGAACCACCCAAG
AGGAGCTGTAGGTATGGGGGGTGGCAAATACTGCCAAAGACAGGCATGACATCAGGGAGACGGAGAGGGAGAAAAAGATTTGATCTCACTCTCTTCCTGT
CCCCAGTCTCCTGCTAATGTCCCCTCTGGCCATACCCAACCAGAAATGAGCTGTCAAGGGAGGCCAGGAGGTGCATCCACAGAGGTCAGGCTTTGTGGCA
TGGAGCAGGGCAGAGAAGAGCAGAGAATAGATCTGAGTAGGGTGTGTGTGTGTGTTGCCAGGGAGCAGGGGGTGGCCAGCCAGGATGTTCTGAGAGCCCA
ACTAGAAAAAGCCGCACATGATGGATGCCATCAGCTACTCTGAAGCAACTCTAGTCAGGTAACCAAAGGTTGAGCAGACCCAGGATTCCACTCACAGTGC
TTTGGATATTATTCTTGGGAAGCAGAACTGGAATATAATTTCAGTTAAGGAACTCTGATTGAAAATTAATTGCATTGTACCCAATCTGGGAGTTGTAAGA
ACTCTCGGAGTTTGGACAGCTGGGGTGAGAAGGCTSRGAGAGCAAGAATTTGGCCATGTGTCTCCAACACTATCCAGGGGAGAAGGTAGGCTCACTATAA
ATCCCCTTCAAGCCTTCCCCCAAAGGGGAGTGAATGCATTAGACTGTCATAGCTCAGTGATATCTGCCATGAAGACCATTCGTTTCTTCTCATGGCTCTG
ATTCCAGAGTCCCCAGAAGCCTTGTGTTTYGCATTTGACTTCTCATAAAGCTCTGTGCTGATTAGCCCACAAAGGGTTCTGATTCTCTTGACAGCTATAA
CTCATTGTAAATTAATAAATTGGCGTCTGGTGTATCTGATGAACTAGAGCATTCTGAATCAGGGCTTTACATCTCCTCAGTCACCTCCTGCTTCATCTTC
AGGGAACAGTCACACCTAGAGTCAATAACTCAGTGTCTGAAGCTCTGATGAGGAGTACCACATTTTGAAGTGAGGACTTTGCCTTTCTGCACAACCTCGC
CAGGCAGCCTCACCAGAACATGTCTTTACTTCACYTTTCCAGCTGTAGTGGGAAGCTCACAGTACATACTCCACCTGCCTTTTCGATGCTTGTTCCTAGG
AAAGTTGAGAACCCAAGGTTGTAAGGGGACTGTGAGACTAGCCATTCCATTCCCCTCTATCCCCCCGCCCAGATCATTTTTTAGAATAGGAAGGAGCATG
ATGAGTGGATGAATGCACGCATGAACGGATGCCTGGATGGATACAGTGCATGGATGGAGATATGGCTGCGTGGCTGCGCAGATGAAGGCGTGGATGCACG
GATGTATGGACGGTGCTGTGGCCAGGGCTGCTCTTCAACACACACTCTGTTCTTGTTGTGGCAGAGGCTTGGGTGCCCTGTGCCACTGCTGCAGCCATGT
TGTTGTATATTTCCATGCATATTATTAGTGCCCCACCTCGGGCATCTCCTTTTTCTGCTTCAGGTCATTCTCCAAAGCTGCAGAAACTCAGCCTAAGTGC
AGAGCAAGCAGGAAGTGCAGAGGGGTCAACATCCTCAGGGGTAACCCTCAACCCATGATGGATGAAAATCCATGCTTAAATGTTCCAGCCTCCCATCCTT
CAAAGGAACAATTCTGAGATACATTCTATATGATTCCTCAGAGGTTCGCCAGCAGGACTGACCTGTCCACAACAGTAACCAACTCAGCATCACGCCCTTT
ACTGGCTTTTCCTCCTTCCCTGCCTCACTCTCCCCACTCCCTCACTCCTGCTTCCTGGGATCATCTCCCCCCAAATGCTCAAATCCTTGTCTAAGGCTCT
GCTTCCAGGAGAAATGAAACACTGGTCAAACTGGTCTATTTCTCTTCCTCTGGAAGGAAGATGCTGGTATTTATTCATGCATATATGCATTCCTCCTTTC
CAGATGAGCAAATCAAGGCTGAGAAAGATTAAGGAACTTTCCCAACTTCACAAGACAATAAGTGACATTGCTGAGCTAGGTGGATACCAACCTATAGGAC
AATCCTTAGTTATGGGCCTGCAGAATCTCACAGCTGGAAGGACTGAGGACTCAGAATCACCTAGTGCAATGTTTCTCAACCTATTATGACCTTCCCAAAG
AGCCTTTTAAGACTTTTTTTTCCTAATTACCCCCATGACATTTTAATACTAAAACTGTATTGCATATCTAACTATGGACACTCTCTCTCTCTCTCTCTCT
CTCTCTCTCTCTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCTTAGCTAGATATTCTTTGTAATGTTGACAATTTTAAATAATTTTCA
GCAGTTGACATAATTACTGGTGGGTTGACTCACTTAGAAGAATGAAATAGTAAAATATAAATTATTTTTATTTATTTCTCAAGGCTTAAGTTACACACAA
AAGCACTGAGGATCAAACATAAGCAACACCCACAAGGCAGCTAATGGCAGCCAATAGGCACACACAAACCAGCTGTCATGATGGAACTTTCTCATGCAGC
AAGCAATGAAAAGAAAGTCCCCGCATCCCAACCATCTATTCACCATAGCTTTGCAGCACTGATCTTGCATGCATTTTGCGTATCTCCCATGAACTTAACA
TCGATGCTGTTCATTTAATACCCAAGAAAATCCAATTAGAGAAATAAGCACTAAGGAATAAGATTTTTTTGCCTGGTATGGTTGCACTTTGGCAGGCTGT
AAACTATTGTAATATCTAAGATTTTTTTTGCCTCCACAAGAATCATGTTTTACCCCCTTGGGTGAGCTGAGAATATATGATTTAGTCCAACACCATCATT
TTCCAGATTAGAGGGACACTGAAGGCTAAAGGTGCAGTCACATGATGAGACAAAGCCGAATGGAGTGAAAATCAGATCTTCAGACTCCAGGCACAGAGCT
CATTTTAAATTACCCAAGAGGCGGAGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCAGGCAGATCACCTGAGGTCAGGAGTACA
AGACCAGCTTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAACTAGCCAGGCATGGTGGCGGGCGCCTGTAATCCCAGATACTTGGGAGG
CTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATTGTGCCACTACCCCCAAGCCTGGGCGACAAGAGCAAAACTCCATC
TCAAAATAAATAAATAACCCAAGAACCTTGCTCACCAGTCAATATGAATTAGGCCTAGGCTCAGCTAGTCTTGGTGCTTTCCGGCCCTCAATTTTTGTTG
GGGAATAAAAAATCTTCATTTCACTGTGGAAGGTATGGTGAGTATTAAGCTGTGTTATGGTGTCTCCCTGACCCCATTTCCACTGGAGCATACAAAAGCA
GAGAGCTAATTATATGATAGTAATTACCTGGAAGTTGTATGTTTATTGGTTTTCCATTAGTGGATACTATTTTCGAACTCTTCGTTGTTATGCTCTAGCG
ACAGGAGTCACACTGTCTCTACTCCAAATGTCCCCTCCAATCTCATGATTAGCAGGCTTTTTACATGGGGCCATTGCTGGCAGCATGAGACACCCCCAGG
GTAGGGAAGGGAGGTTTGACTCAGTCCATACAGGAGGCCCCAGAGGTCTCCACCCACATTCACGGGCACCTCACTTGAAAAGAGCCTTTAATAATAAAGT
ACTCAACATCTGGTCTAAATGAAGCATATTCCTCCTTGCCCTTGGATACTGAGAATCGTATCCAATAGGAAGGGGCCTCCCCTGTCACCAGATATATTTA
TGTATCCTTCATTATGTGCCTTGGTTAATTGTCCCTTTCCTTTTTTTTTTTTTTTCCTTGAGAAGGGGTCTCATTCTGTCACCCAGGCTGGAGTGCAGTG
GTGTGATCTTGGCTTACTGYAACCTCTGCCTCCCGGGTTCAAGCAATTCTTTTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCGTCCCACCATGC
CTGGCTAATTCTTGTATTTTTAGTAGAGACGAGGTTTCACCATGTTGGCCAAGCTGGTSTCGAACTCCTGACCTTGTGATCCACCCACCTTGGCCTCCCA
AAGTGCTGAGATTACCGGCWTGAGCCCCTGCAGCCTGGCCTAATTGCCCCTTTTCTACCAGCTCTTCTTACAACAGAGAAATCCTGAGCCTCGCTTGTAA
TTATAGTGAGGAAATATTTCTATGAGCTTTTAAAAGGGAAGCCTAAACTGGGTCAAAATGTTGAAGGTGATAGGTCAGGGAGCAAGGGTCAATACTAGCT
TTACTCTGATGAGTTGATTGCTAGGGGCTTTGAGTGTCTTTTGCCAAATTTGAGGGCCCTCTCCTAGAATTCCACTATCAGCACCTCATCCTATTGTTAT
TATTGTTACAACTGAGATTGATAGACATCTGTGGAGGATTTTACAGTCTGCAAAGTGCCTTTTACATGAAGTACATCACTTATCTTCACTGCAAATGCTG
AGGGCAAGTTAGATTACTTGGCCCTACTTACTGCACTGTTAAAATGCATCTCTTCACTCCTCCAGAAGGGCCACAGGGCACTTGTTTCCAGTCATATTTA
TGTTTGTTGTGGGTAAAAAGCTAGCTTGGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCCAAGGCGAGAGGCCAGGAGTTTGAG
ACCAGCCTGATCCCATCTCTATTTACCAAAAAAAAAAAAAAAAAAAAGCTAGCTTACAGTACTAGTAGCTCCTGCCTTGTTCATAGGAGGATCTCAGCAC
CTAGCAAAATGCCCAACACGTAGAATACAGGAAATGTTTATTGAGAGAAAGAATGCATGCATCTAGCCTAGGAGTTTTTTTCCTTTTTATTTTTTATTTC
AATAGCACTTGGGGTACAAGAGGTTTTTGGTTACATGGATGAATTGCACAGTGGTGAAATCTGAGATTTTAGTAGCATAGGAATTCAAGTGACTATTGCT
CATTTATAGGCCCTCTCCCTGTTCAGTACATTCTCACATCCATGCCTTTGCAGATTCCACGTACTTGAAACTCCCTCTAAAAATGTCCATCAGCTTTGGC
GTGGATGCTACTAATTTAGAGACCCTCCCGGGGCTACGGACCCACAGTGATCCTTTCTTTTCTGAAATCCTTCAGCCCTCCTCACCCAAATCATCAGTGC
CACTCAGCCTTGACATCAGATTGGAACCAATTAATTACCTGCTAAACTACCTCATGTAAGAAACAGGTCTAAAGATGTAAACAGCCTTGCCCAGTGAGTC
AGTGGCAGGCAGGGTCAGACCCAGAATCCAGGTCTTTTATTAGCTGCCCAGTGTACTTCCCATTACATCAAGAACAGGAAATAGGTTTCACCATGACTAT
CACCTTTGATCAAGCTGTGGTGGCCGCCCAGAGTGATAGACTGAGAATGCCTGTGAGAGAGCAGCCCAGGATGGTGGGAAAGAGTGCTGCRATCGCTTGA
TCATGTCTGCCAGGCTGTGGAAATGAAGAGTTTGGTGTGGAGAGTGGCTCACATTGCAAAAGTTGGGACCCCCATTTAATCTGACCTGAATCCTCCACTG
TAAGGATGTTGTTGGCTGTCCCTTCACTCTCCCAACTCCAAGAGAATTGATTCAGGGCAACTCCCTTTTGCTCACATTAAAAAGAAATAATAAGCTTTTT
TTTCTTCTYAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCAGTGCAACCTCTGCCCCCTGGGTTCAAGCAATTCTC
CTGCCTCAGCCTCCCAAGTAACTGGGATTACAGGCACATGCCACCATGCCTGACTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCA
GGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCTTGCCTCAGCCTCCTAAAATGGTGGGATTACAAGCGTAAGCCACCACACCTGGCCAAGAAAGCAT
AATCTGAAGGTCAGTCCTGGGGTTAGGTCAGAACTTCCCTCCTACCCTGCTTGGAGTTAAGGATATAGTGCTTGTTACTTGTCCCCCAACTCCAGAGTCA
GCTTCAAAGATTTGACTGTGTATTTGTACAATTAGAAGAGTAATCTCTAGGAAACAAGCAGCTCAGTAATGAAATGTTACAATCCCAGCAGGGCCAAGCA
AGCCTATTGTGGTGCTTTCTAGGCAGAAGGAGGCTTAAGGAAAGGATCAAGCACATTGCTGCTAAGAATGTGCAATACCAACTCCACTGAGAGAGAAGCA
CGGTTGCAAACTAGGGGACAATTAGATGTTTTCCTTCTTTGTGGATTTGGAAGAGTGGTTGCAAACACAGATGCCTCTAAGGGCAACACAGATAATATAA
ATAAGTGAATCAGCCTGGGTGTAGGGCAGCAGGGAGCAGTGGGGACTGTGGCTGAGAGTGCCTGTCCTACCTAAAGGATTTCCAATTCTCAGGTATTTTT
AAAAACGTAGTACTGGCCAGCCGGACGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGATAGGCGGATCATGAGGTCAGGAGATCGAGA
CCATCCCGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCAGGAGG
CTGAGGCAGGAGAATGGCATGAACCCAGGAGGTGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCAGTCT
CAAAAAAAACAAAAACAAAACCAAAAACAAAAAAAAACTCATAATACTGGCCAAATAGAAGATGTTTGCAGGCTTCGTTTGGTTTTAGGACTTTAGACTG
AAAACATTACAGATATGTGTGTATCCAATCTATCTAATTTATCCATTACTTAATGGCAAAAACTGAAATTACTTTTGCACCAACCTAATAAAAGTTATGC
ACTGGTGGCCGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAAGCAGATCACTTGAGGTCAGGAGTTCAAGACTAGTCTGGC
CAACATGATGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGCTGGCACACACCTGTAATCGCAGCTACTTGGGAGGCTGAGGCAGGAGA
ATCACTTGAACTCGGGAGGCAGCGCTTGCAGTGAGCTGTGATTGTGTCACTACACTCCAGACTGGGTGACAGAGCAAGACTCCATCTCAAAGTAAAATAA
AATAAAATAAAAGTTATGCCCTGGTTAATCAGAAAAATAAAGAAGCATACCTGATCCTCCGGATGGTAGTTCTGTTTTATGGAACAGTGTGCCTCTGCTG
ACTGTGATCAGTCCTGCTGACCCTGGATATCATCCCAGACTCAATAACTCAGACTTAAAGAATGGTATTGAGGAGAAGGAGATGCTTTGGGGTAAGATCA
AGCCCTAGACTTTGAAGGTGAGATTTCCTGAAAAGTGGGAGAAGATTTGCAAGCCAGAGTAAAAAGATGTGCAAGTCAGATCTGTAAGGCAGAAGCACAA
AGGAGGAAGCTTTCTCAGAGAAGCCTGAGGCTGGGGCACAGGATTAGAGACTGGTAGGGCCCCAGGTAGGACTGAGTTGTGCAACATGGCAGCCCTGGGG
AGGGTTTAACTTATTGATGTGCTCCGTCAAACTATGAAAAATTATATAGCACGCAAGCTTAAAATGTTTCCCACTACTACACAGAGATTCCCCTAGATAT
CTTATCCTCCTAGTTTCGCCTCATATGACATTGCTGTGGAGATAAAGAGGTCAGGCAGAGGAGGAGAGTGGCCTCTCCCTCCTGTGAGAAAAGGCACTTG
CTCCCAACRGGATCAGGAGTGAGGACTCAGATGGTCCTCGCAAGCCATCAGGGGGAGCATGTGGTGTTGAAGAGACCCTGCCGTTCAAACCTCCTTGCTG
GTAGTGACACTGAGGGACTGGAACCCCTTAAGGGGAAGCAGCTGAGGTTTGGGCCAGCTCAGGTGAAGCAGGCTGGCTGCCCTCTGCCCTAATCCTCTGA
AGGAGCTGGAGGTAAGAAATGCTCTGACTCTCTCACAGGAGGGCTGGAAGACCCAGTTCAGTGGGAACTGTAAAATGCTTGGGAAAACAGAGACCCCTAT
TAATGCAAAATATTATTATGAACCCTCCCTCCCCACATACTTTTCAACCTCATGAGGTGTTGTCTTTAAGGCCCAGTCTGGTTTAAATTATAAGATGAAT
AAACTCACCTGACCTGACAAGCAAATGTTCTGCTGGACCCACAGAGCCTTGGAAAGAGCAGCCTTTGCTTCTCCGCCCGTTTAGGAGGAGCAACCCTGTG
GGCCTGTGGGAAATGCATGGACTGGGTGTCTGGCAGGTCTGGGTTTGAAGCTCAGCTTCATGAGCAGTGGGCCTTGGCCTTGCTGCGCCTCATTTYCCCC
CMCTCACAGGGCTGTCTTGAGGCTGGGTGGAGTAGTCCTCTGGAAGCCCTGAAGGTTTGACCGTTCTAAAGCAGTGTTTCAGGTGAATTTATACATTGAT
GGGAAGGAAAGAAAGTCTGTTGGATTTTTAGACGATGCTTATGCTTTGGATACAATCAAGCTCTTTCCCCAAGGGCCAGACCAGGGACAAATGAGCTGTA
TCCCTAGTAAGCTAGCTTTCTTTTAATATGAGGATGTATTATTTGCCACAAAGGACAAATGTGAAACTACCTCTTGATCAGTCACAGACTGTGGGCCTCT
TGGGAGTCTGGGAGGTCACAGGTCAAGGCCTAGAGAAATGGCTGTGTCCTAKGATTAGGGACAGTGGAACTGCTTTCTCTCCTGAGGCCTCTTTGGTGTG
GTCATGGGGTGCTGCTGATGTCTGCAGCCCTCTGGGCACTCTCTCAAAGCTGCCCTGTAGCTGGAACATCTATCTGCATCCCTACTCAGCGCAGAGGCAG
TGAAATGGCAGCAAACAACTCCCTTCTATTTCCTGGTGGCTTGTTCTCTGGGACACGGAGAAGAGCATGGTGACTGCCAGGTTTCAGGCCTAYCTAGCAG
GGCAATGAGAGCTCCTGGGCACCTGAGGATTCAGAACCACTTCTTTCTTTCTTTTTAATTTTTTTTTTTTTTTTTTTTTTTTGAGACAAAGTCTTGCTCT
GTCGCCAGGCTAGAGGGCAGTGGTGCGATCTTGGCTCATTGCAACCTCCGCTTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGTTGGGA
TTACAGACACACACAACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTGGCCGGGATTGTCTCGATCTCTTGACCTCATG
ATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCCAGAACCACTTCTTAATTGAAGAGAACATCTTCCTTCTC
TTTGTCTATGGGATAAAGTCCTATACCTGTAACCAAGGCCATACCCAAGGGTCCCCCAAATAGCTCAACTCAACTGGCTGATGCTCATGGGTAGCCATGA
CCCCTCCAGCCCATTGCCCAGCCTGTCACACGCTTCCTGCCTTTACACATGCCACTCCCTCACTTCCTATTTCTACCAGATGAACACCTGCCTGTTTATC
AGTGTCTCTGAGAAAACATCCCCCTTTCCCCCCAAGAGCAAGGGCAAGGCTCTGCCTTCATTGCATCCTTAGCCCTCCAAGCTAGCTGATCTACTCTCAC
ATCACTCCCCTGACCAGCATGTAGAAGCAATCCACACAGAAGCAGGCCTGGCATGAAGTGTGGTCCTGGGGCCCCTGTTGGGCCATCTTAACTCATTGGT
TGCTTGATCATGAGGTGGGGCCCAAAGAAGTGACAGGGCTGCTGGGACTGAGGGAATTACTCAGGCAATTGATGCTGACTCTACCTTTTTGTGATCAATC
TGGTCTCCTTGGTTCCAGGATTTGGAGCTCTGTGCTCCAGCAATGCAAGCTGCCTCTGAACCATTTGTCTTGTCCTCCTGCCCTAGGACTTTCCTTCTGC
CTTTGACTTTAATTTTCTGCATGGATCCTGGACATGGTTCAAACTTCTGGTTCTAGTGGCCCAACTCTCTATGAAGAAGAATTCCCTGTCTCAGCCCCAG
AATCTCAGGTTTTCACCCAGCTTGCTATCCTCAAGGGATAAATCAGACTCTTTCCTCTCTGCATCCCATCTTTTTGTTGTATAACTTATTTTGGGTTTTG
CTTGTTTGTTTTTTGAGACAGGGTCTCGCTGTGTTGCCCATGCTGGGGTACAGTAGCATGATCACAGCTCACTGTAGGTTCAATTTTCTGGGCTTCAGTA
ATCCTTCTGCCTTAGCCTTCCCAGTAGCTGGGACCACAGGTGTGTGCCACCATACTCGGCTAATGTATTTTTATTTTTTGTAGAGGCAAGGTCTCACTAT
GTTGTCCAGGCTGGTCTTGAACTCCTGGGCTCAAGTGATCCACCTGCCTTGGCCTCCCAAAGGGCTGGGATTATAGGCATGAGTCATCATGCCTGACCTA
ACTTATCATTTTGTCTTCTAACTATTTGTTTTCATGACTAAGCCCCTCCCTGGACTGTGAGCTATTTAAGGGCAGAGTGGATGTCATAACATATTTCATA
AATTAATGCATGAATCAATGATGATCAGTGTCTGTAGTATTACAATCACTTGTAATGCTACAGATGATATTATAGCCCTATGAATTACATAGAAAATCAT
TTTTATCATCCATGACTTCCATTTCAAGTCTCCCAAGAGGGAGGAAAAAGAATCTCTGCCTGTCTGGCCCCACGTGGAGTCCAAGGAATATTATAGTTCT
TTTCCTTGTATTTTTCTAACGCCACTACATTTTGGGGGGCTTATCCACCTTAGTACCTACTAAGTTCAAATTTGGACTAAGTCTKTAGCTCGGTTGTGCA
TTTTGAACTTCATCTTAAATTGGTCATGGCCCATTGCTACTGCTTCACATTTCCTCCGTCGTGTTTTCTCTTTTATTGCTTCTATAGGTTGTGAGTTAGG
ATAATAAAGTCAAGATAAAATTGCTCCAAGCCATTTGCAGCTCTGGGAAGCTGGCACAGGGCTGCCAGGAGCTGGCTGGGTGCCACCAAGAGGAAAAAAT
ATTCTTCCGTGTTGCCAGCCTTATCAGGACTCCTCACAGTTTCTTGCCAAAATTTTAGGAAAACGATGATCTACTCCCCTGCAGCTATTCTGTATGTTTC
TATAGGTGGGGAGTCTTTCAACAAGGATTTTCACTAAAAATACCTCTCATGTTTTTCCCCTGGTTTAAGACTGTAACTTGAGCTCCATATTGTGAAATAC
TGACATTGAGATATTAATCACTGTGCATAGTTGAGGCATCATTGTCATCATCATCAGCCACTCACACTAACTGAAAGTTTATAAGCTATGGAATCCCACT
CAGGACGTGCTCATGAAAGAATAATTGGAGATTATTTTTTAACTGTGAAAAATGTTCTTTTGGAGGAATGAGGAATTGGGAAAATAGGAACAGATTATAG
AAAGCTGGTAGGAAATCACAATTCTATTCTTTTATTTTCTTTCTGTTTGTTTTTCCAAGATAAAGGGTCTCCTTATGGTGCCCATGCTGGCCTTGAACTG
GGCTCAAGTGATCCTCCCACCTCAGCCTGCCAAAGTGCTGGGATTATAGGCATGAGCCACTCTGCCTAGCCTAAAATTTTCAATTTTTTTATGGAGGTGT
GGTCTCACTATGTTGTCCAGGCTGTTCTTGAACTCCTCCCTCCTCGGCCTCCCAAAGTGTTGGGATTACAAGCATGGGCCACTGTGCCCAGCCCACACAA
CTCTACTCTTTTAAATATTTGCTCTACATCTGTTTGATGCCACAACAATGACTCAATTCCGACAATTCAATTTATTTATATGGGTGTGGCTTTTTTTTCT
TATTCGATGGGGGAGTTTGTCTATCTGGCATAGACAGACAAGCCAAATTTCAAATTCTTGTTTAAGTGTTGAGAAGATATGGCCATAAGCATGTCTTTAC
TCAGTCAATCAATTGAACTTCAATCAACAGTGCCTACTGAGCACTAACTATGTGCATGCCCAGTCCTGTGTTTGGAAGGATACAGAGAATAAGGTACCAT
TTCTCCCTTTTCTTTATTAATTTATAGTCTAGTCAGAATTTATAGACTAGTCAGGCAGTCCTGGGCTCAAATCCCAATGCTATAACTTAGCAGCAAAGTG
GAATTTTGGCAAATGATCTAATATCTCTGCACTTCTGTCTCCTCCTCTGTCAAATGGGGTGATGATAACACCTAATTCACAGGGCTGCTGTAGGAATCAA
GGGAGATTGTGGGTGTATTCTGTGGGGTGTATCTATAAGTATTGGCTTTCTTCCCCTTCCCTTAGCCTTTAGCCTGGGGTAACCTCAGTGGAGAGGATTC
CTAGAAGCCCTGTGTAAAAGCCTTCTTCTTAAGGCTAAGGGCAATTACCTCCATGGCCACGTGAAAATGGGCGCATAGTGGCTGGCTTTAAGTGAAGGCT
GCAAACTGGCTGCCCACTGGCCAAAGCCAGAGTTAGACACTTCCAATTAGTCCTATATGATGTTAAAAAAAAAAAAGTAATCTGCGGGCACAGTGGCTCA
TGCCTGTAATACCAGCACTTTGGGACGCTGAGCTGGGGGGATTACTTAAAGTCAGGAGTTTGAGACCAGCCTGATTAATGTGGTGAAGCCTCGTCTCCAC
TAAAAACACAAAAATTAGCAGGGCATGGTGGTGCACGCCTGTAATCCCAGTTACTCGGAAGGCTGAGGCAGGAGAATTGTTTGAATCTGGGAGGTGGAGG
TTGCAGTGAGCCAAGATCTCGCCACTGCACTCCAGCCTGGGTGACTCAGTGAGACTCCAACTCAAGAAAAAGAAAAAGAAATCTGTTGCGAGCATTTAAA
TATCAAAAGCTATTCATTAAAACCCCAATTTGGGGATTCTCTTGAAAATCGGAAGATTCTGGCTTTTGACATTTGGATGGAGCTGACCACAAGCTACTTT
CTTTGGATGGGTCAAGCACTCTCCAGAGTGCTTGTGACTTCCCACAGGGAGATCAGATGTGGTAAAAGGACACCATTAGTTCAGATCTAGCCAAAGTTCA
AAGCTTAAGAAAAAGAACCAAGCCAAGAATGATGAGCCAGGGCAGCCCTGATAGGACCCACCAGAAGAGTAAAGGCTTAGTTCATTTAACAAATATTATT
GAGCACCTTGATGTGCAAGTCACTGCATTGGGTGCAAGTGGGAAAGAGAAAGAACATGTGTTGGGAGCCTACTATGTGTCAGGCTCTGACATGAGCTCAT
CTAATCCATCAACTTCTTGAGGTAGGTATTAAGATTTTTTTTTTTTTTTTTTGTAAATGAGAAAGTAGGATTAAGTGGCTAAATGGATCAGCTGCTAAGT
GCTGGAGTCAGGATCCCTGTACTCTGAGGGCCTAGGTTTGTCCTCTATACCTCAAGCCTGCGAGAGCAGGATGGAATGCGTCATATGTTCCTCTGTACTG
TTCCATGTGCAAACTGGGCACATGACTGTGGATTGTGTGAATTTTCTGGTGAACGATAGGACAGTTTTTCCTCTGGCTCCTGCTCTCAAGAAGATTCTAG
AAGCAAAGGAGACGATGATTGCCAGACAATGACCAACCAAAGGCTGTGGGGCTCAAGGCTCTGGGAGGAGGCAGCGTGTGAACTGGGCCTTAAAAGTCAG
GAAGTTTTTGATAGGCGGAGGAGGCAGGAAAGGATATGCAAGGCATGGGGACAGCCCCAGCAGAGACACGAGGAGTAATCTGGAGTATGTGGGGCACAAG
GTGGTGCATGGATGGGGCCCAAAAGTCAGGATGCAGTCAGGTCCTGGATGACCCTGGTGCAGCTAAACAATCCAGACTTCCTCCATTTCCTTCCTGGGGC
CATTCCTCAGGCCCATCCTTTTCTCTGTCCCTCTTGTCCACCGGATCYTTCTGCTCCCTGCCATGGCTTCTGGAGCACAAGAGAGATGAGGGAACTCAAG
CAAATGTATAAATGATTGAAGGCATTGAGAGCTCATGGTATCTAATAGGGATCTGTTTTAAAGAACTAAATAATATCATTATATAAAGCTGACCATCTCA
TACGAAATGACTCTGAAATGTTACCCCTGGATATATATTCCAGTCTAGAGAAACTCATGCTCAAAACTAATTATGGCAGCATGATTTGTAATAGCCAAAA
AGTAAAAACAACCCGAATGCCCAACAATAGGAAACTGGATAAATAAATGGAGTATTGTCATAGAATGGWATGCTTAACAGCTGTGAAGATAAATGGATTC
CAGTTACAGCAGTGGTTCTCAAACAGGGGTGATTTTATCCTCCACCCGGGGGACATTTGGCAGTGTCTGGAGACATTTTCAGTTGTTACAACTGGAGGGA
TGTTACTAGCACCTAATGAGTAAAGGCCAGGGATGCTGTTAAACATCCTACAATGTACTGCACAGCCCCTCATAACAAACGATTATCCAGCCCAAAATGT
CATAGCATCCAGGTTAAGAAACCTTGAGTTACAGTYATTAAAATGGATGACCCTCATAATGTTGAGCACAGAAAGCAAGTTGCAGAAGAATATATATACA
GTATAATACTATTTTTTAAAATTCAAAAGTAAGCAAAAAAGAAAGAATACATTGTTTAGGAATTACACATATACAGTAAAATTATGCTGTGATTTCAGAA
TCCACATTGCAACTATCCTTTAAGRAAGTATCACTTAATGAGTTTTAGTGTGATATCAAAGAGGAATATCCACAATTATTTGAAAAAGCTGTTAAAATAC
TCCTCCTTGTCCCTCTACAGATCTGTGTGAGGCTGGATTGTCTTCATGTACCTCAATCAAAACAATATAGGGTTGCAACAGATTGAATGCAGAAGCAGAT
AGGAGAATTCAGCTATCTTCTGTTAGCCAAACATTGAAGATATTTGCAAAAATCTAAAACAATGCCACTCTTCTATATTTTTGTGGAAAATATAGTTATT
TTCCATAAAATATGTTATTTATGTTCAACATGTGATGAGTTTGTTGTTTTTAGAAGAATAAATAATAAATGTTCTGTTTTAATTTCTGATACTGTAAATG
TTGACAGATATAGCCCACGTAAACAAAGTTTCTAGGATCCTCAATAAATTTTAAGAGCTTAAAAGGATCCTGAGACCAAAATTTTCAGAACAGTTGCCCT
AGTCTAAGACAGATCTATTTCCTTTATCTCCTTTCCCATTTTGTACGCTGGAAGAGTTCCATTTAGTGAGCGCCATATTGAGTTTGCTTTCCATTAATAA
TACCTCAGTTATGGCTCATTTGTAAGTAACATGAAACAGTTATGAAATTCACATGGCTTGGTACCTCAGCCTTTGACTCCTGGGCTCTACCTCCAGTAAA
TAACTAAAAAGATTTTTTCCAAATTTATTTTCTTCCTCCTCCTTTCTTTGTATTTTTTTGTCATTCCATAAACATCATAGAACACCCTTTAATAATAGAT
AAAATTAGTTAATTTTAATCAAATATTTACCTTACCAAGACACTGTACTTTATATGAGTTATGTCATTTAAGCCCTCAAAAACCACATGAGGCAGATATT
ATTTCCACTATTTTTTTTTTAAGAGACATAATCTTGCTCTGTCACCCAAGGCTGGAATACGGTGGCGTAATCATAGCTCGCTGCAGCCTTGAACTCCAGG
GCCCAAACAATCCTCCTGTCCCAGCCTTTTGAGTAGCTAGAGCTACAGGCATGCACCAGCATGCCCGGCTAATTTTTAACATTTTTTGGTAGAGGCAAGG
TCCCGCTATATTGACCAAGCTGGTCTCAAACTCCTGGCCTCAAGCATTGCTCTCACCTCAGCTTTCCAAAATGCTAGGATTACAGGCATGAGCCACCACG
CCCAGCATTTATTCTCATTTTGCAAGTGAAAAACTGAAAGTTAAATGAGTGAATTGACTTGCTCAAGGTTGTGCAGGTAGCAGTGATGGAATCAAGACGT
GGCCCCTGGCATAGTGGACTGCAGACCTGGCGGGTTTAGCCCCTATCCCGCAATCATGATCATGCTTGAGAGGGATGTGAATACGTTCATAAGATATATT
CACTGTTGTCAAGGAGCTTATAGTCTAGCAGCAAGGATTAAACAATTTTGCAAACATTTGGTAATTTAAAATTCATTTTTTATCCTGTCTTCTTCAATAA
AAACAAATTTTTAATGAAACTGATCAGTACCAAAGGGAAAAACACATTTTTAAGAGCTTTAGTGATTTGTATTCACTAGGAGAATACTGTCTGATTCTCC
CAAGGATTTGAGAATATTATCAATCATTCACTAAGGGTTGAGCAGAGCATTGGAGGAAAAAAAAAAAAACACAAAAATAGGCTTAGTACTCCAAGAGCCT
ATGGGTGGGAGGTGGTGAAGCTCACAAATAGCTACAATATTAGGGAGAATGAGGCGAATTCAATACAAGAGGCATACCGTCTTTACCAGATGGATAGAAC
ACATCTGAATGCGGCAACTAGGAAAGGCTTCTCAGAAGAGGTGGTGTCTGAAGGGTGGGCTGGATTGGGGCAGAAAGAGATGGTAGGAGATGGGAAATCT
AGGTGGGCAGAAGGATATGTTCAATTTCCTAAGCTTGGCCTCTCTGGAAGCAGACCATGAGGAAGAGTTTATTAGGGATCAACAGCCATGAAAGGAAGGA
GAGAAAGGAGGATGAACAAAGGAAGAAGTAAAATTGCAATCCAGGCTTGATAAAGCCTGCCAACCAGGTGGGGAAATCTGTGGGAAGTAGTGCCTGGCAG
AGTTGTTCCAGATCAGGTTAAAATGRTCAGGCCCTGATATAGTTTGGATATGTGTCCCCTCTAAATTTCATGCTAAATTGTAATCCCCAGTGTTGGAGGT
GGGGCTTGGTGGGAAGTGATTGGATGATGGGGGTGGATTTCCCTGGAATGGTTTAGTACCATCCATTTGGTGCTGTCCGCATGGCGGTGAGTGAGGTTTC
TGTTGTTGTTTTTTCTTTTTGGCTTTTTGTTTTTTTGTTTTTTGTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCA
CAATCTCAGCTCACTGCAAGCTCTGCTTCCCGGGTTTACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTACGCCCACCACCACGCCTGGCTAGTTTTT
TGTATTTTTATCTTTATTTATTTATTTTATTTTTTTAAATTTTTTGGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTC
CTGACCTTGTGACCCGCCTGCCTCGGCCTCCCAAAGTCCTGGGATTACARGTGTGAGCCCCCATGCCTGGCCAACAGTGAGTGAGTTCTTACAAGATCTG
GTTGTTTAAAAGTGTGTGCCACCTTCCTCCCCAACTCTCTCTTGTTCCTGCTCTGCTGTGTGACATGCCTCCTCCTGTTTTGTCTTCTGCCATGAGAAAA
AGCTCTTTGAGGCCTTCCCAGAAGCTGAGAAGCTGCTGGCATCATGCTTCCTGTATAGCCTGCAGAAGCATGAGCTGATGAAACTTCTTTTCTTTATAAG
TTACCCAGTATCAGGTATTTCTTTATAGCAACGCAAGAATGGCCTAACACAGTATATTGATACTAAGGAGTAAGGTATTGCTATAAAGATACTTGAAAAT
GTAGAAGCAACTTTGGAACTGGGTATCAGGCAGAAGTTGGAAGAGTTTGGAGGGCTCAGAAGAAGACAGGAAGATGAAGGAAAATGAGGAACTTATTGGG
AACAGGAGCAAAGGTCACCCTTGCTATGCCTCAGCAAAGAGATTGGCTGCATTCTATTCATGGCCTAGGGATCTGTGGAAGTTTGAGCTTCAGAATGATG
ATTTAGGGTACCTGGTGGAAGAAATTTCTAAGCAACAAAGTGTTCAATATGTGGCACGGCTGCTTCTAACAACCTGTACTCAGATTCAGGAACAAAGAAA
TGACTTAAAGTTGGAATATATATATATATATTTTAAAGGGAAGCAGAGCATAAAAGTTTGGAAAATTTCTAGCCTGGCCATGTGGCAAAGTAAGAAAAAG
CTCTTTTAGGGGAGGAGTTCAAGCAGGCTGTGGAACTACTTGCTAGAGATATTTGCCTAACTAAAAGGGAGTCAAGAGCTAATATCCAAGAAAATGGGGG
AAAAGGCCTCAAAGGCATTTCAGAGATCTTCATGGCAGCCCCTCCTATTACAGGCCCAGAGACCTAGGAAGGAAGAATGCTTTCACGGACTAGGCCCAGG
GCCCCACTGTCCTGCACAGCCTTGGAACACTGTTCCCCACCTTCAGCTCCAGCCATGGCTCAAAGGGGCCCAGGTACAGCTCAGGCTACCACTTTGAATA
ATGCAAGCTGTAAGCCTTGGTGGCTTCCAAGTGGTGTTAAGCCTGCAGTTGAACAGAGTGTGAGAGTGGTGGAGGCTTGGTGGCCTCTGCCTAGATTTCA
GAGGATGTATGGAAAAGCTTGGGCATCCAGGAAGCAGCCTATTGCAGGAGTGGAGCCCTCACAGAGAACCTCTTCTAGGGCAGTGTCAAGAGGAAATATA
GGATTGGAGGCCCCACACAAAGTCCCTGCTAGGGCACTGACTAGTGGAACTGTGGGAAGAGGGCCACAGTCTTCTAGACCCCAGAATGGTAGATCCACCC
ACAGCTTGCACTCTCAGCTTGGAAAAGCCACAGGCACTCAACTCTAGCCCATGAGAGCAGCCTCGGGGCTGAACCCTGCAAAGCCACAGGGGCAGAGTTG
CCCAAGGCCTTGGGGGCTTACCCCTCATATCAGTGTGCCCTGTATGTAGTACATAGAGTCAAAAGAGATGAGTTTGGAGCTTTAAGATTTAATGACTGCC
CTTCTGYGTTCTGGACTTGTGTGGGGCCTGTAGCCCTTTTCTTTTGACTGATTTCTCCCCTTTGGAATGGGAATGTGTTGCGGGAAGTCAGGGACCCCAA
ATGGAGGGACTGGCTGAAGCCATGGCAGAAGAACGTGGATTGTGAAGATTTCATGGACATTTATTAGTTCCCCAAATTAATACTTTTATAATTTCTTATG
CCTGTCTTTACTGCAATCTCTAAACATAAATTGTAAAGATTTCATGGACACTTATCACTTCCCCAATCAATACCCTTCTGATTTCCTATGCCTGTCTTTA
CTTTAATCTCTTAATCCTGTCAGCTGAGGAAGATGTATGTCACCCCAGGACCATGTGATAATTGCATTAACTGCACAAATTGTATAGCATGTGTGTTTGA
GCAATATGAAATCTGGGCACCTTGAAAAAAGAACACGATAACAGCAATTGTTCAGGGAATAAGAGAGATAAACTTAAACTCTGACCACCAGTGAGCCGGG
CGGAACAGAGCCATATTTCTTTTCTTTCAAAAGCAAATGGGAGAAATATTGCTGAATTCTTTTTCTCAGCAAGGAACATCCCTGAGAAAGAATGCGCACC
TTGGGGTAGGCCTATGAACGGCCCCCTTGGGCGTAGCCATCTCTTATGGTCGAGACTGCAGGGGTGAAATAGACCCGTCTCCCATAGTGCTCCCAGGCTT
ATTAGGAAGAGGAAATTCCTGCCTAATAAATTTTGGTCAGACCGGTTGCTCTCAAAACCTTGTCTCCTGATGTTATCAATGACAATGGTGCCCGAAACTT
CATTAGCAATTTTAATTTCGCCTCGGTCCTGTGGTCCTGTGATCTCACCCTGCCTCCACTTGCCTTGTGATATTCTATTACCTTGTAGAGTACTTGATGT
CTGTGACCCACACCTATTCGCACACTCTCTCCCTTTTTGAAAATCCCTAATAAAAACTTGCTGGTTTTTGCAGCTTGTGGGGCATCACAGAACCTACTGA
CATGTGATGTCTCCCCTGGATGTCCAGCTTTAAAATTTCTCTCTTTTGTACTCTGTCCCTTTATTTCTCAAGCTCGCTGACGTTTAAGGAAAATAGAAAA
GAACCTATGTGAATATCGGGGCAGATTCCCCGATAGGAATGTTTACCCAATGCCTATATCCCCATTGTATCTTAGAAGTAAATAACTTGTTTTTTTTATT
TTACTGGCTCATAGGTAGAAGGGACTTGCCTTGTCTCAGATGAGACTTTGGACTTTGGACTTTTGAGTTAATGCTGGAATGAGTTAAGACTTTGGGGGAC
TGTTGGGAAGGCATGACTGTATTTTACAACGTGAAAACAACATGAGATTTGAGGGGCCAGAGGTGGAGTGATATAATTTGAATATGTGTCCCTCTAAATT
TCATATCAAACTGTAATCCCTAAGGTTGATGGTGGGCCTGATGGGAAGTGGTTGGATCACGAGGCCAGATTTCTCTTAAATGATTAACACCATCCCCTTG
GTGCTGTCCTTCAGACAGTGAGTTCTCATGAGATCTGGTTGTTTAAAAGTGTGTGGCACCTTCTTCCCGACTCTGTCTCTTACTCCTGCTCTGGCATGTG
AGGGTGCCTGTTCCCACTTCACCTTCCACCCTAAGTAAAAGCTCCTTGAGGCCTCCCCAGAAATGGAGCAGATGCTGACATCATTCTTCCTGTACAGCCT
ACAGAACTGTGAACCTATTAAATCCAGCCAAACCATATCAGTTACCCAGTCTCAGGTATTTCTTGATAGCAATGCAAGTATGGCCTAACACAGGCTCTTA
CCCCCATCTCRCTCAGTTTAACCATAGGGCACCTATAAGCCGCCACAGGGCATGCCCACAGTTGAGGTGACTCTCTGCAGCTGAGGCAAGGACTCTGCTT
TGGGAAGAATAACCCTGTGGCAGCTTGTAGGAGAGATTTGAGGCCAAAGGTGTGTAGGTTTATCCTTGTTTTTTGTTTGGTTGGTTTTTTTTGTTTGTTT
GTTTGKTTTTTTTTTGTTTGTTTGTTTTTGTCTAGCTCCTCTTCTCTAAGAATGGCCCTACCTCTTCCACATGGCAATGATGCTCATACAGGGGTAGGGG
ACTGACACAACTGGGCAAGTCAGAGTTCCTTGCATGGGGATTTGTAATTGAGCCAAGGAGATTTCAGCCCCTATCAGGTCTGGTCTCTTGAATGCAGATG
TAAAACTTTATGGAGTAATGGCCATGTTCTCTACCATGGGGTCTGAGTAACAGGAGAAAGAGGTACAGACTGAAATCACTGAGGACACAGAGAGATGCAC
CAAAAGAGCTGGAGTGACTTTCTTGTCCTTGACTCCAGCATTTTTTTTTGAAGTTTCATAGGTCATCCCTGAAATCTTTCAATAAATCTTTCTGGCCAGT
CTTTTTTCTTTTTCTTTCTCTCTTTTAAAAAAATTTGTCCATTTCCATTACTGGCTTCTGTTTCCAAAAAGGTCCTGATTGAGAGATTAGTTGGGAACTA
TCAGACTAAGAAATGCCAGGTGCCTTAACATAGGGGCCAGCAATGGGAATGGAAGGAGGATTGATTTGAGAAGTATTTAGTTTAGCAGCAAATTGAATAT
GGAGGGAGCAAAAAAGAGAAAAGAGGAAGAGCTTTGGTGCCTTGTGAATGTGAGGATGGCAGTCCTAGAAACTGAAAGAGGGAAGTCCAGAAGAAGAGCT
GGTTTGGAAGTGGGGCGGGGCATGGTGATTTCAGAGTAGCTTCTGCTGGTGGGTGCTCCACAAGTCCCTGGCATCACTCCAGCCTTCCTCCTGTCTGAAT
ACAATGCTTCTTCTTCTTTTTTTTTTTTTTTTTTTGAGGTGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACCGCAAC
CTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACTGCACTGGGCTAATTTTTAAATACAATG
CTTCTAAACAACCTCCCTACCTCCAATAGACTCTATACTGAATCCCAAACTTCCATAACTCCATTCTGGTATACCCAATCATCTAGCCCAAGGAAGGATC
TTATAACCCTTACAGTCTGAGGGAATTGAAGACAATTCTTTCCATTCATGTATTTAATCATTTATTCCATAACATTCRACAAACATTTGTGTGCCAGATC
CTGGGACACAAAGAAGATGAAGGAAATGTCCCTGGATCACAATCTAACAAGACAGATAAACCAGCTATGATAGAGTGATACACGAAGACTGGTTGGAACT
CTCAGGAGGGACATCTAACTGGGAGGAATCAGGGCAGGCTTCATACAGAAAGTAAATTTTAAATCAGATTTTAAAGACTAGGAAAGATTTATCCAGTTGG
AGAAGTAGGAAATGACATTCCAGATGGAAGGAAGCATGGAGGAAGCAGTTCAGTGTGGCTAGAGCTCAGGATAGATGAGAGGAGGGATGARGCYGGAAAG
GCTCTGTTGGGCTAAGGAGGCTGGCTTTGATCTTGTATGTGGTGGGAAAAAGCAAATGATTTTTTGATCTGGACTATATCGTGATCAGGGACACTTTCAT
TTTAAAGTAAACTTTTATTTAAATATACAGATGGAAAACTACACAAAGCATAACCTACATCTTGATGAATTTTCGCGAAGTCAACGTATCCACATACCCA
AGAACCCAAATCAAGAAACAGAACAAGGCCAACCTCCCAGAAGCCCCTTTTGGTCGCTGCCCCTTCCCAAGGACACACATGTGTTTGCAAAAATCTTCTC
TAGTAGCAGCACAAAAGATGGGTTGGAGAGGTCAGAACTAAAGACAGAAATGTTCTAGGAGGCAACAGCAATAGCCCACGTGAAAGAGGCTGAGGCCTGA
TCCCAGGCAGTGACGGCAGAAAAGGAGAACAAAGGGCTGTGAATGTGATAGAATGACAATATCCCCTCCCAGGAATTCACAATATGCATTTACTCCTCCA
GGCAACTGTGATCTGACCCTGAGAATTTCCAGTAGCTTCCCTTGTAATTTAAAAATGCCCAGGACTTGGCCGGGCGTAGTGGCTCATGCCTGTAATCCCA
GGACTTTGGGAAGCCGAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCGGRCCAACATGGTGGAACCCCGTCTCTACTAAAAATACAAAAA
TTAGCTGAGCGTGGTGGTGCATTTGTGTAATCCCAGCTACTTGGGGGGCTGAGACAGGAGAACTGCTTGAATGCGGGAGGCAGAGGTTGCAGTGAGCCAA
GATGCAGTCACTGCACTCCAGCCAGGGTGAAAGAGCAAGACTCCGTCTCAAAAAAAATAAAAATAAAAATGCCCAAGACTTGATATATACAGCCATGYAT
CACTGAGCCACCAAGATACATTCTGAGAAAGGTGTCAGTTAGATGACTTCGTCCTTGTGCAAACATCATAGACAAACCTAGATGGTATAGCCTACTACGC
ACCTAGATTAGATGGTCTAGCCTATTGCCCCTAGGCCACAAACCTGTACAGCATGTTACTGTACTGAATATTGTAGGCAACTGTAACACAATGATAAGTA
TTTGTGTATCTAAACATAGAAACAGGACTGTAAAAGTGTAGTTTTTTAATTTTAGGGGACCACCATTGTATAGGTGGTCCATTGTTGACTGAAACGTCAT
TATGCAGCATGTAACTATATAAGTAAGGGGAGCTGCATGTCACAGTGATGCCACTTTTAAAGGGAGTACTTTGGGCAACTTTCTGGCATTGTTTAAAAAC
AACAACAAAAACCCAACTGGACCTTGTAATGAGAGACTACAAATCCTTCCTGGGGATTGTTAGCCTGGAAGAGTCTTTTTGCAGGTTGGAACTGCTCACT
GAGGCACACTGGCAGAGCTATGTGGCACCAACTCAAGTCGTTTAACTTCACGAACACCCACACAATATTAGAGGGAAAGAAATTTTAAAAGCAAAARAAA
AAAAAAATCCGGTTAATTGCCATACATGTTTTTGCAATCCTGACACAGTAATAACTTGCCTGTAAACACCTCCCTTGAAGAATTGGCTAATAGGATGTAC
AGTACATGGCAAAGGAAATTGTTTATTCAACGAAGACTTTCAAAAGGGGCTGTCGATTCTTCTTATGAATTTGTGATGACTCTGTAAGATTGGAGAGGAT
AAAGGGACAATTTTCTGTTTGTTTTTTGAGATATAGTCTTGCTCTATTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGCCTTACTGCAACTTCCGCCTC
CCAGGTTCAAGTGATTATCCCGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGAGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGG
GGTTTCATCATGTTGGCCAGTCTGGTCTCGGACTCCTGACCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCG
TGCCTGGCCAAAGGGACAACTTTCTAAGGGTGTAGAGTGGAATAGATTTATGTGAAATAGAAATGTCCTGTGGCTTTGGTTGTTTTATCTGTAAAATGAA
GGCACTGGGATAGACCTGTGGTTTTTTATTTTGTCCTGTAGAAGTGGGTCCCTAGACCTCTCTTGCCACTACATCCTCCCTGCTTTAACTAGAGTGCCTC
TGCTCGAACCTCACCACAGGGTTGCCATGTAAGTTGTTGTTTGAAAAGAGGGATTGCATAACTGAAACAAGATTGGAAAACCACTGGATGAGATGACTTC
CAAGGTGCCCTATTGCTCTAAAATTGTAGGAATTCATCTCTTGTCTGACTTGTGGAAGGTGCTGAAGATACAAAGATTTAAAAAATAACTCCTACCCACA
ACAAATTCATGAGTGTAAGATATGCATGTTGATTGGGTGGGGGGGGTGGGGGTGTGAAACAACATCTATAGTATCAGTGATAGTAACATGGCAAGACCTA
AAATGAAGGTATGACTCAAACATTTGGGGGAGAAGATTTTGGAAGGTTTTTGGAGAAGGCGACATTTAAGTGGATATTAAATGAATAGTAGGAGCTCCCC
AGGTATAGAAAGAGGGAGGAGGAGGTATTGGAGACAGAGAGATCAGCATAAGCAAAGTCACGGAGGCTATAAGATGGTGCATGGTTAGGGAATTAACTAT
ATTCATTATGCTCATTATGTTCCCTGCATACCCATGGAGCRTAGTTAGAAGTGGCCAAGAGGGATGCTGAATGACACTGAATAGACTAGAGGAGCCCCTC
CCGAACTCTTGCCTTCTAGGAGCTCTTTGGGGGTTGATGCTGGTTTCTGCAACTATGTGACCAACTAACAATAAGACTGTTTAATCATTGACTGCACCAC
ACCYTACTTCTATTATTTTGTAACTCCACTGGGGTAAATAATCAAGGAATGTGTTGATAAGATGATGGGTGGGGCCTCAAGGAAAGCCTAGAATAAGAGG
AGTCATAGCTACCTGCCCTGGTGGCCAGAGCCAGGGCCAGGACTCTCCTCTAGGCCAAGAGGACTGCTTCAGGCTACAGGCCAGGTGCCCTTCCACCAAT
AAGACTTTGTGTTTAGCTCTCAAGCCCATTGTCTGGGAGAGGGAAGACTTCCAGTGATGATGAGGGAGAGTCAGTTTCTCCAAGATAGGGAAGGGACTGA
GTATTTAGAGGTAGTGGGTCCATGGGTGTTGGATTCCTGAACATCCATTGACACGCAATGCCCCAGACTGAGGGTAGCTACGTGCTGAGCCTAGGAAAAC
TGGACCTCAGACGCTGTGGAATGAAAGTGTGAATGAAAGATCTTTGGGCCCTGCTTGAGTTGGAGGGAATGGAGCTGCCTCACAAGTTGGACAAGGAGCA
TCTCGGCAGTGACCAACATGGACCCGGAGGGGCGTTTCCTAAACCTTCTGGCCTTTTTGTCTTCCTGGGATTCCTGTACAATTCTAGGAAGGAAAACCCT
CAATAATCTGCTCTCCTGAAAAAATGGATGCTCAAAACCCATTTAATTTGATTTAGAAAGAGAATGAGATGTGATGTTTCCTGCATCTAAATATTGTGGA
GCAAATGCTTGCCACTATAATGGCTTTTCAATGGGTGTCAGACACAACCAGACCTGTATTTTGGAAAGATCACTCTGGCAGCTGAAGGAGGATGTGCTGC
GGGGCAGAGACTGACTGTGGGGAGACGAGCCACAAAGCCATTATGGCAGTGCAGGAGAGGCGGGGAAGGAGCAAGGGCAGTAGAGACGGAGATTCACAGT
TGGTTGGGGACACATTTTGGAGGCAGAATGCACTGGTCTTGGCAACCAATTAAAATAATAAATGCTAAGAGGGAGCATTTATCTAGTCTATAACAGTGGT
TTGCAACTTGACAGTGCATTAGAATTGCCTGGGAATCTTTTAAACCTCCCCTCCCCACAAAGCCCAGGCCACACCTCAGAYCAATTAAGTCTGCATCACT
GCCTGTGGTACCCAGCCACACATTTCCCTTCCCACATCCCCCTACTCTGTTGCTCAGGCTGGAGTGCAGCAGAGCAATCATGGCTCACTGCAGCCTCAAC
CTCCCAAGGTCAAGCAATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGGATATATGCATGTGCCACTACACCTGGCTAATTTTTTTTTTTTTTTTTGGTA
GAGTCATGTTCTCACTATGTTGCCCAGGCTTGCATGTATTTTTGAATGAAGCCAAGATTGAGAACCACTGCACTAAGAGGTCAAACTTGGTAAGCAGAGT
GAATTGGGATGCTATTAAATGAGATAGGGAACAAATAGTTCTTTGTGGTTAGGGTGTAAAATAGGTAGAGAAGCGGGAGGAAGAGCAAGTTCAGGCAGGA
AATAATGAATTCAGTTTGGGATGTACTGACTGCAGTTAAAGGTCTGAGGTCCTGGAGGGGATAGCCAAGAGCCACAGATAGGGGGTTGGGGAGAAGGGGC
TTGGAGAGGGTCCGGTCATCACTTCCTCTGAAGTAAGGATAGGTAAAGATTTGGAGCAGCTGCCATAGGGACTGAAATGGTTCTAAGTTAAGGACAATAG
CATAGGAATGTATGCATCAAGGGCTAGCAATGAGGGGTTAGGTGAGATTGCTCTATATTAACTCTAGTATTAACCCTGTATTTGAATTTGACCAACAAAC
ATTCATCTCAATCAGTGGTASGCTGGAGCCAGCATGTACCAGTTTGCAAAAGCAGAGGATCAAATTTACAGGAATTTTGCCAGACAGTTATGAAACACAG
TCATTATTAAAATTGAATTACACAAACGTAAATGTATTAAAAATAAAGGTAATAAATAATCCCTTATTTCTCATCCCCCCCTTCTTTCTTTTTTTCTGAC
TACATTCTGGCTTTCTTTGCTTCCCAGACAAGGTGGCAGAAATCACCATTCCCAGATCCTGAGTTTATGAGTTCTGTCTATTAACCAGCCACACYGAAAC
TGTAATCTCTCAGTCTTGATTCCAGATTCCCAGGGAAGGAGCTCATTGGCTCAGGTTGTTCTAGATACCCAGCTCTAGACTTATCAAAGATTTTTCTATA
AAATAAAGATATGGGAGATATGGAAGCCAGACCAAAATAAAAAGCCTACATCTCTAGGTCCATTTTTTTCTTAGGGCAAAAGAATACATCATTTGTGCCC
AGAATGCACTGGGTATTGAAGAGATGACAACTGTCTTCTGCCACCAGCCATCCAAAACTTTATAGGAGACCTCTTGTTCTTACTTCAGCCTAAGACAAAA
ACCAGATAGCGCTCGTCTCTGGCAGAGAGATGAACAGCTCCACAGAGTGTCAGGCAAACAATATACATTAGCCTAAGTGGCAATTTATAATTTTAATGGC
CCAGCTGCTTGTCATGGTAGGGTGGGGTACATTTTAAGTTAGTACTGTTTACTGCGAATAAGGCTAAATTTCCCCCATCATTCATTGCAAAATGTCCATG
GCCCRGAGGTCTCATCAATGTTTAGGGCAGTTGCTGGCTTAGGGCTTGGCTGACTTCTTAGTTCATTAACTTCTCATTGACCAGCTTGAGGTTAAAAAGG
GGAGCACAACACAAATCTGTGGAATTGAGCAAAAGCGAGGGTTAGGATTAGGACTGGCACACTGTTTATTATTTCCCTTTTCTCTCTGTTTTTTTTTATT
TTTTTAATTTTTATTTTTTAATAGAGACAGCATCTCACTATGTTGCCAAGGCTGGTCTTGAACTCAGGGGCTCAAGCAGTCCTCCTGTCTTGGCATCCCA
AGATGTTGGGATTATGGGAGTGAAACACAAAACCTGACCCATTATTGCACATCATTAGACTGTGAGCAATTGAAGGCAGGGCTCTCTAGAATCTAGACTC
CAGATTATCTTGGCCATCCCATAGCTCCAGGTATCAGGCCTCGGGATGTGGTTTGGATGTGTGTCCCTGTCAAATCTCATGTTGAAATGTAATCCCTGGC
CGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTAGGAGATGGAGGCAGGCTGATCACTTGCAGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGC
GAAACCCATCTCTACTGAAATACAAAAATTAGTTGGGGGTTGTGTGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGTTTGAACGCA
AGAGGCAGAGGTTGCAGTGAGCCGAGATTATGCCACTACACTCCAGCCTGGGCGATAGAGCGAGACTCCATCTCCAGAAAAAGAAAAAGAGACATAATCC
CAAATGTTGGAGGTGGGGCCTGGTGGGAGGTGATTGGATCATGGTGGGGGGGGGCTCTAATTATTTAACACCGTCCCCCTTGGTTCCCGTGAGATCTGGT
TGTTTAAAAGTGTGTAGCACTTCCTGCCTCTCTCTCTTCCTCCTGCTCTGGCCATGTCAAGTGCTGGCTCCTCCTTCACCTTTTGCCATGATTGTAAGCT
CCCTGAGGCCTCCCAGGAGCAGATGCCACCATGTTTCCTATTCAGCCTGCAGAACCGTGGGCCAATTAAACATCTTTTCTTTATAAATTAGCCAGTCTCA
GGTATTTTCTTATAGCAATGTGAGAACAGACTAATACACCTCACATAGACTGGTCCTTGATTTTTTTATTTTTTACTTTTTTAAAGTCAGGGTCTCACTC
AGCCACCCAGGCTGGAGAGTAGTCATGAGATCATAGAACACTGTAACTTTGAACTCCTGGGTCCAAATCGTCCTCCTGCCTCAGCCTCTTGAGTAGCTCG
GCCTACAGTTGTGTGTCCTAGCCAACTACATCTGGCTAGTTTTAAAATTTTTTTGTAGAAATAGGTCTCATTGTGTTGCCCAGGCTGATCTTGAACTCCT
GGGCTCAAGTGATCCTCCTTCCTCAGCCTCCTGAGTAGCTAGGACCACAGTTGTGTGCTACCACACCCAGATAATTTTTTAAATTTTTGGTGGATACAGG
AGTCTCACTATTTCCCAGGCTGGCCTCGAACTCCTAGCTGTAACAGACCACAGGCTCTTTGCCTCCCCAAGCAATGAAAGTTAACACGGAGCAAGCAGAT
TTTCCAGACAAGGCTTTTATTTCAGGGCTTGTGCTCAAGCACAAGGGAGACAGTGAAAGTGGAAAGGATCTGTCAGCTGACTACCAGAAAACGCTGGTGG
GGATTTTTTTATTAGACCGAGAGTGGGAATCACATCAGGGGTAAGGTATGCAGGCTGGGCTGGGCAGTGCACATGATGGGTACGGTATGCAGGTCACCAT
ATCTGATAGTGATGGTTATCTTGAGTAATGGGCCACCTGATCGYATGGCCAGAGGCAACAAGGCTGTAAATCAATTGTTCAGCATTCCTGCCCTAGGTGG
GACTTGGCGCCACCTTGATGAGATATCTGGGTCTTCTGAGGCCAGTTTCTAGAATTCTTTAAGTAAAAGAAATGGTTAAACATGGAAGCACAGAAGAATG
GCTATTTTCTTTGTATGACTAAAGCCTCAGGGTTAGGCGGTATATCATCAGTGAGATAGTGGTGTGGGTTTTGTGATCAGTGGGACAACAGAAGAAGGAA
AAAGAAAAAAAGGAGGCTGAGGTGGGAGGATTGCTTGAGCTTGGGAGGCTGAGGCTGCAGTGAACCATGATCACTCCACTGCACTCCAGCCTGAGCAACA
GAGCGAGACCCAATCTCAAAAAAAAAGGAAGAAGAAAAAGAAACTAGCTGGGCGCCATGGCTCACGCCTGTAATCCCAACACTTTGGGGGCCAAGGCGGG
TGGATCACAAGATCAGGAGTTCGAGACCAGCCTGGCCAATGTGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAATTAGCTGGGCATGGAGGCGAGC
GCCTGTAGTCCCAGCCACTCAAGAGGCTGAGGCAGAAGAATCCCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCRCGCCACTGCACTCCAGC
CTGGGTGACAGAGCAAGATACCATCTCAAAAAAGAAAAAAAGAAAGAAACTATTAGAGCCATGAATGAATCTGACTTTGATGACTCAGAGAGCATAAGAA
TATGTGAAGGAAGAACTCTGTCCCATTCCTACATGACATCAAGGGATCCTCCCCCCTCGGCCTTGCTACATGCTGGGATTACAGGCGTGAGCCACCATGC
CTGGCCCTTGATATTTTTTCAAGAGGTAAAGACTTGTTCCTTATAAAATCCTATATTTTATTAAACAAATAAGACTTTAATGCAGTTAATTTCATCCCCA
CTCTGGTCAAGGAAATATATATTATGTTTACCAGTTACTCAGCAAATGTTTCTCAAGAACTGTCTTAGGCCCAGTGAAGCCAGTCAAAGAATTATCAAGC
CCWTTGAGGAGGGCTTGATCATTCAGTCATCTACTTGCAGGTGGTTGGTGCAAGCTATGTTATATTTAAGCTGTATTTGGATTACCAATTTTCAGGAAAT
TAAGACAGAATGAAATATACTTGGCATTGAAACTATTTTGAGCCAGGCATGGTAGCTCATACCTGTAATCCAAGCACTTTAGGAGGCCATGGTGGGAAGA
TTGCTTGAGCCTAGGCGTTCAAGACCAGCCTGGGCAACATGACAAGATCCTGTCTCTACAAAAAAAATGTTTTTCTAATTAGCCGGGAGTGGTGGTTTGT
GCCTGTAGTCCTGGTTACTCAGGAGGCTGAGGTGGGAGGATTGCTGAGCCTGGGAAGTCGAGGCTACAGTGAACTACAATCACTCCACTGCACTCCAGGC
TGAGCAACAGAGTGAGAAGTCCCTGTCGAAAGAAAGAGAAAGAAAGAAAGAAAGGAGGGAGGGAGGGAAGGAAGGAAAGGAAGGAAGGAAGGGGAGAGAA
AGAAAGAGAGAAAGAAAGAGAAAGAGAAAGAAAAGGAAAGAAAAGAAAGAAAAGGAAAGAAAAAACTACTAGGGCCATAAATGAATCTGTCTTTGATGAC
TCAGAGGGCATATTTTTTCCTTTCTTCATTTAACAAATATTAAAATACTGAATGTCCCTTATGTGTGAGGTCCTGTTCTAGAGCTTAGAAATATAACCAT
AAACAAGACACAGCCCCCACCTTCAATGAGGTCTCTAGTGTAGTTGGGGGAAGCCCGTAGCGGGAGAGAAGTGGGCTGATGGGCTGGTGAGTGGGGATTT
CAGTGCTCAAGGAGCAGTGCATGTCAGGATTGCCTAGAGAAGGGGTGTGTTACTCAGATGTTTGGGTGGGGCATGGCCCAAGAAGGCCCTCCAGAGGAGG
TGACATCTTCTTTTGAGACCAGAAGATCAGTAGGAGTTTGCAAAGGGAAAGTAGGGAGGGGAGGGTGGGACAACATGTTCCAGGTAAGGGAACAGACTGT
GCACAGGCTGGGACCAGAGAGCTTAGCCTCCAGGAACGAACCACACTCAAAGGTCCAACAGGGCCTCAGGGCTGTGGTTGAAGTGCTAGTTGTTACTGTT
CTTCCTGACTGTATTGCTAAACTGGGACATTTGTACATTACAGTTTATTTCTTCTCCATCATCTGCCCACCATGAGCTCTATGAGGTGGGTAGGTGTTGC
ACCTCCATTTCACAGACAAGGAACCTGAGGCTTGGCATTGCTGTAAGGTTCTGTGAGTATGGGGAAGTCTTGGGGAGTTGGAGGTTTTGCCTGCCTACCC
TGGCCTCTGTCACTCCACAGCTGCCTTAGATGAAAGATCACTTGAAAGGGTATCTGATCTACCTTCATACCTCTGGGCAAAAAAGTGTCATTTGCTCCTC
TGGGAGCTGATGGAGGTACGAAGGCATAGAATTTCTGCAATCCTGCAGCGTAATTAAACACATGGATGCTAACACAGGCAGACCTGGCCTAGCTCTGCCA
CTTGTTAGTAGCCGTGTGCCTTGGGCAAATTACTTAACTGAGGCTCAGCGATGCCTCCATCCAGCTGAGACTTGATCTGAGTTCTTCCCCTCTTCAGCAG
CAGGGGTGGTGCAACACAGCTCCAGGGTCTCACCTAGTGCCAATATCACTGTTGGGGAGAGGGATAGTGGGGAGTGGCAACGTGCTCCTCATCAGACATG
TGGTACCACTGAGACAACCGTCGGCCCTGCCCACATGGTCCCTTTGGGCCCAGTAATGCTGTTATCTTCATGTCATGTTTGGGATTCAGGCACTGTTTGT
RAGTCTGCTTGTAGTCACAAGCCAGCAMCGATTCCTTCCTGGGGACGTGCCACCTCTCAGGAAGCAGAACCATGCTCCCTGCTGATCAGAGACCCTCAGG
CCTCTCTCTTCTTYTTCCCCACCAAGATGCTCTATTTTTGTCCCTAAACACCACCAATACCTGCAAACCAGCTTCTTCCCTTCATTCCTTAGCAAACTCC
CTAATTTTCCCTCAGGCTTCTTGGGTTTCCCGCAAACAAAAGCCAGAAAGCTTTGCCTCCTTCTGCCTTCTGCTCTGCCTGAGAGCTTTTTCAAGGTTTC
ATAGTTCAGAGATAACTCTCTGTTTAAATGAGAGGAATGGGGAGGAGCAAATGAGGGAGSRARGCAACCTATKARAATCTCAGTATATAAAATCTAGCTG
CATAGGCAAGAGGCAACTGAGGTTCCCAAATTCGGGAAGCAAGGGGTACATAGAAGGGGATAGATCCAAGGGATGGGCAGAAGAGAGAATCATTGACACT
TATAGACCRGTTCAATGTGGGAGTCTCACCATGCATGCCTGAATTAGCACTCTGACCCAGGTCAATCAAACAAAGCAATCAGGAATTGTCATTTTAAGTT
GACCTTCAGTTACCTGCAAGTAAATGAGTTGATTTACCATCTGTTGACTCCTCTCAGTCAACTGAACACRGTAGAAATAAACACGTATGTTTTAGGTTGA
TTGGGCTGGATGAAGGGTATAAGGGGCTTCATATGATTTTGTGTGTAAATGTTTAAATTTTTGCATATTAAAAATGTTTAAGTAAATCCATTTAAAAGCC
AACTTTTATGATCCATCAACTTTTACATTATAAAAAGAAATAGTTGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGG
GCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGGGAAACCCTGTCTCTACTAAAAATGCAAAAACAAAATTAGCCAGGCGTGGTGGCG
GGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGCGTAGCTTGCAGTGAGCCAAGTTAGCGCGGCTGCACTCC
AGCCTGGGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAGAAGTAGTTGAGCTAATATTTCAGACTCAATGTGAACACTTCATGCTACTACTGA
GATGTTCTCTATAACCGTTAGTTCAGATCTAATGAATGTTTGAAACTTGAGAAGATTTCTTGCTAAAGAATAAAAGAAACATGCAGCGCAAGAGAGCAAG
AAATGAGGGGAAAACCCTAAGGCCATAGGAGCCATGTCTGTATTTTCTCTTTTTTTCTTTCTTTTTTTATTTTTTTGAGACAGAGTTTTACTCTTGTTGC
CCAGGCTGGAGTGCAATGTTGTGATCTCCGCTCACTGCAACCTCCACCTCCTGAGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTAC
AGTCATGCGCCACCACACTTGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGATCAAGCTGGTCTCGAACTTCTGACCTCAGGTGATC
CACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAAGTGTGAGCCACCGCGCTCGGCCCATGTCTGTATTTTCTTAGAGGAGAAACTAAAGCCAGAAAGG
AAAAGGAGAGTATCACAACATGAGTGAATTTGGCCTTACCCTCAGCATCCTGGATTAACAGGGAGAGCAAGGGGGCTGGAGCCTGCGGGTACAGAGCAAG
AGAAGATGACCCCACCTCAAACTACGCCCCAGGGCAGCCAGCAGAAGTCAAGACACAGTGTCCAAAGAACTTGTTGTACTTGGAGTCAGACAGGAGGAAG
CACCTTTGTTCTAGGTCAATTTATTCGGAACAACGCTGCAGCCAGAAGTTGGCTGTTTAGAGAACGTTGGCCAGTTCCTCAAAGGGAGAGGCTGACAAAT
GTAGGCAGAGTGTCCCTGTCACTGGTCCAAGGGTCAAGGGAAGTGGAGGGACAAGACAGACACAAGGCAGATGCCCAGCTCTGGTGCCTGGCTGAGTGTG
GTCCTGAGGCTCTTTCCAGTTGGCAGGAAGGAAAAACAACTTCTCGTTACTTCAGCTGATGTTCAGGATACGTTGAGAAAGTGACTTGACCCCGTCTACT
TTTTTTTTCTCATTTTTAATCTGTGGCTCCTGACCTCGGAATGACTTCTGTGAGACTGTAGTGTCTGGTACCTCATGGCTTTTGCTCACCGTCTTCTCAG
ATGGTCTCCAGGCTTCAGCTTCCCTGTCTGCTACACACTGTCTTAGGATGAGGCGCCTCTGAGGCACCTATTTGTATGCTGGAAGTTTGCTGGGGAGAAC
TCTCAGGATCAATGCCTGTAAGGAGAGAGGGATGAGGGCCTCAGCCAACCTTGGGGGGAATTCTGGAGTTGGGATGGCTTTTCAGAGTTGCCTCCAATGA
AGGTAACGTAATCACCTGATGGGTTCTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGCCTC
ACTGCAAGCTCCACCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCCATGTAGCTGGGACTACAGGTGCCCGCCACCATGCCCGGCTAATTTTTTT
GTATTTTTAATAGAGATGGGGTTTCACCGTGTTAGCCAGGACGGTCTCAATCTCCTGACCTCGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATT
ACAGGCATGAGCCACCGCGCCCGGCCCCACCTGATGGGTTCTACCTGCCCGCTGCACAAATAAAACCAATTCACTGAGACCATAGTATTGCAGTAAAGAA
AGAGTTTAATTAATGCAAGACTGGCCAAGTGGAAGATGGAGTTATTACTCAAATCAGTCTCCCTGAAGACTTGGAGGTTAGGGTTTTTCACAGATGGTTG
GGTGTGCCGGGGCCCAGGGAATGAGTGCTGCTGATTTGTTGAGGATGCGATCACAGGAGTGTGGAAAACGTCCTTGTGTGCTGAGTCCACCTCTGGGTGG
GGGCCGCAGGACCGGTTGAGTCATGAGTCATGAGTTCAGGTRGGGTCAGTCACTTACCAGAATGCAAAAGTCTGAAAAACATCTCAAAAGACCAATCTTA
GGTTCTATAACAGTGATGTTATCTATAGGAGCAGTTGGGGAAGTCACAAATCTTGTGACCTCTGGCCACATGACTCCTAAGCAGTAAAGGATGATCAAAA
CTATGCCTACACTTCAGCAGATTTCAGGCCCTTCTCATAGTCCTAATCTTACGGCCTTTCATGAGTCTTACAAAGGCTGTTTCAGCCTCCAAATGAGGAG
GGGACCCGTTTTAGGGAGGCAGTGTTATCATCTTTGCTTCAAAGTTAAACCATAAATTAAATTCCTCCTGTGGTTAGCTTAGCCTATGCCCAGGAATGAG
CAAGGACAGCCAGACTGTGAGGCTAGAAGCAAGATGGAGTCAGCYATGCTAGATTTCTCTTGTTTTCATAATCTTTGCAAAGTCTGTGACAATGATAGCA
AGGAGCCAGGGCTTTGTCCTCCCGCTAGGCATTGGATACTATCTGCTTCTTGGAAAGGGGTGTAACTTGGCTGAGGGCAATCTTCAGAGACAGAGACTTA
GCTATGGGTAGTCAATAGCCAATAATGCCAACAGCTGGGCAAATAGCACCTGCATCCTGAAAGGGATATGGTGGCACAACTCAGCATCCCTTACATCTTC
TGTCTGACTCTTTTCTAAAGAGTGACTCTTGTGGGTCCCACTGGTCACTCTGCAATAGAGGAGGTGTCCATTTGTGAGTGTTTATCACGTCCGTTCACCC
TACAGGCTTCCCTCATTTCCATCCTATAAAGATGGCCACCACTGGCCAGGCATGGTGGCTCACGCTTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGC
GGATCATCTAAGGTCAGGAGTTTGAGACCAGCCTGGTCATTATGGTGAAACCCCATTTCTATTAAAAATACAAAAATTAGCCAGGTGTCGTGGTGGGCGC
CTGTAATCCCAGCTACTCTGAGAGGCTGAGGCAGTGAGCCCAGGAGGCGAAGGTTGCAATGAGCCAAGATCGCGTCACTGCACTCCAGCCTGGATGACAG
AGTATGACTCCGTCTCAAAAAAAAAAGAAAAAACCGAACAWACAAAAAACATGGCCATCATTGACTTGGGCTTGATCCTCTGTCTAATCAGTTGGGGGAT
AGGTTGCAGAACCTACACCACTCAGAGCAAGACAACTTTTTCAGAAGGGCCTGTAAAAAGAATGCTGTCACATGATAGCTGTAACAAAGGTGTTGGGGAA
ATGTATGTCTGGTACCCAGAGGCCTCAGCAAGATTGCAGAAGCTCACTTAATTTCAAACCCAACTGCTTGAAGGATCTGTGGCTGTTAATACTCTCTCTA
CCAGTGTCAATATTGGCCTGGAGCCTGTGTGGAGTTGAGGCTGCCCATGGCTGGCTGGCTGGTCTCTAGCTGAGAGGGCCTAAGGAGGAGATAGGTGCTG
ACAGAGACAACATGGTCTTTGGCACATAAAATCTTCATTCTTCGGGAGATAGAGCTATYGTAGGAGTGAGGAGAACCTAGGCAACATTGAACTCAGGGTT
AAGAGACTTGAATTTGAGTTCTGACTCTGGAACTTGCTAATTACRAGGAAGTCACTGGCCCAAGGTTAGTCAGTCAGCAAATGTTTAGTGAGCATCTGTG
GCCAGGAACTGTGTTTAGCACTGGAGAGTCCCTCTCTGGCCTCATTGTTCTTCTTTGTAAAACAAAAGTGTGGAGGCTGAGTGCAATGGCTCATGTCTGT
AATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACTTGAGGCCAGAAGTTTGAGACCAGCCTGGGAAACATGGTGAAACCTGGTCTCTATAAAAAAA
AAACAAAAATTAGCTGGGTCTGGTGGTGCACCCTGTGATCCCAGCTAATTGGAAGGATGAGATGGGAGGATCACTTGAGCCTGGGAGGTGGAGGTTGCTG
TGAGCCAAGATCACACCACTGCACTCTAGCCTAGGCAACAGAGTGAGACCCTGTCGTATACACACACACACACACAAATGGGTTTGGGAGATTATCTCAA
TGAATTAAAGTGATGGCAATACTTTCAGAAACGAAAATCCAAGGTGCGTACTCTGCCACTACCAGAATATTTGATATTGAGGATACCCCCAGGAAGCTCA
GGATGTAGGATCTCATTATATACCTACAGAGACTCTATTTCCCAATCCCCCACAGTTGTTTCCCCCAGACATATTACATAGAGTGACTTAATCCTTAGAA
CCATGGTGAGAAGGGAGAGGTAGATGTTATATAAGTTATATAGTCTCCTATCTTGCTAATTTTTTTTTTTTTTGAGGTGGAGTCTCGCTCTGTCGCTCAG
GCTGGAGTGCAGTGACACGATCTTGGCTCACTGCAACCTCCACCTCCTACGTTCAAGCGATTTTCCTGTCTCAGCCTCCTGAGTAGCTGGGACTACAGGT
GCACACCCCCACACCTGGCTAATTTTTGTACTTTCAGTAGAGGTGGGGTTTCCCGTATTGGTCAGGCTGGTCTTGAAATCCTGACCTCAGGTGATCCACC
TGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCCAGAGCCACCACACCCAGCCTTTTGCTAGTCTTTAAAATCCTCTAAGTGTTTGCCTTGATTTTTTG
AATTCTTTAGAATTTAAATGGTCTGAGTTTAAATAGTCCTGAACACATTTCTCAAACACTGTTATGTAAACAAAGCCCAGCCATGGTGATTACACAGTCA
GGTTTTTTCCAACCCCTGGAGACTTGTATCATAATCTTATCTTAGGGTCAAGCATCGGTACTGCTGAAGTGGTTTGCATTTGAACAGTCTTTCAGAAGTT
GGTGCCAGATTCAGAGTTCTCTGGATAGCAGATCTGGTAAGGTAGGTGTATTAGTCTGTTTTCATGCTGCTGATAAAGACATATCCGAGACTGGGTAATT
TATAAAGAAAAAGAGGTTTAATGGAWTCACAGTTCCACKTGGCTGTGGAGGCCTCACAATCATGGTGGAAGGCGAAAGGCATGTCTTACCTGATGGCAGG
CAAGAGAGAATGGAAGCTATACAAAAGGGAAAACCCCTTATAAAACCATCAGATCTCATGAGACTTATTCACTACCACGAGAACAGTATGGGGGAAAACA
TCCCCATGATTCAATTATCTCCCACTGGGCCCCTCCCACATCACATGGGATTTATGGGAGCTACAATTCAAGATGAGATTTGGGTGGGGGCACAAATCCT
AACCATATCAGTGGGGTCACTAAGGTATATAGGTATATAGTGTAGTAAGATGGTGTCACCTKAATCACATTTACACTCTGCCCCGGCACAGAACCCTGGG
AGCTGAATATTGAGGAGCAGAGAGGAACAGGGATCAGAGGCACAAAATTTGGCTTGCTCTTGTAGATAGCAATAGAGATGGGCACAAGGCWGAGTGAAAT
CTCATCAGAGTAGTGAGTGCTTAGCACATATAARGCACTGTCCTTAGTGCCGTAAGAGATAWCAAGAGAAGGTAAGATAGATTAAAATGTATTGTGTTTG
TTTTATGTTACTCACTTTATACATACTAGCAGTCAATCAATAATAATAACAATGATAAGTGCTTTGAAGTACCTACTATGGGCCAGGCAATGTGCTTAAT
ACTTCATATCTTCTTTTCTTTTATTTCATGCACTCATTCAACACATTTGTCTTAAGATCTACTAGGTAGTAAGTGCTGGGAGACACTGATGAATAAAAAT
CTCTGCCCTGGAGGACTTTTCATTCTGGGAAAGATAGGCCCATAGATGTAGTAAACAAGTGATTAAGTGGAGTGTTAGAAGATGACAATTACTGTGAAAA
GAATAGATCTGGGTTAGGTGGATCAGGAGTGCCTACATCGGGGGAGCACAGAAACGGTTTACAATATTAAATAGATGGTCCAGGTGAAGCAGGACAGTTC
CCTGACCCCTTCGTGGGTGGGAACTGGAGTGCACTGGCACTGGCAGGGGCGAACTCCACTCACTCTCTGCTCCACCCCACGTGGGAGTGGGAGCACAGGT
GAGCAGGTGCAGGAGCCAGGGTGTGTGCTTTTAGGTGCCGGCAAGAGCGAACTCCRTACTGGCCCATGGCAGCATCTAAGGGAGGGTGCCGGAAGTCCCT
GAAGCCACAGAGGAAGTGTTACAGTGCCCTTTACCTTTGCTGTCTGTAGACAGCTTAACAGCTCAGCAGAGGGTCAGTGTGACAGCCTTTTGTGCCCACA
CTTGAGGCACACKAGTTTTTGTCTGGAGTCCAGGAGGAATAAGGTCTCACAAACGAATTGAAGGTGGTAAATGTGGGGGATTTCATTGCCAATGAAAGTG
GCTCTCAGTGAGAAAGGGAGCTGGAAAGGGGACGGAACAAGAAGGTAATCTTCACCTGAGATTCTCCAGCCATCCCTGCCAGACTCCTCTCTTCAGAGGA
TGATAAAAACTATATGCCTACATTTAGGATGAGTCTCTCTCTCCGACATCCAACCATACTCTCCAACATCCAGCTCCTTCTCGTCTCTCTCCCAGGTAAG
CCTGGGGTTTTTATGCACACAGGATGCGGGTTAGGGCAGGCGCCATAGTGGTTTTGGAAAAGGCAACATTTGAGTGGGAAAACAGGSATGTAAGTTCTTG
CTTTGGACCACTGTTCCAGGCTCAAGGGTGGGGTCCTCGCTGGGGACCTGCCCTCCCAGAATTTTTCTGCCTCCTGTCCCTATCACACATAGTGCTCTGT
GGGAAGGTGACGTTTGAGCCAACATTCAATGGAAGGTGATGAAGGAGTTAGCTATGCAGATACATGGAGAAGAGCGTTCCAGGGTAAAGGAGCAGCCAGG
GGAAAGGCCTGAGGCCAAGTGTAACTGGTATATGGACAGCAGGGAGGCCAGAGTGACTAACGAGGAGATGGCAAGATGATGAAGTGCTTTTGTCTTTTAC
TCTGAGAGAGATGGGAAGCCATCAGAATGCTTATTGTTTGTCCTGCTTTGTTAATCTGTGTTTCAGAGCAGTGCTTGGCAAACTTTTTCTGCAAAGGGCT
AGATAGTAAATATTTCAGGCTTTGCTTGCCATGTGGTCTCTGTTGCAACTATGTAGTCCTGCCATTGTAACACAAGAGTAGCCATCGACAGTGCGTAAAC
AAAGAAGCATAGCTGTGTTCCAACAAAATTTACTTATGGACACTGTTTGAATTTCACATAATTTTCATGGGTCACAAAATATTGTTCCTCTTTTGTTTCT
TTTTTTTAACCATCTGAAAGTGTGGGAATCATTCTGAGCTCATGGGCTGTAGTTATCCTGTGAGCCATAGTTTGTGGACTTCCATTTTAAAGGATAGTCA
TGATCCSACTAAGTTTCAACCAGAGCACCCTGGCTATTGCCTTGAGAAGAGTCTGGAGGCTGAAAGCAGGAAGGCCAGGCAGAAGCCGTTGCTGTAAGCC
AAGTGAGAGATGATAATGATTGCTYTGACCAGAAAGACCACAGGATTACATTCTGATTGTATCTCCACCCAACCTTTGAAATAGGTGTCGTAATGATCCT
TCACAAACAGGGGAGGAAATTCAGGCTCAGAGACGTAAAGTGACTCGCGTAAGAACACAGAGCACACAAATGGTGAAGTCTGGATATGAAGCCCAATCCA
AACTTGAAGGCTTGTTCTCTTTTTTATTTTTTTCTTTTTTTTTCTAATTTTTTTTTTTGAGATGAAGTCTAGCTCTGTCACCCAGGCTGGGGTGCAGTGG
AGCGATCTTGGCTCACTGCAGCCTTCACCTCCCACATTCAAGCGATTCTCCTGCCTCAGCCTCCAGAGTGGCTGGGATTACAGGCATGCACCACCACTCC
TGGCTAATTTTTGTATTTCTAGTAGATACAGGGTTTCACCATGTTGGCCAGGCTGATCTCAAACTCCTGACCTCGGGTGAACCACCCACCTCAGCCTTCC
AAAATGTTGGGATTACAGGTGTGAGCCACCACGCCCAGCTGAAGCCTTGTTCTTCAGTGTTATAACTCTGCAGTCATGTCACATGGGCCTTTTTATCCCA
AATTACAGATGAGAACACTGGGGCTCCAAGAAGTCAAGGAACTTGCCCAAGATCAACAAGGTCTTGATGACTCCAAAGCAACTATCCCTATTACTAATCT
AGGCTAATTCTCAATTTAAAATGGGATTACTGCCCACTAGGTGCYTCTATTCTAGGTAGCAGGATTCTTTATACAATCAGTGCCTCTGAGGTGTCAATAA
AGAGCCTAGGGCATTCAGGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGGCGACGGAGGTGGACCACCTGAGGTCAGGAGTTCGAG
ACCAGCTTGGCCAACATGGTGATATGCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCATACTCCTGTAATCCCAGCTACTCGTGAGGTT
GAGGCAGGATAATCGCTTGAACGCGAGAGGAGGAGGTTGCAGTAAGCTGAGATCACACCACTGCACTCCAGCCTGGGCAATAAGAGTGAAACTCCATCAA
GGAAAAAAAAAAAAAAAAAAAAGCTTAGGGCTTTCAGAGAAGGTGGGGTGACATTCATCTGGAGGGACAAGGAGAGATTGTTTGCCATGGGCCTTAAAGA
ATAACTAGCTGCCTCTAGCTATTTTTGCTGACAGGCTGATTCTTACTGACATAGGATTGCTTGGTTCTTCTCTCAGATATTTTGTTCTATTTTGTCTTTG
GTTTTTTTTTTTTAAGAAAATATTTTTATACATAGATAAAGCTATAGATTTTTTATTAGATATTTAATATTTTAATTATAAAGCTAATATATTTGTGACA
AGCCAAACAATATAGAGATATATACAAAAAATTTAACAATCTCCTCATTACTGTCCTCCAGTTTCACCAGTCTGTGATAATTAAGGTGAATCAGGAAAAC
AGAAAATACATCGATATGTTAACAGAGATCATTTTATCTAGGATGGGGTGGAATATTAAGGACAGCTGCCAAATTCTACCCATTGCGTATTTTTGTAACT
AAAGCTTTACCAGAATACYGCATGCTCATTCATTTCTATCTTGTCTATGGCTCCTTATACGTTACAACAGCAAAGTTGAGTGGTTGTGACAGACACTTTA
TGGCCCACGAAGCCTAAAATATTTACTSTCTGGTCCTTTACAGAAAAAGTTTCCCAAGTCCTGATCAAGGGGATTGGTGGGGTAGGGAGAATAATAATCT
CCCAAAGATGTCCATGTCCTAATTCCTGGAACCTGTGAATGTGTTACCTTACATAGCTAAAGGGACTTTGCAGATGTGATTAAGATAAAGATCTTGAGAT
GAGAGATTATCCTGGATTACCCAGGCAGGACCAATGTAGTCACCCATTGTAGTCTGTAGTCACACTCTGTAGTCCTCAGAGGTGACAAAGAGAGGCATGA
GAATCAGAGGGAGATTTGAAGGTGCTATGCTGCCGTCTTTAAAGGTGGAGGAAGAGGCCACAAACCAACGAATGCAGGCAATATTTAGAAGCCGGAAAAG
ACAAGGAAAAAGATTCTCCTCTAAAGCCTCCAGAAGGAATGAAGCTCTGCTGACACCTTGATTTTAATCTCAGTAAAGCCCGTTTTGGATTTATGACTTC
AGAACTGGAAGATAATATGTTTGTGTTGTTTTAAGCCACTAAATTTGTGGCAATCTGTTATAGCAGTGACAGTAAATTTATACAGTTAGCTTACCGTTAT
TGAAAGATTGAGATGTCGAAAGGGGACACTGAGGTAAGGGAGGAGCTACAGGAGGTGGCTTCCACCCCTAGGGCTGGGAGAAAASGGAATTAGCCAGGCT
CATTTGAACCCAGAAACGTGGAGGACAGACCCTGTGGAACTGGGACCCAGACCTCTGAGGAGTGGGCACTGGCATACTGGTGCTCTGAGGAGCACCCTGA
AGCTGATTCTGGGAATATGGAGAATACTGGAAACTGCAACCAGCTGCTGCTGCCGGGGTGAAAAATTACTGGAGCTACTCTGACAGGAACAGGAAGCCTT
TAGGAAGCAAACAGGAGATCCCTCCTCCAACTTCCCTCTCTGCCTCCAGTACCCGCTATGAACAGAGTGTAACAACAGCTGACAAAGCAGAAATGAGGTT
TGTGGAGTCTCAGCCCCAGCATCACAAAGCAGAATGCCAAGATTTGGAGCTGAGACTAGTAACAAGTATACAATGTTAACTATGTGTCTGCATCATTATG
CTTTTTACTCTATGCTGACACAAATTTACATTTATTCTAGGCTTTCCCTTCTCTTTCCTATTTAGTAAAAATGTGGTCATATACACTTTACTCTGAAACT
TATTTGTGTTATTAAACAATATATCATGCATACCTTTCCATGAAAGCATATTAGAGCAGTCTCATTTTAAAAAAATTACCCAGTAATATCCCATCCAGAC
ATCAGAAAATTGATCCATTCATTTCCAGTGACAAAGATCCTTTGCTTGACCAAACTTTTAGTCAGGCTCCTGAACCTCCTCCTAAGCCCATCCATGCACT
TYCTTGTACAATCCAGTTTCAGCAAAGAACCCTGCTAAGTCAATTTAGCAAGAACCCCCTACCCTATCCAGTCAACCTCAGTATCTGATCTGGTTTCGTT
TCTTATCCTCTGAAGTCTGATCACCCTGGCCTGTCTTCAGATAGAATCATGTTAGGTTGGTTTCTCTAGAATCCTTCTACTCCTAATGCCACTTCTTAGT
AATTTTCTCCCCACCTGCTTCCACCTGCTCCTTGGCTATAAATTCTTCTTGTCCATGCTGTATTCAGAGTTGAGCCCCATCTCTCTTCCCCACTGCAAAA
CCCTGTTGCAGTGGTCCCTATACCTATCATGATAGTCCTGAATAAAGCCTTCTTTAGGCCGGACGKGGTGGCTCATGCCTGTAATCTCAGCACTTTGGGA
GGCCAAGGCAGGTGGCTCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAATCCCRTCTCTACTRAAAATATAAAAATTATCCGATTA
TGGTGGCACATGCCTGTAATCCCAGGTACTCCAGAGGCTGAGGCAAGAGAAGTGTTTGAACCCAGGGGGCGGGAGTTACAGTGAACCGAGATCGTGCCAC
TGCACTCCAGCCTGGGAGACAGAGCAAGACTCTGTCTCAAAATAAAGAAAGAAAGAAAGTTTTCTTTACTATGTTTTAACAAATGTTACAAATAATTTTT
TTTTTCTTTAACATCAGACCCAGTGATTGGTTCAGGGCTTGGCATGTGACTTAATTCAGTCTGGGCACCCCCTAGAGCTGAGAGTGTGGTCAAACCTACA
CAAATCACATGCCTAAGAATGTGAGAAGGGCGTTCCCCTATGGGAAACCTAGGTGCTTTTGGCAGGAGAAGGAAAAACAATGGTAGAGAAGCAAGCAACC
AATGTCCACCACAACTTCCTCATATTCTCTGCCCATTGTTTCTACTGGGTTATTAAATATTTGTTGTCAGTTTATTGATGGCCTTTATATATAGTCAGTG
TTAACCCTTTGCATGTATATGTGTTACAAATGTTTTGCCCAGCATATAATTTCTTTTAAGTGTGTTTTACTATACAAAAATTAAAATTTGTATGTAATCT
GATGTAAGTTTTTTTACTTTATGGTTTGTACATTTTTTCCCTGCCTAATAGTTTACTCTACAAAACAAAAATAATGTCTTACTCTACAAAGATTAAACAT
ATTAGTCACTAGATTGATCAGAATAGGTGAGGGGTGGCAGAACACTCTACTGGCCATAGTCACTGAGGGACCCAGGTTGATGGGGACTCCACTTCAAGAT
GTGTTTCTATGGTCACCCAGACAGAGGGAAGAGGAGAAAAAGGAAATGATGAGTGAGCACTGGCTCTTAAAGCTTCTGCCCCAAAGTGACACACATAATT
TCCTTTCACATTTTATTGACCAAATTCAGCCACATGGTSAGGATTAATTTCAAATGGAATAAGGAAGCACAATTTCACCATGTGCTTAGGAGAGAACAAA
TACACACATAAGGACTACTGTAATCCACACTTCTAGTCACCAAACATCTTTCCCACACTCAAAATACCTTCACCCRCCCCTTCCTAAGGGAGTCAACCCC
AAGGTCCCATTCTGGTTGGACCTTTATTCTGAGAACACCTCAGCCTGTTCAGAGATTTTGACCATGAATGTGATGGCAATAGCCTTGATTAGATCCTTGC
TGTGAAGCTGAGTCTTTATTGTTTTATCTTTTAGCTAATCTGTATTGAGAAGAAACCTGCCTCCCAACCCTGCCAGTCTCTGAATTTCTGGTCTATCTTT
TCCTTTCACTCCTACTTGCAAACTAGCTAGCCCTCCCCTGAACCCCTATTTATTGTCAAATATATTGGCTATCTACACCATTATGTTTTCTAGTTGCTTC
TTCTAGAGCTACAAGTTTGCTAGGCACATCAACTACCTTCCAAGTGACTACCCAACAGCTTTACCAAATGTGTCACCATTGTGTAACATGGCTCACCATC
CTTGTCAGTACCACCTGACCACTAAGCCAATGCCACTTTTTTAGGTTTTTGTGCTGGCAGCATCCCATATTAGAGATCGGTCAAGATAAGGTAGATTATG
CTATAATAACAAACTCCAAAGTCTCAATGACTAAAAAATATGTCAGTTCATTTCTTGCCTATATTACATGTCCAGTGTGCATCAGCAAGGGCATCTGCTT
GTTGTAGTCACTCAGGAACCTTGGTGATGAAAGCTGTACTTCAACATATGCTTCCACAGTTATCACAGCAGGAAGAGGACGGACATGGCACAAATCCATA
GCTCTGCCTAGAAGTGTCACATCTTCCCCCTGCTAACGCTTTCTTATTTAAAGCAAAACCAATGGGTATGTCTAACTTCAAAAGTGGGGAAAGTGTCATC
TTATCATATTCACAGAAAAGAGAACCTGGGTATTTGAGAACAAACTCAGTGACTATCACAGGCATTTTTGTTTTGAGGATATATTGCAGTGAAATAGAAT
GAAGGTAACAACAACAGTAACAACCTTGGATTATCCATATCCCAGGATCTATTTTTAACTCCAAGCAGGCTTCTGCTACCCTGATTTTATGGCCCTGAGG
GTAGACCACCATATTTTGACCCCATTAATTGAAATTTAATGTTGCTTTAAAACTGAACAAAAAAATCTAATCCTTGAGATTGCATTCCTTCCACTAAGCC
ACACTCACAATAAGATATAATTGGAATATTTCCTTATTCTCTCCTCCTTCGTTACCTAATGTTTCTTATTTCTTTTCTTTCTTTCTTCTTTCCTTTCTTT
TCTTTCTTTCCTTCTTTCTCTCTTTTCTTTCCTCTTTTCTCTCTCTTTCTTTCTCTTTCTTTTTCTCCCCTTCCTTCCTTCCTCTCTCTCTTCCTCCCTT
TCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTC
TTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGGAGG
GCAATGGCACCATCTCAGCTCACTGTAGCCTTGCCTTCCCAGGCTCAAGCAGATCCTCCTACCTCAGCCTCCCAAGGAGCTGGGACTACAAGTGTCAGAC
ACTGTGTTCAGCTATCATGTTTTAATTTTTTTGTAGAGACTGGATCTCCCTATGTTGCCCAGGCTGGCTGGGCTGAACCGATCCTCCCTCCTCTGTCTCC
CAAAGTGCTGGGAAAAANNNNNNNNNNNNNNNNNNNNNNNNNATGCCTGTAATCCCAGGCATATTTCATTCTACTATTCTACTGAAGACTGAAAACTACA
GTTAATAATGTGGAGTTTTTTAATTTTTAAAAGTTACTCATTTGTGGGATTTTTTTTTTTTGAGACAGGGTCTCATTTTATTGCCCAGACTAGAGTGCAG
CAGCATGATTATGGCTCACGGCAGCCTCAGCCTCCTGGGCTCAAGTGATCCTCCCACCTCAGTTTCCCAAGTAGCTAGGACTACAGCTGTGCACCATTAC
ACTTGGATTTTTTTTTTTTTTTGACACAGAGTCTCACTATGTTGCCCAGGCTTGCTTTGAACTCCTGACCTCAAGTGATCCTCCTGTCTCAGCCTCCGAA
AGCATTGGGATTATTATCCAGGCATTAGCCATTGTGCCTGGATATGAATATTCTTAAAGTTATAATACCAAGAATGTTAGTGAGAAAGAAAATTGAACTG
CTTTTTAATGACTAAAAAGTTAAGCTTTCATTCTGAAAATAGATCCTATCTTCAATCTAGCCTCACTAAATGGTGGTTTCTTAATCATTGGTTTAAAATG
CCCTGACTAGGCAATCTGCCTAGTTAAACATTAAAGTGAAGATAGTGAGAGGCTTCAAGATGGCTGACTAGAGGCATCTTGTACTCGCCTCCTCCCCTAA
GAAGAACCAAAATAGTGAGTAGATAATTACACTTCGAATAGATCATCCAAGAGAGAACACTGAAATTTTACAGAAACGTGACACGCAACGCTTAAACAAG
GAAGGAAAGAGAAGCAAGACAGAGCGCAAGGAAAGGTGGCTTAGAGACCCCCAGCAGACCAAATTTCCACTGTGTACTTCTGCAATCCTAGCCTCGGGAG
AGCCCCAGAGCCTTGAGGGCCCAGAAACTAACACAGGGAAGTGCCTGGAGAAGACGTGATGGTATTGATCCAGGGAGGGAGATTGCGCTGGGTCACACAC
TCCTCCTGAGTCCTAGGCAGCTACAGGAAGGTGCCATTTTGAGATCCCAGCCACAACAGACTGTGCACTGTCCTGGGGCCCCGTGGTACCAGGTCCGAGG
CACAAGCAAGGAGCAGGCTGTTGCTGCCGGGGCTGAGGCACAAGTGAGGTATGGGCTGCTGCCAYCGGGGCTGAGGAACAAGCAAGGCATGCATTCTCCA
TTTGCCAGCCTAGGTTGCCACCACTAAAAGCAACCATGCCCTCCCCAGTGGCAGGGCCAACGTGTGGCCACTGCCACTCCTAACCCAAGCATTCCACCAG
AGGCCTGGAAGTTGCCCCATCTCTGCCTATCATGACAGACACCTGCACACACCACTGGGGAACCCTGAGGACAAACTCACATGGCACCAGCTTCACCTCA
CCCTTGCCAGAGCATGCAGTTCAGGGCACTGAAGATTACCCAGTCCACTACCATTGACACCTGACCACTCCTCCCAGGGGCCTACCCACCCTGCCACTAC
CACAACAGCTTGCAATTACCTGTGCATGTCACCTGCAGGCCTGGGGACTAGCTCACACAGCCCATCACAGCTACCACCAACASCAGTGTACACTGTTTAT
TTTTGAATAAAATACAAAATACATTTGAAAGCTTCAACAATAGGGTAGATCAAGGAGAAGAAAGAATCTCAGAACTTGAAGAATGGTCTTTTGAAATAAA
CCAGTTAGACAAAAATAAAAAAGAATGAGCAAACCCTAACTTGACACATAAAACACCATAAAGCAACCAAATATTCAAACTTTTGGAGTCCTAGAAGGCA
AAGAGAAAAGAGTTAGAAAACCTATTTAATGAAATAACAGATAAAAATTTCCCAAGTCTGGCGAGAGATTTAGACATCCAGATACAAGAGGCTTAGAGAT
CCCCAAATAGATATAATGCAAAGTTCTTCTCCATGACATATTATAGTCAAACTGTCAAAAACAGAGAGAGAATTCTAAAARCAGCAAGAGAAAAACATCT
GGTTCCCTATAAAGGGACCCATATCAGACTAATAGTGGACTTCTCAGCAGAAACTTTACAGGCCAGGAGAGTATAGTATATGCAAAGTGCTGAAAGAAAA
AACTGCCAATTAAGGATGCTATACCCAGCAAGATTATCCTTTATAAATGAAGGAGAAATAAAGTCTTTCCCAGACAAGCAAAAACTGAGGAAATTCATCA
CCACCCAGAATCAAAGCCAACACATCCTATGCAACCAAACCATAGACACATATTCAGGATAAAGTCCTCCTCTCCCCTCTGCTCCCTACAAGAAATGCTT
AAGGGAGTCCTACAGATGGAAGTGAAATAACAAAGAAATCAGTAAAACAATTCAAGATATGAATAAGGAATTTGCCAGAGAAAGAATGTTATTTACCATT
ATGAAACATGTAAGAATGTAAGAACAACTGGTAGAGCAAATGCACAAACAAGGAAGAGAAAAGACTCAAATGTTATCACTACAGAAGCCACCAAACCACA
GTGTTAAACAATAATAAAGAAAAAAAACGACTAAAGGACTTACAAAACACCCAGGAATAATTTACTAAAATGATAAGAAAAAGCCATCACATATCAATAA
TAACTTTGCACGTAAATGAATTAAACTTTCCACTTAAAAGATGTAGACTGGCTGAATGGATTTTTTAAAAGACCCAATTATTTACTGCCTATAAYAAACA
GATATCATGTGGAAAGACACATATAGACTGAAAGTAAAAAGATGGAAAAAGATATTCCAAGCAAAYAAATCAAAAGTGAGCAGGAGTAGCTACACTTAGA
TAACATGAACTTGAAGTAAAAAACAATAAAAAGAGACAAGATATATTAGTCAGCATTCTCTAGAGGGACAGAACTAATAGGATATATAAAGGGGAGTTCC
TTAAGTATTAACTCACAAGGGCCATCAATAGGACCCACAATAGGCCATCTGCAAGCTGAGGAGCAAGGAGAGACAGCATGAGTCCCAAAACTGAAGGACT
TGGAGTCTGATGTTCAAGGGCAGGAAGCATCCAGCATGGGAGAAAGACGTAGGCTGGGAGGCTAGGCCAGTCTATTTACATTTTTTTTTCTGCCTGCCTT
GTATTCTAGCTGTGCTGGCAGCTGATTAGATGGTGCCCAGATTAAGGGTGGGTCTGACTCAGTCCCACCCAGTCCACTGACTCAAATGTTAATCTCCTTT
GGCGACACCCTCACAGACACATCCAGGATAAATACTTTCCATCCTTCAATTCAATCAAGTTTATACTCAGTATTAACCATCACAGAAGGTCATTGTATAA
TGATAAAGGGATCAATTTAGCAAGAGGATATAACAGTTCTAAATACATATGCACCCAACACTGGAGCACCCAGATATATAAAGCAAATTTTATTAGATTT
AAAGGGAGAGACAGATTCCAATAAAATAATAGTTGGGGGCTTCAACAGCCCACTCTCAGCATTAAACAGATCATCTAGACAGAAAATTCACACAGAAACA
CTGGATATAAACTCCGCATTAGACCAAATGGGTCTGACAGACATTTATAGAACATTTCATCCAACAGCTACAGAACATACATTATTCTCATTGGCACACA
CAACATTCTCCAGGATAGACCATATATTGGGACACAAAATGTGTCTCAACAAGCTTTTGAAAATTGATATGTCACAATTTTATCAAACCACCAAAAACCA
AGTCAATAACAAGAGGAACTGTGGAAACTGTACAAATACATGAAAATTAAACAACATGCTCCTGAATGACCTTGGGTCAAGGAAGAAATTAAGGAAGAAA
TGAAAAAAATTCTTGAAACAAATGAAAATCAAAACATAACATTCCAAAATCTACGGGATACAACAAAAGCAGTGCTGAGAAGGAAGTTTATAGAAATAAG
TGCCTACATCAAAAAAGTAGAAAGATTTAAAGTAAATAATCTAATAATGCACTTCAAGGAACTTAAAAAGCAAGATCAAACCAAAACCAAAATTAGTAGA
AGGAAAGAAATAATAAACATCAAGGCAGAACTAAATGAAATTGACACTAAAAAAACAATAYAAAGGATTAGCCAGGTGCAGTGGCTCACACCTGTAATCC
CAGCACTTTGGGAGGTCAAGGCAAGCAGATCACAAGGTCAGAAGATTGAGACCATCCTGGCTAACATGGTGAAAACCCGTCTCTACTAAAAATACAAAAT
ATTAGCTGGGCGTGGTGGCATGCATCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAAGGGGAGGTTGCAGTGAGCTG
AGACTACGCCACTACCCTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAATAAATAAATAAATAAATAATAAACAATACAGAGGATCAACAAAATG
AAGAGTTGGCTTTTTGAAAAGAACCAAAATTGATAAACCACTTGCTAGACTAAGCAAAAAAAAAAGATCCAAATAAAATCAGAAACGAAAAAGGAGACAT
TATAACAGATACTCAGAAATACACAAGATCATCAGATACTATCATGAGCAACTATATACAGTAAACTGGAAAATCTAGAGAAAATGGAAARATTCAATAT
ATATAACCTACCAAGATTGAACCAGGAAGAGAGAAAACCTAAACAGTCCAGTAACAAGTAATGAGATCAAAGAAGTAATAAAAGTCTCCCAACAAAGAAA
AGTCCAGGACTAGATGGCTTCACTACTGAATTCTACCAAACTTTCAAAGAAGAGCTAACACCAATTGCCAACAAACTTTTCCAAAAAATTGAAGAGGAGG
AGATTCTCCCTAACTCATTCTATGAGGCCAGCATTACCCAGATGCCAAAACCAGACAAGGATGCAACAAARAAGAAAACTACAGACCAATATACCTGATG
AACATAGACACAAAAATCCTCAAAAATACTAGCAAATCAAATCCAACAGCATACCACAAAGATAATACACCATGATCAAGTGGGATTCATCCCAGGGATG
CAAGGATGGTTTGACATACGCAAATCAGTAAACAGCATCCATCACATTAACAGAATGAAGGACCAAAACCATATGATCTCTCAACTCATGCAGAAAAAGT
GTTTAATAAAACTCAACATCCCTTCCTGATAAAAACTCTCAACAAACTAGGCAGAGAAGGCATACCTCACCATAATAAAGGACATGTATGACAAACCCAC
AGCTAACACCATACTGAATGGGGAAAAGCTGAAAGCCTTTCCTCTAAGAACTGGAACAAGACAAAGATGCCCACTTTCATGACTCTTATTCAATATAATA
CTGGAAATCCTAGCCAGAGTGATTAGGCAAGAGAAAGAAATATATGGCATCCAAATTGGAAAAGAGGAACTCAAACTGTCCCTCTTTGCTGATGATATGA
TCTGTGATCTTATATCTAGAAAAACCTAAAGACTCCACCAAAAAACTCTTTGTTGAGAAAATAATTCAGTAAAGTTACAGGATACAAAATTAACATACAA
AAATCAGTAGTGTTATTAATAATAAACTAGCCAAGAGAGAAATAAGAAAGGTAATTCCATTTACAATAGTGACAAAAAAATATACCTAGGAGTAATTTAA
CCAAGGAGGTGAAAGATCTCTGCAAGGAAAACTACAAAGTACTGATAAAAGAAATTGAAGAGTACACAACCAAATGGAAAGACATCGCATCTCATGACTG
GAAGAATTAGTATCATTAAAATGACCATACTCTTTAAAGCAATCTACAAATGCAGTGCAATCTCTATTAAAATATCAACATCATTTTTTCACAGAATTAG
ACAAAGCAATTTTAAAATTTGTATAGAACCAGGAAAAAAAAAAAACACCTGAATAGCCAAAGCAATCATGAGCAAAAAGAACAAAGCTAGACGCAGATAT
AGTAAACAAAACAGGATGGTATTTGTATAAAAACAAACACATAGACCAATGCAACAGAATAGAGAATCCAGAAATAAATTTGCATGTTTACAGACAACTG
ATTTTCAACAAAGGCACCAAGGTCATACATTGGGGAAAGGTCAGTCTCTCCAACAAATTGTACTAGTAAAATTGGAAATTCATATGCAGAAGAATGAAAC
TGGACCCCTATCTCTCACCATATAGAAAAATCAACTTAAAATAGATTAAAGACTTAAAGGTAAGATCTGAAACTATTAAAATACTAGAAAAAATATAGAG
AAAACACTTCAGGACACTGGTCTAGGCAAAGATTTCATGGCTAAGACCTTGAAAGCACAGGCAACAAAAAGAAAAATAGACAAATGGGACTTTATTAGAC
TAAAAAACTTTGACACAGCAAAGAAAACTATCAACAGAGTGAAGAAACAGCCTGTTATAAGGGAAAAAATATTTGCAAACTATTCATTTTTCTAGAGACT
AATATCCAGAATATACAAGGAACTCAAATAACAATCAATCCCATTAAAAAGTGGGCAAAGGCTGGGTGTGGTGGCTCATACCTGTAATCCCAGCACTTTG
GGAGGCCGAGGCAGGTGGATCACAAGGCCAGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCCATCTGTACTGAAAATACAAAAAATTAGCTGGG
CATGATGGCATGCACCTGTAGTCATGGCTACTCAGGAGGCTGAGGCAGAAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAATAAGCTGAGATTGCACC
ACTGTACTCCAGCCTGGGCGACAGAGCAAGACTATGTCTCAAAAAAATAAAAAATAAGAAGTGGGCAAAGGACATGAAGAGCCACTTCTCAAAAGAAGAC
ATACAAAATGCCCTCTGTCTCAAAAAAAAAAAAAAAAGTTACTTAAAGTCTGTGTCTAGTAAGTCTAACGTCTGTGCTGCCTCAGCGATGGTTTCTGTCA
ATTTATTTTTCCCACTGCTTTCCTATTTCTTTGTATGCTTTGTGGGTTTTTGTTGTTGTTGAAAACTGGACATTTGACTATTATAATGTGTTATCTCTGG
AAAACAAATATTTACATTCCCTAGAGTTTGCTGTTCTTGATTGTTGATGGCTTAACTTTTGTACAGCCAGGGTTTTTACCGAAATTTCCCTGAACATGGG
GAACTTAAAAAACAAACAAAAAACTTTTTCCAATCTTTGCATCTGAGTTTTTGCAGGAGCACCCCTTTAACACTTAATAAGGCCATTTGAAATTCTTCCT
CAGCAGTCATTTCCTGGTTGCACTGAGTCTATATATCAACCAGTGGTGGAATCTTAGGCTGTTCTCAGTTCTCTGAACATGCATCCTGTCCCAGACATGT
GTGTTGCTTTCTAAGTTGCCCTATATACAGAGCACTTTTGAATTTGAATGCCCTAATTTCCCAACAATTCTCTCTCCCTGGCTTTTACTCCCAGGCTTTA
GGAAAGTTATTCTATGTACCAACYGTACTCTTCGGCCCCAGGCAGTTGCAGTTTGTTTGTTTGCCTTACAATGTTTAAACAACGCCTGCTGCTTTTCTAC
AGTGGGTTACAGTGTGAAAACAGAAATGAGCACTTTGTTTCAGTTTTTCAGGTAACACCCAGGCAGGTTAGAATAGACATACCTAATAATTGTGTATAAA
GTTGGCTCTGCTCTCTATAAACAAGGACCGGAGTCCCACCCTGGGAAGGTGGGCTGCTGTCGCTAAGACTGCTATTGAGTCAGGGAAGGGTTCATAAAGT
TTTCTTTCCATTTTCAAGTTGCCTTAGAAAAAAAATTGGCTGGGCGTGTTGGCTTACCCTATAATCAGAGCACTTTGGGAGGCTAAGGCAGGAGGATTAC
TTGAGCCCAGGAATTCAAGACCAGCCTGGGCAATGTGATGAAACCTTGTCTCTAAAAACATAAAAAATTTAAAAGGTAATAAATAATTTTTTAAAATGAG
CATTTGCTTGGTTGCTGTAAATCTTTAACTATTTCCCAAAGTTCTGATAAAGTTGCTCTGACAATTTCTGGTTATTTGTTCAATATTTCTGTGGCGGTGT
GAAAGTTTGTAGCTGCCTATTTCTCCATTTTGCTGATGTCCCTCTCTCCACAAATTCGGACATATTGCATCTTCATTATGCACACACACACACACACACA
CACACACACACACACACACCCCTAAAAAAGTAATAATAATGTAATTATAGAGATGGAGAACAGGCTAGTAGTTCTCTGGGAATTACGGATGGGTAGAGAG
GATGGGTGTTATCGATGTCAATGTTTCAATATATGCAATATATGTATGTACATATATACATACACACATATATGTATACACACATAAACACATACACATA
TGTATACTTTTCATATATGTACACATACAGATGTTCCTCAGCTTAAGATGGGATTACGTTCAGACAAACCCATCATAAACTGAAACTATCTCAAATTGAA
AATGTATTTAATCCACCTAATCTACCAAACATCATAGCCTACCCTAGCCTACCTTAAATGTGCTCAGAACACTTAYATTAGCTTACAATTGGGCAAAGTT
GCCTAACACAAGCCTATTTTATCATAAAGTGTTTAATATCTTATGTGTTAATTTATTGGATAGTTTTTGAAAGTGAAAACAGAATGGTTGTATAGGTACT
TGAAGTATGGTTTCTACTGAATGTGTATTGCTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCTGGGCTGGAGTGCAGTGGTGTGATTTCAGCTCA
GTGCAACCTCCACCTCCTGGGTTCAAGTAATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGGCACATGCCACTGCGCCAAGCTGAATTTTGTA
TAAAAATACTACTAAAAAGTAGAGACGGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAATTCCTTATCTCAGATGATCCACCCACCTCGGCCTCCCAAA
GTGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCCAAATGTGTATTGCTTTTGCACGGTGGTAAAGTTTTAAAATTGTAGATCAAACCATTGTAAGCT
GGGGACAGTCTATATACACCTACTTTTTATTTTGAAATAATTGTAGAGTCACCTGCAAGAGAAATGTACAGGGAAGTCACATGTACCCTTCTCTCAGTCT
CCTGCAATGTTAACATCCTATGCAACTATAATACAATATCACAACCAAAAAATTGRCATCAATATCACCCATCCTTTCTACCCTTCCCTAATCCCCAGAG
AATGACTAGCCTGTTCTCTATCTCAATAATTATGTTATTATTATTATTATTTTTAGACACAGGGGTCTTGCTATGTCGCCCAGGTTGGTCTTGAACTCCT
AGGCTCAARCGATCCACCTGACTCAGCCTCCCAAAGTGCAGGGAGTATGGGTGCRAGCCACCAAGCCCAGCCTATGTCTATAATTATGTTATTACATGAT
TGTTACATAAAGGCAATAATGTACTATGTATTCTTTTGAAATTATTTTTTTTAACCCAGCATAATTTCCTAGAGATTTATCCAAGGTGTTGTATTGTTTT
TTCATTGCTGATTAGTAGTCCATGGTATGTATGTATCGCAGTTTTAGCCATTTATTCATCAAAGGAGATTTGGGTAGTTTCCAGTTTTGGACTCATAAAT
ACAGCTGCTATGAACATTCTTCTACAAACTTCTGTGTGAAAATGTCATTTCTCTGTCTAAGGGTGCAAATGCTGAGTTGTACAATAAGTACATCTTGTTT
TCAAAGGAAGTACCAAACTATTTTCCATAGTGGCTGTACCTTTCCTACCAACATGCATGTTGGTATTCATATCTAAGTGTGTGATCCATATCTAAGAAGA
CTATGTCTAACTCAATAACATAGGGATTTTCATCTAATAATTTTTTAATTTTAATTTTTAAATTCAGGTCTATGATTCATTTTGAGTTTTTTCATTTTTT
TTTTGTATTGGCTGAAGGCCACAATAATCTTAGGGTCCCATGAAAATGCTTTAAATCTTTTCAAATAATAAGAACAAATTAAGTGCAATTGATGGCAGCA
GCGGGCTGTCCACGGCGGTCGCTGTCATCAGGTCAGCTGCTGTGGGGAGGGTGCCAGGAGGAGGCAGAGCTGGGCTGGAGTAATGCTGTGCTCCACAGAG
CCAGCAGGAGCCAGGGTAAGCGAGAGCCCCCCCGCCAAGCCTGCCACGTTGGGTGCCACTGCAATGGGGCTGAGCTGAGCCACCTGCCAGCAGGGAGCAG
CATGGTTGGGCACAGAGGGGTGGGCAGAGAGGGGCCCAGTAAGGACCTGGAGCTGCAAGGAGGCATGGCCAGGGCTGCCTGCATGCTGCTCCACAGAGTA
GGCAGGCGGGAGTCCTACCCTCCCAGGCACAGGACCTGGGCATCTCTGCAGTCTGCACCCTTGGGGTCCTGGGAAAGTCCCCCTCCCCCCTCAGGCTTGG
GGGGTGTCTGCTCCTGCTGCCTGGCCTCTCCCTGCCCCTGGTGCCTGCTCCAATCTCAGAGCAGGGTTGGGGCTGAGCCCAGGCACTGTTACAGTCTGGC
CAGGTGTGTGCACACTTGGAGCAGAGCTGACACACCAGCCCCCTGCTGTCTTGGTCCTTTCCGGAATTTGGGCCCCAAGGAGCTCTGGGGGGAAGCCGAG
GGGCGCCTGAGGGCAACCCAGCACTGGCCTACAGGTGCCCTTTTGCACAAGCAGCCTGGGCACCATGGATGGTGGCAGGAGGCAGATCGGCTCCTGGGTG
GAAGAGGACAGGTTACTGGTGAAGCCCCACCTTCAGGCCAGGCTGCTRGTACTGCTGACTGGAGTGGGAACTTGTGGTGCCTTTTCCAGGCCCTCCCATG
GCCGCCCACAGACCAATTGGCAGCACTTCCTCCCATCTGAGGCCCATAAAAGCCCTGGGCTCAGCCAGAGCACTGCAGATGATGAGACGTCCAGCTGCAG
AGAGGAGCTACCCTCTCTGCTGATAGCTGAACACTTGTCAGGATGACTAGCTGCAGAAGGAGCTACCCTCTTTGCTTCTAGAACTCAACACTTGTTGGGA
TGACTTGCCTAGCAGAGAGGAGCCATCCCCATCTCGCCACCTTGCAGGCGAAGAGGAGGAAAGAAGAGCTGTGGCCCTTCGGGGAGCTCAGACCTGGGAG
CTCTTCAAGCCAGGGCTGTCACTCCCTCCTTGGAGCCCTTCGGTTCCTGGTGTCTCCAAGCTTCCAGGCACCACCATGTTCCCTGGTGCCAGGAATGGAA
GCTGCTTGCATGTGCCTGGTCCAGCTGCAGCCTTGCAGAGAGCCAGCGTGCAAGCTGGCACCTAGAATTGCTCACCCTGCTGAGGCAGCCGGCATGTCTG
ACTGCACAGTTGGACTCCATGCTCACTCACACACCCCTCACCCCTCACCCCTCACCACTTCATGCAGTCTCCCTCGGCAGGGGAGGGATCCTGGTTGGTA
GTGTGAGCCGAGCGCAGCCTGCAAAGCCAAGTGGGCAGAGTGAGCCCAGCGGGCCTGAGCAAAACTTGGACAAAGGTGCCACTGGCCACAGAGGTTTCCA
GCCAAAAACCAACACCCCAAAGATCCACTAACATAATCAGTTGGGATTACATTTGTATTTATAGCAACACAGTTTTAAAACATAATTTTTTGGGCTTGGT
GGCCTGTGCCTATAATCCCAGCTATTGGGAAGCTGAGGTGGGAGGATCACTTGAGGTCAGGAGGTCTAGACCAGCCTGGGCAACATATGGAGACCCTCTC
TTTAAAAAAAAAGTGAAATATAGGCCAAGCACAGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAAGCTGAGGCAGGCGGATCACCTGAGGTCAGGAGT
TCGAGACCAGCCTGGCTAACATGGTGAAACCCTGTTTCTACTAAAAATACAAAAAATTAGCTGGGTGTGGTGGTGCGTGCCTGTAATCCCAGCTACTTGG
GAGGCTGAGGCAGGAGAATCATTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCTTGGGCAACAAGAGTGAAACTC
TGTCTCAAAAGAAAAAAAAGAAATATAGTTTTTTTTTTGGCAGGATGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATC
ACTTGAGGTCAGGAGTTTGAGATTTCATAACAAGCCTCTTTCAATCACACCTAATGAGGTGACATGGAGTGGGGCCCCTAAATGGCTTTAGGATGGGTGC
TGGTCCCCACAAAATTAGAAGGTGGGGCCGGGGATGGCAAGACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTAGTGCACACCTATAATC
ACAGCTACTAGGGAGGCTGAGGTAGGAGAATTGCTTGAACCCAGGGGACGCAGTTGCAGTGAGCCGAGATGGCACCACTGCACTCCAGCCTGGACGACAG
AGTGAGACTCTGTCTCAACAAAAAACAAAGAAACAAAAAGAGCAAATATAATTAAATTTTTTAATAGAAGAATGTACCTCTGATGTTCTTCCTGACACTA
AATACATGGTGACTTTCCACACCAATTCTTCAATTCTCTGTCAGCAACTGGGTGGCCTACAAGTCATTTCAATTCTGACGTCAACTCCAGGAGTTAGTTC
AGATCCCACAAATTAATGGCTCAGTCCCACAAGGATACCCTCCTTCAGACACCAGTCACAAGTTCCTTAGGCCACCTGCACTCCGACTGACCAGCTGTGA
AGTCAAGGCTTCCTATAATTCCYTCCTCATGGTGAATAATTCACTAGAATGACTCACAGAACTGAGGAAAATGTGTTTCTTACATTTACTAGTTTATTAT
GAAGGATGCCACTCAAATAACTGAATGGAAGAGATGCACAGGGCAATGTAAAGGGGGACTATGCAGARCTTCCGTGCCCTGTTGCTCTTCCCCACAGTAC
TCTCGTGTGTTTGCCAGTGCAGAACCTCTTCTATCTCTTGTTGAAGAATTTATAACTCAATCACCAGCCCCTTCTTCTCCCTGGAGGTAGGGCATGGGGT
GAGGCTGAAAGTTCCCACTTTTCAATTATTTTGGGGGTGGAAGGAGGAGGTCTCTCTCTGTTACCCAGCCTGGTGTTCAATGGTGTGAACACAGCCTACT
GCAGCCCTGACTTCCTGTGCTCAAGCGATCCTCCCACCTTGGCCTCCCAAAGTACTGGGATTACAGGTGTGAGCCACCATACCCAGCCCCCTTCTAATTT
TGTGGGGATCAGCACCCATCCTGAAGCCATCTAGGGGCCCCACTCCATGTCACCTCATTAGGTGTGATTGAAAGAGGCTTGTTATGAAAAACAAAAGATA
CTCCTGTTAGAAAATTCCATGTGTTTTAGGAGCTCTGTCTCAGGAACGAGGGACAAAGCCCAAATACAGTTGATCTTTGCACAACCAGGGGATTAGGGGA
GCTGACCCTTCACACAATAGAAAATTTACGCATAACTWTCACTCCCCAAAAACTTAATTATTAATAGCTTACTGTTGACAAGAAGCCTTACCAATAACAT
AAACAATTAGTACATACATTGTATATTATATGTGTTATGTATTGCATTCTTAGAGTAAGCTAGAGAAAAGAAAATGTGATTACAAAAGTCATACGGAAGA
TTGTTCATTAAGCAGATGTGGATCATTATAAAGATCTTCATCCTTGTCTTCACATTGAGTAGGCTGAGATGGAGGAGAAAGACCAGGGGTTGGTCTTGCT
GTTTCAGAGGTGTCACAGGCAGGGAAAAAAGCCACCTACGAGTGGATCTGCGCAGTTCAAACTCGTGTTGTTCAAGCGTCAACTGTATATACATTTACTG
TAGCATAGAAACCAAGAAAGCAAAAGTGCCTAGGGCCATGGAAGTCATAACGTGGCCCTTTGAGTTAGGCAGTTTTACCAGCAGTTTTGAGACTATGGCA
GCTTGGAATGGGTCCAAAAATAAGCATCAGTGGATGATGGTAGTGGAGATGCAGTGAAATGAACTGGCTTGGGCTTTGATTTAGAGTCAGTTGGACCGGC
TGATGGATTCATTTGAGAGGTGAATGAAAGAGAAATCAGGATGTCTTTACAGCTTTTAAAATTTGAGGCCAGTTATGGTGGCTTACACTTGTAATCCCTG
CACTTTGGGAGGCCAAGGTGGGTGGATCGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAAAATGATGAAACCCTGTCTCTACAAAATATACAAAAAT
TAGCTGGGCATGGTGGTGGACACCTGTAATCCCAGCTACTTAGGAGGCTGAGGCAAGAGAATCACTTGAACCCTGGAGGTGGAGGTTGCAGTGAGCCAAG
ATTGTGCCACTGCACTCCAGCCTGGGTAAAAGAACAAGACTGTGTCTCAAAAAAAAAAAAAGAAAGAAAAAGAAAAAAGAAAAATAAATAAAATTCGAAA
CCTTGCTGGCTCTCTTTTAATAGGTTTTCTTTTTCAATATTTAAGGAATTTTTTTTTTCTTTTAAGCTGCTGATAACTTACAGCAATTTGGTAAGGCATA
CTTTTGCAACCAAAAATTCAAAGATTTGCTTTTCCTTCCTACCTAATTCCTCCAAAATCTGGAAACTATTCATGAAGATTCTTATTTTTATGACAATATG
GTTATTTGCATAAGTTCAATAAGAAGCTCTTCTCTTCAACAAAATACAACTGGAAATATTGGTTATATTACCAAAGCTTTGACTGCAATGTCATATTGTA
TTAATCTGTTCTCACCCTGCTATGAAGACATACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGACTCACAGTTCCACATGACTGGGAATGC
CTCAGGAAACTTACAATCATGGTGGAAGGTACCTCTTCACGGGGTGGCAGGAGAGAGAATGGTTGCCGAGCAAAGGGGGAAGCCCCTTATAAAACCATCA
GATCTCGTGAGAACTCACTATTACAAGCACAGCATGGCGGAATTCCCTCCCACCCCACTGCCAGTGCTGTTCCTTCATTCATTCATTATCAATTGAATTG
ATGCCGATTCAATTATATCCACCTAGTCCTGCCCTTGACACTTGGGGATTATTACAATTCAAGGTGACATTTGGTTGGGGACACAGACCCAAACCATATC
ATATATATATATATACGTATATATATATATTCATATATATATATACWATATATATATTCATATATATATACATATATATTCATATATATACATATATATA
TGAATATATATATTCATATATATATTCATATATATATGAATATATATATGAATATATATATATATAGCAATGTCATATTTTAAAATGTGCATGGAATCAT
AGAATGCCAATTTTCAAGTGTTCTCAGCTTTATAGTGAATAAAAGTAGTCACTTCCAGGCAGGCCCAGAAGCCTCAAGATATTAGATATTGCAGGCAAAG
TCTGATGTCTGCCTTGGTTTGACTTCCTAACATCAAGAGGTTTTTAAAAGTCCARATTTGTTGTCACAATTTCCAGCAAAATAAATTTAAAAGAAGCCTA
TGTGGTTATTCTTGCCGCACTTATGTAAATAATCAGGTCAAGTTTGAAACTAAATTAATTTTAAAAATAAATTGGTCTTACCATGATTATCTTTGGTAGA
AATGGGAATGACTGTAGAGAGAAAAATTATGTTTCTGAAGAAAACCATAGTACACCTGTTACTAGATTGCAGCTTTGTTCATTGTTTTTGAGTTTTTATC
ATCTATCTATAGACTAGCCTGGATCCTGAGTTCTTGTTGCCTTCAATATCTGACTGCAATTCTCCAACCATGAACAAAAACTGCTAAGCTGAACAACTCG
ATATAAATTTCAAGGGACAAGTCCCATGCTTGATGAGGGAGCCACATAGAGAGTTTAGCAGAACACCTGATGCCACAGCCAGAGACATTTAAACTGCAAA
CCAGGATGAGAAATTGCTGACATCATGTTGTGGACAGCGTTTTCCAAGACTGTCAGAATAAGACTCGCTACCATGATAAGACTCCTTCCCTTCTTAATTT
TTTCTTGCTTATGCCCACCTCTTCCACTTGGCAGGATAATGCTGTAGTTAAAATTTCACAATTAGTAGTTTTTGTGGGTAAGTTGATAAAGGGTCAAACC
CAAACATTTACAGGACCCAAGAGAGCTTTTATTCCACCTAGTGGGTAACTTTAGCAACATCCCTAATGCAACTGTTTGTTCAAATTTTACTAGTGGCCTC
TTTTGTAGAGTTAGCACTCTTTGCTTTAATTTAACCCATTTCTGAGATGCTAGATGATAGAATTGCTGCGTACTAACCAAACGGGGAAATCTGTGCTGTT
GCTGTCACTTCTTGTTGTACATAAATAATCTGGTATTGTAGAGACTCAGTTTCAAAAAGTTAGCAGGCTACTTGGTTAAAACAGGTAGATTTCTCATCTG
GCTCATTCTTTGATCTATTTGATTTTAGTTGGTTTGGTTTATGGCAACCCTAGCTAAGAAGCATACTCCGAACTCTTGGCATTGTCCTCCTGATAGTCAC
AATTCTCAATTATGTTCTCTCAAAAAGTTTTACATATTTGCATACAGCCAATTGTTGAATGTCATATGGTCTCTCTTCAGCTGCAATGACAGAAATACAA
AATCATGAGGACACTGTAATCTATAAATGATGTGTTGAGACTGGAAACACAGAATGATGTTAAATGAGGGTAGTGCTAATGCCCTCAGTCTTAGTCACAA
TTTCACCTAGGTTGTTAAATAAAAATCATGGGATGCCATTGTTTTCAACCAAATTCCTGCATCAGGCCTCCAGATCAGACTAAAAATCAAAATGGTGTCA
CCCATGTTCACCAAAACAAAACTGAGTTATCTGGTTTTCCAAAAAATGGTAAGAGAGATAGCCAATTTTCCAAACAGAAGTTTCAATCTTTAACAGGCAT
GATAATGAAATTTCCTGTTTTAATCCTTAAAATAGAATACCTGAAGTAACCCAATGTTAACCAATCAGTTTTCTTTCTACTGTTCTGTCTCCACGTCTCC
ACCTTAAAGAAAAGTGACTTTGATATAACCAATCTGCTTTTTGTTGTTTCTGCCTTCTTCAGTCTATTTTCTGTCTCTAAAGTTAACATCCTCTGCTTGA
TTCATTGCAACATTTATTCTATTTTGTGGAATGAAGTTTTGTCCAATTCTAGGAGTGCAATAATGCCAATGAGATCTTGAATCTCAATTTGTTTTACTTT
TGTTTCTTGACAATGGAGAGGTTTAGGCTAGAGAGCATTTTCAAAGTCATGAGCATATAGACTTCAAGTCAACCAGTTAGATGAGATCACCTGGTGATAA
AATAGAGAAGAATGCAAGGACCGAGCCCTGGAGCAGTCCAACATTTAAAGATTGAGCCAAAGAGGAGAAACCAGCATATCAAAAAGGAGGCCCAGTGAGG
GAACAGGACTATCTGTGACGTGTAGGTAAGTTCAGGGGGAAAAGTGTTTCAAATCAAAGGAACCATGTCAATTATTCGCGATTCTACAGAGAGGTCAATT
GAGATATGGATAGAGAATTGGCAATTGCCTTTGGAAACAAGATCATTAGTAATCTTGATAAGTGATACAGATGATGGAAGCCAAAGCTCGATCAGGGTAG
ACTGAGAAGTGAATGTGAAGTGAGAGGTAGGAACAAGCACTATTGGAGAGATCTTGAAAAACCTTTCTAAGAATTTATGAAGATAGCAGAAAAATAGGGC
AGTTCCTAGAGGCGATTTTGGAGTCAAAGGAAGTTTATTTTAGATGGGAGAAATTTCAATATATTTATATGCTGATAGGAGCAATTCAATTGAGAGGGAA
AAAACTAACGATGCTGGAGGGTAGGTAATTGTAAGAGTAAAATCCTTAGGAATGTGCGTGAAAAAAATCCGGTCACTGGTAAAGGGACTGGCCTTCCTAG
GCGCAGGGACACTTCATTCATAGCAACCCAAATGTTACTATGCAGATAAGGGTGGTTTTGATGGTGAGAAGATAAGGGAGTTTATTTCTGATATCTTTCA
TTTTTTCCATGAGTTATGAGGCAAAGTTGATTAGTAAAAGTGGGGGTTGGGGAGGAGGTATATAGAAGGCTTTCAGTAGAGACGAAAAGGAATGAAATAA
TCCTTCCATCAAGTCTACTTAAATGTCAATTTAGTGGATAAAACCCTCCCAGAATTAAGTACATCTCCCAAACCCTTTCTCTCTCTCAATGACCTTTTGC
TCCTTTCTGGTACTCACTAACATTTGCAATTGTATCTTTGTTCGTTCACTTCTCTGATTCCCCATTAGAGAACTACAGAAGGGCACGGACTTTGATTTCA
AAATGTATATTTAGCCGTTAGCACAAGGCAAGCAGATGGTCACTAAATAAATACTTTTTTAAACAAAAATGTTAATGAACACCTTCAAAATTTTGTCTTA
CGCCACCTCGTTAAAATACTTGTTTGTGCAAGTCACTTTTCCTCTCTGAGCTTTCATTTCTGAATCTATACCATGGGAATTATCTCTTCCTTGCCTACCT
CCCCTCGTTATCAAGAGGATCTGAGCCAATAATGATAGAAATGCTTCATTAAGGGCCCCTTAAATGTAATGGATTTCTATTTTTAGCCCACTGGTAGCCT
CGCAGGTAGCAGGTGCTGAAAAAGCCTTGCTTATTGGGGGTTGGGGGACAGCATTGTTTCTGTGACCGTAGGCGTCGAAGCTATGCAGAAGCGTTCCGCG
GACCGCAGAGAGATGGGGCTCAGGCCAGCATCCCTCTCGCTCCGGCCCTTCCCGGGAGGAGCTGGCCGAGCTAGGATGGGGGGCAGRGAGACCGAGGGGG
CAGTAACTGTCAAACCTCGCCGCTTGGCGCCATTATTTAAATGGAACGTGCCTGTCTCGCAGCTGTACGTGCCCGGGGCGGGGCTTCGAGCGCCCTGAGC
GGGGCGGAGGCCAGAGGCGGGCTGGGAAGGTGGAGGGGCGGGCCGGGGCGGGGCCAGGCCGGCTAGAGGGGCGGGTCTAGCGGCGGCCCCCGGCGAAGTT
CACTGCGCTTGCGCTGACAGACGCAAGATGGCGGACAGTGCGGAACTAAAGGTAAAGCGCAGCTCGAATTCACTTCTAATATTCGGCCGCGGAGACGGCG
CCGCTGCTGCCAGGGGGGATGGGTCCGACCCTGGGGGGCCTCTCGGGCCTGACTCCACCCGGGCCTGGAGTTGTAGGGAGAGAGGCGCGCCCGGTCTCAG
CAGAGGGGGCCCGCCTGCGGCGGGCCGCGGGCCCCGGGTGCCTCGGGGGCGCTGACGGGTCGTCCCCGGCGTGTTATTGTTGTGGGCGCCTCTGGCGGGG
GTGGCGGGGGAAGAGATAGGGAGTCCGGAGGTAGGGGCTGCAGCTGTCTCATGGGCTCGGCTTTTTCACCTTCCAGTTAGCCTCCCTGCCCCCCATGGGG
AGCTGGGGCTGGGGGCAGGGTGCTCTCGTAGGGGGGATTGGGAAAGCTCCCCGTGGCCGCTTCCTCTTCCTCCTTTGCAGTCCCGGGCTCCTGTCAGGCG
CTCTTCTCAGACCCCCGGGAACTTGGCTTCGGCCGCCCCGCCCCTCCGTGGATCCCAGTAGCCCCCGCCCCGGACTCKGCTTTCCCCGGCTGCTCGCTTG
TCAGGAAGCGCCTGGGGTGCCCCGCTTGTGGGAAGCGCGATCCCGGGGCGATAGGGTGGGGATCTGGGGGAGAAGCTCTGGTAAAGTTTAGCGAGCCCCG
GGCCGGCGTTGGGGTTCGGCTGAGAGGTAGTGAGCGGGACGTTACTCTTTCTCTCTGATTCCGGGCAGCCGAGGGGAGAAACCCCCTCGAAGAGTGTGTC
TTTGGAAGCAGTGTTGGGAGGGGGGGATGCAGCTACCTCTCTCCCTTCTTTTGCCTTAGCTGGTGTGGAGGGTGAGAGGAGCCTTTGGGGGTCTCTGCAC
ACACCATGATGGCGATGCTGTAGCTGATGGAGGTGAATGGTTCGTGTTTATATCCCCCCATTGCCTTTTGTTTGTAGGGACATCTTGCTGGCCATGTTGA
TTTGAACGAAATTCTCCCCTCATGCTACTCCAACCCCCGATAAATAGAACGTTCCTCTTAACAGTACCAATTACTCACGCCTCACGAAATTAGATGAAAG
GGTGCCCCCTTTTCCCCGCTTTTCTCCCACCCCAATCTTTACCTGATGATGGCTTCTTTACCGTAGCAGATATACCACTACACAAGCAGTTGGGGGAGGG
GGTGGTGGAACCCTTATGACTGGATTGTGACAAATGGGGCTCCGCTTGAATAATTTTGGTTTAGTAGCAGGCAGTTCTTAACTAACGCGTATTATTTCGA
GGCTCTGAACGCGATCTTCTCTGTGGCTTCCTGTGTGTGTGAACCCAGCAGCTGGTTATGTCTCGACCCAGAGAACTGACATCTCTGTCAGAGAGGAGAT
GGGGATATACAATTGTAAATCTTTGGGGAGAGTCTTCTTTTTATAATAAATAAAAATTATTTAATTTTTTCCCCGTTATAATGAAACGACAACTTCTAGA
ACAACCAAATGCCAGATTTGATTCTGTAGAGTTTTTCCTGTGGAATATCCTCACCGAAAGAGCTTTTCTCCTAATAACTTCACAATGTTTACACTCCAAG
ATTCGTATGTTAAGGTATTGGCTTTGAGTGTCATTCTTTTAAAATGTACTTCTAATTACAAATTTACTGAAGGGAGAGCAGATTTACAATGGATGGTTTT
GATTTTTCCCCAGTTTCAAACTATTGACTGAAATGAGAAAGCCTTAGGAATTTGAATATTTGGAGATAATTAACCCTTGAAATAAAAAAAAGCACACAAC
TTTAAGACATGTTTTCTATAATTTTTCTCTTAGAGTCACTATGTTGCTGTGATCTTTGCCTTGTAATATTTATTTTGTTAGGAGTTCTTTTGAATGATAG
CTAATCAGTTGTTATACATGGACCATAGAATAAAGCTGAAAAGCTTGTGCAGACTATATTGTCACTCTTGATGCTGTCCAAAGAAACTAGTATGGAAAGC
ACATGCTGAGAGATTTCCTTCTTTGTTCTTTCTCATTTTAAGAAAGTGCCTTTGGGGATAGATCAGATCCCTGGTGTGAGTCTTGTTAGGTAAAGTTTCT
CTTTACGAAAATGAACCAGTATCAGATAAACACCAAACACTTGAAGAAATGTTATTTTTCTAAAATTAATCTCGTTTTTTGTGCTCTCCCAAATCTACTA
GAGTTTTTCCAGAGGAAGTTTTTTTTTTCTACTCTTATGTTCCTGTTGTATAATTTTTCAAATTATAATAACTGTTTTGACATGTTGGTATGTCATTGTG
TGTGTCTGAGACTTTGAGGAGCTGTGTGATAAATTGCTTAGCTGGTGATAGCGGCGTTAAAAAAATTTGGTTAATACTTTATTGTGGTTAGATTTGCTGT
TCTTTTTTTGAGGGGTGGAGGAGGTGATCTCAGGAACGCCTACCATAGTTATTTGAGAATGTGTTAAAAAAAAGAGAATGTGTATATATAATTTTCTGTG
CAGTAAGGTTTGGCAGATACTCCTTTTGGAAATGATATTTTCTGAAGGCTTTTTGTTTGTGATTTTTTGGAGGTAAATATCATACATTCCTAATATGATA
GGAAAAATCAGAGTAAGAAGAAAAAAATCTAGATTTTTTGAAATTTTAAATGGGAATAGAGTACTTCAACTGTGAAGCTTTACATAAAACTCAGTGACTT
TTCATTATTTTAGGTTTCAGCCCCATACTTCATTTTGCTGTGGATTGTATTCATAATTATTTTCCTCATGGCTTTTTTAGTGAGTCCTTTTAAATCTATA
AGAAATGTGCAAAGATCAGATGGGAAAAACAGATAGATCTTTATCCCCTGTAGGAATTGTGCAAGCTGCAACACTTCAAGATATTGCCAATAAAAATTAG
ATTGTGAGTCATACATATCAAAATGAATTCTCTATGCACATTTGTTTATGAAAGGTTTAATTTTTCATTAGGGGAGTACCCATAAATGTCATTTTTAAGA
ATGTGGAGGGTATTTTGTCATCTTTAGGAACTTAGAAGCAGGAGGGTGTGATGGCCAGATGATCTTGGTAGTTAATAAGCTGACAGCTTCATGAAACTCC
TCTTAAAGTAATTTAAAAAAAAATATGTGTTTTTTTGGAGTAAAACTCAAACCAAGTTATAGTGCCATTTTAATTTACAGGAAGAAGAGTGGGAGAGAAG
AAGTCCATCAGCATTTTAGTGGAGTAAATAATGAAATTAAATGGGAAGAGAAACCRTAATTATAAAAGTTACTATGAGTGTGTCAGTGAATTCTATTGTT
ATTTTCTGCCTCTTTATTTTCAAGAAATAGCTACTTAATTTTGATCCTTACGCTGTAATTTGTCTGCTTTTATTTCAGATAGAGTCAAGTACATCTGATA
GTTTATTCATGGATTTGATTTGAATCTCTATAACTTGCTTTTGTCAAGTGCCACATTTAGATGGCTTTTGTTTTATGTCATTATTTTTATCAACAGTATT
TTAAAAACTCTACAGTATAGTTTATAAAATACTACGTATAGTTTCTAAGTATTTCATATGATTGTTTTGAAATACCTCCTTCTTTTCATCCACCGTTTTC
TCCTGGGCGATCCCATTGTCTTTTTCTTCAAAGAGTTTCTTGTAATCCCTGTTGATTGCGGTAGTGCTTAGTGGCGAGTCCATAGCTGATTAACCTTGGG
TGTCTCCTGGTGAACTCCATCAGCATGCTGCTCCAGGGTTCTTGCTGAGGCTTTTGAGTTTAGTGTAATTTGTACCCTTTTTTGCTGGTAACCAGGGATA
AGAAAATAAAATGGCCAATGGTTGTAGCGGGAACTGGGAAAAAGTATCCAAGTCTCAGAAAAACTGGGTGTTTATGATGAGATGTAGCCTTTCAAAACAA
CAACCAAAAACGGATTCATTACTTCATAGAATTGATTGTGGTGTTTTCTGAAGTGTTTGACTCTGGCATGAAGCATCTTGCTTTTTTAATGTTTGAATAA
TAATATCTTACTTATATAGTACTTTGCAGTTCATAATATATTGCATTATCTCTTTTGATCTTTCCAACAGTTCTTTGAGGTAGGAAAGGCAAGTAATAAC
TAAATCCTTTTTATAGATAGAGAAAGTGAGCCCAGAAAGGGTACGTGACTATTGCAAGGTCATACAAATAAAAGTGGCAGGGACTTGAGCCTAGGTCTTG
TGTAGTCCTCCTTAAAGGTCCTACAGCAGACCTGGAGTCCTCTAGGGTGCCCAGTTCACAGATTTCTACTTATGTTGTTGCTGATACTTTCCCTTTTGGA
AAAGCTCTATGCTAGGGTATTTTTGGATATTCTAGGGCATTTTGCAAGCTTCCTTGCAAAAAGTTTGGAGTTTGTTAGTTGGAATCATACACATTAATTT
TTGTAAGTATCATTTTGCTTGAGAAAATTTCAGAGAATCTGAGAAGTAAGCAGAAAAATAAACAGTACCTGTAATCCCAACACTCAGAGATATCATGGTT
AACATCTGGGTATTTATCCACTTAAGACTTTCTCTCTGTGAGCATATGTATATGTATATTCATCATAAAAAGATACAACACTGTTTTTTATTTATAATCT
GCTATTTTCATGTCTATCCAGGTTAGTAAATACAGGTCTATATGATCATTTGAAACCTTACATTGTGTTTTATTAAACTAGTCCCTGTCAGATTATTCTA
CTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTCCTCTGTTGCCCAGGCAGTAGTGCAGTGGCGCGATCTCGGCGCACTGCAAGCTCCGCCTCCCGG
GTTAACACCATTCTCCTGCCTCAGCCTTCGGTGTAGCTGGGACTACAGGTGCCCGCCACTACGCCCCGCTAACTTTTTTGTACGTTTTTAGTAGAAACGG
CGTTTCACCGTGTTAGTCAGGATGGTCTCGATCTCCTGACCTTGTGATTTGCCCGTCTCGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCACC
GCGCCAGGCCCAGATTATTCTCCTTTTTTTGCAGTGTGTTTGCAGACATGTACCAAAGTTTGCAGATGTTTTATTTTAACTAAATATATTGATATGACAG
ATCTTTTTTGTGCTTTAGAAAGCAATGCAGGACCGGATGCCATGGCTCACACCTGTAATACCAGCACCTTGGGAGGCTGAGGTGGGCGGATCACGAGGTC
AGGAGTTGAAGACCAGCCTGACCAAGATAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGTGGGCGCCTGTAATCTCAGCT
ACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGCGAGATTGCGCCACCGGACTCCAGCCTGGGCTACAGTGTGAGATTC
CGTCTCAAACAAAAAAAAAAAAAAAAAAAAAGAAAGCAATACAAATGTTTATTTTATTTTTGTAGAGTCAGGGGTCTCACTGTGTTGCCCAGGCTGGTCT
CAAATTCCTGGCCTCAAACAGTGCTGCCTCGGTTTCCCAAAGTGTTGGGATTACAGGTGTGAGACACTGTGCCTCTGTGCTCGGTTTTTACAGGTGTGAG
GTACTGTGCCACTGCACCCACTCTACAAAATTAGCTAAAATGTTGTCAGTGAAATAAATTAGTCATTCTTGGTTTGTTCATTGTCATACCTTTATTGTTT
ATGTTTCTGTAATATGTGAGATAAGATTATTAAATGATGGCAGATACAGGTTTTACAAAATGTAAGCAAACATTACTTCAGCATCAGAATGTTTGATAAA
GTATGAAATCGATTATGAAGTAGTATTTTATAATCTATTCATACTATTCTATGAATAGTAGAATTTCAAGTAGGCAAGTATGTTTGATTTTGGAAATTAT
ATCACAGTGACCACATATTGCAAGTTTTTGTACCTTATTTAGATGCTTATCAGTTTTTTTTGTTTTGCTGGGATTACAGGTGTGAGCCACCACGCCCAGC
TGATGCTTATCAGTTTTTAACTGGCATTTTAAAACTATATTGAACATTGCCAGACGTGGTAATCCCAGCACTTTGGGAGCCAAGGTGGACAGATCACGAG
GTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCTATCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGTGCGCACCTGTAATCTCAG
CTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTACAGAGAGCTGAGACCGTGCCACTGTACTCCAGGCTGGGCGACAGAGT
GAGACTCCGTCTCAAAAACAAACAAACAAAAAATCCCCCAAAAAACAAACACTATACTGAACATTAATATAGAGAAAATGGAAATAAGACTTCACCATAT
TTTTAATCTCAAAACAAAGTGTTGCCATTTAAATTGGGAGGTAACATAGTTTCAAGGATCCACAATCTCTGCCTCCGGGGTTCAGGCAATTCTCCTGCCT
CAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACTGCGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGTTGG
TCTCTATCTCTTGACCTCGTAATCTGCCCGCCTTGGCCTCCCAAAGTTCTGGGATTGTAGGCGTGAGCCACCGTGCCTGGCCCAGGATCTGGTTTTAGAA
AGATAACATAGGCAATGAAAGCATTTTTATTTTTAGAAAAAACCTTTATGAGTTAAACCAATTAATAAATGCATATGTGAATTAAGAATGCTATTTGTGC
AACATCYGAAAAGTAGTGCATGTAGAAGGAACTTGAAATTGATCGTACTCTAAATTTGATTCGTTCGACTTTGGTCTTCACCTAAATCTGTATTTATGTA
ACGTTTTATCATTAGGATTTCTTTGAAATAGGCAGTAGMGACAATTTTAAAGTACTTAGTTGTCTTTAACCATCAATTTCAGAAGTAGTATTAATTGCCA
CTGCACTTTTTGCTRGATGTTTATGACTATATTTCCCCTTCCATGTTAAAAATTGTGCAACTCCTGTTACTTTTGATTCCCTCTACTCTTGGTTTCAGTA
GTGTCACATGAAAAGAAAATTCCCTAGAACCCTTCCTTCAGAGTTTTCTGGTAAGTCTTCATTCTTAGCTATGAACTTCTAAAATTCGTCAAAATGAAGA
AACCACCTTTTTATTTTTCAGCTTTTCTTTAGATCAAGCAAACAAAACAAACATAAATCCTTTGAATATTAACTAATGATGGAGATATCAGTAACTCTCA
TAGGACTGTTGTAAACGTTCCTATTTTTGAAAACTTAATCTCTTTTTTACCTTTTTTGCTATTCACTGCTTTCAGTTTACCCGCTTTGGTTGCCGGGTTA
ATTTCACCAAAACACTCCTTTCATTCTGTCACTCCTATCTATAAAAACTTTGAATGGCTTTCTATCGAAAACTGGATAAAGWCTTAGTTCTCAGTCTAGT
ATTCAAGATTTTCTATTGTCTGGCCCCATTCCACTTTGTGTGTGTGTTTTGTCTCTTCAGCTGTATAGCAAAAGCCCTTAACTTAAAGCCAGAGCTGTTA
GTTTGCGTCTTTTTGTTGGCTGGTGTTCTGTTTGTACACCCCCCATTCTCCCATCCCTACCCTGTGGACACAATAGGTGTTTTTAATATACATGTGTCAG
ATGAACAAATTATGTTTAAGATTTGTTTCTGTCAGAGACTGGGGCCTGATACTCTTGTCTATAAGACAATCTAAATTGAAAATATTTTTAGGGTCATATC
TTCGCTCTTTTTTCTTGCTGCTGCTTAGATGAACTTGAATAACATTAAATCCAGAATAATTTATCAAGGGCTGTTTYAGATTTACCTTTTACATTATTTT
AAGTTATAGAGATAATAAGTGACTACACTTCTCATTGTAATGATCTAACAGTAAATAGGGTAAAAATGGAAAGACCTCATCATCTTCATTCTTAGAGGGA
ATCATTTTGGTGTATATCTGTGTATTCTTATTTGGGTGGGCAGGGGGAGGTGACAGCTTTATTGAGATAAAATTAACATATCCCATTACAGTTCACCTCG
TTAAAGTGCACAGTCAGGTAGTTTTTGGTATATTCACAAAGTTGTGTAACCATTAACCACAATCAGTTCTAGAATATTTTTTCACCTCGAAAAGCAACCC
TACATCCTTTTAGCATCATCCCCTTCCCAAACCTTACCTCACTCTTAGCCCTAGGCGACTGATAATCTATTTTGAGTCTCTGTAGACTTGCCTATTTTGG
GCATTTAATATAAATGGAATAAAAATATGTCACTTTTTGTGTCTGGTCTTGTATTCATTTTTTTCTCTGCATGGGCATTTAAATGTGTATGTCTGTATAA
TATTTTTAATTTATTGTGTGTGTGTATGTCTAGATGAGAACAAAACTAGGCACATAGAAGGAACTTAAGTGAATGTACATGTACATAAATATCTTTTCTA
AAACTGTGAGACCATACCATATGTAGCATCCTACAGTTTGCTTTTTTTTACAATAGATAGTGAAGATCTTTCCATGACATGTCCAGACAATGAGATGGTC
TCATTCTTTTTAACAGTGTGTAATATTTCCTATGTATGTTTATAGAGATTTACCTCTTGAATTTATCAGTGTATATGGTTAAAAGTTCTTAACAACTTGT
TTTGATGGTTTTGCTATACACTACTGGTTTTTTTAAAAAAATAATTGCCACATTTAATGTAACCTCTGTAGTATTAATGCTGGAGTTTCACTTAACAATA
GGAATGAAAACATCACAGGTAAGGGTTGTATAGCTTGAGGAGAAATGGAATGCAGGGTCTTTATGCAGTTCTGGCAGTGCTCAGCCAAAGCAATTCATTT
TGTATTTGGGTTTCTGAATGTGAGCAAGCCTGTTTTTAAAAAAGCTCATGGCATAGTGCTTAAAATAGAACTTAACATGCTATCTTGTGCTTTATGGTGA
ATTTTAAGACTTTTTCTTGCAGTCATGCAAGTCTAATCTTAAAGATTGGAAAGATTTCAGAGTAAATATTTTTTCTCATATGTTAAAATCATCATTCTGG
TCTATGGGCTTCTGTAAGTTACCCAAGAAGGGGACTGAAGAGGCACAGAACTGGCTCAGAAACTGGCTTATAGTAGATTCTCAGTAATTGTTATTTATTA
AAGAATTATTTATCACATTCTGTTATTTATTATATTTTTGGGTATCTGCTGTGTATGAGGTACCAGGTTATTGGTGATTTTAATATATTATCACATATGT
GTGTATATTTATTTAAATATTTCTGTTATAGCGGAATGTTTACTAAAAATTATCTTTTTAAAAATTATACAAGTAATGCATCAGTTCTTACAGAGGTTTT
CAAAGTCTATTTCTCAGGCCTCTGGTGGTTCCCCGAAGTTTTTCTGAGGGTTCTCCAGGTCAAAATGATTTTCCTAATAATAGGCATTATTTACGTGCTG
ACATTTGCAAAATCAGTGGTGGGTAAAACTGCCAGCACCTTGGCACAAATTAAGGCATTGGTACTAAATTGTACTAGTAGTTGTGTTCTTCATCACTGTG
CACTTGGAATTAAAAAAAAAAAATGCCAGTTAAACTTTATGTCCTTGATGAAGCAATAAAACTTACTAATTTTATTGTATCTCAATCCTTGAGTACATTT
AAAAATATATTTTGTATGATGAAATGAAAAGTACCTGTAAAACACTTTTATTGAATATCAAATCTGATGGTTAACTCAAGGAAAAGAACTTGTGCAGTTG
AGTTGTGAGCTTTTTAAATGGAATACCATTTTTACTTGAAAAAATGGCTGGCAAAGTATGGTTATACAGACTAGGGTATTTGGCATACATTTTCATGAAA
ATAAACAAAGTGTGCCTGTCACTACAGGGAAAACAACTGACAATATTTGTTACTAATGATAAAATTTAAGCTTTCAAATGAAAATAGAACTTTGGAAGAC
ATGTATTTGCCACTGTGAGCTTGACAGTTTCCCAATACTTGACTTTTTTGATAAGATCAGTGTGATATTAATGAATGTGTTATGTTGAAGTTGCATAGTG
AAATATGTCAACATTTGGAAGAACTGCATAACTCAGTGAACTAATATTTTCCAAATAACCAATGCATGATATTACAAAATCATGCCTGGATAAAAAGATC
CATTGGAAATGGAAGATAGACCAATGAATTTCAGTTTATCAGAGTGGGAAATATTCATTGATACGGTTTCAGATTCCTGCGTTGCAGCAGCCTTTAAGAA
CCTGCCATTTGTTGTGTTTTGGTGAAGGATCAAAGAATATCGAAAGTTATCTGAAAAGGCTAGAGCATTTTAATAAAAATACTCTATTTTTTCCCAACTC
TATAGAGCTTCATAAGGCTAGATTTCCTTTATATTCTTCATCCAAAACAATCTAATACACAGATTGAATGGAAAAGTAGATGTGAGAATCAAGATGTCTT
TATTAAGCTAGATGTTAAAGAGATTTGCAAAAATGTAAAACCATGATAGTCTTCTAATTTTTATTAAAAATATTTTTTAAATATGAGATTTATGTTAACA
AGTAATGGATTAATTAATTAATTTGTTTTTTGAGATGGGCTTTGCCATGTCGCCCAGGCTGGTCTCGAAGTCGGGGGCTCCAGTGATCGCCTGCCTCGGC
CTCCCAAAGTGTTAGGATTACGGCGTGAGACACCATGCCCAGCTATTATTTTTTTTTAAATGACAAATCTTTTAAAGTTTTCTGCTTTAACTGCAAATAC
AGTAAATATTGATAGATTTAATCGACATAAAGTTTTTTTGCGGGGGGGATGGTCCTCCACTTTCAAGAGTCCCAAGAGCAAAAACTTTGAAAACTTGATC
TTTTTTAAAATTTAAAATTTACAGTACAGCAGTGCCTAATTTAAAATGGGACGATCCCTTTCACCTTCCCACTCATGGTATTTTTTATAACTTAAAAGGA
AAAATAAGGCTGGGGGCAGTGGCTCACACCTGTAATTCCAGTGCTTTGGGGGAGACCTAGGCAGGCAGAGTGCTTAAGCTCAGGGGTTCCAGACCAGCCT
GGACAACATGGCAAAACCACATCTCTACCAAAAATACAAAAAATTAGCTGGGCATGTTGATGCGCACCTGTGGTTCCAGCTGCTTGGGAGGCTGAAGTGG
TAGGATTTTTTGATCCTGGGAGACAGAGGTAGCAGTGAACTGAGATCCACTGCACTCCAACTGGGTGACAGAGTGAGACCCTGTCTCGAGAAAAAAAAAA
AAAAAGAAAAAATTTATTTCTAGTGATCTCTTACAAGGCAGTTTGCTAAGCAGAGTTATTTAATTAAATCCTGCATCTCTGTAAGTAATGCTAAACGGTA
GTAGCTTGCATTGCACTGAACGAATGTGCTTGAAGTACTTTTTTTTTTTTTTTTTTTTTGGAGACAGGGTCTCCCTCTCTTGCCCAGGCTGGAGTGCAGT
GGTATGATCATGGCTCACTGCAGCTTCGAACTCCTGGGCTCAAATGATCCTTCCACCTCAGCCTCCTGAGTAGCTAGGACTTCAGGTGCTTGCCACCATG
CTCAGCTGACTAAAAGCTTTTTTTTTTTTTTTTTTTTTTGGAGATAGGGTCTTGCTGTGTTGCCCAGGCTGCTCTCAGACTCATGTGATCCTCATGCCTC
AGCCTCCTAAAAGTGTTGGAATTCAAGGTGTTGAGCCACTGCACCTGGCTTGAAGTACTTGTAATCAGTAATGGTGTGGGAAATATATAACTTAATTTTT
TCAAGGTTATGTTTTTTCTTTTTTCTTTTTTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGTTGGAGTGCAGTGACATGATCTCGGCTCACCACAACCTC
CGCCTCCTGGATTCAAGCAATTCTTCTGCTTCAGCCTCCCGAGTAGGATGCGCACCACTGTGCCCAGCTAATATTTGTGTTTTTAGTAGAGATGGGCTTT
CACCATGTTGGCCAGGCTGGTCTTGAACTGCTGACCTCAGATCATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCT
GGCCTGATTGCTTTTTCTGTAGTAAAATATAAGAATCATATGAATAAATGAAAAATTCCCTAACTTAATATTAGCCAAGAACTTCCTCTCCAGCAGAGCT
TAGCTCTTACCAAATATATATGATTGATTTGCATTCTACCTATTTTGTTTTTTTCCTTTCCCTTTTGTGGGATAAACTTGAAACAGGACCTAGAAATTGT
AAGACTCTGAATGCTTTTCAGTTTCTTTCTGCATTTCTTTAGAGTGGTGTGTGAAAAACTTCAGCCTCTGTTCCTTAAACATCTTTCCCCAGGGTGTCAA
AGTAAGACTGGAAAAGGAATATTTTTGTCCCAGAAGTTATTCTAATATGTGATTTCAAAATCAGGTAGCATCTTAAAGGTTAAAGACCTTTAAAAAAAAA
GTATAGTATTTTGTGTCTAATTGAATCATAATCAGGGAAAAGAACATGAATTTTAGAATTGCCATTAGTCTTCACCTCTGAATTTAGATAGTCCCAGGAA
TGAGATTAATGGTCTTCTAAGTGTGAGTAGGTCTGGTCTGTCCATTTTTTCCCGAGAGGAATTCTATAATCTCTTGTTGAGGCTACTTACCTGGCTGATA
ATGTTTGGGGAACAAGGCAGKATAAAGGTGTCCCACTTATGAGTATGCAGACTTTGCTTAATCTCCACTTTTAGATTTGTGCCTCACCCTTGATCTTAGT
TCCATGCTGGTCTGAGTCTGGAGCCTCTCTGGTTCAGTTGTTCCAGTAATCCTCTGGCCTCTTGTGTTACGAGAGGCTAGTGGGCATGGTAGGGAAGTTG
TCTCATGGATATTTAGTTAGAGGAGACCTGAGGGTGTAACCATCCTGTATGTTCAGATTTTCTAACAGCCCCCTTGTACCTTGCCCCCTGTGTTTTTAGA
TATGCTTGCCTTTCTTTAGTATTCCCCTCTCTAGGCATTTGTAGGTTGTAGCTTCCTCTTCTGATTTAGTTACCACTGCATTGCCTGCTTTTCATCATCA
AAAAGTTTGTTGAAATTTCTAGTTGGTTATTTTTTTTCTTTTTGTCCTTGTGGATTAAAGATTTTTCTTTTTTTCTTCCCTCACTGTCATTTTGTTTCTC
TTTATGGGGGGAATATGGCAGACATTTGTATATGGTGAATTCATATTTAACTGGAGGTCATTGTAAACTTTCTGTGAAGCTTATAATACAAACTATATTA
ATATATAATAATGATTCTTAAATAGATGCCTATGTTGAATTAAGATTTATATTGAGTGGTAGTAGAAATCGTGTTATTTTCTAAGAGAAAGCTAGGTTGC
TTTTTTAAAAAAAATTAAATTATATACAGCGTAGTATGTATAACCTTATAGAAAAATGTGTAACTTATAGAAAGGTAGTAAAACAAACATCAAGCCTAAT
AAATAGAGCATTCTAAAACCTTGAGGCCTTCCTTTGTGCACCCTCATCCTCTCTTCCCCATTTCTTCTAGGTAACTTGTATCAATAGTGTATTTTAAAGG
TGAAAACTAGGAGTGAAACAGTAGTTTTGTATATTATTATTTGTAATGTTGTCTTAAAACCATTGCATCTAATATTTTATATCATAGTCTTGTAAATTTC
CAAATTTACTGTAGCATTCTTCAAAGAGGAGGATTCCGTAGGAGAAGGTGGAGAGGAAAGTTTTGGAGACCTGAAAATATGTATAGGGTGAACGTGGTGG
TTCACATCTGTAGTCCCAGCACTTTGGGAGGCTGAAGTGTGCAGATTGCTTGAGTGCAGGAGTTTGAGACCAGCCTGGGCGATATGACAAAAACCTGTGT
CTACAAAAAAATACAAAAAGTAGCTGGCTGAGGCATGTGCCTGTGGCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCGCTTGAGCCAGGAGGTTGAGG
CTGTAGTGAGCTGTGATGGCGCCACTGTACTCCAGCCTGAAGGACAGAGCATGGCCAATATACGTGCTCATAGATTTCAGTAAGTACATCTGGTGATGTT
TGTGGAAGAAGGGACTTAAGTTAATTACCACAGTGATTTACCCGGGGTTAAGTCTTTTTTTTTGAGACTGAGTTTGCACTCCTGTCACCCAGGTTGGAGT
ACAATGGCGCTATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCACCCTCAGCCTCCCGAGTAGCTGGGATTACGGGTGTCTGCCA
CCATGCTTGGCCAATTTTTGTATTTTTAGTAGAGAAGGGATTTTGCCCTGTTGGCCAGGCTGGTCTCGAACTCATGACCTCAGGTGTTCCACCCACCTCA
GCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCCCCTGCCCTGGGTTAAGTCTTGAAAAGTGCTCAGGCTTATGTGTCAATGCTCTCATCCACG
AAGAAGTTGAATCGTCAGAGTTATGAGAAAAGTCCAGCTTTTTGGCAAGACCATTAAAGTCTGTGTTACACCTTAAATGTTTTTGTCCTTTTTTTTTTTT
TTTTTTTGAGGTGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATATTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCCATTCTCC
TGGCTCAGCTGCCCCAGTAGCTGGGATTACAGGTGCGCACCACCGTGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAG
GCTGGTCTCGAACTCCAGACGTCGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTTGTCCATTATTT
TTTTGGATACATTTAAAAAACTCTTAGTAAAACATAAAAATAGTTATTCCTTTACTGGGCTTATAATAAGTATTCTTTGTGGCTATAGGTATTCTCTGCT
AAATCTTGCAAACAAGCATTCTCCCTTACGCTCCCCTCCTCCTTCCTTTTGCCCGTTTGACCTTTGGTATCACATTTACTTAAAGCAAGGTTCTTATCCA
GTCATTCTATCAATAAAAATGAGTGCTGATTTATATGCCAAATCAGCTGTGTTAAATGCTCACACATCATTTGGGAATGAAATAGAGTTTTTGCTTTTGT
GAAATTACATTCTAGGCTGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATGACAAGGTCAGGAGATCGAGACCAT
CCCGGCTAACACGGTGAAACCGCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGCGGGAGCCTGTAGTCCCAGCTACTTGGGAGGCTGA
GGCAGGAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGACATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAA
AAAAAAAAAAAAAAAAGAAATTACATTCTAGTACTCCTGTAACTATATGAAAAATAGTTTGGTTCTCTTGTACCTTTCCATATTTGAATTTTTATAGAGA
GCAGATGTTTTAATAATTAGGAAGAACTTTATTTTGGGAAATGTTTTCTGGAATATGAATTAACAATGTTAAATGCATTGTTAAAGTTTAATAGTCATTT
GTTGTATATATGCTTCCTAAAGGTAGTTTTTGGAGGAAGGAGATGTGGGAGGAGCAAGGAAAAGATATGAAAGAGTTATTGTAGGAAGTTTGATTGCTGG
CTCACTGGAAAGTTTAGTGAGATGCCTGTGCCCATTGAGATTGACGACTGTGGATGTAAAATAACATCCATCTGCATGAGTGCATGCATTCTTTTCTCCT
ACAAAGTGGGAACTAGTTGAATGTGCCAGGCATGGAGGGACAATGGAATTTTGCAAAGAAATGTTTAGGGGCTAATGGATAGGGCATGACAACATCAATG
AATTAGAGATCTTTGTGAATTGAATTCTTGAAATGAAGCAAGTAAGAAAAGGAGGTTGTAGTTGGAAAATGAAATGTTCGAGTTAGTGATTTTGAGGGTG
GTGCAGGTTCTGCTGGAAATGTCTAAGATGTGGCCTCGGAAGTGGGTAGCTGAGGGTGGAAAGTAATGATGAGGAGTTAAGTTGGAGCCTGAATGGCCAA
GGCAGGTACTAAAACTTTACTTCAGTGAATGACAGGATGACCTAGAAGATGGACTGTCCAGTACTATGGCCACTAGTTCTGTGTGGGTATTGAGAACTTG
AAATATGGTTAGTCCTAATTAAGATTTGCTGTAAGTGTAAAACATACTGGATTTCGAAGACATAGTATGAAAAAAAGAATGGAAAATATCTCATTAATGA
TTGATATTGATTGCATGTTGAAATAATATTTTGTTTATTGGATTAAGTAAATATATATCATTAAAATTAATTTCACCTACTTGTAATTTTTTGAAATAGA
GATGTGGCCTCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGGGCTCAAGTGATTGTCCTACCTCAGCCTCTGAAAGCGTTGGGATTACAGGCATGAGC
CACTGTGCCTGGCCTTTTTACTTTTTAAAATGTGGCTAGTAGCACATTTAAAATTACGTGTGTGTCTCAATATTTGCAGCTTACATTGTATTTCCTTTGA
ACAGCACTTTTCTAGAGATATTACTGCTCATAAGTAGAATGGGAATTAGGTGGGAGGACAATTGTAGGGGTTTGTAGAACCCAGTGGCAGAATCCTTTGG
GAGAGGGAGTGGACATTGAGGCTTATTTTCATTGAGTTGCTGGTGCTTTCTCTTCTGCTGTTGTTTGTTCTTGGAATTAATGACCTTCTTTTCACCCCCG
CCCCCCCGCCCCTACCTCCCTTCCCTCCATGGAGTGGCTAACCCCAGGGAGTTTGCTTCATTCTTTTTTTTTTTTTTTTTGACAGAGTCTCACTCTGTCR
CCCAGGTTTAAGCAATTCTCTGCTTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCATGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACG
GGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGC
GCCTGGCCAGCTTCATTCTTTTGAGGAGAAAAATAATAAACGATAATAGAAAGCAGTACCAACAAAACAAATAACCATGTAAATCTAAGTAGTTAACAAT
GTATTCATAAGANNNNNNNNNNNNNNNNNNNNAAAACAGAAATTAGCCATGGGGAGTGACGTCAATCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGG
AGGGCTGCTTGAGCCTGGGAGGTCAAGGCTGCAGTGAGCCATGATCATGCTACTGCATTCCAACCTGGGTGACAGAGTGAGACCCTGTCTTTAAAAAAAG
AAAATTAAAAAAGGTGATTACTGGGATATTCTTTGAAGCAAGGGTAACAGCATGAGCAAAGGTAATGAGGAGAGAAAACATTGAGGTATGTTTGCGGAAC
AGCTACTAGATCCACATGTGGATATCTGTGTAAGAGAGTAATAAGAGTTAATGGGAAGTTGGCCGGGCGCAGTGGTTCATGCCTGTAATCCCAGCGCTTT
GGGAGGCTGAGATGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATCCAAAAAAAATTAGCT
GGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGTCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCTGAAATCAG
GCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCTTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGTTATGGGAAGTTGGGGCCAGATTGTT
ATGAGAATTTTCCACATTGAAACTATGTATGGAGTCTGAAACTATGTTGAATGCTATAAAGGAAAGGGACAGAATTCTGTAAGAACATTAACTAGGAAAC
CTGACTGAGTTAGTGTACTCAAAGAAGTCTTCCCTATTTCTGAACCATCTGAACTACAGACTTCCTCCACATCCAAGTCTTTTCAAATCTTCTTAATGTT
ATGCCTTCCTTTCCTTCTCAGTTGTTACCGTCACTATTTCAGACTCTTGTAGTGTCAATTTTGTATTCATAAAACAGCCTCTAAATTGGTATCATATCTT
ACATCCCTTTTCAAATTATTTACTCTTCAATTAGATTTATTTTTTTATGTCCGTTTCCTCCCTTTAACATTTTCTGCAATTGAAAATGTTTTTACAACTT
CTCATTCTTTGTAGGATTAAGTATAAACTTCAGTTTTGCCCTTAAAACTAAAAAATTATTGTTTGAACACTAGTTGCTGAGTTTGGATGCCAGTATGCTC
AGTAGGCACTGGGTACATTTATATAATGTCCTTATTTGTGAGAGGTTATATGTATAATTTCTTTTTTTATTTTTTTGAGATGGAGTCTTGCTCTGTCGCC
CAGGCTGGAGTGCAGTGGCGCAATCTCGGCCCACTGCAACCTCCGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACA
GGTACCTGCCACCACGCCCGGCTCATTTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACTGTATTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGAT
CTACCCATCTCGGCCTCCCGAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCCGGCGAGGTTATATGTGTAATTTCTAATATATTTGCATTACCAATA
TGGTTTGTAATAATTGACAGGTGCCAAACCGTTGTTACTCATATTTATTAATGATGAACAAGACAGTCTCTATAGACAGAGCATGTATTTTGGTTAAGAA
TTGACAAGTAAACAGGGCCTCTCTACATATGGCATAAGAGCGGTAAACTGAGTTAAACAGGAGAGCACATAAAAGCGTAAATTTTTTTAATGTTAGGAGT
GGATTAAGGAAAATATCCCAAAGGTTGTGACATCAAAATTGAGAACTTACTGATTTGGAGTTAGCTAGTAAAAGGCTGGGATAGGAGGGGGGAGAAGAGC
TTCTCCTTGAAAGAACAGCATATATAAAAGTCCTGGAAGATGGAGAGTTGGTTAAAAGATTGGTTACGGTGGTCATGCTAAGGAGATGGGGCCTCTGAGT
GCAGTAGGTGATCATGGAAAAGTTTAAGCACAAGCGTGACATCATTGGATTTATATTTTAGAATGATCACTGGCAATAGTGAGGAGAATGACTTGGAGAG
GATAATATTGGAGGCAGGGAGAAAAGTTAAGAGTCTCTTGCAGACTCTGAATTAGAGTGGTAATAGGGACTAAGATATTTTAAGGTGTTAAGATTGACAG
GACTTGGTAAATAGATTGGAGGTGAACAAGAAGATGGTGTAGCAGCTTCTGGCATTGACGGGTGATTAGGTGGATGGAAGGTTTGGAGAGAGTTGATGTG
TTAGATTCGAATATGTTGAGTTGATGACTCTTGGGATATAAGGAGAGGTGTTTAGCAGATGTGGATTTGGAGTTTAGGAGACCAAGGTTAGGCTGGAAAT
AAAGATTTGGAAATTGTTAATTTAGAGATAGCGTTTTGAAGTTACGAGTGGATGAGATCACTCAGGAAGACTGAGCTGAGTGAAAGGATTACTTTAGACT
TAGGATTCAGTGATATTGTTCTTCTTCTGTCATAGAGTTTATCTCTACTTTTTTTTCCTTTTTTAAAAATTAAATTTAAAAAAATTTTATTTTTAGACAG
GGTCATGCTCTTCCGCCCAGGCTGGAGGCTTGATCTGCTGGGCTCAAGCCATCCTCCCACCTCAGCCTCCTGAGTAGCCTCCCAAAATGCTGGGATTACA
GGAAGTAAAATAACTTTTATTTTTAAACTTTTAAGAACATTGGCTGCATTGAGTATTTGGAGAAGTACTCTGGWATTTGATTAGCTATATGTTCAAGGAA
TGGTATTAAGAATGAGTTTTCAGTAATTGTTCTTTTTGACTGATTATGATAAACCTCATATTTTATTTCACTTTCTAATGTCCACAAAAGATAAAAGACT
TTTTTTATAAAACCATAACCACAGATCATTTCTTCTTTTGGCTAGTTTATGAATTGTCCTTTAGACATGGACAATTAAACTTTTTTTTTCTTTTTGACAG
AGTAAGTTGTAGATAGATAAACTTTGTTTTTCTCTTTTTGTGCTTTTAAAAAAATTGCTTCTTATCTGGAACTTTAGCATTCCTTTTTTTTTTTCTTTTT
GCTTTTTTGTTTAATGTTTTGGATATGTTAAAATGGATGCTAAAAAGTATAGTCTGTTTGGGTTTTTAGCCTCAGAGTTTTGTGAGTAGCTCATTTTCCT
TTTCCATAAATTTCACGAAGAATGTGTAATATGTTTTCATGAGCCTCACCTTGAAAATGAATTTTTATGTACATTAATGGAATTTTTGAAAGAAAATAAA
AACATTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGGCGGAGTCTCTCTTTTGCCCAGGCTGGAGCGAAGTGGCGTGATCTTGGCT
CACTGCAACCTCCGCCCCCACAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAATTACAGGCACCCACCACCACACCTGGCTAATTTTT
GTATTTTTAGTAAAGATGGCGGTTCACCATGCTGGCCAGGCTGGTCTCGAACTCCTGATCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGA
TTACAGGCGTGAGCCACTGTGCCCAGCCAAAACATTTTCTTAAACTTGCTTTTGCTACTGTAGTAACTTTGTAAATTTTACTTTAAATCATAAAACTTAA
ATTTTAATCATAATAATCTGTTCTGAAGATAATGATCATAATGATCTGTAAGTTTTGTGGAAAGTTAGCAGTTTTACTTTACATAGACTAAAGGATGCTT
TTGTTGTGAAATTATTTCTCTTATCTGTAACTAGTAGAATATTCAAGTGAAAGTCTTCCATTCTGTGTAGAAAAGAAAGGGTCGTTATTATTAATAGGCT
TCTGATGGAATTTTAAAAAATATTTAGGCAAGCTGTCATTGCAAGACCTGAATAACTTTTTGCTGTAACCTATTTTTTTCTTTTTAATATTTCTCTGTGT
AGTTTGTAAGGAATCATTCCTAGGGCTTTTTTTTTTTTTTTTAAGATGGAGTTTTACTCTGCTGCGCAGGCTGGAGTGCAATGATGCGATCTTGGCTCAC
TACAACCTCGGCCCCCCGGGGTTCAAGTGCTATTCCTGCCTCAGCCTCTCAAGTAGCTGGGATTACAGGTGCCCAGGACCGTGCCTGGTTCATTTTTATG
TTTTTAGTGGAGATGGGGTTTTACCATGTTGGCCGGTCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCGCTGCCGCCTCCCCAAAGTGTTGAGATT
ACAGGCGTGAGCCACCGCTCCTGGCCACCTAGGGCTTTTAGAACATTTGTGTACGTCTTTTTAAAAACTTGTTTCTGTCTAAAACTTATAAATCAGGACT
GAAATATGATAACCTTAATTTTCTTGTGCACTCTGGAAGATGTTTATTTTTACCTTAAGATAGGGGAATCAGGCTGGGCGCGGTGGCTCACGAATGTAAT
CCTATCACTTTGGGAGGCCGAGGTGGGTGGATCATGTCAGGAGATTGAGACCATCCTGGCTGACACGGTGAAAGCGCGTCTTTACTAAAAATATAAAAGA
TTAGCCAGGCATGGTGGCATGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCACAGGTTGCCAAGACTGCG
CCACTGCACTCCAGCCCTGGGCGACAGAGTGAGACTCTGTCTCAAAAAAAGAAAGAACAACAACAAAAAAGATTGGGGAATCCTAGGAGAAAAGAGTCAT
CTTAATCGCAAATAGTTGAATAATCTTCATTTGTAGCCTTAAATTTTATTGTTACTTGGAGGATAATCTCTTATGATATGCTCAGGGCCCTAGAGAGTTG
ACACTGTCATATTCCAAGTTCTTAAGGATGACTTGGGTGAATATTTAAGGGCACAATTCTCAGATTTTATATATGACACGGAACTGGAAAGGGTGTGTTA
AGATTATAAAAGGAAGAGGAATTCATATCATCATCTGTTGGGCACTTACTTGGTGTCATTAACTATACTTGCATAGGGGATATGGAGATGAGTGTTTACC
CTTGAAAAACTCAAAATCTATGGGAGGACATAAACTGGAAAATCAGTGTTTTACCACATTTCGTGATAATTGTACAATAGAGGGGTGTAGGATACAATTT
TTCAAAAGGGGTTTGAAAGGCTGGAATGAAGAGCTGAAAAACATGAAGTTTAATGGCATGAAACATTACGTTCTACTTTTAAATTAAAAAAATTGTATTC
GAGGATGAGGTGGTTTGACTTTATACTGTAGCCATTTATGTGAAAAAGATAGAATAAAGGTTTTAGTTAACATAAGCAACAGGATGATGTGGATGCAGCC
CCCTCCCTGCTGAAATAAAAGAATAACACATACCATACATCCCCTCTTGTCCAAATAAAACAAACCTAAAACGTGAATGACTTGTTAGGTTATATTGGTA
AAAATACCATGTTCATATTAAGAGGGATAGTAATACTGCTGTGTTGGAGACTAGTCACACCATATCTAGATTATTTCATTCACTTCTGAGTACTATGGAC
TGCAGAATGCTTGAGAATGATCAGGAGTGGGAAGGGGTCTAGCTAGTTGAAGGAAAAGAGTCCTTTTAACACATTTTAAGCATTTTAAGAGTCAATTTTG
GTATACCAAGAGGACGAAATTTTAGAGCCATTGGGCGGACTTTAAAGGGAACTTTCAATTCCTAGAGCTTTTCGCTAATGTGGGCAGCTTTTAAAGGTTG
TGAACTCTTAGAAGTGTTTTAGCAGAGGCTGGGGGCCCAGTCAAGAAAGTTGGAGTAAAACTTCATATATTAGATGGAGTTTTAGACAAGAAGATCTTTA
AGTTCTGTTTTTGATACTCTGTTGCTGTTATTTCCAAAAACATTTTCATACTATGTGATAGTGTCTGTAGTTGTTATTACCATGTAGCATTGTGTGGACA
TTGGCATTTGCCTTTTGAGTCTGAGCTCCACTACTTGCTAGCTCTGTTACCTTCAGTAGGTTACTCCTGTTACTCGGAAATAGTTCAGTACCACCCCTCT
AGGACTTTTCCTTAATCTCTATACTAGGACCCAGACTGAAGGCTGTAATTTAGACTCTTTAGTTTAGAAGATGCATTCTTGTCACTTTTTGTTTTGTTAA
TACGTGTTTCTTCTTTTAGGCTTTTCAGCTTTCTCTCAGATAGGGTATACTGTTCATTGTCTCTTGTCTTATCTGAAACTTAGATCATCTAATTGCAAAT
GCAGTGTTTTGTTTGTTTTTGGTAAGGGGACAGTTAGGAAAGAATAATCATCTTTTAGAATTTAATAGACTTAAAACTTCTTAAAGCCCTACTTAGTATT
TTTAAATTCTAGATTTTATTTGAAAAGTGAATGATGATTGTTCTCATGATCAAGTACAGTACTAATTTTTAAAAGACCTACCTGTTTGTAGAATATTGAA
CATGGCCTGTASTTTTTCTTTGCAGTATTTCTTGGTCCTGTCTCCTGTATTTCCACTGCACAGTTCCTTCTTACCTTACATGTAGATAAATCCTGCGTGT
TGCCATGTCTTTTAGCCAGAAGGTTTATTTCTTAGTTTTTTTCTTATTTCAGCCATCCTATTGGTGGTTACTTCGGTAACTTCCTTAAGCACTATTTCAA
TTACATCTTTACTGCCTCTAAAATATGCATTTATTCCACTGCCTGCTCATGTTATACTGTATAAATTCCTTGACTGTCATTTAGTGCCCCCGTCACCCAT
TTCCTGTCCGTGTCTCAGTGTAACATATACTCAGCTCTGGCTGAGCTTGTGATAAGACATTGTATTAGTTATGAACTCTGGAATCAGGTCAGATTTGAGC
CCTATCTCCATCATGTAGTTACTGTGTGATTTTAGATGTAATGTCAGTTTTCTTATCTATACAGTGAGAATAATAATGCTCTGTCTTGTAGGTTCATATG
AGGATTAAATAAGATAATCATGCTTACTATAATTAGTATGTTACTGGTACATTATAAGTATTTAATACATATTATGTTTTGTCATTTTTAGTCTGTCAAC
CCATGTAAATGACGCTAAAAATTATGATTGAAAACATTTTTAATATAGAAAGATTTCACTAACTGTATGTATTGTATTTCCCCAACTGTAGAAGAGTAGA
AGAATGAGAAGAAAATTTCATTTAATACAGTTACAATGTTGAATTTTGAAATTTTAAGGAATCTTTGAGAACCTCTAGTTAATCCCTCTTTTTTTTTTTT
TTTCAAAGTGAGAAAACAGAACCTGTAAGATTGTAATTTGGTAAATTAGTGGCCAAGTCAGTACCAGAATCCAAATTCTGTATTTGCCAGTACCATTATA
TTGTATTGCACATTTATTCAGCATATTTTAGGTATTCAGTAACTTTTGAGAATTGAATTAATACGATGATTACGCATGTTTCTGAAGACTAGTTTATTTC
TATGTGTTCATTGTTCCTGTCTTCTCTTCCTATACATACTCATTTAGGGCCTGTGCATTGATCCAAAAAGCATTTATTGAACATCTGTGTGCAGAGCAGC
CTTTTTCTTAAATAAGAGCCATATTTTCCCACCTCTGCATAAGAAGTCTGGCAATGTGTTAGAAATTTRCACTCTAAATTTTAAAATTAAACTAAGCCCT
TTAAAATTTTTTTTCCTTTTTTCTTTTTGAGACAGTGTCTCACTCTGTTGCCTAGACTGGAGTCCAGTGGTGTGATCACAGCTTACCACAGCCTCGAACT
CCTGGGCTCAAGGGATCCTCCTGCTTCAGTCTCCTGAGTTCCTGGGTCTGTAGGTGTGTGCCACCAATGGGCCTGGCTAATTATTTTTTATTTTTTATTT
TTAGTAGAGATGAGGTATTGCTGTATTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGTGTTCCTCCTGCCTCAGCCTCCCACAGTGCTGGGATTACAG
GTGTGAGCCACYACACCTGGCCTAAACTTTTTAGGAAAAATATTGTACTCCAATGTTATAACATTCTGAGTTGGATTTGTTATTTATTTTTTTGAGACAG
AGTTTCGCTGTTGTTGCCCAGGCTGGAGTACAATGGTGCGATCTCAGCTCCCTGCAACCTTCACCTCCTGGGCTCAAGCGATTCTCCTGCCTCAGCCTCC
CGAGTAGCTAGGATTACAGGCATGCACCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACT
CCTGACCTCAAGTGGTCTGCCTGTCTCAGCCTCCTAAAGTGCTGGGATTACAGGCCTGAGCCACTGCGCCTGGCTGGATTTGTTATTTTTAATGTTCAGG
TTATCGTCCAGAAGGAGCTTTTTGAAGGATAGAAGTTTCATGAAATGTGGTAGTATATAAATAAGGATGATGTTTAAATTATCTATCAAAAATTAAAGCC
ATGGTGTACCATTTCAACAGTGTTTATACTTTGTTTAAAGAAGAATGGGATCTCTATTTATGTATAATTGCAATATTTTGTCATTTTGTGGGACCTCAAT
GCAGTCAATAAGATGGACCTGGAGAGGTGGAAGATAATTAACTAGAGGAGTAGGCACTACAGGTCATTTTCCGGTTGTCTTATGCTGCAAAATAGATAAA
AGTTGAGAAATTGGGTGAAACAAGATTATGGAGAAGTATGTAACCAACCTGATTTGCTGCTTTGAATAGAAACTGTCTAACTAGGTTTTCTGGTTGAATG
GGGCATTGTTGACAGATTGCTAATAGCTGCTTATTAACAATTTGTAATGAGAAGATTTAGAAATCATCCAAAAGTAAGCCCCATTGAATGAAGAATCTGA
CTTTGAAAATAATAAAATACTTTTGTTGTTGTGTGCAAGCTTTAATGTGTGCAGTTACAGAATTTGTGATTATGCATTTGCTTTTGTGGATGAAAGGCAA
AAGTATAAATGAAATATTATGACATTATTAAATCCCTATTTTGTCTGTCTTTGGAATTCATTCTGGTTTACAATTCGTTATAAATTGATACCAGATAAAG
ACTCATAATATAGTCTGCTTAATGACTAATCCTGTAAACCACTGCAGTGGGATGTGTGAACAAGAGTAATTATGTTGTTCAACAAGAAGTACCTAATTCT
TATCCACAGTGTAGATATAACCTTCAATAATGGAAGGTCACAGCTAATGAGACAATAAAACTGGCACTTTCTGTTTAGTTGCAAAAGCCTGTTTGCTTGT
TGACGTTGTTTGAGTATTGTCTGTATTTATCTTTCTCAGAACATGGCCCCTGCCTCTGTGTAGTTGGGACAGAGTTTGCGTACATATATATCTGTGTTTT
TGTAAAGTTTTACATATCTGAAAAGGGGATTGAATAAAATGTTATTGTCTTGAATGTATTGAACCTCCCATTCTGCACTACTCTGCCCTTAGAACACTAG
AAGCCAGCCTTATACCACCAAAGCAGGAGATTGGGTTGTTCCTYTCTGTCAAAAGTGATCAGACAAAAGGAAGCAAAGGGAATCCAAACAAAATAGCCAG
GTTATTGCCCAGTCATTCTAGATGAAGTACCCTGGTCTGCTCACTCACATAGATTTTCCCATCATCTTTTTAGTATCTTACTCTTAACTATGTATGCACA
GCCCAGGATTGTCTCTCATTTAAGGAAAGCTTCAGGCATGAAAGGCAGATACCAGTGTAGGGAGAAGAAGAAAACAACATCAACACCCAATTTATATTCT
CAAAAAAGAAAAATAACAAAATGTAGAGGAAAAAGAAAAGAGAAATGCAGAAAATTAAAAGAGTTCATGGAAATTAAAAATTTAATGTAAGCGTTAGGAG
ATAAAATTGAGGAAAATCCCAGAAGATAGAGCYAAAAGACAAGAGATGTAAAAATGCACAAGGAAAAAGAAAATAGAGTAAAGGAAAAATGAGATTATCA
GTCTAGGAAGACCTGTGTCTGAATAATAAGTGTATAAGAAAGAGAACACAAAGACATGGAAGGAAGATTATTGTAAGAAAACTTCCCAGAACTGAAGGGG
ACATACATCTCTAAGTTTAAAAGGATCGACAGTTATCAGTTTATGCAATTAAAAAAAAAAAAGACCAACCCCAAGGCACAACATTGTAAAATTTCAGAAC
AGATTAAGAGAAGCTGCTATGATTCCAGATGGGGATATATAGTTGACTATGAAGGATTATGGGTCAGATTGGTACTAGGCTTCTTAACACTGGAAGCCAG
AAAACAATAAGGAAAGGCCTTCAAAATCTTGACACAACATGATTTCCTGCCCAGCACTCTGTACTGAGCCAAACTCAGTCGTAAGGGTAAATGAAGATTT
TAAAAATACAATGCAAGGAATAAAAACATCGTACCTCACATGCCCCCTTTCTCAGAAAGCTGCTAGAGGAAATACCCCACTAAAAAGAGAAAACCAAGAA
AGGGGAAGTAGTGGCATAAGGAAACGGGATCCAGTATAAAAGAGAGACAAGGGAATTCCTGGGATAAGCTAAAGGGAAATTCCATGACCATAATTGTGCA
CCAGGCTTGGAGAGCCTACAGTCCAAATTGGAATATGGTGGAGGGCTACAGGAAAGAAAACTGATTTACCTGATGTATTTGAATATATTGAGAAGAAAGT
TAATACTTTTAGCTGTTTGCAGATGAATTAGCAGTAGGTACCTAGAAACCTAAGCAAATGGAAAAATGGTGTAGTTATTAACTGTAAGGAAAGCAAAGTT
ATACAGAAAAGAGTAATCATGATGTACTTTTGGCTCAGCTGTGAATATTATTTACAGCCATAGTAATAATGTAAGTACTGACAATTGATTCAACCAAAAA
TTATGATAGAAAGATGAGGGAGAGAAGATGTAACAGAGCTAAACCATTATATTTTATAATAGGAAGTCAGTAGAGTCCTCAAAGAAAAAATTAAACAGCT
GCATAGACCTACTACATAGAATATAGAGAAAAAAATGCCAGAAGAACTAGCTAAAAAGACTTGAAAGTGGTTGCCTCGGGGATTTGAAAATTGTGGGGTA
TGTTAAAGGGGGAAGGGACTGCTGTTTTTCTTGTAAAACTTTTTGGTTTTTTAAATTGTGTTCACGTCTGTCAGATTATGAAAATTAGTTTTAAGAGGTT
GCTCCTTACAGAATGCTCTTGCATTCAAAATATATACAGTTCTGAGGCATTCTAAATCCCCTAGGATTCTGAGATCTCTATCAATTGAGGACGTAGAGTC
AGCAGAATGCTACAAAATTGCTGAGGAAGTAATGATTTCTAATAGTAGTAGTGGTTGATGCAATCCTTAGTTGTAAATATTTATTTTGTTGTAGTGCTAA
CAAATGGAGATTTTTAAACACCTTAAATGCAGATTAAAATATATTTCATTTCAACAACTCAGATGTGTTAGTGTTTAGTTTTCCTCAGTGTTGTCAACAC
TTTTCATTGTGAATTGACTGCTTTATGCTTCTTTGCAGCTTTTCTGTTGAAAGATGCTTCAGTGTTTCCCGCCCCCTTCTTTTATTTCATTTTAAAAAAT
ACTGCATGCTTATCACAGTCCTTAAGAGTATGCAACAGCTGTTCCAATAATAGCAATAGATAGCACCTGATTTTTCATTATACCTGATTATAAGTTGCAA
TGGTTAATTTGAATCCACATTCTTTTCTTATCTTAATCGCCAGTTTTTAAAAGCCAAAATGTTGAAGCTTGAAATGGAGATTGAGTTAAATAAATTAATC
TTCAAATAGGTTTTTCTGTTATCCAATTAAAGGCATGTGGTTCGTTTCCTCTTAATGTCAACATATTATAGCATGAAAGAAAGTACATTTGGAGTAGAAC
CAGTTGCATGACATTCAACACGTTTCTTAACCTTGCTAAGTCTTATTTTCCCACCTGAAAAGTGAGAACAGTACCTGCCTGATAATTATGACAATTGATG
ATGAATCCTGTAAAAAAAAAAAAAAACACCCAGTTACTCAGGAGGCCGAGGCAGGATCACTTGAGCCTAGGTGTTTGAGAACAGTCTGGGCAACATAGCA
AGACCCTATCTCTTAAATAACAAACAAAACTAAAAAGCTTGGCTTGCTGATAGCAGCTACTATTTGAGTACCTACTATGTACCAAGTATTGTTATTGCTG
CTGCTACTCTTTGTTTCAGAGAGAGACAAAAAATGTAATTGAGGGCGCTCAAGTTTATTGTTGTGTCATAAACTTTTTTGGACCATCAAGCAAGAGATTT
TATGAGAAATGTCAACATATTCTTCTACAAAAATAGGAAAATGATACATCTGCATTGCATCTGAATCTTTGTACCTATGGAATAAAGACAAAAGCTGTCA
TCAATGCAGAGTTTACAGTAGTCACTGAATTTTGCTGGTTTGTTTTTGATTTAGGAGAATGGAGTTGAAATAGTTCTCTTCAAAATTTGTACTTTTTTTT
TCTGTAAAATGCAGTACATTTGACCCATGCCAACTTAAATTTATTTTTAACCTCTAATCCTTGAAGTTTCATGTTATTTATTTAAAAGCAGTTTACTTAT
TAATAGTACATTTCAGTTTGAAGTCCCTGTTCCTTTTTAAATAATAAAAGTCTTTAGAAGTATTTTGTACTCTTTTGGTGAGTAGGGAGAAATTGATATC
CTGCTGATATTATAGTTAGTAATTGTTTACAATCTTTGATAACATTAAAAAGAGAAAACATTTCTAAGATTTGGGTGGAATTTGTTAAGGTTTACGTTAT
ATCTTTGCATGCCTCTACAGAACATGAATTTGAGCATTTATTTGGATAAGTTATCGCTGTAGATGCTACCTCCCACCCTTTCTTCTGGTGTCCTTTCTTA
CTTGTTTATTTGTTCGTTCATTCATTCACTCATTGATTATGCAGGCATTTGAAGAGTTTCCACTGTTGTCAGGCCCTAGTTGTAGATGCTGAGGGTAATA
TGGTTGTGTACCATGGAGAACCCTGGTTTGCTTARAGAATCACTTGTGTAAACAGAAAATTACAATAAAGCAAAATAAATGCTAAAATACAGATGCGAAA
AGTGGCCTTTGTAAAAATAGTGAGAGTAAAGATCATCCTACCAAGGCTAATGGCCAAAGGCTAACAAAAGCTGGACCTTGAGGAAAGAGTTTTCCAAGCC
AGAGAAGTAAAGGAAGGACTCATATTTCTTTGATTAACCAGCTATATTGCTTATAAAGCTCTTTATATACTTTTCTCCTCAGWATTTTATTTTTTGCTTA
ATGGTTTTGCCACCTGCAAAGAACCCTTAGAGAATTGGCTGGGGTTATCATTGTGAGTGGTGGTGAGTTAGGGAAGGCAGCATAAGCATAGCTTTTGTGT
ATTTGGTATGAGGTGAAGGAATTAGTTGGAGAAATAGAGAGCAAATGGTAAGCTTACATGTGTCTTTTTATCCTAATACTCCCTGTCAGTGGTGATGCAA
TCTTTTAGGATTCTGCTAATAGCTGTGTGATCTTGGGTAAGTGATTTCTTCTCTTTGGATTCCATTTTCCACCACTTTAAAATGGGAGGWTTGGTATAGA
TGGTCATTTCCTATTAGTAGGTGGGGAAAAAGGAGAAAGGGGGACTAAATAAGTTTGCGAACATAGGTAAACAAAGTTAAATAGATTACTGCAGCCTCAT
GCATTATGGCATATGAATTGGGTTGCTGGACTTCTAGCTTGGCCTTGCAAGTTAAGTGAGAGTCAGTAATATGAGTCCAGCTCTGTCTTTTTCCTAATGG
TTTAGTGGAAAGAGCATGGGCTTTAGAATCAGACATATCTGGGTTTGAATCCTGACTACTCCTTAGTAGCTTTATGGCTTTATAAGTTATCTAACCTTTC
TGAACTTGTCTCCTCATGTATAAATCAGGCAGGATAATACCTTGCGGAGTTGTAAAGATAATGACATTCCATGTGAAAATATCAAATAGAATATCTGATA
TATAATTGGTCAAAAAAGGTGTAACTTAAGTCTACAAATTCCAGAGTTAGTACAGAATGTAAGTAACACTTGATAATAGCTATTGATATCCTGCCTACAT
CTGGTGTTTGAGATGGACTGTTTGTTGTTTCATATATACTTATAATTCTTCCCCAAGAAAACAAAATATTCTTGAGAGCACATCATTACGTTTTGCCATC
TACATAGCACTCGACATTCTCCTGGAGACTCAGTAAGTGCTTGATAAATACCTGACAGTTTCATCAAAACAGTGGAATAAAGTGAGGTGTGGTTTTCCCT
GGTGTATACTTTATCCTATATTTCTTATAACCAAGGGTAGAAGTCAATGAATTTATGAATATTAATTTTAAATTTCTTTGGTTACTTAACGTTAAATGAT
TAAATTTGAAGTTTGAAATAATAGGATTATAAGTGAGCTGGCCTTTATTTGCTTAAGTAAACCATAAGAAGGGGGTTATAATAAAGTGTCATWTAATAGT
GTAAATTATATTATTGGAATACTAATGTTTTACATTTTGTTTTTTCTCTAAGCAAATGGTTATGAGCCTTAGAGTTTCTGAACTCCAAGTACTGTTGGGC
TACGCYGGGAGAAACAAGCACGGACGCAAACACGAACTTCTCACAAAAGCCCTGCATTTGCTAAAGGCTGGCTGTAGTCCTGCTGTGCAAATGAAAATTA
AGGAACTCTATAGGCGGCGGTTCCCACAGAAAATCATGACGCCTGCAGACTTGTCCATCCCCAAYGTACATTCAAGTCCTATGCCAGCAACTTTGTCTCC
ATCTACCATTCCACAACTCACTTACGATGGTCACCCTGCATCATCGCCATTACTCCCTGTTTCTCTTCTGGGACCTAAACATGAACTGGAACTCCCACAT
CTTACATCAGCTCTTCACCCAGTCCATCCGGATATAAAACTTCAAAAATTACCATTTTATGATTTACTGGATGAACTGATAAAACCCACCAGTCTAGGTA
AGATTATTGTATGATAGTATTTGGTTACTTTTGCAGGATGAATTTTCGTTTTAGGCTTTTACTTTGACCCAGTTTATTATTCATAATGAAATTTTCATTT
GATAGTAACAGCTGGATAATAATGAAGATCTTTCAAATTTAGATAAAATCAAATATATAAAAGCTGTCTTTCAGGAAAAAAGGTAGTATAGTGATGGTTA
CTGACAAAGTAAATATTAAAAAGTTTCAAGAATATAAACTTCCAAAGAGTAGTATTTTAGAAGGTTGATTAATATTTTATAATATCTCATAAATTAAATT
AAAACCAAATGAATCACTACAAGTCTCTGATTAGTTCTTAATTTTCAGGGGTTGATGATCTCTAAAACAAATCACTGACTAGTTTTGATTATTTAAATGA
GTGAATGGTTTTAATGATCATAAAAGGAGACTTGAGCTTTGATGTATGCTAGTTAAATTTCAGCTGATTTTTTTCAAGTGGAGAAGTGCATGCTTTACAG
GCATGCACATGCACATGCACACTCATGATTRCGGTTATATAATATAAGTGCTTGAAATTTATTTTACTGTGTTGTTCCATCATTTGATTTGTAGTCTAGC
ATATAGAATTCAATATATTAATCAACTTGTAATTTTAATTGCTATAATGCTACCTTATTTATTTAACGTAGAATAAAACTCAACTGTTGTGACCTCTGAT
GCCTTTGGTATAATATATTTAAAATATCAGACTTCTAAATGCTGGTTTGTTGGCATACTACGGCTGGCAAGCTAAGTCCAGTCTGTGGCCTGTTTTTATG
TGGTTCTGAGCTAAGAAATCTGAAAAATATTCCCAAAGAGTTATTAACAAAAAAGGAAAGAAACAAAAACAAAGAATGTGTAACGGAGACCATGTGTGCC
TGTAAAGCACAAAATATTTACCCGTATAGTAAAAGCTTGTGAATCCCTGTTACAGATCATTGAACATTTCAGTTTGGGGGACTGGCAAGTGTTGAGAACA
TTTTTTGCGAATTTTTGAGAACATTTTGAAAATGTTTACTGAAATTCTATCTTTGAAATATGAAGTGTTTGTTTTTAATTATATTTAGCAGAAATTATCT
GAATACACGAAGATTATAGGAGTCATTTTCAAACAACGTGAGTTTTGTATCACATTATTTTATTTTTTAAGTGGCCATAATAAGAAAACATTTTTTGAGA
ATCTACTGTATGCTTATAAAACTGACACATGCTCATTGTAAAAAATGGAATTGCCAAAGTTCCTTCCTTGTTAGCTGTTTAGTGTGTATGCATATATAGT
ATAAGCAAATTGTTTCTTGTTTTTTACAGAAGGAATCATATACATAGTATTGTATAACTTCCCTTTTTTCCCCTTAATAATATATCATAAGCATCTTTTC
TTGTCTGTCTGATTATGTGTGTGTATATATATATATATATATATATATATATATATATATATATATATCCCATTTTAAATTAAAGGCCATATCTGTATCT
ATCCATATCTCTGTATATGGTCTGTGTACATGTATGTATGTGTACATATGTGTTATGTATTGATCAGTTGATGAAAACGTTGTGACCAGGGGCTTGCAGG
AACCTAACCCTATACTTCCCCTGGTAGCAGTGATTATATATTCGCAAATTCAGTGTTTGTGGTGATTTTATGAACATAAATGTCACAAATAGCAATAATT
GACTATATTTGAAGTATGATTTGAATGCCAGTTTTCATGAATAAATCTGCTGTTTGTGGTATGTATTCACAGAAAGTCACCAAATGAATAGGTGGTATAG
AATTGCTTAGTGATATGTAAATAGATTTTCAGTATCTCATCGTTATAGAATTAAAAACAAACCAATTTAATATGCATAAAAAGATCTCACCACAAAGTAA
TTTGTGGAAGTTTATTGGCTCAATAAATATTTGTTGAAGGGCAATGCTTATTGAATGTGAAAAATATTTATTGAAAAAAGATTTTATGTAATTAGTCTTC
AGGGTGTARGATGAGTATATTTTAAGGCTCTGTTTTTATAAATTCTTTAACATTATTAAGACTTTTTCTGTACTTCATTAAATGAAGTGGCTACATTTGT
CACATAACTTAGTTTCCTAAATGATTATTTTTGCCGGTAGTTCATTTGTTTTAAATCTAAGAAAACCACGTTTTCTGGAAAATTAAATAGCTTCCAGCAT
TCTCTTCATTTCTAAACGTACATACATTTAAAATCAAGTTTTTGAGAACATAGTTTCGAACACCAGCTGGCTAGTTGATCACAACTATCACTGAGTCCAG
AATGGGACAGGCACATTTACTTTTTCATTTTTTCCCTTCCATTGTGGCCTTAAGCACTAGATTTAAACAGATYTTAAGATGTTCAAATGTAAACTGAATG
TTTTTATGCATGGTTTTGTATTTCTAACTAAAATGGAAGACAGTAGTTCTGATAATTCCCATTTTATTAGGTAATTCTCATTCATTCTTACGATCATTTT
GTTATTTCTTTAAAACAATTTAAAATAATTTTAAGGMCTTTATTTTGGAGCCATAATTAAAGTATTCTTTTCATTGTCCATAATTAACTGTAAGAATTGA
GAGGTGAAGTAAAAGGTGGTTGTAAAGTAAGATGTTTAATTTATTGTTTACTTTGGCCTCTCATTATCTCAATTCTGTTTGTTTCTATGAGGCTTATTTC
AAATGCTTTTTTTCTTTAACCTTTTTCATTTATCTTTCTAGGCTGTCCTCCTTTCATCTGTACATTTCTTCCCCAGCCAGAATCAATTTCACTTTCCCTG
CATGCTCTCATAACATTTATTTTTTATTTTTATTTTTTTGAGACAGAGCCCCATTCTGTAGCCCAGGCTGGAGTGCAGTGGCACAATCTAGGCTCACTGC
AACCTCCGCCCCACTGGGTTCAAGTGATTTTCATGCTTCATCCTCCCAAGTGGCTGAGACTTACAGGCACGTGCCACCATGCCCGACTAATTTTGTATTT
TTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGGTGGTCTTGAGCTCCTGACCTCAGTTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAG
GTGTGAGCCACTGCACCCGGCCTCATAACATTTATTTTTTAAATTTTATTTTATTTTATTATTTGAGACAGGGTCTTGCTCTGTTGCCCAGGCTGGAGTG
CACTGGCACAATCTCAGCTCACTGCAACCTCTGTCTTTCCGGCTGAAGCAGTTCTGCCACCTCAGCCTCCCCAGTAGCTCAGACTACAGACACGTGCCAC
CATGACTGGCTAATTTTAGTATTTTTAGTAGAGTCAGGGTCTCATCATGTCAGCCAGGCTGGTCTCGAACTCCTGGACTCAAGTGATCTTCCCACCTTGG
CCTCCCAAAGTGCTAGGATTACAGGCGTCAGCCACCACACCCAACTTAAATTGTATTTAATAATAATAATAATTATTATTATTTTTTGAGACAGGGTTTC
GCTCTGTCATCCAGGCTGGAATGTGGCGGCGAGATCTTGGTTTGCTGTGGCCTTAACCTCCCCGGCTCATGCAATTTTCCCAACTCAGCCTCCCAAGTAG
TTGAGACCACAGGCATGCACCACCACACCTGGCTGATTTTTGTTTTTATGTTTTGTAGAGTTGAGGTCTCATTATGTTGCCCAGGCTGTCCTAACATTTA
ATTTACCCTTTATTAAATGTTTTTGTTTTGTTCCTCAAAATGATAAGGCTTTTGAGGCATTTATCTATAAATCCCTATAATAGCTAGATATGAACCTGTT
ACATGGTAGTTCAGTAAACATTTATTAGCTCTCCAACTCGTTTTAATGCAGTAGATGGAATCTTTTATTTCATTTTAATTCAGTGGATTTTAACCATTTT
ACCTTGCAAACACAACTGAGCCATACCACACTCTGTAATTACAAACAGTGGCTATGATAGGGATGGGAAATAGAGTAGGGAAGAATGGTATTCTTCCTCT
TATTGCCCTATCCTGTCATCTCTGAGGTTAATTGATGTCTTTGAAATTTAATATACTCCATTTAAAAAAAAWTTTCCCTAATTACAAAAATGTTATGTTT
AATGTAGAATCCATAGAAATTATAATTACTTGCTTACTTTACAGATAAACTTTTAAAATACTTCTGTGGTATTCTTTTTGTTAGTCATTTACRGGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTCTGGTTTCATTTTGAAGGAGAGGAGAACCTCACTAGCTCACRTAACCTGGCAGCCGCA
TGTATTATTGATCCATATAAATAATGGAAGAAAATTTTAATCTTGATAGGAYGTTGAGCACATGTGTTAAGGGGTACTTTGTTTGAAATACCTTATTGCT
TAGTGTGCCAATATTGGTGTTGATGAGGTGTGAAATTTACATAATTATGAAAATAAAAGGAAAAATAATTTTGGATTAAAATATCTTGTCCATTCAGGGA
CAAGATAATTATTTGATATTTCCTCTCAATCCTTTAATATTGTTTTGTTTAGAATAATACCTGTATCATTCAAAATAGTTTATAATATTGTTTATAGTTA
TTGTTTAAATTGGCTTTGTTAGAACATAATGGCAAAAACACAGAATACTTTCATGGTAAATAAAATAATAGTTCTTTAGGATACAGTATTTGATTTGATT
CAGACTTAAGTATAAACAAATCTATTAATAGATTTATATTTGTTACTAGTTTAGCTATTTATATCTTCCTTGACTCAGGTAAATTTTCAAATAGAAAATA
CATTTTTAACATAGTGCTTTTAAATATTTTTAATATTTTTAATTATTTCAAAGGCCAACATGTATAGAACAGAGAGCTTTGCATTCATTTGGACTACAGA
TACTCCTCTGGTTATGTCCCAATAAATCCATCATAAATTGAAAATATCCAAAGTCAGAAATGCACTTAATACACTTAACCTACCAAACATGATAGGTTAG
CTTAACCTACCTTAAATGTGTCTAAAACACTTACATTAGCTGACATAACATCTAACACAAGTCCTGTTTTATAATTAAGTATTGAATAGCTCATGTAATT
TATTGAATATCGTACTGAAGTGAAAAACAGAATGGTTTTGTTACCAACAGAATGGTTGTGTAGGTACTCGAAGTAATTTCTACTGAATACCTATTGTTTT
CTTACCACCGTGAAGTTGGAAAATTGTTAAGTCGAGCCATCTGTAGTCATATAAAAGTATGGTGACTCATCTTGTTTGCTTTATATGAGATTGAAGTCAA
ATTTTACCTTCTCAGGGGATGTCTTTTCAAGTTTTTAAATATCTCAGGCAATATATCTGAATAAGTTCACATCATATGTCTTTATTGATTAGAGATTTCT
CATTGATTGGTATGAGGCATAATAATTATTGACTATGAGTGTTACTTATTTTTTTTCTTTTTTTTTCCGAGATGGTCTCGCTGTATTGCCCAGGCTGGAG
TGCAGTGGCACATTCTTGGCTCACTGCAACCTCCGCTTCCTGGCTCAAGCGATCCTCCCACCTCGCCTCCTGAGTAGCTGGGACGACAGGCAGGAGCAAC
CATGCCTGGCTCATTTTTGCATTTTTTGTAGAGACGGAGTTTTGTCATGTTGGCCAGGCTTGTCTTGAACTTCTGATCTCAAAGCAGTCCGCTCACCTCA
GCCTCTCAAAGTGCTAGGATTACAGGTGTGAGCCACCGCACCCAGCTGACTATGAGTGTTATTTCTAATGTTCTAATTCAATGTTCTTCTACTTGATTAC
TGAAGGATAGAATATCTCCTTGCTGTGGTCYGAATGTGTCCCTCACAAATTCAAATGTTGAAACCTAATTCCCAATGCAATAGTGTTAAGAGGTGGGGCC
TTTAGCAGGTGATTAGGTAATGAGGGCGTGGCCCTTATGGATGAGATTAATGCCTCTTATAAAAGAGGCTCCAAGGAGCTTGTTTGCCCCCTTTCATTTG
CCCCCTTTCACCCTGTGAGGACACAGCTAAAAGGTGCTGTCTATGAGGAATAGGCCTCACCAGACACAAAATCTGCAGATGCCTTGATCTTGGACTTCCC
AGCTTCCAGAACTGTGAGAAATAAATTTCTGTTGTTTATAAATTATCCAGTCTGAGGTATTTTGTTATAGCTGCCCAAATGGATTAAGATACTCCTTTTA
GCCAATCTAGTTGAAACCAGTAGTGAATTGATAAAAAGTGATACATAAGTTAAACATCTTACTTTAATGTATATTTATTTGCCAATCTTTTGATGTTGGT
CAAGGCCTTTTCTTTGACAGTGATGACTTCGCAGTTTTAGATTATTTTAGCAAGAAGACTTAAAGGCTTTTATGAAGATATTTGAGTATAGAATCTGTTG
CGAATGGGGAAAAATCTTTTATAGTTGGCTTCATTGGCATTTTTTAAATAGCAACTTGGCTTTATCAGGTCTTTCCCAGAGCATTTAACTTAGTTTTCAT
GAAAACAGCAACTTTCTTTTTAGACTTACATTTTAGCAGCTTTTGTAATATTTAATTCAGTTTTGTAATTACAATTACAAGTGCAACTAACATAAGCAAG
TTTGAGAATAAACCTCTGGTTCTTGGTAAGCATACCACATGGTGTGAGCAGAATTGTGCGGAAGCACTGTAGAGTTGTCTACTGGCCACAGGCAGTTAGC
TTGGTAGGGCATTGGTCTGGATGTTCTATAAAGGGAATGGAGAGCATCAGTTAATCATAATATCAGTTAAGAGGGCTTCTACTGAATTTCTTTTGCGCCA
TTCTTCTTAAACTCCCCAAAGGCATTGAAATTAGAAGTTCATTTTCTTGCCTGAGAATAATTTAAGTGGTTTATTTTGTGGGGGAACAACATGGATCATA
ATTGTGGTTGAGTTTTAAAAGAAATCATTTAGCTCCCTTTACCCCTTTGAGAGGGTTATAATGGGGGGAAGGATTGGGAAAAGTAGAGAAGCAAATTATG
TTTTTTATCATACAGTTGTATGTTTTCTTTTCTCATCAAGCACAGTGACAGTAAATAATGAGTATAAAAATGAAATAATTTCCTAGTCATTTTTCCTTGT
CTGTTTTTTCACCAAAAATTATTTAAAATTTTGAAATTATCTGTAAAGATCACTGCCTTTTCTTGGTCCTCCTAAATTCTGAAAGTATCCTAATATTGTT
TAGAAAGTGTTTGGACGCTACAGACTGAAGAATCTGAAACATTGAGAAACACTTAAATTGACCACATGGGTGTCCTTCAATTTGTGATTAAACAAACTGT
GTTTTATTTTTTTCATTTTTAAGCCTGGGAAGGTGGCTTCTATTTAAATTTTGATGTTTATGAAACAATCTTTTCCATTAAACACCAAGAATGTCTATTT
TCTGGGCTATATATATATTTGAATTTTCCTGTGCTTTTTTAAAGGTACAGTTGTTCTTACTTGACATGGGATAGTATACCAATAATTCTGGAGAAGACCG
GCAACCTAGATGTGCTGGGCGTATAGTCTTAGTATTTAAGAAAACTAGATTGACCCTTTTTCCTATTTAAAGTAGAATATTTCTTTGGAGATATTTACAC
CTCTTTTAGGCTTGAGAAGATGTAGAAATAATTTATAGAAAATATTTGAAATATATATATATTTATATAAACTTGGGTTTTGCTCTAGGCAAAAAGGGAA
CAGATGCTTTAACACTCCTAAATAGTTAAAATGATCCATCAGGTTTTGTGCAGTGTGGGTAAGGTTTCTGCTACATCTTAATAACATTGGTTACCAGTGT
TTTCTGCCAAGGGCTCCTCTGACATTGGATTATATTTCACAGTTTTCTTCTTTTCTCATTTTTTATAATTGAGTTTTCCTTTTTCCACATTCTTAATATC
CAGTGCCTGGAGATCAGGTGATACAAATTCAAGGACGCAGGCTCTGATAACTATTAGAAAGGGCATTCAAAGGTTTTATGATTCATTCTACTCTACTTTT
AGATAATTCAGCATAAACTGTGCTCCTCTATACTTGAATTTTGGGAAATCAAGAGCACTAATTTTTCTGTAGGTGGGTTTCTTTGGAAATTTTTCTCCCT
AATTGGCAGCACTGGTTTCTGACCTTCAAAATGAAGTCTAACACTTACCTGCTAAGTCGTACATTCCTTTATAGATAATATTCTGTCTTTTTATCTGGTG
ATTTTAATGTAATAGTCGTGTTTGTATAGTTGTCCAGAATTCCCCAAGGCATCCAGTATTTTTGATAAATGGATGTCTGTGTACTTGAGTGTGATCTTGG
GAACTAAGAATGATTGGCTTTTTTGGGTTTGGAAAGGAATCTTAACCATTAGAATCAGTGAAAGAACCACTCTATACAATTATAATTATGAAATAATTTT
TTTTAATTGAGAGATTAAGGAGCCAAACACTTAGGGTCAGAAGTAAGTACAGTTTATCAAAGAAATCCAACATTTAAGATCTTACTGGGATCGAATTTAA
AGATCAGACATCTAGTATAATACTGTATAGTGTTTGAAATGCAGCATTTCAGAATTTAACAGCGAATTCTGCCGTGCTTCGCTCAGCCTCCTGTGCACAA
ATTGGGTTGCCATGAGTTTGCATGGCAGCCAGCTGGAGGACTTGGTTGTGGTAATCATGGGGCATGTGGTCATCATGGGGTAGATAGGATAATGTAACAA
AAGGGAGAATCTAATTTTGGCGATCATTTCTTTCTTTCTTTTAAAAAAAAGACGTTTTGTTGACACATAGCTGGGTGTTTGGAAAATAATTTTAAGACAT
TCTTTTTTTTTTTTTTTTTTCTGGAGATGGAGTCTCGCTCTGTCACCCAGGTTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACTTCTGCCTCCCGG
GTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCCACTGCCACGCCTGGCTCATTTTTTGTATTTTCGTAGAGACAGGGTT
TCATCATGTTGCCCAGGCTGGTCCCAAAATCTTGAGCTCAGGCAGTCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCACGCC
TGGCCCATTCTTTTTCTTCATTCCTGACAGTGCTTGCAGCAGACCCCAATAGCTCTGGGCAGAGATTAGTTATTGTAATTCTTTGGCACTACTCTTGGCT
AAATTTATTAAAACTGAAATGTAAATAAGCTTTAGATGTGCCAAAGATGGAGATATTACAGTACAAAAGAAACCGAATGTTGGATGTAGTATTATAATTA
AATCACTTTAAGATAGGTAAAAATAAAAAGCCTGAATTGTTGAAAAAACAAATAAATTAGTTTATTATCTCTATATGTCCTTTCAAGATAATCTGCAGTT
CCTAGAATTTTATTTAAATGTTTATTTTGAAACTATATGTTTGAATAAAAACTGAAGACTGTCCTTTTTCCATTGTGTGGTTTTGACAGCCTTGTCAGAG
ATCATTTGGCTATGTATGTGTGAGGGTTTGTTTCTGGGCTCACTATTCTGTTCCATTGGTCTGTATGTCTTTATGTCAAGACCACACTGTTTTGATTACT
GTAGCTTTGTAATACGTTTTGAAATAAGGAAGTGTGAGGCTTGCAGTTTTGTTCTTTTTCAAGATTGTTTTTGCTTTTGGGAGTCCCTTGAGATTTTATA
TCAACTTTAGGATTTTTTTTTTTTTTACTATTTTTGCAAAAGATACCATTGAGATTTTGATAAAGATTACATTAAATCTGTAGATTGCTTTGAGTATTAT
GGACATTTAAACAATATTGTTTTTGATTCATGAGCATTATCCTTTTTTTTATATTTTTAATTTCTTTCAGAAATGTTTTGTAGTTTTCAGTGTACATGTC
TTTTGCCTCTTTGGTCAAGTTTATTCCTAAGTATTTTATCCTTCTTGATGCTACTGAAAATTGAATTGTTAAGTTCCTTTTCAGTGTGTTCATTGTTTGT
GTATGGAAACAGGACTCATTTTTTGTGTGTCGATTTTGTATCCTGCAGTTTTCCTGTTTGTTTCTTAGTTCTAATATTTTTTTTCTTTTGCATGAAACTT
TTAGAGTTTTCTACATACGTCATGTCATCTGTGAACAGAGATTAATTTTACTTCTTTTTAAATTTGAATGCCTTTCATTTTTTTGTGTGTGTGTAATTGC
TCTGGCTAGTACTTCTAGTACTATGTTGAGTAGAAGTGGCAAGAATTGCCTTGTTCCTGATCTTAGAGGAAAAGCTTTCAGTCATTCACCATTGAATGTG
ATGTTAGTGGTGGGTTTTTCATATATGGTCTTCATTATGTTGAGATAGTTTCCTTCCATTCCTAGTTGAGTGTTTTTTATCATGAAATGTTGTTGAAACT
TGTCAAATGTCTTTTCTACATCCATTCAGATGATCATGTAGTTTTTTTCATTCTGTTAATGTGGTGTATTATATTGAATTTCATACACTGAACCATCCTT
GCATTCCAGGAATAAACCCCACTTGATCATTATGTAAAACCSTTTTCATATGCTATTGAATTTGAAGTGTAGATATTCTTTTCTTGTTCCTTAAGAAAAG
CATCTTGTCTTTCACCATTAAGTATAATGTTAGCTGTGGATTCTTTCATAGATGCCCTTCCTGTTGAGTTTTTTAATTATAAAAGCATGTTGTAATTAAT
TAATTAATTWATTTATTTATTTTTGAGACGGAGTTTTACTCTTGTCACCCAGGCTGGARTGCAATGGCATGATCTCAGTTCACTGCAACCTCTGCCTCCT
CAGTTCAAGTGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACGCACCACCACGCCCATCTAATTTTTGTATTTTTATTAAATGCGGGG
TTTCCCCACATTGGCCAGGCTGGTGTCGAACTCCTGAGCTCAGGTGATCTACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTG
CCCAGCCTGCATGTTGTAATTTATTAAATGCTTTTTCAACATCTGATGAGATGATTGTATAGTTTTTCCCATTATTCTATTAATATGGTGTCTAACACTG
ATTGCTTTTCATATATTAAACCAGTAGCTGTTGGATTTTGTCTGATTCCAGATGACCTATGCTACCTCCTAGAGGAGTAAATAACATTTTCCACTTCTGA
CATTTGTGGGGTTTTTTAATCAATTCTGAATTTTATTTTTGTTTACATGAGTATAGGGCTCTAATTTTATTTTTTTCCCAAAACTTCCTTTGAATATTAT
TCTAGATCTTACTCTGTTCCACTGGTCTAATTGTATACTTTTCTGCTAACATGGAATTATTGTATAGTTGACCCTTGAACAACAAGGGGATTGGGATGCC
ACCTTTGCAACACACACAGTCAAAAATTCACATGTAACTTTTGACTCCTCCAAAACTTTACTATAACCTATTGTTTACCAGAAGCCTTACCAATAACATA
AACAGTTGATTAACACGTATTTTGTATATGTATGTATTGTGTACTGTATTCTTACAGCAAAGTAAGCTAGAGAAAAGAAACTGTTACTAAGAAAATCATA
AGGAAAGAAAATATATTTACTATTAAGTGGATCATTATAAAGGTTTTCATACTTGTTATGTTTGCATTAAGTAGGCTAAAGGGGAGGAGTAATAGGAGGA
TTTTCATCTTGCTGTCTAAGAGGTGACAGAGGTGGAAGAAAATCTGTGTATAAATGGACCCACACAGTTAAAATCTGTGTTGTTCAAGGGTCAATTGTAC
TTAATTTTTTGATTGTTTTTAAATTTTTAAATAGATAATACATTGATGTACAAAACTCAAAAGTTACAAAAGGGTTTGCAATGAAAAGGAAGTCCCTCTT
TCACCCTTATTTCAGTCACAGGTGTTGCTTTCAGTTCTTTTTATATTTTTACTGGGGTAGCTGCTGCACCTACAAACAAACATATTTGCCTCATTCTTTT
TTAGCAGCTACTTAGTAGGCAATTGATTCGTTGGATTCTGTGTTATTAAATATTCCCCTGTTGGTCAACATTTGGGTAGTTTCTTGCTGTTGAAAACATT
GCTGTAGAGAATATTCTGTGATATATATCACTATGCACTTGTCTAAATATAGCCAGTAGTTTTATAATTCCTAGAAATAGAAAGTGCATCTAAATATTTT
TTGTAGATGTTGCCAAATTTCCCTCTAGAGAAAGGTGTGTTTGCTAATTTATAATCTTACAGGCTCTGTAAGAGACTGTTTTTTCCTCCTGTGCCTTCAA
CGATACCATGTGTTATTAAACTTTTTGATCATTCCAAATTAACAGCGAAAATTTATAACTCATTATAGTTTTAACTTGCACTTCTCTTATGGGTGAGGGT
GAAGTTTGTTGTTGTTGTTGTTGTTGTTTTTAAAAATATATTTTTTAAATTATAAAAGCACATCGTTATTTATTTATGAGCGGAGTTTTACTCTCGTCAC
TCAGGCTGGGTGACTATATATGTATATATATTTCTTTTTTTTTTTTTTACTCTTCAAAGTTCCTTGAGCTTTTTATTTTGAAATTTGGTGGTTGGGCTTT
TTACCCTTTTTTATAGACTTAAGAAATTTAGCACTTTGTGATATAAGTTGTGACTACTTTTTCCATTGTGATTGTCTTTTGAGTTTTTTTTATGATTGGT
GTTGCACATTAGCCATCAGTTCTTTTTTATTGCTAAGTAATGATTCATGGTATGGATATATCACAATTTCTCTAACTATTCGAATTATTTAAGAGCATTT
TGGTTGTTTACAGTTTCTGGCTATCATAAATAATGTTATCCTGAGTATTCATGTACAGGTGCTTGTATGGACATAAGTTTTCTTTTCTCCAAATACATGC
CCAGGAATGGAATTGCTGGGTCATATGTGTAAGTATATGGGTTTTTGGGGGTTTTTTTTTTGGGAGAAAATACCAAGTTGTCTTCCTGAGTGGCTGTACC
ACTTTCTGTTTCTTCTGGTATTGTATGAGAGGTCCAGTTTTTCTCTGTCTTTGCCAGCATATTTGTTATTGTCACTTTTTTTATTTTTAGATGTTTAAGT
ATGTATGTAGCGATAACTCATTTTGGTTTTAATTTACATTTTCCTAATGACTAATGATGTTGAACATCTTTCCACATACTTATTTGCCATCTGTCGACAT
ACTTATACTCTTTGGTGAAATGTCTGTGCATATTTTTCTCATTCTTTAATTGAATTACTTGTTTTTATRTTATTGACTTTTGAGAGTTCCTTTGCATATT
GTAGATACTAGTTTTAGTCAGAGATGTAGTTTGCAAATGTTTTCTTCCAGTCTGTAGCTTGTATTTCTTCGGGAAAAAAAAAAAAAACACCTTTTGATCT
TGAAATAATTACAGATTTGTAGGAAGTTGAGAAATGTATAGGAACATCCTGTGTACTCTTAACCTAGCCTTCTCCATTGTTAACATCTTTCTTAATATAG
TGCAGTATCCAAACTAGGACATAACATTGGTACAATACACAGAGCTTTTCAGATTTTATTAGTTGTATTTGCAGTCATGTGTATTTGTAGCTCTGTGCAG
ATTTATCACATGTAACTACCACCACAATAAAAGATACCTAACTGTCCTGTCACCCACAAGACTCCCTCTTGCTAACTTTTTGATAACCTCACCCACTCTC
TCTAGCCCCAGTGGTTCATCCAAGTTGCTGTGTATATCACTAGTTTGTTCCTTTTAAGGGGCGGGGAGGGGGGCGCTGAGAAGTATTCTATCATATAATG
TAGTTTCATTTGTTTAAACATTTACCAGCTGAAGAACATTAGTGTAGTTTTCTGTGTTTGGCTGTTAATGAATAAAATTACTATGAATATTCATATACAA
TTTCCTGTGCAAAAATAAATTTTTATATCTCTGGTAAATGCCCAAGGGTTATCAGTTGCTGGGCTGTATGGTAGTTTTAGTTTTAGTTTTAAAAGGTCTG
CAAAATTATTTTCCAGACTGACTGTATCATTTTACATTCCTAGCAGCCATGAATGAATGATCCAGTGTTTCTGCATCCTTGTCAGCATTTGATGCTATCA
CTATTTTTTAGTTTTGCCATTTTGATAGGAGTATAGTGATATCTCATTGTGTTTTGKTGKTGKTTTTGTTTTGTTTTTTTTTTTTGAGATAAGGTCTCGC
TCTGTCACCCAGGGTGGAGGGCAGTGGCATGATCATGGTTCCCTGCAGCCTCAACCTCCCTGGCTCAGGTGATCCTCCCGCCTCTCAAGCCTCCCAGGTA
GTCAGGACTACAGGCACACGCCACCACACCTGGCTAATTCTTTGTATTTTCTGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTG
GAGTCAAGTGATCTTCTCCCCTCAACCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCGTGGCTGGCCTTCATGGTGGTTTTAGTTTGCATTTCCCT
AATAGCTAATGATGTTGAACATCCTTTTATTTGTTTATTTGCCATCTGAATATCCTCTTCAGTGAAATATCTTTTTATGTCTTTTGKCTTTTCTAATTGC
AGTGTTTTTTTTTTTTTTTAACTTATGAGTTTTCAGAGTTCTTTCTAGATTCTAGATTCTAGTCCTTCGTTGGGTTTGTGGTTTGCAGATCTTTTCTCCT
GTGGTGTAACTTGTCTTTTTTTTTGTTTGTTTCCTTGTTTGTTTTTGACATGGGATCTCACTGTGTTGCTCAGGCTGCAGTGCAGTGGCTGTTCACAAGA
GTGATTATAGTTTACCTTAATCTCAAATTCCTGGGCTCGAGCAGCCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGATGCATGCCACTGCGCCT
GGCTTGTCTTCTTAATAGGATCTTTTTACATAGAACAAAATGTTTAATTTTGAGGAAGTCTCATTTACTGATTTGTTTCTTTGTTAGATTTGTGTTTTAG
GTTTCTAGTCTAACAACCCCACTTGCACACCCACCCCACTTTTTTGACTTGCTCTGTCACCCAGGCTGGAATGCAGTGGCATGTGATCATAGCTCACTGC
AGCCTTGAACTGCTGGGCTCAGGCAATCCTCCTGCCTCAGCCTTCTGAGTAGTTGAGACTACAGGTGTGTGCCATCGCGCCCAACTAATTTATTTTTTAC
TTTTTGTAGAGACGGGATCTGGTCTCATACTCCTGGCCTCAAGTGATCCTCCCACCCCAGCCTACCAAAACACTGAGATTATGGGCGTGAGCCACAGTGC
CTAGCCAAGTCAAAAACCTCTCTGCCTGACTTTAGATTTGGAGATTTTTTTTTCCTCGAAAGTTTTTATTTTTACATTTTACATTTAAATCTGTGATCCA
TTTGTTACTACTTTTTATAAGGTGTGAGATTGAGATTGAGCTTCATTTATGGAGATCTAACTGTTCTTAGACCCCTGTTGCAAAGGCCGTCCTCCTCCAT
TGAATTACTTTTGCATCTTTATCAACAATCATTGTCTGTACCTATGTGGGTCTCTTTCTGGGTCCTCTGTTCTGTTCCATTGATCAGTGTTTCTGTCTCC
CACCATTACCACATGGTCTTGATTACTATGTCAGACTATGTAATAAGTCATAAAATTAGGTAGAGTAATTGCTTTTACTTTGTTTAAATATTCTTCTAGT
TCTTTTGCCTTTCCACACAAATTTTAGAATTATCTTCTCGCTCTACAAATAGTCTTGCTGGGATTTTGATAGGAATTGCATTAAACCTGCATATCAATTT
AGGGATGATTAATAATTTTTCTATTTTGAGCCTTCCAGTATATGAACATGGTATGTTGCCATTTGTTTAGATCTTTTTTAAAATTTTATTCATCAGCATT
TTATAGTTTTCAGTATATAGTTCCCACACTTGTTTTGTTAGACCTGTACTTAAATATTTTGTTTTTTTCTGAGTGATTATATCTTGTGACCTTGCTGAGT
TCACTTATAGTTCTAGGAAGTTTTTTGTAAATTTGAGGGGTATTTCTTCATAGACTACCTTGTTTTCTGCAAACAGGGACAGTTTTTATTTCTTAACCAT
CTGCCTGCTGCCTTCCATTTATTTACTTTGCCTTATTGCTTTATGGCTCTAATAGAGTGTTGAATAATAGTGGTGACAGTGAACATCCTTCTTTGATTTT
TATTTCTTTTTTTTTTGAGACAGGGTCTCATTCTGTTGCCCAGGCTGGAGTATAGTAGCACAGTCTCGGCTCACTGCAACATCCGCCTCCTGGACTCAAG
TGATCTTCCTGCCTCAGCCTTCTGAGTAGCTGGGACTATAGGTGCGCACCACCACACCCAGATAATTTTCGTATTTTAGTAGAGATGGGGTTTCACTATG
TTGGCTAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCTGCCCGCCTCGCCCACCCAAAGAGCTAGGATTACAGGTGTGAGCCACTCTGCCTGACCCTT
CTTTGATTTTGATCTTAGGGGGAAAGCTTCAAGATAAAATGATATTTTTTTTTTCTGTGTTTAGGCTTTTGCCCTTGAATCTACCATGTTTTGTATTATT
ATCCTTTTTTTTTTTTAAGCTTTTCGTTAGCATTTGTCTGACATAAACTTTGTTCTTTTGTTTTCAACCTTTTGTGGTGTTTATTTTTGGGTTCTTTTTG
ATTTTTTGTTTTAAAATAGCTTTATTGACATATAATTCATATACCACAAAATATATTCCTTTAAAGTGTACAATTCATTGGTTTTACTATATCCACAGAG
TTGTGCAGCCACCATCACTATCAATTTTAGAACATTTTCATCACCCAGAAAAGAGCCTCTCTACCCATTATCAATCACTCTTTAGTGCCACCTCTCCCAT
CCCCTGAAACTACTAATACGGCATCTGTCTTTATAGATTTTCCTGTTTTGGACATCTCATATGAATGGAATCGTATGGTRTATGACCTTCCGTGACTGGC
TGTTTTCATTTAGAATGATGTTTTCAAGTTCATAAAGTTGTATRTGCCGAAACTTTGTTCTTTTTAATGGCCAAGTAATATTCCGTTATATGGATATACC
ACATTTTGTTTATACATTCATCAGTTGATGGGCATCTGAGTTGTTTCCACTTTTTGGCTAATATGAATATTCGTGTATAATTTTTTGTGTGGAAATATGT
TTTCAATTCTTTTGGTTAAATACCTAGAACTAGAAATGCTGGCTCATATGGTAACTTTGTTTAACCTTTGAAGAACTGCCAGACTGTTTTCTAAAGCAGC
TGTAYCATTTATATTCCCACCAGTGATTTATGAGGATTCGCATTTCTCTCCACATCCTTACCAACACTTGTTATTATATGCCTTTTTTAATATAGTCATC
CTAGTGGGTGTGAAGTGACATCTCATTGTAGTAGATTTCTCTCTTACAAATAGCATGTACCTGGCTTTTTAAAAACTCAGTCTTAAAATTTAACTTACTC
TCATTTTATGCTAACGTTGTTACATTTGGTCTTTGTTCTGCCATCTTAATTTGTTGTCTGTCATTTTTTTCTGACCTCTGTGATATGAATTATACTTTGT
TTCTCTTTTATTTTSTAATGGTTTGGGAGTTCTGCCTTCTATTTCTGTAGGTAGTTACTATTGAAATTTTACCCAACACATTTAAGCCTAAATTTTACTA
CCAACATCAACAACTTTTAAGAGTAATTACTGTGTCTTGCCTCTTCTCCTCTTCACTAATTTATTCTATCAGACATGTATTCATAGTTGTTTCTTCAAAA
TTCATATTAACCACAGAGAGACAAATATTTCGTGTTCTCACTTATATGTGGGAGCTAAAAACAATTGATCTCATGGAGGTAGTGATGATGGTGGTTACCA
GAGGGAGACTGTAGTTAATAAGAATTTATTATGTATTTCAAAATAGCCAGAAGAGAAGATATGATGTGTTCCTAGCACAAAGAAATGATAAATGTTTGAG
GTGATGGATATCCTAGTTACCCTAATTTAATCATTGCACATTGTATGCATGTACAAAAATACATATTCCATAAATATGTACAGCAATTATGTAACAAAGT
TTACATAAGGGTCTCTGACAGAAGAAGCATTTTCCCACATTGCATAGTGACAGCCAAAATCTTAATAGGTACAATAATTAAAGTTATGAAAGAATTGCTA
TTGAATGAAGAAAATATTTGTCTTTAGTGCTTTACTTTAGATTATTTTGAGAGGACTATAGTGTATAGCTAAGAAGCAATCATTCAACTCAGGGTAGGTG
GGTTAGGTTTAAGAAAATCTGATGACTCCATTGAGAATTGTATTAAAGCTCAGCCAAGAGAGCTGAGCTGTAACAATATTTAATTTGCCACATTGCAGTT
TCATCCATCTAGAAGTGTAGGAAATTCAGGTTTTCAGGTTCACTCAGGATATGAATTGTTAACTTCCTCTTAGCAGAGATAATATATTACTATTTACCAG
ATAATCTTAATACTCTAACTTATATTTTTACTTCAGAAGTTTTTCTAGAATTTATCTAGGTTACTTTTAGATAAGTAAATCAGGCCATTTGTTTGTATTT
ATTATTGGTATATTTCTGTATAATTTCCTTATGCCTGTGTAGATCGTGGAGTTCTTTTGAAGTCAATTTCAAGTCAAGATTATATTTATGTACATGATTT
TTTTCTCATATTTCTCACTTTCCCACCATATGATCTAGGTTTGCTACATCAGAATTGGAGAGTGACATTTAACTTAGTGTTTCCGGAATAAAGAATCTGG
AGCTTTTACTACCCCATAAGTAATCTATTTTAGCCTTTCTAAGTCTGCAGCTTCCTTTCACTTTGCTTTCCAATCTAGCATTTCACCTCTAGTTTTACCC
CAGTTATGCTTTATAGATTAAACCTCTGAAATGTGTTTAATCTGTATGAAATGAAATTATAGCTGGGCACAGTGGTGCACACCTGTAGTCCCAGCTACTT
GGGAGGCTGAGCATGAGAGTCGGTTGAGCCCAGGAGTTCCAAACCAGCCTGGGCAACATAGCAAAACGCCATCTCTAAAAAAAATTTTTTTTAAATAAAT
AACTAACAGTAACCTTAAAATGAAATTATGGTTCTTAATGATAGTGGCTTGTTACATCTCTTATAGCCCCACATAGGTTAGATTTTTCAATATAAAATTA
GAGGATAGGCACATTCTTTCTTTTTAGATGCTTAAGAAATTACCTCACATAAACATTTTACCATTTAAAAAATGATGTTTACCAGTCCATTTCAGTTCTT
CAACTGAGGTCCATTATAAAATATACTACTTTTGCTGTATACCAAGCTACAGTTGTAGATATTGATTCAAGTAAAGGTGATACTTCCTCTTCCAGTTGAT
TTTTATACTCTTAATTTGTGTATACATACATTTTCACACATGAATATGTGTGTGTAAGAGACAGAGTGCATTCATTTGCACCCAGGGTTGGAGGAAAGAA
GAGAAAGAAATGAGAATATGTATATTGGAGATACTTGGCTATTTGTACCTCACCTGCCCATGAAGGCTAAAAATGGATGGTTAAACACCTGTCTCTGTGC
TCATGATGAAAATGACCTTTGCAAAAAAAAAAAAAAAAAAAAGAATAAACAAAAGAAACACAAACAAAAAAACTTTAGAAAATAACCTTTGCTTCTAGAC
CTTCTAAATTTTTCTGAATGGAGAGTTTTGTGGTTTCCAAAAGTGAAATAGTAGAAGCAGGAAGAAAATATTCTCTTACCTAGGTGCAAAACTGGCCCAG
GCCAAATTCTAATAGACACTTGCCTTTGGCAGTCTCCCAGTTGTCTCTCTTCATGTTTCCCCCACCTTTGTCTGCCCSCTCCTTAGTTGTGTGTTGAGCT
CCTCACTGTGCCATTTTCCTCAGGTCTGTAGACATGCCTCTTCTTATRCCCCACAAAATCCCCTCCAGTTTCCTCCTAATATTATCTATAAAGCAGAAGA
AAATAGCCTGATCTGTAGAGTGAAGGGGGATTAGGCTCTAACGTCAGTGTATTAGCCCTACTGCTGAAAATTCCTGAAATTCTTAATCGATTACAATAGT
GTTCCATACTTAAATACAGCACAGCAAGCTTTTCTCCAGCATTGTGTTGGATCGCTGTTTCTTTGGTTGAACACAGATGATGTTGGGTTATATTTAGGGG
CCACATAGTTTGAAAATAATTCATGAGTGTTTAAAAGACTAGCATATTCAGCATGGTAAGATGCACTCGTGAGGAGATGGGACCCTTTGTACTTCCTAGA
GTACAAAGAAACACTGACCTAGAGAACCATATTCTAAGAAGTCTACTTTTGTTTAAGCATTTTTCTGGGTCAGCTCCAGTAAATGAATCTTGCTATTCAT
AATATTTCTTCTTCTGAACCTATAGGTTTTTAACTTAGGGATGAGAGTCCAGGATAGTAGCTATTTGTACATGTTTGCTTATTTTCAATTTATGTGTTTG
TTAGGGATTGTCCATTAACTTACAGCTGTTTTCACTCTGATCATTGTTCCTAGCAAGTATGCTTAGGTATGGTCTCACTTCCTATCACCTCACTCTAATG
AGTCCTCTTAATCCTTATCAGAAGGAAATTCCATTTCTTCTTAGGGGAAAGTGACCATAATAGTGTGTAAGATTGAGTTACCTTAAGTTGTATATTTCAG
AAGTATAAATCAATATTTACTCAAATGCCTGGAACTTCTGGTTCATCTGTTGTGAATATAAAACCACTTATGGGCAAATGTTAAGTGTCTAGTATTTATA
CCAGATATTTATAGTCTTTGGAGCCTTTCCTAGGATCATGAATTTAGGCTGCTACTCAATTTTTAATACTTTACCCTTATACTTTCATTTGAAAAAGAAA
TGATTGTTTAGAATGGATTTGAAAGTGTCTATTAAACTATATCTAAGAGCAATTATAAAACTAATAATGTGTGATGAAAGATAAGATGGTCATCAGTTAT
AAACAGGAAAAAAGCTGATGGTAAATACTTATGCTTATACTTAGCTAGATAAAACACACATTTAAGAAAAAAAAAAACTCTAAATATACAGTTACTTTGT
TCCTATATATACCACCAGTAAATACGATACATGGTTTGTAGGTAGTGAAATATTATTTTAAATGATTTTTCTTTCTAGAATTAGAGTATAGCCAGAAACT
ATTAACTAATCTTGTACAAGAAAACTACTAGAAAATCAACAGTGAGGAAGAGTTAGAATTAATTAAAATCTACCTAAAACTAGCATAAGCATAAAAGCTA
ATCCATCAATTTATATAACCAAAGATTAAGGAGCTTGATGCAGAGCTCAATGAACATCACCATAATCTTTTTCTTGACTCTCCATTTCTCTTGCCAGCCC
CTGCCACATTGCTTGGATCCTCAGCGTGGCAAAATTCCATAGATAAGTTTTCTGTAGTCACTGTCTCCAGTTCCTTACCTTTCATTCTCCTGTAAGTCTA
CTCCAGTCATGCTTTTGCTTCATTCAATCCACTGAAACTTCTCTTGTCAAGAACACCTGTGATGCCAAACCCCATGATCTGTTCYYAGTCTCCAGGTTCC
TTGATCTRTTAGTACTWGACACAGTTGATGAGGTTCTCCTGCTTGTGCACTTTGTCACTTGACTTCCAGGATTCCACACTCTCTTGATTTTCCTCCTATC
ATGCTAGTCATTTCTTCTTAGATGTCTTTCCTCGTTCTTCCTCTTCTCTTCTCACACTCACTCCCTTGATGATTTGAACTAGTCTCAAGGCCTTAAATAG
TAATTAAACACTGAGGACCCTAAATTTATATCTCAAGACCTCTCTCATGAGTTCTGGAGTTTCATCCGACTGCCTGCTTTATATCACCATTCATATAGCT
ATCTCACACTTAACCTGTCTAAAACAACTTTTTTTCTTCTTCCAAAATGAAGTCTACCCTCAGTATTCTCCCTTTTGGTTAAGAGTATCTTCATCCTTTT
TGTTGCTCAAGTCAAAAACTCTGGAGTTATCCTGACTCTTCTCTTTTGTTATGTTCCAGTTTCATTAGTTAGGATGTTTTATTGGCTCCACCCTTAAAGT
ATATCTAGAATCTGACCATTCTCATGACCTTTACTGCTACTATGCTTATCTGAGCCACCATTATCTCTCACCTGGATTATTATGTTAATCTCTGTGCCTA
CCTTTGTTCCCTGTATAATATTCTGAATTTAGTAGCCAGAGTGATACTTTTAAATAAAAGCTAATCATGTTACTCCTCTGTTTAAAACTCTCCATTTGCC
TGGCCATCTTTGTTACCTGTCTGATATCATCATCTATAACTATTCTTTCTGTTACCTTGACTCTAACAACACTGGTCTACTTGCTGTTTCTCAGATACTG
TGTATGCTCTTGTCTTGGGCCTTGGCATGAGTGTTTTCTTTACCTGGAATACTCATCCCACAAACATTCACGTGGCCATCTCCTTCATCTTCTTCTAGTC
AAGGTATTAATATKTCTGATGAGACACCTACCCTGACTACCCTATTCTTTCCAATTCCCATTACACTGCCCTATTATTTCCATAACATTGTCAGCATCTG
ACATACTTTACTATGTGTATTATTTATTTTCTTTCTCTTCTCATTACAGTGTAAATGCCATAAGGGCAGTGGTTTGGGTCTCTTGTTTATTGAAGTATGC
TAAGCACCTAGAATATTATTTTACATATACTAGGTACTCAGTAAATATTAGTTGAGTAAATATTTGTAGAACAGATTCATTTCATATTCTCCATTTTGTG
GTTCTGCTTCCTTTATGTCAAGACCATGTTTAGGCATTATATGGGTCCCAGAAGTTCCTGAAAACCCTCCAGATTCAAATCTAGCCAGAAAGAGGATAAA
TCTTTGTCCTAGCATTCCCAGGAAAAAGACTGAGGTTCACTAAACTATTTTAAAATGCCTTATTCAGCCCTTGACCAGTCAGCCCTGGCCAGGAGAAACG
CAAAACTCTTTTTGGCCTAGACTTGAAAGTTGGTCATATGTTCCAAGTCTGAAACTAGAGGTAAAGATACAAACAAAAATGTCTATTCAGGGAATTAGAA
GCTACTGAATAAGCACACAAGAAATGTCTACTCACTTTTRTATACCATTGGTTTACAACTGTGATCCTTGGTTACTGGCTGCATGGGATGTTAGTAGGTG
CTCTTTGACCATGCCCCATTAAGTTAAAAAACTTAAATTTAAACAATTTTTACTCCTGTGGAATTTCTCAATTTTTAATATGGTAATGTATTTTGTGAAT
CTCTAAGCCAGATATATTTTATGCATCAGTTTCCCCAAATTCTTTGAACATGAAACCGTTTTTCCTCCAGAATATCTCAAGGTATATTCTCATGCAGCTC
ACTATGAGAAATATTGGTATGTCCGCTAAGAATTAGAAAATTGAAGAAAAATCTCATGCAACAATAAAAAAGAAAACAAAAGAATACTTTTCAAATGTAC
AGGACCTATTTGAAGAAAAAATTTTTTACAGGCCCCCAAATATTTTAATATATAGAAAGACAGTCCTTTGAAAGATACTTACGGCTGGGTGCAGTGGTTC
ACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAAGGTCAGGAGTTCGAGACCAGCCCAGCCAACATGGTGAAACCCCATCTTT
ACTAAAAATAAAAAAATTAGCCCGGTGTGGTGGCGGGTACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAAACTGGGAGGCAGA
GGTTGCAGTGAGGCAAGATCGCACCATTGCACTCCAGCCTGGGCAACAACAGTGAAACTTCTTCTCCAAAAAGAAAAAAAAATTAGCTGGGCATGGTGGT
GCGTGCCTGTAGTCCCACCTACTCAAGAGGCTGAGGTGCAAGGATCACTTGAGCCTGGGGAGATCAAGGCTGCACTCCAGTCTGGGTGATAGAGTGGGAC
CCTGTCTCCAGAAAAAAAAAAGGTATTTATTCTCAATAAATTCTATGTAGTTGCAGTTTAAAATCTAGTTTAGTAGAGAGGGGTGTGACGGGAAGAGGAG
AACTTAATCAAATGATTCTAAAGTTTCATTTTGTTGTAGACTGTTTTTATTGCAAGAAAGCATAATACCTCAGGTTACCTAAGAAAAGTTTATTGTATTG
AATATATAGGGTTTAAAACCAGTATCAGACAGTTATGATATGTACTTTCTCTGGTTGGCTGTGTGCTTTTTTCTCTCCCTCTGTGGCATCCGTATATATT
TGTAAGCATCTGTTTTGTTTGCTTATGGTTATCTGCTCTTAGTCCCCATACTCCATACTCCAAATCTTGAATTAAACTGCTTTGGGTTGATTTTAGTTAA
TCTGTCRCTAATGGATGGATCCTTTTAGGCCTTCTCATTTTATTGATTGTCCAGAAGCCAGTAGATGGGCTATCCCTGGGAAAATTATGCTCCCTGATCC
TGTCAGCATCTGCTCAATCCTACTTCTGTGGTCAGAGGTAAGGGTTGGCAAGATTTAACTAGAAGGCGAAGTTGGGTGTGTTAGGCATCATGACTAAAAT
AATCTAGAAGAAAAAATAAGAATAGCCAGAGGAATTCTGAAAAGAGAGTATCTCTATATATTGCAGGGGTGTAGTAATTTAAGCTGTGGAACTGGTGCCT
GAATAAGCAGTTAATAAAGTAGAAATACAATTTTCAAATAACATAAAAGTGAAATTACTAATTAGAGGTATGAATTGGATGTTAAATTGTTCAGGAGTAC
CTAATTGGCCGTTAAAAAGTAAAATTCCTATCCTGCAATTTAACACTAATATCAAAATGGTTTAAAGATTTAAATGCTTAAAAATGAAATAGTATCAGAG
GAAAGTACAGGTTGCGTTGAAATAAATGCATAGATAATATTTAAATAATATTGAGGTGAGGAAGGAATTTTCCCTAGCGTAAAACTACTGAGAGTTCATT
AAGATTTTATTGTGGAGATTCAAAAAGAAAGGTTTATTATACTAAACGGGAAAATGAATAAACTAAGGGGGAATATTTGAAATATGACCATAGTACATAT
TTTAATATAGAAAGGACTGTTAGAAACAATTTGTGTGTGGATTGGGGGTGCTTAATCCTACCTGGCCATCATACAGTATTACCCTAGTCCATACACTCTC
CATACACTTTCTTAGGTGACTTTTSTATCTTATTCTCTTACTACATACTTCCAACAACTGTTGTTGAGCCGTAACTCTTTGGTGATTACTTTGYGTTTTA
TTTCTTCCTCACTGAGAAAATGGAACCAATCAGAAGATAACTTATAAAGGCTTCCACCAATATATACCTTATGCCCATGTGCCTACATCTCTGTCCGTTT
ACCGTATATGTTTTCTTCTGTAACTGAGGGTGAATGCTCTGGTATCTGTACTGAGACCAGATTCTACACTTGCACATTAGATCCTACTCACTTGCTTATT
CAAGGATATTGCTTAGTAATTCTTTCTCTGCTACATTATCAATTTTTTGCCTCTTTACTAGCTCAGTCCCCCATCTTAAAAAAACTACTTTTCTCCTAAT
TTCCCTCCAGCTACATCCCTATTTTCTTTTCCTTCACCACAAATTCCTTTCCAGAGATGTCTCAATTTACTGTCTTTGATTTCTTTCCTCCTTTCTCTCA
TGAACCCTTTCCAGGTAGGTTTTTGACTAGCTCATGCCAAAGAAACTGTTGTTATCTAGGTCRTCAGTGACCATTATACCACCAAAAAAAAGTAGTCATT
TCCCAGTTTGGAAGAATTAAATCTTTTTAAAAAATGTAAAGAATGCCTACTACAGCCTAATAGGGTGGTTCACAATACAGAAAAAGGCCAATAAGGGTAT
GAAAAGTAGTCAATTTCTAGAAAGTCAAAGAAATGCAAATTTAAGACAATAAGATGTTTCTTATTCACTGTCCAGTGTCGGCAAGGAAATCTAGAACTCT
CATATACCATTTGGTTATGCAAATGAAAATTGGTACATTTCTGGAAGCAATTTGACAATTTTTACRAGAGCTTTAARATTGTGTTCGTCTTTTGACTTGC
CCATTCTGTTTCTAAGAGTATGTCTCAGGGAAATAACACACAAATGCATGATGCATCCACCCACATACAACCAGGGAGGGAAGGATTCATCAAGGCATTA
ATTCTGGAAGGGAAACATGAAAATGACCTAAGTGTTTGACAATAGGAGATTGGTTAAAGTATGCTACATCTATATGGTAGAATACCAAGTAGCTACTTAA
AATGATGACATTGGTTTGTTTATTTATTTGAAATTATTTTAAACTTTTTTCACATCAAGTTGCCATTAAAGATATGTTTATTAACATGGAAAGACTTTAA
TATGTTTTAAGAAGTGTATTCAATGCAAATTTTGTGGGGAACAAAGTATATTACATGCATGTGGTTATATGTGTGCACATACATAGGTACATATCAATGT
ATGTATAGGAAAATGCCTAGAAGATTGTATACCAAAATGTTTTTCAGCTGCTGTCAAGTAGTACAATTTTAGATGTTCTTTTAAAACTTGGAATGCTTGC
ATTAACAACAACAAAAAAAGAAAATGAAAGTTTTGCAAAAGAAAGAAAATCAATATCCCAATTATAGTCTGCTTACTTTTTCTGGTTTTACATTCAAACA
TTGATCATTAGACTTGGTTCATAGCTGGCTGGCTTGAACTGACCCAGTCCTGTTTCATAACCCTGCTGGACTTAAAACAGCCTAATGGTCTGCCAGCTGT
GAGAGAATAGATGAGCCAGATAAAGTGTATTTACCATACTTTTAACTCCTGAGCTGCTTGGGAGTCTTTATAGACTCCTTTGATTAAGTCTACCAGGAGA
CCAGCTACTAACTCAGTAAACTAATCTGAGGAATAATGTAAAGTTAGAATAACTRGGATAGGTAGAGTTAAACTCCAGAGAAAAAAGGTGATGAAAAGTA
TAAGGCAAGCTTATTAAGGATGGGCTTATTAGGAACCTGATAAAAGGATGTGATAAAAATGAAATCAAAGGGTTTTACAGTGCTAAAGTTTAATAGTATT
ACATGTTGGAATTGTTTCCTGTTTCTTAGTATAGGTAATTTCTGTATGAATGGAAAATTCATGTGTAATTTTTGTTGTACTCCAAAGAACTTTAGCCACA
ATTTATTGTGAAATATTTGCAACCTTGAAAATTCAGAAATCTAGCAATAGGATCTCTCTCTGTCTCTCTCTTGCTCTAGCAAACGACTGCATATATTTCA
TMCACACACACACACACACACACACACACACWYATATACATGTATAGTATATTGGTTTTGTATAAGGTATAAAAAGCAAATTATTATAAAAACAATACAT
ATGCTCAATGTGAAGAATTTTGTAAATAAAAGTTACAAAGGAGTCAATTTTTGCTGCCTTTTTCAATCTTTCAACGCATAATATGTAAATTTGCTTATTT
ATGCTCTATACTTCATGTTTATATCTTGTCTTTTTCACTTAATATTTTATGACTGTATTCTCATATCATTAAGTATTCTTTCCTTTAAAAATTCCCATTT
AAAGATAGTCAAAGCAATATGAATTTGTTAATGATTTAGTATATGAATTGGAGAAAACATATTTTCTGCAGTCTTCTTTCTTAATGGGAGCTGACAGCCT
AATGATGAAACTATATCATTCCAGCTATATTTTAAAAAATTACATAGTTGTCAAGTTTTTGTTTGACTAAGTCAGAGGGTTCATTAAAGATTGTAAGGCT
GACATTCGTAGATAGGAACTTTAGTTTCACTTTCCCTAAGACAGCAAGAAATATTCTATAACAGAAAGATGACTATTTTTAGCTTTTCTTTCTGCTGGTG
AGGTGGAATAGCAAATATTTTTAGAGCAATTGAAAGTACAGCCTCTTAGATTAGCTCAGTGTTTCTATCATCAGAATCTCAATTATTTTATGTATCTAGA
TTTTTTTTTTACTTCCAATGTTTTGAGTTTATGTAAATTGCAACATGATTCGTCTTTTTATTTTTGATCTAGTTCGTTTCTCTGTGGAACAATATAAAAG
ATGAAATTTCTAAAACCTTAACTTTTCTTTCTGCACTTTTTATGTATTTTGAGTTGTAATTATATTCTGCTTATTGTGGGCAGTTCTCTTCTTTCTTGGA
GATGAAACTTTGATAATTRATACTTACGGGGAGATGGTGTTACAAATCTTCTCTCATAATAGGCTCTTAATATTCACAAGAGAGATCCCCCATGACCATT
GTAAGTACCCTTAATTATGAACACCACTAGAACATTTCATCTTTCCCCAAAACGATGCCATAGGATAAGTGAAAATTTGAGGGACTTCTGTTTTTACCCT
TAATGAAGGACATCTTGGTTGCTTCCAGGTTTTGGCAGTATAAATAAAGGTGCTGTAAGCATCCATGTGGAGGGCTTTATGTGGACATATGTTTTCAGCT
CCTTTAGGTAAATACTAAGGAGTGTGATTGTGGGACTATATGGTAAGAGTATGTTTAGCTTTGTAAGAAACTGTCAAACTCTCTTCCACAGTACATGGTG
CTATACTGTAAATGGTATTTTTTTTATTTCAGTTTCTGATTGTTTGCTGTTATTATATGGAAATACGACTGGTTTTTGTATAGCATCTTCACCTTGCTAA
ATTCGATTGTTCTAGAAGCGTTTTGTAGATTCTATTGAATTTTCTACATAGGTCATATTTTCTATGAATAGACAGTTTTACTCTTTTCCAGTCTTGATGC
ATTTTTCTTGCTTTATTGTGCTGGCAAGAACCTTCAGTATAATGTTGAATAGAAATGGTAAGAGTGGATGTCACTGCCTCATTCCTAATTTTTGAGGGAA
AACATTGATTCTTTCACGTCTCAGTAAAGTGTTTCCTGTAAATTTTCATAGCTGTCTATTATCGATTTGAAGATGTTTACTTCTATTCCTGGTTTCTGGA
GAGTGTTTATTAGGAATGGTTGTTGGGTTTTTGTCAAATGCGTTTTCCTCATCTATTGAGCTGTTAATATGGTGTTTCTTTTTTAGTGCGTTAATATGGT
GACTTGATTTTTGAATGGTGAACCAGCCTTGTATTTTTGCAACAAATCTCCCTTAGTTATGATAAATTATTGYTTTTCCATATGGTTGGATTTTATTTGC
TAAAGTTTTATTAAGAGTGTTTGCATTTATGTTCATGACAGGTAAATGGTTGGTAATTTTTTGTCTAATAAGGTCTTGGTCTCATTTTGGTACCAAAGTA
GTACTGGCTTCATAGAATGAGTTAAGCATTTCTTTCTTTTCCATTTTTTTTTGGCGAGGATGGGGAAGAGTTTGTGTAGAATCAATATTTTTTCTTGTCA
GGTAGAATTCTTCAGTGTTTTGAAAACATTTATGTAGGGTTGGTATTATTTTTTTCTTAAGTATTTGGTAGAAGTCCCCCGAGAATACACATGGGCCTAG
AGTTTTCTTTCAGAGAAGTTATCAAATTACAAATTCAGATTCTTGTAGGGCTATTCAGGTTATCTTTTTTCTTAAGTAAACTTTGGTAGTTTTTTGTCTT
AAGACATTTGTCCATTCTTGCTGAGTTATAAGTTTTTGTCATAAAGGTACGCCAAATATTAATAATATTCTCTTCACATCCATAGAATATGTAGTGATAT
AACCTCTTATTCCTGATATCGACAATCTATGTCTTTTCTTCTTTGTTCTCTTGATTAGTCTTGCTAGAGATTTCATTTTGATTTTCAAGAAGAAACCAGC
TTTTGGTGTCACTGATTTTTCTATATTTTTGTTTTTCAATTTGATTATTTTCTGCTCTGATCTTTATTATTTTCTTTCTCCTGATTCCTTTGGGTTTCAT
TTCTCTTCTCTTTTTTTAGTTTCTTAAGGTATAAACTGAAACCATTGATTTAAGACCTTTTTTTTCTAATATAGGCATTTTAGAGCTGTAAATTTCTCTC
TAAATACTGCTTTAGCTGTATCCCACAACTTGTGATATTTTTTGTTTTCGTTTTCATTCAGTTCAAAATATTTTGTAGTTTTCCTTTTGATATCTTTGAC
CCAGGGGTTATTTAGAAGTGTAATAGTTTCCAAATATTTGGGCATTTTCCTGATATAGTTCTTGTTTTTTAAACTAACACATAAAAATTGTACATATTTA
TGGCGTACAATGTGATGTTTCAGTACATGTATAAATTGTGTAGTGTTCAGGTCAGAATAATTTGCATGAGGCCTTAAACATTCATTGTCTGTTTGTGATG
AGGACATTGAAAAACCTCCCTTCTAGCGTTTTTTTGTTGTTGTTTTTGTTTTTTTGTTGCTGTTTCGTTTCTTGAGACAAAGTCTCATTCTGTCTTGCCC
AGGCTGGAGTACAGTGGCATGATACTGTTTCACTGCAGCCTCTGCCTCCCGGGTTCAAGTATTTCTCCTCCCTCAGCCTCCCGAGTAGCTGGGACTACAG
GTGTGCGCCACCACACCTGGCTAATTTGTATTTTTAGTAGAGTTGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCAC
CTGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCTGCCATGCCTGGCCCCTTCTTGCTATTTTGAAATATGCAATACATTATTGTTAACTCTA
GTTATGCTACCATGCGTTAGAACACGAGAATTTATCTATCTAACTGTAGCTTTGTACTTGTGGACCAATCTCTGCCTATTTCTCTTCCCTCTGTCCTCCC
CAGAGTTCTCGTACCCCTATTCTATTCTCTACTTCTGTGAGAACAGCCTTTCAGATTCCACATGTGGATGAAATCGTGAGATATTTGTCTTACTATGCAT
GGCCTATTTCACTTAATGTCTTCCAGGTTTATCCGTGTTGCCACAAAAGACAGGATTTTATTCTTTTTGTGGCTGAATAGTATTCTATCATGTCTCCATA
CCACATTTTCTTCATCCATTCGTCTCTCTGTGGACATTTAGGTTGATTTCATATCTTGCGATTGTGAGTAGTGCCACAATAAACATAGTTCAGATATCTT
TTTCACATGCTGATTTCATTTCCTTTGGGTGTATATCCAGTAGTGGGATTGCTAGATCATATGGTAGTTCTATTTTTAATTTTTTGAGAAACCTCCATAC
TGTTTTCAGTAATGACTGTACTAATTAACATTCCCACCATCATTATGTTAAGGGTTCCCTGTTCTCCTTATCCTTACCAACACTTGTCTTCTGGTTTTGT
GTAGAGTCAGAGTAGGCCAGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGCGGGGCAGATCACCTGAGGTCAGGAGTTTGGG
ACCAGCTTGGTCAACATGGTGAAATCCTGCCTCTACAAAAATTAGCCAGATGTGGTGGTGTGCACCTGTAGTCCCAGCTACTCTGGAGGCTAAGACATGA
GAATCACTTGAACCTGGGAGGTGAAAGTTGCAGTGAGCCAAGATTGCGCCACTACACCCCAGCCTGGATGACAGAACGAGTGTCTGTCTCAAAAAAAAAA
AAAWAATAATAATAAATAAATAAAGAGTCACAGTCTTGCTCTGTCTCCGAGGCTAGAGTGCGGTGGCACAATCATAGCTCACTGCAGCCTTGACCTCCTG
GGCTGAAGTGATCCTCCTGCCTTAGCCTCCCAAGTTGCTGAGACTATAGGCATGCACCACCATGCCCTGCTAAGTCTTTTAATTTTTTTCTTTTGGAAAT
GGGTTGTCACTATGTTCTGCAAGCTGGTCTCTAACTCCTCGCCTCAAGCGATCCTCCCACCTCAGTCTCCTGAGTCACTGGAATTACAAGTGTGATCCAC
TGTGCCCAGCTGTCTTGATTTTTTGACAGTAGCCATTCTAACTGGAGTGAGGTGATTTCTCACTGTAGTTTTGATTGATTTGCATTTCCCTTATTATTAG
TGATGTTGAACATTTTTTCATATATCTGCTAGCCGTATGTATGTCTTCTTTTAAGAAATATCTAAATTCAAAGTGAATTAGAGATTTAAATGTAAGATCG
GAAACTATGAAAATAGTAGGAAAAAAACATAGGAGAAAAGCTCTGTGACATTGGTCTAGACAAGGCTTAAACCTTGAAAGCACAGAGAACAAAAGCAACT
ATAGACACATGGCATTAAATTAAACTAAAAAGCTTCTGCACAGCAAAGGAAACAATCAAGAGAGCACAACAACCTACAGAATGGGAGAATATATTTGCAA
CCTATACATCTGATAAGGGGTTAATATATAAAGAACTCAAACAACTCAGCAGCAACAAACCAAATAACCCAATTAAAAACTGGGCAGGCCGGGCATGGTG
GCTCACACCTGTAATCCCAGCATTTCGGGAGGCCGAGGTGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATC
TCTACCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTATATATATATGTACACATACACACACACATACTCCAGACGTGGTGGCGCACACCTGTAATCCC
AGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCTGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGYCTGGGCAACAGA
GCAAAACTCCATAAAAAAAAAAAGTAAATGGGCAAAAGACCTGAATAGACATTCCTAATATATTTCTGTTATTTAGTTTAATTGAATTCTACTGTGGGAC
AGTATACTTTGTATGACTTGAATCCTCTTAAGTTAATTGAGATTTGTTTTTGACTCAGAATATGGTCTATCTTGGTAAATGTTCTGTGTGCATTTGAAAA
AATACACATTCTGCTGTTGTTGAGTGGAGTGTTCTATAAATTTCAAAGATCAGATTGGTTGGTAATATTGTTCAAAGTCTTCTGTATTCTTCCAATTTCC
TGTCCAGTTGTTCTATCACTTATTGAGAGAGGGATGTTAAAATCTTTGCTCATAATTGTGGATTTGTTTATTTCTCATTGTAGTTCTATCAGTTTTTGCT
TCATGTATTTGGAAGCTCTACTATTATGTACATGTCCTCTTGACCCCTTTGTCACTATACAGTGACTCTCTCTATCCCTAGTAATATTTTTTGTTCTGAA
ATCTACTTTCTCTGACAGCTTTGGTTTTTGTTGTTTGCTTTTTGCTTTTGTTTTTATTTTTTAAAGATGGGGTCTACTGTGTTGCCCAGGCTGGATTCAG
ACTCCTGGGCTGAAGCGATCCTTCTGCCTCAGTGTCCTGAGTAGGTGGGACTACAGGCCCATGCCACCATGCCCAGGTCATCCAGCTTTGTTTTGGTCAT
GGTATATCTTATCCTTCTTTGTTACCATGATGTATCTTTTCTATACTTTTACTTTCAACCAATTTGTGTTCTTATACTTAAAGTGGATTTCTTAAAAACA
GGTTATAGTTGTCTTTTTTTTTTTAACTCTCTCATATCTGCCAGTCTGATAATATCAGCCTTTTAATTGGGTTATTTAGACTATTTACATTTTATGCTAT
TGTTGATATGGTTGCTTTTAAATTTACCATCTTGGTATTTATTTTCTTTTTGTCTTATCTGTTATTTTATTCCTCTTTCCCCTTTTTCATATGCCTTCTC
TAGGATGATTTTTTAATGATTCAATTTTTGTCTCCTTTGTTGGCTTATTAACTATAACTCTTTGTTGTGTTATTTTAGTGGATGCTTTAGGTTTTGTAGT
ATACGTCTTTAATTCGTCACGACCCTACTTCAGGTGACATTTTACCACTTTACAACAGTTCATTTTTATTTTCCCCCTCCTGGTCTTTGTGCTATTCTTG
TCATACATTTTACGTCCATGTAAGTTTGTTGTTGTTGTTGTTTGAAACAGAGTCTTACTGTGTTGCCCAGACTGGAGTGCAGTGGCGTGATCTCAGCTCA
CTGCAACCTCCACCTCCCGAATTCAAGTGATTCTCCTGCCTCAGACTCCCAAGTAGCTGGGATTACAGGCACCCGCCACCACGCCTGGCTAATTTTTGTA
TTTTTAGTAGAGACAACTTTTCACCATGTTGACCAGGCTGGTCTTGAACTCCTGACTCGGCCTCGCAAAGTGCTGGGATTACAGGCATGAGCCACCGGGC
CTGACCTACTTCTATAAAAGTTTTAAACTGCAGTATGTTGTTGTTATTTTTGCTTTAAACAATCAGTTCTCTTTTGTGGATACTTAAATAAACAATTCTT
TATATTTATCGATGTTGTTTCCATTTCTGATATTGTTCATTCTTTTGTGTATATCCAGATTCTAATCTGGTGTTGTTTTCCTATTCCTTGAAGGACTTTC
TTTACCATTTCTTTAAAATGTAAGGACTGTGGTGAATTCTTTTACCTTTTGTATGTCTCAGAGTTTTTATTTTACCTTTGTTTTTGTAAGATGTTTTTGC
TGAGTAAAGTGTTAACAGTTGACATGTTTTTTTGTTTTTTTTTTTCTTTTGGCACTTCAAAAATTTTACTCCACTTCTTACTCTGTTTTCTGCTTGCATT
ATTTTTGACAAGAAATCTGCTGTTATCTGTATGCTGTTCTATATATTTCCTTTGTCTTTTTTCTTCTGGCTGCTTTGAAGATTTTGTTTTCACTGGGTCT
TAAGCAATTTGGTTATGATTTGCTTTGGTGTTGCTTTATTCTTGTTTTTTTGTGCATAGGGTTTATTGATTGCCCTGCCTCAGCACTCCTATTTCTTTTA
AATTCTCTCTTCTCTTGCTTTTTCTTCTGTATTTCTGGCCACCTCTTATCTTACTTAACCTTTAAATATTGGTGGTCCTAGGGATTCTGTTGTGTTTTGA
TTCCACAGGGTATTCTCAGGTCATCTCATTCACTCCCATAACTTAATCTGCTCTCTGTATGAGAGATTTCCTAATTGTTTATCTCTACCCAGACCTCTCT
CTAAGCTTCAGGTTAGTATTTCTTTACAGCCATCTCTACTTAAATCCAAAGAAGCCCTATTGAACGTATTTGGAATGAATAGACCTGGAGGACAGCTCAC
TAAAAAACTTCAAGAGGCTGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATTGCTTGAGTCCAAGTGTTTGAGAC
CAGCCTGGGTGATRTGGCGAAACTCTGTCTCTACAAAAAATACAAAAAATTAGCCAGATGTGGTGGCACACACCTGTAGTCCCAGCTACTTAGGAGGCTG
AGGCAGGAGGATCACTTGAGCCTGGAAGATGGAGGTTGCAGTGAGCCAAGATCGAGCCACTGCACTCCTGCCTGGGTAACAGAGCAAGACCCTGTCTCAA
AACAAACACCAAATAAACTTTAAGGGCAAAGGATAATCTCAGAGTACTTGGGCAAGTTGCTAGAAAACAGTATTCTCAGGGGAAGCATCAAAGGGGAAAA
TGGCCAAGTTGATATGGTAGTTGACTTCATTGTAGTTCCACCAGAAAGACAAAAAATAAACAAACAAAACCCTTATATCTGACAGTCGCAGGTAACATAG
CGTTGAATACTGTGGTGAACAAGAAATTGAAACTATAGTTCTCAAGGGAGTTAGGCCCTAGAAGAATCACTTGTGAGCCAGAAGGGAGGAATAAGGACAA
GGGAGTCCTAGGTGGCAACTATTGGATGGTTTAGAACTCTGCCAAGCTAAAAGGATAATGTGAGATTTACCTGAACTCATGAAGTGAAATGCAATCCTAG
AGGCTAGTRAGTTGCTGCTAGGAAATAACAATGAAAAAAATCCTTTCACAGTGGTTCTAAAACACTTTATAAATCCTATTTCTTTTAATTATTTAATCAT
TTTATTTTGGTTGGTTTTATAGGAAGAAAATGAAATGCTATTAGCTTAATTTGATTGCCACACCAAGATGAGTAGACTCTCTTCATAAAGTGGGGAACAA
ATGAAAATCTTTGAAACAGAAGTGATATGATCAGCACTGTGCTTATTATATATACCCAAAATACATTTTTGGAAGAGTAATAGTCACTATTTTTTCAAAA
CTTAGCAATGCAGTATCTGCAGTGATTCCCTTTCATTTAGTTTCTCATCCAACTAAATAAGCCAACTAGAGGAACCCTAAGAAAATAGAATTTTATTTTC
TTTCTTGGGAAGTATCTGCAAGAATTGAGAAGCTTGGAAACATTTCTTGTAAGGTAAAAGCTGTTTTTTTTTTTTTAAGCCTAAATCTCAGAGTGTTATA
CATACAAAATTCTTTTTATTTTTTTCTTTTTCTTTTTGAGAGAGAAGGTCTCATTCTGTCTCCCAGGCTGGAATGCAGTGGTACAAGCGTAGCTCACTGC
AACCTCAAACTCCTAGGCTAAAGTGGTCCTCCTGCCTCATCCTCCCAAGTAGCTAGGACCTACTGGTGTGAGCCACCATRCCTGGCACATTTTTAAAACT
TTTTGTAGAGAGTGTCTTGTAGTGTTACTCAGGCTGGTCTCAAACTCCTGGCGTCAAGCAGTCCTCCTGCCTTGGCCACCCAGAGTGCTGGGATTACAGG
TGTGAGCCACCACACCTGTCCCAAAATTCTTATATGCAATTCTACATACCCTCTTACACACAGAGACACACAAAGTTATGAGTTTACTGTTCTGGGGCAT
TTTTTAAATGTTAAAATTGCAACTACTACTTAGTCTCATTTTCTTGTCTATAAGTCTTGGCATATGTCATGTATCTATTTTAGAAAAGTAATTTTAAAGT
TAGTAGATTAAGAAACAACATGGTTGTACTAAAAAGTGCCTTATATATAAAAAAATCTTTCCATGGAATACCATGGAGACTATTTTTCCTTATGTTAAAT
AACATGGAGGAGTCTGCACTATAGGAAACAATTTGCTTAGAAACTAATTTAAAATTACTCAGAGCCACATCTAGAAATGTAAGTGAACTCACAGGAGTAG
TACCTAATTAAGTATATTCTGTGATATTATAGAAACCTTATTTATAAAAGGAAACTTGTATAATTTCTGTCTTCAGGGCATTTATTGATAAAATAGATGT
ACCTTCACTACTGCTATGCTTCATTGTAAATGATAATGTTGATCTGTATTTGTACCATGTCCAAACATAATTATAGGCGGAAAACACAGGCAACAAAGAT
GTGGACATAATATAAACCTAAATATAGGTATATGTATACATATGTGTGAATATACACACACACACACACGTATACATATATGTACACATACGTGTGTACA
TATGTATACACATGCACAAAAAGATCTGAGAAAGTATATGCTAGTAATACCTTTATCTCTCTGTGTCTGTATTGTCTGAATTTTTATAATTGTGTAATCT
TTATTGATAATGATGGTGGGAGGTTATTTTTATTTTGAAATGAAAAAATAACATGGGTATTCCAGAGAATTTGAATCAGGGTATTACTCTTGCATTCTTC
AACTACTGRTGGCTATAACTATGTAAAGAAGTAAAACATTTCCTGTAAAGACAGTCAGAAGTTAGGAAGATCTCATCTTTATCCTGTGGACATACAGATA
TTTTTTCTTTGGCCCATTTACCACAGTCGTGACTTCCACTATTTCTTGGGTTGTGGTTTTTTTTGTTGTTGTTTTTTGTTTTTTTTTTTTCATTCAAAGT
TATAAATGAACAGCCAGGTGTGGTGGTTCACTCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCTGGCGGATCACTTAAGGTCAGGAGCTTGAGACCAGT
CTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAATTAGCCGGGTGTGGTGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAT
GAGAATCTCTTGAACCGGGAGGCAGATGTTGTTGTGAGCTGAGGTTGCACCACTGCACTCCGGCCTGAGCAACAGAGAGAGACTCTGGCTCAAACAAACA
AACAAACAAATAAACAAAACCCAAAAGTTATAAATGAATATAGTTTAAAATGTCAAATAGGCTCATTTTAAAAATCCCATGTTCTCATATTCTATCATTT
CTGTCTTTCTAGGGGCAAGTATTTTGATCTCTTTTGGCTTTTAAAAAAATGTATAAGTAATATGCTTGCATTGCAAATTGTTGCATTTTCAGTTTTAGGC
ATTGTATATTGATTTCCCACCATGGGAGATAAGATTTGGCTTATTTGCCACTCCTACCGTATAATCTGTTTGTCGCCCTGTCTTGATTATATTGTAATTT
TGTTTGGATCATCCCATTTATACTTTATTATGACTATGTAAACACTATTTGTAAGTGAGCAATGTAGTGAACTATTTTTCATTTCTTGAATACCTTTTTA
TTTTCYCTGTTCTGGTCATTTTCTTTTCTTTTTTTTTCCCCCTGTGTACTTATTTCTCATTCATTGCCAAAATTTTTTTGCCACTGTGTAAATCTCCAGA
TGGATAAGATGAATGTCTAAATTCATGTGCATGAGGTAATTCTGTCAATTTCATGTTCTATGAGAATTCCCTACCAGAGCCTTCTGAACTGATACTCTGC
TAAACCCAAACACAGGATACTCTGTCATCTTGAGGTCTTCTTTCATTACATCTCAGATATTATTTTGCCTCTTGCCTGTGTTAATCTTGTATTTCATAGG
CCCATGTCCTGTTCTTTCTTAGTTTTCTCCCTCTTTTTAGTGTGGCATATCTCTTAGTAGTTCATAGGAAAAAGCTGCATGGAAGGTAATTTTTTAAATA
AAGCATGCCTGAAAATGTTTTATTCTATACCCATACTTTATTTGATAATTTGGCTGGGTGTAGACTTCAACATAAGAATAATTTTCCTTTAGAATTTTGA
AGGCATTAATTTTTCCATTGCCTTCTAATTATAGTGTTGTTGAAAAGTTCAAAGTTAGGCTGGTTTCCGATTTTTTTTTTCTCCTTTTTAGAGACAGGGT
CTCACTGTGTTACCCAGGCTGGAGTACAGTGGCATGATTATCGCTCACTGCAGCCTCAAACTCCTGAGCTTAAGCCATCCTCCTGCCTCAGCRTCCTGAG
TAGCCAAGTCTAAGGCCTGTGTTATCATGCCTGGCTAATTTTGTTATTTTTTGTAGAGACAGGTTTGCTATGCTGATCTAAGCTGACCTCAAATTCCTGG
CCTCAAGCAATCCTCCTGCCCTAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCCAGACCAGTTTCTGATCTTTTTCTGTAACCTGTT
CTTGCCCCACCTCTCCAGAAACATGTAGGATTCTTTTTATGTGCAGTGTTCTGAAATTTTATTGCCATATGAACCAATTTTAGCCATTATATTGGGAATA
CAGTGGTAATCTGGAAACTTGTTCTTTACTTGTAGGAACTTGTCTTGAATTATTTCATTAATTATTTCTTATTTCCTTCCTTCTGTTTTCTCTGTTCTCT
CTTTGGAACTCCTATTCCCAGACTAACCCTCTAATTTTCAAACCTGTTTTCTTCCTCCTTGTCTTTTTGCTTTACTTTCTGGGAGATATCCTGAACTTTA
TTGTCCAGCCTGYCTATTGAGCTTTTCCTTTGTGCATCGTATTTTTACCCTCCAAGAACTTTGTGTATACATATAAAATACAGATGTTTCTTTTTTTTAA
ACAATAACTAGTTAATTGTTTTTGTTTCTGTTTTTGAGACAAGGCTGGCTCTCACCCAGGCTGGAGTACAGTGTTGGAATCTTGGCTCACTGCAACCTCC
ACCTCCCGGATTCAAGTGATTCTTATGCCTCAGCCTTCCCAGGAGCTGGGATTGCAGGCGTGTCCCACCACGCCCAGCCAATTTTTGTATTTTTAGTAGA
GGCGGGGTTTCACCATGTTGGCCTGACCTCAAGTGATCCACCCGCCTCAGCATCCCAAAATGCTGTAATTACAGGCATGAGCCACCGCGCCTGGCCTTGG
TTAATTGTTTTATAGTTGTACCATGGTTATAAATGATAGCTTTTTTCAGAGCCTTTGGAAATTTATCTAATTGTTGCATAATCTCTGCCTGTTCCCAGCT
ACCTTTTTTTTTTTTGGTCATTTTGGTCACCATTATTCCACATTGAAGGCTTTCCTCTGATACTTGGTCGTGCTGGCATGTCTGTTCATTTTTTTTGACT
TATTTTAATTAATTTATTTATTTTGAGATGAAATCTTGCTCTGTCACCCAATCTGGAGTGCAGTGGCATGATTTCAGCTCACTGCAACCTCTCCTGGGTT
CAAGTGATTCTCCTGCCTCAGGCTCCCGAGTAGCTGGGACTACAGGCGCACCATGCTGGGCTAATTTTTGTATGTTTAGTAGGGATGGGGTTTCACTATG
TTGGCCAGGCTGGTCTTGAACTCTTGACCTTGTGMTCTGCCCGCCTTGACCTCCGAAAGTGCTGCGATTACAGGCTTGAGCCACCGCGCCTGGTCATTTT
TTAAACCTGAATGTGACATCAAGCTTTATAGACCCAGTTCCAGTTTTGAATTTCTTTTTTTTTGAGCAGTTCTATCTGACTTTTGCAGGATGAAGGAAGG
GCAGTTGTCYAGCTAACTAGAGAGGATGAAWGGACCTGGGGATCTGATAACTTCATAAGCAGGTTTTCAAGAAATTCCCCTTGCTTTAGCTATATTCTGT
TAGCCCCACTTGTACAGGTATTTTGCATTATAAATTAGATCAGTTCTCCTATTTCACTCAGCTTCACTGCTAGTTGAGGATGCGTTTTTCTTTGGTAACT
TTGTTACCACTCATATATTTGCTTTCCAGTTTCTACACTTTTTGTTGCCCTCCTATTTCTTTCTCCTCATTTGGGTTTATTCTTTTACAACACAAAAACA
AAACAGGCAAGCAAAGAAAAATCTTTACTGACCTTTTATTGGAATTTTAGGATAGAGTAAAAGAAGATGATGTGCTAAGCTAGCAATCTCTACCAAGACC
ACTTTTTTCCTTTTGTTTTCATTTTATTTTATTTATGTATTTATTTATTTTTGAGATGGAGTCTCGCTCTATTGCCCAGGCTGGAGTACAGTAGTGTGAC
CTCAGCTCGCTGCAACCTCCTCCTGCAGGGTTCAAGCAATTCTCCTGCTTCAGCCTCCCAAGTAGCTAGGATTACAGGTGCACGCCACCACGCCCAGCTA
ATTATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTCAGCCAGGCTGGTTTCGAACTCCTGACTTCAAGTGATCTGTGTGCCTCAGCCTCCTAAAG
TGCTAGGATTACAGGCGTGAGCTACCATGCCTGGCCTTTTTCTCCCTTTAGATCTTTTGTTTAGGCAGTTCAACTTAGCAGTCTAGAATGGGAATTTTCA
AATATGGCTGCCCATTTAGAATCACCTGGAAAACTTTATTATTTACTTATTTTTTGAGATAGGGACTCACTCTGCCGCCCATACTAGAGTGCAGTGGCCC
AATCACAGCTCATTGCAGTCTCAACCTCCCAAGGCTCAGGTGATCCTCCTGCCTCAGCCTCCTGAGTAACTTGGGTTACTGGCGTGTGCCACGACGACCA
GCTAATTTTTGTACTTTTAGTAGGGACAGGGTTTTGCCTTGTTGCCCAGGCTTAAATGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTG
TGAGCCACTGCTCCTGGCCAACCTGGAAAACCTTTAAGAAATATTATATSTGGATCTCACAATTAGTGGGATTGGTTGTTGGCTAGGGTGTGGTTTTAGT
TCTCCAAGTTATTCTGTTGTATAGCTGGATTTGAGAATTYTGATCTAAAAAAAAWTTTTTTTTGGAACAAATGAGAAAAAGCAGCAGATTCTAAAAATAT
GACTGTTTTTTATTAGAACATCATCTGTTAAAACATTCCAGATTCTGCTAGAAGTAATAACCTTTCTCAGTGGTATTAGGAATTGAGAATGAGTTTCTCT
GAAGGGTCTGTTCCTGTTTGCATTCCAACAAATGGACGCAGTATCCAAAATTAAGTCTTCATTGGAAGTGAGAAATAGTATTGTAGAAAATCAAATTAGT
AGAACAGAGGACAAACTTGAGAAGCAGTCACAGAATGTACAATAAATAAATGTTAGAAAAGATAAACATTGATAATGAAAATCTAAAATAGAAATAATTT
TTTTTCTCTTGGAAAACTAAAAGACATGGATAAACAGCAGTAATCAGTGATAAACAGAAAAAAACTTTTAATATATAATGTGTTATATAACATGTATTTC
TTAAACTTTGTAACTTATAAATATTAGAGGATACAGTGTATTACTATTTTTTAGAGACAGGGTCTCTCTGTCACTCTGGCTGGAATGCAGTGGTACGATC
ATTTTTCACTGTAACCTCGAACTACAGGGCTCAAGCAGCCCTTCCCACCTCACCCTCCTGAGTAACTAGGACTGTAGGCACATACCACCACACCTGGCTG
ATATTTTAAAGTTATTTTTTGTAGAGACAGGGTCTCACTATATTGCCCAGGCTGCTSTCAAATTCCTGGCCTCAAGTGATCCTTCTGCCTCAGCCACCCA
AAGCACTGGGTTGACAGACCTGAGCCACTGCACCTGGCCCAGTTACTTTTCAAGTGTCTGCAATATTTATAAAGCTATATATATACTTGACCGTAAACAT
AATAGCTAATTCAAAACAGCAGAAACTATAAAAGTTGTTGTTGTGAGTATACTAAAACAAAGATTTTTAAAATGACATTAAAAAAATAAATTATGAAAAT
AAGGCATTAATGAAAAGCCAAAAGAAAACACTGCATGCTTTTATGATTTAAAAAGATGAAGAACCAAGAATTTAGTATAAAATTTAAGAAAAATAGAAGT
AGTATATTAAAGATAAAGGTAAAAATTATTTTTAAATTGTGTTTATATAGTGGATACTTTGCAGACGTTGAAGTGGATTAGATAATTTATGTATATGTTG
AAATGAAAACATGTCCTCAAAACTTAAAATCTTAATGAAAAAGCAGATTGCAAAATAATTGTATTTACACACACACACACACACACACACACACACACAC
ACTCTTACATAGATTTATGTGTGCTTATAAGTCCCTATAGTTGTATACCAAATTTTTCATAATGTTCAGGGGTTTTCTTCATCCTGTAGGGAAGCAGCTA
GATTATGGGGTAGACTTTTATTTTGTAATCTCTTGTGGTTTTAATTTTTGTTTTTTACAGTGAGTATTGCATATTTTCTATAATTGGAAATAAAAAAGAT
ATGTTCATTTTGAGGGGGGGAAGCAATATTTCACCATACGAAACTAGAAAAAATAGTTTATTACGCATTGCATGCCTGTATCAAAATATTTCATATACCC
CATAAATATATACACCTGTATACCCACAAAAATTAAAAATAAAGATTTTTTAAAAATAGGAAAAAAGGTGGAATTAATAAATAAACCTTAAAAGAAAAAG
GCTTATGAAAGAGGCAAAATATATAAGCTTCTTGCAGATCTGATTAAACAAAATCAACCATAGAAAGTAGATTTAAATCACATAGAAGAAATATATGTAT
ATAAATATTAGGAGCAATACATTTACACAGTTATATGTTAATAAATTTCAGAAACCTCTATGAAGTTTCCAGATATATTAAACATTCCAAATGTTTTTTT
CTACATGTAWATGCAGTGAAAATAATGTATAAAATGTGATATACTGATAACTTGACAATATTATCAAAGAACTACTTTTTAAAAAAAGAAAAACTCTGGG
TTTGATACATTTGCTGGTAAATTCTTCAGAACTTTTTTTGAGGAATAAACAATTTCTGTATACTACAAAATGTTCTCAGTTATTAAAAAGTAAGCAGGCC
AAAGAGGAATACAAAGAAACAAAGGTAACACTTAAAAAAAAAAAAAAAAAAGCTATCATTCAGTTTCACTTTTTGAATATAGTTGTGTTCCTTAAAATAT
TAACTGGTAGAATTTATCAGAATATTGGAGGAATAATAAGATTTAAATTAGGCTAAGTCTACTGGACTAAAACCTTGATAGAGATATATATCCTCTATCC
AGAAGTCATAAATAGTTCAGTATTAAGAAATATATTAATTCATCAGATGTAATAATAGCTAACATTTATTGACTGCTTACTTTGGGTTAGGTAGGCACTG
TTATAAGCGGTTTTATATTTTTATTTAGTTATCAAAATAATTCTAAGGTTTCTCTAGGGTTATATTACCTAGATGAAGAAATTGAAGCATGGAAATGTCA
GACAGTGTGCCCAAGGTCACACAATTACTGAATGACAGAACTGGGGTAAGCACGCGGACTTCTGACTCCAAGAATCCATTAGCTTATTTGGAGTTTAAAT
AGAAACTTTAAAAGGTTTCATAAAATTAAATGCCCATTAATAATTTTTTTAAAAAGAAGTAGAAAAAGTGTTCTTTAACATTATAGGGAATCTTTATAGT
CAACAGACAGCTTTATATTTATTTATTGAAAAATTATAGATGTATATATTTATGGGGCACAGAGTGATGTTACGATCTTCGACTACCATGTGAAATGCTT
AAATCAACTAATGTATCAAGCTGATATGTTAATCAATTTCCACAACTATTTTACATTTTTTAGGTGATGAGAACATTTGAAATTTACTCTTAGCAATTTT
AAAATGTTACTAGCTATGTTCACTGTGTTGTGCAATAAGATCTTATTAAAAAAAAAAACTTATTTCTCCTATCTTCTAACCATATCTGGTAACCACCATT
CTACTCTTTGTTTCTATGAGTTTGATTGTTTTAGATTCCACATATAAGTGAGAGCATGCAGTATTTGTCTTTCTGTATTTGGCTAATTTCACTTAATAAG
CATAGTATTGTCTAATTCCATTCATGTTTGTCACAAATGACAGAATCTCTCTCTGTTTTAAGGCTGAATGCTTTTCCATTATGTATACTTATTTAGGACC
ACATTTTCTTTATCCATTCATCTGTTGATGAACACTTAGGTTGATTCCGTACTTGGTATTTTGAATAGTGCTGCAATGAACATGGGAGTGTAGACATCTC
TTTGACATACTGTTTTCGAATCTTTTGGGTAAATACCTAGAAGTGGGATTGCTGGGTATTTATTTATTAGTTTAAAAAAAAAATCCTAGGCTGGGCGTGG
TGGCTCATACCTGTAATCCCAGCACTTTGGGAAGCCAAGGCAAGTGGATTGTCTGAGTTCAGGAGTTTGAGACCAGCCTGGGCAATGTGGCAAAACCTCC
TYTAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAAAAGAAAGAAGAACCCTAGAGGTAGTTACTAATAATGGAGGTGCATCAGAATTATTCCCAGTGGGGG
CTAAACTCCCAGACATGTATGTTTTGAAGCAGCTTTGTGGGTGATTGTTAAAAACTACAGTGTTGGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCA
CTTTGGGAGGCTGAGGCGGGCGGATCACGAGGTCAGGAGATTGAGATCATCCTTGCTAACACGRTGATACTCCGTCTCTACTAAAAATACAAAAAATCAG
GGCGTGGTGGCCCTCACCTGTAGTCTCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATGGCA
CCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCTAAAAAAAAAAGGAAACTACAATGTTAAAGGTACATCAAATTTTACAGCAAAGAAGTC
ACCCTGGAAGATCTACAAATATTCTTGTAAAAGTTCTGGCCTATACAATAAGACATGAATTAGAACTAGAGGTATAAATGTTAGAAAGGAAAATTAAATT
TTTCCTTACTTATGGTTAAGGGAAGGTTTATCTGCAAATCCTAAGGAATTGGCTATAAAACTAGGGTTAAGTTCAATTTGAGTGGCAAAATAGAGCTTAG
AAGAACAAAAACCGAAATTATGTAATAACCACTTTGAATAACAACCAAAGTRAGAGTCCACGCAAAATATAAATATTAAAAAGTTAGAAATACTCATTTT
TGCTCAGTTTTATCTTTTGAATTTGATTTAAACGTAAAAATTAACTAGAAAACTATTAAAATTCTTCCTATTTCTTATCCCATTCTCTGTCTCTYATAGG
TAATCATTTTTAATTAATTTCAGTTTWTCCTTCTGGTTTTCTTTTCTTTTCTTTTTTTTTTTCCGAAAAAAGCCAGTAGCTTTATGTATTATTACTTCCT
CTCTTACACAGAAAGTAGTAGCATACTGTATTTTTTTAATATTGTCGTTGTCACTTTAATGATGTATCTTAGAGAGATCACTCCCATACCAACACATAGA
AATCATCTTCATTCTTTCTTTGGTTTTAGGGTATTCTATGAATGTTTATTCAATCATTCTTCTATTGGTAGGTATTTTACTAAGAATGACATTAATGGGA
ACAGTGTAACTAATCTATGATAGAAATAAAACCTTGAAGATATGAATAAATGGACACAGGTGCAATAGTCCAAGACAGGAAGGTTAAAGATGTAAATATA
TCAGCTCTCAAAATAATTCATAGGTTTATTGTAATTCTATTCAAAATACTATTGAGCTTTAAAAATCATAACAAAAAGATTTGGAAATTCATCTAGATGA
ATTAAAAAAAATGGATAGAGAAAAACCTAACTATAAGATAATGAAACAGTGAAGCTATAACAAAAAATAGAGTACCAGCACCAGGATAAAAAAGATAATT
GGGAACGTGGTCCAGAATGAAACATACAGGACATAAGGATTTAATATATGATAAAAGAAGCACACATATCCATAGGGAAGGGAAAGTTTATTTAACAAAT
GGTGTTAGTGTAACAGTAAGCAATTTGGAGTACTGAAATTTAGATTTTTAAAATATGAACTAAAATTCCAGATATATTAAATAATTACATAGAAACAATA
AGCCAAAAAATTAATTGTGTATTTATTGAATTTATGCAAAGGAACAGCTAAGTTCAGAATTAGCAGAAGAATTTAAAAGGAGATTGTTGACAGATTGGAC
CACATAAAAATCTTTTATATCATCTAAAAATATAGCCCAAATGAAATTTAAAAAATTGTAGCAGACTGGAGGAAATATTTGTAGCAAATTTCCAGGGTTT
TAATATTCTTGTATATGAAACCCTTATGCAAATACATAAATAGGCATAGGACAAGGCTGGACAATTAGTTAAATAGGAAATTCAGCAAATAACAAAACAT
GGAAATATTTTAGATGTGAATTAAACTTCTCAAGAGTTACCAGGATCCATTCATTAAATTAGCAGCAACTCCCATGCTGGCCAGAGTGTAATCACTAGAT
GCATAAATTGCTGATGGTCTTATATGTAAAACAACCATTTGAAAAGCACTCTTGCGATGTGTCAGGATTCATAAAAATCTTCATACTTTTTGACCCTGAA
ATCTCACACCTGGGAATTGATCCAAATAAAATAATAACCTGCCCCCCTTCCAAAAAACAAACCTTTAAGCCCAAAGATATCCACAGAGTTATTTCAAATA
GTGAAAAATTAGAAATAACCTAAATGACTAATCAGGGGAGTAATTAAAATGTTCATATGTCCCCTGAGAGAATACAATAATTAAAAATGGTAATAGAGAC
TGCAATTGAAAATGTAATAAGGGTAATTTTTTTAAAGCAAGCTTTCATATTGTATCTATAGTTTGATATGAGAATGACTGGAAGGAAATAGATAAAAGTC
ATAAGCAGTTACAATAAGAGGATAATAGGTAATTCTTTTCCGATTTTCTGTGATCCAGTGTAATGCAAGGCTGCACTGGTAGGAGTACAGCACCGAGATC
AAGAGAGCTAATAAACCTATGTTATGAGAGGAACACGGACTTTGGAGGCAGGAGATGTACAGATTGAGTTCCAGTTCTGAGTTTTCTACTTACAAATTTG
AAGGCTTGACAAGTTAGTAATTACTCTGAACCTCAATTTCTTCATCTGAAAAATGGTCTGATAACATTGTCTTCATGATTATTGTATGGATTAACTACTA
GAAAGTAGTTAATGAAAGTAGTGTTCTACTGACATCACATCTGGAAGAATATATCAATCAACTTAGAAGCAACCTTAGATCTCAATGGCTAACAACTATT
AGAAACAACTAAAGAAGATTTGGGCATGTAATCCCAGGACTTTGGGAGGCCAAGGTGGGAGGATTCTTGAGGCCAGGCATTCCAGTTCAGCCTGGGCAAC
ACAGCAATACCTCATCTCTACAAAATAAAAAATAAAAAAAATTAGTCGGGCATGGTGGCACCCACTATTGTAGTGCCAGCTACTGTAGAGACTGAGGCAG
GAGGATTGCTTGAGCACAGGAGTTTGAGGCTGCAGTGAGCTATGATCATGCCACTGCACTCTAGCGTGGGAACAGGGCAAGACCCTGTCTCTAAAAAAGA
AAGAAAAAATAACCAAAGAAATAAAGCTTCTTTCCCACTTATGTTATTTAACTAGCTGTAGACTGTGACTCTGCTATATGTTTTGTTTGCTCTGGGATCA
AGGCAGAGGGGAAACAAAGACAGTAAAGCCTTAGGTGCCTCTTGAACTGCTTGAAAGTGGTACACTACCACTCCTATTTCATTGACCAAGGGTAATGTCC
ATGGCCCTGAACATTATCCTCCCATTGGGATAGGCCAATACAGAAGGGCAACACATATTTTGAACAAATGATATGTGCTGTGACAGTGCTGTCCAGTTCT
GTCACTTTATTTATTTATTTATGAATGAATGAATGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAGTGCGGCGATCTCGGCTCACTGCAACC
TCTGCCTCCCAGGTTCAAACTATTCTCCTGCCTCAGCCTCCCAGGTAGCTGGGATTACAGGCGCATGCCACCACACCTGGCTAATGTTTGTATTTTTGGT
AGAGACAGGGTTTCACCATGTTGGCCTGGCTGGTCTTGAACTCCTGACCTCAGATGATCTGCCCGCCTCAGTCTCCCAAAGTGCTGGGATTACAGGCGTG
AGCCACCATGCCCAGCCAGTTCTGTCACTTTAATAAGGGTGTAACAACCTGGGGTACGTCTGGAGGAGGAAGATTTGGACAGTGAGTAATTCTGAAATCT
TTACTAAAATACAGTGGGAAGAGTCATTGGAAAGGGAGGGGCATATTAAGTCTCTTCAAATATTTGAAGAATGGCTGTCACTGGATGGTGAGATTAGTTC
AGTGCTGTGTGGCATCAGTGGGTGGAAGTTACGGCCTCATATATTTTGACTCAGTATAGTGGTAAGGAGAAAAGTGAGAAGAAAAGGAAATTATTGGTTG
TTTTCAATATGTTACTCATTTACATTCTTCAAAATAATCCTAACAGAGCGTGTATGTTTCTGTGTTTAAATATTGGAAGAAAGACTCAGAGTGAATGAAT
ACCCAAGGTCACATGGCACGTAAGTGGCAAAACCGGTTTGGAATCCAGGTCTGTGTAATCTTGTCCCTTTCTACAATATTCTACTACTCTCTGTTGGGCT
GCAAGCATTTTTACAATTAAACTGTTCATCACCAGTCATCATCTGCCTGACAAAGTAAAGGCCACATCTCACACATGTCTAAAAGGGTTCAAACAGAGAA
TGAATGGAAAGGTTGAAAGGAAGGTTGAACTCTAGATCAATGATCTGCAAACTTATTTGATCATAAGTACCTCTTAGCAAAGTACTTGTACATACTATAT
ATGTAGCTTATACATAAACTATTGTACTCATATGTTGTAAAGCATATAGGACATTCCCAGTACRAAGAAATGGTAAACATTTGGGATGATGTGTGTGCTA
ATTCCCTTGATCTGATCGCTATATACTGTATGTGTCAAAACATCACCGTGAACCCCATTAATATGTATAATTATTATTTGTCAGTTAATTTTTTTAACCT
ATAGGAAAAATAAGAGTTTAAAAAGATTAAGATTTTATATAACATTTYAGTTTTTTTATAAATTAGATTTCAGGTTTTATGTAAAATCTCATCTTTATAA
AACTTTGTTTTGCAGATAGATACTTTTTTCTGTATCCCTGTGGAYTGTCTTTTGTACCCATGGAAATGTATACCCCCAACATTGGAGGTCATTGTTTTGG
ATGATTTTGTAAGACTCATTTCAGTATGAAGATTCTGTAATTCTTTTTGTCCAGAATTTTTTTGAAAGGGCTAATGGTAGCTTACTTCACTTTCAGAAAG
GTTTTTAAATAGTTTTATCTAAAACCAAAACTATAGACTTCACTGTCATTTGTAACAGCAATTAAGCCCAAAAACTACAAAGTGTGAAAGGTGCTATTCT
AGATAAACAGTAGCAACCCCATGAGCATTACAATGTATATATAAATGGAGATGGAAGTGTAGGGGCTATTATTAAGTAAGAAACCTGATTTTTATTTGTG
ACATAAGAAATAGCCTTGTTATTTTAGTTATATCTTCTCTTTCTAAACCTATATATATCCAAAACTTACTGTAGTCATATATTCTAAAATGCATCTGAAA
TTTTGCCTAGAGAGTAATATGAATTTTTGGACTTGAGAAATTATTTTAGCACTTTTTAAAAATAGAGCCAACGATTTAAATTAGGCTAAGTCTACTGGAC
TAAAATCTTGATAGAGATACATCCTCTAAGAAGCAAAGAAGTTAGTTACTTGCATTGCCTGACAGAGGGAAATGTTAGCTGGTTTTCTRCATTCTGGGCC
TTAGTTATTGGCATTGCCAGGTTGATGTTTCACAATTAAGACAACTTTTTCTGTTAGTGACTGCTCCTTGGTGATAGATTCTTTAAGAAAAAGCCATCCT
AGAACACATAAAGCAGAAAGCAAACCTAGCCTTTTAAAGATACTGTTAATGTTGAGATAGAATTCTAGATCAACAAGTGCTCTTTTCTATTTCTTTCTCT
TAATGATACGTTTGGTATCGACTTTTTGCGTGACATATTGCAGTTTGGTTGGAAGTTGTAAAGGAAGTGTTTCTTGCAAGTATGATCAAACTCAGTTTAA
GCAAGAGATTGAAACAGCCAACTTCAGCTGCTTATTCAGCACAGGCCTTAAGTGCCCCAGAAGCCGATAGTTTCTTAATAATAACTCTTAGTGATCATTT
TCTTCTAGAAAATTACCCTGGAAAAGTAGTATAAATAGTTTAATCTGCTATTTCTTAAAATTTTGTATTCCTTTACTCATTCAACAAATAAATAGTATTC
AGTGCTTCTTTGTGCCAAGCACTGAGGGCTCATTAGTGAGCAAAAGGGATATTAACCACTGTTTTAAAAAAAAAATGTATCTAACATGTACTAAAAGCCA
ATGGATGTGGTGATGCATGCCTATAGTCCTACCTACTTAGAAGGGTGAGGCAGGAGGATCACTTTGAGCCCAGGGGTTTGAGTTTGTGCTATAATGGTGC
CACTGTACTCCAGCCTGGGCAACAGAGCAAGACCCTGTCTCTTAAAAAAGCAAACAAAAAGCCTTTAATGGAACTATTGTTGCTCATAACGGCATACTTT
AGAACCCCTGGTCTAGTCTGACTGTGCTTACCTACCTGCTTGCATGCGTTTCTCTTTCTTCCCACCTCTCTTCCCCTCCCTTCCTTCCTTTCTTAATTCT
CTTCTGTTTTTTACAACTCTTTTCCTTCTTTGAGTTAGTGACAATAAGCAAATTTTGAACTCATCTAAGATTAGGAGAAAAACTGTATGTGATATTTATT
GTATAAAACTTGCATGGTAGAGTTAAACAGGAGATGATAAAATTCTTAATTTACTTTATAAACCAAATGTCATCTCACCTGTCTAGCTCTCAAGGTGGGT
ATGTTTGTTACTTCTTCCAGAAACCATGTCTCTTTAAATGGGTTTATATCATTCTATTTTAAATAAAATTCGTATGTTTTTATACAAGTGTGCTCTTTAG
ATGCAAACATTTATATGATTAGATAAATTTTCCTTAGTCTTTCTTTGATTATGTATTGTCTGAATTTGAATCCTGATGTGTTATTCTGGAATTAGCCATT
TTTGTTTCTATTTCTGTTTGTTATGTTACAATTAGTGTATTTCTTATTTTTCAGTGCTTTAATTGCCTTGTTATCTAAACTCTAGAATATATACCAGTTA
ATTAAAGACATGTGTGTTTTTTTTTTTTGCTTTTGTCTTTACTGGCGAATTTAAAGGTAATTGAAAGTATAATTCTTGTCKTCTTTAGCATCAGACAACA
GTCAGCGCTTTCGAGAAACCTGTTTTGCATTTGCCTTGACACCACAACAAGTGCAGCAAATCAGTAGTTCCATGTAAGTTGTCGTCAAGTGTAACTTGAA
GTTTGACCTTTGAATCCAGTAGTCTATAATAAATGATTTTAAAAAACAGTGATTGGTGAGTTAGTATTTGTGTGATGCAAATATTAGTAATGAAAGTATA
GTGTGTTAGTTACTGTAAGAACAGTTATATTTATGATAATTTGAAAAACTTTTCTGGAGTAACAAGGTCTTTGAATGAACTTTCATGCAAATACTTTAAA
AGTAATTGTAATTCCTATTCTGTCTCTTCTAGGGATATTTCTGGGACCAAATGTGACTTCACAGTACAGGTCCAGTTAAGGTACAGTGCTGACTATAGGA
TATATTCAAAGTTTAAAAGATAATATTCCTTTTCACAGTACGGGTCCAGTTAAGGTACAGTGCTGACTGTAGGATATATTCAAAGTTTAAAAGATAATAT
TCCTTATCAGGAAGGGGAAATGGAAAAAAAATTTTAAGGAATAAGAGGAAATCTACCTGATTTTTCAATAAGTGTATTGAAAATATTAGGTTTAGATATT
TGGGTGAGGGAAAACATTCTCCTGTTATGAGATATTCTAATTTTCATCCAATTTAGATTTTTCCCCTGCCCGCCCACCCCCCAGTTTAGATTTCAATATA
GCAAGTCATGTTCTATATATCTAACCATATTTGATTGCCCTCAGTTGGTTGAGAAGCTCCAGCTAATGATATCTTACAATATCATATCAAGTTTTATGAA
AGCATGGGCCTTATCTCCATAAGAGGCAAAGTACTGTGGATAAGGAATTAGTACTTAAGTCTACAGTATGTCATGGACTAACAAACATCAAAATATTCTA
ATTTGTTTTGTTCTGTATTTTAAATAATTTAAATATGCTCTAATTTAGGATCCATTTGAGACATCTCTTAAAAATGTTCAAAGACTAATGGGAAATTTTC
CAACATGGATTCACAACCCCTTATTGAGTTTCTTTTCTTAGCCCATTCATTTGTCTTAGAATATCTAAGAAATATTTTGTATTATTTCTCTCCCTTATAT
ATCTCCCTTTTATATACATATATATATATATCTCCCTTATATAAACCATCATATTATGCTTTATTATTCGATTTACCAACTTAAATGTCCACACTGTTGG
AATAGGGATGGAAGAGAAAATATAAGACAGTTGTTTTCCTCAGTAAGCTGTTTTCCCTATAATTGTCAGGAGGATAAATCAAACAGTTAGCCTTGTCTCA
ATAATCAGATACTAAGTTGTATGTACAAGTTACAAATACACTAGGAGGCTAAAAAAGGGATTAATCTAAAACGCCTGTTCAGCACTTCATGGAACCATGT
GAAAACCTCTCATCTAAGCTTTGAAATAATAAGGTAAAAACAGTGAGAAAGCAGAGTTGAAGTCGAAAGTTGAGTTGAAGATTCTAAAGAGGATATGACT
ATACTTAATAACTTTTATACCATAAAACAGTATGACAGGACCTTACTGCAGTAGACTAGTGATAATCTAAGTTTCAGTTTTGGAAGGCACTGCTAAAGAT
GATTCTGTATAAAAGGTATATTTTATGTCGGCCAGATTGTGATAATGACTGAAGAAATTAAAGGACAAAAATAAGATGTCTCCATAGTTAATTATGTATT
GCTGTAGTCTTCTTTACTTCCTGCCTCAACAGTTTACATTTTGCTTGTGCTGATACTTGACATTATCCTTTAAATCAGTGGTTTTCAAACTTGTTGCATG
GAGCCACCCTTAGGGGTTCATACTCTTCTGCCATCCTCCTCTTCTCTCCTAAACACATACACAGTCTGAACCAAAGTGGGGCTTCTTTTATCTCTTTTAT
CTGTTTTGCATGTTTGACTCTGGGTTAATTTTTGCTTAAAGACAGGGTCCCAAGACTAAAATAAAGTTTAAAAACCGTAGCTTTAGAATAAAAGATCTAG
TTACTAAGTATTTTGTATTAATATACATACATTCTTTAAAGCAGCAACAGGTGTGGTCCACATTTTGAAGTAAGGTTGTCTAGATAGATGAGCTATAATT
CAGAGATTCCAAGGGTATCTTGATGACTGCTATTTTAATTGAAATGTATCTCCAGGACTTGGAAAAAAAAAAAAAAAAGAACCATGTTGTGTTATATTTG
GTAATTGTTAGGTGGTTCTTTGTGTTTTAATAAAACAGTTCATCTCTCTCCCTGCCCCACGTTGCTAGGTCTGCAACCCTAGTGTATTATTTAAGTTAGG
AGTGTATGCCTATCTGCTATCCTAATTAGAAATGTTTATCTAAAGCATAAAAATAATTAGTTGAGAATTAGGATCCAAGTTTTCTTTATTAGACACCTAG
TCTGTTTTCATTTATGTTGTGCCTCCCTGCTCCACTCCCTCCTCTCTGCCCCATGAACCACTTCACAGAAACTTTCTGCTATTCCTTTTTTTCTTTTTTC
TCTTCAGTTCATTAGGGTGATTTAGATTAGTTGAATAGACACTGTCTTGTCATTTAAATTACTCTTTTCCTATAGGAAAGGGTTCAGGCAGCCAGGGTCC
ATGTTTTAAATTGATCACTGCATTGGAATAATTATTTAAAAACTGTGACATCCTTTTAACTATTGCAGCCTAAAGAATTAGCCTGTAATGGAAGGTTCTG
CTGGGGTTAGGAGTGGTCCTGTGAGCTTTGACATCTGTTTGCTAAGTATATTTCTAGAAAATCTTTGTAGATCAGTAAATCTTAACTTTTTTATGGATCC
CTGATMCCTTTGAGAATTTGATAGAAGCTGTGAATGGTTTCCCTATAAAACTGAACATGTATATGTACTCAAAATAATTTACATATAAAATTGTTTTATA
TTGTGCACGATCCCCGTACTCAGATTTCATGGCCAGCAGGTTAAGACCCCATACCGCAGGTGTTGAGAGGAGTTGTTGGCACATGAGGAATATTTCACAG
ATTTCGGAGATAGGGTTCTCCCTACTATGTAACTCAGGGGTGCTATTAGCATTCTATAACAGTGCAATGAGCCTTAGGTGTATATTGAGAATAGGTACTA
ATAAAGAATAAATGCCTTAAATAGCAAAATAGTAATAAGAGTGAATAGACTGAGAATTTATGAATTATGTATCTTTCCTTGATTTTTCCAAAAGACTGCA
TTTAATTTAGAAATATTTTTATAAGTTTCTAAAATAGTATTCTAAATTTATGTGGCTATAACACAAATAATATTCAATATCTTCAGTTCTCAAAAAATAA
GGAGTACTTTGGCTTACTGATCCTGGGGATGGACTTAAAAGCATTCTCAGTATTTTCTGCTAAGAACCAGAAAAGTGTTTCATAGGCAAATAAATTTGGA
AAATACTGCATACAGGTGGTAGGTCTTCCTCTTAGAGATTTATAATGCTTATTAGCCTATTAAAAGCTCTGAAAAGTTCTGTATTAAGGAAGCTTAATTT
AATTGTTTTGATTCAGAATTTCTTAATTTTATTTGACTAACGAGTCTTTTTTTCTTTTAACATCTGTTAATCACTGAAGAAACTAGTGCTTCTCAGAACA
TGCTTAACCAAATAATTGGCAGTATCACGAAGACAACTACAGGGTGATAGTCATGATTACCACAACTCTACATTGACAGAATTATTTATTTTAAACCTAT
TTACATATACTTATTAATAGGGTGAAAAGTCCAGTTTTTATAGTTTTCCCTTTTGGTTGTTTTTAAATTTACCATCTTTTAAATTTATCTATTTAACAAT
AATACTAATGAAGTCATCCTTTAATAAAGGAAATTAAACTTGTCCTTTATTGTTTAGGTTTTGTTTATCAGAAACCAGTTGTCCACAAGAAGATCACTTC
CCACCCAATCTTTGTGTGAAAGTGAATACAAAACCTTGCAGCCTTCCAGTAAGTCCTAAGAGCTGTTTTTTAAAATTCATTGCCAACATAACTATCAAAT
AAGTCATCACAACTGTTGTTAAATCATAGTTTTTCCTTAAGAAAACATTTTTATTTTGGATATATATTCATTGACTGGGTGAAACACTTGTACCAACTAT
GTACAGTTAGCAGCAGTGACATTAGCTTTGGGGACATAGGATTTGGAGTTGGGTATGGTAGCTTTAGTGTTGTACTGGATTTTGGGGCGAAGTTTTTTCA
ACAAAATCTCAGCTGTGTTCATGTGAGTCTATAAGCCTATGGTAGAATGGAGATTTGAAGAATGCTATGTCTTAAACAGGAGGTAAGGGTGAGGACTGTT
TTTGGTGCCCTTGAAATACTACTACTCATGTACCTATCTAAGCTTGTTATGAATTCATCCTGATTTTTAAATTTAAGAGATTTTGAATTTTCATCACTAA
TAGTTTTCTCAGGTTTACTATAAGGAGAGTATAAGGTTGTTTGGAAAAATAATAACACAAGAAACTTGTAAATGTTTGCTTCTCTACTTTTTAATGAAAA
CATTCATATTTTCTAGTATGCAGTTTGTARGGGGTTTTTTCTTAAGGAATGGAAGTCAAAATGATTGTGGAAATAATAAGTATAAATAAATTACATTTCA
TTTTTAGGGTTACCTTCCACCTACAAAAAATGGCGTGGAACCAAAGCGACCCAGCCGACCAATTAATATCACCTCACTTGTCCGACTGTCCACAACAGTA
CCAAACACGATTGTTGTTTCTTGGACTGCAGAAATTGGAAGAGTAAGTAAATTTTTGTTTCTACCAGATTTTTGTATTATAAGGAGGGGTTAATCACCAT
GCCTATCTGAATTTATATGTAAATTATGTAAAATGAGCTGCAAAAGGATTTATTTTTGTCTCACAATGAATTTTCAACATGTTTCCATTTGAAAAATGGG
ATTATGAAGTATCCAGTGTTTTATAACCTGGCCCTTTTACTCCACAATTGATCATAAATGTCCTCCTGTATCATCACATGTTCTTCTGCATTATTTTAAG
TGATGATATCATATTCCAATATGAGTATGCCATAAATTTGCCTGTTCCCTACTATTGAGCGTGTTACTTGATTTATTGATTGATTCATTGGTATGTCAAA
GAACATTTTGAAGACCATCTTAGTAGCTATAACTTTGCATGCATATGATAATTTCCTTAGGGTAAATTCTCAGAAGTGGGATTGCTGAGTCAAAGAGCCT
ACAGAATTTTAAGAAATTTTGTGTACATTGACAGATTACCTTCTCCAAAGGTGTTGTACAAATTTATTCTCTGACTTTCAGTGTTATTTGCGTGCTCGTT
AACACTATTATCTTCTTTGAAATTTTTACCAATTCTGTTAGGTAAATAATGCCACCACTGTGTTTTAATTAGTACTTTTTTCATTATTACTGAGATTGAA
TATGTTTTATATTTGTGATTACATTTTAAAACTGTATCCGTGTCTGTTTCTCTATTGCTGTTTTTGTTATTGATTATGAGATCTTCATATAGTAAAACTT
AACTCTGTTTCATGTTACAAATATTTGTTTCCAGTTTGTTGGCCTTTTATTTTTATGTTATTTAATATGCAGAATATTATTAATATTATTTATATTGGCT
ACACAAAGTTTTCGTATAGCCAAAACTTAACCAGTTATTTCCTTTATATAGTCTTTTCTCGTCTCCATCATGCTTTGCCTATCTGCCCTTCCCAAGCTAT
GGAATTATTTGTTTATTTTCTTCTAGACTTCYAAGGTTTCATATTTTACCTTTAAATATTTAGTTCATATTAAATATATGTGTGATGTGAGGTAAAAATT
GCTTTCTTTCACTTTTTAAATAGCTGGTTCTAACACTGTTAACTAAATAAATGTTGATTCTGAAGCCACCATTGTTATATATTTAACTTTTACATATCCT
GAGTGTGTTTCTGATCTTTTTCTATGTTGTTTCTTAGTCTAACATTCTTTTTTTGGGACAATTTTCATGATATGAACTCATATGTATCCACCAGTTCATT
TGAAATTTATTGAATGCTTACCATGTGTCATCTACTATACTCAAAACTGGCAGTACCATAGGGAGGGAAAAAAGTTCATTTTCATGAGGCCTGTGATGTA
GGGGCCTGGTGGACACATACAAAGAATGTGAACTTACTTATAAGTACTATAAAAGAGAAGCACATGGTGATTTTACAGTGTATCAAAGGGCACTTTGAAC
GAGAGAGAGCAGTCAGGGAGGGCTTCCCTGAGGAAGCAGTGACTGAGCCAAGAGCTGAGAAAAGAGTTGCAATCAGGTGAAAGGTTCAGAGGAAACTACC
CACACAACAGCCCAGTGGTAGGAGTGAGCCTGGTTTTTACAAGAAGCTGAGAGGGATTCACTGACTAGAGTGCAGAGAATGGGGAAGAGTGGTATATGAG
ATGTGGCTAGAGGGGTAAGATAGGACTAAACCATTCAGGGCATTGTAGGTAATGTTAAAGTTAAGGATTTTCTTTTTCTTTTTCTTTTTTTGAGACAGAG
TCTCACTCTTGGCCAGGCTGGAGTACAGTGGCACAATCTCGGCTCATTGTAACCTCCATCCCCTGGGTTCAAGCGATTCTCCTGCCACAGCCTCCCGAGT
AGCTGGGATTACAGGCACCTGCCACTGCACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTG
ACCTTGTGATCCACCTGCCGTGGCCTCCCCAAGTGTGGGATTACAGGCATGAGCCACTGTGCCTGGCCAGGATTTTCTCTTTTTAAGCAGAAAGTTTATA
GTGCTGTATTTCTTTTTAGAAAAGATCACTCCTTGGAGTGGTAAATAGTTTAAATGGAGGCCAGAATCGTGCAGAAGGACATCTCTTAGGAGCCAGCTCT
TGTGGAAGTATTAGTGAAATGGTATCTTTGTCTAGAGTGGTGGCGATAGAAATGGAGGTAAGTAGGGGCATCTGCAGGATTGAGTGATGAATTGAAAGTC
GAGGGCTAAGAGAAAGGGAGATGTGACTGATGAGTCCTTGGTTTCTGGGTGGGGGGCTAGGCAAATGATATTGCTGCTGAGATAGAGGAAACACTGGAAA
AGGACTGAGTGTGGGTGTGTTTTGTTTTGTTTTTGTTTTGTTTTGTTTTACTTTGAAGAATGGGCATTGGAGGACAAGATGGAGAAAATYATGAATTTAC
TTTTGAAACTTTTGAGTTTGAAATGCCTGTGAGACATCCTGAATAGGCAGTGGGGCAGATAGGCTTAAAGGATACATTTGGGCTAGAGGGAAAAAATGTG
TGAGTCATCTGCATATTGGTGGTTATTGGAACCACACTGGCAGGGCTGACATTGATTCTCCTGCATTACTTTTTTTTTTTTTTTTTTTAAACATTCTTTC
TTCCAGATAAAGTAGAATTACTTTATCATATTTCTTTTCCTCGCTCCTGTACCCCATTTGCACATCTTTCTGAGAATTTGGATGAGATTTCTTTAAAGTT
ATAGATTAAGTTAGGGAGAATTTATTTACAATATTTAATATAACCATTCTAGGAACTGTATTTTCAAATCTTCTTTTATGTTCCTCAGCAATTTAATGGG
TTTCCTACAATTCCTGCATATTTTTTGCTAATTCCCATGTTGGTTGTTATTATTACTGCTATTATAAAAAGAGATCTTTTTTTCTGTTATATTTTCAAAG
TATTTATTGTTGGTTTACTTAAAAACTAGTTATTTTTAATATTTATTTCATAGCTAAATTCATATATTGGTTCTATTAGCTTTTTAGATGATTTATTGGT
ATTTCTATGTTGACAGTTTTGAGTTTTAGGTATGTCATATAAATTATATTACCCTAATACTTTTGTCATTTATTTCTTGTTCTACTACCTAGAACTTTGT
AAACAGCGTTAAACAATGCAGGCACTAGTGGACATATTTGACTTGCTCCTTATGTTAATGAGAATACTGCTACTGTTATAACATTATTATAATGTTGCTA
TTAATTTTGATAGAATATTATATCAATGATGTATTTCTATATTTCTCTTACTGGATTTTTTTTTAGAAATGGATTTTGAATTATATCAAAATTCTTTTTG
ACATCTCTCAGGGTTATATTTTTTTCCTTTAACTCATATGTCACCATTAGGTTTTTAAAATCCTTTTAAATATTTTATTTCTAGTGTACCTTGGAGTTCC
CTTTTTCCTCCTTTTTGGGGAAAGTTTTGAAAATGTTTTGTTTTTGTGTATGAAAAGAATAGCTCACCAAGGAAGAAGGGGAGTGTTTTTGGTGAAATAG
GAAAGAAGTCTGAAACTGTAGGAGAGGAGGGGAATATGGCCGCTGATAAAAAGCACTAGAGGAGGGGGGAAATACTCTTCCATAGGAAGGCTTCCAGCTA
CAAAGATTTGAAGACATTTTTCTGGGGAAGTAAAACACTAAATCAGCATTATTTTCCAAAGCCCAGAAAATAACTTAATAGATTGTTTTTAAATTACTGT
TTTAATTCAGCTTGTGAAGATATTCTGAATAGTTCATGTAGAATATCTTACTATTTTGCAGATACTTTTGTATAAATAGTTGCCAGTGAGAAATGTTGCA
ACTGTGTCTTTTCAAATGAAGTAAATAGGAGAGCTAGTATAGCGCCTGAAAGAAGTAAGTGAGTTATATTGTAACTTCTTGCTCTACCTCAGGGTAAGCA
CTCCTTTTAGCATTTATTAAACTCTCATTATTTGTAGAGAAATTATTTAGATGTAGGTTGAGTATTCCTAATCTGAAAATCTGAAACACAAGATGCTCTA
AAATTCAAAACAGGATGCTCAAAGGAGATACTTGTTTGAGCATTTCAGACTTCAGATTTTCAGATTAGGGATGCTGAACTGGTAAGTATAATGCAGATAT
TCCAAAATCTGGAAGAAAAAAAAAATTCAGAGTCCAAAATACTTATAGTCCCAAGCATTTCGGATCAGGGATACTCAACTTGTACTAGTGTAAGGGGCAC
ATAATGAATAGAGTATATTTCAATTACAGAGAAATTATCTCATGAACTTGACAAATAATTTTTAAGACTTTTGAAAAAGCAATAAACAAAACTATCAGTA
TAATATAATATAATATAGTATAATATATATCAGTAGTTGGAATTAGTATTTGAAGGATTAGCAGGAACAATAAAATACTGTCTACCTAGAAAAGAATCTC
TGTCACTATTAAGCTTTGGYGGGGTTTTTTTTGCTGCTGAACCTCTTTCATATGATGTAAAAATTTCATTTTATATTACCAGTACAAGTGGCATTTGTTA
GTACCACATTCTTTTTGCTGCTTTTATTTTATTTTTCTATTTGCTTACATGTTTCAACTAGAGTGAGCATACCTTTTCACTGAACTTGTTGCAGTTTCTG
CTTGATCTCTTCTTAAATATTTATATAAAGCCTTAGGGTAATTCCAAGTTCTGAAGATTCAAGTTGTCAATACATAGTTTCACATTGTTAATTAGCATTT
CTCCAGTTTCTGTCATACTTGAAGCATTAAGCAAGTAAATAATAATGGTGAATAAGATTTTTTTCTAAAAGAAGCTTTCCAGTTGGGCCTGGTGACTCAT
GCCTGTAATCCAAGCACTTTGGGAGGCTGAGGCAGGCGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATGGTGAAACCCCATCTCTACT
AAAAACAAAAAAAACAAAAAAACAAAACACACACACACACACACACACACACACACACACAAAAATTAGCTAGATATGGTGGTGCACACTTGTAGTCCCA
GTTACTTGGGATGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGTGGAGGTTGCAGGGAGCCGAGATTGCGCCACTGCACTNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTCTCCTGC
CCCAGGCTCCCAAGTAGCTGGGACTACAGGCACGTGCTACCACACCCGGCTAGTTTTTTGTATTTTTAGTAGAGACGGGGTTTTACCACGTTAGCCAGGA
TGGTCCCGATCTCCTGACCTCGTGACCTACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGTCATGAGCCCCTGCTCCCGGCTGGGAAAGTTTTAATG
TTACTTGTTCCTCATTAATGTGAAATTTATTAATGAAGGTAAATTCGCTTTTTTGACACTTCTTTTTCCTCCCTCTCAGAAAATGTGTAGCATGTAAACA
CAGATAGCTTTCCGAACTTTAAATAAAAATATGACCTTCCAGAGAGTATTGTAGTATATTTTCTGTCAAAAGAGGGGAGTGCATTAAGTTCCATGTCTTA
ATATTCCCACCCTTTCCCTTTGGTTTCTAGTGTCTGCTCTGTCATCAAGCAGTTGCCTAATCATGAGCAGATTGCATAATCTTTTTGTGCCTCAGTTTCA
TCAGCCCTTCACTTAGAAAAATACCTATCCTACCTGTGTCTTAATAGGCCTTGTGCAAAGTTTAAATGAAGTAGGCAGCGTATGTTAAGAATGCTTTGAA
AAATGTGTGTAGCTATAAAATACAAGATGGCAGCAATTATTTTTCCTTTTACTTCTTTTCAAGTCTCTTGATCTTCCTCTTGATCCCAGCACCAAATAGA
AACTGATCCTTCTCATTTAGATCTCCTTCCTACCCTTCGTGAACCTCAGCCGTCTTTTCTTTCTCTTACCCAACCATGTACCCTTCACTTAGTCTTAGCT
TGTTGATTAACTGTTTTTTTTTGGTTTTGGCTTTTCTTTTTTTTTTTTTTTTTTGGTCCCCTTCTACCTCTGTCATCTCTGGGTAGTCTGTCTGCTGGTA
ATGGATATTCATCTGTTCATTTGCCAAACCAGCAGCTTCTGTTTGAAAACCTTCTTTAATATTCCCTCTGCTTGTTGTGATAATGGCCCAAGTATAATCT
TTTCAAGAGCTACTTGAAGGCATAGAGAAAGGTTAAAAGGTATAAATTAGGAAGCCCATCTCATTTGTCATTTAAAAAAAATAGATACTATTTTAGATAT
ATCTGTTACCTACTAAATATGGTTTATAGCTTTGACATCTTATTGTCTTTGGCTTATACTTAGTCTTAACAGTATTCTTTCATGTAAGTGCCTTAAATTC
ATTAGCTTCAAGTATAGGTAATATTAAATCCAAGACAGACCTGGGTTTAAATTCTAGGTTTGTTACTTGAAAATTGCARAATTAGGGCAAGTTCTTTTAC
TTCTCTGTACTTCAGTATCCTCATCCATAAAAACAGGTTTATGATCATCTCRGCAGCTTTTTGGTCAGGATTAAATGAATTACTGTTCATGAAAACACCT
AAGACTGCTTGACACACAGTAGGTGTTTTAAGAAGTGTTAGTTTTCTTTCCCTATCATGGTGAGATTAAAATAGATGTACTATTTACTTACATATGTTGT
TTGTTTTCTACATCTTTTTTTTTCCAGAACTATTCCATGGCAGTATATCTTGTAAAACAGTTGTCCTCAACAGTTCTTCTTCAGAGGTTACGAGCAAAGG
GAATAAGGAATCCGGATCATTCTAGAGCTTTAAGTACGTATGATAAACTTATTTCACTTATTCAGCTATTTTGTTAAAGGTTAGAGTAGTATTTTCTCAA
CTCAAGAAATTTTAGAATTTGTTTATTCACTGGAGCCTGTTGTGTAGTTCTTAGAGTAGTTCTGATATCTTTGTCATGAGCTATATTTTATAATCTATAT
TTTACTAATCTTAAAATTAACTTTGTGAAGTCAGTGCACAAACATGGAAGAATATTATTCTACAACTTCATAAAATCAATGTTTAAGGAATTCTGGGAAA
TGGGAAGGGCATCTTGGCATAAATTTCAAGAAAGTTATTTTAGATTGGTGGTTTATCCAGGAAAAATGTACAGAATTATATCATGGCCTCACCCCCTGCA
TTTACAAAGTGAAGAGAGCCAGTGGGGTGGTAGAAATAATAATTCTGCCATTAATCAATTATATGACTGTGGACAAGTAACGCTGCTCCTGAGTTTCATC
TTCCTCATCTGTAACAAGAAGTTTATGCCGTCTGATTTCTAATGCTTCTGCGAAGTCTGGGTTCATACGTGTGAATTACTGGATGGTTTGTTTTGATACG
TTGAATTTGAGATTCAAGGTCTTCAAATGGGGCTGTGCTGACCTCTGTTTTTAAGGGTTAAGGTCAGAGGGTTTGGCCTTTCCAAAGAGGTGAACTAAGT
TCTTCGTTTATTCTTTTATTTGTGAGAGCCGGGGGCTGCGTGGATTTAGGAGTGAGGGCTGGGGACTTAGAAACAAAACTTTTATAGGCAGGTGTTAGAT
AGCTATCCTTTAAGGACTTTTGATGTGAACTGATTAATGAAGCCCATTATCAGATTTGTACTTAGGAACACTCTGGTGGAAAGAACTAAGATAATAGCAG
CTTTCCTTTTGTAGCATAGCTATTACCCCTTTCTGTAACTTATTTCTGTGGCAGAGTAAAAGATCCCACTACCCCTGAATATCAATATACCCTTAATAGT
TCATTGAAGAATTTTTCTGTATTAAAATGGTCCTTTAAAAATGCAGCTAATCCTGAATCAATGGGAGCACACTTTGGCTAATGCCTCTGTAGGCATGCAT
TGACAGATGATGGAGACCTAGAAGGGCAGCACTGATTTGGGATCTGCGGGAGTGGTGGCACCATTTGGCAGGGATAAGAAGATGGTAGGGATCCTGAAAG
AAAAGACAGACATCTGCCTTGAAGGAGAGTATAAGATAACTTGTCTTCTATCACAATCTTGCTGAAGTTATTCCTGGTCATTCTACTGAGAATCTTCGTA
TTTGCCTCACAATACTAGAATCTCAGCCAGTCAGAAAGCAAAGAATTATGTGAGCCTGTATGGAAGAGGGAATACCAAGAAATAAGGCAGATGAAGTTAT
TTTATTTAATAGTAACAGCAACAACAACAATAAGGCCAACTGTCTTTGCTCAAGCTGTTAACTCTTCTCCGCTTGTAGCTATAGCACCACCTGGAGGGAG
AGTGGGAACGTGAGTCTGGAATTGAATTATTTTATTTTCTCCGAGAAACCACTATTAGCTACCATTAAGCAGCAAAAACTGTTTAATTCAAAAGCTATTT
CTAGTCTGATATACTGATGGATGTGGAGAATAATTGTACACTGGATGAGATTTTTGTGGAAATTGATACCTTACCTTACTTATTGGCCAGGGAAGCCAAT
GGAATATTAATTTGGATCCCACCAGTAAGAAATTTGTTGTAATTTACTAAAAAACAGGTTATCTACCTTTACCTGTATGCTGCCTGTAAAAAAAAAAAAA
AAAMAAAAAACCAAAAACTTTCCCAACAAATTATGTAATTAAAATTCTGTTTACAATAACTTGACAAAAGGAAATGTCAGGTATTTTAAAAGAGTCAAAT
CAGTTACAAATATGTTCTTTGTAAGTCATTCTTAATAAAATAAGTACTTCTAGCAAAGTTTTAGTAGTCAAGCCAGACACTCTTATGTTCTTGAAAGAAT
AAAGTTGGTATTATTTAGACTTTTCACAGAGAACTCCATTCTCTGAATCATTTGATKTAGTAGGATTTTGTCTTGCAGTTTCTGCCTTTGTGTAGAGTTG
TCCCCTCACAACTATGAAAAACAGTCTTTTACCAACTCTTAATCAAGTTTCTTTCTCCTCTTCCTTCTCCCTTCAGCAGTTATTTCAAGCCTTAGCCATA
ATCTAATCAAACACTATCCCCCTCTCTCAGCACTCTGCCAATGCATGAAAATTGGGGCTACAAGACATGAATTACCTAAACCACCCATTTCTTCCTTAAT
CTCAGTGCCACCATAATTACTTTTTTAGCTTATCTACATTTGTGCCCAGTCCTCGCTTTATTTTGTTCAGTGTCAAGAGGAAATCTCCCTTTCCCTGCTT
ATTCATTTATTCTTTTCATTCAAGAAATTGTGTTAAGAGTCTACTGTGTTCCAGGAACAGGAGAATATAACATTAAACAAGACACATACCATCTCTGCAT
CCCCCAGAAGTTTGCAGTCTGGTAAGAAAGACAGGCATTAAATAATTGCACAAGTCATTAATGAGTTAAAGTTTTGACATGTGCCTTGAAGAAGATAGAC
AGGGAACTCTGTAGAGGTACAATAGGGGAACGTAGTCCTCTCTGATACTGTGATACTTAAGGCAAGATTATAAGTATGAGGAGAAGTTAAGCTCCAAGAT
GGGAACAGAGTATGCCAGGRGAAAAGGCCAGTGCAGCTGGAATAGAGAGAGCCAAGAAGGGCTGGGTGCAGTGGCTCACCCTTGTAATCCCAGCACATTG
GAAGGCCGAGGCGGGTAGATCACTTGAGTGAGGTCAGGAGTTCCAGACCAGCCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATT
ATCCTGGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTCGGAAGGCTGAGGCACGAGAATCGCTTGAACCCGGGAGGCAGAAGTTGCAGTGAGCTGAGA
TCGCACCACTGCACTCCAGCTTGGGCAACAGAGAGAGACACTGTCTTTAAAAAAAAAAAAAAAAAAAAGAGAGAGAGAGAGAGAGCGCCAAGAAGGAGGG
TGACCAGAGAGTTGGACAGGTATAAGTTGACATAGACGATATGAAGATAGATGATAGAAAACCATTAAAAGATTTTTAAGCAGAGGAGTAAATGACACGA
TTACATTTAGACAATCTGATTCTCACTTTGAAGACGAATCAAAGGAAGGCAAGGCTAATGCAGTGAGGCCAGTTGAGAACCTGTTTGTAATAGTATACGT
AAGAGATGATAATGTCTTGAACTAAGGTGATAGTGGTAGATAGAAGTTGACAGTTTTGAGAAGCATTGAAATGGCATTGACTGTGTGTGTGGAGTGATGA
GTCCAAGGAGGAGTGCTAAGCTTCTTACTCAAGCACTAGGTAACATGGTAATGCCATTTACTGAAACAGAAAACTGTGTTGAAAAGATCAGATTGCAGGG
GGGAGATCAGAGTGGACTGTTAGACTTGTGGTGTTTGAGATGGGATGAGACATCCAGGTAGAGATGCTTGGTAACAGTATTATGAGACCTGGCTCCCTCA
TATATCTGCTCTTTGTCCTGTGTTTTCAGTTCCTCTCTGTCTGCAGGCTTTTTCTGTCACTCTGTGCTGTCAAGACTCTTTTATCTTTTAAAAAATAGGA
AAACAAGCTCCTCTATGGATAGAGCTCTGTGTTCCTCCCATTGTTCTCATCCKAATTTTTGTGAGAGTAGTCTACACTTGMTCTTTTTACCTCCTCACTG
CATCTCATTATGGTCTTTAACCCTCTATCATTCCACTGAAATTGCTCTTTCAGATGTCACAAATGATGATCTGATTGCTAAATTTAAAGTGTATATTTTC
AGTTTTCATCCTGAATACTTCTGCTGCATTTGATATGAACCACTTTCTCCTTGAAATTCTCTCCTTTCTTCTCTGACCATATCTTCTCAATCACCTGCCT
TCAATGGATTCTCTTAAGGGAAGCATTCTAAATGTGGCTGTTCTTGGAGTTTTATCTTGGGTGCACTTTTCTACGCACCCTTATGGTTTAAAACTAACAC
CCACCCCAAAATACATGTCTTCATCTCAGACCTCTCCCCTGCGTTTCAGACTTATATAGCTAACTACCTTCACCTAAGCATTTCACTGGTTCCTCAAATT
CAAGTATTTAAAACTGAACTCACCAACTCCTGTCAAACTTACTCCCTAAATATTTCTCAAATGTGCCTTCTGTCTATCATGCTATCATTGCCCTTGTTTA
AGCTCTCATATCCTGCTTTTATTTTAAAAACCATTCTTAGATAAAACATCCCTCTCCTTGACGCCTTTTTCTATCTCCTCTGGTAGCCTCCTAAGTGATT
TATACAGATCTAAAATCTTACCATTCTCATTCCCTTGCATTTCATGGCTTCTTAACACCAAGGGAATAAAAACTCCAAGTATGTTAGCATGACACACAAA
CTTTCCATCATGTGGCACCTGCTTATTACTTTCCAGGGTCGCCTGTATTCACTCTGCTTTTTAAACTTTCCATGACGTGGCACCTGCTTATTACTTTCCA
GGGTCGCCTGTATTTACTCTTCTTTTCATACTTCACATTCCATTCCAAAAATATGGAACTCTTTAGTCTTTCTTCAGTGCTTTAGTTTTGTGCTCTATGC
CTCAAAACTCCCCTGCTGCCTTCTCTGCCTAATGTCATTATCCTTTGTTTCACTTTTTTCCAGGAGACATCCCAGAACCCCCAAAATTGATGAGTTGACT
TTTGGTTAGCTTCCTGAACATACTCCATCAGAGTGCATTAGAGATGATCTCACTGAACATCTTTACCCTCTACTAGATTATGAGTTCTTTGGAGGAGGAA
TTTAATCTTATTTTTTTTCTTGAATTCCTATTGCTCAGCACAGTGCCACATACATAGTAGATCTGCATATTTTTGAAGTAAACTGATGAAAAGACAGCTA
CAGAAAAAAATCAGGTCTTGGTGCCTGTTTCTTTGCTTATAAAATGAAATATTGATCTTAATATGTTTGATTGTTTTCGGCCTTAAAATTTTAAAAGGCT
GAATTAAAATAACCTGATATTAATGAAGGATAGAAATTATCTTGAAATAATAACAACCCCAGAACACCAGTAATAGAACAATCTGTGATAATGGAAGTGT
TCTCTATCTGCACTGTCCCATATGGTAGCCACCAGCAACATGTGGCTATTGAGCACTTAAAATGTGGCTAGTTTAACGGATGAGCTGAATTTTTATTTAA
ATTTAAATACAGCGTCATGTGAGTAGTGGCTAACTCCTGTAGCTCATGACAACAGGGATTAAAAACAAGATTAATTCTGCTCCCCAAATCGACTTATTGG
GTAAAACAAGATTAATTTTAAATGTGACTAGCTGTAACTTTATTATAGTCATATAATAAAATACTGTTAGCACTGCAGATCACTGTAACAATGTGAAAAC
TTTAACTCCCAGAGAACTTCCCACATGTTGACTGATTACTGCAGGACAAATATTATATGTCTTATTTTTATTTTTTATTCCCTTGCTCACAAGTAATAAG
TGCTTCTACTTTTACTTTATTTTTTCTTCATACTTTCTTATGATTAAATATAGCATAGTGCTTTTCCCCTCCGTTTTCTCTCTTTCTTTTGAGAAAGTTT
TTTAAAGTATAACTTATAGGCAATAAAAATTCCTTTGACAGATGTATACAATCATGAACCACTGCCACAATCAAAATATAGAACATCCTTTACCCCAGAA
AGTTCATCTGTGGCCTTTTGCATTCCATCCCATCCTTTTACCATTGATGTGATTTCTGCTCTGTAGTTTTGTCTTTTCCAGAATGTCAGGTAAATGCAAT
CCTACAATATGTAGCCTTTTGCGTCTGGCTTCTTTCACTTAGTATAATGCTTTTGAAGTTCATCCATGTAGTTTGTTCTTTATTGCTGCGTAGTATTTCA
TTTATGTACTATAATTTATCCATTTGATAAATGATGGACATTTATCCATCTGATAAATTGATGGACATTTGGATTATTTCCAGTTTTGCAGCAATATGAA
TAAAGCTGCTGTAAACATTTACATTTTGCATATGGATACCTCAGTTTTGTAGACATATGTTTTCATTTCTCTTGGGTAAATACCTAGGAGTGGGATTGCT
GGGTCATATGATAAGTATATATGGAAAACAGTTTGGCAATTTCTTTTAAAGTAAATATACCATTTTTGCATTCCCACTAACAATGTGTGAGATTTCAAGT
GGCTCCACATCCTTACCAGCATATGGTATCATCAGGCTGCTTTATTGTAGCCATCGTGATTGGTATGTAGTGGTATTTCTTTGTGCATTTTTCTGATGTC
TAAGGATGTTAAGCATCTTCTCAGGTGCTTATTTGCCATTCTTATAGCTTCTTTGATGAAGTATCTGCCAAATTTTTTGCCCATTTTTTAATGTCATGCT
TTTGATATATTATGAARTCTTTGCCTAAATGAAAGTCACAAACACTCTCTTCTATTTTTCTTCTAGAAATTTTATTGTTTGAGCTCTTGGATCTAGGTCT
GTGATTCATTTTGAGTTAATTTTTGTATATGCAAGGTGAGAGTAGAGATTCATTTTTTCCCCCACATAGATATCGAAATATTCCAACAGCATTTGTTGAA
AAGACTGTCTTTCCTTCCATTTCATTACCTTGGCACCTTTATCAAAAACCARTTGACCATAGATGTATAAATCTATTTCCGGACGTTATTCTTTTCCATT
GACCTGTATGTCTATCCTTATGCCAAACGAGTCTTAATTACCGTAGCTTGATAGTAAGTCTTGAAATCAGTTAGAATTCTCCAATTTTGTTTTTCTTTTT
CAGAATTGTTTTGAATGTTGTTAAGTCCAGTAGGTGAAACAATACATGGTGACCAAACAGAATTTATTTCTGTAATACGAAGTTGGTTTCAGCATTCAAA
TGCTGAAATATAATTCACCTTCTCAACAAACTAAAAATGAAAAATCATATGATCATCTCCAGAGATGCAGAAAAAGCACTTGGCCAAATTCAACATCCAT
TCATGATAAAACTGTCAGCAAAATCGAGAAGGGAGCTGCCTCAGTGTAATAAAGAGTATTTACAAAAAGTCTACACTACAGCTGATATCATCACTAATGG
TCTAAAACTTGAATGCTTCACTCCTAAGATTGAGAACAAGGCAAGGATATCTGCCCCTAGCGTTGCCCTAGAGATCCTAGACAGCACAATAAGACAAGGA
AAAGTTTTAAAAAAGAAACCAACACACAGGTTAGAAATGAAGAAATAATTATAGTCTTTATTTACAAATGACCTTATGGTCTGCATAGAAAAAGATCCCA
AAGAATCTCCAAAAAAGCTACTAGAAATACTATGTGAGTTTAGCAGAGTTAGAGAATGCATGGTCAATATACAAAAACAAATTGTATTTCTGTTAGTAAT
GAACAATTGGAAATTGAAATTCAAAAAAGATTTTACAGTAACATCCAAAAATATGAAACACGTGGGGATACATCACACAAACTATGTGCAAGATTTGTAT
GCCGAAAACTACAAAGCATGGTTGAGAAAAACTGAAAGAAGACCTGCATAAACGGAGAGATATATCTTGCTAAGAGATTGAAAGATTCTATTGTTGTATG
TCAGTTCTCCAAATTAATCTGTAGAATTAATCCAGTCTAATCAAGATCCCGGTAGGACCTTAAAAAATATCTTTACAAGAATAAAAGGACTAGGATTGGG
TCTGTAATGGCAAAAGAGAAGGCATAGGTTTTTTTTTTTTTTTAATAGAAATTGGCAAACATTCTAAAATAATTTCAGAAAATTCTCCCACCTCTGAGAG
AAAGTGAATATATAAATCGTGTTTTATTTTAAGTAACAATAGCTAATATTTATYGAGAATAATATTAGGCTATTTTAAAACTTTTTTTGTTGCCAGCATG
GTGGCTATGCCCATATTCCCAATACTTTGGGAGGCCAAAGTGGGCAGATAACCTGAGGTTGGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACCCTG
TCTCTGCTAAATACAAAAATTAGCTGAGCCATGGTGGTGCACACCTCTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGATG
CAGAGGCTGCAGTCAACCAAGATCTCACCACTGCACTCCAGCGTGGGTGGCAGAACCAAACTNNNNNNNNNNNNNNNNNNNNTGGCAGCAATTTCAGCTC
ACTGCAACCTCTGCCTCCCAGGCTCAAGTGTATTTTGAAACTTTTTATGCATATTAACTCAATCCTTAAAACAGTTCTGTGAGGTACTATTATTGTTCCC
ATTTACCGGATGATGTAACAGGCATAGAGAGGTTAAGTGATTTAACTGAGACTAAATTCTAAGCTAGGCTATCCCTAGGTCCTATGCTCTTAACCACTAC
TTTATGTTGCCTCTCTTATTTCAATTTATTTTCTAAGCACTAAACACTGAGCTTTGTTTTGTATAAGGTTGATACTATGATCTATAATATTGCTTCATTT
AAGTGGAAATTTAAATATGCAAAGTTCAAAGTCAGTTACTATGCCCATTGCTTGCTATGTCTATAAAGGGTGCTGGTGGGATGGTTGGTGAAGGCATGTA
GAGTGGTTATTAGTCAGGGTTCTCCGGAGAAACTCTAGGAGGGGAAGGAGAGGGAGAGAGGAAAAGGAGAGAGAGAGATGAGAGAGAGTGAGTTAAGAGG
AGATGTATTAGGGGAATTGGCTCACATGACTATGAAGGCTGAGAATGCCCACAATAGATAGGCCATCAGCAAGCTGGAGAACCAGCGAAGCCAGTAATGT
GACTATTGAAGTCCAAGGGCCACAGATCCAGGAAGCCAACTCTCAATCTAAGGCCAAAGGCCTAAGAGGGGTGAGGAGAAGGGCTGATATGGTGGTACAA
ATCCCAGAGTCCCAAGCCCAGAGAACCTGGAATTCTTTCTTTTTAAAGATGGGGTCTTACTGTGTTGCCCAGACTGGTCTCAAACTCCTGGCCTCAAGCA
ATCCTCCTACCTCAGGCTCCCAAGTAGCTGGGATCACAGAAGTCCAAAGGCAGGAGAAGAAGGGTATCCCAGCTCAAGGAAAAAGAGAAAGTGAATTTAT
TTTCCTTTCCTCTGCCTTTTTGTTCTTTCCATGCCCTCCAGCTGATTTGATGGTGTCCGCCAAGATTGAGGGCACATCTTCCTCACTCATCCACAGACTG
ACACACCAGTCTCCTTTGGAAACACACTYGCAGACACTTTCAGAAATTATGCCTTGCCAGCTATGTAGGTAGCCCTTCGTTTAGTTAGTTGACACCTAAA
ATTAGCCAACACAGTGAGTAATCACATTAGAATTCTATTTGCATGTTTATTTCATATGGCGATTATTTGTTGCCTTTAACAAAGATACTACTTTKTAAAA
TCATATTTATAAGAAAGGATTGACTAAGATTTGGTGTATAATGACAAAGGCATACTTTTTGTAATTTATATATGGTATTCATTAGCATAGTGTTACAACT
ATATTTTCCAAACTAAAAACCAGAAGTTGTATGCCTTTTTTGTGTGTCAGGAGACAGCCTGTGAAATATATTAAGACTTTGAAAATTTGGAATTTCCAGG
CCATGAAATGACTTTTTAGTCTGGCATTAGAATCATATCTGGAGCTTTTAAAAAACTACCAATTGGTGTCCCTCTTTTCATTCTGATTCAGGAAGCTCTG
TAGGTAGGTCTGATGTGCACCTTACTTGAGATCCACTAATTTATGGAAATAGTTGGATAGGATCTCCAGGATTTGGACCATCTAAAAAAATCCAGACTAA
AATCCAGGGGACTGTGTTTAATAAAGGTAGGATTTCTCATAAATGGTTATCAGAACAGTAGACTCTGAAATTGTAACTTACCCGAGTACTTCTCCCTCTC
TTCGTTTTCTTTTCTATATGGTGTCTTATCTGGTCACACTTAGTTGTACCACAGCTCAGAACTTCTGTTGACTGTGTATACAGCTACCCAACTTACGGCC
CCTTTGTACAATATAGACTTTAAAGTTATTATGGGACAGTTTCTAAAATTGTTGGAATATTACATATATGTATTTCCTGTCTCACCCCCTATAATGTTTT
TTCTTGTTACTGTTATTGAAGTTTTCAGAGGTAACAGCTAAGGTTTCCAGATGAGAAGTATAAAGAGTCTTTCATATCAGACTGAAAGAGAATGAAAGAA
CAGCCTTGGAAAAGTAAAATTACTAGTGTCTCCTCCCTTAAGAACCATAAGAAGTTTGAAGTGAAAAGACTTAAAGATTATCTAGTGTGGGTTCCARTTT
TACTACAAGTAAAATTAAGCTGAGAAAGGAGGATTGACTTGCCTAAGAGGGCACAAGTATTTTATAGAGAAATAGATTAAAATTCAAATAATTGTATAGT
TAAAAAAAAGAAATAGGACTCTTTTCATAATTTGAAGTTTGAATTAAGCTGTTTTACAGTAAATATTTTTATTTTCTGAGCTTTCAAAAATGTATAAATG
TTATTCTTATTATTAATGTCCTCGAAAGTAGAAGAGCCCAAGTAATATTAGTCATAGTTTAAAAGAAAGAAAACCTTGATCCAATATCTTAGAGTTATAA
AAGAAAAAGGGTCTACCATTAGTTGAATATGTCAACATATTAGAGAAATTTCTCTCATATTGCTGCAGGTTTTTGTCCCCTGAGTGAGAAATAGGAAATT
TATAGGAAACATAGTCATTCTACAGATAAACAATTGTTTTCCATCCTTTGCTTATAGAATTAAAAGCCATATGGTTGTTTTTATCTTTCCATTCAATTGA
TTGGGAAATAATTGAACAGATTTGTTTAAGCTTTTTATTCTTTATAGTAATGCTCCAGTAATGTATCTTTAATAAAACTCTGTTTGCTTTTTTTCTTCTT
CTTCAATGAATATCAGTTAAAGAGAAGTTGACTGCGGATCCAGACAGTGAAATAGCTACAACCAGCCTAAGGGTTTCTCTACTATGTCCAGTAAGTGTTA
ACTATTACTTGCTTTCCAGAAAGTTTAACATACATTTTCTCTTTTTATTAAGTATTTTTACTATTTGAGAAATTCTGTTTGCTTCTAAAATATGTCCACC
ATTGTTACAGTTTATGAAAAGTGGAAAGACATCTAGGCATTGCATTTGGAATCTAAACAAGTCTTTAAAAATGATCTACTCTTAGTAAGACATATCTAAA
TATGGCCTGTGATTAATGACCATCTCTCAGGCTCAAGTGTAAAATCTCAAAATAAGAAATGTTTATTGTCTCAGTGTATTTATAAAAATTTTACATTATT
TATTTTTATTATTGTTATTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCARTGGTGCCATCTCGGCTCACCACAACCTCTGCCTCCC
GGGTTCAGGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCATGCGCCACCACACCTGGCTAATTTTGTATTTTTAGTAGAGATGGGGT
TTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTTGGACTCCCAAAGTGCTGGGACTATAGGTGTGACCCACCGCAC
CTGGCCAAAAATTTTACTTAAGATAGTACCTTTCTGAGTAAAAATCTAGCCATGATTACCCACACATCTCATTTAACCATTTTGCTAACAATGACCACAT
TATAACAATTCACCAATTAAAAACTTCTGTTCAGCCTAAATGCTGAATTTGTTATACATATAAAAAAACCTTGAGATATTTTAAGCCAGAAAATGAGGTC
AGAATCAATCATTTTCATGAAATAAATATATGGTCCCAAGACTTAGCCAAATTATTAAACCTGTAAGGGAAAAGGTCTCAAAAAAATGTTATACTAATCT
GATGTTAGGCTCTTTGGTAGGGGTGGTGGTTGAATATGGCCATATGAAAATATGTGAAAAATTTAATAATTAATTACSTTGACATTTTGGTTACTTTTTG
TTCTATAATTAATCAAACTAATCATATTTTAAATTKGGGAGAAAGAATGAAAGGACATGTCTGTTTCCTGATTTGTCTGATTGTTCAGACAGGCCTGATA
TTGAAAGCTTTTGATACTGAGATCCTATTAATCTCAGATGATGATGAAGTTACTGTATTCTTAAAGAAACAAAGAATTTAAATAGAAATTAAATGTTATT
TGTAATTACAAATATTAGTCTTTTGTAATTTATGAAACTTCAAACATGAAAAAATTAGATCATGAATTAGTTTCTGTAAGTTATAGAAAAAAATACAATG
AAGTTAATTAAAATCATCAAATTGTATCATTGTGTATATATCTTTCTATTCCTGTAACGTTTATTTTTATTCCTTTTTATAATAAAGCCAATTTTTTTCT
TGTGAAAAATATTTTGACTCCAGGCTTTTTATATTAGTGTTAAAAATTCTTTAAGTAACCAGGTAAATGTTATAACAGCCTAGGTTGTAAAGGAGACTGG
TGTGGGTTTTTGTGTGTGTGGTTTTTTTGTTTTTTTATTTTTTTTTTCTTTTCATGCTTAGAAAAATGATTCACAGACTGGGGAAGTAGAGGGTGAGAAA
AAGACAAATTTTTTTTTTAAAGAAAAAGGTAAAAAGGTGTATATTTATTCTACCCTCTTTCTCCGAAACCCTGATTTATCCATTCCCCCATCTGTTGTTC
TTTGCCGCCTCATTTTGTTGTAAAACACCAATTCAGAAAATACGTTTAGAAAAGTACATACACTTCATTTTCCATTTAAATCACTGGAAAAAGTATTGTT
TTTCTGCAATCTCACTTAAAAGTGTTTATAGTTGTACTAATATATATGATGCTTTATGTTTAACACATATATGAAGCATTTATTCGTATAAATAAGCACA
GTAATATAAATCTTTGAAGTTTTATTTGTGGAACTGTGTTTCAATTCTGTAGTGCAGGTGCTCATCTCTGTATTACTAGAAACTATTAATCACATTTTGC
TCTTTGCACCTTTATTTATTTTCTTTTTTGAGACGGGGTTTCACTTTGTCACCCAGGTTGGAGTGCAGTGCTGCCATCTCAGGTCACTGCAGCCTCCACC
TCCCAGGTTCATGCAGTGCTCCTGCTTCAACCCCCCAAGTAGCTGGGACTACCGGCATGTGCCACCACACCCGGCTGATTTTTGCATTTTTTTGTAGAGA
CAAGGTCTTGATATGTTGCCCAGGCTGGTCATGGACTCCTGGCCTCAAGCAATCCTCCTGCCTTGGCCTCCCTTGGGATTACAGGCGTGAGCCACCACAC
CTGGCCAGCAGTTCATTTTAAATTGACATCTGCTTTAAAAATTCAGATTATAAAACAAAACAACTATATATGTATATTGTGTGTGTGTGTGTGTGTGTGT
ATGTGTAAAATGTATAATTATAATACTTTCATGGGTTTCTATTTGGCTAAAGGGATAATCCCTTACAGTTATTCTGAAATAGTAAGATCATGTATTTTAG
GTATGTTTTTACTCAAAAATAAAATTTAATAATACCTATATATCAAATTTATGGGATAATAAAAGAGATTTGTGCTCTTTGAAATATGTAAATATGATGT
CTCACTGTGCATTACAGTTGCCCTTGTGATGTACAGAGCTCAAAATAAATGAGTTTCTTTTGTTTCTGTGCCATTTAGCTAAAGGCAACAAAAATAATTA
AAAATGTTTTTACTCTTTGGGAATTTTATGGTTCTGATTTATTAAAAATAGAGGTGGAGGAATCTTTGAAAAGCTGCTTTGTAAACCCAAATACAAATAA
CGTGGAATTGATAGAAGAAAAGAAGATAAACTCTGGAAATGTATTTATGAAATATTTATTATTGTGAAAAAAACTTGTGAAATTATTCTTTTTGTTTTGT
TTTGTTTTTGAGACAGAGTTTTGCTCTGTCACCCAGGCTGGAGTACAGTGGCCAGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCAATTCC
TCTGCTTCAGCCTCCCAAGTAGCTAGAACTACAGGTGCACGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGC
CAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCYTGCCTTAGCTTCCCAAAATGCTGGGATTACAGGTGTGAGCCACCACTCCCAGCCTTTTTAAA
ATTTTATTTTTTGAGACAGAGTCTTGTTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCCACTTCCTGGGTTCAAGCAAT
TCTCCTGCCTCAACCTCCTGAGTAGCTGGTATTACAGGCGCCTGTCACCACGCCCGGCTAATTTTTGTATTTTCAGTGGAGATGAGGTTTCACCATGTTG
GCTAGGCTAGTCTGGAACTCCTGACCTCAAGTGATCCGCTTGCCTCAGCCTCCCAAAGTGATGGGATTACAGGTGTGAGCCACTGTGCCCAGCTGAAATT
ATTTTTAATGTCACACTTTTTCCTTTCCTTTTGCAAGGAAAAAGCACGTTTTATTGACATTTTTAGGGCTTTTTAAAAATATAAGTTGGTTAAAACTTTT
ATCTAGAATGTTTTCTCTTGCAGCATCATCAGTTACTAATATAGATAGCACTATTATTGTAAAGTTAGTGGCGTTAGAAAACACATTTGGGAGTTAAAGT
GCTTATTTGCAAATAATGCAAACATAATTTGTGTCCTATAAAGGGAAAGGAAGAATTTGTAATCACAAGATGAAGACGTTCAAAGCTCAGCTTCTCTCTT
GTTACCAAGTTAGAGAAAATCGATATCTGTTTTTCAGATAATTATTTAGAATTTAGTGATTTTTTTWAAAAAAATCAGGAATATGAGAATTATCACATAA
TAGTTATTTTATGATTCTAAGGCATTTGTGTGGCAGCTAATAATGCATTTGAAAGCGAGCTTTTGCTTTCACATACCCATTTATGTCTGTCTTGTACCAT
TTCTGTGTCAGCGTTCCTTAAAAACTCTGTAGGTCACCTTGTCAGTATAGCTGAAGATAAAGGCTTGAGAGTTGCTCTCTTGCCTAAAAGATATGAACTG
ACAGCTGGAGATCATGGGGTAAAGGTATGTGAGATGAAGGCCTTTGGAAAACAGCTGCTTTTCAGAGTATAAATTTCATGGCCTGTAGCTTGGATTCTGA
AACAATCTTTATTTCTTATCATCTTATCTGTTGTTTTCATAAACGATCAGAAGTAGTCTGATAGTTCTACAGTTCATAAACCTTGTGTACTATTACTGTA
TTTCTCTAGAATTTTTAGTCTGTGGTTTCTCTACTTAGTATTAAGGCAATAGCAAAAGTACCTTATAAAATAGGAATTTGTATTTCATAGATAAGCTAAG
GTCTGACATAAGATCTAAAAACGTAACTTGGCACCACCAACCAGATTGCTATTTGGAAAATGTTTCTGAACTAATGCAACATGGTATCTTGCCTAATGGT
AATTTTTCTGTTATAATAACTACTTTGTTCTTTTGGCCTTTTTATCAGGTGCTTATGTAAATCAAATCATAAAAAATTGGCTGGGCATGTCGCTCACGCC
TATAATGCCAGCACTTTGGGAGGCCAAGGTGTGCAGATCACTTGATGCCAGGAGTTTGAGACCGGTGTGGCCAACATGGCGAACCCTGTCTCTACTAAAA
ATGCAAAAATTAGCCAGGCATGGTGGCACCTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGACAGGAGAATTGCTTGYGAGACTGTTTCTCAAAAAATA
CAAAGATTAAAATTGAGTAGAAATGCAGTAAGGGAGTCTAATGAAGCTGTTTAATACTTTGTGAGCCCAGAGTAAAAGAATGACTACTAAGCTGAGGTTT
GGGTGGGTCTCCTAGTGTACAAAGTGATTTTTAAAGCAAATATGTTTCTGTACTTTAATTAATACTACTGTTATTTATTGAAAAGTTACTATGTGTCAGG
TACTGTGTAGTAAACGTAATTGAATCCCCACAATCATATTGTGTAGATCCCATTTTTATCCCCATTTTACAAAACTGAGCCTCTGAGTGATTAAGTAAAA
TAACATTCAGAATTCACACAGTAGGTAGGTAGTGGGGCCAGGATTCATTCTAACACCAGAACTCATACTCAGGCTGCACTATAAATGACTGAGTATGACC
TGCATACCTTCCATGAGTGGTGCCTCCTGGAATTGCCCATCATGCAGAACTGAAGCCTTATCAGTGCACAGGACTGTCTTACTGCTGTATATTTCCAAGT
ATGGGAACAAGGAAATTAGTCCAACCTGTTTCTAGTAGGAGGAGACACACATAAATAAATAACAATCAGTTTTGCATGCCTTAATGATAGGGATACCTTT
TGAGAAATGCACTATTAGGGGATTTTGTTGTTATTCAACAAAAGCATCATAGGTGTGCTTACACAAACCTAGATGGTATAGCTTACTATGTACCTTGGCC
TATTGCTCCTAGTTTGCAAAACTGTACAGCATGTTACAAAACTGAATACTGTAGGCAGTTGTAACACAATGCTAAGTATTTGTGTACCTAAACATAGAAA
AGGTACAGTAAAAAGTATAAAAGATGAAAAATGGTACACCTGTATGGGGCACTTACTATGAATGGAGCTTACGGGACTGGAAGTTACTCCAAATAAGTCA
GTGAGTGGTGAGCAAATGTGAAGGTCTAGGACATCACTTTACATCACTGTAGACTTTATAAACACTGTACACTTTGGCTACAATAAATTTAAAATATTTT
TCTTTCTTCAGTAATAAACCTTAGCTTACTGTAACTTTTTTTTTGAGACAGAGTCTCCCTCTGTCACCCAGGCCGGAGTGCACTGGTGTGATCTTGGCTC
ACGGTAACCTCTGCCTCCCAGGCTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATCCCAGACGTGTGCCACCATGCCTGGCTAATTTTTGT
ATTTTTAGTAGAGACGGAGTTGCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGATCTCAGGTGATTCTCCCTCCTCGGCCTCCCAAAGGGCTGGGATT
ACTGGTGTGAGCCACCACACCTGGCCACTGTAACTTTTTTATTTTATAAGCTTTTTATTTTTTTTAACTTTTGACTCTTGTAATAACAACACTTAGCTTA
AAACACAAGCACATTGTACAGCTGTACAAAAATATTTTCTTTCTTTATATCCTTATTCTATAAGCTTTTTTCTATTTTTAACATTTTTTACTTTTATTTT
CTACTTTTTAAACTTTTTTGTTAAAAACAAAGACACAAACACACATTAGCCTAGGCCTGCACAGGGTCCGGATCATCAGTATCACTACTTTCCACCTCCA
CATCTTTTCCCACTGGAACGTCTTCAGTGGCAGTAACAGACATGGAGCTGTTCTCTCTTATGGTAACAGTGCCTTCTTCTGGAATACCTCCTGAAGGACC
TGCCTGAGGCTGTTTTACAGTTAACTTTTAAAATATATATAAGTAAAGGGAGTACACTCCAAAATAATGATAAAAAGTATAGTAAATACAGAAACCAGTA
ACATGGCTGTCTTAATTTGAAGACCTCTATCGTATATGCGGTTCAGTGTTGACCAAAATGTTATGTGGTGCTTGATTGTAATCATATGCAGGAGTGTAGA
GTTGGGAGTACACAGAAGGGAGTTACCAGTTTTTACTCTAGGTCCCTCCAGGTTATACTTCTGATACTGTAAACTGGCATTGCTCTAGTCTCAGTAAGTT
TATAGCATGTTCAGTGTTCTATTTTTATTCATCATGGCTACATCTGGTTGAAGTAAGGAGGAAATAGTGTTAATTTAGAGAAAGTAAAAGAGGCCCAGAA
AGGCTAAATGCCTTTCTTAGAGACACAGTAAATCATCGGTATCAAAGCAATTATTTTGGGCCCCAAATGACAGTTAATTTCCTGGTAGACTAGGAAATTT
CACATTTCCCTGAAATTGATCTAAGTAAGCCAAGAATCTTTTCCTCATTTAACTCATATTCTTTTCAAGCCTTTATATTTTTCTTTCATATATATTTTTT
TCTTTTATATGTTTTATATATATATAAAATACTTTAAGTTCTATGGTACATGTGCACAACGTGCAGGTATACATGTGCCATATTGGTTTGCTGCACCCGT
TAACTCATCATTTACATTAGGTATTTTTCCTAATGCTATCCCTCCCCCAGCCCCCCACCCCAAGACAGGCCCTGGTGTGTGATGTTCCCCGCCCTGTGTC
CAAGTGTTCTCATTGTTCAGTTCCCACCTATGAGTGAGAACATGTGATGTTTGGTTTTCTGTCCTTGTGATACTTTGCTCAGAATGATGGTTTCCAGCTT
CATCCATGTCCCTGCAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTATATATGTGCCACATTTTCTTAATTCAGTCTATCATT
GATGGACATTTGGGGTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAATAAACATACGTGTCCAGTGTGTCTTTATAAGTAGCATGATTTATAATA
ATCCTTTGGGTATATACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTCCAGATCCTTGAGGAATTGCCACACTGTGTTCCACAATGGTGAA
CTAGTTTACAGTCCCACCAACAGTGTAAAAGCATTCCTATTTCTCCACATCCTCTCCAGCACAAGCGTTTATATTTTTCAAGTTCACAAATCTTTTCCTG
GTACTTGGCAAATAATGTGGTTATTGAAAGTAGATAACTTCTCTGCTATATGGTGGCCATTGTGGGATCTGGGGACTCTACAGTGGTACAAGCTGGCTTC
CAGGGAATGAGATAGTGATGTGGTACCTCCCTGTGCAGGTTTCTGCGTGGCTTTTCTGCCTTGGGCTAAAGCTAGCAGCTCAGGGACCAGATGAAGCAGA
TTTCCTCTTCCTGGATAGACTCAACCCGTGTTAGCTGAAGCAATATTTGCAGGGCAAGAAGTCTCCTGACATGCTGGAGATGCTAGAGGTCCAGGGCTGT
AGGCTGAATTGCTCGTGATGGTTCCCAGTGAGGAAGCAATGCAGAGTGTGTGCACCTGCCTTCCTCCTCAGAGCTGCCACTTGGCAATTATGCCAAACAT
CATGGGGAATGATCACTATTGATTCAGTTTTGTCCTGTGAACTACTTTCATTCATAGATAAGACTGATAGCAAATATCAATGCATCTCTGTATTGTGCAG
TATTTAATAGGGCATTCTTTATTTTCCCTAATCCCTAGTAAGGTGGTTCTTAAATTTTTTTTGGATCAAGGACTGCTTTAAGAATTTGAGAAAAGCCGGG
CACAGTGGTGTGCGCCTGTATCCCCAGCTACTCTGGAGGCTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTGAGGCTGTAGTGTGCTACGATTGTGCC
TGTGAATAAGAGTTGGCACTTCAGCCTGGGCAATATAGCAAGACCCCATCTGTTTAAAAAAAAAAAACTGGTGAAAGCACTCTCTCCAGAAAAATGCACA
CACGAAATTTTGAATGTAATTCAAGGGGTTTATGACCCTCTCCACCAAAAGCTGATCTGTGAGCTGTGGATTTTAGTAAATAACCCTTGTTGTAGACTTT
CCATAGTCATTTTGTTTGATAGCCAAAGAAATACTGTCATTTTTTAACCTATGGATATTTCACAGGAAATGTGTTTAATGTTCTTCTACATTGATGAAAA
GTCAACACTGTATGCTTTAAATCAGCATGCCTACCTGTTGTGTTCTAGGAAATTTTTGTYAAAGCTTAAATGTTGAATAGCAATTATCTAATATTTACTT
TTTCTCCCTTTTTAAAGCTTGGTAAAATGCGGCTGACAATTCCGTGTCGGGCCCTTACATGTTCTCATCTACAATGTTTTGACGCAACTCTTTACATTCA
GATGAATGAGAAAAAACCAACCTGGGTTTGTCCTGTCTGTGATAAGAAGGCTCCATATGAACACCTTATTATTGATGGGTATGTTACTTTAAGTGTTTTT
GGTACCTTGAAATGACCATATATTATCTGGGTTTGTTACACATCAGATTTGGGATGAAAATTCTAAGTTATATATTTGTAGGATTTTTGTGAGTCTGCAA
ACCAATATTTTCAAAGTAATTTATTTCMAATTAGTGTTAKGAATATTTTATCTTTTTAAATTGATGTTCCCTTGGTTTGAAAATGCGTGTGTTACTGTCA
GTGCCTCCTGGCATTTGTCGTTGAAAGCACTGGTGCTTTTAAGCAGGGTGTGCTTATACCTTTTCCTTTTCCTGTCATTAGTCCATCCATCCCTAGATAT
GCAGACCATATTGGAACAAGAATGTATGGGGAAATTTGGGTTAACTCAGGTTCATCCAAAATTGGGCTTTTCAATAGAAGTTAGCCTATTTCTGGAGATT
AGATCCACCTTCAGTCATGGTCTTCTTTTTCTTTTTTGTCTTGCCCACCTATAGCATCACAAAACCAATTATTGCTTTTAACACCTCTTTGTTTTATCTA
TCCTACCAGACATCTTGGAATGTTCCTCTAAATTTTCTTCTATTCTGCAGCCCCCTTTTCCTCCTGCTTTTTGCCACTAAACAAAAACAAATTGTGAAAA
GGAGGACATCTCCTTGATTTTTTTGGGGATGGGGGGTTAGAGACAGAGTCTTGCCATTTTGCCCAGGCTGCTCTCGAATTCCTGGGCTCAAGTGATCCTC
CTGCCTTGGCCTCCCAAAGTACTGAGATTACAGGCATGTGAGCCACCACACCCAGCCTCTACTTAATATTTCCTGTACTTTCTAGCAAAACACTTAAGGC
AACTTACCTGTAGTATTTAAGAAAACATAGGAGCCTAAAGGTGGTAATATCAGAAATTAAGTATATTTAGCAATACAAGTATAACCTGGAGCTTGAAAGA
TGTCAGACCAGTCATGGGAAACAAACAAACAAACAACATGTAACTTAAATGTTTTATGTTTAATTTTTCAGAAATGTCGGTGATCACTTACTAGTAAATC
AGAATTAAATAGTGATATTTTCCAACTTTATATGTTACATAGCTTTAGGTTCTCCCATTTCTTGTTATAAAAGCCATGTACACACATACTCTTTTAAAGA
AAAATTGGAAAACACAGGAAAATAAAAAGCTTTTTTCGGTATATGATTTTCTGATTTTTGTCTTTCCATAATTGTGATTGTACACTGTTAATAATTTTTG
TCCTTTGGTTTCATTTAACATTATAACCTAAGAATTTGGCCGTAATTAATTTTATGCTTTCTTTATACATGTTTTTAAATGTCTGTCACGGTATTTTATC
AAAGAGATTTAACCTTTGATTACATATTTGTATATGTTTTGCTTTAGTTTATCAAATAAGACATGCTTATTGTGGGCAATTTAGAATATGCAAAAAAGTA
TAAAGAAGAAAAATAAATACTCATGAAGGTATCACCCAGAGGTAACTACTGTCTATATACTAYTCACACAGAATTTTATTTTTGAAATGAAGCTTTCTTT
TGTTGACSTTTTCTCACTTTTTGTGAACATTTTCCCATATGATTAAAAATCTTTGAAAATGTCATTTTTCATGGTCACATGATATTTTCTTACATAAATG
TGACATAAATTAGGCAGCTATATTCCTAGTTAGTACTAGATTTTAAGAATAAATATAACTTAAGTTGTTCAACCTTTATGTTCATTTAAAATATATTCTA
AGGATGAATTGTTTTCTTATAGCTTGTTTATGGAAATCCTAAAGTACTGTACAGACTGTGATGAAATACAATTTAAGGAGGATGGCACTTGGGCACCGAT
GAGATCAAAAAAGGAAGTACAGGAAGTTTCTGCCTCTTACAATGGAGTCGATGGTGAGTAGTTCTTCACAAGGAAGAGGCAGTCTCCCTACTGCTCTAAG
TCTGGTTTTCAATATTAAAATCCATATATTTTTAAAAATCACTGAGCAGTTTGTGGATAGCTTAATAATTCCTATTAACTTATTGATTAAATGTTCAGAA
GTAATAGAACTCCTTTTAAATTCACTTTTTTGCCAGCTTTAAAAAATTTACTGATATAAGATTTCAAAGTAATGTAATATAATTAGTCATTTGTAAACTC
ATACTTTTGAAACTGTACCCTTTTTAAATTTTTAACAGATTTGATACAGAGTAGTAAAGGTTCTTTTTTCATTTATTTATTTTTTCCTGGCTTTTAGTAT
GTTTTTGCTGTAAAGACACTATGAGTTTTGAAAATGCTATCATCGTATTTAAGTATGTCAGATACTATACAGACAAAAATTAATATACCGTCTGCTCTCA
AATTACTTTTCTTCTGAAGTGGACATATGACACATTTTGATTGTTTGCTCTAATTCAGTAATTTATTATTTTGAAAAATAATTTACTATTATTAAATAAT
AGTTTTAAACTTAGAAGAACAGAGCCACTGTTGGTTTTCTACYCTCTGGCTCCAACAATATTGTGAATCTAAACTGTAACTGATAAACTGTAGTGACACT
GAGAAAAGAGAGATGTCATAGCTCTTCCCTTGCCTTGTATTTTAATCATTCCCATATAGGATGCTTGAGCTCCACATTGGAGCATCAGGTAGCGTCTCAC
CACCAGTCCTCAAATAAAAACAAGAAAGTAGAAGTGATTGACCTAACCATAGACAGTTCATCTGATGAAGAGGAAGAAGAGCCATCTGCCAAGAGGACCT
GTCCTTCCCTATCTCCCACATCACCACTAAATAATAAAGGGTAAGTGCTGAGACATTTAAAAAAAAAAGTAATCATGAAAATTAACTTGGCAAATAGGGA
TTAAAGACTTGCCAAATAAAATGATTCTTGATTGTGAAACTTAACTTAGCAATCAAAGAATAGTTTGAATTTTTCCCAGGTTTGTAATACTCTGGAGGGA
TTGGGGTAATGCACCAAAAGGGTACTTGGATATAGTATTCTTCATATCAAAAGATCATTCTAGTACCGTGGTTCTCAAACTGTGGTGTACGTACATCAGA
ATTACCTGAGAGCTTAATAAAATGCATACATTGCGCCCCCATGTCTGAGTCAGGAGTAGAGACTAAGAAAATTTGTCTTTCTAGGCCAGGCGTCATGTCT
CATACCTGTAATCCTAGGACTTTGGGAGGCTGAGGCAGGTGGATTGTCCAAGCTCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAACCTCATCTCT
ACTAAAATACAAAAATTAGCCAAGCGTGGTGGCATGCGCCTGTAATCTCAGCTACTCTGGAGGGTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAG
GTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGCAACAGAGCGAGACTTTGTCTCAAAAAAAAAAAAAAAAAAAGAAAGAAAAAATTTGTA
TTTCTAGTTAAGTTCCCAGGTGATCCTGCTCCTGCTCACAGGATGTAGAACATTTGTTCAAACTGGAATGTATGCTGTAAAATTCACCCCAAGTTGAGTG
TTTCAAGTGGAAAGCAGAGGAAGACCAATGATTTAAATCTGCTTCAGAATGTGAATGAGGCTGGTAGTGAATGACTTCTGTTGCAGCACACAACATTTCC
CACTTTGCAGAGTTTTCTCCCATATTTTCCATTAGTCTTATATCAATAACAGTGTACCTAGGTTATACTTCAGTTCATGAAACATTGTTATCTACTTTGT
ATAAAACACCCTCAGCTAAGCATGGATGATAATAAAATGAGTAAGTACAGTCTTAACCTTAAACAGCTTAGCACTTTCTGGGGGGTGGTAAAACAAGTAG
CATACTCCAACTATACTCTCAAAACAGGCTGTTAGTCCTGTAGACACATCAGGGATTCTGAGCAAGATTTCTAATTGTGCTGAAGCACAATTGTAGCACA
CTAATTGTAAATCTAGAAATAGATGTGTCCCTTTTTAGGTATAAAGCAGGAGAATCACATGGCCTGTTGCAACTGAATAGAAGCTAACCAGAAACTCTTC
CAGCAAGCATTAGGGACTAAAGAAAGAATGTAGGAGAGAGAAGGAAGTCCATAGATGGCATTGTTACAACACCAGATCAAGAGCAGGCATTTCTGTGCCT
GGAGTCAAATCATTTTCAGGTTTGACATTGTATGATGAGATTAAAGATTTCTATCAGTTTGAGACCAGCCTGGGCAACATGGTAAAACCCTGTCTCTACC
AAAAAATTAGCTGGGTATGGCACTGTGTGCCTGTTGTCCCAACTACTCGGAGGGCTGATGGGGGAGGATCACTTGAACCTGGGAGGTGGAGGTTGCAGTG
AGCTAAGATCGTGCCACTGCACTCCAACCTGGGTGACAGAATGAGACCCCATCTCAAAAAAAAATAAGATTTCAGTCAAACATTTCACACATCGGTATTT
TCATTCTACAGTAGTCCATCTTGGCATACAGACAGAAACAAAGACATTAAAAACAGTATCATCATTCTAAACAAAGTGAATAATTTAAGCACAAATCCTA
CTGTTATGAACATGACCTCTGATAAAAGCCTATCTTGATGGCTATAACCCAGCAAGCCTGACCTTGTTATTACACCAATGTATTTTATGTCTGAGTAGGA
GAAAAGGAAAAGTCACATTACCTAAAGTTAGAACAAGTATCTATAGAATTTCAATTCCAAGATATTTTGTAAATATCAAACCATAGTATGACCAAATACA
CATTGTCATGTGATTTTTTTAAGTGCCATAATCACAATTTTAAAAGATATTTCATAAACCTCTGGATATATAAATACTTTTGGGCTAAATGCATCRTAAT
ATATATATTTGTTCTGTTCTTTAGACTATTAATAGTAATATGTATTTATGTAAACTATGCAATAGTATTACTGACTATATATTTTTTCTTTAAAGAAAAC
ATTTGAGTGTTTAGGAATCTAATATTTCTTCTTTGGATATTTACTTTGCTCTTTCTCCAAAAATATTTGGAGAAAATAAAATAAATAATGTTTATTATGT
TTGGAAAATTACATTAAATGCATTAAGTACTTCCTGAATTTCCCAGTGACTAATTGAACCCAGCTATAGTATTTGCAAATGCCAGACATTTCTCTCTCTA
TTTGCAGATAAAAACAAGAAACTTGAAAGTTTACATCCTTAGAAGGAGAATAACACACCATAGTCAACACTAGTAGCCATTTTATAATAATGACTAGTTG
GTAACTGGAAACCTCAGTACAGCATATTGTGTTTGTTATTGTGCAGTATAAAGGTTGAAATGCATTTCAAAACATTATCACAAATTGAAAGAAAAGCATG
CAGCCAGGAATTAGAGGCAAACACTAAATGTAAAACATTTTGTTGTCTTTAGCCACTGAGTGCTTAATGTTCATCCAGAAATTGTCTATGCTGTTTGAGA
TGTTTTCAAAGACTAGCATTTTAAATCCTCTCTTATAATCTCTTAGACATTGTGAGAAGACTCAGCTAATGGTAAATGGTACTTTTTCTAGATATAAGAG
GTTTAACAAAGTTTCCATTAGATGAAACATTTTTATGAGGCAGACGAGAGTGTGTTTTATGCTTCATATCCCATTCATTAAAATGTGGTAGATGGTCATA
ACTGGAACTCTATTCCTAGAAATCCAACCTTGTCATCTCGTGAAATGTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTATCTCC
CAGGCTGGAGTGCAGTGGCACCATCTTGGCTCACCACACCCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACA
GGCATGCACCACCATGCCTGGCTAATTTTTTGTATTTTTTAGTAGAGACAGGGTTTCTCCCTGTTGGTGAGGCTGGTCTCAAACTCCCAACCTCAGGTGA
TCCATGCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCCTCTTTTGAAATATTCTATACCACTGAAATTGCATCCCCA
TGCCCCAGGTACTTTACATGAAGCATTAAAAGCAAAAGACAGCCTCTTTATTGCTTCCTTTCTCTTTATTTTCTATAACACATACACCTTCAGCCTCTTG
TATTGTTGGGGTAACATATAACCCTTATGTTTCCTTCTAAGAGGGCTACTATAATTGTTTTTCTTTTCAAAATTAGCTTTGTTTTTGTTTTTGTTTTGTT
TTGAGACAGGCTCTTGCTCTGTCACCCAGGCTTGAGTGCAGTGGTGCAATCACGGCTCATGCAGCCTCGACCCCCCAGGCTCAAGCAATCCTCTCATCTA
TCTCCCAAGTAGCTGGGACTACAGATACGTGCCACCAGGCCTGGCTAAGCTTTTTAATTTTTCGTAGAGACAGGGTCTCCCTATGTTGCCCAGGCTGGGC
AACTTCTGGGCTGAAACTATCCTTCTGCCTCAGCCTCCCGAAGTATGGGGATTACAGGAATGAGCCACCATGCCTGGCCCCAAAGTTAGTTAAATTATTA
TTTTTTCCTTCTTCTCCTTTTTTCCTTTCCCTTAATTGTTAGTAAATTTTAAAAAAAAAGCTACTTAGCTATTTAAACTTTTCACTGTTTTTTAGAGTCC
TAATTCTTGTTTTATGTTTTCTTTTTCCAGTTATACTGTTCTCTCTTTAAAAACTCTCCACTACCTATTCGTTTTGGAGTATTTCTTCTTGTTTCACTAC
ATTAGATTCAGCAGGGCTTTTATGCAAACAATGTGCTGATAACTGTACTGGGCATTGGGTATACTAAACAATACCCAGTTTTTGCCCTCCTAAAGATTAC
AATCTGAGGGGCCAGCTGGTAACTCCGAACCACTCAGATTGCTTCATTCCCTCTGTCTTATTATATGTATTTTCTTTGCTAGGGCATACGTATGCTTCTT
AATAGCCAATACTCTGGTGTTGTTTTAAAAGGGTTTCCGACTTTCATTTGATGTAGGTATCTTTCACTCATATCCCGTTAAAGTGGCTCAACTGTACCTT
TCTCTTGCATTTTGAAAGCATAGGTGATGATATTCCAAAGGCAATGTGAGGTTTGTGAATGTTGGATACCATTGCATCTGTCCACTTCTTCCTGTGGCCT
CTGTTAAATGCTATTATGTATACAAATTATTTTCTCATAATTGTGTATAATCTAAATTATACATTGCTTTGCTTGGTTTTGTTCTTATTTCCAGCACTAA
ACCGAGGGTTCATTGTGAGATACAACCCCTTTTTTTGTTAACCTTGAGAGTTTAACTGGCTAATGAAAACTATGCCAATCTTTCCTTCTTCCAGCATTTT
AAGTCTTCCACATCAAGCATCTCCAGTATCCCGCACCCCAAGCCTTCCTGCTGTAGACACAAGCTACATTAATACCTCCCTCATCCAAGACTATAGGCAT
CCTTTCCACATGACACCCATGCCTTACGACTTACAAGGTGAGTCACTGGTTCTTCTACATTGTCACATAGCATTATGAATGCCTTTGATCTATATAATTC
TCTTCTAGGTGAATCTAAGGAAGAACTGGAAGACTGAGCCAACAGGGCCTTGGACCCAGGGAACTGAGAGAAATAATATGCCGTTGTTATAAATACTGAC
CCAGTTCGTTGATTGTACTGTCATCAGTAGCCAGTGTTTTACTCCCAGTGGTAAAACTAGTGCAATAATCTTTAGTTTTTGTGAGCTCCTGAGTACTCTG
CAAATTGTTTTTGAATGACTGCTAGTATGTGGGTTTGAATTTTGGTATTTATGAACATTATTTTTTTTTGCCGTGGGGAACGGAGTCTTGCTCTGTTGCC
TGGGCTGGAGTGCGGTGGCACGATCTCAGCTCACTACAACCTCCGCCTCCCAGGTTCAAACAATTCTCCTGCCTCAGCTTCCCGACCGAGTAGCTGGGAT
TATAGGCGCCCACTACCACACCAGGCTAATGTTTTATATTTTTAGTAGAGACAGGGTTTCACTATTTTGGTCAGGCTGGTCCTGACCTCGTGGTCCTCCT
GCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCACGCCCAGCCCTGTGAACATTATTTATTGTACCCTGACTTTAGTTGTAATGCAACAG
GCATTGTGGGTAACTATGTTGTATTATGTTTTAGATAATGGTGAGTTGAGACATTTGAAAGTTTTAGTTTTTATTCTAATGAATTTGATCCTTCTTAAAA
ATTTTTTTTTTAATTTTGTGGGTACATACTAGGTGTATACATTTATCTGATCCTTCTTTTTAAAAGCTGTTTGAAATGTCAGTATACTCATTTATATATT
TTGAGTTCATAATAATCATTTATATTATCAAAAAGAATTGTTTTTATATCTTTGTAGCATAATAATTTGAATATTAGTCATATAATCTAAGAACTTTTTT
TTATTAAAAAAGCCATATATGCTCATTGTAGAAAATTCAACACAGAAACATAAAGTGAAAGTTTCCCTCTACCTATCCCCCAACCCCATTCCCGGGAAGT
TACAGCTAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCGGAGTTTTGCTCTTATTGCTCAGGCTGCGTGTGTGTGTGTGTGTGTGTGTGTGTC
GGAGTTTTGCTCTTATTGCTCAGGCTGGAGTGCAATGGCGCGACAGGCATGTGCCACCACGCCTGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCA
CCATGTTGGTCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATTCGCCTGCCTTCGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTACGGCCAG
CCAGTTACAGCTGCTCTTAACGGTTAGATATCTTTCTATACCTTTTTTTCTACATGTATGAAACGCACTGTCACTATCAAGAACAACAGTGCTATGCATT
TTGTAAGCCTTCGTGTTGTAATCGGTTATAATGTAGACAGTGAGTAGATGCCCAGAGTATCTGTGGTGTTGTAATATATTTATCTATAGCTGCGTGTTTT
ACCTTTCCCCAAGTTTAGATATCATAATGAAGCATTTAATTCATGCTTGTTCACTTGCTCTTCATCGCATTACACACTGGGTGATCTAGAAAAGAATGTT
AATTGGAAGGGGCCTCCTTGCAGTGAATCCTCAGCAGCCAGGTAGCAGAACTACTCCTTCTTATGTAATAGTAGCCAGTTTGCAGGCACTCAAACCTCTT
CTCCCCTCATGCCACTGCAGTCTGTCAGTTGAATCTGATAGCAAATGAGCAAATTTAAGAAAGAAAAATCAGTACTACAACTTACTTAACCTAACTCTTT
CAACTTCAAACTTTCTCACCTGCAAAATGAGGGCAAAACTAATTACATACCTCATGAAGTGCTTGTGAGGAGTAACTTAGAGCAGATTGAAAGTTTCCTT
AAGAGGAGTCCAGAGCATTTGTTAAAAGTACTATGCCCGTTTAAGGATCAGTGTTAGATCTGACAGAGTAGTAATGGCCCCAGTCCCCCAAATGGGGTCA
CGGAGAAGACAAATCATTGCCAAAGCTTAGTTTTCAGCCTTAGTAATCTAAAGAAAGGAGAGACGTAAAACGTTTAGCTCAACTCTTCATGTTTAAATAA
AATTCTGAGTGACATAGCATATAAGACTTGTATTTGTTTTTGAAGTATTGGGGCATTTGGAAGAGTTTTTCCTTCTTTTTTTTTTAAACTGAAATAATTT
TTTCTTCCACAGGATTAGATTTCTTTCCTTTCTTATCAGGAGACAATCAGGTATGTTATGAAAAATTTACTATTATTTTAATTGTACATTAAAAATACAG
TCATGCGCCACATAATGACATTTTGGTCAATGACAGGCCATATATGCATTCCATAAGATTATAATGGAGCTGAAAAATCCCTACATCAATTATAGCCATG
GTAACATTGTAGCACAAGGCATTACTCACATGTTTGTGGTGTTGCTGGTGTGAACAAACCTATGCTGTCAGTCATGTAAAAGTATCACACGTATAATTAT
GTACAATATAACGATAATAAACAACTCTGTTACTGGTTTATGCATTTACTATATTTTTTATTGTTATTTTAGAGTGTACCTCTACTTTTTTTTTTTTTAA
GTTTGCTGTAAAACAGTGTGCCATGTTATTCCAGGACAGCCTCATACATCCCAGTTTGCCACATCTCTTGATTGCATCATTTCCTCTTGTGCTTGATGAA
AATCTTGTCTTGTTTTGTTCATCATGGCCCCTAAGCATACAAAATCCACAGCTAATGTTGCCAGTAAGAGGCCACATCGAGTGACTGACATGGAAAAAAA
TTAAGTGATTAAGGACGATGAAAGTGGAAGATCAGTGATAGTTATTGCTCACCAGTCAGGCAGTCCCATTCTACCATAGCTACAGTCTTAAAGAACAAGA
ACAAAGTGATAGAAGCTGTTAAAGGATCTGCTTTGTTCAAGGCAACAAGACTAACAAAAATTTGAGAAGGGCCTGTATCAGATATGGAGAAACTTGTTAG
TGACCTGGATTGAAGACCAGACACAGAAACATATCCCTCTCAGCACCATAATGATCATGGCCAAAGCAAAAAGTTTGTTTGCAATGCTTAAAGAAAAGAC
TGGACCCAACTACAGTGTTAAATGTACTGCTAGCTCCGGGTGGTTTAAACGATTGAAGAATCATTATTCATTATGTAATATCAAAGTGAGTGGAGAGTCT
GCAAATGCAGATGTGAAGGCAACTGAAGAATTTTTGGAAACTCTAGATAAGCTGATTATGAAGGAAGATTACTTGCCAGACAAATTTTCAATACGCATGA
AACCTCCCTATTCTGGAAATAAATGGCTGAAAGGACTTTCATCCATAAAGAAGCCAAGTCAATGCTAGATTTCAAGGCTTTTAAGGACAAGATAACAGTC
TTGCTTGGGGCCATATTGCAGGCTACAAATTGAAACCCTTTGTGATCTGGCACAGTGAGAACTCCAGAGCCTTCAAGCATGTCAGCAAGCACACACTGCC
CGTGTACTACAGGAGCAATAAGAAGTCATCGATGACCCAGCTTTTCTTCCAGGATGTCCTCCCGAATTGCTGTGCCAGCAAAATGGAGAAGTACTGTTGA
GAGAGTAACATACTTTTCAAGATGATGATTTTTGTTGATAATGCTCCCACACATCCTCATTTCATTGGTGATCTTCATCCCAATATCAAAGTGTTGTGTC
TCCTTCCATATACCACCTCTTTGATCCAACCAATGAATCAAGGAGTTGTAGCAGTTTTTAAGGCCTATTAAAAGATCCTAAGGAGGATCTTTGCCCAGGC
TATTGCTGCAACTGAAAAACACCGAGAGGACACTGATGCAATTCTGGAAGGTTTACAACAGCTATGACTGCATCAAGAACCTTGCTTGGGCATGGACTGA
TGTCACCAAGGAGTATGTGAATGACATCTAGAAGACACTGAAGAAGTTTGTTCATGACTTCAAAGAATCTGCTAAGGATGAAGAGGTTGCAGAAATGGAC
AAGGCTGTGGTTGACATGGCAAACAACTTTAACCTAGATGTAGATGAGGATGACATTGAGAAGCTCCTAGATGTGGTTCCTGAGGAATTGACTAATGAGC
TGTTGGAACTGGAACAGGAACACGCAGCTGAAGAAGGTGCAAGAGAAAAGGAAACTGCAGGAGACAAAAAGGAAGAACCTCCAAGAAAATTCACAGTGAA
AGGTTTAGCAGAAGCTTTTGCAGACCTCAACAAGCTCCTTAAAAAATTTAAAAACATGGGCCCTGGCTGGGCGCTGTGGCTTACACCTATAATCCCAGCA
CTTTGGGAGGCCAAAGCGGGTAGATCATGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGC
TGGGCGTGGTGCTACACGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATTG
CGTGCACCACTCTACTCCAACCTGGGTGGCAGAGCGAGACTCCATCTCAAAAACAAAACAAACAAAAAAAACATGGGCCCTAACAATGAAAGGTTTTCAT
TAATAGAGAGGAATGTTTATGGTACATTATCTACTTACAAGCAAACCTATGATAAAAAAGAAACCAAGCCAAACACCATGGACATATTTCTGAAAAGAGT
GACACCTCCTTAAGAAGAGCCTCAGGCAGGTCCTTCAGTGGGTGTTCCAGAAGATTGTTGTCATAGCAAATGACAGCTCCATGCATGCTATTTTCCCTGA
AGACCATGCAGTGGGACAAGCTGTGCAGATGGAAGACAGTGACATCGATGACCCTGACCTCCCTGTGTAGGCCTAGGCTAATGTGTTGTGTGTGTCATTT
TTAACAAAAAAGTTAAAAAGTAAAAAATATTTTAAAATGTTAAAAATAGAGACTTACAGAATAAGGATATAAAGAAGGAAATATTTTTGTTCAGCTGTAC
AATGTACTTGTGTTTTAAATTAAGTGTTACAAGAGTCAAAGTTTTAAAAAATCAGTTTATAAAGTAAAATTAGTTAGCTAATGTTAATTTATTATTGAAG
AAAGAAAAATATTTTTAACACATTTAGTGTGGCCATAGTGTACAGTGTTTATAAAGTCTACAGTAGTGTACAATAATGTCCTAAGCCTCACATTCACTCA
CCATTCACTCACTGGCTCACCCAGAGCAACTTCCAGTACTGCAGGCTCCATTCATGGTAAGTGCCCTATACAGGTGTATCATTTTTTTATCTTTTATACC
ATATTTTTACTGTACCTTTTCTATGTTGAGATATACACATACTTAGCATTGTGTTACAGTTGCCTACGGCATTCAGCACAGTAACATGCTGTACAGGTTT
GTAGCCTGGGAGCAGTAGGCCAGACCACACAGCCTAGGTGTGTAGCAGGCTCTACTGTCTAGGTTTGTGCAAGCACACTGTGATGTTTGCACAGCCACAA
AACYGCCTAATGATGCATTTCTCAAAACACATCCGTGTCATTAAGCGACGCATGACTGTATTTAAAAGTATAATGTGTAGCCAAGAGAAAGATAAATTTC
CTTGGAAAACTTAGAGTAATCATACCCATTATCATTATGGCTTTAAAATTTAAATAAAAATTCTAACTTTCAGTGGTGCCTGAGTGTATAATAAGAACAG
TGTCTGTTGGTTTCCAGTACTGTTTTATAAAGAAACAGGGCAGTGAGTCATATTGACTGATAGATTTCTTGGCTAAGTATCTCCTTACTAGCAAGAGCAT
GGACTGTCTGCCCCTCCTGCTGCTTCTGAGCATATGCTTCTTGGGAAATAGAATTGGTAATTGCTTGCAATACAAACTAAAACAAAAAACAATAAAATTT
ATATTTTGTTTTTCCTCCAGTTTCAGATACAAAAATGTCTTCTCAAGATCAATGCTCCAGTCCTTACATAAGGCCATTTGATTTTGCAAAATGTCTTAGT
AAATATTTCAGAAACCCTAGATACTCAGGCTATCTTAAATTTAGGGCTGTGTCCCGCTGAGGAGAAAATATATTAATTTGGAAGTATAATTAACATTTTT
GTGTCTTTTGTTTCCCCTCCCTAGCATTACAACACCTCCTTGCTTGCCGCTGCAGCAGCAGCAGTTTCAGATGATCAAGACCTCCTACACTCGTCTCGGT
TTTTCCCGTATACCTCCTCACAGATGTTTCTTGATCAGTTAAGTGCAGGAGGCAGTACTTCTCTGCCAACCACCAATGGAAGCAGTAGTGGCAGTAACAG
CAGCCTGGTTTCTTCCAACAGCCTAAGGGAAAGCCATAGCCACACCGTCACAAACAGGAGCAGCACGGACACGGCATYCATCTTTGGCATCATACCAGAC
ATTATTTCATTGGACTGATTCCCAGGCCCTGCTGCTCCCATCCCCACCCCAGATCGAATGAACTTGGCAGAAAGAAGAGAACTTTGTGCTCTGTTTTACC
TTACTCTGTTTAGAAAAGTATACAAGCGTGTTTTTTTTCCTTTTTTTAGGGAAAAAATTAAAAGAAATGTACAGAGAACAAAACTATATTTTCAGTTTTA
CTTTTGTATATAAATCTAAGACTGCCTGTGTGATAAAACACTTGTTTAAAAAAAAAAAGGAAAGAAAAGAAAAAAGAAAAACAAGCACCCACAAACCACC
TTCAGTTCATTTTTTTCTGGATTCTGAAGATTTTTCATTATTTGTCCTATGGTTTTGGTTTTATTTGACTTCGATGGCATTATTTTATTTGCAATAACAG
AAAAGGAATTGCATGTATGAAGTTTTCAATCGTGGGCTTTTCTTTGTTGTGGGGAGGGGGTCGGGGGATAGTTTGATTTCCATTTTCTGAAAACGACAGA
CTTGGATTCTGTTTGTGTGTGCATATTTTATCCAGCCTTAAGTTATAAAGCTCATCTGTCCCGCTGCATTCCCTGTGTATTTTCAGGACATGGCTCGTGG
GTGTGTGTGTTCATTGTGTGCGTCTGTATGTATTTTTCTGTCATCACTGTTCCCTCTCCTCCCGAGTGTGCATTCAGTTAATATAATCAGTTGCTTGCTT
CTTTCAAAGTGCTTTGAAGGTCTTGAACTCAYGTGTGAGCATCTTTATCAACTATCCCAATTGCATGTTCTCCATCACATATTCTCTTATTTGCTCTGTA
CCCCCTGAGAATATGTTTTAGAGATATTGGAATAAAGCTGTCTGGGTAAGGAGTAGGCTTAGCCGACCTATGAATAATACACTTTAGTCTAGTTCTTTAT
TCTAAATCTGGATTGCCAGTATTGTGTATTTAAACCAAGTCTGTGAATACCTGCTTTTTTTGGCCACAGAGTAACAAGTTTTCATGTAAGATCTTCATAC
CAAAGTAGGAAGTAAAAATAGCTTAGAAAGCTCTGTCAGGTGTTTTGTGCAGCTGACAGAGGTAATGTTACATCACCTAAAAAAGAAAGATACACGGTCA
GTTATCCTAAAAATAAATTGTTTGGAAAGTACAATGCACCACATTTTTGTAGAAGTCTACTATTTGATAAACAGTTGAAATTCAAGATGTGTTTGACCCT
TAGTCATTTTTACTCTTTGGTTCTGAGTATACCTATTTTCTTAGCGTATCTGCCYTGTTTATCTTTTTCTTCACCTTTTAACAAGTATGACATAGGAAAG
TCATTTTTTTTTAGAATTCATGGATCAGTCTGATCTACTCTTATTCATAATGGAACATGTAAATATACTGAAAACTGTTTTTCAGGAGAGAAATATGAGT
TGGAGGGAAGGAAAAGTGGTTCTACTWATGTTCCAAAATCCTCATCAGAGAAGGTATGATGTTCTCAGGTGTGGAAAATATTTTTTAGTTGATTGAGAAT
GCAGGTTTAACAGAAGAGATAAGGGGCATAATGACTGCTGGTTTTCCAGACTGGATTTTCCTACCGCAACTATTAATGTTCTCAGAGTTGATGAGGACCA
CCTTTGTGTATACACTTGTAGTTTTAAACCTTGCATTGGTAACAAAATGATCAACTTTAATCCAGGTAGAATTCAAGATGGCTGTACTTCAGTTGTATGA
TAAAATTAATGGTTCTCATGACTTGTGTGGCATCTAAAAATAATGTTTTTATAGCATCTCTCTGCCACYAAATTGTTGACTTGAATTTTGGGAAAAAAAA
AAGTTGGTGTTGATATGTATATGTGTGTGTGTATATATGTATTTATAAACAAGTGTGTTTGAGTAACAAGTGAGTTTCATAGTCTTCCCCTACGCATGTG
TATTCCACACACAAATGGCTGAGTTATAGTCATAAAACAATTTGCAATAAAAAAAAAACCAAAACAGATTGTCAGTTAACCAGGAAACAGTTAATGTTTT
TTAATGAATCTGGCATTATAGTGAGCAAATGTCGTATTAATTTAGGCTAATTTCTAATACTACCATAATTTGTGTCTAAATTTCTGTTGGGGTAGAAATT
ACTAAAATTGTGGGGAGTTTTTTCTGATTTTTACATTGCTTTAGGAAACATTTTTACTAATTCAGCTGTCTTAGGTAAAATGAATAGTTTTCTTCCTGTT
TTTTTATGTGTCATTGTTAGTGGTCTCAGAATTCTGATCAGTAACTTTGTGTATGATGCTGAATTACAAACCGTTTGAATGATCCAGTTGAAAACGTATC
CCTCTACTTTCTTCAGTTGTAGAAAAGGTTAATTTCCCTCAGTGTCCCACATTATACCAACCTAAGAGAAGAACAGGTAATAGGGAGAAATAAACATACG
GTGGTTTCAGTGGTTTTGGTCATGTGTCCACAGGAGAAACTAACCATTCAGTTGTCTTAATTTTAGTTCGTTCTACCCTGTGAGGAGTTTGTTTCCATCA
GTTGTTGACTTTCCAAAATGTTGCATTAAGTAATAGTTGTCACTCTGTTGGTCTCATGGTCAATATCAATCAGACTTTCATGATCTCTACTAATTATTAG
TAGAGTCCTGTACTATGTCTGTAACTACTAAGTTTAAAGAAAAGCACATAGTCACTTCATCTCTTTTTTTCTTAGCCTACGCTCACTCCCCAACCCATCC
CAACATTGACATGCTATCTGTGGACAAATAGCAGTTCTCAGAATCTAGTCAAGTTGCCATCATCCCCCTTGCCTTGGCCGTTCATAGTAGGTATGCATAT
GTTTGTTTCTGTACAGTACTGTGTGTGTGTGTGTATATATATATACATCTGTATGCACACATCTTTGATAAAATAGCTATTTGACTAGCAGGGTTAAAGT
GGCTTTTAATTACTTCGTGAGTGTTATTGGATACATCTTAAAAAAAAAAAATCTGAACCAGAACCATGCCATACTTGGTTGACTATTTTGAGCATTAAAA
TTGCTTTACTAATTATTTAGACATGATCACAATTCTGTATCTTTACTGAGGAAAGATTCACGTAAGCTCTGAAAAATCGGATTCTTTGGCAGATTTTCCT
TTGAGTCAAGTGTCTGAAATGGAGTGAAAATATATCCTAACTAAATTAATGTGGAAAGAGCATTTTTTTAGACAATTTCAATTTTAAACACATAAAACTT
TCAAGATCTTCAGGACTTTTTAAAGCACATTTGAAATTATTTTAGTAAGAATTTTGTTTTATCAATAGATGTTGAATTCTGTTTTTTAATTAAATACAAA
GCTTAGATTTCAGAAAGAGAGGGAAAATAGCTGGTGGTCCCAGAGTGTGCTGCTGTTAATTGTTTAACAAAGGGGAAAATGTACATAAACAGATAAAGTT
ACCATAAATTCCATGAACTTAAATCTGTGATTCATTGCCTTAAAACTTTCTCTCTTAGAATTTCCATACCGCATGCCAAACCAGTAAAATGGCTTTTAAA
AATGTATAGTAGACAATGTCAGTTTGTATAAAAGTACCAAGTGAAAATATTTATTACATGCATTGGAAAAAAATTGTTTACCTATTGAATGTTACCTGTT
TATGTAGAGCTCTTTAGATGTAATAAAAGAAAAGCCTTCAGTTAATTTGTCTTCTGTAAAATAACACTGCTGGATGTTCAAGGGGACAATCCCTATGAGA
CAAGTGATAATGGTTTGTGCTTCCAAAGCACCTTTCATCCAGAGATTTCAAAGCATGACAAGTAACTAACTAATTTTCTTGCAGCATGCTTTGAGGTAAG
TAATGAATATAGCCATCATTTCCCTTTCTTGTTGAAATATGGCTAACTCTTTAATAAATCACAGCATCTGTTTAGTATCTGCAGTTTGAATGCTAAGAGC
ACCGTGGCCTTCTTGTAAACAACACTAGGTGCTAGAGAAACCAGCTGGAATTTCAGGAATGAGCTTGAAACCAGGACCAGGAGTAAGGTAACAGCCCTTC
CTCGGGTAGAGGTTTGAATCAAACACTTAATAGGATCTTAGACTCTGGACCACTGAATCCCTTAATGAGCAGGGAGTCCGTGAAGAGGAGCCCCAGGTTC
TAATGACCATTCCACACCAACTGTGTGTTTTTGGCAAGTTATATTTCAGATTCCTGTTAGGCAAATGAGATTCATAAAACTTGCTTTAAAACCATACTGG
GACTATTCAGTGATAAATATAGACATAGAAAAGCTTTGACGGAAAGTACCCTCATTTATTATATCCAGAACTTGCTCTTCCTGTGCCATCTAAATCATTG
GTATCTATCTCCCATCTAATCTTTGGTATTCCAGGTTGGCTGTGCAGGATTTACTTCCTAATGTCCATGACTGGAGCTCAAAAGAACTGTGGGCCTAGGA
CCTTTGAGCTTTGCCTGAAAGTGACAGCAGTTCTCTCGGCGGGGCCAGCATCTAACCGGCCCTCTGGTGGATTTACCATGAAGGTAATGAAGTTTAAGCA
CCAGGACCCTTCACTTGTTCTGGTCCTAGGAGCAGCCCCAGAAATTCTGCATTTCTGTTTTTGTATTCTTAAGGCAGCCAAATCTCGTAAACCTCAGACC
CCACAAAACATCTGCTCCTACACTGTGTGGACCTGGGCTTCCCAGCCAGATGGTCACAACTTCACCTAGTTGGCATTTGGGCCATTTATTTACCCTCACC
CCACAAAACTCTTTGGCTCCTAGGAATTCCTCCTCTCCTTGCAGTTATGCTTGGGGAAATGAGAGTCTCCTTCCTCAGGGCCTTGTTTGGGTCTGAAGCC
ACACAGCATCGTTGAGACAGTTGCACTAACACTACAACTCTTGTTCCCTGCAGTTTTCCCTGTGCCCGGTGCCTAGTGAAAGATTTGTGTCTTGTACATC
CTCCCAAAAGACACATCCCATTTGATTTGGTTTTCTTCTACTTTAGCCACTGTGGTACTACTAGACAAAGCCACAGCCCAGAGAACCCACTTTTGATACA
TACATGGATGCAAATCTTTGTACTTGAAGCCCTGCACCCCTACCTGTGTTGGTGTGGTACTCCAGCCCTTTTAGGACTGTGCTGGCACTACGAATGATCC
AGATTTGACAAGTGTATGGCACCTCTGAATCTCTGGCAGCACCAACCTGGCACCTTCTAGCTGTGTAACTCACTCAAAGCCACTCCAGCTGGATGGACTC
CCAGAAAGCCTAGTGCTCCTACTACTGTTTTCCAGGGCTGTTGTACCCTGGCCATTGCTGGTTACATCCCCTTATTTCTCTCCGTAAGTCCTGGGGAGGT
GGCTTAAGGCAATGACCAGTGTGGGCCACTTGAGCAGACCATCCCGGAACCTCTCTGCCTGTTAACAGAGCCCAGGGAACAGCTCGGAATTCTCACAGCA
TTGGAAGCCCCCTTCTTGAGCTCTGCAAGGCCAGTCAATTTAGCAGCTCACATCTGGTTTCCTTTGGTGTGGGGTGTAAAGTAGATCGCTCTTCCTGCTC
TCAGCTGATGCTGCCTCATTGTAGCATGTGTTTTCACTCTAGTGTTTTCACTCTACACTCTGTGTTTATGAATGAATAGCCTGAGCTATGTCACTATATC
TGTTGAGATGGAAATGAGAATTTGTAAATGGGCCTCTGGCACTGCAAGAATTGTTGTCATAAGTGTTACAGCTTTCTGTTCATTGCTGCTTCTCAGCTAG
CACTGGCTTCATCTTGGAAAATCTTGGAAATATGGAAGATGGTTCTAGCCCCCAAATACAGAATAAGTCTCTTGGTAGATTGCCCTTAAGTCATCAGCTC
AATCCTTCCTCAACAGGCTCCATGAGGTAAGAAGTGGGAATCCAGCTTGTGTGGGGGGGCTTTGAGGAGTGAAATGATTTGCCCAAAGTCACAGTGGGAA
GCAGCAGAGCCAGGACTGGAACCCAGGCCAGACTCCAAACCGCAGGCTCCTTCCATGCTTGAAAGGGCCGGACTCACGGTAGTTAATAAAATCAATACAA
ATCTTTTATTAAAGATCTACTCATACCATGGCTGAAATCATCTATTATTGTTGCTAGTTAGCCTCTCTTCTATAGTTGGGTAATGTTGTCTTGCCACTGT
GTTTGCCATCTCTCCCAAGTGAAAAGAACACTTTTTAAAAAAAATTAATTGCTCCAAGTTTTCAGGCCCAGGGGAGGCTCTCCCATTCTCCTCCTTCAAT
AGTCCCGTCCAGGAAGGGTGATCTTGTGGATAAATTCATCATACTTCACTTTGCCATTGGGTTCGATATCTGCTTCCCTGAAGAGATCATCCACTGCAAT
AAATCACATTTAATTTTTCAGTTTGGCTTTAGTGTTCCATTATAAAACAGTGAGTTTTTTGGGGACTGGAGCTCCCCTAAGGTCTTCCCTGAGCGTGCAG
TTGACTATTCCTGTAGACCAGGAAGTAAACCAGTGAACAGAAAGGGACAACCCATCCCTGCACTCCTGAGACCCTTATTCCATTTTGAGCTAATCGGGCT
TTCTGCAGGGGCAGGGAGTAGGGAGGTGTACTGGTAAGGATTCGGTCACTGATGCCACCGTGTGCTTTTTTTTTTTTTTTTTTAAAACAGTTTCGCTCTT
GTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGGCTCCTGAGTAGCTGAG
CTTACAGGCAAGTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAG
GTGAGCCATCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCGGCCCACCCTGTGCTTTTATTTTTATTTTTTCATGAAAAT
ATGACCCCTGTGCCCATATTTCTAGAATCCTTTGGCCTGGAGTTTTTACCTTCCGCAGCTCAGCCTGCAAACAGAGCGAACATCCTCCACAGTCCCAGGC
TTCGGCCTGCTCCTCACTTGCCTGCCTTTTCCCCTAAGCCGGTGCTCCTCACCACCTCTGCCCCCACCCCAAGAGAGGACTTAGTGACAAGCACTGTCTG
CTACCATCACCTCTAAAAAAAAAAAAAAATGTTTGGGGGATGGGGTTTATATGAGAGAAAAATAAATCCAACTCTGTTGAGAGCTCACAGTATACAAAAC
AAAACTGCCATTGTTCTCCATCACTCCAAAAAAAAAAAAAAAATCACTTCATTTGCTTGTTTCTTCTGGTTCTGGATTCCTGGGATAAAATAATAGCTTG
TCCCAGGCGTTGGCAAGAGCCATTTCAGCTTGTATTCTCCACAATGGCCTCTTGGGGTCAACCTACCATGGCTCTTTAGCCTGTCCTCATCTCACTGCCC
TGTGTCAACTTCCCAGGCCTGGATACCTTCCACACACACACCTCCGGTCGTCAGTTAGAAAATATCCTGTGATTCTCTGCTTAACTATCCTTCTCGAAAG
TATAATCACCATGCCTTGGCCTAAGCTGATAGTAGTTCTGAGTATTTATTGGGAGAATGTTGAGGACAGTATAATTCATCTCATTTTGTGGAGAAGTTTC
CACAATCAGCCAGGTGGCTAAAACCATCCTGGGGGATAGGCCAACATCAGCTCCAGGGCCAGTCACTGCAGCCTCTTCCCATCTGGGCGAGGGACAGCAC
TTAGCCAGGTGCCAAGTCTGAGGACACCTGAGTAGAACAGCCTTTCACTCCATCTCACTTCAAAGACCCATAGAAAGCCAAAGTGCTAAAGTCAGCCCAT
CCCAGGCCTCAGGAGAAGGCTTCACCCACAGCCATTCCAAGGATGCTTTTTAAACTGAAAATTGTCTTTCGATCACCCAGAAAAAGGATTCCTGCTGCTG
GTATCATTCTTCCCATCTCCCGTGGCAAGTGGGAGGGAAATCGGTGTCCCTGCTTGTCTGGAACACAGCAGTTTCTGTGAAACAGTCCTCTGCTGGTTAT
TAGAGATGTATGTGAGTCTGGGGCCATGGCATTGCTTAGGACAGAGATCATTAACCACAAAAAGAAGGCCCTGCTCCCTCTGCTGACTCCACCTGCTGTC
TAGAGGGCCGGGCAGTGTCCTGGGGGGAGTCTGGGAGGGAAGGATGACCCATGTCTTCCCTATCCATGTGAAAACAGCCACGAGAGGTGAACCTGGAAAA
GCTGGGTATGGAGACCCAGCCTGCTGTTGGGCGATTATTTATTTATGGAGATAAAGTCTCATTCTGTCACCCAAGCTGGAGTGTAGTGGCGCAAGCTCGG
CTCACTGCAACCTCCGCCTCCCAGATTCAAGTGATCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGCTACAGGCGCCCGCCACCACGCCTGGCTAATTTT
TGTATGTCAGGCAATTTTTAAACTCTGCAGCAATTTTTAAACTCTCTGCACTGTGCCTTAATGGCAGTAGCTAAAATCTGAGCAGAGTGATTTGTAGAGT
GGTAGCTCAGAGGGACCTGAGGGGTCACCTACTGTACCCTCATTTCCAGCAAGGAAAGCGAGGTGGGAGAAAGGTCTCCTGGCACCCAGGATTCAAACCA
CAGCCTCAAAGCTCTCCTCCAGTGGTTTATTGTGATTTAACCAGAGACGGAAAGTCCGTCATATTGAAGCCTCTTTCCAGCACCCACTTGTGGCCAAGCC
CAGCTCTCCTGTCCAAACCACAGGCAAGCAGGGCAGCCTACCTAGAAACCCCAGGCTCTAAGGTCGGGGTCCCTGGCCTCGGGCAGAGGCAGAGCTGGCT
GGCTGGCTGCTGCGAACATGGCAGGGCTAGGCAGGAGGGTCCGCAGGCTGGAAGAACAAAGGCTGTAAATGGCCTTGGCGTGGGGATCCCCTTGACAGTG
TACAAAGGGCTTTCCTAGAAGACCCCAGGCCTCGTCCTGCTCTGAGGCAGGACAGCCTGCTAGGCTGCAGGAAGGTGCAAAGCAAAGACCCCTTTCTCGT
GGGGCTCTGGAACCAGGAACCCTGCCTGTCTCGGCAGTTCTCCAACTGTCCTGGCAAAGTTCCCTCTGGAGCCCCTTTCTGGAAGAGCTTAGAGCAGCCT
GAGTTGGAAAGGGAGCAAAGCAGCACCTCAATTCGGAAACTCGACCTCAGCAGCAACTGCAGAGACTGCTGTGATGGGAAAAAGGGCAGGGATGTCTAGA
CCTGCCTTCGCTCCTGCGCCGCTGCTTGGGAGCCGCTCACTCCCCCTGCTTCTTTATCAGTAGGAGCAGGCATTTGTGCTCCCAGGGGTGTCATGCACTA
GATGAAGCCCCACAGTGAGAGCTTGAACACAGGGGGAGACCAGACTGCACGCTCCAGCTGCCCTGCCTTGTGGGTTCCGAGCTGGGTTTCCCCTAGGCTG
TCCCTTCACCCTGGCAGACCTCCCTGCGCCCTTCCAGCCCCTCTAGTTCTTCCCCAGGCTCCAGTCCAGCACCCACCTAGTGTGGCATCTGCTCACAGTC
TCCTGCGCGCGCATCAACAGAGGTGGTCTGTACCACCCTGGTGGCATCAGCTAGGCTTTGGTGCCCTCCTTCCAACTCCCTAACCCCCTCCAACTGTTGG
GAGACAGGACCCAGGCTGTTACCTTCCTTGTGGGTGAGCTTCTCCCCCAGACTCGTGAGTTTTGACCGCAGGTCGGACGCCATGACGTAACCTTTCTTCT
CCTTGTCCACCATCAACATGGCTAGAAGAATTTCTTTCTTTGGGTCTTCTTGTTTTATTTGCATGTGCATAATGGTCAGAAAAGTGGAGAAATCCAGCTC
TCCATTTCCGTCTAGGAAACCCGCAAACACAGCAGAGTGAGCAGAGGGAAAAAGACTCCTAGGAAGCCAGCTGGCCTCCTGCTGGACCTGCACAGCCGGT
TCAAGGTCAACTGACCAGGGAATGCCAGGATGTGGCAGTGGTCACAGTGAAGAGGATGCATCCCCTCCCACCGAGTTCCCACGACAGGCCCCTCACTGGA
CTGGACATTCTTCATTTCAGCAACGTCCTCAGTGACGATGCTTATCATCACCCCAAAGCTCAAGAAAGTGGGTTCCCAACCACAGATGGAGGACTGGGCT
CCTCTGCTCCCTTCTAGCGCTTCCCTCCTGCCCTGAACTGGAGGGAAACAGGTCCATGTGTGCATTCCACCTTTGACAGCCACCACAGTACATCTTACCA
GGATGGATCAGCACCCCCACCTGGGGTCTCAAGCCTCAGTCGCAGGCTGGGCTGCTCACCTGCCTTCCCCTCACTGCAGTCTCCATCCCAGCCCCTCCTC
CACGGGCCCTGGCTGGGATGTAACTGCAGGAAATCAAAACTTCCCTGGACTACAACTTCCTGTTTGGAGGGGACAGAAATCAAGGAAACCACCACCCCTT
TGGAGCTGGACATGGGGGATCTCAGGTATCAGACCACTGAGCAACCCACCGCCAGGCTGCAGGCTTTCAGAGGCCCACCTGGGCCCAGCGTGGCCTGCCC
CAGGGTGGGCTCCCAGCGCAACTGCAGGCATCCTCTAGTGGGGCCTCTGGTAACCCTAGCAGATGGTGGTGACCCCCCTGAGATGAGGAAGCTGGTGACC
TGAGACTGAGCAGCAGCCTATGGGCTCCGGGTCAAGTGCTATTCCCAGCGGATGCCCTTCCCCTGCGCCAGTCCCTCCTTCCTGAGTGTCCAGCCCCCAA
TGCAAACAGCAACCCCAGGCTCTGAAACTACTTTTTTTCTTAGAAAAAGCAAAACAAAACATAAAACTTGTTTCTGATTATGAAAAGCTGTATGTGTTCT
CATTGTTGAAAATACAGGAAACAATAAAAGGAACAAAAATCACCCATAATCCCATTACCAGAGAGAACCACTTGGTAACATCTTGGATGGGTTTTCTTTC
AGCATTTTTTTTCTAGCAATAGTTTTTCTAAAAACTATTGCATAGTTTTTAGGTCAGTCTTTGATATCAGAAGAATTGGGTACTAATCCTGATGCCATCA
TTGGCTCAAGAACTTAATGGATGTAAACCTTGATCTTTGCTTGTAAAATGGAGTTAGGAGAAAGCTGGGCGCAGTGGCTCAGGCCTCTAACCCCAGCACT
TTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAATGCAAAAATTAGC
TAGGCGTGGTGGCAGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCT
CACCACTGCACGTCAGCTTCTCGGTGACAGAGCAAGACTCTGTCCCCCCTCAAAAAAAAAAGGTTAGGAGAATGCCTACTTCATAGGGTTTTTGGAGCTA
AGCACATGACAAATACTCAACAAAGGGAAATGTTCCTATAAAGCAACATGGGATCGCTGTCAGCGCGATTTTTCTCTGGGTTTGGTAAGTCTGTTGGAAC
GCCTAGATCCCGAGGTCTGTGAGATGGGGTATCACTGGTTGCTATGAGGATTCCAGGAAGCCCAAGTGAGGTACGGCACTCCTGGTCTGGGGCTGCCACA
GCTGGATCCCCAGGAGGCCTCCCTGCCACCTGCCCCTCAAACTGCTGAGCTTTTCACACCTCTACTGTCTGCACCCACCTGCTGGGCCCCTCCCCTCTCC
CCGTTGTTCCCACCACCACTCACCTATCCCGTGGGTCTGCAGGTGCCGCTGCACCTCCCCTGGCGTCGGGCTGGCCCCCAGGCACCTCATGGCCACCATG
AGGTCGGTGGCTTTTATCTTCCCCCTCTGCTGCTTGTCATACAGGGAGAAGCATTCCTTGTACTCTGCACACGGCCCA


SNP Information

Context             (SEQ ID NO:38965):
ACCCTGTGGGCCTGTGGGAAATGCATGGACTGGGTGTCTGGCAGGTCTGGGTTTGAAGCTCAGCTTCATGAGCAGTGGGCCTTGGCCTTGCTGCGCCTCA
T
TTCCCCCCACTCACAGGGCTGTCTTGAGGCTGGGTGGAGTAGTCCTCTGGAAGCCCTGAAGGTTTGACCGTTCTAAAGCAGTGTTTCAGGTGAATTTATA
Celera SNP ID:            hCV26911516
SNP Position Genomic:     168993
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,8)   total(-,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38966):
GCCTTGGGGGCTTACCCCTCATATCAGTGTGCCCTGTATGTAGTACATAGAGTCAAAAGAGATGAGTTTGGAGCTTTAAGATTTAATGACTGCCCTTCTG
Y
GTTCTGGACTTGTGTGGGGCCTGTAGCCCTTTTCTTTTGACTGATTTCTCCCCTTTGGAATGGGAATGTGTTGCGGGAAGTCAGGGACCCCAAATGGAGG
Celera SNP ID:            hCV26911517
SNP Position Genomic:     179507
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38967):
AGAATAACCCTGTGGCAGCTTGTAGGAGAGATTTGAGGCCAAAGGTGTGTAGGTTTATCCTTGTTTTTTGTTTGGTTGGTTTTTTTTGTTTGTTTGTTTG
K
TTTTTTTTTGTTTGTTTGTTTTTGTCTAGCTCCTCTTCTCTAAGAATGGCCCTACCTCTTCCACATGGCAATGATGCTCATACAGGGGTAGGGGACTGAC
Celera SNP ID:            hCV26911518
SNP Position Genomic:     181506
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38968):
CAGTCCCGGGCTCCTGTCAGGCGCTCTTCTCAGACCCCCGGGAACTTGGCTTCGGCCGCCCCGCCCCTCCGTGGATCCCAGTAGCCCCCGCCCCGGACTC
K
GCTTTCCCCGGCTGCTCGCTTGTCAGGAAGCGCCTGGGGTGCCCCGCTTGTGGGAAGCGCGATCCCGGGGCGATAGGGTGGGGATCTGGGGGAGAAGCTC
Celera SNP ID:            hCV27519213
SNP Position Genomic:     227778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38969):
GAATAACCCTGTGGCAGCTTGTAGGAGAGATTTGAGGCCAAAGGTGTGTAGGTTTATCCTTGTTTTTTGTTTGGTTGGTTTTTTTTGTTTGTTTGTTTGG
T
TTTTTTTTGTTTGTTTGTTTTTGTCTAGCTCCTCTTCTCTAAGAATGGCCCTACCTCTTCCACATGGCAATGATGCTCATACAGGGGTAGGGGACTGACA
Celera SNP ID:            hCV26911519
SNP Position Genomic:     181507
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38970):
CGATGTAGGTCGCTCGTCCCTGGTGGGCTCGGCTGCTCGCCTAGCTCTTTTCCAAGGGGCTGGGGCGGGGGCCTGAAGCCCGGAGATGAGCAGACCAGGC
R
CGGGGGTGGGGGGTGCCCGGCCCAAAGCCTCAGGGCGCGCTCCTGGGCGCACAGCCGGGAACCAGAGGCGGCCACGACGCTTTTAATTAGGGCTGGGGCG
Celera SNP ID:            hCV25924164
SNP Position Genomic:     2936
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,35)   total(A,1|G,69)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:38971):
GATACAAGAGGCTTAGAGATCCCCAAATAGATATAATGCAAAGTTCTTCTCCATGACATATTATAGTCAAACTGTCAAAAACAGAGAGAGAATTCTAAAA
R
CAGCAAGAGAAAAACATCTGGTTCCCTATAAAGGGACCCATATCAGACTAATAGTGGACTTCTCAGCAGAAACTTTACAGGCCAGGAGAGTATAGTATAT
Celera SNP ID:            hCV27534381
SNP Position Genomic:     210181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38972):
CCTCCCACTTTGGCTTCCCAAAGTGCTGGGTTTGCATCCTGGATGGCCTCTTAGGAGCTGTGTGCCCTTGGGCAAGTTGTTTAACCTTCCTGAGCTCCTG
Y
GTCCCTATCTTTAAAGTGAAAATAATAATAGCACGTTTTACTACTTGGAAGGAGGCTGGACCAGGTTTTCTACAGCCAGACCATCTACGCTTTCCAAAGG
Celera SNP ID:            hCV3104090
SNP Position Genomic:     57288
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:38973):
CCAAATAAGCTTATAATGGGGCTTCCAGACACTAGCAGTGAGGCAGTTTCTGTAGAGGTTGAGTGGCGGCTCTTCACCGACTAACTGGGTTTGCGTCCCC
Y
GCCTTTTTGTTTTCCTTTTTTAAAATACATTTTTTAAATATCATGGAGTGTCACTATGTTGCCCAGGTTAGTGTCGAACTCCTGAGCTCAAGGGATCCTC
Celera SNP ID:            hCV3104091
SNP Position Genomic:     57091
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,19)   total(C,19|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38974):
TTATATTATTGGAATACTAATGTTTTACATTTTGTTTTTTCTCTAAGCAAATGGTTATGAGCCTTAGAGTTTCTGAACTCCAAGTACTGTTGGGCTACGC
Y
GGGAGAAACAAGCACGGACGCAAACACGAACTTCTCACAAAAGCCCTGCATTTGCTAAAGGCTGGCTGTAGTCCTGCTGTGCAAATGAAAATTAAGGAAC
Celera SNP ID:            hCV25601851
SNP Position Genomic:     259106
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:38975):
TGGCTTAACCAAGCAGGAGTTTGGATTTCTCTAATGAGAGGTCTGGGGTGGGTGTAGCGTCTCCACTGTATCATCAATGTCCCGGCTTCTATCCATGTTT
C
TACTCAGTTACGCTTAATGTAACTGAGTAGTTACGTTATCTTGCTTATTAAGTCTTACGGTCACGGTCACGAGTTGACTGCTCCACCTTCACTCTCACAT
Celera SNP ID:            hCV3104093
SNP Position Genomic:     52589
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,10)   total(C,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38976):
AGGCTGGCTGTAGTCCTGCTGTGCAAATGAAAATTAAGGAACTCTATAGGCGGCGGTTCCCACAGAAAATCATGACGCCTGCAGACTTGTCCATCCCCAA
Y
GTACATTCAAGTCCTATGCCAGCAACTTTGTCTCCATCTACCATTCCACAACTCACTTACGATGGTCACCCTGCATCATCGCCATTACTCCCTGTTTCTC
Celera SNP ID:            hCV25601852
SNP Position Genomic:     259265
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:38977):
ACATAACAAGGTGTTGTTATGTCATCCAACAGCAGGACTGTTGGAAAATGTATTTCTCAAACCATCAAATTCATGAAGGAAACAGTCTCTTTTGATTTTC
Y
CTATTGAAATATAACTTCACCAGACCAATCTGGTTCAACTGTAACAAAGGTTAAGTAACCTGAGCATACCCAGTGTGCATGAACCAAGCGTGCAATCACC
Celera SNP ID:            hCV3104094
SNP Position Genomic:     51799
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38978):
ACTCAACAGCACCATCAATCAACAGGATATAATTGACATCTATAGACTACTTCATCCAAAACAGCATAATACACATTCCTCACATGTACCGTTCACCAAA
R
TAGACCACATTCTGGGCCACAACCTGCACCCTACCTAATTTAAAGGAACAGAAATATTACAATGTATGCTCTCAGACTACAATGGGATTAAACAGAAAGA
Celera SNP ID:            hCV3104095
SNP Position Genomic:     44360
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38979):
GTGGTGTGTGCCTGTAGATCTAACTATTTGAGTGGCTGAGGTAGGAGGATTTCTTGAGCCCAGGAGATCAAGGCTGCAGTGAGCTGTGATTGAGCCACTG
Y
ACTCTAGCCTGGGTGACAGAGCAAGACCCTATCTCAGAAAAAAAAAAGACTCAATTATATTGTTGTGTAAAATATACCCACTTTAAATATAAAGATCCAT
Celera SNP ID:            hCV3104096
SNP Position Genomic:     43814
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38980):
GGCAATGCCCCACCCAGGCCTCCCTTGACCACACTACCTGTTGCAGGAGATGGCCTGCCCACTTGGCCCACCCATGCTGAGTATGGCTTGCACACCTGTT
Y
CTGAGTTCTTGTCCTGTGCCCAAGAAGAATGAGGATGCACTGACAGTCAAAGAATGAGCAAGGCAGGGAATTTTATTGAGTGATGAAACAGCTTTCAGCA
Celera SNP ID:            hCV3104097
SNP Position Genomic:     42717
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38981):
CTCAGAAAAAACTGGTTATATAGCAAAAACTTAAAGCAAACACTACACTTAATGAAGAAACTAGGAGCATTCACTTTAACATCTGGAACAAAATAAGGCA
Y
CCAACTGTACTGCTATCATTTACTATATAATAATAGAAGTTCCAGACAAAGCTATGAATGAAGAAAAATGTAAGACATACAGGATGAGAAGAAATAAAAT
Celera SNP ID:            hCV3104098
SNP Position Genomic:     40719
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38982):
TATTGGTATTTTTCTTTCTGGTTGGTTTCTTTCTCTACAAAATGTGAATAACGGTATTAACTGTACAGGAATGTTGTGAGGATTGAGTGAGAGAACGTAT
R
TAATAGTTAACATTCCAGAAGTGTTAGCTATTTTTATATGTAACAAAATCAGCACCAGACTGTATCTACTGTTTCTGTGCTGCCGTCTTCACAGCCAACA
Celera SNP ID:            hCV3104099
SNP Position Genomic:     38466
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38983):
TCTAGAATATATACCAGTTAATTAAAGACATGTGTGTTTTTTTTTTTTGCTTTTGTCTTTACTGGCGAATTTAAAGGTAATTGAAAGTATAATTCTTGTC
K
TCTTTAGCATCAGACAACAGTCAGCGCTTTCGAGAAACCTGTTTTGCATTTGCCTTGACACCACAACAAGTGCAGCAAATCAGTAGTTCCATGTAAGTTG
Celera SNP ID:            hCV25601857
SNP Position Genomic:     311781
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,15)   caucasian(T,38)   total(G,1|T,53)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38984):
TATAAGGTTGTTTGGAAAAATAATAACACAAGAAACTTGTAAATGTTTGCTTCTCTACTTTTTAATGAAAACATTCATATTTTCTAGTATGCAGTTTGTA
R
GGGGTTTTTTCTTAAGGAATGGAAGTCAAAATGATTGTGGAAATAATAAGTATAAATAAATTACATTTCATTTTTAGGGTTACCTTCCACCTACAAAAAA
Celera SNP ID:            hCV25601858
SNP Position Genomic:     316330
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:38985):
TCACAGGAAATGTGTTTAATGTTCTTCTACATTGATGAAAAGTCAACACTGTATGCTTTAAATCAGCATGCCTACCTGTTGTGTTCTAGGAAATTTTTGT
Y
AAAGCTTAAATGTTGAATAGCAATTATCTAATATTTACTTTTTCTCCCTTTTTAAAGCTTGGTAAAATGCGGCTGACAATTCCGTGTCGGGCCCTTACAT
Celera SNP ID:            hCV25601859
SNP Position Genomic:     343460
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,35|T,1)   total(C,60|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:38986):
CACTGAGGCACACTGGCAGAGCTATGTGGCACCAACTCAAGTCGTTTAACTTCACGAACACCCACACAATATTAGAGGGAAAGAAATTTTAAAAGCAAAA
R
AAAAAAAAAATCCGGTTAATTGCCATACATGTTTTTGCAATCCTGACACAGTAATAACTTGCCTGTAAACACCTCCCTTGAAGAATTGGCTAATAGGATG
Celera SNP ID:            hCV26911520
SNP Position Genomic:     184497
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:38987):
GATTGCTTGAGCTTGGGAGGCTGAGGCTGCAGTGAACCATGATCACTCCACTGCACTCCAGCCTGAGCAACAGAGCGAGACCCAATCTCAAAAAAAAAGG
A
AGAAGAAAAAGAAACTAGCTGGGCGCCATGGCTCACGCCTGTAATCCCAACACTTTGGGGGCCAAGGCGGGTGGATCACAAGATCAGGAGTTCGAGACCA
Celera SNP ID:            hCV26911521
SNP Position Genomic:     190729
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38988):
ATTGCTTGAGCTTGGGAGGCTGAGGCTGCAGTGAACCATGATCACTCCACTGCACTCCAGCCTGAGCAACAGAGCGAGACCCAATCTCAAAAAAAAAGGA
A
GAAGAAAAAGAAACTAGCTGGGCGCCATGGCTCACGCCTGTAATCCCAACACTTTGGGGGCCAAGGCGGGTGGATCACAAGATCAGGAGTTCGAGACCAG
Celera SNP ID:            hCV26911522
SNP Position Genomic:     190730
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38989):
TTGCTTGAGCTTGGGAGGCTGAGGCTGCAGTGAACCATGATCACTCCACTGCACTCCAGCCTGAGCAACAGAGCGAGACCCAATCTCAAAAAAAAAGGAA
G
AAGAAAAAGAAACTAGCTGGGCGCCATGGCTCACGCCTGTAATCCCAACACTTTGGGGGCCAAGGCGGGTGGATCACAAGATCAGGAGTTCGAGACCAGC
Celera SNP ID:            hCV26911523
SNP Position Genomic:     190731
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,7)   total(G,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38990):
TCCTGGGTTCAAGTGATTCCCCTGCCTAAGCCTCCCTGCTTCAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAATTTTTTTTGTTTTGTTTTGT
W
TGTTTGTTTGTTTAGTACAGACAGGGTTTCATCATGTTGGCCAGGCTGGTCTCGTACTCCTAACCTCAAGTGATCAACCTGTCTTGGCCTCCCAAAGTGC
Celera SNP ID:            hCV26911524
SNP Position Genomic:     64186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:38991):
CTCCCCTTCCTTCCTTCCTCTCTCTCTTCCTCCCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCT
T
TCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTT
Celera SNP ID:            hCV26911525
SNP Position Genomic:     207865
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38992):
TCCCCTTCCTTCCTTCCTCTCTCTCTTCCTCCCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTT
T
CTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTT
Celera SNP ID:            hCV26911526
SNP Position Genomic:     207866
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38993):
TTCCTTCCTTCCTCTCTCTCTTCCTCCCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCT
C
TCTCTTTCTCTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGA
Celera SNP ID:            hCV26911527
SNP Position Genomic:     207871
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38994):
CCTTCCTTCCTCTCTCTCTTCCTCCCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCT
C
TCTTTCTCTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGA
Celera SNP ID:            hCV26911528
SNP Position Genomic:     207873
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38995):
CTTCCTCTCTCTCTTCCTCCCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTT
T
CTCTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGG
Celera SNP ID:            hCV26911529
SNP Position Genomic:     207878
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:38996):
TTCTAGGTTTGTTACTTGAAAATTGCAAAATTAGGGCAAGTTCTTTTACTTCTCTGTACTTCAGTATCCTCATCCATAAAAACAGGTTTATGATCATCTC
R
GCAGCTTTTTGGTCAGGATTAAATGAATTACTGTTCATGAAAACACCTAAGACTGCTTGACACACAGTAGGTGTTTTAAGAAGTGTTAGTTTTCTTTCCC
Celera SNP ID:            hCV28953463
SNP Position Genomic:     323252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38997):
AGTTTTAGTAGTCAAGCCAGACACTCTTATGTTCTTGAAAGAATAAAGTTGGTATTATTTAGACTTTTCACAGAGAACTCCATTCTCTGAATCATTTGAT
K
TAGTAGGATTTTGTCTTGCAGTTTCTGCCTTTGTGTAGAGTTGTCCCCTCACAACTATGAAAAACAGTCTTTTACCAACTCTTAATCAAGTTTCTTTCTC
Celera SNP ID:            hCV28953464
SNP Position Genomic:     325557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:38998):
TGGGTTTGTTACACATCAGATTTGGGATGAAAATTCTAAGTTATATATTTGTAGGATTTTTGTGAGTCTGCAAACCAATATTTTCAAAGTAATTTATTTC
M
AATTAGTGTTATGAATATTTTATCTTTTTAAATTGATGTTCCCTTGGTTTGAAAATGCGTGTGTTACTGTCAGTGCCTCCTGGCATTTGTCGTTGAAAGC
Celera SNP ID:            hCV25601863
SNP Position Genomic:     343828
SNP Source:               Applera
Population(Allele,Count): african american(A,36|C,2)   caucasian(A,40)   total(A,76|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:38999):
ACCATATCATATATATATATATACGTATATATATATATTCATATATATATATACTATATATATATTCATATATATATACATATATATTCATATATATACA
T
ATATATATGAATATATATATTCATATATATATTCATATATATATGAATATATATATGAATATATATATATATAGCAATGTCATATTTTAAAATGTGCATG
Celera SNP ID:            hCV26911600
SNP Position Genomic:     223393
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39000):
TATGTTTATAGAGATTTACCTCTTGAATTTATCAGTGTATATGGTTAAAAGTTCTTAACAACTTGTTTTGATGGTTTTGCTATACACTACTGGTTTTTTT
A
AAAAAATAATTGCCACATTTAATGTAACCTCTGTAGTATTAATGCTGGAGTTTCACTTAACAATAGGAATGAAAACATCACAGGTAAGGGTTGTATAGCT
Celera SNP ID:            hCV26911601
SNP Position Genomic:     235935
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39001):
GAGGCAGGAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGACATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCA
A
AAAAAAAAAAAAAAAAAGAAATTACATTCTAGTACTCCTGTAACTATATGAAAAATAGTTTGGTTCTCTTGTACCTTTCCATATTTGAATTTTTATAGAG
Celera SNP ID:            hCV26911602
SNP Position Genomic:     242699
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39002):
TTCCTCTCTCTCTTCCTCCCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTT
C
TCTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGT
Celera SNP ID:            hCV26911530
SNP Position Genomic:     207879
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39003):
TATTGAGAACTTGAAATATGGTTAGTCCTAATTAAGATTTGCTGTAAGTGTAAAACATACTGGATTTCGAAGACATAGTATGAAAAAAAGAATGGAAAAT
A
TCTCATTAATGATTGATATTGATTGCATGTTGAAATAATATTTTGTTTATTGGATTAAGTAAATATATATCATTAAAATTAATTTCACCTACTTGTAATT
Celera SNP ID:            hCV26911603
SNP Position Genomic:     243588
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39004):
TCCTCTCTCTCTTCCTCCCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTC
T
CTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTC
Celera SNP ID:            hCV26911531
SNP Position Genomic:     207880
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39005):
ATTGAGAACTTGAAATATGGTTAGTCCTAATTAAGATTTGCTGTAAGTGTAAAACATACTGGATTTCGAAGACATAGTATGAAAAAAAGAATGGAAAATA
T
CTCATTAATGATTGATATTGATTGCATGTTGAAATAATATTTTGTTTATTGGATTAAGTAAATATATATCATTAAAATTAATTTCACCTACTTGTAATTT
Celera SNP ID:            hCV26911604
SNP Position Genomic:     243589
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39006):
TTGAGAACTTGAAATATGGTTAGTCCTAATTAAGATTTGCTGTAAGTGTAAAACATACTGGATTTCGAAGACATAGTATGAAAAAAAGAATGGAAAATAT
C
TCATTAATGATTGATATTGATTGCATGTTGAAATAATATTTTGTTTATTGGATTAAGTAAATATATATCATTAAAATTAATTTCACCTACTTGTAATTTT
Celera SNP ID:            hCV26911605
SNP Position Genomic:     243590
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39007):
CCTCTCTCTCTTCCTCCCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCT
C
TCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCT
Celera SNP ID:            hCV26911532
SNP Position Genomic:     207881
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39008):
CCTCCCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCC
T
TTCTTTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAG
Celera SNP ID:            hCV26911533
SNP Position Genomic:     207893
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39009):
TGAGAACTTGAAATATGGTTAGTCCTAATTAAGATTTGCTGTAAGTGTAAAACATACTGGATTTCGAAGACATAGTATGAAAAAAAGAATGGAAAATATC
T
CATTAATGATTGATATTGATTGCATGTTGAAATAATATTTTGTTTATTGGATTAAGTAAATATATATCATTAAAATTAATTTCACCTACTTGTAATTTTT
Celera SNP ID:            hCV26911606
SNP Position Genomic:     243591
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39010):
GAGAACTTGAAATATGGTTAGTCCTAATTAAGATTTGCTGTAAGTGTAAAACATACTGGATTTCGAAGACATAGTATGAAAAAAAGAATGGAAAATATCT
C
ATTAATGATTGATATTGATTGCATGTTGAAATAATATTTTGTTTATTGGATTAAGTAAATATATATCATTAAAATTAATTTCACCTACTTGTAATTTTTT
Celera SNP ID:            hCV26911607
SNP Position Genomic:     243592
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39011):
CTCCCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCT
T
TCTTTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGC
Celera SNP ID:            hCV26911534
SNP Position Genomic:     207894
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39012):
GCCCCCCCGCCCCTACCTCCCTTCCCTCCATGGAGTGGCTAACCCCAGGGAGTTTGCTTCATTCTTTTTTTTTTTTTTTTTGACAGAGTCTCACTCTGTC
R
CCCAGGTTTAAGCAATTCTCTGCTTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCATGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACG
Celera SNP ID:            hCV26911608
SNP Position Genomic:     244200
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39013):
TCCCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTT
T
CTTTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCT
Celera SNP ID:            hCV26911535
SNP Position Genomic:     207895
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39014):
AAGGAGACATTATAACAGATACTCAGAAATACACAAGATCATCAGATACTATCATGAGCAACTATATACAGTAAACTGGAAAATCTAGAGAAAATGGAAA
R
ATTCAATATATATAACCTACCAAGATTGAACCAGGAAGAGAGAAAACCTAAACAGTCCAGTAACAAGTAATGAGATCAAAGAAGTAATAAAAGTCTCCCA
Celera SNP ID:            hCV26911609
SNP Position Genomic:     212791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39015):
CCTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTC
T
TTCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGG
Celera SNP ID:            hCV26911536
SNP Position Genomic:     207897
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39016):
CTTTCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCT
T
TCTTTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGGA
Celera SNP ID:            hCV26911537
SNP Position Genomic:     207898
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39017):
TCTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTC
T
TTCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGGAGGG
Celera SNP ID:            hCV26911538
SNP Position Genomic:     207901
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39018):
CTCCCTTTCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTCT
T
TCTTTCCTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGGAGGGC
Celera SNP ID:            hCV26911539
SNP Position Genomic:     207902
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39019):
GAACCAGAGGCGGCCACGACGCTTTTAATTAGGGCTGGGGCGCCCCGACCGCGGCAGCTCCGGCAGTATCCGGGTCACGGTTTCTTTGCCTCTCTTGAAA
Y
TCGGTTTGTTGCCTTCAAGAGCCAGATAAGGAAGACAATCACTCGCCCGCCGATGATTTGGAAACGAGGAAATCCTATCCAGACCAAAGGAGTATCTCCC
Celera SNP ID:            hCV25923456
SNP Position Genomic:     3095
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,18)   caucasian(C,10|T,14)   total(C,24|T,32)
SNP Type:                 hmCS


Context             (SEQ ID NO:39020):
TAAACTGAAACTATCTCAAATTGAAAATGTATTTAATCCACCTAATCTACCAAACATCATAGCCTACCCTAGCCTACCTTAAATGTGCTCAGAACACTTA
Y
ATTAGCTTACAATTGGGCAAAGTTGCCTAACACAAGCCTATTTTATCATAAAGTGTTTAATATCTTATGTGTTAATTTATTGGATAGTTTTTGAAAGTGA
Celera SNP ID:            hCV26911610
SNP Position Genomic:     216676
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39021):
AGAGTAGGGAAGAATGGTATTCTTCCTCTTATTGCCCTATCCTGTCATCTCTGAGGTTAATTGATGTCTTTGAAATTTAATATACTCCATTTAAAAAAAA
W
TTTCCCTAATTACAAAAATGTTATGTTTAATGTAGAATCCATAGAAATTATAATTACTTGCTTACTTTACAGATAAACTTTTAAAATACTTCTGTGGTAT
Celera SNP ID:            hCV26911611
SNP Position Genomic:     263572
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,9)   total(A,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39022):
TTATGTTTAATGTAGAATCCATAGAAATTATAATTACTTGCTTACTTTACAGATAAACTTTTAAAATACTTCTGTGGTATTCTTTTTGTTAGTCATTTAC
R
GGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTCTGGTTTCATTTTGAAGGAGAGGAGAACCTCACTAGCTCACGTAACCTGGC
Celera SNP ID:            hCV26911612
SNP Position Genomic:     263693
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39023):
GTCATTTACGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTCTGGTTTCATTTTGAAGGAGAGGAGAACCTCACTAGCTCAC
R
TAACCTGGCAGCCGCATGTATTATTGATCCATATAAATAATGGAAGAAAATTTTAATCTTGATAGGATGTTGAGCACATGTGTTAAGGGGTACTTTGTTT
Celera SNP ID:            hCV26911613
SNP Position Genomic:     263784
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39024):
TCCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTCTTTCTTTC
C
TTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGGAGGGCAATGGCA
Celera SNP ID:            hCV26911540
SNP Position Genomic:     207909
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39025):
TTTTGAAGGAGAGGAGAACCTCACTAGCTCACGTAACCTGGCAGCCGCATGTATTATTGATCCATATAAATAATGGAAGAAAATTTTAATCTTGATAGGA
Y
GTTGAGCACATGTGTTAAGGGGTACTTTGTTTGAAATACCTTATTGCTTAGTGTGCCAATATTGGTGTTGATGAGGTGTGAAATTTACATAATTATGAAA
Celera SNP ID:            hCV26911614
SNP Position Genomic:     263852
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39026):
CCTTCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTCTTTCTTTCC
T
TCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGGAGGGCAATGGCAC
Celera SNP ID:            hCV26911541
SNP Position Genomic:     207910
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39027):
TCCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTC
T
TTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGGAGGGCAATGGCACCAT
Celera SNP ID:            hCV26911542
SNP Position Genomic:     207913
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39028):
TTTCACCATTAAGTATAATGTTAGCTGTGGATTCTTTCATAGATGCCCTTCCTGTTGAGTTTTTTAATTATAAAAGCATGTTGTAATTAATTAATTAATT
W
ATTTATTTATTTTTGAGACGGAGTTTTACTCTTGTCACCCAGGCTGGAGTGCAATGGCATGATCTCAGTTCACTGCAACCTCTGCCTCCTCAGTTCAAGT
Celera SNP ID:            hCV26911615
SNP Position Genomic:     270210
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,5)   total(A,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39029):
GCTAATGATGTTGAACATCCTTTTATTTGTTTATTTGCCATCTGAATATCCTCTTCAGTGAAATATCTTTTTATGTCTTTTGTCTTTTCTAATTGCAGTG
T
TTTTTTTTTTTTTTAACTTATGAGTTTTCAGAGTTCTTTCTAGATTCTAGATTCTAGTCCTTCGTTGGGTTTGTGGTTTGCAGATCTTTTCTCCTGTGGT
Celera SNP ID:            hCV26911616
SNP Position Genomic:     274105
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39030):
CCTCCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCT
T
TCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGGAGGGCAATGGCACCATC
Celera SNP ID:            hCV26911543
SNP Position Genomic:     207914
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39031):
TGTTTTGGACATCTCATATGAATGGAATCGTATGGTATATGACCTTCCGTGACTGGCTGTTTTCATTTAGAATGATGTTTTCAAGTTCATAAAGTTGTAT
R
TGCCGAAACTTTGTTCTTTTTAATGGCCAAGTAATATTCCGTTATATGGATATACCACATTTTGTTTATACATTCATCAGTTGATGGGCATCTGAGTTGT
Celera SNP ID:            hCV26911617
SNP Position Genomic:     276544
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39032):
CCCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCTTTC
T
TTCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGGAGGGCAATGGCACCATCTCA
Celera SNP ID:            hCV26911544
SNP Position Genomic:     207917
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39033):
TTTATTGTGAAATATTTGCAACCTTGAAAATTCAGAAATCTAGCAATAGGATCTCTCTCTGTCTCTCTCTTGCTCTAGCAAACGACTGCATATATTTCAT
M
CACACACACACACACACACACACACACACACATATACATGTATAGTATATTGGTTTTGTATAAGGTATAAAAAGCAAATTATTATAAAAACAATACATAT
Celera SNP ID:            hCV26911618
SNP Position Genomic:     286802
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5|-,6)   total(A,5|C,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39034):
CCTCCCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCTTTCT
T
TCCTTTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGGAGGGCAATGGCACCATCTCAG
Celera SNP ID:            hCV26911545
SNP Position Genomic:     207918
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39035):
CCTCTCTCTTTCTCCCTTTCTGTCTCTCTCTTTCTCTCTTTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCCTTTCTTTCTTTCTTTCCTTCTTTCTTTCC
T
TTCTTTCTTTCTTTCTTTCTTTCCTTCTTTCTTTCTTTCTTTTTTTTGAGACAGGGTCTCTGTCACTCAAGCTGGAGGGCAATGGCACCATCTCAGCTCA
Celera SNP ID:            hCV26911546
SNP Position Genomic:     207922
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39036):
TTATTGTGAAATATTTGCAACCTTGAAAATTCAGAAATCTAGCAATAGGATCTCTCTCTGTCTCTCTCTTGCTCTAGCAAACGACTGCATATATTTCATA
C
ACACACACACACACACACACACACACACACATATACATGTATAGTATATTGGTTTTGTATAAGGTATAAAAAGCAAATTATTATAAAAACAATACATATG
Celera SNP ID:            hCV26911619
SNP Position Genomic:     286803
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39037):
TTGAACCTGGAAGGCGGAGGTTGCAGTGAGCCGGGATTGCACCACTGCACTCCAGCCTGGGCCACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAA
G
AAGAAGAAGCATTCTTAGTTTCCAGATACATGAGAGTATTCCAATTTCCTTTTTGTTATTAGTTTCTAGCTTAATTGAAGTGTAGTCAAATTTACTCCTT
Celera SNP ID:            hCV26911547
SNP Position Genomic:     67859
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39038):
AAGCTGAGGCAGAATAGCTTGAACCCGGGGGCAAAGGCTGCAGTGAGCTGAGATGGTGCCACTGCACTCCAAGCTGGGCGACAGAAAGAGACTCTGTCTC
A
AAAAAAAAAAAAAAAAAAAAAGGAGGTTAGACCCCTCATTTTCTGATTCCTATACTGGTCTTGTTGATGATTTGTCGGGAAGTAGTAGTGCAGAATTACT
Celera SNP ID:            hCV26911548
SNP Position Genomic:     69894
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,7)   total(A,5|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39039):
TCGTATAGGGTAACTTCTGGACATTGCCATGGCATTTATAAACTGTCATGACGCTGGTGGGAGTGTCTTTTGGCATACTAATGTATTATCGTATAATGAG
Y
AGTGAGGACAACCAGAGGTCACTTTTGCTACCATCTTGGTTTTGGTGGGTTTGGGCTGGCTTCTTTACCGCATTGTTTCATCAGCAGGTTCTTTATGACT
Celera SNP ID:            hCV26911549
SNP Position Genomic:     73706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39040):
TGATGTAACAGCACTTTAAAAGGGCGACAACTGACTCACGAGATGGCAACCACCTGGAGCCTGTTTGGGGAGACCACCCTGTACCCGTGACTTTCGTTTT
T
AATAATAATAATAATAATAATAAAAGATGTCACTTCTGGGGCTACGGAGGTGGGAGTGCACCGGCGGAGCGGGGCGGCGGAACACCGTGCAACAGGTGGG
Celera SNP ID:            hCV26911477
SNP Position Genomic:     7462
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39041):
GATGTAACAGCACTTTAAAAGGGCGACAACTGACTCACGAGATGGCAACCACCTGGAGCCTGTTTGGGGAGACCACCCTGTACCCGTGACTTTCGTTTTT
A
ATAATAATAATAATAATAATAAAAGATGTCACTTCTGGGGCTACGGAGGTGGGAGTGCACCGGCGGAGCGGGGCGGCGGAACACCGTGCAACAGGTGGGG
Celera SNP ID:            hCV26911478
SNP Position Genomic:     7463
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39042):
ATGTAACAGCACTTTAAAAGGGCGACAACTGACTCACGAGATGGCAACCACCTGGAGCCTGTTTGGGGAGACCACCCTGTACCCGTGACTTTCGTTTTTA
A
TAATAATAATAATAATAATAAAAGATGTCACTTCTGGGGCTACGGAGGTGGGAGTGCACCGGCGGAGCGGGGCGGCGGAACACCGTGCAACAGGTGGGGG
Celera SNP ID:            hCV26911479
SNP Position Genomic:     7464
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39043):
ATACACATTGTCATGTGATTTTTTTAAGTGCCATAATCACAATTTTAAAAGATATTTCATAAACCTCTGGATATATAAATACTTTTGGGCTAAATGCATC
R
TAATATATATATTTGTTCTGTTCTTTAGACTATTAATAGTAATATGTATTTATGTAAACTATGCAATAGTATTACTGACTATATATTTTTTCTTTAAAGA
Celera SNP ID:            hCV488526
SNP Position Genomic:     348496
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39044):
TTCAGAAATCTAGCAATAGGATCTCTCTCTGTCTCTCTCTTGCTCTAGCAAACGACTGCATATATTTCATACACACACACACACACACACACACACACAC
W
CATATACATGTATAGTATATTGGTTTTGTATAAGGTATAAAAAGCAAATTATTATAAAAACAATACATATGCTCAATGTGAAGAATTTTGTAAATAAAAG
Celera SNP ID:            hCV26911620
SNP Position Genomic:     286832
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39045):
TCAGAAATCTAGCAATAGGATCTCTCTCTGTCTCTCTCTTGCTCTAGCAAACGACTGCATATATTTCATACACACACACACACACACACACACACACACA
Y
ATATACATGTATAGTATATTGGTTTTGTATAAGGTATAAAAAGCAAATTATTATAAAAACAATACATATGCTCAATGTGAAGAATTTTGTAAATAAAAGT
Celera SNP ID:            hCV26911621
SNP Position Genomic:     286833
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39046):
TAAGACATGAGAATCACTTGAACCTGGGAGGTGAAAGTTGCAGTGAGCCAAGATTGCGCCACTACACCCCAGCCTGGATGACAGAACGAGTGTCTGTCTC
A
AAAAAAAAAAAATAATAATAATAAATAAATAAAGAGTCACAGTCTTGCTCTGTCTCCGAGGCTAGAGTGCGGTGGCACAATCATAGCTCACTGCAGCCTT
Celera SNP ID:            hCV26911622
SNP Position Genomic:     291091
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39047):
AAGACATGAGAATCACTTGAACCTGGGAGGTGAAAGTTGCAGTGAGCCAAGATTGCGCCACTACACCCCAGCCTGGATGACAGAACGAGTGTCTGTCTCA
A
AAAAAAAAAAATAATAATAATAAATAAATAAAGAGTCACAGTCTTGCTCTGTCTCCGAGGCTAGAGTGCGGTGGCACAATCATAGCTCACTGCAGCCTTG
Celera SNP ID:            hCV26911623
SNP Position Genomic:     291092
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39048):
TCCAACACCATATATTTGTTTTTAAGAAACCCACAAAACCTTAGACAAATTTAATTTAACAGATTTTATTTATTTATTTTTTTGATAGAGTCTTGCTCTG
Y
TGTCCAGGCTGCAGTGCAGTGGTGCAGTCTCAGCTCACTGCAGCCTTGACCTCCCCAGACTCAGGTGATCCTCCCACCTCAGCCTCCAGAGTAACTGGAA
Celera SNP ID:            hCV26911550
SNP Position Genomic:     74325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39049):
ATATTTGTTTTTAAGAAACCCACAAAACCTTAGACAAATTTAATTTAACAGATTTTATTTATTTATTTTTTTGATAGAGTCTTGCTCTGTTGTCCAGGCT
R
CAGTGCAGTGGTGCAGTCTCAGCTCACTGCAGCCTTGACCTCCCCAGACTCAGGTGATCCTCCCACCTCAGCCTCCAGAGTAACTGGAACTGCATGTGCT
Celera SNP ID:            hCV26911551
SNP Position Genomic:     74336
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39050):
TCACTTGAACCTGGGAGGTGAAAGTTGCAGTGAGCCAAGATTGCGCCACTACACCCCAGCCTGGATGACAGAACGAGTGTCTGTCTCAAAAAAAAAAAAA
W
AATAATAATAAATAAATAAAGAGTCACAGTCTTGCTCTGTCTCCGAGGCTAGAGTGCGGTGGCACAATCATAGCTCACTGCAGCCTTGACCTCCTGGGCT
Celera SNP ID:            hCV26911624
SNP Position Genomic:     291104
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39051):
AATTCTTTTACCTTTTGTATGTCTCAGAGTTTTTATTTTACCTTTGTTTTTGTAAGATGTTTTTGCTGAGTAAAGTGTTAACAGTTGACATGTTTTTTTG
T
TTTTTTTTTTCTTTTGGCACTTCAAAAATTTTACTCCACTTCTTACTCTGTTTTCTGCTTGCATTATTTTTGACAAGAAATCTGCTGTTATCTGTATGCT
Celera SNP ID:            hCV26911625
SNP Position Genomic:     294035
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39052):
GGTGGAAGATTTATGGACAGAGAAAGGAAAGTGACATATAGAAAACCGAAGTAGGGTACAGAAACAGCTGGATTGGTTACAGCTCAGTAAGTTTGCCTTA
K
TAGAGCATGGTTTGAACAGTTAGCCACCTTTGATTGGCCGAAACTTGGTTATTGGCACTGGAGTAGGTTACAGTTTATTTATTTATTTACACATCCAGTT
Celera SNP ID:            hCV26911552
SNP Position Genomic:     74777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39053):
GGATCATCCCATTTATACTTTATTATGACTATGTAAACACTATTTGTAAGTGAGCAATGTAGTGAACTATTTTTCATTTCTTGAATACCTTTTTATTTTC
Y
CTGTTCTGGTCATTTTCTTTTCTTTTTTTTTCCCCCTGTGTACTTATTTCTCATTCATTGCCAAAATTTTTTTGCCACTGTGTAAATCTCCAGATGGATA
Celera SNP ID:            hCV26911626
SNP Position Genomic:     297906
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39054):
CTTCCAGGTTGGTGAATGAATCCACTTGCTGGAGAGTGGTGCACCCCAACTCTGAAACCACCATTGCAAAATTATAACTGAGACAGCAAAAGAGATCTGA
S
CTAACCAACTCTATCTTGCTTGTAACCTCCAAGCCATCCTTGTTTATTCCTGGGTATAGGTTGAACTAACTTTGGGAATAACTTAGTTTATAGTTTAAAA
Celera SNP ID:            hCV26911553
SNP Position Genomic:     75394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39055):
TGTAACAGCACTTTAAAAGGGCGACAACTGACTCACGAGATGGCAACCACCTGGAGCCTGTTTGGGGAGACCACCCTGTACCCGTGACTTTCGTTTTTAA
W
AATAATAATAATAATAATAAAAGATGTCACTTCTGGGGCTACGGAGGTGGGAGTGCACCGGCGGAGCGGGGCGGCGGAACACCGTGCAACAGGTGGGGGT
Celera SNP ID:            hCV26911480
SNP Position Genomic:     7465
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,6)   total(A,1|-,6|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39056):
CCTGAGTAACTAGGACTGTAGGCACATACCACCACACCTGGCTGATATTTTAAAGTTATTTTTTGTAGAGACAGGGTCTCACTATATTGCCCAGGCTGCT
S
TCAAATTCCTGGCCTCAAGTGATCCTTCTGCCTCAGCCACCCAAAGCACTGGGTTGACAGACCTGAGCCACTGCACCTGGCCCAGTTACTTTTCAAGTGT
Celera SNP ID:            hCV26911627
SNP Position Genomic:     302057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39057):
TTGCAGACCTTGCACTTGATGGATCAGCTGGCACCACCCAGATCGATAAACTGGCTCATCCAATGTTGTGGCGGTCACACAGGAACTGACTCAGCGAAAG
Y
GGACAGCGTCTAATTTCTATAATTTCATCTCTGACCTGACCAATCAGCACTCCCGACTTACTGCCCCCACCACCCGACCCACCAAATGAACCTTAAAAAC
Celera SNP ID:            hCV26911554
SNP Position Genomic:     75791
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39058):
TGTGCAGACGAGGAGTCCCGCTGCGCGGTACAGCCAGGAAGCCAGTCCCTAGAGTCCTTTGCGCTGGGGGTCGGAGCCTTGGAGTCCCAGGATGTTCCGA
S
GGCTAAGACCAGAGCGGACACAAAGGAGATAACAATGAAGAGGGCGCCGGCAAATGGCGAAGCATCGCCTCCGGACAGGCCATCTCCGGGCAGGGCCCCT
Celera SNP ID:            hCV26911481
SNP Position Genomic:     8703
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|G,6)   total(G,6|C,6) 
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:39059):
GGCTCATACCTGTAATCCCAGCACTTTGGGAAGCCAAGGCAAGTGGATTGTCTGAGTTCAGGAGTTTGAGACCAGCCTGGGCAATGTGGCAAAACCTCCT
Y
TAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAAAAGAAAGAAGAACCCTAGAGGTAGTTACTAATAATGGAGGTGCATCAGAATTATTCCCAGTGGGGGCT
Celera SNP ID:            hCV26911628
SNP Position Genomic:     304802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39060):
TAATCTTTCCTGTATCTCTGTGCTTTCATCTGGTATCTTTCCCCATTTGCCTGAAGAATACAAAATTTCCTTTGAATCAAATCTGCTATTAATTGATTCT
Y
TTAAATTTATTCTTCTCTCTTTCTTTTTCTTTCTTTCTCTCTCCCTCTTTCTCTCTCCCCCCTTCTTTCTCCCTCTTTCTCTCTCCCTCTTCTCTCTCTC
Celera SNP ID:            hCV26911555
SNP Position Genomic:     78052
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39061):
TCTTGGCTCACTGCAATCTCTGCTTCCTGGGTTCAAGAGATTCTCCTGCCTCCACCTCCCAAGTAGCTGGGACTACAGGCTCACTATCATGCTGGGCTAA
T
TTTTTTTTTTTTTTTTTTTTGAGTCAGAGTCTCGCTCTCTTCAGCAGGCTGGAGTGCAGTGGCATCATCTTGGCTCACTGCAACCCCTCCTCCCAGGTTC
Celera SNP ID:            hCV26911482
SNP Position Genomic:     15270
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39062):
TTTAAACGTAAAAATTAACTAGAAAACTATTAAAATTCTTCCTATTTCTTATCCCATTCTCTGTCTCTCATAGGTAATCATTTTTAATTAATTTCAGTTT
W
TCCTTCTGGTTTTCTTTTCTTTTCTTTTTTTTTTTCCGAAAAAAGCCAGTAGCTTTATGTATTATTACTTCCTCTCTTACACAGAAAGTAGTAGCATACT
Celera SNP ID:            hCV26911629
SNP Position Genomic:     305727
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39063):
TTGATTCTCTTAAATTTATTCTTCTCTCTTTCTTTTTCTTTCTTTCTCTCTCCCTCTTTCTCTCTCCCCCCTTCTTTCTCCCTCTTTCTCTCTCCCTCTT
Y
TCTCTCTCCCTCTTTCTCTCTCTCCCTCTTTCTCTCTCTCCCTCTTTCTCTCTCTCCCTCTTTCTCTCTCTCCCTCTTTCTCTCTCTCCCTCTTTCTCTC
Celera SNP ID:            hCV26911556
SNP Position Genomic:     78144
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3|-,4)   total(C,3|-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39064):
TTTTCAGCATTGAAATGCTGGCATTCTTGCAGCTGGATAACTGAAGGACGTTTTTGGATAATTGTAATTTTCTGATATTCTGCATTCTCCCAGTACCATG
A
AAAAAAATAATAATTAGCAAGATGTAAAAATTCAAGAGGGTTTTTGTTTTCTCTTTGAGAAGGGCGAAGCAAACTGGTCATCCTGGAGCCATGGAGGGCC
Celera SNP ID:            hCV26911483
SNP Position Genomic:     15850
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39065):
TAGGGACTGGGTAAAATAAGGCTGAGACCGACTGGGCTGCATTCCCAGGAGGTTAGGCATTCTAAGTCACAGGATAAGATAGGAGGTTGGTACAAGGGAC
R
GGTCACAAAGACCTTGCTGATAAAACAGGCTGTGGAAAAGAAGCCGGCTAAAACCCACCACAGACAAGGTGGCAATAAAAATGACCTCTGGTCGTTGTCA
Celera SNP ID:            hCV26911557
SNP Position Genomic:     82004
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39066):
TTTCAGCATTGAAATGCTGGCATTCTTGCAGCTGGATAACTGAAGGACGTTTTTGGATAATTGTAATTTTCTGATATTCTGCATTCTCCCAGTACCATGA
A
AAAAAATAATAATTAGCAAGATGTAAAAATTCAAGAGGGTTTTTGTTTTCTCTTTGAGAAGGGCGAAGCAAACTGGTCATCCTGGAGCCATGGAGGGCCC
Celera SNP ID:            hCV26911484
SNP Position Genomic:     15851
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39067):
GCATGCTAAAAGACACTCCCACGAGCACCATGACAGTTTACAAATGCCATGGTGACGTCAGGAACATACCTTATGTGGTTTAAAAAGGGGAGGAACCTTC
R
GTTCCGGAAATTGCCCACCCCTTTCCCAGTAAACTCATGAATAATCCACCCCTTTTTTAGCATATAATCAAGAAATCACCATAAAAATAGCCAATCAGCA
Celera SNP ID:            hCV26911558
SNP Position Genomic:     82235
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39068):
ATTGAAATGCTGGCATTCTTGCAGCTGGATAACTGAAGGACGTTTTTGGATAATTGTAATTTTCTGATATTCTGCATTCTCCCAGTACCATGAAAAAAAA
T
AATAATTAGCAAGATGTAAAAATTCAAGAGGGTTTTTGTTTTCTCTTTGAGAAGGGCGAAGCAAACTGGTCATCCTGGAGCCATGGAGGGCCCCAGGATC
Celera SNP ID:            hCV26911485
SNP Position Genomic:     15858
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39069):
CTGGTCTCTAGCTGAGAGGGCCTAAGGAGGAGATAGGTGCTGACAGAGACAACATGGTCTTTGGCACATAAAATCTTCATTCTTCGGGAGATAGAGCTAT
Y
GTAGGAGTGAGGAGAACCTAGGCAACATTGAACTCAGGGTTAAGAGACTTGAATTTGAGTTCTGACTCTGGAACTTGCTAATTACAAGGAAGTCACTGGC
Celera SNP ID:            hCV27977853
SNP Position Genomic:     197859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39070):
AGGCTGAGGTAGGAGAATTACTTGAGCTCAGGAGTTTAGGACTGCAGTGAGCCCTGATGGAGCCACTGGACTCTAGCCTGGGTGACAGAATGAGACCACC
Y
CTTAAAAAAAAAAAAAAAGAGAATACATTTGACACACCTAACCTACCAAACATCATAGCTTAGTCTAGCCTACCTTAAACATGCTTGGAGCACTTACATT
Celera SNP ID:            hCV26911559
SNP Position Genomic:     83537
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39071):
GCAAGATGTAAAAATTCAAGAGGGTTTTTGTTTTCTCTTTGAGAAGGGCGAAGCAAACTGGTCATCCTGGAGCCATGGAGGGCCCCAGGATCAGCCCCCA
G
GGGCGGCTGTGGATCTAGGGCCTGGGACCTGCTGAACCGTATCACAACATGCCTCTGAGCTCCAAAGGCCAGTACAGACGAAGCGGGAGGCTGGTGAAGG
Celera SNP ID:            hCV26911486
SNP Position Genomic:     15967
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39072):
CCACATTTCCTGCAGGCTCCACTTACTATGGCTGCAAAACAAATTAGCCCCAAACAGTGGCCAGGTGCAATGGCTCGTGCCTGTAATCCCAGCACTTTAG
R
AGAGGCCGAGGAAGGCCAATCACTTGAGGCCAGGAGTTGGAGACCAGCCTGGCCAATATGGCGAAACCTCGTCTCTACTAAAAACACAAAAATTAGCCAG
Celera SNP ID:            hCV26911488
SNP Position Genomic:     29510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39073):
CTCAAATGGTGAAGAAAAAGCAGCATATTGATAAAGTTTTTCACCTATTTTTTATTTATGAATAACTCAGCATATGACTTCCTTGAACTTATGAAAATGA
A
AAAAAAAAAAAAACTTAGCAAACTGGAAATAGGAAAGGTGTGTTTAATTTGATAAAGGTTATATAGGGCCAGGTGCAGTGGCTAACACTTGTAGTCCCAG
Celera SNP ID:            hCV26911489
SNP Position Genomic:     40273
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39074):
CTGTTTTATGCTGCTGTAACAGATACCACAGATTGGATGATTTGCAATGAGCCAAGATTTATTTCTTACATTTCTGGAGATGGGAAGTTCAAGATCATGG
Y
GCCGGCATCTGGCAAGAGCCTTCTTGCTGCTGTATCATAAGATGGCAGAAAGCATCAGATGGCAGTAGAGCAAAGAGAGGGTTAGAGAGGGCCAAATTCA
Celera SNP ID:            hCV115671
SNP Position Genomic:     45345
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39075):
AATCCAAGCACTTTGGGAGGCTGAGGCAGGCGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATGGTGAAACCCCATCTCTACTAAAAAC
A
AAAAAAACAAAAAAACAAAACACACACACACACACACACACACACACACACACAAAAATTAGCTAGATATGGTGGTGCACACTTGTAGTCCCAGTTACTT
Celera SNP ID:            hCV26911630
SNP Position Genomic:     321507
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39076):
ACAAACTTTTCCAAAAAATTGAAGAGGAGGAGATTCTCCCTAACTCATTCTATGAGGCCAGCATTACCCAGATGCCAAAACCAGACAAGGATGCAACAAA
R
AAGAAAACTACAGACCAATATACCTGATGAACATAGACACAAAAATCCTCAAAAATACTAGCAAATCAAATCCAACAGCATACCACAAAGATAATACACC
Celera SNP ID:            hCV9138726
SNP Position Genomic:     213071
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39077):
CTGAGGCAGGCGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATGGTGAAACCCCATCTCTACTAAAAACAAAAAAAACAAAAAAACAAA
A
CACACACACACACACACACACACACACACACACAAAAATTAGCTAGATATGGTGGTGCACACTTGTAGTCCCAGTTACTTGGGATGCTGAGGCAGGAGAA
Celera SNP ID:            hCV26911631
SNP Position Genomic:     321527
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39078):
TGAGGCAGGCGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATGGTGAAACCCCATCTCTACTAAAAACAAAAAAAACAAAAAAACAAAA
C
ACACACACACACACACACACACACACACACACAAAAATTAGCTAGATATGGTGGTGCACACTTGTAGTCCCAGTTACTTGGGATGCTGAGGCAGGAGAAT
Celera SNP ID:            hCV26911632
SNP Position Genomic:     321528
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,3)   total(C,3|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39079):
TCTGGGTATTCATATAAATGGAATCATATAGTGTATGGCCTTTTGTGTCTGGCTTCTTTCACTTAGCATGTTTTCAAGGTCATTGATTTTTTTTTTTTTT
R
TATGTGCTGTTTTCTTTGTCTAAATATTCTACAGTTACTGTTTTGATTTCTTCTTTGACTCAAAGCATTTAGGAGATTGTTTTTACATGTTCTATTTTTA
Celera SNP ID:            hCV26911560
SNP Position Genomic:     84822
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39080):
GAGGCAGGCGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATGGTGAAACCCCATCTCTACTAAAAACAAAAAAAACAAAAAAACAAAAC
A
CACACACACACACACACACACACACACACACAAAAATTAGCTAGATATGGTGGTGCACACTTGTAGTCCCAGTTACTTGGGATGCTGAGGCAGGAGAATC
Celera SNP ID:            hCV26911633
SNP Position Genomic:     321529
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39081):
AGGCAGGCGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATGGTGAAACCCCATCTCTACTAAAAACAAAAAAAACAAAAAAACAAAACA
C
ACACACACACACACACACACACACACACACAAAAATTAGCTAGATATGGTGGTGCACACTTGTAGTCCCAGTTACTTGGGATGCTGAGGCAGGAGAATCA
Celera SNP ID:            hCV26911634
SNP Position Genomic:     321530
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,3)   total(C,3|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39082):
AAAAAAAAAAAAAAAAAAAAAAAGATGAGATCTCACTATGTTTCTCAGGCTGGTCTTGAGCTCCTAAGCTCAAGTGATCCTCCTGTCTTGGCCTCTCAAA
R
TGCTAGGATTACAGGTGTGGACCACTGTACCCAGTCAATCCCATTTATTTAATTAATCCATCTATTTGTCTCCTTATTTGGTGTTAATAATACAGTCATG
Celera SNP ID:            hCV26911561
SNP Position Genomic:     89294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39083):
CCATGCCCTCCAGCTGATTTGATGGTGTCCGCCAAGATTGAGGGCACATCTTCCTCACTCATCCACAGACTGACACACCAGTCTCCTTTGGAAACACACT
Y
GCAGACACTTTCAGAAATTATGCCTTGCCAGCTATGTAGGTAGCCCTTCGTTTAGTTAGTTGACACCTAAAATTAGCCAACACAGTGAGTAATCACATTA
Celera SNP ID:            hCV26911635
SNP Position Genomic:     332829
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39084):
CTTGAGCTCCTAAGCTCAAGTGATCCTCCTGTCTTGGCCTCTCAAAATGCTAGGATTACAGGTGTGGACCACTGTACCCAGTCAATCCCATTTATTTAAT
T
AATCCATCTATTTGTCTCCTTATTTGGTGTTAATAATACAGTCATGTGGCTTGAAAATTTTAAATTCCAGTGAAAAGATGTCTTCTCTTCTACTCTTCCA
Celera SNP ID:            hCV26911562
SNP Position Genomic:     89348
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39085):
TTGAGCTCCTAAGCTCAAGTGATCCTCCTGTCTTGGCCTCTCAAAATGCTAGGATTACAGGTGTGGACCACTGTACCCAGTCAATCCCATTTATTTAATT
A
ATCCATCTATTTGTCTCCTTATTTGGTGTTAATAATACAGTCATGTGGCTTGAAAATTTTAAATTCCAGTGAAAAGATGTCTTCTCTTCTACTCTTCCAC
Celera SNP ID:            hCV26911563
SNP Position Genomic:     89349
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39086):
TCCATAAAAATCCAAGAGGACTGGGTTCAGAGAGATCCAGATAGCTGAACACATGCAGGCTGACAGGAAGAACGCATTCATGGGCCTGGAGGGTGGTGTA
Y
CCCAACTCCATGGGGACAGAAGCTCCTGTGCTGGAGACCCTTCCAGAACTCGCTAGAGGTCTCTTCATCTGGCTGTTTATTTGTATCCTTTAAAATATCC
Celera SNP ID:            hCV26911490
SNP Position Genomic:     41859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39087):
TGAGCTCCTAAGCTCAAGTGATCCTCCTGTCTTGGCCTCTCAAAATGCTAGGATTACAGGTGTGGACCACTGTACCCAGTCAATCCCATTTATTTAATTA
A
TCCATCTATTTGTCTCCTTATTTGGTGTTAATAATACAGTCATGTGGCTTGAAAATTTTAAATTCCAGTGAAAAGATGTCTTCTCTTCTACTCTTCCACA
Celera SNP ID:            hCV26911564
SNP Position Genomic:     89350
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39088):
CGAAGGTACCACTCAAAGGTGGGCATGACGGTGTAAAATCCCAATTGAGGAAGGGTAGATACATGTAAAATAGGTGAAGGGTAGGGATCAATCAGGGGAA
R
GCACACCAAATGGGAAGAGAGGTTCTCAATCTGGTCCAAGGATTTACCCAGGACTTGTAGCTAGGGTTCAAACAGTCTTTGGCTTGAAGGTCAGGTTTCA
Celera SNP ID:            hCV26911565
SNP Position Genomic:     91921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39089):
CCTTTTTTTTTTTTTTCCTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGTAACCTCTGCCTCCCAGGTTC
M
AGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGATCACAGGTGTGTACCACCAGGCCCGGCTAATTTTTGTATTTTTTATAGAGACAGGGTTTCACC
Celera SNP ID:            hCV26911566
SNP Position Genomic:     95625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39090):
AAGCCTCTGGAAGACAGGGCTACATCTTTAGATATGTAAAGAGCTGTCATATGGGAGAAGAATTAAATTTGCTCTAGATAATGCAGCAGGAAATACCAGG
W
CCAGCAGCTAAATATTTTTAGGAAAAAAAGTTAATTCAGGAGGAAGGAAAATGTAGAGGCCCCAGAAGCAGCCTAGAGGTACTGTAGTGAAGTGGAAGTG
Celera SNP ID:            hCV26911567
SNP Position Genomic:     97189
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39091):
CTCAATTTTCCTGGGTTTCAATCCCCTCATGTATAAAGGAAGGATAATGATACTTTATTTTGGGGAGTCTCGCTCTGTCACCCAGGCTGGATTGCAGTGG
Y
GCAATCTTGGCTCACTGCAACCCCTGCCTTCCAGGTTCAAGCGATTCTGGTGTCTCAGCCTCCTGAGTAGCTAGGATTACAGACGCGCATCACCATGTCT
Celera SNP ID:            hCV26911568
SNP Position Genomic:     98680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39092):
AAATGGTTGGTTTAAGTGGTTGGACCCTTAAATGGTTTTTAAGTACAAGGAGAGATTAGTGAGAGAGGTGTGTTTTTTTGTTGTTGTTTGTTTTTTGAGA
Y
GGAGTCTCGCTCTGTTGCCCAGGCTGGAGTACAGTGGCGTGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTC
Celera SNP ID:            hCV26911569
SNP Position Genomic:     99175
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39093):
GTTTGCTCTAATTCAGTAATTTATTATTTTGAAAAATAATTTACTATTATTAAATAATAGTTTTAAACTTAGAAGAACAGAGCCACTGTTGGTTTTCTAC
Y
CTCTGGCTCCAACAATATTGTGAATCTAAACTGTAACTGATAAACTGTAGTGACACTGAGAAAAGAGAGATGTCATAGCTCTTCCCTTGCCTTGTATTTT
Celera SNP ID:            hCV225018
SNP Position Genomic:     346143
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39094):
GGTTTAAGTGGTTGGACCCTTAAATGGTTTTTAAGTACAAGGAGAGATTAGTGAGAGAGGTGTGTTTTTTTGTTGTTGTTTGTTTTTTGAGATGGAGTCT
Y
GCTCTGTTGCCCAGGCTGGAGTACAGTGGCGTGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAG
Celera SNP ID:            hCV26911570
SNP Position Genomic:     99183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39095):
TACATGTGTATGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCGTGTTGACCGGGCTGGTCTCAAACTCCTAACCTCAAGT
R
AACCACCTACCTCAGCCTCCCAAAATGCTGGGATTACAGTTGTAATTTCTTTATAAAATAGCAACCACAGAGGTATGAGGAGTGTAAGTGAAACTTTTAA
Celera SNP ID:            hCV26911571
SNP Position Genomic:     100385
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39096):
TGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGCAACAGAGCGAGACTTTGTCTC
A
AAAAAAAAAAAAAAAAAAGAAAGAAAAAATTTGTATTTCTAGTTAAGTTCCCAGGTGATCCTGCTCCTGCTCACAGGATGTAGAACATTTGTTCAAACTG
Celera SNP ID:            hCV26911644
SNP Position Genomic:     347065
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39097):
ACATATCTCATGAGGATCCTGCAGGGTTTTTGTTGTTGTTGTTTTATGAGACAAGGTCTCACTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGATCATGG
Y
TCACTGCAGCCTTGACCTTCTGGGTTCAAGTGATCCTCCCATCTCAGCCCCCTGACTAGCTGGGACCACAGGTGCATGCCACTGCACGGGCCTAATTTTT
Celera SNP ID:            hCV26911572
SNP Position Genomic:     54417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39098):
CTGGGACCACAGGTGCATGCCACTGCACGGGCCTAATTTTTAAAATGTTTTGTAGAGATCAGGACTCACCATGTTGCTCAGGCTGATCTTGAACTCCTGG
Y
CTCAAGTAATCCTTCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATACCAAGCCTCTGCAGTTATTTTTGTTGAGAATTATATAG
Celera SNP ID:            hCV26911573
SNP Position Genomic:     54577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39099):
CACCATGTTGCTCAGGCTGATCTTGAACTCCTGGCCTCAAGTAATCCTTCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATACCA
R
GCCTCTGCAGTTATTTTTGTTGAGAATTATATAGGGCCCGTTCAATTGTATTTTTCTCAAATTCAAGCCAATCAGAATGGCACCTTTCACCTCAATTTTA
Celera SNP ID:            hCV26911574
SNP Position Genomic:     54643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39100):
AGCCTGGGCTCCTGGCCTTAATGGGGCAGGGAGGGGACCATCGGGGCACAGAGCCAGGGATCCTGTTACTCTCTACATAGAGGTGCCAAGTAGGCTACTT
W
TTCAAGTTTTCTTTTTTAAAAAAACTTTCTTTCCATTCTATGACTCTTTAAGGGAAGAAATTCCATTGTGCACTGTAACACTGAGGACTTTTACACCAGA
Celera SNP ID:            hCV26911575
SNP Position Genomic:     117186
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,6|T,6)   total(A,6|T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39101):
TCCTAGAAGGTGGATAGTACTGGATTCCTGTAACTGTCTCCTCTAAAGGCAGAAGGTCTAGGGTAGGTCCCTGATTCGATGTGGTTCCTGGGAAGCTCAC
Y
CCTCCCCTCTCAAGGGCTTTCCTAGGACAGAACCCCTCTTACCTGCCCCTGTATCCCAGGCGAAGATGGGCTTACCTTGGATGTCACAGGAACTCATTTG
Celera SNP ID:            hCV27526705
SNP Position Genomic:     3682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:39102):
GCCTGGGCTCCTGGCCTTAATGGGGCAGGGAGGGGACCATCGGGGCACAGAGCCAGGGATCCTGTTACTCTCTACATAGAGGTGCCAAGTAGGCTACTTA
T
TCAAGTTTTCTTTTTTAAAAAAACTTTCTTTCCATTCTATGACTCTTTAAGGGAAGAAATTCCATTGTGCACTGTAACACTGAGGACTTTTACACCAGAG
Celera SNP ID:            hCV26911576
SNP Position Genomic:     117187
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39103):
CCTGGGCTCCTGGCCTTAATGGGGCAGGGAGGGGACCATCGGGGCACAGAGCCAGGGATCCTGTTACTCTCTACATAGAGGTGCCAAGTAGGCTACTTAT
T
CAAGTTTTCTTTTTTAAAAAAACTTTCTTTCCATTCTATGACTCTTTAAGGGAAGAAATTCCATTGTGCACTGTAACACTGAGGACTTTTACACCAGAGA
Celera SNP ID:            hCV26911577
SNP Position Genomic:     117188
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39104):
CTGGGCTCCTGGCCTTAATGGGGCAGGGAGGGGACCATCGGGGCACAGAGCCAGGGATCCTGTTACTCTCTACATAGAGGTGCCAAGTAGGCTACTTATT
S
AAGTTTTCTTTTTTAAAAAAACTTTCTTTCCATTCTATGACTCTTTAAGGGAAGAAATTCCATTGTGCACTGTAACACTGAGGACTTTTACACCAGAGAG
Celera SNP ID:            hCV26911578
SNP Position Genomic:     117189
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,6|G,6)   total(G,6|C,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39105):
AGATACTTAGTCAAATTTATAGAAATAACAAGTAGAATGGTGGTTACCAAGGACTTAGGGGAGGGGGAAAAGGGGAGGGGTTGTTTAATGGTGATATGGT
Y
TGGCTGTGTCCCTACCCAAATCTCATCTTGGATTGTAGCTCCCACAATTCCCACGTCTCATGGGAGGGACCCTGTGGGAGGTAATTGAATCATGAGGAGT
Celera SNP ID:            hCV26911579
SNP Position Genomic:     124146
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39106):
GATCCCCTGAGCTGGAGAAGTCAAGGCTGCAGTAAGCTGAGATCATACCACTGCACTCCAGCCTGAGTGACAGTGTGAGACCCCAACTCAAAAAAAAAAA
M
CAGAAAAACCCATTACAGACACAGTGAAAATTTCCTTAAAACACATCCCCCCTCCATTATTGAGGTATAGCATAGATGGTTAATTTATTTTTAACAAATA
Celera SNP ID:            hCV12068615
SNP Position Genomic:     51528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39107):
ATGCTTATTGTGGGCAATTTAGAATATGCAAAAAAGTATAAAGAAGAAAAATAAATACTCATGAAGGTATCACCCAGAGGTAACTACTGTCTATATACTA
Y
TCACACAGAATTTTATTTTTGAAATGAAGCTTTCTTTTGTTGACGTTTTCTCACTTTTTGTGAACATTTTCCCATATGATTAAAAATCTTTGAAAATGTC
Celera SNP ID:            hCV22272543
SNP Position Genomic:     345163
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,40)   total(C,71|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:39108):
GATGATACTGTTTGTTTCTAAATTAACGAACTTTAGTTGTTAGAGCAGTTTTCAGTTAACAGAAATTTGGGAAGCTAGTGCAGCGTTCCCATATAACCTC
Y
CACCGCTCCCTCAGTTTCCCCTGTTATTAATATCTTGCATTTGTCACAATTGATAAACCAGTATTGATATATTAGTATTCACTACATTTCATGGCTTATA
Celera SNP ID:            hCV12068619
SNP Position Genomic:     58436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39109):
GCCTCGCCCACCCAAAGAGCTAGGATTACAGGTGTGAGCCACTCTGCCTGACCCTTCTTTGATTTTGATCTTAGGGGGAAAGCTTCAAGATAAAATGATA
T
TTTTTTTTTCTGTGTTTAGGCTTTTGCCCTTGAATCTACCATGTTTTGTATTATTATCCTTTTTTTTTTTTAAGCTTTTCGTTAGCATTTGTCTGACATA
Celera SNP ID:            hCV9138818
SNP Position Genomic:     276045
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39110):
TTTTGGGAGGCCAAGGCGGGAGAATCACTTGAGCCCAGGAGTTCAAGACCACCCTGGGCAACATGGTGAAAACTCCATCTCTACAAAAAAAAATACAAAA
M
TTAGCCAGGCATGGTGGTGCATATGTCACCAGCTACTCAGGAGCTGAGGCCAGAGGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTGTGACTGCACCACTG
Celera SNP ID:            hCV26911580
SNP Position Genomic:     126313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39111):
TACTCAGGAGCTGAGGCCAGAGGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTGTGACTGCACCACTGCACTCCAGCCTGAGTGACTAAGCAAGACCCTGT
Y
TCAAAAAGAAAAAAAAAAAATGAAAAGGGAAATTAAAATAAAAAAAAAAAACCACACACACTGCAAAGTCTCACTTTCATTCCATCCTGTTCTTGTCGAA
Celera SNP ID:            hCV26911581
SNP Position Genomic:     126447
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39112):
CAATATTGCTATTGTGACATATGGTGGTTTTAAAATACGCCTAAAAATTCTTTACTACTCTGCTCTTCAAGTGATGAAATTAGCTGAGCATGGTGGCATG
Y
ACCTGTAGTCCTAGCTACTCAGGAGACTGAGGCAGGAGGATCACTTGAGTCCAGGAGTTCAAGTCTGCAGTAAGCTATGATCATGCCACTGCACTCCAGC
Celera SNP ID:            hCV26911582
SNP Position Genomic:     128063
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39113):
GAACTGGAGTGACCTGGTGCCTGGATTCTTTCATCTCTAAAATGGGAAAAATAATTGTTGCACATATATGGTGTTGAAATTATGGCCCTCAATTGGTGAT
A
ATTATCATTACTTAGTATTAATAATTATTATTTGTGAAACTTCTCCCAGAATTGCTGCATGGATTGCAATGTCCAAATAAGCTTATAATGGGGCTTCCAG
Celera SNP ID:            hCV26911583
SNP Position Genomic:     56918
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,21)   total(A,1|-,21) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39114):
CTGGAGTGCAGTGGTGTGATCTCACCTCGCTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAGTAGCGGGGTTTACAGGCA
Y
GTGCCACCACACTCAGCTAACTTTTGTACTTTTAGTAGAGACGGGTTTTCACCATGTTGGTCAGGCTGGTCTCTAACTCCTGACCTCGTAATCTACCCGC
Celera SNP ID:            hCV26911584
SNP Position Genomic:     132233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39115):
GGTGTGATCTCACCTCGCTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAGTAGCGGGGTTTACAGGCACGTGCCACCACA
Y
TCAGCTAACTTTTGTACTTTTAGTAGAGACGGGTTTTCACCATGTTGGTCAGGCTGGTCTCTAACTCCTGACCTCGTAATCTACCCGCCTCAGGTTCCCA
Celera SNP ID:            hCV26911585
SNP Position Genomic:     132245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39116):
AAAATACAAAAATTAGCCAGGTATGGCGGTGCGTGCTTGTAGTCCCAGCTCCCAGCTACTCAAGAAGCTGAGGTGGAAGGATTGCTTGAGCCCAGGAGGT
Y
AAGGTTTTAGTGAGCCCTGATCACATCAGTGCACTCCAGCCTGGGCAACAGAGTGAGACTTTGTCTCAAACAAACAAACAAACAAACAAACAAAACGAAC
Celera SNP ID:            hCV26911586
SNP Position Genomic:     135680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39117):
TGTGTCTGTAAAATTGCCTCTTCTGGACATTTCACATAAACAGAAACATATAAAATGTGGCCTTTTATGACTTGTTCTTTTACTTAGTATAATGTTTTTT
W
TTTTCGAGACAGAGTCTCACTCTGTTACCCAGGAGGCTGCAGTATAGTGGCATGATCTTGGCTCACCACAACCTCCACCTCCCCAGTTCAAGCAATGCTC
Celera SNP ID:            hCV26911587
SNP Position Genomic:     137538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39118):
CTGTAAAATTGCCTCTTCTGGACATTTCACATAAACAGAAACATATAAAATGTGGCCTTTTATGACTTGTTCTTTTACTTAGTATAATGTTTTTTTTTTT
Y
GAGACAGAGTCTCACTCTGTTACCCAGGAGGCTGCAGTATAGTGGCATGATCTTGGCTCACCACAACCTCCACCTCCCCAGTTCAAGCAATGCTCATGCC
Celera SNP ID:            hCV26911588
SNP Position Genomic:     137543
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39119):
GCTTGCTATGAGCATTTGTGGATGCATTTTTGCTCGAGCACCTGTTTCAATTCTTTCAGTTATATTATTTTTATTTATTTATTTCTTATTGAGACAGGGT
S
TCAATCCGTCACCCAGGCTGGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTCAGCCTCCTGGGCTCAAGTAATCCTCCTGCCTCAGCCTCCTGAGT
Celera SNP ID:            hCV26911589
SNP Position Genomic:     137954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39120):
TGACTTATGTACCAGATACTTTGTTTCGAGGACTTAGGGGTGTCTCCTGGAACTGCACACCAGTCAGCTTCATGAAGAACTGGAAGCAGTGCAGAAAGCC
R
GGAATACAGGGGCCTCTTTTTTCTCTCTGGGGCTTACCATCTACTTCTCCCTGCCTCCTCTAGTCTTCTCTTCTTTGGCTGACTGACCTTGGTGTGCACA
Celera SNP ID:            hCV12068624
SNP Position Genomic:     62256
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39121):
TCCTGGAACTGCACACCAGTCAGCTTCATGAAGAACTGGAAGCAGTGCAGAAAGCCGGGAATACAGGGGCCTCTTTTTTCTCTCTGGGGCTTACCATCTA
M
TTCTCCCTGCCTCCTCTAGTCTTCTCTTCTTTGGCTGACTGACCTTGGTGTGCACACTCCATGTGGCTGCCCTCCCTTGCTTTGTATTACTCCCCAACTC
Celera SNP ID:            hCV12068625
SNP Position Genomic:     62300
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,11)      total(A,1|C,11) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39122):
GAAAAGTGGGAACTGATTTTAACGGGAAGATTATTCTAGGATGGTGGGGGTAAAAAGAAAGAGCCCCTTGGGCTTTGGACGTCAGAAAAATCTGCCTTCT
R
TTACCAATTCTGGCTTTGAGCAGGTTGACTCCTCTCTTACTGTGCCTCAGTTTCCTTTTCTGTAAAATGGGGCTACTGAACCAGAGCAGTGGTTCTGAAT
Celera SNP ID:            hCV12082056
SNP Position Genomic:     6406
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39123):
AGTAGAGACAAGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTGCTGACCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGAT
S
TGAGCCACCATGCCCAGCCTCTAATTTTTTCTTTTGTTGCTTGTGTTTTTTGTGTCATTTCTTAAGCCAATGCCAACTCTGAGGTCATGGACATTTACCT
Celera SNP ID:            hCV26911590
SNP Position Genomic:     139056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39124):
TGCCCACATGGTCCCTTTGGGCCCAGTAATGCTGTTATCTTCATGTCATGTTTGGGATTCAGGCACTGTTTGTGAGTCTGCTTGTAGTCACAAGCCAGCA
M
CGATTCCTTCCTGGGGACGTGCCACCTCTCAGGAAGCAGAACCATGCTCCCTGCTGATCAGAGACCCTCAGGCCTCTCTCTTCTTCTTCCCCACCAAGAT
Celera SNP ID:            hCV15815015
SNP Position Genomic:     193228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39125):
AGAAGCGTTCCGCGGACCGCAGAGAGATGGGGCTCAGGCCAGCATCCCTCTCGCTCCGGCCCTTCCCGGGAGGAGCTGGCCGAGCTAGGATGGGGGGCAG
R
GAGACCGAGGGGGCAGTAACTGTCAAACCTCGCCGCTTGGCGCCATTATTTAAATGGAACGTGCCTGTCTCGCAGCTGTACGTGCCCGGGGCGGGGCTTC
Celera SNP ID:            hCV27854582
SNP Position Genomic:     226987
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39126):
ACCTTGGCAACTACATGTTGAAGGTGGCAGAGTTTCTATCAGCTTGAATTCCTGGCAGAGACCCTTCCTCCGTGCCCCACAACCAAACATTGAACTTTAC
R
TGAAAAAGAAATTAACCTCGATTGTCTAAGTGTTCAGCTACTCTTAGTTAAAAGTTTATTTGCTACAGTTGCTAGTGTGACTTAAACTAATACTGTTTTG
Celera SNP ID:            hCV26911591
SNP Position Genomic:     145593
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39127):
TTGCACCACTTTACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAATACACAGACACACACACACACACACACACACACACACAC
R
CACACACAGACACACACAGCTATATGATTCCAATTGTATACAAATTATAAATTATTTAGTAATCCATAAACTCTTGCTGTATATTTCAAAGCTATGTTGT
Celera SNP ID:            hCV26911592
SNP Position Genomic:     146418
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|-,7)   total(G,1|A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39128):
GTTTGAGTCATGGGGGCAGATGACTTAAGAATGGCTTGGTGCCCTCCTTGCCATAAGGAGTGAGTTCTGGCTCTGAGAGTTCATCGAGATGGGATTGTTT
R
AAGGAGTGTGGCCCCCTCCCTCCATCCCTTGCTTCCATTCTTGCCATGTGATGTGCCTGCTCCCACTTCACCTTGTGCCATGAGCGGAAGCTTCCTGAGG
Celera SNP ID:            hCV26911593
SNP Position Genomic:     147024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39129):
TGGCCACTGCCACTCCTAACCCAAGCATTCCACCAGAGGCCTGGAAGTTGCCCCATCTCTGCCTATCATGACAGACACCTGCACACACCACTGGGGAACC
C
TGAGGACAAACTCACATGGCACCAGCTTCACCTCACCCTTGCCAGAGCATGCAGTTCAGGGCACTGAAGATTACCCAGTCCACTACCATTGACACCTGAC
Celera SNP ID:            hCV26911594
SNP Position Genomic:     209565
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,11)   total(C,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39130):
GGCCACTGCCACTCCTAACCCAAGCATTCCACCAGAGGCCTGGAAGTTGCCCCATCTCTGCCTATCATGACAGACACCTGCACACACCACTGGGGAACCC
T
GAGGACAAACTCACATGGCACCAGCTTCACCTCACCCTTGCCAGAGCATGCAGTTCAGGGCACTGAAGATTACCCAGTCCACTACCATTGACACCTGACC
Celera SNP ID:            hCV26911595
SNP Position Genomic:     209566
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,10)   total(T,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39131):
AGAATTTTTTCTTTATCTTTGATGTTGTGCAGTTTCACTATGATGAGTCCAGATGTGGGTTAAAAAATTATTTTATTGGTACCTAGTGAAACCTTTCAAT
Y
TGAGAACCTACTTTTTAAAAAATACTGGAAAATCTCTAGTTATTATTTCTTTAAATGATACTTTCTCCCTGTTATCTCTGGCCTGTAATTCTAGAACTCT
Celera SNP ID:            hCV29277022
SNP Position Genomic:     151731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39132):
CCTTGACACTTGGGGATTATTACAATTCAAGGTGACATTTGGTTGGGGACACAGACCCAAACCATATCATATATATATATATACGTATATATATATATTC
A
TATATATATATACTATATATATATTCATATATATATACATATATATTCATATATATACATATATATATGAATATATATATTCATATATATATTCATATAT
Celera SNP ID:            hCV26911596
SNP Position Genomic:     223333
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39133):
TCCTTCCTCAGGGCCTTGTTTGGGTCTGAAGCCACACAGCATCGTTGAGACAGTTGCACTAACACTACAACTCTTGTTCCCTGCAGTTTTCCCTGTGCCC
G
GTGCCTAGTGAAAGATTTGTGTCTTGTACATCCTCCCAAAAGACACATCCCATTTGATTTGGTTTTCTTCTACTTTAGCCACTGTGGTACTACTAGACAA
Celera SNP ID:            hCV26911669
SNP Position Genomic:     362468
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:39134):
CTGTTATCTCTGGCCTGTAATTCTAGAACTCTTATTAGATGAATATTGAATCTATTCGCTATATCTTTACCTTTTGTTTCTTTTTAAAATCCATCTCTCT
W
ACTTCGTGTTGCATTCTGAAAGAATTCCCATACCACATCTTCCAGTTCCCTGATTCACCCTTTAACTGTGTTCATTCTGCTACTAGCCCATGTATTTTTT
Celera SNP ID:            hCV29277023
SNP Position Genomic:     151900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39135):
CTTGACACTTGGGGATTATTACAATTCAAGGTGACATTTGGTTGGGGACACAGACCCAAACCATATCATATATATATATATACGTATATATATATATTCA
T
ATATATATATACTATATATATATTCATATATATATACATATATATTCATATATATACATATATATATGAATATATATATTCATATATATATTCATATATA
Celera SNP ID:            hCV26911597
SNP Position Genomic:     223334
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39136):
CTTCTAGCACAGAGTGTGTGTCAACTGCCCTGGCAGCCCCTGAAGGCTCAGTATTCAGAAAAGAGAAAGTAGCTGGGAGATACCAGGGCTGACATGTGCT
S
TCTGTTTTCTAGAAGGCTATGGAGCTTCCATAAAGATATATTTCATGTGAAACCTTTCCCCTTTTAGATTTCATAAGTTATTTTATTTACATACACTTAT
Celera SNP ID:            hCV29277024
SNP Position Genomic:     155083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39137):
GATTATTACAATTCAAGGTGACATTTGGTTGGGGACACAGACCCAAACCATATCATATATATATATATACGTATATATATATATTCATATATATATATAC
W
ATATATATATTCATATATATATACATATATATTCATATATATACATATATATATGAATATATATATTCATATATATATTCATATATATATGAATATATAT
Celera SNP ID:            hCV26911598
SNP Position Genomic:     223347
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4|-,5)   total(A,4|-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39138):
GATGCAGGCCCACATCTTAGGACTTCAGTGCCAGGAGTTCACAAAAGGCCTCTGCAGCACCTCCTCTCCCATTATCATGCCCTCTCTACCCCTCCAAGCC
M
CTTTGTCCAAATACTCAACTGCTTGCTATTCTGCAGACACACAGTCCTTTTTGCCTACAATTCCCCATCACTGGAGTGCCCGTCATCACTGCCCTTCTTG
Celera SNP ID:            hCV29277025
SNP Position Genomic:     157378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39139):
AACCATATCATATATATATATATACGTATATATATATATTCATATATATATATACTATATATATATTCATATATATATACATATATATTCATATATATAC
A
TATATATATGAATATATATATTCATATATATATTCATATATATATGAATATATATATGAATATATATATATATAGCAATGTCATATTTTAAAATGTGCAT
Celera SNP ID:            hCV26911599
SNP Position Genomic:     223392
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39140):
CCGCTCAAGTCCAGCGGGCGCACCAACCTTTGCCACTCCGTCGGCTTTCCCTCTTGGCCGCGGGGTAGGGCTGGGCGTCTTTGGGCCGCCGCAGGGCGCC
M
CCCTAATCGCCTGTCATTTCTCGGCCGTCGCAGGTGTTCGCGCCCGAGAGGGATGAGCACGTGAAGAGCGCGGCGGTGGCGCTGGGGCCCGCGGCCTCCT
Celera SNP ID:            hCV25924388
SNP Position Genomic:     2069
SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,19)   caucasian(A,11|C,27)   total(A,28|C,46)
SNP Type:                 TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:39141):
AATTTCAGTTAAGGAACTCTGATTGAAAATTAATTGCATTGTACCCAATCTGGGAGTTGTAAGAACTCTCGGAGTTTGGACAGCTGGGGTGAGAAGGCTC
R
GAGAGCAAGAATTTGGCCATGTGTCTCCAACACTATCCAGGGGAGAAGGTAGGCTCACTATAAATCCCCTTCAAGCCTTCCCCCAAAGGGGAGTGAATGC
Celera SNP ID:            hCV29277026
SNP Position Genomic:     161037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39142):
TTGTTGGCTGTCCCTTCACTCTCCCAACTCCAAGAGAATTGATTCAGGGCAACTCCCTTTTGCTCACATTAAAAAGAAATAATAAGCTTTTTTTTCTTCT
Y
AGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCAGTGCAACCTCTGCCCCCTGGGTTCAAGCAATTCTCCTGCCTCAG
Celera SNP ID:            hCV29277027
SNP Position Genomic:     166209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39143):
GGAATATTATAGTTCTTTTCCTTGTATTTTTCTAACGCCACTACATTTTGGGGGGCTTATCCACCTTAGTACCTACTAAGTTCAAATTTGGACTAAGTCT
K
TAGCTCGGTTGTGCATTTTGAACTTCATCTTAAATTGGTCATGGCCCATTGCTACTGCTTCACATTTCCTCCGTCGTGTTTTCTCTTTTATTGCTTCTAT
Celera SNP ID:            hCV29277028
SNP Position Genomic:     171485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39144):
ATGACCCTGGTGCAGCTAAACAATCCAGACTTCCTCCATTTCCTTCCTGGGGCCATTCCTCAGGCCCATCCTTTTCTCTGTCCCTCTTGTCCACCGGATC
Y
TTCTGCTCCCTGCCATGGCTTCTGGAGCACAAGAGAGATGAGGGAACTCAAGCAAATGTATAAATGATTGAAGGCATTGAGAGCTCATGGTATCTAATAG
Celera SNP ID:            hCV29277029
SNP Position Genomic:     174548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39145):
TTTTTTGAGGAATAAACAATTTCTGTATACTACAAAATGTTCTCAGTTATTAAAAAGTAAGCAGGCCAAAGAGGAATACAAAGAAACAAAGGTAACACTT
A
AAAAAAAAAAAAAAAAAGCTATCATTCAGTTTCACTTTTTGAATATAGTTGTGTTCCTTAAAATATTAACTGGTAGAATTTATCAGAATATTGGAGGAAT
Celera SNP ID:            hCV9138901
SNP Position Genomic:     303434
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39146):
TACTTTCAAGTTACGGTAAGCATATGATAGTCCATTTTAAAACATAATTTTAAAACTGCAAACTACCCAAGAAATTATTACTTTCTACGTCACGTATTTT
R
TACTAATATCTTTGTGTTTACAGTCAAATTAATTCTAATTATCTCTCTAACAGCCTTGTATCGTATATGCAAATATGAAGGAATCATGGGAAATAGGCCC
Celera SNP ID:            hCV12082063
SNP Position Genomic:     13116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39147):
ACTTTCTACGTCACGTATTTTGTACTAATATCTTTGTGTTTACAGTCAAATTAATTCTAATTATCTCTCTAACAGCCTTGTATCGTATATGCAAATATGA
W
GGAATCATGGGAAATAGGCCCTCTTCCTGCCCGACCTTGGCGCGCGCTCGGCGCGCGGTCACGCTCCGTCACGTGGTGCGTTTTGCCTGCGCGTCTTTCC
Celera SNP ID:            hCV12082064
SNP Position Genomic:     13195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39148):
TATTGGAGATACTTGGCTATTTGTACCTCACCTGCCCATGAAGGCTAAAAATGGATGGTTAAACACCTGTCTCTGTGCTCATGATGAAAATGACCTTTGC
A
AAAAAAAAAAAAAAAAAAAGAATAAACAAAAGAAACACAAACAAAAAAACTTTAGAAAATAACCTTTGCTTCTAGACCTTCTAAATTTTTCTGAATGGAG
Celera SNP ID:            hCV9138837
SNP Position Genomic:     279123
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39149):
AATTATGGCAGCATGATTTGTAATAGCCAAAAAGTAAAAACAACCCGAATGCCCAACAATAGGAAACTGGATAAATAAATGGAGTATTGTCATAGAATGG
W
ATGCTTAACAGCTGTGAAGATAAATGGATTCCAGTTACAGCAGTGGTTCTCAAACAGGGGTGATTTTATCCTCCACCCGGGGGACATTTGGCAGTGTCTG
Celera SNP ID:            hCV29277030
SNP Position Genomic:     174869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39150):
GAACCTATTAAATCCAGCCAAACCATATCAGTTACCCAGTCTCAGGTATTTCTTGATAGCAATGCAAGTATGGCCTAACACAGGCTCTTACCCCCATCTC
R
CTCAGTTTAACCATAGGGCACCTATAAGCCGCCACAGGGCATGCCCACAGTTGAGGTGACTCTCTGCAGCTGAGGCAAGGACTCTGCTTTGGGAAGAATA
Celera SNP ID:            hCV29277031
SNP Position Genomic:     181311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39151):
AGGTATGCAGGCTGGGCTGGGCAGTGCACATGATGGGTACGGTATGCAGGTCACCATATCTGATAGTGATGGTTATCTTGAGTAATGGGCCACCTGATCG
Y
ATGGCCAGAGGCAACAAGGCTGTAAATCAATTGTTCAGCATTCCTGCCCTAGGTGGGACTTGGCGCCACCTTGATGAGATATCTGGGTCTTCTGAGGCCA
Celera SNP ID:            hCV29277032
SNP Position Genomic:     190344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39152):
TAGCAGATCTGGTAAGGTAGGTGTATTAGTCTGTTTTCATGCTGCTGATAAAGACATATCCGAGACTGGGTAATTTATAAAGAAAAAGAGGTTTAATGGA
W
TCACAGTTCCACGTGGCTGTGGAGGCCTCACAATCATGGTGGAAGGCGAAAGGCATGTCTTACCTGATGGCAGGCAAGAGAGAATGGAAGCTATACAAAA
Celera SNP ID:            hCV29277033
SNP Position Genomic:     199326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39153):
AAGGTAGGTGTATTAGTCTGTTTTCATGCTGCTGATAAAGACATATCCGAGACTGGGTAATTTATAAAGAAAAAGAGGTTTAATGGATTCACAGTTCCAC
K
TGGCTGTGGAGGCCTCACAATCATGGTGGAAGGCGAAAGGCATGTCTTACCTGATGGCAGGCAAGAGAGAATGGAAGCTATACAAAAGGGAAAACCCCTT
Celera SNP ID:            hCV29277034
SNP Position Genomic:     199339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39154):
TACAATTCAAGATGAGATTTGGGTGGGGGCACAAATCCTAACCATATCAGTGGGGTCACTAAGGTATATAGGTATATAGTGTAGTAAGATGGTGTCACCT
K
AATCACATTTACACTCTGCCCCGGCACAGAACCCTGGGAGCTGAATATTGAGGAGCAGAGAGGAACAGGGATCAGAGGCACAAAATTTGGCTTGCTCTTG
Celera SNP ID:            hCV29277035
SNP Position Genomic:     199662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39155):
TCAGAAAATTGATCCATTCATTTCCAGTGACAAAGATCCTTTGCTTGACCAAACTTTTAGTCAGGCTCCTGAACCTCCTCCTAAGCCCATCCATGCACTT
Y
CTTGTACAATCCAGTTTCAGCAAAGAACCCTGCTAAGTCAATTTAGCAAGAACCCCCTACCCTATCCAGTCAACCTCAGTATCTGATCTGGTTTCGTTTC
Celera SNP ID:            hCV29277036
SNP Position Genomic:     204902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39156):
AGAGTTGAGCCCCATCTCTCTTCCCCACTGCAAAACCCTGTTGCAGTGGTCCCTATACCTATCATGATAGTCCTGAATAAAGCCTTCTTTAGGCCGGACG
K
GGTGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGTGGCTCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAATCC
Celera SNP ID:            hCV29277037
SNP Position Genomic:     205266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39157):
AAATGTATTTCTCAAACCATCAAATTCATGAAGGAAACAGTCTCTTTTGATTTTCCCTATTGAAATATAACTTCACCAGACCAATCTGGTTCAACTGTAA
S
AAAGGTTAAGTAACCTGAGCATACCCAGTGTGCATGAACCAAGCGTGCAATCACCAGAGGAACCTAAGTGCTCAAACCCAAGGAGCGGGGAGTGAATTAA
Celera SNP ID:            hCV29277038
SNP Position Genomic:     51844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39158):
TTGTATCACAAATTCTAGGAACATGAAGATAATGGGTGAGGCCAGCTAGTCAGGAACAAAATGCCTTTAAACAATTGCCCCCAGGGCATGGGCGGGATGC
R
GAGGTGGGGGTGAGGGATGAGAGTAGGGGCCTGACTGAAGTCCCAGGTCTCTCTGAGCCAAGTAAATTTTGCATACCTCTCATAGCTTACAGCAGTCTGA
Celera SNP ID:            hCV29277039
SNP Position Genomic:     90702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39159):
GCTTTAGGTGGGGTTTCACCGGGGACCTGCCCCTGTCTGCCTAGGCTGCCCCCTGTTGCTGTCACTGTCATCCCTCCATATCCATTGGGGATGGGTTCTA
S
GCTCCCCCTCAGGTACCAAAATCCAGGACTGCTCAAGTTCCTTATTAAAAATGGCGTAGTATTTGCACAAAACTTGTGCGCAACGTCCTGGATACTTTAA
Celera SNP ID:            hCV12082072
SNP Position Genomic:     43179
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39160):
TTTTGAAGTAAGGTTGTCTAGATAGATGAGCTATAATTCAGAGATTCCAAGGGTATCTTGATGACTGCTATTTTAATTGAAATGTATCTCCAGGACTTGG
A
AAAAAAAAAAAAAAAGAACCATGTTGTGTTATATTTGGTAATTGTTAGGTGGTTCTTTGTGTTTTAATAAAACAGTTCATCTCTCTCCCTGCCCCACGTT
Celera SNP ID:            hCV9138919
SNP Position Genomic:     313963
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39161):
GGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGTAGGCTGAGGTGAGTGAATCATTTGAGATCAGGAGTTTGAGACCAGCCTGACCAACA
K
GGTGAAACCCAAATTAGCCAGGTGTAGTGGTGGGCGCCTGTAATCCCAGGGACTCGGGAGGGTGAGGTATGAGAATTGCTTGAGCCTGGGAGGTGGAGGT
Celera SNP ID:            hCV12082077
SNP Position Genomic:     43524
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39162):
GTCTACTATTTGATAAACAGTTGAAATTCAAGATGTGTTTGACCCTTAGTCATTTTTACTCTTTGGTTCTGAGTATACCTATTTTCTTAGCGTATCTGCC
Y
TGTTTATCTTTTTCTTCACCTTTTAACAAGTATGACATAGGAAAGTCATTTTTTTTTAGAATTCATGGATCAGTCTGATCTACTCTTATTCATAATGGAA
Celera SNP ID:            hCV29277110
SNP Position Genomic:     358855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:39163):
TCAAAAAAATGTTATACTAATCTGATGTTAGGCTCTTTGGTAGGGGTGGTGGTTGAATATGGCCATATGAAAATATGTGAAAAATTTAATAATTAATTAC
S
TTGACATTTTGGTTACTTTTTGTTCTATAATTAATCAAACTAATCATATTTTAAATTGGGGAGAAAGAATGAAAGGACATGTCTGTTTCCTGATTTGTCT
Celera SNP ID:            hCV26911684
SNP Position Genomic:     335578
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39164):
GAGATTATCTGGGTACCAACCTGGGCTCTGATAAAATCCACATTGGTCACTGTGTTGAGTATGTATTTCTTTGTATTTTATTCTTCTTCCATGGTGCCCA
R
ATTTAATCAGCTCCTGCTAGACACTGCATCTGGTTTCTGTTGAGTATGATGCACTGAGGGGAAGGCTCTGGCCATGCTTGGGGCTGAGTGGCCACCATAC
Celera SNP ID:            hCV15796829
SNP Position Genomic:     103576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39165):
GGCATTGGAGGGCACTAGACGTGTTCTGTCTCAGCTGAGAGGCAAGGTGGGGTCCTCTGAAGGAGGGGCCAGAGAGCAAAAGTGGGCACAGTCTGCTGCC
K
CGTCTCCTGGACAGATTGACATGCAAGAGGCCCACGGTGGAATATACTCCTAGCCAACTAATTGTAAAAATATGCAGAATTATAGATACAGAGAGAGCCT
Celera SNP ID:            hCV29277040
SNP Position Genomic:     100629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39166):
ACTTGGTTTCCGCAATCCTTTATTTTAACCTGAACATTTCCTTTCTATTGATCCCAGATCTTCAGATAAACTCAACCAATTGTCAACCAGAAAATGTTTA
Y
ATTTACCTATAGCCTGGAAGCCCCCACCTTGACTTGTCCCTCCTTTCTGAACCAAACCAATGTATTTCTTAAATGTATTTGATTGATGTTTCATATCTCC
Celera SNP ID:            hCV29277041
SNP Position Genomic:     113592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39167):
TGGAATGGCCAGGGAAGCTATTCTCTCCCCTTCCCTTCCTTCCTTCCAGTTCTAGGCATTGGGGGATACAGTGGTGAAGAAAACAGAAAGAAATCCTGCC
M
TTCTGGAATTTACATTCTAATGGGGGCAAGACAGACAACAAATGAAATAAATACAAATAACAGTGTGTAAGACAGTGATACGTGCTATGGAAAAAATAAA
Celera SNP ID:            hCV29277042
SNP Position Genomic:     55879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39168):
AAATCTGGAAATGTTCAGGCTGATGTCACATTAGCCACACTCATAAGACACTATTGGGCATCAAAAATGAGCAATTACTTGATATTAAATGGAGGTAGTT
S
TTTAGATTTAGTGAAATCCTCGTGTCTGCTGCCTAAGACATTGCCTTCCCAGAAGGTAAGCCTTGCCCAGGGGAAATGGATAATTCTGACACATATTTCA
Celera SNP ID:            hCV29277043
SNP Position Genomic:     127593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39169):
GGTAAGCCTTGCCCAGGGGAAATGGATAATTCTGACACATATTTCATCCAGACATGACAGGTTCCTGTTCCTAAACCAAGTATGCCTCTCCTTTTATCGG
R
AAGCTTGTGTTCACTAGGATCACCATTTCCTGTGCAGCATTTTCCCCTGGGCCATCTTTGCACAGATGCCTGGGAAACTATTCCTCTTCTGCCAGCTCTT
Celera SNP ID:            hCV29277044
SNP Position Genomic:     127748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39170):
AATGGATAATTCTGACACATATTTCATCCAGACATGACAGGTTCCTGTTCCTAAACCAAGTATGCCTCTCCTTTTATCGGAAAGCTTGTGTTCACTAGGA
Y
CACCATTTCCTGTGCAGCATTTTCCCCTGGGCCATCTTTGCACAGATGCCTGGGAAACTATTCCTCTTCTGCCAGCTCTTTCTTCAGGCAGTACACCGTG
Celera SNP ID:            hCV29277045
SNP Position Genomic:     127768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39171):
GAAAATCACCCCACTTTAATAAAGGACAAAAATCACATGAAAAAAATCACATGAGTATCTCAAATGGTGAAGAAAAAGCAGCATATTGATAAAGTTTTTC
M
CCTATTTTTTATTTATGAATAACTCAGCATATGACTTCCTTGAACTTATGAAAATGAAAAAAAAAAAAAAACTTAGCAAACTGGAAATAGGAAAGGTGTG
Celera SNP ID:            hCV11771105
SNP Position Genomic:     40215
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39172):
CACCTGTAACCCCAGCACTTTGGGAGGCTGAGGTTGGCGGACCACTTGAGATCAGGAATTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTAC
Y
AAAAACACAAAATTTGTTGGGTGTGATGGCGCATGCCTGTAATTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTCGGAGGCGGAGTTT
Celera SNP ID:            hCV29277046
SNP Position Genomic:     130113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39173):
GTTTGAAGGAGTGTGGCCCCCTCCCTCCATCCCTTGCTTCCATTCTTGCCATGTGATGTGCCTGCTCCCACTTCACCTTGTGCCATGAGCGGAAGCTTCC
Y
GAGGCCTTCACCAGAAGCAGATGCCGGTGCTATGCTTCTTGTACAGCTTGCAGAACTGTGAGCCAAAATAAATCTCTTTTCTTTATATATTACCCAGCCT
Celera SNP ID:            hCV29277047
SNP Position Genomic:     147120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39174):
GCCATGTGATGTGCCTGCTCCCACTTCACCTTGTGCCATGAGCGGAAGCTTCCTGAGGCCTTCACCAGAAGCAGATGCCGGTGCTATGCTTCTTGTACAG
S
TTGCAGAACTGTGAGCCAAAATAAATCTCTTTTCTTTATATATTACCCAGCCTCAAGTATTTCTTTATAGCAATATGAAACGGACCAACACACATCAAAT
Celera SNP ID:            hCV29277048
SNP Position Genomic:     147167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39175):
GGATTTCTTTGAAATAGGCAGTAGAGACAATTTTAAAGTACTTAGTTGTCTTTAACCATCAATTTCAGAAGTAGTATTAATTGCCACTGCACTTTTTGCT
R
GATGTTTATGACTATATTTCCCCTTCCATGTTAAAAATTGTGCAACTCCTGTTACTTTTGATTCCCTCTACTCTTGGTTTCAGTAGTGTCACATGAAAAG
Celera SNP ID:            hCV29277049
SNP Position Genomic:     234215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39176):
TAAATGATTAAATTTGAAGTTTGAAATAATAGGATTATAAGTGAGCTGGCCTTTATTTGCTTAAGTAAACCATAAGAAGGGGGTTATAATAAAGTGTCAT
W
TAATAGTGTAAATTATATTATTGGAATACTAATGTTTTACATTTTGTTTTTTCTCTAAGCAAATGGTTATGAGCCTTAGAGTTTCTGAACTCCAAGTACT
Celera SNP ID:            hCV29277050
SNP Position Genomic:     258993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39177):
CTTGAGCTTTGATGTATGCTAGTTAAATTTCAGCTGATTTTTTTCAAGTGGAGAAGTGCATGCTTTACAGGCATGCACATGCACATGCACACTCATGATT
R
CGGTTATATAATATAAGTGCTTGAAATTTATTTTACTGTGTTGTTCCATCATTTGATTTGTAGTCTAGCATATAGAATTCAATATATTAATCAACTTGTA
Celera SNP ID:            hCV29277051
SNP Position Genomic:     260031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39178):
AGTTTATTGGCTCAATAAATATTTGTTGAAGGGCAATGCTTATTGAATGTGAAAAATATTTATTGAAAAAAGATTTTATGTAATTAGTCTTCAGGGTGTA
R
GATGAGTATATTTTAAGGCTCTGTTTTTATAAATTCTTTAACATTATTAAGACTTTTTCTGTACTTCATTAAATGAAGTGGCTACATTTGTCACATAACT
Celera SNP ID:            hCV29277052
SNP Position Genomic:     261509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39179):
GCGAACCCTGTCTCTACTAAAAATGCAAAAATTAGCCAGGCATGGTGGCACCTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGACAGGAGAATTGCTTG
Y
GAGACTGTTTCTCAAAAAATACAAAGATTAAAATTGAGTAGAAATGCAGTAAGGGAGTCTAATGAAGCTGTTTAATACTTTGTGAGCCCAGAGTAAAAGA
Celera SNP ID:            hCV29277126
SNP Position Genomic:     339379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39180):
CATGCTTTTGCTTCATTCAATCCACTGAAACTTCTCTTGTCAAGAACACCTGTGATGCCAAACCCCATGATCTGTTCCTAGTCTCCAGGTTCCTTGATCT
R
TTAGTACTTGACACAGTTGATGAGGTTCTCCTGCTTGTGCACTTTGTCACTTGACTTCCAGGATTCCACACTCTCTTGATTTTCCTCCTATCATGCTAGT
Celera SNP ID:            hCV29277053
SNP Position Genomic:     281108
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39181):
CCCCTTTCCCCACCGCGGATTGCACCTTTGGAAGCTGCACTTTTCTTCTCTGTAAAATGGGCATAACCATTACCACCCAGGCAGGAAGTTCCGTGGCTGC
R
GCTCGACAGAGGAGCCAGGCAAATGCTCCTTCCCACCCTTCCTTCCCAACTCCCCCCAAAGTGGAAAAGCTCCTAGGCAGCTGGGGCCCTCCGGAAGGGA
Celera SNP ID:            hCV11771040
SNP Position Genomic:     9070
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,17)   total(G,17|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39182):
GTTCCAAGTCTGAAACTAGAGGTAAAGATACAAACAAAAATGTCTATTCAGGGAATTAGAAGCTACTGAATAAGCACACAAGAAATGTCTACTCACTTTT
R
TATACCATTGGTTTACAACTGTGATCCTTGGTTACTGGCTGCATGGGATGTTAGTAGGTGCTCTTTGACCATGCCCCATTAAGTTAAAAAACTTAAATTT
Celera SNP ID:            hCV29277054
SNP Position Genomic:     282640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39183):
CATCTGTTTTGTTTGCTTATGGTTATCTGCTCTTAGTCCCCATACTCCATACTCCAAATCTTGAATTAAACTGCTTTGGGTTGATTTTAGTTAATCTGTC
R
CTAATGGATGGATCCTTTTAGGCCTTCTCATTTTATTGATTGTCCAGAAGCCAGTAGATGGGCTATCCCTGGGAAAATTATGCTCCCTGATCCTGTCAGC
Celera SNP ID:            hCV29277055
SNP Position Genomic:     283907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39184):
CAATTTACTGTCTTTGATTTCTTTCCTCCTTTCTCTCATGAACCCTTTCCAGGTAGGTTTTTGACTAGCTCATGCCAAAGAAACTGTTGTTATCTAGGTC
R
TCAGTGACCATTATACCACCAAAAAAAAGTAGTCATTTCCCAGTTTGGAAGAATTAAATCTTTTTAAAAAATGTAAAGAATGCCTACTACAGCCTAATAG
Celera SNP ID:            hCV29277056
SNP Position Genomic:     285263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39185):
CACTGTCCAGTGTCGGCAAGGAAATCTAGAACTCTCATATACCATTTGGTTATGCAAATGAAAATTGGTACATTTCTGGAAGCAATTTGACAATTTTTAC
R
AGAGCTTTAAAATTGTGTTCGTCTTTTGACTTGCCCATTCTGTTTCTAAGAGTATGTCTCAGGGAAATAACACACAAATGCATGATGCATCCACCCACAT
Celera SNP ID:            hCV29277057
SNP Position Genomic:     285566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39186):
TGCTTGGGAGTCTTTATAGACTCCTTTGATTAAGTCTACCAGGAGACCAGCTACTAACTCAGTAAACTAATCTGAGGAATAATGTAAAGTTAGAATAACT
R
GGATAGGTAGAGTTAAACTCCAGAGAAAAAAGGTGATGAAAAGTATAAGGCAAGCTTATTAAGGATGGGCTTATTAGGAACCTGATAAAAGGATGTGATA
Celera SNP ID:            hCV29277058
SNP Position Genomic:     286455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39187):
TATACTAATTATTGCTGATTGCGGGGCTCGTAGCTACTTTAATTAGTTTACCAGATTCTAATTAAGTTAAATGAAACATTAATAGGGAAAATATGCTTTG
A
AAAAAAAAACCCAGGATTTAAAAAAAGTCTATTTCTCGCCACAATGTTGCCACCTTGCGACAGATTTTAAGCATTACAGCCAACGCCCGAAGGCCCAGAC
Celera SNP ID:            hCV11771045
SNP Position Genomic:     9437
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,6)   total(A,3|-,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39188):
TAGGTGGCAACTATTGGATGGTTTAGAACTCTGCCAAGCTAAAAGGATAATGTGAGATTTACCTGAACTCATGAAGTGAAATGCAATCCTAGAGGCTAGT
R
AGTTGCTGCTAGGAAATAACAATGAAAAAAATCCTTTCACAGTGGTTCTAAAACACTTTATAAATCCTATTTCTTTTAATTATTTAATCATTTTATTTTG
Celera SNP ID:            hCV29277059
SNP Position Genomic:     295309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39189):
CATTCAACACGTTTCTTAACCTTGCTAAGTCTTATTTTCCCACCTGAAAAGTGAGAACAGTACCTGCCTGATAATTATGACAATTGATGATGAATCCTGT
A
AAAAAAAAAAAAAACACCCAGTTACTCAGGAGGCCGAGGCAGGATCACTTGAGCCTAGGTGTTTGAGAACAGTCTGGGCAACATAGCAAGACCCTATCTC
Celera SNP ID:            hCV9138791
SNP Position Genomic:     256512
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39190):
TGGGACTACAGGCGCACCATGCTGGGCTAATTTTTGTATGTTTAGTAGGGATGGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAACTCTTGACCTTGTG
M
TCTGCCCGCCTTGACCTCCGAAAGTGCTGCGATTACAGGCTTGAGCCACCGCGCCTGGTCATTTTTTAAACCTGAATGTGACATCAAGCTTTATAGACCC
Celera SNP ID:            hCV29277060
SNP Position Genomic:     299935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39191):
AATGTGACATCAAGCTTTATAGACCCAGTTCCAGTTTTGAATTTCTTTTTTTTTGAGCAGTTCTATCTGACTTTTGCAGGATGAAGGAAGGGCAGTTGTC
Y
AGCTAACTAGAGAGGATGAATGGACCTGGGGATCTGATAACTTCATAAGCAGGTTTTCAAGAAATTCCCCTTGCTTTAGCTATATTCTGTTAGCCCCACT
Celera SNP ID:            hCV29277061
SNP Position Genomic:     300110
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39192):
GATTTTATTTGAAAAGTGAATGATGATTGTTCTCATGATCAAGTACAGTACTAATTTTTAAAAGACCTACCTGTTTGTAGAATATTGAACATGGCCTGTA
S
TTTTTCTTTGCAGTATTTCTTGGTCCTGTCTCCTGTATTTCCACTGCACAGTTCCTTCTTACCTTACATGTAGATAAATCCTGCGTGTTGCCATGTCTTT
Celera SNP ID:            hCV29277062
SNP Position Genomic:     251012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39193):
TAAGTACCTCTTAGCAAAGTACTTGTACATACTATATATGTAGCTTATACATAAACTATTGTACTCATATGTTGTAAAGCATATAGGACATTCCCAGTAC
R
AAGAAATGGTAAACATTTGGGATGATGTGTGTGCTAATTCCCTTGATCTGATCGCTATATACTGTATGTGTCAAAACATCACCGTGAACCCCATTAATAT
Celera SNP ID:            hCV29277063
SNP Position Genomic:     309364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39194):
GTGAACCCCATTAATATGTATAATTATTATTTGTCAGTTAATTTTTTTAACCTATAGGAAAAATAAGAGTTTAAAAAGATTAAGATTTTATATAACATTT
Y
AGTTTTTTTATAAATTAGATTTCAGGTTTTATGTAAAATCTCATCTTTATAAAACTTTGTTTTGCAGATAGATACTTTTTTCTGTATCCCTGTGGATTGT
Celera SNP ID:            hCV29277064
SNP Position Genomic:     309548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39195):
TCAGAGGCACAAAATTTGGCTTGCTCTTGTAGATAGCAATAGAGATGGGCACAAGGCAGAGTGAAATCTCATCAGAGTAGTGAGTGCTTAGCACATATAA
R
GCACTGTCCTTAGTGCCGTAAGAGATAACAAGAGAAGGTAAGATAGATTAAAATGTATTGTGTTTGTTTTATGTTACTCACTTTATACATACTAGCAGTC
Celera SNP ID:            hCV946111
SNP Position Genomic:     199834
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,13)      total(G,13|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39196):
GGCTGATCTCAAACTCTTGGGCTCAAGCAATTCTCCTGCCTCTATCTCCTGAAGTGCTAGAATTATAGGCATGAGCCATTGTGCCTGCCCCCAAGAATTT
R
CCTTTCTTAAACAGCTCTCCTCTCTGCAGTTGTTTACCCTCCCAACTCATCCTAATAGAGTTATATTGTAATTATCAGTTACATTAATATTCAATGTTTA
Celera SNP ID:            hCV15796857
SNP Position Genomic:     92524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39197):
ATGCTGGGATTACAGTTGTAATTTCTTTATAAAATAGCAACCACAGAGGTATGAGGAGTGTAAGTGAAACTTTTAAGTTGTCAAGTGTTATGCAAACATG
M
GGGCCTCTCAGCATCTGGGGCATTGGAGGGCACTAGACGTGTTCTGTCTCAGCTGAGAGGCAAGGTGGGGTCCTCTGAAGGAGGGGCCAGAGAGCAAAAG
Celera SNP ID:            hCV15796858
SNP Position Genomic:     100510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39198):
AATTTGGGATCCAAATTTTAGCCATGTTTATCATTATTTATTTGATACTCTGTGTTTAAATGGTTTCCACATTTCCTGCAGGCTCCACTTACTATGGCTG
Y
AAAACAAATTAGCCCCAAACAGTGGCCAGGTGCAATGGCTCGTGCCTGTAATCCCAGCACTTTAGGAGAGGCCGAGGAAGGCCAATCACTTGAGGCCAGG
Celera SNP ID:            hCV27983565
SNP Position Genomic:     29444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39199):
AGAAAGTGAAGAGATTAACAAATTTTAAAAAGACATTAGAAAAGCTAGCAAAAGACTTGAACAGGTGCATCGCAAATTAGGAGCTCCAAATGGTGAATGT
R
AAAATGTCCTCAACATCTTTAATCATCAGGGGAATACAAAACCACCTCACAATTAACACTGAGAAGTCTGATAATGCTGTTAACTAAAAACTCAATCAAT
Celera SNP ID:            hCV11771060
SNP Position Genomic:     21165
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39200):
CCTAAAATTAGCCAACACAGTGAGTAATCACATTAGAATTCTATTTGCATGTTTATTTCATATGGCGATTATTTGTTGCCTTTAACAAAGATACTACTTT
K
TAAAATCATATTTATAAGAAAGGATTGACTAAGATTTGGTGTATAATGACAAAGGCATACTTTTTGTAATTTATATATGGTATTCATTAGCATAGTGTTA
Celera SNP ID:            hCV11668485
SNP Position Genomic:     332995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,3)      total(G,3|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39201):
GAAAAATAAATACTCATGAAGGTATCACCCAGAGGTAACTACTGTCTATATACTACTCACACAGAATTTTATTTTTGAAATGAAGCTTTCTTTTGTTGAC
S
TTTTCTCACTTTTTGTGAACATTTTCCCATATGATTAAAAATCTTTGAAAATGTCATTTTTCATGGTCACATGATATTTTCTTACATAAATGTGACATAA
Celera SNP ID:            hCV11668486
SNP Position Genomic:     345208
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,29)   caucasian(C,16|G,22)   total(C,25|G,51)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39202):
GTGTGAGTAGGTCTGGTCTGTCCATTTTTTCCCGAGAGGAATTCTATAATCTCTTGTTGAGGCTACTTACCTGGCTGATAATGTTTGGGGAACAAGGCAG
K
ATAAAGGTGTCCCACTTATGAGTATGCAGACTTTGCTTAATCTCCACTTTTAGATTTGTGCCTCACCCTTGATCTTAGTTCCATGCTGGTCTGAGTCTGG
Celera SNP ID:            hCV9706516
SNP Position Genomic:     239921
SNP Source:               dbSNP
Population(Allele,Count): (G,-|T,-)   Caucasian(G,84)   African-American(G,84)   Asians(G,84)   total(G,252) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39203):
CCTAGTTTCGCCTCATATGACATTGCTGTGGAGATAAAGAGGTCAGGCAGAGGAGGAGAGTGGCCTCTCCCTCCTGTGAGAAAAGGCACTTGCTCCCAAC
R
GGATCAGGAGTGAGGACTCAGATGGTCCTCGCAAGCCATCAGGGGGAGCATGTGGTGTTGAAGAGACCCTGCCGTTCAAACCTCCTTGCTGGTAGTGACA
Celera SNP ID:            hCV12068752
SNP Position Genomic:     168409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39204):
CTGTGGGCCTGTGGGAAATGCATGGACTGGGTGTCTGGCAGGTCTGGGTTTGAAGCTCAGCTTCATGAGCAGTGGGCCTTGGCCTTGCTGCGCCTCATTT
Y
CCCCCACTCACAGGGCTGTCTTGAGGCTGGGTGGAGTAGTCCTCTGGAAGCCCTGAAGGTTTGACCGTTCTAAAGCAGTGTTTCAGGTGAATTTATACAT
Celera SNP ID:            hCV12068753
SNP Position Genomic:     168996
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,16|C,67)   total(C,67|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39205):
GCCTGTGGGAAATGCATGGACTGGGTGTCTGGCAGGTCTGGGTTTGAAGCTCAGCTTCATGAGCAGTGGGCCTTGGCCTTGCTGCGCCTCATTTCCCCCC
M
CTCACAGGGCTGTCTTGAGGCTGGGTGGAGTAGTCCTCTGGAAGCCCTGAAGGTTTGACCGTTCTAAAGCAGTGTTTCAGGTGAATTTATACATTGATGG
Celera SNP ID:            hCV12068757
SNP Position Genomic:     169002
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,3|A,8)      total(A,8|-,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39206):
AGAGGCAGTGAAATGGCAGCAAACAACTCCCTTCTATTTCCTGGTGGCTTGTTCTCTGGGACACGGAGAAGAGCATGGTGACTGCCAGGTTTCAGGCCTA
Y
CTAGCAGGGCAATGAGAGCTCCTGGGCACCTGAGGATTCAGAACCACTTCTTTCTTTCTTTTTAATTTTTTTTTTTTTTTTTTTTTTTTGAGACAAAGTC
Celera SNP ID:            hCV12068758
SNP Position Genomic:     169593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39207):
TTACTTTTGCACCAACCAATACCTCCAGTGTTAGGGGCTGAATTATATCCCCCACTTCTACCTCCAAATTTGTATGTTGAAATCCCAACCCCTAGTACTG
Y
AAAGTGTGACCATATTTGGAGATTGGGTCTTTAAAGGGGTAATTAAATTAAAATGAGGTTATTGGATGGACCCTAATCCAATATGGCTGATGTCCTTATT
Celera SNP ID:            hCV11771070
SNP Position Genomic:     22831
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39208):
TAATTAAATTAAAATGAGGTTATTGGATGGACCCTAATCCAATATGGCTGATGTCCTTATTAGAAGAGGAAATCTGGACACAGACATGCACAGAGAAAAG
R
CCATGTAAAAACAGAGAAAATGTAGCTGTTGACAAGCCAAGGAGAGGACCTTAGGGGAAACCAACCCTGCCAACACCTTGATCTTGGGCTTCTAGCTTCC
Celera SNP ID:            hCV11771071
SNP Position Genomic:     22971
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39209):
CAGGAAGCCTTCCCTAATGATCTTTTGAAAATAGCACCTCTTGGCTGGGTGAGGTGGGTATGCACCTGTGGTCCCAGCTATTTGGGAGCCTGAGGCAGGA
S
AATCGCCTGAGCCCAGGAGGCTGGGGTTGCTATGAGTCATGATTGCACCACTGCACTCCAGCCTTGGCAGCAGAGCGAAACCCTGACAAAAAAAAAAAAA
Celera SNP ID:            hCV11771072
SNP Position Genomic:     24038
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,6)   total(G,5|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39210):
GGCCTCAGGTAGTTCTTTATAGCACTGTGAAATGGACTAAGTACCTCCTTTCATTCTTTTTCCATTTATTTTTCTTTACAGTACTTAATACTGTTGATAA
R
TATTTATCACTGAAATTATGTCAAGTATTTGTGCATGAGGAGGAGCAGGATTTTTGTTTTGCTCCCCATTGTATTCCTAGTGCCTGAAACAGTATCTGAC
Celera SNP ID:            hCV11771076
SNP Position Genomic:     24915
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39211):
CTGAGGCAGGAGAATCACTTGAACACGGGAGGTGGAGGTTGTAGTGAGCTGAGATCACACGACTGCACTTCAGTCTGGTGACAAAGTGAGACTCCATCTC
A
AAAAAAAAAAAAAAAAAAGGCGAAAGAAAGAGAAAACCTTTCTCCTACAAGGAGAGGGGTCCTGAGCAGGTTTCCAGTCCACAGTGAAATGCAGGGTTTT
Celera SNP ID:            hCV11771077
SNP Position Genomic:     26383
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,6)   total(A,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39212):
GTTAGCTTACCGTTATTGAAAGATTGAGATGTCGAAAGGGGACACTGAGGTAAGGGAGGAGCTACAGGAGGTGGCTTCCACCCCTAGGGCTGGGAGAAAA
S
GGAATTAGCCAGGCTCATTTGAACCCAGAAACGTGGAGGACAGACCCTGTGGAACTGGGACCCAGACCTCTGAGGAGTGGGCACTGGCATACTGGTGCTC
Celera SNP ID:            hCV9706524
SNP Position Genomic:     204185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39213):
TTAACAGAGATCATTTTATCTAGGATGGGGTGGAATATTAAGGACAGCTGCCAAATTCTACCCATTGCGTATTTTTGTAACTAAAGCTTTACCAGAATAC
Y
GCATGCTCATTCATTTCTATCTTGTCTATGGCTCCTTATACGTTACAACAGCAAAGTTGAGTGGTTGTGACAGACACTTTATGGCCCACGAAGCCTAAAA
Celera SNP ID:            hCV9706525
SNP Position Genomic:     203419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39214):
GTAGATAGCAATAGAGATGGGCACAAGGCAGAGTGAAATCTCATCAGAGTAGTGAGTGCTTAGCACATATAAGGCACTGTCCTTAGTGCCGTAAGAGATA
W
CAAGAGAAGGTAAGATAGATTAAAATGTATTGTGTTTGTTTTATGTTACTCACTTTATACATACTAGCAGTCAATCAATAATAATAACAATGATAAGTGC
Celera SNP ID:            hCV9706526
SNP Position Genomic:     199862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39215):
ATATTAATTTGGATCCCACCAGTAAGAAATTTGTTGTAATTTACTAAAAAACAGGTTATCTACCTTTACCTGTATGCTGCCTGTAAAAAAAAAAAAAAAA
M
AAAAAACCAAAAACTTTCCCAACAAATTATGTAATTAAAATTCTGTTTACAATAACTTGACAAAAGGAAATGTCAGGTATTTTAAAAGAGTCAAATCAGT
Celera SNP ID:            hCV26018851
SNP Position Genomic:     325304
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39216):
TAGAGAGAGCCAAGAAGGGCTGGGTGCAGTGGCTCACCCTTGTAATCCCAGCACATTGGAAGGCCGAGGCGGGTAGATCACTTGAGTGAGGTCAGGAGTT
C
CAGACCAGCCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTATCCTGGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTCGGA
Celera SNP ID:            hCV26018852
SNP Position Genomic:     326343
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,7)   total(C,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39217):
GAGGCACGAGAATCGCTTGAACCCGGGAGGCAGAAGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCTTGGGCAACAGAGAGAGACACTGTCTTT
A
AAAAAAAAAAAAAAAAAAAGAGAGAGAGAGAGAGAGCGCCAAGAAGGAGGGTGACCAGAGAGTTGGACAGGTATAAGTTGACATAGACGATATGAAGATA
Celera SNP ID:            hCV26018853
SNP Position Genomic:     326549
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39218):
TCGTGAACCTCAGCCGTCTTTTCTTTCTCTTACCCAACCATGTACCCTTCACTTAGTCTTAGCTTGTTGATTAACTGTTTTTTTTTGGTTTTGGCTTTTC
T
TTTTTTTTTTTTTTTTTGGTCCCCTTCTACCTCTGTCATCTCTGGGTAGTCTGTCTGCTGGTAATGGATATTCATCTGTTCATTTGCCAAACCAGCAGCT
Celera SNP ID:            hCV26018854
SNP Position Genomic:     322737
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39219):
GGCAAACATTCTAAAATAATTTCAGAAAATTCTCCCACCTCTGAGAGAAAGTGAATATATAAATCGTGTTTTATTTTAAGTAACAATAGCTAATATTTAT
Y
GAGAATAATATTAGGCTATTTTAAAACTTTTTTTGTTGCCAGCATGGTGGCTATGCCCATATTCCCAATACTTTGGGAGGCCAAAGTGGGCAGATAACCT
Celera SNP ID:            hCV26018855
SNP Position Genomic:     331454
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39220):
GAAGTGTTACAGTGCCCTTTACCTTTGCTGTCTGTAGACAGCTTAACAGCTCAGCAGAGGGTCAGTGTGACAGCCTTTTGTGCCCACACTTGAGGCACAC
K
AGTTTTTGTCTGGAGTCCAGGAGGAATAAGGTCTCACAAACGAATTGAAGGTGGTAAATGTGGGGGATTTCATTGCCAATGAAAGTGGCTCTCAGTGAGA
Celera SNP ID:            hCV15809678
SNP Position Genomic:     200613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39221):
ATCCAGTGTTTCTGCATCCTTGTCAGCATTTGATGCTATCACTATTTTTTAGTTTTGCCATTTTGATAGGAGTATAGTGATATCTCATTGTGTTTTGTTG
K
TGTTTTTGTTTTGTTTTTTTTTTTTGAGATAAGGTCTCGCTCTGTCACCCAGGGTGGAGGGCAGTGGCATGATCATGGTTCCCTGCAGCCTCAACCTCCC
Celera SNP ID:            hCV15847920
SNP Position Genomic:     273660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39222):
ATGGCCATATGAAAATATGTGAAAAATTTAATAATTAATTACCTTGACATTTTGGTTACTTTTTGTTCTATAATTAATCAAACTAATCATATTTTAAATT
K
GGGAGAAAGAATGAAAGGACATGTCTGTTTCCTGATTTGTCTGATTGTTCAGACAGGCCTGATATTGAAAGCTTTTGATACTGAGATCCTATTAATCTCA
Celera SNP ID:            hCV9479067
SNP Position Genomic:     335636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39223):
CAGTGTTTCTGCATCCTTGTCAGCATTTGATGCTATCACTATTTTTTAGTTTTGCCATTTTGATAGGAGTATAGTGATATCTCATTGTGTTTTGTTGTTG
K
TTTTGTTTTGTTTTTTTTTTTTGAGATAAGGTCTCGCTCTGTCACCCAGGGTGGAGGGCAGTGGCATGATCATGGTTCCCTGCAGCCTCAACCTCCCTGG
Celera SNP ID:            hCV15847929
SNP Position Genomic:     273663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39224):
GAACCCTGGGAGCTGAATATTGAGGAGCAGAGAGGAACAGGGATCAGAGGCACAAAATTTGGCTTGCTCTTGTAGATAGCAATAGAGATGGGCACAAGGC
W
GAGTGAAATCTCATCAGAGTAGTGAGTGCTTAGCACATATAAGGCACTGTCCTTAGTGCCGTAAGAGATAACAAGAGAAGGTAAGATAGATTAAAATGTA
Celera SNP ID:            hCV9706533
SNP Position Genomic:     199791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39225):
CAGGAGGCGAAGGTTGCAATGAGCCAAGATCGCGTCACTGCACTCCAGCCTGGATGACAGAGTATGACTCCGTCTCAAAAAAAAAAGAAAAAACCGAACA
W
ACAAAAAACATGGCCATCATTGACTTGGGCTTGATCCTCTGTCTAATCAGTTGGGGGATAGGTTGCAGAACCTACACCACTCAGAGCAAGACAACTTTTT
Celera SNP ID:            hCV9706534
SNP Position Genomic:     197441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39226):
GCTTCATTCAATCCACTGAAACTTCTCTTGTCAAGAACACCTGTGATGCCAAACCCCATGATCTGTTCCTAGTCTCCAGGTTCCTTGATCTATTAGTACT
W
GACACAGTTGATGAGGTTCTCCTGCTTGTGCACTTTGTCACTTGACTTCCAGGATTCCACACTCTCTTGATTTTCCTCCTATCATGCTAGTCATTTCTTC
Celera SNP ID:            hCV12068773
SNP Position Genomic:     281117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39227):
AATATTATATCTGGATCTCACAATTAGTGGGATTGGTTGTTGGCTAGGGTGTGGTTTTAGTTCTCCAAGTTATTCTGTTGTATAGCTGGATTTGAGAATT
Y
TGATCTAAAAAAAAATTTTTTTTGGAACAAATGAGAAAAAGCAGCAGATTCTAAAAATATGACTGTTTTTTATTAGAACATCATCTGTTAAAACATTCCA
Celera SNP ID:            hCV12068774
SNP Position Genomic:     301340
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39228):
TCTCACAATTAGTGGGATTGGTTGTTGGCTAGGGTGTGGTTTTAGTTCTCCAAGTTATTCTGTTGTATAGCTGGATTTGAGAATTCTGATCTAAAAAAAA
W
TTTTTTTTGGAACAAATGAGAAAAAGCAGCAGATTCTAAAAATATGACTGTTTTTTATTAGAACATCATCTGTTAAAACATTCCAGATTCTGCTAGAAGT
Celera SNP ID:            hCV12068777
SNP Position Genomic:     301355
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39229):
TCCTGCAAGATGCTGACGCCCCGCCACTGCACTGGCAACTGCTCCTTCAAGCCACCGCTGTTGCCCTAGGGCCGGCCTGGCCGCACCCCTGCGCCCTCAA
S
CCATGCTGCTCCTTGTAAATACCCGCTGCTGCGGTGGCCCTGAGCGAGGAACAAGCCATTCGGACCCGACCGATGTAAATACAGCCGCCCGTCCGCCCGC
Celera SNP ID:            hCV25928884
SNP Position Genomic:     6792
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39230):
GGAGCCTCCTGCCTTTGCCAGCCGCCTGCCATCTCGAGCTCAGCTATTTCTGGGACTTAGCTCCCTCCCTTGAAAAACAAACCGTGGCCCTCACTGTCAT
M
CCCAATAAACCCCCCAGTTTGTGCAGCCTTAATCATGTTTTCCAGAAGAGTTCTCCAACTGACGGCCTGGATGCAATGTGTTGGGCTCAGGAGAGCCAGT
Celera SNP ID:            hCV770331
SNP Position Genomic:     88766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39231):
ATCTCAAAGAGGAGAACTTGGCTAATGAACAGCCTGAAATTTATGTCCTTTCTTAGTTTGTTCCATAAACCCAGAGCAAAGTTTGCTTTTACTAAAAAGC
M
CCGTAATTACTAGTCATAACCCTTCACATCTGGTTGTCACTTAGTGTAGAAGTCTTTTCACTTCTGTTATCTCATTTGTTCTCCCCCATGAGAAAGGCAT
Celera SNP ID:            hCV770332
SNP Position Genomic:     89065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39232):
CTTCACATCTGGTTGTCACTTAGTGTAGAAGTCTTTTCACTTCTGTTATCTCATTTGTTCTCCCCCATGAGAAAGGCATTATTAGTCCCATTTATTTACC
Y
TTTTTGAAAAAAAAAAAAAAAAAAAAAAAGATGAGATCTCACTATGTTTCTCAGGCTGGTCTTGAGCTCCTAAGCTCAAGTGATCCTCCTGTCTTGGCCT
Celera SNP ID:            hCV770333
SNP Position Genomic:     89187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39233):
AGGAGCAATACATTTACACAGTTATATGTTAATAAATTTCAGAAACCTCTATGAAGTTTCCAGATATATTAAACATTCCAAATGTTTTTTTCTACATGTA
W
ATGCAGTGAAAATAATGTATAAAATGTGATATACTGATAACTTGACAATATTATCAAAGAACTACTTTTTAAAAAAAGAAAAACTCTGGGTTTGATACAT
Celera SNP ID:            hCV15847930
SNP Position Genomic:     303210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39234):
AGGCTCAGGCATGAACCCTGATGTCAGACCAGTGCTTCCCCCTGTGTCCCTCCAGGGGAATCAGGACAACTCCTTAATAAGAATTTCTTATTTTTTATCA
R
AGGTAGTAACGCACGTAATTTAAAAAGCCAACTCATATTCAGAGACAAAAGACAGCAGCCCAGAACAAACACTTTTAACTCCTTTGGTTAGTTCTGTATA
Celera SNP ID:            hCV770338
SNP Position Genomic:     90248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39235):
AGTCTGATCTACTCTTATTCATAATGGAACATGTAAATATACTGAAAACTGTTTTTCAGGAGAGAAATATGAGTTGGAGGGAAGGAAAAGTGGTTCTACT
W
ATGTTCCAAAATCCTCATCAGAGAAGGTATGATGTTCTCAGGTGTGGAAAATATTTTTTAGTTGATTGAGAATGCAGGTTTAACAGAAGAGATAAGGGGC
Celera SNP ID:            hCV1713056
SNP Position Genomic:     359027
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:39236):
AAGTTGAGAAACGATGTATTCGACACTATCTATGACAATGTAACAGCCATGATTTAATGATACTGATGGACAGTAGAATGTACATATGCAGATATAGTGT
R
GTTAGAACTACATTTAATATTAAGAAAAAAACACTCGAAAAGATAAAATGTGTTGAATTGTTTAACATTTTTCTTTATTATATTTTCCAAAAATTTAAAA
Celera SNP ID:            hCV11771093
SNP Position Genomic:     31505
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39237):
AATGTAACAGCCATGATTTAATGATACTGATGGACAGTAGAATGTACATATGCAGATATAGTGTAGTTAGAACTACATTTAATATTAAGAAAAAAACACT
Y
GAAAAGATAAAATGTGTTGAATTGTTTAACATTTTTCTTTATTATATTTTCCAAAAATTTAAAAACAGGCTGATGCTACCTTGGTAGAGAAATCCAGTGA
Celera SNP ID:            hCV11771094
SNP Position Genomic:     31541
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39238):
ACATCAGATTTGGGATGAAAATTCTAAGTTATATATTTGTAGGATTTTTGTGAGTCTGCAAACCAATATTTTCAAAGTAATTTATTTCAAATTAGTGTTA
K
GAATATTTTATCTTTTTAAATTGATGTTCCCTTGGTTTGAAAATGCGTGTGTTACTGTCAGTGCCTCCTGGCATTTGTCGTTGAAAGCACTGGTGCTTTT
Celera SNP ID:            hCV11477600
SNP Position Genomic:     343840
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,34)   caucasian(G,1|T,39)   total(G,3|T,73)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39239):
GCCTGGGAGCAGTAGGCCAGACCACACAGCCTAGGTGTGTAGCAGGCTCTACTGTCTAGGTTTGTGCAAGCACACTGTGATGTTTGCACAGCCACAAAAC
Y
GCCTAATGATGCATTTCTCAAAACACATCCGTGTCATTAAGCGACGCATGACTGTATTTAAAAGTATAATGTGTAGCCAAGAGAAAGATAAATTTCCTTG
Celera SNP ID:            hCV11477603
SNP Position Genomic:     356704
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39240):
TATGTATGGAGAAGGCTTTAGGCAGAACTTAAAATATGAAAGGAGGCAGCTTTAGGTGAAACTTAATTGAACATATTAAAAGATCTTCTTTTTTCCACAT
R
GTATTAAAACATACCTATTTAGTCTTTGTCCCTAATTCCTGATACAGAGCTACTAAAACCCAAGGAATTTCCTGAGTGATAGGAATATCTTGTTATTCAG
Celera SNP ID:            hCV1597820
SNP Position Genomic:     74992
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39241):
AATTGTCTCTTGCACAAGATCCAAGAACCCTCTCTTGGGGTCTGGATCAGGACCCTTTTCTGGTAACAGTGGTATATGTTATATTAATGCTACACCAAAT
R
TAGGTGCTCAGATAGGTTTGATGGTTTTGCTATAAGATAGCCATAACCAATGACCAGAGGGTAGCCTGTTGTATGATAAAGAATTTGTCTTTGTCCCAGG
Celera SNP ID:            hCV1597824
SNP Position Genomic:     82526
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39242):
CCTCCCAGACCTCACTCTGTAAGTCTCTTCGTTTGGCTGATCGTGACTTGTATTCTTTATCATAAAATTGCAGCTATGACTATAGGGCTTTCCTGAGTTC
K
GAGTTGTTCTAGTGAATTGTCCAACATGAGGGGGTCATAGGAACCCCCAACTTTGTAGCCAGTTAATCAGAAGTGCAGGTGGCCCTTGAAGTGTGGCTGG
Celera SNP ID:            hCV1597825
SNP Position Genomic:     83109
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,5|-,7)   total(G,5|-,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39243):
GTTTGGCTGATCGTGACTTGTATTCTTTATCATAAAATTGCAGCTATGACTATAGGGCTTTCCTGAGTTCTGAGTTGTTCTAGTGAATTGTCCAACATGA
R
GGGGTCATAGGAACCCCCAACTTTGTAGCCAGTTAATCAGAAGTGCAGGTGGCCCTTGAAGTGTGGCTGGCATCTGAGGTAAGGAAGGTCTTGTTGGGGA
Celera SNP ID:            hCV1597826
SNP Position Genomic:     83139
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,8|G,9)   total(G,9|A,4|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39244):
ATGGATTTGCCTATTCTGGGTATTCATATAAATGGAATCATATAGTGTATGGCCTTTTGTGTCTGGCTTCTTTCACTTAGCATGTTTTCAAGGTCATTGA
T
TTTTTTTTTTTTTGTATGTGCTGTTTTCTTTGTCTAAATATTCTACAGTTACTGTTTTGATTTCTTCTTTGACTCAAAGCATTTAGGAGATTGTTTTTAC
Celera SNP ID:            hCV1597827
SNP Position Genomic:     84808
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39245):
AAAAAAGATGAGATCTCACTATGTTTCTCAGGCTGGTCTTGAGCTCCTAAGCTCAAGTGATCCTCCTGTCTTGGCCTCTCAAAATGCTAGGATTACAGGT
R
TGGACCACTGTACCCAGTCAATCCCATTTATTTAATTAATCCATCTATTTGTCTCCTTATTTGGTGTTAATAATACAGTCATGTGGCTTGAAAATTTTAA
Celera SNP ID:            hCV11306434
SNP Position Genomic:     89311
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39246):
TCACACCTGTAATCCCAGCAATTTGGGAGGCTGAGGCAGAATGATTGCTTAAAGCCAGCAGTTCAAGACCAGCCTGGGCAACATAGGGAGACCCCATTTC
T
TTTTTTTTTTTTTTTGGGAGACCCCATTTCTACAAAACTTTTTTAAAAAAATTAGCCAGATGTGGGGGTGCATGCCTGTAGTCCTAGGTACTCAGGAGGC
Celera SNP ID:            hCV11306507
SNP Position Genomic:     117845
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39247):
AGCTCCTAAGCTCAAGTGATCCTCCTGTCTTGGCCTCTCAAAATGCTAGGATTACAGGTGTGGACCACTGTACCCAGTCAATCCCATTTATTTAATTAAT
C
CATCTATTTGTCTCCTTATTTGGTGTTAATAATACAGTCATGTGGCTTGAAAATTTTAAATTCCAGTGAAAAGATGTCTTCTCTTCTACTCTTCCACAAT
Celera SNP ID:            hCV11306435
SNP Position Genomic:     89352
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39248):
ATTAATCCATCTATTTGTCTCCTTATTTGGTGTTAATAATACAGTCATGTGGCTTGAAAATTTTAAATTCCAGTGAAAAGATGTCTTCTCTTCTACTCTT
Y
CACAATTCTTCTGGTCTCTATCTGCCCACAGGTAACCACTACTGTTCATTTTTCTGTGTATCTCTCCAGAGATGCTTTATGTATATCTAAGCAACTTGGG
Celera SNP ID:            hCV1597828
SNP Position Genomic:     89446
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39249):
CAGCCTCCCAAAGTGCTGTGATTACAGGCATGAGCCATTGCTCCCCACCCACTTTTGTTGTATTCTAGTTCTCAAAAGTCATTAGGTCCAGGTCCCCTAC
S
CCATACACCTAACCATCACACAGATGTGCACGCACACATACACACACACATGGAGAGGTCTACACAGGGCATGAATACTAGGAGGTGGAGGTCACCAGGT
Celera SNP ID:            hCV1597829
SNP Position Genomic:     102259
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39250):
CCCTGACCCCAAAGGGTTGGTAAGGCCGGGGAGGGGAAAGGGTGGACTGCGCGGTGAGGTGAGCCTGGAGAGGCGCCCAGAGTGACCCTCGCGACTGTCT
Y
CCCAGAAGCCCACGACGCCCTGCACCATTTCTCCTGCAAGATGCTGACGCCCCGCCACTGCACTGGCAACTGCTCCTTCAAGCCACCGCTGTTGCCCTAG
Celera SNP ID:            hCV25929912
SNP Position Genomic:     6660
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39251):
GAGGGATGAGGGCCTCAGCCAACCTTGGGGGGAATTCTGGAGTTGGGATGGCTTTTCAGAGTTGCCTCCAATGAAGGTAACGTAATCACCTGATGGGTTC
T
TTTTTTTTTTTTTTTTTGAGACGGAGTCTTACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGCCTCACTGCAAGCTCCACCTCCCAGGTTCAT
Celera SNP ID:            hCV11303027
SNP Position Genomic:     195727
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39252):
TGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACTTGAGGCCAGAAGTTTGAGACCAGCCTGGGAAACATGGTGAAACCTGGTCTCTAT
A
AAAAAAAAACAAAAATTAGCTGGGTCTGGTGGTGCACCCTGTGATCCCAGCTAATTGGAAGGATGAGATGGGAGGATCACTTGAGCCTGGGAGGTGGAGG
Celera SNP ID:            hCV11303028
SNP Position Genomic:     198194
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39253):
CTGGTCAAGGAAATATATATTATGTTTACCAGTTACTCAGCAAATGTTTCTCAAGAACTGTCTTAGGCCCAGTGAAGCCAGTCAAAGAATTATCAAGCCC
W
TTGAGGAGGGCTTGATCATTCAGTCATCTACTTGCAGGTGGTTGGTGCAAGCTATGTTATATTTAAGCTGTATTTGGATTACCAATTTTCAGGAAATTAA
Celera SNP ID:            hCV16017031
SNP Position Genomic:     191403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39254):
CTTCTGCCTTCTGCTCTGCCTGAGAGCTTTTTCAAGGTTTCATAGTTCAGAGATAACTCTCTGTTTAAATGAGAGGAATGGGGAGGAGCAAATGAGGGAG
S
GAGGCAACCTATTAAAATCTCAGTATATAAAATCTAGCTGCATAGGCAAGAGGCAACTGAGGTTCCCAAATTCGGGAAGCAAGGGGTACATAGAAGGGGA
Celera SNP ID:            hCV16017032
SNP Position Genomic:     193560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39255):
CCAGGTGCTTTTCAGAAGCTGTTGACCGTAATTCTCTAGCAGTACATAAAAAGCATCCTGGTCTTGGCCGGGTGTGGTGGCACAGCCTGTAATCCCAGCA
S
TTTGGGAGGCCGAGGCGGGTGGATCACGCGGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCC
Celera SNP ID:            hCV1597830
SNP Position Genomic:     102454
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39256):
TAATTCTCTAGCAGTACATAAAAAGCATCCTGGTCTTGGCCGGGTGTGGTGGCACAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCAC
R
CGGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCCTGGTGGCGGGTGCCTGTAGTCCC
Celera SNP ID:            hCV1597831
SNP Position Genomic:     102482
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39257):
AATTCTCTAGCAGTACATAAAAAGCATCCTGGTCTTGGCCGGGTGTGGTGGCACAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACG
M
GGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCCTGGTGGCGGGTGCCTGTAGTCCCA
Celera SNP ID:            hCV1597832
SNP Position Genomic:     102483
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39258):
TCTCTAGCAGTACATAAAAAGCATCCTGGTCTTGGCCGGGTGTGGTGGCACAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGCGG
W
CAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCCTGGTGGCGGGTGCCTGTAGTCCCAGCT
Celera SNP ID:            hCV1597833
SNP Position Genomic:     102486
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39259):
GCATCCTGGTCTTGGCCGGGTGTGGTGGCACAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGCGGTCAGGAGATCAAGACCATCC
Y
GGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCCTGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGG
Celera SNP ID:            hCV1597834
SNP Position Genomic:     102506
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39260):
TGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGTTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGACAC
W
CCACCTCAAAAAAAAAAAAGCATCCTGGTCTTGTAGCAAACTCCCATCATATGGAGGACCCTTGTCCCTTCAACCAGGGCTCTCCTGGTAGGTTCATGAC
Celera SNP ID:            hCV1597835
SNP Position Genomic:     102690
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39261):
GTGAATGCATTAGACTGTCATAGCTCAGTGATATCTGCCATGAAGACCATTCGTTTCTTCTCATGGCTCTGATTCCAGAGTCCCCAGAAGCCTTGTGTTT
Y
GCATTTGACTTCTCATAAAGCTCTGTGCTGATTAGCCCACAAAGGGTTCTGATTCTCTTGACAGCTATAACTCATTGTAAATTAATAAATTGGCGTCTGG
Celera SNP ID:            hCV1597839
SNP Position Genomic:     161230
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39262):
CAGGACTTGGCCGGGCGTAGTGGCTCATGCCTGTAATCCCAGGACTTTGGGAAGCCGAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCGG
R
CCAACATGGTGGAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGAGCGTGGTGGTGCATTTGTGTAATCCCAGCTACTTGGGGGGCTGAGACAGGAG
Celera SNP ID:            hCV16133662
SNP Position Genomic:     183660
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39263):
TAACTAGCTGCCTCTAGCTATTTTTGCTGACAGGCTGATTCTTACTGACATAGGATTGCTTGGTTCTTCTCTCAGATATTTTGTTCTATTTTGTCTTTGG
T
TTTTTTTTTTTAAGAAAATATTTTTATACATAGATAAAGCTATAGATTTTTTATTAGATATTTAATATTTTAATTATAAAGCTAATATATTTGTGACAAG
Celera SNP ID:            hCV11303033
SNP Position Genomic:     203102
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39264):
TACCCACCCTGCCACTACCACAACAGCTTGCAATTACCTGTGCATGTCACCTGCAGGCCTGGGGACTAGCTCACACAGCCCATCACAGCTACCACCAACA
S
CAGTGTACACTGTTTATTTTTGAATAAAATACAAAATACATTTGAAAGCTTCAACAATAGGGTAGATCAAGGAGAAGAAAGAATCTCAGAACTTGAAGAA
Celera SNP ID:            hCV3131510
SNP Position Genomic:     209783
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,8)   total(G,5|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39265):
TTCTGCCTTCTGCTCTGCCTGAGAGCTTTTTCAAGGTTTCATAGTTCAGAGATAACTCTCTGTTTAAATGAGAGGAATGGGGAGGAGCAAATGAGGGAGG
R
AGGCAACCTATTAAAATCTCAGTATATAAAATCTAGCTGCATAGGCAAGAGGCAACTGAGGTTCCCAAATTCGGGAAGCAAGGGGTACATAGAAGGGGAT
Celera SNP ID:            hCV16017042
SNP Position Genomic:     193561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39266):
CTGCCTTCTGCTCTGCCTGAGAGCTTTTTCAAGGTTTCATAGTTCAGAGATAACTCTCTGTTTAAATGAGAGGAATGGGGAGGAGCAAATGAGGGAGGGA
R
GCAACCTATTAAAATCTCAGTATATAAAATCTAGCTGCATAGGCAAGAGGCAACTGAGGTTCCCAAATTCGGGAAGCAAGGGGTACATAGAAGGGGATAG
Celera SNP ID:            hCV16017043
SNP Position Genomic:     193563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39267):
GCACTGTCCTGGGGCCCCGTGGTACCAGGTCCGAGGCACAAGCAAGGAGCAGGCTGTTGCTGCCGGGGCTGAGGCACAAGTGAGGTATGGGCTGCTGCCA
Y
CGGGGCTGAGGAACAAGCAAGGCATGCATTCTCCATTTGCCAGCCTAGGTTGCCACCACTAAAAGCAACCATGCCCTCCCCAGTGGCAGGGCCAACGTGT
Celera SNP ID:            hCV3131511
SNP Position Genomic:     209365
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39268):
CTCTGCCTGAGAGCTTTTTCAAGGTTTCATAGTTCAGAGATAACTCTCTGTTTAAATGAGAGGAATGGGGAGGAGCAAATGAGGGAGGGAGGCAACCTAT
K
AAAATCTCAGTATATAAAATCTAGCTGCATAGGCAAGAGGCAACTGAGGTTCCCAAATTCGGGAAGCAAGGGGTACATAGAAGGGGATAGATCCAAGGGA
Celera SNP ID:            hCV16017044
SNP Position Genomic:     193573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39269):
CACCATGTGCTTAGGAGAGAACAAATACACACATAAGGACTACTGTAATCCACACTTCTAGTCACCAAACATCTTTCCCACACTCAAAATACCTTCACCC
R
CCCCTTCCTAAGGGAGTCAACCCCAAGGTCCCATTCTGGTTGGACCTTTATTCTGAGAACACCTCAGCCTGTTCAGAGATTTTGACCATGAATGTGATGG
Celera SNP ID:            hCV3131512
SNP Position Genomic:     206476
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39270):
AAAGGAAATGATGAGTGAGCACTGGCTCTTAAAGCTTCTGCCCCAAAGTGACACACATAATTTCCTTTCACATTTTATTGACCAAATTCAGCCACATGGT
S
AGGATTAATTTCAAATGGAATAAGGAAGCACAATTTCACCATGTGCTTAGGAGAGAACAAATACACACATAAGGACTACTGTAATCCACACTTCTAGTCA
Celera SNP ID:            hCV3131513
SNP Position Genomic:     206339
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,5)   total(G,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39271):
GCCAATTCATCCTAATTCTGGCAGTCCAAGGCAACAGACCACTGGTTGCTGCTTTCCAGATTCCTCAAACTGCCCTCCTGCCTGTCCTTCTGGAGCATGG
R
GCTTCAGCTTTTCCTTCATCTTTCTGTTGCCTCACTCTTCCAATAAAGAACTTTCAAAGTAAGTTACCCAGAATCGATTTCTGTTGCTTACTACCTAAGA
Celera SNP ID:            hCV1885128
SNP Position Genomic:     114409
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39272):
GCCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGTGGCTCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAATCCCATCTCTACT
R
AAAATATAAAAATTATCCGATTATGGTGGCACATGCCTGTAATCCCAGGTACTCCAGAGGCTGAGGCAAGAGAAGTGTTTGAACCCAGGGGGCGGGAGTT
Celera SNP ID:            hCV3131514
SNP Position Genomic:     205377
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39273):
GTGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGTGGCTCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAATCCC
R
TCTCTACTGAAAATATAAAAATTATCCGATTATGGTGGCACATGCCTGTAATCCCAGGTACTCCAGAGGCTGAGGCAAGAGAAGTGTTTGAACCCAGGGG
Celera SNP ID:            hCV3131515
SNP Position Genomic:     205368
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39274):
GCACCCTGGCTATTGCCTTGAGAAGAGTCTGGAGGCTGAAAGCAGGAAGGCCAGGCAGAAGCCGTTGCTGTAAGCCAAGTGAGAGATGATAATGATTGCT
Y
TGACCAGAAAGACCACAGGATTACATTCTGATTGTATCTCCACCCAACCTTTGAAATAGGTGTCGTAATGATCCTTCACAAACAGGGGAGGAAATTCAGG
Celera SNP ID:            hCV3131516
SNP Position Genomic:     201825
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39275):
TAACCATCTGAAAGTGTGGGAATCATTCTGAGCTCATGGGCTGTAGTTATCCTGTGAGCCATAGTTTGTGGACTTCCATTTTAAAGGATAGTCATGATCC
S
ACTAAGTTTCAACCAGAGCACCCTGGCTATTGCCTTGAGAAGAGTCTGGAGGCTGAAAGCAGGAAGGCCAGGCAGAAGCCGTTGCTGTAAGCCAAGTGAG
Celera SNP ID:            hCV3131517
SNP Position Genomic:     201707
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39276):
CCACTCACTCTCTGCTCCACCCCACGTGGGAGTGGGAGCACAGGTGAGCAGGTGCAGGAGCCAGGGTGTGTGCTTTTAGGTGCCGGCAAGAGCGAACTCC
R
TACTGGCCCATGGCAGCATCTAAGGGAGGGTGCCGGAAGTCCCTGAAGCCACAGAGGAAGTGTTACAGTGCCCTTTACCTTTGCTGTCTGTAGACAGCTT
Celera SNP ID:            hCV3131518
SNP Position Genomic:     200456
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39277):
GGAGATAGAGCTATCGTAGGAGTGAGGAGAACCTAGGCAACATTGAACTCAGGGTTAAGAGACTTGAATTTGAGTTCTGACTCTGGAACTTGCTAATTAC
R
AGGAAGTCACTGGCCCAAGGTTAGTCAGTCAGCAAATGTTTAGTGAGCATCTGTGGCCAGGAACTGTGTTTAGCACTGGAGAGTCCCTCTCTGGCCTCAT
Celera SNP ID:            hCV3131519
SNP Position Genomic:     197945
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39278):
TGAAAATATTTTTAGGGTCATATCTTCGCTCTTTTTTCTTGCTGCTGCTTAGATGAACTTGAATAACATTAAATCCAGAATAATTTATCAAGGGCTGTTT
Y
AGATTTACCTTTTACATTATTTTAAGTTATAGAGATAATAAGTGACTACACTTCTCATTGTAATGATCTAACAGTAAATAGGGTAAAAATGGAAAGACCT
Celera SNP ID:            hCV1935300
SNP Position Genomic:     235077
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39279):
TTGATCGTACTCTAAATTTGATTCGTTCGACTTTGGTCTTCACCTAAATCTGTATTTATGTAACGTTTTATCATTAGGATTTCTTTGAAATAGGCAGTAG
M
GACAATTTTAAAGTACTTAGTTGTCTTTAACCATCAATTTCAGAAGTAGTATTAATTGCCACTGCACTTTTTGCTAGATGTTTATGACTATATTTCCCCT
Celera SNP ID:            hCV1935301
SNP Position Genomic:     234139
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39280):
CATAGGCAATGAAAGCATTTTTATTTTTAGAAAAAACCTTTATGAGTTAAACCAATTAATAAATGCATATGTGAATTAAGAATGCTATTTGTGCAACATC
Y
GAAAAGTAGTGCATGTAGAAGGAACTTGAAATTGATCGTACTCTAAATTTGATTCGTTCGACTTTGGTCTTCACCTAAATCTGTATTTATGTAACGTTTT
Celera SNP ID:            hCV1935302
SNP Position Genomic:     234007
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39281):
ATTTTTTCCCCCACATAGATATCGAAATATTCCAACAGCATTTGTTGAAAAGACTGTCTTTCCTTCCATTTCATTACCTTGGCACCTTTATCAAAAACCA
R
TTGACCATAGATGTATAAATCTATTTCCGGACGTTATTCTTTTCCATTGACCTGTATGTCTATCCTTATGCCAAACGAGTCTTAATTACCGTAGCTTGAT
Celera SNP ID:            hCV1935230
SNP Position Genomic:     330252
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39282):
CTTCTCAGGTGCTTATTTGCCATTCTTATAGCTTCTTTGATGAAGTATCTGCCAAATTTTTTGCCCATTTTTTAATGTCATGCTTTTGATATATTATGAA
R
TCTTTGCCTAAATGAAAGTCACAAACACTCTCTTCTATTTTTCTTCTAGAAATTTTATTGTTTGAGCTCTTGGATCTAGGTCTGTGATTCATTTTGAGTT
Celera SNP ID:            hCV1935231
SNP Position Genomic:     330017
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39283):
CCAGGCAGGCCCAGAAGCCTCAAGATATTAGATATTGCAGGCAAAGTCTGATGTCTGCCTTGGTTTGACTTCCTAACATCAAGAGGTTTTTAAAAGTCCA
R
ATTTGTTGTCACAATTTCCAGCAAAATAAATTTAAAAGAAGCCTATGTGGTTATTCTTGCCGCACTTATGTAAATAATCAGGTCAAGTTTGAAACTAAAT
Celera SNP ID:            hCV1935304
SNP Position Genomic:     223655
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39284):
GTCTGAAGCTCTGATGAGGAGTACCACATTTTGAAGTGAGGACTTTGCCTTTCTGCACAACCTCGCCAGGCAGCCTCACCAGAACATGTCTTTACTTCAC
Y
TTTCCAGCTGTAGTGGGAAGCTCACAGTACATACTCCACCTGCCTTTTCGATGCTTGTTCCTAGGAAAGTTGAGAACCCAAGGTTGTAAGGGGACTGTGA
Celera SNP ID:            hCV1597840
SNP Position Genomic:     161535
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39285):
TTATCTTTTAAAAAATAGGAAAACAAGCTCCTCTATGGATAGAGCTCTGTGTTCCTCCCATTGTTCTCATCCTAATTTTTGTGAGAGTAGTCTACACTTG
M
TCTTTTTACCTCCTCACTGCATCTCATTATGGTCTTTAACCCTCTATCATTCCACTGAAATTGCTCTTTCAGATGTCACAAATGATGATCTGATTGCTAA
Celera SNP ID:            hCV1935233
SNP Position Genomic:     327281
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,5)   total(A,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39286):
TCTGTCACTCTGTGCTGTCAAGACTCTTTTATCTTTTAAAAAATAGGAAAACAAGCTCCTCTATGGATAGAGCTCTGTGTTCCTCCCATTGTTCTCATCC
K
AATTTTTGTGAGAGTAGTCTACACTTGCTCTTTTTACCTCCTCACTGCATCTCATTATGGTCTTTAACCCTCTATCATTCCACTGAAATTGCTCTTTCAG
Celera SNP ID:            hCV1935234
SNP Position Genomic:     327253
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39287):
AGGAAGTTATTTAGATAAAAATAAGATTTATTCAATCATTTTAAGAAATTCACAGCTGAGTGTGGTGGCTCATGCCTATAATCTCAGCACTTTGGGAGGC
Y
GAGGCAGGAGGATTGCTTGAGTCAGGGAGTTCAAGACCAGCCTGGACAACATGGTGAGACCCTGTTTCAACAAAAAATAAAAAATAGCTGGGCATGGTGG
Celera SNP ID:            hCV921920
SNP Position Genomic:     151072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39288):
AACAGAGCGAGGCTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAATGCAGTTCAGGAAGAGGAGGTTGCAGACATACTTACAGAAGAGGTACCATG
Y
TTTCTGGGACTGGGCATCAAGCCTGCTTCTGAAAGTCCTGGCAGCCAGGGAGGGAGAAAGAAAAATGCGATTTCTTCCATAATGCTTCTCATCAGAAAGA
Celera SNP ID:            hCV11306522
SNP Position Genomic:     156870
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39289):
TCAAAACAATGGCCTCCCATCATTATGTTTTACCATCACCCAAACAAGGCAAAAATATTAACAGGAAGCTTAATTTCATTACCTCCACTTTTTGTGGAAT
R
TTCCTATGCATACTCAGTATGCTAACCTCAAATTTTAGTTCCAGGTTGTTATAACTTTTCAGGAAGTTATTTAGATAAAAATAAGATTTATTCAATCATT
Celera SNP ID:            hCV921921
SNP Position Genomic:     150911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39290):
GAATTTTAAATACTTAATATGGCAAAATTTATGTATTTTCCTTTATAGATTTTTGTTTTTTGTTCAAAAAGATTTGATCTACGTTTTTCACTAATAATTT
W
AAGTATCTATTTACTTATCTTTTTTTTAAACATTAAAACATTGACTCCATCTGGATTTATTTTGGTGTATGTATGTGATAGGAATCTAATTTTGTTGCTT
Celera SNP ID:            hCV921922
SNP Position Genomic:     143424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39291):
CTGTTACTGACGAACCCCATGACCTTGGGAGATTTATTTTAAAGAGTCAAAGGGATCATCCCCAGGTTTGTAAGAGGTCCAGAAGAGTAATAGGATTAAA
Y
GGTGCTTCAGAGTGTTTTATATTGTTTCTAAATGTCAGGGCCTCTTTGGGGGAAGGGAAGTAAGCACACTGCTCTTTAAAGACTGAATTTGACAGTGGGT
Celera SNP ID:            hCV921923
SNP Position Genomic:     142137
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39292):
TTCATGTAAGTGCCTTAAATTCATTAGCTTCAAGTATAGGTAATATTAAATCCAAGACAGACCTGGGTTTAAATTCTAGGTTTGTTACTTGAAAATTGCA
R
AATTAGGGCAAGTTCTTTTACTTCTCTGTACTTCAGTATCCTCATCCATAAAAACAGGTTTATGATCATCTCAGCAGCTTTTTGGTCAGGATTAAATGAA
Celera SNP ID:            hCV1935238
SNP Position Genomic:     323179
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39293):
TATTAAGTCTTCAAATCCACAAACTCAGGATGTTTTTCCATTTATTTAGATCTTCTTTATTTTAACAATGTTTTCATTGTATTAGTCTCACATCTTCTTG
R
TTAAATATATTGTTAAGTATTCTATTTTTTAAAATTGTTTAAAGTTTTTTTTGAGACAGGGTCTCATTTGCTTGAGACAGGGTCTCATTCTGTCACCCAG
Celera SNP ID:            hCV921924
SNP Position Genomic:     139757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39294):
AGCCTCCCAAGTAGCTGGGACTACAGGCGCGTCCCACCATGCCTGGCTAATTCTTGTATTTTTAGTAGAGACGAGGTTTCACCATGTTGGCCAAGCTGGT
S
TCGAACTCCTGACCTTGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGAGATTACCGGCTTGAGCCCCTGCAGCCTGGCCTAATTGCCCCTTTTCTACC
Celera SNP ID:            hCV11306528
SNP Position Genomic:     164559
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39295):
AGTGATTCCCCATTACCTTTTCTCCTCAGTTCCTGGAAACCACTAATTTACTTTCTGTGTCTGTAAAATTGCCTCTTCTGGACATTTCACATAAACAGAA
W
CATATAAAATGTGGCCTTTTATGACTTGTTCTTTTACTTAGTATAATGTTTTTTTTTTTCGAGACAGAGTCTCACTCTGTTACCCAGGAGGCTGCAGTAT
Celera SNP ID:            hCV921928
SNP Position Genomic:     137483
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,7)      total(A,7|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39296):
CAGCCTCCCAAAATGCTGGGATTACAGTTGTAATTTCTTTATAAAATAGCAACCACAGAGGTATGAGGAGTGTAAGTGAAACTTTTAAGTTGTCAAGTGT
Y
ATGCAAACATGAGGGCCTCTCAGCATCTGGGGCATTGGAGGGCACTAGACGTGTTCTGTCTCAGCTGAGAGGCAAGGTGGGGTCCTCTGAAGGAGGGGCC
Celera SNP ID:            hCV1885132
SNP Position Genomic:     100498
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39297):
CTGCCTGAGAGCTTTTTCAAGGTTTCATAGTTCAGAGATAACTCTCTGTTTAAATGAGAGGAATGGGGAGGAGCAAATGAGGGAGGGAGGCAACCTATTA
R
AATCTCAGTATATAAAATCTAGCTGCATAGGCAAGAGGCAACTGAGGTTCCCAAATTCGGGAAGCAAGGGGTACATAGAAGGGGATAGATCCAAGGGATG
Celera SNP ID:            hCV16017053
SNP Position Genomic:     193575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39298):
GTCACAAGCCAGCACCGATTCCTTCCTGGGGACGTGCCACCTCTCAGGAAGCAGAACCATGCTCCCTGCTGATCAGAGACCCTCAGGCCTCTCTCTTCTT
Y
TTCCCCACCAAGATGCTCTATTTTTGTCCCTAAACACCACCAATACCTGCAAACCAGCTTCTTCCCTTCATTCCTTAGCAAACTCCCTAATTTTCCCTCA
Celera SNP ID:            hCV3131522
SNP Position Genomic:     193314
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39299):
ATGATCCAGTGTTTCTGCATCCTTGTCAGCATTTGATGCTATCACTATTTTTTAGTTTTGCCATTTTGATAGGAGTATAGTGATATCTCATTGTGTTTTG
K
TGTTGTTTTTGTTTTGTTTTTTTTTTTTGAGATAAGGTCTCGCTCTGTCACCCAGGGTGGAGGGCAGTGGCATGATCATGGTTCCCTGCAGCCTCAACCT
Celera SNP ID:            hCV16017054
SNP Position Genomic:     273657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39300):
TGGTACCACTGAGACAACCGTCGGCCCTGCCCACATGGTCCCTTTGGGCCCAGTAATGCTGTTATCTTCATGTCATGTTTGGGATTCAGGCACTGTTTGT
R
AGTCTGCTTGTAGTCACAAGCCAGCACCGATTCCTTCCTGGGGACGTGCCACCTCTCAGGAAGCAGAACCATGCTCCCTGCTGATCAGAGACCCTCAGGC
Celera SNP ID:            hCV3131523
SNP Position Genomic:     193201
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39301):
CTGGGCATGGAGGCGAGCGCCTGTAGTCCCAGCCACTCAAGAGGCTGAGGCAGAAGAATCCCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATC
R
CGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGATACCATCTCAAAAAAGAAAAAAAGAAAGAAACTATTAGAGCCATGAATGAATCTGACTTTGATGA
Celera SNP ID:            hCV3131524
SNP Position Genomic:     190983
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39302):
CTGCTTGTCATGGTAGGGTGGGGTACATTTTAAGTTAGTACTGTTTACTGCGAATAAGGCTAAATTTCCCCCATCATTCATTGCAAAATGTCCATGGCCC
R
GAGGTCTCATCAATGTTTAGGGCAGTTGCTGGCTTAGGGCTTGGCTGACTTCTTAGTTCATTAACTTCTCATTGACCAGCTTGAGGTTAAAAAGGGGAGC
Celera SNP ID:            hCV3131525
SNP Position Genomic:     188505
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39303):
TCTGACTACATTCTGGCTTTCTTTGCTTCCCAGACAAGGTGGCAGAAATCACCATTCCCAGATCCTGAGTTTATGAGTTCTGTCTATTAACCAGCCACAC
Y
GAAACTGTAATCTCTCAGTCTTGATTCCAGATTCCCAGGGAAGGAGCTCATTGGCTCAGGTTGTTCTAGATACCCAGCTCTAGACTTATCAAAGATTTTT
Celera SNP ID:            hCV3131526
SNP Position Genomic:     187995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,11)      total(C,11|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39304):
GGGCTAGCAATGAGGGGTTAGGTGAGATTGCTCTATATTAACTCTAGTATTAACCCTGTATTTGAATTTGACCAACAAACATTCATCTCAATCAGTGGTA
S
GCTGGAGCCAGCATGTACCAGTTTGCAAAAGCAGAGGATCAAATTTACAGGAATTTTGCCAGACAGTTATGAAACACAGTCATTATTAAAATTGAATTAC
Celera SNP ID:            hCV3131527
SNP Position Genomic:     187721
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39305):
ATCTAGTCTATAACAGTGGTTTGCAACTTGACAGTGCATTAGAATTGCCTGGGAATCTTTTAAACCTCCCCTCCCCACAAAGCCCAGGCCACACCTCAGA
Y
CAATTAAGTCTGCATCACTGCCTGTGGTACCCAGCCACACATTTCCCTTCCCACATCCCCCTACTCTGTTGCTCAGGCTGGAGTGCAGCAGAGCAATCAT
Celera SNP ID:            hCV3131528
SNP Position Genomic:     186981
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39306):
AACTCTTGCCTTCTAGGAGCTCTTTGGGGGTTGATGCTGGTTTCTGCAACTATGTGACCAACTAACAATAAGACTGTTTAATCATTGACTGCACCACACC
Y
TACTTCTATTATTTTGTAACTCCACTGGGGTAAATAATCAAGGAATGTGTTGATAAGATGATGGGTGGGGCCTCAAGGAAAGCCTAGAATAAGAGGAGTC
Celera SNP ID:            hCV3131529
SNP Position Genomic:     185904
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39307):
TCTCAGGAACGAGGGACAAAGCCCAAATACAGTTGATCTTTGCACAACCAGGGGATTAGGGGAGCTGACCCTTCACACAATAGAAAATTTACGCATAACT
W
TCACTCCCCAAAAACTTAATTATTAATAGCTTACTGTTGACAAGAAGCCTTACCAATAACATAAACAATTAGTACATACATTGTATATTATATGTGTTAT
Celera SNP ID:            hCV1935311
SNP Position Genomic:     221638
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39308):
AAAATGTGTTTCTTACATTTACTAGTTTATTATGAAGGATGCCACTCAAATAACTGAATGGAAGAGATGCACAGGGCAATGTAAAGGGGGACTATGCAGA
R
CTTCCGTGCCCTGTTGCTCTTCCCCACAGTACTCTCGTGTGTTTGCCAGTGCAGAACCTCTTCTATCTCTTGTTGAAGAATTTATAACTCAATCACCAGC
Celera SNP ID:            hCV1935312
SNP Position Genomic:     221068
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39309):
AGTCCCACAAGGATACCCTCCTTCAGACACCAGTCACAAGTTCCTTAGGCCACCTGCACTCCGACTGACCAGCTGTGAAGTCAAGGCTTCCTATAATTCC
Y
TCCTCATGGTGAATAATTCACTAGAATGACTCACAGAACTGAGGAAAATGTGTTTCTTACATTTACTAGTTTATTATGAAGGATGCCACTCAAATAACTG
Celera SNP ID:            hCV1935313
SNP Position Genomic:     220923
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,10)   total(C,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39310):
ATAATATATATCAGTAGTTGGAATTAGTATTTGAAGGATTAGCAGGAACAATAAAATACTGTCTACCTAGAAAAGAATCTCTGTCACTATTAAGCTTTGG
Y
GGGGTTTTTTTTGCTGCTGAACCTCTTTCATATGATGTAAAAATTTCATTTTATATTACCAGTACAAGTGGCATTTGTTAGTACCACATTCTTTTTGCTG
Celera SNP ID:            hCV1935242
SNP Position Genomic:     321020
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39311):
TTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGACCCGCCTGCCTCGGCCTCCCAAAGTCCTGGGATTACA
R
GTGTGAGCCCCCATGCCTGGCCAACAGTGAGTGAGTTCTTACAAGATCTGGTTGTTTAAAAGTGTGTGCCACCTTCCTCCCCAACTCTCTCTTGTTCCTG
Celera SNP ID:            hCV11306530
SNP Position Genomic:     177950
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39312):
AACACTGGAAAAGGACTGAGTGTGGGTGTGTTTTGTTTTGTTTTTGTTTTGTTTTGTTTTACTTTGAAGAATGGGCATTGGAGGACAAGATGGAGAAAAT
Y
ATGAATTTACTTTTGAAACTTTTGAGTTTGAAATGCCTGTGAGACATCCTGAATAGGCAGTGGGGCAGATAGGCTTAAAGGATACATTTGGGCTAGAGGG
Celera SNP ID:            hCV1935243
SNP Position Genomic:     318990
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39313):
CACAATCCATGAAATAAATAATTGATTTGCTGGATTTCATTAAAGTTTAGAACTGCTCAGCAAAAGACAATGTCAAAAGAATGAGAATACAACCATAGAC
W
GGGAGAAAATATATGCAAAAGATATAACTGATAAAGGACTGTTACCCAAAATATACAAAGAACTCTTAGAACTCAACAAGGAAACAAACAACTTGATTAA
Celera SNP ID:            hCV770370
SNP Position Genomic:     124923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39314):
CAGTTATTTCCTTTATATAGTCTTTTCTCGTCTCCATCATGCTTTGCCTATCTGCCCTTCCCAAGCTATGGAATTATTTGTTTATTTTCTTCTAGACTTC
Y
AAGGTTTCATATTTTACCTTTAAATATTTAGTTCATATTAAATATATGTGTGATGTGAGGTAAAAATTGCTTTCTTTCACTTTTTAAATAGCTGGTTCTA
Celera SNP ID:            hCV1935244
SNP Position Genomic:     317532
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39315):
TCTCAAACAAACAAACAAACAAACAAACAAAACGAACCAAACAAAAGTAACAACTTGCAATTCATTCAGTTAATTTCAATACCTATGAGTTAAGATGAGC
R
GATTGAAATACACATTCAAGCCTAATCTCTGAATTATGCAGAGATTTTGAGAATATTCCTTCATTAGCCACAGCCATGTGTGCCACACAGGAGAAACCAG
Celera SNP ID:            hCV921930
SNP Position Genomic:     135844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39316):
GTTAGGAGTGGTCCTGTGAGCTTTGACATCTGTTTGCTAAGTATATTTCTAGAAAATCTTTGTAGATCAGTAAATCTTAACTTTTTTATGGATCCCTGAT
M
CCTTTGAGAATTTGATAGAAGCTGTGAATGGTTTCCCTATAAAACTGAACATGTATATGTACTCAAAATAATTTACATATAAAATTGTTTTATATTGTGC
Celera SNP ID:            hCV1935245
SNP Position Genomic:     314606
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39317):
GAGTGAGACTTTGTCTCAAACAAACAAACAAACAAACAAACAAAACGAACCAAACAAAAGTAACAACTTGCAATTCATTCAGTTAATTTCAATACCTATG
R
GTTAAGATGAGCAGATTGAAATACACATTCAAGCCTAATCTCTGAATTATGCAGAGATTTTGAGAATATTCCTTCATTAGCCACAGCCATGTGTGCCACA
Celera SNP ID:            hCV921931
SNP Position Genomic:     135831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39318):
TTTTAGTTTTTTTATAAATTAGATTTCAGGTTTTATGTAAAATCTCATCTTTATAAAACTTTGTTTTGCAGATAGATACTTTTTTCTGTATCCCTGTGGA
Y
TGTCTTTTGTACCCATGGAAATGTATACCCCCAACATTGGAGGTCATTGTTTTGGATGATTTTGTAAGACTCATTTCAGTATGAAGATTCTGTAATTCTT
Celera SNP ID:            hCV1935247
SNP Position Genomic:     309645
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39319):
GTTGGAGAATCTTCCCTCCTCCCTGATTCCACTCCCCAGTGCAGGCTACCGTCCCAGCTTTGTTAGGGGATAGGCAAATTGCTCAAGATCATTCAGTCTC
R
CCTACCAAGTCAGGACTGCTTTCCTAGAGCAGTTAGCCCGCCTCAGCTCAGCTCAGGTGGCCTTTGGAAAATCCCTGGCTGTTACCAGATCACGGCCTTC
Celera SNP ID:            hCV921933
SNP Position Genomic:     135157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39320):
GAAGGGAGGGGTCAGGGCAGCCAGAAAACTTGTGGTTCTGAAATGAATCTGCATGAGTCATTTGTTTAAAAAGGGCGGAGTTTCTGGAGCCCCCAGATAA
W
CCTGGGGAATAGAGTAGACCAGAAAAGACAAAATACAATGAAAGGATCAAGGGACAGCTAAATGCCTGAGATAGGCCCTTGGCTTGTGCTTAAATGATCC
Celera SNP ID:            hCV921934
SNP Position Genomic:     134817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39321):
CATTTTTGCTCAGTTTTATCTTTTGAATTTGATTTAAACGTAAAAATTAACTAGAAAACTATTAAAATTCTTCCTATTTCTTATCCCATTCTCTGTCTCT
Y
ATAGGTAATCATTTTTAATTAATTTCAGTTTATCCTTCTGGTTTTCTTTTCTTTTCTTTTTTTTTTTCCGAAAAAAGCCAGTAGCTTTATGTATTATTAC
Celera SNP ID:            hCV1935249
SNP Position Genomic:     305695
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39322):
TATAGGGGATCTCTGTCTTCCATGCTGGGGGATGGGAGAAAGGGGTTGAGTCTGCATAGGGCTGAAGCTGCCAGCAAGAGCTGGGACCCAGGAGAGCAGG
Y
GAGAAGGGAGGGGTCAGGGCAGCCAGAAAACTTGTGGTTCTGAAATGAATCTGCATGAGTCATTTGTTTAAAAAGGGCGGAGTTTCTGGAGCCCCCAGAT
Celera SNP ID:            hCV921935
SNP Position Genomic:     134714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39323):
ATCTCCAGCTGTGAAGTCCCCAGAGACACCTTCCACAAAGCTGGCAGCCTTTGCCCAGGGCTGTGGCAATTACTCCAAATGTTGGGAGAGTCCAAACCTC
S
TCTTCTAACTTTGTGTATAGGGGATCTCTGTCTTCCATGCTGGGGGATGGGAGAAAGGGGTTGAGTCTGCATAGGGCTGAAGCTGCCAGCAAGAGCTGGG
Celera SNP ID:            hCV921936
SNP Position Genomic:     134598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39324):
AGAGGCAACTGAGGTTCCCAAATTCGGGAAGCAAGGGGTACATAGAAGGGGATAGATCCAAGGGATGGGCAGAAGAGAGAATCATTGACACTTATAGACC
R
GTTCAATGTGGGAGTCTCACCATGCATGCCTGAATTAGCACTCTGACCCAGGTCAATCAAACAAAGCAATCAGGAATTGTCATTTTAAGTTGACCTTCAG
Celera SNP ID:            hCV11306539
SNP Position Genomic:     193709
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39325):
AAGCAAAACTGAATGGTAGCCCAGGTATGTCAGCTGCCCTCATTCTCGGCAACACTTCCAACTCCTTTTCTGCCTCTTTCACAGGACAAATCTCCAGCTG
Y
GAAGTCCCCAGAGACACCTTCCACAAAGCTGGCAGCCTTTGCCCAGGGCTGTGGCAATTACTCCAAATGTTGGGAGAGTCCAAACCTCGTCTTCTAACTT
Celera SNP ID:            hCV921937
SNP Position Genomic:     134509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39326):
GAACCCCTCTTACCTGCCCCTGTATCCCAGGCGAAGATGGGCTTACCTTGGATGTCACAGGAACTCATTTGGTGGAGAAAGATATCGAGAACCTGGCCAG
A
GGTGAGGATAAATTTGTGAAAAAGGTGTACGCTGTGCTTGAGAGTGATGGGTCATTCCTGTAGAGGGGTGTTATCCCTGTAGGGGGTGAGTGTGGAAAAG
Celera SNP ID:            hCV3103989
SNP Position Genomic:     3812
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 TFBS


Context             (SEQ ID NO:39327):
TAAAACTAAAATGACAGATAAGAGTAAGAAAATGGCTGCATTGATATAGTTAGTGGAGGGTACATCACACAACCTTTTGGAATAGAGTTTGGCCATGTCA
R
TTAACATTACCATGTGCCCTACTCAGTGATCCAGCAGATCTACTTCTAGAAATCTGGCATACAGAAAAACTCATGCACATGCATAAAGATACATGGATGA
Celera SNP ID:            hCV921938
SNP Position Genomic:     133360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39328):
GATCAGCATAAGCAAAGTCACGGAGGCTATAAGATGGTGCATGGTTAGGGAATTAACTATATTCATTATGCTCATTATGTTCCCTGCATACCCATGGAGC
R
TAGTTAGAAGTGGCCAAGAGGGATGCTGAATGACACTGAATAGACTAGAGGAGCCCCTCCCGAACTCTTGCCTTCTAGGAGCTCTTTGGGGGTTGATGCT
Celera SNP ID:            hCV3131530
SNP Position Genomic:     185741
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39329):
CAAGATGCAGTCACTGCACTCCAGCCAGGGTGAAAGAGCAAGACTCCGTCTCAAAAAAAATAAAAATAAAAATGCCCAAGACTTGATATATACAGCCATG
Y
ATCACTGAGCCACCAAGATACATTCTGAGAAAGGTGTCAGTTAGATGACTTCGTCCTTGTGCAAACATCATAGACAAACCTAGATGGTATAGCCTACTAC
Celera SNP ID:            hCV3131531
SNP Position Genomic:     183898
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39330):
CAGTTGGAGAAGTAGGAAATGACATTCCAGATGGAAGGAAGCATGGAGGAAGCAGTTCAGTGTGGCTAGAGCTCAGGATAGATGAGAGGAGGGATGAGGC
Y
GGAAAGGCTCTGTTGGGCTAAGGAGGCTGGCTTTGATCTTGTATGTGGTGGGAAAAAGCAAATGATTTTTTGATCTGGACTATATCGTGATCAGGGACAC
Celera SNP ID:            hCV3131532
SNP Position Genomic:     182994
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39331):
ATCCAGTTGGAGAAGTAGGAAATGACATTCCAGATGGAAGGAAGCATGGAGGAAGCAGTTCAGTGTGGCTAGAGCTCAGGATAGATGAGAGGAGGGATGA
R
GCTGGAAAGGCTCTGTTGGGCTAAGGAGGCTGGCTTTGATCTTGTATGTGGTGGGAAAAAGCAAATGATTTTTTGATCTGGACTATATCGTGATCAGGGA
Celera SNP ID:            hCV3131533
SNP Position Genomic:     182991
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39332):
ATAGGCCAGGTGCGCTGGCTCACTCCTGTAATCCTAGCACTTTGGGAGGCTGAGGTGGGCAGATTACTTAAGGCCAGAAGTTTGAGACCAGCCTGGCTAA
Y
GTGGTGAAACCCCGTCTCTACTAAAAATGCAAAAATTAGGCAGGTGTGGTGGTGCATGCCTCTAGTCCCAGCTACTCAGGAGACTGAGGCAGGAGAATTG
Celera SNP ID:            hCV1885148
SNP Position Genomic:     70425
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39333):
ATCATCTAGCCCAAGGAAGGATCTTATAACCCTTACAGTCTGAGGGAATTGAAGACAATTCTTTCCATTCATGTATTTAATCATTTATTCCATAACATTC
R
ACAAACATTTGTGTGCCAGATCCTGGGACACAAAGAAGATGAAGGAAATGTCCCTGGATCACAATCTAACAAGACAGATAAACCAGCTATGATAGAGTGA
Celera SNP ID:            hCV3131534
SNP Position Genomic:     182678
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39334):
GCTTAAATGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCTCCTGGCCAACCTGGAAAACCTTTAAGAAATATTATAT
S
TGGATCTCACAATTAGTGGGATTGGTTGTTGGCTAGGGTGTGGTTTTAGTTCTCCAAGTTATTCTGTTGTATAGCTGGATTTGAGAATTCTGATCTAAAA
Celera SNP ID:            hCV16017066
SNP Position Genomic:     301250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39335):
GTCCTCTAACGCCTTACATCGAAGGCCCAGAGCCAAGGAAGAGGCGGAGATGTCCCGCAGTCCCCTATGCTCGGCTGTTACCTGGAAAGGATCATTTCAC
Y
TCCACTGAAGAGAAAAGGAATGAGTCCTGAATGGAATGCTGCCCGGCAGCTCCCAGCGCCCGCTGGTAGAGTACCCGCCGCTGTCCCTGGGTGGCTCCGG
Celera SNP ID:            hCV9710609
SNP Position Genomic:     11806
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39336):
AAGTAAAATTGCAATCCAGGCTTGATAAAGCCTGCCAACCAGGTGGGGAAATCTGTGGGAAGTAGTGCCTGGCAGAGTTGTTCCAGATCAGGTTAAAATG
R
TCAGGCCCTGATATAGTTTGGATATGTGTCCCCTCTAAATTTCATGCTAAATTGTAATCCCCAGTGTTGGAGGTGGGGCTTGGTGGGAAGTGATTGGATG
Celera SNP ID:            hCV3131537
SNP Position Genomic:     177426
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39337):
TGTGGTGGTAGTTGCTGCTCCCAGCAGTGCTGTGGCTCAGTACTGAGAGAGGGGAGGGACCTGGGGAGCCACTGCCAGGGAGTTCGGGCTTTGGAGGCTT
S
AGTTCTCCCCACTCGGTACGCCTCTTAAGTGAAATGGAAGTCATTTGACTAGCTTCTCATCTGACCTTACTAAATAAGCAGTAGGCAAACGCAAACCTCA
Celera SNP ID:            hCV27838880
SNP Position Genomic:     14453
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,27)   caucasian(G,4)   total(C,3|G,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:39338):
AGAACTAAATAATATCATTATATAAAGCTGACCATCTCATACGAAATGACTCTGAAATGTTACCCCTGGATATATATTCCAGTCTAGAGAAACTCATGCT
C
AAAACTAATTATGGCAGCATGATTTGTAATAGCCAAAAAGTAAAAACAACCCGAATGCCCAACAATAGGAAACTGGATAAATAAATGGAGTATTGTCATA
Celera SNP ID:            hCV3131538
SNP Position Genomic:     174762
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,13)   total(C,1|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39339):
CCATGACTATCACCTTTGATCAAGCTGTGGTGGCCGCCCAGAGTGATAGACTGAGAATGCCTGTGAGAGAGCAGCCCAGGATGGTGGGAAAGAGTGCTGC
R
ATCGCTTGATCATGTCTGCCAGGCTGTGGAAATGAAGAGTTTGGTGTGGAGAGTGGCTCACATTGCAAAAGTTGGGACCCCCATTTAATCTGACCTGAAT
Celera SNP ID:            hCV3131539
SNP Position Genomic:     165991
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39340):
AGACACAGGGGTCTTGCTATGTCGCCCAGGTTGGTCTTGAACTCCTAGGCTCAAACGATCCACCTGACTCAGCCTCCCAAAGTGCAGGGAGTATGGGTGC
R
AGCCACCAAGCCCAGCCTATGTCTATAATTATGTTATTACATGATTGTTACATAAAGGCAATAATGTACTATGTATTCTTTTGAAATTATTTTTTTTAAC
Celera SNP ID:            hCV1935320
SNP Position Genomic:     217555
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39341):
GCCTGTTCTCTATCTCAATAATTATGTTATTATTATTATTATTTTTAGACACAGGGGTCTTGCTATGTCGCCCAGGTTGGTCTTGAACTCCTAGGCTCAA
R
CGATCCACCTGACTCAGCCTCCCAAAGTGCAGGGAGTATGGGTGCAAGCCACCAAGCCCAGCCTATGTCTATAATTATGTTATTACATGATTGTTACATA
Celera SNP ID:            hCV1935321
SNP Position Genomic:     217509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39342):
CAAGAGAAATGTACAGGGAAGTCACATGTACCCTTCTCTCAGTCTCCTGCAATGTTAACATCCTATGCAACTATAATACAATATCACAACCAAAAAATTG
R
CATCAATATCACCCATCCTTTCTACCCTTCCCTAATCCCCAGAGAATGACTAGCCTGTTCTCTATCTCAATAATTATGTTATTATTATTATTATTTTTAG
Celera SNP ID:            hCV1935322
SNP Position Genomic:     217356
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,12)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39343):
GCTATAAAACTAGGGTTAAGTTCAATTTGAGTGGCAAAATAGAGCTTAGAAGAACAAAAACCGAAATTATGTAATAACCACTTTGAATAACAACCAAAGT
R
AGAGTCCACGCAAAATATAAATATTAAAAAGTTAGAAATACTCATTTTTGCTCAGTTTTATCTTTTGAATTTGATTTAAACGTAAAAATTAACTAGAAAA
Celera SNP ID:            hCV1935250
SNP Position Genomic:     305552
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39344):
ACTTAAAAAGCAAGATCAAACCAAAACCAAAATTAGTAGAAGGAAAGAAATAATAAACATCAAGGCAGAACTAAATGAAATTGACACTAAAAAAACAATA
Y
AAAGGATTAGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGTCAAGGCAAGCAGATCACAAGGTCAGAAGATTGAGACCATCCTGGC
Celera SNP ID:            hCV1935323
SNP Position Genomic:     212261
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39345):
TGGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACGAGGTCAGGAGATTGAGATCATCCTTGCTAACACG
R
TGATACTCCGTCTCTACTAAAAATACAAAAAATCAGGGCGTGGTGGCCCTCACCTGTAGTCTCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAA
Celera SNP ID:            hCV1935251
SNP Position Genomic:     305064
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39346):
ACAAAGCAATCAGGAATTGTCATTTTAAGTTGACCTTCAGTTACCTGCAAGTAAATGAGTTGATTTACCATCTGTTGACTCCTCTCAGTCAACTGAACAC
R
GTAGAAATAAACACGTATGTTTTAGGTTGATTGGGCTGGATGAAGGGTATAAGGGGCTTCATATGATTTTGTGTGTAAATGTTTAAATTTTTGCATATTA
Celera SNP ID:            hCV11306540
SNP Position Genomic:     193870
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39347):
ATTCATTTCTATCTTGTCTATGGCTCCTTATACGTTACAACAGCAAAGTTGAGTGGTTGTGACAGACACTTTATGGCCCACGAAGCCTAAAATATTTACT
S
TCTGGTCCTTTACAGAAAAAGTTTCCCAAGTCCTGATCAAGGGGATTGGTGGGGTAGGGAGAATAATAATCTCCCAAAGATGTCCATGTCCTAATTCCTG
Celera SNP ID:            hCV1935326
SNP Position Genomic:     203528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,13)      total(G,13|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39348):
GACCCAGTTCCAGTTTTGAATTTCTTTTTTTTTGAGCAGTTCTATCTGACTTTTGCAGGATGAAGGAAGGGCAGTTGTCCAGCTAACTAGAGAGGATGAA
W
GGACCTGGGGATCTGATAACTTCATAAGCAGGTTTTCAAGAAATTCCCCTTGCTTTAGCTATATTCTGTTAGCCCCACTTGTACAGGTATTTTGCATTAT
Celera SNP ID:            hCV1935253
SNP Position Genomic:     300131
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39349):
CACTCTTTGCAGGGAGGAGAGTGTGGATGGAGTGGGAGAGAGCTCACGGCACAGGGAATCATTCAGCCTTGGCTTTCATTTCTCGCCCTCGGCTGGCTAG
Y
GGGGGTCCCGGGTTGAGCCCTTCTTTTATCTTTCCTGGGTCTCCGTTTCGGCCTCTATGAAATAACACGCAGGCCTCCGTCCATGCGGCTCGTAGAAGGC
Celera SNP ID:            hCV3103991
SNP Position Genomic:     8359
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:39350):
GCCCAAGATCAACAAGGTCTTGATGACTCCAAAGCAACTATCCCTATTACTAATCTAGGCTAATTCTCAATTTAAAATGGGATTACTGCCCACTAGGTGC
Y
TCTATTCTAGGTAGCAGGATTCTTTATACAATCAGTGCCTCTGAGGTGTCAATAAAGAGCCTAGGGCATTCAGGCTGGGCGTGGTGGCTCATGCCTGTAA
Celera SNP ID:            hCV1935328
SNP Position Genomic:     202545
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39351):
TTGGATTCCCAGCCTGGCTGACTTCTCCAAGCGTTGACATCTGTCCCACCCCATGGGGCCAACACACCTTCCCAGGCACCTGCCTGAGTTTCTCATCTTC
K
AAGTGGGCATAATACTATATTGAGAGGGTTCATCTATGTAAAGTGCCTGGGACAGTGTTGACACCCTGTATGTGCTAATTTTAATAGCAGCAGCAGCAGC
Celera SNP ID:            hCV921941
SNP Position Genomic:     130633
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,7)      total(G,7|T,4) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39352):
TATTCCCAGACTAACCCTCTAATTTTCAAACCTGTTTTCTTCCTCCTTGTCTTTTTGCTTTACTTTCTGGGAGATATCCTGAACTTTATTGTCCAGCCTG
Y
CTATTGAGCTTTTCCTTTGTGCATCGTATTTTTACCCTCCAAGAACTTTGTGTATACATATAAAATACAGATGTTTCTTTTTTTTAAACAATAACTAGTT
Celera SNP ID:            hCV1935255
SNP Position Genomic:     299113
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39353):
ACGGGGCGGGACAGCGCGGGTGTGGGAGTTTGCCGGCCCCTTTCCCCACCGCGGATTGCACCTTTGGAAGCTGCACTTTTCTTCTCTGTAAAATGGGCAT
M
ACCATTACCACCCAGGCAGGAAGTTCCGTGGCTGCGGCTCGACAGAGGAGCCAGGCAAATGCTCCTTCCCACCCTTCCTTCCCAACTCCCCCCAAAGTGG
Celera SNP ID:            hCV3103992
SNP Position Genomic:     9034
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,13)      total(A,13|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39354):
AGTTTGCAATGAGCCAAGATCTCGCCATTGCACTCCAGCCTGGGAGACAAGAGCAAGACTCCATCTCAAAAAGAGAGCAGTAAGACCAGTGGGAGAGGGC
R
GTTGGCCAGCCTTGACAGTGTTTCCTGAGAGGACACTTCTCACCCTGAATGCTACTGCCTCCTGCCCACAGGGTGTTGCTGCTTCTCTTTCATGCTTTCC
Celera SNP ID:            hCV921942
SNP Position Genomic:     130309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39355):
GACAGGGTCTCACTGTGTTACCCAGGCTGGAGTACAGTGGCATGATTATCGCTCACTGCAGCCTCAAACTCCTGAGCTTAAGCCATCCTCCTGCCTCAGC
R
TCCTGAGTAGCCAAGTCTAAGGCCTGTGTTATCATGCCTGGCTAATTTTGTTATTTTTTGTAGAGACAGGTTTGCTATGCTGATCTAAGCTGACCTCAAA
Celera SNP ID:            hCV1935256
SNP Position Genomic:     298593
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39356):
AGAAATGGTTGTTTAGAATATCCCAACTTGAATTATCTGGCAAATGTACGTATCACAGATATGAAAGGAACCTTGTTTCCCTCCTGAGAGCAAAACCCAG
R
ACCTCCAAGCAAAACCCAGGACCTCCAAAGTCGTCTGTGGAAGGAGTATAGCTGGAGTAAGACAGCAGGGAGAGCCAGGCGCCATGGCTCACACCTGTAA
Celera SNP ID:            hCV921943
SNP Position Genomic:     129921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39357):
TGGGCTGTTCTCCTGGAGTGTTTGGTTTGGCCTGGTCCCCAGCGGTGCCTACAGGAGGTCTGGCTCTGGAGTCCCAGGTCTGGGGTAAGGGACAAGAGTG
M
ACGGAAGCCGGGGCCCCTCTTGGGATCCGCAGTGGGAAGATGATCTCTATCCCCACCTGTTCTGGCAAATCCAGAGTGAGAGACTGAGCAAAGTTGGAGC
Celera SNP ID:            hCV3103994
SNP Position Genomic:     9713
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,7)      total(A,4|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39358):
AATGATGGTGGGAGGTTATTTTTATTTTGAAATGAAAAAATAACATGGGTATTCCAGAGAATTTGAATCAGGGTATTACTCTTGCATTCTTCAACTACTG
R
TGGCTATAACTATGTAAAGAAGTAAAACATTTCCTGTAAAGACAGTCAGAAGTTAGGAAGATCTCATCTTTATCCTGTGGACATACAGATATTTTTTCTT
Celera SNP ID:            hCV1935258
SNP Position Genomic:     297009
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39359):
ATCCAGAGTGAGAGACTGAGCAAAGTTGGAGCCGCCGTTGGAGACAGCATCAAGTGGGTTTATTTTTCACCCCCACGGGAGAAAGCAGTAAGTCCCTTCC
S
ATCTCCATTTCCTCTGCAAATCAGGGTAACCTGTGTGCAAAAGCACCACTTAGAAGACCCCTTAACTCCTGGAGCACAGGTGACTCTGTGTTCTAGTGGC
Celera SNP ID:            hCV3103995
SNP Position Genomic:     9882
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,10)      total(G,3|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39360):
GGTACAAGCGTAGCTCACTGCAACCTCAAACTCCTAGGCTAAAGTGGTCCTCCTGCCTCATCCTCCCAAGTAGCTAGGACCTACTGGTGTGAGCCACCAT
R
CCTGGCACATTTTTAAAACTTTTTGTAGAGAGTGTCTTGTAGTGTTACTCAGGCTGGTCTCAAACTCCTGGCGTCAAGCAGTCCTCCTGCCTTGGCCACC
Celera SNP ID:            hCV1935259
SNP Position Genomic:     295980
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39361):
GCCGCCGTTGGAGACAGCATCAAGTGGGTTTATTTTTCACCCCCACGGGAGAAAGCAGTAAGTCCCTTCCCATCTCCATTTCCTCTGCAAATCAGGGTAA
M
CTGTGTGCAAAAGCACCACTTAGAAGACCCCTTAACTCCTGGAGCACAGGTGACTCTGTGTTCTAGTGGCACTCGGTTCATGAGGCTAGCAGGGCACTCA
Celera SNP ID:            hCV3103996
SNP Position Genomic:     9912
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,10)   total(A,3|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39362):
TGAAATTGTAGGCAAACTGTTGTATGTGTATTTTTCTGGGAAAGGTGTCCAAGGCTCTGACCAAAGCCTCCCTGATTTATATTGAAAGGGCGGCGGTGCG
S
GGGGGGGAGGTCGGGGCCGGGGCGGGGGCGGGGTCTGTCACTTGAAGTGGGAAATCAAGTTTCCGTGGGCCAGCCTCTTAGGTTAGGGAGTGAGGAACAA
Celera SNP ID:            hCV2858933
SNP Position Genomic:     4829
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:39363):
AGGATGCGATCACAGGAGTGTGGAAAACGTCCTTGTGTGCTGAGTCCACCTCTGGGTGGGGGCCGCAGGACCGGTTGAGTCATGAGTCATGAGTTCAGGT
R
GGGTCAGTCACTTACCAGAATGCAAAAGTCTGAAAAACATCTCAAAAGACCAATCTTAGGTTCTATAACAGTGATGTTATCTATAGGAGCAGTTGGGGAA
Celera SNP ID:            hCV27878593
SNP Position Genomic:     196342
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39364):
ATAGGCCCTCTTCCTGCCCGACCTTGGCGCGCGCTCGGCGCGCGGTCACGCTCCGTCACGTGGTGCGTTTTGCCTGCGCGTCTTTCCACTGGGGCCGGGG
M
GGCGCGGAGGGTTCAGACGCGGGCTCTTACTCAAACGCTGATCCCCGAAACTACCGAGCAGTGTCTGCGCGACGCGAAAGCATTTTTGGAGCGAGGGGCC
Celera SNP ID:            hCV3103997
SNP Position Genomic:     13309
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,8)      total(A,8|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39365):
ACTATTCATATTTAAAAACTTAATACTTTCAAATTACATCCTAAAAAGGTGATATCATTTTAAACTTCTGCCAAAAATGTGTAAGAGGTTGGGCATGGCG
S
CTTGTGCCCATAATCCCAACGCTTTGGGAAGTCAAGGCGGGAGGATCCCTTGAGGCCAGGAGGAGTTTGAGACCAGCCTGGGCAACAGAGCAAGACCCTG
Celera SNP ID:            hCV921946
SNP Position Genomic:     123140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39366):
TTAAACCATAAATTAAATTCCTCCTGTGGTTAGCTTAGCCTATGCCCAGGAATGAGCAAGGACAGCCAGACTGTGAGGCTAGAAGCAAGATGGAGTCAGC
Y
ATGCTAGATTTCTCTTGTTTTCATAATCTTTGCAAAGTCTGTGACAATGATAGCAAGGAGCCAGGGCTTTGTCCTCCCGCTAGGCATTGGATACTATCTG
Celera SNP ID:            hCV27878594
SNP Position Genomic:     196745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39367):
CTCTCCCAGGTAAGCCTGGGGTTTTTATGCACACAGGATGCGGGTTAGGGCAGGCGCCATAGTGGTTTTGGAAAAGGCAACATTTGAGTGGGAAAACAGG
S
ATGTAAGTTCTTGCTTTGGACCACTGTTCCAGGCTCAAGGGTGGGGTCCTCGCTGGGGACCTGCCCTCCCAGAATTTTTCTGCCTCCTGTCCCTATCACA
Celera SNP ID:            hCV27878595
SNP Position Genomic:     200987
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39368):
TCATGGAGCTCGGTTCCAGCAGGGGAGCCAGGCAGACATGAAAGAGCCCTCTGGATGCCGAGACGTGTGCTGTGAAAGTGTGGCATAGAAAGTGCCTGGG
R
GATGATGGCCACTTCAGTGGGGCAAGAGAGAAGGTGACATTGGAGCTGTCATTGATGATAACGGCGGCAGCGCTGAGGGGACGGGGACCGAGATCCAGGC
Celera SNP ID:            hCV3103999
SNP Position Genomic:     14188
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|G,7)   total(G,7|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39369):
GTCGGCAAGGAAATCTAGAACTCTCATATACCATTTGGTTATGCAAATGAAAATTGGTACATTTCTGGAAGCAATTTGACAATTTTTACGAGAGCTTTAA
R
ATTGTGTTCGTCTTTTGACTTGCCCATTCTGTTTCTAAGAGTATGTCTCAGGGAAATAACACACAAATGCATGATGCATCCACCCACATACAACCAGGGA
Celera SNP ID:            hCV27878596
SNP Position Genomic:     285577
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39370):
CACTCTCCTCCTACTCATGGTATAGATAAGAGGGAAGGAGGGGGTAGAGTGGGAGGGAAACCACCAACCCCAGCAAGCCACAGACTCCAGGAGGCCACCA
Y
TGGGTCCCGAACCATGCTCCTATTGTCTTTACAAAGGGGAATGGCAGCTGCTCCACCTCCCACAACATCCAATCAGGCATCCTGCAGACGGTGGCAAATC
Celera SNP ID:            hCV921949
SNP Position Genomic:     116639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39371):
ATGTGTAATAATAACTGTATGTCTTCTGAGGCTGTGTTCTAAAAGACATTGCAGCTTCTGTCTTTGTTCTCTTGGATTGTCTCAGGGAAGCCAGCCACCA
Y
GCCATGAGGACACTCAAGCAGCCCTGTGGAGAGACCTACCTAGTTAACCAACCAGCACGAATTTGTCAGGCATGTGAGGGAGCCACGTTGGAAGCTAATC
Celera SNP ID:            hCV1885150
SNP Position Genomic:     63727
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39372):
GAGAGTAGAGACATGAATGAGTGCTGATGGCCCACTTGAGGTTTGTGGTCATAAATGTAAAGAGAGATTAGTGGACAGAGTTGTTTTCTTCCAGTCACAT
S
TAGCTGCTCAGGTGAAGGGAATTTGCTCTGGCCATTTTTCAGGACAATATAATGAGGAAGAGAGGGGCCAGGAGTGGTTATTGTGTTAGAATCTAAAGGG
Celera SNP ID:            hCV1885151
SNP Position Genomic:     63165
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39373):
TCATTTTATTTGAAGCAGGAAGGGCTGGGGACTCCCAGCAGCCCCACCGGAGGGAAGGAGGGAGGAAGGAGCGGGGATGTGGAGAGAGGCCCCTGTGACC
Y
TGTTTATGTGCAGGCCTGGGAGGAATGGCATTAGTGGTTTCAGGAGGTGTTGCCCTGGGATTGTAGCACAGGGACAATGCGCTGAGTTCACATGCCTGAC
Celera SNP ID:            hCV9710610
SNP Position Genomic:     16685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39374):
ATCAGTGGTGGGTAAAACTGCCAGCACCTTGGCACAAATTAAGGCATTGGTACTAAATTGTACTAGTAGTTGTGTTCTTCATCACTGTGCACTTGGAATT
A
AAAAAAAAAAATGCCAGTTAAACTTTATGTCCTTGATGAAGCAATAAAACTTACTAATTTTATTGTATCTCAATCCTTGAGTACATTTAAAAATATATTT
Celera SNP ID:            hCV11303069
SNP Position Genomic:     236812
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39375):
CACGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGC
Y
TGCCTTAGCTTCCCAAAATGCTGGGATTACAGGTGTGAGCCACCACTCCCAGCCTTTTTAAAATTTTATTTTTTGAGACAGAGTCTTGTTCTGTTGCCCA
Celera SNP ID:            hCV16017218
SNP Position Genomic:     337738
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39376):
CCCCTAAACTCTTACATGCAGGGTAGGTGGAGAAATCCAAGGCTGATAGGCCTGGCTGCTCCTGCTACAGGTCCCCAGTTAATTCCCTTGTCAATTTCCC
Y
GGAGTATCTTTTGTTCCAACTTTCTTCCATCACCTCTGGACATGGGACATCTTAGTGTTGCTCCTCCTTTTGAGGTGGTTCACTGCAGCTACTGTATCCT
Celera SNP ID:            hCV3104000
SNP Position Genomic:     152583
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39377):
TGATCTCTTGAGTTTCATTTATTTGATACTTCTTGAGAAGCCAGGGGTTTCTTTCCTGAAGAAGGAACTAATAAAACAAATGTACGTTTCAAGCTTTAAG
R
CCAGAAGTGTCCATTTCTATGTTTATCAAAAAAAATCTATGGGACTGTTGGGTCGGTTTCATCCTGATTTCTCAGAAGGTCCGATAACAACTTACTTTCT
Celera SNP ID:            hCV3104001
SNP Position Genomic:     150627
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39378):
CCGCCAAATAGTTTTCCAAAGTGGCTGTACTATTTTACAATTCCATCAGCAATGTATGAGGGTTCCAATTTTTCCACATCCTTGCCAATACTTTTTATTG
K
CTATCTTTTTTATTATAGCAAGCCTGGTGGGTGTAGTGAGGTGCCTCATTGTGGTTTTTATTTGCATTTCCCTAATGACTAATGTTGAATTCTTTTCATG
Celera SNP ID:            hCV3104002
SNP Position Genomic:     149702
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39379):
GAAAAGAGCTTGCGAAGTCTCCTTGCCCAGTGGTTTTCAAGCAGGTTTGTAGCTAAAGATTCTCGTTTCAAAGAAAACCTTACCAAGAACCTCAGTTTGC
R
AAACAGACCTATAGGGAGCTAAGTCACCCCACTTCACCTTCCCAGATTGTGGAAAAACTCTGGTCTGGGCCCAAACCCTCCTTGTAGAGATGGGAAAACT
Celera SNP ID:            hCV3104003
SNP Position Genomic:     141526
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39380):
TGCCCATTATCATGAGCCCAGCGTGGACTCCCACGCGGACCCAGGCCCCCAGCCCTGGCCACAGGGTCACAGAGATAACTCCGTGGGAAATTATACCCCA
K
GGCCCTTTGCTCCTGACTCCCCACGTGGAGCAGAGAACCACTCAGATGCGTGCTTCCAGCCCCCACCTCGGACGACCCGCTGTCCCCCTCTCACGGCTGT
Celera SNP ID:            hCV3104004
SNP Position Genomic:     140757
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39381):
GGACTTGCCCAGGGTCCTGCTGCCTTTTATGGCTGAGCTTGGGACAGGCTTAGCACTTTTTCCCTTCAGAGCTCCAACTCACTCCTTAAATTGAACCCCA
R
TTTTTCAGTGTAATTTGCAGGTACAAATTTCAGCCAGTTGCCTCTACAAAGCCCCTGTCCATTCCTTCCAAATCCCTGATCTCTTCCTATTCATTTGCCC
Celera SNP ID:            hCV3104005
SNP Position Genomic:     140551
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39382):
TGAAAAAGCATTAAAAGCCTGATGTCTGTACAGAGATCACACAAATTGGCCTGTAGATGATTTTTGTTGAAGGGGTGGTGACAGAGCAGTAATAAAAAAC
Y
TAAGTTGTTCTTATCCACTGAGTTGAGTCTTTAGAACCCAGCTTAATATTTTCATGGCTCAGATTTATTTTGAATCTTAGCTTTTATTTAGTGCTTTAAA
Celera SNP ID:            hCV3104007
SNP Position Genomic:     130957
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39383):
GAGGCTGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATTGCTTGAGTCCAAGTGTTTGAGACCAGCCTGGGTGAT
R
TGGCGAAACTCTGTCTCTACAAAAAATACAAAAAATTAGCCAGATGTGGTGGCACACACCTGTAGTCCCAGCTACTTAGGAGGCTGAGGCAGGAGGATCA
Celera SNP ID:            hCV1935260
SNP Position Genomic:     294714
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39384):
CTTTCATGCTTTCCCTAGAACTTCAACAACAGCAACAAAAGCTTTATAGATATTTAAGGAGACCAAAAAGGAGAAAGCCTGAGGAAGAGCCATCCACTTA
R
GCTGCTCCTCATCCTACTGGAATGAGGAAGTGTAGCTTGGATTCCCAGCCTGGCTGACTTCTCCAAGCGTTGACATCTGTCCCACCCCATGGGGCCAACA
Celera SNP ID:            hCV3104008
SNP Position Genomic:     130496
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39385):
TAGTTTTAGTTGCTTTTAATAATGATCCTGGATTTTTTAAAAGAAACAAACATTCTATAACCAGAAAGATTTCTGAGAATCCAAATAGATACAAGATTGA
S
CTTAGAAAAATCTAAAGAAATGGTTGTTTAGAATATCCCAACTTGAATTATCTGGCAAATGTACGTATCACAGATATGAAAGGAACCTTGTTTCCCTCCT
Celera SNP ID:            hCV3104009
SNP Position Genomic:     129805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39386):
CACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCTGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAG
Y
CTGGGCAACAGAGCAAAACTCCATAAAAAAAAAAAGTAAATGGGCAAAAGACCTGAATAGACATTCCTAATATATTTCTGTTATTTAGTTTAATTGAATT
Celera SNP ID:            hCV1935262
SNP Position Genomic:     292188
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39387):
TAACTTTTCTTTCTGCACTTTTTATGTATTTTGAGTTGTAATTATATTCTGCTTATTGTGGGCAGTTCTCTTCTTTCTTGGAGATGAAACTTTGATAATT
R
ATACTTACGGGGAGATGGTGTTACAAATCTTCTCTCATAATAGGCTCTTAATATTCACAAGAGAGATCCCCCATGACCATTGTAAGTACCCTTAATTATG
Celera SNP ID:            hCV1935263
SNP Position Genomic:     287719
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39388):
GATCTTGCCCAAATTCTTATCTAAGGGGTCTGGGGAATCATGCCCTACAAACCATACATTCTTATCAGATGAGTTTTATTTAACCCTGTATATCATGACT
K
ACTTTCCAATCTGACTCTCATATAACAAGAAAGAAAATCAAAATATTTAACCCTAAATATGTTTCCTAGCCATTTCTTGAAATTGCCCTGCAAAGTCTCT
Celera SNP ID:            hCV921951
SNP Position Genomic:     113214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39389):
GCGAAATTGTGAAAGTGGTCAGGCTACCTCTGGGAACCTTTTGTGGCCATACCCCATCCTGTTCTCCTGAATGGTTCTAATTCTGATTGTGGGTTATCCC
R
CAGAGGTGAGGACTAAGCTCTGATTTTTTGATCTTGCCCAAATTCTTATCTAAGGGGTCTGGGGAATCATGCCCTACAAACCATACATTCTTATCAGATG
Celera SNP ID:            hCV921952
SNP Position Genomic:     113084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39390):
ACATCATGTTAATGAGACCAAATGAGCAAGAAATGACAAGTATATTAAAGACTGTGGCATGACACATTCACTCCAGAAGGTGGGAAATAACTCCTACCCA
R
ATTTAGGGCCCAGACACATCACTGAAATGCATAAAGGTCTAGTGGTCTGGGCATAAAGGTAAAGGAGTGCTGGAGCTCTGAGGTAAAGAATGTAAAGAAC
Celera SNP ID:            hCV921953
SNP Position Genomic:     109587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39391):
CACTCTCCATACACTTTCTTAGGTGACTTTTGTATCTTATTCTCTTACTACATACTTCCAACAACTGTTGTTGAGCCGTAACTCTTTGGTGATTACTTTG
Y
GTTTTATTTCTTCCTCACTGAGAAAATGGAACCAATCAGAAGATAACTTATAAAGGCTTCCACCAATATATACCTTATGCCCATGTGCCTACATCTCTGT
Celera SNP ID:            hCV1935267
SNP Position Genomic:     284794
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39392):
GGGGTCTAACTCAACACTGATATCTGGTGACCCAAAGTGCTTTTATATCCCTCCCTCCCATCAGAATGAGGGAGTATGGGTTCCAGGTGACAACGAAGCC
S
TGATCCTGCTCTAATTCACAGTGAGTCCAGTTGGGTGCGTCCACCAACCCACTGTGGTCCTATCCCTGATTCCTGAACGCTTCGGAATGGACATACATGG
Celera SNP ID:            hCV921954
SNP Position Genomic:     108847
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39393):
AACAATTTGTGTGTGGATTGGGGGTGCTTAATCCTACCTGGCCATCATACAGTATTACCCTAGTCCATACACTCTCCATACACTTTCTTAGGTGACTTTT
S
TATCTTATTCTCTTACTACATACTTCCAACAACTGTTGTTGAGCCGTAACTCTTTGGTGATTACTTTGCGTTTTATTTCTTCCTCACTGAGAAAATGGAA
Celera SNP ID:            hCV1935268
SNP Position Genomic:     284725
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,7)      total(G,7|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39394):
GTTTGCATTTCCCTAATAGCTAATGATGTTGAACATCCTTTTATTTGTTTATTTGCCATCTGAATATCCTCTTCAGTGAAATATCTTTTTATGTCTTTTG
K
CTTTTCTAATTGCAGTGTTTTTTTTTTTTTTTAACTTATGAGTTTTCAGAGTTCTTTCTAGATTCTAGATTCTAGTCCTTCGTTGGGTTTGTGGTTTGCA
Celera SNP ID:            hCV11306557
SNP Position Genomic:     274087
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39395):
CTTGGGCCTTGGCATGAGTGTTTTCTTTACCTGGAATACTCATCCCACAAACATTCACGTGGCCATCTCCTTCATCTTCTTCTAGTCAAGGTATTAATAT
K
TCTGATGAGACACCTACCCTGACTACCCTATTCTTTCCAATTCCCATTACACTGCCCTATTATTTCCATAACATTGTCAGCATCTGACATACTTTACTAT
Celera SNP ID:            hCV1935269
SNP Position Genomic:     282014
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39396):
TTAGAACTGCTGTGGCAGATAGGAGTTCAAGTCTTGGAGAAGTAGTCCAGGTATGGTGGCTCATGTCTGTAATCTCAGCACTTTGGGAGGCTGAGGTGGG
M
GGATCACTTGAGGACAGGAGTTGGAGACCAGCCTGGACAACATGGCAAAACCCGTCTCTACTAAAAAATACAAAAAAAAATTAGCCAGGTGGGGTGGCCT
Celera SNP ID:            hCV921955
SNP Position Genomic:     107854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39397):
AGTTTATCACTATTAGATCATCTCCCCTTTGTCCCATTAGACTTCTGCAGGACTGTTCATTCTTCATCAAAGCCAAGCATAAGGATACACAGGTTTCCCT
S
TTTCTTTGAGTCTTCATTTCTGAAGGCTCCTGTGTCATGTAAAACTAATATTAAATACATATGTATGCTTTTCTCTTGTTAACCTGTCTTTTGCTACAGA
Celera SNP ID:            hCV921956
SNP Position Genomic:     106357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39398):
ATTTCCTCTGAGAGACCTAGCTTCTTTTTTTTTTTTTTTTTTTTTGAGATAGAGTCTGTCACCCAGGCTGGAATGCAGTGGTGTGATCTTGGCCCACTGC
R
ACCTCCACTTTCCGGGCTCAAGCCATTCTCCTGCCTCAGCCTCCTGAGAAGCTGGGACTACATGTGTATGCCACCATGCCTGGCTAATTTTTGTATTTTT
Celera SNP ID:            hCV9708417
SNP Position Genomic:     100226
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39399):
AATTTGGGACCCTCTGAAGGGCCATGTGGCTCAGAGCTCCCTGTAGGATTGGCTCTTCCTGGTTGCAACCACATTGGGGGTCATCTTCTCCCTCTTCTCA
R
TCCTGCCCTCTCACTTACGTACAGGTGTATCTCCCAAAATTACTGCCTAAGAAACCTTCTGCAGACAGAAACCACCTCCATCTCAGAGTCTGCTTCCAGG
Celera SNP ID:            hCV921957
SNP Position Genomic:     105705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39400):
CTGATCACTCCACACTTGTTTAACCTGCCTGTGAGGTTCACTATTTTCTCAGCTCTGTGATCATCAATGGTTTCAAATCACCAATGTAGCCATGCTTCAT
Y
ATCACAGTTAGAAACTGGATGATGACTTTGGAGAACGGCCTAATAAGAACCTGGCATTTACTCCTCTTCTCAGCATTGTTGATGCTCTTGAGAGCATCAA
Celera SNP ID:            hCV921958
SNP Position Genomic:     147374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:39401):
TGTGGCATTTAAGGGGCTAGGGCTTAACATTCTCCTCCTCTTTTTCCTTCCCATTAGCAGCAACCCAGATATGGCTGCTAACCCGGCGTCAACCATGCAG
W
TGAGAACTGGGCTCTTGGAATGGCAGAACAATAACTTGGAAAGAGCCTGGGTCTTGAGGGACTATGGGCTGCAGAGCTGCCAGCCTTCAAGGACTATACT
Celera SNP ID:            hCV921959
SNP Position Genomic:     99764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39402):
CATGTCACTGGGGTCAGTGGGAGTGCTGCTGGAAAGTGAGGGAACATATGATGATTAATAGTAATAATAATAATAAATCAGTACTTGTAATGTCCCAGGA
R
TTGTGTCAAGCAGTATCTCATTTAACCCTTACAACAGCCCTTTGAAGTAGATACTGGTAGATGGTATTTCCATTGGCTAGGTGCGGTGGCTCACGCCTAT
Celera SNP ID:            hCV9710621
SNP Position Genomic:     32029
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39403):
GTGTCCTTTGGTGGGCTCCCTAAGCTCTGTCTGCACAACTTTGTAAATAGTCCCTGTATTAAACTCACCTCAAATTGTATAGATCCCCTGCAGGGATCCT
R
AATGAGAATGGCTAGTTTTAGTTGCTTTTAATAATGATCCTGGATTTTTTAAAAGAAACAAACATTCTATAACCAGAAAGATTTCTGAGAATCCAAATAG
Celera SNP ID:            hCV3104010
SNP Position Genomic:     129692
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39404):
GTGGTGGGAACTGAGGTTTCCTGCTAAAACCCAGCACTAACTTGCAGGGTGAGTGTCTTCATGCATTTTGTGCTGCTCTAACAGAATACCTGAGACCGGG
Y
AATTTATAAAGAGCAGTAATTTATTTCTTCACAGTTCTACACACTAGGAAGTCCAAGATTAAGACAGCGGCATCTGGCAAGGGCCTTCTTGCTGTGTCAT
Celera SNP ID:            hCV3104011
SNP Position Genomic:     128525
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39405):
AAGCAATTAAGCTCATTTGCATAAGGTTAATTAAACACAGGTTTACTGCTCAGAAAGAAGATCCTTCATCAATAGGATTCGTTTTGGGAGCAGGTATCAG
R
TAAGTGATTGTTAACCTAGAAAAGGAAAACTTTGTTCCTGTTCCAACTGTGTCCTAAAGGGGGTATTCCTTCACTCCGTCATACTTTTCCAGGTCACTGG
Celera SNP ID:            hCV27829214
SNP Position Genomic:     10342
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,33)   total(A,1|G,71)
SNP Type:                 INTRON;PUTATIVE UTR 5;hmCS


Context             (SEQ ID NO:39406):
GGATCACCATTTCCTGTGCAGCATTTTCCCCTGGGCCATCTTTGCACAGATGCCTGGGAAACTATTCCTCTTCTGCCAGCTCTTTCTTCAGGCAGTACAC
M
GTGTGCTCGGGAGGTTTCACCTTGTTTGGTGATGGTCATGTTTCAGTGCAGTTTCAAGTCCTCCCCAAATTCTTCAGTTATATAACCACAATGTCTTCAA
Celera SNP ID:            hCV3104013
SNP Position Genomic:     127865
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|C,8)   total(A,7|C,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39407):
AGAACAGCCTTGGAAAAGTAAAATTACTAGTGTCTCCTCCCTTAAGAACCATAAGAAGTTTGAAGTGAAAAGACTTAAAGATTATCTAGTGTGGGTTCCA
R
TTTTACTACAAGTAAAATTAAGCTGAGAAAGGAGGATTGACTTGCCTAAGAGGGCACAAGTATTTTATAGAGAAATAGATTAAAATTCAAATAATTGTAT
Celera SNP ID:            hCV11477597
SNP Position Genomic:     333897
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39408):
GTATGAGGGTACTACTAAGGGGCATTTTACATTCTCGAAGTATGCTGTAATTGTTGTTTATAATTTAAATTTAATCTTTTTCTTTAGTGTTTTTAATTAC
W
TAAGAAATACATACTCATTGTAAAGGATTCAAAAGATAGAAAAGTACATGAAATAAAAAGCATCACTTTATCGCTTTCTACTGCTAAAGGTAGACACTTA
Celera SNP ID:            hCV3104015
SNP Position Genomic:     120152
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,10)   total(A,5|T,10) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39409):
TATTGTCTCAGTGTATTTATAAAAATTTTACATTATTTATTTTTATTATTGTTATTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCA
R
TGGTGCCATCTCGGCTCACCACAACCTCTGCCTCCCGGGTTCAGGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCATGCGCCACCAC
Celera SNP ID:            hCV11477598
SNP Position Genomic:     334964
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39410):
AAGATGAAGACGTTCAAAGCTCAGCTTCTCTCTTGTTACCAAGTTAGAGAAAATCGATATCTGTTTTTCAGATAATTATTTAGAATTTAGTGATTTTTTT
W
AAAAAAATCAGGAATATGAGAATTATCACATAATAGTTATTTTATGATTCTAAGGCATTTGTGTGGCAGCTAATAATGCATTTGAAAGCGAGCTTTTGCT
Celera SNP ID:            hCV11477599
SNP Position Genomic:     338467
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39411):
GAGGAGGAGCACGTGTTCTTAGAGCTCAGTGTCCCTCCCACCACATTCCCCTGTGCGTTGCCCCAGGCACAGGAACTTTGTAATCACATCCAGCCTGGGA
Y
TATAACCAAACACAGCATTCCACCACCCTCTGCAACCTCTTTGTTTGATCTTCCCCCTGGAGACACAGGTCAAGAGGAAGAGAAGGGGAAGGGGGGCAAA
Celera SNP ID:            hCV3104016
SNP Position Genomic:     119000
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39412):
CAGCCTGGGCAACATAGGGAGACCCCATTTCTTTTTTTTTTTTTTTTGGGAGACCCCATTTCTACAAAACTTTTTTAAAAAAATTAGCCAGATGTGGGGG
Y
GCATGCCTGTAGTCCTAGGTACTCAGGAGGCTGAGGTGGGAGGATGGATTGAGCCCAGGAGATCGAGGCTGCAGTGAGTTGTGATTGTACCACTACTACA
Celera SNP ID:            hCV3104017
SNP Position Genomic:     117914
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39413):
TCTCCTGTAAGTCTACTCCAGTCATGCTTTTGCTTCATTCAATCCACTGAAACTTCTCTTGTCAAGAACACCTGTGATGCCAAACCCCATGATCTGTTCC
Y
AGTCTCCAGGTTCCTTGATCTATTAGTACTTGACACAGTTGATGAGGTTCTCCTGCTTGTGCACTTTGTCACTTGACTTCCAGGATTCCACACTCTCTTG
Celera SNP ID:            hCV1935270
SNP Position Genomic:     281086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39414):
AAGACCAGCCTGGGCAACATAGGGAGACCCCATTTCTTTTTTTTTTTTTTTTGGGAGACCCCATTTCTACAAAACTTTTTTAAAAAAATTAGCCAGATGT
R
GGGGTGCATGCCTGTAGTCCTAGGTACTCAGGAGGCTGAGGTGGGAGGATGGATTGAGCCCAGGAGATCGAGGCTGCAGTGAGTTGTGATTGTACCACTA
Celera SNP ID:            hCV3104018
SNP Position Genomic:     117909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39415):
CTGGGCTGCATGTCAAAGTCTGTCATGTGTCTCCTGGGTGACGCTTAACAAATTGCTTAGCCTCTCTGGGCCTCTGATGGCTCATCTAGTGTTAATAAGA
W
AATAAGCCAGGCGTGGTGGCTCACACCTGTAATCCCAGCAATTTGGGAGGCTGAGGCAGAATGATTGCTTAAAGCCAGCAGTTCAAGACCAGCCTGGGCA
Celera SNP ID:            hCV3104019
SNP Position Genomic:     117724
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,5)      total(A,5|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39416):
CGTTGTTACATTTGGTCTTTGTTCTGCCATCTTAATTTGTTGTCTGTCATTTTTTTCTGACCTCTGTGATATGAATTATACTTTGTTTCTCTTTTATTTT
S
TAATGGTTTGGGAGTTCTGCCTTCTATTTCTGTAGGTAGTTACTATTGAAATTTTACCCAACACATTTAAGCCTAAATTTTACTACCAACATCAACAACT
Celera SNP ID:            hCV1935272
SNP Position Genomic:     277115
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,9)      total(G,5|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39417):
ATTCTCCTGTAAGTCTACTCCAGTCATGCTTTTGCTTCATTCAATCCACTGAAACTTCTCTTGTCAAGAACACCTGTGATGCCAAACCCCATGATCTGTT
C
CTAGTCTCCAGGTTCCTTGATCTATTAGTACTTGACACAGTTGATGAGGTTCTCCTGCTTGTGCACTTTGTCACTTGACTTCCAGGATTCCACACTCTCT
Celera SNP ID:            hCV11306560
SNP Position Genomic:     281084
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,5)   total(C,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39418):
AATTCTTTTGGTTAAATACCTAGAACTAGAAATGCTGGCTCATATGGTAACTTTGTTTAACCTTTGAAGAACTGCCAGACTGTTTTCTAAAGCAGCTGTA
Y
CATTTATATTCCCACCAGTGATTTATGAGGATTCGCATTTCTCTCCACATCCTTACCAACACTTGTTATTATATGCCTTTTTTAATATAGTCATCCTAGT
Celera SNP ID:            hCV1935273
SNP Position Genomic:     276805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39419):
CCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGTGCCCGGCGAGAGGTGTTTTCTTAAGAGGAGGTCAA
R
GAGAGTATGAGGAATGCTTGGAGATTGTCAAGGCTTTGTGCCGGAGGTTCCGCTACTACCTACAACAGTCCATCTCCCTTCTTTCCTGGGCTTATAGCCA
Celera SNP ID:            hCV921960
SNP Position Genomic:     99478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39420):
CTTTAGTGCCACCTCTCCCATCCCCTGAAACTACTAATACGGCATCTGTCTTTATAGATTTTCCTGTTTTGGACATCTCATATGAATGGAATCGTATGGT
R
TATGACCTTCCGTGACTGGCTGTTTTCATTTAGAATGATGTTTTCAAGTTCATAAAGTTGTATGTGCCGAAACTTTGTTCTTTTTAATGGCCAAGTAATA
Celera SNP ID:            hCV1935274
SNP Position Genomic:     276480
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39421):
TTTCCACATACTTATTTGCCATCTGTCGACATACTTATACTCTTTGGTGAAATGTCTGTGCATATTTTTCTCATTCTTTAATTGAATTACTTGTTTTTAT
R
TTATTGACTTTTGAGAGTTCCTTTGCATATTGTAGATACTAGTTTTAGTCAGAGATGTAGTTTGCAAATGTTTTCTTCCAGTCTGTAGCTTGTATTTCTT
Celera SNP ID:            hCV1935276
SNP Position Genomic:     272769
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39422):
CTTCCTCGCCTGCCTCCCGTTCCGGGCCTTCCCTCTTCACCCACCGGATATCTTTTCCTTTCTTGCCTTTTCCTGTCCCCAGATCTTGCTCTTGGACCAG
Y
GCCTAATTTTCAGAAGGTATTTCCAGATAAGAAAAGCTACAGTGACAAAGAAAACGCATCAGTCTAGGATCACTGTGGTGGCACAGGGAGAGTTTGGGCT
Celera SNP ID:            hCV921963
SNP Position Genomic:     98338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39423):
TCCTGTTGAGTTTTTTAATTATAAAAGCATGTTGTAATTAATTAATTAATTTATTTATTTATTTTTGAGACGGAGTTTTACTCTTGTCACCCAGGCTGGA
R
TGCAATGGCATGATCTCAGTTCACTGCAACCTCTGCCTCCTCAGTTCAAGTGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACGCACC
Celera SNP ID:            hCV1935277
SNP Position Genomic:     270259
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39424):
TGTTTCTTTTTTAGTGCGTTAATATGGTGACTTGATTTTTGAATGGTGAACCAGCCTTGTATTTTTGCAACAAATCTCCCTTAGTTATGATAAATTATTG
Y
TTTTCCATATGGTTGGATTTTATTTGCTAAAGTTTTATTAAGAGTGTTTGCATTTATGTTCATGACAGGTAAATGGTTGGTAATTTTTTGTCTAATAAGG
Celera SNP ID:            hCV11306565
SNP Position Genomic:     288673
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39425):
GGCTTTCTCAAGGAATTTGAAAAAAATTTTTCTTGTCAGCCTCTTCTGTAAAAGAATATCCAGCACCAAAGCATGTGCTGTGGTTTTGTTAAAAATTGTT
Y
TGTAATTTGAAGAGTCTGGGTCACAGCCCCAGAGAGCTTCTGGATGGCAACTGCATCACAGTCCTGAAATAAAAGATGCTGTCAATATGCTGCCATCCAG
Celera SNP ID:            hCV921964
SNP Position Genomic:     98091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39426):
AGCCACCGCACCCAGCTGACTATGAGTGTTATTTCTAATGTTCTAATTCAATGTTCTTCTACTTGATTACTGAAGGATAGAATATCTCCTTGCTGTGGTC
Y
GAATGTGTCCCTCACAAATTCAAATGTTGAAACCTAATTCCCAATGCAATAGTGTTAAGAGGTGGGGCCTTTAGCAGGTGATTAGGTAATGAGGGCGTGG
Celera SNP ID:            hCV1935279
SNP Position Genomic:     265331
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39427):
AGACATTCCTGAGGGGTCCACCCCCATGACCAAAGCAGCTCCCACTAGGCCCCCCTCCAACATTGGGGATTACATTTCAACTTGAGTTTTGGAGGGGACA
R
ATATCCAAACTATATCATGGGAGAAGTGGGCTTTCTCAAGGAATTTGAAAAAAATTTTTCTTGTCAGCCTCTTCTGTAAAAGAATATCCAGCACCAAAGC
Celera SNP ID:            hCV921965
SNP Position Genomic:     97962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39428):
TGTCATATGGGAGAAGAATTAAATTTGCTCTAGATAATGCAGCAGGAAATACCAGGACCAGCAGCTAAATATTTTTAGGAAAAAAAGTTAATTCAGGAGG
R
AGGAAAATGTAGAGGCCCCAGAAGCAGCCTAGAGGTACTGTAGTGAAGTGGAAGTGAATGAGCCCAAGGTGGGGAGACACAAATGGTATACACTGGTGAG
Celera SNP ID:            hCV921966
SNP Position Genomic:     97233
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   (A,-|G,-)   Caucasian(A,84)   African-American(A,84)   Asians(A,84)   total(A,252)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39429):
TTGGTCAGGCTGGTCTCAAACTCCTGACCTTGTGATCTGCCCACCTCGGCCTCCAAAAGTGCTGTTTAACCATTTTTAACTACACATTTAATTGGCACTA
M
GTGCATTTACATTGTTGTGCAACCACCACTATTATCTATTTCCAGAACTTTTTTGATCATCCCCTACTGAAACTCTGTACTCAATAAACAATAACAATAT
Celera SNP ID:            hCV921967
SNP Position Genomic:     95829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39430):
CTGTCTGACTTGAAAGCCCATGTTCTTTAATACCTATATTGTACAGATAAGGAGGCTGGGAACAGAGAGATTAAGTGGCCTCTTGTTGCATCTTGGACTT
Y
CTGGGAGGTAGATTCTGAGACAGATTGTCATGCAGGAAGTGTATTGGGAAGTGTTCCCAGGATCAACACCCTGAGGGGGAGTGGAGAAGGCAGGACTGGG
Celera SNP ID:            hCV9708427
SNP Position Genomic:     110116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39431):
GGAAGCAGTAGTGGCAGTAACAGCAGCCTGGTTTCTTCCAACAGCCTAAGGGAAAGCCATAGCCACACCGTCACAAACAGGAGCAGCACGGACACGGCAT
Y
CATCTTTGGCATCATACCAGACATTATTTCATTGGACTGATTCCCAGGCCCTGCTGCTCCCATCCCCACCCCAGATCGAATGAACTTGGCAGAAAGAAGA
Celera SNP ID:            hCV9710631
SNP Position Genomic:     357578
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39432):
ACTCTGTTGCCCAGGCTGGAGTCCAGTGGCATGATCTTGGCTCACTGCAGTCTCGACCTCCTGGGCTCAAGCGATCCTCCCATCTCAGCCTCCCAAGTAG
S
TGAGACTCCAGGCATATGCCATCATGCCAGGAGCCTTTAGCAGGCATGTCCTGCTAAAATTTTGGTTGTATTTTGTAGAGACGTGGTCCCACTATATTTC
Celera SNP ID:            hCV9708289
SNP Position Genomic:     65203
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,7)   total(G,7|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39433):
CCAAGGCACTGCTGGATGATCAAAATAAAGGTCCTTCCTCTTACGTGCTGTGAGTCTTTAAGGGGGTGAAGAAGTCAAGCACTGAGTGGGAAGTACACCT
R
GAGGCGCAGTGTCCACTGGGCTGCATGTCAAAGTCTGTCATGTGTCTCCTGGGTGACGCTTAACAAATTGCTTAGCCTCTCTGGGCCTCTGATGGCTCAT
Celera SNP ID:            hCV3104020
SNP Position Genomic:     117608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39434):
TTGAGTTCATGGTCCCGCCTGCTCCAAGGCACTGCTGGATGATCAAAATAAAGGTCCTTCCTCTTACGTGCTGTGAGTCTTTAAGGGGGTGAAGAAGTCA
R
GCACTGAGTGGGAAGTACACCTAGAGGCGCAGTGTCCACTGGGCTGCATGTCAAAGTCTGTCATGTGTCTCCTGGGTGACGCTTAACAAATTGCTTAGCC
Celera SNP ID:            hCV3104021
SNP Position Genomic:     117585
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39435):
CAGGCCTGGAAAGATACTTAGGGATGGTCTAGTTCAGTCTGAGTCAGTGTGAGCCTGGCCTCATCCCAGACAGACAACCATCTCCCTACAAACAGCACCA
K
GATGCCTTGTTGAGTTCATGGTCCCGCCTGCTCCAAGGCACTGCTGGATGATCAAAATAAAGGTCCTTCCTCTTACGTGCTGTGAGTCTTTAAGGGGGTG
Celera SNP ID:            hCV3104022
SNP Position Genomic:     117475
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,6)      total(G,6|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39436):
TCCACCCCCAGCCTTCCCGGGACGTCCTGTGCAGCAGGAGTTGATAACGCTGTGTACAGGCTGATGGGGGTAGACACGCTCTTGTTGCCAGGCCCTGGAC
R
CTCTGAACCCCAGCCTGGGCTCCTGGCCTTAATGGGGCAGGGAGGGGACCATCGGGGCACAGAGCCAGGGATCCTGTTACTCTCTACATAGAGGTGCCAA
Celera SNP ID:            hCV3104023
SNP Position Genomic:     117074
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,9|G,10)      total(G,10|A,9) ;(A,-|G,-)   Caucasian(A,41|G,41)   African-American(A,23|G,59)   Asians(A,8|G,74)   total(G,174|A,72)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39437):
AGAAGCAATGGCAAAGGGGCTGTGGATGGGCCTGACTGTCTGGACATGGCCAAATCTGCTGCCCAGCCACTTGCTCTTGTGACTTCATCCTGACCTGAAG
Y
GTCTGCCTACAGGTGCTCCTGCCTCTCCCCTGGCCCAGCAAGGACCGCAGGATGCCCTTCCTTAACTCCTGGGTAGGAGCCCACAGTGGTGACTGATCCA
Celera SNP ID:            hCV3104024
SNP Position Genomic:     116844
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,10)      total(C,6|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39438):
ACGGTGGCAAATCACAGAGAAGCAATGGCAAAGGGGCTGTGGATGGGCCTGACTGTCTGGACATGGCCAAATCTGCTGCCCAGCCACTTGCTCTTGTGAC
Y
TCATCCTGACCTGAAGTGTCTGCCTACAGGTGCTCCTGCCTCTCCCCTGGCCCAGCAAGGACCGCAGGATGCCCTTCCTTAACTCCTGGGTAGGAGCCCA
Celera SNP ID:            hCV3104025
SNP Position Genomic:     116827
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,9)      total(C,7|T,9) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39439):
TCTGAGGGTAAACAGAGCTGGATTTGAAGCCCACTCTCCTCCTACTCATGGTATAGATAAGAGGGAAGGAGGGGGTAGAGTGGGAGGGAAACCACCAACC
Y
CAGCAAGCCACAGACTCCAGGAGGCCACCATTGGGTCCCGAACCATGCTCCTATTGTCTTTACAAAGGGGAATGGCAGCTGCTCCACCTCCCACAACATC
Celera SNP ID:            hCV3104026
SNP Position Genomic:     116608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39440):
AGACTTCTGTTCTCCAGAACTGTGAGAAATAAATCTCTGTTGTTGATAAGCCACGCAGCTTATTGTGCTTTGTGATAGCAGCCTGAATTGACTAACACAA
Y
GATCCCAGGGCCCAGTGAGGTTGAATAACTCACCCAAAGTCACACAGGTATTTAGGCCACTTATTGTAGACATCATTCTTGTTCCAGGTCCCCTTTTGAG
Celera SNP ID:            hCV3104027
SNP Position Genomic:     116187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39441):
ATTTTTCTGTCATCACTGTTCCCTCTCCTCCCGAGTGTGCATTCAGTTAATATAATCAGTTGCTTGCTTCTTTCAAAGTGCTTTGAAGGTCTTGAACTCA
Y
GTGTGAGCATCTTTATCAACTATCCCAATTGCATGTTCTCCATCACATATTCTCTTATTTGCTCTGTACCCCCTGAGAATATGTTTTAGAGATATTGGAA
Celera SNP ID:            hCV284926
SNP Position Genomic:     358332
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:39442):
CCAACAATGCTGGTACCCTGATTTCAGACTTCTGTTCTCCAGAACTGTGAGAAATAAATCTCTGTTGTTGATAAGCCACGCAGCTTATTGTGCTTTGTGA
Y
AGCAGCCTGAATTGACTAACACAACGATCCCAGGGCCCAGTGAGGTTGAATAACTCACCCAAAGTCACACAGGTATTTAGGCCACTTATTGTAGACATCA
Celera SNP ID:            hCV3104028
SNP Position Genomic:     116162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39443):
GGCAGTCTGCAACCCTGAAGAGAGCCCTCACCAGAACCCAACAATGCTGGTACCCTGATTTCAGACTTCTGTTCTCCAGAACTGTGAGAAATAAATCTCT
R
TTGTTGATAAGCCACGCAGCTTATTGTGCTTTGTGATAGCAGCCTGAATTGACTAACACAACGATCCCAGGGCCCAGTGAGGTTGAATAACTCACCCAAA
Celera SNP ID:            hCV3104029
SNP Position Genomic:     116125
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39444):
AAAGAGGCGAAGACTTGCCCAAGTTCCCTCAGCAGGTTAGTGCAGAGGAAAGGAAGTCAGCCAGGTCTCTGGATTTTCTGGGGCTAGGAACTGCCTGTCT
Y
TTTCCTAATTTCTGTTCTAATCTTTTCTTTTCTTTTAAGTAGCGACAGGGCTTCACCTTGTTGGCCAGACTGGTCTCGAACCCCTGACCTCGGTATCCTC
Celera SNP ID:            hCV27896477
SNP Position Genomic:     11270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39445):
AAGACAGTAGTTCTGATAATTCCCATTTTATTAGGTAATTCTCATTCATTCTTACGATCATTTTGTTATTTCTTTAAAACAATTTAAAATAATTTTAAGG
M
CTTTATTTTGGAGCCATAATTAAAGTATTCTTTTCATTGTCCATAATTAACTGTAAGAATTGAGAGGTGAAGTAAAAGGTGGTTGTAAAGTAAGATGTTT
Celera SNP ID:            hCV1935284
SNP Position Genomic:     262037
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,7)   total(A,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39446):
GAGGAAGGAGCGGGGATGTGGAGAGAGGCCCCTGTGACCTTGTTTATGTGCAGGCCTGGGAGGAATGGCATTAGTGGTTTCAGGAGGTGTTGCCCTGGGA
Y
TGTAGCACAGGGACAATGCGCTGAGTTCACATGCCTGACCCTGAAGCTCCAAAGGCCTCAGACACAGAGCATGGCCAGAGCAGGGTTGGAGGAGGCCTGA
Celera SNP ID:            hCV27896478
SNP Position Genomic:     16746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39447):
CCTTTTTGAGTTTCTGCAGGGTAAGTTGACTTGCTTCACATGGTATCACCCATGCACAGTCTATTAAGAGTCAGCCGCTTCTAGTCTGATAAGACACCCT
S
GATGTCTATCGACTTTTCATCCTCCTAGCGCATGTTGACGACTCTTTCCCCCATTGTTTCCATTCTTGTCCTCTTTGTCCTTGTGAACTTAGTTTGTTCC
Celera SNP ID:            hCV921971
SNP Position Genomic:     93915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39448):
AGTTGATCACAACTATCACTGAGTCCAGAATGGGACAGGCACATTTACTTTTTCATTTTTTCCCTTCCATTGTGGCCTTAAGCACTAGATTTAAACAGAT
Y
TTAAGATGTTCAAATGTAAACTGAATGTTTTTATGCATGGTTTTGTATTTCTAACTAAAATGGAAGACAGTAGTTCTGATAATTCCCATTTTATTAGGTA
Celera SNP ID:            hCV1935285
SNP Position Genomic:     261873
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39449):
ATTGTTTTATAGTTGTACCATGGTTATAAATGATAGCTTTTTTCAGAGCCTTTGGAAATTTATCTAATTGTTGCATAATCTCTGCCTGTTCCCAGCTACC
T
TTTTTTTTTTTGGTCATTTTGGTCACCATTATTCCACATTGAAGGCTTTCCTCTGATACTTGGTCGTGCTGGCATGTCTGTTCATTTTTTTTGACTTATT
Celera SNP ID:            hCV11306573
SNP Position Genomic:     299604
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39450):
CTGTATGGGATTGCAAGGATGGGAGGAAAAGTGTCACACCTCCTCCAAATCCTGGCTGCCCTGGAGTCCAGACATCGCTCCCTGCCAAGGCTACAGTGAC
Y
GCAGCAGTGGTACAGGGGAAGACTGCAATGGCTTTCAGCCAAGAAGGTCCATATTTATGTCTCATCAACTGTGACTAGGTGGGTCACCAGTCTCTTCCAG
Celera SNP ID:            hCV27896479
SNP Position Genomic:     18357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39451):
TGATAAAACAGGTTGTGTAAAGAAGTCGGCCAAAACCCACTGATACCAAGATGGCAATAAAAATGACCTCTTTTTTTTTAAGCCTCATATTCATTTTCTG
Y
ATTACCTTGTGCCTCTAGTTACTGAGCCTTTTTGAGTTTCTGCAGGGTAAGTTGACTTGCTTCACATGGTATCACCCATGCACAGTCTATTAAGAGTCAG
Celera SNP ID:            hCV921972
SNP Position Genomic:     93788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39452):
TGGTGATGCAATCTTTTAGGATTCTGCTAATAGCTGTGTGATCTTGGGTAAGTGATTTCTTCTCTTTGGATTCCATTTTCCACCACTTTAAAATGGGAGG
W
TTGGTATAGATGGTCATTTCCTATTAGTAGGTGGGGAAAAAGGAGAAAGGGGGACTAAATAAGTTTGCGAACATAGGTAAACAAAGTTAAATAGATTACT
Celera SNP ID:            hCV1935286
SNP Position Genomic:     258090
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39453):
GAAAGAGTTTTCCAAGCCAGAGAAGTAAAGGAAGGACTCATATTTCTTTGATTAACCAGCTATATTGCTTATAAAGCTCTTTATATACTTTTCTCCTCAG
W
ATTTTATTTTTTGCTTAATGGTTTTGCCACCTGCAAAGAACCCTTAGAGAATTGGCTGGGGTTATCATTGTGAGTGGTGGTGAGTTAGGGAAGGCAGCAT
Celera SNP ID:            hCV1935287
SNP Position Genomic:     257783
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39454):
AAGAAAAGAGAAATGCAGAAAATTAAAAGAGTTCATGGAAATTAAAAATTTAATGTAAGCGTTAGGAGATAAAATTGAGGAAAATCCCAGAAGATAGAGC
Y
AAAAGACAAGAGATGTAAAAATGCACAAGGAAAAAGAAAATAGAGTAAAGGAAAAATGAGATTATCAGTCTAGGAAGACCTGTGTCTGAATAATAAGTGT
Celera SNP ID:            hCV1935288
SNP Position Genomic:     254433
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39455):
GGATACATTTGGGCTAGAGGGAAAAAATGTGTGAGTCATCTGCATATTGGTGGTTATTGGAACCACACTGGCAGGGCTGACATTGATTCTCCTGCATTAC
T
TTTTTTTTTTTTTTTTTTAAACATTCTTTCTTCCAGATAAAGTAGAATTACTTTATCATATTTCTTTTCCTCGCTCCTGTACCCCATTTGCACATCTTTC
Celera SNP ID:            hCV11306576
SNP Position Genomic:     319170
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39456):
AGGACAAATGTGAAACTACCTCTTGATCAGTCACAGACTGTGGGCCTCTTGGGAGTCTGGGAGGTCACAGGTCAAGGCCTAGAGAAATGGCTGTGTCCTA
K
GATTAGGGACAGTGGAACTGCTTTCTCTCCTGAGGCCTCTTTGGTGTGGTCATGGGGTGCTGCTGATGTCTGCAGCCCTCTGGGCACTCTCTCAAAGCTG
Celera SNP ID:            hCV9708506
SNP Position Genomic:     169352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39457):
ATTGTCTTGAATGTATTGAACCTCCCATTCTGCACTACTCTGCCCTTAGAACACTAGAAGCCAGCCTTATACCACCAAAGCAGGAGATTGGGTTGTTCCT
Y
TCTGTCAAAAGTGATCAGACAAAAGGAAGCAAAGGGAATCCAAACAAAATAGCCAGGTTATTGCCCAGTCATTCTAGATGAAGTACCCTGGTCTGCTCAC
Celera SNP ID:            hCV1935289
SNP Position Genomic:     254044
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39458):
CTGTTAAACATCCTACAATGTACTGCACAGCCCCTCATAACAAACGATTATCCAGCCCAAAATGTCATAGCATCCAGGTTAAGAAACCTTGAGTTACAGT
Y
ATTAAAATGGATGACCCTCATAATGTTGAGCACAGAAAGCAAGTTGCAGAAGAATATATATACAGTATAATACTATTTTTTAAAATTCAAAAGTAAGCAA
Celera SNP ID:            hCV9708507
SNP Position Genomic:     175136
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39459):
AGCAGAGCAGGGACACAAGGTTGGTCCCCCACTTGAAATCAGGTGGTCTTTCAATCAATGTGGCTGGGTCTGAGGCTTTTATGGGCCCAGAATGGGAGAG
Y
GCATGCTGATTGGTTTGTGAGTACGCAAGAAAGCCTAAAACGAAGGTACCACTCAAAGGTGGGCATGACGGTGTAAAATCCCAATTGAGGAAGGGTAGAT
Celera SNP ID:            hCV921976
SNP Position Genomic:     91780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39460):
CACTCCAGTGTGGGTGCTGTGTCTGCTGTGACTGTGCTGGCAGGAGGGGATGTGTGAGCCAGTGACAGCAGGGTCCAGCCAGCTGTTCTAAGAGCCGGCA
S
AGGAGTGGGATCCATGCAGGGCTTGTGGCTGAACCAGGTGTGTCACAAGCGACTCCTGTGGTAGACTCTGGTGTCCAGACGAGGGGAATGTGGTGGCACC
Celera SNP ID:            hCV921977
SNP Position Genomic:     91234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39461):
TTGCCAGCCAGAGACCTCCAGCCAGCAATACCCCTGGCCCAGGCCTTGCTCGGGCCTGGGTTCACCACAGGAGAGGCCCCATCTACCGCTGGGCTATGCC
Y
GGCTTGCACTCCAGTGTGGGTGCTGTGTCTGCTGTGACTGTGCTGGCAGGAGGGGATGTGTGAGCCAGTGACAGCAGGGTCCAGCCAGCTGTTCTAAGAG
Celera SNP ID:            hCV921978
SNP Position Genomic:     91127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39462):
TTTTCTCGGTCACTTTGCCAGCCAGAGACCTCCAGCCAGCAATACCCCTGGCCCAGGCCTTGCTCGGGCCTGGGTTCACCACAGGAGAGGCCCCATCTAC
Y
GCTGGGCTATGCCCGGCTTGCACTCCAGTGTGGGTGCTGTGTCTGCTGTGACTGTGCTGGCAGGAGGGGATGTGTGAGCCAGTGACAGCAGGGTCCAGCC
Celera SNP ID:            hCV921979
SNP Position Genomic:     91113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39463):
ATATTCCTCTTTAAGAGTGGGGAAAGAGACTGCTGTTTCATGAATTCTTTATATTTCTCTTAGAGTGGGGCAAAGGATTCCTGTTTTATGCAGAATTCTG
Y
TTTCATGAGAACCCGGAATTTTTAATGGTTTGTAGGGATAAATCCGAGACTTTATTGTTAATGGTTTTAAGGTACATTGCAAGGTCTCTTGTTTCATGAG
Celera SNP ID:            hCV9708296
SNP Position Genomic:     70108
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39464):
GAATTCAAGATGGCTGTACTTCAGTTGTATGATAAAATTAATGGTTCTCATGACTTGTGTGGCATCTAAAAATAATGTTTTTATAGCATCTCTCTGCCAC
Y
AAATTGTTGACTTGAATTTTGGGAAAAAAAAAAGTTGGTGTTGATATGTATATGTGTGTGTGTATATATGTATTTATAAACAAGTGTGTTTGAGTAACAA
Celera SNP ID:            hCV9710642
SNP Position Genomic:     359369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:39465):
GTTGTTGTTATTTATGTATGTATTTATTTATTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGTGTCACTGCAACCTCC
R
CCTCCCGGGTTCAAGCAATTCTCTTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGCTAACTTTTGTATTTTTAGTCGAG
Celera SNP ID:            hCV3104100
SNP Position Genomic:     37352
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39466):
AGCCTCTGCGCCGGCTCGCGCCCGCAGTGCCTTTAAAACGTGCGTTGGAAGTAGACGCCACGCAGCCTGCTTTCCAGAGTCCCGGCGTTTCCCCTCTTCC
R
CCGCTGCACTCCAGGGGCCTCCCTTACGCGTCCGCACGCGGCGAGTCCTTCCACTATGCAGGGCGCGCCGCAGGACTCTTGAGTGGGCGGGAAGGCTGGA
Celera SNP ID:            hCV3104101
SNP Position Genomic:     36637
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39467):
CTCCCTAAGGGCCCCTGGCTTAGAATATGTGTGAGTGGCAACCCAGTCCCTCAACCCCTGCGCGGGGAGCCGGGGCAGAGCGAACTGCTGTAACTTTCGC
W
CGCCGCCACCAGAGGGCGGCGGCTCCGCGGAGGAGGGCCCCAGCCTCTGCGCCGGCTCGCGCCCGCAGTGCCTTTAAAACGTGCGTTGGAAGTAGACGCC
Celera SNP ID:            hCV3104102
SNP Position Genomic:     36495
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39468):
GAGATGCTCCTCATTAATGAACGTTCTCCCTATTGCAATGGCCTGAATGAAATCTTAACTGTCTGGGGCTTTTGGCGTTCACAATGACCATAATTGTGCT
R
TTGTAAGCGTCAATCGGGGGCGCAGCCGGAGTCCCAGGTCCCAGTCCTGGCTTCCCCATGTCAGGCTTCCCCTTCGGGCCGGTTTCAGGTCTCAATTGGG
Celera SNP ID:            hCV3104103
SNP Position Genomic:     36292
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39469):
GTTGGCAGTCTGCAACCCTGAAGAGAGCCCTCACCAGAACCCAACAATGCTGGTACCCTGATTTCAGACTTCTGTTCTCCAGAACTGTGAGAAATAAATC
Y
CTGTTGTTGATAAGCCACGCAGCTTATTGTGCTTTGTGATAGCAGCCTGAATTGACTAACACAACGATCCCAGGGCCCAGTGAGGTTGAATAACTCACCC
Celera SNP ID:            hCV3104030
SNP Position Genomic:     116122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39470):
GGTAGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGTGAAAACC
Y
ATCTTTACTAAAAATACAAAAACCAGCAAGGTGTGGAGGCATGTGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAATTGCTTGAACCCGGGA
Celera SNP ID:            hCV3104104
SNP Position Genomic:     34814
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39471):
CCAAGGAAAGACATCCCCTATCTCTGTGGGTAAATGCAAGAAACTTAAAATCAGGGAAGTGGTTCTCATGATGGAGGAGAAGGAAGTCAGTAAAGAAAAC
Y
TGATCTCGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTA
Celera SNP ID:            hCV3104032
SNP Position Genomic:     115359
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39472):
AGAGCTTCCTCTATACAATAAAACTTGGTTTCCGCAATCCTTTATTTTAACCTGAACATTTCCTTTCTATTGATCCCAGATCTTCAGATAAACTCAACCA
R
TTGTCAACCAGAAAATGTTTACATTTACCTATAGCCTGGAAGCCCCCACCTTGACTTGTCCCTCCTTTCTGAACCAAACCAATGTATTTCTTAAATGTAT
Celera SNP ID:            hCV3104033
SNP Position Genomic:     113570
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39473):
ACAGAGAGGGGATGTCAAAACAGGCAAAGTCCATGGGAGAAAGGGAGGGGATTTGGAGCAGGTTTACAGAGATTGTCTTGGATTTAAGAAGGGACACCTT
R
TGTTTGGAGACTGATGGAAAGAGGTATGATTGGGTGTAGACAGAATCATTGTAAGGAGGTAGGTGGATTCAAGAGGCTAGTCCCTAGTGGCTACCTTTTC
Celera SNP ID:            hCV27896480
SNP Position Genomic:     39130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39474):
GGGACTTTCTATGGTAAAGACCTCTAGGCCTAGCACCTGCTTGTGGCGAAATTGTGAAAGTGGTCAGGCTACCTCTGGGAACCTTTTGTGGCCATACCCC
M
TCCTGTTCTCCTGAATGGTTCTAATTCTGATTGTGGGTTATCCCACAGAGGTGAGGACTAAGCTCTGATTTTTTGATCTTGCCCAAATTCTTATCTAAGG
Celera SNP ID:            hCV3104034
SNP Position Genomic:     113039
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39475):
AGAAGTAGTCCAGGTATGGTGGCTCATGTCTGTAATCTCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACTTGAGGACAGGAGTTGGAGACCAGCCTGG
M
CAACATGGCAAAACCCGTCTCTACTAAAAAATACAAAAAAAAATTAGCCAGGTGGGGTGGCCTGTACCTGTAACCCCAACTACTCAGGAGTTTGAGGCAA
Celera SNP ID:            hCV3104035
SNP Position Genomic:     107891
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,3)      total(A,3|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39476):
TCAGAGATGGATTTTAGAAGCTTAGGAAAAGCAATGGTTCACACTAAGTAAAGTAGAAATATTAGAACTGCTGTGGCAGATAGGAGTTCAAGTCTTGGAG
W
AGTAGTCCAGGTATGGTGGCTCATGTCTGTAATCTCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACTTGAGGACAGGAGTTGGAGACCAGCCTGGACA
Celera SNP ID:            hCV3104036
SNP Position Genomic:     107793
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39477):
GAGAGAAGGAGCTGGGCTGGACCCTGCTGATGGGGAACAAGCTGGGGCTGAACAGCTAGGTGGTCCTATGAGATTATCTGGGTACCAACCTGGGCTCTGA
K
AAAATCCACATTGGTCACTGTGTTGAGTATGTATTTCTTTGTATTTTATTCTTCTTCCATGGTGCCCAGATTTAATCAGCTCCTGCTAGACACTGCATCT
Celera SNP ID:            hCV3104037
SNP Position Genomic:     103507
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39478):
GAGGTATTGCTGTATTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGTGTTCCTCCTGCCTCAGCCTCCCACAGTGCTGGGATTACAGGTGTGAGCCAC
Y
ACACCTGGCCTAAACTTTTTAGGAAAAATATTGTACTCCAATGTTATAACATTCTGAGTTGGATTTGTTATTTATTTTTTTGAGACAGAGTTTCGCTGTT
Celera SNP ID:            hCV1935290
SNP Position Genomic:     252512
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39479):
AGCATTTATTGAACATCTGTGTGCAGAGCAGCCTTTTTCTTAAATAAGAGCCATATTTTCCCACCTCTGCATAAGAAGTCTGGCAATGTGTTAGAAATTT
R
CACTCTAAATTTTAAAATTAAACTAAGCCCTTTAAAATTTTTTTTCCTTTTTTCTTTTTGAGACAGTGTCTCACTCTGTTGCCTAGACTGGAGTCCAGTG
Celera SNP ID:            hCV1935291
SNP Position Genomic:     252169
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39480):
GTAGCCTCCCAAAATGCTGGGATTACAGGAAGTAAAATAACTTTTATTTTTAAACTTTTAAGAACATTGGCTGCATTGAGTATTTGGAGAAGTACTCTGG
W
ATTTGATTAGCTATATGTTCAAGGAATGGTATTAAGAATGAGTTTTCAGTAATTGTTCTTTTTGACTGATTATGATAAACCTCATATTTTATTTCACTTT
Celera SNP ID:            hCV1935292
SNP Position Genomic:     247274
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39481):
CTGTACCCAGTCAATCCCATTTATTTAATTAATCCATCTATTTGTCTCCTTATTTGGTGTTAATAATACAGTCATGTGGCTTGAAAATTTTAAATTCCAG
K
GAAAAGATGTCTTCTCTTCTACTCTTCCACAATTCTTCTGGTCTCTATCTGCCCACAGGTAACCACTACTGTTCATTTTTCTGTGTATCTCTCCAGAGAT
Celera SNP ID:            hCV921980
SNP Position Genomic:     89419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39482):
CTGTCTTGGCCTCTCAAAATGCTAGGATTACAGGTGTGGACCACTGTACCCAGTCAATCCCATTTATTTAATTAATCCATCTATTTGTCTCCTTATTTGG
K
GTTAATAATACAGTCATGTGGCTTGAAAATTTTAAATTCCAGTGAAAAGATGTCTTCTCTTCTACTCTTCCACAATTCTTCTGGTCTCTATCTGCCCACA
Celera SNP ID:            hCV921981
SNP Position Genomic:     89376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39483):
AAAAGTAAGCAAAAAAGAAAGAATACATTGTTTAGGAATTACACATATACAGTAAAATTATGCTGTGATTTCAGAATCCACATTGCAACTATCCTTTAAG
R
AAGTATCACTTAATGAGTTTTAGTGTGATATCAAAGAGGAATATCCACAATTATTTGAAAAAGCTGTTAAAATACTCCTCCTTGTCCCTCTACAGATCTG
Celera SNP ID:            hCV9708514
SNP Position Genomic:     175325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39484):
CTCCTGTCTTGGCCTCTCAAAATGCTAGGATTACAGGTGTGGACCACTGTACCCAGTCAATCCCATTTATTTAATTAATCCATCTATTTGTCTCCTTATT
K
GGTGTTAATAATACAGTCATGTGGCTTGAAAATTTTAAATTCCAGTGAAAAGATGTCTTCTCTTCTACTCTTCCACAATTCTTCTGGTCTCTATCTGCCC
Celera SNP ID:            hCV921982
SNP Position Genomic:     89373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39485):
CAATAATAACTTTGCACGTAAATGAATTAAACTTTCCACTTAAAAGATGTAGACTGGCTGAATGGATTTTTTAAAAGACCCAATTATTTACTGCCTATAA
Y
AAACAGATATCATGTGGAAAGACACATATAGACTGAAAGTAAAAAGATGGAAAAAGATATTCCAAGCAAACAAATCAAAAGTGAGCAGGAGTAGCTACAC
Celera SNP ID:            hCV9708516
SNP Position Genomic:     210895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39486):
ACAACTGGACATCCACATGCAGAAAATGAATCTAGAAACAGACTTTACACTCTTCCCCAAAATTAATTCAAAATAGATCATAGACTGAAATGTAAAATGT
R
AAATGTAAAACTACACTACTCCTAGAAGATAACATAGGAGAAAACCTAGGTGGCCTGGGCTATGGTCATGACTTTTTAGATACAACACCAAAGGCACAAT
Celera SNP ID:            hCV9708443
SNP Position Genomic:     124728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39487):
ATTATTAGTCCCATTTATTTACCTTTTTTGAAAAAAAAAAAAAAAAAAAAAAAGATGAGATCTCACTATGTTTCTCAGGCTGGTCTTGAGCTCCTAAGCT
M
AAGTGATCCTCCTGTCTTGGCCTCTCAAAATGCTAGGATTACAGGTGTGGACCACTGTACCCAGTCAATCCCATTTATTTAATTAATCCATCTATTTGTC
Celera SNP ID:            hCV921983
SNP Position Genomic:     89264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39488):
CTTTTACTAAAAAGCACCGTAATTACTAGTCATAACCCTTCACATCTGGTTGTCACTTAGTGTAGAAGTCTTTTCACTTCTGTTATCTCATTTGTTCTCC
M
CCATGAGAAAGGCATTATTAGTCCCATTTATTTACCTTTTTTGAAAAAAAAAAAAAAAAAAAAAAAGATGAGATCTCACTATGTTTCTCAGGCTGGTCTT
Celera SNP ID:            hCV921984
SNP Position Genomic:     89150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39489):
CTATGTCAGTTCTAAATTTGGATTCATCATCTGTCTCTAACATGTCCTCAAGTAGAGTGATATATTTCCTGGTGAAATAATGATGAGAAGCTATGTCTTA
Y
GTAATGTCTTTAGAGGAAGACCTTCAGGTCTCAGTGGTAACAGCTCCTCCCCTGTGGCTGCAGGCTATGGGATTGTAGCACCATCCTCTTGGTTTCCCTT
Celera SNP ID:            hCV921985
SNP Position Genomic:     87552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39490):
GTTCAAGGCTGCAGGGAGGTGTGATCGTAGCCAGGGCATTACACCTGGGTGACAGAGTGAGACCCCATCTCTAAATAAATAACTAAAATTTTAAACAGGA
R
ATTAAACATAGAATTATCATATGATTCAGCAATTCTACTCAAAAGAAGTGAAAGCAGGGACTTATGTATTTGCACACCCATGTTCATAGCAGCATTATTT
Celera SNP ID:            hCV921987
SNP Position Genomic:     86332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39491):
CAGGAGTTCAAGGCTGCAGGGAGGTGTGATCGTAGCCAGGGCATTACACCTGGGTGACAGAGTGAGACCCCATCTCTAAATAAATAACTAAAATTTTAAA
M
AGGAAATTAAACATAGAATTATCATATGATTCAGCAATTCTACTCAAAAGAAGTGAAAGCAGGGACTTATGTATTTGCACACCCATGTTCATAGCAGCAT
Celera SNP ID:            hCV921988
SNP Position Genomic:     86327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39492):
ACAAATAAATAAAAATAATATGTTCAATCAGTATTTCTCAATTTATAATCTTCAAAAAAGAAACAGTACCATTTATTCCCTCTTAAAAAAAAAAAAAAAA
M
GGAAATTGGCGATTTAAAAAAATCACCCTTGCAGCAGCCACTGTGGAAAACGGTGTGGTGATTCTTCAAGAAATTAAACATAGACCAGGCACAACAGTGC
Celera SNP ID:            hCV921989
SNP Position Genomic:     86073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39493):
TTTACAAAAAATTGGTTTTAAATTTGGGATCCAAATTTTAGCCATGTTTATCATTATTTATTTGATACTCTGTGTTTAAATGGTTTCCACATTTCCTGCA
K
GCTCCACTTACTATGGCTGCAAAACAAATTAGCCCCAAACAGTGGCCAGGTGCAATGGCTCGTGCCTGTAATCCCAGCACTTTAGGAGAGGCCGAGGAAG
Celera SNP ID:            hCV3104111
SNP Position Genomic:     29424
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39494):
AACCATAAGATTTTGACCACCACGTTTCAGCATCTTATCAGCTGAGAGTGATGACTAGCAAAGGCCTCTCTCCTGGTCTGGCTCACCAGGACTTTCTGCA
S
CTGTTGCACTGGGATGGGCTTCCAAGCTCACCCCCGAGGTTGCTGGCAGAATTCAGGTCCTGGGGAGCTGTTGGACTGAGCAGGCTCCTCTCAGGTCCTT
Celera SNP ID:            hCV3104040
SNP Position Genomic:     101698
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39495):
TCCCCTCCAAATCTCATGTTGAGATGTAATCCCCAATGTTGGAGGTGGGGTCTGGTGGGAGGTGTTTGAGTCATGGGGGTAAATCCCTTGATGCTTTCCC
R
GAGATAGTGAGTTCTCATGAGATCTGGTTGTTGTAAAGTGTGGCACCTCCCCCACGCTCTCTCTTGCTCGTGCTCTGCCATGTGAAACAGCAGCTCTCCC
Celera SNP ID:            hCV3104113
SNP Position Genomic:     28899
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39496):
TAATAATAATAATAAAAGATGTCACTTCTGGGGCTACGGAGGTGGGAGTGCACCGGCGGAGCGGGGCGGCGGAACACCGTGCAACAGGTGGGGGTGGGAG
S
CGCCCCGCGGGTTCTGGGGCTCCCAGGGTCAGAATCGGGCCTGCTCAAGTGGGCAGCAGCGAGCACTCAACCTCTCCACTGTGCCCTCCAGACACACTCA
Celera SNP ID:            hCV9710585
SNP Position Genomic:     7571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39497):
TGCAGATAAGGAGGTGCAGAGGGAGAAAGTGACAATGTCAAGGTTTCATTCATTTCAGGGCAGAAGGGTGAGTGGCAGCTAGGCTACCTGGTTCAAAACC
R
TAAGATTTTGACCACCACGTTTCAGCATCTTATCAGCTGAGAGTGATGACTAGCAAAGGCCTCTCTCCTGGTCTGGCTCACCAGGACTTTCTGCAGCTGT
Celera SNP ID:            hCV3104041
SNP Position Genomic:     101602
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39498):
TTAAGATGACCACAGATCAAACTTCCTTGATGTGCCATCTTCCAACTTAAATTCGAAAGCTACTTGAGACACAGAAAAAGACAAAAACTGAGAACCATTC
R
GAAAACTTAGTGGTCAGTTGTTGGCCAGAGTCCAAGATGGAAATTTCCCTAATAACCTGCCACTGGGGCTGGGGGAAGTCACATGGTAGGTGGCCTGTGC
Celera SNP ID:            hCV3104114
SNP Position Genomic:     27301
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39499):
AATAATAATAATAAAAGATGTCACTTCTGGGGCTACGGAGGTGGGAGTGCACCGGCGGAGCGGGGCGGCGGAACACCGTGCAACAGGTGGGGGTGGGAGC
S
GCCCCGCGGGTTCTGGGGCTCCCAGGGTCAGAATCGGGCCTGCTCAAGTGGGCAGCAGCGAGCACTCAACCTCTCCACTGTGCCCTCCAGACACACTCAG
Celera SNP ID:            hCV9710586
SNP Position Genomic:     7572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39500):
ATTTAATAGAATCTGAGGGGTGAGGGGCTGCCGAGAGGGCTGGGGGTGGGGACTTGGATCTCAATGAGAGGCACGCTGTTAAGGGGCTTCTGGCAGCGCC
W
CCACCATGCCATAGTTGGTTTCTGTCTCTGGTTCATTTGTTTTGTGCAAGATCAACTCGAATCAGGAATCCCAGGTTAGAAAGTCCACCATCCTCTCATT
Celera SNP ID:            hCV3104042
SNP Position Genomic:     101089
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,10)      total(A,2|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39501):
GCAGCGAGCACTCAACCTCTCCACTGTGCCCTCCAGACACACTCAGTTTTCCCCCACAGGGCACTCCCTCTCCGCGTTTAGGACCCTCCCTTGGGCCCGG
R
ATGGAGGAGGGGCATTACGTCACGGTCCTTAGCGCAGCGGTCCCGGGCTCTTTCCTCAAGAGCTCGAAGGCGCCGAGGGTTCATCCATGCCCATTTCCAC
Celera SNP ID:            hCV9710587
SNP Position Genomic:     7727
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39502):
CTCAGAGGGGCCGAGCTGCCCCTGGGTGACCCAGGCTCCAAGTGCTTACAGCACTTTGGGTGCATGGACTGTTGCCTCCATTGATAATTTACTGTTGTGG
K
CTTAGAGTGAGGCCCTGAAAACCCGCCATAAAGGTTTCTCTCACTCCTTCACCCTCATTAATTGCTCCCGCCTCCCTGTTCTTCCCACTCAGATGCCTAT
Celera SNP ID:            hCV3104115
SNP Position Genomic:     25768
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,8)   total(G,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39503):
CACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGTGCCCGG
Y
GAGAGGTGTTTTCTTAAGAGGAGGTCAAGGAGAGTATGAGGAATGCTTGGAGATTGTCAAGGCTTTGTGCCGGAGGTTCCGCTACTACCTACAACAGTCC
Celera SNP ID:            hCV3104043
SNP Position Genomic:     99449
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39504):
TCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTAGAGGTGTGTGCCACCATGGCCGGCTAATTTTTGTATGTTTAGT
R
GAGGTGGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGC
Celera SNP ID:            hCV3104044
SNP Position Genomic:     99336
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39505):
TGAAAATGTCCTCAACATCTTTAATCATCAGGGGAATACAAAACCACCTCACAATTAACACTGAGAAGTCTGATAATGCTGTTAACTAAAAACTCAATCA
W
TATATAAATTTGGAAAGGAGAGCTTTGTTTCTTATAAAGGGTTATAGCCAGCAAGGTGGCCATTCTGACAGGCTGGGAAGTGTTAGCCTTGGTCGAAGCC
Celera SNP ID:            hCV3104118
SNP Position Genomic:     21264
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,7)   total(A,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39506):
CTCTTTTAGTCCCATTTTCCGTGGCCCAATGGATGGCAGTGTGTTAACAGCTCTGTCAGCCCCGTTGACCCGCTCCAGCCCGTGGCTCGGCCTTGCTGCT
K
CTTCCTATTGTTTAGGGCAGCTGCCTTCTGCTGGCAGAGGGCAGAAGGCCACAGTGTTACAGCCTTCTTTGTACCTGCATTCAGTGGGTCCTGAGTTCTT
Celera SNP ID:            hCV3104046
SNP Position Genomic:     91493
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39507):
TTAACAAATTTTAAAAAGACATTAGAAAAGCTAGCAAAAGACTTGAACAGGTGCATCGCAAATTAGGAGCTCCAAATGGTGAATGTGAAAATGTCCTCAA
Y
ATCTTTAATCATCAGGGGAATACAAAACCACCTCACAATTAACACTGAGAAGTCTGATAATGCTGTTAACTAAAAACTCAATCAATATATAAATTTGGAA
Celera SNP ID:            hCV3104119
SNP Position Genomic:     21179
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39508):
CAATAGGGGAACGTAGTCCTCTCTGATACTGTGATACTTAAGGCAAGATTATAAGTATGAGGAGAAGTTAAGCTCCAAGATGGGAACAGAGTATGCCAGG
R
GAAAAGGCCAGTGCAGCTGGAATAGAGAGAGCCAAGAAGGGCTGGGTGCAGTGGCTCACCCTTGTAATCCCAGCACATTGGAAGGCCGAGGCGGGTAGAT
Celera SNP ID:            hCV16073077
SNP Position Genomic:     326220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39509):
TAAAAGACCCAATTATTTACTGCCTATAAGAAACAGATATCATGTGGAAAGACACATATAGACTGAAAGTAAAAAGATGGAAAAAGATATTCCAAGCAAA
Y
AAATCAAAAGTGAGCAGGAGTAGCTACACTTAGATAACATGAACTTGAAGTAAAAAACAATAAAAAGAGACAAGATATATTAGTCAGCATTCTCTAGAGG
Celera SNP ID:            hCV16073078
SNP Position Genomic:     210966
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39510):
AGTGGTGCACATCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTCAAGTCTGAGAGGTTGAGGCTGCAGTGAGCCGTGATTGCATCACT
R
CATTCCAGTCTAGGTGACAGAGCAAGACCCTATCTCCAAAAAAGAGTAAATCTGATGTTATATATATTTTGCTACCATAAAAACAAACAAGCAAACACCA
Celera SNP ID:            hCV3104047
SNP Position Genomic:     87114
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39511):
CACCTGTAACCCCAGCACTTTGGGAGGCCATAGTAGGAGGATTGCTTGAATCTAGGAGTTTGAGACCAGCCTGAGCAACATAGAAAGACCCAATCTCTAC
M
AAAAATTTAAAAATTAGCTGGGCATAGTGGTGCACATCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTCAAGTCTGAGAGGTTGAGGC
Celera SNP ID:            hCV3104048
SNP Position Genomic:     86988
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,9)   total(A,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39512):
TTCAGAATATAGACTTAAATACTCTTTACCTGTCCGGCAAGCTAGTTAACTAGCTATCATCTATTATCAATCTTATTAAAAATATCATTCAAAATCTCAA
Y
TATGTTTCCTCTATTTGATTCGCCATCGTCTGAGAGGTGAGTTAAAGCACCTTGTTGCAGTTGATTTCTGTGCTTAGTTGAGTATTGCATCCTGTAAATA
Celera SNP ID:            hCV3104049
SNP Position Genomic:     85162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39513):
TTGAGGCTGCAGTGAGCTATGATTGCATCACTGCACTCTAGCCTGTGTGACAGAGTTAGACCCTGTCTCCAGAAAACAAACAAATAAATAAAAATAATAT
R
TTCAATCAGTATTTCTCAATTTATAATCTTCAAAAAAGAAACAGTACCATTTATTCCCTCTTAAAAAAAAAAAAAAAAAGGAAATTGGCGATTTAAAAAA
Celera SNP ID:            hCV921990
SNP Position Genomic:     85994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39514):
TATACAGAGCACTTTTGAATTTGAATGCCCTAATTTCCCAACAATTCTCTCTCCCTGGCTTTTACTCCCAGGCTTTAGGAAAGTTATTCTATGTACCAAC
Y
GTACTCTTCGGCCCCAGGCAGTTGCAGTTTGTTTGTTTGCCTTACAATGTTTAAACAACGCCTGCTGCTTTTCTACAGTGGGTTACAGTGTGAAAACAGA
Celera SNP ID:            hCV9708523
SNP Position Genomic:     215624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39515):
GTTATAGTGCCATTTTAATTTACAGGAAGAAGAGTGGGAGAGAAGAAGTCCATCAGCATTTTAGTGGAGTAAATAATGAAATTAAATGGGAAGAGAAACC
R
TAATTATAAAAGTTACTATGAGTGTGTCAGTGAATTCTATTGTTATTTTCTGCCTCTTTATTTTCAAGAAATAGCTACTTAATTTTGATCCTTACGCTGT
Celera SNP ID:            hCV9708524
SNP Position Genomic:     230456
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39516):
AACCTAATAAGAATCCATTTCTACAAAAATTTAAAAATTATCTGGTTGTGATGGCATGTGCCTGTGGTGCCCAGCTACTCAGAAGGCTAAAGTAAGAGAA
Y
TGCTTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTATGATTGCATCACTGCACTCTAGCCTGTGTGACAGAGTTAGACCCTGTCTCCAGAAAACAAACAA
Celera SNP ID:            hCV921991
SNP Position Genomic:     85876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39517):
GATTATGCAGGCATTTGAAGAGTTTCCACTGTTGTCAGGCCCTAGTTGTAGATGCTGAGGGTAATATGGTTGTGTACCATGGAGAACCCTGGTTTGCTTA
R
AGAATCACTTGTGTAAACAGAAAATTACAATAAAGCAAAATAAATGCTAAAATACAGATGCGAAAAGTGGCCTTTGTAAAAATAGTGAGAGTAAAGATCA
Celera SNP ID:            hCV9708525
SNP Position Genomic:     257535
SNP Source:               dbSNP
Population(Allele,Count): SC_12_C(G,3|A,21)   SC_95_C(G,20|A,167)   total(G,23|A,188) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39518):
CCCATTTTACATTCAAAAGTGAGTTTATATCAGTTTTATTCAAGCCTATAACAGACAGGTTTAGTCTACTTCTGTCATATTTTTGTATTCTCAGCTTTGG
Y
TTCTATGTGATCTGTTTTTGTTTGTTGCTTTCAAATATGGAACGTATTCAAGCTGTTTTTTAGTTCTACTGGTAGATATCTTTGTGATTGTAAATAATAT
Celera SNP ID:            hCV921992
SNP Position Genomic:     85575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39519):
CTCTTCTAGACTCATCTGATGCCCGCTGGGGAAAGGTAACACTAAATACTGAGATTCATTCCCTAGGTTTTCTTCTGAATTTTGGTCCTATAATTTTTCA
Y
TGGCTTGTTAGCTCTTGAGTCCTTCAATCAGATGTTCTTCATATTCTGCCCAGATTTTCAAATTGTCCTTAGTAGAAAGTTTGGTCTGAGTTATCCAGTC
Celera SNP ID:            hCV921993
SNP Position Genomic:     84056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39520):
GATGGCTATGGGACAGATTCCCTGGGGGGAAGGCCCAGCACATAGCTGGCAAGTGGGAGTGATGCTGGTAGCACTAGAGGCTATAAATGGGTCCTTAAAG
W
AATAGATGTACACGCTGGACTGGGTTTTGCATACCCAGTGGTAGATGCAAATGCTCAGATACTATAAAAGAACTGGAACAGAAGATACTACACCAATTTG
Celera SNP ID:            hCV921994
SNP Position Genomic:     80362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39521):
TATCAAAAGAAGTCCCTTCAGGATAAGAAGGTCATTGGTGTCAGTGAGTGGATATCTTGATATGTTCACTTGAGGTGATCACCTGGGTCATGAAACAAGT
R
GACATTGTGGGGTGGGGGCTGTAGCAATGCAAAGATGGGCTAAATTTAGGCATATTCCTTTTGCACCCTCTGAGGTGCAAAATGCCAGTAAGTACAGTTC
Celera SNP ID:            hCV921995
SNP Position Genomic:     80134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39522):
TACTGACTCATGAGCAGTGGTCAATGTCCTGGCCTTATGGTCAGGCAGAAGAGCAATGGAAAAGTGGCCTCTTAAAGAGATGCCCATATGGGGCCCACCT
Y
TATGGAAACCACTAGGGGGAACTTGAGGGATGCATTAAAGTAGAACATGTTGATGCCCATCTTAGTGTTTGGGTCATAATTTATAAAGGTGACTGAGTAA
Celera SNP ID:            hCV921996
SNP Position Genomic:     79493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39523):
GTTGAAGTTCTGGGGGAATACAAATACTTGCTCAGTGTATTCATGAGCAGGTAGACTCTTTTGCTCTGGGACTGGCTTTGGAACCACTTAAGGAGCTGCC
R
GAACCTATTGTAACATGGACGGTGCCCTATGAATGCTCTCTATTGATCAACAAAGAACTTCTTAGTTTATGGATGGCAGTTCGAAAGTGAACGGACAGCA
Celera SNP ID:            hCV921997
SNP Position Genomic:     79204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39524):
TGCTGTTAATTCCACACACTGAGTTCTTATTTGTTGGTTGTGGTGTTTTTTTATATCTAGAATTTCCATTTGGTTAATTTTTATGGTTTCCAGTTATTTG
Y
TGAAGTTCTGGGGGAATACAAATACTTGCTCAGTGTATTCATGAGCAGGTAGACTCTTTTGCTCTGGGACTGGCTTTGGAACCACTTAAGGAGCTGCCAG
Celera SNP ID:            hCV921998
SNP Position Genomic:     79105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39525):
CTAACCCATGCAGAGATAAGGCAGCAAGCAAGCCCTTAGGTAGAGCGAGGCTGTAGGAGGAGTAGCCGTGGAGGCAGAGTGGCTTTGTTGCCTGATGGTG
R
AACCTCAGAGTCAGGGGCCACTGGGCAATGCTGCCAGCATGGAGCTACAGTAATTCCAAATGACTCCTAACCATGTCCTGCTGACTTCCATGACTGTTAG
Celera SNP ID:            hCV27934513
SNP Position Genomic:     131738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39526):
AAGAGATTAACAAATTTTAAAAAGACATTAGAAAAGCTAGCAAAAGACTTGAACAGGTGCATCGCAAATTAGGAGCTCCAAATGGTGAATGTGAAAATGT
M
CTCAACATCTTTAATCATCAGGGGAATACAAAACCACCTCACAATTAACACTGAGAAGTCTGATAATGCTGTTAACTAAAAACTCAATCAATATATAAAT
Celera SNP ID:            hCV3104120
SNP Position Genomic:     21173
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,6)   total(A,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39527):
ATTCAAGTTAATACACATTTTCAGTGTGGATCAAATGGTCCTGACGAAGGTGCAGTGGCAGGAAAGTGTTAATTATGCTCTTAGAATAAAATTGCCATGA
S
CATAGAAAGTGAAGAGATTAACAAATTTTAAAAAGACATTAGAAAAGCTAGCAAAAGACTTGAACAGGTGCATCGCAAATTAGGAGCTCCAAATGGTGAA
Celera SNP ID:            hCV3104121
SNP Position Genomic:     21061
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39528):
TCAGCATACCACCTAACACTCAGGAGCACTCAGTACATGGTACTCTTGGCTGTTGCTCATCTTCCGTTCTGCACAACAACAAGAAGGAGGAAGGGAAGTC
R
TATTTACTAATACCATACAGGGTTCTCAGGACCATGCTGGACATTTACACATGATTGCATTCAACTTTCATAATCCAGTGAGGGTGGTGTAGCAGCAGGT
Celera SNP ID:            hCV3104122
SNP Position Genomic:     20731
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39529):
TTGTCTAAATATTCTACAGTTACTGTTTTGATTTCTTCTTTGACTCAAAGCATTTAGGAGATTGTTTTTACATGTTCTATTTTTATTACTTTCAGTTTTG
K
TGCACTGTAGTCAGAATATGACTGCTTCTGTTTCAATTTTTTGTAAATTTTCTTTGTGGCCTGTTGTACTATCAAATTTTGAAATATCTCATGGGAACTT
Celera SNP ID:            hCV3104050
SNP Position Genomic:     84938
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39530):
GTCCATATTTATGTCTCATCAACTGTGACTAGGTGGGTCACCAGTCTCTTCCAGTTGCTGACCCTGTTTTCTCGTCTCTAAAATGGAAGTGATGATTTTT
Y
TACTTACCACACAGGGTTGTGAGGCTCCATTGAAATGCCACTGTAAATTGCTATACAACAAAAGACAGGAATATCAGTATTGTCAGACACCCATTGGAGC
Celera SNP ID:            hCV3104123
SNP Position Genomic:     18504
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39531):
ATTAGCCTCCTCAACTTAGATGCAATTTTTAAAAATGTATTTTAGTTTTGTATATACTTTAAACCTCATGAGATATTGTTGTGGTGGTGGTTGTTTTAGC
R
GTTAAGAGTCAATTTGACTATTTGATTCATCCCTATATTTGCTTATATTGTTGCTCTTTAATCTTTCCTGTATCTCTGTGCTTTCATCTGGTATCTTTCC
Celera SNP ID:            hCV922000
SNP Position Genomic:     77893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39532):
AAGCATCGCCTCCGGACAGGCCATCTCCGGGCAGGGCCCCTCTAGGGAGCGGGAACGTTTCATATGCATGGGACCCACCAGATCCGCTTTCCGCTGGACC
K
GTGGCGAAACTGAGGTCCAGAGAGGAAGAGACTGGAGTCTCCAGGCCGCGCCAGGGCCCGCGGAACTGCGACGGGGCGGGACAGCGCGGGTGTGGGAGTT
Celera SNP ID:            hCV9710597
SNP Position Genomic:     8863
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,15)      total(G,15|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39533):
CTCATCCAATGTTGTGGCGGTCACACAGGAACTGACTCAGCGAAAGCGGACAGCGTCTAATTTCTATAATTTCATCTCTGACCTGACCAATCAGCACTCC
Y
GACTTACTGCCCCCACCACCCGACCCACCAAATGAACCTTAAAAACTCTGATCCCCCAGTGCTCGAGGAGACCGATTTGAGTAATAATAGGATTTGAGTA
Celera SNP ID:            hCV922001
SNP Position Genomic:     75845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39534):
TCCTAAAGGGGGTATTCCTTCACTCCGTCATACTTTTCCAGGTCACTGGCACACAGGTCCACCCATTCGTAGCTACCCTGCTCTAAAGCCTTGATCCGTT
R
CAAACATGTGACTCCTGCCTTGAATTCAGAACACCAACAAAAGCAGAACTGGATCTGCATGCTCTTCCCATGAATTCTAAACAGCCTCATCTCCTCTCTC
Celera SNP ID:            hCV9710598
SNP Position Genomic:     10494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39535):
GGGGAAGAACAGAAATCCAGCCAACAAAGATTGTCCTCTAACGCCTTACATCGAAGGCCCAGAGCCAAGGAAGAGGCGGAGATGTCCCGCAGTCCCCTAT
K
CTCGGCTGTTACCTGGAAAGGATCATTTCACTTCCACTGAAGAGAAAAGGAATGAGTCCTGAATGGAATGCTGCCCGGCAGCTCCCAGCGCCCGCTGGTA
Celera SNP ID:            hCV9710599
SNP Position Genomic:     11774
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;PUTATIVE UTR 5


Context             (SEQ ID NO:39536):
TAATTCCTAAGCAAGAAACCATAACCATACTTTTAAACCTTTATGTCAGAATTCCTAAGGGCCTCAGGGAGCAGGTTGTATCTTGATCCCAGGTAGCAAA
R
CTGGGGTTAATAGTGGATGTAGCTACGTTGCTTAATGGTAGAAATAGCTGAGTTCTGTACCTTTTATAACCCTATCCTAGATGAGATGAGATGAATGACA
Celera SNP ID:            hCV3104053
SNP Position Genomic:     81160
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39537):
TCTCAACTTCTTTTTCCTACCTAATGCAGTGGTCCCAGGCACAGGGCTGTAACAAGTGCTGGAAGCAAAGATAATTCCTAAGCAAGAAACCATAACCATA
M
TTTTAAACCTTTATGTCAGAATTCCTAAGGGCCTCAGGGAGCAGGTTGTATCTTGATCCCAGGTAGCAAAGCTGGGGTTAATAGTGGATGTAGCTACGTT
Celera SNP ID:            hCV3104054
SNP Position Genomic:     81089
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39538):
TTGCTCTGGTTCCAGTGCTTCTAACAGTTTGGCATTTTACTGTCTTTCAATAAGCAGACATTATAAATCTTAATAGAGTCCAATTTATTATTTTCCCTTA
Y
ATAGTTGGCCCATTTTTGGGGTCTTGTTTAAGAAACTTTTGCATACTACAAAGTTGTGAAGATATTTTCTTATGTTTCCTTCAAAAAGCTCTATTGTTTT
Celera SNP ID:            hCV922006
SNP Position Genomic:     74026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39539):
TTACATGTCATTCTAATTATTGCTCCTTTGAAGGAAATCTGCTTTCCTAAGATATTCATTGTGTTTGAGTTTATGATTTGTCTGGAAGTGGTTTTCTTTT
Y
TTTTTTTTTCATTCTGTTGGGCATTTGTAAGAATTATTGCATATGTGGCTTGATGTCTTTAATCAGTTTTGGAAAATTCTCAGGCATTATCTCTTCAAAT
Celera SNP ID:            hCV3104056
SNP Position Genomic:     78722
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39540):
CAAGCAGCCTGGGCACCATGGATGGTGGCAGGAGGCAGATCGGCTCCTGGGTGGAAGAGGACAGGTTACTGGTGAAGCCCCACCTTCAGGCCAGGCTGCT
R
GTACTGCTGACTGGAGTGGGAACTTGTGGTGCCTTTTCCAGGCCCTCCCATGGCCGCCCACAGACCAATTGGCAGCACTTCCTCCCATCTGAGGCCCATA
Celera SNP ID:            hCV16073088
SNP Position Genomic:     218948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39541):
GGAGTTGCTCTGGTTCCAGTGCTTCTAACAGTTTGGCATTTTACTGTCTTTCAATAAGCAGACATTATAAATCTTAATAGAGTCCAATTTATTATTTTCC
Y
TTACATAGTTGGCCCATTTTTGGGGTCTTGTTTAAGAAACTTTTGCATACTACAAAGTTGTGAAGATATTTTCTTATGTTTCCTTCAAAAAGCTCTATTG
Celera SNP ID:            hCV922007
SNP Position Genomic:     74022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39542):
CGCTTTGGTTGCCGGGTTAATTTCACCAAAACACTCCTTTCATTCTGTCACTCCTATCTATAAAAACTTTGAATGGCTTTCTATCGAAAACTGGATAAAG
W
CTTAGTTCTCAGTCTAGTATTCAAGATTTTCTATTGTCTGGCCCCATTCCACTTTGTGTGTGTGTTTTGTCTCTTCAGCTGTATAGCAAAAGCCCTTAAC
Celera SNP ID:            hCV16073089
SNP Position Genomic:     234682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39543):
TCATCCTCATTTTTATCTAGGCACTATTCAAGATGGAGTTGCTCTGGTTCCAGTGCTTCTAACAGTTTGGCATTTTACTGTCTTTCAATAAGCAGACATT
R
TAAATCTTAATAGAGTCCAATTTATTATTTTCCCTTACATAGTTGGCCCATTTTTGGGGTCTTGTTTAAGAAACTTTTGCATACTACAAAGTTGTGAAGA
Celera SNP ID:            hCV922008
SNP Position Genomic:     73988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39544):
TATAGCCAGTCTGTCTGAAGCATGGGTCACAGCCTGGAATTTGTTCTTGGCATCTGAATTGGGGGCAGTCTTGTGGGAGTGAACCTTTCACCTGTGGGAT
S
TGACGCTATCTCTAGGTAGATTATGTCAGAATTGAATTGAAATACAGGACACGAAGATGGTGTCTGCTGGAAAATTCCTTGGTGTGTGTGGGGAAAACCC
Celera SNP ID:            hCV3104058
SNP Position Genomic:     76300
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,10)   total(G,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39545):
GCGGACAGCGTCTAATTTCTATAATTTCATCTCTGACCTGACCAATCAGCACTCCCGACTTACTGCCCCCACCACCCGACCCACCAAATGAACCTTAAAA
W
CTCTGATCCCCCAGTGCTCGAGGAGACCGATTTGAGTAATAATAGGATTTGAGTAACAACAGCCGGCTGTGCATGAATTACTTTCTCTATTGCAAATCTC
Celera SNP ID:            hCV3104059
SNP Position Genomic:     75890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,10)      total(A,10|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39546):
TTTTTTTCATTCTGTTAATGTGGTGTATTATATTGAATTTCATACACTGAACCATCCTTGCATTCCAGGAATAAACCCCACTTGATCATTATGTAAAACC
S
TTTTCATATGCTATTGAATTTGAAGTGTAGATATTCTTTTCTTGTTCCTTAAGAAAAGCATCTTGTCTTTCACCATTAAGTATAATGTTAGCTGTGGATT
Celera SNP ID:            hCV9708532
SNP Position Genomic:     270042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39547):
ACCTAGGTGCAAAACTGGCCCAGGCCAAATTCTAATAGACACTTGCCTTTGGCAGTCTCCCAGTTGTCTCTCTTCATGTTTCCCCCACCTTTGTCTGCCC
S
CTCCTTAGTTGTGTGTTGAGCTCCTCACTGTGCCATTTTCCTCAGGTCTGTAGACATGCCTCTTCTTATACCCCACAAAATCCCCTCCAGTTTCCTCCTA
Celera SNP ID:            hCV9708533
SNP Position Genomic:     279378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39548):
TCTTCATGTTTCCCCCACCTTTGTCTGCCCCCTCCTTAGTTGTGTGTTGAGCTCCTCACTGTGCCATTTTCCTCAGGTCTGTAGACATGCCTCTTCTTAT
R
CCCCACAAAATCCCCTCCAGTTTCCTCCTAATATTATCTATAAAGCAGAAGAAAATAGCCTGATCTGTAGAGTGAAGGGGGATTAGGCTCTAACGTCAGT
Celera SNP ID:            hCV9708534
SNP Position Genomic:     279448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39549):
CTTGGTTAATTGTCCCTTTCCTTTTTTTTTTTTTTTCCTTGAGAAGGGGTCTCATTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTTACTG
Y
AACCTCTGCCTCCCGGGTTCAAGCAATTCTTTTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCGTCCCACCATGCCTGGCTAATTCTTGTATTTT
Celera SNP ID:            hCV273383
SNP Position Genomic:     164420
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39550):
TTAGTAGAGACGAGGTTTCACCATGTTGGCCAAGCTGGTGTCGAACTCCTGACCTTGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGAGATTACCGGC
W
TGAGCCCCTGCAGCCTGGCCTAATTGCCCCTTTTCTACCAGCTCTTCTTACAACAGAGAAATCCTGAGCCTCGCTTGTAATTATAGTGAGGAAATATTTC
Celera SNP ID:            hCV273385
SNP Position Genomic:     164620
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,7)   total(A,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39551):
AGTGGCTTTAAGATGATAGAGGTTTATTTCTCTTTCACATGAAACAAGTTGTCTTTTAAGGACTTGTCTGGTAGCTCCATTGTGGCAGACAGCCAGGCTC
K
TTTATCCTTTAGGGCCACAATTCATGGTCCAAGATGCTTGCTAGAGCTCCAAGTTCCAAGCAGGAAAGGCAAGGGGGAGGCCATTACTGCCCCGAGTAAA
Celera SNP ID:            hCV27961997
SNP Position Genomic:     20521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39552):
TTCTCCTGTAAGTCTACTCCAGTCATGCTTTTGCTTCATTCAATCCACTGAAACTTCTCTTGTCAAGAACACCTGTGATGCCAAACCCCATGATCTGTTC
Y
TAGTCTCCAGGTTCCTTGATCTATTAGTACTTGACACAGTTGATGAGGTTCTCCTGCTTGTGCACTTTGTCACTTGACTTCCAGGATTCCACACTCTCTT
Celera SNP ID:            hCV16073090
SNP Position Genomic:     281085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39553):
GAAACCTCATCTCTACTAAAAATTCAAAACTTAACCAGGTGTGGTGGCACATGTCTGTAGTCCCAGCTGCTTGGGAAGCTGAGGCAGAATAGCTTGAACC
Y
GGGGGCAAAGGCTGCAGTGAGCTGAGATGGTGCCACTGCACTCCAAGCTGGGCGACAGAAAGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGGAG
Celera SNP ID:            hCV922010
SNP Position Genomic:     69819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39554):
TAAAGTAAGCCTGTGTGAATATGTCTTTTCTCCTTTTTGTTTCTATTTTTGCTTTATGTACTTTGAGGCTAAATATTGAGTATAAATAAAGTTAGATGTA
Y
TTTATCTTTCTAGAATCAAATTTTTTTCATTATGGAATGTTCCTCTTTATTTAGTAATGCTTTTTTGCTTTGAAGACAATTTTGTCAGTTTTAACTTTCA
Celera SNP ID:            hCV922011
SNP Position Genomic:     68281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39555):
AGTGCTTGAGATATTTTGCAGACCTTGCACTTGATGGATCAGCTGGCACCACCCAGATCGATAAACTGGCTCATCCAATGTTGTGGCGGTCACACAGGAA
S
TGACTCAGCGAAAGCGGACAGCGTCTAATTTCTATAATTTCATCTCTGACCTGACCAATCAGCACTCCCGACTTACTGCCCCCACCACCCGACCCACCAA
Celera SNP ID:            hCV3104061
SNP Position Genomic:     75776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39556):
ATATCTAGTTGACCTAGTACCATGTACTGAAAAGACTTTCCTTTCCCTACTGCAGTACAGTGCCACCTTTGTGGTATATCATATGACAACAAGTTCATGT
R
TCTGATTCTGGGCTTTCAATCTGTTCTGTGGTCTATTTGTTTGTTCTTGTTCCAATACTACACTGTTTTAATTACCATGGCTTCATGAGTCTTGTTAATT
Celera SNP ID:            hCV922012
SNP Position Genomic:     66275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39557):
CGTGAGCCACCACACCTGGCTAATTTAACAGACTTTAATTGAGCAAAGAATGAGAACCTGGCAGCCTCTTAACAAGAATAACTCCAGAAAGGTTCCAGTG
Y
GGCCTTGAGGTGGAAGATTTATGGACAGAGAAAGGAAAGTGACATATAGAAAACCGAAGTAGGGTACAGAAACAGCTGGATTGGTTACAGCTCAGTAAGT
Celera SNP ID:            hCV3104062
SNP Position Genomic:     74668
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39558):
CGCCTGGCCTGTTGGATCCTTTTATCTTTTTCTTATTGCTTTATAAATGATTTATATATTCTGGCTACAAGCCCTTTGTCAGTTCTATGTGTTGTAAATA
S
CTTCTCCCATTTCATGACTTGCATTTTCACTATCTTAATGCTGTCTTGAAAAACAGAAGCTCCAATTTACCAATCTTTTCCTTTATAATTAGGGCTTTTG
Celera SNP ID:            hCV922013
SNP Position Genomic:     65905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39559):
GAGGCCTCAGGAAACTTACAGTCATGGTGGAAGGCAAAAGAGAAGCAAGGTATGTCTTACATGGTGGCAGGAGAGAGAAAACGAGCAGGGAACTGCCACA
Y
ACTTTTAAACCATCAGATCCAGATCTCTTGAGAACTCAATCACTATCATGAGAACAGCATGGGGGAAACCACCCTCATGATGCAATCACCTCCCACCAGC
Celera SNP ID:            hCV922015
SNP Position Genomic:     62702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39560):
CTTCTAACTGGTTGATATCAGCTGTTTTACTAGAACTTCAGGCAATCCTTAAACAAAAGCCTTATGATTCTAATGTCAGAGATCCTGTCATAGGAACAGT
R
GAGATGCAAATAAATTATTAAACAGTTTTATGACCCTACTGTCAGAAATCCTGTCTATAGGAAGAACGGGGATATAAATGGTCAGGAGCTAGTGCTACGT
Celera SNP ID:            hCV3104065
SNP Position Genomic:     72746
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39561):
CAGAAAAGTATAATGAAGAAACCATTTAAAATCCTCTAAAATCCACTTGCCCAGAGAGTACTATTAACTTGATGGAGACACCCTGCTAGACAGCTTTCTA
Y
CCCCAAACATAGGGAATAAATGGGCTCCTTCAGTTGAAAACCACAGAGATCCACTGAAGCTGACTTATGTACCAGATACTTTGTTTCGAGGACTTAGGGG
Celera SNP ID:            hCV922016
SNP Position Genomic:     62095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39562):
TCACTATATTGCCCAGGCTGATCTTGAACTCCTGGCCTCATGCAATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGGCTTCAGTCACCACGTC
Y
GGCCTATTTAATAATTTATATGATTATTGTGAAGTGCTTGTTCAAATCTTTTGTCCAGTATTCCATTGTTTCGTCATTCTGTTATTGATTTGTGGGAGTT
Celera SNP ID:            hCV3104066
SNP Position Genomic:     71979
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39563):
GGTCATATGTGTAATGTTACCCTCAAAACACTTTAGTTTGGCTCCTGCTGGGGGATAATGCAAAGCACAGTAGTACTAACTCTTTATGTTGTTTTCTCTG
Y
GCCAGGCACTGTTCTGGACCCTGGGAGTAGCAGGGTTGGAATTTGAACGCAGGGGTCTGGTTCTAACCACCCTGCCTCTCTGTACAAGTAATCCCAGTGC
Celera SNP ID:            hCV922017
SNP Position Genomic:     60803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39564):
ATTCACTATATTGCCCAGGCTGATCTTGAACTCCTGGCCTCATGCAATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGGCTTCAGTCACCACG
Y
CCGGCCTATTTAATAATTTATATGATTATTGTGAAGTGCTTGTTCAAATCTTTTGTCCAGTATTCCATTGTTTCGTCATTCTGTTATTGATTTGTGGGAG
Celera SNP ID:            hCV3104067
SNP Position Genomic:     71977
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39565):
TTATCAAATACTAAATCCTATGTATAGTTTTTTTAATTAAAAAAATATTAATTTATAGAGACAAGGTCTCACTATGTTGCCCAGATTGGTCTTGAACTCC
Y
GAGCTCAAGCAATCCTCTTGCCTTGGCCTCCTAAAGTGCTAGGGTTACAAGCGTGAGCCACTGTGCCTGGTCATATGTGTAATGTTACCCTCAAAACACT
Celera SNP ID:            hCV922018
SNP Position Genomic:     60634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39566):
GGATTCACTATATTGCCCAGGCTGATCTTGAACTCCTGGCCTCATGCAATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGGCTTCAGTCACCA
Y
GTCCGGCCTATTTAATAATTTATATGATTATTGTGAAGTGCTTGTTCAAATCTTTTGTCCAGTATTCCATTGTTTCGTCATTCTGTTATTGATTTGTGGG
Celera SNP ID:            hCV3104068
SNP Position Genomic:     71975
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39567):
ACACTAGCAGTGAGGCAGTTTCTGTAGAGGTTGAGTGGCGGCTCTTCACCGACTAACTGGGTTTGCGTCCCCCGCCTTTTTGTTTTCCTTTTTTAAAATA
Y
ATTTTTTAAATATCATGGAGTGTCACTATGTTGCCCAGGTTAGTGTCGAACTCCTGAGCTCAAGGGATCCTCCCACTTTGGCTTCCCAAAGTGCTGGGTT
Celera SNP ID:            hCV922019
SNP Position Genomic:     57119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39568):
AGACAGAAGTTTCCACTTCGGCCTCTGATTGACTGGTCCAAGCCTCCACTTTAGCCTCTGAATAGTCACAGGGCAATCCTTTATAGGTTGTAACCAATTG
R
AGGCCTCTAAAAGCACCTAGGGGTGTTGCCAAAGTCCTTTGGCTTCATAAAAACCCCGGGGAGCATTGCGGTGAAGAAGCGCTTGAGCTGCTTGTTTGAG
Celera SNP ID:            hCV3104069
SNP Position Genomic:     69073
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39569):
AGTCTACTGGACTAAAATCTTGATAGAGATACATCCTCTAAGAAGCAAAGAAGTTAGTTACTTGCATTGCCTGACAGAGGGAAATGTTAGCTGGTTTTCT
R
CATTCTGGGCCTTAGTTATTGGCATTGCCAGGTTGATGTTTCACAATTAAGACAACTTTTTCTGTTAGTGACTGCTCCTTGGTGATAGATTCTTTAAGAA
Celera SNP ID:            hCV9708541
SNP Position Genomic:     310289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39570):
AGGAGTCGGCCTGCCTATCAAAGGAGGTGAGAGCTAAGTTGTTGCTGCCTTTCCGCTTCAGGATGAATGGATTCCACCCCATTGAACTGGAGTGACCTGG
Y
GCCTGGATTCTTTCATCTCTAAAATGGGAAAAATAATTGTTGCACATATATGGTGTTGAAATTATGGCCCTCAATTGGTGATAATTATCATTACTTAGTA
Celera SNP ID:            hCV922020
SNP Position Genomic:     56835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39571):
ATATAACAATTAGCCAGGTGTGGTGGCACATGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATTACATGAGCCTGAAGGTCGAGGTTGCAA
Y
GAGCTGTGATTGGGCCACTGCACTCCAGCCTGGGTGACAGGGCAAGACCCTGTCTCAAAAAAGAAAAAAGAAAAAAAGAAAATCTCCACAATAACAGCCT
Celera SNP ID:            hCV3104071
SNP Position Genomic:     66702
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39572):
GAGAAAAACCAGCCCCTGCTTTAAAGGGCCACAAAAAAGCAACGTCCTCAGGCACAACCAGATTTTAGTGAAAGCAGGAAGGGGAAATGAATGTTTGGAG
R
AGAGGTTGAGGATTGAGGACATTTTCCTGAGGGTGGACCATGAATTTCAGGGTCACAGTGGAAGAATGGAGGAAGTAGGGAAGGGTGGGAAACTGGTTAG
Celera SNP ID:            hCV3104073
SNP Position Genomic:     64762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39573):
GTTGGAAAATGTATTTCTCAAACCATCAAATTCATGAAGGAAACAGTCTCTTTTGATTTTCCCTATTGAAATATAACTTCACCAGACCAATCTGGTTCAA
Y
TGTAACAAAGGTTAAGTAACCTGAGCATACCCAGTGTGCATGAACCAAGCGTGCAATCACCAGAGGAACCTAAGTGCTCAAACCCAAGGAGCGGGGAGTG
Celera SNP ID:            hCV922023
SNP Position Genomic:     51838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39574):
TATTTCTTTTTCTTTTTACCTTTCCTTTTTTCTTCCCTGGGATGGATCCTGAGCAACTAGAACACTTATATATTGCTGATGGAAATGCAAAATGGGACAT
Y
GGTTTGGCAATTTCCGATAAAGTTAAATATATACTGATGTATATATCTCATTGTTTTAATATGCAATTCCTTAATGACAAATAATGTTGAGCATTTTGTT
Celera SNP ID:            hCV922024
SNP Position Genomic:     47516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39575):
AATCTTCAGGGAGTAAGGGAGATTATCCAGGAGGCTTCAATGAGAACAGTGAGTGGTATAGCCTAAGGACACGAACTTCAAGGGAACAGAATTTTGTAGA
R
AAAAGGAAGGATAATTAGTCTAGAAAAGGCAGTGTACAGCCAGGAGGGTACCTACCCCTCCTCCAGGTCTGTAGTATATGGGGTGTAGGAGAAAAACCAG
Celera SNP ID:            hCV3104074
SNP Position Genomic:     64573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,9)      total(G,9|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39576):
TGGGATTACAGGCGTGAGCCACTGTTCCCAGCCTATTTTGTTAATTTGTGATTTGTTACACAATAGATAAGTAATACAGAACCTGAAAATCTAGGATGTT
R
GATGGGTTTTTGATACCGGAGTTGGTTGAAATCACAAAATGGTGAGTACTGCTGATGGTGAGAGAGGCTAAGAGCCAGCATCTAAAATCTTCAGGGAGTA
Celera SNP ID:            hCV3104075
SNP Position Genomic:     64387
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,14)   total(G,14|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39577):
GTTCTGAGGCCTAGAGTTGTGGCTGCGGGGAAGGAGGGAGAAGTCTTGGGAACTGAGCCCTCAACCTGTGGGATCTGACACTATCTCCAGGTAGATAGTA
W
CAGATATGAATTGGAAGACACCAGCCAGGTGTCTGCTGCTTGGTGGTGGGGGAAACCCACACACATCTGGTCACAGGAGGTTCTGTGTTGATGATTGTTG
Celera SNP ID:            hCV922026
SNP Position Genomic:     42173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39578):
CATCATGTTGGCCAGGCTGGTCTCGTACTCCTAACCTCAAGTGATCAACCTGTCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTTCCC
A
GCCTATTTTGTTAATTTGTGATTTGTTACACAATAGATAAGTAATACAGAACCTGAAAATCTAGGATGTTGGATGGGTTTTTGATACCGGAGTTGGTTGA
Celera SNP ID:            hCV3104076
SNP Position Genomic:     64316
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,14)   total(A,14|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39579):
AACATATTAGTGGTGTAAAATCAGCCCTTTAAAGAACTTTTAAAAGCTCTGTCATTTTATAAGAAAAAGTACACAAATATAACCAATCTAATTTTTTAAA
R
CATAAAGCTTTATTTAAATTAAAATTTTTTAAACAAGTTTAACATTTTTCCATGTCTTTCTAATACAATAGATAACATCAGGAAAGGAACAAGTATGCAC
Celera SNP ID:            hCV922027
SNP Position Genomic:     49963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39580):
TTTGTTGTTGTCATTGTTGAAACAGAGTCTTGCTGTCATCCAGGCTGGAGTGCAGTGGTGCGACCTTAGCTTACTGCAACCTCCACTTCCTGGGTTCAAG
Y
GATTCCCCTGCCTAAGCCTCCCTGCTTCAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAATTTTTTTTGTTTTGTTTTGTTTGTTTGTTTGTTT
Celera SNP ID:            hCV3104077
SNP Position Genomic:     64099
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39581):
GTTTGTTGTTGTCATTGTTGAAACAGAGTCTTGCTGTCATCCAGGCTGGAGTGCAGTGGTGCGACCTTAGCTTACTGCAACCTCCACTTCCTGGGTTCAA
R
TGATTCCCCTGCCTAAGCCTCCCTGCTTCAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAATTTTTTTTGTTTTGTTTTGTTTGTTTGTTTGTT
Celera SNP ID:            hCV3104078
SNP Position Genomic:     64098
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39582):
GTCAGGCATGTGAGGGAGCCACGTTGGAAGCTAATCCTCCAGCCCCAGTCAAGCCTTCGGATGATTGTGGCAGCCCCAGGAGATAGGCTACAGCAGCATC
R
GAGACTCTCAGCCAGAGTCATCTGTCTCTGGCTCCCCAAAGCCTGCCCATAGAAACTGTATGAGATCATAAGTGCTTATTGAGTTGTTTTGTTAATTTGG
Celera SNP ID:            hCV3104079
SNP Position Genomic:     63892
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39583):
CTACTAGCCCATGTATTTTTTATTTCAATAATTATATATTTTATTACAAAATTTCTGTTTCTTGTTTACAACCAGCTATTCCTGTATCATGAATAAAATA
C
TTTCTTATCTCTCTGATGATTTATAATCACATTTATTTTTAAGTCTAGTTCTGGTTTTCCCTATTAACTCTCTTTCTTCAGGTGTGCATTTGTCCATCTG
Celera SNP ID:            hCV26911508
SNP Position Genomic:     152080
SNP Source:               Celera
Population(Allele,Count): no_pop(-,8|C,8)   total(C,8|-,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39584):
TACTAGCCCATGTATTTTTTATTTCAATAATTATATATTTTATTACAAAATTTCTGTTTCTTGTTTACAACCAGCTATTCCTGTATCATGAATAAAATAC
T
TTCTTATCTCTCTGATGATTTATAATCACATTTATTTTTAAGTCTAGTTCTGGTTTTCCCTATTAACTCTCTTTCTTCAGGTGTGCATTTGTCCATCTGC
Celera SNP ID:            hCV26911509
SNP Position Genomic:     152081
SNP Source:               Celera
Population(Allele,Count): no_pop(-,8|T,8)   total(T,8|-,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39585):
GCCAGGAGTGGTTATTGTGTTAGAATCTAAAGGGATAATTAAGAAAGTGAGAAGATAAGTGAAGGGATAGGTAGTGAAAACATTAGGAACTCTGGCTGGG
R
TTGAAGAGTTATTGAGTCAGGATACTAGAGTGAGAGAGCTGGAAATATTGGAAGGGTTGGCCAAAGAGTGAGGTGGGGTGCTAAAAATGATGATTTTAAG
Celera SNP ID:            hCV3104080
SNP Position Genomic:     63332
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39586):
GGAGAAAGGTCACTGGTACAGATGCAGGTAGGCTGTTTCCTTTGGTGGTGGGAAGATGAGGTGGCTCTCCTGGATGCTGCTTTTATTTCAAAGGAATGGG
Y
GAGGTTGTCAGGTGTGAAGCTGAGAGTGGATTGGGGATGGGATGGGATGTTTTCTAAAAAACAAGAAGATATGAAATAATTTGTGTTTGAGAGTAGAGAC
Celera SNP ID:            hCV3104081
SNP Position Genomic:     62976
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39587):
ACCATTTAAAATCCTCTAAAATCCACTTGCCCAGAGAGTACTATTAACTTGATGGAGACACCCTGCTAGACAGCTTTCTATCCCCAAACATAGGGAATAA
R
TGGGCTCCTTCAGTTGAAAACCACAGAGATCCACTGAAGCTGACTTATGTACCAGATACTTTGTTTCGAGGACTTAGGGGTGTCTCCTGGAACTGCACAC
Celera SNP ID:            hCV3104082
SNP Position Genomic:     62115
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39588):
GTCTTGGTATTATATGTTTTAAATACCATCGGAAGCTAATATGGAAGGGACACAGGGAGCAAGGAGCAAGTGGCTAAAGATGAAGTTGCAGAGTAGATAC
R
GGCCAGTTTCTAAGAACTTTCTAACCTAAAAGAACTTCCTGAAAGTGGCTGAATAGCCTGGAGGTAAGGACAAGAACATCCACTCCACGTGCAGCTGTGA
Celera SNP ID:            hCV3104083
SNP Position Genomic:     61468
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39589):
TGGGGGATAATGCAAAGCACAGTAGTACTAACTCTTTATGTTGTTTTCTCTGCGCCAGGCACTGTTCTGGACCCTGGGAGTAGCAGGGTTGGAATTTGAA
Y
GCAGGGGTCTGGTTCTAACCACCCTGCCTCTCTGTACAAGTAATCCCAGTGCAAAAGACAAAGCAAGATGTGTTCTAATAAAGGGGAGATGAAGAACTAT
Celera SNP ID:            hCV3104084
SNP Position Genomic:     60851
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,11)      total(C,11|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39590):
TACAGGTGTGAGCCACAATGCCCGGCCTTTTTATTTTTTATTAGAGACAAGTCCTCACTATATTGCCTAGGCTGATCTTGAACTCCTGGGCTCAAGGGAT
Y
CTCCCACCTTGGCCTCCCAAAGTGCTGGAATTACAGGCATGAGCCACTGCACTTAGCGCTCTTATTTATTGTCTATTGAGCATCTACTTTGTGTCCTGAG
Celera SNP ID:            hCV3104085
SNP Position Genomic:     60418
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39591):
GAGCTCAGGCAATCTGCTGGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACAATGCCCGGCCTTTTTATTTTTTATTAGAGACAAGTCCT
Y
ACTATATTGCCTAGGCTGATCTTGAACTCCTGGGCTCAAGGGATCCTCCCACCTTGGCCTCCCAAAGTGCTGGAATTACAGGCATGAGCCACTGCACTTA
Celera SNP ID:            hCV3104086
SNP Position Genomic:     60373
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39592):
CTGCAACCTCAACCTCAAGCAATCGTCCTGCCTCAGCATCCTGCATACAGGTGCACACCACCACGCCTGGGGGTTTCGCCGTGTTCCCCAGGCTGGTCTT
K
AACTCCTGAGCTTAACAAAATGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCCCTGTGCCCAGCTAAATTTTTATTTTTATT
Celera SNP ID:            hCV3104087
SNP Position Genomic:     59630
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,11)      total(G,11|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39593):
GTTTAGAACCTAGAGCAATACAAACTCATAATAAAATTTAGCTCTTTTTATTATTTATTTATTTTTTTAGAGACAGGATCTCACTCTTTTGCCCAGGCTG
K
AGTGCAGTGGGGCAATCATGGTTCCCTGCAACCTCAACCTCAAGCAATCGTCCTGCCTCAGCATCCTGCATACAGGTGCACACCACCACGCCTGGGGGTT
Celera SNP ID:            hCV3104088
SNP Position Genomic:     59504
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,8)      total(G,3|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39594):
CCCCATCCCTGGAACAAAGTACACTTCTGCCGCAGGAACATTCCAGCAAACTGAAGGCATCGCGGGCGCGGCCGCCGCCCCCGCCTCCCCACAGCTGCAC
R
GAGCGTCCACGGCCCCAGGCCGAGCCCCACTGTGCCCCGCTTCCGACCCCGCCCGCCCTGCCGGCTCCCCGTCGCCCGCCGCGTGTGCAGACGCAATCGC
Celera SNP ID:            hCV3104089
SNP Position Genomic:     57884
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39595):
CGTCATCTGTGAAAATGAGAATAAAAGCTAACATTCATTAGGCTTATATGTGCCTGCCACTGTGATAAGTGTTTTTATATGTGTTAGTTGAATTAAGCTC
R
CTACAGTCCTATAAGGAGGCACTGTAAGTCCCATTTATCCATGACAAACTGAGGCACAGAGAAATTAAATATCTTGCCCAGGTCCTAGTTAATTAGAGGG
Celera SNP ID:            hCV16026406
SNP Position Genomic:     89777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39596):
ACAGACACACACACACACACACACACACACACACACACACACACAGACACACACAGCTATATGATTCCAATTGTATACAAATTATAAATTATTTAGTAAT
Y
CATAAACTCTTGCTGTATATTTCAAAGCTATGTTGTTAGATATGTAAACTCGTGTTATAATTTTTTGGAAAAGTATTCCTTTTATCAGCATGAAAATTAT
Celera SNP ID:            hCV9708492
SNP Position Genomic:     146482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39597):
ACTAGCCCATGTATTTTTTATTTCAATAATTATATATTTTATTACAAAATTTCTGTTTCTTGTTTACAACCAGCTATTCCTGTATCATGAATAAAATACT
T
TCTTATCTCTCTGATGATTTATAATCACATTTATTTTTAAGTCTAGTTCTGGTTTTCCCTATTAACTCTCTTTCTTCAGGTGTGCATTTGTCCATCTGCT
Celera SNP ID:            hCV26911510
SNP Position Genomic:     152082
SNP Source:               Celera
Population(Allele,Count): no_pop(-,8|T,8)   total(T,8|-,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39598):
CTAGCCCATGTATTTTTTATTTCAATAATTATATATTTTATTACAAAATTTCTGTTTCTTGTTTACAACCAGCTATTCCTGTATCATGAATAAAATACTT
T
CTTATCTCTCTGATGATTTATAATCACATTTATTTTTAAGTCTAGTTCTGGTTTTCCCTATTAACTCTCTTTCTTCAGGTGTGCATTTGTCCATCTGCTG
Celera SNP ID:            hCV26911511
SNP Position Genomic:     152083
SNP Source:               Celera
Population(Allele,Count): no_pop(-,8|T,8)   total(T,8|-,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39599):
TTTAGCCAAGATGTTAGCCAAGATGTTCTGGATCTCCTGACCTTGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTAGGATTGCAGGTGTGAGTCACTGT
S
CTCAGCCTATTTATTTTATTTTATTTATTGTTTTTGGAGACAGAGTTTCACTCTGTTGCCCAGGCTATAGTGCAGTGGTGCAATCTTGGCTCACTGCAAC
Celera SNP ID:            hCV26911512
SNP Position Genomic:     60024
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,12)   total(G,12|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39600):
ACCCGCTGCTGCGGTGGCCCTGAGCGAGGAACAAGCCATTCGGACCCGACCGATGTAAATACAGCCGCCCGTCCGCCCGCCTTCCTCCCGGGCTCCCCGG
M
CTTGCCCGCCCCCTCCCGGGCGTCCCTGTCCAGGGCCCCGGCTTGGTTTCCAAGTGTAAATACCGCCTCGCGCCTCAAATCCCCCTACCCCGTGTGAACT
Celera SNP ID:            hCV27503565
SNP Position Genomic:     6913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39601):
TTCCTAATTACCCCCATGACATTTTAATACTAAAACTGTATTGCATATCTAACTATGGACACTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGTG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCTTAGCTAGATATTCTTTGTAATGTTGACAATTTTAAATAATTTTCAGCAGTTGACATAATTACTGG
Celera SNP ID:            hCV26911513
SNP Position Genomic:     162720
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39602):
TTCTGAAACTCCTGTTCCTAATGACAAAGTGGCTATGTGCAATGGATATAAATGTACTGTGAGTCTCTCGGTTCAGTATTAGGTTCACTTTAATTTATTT
R
TGCTGTAAGTTATTTTTGCTTCCTTCTCCTGGACCCACTTCCAGTCCCGTTTTGCATTCCCCTTTGGATTTTGCTTTGGCTATTTTTTGTTGTAACCTCT
Celera SNP ID:            hCV27503566
SNP Position Genomic:     7261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39603):
ATGTTGTTAGATATGTAAACTCGTGTTATAATTTTTTGGAAAAGTATTCCTTTTATCAGCATGAAAATTATTTTTGCTGATATTTGCCAGGTTTTAACCA
Y
TTTATTTATTCATGTTTTGGAAGCACCAGGGTCCACTAAGACATTTTATTTATAGGTATGTATTACACCCCTAGAAAAAGAATCCCAGGATTTTCCCTCA
Celera SNP ID:            hCV9708499
SNP Position Genomic:     146612
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39604):
TCCTAATTACCCCCATGACATTTTAATACTAAAACTGTATTGCATATCTAACTATGGACACTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGTGT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCTTAGCTAGATATTCTTTGTAATGTTGACAATTTTAAATAATTTTCAGCAGTTGACATAATTACTGGT
Celera SNP ID:            hCV26911514
SNP Position Genomic:     162721
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,3)   total(G,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39605):
TCAGGCAATCTGCTGGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACAATGCCCGGCCTTTTTATTTTTTATTAGAGACAAGTCCTCACT
R
TATTGCCTAGGCTGATCTTGAACTCCTGGGCTCAAGGGATCCTCCCACCTTGGCCTCCCAAAGTGCTGGAATTACAGGCATGAGCCACTGCACTTAGCGC
Celera SNP ID:            hCV26911515
SNP Position Genomic:     60377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39606):
TAATTTCAGTTAAGGAACTCTGATTGAAAATTAATTGCATTGTACCCAATCTGGGAGTTGTAAGAACTCTCGGAGTTTGGACAGCTGGGGTGAGAAGGCT
S
GGAGAGCAAGAATTTGGCCATGTGTCTCCAACACTATCCAGGGGAGAAGGTAGGCTCACTATAAATCCCCTTCAAGCCTTCCCCCAAAGGGGAGTGAATG
Celera SNP ID:            hCV27999595
SNP Position Genomic:     161036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 174
Celera Gene:                 hCG23814 - 83000099046854
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VYLS(24461549..24487548)
Chromosome:                  Chr15
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12334):
TCCAAAATCTGAAATTTGAAACATTTCAGATAAGGGATGCTCAGCCTGTATCACCATTTACTATCACCATCATTTTGTATTGAAGAAAGATACTTCAAAT
CTCCAGAAGTAGGAGGGGTATAATCCCAGAACTCCGGTGTGTTTTCAGTTAAACAGTGGCATTTCAGAAGCACCTGCCCCCATCCCTGACATTTTCTTCA
TGTTTGCTGGGACCACTCAGAAATCAGAAGGTGCCTTCAGCAGGCTGGGCCAGCCACCCAGGGACACAGCCAGGGACAGTGGGAGGGCTGGGCCTGAGCC
TGGACTCCTGCACTGAAGGCTGGGCTGTCCCCTCCAGCCTACAGCTCATGTGTGACTTTGGGAAAGGAGTTGGGCCCTCTGGTCTTTTTGCTCCCTGGGT
AAAGTCAGCGGGGGGTGCTGCTCCACATTCCCTCCGGGGTTCATAGGGGTCACGGGAGGATCTGGAGGCTGGGCTGGCCTGCTAAAGGGACCAGCCACTT
TTTGGAGTGACATTCCAGCTGGAAGCGTCCATCCCACCCCAGGTGTGAGGGGGGAAGCAGAGGGTGTCACATACTGTGACAGAGGTGGGGTCATGCTGCC
AACCCCACTCTGAACCCCAGCTCATCGAGCGGTCCCCCCGCACCCTGCCACGCTCCATCACGTACGTGAGCATCATCATCTTCATCATGGRTGCCAGCAT
CCACCTGGTGGGTGACTCTGTCAACCACCGCCTGCTCTTCAGTGGCTACCAGCACCACCTGTCTGTCCGTGAGAACCCCATCATCAAGAATCTCAAGCCG
GAGACGCTGGTGAGGCCACCTCCTGCTCCCTGCCTGTAAGCCCTAGGAGCACAGTCTGTYCTGGGAGGCTGAAGAAATGGCCCCCACCCCTCGCCGCACC
TGTCCTTTCACCAAAGGCATTCTGCTAGGTGAGGGCACTGTCGCCTGCCCCAAGCTAGGATGCTCAAGTGTTCTTAGGAAGTGGTGCACAGACTGCCTCC
CACCTGGGCCCCTGTAACAGAAGGCGAGGCCCCGGGTAGGGAATAAGGCAGTGGGGGAGGCCTGGGACTGGGAGAAGGGTGGTCAGAGGGGATGCTTGGG
GCCCCAGCACCTCCCTGGACTGACATCGACATCCCCCGACTCTGCCCTGCCCGTTCCTCCCTCAGATCGACTCCTTTGAGCTGCTCTACTATTATGATGA
GTACCTGGGTCACTGCATGTGGTGAGTGATGGGCCCATCTGTCTATCCCAGGGGCCCCAACTACCGGCTAGCCCTGTCACTGGCTCAGGGACACACTGAG
CAAGGCTGTCTGGGCTGCGGGTCTCCATGTGTTGAGTCTCATCCCCTGTAAAGGCACTGTGAGCTCAACCTCCAGTGAAGTTGTCCCCGAGGTTGCCCGG
GAGACCCAGCTGCTGTCCCAGGCTCCAGGCCCCGGCTTCCAGCCAGCATCCCCCCAGCATCGCCACCCCCGCCCAGCCCTCAGTGCCCGCTGTGGCCAGC
AGAGGGCAGCGAGTGGCTTTGGTCCTTCCTCGCCAAGCCTGAGCCCTGAGGGTGGGGGAGGAGGACGCGTCCCTGATAAACAACCCCCAGATGGTGATGG
CAGGGGGTGGGGGCACAGCCAGGGACCCCCACCCGTGTCGGGCCTGCTCTTTGGGAGTGGAGGAAGCTGCGGGGAGCCAGCTGGATCAGGCTGGGGAGGG
GCGTGCTGTTTGCGCTCCCCCCTCTTCAGAACTCCCAGAGGGGCACCTTTTCCTACCTACCCCGTCCCTCAGTCGGGGGAGACCTCAGAAATGTGGTCTC
AGCCTCAGGAGATCCCGGGCCCAGGCTGGGAGGCTTCATCTGTTCCACCCTCCCATCTTACCCAGGAGAAACTGAGGCCAGAGGGAGGAGGGCTCCGAAG
GCTGCAGCTGGGAGGTGAGGGCCAGCCCTGGACCCGGCTCACTCCTGAGTTGGTGCTCACAGCACACGCACCCTGCACGGGCATTTCCAGGGTGTTTCGG
GCCCTGCGATGTCAATCCTCCTGGCTCAGCTGGTCCAGGGTCCCTGGACAGGCCTCCTGCCATCTTTCCCTGGCCTTTGCCAGAGCCTCTTCCCACAGAA
GGTTGGGGAAGGGTGGAGGGGCTAGGAACAGAGAGCTGGAGCCCCAGCAGGAAGGGGGTGTGGGTGAGAAGAGGCAGGCGGGTATACTGGTGAAAGCACA
GGTGGGAGAAAGGGAGCTGGTGTGTGGAGAGGGGAGAGGGTAGTATTTTGGGGTGAGGTGTCTGAGGTGGGGGTGGGGCTGTGTGCTGAGAGTGGGTGCA
GTGCTTCACCAAGAGGCCCCTGCAGGTGCTGTTCTCTTTTTTAACATGTGGACCTCCATCCTCAGCCCGGGAGGTGCCTCTGTCTCCAGGCTAGTGTGGT
GCTGGGCTGCTGGTGTCTGCGGTGCATGAGACAGACAACCCCCCAGACACCCCTTACCCCCACGGAGTGAGTGAGGTGCCCTGGGCGGTGTGGATGCCTC
TGGGCCTCTGACTCACACGTGCGTTGCCTTCCTGTTTCTGTTTCTGTCCCACCTTTGACGCCCAGCACAGGCAAGGTTGGGTGGAGAGGAGCGCCTCTCA
CCCAGGCTAGGCGTTTTGTAAACTGTGACGTGGCACTCCATGAGACCCCATGGGAGTGGTTGCAGAGGTTGTGGGGAAGAGGGCCGCTGAGCAGGCCTCT
AAGACACTGGCCTTCCTGTCACAGGTACATCCCCTTCTTCCTCATCCTCTTCATGTACTTCAGCGGCTGCTTTACTGCCTCTAAAGCTGAGAGCTTGATT
CCAGGGCCTGCCCTGCTCCTGGTGGCACCCAGTGGCCTGTACTACTGGTGAGTGGACATCAGCATGGGGGCAGAGGCAGGGGCACTGAGAGAGCCACGGC
AGCAAAATTCTGCACTTGCCAATGGACCTGCTGTGTGGCCCCAGGGAGACTGGCCCTCTTTGGGCCCGTGCTTCTTCTTGTGTCTAGTGGGGACTGTGAC
AATGCCCTGTGGTGGCCTCTTTGTTTCCATGAAGCCCAGGCCTGGGTGTGGCAGGGAGGTGGGAGGAGAGGGCGAGGTTGCACAGTCTGTCTCCATCCTC
AAGCCCCTCTCACTCTGTGCCCCATCTCAAGAACCCCAGTGTTGCCCTGGGGCCGGTACAATCCACCTCCGACACCAAGCCCTGTAGTGGGCTGCGGTTT
CCACCTCTGTGAAGTGGGGATGATGGTACCTGCCTGTCTGCCTCTCAGATGATGAGGATGCTGAGGACAGAGAGGGGCTTTGTCAAATGTAAAGCACTAT
GGCGAGGCCAGACTGGGGGGTTTCATGGCGTAGGGGCTTCTGGCCTTGGGTCTTTGTTCCCTCTGGCTCTCTCTTCTTCCCATTGCAGAGGACTTAGGCC
TCAGCCAGTCTCCTAGCCCTCGTCTGTCACTTCTGCCCTGGAGACAGGTCACCCTGGGATTGTGGGTATCATGGGAAGGACAGGGTCGGGGCAGGACTGG
ACCCTTCTCTGATGGGAGGCCTCCCTCAAAATGAAAAGGGCCTCCTTTCCTGGGCCAGCTCTAGATCCTCTCCCCGGCCTGTCCCCTATGTGGCTGAGAT
GGCCCACTGGGGCTCATCTGTATGCTCTCTGGGGATTAAAAAGAATGGGTGGCAGCTACAGTGAGCGGGAAAGACGTTAGGGGAGCGCTTCCTGCTGGTT
CTTACCCCGGCATCCTGCCGCGGGGGTGGCTGCCGTCGTAATGGCAATTGTTTGTTGCTTTCTCCTCTAGTCAGTTTTTGTTGTGTGGAAGTATAAACTT
AATGTGACCAGAGAAGCCAGAAATATACATTTGTAGGTATTCTGTTATTTAAATATTGGCAACAAACTCAACATTTAAAAAACAGTAACTATACCAGCTA
AATCAATATGCTGCCCATGGGCTGTGGCTTAGAGCGGCATAGTTCTCTGAGCCCTGGCACCAGAGGACTCTTCTGCCTGCCTGGAGGGCAGCCTGGCTCT
CGCACACAGGAAGGGATGCCAGGCAGGACGGGGTTGCCACGGCAGCTGCCTCACTCACCCCTGGCCTTTCCAGGTACCTGGTCACCGAGGGCCAGATCTT
CATCCTCTTCATCTTCACCTTCTTCGCCATGCTGGCCCTCGTCCTGCACCAGAAGCGCAAGCGCCTCTTCCTGGACAGCAACGGCCTCTTCCTCTTCTCC
TCCTTCGCACTGACCCTCTTGCTTGTGGCGCTCTGGGTCGCCTGGCTGTGGAATGACCCTGTTCTCAGGAAGAAGTACCCGGGTGTCATCTACGTCCCTG
AGCCCTGGGCTTTCTACACCCTTCACGTCAGCAGTCGGCACTGAGTCCCTGGCACCAGGCTCTGGCGCTCTGCTGGGTGGGAGGGTGGGCCATGGAGGGC
ATCTGAATACAGGAGTAGGGGGGGTGTGGGTGTGTAACCAGAGACCGAGAGCATGAGTGGGGTGTGCCTCGTGTGCGTGGATTCGTGTGTGTGTGTGTGT
CTTGTATATGTGTGCGCAGAGTGCATCATTTTCAGACTCTACTATTTCCGTCAAGTTTCTGTTTGATTTGGATCATCTCAGGATCGGATTCTGTTTTAGA
GTGTTTCTGGGCCAGGATCCGGGCCCCTGCCCTCCTCTGCACCTGACCACACTCCCTACTCAGGGCTAGTCTGTTCTTCCCGGACATCTTCTGGTAGCCG
TGCAGGAGAGGGCTGGGTGGGGCAGAGGCCAGGAGGGGACCTGGTGTGTCACCTGCCCACCACCTGGCTCATCCCTCAGGCCCACCCTGACCCTACATTA
CATAGGTTACGTCAGCCTACTGTGGCTGTTGAGCAAAGCATTTCTCCTTTCTGGGCCTCATTTGCACTAGATGGGCCTGTGGTCCCAAAGTAGGTCAGTA
GGTTGGGGTTGCTGACACCCCTTGGGTGCAGCTTTGGGACAGATGAGTGGCTCTGTCCTGTCACTGCCCTCTCCCTGCCTGGGGGCTATGTGCACTCCAG
ACCCCTGCCCAGGCTCAGGCCCATGAGGTATGGAGACACCCTGGCCCCCAGGAGCTGGAGGCACCGCCCACTCCCCTGGCATTCCAGCTTTGCAGGTGAC
CCTCCTCTACCCAAAGCTCTGTCCCCCTGCTCCCACTCCAGAAGAACTGCGGCACGYGCTTCGGGCAGCCTAGCCACAGGCTTTGAGCGCCTGCATTCCT
GGGGGCTGGAGGGTGGGGTGCCAAAGGCCCTGAGCAAAAGCCAGAGCTCCTCTCATCAAAGCCTTTACAAGGTGCTGGGCCCAGAGGCTTTGCCTTGACA
GAGTGGCCCAGGGTTTCAAGGGAGGAGGAACCTCCCCCTACCTAGGACCCTTCCTGTGGGGGGTCTACAGAGTCAGGGACAGAAGGGAAGGGACCCACAG
GAAGTCACAGTGGTGCCCAGGGATGTGTCAGCCCCCAGCCACGGGGACGCGGGATTCAAGAATGAAGTAAATACAGTCACAGCCCCAAGTGGTGTTAGAG
GTGTTTTTTGTCTTTTCTCCCTTTCGTGCTGAGGTGTAGCACACACGGTGCGCCCTACAGCATGGTGAGTTGCTGTATCGTGAACCCTCACGCAGCCATT
GCCCCACGCTGGTGTTTTCCATCTGTGCGTCACCCCCGGAGACACCTACACACATAAGGAGGGAGTTGGCCGGGGCACCCCAGCACACACTGGCCTAACT
CCAAGGAGGCACCTCATCTCTTCTGGAGCCCCTTCCCACAGGCAAGGGGATTCAGAGGGAGCATGTTGGCCTGGCCGCCTTCAGGCTTCCAGAGTCCCAA
GTGACTTTCCTTGATGTCCTTCTCTCCATCCTCTGCACAGAGGCAGCCTTCCCTCCTCTTATCCCTGCCATGGGGTTTGGGAGGGGGAGCCTCAAACTCT
GACAGGGAGGAGTCGGAGTCCCCAGCTAAAATTCTCTGGGTCTAGAAACAGGTGTAAAGCGATTCTGGGGATGTGATTTGGGAGAAAAGCACACTTTCCA
CACAGAGGCGGTCAGGAAAGGAGCGGGGAGGGGAGAGTGGGGCACAGGCAGCGCCTCCCGTCTATGCGCCTGTGTGCAAAGTGGCACAATGCCCCCCTTC
CTATTGGCAGTGCAGCCCCTGGCCAGCAACCACTCGCACCTGGGCTGGGGGCCTTTGTGTAGGGCACACCTGTGCAGCCACACCTACTTGTAGAGCCTCA
TAGACTCAGCTGTGGACAAAAGCCTCACGCCCCAAACAGGGAAATGGGATCTCAAGGGGAAGAAGCTGGGGAGGCCTCACACCCTGCCCCCATTTCCTCC
TATGTGGGGGAGGGGAGCAGCACGAACTCCTGAAGACTTGGGAGCGTCAGCAGCTTCTGCGGAAGGGGTGGGGCTGAGGGTGGAGAGAGGAAGGGAAGGA
AGAAAAGGGGAGCCTTCCTGGCCAGGGTAACCGGCACTAAGAGGCCTCACTCCAAGCCCCCGAGGAGCCTGTGGTGGGGCTGGAGACCCGGCTCAGGCCC
CTCCACCACCCTTAAAGTCCTCAGAAGGTGGGAACTGAACTGGCACAGGMTGGGAACCGGCTGTGCGCTGGCCACTTGATTTTGCCAGCTGCCCTGTAAT
TCAGCTGGTGAGGAAACTGAGGCACAGACTGAGGTAGAATGATTCGCCAGTCACTCAGCAAGTCAGCAGACGGGGAGGACTGAATCCCAGCCTGAGAGCA
CCGAAGCTTGTATCCCTGCAATACCGAGCCCCAAGCCTGCGAGCCCCGGTGCCCATCTCTGAGTTRGGCCGTCTTGGAAGGGTTCCCTTCCTCCTACAAG
ATGGTGTGTGAGGAGCCTTCAATACGACCCGGGGTGTAAAGTGTCCAACTCTAGTAGGGGCCTGATGGCATCCCCGCCGAGTCCCAGGAGAGAGAGAGAA
GACCCCTTCCTGGAGTCCAGGGCTCCCGGGAAGAAACACTGGCATTTGTCCCTTTGCTTCGGCTTCTGGAGGCAGAGACTCTGAGCCCAGGGAGAGCCTT
CTGCAGCCCCATTTCCTCAAAAATCCAACCTGCCCAGGTGGCGGGTCATGAGCTGTGCTCAGGAAGCTGGAATCTGACCCTGGTGGCGTCGGGCCCAGTC
TCCATGGCAGCCGAGCATTTATTACCCGGGCCTCCACCCAGCTTGGCAGACTTTAGACTTGAGGCTGGAGGAAAGGGAACTGAACGCGGTTCTGGGAGCA
GCAAGCCCACGGGTAGCAGCYGAGGCCCCAGAATGGTGAGTGTGAGGGTCTGTGTCGGCCTGGCCAGGGCTGGGGGCGTGAACCTCAGGTGGAGCCCTCC
CCTGACTGTTTTCCTTTCTCTGCTGCAGGCCAAGTTTCTTTCCCAAGACCAAATTAATGGTAGGTTGGGTTTGTTCTTTGATTAGCAACTCAGCAAAATA
TGGGTCTCATTAGGCAATTTGCTCTGCTCATGTTTTCTTGGTGGGAAGGAAGGTGGCTGTGGGAGAGCTGGGCCCACCCAGGGCCAAGAGCTGCGGGGAG
GCTGCTGTTGGCGGGGTGGGGGTTGGGGGTAAGCCTCCAAAATAGACATGTGGCTTTATACTTGTCAGTGTGACTTACAAGCCAGGGCGCTAAGACAGAA
CTTACTAGGTTTCCCTCCAGAACCTGACCAGTTGGATTTGGGGACTGAGGGGACTGGGGATGGAGAGAGAGACCATTAAAGGTATGGCTGGCAGCAGGGA
AAGAGGAGGGGCTTTGTAATTGAGACAGAACAGAGGCCAGGTCTGCACTCTCTGGCAGGATGCGTCTACTCTCTGCGCCTCAGTCTCCCTATCTGTAAAA
TGGAGGGTCCACTGAGCCCCCTTTGCCCTGGCATCAAGCCTGGTTTGGGCGTGAGCACTTTATTCCCTGGGTCCCCTACTCTGCCAGCCCTCGACCAGGC
TTCAGTTTCACACCGTGCAGGGTTCTATTTCCAGAAGGCCAAGAGCAAAGAGTTGCGTTACAAAGAACTTGGGGGCCCAGACCTGAGCCAGGGGAGCCTC
ATGGCTGCAGCCCCCCTGCACCTGGCAGGAGAGGCCCAGGAGGCACAGCCAGCTGCTGCTTGAGGTTGTGACCCTGAAACCTGTCCCAACAGTGGACGTC
AATGGGCCTGAGAGTCCCCCGAGGCATCCCATTCCTCCAGGTCTTTGCTGAAACATCGCCTTCTCAGTGAGTCCTTCGCTGACCACTGGAGATAAAATTA
CAGGCACCTTGGGCCCTTGTGATCCAGGGTAGGGTCCTGAGAGCCCAGCCAAGTGGGGTTAGGGTTACCTGGGCAGGAGTTCCAGAGTTCTGGGTATTCT
GAGCTTGGTCCAGAGGGGCAGGAATTGTGAGCTCCAGGTGGGCACCTCCACGTAGAACCCTGGAACTCTTTATCCCAAGAGGAGGGCCAGGGCAGGAGCA
GGGACTTTTAAAACACAGGGCCCGGGGCAGTGCCCTCTTGTCCAGGTCTAACGGTGATAATGAATGGTGGACTGAGGGCTGGAGTCCAGCCTTCAGCCTC
AGCATCCTCCCACCCATGCCTGGTTTTGAGGCTCACTGACCCTCCCTCCTGGGATAGCCAAAGCTCCCAGAAGGGAAGAAGGTAAATTGTCTTTGTATCC
CAGTATCTGACACCAAGAAAGTGGCCACCAGTGTTTAATGAGTGTGTGAAAGACTGGATGGGGTGGCCTAGCGAAGTGGGAAGAACAGGGGCTTTGGAGG
CAGCAGACCTGAAGCCTAATCACCCTTGAGCCTCGGTTTTCTCACCTATGAAGTAGGATATGCCACCTTACCAGGCTGCTGCGAGCCACGGACAGAGGGG
AATAATGTCAGTTACATGCTGGACGCTGGGCCAGGCATAGCCAGGTGTCACCCACATGTGGGCTGGGGCTGGCTCACTACAGCTAGCAAGAGCCATAGTT
TTAGGAATTTTGCAAGCAGGATGTTAAAGCCAGCCATTATTAAATAATGTAGGATCAAACAGTGTKTCAATCCCTACATCTATCTGTACAAAAAGTTAAA
AAGACAGCCCTATTGTGATCAGTGGAGATGGAGATTTGAAAGAAGTTTCAATTTAATGAATGTRTTTGGTAAAAGGGTGAGAAATAGTTTAACAGTAGAT
CACATCAGGTTTAATGACCATTCATTCATTGGAAAAAGAATCGCACTCATTGGCGCGCAGCTTCATTTGTCAAATCATGGTTGAATCGAAACTATAGGTT
GGCAATGGATATAAGAGTTGGCAAAACTTGGGCYGAGTGCAGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCATGTGGATCACCTGATG
TCAGGGGTTTGAAACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAACTGGCCAGGTGCAGTGGCTCATGCCTGTAATCCCAGCA
CTTTGAGAGACCGAGGGAGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTATCTCTACTAAAAGTACAAAAATTA
GCCTGGTGTGCTGGCAGGCACCTGTAATTCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAACCGAGAT
TGAGCCACTACACTCCAGCCTGGGCAACAAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGCCGGTCATGGTGGCACATGCCTATAATC
CCAGCTTCTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGCTGCAGTGAGCTGAAATTGTGCCATTGCACTCTAGCCTGGGCAACA
AGAGCAAAACTCTCTCAAAAAAAAAAAAAAAAAARGTTGGCAAAACTCATTTGTGGTAATCAAGTGGCTAGATGGAATTTATTTATTTGAGACAGAGTCT
TGCTCTGTGCAATGGCATGATCTCCGCTCATTTCAACCTTCACCACCCAGACTCAAGGGATTCTCCCACCTCTGTCTCCTGAGTAGCTGGGACTACAGGC
ATGCACCACCACACACAAAACATTTGTAAATATTTTGTAGACATGAGGTCTTACTATATTGTCCAGGCTGGTCTCGAACTCCTGGGCCCAAGCGATACTC
CTGTCTCACCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCCTAGATGGAATTTATAATAAAGAATAGTGTACATTTCTGTATTAT
TTGTAAATTGTGTGCTACACATCCTTTATGTTTGTACAGTGCAGAGGACACAAGTACATTTATGATCAGAGCTGGTGGTTAAACATCCAGCACAGCTGGT
GTTATCCTAGGCCTTGCACAGGTCTCTTTCTTGTCCTGGGGGATTTGCATTTTCAAAGAGAAGACTTAAAGGGGATTTTTAATCCAATTCATTTAACCCA
ATTAATCCTTTCATTCAACAAATGTTTGTGTCCCTTCTTTGTGCCTGGAGCTACATACAACAGTGAACTCAAAGACAAAAATCCCTTCCTCACAGGGGGT
CACCATCGAGGGAGGGGAACGTGGTGAAATATATGTGCTAGTATGTTAGAGGGCCGACCTGTCAGGAGAAAAAGCAGGAAGGAGAGCCAGGAGGTGAGGA
GGGAGAGTGAAGAGATGGTGGAGGAAGGGGCCAGCAGGAAGCCCAGCTGGGTCTCCAGCACCCTGTTGTCTTGTTCCAGTGCAGGAATGCAAAGTTCAGA
TGTGGCCTTCCAGGTCTTTAAAGGCGTCTGAGGCAGGGAGACAGCACGTATCTGATGTGAAGGTTTGTGAGGAGGTGGGCCTCTATTTGAGCCCTGGCCC
TGCTGCTGGCAAGGACCACAGGCCCCCAGTGACTGACAGGGCTTGTCGGGGAGTAGTGAAGTGCCCCCATCTGCAGATCCAGGCTGATTCTGGACCCCAA
GGGTGTGATGAGCACCTTCCAGCACAGGTCAGGCAGGGAGAGCAGTGGGCCTTGGGCCCACCCTCACCCAAGGGCAAACCCAGACAGAAAGACAAGGTGA
GGGTGGCCATGAGAGGTCCCCAGGGGTACCCCCTGTAGTGCTAAGGTTAAGCTCTGTGATTGGGGCAGYCCTCTCTCTGTCCCCMTGACGTGAGGTGATG
GCATTGTCCCCTCTGGCACTGGGCCCTCTTGCAGGCAATTGGGTTTTATGGGAACTAAACCTGGGGTCTTAGGCCAGGCTCTGGCCCTGCTTCCCCTGGG
CCTTTTTGGCCCCTGCCACCTGGTCCTGACTTTGGTTTGCCCCTTCGGAAGCTCAGGCTCTGGAATGTTCTGAAAGGGCAGTTGTGCGGGGCTGGGGCTT
TCCTCTCAGTCTCTCCACAAAGGCCGCGAATTTGTCTCTAAATGGTACATGGCGATCTGCCTGTCTTTAGTGACCCCCCTGAAATCCTACCAGGGAGGCC
TGAGTGCCTTCATTAGGGAATATGAAGGGACCCCTGGTCTGGGCTGGGGATTTGGGGGGCTCCTTCTGCATCCTCTCCCTCACCCTACTGCTCTCAGTGG
TGTCTGCCCTGGAACCGAAGGCAGTGTGGCCTGGTGGGCAGAGCTGCCCACAGCCAGGCTCTCAGTGTTCCAGCCCTCAATGTCCTGTCCGCACATGGGA
ATATGAGGGGGCGCATCACAGGGTTGTGGGGATGAAGCGAGGGCCTGGGGGTGGAGTGCTCAGCAACGTGAATTGTCATTGTTGCTGTCATCAGCTAAGG
GGCTATTATTGTCCAGGCCTCTAAGGACCTACCTGGGTGGTGTGAGAAGCAGGAGAGAGAACAGAGCCCTGAGCCCCAGCCTGGGAGGGCCAGCGCCAGG
CCACTGTGTTTCCACGGCTCCACCCACAGGCCCGGGTGCCTCGTCTGGGCTGGACGAGAATCTCCCTGTCCTGATGGCAGCCCCACCTACCCCTAAATCA
GATGCTCAGTCAGTGCRGTTCAGGGACTTTTCCTGAACTCCCAGCTGGCCTTCCTGGGCCTCCCAGGGCCGGGAGCCCGTGGGATGGCTGTGTCAGGCCG
GGAGTCTGTGGGTTTAGGGGAGCTAGCTCCGGCTGCCTTCCACCTCCACCAAGTACCGAAGGAGAAAGGGCTTCAGACCCTGGGAGAATTTCCCAGCAGG
ACCCTTTGAAGTCTCTAAGAACAGGACCAGGGCCCGAGTCCAAGGACAGCTTGAGGGTTTAGCAGCCTGGAGGCCAGGGCAGGGGCAATAGGCTCAGAAA
TGCCCCAGCTCTGATGATGATGATAATATCATCATATGAAGGCCACTCTCTGGCAGGCCTSCTGGGATTTCTGGCTCTCACAGTAATCCTGAGGCCTTAT
TATTCCCATTGTCCAGAAAAGTTGTGTTTGCAGAGGTCCCCTGGGGGTCTGGACGCCTTGCTGTGGGTTCCTGCTCTCCCCTGTGGGCCCTGGAGGGGCA
CTGTCCTGGGAGTTCCAGTCCTGTGGGTTGGCGGGGAGGGGGAGGGAGAAGGAAGGGAGGGAGTAGGGAGAAAGGGAAGGGGAGCCAGATAAAATACAGG
ACACCCAGTTAAATTAGAATTTCAGACAAACAACAAATACTTTTCCAATAGAAGYATATGTCCTATGCAAAATTTGGGGCATACAATAAAAGTATATTCA
GTGTTTATCTGAATTCGGTTTAACTTGGCAGTCCTGTATTTTCATTTGCTGTATCTAGCACCCTTGGGAGGGGAGAGAGGGATGGAGGGAGTAGGCAAAA
GGAAGGGGAAAAGAGGGAGAAGAGACTAAGGATGGGGAGGGCGGCATGGGCGGAGAGTGACCAGACGCTGCTGACCCTCCCTCTGGGCYGTGTGCAGAGT
ACAAGGAATGCTTCTCCCTGTATGACAAGCAGCAGAGGGGGAAGATAAAAGCCACCGACCTCATGGTGGCCATGAGGTGCCTGGGGGCCAGCCCGACGCC
AGGGGAGGTGCAGCGGCACCTGCAGACCCACGGGATAGGTGAGTGGTGGTGGGAACAACGGGGAGAGGGGAGGGGCCCAGCAGGTGGGTGCAGACAGTAG
AGGTGTGAAAAGCTCAGCAGTTTGAGGGGCAGGTGGCAGGGAGGCCTCCTGGGGATYCAGCTGTGGCAGCCCCAGACCAGGAGTGCCGTACCTCACTTGG
GCTTCCTGGAATCCTCATAGCAACCAGTGATACCCCATCTCACAGACCTCGGGATCTAGGCGTTCCAACAGACTTACCAAACCCAGAGAAAAATCGCGCT
GACAGCGATCCCATGTTGCTTTATAGGAACATTTCCCTTTGTTGAGTATTTGTCATGTGCTTAGCTCCAAAAACCCTATGAAGTAGGCATTCTCCTAACC
TTTTTTTTTTGAGGGGGGACAGAGTCTTGCTCTGTCACCGAGAAGCTGACGTGCAGTGGTGAGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAA
GTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCTGCCACCACGCCTAGCTAATTTTTGCATTTTTAGTAGAGATGGGGTTTTGCCA
TGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGGTTAGAGGCCTGAGCCACTGCGCCCAGCTT
TCTCCTAACTCCATTTTACAAGCAAAGATCAAGGTTTACATCCATTAAGTTCTTGAGCCAATGATGGCATCAGGATTAGTACCCAATTCTTCTGATATCA
AAGACTGACCTAAAAACTATGCAATAGTTTTTAGAAAAACTATTGCTAGAAAAAAAATGCTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCT
CTGGTAATGGGATTATGGGTGATTTTTGTTCCTTTTATTGTTTCCTGTATTTTCAACAAYGAGAACACATACAGCTTTTCATAATCAGAAACAAGTTTTA
TGTTTTGTTTTGCTTTTTCTAAGAAAAAAAGTAGTTTCAGAGCCTGGGGTTGCTGTTTGCATTGGGGGCTGGACACTCAGGAAGGAGGGACTGGCGCAGG
GGAAGGGCATCCGCTGGGAATAGCACTTGACCCGGAGCCCATAGGCTGCTGCTCAGTCTCAGGTCACCAGCTTCCTCATCTCAGGGGGGTCACCACCATC
TGCTAGGGTTACCAGAGGCCCCACTAGAGGATGCCTGCAGTTGCGCTGGGAGCCCACCCTGGGGCAGGCCACGCTGGGCCCAGGTGGGCCTCTGAAAGCC
TGCAGCCTGGCGGTGGGTTGCTCAGTGGTCTGATACCTGAGATCCCCCATGTCCAGCTCCAAAGGGGTGGTGGTTTCCTTGATTTCTGTCCCCTCCAAAC
AGGAAGTTGTAGTCCAGGGAAKTTTTGATTTCCTGCAGTTACATCCCAGCCAGGGCCCGTGGAGGAGGGGCTGGGATGGAGACTGCAGTGAGGGGAAGGC
AGGTGAGCAGCCCAGCCTGCGACTGAGGCTTGAGACCCCAGGTGGGGGTGCTGATCCATCCTGGTAAGATGTACTGTGGTGGCTGTCAAAGGTGGAATGC
ACACATGGAYCTGTTTCCCTCCAGTTCAGGGCAGGAGGGAAGCGCTAGAAGGGAGCAGAGGAGCCCAGTCCTCCATCTGTGGTTGGGAACCCACTTTCTT
GAGCTTTGGGGTGATGATAAGCATCGTCACTGAGGACGTTGCTGAAATGAAGAATGTCCAGTCCAGTGAGGGGCCTGTCGTGGGAACTCGGTGGGAGGGG
ATGCATCCTCTTCACTGTGACCACTGCCACATCCTGGCATTCCCTGGTCAGTTGACCTTGAACCGGCTGTGCAGGTCCAGCAGGAGGCCAGCTGGCTTCC
TAGGAGTCTTTTTCCCTCTGCTCACTCTGCTGTGTTTGCGGGTTTCCTAGACGGAAATGGAGAGCTGGATTTCTCCACTTTTCTGACCATTATGCACATG
CAAATAAAACAAGAAGACCCAAAGAAAGAAATTCTTCTAGCCATGTTGATGGTGGACAAGGAGAAGAAAGGTTACGTCATGGCGTCCGACCTGCGGTCAA
AACTCAMGAGTCTGGGGGAGAAGCTCACCCACAAGGAAGGTAACAGCCTGGGTCCTGTCTCCCAACAGYTGGAGGGGGTTAGGGAGTTGGAAGGAGGGCA
CCAAAGCCTAGCTGATGCCACCAGGGTGGTACAGACCACCTCTGTTGATGCGCGCGCAGGAGACTGTGAGCAGATGCCACACTAGGTGGGTGCTGGACTG
GAGCCTGGGGAAGAACTAGAGGGGCTGGAAGGGCGCAGGGAGGTCTGCCAGGGTGAAGGGACAGCCTAGGGGAAACCCAGCTCGGAACCCACAAGGCAGG
GCAGCTGGAGCGTGCAGTCTGGTCTCCCCCTGTGTTCAAGCTCTCACTGTGGGGCTTCATYTAGTGCATGACACCCCTGGGAGCACAAATGCCTGCTCCT
ACTGATAAAGAAGCAGGGGGAGTGAGCGGCTCCCAAGCAGCGGCGCAGGAGCGAAGGCAGGTCTAGACATCCCTGCCCTTTTTCCCATCACAGCAGTCTC
TGCAGTTGCTGCTGAGGTCGAGTTTCCGAATTGAGGTGCTGCTTTGCTCCCTTTCCAACTCAGGCTGCTCTAAGCTCTTCCAGAAAGGGGCTCCAGAGGG
AACTTTGCCAGGACAGTTGGAGAACTGCCGAGACAGGCAGGGTTCCTGGTTCCAGAGCCCCACGAGAAAGGGGTCTTTGCTTTGCACCTTCCTGCAGCCT
AGCAGGCTGTCCTGCCTCAGAGCAGGACGAGGCCTGGGGTCTTCTAGGAAAGCCCTTTGTACACTGTCAAGGGGATCCCCACGCCAAGGCCATTTACAGC
CTTTGTTCTTCCAGCCTGCGGACCCTCCTGCCTAGCCCTGCCATGTTCGCAGCAGCCAGCCAGCCAGCTCTGCCTCTGCCCGAGGCCAGGGACCCCGACC
TTAGAGCCTGGGGTTTCTAGGTAGGCTGCCCTGCTTGCCTGTGGTTTGGACAGGAGAGCTGGGCTTGGCCACAAGTGGGTGCTGGAAAGAGGCTTCAATA
TGACGGACTTTCCGTCTCTGGTTAAATCACAATAAACCACTGGAGGAGAGCTTTGAGGCTGTGGTTTGAATCCTGGGTGCCAGGAGACCTTTCTCCCACC
TCGCTTTCCTTGCTGGAAATGAGGGTACAGTAGGTGACCCCTCAGGTCCCTCTGAGCTACCACTCTACAAATCACTCTGCTCAGATTTTAGCTACTGCCA
TTAAGGCACAGTGCAGAGAGTTTAAAAATTGCTGCAGAGTTTAAAAATTGCCTGACATACAAAAATTAGCCAGGCGTGGTGGCGGGCGCCTGTAGCCCCA
GCTACTCGGGAGGCTGAGGCAGGAGGATCACTTGAATCTGGGAGGCGGAGGTTGCAGTGAGCCGAGCTTGCGCCACTACACTCCAGCTTGGGTGACAGAA
TGAGACTTTATCTCCATAAATAAATAATCGCCCAACAGCAGGCTGGGTCTCCATACCCAGCTTTTCCAGGTTCACCTCTCGTGGCTGTTTTCACATGGAT
AGGGAAGACATGGGTCATCCTTCCCTCCCAGACTCCCCCCAGGACACTGCCCGGCCCTCTAGACAGCAGGTGGAGTCAGCAGAGGGAGCAGGGCCTTCTT
TTTGTGGTTAATGATCTCTGTCCTAAGCAATGCCATGGCCCCAGACTCACATACATCTCTAATAACCAGCAGAGGACTGTTTCACAGAAACTGCTGTGTT
CCAGACAAGCAGGGACACCGATTTCCCTCCCACTTGCCACGGGAGATGGGAAGAATGATACCAGCAGCAGGAATCCTTTTTCTGGGTGATCGAAAGACAA
TTTTCAGTTTAAAAAGCATCCTTGGAATGGCTGTGGGTGAAGCCTTCTCCTGAGGCCTGGGATGGGCTGACTTTAGCACTTTGGCTTTCTATGGGTCTTT
GAAGTGAGATGGAGTGAAAGGCTGTTCTACTCAGGTGTCCTCAGACTTGGCACCTGGCTAAGTGCTGTCCCTCGCCCAGATGGGAAGAGGCTGCAGTGAC
TGGCCCTGGAGCTGATGTTGGCCTATCCCCCAGGATGGTTTTAGCCACCTGGCTGATTGTGGAAACTTCTCCACAAAATGAGATGAATTATACTGTCCTC
AACATTCTCCCAATAAATACTCAGAAYTACTATCAGCTTAGGCCAAGGCATGGTGATTATACTTTCGAGAAGGATAGTTAAGCAGAGAATCACAGGATAT
TTTCTAACTGACGACCGGAGGTGTGTGTGTGGAAGGTATCCAGGCCTGGGAAGTTGACACAGGGCAGTGAGATGAGGACAGGCTAAAGAGCCATGGTAGG
TTGACCCCAAGAGGCCATTGTGGAGAATACAAGCTGAAATGGCTCTTGCCAACGCCTGGGACAAGCTATTATTTTATCCCAGGAATCCAGAACCAGAAGA
AACAAGCAAATGAAGTGATTTTTTTTTTTTTTTTGGAGTGATGGAGAACAATGGCAGTTTTGTTTTGTATACTGTGAGCTCTCAACAGAGTTGGATTTAT
TTTTCTCTCATATAAACCCCATCCCCCAAACATTTTTTTTTTTTTTTAGAGGTGATGGTAGCAGACAGTGCTTGTCACTAAGTCCTCTCTTGGGGTGGGG
GCAGAGGTGGTGAGGAGCACCGGCTTAGGGGAAAAGGCAGGCAAGTGAGGAGCAGGCCGAAGCCTGGGACTGTGGAGGATGTTCGCTCTGTTTGCAGGCT
GAGCTGCGGAAGGTAAAAACTCCAGGCCAAAGGATTCTAGAAATATGGGCACAGGGGTCATATTTTCATGAAAAAATAAAAATAAAAGCACAGGGTGGGC
CGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGATGGCTCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGT
GAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCACTTGCCTGTAAGCTCAGCTACTCAGGAGCCTGAGGCAGGAGAATCGCTTGA
ACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAAGAGCGAAACTGTTTTWAAAAAAAAAAAAAAAAAGCAC
ACGGTGGCATCAGTGACCGAATCCTTACCAGTACACCTCCCTACTCCCTGCCCCTGCAGAAAGCCCGATTAGCTCAAAATGGAATAAGGGTCTCAGGAGT
GCAGGGATGGGTTGTCCCTTTCTGTTCACTGGTTTACTTCCTGGTCTACAGGAATAGTCAACTGCACGCTCAGGGAAGACCTTAGGGGAGCTCCAGTCCC
CAAAAAACTCACTGTTTTATAATGGAACACTAAAGCCAAACTGAAAAATTAAATGTGATTTATTGCAGTGGATGATCTCTTCAGGGAAGCAGATATCGAA
CCCAATGGCAAAGTGAAGTATGATGAATTTATCCACAAGATCACCCTTCCTGGACGGGACTATTGAAGGAGGAGAATGGGAGAGCCTCCCCTGGGCCTGA
AAACTTGGAGCAATTAATTTTTTTTAAAAAGTGTTCTTTTCACTTGGGAGAGATGGCAAACACAGTGGCAAGACAACATTACCCAACTATAGAAGAGAGG
CTAACTAGCAACAATAATAGATGATTTCAGCCATGGTATGAGTAGATCTTTAATAAAAGATTTGTAYTGATTTTATTAACTACCGTGAGTCCGGCCCTTT
CAAGCATGGAAGGAGCCTGCGGTTTGGAGTCTGGCCTGGGTTCCAGTCCTGGCTCTGCTGCTTCCCACTGTGACTTTGGGCAAATCATTTCACTCCTCAA
AGCCCCCCCACACAYGCTGGATTCCCACTTCTTACCTCATGGAGCCTGTTGAGGAAGGATTGAGCTGATGACTTAAGGGCAATCTACCAAGAGACTTATT
CTGTATTTGGGGGCTAGAACCATCTTCCATATTTCCAAGATTTTCCAAGATGAAGCCAGTGCTAGCTGAGAAGCAGCAATGAACAGAAAGCTGTAACACT
TATGACAACAATTCTTGCAGTGCCAGAGGCCCATTTACAAATTCTCATTTCCATCTCAACAGATATAGTGACATAGCTCAGGCTATTCATTCATAAACAC
AGAGTGTAGAGTGAAAACACTAGAGTGAAAACACATGCTACAATGAGGCAGCATCAGCTGAGAGCAGGAAGAGCGATCTACTTTACACCCCACACCAAAG
GAAACCAGATGTGAGCTGCTAAATTGACTGGCCTTGCAGAGCTCAAGAAGGGGGCTTCCAATGCTGTGAGAATTCCGAGCTGTTCCCTGGGCTCTGTTAA
CAGGCAGAGAGGTTCCGGGATGGTCTGCTCAAGTGGCCCACACTGGTCATTGCCTTAAGCCACCTCCCCAGGACTTACGGAGAGAAATAAGGGGATGTAA
CCAGCAATGGCCAGGGTACAACAGCCCTGGAAAACAGTAGTAGGAGCACTAGGCTTTCTGGGAGTCCATCCAGCTGGAGTGGCTTTGAGTGAGTTACACA
GCTAGAAGGTGCCAGGTTGGTGCTGCCAGAGATTCAGAGGTGCCATACACTTGTCAAATCTGGATCATTCGTAGTGCCAGCACAGTCCTAAAAGGGCTGG
AGTACCACACCAACACAGGTAGGGGTGCAGGGCTTCAAGTACAAAGATTTGCATCCATGTATGTATCAAAAGTGGGTTCTCTGGGCTGTGGCTTTGTCTA
GTAGTACCACAGTGGCTAAAGTAGAAGAAAACCAAATCAAATGGGATGTGTCTTTTGGGAGGATGTACAAGACACAAATCTTTCACTAGGCACCGGGCAC
AGGGAAAACTGCAGGGAACAAGAGTTGTAGTGTTAGTGCAACTGTCTCAACGATGCTGTGTGGCTTCAGACCCAAACAAGGCCCTGAGGAAGGAGACTCT
CATTTCCCCAAGCATAACTGCAAGGAGAGGAGGAATTCCTAGGAGCCAAAGAGTTTTGTGGGGTGAGGGTAAATAAATGGCCCAAATGCCAACTAGGTGA
AGTTGTGACCATCTGGCTGGGAAGCCCAGGTCCACACAGTGTAGGAGCAGATGTTTTGTGGGGTCTGAGGTTTACGAGATTTGGCTGCCTTAAGAATACA
AAAACAGAAATGCAGAATTTCTGGGGCTGCTCCTAGGACCAGAACAAGTGAAGGGTCCTGGTGCTTAAACTTCATTACCTTCATGGTAAATCCACCAGAG
GGCCGGTTAGATGCTGGCCCCGCCGAGAGAACTGCTGTCACTTTCAGGCAAAGCTCAAAGGTCCTAGGCCCACAGTTCTTTTGAGCTCCAGTCATGGACA
TTAGGAAGTAAATCCTGCACAGCCAACCTGGAATACCAAAGATTAGATGGGAGATAGATACCAATGATTTAGATGGCACAGGAAGAGCAAGTTCTGGATA
TAATAAATGAGGGTACTTTCCGTCAAAGCTTTTCTATGTCTATATTTATCACTGAATAGTCCCAGTATGGTTTTAAAGCAAGTTTTATGAATCTCATTTG
CCTAACAGGAATCTGAAATATAACTTGCCAAAAACACACAGTTGGTGTGGAATGGTCATTAGAACCTGGGGCTCCTCTTCACGGACTCCCTGCTCATTAA
GGGATTCAGTGGTCCAGAGTCTAAGATCCTATTAAGTGTTTGATTCAAACCTCTACCCGAGGAAGGGCTGTTACCTTACTCCTGGTCCTGGTTTCAAGCT
CATTCCTGAAATTCCAGCTGGTTTCTCTAGCACCTAGTGTTGTTTACAAGAAGGCCACGGTGCTCTTAGCATTCAAACTGCAGATACTAAACAGATGCTG
TGATTTATTAAAGAGTTAGCCATATTTCAACAAGAAAGGGAAATGATGGCTATATTCATTACTTACCTCAAAGCATGCTGCAAGAAAATTAGTTAGTTAC
TTGTCATGCTTTGAAATCTCTGGATGAAAGGTGCTTTGGAAGCACAAACCATTATCACTTGTCTCATAGGGATTGTCCCCTTGAACATCCAGCAGTGTTA
TTTTACAGAAGACAAATTAACTGAAGGCTTTTCTTTTATTACATCTAAAGAGCTCTACATAAACAGGTAACATTCAATAGGTAAACAATTTTTTTCCAAT
GCATGTAATAAATATTTTCACTTGGTACTTTTATACAAACTGACATTGTCTACTATACATTTTTAAAAGCCATTTTACTGGTTTGGCATGCGGTATGGAA
ATTCTAAGAGAGAAAGTTTTAAGGCAATGAATCACAGATTTAAGTTCATGGAATTTATGGTAACTTTATCTGTTTATGTACATTTTCCCCTTTGTTAAAC
AATTAACAGCAGCACACTCTGGGACCACCAGCTATTTTCCCTCTCTTTCTGAAATCTAAGCTTTGTATTTAATTAAAAAACAGAATTCAACATCTATTGA
TAAAACAAAATTCTTACTAAAATAATTTCAAATGTGCTTTAAAAAGTCCTGAAGATCTTGAAAGTTTTATGTGTTTAAAATTGAAATTGTCTAAAAAAAT
GCTCTTTCCACATTAATTTAGTTAGGATATATTTTCACTCCATTTCAGACACTTGACTCAAAGGAAAATCTGCCAAAGAATCCGATTTTTCAGAGCTTAC
GTGAATCTTTCCTCAGTAAAGATACAGAATTGTGATCATGTCTAAATAATTAGTAAAGCAATTTTAATGCTCAAAATAGTCAACCAAGTATGGCATGGTT
CTGGTTCAGATTTTTTTTTTTTAAGATGTATCCAATAACACTCACGAAGTAATTAAAAGCCACTTTAACCCTGCTAGTCAAATAGCTATTTTATCAAAGA
TGTGTGCATACAGATGTATATATATATACACACACACACACAGTACTGTACAGAAACAAACATATGCATACCTACTATGAACGGCCAAGGCAAGGGGGAT
GATGGCAACTTGACTAGATTCTGAGAACTGCTATTTGTCCACAGATAGCATGTCAATGTTGGGATGGGTTGGGGAGTGAGCGTAGGCTAAGAAAAAAAGA
GATGAAGTGACTATGTGCTTTTCTTTAAACTTAGTAGTTACAGACATAGTACAGGACTCTACTAATAATTAGTAGAGATCATGAAAGTCTGATTGATATT
GACCATGAGACCAACAGAGTGACAACTATTACTTAATGCAACATTTTGGAAAGTCAACAACTGATGGAAACAAACTCCTCACAGGGTAGAACGAACTAAA
ATTAAGACAACTGAATGGTTAGTTTCTCCTGTGGACACATGACCAAAACCACTGAAACCACCGTATGTTTATTTCTCCCTATTACCTGTTCTTCTCTTAG
GTTGGTATAATGTGGGACACTGAGGGAAATTAACCTTTTCTACAACTGAAGAAAGTAGAGGGATACGTTTTCAACTGGATCATTCAAACGGTTTGTAATT
CAGCATCATACACAAAGTTACTGATCAGAATTCTGAGACCACTAACAATGACACATAAAAAAACAGGAAGAAAACTATTCATTTTACCTAAGACAGCTGA
ATTAGTAAAAATGTTTCCTAAAGCAATGTAAAAATCAGAAAAAACTCCCCACAATTTTAGTAATTTCTACCCCAACAGAAATTTAGACACAAATTATGGT
AGTATTAGAAATTAGCCTAAATTAATACGACATTTGCTCACTATAATGCCAGATTCATTAAAAAACATTAACTGTTTCCTGGTTAACTGACAATCTGTTT
TGGTTTTTTTTTTATTGCAAATTGTTTTATGACTATAACTCAGCCATTTGTGTGTGGAATACACATGCGTAGGGGAAGACTATGAAACTCACTTGTTACT
CAAACACACTTGTTTATAAATACATATATACACACACACATATACATATCAACACCAACTTTTTTTTTTCCCAAAATTCAAGTCAACAATTTRGTGGCAG
AGAGATGCTATAAAAACATTATTTTTAGATGCCACACAAGTCATGAGAACCATTAATTTTATCATACAACTGAAGTACAGCCATCTTGAATTCTACCTGG
ATTAAAGTTGATCATTTTGTTACCAATGCAAGGTTTAAAACTACAAGTGTATACACAAAGGTGGTCCTCATCAACTCTGAGAACATTAATAGTTGCGGTA
GGAAAATCCAGTCTGGAAAACCAGCAGTCATTATGCCCCTTATCTCTTCTGTTAAACCTGCATTCTCAATCAACTAAAAAATATTTTCCACACCTGAGAA
CATCATACCTTCTCTGATGAGGATTTTGGAACATTAGTAGAACCACTTTTCCTTCCCTCCAACTCATATTTCTCTCCTGAAAAACAGTTTTCAGTATATT
TACATGTTCCATTATGAATAAGAGTAGATCAGACTGATCCATGAATTCTAAAAAAAAATGACTTTCCTATGTCATACTTGTTAAAAGGTGAAGAAAAAGA
TAAACAAGGCAGATACGCTAAGAAAATAGGTATACTCAGAACCAAAGAGTAAAAATGACTAAGGGTCAAACACATCTTGAATTTCAACTGTTTATCAAAT
AGTAGACTTCTACAAAAATGTGGTGCATTGTACTTTCCAAACAATTTATTTTTAGGATAACTGACCGTGTATCTTTCTTTTTTAGGTGATGTAACATTAC
CTCTGTCAGCTGCACAAAACACCTGACAGAGCTTTCTAAGCTATTTTTACTTCCTACTTTGGTATGAAGATCTTACATGAAAACTTGTTACTCTGTGGCC
AAAAAAAGCAGGTATTCACAGACTTGGTTTAAATACACAATACTGGCAATCCAGATTTAGAATAAAGAACTAGACTAAAGTGTATTATTCATAGGTCGGC
TAAGCCTACTCCTTACCCAGACAGCTTTATTCCAATATCTCTAAAACATATTCTCAGGGGGTACAGAGCAAATAAGAGAATATGTGATGGAGAACATGCA
ATTGGGATAGTTGATAAAGATGCTCACACRTGAGTTCAAGACCTTCAAAGCACTTTGAAAGAAGCAAGCAACTGATTATATTAACTGAATGCACACTCGG
GAGGAGAGGGAACAGTGATGACAGAAAAATACATACAGACGCACACAATGAACACACACACCCACGAGCCATGTCCTGAAAATACACAGGGAATGCAGCG
GGACAGATGAGCTTTATAACTTAAGGCTGGATAAAATATGCACACACAAACAGAATCCAAGTCTGTCGTTTTCAGAAAATGGAAATCAAACTATCCCCCG
ACCCCCTCCCCACAACAAAGAAAAGCCCACGATTGAAAACTTCATACATGCAATTCCTTTTCTGTTATTGCAAATAAAATAATGCCATCGAAGTCAAATA
AAACCAAAACCATAGGACAAATAATGAAAAATCTTCAGAATCCAGAAAAAAATGAACTGAAGGTGGTTTGTGGGTGCTTGTTTTTCTTTTTTCTTTTCTT
TCCTTTTTTTTTTTAAACAAGTGTTTTATCACACAGGCAGTCTTAGATTTATATACAAAAGTAAAACTGAAAATATAGTTTTGTTCTCTGTACATTTCTT
TTAATTTTTTCCCTAAAAAAAGGAAAAAAAACACGCTTGTATACTTTTCTAAACAGAGTAAGGTAAAACAGAGCACAAAGTTCTCTTCTTTCTGCCAAGT
TCATTCGATCTGGGGTGGGGATGGGAGCAGCAGGGCCTGGGAATCAGTCCAATGAAATAATGTCTGGTATGATGCCAAAGATGRATGCCGTGTCCGTGCT
GCTCCTGTTTGTGACGGTGTGGCTATGGCTTTCCCTTAGGCTGTTGGAAGAAACCAGGCTGCTGTTACTGCCACTACTGCTTCCATTGGTGGTTGGCAGA
GAAGTACTGCCTCCTGCACTTAACTGATCAAGAAACATCTGTGAGGAGGTATACGGGAAAAACCGAGACGAGTGTAGGAGGTCTTGATCATCTGAAACTG
CTGCTGCTGCAGCGGCAAGCAAGGAGGTGTTGTAATGCTAGGGAGGGGAAACAAAAGACACAAAAATGTTAATTATACTTCCAAATTAATATATTTTCTC
CTCAGCGGGACACAGCCCTAAATTTAAGATAGCCTGAGTATCTAGGGTTTCTGAAATATTTACTAAGACATTTTGCAAAATCAAATGGCCTTATGTAAGG
ACTGGAGCATTGATCTTGAGAAGACATTTTTGTATCTGAAACTGGAGGAAAAACAAAATATAAATTTTATTGTTTTTTGTTTTAGTTTGTATTGCAAGCA
ATTACCAATTCTATTTCCCAAGAAGCATATGCTCAGAAGCAGCAGGAGGGGCAGACAGTCCATGCTCTTGCTAGTAAGGAGATACTTAGCCAAGAAATCT
ATCAGTCAATATGACTCACTGCCCTGTTTCTTTATAAAACAGTACTGGAAACCAACAGACACTGTTCTTATTATACACTCAGGCACCACTGAAAGTTAGA
ATTTTTATTTAAATTTTAAAGCCATAATGATAATGGGTATGATTACTCTAAGTTTTCCAAGGAAATTTATCTTTCTCTTGGCTACACATTATACTTTTAA
ATACAGTCATGCGTCGCTTAATGACACGGATGTGTTTTGAGAAATGCATCATTAGGCGGTTTTGTGGCTGTGCAAACATCACAGTGTGCTTGCACAAACC
TAGACAGTAGAGCCTGCTACACACCTAGGCTGTGTGGTCTGGCCTACTGCTCCCAGGCTACAAACCTGTACAGCATGTTACTGTGCTGAATGCCGTAGGC
AACTGTAACACAATGCTAAGTATGTGTATATCTCAACATAGAAAAGGTACAGTAAAAATATGGTATAAAAGATAAAAAAATGATACACCTGTATAGGGCA
CTTACCATGAATGGAGCCTGCAGTACTGGAAGTTGCTCTGGGTGAGCCAGTGAGTGAATGGTGAGTGAATGTGAGGCTTAGGACATTATTGTACACTACT
GTAGACTTTATAAACACTGTACACTATGGCCACACTAAATGTGTTAAAAATATTTTTCTTTCTTCAATAATAAATTAACATTAGCTAACTAATTTTACT


SNP Information

Context             (SEQ ID NO:39607):
CAGAAAGACAAGGTGAGGGTGGCCATGAGAGGTCCCCAGGGGTACCCCCTGTAGTGCTAAGGTTAAGCTCTGTGATTGGGGCAGTCCTCTCTCTGTCCCC
M
TGACGTGAGGTGATGGCATTGTCCCCTCTGGCACTGGGCCCTCTTGCAGGCAATTGGGTTTTATGGGAACTAAACCTGGGGTCTTAGGCCAGGCTCTGGC
Celera SNP ID:            hCV214022
SNP Position Genomic:     11085
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39608):
CAAGGGCAAACCCAGACAGAAAGACAAGGTGAGGGTGGCCATGAGAGGTCCCCAGGGGTACCCCCTGTAGTGCTAAGGTTAAGCTCTGTGATTGGGGCAG
Y
CCTCTCTCTGTCCCCCTGACGTGAGGTGATGGCATTGTCCCCTCTGGCACTGGGCCCTCTTGCAGGCAATTGGGTTTTATGGGAACTAAACCTGGGGTCT
Celera SNP ID:            hCV214023
SNP Position Genomic:     11069
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39609):
ATTACCCGGGCCTCCACCCAGCTTGGCAGACTTTAGACTTGAGGCTGGAGGAAAGGGAACTGAACGCGGTTCTGGGAGCAGCAAGCCCACGGGTAGCAGC
Y
GAGGCCCCAGAATGGTGAGTGTGAGGGTCTGTGTCGGCCTGGCCAGGGCTGGGGGCGTGAACCTCAGGTGGAGCCCTCCCCTGACTGTTTTCCTTTCTCT
Celera SNP ID:            hCV25961880
SNP Position Genomic:     7221
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,34|T,2)   total(C,67|T,7)
SNP Type:                 NONSENSE MUTATION;TFBS


Context             (SEQ ID NO:39610):
AGGTTACGTCATGGCGTCCGACCTGCGGTCAAAACTCACGAGTCTGGGGGAGAAGCTCACCCACAAGGAAGGTAACAGCCTGGGTCCTGTCTCCCAACAG
Y
TGGAGGGGGTTAGGGAGTTGGAAGGAGGGCACCAAAGCCTAGCTGATGCCACCAGGGTGGTACAGACCACCTCTGTTGATGCGCGCGCAGGAGACTGTGA
Celera SNP ID:            hCV25970974
SNP Position Genomic:     15069
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,40)   total(C,3|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:39611):
CAGGAGGCGGAGGTTGCAGTGAACCGAGATTGAGCCACTACACTCCAGCCTGGGCAACAAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAA
A
GCCGGTCATGGTGGCACATGCCTATAATCCCAGCTTCTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGCTGCAGTGAGCTGAAAT
Celera SNP ID:            hCV11477611
SNP Position Genomic:     9671
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39612):
AAAGATCAAGGTTTACATCCATTAAGTTCTTGAGCCAATGATGGCATCAGGATTAGTACCCAATTCTTCTGATATCAAAGACTGACCTAAAAACTATGCA
A
TAGTTTTTAGAAAAACTATTGCTAGAAAAAAAATGCTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCTCTGGTAATGGGATTATGGGTGATT
Celera SNP ID:            hCV26911680
SNP Position Genomic:     13724
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39613):
CAAAGATCAAGGTTTACATCCATTAAGTTCTTGAGCCAATGATGGCATCAGGATTAGTACCCAATTCTTCTGATATCAAAGACTGACCTAAAAACTATGC
A
ATAGTTTTTAGAAAAACTATTGCTAGAAAAAAAATGCTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCTCTGGTAATGGGATTATGGGTGAT
Celera SNP ID:            hCV26911681
SNP Position Genomic:     13723
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39614):
GCAAAGATCAAGGTTTACATCCATTAAGTTCTTGAGCCAATGATGGCATCAGGATTAGTACCCAATTCTTCTGATATCAAAGACTGACCTAAAAACTATG
C
AATAGTTTTTAGAAAAACTATTGCTAGAAAAAAAATGCTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCTCTGGTAATGGGATTATGGGTGA
Celera SNP ID:            hCV26911682
SNP Position Genomic:     13722
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39615):
AGCAAAGATCAAGGTTTACATCCATTAAGTTCTTGAGCCAATGATGGCATCAGGATTAGTACCCAATTCTTCTGATATCAAAGACTGACCTAAAAACTAT
G
CAATAGTTTTTAGAAAAACTATTGCTAGAAAAAAAATGCTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCTCTGGTAATGGGATTATGGGTG
Celera SNP ID:            hCV26911683
SNP Position Genomic:     13721
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39616):
GCCCAGCCTGCGACTGAGGCTTGAGACCCCAGGTGGGGGTGCTGATCCATCCTGGTAAGATGTACTGTGGTGGCTGTCAAAGGTGGAATGCACACATGGA
Y
CTGTTTCCCTCCAGTTCAGGGCAGGAGGGAAGCGCTAGAAGGGAGCAGAGGAGCCCAGTCCTCCATCTGTGGTTGGGAACCCACTTTCTTGAGCTTTGGG
Celera SNP ID:            hCV29277111
SNP Position Genomic:     14510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39617):
GTGTCAATCCCTACATCTATCTGTACAAAAAGTTAAAAAGACAGCCCTATTGTGATCAGTGGAGATGGAGATTTGAAAGAAGTTTCAATTTAATGAATGT
R
TTTGGTAAAAGGGTGAGAAATAGTTTAACAGTAGATCACATCAGGTTTAATGACCATTCATTCATTGGAAAAAGAATCGCACTCATTGGCGCGCAGCTTC
Celera SNP ID:            hCV11477615
SNP Position Genomic:     9064
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39618):
GGGCTGGCTCACTACAGCTAGCAAGAGCCATAGTTTTAGGAATTTTGCAAGCAGGATGTTAAAGCCAGCCATTATTAAATAATGTAGGATCAAACAGTGT
K
TCAATCCCTACATCTATCTGTACAAAAAGTTAAAAAGACAGCCCTATTGTGATCAGTGGAGATGGAGATTTGAAAGAAGTTTCAATTTAATGAATGTATT
Celera SNP ID:            hCV11477616
SNP Position Genomic:     8966
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,8)   total(G,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39619):
TTGAACCTGGGAGGTGGAGGCTGCAGTGAGCTGAAATTGTGCCATTGCACTCTAGCCTGGGCAACAAGAGCAAAACTCTCTCAAAAAAAAAAAAAAAAAA
R
GTTGGCAAAACTCATTTGTGGTAATCAAGTGGCTAGATGGAATTTATTTATTTGAGACAGAGTCTTGCTCTGTGCAATGGCATGATCTCCGCTCATTTCA
Celera SNP ID:            hCV26911685
SNP Position Genomic:     9835
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3|-,4)   total(G,3|A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39620):
TTGTCTAGTAGTACCACAGTGGCTAAAGTAGAAGAAAACCAAATCAAATGGGATGTGTCTTTTGGGAGGATGTACAAGACACAAATCTTTCACTAGGCAC
C
GGGCACAGGGAAAACTGCAGGGAACAAGAGTTGTAGTGTTAGTGCAACTGTCTCAACGATGCTGTGTGGCTTCAGACCCAAACAAGGCCCTGAGGAAGGA
Celera SNP ID:            hCV26911669
SNP Position Genomic:     19794
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:39621):
GCTCCACCCACAGGCCCGGGTGCCTCGTCTGGGCTGGACGAGAATCTCCCTGTCCTGATGGCAGCCCCACCTACCCCTAAATCAGATGCTCAGTCAGTGC
R
GTTCAGGGACTTTTCCTGAACTCCCAGCTGGCCTTCCTGGGCCTCCCAGGGCCGGGAGCCCGTGGGATGGCTGTGTCAGGCCGGGAGTCTGTGGGTTTAG
Celera SNP ID:            hCV29277112
SNP Position Genomic:     11917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39622):
CAAGCCCACGGGTAGCAGCCGAGGCCCCAGAATGGTGAGTGTGAGGGTCTGTGTCGGCCTGGCCAGGGCTGGGGGCGTGAACCTCAGGTGGAGCCCTCCC
C
TGACTGTTTTCCTTTCTCTGCTGCAGGCCAAGTTTCTTTCCCAAGACCAAATTAATGGTAGGTTGGGTTTGTTCTTTGATTAGCAACTCAGCAAAATATG
Celera SNP ID:            hCV11477617
SNP Position Genomic:     7302
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39623):
CCAGGAGGCGGAGGTTGCAGTGAACCGAGATTGAGCCACTACACTCCAGCCTGGGCAACAAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAA
A
AGCCGGTCATGGTGGCACATGCCTATAATCCCAGCTTCTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGCTGCAGTGAGCTGAAA
Celera SNP ID:            hCV26911686
SNP Position Genomic:     9670
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39624):
AAAAGAATCGCACTCATTGGCGCGCAGCTTCATTTGTCAAATCATGGTTGAATCGAAACTATAGGTTGGCAATGGATATAAGAGTTGGCAAAACTTGGGC
Y
GAGTGCAGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCATGTGGATCACCTGATGTCAGGGGTTTGAAACCAGCCTGGCCAACATGGTG
Celera SNP ID:            hCV26911687
SNP Position Genomic:     9234
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39625):
CTCCAAGCCCCCGAGGAGCCTGTGGTGGGGCTGGAGACCCGGCTCAGGCCCCTCCACCACCCTTAAAGTCCTCAGAAGGTGGGAACTGAACTGGCACAGG
M
TGGGAACCGGCTGTGCGCTGGCCACTTGATTTTGCCAGCTGCCCTGTAATTCAGCTGGTGAGGAAACTGAGGCACAGACTGAGGTAGAATGATTCGCCAG
Celera SNP ID:            hCV29277113
SNP Position Genomic:     6550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:39626):
AGCAGCCTGGAGGCCAGGGCAGGGGCAATAGGCTCAGAAATGCCCCAGCTCTGATGATGATGATAATATCATCATATGAAGGCCACTCTCTGGCAGGCCT
S
CTGGGATTTCTGGCTCTCACAGTAATCCTGAGGCCTTATTATTCCCATTGTCCAGAAAAGTTGTGTTTGCAGAGGTCCCCTGGGGGTCTGGACGCCTTGC
Celera SNP ID:            hCV9143834
SNP Position Genomic:     12261
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39627):
TCTTCTTTCTGCCAAGTTCATTCGATCTGGGGTGGGGATGGGAGCAGCAGGGCCTGGGAATCAGTCCAATGAAATAATGTCTGGTATGATGCCAAAGATG
R
ATGCCGTGTCCGTGCTGCTCCTGTTTGTGACGGTGTGGCTATGGCTTTCCCTTAGGCTGTTGGAAGAAACCAGGCTGCTGTTACTGCCACTACTGCTTCC
Celera SNP ID:            hCV9710631
SNP Position Genomic:     24684
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39628):
ACAGCCTAGGGGAAACCCAGCTCGGAACCCACAAGGCAGGGCAGCTGGAGCGTGCAGTCTGGTCTCCCCCTGTGTTCAAGCTCTCACTGTGGGGCTTCAT
Y
TAGTGCATGACACCCCTGGGAGCACAAATGCCTGCTCCTACTGATAAAGAAGCAGGGGGAGTGAGCGGCTCCCAAGCAGCGGCGCAGGAGCGAAGGCAGG
Celera SNP ID:            hCV15969664
SNP Position Genomic:     15361
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,9|C,1480)   total(C,1480|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39629):
AAACAAGAAGACCCAAAGAAAGAAATTCTTCTAGCCATGTTGATGGTGGACAAGGAGAAGAAAGGTTACGTCATGGCGTCCGACCTGCGGTCAAAACTCA
M
GAGTCTGGGGGAGAAGCTCACCCACAAGGAAGGTAACAGCCTGGGTCCTGTCTCCCAACAGTTGGAGGGGGTTAGGGAGTTGGAAGGAGGGCACCAAAGC
Celera SNP ID:            hCV15969665
SNP Position Genomic:     15007
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,62|C,1431)   total(A,62|C,1431) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39630):
AGGTTCACGCCCCCAGCCCTGGCCAGGCCGACACAGACCCTCACACTCACCATTCTGGGGCCTCGGCTGCTACCCGTGGGCTTGCTGCTCCCAGAACCGC
Y
TTCAGTTCCCTTTCCTCCAGCCTCAAGTCTAAAGTCTGCCAAGCTGGGTGGAGGCCCGGGTAATAAATGCTCGGCTGCCATGGAGACTGGGCCCGACGCC
Celera SNP ID:            hCV27490914
SNP Position Genomic:     18815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:39631):
GCAGACGGGGAGGACTGAATCCCAGCCTGAGAGCACCGAAGCTTGTATCCCTGCAATACCGAGCCCCAAGCCTGCGAGCCCCGGTGCCCATCTCTGAGTT
R
GGCCGTCTTGGAAGGGTTCCCTTCCTCCTACAAGATGGTGTGTGAGGAGCCTTCAATACGACCCGGGGTGTAAAGTGTCCAACTCTAGTAGGGGCCTGAT
Celera SNP ID:            hCV232629
SNP Position Genomic:     6766
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,18)   caucasian(A,17|G,19)   total(A,33|G,37)
SNP Type:                 UTR 5

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:39632):
AACGGGGAGAGGGGAGGGGCCCAGCAGGTGGGTGCAGACAGTAGAGGTGTGAAAAGCTCAGCAGTTTGAGGGGCAGGTGGCAGGGAGGCCTCCTGGGGAT
Y
CAGCTGTGGCAGCCCCAGACCAGGAGTGCCGTACCTCACTTGGGCTTCCTGGAATCCTCATAGCAACCAGTGATACCCCATCTCACAGACCTCGGGATCT
Celera SNP ID:            hCV1713054
SNP Position Genomic:     13057
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39633):
GAGTAGGCAAAAGGAAGGGGAAAAGAGGGAGAAGAGACTAAGGATGGGGAGGGCGGCATGGGCGGAGAGTGACCAGACGCTGCTGACCCTCCCTCTGGGC
Y
GTGTGCAGAGTACAAGGAATGCTTCTCCCTGTATGACAAGCAGCAGAGGGGGAAGATAAAAGCCACCGACCTCATGGTGGCCATGAGGTGCCTGGGGGCC
Celera SNP ID:            hCV1713055
SNP Position Genomic:     12789
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,12)   caucasian(C,17|T,19)   total(C,37|T,31)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39634):
TCATGCTGCCAACCCCACTCTGAACCCCAGCTCATCGAGCGGTCCCCCCGCACCCTGCCACGCTCCATCACGTACGTGAGCATCATCATCTTCATCATGG
R
TGCCAGCATCCACCTGGTGGGTGACTCTGTCAACCACCGCCTGCTCTTCAGTGGCTACCAGCACCACCTGTCTGTCCGTGAGAACCCCATCATCAAGAAT
Celera SNP ID:            hCV27859728
SNP Position Genomic:     691
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:39635):
TTCCAATATCTCTAAAACATATTCTCAGGGGGTACAGAGCAAATAAGAGAATATGTGATGGAGAACATGCAATTGGGATAGTTGATAAAGATGCTCACAC
R
TGAGTTCAAGACCTTCAAAGCACTTTGAAAGAAGCAAGCAACTGATTATATTAACTGAATGCACACTCGGGAGGAGAGGGAACAGTGATGACAGAAAAAT
Celera SNP ID:            hCV284926
SNP Position Genomic:     23930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:39636):
CTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAAGAGCGAAACTGTTTT
W
AAAAAAAAAAAAAAAAAGCACACGGTGGCATCAGTGACCGAATCCTTACCAGTACACCTCCCTACTCCCTGCCCCTGCAGAAAGCCCGATTAGCTCAAAA
Celera SNP ID:            hCV26911670
SNP Position Genomic:     18079
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39637):
GGGCGCAGGGAGGTCTGCCAGGGTGAAGGGACAGCCTAGGGGAAACCCAGCTCGGAACCCACAAGGCAGGGCAGCTGGAGCGTGCAGTCTGGTCTCCCCC
T
GTGTTCAAGCTCTCACTGTGGGGCTTCATCTAGTGCATGACACCCCTGGGAGCACAAATGCCTGCTCCTACTGATAAAGAAGCAGGGGGAGTGAGCGGCT
Celera SNP ID:            hCV26911671
SNP Position Genomic:     15331
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39638):
CTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAAGAGCGAAACTGTTTTAAAAAAAAAAAAAAAAA
A
GCACACGGTGGCATCAGTGACCGAATCCTTACCAGTACACCTCCCTACTCCCTGCCCCTGCAGAAAGCCCGATTAGCTCAAAATGGAATAAGGGTCTCAG
Celera SNP ID:            hCV11477604
SNP Position Genomic:     18096
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39639):
AGGAGCGGGGAGGGGAGAGTGGGGCACAGGCAGCGCCTCCCGTCTATGCGCCTGTGTGCAAAGTGGCACAATGCCCCCCTTCCTATTGGCAGTGCAGCCC
C
TGGCCAGCAACCACTCGCACCTGGGCTGGGGGCCTTTGTGTAGGGCACACCTGTGCAGCCACACCTACTTGTAGAGCCTCATAGACTCAGCTGTGGACAA
Celera SNP ID:            hCV11477620
SNP Position Genomic:     6119
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,6)   total(C,1|-,6) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:39640):
AGGGCGCAGGGAGGTCTGCCAGGGTGAAGGGACAGCCTAGGGGAAACCCAGCTCGGAACCCACAAGGCAGGGCAGCTGGAGCGTGCAGTCTGGTCTCCCC
C
TGTGTTCAAGCTCTCACTGTGGGGCTTCATCTAGTGCATGACACCCCTGGGAGCACAAATGCCTGCTCCTACTGATAAAGAAGCAGGGGGAGTGAGCGGC
Celera SNP ID:            hCV26911672
SNP Position Genomic:     15330
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39641):
CTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCTCTGGTAATGGGATTATGGGTGATTTTTGTTCCTTTTATTGTTTCCTGTATTTTCAACAA
Y
GAGAACACATACAGCTTTTCATAATCAGAAACAAGTTTTATGTTTTGTTTTGCTTTTTCTAAGAAAAAAAGTAGTTTCAGAGCCTGGGGTTGCTGTTTGC
Celera SNP ID:            hCV26911673
SNP Position Genomic:     13860
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39642):
GTTCTTGAGCCAATGATGGCATCAGGATTAGTACCCAATTCTTCTGATATCAAAGACTGACCTAAAAACTATGCAATAGTTTTTAGAAAAACTATTGCTA
G
AAAAAAAATGCTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCTCTGGTAATGGGATTATGGGTGATTTTTGTTCCTTTTATTGTTTCCTGTA
Celera SNP ID:            hCV26911674
SNP Position Genomic:     13749
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39643):
TGTCTGTCCGTGAGAACCCCATCATCAAGAATCTCAAGCCGGAGACGCTGGTGAGGCCACCTCCTGCTCCCTGCCTGTAAGCCCTAGGAGCACAGTCTGT
Y
CTGGGAGGCTGAAGAAATGGCCCCCACCCCTCGCCGCACCTGTCCTTTCACCAAAGGCATTCTGCTAGGTGAGGGCACTGTCGCCTGCCCCAAGCTAGGA
Celera SNP ID:            hCV22272679
SNP Position Genomic:     860
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,3)   caucasian(C,20)   total(C,43|T,3)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,9)   caucasian(C,23|T,9)   total(C,40|T,18)   
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39644):
CCCCCAGGATGGTTTTAGCCACCTGGCTGATTGTGGAAACTTCTCCACAAAATGAGATGAATTATACTGTCCTCAACATTCTCCCAATAAATACTCAGAA
Y
TACTATCAGCTTAGGCCAAGGCATGGTGATTATACTTTCGAGAAGGATAGTTAAGCAGAGAATCACAGGATATTTTCTAACTGACGACCGGAGGTGTGTG
Celera SNP ID:            hCV11477606
SNP Position Genomic:     17127
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39645):
AAGTTCTTGAGCCAATGATGGCATCAGGATTAGTACCCAATTCTTCTGATATCAAAGACTGACCTAAAAACTATGCAATAGTTTTTAGAAAAACTATTGC
T
AGAAAAAAAATGCTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCTCTGGTAATGGGATTATGGGTGATTTTTGTTCCTTTTATTGTTTCCTG
Celera SNP ID:            hCV26911675
SNP Position Genomic:     13747
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39646):
TCAGTGGTCTGATACCTGAGATCCCCCATGTCCAGCTCCAAAGGGGTGGTGGTTTCCTTGATTTCTGTCCCCTCCAAACAGGAAGTTGTAGTCCAGGGAA
K
TTTTGATTTCCTGCAGTTACATCCCAGCCAGGGCCCGTGGAGGAGGGGCTGGGATGGAGACTGCAGTGAGGGGAAGGCAGGTGAGCAGCCCAGCCTGCGA
Celera SNP ID:            hCV11477607
SNP Position Genomic:     14322
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;JBIC-allele(T,242|G,1259)   total(G,1259|T,242)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39647):
TAAGTTCTTGAGCCAATGATGGCATCAGGATTAGTACCCAATTCTTCTGATATCAAAGACTGACCTAAAAACTATGCAATAGTTTTTAGAAAAACTATTG
C
TAGAAAAAAAATGCTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCTCTGGTAATGGGATTATGGGTGATTTTTGTTCCTTTTATTGTTTCCT
Celera SNP ID:            hCV26911676
SNP Position Genomic:     13746
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39648):
ATTAAGTTCTTGAGCCAATGATGGCATCAGGATTAGTACCCAATTCTTCTGATATCAAAGACTGACCTAAAAACTATGCAATAGTTTTTAGAAAAACTAT
T
GCTAGAAAAAAAATGCTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCTCTGGTAATGGGATTATGGGTGATTTTTGTTCCTTTTATTGTTTC
Celera SNP ID:            hCV26911677
SNP Position Genomic:     13744
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39649):
CATTAAGTTCTTGAGCCAATGATGGCATCAGGATTAGTACCCAATTCTTCTGATATCAAAGACTGACCTAAAAACTATGCAATAGTTTTTAGAAAAACTA
T
TGCTAGAAAAAAAATGCTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCTCTGGTAATGGGATTATGGGTGATTTTTGTTCCTTTTATTGTTT
Celera SNP ID:            hCV26911678
SNP Position Genomic:     13743
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39650):
AGATCAAGGTTTACATCCATTAAGTTCTTGAGCCAATGATGGCATCAGGATTAGTACCCAATTCTTCTGATATCAAAGACTGACCTAAAAACTATGCAAT
A
GTTTTTAGAAAAACTATTGCTAGAAAAAAAATGCTGAAAGAAAACCCATCCAAGATGTTACCAAGTGGTTCTCTCTGGTAATGGGATTATGGGTGATTTT
Celera SNP ID:            hCV26911679
SNP Position Genomic:     13726
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39651):
TTGTTACTCAAACACACTTGTTTATAAATACATATATACACACACACATATACATATCAACACCAACTTTTTTTTTTCCCAAAATTCAAGTCAACAATTT
R
GTGGCAGAGAGATGCTATAAAAACATTATTTTTAGATGCCACACAAGTCATGAGAACCATTAATTTTATCATACAACTGAAGTACAGCCATCTTGAATTC
Celera SNP ID:            hCV9710642
SNP Position Genomic:     22893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:39652):
GGAGGCACCGCCCACTCCCCTGGCATTCCAGCTTTGCAGGTGACCCTCCTCTACCCAAAGCTCTGTCCCCCTGCTCCCACTCCAGAAGAACTGCGGCACG
Y
GCTTCGGGCAGCCTAGCCACAGGCTTTGAGCGCCTGCATTCCTGGGGGCTGGAGGGTGGGGTGCCAAAGGCCCTGAGCAAAAGCCAGAGCTCCTCTCATC
Celera SNP ID:            hCV9710643
SNP Position Genomic:     5157
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:39653):
GGGAGGGAGTAGGGAGAAAGGGAAGGGGAGCCAGATAAAATACAGGACACCCAGTTAAATTAGAATTTCAGACAAACAACAAATACTTTTCCAATAGAAG
Y
ATATGTCCTATGCAAAATTTGGGGCATACAATAAAAGTATATTCAGTGTTTATCTGAATTCGGTTTAACTTGGCAGTCCTGTATTTTCATTTGCTGTATC
Celera SNP ID:            hCV1713061
SNP Position Genomic:     12555
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39654):
GGCAAGACAACATTACCCAACTATAGAAGAGAGGCTAACTAGCAACAATAATAGATGATTTCAGCCATGGTATGAGTAGATCTTTAATAAAAGATTTGTA
Y
TGATTTTATTAACTACCGTGAGTCCGGCCCTTTCAAGCATGGAAGGAGCCTGCGGTTTGGAGTCTGGCCTGGGTTCCAGTCCTGGCTCTGCTGCTTCCCA
Celera SNP ID:            hCV25959943
SNP Position Genomic:     18667
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,30)   total(C,1|T,63)
SNP Type:                 UTR 3


Gene Number:                 175
Celera Gene:                 hCG24006 - 66000115786940
Gene Symbol:                 DGAT1
Protein Name:                diacylglycerol O-acyltransferase homolog 1 (mouse);ARGP1;DGAT
Celera Genomic Axis:         GA_x5YUV32W0T1(747102..771780)
Chromosome:                  Chr8
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12335):
GGGTGAGGTGAGGTAGGGAGCGCCCTCCTTCTCCCGCCTCTGCGCCCCTGGATCGCGTCGCAGGGACTCAGGTCTTCCCCACCCCTTCCCAAGCCTTCTA
GCGCAGGGCCTGCGGCCCAGACGTCCAGGGAGCCGGCCCCTCCCCGGCAGCAGGCCGGGGCGGAGCAGGAGCGGGCGGGCCTGCAGGGACGCCCCTGCCT
AGCAGCCTTCGCGGAACTCCCGGCAGTGTTAGACGCGTTGTGGGTCGGGGAGAGGGGCGGACGGCGGCACCCCCTCCCTCGGGTTGCTTCTGGGGCCTCA
GTCGGAGCCGCCCTCCTACCCTCGCCTCGCATCCTCTGCCAAATCCGAATTCTTCCAGCCCAGCTTCCCGGGCTCTGTCCTCCATATCGAATAATAATGA
CACATATCGAATCGCATGGACTTATCCGACCTCCTCAGACCCCGCTTCCGCCCTGCCCCGGGCCCCCACCCCCCCCCCCGTACCCCAGGCATTCGTGTTG
GAGGACGGATTCCCGGGGCCGGCAGGCAGGCCTGGGCGCTGCCCTCTACACACCTCTGTCTTCGCTTTGCGGGTAAAGCCCCCTGGGGGGGTTGCGGACG
CGTCGGGTTTCTTTTTCTGTATTTGTACGTTTTATTTATGAACGGATTGCACTCGGGTCAGGGAGGGGGCGCTGAACCCCCATCTTGCCCGCCGACGCCG
GGGGCCTGGGATGTCCGGGATTACTTTCCACGCCCCGAGGCCCGCCCCTAGCTGGGAGCCTCTAGGGAGCCTCAGGCCCCGCCTCTCCGAGGCAGGCCCC
TCCCCTGAGACCCAGGCCCCGCCCCYGAGACCCAGGCCCCGCCCCCACTCGGTTGCCAACTTTCGCCCGTCTATGCCAAAGCCTCGGCGGCGACCCCGCC
CCAAGGGCCCGCCCCATTGGCCGCCGCCTTTGTGACGTCACTGCATGCAGCCCCACCCCTCCTCCCGATCCTACCCGGGGCTGCCCGCTCCCCCTCCCTC
TTAGGTAGTCCGAAGCCGACTATAGAGCAATAATGCGCACTGCATGCGAAGCTGCCGCCGCCTCTAGAGTTACTGAGAATCAGGTATCCCCTCGCCCTAC
CCACCCCATAGGCCCCTAGATCAGGGACGCTGCGCGGGGCCGGCCGCGCATACTTTCTCCCCACCCCTCCCCGACCCCCACGGCAGAGCCCGGCGGCTGT
AATGGTTCCATGGGCGGGGGTGGGGTGGTTGCCCCCAAGACCCCTCCTTCAGGCATTAATCATTCACTGACCGTTCATTGAGCACCTMCTATGTGCCAGG
CCAATTGCTGAGTCCGCCAGGAGCGCAGCCACCTGCTGGGAGGTGTGTTTGCAGGACAGGGGTCCAACCGGCTTGGGTGGGCCAGGGAAGAACGGCAGAT
GCAGAGAGACCAGGTCCCTAGGTTCACATGCCCCCTACACTCCTCCCCACCTCAACCAGTCCCTGCTGGGCACAACTGGGCTCTACCTTTGAGTTAGGCC
TTTTGACTCCAGCTGAGGGGGACAGATCCAGGGCTCCTGGGCCCCCACACAGGTGGCCACTTCTCTGATCCTCTGGCCAACACACATCTGCCATGTCCAG
CCAGGGGCAGAGCCATGGCTGGAGAAGAAGGTGCCAGCTGTAGCCTATGGTGTGGCCAGCCTCACCCCCAGCAGCAAGCGTGGCTGCCCCCACAAGGATG
ACCCACCGCTCTGCACAGCAGTGCCCACATCCAAACACCCTACACAACCAGGTGTGGTGCCTGCACAGCTCCCAAGCTGGGGCCTGCCCACCTGTGCCGC
ATGCACACGCACACACAGGCGCCCCCACCTCACCCCACCCCATACTCCTGTCTACCTACCTAAGGAGAAAGCTGGAGGGCTGTGGGCCCGTCAGGGTCTC
CTGCTTCCCCCTACACCCCGCCGCCGTGGAAAGCCATGGGCCCCCTCCCTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCGCATGTGCCCCGCCGCCTTGTACATATTCCCACCCGGAATAGGCCGGGATTTTTACTC
GGGCCGTGCCCCTCTTCCGCCCCCATTTGGGGCCAGGCCGGCCGGACAGACGGACGGACGGACAGACCTCCTTCCTAAGCACAATAGCACCAGCTCCCCG
GAGCACCGCACCTCCACAAGGAGAATAAATGCCACTCTTGATAGAATTTGGAGTGTCGGGCTGATGTGTCCTGGGCTGGGCCCACGCTGTTGGGTGGCTG
GGAGGGTCTTCCCAGTCTGGCAGTACCTCAGAGGCTGGTGCTGCAAGGGTCAGCCTGAGGCCTTTCACAAGACGGCCCTCTTCTTCCACTGGGGAGGACA
GGCTTGGCAGGCCCAACCACAGGAGCATCAGGTCTGAAGGCAAAGTAGTTGGCATTTCCCCTGGGGTAGGTGGATCTGCTCCACACCAGGAACAGGAGCA
CTAAGGGGTTCCAGTCTAAAGTCAGGCCAAGCCCACGGTTGGACCAGAGTGGGCAGGGTAGGTATAGTAGGAGCTGCTGTTCCCCAGCCTGGGTGCCTTC
GCTCTTCTCTCCCTGAAGGAGCTTTATGCTGTGATGGAAGGCCTGATAGCCACCTCAAGCCCTCTGAGATGCTGTTGCAGGAAATGGGGACAGTGGAGAG
TTCGAGGTCTGGCCCTTTTCCTGTGGCCTGCTGCCCACATTCTGACCCCCAGGCTTCCCAGATATGCTCCCCCAGTGTCTGCGGATGCCTCCATGGATAG
CTGGGTTGGACCGGTTCCAGGGAGGAGGTGCCCAGGGGGCAGAGAGGCTTCTGCAACCATCGCCCAAGGGCTCTAGACAGAATGAGTAGTGGAGGAGATA
AGGGACAGGGACCCTTTGCCCAGCAATGTCCCCTGGTAACCAGGTAGGCAGGCATGAGCCGAGAGGCCCAAAGTCTTCGGGCACATACATTCAAACCAGG
TCAGTCCTAGATCCAGGGCCAGCAAAGCTGCCCACACCCTAGCAGGGACAGGGGACAGACCTGCCCAGACTCCACTAGGGTGGAGAGCAGGGGAACCAGG
TCTGCAGCATGTCATGGCCTGTGTGCCTGGCACTTGGAGGAGCTGTGGTGCAGGTGGGTGCTCTCTTTGGGAGAGCACTACCAGCAATGACAATGGCAGA
CAGCAATGGCCAGGAGGAAGGCTCCTAGCCTCACTCCTTCCAAAGGACTCCAACAGCGACTGGCTGTTTCTACTTCTCCAGGATTCTGATGCGTAGAGTG
GGTGGAAGGATGGAGGTGGCCTCCCTGAGGCCTGGGATGAGCTCGACCCCCCAGTTCCTCCCAGCCACAGACACAAGTTTCCCTCTGAATGAGCAGCACA
GGCCATAGACCACCACTGGCTGTGAACTCTCCTGGGACCCTTGCTTCTCACAGGCCTTCTTGGCCCACCCATGGCCCCTAGGCCCTGGGATCAGCCTGAG
GCCCCAACCCACTTCCAGCCCTTTATTCCACTAGCCCTGGAAGGCAACTCGCTTCGGGCTTGGGCCCCCTCATTTGTTGCTGCCCCCAGCAGGGTGATCT
GCATCATGCTTTCCTCGATGACCCAGCCATACACACCCTTGTCCCCAACCAACCTCACCTACCCTGACCATTCCCCTCACCCTAGATCCCAGGGTATAGG
GCCTGTCTGGGCAGGGCTTCACCCACCTCTGGAGCTGCTGCCCCGCCACGCCCCCACCCCCGGTGGCAAAGCCCTTCCTTAATGGCCCGCCCACAGCCAG
TGCTTTCCCCATTGGCTCCAAGCCTGGCTCTGCTCACCAGGCCCGACCCATCCTCCCTGGTGGTCCAGTCCACCCTCCCATTGTCTTTCTCCTGTGGCCA
CTTGCCGGCTTTGAGTTGGGACGCGACCACAGGTTGAGTCGTTGATCTCCTCTGCCTAGCATGAGGTGCTCCGTGGCCAGGTCCAGACCTCTCTGAGCTT
GCTGTCAGTCCATACTCAGACAGGTCTGGGCCTACCTGGCCACAGAGTGTGTCTGCCAGCGACTGCATTCAACAAATGAATATTCTGAGAGACTGGGTAG
GAGATGGGGCTGGTCCTGACCGACCAAGGCCCATGTGTGAGGGGCTCTTGGGTCCAGTGAGGGCGGCCCCACTCGGCAGGCTACACAAAGGGCATCTGCC
AGGTAGCTCCAGCCTGCCTGATACCTGGTTGGCAGCAACCCACAGCGGCCTGTGGTGACAAGAATATGTCACCAGGGGGGCAACCAAGGGGGCAGCCCTG
CTGGCCACTGTTGGTGGAGGTGGTGGAAGAGGACGGAGCTCAGAGGCGAGGCTGTGACCAGCCCACGGGAGAGGACCCCACCTCAGGAGGAGCACCTGTT
TGCTTCCAGAGAAGTGCTGCTTGCCCCTGCTCACCCCAGAGGAATGAAGGTGTTTCTAGAGTCAGAGTCCTCAGTGAACCCTGGCATCCTGAGATCCAGG
ATGTTCTCACTCCATGCCCTGTGCAATATGCACACCAAGCCAAGGTGGGCCGCAACTGTGGCTGTTACAGTTGATTAGTTGCTTCATTTAACATACAAGA
TGTCTGGGGCAGTGGCTCATACCTGTAATCCCAGCACCTTCAGAGGCCGAGGTGGGAGGATTGCGTGAGGCCAGGAGTTCGAGACCAGCCTGGGCAGAAT
AGCGAGACCCCCATCTTTAGAAAAAATAACAACAGGCCAGGCGCGGTGGCTTGCGCCTATAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGA
GGTCAGGAGATCGAGACCAGCCTGGCCAATATGGTGAAAGCCCGTCTCTACTAAAAACAGAAAAATTAGCTGGGCGTGGTGGCACGCGCCTGTAGTCCTG
GCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGACGAGATCGCGCTACTGCACTCCAGCCTGGCGACAGAGT
GAGACTGTCTCAAAAAAAGAAAAAAGAAAACAAAAAACAACAGGGCGGTTGCACAGGCCGTGCAAATGCACAGAAGCCTCTTGAGTCCCGGCGATCCAGC
GGCCCAGACTTCTGACATCCTGGAGAGGCTGGCCCACGTTGGAAACTGGGAGGCCCTGAGAGTTGAGGGACGTGGAGCTCCTTGTGGAGAGAGTGGGTGG
GCTGAGAAGACACCACCAAGGGGCCTGCGCCCTCGCCCTCGCCCTCGCCCTCCTCTCGCCGGGCTCTGCAGGCCCGGAGGTGGAGAGCCTGGGAGTCGCG
TGCAAGGCAGGCGTCCCGGTGACGCAGGGCCTGGTGCATTTCTCCAGCTTGGTCTTCTGACCTGGCCCTTGTCTGACGTCCCCCTAAGGCGAAGAAAAGC
AGGTTCCTGCCGGGGTAACCAGAGGGCTCGCGGAGCAGAAGCGCGCCAGGGACGTTACTGTAAGCTGCGTGCGCAGAAACCAACGCGCTGGGTGGCGGGC
GACGCGAGCCGCCGCGGACACCGGCCCGGACAGCTGGACCGTGGCGCACTAGGCGCTTCCTAAATGATTGCCCGGAGTGACTCGCCGAGACCCCGTGTGT
ACACAAGTGGGACGAGGGGCGGGCGCACAGCGGCCAGGAAGTCGGGGCCCAGCGCACCCCTCAGCGGACCATCCCGCTCCGTGGGGCCGGACAGGACCCC
GGGACCACGCGGGAGCGATGCAAGGTCCGTTCCCGCTGCGCGCACTTGCGGCCCGCAGCCCCGGCCCTGGGAGCTGCCACGGCTCCCAGGGTGTTCTGCG
CCGGTGCGGCCGCGGCGACTACGACTCCCAGGGTGCTCTGCGCCGGCGCGCCCGCGGCGACTACGACTCCCAGGGTGCCCTGCGCCCCGTCAGCCTCTCC
AGGCCCCGCCTCAGGTCGGCCGCGGACTACAAATGGACGAGAGAGGCGGCCGTCCATTAGTTAGCGGCTCCGGAGCAACGCAGCCGTTGTCCTTGAGGCC
GACGGGCCYGACGCGGGCGGGTTGAACGCGCTGGTGAGGCGGTCACCCGGGCTACGGCGGCCGGCAGGGGGCAGTGGCGGCCGTTGTCTAGGGCCCGGAG
GTGGGGCCGCGCGCCTCGGGCGCTACGAACCCGGCAGGCCCACGCTTGGCTGCGGCCGGGTGCGGGCTGAGGCCATGGGCGACCGCGGCAGCTCCCGGCG
CCGGAGGACAGGGTCGCGGCCCTCGAGCCACGGCGGCGGCGGGCCTGCGGCGGCGGAAGAGGAGGTGCGGGACGCCGCTGCGGGCCCCGACGTGGGAGCC
GCGGGGGACGCGCCAGCCCCGGCCCCCAACAAGGACGGAGACGCCGGCGTGGGCAGCGGCCACTGGGAGCTGAGGTAGCGGAGCGCCTGACCCCCTAACC
TCTGACCCAAGGGCCCCGCGACTTTCCGGGGTTGGCCGAAGCGCGAGCTCCGAGTCCGAGAACATGGGCCCTGGGCTAAGCGGGGATCGGTGTGCCCTAT
GGGCCCTGTGGGGAAACTGAGGCTTGGGGAGAGTCACCTGACAAGGTCACTGGGTAGGGGCTCTGGAGCTGGCCTTGGCCAGGCAGAGGGGAGCCGGCAG
GTGTCCCGCATCCAGATCCTCTTGGGTCTGTGCATCCTCAGGGGCTCCTGAGGAGCTTTTCGAGGGGCGGGCTGGTGGGGGCCCGGCCCTGGACAGTGTC
CCCTTATATGGAAGGAGTCAGATAAGATCTGGGCAGTTTGTGGTGATAGGTTCCTTCTTGGTGCTATGAGCGGTGCCTTGCGGGTAGGAAAGGCTCCCAG
AGGAGGGCTGGCCTGCCAGGGAGGGGGCCAGAGGAGCCCAGGCCTGTCCGAGGACAGGGGAATCAGCAGCTGCCCCGGACAAGGGGCAGTGTTAGAGGCG
TTCTTGTCCTTGCAGACCCTTCTGAGAGTGGCTGCGTGGCCCATTCATTGCTCCAGTGGTTAGGCTGGCCTGGAGCCCTGCCGATGTTGCCAGAGCCAGC
GTCTGTTGTAGGGACAGAGAGTTGGGTTCTGTGTTGGGACTTCCATCCTCCAGGTGGGGAGTGGGGTATGGGGGTGGTGGACACACCTGCAGGCGTGTGC
CCTGCTCAGCTGGATGACTGACAGAGAGGGGTGGAGGGAGAGAACCATGGCCGATGGGAAGGACTTGGCCAGCCTGGGCATTGGCTTCCTCCACCAAGCT
GGCCTTGAGCAATCCCCTTGCCACCCTCCATCCCCCCTTTATGGCCTTTACCCTGGCCCAGGGGCCCTCAGGGCTTTGTTTTAGAGAGCAGCTGAGGGCC
TAGAGGTTATCAAGGCAGAAGTGGGCTGATTTTGGACATGTAGTTGGCAATGATTTGCTCTCTCAGTGAGCAAGAACAGAGCTTTCCTTCACGGGGCACC
ATGGGGAGGGGGTTGGGGGAGGGCAGGCACTGTCGTGGCCCTCAGGGTGCTCAGTTCATCTGGGAGATAAGATAACCTCAGCAAGAGTCAGGCATGGAGC
AACATGGACAAAGGTCGGGCACGGAGGCCTTGAAGGGGCCGTGGGGAGGAGGGTGGCCCTCCTGAGAGGGGTGCTTGCCTGCTGTGGGCCTGGGGTGCTG
GTGAGGGAGGCTGGCCTAGGCACCTCCTACCTGAAAAGGAGGTGTGGCTCCTGGAGTTACCCTCTCTCCAGGAGGCAGGGGGATGGCTACATGACCTGTG
GAGGACGTGGGAATTGAGATTTCTTTTTTTTTCTTTTCTTTTTTTTTGAGACTAGTTTTGCTCTTGTTGCCCAGGCTGGAGTAAAATGGCACATTCTTGG
CTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTAGAGGCGCCCACCACACCCGGCTAATTTTGTA
TTTTTAGTAAAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGAACTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTA
CAGGTGTGAGCCACCGCGCCCGGCCGGGAATTGAGATTTTTTTTAGTGTGAGATGAGGGTAGTCCCAGCTTTGGGCCAAGCCGCCACCTGGGGGTAGGCA
GGGGAGAGCAGTCACCTTCTTGCTTTGCAAACCAGCAAGGCTTTCCTGTACTTCTGCTGGTGTGGGATGGGTGCAGAGCTCGTGGGAGAGGCCTGGTGAG
TCCCTGTCCCTGCCGTGGAGGTCGGGTCTCCTTGGGAAGAGGGGCAGTAGATGGAGAGGTGAGGCCTTCATGGGGCTGGAGGCTGAGACCAAAAGTCTAT
CTGCTCCTGGGTCTCCAGGACTTGCAGGCTATGTGTGCTTGTCCCTCAGACCTAGGGATGCAGCAGGGCTCGGCCACTGGCTGTGGACACTGGGCTCTTC
TCCCTGCTGTCTGCGTCAGGCCTTGCTCTGCCTGCCCTCCTGGGACTTGGCCTCTAGCGCACCCCCTTGTCAGCCTCACAGCCTCCCCTCCCTCCAGCTT
CCTGCTGCTCTTGGCCCAGCCCAGCCTTTCCTCTCCCGCTTCCTCATTACTCCTTGAGCTCGGGCCTCCTCCCCTCACGGACACTTCCTGCTCACCTAGG
GCTGGGCTCTGGGTGTGAGCTCCTTTCTTCCGGCCCCGTGGCAAGGTGAGGCTGTGAGGCAGGCAGGAGAGGGCACCCCTTTCTGCTCTGCTTGTGGCTC
ACTCCTGCCAGGCTCTTTGCACACACCCACCAGCCCTCTGCTCACAGGCACCCCAGTYGGGGCCATCCGGTTTCTGGCTTCTCCCAGGGTGTTTTGTCCC
TGAGGTGTCCTTTCTGACTCTCCCTTTCTCTCTCCAGCAGGGTCTGCGAGGTGCAGGGAGCCTGCCCCAACCATCTTGAACCCAGGCCCAGCCCAGAGGC
CAGAGTGGAGGAGGCGGCAGTGAGCAGAGCTGGACTCTGCCCCCTCCTCATTGTGCTTGGCCCTGGAGCTGCACTGTGTGGGCCCCAAGTGTGGGACTCA
CTGGGACCTGTGCCTTTGGGCACACTTTGAACCTGGAGACAGGGTGGCGGGTGGGCATGTGCCAAGGTCTCAGTGTTGCCGTGAGACTGAGAGGATCCTG
CTGGCTGGGTGGGCCTGGGGGCTGCAGGAGGGAGGGCAGGCTGCTCCGAGTCTTCTTGGACTAGGGAGTGGGTGTAGGGACAGCTGGAAGGTGCAGAGGC
TTGGGCAGATCCTCCAGTCAGTGAGAGGGTGATAAAGGTGCTCTAGGCACAGGGGCAGATCCCACCTCCCCATGCCGTTCCATGCAGCCTGCCCTGTAGC
CCACATGCTGCTGGCCGCACTGACTGCTTGGAGCTCTGTGGGCACTGGTGGACTGGGGCTTCCTCCTCATGGGGGCCTGTGAGGGGTAGGGGTAGCGCAG
TGGGGGTGCTGCCTCTGGGTGGGGCTGGTCAGGCCTGTGAAGGGCCTGAGGTGAGGCTGTGGCTGGGTTGAGGAAGGCCTTGGAAGCCTGTCAAGGGGCC
CCTGAGAAAGCTTGTGTAGGATTGTCTGCAGTGAGCTTTGGGAAGCACCACCCTTTCCCGACTCCTGTTTTCATCTTGGAGATGGGCATGGATAAAGCCA
GCATGGTGTCCTTGGTGGCTCAAAGGGGGCAGGGGTCATACTGCTGTGAAACAGCTGTGGTTGGTAGGTCGTGGTACAAGAAGGCCAACCCTGAGGCTTG
GGATTGTTCTGCTGAAAACAAATGGGCTCGAACTTGGGGAAGAGGGGGCAGTGGAGAGGCCCCCAGACAGACAGCCCAGAGAGGCTGCTGGGCAGTTGGG
CCTCGTGCCCCTGCTCCCGTCACGGTGCTGGGGCTCTGGCGGTGTCTACACCCAGCCTCCTGGTTGTGGGCAGGCAGTGAGTGGAGTAGGCTGGGGAGAT
GAGCCAAGGGCGGTGGTCAGTTGGGAAGACAGCTGCCAACTTGGGGAGGAGGGAGGCTCTGGTGGAGACCACAGCCTCACTGCATGGCCCAGGATGGACC
TGGTGGGTGGATGCAGGGCGCTCAGGCTGGAGCTGGGAGAGGCAGGGGCTGGGTGGAGCTGCCTGCCCCTGTGTTCCAGTCTAGATGGGCAGAGGGAAAG
GTGTGAGCATCCTCCCTGCCTGGGGGTCTTGGGGACTAGTGTAGACTTGTCCAGGAACTGTGTAGGTGTAGATGGGGCATGTGTTGCACCAACCTTGGTC
TTGGGGAGCAAAGGTTGGGCTTGTTGGCATTGCCTCTCGGCCTCCCTGGCCCTTTGCCTCCTGGGCAGGGCCGTCTGACTGCCGACCCCAATCCTAGCCA
GCTTGCCTTGGGTGCCCTGAGGGCGTCTGCCTCATGGGGCTCCTGCCATGGCTCTCAGGCCCACTCTCCCTGCCTAGGGGCTCTGAGGGGCAGATGTGCG
TGTGCGGGAGGGAAAGGGAGGCTCTGGCCTCTCCTCTYACAAAGTTGAGGACTTGCTCAATGCTGTGTGTGGTGTCCCAGTGGCACGGCAGATGGGGGGT
GAGGCGGGCCTGCAGCTAGTGTATRTGAGCCAGCACTGCTTCCTAGGACGTGTRGGGGCCTGGCCAAGCTCTTGCTGTCCTTGTCCTAGCTATATGGCAG
TCCCTCTATTGGGCTGGGTGCCCTCTTCCACCTGTGCAGTATGCTGAGGACCAGGCAGGGTCTGCCTGTGCCCCTCCAGCGCTGGTTGGGAGATCATGGG
TGGGTGCCTGCCTCTGTTGGAAGCYTCTCAGCCAGCAGGCACCTAGCCCCGGGTGGGTTCCTTTCAGCCCCCTCAGCCTGGGCACACATCACAAACAAGT
GGAGGCTACACCGGCACACGAGGGCTGGATCCCTGCCTCTGGGAAAGTGCATGTCAGGCTGGTGTGTGGCTGGCGCCTGGCCTGCCTTTGCCAGTTTGAG
CCTGCACGTCCAAGTGTGGGGACCCCTYAGYTCCCGGGTGCTGGGATGGGCCAACTGAATAKGGTGGACTCAACCCTCACCACTTGGTCCCCACAGTGCT
GGGCAGTGCCCCCTGGTCCATCCCCAGGTTGGACCCTGCTTGTGGCCCCAGTGCTAGTCCACAGCCAGAGTACATGGCAGTGGCCAGAGGCCTCTGGAGA
GTGAGGCCTGGAGTGTCCAAGCTCCATGTAGGTCCAGTCCGGGCAGGGCCAGCTGGGCTTGCTTCTGACCCTGACATGCTCGTCCCGCTGCCTGGAGGTG
CAGGCTCTGGGGGTCCGGAGAGCTTTGCCCACTGTAGGTCTTGAGGCCACAGTGTGGCTCTGCCTGGCTTCTCCTCCTGGTTGTAAATAAGGAGTGGGGC
CTGAGGGCAGACGAGGACACTGGGGTGGGGGCCTGGATCCTGCGGGGGTGGCGCTGCCCTGCTGGTGCCCACTCAGGGGGTGCTTGTGTTGTGCTCTGTC
AGGTGCCATCGCCTGCAGGATTCTTTATTCAGCTCTGACAGTGGCTTCAGCAACTACCGTGGCATCCTGAACTGGTGTGTGGTGATGCTGGTGAGTGGGA
CATGGTGTCGGGAGCGGGTCTAGGTCCAGGTGGGGCTCTGTCCCAGGCTGGCCTTTGCCTGAGAACAGGCTCTGTCACCCAGGGTGTCCAGGCTGGAGCC
CCTSTGGGCTGGGGTGTGTGGAGCAGGCTGCACCTCCATGTGGCTGCCAGCACTGGACTGTTGGGGAGGGGAGTGGCAGTGGCTGCCCCTGCTGTGGTCA
CTTGGGTGCCCATGCACCACATACTTGCTGCTTCCCATTGGATCCCAGGAGAGYCCTGCWGATGTGGTGTGGGCGTGGGGASGCCGAACARTGCCTGGCT
GGARCCTGTGTGTTGTGAGCTGGGCCTGAGGGGTGCAGGGCCTCCAGGGAGGGCAGGGTGGAGGGGGTCTTGCCCTGGGCTGGTGGGAGAGTGGACTGCA
TGCTCTGTGGACACAAGGCCTCTCTGGCAGGGGATGTGAGAAGAGCTTCCTGTGCTACGCCACATGGCCTCTGTGGGTATGGAGCCCTGCAGGCCTGGCC
ACCACTCTGCAGTCCTCCTGGNNNNNNNNNNNNNNNNNNNNACCCCAGAAGTAGTTGGAGTCTAGGGCTCAAAGGGGCACCTGCAGGGCAGGTCGGGGAC
AAGGGCTATCTGGGCCCAGCCTCCCCAACTCAGGGCTGATGTGGCTCGAGGCCTTTGACCTTCACCCAGGCGTGTCTATCTCTGGCCTTGGGTGCTGCTC
CTGTGGCTACCCACGTGGAAGGGGCTCCACGCACATCCACATCCCCCACCGCCCATGGTCCTAGAAGGTTCCCTGGGGGTGGCCAGCTGTGGAGGCCCAC
GAGTCCTGGTGGCTGAGAAGCTGGCCAGGCAGGAGGACAGTGGGCCCAGCGCCAGCCCAGCACTCAGGAGACGCAGCCCATTCCTGGCCCAGGTTGGGCC
TTGTCCAGCCCAGGCAGCACTGTGTATTCTCCCCAACCCCTTGGGCCTGCCTGGCCCTTTGGCCCAGCCCTGAAGCCTTTTCCCTGCTTTGGCTCCCCCA
TGCCCCCACCCCAGGCATGTATCCCGCTCTGGGCTGCTTGTTGCATTCCTTCTGTGGCCTGGGCCTGGAGGTGGGTACCGTCCATTGGCAGCTTTGGCTT
CTGCCTGCTGTCAGCCCTCGGGAGAGGCCAGTGACAGTGTGGGCCACGTGTCCATGCAGAAGGCCTGTGTGTCAGCCCTGCGGCCGGGGGAGGCGGGGCA
GTAGCCCTTGTGTCTCTGAAGCAGTCTTCTCTCTCATGAAGCCTTCCCTGACCACCCAGGCAAGACACCCTCAGTGTTCCCTTGCCAGCGACCCTTTTCC
CCAGCACCAGTTCACTACCGCATGAGGCCCGAGCTCCGGGTGGTCAGCCAGGTCTGCGGCATTGGGGCCCAGCTTAATGGAGGTGTTGGTAGTGCTTGTA
AGATGGAGGAGGAGGTTCCTGTCCTTGCAGAGGGAGGCCAAGCACCCAACTCCAGGCTCGTCCCAAGAGCCTTATTCCATGGGGGCTCAGTCCTGGGAAG
TTGCTTTGGAGCCAAGTGTCCAAGGCTTAGAGGGCGGCAGGAAGCAGAAGAGGCAGGCGGGGCACAAGCCCTGGGAAGCACTCCAGGCCCAGCCCCCCTT
GCGACACAGCTGGACACTGCTCCTGCAGAGAAAGAGTAGACAACTCCCCCTCTTCAGCCTTGGCCACCAGTAGGGACTGGTTCCTTGGGGCTCAGCCGTG
GGCAGGCCTCCCTGGGCAGGCCTGTATTCTGGGGCTGTCTCTGGGGTGTGGTTGGCTGTGGGAGCCTTGGGTCCCTCACTGGCTCGGCTCAGCAGGAGGG
ATGTGAGCAGATCAGCAGCTGGTCTTTCTGCTCCTGAAGACCCAGGCGTCTGGCAGGGTTGGTTGGTCTGGCCGGTTGGTTCCCTCCATGTGGGACCGTC
TGGTGTGATGGGGACAGGGAGGGACTTCCCCTTACCCAGCACTGGTGTTGGCTGAGGTGGGTGCTGAGTCTCAGAGCTTGGCATGGAGACCAGACAGGGC
TGGGTCTGCAAGCCTGAGGCTGCCGCCCTGAGCTCGGGCTGGGACGTGCCCAGAGGTGTTGGGAGGATCTGGGGTGAGTACCCTGTGGCCAGGACTAAAG
GGGCTGCACCCTCCTGTCCATCCCTCGCAGATCTTGAGCAATGCCCGGTTATTTCTGGAGAACCTCATCAAGTGAGTGCCTTTGCCAGGTCCCACCCCTG
CCCCACCCATGGCCTGTCCAGGCCCCGCCCCACAGCCCCACCTGCCACCCACTCAGACCCCCATCCCTCCACCCCCAGGTATGGCATCCTGGTGGACCCC
ATCCAGGTGGTTTCTCTGTTCCTGAAGGATCCCTATAGCTGGCCCGCCCCATGCCTGGTTATTGGTGAGCTGGGCTCTGAGGAGGGCCTCGGGTGGGGAT
CAGGCTGACGTGGCCCTAAACCTGCCCCTTGGTGCTTCTGTCCACAGCGGCCAATGTCTTTGCTGTGGCTGCATTCCAGGTTGAGARGCGCCTGGCGGTG
GTAAGCAGTGCCCCTCACCTCCGTGTGTGCTCACCCTGCTGTGTGYRCTCCTGGGAGGAGCTGCTCCCCAGGCCTGGCAGCCCTCTCCCAGGCAATGGGA
GCCCTGGTTGAGTGCTCTGCTCCCCACTCCAGGGTGCCCTGACGGAGCAGGCGGGACTGCTGCTGCACGTGGCCAACCTGGCCACCATTCTGTGTTTCCC
AGCGGCTGTGGTCTTACTGGTTGAGTCTATCACTCCAGGTGCGCCCCCATCCCACCCTGCCCATCTGTCTCGGGCCAGCCACGGGCATGGCCTCCGGCTG
TGGCGCTGTGGAGGCCTGAGTCCACCTCTCCTGCAGTGGGCTCCCTGCTGGCGCTGATGGCGCACACCATCCTCTTCCTCAAGCTCTTCTCCTACCGCGA
CGTCAACTCATGGTGCCGCAGGGCCAGGGCCAAGGCTGGTGAGGGGCTGCCAGGGGCTGGGGCTGCCTGCTGGGGGGCTGGGCAGCAGCAGGGCCCCACC
AGCCCCCTCCCACTCTGCTGTGCTCGTAGCCTCTGCAGGGAAGAAGGCCAGCAGTGCTGCTGCCCCGCACACCGTGAGCTACCCGGACAATCTGACCTAC
CGCGGTGAGGACCTCTGTGGGCCTGAGGTGCGGGGGACAGGCTGGGCCTGTTCTGGTACCAACCCCCCATTCCCATTCCAGATCTCTACTACTTCCTCTT
CGCCCCCACCTTGTGCTACGAGCTCAACTTTCCCCGCTCTCCCCGCATCCGGAAGCGCTTTCTGCTGCGACGGATCCTTGAGATGGTGAGGTTGGGGGCT
GGGGGCAGCCACTGGAGGCTAGGGGGCCTTCTGGCTAGCCAGGGCCTCAGCTGGCTGCTCTCTGTTTCCCCCCCAGCTGTTCTTCACCCAGCTCCAGGTG
GGGCTGATCCAGCAGGTAAGTGGGGTAGGGCAGGGTTGGGTGTAGCTGGGCATGGCTGGGAGCTGACGTGGTGCCCTCCTTTGCAGTGGATGGTCCCCAC
CATCCAGAACTCCATGAAGCCCTTCAAGGTGAGTGGCTCAGGTGCTCTTGCAGCTGGGGTGGCTGGGGAGTGACCAGGAGCATGGCTAGCTGAAGGGCTT
GTTTCTGCAGGACATGGACTACTCACGCATCATCGAGCGCCTCCTGAAGCTGGCGGTGAGTGCGGACAGGTGGCGCATGCRCAGGACAGGAGGGGACAGT
GGCATGTGGGGGAAGGTTCTAGAACTTGGTGCCCACCCCCACCTCCCTGCCAGGTCCCCAATCACCTCATCTGGCTCATCTTCTTCTACTGGCTCTTCCA
CTCCTGCCTGAATGCCGTGGCTGAGCTCATGCAGTTTGGAGACCGGGAGTTCTACCGGGACTGGTGGTGAGTGTCCCTGGGGTGTCCCTGGGGGCTGGGA
TGGGCCATGGTGTGCTCTGATCCCCCTGTGGTCTCTTGGCCCCCAGGAACTCCGAGTCTGTCACCTACTTCTGGCAGAACTGGAASATCCCTGTGCACAA
GTGGTGCATCAGGTAGGTGGGGTGTGTGTGTGTGTGATGTGGAACATGGCTGTGAACCTGAACCGCTTTCCATGCCCCCTCCTCTGCAGACACTTCTACA
AGCCCATGCTTCGACGGGGCAGCAGCAAGTGGATGGCCAGGACAGGGGTGTTCCTGGCCTCGGCCTTCTTCCACGAGGTCAGTGCTCTGGGGGGCATCTT
GCCTCATCCCTGGGCAGGGGTATGCCCACAGCAGGGACGGCTGACACCCCACTCCCTGGCATCCTCTCTCCCTCCCATCTCAGTACCTGGTGAGCGTCCC
TCTGCGAATGTTCCGCCTCTGGGCGTTCACGGGCATGATGGCTCAGGTGAGTGACCCCCACGTGGCCTCCTCACTCGCCCAGTTACCCCGCACCTGAACC
CCTCGGCTGACCCTCCCCATGCCCAGGGACCCTGAAGCCCCCAGCCCTGTGGTCACCATGGCCGACTGACTTGGCCCCTCACTCCCTAGATCCCACTGGC
CTGGTTCGTGGGCCGCTTTTTCCAGGGCAACTATGGCAACGCAGCTGTGTGGCTGTCGCTCATCATCGGACAGCCAATWGCCGTCCTCATGTACGTCCAC
GACTACTACGTGCTCAACTATGAGGCCCCAGCGGCAGAGGCCTGAGCTGCACCTGAGGGCCTGGCTTCTCACTGCCACCTCAMACCCGCTGCCAGAGCCC
ACCTCTCCTCCTAGGCCTCGAGTGCTGGGGATGGGCCTGGCTGCACAGCATCCTCCTCTGGTCCCAGGGAGGCCTCTCTGCCCCTATGGGGCTCTGTCCT
GCACCCCTCAGGGATGGCGACAGCAGGCCAGACACAGTCTGATGCCAGCTGGGAGTCTTGCTGACCCTGCCCCGGGTCCGAGGGTGTCAATAAAGTGCTG
TCCAGTGACCTCTTCAGCCTGCCAGGGGCCTGGGGCCTGGTGGGGGGTATGGCCACACCCACAAGGGCGAGTGCCAGAGCTGTGTGGACAGCTGTCCCAG
GACCTGCCGGGGAGCAGCAGCTCCACTGCAGCAGGGCGGGCATGGCCGGTAGGGGGAGTGCAAGGCCAGGCAGACGCCCCCATTCCCCACACTCCCCTAC
CTAGAAAAGCTCAGCTCAGGCGTCCTCTCCTGGTGCTACTCCTGCTGGGTGTGCGGGAATCGGCACTCTGGCCCTCAGTGCAGGATGGTCAACTTGCACC
CACCGTGCTCAGCTTCAGCTTGGGAAGAGGTCGGCCCTGGGTTTGCGGGAAGTGGGCTCCAGCCAGGATGGCCCAGGGATGGGCAGTCCACAGGGCCTTT
CTGGTGTGGGTCTGGTGAGCCGAGGGGCTACGGTACACAATGGCTATGTCCATGGCTATTCGCCTTGGGGCAGGGCTCGGTTTGGCAGCCTCTTTCCTTC
ACTTGGAACCTGGGCAGCCAGGTGGGCTGGTGGCTCTCAGCTGCCCTCCACGAGGTTGGGGCACCCCTGATCCCCAGGCCTGCCTTGCCCTCTGCTCTTC
TGGCACCAGGCTGGGCAGTGCAGACAGCGCAGCCCTGCAGCCTTCAGGACACCTTGTTCCCAGGCCCTGCAATCCACCAAGCTGGATAGATGGGGCCCCC
CTTGATGGTAGCGGGAGGTCAGGGGTAACCCCAGGGCCCTGCTGCTGCCTTACCTTGCTGGGGTGACTGCTTGATTAAAGACCCCAAGACTGGACCAGGC
CCTGGTGTCCCCAGACCTGCAGCTATGGCCCAACAAGGCAGGTGTTTGAGGAGGCCCTGCACAGGGTCCCAGGACTGCACCAGGGGCCTCATCAGCAACC
TGCTGAACTGGTGGTGTGAGGGGAGGGTGGGCTCCCTTGGTGGTATCCTCCCTCTACCCCAGTGGGGGCTGGTGGGCCCTGAGATGGAGGCATCTCCTTG
GGCCCTGCTGAGGATGGCAGTAGTGGGTGAGCTCCTGGTGGGGGRATGGGTGTGGGGCCGACTCCTCCATCCCACATGGGCTCCTGTGCCTCTCCCTATC
AGTTGGCCAGTGGAGCTCGAGAACAAACTGTTGCTGCCAGATAAAGCAGCAAAGCCTGCTCCACTGCCCAGCGCARGCCCCCTTCCCTTCCTCCACCAGG
CTGAGTGGAGAACCCTAAAGCTACGGGACAGGCTCCCGTTCCCCGTGCCTACACAGGGTGCTGGCTCTGGCAGAAAGACAGTGTGCCCGCCCCGCATCAC
CTGTCCGAGTGCGAACACCTTGGGAAGGGGGTTCCTGGTGGTCCTGTGACAACCAGAGACCCCCAGGGCCAAGGTGAGGCGCCCACCCCTGGTCCCTCAA
TAAAGAACTGCAAGCACATGCTGGTCCTGGGGAGTCGGGCAGGCACGGAGCTAGCTGCAAGCATCCGTCTTCCCCCAGGAGGCCACTGCAGCCYGGCCCT
TCTGTGCCCTGGGCCCCTCCTCATTGCAGCACCACCCACCGCACCACCCTGGGACAGAGGAAACACATGGAGGCCATAGCATAGAGCCTGTCTGTTTATA
GATCTCTGCCTGTCTTGTCCGTCCATCCACTGKGTGTATATATCTGTGTATCTCTGTGGAGCGGGGAACGGGACAGTTGTGTAAAAATCCAAAATACAAT
TCTGACTATGAACAACCTGCAGGGTCAGTCCAGGTGTGGCTGTGAAGCCCCAACCAAACCACAGGACACGGGGTTGGGGGAAGGCAGACTGGCAGGCCAG
GGTGACCCTCCTGACCAGAGGTGCTGCCCAGACCCGAGCCCGTTTGTCCTACTGGGGCTATGGCGGCCGACCCACCAGTGCCCAAGACCGCGAGGCTGCC
CTGCCTCCCCAAGACCAGCCCTGCACTGGGGGTGGGGGTGGGCGGCTGGCCCAGCTCCTCCGGGGCCTCTAGGAGACAGTGGGGTCCTTGGCTTTGGGAG
GCTCCGAGCCTGTCAGCAGGGAGATGGTGGGGTCCTCGGCGAAGCCGTCCCCTTCGGAGAAGTAGGAGCCCTCTCCCAGCTCAAACAGCACCGGCAGGTC
GTTGCTCCCGGTGTCCACGGAGCCGGGGTCCAGCAGGAACAGCGGCTGCGCTGTGTAGTGCACCAGCTGCTTCCCTGCGGGGGTGGGGGTGTCAAGGCGG
TGGGGGGTTGGGGGCAGAGGTGGGGCCGGTGGGACTTGGCTCACCTGAATCCGGGCTGCTGTTCTCTGCCTCGGGAGGCCTGGGGGGCTCCTGGGGAGAC
AGGAGCTCTTGGATCTGTGGGGTGGAGACGGTATTGTGAGCACTCCCGCTGGTCTCGTTCCCCCTCACCCCCCGCCCGCCTACGCACACTGGCCAGGCTG
CTGTCAAGGTCAGGCAGGCTCATGTCGGGCACGGTCACCGAGGGGCTGAACAGCTGCGGAGGAGGGAGGGAAGTCAGAACAGCACCCGGGGGCGGGGCGG
GGAAGCGGGGAGGCGGGGAGGCGGCGCGGGGAGGCGGGGAGGCGGCGCGGGGAGGCGGGGAGGCGGCGCGGGGAGGCGGGGAGGCGGCGAGGCGAGGCGG
GGAGGCGGGGAGGCGCGGGGAGGCGGGGCGGGGAGGCGGGGCGGCGGGGCTCCACTCACGTCCAGCAGGGCACTGGTGTCCACGCTGAAGCCGTGGCTGC
TCAGCATGGTCTGCAGGTTATCCAGGTTGGAGTCCATAGCATCCAAGTGGTCACTGAGCTCATTCCTGGCCCGGGATAAGGCGGTACCTGAACCAGTGCC
CCAGGCCCCACACCCCAATGCCCTCCTGTGGGAGAAGGGCTCCCCTTGACTGTACCCCCCAGGCTGCACCCCCGTGTACGCCTGCACAGGCTGGAGGGGG
CAGCGCATTCGAGGACGGCCTGGAAGGCAGTGGAGGCTCTGTGCCCTGCAGGGGTGCGGCTGGGCCTATGCTGGGCATCCCTTTGCCATGAGGGCCTGGG
GGCCTTGGTGGCAGTGGACCCAGGAGACAAGGGGCGTATTCAGCTCCAGCACAAGGATCAGGGATTTCAGTGTTCAGGGTTGGTGAGGTTTCCCGTTGCA
CTGGGAAAACAGGTGGGGCTCTGCTCAGTGTGTGGGTGGCTCAGTCCCTGCCCTGGTGCTGCTGTGGGGATGAGACCCACGGTCTGGTGGCTGTGACCAA
GAAAGCCCTAGGCCACAGGGCACACCTGGGCTATGGGACGGACAGCCAGGCTGGGTCCCAGAGGTGCCCTGGAGACCCTGCCTGACAGGAAGTGCAGTCA
GCACCGCAGTCTGGATCCTGCCAACACCAGAGGCCGTGCCAGAGCAGGGAGGCCTGTCCCTGTCATCCCTGTCACAGGCAATGACCACAGGCCCGTGGCC
AGGGGAGCCATGACGACACTGAGCCCCCGCCACAGAGGGGTCTCGGCTGCTGCCGCCCAGGCCCGACGCTCATGCCCGGCCAGGCTGGGTCTGGTCCACG
GCTGTGTGGGAGGGCCCGAGCGCTGGCAGAGCCCTCCTCCCTCCCCAGTGGGGTCAGCGCTAACCCTGGCTGGACTTGGCCATGCGGAGAGGAAGAGGGG
CAGGGGAAGAGGCGGGCGACCCTAGACATCTGTGGAGTGCGAGCCAAACTGCAAGATACAAAAACAAGAGCCCCCATTGCAGGCAGGGGCTGGGGGTGTG
GAGGCCGGCCCTGCTCACCATCTCCTGCCATGTGTCTGGGCAGCACGACCTGCCAGGGCCCGTGGCCTGTGGCGAGGGTGGCGGCAGCAGGAGGGGTGGC
TGAGAGCAGGGCCCGGCAGCCTGTCCGGACATGCCCGTGGCTTCTGTGGCGTTTGGGACTGTGGGGTGATCTGGCTGGCACCTGTCTCCCTCCCCAGCCC
CGAGCCCCGAGGTTGGGGGTAGGGTCCTGCCTCGCCAGCTGCCCTGCTCAGTCCACTGGGACAGTCGGGGCTGAAGCCCAGGGCTGTGCGTCCAGGCGCT
GTGGGTGGGGCCAGGGGTGGGCGGCACTCACTTGTCCAGGCAGGCTACGCTGAGGCACTTTTCAGGGGTGGAGGTGGGCGGGGGGGAGGGAGGCCGGCCC
TCGGTGTCCGTGTGGCCCCTGGCGTCCGTGAGGGCTGTGACGGAGGCGGGGGCAGGTTCACTCTCCCGCAGGATGGAGTCAATGAGGGCGGTCGGGGACA
AGAGGGTGTCCACGGAAGATGGGCGCCCGGGACTCGCCTCCTCTACCCGGGGGCTCTGAGGCGGGCTGGGGGGCTCCTCCTTGACACGCACCAGGGGGCT
GCTGGATAGGGGCCTGCACACGAGGGGGGCCAGGTGAGCTGGCGTCTCGGCCAGCCCCACCTCATCCCCAACTCTGCCCTGGGCCCACAGGGGCTCGCCT
CATTGGGGGACAGGATGGCTGGGGTGATGCGGCCCCCACCTCTCGTCTATGCTCCCGCCGGGGGAGGCCATGGGGCTGGCAGGAGCCAGCTCGGTGATGT
CGGAGATGATGGGTCCAGAGCTGGCCACAGCATCAGGGGCGTAGAGGCTGGAGCTGCTGTAGGCTGGGGAGGGGGCCTGCAATCAAAGGCAGGAGGTCCA
TGCAGTGCCGGCAGGGGCAACCCACCCCACTGCCGCCTGCATGCCTGGGCGGGTGCCCTGTCTCCGGCACTCACCGAGTAGGGGCCCGAGCCGTGGACGT
GCTCCAGGGAGAACTGCCGGCTATACTTGGGCATGGAATGTGCTGAGCCACTGTCGTTCAGCATCAGGGGGCTGTGGGGAAGGGTGCAGGTCAGCCACCA
CCCCCCACCTCGGGGTACCCGGGGCACAGCTGACAGAGAAGGGGGACAGCCCTGGGCCCCGGGTGGTGGATGCAGGCATCCCCAAAACCTCACATCTTTC
TCTTCACCCCCAGGATCCGGTTTGACTGCACCAGTGAGATCAGGAACTGAATGAGCTGTGGAGAGAGAGGACACAGTTACCCCGGCCCTTGTGGGGCCCC
CGCCGGCCCTCTGGCCCTGCCCCCACCTTGTTGACGACTTTCTGTTGCTGGGCATGCTTCTGCCGAAGGCTGGCCACCTCCCGCCACAGAGCCTCATTCT
CACTGCAACAGACCAGGCTGGGTCAGTGGGGCCCAATCCCATGAGCCCCAGGGCTGAGGGAGCCCCACAGACCCTCCCTGTCCCCCATGCAGGAGCAGGG
GTAAGTGTGACCATGTCTGGCCTGGCCCACCCCAGGATGAGAACTTGTGTGTGGAGGGACTGGGGGCCAGGGCCAGGGCTTGCTGGTCCCACTGCCCCTC
CCTGCCGGGGACACCTGGTGTCACGTAGGGTGTTGGGGATGGATCCATGCGAGCCAGGTGCACCCGGATCCTGGCATCCATCCTGGCAAACACCTGGAGG
GCTGCCTTGGACACAGGCCAGGAGCAGACCCTTGGGCCGCCCTTCCAAGGCCTGAGCAGCCAGGTTAAGGGAGGACGGTTCTTCAGGCTGCGACACTGGC
TGTCCCATGTCCTGTAGGTGCTCAGGGCCCTCGCCAGGCCTGGAGGTGGCTCAGGGGTGGGGAAGAGCTGTCCCCAGCCAGGTGAGCAGGGCCATGACCG
CGCTCCTGCTGCTCTGGGAGGCTGGGCCCTGTCAAGCCTGTGAGTCTTCTTGGTAGGCCAGGTCCACGTGGCCGGACTCCAGGAATCACAAAGCCGGTGG
CTCCTGCTAGACCCCATGCAGGAGAGTCTGAGGCCAAGGCCTCCTCCATGACGTGGGGGTCAAGAGCGCCTGCTGCACGGAGCCGAGGAAGCCGTACTGG
CATTGGGGTTCCCGCATGCCTGGAGCCCCAAAGTGGACGTGAGACCTGAGCTGGCCTTCCGAGGTGGGCTTGCCTCAGTTTCTCAGGTGCCACCGTGTGT
TAGGCTCCTGCTAAGGTTTCCCCAGAGCCGCAGGGTCCCGGTGAGGAGGGGCTGGGGGCTAGCTCCATGGGCCCAGGCGAGTGTGGGACAGCGGTTCCAG
GAAGGGCCTGAGGTGGGTCTGACCCCAGGCCCGAGGCGGGTGGGACGGGTCTGCTGTGCAAGGCTTGTCCTCAAAAGTAGGCTGGTGGGTCCCGCCAAGC
TCGGAGCCAGGCAGAAGCCAATGGCCCAGAGGGCGCTGGGGATGTGCAGAGCAGGGGACCCTCCCAACCCCCTTCTGCACATGGAAAACGGCTGGCCCCA
GAGCTGTTGCAGCAGCCACGGGCGGCGGGGCTGGGGCAGAGGCCCAGGGTAGATGTGCGTGGAGCGGGAGGGTGGAGCTGAGCACCTGGCCCCGGTCAGG
GCCCTGCCCCCACAGCACCCGGGGCCTCTTGGTGGGCGCCAGGACCCGCTGTGGCCCATAATGCTGGTGTGGGACCTACTGCTTCATGGCCAGGAGCTTG
GAGTCCATGCACTCCTGCTTCCCCTTCATCAGCTGCACGTCCGTCAGCAGCTTGGTGACGCTGTCCTGGCGGATCTTTATGTCTTCACTCTTCAGGGTGG
ACACCTGGATTCCCGAGAGGGACAGGAGTCACTGGAGCAGCCTAGGAGCTTGGCAGGCTCAGGCTCGTCCACTGCAGCCAGGTCCCTCAGGAAGGGGCAG
GCTGGGGTGGGAGCCCTCAGGGAGGGGCGGGCGGGGAGAGCTGTGGCAGGTGAGACCGGGCAAGGGTGCAGGGCCGGCACTCACACTGGTCACTTTCCTC
TTGATGTTCTCAAGGAGCTGCTCCTGGCCACGCAGGAAGCATGGGTGCTGGAACTCCGTGTCGTCTCTCTCTGGCTTGACCAGGCCGCCCTGCTCGATGT
GGACCACTTTCCGGAAGCCATCTGCACATAACAGGGAAGGGGGCAGCTCTGCCTCAGGGCGGGACCAGAACCCCTGAAGAGCGGCCACTGCTCCAGGAGG
CTGCTGCGGGGCTTGGCCATGGTCAGACCCTGCCCTGCCCCCTCAGAGCCCATGCCTGGGTGGCCGAGTGGCCTTGGTCTAAGGGAGACCCTGTGTCCCC
ACAGGGCTCCCTGCGCCCGACACACGTGGAGTACAGCTCCGGCTTCACGGTTCTTCCATGGGGACCCCAGGTTCATACCCACAAGGACCCTCCCCCATGG
AAGAGGCGGCTGCTCCCCGGCCCCCAGGCTTGCAGGGTCCCACGCCATGCCCTTGGCCAGCACAGGACGCCCCGTCCTTCATCACAGGGTCCTCCTGCTG
GGGTCCCGCCATCTGCAGGTCTGCCTCCCGCACCCCTGCGCTGCCTGGAGGCAGCACTCACACATGTTGAGCTGCCGCACGAAGCTGGCCATGTTGTTGT
GCTTGAAGTACTTGGGCAGCACCTCCTTGGCAAACTGGCCCTGGTCGAACACGTGGAAGCTGTTCCCGCTCTGAAAGGGAGACACATGGGTGGGTCACGC
GTGGTGGTGAGGGGCAGCGTGCCCAAGCCGCCCCTTCCCCAGGCCGCCCCTTCTGAAACGCAGGCAGTGCACGTTCCACCTGATGGGGCTGGGGCCATGG
GAGGCCCAGGGGGCTGGCGGGAGGCGAGTTCGTTCCTGGGACCACCTGCCACACGGGCCTCATCTGTGCAGCGTGACCTGCATCCTCACTGTGAGGCCCA
GGACTGGGCGGTGGGCAGATGCGAGGCCTTCCTCTCAGTCGGAAAGCCCCTCCCCAGGGCTTCCAGAGAAGGCCACGTTTCCACTCACAAAGCATCCGCC
GCACTCTGGCCACATTTCCACTCACAAAGCACCCGCCGCACTCTGGCCACGTTTCCACTCACAAAGCACCTGTTTAAGCAGGACCTTTCCCTTGGGAACA
GCGAAGGAAATGGAGCCCTAATTTCATTACTCCCGAGGAAAACACAGTCGCGTTCAGAAATCCAAATTCAGTCTTGTTTTGTGACGTGAGACAAGAAACA
GAGACAGTCAAACACTGCATATACCTTCCTCTTCCATTTCTCTACCGAGCTCAGGCCCAGAGCTATCAGGAGGCGCTGGTGAGGGAGGCATCCCTGTTGG
CCGTGGCCGCGGTGGCTCAGAGGGGACATCGAAGGCTTAGGGGACAGCGAGAAGCCCACACGGCGGGGAAGGGGGGCCTGAAGCAGGGCCAGAGAGGGGT
GAGGGGTGTCTGCATAGGAAGGGGCGGCTGACTCAGTGAAGAAACTGGTGAAGGGCAGTGGGGCAGGTTTCTCCCTGC


SNP Information

Context             (SEQ ID NO:39655):
TTCCACGCCCCGAGGCCCGCCCCTAGCTGGGAGCCTCTAGGGAGCCTCAGGCCCCGCCTCTCCGAGGCAGGCCCCTCCCCTGAGACCCAGGCCCCGCCCC
Y
GAGACCCAGGCCCCGCCCCCACTCGGTTGCCAACTTTCGCCCGTCTATGCCAAAGCCTCGGCGGCGACCCCGCCCCAAGGGCCCGCCCCATTGGCCGCCG
Celera SNP ID:            hCV26058904
SNP Position Genomic:     826
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:39656):
GATCCCTGCCTCTGGGAAAGTGCATGTCAGGCTGGTGTGTGGCTGGCGCCTGGCCTGCCTTTGCCAGTTTGAGCCTGCACGTCCAAGTGTGGGGACCCCT
Y
AGCTCCCGGGTGCTGGGATGGGCCAACTGAATAGGGTGGACTCAACCCTCACCACTTGGTCCCCACAGTGCTGGGCAGTGCCCCCTGGTCCATCCCCAGG
Celera SNP ID:            hCV26008550
SNP Position Genomic:     11028
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39657):
GGCAGGCAGGAGAGGGCACCCCTTTCTGCTCTGCTTGTGGCTCACTCCTGCCAGGCTCTTTGCACACACCCACCAGCCCTCTGCTCACAGGCACCCCAGT
Y
GGGGCCATCCGGTTTCTGGCTTCTCCCAGGGTGTTTTGTCCCTGAGGTGTCCTTTCTGACTCTCCCTTTCTCTCTCCAGCAGGGTCTGCGAGGTGCAGGG
Celera SNP ID:            hCV28949911
SNP Position Genomic:     8858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39658):
CCTCAGGTCGGCCGCGGACTACAAATGGACGAGAGAGGCGGCCGTCCATTAGTTAGCGGCTCCGGAGCAACGCAGCCGTTGTCCTTGAGGCCGACGGGCC
Y
GACGCGGGCGGGTTGAACGCGCTGGTGAGGCGGTCACCCGGGCTACGGCGGCCGGCAGGGGGCAGTGGCGGCCGTTGTCTAGGGCCCGGAGGTGGGGCCG
Celera SNP ID:            hCV28949912
SNP Position Genomic:     6109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:39659):
CGGGCTCTGTCCTCCATATCGAATAATAATGACACATATCGAATCGCATGGACTTATCCGACCTCCTCAGACCCCGCTTCCGCCCTGCCCCGGGCCCCCA
C
CCCCCCCCCCGTACCCCAGGCATTCGTGTTGGAGGACGGATTCCCGGGGCCGGCAGGCAGGCCTGGGCGCTGCCCTCTACACACCTCTGTCTTCGCTTTG
Celera SNP ID:            hCV11604182
SNP Position Genomic:     469
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,4)   total(C,1|-,4) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:39660):
GCTGTGGTCACTTGGGTGCCCATGCACCACATACTTGCTGCTTCCCATTGGATCCCAGGAGAGTCCTGCAGATGTGGTGTGGGCGTGGGGAGGCCGAACA
R
TGCCTGGCTGGAGCCTGTGTGTTGTGAGCTGGGCCTGAGGGGTGCAGGGCCTCCAGGGAGGGCAGGGTGGAGGGGGTCTTGCCCTGGGCTGGTGGGAGAG
Celera SNP ID:            hCV27964601
SNP Position Genomic:     11891
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39661):
ATGGGCTCCTGTGCCTCTCCCTATCAGTTGGCCAGTGGAGCTCGAGAACAAACTGTTGCTGCCAGATAAAGCAGCAAAGCCTGCTCCACTGCCCAGCGCA
R
GCCCCCTTCCCTTCCTCCACCAGGCTGAGTGGAGAACCCTAAAGCTACGGGACAGGCTCCCGTTCCCCGTGCCTACACAGGGTGCTGGCTCTGGCAGAAA
Celera SNP ID:            hCV2158038
SNP Position Genomic:     17676
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:39662):
CCCTCAATAAAGAACTGCAAGCACATGCTGGTCCTGGGGAGTCGGGCAGGCACGGAGCTAGCTGCAAGCATCCGTCTTCCCCCAGGAGGCCACTGCAGCC
Y
GGCCCTTCTGTGCCCTGGGCCCCTCCTCATTGCAGCACCACCCACCGCACCACCCTGGGACAGAGGAAACACATGGAGGCCATAGCATAGAGCCTGTCTG
Celera SNP ID:            hCV2158039
SNP Position Genomic:     17994
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:39663):
CCCTGGGGGCTGGGATGGGCCATGGTGTGCTCTGATCCCCCTGTGGTCTCTTGGCCCCCAGGAACTCCGAGTCTGTCACCTACTTCTGGCAGAACTGGAA
S
ATCCCTGTGCACAAGTGGTGCATCAGGTAGGTGGGGTGTGTGTGTGTGTGATGTGGAACATGGCTGTGAACCTGAACCGCTTTCCATGCCCCCTCCTCTG
Celera SNP ID:            hCV8332392
SNP Position Genomic:     15586
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:39664):
AGCGGCCAATGTCTTTGCTGTGGCTGCATTCCAGGTTGAGAAGCGCCTGGCGGTGGTAAGCAGTGCCCCTCACCTCCGTGTGTGCTCACCCTGCTGTGTG
Y
GCTCCTGGGAGGAGCTGCTCCCCAGGCCTGGCAGCCCTCTCCCAGGCAATGGGAGCCCTGGTTGAGTGCTCTGCTCCCCACTCCAGGGTGCCCTGACGGA
Celera SNP ID:            hCV25602570
SNP Position Genomic:     14146
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,38|T,2)   total(C,71|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:39665):
GCGGCCAATGTCTTTGCTGTGGCTGCATTCCAGGTTGAGAAGCGCCTGGCGGTGGTAAGCAGTGCCCCTCACCTCCGTGTGTGCTCACCCTGCTGTGTGC
R
CTCCTGGGAGGAGCTGCTCCCCAGGCCTGGCAGCCCTCTCCCAGGCAATGGGAGCCCTGGTTGAGTGCTCTGCTCCCCACTCCAGGGTGCCCTGACGGAG
Celera SNP ID:            hCV25602571
SNP Position Genomic:     14147
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:39666):
CCTCGGGTGGGGATCAGGCTGACGTGGCCCTAAACCTGCCCCTTGGTGCTTCTGTCCACAGCGGCCAATGTCTTTGCTGTGGCTGCATTCCAGGTTGAGA
R
GCGCCTGGCGGTGGTAAGCAGTGCCCCTCACCTCCGTGTGTGCTCACCCTGCTGTGTGCGCTCCTGGGAGGAGCTGCTCCCCAGGCCTGGCAGCCCTCTC
Celera SNP ID:            hCV25602572
SNP Position Genomic:     14087
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39667):
GTGTGTGGCTGGCGCCTGGCCTGCCTTTGCCAGTTTGAGCCTGCACGTCCAAGTGTGGGGACCCCTTAGCTCCCGGGTGCTGGGATGGGCCAACTGAATA
K
GGTGGACTCAACCCTCACCACTTGGTCCCCACAGTGCTGGGCAGTGCCCCCTGGTCCATCCCCAGGTTGGACCCTGCTTGTGGCCCCAGTGCTAGTCCAC
Celera SNP ID:            hCV27904175
SNP Position Genomic:     11062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39668):
GGGTGCCCATGCACCACATACTTGCTGCTTCCCATTGGATCCCAGGAGAGTCCTGCAGATGTGGTGTGGGCGTGGGGAGGCCGAACAGTGCCTGGCTGGA
R
CCTGTGTGTTGTGAGCTGGGCCTGAGGGGTGCAGGGCCTCCAGGGAGGGCAGGGTGGAGGGGGTCTTGCCCTGGGCTGGTGGGAGAGTGGACTGCATGCT
Celera SNP ID:            hCV27986103
SNP Position Genomic:     11904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39669):
GGTGTCGGGAGCGGGTCTAGGTCCAGGTGGGGCTCTGTCCCAGGCTGGCCTTTGCCTGAGAACAGGCTCTGTCACCCAGGGTGTCCAGGCTGGAGCCCCT
S
TGGGCTGGGGTGTGTGGAGCAGGCTGCACCTCCATGTGGCTGCCAGCACTGGACTGTTGGGGAGGGGAGTGGCAGTGGCTGCCCCTGCTGTGGTCACTTG
Celera SNP ID:            hCV25602573
SNP Position Genomic:     11704
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,34)   caucasian(G,36)   total(C,2|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:39670):
CCCTGCCTCTGGGAAAGTGCATGTCAGGCTGGTGTGTGGCTGGCGCCTGGCCTGCCTTTGCCAGTTTGAGCCTGCACGTCCAAGTGTGGGGACCCCTTAG
Y
TCCCGGGTGCTGGGATGGGCCAACTGAATAGGGTGGACTCAACCCTCACCACTTGGTCCCCACAGTGCTGGGCAGTGCCCCCTGGTCCATCCCCAGGTTG
Celera SNP ID:            hCV27904176
SNP Position Genomic:     11031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39671):
GCCCGGCGGCTGTAATGGTTCCATGGGCGGGGGTGGGGTGGTTGCCCCCAAGACCCCTCCTTCAGGCATTAATCATTCACTGACCGTTCATTGAGCACCT
M
CTATGTGCCAGGCCAATTGCTGAGTCCGCCAGGAGCGCAGCCACCTGCTGGGAGGTGTGTTTGCAGGACAGGGGTCCAACCGGCTTGGGTGGGCCAGGGA
Celera SNP ID:            hCV28970296
SNP Position Genomic:     1288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 PUTATIVE UTR 5;hmCS


Context             (SEQ ID NO:39672):
GCTGCCCCTGCTGTGGTCACTTGGGTGCCCATGCACCACATACTTGCTGCTTCCCATTGGATCCCAGGAGAGTCCTGCAGATGTGGTGTGGGCGTGGGGA
S
GCCGAACAGTGCCTGGCTGGAGCCTGTGTGTTGTGAGCTGGGCCTGAGGGGTGCAGGGCCTCCAGGGAGGGCAGGGTGGAGGGGGTCTTGCCCTGGGCTG
Celera SNP ID:            hCV27904177
SNP Position Genomic:     11882
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39673):
GTTGGGGAGGGGAGTGGCAGTGGCTGCCCCTGCTGTGGTCACTTGGGTGCCCATGCACCACATACTTGCTGCTTCCCATTGGATCCCAGGAGAGTCCTGC
W
GATGTGGTGTGGGCGTGGGGAGGCCGAACAGTGCCTGGCTGGAGCCTGTGTGTTGTGAGCTGGGCCTGAGGGGTGCAGGGCCTCCAGGGAGGGCAGGGTG
Celera SNP ID:            hCV27904178
SNP Position Genomic:     11860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39674):
GGCTCCTGCCATGGCTCTCAGGCCCACTCTCCCTGCCTAGGGGCTCTGAGGGGCAGATGTGCGTGTGCGGGAGGGAAAGGGAGGCTCTGGCCTCTCCTCT
Y
ACAAAGTTGAGGACTTGCTCAATGCTGTGTGTGGTGTCCCAGTGGCACGGCAGATGGGGGGTGAGGCGGGCCTGCAGCTAGTGTATGTGAGCCAGCACTG
Celera SNP ID:            hCV27512329
SNP Position Genomic:     10538
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,686|T,799)   total(C,686|T,799) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39675):
GTCCTCATGTACGTCCACGACTACTACGTGCTCAACTATGAGGCCCCAGCGGCAGAGGCCTGAGCTGCACCTGAGGGCCTGGCTTCTCACTGCCACCTCA
M
ACCCGCTGCCAGAGCCCACCTCTCCTCCTAGGCCTCGAGTGCTGGGGATGGGCCTGGCTGCACAGCATCCTCCTCTGGTCCCAGGGAGGCCTCTCTGCCC
Celera SNP ID:            hCV8332399
SNP Position Genomic:     16283
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:39676):
CATGGCTAGCTGAAGGGCTTGTTTCTGCAGGACATGGACTACTCACGCATCATCGAGCGCCTCCTGAAGCTGGCGGTGAGTGCGGACAGGTGGCGCATGC
R
CAGGACAGGAGGGGACAGTGGCATGTGGGGGAAGGTTCTAGAACTTGGTGCCCACCCCCACCTCCCTGCCAGGTCCCCAATCACCTCATCTGGCTCATCT
Celera SNP ID:            hCV28959015
SNP Position Genomic:     15281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39677):
TGGACTGTTGGGGAGGGGAGTGGCAGTGGCTGCCCCTGCTGTGGTCACTTGGGTGCCCATGCACCACATACTTGCTGCTTCCCATTGGATCCCAGGAGAG
Y
CCTGCAGATGTGGTGTGGGCGTGGGGAGGCCGAACAGTGCCTGGCTGGAGCCTGTGTGTTGTGAGCTGGGCCTGAGGGGTGCAGGGCCTCCAGGGAGGGC
Celera SNP ID:            hCV25602577
SNP Position Genomic:     11854
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,6)   caucasian(C,18|T,18)   total(C,42|T,24)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39678):
TGCTCAATGCTGTGTGTGGTGTCCCAGTGGCACGGCAGATGGGGGGTGAGGCGGGCCTGCAGCTAGTGTATGTGAGCCAGCACTGCTTCCTAGGACGTGT
R
GGGGCCTGGCCAAGCTCTTGCTGTCCTTGTCCTAGCTATATGGCAGTCCCTCTATTGGGCTGGGTGCCCTCTTCCACCTGTGCAGTATGCTGAGGACCAG
Celera SNP ID:            hCV27477859
SNP Position Genomic:     10654
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,464|G,641)   total(G,641|A,464) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39679):
TGGCCTCTCCTCTCACAAAGTTGAGGACTTGCTCAATGCTGTGTGTGGTGTCCCAGTGGCACGGCAGATGGGGGGTGAGGCGGGCCTGCAGCTAGTGTAT
R
TGAGCCAGCACTGCTTCCTAGGACGTGTAGGGGCCTGGCCAAGCTCTTGCTGTCCTTGTCCTAGCTATATGGCAGTCCCTCTATTGGGCTGGGTGCCCTC
Celera SNP ID:            hCV27475180
SNP Position Genomic:     10625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39680):
ATCCTCCCTCTACCCCAGTGGGGGCTGGTGGGCCCTGAGATGGAGGCATCTCCTTGGGCCCTGCTGAGGATGGCAGTAGTGGGTGAGCTCCTGGTGGGGG
R
ATGGGTGTGGGGCCGACTCCTCCATCCCACATGGGCTCCTGTGCCTCTCCCTATCAGTTGGCCAGTGGAGCTCGAGAACAAACTGTTGCTGCCAGATAAA
Celera SNP ID:            hCV28959016
SNP Position Genomic:     17545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:39681):
CTTCCACCTGTGCAGTATGCTGAGGACCAGGCAGGGTCTGCCTGTGCCCCTCCAGCGCTGGTTGGGAGATCATGGGTGGGTGCCTGCCTCTGTTGGAAGC
Y
TCTCAGCCAGCAGGCACCTAGCCCCGGGTGGGTTCCTTTCAGCCCCCTCAGCCTGGGCACACATCACAAACAAGTGGAGGCTACACCGGCACACGAGGGC
Celera SNP ID:            hCV27496838
SNP Position Genomic:     10825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39682):
TCACTCCCTAGATCCCACTGGCCTGGTTCGTGGGCCGCTTTTTCCAGGGCAACTATGGCAACGCAGCTGTGTGGCTGTCGCTCATCATCGGACAGCCAAT
W
GCCGTCCTCATGTACGTCCACGACTACTACGTGCTCAACTATGAGGCCCCAGCGGCAGAGGCCTGAGCTGCACCTGAGGGCCTGGCTTCTCACTGCCACC
Celera SNP ID:            hCV25602578
SNP Position Genomic:     16179
SNP Source:               Applera
Population(Allele,Count): african american(A,31|T,1)   caucasian(A,40)   total(A,71|T,1)
SNP Type:                 SILENT MUTATION;UTR 3;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39683):
CACCCACCGCACCACCCTGGGACAGAGGAAACACATGGAGGCCATAGCATAGAGCCTGTCTGTTTATAGATCTCTGCCTGTCTTGTCCGTCCATCCACTG
K
GTGTATATATCTGTGTATCTCTGTGGAGCGGGGAACGGGACAGTTGTGTAAAAATCCAAAATACAATTCTGACTATGAACAACCTGCAGGGTCAGTCCAG
Celera SNP ID:            hCV8332400
SNP Position Genomic:     18133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Gene Number:                 176
Celera Gene:                 hCG24009 - 66000115797801
Gene Symbol:                 HSF1
Protein Name:                heat shock transcription factor 1;HSTF1
Celera Genomic Axis:         GA_x5YUV32W0T1(758381..793347)
Chromosome:                  Chr8
OMIM number:                 140580
OMIM Information:            HEAT-SHOCK TRANSCRIPTION FACTOR 1;HSF1


Genomic Sequence (SEQ ID NO:12336):
CAGGGCAGGGCCTCGGCCCCTCAGCTAAAGCACAGGACACGCGGGCAGGTGCATGGGCGCCACGGCAGGGCAGGGCCTCGGCCTCCCAGCTAAAGCACAG
GACACGCGGGCAGATGCACGGGCGCCATGGCAGGGCAGGGCCTCGGCCCCTCAGCTAAAGCACAGGACACGCGGGCAGGTGCATGAGCGCCACAACAGGG
CAGGGCCTCAGGCAGGGACTTGGGCAGCCAGCAGCGTGGGGAACTCTGAGGACCGCCCCACCAGCCCGGCCGGCCTTGCCACCTCAGGCCCTGCTGGATG
ACGGAGCACACAGACCACAGACAGCGGTACTTTGGAAAACACCCTGCATGGGGCAGCCAGTTACGCAGTCACAGAAACCCGAGCAGGGCAATGGGCAGGA
CAAGCACACACTCAGCAGTGCAGAGGACCTGGTGCTCCAGGGGCCAGGAGACAAGCAGCGAGAAGAGAAGATGGCGCCTCCCTAGACTCCGCAGACACCT
CTAGTACCTTTCAAGTACTTGGATATGTTATTATGCGAAAACATTGTTTTGGTTTTTGAGGCAGAGCCTCACTCTGTCACCCAGACTGGAGTGCAGTGGT
GAGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTAACGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACGCGCCACCACGCCC
AGCTAATTTTTATATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGCTGGTCTTGAACTCCTGAGCTCAGGTGATCCATCCACCTTAGCCTCCCA
AAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGCTGAAAGAATTTAATAAAAAAATCATTAACATGTAAATGTGTAAATCCTTAATTTAAAAAGGGA
CAGAAGACCCAGAAAGATGTACACCAGACCACTAACTGTGCTCACGGGTTAGGTGTGAGGGCCCTGAGTGGGAGCTTCCACCCTACTGAATGGTGCTGCT
ACAATATCTACATTATTTTCCAGGATGTTTTATCTCATAATTTTTTTTTGAAACAGGGTCTTGCTTGTCACCCAGGCTGGAGTGCAGTGGCTCTATCATA
GCTCACTGTGACCTGGATTCCTGGGCTCAGGAGATCCTCCCACTTTGGCCTCTCGAGCTGCTGGGATTACAGGTATGAGCCACTGTGCCTGGCCCAGTAT
TGTATCATTTTAAAAACTCAAGAAGGGGTAACGTAGTTGTCCATAATCTTACAAACCACTGCCAACACAGCACATCATTTTTTCTCTGTGTATGTTAGTG
GTATAATTAAAGCCTGAATTAAGTGTGATTTTAAATCTTTTCTTCCCAGCAAACAAGCCAACCCAACACAGCTAGCACACAATGAACAAGCCATGGTTCC
TTGGCTTCTATCACGGGGACCTCTGCCAAGGCCGTAACTTCCAGAACACCGAAACTACTGGGAGAGTAAATCCTTACAAACGATTTCCAGAATGTTTAGA
GTAACAAATGCTGGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTTCGAGACCA
GCCTGGCCAACATGGTGAAACCCCGTCACTACTAAACATACAAAAAAAAATTAGCCGAGCCTGGTAGTGGGCACCTGTAATCCCAGCTACTCAGGAGGCT
GAGACAGGAGAATTGTTTGAACCCAGGAGGTGGAAGATGCAGTGAGCCAAGATCGCCCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCTGTCTTA
GAAAAAAAAAAAAAAAATAGGCCGGGCGTGGTGGCTCACCTGAGGTCAGGAAATCGAGACCAGCCTGGCCAACACGGCAAAACCCTGTCTCTACTAAAAG
TACAAAAATTAGCCGGGCGTGATGGCATGTACCTGTAATCCCAGCTACTAGAGAGGCTGAGGCAGGAGAATTACTTGCAGTGAGCCAAGATCACACCACT
GCACTCCAGCCTGGGCGACAGAGTAAGACTCTGTCTCAAAAAAATAAAAAATAAAAAAAAATAACAAATGCTGTGTTTTAGTTAAATTATGCTTTTCTCC
TGTTGTTCTCAATAAGAGTAGGGTGCATCCTCCCCCACCATCGCTGCAACAGGTACAATGTTAAACCCTCTACCCGTCGGCTGCTCAGGCCCCTGAAGCC
CTGTGGGGTCAGGCCCAGCTGGGTTCCGTTGGGGCCCCCATGCCGCCTGCTTGAGCCCTGCCATGCTGCTCAGCTCCCTCCTCAGCTGGGTCCTGCCACT
GGATTCCAAGCAGTAAAATCCCCACCTCAAGGAAACCCAACCTGTTGCCAGGAGGGTTGCCCGAGCATCGTCTGACGGGGAAGGGCCTAGGCATGTGGAT
TTTCAGAGTTCCTGGGAACGGCACGCAACTGGGGATGGAAACCAGCGTCCTAGAGCCCAAGCGTGCCCCAGGTGCAGTGAAGGAGGGACGCCGGCCTTGG
GGTTCTGAGGGACGGTGGAGAAGGCAGTACAGTGGCAGTCTCAGAAAGCCCAAGGCCACCTGCACATGGGGGACAGCCCTCGAGGGGGCTCCTCGCTCAC
CCACCTGCACCTGCTCCTCAGTGGTCTTTTTAATCCCACTGTGGCCCTCGTCATCAAGGGCTCCGTCCTCTCCCTCCTCGTCGCCTTCGTCATCATCCTC
ACTGCTGTCACTGCCGGAATCTTCCAGGCCTGAGAACACACTYTCCTCGCTGTCGGAGACGCCAGAATCGCTGCCGGTGCTGTGGCTGAGAGGAGAGGTG
CAGAGGAGGGGGGGCTGCAAGGAAACACTGGGTTGGTGACAACTGCCCCTCCAGGCATGGGGCACTGAACACTGCAGGGAGAGCTGCCTCTCGCCCCTCC
AGCCACCCACCAGCAGCTCCATGTGGCCTCCAGGACCACACCCCTCCAGTCACAAACTTCCACCAAAAGCATCCACCCAACCTGAGCCTTCCTCATCTTC
TACCTCCACTGACAAGACAGCCTCTTGCCTTTGCCATCGACATTTTAATTCCTAGCACCTCACAGGGAAGGGGCTTTTCAAGGACAACCTCCTCCTCTTG
GAGCTCAGCTCTCATCGCAAAACTAACACTGCTCTCTACCACCCACTGACACTCCGGAGGCCCTGTGGGGTCAGGCTGGGCTGGACTCCACTGGGTCCCT
CAGACAGCCTGCCTGAGCCCTCTCCACACCTCACCCTGGCATCCAAGGCCCCAGAGCCAAGAGGTCACTAGAAAAGGGGCTGGGGGCTGGAAGAGAAATG
GGTCCCCAAAGGGCTTTTACCACCTGAAGCAGACGCCTCCTCATTTAACCAGATTGGGACCAACGATTGATCAGTAAATTGAAAGGATTGGCTGAAGAGT
CACAGGAATGATAGAGACTCTAACCGCAACCACGCACCAACCCACCCACTCCTCTCTCTGAGCAGGACCACAGCTGCCTCTGAGCAGAGCCCTGCTGGCT
GCGTGACACCGGCACACACAGTGTTCGGGTCCTTCACTGGCCTTAAAGGGTGGAACAAGAACTTAGACTCTTAGGAAGCAGTTGAAGGCCAGGCACAGTG
GCTCACTCCTGTAATCCCAACACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCATCTC
TACTAAAAATACAAAAATTAGCTGGTGGTGGCGGGCACCTCTAATCCCAGCTACTCAGGAGGCTGAGTTAGCCAGGAGGTGGAAGCTGCAGTGAGCCAAG
ACTGCACCACTGCACTCTAGCCTGGGCAACAGAGCCAGGCTCTGTCTCAAAAAAAAAAAAAAGAAAAAAGAAAGAAAAGGAAAAGAAAAGAAAAAGGAAG
CAGTTGAATGCAGAATTCTAGATTTTACTGTTTTCCTAATAGTTTACAAGTCTCACTTAAGGTACGACCTGCATGTATTAGCTATTGCATACCGAGTGTT
CACACAATGCCTCTCTCACACAGAGTCATGATGTGTCTTGGTATTCAGTCGGCTACACAATCACAATAACTAGTGGAAATGGCATCCGTGGCCTGGGCGC
AAACAACTGGCTCCTGAGGACCGTTTAGTCCAAGGGTGGAAGTCGCAGAACCTGGCGCCTAGAGTGGCCTGCGGGCCATTCAGCCCATGGGAGCCAGGAT
GAGTTGAATTCGCTTCACAAAGCAATGGGGCAGTTTCAACAACCCAGMGCGGCCGCGGCCGAGGGGGCTGTGAGGGGCTGGCTGTCCATCCCCTCCACCA
CCCAATTTGATGATCCCCACAACCAAGACAGGGCTGAGCTAGCAGAGAGCAACAGTGAGTTCTAATACAGCAAATGCAGCAGACACTGGGTTCTATTCAG
GTTTTCTTATTCTCATGTCTATCCCATGAGCATAAAAACGCAATTAACTAGCGTATACGTAGGTTAAGCATTTACTGGGAGCGCAAGCCGAGCCCTTTTA
TTGGCAGGATGCACAAATGGAACGGCTGGAGAGGCTGCTGCAAGGGGCGCCCCGTCCCCACTCCCCGCTCCCCCGTTTCTTTGCTTCCCGGACGCCGTCC
TTTACCCCGCAGTCCGCTCTGCCTGAGACCCCCCGATAGAGGAGCTGCACCCACGCCCAAGACCGATTCACTGGGCGCGGGCGCCCAGGTGACAGAAGCC
GGGCCCACCCGCCCCAGCGCGGCCACGTGCCCGCCGGGCCCTCTAGGGACGCGCCCCGCCGCCCCGCATCGCCACAGTCACCTCCGGCTCGGGCTCAGGC
TCCAGTTCGGGCTCAGACCGCCGCTTCTCCGGCCGCACGCTCGGCGCCGCCGTGCGCCCCGCACCCCGCGAACCCGCCATGCCCCACCGGGCGCCGGCCG
CCACCCGCANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCAGCCTACGGGGTGCTGGGTCGGCA
ACTATTAGGAGAAAGTCAGGACTTGGCACGTGAAGTGGAGGGCGTTGCTGTAGTGGAACAGGAAAGGCAGTGGAAACAGTAAGACGTCATGAAGCTTCAG
GTTGATCTCAAGCCCGTTTCCGAATCCCAAATCTGGGTTTCCCAAGAGGAGTTTTGTTTTTCATTCCTTATGGGGCATCTTTATTCGTGTTTCTGTCTTC
AGTTGCCTGGCAGCAGGCTTGTTTACATGGTCCGACCCTGCAAGACCGGACAGCTCCGGTTTGCAGAAGTAAATCAGTGATTGTCTGGAGTTGGAGATCA
GAATCTGCTGTTCACATCCCGGCTGTGACGTCGTGTCCGGTGAGGGGCAGAGCCACCGCCTGCGGCTGGCAAGTGATGACCTGAAGAAGGGCCACACTGG
CCGAGTGGGGTGACTCTTGCTTGTAATCCCAGCACTTTGGGAGGCGGAGGCGGGTGGATCACTTGAGGCCAGGAGTTCGAGACCAGCCCGGACAATATGG
CAAAACCCCAGCTCTACTAAAAATACAAAAAATTTGCCGGGCGTGGTGGTGCTTGCCTGTGGTCTTAGCTACTTGGGAGGCTGAGATAGGAGGACTCCCT
GGACCTGGGAGGCAGAGGTTGCACTGAACCAAGATCCCGCCACTGCAGCCTGGCAAAGAGTGAGACCCTGTCTAAGAAAAAAAAGAAAAAAAAGAAAGGC
CACTGATCATTGGGAGCTTTTGGAGGCACCGTGACCGGCAGGGTGCCACCAAGCATGTGTGGCCTCCCAGGAGCTAAGACCCCAGAGTTCTTCAGGCTCT
GCTGAGTGCCTCCCATTTGCACAGCCTCTTTATGCTGTTAGGAATGAAGAAAAGTCTAAACTGAAGCTGCCCCAGGCAGGAGGCCAGGTTTTCTGCTTCT
TGGGTTTACTGAGGCTCTGCTTTACCTACAGAGTGTTTGGAAATAAAGAGAAGACTGGAAATCTTTGCTCTTGTTAGAAACACTTTGTGTTTGTCCCGCT
GACACCTCTGTGTTGGCCTTCCCATCCCCAGGTCCCATTAAGGCACAGTGCACCTTCCTGGAGGCTGGCTTCATTTCACCATCTCTTCATTCTAGACCTT
GGATTCTTGTGCAAAGGAAATACTCCCATGTTTCTGTCTTCTTTTATCCGTCTTTTTCTTTTTTCTTTTTTTTTTTTTTAGACCGAGTCTTGCTCTGTCA
CCCAGGTTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCGACCTCCACCTCCCGGGTTCAAGCAATTCTGCCTCAGCCTCCCGAGTAGCCAGGACTACAG
GTGCGTGCTGCCACACCCGGCTGATTGTTGTATTTTTAGTAGAGACGGGGTTTCACCACATTGGACAGGCTGGTCTGGAACTCCTGACCTCAAGTTATCC
ACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACTGGTGTGAGCCACTGCACCCAGCCCTTCTTCTTTTTCTTATTCCCCTTAATCCTCAGAAGTTAAGGG
GAATAACTCCCCCATTGGGGGAGGGGCATCCGMGATTATCTGGGATATTCTAAGCTTAATCCTACTAGCGTGATCTGTCCTGTCCCGTAATCTGCTTGCT
GTTTCTGCTTAAAGATTATGAGGCATGTGGGTTAGGGCCCAKTGTACCCTTTTTTGGGACCGAGGCATGTTCTGGGCAGGGCTTTTGAGCAAGGAAGGCA
GGTGTGATGAGGCCCGTGGCCAGCCTCCACTCCACTCACAGGTGCACCACCTGTGGATCTGTTCTCCCTGGGGAGGGATGGGGAGCCAACTGGAATGTGA
GTGTTTGGTTCCACCTGGTCAGTATGAAGTGGCAATGGTTGGTGCAGGACGTAGCACTGGGGGCGAGCATGGCAATGAGACAGAAACACTGACTTAAAAC
TGGAAGGAAGCCCTTCTCCARGCCGCGCAGGGGGCTGCAGAGCTTTCCGGCGCTGGCTGCCTGGCCTGGAGAAAGGAGGTGATCATCCCATCCTGTGACT
TTGAGAGCACTCACACAAGCCCTGAGGACTCCCTGTCAGCAGAGTCCCAACAGGGCACCCTCCCACAAATCTACTGCCCAGGCCCAGCTGGCTCTCGGAG
GCCTTGAGAAGGCCCTGGTGCTCTTGCTCTCTGCTGCCTTCTCTGGGAGAGTCTCCTTCTGGCTCAGAGTCTTACCACCATTCTGCCAAGAAAAACCCTC
CCTATTTGACACAAGAAGATGAGGCAGAATCACAGGCATGGTGACTAACTCTCAAGGCTGAATAACCTGGGGGAGACCGAGGCCCAGAAACTGGCCAGTA
ACTTTACTGAGCCTGGCCAGGAATGGGACCAGGTCTGGACCACCATTGCACGTCCCCTCCCTGGCCTGAGATCAGGACTCCCACTGCAGCCACTGGAGGC
AGAATGCCGGGTCACTGCCCAGGAGACCCCATTGGTGGGGACTGTGGCAGCTRCCCCATCCCTGTGTTGTTTGATTTCCCACCCCCCCCTCCCAAGACCC
TCATTCCCATGAGCACCCCACCCACACAGGCAAGGGCCTTGAGGGGACCCAGCAAGTCGTGGAGGACAGCACAGCCTTGGAGAGGAAATGTGTCAGCCAC
AAGGTTATGATCCCRGGGATCCACATAAGAGCATGGGCGTGCACGTGGGTGGTCCTCCCTCAGCCAGCTTCTCAACAGCTTCTCCCAAAGGTACACCTGG
ATCCAGTACCACTGAGACCCAAAGACGGGGTTGGGGGACTGAATACCTGGACTGACAGGCACCTCCATAGAACTGAGACCCATGAGACCCGGGACCCGCA
GCCTCCCTGCCCCGTGCCCTGGTGCCGGCCCTCAGCCCAGCTTCCTCGTCTGCATGCAGCAGCTCCTCTGTCCACCAGCRGAGGCTCTTCTAGGGCCTTG
CTGGGCTGCAGCTGACTCAGGAGGGCAACAGCCTCTTCAGAGAATTTGACAGCATGGAGAACCAAACAAAAGCAGAAAGTGAAGCCTCAGAACTGGGTTC
ACCATCATCCCAGTTTTTTACAAGCTATGATTTTGTCCCATCTTTATTAACAAGATAAGGAAGTATGAAAARTAATCTCGACATCTGAGATGGTGAGATT
ACAGCCCCAGGAGCCACCCAGCTGGCTGAGGAGCCTGAGAACAAGGCACAGCCACATGACCTGTGCCAGACAAATGCTAGAATGATGGTCACGCAGGTTA
GAACGAACCCAGGTAGACGGAGGCCTCAGGATCAGGGTGAGGCCAGAGGGGGCACCTGGGTGCAAAATTTAAGGAAGCACTTTTTGTTTTTTAGATAAGG
TCTCGCTCTGTTGCCCAGGCTGGAGTGCAGGGCTATGATTGCAGCTCGCTGCAGCCTCTGCCTCCCAGGCTCAAGTGATCCAGTCACCTCAGCTGAGTCA
CTGGGACTACAGGCTTGCACCACCAGACCTGGCTTTTTTTTTTTTTTCTTTTTAAGGTTTTAGTAGAGACAGGGTCTCGCCGTATTGCCCAAGCTAGTCT
GGAACTCACGGGCTCAAGCCATCCTCCCATCTCAGCCTCCCGAAGTGCTGGGATTACAGGCTTGAGCCACCGCGCCTGGCCCTGAGGCATTCCTTTTTAA
GACCTACCTGCATTCGGATGGCGCTGGGAGTGGGGGCCTCCTTAGATGTGGGCTCCTGGATGCTTCTCTGTCTTCACCTGGCCCCAGCCTCATGGGTGCA
GCTGGAAAGACTCTAGAAGGATGTGCTGAAACCCTGGGGCTCCCTGAGACTGAGTGAGCTGGAGGTCACCAAGGCCCTCGGCCTATCGCGGGAGAGAGTT
CCATTGAAAGCCAGTGGTCAGGTGGCCGCTGTGGAGGGTCTCTGGGTGGACAATTGGGAGCAGAGTGGTCCCTGCAGTGAGGCAGGGGGCAGGGCGTGAG
GGGTCCCTGAAGTAAGGCAGGGCAGGGCGTCCACTCATAAGCACACGAGGAGTTGCAGAAGCAGAGCCGACCTGGCCACGCTCAGTCACTCAGACCCTGG
CCACAGATCGTGTCCGGAGCTCCCACGGCAGGCAGGGCCACCCCTGCTTCCCTGGTTCTGAGAGCCGCCAAGACCCAGCAGGCCCACTGGCCCCACCCTG
GAAGATCTGGTATTTGGCCCAAGATGCTGGAGGCCCCACAGCAGCAGCTGTGAGAAGTGCTGCAGGGTCTGGAGGGCCTGATGTGTGCCCGGACCATAGT
GCCTCCTGGTGTGGCCATAAGAAGGCACACAGCTGGGGCTGGTCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCAC
GAGATCAGGAGGTCAGGAGATTGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTATATTAAAAAATACAAAAAACTAGCTGGACGTGGTGGTGGGTG
CCTGTAGTCCCAGCTACTTGCGAGGCTGAGGCAGGAGAACGGCGTGAACCCAGGAGGCGGGGCTTGCAGTGAGCTGAGATCGCGCCATTGCACTCCAGCC
TGGGTGACAGAGCGGGACTCCATCTCAAAAAAAAAAAAAAAGAAGGCACACATCTGTCCTCATACAGCTTCTGTGCATAGCACAGAAAAAATTAAAAAGG
CTCTGTGCTGTAGCCTCCTGTGTTTCCTCTGCCCCGGATGGTGTGGTGGGGGGGGTGCGGTGAGGAGGGGCCCAGGGCACAGAAGGGCTGAGCTGCAGTG
GCCTCCTGGGGGGAGGCAGATGCCTCCGGTGCCCCATGCCCACCCAACTCCACAGGCTAGTGTTTGCTCAGTCCTTTATTGAGGGACCAGGGATGGACAG
CCTGGCCCTGAAAGTCTCTCAGTTTTGGAGGAGTCAGCCTGTGTGCAGGGCGAGCTGGAGAGGGGTCGGTGGGGCTCACAGTGCCTTCCCAGAGGAAGCA
AGCAGCTCCCATCGGGTATATTGAGGGCTGTTGGCTCCAGGGTCTCCTCAAGGTCTGGCAGGTGGAGGGGAGGCTGTCTAAGGAAAGGAGGTGGTCCCAA
ATGTCTCAAGGCACCTGGCAGCAAGGGCTGCTGCTGCCTCAGCCTCCTCCCTGTGACCCTGTGGGCCATGGTGAGCAGCAGTAGCCACCACACTTGTGCA
CGGCAGCCAGTGACGAGATGTGATGAGAGATGAGGGCGATTGTGCTGCTCTTGGTCCTTGTGTGGCGAGAACACGCTGGAAGCTCCTCCAGAGCGGAAAC
AAGAAGAGTGTTTATGAGAAAGGTGCGGGTGGCTCAGATGTGGACAGAACCAGACCAGGGAACGGGGCCACAAAGTGAGCCACTTTGTCTGCACCTGCTC
GCGCTTCCTGCCTGCCTCACTGCTTCCATGCCCTGACTCCGGTGGTCCCTGCTCCCCACACGTGGGCCACAGCTACTCACACACGCGCTCCCTTTGCTCC
TAAAGCCTATACTCCCGGGACCCGGAGAGGGAACAGCCGGCCAGCCGAGCCCAGGAGCCCAGATCACCGGTCAGCAGATACAGCTTTGACTTGGCAGGAG
GCTGGAACAAGAGGCTTGTGGCCTGGGCTGTGGGGCCACCTTGTAGAATACGGCACTGTTCACGTTTTGGGCCAGGGAGCCCTTTGAGAAGATACTCAGA
GACACAGACACTTTCTATGTAAGGTGTCCCTACAGGCAGGATCTCACACACATTTCAGGTCCTTCACAGTGCTGCAGAAAATGAGGCCACAGGCTCCAAG
TTTACTGCAAGCTGCGGGGTTTGCTGACACCTACACTTCTCAGCGTGTGGCATCTCGCACCAGCCAGGGGCCTCCCATTTCCAGTGGCAGGTTTTCGTGA
TATCCAGTTATGACCGGTGACTCCTCCAAGAGGTGCCTGTGGTCAGCAGAGGAGGGACCTTGTTCCACTGAGGCAGGAAGATGAGAGAGACACTGGGTTC
TCTGATGGGTTCACCAGCAGACCCTGTGAAATTCATAATGGCCCCTAAGGTAGGGGTTGCCTGACATGTTCAACTTGGATTTAACCCTTAAGGCATAAGA
AGCCGCTGAAAATGTTCAGACGTTACAAAACTAGGGCCGGGCACGGTGGCTCACGGCTGTAATCCCAGCACTTCGGGAGGCTGAGGCGGTTGGATCACCT
GAGGTCAGCAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAAAAAATAGCCAGGCGTGGTGGTGCGTGCC
TGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGATACAGAGGTTGCAGTGAGCCGAGATTGCGCCGCTGCGCTCCAGCCAC
AGAGCGAGAAACTGTCTCAAAAAAAAAAAAAGAAAGAAAAGAAAAAACCGGCGAGGACTGAGGTAAACCACAAAATTGTCCAGGCTTTTTATGTGGAGGG
AATTTGCAGACTCACGTGCAGAGAACCCAACAAACCCAGACTTTGGGGCAGCTGAGGCAGCTAGAATGTGTGGGGTGTGGTACCAGAAAGGAAGGAGTTA
CGCCCAAAACAAAGAGCTCCAGCAATCTGCGTGTGAGCCCGCTTGCATCTTGGGTTGGATCCGATTTGCTGGTGCACACAGTGAAACCTCGTGGAGCTGG
ACCAAGAGCAACTTGAAGGGGAAGAGTAAGTGTAAGGGGACAGATGAGCAGGACTCACACAGGGCCGTGGTTATTTCAGTTCCCACCAGCCAGAGTATAG
AAGCCACTTTAAATACAAGGAGCTTTCATGACACCTTAGAGGAAACACAGCTTGGAAGTGGCGCAGAATAAGCTGCAGAGGAAAGGCCACTCCAATGCCG
TGGAAACAAGTGCAAGGCAAGCCCTGGAAACACCACTGCCTGCTAGCACGGAGTACACACAGCACTCTTGAGAGAAGGAAGCCAGGCGAAGTGGCTCACA
CCTGTAATCCCAGCACTTTGGGAGGCCGAAGCAGGCGGATTATCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGTGAAACGCCGTCTCTACTA
CAAAAAATTAGCCATGTGTGGTGATGGGCGCCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAAGAGAACCACATGAGCCCGGGAGGCAGAGGTTGCAGT
GAGCCGAGATCGCATCACTGCACTTCAGCCTGGGCAACAGAGCAAGACTCCTTCTAAAAAAAAAAAAAAAAAATTCACGTCCAGAATCTAATCAGTCATG
GGCAGACAAGCCAAAGCAGAAAAATGGACTTGTCACTGGAGGGGGTCCAGTAGCAGGCCCAGTTTTGATAGGATTAGCCAACAAAGACAGTAAACAATTA
TAAAAATGTTCCCTGTGCTCAAAGAAATAACACAAAAATGTGACTGAGGGCTGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTCTGGGAGGCCGAGG
CGGGTGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGG
GCACCTGTAGTCCCAGCTCCTCCAGAGGCTGAGGCAGGAGAATTGCTTGGACCCGGGAGGTGGAGCTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCA
GCCTGGGTGACAGAGCGAGACCCCGTCTCAAAAAATAAGAAAACATGACTGAGAAATGGAAGATACAGAAAAGAAGCAAGTTGGACAAAATGTCACTGGA
ACTAATCTCCCAAGTAGAAGAATTCCACATTGTTTACTGAGATAGTTCCCCTTCGAGGAGGTGATGCTTAACTCCTCACTCCAGAAGCCTGGGCTTTACC
TAGTGACCCTCTTCCAAAGAGCAGAGCACAGAAGCAGGAGGAGCAGCTTTCCAGTGGAGACCTCCAGCAACACAGCCTCACCAGGGACCATGCTCACCAT
CAGCAGTGACATGCGTATCACTGTTGTGTACTCTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCAGGCTGGAGTGCAGTGGCAC
AATCTCGGCTCACTGCAACCTCCACCTCCCAGGTCCAAGCAATTCTCCTGCCTCAGCCTCCCACGAAGCTGGGACTACAGGCACCCGCCACCTCGCCCGG
CTAATTTTGTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCACCTTGGCCTCCCAAA
GTGTTGGGCGCGTCAGCCACCGCGCCCGGCCTGTTGTGTACTCTTGATAGGATGATGAGAACAGCACTCTACCTCTTTGATCTTCCTCCCAAAAACATAC
GTAACCCCAGCTAATGATGAAAAAACATCAAACAAATCCAAATTGAGAGACATTCCACAAACTGTTTGACGAGTCCTCAAAATTGTCAAGGTTCTCAAAA
ACTAGGCAAGTCTGAAAGGTGCCAGAGTCAGTGGGACTGAAGAAGATGTGACAACTGGATGGATTTTGGATGATGTCCTGGAGCAGAGGAAGGATTGGGT
AAAAAGCTAAGGAATCTGATTAGAATGTGSGTCCTAGTTAACAATGTGTCTAATGTTCTTGAGACAACTGTACCACACAAAGGCAGGATGTTAATGATGG
GGGACACTGGTGTAGGGCATGTATTCTAAAGTAAAAAGGTGGTTCTTCAGAGTCACCGGAGCGGTTTAACAAAACATTAGAAACTTCAGAAGAAAAGATT
CCTGAACTAAAAGCAATGGAAACTGTCCACAGTGATGTACAGGGAGAAAAAGGACTGCAAAAACTTAGCCGAGCTTCAAGGACATAATATCATGTGGTCT
AACGTATTTGAGGTTCCAGAAAACAGTGGGGAAGAGAATACAGAAATATGACCAAAAGGCTGGACACGGTGGCTCCTGCCCGAAATCCCAGCACTYTGGG
AGGCTGACATGGGTGGATCGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATAGCAAGACCCTGTCTCTATAAATAATACAAAAATTAGCCGGGC
GTGGTAGTGCCTGCCTGTGGTCCCAACTACTCGGGAGGCTGAGGCGGGAGGATCACCTGAGTGCAGGAGGTGGAGGCTGCAGTGAGCCATGATCGTACCA
CTGCACTCCAGCCTGGGCAACAGAGCCCTGTCTCAAAAAAAAAATTATGGCCAAAATTTTTCCCAAATTTTTGAAAAGCTGTAAGCTCACAAATCCAAGA
ATATCAGTCTTAAGCAGGATAAAACCAAAACCATATCAAGGTACATTATATAATCAAAGTGCTGGAACAGGCTGGTGAAGAGAAAATCTTAAAAGCTCCA
GAAGAGGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACCAGGTCAGGAGGTCGAGACCATCCTGGCTAA
TACAGTGAAACCCCGTCTCTATTGAAAATACAAAAATTAGCCGGGCGTGGTGGCGGGTGCCTGTAGTCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATG
GCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGCGACAAAGCGAGACTCCGTCTCAAAAAAAATAAAAAG
CATCCAGAAGAGCCGTGCACGGTGGTGGTGCCTGTGGTGCCAGCTACTCAGAGGCTCGGGTGGMAGGATTGCTCCCAGATGGGGCAACATAGCTTGGCCA
ACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAACTAGCTGGGCGTGGTGGCAGGTGCCTGTAATCCCCGCTACTCRGGAGGCTGAGGCGGGAGAAT
CTCTGGAACCCAGGAGGCAGAGGCTGCAGTGAGCCGAAACTGCACCATTGCACTCCAGCCTGGGCGACACAGCGAGACTCCGTCTCCAAAAAAAAAAATT
TTTTTTTGCAACTCAGGAAGACAACCATTTAAAAAAAATAAAAGGCAGGCCGGGCGCCGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGACCGAGGC
AGGCGGATCACAAGGTCAGGAATTCAAAAGCAGCCTGGCCAATATGGTGAAACCCCGTCTCTACTGAAAATACAAAAATTAGCTGGGCGTGATGGCAGGT
GCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGAATCGCATGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCGCCATTGCACTCTAGC
CTGGGCAGTGGAGCGAGACTCCATCTAAAAAAAAAAGATAATAATAATAATAAATAAAACGCAAGTGGCTGAGCATGGTAGCTGACACCTGTAATCCCAA
CACTTTGGGAGGCCAGCGCGGGTAGATTGCTTCCACTCAGGAGTTCGAGACCAGCCTGGGCAACATAGGGAGACCCATCTCTACAAAAAAAAATGAGCCT
GATGTGGTGGTGTGCTCCTGTGGGCCCAGCTACGCGGGAGGCTGAGGTGGGAGGATCTCTTGATCCCAGGAGGTAGAGGTTGCAGTGAGCCCAGATCGCG
CCACTGCACTCCAGCCTGGGTGACAAAGCAGACTCTGTCTCGAAAAAACATACATTGAAAAAGGCAGAAGATTTGAACAGATACATCAAAAAAAAGATAG
ACAAATAGCAAATAAGCACTTGAACAGGTGCTCAGCATCGTTCGTTGTCAGAGGAATGCACACGAAAACCGCAGCGACAGCGACTAGAACAGCCAGGTGC
TGAGGAGGGTGCGGAGCCCCTGGAACTCACCCGTGCTGCTGAGAACACAAATGCTGCATCCGCTTTGGAAAGCAGCTTGGGAGTTGCATGTGAAATTCAG
CATTTACCACACGGCCAGCAGTTCTGCTTTGGTTATTCTACTCCAGAGTTTCCACTGGGGGTCCTTTATGATTTCGTCTCTTCTATCATTTTTTTGGTAT
AGATGGGGGTCTCGCTATTTGGATTATTGTTGCAGGCGTGTTTGGGGTTTTTGAGTAGTGGTAGTGTCTGAGGTCAGTCAGGGTTGTTCTGGCCCCAGCA
GGGCTCTTCGTAGCTTTTCCTGTGCAGGTGAACAAGCCTGCGGTTTCACTTGTTTCTCTTAACTTAGAGGAGCTGTTGTTCCCAAGAGCAGTCTTGGGCT
GAACTTTCAAATAAAATGAGTTTCCTCAGGGAGCTTCAGAGCTCTTTCCTTATGGACGGCCTCTCTCCCCAGGCTGATTTCTCTGCACCACCCTTCTGGG
CACTGGGTAAGACAGCAGCCTCTGATCTTCTTGGCCTGGCTTTCCCAGCATGGGTGCTCTACCCTACTGTTTTAACCTAGAAAGCCTGAACTGTATTTAA
AACTTGTGGTTTTTAAGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACCTTGGGAAGCCAAGGTGGGTGGATCACTTATGGTCAGGAGTTCAAGA
CCAGCCTGACCAACCTGGTGAAAGCCTGTCTCTACTAAAAATATAAAAATAAGCCGGGCGTGGTGGCACATGCCTGTAATACCAGCTACCCAGGAAGCTG
AGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATGGCACCACTGCACTCCAGCCTGGGCGACAGCGAGACTCCATATAAAAA
ATAAAAAAAAAAATTGTGGTTTTGAAAATGCTTTAATTAGGTGGGAGCTGTGGGGAGGGTGATCAGAGACCTGGGTGTCCTCAGCCTGCTGTGGCGGGGG
TAGTCTCCTCTCTGAGGCTTGGGCAAGGTGGAGGAAGGGAGCCCCTGGCTTCTTGGCCACGTGCACCAGGATCTTAGTCTCTTCAACTTGGAGTCGGTGA
GGATGTGAAACTCTGGTGGTCTGCCCAGCCCATGAGATCCAGGAAACCTTATTTGGGAATTGAGGGGAGAAGGGTCCCCATCTTCCTGCTCCCCTCTCCC
TGAGTGTAGTACCCATCATGGTGAGCTGGGGTGAGAGGGAAAGAGGAGGCTGAGGCTCAGATGCCACCAGGCTTAATGTTCGTACCAGGTGTCAGTAGAT
TTTACTCCGTAAGTGTTCATCTGTTATATGCGTTTAGGACAGTTTTGAGACTTTAAGTGGTTTAAGCTTTGCTTGTTTCACAGGAAGTACTTCCATGAAG
TTCCTCACATTGCTGTTCCAGAAGTGGAAATCTCTCCATTTTCAAAGCATAGCTTTGCCGGATATTGAATTTTTATGTTTTGTAGAGATGGGGTCTCGCT
ATGTTGCCCAGGCTGGTCTCCAACTCCTGGGCTCAAGGGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGTAACTACACCCGGCC
AATATACAAAGATTGAGTGGCAGGGTCTTTTATTTTAATGCTTTTATTTTATTTGTTTTGGTTTGTTTTTGTTTCTGTTTTTTTGGAGATGGAGTCTCGC
TCTGTCACCCAGGCTAGAGGGCAGTGGCACGATCTGTGCTCACTACAACTTCTACCTCCCGGGTTCAAGCAGTTCTTCTGCCTCAGCCTCCCAAGTAGCT
GGGATTACAGGCATGAGCCACGACACTAAAATTTTTCCATTTTTAGTAGAGGCGGGGTTTCACCATGCTGGCCAGGCTGGAACTCCTGACCTCAAACGAT
CCACACACCTCAGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCACACCAGGCATTTTAATCCTTTTTTTTTTTTTTTTATTGAGACAGAGTCTC
ACTCTGTCCCCCAGGCTGGAGTGCAGTGGGGTGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAG
CTGGGACAGCAGGCGCCCATCACCACGCCCGGCTAATTTTGTTTGTAGTAGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTC
AGATAATCCGCCTGCTTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGGATGGTCTAGATCTTTTGA
CCTTGTGATCCAACCACCTTGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACTGCGCCTGGCCGGCTCCTCCTTCTTATTCCTTCTGTCTTTTTT
TCTCCTACTGGAGCACCTCAATTGACTGATCTTCATGTTTGCTGACTCCTTCTTCTCCTAGTCAGGTCTGCTCTTAAGCCCCTCTGGTTAATTTTTTTTT
TTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTAGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTT
CAAACAATTCTCCTGCCTCAGCCTCCTGAGTAGCCGGGATTACAGGCATGAGCCACCACACCTGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTC
CATGTTGGTCAGGTTGGTCTCCAACTCCTGACCTCAGGTGATCCGCCTGCCTTGGCCTCCCAAACTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGC
CCCTCTGGTTGACTTTTAATCTGAGTTATTATACTCTTCAGCTCCATAATTTTGATTTCGTGCTTCTTTACAATTTTTATCTCTTTATTGATACTCTCTG
ATAAGATGTCATTCTCATACTTTAGTTCTTCAGATGTGGTTTCCTTTAGTTGTTTGAACATATTTGAAATGATTGACTTAAAATCTTTGCCTCGTAAGTC
CAGTGTCCAATGTTTTGGCTTCTTTGGGGACAGTTTCTATTGATTGCCTTTTTTTTTTTTTCCCGTGTATGGGGTATGGGTCCTAGCTTCTTGTTTCTTT
GCATATCTCTATTTTTTTTTTTAACTAGAGTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTTTGAGTCTGTTACCCAGGCTGGAGCGCAGTAGTTCAATCA
CAGCTCACTGCAGCCTTCACCTCCGGAGCTCAAGGGATCCTCCCTCCTCAGCCTCCTGAGTAGCTGGGATGATAGGTGTGCGCCACCACGCCCACTTAAT
TTTTGTATTTCTTCTAGAGACGGGGTTTTGCCATGTTGCCCAGGCCAGTCTCCAACTCCTGAGCTTGAGCAACCCACCCGCCTCGGCTTCCCAAAGTGCT
GGGACCGCAGGCGTGAACCAGCGCAGCCGGCTGGAAAACTGGAACTCTCATCGGTTGAGAGTGGCAGCTCTGGAGCTCGGACTCCCCCACCTCCCCAGGA
TTTGTCATTGCTGCTGTTTGTCGTGGTTATCTGTCAGGTAGCTTTTCGGCACTAATTCTGTAAAGGTTGCGTTCTTTCTTGTTTATGGCCACTGCCGTCT
CTGTTCAGTTAACTGAGATAGGTGGTGATGGGGCAGAAATGTTCTTGAATGCCTGGGGCCAGTGAGTCTCCCGTCTTTTCCGGGGGCTGTGTGTGTGTGT
GTGTGTGTTGGGGACGCCTTCAGCACTTGGCCAGGCAGTGGACAACCCAACTGTATGCCTGACTTCCTGCTTACACAGAGCCTCAAGGTCAGCCAGAAGT
GAGAGCTCGGGGCTGGCTCAGGTCTTTCCTGAGCACGGGCACGGCTCACACGTGTACACGGCTGCGAGATGTCCTGGAATATCTCAGAGCTTTTCAGAGC
CCCTAGTGGCACCTCCTTCTCCCCAGCTGCCAGGCACTGCCTCAGGCAGCCACAGCGTTCAAAAATCACCTGTAAAGGTTTCAACAGGCACACCTCGGCA
AACAGCTTTTTTATTCAGGAGAGCTTCAAGTCAAATCAGAGACAGCCTTGGGAGTGGACTCTTAGGTCAGATGCTGACAGTCCTCTGGGAATGGGGCCCT
GGAGGAGCTCAAGCCCTGGCCCACCCCGCAGCGGCTGCCAGGACGCTGTTCCCACGGGGACTGCAGCTGTTGGTTTTTAAGGCTGCAGATGGAGTGGGAA
TAGGGCATGTAAAATGCCACAAAGCCTGGCTGGGCACAGAGGCTCACGCCTGTAATCCCAGCACTGCAGGAGGCCAAGGTGGGCGGATTGATTGAGGTCA
GGAATTCGAGACCAGTCTGGGCAACATGGTGAAACCCCATCTCTCCTAAAAATACAGAAATGAGCCGGGCGTGGTGGCGCCTATAGTCAGCTACTCGGGA
GGCTGAGGCAGGAGAATCGCTTGAACTCGGGAGGCTGAGGCACGAGAATCGCTTGAACTGGGAGGCTGAGGCACGAGAATCGCTTGAACTGGGATGCAGA
GGCTGCAGTGAGCCATGTTGGTGCTGGTGCACTCCAGCCTGAGCAAGACCTTGTCTCAGAAAAAAAAAAAGTTCACAAAGCCCACTGTTCTTACTAAGAT
TCAGCTGTTTTTCTTGAATAAATGCTCCCCGTGCTACTGTAATTCTTTGGTTAACTTTCAGAGTTCTGGAAAGTTGGCTTGGCGCTTTYCGCCGTCTCTC
TCCTGCTGCCTTGGGGTCCTTTCCGTGACCGTTTCCCTCCCTGACACGTGTACATCCCTGTGTATTTCACATCTCTCTATGCTGGAAAGAGGTTCTCCAC
TTCTAGTGCCACACCACGGGGGTCTTTCTGGCTTTTTCCCTGTTTGCATCTGCAGCTCCCTTCCCTGGCAGGGAGAAACCTGCCCCACTGCCCTTCACCA
GTTTCTTCACTGAGTCAGCCRCCCCTTCCTATGCAGACACCCCTCACCCCTCTCTGGCCCTGCTTCAGGCCCCCCTTCCCCGCCGTGTGGGCTTCTCGCT
GTCCCCTAAGCCTTCGATGTCCCCTCTGAGCCACCGCGGCCACGGCCAACAGGGATGCCTCCCTCACCAGCGCCTCCTGATAGCTCTGGGCCTGAGCTCG
GTAGAGAAATGGAAGAGGAAGGTATATGCAGTGTTTGACTGTCTCTGTTTCTTGTCTCACGTCACAAAACAAGACTGAATTTGGATTTCTGAACGCGACT
GTGTTTTCCTCGGGAGTAATGAAATTAGGGCTCCATTTCCTTCGCTGTTCCCAAGGGAAAGGTCCTGCTTAAACAGGTGCTTTGTGAGTGGAAACGTGGC
CAGAGTGCGGCGGGTGCTTTGTGAGKGGAAATGTGGCCAGAGTGCGGCGGATGCTTTGTGAGTGGAAACGTGGCCTTCTCTGGAAGCCCTGGGGAGGGGC
TTTCCGACTGAGAGGAAGGCCTCGCATCTGCCCACCGCCCAGTCCTGGGCCTCACAGTGAGGATGCAGGTCACGCTGCACAGATGAGGCCMGTGTGGCAG
GTGGTCCCAGGAACGAACTCGCCTCCCGCCAGCCCCMTGGGCCTCCCATGGCCCCAGCCCCATCAGGTGGAACGTGCACTGCCTGCGTTTCAGAAGGGGC
GGCCTGGGGAAGGGGCGGCTTGGGCACGCTGCCCCTCACCACCACGCGTGACCCACCCATGTGTCTCCCTTTCAGAGCGGGAACAGCTTCCACGTGTTCG
ACCAGGGCCAGTTTGCCAAGGAGGTGCTGCCCAAGTACTTCAAGCACAACAACATGGCCAGCTTCGTGCGGCAGCTCAACATGTGTGAGTGCTGCCTCCA
GGCAGCGCAGGGGTGCGGGAGGCAGACCTGCAGATGGCGGGACCCCAGCAGGAGGACCCTGTGATGAAGGACGGGGCGTCCTGTGCTGGCCAAGGGCATG
GCGTGGGACCCTGCAAGCCTGGGGGCCGGGGAGCAGCCGCCTCTTCCATGGGGGAGGGTCCTTGTGGGTATGAACCTGGGGTCCCCATGGAAGAACCGTG
AAGCCGGAGCTGTACTCCACGTGTGTCGGGCGCAGGGAGCCCTGTGGGGACACAGGGTCTCCCTTAGACCAAGGCCACTCGGCCACCCAGGCATGGGCTC
TGAGGGGGCAGGGCAGGGTCTGACCATGGCCAAGCCCCGCAGCAGCCTCCTGGAGCAGTGGCCGCTCTTCAGGGGTTCTGGTCCCGCCCTGAGGCAGAGC
TGCCCCCTTCCCTGTTATGTGCAGATGGCTTCCGGAAAGTGGTCCACATCGAGCAGGGCGGCCTGGTCAAGCCAGAGAGAGACGACACGGAGTTCCAGCA
CCCATGCTTCCTGCGTGGCCAGGAGCAGCTCCTTGAGAACATCAAGAGGAAAGTGACCAGTGTGAGTGCCGGCCCTGCACCCTTGMCCGGTCTCACCTGC
CACAGCTCTCCCCGCCCGCCCCTCCCTGAGGGCTCCCACCCCAGCCTGCCCCTTCCTGAGGGACCTGGCTGCAGTGGACGAGCCTGAGCCTGCCAAGCTC
CTAGGCTGCTCCAGTGACTCCTGTCCCTCTCGGGAATCCAGGTGTCCACCCTGAAGAGTGAAGACATAAAGATCCGCCAGGACAGCGTCACCAAGCTGCT
GACGGACGTGCAGCTGATGAAGGGGAAGCAGGAGTGCATGGACTCCAAGCTCCTGGCCATGAAGCAGTAGGTCCCACACCAGCATTATGGGCCACAGCGG
GTCCTGGCGCCCACCAAGAGGCCCCGGGTGCTGTGGGGGCAGGGCCCTGACCGGGGCCAGGTGCTCAGCTCCACCCTCCCGCTCCACGCACATCTACCCT
GGGCCTCTGCCCCAGCCCCGCCGCCCGTGGCTGCTGCAACAGCTCTGGGGCCAGCCGTTTTCCATGTGCAGAAGGGGGTTGGGAGGGTCCCCTGCTCTGC
ACATCCCCAGCGCCCTCTGGGCCATTGGCTTCTGCCTGGCTCCGAGCTTGGCGGGACCCACCAGCCTACTTTTGAGGACAAGCCTTGCACAGCAGACCCG
TCCCACCCGCCTCGGGCCTGGGGTCAGACCCACCTCAGGCCCTTCCTGGAACCGCTGTCCCACACTCGCCTGGGCCCATGGAGCTAGCCCCCAGCCCCTC
CTCACCGGGACCCTGCGGCTCTGGGGAAACCTTAGCAGGAGCCTAACACACGGTGGCACCTGAGAAACTGAGGCAAGCCCACCTCGGAAGGCCAGCTCAG
GTCTCACGTCCACTTTGGGGCTCCAGGCATGCGGGAACCCCAATGCCAGTACGGCTTCCTCGGCTCCGTGCAGCAGGCGCTCTTGACCCCCACGTCATGG
AGGAGGCCTTGGCCTCAGACTCTCCTGCATGGGGTCTAGCAGGAGCCACCGGCTTTGTGATTCCTGGAGTCCGGCCACGTGGACCTGGCCTACCAAGAAG
ACTCACAGGCTTGACAGGGCCCAGCCTCCCAGAGCAGCAGGAGCGCGGTCATGGCCCTGCTCACCTGGCTGGGGACAGCTCTTCCCCACCCCTGAGCCAC
CTCCAGGCCTGGCGAGGGCCCTGAGCACCTACAGGACATGGGACAGCCAGTGTCGCAGCCTGAAGAACCGTCCTCCCTTAACCTGGCTGCTCAGGCCTTG
GAAGGGCGGCCCAAGGGTCTGCTCCTGGCCTGTGTCCAAGGCAGCCCTCCAGGTGTTTGCCAGGATGGATGCCAGGATCCGGGTGCACCTGGCTCGCATG
GATCCATCCCCAACACCCTACGTGACACCAGGTGTCCCCRGCAGGGAGGGGCAGTGGGACCAGCAAGCCCTGGCCCTGGCCCCCAGTCCCTCCACACACA
AGTTCTCATCCTGGGGTGGGCCAGGCCAGACATGGTCACACTTACCCCTGCTCCTGCATGGGGGACAGGGAGGGTCTGTGGGGCTCCCTCAGCCCTGGGG
CTCATGGGATTGGGCCCCACTGACCCAGCCTGGTCTGTTGCAGTGAGAATGAGGCTCTGTGGCGGGAGGTGGCCAGCCTTCGGCAGAAGCATGCCCAGCA
ACAGAAAGTCGTCAACAAGGTGGGGGCAGGGCCAGAGGGCCGGCGGGGGCCCCACAAGGGCCGGGGTAACTGTGTCCTCTCTCTCCACAGCTCATTCAGT
TCCTGATCTCACTGGTGCAGTCAAACCGGATCCTGGGGGTGAAGAGAAAGATGTGAGGTTTTGGGGATGCCTGCATCCACCACCCGGGGCCCAGGGCTGT
CCCCCTTCTCTGTCAGCTGTGCCCCGGGTACCCCGAGGTGGGGGGTGGTGGCTGACCTGCACCCTTCCCCACAGCCCCCTGATGCTGAACGACAGTGGCT
CAGCACATTCCATGCCCAAGTATAGCCGGCAGTTCTCCCTGGAGCACGTCCACGGCTCGGGCCCCTACTCGGTGAGTGCCGGAGACAGGGCACCCGCCCA
GGCATGCAGGCGGCAGTGGGGTGGGTTGCCCCTGCCGGCACTGCATGGACCTCCTGCCTTTGATTGCAGGCCCCCTCCCCAGCCTACAGCAGCTCCAGCC
TCTACGCCCCTGATGCTGTGGCCAGCTCTGGACCCATCATCTCCGACATCACCGAGCTGGCTCCTGCCAGCCCCATGGCCTCCCCCGGCGGGAGCATAGA
CGAGAGGTGGGGGCCGCATCACCCCAGCCATCCTGTCCCCCAATGAGGCGAGCCCCTGTGGGCCCAGGGCAGAGTTGGGGATGAGGTGGGGCTGGCCGAG
ACGCCAGCTCACCTGGCCCCCCTCGTGTGCAGGCCCCTATCCAGCAGCCCCCTGGTGCGTGTCAAGGAGGAGCCCCCCAGCCCGCCTCAGAGCCCCCGGG
TAGAGGAGGCGAGTCCCGGGCGCCCATCTTCCGTGGACACCCTCTTGTCCCCGACCGCCCTCATTGACTCCATCCTGCGGGAGAGTGAACCTGCCCCCGC
CTCCGTCACAGCCCTCACGGACGCCAGGGGCCACACGGACACCGAGGGCCGGCCTCCCTCCCCCCCGCCCACCTCCACCCCTGAAAAGTGCCTCAGCGTA
GCCTGCCTGGACAAGTGAGTGCCGCCCACCCCTGGCCCCACCCACAGCGCCTGGACGCACAGCCCTGGGCTTCAGCCCCGACTGTCCCAGTGGACTGAGC
AGGGCAGCTGGCGAGGCAGGACCCTACCCCCAACCTCGGGGCTCGGGGCTGGGGAGGGAGACAGGTGCCAGCCAGATCACCCCACAGTCCCAAACGCCAC
AGAAGCCACGGGCATGTCCGGACAGGCTGCCGGGCCCTGCTCTCAGCCACCCCTCCTGCTGCCGCCACCCTCGCCACAGGCCACGGGCCCTGGCAGGTCG
TGCTGCCCAGACACATGGCAGGAGATGGTGAGCAGGGCCGGCCTCCACACCCCCAGCCCCTGCCTGCAATGGGGGCTCTTGTTTTTGTATCTTGCAGTTT
GGCTCGCACTCCACAGATGTCTAGGGTCGCCCGCCTCTTCCCCTGCCCCTCTTCCTCTCCGCATGGCCAAGTCCAGCCAGGGTTAGCGCTGACCCCACTG
GGGAGGGAGGAGGGCTCTGCCAGCGCTCGGGCCCTCCCACACAGCCGTGGACCAGACCCAGCCTGGCCGGGCATGAGCGTYGGGCCTGGGCGGCAGCAGC
CGAGACCCCTCTGTGGCGGGGGCTCAGTGTCGTCATGGCTCCCCTGGCCACGGGCCTGTGGTCATTGCCTGTGACARGGATGACAGGGACAGGCCTCCCT
GCTCTGGCACGGCCTCTGGTGTTGGCAGGATCCAGACTGCGGTGCTGACTGCACTTCCTGTCAGGCAGGGTCTCCAGGGCACCTCTGGGACCCAGCCTGG
CTGTCCGTCCCATAGCCCAGGTGTGCCCTGTGGCCTRGGGCTTTCTTGGTCACAGCCACCAGACCGTGGGTCTCATCCCCACAGCAGCACCAGGGCAGGG
ACTGAGCCACCCACACACTGAGCAGAGCCCCACCTGTTTTCCCAGTGCAACGGGAAACCTCACCAACCCTGAACACTGAAATCCCTGATCCTTGTGCTGG
AGCTGAATACGCCCCTTGTCTCCTGGGTCCACTGCCACCAAGGCCCCCAGGCCCTCATGGCAAAGGGATGCCCAGCATAGGCCCAGCCGCACCCCTGCAG
GGCACAGASCCTCCACTGCCTTCCAGGCCGTCCTCGAATGCGCTGCCCCCTCCAGCCTGTGCAGGCGTACACGGGGGTGCAGCCTGGGGGGTACAGTCAA
GGGGAGCCCTTCTCCCACAGGAGGGCATTGGGGTGTGGGGCCTGGGGCACTGGTTCAGGTACCGCCTTATCCCGGGCCAGGAATGAGCTCAGTGACCACT
TGGATGCTATGGACTCCAACCTGGATAACCTGCAGACCATGCTGAGCAGCCACGGCTTCAGCGTGGACACCAGTGCCCTGCTGGACGTGAGTGGAGCCCC
GCCGCCCCGCCKCCCCGCCCCGCCTCCCCGCGCCTCCCCGCCTCCCCGCCTCGCCTCGCCGCCTCCCCGCCTCCCCGCGCCGCCTCCCCGCCTCCCCGCG
CCGCCTCCCCGCCTCCCCGCGCCGCCTCCCCGCCTCCCCGCTTCCCCGCCCCGCCCCCGGGTGCTGTTCTGACTTCCCTCCCTCCTCCGCAGCTGTTCAG
CCCCTCGGTGACCGTGCCCGACATGAGCCTGCCTGACCTTGACAGCAGCCTGGCCAGTGTGCGTAGGCGGGCGGGGGGTGAGGGGGAACGAGACCAGCGG
GAGTGCTCACAATACCGTCTCCACCCCACAGATCCAAGAGCTCCTGTCTCCCCAGGAGCCCCCCAGGCCTCCCGAGGCAGAGAACAGCAGCCCGGATTCA
GGTGAGCCAAGTCCCACCGGCCCCACCTCTGCCCCCAACCCCCCACCGCCTTGACACCCCCACCCCCGCAGGGAAGCAGCTGGTGCACTACACAGCGCAG
CCGCTGTTCCTGCTGGACCCCGGCTCCGTGGACACCGGGAGCAACGACCTGCCGGTGCTGTTTGAGCTGGGAGAGGGCTCCTACTTCTCCGAAGGGGACG
GCTTCGCCGAGGACCCCACCATCTCCCTGCTGACAGGCTCGGAGCCTCCCAAAGCCAAGGACCCCACTGTCTCCTAGAGGCCCCGGAGGAGCTGGGCCAG
CCGCCCACCCCCACCCCCAGTGCAGGGCTGGTCTTGGGGAGGCAGGGCAGCCTCGCGGTCTTGGGCACTGGTGGGTCGGCCGCCATAGCCCCAGTAGGAC
AAACGGGCTCGGGTCTGGGCAGCACCTCTGGTCAGGAGGGTCACCCTGGCCTGCCAGTCTGCCTTCCCCCAACCCCGTGTCCTGTGGTTTGGTTGGGGCT
TCACAGCCACACCTGGACTGACCCTGCAGGTTGTTCATAGTCAGAATTGTATTTTGGATTTTTACACAACTGTCCCGTTCCCCGCTCCACAGAGATACAC
AGATATATACACMCAGTGGATGGACGGACAAGACAGGCAGAGATCTATAAACAGACAGGCTCTATGCTATGGCCTCCATGTGTTTCCTCTGTCCCAGGGT
GGTGCGGTGGGTGGTGCTGCAATGAGGAGGGGCCCAGGGCACAGAAGGGCCRGGCTGCAGTGGCCTCCTGGGGGAAGACGGATGCTTGCAGCTAGCTCCG
TGCCTGCCCGACTCCCCAGGACCAGCATGTGCTTGCAGTTCTTTATTGAGGGACCAGGGGTGGGCGCCTCACCTTGGCCCTGGGGGTCTCTGGTTGTCAC
AGGACCACCAGGAACCCCCTTCCCAAGGTGTTCGCACTCGGACAGGTGATGCGGGGCGGGCACACTGTCTTTCTGCCAGAGCCAGCACCCTGTGTAGGCA
CGGGGAACGGGAGCCTGTCCCGTAGCTTTAGGGTTCTCCACTCAGCCTGGTGGAGGAAGGGAAGGGGGCYTGCGCTGGGCAGTGGAGCAGGCTTTGCTGC
TTTATCTGGCAGCAACAGTTTGTTCTCGAGCTCCACTGGCCAACTGATAGGGAGAGGCACAGGAGCCCATGTGGGATGGAGGAGTCGGCCCCACACCCAT
YCCCCCACCAGGAGCTCACCCACTACTGCCATCCTCAGCAGGGCCCAAGGAGATGCCTCCATCTCAGGGCCCACCAGCCCCCACTGGGGTAGAGGGAGGA
TACCACCAAGGGAGCCCACCCTCCCCTCACACCACCAGTTCAGCAGGTTGCTGATGAGGCCCCTGGTGCAGTCCTGGGACCCTGTGCAGGGCCTCCTCAA
ACACCTGCCTTGTTGGGCCATAGCTGCAGGTCTGGGGACACCAGGGCCTGGTCCAGTCTTGGGGTCTTTAATCAAGCAGTCACCCCAGCAAGGTAAGGCA
GCAGCAGGGCCCTGGGGTTACCCCTGACCTCCCGCTACCATCAAGGGGGGCCCCATCTATCCAGCTTGGTGGATTGCAGGGCCTGGGAACAAGGTGTCCT
GAAGGCTGCAGGGCTGCGCTGTCTGCACTGCCCAGCCTGGTGCCAGAAGAGCAGAGGGCAAGGCAGGCCTGGGGATCAGGGGTGCCCCAACCTCGTGGAG
GGCAGCTGAGAGCCACCAGCCCACCTGGCTGCCCAGGTTCCAAGTGAAGGAAAGAGGCTGCCAAACCGAGCCCTGCCCCAAGGCGAATAGCCATGGACAT
AGCCATTGTGTACCGTAGCCCCTCGGCTCACCAGACCCACACCAGAAAGGCCCTGTGGACTGCCCATCCCTGGGCCATCCTGGCTGGAGCCCACTTCCCG
CAAACCCAGGGCCGACCTCTTCCCAAGCTGAAGCTGAGCACGGTGGGTGCAAGTTGACCATCCTGCACTGAGGGCCAGAGTGCCGATTCCCGCACACCCA
GCAGGAGTAGCACCAGGAGAGGACGCCTGAGCTGAGCTTTTCTAGGTAGGGGAGTGTGGGGAATGGGGGCGTCTGCCTGGCCTTGCACTCCCCCTACCGG
CCATGCCCGCCCTGCTGCAGTGGAGCTGCTGCTCCCCGGCAGGTCCTGGGACAGCTGTCCACACAGCTCTGGCACTCGCCCTTGTGGGTGTGGCCATACC
CCCCACCAGGCCCCAGGCCCCTGGCAGGCTGAAGAGGTCACTGGACAGCACTTTATTGACACCCTCGGACCCGGGGCAGGGTCAGCAAGACTCCCAGCTG
GCATCAGACTGTGTCTGGCCTGCTGTCGCCATCCCTGAGGGGTGCAGGACAGAGCCCCATAGGGGCAGAGAGGCCTCCCTGGGACCAGAGGAGGATGCTG
TGCAGCCAGGCCCATCCCCAGCACTCGAGGCCTAGGAGGAGAGGTGGGCTCTGGCAGCGGGTGTGAGGTGGCAGTGAGAAGCCAGGCCCTCAGGTGCAGC
TCAGGCCTCTGCCGCTGGGGCCTCATAGTTGAGCACGTAGTAGTCGTGGACGTACATGAGGACGGCWATTGGCTGTCCGATGATGAGCGACAGCCACACA
GCTGCGTTGCCATAGTTGCCCTGGAAAAAGCGGCCCACGAACCAGGCCAGTGGGATCTAGGGAGTGAGGGGCCAAGTCAGTCGGCCATGGTGACCACAGG
GCTGGGGGCTTCAGGGTCCCTGGGCATGGGGAGGGTCAGCCGAGGGGTTCAGGTGCGGGGTAACTGGGCGAGTGAGGAGGCCACGTGGGGGTCACTCACC
TGAGCCATCATGCCCGTGAACGCCCAGAGGCGGAACATTCGCAGAGGGACGCTCACCAGGTACTGAGATGGGAGGGAGAGAGGATGCCAGGGAGTGGGGT
GTCAGCCGTCCCTGCTGTGGGCATACCCCTGCCCAGGGATGAGGCAAGATGCCCCCCAGAGCACTGACCTCGTGGAAGAAGGCCGAGGCCAGGAACACCC
CTGTCCTGGCCATCCACTTGCTGCTGCCCCGTCGAAGCATGGGCTTGTAGAAGTGTCTGCAGAGGAGGGGGCATGGAAAGCGGTTCAGGTTCACAGCCAT
GTTCCACATCACACACACACACACCCCACCTACCTGATGCACCACTTGTGCACAGGGATSTTCCAGTTCTGCCAGAAGTAGGTGACAGACTCGGAGTTCC
TGGGGGCCAAGAGACCACAGGGGGATCAGAGCACACCATGGCCCATCCCAGCCCCCAGGGACACCCCAGGGACACTCACCACCAGTCCCGGTAGAACTCC
CGGTCTCCAAACTGCATGAGCTCAGCCACGGCATTCAGGCAGGAGTGGAAGAGCCAGTAGAAGAAGATGAGCCAGATGAGGTGATTGGGGACCTGGCAGG
GAGGTGGGGGTGGGCACCAAGTTCTAGAACCTTCCCCCACATGCCACTGTCCCCTCCTGTCCTGYGCATGCGCCACCTGTCCGCACTCACCGCCAGCTTC
AGGAGGCGCTCGATGATGCGTGAGTAGTCCATGTCCTGCAGAAACAAGCCCTTCAGCTAGCCATGCTCCTGGTCACTCCCCAGCCACCCCAGCTGCAAGA
GCACCTGAGCCACTCACCTTGAAGGGCTTCATGGAGTTCTGGATGGTGGGGACCATCCACTGCAAAGGAGGGCACCACGTCAGCTCCCAGCCATGCCCAG
CTACACCCAACCCTGCCCTACCCCACTTACCTGCTGGATCAGCCCCACCTGGAGCTGGGTGAAGAACAGCTGGGGGGGAAACAGAGAGCAGCCAGCTGAG
GCCCTGGCTAGCCAGAAGGCCCCCTAGCCTCCAGTGGCTGCCCCCAGCCCCCAACCTCACCATCTCAAGGATCCGTCGCAGCAGAAAGCGCTTCCGGATG
CGGGGAGAGCGGGGAAAGTTGAGCTCGTAGCACAAGGTGGGGGCGAAGAGGAAGTAGTAGAGATCTGGAATGGGAATGGGGGGTTGGTACCAGAACAGGC
CCAGCCTGTCCCCCGCACCTCAGGCCCACAGAGGTCCTCACCGCGGTAGGTCAGATTGTCCGGGTAGCTCACGGTGTGCGGGGCAGCAGCACTGCTGGCC
TTCTTCCCTGCAGAGGCTACGAGCACAGCAGAGTGGGAGGGGGCTGGTGGGGCCCTGCTGCTGCCCAGCCCCCCAGCAGGCAGCCCCAGCCCCTGGCAGC
CCCTCACCAGCCTTGGCCCTGGCCCTGCGGCACCATGAGTTGACGTCGCGGTAGGAGAAGAGCTTGAGGAAGAGGATGGTGTGCGCCATCAGCGCCAGCA
GGGAGCCCACTGCAGGAGAGGTGGACTCAGGCCTCCACAGCGCCACAGCCGGAGGCCATGCCCGTGGCTGGCCCGAGACAGATGGGCAGGGTGGGATGGG
GGCGCACCTGGAGTGATAGACTCAACCAGTAAGACCACAGCCGCTGGGAAACACAGAATGGTGGCCAGGTTGGCCACGTGCAGCAGCAGTCCCGCCTGCT
CCGTCAGGGCACCCTGGAGTGGGGAGCAGAGCACTCAACCAGGGCTCCCATTGCCTGGGAGAGGGCTGCCAGGCCTGGGGAGCAGCTCCTCCCAGGAGCG
CACACAGCAGGGTGAGCACACACGGAGGTGAGGGGCACTGCTTACCACCGCCAGGCGCYTCTCAACCTGGAATGCAGCCACAGCAAAGACATTGGCCGCT
GTGGACAGAAGCACCAAGGGGCAGGTTTAGGGCCACGTCAGCCTGATCCCCACCCGAGGCCCTCCTCAGAGCCCAGCTCACCAATAACCAGGCATGGGGC
GGGCCAGCTATAGGGATCCTTCAGGAACAGAGAAACCACCTGGATGGGGTCCACCAGGATGCCATACCTGGGGGTGGAGGGATGGGGGTCTGAGTGGGTG
GCAGGTGGGGCTGTGGGGCGGGGCCTGGACAGGCCATGGGTGGGGCAGGGGTGGGACCTGGCAAAGGCACTCACTTGATGAGGTTCTCCAGAAATAACCG
GGCATTGCTCAAGATCTGCGAGGGATGGACAGGAGGGTGCAGCCCCTTTAGTCCTGGCCACAGGGTACTCACCCCAGATCCTCCCAACACCTCTGGGCAC
GTCCCAGCCCGAGCTCAGGGCGGCAGCCTCAGGCTTGCAGACCCAGCCCTGTCTGGTCTCCATGCCAAGCTCTGAGACTCAGCACCCACCTCAGCCAACA
CCAGTGCTGGGTAAGGGGAAGTCCCTCCCTGTCCCCATCACACCAGACGGTCCCACATGGAGGGAACCAACCGGCCAGACCAACCAACCCTGCCAGACGC
CTGGGTCTTCAGGAGCAGAAAGACCAGCTGCTGATCTGCTCACATCCCTCCTGCTGAGCCGAGCCAGTGAGGGACCCAAGGCTCCCACAGCCAACCACAC
CCCAGAGACAGCCCCAGAATACAGGCCTGCCCAGGGAGGCCTGCCCACGGCTGAGCCCCAAGGAACCAGTCCCTACTGGTGGCCAAGGCTGAAGAGGGGG
AGTTGTCTACTCTTTCTCTGCAGGAGCAGTGTCCAGCTGTGTCGCAAGGGGGGCTGGGCCTGGAGTGCTTCCCAGGGCTTGTGCCCCGCCTGCCTCTTCT
GCTTCCTGCCGCCCTCTAAGCCTTGGACACTTGGCTCCAAAGCAACTTCCCAGGACTGAGCCCCCATGGAATAAGGCTCTTGGGACGAGCCTGGAGTTGG
GTGCTTGGCCTCCCTCTGCAAGGACAGGAACCTCCTCCTCCATCTTACAAGCACTACCAACACCTCCATTAAGCTGGGCCCCAATGCCGCAGACCTGGCT
GACCACCCGGAGCTCGGGCCTCATGCGGTAGTGAACTGGTGCTGGGGAAAAGGGTCGCTGGCAAGGGAACACTGAGGGTGTCTTGCCTGGGTGGTCAGGG
AAGGCTTCATGAGAGAGAAGACTGCTTCAGAGACACAAGGGCTACTGCCCCGCCTCCCCCGGCCGCAGGGCTGACACACAGGCCTTCTGCATGGACACGT
GGCCCACACTGTCACTGGCCTCTCCCGAGGGCTGACAGCAGGCAGAAGCCAAAGCTGCCAATGGACGGTACCCACCTCCAGGCCCAGGCCACAGAAGGAA
TGCAACAAGCAGCCCAGAGCGGGATACATGCCTGGGGTGGGGGCATGGGGGAGCCAAAGCAGGGAAAAGGCTTCAGGGCTGGGCCAAAGGGCCAGGCAGG
CCCAAGGGGTTGGGGAGAATACACAGTGCTGCCTGGGCTGGACAAGGCCCAACCTGGGCCAGGAATGGGCTGCGTCTCCTGAGTGCTGGGCTGGCGCTGG
GCCCACTGTCCTCCTGCCTGGCCAGCTTCTCAGCCACCAGGACTCGTGGGCCTCCACAGCTGGCCACCCCCAGGGAACCTTCTAGGACCATGGGCGGTGG
GGGATGTGGATGTGCGTGGAGCCCCTTCCACGTGGGTAGCCACAGGAGCAGCACCCAAGGCCAGAGATAGACACGCCTGGGTGAAGGTCAAAGGCCTCGA
GCCACATCAGCCCTGAGTTGGGGAGGCTGGGCCCAGATAGCCCTTGTCCCCGACCTGCCCTGCAGGTGCCCCTTTGAGCCCTAGACTCCAACTACTTCTG
GGGTNNNNNNNNNNNNNNNNNNNNCCAGGAGGACTGCAGAGTGGTGGCCAGGCCTGCAGGGCTCCATACCCACAGAGGCCATGTGGCGTAGCACAGGAAG
CTCTTCTCACATCCCCTGCCAGAGAGGCCTTGTGTCCACAGAGCATGCAGTCCACTCTCCCACCAGCCCAGGGCAAGACCCCCTCCACCCTGCCCTCCCT
GGAGGCCCTGCACCCCTCAGGCCCAGCTCACAACACACAGGCTCCAGCCAGGCACTGTTCGGCCTCCCCACGCCCACACCACATCWGCAGGRCTCTCCTG
GGATCCAATGGGAAGCAGCAAGTATGTGGTGCATGGGCACCCAAGTGACCACAGCAGGGGCAGCCACTGCCACTCCCCTCCCCAACAGTCCAGTGCTGGC
AGCCACATGGAGGTGCAGCCTGCTCCACACACCCCAGCCCACAGGGGCTCCAGCCTGGACACCCTGGGTGACAGAGCCTGTTCTCAGGCAAAGGCCAGCC
TGGGACAGAGCCCCACCTGGACCTAGACCCGCTCCCGACACCATGTCCCACTCACCAGCATCACCACACACCAGTTCAGGATGCCACGGTAGTTGCTGAA
GCCACTGTCAGAGCTGAATAAAGAATCCTGCAGGCGATGGCACCTGACAGAGCACAACACAAGCACCCCCTGAGTGGGCACCAGCAGGGCAGCGCCACCC
CCGCAGGATCCAGGCCCCCACCCCAGTGTCCTCGTCTGCCCTCAGGCCCCACTCCTTATTTACAACCAGGAGGAGAAGCCAGGCAGAGCCACACTGTGGC
CTCAAGACCTACAGTGGGCAAAGCTCTCCGGACCCCCAGAGCCTGCACCTCCAGGCAGCGGGACGA


SNP Information

Context             (SEQ ID NO:39684):
GGTTAGCGCTGACCCCACTGGGGAGGGAGGAGGGCTCTGCCAGCGCTCGGGCCCTCCCACACAGCCGTGGACCAGACCCAGCCTGGCCGGGCATGAGCGT
Y
GGGCCTGGGCGGCAGCAGCCGAGACCCCTCTGTGGCGGGGGCTCAGTGTCGTCATGGCTCCCCTGGCCACGGGCCTGTGGTCATTGCCTGTGACAGGGAT
Celera SNP ID:            hCV2158041
SNP Position Genomic:     26281
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39685):
TGGGGCAACATAGCTTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAACTAGCTGGGCGTGGTGGCAGGTGCCTGTAATCCCCGCTACTC
R
GGAGGCTGAGGCGGGAGAATCTCTGGAACCCAGGAGGCAGAGGCTGCAGTGAGCCGAAACTGCACCATTGCACTCCAGCCTGGGCGACACAGCGAGACTC
Celera SNP ID:            hCV149963
SNP Position Genomic:     15580
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39686):
CACGGAGTTCCAGCACCCATGCTTCCTGCGTGGCCAGGAGCAGCTCCTTGAGAACATCAAGAGGAAAGTGACCAGTGTGAGTGCCGGCCCTGCACCCTTG
M
CCGGTCTCACCTGCCACAGCTCTCCCCGCCCGCCCCTCCCTGAGGGCTCCCACCCCAGCCTGCCCCTTCCTGAGGGACCTGGCTGCAGTGGACGAGCCTG
Celera SNP ID:            hCV2158042
SNP Position Genomic:     23086
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39687):
CGACAAAGCGAGACTCCGTCTCAAAAAAAATAAAAAGCATCCAGAAGAGCCGTGCACGGTGGTGGTGCCTGTGGTGCCAGCTACTCAGAGGCTCGGGTGG
M
AGGATTGCTCCCAGATGGGGCAACATAGCTTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAACTAGCTGGGCGTGGTGGCAGGTGCCTG
Celera SNP ID:            hCV149964
SNP Position Genomic:     15464
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39688):
GCCCAGTCCTGGGCCTCACAGTGAGGATGCAGGTCACGCTGCACAGATGAGGCCCGTGTGGCAGGTGGTCCCAGGAACGAACTCGCCTCCCGCCAGCCCC
M
TGGGCCTCCCATGGCCCCAGCCCCATCAGGTGGAACGTGCACTGCCTGCGTTTCAGAAGGGGCGGCCTGGGGAAGGGGCGGCTTGGGCACGCTGCCCCTC
Celera SNP ID:            hCV2158043
SNP Position Genomic:     22237
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,13)   total(A,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39689):
TTTCTGCCAGAGCCAGCACCCTGTGTAGGCACGGGGAACGGGAGCCTGTCCCGTAGCTTTAGGGTTCTCCACTCAGCCTGGTGGAGGAAGGGAAGGGGGC
Y
TGCGCTGGGCAGTGGAGCAGGCTTTGCTGCTTTATCTGGCAGCAACAGTTTGTTCTCGAGCTCCACTGGCCAACTGATAGGGAGAGGCACAGGAGCCCAT
Celera SNP ID:            hCV2158038
SNP Position Genomic:     28570
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:39690):
CTGGTGTGAGCCACTGCACCCAGCCCTTCTTCTTTTTCTTATTCCCCTTAATCCTCAGAAGTTAAGGGGAATAACTCCCCCATTGGGGGAGGGGCATCCG
M
GATTATCTGGGATATTCTAAGCTTAATCCTACTAGCGTGATCTGTCCTGTCCCGTAATCTGCTTGCTGTTTCTGCTTAAAGATTATGAGGCATGTGGGTT
Celera SNP ID:            hCV26932316
SNP Position Genomic:     7333
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,5)      total(A,2|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39691):
GAACCTGGCGCCTAGAGTGGCCTGCGGGCCATTCAGCCCATGGGAGCCAGGATGAGTTGAATTCGCTTCACAAAGCAATGGGGCAGTTTCAACAACCCAG
M
GCGGCCGCGGCCGAGGGGGCTGTGAGGGGCTGGCTGTCCATCCCCTCCACCACCCAATTTGATGATCCCCACAACCAAGACAGGGCTGAGCTAGCAGAGA
Celera SNP ID:            hCV26932325
SNP Position Genomic:     4248
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39692):
CAGACAGGCTCTATGCTATGGCCTCCATGTGTTTCCTCTGTCCCAGGGTGGTGCGGTGGGTGGTGCTGCAATGAGGAGGGGCCCAGGGCACAGAAGGGCC
R
GGCTGCAGTGGCCTCCTGGGGGAAGACGGATGCTTGCAGCTAGCTCCGTGCCTGCCCGACTCCCCAGGACCAGCATGTGCTTGCAGTTCTTTATTGAGGG
Celera SNP ID:            hCV2158039
SNP Position Genomic:     28252
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:39693):
GGTCTTTCTGGCTTTTTCCCTGTTTGCATCTGCAGCTCCCTTCCCTGGCAGGGAGAAACCTGCCCCACTGCCCTTCACCAGTTTCTTCACTGAGTCAGCC
R
CCCCTTCCTATGCAGACACCCCTCACCCCTCTCTGGCCCTGCTTCAGGCCCCCCTTCCCCGCCGTGTGGGCTTCTCGCTGTCCCCTAAGCCTTCGATGTC
Celera SNP ID:            hCV27986666
SNP Position Genomic:     21621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39694):
CAGAGGAGGGGGCATGGAAAGCGGTTCAGGTTCACAGCCATGTTCCACATCACACACACACACACCCCACCTACCTGATGCACCACTTGTGCACAGGGAT
S
TTCCAGTTCTGCCAGAAGTAGGTGACAGACTCGGAGTTCCTGGGGGCCAAGAGACCACAGGGGGATCAGAGCACACCATGGCCCATCCCAGCCCCCAGGG
Celera SNP ID:            hCV8332392
SNP Position Genomic:     30660
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:39695):
ACGCCCCTTGTCTCCTGGGTCCACTGCCACCAAGGCCCCCAGGCCCTCATGGCAAAGGGATGCCCAGCATAGGCCCAGCCGCACCCCTGCAGGGCACAGA
S
CCTCCACTGCCTTCCAGGCCGTCCTCGAATGCGCTGCCCCCTCCAGCCTGTGCAGGCGTACACGGGGGTGCAGCCTGGGGGGTACAGTCAAGGGGAGCCC
Celera SNP ID:            hCV27477860
SNP Position Genomic:     26809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39696):
GAGAGGGCTGCCAGGCCTGGGGAGCAGCTCCTCCCAGGAGCGCACACAGCAGGGTGAGCACACACGGAGGTGAGGGGCACTGCTTACCACCGCCAGGCGC
Y
TCTCAACCTGGAATGCAGCCACAGCAAAGACATTGGCCGCTGTGGACAGAAGCACCAAGGGGCAGGTTTAGGGCCACGTCAGCCTGATCCCCACCCGAGG
Celera SNP ID:            hCV25602572
SNP Position Genomic:     32159
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39697):
GGAGGCTGAGGCGGTTGGATCACCTGAGGTCAGCAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAAAAA
A
TAGCCAGGCGTGGTGGTGCGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGATACAGAGGTTGCAGTGAGCCGAG
Celera SNP ID:            hCV2158077
SNP Position Genomic:     11976
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39698):
CACCCTGCCCTCCCTGGAGGCCCTGCACCCCTCAGGCCCAGCTCACAACACACAGGCTCCAGCCAGGCACTGTTCGGCCTCCCCACGCCCACACCACATC
W
GCAGGACTCTCCTGGGATCCAATGGGAAGCAGCAAGTATGTGGTGCATGGGCACCCAAGTGACCACAGCAGGGGCAGCCACTGCCACTCCCCTCCCCAAC
Celera SNP ID:            hCV27904178
SNP Position Genomic:     34386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39699):
GCAGAAAGTGAAGCCTCAGAACTGGGTTCACCATCATCCCAGTTTTTTACAAGCTATGATTTTGTCCCATCTTTATTAACAAGATAAGGAAGTATGAAAA
R
TAATCTCGACATCTGAGATGGTGAGATTACAGCCCCAGGAGCCACCCAGCTGGCTGAGGAGCCTGAGAACAAGGCACAGCCACATGACCTGTGCCAGACA
Celera SNP ID:            hCV2158078
SNP Position Genomic:     8872
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39700):
CCATGAGACCCGGGACCCGCAGCCTCCCTGCCCCGTGCCCTGGTGCCGGCCCTCAGCCCAGCTTCCTCGTCTGCATGCAGCAGCTCCTCTGTCCACCAGC
R
GAGGCTCTTCTAGGGCCTTGCTGGGCTGCAGCTGACTCAGGAGGGCAACAGCCTCTTCAGAGAATTTGACAGCATGGAGAACCAAACAAAAGCAGAAAGT
Celera SNP ID:            hCV2158079
SNP Position Genomic:     8680
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39701):
AGATGAGCCAGATGAGGTGATTGGGGACCTGGCAGGGAGGTGGGGGTGGGCACCAAGTTCTAGAACCTTCCCCCACATGCCACTGTCCCCTCCTGTCCTG
Y
GCATGCGCCACCTGTCCGCACTCACCGCCAGCTTCAGGAGGCGCTCGATGATGCGTGAGTAGTCCATGTCCTGCAGAAACAAGCCCTTCAGCTAGCCATG
Celera SNP ID:            hCV28959015
SNP Position Genomic:     30965
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39702):
GCCCTCCCTGGAGGCCCTGCACCCCTCAGGCCCAGCTCACAACACACAGGCTCCAGCCAGGCACTGTTCGGCCTCCCCACGCCCACACCACATCTGCAGG
R
CTCTCCTGGGATCCAATGGGAAGCAGCAAGTATGTGGTGCATGGGCACCCAAGTGACCACAGCAGGGGCAGCCACTGCCACTCCCCTCCCCAACAGTCCA
Celera SNP ID:            hCV25602577
SNP Position Genomic:     34392
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,24)   caucasian(A,18|G,18)   total(A,24|G,42)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39703):
GGCCCTCGTCATCAAGGGCTCCGTCCTCTCCCTCCTCGTCGCCTTCGTCATCATCCTCACTGCTGTCACTGCCGGAATCTTCCAGGCCTGAGAACACACT
Y
TCCTCGCTGTCGGAGACGCCAGAATCGCTGCCGGTGCTGTGGCTGAGAGGAGAGGTGCAGAGGAGGGGGGGCTGCAAGGAAACACTGGGTTGGTGACAAC
Celera SNP ID:            hCV29284234
SNP Position Genomic:     2743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39704):
TTTATCTGGCAGCAACAGTTTGTTCTCGAGCTCCACTGGCCAACTGATAGGGAGAGGCACAGGAGCCCATGTGGGATGGAGGAGTCGGCCCCACACCCAT
Y
CCCCCACCAGGAGCTCACCCACTACTGCCATCCTCAGCAGGGCCCAAGGAGATGCCTCCATCTCAGGGCCCACCAGCCCCCACTGGGGTAGAGGGAGGAT
Celera SNP ID:            hCV28959016
SNP Position Genomic:     28701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:39705):
GGTGGCAGTGAGAAGCCAGGCCCTCAGGTGCAGCTCAGGCCTCTGCCGCTGGGGCCTCATAGTTGAGCACGTAGTAGTCGTGGACGTACATGAGGACGGC
W
ATTGGCTGTCCGATGATGAGCGACAGCCACACAGCTGCGTTGCCATAGTTGCCCTGGAAAAAGCGGCCCACGAACCAGGCCAGTGGGATCTAGGGAGTGA
Celera SNP ID:            hCV25602578
SNP Position Genomic:     30067
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,31)   caucasian(T,40)   total(A,1|T,71)
SNP Type:                 SILENT MUTATION;UTR 3;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39706):
CTGCGGTGCTGACTGCACTTCCTGTCAGGCAGGGTCTCCAGGGCACCTCTGGGACCCAGCCTGGCTGTCCGTCCCATAGCCCAGGTGTGCCCTGTGGCCT
R
GGGCTTTCTTGGTCACAGCCACCAGACCGTGGGTCTCATCCCCACAGCAGCACCAGGGCAGGGACTGAGCCACCCACACACTGAGCAGAGCCCCACCTGT
Celera SNP ID:            hCV27475181
SNP Position Genomic:     26537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39707):
GCGTCGGGCCTGGGCGGCAGCAGCCGAGACCCCTCTGTGGCGGGGGCTCAGTGTCGTCATGGCTCCCCTGGCCACGGGCCTGTGGTCATTGCCTGTGACA
R
GGATGACAGGGACAGGCCTCCCTGCTCTGGCACGGCCTCTGGTGTTGGCAGGATCCAGACTGCGGTGCTGACTGCACTTCCTGTCAGGCAGGGTCTCCAG
Celera SNP ID:            hCV28959017
SNP Position Genomic:     26377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39708):
AGTGGGACTGAAGAAGATGTGACAACTGGATGGATTTTGGATGATGTCCTGGAGCAGAGGAAGGATTGGGTAAAAAGCTAAGGAATCTGATTAGAATGTG
S
GTCCTAGTTAACAATGTGTCTAATGTTCTTGAGACAACTGTACCACACAAAGGCAGGATGTTAATGATGGGGGACACTGGTGTAGGGCATGTATTCTAAA
Celera SNP ID:            hCV11605475
SNP Position Genomic:     14330
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39709):
ACCCCACCCACACAGGCAAGGGCCTTGAGGGGACCCAGCAAGTCGTGGAGGACAGCACAGCCTTGGAGAGGAAATGTGTCAGCCACAAGGTTATGATCCC
R
GGGATCCACATAAGAGCATGGGCGTGCACGTGGGTGGTCCTCCCTCAGCCAGCTTCTCAACAGCTTCTCCCAAAGGTACACCTGGATCCAGTACCACTGA
Celera SNP ID:            hCV29284228
SNP Position Genomic:     8415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39710):
GGCAGCCCTCCAGGTGTTTGCCAGGATGGATGCCAGGATCCGGGTGCACCTGGCTCGCATGGATCCATCCCCAACACCCTACGTGACACCAGGTGTCCCC
R
GCAGGGAGGGGCAGTGGGACCAGCAAGCCCTGGCCCTGGCCCCCAGTCCCTCCACACACAAGTTCTCATCCTGGGGTGGGCCAGGCCAGACATGGTCACA
Celera SNP ID:            hCV28959018
SNP Position Genomic:     24440
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39711):
GGGGAGGGGCTTTCCGACTGAGAGGAAGGCCTCGCATCTGCCCACCGCCCAGTCCTGGGCCTCACAGTGAGGATGCAGGTCACGCTGCACAGATGAGGCC
M
GTGTGGCAGGTGGTCCCAGGAACGAACTCGCCTCCCGCCAGCCCCCTGGGCCTCCCATGGCCCCAGCCCCATCAGGTGGAACGTGCACTGCCTGCGTTTC
Celera SNP ID:            hCV27841464
SNP Position Genomic:     22191
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,34)   total(A,2|C,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:39712):
TAGGGCTCCATTTCCTTCGCTGTTCCCAAGGGAAAGGTCCTGCTTAAACAGGTGCTTTGTGAGTGGAAACGTGGCCAGAGTGCGGCGGGTGCTTTGTGAG
K
GGAAATGTGGCCAGAGTGCGGCGGATGCTTTGTGAGTGGAAACGTGGCCTTCTCTGGAAGCCCTGGGGAGGGGCTTTCCGACTGAGAGGAAGGCCTCGCA
Celera SNP ID:            hCV27841465
SNP Position Genomic:     22026
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,36)   total(G,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:39713):
TCCCCTCCCTGGCCTGAGATCAGGACTCCCACTGCAGCCACTGGAGGCAGAATGCCGGGTCACTGCCCAGGAGACCCCATTGGTGGGGACTGTGGCAGCT
R
CCCCATCCCTGTGTTGTTTGATTTCCCACCCCCCCCTCCCAAGACCCTCATTCCCATGAGCACCCCACCCACACAGGCAAGGGCCTTGAGGGGACCCAGC
Celera SNP ID:            hCV29284229
SNP Position Genomic:     8253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39714):
CTGGACTGACCCTGCAGGTTGTTCATAGTCAGAATTGTATTTTGGATTTTTACACAACTGTCCCGTTCCCCGCTCCACAGAGATACACAGATATATACAC
M
CAGTGGATGGACGGACAAGACAGGCAGAGATCTATAAACAGACAGGCTCTATGCTATGGCCTCCATGTGTTTCCTCTGTCCCAGGGTGGTGCGGTGGGTG
Celera SNP ID:            hCV8332400
SNP Position Genomic:     28113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:39715):
GGTCTAACGTATTTGAGGTTCCAGAAAACAGTGGGGAAGAGAATACAGAAATATGACCAAAAGGCTGGACACGGTGGCTCCTGCCCGAAATCCCAGCACT
Y
TGGGAGGCTGACATGGGTGGATCGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATAGCAAGACCCTGTCTCTATAAATAATACAAAAATTAGCC
Celera SNP ID:            hCV481561
SNP Position Genomic:     14696
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39716):
TCTTACTAAGATTCAGCTGTTTTTCTTGAATAAATGCTCCCCGTGCTACTGTAATTCTTTGGTTAACTTTCAGAGTTCTGGAAAGTTGGCTTGGCGCTTT
Y
CGCCGTCTCTCTCCTGCTGCCTTGGGGTCCTTTCCGTGACCGTTTCCCTCCCTGACACGTGTACATCCCTGTGTATTTCACATCTCTCTATGCTGGAAAG
Celera SNP ID:            hCV26034238
SNP Position Genomic:     21389
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39717):
GACTCCAACCTGGATAACCTGCAGACCATGCTGAGCAGCCACGGCTTCAGCGTGGACACCAGTGCCCTGCTGGACGTGAGTGGAGCCCCGCCGCCCCGCC
K
CCCCGCCCCGCCTCCCCGCGCCTCCCCGCCTCCCCGCCTCGCCTCGCCGCCTCCCCGCCTCCCCGCGCCGCCTCCCCGCCTCCCCGCGCCGCCTCCCCGC
Celera SNP ID:            hCV26034239
SNP Position Genomic:     27112
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39718):
AGTATGAAGTGGCAATGGTTGGTGCAGGACGTAGCACTGGGGGCGAGCATGGCAATGAGACAGAAACACTGACTTAAAACTGGAAGGAAGCCCTTCTCCA
R
GCCGCGCAGGGGGCTGCAGAGCTTTCCGGCGCTGGCTGCCTGGCCTGGAGAAAGGAGGTGATCATCCCATCCTGTGACTTTGAGAGCACTCACACAAGCC
Celera SNP ID:            hCV27925630
SNP Position Genomic:     7721
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39719):
GGGATATTCTAAGCTTAATCCTACTAGCGTGATCTGTCCTGTCCCGTAATCTGCTTGCTGTTTCTGCTTAAAGATTATGAGGCATGTGGGTTAGGGCCCA
K
TGTACCCTTTTTTGGGACCGAGGCATGTTCTGGGCAGGGCTTTTGAGCAAGGAAGGCAGGTGTGATGAGGCCCGTGGCCAGCCTCCACTCCACTCACAGG
Celera SNP ID:            hCV27925631
SNP Position Genomic:     7442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 177
Celera Gene:                 hCG24062 - 145000147751280
Gene Symbol:                 C1orf29
Protein Name:                chromosome 1 open reading frame 29;GS3686
Celera Genomic Axis:         GA_x5YUV32W802(4530611..4565266)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12337):
TTTATATATGTATATTGACTATTTCTGAAGTACCTAATTTTTCTATTGTTTGTCTATGTTGATTTGCAGTTGTCCTTTAAGTAGTCTGAAGTTCTCTGTT
GAATATAGGAATGGGAAATATCTTCTTTAACTTTGCAGGATTTTATTTTAAGTTGTGTGTCTTTGATAAGAAGTTCTTAATTTTCAAATTTTAATTTTAT
TATTTTAAGGGGTTAGCACCTTTTTGCCTTTAAGAATGCTCTGTCTACGCCAAAGCCTGGAAATGTTCTAAAACTTTTAATTCTAAAAGTATGATTGTTT
TACCTTTCACATACAAGTTTGCAATCCATTTGGAATTTATTTTTAAGTATGGTATGAGGTATGGGTCAAAATTAATTTGTCTTCTGTGCCTATCAACTGA
CCTAGAACCATTTATTGAGTGGTTTCTCCATTTTCTCCATTGTATTCCCATGTCTTGTTTGTCATTAATCAGGTGATAGTCTATGTGTGAGTCTGTCTCT
GGGCTCTATTCTGTTCAATTGGTCAATTTGTCTCTCTTTGCGTTAATAACATAGCATCTAATTGTCTTAATCTCTCCTGGCTGCTATGACAGAATATGAT
AAACTAGGTAGCTTTTAAACAAAACAAACTTATTTCTCACAATTCTGCAGGCTGAGAAGTCCAAGTTCAAGGAGCCAATAGGTTCAATGTCTGATGAGGG
CTGCTTTTTGGTTTATAGATAGTAATGTATTGCTGTGTCCTCACACAGAGTAAGAGGAAGGCAGCTCTCTGAGGCCTCTTCTATAAAAGCACTAAGTTCA
TTTATAAAAGCCTGCCCCCGTGACCAAATTACCACCTAGAGGGCCCACATCCTTAAACCATCACATTGGTGATTAGGTTGTAACATATGAATTTAGGGCA
GTGTTGGTATATAGAAATGCAACTGATTTTTGTGCATTAAATTTATTTCCCGAGACTTTACTGAATCCATTTATCAGGTCTAGGAGTCTTTTGGAGGAAT
TTTTAGGGCTTTCTAGGTATAAGATCATGTTGTCAGCAAACAGAGATAATTTGACTCCCTCTTTTCCAATTTGGATGCCTTTTATTTCTTTCTCCTGCCT
GATTGCTCTGGCTAGGTCTTCCAGTACTATGTTAATAGGAGTGGTGAGATTAGGCATCCTTGACTTGTTCCAGTTCTTAGGGGGAACGCTTCCAACCTTT
GTCCATTCAGTATGGTGTTGACTGTGGGTTTGTCAGAGATGGCTCCGGTATGTCCCTTTGAGGTCTAGTTTGTTGAGGGTTTTTAAAAAAAATCATAATG
AGATGTTGTATTTTATCAAGTGCTTTTTCTGTGTCCACACAAAAAATTGCCTAGGAATACATTTAACTGAGGAAGTGAAAGATCTCTACAATAGGAATTA
TGACACACTGAGGAAAGAAATTGTAGATGACACAAACAAATGGAAAAACATCTAATACTCATGAATAGGAAAAATAAATATCATTAAAATGACCATACTT
CCCAAATCAGTTTACAGATTCAATTACTGTAGTCATTTTTCACAGAATTAGAAAAAACAATTCTAAAATTCATATGGAACCAAAAATGAACCCAAAAGTC
AAAACAGTCTGAGCAAAAACGGACAAAGCCAGAGGCATTACATTACCTGACTTTATACTATGTGGCTGTAGTAACCAAAACAGCATGGTACTGGTACAAA
AATAGATACATAGTTCAATGGGACAGAATAGAGAACTCAGAAATAAAGCCCCATACCTACAACAAACTGATATTTTACAAAACTGACAAAAATAAACAAT
GAGGAAGGGATACGCTATTCAGTAAATGGTACTGGGAAAACTGACTTGCCATGCAGAAGAATGAAACTGGACCCCATATATCACCATATACAAAAATTAA
CTAAAGGTGGATGAAAACATTAAGTGTAAAGCCTGAGAGTATAAAAATCATAGAAGAAAACGTAGGAAAAAATTCTTCTGGACATTGGCCTAATCAAATA
ATTTATGACTAAGACCTAAAAAGCAAATGCAACAAAAACAAAAATAGAGAAATGGGACTCAATTAAACTAAAGAGCTTTTGCACAGAAAAAGAAGCAACA
GAGTTAACAGACAACCTACGAAATGAGAGAAAATATTTGCAAACTATGCATCTGACAAAGAACTAATGTCCAGAATCTATAAGGAATACAAACAAATCAA
CAGAAAAATAACCCCTTTAAAAAGTGGGCAAAGGACATGAACAGACATTACTCAAAAGAAGACAGAAAAGAGGCCAACAAACATATGAAAAATGTTCAAC
ATCACTAATTGTCAGGGAAATGCAAATTAAAACCACAGTGAGATATCATCTCACACCAGACAGAATGGCTATTACTAAAAAGTAAAGAAATAACAGATGT
TGGTGAGGATGTGCAGAAAAGAGAATGCCATACACTTCTGGTGGGAATGTAAATTAGTACAAGTCCTATGGAAAACAGTATGGAGATTTCTCAAAGAACT
AAAAATAGAACTACTCTTTGACCCAGCAATCCCACTATTGGTATCTACTTAAGGGAAAGGAAATCACTTTACCAAAAAGACACCTACACTTTTATGTTTA
TCGCAGCATCATTTACAATCTCAAAGTCGTGGAATCAATCTAAGTGTTCATCAGTAGTTGACTGGATAAAGGAAATGTGGCACATATTTCATACGATGGA
ATACTATGCATAAATTCATGTTCTTTGCAGCAACATGGGTGGAGCTGGAGGCCGTTTTTCTACGTGAAATAACTCGGAATCAAAAAATCAAATATCAGAT
GTTCTCACTTACAGTGGGAGCTAAACAATGGGTACACATGGATATAAATATGGAAATAGTAGATGTTGAGGACTCCAAAAGAGAGGTGGAAGAGGGCAAA
GCCTTGAAAAACTATCTATTGGATACTATGTTCGCTATTTGAGTAATGCTTTCACTAGAAGCCCAAACTTCAGCGTTACATAATATACCTATGCAACAAA
CCTGCACCAGTAACCCTGAATCTAATGTTTAAAAAAATGAATTTAGAGGGGCGATGCAAGCATCCAGACTATTGCACATGTTTATGAAGGTTTTATAATA
TTACGTCTTCTAGTTTCATTTTCTTTTGCTCCAGTTATCAATTTATTCCCTCAGCTCCAAACTCATGCATTGCCCAGTCTCTGAAAATGGAAACAGTCCC
TTTAAATGTTTTTCCTTTGTCAGCCGGCATAAACTTAACTTTTGTCAGTAGAGGGCGCTGAAGAGACATTGCAAGAGAAAGTTTTGCTCTCTGGTTCTGC
AGATTTTGAAGCACGTGTTACTTCCCAGGGCCAGCTTCTGCAGCAGGCACAGCTATTCCAGTGCCAAGCTCCTGCAGTGAGTCCATGGTGGCCAGCAGAG
CCTAGCAGCTTTCAGCTTTCCTCAGTATGCCCCTAAGGTGGTTTTGTAGCAATGTGACTCGGGTGAGACATTTCCCTCCCACCAGCTTTCCCCAGTAGCA
TAGAGTGTGAATTTCCAGCAGTTGTTACCAGTGCAGCGCCATAAGCACTTTTCTGGCATTTCGCGAGCCACAGTCACATCCATGGTCTGGCTATCAGCCT
GCCAGGACCTCTTCATTGTCTAATATTTAAAATAATTCACTAGCAAAGTCATGGGGGTTGGGGATTTTCGTTGTAAGAAAGTTGTCCTTTAATTTTTTTT
GCAATAATTTCACACTTACAGAAAAGTTGAAATATAGTACAGAAAGTTTTCATATACCCTTGATTCAACTTTCCTTAAAATTAACATTTCTCATAACCAG
AGTAAAATTATCAACACCAAGAAATTAACATTGGTATAATATTATTAACTAAATCACAGATCTCATTCAAATTTCATTAGTTTTTCTATTAGTGTCCTTT
GTCTGTCCCAAGATCCATTTAAGATCTCACAATGTATTTAGTTGTTTCTTTAGTCTCCTCCAGTCTGTGACAGTTCCTTAGTCTTTCCTTGTCTTTCAGG
ATCTTGACACTTGAAGAATTCTGGGAAGTTATTTTATAATATGTCCTTCAGTTTGAGTCTGTCTGATGTTTTCTCATGATTAGATGAAAGTTATGCAAAA
ATACCACACAAGCGATGCACTCTTCTCTGTGAATGATAACTGGGGTACCTGGCATCAATATGCCCATCCTGGCAATGTTAACTTTGATCGTTTATTTGAG
GTGGTATCTGTAGGATTTATCTACTTTAAAGTTACTGTTTTTTTCTTTTGAAATTAATAAATATACCAGGGGAGAGTCTTTGAGGCTATATAAATATTCT
ATTTCTCTCCAAATTTATACTCATTAATTTTAGCATACATTGCTGGATGATGCCTATAAACATTTATTACTATAGAGTTTACCTAATACTGATTTTCTAC
TTCACTAATTTTTCCTACATTTATTAATTGGAATTTAGAATTGTGAATTCTCACTCATTTATTTACTTACTCAGTTATTTATTTATATCAGTATAGATAT
TTACTTTATTCTATGGTGATAATCCAATACTCTTATTGTTTTTTTCTCTCAAATTGTTCGGCTTTTGGTCATTTCTCTGCCTTCTGATACGCCCCATTTG
TTTTTGAGCATCTTCTTACTTTCTGGCATGAGAAGATATTCTACGTTCATTTTGTAGTTTTGTGATCCCAGACCTGTAGTCAAACATTTCTCCAAGTAGC
CTTGTTTCCTTTTATTGGAGACTGATATGACACGATAGCTGGCTAACACCTTGAGTGACAGACCCTGAGCAGAGAATCCAGCTGAGTCATGCTAATCTCC
TAATCCATGGAAACTGTGCAATAATATATTTGAATTGTTTTAAAGCCTGTGGATAGTGATAACTTGTTACAAAGTAAGATAAAACTGATACACCCTTTTT
TTCTAAGACATTCAATTTTGATATGCCATTCCTCTGCTTTTAGAGCCTTAATAACTTCTCATTGTCTTAATGATAAAATCCAACTTAATTAAAAACTTGC
AAGGCCCTCTTGCACCCTCGTCACCTCCCTAGCCCCACCGCTTATGAATCCAATGCTGTCACTCCATTCCAGACAGACCGAAATACTTGGATGGCCCTGA
TGACACCGTGTTCTCCTGACTTCCTTGCTTTCATTTCATGTCTCAGTTTAAACTTTGATTTGCTAGCAAGCCTTTTACAAGTGCCCCAAGACTGGATGAG
GCTACTGTTCTCCTGGCTTTCAGAGAATCTTGTTTAGTCCTTAGCCCAGTAATTCAGTTGTCTGTGTCTGACTGTCTTCTTGAGTATACAGCACTCTCTT
TGAGGGCATTTTTTTCATTTTAATTTTTATGTTTTAAATCTTACCCACCGTTATCCTTCCCCAGGGTCTATGCCAGTGTGGACTGAGTGAAGGAGTAAAT
GAGCAAATGAACAGTGTAATGCCTTATGAATTCAGCAAAAGCCGAATCATCATCTGTTTGTTCCAGTGCAGACAGGCTTGGCTTTGAACAGCATCCAGCT
CCACGATTCTATCAGCTAAATTTTTTTTTTGTACTTTAAGAAATAGGGATAGTCATAGTGTTTACTGTACGCAGTTGTTCTGAGGAGAAATTAGGAAAAG
GTATGCAGTTACACAATGCCACGTACAACTCTAAATTCCAATTAATAAATGTAGGACAAACGAGGGAAGTAGAAAAATGCACAAGAAATGTTAACTATTA
GCTTTACTGCAGTTTCTTCTTGGTAGTTATCATTTCATGCCTGCCTACATACATACAAGGGGACCAGTGATAGTTTTTATGTGCTCAGCAAGATTTTTTT
TTTCTTTCTTTCTCTTCCTAGTGAGGAAAAAGAAAGTTAGTGGCAGTTGGCATGCTGCCAGCTGAGTTTTTTTGCTGCTTTGAGTTTCAGGTTTCTTTCT
TTCTCTTCCTAGTGAGGAAAAAGAAAGTTAGTGGCAGTTGGCATGCTGCCAGCTGAGTTTTTTTGCTGCTTTGAGTCTCAGTTTTCTTTCTTTCCTAGAG
TCTCTGAAGCCACAGATCTSTTAAGAACTTTCTGTCTCCAAACCGTGGCTGCTCGATAAATCAGACAGAACAGTTAATCCTCAATTTAAGCCTGATCTAA
CCCCTAGAAACAGGTAAGCGACTTTTTAATTGAAACATAGTATTTGTACGTATTTATGGGGTTATGTGTGATATTTTGATACAAGCATACAATGTAATGA
CCAAATCAGGATCATTGGGAAATCCATCACCTCAACCATTTATCATTTCTTTGTATTTGGAACATTCCAAATTTTCTCTTCTAGCTATTTCAAAATAGAC
AATAAATTATTGTTAACTATAGTTAAMCTGTTGTGCTATGAACACAAGAACTTATTCCTTCTATGTAGCTGTATTTTTGTAACCATTAACCAACCTCTTT
TCATCATCTCCTTCCTCTGACTTTCCCAACCTCTGGTAACCACCATGCTACTCTCTGCCTCCATGAAATCAACTTTTATTTTAAGCTTCCACGTGTGAGT
GAGAACATCACAGGTAAGTGACTTCTTGCCATCCAATTTTGCTAGCTGTGTGTGAAGAAAAAAGCTTGCTTTCTTTTTTTCTAAAAAGGAGTTTCAGAGT
GGAATTGCTGCTAATACTTTGCTCTTTCATTTGTCTTTTATTTTAATGAAAATTTCACACACAGATAACTAGAGAGTATAAATGAACCATACTGTAATCT
GATATAGTTTTATCCAATTTTAAAAATGATTTGCTTTTTAAATTAGAATAGTTTTCTTTTACTTAAATACAAAAGCATTACAAATAAAGTTGAAGAAATC
TATGACTCTCTACTATATATTGTTTTCTTATGAGATGGAGTCTCACTCTATTGCCCAGGCTGGAGAGCAGTGTCTCGATGTCGGCTCACTGCAACCTCAG
CCTCCTGGGTTCAAGGGATTCTTGTGCCTCAGCCTCCCAAGTACCTGGGATTACAGGCGTGCACCAGCATGCCTGGCTAATTTTTGTATTTTTAGTAGAG
ACGAGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCGCAAGTGATCTGCCAGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCC
ACCACACCTAGCCTCTCCTATATTCTTTACCTTTCTTTTTATTTCCAGAAGGCAACATTATCTAGACTTTGGTATAAATTATTGTCATAATTGTTTTTAT
GGTTTTCTGTATGTGTGTATATATTTATCTAAATATGATCTCTAGTATAATTTGTTAAAATTACTTCTGTTTTTATATACCAGCAAAAATGGTTTTACAC
AATAACTTAAAAAATTAATATACTTATATTAATTTTATTTTTATTGATACATAATACATTACATATTTATGGGGTACAGGTGATATTTGGTGATGCACTT
AGAATGTGTAATGATCAAGTCAGGGTATTTGTGGTTTCCATCGCTTTGAGTATTTATTATTTCCATGTGCTGGGAACAACCCAAGTCTTCTAGCTACTTT
GAAATAGACAATACATTGCTTTTGGCCATAGTCACTCTACTTTGTTGTTGACTAATAGAACTTCTACCTTCTATTTAACTGTATATTTGTACTCATTAAC
CTACATCTCTTCATCTCTCCCTCCTAGACACCCACCCACCCTTCCTAGCCTCCAGTATTTATCATTATACTATCCACATTTATAAGATCAACATTTTTAG
CTGATCTAAAATGATGAGTGAGAACGTGTGATATTTCCTGTGCCTAGGTTATTTCACTTAATATTCTCCAGTTCCGTCCATGTTGCTGCAAATGACATGA
TTTTACTGTTTTTATAGCTAAATAGTATTCCATTGTGTAATATACCACATTTTCTTTATCCATCCACTTATGGACAGTTAGGTTGATTCCATATCTTTTC
TATTGTTAATAGAAATTCACAATAGAAAGGTTGCTGTGATAAACCTGAGAGACACCAGAAGGAATTTTAACATATTGACCATACTAAACAATATTTAACA
TATTGATTGTATTCAGCTATCTTTTACAATGTGGTGTACAGACTCTAAAATAGCTCCTAATTGTCCCTGTCCTATTTTTTTTTTAATACTCATGTCCGTG
TATAATCCCCCCTTGTCTGTGGATGGAAACTGTGACTTAACGGTAACAAATAGAATTTGGCAAATGTGATATGTTAAGATTATAATGTCTGCTATGCTAG
GAGATTCTCTCCCTTGCTGGTTTCAATGAAGTAAGTGGTCATGTTGGGGAGGCCCATTTGGCAAAGAACTAAGGGTGACTTCAGGCCAATGACTAACTGA
GAACTGAGGATAACCTCTGATCATTAGCTAGCAAGAAATGGAGTTCTCATATCTACAACCATAAGGAACTGAATTCTGCTAACAACCATAGGAGCTTGGA
AGCATGTCCTTCTCCCGTTAAACATTCAGAAGAGTCTGCAGCTGTGGCTCGCACTTTGATAACTGCCTCATGAAAAATTCTGAAGCAGAGAACCAAACTG
GATTTCTGACCCAGAGAAACTGTGAGACTATAAATGTGTGTTGTTTTAAGTCTCTAAACGTATGAGAAATTGCTATGCAGCAATAGATAAATAGCACACT
AAATTAGTTAATACTATTACTTTATCGGTAGATGCTTTAAGGTTTTCCACATATAAGATAATATCATCTGTGAGCAGAGATGATTATACTTCCTTTATAA
TTCAGGTACCTTTTCCTTTTTCACTTTCTTTTTTATTTTGGCCTACTTGTTCTGGCTAGGACATTCAGTATTATGTTGAATAGAAGTGGTAAAAGTGGAT
AATCTTGTCTTGTACTTTAYCTTAGAGGAAAAGCTGTCAGTTTTTCACTGCTGAATATGATGTTAACTATGAACTTTTTATACATGTATTTACTATGTTG
AGGTAATTTCCTTCTACTCCTGGTTTAAGTGTTTTTGTGTTTTTTTKTTTTTTKTTTTTTTAAATCATGGAAGGACTTGGGTTTTATCAAATGTCTTTTC
TGTATCTATTGAGATGACCAATTTGTATTAGTCAGCGTTCTTCAGAGAAACTGAACCAACATAAAAAAAATAAAWTTAAAAAAAAACTAAGGAAATTTGT
TATGGGAGGTGGCTCATGTGGTGTTGGAGGGCGAGAAGTCTCACTATCTGCCACCTGCCAGATGTAAAGCCAGGAAAGCTGGTGGTGTAATTCAGTCTGA
ATCCAAATGCCTGAGAACTGGTGGAGCCAGTGGTGGAACTCCCAGTCTGAAWTCAAAGTCCTGGGAACTGTGGGAACTGAGAGAGCTGGAGGTGTAAGTC
CCAGAATCCGAATGTTTGAGAACCAGGAGCTCAGATATCTGAGAGCAGAAGAAGATGGATACTCCAGCTCAAGAATAGAGAATTTGCTCTTCCTCTGCCT
TTTTGCTCTATTTGGGCCCTCAATGGATTGGATGATGTCAGCTCATGTTGGATCTTTTTTATGCAGTTTACTAATTCAAATGCTAATCTAAAATGTGTTT
GTATATTCATTTGCCTCAACATTTCTTTTCTTTTCTTTTTTTCCTTTCTTTTCTTTTTTTGAGATGGAGTGTCTCTCTGTCACCCAGGCTGGAGTGCAGT
GGTGCAATCTCTGCCTCCCAGGTTCAAGCGATTCTCCTACTTCAGCCTTCTGAGTAGCTGGGACTACAGGTGCACACCACCACACCCAATTTTTGTATTT
TTGTATTTTTGTTAGAGACGGGGCTTTTCCGTATTGGCCAGGCTGGTCTCAGACTCATGACCTCAAGTGTTCCGCCGAACTCGGCCTCCCAAAGTACTGG
GTTTACAGGTGTGAGTCACCACGCCTGGCCTCAAGATATTTTTAAAATTCCCTTTTGATTTCATTTTGATCCACTGCTTATTCCAGAGGGTGTAGTTTAA
TTCTCACATCCTTGTTAATTTTCTAGATTTTCTGATATTGATTTCTAGTTTCATTACATGGTTATGAGGAAAGACTTGATATGGTTTCAATCTTCTTAGA
TTTGTTAAGACTTGTTTTTTGACCTAACATGTAATCTATCCTGGAGAACGCTCCTATAATACACTTGAGAAGAATGTGTATTTTGTTGTTGCTGGGTGGA
ATGCCCTGTATATGCCTATTAGGTCCATTGGGACTATAGTGTTCAAGTTTTCTGTTTTCCTATTGATCTTCTGTTTGGATATTTTATAATGGATAAAGTA
TTGAAAGTGGGCTATCAAAATCTCCTTCTCTTATTGTGTTGCTGTTTCTRCCTTCAATTCTTTCAGTGTTTGCTTCATTTATTTAGGTGCTCTGATGTTG
GATGAACATATATTTATAACGGTTATATTTTTCTGGAGAATTGACCCTTTTCTTATTATATGATGTCCTTCATAGCCTGTTATGACAGGTTTTGATTTAA
TGTCTATTTTGTGTGGGATAAGGACACACACCCCTTGCGGGTTATCTTGCGGTTCTTGCAGTTACCATTTGCAAAGGTACCCTTATTATCACTTGATTTT
CATYCTATGTGTGTTCTTAAGTCTAAGTGAGTTCTTGGGGACAGCATGCTGTTGTATTTTGTCATGACATGCTTTGACTCAGTATTATCCTTCTTTCTTT
CCTTCCTTTTTTTTTTTTGGTTTGCTAATATTTTGCTGAGGATCATTCCATCTATATTTATAAAAGAGATTGGCCTGTAATTTTTCTTGCTTATAACGCC
ATTAACAGGTTTTGGTATCTAAGTTATTCTCTGGAAGAACATGTGTAAGATTGTGTATTATTTATTCTTCAAAATTTGGTAGAATTCAGCAGCTAGACTC
TGATCCTTGAGTTTTCTTGGGGAAGTCTTAAATTAATTATGAATTTAGTTTTTAAAAATAGCTATGAGATAGTCAAATTTTGTATTTACTTTTATGTCAG
CTTTGGTAAGTTGTATTTTTCTAGAAATTTGTCCACTTATTCTCAAATTTAATTTTACAAAGTTGTTTATCTTCAGACCATTTTATCGTTTATCATTTAT
TGCATCTGGACTGATGTTTTCTCTTACGTTTTTGATTTTAGGACATTCTTTCCCTTTTTTCCCTTTATCAGTGTCAGCAGTGTTTTACAAATTTTGTTAA
TCCTTTTGAAAACTGGGTTTTGGTTTTGTTAATCTTCTCTATTGTATACTTGATTTGTCCATTAATATTTCTGTCCATTATTTCTTGCTTTTATTTTTAT
TGTTGATTTCTTTCTACTTACTTTGAGTTTAATTGGTATTTTTTCTGACTTTTTGAAGTGAAAGTCTATATAATTAATTTTCAGCCTTTCTCCATTTCTA
ATACATATGTTTAAACTTATATGATTTTTGTAACATTTTATCTTCATTGTATAAGTTTTAACAAGTATCTTTTGTCATTTAATTAAATTTCATTATGATT
TCTTATGTGAATAATGGATTATTTCAAATTATATTTTTTATTTTCCAATGTATGAGGGGATCTACTAGTTATCTTCTTGTTAAAAAAATTCTGGCATATA
CTGTCTGTTCAATATTATAGTACTTTGAAAATTTTTGAGACTTGCTTGCTTTTTAAGGTTTGTAGAATATCTCTTCTATATTCTTTTTCTTTTATTCTTG
TTTTCTGGTTCATATATCTTAACTAATTTTACTGTATCCTTTAATCCCTTTTGCCCTTTTCTCTTTTTATTCTTTTTTTGTCTCAATACTTCAGTTGGTA
AATTTTCTTCTAATTCTTTATGCCTACCTTGCAGTTAAATGTATTCATTTAATTATTAATTTCAGATATATATTTTTACATAGCAAATCTCTTTTTGACT
TCTTATTGTATTCATTTTACTGTAAATCATTCAATCTTACCTTTTAGCTGTTTGAACATATTAAACATAGTAATTTAAAAATCTCTATGGGTAACTCCAG
TATAAGTATGTGTTTGTTTCTAGTGTGTGCTTTTTCCTCTTGGTTTTCTATCATGTTGTTTCATTTACCTCCAAACATGAATGTGTTTATGATGAATGAG
AGTCACTGAATATTTAAAAAATCATAGAGATATTTTGAAGCTGGAAGAATGTTCTTTTCATCCAGACAAGATTTATTTTGTTTCTGCTATGCAGCTATGG
ACACTAGCAATTCTCATTTACCTTAATTCAATCMAGGACTGAGAATACTGAAGTATGAAATTAACTCTGTCTGCTTCCAGTTCATACTTCTTCCCTGTAC
CTCTTTTCTTAAATTTTTTTTAAAATTTTATTTCAACAGCATTTGGAGTATAAGTGGTTTTTTTTTACRTGGATGAATTATATAGTGGTGAATTCTGAGA
TTTTAGTGCATCCATCACTCAAGTAGTGTACATTGTATCTAATATGTAGTTTTTTTTAATCCCTAGCTCCTYTTCCATCCTCTCCTTTCTGAGTCTCTAA
AGTCCATCATATCAGTCTGTATGCCTTTGTGTACTCATAGCTTAGCTCCCACTTATAAGTGAGAGCATATGGTTTTTGGTTTTCTCTGTAGCTCTTTAGA
ATCCCAAACTGTAGCCTAAGGGAAAGGTTTCCAAGGTGCTCTCCTTATTGCACTCCAAAGTATGATTTTTATCTCCCTAACTCTATGAATCTAGCAAACA
CTTTGCTTAACTTTTCAGCATCTCAAGTGCCTTTTCTGAATTTGACAGATACACGTCAGAAATGTGCTCCCAAATGCCTAGCTTATCTCTCTTTATTAAC
TTCTCCAAATCTTTGCCAATAGCTATATGTCTTAACTGCCTTGTTTGCTCTTTAGAGCTTTGTAACACATGCATTTTTATAGTTTATTCTGCTTTTCAAG
TTTTTTTCATTGAAATAATTCTTGTAATGACCAATAGTCTAGTATGCTGCTGTAAGACTTCTATAGCTGTTAACTCCTTTCATATTTCAATTTCTTTATG
TGCTKTTTTTTGCAAGAATTCCTAGGCTCCATTTTCTAATTCATACGTTGGCAAATGATGAATGTGATATGACAATGATGACCTCTGTTCCAGCCATATA
CTTTTTTAAAGAAAATTTTATTGGAACACAGTCATGCTCTCTTGTTTACATATTATCTATGACTTCTTTTGTATTACAGTGGCAAAGTTGAGTAATTGTG
GAAGAGACCATATGGCCTACAAAGGCTAAAATATTTACTATCTTGTTCATTAAGAAAAAATTTGCTGACTCTTATTGAGATTTATTTTTCCTTTATTCAA
CTTTCTGAAKTTTGTCAATTGATTTAAAAATTTTAATGACTTTTCCTTTCTAAATTATATATTTTTATATCTAACATTATTGTGCCATTTCTATATTTTT
GCTATATTTTTTGCCTTAACCAAACARTGTGTTTTAATTGAGTCAGTGAATAAAGAACTCACTGAAAGTAGAAGTGGAAACCTAAGCTATAAGCTACTAT
ATTATATAAGCTTCTCAACCTATAATTGTTTTTCCATTAGATATAGAACAATGGAAGTGACAACAAGATTGACATGGAATGATGAAAATCATCTGCGCAA
GCTGCTTGGAAATGTTTCTTTGAGTCTTCTCTATAAGTCTAGTGTTCATGGAGGTAGCATTGAAGATATGGTTGAAAGATGCAGCCGTCAGGGATGTACT
ATAACAATGGCTTACATTGATTACAATATGATTGTAGCCTTTATGCTTGGAAATTATATTAATTTACRTGAAAGTTCTACAGAGCCAAATGATTCCCTAT
GGTTTTCACTTCAAAAGAAAAATGACACCACTGAAATAGAAACTTTACTCTTAAATACARCACCAAAAATTATTGATGAGCAACTGGTGTGTCGTTTATC
GAAAACGGATATTTTCATTATATGTCGAGATAATAAAATTTATCTAGATAAAATGATAACAAGAAACTTGAAACTAAGGTTTTATGGCCACYGTCAGTAT
TTGGAATGTGAAGTTTTTCGAGTTGAAGGTWTGTAAAATTAGAYAATCCTACATCTCACATTATGATTCTAATCCTTGTGTTCGGTAGGTAATAATTGAT
CTACAAGAGCAAGGAAAGTGAAAGGAACAGTTAGATTCATRCCATACTCTTTGATAAATTCTGAAATGAAACGTGGGGAACATAAGGATTATGAGGTTTT
TATCCAGAACGTATAGGCTGCTTTGAGCAAAGCAAGTTGAGAAATATATGTGCAGAGATAGAGATGACAAAGGAGATGGGGATGTGGAGAGAGAGAGATC
TTATCATCAGAGCTGCTCTGTTTTGACATATGACCCAAAGATCAGACCCTTATATGACCCTTAGAACTTCTAGGTGTAATTATGTGAGAGCTTCCAGAGC
AAGTTAATGTGCAGAGAGGATAATTTTTCCTCCTCTTCCTCTCATGTTGCCAACTCTGACTCCTAACTGAGCAGCTCAGCCCTGGGTTATGCAAGAAAAC
TCCATGTCTTATTTCAAAAGTAGACTTGGCCACATTTAACCARACAAGTTTTAAAAATGTATTATGCTATGTTTATTTCCTATAGGAATTAAGGATAACC
TAGACGACATAAAGAGGATAATTAAAGCCAGAGAGTAAGTTGGATTCTTGGGCTATCTATTAATCATTTTATTTAGACCAATTGTATAAAGAATGYTGAC
AAATATGTGGTAAAGATAAAAATCATGCCACTGGAATGATTAAAAAAGAGTTATAATGTTATTGACATAAAATAACAAAAGCACTACTAACTATGAAACT
TTAAATATCCACCTGATGACATTGACCAATTTGACTTCATTTCCACTTTAGACCAAAATTTTCCAGGTARGGTCTGGATAACCATTTTAGGTAATTTCTC
TGAATCCTTTCCTTGAGAAACAGCTTTTGAGAATCCTCAGTAAATGTCAAAAACAAACTTTCTTTTTAAATTTATAGATAGCTACATTGCATATATTTTA
TTTTGATTTCTCCTTAATGTACTTTTAGTGAAAATAATAATTTATGTTCAATGTCACTGATATTTCTTATTACATTCATGTGATCTAAGACTAATAGTTG
AAAAATGGTTTGGTTGCAGGTTAATATTTAACTTTAGTCAGATATAAAATAATGCATTTTCTTTAAGCACAAAATGTATAACTTTAGATATTTCAAATCA
TATTATAGAAGATCTCATTATCAAAATAATAATTAAGTATTGAAAAAATACCCTTCTCAGGGAAGAGAAAGAAGCTCTAGGTGACTTGMGATGTTCTTTA
TGGTATTCTTTATTGGCTGTTCTGATGCTGTATTTAACCACTATATTTTAACAGGCACAGAAATAGGCTTCTAGCAGACATCAGAGACYATAGGCCCTAT
GCAGACTTGGTTTCAGAAATTCGTATTCTTTTGGTGGGTCCAGTTGGGTCTGGAAAGTCCAGTTTTTTCAATTCARTCAAGTCTATTTTTCATGGCCATG
TGACTGGCCAAGCCGTAGTGGGGTCTGATAYCACCAGCATAACCGAGCGGGTAAGTTATTTCCCTGAGGATTTTATTTTATAGATTACAATTATTATATT
GCTTATGTCTTTGCCTTTTTCTCTTAGGGCAATCCTAATATACAATTAAATGCTAAATCAAATGGAAAATAGGAGTAAAATTTTGATCAGAACCACCTCC
ATTGTGCTATATTATACAGAGAAGCTTTCAAATTTTATGGATGGAAGAAGCAGTTATATAAAGAATACTTTTTAGTATTTGTATAAAAAACAACAAAAAA
TTAAAAACCCTATGAAAATCTTTGACCATTATATATGATGTTCATTTTACTCATGTACTACATGATTTTACCTGGTTTAAAATGTTTTTCTTTTTTTGTA
ATAAAATAATGAGAATTATGTAAGGTAATTTTTTTTAATTACATGAGACCATTCTCTAAGACATGGTCATGAAAAGCAAAATAGCAATTCACTTTGGTGG
GTCAACTTTGAAGGAGAACTTGAAGTGTAAATCTTACAAAAACTATCTTATTTACAAAAAGATATACATAAGGAAATAAATAGTAATATAGATTTCTTAA
TTGTTGCTCTAAAGAACTACAAATTATGATGCAGCACTTGTCTAGAAAATTCTTTCTTGTTTATGCTTTTCAATGTTATCATGCACATGCAATCAAACAA
AAAATAATAAAGGGAAAGAATAGAAAATTTTAGAATCAGGCTTTTTTAATGATTACCACAAATTAATATTGTCACTTGTTAGGGAATATGCTGTGTATTA
TCAATGCAAAATTTAGCATAAGACAGCATAATAAGACAGTAATGGTTCATTTTAGCTTTTGTGTCACATTCAATAACTGGAAGAATTTTCTAGGACTTTC
AAGAATCACATCTTATTTGTTGATGTTGGCCAGATACTGTGCTCTTGAGTGGCTTTATTTTAATATATTAGTGTAGTCTCAGAAGCCRTGGCAAGGTACG
GCAGCACAAATTAAATTAATTAGGCATTGATTGAAATGTTTCTGTTTGCTAAATATTTATTCAGACATAGAGACCTAAATACAAATAATGCTTGGTCCCA
TTACCCAGATATCTCAGAGACCAATGCAGATAATAAATCTGTATCATTCATTGTGATATATGCTATAATAGAGATACTACTCAGGACAAAATTTCTCTTT
CTTCCTTTTAAGTTTTAAATTCCAAAGGTCTTATTTTAAGAGAAGATGTAGATACTGAACTCCAATGAAATGCAAATGTTATTTAAATTGAAGAAATATA
GGGCAGACTTTTATGAGGGAAATTGAATATTTTATTGCTTAAAAGACTCTTTCCTTTGAATAATTGAAGTTGTAAAGAAAGCAAATTAATGGGTAAGGAA
ACTAGGAAGATGCATATTGGTGTTCCTGAAATTTTACAATGTACTTTAACTCTAGTGCTTAGTATAATTTCTTTCATGTTGAGGCACTGGTAAGTCCTAT
TCTCCTAGATAAAAATCTTCAGTGGGATTACGCCTCTGCGTTTCATGGCCCAATGAGAGCTTTTGATTTTATTACAGATTACAATAAGTCATAGACTGTT
CTCTCCCTTCTGGTTTGAGTGATACTACACCCTTGCCAGCACCACAGATGGAAAAATTGTAATTAAAGTGTCTCTGAGAAATCCTTTTCTTTGCAATCTT
CCCAAATCGTCCATATTTTTTTGTGTATGTTGAATGTATATCTGACCATCAAATAAAATACTTTCAGAATTGTTCTAGAAAATATCCTTGCAATAAGATT
GAATGTGTTTATCTAGGAAAGAAAGTTCTGTTGTGCTTCTCAAAGTGAAATTTGTGGACCCCTTGGGTTCCCGGAGACATTTTAAGGGTATCTCTGTGTT
CAAAACTATTTTTAGAATTATTCTAAGTTTTTTTTGTCTTTTCTAGTGTATTGACACTTGAATTAATTACACAACATAGTTTTACCTGTTGGCACATTAG
TATGAATCAAACGGTGGCACCAAACACTACTAGTAGTCACTGTATTTCTCCCAATTACTGCACTTACAGGAAAAAAAATGCCAGTTTTACTCCTTGATGA
ATAGTAACAGTTATTGGTTTTATTTAAACTCCACTTTGGAATACACATCATTTTGATATTCAGTGTGATAAAATGGGAAGTGCTCATAAAGTACTTCTAA
TGCATATTGAAAATTGGCAGTTGTCTTTAGAAAAAGCACTGGAGCAGCTGAGTTGTTAACTGAACTTTTTTTAAATGTGACATCATTTTTACTGGACAGC
ACAGACTTACTCATTCATACTTGGATATTTGGCAGGTATCTTAATGCAAATGCTCAAGTGACCCTACTAATAAAGAACAAAAACAAAAACTGACAGTGTT
TGTTGCCAATAACAAAATTTGAGCTTTTGAGAAAAATCAAACTTTGAGAAACCTGTATTCACTATTCTGAGCCTGACAGCTTTTCAACACTTAAAGACTT
ATCCAATGAAATTAATGGTGGTATTAACAAATGTGATGTTTTAATATTGCATGATGAAATGTGTCAACATTAGGAAGATCTGGATAACCCAGTGGACGAA
TGTTTTAAGATGATCAATAAATTAGGTTAAAAAATCATGCATGAGTAAAGGATATATTCAAAGTATAAGACAAACCAATGGATTTAATGTGGCAGCATAT
AAAAATGTCGCAGATTCCACATTGCAACTAACCTTTAAGAAGTTATTACTTGTTGAGCTTTGCTATATTACATTGAGGAATATTCACAATTACCTGAAAG
CTATACAGTGAAATATTACCTCCTTTTCATATTATACATACATGTGAGAGGCCATATTTTCTTCACATACTTCAATTGAAACAACATATCAAGAGATTGA
ATTGGAGCCACATATGAGATTACAGTTATATTCTTTAATCCAGACATTAAAGAGAATTTTACTAATAAACCAATGATTTCTGTTTTCTGTAAATTTTTAA
AAAAATGCTTTTTAAGTAAAAAATGTTATTTGATGAACATGTGACAGGTTTATAATTGAATTTTTAATGATTAAAACAACACTTAAGAGCAGGAGGGGCA
GAGCAAGATGGTCACATAGGTCTCTCCAGCAATCATTCCTCCACTGAAACATCAATTTGAATAATTATTAGCACACAAAATATCACCTCAGTAAACCAGG
TGAAAGATTACTGTACCTAGTTCTAGCACAATAATAACAAAAGATACATTGAAGAGGGTAGGAAAGATAGTTTTACGTTATCTGCATCACCCCCCTCAAC
CCCAGGGAGCATAGTGTGGAGAGAACTGTCATCTGCTTTGGGGAAAAGAGGGAAGTGAGCACAGGACTTTGCCTGGACTCCAATATCAGGCCTACTGCAG
TAAAATCCAGCACTGGATAGAACCTCATGGCCCCAGACTTTAGGCTGTTATTTGACGGCTGAGCCTCTAGCCCCATGCTGGTGCCAAGTGAGACCATGTG
GCCCTAGGCTTCAAGCTTGCATGGTGGACTCAGTCCCTGGACCACACCATGGATGGGTTATTAGTGGCCCAACCTCTGAACAGCACTTAGTGACACGGAT
GCCGCAGTGGCCCTGAGCTTTACGCATGCCTCAGTGCTGCACCAGTCACAGTGGTCCCAGGCTTTGGGACTATGCAAGGCAGCCTGCCCAGAATTTTTGG
ATAGGCTGATTGTTGAAGGACTTTTCCAGACAAAGGCAATCTGCAAAGATTGGAATAAGTACCTACTTCCAGAGATGTTTATACATTGACACATTGTCAC
AAGAGTCAAAAGCAATCAGGGTAACATGACGTCAGTAAAGAGAGAAAATAACGTGCCAGTGGCCAATCCTAAAGAAATGGAGATGTATGAACCACCCGAA
GAATTCAAAATAATTATTTTAAGGAAGCACAGCAAACTTCAAGAAAATACAGAGAAACAATTTAACAAAATGAGAAAAATGATGAGTGATCAGAATAAGA
AATTTAATAGAAAGGTTGTAATAATTATAAAAAAGAAACAAATTTCAGAGATGAAAAATACAATGGGTGAAATGAGAAATGAAATAGAGAGCATCAACAG
CAGAATTGATCAAGTAGAAGAGTCTGTGAACTTAAAGGTAGGTTATTTGAAAATATAGATAGAGAATAAAAAAACAGAATGAAGAGGAAGGAAGAAAGCT
TATGGGATTTATGGGACATCATCAAAAGGACAAATATTCAAGTTACAAGGGGGAAAGGAGACAAGAAATTAAAAGTAATAGAAATCTTAAGTAAATAAAT
AGTAGCAAAAAACTTTTAAAACCTGGAGGATGATGTAAATATCCAGGTAAAACTGAGAGAAAAGTCCCCAGTCAGATTTAATCCAAAGAAGATTAACCCA
AGATATATTAAAATCAAACTGTAAAATATCAAAGACAAAGAGAGGATTCTGAAAACTGGAAGATAAAAAAGCAAATAACATATTAGAAAGTTTTAATATG
ACTAGCAGCAGACTTAGCAGAAACTCTGCAGGCCAAGAGAGTAGGATGAAATATTCAAAGTGCTAAAAGAAAAAACAAAGAAACAAACAAACCCATCCAA
TTGAGAATATTATACCCAGTAAAGCTGTGCTTCAGAAATAAAGGAGGGATAAAGATTTTCCTGGATGAACAAAAGCTGAGGGAGTTCATTACAATTATAC
CTGTCTTACAAGAATGTTAAAGCGAGTTTTTCAAGCTGAAAGAAAAGGATGCTAATAAGTAATATAAAAATATCTGAAAGTATAAAACTCACTGGTAAAA
CTACAGTAAAATTCAGAATACTCATACTATAATGATGGTGATGTTTAAAAGACAAAACTGCTAAAATAATAATAGCTATAAGATTTTGTTAAAGGACATG
CAATATGGAAAGATGTAAATTGTGGTATCAAAGGTGCAAACTGTGGGGAGGAGTGGAGTAAAAATGTGGAGTGTTTTTTTTTTCTCTGTAAGTGGAGCTG
TTATTAACTTAAAATAACCAGTTACAAATATGTTTATTTTTTGTAAGCATCATGGTTAAGCACAAAACAAATACTGATAGTAGATACACAAAATATAAAA
AGCATGGAGTCAAAACATACCATTATATATATATATRTGTGTGTGTGTGTGTGTGTGTATGTGTATATATATATATATACACACACGTTTTACATGATAA
ATTACATAGAAWTTTCTTTTTTAATTAAAAAGGAATATTTACATTTTTTTCAGTTGTAATTTCCACTATTTTAAATATCCATAGATATAACCCACATAAA
CAACAGATCTTTGGGATTCTCAATAACTTTTAAGAGTCTAAAGGGGTCCTGAGACCARACTGTTTGAGGACCATGGTRTTCAAATATTAACCAATCTCTT
TTCTTCTTATTGTCATGTCTTGAATGCTGGGTGATGAATGAACCTTTACACTTAATGTATTTTTTTAACAGTATAGGATATATTCTGTTAAAGATGGAAA
AAATGGAAAATCTCTGCCATTTATGTTGTGTGACACTATGGGGCTAGATGGGGCAGAAGGAGCAGGACTGTGCATGGATGACATTCCCCACATYTTAAAA
GGTTGTATGCCAGACAGATATCAGGTAAGATTTCTTCAATATCCAAAACATTTCAAATCATTTTCTTCAGTATTTTTCATTGAATTTTTAACCACATAAG
GCAATTTCAACTCCCATAATGTGGTTTCAACATCAATCAACACTATTCTACTTTGAATGAATAAGAATTCATATGAAAAAGTAGAGTGACTATTGTTCTT
TTCTGTAACATTGAGAAATAAAGCCAAAAGGCAGGATTCTACTCATTTGCATTCTAGTAAAAGATCAAGGAGATAGTGTGTTTTTATCACTCTTTACAAT
AATGTAAACTAATGATAGTCACTTAATCCCTTGCACTTTTTGGGTTACATAGACAAAATATTGGAACAAGTAACTATTTTGTGTTGAAATGTCATTTTAT
ACTGTAAATGCTTAGATTTCACCACTAAATACCTAGATTCAAAATTTGGCTTTGCTACTAACAGATGTTTACCCGTAAGTTGCACACTTCTCTCTCTCGG
TCTTTTTTTTTTTTTTTTCAGGTGTGAAATATTGCTATTAATAGTGTCTATCTCATAGGGTGGCTAAGATGATTAAATGAGATGATATAGTTTAAGTTCT
CAAAAAAGCCAACAATGATTGTTACCTTTCTTTTAGGTGTTGGGTATCAGCCTCAATTTCTAAAGAAGAATCTCTTTTGCCTCCCAATTGTGCTGAATTG
GAAACCTTACCTATGTATTTATTTATTCATTCAAAAACCATCTATTATAAACCATATTTGTGCCAAACTCTAAGCCAGTTACTGAAAACACATAAGTCAA
TAACAGCACAATCCTTATCCTCCAGGAGTTCATAATCCAGTCAGGGAAAAGGAGACACACAGATAAAGAGAGGAGGGATAGAGCGAAGACATTGGAGAAA
TCAGGAGCATACCAACACCCTAATTTTTCACAGCAGGGAGCCAGTCAATTCAGTCCAACACTGAAATACATAGCTTAATAACTACATGTTTCCAAACCAT
TGTTTCATAATCTATTTCCTTAATCTTAGAAAGATTACTGTCTTGTGGTAAGAAGACATTAACTTCAAATTTGGTATTTCTTTTATTTCACTTTAGTTTA
TTTTTCTTCTATAAAATCAAAATAAATTACAGTCTTTTAATTTAAATAGCATTTTCAACATATTTTTCTTTCTTTTATTCTCTCTATCCAGTTCATTTAA
GCATGCAAAATGCTTAGGGAGGAGTCTTAAATTGTATTTAACAAACGTTAATGGTGTTTATTTCTGGATACTAGGATTTGAAATTAGCTTTTCAAAAATA
TTATTTAAACTTTCCTGCAATACTTACAATGGATAATTATCATTTTTACCAAAGCAATAAAGTGTTTTTTTTCCTATAAGAGAGATATAATGGCATTATG
CTCACAGTGGAAAGGAAGTAAAGAGGAGGTGCTACTGTTTGGGGAAAGAGTAGCTGAGGAGAAAGAGGGAGATCAGTAGTTACAGTATTAGAAGCATTAA
TTGTGTCTTTAAGGGTTAAACAGAGGCTCTCTGATTTCTGAATGTTACCTTATGTTTTYATAACAGTTTAATTCCYRTAAACCAATTACACCTGAGCATT
CTACTTTTATCACCTCTCCATCTCTGAAGGACAGGATTCACTGTGTGGCTTATGTCTTAGACATCAACTCTATTGACAATCTCTACTCTAAAATGTTGGC
AAAAGTGAAGCAAGTTCACAAAGAAGTATTAAACTGTGGTGAGTCTCACTGAACTTATAAAAAAATTTACTTTGAAATAATTATAGATTTGTAGGAAGTT
GCAAAGAGAGTACAGAGATTTCCCATGTACCTTTCATCCTATTTCCCTGGAGTGGTGGCCATCGGAGGGAGAGATCATTCACAGGCATGACTGAAGAAAG
ACCCCAAATCCTAATGTTCAGTCTTTAAAGAATAGACTGGCCAACCATTTTTTTTTCGTGTGTGATTTTCCTGAGGCTTTAGATAGGGCTAAAACCTATG
TGGGTAGACAGGGAAGATCGAAACCAGAAAATTGATTATTGTTAACAATGTGTGTTTATAGTTCTATGTCATTTTATCACATGTGTAAGTTTATGTACCC
ATCACTGCAACCAAATATTACATCACTTTGTAGATTTCCCTCATGGCACCCACTATTCCTCCACCATCCTTAACTCTTGGCAACCACTAATATTTTCTTC
ATTTCCATAATTTTGTCATTTCGTGAATGTTATACAAATGGAATCATACAGTATGTCACCTTTTGAGACTGGCTTTTTTGACTCAACCTAATATCCTTTG
ACATCCATCCAAGATGTATGTATGTATTTATTGTTCATTTAAAAAATTGTATAGTATTCCATGGTATAGATATACCACAGTTTAACCATGCTCTATCAAA
AAATATTCCAGTTTTTAGCTATTGCAAACAAAACTCCTATCAAGTTTTGTGTGGATATAAGTTTTTATTCCTCTGGGGTACATCTCCAGAAATGTAATGC
TGGATCATAAAGTAACTGTATGTTTAGCTTTGAAAGAGATCACCAAACTATACTCCAGAGGGACTGTACCATTTTACAATCCCACCAGCAATACATGAGA
GATCTATTTTTTCTGCATTCTTGCTAGTATTTGGTATCGTTGCTATTAAAAATTCCTTAACTCTTCTAATAGATGTATGCTGATATTTCATCAGGGTCTT
AATTTGCATTGCTTAATGACTAATGACATTGAACATCTTCTCATGTGCTTATTTGCCTTCTGTATAGCTTGTTTAGTGAAATGCCTCTTCACGTCTTTTG
ATTATTTTCTGATTGGATGATTTGTGTTTTTTAGAAGTTGAATGTTAAAAGATCTATAAATCCTAAATATGAGTCAATTGTCAGATACATTGTTTGCGGA
TAGTTTCTCCCAGTCTGTAGTTGTCTTACTATTATGATGATTTCCATCCCTGCCATCTCTCATCTCTCCTTTTGGAACTCTGGGACATGAATTCTAGATA
TTTTGTTATAGTCTCACAATTTATTTATTTATTTTTTATATCTATTTGCTCTTTATTTTTCAGAGTGGGTAATTTCTATTGTTATATCTTTGAATTCACT
TGTTCATCACTTTGCCCTCTCCATTCTGCTTTTGAGCATAGCTATTGTTTTTCCTATCTTGGGTATTATGGTTTTTTAGCTCTAAAATTTCAAGTTGATT
CTTTTTCAGGTCTTCTATTTCTTTGCTGAGACATCCCACTTCCTTCATTTGTTTCAAGAATGTTCCTACTTGGTTCTTAAGCATTTTTATGATGGTTGCT
TTAGAATCCTTGCCAAATAATTCTAACATCTTTGTCATCTAATTAGGGTCATGATCTTCTGATTAGCTTTTCTCATTCAAGTTGAGAATTTCCTGGGTTT
TGATGTGACAAATGATTTTTAATTGCATCTTCGATATTTTAGGTACTTTATTTTATGACTCTGGATCTTACATCTTGTGTTTTAGCAAACATATTCTGAT
ACTGGTAAGATGGAAAGTACAGGTTTCCCATAAGGCCTTGTTTGACACCCTTGGAGAAAGGGCACTTTCTTACTGTGCCCCATATAGGATACCCTGACAT
CACAGGGGCTAGAAGCCTCCTTGCATCGAAGGTTAATGAAGGCTAAAGTTCCAGCTTCTCACTTGTTCTCCTCTGACACTTCCAGAGAGGGAAAAGAGCA
CCTCATTGCTGCTGATTCGGTGGAAGTCTAGGATCCCCAAGTAGCCTCCCTTGACACCATCAAGAGGGACCTTGTTAGTATAGTGCAGGTATAAATGTCC
TGGCTCCCTACATTTTTTTCTTCTCTTATACTACCTTGGCTAAGGGTGAAAGTTGGGAAAGGGAAGGACATATCCATGGATAGGGCTAAGGTGAATTCTG
TGGTGTTTGACTGGGGTAGTGTGGCTATTTTCTGAAAGTTTTCTGTCTTGCTACACTGTCCTTTTTCTCATGCTTTGACTAGATGAAACTAGTCAACAGC
AAAAAAAATTTTCCTTTTTGCTGGCTCTAATTTGTATTTTCCAGTTGTGAGTGTCTCCAAAAGCCAATCTGGGACATAYGAAGTAAAAAGAAAACCTAGA
GAGCTCATCTCTGTATTGTTTCTTGGGTCTCAAGGTCTCTAGCCAAATTGCATTATCTGCACTTTTCAATCTTTATGTTTGATTTATGCATAATGTCCAG
AGATTTTAGCTACATTTAGTGTAAAGAAGAGGGAAAAGTGTGTCTACTCCATTTGGTCCAGAACTGGAAGTACTCTCACTGAACTTCCAAAAGATTTTAA
TATAAAGAATTGTTGGGGCATTTATACTCCAAAGCCTCGTTGCTTACTTTATCAGTAGAAAGATCACATATTTAGGTTCCGAAAAGTGCTATGCCGTTTA
ATGTATAGAGCATGGTCTTGCTTAAGTGAACCTAGTTTTTAAATAGTAGTAAACTTTGACCTCGAGAAAGGTAATTTAATTGCTCTGAACTTTATCTCCT
GTTCTTCTAAAATGGGGATAATAAGTTTTGCATCTGAACTTAATAAACTGTCTAACAAAAGTCTGAGTAGTGAACATTAGATATACACAATGTAAATATA
TAAGCTTATATAAGTACTTAACAGCTCTAAAATTATGGAGGGTTTGGGGTAAGACAGAAATGCTAAGTTTTAAAATGACTTTTCAAGGATGTATGGCAAC
ACATTGTCCTTGGCGTGCTGGATGGCAATGCTTAATGCAACTTAGTGTGCTGACTTAGGACSTCTAAAAGGACATTGTATTAATTTTGAAACAGAAGAAT
TACATTGCAACAGAGGTTGAAAAAAATTATAGGTGTCAACTGAGAACTGCTCTCTACCAGAACCTAGGTATTAATTGGCCAACTTTGCTAGTTATTCCTC
TGAAACCTGAATGAAGAGAAGGTAGTAAAGGAAATCATTTAGTAATGGAAAAAATAAACACAAGATTTTAGTAGGAAGAAGGTACTAAAAGCCCTGTTAA
AAGAGTCCTGGGAGCTTCCTTGACTGGCATTTGAAATTAATCTTATATTTTCCTCATAAGCAGTTGTTAGCATAGCAGAATTTTGATTTGTTTAGAAGTC
AAATGTGATTTACTAATTCAATCCCTGTGGTTTGAGGGAGAAAGGAGTAGGTCCCTATTAGAACTGTGAAATCAGTACAGTTTGCTCTCATAAATGCTCA
TACACAACCCTCCTCACTTCCTCTTTTTCTTGTGGTTCTTTTTAGTCCCCAAAGTCCAGCAACCCCTTTTTTCCCCTTGACCAATTTAAAACAAACCATT
TGAATGGAATCGTAGATGATTGCAATTTAGTGTGGATTTAGTTGCATTGAAAAATGCTGTCACATGTTGGAAAAAAAAGATCAAAGATCATTTCTCCTCT
AGAAAAGCTTCAGGCTCCATATTGAGATGTATTGGGGATATTTCATTCTTCAGCTCTCAAAATCACCCTATAGARTTGCCTTCACACATATTTAATAACT
TGTTGACACATTGCTATTTATGATATAAAATAACTGATTTATCTATTTGATATAGGTATAGCATATGTGGCCTTGCTTACTAAAGTGGATGATTGCAGTG
AGGTTCTTCAAGACAACTTTTTAAACATGAGTAGATCTATGACTTCTCAAAGCCGGGTAAAAAATGCTGATCATAACCAGATATTATTGTAATAGTATCA
CAATCATACGTGTGTGTGTTTGTGTGTGTCTGTACGTGTATATGTGCTYACAGAGTGTATTTGCAGGGAAATGAAGAATGGGATCAATTGCTTGATTAAT
TCAAATTTATATCACAYTTTAAAACTGCAATGATCTGAATTATTGTATGTTCCGAAGATAACTTATTAAGCCATTGCTTTTTTGGTTTCTTTCTTAAATT
GTATTTAAAATTGGTCAAATTTCAAATATTAAATACAGGACTTACACTTTYTAAATATACTTTCCACAGGTCATGAATGTCCATAAAATKCTAGGCATTC
CTATTTCCAATATTTTGATGGTTGGAAATTATGCTTCAGATTTGGAACTGGACCCCATGAAGGATATTCTCATCCTCTCTGCACTGAGGCAGATGCTGCG
GGCTGCAGATGATTTTTTAGAAGATTTGCCTCTTGARGAAACTGGTAATCTGGCCCTTTTCTCCCCCTGTCATAGATCACTGGTGCCTTTTGAAAAATCC
TAAGTTATACATCAGTTATTAGATGACTGGGGCCCACCTGCATGCCCTAGTCCTGAAAGCTACATTAGGATATATGTTTCATTTCCACTCTTGTTTGTTT
CATTTTCAGGTGCAATTGAGAGAGCGTTACAGCCCTGCATTTGAGATAAGTTGCCTTGATTCTGACATTTGGCCCAGCCTGTACTGGTGTGCCGCAATGA
GAGTCAATCTCTATTGACAGCCTGCTTCAGATTTTGCTTTTGTTCGTTTTGCCTTCTGTCCTTGGAACAGTCATATCTCAAGTTCAAAGGCCAAAACCTG
AGAAGCGGTGGGCTAAGATAGGTCCTACTGCAAACCACCCCTCCATATTTCCGTACCATTTACAATTCAGTTTCTGTGACATCTTTTTAAACCACTGGAG
GAAAAATGAGATATTCTCTAATTTATTCTTCTATAACACTCTATATAGAGCTATGTGAGTACTAATCACATTGAATAATAGTTATAAAATTATTGTATAG
ACATCTGCTTCTTAAACAGATTGTGAGTTCTTTGAGAAACAGCGTGGATTTTACTTATCTGTGTATTCACAGAGCTTAGCACAGTGCCTGGTAATGAGCA
AGCATACTTGCCATTACTTTTCCTTCCCACTCTCTCCAACRTCACATTCACTTTAAATTTTTCTGTATATAGAAAGGAAAACTAGCCTGGGCAACATGAT
GAAACCCCATCTCCACTGCAAAAAAAAAAAAAAAAAATAAGAAAGAACAAAACAAACCCCACAAAAATTAGCTGGGTATGATGGCACGTGCCTGTAGTCC
CAGTTACTCAGGATGATTGATTGAGCCTTGGAGGTGGAGGCTACAGTGAGCTGAGATTGTGCCACTGTACTCTAGCCAGGGAGAAAGAGTGAGATCCTGG
CTCAAAAAAACCAAATAAAACAAAACAAACAAACGAAAAACAGAAAGGAAGACTGAAAGAGAATGAAAAGCTGGGGAGAGGAAATAAAAATAAAGAAGGA
AGAGTGTTTCATTTATATCTGAATGAAAATATGAATGACTCTAAGTAATTGAATTAATTAAAATGAGCCAACTTTTTTTTAACAATTTACATTTTATTTC
TATGGGAAAAAATAAATATTCCTCTTCTAACAAACCCATGCTTGATTTTCATTAATTGAATTCCAAATCATCCTAGCCATGTGTCCTTCCATTTAGGTTA
CTGGGGCAAATCAGTAAGAAAGTTCTTATATTTATGCTCCAAATAATTCTGAAGTCCTCTTACTAGCTGTGAAAGCTAGTACTATTAAGAAAGAAAACAA
AATTCCCAAAAGATAGCTTTCACTTTTTTTTTTCCTTAAAGACTTCCTAATTCTCTTCTCCAAATTCTTAGTCTTCTTCAAAATAATATGCTTTGGTTCA
ATAGTTATCCACATTCTGACAGTCTAATTTAGTTTTAATCAGAATTATACTCATCTTTTGGGTAGTCATAGATATTAAGAAAGCAAGAGTTTCTTATGTC
CAGTTATGGAATATTTCCTAAAGCAAGGCTGCAGGTGAAGTTGTGCTCAAGTGAATGTTCAGGAGACACAATTCAGTGGAAGAAATTAAGTCTTTAAAAA
AGACCTAGGAATAGGAGAACCATGGAAATTGAGGAGGTAGGCCTACAAGTAGATATTGGGAACAAAATTAGAGAGGCAACCAGAAAAAGTTATTTTAGGC
TCACCAGAGTTGTTCTTATTGCACAGTAACACACCAATATACCAAAACAGCAGGTATTGCAGTAGAGAAAGAGTTTAATAATTGAATGGCAGAAAAATGA
GGAAGGTTGAGGAAACCTCAAATCTACCTCCCTGCTGAGTCTAAGTTTAGGATTTTTAAGAGAAAGGCAGGTAAGGTGCTGAAGGTCTGGAGCTGCTGAT
TTGTTGGGGTATAGGGAATGAAATGAAACATACAGAGATGAAAACTGGAAGTTTTTTTTTGTTTGTTTTGTTTTTTTTTTGTTGTTGTTTTTTTTTTTTT
TTGTTTTTTTGCTGAGTSAATTCCTTGGAGGGGGTCTTCAGACTGACTGGTGTCAGCAGACCCATGGGATTCCAAGATCTGGAAAACTTTTTAGATAGAA
ACTTGATGTTTCTTAACGTTACATATATTATCTTATAGAAATAACTAAGGGAAGTTAGTGCCTTGTGACCACATCTATGTGACTTTTAGGCAGTAAGAAA
CTATAAGGAAAGGAGCTAACAGTCATGCTGTAAGTAGCTACAGGGAATTGGCTTAAAGGGCAAGCTGGTTAGTACTTAGCTGTGTTTTTATTCAAAGTCT
ACATTTTATGTAGTGGTTAATGTTTGCTGTTCATTAGGATGGTTTCACAGTTACCATACAAATGTAGAAGCAACAGGTCCAAAAAGTAGGGCATGATTTT
CTCCATGTAATCCAGGGAGAAAACAAGCCATGACCATTGTTGGTTGGGAGACTGAAGGTGATTGAAGGTTCACCATCATCCTCACCAACTTTTGGGCCAT
AATTCACCCAACCCTTTGGTGGAGCCTGAAAAAAATCTGGGCAGAATGTAGGACTTCTTTATTTTGTTTAAAGGGGTAACACAGAGTGCCCTTATGAAGG
AGTTGGAGATCCTGCAAGGAAGAGAAGGAGTGAAGGAGAGATCAAGAGAGAGAAACAATGAGGAACATTTCATTTGACCCAACATCCTTTAGGAGCATAA
ATGTTGACACTAAGTTATCCCTTTTGTGCTAAAATGGACAGTATTGGCAAAATGATACCACAACTTCTTATTCTCTGGCTCTATATTGCTTTGGAAACAC
TTAAACATCAAATGGAGTTAAATACATATTTGAAATTTAGGTTAGGAAATATTGGTGAGGAGGCCTCAAAAAGGGGGAAACATCTTTTGTCTGGGAGGAT
ATTTTCCATTTTGTGGATTTCCCTGATCTTTTTCTACCACCCTGAGGGGTGGTGGGAATTATCATTTTGCTACATTTTAGAGGTCATCCAGGATTTTTGA
AACTTTACATTCTTTACGGTTAAGCAAGATGTACAGCTCAGTCAAAGACACTAAATTCTTCTTAGAAAAATAGTGCTAAGGAGTATAGCAGATGACCTAT
ATGTGTGTTGGCTGGGAGAATATCATCTTAAAGTGAGAGTGATGTTGTGGAGACAGTTGAAATGTCAATGCTAGAGCCTCTGTGGTGTGAATGGGCACGT
TAGGTTGTTGCATTAGAAAGTGACTGTTTCTGACAGAAATTTGTAGCTTTGTGCAAACTCACCCACCATCTACCTCAATAAAATATAGAGAAAAGAAAAA
TAGAGCAGTTTGAGTTCTATGAGGTATGCAGGCCCAGAGAGACATAAGTATGTTCCTTTAGTCTTGCTTCCTGTGTGCCACACTGCCCCTCCACAACCAT
AGCTGGGGGCAATTGTTTAAAGTCATTTTGTTCCCGACTAGCTGCCTTGCACATTATCTTCATTTTCCTGGAATTTGATACAGAGAGCAATTTATAGCCA
ATTGATAGCTTATGCTGTTTCAATGTAAATTCGTGGTAAATAACTTAGGAACTGCCTCTTCTTTTTCTTTGAAAACCTACTTATAACTGTTGCTAATAAG
AATGTGTATTGTTCAGGACAACTTGTCTCCATACAGTTGGGTTGTAACCCTCATGCTTGGCCCAAATAAACTCTCTACTTATATCAGTTTTTCCTACACT
TCTTCCTTTTAGKTCAACAATACCAAGAGGGGTTACTGTGCTGGGTAATGTGTAAACTTGTGTCTTGTTTAGAAAGATAAATTTAAAGACTATCACATTG
CTTTTTCATAAAACAAGACAGGTCTACAATTAATTTATTTTGACGCAAATTGATAGGGGGGCCAAGTAAGCCCCATATGCTTAATGATCAGCTGATGAAT
AATCATCTCCTAGCAACATAACTCAATCTAATGCTAAGGTACCCACAAGATGGCAAGGCTGATCAAAGTCGTCATGGAATCCTGCAACCAAAAGCCATGG
GAATTTGGAAGCCCTCAAATCCCATTCCTAATCTGATGAGTCTATGGACCAATTTGTGGAGGACAGTAGATTAAATAGATCTGATTTTTGCCATCAATGT
AAGGAGGATAAAAACTTGCATACCAATTGTACACCCTTGCAAAATCTTTCTCTGATGTTGGAGAAAATGGGCCAGTGAGATCATGGATATAGAAGTACAG
TCAATGTTCAGCTGTACCCTCCCACAATCCCACTTCCTTCCTCAACACAATTCAAACAAATAGACTCAGACTGTTTCAGGCTCCAGGACAGGAAGTGCAG
TGTAGGCAAAATTGCAAAAATTGAGGGCACAGGGGTGGAGRTGGGGGGGTTGAATAACAAGCTGTGCTAAATAATTACGTGTAAATATATTTTTTCATTT
TTAAAAATTGATTTCTTTTGCACATTCCATGACAATATATGTCACATTTTTAAAATAAATGCAAAGAAGCATACATCCAAGCCACTGAGCTCATTTGTCT
TCTGTTTTGATAAAGTGGTAAAGAAGGAACTAACATGGGAATGCATTGCTACAATTTAAATAAGCATACCAAGATAAATTCATTTATGGTGCTTTGAGTA
TATGAGACCCTCTTCTACCAGACAGATGATCAGTGTTAGATTTATAGAGAAGGGATTATCAAATTCCCATGGCCAAGAAGGTCAGAGAGAGAGAAAAAAA
AAAGTGATTCATGTGCATGGTAGAATTATAGACATATCAAATGGACACTGTATTAGTCCGTTCTCATGCTGCTATAAAGAACTGCCCAAGACTGGGTAAT
TTATAAAGGAAAGAGTTTTAATTTGACTCACAGTTCCACAGAGCTGGGAGGCCTCAGGAAACTCACAATCATAGTGGAAAGGGAAGCAAACATTTTCTTC
TTCACATGGTGGCAGGAGAGAAAAATGAGTGCCTAGCAAAGAGGGAAGCCCCTTATAAAAACCATCAGATCTCATGAGAATTAACTCACTATGACAAGAA
CAGGATGGGAGAAACTGTCTCTGTGATTCAATTATTTCCACCTGGTCCCTCCTACAACAAATGGGGATTAAGGGAACTAAAATTCAAGATGAAATTTAGG
TAGGGACACAGCCAAACCATATCATTCCACCCCTGACCCTTTCCCAAATCTCATGTCCTCACATTTCAAAACACAATCAAGCCTTCCCAACAGTCCCCCC
AAATATTAACTATTTTCAGCATTAACTCAAAAGTCCACAGTCCAAAGTCTCATTGGTGACAAGGCAAGTCCCTTCTGCCTATGAGCCTGTAAAATCAAAA
GCAAGTTAGTTACTTCCTAGATACAGTGAGGGTACAGACATTGGGTAAATACATCCATTCCAAATGGGAGAAATCGGCCAAAACAAAGGAGCTGCAGGCC
CCATGCAAGTCTGAAATCCAGTTGGACAGTCAGAGCTTAAAGCTCTGAAATGATCTCCTTTGAATCTATGTATTACATCCAGGTCACGCTGATGCAATAG
GTGGGCTCTGAATGCTTTGGGAAGCTCTGTCCCTGTGGCTTTGCAGGATACAGCACCCCCCCACCCAAGCTGCTTTCACAGCTGGCATTGAGTTTCTGCA
GCTTTTCTAGGCACACAGTGCAAGCTGTTAGTGTATCTACCATTCTGGGGAATGAAGGACAGTGGCTCTCTTCTCACAGTTCCACTAGGCAGTGCCCCAG
AGGGGACTCTGTGTGGGGGCTTTGATCCCACATTTTCCTTCCACATTGCCCTAGCAGAGGTTCTCTATGAGGGCTCTGACCTTGCAGCAGACTTCTACCT
GGACATCCAGGTGTTTCCATATATCCTCTGAAATCTAGGCAGAAGTTCCCAAACCTTATTCTTGCTCTCTGTGTACCCACAGGACCAAGACCTTATGGAA
GCTGCCAAGGCTGGGGGTTTGCACCCTCTGAAGCAATTTCCTGAGCTGTACCTTGGCCCTGTTTAGCCACGGCTGGAGTGGCCGTGACACAGTCCCGAGG
CTACATACAGTAGTGGGACCCTGGACCCAGCCCAGGAAACCATTTTTTCCCTCCTAGGCCTCTAGGCCTGTGATAGAAGGGCCCGCCATAAGATCTCTGA
CATGCCCTTGAGACATTTTCCCCATTGTCTTGGTGATTAACATTCAATTTCTTGTTATGTATGCAAACTTCTGCTGCTAGCTTGAATTTCTCCCCAGAAA
ATAGGGTTTTCTTTTCTATCCCATTGCCAGCCTGTGAATTTTTGAACTTTCATGCTCTGCTTTCTCTTGAATGCTTTGCTGCTTAGAAATTTCTTCTGCC
AGATACATAAAATCATCTCTCTCAGGTTTAAAGTTCCACAAATCTCTAGGGCAGGGGCAAAATGCTGCCAGTCTCTGCTAAAGCACAGCAAGAGTCACTT
TTGCTCCAGTTCCCAACAAGTTTCTCATCTCCATCTGAGACCTCCTCAGCCTAAACTTTATTGTCCATATTACTATCAGCATTTTGTTCAAAGCCACTCA
ACAAGTCTCTAGGAAGTTCCAAACTTTCCCACAATTTTGTCTTCTTCTGAGTCCTCTAAACTGTTCCAGCCTCTGTTGGTTACGTTCCAAAGTTGCTTCC
ACATTTTTGGGTATCCTTATAGCAGTGCCCCACTCCCTCTGTACCGATTTACTGTATTAGTCTGTTCTCACACTGCTATAAAGAACTGCCTGAGACTGGG
TAATGTATAAAGGAAAGAGGTTTAATTGACTCACAGTTCCACAGGGCTGAGGAGGCCTCAGGAAGCTTACAATCATGTCAGAAAGGGAAGCAAACATGTC
CTTCTTCACGTGGCAGCAGGAGAGGGAAATGAGTGCCCAGAGAAAGGGGAAGCCCTTTATAAAACCATCACATCTTATAAGAACTAACTCACTATGATGC
GAACTGCCCCATGATTCAATTATCTCCACCTGGTCCCTCCATTCTACTGTTCACTGCTATCCTCCTCCAAACTTTACTCTGCACTAACCATACTGAACTC
CTTACTTCAAAAAGCTGCCACAGGGGTGATTATCCTTGCCATTCTCTCTGCTTATAAAGCACTTTTCCTAGATATTTCCATGGTACTCCCTCTCACTCCA
TTCAGGACACTTCTCCAATGACATCTCATTAGATAGACCTTTCCTGATTATGCTGTCTAAAGTAGGAGATTTCTTCCCACATCACTCCTATTCCTCCTCT
TTTTCTCACTTAATACTCCAAAACTCTGTTTATTTACTTGAAAAGTGGCAATAATATTGGTGTCCTCATCATAAAGTTATTAAAATAAACACACGAGATA
CATGTAAATTGTCTTGCAAATAATGTCTATAATAATATAATTTTTAAAGCCAAGTATATAATACCTCATAAGCTGCTTAAAATATTTTTATTTGATGATG
CTATTGTTTTTAATAGGGCCAGCAAATTAAAAAAACCTTTTTAGGGCAGGCAGGT


SNP Information

Context             (SEQ ID NO:39720):
TAACCTAGACGACATAAAGAGGATAATTAAAGCCAGAGAGTAAGTTGGATTCTTGGGCTATCTATTAATCATTTTATTTAGACCAATTGTATAAAGAATG
Y
TGACAAATATGTGGTAAAGATAAAAATCATGCCACTGGAATGATTAAAAAAGAGTTATAATGTTATTGACATAAAATAACAAAAGCACTACTAACTATGA
Celera SNP ID:            hCV25762143
SNP Position Genomic:     14596
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:39721):
TTGGTGGGTCCAGTTGGGTCTGGAAAGTCCAGTTTTTTCAATTCAGTCAAGTCTATTTTTCATGGCCATGTGACTGGCCAAGCCGTAGTGGGGTCTGATA
Y
CACCAGCATAACCGAGCGGGTAAGTTATTTCCCTGAGGATTTTATTTTATAGATTACAATTATTATATTGCTTATGTCTTTGCCTTTTTCTCTTAGGGCA
Celera SNP ID:            hCV3128080
SNP Position Genomic:     15431
SNP Source:               Applera
Population(Allele,Count): african american(T,4)   caucasian(C,7|T,13)   total(C,7|T,17)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,30)   caucasian(C,13|T,27)   total(C,17|T,57)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;JBIC-allele(C,408|T,1075)   total(C,408|T,1075)no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39722):
TTCTAGGACTTTCAAGAATCACATCTTATTTGTTGATGTTGGCCAGATACTGTGCTCTTGAGTGGCTTTATTTTAATATATTAGTGTAGTCTCAGAAGCC
R
TGGCAAGGTACGGCAGCACAAATTAAATTAATTAGGCATTGATTGAAATGTTTCTGTTTGCTAAATATTTATTCAGACATAGAGACCTAAATACAAATAA
Celera SNP ID:            hCV3128081
SNP Position Genomic:     16388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39723):
TCAGGACAACTTGTCTCCATACAGTTGGGTTGTAACCCTCATGCTTGGCCCAAATAAACTCTCTACTTATATCAGTTTTTCCTACACTTCTTCCTTTTAG
K
TCAACAATACCAAGAGGGGTTACTGTGCTGGGTAATGTGTAAACTTGTGTCTTGTTTAGAAAGATAAATTTAAAGACTATCACATTGCTTTTTCATAAAA
Celera SNP ID:            hCV3128082
SNP Position Genomic:     30913
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:39724):
GTCTGCTTCCAGTTCATACTTCTTCCCTGTACCTCTTTTCTTAAATTTTTTTTAAAATTTTATTTCAACAGCATTTGGAGTATAAGTGGTTTTTTTTTAC
R
TGGATGAATTATATAGTGGTGAATTCTGAGATTTTAGTGCATCCATCACTCAAGTAGTGTACATTGTATCTAATATGTAGTTTTTTTTAATCCCTAGCTC
Celera SNP ID:            hCV26464239
SNP Position Genomic:     12269
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39725):
TAATTTACATGAAAGTTCTACAGAGCCAAATGATTCCCTATGGTTTTCACTTCAAAAGAAAAATGACACCACTGAAATAGAAACTTTACTCTTAAATACA
R
CACCAAAAATTATTGATGAGCAACTGGTGTGTCGTTTATCGAAAACGGATATTTTCATTATATGTCGAGATAATAAAATTTATCTAGATAAAATGATAAC
Celera SNP ID:            hCV25602703
SNP Position Genomic:     13760
SNP Source:               Applera
Population(Allele,Count): african american(G,2)   caucasian(A,1|G,25)   total(A,1|G,27)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,1|G,39)   total(A,3|G,75)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,1|G,37)   total(A,3|G,73)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:39726):
TCCGAAGATAACTTATTAAGCCATTGCTTTTTTGGTTTCTTTCTTAAATTGTATTTAAAATTGGTCAAATTTCAAATATTAAATACAGGACTTACACTTT
Y
TAAATATACTTTCCACAGGTCATGAATGTCCATAAAATGCTAGGCATTCCTATTTCCAATATTTTGATGGTTGGAAATTATGCTTCAGATTTGGAACTGG
Celera SNP ID:            hCV25602720
SNP Position Genomic:     26951
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,38)   total(C,2|T,72)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,38)   total(C,2|T,74)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39727):
CACCTGCCAGATGTAAAGCCAGGAAAGCTGGTGGTGTAATTCAGTCTGAATCCAAATGCCTGAGAACTGGTGGAGCCAGTGGTGGAACTCCCAGTCTGAA
W
TCAAAGTCCTGGGAACTGTGGGAACTGAGAGAGCTGGAGGTGTAAGTCCCAGAATCCGAATGTTTGAGAACCAGGAGCTCAGATATCTGAGAGCAGAAGA
Celera SNP ID:            hCV942472
SNP Position Genomic:     9252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,4)      total(A,4|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39728):
TTTCTTAAATTGTATTTAAAATTGGTCAAATTTCAAATATTAAATACAGGACTTACACTTTTTAAATATACTTTCCACAGGTCATGAATGTCCATAAAAT
K
CTAGGCATTCCTATTTCCAATATTTTGATGGTTGGAAATTATGCTTCAGATTTGGAACTGGACCCCATGAAGGATATTCTCATCCTCTCTGCACTGAGGC
Celera SNP ID:            hCV25602721
SNP Position Genomic:     26990
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(G,38|T,2)   total(G,74|T,2)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,36|T,2)   total(G,74|T,2)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:39729):
CAGATTTGGAACTGGACCCCATGAAGGATATTCTCATCCTCTCTGCACTGAGGCAGATGCTGCGGGCTGCAGATGATTTTTTAGAAGATTTGCCTCTTGA
R
GAAACTGGTAATCTGGCCCTTTTCTCCCCCTGTCATAGATCACTGGTGCCTTTTGAAAAATCCTAAGTTATACATCAGTTATTAGATGACTGGGGCCCAC
Celera SNP ID:            hCV25602722
SNP Position Genomic:     27137
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,36)   total(A,3|G,71)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,38)   total(A,3|G,71)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:39730):
TTCTGTTTTCCTATTGATCTTCTGTTTGGATATTTTATAATGGATAAAGTATTGAAAGTGGGCTATCAAAATCTCCTTCTCTTATTGTGTTGCTGTTTCT
R
CCTTCAATTCTTTCAGTGTTTGCTTCATTTATTTAGGTGCTCTGATGTTGGATGAACATATATTTATAACGGTTATATTTTTCTGGAGAATTGACCCTTT
Celera SNP ID:            hCV942473
SNP Position Genomic:     10250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39731):
TTTCATTGAAATAATTCTTGTAATGACCAATAGTCTAGTATGCTGCTGTAAGACTTCTATAGCTGTTAACTCCTTTCATATTTCAATTTCTTTATGTGCT
K
TTTTTTGCAAGAATTCCTAGGCTCCATTTTCTAATTCATACGTTGGCAAATGATGAATGTGATATGACAATGATGACCTCTGTTCCAGCCATATACTTTT
Celera SNP ID:            hCV942475
SNP Position Genomic:     12905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39732):
TCGTTTATCGAAAACGGATATTTTCATTATATGTCGAGATAATAAAATTTATCTAGATAAAATGATAACAAGAAACTTGAAACTAAGGTTTTATGGCCAC
Y
GTCAGTATTTGGAATGTGAAGTTTTTCGAGTTGAAGGTTTGTAAAATTAGATAATCCTACATCTCACATTATGATTCTAATCCTTGTGTTCGGTAGGTAA
Celera SNP ID:            hCV942476
SNP Position Genomic:     13892
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   TSC_42_AA(T,6|C,77)   total(C,77|T,6)   TSC_42_A(T,0|C,84)   TSC_42_C(T,0|C,84)   TSC_42_AA(T,6|C,77)   total(C,245|T,6)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:39733):
AGCGTGGATTTTACTTATCTGTGTATTCACAGAGCTTAGCACAGTGCCTGGTAATGAGCAAGCATACTTGCCATTACTTTTCCTTCCCACTCTCTCCAAC
R
TCACATTCACTTTAAATTTTTCTGTATATAGAAAGGAAAACTAGCCTGGGCAACATGATGAAACCCCATCTCCACTGCAAAAAAAAAAAAAAAAAATAAG
Celera SNP ID:            hCV12110903
SNP Position Genomic:     27841
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:39734):
CATGTTGCCAACTCTGACTCCTAACTGAGCAGCTCAGCCCTGGGTTATGCAAGAAAACTCCATGTCTTATTTCAAAAGTAGACTTGGCCACATTTAACCA
R
ACAAGTTTTAAAAATGTATTATGCTATGTTTATTTCCTATAGGAATTAAGGATAACCTAGACGACATAAAGAGGATAATTAAAGCCAGAGAGTAAGTTGG
Celera SNP ID:            hCV942477
SNP Position Genomic:     14443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39735):
TATTTCAAATCATATTATAGAAGATCTCATTATCAAAATAATAATTAAGTATTGAAAAAATACCCTTCTCAGGGAAGAGAAAGAAGCTCTAGGTGACTTG
M
GATGTTCTTTATGGTATTCTTTATTGGCTGTTCTGATGCTGTATTTAACCACTATATTTTAACAGGCACAGAAATAGGCTTCTAGCAGACATCAGAGACT
Celera SNP ID:            hCV942478
SNP Position Genomic:     15189
SNP Source:               Applera
Population(Allele,Count): african american(A,10|C,6)   caucasian(A,17|C,11)   total(A,27|C,17)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,14|C,18)   caucasian(A,23|C,15)   total(A,37|C,33)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(A,-|C,-)   (C,-|A,-)   JBIC-allele(A,281|C,1212)   total(A,281|C,1212)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39736):
TTTTTTGTAAGCATCATGGTTAAGCACAAAACAAATACTGATAGTAGATACACAAAATATAAAAAGCATGGAGTCAAAACATACCATTATATATATATAT
R
TGTGTGTGTGTGTGTGTGTGTATGTGTATATATATATATATACACACACGTTTTACATGATAAATTACATAGAAATTTCTTTTTTAATTAAAAAGGAATA
Celera SNP ID:            hCV942479
SNP Position Genomic:     20537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39737):
AGATGTTCTTTATGGTATTCTTTATTGGCTGTTCTGATGCTGTATTTAACCACTATATTTTAACAGGCACAGAAATAGGCTTCTAGCAGACATCAGAGAC
Y
ATAGGCCCTATGCAGACTTGGTTTCAGAAATTCGTATTCTTTTGGTGGGTCCAGTTGGGTCTGGAAAGTCCAGTTTTTTCAATTCAGTCAAGTCTATTTT
Celera SNP ID:            hCV25761005
SNP Position Genomic:     15289
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,40)   total(C,1|T,73)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39738):
CTATTTTGTGTGGGATAAGGACACACACCCCTTGCGGGTTATCTTGCGGTTCTTGCAGTTACCATTTGCAAAGGTACCCTTATTATCACTTGATTTTCAT
Y
CTATGTGTGTTCTTAAGTCTAAGTGAGTTCTTGGGGACAGCATGCTGTTGTATTTTGTCATGACATGCTTTGACTCAGTATTATCCTTCTTTCTTTCCTT
Celera SNP ID:            hCV7543362
SNP Position Genomic:     10504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39739):
GATGAATTATATAGTGGTGAATTCTGAGATTTTAGTGCATCCATCACTCAAGTAGTGTACATTGTATCTAATATGTAGTTTTTTTTAATCCCTAGCTCCT
Y
TTCCATCCTCTCCTTTCTGAGTCTCTAAAGTCCATCATATCAGTCTGTATGCCTTTGTGTACTCATAGCTTAGCTCCCACTTATAAGTGAGAGCATATGG
Celera SNP ID:            hCV29129818
SNP Position Genomic:     12372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39740):
TTTGAAGCTGGAAGAATGTTCTTTTCATCCAGACAAGATTTATTTTGTTTCTGCTATGCAGCTATGGACACTAGCAATTCTCATTTACCTTAATTCAATC
M
AGGACTGAGAATACTGAAGTATGAAATTAACTCTGTCTGCTTCCAGTTCATACTTCTTCCCTGTACCTCTTTTCTTAAATTTTTTTTAAAATTTTATTTC
Celera SNP ID:            hCV7543367
SNP Position Genomic:     12134
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39741):
CTAGATAAAATGATAACAAGAAACTTGAAACTAAGGTTTTATGGCCACCGTCAGTATTTGGAATGTGAAGTTTTTCGAGTTGAAGGTTTGTAAAATTAGA
Y
AATCCTACATCTCACATTATGATTCTAATCCTTGTGTTCGGTAGGTAATAATTGATCTACAAGAGCAAGGAAAGTGAAAGGAACAGTTAGATTCATGCCA
Celera SNP ID:            hCV27513609
SNP Position Genomic:     13944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39742):
ACTGCTGAATATGATGTTAACTATGAACTTTTTATACATGTATTTACTATGTTGAGGTAATTTCCTTCTACTCCTGGTTTAAGTGTTTTTGTGTTTTTTT
K
TTTTTTTTTTTTTTAAATCATGGAAGGACTTGGGTTTTATCAAATGTCTTTTCTGTATCTATTGAGATGACCAATTTGTATTAGTCAGCGTTCTTCAGAG
Celera SNP ID:            hCV12110893
SNP Position Genomic:     8947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39743):
CTCAACACAATTCAAACAAATAGACTCAGACTGTTTCAGGCTCCAGGACAGGAAGTGCAGTGTAGGCAAAATTGCAAAAATTGAGGGCACAGGGGTGGAG
R
TGGGGGGGTTGAATAACAAGCTGTGCTAAATAATTACGTGTAAATATATTTTTTCATTTTTAAAAATTGATTTCTTTTGCACATTCCATGACAATATATG
Celera SNP ID:            hCV7543388
SNP Position Genomic:     31541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:39744):
AATATGATGTTAACTATGAACTTTTTATACATGTATTTACTATGTTGAGGTAATTTCCTTCTACTCCTGGTTTAAGTGTTTTTGTGTTTTTTTGTTTTTT
K
TTTTTTTAAATCATGGAAGGACTTGGGTTTTATCAAATGTCTTTTCTGTATCTATTGAGATGACCAATTTGTATTAGTCAGCGTTCTTCAGAGAAACTGA
Celera SNP ID:            hCV26464241
SNP Position Genomic:     8954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39745):
TCACCTCAACCATTTATCATTTCTTTGTATTTGGAACATTCCAAATTTTCTCTTCTAGCTATTTCAAAATAGACAATAAATTATTGTTAACTATAGTTAA
M
CTGTTGTGCTATGAACACAAGAACTTATTCCTTCTATGTAGCTGTATTTTTGTAACCATTAACCAACCTCTTTTCATCATCTCCTTCCTCTGACTTTCCC
Celera SNP ID:            hCV26464242
SNP Position Genomic:     6327
SNP Source:               dbSNP
Population(Allele,Count): SC_12_AA(C,1|A,12)   total(C,1|A,12)no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39746):
GTAGTTACAGTATTAGAAGCATTAATTGTGTCTTTAAGGGTTAAACAGAGGCTCTCTGATTTCTGAATGTTACCTTATGTTTTTATAACAGTTTAATTCC
Y
GTAAACCAATTACACCTGAGCATTCTACTTTTATCACCTCTCCATCTCTGAAGGACAGGATTCACTGTGTGGCTTATGTCTTAGACATCAACTCTATTGA
Celera SNP ID:            hCV12110898
SNP Position Genomic:     22576
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,34|T,2)   total(C,68|T,4)
SNP Type:                 MISSENSE MUTATION;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,24|T,2)   total(C,32|T,2)   
SNP Type:                 MISSENSE MUTATION;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:39747):
AGATAATCCTACATCTCACATTATGATTCTAATCCTTGTGTTCGGTAGGTAATAATTGATCTACAAGAGCAAGGAAAGTGAAAGGAACAGTTAGATTCAT
R
CCATACTCTTTGATAAATTCTGAAATGAAACGTGGGGAACATAAGGATTATGAGGTTTTTATCCAGAACGTATAGGCTGCTTTGAGCAAAGCAAGTTGAG
Celera SNP ID:            hCV25602710
SNP Position Genomic:     14041
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:39748):
AAATAACAAAAGCACTACTAACTATGAAACTTTAAATATCCACCTGATGACATTGACCAATTTGACTTCATTTCCACTTTAGACCAAAATTTTCCAGGTA
R
GGTCTGGATAACCATTTTAGGTAATTTCTCTGAATCCTTTCCTTGAGAAACAGCTTTTGAGAATCCTCAGTAAATGTCAAAAACAAACTTTCTTTTTAAA
Celera SNP ID:            hCV27505737
SNP Position Genomic:     14770
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,410|G,1079)   total(G,1079|A,410) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39749):
AATTTCCACTATTTTAAATATCCATAGATATAACCCACATAAACAACAGATCTTTGGGATTCTCAATAACTTTTAAGAGTCTAAAGGGGTCCTGAGACCA
R
ACTGTTTGAGGACCATGGTGTTCAAATATTAACCAATCTCTTTTCTTCTTATTGTCATGTCTTGAATGCTGGGTGATGAATGAACCTTTACACTTAATGT
Celera SNP ID:            hCV25762407
SNP Position Genomic:     20758
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,37|G,1)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:39750):
AGACATCAGAGACTATAGGCCCTATGCAGACTTGGTTTCAGAAATTCGTATTCTTTTGGTGGGTCCAGTTGGGTCTGGAAAGTCCAGTTTTTTCAATTCA
R
TCAAGTCTATTTTTCATGGCCATGTGACTGGCCAAGCCGTAGTGGGGTCTGATATCACCAGCATAACCGAGCGGGTAAGTTATTTCCCTGAGGATTTTAT
Celera SNP ID:            hCV11873694
SNP Position Genomic:     15376
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,2|G,38)   total(A,4|G,72)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39751):
TAGTTACAGTATTAGAAGCATTAATTGTGTCTTTAAGGGTTAAACAGAGGCTCTCTGATTTCTGAATGTTACCTTATGTTTTTATAACAGTTTAATTCCC
R
TAAACCAATTACACCTGAGCATTCTACTTTTATCACCTCTCCATCTCTGAAGGACAGGATTCACTGTGTGGCTTATGTCTTAGACATCAACTCTATTGAC
Celera SNP ID:            hCV25602711
SNP Position Genomic:     22577
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,36)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:39752):
GAGAAAGAGGGAGATCAGTAGTTACAGTATTAGAAGCATTAATTGTGTCTTTAAGGGTTAAACAGAGGCTCTCTGATTTCTGAATGTTACCTTATGTTTT
Y
ATAACAGTTTAATTCCCGTAAACCAATTACACCTGAGCATTCTACTTTTATCACCTCTCCATCTCTGAAGGACAGGATTCACTGTGTGGCTTATGTCTTA
Celera SNP ID:            hCV25602712
SNP Position Genomic:     22559
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,37)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:39753):
ATGGTTGAAAGATGCAGCCGTCAGGGATGTACTATAACAATGGCTTACATTGATTACAATATGATTGTAGCCTTTATGCTTGGAAATTATATTAATTTAC
R
TGAAAGTTCTACAGAGCCAAATGATTCCCTATGGTTTTCACTTCAAAAGAAAAATGACACCACTGAAATAGAAACTTTACTCTTAAATACAGCACCAAAA
Celera SNP ID:            hCV3128078
SNP Position Genomic:     13668
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,18)   caucasian(A,26|G,14)   total(A,44|G,32)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,14)   caucasian(A,23|G,11)   total(A,37|G,25)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,1)   caucasian(A,9|G,7)   total(A,10|G,8)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;SC_12_A(A,1|G,22)   SC_12_C(A,10|G,10)   SC_12_AA(A,9|G,11)   total(G,43|A,20)ASG_42_AA(A,6|G,77)   total(G,77|A,6)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:39754):
AAAACATACCATTATATATATATATATGTGTGTGTGTGTGTGTGTGTATGTGTATATATATATATATACACACACGTTTTACATGATAAATTACATAGAA
W
TTTCTTTTTTAATTAAAAAGGAATATTTACATTTTTTTCAGTTGTAATTTCCACTATTTTAAATATCCATAGATATAACCCACATAAACAACAGATCTTT
Celera SNP ID:            hCV942480
SNP Position Genomic:     20612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39755):
CTAGATGAAACTAGTCAACAGCAAAAAAAATTTTCCTTTTTGCTGGCTCTAATTTGTATTTTCCAGTTGTGAGTGTCTCCAAAAGCCAATCTGGGACATA
Y
GAAGTAAAAAGAAAACCTAGAGAGCTCATCTCTGTATTGTTTCTTGGGTCTCAAGGTCTCTAGCCAAATTGCATTATCTGCACTTTTCAATCTTTATGTT
Celera SNP ID:            hCV942481
SNP Position Genomic:     25079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39756):
TAATAAAATTTATCTAGATAAAATGATAACAAGAAACTTGAAACTAAGGTTTTATGGCCACCGTCAGTATTTGGAATGTGAAGTTTTTCGAGTTGAAGGT
W
TGTAAAATTAGATAATCCTACATCTCACATTATGATTCTAATCCTTGTGTTCGGTAGGTAATAATTGATCTACAAGAGCAAGGAAAGTGAAAGGAACAGT
Celera SNP ID:            hCV3128079
SNP Position Genomic:     13931
SNP Source:               Applera
Population(Allele,Count): african american(A,20|T,18)   caucasian(A,14|T,22)   total(A,34|T,40)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,2)   caucasian(A,12|T,18)   total(A,14|T,20)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,7)      total(A,2|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39757):
GCTAAGTTTTAAAATGACTTTTCAAGGATGTATGGCAACACATTGTCCTTGGCGTGCTGGATGGCAATGCTTAATGCAACTTAGTGTGCTGACTTAGGAC
S
TCTAAAAGGACATTGTATTAATTTTGAAACAGAAGAATTACATTGCAACAGAGGTTGAAAAAAATTATAGGTGTCAACTGAGAACTGCTCTCTACCAGAA
Celera SNP ID:            hCV942482
SNP Position Genomic:     25762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   SC_12_A(G,1|C,16)   SC_12_C(G,0|C,23)   SC_12_AA(G,1|C,19)   SC_95_C(G,1|C,178)   total(G,3|C,236) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39758):
AAAGCCGGGTAAAAAATGCTGATCATAACCAGATATTATTGTAATAGTATCACAATCATACGTGTGTGTGTTTGTGTGTGTCTGTACGTGTATATGTGCT
Y
ACAGAGTGTATTTGCAGGGAAATGAAGAATGGGATCAATTGCTTGATTAATTCAAATTTATATCACACTTTAAAACTGCAATGATCTGAATTATTGTATG
Celera SNP ID:            hCV942483
SNP Position Genomic:     26749
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,7|T,15)   total(C,14|T,16)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39759):
TCCATAGATATAACCCACATAAACAACAGATCTTTGGGATTCTCAATAACTTTTAAGAGTCTAAAGGGGTCCTGAGACCAAACTGTTTGAGGACCATGGT
R
TTCAAATATTAACCAATCTCTTTTCTTCTTATTGTCATGTCTTGAATGCTGGGTGATGAATGAACCTTTACACTTAATGTATTTTTTTAACAGTATAGGA
Celera SNP ID:            hCV25762428
SNP Position Genomic:     20778
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39760):
AAAGAAAGTTAGTGGCAGTTGGCATGCTGCCAGCTGAGTTTTTTTGCTGCTTTGAGTCTCAGTTTTCTTTCTTTCCTAGAGTCTCTGAAGCCACAGATCT
S
TTAAGAACTTTCTGTCTCCAAACCGTGGCTGCTCGATAAATCAGACAGAACAGTTAATCCTCAATTTAAGCCTGATCTAACCCCTAGAAACAGGTAAGCG
Celera SNP ID:            hCV942467
SNP Position Genomic:     6020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:39761):
TTCACTTTCTTTTTTATTTTGGCCTACTTGTTCTGGCTAGGACATTCAGTATTATGTTGAATAGAAGTGGTAAAAGTGGATAATCTTGTCTTGTACTTTA
Y
CTTAGAGGAAAAGCTGTCAGTTTTTCACTGCTGAATATGATGTTAACTATGAACTTTTTATACATGTATTTACTATGTTGAGGTAATTTCCTTCTACTCC
Celera SNP ID:            hCV942469
SNP Position Genomic:     8820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39762):
ATGAAATGAAACATACAGAGATGAAAACTGGAAGTTTTTTTTTGTTTGTTTTGTTTTTTTTTTGTTGTTGTTTTTTTTTTTTTTTGTTTTTTTGCTGAGT
S
AATTCCTTGGAGGGGGTCTTCAGACTGACTGGTGTCAGCAGACCCATGGGATTCCAAGATCTGGAAAACTTTTTAGATAGAAACTTGATGTTTCTTAACG
Celera SNP ID:            hCV942485
SNP Position Genomic:     29218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:39763):
ACTTGGGTTTTATCAAATGTCTTTTCTGTATCTATTGAGATGACCAATTTGTATTAGTCAGCGTTCTTCAGAGAAACTGAACCAACATAAAAAAAATAAA
W
TTAAAAAAAAACTAAGGAAATTTGTTATGGGAGGTGGCTCATGTGGTGTTGGAGGGCGAGAAGTCTCACTATCTGCCACCTGCCAGATGTAAAGCCAGGA
Celera SNP ID:            hCV15830177
SNP Position Genomic:     9075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39764):
ATATGGCCTACAAAGGCTAAAATATTTACTATCTTGTTCATTAAGAAAAAATTTGCTGACTCTTATTGAGATTTATTTTTCCTTTATTCAACTTTCTGAA
K
TTTGTCAATTGATTTAAAAATTTTAATGACTTTTCCTTTCTAAATTATATATTTTTATATCTAACATTATTGTGCCATTTCTATATTTTTGCTATATTTT
Celera SNP ID:            hCV25761739
SNP Position Genomic:     13210
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,40)   total(G,76|T,2)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,30|T,2)   caucasian(G,36)   total(G,66|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:39765):
TGTTTGTGTGTGTCTGTACGTGTATATGTGCTTACAGAGTGTATTTGCAGGGAAATGAAGAATGGGATCAATTGCTTGATTAATTCAAATTTATATCACA
Y
TTTAAAACTGCAATGATCTGAATTATTGTATGTTCCGAAGATAACTTATTAAGCCATTGCTTTTTTGGTTTCTTTCTTAAATTGTATTTAAAATTGGTCA
Celera SNP ID:            hCV22275495
SNP Position Genomic:     26817
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,27|T,7)   total(C,58|T,12)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,27|T,9)   total(C,58|T,14)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39766):
AAAAGATCAAAGATCATTTCTCCTCTAGAAAAGCTTCAGGCTCCATATTGAGATGTATTGGGGATATTTCATTCTTCAGCTCTCAAAATCACCCTATAGA
R
TTGCCTTCACACATATTTAATAACTTGTTGACACATTGCTATTTATGATATAAAATAACTGATTTATCTATTTGATATAGGTATAGCATATGTGGCCTTG
Celera SNP ID:            hCV25760792
SNP Position Genomic:     26475
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,40)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:39767):
ATGGAAAAAATGGAAAATCTCTGCCATTTATGTTGTGTGACACTATGGGGCTAGATGGGGCAGAAGGAGCAGGACTGTGCATGGATGACATTCCCCACAT
Y
TTAAAAGGTTGTATGCCAGACAGATATCAGGTAAGATTTCTTCAATATCCAAAACATTTCAAATCATTTTCTTCAGTATTTTTCATTGAATTTTTAACCA
Celera SNP ID:            hCV7543378
SNP Position Genomic:     20994
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:39768):
AAAATTTTAATGACTTTTCCTTTCTAAATTATATATTTTTATATCTAACATTATTGTGCCATTTCTATATTTTTGCTATATTTTTTGCCTTAACCAAACA
R
TGTGTTTTAATTGAGTCAGTGAATAAAGAACTCACTGAAAGTAGAAGTGGAAACCTAAGCTATAAGCTACTATATTATATAAGCTTCTCAACCTATAATT
Celera SNP ID:            hCV25761412
SNP Position Genomic:     13327
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,36)   total(A,67|G,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)   
SNP Type:                 INTRON


Gene Number:                 178
Celera Gene:                 hCG24081 - 145000146735184
Gene Symbol:                 TAF10
Protein Name:                TAF10 RNA polymerase II, TATA box binding protein (TBP)-associated factor, 30kDa;TAF2A;TAF2H;TAFII30
Celera Genomic Axis:         GA_x5YUV32VW1T(44259807..44273978)
Chromosome:                  Chr11
OMIM number:                 602366
OMIM Information:            INTEGRIN-LINKED KINASE;ILK


Genomic Sequence (SEQ ID NO:12338):
ATACAGGCTTTATGATCAAATACGAACTCAAATTCTGACTCTGCTACTTACTAGCTACCAGGCATCTAGTACAACTTACGTTCCTTCCCCTACCCTCAAA
TCCATTCTAATTTCCTCTTTTGTTCACATACTAAGGCTGCCAGTTCTAACTCCCAAAGAGCCTTTGGATTAATCTCCTTCTTGCCGTCTTTTGTTACGAC
CAACTCCGTTATTTATTCCCACTCCTGGACTACTGCCCAGCTCCCCAGCTGATCTGCAGTCTCCTCCCTCCACCCCACCCCTCACTGTACTCCCCCACTC
TGCTTCAAAACAGTCTCTCCAACAGTCAAAATGGATTGGTTCCTTCTCCTGGTTAAAGCCCTTCACAGCAGGGGGAGTGTGTGCTTGTGAACTGCAGAGG
CTGGGGACGGGGCAGTGTGACACTAGTGTGCATGGCAGGAAACAGTGACTCACCATCGTGTTAAGCTTAAAATCAAMAAGTATGCAAATTTGAGCTAAAC
TGAATAACTGGTGCCGAAAGATTTGAAAACATTTACCGGACATAAGCTTAAAATTAAAATGGAAAATTTATATGTATTAACCTCATTCATTTTCATGATC
ATGGCAATACATGCTGTGGTGCGACATTTGCAACTTACTGGCCTTTAGGGTAAATCCATATTATTGGCCATGGCATTTCAAGTCTCTCCAGCCTTTTCTT
CCTCTGCTTCCCAAGTACACCCTACACCTGCACACATAGCCCTCCTTTACCCTGTTCCAGGCTTTGGGAAGTCCTGATGTCTCATAGTTGAGGTCCAAAA
GGGGGAGTTTGGGAAAGCAATGAATGAGGGCAAGTGCCTCTTCTGAATCCCTGCAGGAAAATACCTGACCCTAGAGAATGTGGCTGATCTGGTGAGGCCA
TCCCCACTGACCCTCCACACGGTGCRAAAATGGCTCTTGGCAGCCGGAGCCCAGAAGTGCCATTCTGTGATCACACAGGACTTTCTGACTTGCTGGCTGA
GCATCYRGTGAGAGGAAATGATTGCTCCATGGAGGGCACCAGTCATCCCATCAGTGAGATGGATGGGAGGGAGTTGAGAGCTTGCTGGGGCTTGTGGGTG
GGAGCTAATGCATGGGGAGACAGTGACTGACTGCCCAGGGATGCTCAGAGGTAGCTTCTTCTGTTCCGTTTTGAGCTTTCTGACCTCTGTTCTCTGACCT
CCAGACAAGCAGAGCTGCTGCTCCCTGGGGCTGAGTTTCATCACTATGTGGGAGGACCTACGGARACCCATGTTGTAAGGYCCCCACATCCCTACCAGCT
TCCACAGGCCTTGGCCCCCCATGTGGACTTTGGTAACACCTATGGGGTGAATGGGGGWTGGGRCACACAGATCCAGGGGCTGAGGAAGTTTAGATGCCAT
TGGGGACTGGGGGTGGGGTGAGTTGTAAGGTGGGCATTACAGTCTATAAGATCTCCTCAAGCCTGACTTCTCCCTACAGTGGGGGGACTGCACCGTTTTC
CCCCAACATCATCCCTGAGGCAAYGTCCTGAGCCGCAGGTGACAGGGACTGTAGGCCTGCATCTGGGGGTAACCCYCTCTGTGATCYGTAAGYGATACAA
CTTGACCTCACAAGACGTGGGCTCTGGCACCAGCAATAACAGCCAAGCCTGTGCCCAGGTGAGCCAAGCAAAGAGCCCCAGGGTCCTCAYAGCCTCCCCA
CAGTGTCCTCAATTCCTTACCACCCTGGGACTCACCCTCGGACCCACGATCTCTGCTCTGACTCCCTCCATAGTTCCTGGAGCAGTATTTCCATGACTCA
GACCTGGCTCAGTTCATGCGCCTCTTCGGTGGCAACTTTGCACATCAGGCATCAGTAGCCCGTGTGGTTGGACAACAGGGCCGGGGCCGGGCCGGGATTG
AGGCCAGTCTAGATRTGCMGTACCTGATGAGTGCTGGTGCCAACATCTCCACCTGGGTCTACAGTAGCCCTGGTACTACCAAGAGGACTGGACAGTGGGG
AAGGGGGTGGGAGATGGGTGTTGATCCCTGCTCCCTCAAGGGAATGCTATAAGCTGGAGAGAGATCCTGACAACCCCCAGTGACTATCTTTGTGCCCATC
CCTCAAAAAAAAAAAAAAAAAAATCCAGGCCGGCATGAGGGACAGGAGCCCTTCCTGCAGTGGCTCATGCTGCTCAGTAATGAGTCAGCCCTGCCACATG
TGCATACTGTGAGCTATGGAGATGATGAGGACTCCCTCAGCAGCGCCTACATCCAGCGGGTCAACACTGAGCTCATGAAGGCTGCCGCTCGGGGTCTCAC
CCTGCTCTTCGCCTCAGGTGACCTCCTACCCTAAACTTAGACAACGCTTACACCTCTGCAGCCTGGGAGCTTTGACTCCACAGTGATCCCTGAGCCTGGT
CTCTGACTCATAATCTGAACTCAGACCTTCCAGTAGGGACCACTGACCTGACCTCTACACTCTGACCTCCTACAGTAACAAATTTCCCCTCTGACATCCG
AACCCACATACTAAGCCCTAACCAATTAATATGAATGCTACACTTGGTCTCTCTCAGGTGACAGTGGGGCCGGGTGTTGGTCTGTCTCTGGAAGACACCA
GTTCCGCCCTACCTTCCCTGCCTCCAGGTAAGTACTCTAGCCTACCACTCAGGTATAACCACCACCTTTCACTTGTGATCTCATGATGTAGAACCTTTGT
CTTGACCCCACCATGTGCTCCTGTGGTTCAGCCTTAAGCTTTGCCTGCCCTGGTTGCTGTACTCCTGTCTCTTCTTCCTGCAGGTCCCAGGCCCCAAATC
TCTTGTGTGGGATACAGCTCCCATTGTTCCTTTTCGTCAGTTCCCAGGCATTTTAGTGGAAGATTTGGTGGGTGTTCTGTAGAGAAAAGTGTGCACAGTC
ACCTCGGGCCATGCCTTGAAGGCTCAAAATCTCTTAGTCAATCCCATATACATGCTTCCCCACAGAGTCTAGTTCCTCCAGCAAGACCTGGGCTATACTC
ACCCCTCCCCACATATCTTGGAGGTCCCCTTGGGTCCCCTACTATCCAAATGCTGTCTTCTCCCCTCAGCCCCTATGTCACCACAGTGGGAGGCACATCC
TTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGGCCTTCATACCAGGTACGTGTGT
TTGTGTGGATGGATGCAGGGTAAGAGTGAGGATGGGGGATCCTCAGTTCAGCTGACTGCTGGGCAGGCCACATGCCAATACTCACTCAAAAATGCCTTTC
AGGAGGAAGCTGTAACGAAGTTCCTGAGCTCTAGCCCCCACCTGCCACCATCCAGTTACTTCAATGCCAGTGGCCGTGCCTACCCAGATGTGGCTGCACT
TTCTGATGGCTACTGGGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCCGGAACCTCGGTGAGAATCAGCCCATCTCCAAACTCTCACTCAGGAACT
ACCCTTACCCCCTAACACCTTGAACACCTTGCACCTAGAACCCCTGACTCCTTAGAGATGTCTGATACTTTAAAGCATCACTCCCAAAAAGTCCAATCAC
TCAGAACCCCTGACCTCTACTTGCACCTTCACTCTTGTAGGCCTCTACTCCAGTGTTTGGGGGGATCCTATCCTTGATCAATGAGCACAGGATCCTTAGT
GGCCGCCCCCCTCTTGGCTTTCTCAACCCAAGGCTCTACCAGCAGCATGGGGCAGGACTCTTTGATGTAAGTATGGAAGGGAAGGGTGTGGACGTTTTCA
AACAACTATGGGGAGTGCTAAGGGGGACTTGGGGGCAGTTAGGGTGGTGTGGAATAGCCTTTGAAATGTGAGTACAGGGTGAGGAGATATACTCTTTAAG
TACTGGTACTAGTAGGCCCAGATCTGATGCCAGCCTCCTCCCTAGGTAACCCGTGGCTGCCATGAGTCCTGTCTGGATGAAGAGGTAGAGGGCCAGGGTT
TCTGCTCTGGTCCTGGCTGGGATCCTGTAACAGGCTGGGGAACACCCAACTTCCCAGCTTTGCTGAAGACTCTACTCAACCCCTGACCCTTTCCTATCAG
GAGAGATGGCTTGTCCCCTGCCCTGAAGCTGGCAGTTCAGTCCCTTATTCTGCCCTGTTGGAAGCCCTGCTGAACCCTCAACTATTGACTGCTGCAGACA
GCTTATCTCCCTAACCCTGAAATGCTGTGAGCTTGACTTGACTCCCAACCCTACCATGCTCCATCATACTCAGGTCTCCCTACTCCTGCCTTAGATTCCT
CAATAAGATGCTGTAACTAGCATTTTTTGAATGCCTCTCCCTCCGCATCTCATCTTTCTCTTTTCAATCAGGCTTTTCCAAAGGGTTGTATACAGACTCT
GTGCACTATTTCACTTGATATTCATTCCCCAATTCACTGCAAGGAGACCTCTACTGTCACCGTTTACTCTTTCCTACCCTGACATCCAGAAACAATGGCC
TCCAGTGCATACTTCTCAATCTTTGCTTTATGGCCTTTCCATCATAGTTGCCCACTCCCTCTCCTTACTTAGCTTCCAGGTCTTAACTTCTCTGACTACT
CTTGTCTTCCTCTCTCATCAATTTCTGCTTCTTCATGGAATGCTGACCTTCATTGCTCCATTTGTAGATTTTTGCTCTTCTCAGTTTACTCATTGTCCCC
TGGAACAAATCACTGACATCTACAACCATTACCATCTCACTAAATAAGACTTTCTATCCAATAATGATTGATACCTCAAATGTAAGATGCGTGATACTCA
ACATTTCATCGTCCACCTTCCCAACCCCAAACAATTCCATCTCGTTTCTTCTTGGTAAATGATGCTATGCTTTTTCCAACCAAGCCAGAAACCTGTGTCA
TCTTTTCACCCCACCTTCAATCAACAAGTCCTCAATCAACAAGTCCTACTGACTGCACATCTTAAATATATCTTTATCAGTCCACAAGTCCTTCCAATTA
TATTTCCCAAGTATATCTAGAACTTATCCACTTATATCCCCACTGCTACTACCTTAGTTTAGGGCTATATTCTCTTGAAAAAAAGTGTCCTTACTTCCTG
CCAATCCCCAAGTCATCTTCCAGAGTAAAATGCAAATCCCATCAGGCCACTTGGATGAAAACCCTTCAAGGATTACTGGATAGAATTCAGGCTTTCCCCT
CCAGCCCCCAATCATAGCTCACAAACCTTCCTTGCTATTTGTTCTTAAGTAAAAAATCATTTTTCCTCCTCCCTCCCCAAACCCCAAGGAACTCTCACTC
TTGCTCAAGCTGTTCCGTCCCCTTACCACCCCTGATACAACTGCCAGGTTAATTTCCAGAATTCTTGCAAGACTCAGTTCAGAAGTCACCTTCTTTCGTG
AATGTTTTGATTCCCTGAGGCTACTTTATTTTGGTATGGCTGAAAAATCCTAGATTTTCTAAACAAAACCTGTTTGAATCTTGGTTCTGATATGGACTAG
GAGAGAGACTGGGTCAAGTAAGCTTATCTCCCTGAGGCTGTTTCCTCGTCTGTTAAGTGTGAATATCAATACCTGCCTTTCATAATCACCAGGGAATAAA
GTGGAATAATGTTGATAACAGTGCTTGGCACCTGGAAGTAGGTGGCAGATGTTAACGCCCTTCCTCCCTTGCACTGCGCCCCCTGTGCCTACCTCTAGCA
TTGTAACGACCACATAGTATTGAAATGGCCAGTTTACTTGTCTGCCTTCCTTTCCAAGACCGTTGGTGCCTAGAGGACTAGAATCGTGTCCTATTTAACT
TTGTGTTCCCAGGTCCTAGCTCAGGAGTTGGCAAATAAGAATTAAATGTCTGCTACACCGAAAACCTCACGCCTCTCATTCGTTGTGATTTTTGCATATG
TTGTTGACTCAGGCTGAAACTCCTCCTCCTCCTACAGCAGCACTGTGTGCCGCCCCACTGCTGCCCCCACCTCTCGGGGCAGCTGGCGGAGAAGAGAGGG
GGCTTTCCAAATCCACTATGAATCCTTAAAAGGCTGAATAAGGGAACTTGAAACGATGCAGACAGGCAGGCAACCCGTAGTCGAGGGACATAGGGCCATA
AAYGTCGAAGCCAGGTCTTGAGCGTCAGACAGAATGAGGTGTCCCAGAGCGGCGGAGGAGAGCCAGACGCACGCTGGTTCCGGTCTGGACGGAATCGCCG
CGGAGCACGGCAGAGGCTAGGGCGGAATGGCTACGGCAGCGCAGTTCGCCAAGGMTCGGTCTCCGCCCTGCAGCCTATTTCCTCTAACCCGCAGATCCAC
TATGGGAGGAGGCGGGGAGCGGGCTGGAGAGCACTAACAGAGACAGGCGGGGCGAGTCGTGGGCGCGTGACGTCACCCCGGGGTGTGCGCGGCGCGAGCG
GAAGCGGAAGCGGCTCTGTTCGCCGCCTCTCCCACCGGCCCGATGAGCTGCAGCGGCTCCGGCGCGGACCCCGAGGCGGCGCCGGCCTCCGCCGCCTCGG
CCCCGGGCCCCGCGCCCCCGGTCTCGGCTCCCGCCGCGCTGCCCTCCAGCACCGCCGCGGAGAACAAGGCCAGCCCCGCGGGGACAGCGGGGGGACCTGG
GGCTGGAGCAGCTGCTGGGGGCACGGGACCCTTGGCGGCGCGGGCCGGGGAGCCAGCTGAGCGGCGTGGGGCGGGTGAGGGCCGGGACGGGTGAGGGCGA
GGGAAGCGTCTTGGGCTGGGTCCAGCGGCGGGTGAGGGCAGAGGGTATAGACAGACCTAGCTGGGGCCCTGCGCCTCCCACCTCTGTGTCTCATTTTGCT
GGTTCTCCTCCAGCTCCGGTGTCGGCGGGTGGCGCGGCGCCCCCGGAGGGGGCCATATCTAACGGGGTTTACGTACTGCCGAGCGCGGCCAACGGAGACG
TGAAGCCCGTGGTGTCCAGCACGCCTTTKGTGGACTTCTTGATGCAGCTGGAAGATTACACGCCTACGGTGGGCTTCCGCCCGAACAAGGCCACCTAGCC
TGCTGWCAAAACTTTCAGCCACATCGTGCTTTTCAGCGTTCTCTTCCATTTGCTCCCCTAGTCGCTCTTCTGTGTTTGCCCTCTGCTCACCCAAACTGTG
AGCTTCCTGATAATCAGGCCTATCCATTTCCCTCACCCTCCTCCCGCTCTGCTGACAGTTCTCTTAATTGATTTCTCAGATCCCAGATGCAGTGACTGGT
TACTACCTGAACCGTGCTGGCTTTGAGGCCTCAGACCCACGCATGTGAGTAAACCCAGGGCAGGTTAGTTTTGGGTGCTTGTGCAGTATGTTGTCCATCT
CCTTCTCATCTAAGTTTTTTCTCTCTAGAATTCGGCTCATCTCCTTAGCTGCCCAGAAATTCATCTCAGATATTGCCAATGATGCCCTACAGCACTGCAA
AATGAAGGGCACRGCCTCCGGCAGCTCCCGGAGCAAGAGCAAGGTGTGAGGGGAGGCTTAATGAATCAGTAATTACCTTCCACAACAGTGGAGGCTTATC
CTGCCACCCCTTTSGGGAAACTGAATCGTAGGGGAGGTGTAAGACTTACTCAGGGTCACCCATCTGGGATTGAAGTCCGGGATTCCTGTGCTCAGTTGGT
GCTCTTCCCTCTTCCCTCAGGACCGCAAGTACACTCTAACCATGGAGGACTTGACCCCTGCCCTCAGCGAGTATGGCATCAATGTGAAGAAGCCGCACTA
CTTCACCTGAGCCACCCAACCTAAATGTACTTATCTGTCCCCATGTCCCCACACCAGCCTGTTTTCATAATAAACTTTATTGTGACAGGCGGGGCTGATC
CCTCCCATGTTGGRAGACACCATGTGGCAAGTGACAAAGCTCTGAGCCCGCCCCTCTTGGGGCCACAGTGGTAGGGATGGGGGAAGGGGATGGACCCCAT
GGCTGGGGTAGTACCATGACTGGAGGCGGGGGAGGCAACCAGAGGCCTGCTGCTTTGGGGAGGTGCATTCCCCCAACCATGTCCCGACACCTCTGGAGTT
CARGCAAGGACCTTCCAGTCCTACTTGTCCTGCATCTTCTCAAGGATAGGCACAATCATGTCAAATTTGGGTCGCTTTGCAGGGTCTTCATTCATGCAGA
TCTTCATGAGCTTACACACATGAGGGGAAATACCTGGTGGGATGGTAGGCCGAAGGCCTTCCAATGCCACCTGCGAATACAAGAAAAAAAGCAGCCTCAC
AATTTGAGTCTGTCATGTAGAGAGAAGCCACTGGCCCTTGGGACAGGATTACTGTATATCCGAACAAATATGTGAGGAGCCAAGGCCCACTACAGTTATT
TTCACCATCACCAACCACTCCCGCAACACAAATGTATGCTGTTGTGCTCTCACCTTCATTCCAATCTCCATATTGGAGAGGTCAGCAAAGGGTACCTCCC
GTGTCACCAGTTCCCACAGAAGCACTGCAAAACTCCACATGTCTGCTGAGCGTCTGTTTGTGTCTTCAGGCTTCTTCTGCAGAGCTGGAGAGATAGGGCT
TGTCTGTTCTGGCCCCCTTGCCTGTCCTGTCTCTGCCCCCTTCCACTACTTCTGAGGTGGTCCTTTTTTACCTCCCGACATGATGACTTCACTCACCTTC
GGGGGCTACCCAGGCAGGTGCATACATGCGACCAGGACATTGGAAAGAGAACTTGACATCAGCCATGCTAATTCGGGCAGTCATGTCCTCATCAATCTGA
GGAAGAGAAAACAGATAGAAGGAGGTAAGTCATAGATAGGCAAAGGGCTTTTGGGGCCTGGGCCAGGAGTGAGCTTGTGGCCTCACCATTACACTACGGC
TATTGAGTGCATGTCGTGGGATGAGGGGCTCTAGTGTGTGTAGGAAGGCCATGCCCCTTGCCATGTCCAAAGCAAACTTCACAGCCTGGCTCTGGTCCAC
GACGAAATCTGAGAGGAGGCAAAAGTCAAATAGTTCAGAGAGGCTCCCTCTCTGCCATTTCCTCCCCAAGGAAATTCAACATCCCTACTCACTGGTGCCT
TCATGTAGTACATTGTAGAGGGATCCATACGGCATCCAGTGTGTGATGAGAGTAGGATGAGGAGCAGGTGGAGACTGGCAGGCACCTAGCACTGGGAGCA
CATTTGGATGCGAGAAAATCCTAGAAGAGGGAGGGAGTGGTTGAGACCCAGTACAAAAGATCTCTTTCAGTGCTATTCAGGGTTCCTTGGAACTAGCAGC
TTCCAGGTTACGCCTTGCACTACCTGAGCCGGGGACACTCTTCATTGAAGTCCCTGCTCTTCCTTGTACTCCAGTCTCGAACCTTCAGCACCTTCACGAC
AATGTCATTGCCCTGCCAGCGGCCCTTCCATAGCTGCAGGACAGGTAGGGGTTAGGAGGCTTGAAATGTTGCTGCCACTTCCTTGCCCACTAACTGGAGG
AAAAACTTAAAACAGGTACAAAGCAAGTAATTTATGGGGGTTTAGTGAGGGAAGGGCAAGAAGGGCAGGGGTCACCTCTCCAGAGTGATTCTCGTTGAGC
TTCGTCAGGAAGTTAAGCTGTTTGAAGTCAATGCCAGAGTGTTTGTTCAGGGTTCCATTTCCTAAGAGTGTGGGCAGGTCAGGTACCCAGCTTCACCCTA
ACCCAGCCCCAAGAGGCCAGGATTATTTCCTTTTACAACCCTTCTTCCCACAGTGGTGACTCACGGGGCCGAGTGCGGGTGGTCCCCTTCCAGAATGTGT
CCTTGTATGGAATACGGTTGAGATTCTGGCCCATCTTCTCTGCCCGCTCTAGGGAAGAAAAACAACCTAAGCTGTGGTACAGAGGGAGAAGACAGGTGGG
AAGGGACGAGAGGACACAAGCTAGGGGATGGGGAGATGGACCTCGGAGAAGCTCTCTCAGGGGTGCCTTGGCTTTGTCCACAGGCATCTCTCCATACTTG
TTACAGATGCTGACAAGGGCCCCATTTGCCACCAGGTCCTGGAATGAAAAGGCCATTATGATGAGAGCCACTGCTACCTCGCTGGCAGTCACTGAACCAA
CCATGAATGCACAAATGTAGAACTTAATCCTGTAAGTGTCACACAGTAGTACTGACAGAATGGGTTGAGGGTTCCAAAATCTCCCACCAAGGCTCAGACT
TTACTTCCTACCCATCTCAGGAATTAAGGGCTGAGTACTCACCTCTGCCACTTGATCTTGGCCCCAAAAACAGGCATAGTGCAGGGGCACATTCCCGTGT
TCATTCACTGCATTGATGTCTGCCTTGTACTGCAATAGCTGGACCCCATGGCCAGACAAAAAGAAGAGGCAGAAAGTACAGTCAGTTCCAAATGAGATAC
TGGTGTCAGGGCATGGGAAAAGGGGGAAGAGCACACATGCTTTCTACTGTATGTTACAGTGCCTGTGACTGACCCTCATGGCATGTATGTGATGTGGATG
ACGAAGGAGTTTGTACGTACCTTCTGTACAATATCACGGTGTCCATGACTGGCTGCCAGATGCAGGGGGGTGTCATCCCCACGGTTCATTACATTGATCC
GTGCCCCCCGCATGATCAACATCTCAACCACAGCAGAGCGGCCCTCTCGGCAGGCCCAGTGCAAGGGGGAGAAGCCATGATCGTCCCTTTGAGGAAGGGG
CAATGGTCATTGAGCTGGAGGTGGGATGGGGCAAAGGTTTTGATTCCTGAAAAACTGATAATTACATACTCTCTGGGAAGGCTTACCTCTCTAGGACTTT
GATTCTCATTCATGCCAGCAACTCCCAAAGCTGTCCATTTCAGACCTTCCCCTGAGCTTCAAACCAAACCAACCACCTAGATATCTCAACAACCTCTATA
AAAAAATGTGTTATCTTCACCATATCCCACATCTCATTTCCTTAGGTGGTAGTGCTCTTCCCCTGGTTTCTCTTGCACCCCTTCTGCAACATCTATTGGT
CCTTTCTGTTTTCCACCACATCTTATATGTCCCCCTACTTCAGCACTTGTTGCACTGGATTGTAAAAATCTGTTAATGGACTGTCTTGTCTGTTAGACCT
TTAAGTTTCTTGAGGGAATGGATTGACAGCAGCTGTTCAGTGCATGTTAGTGGGGGAGAAGGGTGTCTTGGAGAAGGCAGGCCACAACTTATAGAAGAGG
GAACAAACTTACTATTTGGCTCTGGTACTGAAACTAACATCTAAAAATGGAATGGAATTTAAATGATGTTTTGGAAGGGTTTATGTTGAAAAGGAGAAAT
GCTTTTGACTACTGATGAGGTAGATAACAAACCACCATGCAAAGCAGGATTCCCCTACTTAGCAATCCTGTGCATAGAAAACAGAAGAAAATGAGAATGG
CTGTTTTGGGATTAAAACTATACCTGATTTTTTTCTTTTCCAAGAAATATGTATTTTATAAAGTAAAGTATACAAACAAAACAAAACAATTGGTTTGGAG
CTGGGCCTGCCTGACAGCCTGGGGCCATAAAAGGAAATTCCCTCCAGTTCGGGGCTGCAGATTCAAGGGGCGGAGCAGGGGGCGGTCCGTGGTCTGGGCC
AGCAGCCTCCGGATGCCTTAGTGTTGTGGTCACTTCCTGTGTGCGACTCTAGGCAAGGCCTGGAGCTGATCAGGGGTCTGGCCATCCAGATGCCCGTACA
GCTGAAGGGGTTGGGGGGTGTGGCCTTTAAGTTAATCATTTTCCTCCACAACTTGCTCGCATCTGCTAACACAGAAATAGCCAAAAGCTTTTCCTTGAGA
TGGGATTATCCCCAGGAAGCATTACGCCCCCTGTTTATCAGTTGGTCTTGCCTCCTAGACCTTTAATTTGTGCCCTGACTTATCAGCTTCCAGTACTGCC
TGTGGCGCCAGGGCAGGCCAAACTCGGGGGGCAAAAGTATGGGCACAAGGGTTCTGTTCACTATCAGGCTGCGTGCCACCTCAGGGCCTGGACTTCTATC
TCAAGAAGACCTGCAAGGAATTAACCCCCTCTTCATATCCAGCATATAGCCAACTTTGGCCCCCATACTTTACTCCTCAAACCAGCACCACAACCTTCCA
GTTTCATTAATTCCACCCCTTTTCCTTCTGGCAGCATCTTCCTAGAGTCTTCCTAGACTCAGCTAGAGTCTTCCTAGATGCTAGGCCCACTGGGCAACTG
CCTAAGCCTCTATTTCCTCACCAACAAAACAGTAACAGTGCTTACTGTCTTTATCAGGGTACCCTTTGAGAATTATATGAAAAATGGAACAAATGACTTT
GCAAAGTATTAAAGAGAAATAGTGTAGAACCTAATGGGAACCAGTGAAGTCTAGACTAAGATGACAGGTGATCCTGACCTGTCAAACCTAAAAACTAAAC
TCCACCAATTTTAAAAAATAAAGAATTTGAATTTGCCACTCTGAGTCACCATCACTACTGCTCTTCTTGCCTTCCTATCTCAGCCAACCTTGTAGAACTG
GTGTACATTCACTTTCACTATTTGCTCACCTCTCAACTTTTGTTTTCTTTTTCTTTTTTAAGACAGAGTCTTGCTCTGTGGCCCAGGCTGGAGGGCAGTG
GCATGATCTTGGCTCACTGCAGCCTCTGCTTCCCGGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCGAGTAGCTGGGATTACAGGCGCACGCCACCACGCC
TGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCACCAGCCTCGGCCTCCCAA
AGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTACTTTTCAATCTGCCACAAATCTGCTGTATCGAGAGCAGAGATTATGTCAGATTCTGGACT
CTAGCACCCAGCACAGAAGGTGTTCATCATAGTGCCTTAAATTAAGGAACCCAATGTAGTCTGATTTCTTCACCCATTATTCTGAAACAACACTCACAGA
TGGTCAAATACATCCTAACTGCACACTGAGGGGAGCAACAGACACTGGGGCCTACCAGAGTGGGGCGGGTAGGAAGAGGGAGGGATCAGGAAAAATAACT
AATGGGTGCCACGGCTTAATACCTGGGTGATGAAATGATCTGCACAACAAACCTCCATGACCTGAGTTTACCCATCCAACAAACCTGCACATGTACCCCT
TAACTTAAAAAAAAAAAACCCAACTGTAAATTCAATGGCTACTTTAAAATATTAATGTTCTTTGATCTCTCAGTAGCCTGTACTGCCGTTGACTACCTCC
CCTTCATTAAAACATTCTCTTCTGTAAGCTTTACTCACACATTTTCCTATTTCTTTTTCAACTTGCGGTTGCTCCTTTTCTGTCGTGCAGGCTTCCTGTC
CCCTGACCTCTTGCCTTCCACTCTCCTGAGACGTTCTCCTTCACAACCACGTCTTCAAGTATCATCTATATATATGATATATATATGCTATCTATATGCT
GATAGCTCTCAAATCTGTGTCTCCAAGTCAGATTCCTCCCCTGAATTGCAAATCTGCATAACCAACAACACACTCAACATTTCCACCTTGCTGTATTGTC
ACCTTAACTTTAACATGTCCAAAATAAAATGCCTCATCCTCCAGTTTTCTCCATCTCAGTAAAAACAACCAAGTTCCCAAGCCAGAACCCTGGTCCTCAT
CTTTGCCCTTACTCACTCCCCACACCAAGTTCCACAATTCTTCGTCCTAAAGACTTCTGGAATTTGATCACTTCTCTTTTTCACTCACCCTAATTCTAGT
CCAAGACATCATTACTTCTACGATGAACTAGGCAATTGCCTCCTTTCCACCTGCTCTTCACAAAGCATCCAAGACGATACTGAAAAATGGACAATCTCAT
TATGTCACTATACAGCTTTAAAACCTTGCTTTTAAAATAAAGACCTTCTTATAGCCTAAATATGCTTGCATGATCTGGCTGATCCTTGGAGACCTCTACA
GTCTTATGTCCTGTTCTTTTCCTCTTGTACCCAATGCTCCGACCCACAGAGATCATCTATCCTCCAGCCATATGGAACTCCAGACAATTTCCTGTTCTCT
CTGCTCTGTGCCTTGCCCCCTAGCCTTTGGCCATGCAGTCTACTGAGGCTGGAAAGCTCTCTGTAGCCTCTGCCTGTGAAACTCTTATTCTGCAGTCAAG
ATTCAGCTCAAACTGCGTCCTCTGTGAAAACCCTCTGCCCCCCACAGGCTATGCTTAGCACTCATTACACT


SNP Information

Context             (SEQ ID NO:39769):
ACCCAACCTAAATGTACTTATCTGTCCCCATGTCCCCACACCAGCCTGTTTTCATAATAAACTTTATTGTGACAGGCGGGGCTGATCCCTCCCATGTTGG
R
AGACACCATGTGGCAAGTGACAAAGCTCTGAGCCCGCCCCTCTTGGGGCCACAGTGGTAGGGATGGGGGAAGGGGATGGACCCCATGGCTGGGGTAGTAC
Celera SNP ID:            hCV15929905
SNP Position Genomic:     7814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:39770):
ACAGTGGGGGGACTGCACCGTTTTCCCCCAACATCATCCCTGAGGCAACGTCCTGAGCCGCAGGTGACAGGGACTGTAGGCCTGCATCTGGGGGTAACCC
Y
CTCTGTGATCCGTAAGCGATACAACTTGACCTCACAAGACGTGGGCTCTGGCACCAGCAATAACAGCCAAGCCTGTGCCCAGGTGAGCCAAGCAAAGAGC
Celera SNP ID:            hCV27540481
SNP Position Genomic:     1576
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39771):
AAGCGATACAACTTGACCTCACAAGACGTGGGCTCTGGCACCAGCAATAACAGCCAAGCCTGTGCCCAGGTGAGCCAAGCAAAGAGCCCCAGGGTCCTCA
Y
AGCCTCCCCACAGTGTCCTCAATTCCTTACCACCCTGGGACTCACCCTCGGACCCACGATCTCTGCTCTGACTCCCTCCATAGTTCCTGGAGCAGTATTT
Celera SNP ID:            hCV9599927
SNP Position Genomic:     1690
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,21)   caucasian(C,1|T,21)   total(C,2|T,42)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(C,5|T,33)   total(C,6|T,64)   
SNP Type:                 INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(C,55|T,196)      total(C,55|T,196) ;(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39772):
GTGTGTGCTTGTGAACTGCAGAGGCTGGGGACGGGGCAGTGTGACACTAGTGTGCATGGCAGGAAACAGTGACTCACCATCGTGTTAAGCTTAAAATCAA
M
AAGTATGCAAATTTGAGCTAAACTGAATAACTGGTGCCGAAAGATTTGAAAACATTTACCGGACATAAGCTTAAAATTAAAATGGAAAATTTATATGTAT
Celera SNP ID:            hCV16038066
SNP Position Genomic:     477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39773):
GAGGAGAGCCAGACGCACGCTGGTTCCGGTCTGGACGGAATCGCCGCGGAGCACGGCAGAGGCTAGGGCGGAATGGCTACGGCAGCGCAGTTCGCCAAGG
M
TCGGTCTCCGCCCTGCAGCCTATTTCCTCTAACCCGCAGATCCACTATGGGAGGAGGCGGGGAGCGGGCTGGAGAGCACTAACAGAGACAGGCGGGGCGA
Celera SNP ID:            hCV16038075
SNP Position Genomic:     6255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:39774):
TGTAAGGTGGGCATTACAGTCTATAAGATCTCCTCAAGCCTGACTTCTCCCTACAGTGGGGGGACTGCACCGTTTTCCCCCAACATCATCCCTGAGGCAA
Y
GTCCTGAGCCGCAGGTGACAGGGACTGTAGGCCTGCATCTGGGGGTAACCCCCTCTGTGATCCGTAAGCGATACAACTTGACCTCACAAGACGTGGGCTC
Celera SNP ID:            hCV25597542
SNP Position Genomic:     1524
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,38)   total(C,69|T,3)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,38)   total(C,65|T,3)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39775):
TGACCTCTGTTCTCTGACCTCCAGACAAGCAGAGCTGCTGCTCCCTGGGGCTGAGTTTCATCACTATGTGGGAGGACCTACGGAAACCCATGTTGTAAGG
Y
CCCCACATCCCTACCAGCTTCCACAGGCCTTGGCCCCCCATGTGGACTTTGGTAACACCTATGGGGTGAATGGGGGTTGGGGCACACAGATCCAGGGGCT
Celera SNP ID:            hCV27541618
SNP Position Genomic:     1281
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39776):
TCCGTTTTGAGCTTTCTGACCTCTGTTCTCTGACCTCCAGACAAGCAGAGCTGCTGCTCCCTGGGGCTGAGTTTCATCACTATGTGGGAGGACCTACGGA
R
ACCCATGTTGTAAGGTCCCCACATCCCTACCAGCTTCCACAGGCCTTGGCCCCCCATGTGGACTTTGGTAACACCTATGGGGTGAATGGGGGTTGGGGCA
Celera SNP ID:            hCV16038067
SNP Position Genomic:     1265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:39777):
CTTTCCAAATCCACTATGAATCCTTAAAAGGCTGAATAAGGGAACTTGAAACGATGCAGACAGGCAGGCAACCCGTAGTCGAGGGACATAGGGCCATAAA
Y
GTCGAAGCCAGGTCTTGAGCGTCAGACAGAATGAGGTGTCCCAGAGCGGCGGAGGAGAGCCAGACGCACGCTGGTTCCGGTCTGGACGGAATCGCCGCGG
Celera SNP ID:            hCV16058400
SNP Position Genomic:     6103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:39778):
CTGACCCTCCACACGGTGCAAAAATGGCTCTTGGCAGCCGGAGCCCAGAAGTGCCATTCTGTGATCACACAGGACTTTCTGACTTGCTGGCTGAGCATCC
R
GTGAGAGGAAATGATTGCTCCATGGAGGGCACCAGTCATCCCATCAGTGAGATGGATGGGAGGGAGTTGAGAGCTTGCTGGGGCTTGTGGGTGGGAGCTA
Celera SNP ID:            hCV27861499
SNP Position Genomic:     1007
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39779):
CTGGGGTAGTACCATGACTGGAGGCGGGGGAGGCAACCAGAGGCCTGCTGCTTTGGGGAGGTGCATTCCCCCAACCATGTCCCGACACCTCTGGAGTTCA
R
GCAAGGACCTTCCAGTCCTACTTGTCCTGCATCTTCTCAAGGATAGGCACAATCATGTCAAATTTGGGTCGCTTTGCAGGGTCTTCATTCATGCAGATCT
Celera SNP ID:            hCV9599896
SNP Position Genomic:     8003
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:39780):
AGTTTTTTCTCTCTAGAATTCGGCTCATCTCCTTAGCTGCCCAGAAATTCATCTCAGATATTGCCAATGATGCCCTACAGCACTGCAAAATGAAGGGCAC
R
GCCTCCGGCAGCTCCCGGAGCAAGAGCAAGGTGTGAGGGGAGGCTTAATGAATCAGTAATTACCTTCCACAACAGTGGAGGCTTATCCTGCCACCCCTTT
Celera SNP ID:            hCV9599897
SNP Position Genomic:     7413
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(A,10|G,22)   total(A,15|G,51)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,3|G,13)   total(A,7|G,41)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39781):
GAAACCCATGTTGTAAGGTCCCCACATCCCTACCAGCTTCCACAGGCCTTGGCCCCCCATGTGGACTTTGGTAACACCTATGGGGTGAATGGGGGTTGGG
R
CACACAGATCCAGGGGCTGAGGAAGTTTAGATGCCATTGGGGACTGGGGGTGGGGTGAGTTGTAAGGTGGGCATTACAGTCTATAAGATCTCCTCAAGCC
Celera SNP ID:            hCV25762624
SNP Position Genomic:     1363
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,36)   total(A,1|G,67)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39782):
ACTGACCCTCCACACGGTGCAAAAATGGCTCTTGGCAGCCGGAGCCCAGAAGTGCCATTCTGTGATCACACAGGACTTTCTGACTTGCTGGCTGAGCATC
Y
GGTGAGAGGAAATGATTGCTCCATGGAGGGCACCAGTCATCCCATCAGTGAGATGGATGGGAGGGAGTTGAGAGCTTGCTGGGGCTTGTGGGTGGGAGCT
Celera SNP ID:            hCV27861500
SNP Position Genomic:     1006
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39783):
CCGTTTTCCCCCAACATCATCCCTGAGGCAACGTCCTGAGCCGCAGGTGACAGGGACTGTAGGCCTGCATCTGGGGGTAACCCCCTCTGTGATCCGTAAG
Y
GATACAACTTGACCTCACAAGACGTGGGCTCTGGCACCAGCAATAACAGCCAAGCCTGTGCCCAGGTGAGCCAAGCAAAGAGCCCCAGGGTCCTCATAGC
Celera SNP ID:            hCV27529185
SNP Position Genomic:     1593
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:39784):
CATGCGCCTCTTCGGTGGCAACTTTGCACATCAGGCATCAGTAGCCCGTGTGGTTGGACAACAGGGCCGGGGCCGGGCCGGGATTGAGGCCAGTCTAGAT
R
TGCAGTACCTGATGAGTGCTGGTGCCAACATCTCCACCTGGGTCTACAGTAGCCCTGGTACTACCAAGAGGACTGGACAGTGGGGAAGGGGGTGGGAGAT
Celera SNP ID:            hCV27859192
SNP Position Genomic:     1915
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39785):
CGCCTCTTCGGTGGCAACTTTGCACATCAGGCATCAGTAGCCCGTGTGGTTGGACAACAGGGCCGGGGCCGGGCCGGGATTGAGGCCAGTCTAGATGTGC
M
GTACCTGATGAGTGCTGGTGCCAACATCTCCACCTGGGTCTACAGTAGCCCTGGTACTACCAAGAGGACTGGACAGTGGGGAAGGGGGTGGGAGATGGGT
Celera SNP ID:            hCV27859193
SNP Position Genomic:     1919
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39786):
GTGGCGCGGCGCCCCCGGAGGGGGCCATATCTAACGGGGTTTACGTACTGCCGAGCGCGGCCAACGGAGACGTGAAGCCCGTGGTGTCCAGCACGCCTTT
K
GTGGACTTCTTGATGCAGCTGGAAGATTACACGCCTACGGTGGGCTTCCGCCCGAACAAGGCCACCTAGCCTGCTGTCAAAACTTTCAGCCACATCGTGC
Celera SNP ID:            hCV9599901
SNP Position Genomic:     6929
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39787):
GCCTCCGGCAGCTCCCGGAGCAAGAGCAAGGTGTGAGGGGAGGCTTAATGAATCAGTAATTACCTTCCACAACAGTGGAGGCTTATCCTGCCACCCCTTT
S
GGGAAACTGAATCGTAGGGGAGGTGTAAGACTTACTCAGGGTCACCCATCTGGGATTGAAGTCCGGGATTCCTGTGCTCAGTTGGTGCTCTTCCCTCTTC
Celera SNP ID:            hCV3215352
SNP Position Genomic:     7514
SNP Source:               Applera
Population(Allele,Count): african american(C,13|G,23)   caucasian(C,3|G,25)   total(C,16|G,48)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39788):
CCCGTGGTGTCCAGCACGCCTTTGGTGGACTTCTTGATGCAGCTGGAAGATTACACGCCTACGGTGGGCTTCCGCCCGAACAAGGCCACCTAGCCTGCTG
W
CAAAACTTTCAGCCACATCGTGCTTTTCAGCGTTCTCTTCCATTTGCTCCCCTAGTCGCTCTTCTGTGTTTGCCCTCTGCTCACCCAAACTGTGAGCTTC
Celera SNP ID:            hCV3215353
SNP Position Genomic:     7006
SNP Source:               Applera
Population(Allele,Count): african american(A,10|T,28)   caucasian(A,18|T,20)   total(A,28|T,48)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,3)      total(A,3|T,1) ;no_pop(T,-|A,-)   P|R90(T,78|A,100)   total(A,100|T,78)   JBIC-allele(T,712|A,769)   total(A,769|T,712) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39789):
CTACGGAAACCCATGTTGTAAGGTCCCCACATCCCTACCAGCTTCCACAGGCCTTGGCCCCCCATGTGGACTTTGGTAACACCTATGGGGTGAATGGGGG
W
TGGGGCACACAGATCCAGGGGCTGAGGAAGTTTAGATGCCATTGGGGACTGGGGGTGGGGTGAGTTGTAAGGTGGGCATTACAGTCTATAAGATCTCCTC
Celera SNP ID:            hCV9599931
SNP Position Genomic:     1358
SNP Source:               Applera
Population(Allele,Count): african american(A,9|T,23)   caucasian(A,18|T,12)   total(A,27|T,35)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,11|T,23)   caucasian(A,22|T,12)   total(A,33|T,35)   
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(T,45|A,88)      total(A,88|T,45) ;(T,-|A,-)   JBIC-allele(T,742|A,751)   total(A,751|T,742)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39790):
ACTGCACCGTTTTCCCCCAACATCATCCCTGAGGCAACGTCCTGAGCCGCAGGTGACAGGGACTGTAGGCCTGCATCTGGGGGTAACCCCCTCTGTGATC
Y
GTAAGCGATACAACTTGACCTCACAAGACGTGGGCTCTGGCACCAGCAATAACAGCCAAGCCTGTGCCCAGGTGAGCCAAGCAAAGAGCCCCAGGGTCCT
Celera SNP ID:            hCV27541460
SNP Position Genomic:     1587
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39791):
GAGGGCAAGTGCCTCTTCTGAATCCCTGCAGGAAAATACCTGACCCTAGAGAATGTGGCTGATCTGGTGAGGCCATCCCCACTGACCCTCCACACGGTGC
R
AAAATGGCTCTTGGCAGCCGGAGCCCAGAAGTGCCATTCTGTGATCACACAGGACTTTCTGACTTGCTGGCTGAGCATCCGGTGAGAGGAAATGATTGCT
Celera SNP ID:            hCV9599932
SNP Position Genomic:     926
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(G,8|A,103)      total(G,8|A,103) ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Gene Number:                 179
Celera Gene:                 hCG24084 - 145000146742679
Gene Symbol:                 ILK
Protein Name:                integrin-linked kinase;P59
Celera Genomic Axis:         GA_x5YUV32VW1T(44261568..44280727)
Chromosome:                  Chr11
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12339):
GAAACCCCGTCACTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCATGTGCCTGTATTCCCAGCTACTCGGGAGTCTGAGGCAGGAGAAGTGCTTGA
ACCAGCAGGCAGAGGTTTCAGTGACCTGAGATCACGCCACCGCATTCCAGCCTGGGCCACAGAGCAAGACTCTGTCTTAAAAAAAAAAAAAAAAAAAAAT
TAACTCTCCTGGTTTTACTCCTACATCTCTGGGTGAACCTTCTCCTCTTCCATCACCTTCACTGCTTCATTTTCCTTTACCCATCCATGACATGCTCCTC
AGTTCTATTCTGAGCCATTTTCTCTTCTCATTATCTTACCCTGAATATCTCATCTATTCTGACTTTAATTACCACCTCTAGGCTGCTGATTCCCAGACCC
CCAGCACAGATTTCACGCATGTCCCACTTCCTAAAATCCAACACTTTGAATGGCATCACCAGCCTACCCACAGTTGAGCAACCTGGAACTTACTTCAGAT
TCCTCTCTTACCAACCTCAACATCCCACCAATTCTACCTAATGAAGTTCTCCTGTCTGCCTACTTCTTCCATCATGACTAGTCAACAGTGCCCTCATCTT
GTGCCCTAGTACCTGGGTTTCTATAACACCCCTGTTCTCATCTATCCCACTCAACTGGACCCTGTCATTCCTTATCTCTCCCTAGGTGAATAAGTACACT
GGCTATATCTCAAATGACAAGCTCCGGGAATACAAAGATAAACATGGCTTGAGAAAACAGCAGCCAAATGCACAAAGGAATCACAATGCAATATTTAGAA
GCTGAAGTAGCACYRTTCACATAGTACTTTGAGAGTACAGATGAAGAACTGATTTTGCTTTGGGAGTAGAATAGGAAACAACTAGGCTGTTCGGAAAGAT
GAGCAAACTGCCAGTCCGATGAATATCCAGCAGAAAGAACAGTACGTGTAGAGGCACTGTGTAGTGCCTGCCTAATGATTCACAGCCCAGCCTCCAAACA
TGCCCTCTGGACTACAGCCTGTTTCAAAACCTCCATCCCCTTATTAGAGGCATCCAACTGGCTCAGGGCATAGAACCTATGATCTCCCAATGGGTACTGT
CAGGTATTCCTGGAAACAAGTACAAGAGGCCATATCTTTATACCTGGGCACATGGCAGATACCTTTTGGGGGAGGCCTAGAATCTATCATTCAAACTCAC
CTTCCCTCAGCACCTTGCCTATAGCTTTCCCAGGACATGCTGATCTGAGTCCACTGCAAGGCAGAGATAGTGGACAGACTCTTCCGCCAATGAACAGCCC
AATGCCCCCAAGCCCAWATGGCATCAACRAGTTGTTTATGAACAGAGACCCAGCTCCCTCACTACCCCTCCAAGGACAGAAGCTCAGAATCTATTAAAAG
TCATTAAATAGCCTATGAAGCAGGCCTGSTGASRGGTCTAGCCTCTCCCAGAGGCTTCCTTAGTCAACAAATCCATTCTTTACCCCTCAGCCTCCAACCA
GCCTAGGGAAGATCTTCAAAAAACAATAAGGCTTACAACACATAATAGTCATAGCTAGKTTACTGAGCACCTCCTATGTTCCCAGCCCTGGCTACAGATT
TCTCCAGTTAACCCRCACAACCACCCTGCAAGACAMAAATTCTACCATTTTCCRAATGAGGAATGTGATATACAGAGATTAAATGACTTTARGTGCCTYT
GGGTAGCAGGCCAAGAATTAAATCCAGGTCTACCTGATTCCAAAATCTGTGCTCTCAGCTATATACATCCCAAAGTCCCACAGGACAATAGGTGTTGGGA
GYGGCTTGATGCTATRTGGTTCCAAAAATGGAGATGAGGGGAGAGGGGAAAGATAAACCACTAGAAATGCTCGGTATGGGGACAACCAAACAGTCKCAAG
TTGGTGGCTCAGACTGATGTCTTGAGCCAAGATGTTGGTGGACAACCAGTTGCCTCAGAGTCAAACAGCAACAGCTGCCTGTCTGCAACCTTGAAWGCCT
GGGCAAACTGAAGCTGAAGGAGCAGAAGCTATGGGTGAGCAGAGGAAGCTGATCTGTAGACAGATCAGATGACAGCAGAGTGGAGATGGCAGGACAGGAA
GGCCATGTGGCTTCTTAGTTGGAAAGAAGAGCAAAACCTAAAGATGCCTTGAATTCCAAACCATCTAGTTTTCATAACACCTGAAGTGTCATGAGACAGA
TATCCCCATGTTCTCACAATAAACTCTTTATTGTTTAGCTAGCCCCAGTGACTTTATGCATCTTATAACCAAGAAGCCTTCAGYAGAGCAAGTCTGAGCC
AGAGGTTTTATCACACTTTGTCCTCAGGGTCCACCAGGAACCAGGTCTTGGCTCACAGCCAGGCTGGAAACAGTCTTCACAGTTCTGAGCCTGGAGTTTG
AGATCTGCCTCCCCTTTCAAGGAAGATCCAGAGGTCACCTGCGCTTGTAGAGACATGGCTGAAGCTGCAGGCCTGAAAGCTGAGCCTTGGGCCCTACCAG
AGGGGGCCCAGTCTTTTGGAAATCAAACAAGAAGAAATGGCTGTTGGTCAGGTCCTAGGGGCAGAAAAGACCCAGTGAGAACCAAATCCTCATCCCAACT
CCTTAAAACACCTCCCTCTATGTACTGCCTCTGCTCACAAAGCTTCCCAGGGCTCCCACTTCCGTTGGGGAGCAAAATGTCTGTTCCTGTGCCTAAAGCC
TCCTTCCTGAACACCAGTACCCTGAATAGGGCCACATGAGACAAAAACAGGTACAGATGTCTTGGGGCCCTCACCTTGGAGACAATCTTGAAGCCTAGCT
TGGTCACAGCCCGCAGAAAGGTTCGAACATCCTCAAAGCGGCTGCTGACCTCAGCCACTTTCAGGAGACCCCTGAGAAAGACAGAAAGTTCTGTGTAAGT
GCACAGACTCATGCATGCACACATACATACATGCATCTGTGTCCTGGGGGCTCTTACCCTGGCTTCAGTACTCTRTTTGCCTCCTCTAGGAAGTCCCTGA
TGTTGGTTCCCATCAGTGAAAGGCAAAACACAGCCACATCCACAGACTCATCCTCCAGAGGAACCTGTGGAGAGTGAGAGTGTTGTATAAGGCACACAGT
GCAGAAGAAGAAAGCCAGCACTGAGATACCAGGATGGGAAAGGGGAAGGAAGGGTTAGAGATTAGCATACGGAGGTTGGCCCTAGAGCACAAGCCAGATA
ACATAGGGGTTTACCTGGGCCATGTCACACACAGTGACCCTAGGGTCCAGAGAAGCCAAGTCAAAGCAATGCACAGGGTTCCGGATACTTGAAGCCAAGC
GGCAATCCCCACAGCCGAAGTCAGCCACCACTAGGGATGCAGGCCTGAGAGTYGAAGGCAAGGGTCACATATTGGTCTGATCTGAGCCTATGACTGACCC
ACCACATGGCTTCTCACAGTCCCTGACCCCCATTCACCGCTGSCGAAGATCCCTGGCGATGCGGTCCACTGGCTGCAGTGGCCACTTCTTCACTTGGCTC
TGGAAGCCGCGGTGGTAGAGAAGAAAAGCCTCAGGGTCTTCCTGGAAGAGACGCTGTGCAGCACTGCTGGGCCCTGAGTACAACTGTTCATTGAGGTAGC
GAAATCGGGCCCCAWCCAGCCGCTGTGCCATRCGGGCTCGCAAAGCCCCTGCCCGAGCCTCATGGCTGTCTGTCCTGGGAACAGGAGACACCTCTGTCTT
CTCTGTGGGGGCCTCAGCTGGGGCCTGGTCTGGCACCTGAGGTGGCTGAAACTTGTTCTTACATCTTCTCTTRTTCTTTTGCCGGTTCCGCCACTGCTTG
CGGCTTAATGTATGAGGGGGTTTAGGGGAAGTGGACCCAGGGCTTTGCTTTGGTGGATCATTTGTAGTACTACCCTTCCAGGCTTTGGGACCTACAGGGA
GGGAGATGGGAAGGTGCACATGAGGCAAGATCTCTTACATTCGGAGTCACGGCAAGTCATCCCAGCCATACCTCTGTCTTTGAGATCGTGACTGTGGCCT
GCAGAGAAGTACTTCTTATTGCCTGAGTACACCATTAGCCCCAATCCTAATGGCAGTGGATAATCACTCTTGTATGTAGAACCAGCTGACCCCCCGACAC
ACACACACCAACACACACACATATACACATCCAATGGTACCTGTTTGGTCAACATTGTCCAGGTGCTGGGSTGAATTTATAGGGGCATGTTTCTGGCATT
TCCTCTTTCTTTTCTCATCTTCAGCAGAGTCACTGCCAACAAGAGCCTGTTTGTGGCATTTCTTCTTCCTTTCTACTTCTTCCTCAGAGTCACTGCAAGG
TGGGCCCTGTTTTTGACATTTCTTCTTCCCTTTCTTCCCTACTTCAGCAGAGGCACTGGCAAATGATGCCTTTTTGGGGCATTTCTTCTTCCTTTCCTCC
TCCTCCTCCTCAGAGTCACTTATACATAGGCTGGGGGGATGCTGGGAAAGAGATGCTGCCTCTAGGGCCCGTAATGTGGCCAAGAGCTGGCRGCGCTTGG
AGCCCTGGAGGAAAACAGGGGATGACAGTGGGYCTAAAGAGAATGGATGAGGCCTGGAGAACAAGAAGGGAGAGATGTGGACCTGATTCAGACTGGCAGA
AGCATCTGAATTCTTCCCAGTCAAGCCTGCCAGAACCCAGAAGAACTTTTATGTCACCACCCCAACTTCTGGGAAGCTGGAGAGCAGAGAAACCACCTAT
CCCACTTTCTTCAATGTGTAAATGAGCTAATGGAGGTTTCCCCAAAGGAAAATGCAAAGGCCACAAGCAACAAGACCAAGGCCAGAGACCAGGAATTCCA
ACCCTTCACCTTGAGCTTTTGCCTAGAGCTGATACATTTCTGTAAGAGGTAAGGAGGCTTCTGAACACAGGAGACACATGATCACACACGTATATTAAAT
ATTTAACATGTCTCTAGCTGCAGTGTAGAAAACAAACTGAAGGGGAGAAATTGCAGACAGAGAGGCCAGCGGCTTGGACAATGGTAATGGGGCTAGGGGA
TGAAAAAGGAGGAAACAAAGCAGGCCGATTCCATGTTGGAGGCAGACTGAAGGGTAAGAAAAGCCTGAGGAAGCAGGGCCCTCACATCTGCAGAGGCTCA
AAGGAGAAGATGTATTGTCGGGAAGGCTGATTCTGTGTTGCAGTCCTACCAGGTAATCCTAGGCCAGKCACTTACCCTGATTCTAAGTTTCCCACACCCT
CCTTTGAACAATGATACTGACAACTCTTACTGTCTCCAATCCATWCTCCACACTGTAACCGACGACCCTTTCAAAATACAAATCTGAAGAAATAATTCCA
TTGCTTAAAACCTTTCATTGGCTTCTATTCTCAATATACGCAAAACTTCTACCTCTTGAACTTGAACAGCATATATGCCCCTTTCATTTACTATGTATTT
CAACCACAAGGACCACTTGTGTTTGTGACTCTGACAGAACATGCTCTCTTGTCCCAGGGCCCTTGTACGTACTTTTTCCTGTCTGAAGAACCCTCTTCGC
TTCACCAACTTCTACTCAACAACTCTCTCTGACCCAACGTCAGTTTCTTTTGGAAGTTCTCGGATCTTCAGATCAGGACTCGCCCTTAACGGTGCCACAG
GTGTCCCTCCCCGCAATACACACAGCGCTGGGATCCACCAATGTCCGCTTCGCGGCCTGAAACAGCTCCCATTGCTCCCGCGAGTCACTCACCTTGTTTT
GCGAGGAGGCCGCAGGCGGAGGTCGTGAGATTACGGGCCCAAGGCCCGCGGCTACTGGGGCCGCCTCGGCCCACTCAGGCTCTTCGAACATGAGGGTCGG
GAGGGCAGGGTCGCCGAGTCCCCGCTCTTCTCCACGTGCACAGCGCTCCTCTGGAAGTCGGAGCGCTCAGACCTGCCAGAACCGACCCGGAAACCAAAGC
GTGACAGCCAGGGGTTGCTAGAGCGGCCGGCGCGGCGCAGCGAACCATCGAGTTTARCCAGGCGCGGCTAGAAGGGCAGGGAGGCGGTGGGAGGGGAGGG
ACGGAGGCCCGCGCTGCCCAAGAGCGCCACGGGCGGGGCGGGGCCGGCGGCGGGCTGCGGGCGCGGCCGGACGGKAGTTCCCCGGAGAAGGATCCTGCAG
CCCGAGTCCCGGTGAGTGCGAGAGGACCCGCGCCCCCTGTCACCCCTCACTTCTCCTGAGTCCCAAGTAAGGAACGGAGCCAACCCTGGGGAGGACCCCC
GGTCCCCTCTCCCAGAGTATACGGAGCCTGAACCTCCCCACTTCCCCCAACTCTGWTCGCSGATAGGGTCTAGTTGCCTGCTCTCGGACATCCGTTCAGC
AGACACTACCTCTTCGTCACCCCCTGCCCACCCTGACCCGCCTTTACCTCGCGTCTAGAGGACACAGCCAGGGRTCATCCCGCAGCCCCGAACWCCTTCA
CAGACCCCCACTAGCCGGGGACGCAGCTCAGGCCCCCTACCCCCAACACAAACACTTCTCTCCTGTAGAGGATAAAGCTTGGGGTTCATCCTCCTTCCCT
GGATCACTCCACAGTCCTCAGGCTTCCCCAATCCAGGGGACTCGGCGCCGGGACGCTGCTATGGACGACATTTTCACTCAGTGCCGGGAGGGCAACGCAG
TCGCCGTTCGCCTGTGGCTGGACAACACGGAGAACGACCTCAACCAGGGGTGAGCTGAAACGGTTGGTGGATGAGAGGAAGGCTRGAGATCTCCTGGCTA
CGTGGAGTGGAGTGCTCATGTCTGGTGGTGGCGGCTGCCTTTGCTAGCCAGTGTAATGAGTGCTAAGCATAGCCTGTGGGGGGCAGAGGGTTTTCACAGA
GGACGCAGTTTGAGCTGAATCTTGACTGCAGAATAAGAGTTTCACAGGCAGAGGCTACAGAGAGCTTTCCAGCCTCAGTAGACTGCATGGCCAAAGGCTA
GGGGGCAAGGCACAGAGCAGAGAGAACAGGAAATTGTCTGGAGTTCCATATGGCTGGAGGATAGATGATCTCTGTGGGTCGGAGCATTGGGTACAAGAGG
AAAAGAACAGGACATAAGACTGTAGARGTCTCCAAGGATCAGCCAGATCATGCAAGCATATTTAGGCTATAAGAAGGTCTTTATTTTAAAAGCAAGGTTT
TAAAGCTGTATAGTGACATAATGAGATTGTCCATTTTTCAGTATCGTCTTGGATGCTTTGTGAAGAGCAGGTGGAAAGGAGGCAATTGCCTAGTTCATCG
TAGAAGTAATGATGTCTTGGACTAGAATTAGGGTGAGTGAAAAAGAGAAGTGATCAAATTCCAGAAGTCTTTAGGACGAAGAATTGTGGAACTTGGTGTG
GGGAGTGAGTAAGGGCAAAGATGAGGACCAGGGTTCTGGCTTGGGAACTTGGTTGTTTTTACTGAGATGGAGAAAACTGGAGGATGAGGCATTTTATTTT
GGACATGTTAAAGTTAAGGTGACAATACAGCAAGGTGGAAATGTTGAGTGTGTTGTTGGTTATGCAGATTTGCAATTCAGGGGAGGAATCTGACTTGGAG
ACACAGATTTGAGAGCTATCAGCATATAGATAGCATATATATATCATATATATAGATGATACTTGAAGACGTGGTTGTGAAGGAGAACGTCTCAGGAGAG
TGGAAGGCAAGAGGTCAGGGGACAGGAAGCCTGCACGACAGAAAAGGAGCAACYGSAAGTTGAAAAAGAAATAGGAAAATGTGTGAGTAAAGCTTACAGA
AGAGAATGTTTTAATGAAGGGGAGGTAGTCAACRGCAGTACAGGCTACTGAGAGATCAAAGAACATTAATATTTTAAAGTAGCCATTGAATTTACAGTTG
GGTTTTTTTTTTTTAAGTTAAGGGGTACATGTGCAGGTTTGTTGGATGGGTAAACTCAKGTCATGGAGGTTTGTTGTGCAGATCATTTCATCACCCAGGT
ATTAAGCCGTGGCACCCATTAGTTATTTTTCCTGATCCCTCCCTCTTCCTAYCCGCCCCACTCTGGTAGGYCCCAGTGTCTGTTGCTCCCCTCAGTGTGC
AGTTAGGATGTATTTGACCATCTGTGAGTGTTGTTTCAGAATAATGGGTGAAGAAATCAGACTACATTGGGTTCCTTAATTTAAGGCACTATGATGAACA
CCTTCTGTGCTGGGTGCTAGAGTCCAGAATCTGACATAATCTCTGCTCTCRATACAGCAGATTTGTGGCAGATTGAAAAGTAGGCCGGGYGCGGTGGCTC
ACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCTGGTGGATCACGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCTGTCTCTACT
AAAAATACAAAAATTAGCCAGGCGTGGTGGCGTGCGCCTGTAATCCCAGCTACTCGGAGGCTGAGGCAGGAGAACTGCTTGAACCCGGGAAGCAGAGGCT
GCAGTGAGCCAAGATCATGCCACTGCCCTCCAGCCTGGGCCACAGAGCAAGACTCTGTCTTAAAAAAGAAAAAGAAAACAAAAGTTGAGAGGTGAGCAAA
TAGTGAAAGTGAATGTACACCAGTTCTACAAGGTTGGCTGAGATAGGAAGGCAAGAAGAGCAGTAGTGATGGTGACTCAGAGTGGCAAAWTCAAATTCTT
TATTTTTTAAAATTGGTGGAGTTTAGTTTTTAGGTTTGACAGGTCAGGATCACCTGTCATCTTAGTCTAGACTTCACTGGTTCCCATTAGGTTCTACACT
ATTTCTCTTTAATACTTTGCAAAGTCATTTGTTCCATTTTTCATATAATTCTCAAAGGGTACCCTGATAAAGACAGTAAGCACTGTTACTGTTTTGTTGG
TGAGGAAATAGAGGCTTAGGCAGTTSSCCAGTGGGCCTAGCATCTAGGAAGACTCTAGCTGAGTCTAGGAAGACTCTAGGAAGATGCTGCCAGAAGGAAA
AGGGGTGGAATTAATGAAACTGGAAGGTTGTGGTGCTGGTTTGAGGAGTAAAGTATGGGGGCCAAAGTTGGCTATATGCTGGATATGAAGAGGGGGTTAA
TTCCTTGCAGGTCTTCTTGAGATAGAAGTCCAGGCCCTGAGGTGGCASGCAGCCTGATAGTGAACAGAACCCTTGTGCCCATACTTTTGCCCCCCGAGTT
TGGCCTGCCCTRGCGCCACAGGCAGTACTGGAAGCTGATAAGTCAGGGCACAAATTAAAGGTCTAGGAGGCAAGACCAACTGATAAACAGGGGGCGTAAT
GCTTCCTGGGGATAATCCCATCTCAAGGAAAAGCTTTTGGCTATTTCTGTGTTAGCAGATGCGAGCAAGTTGTGGAGGAAAATGATTAACTTAAAGGCCA
CACCCCMCAACCCCTTCAGCTGTACGGGCATCTGGATGGCCAGACCCCTGATCAGCTCCAGGCCTTGCCTAGAGTCGCACACAGGAAGTGACCACAACAC
TAAGGCATCCGGAGGCTGCTGGCCCAGACCACGGACYGCCCCCTGCTCCGCCCCTTGAATCTGCAGCCCCGAACTGGAGGGAATTTCCTTTTATGGCCCC
AGGCTGTCAGGCAGGCCCAGCTCCAAACCAATTGTTTTGTTTTGTTTGTATACTTTACTTTATAAAATACATATTTCTTGGAAAAGAAAAAAATCAGGTA
TAGTTTTAATCCCAAAACAGCCATTCTCATTTTCTTCTGTTTTCTATGCACAGGATTGCTAAGTAGGGGAATCCTGCTTTGCATGGTGGTTTGTTATCTA
CCTCATCAGTAGTCAAAAGCATTTCTCCTTTTCAACATAAACCCTTCCAAAACATCATTTAAATTCCATTCCATTTTTAGATGTTAGTTTCAGTACCAGM
GCCAAATAGTAAGTTTGTTCCCTCTTCTATAAGTTGTGGCCTGCCTTCTCCAAGACACCCTTCTCCCCCACTAACATGCACTGAACAGCTGCTGTCAATC
CATTCCCTCAAGAAACTTAAAGGTCTAACAGACAAGACAGTCCATTAACAGATTTTTACAATCCAGTGCAACAAGTGCTGAAGTAGGGGGACATATAAGA
TGTGGTGGAAAACAGAAAGGACCAATAGATGTTGCAGAAGGGGTGCAAGAGAAACCAGGGGAAGAGCACTACCACCTAAGGAAATGAGATGTGGGATATG
RTGAAGATAACACATTTTTTTATAGAGGTTGTTGAGATATCTAGGTGGTTGGTTTGGTTTGAAGCTCAGGGGAAGGTCTGAAATGGACAGCTTTGGGAGT
TGCTGGCATGAATGAGAATCAAAGTCCTAGAGAGGTAAGCCTTCCCAGAGAGTATGTAATTATCAGTTTTTCAGGAATCAAAACCTTTGCCCCATCCCAC
CTCCAGCTCAATGACCATTGCCCCTTCCTCAAAGGGACGATCATGGCTTCTCCCCCTTGCACTGGGCCTGCCGAGAGGGCCGCTCTGCTGTGGTTGAGAT
GTTGATCATGCGGGGGGCACGGATCAATGTAATGAACCGTGGGGATGACACCCCCCTGCATCTGGCAGCCAGTCATGGACACCGTGATATTGTACAGAAG
GTACGTACAAACTCCTTCGTCATCCACATCACATACATGCCATGAGGGTCAGTCACAGGCACTGTAACATACAGTAGAAAGCATGTGTRCTCTTCCCCCT
TTTCCCATGCCCTGACACCAGTATCTCATTTGGAACTGACTGTACTTTCTGCCTCTTCTTTTTGTCTGGCCATGGGGTCCAGCTATTGCAGTACAAGGCA
GACATCAATGCAGTGAATGAACAYGGGAATGTGCCCCTGCACTATGCCTGTTTTTGGGGCCAAGATCAAGTGGCAGAGGTGAGTACTCAGCCCTTAATTC
CTGAGATGGGTAGGAAGTAAAGTCTGAGCCTTGGTGGGAGATTTTGGAACCCTCAACCCATTCTGTCAGTACTACTGTGTGACACTTACAGGATTAAGTT
CTACATTTGTGCATTCATGGTTGGTTCAGTGACTGCCAGCGAGGTAGCAGTGGCTCTCATCATAATGGCCTTTTCATTCCAGGACCTGGTGGCAAATGGG
GCCCTTGTCAGCATCTGTAACAAGTATGGAGAGATGCCTGTGGACAAAGCCAAGGCACCCCTGAGAGAGCTTCTCCGAGGTCCATCTCCCCATCCCCTAG
CTTGTGTCCTCTCGTCCCTTCCCACCTGTCTTCTCCCTCTGTACCACAGCTTAGGTTGTTTTTCTTCCCTAGAGCGGGCAGAGAAGATGGGCCAGAATCT
CAACCGTATTCCATACAAGGACACATTCTGGAAGGGGACCACCCGCACTCGGCCCCGTGAGTCACCACTGTGGGAAGAAGGGTTGTAAAAGGAAATAATC
CTGGCCTCTTGGGGCTGGGTTAGGGTGAAGCTGGGTACCTGACCTGCCCACACTCTTAGGAAATGGAACCCTGAACAAACACTCTGGCATTGACTTCAAA
CAGCTTAACTTCCTGACGAAGCTCAACGAGAATCACTCTGGAGAGGTGACCCCTGCCCTTCTTGCCCYTCCCTCACTAAACCCCCATAAATTACTTGCTT
TGTACCTGTTTTAAGTTTTTCCTCCAGTTAGTGGGCAAGGAAGTGGCAGCAACATTTCAAGCCTCCTAACCCCTACCTGTCCTGCAGCTATGGAAGGGCC
GCTGGCAGGGCAATGACATTGTCGTGAAGGTGCTGAAGGTTCGAGACTGGAGTACAAGGAAGAGCAGGGACTTCAATGAAGAGTGTCCCCGGCTCAGGTA
GTGCAAGGCGTAACCTGGAAGCTGCTAGTTCCAAGGAACCCTGAATAGCACTGAAAGAGATCTTTTGTACTGGGTCTCAACCACTCCCTCCCTCTTCTAG
GATTTTCTCGCATCCAAATGTGCTCCCAGTGCTAGGTGCCTGCCAGTCTCCACCTGCTCCTCATCCTACTCTCATCACACACTGGATGCCRTATGGATCC
CTCTACAATGTACTACATGAAGGCACCAGTGAGTAGGGATGTTGAATTTCCTTGGGGAGGAAATGGCAGAGAGGGAGCCTCTCTGAACTATTTGACTTTT
GCCTCCTCTCAGATTTCGTCGTGGACCAGAGCCAGGCTGTGAAGTTTGCTTTGGACATGGCAAGGGGCATGGCYTTCCTACACACACTAGAGCCCCTCAT
CCCACGACATGCACTCAATAGCCGTAGTGTAATGGTGAGGCCACAAGCTCACTCCTGGCCCAGGCCCCAAAAGCCCTTTGCCTATCTATGACTTACCTCC
TTCTATCTGTTTTCTCTTCCTCAGATTGATGAGGACATGACTGCCCGAATTAGCATGGCTGATGTCAAGTTCTCTTTCCAATGTCCTGGTCGCATGTATG
CACCTGCCTGGGTAGCCCCCGAAGGTGAGTGAAGTCATCATGTCGGGAGGTAAAAAAGGACCACCTCAGAAGTAGTGGAAGGGGGCAGAGACAGGACAGG
CAAGGGGGCCAGAACAGACAAGCCCTATCTCTCCAGCTCTGCAGAAGAAGCCTGAAGACACAAACAGACGCTCAGCAGACATGTGGAGTTTTGCAGTGCT
TCTGTGGGAACTGGTGACACGGGAGGTACCCTTTGCTGACCTCTCCAATATGGAGATTGGAATGAAGGTGAGAGCACAACAGCATACATTTGTGTTGCGG
GAGTGGTTGGTGATGGTGAAAATAACTGTAGTGGGCCTTGGCTCCTCACATATTTGTTCGGATATACAGTAATCCTGTCCCAAGGGCCAGTGGCTTCTCT
CTACATGACAGACTCAAATTGTGAGGCTGCTTTTTTTCTTGTATTCGCAGGTGGCATTGGAAGGCCTTCGGCCTACCATCCCACCAGGTATTTCCCCTCA
TGTGTGTAAGCTCATGAAGATCTGCATGAATGAAGACCCTGCAAAGCGACCCAAATTTGACATGATTGTGCCTATCCTTGAGAAGATGCAGGACAAGTAG
GACTGGAAGGTCCTTGCYTGAACTCCAGAGGTGTCGGGACATGGTTGGGGGAATGCACCTCCCCAAAGCAGCAGGCCTCTGGTTGCCTCCCCCGCCTCCA
GTCATGGTACTACCCCAGCCATGGGGTCCATCCCCTTCCCCCATCCCTACCACTGTGGCCCCAAGAGGGGCGGGCTCAGAGCTTTGTCACTTGCCACATG
GTGTCTYCCAACATGGGAGGGATCAGCCCCGCCTGTCACAATAAAGTTTATTATGAAAACAGGCTGGTGTGGGGACATGGGGACAGATAAGTACATTTAG
GTTGGGTGGCTCAGGTGAAGTAGTGCGGCTTCTTCACATTGATGCCATACTCGCTGAGGGCAGGGGTCAAGTCCTCCATGGTTAGAGTGTACTTGCGGTC
CTGAGGGAAGAGGGAAGAGCACCAACTGAGCACAGGAATCCCGGACTTCAATCCCAGATGGGTGACCCTGAGTAAGTCTTACACCTCCCCTACGATTCAG
TTTCCCSAAAGGGGTGGCAGGATAAGCCTCCACTGTTGTGGAAGGTAATTACTGATTCATTAAGCCTCCCCTCACACCTTGCTCTTGCTCCGGGAGCTGC
CGGAGGCYGTGCCCTTCATTTTGCAGTGCTGTAGGGCATCATTGGCAATATCTGAGATGAATTTCTGGGCAGCTAAGGAGATGAGCCGAATTCTAGAGAG
AAAAAACTTAGATGAGAAGGAGATGGACAACATACTGCACAAGCACCCAAAACTAACCTGCCCTGGGTTTACTCACATGCGTGGGTCTGAGGCCTCAAAG
CCAGCACGGTTCAGGTAGTAACCAGTCACTGCATCTGGGATCTGAGAAATCAATTAAGAGAACTGTCAGCAGAGCGGGAGGAGGGTGAGGGAAATGGATA
GGCCTGATTATCAGGAAGCTCACAGTTTGGGTGAGCAGAGGGCAAACACAGAAGAGCGACTAGGGGAGCAAATGGAAGAGAACGCTGAAAAGCACGATGT
GGCTGAAAGTTTTGACAGCAGGCTAGGTGGCCTTGTTCGGGCGGAAGCCCACCGTAGGCGTGTAATCTTCCAGCTGCATCAAGAAGTCCACCAAAGGCGT
GCTGGACACCACGGGCTTCACGTCTCCGTTGGCCGCGCTCGGCAGTACGTAAACCCCGTTAGATATGGCCCCCTCCGGGGGCGCCGCGCCACCCGCCGAC
ACCGGAGCTGGAGGAGAACCAGCAAAATGAGACACAGAGGTGGGAGGCGCAGGGCCCCAGCTAGGTCTGTCTATACCCTCTGCCCTCACCCGCCGCTGGA
CCCAGCCCAAGACGCTTCCCTCGCCCTCACCCGTCCCGGCCCTCACCCGCCCCACGCCGCTCAGCTGGCTCCCCGGCCCGCGCCGCCAAGGGTCCCGTGC
CCCCAGCAGCTGCTCCAGCCCCAGGTCCCCCCGCTGTCCCCGCGGGGCTGGCCTTGTTCTCCGCGGCGGTGCTGGAGGGCAGCGCGGCGGGAGCCGAGAC
CGGGGGCGCGGGGCCCGGGGCCGAGGCGGCGGAGGCCGGCGCCGCCTCGGGGTCCGCGCCGGAGCCGCTGCAGCTCATCGGGCCGGTGGGAGAGGCGGCG
AACAGAGCCGCTTCCGCTTCCGCTCGCGCCGCGCACACCCCGGGGTGACGTCACGCGCCCACGACTCGCCCCGCCTGTCTCTGTTAGTGCTCTCCAGCCC
GCTCCCCGCCTCCTCCCATAGTGGATCTGCGGGTTAGAGGAAATAGGCTGCAGGGCGGAGACCGAGCCTTGGCGAACTGCGCTGCCGTAGCCATTCCGCC
CTAGCCTCTGCCGTGCTCCGCGGCGATTCCGTCCAGACCGGAACCAGCGTGCGTCTGGCTCTCCTCCGCCGCTCTGGGACACCTCATTCTGTCTGACGCT
CAAGACCTGGCTTCGACRTTTATGGCCCTATGTCCCTCGACTACGGGTTGCCTGCCTGTCTGCATCGTTTCAAGTTCCCTTATTCAGCCTTTTAAGGATT
CATAGTGGATTTGGAAAGCCCCCTCTCTTCTCCGCCAGCTGCCCCGAGAGGTGGGGGCAGCAGTGGGGCGGCACACAGTGCTGCTGTAGGAGGAGGAGGA
GTTTCAGCCTGAGTCAACAACATATGCAAAAATCACAACGAATGAGAGGCGTGAGGTTTTCGGTGTAGCAGACATTTAATTCTTATTTGCCAACTCCTGA
GCTAGGACCTGGGAACACAAAGTTAAATAGGACACGATTCTAGTCCTCTAGGCACCAACGGTCTTGGAAAGGAAGGCAGACAAGTAAACTGGCCATTTCA
ATACTATGTGGTCGTTACAATGCTAGAGGTAGGCACAGGGGGCGCAGTGCAAGGGAGGAAGGGCGTTAACATCTGCCACCTACTTCCAGGTGCCAAGCAC
TGTTATCAACATTATTCCACTTTATTCCCTGGTGATTATGAAAGGCAGGTATTGATATTCACACTTAACAGACGAGGAAACAGCCTCAGGGAGATAAGCT
TACTTGACCCAGTCTCTCTCCTAGTCCATATCAGAACCAAGATTCAAACAGGTTTTGTTTAGAAAATCTAGGATTTTTCAGCCATACCAAAATAAAGTAG
CCTCAGGGAATCAAAACATTCACGAAAGAAGGTGACTTCTGAACTGAGTCTTGCAAGAATTCTGGAAATTAACCTGGCAGTTGTATCAGGGGTGGTAAGG
GGACGGAACAGCTTGAGCAAGAGTGAGAGTTCCTTGGGGTTTGGGGAGGGAGGAGGAAAAATGATTTTTTACTTAAGAACAAATAGCAAGGAAGGTTTGT
GAGCTATGATTGGGGGCTGGAGGGGAAAGCCTGAATTCTATCCAGTAATCCTTGAAGGGTTTTCATCCAAGTGGCCTGATGGGATTTGCATTTTACTCTG
GAAGATGACTTGGGGATTGGCAGGAAGTAAGGACACTTTTTTTCAAGAGAATATAGCCCTAAACTAAGGTAGTAGCAGTGGGGATATAAGTGGATAAGTT
CTAGATATACTTGGGAAATATAATTGGAAGGACTTGTGGACTGATAAAGATATATTTAAGATGTGCAGTCAGTAGGACTTGTTGATTGAGGACTTGTTGA
TTGAAGGTGGGGTGAAAAGATGACACAGGTTTCTGGCTTGGTTGGAAAAAGCATAGCATCATTTACCAAGAAGAAACGAGATGGAATTGTTTGGGGTTGG
GAAGGTGGACGATGAAATGTTGAGTATCACGCATCTTACATTTGAGGTATCAATCATTATTGGATAGAAAGTCTTATTTAGTGAGATGGTAATGGTTGTA
GATGTCAGTGATTTGTTCCAGGGGACAATGAGTAAACTGAGAAGAGCAAAAATCTACAAATGGAGCAATGAAGGTCAGCATTCCATGAAGAAGCAGAAAT
TGATGAGAGAGGAAGACAAGAGTAGTCAGAGAAGTTAAGACCTGGAAGCTAAGTAAGGAGAGGGAGTGGGCAACTATGATGGAAAGGCCATAAAGCAAAG
ATTGAGAAGTATGCACTGGAGGCCATTGTTTCTGGATGTCAGGGTAGGAAAGAGTAAACGGTGACAGTAGAGGTCTCCTTGCAGTGAATTGGGGAATGAA
TATCAAGTGAAATAGTGCACAGAGTCTGTATACAACCCTTTGGAAAAGCCTGATTGAAAAGAGAAAGATGAGATGCGGAGGGAGAGGCATTCAAAAAATG
CTAGTTACAGCATCTTATTGAGGAATCTAAGGCAGGAGTAGGGAGACCTGAGTATGATGGAGCATGGTAGGGTTGGGAGTCAAGTCAAGCTCACMGCATT
TCRGGGTTAGGGAGATAAGCTGTCTGCAGCAGTCAATAGTTGAGGGTTCAGCAGGGCTTCCAACAGGGCAGAATAAGGGACTGAACTGCCAGCTTCAGGG
CAGGGGACAAGCCATCTCTCCTGATAGGAAAGGGTCAGGGGTTGAGTAGAGTCTTCAGCAAAGCTGGGAAGTTGGGTGTTCCCCAGCCTGTTACAGRATC
CCAGCCAGGACCAGAGCAGAAACCCTGGCCCTCTACCTCTTCATCCAGACAGGACTCATGGCAGCCACGGGTTACCTAGGGAGGAGGCTGGCATCAGATC
TGGGCCTACTAGTACCAGTACTTAAAGAGTATATCTCCTCACCCTGTACTCACATTTCAAAGGCTATTCCACACCACCCTAACTGCCCCCAAGTCCCCCT
TAGCACTCCCCATAGTTGTTTGAAAACGTCCACACCCTTCCCTTCCATACTTACATCAAAGAGTCCTGCCCCATGCTGCTGGTAGAGCCTTGGGTTGAGA
AAGCCAAGAGGGGGGCGGCCACTAAGGATCCTGTGCTCATTGATCAAGGATAGGATCCCCCCAAACACTGGAGTAGAGGCCTACAAGAGTGAAGGTGCAA
GTAGAGGTCAGGGGTTCTGAGTGATTGGACTTTTTGGGAGTGATGCTTTAAAGTATCAGACATCTCTAAGGAGTCAGGGGTTCTAGGTGCAAGGTGTTCA
AGGTGTTAGGGGGTAAGGGTAGTTCCTGAGTGAGAGTTTGGAGATGGGCTGATTCTCACCGAGGTTCCGGACACCCATGGAATGGGCACTCTGTTGCTGA
CCACCCAGTAGCCATCAGAAAGTGCAGCCACATCTGGGTAGGCACGGCCACTGGCATTGAAGTAACTGGATGGTGGCAGGTGGGGGCTAGAGCTCAGGAA
CTTCGTTACAGCTTCCTCCTGAAAGGCATTTTTGAGTGAGTATTGGCATGTGGCCTGCCCAGCAGTCAGCTGAACTGAGGATCCCCCATCCTCACTCTTA
CCCTGCATCCATCCACACAAACACACGTACCTGGTATGAAGGCCGTGGGAACACATTGCTGAAGCCACCACCACTGATATAGTCAACAATTTCATTTGTG
ATGAGGAAAGGTTCCTGGAAGGATGTGCCTCCCACTGTGGTGACATAGGGGCTGAGGGGAGAAGACAGCATTTGGATAGTAGGGGACCCAAGGGGACCTC
CAAGATATGTGGGGAGGGGTGAGTATAGCCCAGGTCTTGCTGGAGGAACTAGACTCTGTGGGGAAGCATGTATATGGGATTGACTAAGAGATTTTGAGCC
TTCAAGGCATGGCCCGAGGTGACTGTGCACACTTTTCTCTACAGAACACCCACCAAATCTTCCACTAAAATGCCTGGGAACTGACGAAAAGGAACAATGG
GAGCTGTATCCCACACAAGAGATTTGGGGCCTGGGACCTGCAGGAAGAAGAGACAGGAGTACAGCAACCAGGGCAGGCAAAGCTTAAGGCTGAACCACAG
GAGCACATGGTGGGGTCAAGACAAAGGTTCTACATCATGAGATCACAAGTGAAAGGTGGTGGTTATACCTGAGTGGTAGGCTAGAGTACTTACCTGGAGG
CAGGGAAGGTAGGGCGGAACTGGTGTCTTCCAGAGACAGACCAACACCCGGCCCCACTGTCACCTGAGAGAGACCAAGTGTAGCATTCATATTAATTGGT
TAGGGCTTAGTATGTGGGTTCGGATGTCAGAGGGGAAATTTGTTACTGTAGGAGGTCAGAGTGTAGAGGTCAGGTCAGTGGTCCCTACTGGAAGGTCTGA
GTTCAGATTATGAGTCAGAGACCAGGCTCAGGGATCACTGTGGAGTCAAAGCTCCCAGGCTGCAGAGGTGTAAGCGTTGTCTAAGTTTAGGGTAGGAGGT
CACCTGAGGCGAAGAGCAGGGTGAGACCCCGAGCRGCAGCCTTCATGAGCTYAGTGTTGACCCGCTGGATGTAGGCGCTGCTGAGGGAGTCCTCATCATC
TCCATAGCTCACAGTATGCACATGTGGCAGGGCTGACTCATTACTGAGCAGCATGAGCCACTGCAGGAAGGGCTCCTGTCCCTCATGCCGGCCTGGATTT
TTTTTTTTTTTTTTTTGAGGGATGGGCACAAAGATAGTCACTGGGGGTTGTCAGGATCTCTCTCCAGCTTATAGCATTCCCTTGAGGGAGCAGGGATCAA
CACCCATCTCCCACCCCCTTCCCCACTGTCCAGTCCTCTTGGTAGTACCAGGGCTACTGTAGACCCAGGTGGAGATGTTGGCACCAGCACTCATCAGGTA
CKGCAYATCTAGACTGGCCTCAATCCCGGCCCGGCCCCGGCCCTGTTGTCCAACCACACGGGCTACTGATGCCTGATGTGCAAAGTTGCCACCGAAGAGG
CGCATGAACTGAGCCAGGTCTGAGTCATGGAAATACTGCTCCAGGAACTATGGAGGGAG


SNP Information

Context             (SEQ ID NO:39792):
ATTGTACAGAAGGTACGTACAAACTCCTTCGTCATCCACATCACATACATGCCATGAGGGTCAGTCACAGGCACTGTAACATACAGTAGAAAGCATGTGT
R
CTCTTCCCCCTTTTCCCATGCCCTGACACCAGTATCTCATTTGGAACTGACTGTACTTTCTGCCTCTTCTTTTTGTCTGGCCATGGGGTCCAGCTATTGC
Celera SNP ID:            hCV3215347
SNP Position Genomic:     10589
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,19)   caucasian(A,16|G,16)   total(A,35|G,35)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,19)   caucasian(A,19|G,19)   total(A,38|G,38)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,18)   caucasian(A,21|G,19)   total(A,39|G,37)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;JBIC-allele(A,720|G,773)   total(G,773|A,720)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39793):
TCTCATTTGGAACTGACTGTACTTTCTGCCTCTTCTTTTTGTCTGGCCATGGGGTCCAGCTATTGCAGTACAAGGCAGACATCAATGCAGTGAATGAACA
Y
GGGAATGTGCCCCTGCACTATGCCTGTTTTTGGGGCCAAGATCAAGTGGCAGAGGTGAGTACTCAGCCCTTAATTCCTGAGATGGGTAGGAAGTAAAGTC
Celera SNP ID:            hCV3215348
SNP Position Genomic:     10724
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,11)   caucasian(C,33|T,5)   total(C,58|T,16)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,9)   caucasian(C,31|T,5)   total(C,50|T,14)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,11)   caucasian(C,32|T,6)   total(C,53|T,17)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:39794):
ACCCTGAACAAACACTCTGGCATTGACTTCAAACAGCTTAACTTCCTGACGAAGCTCAACGAGAATCACTCTGGAGAGGTGACCCCTGCCCTTCTTGCCC
Y
TCCCTCACTAAACCCCCATAAATTACTTGCTTTGTACCTGTTTTAAGTTTTTCCTCCAGTTAGTGGGCAAGGAAGTGGCAGCAACATTTCAAGCCTCCTA
Celera SNP ID:            hCV3215349
SNP Position Genomic:     11468
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(C,13|T,25)   total(C,17|T,57)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(C,14|T,26)   total(C,19|T,59)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39795):
CGGGAGGGCAACGCAGTCGCCGTTCGCCTGTGGCTGGACAACACGGAGAACGACCTCAACCAGGGGTGAGCTGAAACGGTTGGTGGATGAGAGGAAGGCT
R
GAGATCTCCTGGCTACGTGGAGTGGAGTGCTCATGTCTGGTGGTGGCGGCTGCCTTTGCTAGCCAGTGTAATGAGTGCTAAGCATAGCCTGTGGGGGGCA
Celera SNP ID:            hCV25766393
SNP Position Genomic:     6685
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,36)   total(A,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:39796):
ACGAAGTTCCTGAGCTCTAGCCCCCACCTGCCACCATCCAGTTACTTCAATGCCAGTGGCCGTGCCTACCCAGATGTGGCTGCACTTTCTGATGGCTACT
R
GGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCCGGAACCTCGGTGAGAATCAGCCCATCTCCAAACTCTCACTCAGGAACTACCCTTACCCCCTAA
Celera SNP ID:            hCV27536056
SNP Position Genomic:     1654
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39797):
AGGGCAGGGGACAAGCCATCTCTCCTGATAGGAAAGGGTCAGGGGTTGAGTAGAGTCTTCAGCAAAGCTGGGAAGTTGGGTGTTCCCCAGCCTGTTACAG
R
ATCCCAGCCAGGACCAGAGCAGAAACCCTGGCCCTCTACCTCTTCATCCAGACAGGACTCATGGCAGCCACGGGTTACCTAGGGAGGAGGCTGGCATCAG
Celera SNP ID:            hCV27536057
SNP Position Genomic:     16897
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39798):
TGGGGATAATCCCATCTCAAGGAAAAGCTTTTGGCTATTTCTGTGTTAGCAGATGCGAGCAAGTTGTGGAGGAAAATGATTAACTTAAAGGCCACACCCC
M
CAACCCCTTCAGCTGTACGGGCATCTGGATGGCCAGACCCCTGATCAGCTCCAGGCCTTGCCTAGAGTCGCACACAGGAAGTGACCACAACACTAAGGCA
Celera SNP ID:            hCV27846638
SNP Position Genomic:     9307
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,22)   caucasian(A,12|C,22)   total(A,14|C,44)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39799):
ACCTCATCAGTAGTCAAAAGCATTTCTCCTTTTCAACATAAACCCTTCCAAAACATCATTTAAATTCCATTCCATTTTTAGATGTTAGTTTCAGTACCAG
M
GCCAAATAGTAAGTTTGTTCCCTCTTCTATAAGTTGTGGCCTGCCTTCTCCAAGACACCCTTCTCCCCCACTAACATGCACTGAACAGCTGCTGTCAATC
Celera SNP ID:            hCV27510285
SNP Position Genomic:     9800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39800):
AGTTACAGCATCTTATTGAGGAATCTAAGGCAGGAGTAGGGAGACCTGAGTATGATGGAGCATGGTAGGGTTGGGAGTCAAGTCAAGCTCACAGCATTTC
R
GGGTTAGGGAGATAAGCTGTCTGCAGCAGTCAATAGTTGAGGGTTCAGCAGGGCTTCCAACAGGGCAGAATAAGGGACTGAACTGCCAGCTTCAGGGCAG
Celera SNP ID:            hCV27850622
SNP Position Genomic:     16703
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,39|G,1)   total(A,75|G,1)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:39801):
ATTTGTTCCATTTTTCATATAATTCTCAAAGGGTACCCTGATAAAGACAGTAAGCACTGTTACTGTTTTGTTGGTGAGGAAATAGAGGCTTAGGCAGTTG
S
CCAGTGGGCCTAGCATCTAGGAAGACTCTAGCTGAGTCTAGGAAGACTCTAGGAAGATGCTGCCAGAAGGAAAAGGGGTGGAATTAATGAAACTGGAAGG
Celera SNP ID:            hCV12036870
SNP Position Genomic:     8827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39802):
CATTTGTTCCATTTTTCATATAATTCTCAAAGGGTACCCTGATAAAGACAGTAAGCACTGTTACTGTTTTGTTGGTGAGGAAATAGAGGCTTAGGCAGTT
S
CCCAGTGGGCCTAGCATCTAGGAAGACTCTAGCTGAGTCTAGGAAGACTCTAGGAAGATGCTGCCAGAAGGAAAAGGGGTGGAATTAATGAAACTGGAAG
Celera SNP ID:            hCV12036872
SNP Position Genomic:     8826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39803):
GTGGCGCGGCGCCCCCGGAGGGGGCCATATCTAACGGGGTTTACGTACTGCCGAGCGCGGCCAACGGAGACGTGAAGCCCGTGGTGTCCAGCACGCCTTT
K
GTGGACTTCTTGATGCAGCTGGAAGATTACACGCCTACGGTGGGCTTCCGCCCGAACAAGGCCACCTAGCCTGCTGTCAAAACTTTCAGCCACATCGTGC
Celera SNP ID:            hCV9599901
SNP Position Genomic:     5168
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39804):
CCTCTTCTAGGATTTTCTCGCATCCAAATGTGCTCCCAGTGCTAGGTGCCTGCCAGTCTCCACCTGCTCCTCATCCTACTCTCATCACACACTGGATGCC
R
TATGGATCCCTCTACAATGTACTACATGAAGGCACCAGTGAGTAGGGATGTTGAATTTCCTTGGGGAGGAAATGGCAGAGAGGGAGCCTCTCTGAACTAT
Celera SNP ID:            hCV3215350
SNP Position Genomic:     11891
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,24)   caucasian(A,6|G,34)   total(A,20|G,58)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,24)   caucasian(A,5|G,33)   total(A,19|G,57)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,22)   caucasian(A,6|G,32)   total(A,18|G,54)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   ;(A,-|G,-)   JBIC-allele(A,541|G,956)   total(G,956|A,541)   (G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39805):
CTTTCCTCCTCCTCCTCCTCAGAGTCACTTATACATAGGCTGGGGGGATGCTGGGAAAGAGATGCTGCCTCTAGGGCCCGTAATGTGGCCAAGAGCTGGC
R
GCGCTTGGAGCCCTGGAGGAAAACAGGGGATGACAGTGGGCCTAAAGAGAATGGATGAGGCCTGGAGAACAAGAAGGGAGAGATGTGGACCTGATTCAGA
Celera SNP ID:            hCV25603025
SNP Position Genomic:     4492
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,38)   total(A,2|G,76)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39806):
GGAGCCTCTCTGAACTATTTGACTTTTGCCTCCTCTCAGATTTCGTCGTGGACCAGAGCCAGGCTGTGAAGTTTGCTTTGGACATGGCAAGGGGCATGGC
Y
TTCCTACACACACTAGAGCCCCTCATCCCACGACATGCACTCAATAGCCGTAGTGTAATGGTGAGGCCACAAGCTCACTCCTGGCCCAGGCCCCAAAAGC
Celera SNP ID:            hCV3215351
SNP Position Genomic:     12074
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,19|T,19)   total(C,48|T,28)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,24|T,14)   total(C,53|T,19)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,18|T,16)   total(C,51|T,21)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;JBIC-allele(T,198|C,1297)   total(C,1297|T,198)no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39807):
GAAGAGGGAAGAGCACCAACTGAGCACAGGAATCCCGGACTTCAATCCCAGATGGGTGACCCTGAGTAAGTCTTACACCTCCCCTACGATTCAGTTTCCC
S
AAAGGGGTGGCAGGATAAGCCTCCACTGTTGTGGAAGGTAATTACTGATTCATTAAGCCTCCCCTCACACCTTGCTCTTGCTCCGGGAGCTGCCGGAGGC
Celera SNP ID:            hCV3215352
SNP Position Genomic:     13407
SNP Source:               Applera
Population(Allele,Count): african american(C,23|G,13)   caucasian(C,25|G,3)   total(C,48|G,16)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39808):
CCCGTGGTGTCCAGCACGCCTTTGGTGGACTTCTTGATGCAGCTGGAAGATTACACGCCTACGGTGGGCTTCCGCCCGAACAAGGCCACCTAGCCTGCTG
W
CAAAACTTTCAGCCACATCGTGCTTTTCAGCGTTCTCTTCCATTTGCTCCCCTAGTCGCTCTTCTGTGTTTGCCCTCTGCTCACCCAAACTGTGAGCTTC
Celera SNP ID:            hCV3215353
SNP Position Genomic:     5245
SNP Source:               Applera
Population(Allele,Count): african american(A,10|T,28)   caucasian(A,18|T,20)   total(A,28|T,48)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,3)      total(A,3|T,1) ;no_pop(T,-|A,-)   P|R90(T,78|A,100)   total(A,100|T,78)   JBIC-allele(T,712|A,769)   total(A,769|T,712) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39809):
GTACTACCCCAGCCATGGGGTCCATCCCCTTCCCCCATCCCTACCACTGTGGCCCCAAGAGGGGCGGGCTCAGAGCTTTGTCACTTGCCACATGGTGTCT
Y
CCAACATGGGAGGGATCAGCCCCGCCTGTCACAATAAAGTTTATTATGAAAACAGGCTGGTGTGGGGACATGGGGACAGATAAGTACATTTAGGTTGGGT
Celera SNP ID:            hCV15929905
SNP Position Genomic:     13107
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:39810):
AAAATGCTAGTTACAGCATCTTATTGAGGAATCTAAGGCAGGAGTAGGGAGACCTGAGTATGATGGAGCATGGTAGGGTTGGGAGTCAAGTCAAGCTCAC
M
GCATTTCAGGGTTAGGGAGATAAGCTGTCTGCAGCAGTCAATAGTTGAGGGTTCAGCAGGGCTTCCAACAGGGCAGAATAAGGGACTGAACTGCCAGCTT
Celera SNP ID:            hCV16038074
SNP Position Genomic:     16695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:39811):
GGAGAACGTCTCAGGAGAGTGGAAGGCAAGAGGTCAGGGGACAGGAAGCCTGCACGACAGAAAAGGAGCAACCGCAAGTTGAAAAAGAAATAGGAAAATG
T
GTGAGTAAAGCTTACAGAAGAGAATGTTTTAATGAAGGGGAGGTAGTCAACGGCAGTACAGGCTACTGAGAGATCAAAGAACATTAATATTTTAAAGTAG
Celera SNP ID:            hCV16209343
SNP Position Genomic:     7682
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39812):
GATGTCTGATACTTTAAAGCATCACTCCCAAAAAGTCCAATCACTCAGAACCCCTGACCTCTACTTGCACCTTCACTCTTGTAGGCCTCTACTCCAGTGT
K
TGGGGGGATCCTATCCTTGATCAATGAGCACAGGATCCTTAGTGGCCGCCCCCCTCTTGGCTTTCTCAACCCAAGGCTCTACCAGCAGCATGGGGCAGGA
Celera SNP ID:            hCV27859137
SNP Position Genomic:     1896
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39813):
CTCCCAGGCTGCAGAGGTGTAAGCGTTGTCTAAGTTTAGGGTAGGAGGTCACCTGAGGCGAAGAGCAGGGTGAGACCCCGAGCGGCAGCCTTCATGAGCT
Y
AGTGTTGACCCGCTGGATGTAGGCGCTGCTGAGGGAGTCCTCATCATCTCCATAGCTCACAGTATGCACATGTGGCAGGGCTGACTCATTACTGAGCAGC
Celera SNP ID:            hCV27531993
SNP Position Genomic:     18652
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39814):
AAGTGTCATGAGACAGATATCCCCATGTTCTCACAATAAACTCTTTATTGTTTAGCTAGCCCCAGTGACTTTATGCATCTTATAACCAAGAAGCCTTCAG
Y
AGAGCAAGTCTGAGCCAGAGGTTTTATCACACTTTGTCCTCAGGGTCCACCAGGAACCAGGTCTTGGCTCACAGCCAGGCTGGAAACAGTCTTCACAGTT
Celera SNP ID:            hCV2067583
SNP Position Genomic:     2284
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:39815):
AGAAAGACAGAAAGTTCTGTGTAAGTGCACAGACTCATGCATGCACACATACATACATGCATCTGTGTCCTGGGGGCTCTTACCCTGGCTTCAGTACTCT
R
TTTGCCTCCTCTAGGAAGTCCCTGATGTTGGTTCCCATCAGTGAAAGGCAAAACACAGCCACATCCACAGACTCATCCTCCAGAGGAACCTGTGGAGAGT
Celera SNP ID:            hCV2067585
SNP Position Genomic:     2975
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39816):
TCCTGGGAACAGGAGACACCTCTGTCTTCTCTGTGGGGGCCTCAGCTGGGGCCTGGTCTGGCACCTGAGGTGGCTGAAACTTGTTCTTACATCTTCTCTT
R
TTCTTTTGCCGGTTCCGCCACTGCTTGCGGCTTAATGTATGAGGGGGTTTAGGGGAAGTGGACCCAGGGCTTTGCTTTGGTGGATCATTTGTAGTACTAC
Celera SNP ID:            hCV2067586
SNP Position Genomic:     3773
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,13)   caucasian(A,27|G,1)   total(A,38|G,14)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;JBIC-allele(G,199|A,1294)   total(G,199|A,1294)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:39817):
ATCCCCAAGTCATCTTCCAGAGTAAAATGCAAATCCCATCAGGCCACTTGGATGAAAACCCTTCAAGGATTACTGGATAGAATTCAGGCTTTCCCCTCCA
S
CCCCCAATCATAGCTCACAAACCTTCCTTGCTATTTGTTCTTAAGTAAAAAATCATTTTTCCTCCTCCCTCCCCAAACCCCAAGGAACTCTCACTCTTGC
Celera SNP ID:            hCV9599914
SNP Position Genomic:     3443
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:39818):
TATCTAGAACTTATCCACTTATATCCCCACTGCTACTACCTTAGTTTAGGGCTATATTCTCTTGAAAAAAAGTGTCCTTACTTCCTGCCAATCCCCAAGT
Y
ATCTTCCAGAGTAAAATGCAAATCCCATCAGGCCACTTGGATGAAAACCCTTCAAGGATTACTGGATAGAATTCAGGCTTTCCCCTCCAGCCCCCAATCA
Celera SNP ID:            hCV9599915
SNP Position Genomic:     3353
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:39819):
TTGGGGGGATCCTATCCTTGATCAATGAGCACAGGATCCTTAGTGGCCGCCCCCCTCTTGGCTTTCTCAACCCAAGGCTCTACCAGCAGCATGGGGCAGG
W
CTCTTTGATGTAAGTATGGAAGGGAAGGGTGTGGACGTTTTCAAACAACTATGGGGAGTGCTAAGGGGGACTTGGGGGCAGTTAGGGTGGTGTGGAATAG
Celera SNP ID:            hCV9599919
SNP Position Genomic:     1996
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,5)   caucasian(A,37|T,3)   total(A,70|T,8)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(T,11|A,114)      total(A,114|T,11) ;(T,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39820):
AGGTGAGCAAATAGTGAAAGTGAATGTACACCAGTTCTACAAGGTTGGCTGAGATAGGAAGGCAAGAAGAGCAGTAGTGATGGTGACTCAGAGTGGCAAA
W
TCAAATTCTTTATTTTTTAAAATTGGTGGAGTTTAGTTTTTAGGTTTGACAGGTCAGGATCACCTGTCATCTTAGTCTAGACTTCACTGGTTCCCATTAG
Celera SNP ID:            hCV16038084
SNP Position Genomic:     8590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39821):
CAGGAAATTGTCTGGAGTTCCATATGGCTGGAGGATAGATGATCTCTGTGGGTCGGAGCATTGGGTACAAGAGGAAAAGAACAGGACATAAGACTGTAGA
R
GTCTCCAAGGATCAGCCAGATCATGCAAGCATATTTAGGCTATAAGAAGGTCTTTATTTTAAAAGCAAGGTTTTAAAGCTGTATAGTGACATAATGAGAT
Celera SNP ID:            hCV16038085
SNP Position Genomic:     7027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39822):
CCGCGGCGATTCCGTCCAGACCGGAACCAGCGTGCGTCTGGCTCTCCTCCGCCGCTCTGGGACACCTCATTCTGTCTGACGCTCAAGACCTGGCTTCGAC
R
TTTATGGCCCTATGTCCCTCGACTACGGGTTGCCTGCCTGTCTGCATCGTTTCAAGTTCCCTTATTCAGCCTTTTAAGGATTCATAGTGGATTTGGAAAG
Celera SNP ID:            hCV16058400
SNP Position Genomic:     14818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:39823):
TTGCCTGCTCTCGGACATCCGTTCAGCAGACACTACCTCTTCGTCACCCCCTGCCCACCCTGACCCGCCTTTACCTCGCGTCTAGAGGACACAGCCAGGG
R
TCATCCCGCAGCCCCGAACTCCTTCACAGACCCCCACTAGCCGGGGACGCAGCTCAGGCCCCCTACCCCCAACACAAACACTTCTCTCCTGTAGAGGATA
Celera SNP ID:            hCV16058401
SNP Position Genomic:     6374
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,36)   total(A,65|G,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,40)   total(A,69|G,1)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39824):
GTCGGAGCGCTCAGACCTGCCAGAACCGACCCGGAAACCAAAGCGTGACAGCCAGGGGTTGCTAGAGCGGCCGGCGCGGCGCAGCGAACCATCGAGTTTA
R
CCAGGCGCGGCTAGAAGGGCAGGGAGGCGGTGGGAGGGGAGGGACGGAGGCCCGCGCTGCCCAAGAGCGCCACGGGCGGGGCGGGGCCGGCGGCGGGCTG
Celera SNP ID:            hCV3215332
SNP Position Genomic:     5957
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:39825):
GGCAGGGAGGCGGTGGGAGGGGAGGGACGGAGGCCCGCGCTGCCCAAGAGCGCCACGGGCGGGGCGGGGCCGGCGGCGGGCTGCGGGCGCGGCCGGACGG
K
AGTTCCCCGGAGAAGGATCCTGCAGCCCGAGTCCCGGTGAGTGCGAGAGGACCCGCGCCCCCTGTCACCCCTCACTTCTCCTGAGTCCCAAGTAAGGAAC
Celera SNP ID:            hCV3215333
SNP Position Genomic:     6075
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:39826):
TCTCCAAACTCTCACTCAGGAACTACCCTTACCCCCTAACACCTTGAACACCTTGCACCTAGAACCCCTGACTCCTTAGAGATGTCTGATACTTTAAAGC
R
TCACTCCCAAAAAGTCCAATCACTCAGAACCCCTGACCTCTACTTGCACCTTCACTCTTGTAGGCCTCTACTCCAGTGTTTGGGGGGATCCTATCCTTGA
Celera SNP ID:            hCV9599920
SNP Position Genomic:     1816
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(G,1|A,82)      total(G,1|A,82) ;(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39827):
AGATGATACTTGAAGACGTGGTTGTGAAGGAGAACGTCTCAGGAGAGTGGAAGGCAAGAGGTCAGGGGACAGGAAGCCTGCACGACAGAAAAGGAGCAAC
Y
GCAAGTTGAAAAAGAAATAGGAAAATGTGTGAGTAAAGCTTACAGAAGAGAATGTTTTAATGAAGGGGAGGTAGTCAACGGCAGTACAGGCTACTGAGAG
Celera SNP ID:            hCV3215334
SNP Position Genomic:     7654
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39828):
CAGGGTCTTCCTGGAAGAGACGCTGTGCAGCACTGCTGGGCCCTGAGTACAACTGTTCATTGAGGTAGCGAAATCGGGCCCCATCCAGCCGCTGTGCCAT
R
CGGGCTCGCAAAGCCCCTGCCCGAGCCTCATGGCTGTCTGTCCTGGGAACAGGAGACACCTCTGTCTTCTCTGTGGGGGCCTCAGCTGGGGCCTGGTCTG
Celera SNP ID:            hCV25603008
SNP Position Genomic:     3632
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,34)   total(A,2|G,68)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39829):
TGAGAATCAGCCCATCTCCAAACTCTCACTCAGGAACTACCCTTACCCCCTAACACCTTGAACACCTTGCACCTAGAACCCCTGACTCCTTAGAGATGTC
Y
GATACTTTAAAGCATCACTCCCAAAAAGTCCAATCACTCAGAACCCCTGACCTCTACTTGCACCTTCACTCTTGTAGGCCTCTACTCCAGTGTTTGGGGG
Celera SNP ID:            hCV9599921
SNP Position Genomic:     1802
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,21)   caucasian(C,13|T,27)   total(C,14|T,48)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,30)   caucasian(C,13|T,27)   total(C,17|T,57)   
SNP Type:                 INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(C,13|T,72)      total(C,13|T,72) ;(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39830):
ATGATACTTGAAGACGTGGTTGTGAAGGAGAACGTCTCAGGAGAGTGGAAGGCAAGAGGTCAGGGGACAGGAAGCCTGCACGACAGAAAAGGAGCAACCG
S
AAGTTGAAAAAGAAATAGGAAAATGTGTGAGTAAAGCTTACAGAAGAGAATGTTTTAATGAAGGGGAGGTAGTCAACGGCAGTACAGGCTACTGAGAGAT
Celera SNP ID:            hCV3215335
SNP Position Genomic:     7656
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39831):
GTAGAGAAGAAAAGCCTCAGGGTCTTCCTGGAAGAGACGCTGTGCAGCACTGCTGGGCCCTGAGTACAACTGTTCATTGAGGTAGCGAAATCGGGCCCCA
W
CCAGCCGCTGTGCCATGCGGGCTCGCAAAGCCCCTGCCCGAGCCTCATGGCTGTCTGTCCTGGGAACAGGAGACACCTCTGTCTTCTCTGTGGGGGCCTC
Celera SNP ID:            hCV25603009
SNP Position Genomic:     3615
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,40)   total(A,1|T,77)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39832):
CACGACAGAAAAGGAGCAACCGCAAGTTGAAAAAGAAATAGGAAAATGTGTGAGTAAAGCTTACAGAAGAGAATGTTTTAATGAAGGGGAGGTAGTCAAC
R
GCAGTACAGGCTACTGAGAGATCAAAGAACATTAATATTTTAAAGTAGCCATTGAATTTACAGTTGGGTTTTTTTTTTTTAAGTTAAGGGGTACATGTGC
Celera SNP ID:            hCV3215336
SNP Position Genomic:     7734
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39833):
CACATCCTTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGGCCTTCATACCAGGTA
S
GTGTGTTTGTGTGGATGGATGCAGGGTAAGAGTGAGGATGGGGGATCCTCAGTTCAGCTGACTGCTGGGCAGGCCACATGCCAATACTCACTCAAAAATG
Celera SNP ID:            hCV27859726
SNP Position Genomic:     1433
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39834):
AAGAACATTAATATTTTAAAGTAGCCATTGAATTTACAGTTGGGTTTTTTTTTTTTAAGTTAAGGGGTACATGTGCAGGTTTGTTGGATGGGTAAACTCA
K
GTCATGGAGGTTTGTTGTGCAGATCATTTCATCACCCAGGTATTAAGCCGTGGCACCCATTAGTTATTTTTCCTGATCCCTCCCTCTTCCTACCCGCCCC
Celera SNP ID:            hCV3215337
SNP Position Genomic:     7859
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39835):
AAACTCAGGTCATGGAGGTTTGTTGTGCAGATCATTTCATCACCCAGGTATTAAGCCGTGGCACCCATTAGTTATTTTTCCTGATCCCTCCCTCTTCCTA
Y
CCGCCCCACTCTGGTAGGCCCCAGTGTCTGTTGCTCCCCTCAGTGTGCAGTTAGGATGTATTTGACCATCTGTGAGTGTTGTTTCAGAATAATGGGTGAA
Celera SNP ID:            hCV3215338
SNP Position Genomic:     7952
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39836):
TTGTTGTGCAGATCATTTCATCACCCAGGTATTAAGCCGTGGCACCCATTAGTTATTTTTCCTGATCCCTCCCTCTTCCTACCCGCCCCACTCTGGTAGG
Y
CCCAGTGTCTGTTGCTCCCCTCAGTGTGCAGTTAGGATGTATTTGACCATCTGTGAGTGTTGTTTCAGAATAATGGGTGAAGAAATCAGACTACATTGGG
Celera SNP ID:            hCV3215339
SNP Position Genomic:     7971
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39837):
ACATCCTTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGGCCTTCATACCAGGTAC
R
TGTGTTTGTGTGGATGGATGCAGGGTAAGAGTGAGGATGGGGGATCCTCAGTTCAGCTGACTGCTGGGCAGGCCACATGCCAATACTCACTCAAAAATGC
Celera SNP ID:            hCV9599925
SNP Position Genomic:     1434
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,9)   caucasian(G,40)   total(A,1|G,49)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(A,3|G,160)      total(G,160|A,3) ;(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39838):
TCACTGTGGAGTCAAAGCTCCCAGGCTGCAGAGGTGTAAGCGTTGTCTAAGTTTAGGGTAGGAGGTCACCTGAGGCGAAGAGCAGGGTGAGACCCCGAGC
R
GCAGCCTTCATGAGCTCAGTGTTGACCCGCTGGATGTAGGCGCTGCTGAGGGAGTCCTCATCATCTCCATAGCTCACAGTATGCACATGTGGCAGGGCTG
Celera SNP ID:            hCV25597541
SNP Position Genomic:     18635
SNP Source:               Applera
Population(Allele,Count): african american(G,4)   caucasian(A,1|G,19)   total(A,1|G,23)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39839):
GTGCAGTTAGGATGTATTTGACCATCTGTGAGTGTTGTTTCAGAATAATGGGTGAAGAAATCAGACTACATTGGGTTCCTTAATTTAAGGCACTATGATG
A
ACACCTTCTGTGCTGGGTGCTAGAGTCCAGAATCTGACATAATCTCTGCTCTCGATACAGCAGATTTGTGGCAGATTGAAAAGTAGGCCGGGCGCGGTGG
Celera SNP ID:            hCV26881472
SNP Position Genomic:     8097
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39840):
TTTCAGGAGGAAGCTGTAACGAAGTTCCTGAGCTCTAGCCCCCACCTGCCACCATCCAGTTACTTCAATGCCAGTGGCCGTGCCTACCCAGATGTGGCTG
M
ACTTTCTGATGGCTACTGGGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCCGGAACCTCGGTGAGAATCAGCCCATCTCCAAACTCTCACTCAGGA
Celera SNP ID:            hCV27529587
SNP Position Genomic:     1636
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39841):
TGTGCAGTTAGGATGTATTTGACCATCTGTGAGTGTTGTTTCAGAATAATGGGTGAAGAAATCAGACTACATTGGGTTCCTTAATTTAAGGCACTATGAT
G
AACACCTTCTGTGCTGGGTGCTAGAGTCCAGAATCTGACATAATCTCTGCTCTCGATACAGCAGATTTGTGGCAGATTGAAAAGTAGGCCGGGCGCGGTG
Celera SNP ID:            hCV26881473
SNP Position Genomic:     8096
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,2)   total(G,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39842):
GTGTGCAGTTAGGATGTATTTGACCATCTGTGAGTGTTGTTTCAGAATAATGGGTGAAGAAATCAGACTACATTGGGTTCCTTAATTTAAGGCACTATGA
T
GAACACCTTCTGTGCTGGGTGCTAGAGTCCAGAATCTGACATAATCTCTGCTCTCGATACAGCAGATTTGTGGCAGATTGAAAAGTAGGCCGGGCGCGGT
Celera SNP ID:            hCV26881474
SNP Position Genomic:     8095
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39843):
GTTCAGCAGACACTACCTCTTCGTCACCCCCTGCCCACCCTGACCCGCCTTTACCTCGCGTCTAGAGGACACAGCCAGGGATCATCCCGCAGCCCCGAAC
W
CCTTCACAGACCCCCACTAGCCGGGGACGCAGCTCAGGCCCCCTACCCCCAACACAAACACTTCTCTCCTGTAGAGGATAAAGCTTGGGGTTCATCCTCC
Celera SNP ID:            hCV16038092
SNP Position Genomic:     6394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39844):
GAACGTCTCAGGAGAGTGGAAGGCAAGAGGTCAGGGGACAGGAAGCCTGCACGACAGAAAAGGAGCAACCGCAAGTTGAAAAAGAAATAGGAAAATGTGT
G
AGTAAAGCTTACAGAAGAGAATGTTTTAATGAAGGGGAGGTAGTCAACGGCAGTACAGGCTACTGAGAGATCAAAGAACATTAATATTTTAAAGTAGCCA
Celera SNP ID:            hCV26881475
SNP Position Genomic:     7685
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39845):
TCCCAAGTAAGGAACGGAGCCAACCCTGGGGAGGACCCCCGGTCCCCTCTCCCAGAGTATACGGAGCCTGAACCTCCCCACTTCCCCCAACTCTGTTCGC
S
GATAGGGTCTAGTTGCCTGCTCTCGGACATCCGTTCAGCAGACACTACCTCTTCGTCACCCCCTGCCCACCCTGACCCGCCTTTACCTCGCGTCTAGAGG
Celera SNP ID:            hCV16038093
SNP Position Genomic:     6261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39846):
AGAACGTCTCAGGAGAGTGGAAGGCAAGAGGTCAGGGGACAGGAAGCCTGCACGACAGAAAAGGAGCAACCGCAAGTTGAAAAAGAAATAGGAAAATGTG
T
GAGTAAAGCTTACAGAAGAGAATGTTTTAATGAAGGGGAGGTAGTCAACGGCAGTACAGGCTACTGAGAGATCAAAGAACATTAATATTTTAAAGTAGCC
Celera SNP ID:            hCV26881476
SNP Position Genomic:     7684
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39847):
GAGAACGTCTCAGGAGAGTGGAAGGCAAGAGGTCAGGGGACAGGAAGCCTGCACGACAGAAAAGGAGCAACCGCAAGTTGAAAAAGAAATAGGAAAATGT
G
TGAGTAAAGCTTACAGAAGAGAATGTTTTAATGAAGGGGAGGTAGTCAACGGCAGTACAGGCTACTGAGAGATCAAAGAACATTAATATTTTAAAGTAGC
Celera SNP ID:            hCV26881477
SNP Position Genomic:     7683
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39848):
CTGAGTCCCAAGTAAGGAACGGAGCCAACCCTGGGGAGGACCCCCGGTCCCCTCTCCCAGAGTATACGGAGCCTGAACCTCCCCACTTCCCCCAACTCTG
W
TCGCGGATAGGGTCTAGTTGCCTGCTCTCGGACATCCGTTCAGCAGACACTACCTCTTCGTCACCCCCTGCCCACCCTGACCCGCCTTTACCTCGCGTCT
Celera SNP ID:            hCV16038094
SNP Position Genomic:     6256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39849):
AGATCTGCATGAATGAAGACCCTGCAAAGCGACCCAAATTTGACATGATTGTGCCTATCCTTGAGAAGATGCAGGACAAGTAGGACTGGAAGGTCCTTGC
Y
TGAACTCCAGAGGTGTCGGGACATGGTTGGGGGAATGCACCTCCCCAAAGCAGCAGGCCTCTGGTTGCCTCCCCCGCCTCCAGTCATGGTACTACCCCAG
Celera SNP ID:            hCV9599896
SNP Position Genomic:     12918
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:39850):
AAAGGGGTGGCAGGATAAGCCTCCACTGTTGTGGAAGGTAATTACTGATTCATTAAGCCTCCCCTCACACCTTGCTCTTGCTCCGGGAGCTGCCGGAGGC
Y
GTGCCCTTCATTTTGCAGTGCTGTAGGGCATCATTGGCAATATCTGAGATGAATTTCTGGGCAGCTAAGGAGATGAGCCGAATTCTAGAGAGAAAAAACT
Celera SNP ID:            hCV9599897
SNP Position Genomic:     13508
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,22|T,10)   total(C,51|T,15)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,4)   caucasian(C,13|T,3)   total(C,41|T,7)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39851):
CAATACTCACTCAAAAATGCCTTTCAGGAGGAAGCTGTAACGAAGTTCCTGAGCTCTAGCCCCCACCTGCCACCATCCAGTTACTTCAATGCCAGTGGCC
R
TGCCTACCCAGATGTGGCTGCACTTTCTGATGGCTACTGGGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCCGGAACCTCGGTGAGAATCAGCCCA
Celera SNP ID:            hCV27537176
SNP Position Genomic:     1615
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39852):
GTAACAAATTTCCCCTCTGACATCCGAACCCACATACTAAGCCCTAACCAATTAATATGAATGCTACACTTGGTCTCTCTCAGGTGACAGTGGGGCCGGG
Y
GTTGGTCTGTCTCTGGAAGACACCAGTTCCGCCCTACCTTCCCTGCCTCCAGGTAAGTACTCTAGCCTACCACTCAGGTATAACCACCACCTTTCACTTG
Celera SNP ID:            hCV27861501
SNP Position Genomic:     814
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39853):
TAACAAATTTCCCCTCTGACATCCGAACCCACATACTAAGCCCTAACCAATTAATATGAATGCTACACTTGGTCTCTCTCAGGTGACAGTGGGGCCGGGT
R
TTGGTCTGTCTCTGGAAGACACCAGTTCCGCCCTACCTTCCCTGCCTCCAGGTAAGTACTCTAGCCTACCACTCAGGTATAACCACCACCTTTCACTTGT
Celera SNP ID:            hCV27861502
SNP Position Genomic:     815
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39854):
CCAGCAAGACCTGGGCTATACTCACCCCTCCCCACATATCTTGGAGGTCCCCTTGGGTCCCCTACTATCCAAATGCTGTCTTCTCCCCTCAGCCCCTATG
W
CACCACAGTGGGAGGCACATCCTTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGG
Celera SNP ID:            hCV27861503
SNP Position Genomic:     1317
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39855):
ATCTCCCACCCCCTTCCCCACTGTCCAGTCCTCTTGGTAGTACCAGGGCTACTGTAGACCCAGGTGGAGATGTTGGCACCAGCACTCATCAGGTACTGCA
Y
ATCTAGACTGGCCTCAATCCCGGCCCGGCCCCGGCCCTGTTGTCCAACCACACGGGCTACTGATGCCTGATGTGCAAAGTTGCCACCGAAGAGGCGCATG
Celera SNP ID:            hCV27859192
SNP Position Genomic:     19006
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39856):
ACCCATCTCCCACCCCCTTCCCCACTGTCCAGTCCTCTTGGTAGTACCAGGGCTACTGTAGACCCAGGTGGAGATGTTGGCACCAGCACTCATCAGGTAC
K
GCACATCTAGACTGGCCTCAATCCCGGCCCGGCCCCGGCCCTGTTGTCCAACCACACGGGCTACTGATGCCTGATGTGCAAAGTTGCCACCGAAGAGGCG
Celera SNP ID:            hCV27859193
SNP Position Genomic:     19002
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39857):
GGGCTATACTCACCCCTCCCCACATATCTTGGAGGTCCCCTTGGGTCCCCTACTATCCAAATGCTGTCTTCTCCCCTCAGCCCCTATGTCACCACAGTGG
R
AGGCACATCCTTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGGCCTTCATACCAG
Celera SNP ID:            hCV27861504
SNP Position Genomic:     1329
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39858):
GAGGCACATCCTTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGGCCTTCATACCA
S
GTACGTGTGTTTGTGTGGATGGATGCAGGGTAAGAGTGAGGATGGGGGATCCTCAGTTCAGCTGACTGCTGGGCAGGCCACATGCCAATACTCACTCAAA
Celera SNP ID:            hCV27861505
SNP Position Genomic:     1429
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39859):
AAGAAATCAGACTACATTGGGTTCCTTAATTTAAGGCACTATGATGAACACCTTCTGTGCTGGGTGCTAGAGTCCAGAATCTGACATAATCTCTGCTCTC
R
ATACAGCAGATTTGTGGCAGATTGAAAAGTAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCTGGTGGATCACGAGGT
Celera SNP ID:            hCV3215340
SNP Position Genomic:     8151
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39860):
GTAAGAGTGAGGATGGGGGATCCTCAGTTCAGCTGACTGCTGGGCAGGCCACATGCCAATACTCACTCAAAAATGCCTTTCAGGAGGAAGCTGTAACGAA
K
TTCCTGAGCTCTAGCCCCCACCTGCCACCATCCAGTTACTTCAATGCCAGTGGCCGTGCCTACCCAGATGTGGCTGCACTTTCTGATGGCTACTGGGTGG
Celera SNP ID:            hCV27861506
SNP Position Genomic:     1559
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39861):
TATGATGAACACCTTCTGTGCTGGGTGCTAGAGTCCAGAATCTGACATAATCTCTGCTCTCGATACAGCAGATTTGTGGCAGATTGAAAAGTAGGCCGGG
Y
GCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCTGGTGGATCACGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCC
Celera SNP ID:            hCV3215341
SNP Position Genomic:     8190
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39862):
CAGTTACTTCAATGCCAGTGGCCGTGCCTACCCAGATGTGGCTGCACTTTCTGATGGCTACTGGGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCC
R
GAACCTCGGTGAGAATCAGCCCATCTCCAAACTCTCACTCAGGAACTACCCTTACCCCCTAACACCTTGAACACCTTGCACCTAGAACCCCTGACTCCTT
Celera SNP ID:            hCV27861507
SNP Position Genomic:     1692
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39863):
TGGCCAGACCCCTGATCAGCTCCAGGCCTTGCCTAGAGTCGCACACAGGAAGTGACCACAACACTAAGGCATCCGGAGGCTGCTGGCCCAGACCACGGAC
Y
GCCCCCTGCTCCGCCCCTTGAATCTGCAGCCCCGAACTGGAGGGAATTTCCTTTTATGGCCCCAGGCTGTCAGGCAGGCCCAGCTCCAAACCAATTGTTT
Celera SNP ID:            hCV27840780
SNP Position Genomic:     9437
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,35|T,1)   total(C,65|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39864):
TTCAATGCCAGTGGCCGTGCCTACCCAGATGTGGCTGCACTTTCTGATGGCTACTGGGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCCGGAACCT
Y
GGTGAGAATCAGCCCATCTCCAAACTCTCACTCAGGAACTACCCTTACCCCCTAACACCTTGAACACCTTGCACCTAGAACCCCTGACTCCTTAGAGATG
Celera SNP ID:            hCV27861508
SNP Position Genomic:     1699
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39865):
GTAAAGTATGGGGGCCAAAGTTGGCTATATGCTGGATATGAAGAGGGGGTTAATTCCTTGCAGGTCTTCTTGAGATAGAAGTCCAGGCCCTGAGGTGGCA
S
GCAGCCTGATAGTGAACAGAACCCTTGTGCCCATACTTTTGCCCCCCGAGTTTGGCCTGCCCTGGCGCCACAGGCAGTACTGGAAGCTGATAAGTCAGGG
Celera SNP ID:            hCV3215342
SNP Position Genomic:     9048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39866):
TCTTCTTGAGATAGAAGTCCAGGCCCTGAGGTGGCACGCAGCCTGATAGTGAACAGAACCCTTGTGCCCATACTTTTGCCCCCCGAGTTTGGCCTGCCCT
R
GCGCCACAGGCAGTACTGGAAGCTGATAAGTCAGGGCACAAATTAAAGGTCTAGGAGGCAAGACCAACTGATAAACAGGGGGCGTAATGCTTCCTGGGGA
Celera SNP ID:            hCV3215343
SNP Position Genomic:     9112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39867):
TGTATGTAGAACCAGCTGACCCCCCGACACACACACACCAACACACACACATATACACATCCAATGGTACCTGTTTGGTCAACATTGTCCAGGTGCTGGG
S
TGAATTTATAGGGGCATGTTTCTGGCATTTCCTCTTTCTTTTCTCATCTTCAGCAGAGTCACTGCCAACAAGAGCCTGTTTGTGGCATTTCTTCTTCCTT
Celera SNP ID:            hCV25603017
SNP Position Genomic:     4171
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,3)   caucasian(C,40)   total(C,75|G,3)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39868):
GGGGGGATGCTGGGAAAGAGATGCTGCCTCTAGGGCCCGTAATGTGGCCAAGAGCTGGCGGCGCTTGGAGCCCTGGAGGAAAACAGGGGATGACAGTGGG
Y
CTAAAGAGAATGGATGAGGCCTGGAGAACAAGAAGGGAGAGATGTGGACCTGATTCAGACTGGCAGAAGCATCTGAATTCTTCCCAGTCAAGCCTGCCAG
Celera SNP ID:            hCV25603018
SNP Position Genomic:     4533
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39869):
TGTGGTGGAAAACAGAAAGGACCAATAGATGTTGCAGAAGGGGTGCAAGAGAAACCAGGGGAAGAGCACTACCACCTAAGGAAATGAGATGTGGGATATG
R
TGAAGATAACACATTTTTTTATAGAGGTTGTTGAGATATCTAGGTGGTTGGTTTGGTTTGAAGCTCAGGGGAAGGTCTGAAATGGACAGCTTTGGGAGTT
Celera SNP ID:            hCV3215346
SNP Position Genomic:     10101
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Gene Number:                 180
Celera Gene:                 hCG24334 - 149000145776913
Gene Symbol:                 CTSH
Protein Name:                cathepsin H;CPSB;MGC1519
Celera Genomic Axis:         GA_x5YUV32W5LP(3470448..3505792)
Chromosome:                  Chr15
OMIM number:                 116820
OMIM Information:            CATHEPSIN H;CTSH


Genomic Sequence (SEQ ID NO:12340):
GCTTGCAGAAAAGTCCAGAAATGAGTACTCTGTTACAGGGCCAGGACTAGGGCGAGAGCAGTGAGGCATACTACTGAGGTGCAAAATGTCAGGGAGTGTC
CAAAAATGCAGTAATCAAGATAAATAATACTTGAATGCAATGTTTTAAAATGAAAAGTTAATGCAAAAAACACATGGTGAGCAAAATGTCACGTTTTAAA
AATAAATATGGGATCAGGCAGTCGCTCGCGCCTGCAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTTGAGAACAGCCT
GGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGACGAG
AGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAATGAGCCGAGATAGCACCATTGTACTACAGCCTGGGCAACAAGAGTGAAACTCCGTCTCGAAAATAA
ATAAATAAATAATCGACCTTTGGACTTGCACAGCATAACCTCGCTGCTTCACCCTGATCCTGGCTGTGATGAAACACCAGCTTCTGGACTTTTCTGCAGG
TCTCCACACTTTTCTTGGCTGTGGGTGCAGCATCTCCAGGGTTTGGCCAAAGGGGTGGTGTTCTCCATGTTCTCTGGCTTTCCAGGGGACAAACAGTGCC
TTCTCATTCAGTCAATGGACATTTTTCAGGCTGGAATTCTCTGACCCACAGCCAAGGGAAGTAATCAAGGTGGCTAGGCAGGATGTCTCCTGGCCAACAG
AACTAACAAGAGTTCAAATTCACATTACAAGGCAGCTGAAGCTCCTTTGGTGGCTGAACCTCCTTGATGCGGACTTACACCCCTACTGTATTCGTTACCT
TTTCCACTCTACAAACTTTGGTCACTCATCCCTGCATCCATTCATCCCTCCTTCCACCCATCCATCCAACAATACAGCTGTTGGTCCATCTTGCCATGGA
CAGAGCCGTCTATCCAGCCATCCCTTCTTCTATTCATTCATCCACACATGCATCCAAACACATAGCCAGGCACCCAACCACTGAGCCAATCCCCTACCGA
CCTACCATATAAAATCAGCCTGTGGATGTGGAAGGAGTCCCACCCCTTACCAGCAGGCCTACTTAACTTCTCCAAGTCTCAATCTCTTCATCTGAAAATT
GAGTATGTGTATGCTCATAAGGGCCTTCACAGGGTTGTTATGAGCAGTAAATAACAAAACCCATGTGAATGGTGGCTATTATATTACCATGGTAAGAAAA
TGAATGTGGCGAAAGGCCCAGCTTGTCTGCTACAATGTTGGCTCTAACAGGTGATCTGGAAAACCAGTCAAACCTGTAGTTAACAGTTGTGGGGGGTGGG
GGAGGGGGGTGATAAAGTTGTGTTATCCTTTTTGTTATCCCCAGATTCAGCTTAAGGAAAAGAATAAATGGATGTGGGGCAGGTAACAATGACTAGAACA
TTCATGCAGGAGGCATTCTGCATGCAGGCAGTGACTGCAGATTCCAGGACCTGTGGTTAGCGGACTCCTATTGATGTTTCTGGGAACTCTAGACCTGGAA
GTTCAGGTAGGTAGGCAAGCCTCAGGACTCATCGTCATCACTTGTTCCCATGGGGCAAATGCTTTAGTGGAGAACTCTGGACTCAGGTAGCCAGGGGTTC
ATGCAGGGGTTCAAATCCCACTCTTACTTACTTGTGTGGCCTTAGACAATGTACGTAAGTGCCTCAATTACCCCATCCGTACAATGGGGATTAAGAAGTG
AAGATTCTGCTGATACGGTGGCTCAGGCCTATAATCCTAGCACTTTGGGAGGCCGAGGCAGGTGGGTTGCCGGAGCTCAGGAGTTTGAGACCCGCCTGGG
CACCATGGAGAAACCCTGTCTCCACTAAGATACAAAAAATTAGCTGGGCGTGGTGGTGGGCACCTGTAATCCCAGCCACTTAGGAGGCTGAAGCAGGAGA
ATTGCTTGAACTGGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCCAAAAAAACTAA
ATAAAAATAAAATAAAAGGTGAAGAGTCACAAAGTTTATTTGTGTGAGGCACTTGGAGCAGGGTCCAACACATCCCCACAAGAGGTCATGACTCTGACCA
TGGATAGGCCTGTTCTTTGCCCTTGGCCTCCCAGCCCCCATATGCACCAGACCTTCAGACCAATGAGGCACCTGCCAGTTTGGGTGTTTCATCTGGTGTA
TTGGTTTCTTCCTATTGTTGTGTTCTAATTACCACAAACTTAGAGGCTTATAATAGCACAAATGTACTCTACGGAAGTTCTGTAAGTCAGAAGTCCATGT
GGACTTGGTTGGTTCCCTGGAGGGTCTGGGGGAGAATCTGCTTCCAAGCTCATTCAGAGGGCTGGCAGAATGCAGTTCCATGCTGGTGAAGGGCTGAGGT
CCTGGTTTCCTTGCTGGCTGTCACTACGGTTATTTCCAGCTTCTATAGGTTGCCTGTGTACCTTGGCTTTGGCCCTCTTCAAAGCCAGCAGTGGCAGATA
GAGTCCTTCTCATGATTCAGCGCTCTCTGACCCCACCTGCCTCATCCCCCCTCTGACTTCTCCGACCTCTCCTTCTGCCCCCTCTCTCCGACTCTTCTCC
TATGCTCTTCTGCTTCTAAAGGCCCACATGATTCCACAGGGCCCCTCGGATAACCCAGGATAATCCTATTTAAAGTCAGCTGATTCAAACGTTGATTCCA
TCCGCAAAGTCCTCCATGGCAGTCGCTAGATTGTGCTTGAGTGAATAGGAAGCTTTCGAGTTCTGCCTACCAGCCCTGTCCAGCCAAGACTGTGCCAGCA
GCTGCAGTCCTCAGCCTCATTTCTGTAGAGGTGCAGAGGACTGGAACCACGGAGAAGCCCTCCAGCCAGCTGGAGCCAGAGGGTCAGACAAACTCACCAT
GAAAAGTGTGTGCAGGTAGCAAAGGATAAAAAGCACACAACGGAGCATCAGAAAAGCCCATGCATGGGGGGAGTCTCTATTCTGGTGCCATGCTCAGGGC
CAGGTATTTTACCTATAATTATATTTAAACTGCATGACCGTATCTAACTACCCTGGAAAGCAGGGATACTTGCTCCATTTTACAGATGAGGAAACTGAGG
CTGGTGGGGGGGAGGCGGGGGGGAACCATTTGCTTAGGTCACACAGTGAATCTGTAGTAGGGCTAGAACCAAACATTGGTCTCCAATTAACCAGGTCAGT
GCCCTCCACATCTCAGCACCCAGGGGCCCTGGCCTGCTGGAACGATCCACAAAGGAGGGTCACCAGGGACCTAGCGCAGGAGGCAGCTCTGGGGCCTGAG
GTCTAGCATGCAGAGCTTTCAATTCTGACATCCTCCAAGTGGCTGGGATGGGCAGAGGGGTGAAGCATTCCAGGTACACATGAAGGGCAGGACATCTGCC
TAGAAGGACACCTTTATCCCAAGGCCAGCGACTTCTGTTCCAAATAGTAACCGAGCAGGGTCTTTTCTGAGACATATGCCTCAAAGCACAGAGAGACTGG
TCACACCCAGAGAGGGGCATCCAGACAGAGATGGAGTCACAACCTAAGGAAGATCTGCTTTATCTGAAAAAAGGTGCCTGCTGGAGCTCACCCTGGTTCC
ATGGAGATTCCATGTCCACATGCCACACTGGCCACAGGAGAGGAGAGAGACTGTGGGGGAGGCTCTTTAAATGCAGATTTCTGAGCCCTACCCAGACCCA
GTAGGTCATATCCCAGGAAAGAAGTCCAGGAATCTGCTTCCCCAGGTGCCTGAGACACAGAGTCTGGGCTAGAACATCAGGGGATGAAACACCAGTCGGA
GGGAGGCCACGAGAGAGCTCAGATCTGGCTCTACTCACAGGTTGGAAAGATGCATTTTTAAAAAGAGAGGGAAGGGCACAGAGGCTCACATCTCTAATCC
TAGCACTCTGGGAGGCTGAGGCAGGAGGATCACTTGAGCCCAGGAGTTTGAGACCCCATCTCTACTAAAAATACAAAAAAACTAGCTGGGCGTGATGGTA
CGAGCCTGTGGTCCCAGCTACTCAAAAGGCTGATGTGGGAGGATCTCCTGAGCCTGGGAGGCCAAGGCTGCAGTGAACTGTGATGATGCCACTGAACTCC
AACCTGGGTGGCAAGAGAGCCAGGCCCTGTCTCAAAATAAATAAATAAAAATTTAAAAATGAAGAGACAGAGAAAGAGCAAGCCCAGAGCAGAGAGCACT
GCAGTAGGTCAAGGCTGGGTTCAGACACTCTCTGCGCACAGACTGGGAAAGTTACCATCTACTCTTGTGGCCTCAGTTTCCTCATCTGTAAAATGGGGGG
TCAACAACATGCCACTTTGCAAGGTGATGATGTAAGTGAAGAACAGGGCATCACTGGGCATTTGAGGCTACGGCACAGGCTGGTCTGAATCACCCTCTCC
TCACCCAAAGCAGTGACAGCACCGGCCTCCTCAGCCTGGAACGCACGTTCTTCTGTCTGTCTCACACCCAGACCCTTACATACCATCTTCTTTAGCTTTG
CAAACTACAGAGAATGGCCCTACAGCTCTTAATGTAGCTTCCTCAGCAGAAAGACTAAAATGTCTGTTGAGGGGGCAAAACAATTCACAAGGAGGTCGTC
TAGCTTCTTCAGTTGTAAGTCCACTCCAAGCAAAAGGGAAGCCAGGGAAATGTGGTTAACCAGGGCAGGGAGACGTGGGGAGTGTGGGGGAAAGTCTGAG
GTGGAGACACACAGGGACATGGGGGGTATGAGGTGGGGACAGGCAGGGAGATGGGGGTGCAAGGTGGAGACACGCAGGGACATGAGGGGGTGTGAGGTGG
GGACAGGCAGGAAGATGGGAGGTGCAAGGCGGGGACAGGCAGGGACATAGGGGTGTGAGGTGGGGAAATGCAGGAAGATGGGGGGATGTGAGGTGGGGAC
TGGCAGGGATATGGGGGTGTGAGGTGGGGACAGGCAGAGACATGGGGGTGTGAGGTGGGGACAGGCAGGGACATAGGGGTATGGTGGGGATAGGCAGGGA
GATGGGGGGTGCGAGGTGGGGACAGGAAGGGACATAAGGCTGTGAGGTGGAGACAGGCAGGGACATGGGGGGTGTGAGGTGGGGACAGGCAGGGAGATGG
GGGGTGCGAGGTGGGGACAAGCAGGGACATGGGGAGTGCGAGGTGGGGACAGGCAGGGACGTGGGGCGTGCGAGGTGGGGACAGGCAGGGACATAAGGGT
GTGAGGTGGAGACAGGCAGGGACATGGGGAGTCTGAGGTGGGGACAGGCAGGGAGATGGGGGGTGTGAGTTGGGGACAGGCAGGGAGATGGGGGGGTGCG
AGGTGGGGATAAGCAGGGACATGGGGGTGCGAGGTGGGGACAGGCAGGGACATGGGGGTGGGAGGTGGGGACAGGCAGGGACATAGGGGGTGGGAGGTGG
GCACATTCAGGGAGATGGGGGTGTGAGGTGGAGACAGGCAGGGACATAGGGGGAGCGAGGTGGGGACAGGCAGGGAGATGGAGGGTGCAAGGTGAAGACA
GGCAGGGACATGGTGTGAGGTGGGGACAGGAAGGGACATGAGGGGTGCGAGTTGGGGATAGGCAGGGAGATGGGGGGGTGCGAGGTGGGGACACGCAGGG
AGATGGGGGACGTGGGGATGGCGACAGGCTGGGAGAGGGAGAGGCCAGGCTGAGACCTCCCCGCGCGGTGCCAGCCAGTCCAGGCAGATCCAGGACTCAG
CCAGGCCTGATACCCAGATAAGCCCTTCCTCCCAGAGGAGATAAGGGAGCGACGCGGCCGGCCGACAGGTGAACTAGAGCTGGCGAGTTAGTCGGCGCCG
CCCCCTCCCGCGAGCCCGGCCTCGGGGGAGTACCGCCCACCCCGCCCCGCGCTCGCTCCGCCCCGCGCTCGCTCCGCCCCTTCGCGCTCCCGCCGCTCCT
CCACGCTCGTGCCGCCCCCCCCCGCGCTCCCAGTTGACGCTCTGGGCCGCCACCTCCGCGGACCCTGAGCGCAAGAGCCAAGCCGCCAGCGCTGCKATGT
GGGCCACGCTGCCGCTGCTCTGCGCCRGGGCCTGGCTCCTGGGAGTCCCCGTCTGCGGTGCCRCCGAACTGTSCGTGAACTCCTTAGGTACGCAGAGGGC
GCGCCGCCCGAGAGGGTGCTAGCAGGCCCTAGAGTGGACKCTGGGAGAACTTGGCCAGGGGCGCACTGGGCTCCGGAGGAACGGGGCAGAGCTTTCCCCG
GTGAGAGGCCAGGAACTCTGCRTGCTGGCACGGGGAGGGGTAAACTGCATTATAGGCGGGGGTTCTCGGAGGGTGGGCGGCTTGTAGGACCAGAGGAGCA
GATGGGCTGAGTGTCCAGGGTCCCACCTAGCCAGGTGGCTCTCCAGCCTAGAATACCAAAGGAGCCCGCAGCTCCTTCCGCCTTCCYCAACTGGGGACAC
AGAGTGTCACACAGAGGACTCTGATCTGTCCCTGCCAGAGGTGAGCAAGGACGTCCCAGCCTTCTCTAGCAGCTTCCCCCGGGACTTGGCACACAGGGGA
TCCCCGTAGTGTCTTGGGAGTCCCATCTGTAGAGTAGGTTGGACGGGCTGTTTGGAACAGTGAATCCCTGTGCAACGGCACCAGGGAAAGCACTCAGACC
AACAGCGCTTTTAACAGCACCCCAGGGCCCATGGCGTCAGGTGGAGCCCCAGGACTCCTCTTGTTGGCCAGGTTGGCTGCGACTGGTCCAGCTTCGTGCT
GCCCTTGCATCCTGTCTACTGCCCGGGCTCAGGCACCTCCCCTGGCTGAAGGCAAGGAGCCTGCTCTTCCCTACTGCCTCCCTCCTTTCCTACTGTCCCT
GGTCCCAGCCTCAGCCCACAGGCTCTGAACTTAAAGACCACCTGCCCCCTTCACMGAGAAAAGTAGCCAAGAAACAACCCAAGGAGCCAAGAACCTAGGG
AGGGGGGGTGCCCTGAGCTCTGGAGGAACGGGACAGGGCTTTCCCCCAGCTAGAGGCTCAGGGGATGGGACAGAGATCACTGAGGCTGAATCTGGGCCAG
AGGGTTGCCTCATTCCTTCCCACCTATTTATTTAAAAAGCTCCCCAGCCTTGCAAACCTCAGTGGGCGCCCAGCTCCAGGTCAGTTCCCGCCTAAGGAAA
ACCTAGCTGCCGCAAGCGAGGGCTGCCTGGAGAAGGCTGGCGCTGAGAGGCTGTCTGAATTCCAGAGCAGGGCTTGGCAAACTTTTTCTGTGAAAGACCA
GACGGTAAATAACTTAGGCTTTATGGTGGTCTCTGTAGCAACTACTAACTCTGCCATGGTAGTGTGATAGCAACCATAGATTGTATGTAAGTGAGTCAGT
GTAACTGGGTTCTAATAAATGATTTTTATGGCCACTGAAATTTCAGTTTCAAGGGATTTTTGGGTGCTACGAAATATGTTTCTTCTAACCATTTAAAATT
GTAAGAAACCGTTTGTAGCCCAGGAGCTGTACTAAAACAGGAGTCAGGGACCGGCTGCGGTGGCTCACACCTGTAATCTCAGCAATTTGGGAGACCGAGG
CAGTCGGATCACTTTAGGTCAGGAGTTCGAGAGCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTAGCC
AGGTGCCTGTAATCCCAGGTACTCAGGAGGCTGGGGCAGGAGAATCGCTTGAAACTGAGAGGTGGCGATCACTCCAGCCTGGGTGACAGAGTAAGACTCC
ATCTAAAACAAACAAACAAACAAACAGGGGAATACTGTACTTTCCTGAAACCTGCTGTAAATCCAGGCAAGGTATTATGGCACTTTTAAAGTCCTGACTA
GATTGGAATGGATCTATTTTAGGGTAAGGCACGGTTCACCAGCAGATTATTCTGGCCCCAGAATAATCTCTCCRGAGGCAAACTGGTAGTCAATTGTCCT
AAACTCAAACCCTGCCTCCAACTCTTGTCCTGAGTTGAGGTCTGTCTTCCTCTAAAGCCCTCAGCTGCAGCAGGGCCCTTAATCAAGATCTGGAATCCCC
TGAAACCCTAAAGGGAGCCATGTTGAGGAAATGTGCATTTTCCCCAGGGAAAACGGCCATAGATTGGTCTCTGGAACAGGTTCGAGACCCAAAAACGGAG
ATCTAAATGCTGTGTGGTAGTGATCTTCACACTGGAGGTATGGATCCTTGGGGAAACACGAAGATATTTCAAGTGATGCCGGCAGAGAGTGTTCTGGAAA
TCCATTTACAGACCTTTTATTTCCAAGTGTCCTCTTTGCTAAAACTGGGAGAGAGCCCCTGAAGGCAAGGGGGAACCTCTTTCCTCTCATTCAATCTGAA
CCTGAACCCATGGGTATAAAAACAATAGGGACAGCAAACAAAAAGACAAAACGGTAATAAATYGTTCATATCTGGCATTCTCAATTCCTCAAGGAAACTG
AATTGAAGAGGAGAGGACTTCATGGGGATATCAACTGATGAGGTCTTAAAAATAAYGTTGAGTGAGGCCAGGCGTGGGGGCTCACGCCTGTGATCCCAGC
ACTTTGGTAGGCCAAGGTGGGTGGATCACCTGAGGTCAGAAGTTTCAGACCAGATTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATATAAAAATT
AGCCGGGCGTGGTGGTGGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGATAGAATTGCTTGAACCAGGGAGGTGGAGGTTGCAGTGAGCTGATATCG
TGCCACTGCCCTCCAGCCTGGGCAACAGAGCCAGACTCCTTCTCAAAAAAAAAAAAAAAAAAGAAGGAAAGAAAGGGAGGGAGGGAGGGCTGAGTGATAG
AGCACCATGGGATTRGATGCACAGAAAGGAGTGCGAAGAATTAAGTGGCRTTGCTCTTAAAAACTGCCTCCATTCCCAGCTGCTTATTTGAGCAGGGTTT
CCCAGCCCTTTGACCTATAAGAAACAAAAATAAGASCAGAAWTAATGCTGAACCTTTTCTCAACCAAACAATATTCACTCATGAAAATATAAATCCATTG
CGGGGGATGGGCAGTAGAGTACTGTTTATCACATTAAGAGATGCATTTCTGRTACAATTTTACTTTTGATGTTTAACAATTACTTTTCATAATGTATAAT
ACATTTGAAATGTTTTAATCAGTTGGGACACTAATAATAATTATGATTACTCAATCCAGAATAAATTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTC
TGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCCCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGG
GACTGCAGGCGCCCGCCACCACGCCCGGCTAATTTGTTTTTTGTATTTTTAGTAGAGTTGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTTCTGA
ACTCGTGATCCGCCCGTCTCAGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCTCCAGAATAAATTTTTATAATATTCACAGATGT
ATGGGTCACAGGTAGTAAAAACATTTAATTTTTTTTTTTTTTTTTTTTTTTTTTTTAGACAGAGTCTCGCTTTGTCGCCCAGGCTGGAGTGCAGTGGCAC
GATCTTGGCTACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCATGCCACCACGCCTGGC
TTATTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCATGATCCACCTGCCTCAGCCTCCCAAAGTG
CTGGGATTACAGGCATGAGCCACGGCGCCCAGCCAAAATAAATAATTTAAATTTAAACTTTTTGTTGTTGTTGCAGAAAAGAATGTGAAGGTGATCAAGC
ATAAAAATGTATGTTCCCTTAGGATAAAATTCTGCCAGGTGGGGATGGAGATAGGTGTTCAACAAGAAAAAGAAACTCTGTATAATATCTGACTCTTTTT
TGTTTTGTTTTCTTTATTTGAGATGGAGTTTCGCTCTTGTCACCCAGGCTGGGGTGCAGTGGCACAATCTCGGCTCACAGCAGCCTCCGCCTCTCRGGTT
CAAGCGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTGGAGCTGGGGTTTTG
CCATGTTGGCCAAGTTGGTCATGAGCTCCTGACCTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCCG
CCTAAATACCTGACTCTTATAGAAAAGTTTGTTCATGTTACTGATGGTGGATATCAAATCATCATGGTATTTAGATTCCACTGGCTAGCTTTAAAAGAAT
GATATAACAATCTTATTTTTAGAGATTTTTTTTTTTTTTTGAGACAAGGTCTCACTCCTGTCACCCAGGCAGGAATGCAGTGGCGCTATCATAGCTCATT
GCAGCCTCAACCTCCCAGGCTCAAGTGATTCTCCCGTCTAATTTTTTTTATTTTTTTGTAGAGACGAGGTCTCACTTTGTTGCCCAGACTGGTCCCAAAC
TCCTAGGCTCAAGGGATTCRCCTGTGTCAGCCTCCCAAAGTACTGAGATTATAGGCTTGGGCCACACTGCCAGGTGTTATTTTTAAATCTCAATATTTAT
AAGTTGGAATATGTCTTTGGAGGTATTCAAATTTAAAATGAAATGTTTAGATAAGAACATACATGGGGAAATACGGCAGGAATCCAAAAACAAATGGCTG
GCCTGCTTTTGTAAAATATTTTGTCTTGTTTGTTTTATTATGTTTTTGATAATATCTGTACATATTTGGGGGTACATGTGAGGTTTCGTTTTTGTGAAGT
CTTGCGGGAACGCAGTCCTACCCATTAATGTTCACAGTCTCTGTGGCTGTCTCTGAGCCGCAGGGGCAGAGTTGAGTAGTTGTGGCAGAGACCATATAGA
CGGCAAAGCCTGAAATATTTACTACCTGTCCCCATAAGGAAAAACAGTGCTTGCCCTTGGAATAGATAGGTTTGTTTTTTGTTGTTGTTGTTTTTGAGAC
GGAGTCTCTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTCAGCCTCCCGA
GTAGCTGGGATTACAGGCACACACCACCATACCCAGCTGATTTTTATATTTTTGTGGAGACAGGGTTTCGCCATGTTGGCCAAGCTGGTCTTGAACCCCT
GACCTCAGGCAATCGGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCTGGAGTAGATAGCTTTTTAAATTAACTTC
TTACCGAAATATAACTTCATACAGAAAGGGGCACAAATCATTGAGTATGCATTTCCACGAATTTTCTCAATCTAAACACACTCAGTTAACCAGCGCCCAG
TTGAAGAAACAGGATATGAGCAGCATCCCGGAAGTGCTTTCTGCACCCCGACCCAGTAGGCATAACCACCATCCTGACTTTCAACACCATTGACTAATAG
TATATACTTTTTCACATTAATTTGGGGTACAAAACCAGGAAGAGTCGGAGTTTCTTTTTGCATTCTGCATTATATAACACCATTTTTGGTGTTTTAAATT
TAGYCCAGTTTTCGAAAATGCAAATCAGTTCTAAAGTGCCCTACTTTGCTATAGACTCAACATTACTGTGATGCGCCCAGACCTAATTTTTTTTTTCTTT
TYACAGAGAAGTTTCACTTCAAGTCATGGATGTCTAAGGTCRGTGCCCAACTTCTTCTTTTTGAAGTTTTTCATTTCACAAAGTTTCCTGTTATCAAACC
AAACTGTCCCAGATTTGAGACAATGAAAAAGGGAATTTCCAACTTTGCCTAGTGGGGTCTTTCCAGAAGTTGAACTGGCCAAACACTGGGAAAGATGCAG
TTAAGTAAATTCCTTCCAAATAGTGGTCCCAAGTGATTAACTTGGCTGACAGCCTTCCAAGCCCTGGGATTCATTTCTGTATTTTGTTTTCAAAGCACAT
TGTGGAGAATGTAAATTAGTACAACCATTGTAAAAAAACAGTATGGAGGTTCCATCAAAAACTCAAAACAAAACTACCATATGACCCAGCAAGCCTACTA
CTGAGTATATATCCAAAAGAAAGGAAATTAGTATATTGGAGGGATATCTGCACCCTCATGTTTATTGCAGAACTAGTCACAATAGCCAAGATATGGAATC
AACCTAAGTGCCTATCAATGGGTAAAGCAAATGTGGTGTATGTACACAACGGAATATTATTCAGCCATAACAAAGAATGAAATTCTGTCATTTGCAGCAA
CATGGATGGAACTGGAGGTCATTATGTTTAGTGAAATAAGCCAAGCATAGAAAGGCAAATATTACATGTTCTCACTCGTATGTGGGAGATAAAAAAGTGG
ATCTGATGAAGAAAGACAGTAGAATGGTGACTAGCAGAAGCTAGGAAGGGCAGGGAAGCAGGGATGAAGATAAACTGATTCCTGAGTACAAAATATTTTT
TTTTTTTTGAGACAGAGTCTCACTTTGTCACCCAGGCTGAAGTGCAGTGGCACACTCTCGGCTCACTGCAACCTCCACCTTCTGGGTTCAAGCGATTCTC
ATGCCTCAGCCTCCTGAGTAGCTGGGATTACAAGTGTCTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGGTTCGCCATGTTGGCCA
GGTGGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCCAAAAATAAT
TAGAAGAAATGAGACCAAGTGTTCAAAAAACAAGTAGATTCAACTGTAGTAAGCAATCATTATTTTGTATTTCCAAATAGCTAGTAGAGAATAATTTGAA
TGTTCCCAGCATAAAGAAATTTTTAAAGTAATGGATCTCCCAATGACCTTGATTTGATTATTACACATTATATGAATGTATCGAAATATTACATTTACCA
AAAAAAGTACATCAGTTATATATCAATAAAAAATTATACACATTTGTTTTTAGAAAACCAAAGCACACTGTGTACTGGTTGCAGAATCAGTTGGGGAACA
CCAGTGCATGTGCTTTTGAAAAATGGTGATCTTTGCTGTAAACTTGACCCAGCACCAGCAGTGGCGTCCAGGAGTGCCCCACATGTGGCAGGTTTGTTCA
CCAGTGCCTCTTGGACCACATTCTGACTTTCACGCAGCTGCATGGTCTTCATTCTGGCCACAGGTCCCTGAAAACGGGGTTGTTTTGTAACTTCCCAAAT
TTCTCAGCAGTACCCCGCCCATTAACACAGATTTGGCCTGAGAATCATAGCAGAAAGAAAACCTTCATCTTTCCTCTTAGGAAAACAAAAAGGTCTCCCT
CTAGGGAGCTGCAGCCTGTTTCCATGACTTGCTACTGGCGTGTTTTGTTTTAGCACCGTAAGACCTACAGTACGGAGGAGTACCACCACAGGCTGCAGAC
GTTTGCCAGCAACTGGAGGAAGATAAACGCCCACAACAATGGGAACCACACATTTAAAAGTACGTGGAACGCCTYCCTTCCTTCCTGGAAGGATGTCAGT
TAGTGACCCAGCCCATGAAAGGGCCCGCTGGGGGCTGGTGGGTGGAGGGAGCAGAAGCCCAGGCTCTGAAGCTGTGTTTGGCTGACCTCAGATTGTGGCT
CCGCTGTTACTCTCTGTGTAATGTGGGATCGTAAATTTGGGACAAAGCCGGTACCCCTCTGGGTGGTTGTGAAGTTTACAAGAGACTCTGTAGAAGCCCC
TGCCCCATTCCTGCCATCTGAGGGTCCAGCCTGGAAGCCAAGGTCTGTCTTTGGATTGTTGCGGGGGGTAGGGGTTGCTCATGGGCTCAGAGCAGCCCCT
GGGAGCATCTGCCTTCACTCCGGATTAATTTCACTAGAAACTCACATAGGCCGGGCGCGGTGGCTCAYGCCTGTAATTCCAGCACTTTGGGAGGCCGAGA
TGGGTGGATCACCTGAGGTYGGGAGTTCAAGACCAGCCTAACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCCGGGCTTGGTGGCGC
ATGTCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCACTTGATCCCGGGAGGTGGAGGTTGCGGTGAGCCGAGATAGTGCCATTGCACTCCA
GSCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAGAAACTCACACGCACGTCCAGCGTATTTTCTGAGGACTCTGAGAAATATTGGTAGTTGA
CTAAATTGGTAATAAAGGCATCAAGCATGAGCTGGAAAGAAACTTGGGCTTGAACCTCATTTCTGCCCAGTCCTAGCCTGTGACCTCCAGGGATGCTAAC
ATGGGCAGTAAAGAGGAAATGAGCCCAGGTGTGGTGGCCCACACCTATAATCCCTAAAGACAGGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCAA
AACCCCATCTCTACTAAAAATACAAAACTTAGCCGGGCATGGTGGCAGGTGCCTGTAGTCTCAGCTACTAGGGAAGCTGAGGCAGGAGAATCGCTTGAAT
CCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCGTCCCTGCCTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAGAAA
AGAAAAGAAAAAGCAGAAATGATCACGCATCCCTGCTGGGGCTGTGTAGAGACCAAATTAGGCAGCAGGTGGGAAGGCCCCTGGCACCAGTGGAGTGGTT
CTTTACCTAGCTATCCATCAGACTCACGAGGGGAGTATCTAAAAAAGTAAGTGCCCAGGCCCCACCCCAGACCAACTGCATTAGCATCTCTGGAGTACGG
CCCGGACATCTATACCATTGAAAAAGCTCCCCAGGTATTTTGGCAGCACTGTAAGGGCTGATTGAATTATCTACTGAATTATATTAAATACAAAAACTTA
AAGGAGATGGGTTGCAGTGGTTCTAAATACGACACAGGTAAACAGGAGGTTTCATCACTTTTTCTTGTTTCTTCATTAGTGATTCACTAACCATTTCTGT
TTTGGTTTTTTCCTTCTCTTTTGTAGTGGCACTGAACCAATTTTCAGACATGAGCTTTGCTGAAATAAAACACAAGTATCTCTGGTCAGAGCCTCAGGTA
GGTATAATTCATTGCAACCAAATCTGAATCCTTTTACTGAAACCTTTGGAATAAATTTGGAGCCTGCTCTGCTTCTAGGCAGATTCAGTCCCATCCCCAG
ATGCAGCTGAGGGTATCCCCAGATTCTTTGGGGGAACCAGAAGAGTCAGCTCTCAGCAGTTCCTCAGTCCAGGCCCATGGCCTTAGCATTGTGGACCCTT
AACTTAGGGCTACCAGATTAAAATATAGATACTCAGTTAAAAATGAATTTCAGATACACAACAAGTAATTCTTTAGCATAAGTATATTCTAAATATTGCA
CAGGATATACTTACACTACAAAGTTATTTGTTGTTTACCTGAAATTCAAATTTAACTAGGTGAGCTGTATTTTTATTTGCTACATCTGTCTACCCTATCC
TAATGCTCTGGACTCTCAAGGGGACATGTCATTTAGCACTTGGGACCAGTAGACAGGAGAGGGAAGGTTCTGAGAGCTGCAGCCTTTCTTATTCTCTCTT
GGTGATTCCATGTTTATACATTTCTTCTTCTTGTTGTCAGAAAGGTTTTTGGTTTTGTTTATTTTCCTGAAAATAATGTGTTTGGTTGTTCCAGAATTGC
TCAGCCACCAAAAGTAACTACCTTCGAGGTACTGGTCCCTACCCACCTTCCGTGGACTGGCGGAAAAAAGGAAATTTTGTCTCACCTGTGAAAAATCAGG
TATGCCTGGCAATCTCCATCCTCTCCCTGCAAAACGGCCACACTCCCAGACAATACACCAGGAAGAACAACTCAAAAGGTCCACAAAACCACCACAAGCA
CATCCCTGCCTCTGTTTCCTCTCGGCATCTCTCCAGCCCTCTTCCTTTGAGGGGCCAGGGAGGTCAGCACTTCTCTAGGCTGCTCTGGAGGATGCAAAAG
TTCCTCTKTATTGGGCTAAAGTTTACTCCCTTCCTTCCCCACGCCCCAGATTTTCCCATTGGTCCCAGGTCTCTCCTACAGAGCCATCCAAAACGTTATG
TTCCCTGTGCCCATCTGGACACCAGAACCCCATGCATCTCCTCTTCCCGCCTCCATCTTCTCCGAGCCACCAGGGTCCAGCCCCTGCCCTGGCTGGCCGC
CTCCCTCTGGTTAGTCCATGTGTCATGCATCAGCAAGCTTCTCATGGCAGGGGCTGGCCTCCGTGGCCCTTGCTGTGGGGCACAGAGGGCTTGGCAAGGT
GAGAGGCCCTGCCTTCCTCCATGGGGGAGCAGTCTGGGGGCATCTCAGCACAGGCCCTGTCCCAGAGAGTCTGGACCCTGCCCCCGCTGTTCTCCCGGCC
TGCTGCGGCCCCTCCCCTAGCAGGGAACCTGCCGTGGCCTTCTTCAGAAGGATGCCGACCTCTGGACTCTAGGAAATATGAGGTGAAGGTTTCCTTCCTG
GAAACTCCTGGCTTTCCATCGAAATTCTCCATGAGAAATGTTTTTTCACTTTCCAAAAAGCCATCCATGCAGCACAGCTTTAAAGCCTCCCGGGCTTGCA
GTGTTCCTGGAGCCTGCCAAGTGCTGGATGTTTAACTAGCATCAGGAGCCAAAGCAAACCTCCCCTTGCAGCAGGAGGTGGAGTAGAAGCCTGCCTTTGC
CCCGTGACATTTTTAGACCCTCTGAGAACCACATGACAATTCAGAGCAACACGTAACCTAAACCTGCCCACCACTTGGACAGGTGGGAAAGAGAGGCCCA
CCAAGAATTTTCCAAGTCCTCCTGTTAACTGATCCTGGGCCATCAGGCAGGACGCAGCCGGCTGGGCTAAGGGAGCGGAATGAGGTGCTTCCTGACGCAG
ATGTGTGCCGTCTCTTACTGTGGCCGCTGTGTGGGGATAGAGACGGACAGCAGCCACAGCGTCCATCAGCTCAGCACCCTCCTTGAGAGTTTCTCACTTT
ACAGAGGGAGAGCCTGAGAGGGAGGGTGGTTTGCCTGAGGTCCAAGGTAAGTAAGTGACAAAGGGGACTCAAAACCAGGCCCCTGCCCCAAGTCGAGCAC
CCAAGGGTCAGCCGAGCTCCGCCTCCTTCAGCAGTGAGCTTAGTCTCCCCCGAAGTGGCCACGTCTGCCTCGTTGACTGTCTCATGGACCCTCTCACCAG
GCCGTCCCTCCCTCCCCCAGCTGAGAGAGATATGTGAAGGGAAGAGATTGGGTGAGGCCAGTGTCAACCTAGGGTGATGACCTGGGAGGCAGGTAGGGGA
CTTAAGAGACATTTCAGAAGTAGAAGCTGGAAGACTGAACCAGCAAGGTGAGGAAACAGAGATGAACCTGAGAGAAATCCTTACAGCAGCCACCAGCATT
GTGCCCACGGGGGTGACTGCCTGACCAGCAGAATCTGACTTAACCCTGCTAGCGCCCTGCAAGCAGGAACCCTCGCCATTCCCACTTTACAAGCAATGAA
GCCAAGGCTTCGAGAGGGGAAGTGACTTGCCCAGGTCACCCACCTGGTGTGTGGCAGAGCTGGGATGTGAACCAGGCAGGCAGGCTGCAGCCCCCCACAC
CTAATCCTCATGTTATTCTGGAGGTGTTGTGAATAAGGGGGCTAGGCAGCGGCAATGAACTGTTAGAAGGTGGGGAAATGGGTGGATGGGGCGGGTCCCC
CAGAGTCTGGGGTGTCAGGGGTGTCTGGGTGGGGTTGTCTGGCAGTTAGTTGGATGTCTGAGCCTAAGTGGAGGTCAGCACTGGGCTAGGGTTTGGGGAG
CTGTTAGTTTAACAGGACTGGGCAGAAGAGACTGGAGGTGGAAAGGTGAGAGAAGGTTCTAAAAACAGAACTTTGGGGCATCCTTCTGCAGGGAACCAGT
AGGGAAAAGAGGAGCCAGTGAAGATCGAGAAGGAAGAGAGCCAGAAGACTGCAGAATGGGGTGGGGGACTCCAGGCCCTGGCAGAATGGTGGGGATTGGC
CACCAAGAGGTGGTGATTGGGAGTCCACAGGCACTGGTCAGAGGCCACCTGCTGCTCCTGCTCCTTTGCAAGCCTCTCAGGACTTGCGAGGCTCAGAATG
AATGGATCTGGAACAGGGCTTGCGAGCCTCAGAATGAATGGATCTGGAACAGGGCCTGCGAGGCTCAGAATGAATGGATCTGGAACAGGGCTTGGTAAAC
TGCCAAGGCACCTGGGGACTCGGGAGCTCTGGCAGGGTCAGCAGAGGAAGGCAGAAGGCAGGGCTGTCTCACGGCGTCCCCATCACTGATGTCCTCTGCT
CTCCCCTGGCCTTTCCAGGGTGCCTGCGGCAGTTGCTGGACTTTCTCCACCACTGGGGCCCTGGAGTCTGCRATCGCCATCGCAACCGGAAAGATGCTGT
CCTTGGTAAGAAATCAGCCACAGGCGACCCCCTGCRGAGGACACCCCATCCTGATGTGGGCCAGGCCTGGGCCTTTGGTTTCCCTGGAGCATTGGCTAAG
GGTGCTGTTTCAGGTGGACCCAGATGCCCCAGCCTTGTGGACATCTGGCATGAGAATCTCAATTGATGCTTTTCCCGGGAAGGATCTGAGTTTATTAAGG
AACCGGCCCAAGGGCTCATTCCTAGATGGATCTGGGTGGTCCTTAGCTTGACAGCCTGGAGCCTTCCCGGCGGAGGGGTTCAGAAAGGCGGAGCCTGCCT
GGTGGGTAGCCAACTAGGAGCTACACCCTTCCCAGCAGCCTCAGTTGTCTTCATGAGGGAAGAGCCGGGACCTATGCATCCATCCCCTCGCCCACAAGAG
ACGGATGATGCCCCTGAAGGAACTATCCTAGCCCCTGCCTCTGTGGAGAAAGGAGGGACAGTGCACAGCCGGCCTGGTGATGCCATGAGGACCCTGGGTT
GTGGACAGGTGGGRGTAGGGTCTCTGGCTGGGCCTGTTTCCCCCATCCTATACACCGCTGTGGGACCCCACACTCTGCATCGTATGGGCACACCTACGGG
GCAGGGGTTTGGACCCAACAGCCCTTGCCCCCTCTCACCTTCCCTGGCTGCCCCTGCTTACTGAGCCCCTCCCGACATGTGCCAGCTGCTGGGCTGGCAC
TGCAGGACATACAGCAACTGTCCCTGCCCTTGGGGAGTTTATAATTTGGTCACCTTGACACAGCACTGACGGGGCCTCAGATGTGGCTCAGCCAGGGAGG
CTTAGCGCCTCACGCCAAAGCCTTGACGGCTTCTCAGCTGGCAGGTCACTGGGTTGTGTCCTTCTTCCAGGSGGAACAGCAGCTGGTGGACTGCGCCCAG
GACTTCAATAATYACGGCTGCCAAGGGTACGTCTCTGACCAGAAGGGGCCCAAAACTTCCTCATTTCCCACTGACCGCTTCGACAGGATCYMGTGTGTGC
TGGGTCTGCCACAGATATAACCCACCACTGCCCTGGGYGATGGCAAAATGGTCTCTGTTGTACAGGGGTGGTCACCTCACATGGCCAGGTCTCATAGCCA
GGACAGGGCAGAGCTGGAATCTGAGTCCAGGCCTCTGTCCTCTCTCCACTGTATCACCTGGCTCTCCACAGTGCGGTTGGCCTCACCCGCCACCAAGGCC
TCTGGGAGTGTGGCCAAAAGAATTTAATAGAGTGAGCAACACACCATTACACATCATCCTCCAAACCCGAGATSCACACACAGATACAGGGTTGGCCTTT
AGATGAACTCACTAAAGTCCCAGCCTCCCAAGCTCATTGCGCCCTGTGAGGGTGAGGTGGCTGTGTGTAAGGGCTGTACCTTGCCTGGACCTGCTTTCCT
GGCCCACTGTAAAGCAGGTTGCCAGGAATTTGCTGACATTTCTACAGTGACTCTAGCCCTCCCTTCATGCAGTGCTCTGAGACATTTCTGTGGTCTTTGC
TCACCTGGCACATGGTGTGCATAAAGCCAGGCTCTTGGGGTGCCGTGCCTCGACTCCCCTCCACCTCCCTGGGGCACATCCCTCTCCCAGACCCCAGCCC
CTCTGAGCTGGCTCTTCCTCCTGCAGGGAGCCGTGCTGCAGCCAAGTCCTGGGGACCCAGGGGTGACGTCGTAGCCTGCTCTCAGATCCACCATCATGCT
CAGTGTCCCCTTACTTTTGGTCTGTTTCCACTCCACAGCTTAGAAACCCAACCCATAACAAGAGTCTGACATTTGGGCACTCTGGGGTCCCACCRTTTTT
ATTTTTTTTTATTTATTTATTTATTTATTTATTTATTTTTTCTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTC
AGCTCACTGCAAGCTCCGCCTCCCGGGTTCACCCCATTCTCCTGCCTCAGCCTCCCAGGGAGCTGGGATTACAGGCGTGCGCCACCACACCTGGCTAATT
TTTGTATTTTTAGTAGAGATGGGGGTTTCACCATGTTGGCCAGGCTAGTCTCGAACCCCTGACCTCAGGTGATCCACCCACCTTGGCCTCCCAAAGTGCT
GGGATTACAGGTGTGAGCCACCACATCCAGCCTGTTTTTCAAAGGAGTCTATTTGCTTTGGTTCAGGACAGTACTTCCTTTTCTCATTCATACAACAAAT
ATCACAGAGCACCCGCTGTGTGTAGGCCCTGGGGATACAGCGCTCAGCAGAACTGGAAGAGCGGGCATTCTGGCAGGCTCAGAGAGACCACAGTCAAGGC
TAGACTAGGTCAGGCGGTGCGGAATGCTATGGAGAGAAACAGAGAAGGGACGGGGATTGCTGGGCAGCTGCTGAGTTTTTGTTTATTCTGGGAGGCCACA
TGATGTAGAAAAGACCCACTTTTGGAACCACTTCCCAGCTTTAGCTGTGTGGCCCTGGCCAGGTTATTCAGCCTCTTTGCCTCAGCCAGTGACAGCATCC
ACCACACAGGGTCGACACGAGGGGTCAGGGAGTCATGCCTGGGAAGCACCTGCCCAGGGGCTCGGCTGTGGCGATGACAGTGCTCTGGGCTGATGCTGTT
GACCATGGTGTGGGGCTGTGCACTCCTGACAGAGCGGCTGGCCTTAAGGGGTCTCTATCCCACTGAGGCATGTTTGGGCTGGTCCTTGGACTCCGGTGGC
CTCATCTGAGTTTGCTGAGTCTTATCCCAAGGCTGGGCCTCTCAGAGACCCCCTCTGCCACTGGGACATGCCCAACCAAGTCCCCAGCCTGCCAGGCCAG
ATATCTCGCCRCGCCAGTCCCCGAGGGCCCCGCCTCTATCAGGACAGCCCCAGGTGGGCTCACCTGTGTGTACTTCTTGCAGGGGTCTCCCCAGCCAGGC
TTTCGAGTATATCCTGTACAACAAGGGGATCATGGGTGAAGACACCTACCCCTACCAGGGCAAGGTAACTCCAACAGCCTCCACTCTGTCTTCTTGGCGT
ACAGCATGCCTAGCTTCACTCCCTCCCCAGCCTTGGAAGACATCCCTTCTCCCCCSACCTCCCTCCCGCCGGAATTCTCACAATTGTCTGTTCTCTCCAA
ATTCTTCCTTCCCCTCCTCCACCCACCTGAGCCCACTGCTCTCACCAGTCCAGGGGCCTCTTTATCATTCTCACCCCATACCCGCTCTGCGGCACCATCT
CTTTCCTTCCCGAGCCAGACTTCTCAGGACCCCTCCTTCCCCCCACCTGCCCCATCTTCCTGGCTCCTCTCCCTCCTGCCACGAGCGCCATCCTCTCGCC
TCTGTCCATGCAGTTGGCCTCTTGTGCCAAGGACCCTTTGGGGGCCCACCCCCACCCCTACSCTATCAAGGCTGCTGGGCCTCCCACCATCACCTCCGCC
CAGCCTGGCCACAGCCAAGTGCCTTGTCTTTCCCCAAGACCTGTTGCTCCTCCTTTATTTCCCCTCGTGGTGATGAGCAGCACTGGCCTCCCTCAGAATT
TCCCAGGTGTCCACAGTCCTGTTGGGCCGGTCCCCCTCTCCACCCCACCCTGCCGCCAGCCTGCTGACCACCACAGACCTCACATGACTCCCTTGGCCCA
TCTGTGTCGCTGACCACTCAGACCGGGGCCTCCATCCAGACCCCTGAGGGTGGCCTCCCCCAGGCCTCTCAAACCCAGCTCAGACCCCACGCCTGCCTCG
ATCAGAATGCCGCCGAGGCTCCATGCGGCCTTCGGGAGAAAGCCCAGACTCCAACTCAGTCTCCCTGTCTCTTTTACTCTCCCTTCTTTTTTTTTTTTTT
TTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCCGCCTCCCGAGTTCAAGCAGTT
ATCTGCCTCAGCCTCCTGAGTAGCTGGGAGTACAGGCACCCGCCACCACGCCCAGCTAACTTTTTATATTTTTAGTAGAGACAGGGTTTCACCATCTTGG
CCAGACTGGTATTGAACTCCTGGCCTCGTGATCTACCGCCTCGGCCTCCCAAAGTGCTGTGATTACAGGCGTGAGCCACCGTGCCCGGCCAACTCTCCCT
TCTTAACCTCACGCCCAGGCCCAGCCACATGYTGGTTCCTAAATGCCAGGTCCTACCCTCCCTCTAGTTCTGTCCCTTGTCCTGCTGCCTTCTCTCCTGC
CTTGAAAGGGCTGCGCTTCCCTCCTTGTGACCTTACCCCTGCACCTGCCTCTTGCCAGCATTGTTTTTTGGGCTGAGACTGTCCCCACTCCCCTGCCTCA
CAGGCTCTGACTCGGCCTCCACTTCTCAGTGAGTTTCCTCAGGCCGGGTGAGGCCCCTCCTCAGGCTCCCACSACACACCATGTGTGCCCACCTCTGCCA
AAGCCAGCACAGGACCATCTGCTACCAGACCCTAAGCTCCTTGAGGACAAGGATGCTTTAATTCTCTCTGAAATTATCCCATCCCCCAGGCCCTGGCACA
TCTTGTTTTGTTTAGTAAATGTTATTGAACTGCGTGGGGAGGCTGAGACTTCGGGTCCATAACCTGTATTTCATGCCCTTTGCATCCTCAACAGGATGGT
TATTGCAAGTTCCAACCTGGAAAGGCCATCGGCTTTGTCAAGGATGTAGCCAACATCACAATCGTGAGTGCCGATCCCCCTCTGGGATGGGGAATGTGTC
CTGATGAGGAGGCCTCTCTCATGCTGTCGGATAGCCAGTGGGCCCAGCAAGGCAGCCCTTCTGGCAGCACATCCCTTTGACGAGTTCATATTATCCCTGG
GTCTCAGTCGCTGTGATGGTGGCGAGGCAGGAGATGGGAGGGAGAGCGCAAACTGGCAGGCAGGCCCTCTGGTTCTGAACTCCAGATCCACACATGCCTT
CATTCTTTTGGTTCTGTTTTCTTGCTTGTAAAATGCAAGCAATTGTCCGCATCCTGCAGAAGAGGGTATGAGCACGTGCTTGACACAGCGTGTGTGAAAC
TGAGGAGGGTGAGTGTGTGTCACTCAGGATGAGCCAGGTTCTGTTGCAATAACAACCGTGCCCAATCTGCATGGCTGACAACAGTCAAAGGGTGTGTGGC
ACTCCTGCGCCCATGCACAGCTTAGGGAGGGTGGTGTGTGCTCCGTGTCATTGGCCTCACGCCAGGACTAGAGGGAAAGAAGGTGGTAAATGATGCCCTA
GCTCTAAAGCCAAAACAAGCCGCCCAGTCACAGTTGACCTCAAGTGAATAGGGAAGTGTGGTCTTACCCTGCTTCTCCCAGAGAGAACTGGAACGTGAAT
GAACGCCTTCGTGACTGCAGTGTGCATGCATGCAAGTGTGGGAGGRTGTGTGAGGAGTGGAGGAATATMGCTTAGGTTGTGTGTGYGCCCACGAATGTAT
GTACAGTTCACAAACGTGATGTCTGTGTAATGACAGCGGCTGCCATTTAGTTGAAGCATGTGCCAAGCTCTCAGCAATAACATCTTAACTTGATGGAGTA
CTTCTAGGTGCTGTACCAACCCTCAATACRCACTATCYCCTCTAGACCCGAACTGGCCCTAGGAGATGAGTATCCTTATTACCTCATTTGACAGGTGAGG
AAACGGGGGCTCCAAGTGGTTAAGTAATGTGCCCAAGGCCACAGAGCTAGGAAATAGATGCTGGATTTGAACTAAGAATGTGTCATTCCAGAACCAGGGC
TCATTGCCTTGACAACATACAGCRCAAATCCTGTACTCAGGATGTCACCCTCTTCAGAATGTTGCTGCTGTCACTCAAGCTGGCTGCTCTGGGCCATGAT
ATCCCAAGGACAGGTGAATTTGGGCCTCAAAGGTATCCCTTTGCATGGTCCCCAGGAGAGCCTCATTGGTGACACCTGCAGGGCCCTGACGACCAGGCCA
GAACTAGCATTCAGCCCTCTTGGGCAGGCCCATGGGGTGGAAATRGTGCCACCTGCAGAAGTCATCGCCCCTGTGCTGGGCTGGCCTCTGTGCCCTCCAT
GTCTCAGATATGCCCTGACCTGTTGGGCTCACAAGGCCTTGTCCACATACCAGGAAGGAGGGCACTCCCTTGCCAGGCACCTGTTTGCTTTTCACAGCTG
GGTCTCTGTCCACCCCTCTAGGGAGGCAGGACTGAGGGAGGCTGGGCGCCCCGTCCCTCCTGCACTTGCTTTCCTTCAGTAGGGCCCTGGCCTCAGCACA
GGTAACTTCCCCCCTCATTTCAGCTCCCAGAGGTCTCTTGGTTAGTGCACTTGAACCCAGCCACCCCCAACCCAGAAGCTCCAAAAAGTGCCAATGCCTG
GGACCCACCCTGCAGATACTGTTGTAGTTGGTCTGAGGCACAGCCTGGACTTGGGGTTTTTTTAAGGTTCTGCATGGGGTTCTACCTGCTGCTGTCACCT
GGTCTCTGCAGCTCTGTTCCAAAGCTGCAGCCTCCAGGAAGCCACCCTGACTTCCCCCCACCTACCTTCCCCCTTGGAGGGGACAGGTTCTACTCAGAAG
TCACACAGCCCTCGGATGGGTCTTCTCGTTTCCACCGCCATCTGGGACCTACCCGTCCATGGTTTATAACCCCTGTGTTCTAGCAGCAAAGCTTTGTAGA
CTCTGGGTTTATGGGTGTAGGGGTGAGAGCTGCTGGCCCAGGAGAGGACCTCAGGGAATGGATGTGAATGACTGAATGAGTAGGTCCACGCTGTACCCCG
TGGTCCCTATCTCAGAGGGTGCAGGRTTTCCTAGGAGCAGAGTTGGGGAGAGGAACGAGAGATGGCCAGACAGACCCAGCCAGAGACAGGAAGGGAGAGA
GGCCGCAGGGGAGCTGCYTCTGGCCATCCATGCTGCTCTGGGCCTCTAGCCCCTAGCTTGAGGCAAAAGGCTGTACTGTGAAAGGAGTGGGGAGRTGACA
GGCCATGTGWTTCTGTCTCGGTCCTGTTTCCACAGTATGACGAGGAAGCGATGGTGGAGGCTGTGGCCCTCTACAACCCTGTGAGCTTTGCCTTTGAGGT
GACTCAGGACTTCATGATGTATAGAACSGGCATCTACTCCAGGTGAGTCAGGGTCCCAGGAGCCAGGAGGGACAGTGGGGAGGGGCYTGGTGGGCCTCCT
CACACCCCACTYGTGGGACTTGGGCTCGTGGCCCAGACTCCTGTGTGTCAGACCCTTCATGACACCTGCCAGGTGCTGGGCGTTTTGCACATCCCTCAGT
TAATCCTCACACAGCCCCAAGGGCCAGGAGCCATGGCCTCTTCTCACAGCAAAGGAGAGGTGGTCAGAAGGGATACGACAGACACAGGCCACCTGGCTAG
TGAGAGCTAGGGCCAAAATTTGAGAGCTTTGTGCTCCTTAACAGAAGAGTTGCCTCCAGTTTAAAAAAAACCCATGTTCAGGCCAGGCGTGGTGGCTCAT
GCCTGTACTCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACTTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTACT
AAAAATACAAAAAAAAAAAAAAAGCCAGCGTGGTGGTGCATGCCTATAATCCCAGCTACTCGGGAGGCTGAGACACAAGAATGGCTTGAACCTAGGAGGT
GGAAGTAGCACTAAGCCAAGATCGTGCCACTGCACTCCAACCTTGGTGACAGAGCAAAGCTCTGTCTCAGAAAAAAAAAAAAAATACCCATGTTTAAAGA
TTTGAAGACGTAAAATAGGGAGAAGAGTAGCTGCCCTCACACACTAGGATCCTGTGCTGGAGGAGTCACCCCAGGCTTCTTCAGAAAAACCAAGCTTTAG
CCTCTTTACTATGGGGTTTCTCTCACCCACACCTTTTCGCCTGCCTGGTTTGCAGCCTCATTTCCCTCCCTTCATCAGTTGCTGCCCGTTAACGTCACTC
ACTAATGTCACTCACGTCTGTGCTCTCCTCTCCCTCCCTGAGGCTCTGCCCTGGTCACCATTGTCCTTGGACCCCCTAACCCCCCACACACTGTTCCAGC
TTCCACTGGGAGCTGTCTGCCTTCTGAAACACTCCTCTTGCCAACGCCAACCTTTGAAYACACCAGTGTCCCTGCTTTCCCAGGGTCCTACCCTGAGGGG
GACCCTCATGATCTGGTCCTCCCTCTTTTTCCACACTCATCTGCCATCAAACCCGTCCCCGCCGTTCCACCCTGCAGCCCCCACCCCAGCCACGCAGAAG
GGTTCGCAGTTCCATGGGCGTTCCCCGCCTCCACAGGGAGCCTTCCCTGACCCACCCTGCCCACCCTCCCCCCCCCCCCCGCTGGGTTGGATCCCCCCCA
CCTCCTGGGGGCTCTGTCGCCCTCCCACTGTCAGAGCCCTCAGGCCACTGTAGAGAAGCAGCCTCTTTGCCAACCTGCTCCCTGCCAAACAGGGCTTCCA
AGGGACAGTTATGCATGCTGCCTGGATCCCGGCACCTGGCCCTGGCGCGAGCCTATGGCCCACTTACACATCAGCTGAATTCACACCTGACCACTGCAGT
TTGTTCTCTTGAATTTCTTGGAATTTCCTTATGGAGGCTAGTTCACTTTTGTAAACAGAAAAAGTTGTATTTTTGCCATAGGTATAAAGTAATATTTAAT
AAATGCAGTGGCAACAAAGCAAAGCTGTGTTAAAGTCTGCCAGACACTGTTGCCTACAGAAGGTGCAGCAGGAAGGTGGCTCTCTCCTTGCCAGGAAAGA
GGGAGTAGAAAGTGTCAGGGGTGAGACACGGGCCAGCACCATATGGAGATTCTCCTGACAGAAGCAGAAGAACCAAAAGAACTGAAAGGGCCGGGTGCGG
TGGCTCACACCTGCAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGCTCGAGACCAACCTAGCCAACATGATGAAACCCYG
TCTCTACCCAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACGCCTGTAATCAGGCTACTCGGGAGTCTGAGGCAGGAGAATCGTTTGAACCCTGGAGG
TGAAGGTTGCAGTGAGCAGAGATTGCACCATTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAGAAAAAAAGAACTGAAAGGAGTTCTCT
CACGGAGACTAAATGTGATTACATCACCACCTTACATGCCTCCCTGGTCCRCTGTGGGGAACATTGCTCTAAAGCGCTCAAAGAGGCGTTGTTGGATGGG
ACTGTCATTGCTTTTATCCTTCCCATATGATCACCTCTTTTTGAATTTTGTTTTCCAGTACTTCCTGCCATAAAACTCCAGATAAAGTAAACCATGCAGT
ACTGGCTGTTGGGTATGGAGAAAAAAATGGGATCCCTTACTGGATCGTGAAAAACTCTTGGGGTCCCCAGTGGGGAATGAACGGGTAAGCAGCTCCCAGG
TCCCACTKCTGGGAGGSGGATGTTGCTCAGGCCTGGAGGCCCTGGGGGCATCACTTCCACCTCAGAGTTACKGCTTCCACRGACGAGCTGGTCAGCCAAG
CCCTAGGCCAGGCCAGGGGGAAAGGGAGCATGAGAATGTAGCCTCCACATTTCCAAGCCCCCATTTGCAGCCCTCACAGGGCCCCAGGTCTTTAGGACRC
TGCAGGGAGAGCAGGAGGCCAGCTGGCTCAGAAGGACTGCTAGGAAAACAGCTCAGAACTTGGAACTCTGCTGGCACGAAATCAGTGTCTGGGAGGGTCC
GTCTTTGAGAAATCAAAGCAACAAATGTACCCCTGATCACTGACAGCCCCTCCTTCCGGGAGAAAAGGCTGGCATGGGGCGGCCTGGGTGTATATGCTGC
TGTGCCTTTGTCCTGTCCTCCCAGATTCCATGTCCTTGTCTGAAAAGGAGMGCTTTCCTGTTCCCTCGGGCTCCTGGTGATAAAATAGCTGTGTGAGSGC
CCGGCCAGGGCTAAGAGGGGGCCCTCGGTAAATTTTCGGGAGAAGTGGGATATGGATCATTCATTTGGCAGCTAAGGAGAGGGAAGAATGAATTCTTCAC
AAAGTCAGGTCCGTGATTTGCCGGTGATCAAATAAGCCRAATGCTACTGTTTTATGAATAAATTTAGAGGGTCTCACCCCTGAAGTCAGCTCTTGGTGAG
CAGCAAAACATTCTAGAAAGGCCTGTGGTGGGGAGACCGCCGGCCGGGCCTCAGCTCCTCTTTCTGCCCAGGTACTTCCTCATCGAGCGCGGAAAGAACA
TGTGTGGCCTGGCTGCCTGCGCCTCCTACCCCATCCCTCTGGTGTGAGCCGTGGCAGCCGCAGCGCAGACTGGCGGAGAAGKAGAGGAAYGGGCAGCCTG
GGCCTGGGTGGAAATCCTGCCCTGGARGAAGTTGTGGGGAGATCCACTGGGACCCCCAACATTYTGCCCTCACCTCTGTGCCCAGCCTGGAAACCTACAG
ACAAGGAGGAGTTCCMCCATGAGCTCACCCGTGTCTATGACGCAAAGATCACCAGCCATGTGCCTTAGTGTCCTTYTTAACAGACTCAAACCACATGGAC
CACRAATATTCTTTCTGTCCAGAAGGRCTACTTTCCACATATAGAGCTCCAGGGACTGTYTTTTCTGTATTCGCTGTTCAATAAACATTGAGTGAGCACC
TCCCCAGATGGAGCATGCTGGTCCTGGGCCATGACTCAAACCAGGTCTGTCCTCGCCACTCAGTCTCCCAGGAGGGAGGCATCAGGGGGTGTCCAGGCTC
TGGCTGGGAGGATGGTGGGGGTGCTGGCGGTATTATCCACCAGATGGGGTATCCAGGATGAAGAGCAGGCTTAATTTGAGATCTTGACTATTTGTCCCAA
ACCTGAGTGGAGAGGTGGGGAGGAAGGAGAAAAACGGGCCAAGCTGCGGCAGAGGCAGGATTCAAACCCACAATGTCAGCCCAGAAGCCTGTACTTCTCT
GTGTGGCCTCCCCAGTCTCAGCTGCCTACTCCTACTCAGACTCTGCCCCCCACCTCCACATGAGACTGCCCACCCCTTCCTCACCAACCCCTTATTTATT
TCAAACGTGCCCAGATGCTCCTGTCGTTTCCACACCATCCCTTCCCTTATCTTGCCTTTTGAGAAATCTTGATCTCTGTTTAGAGGGCGGCCATGAAGTT
GCTGCTGCTTCCTGAAGCCTCCGGGCTCTGGGATGTCTGTAGAACAAGCTGGAGTCCACCAGCTCTTTGTCCTATGGCTCACAGACTTTCTTAATGATAA
AAGCTGTCATCTTATTTGGGCTTCCTGAAAAGCTAAAGGCTTGAGAATATTTGAAAAATATATATGTTCATGATAAGGCTTATTTAGATAATGCAAATAT
AGTTTAATTTATTAGAAAATTCTAGTAACATAAGACCACAACTGTATAAGACAAAAAACAATCACCTTGCTAGGCATGGTGGCTCACGCCTATAATCCCA
GCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGACTAGCCTGGCCAACATGGTGAAACCCCGTCTCTAATAAAAATACAAAAA
AAAAAATTTAGCCAGGAGTGGTAGTGCACACCTGTAGTCCCAGCTACTCGGGAGGGTGAGGCAAGAGAATCGCTTAAGCCTGGGAGATGGAGGTTGCAGT
GAGCTGAGATCATGCCACTGCACTCCAGCCTCAAAAAAAAAATAATAATAATAATAGACTTCATTGGATGGAATTCTATTCTAGATTTAAAAAAAAACTA
ACATGAAATGAAAGCATAATTTCTTTTTCTTTCTTTTTTTTTTTTTTTTTTTAGATGTAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATC
TCAGCTCACTGCAACCTCCACCTCCCCAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAATAGCTGGGATTACAGGCATGCACCACCACTCCTGGCTAA
TTTATGTATTTTTAGTAGAGATGGGGTCTCACCATGTTGGTCAAGCTGGTCTCGAACTCCTGACCTCAAGTGATCCCAAAGTGCTGGGATTACAGGAGTG
TGAGCAACCGCACCCAGCCTGAAAGCATAATTTCTGAATTTGACAAAGATTCTCAAATCAATGGTCAGTTGTATAAAAGGATTCCCATTGAAGTCAGTGG
TATAAAAGGATTCCCATTGAAGATACATGGCAAATAAGTCTAAGGGTACCATTCTTGCTTACATCTATCTGGAAGATCTGGCTGCTGTGATAAATAAACC
CAATTAATATTTGCAGACAGCATGATAATGTGGCTAAAAACATTCAGGAGAATCAACAAAACTTAGAACTAATGAAAGAGTTCTGAAAGTGGCTGGATAC
CAGAAAAAAAAATCAAAAACTCAGAAAAAATACACTATTTTTTGTTACTATTGCAACTTTACTATTGCAACAAAACCAGCAGCTAGGAATAACCACCAAA
AAGTCTTATATGAAGAAAATTACTAAATTAATAACACTATAAAGGAAGACTTAGATAAATGGAGAGCCACCATATTCTTTTGTTGTTGTTGTTGAGACAG
AGTCTCACACTGTTGCCCGGGCTGGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCACGTGATTCTCCTGCCTCAGCCACCC
GAGTAGCTGGGATTACAGGTGCCCACCACCACACCTGGCTAGTGTTTTGTATTTTTAGTAGAGACGAGGTTTCACTATGTTGGCAGATTGGTCTCAAACT
CCTGACCTCATGATCCACCTGCCTCGACCTCCCAAGGTGCTGGGATGACATGCATGAGCCACCATGCCCGGCCGAGGCACACCATATTCTTGAATGGAAA
GATTAGCATAAATAAGTTGATTATTGCCAGAAATAAAAGTACAGATGGTATATTTCCAACTAAAATCCCAATAAAATTCTGTTATCCTTTTTATCTGGGG
GAAAAAAGGCCAAGGTAGTTTTATAAATGAGCAATGAGGGTGGATTTTTTTCACATATTAAAATTTACAAAATGTTAACCCTTAAAACAGTGTGCCAATT
AAGAATAGATTACTCACTCAGGTCTAGGAAGTAAGAATTCGATACATCCGTCACAGACGAGTCCATTTTCACCATTCAATTAAAGGTGCTAGAAGCTGGG
TGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTAAGGCAGATGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAATC
CTGTCTCTACTAGAAATACAAAAATTAGCCGGGCATGGTGGCGGATGCCTATAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATCACTTGAACCCGG
CAGGCAGAGGTTGCAGTGAGTGGAGATCGCACCCCTGCACTCCAACCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAATAGTGCTAGAAATTGAA
CAGTAGGTTGGAAAAACAATGTAACCTAAATCCTCACCCAGCTCTATATTGTTTTTAAAGTGAACATTTTCTTTTCTAACGGGTTTAGATATAGAATGAC
TGTGGAGACAGAGGAGAATTCTTGCACACCCACACCCAGATCTCTCTGCGATGAATGTAGTAGTTTGATACAAATGTCACAATTAATGATCCAATATAGA
ACATTATTAACCACATTCCAATTAAATACTCATTTAAAGGGAGGGTCCTGGGTGAGGTTCCAAAGAAATTCAAATTACCACAAAAATCAAATAACTGTTT
TCAAAATTAGCCTCCCCTGAGGGATTTAGGTGCTCCGCAGGGATTGTGGGCTTGGGCTGGAACACAGACCTGAGACTTTGAAGCAGAGTTCTCCTTTCCA
TAAGAGCCCCGAATGTCTCAAACCCAGACAATGATGAGAGTCTTTTATTATAAAAAGGCCTGCAGGCCTGGTGTGGTGGCTCACGGCTTATAATCCCAGC
ACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCATGGTGAAACCCTGTCTCTACTAAAAACACAAAAAAATTACCTTGG
CGTGGTGGCACGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCC
ACTGCACTCCAGCCTGGCAAGAGAGCGAGACTCCATCTCAAAAAAAAGAGGGGGAGGGGGAGGGGGAGGGGGCGGGGGGGGGACTTTCAGGGGCCAATTC
CCTCCTTTTCAGCCATTTACCAAACACCTGCAGAGTATCCACTGTGTGCAGTCCTCTCCTGTGCCAGGCACCAGGGAGCACACAGGATGTTTATAACATC
CAGTGTTGGCAGGACTGTTGTGAAACAAGCAGCATGGCCTGTGCCTTGGTGCTGTTTGGATTTAAAGAGATCGGCAGACATGGCTACATCCAACTGAGAT
AAGTAAATTTCAAATGCACTTGAACCCTAAGGATGCTACAGAGCCTGGTACACAGCAGGTACTGCCTAATTGATCTCAGTCATCACCCCTGCCCCTACTC
CATGACAGGCCCCGTGCGGACCTCTAGCAATCTCAGGCCCATGGACTATGTCTTTAACACTAAGGTGCTCCTGCACTTAGGGAAAAGATAGCAGAGTTTT
AAAAAAACAAAAAACAGTTAAAGTCCAAAGGTTAAAAACAAAGACATCACAAGAAAAGAAAACTACAGAGCAATGTTCCTTATCAATACAGATGTGAAAA
TCCTCAATAAAATACTAGCAGACCAAATCCGGCAATATATAAAAAGAATTATATACCATCTCTACTAAAAATACAAAAGTTATTTACCATCTCTACTAAA
AATACAAAAATTAGCTAGCCGTGGTGGTGTGCACCTGTAATCCCAGCTGCTCCAGAGGCTGAGGCAGGAGAACTGCTTGAACCCGGGAGGTGGAGGCTGC
AGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGTAAAAAAAAAAAAAAAAAAAAAAAAAAGTATTACTATATGAACCCAGTAATTCCACTGCTAAG
AGAATTGAAAACATGTACACACAGAAACTTGTACATGAATATTCCTAACAACATTATATATAATTGCCAAAATGGGGAAACAACCCAGATGTCTGTCAAC
TGACAGATAAAATATGATACATCCATACAAAGAAACATCCAGCCTAAGAAGGAAGTGCTGACACACACTACACCATGGATGAACGTTGGAAACATCAGGC
CAAGTGAAAGAAGCCAGACGCAAAAGACTACACATTGTGTAATTCTGTCTATATGAGCCAGGCACAGTGGGCTCACACCTGTAATCACAGCACTTTTGGA
GGCCAAGACAGGAGAAGTTCTTGAGGCCAGGAGTTGAAGACCGTCCTGGGCAACATGGCAAAACTTCATCTCTACAAAAAAATACTAAACAAACAAAAAA
TTAGCCGGGCATGATAGCAGAGCCTGTAGTCCCAGCTACTCAGGAGACTGAGAGGTGGGAGGATCACTTGAGCCCAGGAGGTCAAGGCTCCAGTGAGCCA
TGATTGCATCATTGCACTTCAGCCTGAGTGAAGAGCAATACTGTCTCAAAAAAAAGAAAAGAAAAGAAAGAAAAAAAAAAAGGCCAGGCAAGGTGGCTCA
CGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACAAGGTCAGGAGATCGAGACCATCCTAACACGGTGAAACCCCATCTCTACTAAAAA
ATACAAAAAAATTAGCCGGGCACGGTGGCAGGCGCCTGTAGTCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATGGCAGGAACCCGGGAGGCGGAGTTTG
CAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGGACAGAGCAAGACTCCATCTCAAAAAAAAATAAAATAAAATAAAAATAAAAAAAAGAAAACG
AAAAAAAGCAGAAGCCTGTGTACTCAAGACTTTAAAATTTCAAGACATGTTAATTGTGGGGGCTCAGGGCATGTCCCTACCATGGTCATTATTAGTGTGA
GTGAACTAAGCATCTCCTCCCAAAACCATAGTGTCCGTGACAGGAAGCCCAGCTCCTGCCAGAATATCCAGTGGAAAGAATGCTAATGGAACACAACTTT
TTGGAAGCAGACACACCTGGATTCCAATCTCAGTTCTCCCTTGAATTTTCTGTGTGACCTTGGCGGTAGTGGGGGTGTTAGTTACCCTCTCTGAGCCTCC
ATTTCATTGTCTACAAATTGATATAATCATATTTTCTTCGTGATTTTTAAAAGTTTTTTAATTTTTGTAGAGATGGGGTTTCACTATGTTGCCCAGGCTG
GTCTCAAGCTCCTGGACTCAAGCGATCATACCGCCTCAGCCTCCCAAAGTGCTGGGATCACAGGCATTGAGCCACCGCGCTTGGCCGCCTTCACGATTTT
GTGGACAGAATTGAGATGATTTATGGAAATACTCAGCGTCACATCTGGCTCTTAGTAAGCACTCATAAAAGAGAGTTATCTTTCACTCATTTGTCCAATA
ATCATGTATTAAACTGCGACACATGCCCAGCCCTGCCCTAGGAGGCAGAGGCGGCACACAGCAGGGGCAAGTCAGGTCTACTAGCTGCACCTACAAACTC
ATGAGCTTCCTCACCCAAGTGAGTCTTTTCACTTTGCCCTGGAG


SNP Information

Context             (SEQ ID NO:39870):
GGTGGCTCACACCTGCAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGCTCGAGACCAACCTAGCCAACATGATGAAACCC
Y
GTCTCTACCCAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACGCCTGTAATCAGGCTACTCGGGAGTCTGAGGCAGGAGAATCGTTTGAACCCTGGAG
Celera SNP ID:            hCV26390337
SNP Position Genomic:     27599
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,11)      total(C,3|T,11) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39871):
CTCCTCCACGCTCGTGCCGCCCCCCCCCGCGCTCCCAGTTGACGCTCTGGGCCGCCACCTCCGCGGACCCTGAGCGCAAGAGCCAAGCCGCCAGCGCTGC
K
ATGTGGGCCACGCTGCCGCTGCTCTGCGCCGGGGCCTGGCTCCTGGGAGTCCCCGTCTGCGGTGCCGCCGAACTGTGCGTGAACTCCTTAGGTACGCAGA
Celera SNP ID:            hCV7509776
SNP Position Genomic:     6096
SNP Source:               Applera
Population(Allele,Count): african american(G,13|T,25)   caucasian(G,11|T,27)   total(G,24|T,52)
SNP Type:                 UTR 5;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:39872):
AAGAGCCAAGCCGCCAGCGCTGCGATGTGGGCCACGCTGCCGCTGCTCTGCGCCGGGGCCTGGCTCCTGGGAGTCCCCGTCTGCGGTGCCGCCGAACTGT
S
CGTGAACTCCTTAGGTACGCAGAGGGCGCGCCGCCCGAGAGGGTGCTAGCAGGCCCTAGAGTGGACGCTGGGAGAACTTGGCCAGGGGCGCACTGGGCTC
Celera SNP ID:            hCV7509777
SNP Position Genomic:     6173
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,22)   caucasian(C,25|G,15)   total(C,37|G,37)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   JBIC-allele(C,157|G,1346)   total(G,1346|C,157) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:39873):
ATACTTTTTCACATTAATTTGGGGTACAAAACCAGGAAGAGTCGGAGTTTCTTTTTGCATTCTGCATTATATAACACCATTTTTGGTGTTTTAAATTTAG
Y
CCAGTTTTCGAAAATGCAAATCAGTTCTAAAGTGCCCTACTTTGCTATAGACTCAACATTACTGTGATGCGCCCAGACCTAATTTTTTTTTTCTTTTTAC
Celera SNP ID:            hCV12091700
SNP Position Genomic:     11804
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,14)   caucasian(C,2|T,2)   total(C,8|T,16)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39874):
TGGGAGTCCCCGTCTGCGGTGCCGCCGAACTGTGCGTGAACTCCTTAGGTACGCAGAGGGCGCGCCGCCCGAGAGGGTGCTAGCAGGCCCTAGAGTGGAC
K
CTGGGAGAACTTGGCCAGGGGCGCACTGGGCTCCGGAGGAACGGGGCAGAGCTTTCCCCGGTGAGAGGCCAGGAACTCTGCGTGCTGGCACGGGGAGGGG
Celera SNP ID:            hCV7509778
SNP Position Genomic:     6240
SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,15)   caucasian(G,15|T,25)   total(G,38|T,40)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,154|G,1339)   total(G,1339|T,154)   (T,-|G,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39875):
TGGTGTTTTAAATTTAGTCCAGTTTTCGAAAATGCAAATCAGTTCTAAAGTGCCCTACTTTGCTATAGACTCAACATTACTGTGATGCGCCCAGACCTAA
T
TTTTTTTTTCTTTTTACAGAGAAGTTTCACTTCAAGTCATGGATGTCTAAGGTCAGTGCCCAACTTCTTCTTTTTGAAGTTTTTCATTTCACAAAGTTTC
Celera SNP ID:            hCV12091701
SNP Position Genomic:     11887
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39876):
GGCTGCCATTTAGTTGAAGCATGTGCCAAGCTCTCAGCAATAACATCTTAACTTGATGGAGTACTTCTAGGTGCTGTACCAACCCTCAATACGCACTATC
Y
CCTCTAGACCCGAACTGGCCCTAGGAGATGAGTATCCTTATTACCTCATTTGACAGGTGAGGAAACGGGGGCTCCAAGTGGTTAAGTAATGTGCCCAAGG
Celera SNP ID:            hCV27516021
SNP Position Genomic:     24238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39877):
CGGAAAGAACATGTGTGGCCTGGCTGCCTGCGCCTCCTACCCCATCCCTCTGGTGTGAGCCGTGGCAGCCGCAGCGCAGACTGGCGGAGAAGGAGAGGAA
Y
GGGCAGCCTGGGCCTGGGTGGAAATCCTGCCCTGGAGGAAGTTGTGGGGAGATCCACTGGGACCCCCAACATTCTGCCCTCACCTCTGTGCCCAGCCTGG
Celera SNP ID:            hCV11943480
SNP Position Genomic:     28990
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,39|T,1)   total(C,76|T,2)
SNP Type:                 UTR 3;TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:39878):
AGTCCAGTTTTCGAAAATGCAAATCAGTTCTAAAGTGCCCTACTTTGCTATAGACTCAACATTACTGTGATGCGCCCAGACCTAATTTTTTTTTTCTTTT
Y
ACAGAGAAGTTTCACTTCAAGTCATGGATGTCTAAGGTCAGTGCCCAACTTCTTCTTTTTGAAGTTTTTCATTTCACAAAGTTTCCTGTTATCAAACCAA
Celera SNP ID:            hCV12091707
SNP Position Genomic:     11902
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,20)   caucasian(C,24|T,14)   total(C,34|T,34)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39879):
TACCCCATCCCTCTGGTGTGAGCCGTGGCAGCCGCAGCGCAGACTGGCGGAGAAGGAGAGGAACGGGCAGCCTGGGCCTGGGTGGAAATCCTGCCCTGGA
R
GAAGTTGTGGGGAGATCCACTGGGACCCCCAACATTCTGCCCTCACCTCTGTGCCCAGCCTGGAAACCTACAGACAAGGAGGAGTTCCACCATGAGCTCA
Celera SNP ID:            hCV11943481
SNP Position Genomic:     29027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:39880):
TACTTTGCTATAGACTCAACATTACTGTGATGCGCCCAGACCTAATTTTTTTTTTCTTTTTACAGAGAAGTTTCACTTCAAGTCATGGATGTCTAAGGTC
R
GTGCCCAACTTCTTCTTTTTGAAGTTTTTCATTTCACAAAGTTTCCTGTTATCAAACCAAACTGTCCCAGATTTGAGACAATGAAAAAGGGAATTTCCAA
Celera SNP ID:            hCV12091708
SNP Position Genomic:     11942
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,6)   caucasian(A,38|G,2)   total(A,66|G,8)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,10)   total(G,5|A,10) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:39881):
AGTGATTAACTTGGCTGACAGCCTTCCAAGCCCTGGGATTCATTTCTGTATTTTGTTTTCAAAGCACATTGTGGAGAATGTAAATTAGTACAACCATTGT
A
AAAAAACAGTATGGAGGTTCCATCAAAAACTCAAAACAAAACTACCATATGACCCAGCAAGCCTACTACTGAGTATATATCCAAAAGAAAGGAAATTAGT
Celera SNP ID:            hCV12091709
SNP Position Genomic:     12232
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,6)   total(A,5|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39882):
CAGAGTGAGACTCCGTCTCAAAAGAAAAAAAGAACTGAAAGGAGTTCTCTCACGGAGACTAAATGTGATTACATCACCACCTTACATGCCTCCCTGGTCC
R
CTGTGGGGAACATTGCTCTAAAGCGCTCAAAGAGGCGTTGTTGGATGGGACTGTCATTGCTTTTATCCTTCCCATATGATCACCTCTTTTTGAATTTTGT
Celera SNP ID:            hCV12091742
SNP Position Genomic:     27851
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39883):
GTTGGGTATGGAGAAAAAAATGGGATCCCTTACTGGATCGTGAAAAACTCTTGGGGTCCCCAGTGGGGAATGAACGGGTAAGCAGCTCCCAGGTCCCACT
K
CTGGGAGGGGGATGTTGCTCAGGCCTGGAGGCCCTGGGGGCATCACTTCCACCTCAGAGTTACGGCTTCCACAGACGAGCTGGTCAGCCAAGCCCTAGGC
Celera SNP ID:            hCV12091743
SNP Position Genomic:     28108
SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,33)   caucasian(T,40)   total(G,5|T,73)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|T,9)      total(G,2|T,9) ;no_pop(T,-|G,-)   ;JBIC-allele(T,700|G,787)   total(G,787|T,700)
SNP Type:                 INTRON


Context             (SEQ ID NO:39884):
AGGCAAGGGGGAACCTCTTTCCTCTCATTCAATCTGAACCTGAACCCATGGGTATAAAAACAATAGGGACAGCAAACAAAAAGACAAAACGGTAATAAAT
Y
GTTCATATCTGGCATTCTCAATTCCTCAAGGAAACTGAATTGAAGAGGAGAGGACTTCATGGGGATATCAACTGATGAGGTCTTAAAAATAATGTTGAGT
Celera SNP ID:            hCV9708573
SNP Position Genomic:     8463
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39885):
GGAGAAGTGGGATATGGATCATTCATTTGGCAGCTAAGGAGAGGGAAGAATGAATTCTTCACAAAGTCAGGTCCGTGATTTGCCGGTGATCAAATAAGCC
R
AATGCTACTGTTTTATGAATAAATTTAGAGGGTCTCACCCCTGAAGTCAGCTCTTGGTGAGCAGCAAAACATTCTAGAAAGGCCTGTGGTGGGGAGACCG
Celera SNP ID:            hCV12091744
SNP Position Genomic:     28739
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39886):
GGCTGAGATAGAATTGCTTGAACCAGGGAGGTGGAGGTTGCAGTGAGCTGATATCGTGCCACTGCCCTCCAGCCTGGGCAACAGAGCCAGACTCCTTCTC
A
AAAAAAAAAAAAAAAAAGAAGGAAAGAAAGGGAGGGAGGGAGGGCTGAGTGATAGAGCACCATGGGATTGGATGCACAGAAAGGAGTGCGAAGAATTAAG
Celera SNP ID:            hCV9708577
SNP Position Genomic:     8845
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39887):
AAAAAAAAAAAAAGAAGGAAAGAAAGGGAGGGAGGGAGGGCTGAGTGATAGAGCACCATGGGATTGGATGCACAGAAAGGAGTGCGAAGAATTAAGTGGC
R
TTGCTCTTAAAAACTGCCTCCATTCCCAGCTGCTTATTTGAGCAGGGTTTCCCAGCCCTTTGACCTATAAGAAACAAAAATAAGACCAGAATTAATGCTG
Celera SNP ID:            hCV9708578
SNP Position Genomic:     8950
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39888):
AAGAATTAAGTGGCATTGCTCTTAAAAACTGCCTCCATTCCCAGCTGCTTATTTGAGCAGGGTTTCCCAGCCCTTTGACCTATAAGAAACAAAAATAAGA
S
CAGAATTAATGCTGAACCTTTTCTCAACCAAACAATATTCACTCATGAAAATATAAATCCATTGCGGGGGATGGGCAGTAGAGTACTGTTTATCACATTA
Celera SNP ID:            hCV9708579
SNP Position Genomic:     9036
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39889):
CGCAGACTGGCGGAGAAGGAGAGGAACGGGCAGCCTGGGCCTGGGTGGAAATCCTGCCCTGGAGGAAGTTGTGGGGAGATCCACTGGGACCCCCAACATT
Y
TGCCCTCACCTCTGTGCCCAGCCTGGAAACCTACAGACAAGGAGGAGTTCCACCATGAGCTCACCCGTGTCTATGACGCAAAGATCACCAGCCATGTGCC
Celera SNP ID:            hCV27467378
SNP Position Genomic:     29064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:39890):
GAATAGGGAAGTGTGGTCTTACCCTGCTTCTCCCAGAGAGAACTGGAACGTGAATGAACGCCTTCGTGACTGCAGTGTGCATGCATGCAAGTGTGGGAGG
R
TGTGTGAGGAGTGGAGGAATATCGCTTAGGTTGTGTGTGCGCCCACGAATGTATGTACAGTTCACAAACGTGATGTCTGTGTAATGACAGCGGCTGCCAT
Celera SNP ID:            hCV27506628
SNP Position Genomic:     24046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39891):
CTGGACTTTCTCCACCACTGGGGCCCTGGAGTCTGCGATCGCCATCGCAACCGGAAAGATGCTGTCCTTGGTAAGAAATCAGCCACAGGCGACCCCCTGC
R
GAGGACACCCCATCCTGATGTGGGCCAGGCCTGGGCCTTTGGTTTCCCTGGAGCATTGGCTAAGGGTGCTGTTTCAGGTGGACCCAGATGCCCCAGCCTT
Celera SNP ID:            hCV15882302
SNP Position Genomic:     18736
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;JBIC-allele(G,637|A,858)   total(G,637|A,858)
SNP Type:                 INTRON


Context             (SEQ ID NO:39892):
CGGTTGGCCTCACCCGCCACCAAGGCCTCTGGGAGTGTGGCCAAAAGAATTTAATAGAGTGAGCAACACACCATTACACATCATCCTCCAAACCCGAGAT
S
CACACACAGATACAGGGTTGGCCTTTAGATGAACTCACTAAAGTCCCAGCCTCCCAAGCTCATTGCGCCCTGTGAGGGTGAGGTGGCTGTGTGTAAGGGC
Celera SNP ID:            hCV15882303
SNP Position Genomic:     19974
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   JBIC-allele(G,399|C,1074)   total(G,399|C,1074) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39893):
TTTGCTGAGTCTTATCCCAAGGCTGGGCCTCTCAGAGACCCCCTCTGCCACTGGGACATGCCCAACCAAGTCCCCAGCCTGCCAGGCCAGATATCTCGCC
R
CGCCAGTCCCCGAGGGCCCCGCCTCTATCAGGACAGCCCCAGGTGGGCTCACCTGTGTGTACTTCTTGCAGGGGTCTCCCCAGCCAGGCTTTCGAGTATA
Celera SNP ID:            hCV15882304
SNP Position Genomic:     21511
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   JBIC-allele(G,343|A,968)   total(G,343|A,968) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39894):
CGCCAAAGCCTTGACGGCTTCTCAGCTGGCAGGTCACTGGGTTGTGTCCTTCTTCCAGGCGGAACAGCAGCTGGTGGACTGCGCCCAGGACTTCAATAAT
Y
ACGGCTGCCAAGGGTACGTCTCTGACCAGAAGGGGCCCAAAACTTCCTCATTTCCCACTGACCGCTTCGACAGGATCCAGTGTGTGCTGGGTCTGCCACA
Celera SNP ID:            hCV7509783
SNP Position Genomic:     19613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39895):
GAGGAGTACCACCACAGGCTGCAGACGTTTGCCAGCAACTGGAGGAAGATAAACGCCCACAACAATGGGAACCACACATTTAAAAGTACGTGGAACGCCT
Y
CCTTCCTTCCTGGAAGGATGTCAGTTAGTGACCCAGCCCATGAAAGGGCCCGCTGGGGGCTGGTGGGTGGAGGGAGCAGAAGCCCAGGCTCTGAAGCTGT
Celera SNP ID:            hCV25604156
SNP Position Genomic:     13775
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,30)   caucasian(C,1|T,27)   total(C,7|T,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:39896):
TCCTTCCGGGAGAAAAGGCTGGCATGGGGCGGCCTGGGTGTATATGCTGCTGTGCCTTTGTCCTGTCCTCCCAGATTCCATGTCCTTGTCTGAAAAGGAG
M
GCTTTCCTGTTCCCTCGGGCTCCTGGTGATAAAATAGCTGTGTGAGGGCCCGGCCAGGGCTAAGAGGGGGCCCTCGGTAAATTTTCGGGAGAAGTGGGAT
Celera SNP ID:            hCV7509784
SNP Position Genomic:     28551
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;JBIC-allele(A,506|C,591)   total(A,506|C,591)SC_12_A(A,7|C,14)   SC_12_AA(C,1|A,16)   total(A,23|C,15)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39897):
GCAGGCCCTAGAGTGGACGCTGGGAGAACTTGGCCAGGGGCGCACTGGGCTCCGGAGGAACGGGGCAGAGCTTTCCCCGGTGAGAGGCCAGGAACTCTGC
R
TGCTGGCACGGGGAGGGGTAAACTGCATTATAGGCGGGGGTTCTCGGAGGGTGGGCGGCTTGTAGGACCAGAGGAGCAGATGGGCTGAGTGTCCAGGGTC
Celera SNP ID:            hCV25604157
SNP Position Genomic:     6322
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:39898):
AGGAGGAGTTCCACCATGAGCTCACCCGTGTCTATGACGCAAAGATCACCAGCCATGTGCCTTAGTGTCCTTCTTAACAGACTCAAACCACATGGACCAC
R
AATATTCTTTCTGTCCAGAAGGGCTACTTTCCACATATAGAGCTCCAGGGACTGTCTTTTCTGTATTCGCTGTTCAATAAACATTGAGTGAGCACCTCCC
Celera SNP ID:            hCV7509785
SNP Position Genomic:     29204
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:39899):
CCCTGAGCGCAAGAGCCAAGCCGCCAGCGCTGCGATGTGGGCCACGCTGCCGCTGCTCTGCGCCGGGGCCTGGCTCCTGGGAGTCCCCGTCTGCGGTGCC
R
CCGAACTGTGCGTGAACTCCTTAGGTACGCAGAGGGCGCGCCGCCCGAGAGGGTGCTAGCAGGCCCTAGAGTGGACGCTGGGAGAACTTGGCCAGGGGCG
Celera SNP ID:            hCV25604158
SNP Position Genomic:     6163
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:39900):
AGTGGATCTGATGAAGAAAGACAGTAGAATGGTGACTAGCAGAAGCTAGGAAGGGCAGGGAAGCAGGGATGAAGATAAACTGATTCCTGAGTACAAAATA
T
TTTTTTTTTTTTGAGACAGAGTCTCACTTTGTCACCCAGGCTGAAGTGCAGTGGCACACTCTCGGCTCACTGCAACCTCCACCTTCTGGGTTCAAGCGAT
Celera SNP ID:            hCV12091714
SNP Position Genomic:     12696
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39901):
CTCCCAGTTGACGCTCTGGGCCGCCACCTCCGCGGACCCTGAGCGCAAGAGCCAAGCCGCCAGCGCTGCGATGTGGGCCACGCTGCCGCTGCTCTGCGCC
R
GGGCCTGGCTCCTGGGAGTCCCCGTCTGCGGTGCCGCCGAACTGTGCGTGAACTCCTTAGGTACGCAGAGGGCGCGCCGCCCGAGAGGGTGCTAGCAGGC
Celera SNP ID:            hCV15882348
SNP Position Genomic:     6127
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,3|G,35)   total(A,3|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39902):
TAAGTGGCATTGCTCTTAAAAACTGCCTCCATTCCCAGCTGCTTATTTGAGCAGGGTTTCCCAGCCCTTTGACCTATAAGAAACAAAAATAAGACCAGAA
W
TAATGCTGAACCTTTTCTCAACCAAACAATATTCACTCATGAAAATATAAATCCATTGCGGGGGATGGGCAGTAGAGTACTGTTTATCACATTAAGAGAT
Celera SNP ID:            hCV9708585
SNP Position Genomic:     9042
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39903):
TTTTTTGTTTTGTTTTCTTTATTTGAGATGGAGTTTCGCTCTTGTCACCCAGGCTGGGGTGCAGTGGCACAATCTCGGCTCACAGCAGCCTCCGCCTCTC
R
GGTTCAAGCGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTGGAGCTGGGGT
Celera SNP ID:            hCV9708587
SNP Position Genomic:     10196
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39904):
AGGAGCCTGCTCTTCCCTACTGCCTCCCTCCTTTCCTACTGTCCCTGGTCCCAGCCTCAGCCCACAGGCTCTGAACTTAAAGACCACCTGCCCCCTTCAC
M
GAGAAAAGTAGCCAAGAAACAACCCAAGGAGCCAAGAACCTAGGGAGGGGGGGTGCCCTGAGCTCTGGAGGAACGGGACAGGGCTTTCCCCCAGCTAGAG
Celera SNP ID:            hCV29095200
SNP Position Genomic:     6955
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39905):
CAGGGCAAGGTAACTCCAACAGCCTCCACTCTGTCTTCTTGGCGTACAGCATGCCTAGCTTCACTCCCTCCCCAGCCTTGGAAGACATCCCTTCTCCCCC
S
ACCTCCCTCCCGCCGGAATTCTCACAATTGTCTGTTCTCTCCAAATTCTTCCTTCCCCTCCTCCACCCACCTGAGCCCACTGCTCTCACCAGTCCAGGGG
Celera SNP ID:            hCV15882311
SNP Position Genomic:     21756
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;JBIC-allele(G,103|C,1388)   total(G,103|C,1388)
SNP Type:                 INTRON


Context             (SEQ ID NO:39906):
GGCTCCTCTCCCTCCTGCCACGAGCGCCATCCTCTCGCCTCTGTCCATGCAGTTGGCCTCTTGTGCCAAGGACCCTTTGGGGGCCCACCCCCACCCCTAC
S
CTATCAAGGCTGCTGGGCCTCCCACCATCACCTCCGCCCAGCCTGGCCACAGCCAAGTGCCTTGTCTTTCCCCAAGACCTGTTGCTCCTCCTTTATTTCC
Celera SNP ID:            hCV29095202
SNP Position Genomic:     22062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39907):
ACCCGTGTCTATGACGCAAAGATCACCAGCCATGTGCCTTAGTGTCCTTCTTAACAGACTCAAACCACATGGACCACGAATATTCTTTCTGTCCAGAAGG
R
CTACTTTCCACATATAGAGCTCCAGGGACTGTCTTTTCTGTATTCGCTGTTCAATAAACATTGAGTGAGCACCTCCCCAGATGGAGCATGCTGGTCCTGG
Celera SNP ID:            hCV7509790
SNP Position Genomic:     29227
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:39908):
TTTGCCTTTGAGGTGACTCAGGACTTCATGATGTATAGAACGGGCATCTACTCCAGGTGAGTCAGGGTCCCAGGAGCCAGGAGGGACAGTGGGGAGGGGC
Y
TGGTGGGCCTCCTCACACCCCACTCGTGGGACTTGGGCTCGTGGCCCAGACTCCTGTGTGTCAGACCCTTCATGACACCTGCCAGGTGCTGGGCGTTTTG
Celera SNP ID:            hCV15882312
SNP Position Genomic:     25787
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(C,287|T,818)   total(C,287|T,818)
SNP Type:                 INTRON


Context             (SEQ ID NO:39909):
CTGAGACTGTCCCCACTCCCCTGCCTCACAGGCTCTGACTCGGCCTCCACTTCTCAGTGAGTTTCCTCAGGCCGGGTGAGGCCCCTCCTCAGGCTCCCAC
S
ACACACCATGTGTGCCCACCTCTGCCAAAGCCAGCACAGGACCATCTGCTACCAGACCCTAAGCTCCTTGAGGACAAGGATGCTTTAATTCTCTCTGAAA
Celera SNP ID:            hCV29095203
SNP Position Genomic:     23073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39910):
GTGCCTTAGTGTCCTTCTTAACAGACTCAAACCACATGGACCACGAATATTCTTTCTGTCCAGAAGGGCTACTTTCCACATATAGAGCTCCAGGGACTGT
Y
TTTTCTGTATTCGCTGTTCAATAAACATTGAGTGAGCACCTCCCCAGATGGAGCATGCTGGTCCTGGGCCATGACTCAAACCAGGTCTGTCCTCGCCACT
Celera SNP ID:            hCV7509791
SNP Position Genomic:     29260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:39911):
TCATGATGTATAGAACGGGCATCTACTCCAGGTGAGTCAGGGTCCCAGGAGCCAGGAGGGACAGTGGGGAGGGGCTTGGTGGGCCTCCTCACACCCCACT
Y
GTGGGACTTGGGCTCGTGGCCCAGACTCCTGTGTGTCAGACCCTTCATGACACCTGCCAGGTGCTGGGCGTTTTGCACATCCCTCAGTTAATCCTCACAC
Celera SNP ID:            hCV15882313
SNP Position Genomic:     25812
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(T,193|C,744)   total(C,744|T,193)
SNP Type:                 INTRON


Context             (SEQ ID NO:39912):
CATTGTCCTTGGACCCCCTAACCCCCCACACACTGTTCCAGCTTCCACTGGGAGCTGTCTGCCTTCTGAAACACTCCTCTTGCCAACGCCAACCTTTGAA
Y
ACACCAGTGTCCCTGCTTTCCCAGGGTCCTACCCTGAGGGGGACCCTCATGATCTGGTCCTCCCTCTTTTTCCACACTCATCTGCCATCAAACCCGTCCC
Celera SNP ID:            hCV29095204
SNP Position Genomic:     26759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39913):
TGCTGTGCCTTTGTCCTGTCCTCCCAGATTCCATGTCCTTGTCTGAAAAGGAGAGCTTTCCTGTTCCCTCGGGCTCCTGGTGATAAAATAGCTGTGTGAG
S
GCCCGGCCAGGGCTAAGAGGGGGCCCTCGGTAAATTTTCGGGAGAAGTGGGATATGGATCATTCATTTGGCAGCTAAGGAGAGGGAAGAATGAATTCTTC
Celera SNP ID:            hCV25604165
SNP Position Genomic:     28598
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,40)   total(C,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:39914):
CCTGCCCTGGAGGAAGTTGTGGGGAGATCCACTGGGACCCCCAACATTCTGCCCTCACCTCTGTGCCCAGCCTGGAAACCTACAGACAAGGAGGAGTTCC
M
CCATGAGCTCACCCGTGTCTATGACGCAAAGATCACCAGCCATGTGCCTTAGTGTCCTTCTTAACAGACTCAAACCACATGGACCACGAATATTCTTTCT
Celera SNP ID:            hCV27469815
SNP Position Genomic:     29116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:39915):
GGAGAAAAAAATGGGATCCCTTACTGGATCGTGAAAAACTCTTGGGGTCCCCAGTGGGGAATGAACGGGTAAGCAGCTCCCAGGTCCCACTTCTGGGAGG
S
GGATGTTGCTCAGGCCTGGAGGCCCTGGGGGCATCACTTCCACCTCAGAGTTACGGCTTCCACAGACGAGCTGGTCAGCCAAGCCCTAGGCCAGGCCAGG
Celera SNP ID:            hCV25604166
SNP Position Genomic:     28117
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:39916):
CTGAAGGAACTATCCTAGCCCCTGCCTCTGTGGAGAAAGGAGGGACAGTGCACAGCCGGCCTGGTGATGCCATGAGGACCCTGGGTTGTGGACAGGTGGG
R
GTAGGGTCTCTGGCTGGGCCTGTTTCCCCCATCCTATACACCGCTGTGGGACCCCACACTCTGCATCGTATGGGCACACCTACGGGGCAGGGGTTTGGAC
Celera SNP ID:            hCV25604167
SNP Position Genomic:     19214
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,34)   total(A,1|G,61)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39917):
GCCTCTGTTTCCTCTCGGCATCTCTCCAGCCCTCTTCCTTTGAGGGGCCAGGGAGGTCAGCACTTCTCTAGGCTGCTCTGGAGGATGCAAAAGTTCCTCT
K
TATTGGGCTAAAGTTTACTCCCTTCCTTCCCCACGCCCCAGATTTTCCCATTGGTCCCAGGTCTCTCCTACAGAGCCATCCAAAACGTTATGTTCCCTGT
Celera SNP ID:            hCV12091720
SNP Position Genomic:     16308
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39918):
GTCCCTCCCTCCCCCAGCTGAGAGAGATATGTGAAGGGAAGAGATTGGGTGAGGCCAGTGTCAACCTAGGGTGATGACCTGGGAGGCAGGTAGGGGACTT
A
AGAGACATTTCAGAAGTAGAAGCTGGAAGACTGAACCAGCAAGGTGAGGAAACAGAGATGAACCTGAGAGAAATCCTTACAGCAGCCACCAGCATTGTGC
Celera SNP ID:            hCV12091721
SNP Position Genomic:     17604
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39919):
ACCAGAAGGGGCCCAAAACTTCCTCATTTCCCACTGACCGCTTCGACAGGATCCAGTGTGTGCTGGGTCTGCCACAGATATAACCCACCACTGCCCTGGG
Y
GATGGCAAAATGGTCTCTGTTGTACAGGGGTGGTCACCTCACATGGCCAGGTCTCATAGCCAGGACAGGGCAGAGCTGGAATCTGAGTCCAGGCCTCTGT
Celera SNP ID:            hCV12091722
SNP Position Genomic:     19738
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   JBIC-allele(C,158|T,1337)   total(C,158|T,1337) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39920):
AGCCTGGGCAACAGAGCCAGACTCCTTCTCAAAAAAAAAAAAAAAAAAGAAGGAAAGAAAGGGAGGGAGGGAGGGCTGAGTGATAGAGCACCATGGGATT
R
GATGCACAGAAAGGAGTGCGAAGAATTAAGTGGCATTGCTCTTAAAAACTGCCTCCATTCCCAGCTGCTTATTTGAGCAGGGTTTCCCAGCCCTTTGACC
Celera SNP ID:            hCV15936278
SNP Position Genomic:     8915
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39921):
GGAGCTGCTTCTGGCCATCCATGCTGCTCTGGGCCTCTAGCCCCTAGCTTGAGGCAAAAGGCTGTACTGTGAAAGGAGTGGGGAGGTGACAGGCCATGTG
W
TTCTGTCTCGGTCCTGTTTCCACAGTATGACGAGGAAGCGATGGTGGAGGCTGTGGCCCTCTACAACCCTGTGAGCTTTGCCTTTGAGGTGACTCAGGAC
Celera SNP ID:            hCV22273958
SNP Position Genomic:     25610
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,32)   caucasian(T,38)   total(A,6|T,70)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,10)      total(A,1|T,10) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39922):
GAGAGAGGCCGCAGGGGAGCTGCTTCTGGCCATCCATGCTGCTCTGGGCCTCTAGCCCCTAGCTTGAGGCAAAAGGCTGTACTGTGAAAGGAGTGGGGAG
R
TGACAGGCCATGTGTTTCTGTCTCGGTCCTGTTTCCACAGTATGACGAGGAAGCGATGGTGGAGGCTGTGGCCCTCTACAACCCTGTGAGCTTTGCCTTT
Celera SNP ID:            hCV22273959
SNP Position Genomic:     25595
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:39923):
GGACCAGAGGAGCAGATGGGCTGAGTGTCCAGGGTCCCACCTAGCCAGGTGGCTCTCCAGCCTAGAATACCAAAGGAGCCCGCAGCTCCTTCCGCCTTCC
Y
CAACTGGGGACACAGAGTGTCACACAGAGGACTCTGATCTGTCCCTGCCAGAGGTGAGCAAGGACGTCCCAGCCTTCTCTAGCAGCTTCCCCCGGGACTT
Celera SNP ID:            hCV9708558
SNP Position Genomic:     6487
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39924):
CATGCTCAGTGTCCCCTTACTTTTGGTCTGTTTCCACTCCACAGCTTAGAAACCCAACCCATAACAAGAGTCTGACATTTGGGCACTCTGGGGTCCCACC
R
TTTTTATTTTTTTTTATTTATTTATTTATTTATTTATTTATTTTTTCTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCG
Celera SNP ID:            hCV12091728
SNP Position Genomic:     20495
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39925):
GTAGGGGTTGCTCATGGGCTCAGAGCAGCCCCTGGGAGCATCTGCCTTCACTCCGGATTAATTTCACTAGAAACTCACATAGGCCGGGCGCGGTGGCTCA
Y
GCCTGTAATTCCAGCACTTTGGGAGGCCGAGATGGGTGGATCACCTGAGGTCGGGAGTTCAAGACCAGCCTAACCAACATGGAGAAACCCCATCTCTACT
Celera SNP ID:            hCV9708591
SNP Position Genomic:     14168
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39926):
CCGGATTAATTTCACTAGAAACTCACATAGGCCGGGCGCGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGAGGCCGAGATGGGTGGATCACCTGAGGT
Y
GGGAGTTCAAGACCAGCCTAACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCCGGGCTTGGTGGCGCATGTCTGTAATCCCAGCTAT
Celera SNP ID:            hCV9708592
SNP Position Genomic:     14220
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39927):
TCTACCGCCTCGGCCTCCCAAAGTGCTGTGATTACAGGCGTGAGCCACCGTGCCCGGCCAACTCTCCCTTCTTAACCTCACGCCCAGGCCCAGCCACATG
Y
TGGTTCCTAAATGCCAGGTCCTACCCTCCCTCTAGTTCTGTCCCTTGTCCTGCTGCCTTCTCTCCTGCCTTGAAAGGGCTGCGCTTCCCTCCTTGTGACC
Celera SNP ID:            hCV12091729
SNP Position Genomic:     22832
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39928):
CTGTGCCCAGCCTGGAAACCTACAGACAAGGAGGAGTTCCACCATGAGCTCACCCGTGTCTATGACGCAAAGATCACCAGCCATGTGCCTTAGTGTCCTT
Y
TTAACAGACTCAAACCACATGGACCACGAATATTCTTTCTGTCCAGAAGGGCTACTTTCCACATATAGAGCTCCAGGGACTGTCTTTTCTGTATTCGCTG
Celera SNP ID:            hCV27468261
SNP Position Genomic:     29176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:39929):
GCCTGTAATCCCAGGTACTCAGGAGGCTGGGGCAGGAGAATCGCTTGAAACTGAGAGGTGGCGATCACTCCAGCCTGGGTGACAGAGTAAGACTCCATCT
A
AAACAAACAAACAAACAAACAGGGGAATACTGTACTTTCCTGAAACCTGCTGTAAATCCAGGCAAGGTATTATGGCACTTTTAAAGTCCTGACTAGATTG
Celera SNP ID:            hCV26390328
SNP Position Genomic:     7805
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,21)   total(A,21|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39930):
ACCTTTTCTCAACCAAACAATATTCACTCATGAAAATATAAATCCATTGCGGGGGATGGGCAGTAGAGTACTGTTTATCACATTAAGAGATGCATTTCTG
R
TACAATTTTACTTTTGATGTTTAACAATTACTTTTCATAATGTATAATACATTTGAAATGTTTTAATCAGTTGGGACACTAATAATAATTATGATTACTC
Celera SNP ID:            hCV12091693
SNP Position Genomic:     9152
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39931):
AGAGCTGCTGGCCCAGGAGAGGACCTCAGGGAATGGATGTGAATGACTGAATGAGTAGGTCCACGCTGTACCCCGTGGTCCCTATCTCAGAGGGTGCAGG
R
TTTCCTAGGAGCAGAGTTGGGGAGAGGAACGAGAGATGGCCAGACAGACCCAGCCAGAGACAGGAAGGGAGAGAGGCCGCAGGGGAGCTGCTTCTGGCCA
Celera SNP ID:            hCV27496170
SNP Position Genomic:     25426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39932):
CCTGTAATCCCAGGTACTCAGGAGGCTGGGGCAGGAGAATCGCTTGAAACTGAGAGGTGGCGATCACTCCAGCCTGGGTGACAGAGTAAGACTCCATCTA
A
AACAAACAAACAAACAAACAGGGGAATACTGTACTTTCCTGAAACCTGCTGTAAATCCAGGCAAGGTATTATGGCACTTTTAAAGTCCTGACTAGATTGG
Celera SNP ID:            hCV26390329
SNP Position Genomic:     7806
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,22)   total(A,22|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39933):
AGTTTGTTCATGTTACTGATGGTGGATATCAAATCATCATGGTATTTAGATTCCACTGGCTAGCTTTAAAAGAATGATATAACAATCTTATTTTTAGAGA
T
TTTTTTTTTTTTTTGAGACAAGGTCTCACTCCTGTCACCCAGGCAGGAATGCAGTGGCGCTATCATAGCTCATTGCAGCCTCAACCTCCCAGGCTCAAGT
Celera SNP ID:            hCV12091695
SNP Position Genomic:     10526
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39934):
AACTGGAACGTGAATGAACGCCTTCGTGACTGCAGTGTGCATGCATGCAAGTGTGGGAGGGTGTGTGAGGAGTGGAGGAATATCGCTTAGGTTGTGTGTG
Y
GCCCACGAATGTATGTACAGTTCACAAACGTGATGTCTGTGTAATGACAGCGGCTGCCATTTAGTTGAAGCATGTGCCAAGCTCTCAGCAATAACATCTT
Celera SNP ID:            hCV27481794
SNP Position Genomic:     24086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39935):
CTCAAGTGATTCTCCCGTCTAATTTTTTTTATTTTTTTGTAGAGACGAGGTCTCACTTTGTTGCCCAGACTGGTCCCAAACTCCTAGGCTCAAGGGATTC
R
CCTGTGTCAGCCTCCCAAAGTACTGAGATTATAGGCTTGGGCCACACTGCCAGGTGTTATTTTTAAATCTCAATATTTATAAGTTGGAATATGTCTTTGG
Celera SNP ID:            hCV12091696
SNP Position Genomic:     10720
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39936):
CTGCTTCTCCCAGAGAGAACTGGAACGTGAATGAACGCCTTCGTGACTGCAGTGTGCATGCATGCAAGTGTGGGAGGGTGTGTGAGGAGTGGAGGAATAT
M
GCTTAGGTTGTGTGTGCGCCCACGAATGTATGTACAGTTCACAAACGTGATGTCTGTGTAATGACAGCGGCTGCCATTTAGTTGAAGCATGTGCCAAGCT
Celera SNP ID:            hCV27481795
SNP Position Genomic:     24069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39937):
AATATTTATAAGTTGGAATATGTCTTTGGAGGTATTCAAATTTAAAATGAAATGTTTAGATAAGAACATACATGGGGAAATACGGCAGGAATCCAAAAAC
A
AATGGCTGGCCTGCTTTTGTAAAATATTTTGTCTTGTTTGTTTTATTATGTTTTTGATAATATCTGTACATATTTGGGGGTACATGTGAGGTTTCGTTTT
Celera SNP ID:            hCV12091699
SNP Position Genomic:     10892
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39938):
GGGGAATGAACGGGTAAGCAGCTCCCAGGTCCCACTTCTGGGAGGGGGATGTTGCTCAGGCCTGGAGGCCCTGGGGGCATCACTTCCACCTCAGAGTTAC
K
GCTTCCACAGACGAGCTGGTCAGCCAAGCCCTAGGCCAGGCCAGGGGGAAAGGGAGCATGAGAATGTAGCCTCCACATTTCCAAGCCCCCATTTGCAGCC
Celera SNP ID:            hCV15882320
SNP Position Genomic:     28172
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39939):
ACGGGTAAGCAGCTCCCAGGTCCCACTTCTGGGAGGGGGATGTTGCTCAGGCCTGGAGGCCCTGGGGGCATCACTTCCACCTCAGAGTTACGGCTTCCAC
R
GACGAGCTGGTCAGCCAAGCCCTAGGCCAGGCCAGGGGGAAAGGGAGCATGAGAATGTAGCCTCCACATTTCCAAGCCCCCATTTGCAGCCCTCACAGGG
Celera SNP ID:            hCV15882321
SNP Position Genomic:     28181
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39940):
AGCCCTAGGCCAGGCCAGGGGGAAAGGGAGCATGAGAATGTAGCCTCCACATTTCCAAGCCCCCATTTGCAGCCCTCACAGGGCCCCAGGTCTTTAGGAC
R
CTGCAGGGAGAGCAGGAGGCCAGCTGGCTCAGAAGGACTGCTAGGAAAACAGCTCAGAACTTGGAACTCTGCTGGCACGAAATCAGTGTCTGGGAGGGTC
Celera SNP ID:            hCV15882322
SNP Position Genomic:     28299
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;JBIC-allele(A,334|G,1161)   total(G,1161|A,334)
SNP Type:                 INTRON


Context             (SEQ ID NO:39941):
GTAATGTGCCCAAGGCCACAGAGCTAGGAAATAGATGCTGGATTTGAACTAAGAATGTGTCATTCCAGAACCAGGGCTCATTGCCTTGACAACATACAGC
R
CAAATCCTGTACTCAGGATGTCACCCTCTTCAGAATGTTGCTGCTGTCACTCAAGCTGGCTGCTCTGGGCCATGATATCCCAAGGACAGGTGAATTTGGG
Celera SNP ID:            hCV27484954
SNP Position Genomic:     24424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39942):
TGCGCCCAGGACTTCAATAATCACGGCTGCCAAGGGTACGTCTCTGACCAGAAGGGGCCCAAAACTTCCTCATTTCCCACTGACCGCTTCGACAGGATCC
M
GTGTGTGCTGGGTCTGCCACAGATATAACCCACCACTGCCCTGGGTGATGGCAAAATGGTCTCTGTTGTACAGGGGTGGTCACCTCACATGGCCAGGTCT
Celera SNP ID:            hCV25604175
SNP Position Genomic:     19692
SNP Source:               Applera
Population(Allele,Count): african american(A,27|C,1)   caucasian(A,20)   total(A,47|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:39943):
TGTCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCACTTGATCCCGGGAGGTGGAGGTTGCGGTGAGCCGAGATAGTGCCATTGCACTCCAG
S
CTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAGAAACTCACACGCACGTCCAGCGTATTTTCTGAGGACTCTGAGAAATATTGGTAGTTGACT
Celera SNP ID:            hCV11943470
SNP Position Genomic:     14402
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39944):
CTGCGCCCAGGACTTCAATAATCACGGCTGCCAAGGGTACGTCTCTGACCAGAAGGGGCCCAAAACTTCCTCATTTCCCACTGACCGCTTCGACAGGATC
Y
AGTGTGTGCTGGGTCTGCCACAGATATAACCCACCACTGCCCTGGGTGATGGCAAAATGGTCTCTGTTGTACAGGGGTGGTCACCTCACATGGCCAGGTC
Celera SNP ID:            hCV25604176
SNP Position Genomic:     19691
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,18)   total(C,47|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:39945):
GGGCCTCAGATGTGGCTCAGCCAGGGAGGCTTAGCGCCTCACGCCAAAGCCTTGACGGCTTCTCAGCTGGCAGGTCACTGGGTTGTGTCCTTCTTCCAGG
S
GGAACAGCAGCTGGTGGACTGCGCCCAGGACTTCAATAATCACGGCTGCCAAGGGTACGTCTCTGACCAGAAGGGGCCCAAAACTTCCTCATTTCCCACT
Celera SNP ID:            hCV25604177
SNP Position Genomic:     19572
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39946):
CGGCGTCCCCATCACTGATGTCCTCTGCTCTCCCCTGGCCTTTCCAGGGTGCCTGCGGCAGTTGCTGGACTTTCTCCACCACTGGGGCCCTGGAGTCTGC
R
ATCGCCATCGCAACCGGAAAGATGCTGTCCTTGGTAAGAAATCAGCCACAGGCGACCCCCTGCGGAGGACACCCCATCCTGATGTGGGCCAGGCCTGGGC
Celera SNP ID:            hCV11943471
SNP Position Genomic:     18672
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;JBIG-allele(A,258|G,481)   total(G,481|A,258)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39947):
ATGACAGCGGCTGCCATTTAGTTGAAGCATGTGCCAAGCTCTCAGCAATAACATCTTAACTTGATGGAGTACTTCTAGGTGCTGTACCAACCCTCAATAC
R
CACTATCCCCTCTAGACCCGAACTGGCCCTAGGAGATGAGTATCCTTATTACCTCATTTGACAGGTGAGGAAACGGGGGCTCCAAGTGGTTAAGTAATGT
Celera SNP ID:            hCV12091730
SNP Position Genomic:     24230
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39948):
TTCCACAGTATGACGAGGAAGCGATGGTGGAGGCTGTGGCCCTCTACAACCCTGTGAGCTTTGCCTTTGAGGTGACTCAGGACTTCATGATGTATAGAAC
S
GGCATCTACTCCAGGTGAGTCAGGGTCCCAGGAGCCAGGAGGGACAGTGGGGAGGGGCTTGGTGGGCCTCCTCACACCCCACTCGTGGGACTTGGGCTCG
Celera SNP ID:            hCV11943476
SNP Position Genomic:     25728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   (G,-|C,-)   Caucasian(G,84)   total(G,84)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:39949):
ATGGTCCCCAGGAGAGCCTCATTGGTGACACCTGCAGGGCCCTGACGACCAGGCCAGAACTAGCATTCAGCCCTCTTGGGCAGGCCCATGGGGTGGAAAT
R
GTGCCACCTGCAGAAGTCATCGCCCCTGTGCTGGGCTGGCCTCTGTGCCCTCCATGTCTCAGATATGCCCTGACCTGTTGGGCTCACAAGGCCTTGTCCA
Celera SNP ID:            hCV12091735
SNP Position Genomic:     24645
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,16)   total(G,16|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39950):
GGTGCAGGGTTTCCTAGGAGCAGAGTTGGGGAGAGGAACGAGAGATGGCCAGACAGACCCAGCCAGAGACAGGAAGGGAGAGAGGCCGCAGGGGAGCTGC
Y
TCTGGCCATCCATGCTGCTCTGGGCCTCTAGCCCCTAGCTTGAGGCAAAAGGCTGTACTGTGAAAGGAGTGGGGAGGTGACAGGCCATGTGTTTCTGTCT
Celera SNP ID:            hCV12091736
SNP Position Genomic:     25518
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39951):
CTGTAATCCCAGGTACTCAGGAGGCTGGGGCAGGAGAATCGCTTGAAACTGAGAGGTGGCGATCACTCCAGCCTGGGTGACAGAGTAAGACTCCATCTAA
A
ACAAACAAACAAACAAACAGGGGAATACTGTACTTTCCTGAAACCTGCTGTAAATCCAGGCAAGGTATTATGGCACTTTTAAAGTCCTGACTAGATTGGA
Celera SNP ID:            hCV26390330
SNP Position Genomic:     7807
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,22)   total(A,22|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39952):
ATCGAGCGCGGAAAGAACATGTGTGGCCTGGCTGCCTGCGCCTCCTACCCCATCCCTCTGGTGTGAGCCGTGGCAGCCGCAGCGCAGACTGGCGGAGAAG
K
AGAGGAACGGGCAGCCTGGGCCTGGGTGGAAATCCTGCCCTGGAGGAAGTTGTGGGGAGATCCACTGGGACCCCCAACATTCTGCCCTCACCTCTGTGCC
Celera SNP ID:            hCV11943479
SNP Position Genomic:     28982
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:39953):
GTAATCCCAGGTACTCAGGAGGCTGGGGCAGGAGAATCGCTTGAAACTGAGAGGTGGCGATCACTCCAGCCTGGGTGACAGAGTAAGACTCCATCTAAAA
C
AAACAAACAAACAAACAGGGGAATACTGTACTTTCCTGAAACCTGCTGTAAATCCAGGCAAGGTATTATGGCACTTTTAAAGTCCTGACTAGATTGGAAT
Celera SNP ID:            hCV26390331
SNP Position Genomic:     7809
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,22)   total(C,22|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39954):
ATTATGGCACTTTTAAAGTCCTGACTAGATTGGAATGGATCTATTTTAGGGTAAGGCACGGTTCACCAGCAGATTATTCTGGCCCCAGAATAATCTCTCC
R
GAGGCAAACTGGTAGTCAATTGTCCTAAACTCAAACCCTGCCTCCAACTCTTGTCCTGAGTTGAGGTCTGTCTTCCTCTAAAGCCCTCAGCTGCAGCAGG
Celera SNP ID:            hCV26390332
SNP Position Genomic:     7974
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,12)      total(G,12|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39955):
AATAAATCGTTCATATCTGGCATTCTCAATTCCTCAAGGAAACTGAATTGAAGAGGAGAGGACTTCATGGGGATATCAACTGATGAGGTCTTAAAAATAA
Y
GTTGAGTGAGGCCAGGCGTGGGGGCTCACGCCTGTGATCCCAGCACTTTGGTAGGCCAAGGTGGGTGGATCACCTGAGGTCAGAAGTTTCAGACCAGATT
Celera SNP ID:            hCV26390333
SNP Position Genomic:     8556
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39956):
GTCCCCTTACTTTTGGTCTGTTTCCACTCCACAGCTTAGAAACCCAACCCATAACAAGAGTCTGACATTTGGGCACTCTGGGGTCCCACCGTTTTTATTT
T
TTTTTATTTATTTATTTATTTATTTATTTATTTTTTCTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTC
Celera SNP ID:            hCV26390334
SNP Position Genomic:     20505
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39957):
TCCCCTTACTTTTGGTCTGTTTCCACTCCACAGCTTAGAAACCCAACCCATAACAAGAGTCTGACATTTGGGCACTCTGGGGTCCCACCGTTTTTATTTT
T
TTTTATTTATTTATTTATTTATTTATTTATTTTTTCTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCA
Celera SNP ID:            hCV26390335
SNP Position Genomic:     20506
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39958):
CCCCTTACTTTTGGTCTGTTTCCACTCCACAGCTTAGAAACCCAACCCATAACAAGAGTCTGACATTTGGGCACTCTGGGGTCCCACCGTTTTTATTTTT
T
TTTATTTATTTATTTATTTATTTATTTATTTTTTCTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCAC
Celera SNP ID:            hCV26390336
SNP Position Genomic:     20507
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Gene Number:                 181
Celera Gene:                 hCG24602 - 66000116051721
Gene Symbol:                 MMEL2
Protein Name:                membrane metallo-endopeptidase-like 2;NL2
Celera Genomic Axis:         GA_x5YUV32VTH2(15605..70069)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12341):
GAAATAAGTATCTGTTGATGAACCACCTGTCTCTGCTATTCTGTTGGGGCAGTCCAGATAGACAAAGACATGCCCGTTCCCGCGGCCCACCACCTCTGCC
CTGAGCACAGTGGGTGAGTCTCGGTTCCCCTTATCCCATCCCTGCTGGGGTCCAGCCCTGGCTTTTCCTGAGGTAGTTTCTCCAGGACCAAGCAGACACC
CACAACCAGCAGCCCTTAAGGCATGGACGCACTCGTCCCTGAGGCCTGGGTGTCCCGCCTGGAGGGGCATGTCCACAGCTGCTCTGGGTCCTGACGCTCC
AGGAGCTCACGCTGTCTGCAGATCCACCACTTCCCTGGGCAGYCCCCGGCCTGCGTCTTCCTCAGTGCTCAGCTGGAGGTGGAGAGAAATCAGGCTGGGA
CGGAGGGTGGCCCTTGCTTTGCACGATTCCTGCCTCGACGTTACACCAGGGACATTCCAGCATCTCCCCTTCATTAACTGTAGACCGCCAGCAAATCCAG
ATTTCATTCAACCAAGTAAACTGGTAGAGTCATTTCCAGCAGCTAATGTGAGCTAGCGCATTAAATTCAGAATCTCTAGTAAGTGTACCTGCATCAATAA
AGCCAAGCCGGTCCAGCTGCATTAATACCCTACCCTCCATTCCCACACGGTTCCCAGGTCTCCGTGTGTGAATTTGTAACATCTTACGAGCATTTTGGTG
TGAAAGTGGTTCCTTCCTGAGTCAGGCTTTGTACTTGACCCTTCCCCTCCCTGGGAGTACACTGAGGTTCTAGAGGCAACAGGGTGGCTATGGTGGTTAA
ATAAAATGAGCATCATTTCTAGGCACCTGGCCAGGTAAGCTTATCACAGCATTTTCAAGCAGAACAAAAAAAATAAATAAAGGCTACTCTCAGATCTTGG
AGGACAAGCTGCTTCCCCTGGAAGGAGAGGCTCAGAGAACCAGGGGGTTCACAATTCTCAGCTTCATCTGAGCCCAACCAGACATCCCCATGCCAAGCTT
CAGCATCCAGTTCCTTCCCACTCAGTGCCCACGTTTCAGTAGTGAGGCTGTGAGTGTGAGCCACACAGCAGTCACACAACTCAGAGTTAAACTGTGCATC
CGAGTTGTAGCAGCAGCAGCCCCGAGGCTCTCAGGAACAAGGGACTCTTCCATGGCCATGGCAGTCCTGATTCTCTGTCTATGACTTAAACTGAGTTTAG
AGACCTGAACGTGTGGTTCCTTCCTGTTAGTGCTGCTGGACACTCAGGGGACCCCCCACAGCCCTCGTGGTTGTGGTCATCCTCGTGGCCGTGACAGCCT
CACACAGCAGCACGTGGGTTCCCGAGGCCCTCAATTCTGCTGGTGCCTCACAGCCAGCATGGGGGATGGCTTGGTTAACTGTGAAGCTCCCCCAACAACA
CTGTGGGCCAACAGCCTCCCCTTCCCACTGGCCAGGAGATCGGCCTGCAGCCCAGCCCAAGCAACAACCACACTAACCTAATCCCCGGACCCCACCTTTT
GATAGTGACAGGAGGCAGACAAATCCTAGGCAGACAGGGACAGGTTCCCAGTGAAACCCCACCTCCGAGCCAAAGACAGTTTAAAGCCTGAAAGCCAAGC
TACAAATTAAATCCTCAGCCTGGATTGAGAACCCATCTTCCCATTTGGCTGCTTTCCTCTGATTGATCCCCACCCTTCACCTATTTTACATGTACCTATC
TTTTCCTAATTCATTTTCTACACTGGCATGCCCACCTTTGAGTGGTACCTTTGTTTAAGCCTTTTTTGCATAATCAGAAGCCAATCAGCATGCACTCCCC
CATTCTGAGCCCATAAATGCCCCGGACCCAGCCACACTAGGAGAGAAACCACCTGACTTCAGGTCGGGAACCACCCGTGCATCCCCTCTCTGCTGAGAGC
TGTTCCGTCTCTCAATAAAATTCTTCTCTGCCCTTCTCACRCTTCGATTGGCAGCATCTCCTCATTCTTCTTGGACACGGGACAAGAACTTGGGAACTGC
CATACATGGGTACAAGCTATAACACAAGCAGGCTGGAACATGCCCAGCCCAGCCACAGGCTGAGCTGGTGAACAGCCAGGTGTGGCCCAGGCAGGCTGAG
TGGGTGGGCCACCTCCTGCGGCAGGTAGCATGGCCAAGAGAGGCCTGGGGAGGGGGGGTGTCAGCAGCCAGAGGTACCTGGCTGGCAAAGTGACCAAAGA
GGTACCTGACTGTGTCACTTTGAGGGCCTGTCTCTGGGGACCCCCTCCTAGTATGAATTTATGTATCAGTTGGGGTCTACTTGGGAGATGGAAACCACAA
CAGTGATTCTAATAGCATGAATTTAATGTGCAGAATTTTTCATTAGTTCTGGGTAAAAACAGCTCTAGGGAATCATGGAGGTTGCAACCACAAAATTCAG
AGAGGTGACCTGGCTGGCGACACTGGTGATAATGGTCACCTGCCATGCAGCCTTTCAGCTCAGGTGGGCACACTCCTCTGCCCCTGCCCACTTCCTCTCC
CAGGTGAATCTTGACCACACCTGTGCCTGGCACTGTGCACACATTCTCTGTTGTTCAACTCTGCGATCAATCTGGAAAAAAAAGAAAAAAAAAAAACCTT
TTTAGGAGAGTAAAAGGAAAATAAATCTTGGGGCCCCAAAATCACTAAGCCAAAGGGAAAAGTCAAGCTGGGAACTGCTTAGGGCAAGCCTGCCTCCAAT
TCCATTCAAAGTCATTCCCCCGCTCGCTGAGATAGATGCATATCTGATTGCCTTCTTTGGAAAGGCTCATCAGAAACTCAAAAGAATGTAACTCTATCTT
ACATGTGTTGATTGATGTCTCATATCTCCCTAAAATGTATAAAACCAAGCTGTCCTCTGACCACCCTGGGCACACGTCAGGACCTCCTGAGGCTGTGTCA
CAGGTGTGCATCCTTAATTTTGGCAAAATAAACTTCCCAAATTGACTGAGACCTGTCTCAGATTTTTGGAATTCACAAGTGAGGAGGCAGAGGCTCCAGC
TACTGGGGATGGGCTGGTGGCTCAATGACACAGATTTTGGGGCAGCGGGACCACTGGGCCCCTTCCCTCCTGCCCTGGATACCCAGGGCCTGACTTCAGG
AGGCAGCTGACAAGGAAGGTGGGGACCCCAGAGGCCCGGCTGTCGTCCCAGCAGCCGGAAAGAGGCTCACCCAGAAATGCTGGTGAGCCTCTTCTGACCT
GTGCATCTTCTCTAAGTGGGGCACCTCATTCCTGCCCAGAGCGTAGCTGGGCAGACCTGAGGGAGAGGCCCTGCTCCCAATGGGCAGAGGAAATGCCCGT
TGGGCACGTCTGGGGTGCACCAAAGCACAGGACCTGCCACCAGTAGCCTGGCCTGAGAGTGTGGGGCAGTCACAGGCAGGCGTCTCCAGGGCCTGAGGGC
AGCCCCCAAGGCAGGGTGGACACGGCAACCTGGGTGAGGGCAGCCCCACAGCAGTGTGGACAAAGGCTAGTGCCCTCAAGGCCCACCCTGGCCCCAGGGC
TGCTGCAGGAAGCACTTCCCTGACCCCCGTCCCACCTGCCTCCTTGGACCCCTGAGCTGGGGCTGCTCCTTGGATCTCCACATCCCACAGCAACCCAGAG
AGTAGGAGGGGCAGGGAACACCCATTTTCCCCCAATCTCCCTAGGAGATGGGATTAATGTCCACCTCCGGGGTGCTGGGCTCTGGCTATGCGGGTGTCTG
GGGGGACAATCCATGCAGGTATTTGCGGGGGATGGTCTGTGCGGGTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGTCTGTGTGGGTGTTTGGGGGGACAGTCTGTGTGGGTGTTTGGGGGCATGGTCT
GTGTGGGTGTTGGGGGGATGGTCTGTGTAGGTATCTGGGGGGACAGTTTATTCTGTGTAGGTTGTCTGGGGGGATGGTCTGTGCGGGTGTCTGGGGGGAT
GGTCTGTGTGGGTGTCTGGGGGGATGGTCTGTGTGGGTGTCTGGGGGGATGGTCTGTGTGGGTGTCTGGGGGGACGGTCTGTGCGGGTGTCTGGGGAGAG
AGTCATCTGTGCAGGTGTTTGGGGCGGCTGGGTTGCACTGCCCTGGGCACCTGCAAATCTGTGAGTGTCCAGTGACCGGGATAGGTCTCGGGGTCTGCAG
CCTCCTTGGCCTTTAGCCTCCTTTCCCAGTTTCTCTTGTCTGGCAGGTGCCAGGCTAGGACCCAAGCCTCCTGCTGTCACCTAGAAGTAGGGAGAACCTG
GGAATAAGGGGTCCCAAGTTTGGCAGCCCAGGTCACCAGGTGGCCTTGGGCCAGGCTGGGGGCTGCTGGGCTGGACAGGCCTGGGGTTCGGGAAGGAGGA
GCATGCACAGGGCCAGCCTTGGGGAGTCGGTTCAGAGTCCAGGGAGCCCCTGCTGAGAGTAGGCCAGGCCCCTGCATCTGTTTCTCCCTCTGTGGATTTG
TACCTTAGAGACAAGAACACTGTGACATCCAGAAAGGGCCTGCTGGCACCAGGGCTGTCGGGCAGGTGGGCTCGGAAAGGCTCTGGCCTCTCCCCATAGC
AGGAGCCTCCAGCCAGGCTGGACCCTGGCCCACTCCCAGCTCCCCAGAAAGGGCGGTCCCAGCTTCCTGCTTGGCTGGCCTTGACATTGTTTCCATTTGG
GCCAGCAACCCAGGCAGCCTGAGGCCAGACTGCAGCTCCTGGGCTGGTTGCTGGGCGTGATGGCAGGGGGCTGCTAGGACAGCCAGCGGGCCCCAGGGAG
AGACTTCCCGGGCTCAGGGTGGTGTCTGGGATCTGATCCCAGCCTGGCTGCAGCTCGAAGCCTTTCTCCTCCCAGGGCCTGGCCAACCTAAAGGGCCATA
GACAAAGCTTCCAACAGCACTCAGCGTGGGAGACCTGGCCGGGGCGGCCGTGAGGAGCAGTTTGCCGTGGGACCCGTAGCTCTGTGGCCCAGCCCTGCCC
AGATGCCCTGACACATGCCCAAGGCCTGGGCAGGAGGACTCGTTCTGGGGATTCTGAAACAGAAGCTAGAAACCTCATCAGGCCTGGAGAATCAGACAGA
GACTGCTCTGCCCAGAACCCCCGTCCGCAAGCAGGGCTGGGTGCAGGGCTCACACTCTGATCACTGCGAACCCTTCAGAAGCCACAGAGCCCTTCTGCCA
GCTCCCCGGCCAGGGCTGCCCACCCTCTGTAGCTTGAGGTCTGAACCTCATGAGTTTTCTGTGGGCAGAGGGAAGCAGCCAAACCCAGGCTAGTATCTCT
GGGTGGGACCCTCCTGGCAGCCAGCGCCCACCCCCTTCAGGACCACCCCTTCCCCTTGCACCTTGGCAAGATCCCCAGAACCCACCATCCTCCTTGGAGA
CTGAAGAGAAAGAACACCCAGGGTGGGGCCTTTGTAACCCCCCACCGGGTGGTTAGGGGCAGAGCAGAGGGTGTGGAGTAGGACAAGGGCCTGACCTTCC
TCCCAGCAGCCCCTGGGGCCCCTTTGGACTGAAAGGTCAGGAGACAGAAGCAAGGAAGGAGGGCGGCTTGGGAGGCGGGGCCAGAGGCCCTGAGAAGGGC
ACCCATGAGGCAGGGCAGCCCGGGTGCCAAGAAGCTGCCCTCAGCCCCTCCCCCCATGCCACACCCCCAGTGGAACCTCCTGACTGTGAGCAGGAGTCAC
CGCCTCCAGGGAGCCCATGCCTGCATCACAAAGGAGGCCCGGAAGCCTTCAGGCAGCCTCAACTCAGCCCCAAGCCACTGCTCTCCCATCCCAGTCCCTG
GAAATCCACCCACTTGGCCCAGCTCACCCCAACTCCAACCCACTGGGACCCAGTCTCCAGGGGCCTGACTGTGGGCGGCAGCCACTCCTGAGTGAGCAAA
GGTGAGTTGTGCTGAAGGAAGGTACCCGGCCTGCTTTCCTGGGCCTTGAAACCCTCTCCAGGCCCTCTCCTGGGCCTTGAAACCCTCTCCAGGCGCTCAG
CCCCTTTCTCAGGAGGCTGGGCRGGGCGTCCTGTGTGCAGTCTCGCCTGTGCCAGGGCAGGCAGCCCCCTCTGGCATACGGTTTATCTTACCCAAAGGAC
CCGCTGTCCCCCATCTGTAGTAASCTGGAGAGGCCACGAGTGTCCCCAGGGAGCCGCAGTGCCTTCGCCTCAGCAGACACTCCACACCTGCCCYGGGTAC
TTGGCTCAATTTGAAGGTGTTTATTTTGTGTGTGCCGTGGGGCACATGGAGCCGTCTGTGGATACCTGCAGGACAGAATGAATTCAGGACGCAGGAGCAG
ATTCATTAATTCTGACCAAAGAAAGAAGTTCGTGGAAGCTGAGCTCAGACTTGTCCAAATGATTGATCCATTCATTCATCATTCATTCATTCATTCACCC
AACAGATAATGACCGAGGTCTCTGGGGTGGGGGTGCCAGTCTAGGTGAAGCGGCCCCCACAGAGGGTGCCCCTGCCCGTGGAGCTGACGTTCCCAGGGGG
CTGCAGAAGTATCGAGGAGATGTGGAGGTGGAGCTGGGAGTCCCTGGAGAGACACAGAGCAGGGGAGGGGCTGGGGCTCCCCGAGTTGAACCCGAGGCCG
AGCCAAGGAAGGCCCCACTGGGAAGGGGAGCTTGGCAGGAATCTGGGAGGCCTGCCTGGGTGGGTGGGGAGGGTGGGGGGAGAAACCTGGTGGGCCTGCC
TGAGGGTAAGGGGAGGGCATAGTGAGAGGGGAGGAGGGCCAAAGAGGGTCCTGACATCAGGGCAAGGCCCGGCTCTTCCTCCAAGGGTTTGGCTACCAGG
GGCCAGGGAGTGACGGCCTCTGATTCTAGTTACAGGCCCCTGGGCCCCTGTGGTGGGGATCAGTGGGTGAGACAGACCCCTCAGGGGGAGGTGATTGGTG
GGGCCTGGAACAGGCAGCGAGTGGCAGGAATGAGAAAGGGTCCGACTGAGATGGGMTTGGAGGCTGAGGACTGGCGCGGGGTGTGGACGCAGGCAAGGGA
GGCAGATGGCTCCAAAGTCCAGCTTCAGCCAGTGGCGGGATAGGGGTGTCTAGGGGCACAGCAGAGGGCGTCAAAGGAAGCATCTGAGGGTGTGTGGATG
CATGAACGCTGCGGTTCACAGAGCCAGGGACTGAGAGAGGTGGCTGAGGGGACAGGAAGGGAGGAGCGAGGGACCTGGAGGAGAGGAGTGAGGTCCAGGT
CCCCGTCCCCGCTCCTCACACAGCCAGAGGTCAGGGATCTCTGGAGGAGTCGCTGAAATGAGCTGGCCCAGCCACCTTTGCAGGGTGTTGCCCAGACAGG
CTAAGGGACATCTAGGATCTCCCAGGGAGTCAGGGACAGAACTCAGGCAAAGTCCACAGCAGGGGGGCGGTGGGGTACAGGGGGGCGGAAGCACATTTAG
CCCAGGTGCTGGCAGTCTCAGCAGCCAGTCCCTGACCCACCCACAGGCAGGACTGGGCCTGGCTTCCTTTCGCTGCTCCCACATTATCCGCCCTGCCTGG
TACAGGGCTAAGCTGGGGCTCAGCACAGCAGGTGTGTGATTGCGTGTGACGACTGAAAGTGCTGGAAGGCCAAAGCACCCAGCCGCTTCCCTAGGACCGG
GCAACTTCCCAGCAGGGCTCCGAGTGCCAGCGAGGGATGTGCACATCCATGCATGTGCTCACATATGTGCACACACACACAGACATGCACAGCCACACAC
CAGAGCACACGCACACACGTGCACACCCACACACACAATCATGCACATGCACATGAGCGCACACGCACAGGTGCACAATCACAGTCACACACGTGCACAC
ACGAGCGTACACGCACACACGTGCATATCCACGCACACAATCATGCACATGCACACACAAGAGCACACGCACACAATGCACAGTCACACACATGCACACA
CGAGAGTACACGCACACAGGTGCATATCCACGCACATAATCATGCACACGCACACACGAGAGGACACACGTGCACACTCAGGCACACACGTGCATATCCA
CATAATGCACATGCACACATGAGAGCACACGCACACRTGCACAATCACACAGTCACACACGTGCACACACGAGTGTACACGCACACACGTGCATATCCGC
ACACATAATCATGCACACGCACACACGCGAGCACAGGCACACACGTGCAGTCACACACATGCACACACGAGGMCACACGTGCACACTCACTCACAGTCAC
ACACATGCACACATGAGCGTAGACAGTGCATATCCACGCAATCATGCACACGCACACACGAGAGCACACGCACACACGTGCACACACACACATGCACACA
CCAGAGCGCACACACACGTTCACGCTCATGCAGTCATGCACATGCACACACCAGAACATGTGCACACGTGTGTGTACACGATCATACATCAGAACATATG
CACACACGCACAGTCATACACATGCACACGCCCAACTACATGCACACACTCATTTGCACACATGTGTACACTCAGGTTCACACTCCCACACATACACGCA
CACTGGAGCACGCAGACTTGGGAGCCTCCTGAGTCCAGTGTCCTGTGCCCCAACCCTTCCTGCCCAGCTCCCTGTCCTGCCTACAGCAGCAGCCTGTGCC
CAGCCGTGTGTGTCTTCAAGTGCTGCCCACTGCCCTGCTGGCTCCAGAAGGTGTCCCCTCCATAGTAACAGGGTCAGGGGACGACCAGAGCTGCACACCA
GCCAGGTGGCTGCCAGGGTTGAGACTCAAGCCTGCCTGGCCCTGCAGATCCCTTCCTGGCCCACGTAGTCACCGCCTGTGTGGGTACCTACTGTTCTGGT
GTCGCCCATCACTGGCTTCTGGGCTTCAACAGGAAAGGTGGGCTGGGAGCCCAGAAGCCCAAGTGGCCTCCCCGACAGCGTCYCTGACCTAGCGCTCAGG
CCCACAGCTCCAAGACAMCCAGCATGAGCAGCCCAGGGGGGCTCCACTACAGGAGTCCCTTGACAGCACAGGAGCTGAGCCTCCTGGGTCCAGCTTGCGA
CCCCAAGCTGGGAGCATCCCAGTCCTAGAACCTCCATGCACTCAGAGATTCCGGCCCAGGGGTAGTGTGGAAAGTCCCGGGACCCAGTCACCCAGGGTTG
TGAGCTTGGAGAGGGAGACGGGAAGAGTGTTCCAAAGGCACCCAGCGCCCGCTCCCAGCCAGCATCCGGCCCTTCCAGCCTCGGGCCGGGCTCGGGGAGC
TCCACGCCCCTCTCCCCTCTCCCCTGCCCTGGGCCTGCAGGTTCCTCCGCGGTGCTCTCCCSTCCAGAGCCCTGCTGATGGGGAAGTCCGAAGGCCCMGT
GGGGATGGTGGAGAGCGCYGGCCGTGCAGGGCAGAAGCGCCCGGGGTTCCTGGAGGGGGGGCTGCTGCTGCTGCTGCTGCTGGTGACCGCTGCCCTGGTG
GCCTTGGGTGTCCTCTACGCCGACCGCAGAGGTGAGTGCGGGTGCCCCGCCCCCGCCTGTCCCCGCGCCCGCTCTCCGCGCTCGCCCCGCTGCACCTGCT
GCAGGGTCCGCCTGCCCCCAGCCCGAGCCCGCCCGTCAGATGGGGCAGGTGGGTCTGCACTGGGCACCCAGGGGCTCCCGGGGCCGAGCTGCGGACTCAG
AGGCGGCGGGAGGGGCACTGACCTGCAGGGAGCCCGCGGTCCCTTCCAGAAAGCTCTGCCCCGGCCCCGACTCCCGCGCGCTGCTTCTGCAGCTCCGCAC
CCGCCCGCCTCCGCCTCCGCCTCCGCCTCCGCCGGACTCCCGGAGGGTGGGGGGCGCAGACCCGTCGCCCGCCCCTCCGCCCACCCCCTCCCTGCCTGGC
CGCGCAGCCCCGGCTGGGGACCACCGGCGTCCGTGTCCCTCCCGCCGCCCGGGCTCACCTGGCTGCCTCACTCCCCCGCTGCCATCCTGCGGAGAGACCT
GAGGGTCCTGCCGCCCCCGCCCCGCTCAAGGCCGGGTCAGGTCACGGGACCACGGCGGGAAGGGGCCAGTCTGGGGTCCCACGGAGACAAAGGCGTGGCC
AGGGCTGCTCGCTGGAACCTCGGGCTGTCCCGGGAACACTCCCCCCGCCCCCGGCTGTCCCGGGAACACTCCCCCCGCCCCCACGCCGGCCCCTCCCTTG
ATCTCCCCTCTTGGTTCAGGGGCTCCCAGGCACCCGTAGACCTGGTCACCTTCCAGCCGCCCCTGCCAGCCCCTCCGCAGGCACAGCCCTGGTCCCTCTG
AGACCGGGCAGCGCGCACACATCGGGGAGCAATGCTCACCCCCGGGGCAGGTGCGTAGGGCGCTCCCACCGTGGCAGGCACCGGACTCAGAGCTCATGGC
GGACCTCGCACCCCAGGTCCAACAATGGGGCGCCTCAGCCTGTGTTACTAGAATGCCCCCTCATGTCTGGAGCCCTGCGCACTGCCTGGGACCATCCCTC
CACCCCTGCGGGAGGCTGTGTCTGTGAAGCAGAAGTGGGTGCTGCCTGTGGATGTGCAGGGCGTCCCGGCCCGGGGCTGCATGGCTGGCCACTGTACAGT
GTGGCTGCTGCCCAGACCGCAGCCCCTGGCCCTCTAGGGTCTCCCCTGGGACAGAGGGGTCCTGCGACCTCCATGGGCGGTGGGCAGTGGGGGAGGGAAA
GGCTCACTCACMCTGAGGAACCCAGAGCCCAAGGGAAGCTCTGTTCAGAGCCTGCTGGGCTCAAAACACCTGCTTTCCAGGCTTTCATAAAACAAGGCTG
ACCCCACACACACCCCCAGCTGTGGGGTAGGAGGAGGCCTCTCTTCTTCTGGGTCGTGCCAAAGGGCCTGAGCCCACCCATCCCAGAGAGACCCTCCCTG
CCCAGCCAGGTGCCTCGGGAGTGCCCCACGGTGCCATGGATCTCAGCAAAGCCTGCCTCCACCCACTCCAGTGTGGAAACGGGCCCTGGACCCCCTCCCT
CCAGGGCGGCAGAGCCCTCTGTTCCCCGTCAAGACCCCCCACCAGGAATGACCCCACAGCTGACCTTGGCCTCAGTCCAGGATTGTTTGTGGAAGGTTTT
CTAAGCAGTTATTATCATTTATTTCTGTGTATTTTCTCATTTCCATTATGACTTTTTCATTGACTTATAAGTCATTTAGAAATTTTTTTAATTTCCAGAC
ATGAGTTTTTAGTTACTTTTTTAAAATTATTGATTTCTAACTTAACTGTGTTGTCAGAAACCATGGTTTATGCCATTATTTATGTGGTTCTTTCTTTGAT
ATTTGCTGGGCTTGCTTTGGGGCTAACACTTGATCGATTTTATAAATAAGCCCTGTGTGCTGCGGAATAGGCTCAATCACCAAATGCTGAGTGATGGTGT
CTATCTACATCCACTAGATCAATCAAGTCTTCTACATATTGGCTCTTTTTCCATTCTCTTGATCTCAAAAGAATGAAAGATTTGGAAAGATCAAGAAAAT
GATTTCTTAAAATCATGTACTGAAGTGTGTATGCTAAAATCTTGCACTAAAGAATCACCCRTTCTTGTAGTTACATCAAATCTTACCTAATTTACCTATT
TAAGGCGATATTACTATGTGAACGCAAATTTAGGTATGAATTATAAAATTAGTTTCATAAATTTAATATTGTAGTAAGATACACATATGAAGTTAATATA
TCTTTCACTTCGTGAAACTGTGTAGTCACCGTTTCTGACTTAACAAGGCTTTTTGCCTTAAATCCTGTTGAGCCTGACATGAGTACTAGCTACTCAGCAT
TTGCTGTGTCTATTTTTTCCATTCTTTTTCTTTGAAACTTTTCATCTCCTTAGCTTTAGATGTGTCTCTTTCAATCGTGTATGGCTGGATTGGGGGTTTG
TCTATCTTTTAATTGGAGGATTTTGTTGGTTTATAATTACCAGGACAACTAAAATGTATGTGTTTCCTATTGTGTTGTTTTGTGTGTCTCATKCGTTTTT
TTCTCTTTTCTTGCCTTGTTTTGGATCAACCTATCATTATTTCCTCTATTTTCCCTCAACTAACTTGGAAGTTTTGTATTTCTATCTTTTCGACAGTTAT
CTTAGATTTTTTTGTTTTAATTATTTTTAAAGTTATAAACTTTCTTTTATAAAATCAAATGTTTTTACAAAAATGACAGTGAGAAATACAGTCTCATGTC
CATCCTAGAATTCTACTCCTCCAAAACAACTGTATTCATTTTCTAGTACAGGGGTTGGCAAACTATGGCCCATAGGCCAAATCTGGCCCCTTGCTTCTTT
TTGTATATAAAGTTTTATTGGAACACAGCCAGACCCATTCATTTATGTATCATCTATGGCTACTTTCCTGCTAGGACAGCAAAGTTGAACAGGTGAGATG
AAGCATGTATGTGGCCCACAAAGCCTCAAATATTTACATCTGGCTTTTTACAGAAGTCCAACCCCAAGACTGGAGTGCCCCTCGTGTATAAACCTGGTCT
GTGAACCCTTCTCTCTTTATCGTACAGTTTAGATCATGAGGAGGCATTATCAGATTGTGGCTAGCACCCAGGCTCACAGTTTTTGACCACTCAGAAAGCT
CAATCCACATACCTCTTCCCCAAATTTCTTTGTCACCAATTTTCCAATCATACTTCTTCCAAGTCCCTGACCATCCAGCCAAACCATTGGCTACAGCCCA
TGAATCGGTACATAATCGCATCGCACATCTGGCCTCTTCTCCTTCCAAGCAAAGTGCACAACAAGGTACRCTGCTTGAAGTTCTGCCCACTGGGAAGATT
TCCCTTCACCGCTGTCCTTCATGGATGTCCTGGAAAGGGGCTATAGTGCTGCAGCTGTCCACTTGTGGGTGGTGCCTTCATATCATGCAGAACCATCTGT
GAATCAGGCCCTAGTCTTCTCTTCTTCCTCTGTCCACTGGTCATAGGGAACTCCCCATGAGGCTATCGGTGCAGGCTGGAGGAGAGAAGGCAGGGTGGGA
GGAGTGAAGACCATGGGCATTTGAGCCACTTCCTCATGTAACTTACTTGTGCCTTCAGGACTTGCTTGAGCCCGATCTTGTATATACCACTTCCATTTGA
TGATGGAATGCCACTGTGCATGACCCACTTTATGGCTAGATGGGTCAGAAAGCACCCAGTTCATGATAGGAAGTTCAGGTCGCATGGTGACTTGGTGATC
CGTAGTCAAACGTTCACTTTCCACCAAAGCCCAGTAACGGGCCAAGAGCTGTCTCAAAAGGAGAGCAGTTAACTGCAGAAGATAGCAGGGCCCCGCTCCA
AAATCCTAGAGGGCTCCGCTGTGATTCACCCACAGGGGCCTGCCAAAGGCTCCAAACAGCATCCCTATCTATCTGCCACTGACACTCCAGGCACCGTTGG
ATCTGCTGGGTCATACAGCCCAAGTGGCAGAGCAGCTTGCCCAGCAGCCTGGACCTGTTGCAGAGCCTGCTCCTGTTCTGGACCCCGCTCGACACTGGCA
GCCTTTTGGATCACTTGATAAATGGGCTGAAGTAACTCGCCCAGATGAGGAGTGTGCTGCCTCCAGAATCCAAACAGGCCCACTAGGCCCGAGACACCTT
GTCTCAGATGAAACTTTGGACTCGGAATTTTGAGTTAATGCCGGAATGAGTTCAGACTTTGGGGGACTGTTGGGAAGGCATGATTGGTTTCAAAATGTGA
GAAGGACATGAGATTTGGGAGGGGCTGGGGGCAGAATGATATAGTTTGGCTCTGCGTCCCCACCCAATCTCATGTCAAATTGTAATCCTCATGTGTCAGG
GGAGAGGCCTGGTGGGATGTGATTGGATCATGGGAGTGGATTTCCCTCTTGCAGTTCTCGTGATAGTGAGTGAGTTCTCACGAGATCTGGTTGTTTGAAA
GTGTGCAGCTCCTCCCCCTTCGCGCTCTCTCTCTCCCCTGCTCCACCATGGTGAGACGTGCTTGCGTCCCCTTTGCCTTCTGCCATGATTGTAAGCTTCC
TCAGGCGTCCTAGCCACGCTTCCTGTACAGCCTGAGGAACTGGGAGTCAATGAAACCTCTTCTCTTCATAAATTACCCAGTTTCAGGTAGTTCTTTCTAG
CAGTGTGATAATGGACGATACAAGTAGAGACTGAGATCAATAGCATTTGCACTGGGCCTGGAACACACTGTTAAGAACRTAAGAGCTATTGCTGTCATTA
GTAATATTCTGTATTATTGGCAACATCATCACAATACACTGCTGTGGGAGGGTCTGAGATACTTCTTTGCAGACTCCAATATTTGTCAAAACATAAAATC
AGGAGCCTCATGAATAGTGTTTAAATTTTTACATAATAATACATTGCACCATTTGGTATATGAGTCTTTTTGAAATGGTATATGCAGGACGGTTTCCTAA
TATACAGAATCAGGTACACCTCCTCTTCCATCAGTGCGTGAGTGTGAGGGATTGAATTCCTCTGGTTAGGAGTTAGCTGGCTGGGGGTTCTACTGCTGTT
GTTACCCACAGTGCACCTCAGACTCACGTTTCTCCAGCAATGAGCTCCTGTTCCCTGCACTTAGAGAAGTCAGCCCGGGGACCAGACGGTTCTCTCCTCT
TGCCTGCTCCAGCCTTGGCCTTCAGCAGTCTGGATGCCTATGACACAGAGGGCATCCTCCCCAWGCCCTGGTCCTTCTGTGAGTGGTGAGTTGCTGTTGC
TGGTCAGTACTAGGCTCGGGCTGGAGGTGGGGGCTCTCTGGTGTCGTGGCCCAGTCTCAGGCTTAGGCAGGCCTAGTATACCTGGGGCTGGGGATGCACC
TCTTGGCATCCCTACCACATCCCCATGTCAACCAAGCTTCGCCCTGTGCCTGAGTTGCCCACCCCTCCTCTAGAGGCAGGAGACTGCTTGATGTCAGTCT
AGGATTCTGGGCCCACAAGGATCTCCTGCCCTTCCATGGGCCGGGGATTTTTACTCCTGACCCTCCTACAGAACAGGGGATTTGCCTGGTTCCTGGGCGT
GAGAGGGGTTACACCTGCCTCAGTGGTTTAAAGCTTTTGCTGCCTGCCAGACGAGTATAGTTTCATGTCTCAGCCAAAGCAGGTCCCTGCCTCCATCCCT
GGGCCACCAAGGGAGGCTCTCTCCAGCCTTCTGAGACCTGCCCCAGCCTTTCTCATCGGCATCTGGGAAAGGCCGTGGACAGAACATGGAGTGATTGAAA
ACCTCTTCGTGATGGGGGCTCCCGGCTACTCCAAACTCATGTAGCAGCCCACACTGGGCCTGTAAGAATGTGTGAAAAATTTTAGCTGATTTCTTCTGAC
CCACTTGGAACATCTCTTACTCTCAGGTCTTGACCAAAGTGAAATAATTTACATATCCGGCCTTTCCTTGGAGGGCCTTATCACTCGGAAATTGTTTACC
TGATTGTCTTTGACCTCAGGTCTTGGATGGGCTCCAAAAAGTTGTGCTTTTTGTAGTTTCTTTGGCTTTTTCTTGTACGGAAGGAAATGATATTCAATTG
CAGCTTTTGATGTCCTCGGCAAAAAGCAGAACTTCTCTACCTTAAATTTTTATGCTTATTTAACTTAAATATTAAAGTAATCAATATCTCTATTATTTCT
TCCAAACAATACAAGCATTTAGAACAGTTTAACTCTTCGCACCACTACCCACCCTGTTCACATGTTATTGCCGTTAAGAACTTGGTTTTTTTTTTTTTTT
AGACGGAGTCACTCTGTTGCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGAGTCTCCTGCCTCAGCCT
CCTGAGTAGCTGGGACTACAGGTGCGTGCCATCACACCCAGCTAATTTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTGTTG
ATCTCTTGACCTTGGCCTCCCAAAGTGCTGGGATTACAGGGGTAAGCCACCGCTCCTGGACTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTT
TCACCCAGGCTGGAGCGAAGTGACACTATTTTGGCTCACTGCAACCTTCGCCCCCAGATTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAT
TACTGGTGCCCACCACCACGCCCAAATAATTTTTGTATTTTTAGTAGAGATGGGATTTTGACATGTTGGCCAGGCTGCTCTCAAACTCCTGACCTCAGGT
GATCCACCAGCCTTGGCTTCCCAAAGTGCTGAGATTGCAGATGTGAGCCACCGCGCCCGGCCAAGAATTTGGTTTCTATCTTACTTTTTACCTACCACAG
ATCAGCAACATTACTATTTAATATGGTCAATGTTAACTCAGATCTTCCCCTATCCTCATGAATTCCATTATGCATCTTTCTTCTTACATCTTGGGCAGTT
CTTATTAAATAATTTTTCTTTTTTCTGAAATACATACTTCAGAGTCTCCTACTCAAAGTGTGGCCCACAGACCAGTGGTGTCAGCCATTGCCTGGGAGCC
TGTTAGAAATTCAGAAACTCAAGGTCCAACCAAGGCCGCAGGACCRGTGTTGGTATTTCAGCAAGACCCCCAGGTGATTCATCTGCACATTCATGTTAGG
GAAGCACTGGTTTAAAACAGTGTTGACCAAATTTGCTTGATAATTGGAATCACCTGGGGAAATTGTTACAAATCCAGACRTTGGGCCCTCCCTCAGTTTG
CCTGGGCTACAGTCACAAAATGCTCAGGTGGCTTAAAAACAGAAACATATTTTCTCCTCCTAGTTCTGGAGGCTGTGAAGTCCAAGATCTAGATGCCAAC
TGAATCAGACCCTCTTGTCAATGACAAGAGTCAAACTCTGTAAAACATTTGCAGAGATTTATTCGGAGCCAAATACGAGTGACCAATGGCCCGTGACACA
GCCCCAGGAGGTCCTGAGGACGTGTGCCCTAGGTGGTTAGGCTGCAGTCTGGATTTACACATTTTCGGGAAACATAAGACATCAATCAATACATGTAAGA
TATGGCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTCGGGAGGCCAAGGTAGGTGGATCACCTGAAGTCGGGAGCTSGAGATCAGCCTGACCAA
TGTGAGAAACCCCATCTCTACTTAAAATACAAAATTAGCCAGGCGTGATGGCGGATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCAC
TTGAACCTGAGAGGCGGAGGYTGCAGTGAGCCGAGATCGTGCCATTGCATGATGATGGATGAAACTGCATCTCCAAAACAAAAAAAAAAAAATGTGCATT
GGTTCAGTCCAGAAAGGTGGGACAACTCCAAGTAGGGGCTTCCACATCACAGGTAGATTCAAAGGTTTTCTGATAGCAGTTGGCTGGAAGAGTTTATCTA
AAGACTTGGAACCAATAGAAGGGAATGTCTGGGTTAAAATAAGGGGTTGTGGAGACCAAGGTCCTTATTATATAGGTGAAGCCTCCAGGTAGCAGGCTTT
GGAGAAAATAGATTGTAGTTCTTATTAGACTTAGTCTGTTCTCTCAGTCTTAAGGTCTCTGGTTTTGTTTGTTTGTTTTTGAGACAGGGTCTCACTCTGT
CACTCAGGCTGGAGGGCAGTGGTGCAATCACAGCTCACTGCAGCCTCAACCTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGAC
CTCAGGCACATGCCACCACACCTGGCTAGGTTTTTCTATTTTTTGTAAAGATGGGTCTCTCTGTGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGC
AGTCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCATCACGCCTGGCATGTCTCTGTTTTAAGGTGAATGCTGGTCAGCTGTGCCT
GAATTCCAATGGGAAGAGGGTATAATGGGGCATGTCCAACCCCCACTTCCCATCATGGCCTGAACTCGTTTTTCAGGTTAACTTTGGAATGCCCTTGCCT
GAAGGGAGGGTCCATCAGTCACCTGGAAAATTTAGTTTATTTTTGGTTCATGCTTTCTTCCCACAAGGCCCATGCTTTTTTTTTTTTCATTATTTTATTG
TTTAAAAATGTTTTCCCACTTCAATAAGCTGGTCTACCAAATGGCCACCTTCTTGCTGTGTCCTCATGTGGTGGAAAGAGACAGTGAGCTCTGTCATTTC
TTCCCCCTCTTATGAGGGCACCAGACTTACCAGRTTATGCCCCCCACCAGCCCTGCCCATTGAGCTGATTTTAAACCTCCTCACAGGCCCTATCCCCAAA
TAGTCACATTAGGGGTTAGGGCTTCAAACCACAAAGTCAGTCCATAACAAGCCCCAAACAGTGAAACCCGGGAATCTTGTAGGGTAAGACCTCTGAATCC
CACAYGCATTTGAGACCTTGCTTGTGATCAGACAAGTTTGGGGAGCCCTGCTTGAAAATAATCTATCAGCATTAAACTCTTATCTCTTGTCTATGTGAAA
ATTACTTTATTTAGCGCTCGTCCTTCAGTGATCATTTAATTGGTTAAATGAGTCTGAGCTGTTATTTTCTCTCAATATCTTGAAGATTTAGCTCTCATGC
CTTCTGACTCCCCTTGCTGCTGTTCAGACGTGGCTTCAGAGAAAAGTACAGTCAGCCTAACTGCCGCTCCTCTGTTGGGTGAACAATCTTTTCTCCTTGA
GCTATGTTCTCTTTGTCTTGGGTATTCTGAATTGTTATCATGAGTTGTTTAGCTGTGAAATTATTTGTATTTATTCTGCTGTGGATTTGTTGTGATTCCT
GAAGCTGAGCACTGATAACATATATTAATGTTGGAAAATTGTACCCGTTATCTTCCTGGATGGTGTATCTCCCACAATATCCCTTTTCTCTCCTTTTCCA
TTTTCCACTGCATATCTGCTCCATTTTTCCCACTGTCCTCCATGTCTTTCAGCTTTTCTTTCATATTTTCCATCTTGTTGACTTTCTCCTGCATTCTGGG
TCAGTTCTTTAGAACTACACTTCATTTCACTAAATCTTCTGTTCTGTTATGTCTGTTGCTTAACTCAGCCTTTTGGGTTTGTAGTTGTTTTTGTTTTATA
AATCTCAACAACTACGTGGTTTTATTTCTAGAATTTACAATGGATCCTTTTTCAAATTGATTTTTTATTGTTCCTTGTTCTTGCTTTTGATTTTTTTTTT
TTTTTTTTTGATAGAGTCTCACTCTGTCGCCCAGGCTGGAATGCAGTGGCRCGATCTTGGATCCATGCAACCTCTGCCTCCTGGATTCAAGTGATTCTCA
TGCCTCAGCCTCCTGAGAAGCTGGGATTACAGGTGTCCGCCACCATGCCTGGCTAATTTTTGTAATTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAG
GCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACCACACCTGGCCTAGTTTTGATT
CTTTTTGAAGCATTTCAAACGTACTTACGTTATTTTATTTTAGCAGTTGGGGTCTTAAAACCCAGCCCAACACTCACTGGCATAAAACAATGATTTATTG
TGAGGCACCTCCACTGTTTGCCTGGGGTCATCTGACCTAGGTTGGGCTCAGCTGGGGTGCTCTGTCCATGTAACTTTCATCCTCCTACCAGAGCCCAGCA
AGCATTCCTGCGCAGATCCCTCTCCTGGCAGTGAAAGAAATCCAAAAGGACAGGTGAAAACATGAAAGCCCTCTTAGGGCCCAGGCTCAGAACTGGAACC
CTGTCATTCCCACCTCATTCTGTTGGCCAAAGCAAGTCACTTGGGCCACGCACAGTCAAGAGATAGAAGAAAAAAAATAATTTGTCCCTTTTGTGGGAGC
AACTACGGAGTCACATGGCCAAGGCACGGATGCAGAGAAGACTCAGATCCAGGGCCAGTGGTGCCAGCTTCCATACGTTCTGGATCAGATCATTCCTAAT
TGGCAATCTTTGGGGTTCTGGTTTTGCTGTTTGTTTTCTCTCACTAATGTAAGATTTTCTTTTTTAAAAATGTAAATACATATTCAAATTGGCTTTTATC
TATGGGGATCCTGTGTTATTGGGCTGAGAAATGTTCCCTCTGGAGAATATGTATTTGTTTTCATCAGGCACCTTAGGACACTACCAGCCTGGAGTTTCTT
TAAATTGGCTTCTCCGCGAGAGGTTTCCTTGGCCACACATTTCTGTAAACTCGGCAATGGCATGACAAGCCGTCTGTGATTACACATCCTCCAGGGAGGG
TGTTTCTTTCTCCACTCTGTGAAGTTCTTTGTGCCTTTGTTTCTTCTGAAAGAGGGATGGAGAAGAGAGGGAAAAGAAAAAAATGTAAATTATTTACATC
AAGATTGTTTTAGTCCATTTGTGTTGCTCTAAAGGAATACCTGAGACTGAGTAATTTATAGAGAAAAGAGGTGGATTTGGCTCATGGTTCTGCAGGCTGC
ACAGGAAGCATGGCTCCCCATCTACTTCAGACTGTTCCATTCATGGTGGAAGGTAAAGGGGAGCCTGTGCATGCAGGTCATATGGCAAGAGAAAGAGAGA
GAGAGAGAGAGAAGAGGTGCCAGGCTCTTTTCAAGCCACTCAGGGGCACCAAGCCATTCATGAAGAATCAGGTCCACAATCCAAACACCTCCCACCAGGC
CCCACCCCCAACATTGGGTATCACATTTCAACATGAGACTTGGTAGGGAAAAATAAACCACATCCAAACCGTGGCAGAGGTCTTATTCAAATCAAGGCAT
TTGGAAAACTTTAGGAAAACAAAACCTTCAGAGGAAATGTCAAAAATAGTTTTTAAAATGTAGAAAGCCTATGTCAAAATGATTGGCATATTACAGAAGT
TATTCAAGCAAATATAAAAGAACAAAGAGAAGATCCTGTGTCAACTGAGTATTCAGGAAAGCTGCCCTTTTTGGAATTATGAAAAAGAAAAATCTCCTTT
TGGAGAGATCATTGACTGTGTTTCCTGTGATCATATTTTAGCATTAGGGTAAGATTTTGTTTCTTTTCAGCCATTGTGTCAAAAGGGTCTCACTGTTTTT
GCTTTTTCTCTTAGAAGAACAGAGCTGTCGAATGCCAGTATGGGGTCTGGAGGTTCATGCCCTGCCACTCCCCCAAGGAAAGTGACCTTGGGTGTGTGAT
CTTGCCTCCCCAACAGTTTTCCCAAGAAAAGTAGAGATGAGGAACCTCACAAGCTTCTTTTTTTTGAGATAGAATCTCGCTCTGTCGCCCAGGCTGGAGT
GCAGTGGCGCAATCTCAGCTCACTGCAACCTCCACCCACGGTGTTCAAGTAATTCTCCCACCTCAGCCTCTTGAGTAGATGGGATTACAGGCATGCACCA
CCACGCCTGACTAATTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCKCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCA
AGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTT
TAGTAGAGACGGGGTTTCACCGTGTTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCG
TGAGCCACCGCGCCTGGCCACGCCTGACTAATTTTTGAATTTTTAGTAGAGACGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAAGTGATCCTGGCCT
CAAGTGATCCAGCTTCCTTGTGATGATTAAGTGAGGCACTGTAAGTTAAGGGACGACACGGAAAAAACATGCCTAGCTCATCTAATTCAGTTTTGAAAGT
GCTGCTCAGGAGCTCACTACATCCTCAGGCAGCCCTTGATCTGCAGCATCTGGTGAATTTCCTTGGGGGTTTCCCCCATCAACAAGGCTACGGGAAATCC
TATGTTGGGAATGCCGTGGGAGCTGTAGAGGCAGGATGCAGGCATGAAGGAGGCATGAACTCGCCTCTTCAGTTGTCCTAATTTGTTCTGGATACATCTG
ACTAGATGGGAAACAAATGAATCAGAGGCACTGTTTGGGTCCAGGTCTCCCGTCACACTTTGCTCCCTCTTTACCCTTTCTCAGGCTCATCATTCCTGCC
CACCAATCTGGTCTTCCCACTGGTTTCGTGTCCCTTCTGAGTGAAGACCTTTTAGCATTTGTTGTGGGGCACATCYGGTAGAGACACATGTTCTCAGCTT
TGGTCTAAAATGTCTTTATTTCACTTTCACTTTTGAAATATGTTTTTGCTGGGTATAGAATTATAAGCTGATAATGTATTATTGTTTTTTTCAAGGACTT
AAAGAGCTCATTCCATCATCTTCTGGCCTTCATTCTTTCTGGTGAGAGGTCACCGTCATTCTTACTGTTGTTCCCCTCAATATAATGTGTCTTTTTTTGT
CTGCTTTTTTTTTTTTTTTTTTGAGCTAGGGTCTCACTCTGTTGCCCAGGCTGGAGGGCAGTGGCATAATCACAGCTTACTGGAACATCCCCCCTCCCAG
ACTCAAGCGATCTTCCCACCTCAGCCTCCCAAATAGCTGGAACCACAGGTGTCCACCATCATGCCCAGCTAATTTTTGTTTTATAATTTTTTTATAGAGG
TAAGGTTTCTCCATGTTGCCCGGGCTGGTCTCAACTCCTGGACTCAAGCAATCCACCTACCTCAGCCTCGCAAAGTGCTGGGATTCAGGCATGAGCCACC
ATGCCCAGCCCCACTGACTGCTTTTAAGTATGTCTTGAAATTCTTAATCCTGAATTTCTCTTTATCTTTAGTCCTCCACAGTTTGACTATGATGCTGCTG
GATGGTTTTCTTTGTATTTGCCCAGCTTGGGATACACTGCCCTTCTTGGGGTAGATTTATATCTTTTACCAACTTTAAATATTTATTGGTCAGTATCTCT
TCAAATATTGCTCTCTGAGTCTCTAGTTACATATATGTTAAGCCATTTAACATTGTCCTACAGGTCTGAGATCTTCTGTTCAGGTTTCCTTCCGTAATAT
TTCAAAAATTTAGAACAATTTTAGATTTACAGAAGCATTGCAAAATAGTACAGAAATCCCTATATACCCCACCCCCAGTCTCCCCTATTATGAACATCTT
GCATTAGCCTGATACATTTGCCACAAGTAGTGAACCAATAGTGATAATATTACTATTAACTAAAGTTCACACTCAATTCACATTTCCCCGTTTTCCCTCA
TGTCCTCTTACCGTCCCAGGGTCATATCCAGAATGCCACATCTTCTCAGGCTCCTCTTGGCTGTGACAGTTTCTCAGACTTTCATTGTTTTCTTGTTTGT
GTTTTTGTTTTTTGTGATCTTGACAGTCTTGAGGATTACTGATCAGGTGGAATGACCCTCAGTTGGAATTAGCCTAATGGTTTTCTCATGATTAGACTGG
GGTAACATGTGTTGAAGAGGAAGGCCGCAGGTCACAGGTGCACACTTTCAATGACTGGACTTATCACTGTTGATGTTAACCTTAATTGCCTGGCTGGAGG
TAGTGTCTGGTTTCTGCGCTGCAAGTTACTTTTTTCCCTTCTTTTTCATAGTGCAGTCTTTGAAAGGAAGCCACTGTGTGCAGCTCACACCTGAGGAGTG
GGGAGTTATGCTCCACATCCTTAGAGGCAGAGTATCTACCTAAAGTATTTGGCATTCTTCTGTATGAGAGATTCATCTATTCTCCCTCATTTATTTATTT
ACTCAATGATTTGTAGATATTTATTTTACACTTTGCATTATAATCCACTGCTATATTGCATTGCTCAAATTGTTCTAACTCTGGCCATTGGGAGTTGTCA
GTTGCTTCTATGACCCTCTGATGTATCCCCATTATCGTGAATTTGGGGTGAGTTTTTTGGGGGGGAGCACTTTCTTACTTTTTGACATTTCAACATGCTC
CAAGCTCATCTCGTATGTTTCCTACCCCAGTTGTATAATCAACCATTTTTCTAAGGAGCCCTGGCTTCTTTTATCGGATAATGGTATCAAAAACCAACAG
CTTCTAGGATAATGTGGTGTCTGAAAAACAAACAGAAACCAAGAGCTGGGTCCTATTCTTTGCTTATTGCTACTCCTTGGTTGGTGTTGCTTCTAGTCTA
GCTCACCTGGCAGAGCAAAGGAATATGTATGTATACATGAACCCATCTAGATACTCATATCTATAAATATTTATATATGCAACCATCTGCATCTATATTA
AGCTAAAAATGAGTTCACACTGTTGTCTCCAACTCTACTCCACCACCACATGGACCATTCTGACTTCCTCCTTTCCTTGTCTGTAACTTCTCACTGCAGC
AGCAATAAGCCCAGCCACCTGCTATCCACTTACTTTTTCCATTCCAATGTACATGTGCAGTGGTTTCAGAGTTCAGCTGGGATCCCATGTAGGACAACTT
TATCAACTAGAGTACAGCGCTTATGTACAGCTTCCTTTGCTTTAGTCTCATAGACTCTACTCATTTCTAAAGTTACTTAGGTCAACACTTTATTCCCCTA
TCCATTTCAGTGAGATTGTTTTATACATTTGTCTTGAGTCTCATTCTGCGTTTCATCCTGGGATTCCCCTGACAGTCTAAATAATTTTTTAACTTTGCAT
ACAATAAGGTTTACTCTTTGTGCTATAACATTCTGTGGGTTTTGACAAATGGGTTCACCATTCACCACCACAGTATCGTACAGAATAGTTGCCCTGCCAA
ATGCATTCACTATTTGTCATTTTTTGCCCCCAAAACTCCCTTGTTCTTCACCTATTCAACCTCTTCAACATCCATTTTCCCAAACTCCTGGCAACTACTA
TTTAACATCTCTCCTCTCTAAAGTTTTGTTTTTCCAGAATGTCACATAATTGGAATCAGACAGTATGTAGCTCATAGTTTTTTGTTTTTTGTTTTTTGTT
TTTGTTTTTATTTTGAGACAGGGTCTCACTCTGTCTCCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAGCCTCAACCTCCCGGGCTCAAGCA
GTCCTCCCACCTCAGCCTCCCAAGTAGCTGGAACTACAGACGTATGCCGCCATGCTTGAACGTCCTTGCCAGGCGCATGTGCCCCTCCTCATGCTTTGAC
TCCAAAGGCAATGCAGCCACAGGCCTCTCCTCTCCTGGGAAGGCTTCATTCCTCCCTGGAATTTGACTCATGCTGGTTTCTCTATGTCCTCAGCTCTCGT
GGGTTTCTAAAAGTGCCCATGCTGTAGGTTCTCCAGCTTGCTCTCCTGGCTAGGGTGGGGGCCACAGTCAATTTCAACTTTCTGCATCCTAATCAGAAGC
AGAAAGCCCTTGCCCTCCTTGTCACCACTTTGGTCAGAGGTGATGTCCCTCGAATCCACTCTTTTGCTGAGGTGAGGCCCTCTGGAGTCCACAGTCCAGT
CTCTGGTCCATAGGCTCTGGGTTACTGCAATTGGCAAACACCACAGGGCAGCCATGCCTTCCGCTCGCACTCACCACCTCCTTTCCGTTGCTGGCCTGGG
GGATTCCTTTGCTCTGAAGCTCAGCCTTGCCCTTCAGCACTTTACCTCGGTGTATGCAGCATGYGGCACTTTCTCCCTGTTTCCACCGGGCGGGGGGCTC
CTTGAGGGCTGGGCCCTGTCAGGCTCACATCTGAACTGCAGCATCTGGCCTGGCTCACAGTCATCATCCAGTGTTTCACTAATGGCTTTTTGAATGGCCA
GGCCCCCAAGGAGCTGATATTTTTGTGGCTTCTAGCACCCTCTCTGCAGTCTCTGCCCAGGGCTAGGCCAGGTTCCAGGCCTGCCAACAGCCCTGACCTG
AACGAGCCCTGTTCCCTCCTTCCATTCAGTCCTCTGTGTACCTCACTGCTGGGGAAATTCGGCCACAAGCCAGGTCTGAAGGTAGCCAGGCCTGGCTTGT
CACCTCTCTGGACCTGGGGTCCCCTCTTCTCTCCATCCCACCCTCCTCTCCCATACATCTCTCCAGGCAGTTGACAGCCATCCCAGGAGCCCCCGATGCT
GACCAGGCAGGCCCCTCCCAGCAGGCAGTAGAGAGATGGAGGGAGGGTGGCTTGGCACCTTCAGCAGCAGTGAGGGTGGAGGGGCTAGGGACAAGGGTCA
TTAGTGGGAAGCCACCCTCTCTGAAAAGGCCCTGTCCCTCTAAATGAGCCTGCCCTGTGGGACTCCAGGAGCGTGCCACCTTGTGTGGGCCTTGTCAGGG
TCAGGAAGATCCTGAGGTAGAGGAGGCTGTCGGGAAGAGGAAGGTCTCACCTCAGGACCCCTCTAGGCCCTGGCACATCGGGGACCTTGGGGTGGGTGGA
GGGAGAATTAAAGGGTGGGGCTGGCAAGGCAGGGCAAACCGCCCCCCATTCAAGCCCAGCAGGACACAGATTGAAGCTGGCCCCTGCAGTGAACTCTGTG
GATCTCCTGTCTCGCTGCCCTGGGGACCAGCCCTCACTACAGGGGTAGGGCTGCAGCACCCAGCACTGTGGGAAGATGGCGTGCTGACCCAGGGAGGCCC
CCAGCACCCCCAGGGAGCTGCAGGCAGGAGGCCGCAGCTGAGCGCTGTGTTTCTCCCCAGGGAAGCAGCTGCCACGCCTTGCTAGCCGGCTGTGCTTCTT
ACAGGAGGAGAGGACCWTTGTAAAACGAAAACCCCGAGGTAGCCTTTGCCTTCCCTTCCAAAACAGCCCCAGGCAGGTGGGCGCTGGCCTCCCAAGGTGG
GGGGACTCCGTGGAGGGGCAGGGGCTGGGTTCTGCCCAACCCTCATGTGCCGGAGGAGGGCCATGGGGAGAGGACAGTGGCAGGGACCTCAGCTGGGTGC
ACCTGCTGGACGCAGGAGGCTTACTGGGCACTGTGGACACTCCGCACCTGCTCCTGCGTGGCCTCAGCACATTCAATTCCACCAGCTGGCACAGGGGTGG
GGCAGGCCGGGGCAGGGCATGCAGAGAGGGGCAGCAAGGCAGGCTGCCTGGAGGAGCTGGCCCTGGCAGCAGGTGAGAGTGGGCTGGGCAGAAGGCAGGA
GGGCAGAATGGCCGGCTTCAGCCCTTGGGGCCTGGGGCAGCTGTGGGGGTACATGGAGGCAGAGGGTGTAAAGGGGCTCCCAGGTCCCTGCAGCGGTCAA
GGACAAAGAACGAAGCTCACTATCACTGAAGGCCTCAGGCCTGGGCCACCTGGGGAGGACTTGGGCTGCCAGGCTGGACCACCCATGGGGATGGAAGATG
GGGTGGAGGGCCACACCCCACCCCCACCAGACTATGCTTTGGTTACCCTGGCCTTGCCCTACTGGCTTCAGCCCATGCTCCACCCACCCTGACCTTGCCC
CGCCCACCCCAGTCTATGCCCATCCCCATGCCACACCCACCAGACCTTGCCCCGCCCACACCCACTCCAGTCCTGCCCCACCCTCTCCGTGGCTCCCGGT
GCTCAGGCTGCTCCTTGCCCGCAGGGATCCCAGAGGCCCAAGAGGTGAGCGAGGTCTGCACCACCCCTGGCTGCGTGATAGCAGGTAAGCCCCGCCCCCT
TGCCGTCCACAGCCTGCCCAAGGGCTGGGGGCTCCCGGCTGACACTGACGTAGGCCCCGCCCAAGGCCCAGGGAAGCAACTCCAAGACACGGCGGGCGGT
GGAGCCGGGTGGGCCGGACTCGGACTCGCTGTGGAGCGGGCGGAGCTGGTGTTTCTGGCATCTGGCGTCCGCTGGGCCCCCAGTCCCCAGCCTCCAGCAG
CCAGGCCCTGCAGCAACAGCATCCCGTGCCAAGAACCCCAGCGGCTTTTGTCCACATTTATAGAAAGAAAGGTTCAATGAATAGCCACTTTCTTATTTCA
GATTTTCTCCCAGGCATTTGTCTTAAAATTGGGGGTCAGGTACCGCTATTTGCAGATGACAAAAACTGTTAACATGCTGTGAAAGCGCCAATAGTGGAGA
AGCTCTGGACTGTGGCTTTTCTGCCCGTGCTGGGGGCTGGGGGGCCTGTGGACACGCCTTCCGTGAGGTCCCCAGCCCCAGAGGTGGAGTGGCCAAGACC
AAGTTGGACAGAATTTGAGGGACGGTTCTTGGTCGGGGGGTGCAGCCCAGCTACCCCAGTTGAAAGCGTTCAGTGGGAAGCCTGGGTCTCCCCTGTCCTG
TGCACATTCGGGGTTCCTGGGGCAAAGCCAACCCCTCTAGCAGAATACAAACCCCCATGGTGGTAAGAGTCGTCCCTCCCTCTGGGGACCAAGCACACTG
ATGAGTGAGGGGGCAGGGGGCAGAGTCAGAACAGAAAGGCCCTGGCGGACAGCCAGGAGCTGGGCCCGGCTTACAGGGCATGGTCACCAGCTGAGCACCT
CCTGTGAGCTGGCACCATCTCAGCCATCGCCTCAGCCTGCAAGTCAGACCGCTGGTGTTCCCGGATTCACAGACAAGGAAATGAGTCTCGGAGGGTTTGG
GGTTCAAGATCAAGTGGTTAATAAGTGAAAACCCAGCCGACTCATGCCTGAATTCCCAGCAACTCTGGAGGCCGAGRTGGACCACTTGAGCCCAGGAGTT
CCAGACCAGCCTGGGCAACACAGCGAGACCCTGTTCTAAAATAAATTTTTTAAAAAGGCATTCGGGAGAGGAGACACACATCTGTTATCCCAGCTACTCA
GGAGGCTGAAGTGGGAGGATTGCTTAAGCCCAGGAGTTCAAGGCTGCAGTGAGCTGTGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACCC
TGTCTCTAAAAATAAATAAGTGAAAACCCTAGCACTGAATCCAGGTTGGGGGATTCCCTCTCTGCAGCTCAGAGAGGGTGGTTAACTCTCCCTGGGCACA
CAGCTGCGACTGGATGGACAGCAGCCCCTTCCCAAGGGACCAGGCTGTGTCTTGGACCGGGAGACAGGCTTCTGGGCTGTCCACAACTCTCTCTGTCTCC
CCTCTCCCTGCTCCACGCCATGGGGACGAGCAGCYGCCAGGATCCTCCAGAACATGGACCCGACCACGGAACCGTGTGACGACTTCTACCAGTTTGCATG
CGGAGGCTGGCTGCGGCGCCACGTGATCCCTGAGACCAACTCAAGATACAGCATCTTTGACGTCCTCCGCGACGAGCTGGAGGTCATCCTCAAAGGTGGC
ARAGCACGGCCGGGGGTGCAGTGGGGTGACGCCGAACAGGACAGCACCGGGCCAGGAGTTGGTCCTGGCTGTGTCTCGCCCCTGTTTGTGCTTCCTCCTT
GGTCCAGTGGGCGCAGAGGAGAGGGAATAAAGACCCAGCAGCTGGGGGGCCGCCTCTCGCCGAGCACTTCAGGGGGTGTAGGGACCTGTGACCTGGCCCC
TGCAGCCTCGTCAGGCCTCTGTCCAACCTTTTCCTGTGCCCACAGCGGTGCTGGAGAATTCGACTGCCAAGGACCGGCCGGCTGTGGAGAAGGCCAGGAC
GCTGTACCGCTCCTGCATGAACCAGAGTGAGTGGGGGCCGCCAGGAAGGGGCCGAGGCAGGGGACGGGGGCGGGCTGCCCCTGCCAGGGCCTAGCGCAGC
CCCAGGACCCCATGGCTGCCCCTAGGGTAGGAGTGGGTGCCTTTAGGACTCATGCCAGAGGGTCTATGTGCTGTGTCCCGCTCCCAGCCACAGGGTCCAG
GCTCGCAGTAATGCCAGCTGCCCTGCGGCCTCACTCACACCCCAACCCCAGCACAGGCCACACGTTCCAGGCTGCAGGAAGACTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTATTATATGGATATGAGTATGTGTATATATGTGCATGCATATTATACATTTATATGCATATGTGTGTGTTGTG
TGTATATGTATGTATATTGTGTATGTATATGTGTATACGTGTATGTGTATATATGTGTTCATGCATGTATCTATATATGTTACATGTGGTTTGTGCATGT
GTACATGTGGGTACATGTGTTGTGTATGCATGTATGTGTGTTGTTATGTATATGTGTATATGTATATGCATGCGGTGTGTACATATGTGTGTGCATTGTG
TGCACATGTGTGTTACGTGCATGTCACATGTGTATTGTGTATAGTGTATATGTGTATTATGTGCACATGCATGTATGTGTATATGTGTGTATTCTATGGG
TGTGTTGTGTGTGCATATGTGTATGTTGTGTGTGCATGTATGTGTGTGTTATGTGTATATGTGTGTACTGTATATATATGTGCTGTGTGTACTTGTGTAC
ATGTGTATATGTGTGTATGTGTATGTGTGTATGTGTATGTGTGTATATGTGTTATGTGTGTATACATGTTATGTGTGTGCTGTATGTGTGTCATATGTGC
TTGTGTGTGCATGTGGATGTATGTGGATGTGTGTGTGTGGTGTGGGGGGCAGATTATCCATGTTTCAGTTCCTATTAAAGGAATTCACGTGCTTGGAGCA
CCCCCGGCCCAGCACCGTTTAACTCCTCCACTTGGGGGTCTGCAGGCCCAACCTGTGGTTGTGGCTGCTGTAGAGACAGCTTCTCCGCTGAGCACCAGGG
TTCAGGGCTGGTTGTTTTGCCCAGGGGGTCTCGTGGAGCCTCCGCCTGACTGTGGAACTCGCTGGGACCCTGGCTTTAGGGGGCGTCTCCGTGAGACCCC
TGCTTGGGTGCRCTGGGCTTGTCTCCTCCCCATGGAAACAGAAGGCYGGGCCCCCATTCTGGGCAATACTCCCAGCTGGAGATGACTTCCTGTGTCCTCG
CCTTTACTTAATTTTTGGCCTGAGAGGCTGAATATACAAACGGCAGGGGCCAGACCATGTGGAAAACTGGAACGCAACTCAGGACCGGCAGCCCAGCCGG
GRACCCAGCCCTTTATCCCCAGTGGGCAGCCCAGGAGGTCAGACGGCACTCCCCACGGCATCCGGCCCCTAACAGCCGGGGCCTGCCTCATCACAGGCAG
CCTCCCCTGGAATGTCTGTCCCTTCCTCCAGCATAGGACCCTAGCCAAGCCCAGAGGAGGCCGGCCTCTAGTGAGCCCGCCACAGCCTCCCCAGGCCAGC
AGCCCCCACTCAGCCCACTCRGGCCTCCCCTCTTCCACTAGGAAGCCCTGCTGCTCCCTGCAGGCCTTTGACCTGACGGGGCACCTGCCATGCTGTGCCA
GCACTGAAGCCTTCACTTTGCCCTGTGGGTGGTCTTCACTTATTCCCACAGTGACTATCTCCGCGTCCCCACCTTTACCTAATCTTCGACTGCAARAGCC
CTGCTTGTCGGGGCCCCACCGTGCTGAGCCGAGACACAGGACACACACAGGCCCCAGGGCTCCCCTGCCTACCCCGCGCCCCCTCCCAGCCCACCCACCG
CTGCCTGAGTCCTCGCCGAGGCTTGGCCTGATCCCAGAGCCTCCTCTCCTCTCCCAGGCTCCTCGCCTGCTGGCCGGCTCCCAGGCCCCAGGGGCTGCCT
CCCATCATCCTCTTTGTCCCCCGGGGCTCATGTGCTTTTCTCAGCCCCCAGGTCTCCTTTCACGCCCGTGTCCAGTCTCAGCCTCCGCCTCCTGCGCTGC
AGAGCTGCCAAGATGCTGACCTGTGACGGGAGGGTGCAGGTGTAAAGGCCCAGAGGCTGGGAGGCCGCCTCTCGCGGAGCACTGCAGGGGCTGTGGGGAC
CTGTGACGCCGGCCAACGGCGCCCCCACAGTTCTGTGTCGTGGCACGTGAGCCACAGGGAGGCTGGGAGAGTGACCACTGCGTCCCTTCTCAGGTGTGAT
AGAGAAGCGAGGCTCTCAGCCCCTGCTGGACATCTTGGAGGTGGTGGGAGGCTGGCCGGTGGCGATGGACAGGTGGAACGAGACCGTAGGTAAGGCCGGG
CCTGGCAGCAGCCTCACAGACAGACAAAGGAGGACCAGGACCAGGGCTCCTTCGGTCTGAGGCCTTCCAGGAGGGGACCCCACCCCCACCCCCAGCTGGC
TGCTCTCAGGAGCCCCAAGAGGCCCAACCCAGCCGGGGCAACCTCAGGGTCCTGGGAGGTGGTTTAGGTTCCATGCTGGGGAGTTGGTGCCCCGTGGCCA
GTCCCATCCAGCCCTGCAGAGGGGTGCCCCTCCTCGGCCCCTAGGAGCGCTCGACACTCAGGCCCCAGCCAGGCTCCGGCCAGGCCCTGGCCCCAGGGCT
CCCCACTCTGAGCATGTGCTCCATTCCCCCGGGGGCAGGAGTGGCACCTCACGTGGCTGGCAGCCCTGACAACCCCATGCTGCTCCCAACCCCCTCCGGT
CACCTGGGGGCCCGCCTGTGGCTCCTGGGCTGTTAGGGAAAGTGTCTCCCACATCCCCCAGCCCCTAAGGCGCACAGGTGAGCTCCCCACCCTATGGCCC
CCTAGTTCCTGGCTCCGGAGGCCAGATTCACCGACAAGGGGCCGGGCTGGGGCCCCAGGGCCCRCCAGTCTCCAGTGCGGGGCACTGTCTCCCCAGGACT
CGAGTGGGAGCTGGAGCGGCAGCTGGCGCTGATGAACTCACAGTTCAACAGGCGCGTCCTCATCGACCTCTTCATCTGGAACGACGACCAGAACTCCAGC
CGGCACATCATCTACGTACGAGCCGCGCCGGTGGGCAGGGGTAGGCAGGGTCCCCAAGCCTGGCTGGGGGCTCTTGCAGCACAGCAGAAGGATGGGCCAG
GCCGACAGGGAGCTCCGGGGTCTCCTGGGACCTGGGCTCCTGGCTCCTGTCCAYGTCCRTGGGCCCGGGAACGAGCTGCTGCTGCTGGAGTTTCTGTTGG
GCCTCCTGGCCAAGCTGGGGGCCACAGTAGAACCCGGYTCTGGTCAGAGGGGCGGGGGCTCCTGAACAGCGGGGCTGGAACCGGGGCAGGAGGCCTGACC
TCAGGGATCCACTGCTGGCCACGGGCTGGAGGCCAAAGAGAAACACACGAAACAAATACGCGCCCCACTCTGGGGGAGCCGCGGGTGCTGCGAGGCCCGG
GACAGCCTGAACCCCTCCCCACCCCACCCCCGCCACCCTCTCCAGTCCAGCCCAGCGCCCCCACCATCACTCGGGGCAGGGTCTGGCCTCCCGGGTCCGG
CACAAGCTCCACCACCAGCTCCTGGGCAGAGCACGTGTGCACGGGGCACAGTCCTGTGGGGAGGCGGCTGCAGCCTGCCTCAGCCAGGCTGCGGGGACCC
CGGGCCCCTTGCCCAGGGTCACACCTTCTGTATTTCCAGATAGACCAGCCCACCTTGGGCATGCCCTCCCGAGAGTACTACTTCAACGGCGGCAGCAACC
GGAAGGTGGGTGGGTCCTCACCGCAATGCCAGATGACCCCCCCATCACCCCCTACCCCGTGGTCTGGCCTTCCCGTTGCCCACCTGGCCTTCCCTCCCCG
AAGCTGGTGTTAGTGAGCACCTGTGGAGGTTGAGCCCGGCACTGAGGGTGGCGGGTGCAGACGTGACCTATTGCTTGCCACCATCCTGGGGGACGTTCCC
TCAACACCCGGGCCAGGCCTGGGGACAAGCTCAGCTCAGCAGCAGCCCCATGGGGCAGAACTGTCATCCCCCTCCCGTCAGTACAGACCCAGGCTCTGCA
GCACCGGATTCCCAGGAGGGCCCCTGGAGATCTGAGTGCAGGCAGCTGGGCCCCGAGCCTGCTCCATCTCAAGGGGCTGTCAAGAGAGGGGAGGGATGAG
GACCCCCACTGTGGACAAGGGGACCTTGAGGCTGGCAGGCCCAGGGCTAGCCCAGGGTGCAGGGAAGGGTGGGGAAGGACAGGGAGCAGGTGAGGAGGGC
AAGGCATCCAGCACCAGGGCAGAGGTGAACAGGCATGAGGCATGAATGCCCCAGAGGGCCAGACACAATCCAGGGGGCCTCCTGGTGGAGGTGGGCTATG
AACTAGACTTTGAAGGATGACCAAGCCCAGAGGAAGGGCCGTGTGGCCAAAGGTGGAGCAGTGGGGCTGAGAGAACCACGCCAGAGCAGGAGGGACTGGA
GTGTCTCAAAAGCGCCATGTCTGGCCATGTGTTCAGACCAGGCAGCTATGGGCCAAGCCTGGCCAGAGCATTGGCCTGCACTGGGGAAGCCCTGCCCAGC
GCGAGGAAGGCAGCTCCCTGAGGAGCAAACTTCCTCAGGATCCCACTCCAGACACTCAGGCCGGGAAGCACCTGGGTAGGGAAGCCCAAATTAGCCCTGG
CACCCACCACCCCGGCACCCACCACCCTGGCACCCACAGCCCCGGCAGGCCCAAGTTAGCCCTGGCACCCCAAGCCCAGCACCCCAACCCCAGCACTGAG
AGCCCCAGCACCCACCTGTGCAAACCCTTATAGGCAGCCACACAGTTTAAGCCCTGAGCAGCCCTGCAGACTAGGTACCCCGTCCAGTGGCTCGGGCACA
GGTCACRCGTCTGAGACGCTCCCACTCGGCACTCTGTGTGCCCGAGAGCCTGCTGGTCAAGGTGGGTGGACACGCATTAGGGGCTTCCCCATGTCCTACG
CCCACCCCACCCCCACAGAAAACTCCCTGGGGGCCATGGTGGCYGAGGCCACCCAGCTCTGCCCGGCGTCCTTTGGCCCAGGTGCGGGAAGCCTACCTGC
AGTTCATGGTGTCAGTGGCCACGTTGCTGCGGGAGGATGCAAACCTGCCCAGGGACAGCTGCCTGGTGCAGGAGGACATGGTGCAGGTKCTGGAGCTGGA
GACACAGCTGGCCAAGGTAAGGGGGCCGGGGCGGGTGGGGAGCGGGCAGCGAGTGGGCTGGGAGCCCCAGGCGGTGTGGCTGGCCAAGGTGAGGGGGTGC
TGGGTKGGCCGGTAGCAGGCAGGGACTGGGCCAGGAGCCCCAGGGGGCATCCTGGCCACCCGCCCGTGTGACTGCTATCCCCGGCACAGGCCACGGTACC
CCAGGAGGAGAGACACGACGTCATCGCCTTGTACCACCGGATGGGACTGGAGGAGCTGCAAAGCCAGTTTGGCCTGAAGGTGAGGCCACACCACACAGGA
GGCCGGCACTGGCCGGGTGGAGACTCGTGGGGGACATGGAAGCGGCCCTCTGAGAGGGCACGTTGCCTGGCATTTAAGCTCAGAAACATTCCCCATCCCC
GAGCAGGGAGACCCTGTACCTGATCACCCAAACTTGCTGCAGAGCAGCACCAGCACGATTACTAATGTCACTGGGACAGCAGTGCCAACTGTGCCATCCT
GGAACAGAGTCACCCATCTGTGCGGTGCTGTGATGGCCCCGGTCTTCTGAGCAGGAAACGGAGGCCTCAGGGGGCTGCTGATGTGTGGGGGTGTACAGGG
TCCCACCCAGGGCTCTCAGACCCYAAGTCCCGCTCAGAACCTTAGCAGGGTGCTTCCTCCCAGTCCTGYCTGCCCTGAGGGTAGCAGTTCCCCCTGGCCA
CACCCTCAGGCGCTCCCCTGCCCAGTGCCCAGGCCAGGCACCGCCCTGTGCTTTGAGGTGGGGGCTGGAGAGGAGCAGCCCAGCCTGGGAAGGGGCAAGT
CCCCCACTCCCTCAGCCGACTCTCACCCTGCTGGAGCAGCTGGCCTTCTCGAGGGCCTCCTCCCCCAGGAGGCGCAGGCGTGCAGCTTCGGCAAAGGGTG
CCCAAGTCAGTGGGGGGAGGGCAAGGGCAGAAGGGGGTCCAAAGCCCCTGCCCCCTCAACCAGAGTATGTCCCTGAGTGTCTGGAGCCACAGCTCTTGCC
AAGGGCAAGACAGAGAGACTCTGGGGAGAGCCTCGCCCCAGGGCACCTAGTGCCTTGGAAGGCTGGTGGTCCCTAGATCGGTTCTGGTCCCCAGGGCTGG
CCTGCGGGGACACACCTTCCCCAACACCCCGCTGCCCAGAACACACGCAGTGGGGCCAGGCTCTGCTCTGGCACTGGGCTTTATCCCCTTCCCAAACAAA
GGCCTATCTCGATCGAGGTTCCGGTGCGGGAGAGGGACAGAAAAGCGGAGTGACCTCTAAAACGTGTCAGAAAGCCAGAAAGGGGGCAGGATGAGCTCAG
CCAGGACAGCAGACAGGAGGTAAAGCCTTGCAGAGAACCAAGGGCCATGGCCATCTGGGGCCAGTGTGGCTCACACAGCAGTTCCCCAAGAGTCTGGGGC
AGGGACTCCCAGCTAATGAGCACCGGGGCTAGAGAGAGATGGAGTAGGAAGTAAAGCGGGGGATGCCGTGTCCGACCTCGGGGGCCACTTGAAAGTCTCA
GACTCTGCCCGAGARGAGTGGGGGTATGACAGGACGTGACCTGGTTCACAAGTAAGAGTGAGTGAAGGGGACGGGGCAGGTGGCAGAGAAGCCAATCAGA
GGCTGCCACGTAGCCCGGGCAAGAGATGGCAGCTCTGCCAAGGGGGGTGCCCGTGGTGGAGGTGGCTTTGGGGTTGATTTTGGAAGTGGAGCCAACAGGG
TTTGCAAAAGGACTAAATATGGAAGTGAGAGAGCTCAGATGGCCTGAGGTTGCCGTGGAGACATCACAGCGGCAGGTTCAGGGGAGCGTCCAGGAGCCCA
GGGTTTGGGGACATTTGGTTTACAATGCATTTATGATGTTCAGAATCGCCCCAGAGTGAACACATCCACACAATCACCCCTCAGATCAAGACTTACGTGA
CCACCGACATCCCAGAAGCCCCCACATGCCCCTGCCTAGCCCCTGTGCCTGCCTCCTTCCCTGGAGAAGAGACCCTGACTTCTCCCTGGAGGGAGGCCGG
TCCCTGACGTGGCCTCTAGATTGCTGAGTGGCCTCTGACTCTAAGAACATGCGACAACTCGGGTCCCACTGTGCTGTCTCTGGGCCTTTTCTGAGTGATG
TTGTCATGCCCATGCCTGTGTGTGCCTGTGGCAGGCAAGTGGGTAGGAGTGGAATTGCTGGGTGGAAGCACACGCATCTGTTCAACAGTAACAGGCACTG
TCTTTCCCCAGAATTATCCAGGGATGTGCGCTCCCCAACAGCGGCTGGTGCCACACCCTCGCCCGTGCTGGGTGGTGTCCGTTCTCAGCCGTTTCTGCAC
CTGTGTAGTGGGGTTTCATCTGGGTTCAATGTGACTTTCCCCAAGGGCGGAGGAGGTTAAACGCCATCTCCTGTCAATTGGCCAATGCCATTCCCTTTTG
TGGAACGTCTGTTTGAGTCTTGCCCATTTGTTCTATCGGGCGATCTTTCTCTGATTGATTCTTGGAGTTACCTATTTTAGATGTGACTCCTTGGTCAGCT
TATGTGTACAAATGTTCTCCCCACTGGGCAGCTTGCTTTTTTACTCTCATAAGGGTTTCTTTGTTTCAATGGAGGCTATTAAATGGTCCAATTTATTGGC
TTAGCAAATGTGTGCAGATCTCTTCTTCGTGGTTAGTATTCTTTGTGTTCTGCTAAAGAACTCTTTGCCTACCCTCAGGTTTGCTTAGGTCTACAATCTA
CTTTGAGTTGATTTTTTTAATGGACAGTGAGATGTAGGAATTGTTTCTTTCTTATGGATTTCCAGTCATTCAGCACCATTTATTAAAAAGAGCCCCCTGT
GAGCCCCTGGTCTTGGTGCCTTCTGTGTTATAAATCAGGTGTTCCTGTGTGTCTATGCGTGGGCCCATATGTATATTTCTGGACTCTCTTTTGCCCCACT
GGTCTCTTTATCTATCCAAGTGATAACCCCTACCACCATCACTCCTTCAGCTTTATAATGTCTTGATAGTCAATAGARTATATATTTCAACTTTGTTCTT
CAAGAGTGTCTTGATAATTCTCAGTCCTTTGCATTTTCACATAAAACTTAAAATCTGCCTTCCATTTGCATACACGCACACACACAAAAAGAAAAYTCTG
CTAGAAATTTGATAGGGATCACTTTGAATCTCTCTATCAATTTGGGGAAGACTTTGCAATGCTGAGTCTTCCAATCCATGAACATGRTATATGCTTCCAT
TTATGCTTCAATTTTTCTTAATAACTTTTAAAGCTTTCAGTGTCAAGTTCTTATACATATTTTATTAGATAAATTACAGGTGTTTGGTTTTCTACTATAA
ATAGAATCATTTTGAAATTATCTTATTTGTTGCTGATATATGGAAATACTGACTTTGTAAATATGCAGTCTTACTCAATGCACTTATTAGTTCTGGTTAT
TTATTTGTAGAATAAACAAAATCATATCATTTGTAAAAAAACARSRGGGGGGTTGKGTKTTGTTTGTTTGAGACAGGGTCTCACTCTGTCATGCAGACTG
GAGTGGAGTGGCACAGTCATGGCTCACTGCAGCCTTGACCTCTTGGGCTCAAGCCTCCTGAGTAGCTGCGACCACAGGAATACACCATGACCAAGCCTTG
CCTGATTTTTTTTTYCCCAGAAACAGGGTTTCTCTATGTTGGCCAGGCTGGTCTTGAACTCCTGTGCTCAAGCAGTCCTCCCGCCCTGGCCTCCCAAAGT
GCTGGGATTACAGGCATGAGCCACCGCACCTGGTCCAGTTTTATTTATTCTCTTTCAGTTCTTACTGGCTTTATTTCATGTTTGCTTTTACTGAACTGGA
CAGGATTTTGAGCATAATGCTGATGTCATAATAGTAGACATTAAAAGAAAAGCACGTATATTCTTACCACTAAATTTTATGTTTGGCCAGGCATGGTGGC
TCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGCTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTC
TACTAAAAATACAAAAACTAGCTAGGTGTGTTAGCACATGCCTGTAATCTCAGCTACTAGGGAGGCTGAGGCAGCATAATTGCTTGAACCCAGGGGTCAG
AGGTTGCAGTGACCCAAGATTGCGCTGCTGCACTTGAACCTGGGCAACAAAGCGAGACTCTGTCTCAAAAATAAATTTAAAAAAAAGTTATGTTTGCTAT
GGAGTTGTTTTTGTTGCTKCTGCTGCTTCATACATTTCCTTTATCAGGTTATAGAATTTTCCTTCTATTTTTCTTTTTATCTTTTTTTTTTTTTTTTTGA
GACAAAGTCTTGCTCTGTTGCCCAGGCTGGAGCGCAGTGGAGTGATCTCAGCTCACCATAACCTCTGCCTCCCAGGTTCAAGCGATTCTCATGCCTCAGC
CTCCCAAGTAGCTGGGACTACAGCATGCGCCACCACACCCAGCTAATTTTTGCATTTTTAGTAGACACAGGGTTTCACCATGTTGGCCAGCATGGCCTTG
AACTCCTGGCCTCAGGTGATCTGCCCGCCTCGACCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACTGTGGCTGACCCCTTCTATTTTTATTTGCCAA
GAGTTTTTATTATGAATAGATGGCAGATTTTATCAAATGCTTTTTCTGCATCTGTTGAAATAATCATGTGACTTTCCTCCTTTATTCAGTTATTGTAGTG
AATTAAAATTATTTTATTTTCAAATGTTACACCAAACTTGTATTCCTTGAATAAATCTAATTCAGCTGTGATATATTAGCATTTTATACAAGTATGGCTA
GGTTCTATTTGCTAATATTTTGCTTAGAACTTTTGTATCTATGACATAAACGAGACTGGCTTATTATTTACTCTGCTTATAATATCCTTATTTTGGTATY
AAGGTTATTCTTGGCCTCATAAATCAAGTTGAAAAGCATTTTCTCATCTCTGGAAAGTTTTAATAAGATTGGCAGTTTTCCTTAAATGTCAGATAGAATC
CACTGGTGAAGCCAAATGGGTCTGGAAATTTCTTTRTTGGAAAGTTTCAAATTAAATATTCCATTTATTTAACCTAGAAGACTATTCATATTTTCTATTT
CTTTTTTTGTCATTTTTGCTAAGTTGTGTTTTTCTAGGAACTTGCCTGTTATACTTAGGCTTTCGCATATATCTGCATGATCGCTTGGGTTTTTACAGCT
GTAGGCTCTGTAATAATGTCACCCACCCTTTCCTGATTCTGATTACCTGCACCTTCTCTCTTATTCCTTGAACATTCTTCAACAGGGGCTGGGTTTCTTA
GATTCCCAGGAACTGTTTCTCCCTCTCTCTCTCTCCCTCTTTCTCCCCACTTCCTCTATCTGCAGGGATTTAACTGGACTCTGTTCATACAAACTGTGCT
ATCCTCTGTCAAAATCAAGCTGCTGCCAGATGAGGAAGTGGTGGTCTATGGCATCCCCTACCTGCAGAACCTTGAAAACATCATCGACACCTACTCAGCC
AGGTGAGGCCCAGGGAGGGTCTCCAAAGGCCTCAGCATCTTTGCCCCTGCTCTCCCATCCTCCCCAACACAGCTTCTGCTCCCAGGAGGGGACCCTATGA
AGCATCTGCCCTGAGGGGTGTGGGACATGAGGGGTTAAGCTTTAGTGGCCAGTGGAGTCTTACATTAAAAATGTGTCACATCCCAAGCACCCGGGGCAGA
TGGGCTGGATCTTGGAGGTGGTTGTCCTGGAGGTTTTCTCCAGCACCCATAACTCTCTGGGGTGGAACGTGCTGGCCRAGGGCCCTAAGCCATATCTCCT
CCCTTGSAAAGACCTCTCACCTGTTCTCCCCTCACCCTCTACCTTCTGCCCCCAGGACCATACAGAACTACCTGGTCTGGCGCCTGGTGCTGGACCGCAT
TGGTAGCCTAAGCCAGAGATTCAAGGACACACGAGTGAACTACCGCAAGGTGAGCCCCTTCCCTGCCCAGAGCCTGGCCGGGCACTCATTCATTCAGGCC
ACGATGCTGAGCATAAGCTGTAGGCAAACACCGAGGTCCACACCAGGGTCACAGCCATGGACGAGGCAGGGCGAGGCGCCCACCCCAGTGGGGAGTGGAC
CATGACAGTCAACAAGGCAGAACGTAGCTCTGCCAAAACCGCAGAGTATGATGTGGCRGGGAGGCAGGGAGGGACGAGGACAGGGAGCACTGCTCCGGGG
AGGCGACATTTGAGACCTTAAAGGCCTGAAGAGGYGGCGGGGTGATTTCCCGGGAGCAGAAACAGCCAGTGCCAGTGCAGAGGCCAGAGGCAGGAGCAGG
CAGGGGCCGGAYCCGTGGTCAGCAGCGGACAGGAAGGAGAAGATGGCAGGGAGGGAGGCGAGGTGACCACGGGCCACAGCAGCCGGTTTGGATTGTACTC
CCYGTCTGAAAGCCGCAGGGGTGCTAAGAGCAGAGACGCGGTCAGATATGCTGCTCCTGTAGTCACTGTGGCTGCTCCAGGGCTGGGGTGAGGGTGGRGA
CAAGGAACCGCAGGGAGGCCCTAGGGGGATTCTGGCTGTTCTGGGGAGAGTGAGTTGAGTAGGGGGCGGGGTCAGCATGGAGGCCGATGTGGTCAMCCAG
GTGAGGTGACAGGCTTGGCCATGGTGCTGGCAGACACACAGACGCAGGGGAGGTGTTGACCGCAGCAGCTGAGGGATTGGGTATAGGGGCTAAGGGCAGA
GGGGAGTCGGGACTCTCAAGACCTTTGTTAGAGTAATGGGAGGGACAGAGGTCCCCACTGCAATGGGGAGACTGAGGCAGAGGCAAGCTGGGGGCAAGTC
AAGCCTCCTGTTGCCATGGGGGGGTAGGTCAGAGACATCTGTGAGTCAAGCGTCAGGGGGGCACTGAGTCTAGGAGCTTTGGGGAGGAAGAAAGGGCTGC
CTCCCTTTCCTARAGGGCAGGAAGTCCTGCAGCCCAGAAGGTGTGGCAGGACGCTGGGCAGAGTGCTCCCTGGGCTTTGCCTGAGTCTGGGGCCCAGAGT
CTCGTGCTCCTGTGTCCCTGGGGACAGATGAGCAGGTGTTCTCACAGCTGCTTCAACAATGGAGAGACCAGGGCCCTGGGAGCTGGTGGCTGAGAGGGAC
GTGGTCCCAGGCCTTGCTCTGGGGTCAGCGCCAGCCCTGTGCCTTGAGACTGGGGCTGGAGTCCTGGAGAGCAGAGTCCAGCCAGACAACCAGGACAGGG
GCCGGGGAGGAACCCCCCCAACTCCTCAGGGTAAAGGCCCAGCTCTCAGTCTGCGGAAGTTCCCCAATCACAATACCATGCCCATCCTTCCCCCCGCCGC
AGCAGCACCCAGAGGTGAGGCTGAGATCATCCCGTGCCCCCGCTAGCCCCGGGGCACCCTGAGGCTGAGGATAGGTGGGTCTGCTCACCCCGTAAGCCCA
GGGCCCCACGCCAGGCCTGGGAAGGCTGACGTGGGGGCCCGTGGGATGATCGGGTGGCCCCVCCAGGCGCTGTTTGGCACAATGGTGGAGGAGGTGCGCT
GGCGTGAATGTGTGGGCTACGTCAACAGCAACATGGAGAACGCCGTGGGCTCCCTCTACGTCAGGGAGGCGTTCCCTGGAGACAGCAAGAGCATGGTGGG
CGCCCCTCATCCATGGCCCACGCGGGGCCAGCCTTCCACAGGGACACCGAGCCTCCCTGCCCTGAGACTCCCACCCCGCCCAGGCTCAGGGGCACCTGCC
CCAGCTCACCAGACAGAGGGAGGCTAAGGGAAGCCGTGCCCACCCCATGCCCCTGACCCCAGCCGGCCACTGGGCCCCAGCCTGAGCCCTGCAGGTCCAG
CTGGGAAAGGCACAGGTGGTACAAGTTGCCCCTGGCCCACGAGGACCCACAGCCCAGCAGGGAGGACCCTGAAGTTGGGTTGTCATCTCATCCCCCCACC
RGCCCCACACCTCACCYGAGAGGCCCACAGCTGGGCAGCCCTGGGCCTTGCCCCGGCGGGGCTCAGACCAGACCTCCCCAAAGCCCTTGAGGCTGGTCAT
TCGCCCTCCAGATGAGTCTGGGACACGAGGGCCATGCCCGATTCCCAGGTCAGAGAACTCATTGACAAGGTGCGGACAGTGTTTGTGGAGACGCTGGACG
AGCTGGGCTGGATGGACGAGGARTCCAAGAAGAAGGCRCAGGAGAAGGTATGTGGCTCGCAGAGGTCAGGGCAGCCCCGACTGGATCTGGGCACGGGCAG
CACCGCCCCGACAAAGCCTCCTGACGGTCCCCACGGGGAGAAGGCAGCCCCGGGAGGCGCAGACAGGACCCCACGGGGAGAAGGCAGCCCCGGGAGGCGC
AGACAGGACCCCACGGGGAGAAGGCAGCCCCGGGAGGCGCAGACAGGACCACTCGCCCACTGTGGAGCTGAGGAAAAGCAGGCAGGGGCAGGAACCAGGC
CTGGGACATCCCCAGCACCCCCCATGAGCCAGCGGGGGTAGCGGTGGCCTCGGGAGCAAGGGTCAGACCCACCAGAAGCTCCTCTGGACCCAAGTGACAG
ACGGCAGCCGAGTGACCCCTCCAGGGCCCCTGCCCCCACCCGGACCCCTGGCGGGCTGTTGGGCTCTAGGTCAGGTGGGCGGAGCCTTCCATATTCTGTC
CCCATTAAACCTCCCCAGAGCCTGCAAGGTGGGGGCCAGATCCCGGAGCCCCCCAGCCCCTCACCACAGGACAGGGAGAGCACAGCCAGGATGCCCCGGG
CTGACCCCTCCCACAGTGTGGCACTCACTGACCGGCCCCCGGGCTGACTCCATCCGCAGTGGGGCACCCACTGACCAGTCCCTCCTCCCCACTCAGGCCA
TGAGCATCCGGGAGCAGATCGGGCACCCTGACTACATCCTGGAGGAGAYGAACAGGCGCCTGGACGAGGAGTACTCCAATGTGCGCCCCCAACCCCAGCC
CTAAACTGCCCCCCACACCGTGGACATGGGCCCTGATTGCCTGGGGGCTCCTCTGTGCCAAGCTCTGTGCCCTCCTCCCAGGCGCTAACACAGCTGTCCT
CACCGTGCCCTAGGGTGGTGGCTYCAGCACTACCCTCAGTGTACAGATGGGGAAACTGAGGCCTGGAGGGACGAGGGACTTGCTCAGAGTCATGTAAATG
CCCACAGCCAGGGCTGCCCCGTTCACCTGCACCCACAGCCGACTGTCCACGTGCGGACGCCTGGCAAGGCTTGAGGTCCTTCCCCAACCACCCAGGACCT
CTCCCCTTGCTCCTCTGAGGGCCCGGCCCCAGCATCTGGCAGTGACTGCCCCTCTCCCGTAGCTGAACTTCTCAGAGGACCTGTACTTTGAGAACAGTCT
GCAGAACCTCAAGGTGGGCGCCCAGCGGAGCCTCAGGAAGCTTCGGGAAAAGGTGGACCCAAATCTGTGAGTGGCATCGCTGGTGCGGCATGGGCGGGGG
GGGCCAGGGAGTGGCCAGTAAGGCGTGCAGGGCTGCCTGCCAGGCGGGGGACTGGATGCGTGGCTGGGGTCCAGTGCCAGCTGAGGGGTGCAGTCACTGG
GCCTATCTTGGACAGAGTCCCCCATCACCCTCTGCTTTCTGGGGCCCAAGTCGCCTCCTCCTCAGGGACCCCAGGAAGGAACCAGATCTTGGGATAGGCC
TGGGCCCTTGCTCTGGTGTGGCCAGGGTAGGCCCTGGTCCATCAAGGCAGAGAGAGCCCAGAGGGAGGGTCCCCGGAGAGGCGGCTCCCAGAGACCGGCT
TGTCTATCACAGCTGGATCATCGGGGCGGCGGTGGTCAATGCGTTCTACTCCCCAAACCGAAACCAGATTGGTAAGTTCCTCCCCCTCCCTGCCTGCCCA
GGCCCTTTGGTGCCAGAGTTGAAGGGGTGGCTTGCAGCCCCCTGCCCATCCCTTCCTCCTGGGGGCACCCCAGCCTGTTCTTGGAACATTCTCCTATGTC
ACCCCTTGCTGCCCCCGTGGGGAACACTCRCTCCYGTGCCCATGAGCGGCTTCGGGAGGGACTTGGCAGGCGGCCCAGAGCCTTTCCTGCAGGCAGAACA
GGATGGTGGGAGGAGGCCGGACTGAGGTCCTGGGTCTGCCAGGCACGAGCCCGCCCAGCCTCTGAACCTCCGTGTCTTCATCTGTAAATTGAGGGAATCC
TGACCTCTGCCTCCCGGTCTGTGGGATCAAGTGTCAGAACCCCTGGCAGCGCCATCCCTGAGCCTGGCACACAGGAGATGTGTCCACTCACAGCTTATTC
TTTGTCCCRCCCTTGGGGACAGTATTCCCTGCCGGGATCCTCCAGCCCCCCTTCTTCAGCAAGGAGCAGCCACAGGCCTTGAACTTTGGAGGCATTGGGA
TGGTGATCGGGCACGAGATCACRCACGGCTTTGACGACAATGGTGAGCGGCCGCCCCTCCAATCACACACGCCCTCCCCTCTCCGCGGAGAAGCAGCCAG
GAAGGGGCCTGGGGGCGCTCCATTCAACCCYTTCACGGTTTCAGTGGGGACACCGAGGCCAGGTCCTCAGGGAGCTGTGGGGGCAGAGCAGGCTTTGAAT
GCCAGGCTGGGGCCCTGTCTGGGGGCACTGACTCCCAGCATGGAGGAGGGGACCCAGGGACTCCAGCCCATGACCCTGACTCCACCTGGCACTGGGCACT
TCCCTCCCACGGCCTGTGACATGGGGACRACAACACTGCCCAATACAGCAGYGAAGCCCAGATCCCAGCCTGGGAGACTMTCCAGACGGCCAGCATCCTC
CACCGGGGGGTGTGCTACCCCCGCCATGGCCATGCTGACCTCCGCCCCTCGGTGGGGACTGCCCTGCCTGGGACAGGGGCCCCAGCTGGTTTTCCCCTGT
GGCTCGGCCATCCGGACCTTCCGTGGGCAGTCCTTGTCCCCAGGGACCACGTACTCCTCTCGCCTGGAACTTAGAGTTTGGGCATCCCAGGAGGAGCCCT
TAAACCATGATGCCTCCAAGACCACAGGACCCAGGTGCTAGGCCCTAGCCTCAGGGGGTGGCATGGGAGACCACTGAAGCCCTCCTTCTCTGGGGGCTGT
GTAGCCCCAGACAGCTGCTGCCCCTTGGAGCCCGCGATGCTCTTCCAGGCTCAGCCTACTCAGACTGTGGGCTCTCCGTACTGGGGCTGGCTGCAGGAGG
GGCAGGAGCRGCCAGGCACAGTGGCTGCCGTGGGGCCRGGCACAGTGCAGCCAGGGGCATGTGGGCAGCCCTCCTCTGCCCCTGCCCAGGCCGGAACTTC
GACAAGAATGGCAACATGATGGATTGGTGGAGTAACTTCTCCACCCAGCACTTCCGGGAGCAGTCAGAGTGCATGATCTACCAGTACGGCAACTACTCCT
GGGACCTGGCAGACGAACAGAACGTGAGCGCTGCCACCAGCACCCAGGCTGCRGGGGTACCGGAGCCCCAGCCCTGGCCCTGAGGGAGARGGAAGTCAGG
GCCGGGGCTGCCCCAATCCTGTCTCCTGTGCGCAGGTGAACGGATTCAACACCCTTGGGGAAAACATTGCTGACAACGGAGGGGTGCGGCAAGCCTATAA
GGTGGGGCCTGGCAGGGGAGGGGGCGTCAGCGCGGCAGGGGAGGGGGCGTCAGCGCGGCAGGGGAGGGGGTGCCAGTGCATCAGGGGAGGGGGCGCCAGC
ACGGCAGGGGAGGGGGCATCAGCGCGGCAGGGGAGGGGGCGTCAGCGCGGCAGGGGAGGGGGCGTCAGCGCGGCAGGGGAGGGGGCGCCAGCACGGCAGG
GGAGGGGGCGTCAGCATGGCAGGGGAGGGGGCGCCAGTGCATCAGGGGAGGGGGCATCAGCGCGGCAGGGGAGGGGGTGCCAGCACAGCAGGGGAGGGGG
CGTCAGCATGGCAGGGGAGGGGGGGCATCAGCGCTGCAGGGGAGGGGGGCACCAGTGCCTCAGGGGAGGGGRCGTCAGGGGCTCATTCRGGACAGGTGGT
GTGCAGTGGGCTGTCTGGCCAGGGATCCCCCCCCGAGGGCCCAGCTCAGGGGTCCCTGAGTGACTGAGGTGGTGAGCGCTCATCCGTGGGGTGTGTGAAG
GGCCCTTGCAGCAGCAGGACCCCCACAGGGGTAGGTCCTGGAGCCAGACCTCTGCTCTGCCCTGAGATCTGAGGGTTCTGGAGTCCAGGCTGGCAGGCCT
GAGCTCAGCTCCTGTCTGGTGCCTGCAGGCCTACCTCAAGTGGATGGCAGAGGGTGGCAAGGACCAGCAGCTGCCCGGCCTGGATCTCACCCATGAGCAG
CTCTTCTTCATCAACTATGCCCAGGTGGCAGCCGCAGTCCTGGTCCCACCATCCCCATGCTTCCCCACTCATCTCTGGAGGGCCCACTCTGGGGCACCTC
CAGGGACCAGAGCCCAGCATGGAAGGCCCCTTGGGGGAAAAGCATGAGGGGCAGGGGGCGGGAGCTGGACAGGATTTCAATGSTGATGGGAGGAGGGGAG
CACCTGCTGACTCCCCTCACCCCACCCTAGAAGGGGCAGCCTGGGGATAGTGGAGACCCTCCCCCACCCCTCCTGGCCACCCCACCACGCCACCTGTAGC
CACGCCCCCAACATGCCCACAGGTGTGGTGCGGGTCCTACCGGCCCGAGTTCGCCATCCAATCCATCAAGACAGACGTCCACAGTCCCCTGAAGTACAGG
CAAGTCTCCCATGCTCACAACCCCCTTGCCACCCACAACCCCCTCACCCCCACCCCAGTGGCCTGTAAAAGAAGAAAGCACAAAAAGTGGCTCAACAGAG
ACAGGTTTATTTTGGGAATAAACCTGAGAGGGGCTTCTGGCCGATTTCGGTCAGGGACATTCTCTTACAGACTAAGGGCATTTAAGGGTTTAGGAAGGGG
GAGCCTACCGCAGGCTGCRAATGTTTCTGTGTGAAGGAGAGTTTTATTGCAGAGTTGGAATATCTCTGGCTGGAGGGGAGGTTATTCTCAGGATTGGCAT
GTTTCTGGTCAGATGGGGGTTTATCTCATGGTTGAAATGTTTCTGCTCATACTGACATGAGCCATTAGGCTGATGTTTTGGGCTGGTTTTTAATCACGGA
GAACTTAAAATGGCCATGTTTGTCCAAGATGGCAATGCTCCTGCTGTCACACCCACCCACCCACAGGGTACTGGGGTCGCTGCAGAACCTGGCCGCCTTC
GCAGACACGTTCCACTGTGCCCGGGGCACCCCCATGCACCCCAAGGAGCGATGCCGCGTGTGGTAGCCAAGGCCCTGCCGCGCTGTGCGGCCCACGCCCA
CCYGCTGCTCRGAGGCATCTGTGCGAAGGTGCAGCTAGCGGCGACCCAGTGTACGTCCCGCCCCGGCCAACCATGCCAAGCCTGCCTGCCAGGCCTCTGC
GCCTGGCCTAGGGTGCAGCCACCTGCCTGACACCCAGGGATGAGCAGTGTCCAGTGCAGTACCTGGACCGGAGCCCCCTCCACAGACACCMGCGGGGCTC
AGTGCCCCCGTCACAGCTCTGTAGAGACAATCAACTGTGTCCTGCCCACCCTCCAAGGTGCATTGTCTTCCAGTATCTACAGCTTCAGACTTGAGCTAAG
TAAATGCTTCAAAGAAATCAGAGGCCTTGCTTGTCTGGGAGGGACCAGGGTGGGTAAACAGGTAGCAGTGGTCTTGGGCAAAACAGCTGCCCGGGGGTGG
GAGAGAGTGACAGCTGGGAGCTGATGGGGAGGGAGCCAGTTCCAGTCAGGTCTCCTAGGGTCCAATGCTAGGGCCAGCAGTGACCAGGATGCCCCCAAGT
GCCCACCCCCAGGGACCACACATTCAGATGCGGGGAGCCCCACTGGGGCACCGGGGGACCCAGAGAGCTGCAGCTGGGAACCTGAAATTTTAGCTTGGTG
TAACTGAAAGCCAGAGGAGGGGCTGAACGCAAAGGGACGCAGTGGGTCACCTGCTATGCATTTTTAAATGGCCACTGCAAGGGTGGCATTGGGGGCAGGA
AGGGAGCCGGGAGACCCACAGGAACCCACAGTGGTCCCCAGGTCTGGACTAGGGAGTGCAGAGAGGGCTGCAGTTGTCATCGGCCTGCATGGGAGGGGAG
GGCCTGAGCAGGTAGTCTGACCTGGGAGGTAAGGGGCTCTGCTCTGGGCCTGTTAGGGTCCCCAGGGAAAGGTGGCCAAGAAGCTGGACACACCTAATTA
GACTAAGACCCTCCCGGGCCGGCCGCCCCAAAGGCCATACCCAGCAGGTGCAAACAATGATTCTGACATCAGTAAAGAGCCTTGGGGCAGGCTGGCCCAT
CACCTGAGAGTCTCCAGGGTCCACCCACCCCACCAGGTGGAATCAAGCCCATCTCTGCCCTGAAAACCCAACTCTCCTGAGTGGCCCCCACCAGACACAG
GCACTGACCCCGACCCTGCTGGAGCTGACCCCACGCTCCTCTCCTGACGTGGGCTTGGGTCTGTCGCCTTTGAAGGGAGTGACGGGGCAGTGAGGTTACC
ATCCCCAGTGCCCCACAGGCCAAAGGCCCAAGGTCTCCAGAGAAAGTCGCAGAGCAGGAAGATGACACCTGGGACTCACAGCCACCCTGCCCGCCCTGAG
GGCCCAACAGTGAGCAAGGCGGGGGCTGTGGAGGATGCAGGGCTCGGAGCCTGCGAAGCAGTGCGTGGTCAGGAACTGCAGTTTTAATGGCTCGTTGCTG
CCGGCGGATCAGGAGAGGTTCGGCATCCCGACCCAGCGCCTCCGGAACAGTTCTTCCAAGTGGACTTCCAGCACACCTAGGGCAGCAGACGCCACCCAGA
TCCTCGGAGGCCAGGGCCTTCGCCTCCCTCACACCTCTCTGTCACACTGTGGGGACAGCAGGGTCCCATGGGGCCGCTGGACACTGGATCAGACAAATGC
CTGGAGGGCCCCCTTGGACAATCCCCAGCCCTCCCAAGGCTGAGAGGACACGCCTCTCTGCCCGCCACCCCATGTGTCGCCCCCACCTCTGAGGACAGTC
CCAAGGTGCCTGTCCATCCAGCCATGCTGCCCTTCGGCCCCTCTCAGCCTGCCCCACTCTGCAAGTGGGGTCACAGTGGCATCCATATCCCAGGGCACAA
TTGGCATGATGCCCACAGCGCTGTGGCTCAGCTCCCAGCCAAGCCGAGTGCTCCTCCCAGGGGACCTAGGGGCAGGGCGTGGGCTGGCAGGCAGCGCCCC
CAAGGCCCAGCTCACCTGAGGCGGGTCGCTGGCACAGACCTCCGCAGAGATGCCCAGGACCTGCAGGATGTGCTCCTTGGGGACGTAGTCGCCTGGGGAC
TTCTGGACGAAATGCAGGAGCACTTTATCACCACCTGTAGCAGCGGGCAGGCAGTCACGGCACCCCGGAGGCCGCCTGCACCTCACAGCCACATACCAGG
AGGAGGGAGGGTAGGGCAGCCCTGGCCAGCCATATCCCCCACCCGGCTACCCAGATGAGTGAGCTGTTCTGCCACAGCCCCACTCAGCCCAGCAGACACG
CAGAACCAGGCCACATTGCGGCGGAGGGGCTGTGATGAGACTGACAAGCCAGAGAGAGGGCCTGGGCTGGGCCACCAAGTTCAGCAAGGCCCTCCTTGAG
GCAGTGGCCGAGGCCCCTCCCTCGACCCACCTTTGCTGACCACCAGCAGCCCTCCGCTCTGCAGCAGGTCCCCAGACAAGTTCCCCTGGATGCCAACAGC
CTTGGCCTGTCAGGAGTGGGTACAGCCTGAGTCAATCCTAGAAGAAAGGCTCCTGGGAGCTCCCACCACCCCCCGGCCTGTACACCCTTGACCCGCACAC
ACCTTGGCAGCCACATCACGCACGGGCTTCCCCAGAGCTGCTGGGAGGATGCTCAGGCTGTTGTACCTGCGAAGACACCAGGTCGCTTGGCCAAACTCCG
GAGAAGCCTGGGTCCAGAGCCTGCTCCAGTGTCCATGAGACCAGTTCCTAGGTCAGGCCCCACCCCACCCACCCGCCTCACCAGGGCTCAGAGATGGCAC
AGGCGACCAGATCAGTAGCCAGCCCAGCCCACCGGCAGGTTGGACACCGAGCCCAGTGGCTGCTAGCCGAGGGTCCACAGAGGGTGCAGGGAGCATGGAT
GGGGCCCCAGGCTGGGTGTGCCCAGGGATCTGGCTCAGCTGGCAACTGCCAAGCAAAGGAAGCAGCCTGTGGCACAGACACCAGAAAGCTAGGATGGCCC
CTGATGGGCCACGAGGCTCCACCCCACGAGGTGGTCTGGACACCGAGAGTAAGCCCCGGACGAGGTGGCTCATTACAGTCACCCAGCACCCAAGAGAAGG
CCTGGCAGAAGGGCTGGTCAACAGTGCCACCAGAGCCGCCTTGCCCAGGAAGGCCCGAGTGGACAGCACCACAGAGGGCAGCAGGGAGAGGAGGTGGCAG
GGAGCGGTGGGAACCCCTGGGCCCCCCACCCCACGCTACCCAAGGGTTCCCGCCCCCACTCACCGCTTGAAGCCTAGCTCCTTGTAAAGCTGCTTGCTCT
CATCCAGGTAGAGCTCTGGAAAGCGGAAGCCACATGTGTGTGCCCCAGGCGCAGAACCAGCCCCCAACCCACTCACCACAAAGAATCGCCCTCCTCCTTC
CGACCCTCTGTTCCTCTGCCCACCCTCCGTGCTCAGCCCACCCCCGCAGGGCAGGGAGGGGTAAAACGGGGCTGAGTGTCCCCCCTCCCCTCAGAAGAGG
GGCTGAGTCCCAGAGGCAACAGGTGGAGCCGGCGGGGCAGAGCTCGTCCAGACTCTGCTGCTGGGCCCAGGTCTGTGCAGGGCACCACCCAGCCACCAGC
TGCGGGGCGGGGAGGCAGGGAGAGATGAGGGACGCTGACCCGTGGGCATATCAAGGCCGCTCCAGCAGACAGAAGGGCCGGGGTTGGGCAGGAAAGGGCC
CCGAACGCCCTGAGCTTAGGGAAGGGTATGTGCGCCGCCGCGGCGGGGAACAGGACGCACCTCCCGCGAAGTAGTCGCCGTCCAGGAACTCCTGCAGACC
CAGGGCCTCGGGCCCTACGCCCACCAGGCGCACGCCGTGTTGGTCCAGGAGCCCAGCAAGGCTGCTGAGGTCCTGGGCGATCCAGCGGCACACCACGCAC
CCGAAGCGCCGCAGCCCGGCCACCACGCACGCGTGCTCCCGCCACAGGCTCCGCAGCTCCACGGCCTGCCGGGCGGCTGGGTCATGGGCGCGCCCCGTTG
CCCCCAGCCCCGCCCAGGCCCCGCGGCCCCCACCACCCCATCGCTGCCAGGACGCCCGGGCAAGGAGCCAGGGACGCGCCCACCGCCCTGCGTCCACCCG
GCCTCACCTCCCCGGTCACCGCATGCTTCAGGATGCACGCGCCCACGCGAGCAAGGTCCACCGTGCTCATGGCGGCCGCTGCCAGCCCTGGTTCCCGGCT
CCCCGACTCCCTGTTCCCCGCTCCCGGCTCCTCGCTCCTGGATCCCCGCTCCCGGCTCATAGATCCAGCCCCAAGCCCCGCCCCGAGATGCCCCGGTCCC
GCCTTTCTCGCTGCCGCCGAGGCCCCGCCCCTTCGGGCTCGTCTCCGCCCCGGGCCCGCCCCCAAGATGGCCGCAGCGCGCCCCGGCCACGCCCCCGACC
GCACCCCGAGCCCTGCTCCGCCCCCTCGGATTCGCCCCTAGTCCCGCCTTGTTTCCCCTCCTACTCCAGGCCAAGCCTCGAGATCGCGGCGCCAAATCCT
GGGTCCGCCTGCTTCGGTCCCTCCCGCCTCCTCAATCCGGGCCTTGCGGGACAGTTGCTGTCCCGCGTCCTGGTCCCGCCCCTAGCCCCGCCTCTCCGTT
GGGCCGCCGACTTGGACCCCGTCGGCCATTGGCGCAGCAGGCGGAGCTGGGCGGTGCGGCCCTCGGTGCGCGGTGCGCCTGTGCGGAATGCGGCGGGAGG
CGGGCAGCCGGCTCGGGGTCGTCCCGGGGGGCGCCGGGGAGCGGCTGGGTACGGTGGGCCCAGGGGTGGTCCAGGGAGCGGCGGGGGTCTCCCTGCGGCC
TCGCGCGAGACTGGGCTGGACTCAGGGTTGAGGGGAGAGGGTGAGCGCAGGGGTCGCGGGCATAGGGGACCGCGGGCCGGGGTCTCCCGCGGGGCGGGGG
TCCCAGCAGTGGGGGGCGGGGGGGTGCGAGGGCTTAGCCTTTCCACGTGGCCTGGTTTTCGCTTGAAAATCCCCGCAAATGCGGCAGCATCTCAATTATA
CATGGACGCGATGTCTTTAATCATGAAATACTGTTCATGTCGTGCCGGTTGCATATCAGCTTTTAACCCGCCAAACCTTGGGGCGAAATAGACCCCGGGG
AGATAAGCACAGCTCCCAGAAGTGCACTGCGGGTCAGGTGCCTGGCAGATGCGTCCTGTTCCTCCCCCACTGCAGCCCTGTGATAGCTTTTGTCACCGAG
TTGGGGTGAGGGCCGGGTCACAGCTTCACCCGGCCTGGGCTCCCACCTGAGCGGGCCCGGCCTGGCAGAGTCTGTGCTGCTGGCACGGGTCCTCACTCCC
CAGGCCCCAGGACAGCTCCAGGGGCCTGGGCGGGCTGGAGAAGGAAGGGGGAGCCCCCACACTGTATTCCAAATAAAGAGAGGCCCCGGGGGGGTGCTGC
TGCTTCGCCTGTGCCCTCGCCCTGGGGTGGTGAAGGTCCAGACTGCGAAACGGAAGTCGTCACTATGTCAGAAAGGGCAAAAAGCAAAACAAGGAAGGGG
AAGCACTAGGAGGGAGGAGCTGTGGCAGCTCCAGAGCCCAGGAGTGCAGCCCCCAGAGACCAGGGCTACCCCTCTACCGTCTCGGGCTGTGCAGGAGGGG
CCCTCTACCCTCTGGAGTTGTGCAGGAGGGGGCCCCTCTACCATCTGGGGCTGGGCAGGAAGGGCCCCCCCCCACCGTCTCAGGCTGTGCAGGAGGGGGC
CCCTCTACTGTCTCGGGCTGTGCAGGAGGGGGCCCCTCTATCTTCTGGGGCTGTGCAGGAGGGGGCCCCTCCACTGTCTCAGGCTGTGCAGGAGAGGGCC
CCTCTGCCGTCTGGGGCTGTGCAAGCAGTGAGCAAGCTGCCGCCTCCTTGGGAGCTGGGATCCCAGACGGGATTCAGCCATTTTCAGAGACGTTCCCAGA
AACGAGAATGCGAGATCAATTCCTCGCCTGGCATCTCCCACCAACGCCATCGCTGCAGGAGCCTCACTGGAAGCCAACGGGCAGAGGAGAGTGGGAAAGG
AGCTTGCAGCCTCCCAGCTCCAGTGATGCAGAGCAGAAGGTGGCTGGGAGGCTGAGAAGCCATAAGAAAATAGCAGGGCCAGCCCATGTGGCCGCTCAGA
TACATGCTATGTGTGTGTTTGCATATGTAGGGGCTGAAAAACTCCACCTCCATCCTTTTGAGGTCCTGGCTGGGCCCAAGAGTTAAATCAAGATAAGACA
GATCATCATGCCAGTGTATTTGATTAAAGTTGGATGTGGCTCAGGAGCCCTCCTAAGGAAGTGAAGACCCAGTGAAGCAGACTCAGTCGTGTGCTGAGTT
GGACAGAGAACAGTGAGGTTTGAGGAAGCAGCTAGATGATGTGGGGGGCTGAAAAGGTGAGAGGCATTTTATCAGGGACTGTACAGCATTTGCTGGGTCT
CAGCTTCTCATCCTTGAGGATCAGAGCTTTCTAGTGTAGGGAGAGCATCTTTCACCTGGGAATTTCATCTTCTGCTTTTAAGAAACACAAGAGAGATCAG
AATGATCTTTTTGCACCTGTTATTGTTTTAACTGCCTTTAATTCCTAATAGTGACTATGCCAGA


SNP Information

Context             (SEQ ID NO:39959):
AGACACGTTCCACTGTGCCCGGGGCACCCCCATGCACCCCAAGGAGCGATGCCGCGTGTGGTAGCCAAGGCCCTGCCGCGCTGTGCGGCCCACGCCCACC
Y
GCTGCTCGGAGGCATCTGTGCGAAGGTGCAGCTAGCGGCGACCCAGTGTACGTCCCGCCCCGGCCAACCATGCCAAGCCTGCCTGCCAGGCCTCTGCGCC
Celera SNP ID:            hCV1974931
SNP Position Genomic:     48003
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,2|T,2)   total(C,34|T,2)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;(C,-|T,-)   JBIC-allele(T,545|C,936)   total(C,936|T,545)   (T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS


Context             (SEQ ID NO:39960):
ATTCTCCCACCTCAGCCTCTTGAGTAGATGGGATTACAGGCATGCACCACCACGCCTGACTAATTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTC
K
CTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGC
Celera SNP ID:            hCV26678894
SNP Position Genomic:     21552
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39961):
TACCCGGCCTGCTTTCCTGGGCCTTGAAACCCTCTCCAGGCCCTCTCCTGGGCCTTGAAACCCTCTCCAGGCGCTCAGCCCCTTTCTCAGGAGGCTGGGC
R
GGGCGTCCTGTGTGCAGTCTCGCCTGTGCCAGGGCAGGCAGCCCCCTCTGGCATACGGTTTATCTTACCCAAAGGACCCGCTGTCCCCCATCTGTAGTAA
Celera SNP ID:            hCV26678895
SNP Position Genomic:     6223
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,12)   total(G,12|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39962):
ATACTGACTTTGTAAATATGCAGTCTTACTCAATGCACTTATTAGTTCTGGTTATTTATTTGTAGAATAAACAAAATCATATCATTTGTAAAAAAACAAC
R
GGGGGGTTGGGTTTTGTTTGTTTGAGACAGGGTCTCACTCTGTCATGCAGACTGGAGTGGAGTGGCACAGTCATGGCTCACTGCAGCCTTGACCTCTTGG
Celera SNP ID:            hCV11612170
SNP Position Genomic:     38246
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39963):
GCTGCAGGCAGGAGGCCGCAGCTGAGCGCTGTGTTTCTCCCCAGGGAAGCAGCTGCCACGCCTTGCTAGCCGGCTGTGCTTCTTACAGGAGGAGAGGACC
W
TTGTAAAACGAAAACCCCGAGGTAGCCTTTGCCTTCCCTTCCAAAACAGCCCCAGGCAGGTGGGCGCTGGCCTCCCAAGGTGGGGGGACTCCGTGGAGGG
Celera SNP ID:            hCV26678896
SNP Position Genomic:     26817
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,9)      total(A,1|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:39964):
AAAGGACCCGCTGTCCCCCATCTGTAGTAACCTGGAGAGGCCACGAGTGTCCCCAGGGAGCCGCAGTGCCTTCGCCTCAGCAGACACTCCACACCTGCCC
Y
GGGTACTTGGCTCAATTTGAAGGTGTTTATTTTGTGTGTGCCGTGGGGCACATGGAGCCGTCTGTGGATACCTGCAGGACAGAATGAATTCAGGACGCAG
Celera SNP ID:            hCV26678897
SNP Position Genomic:     6394
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,13)   total(C,13|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39965):
AATACTGACTTTGTAAATATGCAGTCTTACTCAATGCACTTATTAGTTCTGGTTATTTATTTGTAGAATAAACAAAATCATATCATTTGTAAAAAAACAA
S
AGGGGGGTTGGGTTTTGTTTGTTTGAGACAGGGTCTCACTCTGTCATGCAGACTGGAGTGGAGTGGCACAGTCATGGCTCACTGCAGCCTTGACCTCTTG
Celera SNP ID:            hCV11612172
SNP Position Genomic:     38245
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39966):
CCACAGGGTCCAGGCTCGCAGTAATGCCAGCTGCCCTGCGGCCTCACTCACACCCCAACCCCAGCACAGGCCACACGTTCCAGGCTGCAGGAAGACTGTG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTATATGGATATGAGTATGTGTATATATGTGCATGCATATTATACATTTATATGCATAT
Celera SNP ID:            hCV26678898
SNP Position Genomic:     29888
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39967):
AAATACTGACTTTGTAAATATGCAGTCTTACTCAATGCACTTATTAGTTCTGGTTATTTATTTGTAGAATAAACAAAATCATATCATTTGTAAAAAAACA
R
CAGGGGGGTTGGGTTTTGTTTGTTTGAGACAGGGTCTCACTCTGTCATGCAGACTGGAGTGGAGTGGCACAGTCATGGCTCACTGCAGCCTTGACCTCTT
Celera SNP ID:            hCV11612173
SNP Position Genomic:     38244
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39968):
CACAGGGTCCAGGCTCGCAGTAATGCCAGCTGCCCTGCGGCCTCACTCACACCCCAACCCCAGCACAGGCCACACGTTCCAGGCTGCAGGAAGACTGTGT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTATATGGATATGAGTATGTGTATATATGTGCATGCATATTATACATTTATATGCATATG
Celera SNP ID:            hCV26678899
SNP Position Genomic:     29889
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39969):
TGCTCTTCCAGGCTCAGCCTACTCAGACTGTGGGCTCTCCGTACTGGGGCTGGCTGCAGGAGGGGCAGGAGCGGCCAGGCACAGTGGCTGCCGTGGGGCC
R
GGCACAGTGCAGCCAGGGGCATGTGGGCAGCCCTCCTCTGCCCCTGCCCAGGCCGGAACTTCGACAAGAATGGCAACATGATGGATTGGTGGAGTAACTT
Celera SNP ID:            hCV970091
SNP Position Genomic:     45938
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,7)   caucasian(A,25|G,7)   total(A,44|G,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;(A,-|G,-)   JBIC-allele(A,707|G,740)   total(G,740|A,707)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39970):
AGGCCTCTGCGCCTGGCCTAGGGTGCAGCCACCTGCCTGACACCCAGGGATGAGCAGTGTCCAGTGCAGTACCTGGACCGGAGCCCCCTCCACAGACACC
M
GCGGGGCTCAGTGCCCCCGTCACAGCTCTGTAGAGACAATCAACTGTGTCCTGCCCACCCTCCAAGGTGCATTGTCTTCCAGTATCTACAGCTTCAGACT
Celera SNP ID:            hCV8861420
SNP Position Genomic:     48191
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,9)   total(A,1|C,9)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(A,1|C,3) ;JBIC-allele(A,266|C,1229)   total(C,1229|A,266)no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:39971):
CAACTACTCCTGGGACCTGGCAGACGAACAGAACGTGAGCGCTGCCACCAGCACCCAGGCTGCGGGGGTACCGGAGCCCCAGCCCTGGCCCTGAGGGAGA
R
GGAAGTCAGGGCCGGGGCTGCCCCAATCCTGTCTCCTGTGCGCAGGTGAACGGATTCAACACCCTTGGGGAAAACATTGCTGACAACGGAGGGGTGCGGC
Celera SNP ID:            hCV970092
SNP Position Genomic:     46190
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;(A,-|G,-)   JBIC-allele(A,725|G,726)   total(G,726|A,725)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39972):
TAAACCTGAGAGGGGCTTCTGGCCGATTTCGGTCAGGGACATTCTCTTACAGACTAAGGGCATTTAAGGGTTTAGGAAGGGGGAGCCTACCGCAGGCTGC
R
AATGTTTCTGTGTGAAGGAGAGTTTTATTGCAGAGTTGGAATATCTCTGGCTGGAGGGGAGGTTATTCTCAGGATTGGCATGTTTCTGGTCAGATGGGGG
Celera SNP ID:            hCV8861421
SNP Position Genomic:     47619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39973):
CCTGGCTGGGGGCTCTTGCAGCACAGCAGAAGGATGGGCCAGGCCGACAGGGAGCTCCGGGGTCTCCTGGGACCTGGGCTCCTGGCTCCTGTCCACGTCC
R
TGGGCCCGGGAACGAGCTGCTGCTGCTGGAGTTTCTGTTGGGCCTCCTGGCCAAGCTGGGGGCCACAGTAGAACCCGGTTCTGGTCAGAGGGGCGGGGGC
Celera SNP ID:            hCV27523495
SNP Position Genomic:     32859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39974):
CTCGCACTCACCACCTCCTTTCCGTTGCTGGCCTGGGGGATTCCTTTGCTCTGAAGCTCAGCCTTGCCCTTCAGCACTTTACCTCGGTGTATGCAGCATG
Y
GGCACTTTCTCCCTGTTTCCACCGGGCGGGGGGCTCCTTGAGGGCTGGGCCCTGTCAGGCTCACATCTGAACTGCAGCATCTGGCCTGGCTCACAGTCAT
Celera SNP ID:            hCV11612179
SNP Position Genomic:     25764
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39975):
CCCACTCTGGGGCACCTCCAGGGACCAGAGCCCAGCATGGAAGGCCCCTTGGGGGAAAAGCATGAGGGGCAGGGGGCGGGAGCTGGACAGGATTTCAATG
S
TGATGGGAGGAGGGGAGCACCTGCTGACTCCCCTCACCCCACCCTAGAAGGGGCAGCCTGGGGATAGTGGAGACCCTCCCCCACCCCTCCTGGCCACCCC
Celera SNP ID:            hCV8861422
SNP Position Genomic:     47183
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;JBIC-allele(C,740|G,745)   total(G,745|C,740)no_pop(C,-|G,-)   (C,-|G,-)   Caucasian(G,30|C,44)   African-American(C,34|G,46)   Asians(C,34|G,42)   total(G,118|C,112)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39976):
CAGGGGAGGGGGCGTCAGCATGGCAGGGGAGGGGGGGCATCAGCGCTGCAGGGGAGGGGGGCACCAGTGCCTCAGGGGAGGGGGCGTCAGGGGCTCATTC
R
GGACAGGTGGTGTGCAGTGGGCTGTCTGGCCAGGGATCCCCCCCCGAGGGCCCAGCTCAGGGGTCCCTGAGTGACTGAGGTGGTGAGCGCTCATCCGTGG
Celera SNP ID:            hCV8861423
SNP Position Genomic:     46689
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39977):
CCTAAGGCGCACAGGTGAGCTCCCCACCCTATGGCCCCCTAGTTCCTGGCTCCGGAGGCCAGATTCACCGACAAGGGGCCGGGCTGGGGCCCCAGGGCCC
R
CCAGTCTCCAGTGCGGGGCACTGTCTCCCCAGGACTCGAGTGGGAGCTGGAGCGGCAGCTGGCGCTGATGAACTCACAGTTCAACAGGCGCGTCCTCATC
Celera SNP ID:            hCV25602545
SNP Position Genomic:     32564
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,10)   caucasian(A,15|G,21)   total(A,23|G,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:39978):
TCCACTGTGCCCGGGGCACCCCCATGCACCCCAAGGAGCGATGCCGCGTGTGGTAGCCAAGGCCCTGCCGCGCTGTGCGGCCCACGCCCACCCGCTGCTC
R
GAGGCATCTGTGCGAAGGTGCAGCTAGCGGCGACCCAGTGTACGTCCCGCCCCGGCCAACCATGCCAAGCCTGCCTGCCAGGCCTCTGCGCCTGGCCTAG
Celera SNP ID:            hCV25602546
SNP Position Genomic:     48011
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,4)   total(A,1|G,33)
SNP Type:                 MISSENSE MUTATION;UTR 3


Context             (SEQ ID NO:39979):
AGGGGGTGCCAGCACAGCAGGGGAGGGGGCGTCAGCATGGCAGGGGAGGGGGGGCATCAGCGCTGCAGGGGAGGGGGGCACCAGTGCCTCAGGGGAGGGG
R
CGTCAGGGGCTCATTCGGGACAGGTGGTGTGCAGTGGGCTGTCTGGCCAGGGATCCCCCCCCGAGGGCCCAGCTCAGGGGTCCCTGAGTGACTGAGGTGG
Celera SNP ID:            hCV8861424
SNP Position Genomic:     46672
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39980):
GACAGCTGCTGCCCCTTGGAGCCCGCGATGCTCTTCCAGGCTCAGCCTACTCAGACTGTGGGCTCTCCGTACTGGGGCTGGCTGCAGGAGGGGCAGGAGC
R
GCCAGGCACAGTGGCTGCCGTGGGGCCAGGCACAGTGCAGCCAGGGGCATGTGGGCAGCCCTCCTCTGCCCCTGCCCAGGCCGGAACTTCGACAAGAATG
Celera SNP ID:            hCV8861425
SNP Position Genomic:     45910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39981):
CAGCCCCCTGCCCATCCCTTCCTCCTGGGGGCACCCCAGCCTGTTCTTGGAACATTCTCCTATGTCACCCCTTGCTGCCCCCGTGGGGAACACTCACTCC
Y
GTGCCCATGAGCGGCTTCGGGAGGGACTTGGCAGGCGGCCCAGAGCCTTTCCTGCAGGCAGAACAGGATGGTGGGAGGAGGCCGGACTGAGGTCCTGGGT
Celera SNP ID:            hCV25602580
SNP Position Genomic:     44735
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,22)   caucasian(C,23|T,15)   total(C,39|T,37)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39982):
GGAGGCTGGCTGCGGCGCCACGTGATCCCTGAGACCAACTCAAGATACAGCATCTTTGACGTCCTCCGCGACGAGCTGGAGGTCATCCTCAAAGGTGGCA
R
AGCACGGCCGGGGGTGCAGTGGGGTGACGCCGAACAGGACAGCACCGGGCCAGGAGTTGGTCCTGGCTGTGTCTCGCCCCTGTTTGTGCTTCCTCCTTGG
Celera SNP ID:            hCV25602547
SNP Position Genomic:     29302
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,15)   caucasian(A,1|G,1)   total(A,14|G,16)
SNP Type:                 INTRON


Context             (SEQ ID NO:39983):
ACATGGGCCCTGATTGCCTGGGGGCTCCTCTGTGCCAAGCTCTGTGCCCTCCTCCCAGGCGCTAACACAGCTGTCCTCACCGTGCCCTAGGGTGGTGGCT
Y
CAGCACTACCCTCAGTGTACAGATGGGGAAACTGAGGCCTGGAGGGACGAGGGACTTGCTCAGAGTCATGTAAATGCCCACAGCCAGGGCTGCCCCGTTC
Celera SNP ID:            hCV25602581
SNP Position Genomic:     43824
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,2)   total(C,27|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39984):
CTACCAAATGGCCACCTTCTTGCTGTGTCCTCATGTGGTGGAAAGAGACAGTGAGCTCTGTCATTTCTTCCCCCTCTTATGAGGGCACCAGACTTACCAG
R
TTATGCCCCCCACCAGCCCTGCCCATTGAGCTGATTTTAAACCTCCTCACAGGCCCTATCCCCAAATAGTCACATTAGGGGTTAGGGCTTCAAACCACAA
Celera SNP ID:            hCV9688194
SNP Position Genomic:     18334
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39985):
GGGGACAAGGAACCGCAGGGAGGCCCTAGGGGGATTCTGGCTGTTCTGGGGAGAGTGAGTTGAGTAGGGGGCGGGGTCAGCATGGAGGCCGATGTGGTCA
M
CCAGGTGAGGTGACAGGCTTGGCCATGGTGCTGGCAGACACACAGACGCAGGGGAGGTGTTGACCGCAGCAGCTGAGGGATTGGGTATAGGGGCTAAGGG
Celera SNP ID:            hCV16186305
SNP Position Genomic:     41396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39986):
CTCCCCGTCTGAAAGCCGCAGGGGTGCTAAGAGCAGAGACGCGGTCAGATATGCTGCTCCTGTAGTCACTGTGGCTGCTCCAGGGCTGGGGTGAGGGTGG
R
GACAAGGAACCGCAGGGAGGCCCTAGGGGGATTCTGGCTGTTCTGGGGAGAGTGAGTTGAGTAGGGGGCGGGGTCAGCATGGAGGCCGATGTGGTCAACC
Celera SNP ID:            hCV16186306
SNP Position Genomic:     41298
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39987):
AATGAGCACCGGGGCTAGAGAGAGATGGAGTAGGAAGTAAAGCGGGGGATGCCGTGTCCGACCTCGGGGGCCACTTGAAAGTCTCAGACTCTGCCCGAGA
R
GAGTGGGGGTATGACAGGACGTGACCTGGTTCACAAGTAAGAGTGAGTGAAGGGGACGGGGCAGGTGGCAGAGAAGCCAATCAGAGGCTGCCACGTAGCC
Celera SNP ID:            hCV9688484
SNP Position Genomic:     36315
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39988):
AGGCTGAGGATAGGTGGGTCTGCTCACCCCGTAAGCCCAGGGCCCCACGCCAGGCCTGGGAAGGCTGACGTGGGGGCCCGTGGGATGATCGGGTGGCCCC
V
CCAGGCGCTGTTTGGCACAATGGTGGAGGAGGTGCGCTGGCGTGAATGTGTGGGCTACGTCAACAGCAACATGGAGAACGCCGTGGGCTCCCTCTACGTC
Celera SNP ID:            hCV15976797
SNP Position Genomic:     42262
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,2|G,5)   caucasian(G,2)   total(A,9|C,2|G,7)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:39989):
CTCCTACTCAAAGTGTGGCCCACAGACCAGTGGTGTCAGCCATTGCCTGGGAGCCTGTTAGAAATTCAGAAACTCAAGGTCCAACCAAGGCCGCAGGACC
R
GTGTTGGTATTTCAGCAAGACCCCCAGGTGATTCATCTGCACATTCATGTTAGGGAAGCACTGGTTTAAAACAGTGTTGACCAAATTTGCTTGATAATTG
Celera SNP ID:            hCV441460
SNP Position Genomic:     16646
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39990):
GCATCCGGCCCTTCCAGCCTCGGGCCGGGCTCGGGGAGCTCCACGCCCCTCTCCCCTCTCCCCTGCCCTGGGCCTGCAGGTTCCTCCGCGGTGCTCTCCC
S
TCCAGAGCCCTGCTGATGGGGAAGTCCGAAGGCCCAGTGGGGATGGTGGAGAGCGCCGGCCGTGCAGGGCAGAAGCGCCCGGGGTTCCTGGAGGGGGGGC
Celera SNP ID:            hCV27846354
SNP Position Genomic:     9462
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(C,1|G,29)   total(C,1|G,59)
SNP Type:                 UTR 5


Context             (SEQ ID NO:39991):
GCCTCCCGGTCTGTGGGATCAAGTGTCAGAACCCCTGGCAGCGCCATCCCTGAGCCTGGCACACAGGAGATGTGTCCACTCACAGCTTATTCTTTGTCCC
R
CCCTTGGGGACAGTATTCCCTGCCGGGATCCTCCAGCCCCCCTTCTTCAGCAAGGAGCAGCCACAGGCCTTGAACTTTGGAGGCATTGGGATGGTGATCG
Celera SNP ID:            hCV25602555
SNP Position Genomic:     45009
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,8)   total(A,1|G,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:39992):
TTGTTTTGCCCAGGGGGTCTCGTGGAGCCTCCGCCTGACTGTGGAACTCGCTGGGACCCTGGCTTTAGGGGGCGTCTCCGTGAGACCCCTGCTTGGGTGC
R
CTGGGCTTGTCTCCTCCCCATGGAAACAGAAGGCTGGGCCCCCATTCTGGGCAATACTCCCAGCTGGAGATGACTTCCTGTGTCCTCGCCTTTACTTAAT
Celera SNP ID:            hCV26678900
SNP Position Genomic:     30812
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39993):
TGACTGTGGAACTCGCTGGGACCCTGGCTTTAGGGGGCGTCTCCGTGAGACCCCTGCTTGGGTGCGCTGGGCTTGTCTCCTCCCCATGGAAACAGAAGGC
Y
GGGCCCCCATTCTGGGCAATACTCCCAGCTGGAGATGACTTCCTGTGTCCTCGCCTTTACTTAATTTTTGGCCTGAGAGGCTGAATATACAAACGGCAGG
Celera SNP ID:            hCV26678901
SNP Position Genomic:     30847
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:39994):
GGGATCAGTGGGTGAGACAGACCCCTCAGGGGGAGGTGATTGGTGGGGCCTGGAACAGGCAGCGAGTGGCAGGAATGAGAAAGGGTCCGACTGAGATGGG
M
TTGGAGGCTGAGGACTGGCGCGGGGTGTGGACGCAGGCAAGGGAGGCAGATGGCTCCAAAGTCCAGCTTCAGCCAGTGGCGGGATAGGGGTGTCTAGGGG
Celera SNP ID:            hCV26678902
SNP Position Genomic:     7156
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39995):
TATTCCCTGCCGGGATCCTCCAGCCCCCCTTCTTCAGCAAGGAGCAGCCACAGGCCTTGAACTTTGGAGGCATTGGGATGGTGATCGGGCACGAGATCAC
R
CACGGCTTTGACGACAATGGTGAGCGGCCGCCCCTCCAATCACACACGCCCTCCCCTCTCCGCGGAGAAGCAGCCAGGAAGGGGCCTGGGGGCGCTCCAT
Celera SNP ID:            hCV25602556
SNP Position Genomic:     45123
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,8)   total(A,1|G,37)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:39996):
TCTGGACTCTCTTTTGCCCCACTGGTCTCTTTATCTATCCAAGTGATAACCCCTACCACCATCACTCCTTCAGCTTTATAATGTCTTGATAGTCAATAGA
R
TATATATTTCAACTTTGTTCTTCAAGAGTGTCTTGATAATTCTCAGTCCTTTGCATTTTCACATAAAACTTAAAATCTGCCTTCCATTTGCATACACGCA
Celera SNP ID:            hCV26678903
SNP Position Genomic:     37778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:39997):
TTGACGACAATGGTGAGCGGCCGCCCCTCCAATCACACACGCCCTCCCCTCTCCGCGGAGAAGCAGCCAGGAAGGGGCCTGGGGGCGCTCCATTCAACCC
Y
TTCACGGTTTCAGTGGGGACACCGAGGCCAGGTCCTCAGGGAGCTGTGGGGGCAGAGCAGGCTTTGAATGCCAGGCTGGGGCCCTGTCTGGGGGCACTGA
Celera SNP ID:            hCV25602557
SNP Position Genomic:     45231
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,4)   caucasian(C,8)   total(C,32|T,4)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:39998):
AAATATGCAGTCTTACTCAATGCACTTATTAGTTCTGGTTATTTATTTGTAGAATAAACAAAATCATATCATTTGTAAAAAAACAACAGGGGGGTTGGGT
K
TTGTTTGTTTGAGACAGGGTCTCACTCTGTCATGCAGACTGGAGTGGAGTGGCACAGTCATGGCTCACTGCAGCCTTGACCTCTTGGGCTCAAGCCTCCT
Celera SNP ID:            hCV26678904
SNP Position Genomic:     38259
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,6)   total(G,2|-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:39999):
GAGTGGCACAGTCATGGCTCACTGCAGCCTTGACCTCTTGGGCTCAAGCCTCCTGAGTAGCTGCGACCACAGGAATACACCATGACCAAGCCTTGCCTGA
T
TTTTTTTTCCCCAGAAACAGGGTTTCTCTATGTTGGCCAGGCTGGTCTTGAACTCCTGTGCTCAAGCAGTCCTCCCGCCCTGGCCTCCCAAAGTGCTGGG
Celera SNP ID:            hCV26678905
SNP Position Genomic:     38406
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40000):
AGTCATGGCTCACTGCAGCCTTGACCTCTTGGGCTCAAGCCTCCTGAGTAGCTGCGACCACAGGAATACACCATGACCAAGCCTTGCCTGATTTTTTTTT
Y
CCCAGAAACAGGGTTTCTCTATGTTGGCCAGGCTGGTCTTGAACTCCTGTGCTCAAGCAGTCCTCCCGCCCTGGCCTCCCAAAGTGCTGGGATTACAGGC
Celera SNP ID:            hCV26678906
SNP Position Genomic:     38415
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40001):
ATTGCGCTGCTGCACTTGAACCTGGGCAACAAAGCGAGACTCTGTCTCAAAAATAAATTTAAAAAAAAGTTATGTTTGCTATGGAGTTGTTTTTGTTGCT
K
CTGCTGCTTCATACATTTCCTTTATCAGGTTATAGAATTTTCCTTCTATTTTTCTTTTTATCTTTTTTTTTTTTTTTTTGAGACAAAGTCTTGCTCTGTT
Celera SNP ID:            hCV26678907
SNP Position Genomic:     39019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40002):
TACTTAGGCTTTCGCATATATCTGCATGATCGCTTGGGTTTTTACAGCTGTAGGCTCTGTAATAATGTCACCCACCCTTTCCTGATTCTGATTACCTGCA
C
CTTCTCTCTTATTCCTTGAACATTCTTCAACAGGGGCTGGGTTTCTTAGATTCCCAGGAACTGTTTCTCCCTCTCTCTCTCTCCCTCTTTCTCCCCACTT
Celera SNP ID:            hCV26678908
SNP Position Genomic:     40052
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,7)   total(C,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40003):
GGCCTGGGTGTCCCGCCTGGAGGGGCATGTCCACAGCTGCTCTGGGTCCTGACGCTCCAGGAGCTCACGCTGTCTGCAGATCCACCACTTCCCTGGGCAG
Y
CCCCGGCCTGCGTCTTCCTCAGTGCTCAGCTGGAGGTGGAGAGAAATCAGGCTGGGACGGAGGGTGGCCCTTGCTTTGCACGATTCCTGCCTCGACGTTA
Celera SNP ID:            hCV27964549
SNP Position Genomic:     343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40004):
CTTAAAATACAAAATTAGCCAGGCGTGATGGCGGATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGAGAGGCGGAGG
Y
TGCAGTGAGCCGAGATCGTGCCATTGCATGATGATGGATGAAACTGCATCTCCAAAACAAAAAAAAAAAAATGTGCATTGGTTCAGTCCAGAAAGGTGGG
Celera SNP ID:            hCV11612946
SNP Position Genomic:     17321
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40005):
GGGGCCGGACCCGTGGTCAGCAGCGGACAGGAAGGAGAAGATGGCAGGGAGGGAGGCGAGGTGACCACGGGCCACAGCAGCCGGTTTGGATTGTACTCCC
Y
GTCTGAAAGCCGCAGGGGTGCTAAGAGCAGAGACGCGGTCAGATATGCTGCTCCTGTAGTCACTGTGGCTGCTCCAGGGCTGGGGTGAGGGTGGGGACAA
Celera SNP ID:            hCV16186316
SNP Position Genomic:     41203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40006):
AAAACCGCAGAGTATGATGTGGCAGGGAGGCAGGGAGGGACGAGGACAGGGAGCACTGCTCCGGGGAGGCGACATTTGAGACCTTAAAGGCCTGAAGAGG
Y
GGCGGGGTGATTTCCCGGGAGCAGAAACAGCCAGTGCCAGTGCAGAGGCCAGAGGCAGGAGCAGGCAGGGGCCGGACCCGTGGTCAGCAGCGGACAGGAA
Celera SNP ID:            hCV16186317
SNP Position Genomic:     41035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40007):
GAGAAGTCAGCCCGGGGACCAGACGGTTCTCTCCTCTTGCCTGCTCCAGCCTTGGCCTTCAGCAGTCTGGATGCCTATGACACAGAGGGCATCCTCCCCA
W
GCCCTGGTCCTTCTGTGAGTGGTGAGTTGCTGTTGCTGGTCAGTACTAGGCTCGGGCTGGAGGTGGGGGCTCTCTGGTGTCGTGGCCCAGTCTCAGGCTT
Celera SNP ID:            hCV9690199
SNP Position Genomic:     14764
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40008):
AAAAGAAAATTCTGCTAGAAATTTGATAGGGATCACTTTGAATCTCTCTATCAATTTGGGGAAGACTTTGCAATGCTGAGTCTTCCAATCCATGAACATG
R
TATATGCTTCCATTTATGCTTCAATTTTTCTTAATAACTTTTAAAGCTTTCAGTGTCAAGTTCTTATACATATTTTATTAGATAAATTACAGGTGTTTGG
Celera SNP ID:            hCV16186318
SNP Position Genomic:     37987
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40009):
AGCTCCACGCCCCTCTCCCCTCTCCCCTGCCCTGGGCCTGCAGGTTCCTCCGCGGTGCTCTCCCGTCCAGAGCCCTGCTGATGGGGAAGTCCGAAGGCCC
M
GTGGGGATGGTGGAGAGCGCCGGCCGTGCAGGGCAGAAGCGCCCGGGGTTCCTGGAGGGGGGGCTGCTGCTGCTGCTGCTGCTGGTGACCGCTGCCCTGG
Celera SNP ID:            hCV11612949
SNP Position Genomic:     9498
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40010):
GGATCTTGGAGGTGGTTGTCCTGGAGGTTTTCTCCAGCACCCATAACTCTCTGGGGTGGAACGTGCTGGCCAAGGGCCCTAAGCCATATCTCCTCCCTTG
S
AAAGACCTCTCACCTGTTCTCCCCTCACCCTCTACCTTCTGCCCCCAGGACCATACAGAACTACCTGGTCTGGCGCCTGGTGCTGGACCGCATTGGTAGC
Celera SNP ID:            hCV25750256
SNP Position Genomic:     40607
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,7|G,1)   total(C,35|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:40011):
AAGCCTACCTGCAGTTCATGGTGTCAGTGGCCACGTTGCTGCGGGAGGATGCAAACCTGCCCAGGGACAGCTGCCTGGTGCAGGAGGACATGGTGCAGGT
K
CTGGAGCTGGAGACACAGCTGGCCAAGGTAAGGGGGCCGGGGCGGGTGGGGAGCGGGCAGCGAGTGGGCTGGGAGCCCCAGGCGGTGTGGCTGGCCAAGG
Celera SNP ID:            hCV9688496
SNP Position Genomic:     34789
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40012):
CACATTAGGGGTTAGGGCTTCAAACCACAAAGTCAGTCCATAACAAGCCCCAAACAGTGAAACCCGGGAATCTTGTAGGGTAAGACCTCTGAATCCCACA
Y
GCATTTGAGACCTTGCTTGTGATCAGACAAGTTTGGGGAGCCCTGCTTGAAAATAATCTATCAGCATTAAACTCTTATCTCTTGTCTATGTGAAAATTAC
Celera SNP ID:            hCV9688201
SNP Position Genomic:     18505
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40013):
CTCCCCTGCCCTGGGCCTGCAGGTTCCTCCGCGGTGCTCTCCCGTCCAGAGCCCTGCTGATGGGGAAGTCCGAAGGCCCAGTGGGGATGGTGGAGAGCGC
Y
GGCCGTGCAGGGCAGAAGCGCCCGGGGTTCCTGGAGGGGGGGCTGCTGCTGCTGCTGCTGCTGGTGACCGCTGCCCTGGTGGCCTTGGGTGTCCTCTACG
Celera SNP ID:            hCV403761
SNP Position Genomic:     9519
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40014):
CCAGACCGCAGCCCCTGGCCCTCTAGGGTCTCCCCTGGGACAGAGGGGTCCTGCGACCTCCATGGGCGGTGGGCAGTGGGGGAGGGAAAGGCTCACTCAC
M
CTGAGGAACCCAGAGCCCAAGGGAAGCTCTGTTCAGAGCCTGCTGGGCTCAAAACACCTGCTTTCCAGGCTTTCATAAAACAAGGCTGACCCCACACACA
Celera SNP ID:            hCV403762
SNP Position Genomic:     10812
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40015):
GATCTCAAAAGAATGAAAGATTTGGAAAGATCAAGAAAATGATTTCTTAAAATCATGTACTGAAGTGTGTATGCTAAAATCTTGCACTAAAGAATCACCC
R
TTCTTGTAGTTACATCAAATCTTACCTAATTTACCTATTTAAGGCGATATTACTATGTGAACGCAAATTTAGGTATGAATTATAAAATTAGTTTCATAAA
Celera SNP ID:            hCV403763
SNP Position Genomic:     11661
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40016):
GCATTTTCTCATCTCTGGAAAGTTTTAATAAGATTGGCAGTTTTCCTTAAATGTCAGATAGAATCCACTGGTGAAGCCAAATGGGTCTGGAAATTTCTTT
R
TTGGAAAGTTTCAAATTAAATATTCCATTTATTTAACCTAGAAGACTATTCATATTTTCTATTTCTTTTTTTGTCATTTTTGCTAAGTTGTGTTTTTCTA
Celera SNP ID:            hCV11612156
SNP Position Genomic:     39836
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40017):
GGGGTTTGTCTATCTTTTAATTGGAGGATTTTGTTGGTTTATAATTACCAGGACAACTAAAATGTATGTGTTTCCTATTGTGTTGTTTTGTGTGTCTCAT
K
CGTTTTTTTCTCTTTTCTTGCCTTGTTTTGGATCAACCTATCATTATTTCCTCTATTTTCCCTCAACTAACTTGGAAGTTTTGTATTTCTATCTTTTCGA
Celera SNP ID:            hCV403764
SNP Position Genomic:     12093
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40018):
ACCATCCAGCCAAACCATTGGCTACAGCCCATGAATCGGTACATAATCGCATCGCACATCTGGCCTCTTCTCCTTCCAAGCAAAGTGCACAACAAGGTAC
R
CTGCTTGAAGTTCTGCCCACTGGGAAGATTTCCCTTCACCGCTGTCCTTCATGGATGTCCTGGAAAGGGGCTATAGTGCTGCAGCTGTCCACTTGTGGGT
Celera SNP ID:            hCV403765
SNP Position Genomic:     12870
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40019):
AGTTTCAGGTAGTTCTTTCTAGCAGTGTGATAATGGACGATACAAGTAGAGACTGAGATCAATAGCATTTGCACTGGGCCTGGAACACACTGTTAAGAAC
R
TAAGAGCTATTGCTGTCATTAGTAATATTCTGTATTATTGGCAACATCATCACAATACACTGCTGTGGGAGGGTCTGAGATACTTCTTTGCAGACTCCAA
Celera SNP ID:            hCV403766
SNP Position Genomic:     14279
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40020):
GGAAATGAGTCTCGGAGGGTTTGGGGTTCAAGATCAAGTGGTTAATAAGTGAAAACCCAGCCGACTCATGCCTGAATTCCCAGCAACTCTGGAGGCCGAG
R
TGGACCACTTGAGCCCAGGAGTTCCAGACCAGCCTGGGCAACACAGCGAGACCCTGTTCTAAAATAAATTTTTTAAAAAGGCATTCGGGAGAGGAGACAC
Celera SNP ID:            hCV403767
SNP Position Genomic:     28677
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40021):
AGGGACCAGGCTGTGTCTTGGACCGGGAGACAGGCTTCTGGGCTGTCCACAACTCTCTCTGTCTCCCCTCTCCCTGCTCCACGCCATGGGGACGAGCAGC
Y
GCCAGGATCCTCCAGAACATGGACCCGACCACGGAACCGTGTGACGACTTCTACCAGTTTGCATGCGGAGGCTGGCTGCGGCGCCACGTGATCCCTGAGA
Celera SNP ID:            hCV403768
SNP Position Genomic:     29135
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,8)   caucasian(T,6)   total(C,20|T,14)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40022):
GCCATGGGGGGGTAGGTCAGAGACATCTGTGAGTCAAGCGTCAGGGGGGCACTGAGTCTAGGAGCTTTGGGGAGGAAGAAAGGGCTGCCTCCCTTTCCTA
R
AGGGCAGGAAGTCCTGCAGCCCAGAAGGTGTGGCAGGACGCTGGGCAGAGTGCTCCCTGGGCTTTGCCTGAGTCTGGGGCCCAGAGTCTCGTGCTCCTGT
Celera SNP ID:            hCV15976807
SNP Position Genomic:     41713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40023):
TTCTTCAAGAGTGTCTTGATAATTCTCAGTCCTTTGCATTTTCACATAAAACTTAAAATCTGCCTTCCATTTGCATACACGCACACACACAAAAAGAAAA
Y
TCTGCTAGAAATTTGATAGGGATCACTTTGAATCTCTCTATCAATTTGGGGAAGACTTTGCAATGCTGAGTCTTCCAATCCATGAACATGGTATATGCTT
Celera SNP ID:            hCV15976808
SNP Position Genomic:     37896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40024):
ACATCCCAAGCACCCGGGGCAGATGGGCTGGATCTTGGAGGTGGTTGTCCTGGAGGTTTTCTCCAGCACCCATAACTCTCTGGGGTGGAACGTGCTGGCC
R
AGGGCCCTAAGCCATATCTCCTCCCTTGCAAAGACCTCTCACCTGTTCTCCCCTCACCCTCTACCTTCTGCCCCCAGGACCATACAGAACTACCTGGTCT
Celera SNP ID:            hCV25602564
SNP Position Genomic:     40578
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,8)   total(A,35|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:40025):
CCGATTCCCAGGTCAGAGAACTCATTGACAAGGTGCGGACAGTGTTTGTGGAGACGCTGGACGAGCTGGGCTGGATGGACGAGGAGTCCAAGAAGAAGGC
R
CAGGAGAAGGTATGTGGCTCGCAGAGGTCAGGGCAGCCCCGACTGGATCTGGGCACGGGCAGCACCGCCCCGACAAAGCCTCCTGACGGTCCCCACGGGG
Celera SNP ID:            hCV26678910
SNP Position Genomic:     42938
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40026):
TAATCATGCACACGCACACACGAGAGGACACACGTGCACACTCAGGCACACACGTGCATATCCACATAATGCACATGCACACATGAGAGCACACGCACAC
R
TGCACAATCACACAGTCACACACGTGCACACACGAGTGTACACGCACACACGTGCATATCCGCACACATAATCATGCACACGCACACACGCGAGCACAGG
Celera SNP ID:            hCV26678911
SNP Position Genomic:     8237
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40027):
TCCGGGAGCAGTCAGAGTGCATGATCTACCAGTACGGCAACTACTCCTGGGACCTGGCAGACGAACAGAACGTGAGCGCTGCCACCAGCACCCAGGCTGC
R
GGGGTACCGGAGCCCCAGCCCTGGCCCTGAGGGAGAGGGAAGTCAGGGCCGGGGCTGCCCCAATCCTGTCTCCTGTGCGCAGGTGAACGGATTCAACACC
Celera SNP ID:            hCV25602565
SNP Position Genomic:     46153
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,13)   caucasian(G,8)   total(A,5|G,21)
SNP Type:                 INTRON


Context             (SEQ ID NO:40028):
ATCAGCGCTGCAGGGGAGGGGGGCACCAGTGCCTCAGGGGAGGGGGCGTCAGGGGCTCATTCGGGACAGGTGGTGTGCAGTGGGCTGTCTGGCCAGGGAT
C
CCCCCCCGAGGGCCCAGCTCAGGGGTCCCTGAGTGACTGAGGTGGTGAGCGCTCATCCGTGGGGTGTGTGAAGGGCCCTTGCAGCAGCAGGACCCCCACA
Celera SNP ID:            hCV26678912
SNP Position Genomic:     46727
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,2)   total(C,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40029):
GCTTGCAGCCCCCTGCCCATCCCTTCCTCCTGGGGGCACCCCAGCCTGTTCTTGGAACATTCTCCTATGTCACCCCTTGCTGCCCCCGTGGGGAACACTC
R
CTCCCGTGCCCATGAGCGGCTTCGGGAGGGACTTGGCAGGCGGCCCAGAGCCTTTCCTGCAGGCAGAACAGGATGGTGGGAGGAGGCCGGACTGAGGTCC
Celera SNP ID:            hCV25602566
SNP Position Genomic:     44730
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,22)   caucasian(A,20|G,20)   total(A,26|G,42)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40030):
GTGTACACGCACACACGTGCATATCCGCACACATAATCATGCACACGCACACACGCGAGCACAGGCACACACGTGCAGTCACACACATGCACACACGAGG
M
CACACGTGCACACTCACTCACAGTCACACACATGCACACATGAGCGTAGACAGTGCATATCCACGCAATCATGCACACGCACACACGAGAGCACACGCAC
Celera SNP ID:            hCV26678913
SNP Position Genomic:     8373
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|-,8)   total(A,2|C,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40031):
AGGTGGGCTGGGAGCCCAGAAGCCCAAGTGGCCTCCCCGACAGCGTCCCTGACCTAGCGCTCAGGCCCACAGCTCCAAGACACCCAGCATGAGCAGCCCA
G
GGGGGCTCCACTACAGGAGTCCCTTGACAGCACAGGAGCTGAGCCTCCTGGGTCCAGCTTGCGACCCCAAGCTGGGAGCATCCCAGTCCTAGAACCTCCA
Celera SNP ID:            hCV26678914
SNP Position Genomic:     9136
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|-,8)   total(G,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40032):
GGACCCAGTCACCCAGGGTTGTGAGCTTGGAGAGGGAGACGGGAAGAGTGTTCCAAAGGCACCCAGCGCCCGCTCCCAGCCAGCATCCGGCCCTTCCAGC
C
TCGGGCCGGGCTCGGGGAGCTCCACGCCCCTCTCCCCTCTCCCCTGCCCTGGGCCTGCAGGTTCCTCCGCGGTGCTCTCCCGTCCAGAGCCCTGCTGATG
Celera SNP ID:            hCV11612950
SNP Position Genomic:     9380
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40033):
TCTGGGCTTCAACAGGAAAGGTGGGCTGGGAGCCCAGAAGCCCAAGTGGCCTCCCCGACAGCGTCCCTGACCTAGCGCTCAGGCCCACAGCTCCAAGACA
M
CCAGCATGAGCAGCCCAGGGGGGCTCCACTACAGGAGTCCCTTGACAGCACAGGAGCTGAGCCTCCTGGGTCCAGCTTGCGACCCCAAGCTGGGAGCATC
Celera SNP ID:            hCV11612953
SNP Position Genomic:     9118
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,8)   total(A,4|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40034):
CAATCAATACATGTAAGATATGGCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTCGGGAGGCCAAGGTAGGTGGATCACCTGAAGTCGGGAGCT
S
GAGATCAGCCTGACCAATGTGAGAAACCCCATCTCTACTTAAAATACAAAATTAGCCAGGCGTGATGGCGGATGCCTGTAATCCCAGCTACTCGGGAGGC
Celera SNP ID:            hCV27923293
SNP Position Genomic:     17183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40035):
AGGTTCTATTTGCTAATATTTTGCTTAGAACTTTTGTATCTATGACATAAACGAGACTGGCTTATTATTTACTCTGCTTATAATATCCTTATTTTGGTAT
Y
AAGGTTATTCTTGGCCTCATAAATCAAGTTGAAAAGCATTTTCTCATCTCTGGAAAGTTTTAATAAGATTGGCAGTTTTCCTTAAATGTCAGATAGAATC
Celera SNP ID:            hCV11612160
SNP Position Genomic:     39700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40036):
GGGCGTCCTGTGTGCAGTCTCGCCTGTGCCAGGGCAGGCAGCCCCCTCTGGCATACGGTTTATCTTACCCAAAGGACCCGCTGTCCCCCATCTGTAGTAA
S
CTGGAGAGGCCACGAGTGTCCCCAGGGAGCCGCAGTGCCTTCGCCTCAGCAGACACTCCACACCTGCCCCGGGTACTTGGCTCAATTTGAAGGTGTTTAT
Celera SNP ID:            hCV28014430
SNP Position Genomic:     6324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40037):
GGTACCTACTGTTCTGGTGTCGCCCATCACTGGCTTCTGGGCTTCAACAGGAAAGGTGGGCTGGGAGCCCAGAAGCCCAAGTGGCCTCCCCGACAGCGTC
Y
CTGACCTAGCGCTCAGGCCCACAGCTCCAAGACACCCAGCATGAGCAGCCCAGGGGGGCTCCACTACAGGAGTCCCTTGACAGCACAGGAGCTGAGCCTC
Celera SNP ID:            hCV27844373
SNP Position Genomic:     9083
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,1)   caucasian(C,26)   total(C,37|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40038):
TGGACGAGGCAGGGCGAGGCGCCCACCCCAGTGGGGAGTGGACCATGACAGTCAACAAGGCAGAACGTAGCTCTGCCAAAACCGCAGAGTATGATGTGGC
R
GGGAGGCAGGGAGGGACGAGGACAGGGAGCACTGCTCCGGGGAGGCGACATTTGAGACCTTAAAGGCCTGAAGAGGTGGCGGGGTGATTTCCCGGGAGCA
Celera SNP ID:            hCV1974925
SNP Position Genomic:     40958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40039):
CTTTACTTAATTTTTGGCCTGAGAGGCTGAATATACAAACGGCAGGGGCCAGACCATGTGGAAAACTGGAACGCAACTCAGGACCGGCAGCCCAGCCGGG
R
ACCCAGCCCTTTATCCCCAGTGGGCAGCCCAGGAGGTCAGACGGCACTCCCCACGGCATCCGGCCCCTAACAGCCGGGGCCTGCCTCATCACAGGCAGCC
Celera SNP ID:            hCV403770
SNP Position Genomic:     31002
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40040):
GAGACCTTAAAGGCCTGAAGAGGTGGCGGGGTGATTTCCCGGGAGCAGAAACAGCCAGTGCCAGTGCAGAGGCCAGAGGCAGGAGCAGGCAGGGGCCGGA
Y
CCGTGGTCAGCAGCGGACAGGAAGGAGAAGATGGCAGGGAGGGAGGCGAGGTGACCACGGGCCACAGCAGCCGGTTTGGATTGTACTCCCCGTCTGAAAG
Celera SNP ID:            hCV1974926
SNP Position Genomic:     41112
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40041):
CCTTCCTCCAGCATAGGACCCTAGCCAAGCCCAGAGGAGGCCGGCCTCTAGTGAGCCCGCCACAGCCTCCCCAGGCCAGCAGCCCCCACTCAGCCCACTC
R
GGCCTCCCCTCTTCCACTAGGAAGCCCTGCTGCTCCCTGCAGGCCTTTGACCTGACGGGGCACCTGCCATGCTGTGCCAGCACTGAAGCCTTCACTTTGC
Celera SNP ID:            hCV403771
SNP Position Genomic:     31221
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40042):
CATCTGCACATTCATGTTAGGGAAGCACTGGTTTAAAACAGTGTTGACCAAATTTGCTTGATAATTGGAATCACCTGGGGAAATTGTTACAAATCCAGAC
R
TTGGGCCCTCCCTCAGTTTGCCTGGGCTACAGTCACAAAATGCTCAGGTGGCTTAAAAACAGAAACATATTTTCTCCTCCTAGTTCTGGAGGCTGTGAAG
Celera SNP ID:            hCV26678889
SNP Position Genomic:     16780
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40043):
TGCCAGCACTGAAGCCTTCACTTTGCCCTGTGGGTGGTCTTCACTTATTCCCACAGTGACTATCTCCGCGTCCCCACCTTTACCTAATCTTCGACTGCAA
R
AGCCCTGCTTGTCGGGGCCCCACCGTGCTGAGCCGAGACACAGGACACACACAGGCCCCAGGGCTCCCCTGCCTACCCCGCGCCCCCTCCCAGCCCACCC
Celera SNP ID:            hCV403772
SNP Position Genomic:     31396
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40044):
TCCATCCGCAGTGGGGCACCCACTGACCAGTCCCTCCTCCCCACTCAGGCCATGAGCATCCGGGAGCAGATCGGGCACCCTGACTACATCCTGGAGGAGA
Y
GAACAGGCGCCTGGACGAGGAGTACTCCAATGTGCGCCCCCAACCCCAGCCCTAAACTGCCCCCCACACCGTGGACATGGGCCCTGATTGCCTGGGGGCT
Celera SNP ID:            hCV1974927
SNP Position Genomic:     43649
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,6)   caucasian(T,2)   total(C,20|T,8)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40045):
TGTAAATATGCAGTCTTACTCAATGCACTTATTAGTTCTGGTTATTTATTTGTAGAATAAACAAAATCATATCATTTGTAAAAAAACAACAGGGGGGTTG
K
GTTTTGTTTGTTTGAGACAGGGTCTCACTCTGTCATGCAGACTGGAGTGGAGTGGCACAGTCATGGCTCACTGCAGCCTTGACCTCTTGGGCTCAAGCCT
Celera SNP ID:            hCV11612166
SNP Position Genomic:     38256
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40046):
AGCTGGCCAAGGTAAGGGGGCCGGGGCGGGTGGGGAGCGGGCAGCGAGTGGGCTGGGAGCCCCAGGCGGTGTGGCTGGCCAAGGTGAGGGGGTGCTGGGT
K
GGCCGGTAGCAGGCAGGGACTGGGCCAGGAGCCCCAGGGGGCATCCTGGCCACCCGCCCGTGTGACTGCTATCCCCGGCACAGGCCACGGTACCCCAGGA
Celera SNP ID:            hCV403773
SNP Position Genomic:     34906
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40047):
TGACTCCCAGCATGGAGGAGGGGACCCAGGGACTCCAGCCCATGACCCTGACTCCACCTGGCACTGGGCACTTCCCTCCCACGGCCTGTGACATGGGGAC
R
ACAACACTGCCCAATACAGCAGCGAAGCCCAGATCCCAGCCTGGGAGACTCTCCAGACGGCCAGCATCCTCCACCGGGGGGTGTGCTACCCCCGCCATGG
Celera SNP ID:            hCV1974928
SNP Position Genomic:     45429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,14)      total(G,14|A,1) ;JBIC-allele(G,741|A,748)   total(G,741|A,748)
SNP Type:                 INTRON


Context             (SEQ ID NO:40048):
AGGGGGCTGCTGATGTGTGGGGGTGTACAGGGTCCCACCCAGGGCTCTCAGACCCCAAGTCCCGCTCAGAACCTTAGCAGGGTGCTTCCTCCCAGTCCTG
Y
CTGCCCTGAGGGTAGCAGTTCCCCCTGGCCACACCCTCAGGCGCTCCCCTGCCCAGTGCCCAGGCCAGGCACCGCCCTGTGCTTTGAGGTGGGGGCTGGA
Celera SNP ID:            hCV403774
SNP Position Genomic:     35469
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40049):
ACCCAGGGACTCCAGCCCATGACCCTGACTCCACCTGGCACTGGGCACTTCCCTCCCACGGCCTGTGACATGGGGACGACAACACTGCCCAATACAGCAG
Y
GAAGCCCAGATCCCAGCCTGGGAGACTCTCCAGACGGCCAGCATCCTCCACCGGGGGGTGTGCTACCCCCGCCATGGCCATGCTGACCTCCGCCCCTCGG
Celera SNP ID:            hCV1974929
SNP Position Genomic:     45452
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,14)      total(C,14|T,1) ;JBIC-allele(C,725|T,742)   total(C,725|T,742)
SNP Type:                 INTRON


Context             (SEQ ID NO:40050):
ACACGAGGGCCATGCCCGATTCCCAGGTCAGAGAACTCATTGACAAGGTGCGGACAGTGTTTGTGGAGACGCTGGACGAGCTGGGCTGGATGGACGAGGA
R
TCCAAGAAGAAGGCGCAGGAGAAGGTATGTGGCTCGCAGAGGTCAGGGCAGCCCCGACTGGATCTGGGCACGGGCAGCACCGCCCCGACAAAGCCTCCTG
Celera SNP ID:            hCV25602535
SNP Position Genomic:     42923
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,40)   total(A,1|G,71)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40051):
TCCTGGCTCCTGTCCACGTCCGTGGGCCCGGGAACGAGCTGCTGCTGCTGGAGTTTCTGTTGGGCCTCCTGGCCAAGCTGGGGGCCACAGTAGAACCCGG
Y
TCTGGTCAGAGGGGCGGGGGCTCCTGAACAGCGGGGCTGGAACCGGGGCAGGAGGCCTGACCTCAGGGATCCACTGCTGGCCACGGGCTGGAGGCCAAAG
Celera SNP ID:            hCV27532737
SNP Position Genomic:     32938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40052):
TGGTACAAGTTGCCCCTGGCCCACGAGGACCCACAGCCCAGCAGGGAGGACCCTGAAGTTGGGTTGTCATCTCATCCCCCCACCGGCCCCACACCTCACC
Y
GAGAGGCCCACAGCTGGGCAGCCCTGGGCCTTGCCCCGGCGGGGCTCAGACCAGACCTCCCCAAAGCCCTTGAGGCTGGTCATTCGCCCTCCAGATGAGT
Celera SNP ID:            hCV25602536
SNP Position Genomic:     42717
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,14)   caucasian(C,20|T,14)   total(C,30|T,28)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40053):
CTGGGAAAGGCACAGGTGGTACAAGTTGCCCCTGGCCCACGAGGACCCACAGCCCAGCAGGGAGGACCCTGAAGTTGGGTTGTCATCTCATCCCCCCACC
R
GCCCCACACCTCACCCGAGAGGCCCACAGCTGGGCAGCCCTGGGCCTTGCCCCGGCGGGGCTCAGACCAGACCTCCCCAAAGCCCTTGAGGCTGGTCATT
Celera SNP ID:            hCV25602537
SNP Position Genomic:     42701
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,4|G,36)   total(A,4|G,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:40054):
CCAAGCCTGGCTGGGGGCTCTTGCAGCACAGCAGAAGGATGGGCCAGGCCGACAGGGAGCTCCGGGGTCTCCTGGGACCTGGGCTCCTGGCTCCTGTCCA
Y
GTCCGTGGGCCCGGGAACGAGCTGCTGCTGCTGGAGTTTCTGTTGGGCCTCCTGGCCAAGCTGGGGGCCACAGTAGAACCCGGTTCTGGTCAGAGGGGCG
Celera SNP ID:            hCV25602538
SNP Position Genomic:     32854
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,32)   total(C,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:40055):
GAGAGAAACCACCTGACTTCAGGTCGGGAACCACCCGTGCATCCCCTCTCTGCTGAGAGCTGTTCCGTCTCTCAATAAAATTCTTCTCTGCCCTTCTCAC
R
CTTCGATTGGCAGCATCTCCTCATTCTTCTTGGACACGGGACAAGAACTTGGGAACTGCCATACATGGGTACAAGCTATAACACAAGCAGGCTGGAACAT
Celera SNP ID:            hCV209753
SNP Position Genomic:     1941
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:40056):
GAGAGCCTGCTGGTCAAGGTGGGTGGACACGCATTAGGGGCTTCCCCATGTCCTACGCCCACCCCACCCCCACAGAAAACTCCCTGGGGGCCATGGTGGC
Y
GAGGCCACCCAGCTCTGCCCGGCGTCCTTTGGCCCAGGTGCGGGAAGCCTACCTGCAGTTCATGGTGTCAGTGGCCACGTTGCTGCGGGAGGATGCAAAC
Celera SNP ID:            hCV9688506
SNP Position Genomic:     34644
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40057):
AGCACCCACCTGTGCAAACCCTTATAGGCAGCCACACAGTTTAAGCCCTGAGCAGCCCTGCAGACTAGGTACCCCGTCCAGTGGCTCGGGCACAGGTCAC
R
CGTCTGAGACGCTCCCACTCGGCACTCTGTGTGCCCGAGAGCCTGCTGGTCAAGGTGGGTGGACACGCATTAGGGGCTTCCCCATGTCCTACGCCCACCC
Celera SNP ID:            hCV9688507
SNP Position Genomic:     34507
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40058):
AGGCTGAGGCAGGAGAATCACTTGAACCTGAGAGGCGGAGGCTGCAGTGAGCCGAGATCGTGCCATTGCATGATGATGGATGAAACTGCATCTCCAAAAC
A
AAAAAAAAAAAATGTGCATTGGTTCAGTCCAGAAAGGTGGGACAACTCCAAGTAGGGGCTTCCACATCACAGGTAGATTCAAAGGTTTTCTGATAGCAGT
Celera SNP ID:            hCV26678890
SNP Position Genomic:     17380
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40059):
CTTTCTCAGGCTCATCATTCCTGCCCACCAATCTGGTCTTCCCACTGGTTTCGTGTCCCTTCTGAGTGAAGACCTTTTAGCATTTGTTGTGGGGCACATC
Y
GGTAGAGACACATGTTCTCAGCTTTGGTCTAAAATGTCTTTATTTCACTTTCACTTTTGAAATATGTTTTTGCTGGGTATAGAATTATAAGCTGATAATG
Celera SNP ID:            hCV29197118
SNP Position Genomic:     22376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40060):
TTCAAATTGATTTTTTATTGTTCCTTGTTCTTGCTTTTGATTTTTTTTTTTTTTTTTTTGATAGAGTCTCACTCTGTCGCCCAGGCTGGAATGCAGTGGC
R
CGATCTTGGATCCATGCAACCTCTGCCTCCTGGATTCAAGTGATTCTCATGCCTCAGCCTCCTGAGAAGCTGGGATTACAGGTGTCCGCCACCATGCCTG
Celera SNP ID:            hCV26678891
SNP Position Genomic:     19351
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40061):
GGTGCTGTGATGGCCCCGGTCTTCTGAGCAGGAAACGGAGGCCTCAGGGGGCTGCTGATGTGTGGGGGTGTACAGGGTCCCACCCAGGGCTCTCAGACCC
Y
AAGTCCCGCTCAGAACCTTAGCAGGGTGCTTCCTCCCAGTCCTGCCTGCCCTGAGGGTAGCAGTTCCCCCTGGCCACACCCTCAGGCGCTCCCCTGCCCA
Celera SNP ID:            hCV29197119
SNP Position Genomic:     35424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40062):
TCAGCTCACTGCAACCTCCACCCACGGTGTTCAAGTAATTCTCCCACCTCAGCCTCTTGAGTAGATGGGATTACAGGCATGCACCACCACGCCTGACTAA
T
TTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCTGCCTCCCGG
Celera SNP ID:            hCV26678893
SNP Position Genomic:     21515
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40063):
CTCCACCTGGCACTGGGCACTTCCCTCCCACGGCCTGTGACATGGGGACGACAACACTGCCCAATACAGCAGCGAAGCCCAGATCCCAGCCTGGGAGACT
M
TCCAGACGGCCAGCATCCTCCACCGGGGGGTGTGCTACCCCCGCCATGGCCATGCTGACCTCCGCCCCTCGGTGGGGACTGCCCTGCCTGGGACAGGGGC
Celera SNP ID:            hCV1974930
SNP Position Genomic:     45480
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,14)   total(A,1|C,14) 
SNP Type:                 INTRON


Gene Number:                 182
Celera Gene:                 hCG24605 - 206000046222808
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VTH2(57094..74077)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12342):
ATTGCACCACTGCTCTTCAGCCCGGGTGACAGAGCCAGATCCTGCCTCAAAAATAATAATAATAATAATAATAAAAGAAAGAAAGTTGATCAAATCCCAT
CTTTGGTGTATATAGGGTGGGACTTGGGGAAACACAGCTGCTCTTTCCCAGGGGTCCTCTGCAGCCTGCCCACCTGGTTGAGTCTGTGAGGCTTCTCATA
GGGACATCCTGGGCTTTGCTGGAGGGGGATGGGCAGGATGGCAGGGGCCAGGGGCCATTTGGGATGGAGCTGGAGCGCTCCAGCATCCTCTCAGCCACAG
TGGGGCTGCGATTCCTGCTGCTCAGAAGCAAGGCGAGCCGGCCAGAGTGGCTGATAACTGAGCGTGCGGTTGGCAAAGGTGGTTACCAGGGTTTGTTTTA
CAGATGAAGAAACTGAGGCTTAGACAAGGTGGTGACTTACCCACAGTGACCCAGCTGGGCGGTGCCAGAGCCAGCATCTGAATAAGCCCTGGTCTGATGC
AGGTCCTGCGATCTCCCCACGCCCTGACAGTGACCTATCTTTGTGCACACACGTGTGTTTGTGTACTGGGCACACCTCCCCTAAGGTTTGCAGGGCCCAG
GGCTAGAACAGAGATGTAAACACGAGAAGAGGCAGGAAGGTGTGTGCCATTATCAAAAGAAAAGAGAGGCTGGCCAGGTGTGGTGGCTCATGCCTATAAT
CCCAGCACTTTAGGAGGCCGTGGTGGGTGGATCACCTGAGGTCAGGAGTTCAACACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACA
AAAATTAGCCAGGTGTGGTGGTGCGCGCTTGTAGTCCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGA
TACTGTGCCACTGCACTCCAGCCTAGGCGACAGAGCAAGAATCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAAGAAAAGAAAACAGAGGCAA
CAGAAGCAGAACCTCAGATGTGAGTGTCAGTAGACAGGTATTTTAAAATAACTCATTCATGTGTTACTAAAAACAGGAAATGCCGTCTAACGGGATCTCT
GGATGGAGAATTCCACAGCTGATTGGAACCTAAACGAGAGAACCAAATGGACATCCCAGGGCTGCAGGTCAGTGTCATGAGACGGGTGATGGCAGACTGG
ACCCCGTGGCAGGTGGACCATGGAGGGGAGACAGAGACAGGGCAACAGAAACGGTGCAAACAGCCACTGAAATACCCGTGGGAAAGAAAAGCACAACAGA
GAACAGGAGACTTATGTGACTCCGACTCAACAAGACGCATTAGTTAAAAGATCTAATATATGCGTATGGGGCTTCCCAGAATAAGAGGAAGGAAGGAAGG
AAAGAATGAGACATCATAAGATAGTGTTAAAAAAAAAAGAATTCCCAGCCGGGCACGCTGGCTCACGCCTGTAATCTCAGCACTTTGGAAGGCCATGGCG
GGTGGATCACCTGAAGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCTTGTCTCTACTAAAATACAAAAGTTAGCTGGGCATGGGTGGTGGG
CACCCGTAATCTCAGCTACTCCAGAGGCTGAGGCAGGAGAATCGCTTGAACCCAAGAGGCAGAGGTTGCAGCGAGCTGAGATCGAGCCGTTGCACTCCAG
CCTGGGCAACAAGAGCAAAACTGCATCTCAAAACAAACAAACAAACAAATAAAATAAAAGAATTCCCAAACTGATTAAAGATACCAACCCACAGACTCAA
GAAGCCTAGTAGGACTTCTGCTGCTGGCCACGATGCTGCAACTTGTCAATGTAAAATAAACAACAGAGAGACTGGCTCTCCCAAATAAAGTTTACTGGGG
GATGGCAGGGGATTGCAATCTGGGATATGCATGCTGAGGGGGACCGTAGGTGTATCTTTCTTTTAGGGGTGGGAAGAGGAAGTCTACACAGATTGTTTTG
GAATAAACCTCCCTGGGTACAGGAGCTTATTGCAGGGTTGGTGATTACTCATGGGTAACATGATTGTTGCGGGGGAGATGTCTTCATAGGAGCAGCTGAT
CTGGAATGTTGTGTGCTGTCGGAGTCCCTGTAACAGTTCTCATCATAGGCACCCGAGCATGAGGGACCTTCCGTTGAGGCCTCCCAGCTCCGTTTTGCTT
GGGTCCTGACATAAGTGACTCTGCCTTAGTATTGACAATTTTCACACAGTGGAGCCAGTTTCCCCCATTTGTGCCCCCTCCCCCAGTTCATATGCTGAAA
CCGAATCCCTAATGTGATGACATTATGAGGTGGGGCTTCGGCATGTGCTTAGGTGGGTAGTGAGGGTGGAGCCCTCGGGAATGGGTTAGTGCTTTTATTT
ATGTATTTTATTTTATTTTGAGACGAAGTCTCACTCTGTCGCCTAGGCTGGGAGGCAGTGGCATGATCTTGGCTCATTGCAACCTCTGCCTCCCAAGTTC
AAGTGATTCTCCTGCCTCAGCCTCCCGGGTAGCTGGGATTACAGGCATGCTCCACCACGTCCAGCTAATTTTTGTATCTTTAGTAGAGATAAGGTTTCAC
CATGTTAGCCAGGCTGGTCTCGAACTCCTGACTACAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCCAAAACACCCGGC
CAAAGTTAGTGCCTTTAAAAAGGAGGCCCCCCAGAGCCCCCTCATGCCTTCCACCCTGTGAGGACACAGCATGAAGAAGTGATCTAGGAACCAGGAAGGG
GTCCTCGCCAGACCTTGAATATGCCGGCGCTTTGATCTTGGACCTCCAGCCTCCAGAAATGTGAGAAATCAATTTCTGTTCTTTAGAAGCCACCCCATCT
ATGACTAAGACACCCTCCCACCTTCATGCTACTGAGTGGACAAGCTTACATGAAATGACTGTTTTCACATATGTGGCACCAGGCAGCCCAGGGATGCCGG
TGAAATCTCTGGGTAAGTCTCTTTGGCCTCTGGTACTGGCAGCTTCTCCTGTTAAGAGGGCAGTCCTCCACGAGTGTCTCGTGCCCCCCACCTCTCACAG
GGTGTGCCAGGAATGCAGGCCCTGAGTACCCTCCCCCATTTCTCAGGGTGGTTTGCCCTGAGAGTCCTCTAGGGACAAAGAGCAGCTTGCTCACTGCTTG
CTGCAGAAACAGCTGACTCCCCCAGTGCAGGGCTCCTCAGTGGCCACGCAAACCTACTGACTGTGCAGTGCCCACCCAGGCCTACCCACATGGCACCCGT
GGAATTTGGGGGCAAGGGGATAAGACCAAACACACAGGTGAGCACCTGCCTGCCACGCCATGAATGAAAAAGTCCTTTGTCTCTGACCCCGGAGTTTCAC
GTCTTCTGTCAGCATCCCTGCTGCGGTAACGGGCCAGCTCTTCCTTTGTAAGGAAAGCTAAAACCCAGTCCCAGAGCTGGCACCACCTGGAGGAGGAAGT
GCTCTTCCCTGCCCCTCCTTGGCCATGTGACTTGCTCTGGCCAGTGACATGGGAGTGCAAGCGACACATCCCAGCTGTGCATGGCCGCTGGGAGAGTGTG
GCATGGTTTCTCCATCTCTCCTCCATGTCCTCCCTTGTCAGGAGAACGGCATGTTCCAGAGAGCCACAGCTTGCTCAGCCTGGACCCCAGAACGAAGGAG
GCATCAGAAGCTGAGCCACCCGTGGCCGACAAGAAACCTGAGTGGGAGGGGAAACTTGGTTGCTGTGATCGACCCAGGCTTGCGAGTTGTTTTGGCAACA
CAGCCTAGCAAGAGCCGACCAATATGTCATTGATGAAAGAAAGTCAACAGGCGTGTAGAAGGAGCTGTCTACTGAGCATGTCTGCACTTTTCTGAATTAT
GTTGCACTTGAGTAAAAAGTAAGCAAGCCTGTCTATTTACTTTAAATGATGTGTGCCAGATATGTACAGTATGCAGAGTTAAGAAGGTGCCACCCCAAAA
TAGGCTGCTCTGGCATAGTCACTATTAGGAATTAAAGGCAGTTAAAACAATAACAGGTGCAAAAAGATCATTCTGATCTCTCTTGTGTTTCTTAAAAGCA
GAAGATGAAATTCCCAGGTGAAAGATGCTCTCCCTACACTAGAAAGCTCTGATCCTCAAGGATGAGAAGCTGAGACCCAGCAAATGCTGTACAGTCCCTG
ATAAAATGCCTCTCACCTTTTCAGCCCCCCACATCATCTAGCTGCTTCCTCAAACCTCACTGTTCTCTGTCCAACTCAGCACACGACTGAGTCTGCTTCA
CTGGGTCTTCACTTCCTTAGGAGGGCTCCTGAGCCACATCCAACTTTAATCAAATACACTGGCATGATGATCTGTCTTATCTTGATTTAACTCTTGGGCC
CAGCCAGGACCTCAAAAGGATGGAGGTGGAGTTTTTCAGCCCCTACATATGCAAACACACACATAGCATGTATCTGAGCGGCCACATGGGCTGGCCCTGC
TATTTTCTTATGGCTTCTCAGCCTCCCAGCCACCTTCTGCTCTGCATCACTGGAGCTGGGAGGCTGCAAGCTCCTTTCCCACTCTCCTCTGCCCGTTGGC
TTCCAGTGAGGCTCCTGCAGCGATGGCGTTGGTGGGAGATGCCAGGCGAGGAATTGATCTCGCATTCTCGTTTCTGGGAACGTCTCTGAAAATGGCTGAA
TCCCGTCTGGGATCCCAGCTCCCAAGGAGGCGGCAGCTTGCTCACTGCTTGCACAGCCCCAGACGGCAGAGGGGCCCTCTCCTGCACAGCCTGAGACAGT
GGAGGGGCCCCCTCCTGCACAGCCCCAGAAGATAGAGGGGCCCCCTCCTGCACAGCCCGAGACAGTAGAGGGGCCCCCTCCTGCACAGCCTGAGACGGTG
GGGGGGGGCCCTTCCTGCCCAGCCCCAGATGGTAGAGGGGCCCCCTCCTGCACAACTCCAGAGGGTAGAGGGCCCCTCCTGCACAGCCCGAGACGGTAGA
GGGGTAGCCCTGGTCTCTGGGGGCTGCACTCCTGGGCTCTGGAGCTGCCACAGCTCCTCCCTCCTAGTGCTTCCCCTTCCTTGTTTTGCTTTTTGCCCTT
TCTGACATAGTGACGACTTCCGTTTCGCAGTCTGGACCTTCACCACCCCAGGGCGAGGGCACAGGCGAAGCAGCAGCACCCCCCCGGGGCCTCTCTTTAT
TTGGAATACAGTGTGGGGGCTCCCCCTTCCTTCTCCAGCCCGCCCAGGCCCCTGGAGCTGTCCTGGGGCCTGGGGAGTGAGGACCCGTGCCAGCAGCACA
GACTCTGCCAGGCCGGGCCCGCTCAGGTGGGAGCCCAGGCCGGGTGAAGCTGTGACCCGGCCCTCACCCCAACTCGGTGACAAAAGCTATCACAGGGCTG
CAGTGGGGGAGGAACAGGACGCATCTGCCAGGCACCTGACCCGCAGTGCACTTCTGGGAGCTGTGCTTATCTCCCCGGGGTCTATTTCGCCCCAAGGTTT
GGCGGGTTAAAAGCTGATATGCAACCGGCACGACATGAACAGTATTTCATGATTAAAGACATCGCGTCCATGTATAATTGAGATGCTGCCGCATTTGCGG
GGATTTTCAAGCGAAAACCAGGCCACGTGGAAAGGCTAAGCCCTCGCACCCCCCCGCCCCCCACTGCTGGGACCCCCGCCCCGCGGGAGACCCCGGCCCG
CGGTCCCCTATGCCCGCGACCCCTGCGCTCACCCTCTCCCCTCAACCCTGAGTCCAGCCCAGTCTCGCGCGAGGCCGCAGGGAGACCCCCGCCGCTCCCT
GGACCACCCCTGGGCCCACCGTACCCAGCCGCTCCCCGGCGCCCCCCGGGACGACCCCGAGCCGGCTGCCCGCCTCCCGCCGCATTCCGCACAGGCGCAC
CGCGCACCGAGGGCCGCACCGCCCAGCTCCGCCTGCTGCGCCAATGGCCGACGGGGTCCAAGTCGGCGGCCCAACGGAGAGGCGGGGCTAGGGGCGGGAC
CAGGACGCGGGACAGCAACTGTCCCGCAAGGCCCGGATTGAGGAGGCGGGAGGGACCGAAGCAGGCGGACCCAGGATTTGGCGCCGCGATCTCGAGGCTT
GGCCTGGAGTAGGAGGGGAAACAAGGCGGGACTAGGGGCGAATCCGAGGGGGCGGAGCAGGGCTCGGGGTGCGGTCGGGGGCGTGGCCGGGGCGCGCTGC
GGCCATCTTGGGGGCGGGCCCGGGGCGGAGACGAGCCCGAAGGGGCGGGGCCTCGGCGGCAGCGAGAAAGGCGGGACCGGGGCATCTCGGGGCGGGGCTT
GGGGCTGGATCTATGAGCCGGGAGCGGGGATCCAGGAGCGAGGAGCCGGGAGCGGGGAACAGGGAGTCGGGGAGCCGGGAACCAGGGCTGGCAGCGGCCG
CCATGAGCACGGTGGACCTTGCTCGCGTGGGCGCGTGCATCCTGAAGCATGCGGTGACCGGGGAGGTGAGGCCGGGTGGACGCAGGGCGGTGGGCGCGTC
CCTGGCTCCTTGCCCGGGCGTCCTGGCAGCGATGGGGTGGTGGGGGCCGCGGGGCCTGGGCGGGGCTGGGGGCAACGGGGCGCGCCCATGACCCAGCCGC
CCGGCAGGCCGTGGAGCTGCGGAGCCTGTGGCGGGAGCACGCGTGCGTGGTGGCCGGGCTGCGGCGCTTCGGGTGCGTGGTGTGCCGCTGGATCGCCCAG
GACCTCAGCAGCCTTGCTGGGCTCCTGGACCAACACGGCGTGCGCCTGGTGGGCGTAGGGCCCGAGGCCCTGGGTCTGCAGGAGTTCCTGGACGGCGACT
ACTTCGCGGGAGGTGCGTCCTGTTCCCCGCCGCGGCGGCGCACATACCCTTCCCTAAGCTCAGGGCGTTCGGGGCCCTTTCCTGCCCAACCCCGGCCCTT
CTGTCTGCTGGAGCGGCCTTGATATGCCCACGGGTCAGCGTCCCTCATCTCTCCCTGCCTCCCCGCCCCGCAGCTGGTGGCTGGGTGGTGCCCTGCACAG
ACCTGGGCCCAGCAGCAGAGTCTGGACGAGCTCTGCCCCGCCGGCTCCACCTGTTGCCTCTGGGACTCAGCCCCTCTTCTGAGGGGAGGGGGGACACTCA
GCCCCGTTTTACCCCTCCCTGCCCTGCGGGGGTGGGCTGAGCACGGAGGGTGGGCAGAGGAACAGAGGGTCGGAAGGAGGAGGGCGATTCTTTGTGGTGA
GTGGGTTGGGGGCTGGTTCTGCGCCTGGGGCACACACATGTGGCTTCCGCTTTCCAGAGCTCTACCTGGATGAGAGCAAGCAGCTTTACAAGGAGCTAGG
CTTCAAGCGGTGAGTGGGGGCGGGAACCCTTGGGTAGCGTGGGGTGGGGGGCCCAGGGGTTCCCACCGCTCCCTGCCACCTCCTCTCCCTGCTGCCCTCT
GTGGTGCTGTCCACTCGGGCCTTCCTGGGCAAGGCGGCTCTGGTGGCACTGTTGACCAGCCCTTCTGCCAGGCCTTCTCTTGGGTGCTGGGTGACTGTAA
TGAGCCACCTCGTCCGGGGCTTACTCTCGGTGTCCAGACCACCTCGTGGGGTGGAGCCTCGTGGCCCATCAGGGGCCATCCTAGCTTTCTGGTGTCTGTG
CCACAGGCTGCTTCCTTTGCTTGGCAGTTGCCAGCTGAGCCAGATCCCTGGGCACACCCAGCCTGGGGCCCCATCCATGCTCCCTGCACCCTCTGTGGAC
CCTCGGCTAGCAGCCACTGGGCTCGGTGTCCAACCTGCCGGTGGGCTGGGCTGGCTACTGATCTGGTCGCCTGTGCCATCTCTGAGCCCTGGTGAGGCGG
GTGGGTGGGGTGGGGCCTGACCTAGGAACTGGTCTCATGGACACTGGAGCAGGCTCTGGACCCAGGCTTCTCCGGAGTTTGGCCAAGYGACCTGGTGTCT
TCGCAGGTACAACAGCCTGAGCATCCTCCCAGCAGCTCTGGGGAAGCCCGTGCGTGATGTGGCTGCCAAGGTGTGTGCGGGTCAAGGGTGTACAGGCCGG
GGGGTGGTGGGAGCTCCCAGGAGCCTTTCTTCTAGGATTGACTCAGGCTGTAMCCACTCCTGACAGGCCAAGGCTGTTGGCATCCAGGGGAACTTGTCTG
GGGACCTGCTGCAGAGCGGAGGGCTGCTGGTGGTCAGCAAAGGTGGGTCGAGGGAGGGGCCTCGGCCACTGCCTCAAGGAGGGCCTTGCTGAACTTGGTG
GCCCAGCCCAGGCCCTCTCTCTGGCTTGTCAGTCTCATCACAGCCCCTCCGCCGCAATGTGGCCTGGTTCTGCGTGTCTGCTGGGCTGAGTGGGGCTGTG
GCAGAACAGCTCACTCATCTGGGTAGCCGGGTGGGGGATATGGCTGGCCAGGGCTGCCCTACCCTCCCTCCTCCTGGTAYGTGGCTGTGAGGTGCAGGCG
GCCTCCGGGGTGCCGTGACTGCCTGCCCGCTGCTACAGGTGGTGATAAAGTGCTCCTGCATTTCGTCCAGAAGTCCCCAGGCGACTACGTCCCCAAGGAG
CACATCCTGCAGGTCCTGGGCATCTCTGCGGAGGTCTGTGCCAGCGACCCGCCTCAGGTGAGCTGGGCCTTGGGGGCRCTGCCTGCCAGCCCACGCCCTG
CCCCYAGGTCCCCTGGGAGGAGCACTCGGCTTGGCTGGGAGCTGAGCCACAGCGCTGTGGGCATCATGCCAATTGTGCCCTGGGATATGGATGCCACTGT
GACCCCACTTGCAGAGTGGGGCAGGCTGAGAGGGGCCGAAGGGCAGCATGGCTGGATGGACAGGCACCTTGGGACTGTCCTCAGAGGTGGGGGCGACACA
TGGGGTGGCGGGCAGAGAGGYGTGTCCTCTCAGCCTTGGGAGGGCTGGGGATTGTCCAAGGGGGCCCTCCAGGCATTTGTCTGATCCAGTGTCCAGCGGC
CCCATGGGACCCTGCTGTCCCCACAGTGTGACAGAGAGGTGTGAGGGAGGCGAAGGCCCTGGCCTCCGAGGATCTGGGTGGCGTCTGCTGCCCTAGGTGT
GCTGGAAGTCCACTTGGAAGAACTGTTCCGGAGGCGCTGGGTCGGGATGCCGAACCTCTCCTGATCCGCCGGCAGCAACGAGCCATTAAAACTGCAGTTC
CTGACCACGCACTGCTTCGCAGGCTCCGAGCCCTGCATCCTCCACAGCCCCCGCCTTGCTCACTGTTGGGCCCTCAGGGCGGGCAGGGTGGCTGTGAGTC
CCAGGTGTCATCTTCCTGCTCTGCGACTTTCTCTGGAGACCTTGGGCCTTTGGCCTGTGGGGCACTGGGGATGGTAACCTCACTGCCCCGTCACTCCCTT
CAAAGGCGACAGACCCAAGCCCACGTCAGGAGAGGAGCGTGGGGTCAGCTCCAGCAGGGTCGGGGTCAGTGCCTGTGTCTGGTGGGGGCCACTCAGGAGA
GTTGGGTTTTCAGGGCAGAGATGGGCTTGATTCCACCTGGTGGGGTGGGTGGACCCTGGAGACTCTCAGGTGATGGGCCAGCCTGCCCCAAGGCTCTTTA
CTGATGTYAGAATCATTGTTTGCACCTGCTGGGTATGGCCTTTGGGGCGGCCGGCCCGGGAGGGTCTTAGTCTAATTAGGTGTGTCCAGCTTCTTGGCCA
CCTTTCCCTGGGGACCCTAACAGGCCCAGAGCAGAGCCCCTTACCTCCCAGGTCAGACTACCTGCTCAGGCCCTCCCCTCCCATGCAGGCCGATGACAAC
TGCAGCCCTCTCTGCACTCCCTAGTCCAGACCTGGGGACCACTGTGGGTTCCTGTGGGTCTCCCGGCTCCCTTCCTGCCCCCAATGCCACCCTTGCAGTG
GCCATTTAAAAATGCATAGCAGGTGACCCACTGCGTCCCTTTGCGTTCAGCCCCTCCTCTGGCTTTCAGTTACACCAAGCTAAAATTTCAGGTTCCCAGC
TGCAGCTCTCTGGGTCCCCCGGTGCCCCAGTGGGGCTCCCCGCATCTGAATGTGTGGTCCCTGGGGGTGGGCACTTGGGGGCATCCTGGTCACTGCTGGC
CCTAGCATTGGACCCTAGGAGACCTGACTGGAACTGGCTCCCTCCCCATCAGCTCCCAGCTGTCACTCTCTCCCACCCCCGGGCAGCTGTTTTGCCCAAG
ACCACTGCTACCTGTTTACCCACCCTGGTCCCTCCCAGACAAGCAAGGCCTCTGATTTCTTTGAAGCATTTACTTAGCTCAAGTCTGAAGCTGTAGATAC
TGGAAGACAATGCACCTTGGAGGGTGGGCAGGACACAGTTGATTGTCTCTACAGAGCTGTGACGGGGGCACTGAGCCCCGCKGGTGTCTGTGGAGGGGGC
TCCGGTCCAGGTACTGCACTGGACACTGCTCATCCCTGGGTGTCAGGCAGGTGGCTGCACCCTAGGCCAGGCGCAGAGGCCTGGCAGGCAGGCTTGGCAT
GGTTGGCCGGGGCGGGACGTACACTGGGTCGCCGCTAGCTGCACCTTCGCACAGATGCCTCYGAGCAGCRGGTGGGCGTGGGCCGCACAGCGCGGCAGGG
CCTTGGCTACCACACGCGGCATCGCTCCTTGGGGTGCATGGGGGTGCCCCGGGCACAGTGGAACGTGTCTGCGAAGGCGGCCAGGTTCTGCAGCGACCCC
AGTACCCTGTGGGTGGGTGGGTGTGACAGCAGGAGCATTGCCATCTTGGACAAACATGGCCATTTTAAGTTCTCCGTGATTAAAAACCAGCCCAAAACAT
CAGCCTAATGGCTCATGTCAGTATGAGCAGAAACATTTCAACCATGAGATAAACCCCCATCTGACCAGAAACATGCCAATCCTGAGAATAACCTCCCCTC
CAGCCAGAGATATTCCAACTCTGCAATAAAACTCTCCTTCACACAGAAACATTCGCAGCCTGCGGTAGGCTCCCCCTTCCTAAACCCTTAAATGCCCTTA
GTCTGTAAGAGAATGTCCCTGACCGAAATCGGCCAGAAGCCCCTCTCAGGTTTATTCCCAAAATAAACCTGTCTCTGTTGAGCCACTTTTTGTGCTTTCT
TCTTTTACAGGCCACTGGGGTGGGGGTGAGGGGGTTGTGGGTGGCAAGGGGGTTGTGAGCATGGGAGACTTGCCTGTACTTCAGGGGACTGTGGACGTCT
GTCTTGATGGATTGGATGGCGAACTCGGGCCGGTAGGACCCGCACCACACCTGTGGGCATGTTGGGGGCGTGGCTACAGGTGGCGTGGTGGGGTGGCCAG
GAGGGGTGGGGGAGGGTCTCCACTATCCCCAGGCTGCCCCTTCTAGGGTGGGGTGAGGGGAGTCAGCAGGTGCTCCCCTCCTCCCATCAGCATTGAAATC
CTGTCCAGCTCCCGCCCCCTGCCCCTCATGCTTTTCCCCCAAGGGGCCTTCCATGCTGGGCTCTGGTCCCTGGAGGTGCCCCAGAGTGGGCCCTCCAGAG
ATGAGTGGGGAAGCATGGGGATGGTGGGACCAGGACTGCGGCTGCCACCTGGGCATAGTTGATGAAGAAGAGCTGCTCATGGGTGAGATCCAGGCCGGGC
AGCTGCTGGTCCTTGCCACCCTCTGCCATCCACTTGAGGTAGGCCTGCAGGCACCAGACAGGAGCTGAGCTCAGGCCTGCCAGCCTGGACTCCAGAACCC
TCAGATCTCAGGGCAGAGCAGAGGTCTGGCTCCAGGACCTACCCCTGTGGGGGTCCTGCTGCTGCAAGGGCCCTTCACACACCCCACGGATGAGCGCTCA
CCACCTCAGTCACTCAGGGACCCCTGAGCTGGGCCCTCGGGGGGGGATCCCTGGCCAGACAGCCCACTGCACACCACCTGTCCYGAATGAGCCCCTGACG
YCCCCTCCCCTGAGGCACTGGTGCCCCCCTCCCCTGCAGCGCTGATGCCCCCCCTCCCCTGCCATGCTGACGCCCCCTCCCCTGCTGTGCTGGCACCCCC
TCCCCTGCCGCGCTGATGCCCCCTCCCCTGATGCACTGGCGCCCCCTCCCCTGCCATGCTGACGCCCCCTCCCCTGCCGTGCTGGCGCCCCCTCCCCTGC
CGCGCTGACGCCCCCTCCCCTGCCGCGCTGACGCCCCCTCCCCTGCCGCGCTGATGCCCCCTCCCCTGCCGTGCTGGCGCCCCCTCCCCTGATGCACTGG
CACCCCCTCCCCTGCCGCGCTGACGCCCCCTCCCCTGCCGCGCTGACGCCCCCTCCCCTGCCAGGCCCCACCTTATAGGCTTGCCGCACCCCTCCGTTGT
CAGCAATGTTTTCCCCAAGGGTGTTGAATCCGTTCACCTGCGCACAGGAGACAGGATTGGGGCAGCCCCGGCCCTGACTTCCCTCTCCCTCAGGGCCAGG
GCTGGGGCTCCGGTACCCCCGCAGCCTGGGTGCTGGTGGCAGCGCTCACGTTCTGTTCGTCTGCCAGGTCCCAGGAGTAGTTGCCGTACTGGTAGATCAT
GCACTCTGACTGCTCCCGGAAGTGCTGGGTGGAGAAGTTACTCCACCAATCCATCATGTTGCCATTCTTGTCGAAGTTCCGGCCTGGGCAGGGGCAGAGG
AGGGCTGCCCACATGCCCCTGGCTGCACTGTGCCTGGCCCCACGGCAGCCACTGTGCCTGGCCGCTCCTGCCCCTCCTGCAGCCAGCCCCAGTACGGAGA
GCCCACAGTCTGAGTAGGCTGAGCCTGGAAGAGCATCGCGGGCTCCAAGGGGCAGCAGCTGTCTGGGGCTACACAGCCCCCAGAGAAGGAGGGCTTCAGT
GGTCTCCCATGCCACCCCCTGAGGCTAGGGCCTAGCACCTGGGTCCTGTGGTCTTGGAGGCATCATGGTTTAAGGGCTCCTCCTGGGATGCCCAAACTCT
AAGTTCCAGGCGAGAGGAGTACGTGGTCCCTGGGGACAAGGACTGCCCACGGAAGGTCCGGATGGCCGAGCCACAGGGGAAAACCAGCTGGGGCCCCTGT
CCCAGGCAGGGCAGTCCCCACCGAGGGGCGGAGGTCAGCATGGCCATGGCGGGGGTAGCACACCCCCCGGTGGAGGATGCTGGCCGTCTGGAGAGTCTCC
CAGGCTGGGATCTGGGCTTCGCTGCTGTATTGGGCAGTGTTGTCGTCCCCATGTCACAGGCCGTGGGAGGGAAGTGCCCAGTGCCAGGTGGAGTCAGGGT
CATGGGCTGGAGTCCCTGGGTCCCCTCCTCCATGCTGGGAGTCAGTGCCCCCAGACAGGGCCCCAGCCTGGCATTCAAAGCCTGCTCTGCCCCCACAGCT
CCCTGAGGACCTGGCCTCGGTGTCCCCACTGAAACCGTGAARGGGTTGAATGGAGCGCCCCCAGGCCCCTTCCTGGCTGCTTCTCCGCGGAGAGGGGAGG
GCGTGTGTGATTGGAGGGGCGGCCGCTCACCATTGTCGTCAAAGCCGTGYGTGATCTCGTGCCCGATCACCATCCCAATGCCTCCAAAGTTCAAGGCCTG
TGGCTGCTCCTTGCTGAAGAAGGGGGGCTGGAGGATCCCGGCAGGGAATACTGTCCCCAAGGGCGGGACAAAGAATAAGCTGTGAGTGGACACATCTCCT
GTGTGCCAGGCTCAGGGATGGCGCTGCCAGGGGTTCTGACACTTGATCCCACAGACCGGGAGGCAGAGGTCAGGATTCCCTCAATTTACAGATGAAGACA
CGGAGGTTCAGAGGCTGGGCGGGCTCGTGCCTGGCAGACCCAGGACCTCAGTCCGGCCTCCTCCCACCATCCTGTTCTGCCTGCAGGAAAGGCTCTGGGC
CGCCTGCCAAGTCCCTCCCGAAGCCGCTCATGGGCACGGGAGTGAGTGTTCCCCACGGGGGCAGCAAGGGGTGACATAGGAGAATGTTCCAAGAACAGGC
TGGGGTGCCCCCAGGAGGAAGGGATGGGCAGGGGGCTGCAAGCCACCCCTTCAACTCTGGCACCAAAGGGCCTGGGCAGGCAGGGAGGGGGAGGAACTTA
CCAATCTGGTTTCGGTTTGGGGAGTAGAACGCATTGACCACCGCCGCCCCGATGATCCAGCTGTGATAGACAAGCCGGTCTCTGGGAGCCGCCTCTCCGG
GGACCCTCCCTCTGGGCTCTCTCTGCCTTGATGGACCAGGGCCTACCCTGGCCACACCAGAGCAAGGGCCCAGGCCTATCCCAAGATCTGGTTCCTTCCT
GGGGTCCCTGAGGAGGAGGCGACTTGGGCCCCAGAAAGCAGAGGGTGATGGGGGACTCTGTCCAAGATAGGCCCAGTGACTGCACCCCTCAGCTGGCACT
GGACCCCAGCCACGCATCCAGTCCCCCGCCTGGCAGGCAGCCCTGCACGCCTTACTGGCCACTCCCTGGCCCCCCCCGCCCATGCCGCACCAGCGATGCC
ACTCACAGATTTGGGTCCACCTTTTCCCGAAGCTTCCTGAGGCTCCGCTGGGCGCCCACCTTGAGGTTCTGCAGACTGTTCTCAAAGTACAGGTCCTCTG
AGAAGTTCAGCTACGGGAGAGGGGCAGTCACTGCCAGATGCTGGGGCCGGGCCCTCAGAGGAGCAAGGGGAGAGGTCCTGGGTGGTTGGGGAAGGACCTC
AAGCCTTGCCAGGCGTCCGCACGTGGACAGTCGGCTGTGGGTGCAGGTGAACGGGGCAGCCCTGGCTGTGGGCATTTACATGACTCTGAGCAAGTCCCTC
GTCCCTCCAGGCCTCAGTTTCCCCATCTGTACACTGAGGGTAGTGCTGRAGCCACCACCCTAGGGCACGGTGAGGACAGCTGTGTTAGCGCCTGGGAGGA
GGGCACAGAGCTTGGCACAGAGGAGCCCCCAGGCAATCAGGGCCCATGTCCACGGTGTGGGGGGCAGTTTAGGGCTGGGGTTGGGGGCGCACATTGGAGT
ACTCCTCGTCCAGGCGCCTGTTCRTCTCCTCCAGGATGTAGTCAGGGTGCCCGATCTGCTCCCGGATGCTCATGGCCTGAGTGGGGAGGAGGGACTGGTC
AGTGGGTGCCCCACTGCGGATGGAGTCAGCCCGGGGGCCGGTCAGTGAGTGCCACACTGTGGGAGGGGTCAGCCCGGGGCATCCTGGCTGTGCTCTCCCT
GTCCTGTGGTGAGGGGCTGGGGGGCTCCGGGATCTGGCCCCCACCTTGCAGGCTCTGGGGAGGTTTAATGGGGACAGAATATGGAAGGCTCCGCCCACCT
GACCTAGAGCCCAACAGCCCGCCAGGGGTCCGGGTGGGGGCAGGGGCCCTGGAGGGGTCACTCGGCTGCCGTCTGTCACTTGGGTCCAGAGGAGCTTCTG
GTGGGTCTGACCCTTGCTCCCGAGGCCACCGCTACCCCCGCTGGCTCATGGGGGGTGCTGGGGATGTCCCAGGCCTGGTTCCTGCCCCTGCCTGCTTTTC
CTCAGCTCCACAGTGGGCGAGTGGTCCTGTCTGCGCCTCCCGGGGCTGCCTTCTCCCCGTGGGGTCCTGTCTGCGCCTCCCGGGGCTGCCTTCTCCCCGT
GGGGTCCTGTCTGCGCCTCCCGGGGCTGCCTTCTCCCCGTGGGGACCGTCAGGAGGCTTTGTCGGGGCGGTGCTGCCCGTGCCCAGATCCAGTCGGGGCT
GCCCTGACCTCTGCGAGCCACATACCTTCTCCTGYGCCTTCTTCTTGGAYTCCTCGTCCATCCAGCCCAGCTCGTCCAGCGTCTCCACAAACACTGTCCG
CACCTTGTCAATGAGTTCTCTGACCTGGGAATCGGGCATGGCCCTCGTGTCCCAGACTCATCTGGAGGGCGAATGACCAGCCTCAAGGGCTTTGGGGAGG
TCTGGTCTGAGCCCCGCCGGGGCAAGGCCCAGGGCTGCCCAGCTGTGGGCCTCTCGGGTGAGGTGTGGGGCCGGTGGGGGGATGAGATGACAACCCAACT
TCAGGGTCCTCCCTGCTGGGCTGTGGGTCCTCGTGGGCCAGGGGCAACTTGTACCACCTGTGCCTTTCCCAGCTGGACCTGCAGGGCTCAGGCTGGGGCC
CAGTGGCCGGCTGGGGTCAGGGGCATGGGGTGGGCACGGCTTCCCTTAGCCTCCCTCTGTCTGGTGAGCTGGGGCAGGTGCCCCTGAGCCTGGGCGGGGT
GGGAGTCTCAGGGCAGGGAGGCTCGGTGTCCCTGTGGAAGGCTGGCCCCGCGTGGGCCATGGATGAGGGGCGCCCACCATGCTCTTGCTGTCTCCAGGGA
ACGCCTCCCTGACGTAGAGGGAGCCCACGGCGTTCTCCATGTTGCTGTTGACGTAGCCCACACATTCACGCCAGCGCACCTCCTCCACCATTGTGCCAAA
CAGCGCCTGGBGGGGCCACCCGATCATCCCACGGGCCCCCACGTCAGCCTTCCCAGGCCTGGCGTGGGGCCCTGGGCTTACGGGGTGAGCAGACCCACCT
ATCCTCAGCCTCAGGGTGCCCCGGGGCTAGCGGGGGCACGGGATGATCTCAGCCTCACCTCTGGGTGCTGCTGCGGCGGGGGGAAGGATGGGCATGGTAT
TGTGATTGGGGAACTTCCGCAGACTGAGAGCTGGGCCTTTACCCTGAGGAGTTGGGGGGGTTCCTCCCCGGCCCCTGTCCTGGTTGTCTGGCTGGACTCT
GCTCTCCAGGACTCCAGCCCCAGTCTCAAGGCACAGGGCTGGCGCTGACCCCAGAGCAAGGCCTGGGACCACGTCCCTCTCAGCCACCAGCTCCCAGGGC
CCTGGTCTCTCCATTGTTGAAGCAGCTGTGAGAACACCTGCTCATCTGTCCCCAGGGACACAGGAGCACGAGACTCTGGGCCCCAGACTCAGGCAAAGCC
CAGGGAGCACTCTGCCCAGCGTCCTGCCACACCTTCTGGGCTGCAGGACTTCCTGCCCTCTAGGAAAGGGAGGCAGCCCTTTCTTCCTCCCCAAAGCTCC
TAGACTCAGTGCCCCCCTGACGCTTGACTCACAGATGTCTCTGACCTACCCCCCCATGGCAACAGGAGGCTTGACTTGCCCCCAGCTTGCCTCTGCCTCA
GTCTCCCCATTGCAGTGGGGACCTCTGTCCCTCCCATTACTCTAACAAAGGTCTTGAGAGTCCCGACTCCCCTCTGCCCTTAG


SNP Information

Context             (SEQ ID NO:40064):
GGCGCAGAGGCCTGGCAGGCAGGCTTGGCATGGTTGGCCGGGGCGGGACGTACACTGGGTCGCCGCTAGCTGCACCTTCGCACAGATGCCTCCGAGCAGC
R
GGTGGGCGTGGGCCGCACAGCGCGGCAGGGCCTTGGCTACCACACGCGGCATCGCTCCTTGGGGTGCATGGGGGTGCCCCGGGCACAGTGGAACGTGTCT
Celera SNP ID:            hCV1974931
SNP Position Genomic:     10470
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,2|G,2)   total(A,2|G,34)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;(C,-|T,-)   JBIC-allele(T,545|C,936)   total(C,936|T,545)   (T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS


Context             (SEQ ID NO:40065):
TTTCAGGGCAGAGATGGGCTTGATTCCACCTGGTGGGGTGGGTGGACCCTGGAGACTCTCAGGTGATGGGCCAGCCTGCCCCAAGGCTCTTTACTGATGT
Y
AGAATCATTGTTTGCACCTGCTGGGTATGGCCTTTGGGGCGGCCGGCCCGGGAGGGTCTTAGTCTAATTAGGTGTGTCCAGCTTCTTGGCCACCTTTCCC
Celera SNP ID:            hCV11612148
SNP Position Genomic:     9508
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:40066):
GCTGGGCTGAGTGGGGCTGTGGCAGAACAGCTCACTCATCTGGGTAGCCGGGTGGGGGATATGGCTGGCCAGGGCTGCCCTACCCTCCCTCCTCCTGGTA
Y
GTGGCTGTGAGGTGCAGGCGGCCTCCGGGGTGCCGTGACTGCCTGCCCGCTGCTACAGGTGGTGATAAAGTGCTCCTGCATTTCGTCCAGAAGTCCCCAG
Celera SNP ID:            hCV25754232
SNP Position Genomic:     8380
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,6)   caucasian(C,14|T,18)   total(C,40|T,24)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40067):
AGCCCCCAGGCAATCAGGGCCCATGTCCACGGTGTGGGGGGCAGTTTAGGGCTGGGGTTGGGGGCGCACATTGGAGTACTCCTCGTCCAGGCGCCTGTTC
R
TCTCCTCCAGGATGTAGTCAGGGTGCCCGATCTGCTCCCGGATGCTCATGGCCTGAGTGGGGAGGAGGGACTGGTCAGTGGGTGCCCCACTGCGGATGGA
Celera SNP ID:            hCV1974927
SNP Position Genomic:     14824
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,20)   caucasian(A,2)   total(A,8|G,20)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40068):
GCAGGCTGAGAGGGGCCGAAGGGCAGCATGGCTGGATGGACAGGCACCTTGGGACTGTCCTCAGAGGTGGGGGCGACACATGGGGTGGCGGGCAGAGAGG
Y
GTGTCCTCTCAGCCTTGGGAGGGCTGGGGATTGTCCAAGGGGGCCCTCCAGGCATTTGTCTGATCCAGTGTCCAGCGGCCCCATGGGACCCTGCTGTCCC
Celera SNP ID:            hCV25750572
SNP Position Genomic:     8821
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,1)   total(C,73|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40069):
AGTCTGAAGCTGTAGATACTGGAAGACAATGCACCTTGGAGGGTGGGCAGGACACAGTTGATTGTCTCTACAGAGCTGTGACGGGGGCACTGAGCCCCGC
K
GGTGTCTGTGGAGGGGGCTCCGGTCCAGGTACTGCACTGGACACTGCTCATCCCTGGGTGTCAGGCAGGTGGCTGCACCCTAGGCCAGGCGCAGAGGCCT
Celera SNP ID:            hCV8861420
SNP Position Genomic:     10282
SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,1)   total(G,9|T,1)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(C,3|A,1) ;JBIC-allele(A,266|C,1229)   total(A,266|C,1229)no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40070):
CAGGAGGCTTTGTCGGGGCGGTGCTGCCCGTGCCCAGATCCAGTCGGGGCTGCCCTGACCTCTGCGAGCCACATACCTTCTCCTGCGCCTTCTTCTTGGA
Y
TCCTCGTCCATCCAGCCCAGCTCGTCCAGCGTCTCCACAAACACTGTCCGCACCTTGTCAATGAGTTCTCTGACCTGGGAATCGGGCATGGCCCTCGTGT
Celera SNP ID:            hCV25602535
SNP Position Genomic:     15550
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,40)   total(C,71|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40071):
CCACGGATGAGCGCTCACCACCTCAGTCACTCAGGGACCCCTGAGCTGGGCCCTCGGGGGGGGATCCCTGGCCAGACAGCCCACTGCACACCACCTGTCC
Y
GAATGAGCCCCTGACGCCCCCTCCCCTGAGGCACTGGTGCCCCCCTCCCCTGCAGCGCTGATGCCCCCCCTCCCCTGCCATGCTGACGCCCCCTCCCCTG
Celera SNP ID:            hCV8861423
SNP Position Genomic:     11784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40072):
CCACCTCAGTCACTCAGGGACCCCTGAGCTGGGCCCTCGGGGGGGGATCCCTGGCCAGACAGCCCACTGCACACCACCTGTCCCGAATGAGCCCCTGACG
Y
CCCCTCCCCTGAGGCACTGGTGCCCCCCTCCCCTGCAGCGCTGATGCCCCCCCTCCCCTGCCATGCTGACGCCCCCTCCCCTGCTGTGCTGGCACCCCCT
Celera SNP ID:            hCV8861424
SNP Position Genomic:     11801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40073):
CTAGGCCAGGCGCAGAGGCCTGGCAGGCAGGCTTGGCATGGTTGGCCGGGGCGGGACGTACACTGGGTCGCCGCTAGCTGCACCTTCGCACAGATGCCTC
Y
GAGCAGCGGGTGGGCGTGGGCCGCACAGCGCGGCAGGGCCTTGGCTACCACACGCGGCATCGCTCCTTGGGGTGCATGGGGGTGCCCCGGGCACAGTGGA
Celera SNP ID:            hCV25602546
SNP Position Genomic:     10462
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,4)   total(C,33|T,1)
SNP Type:                 MISSENSE MUTATION;UTR 3


Context             (SEQ ID NO:40074):
CCCCGTGGGGACCGTCAGGAGGCTTTGTCGGGGCGGTGCTGCCCGTGCCCAGATCCAGTCGGGGCTGCCCTGACCTCTGCGAGCCACATACCTTCTCCTG
Y
GCCTTCTTCTTGGACTCCTCGTCCATCCAGCCCAGCTCGTCCAGCGTCTCCACAAACACTGTCCGCACCTTGTCAATGAGTTCTCTGACCTGGGAATCGG
Celera SNP ID:            hCV26678910
SNP Position Genomic:     15535
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40075):
ATGGAGCGCCCCCAGGCCCCTTCCTGGCTGCTTCTCCGCGGAGAGGGGAGGGCGTGTGTGATTGGAGGGGCGGCCGCTCACCATTGTCGTCAAAGCCGTG
Y
GTGATCTCGTGCCCGATCACCATCCCAATGCCTCCAAAGTTCAAGGCCTGTGGCTGCTCCTTGCTGAAGAAGGGGGGCTGGAGGATCCCGGCAGGGAATA
Celera SNP ID:            hCV25602556
SNP Position Genomic:     13350
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,8)   total(C,37|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40076):
GAACGGGGCAGCCCTGGCTGTGGGCATTTACATGACTCTGAGCAAGTCCCTCGTCCCTCCAGGCCTCAGTTTCCCCATCTGTACACTGAGGGTAGTGCTG
R
AGCCACCACCCTAGGGCACGGTGAGGACAGCTGTGTTAGCGCCTGGGAGGAGGGCACAGAGCTTGGCACAGAGGAGCCCCCAGGCAATCAGGGCCCATGT
Celera SNP ID:            hCV25602581
SNP Position Genomic:     14649
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,2)   total(A,1|G,27)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40077):
CCTGGTGAGGCGGGTGGGTGGGGTGGGGCCTGACCTAGGAACTGGTCTCATGGACACTGGAGCAGGCTCTGGACCCAGGCTTCTCCGGAGTTTGGCCAAG
Y
GACCTGGTGTCTTCGCAGGTACAACAGCCTGAGCATCCTCCCAGCAGCTCTGGGGAAGCCCGTGCGTGATGTGGCTGCCAAGGTGTGTGCGGGTCAAGGG
Celera SNP ID:            hCV25750034
SNP Position Genomic:     7888
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,34)   total(C,65|T,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40078):
TCAGTGCCCCCAGACAGGGCCCCAGCCTGGCATTCAAAGCCTGCTCTGCCCCCACAGCTCCCTGAGGACCTGGCCTCGGTGTCCCCACTGAAACCGTGAA
R
GGGTTGAATGGAGCGCCCCCAGGCCCCTTCCTGGCTGCTTCTCCGCGGAGAGGGGAGGGCGTGTGTGATTGGAGGGGCGGCCGCTCACCATTGTCGTCAA
Celera SNP ID:            hCV25602557
SNP Position Genomic:     13242
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,24)   caucasian(G,8)   total(A,4|G,32)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40079):
TGTGGGGGTCCTGCTGCTGCAAGGGCCCTTCACACACCCCACGGATGAGCGCTCACCACCTCAGTCACTCAGGGACCCCTGAGCTGGGCCCTCGGGGGGG
G
ATCCCTGGCCAGACAGCCCACTGCACACCACCTGTCCCGAATGAGCCCCTGACGCCCCCTCCCCTGAGGCACTGGTGCCCCCCTCCCCTGCAGCGCTGAT
Celera SNP ID:            hCV26678912
SNP Position Genomic:     11746
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,2)   total(G,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40080):
TCCTGCAGGTCCTGGGCATCTCTGCGGAGGTCTGTGCCAGCGACCCGCCTCAGGTGAGCTGGGCCTTGGGGGCGCTGCCTGCCAGCCCACGCCCTGCCCC
Y
AGGTCCCCTGGGAGGAGCACTCGGCTTGGCTGGGAGCTGAGCCACAGCGCTGTGGGCATCATGCCAATTGTGCCCTGGGATATGGATGCCACTGTGACCC
Celera SNP ID:            hCV25756426
SNP Position Genomic:     8605
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,1)   caucasian(C,7|T,3)   total(C,8|T,4)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40081):
CAGGCGACTACGTCCCCAAGGAGCACATCCTGCAGGTCCTGGGCATCTCTGCGGAGGTCTGTGCCAGCGACCCGCCTCAGGTGAGCTGGGCCTTGGGGGC
R
CTGCCTGCCAGCCCACGCCCTGCCCCTAGGTCCCCTGGGAGGAGCACTCGGCTTGGCTGGGAGCTGAGCCACAGCGCTGTGGGCATCATGCCAATTGTGC
Celera SNP ID:            hCV25756365
SNP Position Genomic:     8578
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,5)   caucasian(A,15|G,15)   total(A,36|G,20)
SNP Type:                 INTRON


Context             (SEQ ID NO:40082):
CGTGATGTGGCTGCCAAGGTGTGTGCGGGTCAAGGGTGTACAGGCCGGGGGGTGGTGGGAGCTCCCAGGAGCCTTTCTTCTAGGATTGACTCAGGCTGTA
M
CCACTCCTGACAGGCCAAGGCTGTTGGCATCCAGGGGAACTTGTCTGGGGACCTGCTGCAGAGCGGAGGGCTGCTGGTGGTCAGCAAAGGTGGGTCGAGG
Celera SNP ID:            hCV25760145
SNP Position Genomic:     8053
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,34)   total(A,1|C,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:40083):
GACGTAGAGGGAGCCCACGGCGTTCTCCATGTTGCTGTTGACGTAGCCCACACATTCACGCCAGCGCACCTCCTCCACCATTGTGCCAAACAGCGCCTGG
B
GGGGCCACCCGATCATCCCACGGGCCCCCACGTCAGCCTTCCCAGGCCTGGCGTGGGGCCCTGGGCTTACGGGGTGAGCAGACCCACCTATCCTCAGCCT
Celera SNP ID:            hCV15976797
SNP Position Genomic:     16211
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,2|T,9)   caucasian(C,2)   total(C,7|G,2|T,9)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Gene Number:                 183
Celera Gene:                 hCG24778 - 66000115967167
Gene Symbol:                 FBXO6
Protein Name:                F-box only protein 6;FBG2;FBX6
Celera Genomic Axis:         GA_x5YUV32VY08(8399559..8421799)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12343):
CGCGGTGGGCACTGTGATCTGCAGCGTCCCACAGCACAGGGCTTGAGGGCAGCCGCCAAGATGCAGGCAGAGGAGTGGGGAGGAAGGGGCATTTGGGAGA
AGGCGGCCACTGAGGGGCTTCCCTTCAGTGTGAACTCTGCTTTTCCATCAGAGGGGTTCGAGTTCTGGAGCCTGGATGTGAATGGAGGCGATGAGTGGAA
GGTGGAGGATCTCTCTCGAGACCAGAGGAAGGAATTCCCCAATGACCAGGTCAAGAAATACTTCGTTACTTCATATTAGTAAGATCCGGGGACTTGGGGT
AGGGGAAAGCCCAAATCAATTTACCCTGGGGTCTCTCCCACCCTGGAAGGGGCAGTCCTAGCCCCTCACTGCCCTAGTGGTGAGCCCAGCCCCTCCCACC
CCTCTGCCTGCCCCCAGCACCTGCCTCAAGTCCCAGGTGGTGGACCTCAAGGCCGAAGGGTATTGGGAGGAGCTGATGGATACCACACGGCCGGACATCG
AGGTCAAGGACTGGTGAGTGCCTGGGGCGAGGGTCTGGGGTGGGGCATGCCAATCAGGCGCCCCACCCCCGCCCTGCCCCCAATCTCCGAGGCCCTGATG
GGCCCTCCCTCTCCCTGCAGGTTCGCAGCCAGGCCAGATTGCGGGTCCAAGTACCAGCTGTGCGTTCAGCTCCTGTCGTCCGCGCACGCGCCTCTGGGGA
CCTTCCAGCCAGACCCGGCGACCATCCAGCAGAAGAGCGATGCCAAGTGGAGGGAGGTGCGTGGGCCTGGGGGACGGGGGCAGAGGCAGATCGTCCAAGG
CTGAGGCTGTGGTCAGACGGGGCCTAGGTTCAGATCCAAGCTCTGCACCTTCTCACCTGTGCTTCCAATGCTCTGAGCTTCACTCGCTGTTTCTGTAAAA
TGGGTATATAGTGTTTCCCTCATAGAGCTCTGAAAGAAATCAGTGAAATGATGCTGGCAAAGCCAGGGCCAAAAAATATTCCAAAAGGTTGGCAGGGCGT
AGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCCAGGTAGGCAGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTGACCAACAGGGAGAAACCC
CGTCTTTACTAAAAATACAAAATTACCCAGGCGTGGTGGCACATGCCAGCTACTTGGGAGGCTGAGGCAGAAGAATCGCTTGAATCCAGGAGGCGGAGGT
TGCCGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAACAAAAAAAGAAAAGAAAAGAAAAAAAATTCCAAAA
GGTTGACTGACTGTTACTAATTACTAGTATTGATTACTACTGTTTTCTAGACTGGGGTCAGCAAATATTTGTTTGTTTGTTTGTTTGTTTTAATTTACTT
AACATATTTTTAGGGACAGGGTCTCTGTCACCCAGGCTGGCGCATTCATAGCTCACTGCAGACTCAAACTCTTAGGCTCAAGTCATCCTCCTGCCTCAGC
ATCCTGAGTAGCTGGGAGTACAGGTGTGCACCACCACTAATTAAAAAAAAAATTTTTTTTTGTAGAGATGGAGTTTTGCTTTGTTGCCCAGGCTGGTCTC
GCACTCCTGGCCTCAAGTCATCCTTCTGCCTCAGCCTCCCAAAGTGCTGGAACTACAGGCATGAGCCACTGTGCCCAGCCCTAGCAAATGTTTTCTTAAA
ATGGCGGATACGAATATTTTAGGCTTTGCAGGTCACATTGTCTCTGTCACAATTACTCAACTCTCCAACTCTGCTGTTGTGTGAAAACAGCTCTAGACAA
TATGTAAACGAATGGACATGGCTATGTTCCAGTAAAACTTTATTTATAAAAACAGGCAGTGGGCCTGCAGGCCATCGTTTGCCAACCCCAGCCCTGTCCA
ATAGAACTTTCTGTAGTGATAGAAATGGTCTGTGTCTATGCTATCCATAAGGTAGCCAGTAGCTACATGTGACCACTGAACAGTTAGTAAGAGCCAGTTC
CTAGTACAACTGAGTACCTGAATTTTTTATTTCATCTAATTTTACTTAATTTTTTTTTCTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGTTGGAGT
GCAGTGACGCGATCTCAGCTCACCACAACCTCTGCCTCCCGGTTCAAACGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCAC
CACGCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCCATCTCCCGACCTCAGGTGATCCACCCGCCTCAGCC
TCCCAAAGTTCTGGGATTACAGGCATGAGCCACCGCGCCGGGCACTTTTACTTAATTTTAACCTAAATAATACATGTGCCCCGTGATGAGTATATTGGAC
ATCCTTTGGCAGCTTGCAGTTTCTTTCCATTCCTTTGGGCTGAATGATAATCCTGTGGAGTAGACCAGCAGGATTTTGCTCCATTTTATAGATGAGGAAA
CTGAAGCACAGAGAAAGGAATTGGTCTGTCCCAAATCACAGAGTTCAAACTAGAACTCCACTGATTTCTAGCTGGCACCAAGAACTCAGCCCCTTCCTTG
TTCCCCTGCCCCCCTCAGGCAGTGCCACACTCAGAGTCTGCTCCCACCCTTTTTGTTAAGGCTCATCTTTTATTTCTTTTGTTTTTTAGAGACACGGTCT
CACTCTGTTGCCCAGGCTGGAGCGCAGTGACGTGATCACAGCTCACTGCAGTCTTGAACTCCTACTTTAGCCTGTACTCCTGCCTCAGCCTGCCTAGAAC
TACAGGCACACACCACCATGCCTGGCTAATTTTTTTTTTCTTGTAGAGATGGTATCTCACTCTCTGGTTTGCGACAAGACTAGTTGCAAACTCCTGGGCT
CAAACAACCCTCCCACCTCAGCCTCCCAAAGTACTGGGATTCCCGGTGTGAGCCGCCACACCCAGCCTGAGTCAGCTCCCTTGACCTTTCTCCCCCCTCT
ACCTGCCCTGCCAGGTCTCCCACACATTCTCCAACTACCCGCCCGGCGTCCGCTACATCTGGTTTCAGCACGGCGGCGTGGACACTCATTACTGGGCCGG
CTGGTACGGCCCGAGGGTCACCAACAGCAGCATCACCATCGGGCCCCCRCTGCCCTGACACCCCCTGAGCCCCCATCTGCTGAACCCTGACTGGTAAACA
ACTGCTGTCAGAAAAGGGCTGGGCTTGGGAAGGGGAGGTGGAGGCCAGGTGTCCCCAGACCTCTAACCCTTGCCCCTAGCAGCCTCTTCTTTGTGGAGCC
TCTCAGTGTGGGCAGCCCTCGCATGCTGGGGTCGGGCCAGCTCTCCCCGAAAGGTCTTGACCTGAATGATGGCCGGGGAAGCCTGCGTGTGCCCCTTTCA
GAGACGGAGCACCTGAGATGTGGGAGGTGCAGCATGTTCCCCTGGGCCCCTCAGAAAGTCGAGCTTGGAGGCCAGCCTGGATCTGTCTCTCCCTTCCCCT
CCTGGGACCATTCTACCTGTRTTCTTTGACCCTCGGAGCAGGGACAGGCAAGACAACTGGCAAGCTTGCAGCTGCCCTGATGGTGCAGGTGCAGGGAGGT
GACCATGTAACTCTGACCAATCTGGGAAGTGGAGGGTGGGCTCATGGGCCGTGCTCTGCCCCTGTCTGCTGCTCCCAGTCTTTCGCTCTGCCTGCCTGCT
CAGAAGAGGTGGCTTTGGCCCAGAGGCTCAGGCCGGGACTGAGATGGACAGACCCAGGGTGGGGTGGGGTCCAGGTCGGGTGTGGACTGTCCTCACTGTC
AGTGGAGCCCCAGAAGCTAGATGGGTACCAGGTGGGGTTAGGTTCCCAGAGGACTGAGGGAATCCTGTACAGGATGTCCCAGGGTAGATGGGGAGCAGGA
TTGGGACCTGCTCTGACAGCTGGACACATGAGCCCTGGATGAGTATGGTAGGGGGTTTGAAGAATCCCCTGTCCACCTCCCAAATCCAGGCCCGGCCCCC
TCTGGCTTGGAGAGCATTCCAAGCCCCCACCCCACCCCTAGAACTGCCATTCCCAAGACCTCTGTCTCCCAGCCAACCACCCTTGGAACTTGCCTCTTGT
CCTGCTGGAAAGATAGCAGTGTTCTCCTGACTTCGCCCTACTGCATGCAGCCAAATAAAAGGTGTGCCCAGTCTAACCTGTGCCCTGTGGTTTCTGGAAG
GAAAGGCAGACTTTAGGTGGTCCTGCCTGGACCTGCAGATGGTACAATGGCATGGCTTCTGTCTAAGGTACAGAGGGGTTGGCATTTCAGGAACCAGGCC
ATCACAGAAACAGGTTCATGGGCAGACCCCTCAGTGAGCTGCAGGTATCTCACCTGGCAGCCGTCCAGTACTGCTGGCTTCCTCTGGAGGCCCAGCCACA
GGCTGGGGTTGGGGTGTGTGGACATCTCTGGGCAGCTCTTGAGTCCACCTTGTGCCAGATCAGCAGTGCCACCCAGGCTCTGCCTCCTGGTGTTACTCTT
TGCCAACAGCTTTACGGACATTGGATGAAGCCGAAGCATTTAGAATGGTGCCTGGCACACAGTTGGTGCGTGATATGGTTAAGCTTTGTGTCCCCACCCA
CATCTCATCTTGAATGGTAATCCTGGGTGTTTAGGGAGAGACCTGGTGGGAAGTGATTGGATTATGGGAGCGGTTTTCCCCCATGCTGTTCTCATGATAG
TGAGTGAGTTCTCACGAGATCTGATGGTTTTACAAGTGACGGTTTCCCCGGCTCCCTCCTGCCGCCATGTGAAGAAGGTCGTTGCTTCCCCTTCACCTTC
CACCACCATGATTGTAAGTTCCTTTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGC
AATCTCAGCTCACTGCAAGCTCTGCCTCCCAGGTTCGCGCCATTCACCTGCCTCAGCCTCTGGAGTAGCTGAGACTACAGGCGCCCACCACCATGCCCGG
CTAATTTTGTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGGTGGTCTCAATCTCCTGACCTCGTGATCCACCCACCTCGACCTCCCAA
AGTGCTGAGATTACAGGCGTGAGCCACCGCGCCCAGCGATTGTTTCTTGAGGCTTCCCCAGCCATATGGAACTATAAGTCAATTAAACCTCTTTCCTTTT
ATAAATCACCCAGTCTCGGGTATTTCTTTATAGCAGTGTGAACATGGACTATAATCCAGTGCTCAATAAGTACTCCTCACATTTAGCTATCTCAGTCAAG
GGTGAGCTAGATAAGGGCTTTGGCCAGGGCAGGATCACCACCCACCAGCCCATGGCAAACTGCAAAAGGACGGCCTTCCACGGAGAACATGTAGCCCTGA
CTGCAATTAATGTGTCCTGGGCCAGTCCCCTTGTGCAGTACACAGCCTGCACAACCCTTGGTGGTTGCCTGAACAAGGTGCTTGCTAAATATTTGTTGAC
TGATGGAAGAAATTCATGAACTTAATCCTGATAAAAAACCTCAGAGGTTTTTTATTTTTTGAGACAAGGTCTGGCTCTGTCGCCCAGGCTGCAGTGCAGT
GGTACAGTCTCCACTCACTGCAGCCTCCCAGGTTCAAGCGATTCTCCCACCTCAGCCTCCGGAGGAGCTGGGATTATAGACCTGTGCCACCACGCCCGGC
TAATTTTTATATATTTAGTAGAGACAGGGTTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGCGATCCTCCCCACCTCGGCCTCCCAA
AGTGCTGGGATCACAGGCGTTAGCCACCTCCTAGCACCTCAGGTTTTTTACCTTTGAGTCTATGAAGCCTGCGGAGGTCACGCCCTAGGGAAAGAAGGAG
CCCACTGGGTGTCAGCTCCTGCCTCTAGGGAGGGGACCGCGGGTCAAGGGTGGAGCCCTGGGCCGCATAAGGAAGGAACTAGTGCGGAGGTCCGGGGAGC
GGCCGCGCGTTCGGGAGCTTCGGCCCTGCGTAGGAGGCGGGTGCAGGTGTGGGTGCTGAGCCGCCCGCCGCCTGGAGGGGGAGACAGCTTCAGGACACGC
AGGCCGCAGCGAGGGCCCGGGCCCTGGGGATCCCAGGTTCGTCTTCCCGCGGCGAGGGTTAGGGGCCGGGCCGAGAGGGACGGCAGCGGGGTCCGGGGCG
GGGGTGGGGACCGAGCGCAGCGCGTGACGCGGCGGCGGGGCCCAGCGACAACGAAGCCGAGGCCGTAGGCTCGGGCCGACCTGGAGCTCCGCCGCTGCGC
CCAGGTCGCGTCCCCGGGGGGACGGGCGGCGGGCGAGTGGGGAGCCGGGGTCTCCGGCGCCTGGGCGTTCACGGAGCCTGCGGGCGCTGGTCCGGGCGGC
CAGGGGTGGGGGGCGCGGGCGGCTGGGCCCGGACTTCGACTGGGGGCCTGGCCCCGGGGCCACCCAGGCGGAGGCTCTGCGGCCGCCTCCACCCCGGCCA
CATCCCGAGGCCGGCGCCGGGTTCGGAGAACTGTCAAGGGACCTCCAGGCCCCCACACGCCTGCGAGATCCGGCGCTTGCCTTGCCCCAGCCACAGTTTC
TGTTTCCGAGAAACCGGTGAAGTAACAATGCCACTAGAGCTTGCTGGGAGGGTGGGTGCGGAGAAGGCGAGCACGAGACGCCGGGCCGGGCAGTTGGGGA
CCCCGATCGGTGTGAGAGGGCTTCCTAGGGCTGGCATGGACTTCCCCACCACAAAATGCCCMGGGCCGGGGGGGGGAAGGGGCGCAAGAAAATGCGGACT
GGGCCAGAGACCAGACTTCGGTCACCACGGTGGGAAGCTATTGGTGCCTAGATGCCTCTAGCTTGGAGCCCAGTGACTTTTATTTCGTCTAGAGTCTAGA
CAGTGCCTTTAGAAGCTGCCAGCATTTATTTATTTATTTATTTATGGCAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCACGGCTCA
CTGCAGCCTCGACTTCCTGGGCTCAAGCGTTCCTCCTGCCTCAGCCTCCTGCATAGCTGGGACTACAGGCACGGGCCACCAGGCCTAGCTAATTTCTTTT
TTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTGTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAAGCTCCGCCTCCCGG
GTTCAGGCCGTCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCTGCTTCTCGAGTAGCTGGGACTACAGGCACCTGCAACCAAGCCCGGC
TAATTTTTTGTATTTTTAGTAGAGATGGAGTTTCACTGTGTTAGCCAGGACGGTCTCGATCTCCTAACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGT
GCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGATTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTG
GCACGATCTCGGCTCACTGCAACCTCCGCTTCCCGGGTTCAGGTGATTCTCCTGCCTCACCCTCCCGAGTAGCTGGGACTACAGGCGTCCGCCACCACGC
CCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATATTGGCCAGGCTGGTCTCGAACTCCTGATCTTGTGATCCGCCCGCCTCGGCCTACCG
AAGTGCTGGGAATACAGGCCTGAGTCTGTGCGCCCGACCTAATTTCTTTTTTTCTAGAGACRGTCTCACTATGTTGCCTAGACTACAAGCATTTTTAATT
GACAACTTTTACATTTTTTTTCAAATGCTTACAGTTGCTTCTCAGAACTTAGAAGACTTGGCCACATTGGGTTTTTTTGTTATTTTTTTTTTTCCATCAA
AGCATTTTTCTTTTCTCTTTTTTTTTTTTTTTTTTTGAGACAGTTTTGCTCTGTTGCCCAGGCTGGAGTGCCATGGAGCAATCATGGCTCACTCTGCTCC
AGCAGGCTCCTTCTTTCCCTAGAGTGTGACCTCGGCAGGCCTCATGGACTGTAAGGTAGAAAAATCTGAGGGGCTGGGTTCGGTGGCTCACACCTGTGAG
CTACTGCAGCCTTGACCTCCTGGGCTCAGAAGATCCTGACGCCATAGCCTCCCAAGTAGCTAGGACCATAGGCACTCGCCACTATGCCCGGCGAATTTTT
TCACTATTTATAGAGACGGGGCCTCCCTGTGTTGCCAAGGTTGCAAAGCCTTTTTTCTTTTCTTTTTTTTTTTTTTTGAGACGGTGCCTTGTACTGTCAC
CCAGGCTGGAGTGCAGTGGYGCAATCTCGGCTCACCACAACCTCCGCCTCCCAGGTTCACACGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGATTAC
AGGTGCACACCACCACGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTGGCCAGGCTGGTCTCGAACTTCTGACCTTGTGAT
CCGCACCCCTCGGCCTCCCAAAGGGCTGGGGTTACAGGCTTGAGCCACCGCACCCGGCCTGCAAAGCATTTTTCACGAGGCACAAGTACCTCACCTGTTT
TCTCTGCCATGTAAAGTGTTCCTCCCTGGGCAGAAGTGAGCATGCACCCACCCTCCTGTTTTCTGAGATGGGAGCCTTCAGAAGACCATGAACTGCTGCT
TTGGCCAAGCCTCTATGGAAAATCAGAAGAGGCCACAGCAAAAGGCTGGGTACASTGGCTCACACCTGTAATCCCAGACTTCAGGAGGCTGAGGCGGGTG
GATCACCTGAGGTCAGGAGTTCAAAACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCGGGCACC
TGTAATCACAGTTACTTGAGAGGCTGAGGCTGGAGAATTGCTTGAACCCAGGAGGTGGAGATTGCAGTGAGCCGAGATCACGCCATTGCACTCCAGCCTG
GGCAACAAGAGTGAAACTGTCTCGGGGTGGGGGGGAAGAAAAAAAAAAAGAGGCCAGCAAGGTTCTGTTTCCCTGCTTGTAGGTGGAGAACATTCTCTCC
TCATGTGTAAGCAGATGAGGCCCACCTGAGTGACAGTGCAGAGCCCTGGCTGCCGGCCAACCCCCACCTACCTGGGGCAAGTACCTGGGATCCCCTTAAG
AGGACTAACCAGGTGCCCCCAGGTAACAGATTCAGGCCAGGGCTGTGGCACTGCTTGAAGTTTTCCAGAACCCGTGCGCAGTGCAGAGGTACAAGGAGGA
CAGTGTTGAGAGCCGGTTTGTGCTGACAGCAATGCTGACTGAAGCTCTGTGCTTCACTTGGTCCTCCTGGCCCTTCCAGGGTCGGGACAGTTACCCCCTC
CTTTTCACAGCTTCCCAACTGGTCACTGCAGACCAGGATTCAAACCCAGGCAGTCTTCTCAGCCACCCTCCATCTGATTTTTTTTTTCCGGCCATCTCCA
AGTGGATTCTGGCCTGACACCAAAGACAGCTCAGCCGGGTGCCGTGGGGGATTCCCATGGGGTTGTTTTATCACATGTGACTTCCAGGCCAAAGTAAGCT
TCTGGAGATAGGAAGGTGGTTTCTCAGCGCTAGCTCACCACTAAATGAACATTAATGAGTCTGGGATGTAAAACTGATTTTATATTCTGGCCGGGTACGG
TGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCATGGGGTCAGGAGATTGAGACCATCCTGGCTAACACGATGAAACCCCGTC
TCTACTAAAAATACAGAAAATTAGCTGGGTATGGTGGCATGCGCCTATAGTCCCAACTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGG
CGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAGATTTTATATTCT
AACAGTGAATCCAGAGCATTAAAATAACAATCACCAAAACCCTCACAGAACTTTGCAGACAAGTGTGGCCTCCACAAAATCTTACAGTCCACACAACCCA
CTGGCTTTAAAATTAAGCAATTTTTTTTAAATTGGGGAGGGGCCTTTTAAAAAATGTGTCTCTAAAGACTTTACTATTTGTATTGCACTCTTCTGAATGT
GTGTCCCATGACTACTCTTTCCACTGAGGGGCTACTGTTTACTGGAAGGACCCTCAGCCTCAGAAATGCTCTTTTGTGGKTTTTTTTTTTTTTTTAGCCA
GAGTCTTGCTTGGTTGCCCGGGCAGGGGTGCAGTGGCGCGATCATAGGTCACTGTAGCCTTGAATTCCCAGGCTCAAGGGATCCTCTGCCTCAGCCTCCC
AAGTACCTGGGACTCCAGGCATGTGCCACCACACCTGGCTAATGCAGGGTTGGAGAGGAGTCCCTGGCCTGGTTCCCTGGGGACCTGAGGGCCCACYTCC
CTGGTCAGGCTCATAACTGCTGTTGCCCCCACAGGCCATGGATGCTCCCCACTCCAAAGCAGCCCTGGACAGCATTAACGAGCTGCCCGAGAACATCCTG
CTGGAGCTGTTCACGCACGTGCCCGCCCGCCAGCTGCTGCTGAACTGCCGCCTGGTCTGCAGCCTCTGGCGGGACCTCATCGACCTCATGACCCTCTGGA
AACGCAAGTGCCTGCRAGAGGGCTTCATCACCAAGGACTGGGACCAGCCCGTGGCCGACTGGAAAATCTTCTAYTTCCTACGGAGCCTGCATAGGAACCT
CCTGCGCAACCCGTGTGCTGAAGGTGGCATGGGGGCAGGGTGGAGGCTGCCACCAGGCTCGTTCCTTCTCATCCTTGGGCCTTGGCACTTGCAATTCCCA
CACTACCTGGAATATTCTCTAACCCTAAACACCCACCTCACTTCCTTGGTTCCTTCTCATTCTTCAGGTCTCAGTTCAGAGACCTGCCCTGTGCTCCCAA
TCTAAAAACAGCCCTCTCCACCTCTAGCATAGCACCCCCATTTCATGCCCTGTAACACTTTTCACAAGGCGCGGTGGCTCACGCCTGTAATCCCGGCACT
TTGGGAGGCCGAGATGGGCGGATCACCTGAGCTCAGGAGTTAGAGACCAGCCTGGTCAAAATGGCAAAGCCCTGTCTCTACTAAAAACACACAAAGTTGG
GCATGCTGGCCCACGCCTACAATTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCGGTGAGCCGAGATGGCT
CCATTGCACTCCAGCCTGGGTGACAAGAGTGAAACTTTTAGTCTCAAAAAAAAAAAAAAAATTTTTTTTTCAGAATTTCCTTATTTTTTTCTGCTACAAA
CTTCAAGCTCCAGGGGCCAAATGGACCTTGTTTGCCACACTATAGCATCCACAGTGACACCTTCACATATACACACACACACATATGTATACATATACGT
ATATACACATGTATACATATATACACGTGTATACATATACACATGTATATATGTATATATGTACACATATATACGTATATATACATATGTATACATATAT
GTGTATACATATATACATATACATACACACACACACACACACACACACACAAGTAGTTGGGATTACAGGCGCCCACCACCATGCCCAGCTAATTTTTGTA
CTTTTAGTAGAGATGAGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAATTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTA
CAGGCGTGAGCCACCACACCGCCGGGGGCGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCTGAGGCGGGCGGATGACGAGGTCAGGAGATCGAG
ACCATCCTGGCCAACAAGGTGAAACCCCATCTCTACTAAAAATGTAAAAAAATTAGCTGGGCGTGGTGGCAGGCACCTGTAGTCCCAGCTACTTGGGAGG
CTGAGGCAGGAGAATAGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCGTCT
CAAAAAAAAAAAAAAAAGTGCCCTGGTGATTGCCTGGGCAGCGCCAGTAGAGAAGCGCCATTGTCTTCTAAGGTCCTCTAAGTTCAGTGTGAAGAGGGTG
ATTGCTCCCCTGCACCCACCAGGCCCACCTAATGGAGGCCCACCCATGAATGTTACCACAGCGCCCAGCCCAAAGGGTACCTGTTCTTCCACTTGGCACT
CTTGCCCTGGGCAGAGGCCATCTGAGCCCTATGGGAATCTTGGTTCCCATGACCCACCGACAAACCCACAAACCCATCCTCTAGGGCCTCCAACCTGGGT
TATGTAGTTAACCAAGGGCCTCTCCCTCCTGGACATCTGGGATGCCATCTGGGTCAAGTAAGCAGTCTGTGTTGGGATGAACACGTTAGCCTTTTTTAAA
AAATTATTTTACTTATTAAAAAAAAAAGGGGGGGGGGTGTCGCTATGTTCCCCAGGCTGGTCTTGAACTCCTGGGTTCAAGCAATCCACCTGCCTTGGCC
TCCCAAAGTGCTGGGATTACAGGCGCAAGCCACCGTGCCCGGCTTCACATTAGTCTTTGAGGACAGTACTCTCACAGGCCTCTCGTAATTTTTTGAGAAC
TGATACTTGGGTATTTCCCAGAGTTCCACCGCAACATGGAAGTGAGGAAGGGGTTGGTTTAGAATTTCTGGTAACACGCATTCTTTTCTCCAGCTGCGTG
TTAGGAGTGAGGCCAGTTTGGGACTGAGTGGGAGGGACAGAGTCAGATCAGAGCTGATATGGTGAGGACAGTTGGGAATGTGTTGGAGGGGTGCTTTGTA
GGGGTGCTCCAAGGTGCAGTTGGGGTACACTTGGGCTGGTGGGGTACCTTGGCCACACAATGCCCTTGAGAAGGAACAAGCTGGTTAACCCTTTGGTGTC
CACAGCCSCAGAGACCTGAGCATGAGCAAGTCCTGCCTCCCAAGAAGGTCACTAACGCCAACCACCCTCCCTCCCGCCCTCCTGGGACTAAGTGGGGAGG
GCTGGACTTTGGATTTACACAGGGGGTCTCACCTTGGCTTCTGTTCTTCCTAGAGGATATGTTTGCATGGCAAATTGATTTCAATGGTGGGGACCGCTGG
AAGGTGGAGAGCCTCCCTGGAGCCCACGGGACAGATTTTCCTGACCCCAAAGTCAAGAAGTATTTTGTCACATCCTACGAGTAAGGCAAACTGAACCTAC
CAGGCTTGCGTGGAGGGGACAGAGGGTCAGGACACCTTTGCCAAGTCTCAGGCAAAGTCTTCCTAAGGGAAGTCCTCTCTGCGAAGCTCGAGGGAGGTGG
CCCCAAAACTTGCCCAGAGTCACTGCTTCCTGAAATCACTCAGTGCTGTGTTAATGGACAGTGGGGGTGGGGATCACTGAAGCAGGCCAGGAGTCCATTG
GGCAGTTAAGATAAGCCAGGGCTATCTACAGGCATCTGTCCGTAAGCTAGGAACTTGAGTTTACAAAAGTGCCCTGGAACAATGGGCCTTTGGACTGGGA
TCAAATGCCGCCCAGGCACAAGTGGGTCAAACTCCCTCCTGYACTGGAGGAAAAGCCAGAGTCAGCCCCAGCCAGTGCCTGTCCCGCAGCGGCCAAGGGG
TACCCTAGGTCCCCAAACCACCTCCCTGGGCTCACAGGGGCTGCCAAGGCCTGGGTGAGGGGGGGGGCCATGCAGAGCACACCCAGGTATGCAAGCCCCC
AACTCTGCTCCCCAGAATGTGCCTCAAGTCCCAGCTGGTGGACCTTGTAGCCGAGGGCTACTGGGAGGAGCTACTAGACACATTCCGGCCGGACATCGTG
GTTAAGGACTGGTGAGTAGGGTCCATGGCCTGTGTCCCCACACTCTACATGCTCCTCTTACTGCGCTGCATGTACGTGAGACAACCCATAGCAAGTGCCC
ACTCTGCACAGCAGTGCCCTGGAGCCAGGTAGCCCCGGCCTCCGCCCCTGCTCTGCACCCACACCCTGCGGCACCTCCTGGCCTCCCCACCACCCTGTGA
CGTAGTCAACAGGACACAGTAGCCCCAGTGTGCAGGTGAGGAGGCTGAGGCCCCCAGGTGCACTGTCATGGACAGGCACTTTTTTTTTTTTTGAGACGGA
GTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCCATGTTCAAGCGATTCTCCTGCCTCAGCATCCTG
AGTAGCTGGGATTACAGGTGCCCACCACTACACCCGGCTATTTTTTTTTATATTTTTAATACAGACAGCGTCTTACCATGCTGGTCAGGCTGGTTTCAAA
CTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCAGCCACTGTGCACTGACAGGCACTTGG
GCAACAGAGGACCTCAGCCCTCTCTGGACTGGGTGGGAACCCCCAGGTCCCCTGACCTACCTGCCTCCCCTGCCCCTTTCCCTATTCATCCCATGACTCT
TTTTGGAGCTCCTACTCTGTGCACAGAACTGTGCCAGGCTCTGGCTTGGCCGGTGGCAGAAGCAGGACCCCAGTTCTAGGCAGGCCCCAGGGCTGCCACT
CTGAGGATAAAGCGGTGAGGATGGAGGGGTATGCAGAGCTGCAGGGGGGAGAGGTGGCTGGGYTGAGCAGAGGGTGAGCTTTGTGCCAGCCCCATTACAC
AGGCCACCCCCTTGACTCTCCCACTGAATCCACAGCCTGGTCCATTGTAAGTACAGGTGACATGGCTTGGACAGACCAGGCCTCTCTGGAGGGGTCTTTT
GATTTYTGAGGTCATATCTTTAGTAGGATGCCCAAAAGGGTCCCTCTTCTCAGATGGGGTAACAGAGGCCAGCATGGACAGACAGCTTATCCCCGGGCCA
CAGTGGGGCATAGGGAGCGCTGAAGCCAGCTGGGCCTTGCAGGCAGAGCAGTGTCAGCTGATGGGAGATGAAGCTCCGAGCTCCAATGTATAGGTCCCAC
CTGCCCCCACCCCTGGGGCCAGCCCTCGGTGGCTTGGACACAGGGCTCTCAACCCCTCCACCAGGTTTGCTGCCAGAGCCGACTGTGGCTGCACCTACCA
ACTCAAAGTGCAGCTGGCCTCGGCTGACTACTTCGTGTTGGCCTCCTTCGAGCCCMCACCTGTGACCATCCAACAGTGGAACAATGCCACATGGACAGAG
GTGAGGCCTCACCCACTTGCTCTCTCTACCCACTCCTCCCAGGGCCAGGATGGCAGGAAGCAAAGGGCAGCCTCAGGGCCCAGGGTGCCCCTGCTGGCCT
GGAGCTGTTGCCTTCCAGCCTGGGCAGCTCTCTTAGAGGACCTGGCTCCTGCCTTCCCCTCCCCCGTCCCGGTGGTCACTTCCTCTCCCTTCCTCCCAAC
AGGTCTCCTACACCTTCTCAGACTACCCCCGGGGTGTCCGCTACATCCTCTTCCAGCATGGGGGCAGGGACACCCAGTACTGGGCAGGCTGGTATGGGCC
CCGAGTCACCAACAGCAGCATTGTCGTCAGCCCCAAGATGACCAGGAACCAGGCCTCCTCCGAGGCTCAGCCTGGGCAGAAGCATGGACAGGAGGAGGCT
GCCCAATCGCCCTACCGAGCTGTTGTCCAGATTTTCTGACAGCTGTCCATCCTGTGTCTGGGTCAGCCAGAGGTTCCTCCAGGCAGGAGCTGAGCATGGG
GTGGGCAGTGAGGTCCCTGTACCAGCGACTCCTGCCCCGGTTCAACCCTACCAGCTTGTGGTAACTTACTGTCACATAGSTCTGACGTTTTGTTGTAATA
AATGTTTTCAGGCCGGGCACTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGACCGAGGCAGGTGGATCACGAGGTCAGGAGATAGAGACCATCCTG
GCCAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGATGCAGA
AGAATGGCGTGAACCCGGAAGGCRGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGGCTCATAAAATAA
TAATAATAATAAATAAATAAAAAATAAATGTTTTCAGTAAAACCAGCCTGGGGTTGGTTTTAGGAGTGGGGAGAGGGGGTCCCTGGCATTTTGGTGGAGA
AGCAGCCCCTCTCCCAGGTTACCCTGGCCATACCTGTCCCTCCCACTCCAGTTAATGATGGCTCAGCTCAGCCCAGCCCTTGGGGCCCCTTTATTGAAAC
AACTCACAGCACAGTATTTGAGACAGACAGTGTTGGCCGGCGGAACCCCAGGAGGCTGAGAAGTCGAGGTTGCGGCATCCCTCACTGCCCTCCTGGGGGA
GGCATCCTCCAAGCAGACCTGAGCGGCCCCGGGCTGGGGCGGGCGATCCACACACAGAGGCGATAAGAGCACTTGGAATCAGGGCAGCCATGCAGCACTG
CCCTAGGCGGGGATCCCCCAAAGTCTGACAGTTTGGGCATCAGTGGGGTGGCAGGTGCCCCCTCAGCTGCCTTTATGAGCGCGCTCTTCCACGTAAAGCT
GCATCTGACGGACACAAGCAAACAGCCACAGTCAGCAAGACAGCCAGGGCATCCCTGCTGGAGGACACAGAAGCCCCTGGTGGGCAGACCTCCACCACAG
GTGGGGCCTCGTGGCCATAGCCATGGTGGAGAAGAGTAGAGATGGGAGGAGCCCTCCACCAGGCACTCCCCCGTTCTCTCCCGCAAGCCCTCTAGTAAGG
CCTCAGCACCGGGCCTCACTTCGTTAAGCAGCCCCTAAATAAAGCTTCCCGGGTCCCCACGAAGCTCACCTTTAAAATGTCCGACGTCATGGTTTTTAGT
GGTATCAGCCGGGGGTCATGCATGTGGACATCCTGCTCATCCGCCAGGATCCAGGGGAAATCCTAGGGAGGAGACMMAGGTCAGGGGGGTGAYGGGGCTR
GGCCCTGGCCTGCCCTCACTTTGCTGTCCCTCCCACTCCAGACCAGGGGCCTCCAACCTGAGCCTCAGAATCACTAGGAAGCTGTTGGTGATGCAGACCC
CAGGACCGCCCCCATCCCCCACAGAGGCCAAGTCCATAGAACCCAAGTGACGAACAGGCTCCAGGCACCAACGCTGAACCTGGTGGGCTAGGACCCCTCC
CTGGAGAGCCCCCACTTCAGAAGAGCCAGGATGAGCTGGGGGCCCCAGTAGGTGGCTCCACCTGGGCTCCTCACTGCCCCAAGTGCCCAGATGGAGCAGT
GGACAGGCCTGAGGACCTGCTGGGTGCCAGGCGCTGCCACACCAATGTAATGGGTGGCTGGCCACAGGCAGTGCCCCTGCCCGCCTGGAACTGCGACATC
ACGTTTCTAGAGCCTGCGCCCAGACCCAGACCCATCTCATCTCACCTTGATGACCTGGATCTTCTCCATGTTGCGAGTGGCGGCTTCTCTCGTGTGCACC
AGGACTGTGAAGGTACAGCCTGGAGAGGCAAGAGGTTGGTGGAGGCTCCCCCACCGCCCTGGTGCCAGCCACTGGGCCCAGCCTCTTCCCACTTCCCTTG
CTGGCTCRGCAGCACCCCCAGAGCAGATGGCAAAGCAAGTGCTAAGAAAAGCCCCAGTCAATAGGGAGATGGAAGCCAGGTAGAATCAATCAGGGAAGCT
TCCCAGAGGAGGTGGACTCTCAGGGTTAGGAAGAGATGAGTCTCAGAACAGCCAAACATGGACCTGGGAACACAGACCAACCCGAGATAACCATGGAAAT
GCCAAGGGAAGAGAGGGTGGGGAGTGGACACACCTGGGGGGTTGTGGTCCAGGACGGCATCRCACACGCTGATCTTCAGGATGAAGGCCCGGAGCAGCTG
CTCCACATGAGACAACAGCGAGTCTGAGCTGGGAGTGAGAGGAGGTCTTCCCATCACACTGGCGCCCTCCCCTCCACCACAGGCATCAAGCCTGGATGCA
GACCTGGGGTACAAGACCCCCTCCAGTGCCTGTGAGAGTGCTGCATGCCTAGGACCCAGCTCCCTATCCGGTCCACACAATTAAACCAGCAAGGGAGTTT
AAAAGAAATGCCCAGCCCCACCCCAGATAAAGTCAGAATTTGGCGGGGGGTAGGGGACAGGGGAGGTAGGGGCAGCCTGAGGAGGCCTCCCTAGGTGGTT
TTAATGTGCAGCCAGGACCCAGAACCAGGACACCAAGCCAGGAGGGGAAAGGGCTTGCCTAAGGCCACACAGGCCGTGGGGACAGGTTGGTGCCAGATTC
CAGTGCCCTGACCTCACCATTGGAAGCATGCAGTTGACCAACTAACGCATGTGCCAGAGGTCAACTTCGAGTTGACTGGACACTTGCCTGGGGAGTCAGA
AAACTGCTTCTGTGTCCTGGGCTCTGCCCCCACCCAGGTGRCCCTGGGTAGCTCATGTCATCTCTCTGGACCCATCTCAGCTGCTCACAGGCTGTCCCCT
TGTCATGCTGGTGCTTCTTGCCCTTTCTCCTCCCAGGCCTTTACCAAGGTATTCAAGGGCCGCCTTAAAGGGGTGGGTGTGTTGCCAGAGACACACCTGA
TGCCAGCTAGTGGGCGAGGGGCAGGGGCAGCCCACCTGATGGACAGCAGTGGAGGCTGGGTGATCTCAAAGACGAATTTCTCCACTGGGCGGTGCTCTTT
ATCCAAAATCACCACCACCACTTTCTCCACATCATTCTGCAAAGAGAGGAACCCCCACTGCAGAGCCAGGCACCCCACCCCCACTACACCACCCTGCCTC
CACCCCCTTGCCCAAGGAAGGAGGAGAAACGGCCCACTCACAGCCCTGCTCAGCTGCTAGGCTGGGGGTCCCCAAGAGGCCAGATAGCGAGTTTGAGAAG
CCGGCACCCTCCAGCATGAGTGGTGTAGGCTGAGAGAATGCCCGGGCCCCATAGGGAAGGTCCCAGGAAGTCTGAGATCAGGACTAGATGGGGAAGAAAC
CCTGAGGGGCTCAGCTCAGACAGAACGTTTAGCGTGGAGAACAGGGGACGGATGTGAGAAGAACCCCGAACCCTCTGGGGCAGCCCCTACTTAGAGCCAG
CTCCAACCCGGGCTCCCAGGCCCAAGGCACCCTGAACATGGCCCGCATGCCTTGGGGCCTGCCCCTGGGTTGGGATGGTCTCCAGAGTGCAGGGAACAGG
CTTCTGGGTATTGGAGCCATGAAGACCCCACAGAGTCCTAGCTTCACCCCATCCCAGAGTTGGACTGTGAGCACACAGGGACGGGGGTGAGCATGGGGTG
AGATGGCTGGGGAGCCCAGTGCACCCTCACCTTCTCCAGGAGTGGCTTGACGCAGTGCAGCGTGTCCTGGATATACTGATTCAGCTCCGGGTGGCAGGAC
ATCTGCACACAATACCATGCGGCTCGTGAGGCCCAAAGCACAGATGGGGAAACCACCCAACACAACCAGGAGCCTAAGGCCCCATCTGCCTTCGGTCCGA
GGCCCAGCAGCTCTCCAGGGCTCCCTACCCAGGAGACCCCACTTTCCCTCAAGAGGCTAAGAACTGGCCGGGCATGGTGGCTCACGCCTATAATCTCAGC
ACTTTGGGAGGCCGAGGCAGGTGGATCACAAGGTCAGGTATTCGAGACCAGCCTGGCCAATATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAG
CCGGGCATGGTGGCAGGCACCTTAGTCCCAGCTACTTGGCAGGCTAAGGCAAAAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCA
CGCCACTGCACTGCAACATGGGCAACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAACCAGAGGCTAAGAACTGTGAACTTATCCATAGAGAAAG
AAGTTAGAAGATAAGAACTCAGGCTGGGCACAGTGGCTCACTCCTCTAATCCCAGCACTTTGAGAGGATGAGGTGGGTGGATCACCTGAGGTCAGGAGTT
TGAGACCAGCCTGGCCAAAATGGCAAAACCCCATCTCTACTAAAAATACAAAAATTGGCCAGGTGAGGTGGCACCTGTAATCCCAGCTACTTGGGAGGCT
GAGGCAGGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCAAGCCACTGCACTCCAGCTTGGGCAACAAAGCAAGACTCCATCTCA
AAGGAAAAGAAAGATAAGAACTCAATCCCAATATGAGCATTTAATATACCATTAGGGGTTCTTAATGTGGGGTCCATGGACTCCTCCAGAGTCTGAAAAA
TCCCTAAAGTTGTATCTTTGTGCACTTGGGCATTTTTCCAGAAAAAGGATCCAGGAAAATGTAATCAGATGTCAAAAGTTAAGAACTAAGGAACTGTGTG
GCCTCAGGCAAATTCCTTAACTTCTCTGGGCTTCAATCACTTCATCATAAAGAAGAAGTGAGTAAATGTCAATTGTTTTTTCCTTTCCCCTCTAAAGGTG
ACCTTCAACTTACTATGGGTTTATGTTTGGATAAACCAATCAAATATCGCCAGCGGAAAATGCAGTTAATACACATAACATACAGAACATCATAGCTTAG
CCAGGCCTACCTAAACACACTCAAAACACATTAGCCCACAGTTGGGCAACATTATCTAACACAAAACCTGTTTCATAATAAAGTGCTCACGCCTGTAATC
CCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCAGAGGTCAGGAGATCGAGACCAGCCTGGCCAACACGGCGAAACCTTGTCTCTACTAAAAATACAA
AAATTAGCCAGATGTGGTGGCACACGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGC
CAAGATCACGCCACTGCACTCCAGCCAGGGCGACAGAGCGAGACTCAGTCTCAAAAAATAAAATAAAATAAAATATAAAATAAAAAATAAAGTGCTGACT
ACCTCAAGTAATGTCTTGAATACCATACTGGAAGTGAGAAAACAATGGTGGTGTGGGGACTTGAAGCGGGGACCACCTGGATGTCCTTTAAGCTTCTACC
ACTTATTCTCATGTTTCCTGAGTGCCTTCCAGAGACAGGCACTTCTAGGGACTGGAGCTACAGTGCGATGCACACTGCTTTGTCTGCCTTTTAGCCTTAA
CCCATTGAGTTTAGGATAAATGGTAGGGAGAAGATTTGGAGGTTTTTGGAAATACCCTCCTCACACCAAGGTTCACCAGCTTCACGAGCTCCTTCAAAGT
GCCACCATGCCCCCAGGGTAACTTTTTTTTTTGGAGACATAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTGGGCTTACTTCAACCTC
TGCATCCCGGGTTCAAGCGAGTCTCCTGCCTCAGCCTCCCTAGTAACTGGGATTACAGGCGCGTACCACCACACCAGGCTAATTTTTGTATTTTTAGTAG
AGACAGGATCTCATCATGTTGGTCAGGCTGGTTTCTTGAACTCCTGACCTTGTGATTCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAG
CCACCATGCCCGGCCACCCCCGGGGTAACTCTTATCAGGCCTGGTCCCTAACTTCTGGCAAGGGGAACTCTCTTCTGAGGGGTGGGTAGGCATCACCACT
TTGGAACTGGAAGGCATTGGAAGGCATGGGCAGGGCCCTGCGGAATGAGGTGGCTTGGCCCGAAGTGGAAGAGGTTTTTTTTTTTTTTTTTTTTTTTTTT
TGAGACGGAGTTTCGCTCTTGTCACCCAGGCTGGAATGCAGTGGCACAATTTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGGGATTCTCCTGCCT
CAGCCTCCTGAGTAGCTGGGATTACAGGCCTTGGCCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTTGTCAGGCTGG
TCTCGAACTCCTGACCTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACGGCGCCCGACCAAAGAGTTTTTAAAAG
TCCACCCTGTACCCACTCTGTGGTTCTGGGACGTGCCTCA


SNP Information

Context             (SEQ ID NO:40084):
CTCCACCAGGTTTGCTGCCAGAGCCGACTGTGGCTGCACCTACCAACTCAAAGTGCAGCTGGCCTCGGCTGACTACTTCGTGTTGGCCTCCTTCGAGCCC
M
CACCTGTGACCATCCAACAGTGGAACAATGCCACATGGACAGAGGTGAGGCCTCACCCACTTGCTCTCTCTACCCACTCCTCCCAGGGCCAGGATGGCAG
Celera SNP ID:            hCV16187720
SNP Position Genomic:     15256
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,10|C,1489)   total(A,10|C,1489) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40085):
AATGTCCGACGTCATGGTTTTTAGTGGTATCAGCCGGGGGTCATGCATGTGGACATCCTGCTCATCCGCCAGGATCCAGGGGAAATCCTAGGGAGGAGAC
M
AAGGTCAGGGGGGTGACGGGGCTGGGCCCTGGCCTGCCCTCACTTTGCTGTCCCTCCCACTCCAGACCAGGGGCCTCCAACCTGAGCCTCAGAATCACTA
Celera SNP ID:            hCV8862311
SNP Position Genomic:     17076
SNP Source:               Applera
Population(Allele,Count): african american(A,32)   caucasian(A,29|C,1)   total(A,61|C,1)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,9)      total(A,9|C,2) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40086):
ATGTCCGACGTCATGGTTTTTAGTGGTATCAGCCGGGGGTCATGCATGTGGACATCCTGCTCATCCGCCAGGATCCAGGGGAAATCCTAGGGAGGAGACA
M
AGGTCAGGGGGGTGACGGGGCTGGGCCCTGGCCTGCCCTCACTTTGCTGTCCCTCCCACTCCAGACCAGGGGCCTCCAACCTGAGCCTCAGAATCACTAG
Celera SNP ID:            hCV25604083
SNP Position Genomic:     17077
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,1)   caucasian(A,30)   total(A,63|C,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40087):
CAGGCAGGAGCTGAGCATGGGGTGGGCAGTGAGGTCCCTGTACCAGCGACTCCTGCCCCGGTTCAACCCTACCAGCTTGTGGTAACTTACTGTCACATAG
S
TCTGACGTTTTGTTGTAATAAATGTTTTCAGGCCGGGCACTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGACCGAGGCAGGTGGATCACGAGGTC
Celera SNP ID:            hCV8862314
SNP Position Genomic:     15880
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,9)      total(G,1|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40088):
TGAAGGTACAGCCTGGAGAGGCAAGAGGTTGGTGGAGGCTCCCCCACCGCCCTGGTGCCAGCCACTGGGCCCAGCCTCTTCCCACTTCCCTTGCTGGCTC
R
GCAGCACCCCCAGAGCAGATGGCAAAGCAAGTGCTAAGAAAAGCCCCAGTCAATAGGGAGATGGAAGCCAGGTAGAATCAATCAGGGAAGCTTCCCAGAG
Celera SNP ID:            hCV1256471
SNP Position Genomic:     17708
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,1)   caucasian(A,2)   total(A,23|G,1)   
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,12|G,2)   total(A,39|G,3)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   JBIC-allele(G,335|A,1158)   total(G,335|A,1158) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40089):
AGAAGGCGAGCACGAGACGCCGGGCCGGGCAGTTGGGGACCCCGATCGGTGTGAGAGGGCTTCCTAGGGCTGGCATGGACTTCCCCACCACAAAATGCCC
M
GGGCCGGGGGGGGGAAGGGGCGCAAGAAAATGCGGACTGGGCCAGAGACCAGACTTCGGTCACCACGGTGGGAAGCTATTGGTGCCTAGATGCCTCTAGC
Celera SNP ID:            hCV27461736
SNP Position Genomic:     6762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40090):
TCCCAAGTACCTGGGACTCCAGGCATGTGCCACCACACCTGGCTAATGCAGGGTTGGAGAGGAGTCCCTGGCCTGGTTCCCTGGGGACCTGAGGGCCCAC
Y
TCCCTGGTCAGGCTCATAACTGCTGTTGCCCCCACAGGCCATGGATGCTCCCCACTCCAAAGCAGCCCTGGACAGCATTAACGAGCTGCCCGAGAACATC
Celera SNP ID:            hCV25604094
SNP Position Genomic:     10497
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,6)   caucasian(C,38|T,2)   total(C,66|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:40091):
TGGGAGGTGCAGCATGTTCCCCTGGGCCCCTCAGAAAGTCGAGCTTGGAGGCCAGCCTGGATCTGTCTCTCCCTTCCCCTCCTGGGACCATTCTACCTGT
R
TTCTTTGACCCTCGGAGCAGGGACAGGCAAGACAACTGGCAAGCTTGCAGCTGCCCTGATGGTGCAGGTGCAGGGAGGTGACCATGTAACTCTGACCAAT
Celera SNP ID:            hCV16187729
SNP Position Genomic:     3521
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,289|G,1202)   total(G,1202|A,289) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:40092):
CCTGTTTTCTGAGATGGGAGCCTTCAGAAGACCATGAACTGCTGCTTTGGCCAAGCCTCTATGGAAAATCAGAAGAGGCCACAGCAAAAGGCTGGGTACA
S
TGGCTCACACCTGTAATCCCAGACTTCAGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAAACCAGCCTGGCCAACATGGTGAAACCCTGT
Celera SNP ID:            hCV27458787
SNP Position Genomic:     8755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40093):
ACCTCATCGACCTCATGACCCTCTGGAAACGCAAGTGCCTGCGAGAGGGCTTCATCACCAAGGACTGGGACCAGCCCGTGGCCGACTGGAAAATCTTCTA
Y
TTCCTACGGAGCCTGCATAGGAACCTCCTGCGCAACCCGTGTGCTGAAGGTGGCATGGGGGCAGGGTGGAGGCTGCCACCAGGCTCGTTCCTTCTCATCC
Celera SNP ID:            hCV25604095
SNP Position Genomic:     10774
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,38|T,2)   total(C,68|T,10)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40094):
TGGTATCAGCCGGGGGTCATGCATGTGGACATCCTGCTCATCCGCCAGGATCCAGGGGAAATCCTAGGGAGGAGACAAAGGTCAGGGGGGTGACGGGGCT
R
GGCCCTGGCCTGCCCTCACTTTGCTGTCCCTCCCACTCCAGACCAGGGGCCTCCAACCTGAGCCTCAGAATCACTAGGAAGCTGTTGGTGATGCAGACCC
Celera SNP ID:            hCV1256473
SNP Position Genomic:     17100
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,26)   caucasian(G,30)   total(A,8|G,56)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40095):
TTTTTAGTGGTATCAGCCGGGGGTCATGCATGTGGACATCCTGCTCATCCGCCAGGATCCAGGGGAAATCCTAGGGAGGAGACAAAGGTCAGGGGGGTGA
Y
GGGGCTGGGCCCTGGCCTGCCCTCACTTTGCTGTCCCTCCCACTCCAGACCAGGGGCCTCCAACCTGAGCCTCAGAATCACTAGGAAGCTGTTGGTGATG
Celera SNP ID:            hCV1256474
SNP Position Genomic:     17093
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,27|T,3)   total(C,60|T,4)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40096):
CTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGATGCAGAAGAATGGCGTGAACCCGGAAGGC
R
GAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGGCTCATAAAATAATAATAATAATAAATAAATAAAAAA
Celera SNP ID:            hCV27468971
SNP Position Genomic:     16124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40097):
GGCCTCCCTGTGTTGCCAAGGTTGCAAAGCCTTTTTTCTTTTCTTTTTTTTTTTTTTTGAGACGGTGCCTTGTACTGTCACCCAGGCTGGAGTGCAGTGG
Y
GCAATCTCGGCTCACCACAACCTCCGCCTCCCAGGTTCACACGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGTGCACACCACCACGCCT
Celera SNP ID:            hCV1256476
SNP Position Genomic:     8320
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40098):
TCCGCTACATCTGGTTTCAGCACGGCGGCGTGGACACTCATTACTGGGCCGGCTGGTACGGCCCGAGGGTCACCAACAGCAGCATCACCATCGGGCCCCC
R
CTGCCCTGACACCCCCTGAGCCCCCATCTGCTGAACCCTGACTGGTAAACAACTGCTGTCAGAAAAGGGCTGGGCTTGGGAAGGGGAGGTGGAGGCCAGG
Celera SNP ID:            hCV25989045
SNP Position Genomic:     3149
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,6)   caucasian(G,36)   total(A,2|G,42)
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40099):
AGGGTCGGGACAGTTACCCCCTCCTTTTCACAGCTTCCCAACTGGTCACTGCAGACCAGGATTCAAACCCAGGCAGTCTTCTCAGCCACCCTCCATCTGA
T
TTTTTTTTTCCGGCCATCTCCAAGTGGATTCTGGCCTGACACCAAAGACAGCTCAGCCGGGTGCCGTGGGGGATTCCCATGGGGTTGTTTTATCACATGT
Celera SNP ID:            hCV26892940
SNP Position Genomic:     9478
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|-,9)   total(-,9|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40100):
TGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAA
G
ATTTTATATTCTAACAGTGAATCCAGAGCATTAAAATAACAATCACCAAAACCCTCACAGAACTTTGCAGACAAGTGTGGCCTCCACAAAATCTTACAGT
Celera SNP ID:            hCV26892941
SNP Position Genomic:     9988
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40101):
TTGTATTGCACTCTTCTGAATGTGTGTCCCATGACTACTCTTTCCACTGAGGGGCTACTGTTTACTGGAAGGACCCTCAGCCTCAGAAATGCTCTTTTGT
G
GGTTTTTTTTTTTTTTTAGCCAGAGTCTTGCTTGGTTGCCCGGGCAGGGGTGCAGTGGCGCGATCATAGGTCACTGTAGCCTTGAATTCCCAGGCTCAAG
Celera SNP ID:            hCV26892942
SNP Position Genomic:     10278
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|-,7)   total(G,4|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40102):
ACCTGGGAACACAGACCAACCCGAGATAACCATGGAAATGCCAAGGGAAGAGAGGGTGGGGAGTGGACACACCTGGGGGGTTGTGGTCCAGGACGGCATC
R
CACACGCTGATCTTCAGGATGAAGGCCCGGAGCAGCTGCTCCACATGAGACAACAGCGAGTCTGAGCTGGGAGTGAGAGGAGGTCTTCCCATCACACTGG
Celera SNP ID:            hCV15944718
SNP Position Genomic:     17962
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,36)   total(A,3|G,67)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40103):
ACTAACGCATGTGCCAGAGGTCAACTTCGAGTTGACTGGACACTTGCCTGGGGAGTCAGAAAACTGCTTCTGTGTCCTGGGCTCTGCCCCCACCCAGGTG
R
CCCTGGGTAGCTCATGTCATCTCTCTGGACCCATCTCAGCTGCTCACAGGCTGTCCCCTTGTCATGCTGGTGCTTCTTGCCCTTTCTCCTCCCAGGCCTT
Celera SNP ID:            hCV25765522
SNP Position Genomic:     18541
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,5)   caucasian(A,36)   total(A,67|G,5)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40104):
GTATTGCACTCTTCTGAATGTGTGTCCCATGACTACTCTTTCCACTGAGGGGCTACTGTTTACTGGAAGGACCCTCAGCCTCAGAAATGCTCTTTTGTGG
K
TTTTTTTTTTTTTTTAGCCAGAGTCTTGCTTGGTTGCCCGGGCAGGGGTGCAGTGGCGCGATCATAGGTCACTGTAGCCTTGAATTCCCAGGCTCAAGGG
Celera SNP ID:            hCV26892943
SNP Position Genomic:     10280
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,8)   total(G,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40105):
CCTGGACATCTGGGATGCCATCTGGGTCAAGTAAGCAGTCTGTGTTGGGATGAACACGTTAGCCTTTTTTAAAAAATTATTTTACTTATTAAAAAAAAAA
G
GGGGGGGGGTGTCGCTATGTTCCCCAGGCTGGTCTTGAACTCCTGGGTTCAAGCAATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGCAA
Celera SNP ID:            hCV26892944
SNP Position Genomic:     12528
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40106):
GAACTCCTGATCTTGTGATCCGCCCGCCTCGGCCTACCGAAGTGCTGGGAATACAGGCCTGAGTCTGTGCGCCCGACCTAATTTCTTTTTTTCTAGAGAC
R
GTCTCACTATGTTGCCTAGACTACAAGCATTTTTAATTGACAACTTTTACATTTTTTTTCAAATGCTTACAGTTGCTTCTCAGAACTTAGAAGACTTGGC
Celera SNP ID:            hCV26892939
SNP Position Genomic:     7762
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3|G,3)   total(G,3|A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40107):
ACCCCCTTGACTCTCCCACTGAATCCACAGCCTGGTCCATTGTAAGTACAGGTGACATGGCTTGGACAGACCAGGCCTCTCTGGAGGGGTCTTTTGATTT
Y
TGAGGTCATATCTTTAGTAGGATGCCCAAAAGGGTCCCTCTTCTCAGATGGGGTAACAGAGGCCAGCATGGACAGACAGCTTATCCCCGGGCCACAGTGG
Celera SNP ID:            hCV593952
SNP Position Genomic:     14906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   (C,-|T,-)   Caucasian(C,1|T,57)   African-American(T,29|C,37)   Asians(C,9|T,69)   total(C,47|T,155) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40108):
CAGGACCCCAGTTCTAGGCAGGCCCCAGGGCTGCCACTCTGAGGATAAAGCGGTGAGGATGGAGGGGTATGCAGAGCTGCAGGGGGGAGAGGTGGCTGGG
Y
TGAGCAGAGGGTGAGCTTTGTGCCAGCCCCATTACACAGGCCACCCCCTTGACTCTCCCACTGAATCCACAGCCTGGTCCATTGTAAGTACAGGTGACAT
Celera SNP ID:            hCV593953
SNP Position Genomic:     14763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40109):
CACGTGCCCGCCCGCCAGCTGCTGCTGAACTGCCGCCTGGTCTGCAGCCTCTGGCGGGACCTCATCGACCTCATGACCCTCTGGAAACGCAAGTGCCTGC
R
AGAGGGCTTCATCACCAAGGACTGGGACCAGCCCGTGGCCGACTGGAAAATCTTCTACTTCCTACGGAGCCTGCATAGGAACCTCCTGCGCAACCCGTGT
Celera SNP ID:            hCV25604102
SNP Position Genomic:     10716
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,2|G,38)   total(A,3|G,75)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40110):
GTAAGCTAGGAACTTGAGTTTACAAAAGTGCCCTGGAACAATGGGCCTTTGGACTGGGATCAAATGCCGCCCAGGCACAAGTGGGTCAAACTCCCTCCTG
Y
ACTGGAGGAAAAGCCAGAGTCAGCCCCAGCCAGTGCCTGTCCCGCAGCGGCCAAGGGGTACCCTAGGTCCCCAAACCACCTCCCTGGGCTCACAGGGGCT
Celera SNP ID:            hCV593954
SNP Position Genomic:     13642
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40111):
TCCAAGGTGCAGTTGGGGTACACTTGGGCTGGTGGGGTACCTTGGCCACACAATGCCCTTGAGAAGGAACAAGCTGGTTAACCCTTTGGTGTCCACAGCC
S
CAGAGACCTGAGCATGAGCAAGTCCTGCCTCCCAAGAAGGTCACTAACGCCAACCACCCTCCCTCCCGCCCTCCTGGGACTAAGTGGGGAGGGCTGGACT
Celera SNP ID:            hCV593955
SNP Position Genomic:     13008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,9)      total(G,9|C,2) ;JBIC-allele(G,130|C,613)   total(G,130|C,613)   (C,-|G,-)   no_pop(C,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 184
Celera Gene:                 hCG24868 - 104000117691455
Gene Symbol:                 BCL10
Protein Name:                B-cell CLL/lymphoma 10;CARMEN;CIPER;CLAP;c-E10;mE10
Celera Genomic Axis:         GA_x5YUV32VY6P(18345138..18369082)
Chromosome:                  Chr1
OMIM number:                 603517
OMIM Information:            B-CELL CLL/LYMPHOMA 10;BCL10


Genomic Sequence (SEQ ID NO:12344):
TGCAGCTGGTAGTCCCAACTTATGCCCAGCTCTCAGCAGAGAGGAGATCCTGGAGCAGGTAGCTCCTCTCCAAAGGCAGGTCATCTGGTCATCGGAGTCT
GGCTGAGTCCAGGGGTTTTTATGGGCTTCAGAGGGGAGGAAGTACATGCTGATTGGTTCACGGGTGGCAATGGGTGGGCCTGAAAATAGCACCATAAGTT
CCCATTCTGGCCCATCAGCCCCACCACCAGGCTTTAGGCCATCCCTGGCTTGAAGGTGAGGCTTCACCAGGGACCTGCCCCTTTCTGCCCAGGAGCTTGT
CTGCCTCCTGCCACTGCCCAAGCTATTTGTGTTGAGGGGCTCCTGCAGGCCCATGCTGAGCCACCCTCAGTGCTCCCTCAGCCTCCCTCCTGTGCTCGTC
AGTGCCCAAAGCCTGGAGGGGAGCCAAGGCGGCAGGGGTCTGGCATGTCAGTGCTGCTCTGAGCATGCATACACCTGGCTGGGTTGCAACAGGGCCTGGG
CTTGGCCTCAACTTTGCTCCAAAATCAGAGTCGGCACCGGGAGTGGGGAGAGACCAGGCAACAGGAGCAGGTACTTCTGAGCCTGCAGGGGCAGGGAGGC
TTCCCTGGCCCCCAAGAGATGCCCGGGTCCACAGCCATGGCTGRATGGCTGCAGCTGTGCCTGAGAGGGCAGGGCTCCTGCCTGATTCTGGCCCCCAAGA
GCACAGGGATGTCCAGGTCTGGAGCTGTGCCTGGGCAGCTGCAGCTGCACCCAGGGAGCACAAGGCTCCCGCCCTGCCAACTTGGAAGTGGGCAGGGCTT
CCACAGTTCCCGGCTCCTCCCAGCCCTGTAGAGCTCGCAGCCCTGGCCACGCCTCCCCCACTGCAGCCAGTGTCATGATAGCAGCCACTCCAGAAGGGCC
ACCCACGCCATCACCAAGATTGCAACACTGAACTCCAGCCTGGGCAACAGAGCAAGACCCTGTCTCAAAAAAAAAAAGTTATTTTCTGGAATTATGCTTG
CCATCGAACCCCACCTGGAGTTTGCAAATATCATCTTCCTCTTTCTGAGACTTGCATTAGTTAACATTGCCAGTCTTCAGCTACTCTCATTGTTGCACAG
TGCCCTTCATGGATCCTAAGCTGGAGCAGATACATCCATTTGTGAGGCTCAGGATATAATGATTCAGAGAATGCTCAAGCATCCTAGCTTCTCTGAATCA
TTATGTCCTGAAGCACTTAGCTCAGTCTACAGCTAGTAATTAAGAACACTGGCCTTATTATCAAGGCTGAACTGGAATCCCGGTTCTGCTACTTGGTGGG
AGAATGACCTTGAGCAAATCATGTTTCTAAGCCTCGGATTTCTCATCTCTAAAGTGAGGATAATAAAGCCTACCTGTAAGGACTGTTATAGGCATTAAAT
TCCCACCACAGATGTAAAGTGCTTGGCTCAGAGTGAATGTGAAATAAACTGCTAGTGATTATTTCTTCCCAGGGAGTTGTAAGACTGGGAGATCTAGCCC
CTCCTCCAATATCCCCCTGCTGGCATATAGGTATGCAACCTCCAAACATTCAGGACTCATAGCAGGTGCCTGCCTGCACTCTTCAAACCAGTCCTCTAGG
GGGAAGACAAAGGGAATGATCCCTTATCTCTGGTTCCCTCATCAGCCCCAGCAATGTCCTAGTCTTGGGGTACACTAGCAAATATTGTCAGAGCATTTTC
TCAGGTCCACGCCCACCACCCTACACTTTCCTGGTCTTTCCTTCCTAAGCCAAGAGCCATTCCTAGAGACAGGACCCCCAGGAGTCTTCACAAAGTCCCT
GTGCTGAAACATCTGAATTTCACCACATAGTATCTTGTCATTAAAACCTAAGAGTGTCTGTCTCAGAATTGGCCAGTTTTTTCTTCCAACCATTTACAGA
GAATGTATAATCCACAATTTATAATTCCACAACCACCTGGAATAGTATTTGTTGCTCAATACACATCTGACATCTGACAGGAAGTATGGAATAAATAACC
AAGAAGCAGTTAAAGCTCCCCATTAAAATCCTCCCACCCAGCTTAAATACTGGGTGAACTCCTCTTTCATGTTGTTTTATCGATCAGAATGGTTTCCTCT
TCCCTACCTCTGAATTCTTATTATCACTATCTTTATTGCATACTTACTAATTGATCCAAGATCCTACAGCTAATAATTGGCAAATCTAGAATTCAGCTGT
ACTGACTTGAATAGCATCTCCCCAAAATTCACATCTACTGGAACTTGGAATGTGAACTTATTTCAAAATAGTGTCTTTGGCTGGCATGGTGGCTTATGCC
TGTAATCCCAGTAATTTGGGAGGCTGAGGCAGGAGGATCATTTGAGCCCAGGAGTTGGAAACCAGCCTGGTCAACATAACAAGACACTGTCTCTACAAAA
GTAAAAAATAAAAAAATAAAAAAATAGCTGAGCGTGGTGGCACATGTCTGTATTCTCAGCTACTTGGGAGGCTAAGGAGGAAAATTGCTTGAGCCCAGGA
ATTTGAGGCTGCCATAAGCCATGACTGTGCCATTGTACTCCAGCGTGGGTGACAGAGAAAGACCCTGTCTCAAAAGAAAAAAAAAATGTGTCTTTACAGA
TGTAATCAAGTTAAGATAAAGTCATACTGAATTAGGGTGGGCCCTAAATCCAGTGACTGGTGTCCTTAAAAAGAAGGAAATGTGGACACAGAAACACAGG
AGGAGACACAGAGAGGAAGGTCATGTGAAGATGGAGGCTGGGGTGGGAGTGATGCCGCCACAAGCTGAGGAATGCCAAGGATTGCCAGAAGTCACCAGAA
CCAAGCAAGAGGCAATGAAAGAATCCTCCCTCGCGGCTTCAGAGAGAGCATGGCACTGCCAATTTTGGACTTCTACCCTCCAGAACTGTGAGAGACTAAA
TATCTGTTAAGCTACCTTGTTTTTGGTAATTTGGTATGATGGCCCTAGGAAACTAATACACTGTCTGTCAGATATCAGACATCCTCATTCTTAATGATAT
CTCATCTGTACCATGATGTTATGCAGCCTTATGATTGTAGCACCTAAACCGTATCCCTCATGGCACATTTCTCAGGTGCCTTCTATTTCACAGTAGGAGG
CAGATGGAGCACCTGGAAGTTGAGGGGGTATGGAGGCTGTGTTAAGGGATGAGGAAGAAGTAGGATTATTGCAAGGTAGTGGATGGGTGGGGCTGTTTTC
TTGAAACTATGCCCAAACTTCATTGTTAGCCAGACCCTGTGATTTAGCAGAAAGAGGAAAATTAGTTTACTAATGAAAGAATTATGATGCATTAGAAAGC
AAGAAGGACTGGGAGTTGCAAAGCCTGCCACAAACGAGCTCTGTGATTAAGCACGTGGTATTCAGATGTGGCTTTTTAAGCTAGGCAATTCATCTTGGGA
ACATTGACACATGGTCTGAAAAGCAAAATATTACTCTTTCAGCTATAAAAAAACTCCCGGAATCCTCATTCAGTCCCGCCCAATCCCTGATCCTTATTCT
GTAACTCCCAATTCTAACATAGGGCAGACACTTAACTTTTTAGTTGACTAAATAAATAAGGGAATGAATACTGAGGATAGAAAAGGGTTGGAGGTGTCAG
AAATGAAATGATGGTCAAGGAAAGAGAAAGACTCAGATGTATAGGGCATGGAAGAATGTTCAAGAATCAAAGATGTCTGCCACTAACATTTGGTAATCAA
AAGCCATGACAAGCAAATGTGGCAATATATCAGTATCTGCTCAATCTTGGTAGTGAGCGTAGGGTGTTTGTAATATTCTTTATAGTTTGGTGGGTTTAAA
ATGTTTCCTTTAAAAAGAACAACAGTGCAGTAGCAATCTCAAAATGGCCAAATCAAAATGAGTGCATTAAATTGGCAGCATTCAATTCACTTGCTTTGAT
GGGTGAATCCTCCCCTTCATCAGCAGAACTGATTTGACTGTGGTAAAAACAGTTCATTCCCACACACAGATAGACCAACACAGCCCTTTTGGAGAGCACC
CATATATAAGAAAAGCCATAAAATATTCATTTCCTTGGGCTTTGTACTCCTGGTTCTGGGAATTTATGCAAAGGCAATGATAATTTGAAAGGAAAAAGGA
TGAAAATATGTAAATTCTATGACAATTTTTTAATAACAATGAACACTTGGGAAGGATTTAAGGTGTCAGTGGGGAGTGCTCACCACTGCCCCCACCCTGG
TCAAGCCATCCTAAGCTGTGCCTGGATGGCTGTGTGTAAGGAACATGGCTGTGCTTTGGTCAAGGATAGGACGAGGTAAACATCCACAGGGACTCAGCGA
GTTTAGAGCGCAGGCATATAACTCCACTTGTTATCACAGCTATGTAGCCATAACATGGGAAGGCCATCCCTTGGCTCTAAGCCACTATTGTCTGTAAAAG
GTATAATTGCCCTGTTGACATCGTGCAGGCGTGCTGACACCCAGAGAGAGAGAGAGAGAGCCAGAGTTGACCCTCTTGGAGACTGACAGTGGGGAGCCAG
GACACAGCTCGGCTTGCTCATGCCCAGAGAGAGGAAGAGTTAAGCTGCTGACCCCGAAGGCAAGGGAGAGTCGGCCATGCAGCTGTGTGGGGGAGCCGCC
AGACTAAGCACCTGAGACAGGGCAGACAGTGTAGAGAGCTAGTGTAAGAAAGCTGTTGATGAGAGCTGCTGCTGAGTAAAATCATCTTTTACCTGCCTAC
GGTCCCCTGAGTGTTCTTTCTGCTCATCCACCCACTCCCCTTGGACCTCAGCATGGGCTAGAACCTGACCCCAAGCATGACATTTGGCTCAGTCGTGAAC
CTGACATTGTGGTAGCCTCCACGTAGTCTCTGCTTCTTGCCCTTGCCCCTGCCATCTACTCTCCACTTAGCAGCCAGAGTGATCCTTTCAAAATGAAATC
AAACTGCTTCCTTGCTTCATTTCAAAATGCTCCCACCACCCTCACTGCTCCACCCTGGTCTGAACCACAACCTCCTGGGGCCTGGATATAGCAATACCTC
CCTAAATGGTTTTCCCTCTTCCATCTTCTTTCCCCTTAGCACAGAAGTGAAAGTGCTTCTTTTCAAATCACAAATCAGATCATGTCACTCTGCTCAGAAC
CTTCCAGTGGCTTCCCGTCTGACTCAGCACACCCATATGACTCAACACACAAGGAGATCATCTCCTTCCAGTTACACTGAGCATTTTTATTGGTTGCTGA
CTGTACTCATAATGCTCTCTCCTTATATCCACACGGTTCACTCCCTCACTTCCTTTAAGCATAAATCAAATCCCTTATCTTGGTATTGACAAGMCAAGGA
CAGACTCCTCCAAAGTGAGCAGGGAGGTCATGACCACCCTAGCTTAAATTTTACCAATCCATACAGCCTCATCCTACTTCCCTGTTTTATTTTTTCCTCT
TAGCATTTATCATCTTCTAATAAATTAAATAACTTAGATATAGCCAGGCGTGGGGGATCATGCCTGTAATCCCAGCACTTTGGGAGGTTGAGGTGGGCAG
ATCACCTGAGGTCAGGAGTTCGAAACCAACCTGGCCAATGTGGTGAAACCTTGTCTCTACTAAAAGTACAAAAATTAGCTGGGCGTGGTGGTGTGTGCCT
GTAGTCCCAGCTACTCAGGAGGCTGAAGCAGGAGAATCGCTCGAACCCGGGAGGCAGAAGTTGCAGTAAGCTGAGATGGTGCCATTGCACTCCAGCCTGG
GAAACAGAGTGAGACTCCGTCTCAAAAAAATAAATTAATTAATTATTTTTTTAAAATAACTTAGATATAGCCGGGTGTGGTGGCATGCGCCTGTAATCCC
AGCTACTGGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGAGGAGGTTGCAGTGAGCAGAGATCGTGCCACTGCACTCCAGCCTGCGTGACAGA
GCGAGATTCTGTCTCCAAATAAATAAATAAATAAACTTAGATAAAATTTTTCAAGTGCCTACCTCGTCTGCCCCAAACACAAATAAACTAGAATATAAAT
TCCATGAGGAAAGAGATTTTTATTGGTTTTGTTCACAGCTGTTTTCCTAGCACCTAGAACAGTGTCTGGCACATAGTGGACATTCAAAACACATTTGTTA
AATGAARGGATTCATCCTAAAGTTAAGGATGGTTMAGTAAATCGGATGGAAGATGATGAAAAATTAAGCAATTAGAAAAAAACTGTYCTTGTGTAATGTG
TCAACATGGAAACAGGACATAATGTAAACATCAGAATCCCTTGCTGTGATTCTGGTTTTTGTGGCTCTGGTTACATTGTTTTTTTGTGTGTTTTTTTTTT
TTTTTTGCTTTCCCGTTTCTTAAACATTGGCGTTCCCAAGTTTCTCCTTGGTCCTCCTGTCATTTTTATCTACTCTCGTAGCTTCAAATACCATCTAGTT
TATAGTTTATTTAGCATGTTGTCCAAGCCACCGTCTTGGGCCCAGGGCTCTACCTGTAGCTTTTCATCCACACTTCTCAGGTTGCTTCTTACACAGCGCC
ATAGTAGTTAAAATACGGTCTGGGGATAGTCGTCTCTTCATCAGTCTCCCCCTATAAAATGGAGGACTCATAGTATAAGTTGCCTAGAACATATTAGTAA
GGACTCAATAAATGTTTGAGTAGGATGAGCTGGGTGGCTCATGCCTGTAGTCCCTGCACTTYGGGAAGCCGAGGCGGGTGGATGGCTTGAGCCCAGGAGT
TTGAGACCAGCCTGGGCAACATGGCGAAACTCCATCTCTATAAAAAATACAAAAAAACTAGCTGGACTCCCAGCTGCTTGGTGGCTGAGGTGGAAGGATC
GCCTGAGCCCTGGAGGTGGAAGCTGCAGTGAGCCGAGAATCGCACCACTGCACTCCAGCCTGGGCGACAGAGTGAGATCCTGTCTCAATAAATAAATAAA
TAATCAGTTGAGTGCATACTGTGTGCCCAACTACCTTTAAGAACTTTACATATGATCCCGGCAGCCCTAAAAGGTAAGCATATCTATCTCCATTACACAG
ATTAACTAATGAGGAAAAGCTATGTTTATAATGAACAGTGACCAAAAAGTATGCAAACGTTAAATGAGGTGTTAAAGTGGTGGGATTGTAGGTGGTTTCT
TTTTTTCTTTCAAAAATTTGTTTAGTATTGTAGTTAGGCTGTTTGTGTGTATGCATGTGTATGTGTGTATGAGTGCGTTTGTGTGTGACCAAAACAGTAA
CTGGCAAACGTAACAACAGGAAATTGTAGGGCAGGGTCTGGGAAAAGGGGAGGAACCCAAGGTACTGACAAGCCCAGACCGGACTCCCCCGAAGTGAGCA
GGCAGCAAAGGCTGAGAGTGCCAGCTGCCTGGGCACTGACGGACCCCACCCACGGAAACGATGCCTTATGAGGAAGCTAACCCGGGCCACTTACCGACGA
CCTGCGCAGGCGTGGCTTGAGGAAACGCCCGCTGTGGGCGGAGCCACCCGAAAGGCTCCGGTCGGGGGCGGGAACAGGATCGGCCYGCGGGCTGGCGTCG
ATAGGCTGCCGCARAGACAGGGCGGGCTCTGCTAAGSGACGCGCCTCGCCGTGGGGCGGTGCCTGCGCCTGAGCCTCTACGAGAGGGAAGGAACGCTGCT
CCGAGCTCCGSGTCGCGTCGCGTAGATTCGCGTCGCCGTCGACCTCAGAGGCGGGGCCGGAAGCGCTACGGTTTGACCCCCGAGTCCCTCTGTTCCCGAA
GGGGCGGCCGTCTTTCTSCCGACCCGCTCCGCCTCCTCTCCTTCTTCCCCATTACCCGGAGGCCGAAGCCCCCAGCCAGGGCGGGGCGGCGCAGCCCGAG
CTCCCGGACCCGGAAGAAGCGCCATCTCCCGCCTCCACCATGGAGCCCACCGCACCGTCCCTSACCGAGGAGGACCTCACTGAAGTGAAGAAGGACGTGA
GTAACGSAGCTGTGCCCAGGGCGGGCGGGGGCGGGCTGCAGCCCAGCGGGAGASGAAAGCGGAAGCCTGGAGTCCGAGGACAAGGAGGATCCTCCAGGTC
GGAGGAGCGGAAAGTCCTAGCACAGGAGGACTGTGGCGAGCCCTGCATCCGAGGGACCTTGGTGGCAGTGATCCTCCAGTGATCTGTCAATCCAGGTTTT
ACATCGCTAAACGCAGAGCTTGGGCTTTGTTGCCAAGTGGWGTTTTGATTCTTGCCCACTCCTCACCCATCTCCTCATGCTTTCCCCCCARCTGGGTTCT
TGGAGATGCTTCGTTAGGGACTGGCGGCTCAGATTCATCCTTAAGTCAGGCTGCCTAGGCTGCTCACTCAGCCTAGAGCGAAGGCTGTACCAGGTGAAGG
ATCCCAAGCAGTGGACCAAAAATGTGAAGCTCTTTTGCATAAGGGGGCTTGAGGAAGCTCAACAGCTGAAAGCACAACCTGGAATTCCCCTAGTAAGCAG
ACGCCCACATATTTAAATTGGGGTTGGGGGAGTGAATACACGTAGCTGAGAATTAATGTACAGGTAAACGTCGAAAATATTCAGTAGCTAAATTATGCTC
TTCTCGGATGGTGCAGAACCACATAAACCTTCATATTTATTCGTAACGAATGGCTTTGTTGAGATATGACATTCTTTTTCCTTTGCGTTTACTTGTTTTG
TCAGATGAGACCTATATGAGTATCACTAAAATACTTTATCTGAAGTCAAATGAAAAACAGAAACTCAACATGAAACGTGTTCTTATTGAACACTGCAGTA
CTTTTACAAAGTCATTTTGATGAACTGGACAGGATGGCAACTTTTTAAATGTTCATCCACTTCAAATCCCTTCCTCTTCCCTGTAAGGTTTATTACACTG
TACTCACAATTGGTGTGACTCACCAGCAGAAGGAAACTGGATATGACTGGGAGTTGTGCTTAGTTTCCTCATTCAACAGAGATTTATGGAGCACTTGCTA
TATGGAAAGCACTGGCCTTGGGTCTGGAAGGATACAAAAAAATGAAGATCAGTTTCCTGCTTTACATTCTAGTTGAGATAAGAATGGAACATAAATAACT
ACTGTAGAATAAATGTTGTCTTATTCATGGTGAGTGCCAGTAAAACCTTGAACTTCCAAGAGYTAGGCCTCCTATGTTCCAGATGCTGTGTCACACAGTT
TACAATGTTCCCACTTAACCTTCGCAACAACCTCTAAAGAAGATAATTGCCATTCCCATTTTACAGCTAATAAAACAGGAACTGAGAAATTACAAGTGGA
AGGAAATAAGATCTGTATACAAGTACAGATGTGAAGAGTGGCTTCCAGGTCTTTGTTCTTCTCTGTCAATTCATTGATGTTATCTGTCTTCAGGATTTCA
TTTTACGCCTATATCAGAAATAAATAACCTTGAGGAAACCATGGATGGGTTTCAAAAGGTCTATGAAAGAAACTATGTGCATGCTTTTTTCTTAGAGGTT
TTTTTCATGATATTTTCAAAATGTCTTCTGATCTTAGAGAGTTTTAAAATTATCCACATATTTGGACTTTTCTCTCCACTCTAGGTCCTTATTTCCAAAT
GTCTACTGGAAATCTACTTTTATATCCTACAGATTGCTCACCTTGTCAAATATTGAACTTTTACTATCCTTTTCCCAAAGTTGCTTACTGTTGCTGCTGT
ATTGCCTTTCTTGATGAATGGTGTGCTACCACCCTTTGTCTTGGGACCTCCCACTTCTTTAGTGTCTCCCCCTCCTCCTATCTAGTTATTTGCCTCATTG
TGTTAGTTGGATTTAGTACAGTTTAATAAATATGGATTACATGCTACTGTGAGGCTGATACTGTGGTTGGTTCTAACAGTTCAAAAATTAAAAATGAAAA
CACAATCCTAACTTGAAAAGAGCTCAATTTCTTGAGGGGGATTGTTTTAARTCACAAAATAAGTGCAGTGAGTTTTGCATTCAACTGAAACATTAACTAC
TTGGTGCCCTAGTAAGTGCAGGATATACAGTGTTGGCTAAAACATACCTCGTAGCTGCCTGCTTCAAACAGAGACGTTAGTTTAAAACAAATAAATAAAT
TTTGTTTTCATTAYTGCAATTACTATGAAGGAATCAAACAGTGCCAAGACAATAATAGGGGAAATCGACTTGAGATAGGATGGTCAGGAGAGGTTAYATT
TAAACTGATTCCTGAAAGATTTGACRGAACTGAGGGAAGAGCATTCTGGGCAGAATAGAATTTGTCAAGGACCTAAAATAGGCAAGACCCTGGTGACTTG
GGGAAATCGGAGGAAGGCAGAGGGTAATCTGAAGTGAAGTTAGGAAGGTGGGCTAGAGCCATTTTCATGAAGAGCCTTTTAGTAAAGTATCTGGGGTTTT
TTTCCCCCCAAGTATAGTAGGGACTTGTTGAAGAATTGTATAGTTTAAAGATCCCTCTGCCTGTTTCATGGACTGAGGAGAACAAGAATAAGAACAGGGA
AGCCAGTGAGCAGGCTCTTGGAATCTATAGAGATGAATGAGGATGGTGATTTGGATCAGGGTGAAGGCAGTGGAGATGAATGGAGCAGAATTCCAGATGC
AGTTTTTGAAATAGAAATGATATGACCTGGTGATGGATTGAACATGGGAGTTGAGGAAGAGGATGTAATTAGATTAGTACATGGAAATGTCAGATCAGCA
ATTACATCTGCAAAGTCAAAGATCAGAAGAGAGATCTGAGCTAGAAATGTAAGTGTGGAATTGAATGATTTTACCTAGAAAGCTGTGAGCTAGAAGAGAA
AAATGGTGTAAAAYCCTTTAAAGAGAAGAATTTTAAAAAGTGAATTGTTAGCTTGAAAGTAGGGTAACAACAACAACAAGAAAATGATTGAAAAGTTGTA
TCCACAGGGATGGGAAGAAAACCAGGAGAGTGTGGTATTCATGTAACAATTTTCTTGTTTCAGGGAGGGAGTAGTCAACTGTGTTTATGCAGCTGAAAAA
TGAAATGAAGACTGAAAATATTTGGCAATAAGGGGGTCATTGGTGACTTCGAGAAGAATACTGGGGCAGGATGGAAATGTCTGGGAATGAATTGGGAAAT
GAGGTGAAAGAAGTGGAGTCCTGGTGTATAGAAAGATGAAGTGTATACACAAGGTGCTACAAGGACAGAGGACGGGGTGCCTAACTCATTCTGGGGAGTT
AGGTAAACCTTTCCAAAGAAGATGACCACTGACCTAAATCTTAAAGGACGAATAGGGGCTTTAGGGTCTGATAAAAGCAGACAAAAAATACGTAAGGAAA
TGTAGAGAGACAGATAGTTTTAGGTAGAGCATAAATTTTCAGGACAAAGGTAGTGATAGATTAAGCTGGAGAGGTAGGTAGGAGCCATAKTATCAATGAA
CCTTGTCTTCCATAATTAGTTATTATTGAGTACTTACTGTGTACAGAGACTATGCGTGGCCTTCATATATAGTATTCCCATTTAGTCCTCCTTGATGTCC
TGTGAGTTAAGTTTTTAATCCTTATTTTATCAATAACATACCTGRAGCTTGGAGTGGTGAAGTAACTTGGCCCAGCTCTCACAAGGGTGAGTACTAGATT
CAAGATTTGCACTGAGGTTGATCCAACTTTAGAGCCATGCCCTTAACTTTTCTACTCTTCTGCCACGTAAAGGAACTTTATCCTTTAAGACAGGGCAGAA
CATTGTTTTTAATTTTTTTTCTAAATTAACAAAATTTCAATATTAGAATTTGCTGGGCACAGTGGCCCACACCTATAATCCCAACAACTYAGGAGGATAA
GGTGGGAGGATCACTTAAGGCCAGGAGTTCAAGACCAGCCTAGGTAATGTAGCAAAGATCCCTTCTCTACAAAAAAAAAAAAAAAAAATTAAAAATTAGC
CGGGCATGGTGGCTCACACCTGTAGTCCTAGCTACTCAAGAGGCTAAGATGGGGATCACTTGAGTCTAGGGATTCCAGGCTGCAGTGAGCTATGATCAAG
CCACTGCACTCCAGCCTAGGTGACAGAGTGAGATCCTTAAAAAAAATTTAGTAAAATTCATATAATACTCCAGATTTCCATTTTCTCCTGAAGGAGAAAT
GTTGAGGAGGGGGAAGGAAGTAGTAAGTGCAGCTAGGTTTCTATTGTTAATAGTCCATGCCAGATATGATAAGGACCAGGTCCTGGACATAGTTATTTGC
TCACTCTGTGCTTTTCCTGTATTTGACCTATAATCTTTTTTTTCTGGGCCCGATCACATTGTTTTATAATTATTACCTGTGATATGTATTCCCAGCTAGA
CCATGAGCCCTTTGCATGTAGGATTCAAATCTTGTTCATCTTTGTATACTCAGTGCTCAGCACTCGGCATATTAGGAATTTAGATTTGTAAAATACTTGT
CATGTGAATAAACAAGTAAATGTGGAACTTCGTAGACCAAGAACCACAGGAACCCTTCACCTAGCCTACTTTCCTGCCATTACCTTTGTCATTATTACTA
ACATATATTGATCACTTACTATGTACCAAGCGCTTTTCTAAGCACTTTGCATATCTTTATTCCTCATATAACAGTCAGCTGAGGAAACAAGCACAGAGGA
GTTAATTACTTGCCCAAGATCATATATCTAGTAAATAGAGGAGCTAAAATACAGTCACCGGTACCAAATTATTAATGCCATTTATTGAGATCAACATGGA
TTTTCTACTAATTAAGCTCTTAGGCACTTCTCAAATCTAGGTTTGCTTTTTTGTGGTGTCCTTTTTCTTTATTTCTTTCATTTTTCGAACACTCCCTATT
CCCCACACATCTTTCCATCTCCCTTCCACCAAGACTGATTCACTGAGTTAGAGTGTAGTCTTTCCAGCTGACCCCAAAGACAGATACATTATGGGCTCTT
TCAGTTTAGGGTTTTGTTTTTTGTCTTTAACAGTTTAAGGAAATGGAGTAATTAATAACAAACATGAGAAAGTTACAGACTGTGAGACCTCTCACTAAGT
TATTGGTCCTGACTAATTCTGCATTCCTTGCCAACTGATAGCTAAAATGTACAGTAGTGTTTGCCCTCATCTTTACTCCCGAAGATGGCCCTCAACAGAC
CTCCCTGTTTCCAAGGACCCAGGCCYTCTAGATTCAGCTGGTCCCTCTTCACAACAGCCTGGTCTTGGTTTTTAGGTTTGAAGGTGAGATCAAAGCAGTG
AGGAATGTCTAGGACCTACTTGTGTCTACTTGGACTTTCATCTTAATTAGCATGCATTTTAGAAGGCCTGAGCCTCCTGACTTTAGAACATTGTCTCACA
CCAGCTAAGACTGCCAACTAATAGTCACGTATGTGATTTTCTTAGATGTTAAAAATAACATTGAACCATATTTTATGTCTTTTAGGCCTTAGAAAATTTA
CGTGTATACCTGTGTGAGAAAATCATAGCTGAGAGACATTTTGATCATCTACGTGCAAAAAAAATACTCAGTAGAGAAGACACTGAAGAAATTTCTTGTC
GAACATCAAGTAGAAAAAGGGCTGGAAAATTGTTAGACTACTTACAGGAAAACCCAAAAGGTCTGGACACCCTTGTTGAATCTATTCGGCGAGAAAAAAC
ACAGAACTTCCTGATACAGAAGATTACAGATGAAGTGCTGAAACTTAGAAATATAAAACTAGAACATCTGAAAGGTAAGATATCTTAATTATCTAAGAGC
TAATTTAAATGTAATAATGCTTTTAAAAAATGCAGAGCAGGCCAGGTGCCTGCACTTTAGGAGGCCAAGGCAGGAGGATTGCTTGAGGTCAGGAGTTTTG
AGACCAGCCTGGGCAACATAGCGAGACTTTGTCTCTACAAAAAATTAAAAAATTAGCCAGGCATGATGGTGCATACCTGTGTTTCCAGCTACTCAGGAGG
CTGAGGTGGGAGGATCACTTAAGCCTGGGACATTGAGGCTATAGTGAGCCATGATTGTGCTACTGCACTCCAGTCTGGGCAACAGAGCAAGACCCTGTCT
CAGAAAAGCAAAACAAAAACAGAAATGATCATTTTGCTTTCAAAAAGTTTAAACTTCAAAATTATATTCAATTTGCACTTATTTTACCTTATTTGACACT
ATTACATTGAAAAAGTGGAATATCTCTCAATATCCTGTATTTGTATTCATTTAATACCATTTATAGAAAACTATTATGAAATCCCTGCATACATAAGGAT
TTGTTTCTAAAGTCAGTAGAATGTAAAGTTAATCTATTCAAGAGTAAGCTCTGAAAATACTGTACATCACACATAAAGAACAGTATTTAGGCAAAGTATT
GTAAAAGTCCAACTCTGCTAGTTTTTCTTATGATCACCAGTTGATCACAAGATGAAGTAATTGGCATATGTTTATAGGAATCACGTTGCATAAAATATTC
ATGACTTTAAACTAGTCTGGCAAGATGTGAAAGCATGGAAACAGATTAAGAGAATAGCAGATTCACCTGTCCCATTTCACTCTCACTCCAGAATATACAC
TCACTGATTGGAATATTGTGTGGAATTGCCTACACAATTTAAATCCCCAACCCCCTCCTGCCTCTGTTCCTCACTGTCTCTCTCCAGAGCACATAAATGT
GCATGTGATGTTCTACAGCTCTTCTAGGCATTAGGGATACAGAAAAGAATAATTTAGGGCTCTGCCCTTAAGGAACTCATAGTCTATAAGTGTCCCCTTG
CTGGGACACATTACAAGTTTTCCCTTTTGAGCCATATCTAAGAAAGTAGTTTGTATAGCATGGAATAGACATGCTGACTGTACTGTGAGGTTGAAAAACT
AGTGGAAGAAGTGACATGTAAGTGCCCTTTATAGACTATGCAGGTTTTGCCTAAAAATTGTCAACTCAGGGTTTCTGTGCCTGTAGGTTGAATATTTGCT
AAGCCTAACAGAAGGGTAAATTGTGTTTGTGTTTATTCTTTCAATCCTCTGGATAAYGGTTAACTATACCCTTTGGATATCATAAAATTCTTTGATGGTA
TCTAAGTTGTTTTCTGCTGTAGCAATACCTGAGACTGGGTAACTTTTAAAGAAAAGAAATGTATTCATTTCTTACAGTTCTGGAGGCTGGTTAAGTCCAA
GACCATGGCGCCAGCATCTGGCAAGGGTCATGCATGGTGGAAGGGCAGAAGATGGAAGAGCAAGGGAGGGCAAGAGTGTGAAAGAGAAGAAAAAGGAGTC
GAACTCCCAAAATAACTAACCCATTCCCGTGATAATGGCATTAGTCCAGGGCAGAGCCCTCATGACCCTGTTGCCTCCCAAAGGCCTCAGCTCCTAACAC
TGCTGCAGTGGCAACCAAGTTTCCAACATGTGAACTTTTGGCGGATACATTCGTACCACAGCTAATGGGAACAACCACTGTCATTTGAGTAAACTGTGAG
GTTGAGAAACAGGACATTATCTATTGAATTGTAGTTCTCACTTTCCCACAAAGTAGTCCTGGAATGTTGGACATGACTTAACTGTCCTGTGCCTTTTTTT
TCTCTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTTGTCACCCAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCCA
GGTTCAAGCGATTCTCCTACTTCAGCCTCCTGAGTAGCTGCGATTGCAGGCACCTGCCACCACGCCTGGCTAATTTCTGTATTTTTAGTAGAGATGGGGT
TTCGCCATGTTGGCCAGGCTGATCTCAAACTCCTGACCTCATGATCTGCCCACTTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCC
CGCCCTTTTTTCTCGTCTTTAATAATAAGAGACTATCCTAGGTGACCTCTAAAATTCCTTTTAGTTCTAATATCCTATTATTCAAGAATTAGCCATTGTC
ATTGATCAACAGATAGAATTTTAGCATCTGCCGTTTACATTTTTTTATTAGCTAATATTTTTTGTACCAGAATACTAAAGAATATTTATTGTGAAAGCTA
TTTCTTATTTTATAAAAAATTTTAGGTGGTTAAGTTTATATGTACRCTGTACCTTAAATGAGAATTACAGCATGTCGTTTAACTTCCACGAGACTATTTT
GTTATATAGAAAATGCAAATAATAGTATACTTCATGGTTGTTGAGAAAAGCAAATTAGATTTGAAATAGATTATGACGGAAATTACAAGTTGCTATTTAA
ATTTTGATTGTGGGGTAACTAGCTTGTAATCTTTAACAAGTCACAAGATGGACAGTGACTCCATTTTTTTAGTTACTTTTTCATTTACATCTGAATAATT
TTATTGTAGGACTAAAATGTAGCAGTTGTGAACCTTTTCCAGATGGAGCCACGAACAACCTCTCCAGATCAAATTCAGATGAGAGTAATTTCTCTGAAAA
ACTGAGGGCATCCACTGTCATGTACCATCCAGAAGGAGAATCCAGCACGACGCCCTTTTTTTCTACTAATTCTTCTCTGAATTTGCCTGTTCTAGAAGWA
GGCAGAACTGAAAATACCATCTTCTCTTCAACTACACTTCCCAGACCTGGGGACCCAGGGGCTCCTCCTTTGCCACCAGATCTACAGTTAGAAGAAGAAG
RAACTTGTGCAAACTCTAGTGAGATGTTTCTTCCCTTAAGATCACGTACTGTTTCACGACAATGACACTTYATTGCCTTTTAATTTTTAATGATGACAAA
AAATGTTTTAAAGAATATGACTTTTTATAAAATGGCTGTAATCATTTGTTTACATTTGATGCATGTCTTTTAAAATGCAATGTAAGCATACTTTGTAAAT
AGGATTTTTAGAATTAAAAAAGCATACTTCTAGGATAGCTAACTGTAAATCATGTTGATCATGTACTTTTTAGTAATTTCTTTTTTTCCTTTTTAAGGTC
TTTCAGTACTTTTTTAAATATTTTCTATTTTAAGACTGATTTTAATAGGGAATATATCTCTATTTGAGAATAGACCCTTACTAGGAAGAACGTTTTTTCC
TCAGTGCATTTGTGCTAGAAATTTTCAAGAGTCKAATAGTCTTTGCCAGTCATTCAGCAGCAAATTTTCAGCATTAAGCTGTTCCTGTTCAGTAATAAAA
CCGGTCACTGATGGGAAAACTGCCAATATAGAAAAATAAAAATCTCTTTTCCACTCCATTGTCGTATAGGCATGTAAACAGCCTCTTTTTGATACTGGAG
GAACACTTGATGGAGTGTGAGCCACCTAAGATCTCGGTTTGCCAAAATTCATTTCTAATTAACCTTACTAATTATACTACTTTGTTAGGATTTTCACATT
CTTGGCTTAATCATTTTCATTCCTAAAGAAAAATATCTTGGCCTAAACCTCAGTTATTACATGTAATTTGATGAGGTATTTTTTCCTTTTTTCTTTTTTT
TTTTTTTTTTTTTTTGAGACAGTCTTGCTCTATCGCCCAGGCTGGAGTGCAGTGGCGCATTCTAGGCTCACTGCAACTTCTGCCTCCCATGCTTACGTGA
TCCTCTCACCTCAGCCTCTCAAGTAATATAGCTGAGACTACAAGTGTGTGCCACCATGCCTCACTAATTTTTGTATTATTTTTGTAGAGACGGTGTTTTG
CCATGTTGGCCAGGCTGGTCTTGAACTCCTGGACTCAAGCAACCTACCCAGCGTGGCCTCCCAAAGTGCTGGGATTACAGACACGAGCCACCTCACCTAG
CCTGATGAGATTTTTAAAAAATATTTTCTCTGTACTTTTCATTCTCTTTTAATGAGGACCAATGTACAGTTGAAATAACTGGAACAAATTATTTTTGGTG
TGTGTGACAATTCTGTTTTTAATGCTATTTGAACAAGTGGGYCATTAGCCAGATTTGTCTTTTTGTTGTAAAACAAAATTTGACTAATTTTACRTGTTTA
TAAATCTTAYGCTCTCACTGTTTGTTTTTATTTAAATTACAATTTTATCTGTTTCCTGACATTGTCTCCTATATATTTCTATTATTAATTGCAAAAACAT
AGAAATGGAAATTTTGCTATCAACAATAAAATTTTTTTAAAGTAGTGAGTGCTATTTTGGAGTTCCAAATTTTCAGTAGGAAGTATCTAAAACTTTTTTT
AATACGTGCCATTATCTATAGAAAACATTACTTCAGGTTGTGAGATTGAGTTGCATTTCTGGATGGACTGATGAATTTATCCGACATGAAGAAGATTGGC
ATATTAGCTTTAAAAATTTTTAAAGATTGGATTTTTTTTAGTATAAGCACTTTCTAAGGATTATAGAGAAATGTTTCACCTCCAATGCATAGCAAAAATA
GTGGTGTTAGAAAGAAAATAGGTTACATTTAAGGAAGGTGCTTTAAAAAGCAGAAGCAGACTTTAAAATTAAATTTGTGGACACCTTTTTAAAAATTGAA
TCAAAGATTATAATTTAGATATACAATAACACCTATATATAGATAAGTTTTAACACTGAGTTTTCTTTCAGACTGTTTTCTAACTACATAGACAATAAAA
TTAAGCTTTGCATAAAGCTAGGTTTGTGGGTTTTTGACTTCTACAAAGTCATTTTTTTTCCTTTTAGCCCTGAAAACTAGCCATTGCCAAAAGTGTGTAA
TTTAGGATGACTTGACAGGATGCAATTTGTTAACTAAGTTCATTAATGCAGCAGTGAAAAAGTTACTTTTCAGGGATACCATATTATCATAATACAAAAA
CACGTTAGTTCATTTTTATGTATATGTATATATTTTTAATACTTTATTTTTGGAGCAGTTGTAGGTTTACAAAAAAGCAGAAAATACAGAGTGTTTCCAA
ATACCCCCTTCTCCCTCAGTTTCCCATACTATCTTGCACTGATGTGGCACATTGGTTATAATTGAGTCAATGTTTTGTTTTGTTTGGGGTTTTGTTTTTT
GTTTTTTGTTTTGTTTGTTTGTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAAGCTCCGCCTC
CCAGGTTCATGCCGTTCTCCTGCCTCAGCCTTCCGAGTAGCTGGGACTACAGGCGCCCACCACCGTGCCCGGCTAATTTTTTGTATTTTTAGTGGAGACG
GGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTAGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCAC
ACCCGGCCAATCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTGGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATGTCGGCTCACTG
CAACCTCCACCTCCCAGGTACAAGCGATTCTCCTGCCTCAGCCTCCAAAGTAGCTGGGATTATAGGCGTGTGCCCCCACGCCTGGCTAATTTTTGTATTC
TTAGTGGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCAGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTAGGATTACAG
GTGTGTGCCACCACACCCAGCCTGATGAGTGAATCTTGATACTATTATTAATCCAAAGTCCGTTGTTCACGTTAGGGTTCACTTTTTGTGTTATACAGTC
CTGTGGGTTTTGACAAATGTGTAATGTCATGTATCTGCCATTATGCAGAATAATTTCACTGCCTTCAAAAGCTCATGTGCTCTACCTATTCATACCTTCC
TCCCTCTCATCTCACTCCCAACCCTGGCAACCACTGATCTTTTTATTGTCTCTGTAGTTTCATCTTTCCCAGAATGTTATACAGTTGGAATCATAGTATG
TAGCTTTTTTCAGACTGGCTTCTTTCTCTTATCAATATGCATCAGAATTCTTCCAGGTCTTTTCATGATGAGTTCACTTTGTTTACTTTTAAAAACTTGC
CAAGTTCACTAGTGAGAGGGGGAGAAAGAGTAGAGCAAGGAGTTCTGTCTGTGACTGAACAATCAATTGAGATAATTCACTACTTGCTGGAGAGCGAGAG
TTCACTTTTGAAGAGGTGATTCGTCTTTAGTCAGCATGTCACTCATTGTGTGCAATGTCAAACACTGGTAAAATAGGGGCAGGCCAGGATAATGGCAGTT
TTTTGTTTATTTGTTTTCATAAATAGTTTTTTATTTTAAATCCAATTTATCACATTTTTTCTCATGGCTAGTGATTTTTGTCTCTTGTTTAAGAAATTTT
TCCCATCTCAACATCCTGATGATATTCTATGCTTTCTTCTAGAAGTTGTTTTAGTTCCTCATTTAGCTCTATGATCCATTTCAAAGTAATTTTTGTGTAT
GGTATGAGGTAGAAATCAAGTCTTACAGCTACCATCTTTTTACCTAAGCAATGTAAAAAGGAGGTGGAAGTTTCACACTCTAGTCTTATATTGTATCACT
GGATAAATATGTCCACTGTTGACTTTGGAGAAAAAGCAAACCAAGAAGCAAACTGATCTAAAGTTTTTAAATGTAATCTTATGAGGGCTTTCTGAAAGGA
GAGCTGAACTTAAGGATAGATAATATATAAAAAAACTTGAGTGCTGCTGCTAAAATCATGCTGAACTTGCCATACTATTTAATTACCAGAAATAGTTCTT
TATTGCAATGGTTCCCAAATTTTGCTGTCCATTTTACAATCAACTGGGGAGTGCTTAAAGATCCCTATCTCCAGGCTGTACCCCATACCCAATAAATCAC
AATGTTTGGTTGTGGAAGCCAGGCATCAGATTTCCAGGTGATTTTCAGTGGCAACAAAATTTGGAATCCACAGCCTTACTAGATGCCAAATAATGAGTTT
AGTGTTTCCGCATGTGTGATCTTGTTTCTTGTTTTTTAATCCTAATAACCCTGCAAGGAAGGTTTTATTGTCACTTTTTTTTTTTTACAGTTGAGAAACA
AAACTCAAAATAAAGTCAATGATTTAAAATCACACAGCTCTTTAGGATTAAAATCCAGGGCTGTTTGATTCTTAAGCCTGTGTTCTCATACAACTCATGT
TTTCATTGTGGGAGAGAGTCCAAAAATAAAGAAAACTAAGATAATTCTAGTTACCATGGAGACAAAATAAGGCATGAGTTAAAAAGTAACTTGAAAGATA
CTTGATAGTATTATTGTAGAAGGCTTCTCAGAGCAGGTGAGGCTTTGAGCAGAGACCTAACTCATAAAAAAGGAGCCAGCCATGGGAAGTTCTAGAGGGA
AGAGTTCCAGGCAGAAGTAACATTGAGGTCAGAAGCCCTGAGGTGGGAATGAATTAGTGAGAGAACCTGGAAACATTAACACCTTATTAGCAATGAGCTC
ACCTAGCACCGAGACCTTGGCTTCTAAATACCCATTCTCCATTAAAAGGAATCAAAGTTCCTTGGAAATGGCTAATTCCAAGGCAAAGTATAAGATGAGC
CTGAAACATCTTGTTCCAGGAAGCAGACAAGTGATCAAAGAATCTTGAGGAGGACATGTCCAAAGGACACAGAAGCCTGCTTGAAGGGGCTCCCATTGGC
CAAATCAGAGACAATTTCAACATCAAAATAAATAATAATGGATTATAACTCATTTGATAAGCCATGGGTCAATGCTAATATAAATAAATGAACAGTCTAG
GCATGATGGCTCACGCATGTGATCCCAACGCTTTGGGAGGCCAAGGTGGGCAGATCACTTGAGCCCAGGAGTTTGAGACCAGCTTGGCCAACATGGGGAA
ACCCTGTCTACTAAAAATACAAAAATTAGCCAGGCACAGTGGCAGGTGCCTTAATCTCAGCTACTCAGGAGGCTGAGGCACAAGAATCATTTGAACCTGG
GAAGTGGAGGTTGCAGTGAGCTGAGATGACTCCAGCTGAGTGATGGAGCGAGACTCTGTCTCAAGCAAAATGAATAAATAAACAAATAATTTGAAGCAGA
ATGTGATGTTGACATGGTCTTTAAATACCTCCTTACAAAAATACTTATTTACAAAGGAGGAAAAAAGTAACTACAGTGGAGAAGCCTGGCAGATACAACC
TTAAACAAGAAATCAAAGGTAAAATCATCAGTGCCACGACAAACTGAAATCATGTGCCTTCTGATAGAAGACAATGAGAAGACTGTAATACCACTTTCAT
AATATTCTTGCCAAAGATTCATAACCTGACTCAAATCATTAGGAAACATGAGACAAGAGGAATTATTGGCAGCATCTTTGTAGACAATCTGCTACAAAAA
TGCTAAGTTTGAGGAGCTTCTGAGACATTGAAGTAGGAAATTGCATGCAGGAGTTTGGTGTTCAGGAAGACTTGTGGACCAGTTACGTAAATGTGGGAGT
TATTAGCATAAACTAATATTTAAAACCTTGGAACTTGGTGAGTTTGCCTTGAAATGGAGGGTAGACAAAAAAGAGAGGAAGGCTCAGAACTGAGCCTGAG
GTGCTTCTGCATCTAGAGGTGATACAGAGAAGACAACAGAGAAAACTGAAAAGGGCCCTGTGAAATAGGAAGAGAACTAAAGTGTATGATCTAGTGAAAG
GCAAGAGAAAAGCATTTCAAGAAGGCACCTATCTTGTTGAAAGGTCAAGTAAGAAGTGGTCTTTGGACCAAGTCTCACAGAGACCACTGATGGTTTGATA
ACAAGAACTCATGTTGCTCAAACTGAGTACCTCAATCTCCGAGGCATTCAACAGTGAGCCCATTTTAAAAGTCACTCAGAGTGTCAGTTTTACTCAGTAA
TAAGTAAGTCTAAATATTTTTGTCTATTAAAAGAGCTTTATTAAACACAACCATGCAAAATTTCCATACATTTTCAAGATCTTATATTAAGAAAAATAAA
TATGTATGCCCATGGGACTTTGGGTCACAATGTATCAGCTCAGCTTCTGGAGGAACTGGAGACTGAGGTCACTCGTGGGCAATTAACTGTGCCTATATGG
CCAAGCCCCAATAAAAACTCTGGACAACAARGCTCAGGTGAGTTTCTCTGGATGGCAGTATTCCATGCATACTGTCACGTGTCTCTGCCACGAGAAGTTC
ATACTGTTCACAATTCCACTAGGAGAGGACAACTGGAAGCTTTGAATGTGGAACTCTGCACCATGTGCCTCTTCCCTTGGCTGTTTGGTTTTTTCCCCCC
GCCTGTATTATTTTGCTGTAATAAACTGTAACCATGAGTATAATGACTTGCAGTGAGTTCTGTGAGTCCTTCTAGTAAATTATCAAACCAACCTGAGGGC
AGTCTGAACTTTGCAAAACCTGAAATTGGTGTCAGGAGTGAGGATGGTTTTGGGGACTCCCAAACTTTGCACTTTGAGACCATCATTTTCCTCTGCCAAC
ATAGGAACCTGGATGGGAAAACTCGAGAAACACTTATCTAGACCCATACCATCATAAATTATTATAATCCAAAAATATTTATTAACCATCTGCTCTGTGA
CAAGCACTGCGCTGGGTAGTAGGAATCTAAAAATGAGCAAAGCACAGTCCAGCTCCTCCCCTCAAGGAGCTCATAGACATCGTACCACAGCAAAGAGGGA
GTGAACAAGATAGTTATATAACTCTGCCCTGGAGCCTACTTCCAGGGAGGAATGGCAAGTTATGTGTGAGTGTGAGTATCATCTAAACGAGCAGGCATCC
TTAAGTGAAATCTAAATACACTGATAACAACTTCATTTGGGTGTCATTCCCATTTAGTTCACCAGAAGGAATCAAAGAGTTCTAGTTTCCCTGAATACTA
GGCATATGGTTACACCATTTACCAAAAGAAGGAACAAAAATGCAGAGAAAAATTATATGAAAAGACAGATTACGGTTCCAATAGGTGGGTGTTTGAGGCC
CCAGAAGGATACCATATGGAAAATGTAAGATCCAGGTGGTGGTCGGGTCTAGAGTTTGGGTGGAAAGATTGGGATTAGACACCCAGATTTGGGAATCATA
GCATAAAGTAGTTAATGCGGTGGAAAGGGATGGGCTGACTTGCAACTTTGTAATGCCCTTTAAAATGTTAGAAGCATCACTGAAAGATAGTACAATATGT
TGGGAAACACCAACATTTAAGGGCCATATGGAGCAAAGCAGGCG


SNP Information

Context             (SEQ ID NO:40112):
TTCTCTTTTAATGAGGACCAATGTACAGTTGAAATAACTGGAACAAATTATTTTTGGTGTGTGTGACAATTCTGTTTTTAATGCTATTTGAACAAGTGGG
Y
CATTAGCCAGATTTGTCTTTTTGTTGTAAAACAAAATTTGACTAATTTTACATGTTTATAAATCTTATGCTCTCACTGTTTGTTTTTATTTAAATTACAA
Celera SNP ID:            hCV8863646
SNP Position Genomic:     17742
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40113):
GGCGGAGCCACCCGAAAGGCTCCGGTCGGGGGCGGGAACAGGATCGGCCCGCGGGCTGGCGTCGATAGGCTGCCGCAGAGACAGGGCGGGCTCTGCTAAG
S
GACGCGCCTCGCCGTGGGGCGGTGCCTGCGCCTGAGCCTCTACGAGAGGGAAGGAACGCTGCTCCGAGCTCCGCGTCGCGTCGCGTAGATTCGCGTCGCC
Celera SNP ID:            hCV16285701
SNP Position Genomic:     7537
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,33)   caucasian(C,7|G,29)   total(C,12|G,62)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:40114):
AGTCAAAGATCAGAAGAGAGATCTGAGCTAGAAATGTAAGTGTGGAATTGAATGATTTTACCTAGAAAGCTGTGAGCTAGAAGAGAAAAATGGTGTAAAA
Y
CCTTTAAAGAGAAGAATTTTAAAAAGTGAATTGTTAGCTTGAAAGTAGGGTAACAACAACAACAAGAAAATGATTGAAAAGTTGTATCCACAGGGATGGG
Celera SNP ID:            hCV1844525
SNP Position Genomic:     10714
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40115):
ACCGTCCCTCACCGAGGAGGACCTCACTGAAGTGAAGAAGGACGTGAGTAACGCAGCTGTGCCCAGGGCGGGCGGGGGCGGGCTGCAGCCCAGCGGGAGA
S
GAAAGCGGAAGCCTGGAGTCCGAGGACAAGGAGGATCCTCCAGGTCGGAGGAGCGGAAAGTCCTAGCACAGGAGGACTGTGGCGAGCCCTGCATCCGAGG
Celera SNP ID:            hCV22274530
SNP Position Genomic:     7954
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,33)   caucasian(C,3|G,23)   total(C,4|G,56)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40116):
TATTAGCTAATATTTTTTGTACCAGAATACTAAAGAATATTTATTGTGAAAGCTATTTCTTATTTTATAAAAAATTTTAGGTGGTTAAGTTTATATGTAC
R
CTGTACCTTAAATGAGAATTACAGCATGTCGTTTAACTTCCACGAGACTATTTTGTTATATAGAAAATGCAAATAATAGTATACTTCATGGTTGTTGAGA
Celera SNP ID:            hCV16285711
SNP Position Genomic:     15946
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40117):
CCGAAGCCCCCAGCCAGGGCGGGGCGGCGCAGCCCGAGCTCCCGGACCCGGAAGAAGCGCCATCTCCCGCCTCCACCATGGAGCCCACCGCACCGTCCCT
S
ACCGAGGAGGACCTCACTGAAGTGAAGAAGGACGTGAGTAACGCAGCTGTGCCCAGGGCGGGCGGGGGCGGGCTGCAGCCCAGCGGGAGAGGAAAGCGGA
Celera SNP ID:            hCV22274531
SNP Position Genomic:     7863
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,9)   caucasian(C,14|G,14)   total(C,39|G,23)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40118):
ACGTAAGGAAATGTAGAGAGACAGATAGTTTTAGGTAGAGCATAAATTTTCAGGACAAAGGTAGTGATAGATTAAGCTGGAGAGGTAGGTAGGAGCCATA
K
TATCAATGAACCTTGTCTTCCATAATTAGTTATTATTGAGTACTTACTGTGTACAGAGACTATGCGTGGCCTTCATATATAGTATTCCCATTTAGTCCTC
Celera SNP ID:            hCV16285703
SNP Position Genomic:     11290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40119):
TGGGGAGAGACCAGGCAACAGGAGCAGGTACTTCTGAGCCTGCAGGGGCAGGGAGGCTTCCCTGGCCCCCAAGAGATGCCCGGGTCCACAGCCATGGCTG
R
ATGGCTGCAGCTGTGCCTGAGAGGGCAGGGCTCCTGCCTGATTCTGGCCCCCAAGAGCACAGGGATGTCCAGGTCTGGAGCTGTGCCTGGGCAGCTGCAG
Celera SNP ID:            hCV26896495
SNP Position Genomic:     644
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40120):
GCAGAGACAGGGCGGGCTCTGCTAAGGGACGCGCCTCGCCGTGGGGCGGTGCCTGCGCCTGAGCCTCTACGAGAGGGAAGGAACGCTGCTCCGAGCTCCG
S
GTCGCGTCGCGTAGATTCGCGTCGCCGTCGACCTCAGAGGCGGGGCCGGAAGCGCTACGGTTTGACCCCCGAGTCCCTCTGTTCCCGAAGGGGCGGCCGT
Celera SNP ID:            hCV25604698
SNP Position Genomic:     7611
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,3)   caucasian(C,33|G,3)   total(C,66|G,6)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,3)   caucasian(C,24|G,2)   total(C,51|G,5)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:40121):
AAACTGAGGGCATCCACTGTCATGTACCATCCAGAAGGAGAATCCAGCACGACGCCCTTTTTTTCTACTAATTCTTCTCTGAATTTGCCTGTTCTAGAAG
W
AGGCAGAACTGAAAATACCATCTTCTCTTCAACTACACTTCCCAGACCTGGGGACCCAGGGGCTCCTCCTTTGCCACCAGATCTACAGTTAGAAGAAGAA
Celera SNP ID:            hCV25604699
SNP Position Genomic:     16399
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,1|T,39)   total(A,1|T,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40122):
GCCACTTACCGACGACCTGCGCAGGCGTGGCTTGAGGAAACGCCCGCTGTGGGCGGAGCCACCCGAAAGGCTCCGGTCGGGGGCGGGAACAGGATCGGCC
Y
GCGGGCTGGCGTCGATAGGCTGCCGCAGAGACAGGGCGGGCTCTGCTAAGGGACGCGCCTCGCCGTGGGGCGGTGCCTGCGCCTGAGCCTCTACGAGAGG
Celera SNP ID:            hCV27856450
SNP Position Genomic:     7486
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:40123):
GGCTTGAGGAAACGCCCGCTGTGGGCGGAGCCACCCGAAAGGCTCCGGTCGGGGGCGGGAACAGGATCGGCCCGCGGGCTGGCGTCGATAGGCTGCCGCA
R
AGACAGGGCGGGCTCTGCTAAGGGACGCGCCTCGCCGTGGGGCGGTGCCTGCGCCTGAGCCTCTACGAGAGGGAAGGAACGCTGCTCCGAGCTCCGCGTC
Celera SNP ID:            hCV27856451
SNP Position Genomic:     7514
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,34)   total(A,1|G,71)
SNP Type:                 UTR 5


Context             (SEQ ID NO:40124):
GGCAGAACTGAAAATACCATCTTCTCTTCAACTACACTTCCCAGACCTGGGGACCCAGGGGCTCCTCCTTTGCCACCAGATCTACAGTTAGAAGAAGAAG
R
AACTTGTGCAAACTCTAGTGAGATGTTTCTTCCCTTAAGATCACGTACTGTTTCACGACAATGACACTTTATTGCCTTTTAATTTTTAATGATGACAAAA
Celera SNP ID:            hCV25604700
SNP Position Genomic:     16501
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,2|G,38)   total(A,3|G,75)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,2|G,36)   total(A,3|G,71)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,209|G,1262)   total(G,1262|A,209) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40125):
TGCCACCAGATCTACAGTTAGAAGAAGAAGGAACTTGTGCAAACTCTAGTGAGATGTTTCTTCCCTTAAGATCACGTACTGTTTCACGACAATGACACTT
Y
ATTGCCTTTTAATTTTTAATGATGACAAAAAATGTTTTAAAGAATATGACTTTTTATAAAATGGCTGTAATCATTTGTTTACATTTGATGCATGTCTTTT
Celera SNP ID:            hCV25604710
SNP Position Genomic:     16571
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 UTR 3


Context             (SEQ ID NO:40126):
TTGCTGACTGTACTCATAATGCTCTCTCCTTATATCCACACGGTTCACTCCCTCACTTCCTTTAAGCATAAATCAAATCCCTTATCTTGGTATTGACAAG
M
CAAGGACAGACTCCTCCAAAGTGAGCAGGGAGGTCATGACCACCCTAGCTTAAATTTTACCAATCCATACAGCCTCATCCTACTTCCCTGTTTTATTTTT
Celera SNP ID:            hCV11883060
SNP Position Genomic:     5294
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40127):
AAACACATTTGTTAAATGAAAGGATTCATCCTAAAGTTAAGGATGGTTAAGTAAATCGGATGGAAGATGATGAAAAATTAAGCAATTAGAAAAAAACTGT
Y
CTTGTGTAATGTGTCAACATGGAAACAGGACATAATGTAAACATCAGAATCCCTTGCTGTGATTCTGGTTTTTGTGGCTCTGGTTACATTGTTTTTTTGT
Celera SNP ID:            hCV2720580
SNP Position Genomic:     6187
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:40128):
TCGCGTAGATTCGCGTCGCCGTCGACCTCAGAGGCGGGGCCGGAAGCGCTACGGTTTGACCCCCGAGTCCCTCTGTTCCCGAAGGGGCGGCCGTCTTTCT
S
CCGACCCGCTCCGCCTCCTCTCCTTCTTCCCCATTACCCGGAGGCCGAAGCCCCCAGCCAGGGCGGGGCGGCGCAGCCCGAGCTCCCGGACCCGGAAGAA
Celera SNP ID:            hCV2720581
SNP Position Genomic:     7718
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,3)   caucasian(C,22|G,2)   total(C,49|G,5)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,6)      total(G,2|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:40129):
TTTGGTGTGTGTGACAATTCTGTTTTTAATGCTATTTGAACAAGTGGGCCATTAGCCAGATTTGTCTTTTTGTTGTAAAACAAAATTTGACTAATTTTAC
R
TGTTTATAAATCTTATGCTCTCACTGTTTGTTTTTATTTAAATTACAATTTTATCTGTTTCCTGACATTGTCTCCTATATATTTCTATTATTAATTGCAA
Celera SNP ID:            hCV2720590
SNP Position Genomic:     17794
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:40130):
GACCCGGAAGAAGCGCCATCTCCCGCCTCCACCATGGAGCCCACCGCACCGTCCCTCACCGAGGAGGACCTCACTGAAGTGAAGAAGGACGTGAGTAACG
S
AGCTGTGCCCAGGGCGGGCGGGGGCGGGCTGCAGCCCAGCGGGAGAGGAAAGCGGAAGCCTGGAGTCCGAGGACAAGGAGGATCCTCCAGGTCGGAGGAG
Celera SNP ID:            hCV2720582
SNP Position Genomic:     7907
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,3)   caucasian(C,28)   total(C,61|G,3)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40131):
ATTCTGTTTTTAATGCTATTTGAACAAGTGGGCCATTAGCCAGATTTGTCTTTTTGTTGTAAAACAAAATTTGACTAATTTTACATGTTTATAAATCTTA
Y
GCTCTCACTGTTTGTTTTTATTTAAATTACAATTTTATCTGTTTCCTGACATTGTCTCCTATATATTTCTATTATTAATTGCAAAAACATAGAAATGGAA
Celera SNP ID:            hCV2720591
SNP Position Genomic:     17810
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40132):
CCCTGCATCCGAGGGACCTTGGTGGCAGTGATCCTCCAGTGATCTGTCAATCCAGGTTTTACATCGCTAAACGCAGAGCTTGGGCTTTGTTGCCAAGTGG
W
GTTTTGATTCTTGCCCACTCCTCACCCATCTCCTCATGCTTTCCCCCCAACTGGGTTCTTGGAGATGCTTCGTTAGGGACTGGCGGCTCAGATTCATCCT
Celera SNP ID:            hCV2720583
SNP Position Genomic:     8141
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40133):
AAGTGCAGGATATACAGTGTTGGCTAAAACATACCTCGTAGCTGCCTGCTTCAAACAGAGACGTTAGTTTAAAACAAATAAATAAATTTTGTTTTCATTA
Y
TGCAATTACTATGAAGGAATCAAACAGTGCCAAGACAATAATAGGGGAAATCGACTTGAGATAGGATGGTCAGGAGAGGTTATATTTAAACTGATTCCTG
Celera SNP ID:            hCV2720584
SNP Position Genomic:     10014
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40134):
ACAGCTGTTTTCCTAGCACCTAGAACAGTGTCTGGCACATAGTGGACATTCAAAACACATTTGTTAAATGAAAGGATTCATCCTAAAGTTAAGGATGGTT
M
AGTAAATCGGATGGAAGATGATGAAAAATTAAGCAATTAGAAAAAAACTGTCCTTGTGTAATGTGTCAACATGGAAACAGGACATAATGTAAACATCAGA
Celera SNP ID:            hCV16285694
SNP Position Genomic:     6135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:40135):
AGAGACTATGCGTGGCCTTCATATATAGTATTCCCATTTAGTCCTCCTTGATGTCCTGTGAGTTAAGTTTTTAATCCTTATTTTATCAATAACATACCTG
R
AGCTTGGAGTGGTGAAGTAACTTGGCCCAGCTCTCACAAGGGTGAGTACTAGATTCAAGATTTGCACTGAGGTTGATCCAACTTTAGAGCCATGCCCTTA
Celera SNP ID:            hCV16052896
SNP Position Genomic:     11445
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40136):
AAATTTTGTTTTCATTATTGCAATTACTATGAAGGAATCAAACAGTGCCAAGACAATAATAGGGGAAATCGACTTGAGATAGGATGGTCAGGAGAGGTTA
Y
ATTTAAACTGATTCCTGAAAGATTTGACAGAACTGAGGGAAGAGCATTCTGGGCAGAATAGAATTTGTCAAGGACCTAAAATAGGCAAGACCCTGGTGAC
Celera SNP ID:            hCV2720585
SNP Position Genomic:     10097
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40137):
TGTATCAGCTCAGCTTCTGGAGGAACTGGAGACTGAGGTCACTCGTGGGCAATTAACTGTGCCTATATGGCCAAGCCCCAATAAAAACTCTGGACAACAA
R
GCTCAGGTGAGTTTCTCTGGATGGCAGTATTCCATGCATACTGTCACGTGTCTCTGCCACGAGAAGTTCATACTGTTCACAATTCCACTAGGAGAGGACA
Celera SNP ID:            hCV2720594
SNP Position Genomic:     22831
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40138):
TGAAGGAATCAAACAGTGCCAAGACAATAATAGGGGAAATCGACTTGAGATAGGATGGTCAGGAGAGGTTATATTTAAACTGATTCCTGAAAGATTTGAC
R
GAACTGAGGGAAGAGCATTCTGGGCAGAATAGAATTTGTCAAGGACCTAAAATAGGCAAGACCCTGGTGACTTGGGGAAATCGGAGGAAGGCAGAGGGTA
Celera SNP ID:            hCV2720586
SNP Position Genomic:     10126
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40139):
ACAGGGCAGAACATTGTTTTTAATTTTTTTTCTAAATTAACAAAATTTCAATATTAGAATTTGCTGGGCACAGTGGCCCACACCTATAATCCCAACAACT
Y
AGGAGGATAAGGTGGGAGGATCACTTAAGGCCAGGAGTTCAAGACCAGCCTAGGTAATGTAGCAAAGATCCCTTCTCTACAAAAAAAAAAAAAAAAAATT
Celera SNP ID:            hCV2720587
SNP Position Genomic:     11690
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40140):
CCTTGCCAACTGATAGCTAAAATGTACAGTAGTGTTTGCCCTCATCTTTACTCCCGAAGATGGCCCTCAACAGACCTCCCTGTTTCCAAGGACCCAGGCC
Y
TCTAGATTCAGCTGGTCCCTCTTCACAACAGCCTGGTCTTGGTTTTTAGGTTTGAAGGTGAGATCAAAGCAGTGAGGAATGTCTAGGACCTACTTGTGTC
Celera SNP ID:            hCV2720588
SNP Position Genomic:     13026
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40141):
ATTGTCAACTCAGGGTTTCTGTGCCTGTAGGTTGAATATTTGCTAAGCCTAACAGAAGGGTAAATTGTGTTTGTGTTTATTCTTTCAATCCTCTGGATAA
Y
GGTTAACTATACCCTTTGGATATCATAAAATTCTTTGATGGTATCTAAGTTGTTTTCTGCTGTAGCAATACCTGAGACTGGGTAACTTTTAAAGAAAAGA
Celera SNP ID:            hCV2720589
SNP Position Genomic:     14857
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40142):
TCCAGGTTTTACATCGCTAAACGCAGAGCTTGGGCTTTGTTGCCAAGTGGTGTTTTGATTCTTGCCCACTCCTCACCCATCTCCTCATGCTTTCCCCCCA
R
CTGGGTTCTTGGAGATGCTTCGTTAGGGACTGGCGGCTCAGATTCATCCTTAAGTCAGGCTGCCTAGGCTGCTCACTCAGCCTAGAGCGAAGGCTGTACC
Celera SNP ID:            hCV27999476
SNP Position Genomic:     8191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40143):
TACATTCTAGTTGAGATAAGAATGGAACATAAATAACTACTGTAGAATAAATGTTGTCTTATTCATGGTGAGTGCCAGTAAAACCTTGAACTTCCAAGAG
Y
TAGGCCTCCTATGTTCCAGATGCTGTGTCACACAGTTTACAATGTTCCCACTTAACCTTCGCAACAACCTCTAAAGAAGATAATTGCCATTCCCATTTTA
Celera SNP ID:            hCV27513812
SNP Position Genomic:     9063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40144):
TGTAATGTGTCAACATGGAAACAGGACATAATGTAAACATCAGAATCCCTTGCTGTGATTCTGGTTTTTGTGGCTCTGGTTACATTGTTTTTTTGTGTGT
T
TTTTTTTTTTTTTTGCTTTCCCGTTTCTTAAACATTGGCGTTCCCAAGTTTCTCCTTGGTCCTCCTGTCATTTTTATCTACTCTCGTAGCTTCAAATACC
Celera SNP ID:            hCV26896715
SNP Position Genomic:     6292
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:40145):
AGGAAAGAGATTTTTATTGGTTTTGTTCACAGCTGTTTTCCTAGCACCTAGAACAGTGTCTGGCACATAGTGGACATTCAAAACACATTTGTTAAATGAA
R
GGATTCATCCTAAAGTTAAGGATGGTTAAGTAAATCGGATGGAAGATGATGAAAAATTAAGCAATTAGAAAAAAACTGTCCTTGTGTAATGTGTCAACAT
Celera SNP ID:            hCV8863643
SNP Position Genomic:     6107
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:40146):
GAGGACTCATAGTATAAGTTGCCTAGAACATATTAGTAAGGACTCAATAAATGTTTGAGTAGGATGAGCTGGGTGGCTCATGCCTGTAGTCCCTGCACTT
Y
GGGAAGCCGAGGCGGGTGGATGGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGCGAAACTCCATCTCTATAAAAAATACAAAAAAACTAGC
Celera SNP ID:            hCV26896717
SNP Position Genomic:     6662
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40147):
GAGGCTGATACTGTGGTTGGTTCTAACAGTTCAAAAATTAAAAATGAAAACACAATCCTAACTTGAAAAGAGCTCAATTTCTTGAGGGGGATTGTTTTAA
R
TCACAAAATAAGTGCAGTGAGTTTTGCATTCAACTGAAACATTAACTACTTGGTGCCCTAGTAAGTGCAGGATATACAGTGTTGGCTAAAACATACCTCG
Celera SNP ID:            hCV27878275
SNP Position Genomic:     9851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40148):
GACTGATTTTAATAGGGAATATATCTCTATTTGAGAATAGACCCTTACTAGGAAGAACGTTTTTTCCTCAGTGCATTTGTGCTAGAAATTTTCAAGAGTC
K
AATAGTCTTTGCCAGTCATTCAGCAGCAAATTTTCAGCATTAAGCTGTTCCTGTTCAGTAATAAAACCGGTCACTGATGGGAAAACTGCCAATATAGAAA
Celera SNP ID:            hCV8863645
SNP Position Genomic:     16934
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,15)   caucasian(G,9|T,9)   total(G,16|T,24)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Gene Number:                 185
Celera Gene:                 hCG25085 - 83000099466909
Gene Symbol:                 SSX2IP
Protein Name:                synovial sarcoma, X breakpoint 2 interacting protein;ADIP;KIAA0923
Celera Genomic Axis:         GA_x5YUV32VY6P(18933058..18992158)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12345):
ACATTATGTTTTTTTACCTTTCCTTACCCACTCAAATGCAGTAACTTAGCAGGAAAACAGGTTTGGGATTTTAACATTTTGCTCCAGAATGTGTTCATCA
GATTTGGCTCTTGCATGACTTTTGGATTGTCCCAGAAATCAGATTTATTTTTTAAAAATAATTATTTTCTTTCTTTTTTTTTTAACCTTGCAACTCCAGC
TCAAAGGAAAGCATTATTTTCAACAAATTCAGTAAATAATGATGTGATACCTTTTGAATATGTATACATGGGAATATGTATACAGCCTAATAAAGTGCTT
ACTTTGAAATGAAAAACATTTATTTGAATTTATAAATTTAGTCACCAAATAATTATTGAGTACCAACCACAAAGCATCAGGCACTGTTTCAGGCACTGGG
GATACATTAATGAACCAAGTAGAGGAAATTTATTTTCCTGCTGAGTTTATATTCTAGTGGAGGGAGACAGACCAAATGAACAATCAAAATAAGTAAAGGA
TCTATCATGGTTTAAGATTGTATAGGAGCAAAGTACGAGAAATTTGGAAAGCTGGAAGGGAGTTCCGATTTTAAACAATGTTGTCAGGTTGGCCCTTACC
AAGATGGTGACATTTGAGCAGACTCTAAAGGGAGGACGTAAGTAACAAAGATGCTAAGGGGATGAACATTCAAACAGAGGTCCTGAAGCAGGAATGTGCT
TGGCAAAGTTGAGGAACAGTGAGGTGGCTAGTGGTTGGTTGAGTGCTTAGTTGAATGGTTGACAGATTGTAGGACATGGAGTCAGAGAGGTAAGGTGGTG
AAGGTGAGGTTGTAAGAGCCTTGCAGCCATGGTTAGCACTTTAGCTTTAACATTGAGTTAGGGGAGCCAAAGAAGAGAAGTGACAGGATCTCACATTTTA
GGGGAATTACTCTGCCTACTGTGATATAAATAGACTACAGAGGAGCAAGGGTGGAAGTTTTGATAAGTTTTGGAAAACAACAACAGCAGCATTTCATAGT
CACATCCCTTTAATTTTGCTAAAAAAAAGTGGAAAGCAAACTAAGCATTTTTAAAATAAAATTTTCATATCTTATCTTTCCTTTCTGATATAGTTCAGAT
ATGTGTCCCTGCCCAAATATTGTGTTGAATTGTAATTCCCAGTATTGGAGGTGGGGCCTGGTGGGAGGTGATTGGATCATGGGGGTGGTTTCTCATGAAT
GGTTTAATATCATCCCCTTGGGGCTGTCCTCCATGAGAATAGTGACTCCTCATGAGATCTGGCTGCTTAAAAGTGTGTGGCACCTCGCTATCTTTCTTTC
TTGCTTCTATTTTCGCCGTATGAGGTGCCTGCTCCCACTTCACCTACTGCCATGACTGGAGATTTCTGAGGCCTCCCTAGAAGCAGATGCCAGTGTCATG
CTTCCTGCACAGCCTGCAGAACCGGGAGTCAATTCAACCGCTTTTCTTCGTAAACTACCCAGTCTTTACAGCAATGCAAGAATGGCCTAATACACTTACC
ATAGTAAAGTTCTATCAAGCCCAATTTCTTTTAGCCCTGGGCTAAAAATGTTCTTAGGCTTAAGCCTACAATGGCTTAAGCAATAGGCCATTTACTGTCT
CACATGATATGCAGTGTAGAGATATACAGAGCCAAGGTAGGCTAATGTAGCCACTCAGTAACATCTGGGCTTGGGGTTGCCTTTTCTGTACAGGCACACC
TTAGAGGTAGTGCAGGTTCGGTTCCAGACCACAGCAATGAAGCAAATATCACAATAAAGGATGTCACATAGTATTTTGGCTTCCCGGTCCATATAAAAGT
TATTTTATACTATACTATTGTCTATTAGTATGCAATAGCATTATGTCTTTAAAAACAAGGTACATATTTTAATTGAAAAATACTTCATTGCTAAAAAATG
TTAACAATCTAAAAAAATCTTGAAGCCTTCAGCAAGTTATAATCTTTTTGCTAGTGGAGGGTCTTGCCTTGATGTTGATGGCTGCTGACTGATCAGGATG
GTAGCTGCGGAGGGTTGGGGTGGCTGTGGCAACTTCTTAAAATAATGCAATGAAGTTTGCCACATCGAGTGACTCTTCCTTTCACAAAATATTTTTGTAT
CATGCAACGTTGTCTGACAGCATTTTACCCACAGTAGAGCTTCTTTCAAAATTGGAGTTAATCTTCTGAAACCCTGCTGCTTATCAGTTTAAGTTTATGG
AATATTCTAAATCCTTTGTTGTCATTTGAACAACGTTCACAGCATCTTCACCAGGAGTAGATTCCCCCTCAAGATACCACTTTCTTTGTTCATCCATAAG
AAGTAGCTCTTCATCTGTTCCAGTTTTATCCTGAGATTGAAGCAATTCAGTCACATCTTCAGGCTCCACTTCTAGTTCTAGTTTTATTGCTATGTCTACC
ACATCTCCAGTTACTTCTTCCACTGAAGTCTTGAACGCCTCAAAGTCATATATGAGGGTTTTAATCAACTTCTTCCAAACTCCTCTTAATGTTGATATAT
TTTGACCTCCTTCCGTGCCCATGAATGTTCTCAATGGCATCTAGAATGGTGAATCCTTTCCAGGTTTTCAATTTACTTTGCCCAGTTCCATCAGAGGAAT
CACTATCTATGGAAGATACAGCCTTATGAAATGTATTTCTCAAATAAGACTTAAAAGCCAAAATTACTCCTTTATCCATGGGCTGCAGAATAGATCTTGT
GTTAGCAGGCAAAGCTCTTGGGTAACCAGGTGCATTATTAATGAGCAGTGAGATTTTGAAAGTAATCTTTTTTTCTGAGTCATAGGTCTCAACAGTGGAC
TTAAAATATTCACTAACCATGCTGTGAACAGATGTGCTGTCAGCCAGGCCTTGTTGTTCCATTGATAGAACACAGGCAAAGTCAATTTAGATATTTCTTA
AGGGCCCTAGGATCTTTGGAATGGCAAATGAGCATTACCTCCAACTTAAAGTCAGTAGCTGGAGCCGGGCATAGTGGCTTACAGCACTTTGGGAGGCTGA
GGGAGGTGGAGCATTTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAACATGGTAAAACCCTGTCTCTACAAAAAATACAAAAATTAGCTGGGCATGGTGG
TGTGTGCCTGTAGCCCCAGCTACTTGGGAGGCTAAGGTGGGAGGATTGCTTGAGGATCACTTGAGGCTGCAGTGAGCCGTGATCGCACCACTGCACTTCA
GCCTGAGCAACACATTGAGACCCTGTGTCAAAAAATAAAAAATAAAAATAAAAAGTCAGCAGTTGCATTAGCCCCTAACAAGAGTCAGCCTGTCCTTTGA
AGCCAGGCAGGGACTTCTCCTCTTTAGCTAGAAAAGTTCTATGTGGCATATTCTTCTAATAGAAGGCTTTCTTTTGGTCTACACTGAAAATCTGTTTAGT
GTAGCCACCTTCATCAATCAGATCTTCTAGATAAATTGCTGCAGCTTCTACAGCGGCACTTGCTGCTTCACTTGGCACTTTCATGTGACGGAGATGGCTT
CTTTCCTTAAACCTCATGAACCAAACTCTGCTAGCCTCAAACTTTTTAAATGAAGCTTCCTCATTTCTCTCAGCCTTCATAGAAATGAAGAATTAGGGCC
TTGCTCTGGATAGGCTTTTGCTTAAAGGAATGCTGTGGCTGGTTTGATCTCTTATCCAGACCACTCAAACTTTCTACTTATCAGCAATAAGGCAGTTTCA
CTTTCTTTTCATGCCTGTGTTCAAGGGAGGAGGACTTTTAATTTCCTTCAAGAACTTTTTCTGTGCATTTATAACTTGGCTAACTGGAACAATAGGTCTA
GCTTTCTGCCTATCTCAGCTTTCAAGATGCCTTCCTCACTAAGCTTAATCATTTCTAGCGTTTGATTTAAAGTGAGAGATATGTGACTCTTCCCTTCATT
TGAACACTTAGAGGCCATTGTAGGGTTATTTATTGGCCTAATTTTAATATTGCTGTGTCTTAGGGAGTAGGGAGGCCCAAGGAGAGGGAGAGAGATGATC
AGCCAGTCAGTGGAGCAGTCAACATATACATTGAATTGGCTGTCTTATAAGGGTGCAGTTTGCGGCACCCCCAAAATAATACAATAGTGACATCACAGAT
CACCGTAACATATTTAATGGAAAAGTCTGAAATATTTCAAAAATTACCGAAATGTGACAGAGACACCAAGTGAACACATGCTCTTAGAAAAAATGGTGCC
ACTAGACTTGCTCAATGCAGGGTTGAGCAACAAACCTTTATTAAAAAAAAAATACAGTGCCTGTAAAGTGCAATAAATTGAAGTATAAAACGAGGTACGC
ATGTATTTTTCTTGCTTTTCTCTCGTGGTTGCAGAATATGCTGCCACAGCTCCAAACATGTCTGGCTTACTGGAGGATGTCCAAGGCAAGAAGGAAAAAA
CTTGTCCTTAGTCTGTCAGGATAAAATCCTTCCCCTGAAGCTCCTCATCCCCCACTCCCCATTATGGACTGAGCAGAATTAGGTCATATTTTTAGCCCCT
TAACCAGTTATTGGTTAACAAAGAGGGACAGAGTACAAAGAGGTTTAGACCAGTGGTTTTCAAAGATCTGCTGAACCTTGGGGCGGCAAGTTTCCAAGAC
CCTTCCAGGGAGTCTGCAAAGTCAAAACTATTTTTGTTATAATACTAAGATATTATTTGCCTTTTTCCCTCTCATTATGAGTGCACAGTAGAGTTTTCCA
GACGCTACCTGAAATAGCACAACAGATCGAATGCACAAACAGATATGAAAATCCAAATGCCTTCTATTAAGCAAGACATTAAAGATATGGGCAAAATTTT
AAAGTAACACCATTCTTTTAACTAATTTTTTGAAAATAGTTATTTTTAATTAAAATGCGCTATTTGACATTTTTATTTTTATTCATTATTATTTTAAAAA
ATAGCAATTTTTAAATTTCTGTTTTAATATTAATAGCTGTAACCAACATAAAGAAAAGTTCTTGGGGCTCTCAATAATTTTACAAGTGGAAAGCGGTCTT
GAGACCAAAAGATTGAGACCGCTGGTTTATTCAGGCAGATCTTATTCCTTCCCGGGGTTGCTGAGGTCAGAGCTAAACTTCCCAGAGCTCAACTAAGCTT
GGTTCAAACCTTTTAAAAATGTAACTGTTAATGGTAACGCCACCTGGGCTCAACAGCAGCTAGACGGGCCTCTGATTGCTTGGCCAAAGGAAAAGAGGAG
GATTTCGTTGGGCCCTGAAGTTGTCACCGTGGCGTGCTTCTTCTGGCCCTGATCTTTCATCCAGGATTGGGGATACGTGCATGCAAACTGGGAGGTGGAC
ATTCCTCCCGCTCTTGTTTTTCAGTGTTAGCATCTTCACTCATACTGTTTTGGTTTCAAAGTGCTCTCAGGAGTCTCCTTAAAACACCAAACCTGTTTTT
CGCCTTTTGAATAAATCCCTTGGCTTCACCAAAACTAAACAAAACAAAAATCAAAGAACATCTTTGTGTAACCTATATGCCTGTGATTTCTCCATCTGAT
CTCCTTTCTCTGGCCTCTTTTCTTTTCTTCCCCAGTGAATTTTAGGCTGCCATGAAACCAGGGAGGAGACAGCCTGACCCTGGCCACGGGTGCAGCAGGC
ATACATTTTCATCGCACATACTTTGTCGAGTGGGTGTAAGACATTTTTGCATAAACTGAGTTCACGAATGCCATTTCTTAGTCTTTCCTTTGCCCGCGGT
CTTCTGCCCAGATCCATTTCTTCGCCCTAATTTTACATATAACTTTCTCCCGGCTGGATTGTTTGCATCCACGACTCCCGACGCTTGAACCTCCCGTTCC
TTGGACCTGACCTAATTCTAGGTGCCCGCAGTTTATTTCTCCACTTTGGCAAACGCACGTGGCTCTCCTGGAAGCTTCACTTTTGCTGCTAGGCTGGGTG
TTGGGGTTCAGTGGGGCTCGGAAAACGTGCTCTAAAGTAGCCACGACCCCGGTCCCTGCAGAGTCCCGGCCCCCACAGAGCCCCGGCCCCGGACGCTGCA
GGCGTCAGAAGGGGGCGGGGAGCAGAAAACGGCCGGGTGAATCACTGGGCGTAACAGGTGCCGCAGCCGCAGCTGCGCCCGCAGCGCGCGCGGACCGCAG
GGATAAGGTCTTCTTTTTCTCCGGGTTTTTTTGGAGGTAAGGAGGAGACTACCGAGGCCCCCACCCGACCAATGCAGGCCACGGTTGTTCATCGCCTAGC
AACTGGCGGAGCCAATGGGAGGCGGCGGGGCCTGCGGCGCCGGCGCGCGGGGGCGGGGTGGGAACCTCGGAAACCTGCGGAGGCCGGGAGGCGGCTGCAA
GGGGCGGGGAAGGCGGGAGCCCGCAGCGGAGGAGGGGCCGCGGGCGGGAGGCGCTGCGAGGCGCTGCTGGCCCTCGGGCTGCGGGAGCCGGGCTAGGACG
CCGAGCGGTGACTCCCCGCCGCTCCCGGGGGCCGTGACGGTGAGCAGCAGCGCCTCGCGTCGGGGATTGTGACGCGCCCCGCCAGGGAGGGGCGGGCGGG
GGTGGGCGCCGGCAAGGGGCGGGCGCGCGCGGAGGTGAGAGCCGGCACCTGGCTCAGCGCCCCGTTGTTCGGCGGGAGGCTCCGCGCGGCTGTTGGGGCC
GTTGCAGGGTGCGGGCGAGCGTCGACCCGGGCCGCTCCTGGAGGAGGAGGTGGGAGGTAGGTGCTGGCCCCGGGACCGCTCTCGCTGGCGTTCGCGGAGC
TGCGCCTGCGGAGCGCTCTGACCCGGGGAGCCCCAAACCCTCTCTGGGATGGAGCAAGGTTGGCGCCCGGCGTKGGGGGACGAGCAGCGCGGGGACGTGG
GGGAGGAGGGGATGGCCGATTTGGGGCTGCAGAGTCTCAGCAGCGGCCGTGGGGCATGCGGGGTTTGGCGATTTGCTAGTGCAGCCGCAAGAGGCAGTCT
TTAAAACGAGTTATTGGGTGGCCGCTGCAGTGGAAGAGAACCCCGATAGTGGTCTAGTAAAAAGTCTAGGGGAAGAATTTACATCATCCAAGAGGCAGGC
ATGTGTGAAAATACTTTGGWTTATAATTTTATCATGAAAATACTTTGGTTTAGAATTTTATAGTCAACGACAGTAAACTGAATTGTGAGCTCCCTGCACA
TTTTTTGAGCCTATGCTGATTGCCCAGTTAGGCATATCGCTTGGGCCCAGGACATAGAATATACTAATTTGCTGTCTGCACGTATAATGTAGGAATTTTT
AGATTATTACCCAGTTTCAGGACCCATAGTTGTAAATGCCAAACTGCGATTACTAGCAACGCTGATAAAGTTCTTGAATCTGAGAGAATTGAGATTTCTC
TTTTCTGGACGCTGTAATAGGTTGAGGATTAGAAAAGAAGGTGATTTAGAAGTGTAAGGGTGGAGGCTTCTTGAACTTCCTGGGCTTTCTAACAATTCAG
ATTAGAGTCAAGGTGTAGAGTTAGCTGTGGGTGATGGATGTCATGGACCTTTTCATGGTTCATGGGGGTTTGGCTTACTGTGGGGTAGAAGAAAATTCTG
GTGATCCTACAGTTTGATCCTGAACTAGAAAGGTTGGTATGAGTTGACTCATTTAGGAGAGTGAATAAAATTTGTAAAGAATTAGAAATTTGGAGAGGAA
AGAAATGCCTTTAAAGTTCACGTCAAGCTATTTTGAAATTTAGAAGTTAGAGGTAGATTTATGAATTTGGATCCAGTCGGCAAAACTTGATCCATCAGAT
CTCTTATCCTAAAACTATCAACCTACAGGCTTAGGAAGCTTAGGTTATTCATTCACACTAAACAAGTAAGGAAAGCTAATAGCTAATTTAACACTYTGTT
CTGCCTGCTGTTAATGAAGGTTTCTCAAACAAAACGGTTCTTTGAGAAGAGGGTTAGGAACTGATAATTAAAACGAAGGCTCTTTTAGTGACTGGCTGAA
CCTCTTAGGCCAAGTCATTTTGTACTCTTCCTTCCCTTCTCTTTCCCCAACTGTACAGGGAAGATAAAAAGCTCATGGATTACGTAACATGGGTGAGGCA
GCTTGAAGATAACTGTGAAGACTTAGTTATTCTAGGATGAAATGTGGAGATCTCATAACACATTGTGCCTTGTGACAAGACTTGTTAAAGCACATTATGT
TCTAAACATAATGAGGCAGATATATGAGAAAACTAAAATGTTACGCTGAAATTGTTTGCTAAAGACCTCAAGTCCAGCACAGTGTCCAATTGTATACTTG
GGATCTCCTAGTACTTGACAGTCTGCTTTTTGGCCAAAGCAGGCCGTGACACCGGTTTTATAAAGTAGGCGTTTGAGTGCCTTYTATGTAGTATACCCCT
AGAGAAATTAGGTGCATGAAAAGACACCGCCCCCAAATTGTGTGATTTTAATTCATTTAACATGCTTAAATTGGATCGATTTCAAAGATTTTTAAGTTAT
TTTTTCCATATCTTTTACAATAGCTGTGAATATGCCTTACTGGTTTCACCATTTGCTCATGACGCAAAGAGGTTTTGATACGATGTGGGTTTGTTTTGTG
GCTTTGGTAATGGTGATATGGTTAGCTAGTAGTGAAGGTACAAGTTATCTTGAATTCACGAGTTTATGGGATGAGATAGAATAGAGAAATGCACCATTCA
TTAGTAGTAATGAAAAACATCCTAGAATTGTGCCTTTTGATTGTGGGCCAATGTTTTATGTAGTACCAGCAGATTTACTGAATTATTCTTTAGTAATTCT
TTCAATAAACATTCATTAAACGCTTAGTAAGCTGCTACTTGCCTGACCTGAGGATAAAAAGATGAGTGTTGCCTTGAGGAATTTGTATTTTRGAAATTAT
CAGCATAGTGAGGCAGGAAGCAAAAAAACCTCACAAAAAACAAATATAGGAAGGCTTTCAAAAAGAAGGAGAATTTCAGCTGTGTCTGGTAGAGGCAGTG
GAGTTCATCAAGCAGCTGGTGCATTCTGCAGCAGTGTACAGTTGAGTTACAGGTGGCTTGGTAGAGTTGGACCAGGGTGGGGTTGCCATATTAATAAGGC
TGTAGAACAGTGCTGTGAACATTGACCAGTAGGTTACAGGGAACCTTCAGAAGGTTTTATGAAGGGGAATTATATTTTATTTTTACTTTAGAAGGATATT
TCCACCAAAATCAGTAATTTGAGTGATCCAAAATGTATTGAGTATAGTGCAAATAATATCTGAAAGACAGTCCCACACAGCAGTTAGACTTGAAGTATAT
TTTGCTGAAGCCCTCAGAAACTCCAGAAAAGCAGAAATAATTATACAACAAACCTTTCTTAAGTATCTTCTACTTTGAAGACTGGAAGAATAGGGATACA
AATTAAATAAGATACTTCCCCATTTTCAAGCAACCTGCAGTTCAGTAGGAGAAATAACACAGTTATAATGCAGTACAGAATCTGGGTGTCAGACATAAAA
ATGTCAGACTCTAGCAATGTAGGATTCTGAGATGAGAGAARAAATAGTCTTTCAAATTAGCAAAAATAAGTTTTTAAATAGAAATGAAACTACAAGCAGT
TAAACATTCAGAACAATCTTAACTCCAGTTGTTCTCATCTTTTAACTCTTGCTTCACACATATCCTTTTCTCATATTCTCTTGAGTCACATTTTCGGTTT
GATCTACCACACTACTAGCTATGTGATCTTGTGCCCTGGTTGTCGCATTTATGAAGGATAATAACAATACCTGCTTCGTAGGGGTGTGATTAGAAAAATA
GGTTAGTATCCAGAACAATGCCTGGAAAAATAGCTCATACTTACTGAGCACTTAATATTTCTACTTGATATAAAAATGCTGTAATTGAGTAAGAACAGAC
TTTAAAGACAGGATTTTTTTTTTGTCATGCTAGATCTATCCATGAGCGTCTAATAAAGCCTCTACATTCAGAGAAACTAACATTCTTTTAAACTGAGATT
CTTGAACAAGTGATTTTCCTTTTCTTATTTGGTGATCATCTTTCTGAAGTCTGATTTTCATTTTTACCCCTCAGCTTTGTCATTAAGTCACTAATCACCG
AATTCAACACTTTTTAAAATTCAAAACCTGCCCATTCTATGGCATTTGCTGCTGTGTATCACCCTTTCTCTTTAAAAGTCTTCTCCCTTGGCTTTCCTGA
AGTCCGTTCCCCTGTCTCTTTGTATCTCTTGTGTCTGGGTCTGCTTCACTCGCTTATGTTGATGTTCTTTGGGGTTTGTTCTCCTGCCCCTTTTTTCTTT
ATGAATTCATCTATCTAAATGTGCTCGGATGTCTTGTGAGTTCTAGGCCTAGAGTTTATCCCCATGTGAATGTCTCATAAGGGCATCTCCAAACCCAGTA
AGCTACACAAAGCTCATTATCTCCACACATTTGCCCAAACCCAGTTTTACTAACTTTACTCCTCTGTTCCCTTTATCTAAATGACACTATTATCTGTCAA
GTGCCAAAGACAGGTTTTTATGTGAGAGAGTAGATGCCTCCCTTTTGTGTACTTGTCACCATGTCCTGAATTATTTCTTACCTGTTCTTCACTATCCTCA
GTCACTGACTAAGTCAGCCAGCTGGTCCCTGACCATTAATTGCCCAGTTTACTATAATATCTGTCTCAAAGATTTTTTTTTCAGATTATAAAAGTATTGT
ATGCTTTTTGTAAAAAAATTTTAAAAATTAAGATAAAAAGCAAAAAAGTATTTAAGTTACTTCATGTGTAGTTCTTGGCATACAGTCAGCACTGAGAATA
TATTTTTGTGCCACGGTGCTACAAATAGAACTTATTTTGCAAGCATTAAGTTTGGAGGAGATTTGTAGAGAAATATTGTTCTAAAAGAATTGTAGGACTA
AATAATTTTGAAATCGTATATAGAGCCTAAATAGTGTAAAGTAGATACTTAAAATTCAAGATGGGTTCCAGCCACTGCCTATACTTTTCATTTGCCTGTT
AATTGTAATCTGGTTGTGCTTTCCTATCTATTTTATTCTCTATTCTATAGCCTTCGATTTTATTTTCTATTCTATAGCCAAATTTCAGGAATATCCCCCT
GCATAGGATCTAGACTATAAAAGCAAGCCAACATCATAGAAATAATCTGTAAGTACAACCCATCATTAGCCATGTTGTTTTATAATGAGGCGATAGGCTC
AGAGAATTGATATCATTTKCTCAGCATATTTGTTGAATGTCAGGAGGAAACCAGGCCTGTGAGGCTTTGGAATCATAAATAGCTAGTTTTTAGTCTTTCC
AGGTTAAATAGCTGGATTTTATTTCTGTCTTCCAGGTTTGTAACTGTAAGTTACCTAATCTGTTGCCTCAGTTTCTTCCATCAATAAACCAGTGCTATCT
TTACTCCTTCCTAGGGCTAGCGTGAGGATTAAGTGATAACAGCTAATGGAGCCCCATCTGGCATGCATTAGGTGCTCTTGAGTTCATCATCAGCTTCTCT
CCTACCAGTTTCACATAATTAGCTAGTACAGGAGTTATTAACTTGCCATCCATGGATCCTTTGCAAATGGATGGCTTCATAGATCCTCTGAAACTCTAGC
CCAAATTGCCTGTTCTTGTACTTTTAAAGGAAGAGGGTCATTGGCTTTGGGTTTTGGGACCCAAAACATTTTAACCCCTGAGTTGGCAGTAAGGCCAAGG
ACCCAGGGCTCTTGGTGCCTCCACAGCCAAACTGACTGGGTAGAATTTAGAATTGTTTGAAATATTGGAGGAACATTTTATATATATGTATTTAAAGCAT
TTTAAAGGACTTCAGGTGTAAAGAATTAGTTTATATTCCTTGGCTCATGACACGTTTGTTTAATTGGTCCATTTATAGTTTTAATAATACAGTAAGTACC
ACCTAACCCTGTGCATAACCCTGTGGGCCCCTCCATTCCTTTTTCCTCTGTCCCTCACCTGAGGCAGCTATTTACTGAATCCTATATTCATCATTCTCTC
GGTGTCTTTTATAGTTTTATTGCATCACATAATTTAAAACTGTATATATTACATGCCCTATCTTCTGAAAATTTTTTCATTTTATAATACTGAAATTTAT
ATTATGTGTCACTGAAGTTTTCTGATTACTGCATAATATTCCATTTTGTGCATATGGCATAATTTATCCATTCTCCTGTTGGTGGTATATGGGTTGTTTC
CAGGGTGATACTCTTGTGCTACTCGCTATTGTGAAGAATGCTGCTGTATAGGTGCACACCTCCTGGCATACGTAGGCAAGAGTTTCGATTGGGTTTCACT
AGGAGTGGACTTGCTGGGCTGTAGAGTATGTGAATAGGATAAATGAATATTCAGCTGATGAACTGTTTATTTTTCAGAGTTTCCCCCCATCCTCTAAGGT
TTAATAAGCTGCTTAGCCAGGCATTCCCTAGGACTGTTATTTTCAGCCTCCATTTAGTGCTTTGGAACACTTTTACATCATTCTTGGAATCCATTTTGTA
GGACCCTTAGATAAGAATTCCTTTTTGGTGTTCTCTAATTGAAAGTGCATATAAATAGAATACTAATTTATACTGAACCACATTCTATAGAACACAGCAG
TGATTCTCAAACTTTGTCAGAATTACGTGGAGGTTCTCCCACCACTAAAGTTTCTGAATCTGTAGGTCTGTAGTGGCACTTGATAATTTGCATTTTTATT
GAGTCAGGTGATGTTGATGCTGCTGGTCCCAGGACCACACGTTGACAACTATAACCAATGATTGAATTTGGGCTAAATCATTGAAAAAACGATGAGTAGA
TTTATTAATTATGTTTGGTTTCTTTGTTATTTCCAATGCCTTTAGTAGATGCTATTACCATTTCATTATTTGAGGAGTGAAATACCAATAAATAGTAATT
TTAAAATTTGATTTGGACTTCTTAGCTGACTTTTAACCTTAAAAGTTGATAGACTTCTAAAAGTGCCTCTTTTTTTTCTTGTTTCTTAATAATCTTCTAA
GAATATGATTGCTGCTATTCCTGTGTGTACATTGGAAGAATTTGAAACTGATACACTGTTTGTAAATTGCCATGCTCTTGATTCATACCCTGAATCACCT
TTCTCCTTCTCTGAGCTGTTACCAATCAAGATTACGTTGAAAGCCCTTCCAAATTGCAGCATGGCCAAAGTGTTGACTTGTCTATCATACTAAAACAGCA
GCAAACCTTACACTAATACATCCTTGAACTTGGACATTCATTCAGCAATCTTGACTGGGCWCCAACCTTGGAGTGAGTGATGATGCCTGTTACCGAAGTG
GGGTACAAAGAATATGCTGACAAGCCTGCCAAATGAGAACTCAGTTGTGGTGGGAGAGAAATTTTATTCCTGTTAGATCTGTGCTGTAATACAGTTCATG
TTAAGTGTTCTAGAAGCACAGAGAGAAGGGATGGCAGTGCAGGGAAAGCCTGGCAATATATTTGCTAGGTTTTTCAAAATTTTTTTGAATTGCTACATCC
AGAATTTAATATTTTGTCTGCTTTTGTGTAGTTCCCATTCCAGTTATTCAATTGGCATAATTATTTGATTATAATTTAGTTTCAGGTGAGGTGGTAAAGA
AGAGAATACTTGTTCGGTTTGAAAAAGCAGCTTGAGGGGAGGAAGAGCATTAGGACAAATAACTAATGCATGCGGGGCTTAAAACCTAGATGACGGATTG
ATAGGTGCAGCAAACCTGCACGTTCTGCACATGTATCCCAAAACTTAAAAAAAAAAAAAGCAGCTTGAATATTGTATCCTTCCCCCTCTCCTGTACTAAA
GATAGTAGGGTGTAATGTTAAATGTGCTAGACTACCAGGGTTTGAATTTTGGCTTTGTCATGTTCCAGCTCTGTATCCTAGGTCAAGAAAACTCCAGGCT
TCAGTTTCCTTATCTGTAATGGGGGAAAGTATTTGGATCATTGTAAGATTGAATAAGTTCGTACACATAAAATGCTTAGAATTGTTCCAAGTAATTGCTA
CATGCTTAATAAATTATTTTATTGTTATTAAAATTAGGTAGAATCTCATTTGCTAAACATTGGGTTGTAAAGACAATGTGTGCACATTGTTATAAAAATG
TGAAGAAAAGGCAGTGCGTGATGGCTCACACCTGTAATCCCAGCATTTTGGAGGCCAAGGTGGGAGGATCACGAGGTCAGGAATTCGAGACCAGTCTGGC
CAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCAGGTGCGGTGGCATGCGCCTGTAGTCCCAGCTACTCGGGAGGTCAAGGCAGGAGAA
TTGCTTGAACCCAGGAAGCAGAGGTTGCAGTGAGCTGAGATCACACCCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCGTCTCAAAAAAAAAAA
AAAAAGTGAAGACAAAATAATTTTGATATAAATAGCTGTACTCAGTTCCATATTGGGTCCTATGAGAAATGTAAAAATCAAAAGATAATAGAACTTGAAA
TTCTTTAAAGGTCATCTAGTTTGACTTCATAATTGAAACCCAAAGAAATTATGACCGGTTCAAGGTTTCTCAGTACATAACAGAAGTGTTGCTGAGAACC
RTGGCCTCTGATGCTACTCAGTCCAGCGCTCTCTCAGTACCCTGTGCAGCTTCCCTGAAGTGACAGCGCCCTGGAAAACTAACAGTTTAATTGGCAGCCA
AGTCCAAAACAGGTGAAAACATTAGCAATAAAAAGTCAGTATATAATGGAATATCAGATGGTGTACATAGATTAAGTCCCTACCGTATTTAACTTTGTGA
GCTGCTCTCTTGAAGCGGAAATGCACCTTCTTAGTAATTTCATTCATTGAAGGTTGAAAGATGAAGAGCATTTGTTTTTGAAGAGGGTGTTAATAAAGTC
AATTTCCCTCTTTCCTCCTACCAAGGTTGGATTGTTCATTAAGCCAGGRGGAGAGTCCACTTTTGCCAGGTCTGCCAGTACTCCATGGCTTTGCCCTTGA
TGATAGTTGGGGAAAAGTCTGGCCTCTGTATTTCTGTTCCCTGTCTTCCTGATGGGCCAGATTCCCACAGACATTCCCTCAGGTATGAAGACTGCATTAC
CCTTGCTCATGGGTATGCGTACATATGTGGAACAGGTGCTAGAAGTGTACCTGATTGGKGGGATTTGTCTAAGTCGAGATTTCCACTCAAGGACAGGGCT
GCTACTTTTTGGGATTGAGCTAAGAGTACTTTCACACATTATCTCATTTAATTGTGCTTGAATACTCTGCTGCTAAAAATTTTACAGAATAATACATGCT
CCTATAACATTCAAGCTATATAAAGATATGCTATGGAAGAGGTGAAAGCCCTGCTCTTCTACCCCTCCCTGTACCCAAATTATTCCATCCCAAGAAGTGT
CATTTGTGACATTTTGTAACTTTTCCAGAACTTTCCCCTAAATATATATAGGTAGTTTGAGTTAACAAAAAATGGTGATCATACTGTTCTAATTAACCTG
TAACTTCTTTTTTTGTGCTATACATGCATATGTGCTTTAATCTTTAATAATCCCAGAATAGCCTGGCTGTACCATATGTGTTGGTTTTTAACAGTTTGTC
CATGATGGATATTAAGATTGTCTCTAGTTTTTTGCCATTTCAAATAATACTGCAATTCAACAATGTCCTCAATATATATTATGCTTGCTCTCTTATATGC
CTAGAAGTATGATTGTTTAGTGGAAAGATTTACACATTTCAAATATTTGTATACTGTTGGAATTGCCCTTTAAAACAACAAACTACTGATCTCTGGTAAA
GTGCTATTTCCCTTACATAATTGACTATCTTAAAAAACTGTAGGASATTTGTATAATTTTCTAACCAGTTTTTGCCCAACAAGACTGCTTGCTGTTTTAT
TTTATGCATTTTTTATCACTCATGCCATTCTACCATTGGTTTTGGTGGTTCAGAATGGTGCTGTTTATCCCCATTTCCTGTGCTTATCATCACCATAATT
GCCTTTTAAAAACATAAATTTTTTTTCTTAATATGAAAAACACTTTCATTTATAGAAAATTTGGAAGACACAATAAAATAAAAGTTATATTTTTGTGCAT
GAAAGTACATAAAGAAAGGAATGAAAGTCCTGCCCTTGCCTTTTCCCTATTTTTTAAGTTGGTTTTTCCTTGCAATTTTTTCTGTCCTTATACCAACTTT
TGTGTTTATAGAGCAGAATTTATGCCTGTACATATCTACTGATAYTTGTTTTTTTTTCCTGAGGACTAAATAAGCTCATATTAGATATGGTTTTGTAACT
TTTTTACATTACTTAACAAAATATCATGGAAGTCTTTCCAAGAGTAAAATAGCTAATAATAGCTAGCATTTATTGAGCACTTACCATGTACCCATGACCT
TTTTTTAAGCCCTCTACATGCATAAGTTTATTTAATAAAATTATTAAAGAAATTTGGTAACTAAATTTACTGTTTAACCACATAATTTTTTGAGGTAAAC
TGCTTTTACTCTCCTTTTGCAGATGAGGAAAGTGAGGCCCAAAGAAGATTTATGTTCAGGACCATTTAGTCTGTAAGTGGAGAAGCCGGGGTTTGGAACC
AGATGGTCTGGCTTTGGATTTTAACTCTTTTACTGTACTGTTTCTCATACTGCAGCAATGATCAGTTCAAAGATATATAAGGAATTTAAAGAACAGCATG
TAGCTCCCTGCTTTCTAAGCTGAGGATGGCTTTCTAATGGCAGATTTTGGCCAGGAGCTTCATTGAGATTATATCCCTCAACCCAGAGATACACATGAAT
TATTGTACCATAATTTATGTGTTCACACTATTTTATGCAGTCTGAGCCCAACTGGGAGATAGATTGAGTTCTGTTTTTTCTGGTTCTTAAAGGAGTAGTC
GTAGGAGATGCTGCTTCCTGAGCCCCTCACCCACTGAAGCAACAATATGTGATGGTTAAGAGAATGGGCTCTGCAGTCCAATGTGGGGTTGGGGGGTTGG
AATCCTGCCTCTGCCACTTGCTAGCTCTGTGACCTTGGGCAAATTACCTAACCTCTCTGCCTCAATTTCCTTACCTGTAAAAAGGAAAAAATAACAGTGT
TGTTGTGAAGATTGACTTAATTACATACGTAAAGCATTTAGAATAGCTCCTGGCACATGTGTTATTAAACCAGTACCCTATGTCCTAGTTATAGTGTACT
TAGTTTTCCACCTCTTACTCTGTTAAATATCCACAACCTTAAGAAGTAGATTATCATCACCCCATTTTAAGGTGAGGAAACCATCTTGAAGAGAGCATCT
TGGAAATAAGTGTCTTCGTCAAGATATGAATCAGTCTGTTGACCCGGGCCTCTGAGGCTGGCATTGTTTGCACTGTACTTTCCAACTATAAATCCTCTAT
TGGCCACAAAACATCAGGAAGGCACATTATTAATATCAGTTTTTGAGTTTGCACCATTCATGTGTATTTAAATTTATGAGGAAGAGTTTATTTCTGTGGA
AAATATCTGGAAAATGGCACCACTCAGAAGAAATAATTTAGATTTTAAATTCATAAAGAGTAGATTTTCTAAGAGGTTGGACTTAATGTGTTTCTGTACT
GATGTGCGCATCTGAACAATTTTAAGGTGCAGAGATATTTCTAATGGAATTCAAAGCTACGGTCTCCTTTATAACAAAATCATAGTTGAAGGTGGTATTA
CAGTTTTAAATAATTGTAATATATCTAGTTTTTAAGAGTCAATATGATGACTAAATTGTTAAGTTTTAGGACTGAATTTGTAAAATAGGACTAATGTTAA
GTGACTTAGTTTTATCTTCTTAACCCAACACTTAGTTTTATCTTCTTAACCCAACAGTGTGGTAACTCTAACTTTGTGAGATTTTAGCAAAGACTTCAGT
TAGCTCTATTTGTGAAAAATTCTGTGCAATATTTAGAAGCCCAGATGGTGTAAAGTTACCATGTCCCTCTATAATGGAAAGCTATTATTTTCTGTCGACT
GAAATTGTTTTAGAATTCTGAGTAGGTAGGCAATTGTACCTTCTCAAGTTTGACTTTCAAGTGACCTTGAAAAGAACACTTAAAGTACTGTACTTTGTGA
GGGAAATCTTGTAATCAGAATACTGTGTTTCTGCAGAGCTCTCTTTCAGTTTGTAGTTGCAGAGATTTGGGGGTGAAGAGGACAAGACAAATGGGAATTG
AGAGTAATTCTTTTCTGTAAAGGATTGACTCTTCTTTTGCTACTTTTCCATTGCTCTTTTCCTTTCTCCACCTCTACCTGCCAGAATGAACATGTTAATT
TGTTATCAGTTATTTGAGTATTCATTGATTATGCCATCCTTTAAGCTTAGTGGGAGGGAGGGGATACAGAAATGTAAAATGTGTGGTACTTGAGAGTGTG
GTTGGGAAAGATGAAACAAACCAATAAGTATATGGAGGGCTTAGAGATTGAGCTTTGTGGGCTGGAGTAGTTGGAGAAGGTTATGTGATGGGGATGGCGG
TTGTGCACTGTTTTGTAAAAGCATTAGTTTTGAAATACGTGCAAGAAGRAAGCACAGGTGGAGGCACAGAGGCTGAAGTGAGTGTGCCACAAGTGGGACT
CGGTTCATATTGTAAACATTTACTGAGCACCTGCTATGTTTCAGGTACTGTTGGCTGCAAAGATGCAGACATTCCCTGCCCTCTAGAAGTTCATAAACTA
GTCGGGAAGACATCTAACCRTAATACTATAGAATGATTAATTGTAATACTGGATGATATCATTGTTAAAAACCTGATCAGTGGCATTTGTAGTGTATGGC
ATCATTTTTAGTTATGTTTCAGTAAATTATGGTTTAAGTTTTAGAAGGGACTCCGAAATTTCTCAAGAAATTTATGTATATTTAATATACATACTTAAAA
ACTTGTATGAGTTATCTGTTGCTTCATAACAAATTACTCCGAAATTTAGCAGCTTTAACAGCCAGCTTAGAACAGATGAGTCAGGAATCTGAGCACAGCT
TAGCTGGGTGCTCTGGCTCAGGGTGTCTGACTAGGCTGTCAAGGTGTTGGACAGGGCTGCAGTCATCTCAGGGTTTGAATGAGGTAAAATCTAGTTCTAA
ACTCACTTGTATGGCTTTTGGCAGGCCTCAGATCCTGCTGACCTCAGACGTCAGTTCCTTGCCACACGGACCTCTCATAGAGTTGCTTACAACGTGATGG
CTTGTTTTCCCCAGGAGGAGGGATTTAAGAGGGCAACAAGTAAAAAAACAACCTTAAATGGAAGCCACAGCCTTTTTATAACCTAATTTTGGAAGTGAAA
TCCCTTCACTTCTGCTATATTCTGTTTGTTGGAAGCTAGTCAATAAATCTAGCCCATACTCAAGGAACAGAATAACCCAAGAGCGTGTCCACCAGAAGGC
AGAAATAACTGAGAGCCATCCTAGAGACTGCTTACCTAAAGTTCTACAAGGTATTGTTGTGTATTGAGAACCTCTTCGTCTTTGGGGTAGAAGGAAAAAG
ATGAGCTAGCCAACGAACTTTACTGATGGAAAAAACAGATGTGATTAACCAGAAAAAACAAGATGTTTTTGCTAAAGGTCTATAAAGTTAGTTTCAATAT
TGTGTTGATATTTACGATAGAGAAGTATAAACAAGAACAAAGCTATTGTTTGTGGCCAAGCAGAGACCAATTTTACAAGTATGCCTCAACTTAATTAGTA
TATAAGTTCCAGTGAGAATTGTATGCTCTGAATGGACTCATTTTAAGTGGATTATAAGAACACAATCTTCTAAATAAACAGTGGAAATCATTTTGATTAT
ATTCTATTTTCAGTTGGATGTGCATGCACGATAGAGATTTATGTGTACAAAGTTGAAAGGTTGAATAGTGATAGAATGAAAAGAGCACAGAGTTGACTGG
GCATGGTGGCTCACGCCTATAATCCCAGCACTTTGGAAGTCCGAGGCGGGCAGATGACTTGAAGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAA
ACACCATCTCTACTAAAAATACAAAAATTAGCTAGGCATCCGCCTGTAATCCCAGCTACTCAGAAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGC
TGAGATAGCATTGAGCTGAGATTGCGCCACTGTACTCCAGCCTGGGTGACAGAGCGAGACTCCGTTTCAAAAAAAAAAAAAAAAAAAAAAGGAAAAGAGC
ACAGAGTCTTGAAATCAGATTTGTTTCCTGGCTTCACAACCAATTAGAAATGTGACCTTGGGCAAACCTGTTGATCTCTCTGAGCACTAGTTCCTGTCTA
TAATACAGAAAGCAAAAGAGAAAACACTTGGACATGAGGAATGATAGATTTAAGCTCTGCATGATTTTACCCAGAAAAGACCAGAGTTCCCTTTCTTATT
TTATACCTGAAGTGTATGGCATTGGTACTTTGCAACCCATAGTGACATATAGGGAAGACAGTGTACTAATACTTAAAAAGTACTTACTACTTCAAAAGTA
GTAAGGTAAAGCTTTTACTAAAAGTATTATAAGATTTTCTATTACAGTATAAAGACATTGATTGGAATCTATGTTGAGAAGTACTTTGAACAAGGAAGTT
TATTAGATGGCTATATACGTGTTACCTACCGCTAATGAACAAAACTATGTCTCTTATTTATGGATTACTTTATACTTTTGCTTTGATGTATTTCARGWTT
GTTCCCTGACAATCTTAAATGAATGAAATGCCTTTTACAAGATATTTTAATTATTTAATGTTCAAGGTTTGCTCATAAAATTCACTCATGAATTTGATCC
ATCTTGGAATTTGGGTAGCTGTATCTTGGAATTTAGAAAGCTTATTTTGCCAAGGTTAAAGACACATCTGTGACACAGCCTCAGGAGGACCTGACGACAT
GTGTCCAAGGTGGTTGGGGCACAGCTTGGTTTTATACATTTTAGGGAGACATGAGACATCAGTCAGTATGTGTAAGATGTACATTAATTGGTTCAGTCTG
GAAAGGCGGGACAACTTGAAGTGGAAGGGAAAGGGGGGCAGGGGCTTCCAGGACCCAGGTAGATGAGTTGAAAGGTTGCATTCTTTTGGGTCTTTGATCA
GCCTTTCACTGAATACGCAATTTACATGTGAGAGGGAAGTAGAGGAATAGCCACTTAGACCTTAGTCTGGTTCATTGAATCTGCATTTTTACGTAAATAA
TAGGGCATAGGAAGCAATCAGATGTGCATTTGTCTCAGGTAAGCAGAGGGATAACTTTGAGTTCTGTCCTTTGTCCCACACGTTGGAAAATAAGCTATCA
GCTTACACTGCAAGAGTGAAATCCAACAGAACTGTTTTAGGGTAAAAACCTTGAGGCCCACAAGGAATTTTGGACAAATGTAGCTTTTTAATCTTTGTAG
CTATTTTATTTAGGAATAAAATGGGAGGCTGGTTTGCCTGATGCAGTTCCCAGCTTGACTTTTCCCTTTGGCTTAGTGATTTCAGGGTCCCAAGACTTAC
TTGCCTTTCACATACTCTAACCAATCATATTAATAGATAGAATTTTAGGTTACACATTACTTGAACTAAAACATGAATCACTGCTTACTTTTTTCTCCTA
AGGTAACTATGGTAACAGTGCTAGAAAACTAAGTTTGTTCTCATCCAGTTGTGAGGAATAATCATGTCCACTATACAATGGCTTACTATTATTTGATTAA
TCTATAATATGAACGTGTGTTCCTGCACTGACTTTGTAATGGAGTCCTTCTTGGTTGCATTTGATGCTTTCAAATTGAAATGGGCTTGTGATGGTATTAT
ATTTATGCAAAACAGATATGGTTCTGTTACCTTTTTCTTTTGCTTTTGAAATTAACATTGAATTAGCTTAACATCTTCATAAAAAATGCTTTGCAACCTT
CAGCAAGGCAGTTTTAGCTATATTTGAGCTGAAATACAATAATATGCTTAAATTCACTGCTTAGTTTAGGGTATGTATTGATAAAGAGTCGTAAGTCCCC
TTTCTTGGAAAAACTGGTCGGGTAACTTTTCTTATATCGCAAGTCTCCTAGCATGTAATTGGTACATCATTGAACAGAAGAGCATTCATGGAAGCTTTTA
GATTGTGTGAAATCATATACTGTTAGTTAAGTTTTTTGTTTCATAGGACTTCAAAATGGGGTTTTGGTTTTCATTGTAAACATTTTACAAAGTTTGTTGG
TATTAATAGGGCAGGGAACAATTCACTGTCTAATCTATAGACAGGAGAGCCAAATTCGCAGAGAGAATAACTGACTTACAGTTTTAAAGAATGGATATAT
AATAGACACATTTTGGTGTTCTTTCTGTATAAGGAGAAAAGACACTTAAGGCACTATTGTCTTACTTACAAATACCTTAACAAGAACACAAATTGGAAAG
GTGCCTATTACTGTTTTCTTCTGACCTTGTTTTTTCCCCCCAACCAGTTGATTATGAAATTAGCTCACTGCTTACTGTGTTTTTATAAAGATATCTGTCT
CTAGATCATTTAAGAATATGTGTTCAACCTTTATTAAGAGCAGCGGTACATTTTGTTATAGGTTTTAGAAGCCTGTCATTTATACCAAATAGCCCTGTGT
CTAGATAATAATGATGATGATGATTAATATTAGCTTATGTGTGTCTTCTATGCCAAGCAGTGTGCTAAATACTTTATGACTTATCTCTTGGGATAAGTAC
ATTATACCTTATCTCTTGGGAAACTTAGGAGGTATGCTTCATTGTTACGGTAATTTATCAGAGAGGTATGGCTCAGAGAGGTTAAGGAATTTACCCAAAG
CAGAGTTCTATTAGAATAGGTTTATTGTCCCTTGGATTCTGTTTTACTTATAGTGATTATCTCAGAAAGCTAGAAGTAAAATCAGTGTCTTTCTTAGTTG
GTACAGTCTTTATCCTTCTCATCCTGTTGCTAATACCCATTTAAGGACAGTGGGAAGAACAAAATAGTTCAAGGTGCCCTTCCTTACCAAGCACATGAGT
AGAAAAGTGGCAAAAGACCATTGCCAGACTGAATTACCTCCTGTGTCTGTGTGTGTGTGTAACATCATAACATGTAATATGACATGTAACATCATCTGTC
TTAGTATATATTATATGCTTCTCTACAACTTAGAAATCATCCTTGATTTCTTTTTTGCCCACATTTCAATCCATCTTTGAGTTCTGAAGGTTCTGTCTCC
AGAACACATCCCTAATTCATCTGCCTGTTTCTGCTTCCACTGTTAGAACTGTAGTTTAACACTGGTCATCTTGCCTGAACTATTGTAGTAGCCTCCTGAT
TTCTTCCAGCTTCTACAATTGCCTACCTATAGTCTACTCACAGAGTAGCCACAGTAATCTTTCTTAAAGCATAAAAGAGAACATGCTACTTTCCTACCTA
CAAGAAACACATCAATAGATTTTCATTGCAGTTTAGAGGAAATCCGACTTCCTACGCTGTAGCCTTGCTTACTGTGCTTCAAATATACTGGCCTTCTCTC
TGTTTTTCATCGTTAACACATTAATATCCATCATAAGTCTTTGTATCTGCTGTTTCCTTTACCTGGGCTGCTCTGGTCATTGATTTTCTTGCGGCTGACT
CCGTATCATTTAGGTTTCACTTCAGATGTCACCGTTTCAGTGGAGGTTTTCTCACTGATCTAGATGCTCCCTACCTTAATACTCTCTCATATTACCATGT
TTTATTTTCTTTTTAGTTATCACTCTGTTAAGTTGTTGCTCATTTGTTTAGTATTTATTTCTATCTCCATCAGAATATGAACTTCACTTCTTGAGAACAT
GGCCTCCCCTGTGCCTAGGAAAACGTAGTAGCACATAGTAGGAGCTCAATTAGTATTTATTGGATGAATATAAATTTCTTTTTTCTTTTTGAGATGGGGT
CTCTGTYGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCAGTGTAACCTTGCCTCCCGGGTTCAAGGGATTCTTCTGCCTCAGCCTCTTGAGTAGCT
GGGATTACAGGCGCATGCCACCACGCCGGCTAAGTTTTGTATTTTCAGTAGAGACGGGGGTTTCGCCATGTTGGCCAGACTGGTCTCAAACTCCTGACCT
CAAGTGATCCACCCACCTCAGCCACCCAAAGTGCTGTGATTACAGGCATGAGCCACTGCAGCCAGACTAAATTTTCATTTAACACTATATTTTGAATATT
TTACCACAGTCTTAAATATTCAGAACTGTGGTTGTGAACTCTTGATCCACAGTCCAGATCTGGCCTAAAGACACATTTTATTTGGCTTATTACATAGTGC
TGTTGTTTGAGGTATAACTTACAGTCAAGTGCACAGATCTTAAGTGTACAACTTGATGAACTGATCTTGTGTGTACCAGTATAACCACATCTCAGATCAA
GATGTAAAAAGTTTTGGCACCCCAGACTCACTCATTTCCTTCTCTAGCCACTCCCCTTTCCCACAGGATAACTTAATACATAGAGTTTTTTTTTTTTTTA
ATTAGCTACTAGCATTTTAAAATTGGGAGACTTCACATAAAAATTCAGAGTTCCAGTATCTCATAAAAACATCAAAGATCAACACAACCGCTTTCCCCTT
GACCACAAYTTATTGTAGCCGAGAAGCAGCTGTCCACAGTATTGACATGTGTTCCCCAGGCTGCCTGCAGTCTTCACCCTTCCTCCTCTTCCCCCTGACC
TTGAAATCAATTGCCAGTTGCCACTTACAATTTCATTTGAATTGTTTTTCTTATGATGGAGAAATATTTATCTCTTCCATTGTCTCTATAAAAAAGTGAA
AACATAAATGAAAACAGAAAAGGTGTCTTATACTTAGTCCATACCATTCATTTGTAGTTTTGGCTGTTTGTTTGCCATCCTAATTCCACACAGTTACGTT
TAAATGCTGTATAAATATATTGTTTATTTACTCATTCTTCTATGGAAACATAAACACATTATTTTTGTTCTTTTGATATTGTAAATAACATTTTAGATTA
TCTTTGTACACAGCATTTTATTAGGATAATATTTTTGAAGTAGATTTTCTGGATCAAAATATATTTTAAGACTTGAAACATATTGTCAGCTTTCTTGGTA
GTAGTGTAAATTGCTATAATCTGGAGGGAGTATATGGAAGTTTCATTTCTCTACATCTTTGCCAACACTGGGAATTGTAATTTACAAGTTTTGCCAATAT
AGTTGGTAAAAACAAACAAAAATGAAAATGCTGGCCAAGAAGAAGTTTTTCATCATCTTATCTATATAATTGTATTTTATTTTAGAGGATATAATATAGA
AATATTACTTAGTACAATGCTATACCTTAGATGTATGTTGAGTCAAATCGTGTACCATGTATCTTGTATATAAASTAATATGAATACCTCAGTAGAACTT
GGGARGCCTTTAACCTTGATCCTTACATATTATTTATATTTCTATGTATATACACACACCATGTTCTATATCTGTGCATGGGAATAGGTATTGCAAAATC
CTTCTGTTTTGAAGCACATACAACTAATTCTTAAGCATTGGGTTTATATTGGCTTTCATATTTTAAATTAGATGCTATTATTCTATAATCTGCTTTTTAA
GGAGATGCCTACATAGAAGAGTGACAGCAGCTAGACTAAATGTTTAACTGCTGAACTAGTTCCTCAGGTATCCTGGCTCTAGAGATTGCTATGGGAGATT
GGATGACTGTTACAGATCCAGGTCTGTCTTCAGGTAATTAAGTCTAAATAATTGTAAACAAAAGCAGAAACTGTAAAGGTGAATTTTTCAATGAAAATAT
AAAATAATTACTGCAGATGTTGAAGATGTGACTAAAGAGAGACAAATCGTTGTAAAATACTTATTTTCATGTCTRCTGAGAMCACCACTGTATTTGTATC
TTTTTGGAAAAAAAAGTRTATCATTTTCATAAAGAGGCTTTGCCCTAATTTGAAAATACCTTAAAATATGTATGTATATATTATATCTATGTTTATATGT
ATATATGTAATTCAAAGTCTTTAGTAATGGCGATTATGTTAGCTTTACATACGTTTTTCTAAATTATTTATATAGATGCCTTTTATTCTTTCAGAAAGCA
AAACTATCTCTCAATATACCTCAGAAACAAAGATGTCTCCATCAAGTTTATACTCACAGCAAGTGCTATGTTCTTCAATACCTTTATCGAAAAAYGTGCA
CAGTTTTTTCAGTGCCTTCTGCACAGAAGATAATATTGAACAGAGTATCTCATATCTTGATCAGGTAACATGTTTTTGTAAAAAACAGTAGCATAAATCA
TGTTATATAATAGAATGTATCAAAATTATGAGAAAAACATTTGTCAAACACAAGTTTGTTGTTTATGTAGTGCCCCTGAGACTTAGATTTTCAGAGAACC
TTGGTGATTATCTCATCTAGAGATAGCAAGTCTAACTTTTTTGTGTGGAGCACCTTGGCCTCCTCATTGTCCCAGGGGCTCCTCCACTGAGAGTCCAGCC
ATCACTTTATGGATGCAGAAACCCAAGTGCCTTGCTCCATGTCACAGATTTATAGCAGAGACTAAAAGAGCCCCGTCCTCTTAACTCTTTGTCCTTTGGG
ATATTGACCATTTTCTTAACTATTTCAAGATAGTTTTCTATTTTTCTAAGAAAAGATTTCTATCTTTTGATTTTTTTTTTACTAAGTTGCCCAGTAACCA
ACCTTTTAAAATAATTCACATTTATTTTTAATTTTTGACAAAAATTATATATATTTGTCATGTTCAACATGATGTTTCATAATACACATTGTGAAATGGC
TCAGTGTGCATACCTCCCATACTTATATCATTTTTTKTGGTGAGAATTTACTTGCTCAGCAATTTCAGGAATATAGTACGTAGTTATTAGCTGAGGTCAC
CGTGTTGTACAATAGATCTATTAAACTTATTCTTCCTATCTAACTGAAAGTTTGTATCCTCTGACCAGTATCTCCTCAACTGTAACCAACTTTAAGAAAA
CATTTTCTCCTACCAGGAATTGACTACTTTTGGTTTTCCTTCATTATATGAAGAATCCAAAGGTAAAGAGACAAAGAGAGAGTTAAATATAGTAGCTGTA
CTAAATTGTATGAATGAGCTGCTTGTGCTTCAGCGGAAGAACCTTCTAGCTCAGGAAAATGTGGAGACACAGAATTTGAAGCTGGGAAGTGATATGGACC
ATCTACAGAGCTGCTACTCAAAACTTAAGGTAGAAATTGCAGATCCATATTTTAATGCCATAATTATATAATTGAGTACTATAAATTTTTACTGACTTTA
TTAAATATTTCAGGGTTTTCTTAAGCTTTAGGGTTTTCTTTTTAAACAGGTAAGTAAAAGTGAACTTATAATTTACACACATCTGCTTCCTAATACCTAC
AGTATATTGAAGGCATTAATTTTTTGAGCTGTTTAATGACTTGCCGAATCTGTAAAAAGTTAGATTAGGAAATATTTATGCTCTGGGAAAATAAAATAAC
AATTCTGTCACCCCATCCAATCTTGGTTAAGAAAGTATAYGCTTCATTTAAAAGTCTTATTGTAAGAGGCTGCACAGGTTAATTCCAAGAAAAATATTAT
TGAGGCATCTGTGATGCCAAATGAGCTAAGGCTCAATAATTAAATCAGACTAGATAACTTCCCTTAGAAGCCCTGGGTCTCTGGAAAAGACTATAGAAAA
ATGCTTTAGTAAACTTGCTTTTCTCTTAAAAAAAAAAGGAAGTATTTTTCACAGGACCATTGAACCTACTAACTTTAAAATGTAGAATATTTGATGCTGG
TTTCTATTTTGATTTCTTTCTTTTTCTTCCTTTTATGTTTTCATTTTTATTTTTAAAATGTTTATCCAAGGAGAAGGGAACAAGGTGTTCAAAATCGTGG
GGTGGTTGGGACTTATAGTTGTATATTATTAAGGGTATAATATAAATCAATCCAAGTCAAATTTTTTCCTAAATATACAATTCTATATTGGGTTTTGTTA
TTTGTGAAAATCAAAGCCTTTGCATTTGCATACTGTCAGATGATCAGCTTTCTTTTAGTTTTTCATCTGTTGGTCCATGCCCGTTTACTTTTCCTTATTT
TTCTTTGTGTACATCCTCCCCCACCCCACGCCATCTAAGAAAACAATAAAAAAAACCCACTCAGAATCTTGAATCTTTGAGCTCTGTGAGGGAATAATAG
GACCTGTCTATAGAATATTTAAAAACCCCCTAGCAGGAAATGTGCTGTAATGATGTGGCATAGAGTTGGCCTACATGGGAACACTAGAAACACTTGGGGA
TTGGTTKAGAGACATCTTTGCTCTTTACGAGCACCTGTGCCTACCATCCTGTCATTGATAATGCTGTCTTATGTTGTCTTCTTGGTTCATACACAATGAT
AAAAGTGTGTTTTCTCTTAATAATGTTTTTAGGCTTTTGTGCATCTTATATTCCTAAGGGATAAAGATGATCCAGCTATGTGTCTTGGCTGACTGGGGAA
CTGTGGTAGATTGGAGAGGGTATTTGGTGCCCCCTAGGCTTGTGAAAAGGTTATGAGTTATGGATGCTACTTTAATCCAGATCAGAGAGACCTATGGAAG
GTCTTATTAAGTACTGGGCTGATGCAGAGTTGTAACCCTTGGCCACATGTCTTATAAGTAGCTAGTAAATCATTATGATAYGTTGGTGATCTGAGGCTAT
TGAGCCTTTACTTCAAGGAGTGGTCCCATTTATTAGGACTACCCAGAGCAGAGACTGTTTCTTCAGGATGTCTTCTAATATGGGATTTGACCTGGGCCAG
AATCTTGTTATTTTGGGTCAACTATGGACAGAAATGTGTATTCAGTGGGGAAAGTTGCCAATCTATCTGGAAAAGTTTCTAGATCTAGCATATGATTAAT
CCAACTTGTTGAACAAAATTTATTGAGTATATGCTAGGCACTGAGTTTCAAAGATGAGTGAAACCCCAGTCCTAGGTCAYGAGGAGATTGCAGTCCAGGG
AARGGAGACATATTGAAACATAACTGTTTGCTTCATTAATTGTTCTTGGGGTAGGACGCAAGGGAAGGCTTCATGGAGAGGTAACACCTGATCTGAGATT
GGAAGAATGAGTAGAAATTTGCTAGTGTTTGGAAATGTCATTCTAGGCAGAGTATATGACTTGTGTAAATGCGTAGCAGCATAAGAGATCACTGCACTTT
AGAGGAACCACAAATATCTCTGTTGGGGCTGCGATGGGTATGTGATGGTATGAAGAGTGGTATGAGGTAAGGCTGGAGCCTCATCTCCTGATGGTGTAAA
AGGAATTGTACAAAAACAGGGAAGCACTGAGGAGTTGTAAACAGGAGGAAGACAATGTGTAAATATTCTGGCAGTGGGGTGGAGAAATTATAGGGGAATT
GCAGACTTGTATTTGGGATGGAGTTAGGGGGCTCAGAAAGCCCTGGTGATAAAGATGCCTGTTAGCGACCCTTTGCTGAGGTTTTGGACTTGAACTAAGG
TAGTGCTAATGGGAATAGTAAGTAAGATTGAGATCTGACGAACACTTAAGAAGTAGAATGGGTAGGATTTTATGAAAAATTGAATTTGGAGACTAGGGGT
CATGGATTCAAGACCCCATTCAGGTTTCTGYCTTGAGTTACTGAGGATGRCGATGTGATTCACTAAGAAAGGAAGGAGGGGTGTGTGCAGATGTTCAGGG
GTGGTGCTGAGTTCAGGTAAAGTGTTGATAATCATGCTGAGTGAATTTCTGATTTGACATATATGCTACATATCACCTGGCCTAGTGCCTGTAAGTTATG
TCATGCCAACTGATCTACCCTAGTAGTAAGTTTTACACATTCAAAAAAAAAGGKTGCCAAAAACTGACAACCTTAGAGTTATCCAGGTTATACTCCTACA
TTTTCTGTACCTTCTTGAGATCTGTTCTTACAGAAATTGTGCAAGTTATTATTTATGGTCGGTTAAGACATAATTTGATTGGCTTTTGAATTTTATAAAA
ATATTAGTACAATTTTAAAAATATTCCATATGGGTGGCCTCATGCAGAACTCGGCACAGTTCCTCAGATGCGATAAGTTGAAAAGGAGCATCTTGTTTCA
TACTAATTCTGGCTTTGCTGCCATTCCGCTCTGGGAAGTACCTTCAGAGACTTTACCACTTGCAGGGAGAAGTGGTGTCACACAGAAGTCCCATTTCTGT
GACTTGATGTGTTGCCACTTTGCTTGGTCACCCATCTTTTTCTTCAGACTTAGCTCCAAATCACTTTTGCTTCTTTTTCAAAGCCAAGTATACTCTCGAA
GGATGATGACATTGCTGTACTTGAGGAGATCTTCAAAAGTGTGGTATAGAAGTGTTAAAAAGTATTAAAAATAAACTTTAAAAATATTCAGGGGCAGCAT
CATGGAGTGATGCTCTTTCCAGGGATCCATTTTGAAGCACTTTTGTATATGTGTACAAAATTTGATATGTAGATTAAAATTTGATGTGTAAGTTTAAATG
TTATTTTATAGTGTGCTTTGTAATAATTCCTTTAAATAAACATTTCATGTGCCACTAACATTTGATTTTGACTAATAAACACTAGGATGTATAACTTCTT
GTTACTGATMTTTTAAGGATTCAGTTATTCTAAATCCTTTATTAATTTTAAGCAAAATTGCTTATAAATGTTTTAGGAACAACTGGAAACCTCCAGGAGG
GAAATGATTGGGCTTCAGGAAAGAGACAGACAGTTACAATGTAAGAACAGGAATTTGCATCAGCTACTAAAGAATGAGAAAGATGAGGTGAGTTGTCAGT
TATTGCAGATGAAGTTTAAGTGAATTTTTGTTTTCTTTGTAATATGAGATGACCATAAGAGCCACTTTACTTGAAAAAAGAAAGAACCATTTATTCATCT
TTCCCCAAATTGATATGGTGGACCTTTGTGTAATAGTATTTAACTGGAAGSTCAGGAACCCTCTCCACTACAGACCCCGCCCCCAGTGGATCCATTTGGC
TTAGATATTAGTTCATAGCTGGTAACAGCCAGTGTCCTGGACTGCCCTTCCTGGACTCATGTTCACTGTCACTTTTTCTTAGGCACAAGAGTGCTTTAAA
TGCAGATCTTTTATTCTCTGCTGTACCTGTACGTGATAGCTGAGGTGCCCCTTCTTGCATGCACTGTCTTAAATATTGACATTGTTYGTCTAGTCAACCA
GTTTCTTCATTAAATGGGCACAGAAGCAGTTCACATTAAAAATCTAATTTCTGACACAAAAGATACAATTCTGATTTCTGCTTTAKTGGTTACTTAGCAG
AATTCTAATTTCTACTTTAGTGGTTACTTGGACCTATAGCACTAATGCATTTCAAAATATATTTTTTAATTTGTGTAGAAAGAAACTATTATGTTTTTAT
TGCTCTAAAGTATGACCCCTGACCATGTAATAACTATAAAAATATAATACTTAGTTTCAGTGTTTTATATGTTGTTTTAACTACAATTAAAGACTTCTGA
GGAGTGTATTTCTTTAAAGCGCCCTGGAGTGGTTTAGATAGATTTGTTTTACCATATTTGTTTATTTAGTAGTATATTTAGTAAGTAGTAGGTAATTAGT
ATTTAAACTGTAAGGTTGCTTGTACGTGTTTCCTTGAGTTCACAGACAATTTTGACTAGATCTGTTGATTATATTTAAACGGTTTGAATACAGCTCATCT
TCGGTAGGGATTAAGTTAATCATGTTGATCCCTAGCAGGGACTGGGAATGGCTTTATAAAAGAATAGGACATACTCTGTCAGGAGTTGCCTGAGAAACTA
TAATAGATCTAAATTTTGAACAGCAGTGTCTGGCACCTAGTAGATACTCAGCAAATATTTGGACTGGATTATTCTGCTGTTTGGACTTACTCTTACTCGA
GAATTGTTTTTAATTAGAAAAACGAGCCTGCTTACCTGCTGCCATGTGTCACAGGCTTAATTCACTTTGTCACAGATTAATAAAAAGTATAAGTGATTGT
AAGTCAGTAATACAAGGAGTTCACTAAAAATGATCAGATGAATTCTGTTTATCTCAGATGAAGTTTTAATCGTTTTAATACTTCCATAAGAATATCTGGT
TTTTAAATGATCAGAGTCTATATGTAAGGTAAAAGGTATAGGAGATAATTTAGAAAATTAGCGCTTCTGGAAATTTCAGAATTAAAAAAACTTTATGTGA
TTCATATAATATTTAAAAAAGTGGTTTCTACTGGTTACAAATAAGGAAGAATCATCCTAGGATTTTAAAAYCTATATGGGGAGATGAATTTTAGGATTTT
TCTCTTTCAAATTTGTGAATCGTTACTGGGCTTATAATAGCAAATGCCTTTTTCAGGTGCAAAAATTACAAAATATCATTGCAAGTCGARCTACTCAGTA
TAATCATGATATGAAGAGAAAAGAGCGTGAATATAATAAACTGAAGGAACGTCTACATCAACTTGTTATGAACAAGAAAGATAAGAAAATAGGTAAACAG
CTGGCAAAGATCAGCTAAGAGAATAAATAAGCTAATACTATGCTTAGAAATAATTGTAAAAGGATTGAACACAGTAACTCACGAAATGTTATTTTCATGC
TTTATACAATTGATTTTCAGTGGTGTTTGTKTATATAAAAAATGTAGACAACTGGTTAGTGGAAAGTAAGTCATTCTGCCTTGCTTTATTTAATTGCATG
TATTTTTTAACATGACCAGTGTAGAATTAATCCATAGAGGAAAACTAAGCCAGAGGACATTCTAATTTTCCATAGCAAAGAACTGATAATATTAAAAATC
AGTGTCAGTTTCTGAGTATCAAAAGAAGTATTTTAGAGTAAACCTCATAAAATTTTTCATCAGACCAAATCGTTCATGTCAGTTTGAGTTCCTTTAAATA
AGTTTAGCTGTACATTTTTGGAGCAGCTAGTCAAAAGGATGGACTATAAAAGTTAGGCGTGTGTGTGTCTAAGGTATACTTTTTTCCTAATAGTAGTCTT
TTTCAAAACTTTAAGCCATTTCATCCAAATATGTGGATAATTTCAAGTAGATAGTGTAAATTAAAAAGCAAAGAAACACGAAAGTAGAGCTTTACAATAC
AGTTTTGCTGGCCTGGTATAAATACGAGGCACAAGAAGTGTGTGTATTTATTTATTGAAGAGTGGTTTCCWAGTGACTATAGGTAGTCCTCTAACATACA
TTATACCGTGACACCCCTAAACTGTCTTACCTTAGATTTGAAAAACAGGCGATGAGCGTACGTTTCAGGCTGTCATGTGGTAGACTCTGCCTGCTGTCAG
CAAGCAGTTTAGTGTTGACTACATCACTGTCATTCTGCAGCAGAGCTGTTGGAGGTATCTGAATACTTTATTTTTTAAATTGTTGAAAAATAGAAATGAA
GATTCAGTAATGCGCCGTTAAGATTGGAAATCTTTAGGTATCCTGAGTTAATCTTACTCATTTGGAGAATCATTGGTTTTTAAGTTTAGTTAGCCTCATA
TTCATTCATGAAGGAAAAAAATTAAAAAGCAGGATGAAATGCTGAAAGTATAAAGTGTAACACAGAGAAGTTTATTAAGGATTTAGTTCTGGAAACAGAG
CTCTTCCATTATAGYGGTCTGGCTGTTTCCTGGTCCAATCGGAAGTGACAGTTTCATAATGATTTTATTAACTCTAAGATTATAATAATTTACTCTTTTT
CCTTTTTACGCCAAATGTTTCCATGTCCACCTGCAGCAGAAGATATTACTACTATCAGGRGCTTTGACTCCTTTGATGAAAATGATGATGTTAATGTTAA
CAGGACATGGCAAACTTTTTCTGTATAGATCCATATAGTAAACATTTTCAGCTTTATGGGATCTACAACTTATTTGTTGCACCTACTTATCTCTGCCATT
GTAACAAGAAAAGTAGCCATAGGCAGTATATAAACAAGTAGATGTGGCTGTGTTCCCATAAAGCTTTATTTACAAAATCAGGCAGCCAGCCTGTGGGCCA
TTATCAGGCAACCCTGATAATGAAATTAATAATGATAAGGTAACATTTATTAAGTACTTACTGTGCGCCAGATACTGTGTTCACTCTACTGTGTTGGGTG
CTTTAATAGTTATTTCTTTGTCTTCTCAACAACTCTTTGGTAGATACTTTTGTTATTCCCAGTGTCCAAGAAGAAACAGGCTWAGCAGTTAAATAATGTG
CCGAGATCTCATTGCTTACAAGTGGTGGAACTAGAAACTCGAAAATTAGGCTGTTTAAGCCCAAATCCTAACCTATATACCAGGTTCACTTTCACCACTT
ACGTGTATAGARTGCATTAGAGTTTTAGAYGCTTAAGCATGTATGGTAAGAATTAATTTTATGTGTTCATGTTTGTAGCTATGGACATTTTGAATTATGT
CGGGAGAGCTGATGGAAAAAGAGGCTCCTGGAGGACTGGTAAAACTGAAGCCAGGTAAAGTCCAGTTTAAATTGATAAATGTAATCAGACTTCCTTCTAT
CCTGCATTTTCATACTGACAGTTTCTTTCTCAGGAATGAAGATGAAATGTATAAAATTCTCTTGAATGATTATGAATATCGTCAGAAACAAATCCTAATG
GAAAATGCAGAACTTAAGAARGTTCTTCAACAAATGAAAAAGGAAATGATTTCTCTTCTTTCTCCCCAAAAGAAGAAACCTAGAGAAAGAGTAGATGATA
GTACAGGAACTGTAAGTGGCTCTTTCCTCTCTAATACAGTCTTCAGATTGCTAATAAGAATAATTAAAATATGTGGTAGGCATTCTCAATGGGGACACTA
TTGGTATTTTGAATAGGACACTCAACTGCTATGCTACTTTYAATTACTGTGACAACTGAAAAGACTGTTCCTATGTGTTTTCAGACATTTCCTGAAAAAT
GCTGGAGATGATTTTCCGGGGAATTAATACATGTCAAGCACTGTTAAGAAGTGCTTTATAAGCATTGTCTCATTTTATAATATTCCTCATAACATATGAG
ATTATTTCATATATTATAATTTGATGATTTAGATACTATAAATATCCCCATTTTATAGATAAGGAAACTAAGGCATAATATTTAGTAGCCCAGTATCACA
CATGACAGTGCTAGGATTTGAATCCAAGTTTCTCACTCCAGAGCTCACAATCATAACCACTATGTCAAATATCCTTTCAGTTGTTTTAGTATTATGTACT
CTACTTTTCACAGAGTGAAACTTCTGTTAACTTTGGGAAACAAATATAAATTTATTGGGTGTTCTTTATGTTCTAGTCTCTGGAAAGGAAAGGCTAAAAA
GATTTTGACTTTTTCCCTCAAGAAGCTCTTTTTGGGAAAGACAGACGTGGAGAAGTGATTATTACATGTGTTAGGTGCTGTAATAAGGTGGTACAATGTG
CAGAACAGAATAGTTATGGCAATCAAGGCATCACAGAGAAAGTGACATTTTCACTGCTTCTTAGAAAATAAGTATTTTTGAGGTTAAAAAAAAAAACATG
GAGAAAGCATTCCAGAGAATGGGAGTAATATATGCAGAGATCTGAAAAAAAAATCACATAATGGTGAAAAGTTCATTTTACTTAATTGCTTTACGTATAA
GTTAAAATCGTAGGTTTCAGCAAGTTCACATTAGTGATAAAAATCTGAAAATAATGTTGATGGAAAATGCTAGTTAACAGCAAGATACCAGAACTTGTTT
TTTAAACCTGTATTTGAGGATTATTTATTTTGTGGTATCACAAATCAGTCCAGCTGATAAGCCYATCCCAGCACTTACCTTTTTTTCTCCTTAACATTTA
AAAAAAAAAATTACCTAAATTTTTTTTTTTTTTTTTTTTTAAGAGACGGAGTCTTGCTCTGTTGCCAGGCTGGAGCGCAGTGGCACAATCTCGACTCGCT
GCAACCTCTGCCTCCCGAGTTCAAGTGATTCCTCTGCCTCAACCTCCTGAGTAGCTGGGACTATAGGCAGCCGCCACCATGCCCGGCTAATTTTTTTTTT
TTTTTTTTTTTTGTATTTTAGTAGAGACGGGGTTTTACCATGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCTGCCTCAGCCTCCCAAA
GTGCTAGGATTACAGGCGTCAGCCACTGCGTCTGGCCTTTTTGAGAGAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTCCAGTGGCACCATCTCACCTCA
CTGCAATCTCTGCCTCTCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGCATGCACCACCACCCACGGCCAATTTTGTAT
TTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAATTCCCGAATATCTTTTACATTCTCCATTTTGAGGCCTGCTTGACCTCTTATAT
GTAGTTAACCTCTTATCTCAAACTCTGTCACTTCTAGTCAGTTCTTARCATTCACTAATACTTCTTCAAGGTTAGCATAGTGTCCATTACTACTGCAGCA
TCTTCAGTTTTTGGTCCAACCTTAACGTCTCATCATCAGATTTCAGTTAGCAAAAGTATGTGGTAAGTCAGGGAGATCTTTCTTCAGTGATTAAACCCTC
CTCACCCCCATTACTCAGCCAGTGGGTAGTATCCTGTATAATTCTTCATAATTCACATGTTTAAGTGGATGAACAATGACCTCTTAAATATATATTCTAG
TTTTAAAAGATCCATTTTTCTAGCTCCCTTTTCTCTTTAATTTTTGTAGGGAAAGATTTTTGAAGCATTATAGCAAGAGAAATAAGATGTAATGTTGGAA
TGCCTAGGTAGCATCCACATTTCATTTATTATTTGACCTACTTACTTGTAAAACATATACCGAAAATTCAGGTAAAATGAGTTTGTTGTTTTGTTTTTTG
GTTTTTTAGAGGCAGGGTCTTGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTTAAACAGTCATCCCACCTTGGCCTCACAAAGTGTTGGGATTACAGACA
TGAGCCACTGTGCCCAGCCGAATTTTTTATTTTCATTTTGTGGTTAGAGAGTTCTGTTCAATCTGAGAAATGTGCAATAATTATTCATTTTTCTTTCTTT
TTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCAGGCTAGAGTGCTGTGGTGACATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTC
TCCTGCCTCAGCCTCCTGAGTAGCTGGAAGTACAGGCATGCACCACCACGCCCAACTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGA
CAGGATGGTTTCGATCTCTTGACCTCATGATCCACCCACCTCTGCCTCCCAAAGTGCTGGGATTACATACAGGCATGAGCCACCGCGCCCGGCCAATAAT
TTTTCTAACAGATTGGTAGTATTCTAATAGGCTTTAAAATGTTCAGAAGAGAAGYTGTGCTTCCTTGGAAGAGTTACTGGCAAGTAGCTTTTGAGTATTG
GCAGGRGCTAGAATCACCATGAGCCGGATCCTGGGCCATTCCCCTGTCTGCTCCGCCTCAGAGACCCTGACCTCTGCTAGCCCATTGCTGACCTCAACTA
CTGATAGAGTTCTTCAGACTCAGTTGCTCCCTCATCCTGCTGATCTCCATGTGCGAGCAGTCGAATCAGCCCTTCTTTCTTTTCATCTTTTATCTTTCTT
TTTTCCCCAGCAAGATTTTTATTGTTCAAATTAGTGAAGTATATCTCTCTGCCTTCCTGAATATTAATGACAAATTAGAACTACTTTATGTAGATGTGGG
TTATTATGACATATATCCCTTTTAGTATTGTTTCCCCATGTTCTTTATCCTGCTTTGATTCTGTGTGATCATATATCAGTAAAGTTTGCTACTTCTTTAT
GATTTCATGTTTTGGCAGAATACAAAGAAAAGTATCTCCCGTTATATAAAAAAGTATATGAGGAAAATAGAATTAACAGTTGCTTTTATTAAATACTTCA
GAGATTATTTCACAAGTGCATTTCTTTAAGCAGCCTAGGATTAGAAACAAGTTGATCTAATGTCAAATATCAGTTCTGCCTCTTAGTTGTAATGCTGCTT
CTCTAAACCTCGGTTTTCCCACATTGTAATGAGCTGAGGGTTAAATAACGTGAAAACATCCAACACATTAGACAGGTAGTGATATCTCCTTCTCAGACAG
CTTCATGACTCTTGTCATTAACTGTATTTGGATTCAAATTCAGGTTTAGAGAGAGCTGAATTTAGGAGTCTCATTTTTTTTCTCAAGACATTTAAATACT
GGGCCATATATGCATAAGACACAGCACAGAAATGATTTTGATGTGGCTTCCTCTGGTAATCAAACTGAAGACTACTTGCCTGAGCATCTAAAGCCATTGT
AAGGTACTAGCCTTTCCTCTTCATCTCTCTCCGCTTGTAGGTTATTTCCGATGTTGAAGAAGATGCCGGGGAACTAAGCAGAGAGAGTATGTGGGACCTT
TCCTGTGAAACTGTGAGAGAGCAGCTTACAAACAGCATCAGAAAACAGTGGAGAATTTTGAAAAGTCATGTAGAAAAGCTTGATAACCAAGGTAACCACT
GCTTCTATGCATGTAAAGTGAGTTGTGACATTTGGTAAGGTGTTGATTTTTAGTCACTTAGAAAGCCGCATTATAGGCTCAGAGCTAAAGTACTATACTT
CAGTTTGGTGGTTTGAAAGCAAGATTTTGCATACATTTATTTTTTCATTTTATTTTATTTTATTTTACTTTTYGAGACAGAACCTTGCTCGGTCACCCAG
GCTAGAGTGTAGTGGTGCCATCTCGGCTCACTGTAACCTCCGCCTCCCAGGTTCAAGTTATTTCTCCTGCCTCAGCCTSCTGAGCAGCTAGGACTATAGG
CGCACATCATAGCCAGCTAATTTTTTGGTGTGTTTTTAGTAGAGATGGGGTTTTGCTGTGTTGGCCAGGCTTATCTTGAACTCCTGGCCTCAAGTGATTC
ACCTGCCKTGGCCTCCCCAGAGTGTCTGGATTACACGTGTGAGCCACTGTGCACAGCCGACATTTTACATACATTTAGATGTGAGGTTTGAACCTCACTG
AGAAAAATACACTTTGGTCTCAGAGTGAATGTTTGAAAAGAGGACATCATGGATCCATCTGCTCTGGATGCAGTATACAATCAAATAAAGATAACTGAGT
TGGGATAAAAGACTACACATTGGGTGTAGTGTACACTGCTTGGGTGATGGGTGCACCAAAATCTCAGAAATCACCACTAAAGATCTTATTCATGTAACCA
AACACCACCTGTTCCCCCCCAAAAAGAGAAAACTGAGTCTCTTTTACTGACTCTCAAAAATCAAGAAATATTTATCGTAGTATAGATAGGAACATTTTGC
TTATTTCTAGATGCTTGCAGATTACTATGTTCCTAGTAATTCACTTAAAATTATTTTTAAAATAATAGATGTTTAATGCAAAATATTAATTTGGAAGTAT
ATAAAGTAGAATATCCTGGTCTCTATTCCATACATATAACACTTAACAGTTTGGTGCATATTTTTCTATACTTTCCTCTATGGATTTGAAAGATACTTAC
TTTTTTTTAAATTTTAAAAATTGAATATTACCTATATTTTTCTTTAGTGTGCTTTTTTCACTTAACTATTATCCTTATACATAGCTCTACATTGATGAAT
ATATTCTTAATATTTTCTGCTTGGTAAAGTTTGARTGCTTTTAAACTAGGAAAATGAAGATTTCTGCTCAGTAAATGAAGCCTATTTAAAGAAAAATTTA
AATTGTCAAAATATGAACTCAGTGCCATTGTGTTAAGTATTAGTAAAGAGCAATCAGCAAAATTATTATTACAGCACCAAAATGAATCTACATGAGATTT
TGTTCATTTGAGTCAATGCTGTTTATTATCAAATAGCAAGTATGTTTGGACTTCGTATTTGTTGAATTTAATATTTGAGAGCAAGATTTGTGACACTTCA
TTGATCTTTGAAGCAGTGTCAACAAAAACATGATTTTATTTTTCTCTTCTCTGAATATGGCCATTTTGTCTGTTTTTAATTAGGACATAATCATGAATAA
ATATGGATTACAAATTGTTGGCAATAGAGCTCTGTTTGTAAGCATATCATTTAGTCTTAAAATTGCACAAATGTGTAATTGTCGTCATGAACTCCTGTAG
TTGCTTTGCTTAAACATTTTTTATAATGTTAAAATAATATAAATTTAATTTTGTTATAGCTTATGAAATTTTAAAAAGTCAAAGGACGTAACTACTTTTT
AGAAAACCTATAAAATTCTAGAAAGATAAAAGTTCTGAGAGCCCTTGTTTTAAAGATATGTGCAAAACACTGTAAACTAAGTGGTGGCTATAAGACCTAT
GTCAACTTACTGATTTTGTCTTAGTTTCAAAGGTACACCTGGAAGGTTTTAATGATGAAGATGTAATCTCACGACAAGACCATGAACAAGAAACTGAAAA
ACTCGAGTTAGAAATTCAGCAGTGTAAAGAAATGATTAAAACTCAGCAACAGCTTTTACAGGTGAATATGAATTACCTTTTAAAGCTGTTCTCCATGAAA
AGCCAGAAYTGTGCTGAACCTTACCAGATTTGTATTCCTTTATTTCATAAGGCCCTGGTATTTGACAGATTTCTAGTCTGTGTTCCCTGCTAACAGATAC
ATTGTGTACCACTCCTTAAATAGTCCATACTTTGCTAGTTGGGGTAGTAGGTTTCGGGAAATGAGAATTCTCATTTGACTTTTTGATTCTTAATAATTTC
TATTCCTGCCCTGAAGTTTGACTGGCCTTCCCTTGCTTTCATTTCAACTCGTTGGAGTGTCGCAAGGTCCCTCAGGAACTTACTATGTTTTAAATTTTAA
TAGCAGCAGCTCGCTACTGCATATGATGATGATACCACTTCACTATTACGAGACTGTTATTTGTTGGAAGAAAAGGAACGTCTCAAAGAAGAATGGTCCC
TTTTTAAAGAGCAGAAAAAGAATTTTGAGAGGGAGAGACGAAGCTTTACAGAAGCCGCTATTCGCCTGGGATTGGAGGTATTTTAAACAATTGTAGTGCT
TTTGAAAATACTGGGGGTGGGTGGGCCTCAGTAGAATGCTTCTAAGGTCTCCTTTTTTTCTTGCTATTTACTTATTTTCTAAAATATTTACTGGTGATCT
CACAAATAATTTGAAATGAGAGGGAGGCTGAGCATATAGAATGGGATCATTTCCCCTTACCAGATTTGAGAATTGAACTTAAGAAAAAAAAACGCTATAA
GCATTTATTACTGCTTTCAGATTGGCTTTCTCCTGCYAAGTGTTTTACACAAGAAATCTCTTTTGGGTATCCATCATTCATCCACGGTCAGTAGGTGTGG
TGTCAGAAGACAGTGCAACCAAGACTATATTTGCTGTTTAAAAAGGAAGTATAATAAAAAATTAAGTTCTCTTCTCCCCAGTCCATCATTGTTATATATA
CGCTCTACAGCTTGCTTTTTTTACTTAGCAATGTGTCATCTACATATTCCCCCTTCAAAAATTGTAGCAGTAATGTCTGAATAAGGTTAAAAAAAAAAAA
TCAACAAAACTCATTAAAAAAAGCTACAAAGTAAGAAAGTATCCTCCTTTCTCATCCTCAGTTTCATTCCTTAGAGGTAACTGCTGTTAAAAAGTATCTG
TTGGAAATTCTTCTAGGAAGTACTATTTTAACTTTTAATGTATTTCAAGTTTTCTTGTTTATCAGTTCATTGATTCCCTGCTATGAAAGATAAGGAATTC
TGTGTCCTTATTGTACCTCCTACCTACACCCTTCCTCATTCACATCTCATGTCTTCATAATATTGTTCCTCTTGTTCGTCTGCTTGCCTTTTTTTTGCTT
TAAGGAAATAATAAAAAGCTTCCATTTCATGTTTGTTCAACTTCAGTCAGTATCAGTTCATCCCTGCAGTGAAAGCTGAGGACTTTCTTGTTGTTACTCT
TGTTCTACCTCTCTTGCTGTACTACTTTGCAATTTTTGTGATATTATTTTTCATTGTTATCACATTCATAGTTTGTCCTCTAATACAATCCAGGTATAAG
TACTTTGTCTAAACTTGAGACTTAAAAGTTGGAAAACCAGGAAAGAAAATTGATAATACTACAATTATGTAAATGTTATTCTATAACCAAATATGTTTGG
ACACAGAAAATATTCTGTATTATTAAGACTTTGCCACCCAGAGAGATATATCACTATCTAGTGAATTCTTTTTCTCTGTAGCTTCCTTTGTGATTTCCTG
AATCAGATTTCAGCTGCCATGTTGCTCATATCTCATGTTACTGTCTTTCTTGGGTTTCTGTTCAATTCGCTATATTAGTAATTGAGTAATTACTAATTCT
TGAGTAATTTTTTTTTTATAAATAGTGCATGAGCTGTAAACATTCTGAATTCTGGAATAGTCAAAAATATATTCATACTTGATTGGTTTGGCTGTGTATA
GAATTTAGATTCCAGTTTTTTTTCYTTCAAAACTTTGAATTATTCCATTTCTCCTAGTGTTTAGTTTTACTGATGAGAAGCCTGATTGTAATATACCTGT
GTTACTTTGTAGATAACTGTGTTTTGTTTTCTATCTCCCTCTGTGGAAGCTTTGGTATTTTCTTAAAGTTTGGAAATTTTACCAGGATACTTCTAGAGAG
TTCCTTTCATCCTAAAGATTCTGTATTTCTTTAATTTAGGGAAATTTTCTTCTTTATTTTTTCCTTCTTTGACTTCTCTGTGTTCTGGAACTTTTGTTAG
ACACACATTTGGCCTTCTGAATATATATCTACAGGTTGACTTTTGTTCTCAATTCTGGGATATTCTCTTACCTTTATCTTAGAGATCACGAAACTGGCCT
TTCAGGGTCAGTTTTATTATTTGCTTTAGCCACTGAGTCTTTGCTTCAGAATTTATCTTTAAATTTTTCTAATGTCCTTAATTTTTGCTTTTCTTTATAT
AGCATGATGGTATTTTACAGATGTTTATTAATCTGTCTGATAATATTTGTTACATTTTTAAAAAAGATTTCTTTCATCTGTTGAATTATCTCTTATCCAT
GGTCAGTTTTCTATTTATCTTGACCTTTTTTCTATATTAGTTTTCTCAATGTTTGGTGATGCGTGATTCTGTATCAATATTTATGAATGAAAGACTGTGT
GTTGCTTGTTTTCAGTAGCTGACGTGGATTTCCTCAGTTCACAGTGTGAACGTCTGTTTCATCAGTAGCTATCTTCAGGGAACAACACTTGACCAGCATT
GTCTCCTACCTGTTTCCAAGCCCTTATTCCCCACATTACTCCAAGAGAGTAATTACTCTTGCTACTTTGCATATTGCTCCCAGTTGCCAGGTGCCTTTCC
CTGCAAGAGAATTTTTCTCCGTCTGGTCACTGGGACAGTGGGCATAGTGAGGGATGGGAGGGAGGCATGCAAGACCTGAGGGCTGATGGAGAATTTAGTT
TAGGATTCATCAGCTATTCAGAAGGGGGAGGTTTGACATAATTTGCCTATGCCCTCTTGTGGTTTAGTGGTGGTGGCTACCAGTACTGGTAGATGGCTAG
AGGATGAGAGAAATGCTTGATGAAGTCATAGGTCCTGTTTTTCAAGTGACTAATTTACAATATAGATTATTTTTCTTTTGTTTGTAACTTTATAATGTTT
TGTATGTTCAAAAGTTATGCTAATATTCTGTTCCATTTTTTGCATTGTTTATTTGAACTTAAAATTGATATGAAGACAGTGATGGTTGGTTTATTAGGTG
AAACAGATGAATTTCTATTTTTTAAACATAATTTTTTCGTAAGTGAAATTTTTCTTAGTTTTTTTGTTTTTGTTTTTTTTTGAGATGGAGTCTCACTCTG
TTGCCCAGGCTAGAGTGCAGTGGCGTGATCTTGGCTCACTGCAGGCTCTGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGA
CTACAGGCACCCGCCACCACACCCGGCTAATTTTTTTTGTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTG
ACCTCGTGATCCACCCGCCTTGGCCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCGTGTTTTGCTTTTTGAGATGGAGCCTTGCTT
TGTTGCCCAGGCAGGAGTGCAGGGGTGCGATCTCAGCTCACTGCAACCCCTGCCTCCTGGGTTCATGTGATTCTCCTGCYTCAGCCTCCTGAGTAGCTGG
GACTACAGGCGCACGCCACCATGCCCGGCTAAATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGACTGGTCTCAAACTCCTGACCTTG
TGATCCGCCCACCTTGTCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCGGCTTTTTTTTTTTTTTTTTTTTTTTTGGAGATACGGTCTT
GCCGTGTCACCTAGGCTAGAGTGCAGTGGTGCTATCTCGGCTCACTTCAGCGTCAACTTCCCAGCCTCTAGCCATCCTCCCTCCTCAGCCTCCAAAGTAG
CTGAGACTGTAGTCCTGTGCCACCATGCCCAGCTGATGTTTGTATTTCGTGTAGAGACAGGGTTTTGCCGTGTTGCCTAGGCTGGTTTGGAACTCCTCAG
TTCAAGTGCTCCACCAACCCTCAGCCTCCCAAAATACTGGGATTACAGACGAGTGCTGAAATTATTTTTAGTTTTTTAGGTTAACTCATTTGACATAAGA
AGTACGAATAGATAGCCAGAGAGCAAACAAAGATAGCTAGAGCAATCATGTGAAATGGCAACTGTGTGGATGTTGAAATATTGATCATTATTTCTTTGGC
TGTTTATGGTAGAGAAAGGCATTTGAAGAAGAAAGAGCCAGTTGGTTAAAGCAGCAGTTTCTAAATATGACTACCTTTGACCACCAGAACTCAGAAAATG
TGAAACTTTTCAGTGCCTTCTCAGGAAGTGAGTACTTTATAAACTCTTTAATTTGAACATGCATATAAATAAAATTATTTACATATTACAAAATACTACA
TATTATTAATACAAAACTTTGGAAATCACCAATTAGAGCTCTCTAATTATAACTAAAAGTCAACTTTTTTTTGTTTGTTTTTGAGACGGAGTCTTGCTCT
GTCGCCCAGGTTGGAGTGCAGTGACGTGACCTTGGCTGACTGCAACCTCTGCCTCCCAGCTTCACGCGATTATCTTGTCTCAGCCTCCTGAGTAGCTGGG
ATTACAGGCATGTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGTTTTTACCATATTGGCCAGGCTGTTCTTGAACTCCTGACCTCAG
GTGATCCACCCATCTCAGCCTCCCAAAGTGCTGGGATTAGGCATGAGCCACTGCGCCTGGCCTAAAAATCAACTTTAATATTTTATTTACTGTAGTGAAA
GTGAGGATGAGAGGGGGACTRTGCATGCCCAAAGTAACTTTTGTTGTGAGTTTGTAATAATGCGAAGTTTTTGAAAATTTACATTGAGAATTTCTTTTTT
CAAGATGTAGTCTTGCTCTGTCACCCAGGCTGGAGTGCATCTCGGCTCTCTGCAGCCTCAGCGTCCTGGGCTCAGGCAATCCTCCTTGCCTCAGCCTCCT
GAGTAGCTGAGACTATAGGCACACACCACCATACCCAGATAATTTTAAAAACTTTTTTGTAGAGACAAGCCCTCGCTATACTACCCAGGCTGGTCTCAAA
CTCCTGGCTTAAGCAGTCATTCCGCCTCACCTTCCCAAAGTGCTAGGATTACAGTGTGAGCCACCCCACCCAGCCTAGAAATATTTTTAAAACTAGATCC
TTTTGGCTGGGCACGGCTGCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACGAAGTCAGGAGATCGAGACCATCCTGGCTAACAC
AGTGAAACCCCGTCTGTACTAAAAATACAAAAAAATTAGCCAGGCATGGTGGCGGGCCCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGAAGGAGAATGG
CGTGAACCCAGGAGGTGGAGCTTGCAGTGAGGCAAGATCGCATCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAAAAAAAAAGATCC
TTTTAAACATGGGTGGACTATGCAACAAAGATAAGCAAGATTAATGATAATTAATTTGAATTTGTTCCATCTCTTTCCTCACTCAGAACCGCAGATGAAT
CATCCTGATGATTTACCTTCACTATATTTAATGCCTCACCATATGTACTGCCTTTTTCTCTTACTTGTTTTACAACAGGTTCTGATTGGGACAATCTTAT
AGTGCACTCGAGGCAGCCGCAAAAGAAGCCTCACAGTGTGTCTAATGGGTCTCCAGTTTGCATGTCTAAACTTACTAAATCTCTTCCTGCTTCACCTTCC
ACTTCAGACTTTTGCCAGACACGTTCCTGCATATCTGAACATAGGTATTTGTCTATAGGTGATCTTTTCACGTGTTTCTAAAAATTGCTAAAGTTGCACT
GCTAAGGGAAAGGTGGCATGTCTGTAGTATTAGCAACAATAGAGATTTTGGAGAGGAATTTAGTAGATGATTTATTCATTCTACAAATATTGAGTGTCCA
GTATATATAGACACTGTGCTAGATGCTGGAAATACAMTAGTGAACAGGTAGATCTGTTGTCTTCTTGGAGGTAAATCATATGATGTGTGTCTTTTTATTT
CACATTTAAGATACAATTTAGAATGTAGTCTTAATTATAGGAGTTAATATTTTAAGCACTTTAATTGTATTAAATGGAAGGATATTGTTTTGACAGTTTT
TGTAGAGTACATATCTTAACACTTTTTTCCGGCATGCCCATTTTATTGTTGTTGAAGGGCAAAGAACTGAGAAAAGCCTGTTCCTGTTGAGTGAAAAAGA
TTTGTGCCCAAGGATGACAGTGTAAAAAAACATGGCTCTCCACCCTGGGAAACCCATATGTTGCTCTTAATTGCTACATTTTGGTGTTTTCCTGTATCTC
AAGTTATTATATCATTTTCTAAGATAAGATCAATACTCTGCTTCAGTGCCAATTCCAAGATTAGTTTTAAACGAAGAAGAGGAAGCAGGTAGAACATTCC
TAGTAAGACAGAGAGGAATAGAAAAGATCAGAGGGGTAAGTTGGAAAGTATGGTGGTAATCTCTTTGCTCTTAATTAAAAGTAGGAGATAATGGCCTTGG
AAAACAGTCAGAGCTGAAGCAAACTCGGCCTGTGTTAGAGACTGGAGTGGAACTAAGTGTCGAAGAAGCCAGCTGGCCCTTGGGCCAAGAATTATGAAAT
AGATGGAGTTTAAAACAAGAAAGGAAGCTTTTAAAAGAAGGAGGAGAACACACTATAAGTTGTAGTTGACTTTTAAGAGGTGGGGGGATTAGGACTCCAA
GTAAATGTTAGARGGGATGAAAAAGAGCTAGGTAAGAGCACTCTAGCCAAGTGTAGGAACCCTGAGGGTGGGACACACCTCATACATTTGCAATGGTGAC
CAAGACCTAGAGGTGTGAGATGAGGATGGAGAGATGTAAAAGTTCAAATATACAGAGAGGATAAGATCGTGAACCCACGTGTACCTATGACTCAGGTTCA
GCAATTATTAACTCTGATCAATATTGTTCATATATAATCCCACTCTGCTTGCTCTCTCCACCCCAGCCCCAACACATCTGGGATTTCATTTACAGAATAT
TTTAGTGTGCATTTGCAGGTCAAATATTGTTCTAAGGGGAATAGAAAAAACACTAGTTTTAAGCAAGAGAGTGAAAAAAAGTCTTAAGTTTTAAAAAGAT
TACTGTTTTATAATATTGAAAACAGATTGTAGGAGTCTGTAATATAAACCAGGAAATCCAGTTAGGAGGCACTATTGGAGTGGAAACGAAAGACAATGGT
AATTGGACTAGGGTCATAATATGAAGGAAGAAATGCTTGGATTTGGGATCTRTTTTGAAGTTAGACCAGTAGATGAGTTGAATATGGGAAGTGAAAGTTT
ATTTATTTTACAATCAAAAGATAATGTGTAAGCTTATAGTATTTTCTTACATAGAATGTTATTCAAACTTCTAAATTTGACCAGTCAGAACTATCTGTAT
AGATATAGACRCAAATTCTAGCCACCATTCACAAATAATGCATTTTATATCTAAGAGATAGCATAACATAGTTGTCTCAATTGTTTTTATATATTTTAAA
TATTTAGCTTTTTACATCATTTTTAGTTGTGAAATATTTGACATAAACATTTCTTGAAGACATTGTTTTATGTTTAATAAAGTTCAGCATTTAGTACCTA
AATCATAGGGTGTTGCAAGTTAAATGTTAATGTATGTAAAGCACTTAAAAACATTTAGTGACAGACTATAAAAATAAAAATATATGTAAACAAATATAAA
CATGCTTTTTTTGTTTCTGAGTGCTCCACTAAACAACATCCGTGGCATAGAAACAATTTTGGAGCTTAAAGAAATTCAAGGTATTCATTGTTAACTAGCC
TCTAAGAATAAAACAAACAGAAAAAAGTTTTATAACTAATAGAGAAGCTGTGCAGCCTGACTTGGTTCTTCACATTTTAAATTATTTGATAAACTTGGTT
CTCTTGCTCCTGAAGCATTTTGGATCTCGGTTTATATTAATATTGCAACAAAATAATTAGGAGTATTTGTAGCTAATTTCTACAACATCCTCATTGTTCC
TTCACTGTAGAATGGAATTTTATATAAAGGCTGTGCCTTAGATTCCAGGCAAGGAGACTTGTGCGTAAGTTACCTAAAAAACTTAGTTTGATCATTTGTA
CAGGGATTCTGATGACCGAATTACTRTAAGTATTGGTAAATAAATTTATAGTAATTTGGTCATCAGAATCCCTTGTACAAATGATTAAACTAGGCATGCA
CTACTACTCCCAGCTAATTTTTTGTAGAGACAGGGTTTCACCATGTTACTCAGGCTAGTCCTGAATTCCTGGGCTCAAGCAGTTCGGCTGCCTCAGCCTC
CCAAAGTGCTAGGATTACAAGTGTGAGCTACTGCTCCCAGCCGTTTTTTTTTTCCAAGTAAAATTTTAAATTATATTTTTGGCCTAGATTTTTAGAATTA
AAAGGAACTTATTTTTTTTGAAGAGTGCCACATTATGAGGTTAAAGTACAAAAGAAGGAGAGGATAGTCACTAAGATCTGCCTTTCTTTTCCCAACAGTT
CAATCAATGTACTGAATATAACTGCTGAAGAAATTAAACCAAATCAGGTTGGAGGAGAAYGTACAAATCAAAAATGGAGTGTGGCRTCAAGACCTGGATC
ACAGGAAGGTTGCTATAGTGGATGCTCCTTGAGCTACACAAATTCTCATGTAGAAAAAGATGACTTACCTTAGACATGTGGACTGGAATTTTTTTCATTA
ATGTGTTCATCAAGTTTCACATCTAAGTTGAAACAGGGTGTGTCATAAAGTCAGTTATCTCTAATAACTTAAGATGGTCTGAGTTGTTTGTTTGGACTTC
CCTGTCTTCCCCCAAAGAGTTGAAATCTTAAATCTATTTAAAAGGATATAAAAGCTTTGGATATGTATTTTTAGTAACAGAAGCATCTGGTTCTGTGAAT
AAAGGAATGTATAGATGTTTGGATGGAAACAAAAGCACTAGACTGAGTTTCCTCTTATAGGTATTAAAAATAGCACTTTTAGGAAACTGATTATTGTAAA
TGTTTAATTTTGTCTCAAATATAGTTGGCATTGGAAGTTTAGCCTTTACTTGAATGTATACTGTAGATTTTTAACAAAGCGAGTTCTATATTTATTATGT
TTAGTGTGGTTTGAAATTACCTCTTTCATATGTTTTAAATAAAGTGAAATTTATGTATGTTTTGTACATAGATACACATGATTATGTTAAGAGGCTTTAA
GATTTAAAAGTTTCACACAACCATAAGTATAGTATTTCATGCCAGTAAAATTTTTTTAGTGGTATTCTGTTTACAGATRTATTAGGACCATTGATGCATT
ACATTTAAGAATTCTCTTTAATACATCTGGGCAATAAATATTGAAAGGTATTCCATGAAGCTGAGTTCTTTAGATAATCAACACTACTAACATTACATTT
TTGAGATTTTTATGACATTAGATTTTTATTTTGTATATGTAGAATATTATAATTTTTAAAAGGACTATTGATGATAGAAGAATAGGGGCAAGACGACAAA
AGTACCTTTGAATAAAACAATTTAAGAARTTGGTTTAAGATATTGGATGATAGAAGATATTTAAGATATCTAGATGGTGATATTTTCCTTACAAGATGGG
TACCAGTAYAGTAATATCTGTATACTAACTAGGGCTTTGTATTGTCAATAATTTTTTAATAATTTTTTAATGAGGTATTTACCACTGAAGAAATATGATA
ATATAAAACCATCAAATTTTATAATTGAGATGATACTCTGGAAAAACATGTCATTTCATTTTCAGAAAACTCTTAAGCTCTCTTCAGTCTCTGTAATGTT
TCTGATTGCATGTTTCTTCATGAAAAGTATGTTGTTGTTTTGATAGTAATAATAATAAATGTAGGCTCAGCTCTTTCCCAGGATTTTCATCAAAAAGCTT
TAAGTGCCTAACCCTGCTTGTCTCTGTACATAGAAGCCTGCACAGATCCAACCCTTGCTAGGTATCATAGTTTAGGCCCATTTACCTTCCCCTGTACTGG
CAGTTCAGCCGCTTACATGCACTCACCCTGTTTGTGGCTATTTTAAATTCATATTATTAAAAAACAAAAAAAACCCACCTATTTGTGTTGTCCATTCACT
ATACGTAACTATGTAACTCTTTGGAGTTGCATAGCAGCAGCCATTTTTTCAGGGCTGATAGGATATCATTAAGAGTGTCTTATGAGACATTAGTGGATAT
ACTCATAGTAACCATATTTATAGTTTTAAAGAGCTAGCTCTTGAGCATTAGTCACTACCTTCAGCTTGATGCATGGTCACTTCTTTACTATTTAAAATAC
TACACATTGTACAAAATATCGAAGACACTACCATATGCTAAAGGAAGAAATCTAGCTGGGATATAGGATTTTTGTTGTTTTTGTTTTTGTTTGTTTTGCT
ATTTAGCAATAACATGGTCAAAAAGGCAATCAGAAATTTTAAATACAGTTAATGGATACATTTGGCAACAATTTTCCCCCGAGGGTTTTCCATGGTGTAC
TTTGCAAGAAATAAGCACTCTAATTTTTAAAGTAAATCTCTTATTTTAGCAAATATTATATTTCATGACAATGGAGTTCTAGAAAGCAGCATCTGTTTTT
TGTTGCGTGTTTCCATTTTAAAGTGAGTTGAGTTCTCAAATTGGAAAGAAAGATTCCTTGAGACKTACTTTTAAAATCTAAAGTGTGAAAGAAACAGCAG
AGTAAAAGCCAGACTCATTGCACCTTCAATGTCTGCATAGATCCAGAAGTTGTACATTTTACCTAACAACATCACTTTTGTTGAACATTCCAACTCCAGA
ATGATCCCCAATCACCCTAATCTCAGAATGCTGGAATGATGTCTGTTGGAAAACCCAGGACTCCACACACAAAACTCCTGGGATTTTGTTTCCCATCTCT
TTCTAGGTGTTTGCAATGTACAAATAATACAGCTGTGCTAATCTCACATTTAGCCATGATAGATGATGGTTCTAGAGTGTACTTCCATTTGTAAGTCCTC
CTGATAAGTGCTTTCTTGTTTATCACTATGTAAATCTGAAATATTTTGTACTTCATTTGTTTTTATCCATTCTGAATTTTCAAAGCATAAAAATGTCAAA
GAAAAATTGAGATAAACATTTTGTTCACCATTAAATGTTTGCATCTGCAGTCTATGATGAGAAACAATGAAATTATGACTAAAATTTAACAAATAGTATT
TTCTTATAGAAGCAATGTATTAAATGATTAGATACACAGGACAGTTCACAGCAAATTGTTTACTTACATGGCATAATTGAAATACTGTTATTTGTAAAGA
GTTCTATACTGCCTACCTTAGCTAACCAGAATTGTTCATAGACTTGTGATAATATGGTGTTATGGGAAAACACATTTTGTGCGCATGATGAAGAGAGCAC
CGTGAATCTAGTCTTGACTGCCCCTGGTGGAACATTTGAAAGCCCTTGGGACTCCAGGAGAGAKGTTTTTGCAGCATGTATGCTAAATTTGTGAGTTAGC
AAGACCCTGCTGTGATTACTATGTTGTACAGATCTTCAAAGTATATTGCCTAATATGAGTCATGTTATTTCTAGATTGAATTTAAAGTAAGTATGGATTA
TGGAAGTCTAGTAAATATACTTTTCCCTATTTTTGTCCTTTTTCAGTCTTTTGGTAAGCATTTATTAAGTACCTGCTGTATGTCAAGGCTTACTACTGCT
TTCCAATCCTTGGTGATATGAAGACAGATAAGCACGCTGCCTGCTATTAGGAATCTGAGCTGAGTGGAAGGCCAACTATTAAACCTACATTGTAATAAAC
AATGGTGGATGCTACGGACACATTCAGTCTGTTCATAAAACATGGACTGATGGGTCTGCTCCAGGCCACATTTGTTTTTTAACAGTAACGTGGCTAGGCT
TCCATTTATAAGTCTTAGCATTATTTCCTTTGTGAAGTACTATGTAACAGATGATTGTTTGCTAGATTTTGTTTTCTACAATCAAAATGTTGACCTGCAA
AGCAGTGTAGGATTTTCTCTCCTCAAGAGCGTGTATTATTATCTAGTAGAAAAAGCATTCCCAAAGACTTGGTCCATGCAGATAAGGATAATGAAATTGC
TCACTCTAATCCTTTTTCTAAATACAGTGTTTTTCAAGCTGGATGTAAATTAGAGTGGGTGGATATTGATTAAATTATTTGATTTATATGAAATCAAATG
ACTGGTTGAGGTTTTTTTGAACATTTACAAATAATGGATTCCTGAGAGCTCAGGAAGTACTGTAATGTCAGTGACATATGAAGCTCCTGATAAAGATCCA
CCTCATTCATATATTTGAGCTTCAGAAATACATGTACCTAGTATAATGCTTAACAGCACATAATATTTGTTGATGAGAAATACACTGATGAAACAACACA
TTTTTTTACTGGAATGAATGGACTATAAGTTTGGGGTTAGAATCCTAAAACTCCTCTTTCTCAAGAGGGTAAGAACCTTGTCATGAATCTATGCATGTGT
ACTTCCAACCCTATCTCAATTCCTTGCATATAGAGTATCATGATAGAGTAGGTTATGCTGCAATTAAACATTAAGTCGGTGTGGCGTAATAAAATTTATG
CTCATGAAATGTCCAGTGTCAACTGGGCAATCCTCCATTTTTAGCTATGCCATCTGGACGCATGGTCTCCAACATCGCCAAATCAGAGCGAGCAGACTAG
CAGATGGTGTAGGATATTTTTAAGGGCCAGACCTGAAAGAGACATGCCTTCCACCTACAGCCTCACTGCAAACAAGACTGGGAGGTATAGAACATGTAGC
TATTTGGTGAGCACTTACAATCTGCTATCAAATGTAGTTGATGCTAGGTATTTCGTCCATGCATATTACTCTGCAAGGGGTTTACTGCTGATTATTAAAG
CAAATATTCTTAATTTTTGGAAGGAATGTATTTTAAAGCTCCTCACACTTTCTAACCTTTTTATAATACAAGTTTCTGAATGTTCAAATGGTAGTTTTAC
TCATTTAGTTATTAAAGTATCTTACAGTGCACAGAACACTTTTATTTTTCAACTGTCAGGGAATCTTAACCTTCCTATTTTTAGAGTTGATAACAGACTC
AAGTGTTAAATAATGAACCCAAGGTCACATAACTGCTGTTAAGTGATAAGACCAGACTTTAACCCATATCTTAGGTTTGCTAAATTTCCACCTTTTCCCA
CACTGCTGCAGTGCCTGCTTGTAGGGCTTTCTAAGTGAAATTATTCACCCATTAGCTGCCACCTATAATCTACATCAAAAGTAGTGATCATTTGGTCCAT
GTTCAAGACTTGGCCTCATTTTTTTGTGATTGGTTACCATGGCAGATCTATTCAGGGTTGGACCACTACCTTTCTGCAATTAAGATACTAAGGATTTCAT
TGAAATAGCTAATTTAGTAGTTTATGATACTCTAAAGGCCATTGAGTAATCTGAAGATATGTCTAGATCACCTGCAATTTGTGTGTGTGTGTGTGTGACA
GTGTCACCCAGGCTGGAGTGCAGTGGTGCCATCTTGCCTCACTGCAGCCTTGCTCTCCCGGGCTCAGGCAGTCCTACCACAGGCTTCCAAGTAGCTGGGA
CTACAGATGTGCGCCACTACACCTGGCTAGTTTTTTGTATTTTTTATAGAGATGGGGTCTCACCATGTTGGACAGGCTGGTCTCGAACTCCCAGGCTCAA
GTGATCCGCCCCCCTTGGCCTCCCAAAGGGTTGGGATTACAGACGTGAGCCACCGCCTCTGGCCAGCCTGTATTTTTCTGCCCTGCCATTTTGTTCACTC
TTGGCAGTTTGTGTGCCGTGTCCCAACTGTAGCTRCAGTCACAGTGACCAGAAATACTTCATTTTGTCCAAAAGGTTCAGTCACCTTTTGCAGACATTTT
ATCATGAAAAATAAAGTAGTAGAATTAACAGGAATATTTTTACTCAGTTTTAGAAGGAAAACGGCTGATGTAGGGCAGCTGGATATTTTCTAGTTTCTCT
GTTGCATCTGCATTTAGATAGATTTTCTTGTTTCTGGTCTGTCATGACAGTTTCATTCCTTTTTACAGTGTTCTATTAAACCAAACCATACCCCAGCCCA
GTGTACTCATTAGAAAAAAGTAAACATTTGCATATTCCCTAGAACCCTAAAACTGATAACAAGAACCTACCCTCCATTCTGGCTTTTGGATCCAATTTTC
TATTATGTATGATGTCTAAACCGAGGTGGTCAATTGTTCATCCCAGCCAGGCATAGGATCAGACAGCTGAGTTCCCTAGGATTAGACTGCTAGTGCTTAG
CCATGACTACTATGGCTGGTTTTGTTAACCTGTAAGTATAGTTTTTACTTGACTAAAACATGCTGTAATTTATTTACCCTACCTTGAGATTTTTTTCTTC
TGTAATTCTCAGCCCAGAACTATTATTTCAAACTAAACTTGTATTTCACATTTTTAATTAGTGAAGAGGCTCAACGAAATGCAATTTTCAAATAGTCACC
CAATAGTATAAAGCTTTTGTGGAATATCAATTTAATTTCTAGCCACTTTTAGTTTCTTTTATCTTGAAAATCTTTTACCTTAATAACTAGTTGATTTGGT
TTTGTAATGTTATTCCTTTTAAGCAAAGAGGTATTAAATAATAAGGAAGGCTGGGTGTGGTGGCTCACGGCTGTAATCCCAACACTTTGAGAGACCAATG
CAGGCAGATCACCTGAGGTCAGGAGTTTGAAACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCA
GGCGCCTGTAATCCCAGCAACTCGGGAGGCTGAGGCAGAAGAATTGCTTGAACCCGGGAGGGGTAGGTTGCAGTGAGCCTAGATCACGCCATTGTACTCC
AGCCTGGGGGACAAGAGCAAGACTTCGTCTCAAAAATAAATAAATAAAAAATAAATAAATAAGGAAAATCTCTATAAATTAGATCTCAGTGAAATTAAAC
TTTTCCAAACAAATAGTTTTTCAGATTCTGTGTTAATGCCCCAAAGAAAACTAGAAATCCAACAACTAGCCACACAAAGCCTTGGTACATATGTTCTAAA
GAAGCTATTTTGATCTTAAACCATGAAAAATTTTAACTGGAATTTTAAAAATCACATTGCCTTTTTATTTCCAAAGCACTTGTCTTCATTTTTATCAAGG
GCAAATATCTGAGGAAACAACTCATAAATGCTTTTTGTTGTTGTTGAGACAGAGTCTTACTCTGTTGCCCAGGCTGGAGTGCAGCGGCGTGATCTCAGCT
TACTGCAACCTCTGCCTCCGGTGTTCAAGCAATTCTTCTGCCTCAGCCTCCCAAGTAACTGGGATTTCATGCATGCACCACCATGCCCAGCTAATTTTTG
TATTTTTAGTAGATACAGGGTTTCTCCATGTTGGCAAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGAT
TACAGGCATGTGCTGCCACGCCTGGCCTCATAAATGCTTTTAATTGAAATTCTTTGATAAGGAACGAAAAGACTATGGTAAATCTCAGAGGCAGGTTCTG
GCCTTGGCAGTGAGGGCCAGAAAGGGGTGTACATCAGAGACACAGTTGCTTGTGGTGTGGTTTCCCAAAATCTGGAGGTGCACATTCCTGTTGACTCAAA
CTTTTGATAGTGAAATGGGGAGCTATTCATGATTAGGCCTGTACCACAATGGAAATTGGGACAAATGATCACCCTGTGTATAATGGAAGCCCTGTCCAAG
TAAGCATAACTCTGACTTGAGTTTTGATTGTTGAACCTGTAAACCCAAAATAAAATCCTAAGGCCCCCCAACTATTTGGGCCCCTTCTCTCAGCCAAGGG
CATTCCAAAGTTAACCTGAAAAACTAGTTCAGGCCACGATGGGAAGGAAGGGTGAGACATGCCTGATTATACCCTCCTTCCTCTTGGAATTCAGGAAAAG
TTAACCAGCATTAATATCAACACAGACCTTAAGTCTTATAAGAGACATTTACAACCTATGCTCCCTGAAGGCTGTTACCTGGAGGCTCTATGATAAAACT
TTGGTTTCCACAGCCGCTTATCATCATAACCCATACATTTCTTTGTACTGATTCCAAGTCTTTAGATAATAACTCATTCAGGCTAGGCGTGGTGGCTCAC
GCCTGTAATCCTAGCACTTCGGGAGGCTGAGGTGGGTGGATCACGATGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACTCCATCTCTACTAA
AAAAAATACAAAAATTAGCTGGGCATGGTGTTGCGTGCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGACG
TTGCAGTGAGCTGAGATCGCGCCATTGCACTCCAGCCTGGGTGACAGAGAGACTCCGTCTCAAAAATAAAATAAAATAGAATAAAATAAACTAACTCATT
CAACAAATTGCCAATCAGAAAATTTTTAAATCTACCTCTAACCTGGAAGCCACTGCTTCAAGTTGTCCCACCTTTCCAGATTGAACCAATGTACATCTTA
CAGGTATTGATTGAATGTATTATGTCTTCTTAAAAAGTGTAAAAGCAAGTCACACCCAGACCACTTTGGGCACATGTCATCAGGACCTCCTGAAGCTATG
TCATGGGCCTGTCCTTAACTTTGGCAAAATAAACTTTCTAAATTGATACCTATCTCAGATATTTTTGGGTTCACAAACCCTAATCCCTACAAAGCTTCTT
CCTTTAATTCATGCCTCAGGTATAGTTTCTAAAAGATGGAATCAAGTTGTGGTCTAACCTAATATAGTCAGCTTTCCTATAACACTCATAAACACCATGT
AAAAAAGGACAAGTTTGTCTCAATGCAGTTGACATATTAGGGAACAATTTGAGCATAATGCAAAATTTGTGTTTGCTTATGTGTGATTCTGTTAGTGAGA
AACACTAAGTGAATGCAGAAAACTGTGCCCAGCTGATCCAAACTAAACAGTAACACACAAAACAAATATACATCTCAAATGTCTACTGTTACAGTAGATA
GGTAGGCATGAGCAGGGCAGGAGAGGGCTCCCCCACCACCCACCAGGATGGTCAGGCAACCATCAGATAATGGTATGGCAGTTATCACACTGCCTCTCTA
AAAATGATCATTGGCAGCCAGGCCTAGGAGAGGCAATTTCCTGATGGTTCACAGTTGTCATACTAACATGATAATTGATTGCAGGCACCAGGGAGAGGCA
ATTTCCCAAACAGATTAAAAACACTTGAAATTGGTAATCAGCTTCCAATAAAATCTCAGGAATTGGGTGAGTGAGCTTGAACATATGCATGAAGAGACAA
AATGGTGGAGTATGGCCTCCCGGGGGCATTTCACTAGAAGAGGGAAGAAAGCCTCAGGTGAGCATGCTACAACTTCCTAAACACACTGTGCATGCTCACC
TCCCAAGCACAAGGAGGGCACTGTGCATGCAAGGAGCCCACCCTCAGGGAAGAATTATGGGAAAAGGGATGCAAGACCCCGGAAGTATGCCAGCATATTC
AACCCCAAGTCAAAAGGTCAAATGTCGCACTTATCCTTCAAGTCGCCTGCTTGTGTCCTTCCATGTGTACTTTCCTTTCTTTCCTGCTCTAAAGCTTTTT
AATACACTTCCACTCCTGCTCTGAAACTTGCCTCAGTCTCTTTTTCTGCCTTAAGCCCCTCTGTCGAGTTCTTTCTTCTGAAGAAGCAAGAATTTAGGTT
GCTGCAGACCCATCGGTAATTTGGATATTCACCACCACTAACACTACCATCTATCTCAGTTTCCCACATATGTTATAAACAATACTCATCCCTATCTGAC
ATTATAATTTTCCCCTGGGATTTCAGACAACTCTCCTTCTACCACTTCACAACATACAAGCTGCAACCCTTCCAACCCCTACTTCCACAAGCTAACTTCC
AGTTTTTTTCAAGGTAAAGTATCATGTTTATGGTATTGTTTATGCATTTCTTAACCACTTAACATGTATAAAACTCTGCTACCATTTTTTATTAGGATAT
TTTTTAATGAGTCAGGGATGACTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGGCCAGAGTGCAGTGGCGTGATCTTGGCTTACTGAAAGCTC
CGCCTCCTGGGTTCATGCCATTCTCCTGCCTTAGCCTCCCTAGTACTGGGACTACAGGTGCCCACCATCACACCTGGCTATTTTTTTGTATTTTTAGTAG
AGACAGGGTTTCACCGTGTTATCCAGGATGGTCTTGATCTCCTGATCTCGTGATTCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCC


SNP Information

Context             (SEQ ID NO:40149):
AAAGCAAAACTATCTCTCAATATACCTCAGAAACAAAGATGTCTCCATCAAGTTTATACTCACAGCAAGTGCTATGTTCTTCAATACCTTTATCGAAAAA
Y
GTGCACAGTTTTTTCAGTGCCTTCTGCACAGAAGATAATATTGAACAGAGTATCTCATATCTTGATCAGGTAACATGTTTTTGTAAAAAACAGTAGCATA
Celera SNP ID:            hCV27513299
SNP Position Genomic:     26095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40150):
GGAAATCCAGTTAGGAGGCACTATTGGAGTGGAAACGAAAGACAATGGTAATTGGACTAGGGTCATAATATGAAGGAAGAAATGCTTGGATTTGGGATCT
R
TTTTGAAGTTAGACCAGTAGATGAGTTGAATATGGGAAGTGAAAGTTTATTTATTTTACAATCAAAAGATAATGTGTAAGCTTATAGTATTTTCTTACAT
Celera SNP ID:            hCV16190501
SNP Position Genomic:     47952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40151):
TGAGCTTTGTGGGCTGGAGTAGTTGGAGAAGGTTATGTGATGGGGATGGCGGTTGTGCACTGTTTTGTAAAAGCATTAGTTTTGAAATACGTGCAAGAAG
R
AAGCACAGGTGGAGGCACAGAGGCTGAAGTGAGTGTGCCACAAGTGGGACTCGGTTCATATTGTAAACATTTACTGAGCACCTGCTATGTTTCAGGTACT
Celera SNP ID:            hCV8863780
SNP Position Genomic:     18449
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40152):
CAATCAAAAGATAATGTGTAAGCTTATAGTATTTTCTTACATAGAATGTTATTCAAACTTCTAAATTTGACCAGTCAGAACTATCTGTATAGATATAGAC
R
CAAATTCTAGCCACCATTCACAAATAATGCATTTTATATCTAAGAGATAGCATAACATAGTTGTCTCAATTGTTTTTATATATTTTAAATATTTAGCTTT
Celera SNP ID:            hCV16190502
SNP Position Genomic:     48111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40153):
TTACTGAGCACCTGCTATGTTTCAGGTACTGTTGGCTGCAAAGATGCAGACATTCCCTGCCCTCTAGAAGTTCATAAACTAGTCGGGAAGACATCTAACC
R
TAATACTATAGAATGATTAATTGTAATACTGGATGATATCATTGTTAAAAACCTGATCAGTGGCATTTGTAGTGTATGGCATCATTTTTAGTTATGTTTC
Celera SNP ID:            hCV8863781
SNP Position Genomic:     18620
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40154):
GAGGATAGTCACTAAGATCTGCCTTTCTTTTCCCAACAGTTCAATCAATGTACTGAATATAACTGCTGAAGAAATTAAACCAAATCAGGTTGGAGGAGAA
Y
GTACAAATCAAAAATGGAGTGTGGCATCAAGACCTGGATCACAGGAAGGTTGCTATAGTGGATGCTCCTTGAGCTACACAAATTCTCATGTAGAAAAAGA
Celera SNP ID:            hCV8863782
SNP Position Genomic:     49260
SNP Source:               Applera
Population(Allele,Count): african american(T,8)   caucasian(C,24|T,12)   total(C,24|T,20)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40155):
GACAAAAATTATATATATTTGTCATGTTCAACATGATGTTTCATAATACACATTGTGAAATGGCTCAGTGTGCATACCTCCCATACTTATATCATTTTTT
K
TGGTGAGAATTTACTTGCTCAGCAATTTCAGGAATATAGTACGTAGTTATTAGCTGAGGTCACCGTGTTGTACAATAGATCTATTAAACTTATTCTTCCT
Celera SNP ID:            hCV25983179
SNP Position Genomic:     26737
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,1)   caucasian(G,38)   total(G,45|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:40156):
GGGAAAACACATTTTGTGCGCATGATGAAGAGAGCACCGTGAATCTAGTCTTGACTGCCCCTGGTGGAACATTTGAAAGCCCTTGGGACTCCAGGAGAGA
K
GTTTTTGCAGCATGTATGCTAAATTTGTGAGTTAGCAAGACCCTGCTGTGATTACTATGTTGTACAGATCTTCAAAGTATATTGCCTAATATGAGTCATG
Celera SNP ID:            hCV8863783
SNP Position Genomic:     52164
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(G,-|T,-)   SG_12_T(G,3|T,21)   SG_12_G(G,3|T,21)   SG_12_TT(G,5|T,18)   SG_95_G(G,9|T,180)   total(T,240|G,20)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40157):
TTTAAAACAACAAACTACTGATCTCTGGTAAAGTGCTATTTCCCTTACATAATTGACTATCTTAAAAAACTGTAGGACATTTGTATAATTTTCTAACCAG
T
TTTTGCCCAACAAGACTGCTTGCTGTTTTATTTTATGCATTTTTTATCACTCATGCCATTCTACCATTGGTTTTGGTGGTTCAGAATGGTGCTGTTTATC
Celera SNP ID:            hCV8383490
SNP Position Genomic:     15769
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40158):
CTTCAGATTGCTAATAAGAATAATTAAAATATGTGGTAGGCATTCTCAATGGGGACACTATTGGTATTTTGAATAGGACACTCAACTGCTATGCTACTTT
Y
AATTACTGTGACAACTGAAAAGACTGTTCCTATGTGTTTTCAGACATTTCCTGAAAAATGCTGGAGATGATTTTCCGGGGAATTAATACATGTCAAGCAC
Celera SNP ID:            hCV29072576
SNP Position Genomic:     34741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40159):
TTTTATTTTAGAGGATATAATATAGAAATATTACTTAGTACAATGCTATACCTTAGATGTATGTTGAGTCAAATCGTGTACCATGTATCTTGTATATAAA
S
TAATATGAATACCTCAGTAGAACTTGGGAAGCCTTTAACCTTGATCCTTACATATTATTTATATTTCTATGTATATACACACACCATGTTCTATATCTGT
Celera SNP ID:            hCV27832263
SNP Position Genomic:     25275
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,4|G,34)   total(C,4|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:40160):
AAAGGCTGTGCCTTAGATTCCAGGCAAGGAGACTTGTGCGTAAGTTACCTAAAAAACTTAGTTTGATCATTTGTACAGGGATTCTGATGACCGAATTACT
R
TAAGTATTGGTAAATAAATTTATAGTAATTTGGTCATCAGAATCCCTTGTACAAATGATTAAACTAGGCATGCACTACTACTCCCAGCTAATTTTTTGTA
Celera SNP ID:            hCV16190509
SNP Position Genomic:     48826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40161):
AAACAAGAAAGGAAGCTTTTAAAAGAAGGAGGAGAACACACTATAAGTTGTAGTTGACTTTTAAGAGGTGGGGGGATTAGGACTCCAAGTAAATGTTAGA
R
GGGATGAAAAAGAGCTAGGTAAGAGCACTCTAGCCAAGTGTAGGAACCCTGAGGGTGGGACACACCTCATACATTTGCAATGGTGACCAAGACCTAGAGG
Celera SNP ID:            hCV29072577
SNP Position Genomic:     47413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40162):
TTCTTTAAAGGTCATCTAGTTTGACTTCATAATTGAAACCCAAAGAAATTATGACCGGTTCAAGGTTTCTCAGTACATAACAGAAGTGTTGCTGAGAACC
R
TGGCCTCTGATGCTACTCAGTCCAGCGCTCTCTCAGTACCCTGTGCAGCTTCCCTGAAGTGACAGCGCCCTGGAAAACTAACAGTTTAATTGGCAGCCAA
Celera SNP ID:            hCV16163830
SNP Position Genomic:     14501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40163):
ATCAGAGAGACCTATGGAAGGTCTTATTAAGTACTGGGCTGATGCAGAGTTGTAACCCTTGGCCACATGTCTTATAAGTAGCTAGTAAATCATTATGATA
Y
GTTGGTGATCTGAGGCTATTGAGCCTTTACTTCAAGGAGTGGTCCCATTTATTAGGACTACCCAGAGCAGAGACTGTTTCTTCAGGATGTCTTCTAATAT
Celera SNP ID:            hCV16163831
SNP Position Genomic:     28581
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40164):
TAGATCTAGCATATGATTAATCCAACTTGTTGAACAAAATTTATTGAGTATATGCTAGGCACTGAGTTTCAAAGATGAGTGAAACCCCAGTCCTAGGTCA
Y
GAGGAGATTGCAGTCCAGGGAAGGGAGACATATTGAAACATAACTGTTTGCTTCATTAATTGTTCTTGGGGTAGGACGCAAGGGAAGGCTTCATGGAGAG
Celera SNP ID:            hCV26334524
SNP Position Genomic:     28880
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40165):
AACTTGTTGAACAAAATTTATTGAGTATATGCTAGGCACTGAGTTTCAAAGATGAGTGAAACCCCAGTCCTAGGTCATGAGGAGATTGCAGTCCAGGGAA
R
GGAGACATATTGAAACATAACTGTTTGCTTCATTAATTGTTCTTGGGGTAGGACGCAAGGGAAGGCTTCATGGAGAGGTAACACCTGATCTGAGATTGGA
Celera SNP ID:            hCV16163832
SNP Position Genomic:     28903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40166):
TAACAGATTGGTAGTATTCTAATAGGCTTTAAAATGTTCAGAAGAGAAGTTGTGCTTCCTTGGAAGAGTTACTGGCAAGTAGCTTTTGAGTATTGGCAGG
R
GCTAGAATCACCATGAGCCGGATCCTGGGCCATTCCCCTGTCTGCTCCGCCTCAGAGACCCTGACCTCTGCTAGCCCATTGCTGACCTCAACTACTGATA
Celera SNP ID:            hCV26334525
SNP Position Genomic:     37406
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40167):
TCGTCTAGTCAACCAGTTTCTTCATTAAATGGGCACAGAAGCAGTTCACATTAAAAATCTAATTTCTGACACAAAAGATACAATTCTGATTTCTGCTTTA
K
TGGTTACTTAGCAGAATTCTAATTTCTACTTTAGTGGTTACTTGGACCTATAGCACTAATGCATTTCAAAATATATTTTTTAATTTGTGTAGAAAGAAAC
Celera SNP ID:            hCV2397393
SNP Position Genomic:     31186
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40168):
ATAGGCTCAGAGCTAAAGTACTATACTTCAGTTTGGTGGTTTGAAAGCAAGATTTTGCATACATTTATTTTTTCATTTTATTTTATTTTATTTTACTTTT
Y
GAGACAGAACCTTGCTCGGTCACCCAGGCTAGAGTGTAGTGGTGCCATCTCGGCTCACTGTAACCTCCGCCTCCCAGGTTCAAGTTATTTCTCCTGCCTC
Celera SNP ID:            hCV26334526
SNP Position Genomic:     38673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40169):
AGAACCTTGCTCGGTCACCCAGGCTAGAGTGTAGTGGTGCCATCTCGGCTCACTGTAACCTCCGCCTCCCAGGTTCAAGTTATTTCTCCTGCCTCAGCCT
S
CTGAGCAGCTAGGACTATAGGCGCACATCATAGCCAGCTAATTTTTTGGTGTGTTTTTAGTAGAGATGGGGTTTTGCTGTGTTGGCCAGGCTTATCTTGA
Celera SNP ID:            hCV26334527
SNP Position Genomic:     38779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40170):
GTGCATGAGCTGTAAACATTCTGAATTCTGGAATAGTCAAAAATATATTCATACTTGATTGGTTTGGCTGTGTATAGAATTTAGATTCCAGTTTTTTTTC
Y
TTCAAAACTTTGAATTATTCCATTTCTCCTAGTGTTTAGTTTTACTGATGAGAAGCCTGATTGTAATATACCTGTGTTACTTTGTAGATAACTGTGTTTT
Celera SNP ID:            hCV26334528
SNP Position Genomic:     42425
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40171):
GATTACAGACGTGAGCCACCGCCTCTGGCCAGCCTGTATTTTTCTGCCCTGCCATTTTGTTCACTCTTGGCAGTTTGTGTGCCGTGTCCCAACTGTAGCT
R
CAGTCACAGTGACCAGAAATACTTCATTTTGTCCAAAAGGTTCAGTCACCTTTTGCAGACATTTTATCATGAAAAATAAAGTAGTAGAATTAACAGGAAT
Celera SNP ID:            hCV16189680
SNP Position Genomic:     54535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40172):
GTTTCTTTCTCAGGAATGAAGATGAAATGTATAAAATTCTCTTGAATGATTATGAATATCGTCAGAAACAAATCCTAATGGAAAATGCAGAACTTAAGAA
R
GTTCTTCAACAAATGAAAAAGGAAATGATTTCTCTTCTTTCTCCCCAAAAGAAGAAACCTAGAGAAAGAGTAGATGATAGTACAGGAACTGTAAGTGGCT
Celera SNP ID:            hCV16183650
SNP Position Genomic:     34521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40173):
ATGACAATGGAGTTCTAGAAAGCAGCATCTGTTTTTTGTTGCGTGTTTCCATTTTAAAGTGAGTTGAGTTCTCAAATTGGAAAGAAAGATTCCTTGAGAC
K
TACTTTTAAAATCTAAAGTGTGAAAGAAACAGCAGAGTAAAAGCCAGACTCATTGCACCTTCAATGTCTGCATAGATCCAGAAGTTGTACATTTTACCTA
Celera SNP ID:            hCV26334529
SNP Position Genomic:     51365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40174):
GAAGTAGAATGGGTAGGATTTTATGAAAAATTGAATTTGGAGACTAGGGGTCATGGATTCAAGACCCCATTCAGGTTTCTGCCTTGAGTTACTGAGGATG
R
CGATGTGATTCACTAAGAAAGGAAGGAGGGGTGTGTGCAGATGTTCAGGGGTGGTGCTGAGTTCAGGTAAAGTGTTGATAATCATGCTGAGTGAATTTCT
Celera SNP ID:            hCV15982709
SNP Position Genomic:     29550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40175):
CTTGCCGAATCTGTAAAAAGTTAGATTAGGAAATATTTATGCTCTGGGAAAATAAAATAACAATTCTGTCACCCCATCCAATCTTGGTTAAGAAAGTATA
Y
GCTTCATTTAAAAGTCTTATTGTAAGAGGCTGCACAGGTTAATTCCAAGAAAAATATTATTGAGGCATCTGTGATGCCAAATGAGCTAAGGCTCAATAAT
Celera SNP ID:            hCV25985867
SNP Position Genomic:     27440
SNP Source:               Applera
Population(Allele,Count): african american(T,8)   caucasian(C,23|T,11)   total(C,23|T,19)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   JBIC-allele(T,306|C,1171)   total(C,1171|T,306)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40176):
GGCCGCTGCAGTGGAAGAGAACCCCGATAGTGGTCTAGTAAAAAGTCTAGGGGAAGAATTTACATCATCCAAGAGGCAGGCATGTGTGAAAATACTTTGG
W
TTATAATTTTATCATGAAAATACTTTGGTTTAGAATTTTATAGTCAACGACAGTAAACTGAATTGTGAGCTCCCTGCACATTTTTTGAGCCTATGCTGAT
Celera SNP ID:            hCV27481056
SNP Position Genomic:     7020
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,36|T,1459)   total(A,36|T,1459) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40177):
CTTTTCCCAACAGTTCAATCAATGTACTGAATATAACTGCTGAAGAAATTAAACCAAATCAGGTTGGAGGAGAATGTACAAATCAAAAATGGAGTGTGGC
R
TCAAGACCTGGATCACAGGAAGGTTGCTATAGTGGATGCTCCTTGAGCTACACAAATTCTCATGTAGAAAAAGATGACTTACCTTAGACATGTGGACTGG
Celera SNP ID:            hCV16190510
SNP Position Genomic:     49286
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,3)   caucasian(A,6|G,32)   total(A,11|G,35)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40178):
CATAGCCAGCTAATTTTTTGGTGTGTTTTTAGTAGAGATGGGGTTTTGCTGTGTTGGCCAGGCTTATCTTGAACTCCTGGCCTCAAGTGATTCACCTGCC
K
TGGCCTCCCCAGAGTGTCTGGATTACACGTGTGAGCCACTGTGCACAGCCGACATTTTACATACATTTAGATGTGAGGTTTGAACCTCACTGAGAAAAAT
Celera SNP ID:            hCV27481057
SNP Position Genomic:     38908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40179):
TTTTGTATATGTAGAATATTATAATTTTTAAAAGGACTATTGATGATAGAAGAATAGGGGCAAGACGACAAAAGTACCTTTGAATAAAACAATTTAAGAA
R
TTGGTTTAAGATATTGGATGATAGAAGATATTTAAGATATCTAGATGGTGATATTTTCCTTACAAGATGGGTACCAGTATAGTAATATCTGTATACTAAC
Celera SNP ID:            hCV16190511
SNP Position Genomic:     50229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40180):
TATTTTTCTTTAGTGTGCTTTTTTCACTTAACTATTATCCTTATACATAGCTCTACATTGATGAATATATTCTTAATATTTTCTGCTTGGTAAAGTTTGA
R
TGCTTTTAAACTAGGAAAATGAAGATTTCTGCTCAGTAAATGAAGCCTATTTAAAGAAAAATTTAAATTGTCAAAATATGAACTCAGTGCCATTGTGTTA
Celera SNP ID:            hCV16163806
SNP Position Genomic:     39635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40181):
TTGACATATATGCTACATATCACCTGGCCTAGTGCCTGTAAGTTATGTCATGCCAACTGATCTACCCTAGTAGTAAGTTTTACACATTCAAAAAAAAAGG
K
TGCCAAAAACTGACAACCTTAGAGTTATCCAGGTTATACTCCTACATTTTCTGTACCTTCTTGAGATCTGTTCTTACAGAAATTGTGCAAGTTATTATTT
Celera SNP ID:            hCV16163841
SNP Position Genomic:     29754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40182):
AGATCTGACGAACACTTAAGAAGTAGAATGGGTAGGATTTTATGAAAAATTGAATTTGGAGACTAGGGGTCATGGATTCAAGACCCCATTCAGGTTTCTG
Y
CTTGAGTTACTGAGGATGGCGATGTGATTCACTAAGAAAGGAAGGAGGGGTGTGTGCAGATGTTCAGGGGTGGTGCTGAGTTCAGGTAAAGTGTTGATAA
Celera SNP ID:            hCV16189653
SNP Position Genomic:     29531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40183):
GACCATAAGAGCCACTTTACTTGAAAAAAGAAAGAACCATTTATTCATCTTTCCCCAAATTGATATGGTGGACCTTTGTGTAATAGTATTTAACTGGAAG
S
TCAGGAACCCTCTCCACTACAGACCCCGCCCCCAGTGGATCCATTTGGCTTAGATATTAGTTCATAGCTGGTAACAGCCAGTGTCCTGGACTGCCCTTCC
Celera SNP ID:            hCV16163842
SNP Position Genomic:     30851
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,5)   caucasian(C,3|G,33)   total(C,6|G,38)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40184):
AAGAAACACGAAAGTAGAGCTTTACAATACAGTTTTGCTGGCCTGGTATAAATACGAGGCACAAGAAGTGTGTGTATTTATTTATTGAAGAGTGGTTTCC
W
AGTGACTATAGGTAGTCCTCTAACATACATTATACCGTGACACCCCTAAACTGTCTTACCTTAGATTTGAAAAACAGGCGATGAGCGTACGTTTCAGGCT
Celera SNP ID:            hCV16163843
SNP Position Genomic:     33071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40185):
TGAATAAAACAATTTAAGAAATTGGTTTAAGATATTGGATGATAGAAGATATTTAAGATATCTAGATGGTGATATTTTCCTTACAAGATGGGTACCAGTA
Y
AGTAATATCTGTATACTAACTAGGGCTTTGTATTGTCAATAATTTTTTAATAATTTTTTAATGAGGTATTTACCACTGAAGAAATATGATAATATAAAAC
Celera SNP ID:            hCV12003202
SNP Position Genomic:     50309
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;INTRON;hmCS


Context             (SEQ ID NO:40186):
GCTAATACTATGCTTAGAAATAATTGTAAAAGGATTGAACACAGTAACTCACGAAATGTTATTTTCATGCTTTATACAATTGATTTTCAGTGGTGTTTGT
K
TATATAAAAAATGTAGACAACTGGTTAGTGGAAAGTAAGTCATTCTGCCTTGCTTTATTTAATTGCATGTATTTTTTAACATGACCAGTGTAGAATTAAT
Celera SNP ID:            hCV25985694
SNP Position Genomic:     32531
SNP Source:               Applera
Population(Allele,Count): african american(T,8)   caucasian(G,1|T,33)   total(G,1|T,41)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40187):
TCTATAGAATATTTAAAAACCCCCTAGCAGGAAATGTGCTGTAATGATGTGGCATAGAGTTGGCCTACATGGGAACACTAGAAACACTTGGGGATTGGTT
K
AGAGACATCTTTGCTCTTTACGAGCACCTGTGCCTACCATCCTGTCATTGATAATGCTGTCTTATGTTGTCTTCTTGGTTCATACACAATGATAAAAGTG
Celera SNP ID:            hCV27513814
SNP Position Genomic:     28207
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,225|G,870)   total(G,870|T,225) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40188):
AGTGTGCTTTGTAATAATTCCTTTAAATAAACATTTCATGTGCCACTAACATTTGATTTTGACTAATAAACACTAGGATGTATAACTTCTTGTTACTGAT
M
TTTTAAGGATTCAGTTATTCTAAATCCTTTATTAATTTTAAGCAAAATTGCTTATAAATGTTTTAGGAACAACTGGAAACCTCCAGGAGGGAAATGATTG
Celera SNP ID:            hCV25982824
SNP Position Genomic:     30510
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,7)   caucasian(C,30)   total(A,1|C,37)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40189):
TGATTTTATTAACTCTAAGATTATAATAATTTACTCTTTTTCCTTTTTACGCCAAATGTTTCCATGTCCACCTGCAGCAGAAGATATTACTACTATCAGG
R
GCTTTGACTCCTTTGATGAAAATGATGATGTTAATGTTAACAGGACATGGCAAACTTTTTCTGTATAGATCCATATAGTAAACATTTTCAGCTTTATGGG
Celera SNP ID:            hCV27947601
SNP Position Genomic:     33660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40190):
AGTAATTCTTTCAATAAACATTCATTAAACGCTTAGTAAGCTGCTACTTGCCTGACCTGAGGATAAAAAGATGAGTGTTGCCTTGAGGAATTTGTATTTT
R
GAAATTATCAGCATAGTGAGGCAGGAAGCAAAAAAACCTCACAAAAAACAAATATAGGAAGGCTTTCAAAAAGAAGGAGAATTTCAGCTGTGTCTGGTAG
Celera SNP ID:            hCV8383476
SNP Position Genomic:     8792
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40191):
TGATTATGTTAAGAGGCTTTAAGATTTAAAAGTTTCACACAACCATAAGTATAGTATTTCATGCCAGTAAAATTTTTTTAGTGGTATTCTGTTTACAGAT
R
TATTAGGACCATTGATGCATTACATTTAAGAATTCTCTTTAATACATCTGGGCAATAAATATTGAAAGGTATTCCATGAAGCTGAGTTCTTTAGATAATC
Celera SNP ID:            hCV2855701
SNP Position Genomic:     49979
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40192):
TTTTGAGATGGAGCCTTGCTTTGTTGCCCAGGCAGGAGTGCAGGGGTGCGATCTCAGCTCACTGCAACCCCTGCCTCCTGGGTTCATGTGATTCTCCTGC
Y
TCAGCCTCCTGAGTAGCTGGGACTACAGGCGCACGCCACCATGCCCGGCTAAATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGACTG
Celera SNP ID:            hCV2855702
SNP Position Genomic:     44180
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40193):
TAGAATGGGATCATTTCCCCTTACCAGATTTGAGAATTGAACTTAAGAAAAAAAAACGCTATAAGCATTTATTACTGCTTTCAGATTGGCTTTCTCCTGC
Y
AAGTGTTTTACACAAGAAATCTCTTTTGGGTATCCATCATTCATCCACGGTCAGTAGGTGTGGTGTCAGAAGACAGTGCAACCAAGACTATATTTGCTGT
Celera SNP ID:            hCV2855704
SNP Position Genomic:     41237
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40194):
AAAAAAATTAAAAAGCAGGATGAAATGCTGAAAGTATAAAGTGTAACACAGAGAAGTTTATTAAGGATTTAGTTCTGGAAACAGAGCTCTTCCATTATAG
Y
GGTCTGGCTGTTTCCTGGTCCAATCGGAAGTGACAGTTTCATAATGATTTTATTAACTCTAAGATTATAATAATTTACTCTTTTTCCTTTTTACGCCAAA
Celera SNP ID:            hCV16189660
SNP Position Genomic:     33515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40195):
TTGCTTACAAGTGGTGGAACTAGAAACTCGAAAATTAGGCTGTTTAAGCCCAAATCCTAACCTATATACCAGGTTCACTTTCACCACTTACGTGTATAGA
R
TGCATTAGAGTTTTAGACGCTTAAGCATGTATGGTAAGAATTAATTTTATGTGTTCATGTTTGTAGCTATGGACATTTTGAATTATGTCGGGAGAGCTGA
Celera SNP ID:            hCV16189661
SNP Position Genomic:     34212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40196):
AAAATGCTAGTTAACAGCAAGATACCAGAACTTGTTTTTTAAACCTGTATTTGAGGATTATTTATTTTGTGGTATCACAAATCAGTCCAGCTGATAAGCC
Y
ATCCCAGCACTTACCTTTTTTTCTCCTTAACATTTAAAAAAAAAAATTACCTAAATTTTTTTTTTTTTTTTTTTTTAAGAGACGGAGTCTTGCTCTGTTG
Celera SNP ID:            hCV16189662
SNP Position Genomic:     35664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40197):
AATTTTTCAATGAAAATATAAAATAATTACTGCAGATGTTGAAGATGTGACTAAAGAGAGACAAATCGTTGTAAAATACTTATTTTCATGTCTACTGAGA
M
CACCACTGTATTTGTATCTTTTTGGAAAAAAAAGTATATCATTTTCATAAAGAGGCTTTGCCCTAATTTGAAAATACCTTAAAATATGTATGTATATATT
Celera SNP ID:            hCV2855707
SNP Position Genomic:     25782
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,33|C,1)   total(A,68|C,2)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,9)   total(A,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40198):
CTAGCATTTTAAAATTGGGAGACTTCACATAAAAATTCAGAGTTCCAGTATCTCATAAAAACATCAAAGATCAACACAACCGCTTTCCCCTTGACCACAA
Y
TTATTGTAGCCGAGAAGCAGCTGTCCACAGTATTGACATGTGTTCCCCAGGCTGCCTGCAGTCTTCACCCTTCCTCCTCTTCCCCCTGACCTTGAAATCA
Celera SNP ID:            hCV2855708
SNP Position Genomic:     24509
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40199):
CCCTGTGCCTAGGAAAACGTAGTAGCACATAGTAGGAGCTCAATTAGTATTTATTGGATGAATATAAATTTCTTTTTTCTTTTTGAGATGGGGTCTCTGT
Y
GCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCAGTGTAACCTTGCCTCCCGGGTTCAAGGGATTCTTCTGCCTCAGCCTCTTGAGTAGCTGGGATTA
Celera SNP ID:            hCV2855709
SNP Position Genomic:     23807
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40200):
ACTCTACTGTGTTGGGTGCTTTAATAGTTATTTCTTTGTCTTCTCAACAACTCTTTGGTAGATACTTTTGTTATTCCCAGTGTCCAAGAAGAAACAGGCT
W
AGCAGTTAAATAATGTGCCGAGATCTCATTGCTTACAAGTGGTGGAACTAGAAACTCGAAAATTAGGCTGTTTAAGCCCAAATCCTAACCTATATACCAG
Celera SNP ID:            hCV16163853
SNP Position Genomic:     34083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40201):
AAAGGTGAATTTTTCAATGAAAATATAAAATAATTACTGCAGATGTTGAAGATGTGACTAAAGAGAGACAAATCGTTGTAAAATACTTATTTTCATGTCT
R
CTGAGAACACCACTGTATTTGTATCTTTTTGGAAAAAAAAGTATATCATTTTCATAAAGAGGCTTTGCCCTAATTTGAAAATACCTTAAAATATGTATGT
Celera SNP ID:            hCV27849815
SNP Position Genomic:     25775
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,36)   total(A,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:40202):
ACTAGAAACTCGAAAATTAGGCTGTTTAAGCCCAAATCCTAACCTATATACCAGGTTCACTTTCACCACTTACGTGTATAGAGTGCATTAGAGTTTTAGA
Y
GCTTAAGCATGTATGGTAAGAATTAATTTTATGTGTTCATGTTTGTAGCTATGGACATTTTGAATTATGTCGGGAGAGCTGATGGAAAAAGAGGCTCCTG
Celera SNP ID:            hCV16163854
SNP Position Genomic:     34230
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,4)   caucasian(C,32|T,6)   total(C,36|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40203):
TTCCCGAATATCTTTTACATTCTCCATTTTGAGGCCTGCTTGACCTCTTATATGTAGTTAACCTCTTATCTCAAACTCTGTCACTTCTAGTCAGTTCTTA
R
CATTCACTAATACTTCTTCAAGGTTAGCATAGTGTCCATTACTACTGCAGCATCTTCAGTTTTTGGTCCAACCTTAACGTCTCATCATCAGATTTCAGTT
Celera SNP ID:            hCV16163855
SNP Position Genomic:     36348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40204):
TGCTGGGATTACATACAGGCATGAGCCACCGCGCCCGGCCAATAATTTTTCTAACAGATTGGTAGTATTCTAATAGGCTTTAAAATGTTCAGAAGAGAAG
Y
TGTGCTTCCTTGGAAGAGTTACTGGCAAGTAGCTTTTGAGTATTGGCAGGGGCTAGAATCACCATGAGCCGGATCCTGGGCCATTCCCCTGTCTGCTCCG
Celera SNP ID:            hCV16189669
SNP Position Genomic:     37355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40205):
TTACTTAGTACAATGCTATACCTTAGATGTATGTTGAGTCAAATCGTGTACCATGTATCTTGTATATAAAGTAATATGAATACCTCAGTAGAACTTGGGA
R
GCCTTTAACCTTGATCCTTACATATTATTTATATTTCTATGTATATACACACACCATGTTCTATATCTGTGCATGGGAATAGGTATTGCAAAATCCTTCT
Celera SNP ID:            hCV27836247
SNP Position Genomic:     25305
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,36|G,2)   total(A,74|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:40206):
AAGAGTGCTTTAAATGCAGATCTTTTATTCTCTGCTGTACCTGTACGTGATAGCTGAGGTGCCCCTTCTTGCATGCACTGTCTTAAATATTGACATTGTT
Y
GTCTAGTCAACCAGTTTCTTCATTAAATGGGCACAGAAGCAGTTCACATTAAAAATCTAATTTCTGACACAAAAGATACAATTCTGATTTCTGCTTTAGT
Celera SNP ID:            hCV28012830
SNP Position Genomic:     31087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40207):
TTCAGTAGGAGAAATAACACAGTTATAATGCAGTACAGAATCTGGGTGTCAGACATAAAAATGTCAGACTCTAGCAATGTAGGATTCTGAGATGAGAGAA
R
AAATAGTCTTTCAAATTAGCAAAAATAAGTTTTTAAATAGAAATGAAACTACAAGCAGTTAAACATTCAGAACAATCTTAACTCCAGTTGTTCTCATCTT
Celera SNP ID:            hCV27969392
SNP Position Genomic:     9441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40208):
TTTAGGATTTTTCTCTTTCAAATTTGTGAATCGTTACTGGGCTTATAATAGCAAATGCCTTTTTCAGGTGCAAAAATTACAAAATATCATTGCAAGTCGA
R
CTACTCAGTATAATCATGATATGAAGAGAAAAGAGCGTGAATATAATAAACTGAAGGAACGTCTACATCAACTTGTTATGAACAAGAAAGATAAGAAAAT
Celera SNP ID:            hCV27498065
SNP Position Genomic:     32290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40209):
AAATTTCAGAATTAAAAAAACTTTATGTGATTCATATAATATTTAAAAAAGTGGTTTCTACTGGTTACAAATAAGGAAGAATCATCCTAGGATTTTAAAA
Y
CTATATGGGGAGATGAATTTTAGGATTTTTCTCTTTCAAATTTGTGAATCGTTACTGGGCTTATAATAGCAAATGCCTTTTTCAGGTGCAAAAATTACAA
Celera SNP ID:            hCV27498066
SNP Position Genomic:     32171
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,43|C,1444)   total(C,1444|T,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40210):
TGTTGAAGATGTGACTAAAGAGAGACAAATCGTTGTAAAATACTTATTTTCATGTCTACTGAGAACACCACTGTATTTGTATCTTTTTGGAAAAAAAAGT
R
TATCATTTTCATAAAGAGGCTTTGCCCTAATTTGAAAATACCTTAAAATATGTATGTATATATTATATCTATGTTTATATGTATATATGTAATTCAAAGT
Celera SNP ID:            hCV25983634
SNP Position Genomic:     25818
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,2)   caucasian(A,38)   total(A,44|G,2)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,2)   caucasian(A,32)   total(A,60|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:40211):
CAGATCTCTTATCCTAAAACTATCAACCTACAGGCTTAGGAAGCTTAGGTTATTCATTCACACTAAACAAGTAAGGAAAGCTAATAGCTAATTTAACACT
Y
TGTTCTGCCTGCTGTTAATGAAGGTTTCTCAAACAAAACGGTTCTTTGAGAAGAGGGTTAGGAACTGATAATTAAAACGAAGGCTCTTTTAGTGACTGGC
Celera SNP ID:            hCV27498424
SNP Position Genomic:     7796
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,198|C,1295)   total(C,1295|T,198) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40212):
GTCCAATTGTATACTTGGGATCTCCTAGTACTTGACAGTCTGCTTTTTGGCCAAAGCAGGCCGTGACACCGGTTTTATAAAGTAGGCGTTTGAGTGCCTT
Y
TATGTAGTATACCCCTAGAGAAATTAGGTGCATGAAAAGACACCGCCCCCAAATTGTGTGATTTTAATTCATTTAACATGCTTAAATTGGATCGATTTCA
Celera SNP ID:            hCV27498425
SNP Position Genomic:     8284
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,312|C,1179)   total(C,1179|T,312) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40213):
GACCGCTCTCGCTGGCGTTCGCGGAGCTGCGCCTGCGGAGCGCTCTGACCCGGGGAGCCCCAAACCCTCTCTGGGATGGAGCAAGGTTGGCGCCCGGCGT
K
GGGGGACGAGCAGCGCGGGGACGTGGGGGAGGAGGGGATGGCCGATTTGGGGCTGCAGAGTCTCAGCAGCGGCCGTGGGGCATGCGGGGTTTGGCGATTT
Celera SNP ID:            hCV8863778
SNP Position Genomic:     6774
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40214):
AGATTCCCACAGACATTCCCTCAGGTATGAAGACTGCATTACCCTTGCTCATGGGTATGCGTACATATGTGGAACAGGTGCTAGAAGTGTACCTGATTGG
K
GGGATTTGTCTAAGTCGAGATTTCCACTCAAGGACAGGGCTGCTACTTTTTGGGATTGAGCTAAGAGTACTTTCACACATTATCTCATTTAATTGTGCTT
Celera SNP ID:            hCV8863779
SNP Position Genomic:     15059
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40215):
GTTTATTAGATGGCTATATACGTGTTACCTACCGCTAATGAACAAAACTATGTCTCTTATTTATGGATTACTTTATACTTTTGCTTTGATGTATTTCAAG
W
TTGTTCCCTGACAATCTTAAATGAATGAAATGCCTTTTACAAGATATTTTAATTATTTAATGTTCAAGGTTTGCTCATAAAATTCACTCATGAATTTGAT
Celera SNP ID:            hCV2855710
SNP Position Genomic:     20598
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40216):
AAGTTTATTAGATGGCTATATACGTGTTACCTACCGCTAATGAACAAAACTATGTCTCTTATTTATGGATTACTTTATACTTTTGCTTTGATGTATTTCA
R
GATTGTTCCCTGACAATCTTAAATGAATGAAATGCCTTTTACAAGATATTTTAATTATTTAATGTTCAAGGTTTGCTCATAAAATTCACTCATGAATTTG
Celera SNP ID:            hCV2855711
SNP Position Genomic:     20596
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40217):
CCCTATTTTTTAAGTTGGTTTTTCCTTGCAATTTTTTCTGTCCTTATACCAACTTTTGTGTTTATAGAGCAGAATTTATGCCTGTACATATCTACTGATA
Y
TTGTTTTTTTTTCCTGAGGACTAAATAAGCTCATATTAGATATGGTTTTGTAACTTTTTTACATTACTTAACAAAATATCATGGAAGTCTTTCCAAGAGT
Celera SNP ID:            hCV2855712
SNP Position Genomic:     16145
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40218):
TTTGTATACTGTTGGAATTGCCCTTTAAAACAACAAACTACTGATCTCTGGTAAAGTGCTATTTCCCTTACATAATTGACTATCTTAAAAAACTGTAGGA
S
ATTTGTATAATTTTCTAACCAGTTTTTGCCCAACAAGACTGCTTGCTGTTTTATTTTATGCATTTTTTATCACTCATGCCATTCTACCATTGGTTTTGGT
Celera SNP ID:            hCV2855714
SNP Position Genomic:     15746
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40219):
GAAGGTTGAAAGATGAAGAGCATTTGTTTTTGAAGAGGGTGTTAATAAAGTCAATTTCCCTCTTTCCTCCTACCAAGGTTGGATTGTTCATTAAGCCAGG
R
GGAGAGTCCACTTTTGCCAGGTCTGCCAGTACTCCATGGCTTTGCCCTTGATGATAGTTGGGGAAAAGTCTGGCCTCTGTATTTCTGTTCCCTGTCTTCC
Celera SNP ID:            hCV2855715
SNP Position Genomic:     14849
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40220):
TAGAAATTCAGCAGTGTAAAGAAATGATTAAAACTCAGCAACAGCTTTTACAGGTGAATATGAATTACCTTTTAAAGCTGTTCTCCATGAAAAGCCAGAA
Y
TGTGCTGAACCTTACCAGATTTGTATTCCTTTATTTCATAAGGCCCTGGTATTTGACAGATTTCTAGTCTGTGTTCCCTGCTAACAGATACATTGTGTAC
Celera SNP ID:            hCV16189671
SNP Position Genomic:     40509
SNP Source:               Applera
Population(Allele,Count): african american(T,6)   caucasian(C,3|T,33)   total(C,3|T,39)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40221):
ATGGCCAAAGTGTTGACTTGTCTATCATACTAAAACAGCAGCAAACCTTACACTAATACATCCTTGAACTTGGACATTCATTCAGCAATCTTGACTGGGC
W
CCAACCTTGGAGTGAGTGATGATGCCTGTTACCGAAGTGGGGTACAAAGAATATGCTGACAAGCCTGCCAAATGAGAACTCAGTTGTGGTGGGAGAGAAA
Celera SNP ID:            hCV2855718
SNP Position Genomic:     13161
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,6)      total(A,6|T,2) ;JBIC-allele(T,309|A,1160)   total(A,1160|T,309)
SNP Type:                 INTRON


Context             (SEQ ID NO:40222):
AAAAGCAAGCCAACATCATAGAAATAATCTGTAAGTACAACCCATCATTAGCCATGTTGTTTTATAATGAGGCGATAGGCTCAGAGAATTGATATCATTT
K
CTCAGCATATTTGTTGAATGTCAGGAGGAAACCAGGCCTGTGAGGCTTTGGAATCATAAATAGCTAGTTTTTAGTCTTTCCAGGTTAAATAGCTGGATTT
Celera SNP ID:            hCV2855719
SNP Position Genomic:     11119
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,2)      total(G,2|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40223):
ACCATGTTGGCCAGACTGGTCTCAAACTCCTGACCTTGTGATCCGCCCACCTTGTCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCGGC
T
TTTTTTTTTTTTTTTTTTTTTTTGGAGATACGGTCTTGCCGTGTCACCTAGGCTAGAGTGCAGTGGTGCTATCTCGGCTCACTTCAGCGTCAACTTCCCA
Celera SNP ID:            hCV11893985
SNP Position Genomic:     44363
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40224):
TCCCAAAGTGCTGGGATTAGGCATGAGCCACTGCGCCTGGCCTAAAAATCAACTTTAATATTTTATTTACTGTAGTGAAAGTGAGGATGAGAGGGGGACT
R
TGCATGCCCAAAGTAACTTTTGTTGTGAGTTTGTAATAATGCGAAGTTTTTGAAAATTTACATTGAGAATTTCTTTTTTCAAGATGTAGTCTTGCTCTGT
Celera SNP ID:            hCV16189678
SNP Position Genomic:     45421
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40225):
CAATAGAGATTTTGGAGAGGAATTTAGTAGATGATTTATTCATTCTACAAATATTGAGTGTCCAGTATATATAGACACTGTGCTAGATGCTGGAAATACA
M
TAGTGAACAGGTAGATCTGTTGTCTTCTTGGAGGTAAATCATATGATGTGTGTCTTTTTATTTCACATTTAAGATACAATTTAGAATGTAGTCTTAATTA
Celera SNP ID:            hCV16189679
SNP Position Genomic:     46637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 186
Celera Gene:                 hCG25124 - 115000158384717
Gene Symbol:                 PADI3
Protein Name:                peptidyl arginine deiminase, type III;PDI3
Celera Genomic Axis:         GA_x5YUV32W3P1(368728..415858)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12346):
CAGCCCAGAGCCGCCCTCTAGAGAGAAGGTCCGGAGTCCCCTTTGAACACCAAGGGTCACCCCTTATGACCTCTTGCCATCAACCTGGGCTGAGATTTCC
TCTAAGAAACCCCCATACCACAGCATGGGGGAGAATTCCCATCCCCAGATTAGGGCCCCAAGCCAGGTCCGCAACCAAGGGAAGGAGAGGTGCCCCCAGA
GTTAAACTCAAGTGTCCCCAAAGGCTTTCAGCCCTTTCCCCCAACTCCTCAGTCCCACAGGTGGCCAGATAAAAAGCATGGATTTTGGCACCAGCCAGAT
CCAAGTCCAAATGTCAGTCTCATCATTCTCTGGCTGTATGATTATGTGACTTAACCTGTCTGAGCCACAGCTTCAGAGGGAGGCTGTGGCATTTAGTGAT
GATATATCTGGCACATAAAAGATGCTCAATAAATGCTAACAATGATCAGGGCTGCCAAAGACAGTTAAGCAAGCTGTGCACAGCAAAAGCACACCACACT
TTGGAAGACATCCACACCACAGACCTTGTAGGTGTGTATATTTGTTGTACAAGTTTCTGGCAGATGACACGAAAATCTCTTGTTCTAACAAAGTTGCTAT
AATATGACAATTTTCTCATAGATGAAAGAAAGAGTGGGAGAAGTTTTTTTTTGTTTTTTGTTTTTGTTTTTTAATGTACAAAATTCCTGGTAGCCCTGGC
TGTTATTCAACCTCATTTCCAACCCTGAATCTTTTTCTCCTCTGCTTTCATAGGCCCTAACTCTTGAGCAAACTCCAGTCCTAGAGCCCTTTCTAGGCTG
TGGCTATGGCCAACCCATTCCCCAGGGCCTGTCTCATTCTGGCAAGGAAGGGGTGCCAGAAGCACAGCACTTACAGCCAGACAGCCTCCCTCTTGCCTTT
TCTCTTTTGCAGGTTAACATGGTGGTCTTAGGCAAGTACCTGGGCATCCCCAAGCCCTACGGGCCCATCATCAATGGCCGCTGCTGCCTGGAGGAGAAGG
TGCAGTCCCTGCTGGAGCCTCTGGGCCTGCACTGCATCTTCATTGATGACTACTTGTCCTACCACGAGCTGCAGGGGGAGATCCACTGTGGCACCAACRT
GCGCAGGAAGCCCTTTCCCTTCAAATGGTGGAACATGGTGCCCTGAGCCTGCCCCCACCCGCCATCCTCTCTGCCCTCTTGCTAGGGAACCCTGCCAGGG
TGAAGGCAAGGAACAACCACCTGGCCTCCATTCTCTTGGGGGAGTCTTGGCACTTTGCAAACATCCTGGCCACCATGGGCACCAGGACACAGGGATGGAT
ACCACCTACCCTCGCCTCTGGAATGGCCTACCCAACCCGAGAAGAATGCACCTCATTCTTCCCTGGCCTCTTTCCCACCCACAGCCCCCAGAGGCTCTAG
ATCAACAATGTTAGCATGTTCCAGAATGGCTGTGGGAGGCCTAGGGAGATGGGCCCCACTTAGAATTGCTCCCCCTTCATTCTGATGCCTCCCTGGGGAA
CAAGGATAATGACTTTGCATCTGCACCTGGAACGGGGCCTGGGGGACCTGGGGTCTGGTGTGCCAGGCACCAGGCTGCCTCTGCTCTTGGAAAACTAGGA
AAGGGGATCAGAAACATCCTCTCCCCGCTCTAGGTTTCTTCTCCCAAAGGGGACCCAAGGCTGTGACACTTACCTCCACCCCCATCCAGCACCCTTCAGC
TGTGTGTGGACAAACAAGGACAGAAAAACCCAGTGTCCAAGGGCCAATTTAAATAGAAAAAAAGACAACAAAATTTTAATAGCTGACTCCGACCTCAGAA
GAGTGATTGCTACCTTTCTGGAAAGACTTTAATTACCAGAGCTGGCTTCTCCCAGCTCAGAAATGCTGAGAAGCCAACGTGAGGCCTGAGGACACACAAA
GGATGACGGGGCAGGAGGGGATGAGGTCAGGGTAGCAGAGTGTGTGACGACGGATTTGGGGGCCTAGAGGTGTCCGTGGTTCCTGGGCTGGGATTTTGGA
CTCTGGATTTGAAGGGAGCTGGAGCTTCCAGATGTAGCAGGGGTAGGGGGCCAGATGTTAGAAGAGGGTGTGTGTGTTGGGAGGAAATTAGGTTATCTCT
GAAGGTGGAGTTTAATTTCCTTTAATAGTCTTTAATTATTCCCCTTCATTCTGCAGGCAGTGGGAGGGGAAGGCTTGCCCGGTCTCTCTCAGCAACCCAG
GGACCCTGCACATAGCTTAGGTTTCATCCCTGAATAAACCGCTGTGCAGGCCCATGTCCCCTCCCACAGTAGGGAAGACAGCTGCCACGGGAGGTTAATA
GCCCGGAGTGAGGTCACTGAGACATGCACAGGCAGGCTGGTTCAGCTGGGCTGCAGGGCACGGGCAGGAGGAAGCCAGCCTACCCTCTTCCCCCACTGCC
AGTGAGGCCATTGTAGGGCAGTTGGCCCTAGGGCTTCGGTCCATCTAGGTTTTCAGTGGCCCCTGCTGAGACCTCACACTGAGCCAACTACTGTCACTGT
TTTAACCAACAAAAGCTAGCCTGGAACTGCTATGGTTAAAGTGGGTGAGCGGGAACCTGAAAATCCCCTTCTGGAAGGTTCTACAGAACTCTATTTGCAA
GCTCCTGCTTTAACCTGAGCGTCCTCTGCTCAGGATCATACCCCAGCCTGCACTGAGTCAAGAAGGAGAAGGAGGCTCTGAAGGGGCCGGGGGTGTGAGC
TGGGGTTGGGACTCCCCTGAGAAAGAGCTGTGGGTAGGAAGGGAGTGAGCATTGCAGAGATAGGGCTGGGGGTCGGGGCCACACTGAGTGTGGGAAGCTC
TGGAGTTGCTGCTGGGCCATCGAGGGGCCCTGGTGTTGGCTCTGAGAATGTTCTGGGTGACCAGTCACCTACTTTCTGATCAATAAAAATGTCGACATGC
ATTTCTTACAGGGCTGTCTACCCAGCCTGTTTGTTGGGTTGGGGAGGAGGGGAGGAAAGCGGAGAAGACTGCTTCCAGTTCCATCCACTATGAAGCTGCT
TGGCTCAATTTCTGCTGCCACAGGCGGCCCCTGCTCAGCTAGGAGAGCCTCACAGTGCCACGGCCAGTGCCACGGCCAGTGCCAGGCAGGCTGATTCAGC
AGGATGGCTGGCACATTGCCTCTTGCTCTGGGGCTGATGGCCCTGCTAAGATGGAGATCAGATCAGGGGAGGGATGGGTCCTGCCTCTTCATCTCTTCTC
TCTTCCTTCAGCATCCCCTCCATCTCTCAGGGACAACAGGTCGGGGAGGCAGCCCGGGCCCTATTAACAGAGGTGAGAGTTCCCCAGCAGGGCTGGTTCC
CAGGGCCACAGGCCACTACAGTTCCCTTTCTGGTTTTCGTTTTGTTTTGTTTTCTTTTCTTTTGTTTGAGACCGAGTCTTGCTCTGTCACCCAAGCTGGA
GTGCAGTGGTGCTATCACAGCTCATTATAGCCTTGAATTCTTGTGCTCAAGCGATCCTCCCACCTCAGCCTCCTGAGTAGCTAGGAATACAGGCACAGGC
CACCATGCCCAGCTAATTGCTAATTTATTTTTTACGGAGCTGGGGTTTTGCTATGTTACCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCGATCCTCCCA
TCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTACTGTGCCTGGCCCAATTCCCTTCCATTTTTGTGTCTGAAGCTTCTAAGTTACCTGGCTTC
AGTGGTCTGATTTTGGATGCCTGAAATCATCACCCTCTCATCCTACACATTTGCTGCTGCCTCAAATTACACCGTTTGATACTCACTCACTTTATTTTAG
CTTTTGTTGTGGAGTAAGAGGGCAAAAAGTTGCTGCCTATTAGTCATTGACACTTTAGTCTGAATTAACCACAAACCTGTTTCTAAAAGTTGGTATTAAC
AGAGGAGAAGTGAAGGCATGAGTCTCCTTCCAAAGACATATACAGTTCTCCGAGAAAGAGGCAGGTAGTGGGCCAGCACCCCAGGGAAAGCCCCTACTTT
CTGCATCTATTCCCCATCTGTGCTCACAAGAAGGCTAGGGAGACTAAGGCTTCCTCCTGAGCTCGAACTCTTACCCAGGGCTCCCAAGGCTGACTCAGCC
ATCAAGCCATTCCACAGCTGAAAAAAGTGAAGCTGTCCCTTGACCCAGAAGCCCAGCAGTTCTCCTTGAAAAGAACATCTTTCCCAAAAACTGAGACATG
GGAATGACAATCTCAGGGTCCTGTTGAGGCCCTTGAACTGGTGCAGATGTCCCAGCTGGAGATGCTGGGGAGCGGGTCCTGGTCCCCATCCTGTCTCAGG
CTGTCAGCACTGCCAGGGAGAAGGGAGGAAACCTCTATTCAGCACCTCCTGAGCCTCCGCCAGGCAGGGTGCGTCTTCACTATTATCTCCGCCAGGGCCA
GTGATTAGCTGCATTTTCTACAGATGAGGAAACCGAGTCTCCAAGAGGGGGGACACTGACACCCAAGGCCCTATAGTGGGTGCACGGTGGAGCCTGCCTC
TGAACCCAAGACTTCTCTCCCCAGAGCCCTTGCTCCTGCTCTTCCAGGAGCCTGAATGCCCCTCTGACTTCGGTTTCCCACCTGACGACTGAGCTTTCCT
ACTCTGACATGCCAAGCTCCCCCTGGCTGGAGAGAGTTCTCACCCTCATCATTTACCGCTTTCAGAGGTTTTTGGGACCTAATAACAGCAACAATAGTAA
TACAATAACGCCAAGCTCCATACCAGAGCTCTACCAACGCTGGCCCCTGAGGCCTCACAGCAACCATTTTTCAGACGAGAAAAGTGAGGCACGAACAATT
AAGAAAGTTGCCCGGCCGGGCATGGTGGCTCACGCCTGTAATCCCAGTACTTTGGGAGGCCAAGTCGGGTGGATCAAGAGGTCAGGAGATCGAGACCATC
CTGACTAACACGGTGAAACCCCGCCTCTATTAAAAATACAAAAAATTAGCCGGGAGCCGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGC
AGGAGAATGGCGTGAACCCGGGAAGTGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCTAGCCTGGGTGACAGAGCGAAACTCTGTCTCAAAAAA
AAAAAAAAAAAGAAACTTGCCCAAGGTCGCCCATCCAGGAAGCAGCTGAGGCAGGGCTGAAACCCAGGTCTGGCTCTAAAATCCATTAAAAAAAAAAAGT
TGGTGTTTCTCAAAGGGCACCAAAATGCTTTGGGGGTGCTTATTAAAAAATCCAGAGGGCCGGGTGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGG
AGGCCGAGGTAGGTGGATCACCTGAGGTCTGGAGTTCAAGACCAGCCTGACCAACATGGAAAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGAAG
TGGTGGCACACGCCTATAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGAAGGTTGCGGTGAGCCGAGATCGCACCAT
TGCATTCCAGCCTGGGCAACAAGAGTGAAACTCCGTCTCAAAAAAAAAAAAAAAAAATCCAGAGGCCAGGCTGCACCCCTAACCTGCTGGATCAGAGTGG
ACAACAGACCTGGGAATCCGCATTTTCACCAGCTTCCCCAGCAGAGTAAGAAAGCTCCCCATTATAGTCTCTGAAAATGCAGAAAATGGAGGTGAGGAAG
CAAGAAGCGTCCGAGATCAATATCATATATCTCTGCACCCCCTCAACAGCACCTGCCCCCAACAGTTCCTGGTGCCTAGCCAGGTACCTGTGGGGACTTG
CTTCCCAAGAAATTAACTTCCTGGGTGCCGGGGTCGGGACAACAGGTTCGTATACAAATACTGGGTCCCTTCCAGCCAATCCTGAGCTCTCAGCTCTGGG
AAGGGGCTGGGCTTTCATGACTGGAGCCAATGAATTGGCACCCTGGGCTGGAGGGGTGGGGCCAGGGGCTTTTAAACCTCATCCTAAGGGGCCTCAGGGG
CAGTGTTGRGGTTGGCGGCCACAGCTAAGTCCAACACCAGCATGTCGCTGCAGMGAATCGTGCGTGTGTCCCTGGAGCATCCCACCAGCGCGGTGTGTGT
GGCTGGCGTGGAGACCCTCGTGGACATTTATGGGTAAGAGTCAGAGGCCTAGTGGTTTGCAGGCCCTTGGTGCTGATGCCCTTGGACCTTCCTCCCTGCA
GGCTGGGCAGGGCTTCTTCAGGGCCCACTCCCCAGCCTTGGCCTCGGAACAGCAGCCAATCAGGGAAGCTTGGGTCCTCCTCTTGCTCTACTGAGTTTCC
TGAAGACCTTAGCCAGGGAATTTGAAGTTTGGGAGGCTGAGCCAGGTAGAAGAGGCTTCAGTGACTGAGCTCCAGACCGGGGGCTTGGAGGGGGCTGGTG
CCGCGAAGAGATGGCACTTTTCTATGTCCAAGGGATGCTGCAGGTTGGGCTGAGGATCTGTCTGGGGCACACAAGAATAGGAACAGGCAGATATCCCCAG
CCCCATCCTGAGCCTATGAGCCTAGAAACAGAGCATGAATCATTTTTAAAAAATAAGTTAATACATAGCACTTACCATGTGCCAGGCACTATTCTAAGAG
CTTCACAAGTCTCTTGAGTTAAGTTTTGAACTTTAATCTTGAATTTAACCCTTACAACAACCCTGTGAGCTAGGCTTATTATTAGCATCATCTCATCAGA
CAAATGAGAAAACCGAGGCAGAGAGGGCAAGCCATTYGCTCAAGTCACACAGTTACTAAGTGGCAAAGCCAGGGTTTAAACCCGCTTGTGGTCTTACTCA
GGAGTCTTATGGTTTTAGCTGCTCTGATACTTGGAAAATAAAGATTTCCAACCTGGTTTCCTCTAGACACTCAATGCCCATGCATTATGCTCCTACTGTG
TGCCAGGYCATGCCTTTGAGGCCCATGGTAGAGGGAGGTAAGGCCTTATCTTCTCTCTCTTAGGAAGAAAAGAGGGTTAGGGTAKGGTTTTAAGAGCTGG
GCTCTGGGGACCACCAGGGAGCTGGCTTCTTAGGCTTTTGGGGAGAMTCCAGGGTCCTGGCTTGGAGGTAATCAGGATACTGGGAGGGGAGGGTGCAGAA
CTGTGGGACAGCTCYCACCTCTCAAGTCTCCCAGCCCTCTCCTCAGGCCAGGTTTCTCAACCTCAGCACTGCTGTCACGATACCTCTTTGTCATGGGGGC
CACCCTGTGCACTGTAGGATGGAGAGCAGCATTCTGGGCCTCTCTTTGCTAGATACCAGCAGCACACTCCCGAGTTGTGACAACCAAAAATGTCCCCAGA
CATTGCCAAATGTGCCCTGGGGTGGGAAGAAAATAGCCCACCCATTGAGAACGAGTCTCCAAGACTAAGACTCGAAAAATCAGGGCGAACTTAGTCGGGA
GCAGCGATGGGGTTGATCCAGGGCATTGGATGAGAGGGGGTGAGGAGCTGGTCATGGGAGGGAACCAAGTCGGGAGCAGAGCCAGCCCAGGAAATAAATC
CTGGTATTGGTGGGTGGGCAGTAGGAGGAGGAAGGGGATTCAGTGGTTCTTGAAGGAAGGGGCAGCCACGGAGGCTGTGCCAAGGAGGTAATGAGGAAGG
AGGGGTATCTGCCACTTGGCACCACTGCCTGCCTGCCATGGGGTGACTGGGCTGCGTGCCATGGGGTGACTCACCTGCCCCTGCTGCCTCGTGCCCGTTG
GGCAGATGTGTCTCCGGTTTGACCTGYCCCAGGAAGCCTGGGCCTGGCTCCTCCCCCGCAGAGCTTCCTTAGAGGATAGAGGATGGATTGGGGCAATAAG
AGRTAAAGGCCATAGCTTCCTGGAGTCACCTGAGCCACACTGGAGGTTTGCAGAGAAGGCCATCGGTGGGACAGCCACAGGGTGGGGGATGGAAGCTCTG
ATACCTTCAAATGAGGGATTCTTGGGCCCTGGTGGCCAAACCCCCCAGGGGTGGGAGTGGAGAGCTCCTAGTTCGTTCATTCACATATTCTTCAAGTATT
TCTTTTGGGTCTAGTGTGTGTACCATTCAGAGCCTTGAAGGATGAGCACAGGCTCTGGGGACACATACAGGGGAGAACAAGCAGCTCCTCCTCTCTGAGA
AGCCAGCAGAGGCTGGACAACCTTCTTACAAGGGTGCCACAGAAAGGACTCCTTTCTGGGAAGGGGAGCAGGACTGAGTTAGTTCTGAGGTCCCTCCCGG
CTTGGAGGTGCCATGATGTAACAATCCTGGGTCCTCAGCCTGCGGGCCAACAAGAGAAAGGGCAGTAGGTGTTGTGGCTCAGTCCTGGCTCTGCAACTTC
CCAGCTCTCTGACCGTGGGAAACTCCTTTAACTTCTCTGAGTCTCTGTTTCCTCACCTGTTGCCTGGGGATGATAATAATATCAGCAATGGCACTGAATG
CCACTCCCCAGCAGTGCCTGTAAGCGCTTTCCATATGTTAACTAATYCTCACAAAATTCTCAAGTGGGCACTGTCATCATCGTCATTTTATAGATAAGAA
AACAAAGGCMCAGAGAGGTTAAACAACTTGTCCAAGGTCACATGGCCAGTGAGTGGCAGAGCCAGGATGTAACCCAGTTTGGCCTTACTTCAAAGGGCAG
TTAGGGGCATTGAATGAGATTGTGTGTGCAAAGCATGTAACTAATACTGATTTGTGGTGAACATTCAGTTATGTTAACTGTCACCATTATCATCATCATC
AGTTTAAGGCTTTGTCCTGGGCCTGTGGACAGCCTCAAGCATCCCCAAACCTGCCATATGCAGGATGTCTGGGRAACAGTCTCTGGACCGTATTGGGAGA
AGGAGTTGAGAAAAGAGAAATTTACATYTGACTCATGGCTGAGTCAGGGCAGTCTTCCTGGAGGAGGGGCACCAATCAGACCCTTGAAGGATGAGGACAA
GCAAGTCTGTTGGGCCTCTCTATCTGTGGCAGTGGATTCAACTTTATCTTCTTGCCTTTCCATGAATTGGAGATGACCCAGGCATGGTATGGGGGCTTTT
CTTTCTTGAGCAGTGAGTCTTAGGATGGGGAAAGGGAAGGAAGGGTACCCTGGTGCACTGAGCCATGCACTGGGCGTCTGGTGGCTGATTAACTCCTCCC
TGCAACTGGAGGCAGGCTCAGCGGGATGGTGGTCTGACAAGTGCTATCCCACAGGGCTRTAGGGCTTGAACCCAGATCCCATCAAGTTCCACAGCCCAGG
TGGTTTGCTTGGTTCCACACAGCTCTTTCTCAAGGCTCAGGCATCAGCACAAACCTTAGCACAAAGTCTTGGTGCAGGAAGAAAGCTGCTTTCTTTTCTT
CTTCTTTTTTTTTTTTTTTTGTTGAAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAATACAGTGGTGCAATCTTGGCTTACTGCAGCCTGGACCTCCCC
AGGATCAAGCTATCCTCCCGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTGCACCACCATCCCCGACTAAGTTTTGCATGTTTTGTAGAGATGGGG
TTTTGCCATGTTGCCCGGGCTGGTCTTGAACTCCTGGGCTCAAGTGATCTGCCTGCCTGAGCCTCCCAAAGTGTTGGGATTACAGGTGAGAGCCACCGTG
TCTSGCCCAGTTTCATTCTTAATGGGCAAAATCAAAATCCCAGGATGACCTCTGGTGGGGAGGGCCATCCTCAGGGCCTCTGTCATTGGCCCAGTGGTAA
GAACAGACTGGACCCATTCCCACTGGGCTTTCCCATAACATGTGGAGATGCTTCCTGGAGTCTGTTGGGTTGTGGCTGCTCATGTGGCTGAGGGGCCCGY
GAAGCTGGTCACCTTTGGGATTCATCACAGRTGGGCTTGGAGAGCAGTCCCCAGGCTGGTTCAGTGAGACATCTCTGGGGTCTYACACGCCACTTCATTT
TTTAGTTGGGGAAACTGAGGCCTGGAGTGTGAAATGACTTGCTCAGGGTTACATAGTGAGTTAGGGACAGAGCTAAAACTAGAAACTAGGTCTTCCAATT
CAAACGAAGGATCTCTGACTATTGGTGAAGAAGAAACTGAGTCACAGAGGTGCTGAGACTCGCCTGGATTGGAGGTCCTGGTGGGGCTTGTGGCGCCTCT
GTGCTGGCAGACTTGGCTCTAAGGGCCCCAGAGCTCCAGGTGTTCTCAGATGCAYGGCTGTGTAAGCCCTGCAGTCAGAAGGTCCTGGAAGRGTCAGGTC
CCATCTGCATGGCTGCAGAGGGGCCCAGCGCACACAGCAGCCTAGAGGGCAGCTGAGTCTGTTCTCTAAGACACCTCGAAGAGGGGGCAACCTTGACCTG
AGCGGGTGCACAGCTCTCGCACCTCAGAATGACCTCAAGTAACAGCACATGGAAAAGACAGAAGGCAGGGAGCCCATCACTAAGGTATCCCGGGCAGGTG
TCTCCTAAGAGACCACACCTGGCAATGAGCCATGAAGCTCCTCTTTTCTCCAGCTCAGAGGTTCTCAACCCTGGMAGTGTGTTTCAATCACCTGGGGATC
CATAAAAAAATTGATGCCCAGGCCCCACCTTGGGAAACCTGATTCAACTCATCTGTGAARGGCCCCAGCACCCTAGGTTTTCAGGATCCGCTGGGGATGA
ATGTGCAGCTGGGGCTAAGAACCGCTGCCCTCACTGGGAAGACAAACAACTCATGTCACCCCTTTCTCTGCAGAGGCTGCCTAATGGAGCCAGGACTCCA
AGTTTTGGTCCTAGTTCTGTGGTCACTCACTATGTCATCTTGAGCAACTTTCTACTCAACCCTGGGCCTCAGTTTCCCCATATGGACCCTGAAGGGGTTG
GCATAGAACAGTGGGTTTCAATTTCCACTCATGGAGGCCTCTGAGTCCCCTCCCTGATTTGACAAAGCAGCTTCCATTCTGTCAACATCGGATTTTGTTT
GATGCGAGAGCTCTGACCTGCCTGTGCAGAGAGCTGGGCCCTTGGGGGGATTGGTGCATTTCTGCTCTTTTAAATAYGGGGGATTTGGAAAAAGGGTATA
CGGGGCTGCCACTTTCCAGTGGTGGGGTGGGGCAGGGCCACCCAGATTACAGTGGGACCRTGATTTCCTGAACCTGATTCTATTGATGAGGCTGGCAGCG
TCGGCGGATCTGGGATCCTCGCTGACTGGGGAGGGGCRGCTGGAACTGCCACCCAGAAACCCAGCTGCCTGGGTCTTGGTCTCCTCTGCCCCCACATCCC
AGCTCGGTGGAGACCTCGTTGGTCATCTTGTCAACCTTTCGGTGTTCAGCCATGGGGAACTTTCCCAWCAGTTTCTCAGCTCCTAAAATGTCTGATTTTG
TTCTCCCAGAAGTCCAGGCCCTGAGTCCATGAAGGGAGAAGATGGGTTTGGGTTTGCAGGCGAGTGGGGACAGAGCTGGCCATGAGTCCTGGCTCTGTCA
CTTGCTAGCTGTGTGACTTTGGGCAAATCACCTGCCGTCTCCAAGGCTCAGTATTCTCATCTGTAAAGTGGGGATAATAGCACACAAGTTATGTGGCTGT
GGGGGATACCTTCCTCACCAATGCCCCGTCTTCCTCCTCACCATTGAAGGGGGTGATACACGAGGGGGATGGGCTCACACTGAGTCAACTCTACACGGGC
TGGAGGGACCAGGCTCCAGCATTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGGGCTATCTTGGCTCACTGC
AACCTCCGCCTCCCAGGTTCAAGCAATTCCCTGCCTCAGCCTCCCTAGTAGCCGGGATTACAGGCATATGCCACCACGCCCGGCTAGTTTTGTATTTTTA
GTGGAGACGTGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCTCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCG
TGAGCCACTGCGCCTGGCCCACCAGGCTCCAGCATTTCTAAGACAACCTACTCTAAGCCGTGATTCTCAGATGTCAGCAAATATCAGAATGGCTTAAAAT
GCGGTTCCAAGGCCCCACCTGGAGCACTTCTAAGAATCTGCATTTTCAATAAGGTGGGTCTGAGGTTGGCTACTTTTAGGGAGGCCAACTGTTCCTGTTT
GTCTGGGACCTTGCAGGTTTTAGCACAGCAAATTCTGTATCCAGGAACAGCCTTAGTCCCAGCAAACTGATGCTGTTGGCCACCCTACCACATTTTACCC
CCAACTCACCATCTTAGGCTGGCTGTGCCAGAGGAGCAGTTGAGTTCTCCGGCTGGCTTGGGGGGTGTGGGGCTGGGAGAGCCCTGGACAGGCCTGTGCA
TGGAAGCCTCAGCGGCGAGGGTCCAAGGCCCTGAGCCCAGGACTGGACCAGAAGCACTGCCTAGAAAGCCCAGAAGCCAGCATGTGACAGCTCAGCCATG
CTGGCAGCTCGAGGTGGCCTGGAGAGGAAGGACTTTGTCCAGGTGAGGCTCCAGGTACTTCCCCTGTTCTCTAGGAAATGGGAAGCTAGATCCTCCYGTA
CCTGATGCAGGTTCTCCTCCCAGCAGCTGCCCCTCTCATTCTCCTAACACACAGCTTTCATGACAGGCATGAGCACTGGACTGGAAGTCAGCAGCCCTAC
CTTCTAGTCACTTATCTTCTGGGCCTCAGTTTCCCCATCAGTGAAATGAGGGCATGACTTTTGCTCATCCTGAGTGCTTTACCCACACTGGTTCCTTTCA
TCTTCTCCTCATCCCCACCAGATAGATGTCGATGCTGCGGCTGAGGGAGGCAGTSACTCGCTCAAAGTCACACACCTAATGAGTGGTGGGACTGGGATTT
GAACCCAGTTGTCTGGCCCCAGGGACCACAGGCTCAAGTACCTTGCCACGGCTCCATCATGTTGCCCCTCCTGATCAAGAACCAGCGCTGGCTCCCCATT
ACATAGGGATGAAATGAAAACAAGCTCATTATAGCCTGAGTCTAAACTAGACCTCTTAAGGTTCCACGGTGAAAACACCTTCCCCTCACTTGTGTCTCCT
CTTGGTGCCTTCCCTGGGGAACCTGCCCCAGCCACCCAGCCCACTGTCTCATCCTGCCTCCAGACCCGTTTCCTGCACCCTCATTTACTTTAATAACTCC
TTCCCTGTCCTGGGCCAATGGTGTTGCAAGCCTTTCCTGTCTATTATCACACTTGAGTTTCATGATTGCCCATGAGGTTGGCCAAGTAGGTGTCATTATC
CCACTTTAAGGTGAGGTTAATGGGCCCAGAGAGACTAAGTGATTTAGTCAAGCTCAGCTGGCCGATGTGTGACCCAGCCTGGTCTAAAACCTAATTCTTG
ACTCTGGTCCCAGCACCACCYGAGCCCTCGGCTTGCRGCCCCTCCCTTCCCCAACCTCAGATGTAGCTTGTTYACCTGTGCTAAGCCCTTGTTCAGACCG
TGGTCCTGGGGACCCTCCTGGGCAGGGGTGCTTCAGTCTTCACTGGGGATCCCCCAGCATCTCACACAGAGCCTGGCACATGGAGAGGCAGGGGCGCTGG
GCTGAAACACCCTACACCCAGGGGCTGGAGCCTGGGRACTGAGTGGGGTTTTCATACCAGAAGGACCATCAAGGGCGCTCAGCCCTTGCCCATGGACACT
GGAGGCCCAAGGAACAGCTTTGGGGTTGAGGGAGTTCCATAAAAAGTGTACAGGCTTCAGCCAGGCGCGGTGGCTCRCGCCTGTAATCCCAGCTGGGAGG
CTGAGGCAGGCGGATCACTTGAGGTCAGGAGTTCAAGACCAGTCTGGCCAATATGGTGAAACCCTGTTTCTACTGAAAATACAAAAATTAGCCGGACACG
GTGGTGGGCTGTGTTGTCCCAGCTGCTTGGGAGGCTGAGGCATGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAGATTGCACCACTGC
ACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGCTTCCTTGGGAGATGGAAGGCGRGTGCCTCAGGAG
CGTGGCTGAGGGTGTTCCCGAGGGTATGAGAGGCTGCTCTTCCTACCTGGGTTTGTCTTCCTGTGTCTCTTTCCGACTCCCTGTCTCTGACTCTCCATCT
CGCTGGGTCTCTCCAAGTCTCTCTGTCCCTATCTCTCTGTCTCTGTGTCTTCATGCCTCTCTCCCTGGTTCTGCCATTTCCCCTGTGGGGGGCTGCCCAG
GGCCAAACAGGCCAGAGGGCTCCACCAGCCCTGGAAATTACAGGCTTTGGGAGTAGGGTTGCCAGATAAAATAAAAGATGCCTAGTTAAAATTGAATTTC
AGGTAAATAATTAATAATTTTTTTAGTATAAGTGTATCCCAAATACTTCACGGGAGTACCAAACAATGATTGACTGTTCACTTGAAATTCAAGTCCAACT
GAGCTTTCTGTATTTTTATTTGCTAAGTCTGGCAGCCCTGCTTAGGAGGAGAAACAGGTGTGTCTGTCCCTCCCAACTGGTGAGGACACCTGACAGGGGC
CCAGACACCAGAGTGGGACCTGCCTGATGGAGAGAAGCTTGGGCTTGGTTTATTTCCCTTTTCATAAAAAAGCTGCTTTGAGATGTAAGAGAATCATGTT
GGTGGAAGAGTGAAGAGGTTGTTTTGGGGGAGGTCTGCCTTACTCTGAGGGAAGATGGGAAGCGGGGGGAGTGGCCAGCTGTGGAAATTTGGGGTAGTCC
CCTACGTATCCTGTGCCTCAGTTTCCCCATGTGTAAACAGGAGTAATTATCTCATCCTGGGGCTGCAGTGAGGATCAGATGAGCTAATGTACAAAAAGGC
TTAGGCAGGCCTGCCGTGATAAGAGTGCAGAGGCTGGGGGCTTTTTATGTTATGGTATTGTTGTTATTATTACTCCTGGGGAGGTGGTGGGCAAGAGTGT
GGACTGAGGAGCCACATGGCTGGGTTTGGATCCCAGCCCGGCCACAGACCTTGGGCAAGTTACTTAACCTCGGCTTTCTCATCTGTATAATGGGAGACAA
TAATAGATAGTGCCTCCCTTCTAGGGTTATTGAGAGGATTGCATGATGGGCTGGCACACAGCATGAGCTCAGTAAGTGTCAGTCACTGTTATCCCCCAGG
GGCATGCATGCCGCTGCCTCCAGGAGGCCCTCCAACTCGCAGTGGCCTCTCCCTACATGGGTTCCCACTGAGCTGTGATCCTGTGGCCTTGAGCCCCATC
TGGCTGCCCTGGACAATGTTGGTCCTCAGCTCCCCAGCGGGATCAACAGTGGGGAGAGCAGTGGGTGGATCTGCCCGCCAGGCAGTACCTGAGTGCACAG
TGGGCACCCCACAGTCAAAGGATGCATAGTCTGGTTTCCAAGGAGGAACCCCAGGCTAGGTGGAATGAGGGAAATGCAATCTCAGGGCCAGATAACATCA
CAGATACTTTAAACCTGCAATTAATTTCTGGTTGTTTGACCAAATCCGGCCAAGTTTCCCGGGTGACACTGCAGAGCTGTGGAACAGCATGGGCTTGGAG
TCAGACCTGTTGCACATCTGGCTCTGCCATGTGATGCAACCTCAGGCTTGTCACGAGGCCTCCTTGAGCCTCAGTTGCTAATATGCCAAATGGGGATGAT
ATTGCTCACCTTACAGCTTGTAAGAGTGGAGGGAGCTGCGTGCGCCAGGTGCCTGGCATGCAGCGGGCACTCAACCAGATTGAATTCCCTTCCCAGGGAA
GAATTCAAGGATATCTTCCCACCCACTAAGGAGACATGTGATGGGATCTGGGGTGAGAATTGCTCTTTTTAAAGCTCTCAGAACTGTAAGGGGCTCCACC
CACCAATGGCTGGTGTTCACTGAGCTCTTCGTGCCCAGACCTGCACTGGGGATTTATCGAGCACATGGCTGGCTTCTGACTTCCGAAGAGCTCGCCATTC
TGGTGAGTGGTAAAGAAACTCACAAGGGAAATGTTAATGAACACAGGGGCTTAGAACATCAGACTGTGTGTATGTTTTTTTGTTTTGTTTTGAAACAGGG
TCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCCA
GTAGCTGGGATTACAGGCATATGCTACCACGCCTGGCTATTTTCTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTCGACCTCAAGTG
ATCCGCCCGCCTCGGCTTCCCAAAGTGCCTGACCTCAAGTGATCCMTCCGCCTCGGCTTCCCAAAGTGCTGGGATTAAAGGAGTGAGTCACCACGCCCGG
CCGACTGTGTATATGTTTGTGTGGGGTCCAGGCTTGACTCGCAGGAGCTTACTGTGAGGATCTGAGGGGACTGGGTGGCCAAGGAAAGCTTCCTGGAGGA
AGCAGGGCTTGAGCCAAARCTCAAACATCTGAGCAAAATATATCTCCTTCGGCACCGACCATGGCTCTCTGCCCTGCCCAGGTCAGTGCCTGAGGGCACA
GAAATGTTTGAGGTCTATGGGACGCCTGGCGTGGACATCTACRTCTCTCCCAACATGGAGAGGGGCCGGGAGCGTGCAGACACCAGGCGGTGGCGCTTTG
ACGCGACTTTGGAGATCATCGTGGTCATGAACTCCCCCAGCAATGACCTCAACGACAGCCATGTGAGCTGGTCCCTGGTGGGGTGGGGAGAGGTTTCGAG
GGAGGCAGCTGTCTAGCTCTAGGAGGGCCCAACATTCTCTTTCTCCAGAGCGCAGGGCAACACAGTGGGTAAGTGCCTGGCCTTGGAGCCATACTGCTGA
TTTTGAATCCCAGCTCTGCAAGTTACAGACACATACCATGTGTCCTTGGAAAGCCTTATCATCCCCTTGGGGCCTCTGTCTGCCATCTGTAAAATGGGAT
AATCATAACCCCTGYCTCCTATCATTGCTGTGGAGTGCCATAGGAGCCAGTGTTGCTCCTTCTCTTGCTTCCCAAGACCCCCTGGAGAAGGAGTTGTCCC
AGTTCTGCTGAGTTGGGTCTCAGTTTCCCCACATGTAGGCTGAGGGTTGACTAGGGGATCTYTGCCACTTTGAATGAAAGAGAGAAAGCAGGGACAGGGG
AGGGACACCGGTGCCTGGGAAGACCCCCTTCCTAGGTGACAGCATTTCCCCAAGGCGCTTTGCTGTCCGTAATCCACTCTCTTCCTGACCCTATTTGCAG
GGTAGGGGACATTTAACACATGGGAGAAATGGGTGGCCTTTAAGCTTGGCACAGGTGATGTTTGCTTCGAGGGCTGATAGGGACCAGGACTTGGAGTGTG
GGAGTAGTGGGATCCACTCCATGTCAGGAGCGATGTTTCAGAAACTGGCCCTTTAAGGAGCACTGACCACGTGCCAGGTACTGGGCAGCCATGACCTCAT
CCAGCCCTCACAGCAGCCCAGAGAGGTGGGGGACTGATGCCCATTTCGCAGATGGGGCAACTGAGGTTCAGAGTAACTGTCCCGGGACCGCACACTAATG
GTCAGGAGAGCTAGAATTCAGTGCAGACCCCTGGGGGCAGTCTCCCTCCATCACCCCCACCTCTGTTCCCAGCCATGCATCCATGAGGCACTTGGGGCAG
GACCCAATGAACCCATTTAATAGGCAAGAAAACTAAGAAGGAGAAGGGGTGGCTTTCCTGAAGTCACATGATCTAGCGAGCGGCAGAGCTGGTGAGAGTC
AGGACAGAGTCCCAGGGGTAGTGCAAGAGGACTGGCCAGCCTGTGAGGGGCCCCACCTTGGTGCCGGTTGAAGTGGCGATGGTGTGGGTACCCCCACCTT
GAATTCCTTGGCCATGATGGCTGGTGGGATGGAGGAAGTTCAGAGTCTCTCCCACTCTTTCCCTCACCCGCCATATACCCCTGCTCCCTATCCTGCCTTT
GGCCAGGATCCCAGTAATTGTATGTTTGAGGCAAGCATCACTGCTGGTGATTGACACATGGAGGTCAGTAATTGCAGGATTTAGGGGCTCCCAGGACTAC
AGAGGTGAGTGGCCCCTGCAAGATCCTCCCCTCTGGCTGAGATTCGGACATGAGAAGCAGAGAGTTGAGACACCCATGTCAGGAGGGAATACCCCAAGGG
GAGGGTCATGCTTTAAAGGGAACTTGGATGCCTTGGATTCATCTGCCTCCAACTAAATATCATCCACGCCATCTTCATCCTCACCCTGTAACAGTTCTTG
AGTGCTCGCTGTGGGCCGGGCACCGAGCTGCATGTGCCCCATACATGACTCCTTTCATCTTCACAGCCTCTAATTAGTCCTAAGGGGTAGGAACTATTAT
TATCCCCACTTTACAGTTGAGGAAATTGAGGCCCAGAGAAGATCAGTAACTTTTCCTGGGATATTCAAAAGTGGGGGATTCAGAATCTGGGCCCAGGCCA
TCTGACCTCAGAGCCCTGCATTTAACCAGCCCCCACCCCACAAGATGCCACCTGCCCACTGATAACAGTAGCTAGTATTTCTTGGGCACTTCCTATGGGC
TCAGTCTTTTACATGTATTGTTTCCAAGCTGCATTACAAGCCTCTGAGGTAGAGACCTATAGAGGTAGAGRCCTTTTCCCATTTTGCAGAGGAGAAAACT
GAGGTGGCTCAGGTAGGTGAGAGGCCTTGGCCAAGGTCATAGAGTACCCAGAGGTGCCGGGCTCAAGCCCGGGCCTGTCTGAGTCCCACAGACAAGAATG
TTGGCTTGGAGAGTGTCCCCAAACCCTGCCCAGCCCAAACCCTTTATTTTACAAATGGCAAAACTGAGACCCAAAGGGGAGCAAGAGCTTGTCAAAAATC
ACAGAGTAGGTTATTGGAGGGACTGGGACCCAAGTCTCTTGAGAAGCTCTCACAAATAGCTCCCATTTTACAGATATGCCAACCAAGACACAGAAAAATA
AATGGCACAGAGGAGGTTAAAGAAAGAGCAAGGTTCCTTGGGCCCCCTCCCCTCCTTACCAGATCCCCGAGAGCTATCTTTTGGGGCGGGAGCTCTTGGC
TTCTGCTGGTATTACTCTGCRCCCAACTCTCCACAGGTTCAGATTTCCTACCACTCCAGCCATGAGCCTCTGCCCCTGGCCTATGCGGTGCTCTACCTCA
CCTGTGTTGGTAAGTTGGGGGCCATGTTGATGGTGTGGCCAAGGGCACATTTGAAAAATTCAAGCAGTACAAAAGAGTATACGTTGAAAATTAAACCTCC
TTCCCTCCAACTCAAGACTTCTAGTTCCCCAAACCCAGCATTTTTCTAGAGATACGCTGTGCTTATATATGAAAGCACATACATACCTGTATATCCCCCC
TCTTTTGTAAGCAAATTGAAGCATACTATAGACATGGAACTGGACCTTGCTTTTGCCAGCTTAAAGTTTTTCTGCTAAGCCTCCACAAATGGATACATAA
ACTCCGTGCAAGATGGCTCAGATGTTGGAGCTATCAGACAGGGCATGCAAAGTAATMGTGATTAATATGTTAAGGGTTCTAGTGGAAAAGGTAGACAATA
TGTATGAACAGATGGGGAATTTCAACAGAGAAGAAAATCAATAAGAAAGAGTCAAATGGAAATGCTAGACATAAAAACCATAGTAATAAGAGATTTTAAA
ARTGCTTTTGAAGGTTTCACCAGTAGACTTGACACAGCTGAGKAAAGAATCAGTGAACTTGAAGATAAGTGAATAAAAGTTACCCAAACTGAAACCCAAA
GAGAAAAAAGAATAAAACAAACAAATGAAAAAACATAACAGATCTAAGAGCTCTGTGACAGTATCAAACAGTCTAAATTCAATGAAATTCCTATAGAAAT
TCCAACGTGGCTTTTTTKTTTGTTTGTTTGTTTGTTTTAAGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTCAGCTCACCGCAAC
CTCCGCCTCCTGGGTTCAAACGATTCTCCTACCTCAGCCTCCTGAGTAGCTGCAATTACAGACACATGCCTCCACGCCCAGCTACTTTTGTATTTTTAGT
AGAGACAGGGTTTCTCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGATGATCTGCCTGCCTCGGCATCCCAAAGTGCTGGGATTACAGGCATG
AGCCACTGTGCCCAGCCCCAACATGGCTTTTTAATATAACTTTACAGAGCTGATCCTAAAATTTGTATGGAAAAGCAAAGGTCAAGAATAGCTAAGACAA
TTTTGATGAAGAATAAGGTTGAGGGATTCACAATTCCAAATATCAAGACTTTTTTTTCAAGCTATAGTACTTGAGGCATTGTGAAATTGGTATAGAGCAA
TAGAGCAAATAGAGAACCCATAGACAGACCCATGCTTGTGTGGTTATCATGTGGCAATAAATGAACTTGGAGCCCTACCTCACACCATACTCAAAAATAA
ACTTCAAGTCAGTTAAAAATCTTAAGGTGAAAATCAAAATTGTAAAGCTTTTAGAAAAGAATATCTTTGTACCCTCAAAATAGTAAAGATTTTCTTTAAC
AAGGCAAAACAAAAGTGCAAAGACCATAAGGGGAAAGATTGCTAAATTAGACTGTATTAAAATTAAAAATTTATATGCAACAGACAACAAGTAAAAAGTC
AAACTGTGAACTAGGAGAAGAAATCTGCAATGCATACGGCTGACTTGGTGCATATAGAATATGAAGAACTCCAATCAATAAGAAAAGGACAAAAATAATA
GAAATGGGCAAAAACATGAATAAACAATTCACAGAAGAGAAAGTCCCAGTGATCAAAACCCAAATTAAAAGATGCCTAAATGAGCATTGCCAAGGTTGTG
GAGCTGGGAAACTCCTTACAAAGGAGTGGGTGGGAGTTTGCTTTGGCTCACACACTTGAGAAGCAATTAGCAAAGAAGTTGAAAATGCTTTATCTGTAGG
AGGCATTTTTTAGAAGCAGAACTTCTAGGTYATAGAGAATCTATATTTTTTAACTTGATAGATATTGCCAAACTGCTCTCCAAAAACACTGTATCAGTAT
ACATGTCTGCCAACTGCATATATGCTTTGCCAACACTGCATTAGCAACTTTTTCCCTTTTTGCCAATCAGTTGGCATTGCACTGTGGTTTTACTTTGCCT
TTCTTTAGTTAGGAGTGAGGTTGGGCATTCCCCATCTGCAGCCCAAATACATACACACATGATCATTGGAAAATAACATAGACAGAAAAGTACATAAAGC
TTTATTTTACATACATATGTGCATAAAGCATATGTACACACACACACACACACACACACACACACACGAATAATTACAAAGCAAATCAAAGAATAGCTCA
GAAAATAAACCCAAGAGTAGCCCAAGAAATGAAACACTACCAGAACCCCAAAGTCCCCCTCAATGTCCGTCTCTGATCATAACTCCCTCCTTCTCCTACA
GGTAACCACTATCTTGTGATAAGTATTTTCTTGCTTCTCCTCATGGTTTTATCTCTTGAACGCAATACCCAAATAACATGGTCTCRTTTTATCATCTGAT
TTTCTGTGGATGCAGTCATATCATGTATGTTCTTTTGCGTTGGGCGTCTTTTGCCCTATGCTATGTTTGTGAGATTTATCCACTTGTTGCATGGTGGTTG
AGTATCTTTTCACATGTTTAAAAATCATTTCAGGCCACGCRTGGTGGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCTGGGGTGGGTGGATCACTTGA
GCCCAGTAGTTCAAGACCAGCCTAGGCAACATGGTGAAATCCTGCCTCTATGAAAGATACAAAAATTAGTTGGGCATGGTGGCATGCACCAGTAGTCCCA
GCCTCAGGAGGCTGAAGTGGGAGGATTACTTGAGCCCAGGAGGCAGAGGTTGCAGTGAGCCATGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGAC
CCTGTCTTGTCTCAAAAAAAAAAAAAAAAATCCTATCTAATGTATTCTTTCTTCTCTCCCTCCCTGCCCCTCACTGCTTCTTCTTTAAGAACTAAGAAGA
CTGCTTTTTTTTCAGAGCAGAAAGATTGATTCTGACCTCCTGAATGCTCCATTTGCATTATGAAATCTCACCCAGTGTCTAGGGCTAAAYGTTAAGAAGG
TGGGATGGGGGTGGGATTTGGGGACTGCGAGTAGCTCAGAAAGGACACACAGCCAGGAGGCGGCAGAACCTGGGTTTGTGTTCACATCTGTTTGACACCA
AAGTCCAGGCTTGCTACCCCATTCCAAGGAGATGAGGCAGCTTTATATAGACAAGAATGTTCCTGGAGACCTGGGCTCAGTTCAGGGCATGCCTGGGACT
GCAAGGGCTGCAGGGATGCAGATAGGAAGTGGTCAGGGAAGTCTCCCTAGAGGGGGCAGCATTTGTCCTGGGCCTTTGCTGTGACCCTGCTTCTTGCCTC
AGGCCTCTTTCCCCAGCCCAGAGGGTGCAGATGCCCTCACCTCTTGGATGGTGTCTCCTTAGAAATGACTTGCCTTTGCTCAGCCCCAGACAAGCCCTGA
GATCAAGGCCTGCCCTGGGCTCCTGGGAACCYTGTAGTGACTTACCCTCTGCCTCCTCTTGCAGACATCTCTCTGGATTGCGACCTGAACTGTGAGGGAA
GGCAGGACAGGAACTTTGTAGACAAGGTAAGCATCTCTGCCTGGGCCCAGGAAGCAGGAGTGCAGTTGGAGCTTGCTCTAGGTTGGGTTAAGAAGGATGA
GGCCATTACAGATATCCCCCTGCCTCCCAGCTGAYGCCGARACCAAGGGCCAAAAACAGAAACCAGGCATGGCTGGGGATCTTCTTTCACCAGGAGAAAA
ATCATCGCCAGGAATTATCAGGCATGGAGGTACCCAGCCCTGAGCTAGGCCTTGGTTTGTGGGATCAAGACCTTCTGGACTCAYAAACTAGGTCAGGAGT
GGGCAAACTTTTTCCGTGAAAAGTCACATAGCAAGTATTTTAGGCTTTGTGGGACATATGGTCTCAATTCTGCCACTATAGTGTGAAAGCAGCCACAGTT
AATACAGAAATGGATGGATGTGACTGTGTGCTAATAAAACTTTATTTATACAAACAGGCAGTAGGCCAGATTTGGCCCACAGTTCATAATGTGCTGATCC
TGACCTAGGCGAGAAGAGAAACCAAATATGAAACTGTTGAAGAACTTGGGACTGAATTATGTTGGAACTTGGTGCCCTGGGAGTTAAGAGGAGAAGGTCG
AGGTGGGCTGGGTGGGTGAGGAAGGCTTCCTGGAGGGACGTACCCTTGAGCTGAGCTCTGAAGGGGTGCAGGAGGGAGGACGTTCCAGGTGCAGGGAATG
GCAGGAGCAAAACCAAGGAGGGTTTAATGGAGGAATGAGCACAGAGTGAGGCGTGTGGTCCTATAATCAGGTTGCCTATTGAGAAAGAGGATGTTGGCTG
AAGGCCCATCACAGATAGCCATGAAAGACAGCTCTGTGCTTTGGACTGGATGGTGTGGGCAACAGAGAGCCATTGCCATTGACATGTCTTGAGAAGGAGG
TGCTTCGAGAACGTGGACCTAGCCTCACAGGGTTGGGTGGTTACAGGCCAGGCTSGGGTTCCTGGGTAGGGAGGCACAGGTCTCATCTGAGCCCTCATCA
CTGGCTATGTTTTGTCATTGGCAGCGGCAGTGGGTCTGGGGGCCCAGTGGGTATGGCGGCATCTTGCTGGTGAACTGTGACCGTGATGATCCGAGCTGTG
ATGTCCAGGACAATTGTGACCAGCACRTGCACTGCCTGCAAGGTGAGGCCGGGGCAGCCTGAGTCCCTGGGTGTCCAGGGTCACTGCTCAGTTACCCCAT
GGGAGTTCCAACCCACAGGCGAGACTCTGAGGCCAGAGTCCAGGGGAGAGCGCCAGCCTCCAGACACACCTCGATGCTCCTCAAAACCCATCTCAGGCTG
GCAGCTGCCCCTCCCTAGTGTCTCTAGGGCCAGTGARCACTCACATGCCAGGGCAGAAGCTCTGGAAATGAGCCACCTCGCCATTCTCTTCCTCCAGGGG
AGCAGAGGATGCTAGCATTATTTGAGCACCTACTGTGTGCCAGGCCTTTTCCCCAAATTCTCATTGAATCATCCAAGTGGGACAATATCATCACCCCAAT
TTAGAGATGAGGATGCTGAGACTCAGAAGCCAGGAGACTCCCTGAAGACTGTGTCTGATCTGGGGCCTCCCCTCTCAACCCCAAATCTGGGCCTCCTCCT
TCAGCACCTCTGGCCTACATTTCTGTGACTCCCCCACCTCTTGCTAAGTCCATCTGTCCTGAATTCCAGCCCCATGGAGAATGAGCTGCAATATTCCAGG
GTATGCTAGGTGCTGTCCACGGGAGATGCCCACGGTTGCCTTCTGAAGTGGGCACCATTGGACATGGGGATGCTGGGGCTCCAGAAGGGAGGGGCTTGTC
CAGGGTCACAGGGAGTGATGCTGGGATGGAGGCCAGAACCCTTACCTGCACGACGCCCACATGGCCTTACCCTCCTTGCTTCTCTGGAGCACCTGTTGTG
TGTCAGACACCAGCTGGCTATGCCACACTTCATGTTTCTCTGGSCAATTGAGGAAACATGAGTCCAGGAGAGCATAGATGTCTTCATGGTTTGTTCTTGA
TGGCTTCCAGGGTTTTCACAAAGCTAGGGCTGGGAGACCCAGGTCTTGATACCCACTGACCTGGGGAGGGAGCYGGGCAGCAGAGGAAGGGGCCAGGGGC
CAGGACTCCCTTGAGTCACTACCACTCTGTCTGGCTTCACAGACCTGGAAGACATGTCTGTCATGGTCCTGCGGACGCAGGGCCCTGCAGCCCTCTTTGA
TGACCACAAACTTGTCCTCCATACCTCCAGCTATGATGCCAAACGGGCACAGGTCTTCCACATCTGCGGTGAGTTTGTGCCACTGCCCCTTGCCATCTGT
GCCCTGTTGCCAGGTTGCCTACCAGGGAACCTCCTGTTCCTGCCTTGGGCCATGGGCAGGTCCTGCTTACACTCCGGGAGATGCCCTGGTGGGTGGCGGG
TCRCAGTAAGAACAGTCAGAAGTGGGGGCTTTGGAACTGATGAACTGGTGCCCCCRGCACAACACCTGGCCTGAGGTCATTTTATTTGATGAATGACCTT
TTCAAATACATTTTAAGCATGTGTAGAAATTCTTATCAAAAATTTCAAACATACACAAAAAGCAGTGCTGTGAATCCCCATGTGCCTGTCACTCAGATTA
AACAATTATCACTGTTTTGTCTGTCTCGCTGAAGTTTTGTAAAACCAACCCCAAACACCATAGATTTCACCCAATTAATTCAGTTTGTATTCCCCCCAAA
TATAGATGGCTGTTGTTTTACATAGTCTGCCAAAATCACAAGAAATACAAGTAAAAATCTAAATGCCTTTGAGAAACTAAAAATGTATACAAGTAATAAG
ATGCTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGCTCAGGCTGGAGTACAGTGGCGTGACCTCGGGTCACTGCAACCTCCACCT
CCTGGGTTCTGGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGTGACTGCAGGCATGTGCCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGAC
AGGGTTTCATTGTCTTAGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCG
TRCCTGGCCGCTTATTTTTTAAATAATCAGACAATATGGAAGTATAGAAAATGAAACCTGAGAGTTCTCTACCCGTCTCTAAATCTGACTTTTTTTTTTT
TTTTTTGAGTCAAGGTCTTGCTCTGTTGCCCGGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAGCCTCCACCTTTCAGGCTCAAGCAATCCTTCC
ACCTTAGCCTCACGAGTAGCTGGGACTACAGGCATGTACCACCACACCCTGCTAATTTTTTTTTTTTTGTAAAGACAGGGTTTCACCATGCTGCCCAGGC
TGGTCGTGAACTCCTGGGCTCAAGCAATCCACCCGMTTTGGCCTCTCAAAGTACTAGGATTATAGGCGTGAGACGCCGCACCTGGCCTGAATCTGATTGT
CACTGTTAACGAGTTGGGATGTGTGCTTCCCAACTTTATTCTACATGTTCTCCAGCGTGTGTCCATATGCTGCTTTCCAACCGGCTTCTTTCATTAAGTA
ATAATCCCACACACCTTTYCTGGTATTTATTGAGCTCTACTTCATTCTTTTCCACTGCTGTATAATATTCCTAAGCATAGAGGTGCTGTGACTTACACAG
TTCTCTGAACATCATAGTGGTTTGCAGTGTTTTGATTTTATAACAATGCAGGTTGCTTGAGGTCAGGGGCTTTGTTCAAGTCCAKAACCGTGCCCCATGG
GTGCACTGTAGTTGCACAGTAAATATTTGATGAATTAATGAATATCGAGCACTCTTGTACAGAAATATTATGTGACTTTGTACCTATTATTGTTTGTTTG
TTGTTGTTGTTTTGTTTTTTGTTGGTTTTGGTTTTTTTTGAGATGGATTCTCGCTCCATGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCA
ACCTCCGCCTCCTGGGTTCAAGCAATCCTCCTGCCTAAGCCTCCTGAGTAGCTGGGATTATAGGTGTGCACCACCACCGCCCGGCTAATTTTTGTATTTT
TAGTAGAGACAGGGTTTCACTATGTTAGCCAGGCTGGTCTTGAACTCCTAACTTCAGGTGATCCACCGCCTTCGGTCTCCCAAAGTGCTGTGATTACAGA
CATGAGCCACCGTGCCCAGCCTGTAGATGTATTTTTGTAGGAAAGATACCTAGCAGTGGAATTGCTGGGCTTGGGGTAAACATTACTTTGTTGGATGCTG
CCAAATTGTGCTCCAAAAAGGTATGAGCGCCAGTCTTAGAAAGGAAGACCCTTTCCCCCAGCCGTGGCCCCCACTGTGTATTACCTGTCCTCTCCTTTGC
CAGTGGAGGTGAAAGGAGGGAGTTGTTGGAGGACTTGGAATTTTTGGTGAGGCTGCAGACCTCTTCCTGTGTCCCTCATACTCATGCTCCCTGGGCCCAC
AGGGAGTCACAGCCACCCCGTCCCTCCCCTTCCAGGTCCTGAGGATGTGTGTGAGGCCTATAGGCATGTGCTGGGCCAARATAAGGTGTCCTATGAGGTA
CCCCGCTTGCATGGGGATGAGGAGCGCTTCTTCGTGGAAGGCCTGTCCTTCCCTGATGCCGGCTTCACAGGACTCATCTCCTTCCATGTCACTCTGCTGG
ACGACTCCAACGAGGTAGGGACAGAGGGGGTTCAAGAGGAGCTCCACTCGGGACCAGCCTGGGCAACATGGTGAAACCCCATCTCTACAAAAAAAAAAAA
AAATAGCGAGGTATAGTGGTGTACACCTATAGTCCCAGTTACTTGGGAGGCTGAGGTGGGAGGATCACCTGAACCCCAGGGAGGTTGAGGTTGCARTGAG
CCATGATCACCCCACTGCACTCCACAGCCTGGGCAACAAAGTAAGACCCTGTCTCCAAAAAATAATAATAATAAAGGGCAGTGGGGAGGRCTCCATTCCT
GGTAAGTCTACCAGGCACCACTGGTGTGAAAGACCCCAGACTTCTTGACCACCCCTCTGGTTCATTTCCATCTTGCAGAGAAGCAAGGGGTTTTCTTATG
GACCACAGTGGTGGAATCAGAGTCCCCCCAGGCCTCTGGACTCCAAGTCCAGTGCTCTTTCTCCCCTGGTCTGCCCCTGCAGGATTTCTCGGCATCCCCT
ATCTTCACTGACACTGTGGTGTTCCGAGTGGCACCCTGGATCATGACGCCCAGCACTCTGCCACCCCTAGAGGTGTATGTGTGCCGGTGAGTCTTGGGGC
AGTGGGTGGTCCCTCTGGCCCCCAGGCCCCGGCTCCATCCTGAGCCCCTCTTCCCTGGGCTTGTCCGTAGTGTGAGGAACAACACGTRTTTTGTGGATGC
GGTGGCAGAGCTGGCCAGGAAGGCCGGCTGCAAGCTGACCATCTGCCCACAGGCCGAGAACCGYAACGACCGCTGGATCCAGGTAACCACAGCCACTGGG
CAGGGCCCAGCAAGGACGCCATCCTGGAGRGAGAGGCCTTCATTTGGGGGCCAYCGAGAAACATCCAGGAGGACCTGGGTGCTCCCCAGGGAACTTGCTG
CCGTTTCTAATGTGAGACCTAGAGGCTTCTCTCCAGAACCTTCTGGAGACCCACGCTGATCCTGGATTCAACACCCATTCACCCACCGGATCTGGGCTAG
GCACTAGGCTAGGCCCACAGGGGTGGCACAGGTGTGAGACACACACTCCCTGCCCTCAACAGCTGAGACCAGTGGTTCTCATCAAGAGGCGATGTGTCCC
CAGGAGACGTTTTGCAGTATCTGCAGACAGTGCGCAGGACAAGCCCCCACAATAACATATCATCCAGTCCCACGCCTCAGTAGTGTCGAGGCTGAGAAAC
CTTGATGTGCAGAATGATTGCTACAAAAATACCTACTCCTACTATCTAGTGTGTAGCTGGGGCAACATGGTGAAACCCTGTCTCTGCAAAAAAGTTAAAA
AATTAGCAGGGCATGGTGGCGTGTGTCTGTAGTCCCAGCTACTCTGGAGGCTGAGGTCAGAGGATCACCTGAGTTTAGGAAGGTCAAGGCTGCAGAGAGC
TGTGATTGTGCCACTGCACTCCAGCCTCAGCAACAACAACAAAAAAAAAAAAAAAAAAARAGAGAGAGAGAGAGAGAAAAAGAAATATCTAGGGTGCAGA
GGCTATACCAGCAAAGCACCAGTAGGGTTTGGGGGATGCAGCATCACCTCTGCCCAGGGAATCAGTGAAGACCTCCAGGAGGGAGAGCATCTGAGCTGGA
CCAGATTTGGCAGATGAGGGCACATGACTTCTGCCATTTATGCCCCATTTTCTGCAGGCCAGGCATAGCATCATTTCATCTTCTTGATAACCCCCTGTAA
GTCCCCCATAATTCAGGAGCTCTTAGGGGAGCATGACTGGGCCACAGAGCTGGTAAAGGCAGTGCTAGGACTCAGGCTGCCAAGCACCAGGCTGTACAGG
TTGGTGGTCCTGGCAGAGACCGAGCATGCGCAAAGGCCCGGGGGTGGGAGGCAGGAGAGAGAACCTTGTGTGTTCTCCTCTGTCAGGGCACTGGTTCTGA
GAAAGGCAAGGGTTGAGGTCGGAGACCTTGAATTCCAAGTTAAGGAGCTTTCCTCTTGGCCGGAGGTCAGTCCAGTGAGAGGGTTTGGGGCAGGACTCTG
GGGCACGATGGGCTGGGTTTAGAGCCTGGCTGTGCCACCAACTAACTAGCTGTGAGCTTTGGGACAAATATTTTTTAATTTTTATTTATTTTTTTAAATT
AATATATTTTGAATTTATTTTTCTTTTTGGAGACAGTGTCTCTCTGTCACCCTGGTTGGAGTGCCATGGCATGATCACAGCTCACTGGCAGCCTGGAACT
CCTGGGTTCAAGTGATCCTTCTGCCTCAGTCTCCCGAGTAGCTGAGACCACAGGTGCRGCCACCAGGCTCAGCTAATTTTTTGTAGAGATGGGGTCTTGC
CATGTTGCCCAGGGTTGTCTCAAACTCCTGGCCTCAAGCAATCCTCCCGCCTCACCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGTGCCCGGA
CTGGATAAATAATTAGACCTCTTAGTTCCTCATTTTCCTCATCTGTCACATGGGATAATTATGGTGCCCACGCCCAGGCATGTCATGAGGATGAATGGAG
TTAATGTTTATAAAGAGTTTAGGGCAGGACCTGGATGTGAAGTTCATTCACAYTGGGCCATCTTTTCCTCCAGAACCAGAGGGGTCAGGACTGACCTGGG
CACATTTATGGATCCAACTCAGGCCACTGTGAGKGCTTCTCTGTGTCCACCTGCCTTGGCCCAGTACTCACAGGGACACCCCCAAGGTCATGTCCATGTT
CTCGTTCACCTCCGGCCTCTGTCTTGCTGTGTGACCTTAGACAAGTGCACCCCCTCCTTGAGCCTCCAGCCCCTCCTCCAGTCAGCAGGCACCCTGACCT
CGGTCCTGTCCGCCTCCAAGCACAAAACATGCTTGGGCCAGGGGACTTGGTGAGCAGTCTGCCCCACAGGGCTCAGAGCCGAGCCAGCAGGGGCAGCTGT
TGACTGTCACAGCTGTGCGTCTCTCGCCTCTCCTCACTTGCAGGATGAGATGGAGCTGGGCTACGTTCAGGCGCCGCACAAGACCCTCCCGGTGGTCTTT
GACTCYCCAAGGAATGGGGAACTGCAGGATTTCCCTTACAAAAGAATCCTGGTGAGTGGTCCCGRCCGCAGCCCACCCCTGAGAGCTGAGAGGCCTTACC
CCAGGGGCCACACCGGGGTGTGGGGTACAGAGGGCAGCAGTGGGAACCGTGCTCTTTAGGGATGAGGGTAGGGTTGCCAGATAAAATGCAGGGATGCCCA
GTCAAATGTGAATTTCAGACAAGCAACAGGTTAACTTTTTGGTGTAAGTACGTCCCAAATATTGCATGGGATATACTTACACTAAAAAAGTTGTCGTTTA
TCTAAAATTCAAAGTTAATTGGGCATCCTGTATTTTTATTTACTGAATCTGGCAGCCCTAAATAGGGGAGGCAGGATGGTGCACCTGTTCAGAGCACAAG
CTTTAGGGTCAGACCAACCCTGTTCYGTTACTTACATGCTGTGTGATGTTGCGTGAGTTACTACCGYTCTCTGAGCCTCAGTTTCCTCATCAGTAAAAAT
GACATTTTGGCCCTGGCCTCACAGGGGTTTGTGAAGCATCTCATCMTCACAGTACCTGCATGGAGGGAGTGTGTGTGYGCGCACCACTATTAGCTAGTAT
CATTATTTTAAGAAAAAGGATAACAGGGAAGGTGATGATTGCTAACGAGGACCTCTTGAGAAAACAAGAGTGACTTGCCTGGTGCCGTAAAGAACAAGAG
ACCCCTCCAACCCCCTCACTGATCACACAGATGCTAGGAGCTCTCTCTCCTGACCCTTGATGTTGTCGAAGTTGCTTCTGAGAGATAGCCCTGGGGAGGT
CTCCCCTTCTCTAGAGTTCAAAGACAGAGGCCCACATCAGCAGCCTCTTGGTTCCCACAATTGGCCACTTGAGCTGCTACTTGCCCTTGGGCTGAACTTG
CAGGAAGGCTGTGTAGGTAAGGGGRTGGAGTGGCCATGGCCTCAGGCTCCATGTCCGATGGGGAGTGCAGGAGCAACCGGAGCGCCCCCTGCTGTCTTGC
CGTGATAAGGCAGCAGGGCCAGAGAGTCCGAGCACTTCCCGACTTTGCCTGCTATGCGTGCATGAAATATTGACTGGGTCAGATCCCCCACCCACCGCCA
ATGACTCTGTATTTCCACCTGAAGAATGGATGGCCTTTCCCACCCTGTCTTGAAGGAGCTCAAAGCCCAGCAAGTTGGTTCAGGCYCTTCCTGGTACCCT
CCACCCCCGCCTGACTTGGTTTCCCTCTCCAGGGTCCAGATTTTGGTTACGTGACTCGGGAACCACGYGACAGGTCTGTGAGTGGCCTGGACTCCTTTGG
GAACCTGGAGGTCAGCCCTCCAGTGGTGGCCAATGGGAAAGAGTACCCCCTGGGGAGGATCCTCATTGGGGRCAACCTGCCTGGGTGAGAGAGAGACAGG
GAATGGAGTTCCTGGGGTGGAGGCTGAGGGTTGRGGGTGGTGATGATGGTGGAGCAGRGGCCATTGCACTCCTTGAAGAGAGCCAGAAGCAAGGAATGAT
GAAATTATACTCCCGGATGTGSTGGGGTTGGTGGGTGTTCACCAGACACAGTCCACACTTACCTCGGGGACTCTGAAACCAGAGAGAGCAGAGACCTAAG
AGATCATTCAGTCCAACACTTTCATTTTACAAGTGGGCCCAGAGAGGGTAAGTGAGTCACATAGAAAGCAAAGTTATAACTAGACTCAAGTTTTCTGATT
CTGAAAATAAATAGATGATACTAGTAACAGTCAATTAATAGTAACAGAAGAAGAGTGGGCATGGTGGTTCATGCCGTAATCCCAGCACTTTGGGAGGCCA
AGGCAGGCGGATCATGAGATCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACTCCGTCTCTACTAAAAAAAAAAAAAAAATTAGCCAGGCGTGGT
GGCAGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGTGGAGCTTGCAGTGAGCTGAGATCATGCCACTGCA
CTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAGTAACAAAGAAAAAGTTTCCATTCCCAACAGTCCTGGGAGAAA
ATGCATTTAGGTCAAAGCTTGTTCATACTACCATGTAAATGACTAATATAAGATCTTTTCCTGAGAGCAAGAGAAGTGAGGTACAAGACWTGCTAAGTGA
AATGACAATAACATACAGAGAGAGTAACAAATGATGTGTTGTTCAGTAGTGACACAGGGGTGCTGATGGAAAAGGAATCCTATCATATTGGTTRCTTGCT
GTGGACTAGACCAAGACATTGAGCTAACCAAATGCAACAAAGCTGTTAGAACAGACTTGGGATCAAATAATGAATGAATCCAGAGTCAAGCTTTGGAAGG
GACTACTGCCCTCAAATACATAATCCCATTGAAAGAGGAAGCTGGACCATGCCCTTAGATACATTTTCSTAAAAATTGAACATGGGGGWGAAATCTGTCT
CTTGGAGAATAAGAACCTGGTGTGAGGGTGGTTCTGAAGATTTTCCTGGATGGTGGGACCTGGTAGGTCATTGCCCTGGTGTGACTGACCTGTCCTGAGT
CTGCCTCATGCAGAACTCACCCTAAGTGGAATTTTAAAATATACGTATCTGGCTGGGTGCAGTGGCTCATCCCTGTAATCCCAGCACTTTGTGAGGCTGA
GGCGGGCAGWTCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTAGTAAAAATACAGAAAAATTAGCCTGGCCTGGT
GGTGCACGCCTGTAATCCCAGTTGCTTGGGAGGCTGAGGCAGGAGAATCCCTTGAACCTGGGAGGCGGAAGTTGCAATGAGGCGAGATCACGCCACTGCA
CTCCAGCCTGAGTGACAGAGTGAGATTCCATCTCAAAAATAAATAAATAAATAAAATGAAATATACATATTTATTACTTTCCTGTTTATAAAAGTAATGC
ATGTTTTTTTGTTTTTTAAAAATCAGATATTGCAGGAATGCTAAACTCTTGTCATTTTATTTCTGCATGGAGTCTTTTTAGTTAAGCAACTTTTTTTTTA
ACCTCGTGGGTCCCAGGTCAAGTGGCCGCAGGGTCACCCAGGTGGTGCGGGACTTCCTCCATGCCCAGAAGGTGCAGCCCCCCGTGGAGCTCTTTGTGGA
CTGGTTGGCCGTGGGCCATGTGGATGAGTTTCTGAGCTTTGTCCCTGCCCCCGATGGGAAGGTAAGAACTTCGTGCATGACGTGTCTTTCCCTGGCATCT
GGGGCAAGAACTGAGCTCCAGGGCGCCATGCCAAGGCAGGAGGCTCAGCTGAATCTGTTCTCTGCAYGCAGGGCTTCCGGATGCTCCTGGCCAGCCCTGG
GGCCTGCTTCAAGCTCTTCCAGGAAAAGCAGAAGTGTGGCCAYGGGAGGGCCCTCCTGTTCCAGGGGGTTGTTGGTGGGTAACAGTGCCGTGTCCCTCCT
TGCGGCTTGCCTGCCCCTTACCCAAATTAAGACACATCRTGGCTTGAGAGGGGGARGGCAAGTTTTAAAGCAGGKGTGTGTCCCCAAATTCAGGGCTTCT
CACTCCTGCCCCTGCACACCTTGCTTCACCAGACACCACTGCCCACAGCTGGGGCCGAGCTGAGGTGGGAAGCGGGGTGATAGAAGGTGGACATGGACTG
AGCGGGGACATAGTGGCTTCCCAGGCAGGTGACCAGTGCAGTCACGGCGTGGAGCTTTAATGTTCTGCAGTCACTATCCTGAAATCTCCCTTTTTTTTTT
TTCCTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCCACTCACCGCAACCTCCGCCTCCCRAGTTCAAGCGATTC
TCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCACGCCYGGCTAATTTTGTGTTTTTAGTAGAGACGGGGGTTTCTCCATGTTGGT
CAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCAGCCCGCCTCGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCTGGCTGCCCTGAA
ATCTTAATTCTGTTTTGTGAGGTCTGATGGATCAGTGGAGCATCTACGGGGCTTGGAGCCTCTGCTCAGGCACAGTCCTGTCTCCCAGCCTCCCTGCCTC
CCTGGCACAGATTCTCTGCTGCCTACTTCTGTGCTCCCTGGAGCCTCAGTGCAAGGCCTCCCCCATCTCTGTCACTGTCCTGAGATGCTGCAGCACTCTG
CCCCCAGCAGGAGCCTGGGCATGGGGAGGGCTGGGGTTGGGCACATGTGCCACTCAGCATCTTCATGGCATCAGTCGTCCCTGCCCTGCAAGGGCATTTG
GTGGGCAACTTGGGAGGGGTAAGTGTCTCACCCAGGCTTGCTCAGGTACCCAGCACATACCCAGAGGCCACAATACTCTGGAGGTCGCCCATTTGCCTTG
GCTTGGGGTGGCAGTCCTGTGGGAATGAGAGATGCCAAACTGGACCTGCCAGCCCCGTTCCAGGGCACAGCATGTGGGTCTCATAGCAGAGGCATGCCCA
AGCACAGCCCCCTGGGAGCTAGGCCTCCGCTGTGAGGCCCACAGGGTGGGCCCTGACACCAGCAAGGGACTGTCCAGCCCCATGCAAGTCCCCGGCAAAG
CGCAATGTGAAATAGCAAATAAAAACCACCCTGACAAGTCAGGAGAGAGACTCGGGGACAAAGAAACAACTTTATACTGTAGCACTTTTAATGGTACTCT
TTTSTCTGCTCTTTAAACAAGGAGCTGGCATTTTCTTTTCTTCTTTTTTGAGACAGGGTCTAYCAGCCAGGCTGGAGTGCAGTGACATGATCTCAGCTCA
CTGCAGCCTCGACCTCCCAGACTTAAGCGAGTCTCCCACCGCAGCCTTGCGAGTAGCTAGGACCACAGGCATGCACCACCACGCCTGGCTAATTTTTTGT
ATTTTTTGTAGAGATGGAGTCTCACCRTGTTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGTGATCTGTCTGTCTTGGCCTCCCAAAGTATGGGATTA
CAGGTGTGAACTACTGTGTCTGGCCAGGGCCCACTTTTTTTTGTTTTGTTTTTTGTTTTGCACTGGAAGAATTTTGAGAGAGAGAGAGCTGGCTGGACTG
GAGTCATCTGGCAAGCTTGCTGGAAGCGTTCTCAAATTCACTCCCTTTCCAGCCCCACTGAGACTGCATGAATCCCAGAGGATCCTCCCTTTCTCAGTGA
CCCCAGAGGTCCCAGGGCAAAGACCCTTTGACACGCAGGATCATAGATTTTCTTGGTCCCATGGCCTCAGGGAAGGCAGATAGCATCCTAGACCAAACAC
AGCTCAGAGAGAAAAAAAGCTCCTGTAGAACTTAGACGCCCCCAAGTATAATAATTTCCAAAGTCCCCTTGCTCTCTGTTTGCTAGCGTTAACTTCTTCC
AACACAACCCTGGAGCCTTAGCAATAAAATGGAAGAGAAATAGTCTTTCTTGACCCTGTTGCTCCCAAACGCACCCTAACTAGACTCCGGTGAACCTAGA
GTAAGTCTTAGAAATCCTTAAATCCAAATTATGTACCAGGCAGGGAGAARTGCCACCTTCATCTTTCCTGGGAGAACTTATGGTGAGCAAGACCCAGGAA
TGGGTTGAGCAGAGTTATTCCAACCTGCCCAGCTGGGAGGGAGCGTGGGAGAATTCACAGATGGCAGGCCACAAGCAGCCACCCCACCCTCGAGGGCTGA
CACTCAGGCAGTGACTGTGGCGATTAATTACATAGACACAGAGGCCAGACACAGAGGCCAGAGCACTGATTAGACAMCTCAGTGCGCCAGGCCTMACGCT
GTGTGCATCACACGTGTTATCTCATTTGATCTCACGAGAGATCAAATGGGATGACTCTCACCCACCTTTATTCCCAAGAATGTGAGGCTCAGAGAGGGGA
TGTCACTGGCCCAGAGGCCTCAGCAAGATTGCAGTGGAGCTGGGACTGGACCCCAGCTTCCTGCCTTAAACTGGGGTGAAGCGGGCGTTAGACCTGCAGA
TGGGTCAGGGGAGCCCTCTCCTTTCCCTTGGTCAAGGCTTGAGGCCCTGTGCGAGCCCTGGGCTTGGGTTTGAATCACAAGCCCCCACATATCCTACCTG
TGTGACCTTTGGCAAGTCTTCTGACCTCTCTGAGCCTCAGTTTTCTCATCTGTAAAGTGGGGATCATAATGCATACCTTGTGGGGGTCACCGTGAGGGTT
AAATGAGATGCTGAACCTGGGCACTCCCCTCGGGGCCTGCTCATGGTAAGCGCTTACTAAGTAGCAGCCATGAGGATTGTGTGCCATTGACTCTAGCCTC
CGCTTCCCTGTCCAGTCTCATCTGCATGGGCACACCATCAGGCTGAGAAAATCTGGACCCCTGGGAGGTCCCCATTTCACGCAGTCACCCCCTGAAGGGC
AGGATTGGGGCTGGATGGTGTCTGAATCCCAGGACTGGCTGGTTCGCTGCTCAGTGAACCTATAAAACCTGACTGATGGTGGGTGGGTGGGCAGCAACTG
ACCCAGCTCCCCGCTAAGCCAAAGCAAGAGGATTCCTCATCCAGTGCCCTCGGGCAGTTGTAMATTTCCAGTGAMAGGCGTTACCACTTCCAGTGAACTC
AAATAAAGGTCTCAGTTCATTCCACTGTGGCAACCAGACCCTCCCACTCCTTATACCCCAAGATGTGCACAGTGGCCAAGGCAAGCTCAGACAGGTGGAA
CCCACCCAAGGCCTGGGAAAGTCAGAGGCTGCTGACTCGGCAAGACCATTAGCTGTGAACTTGGCTCCTGCCTGTCTGCTTCCCTAAGCAGGTGGTCCTC
ACGTTGGTGCTGTCCCTGTCCTTCTCTTTCATCTCTCTCCTTCACAGATGATGAGCAGGTCAAGACCATCTCCATCAACCAGGTGCTCTCCAATAAAGAC
CTCATCAACTACAATAAGTTTGTGCAGGTACAAGGGCTGTGGTGTACCTGTGGGCTGTGATTTGGGAGTAGGCGGGGCTGGAGGCAAGGATGGGATACAG
ACATCTGAGGCTAACTGTTCATGAAAGCTCAGGTTAGAACAGGCCCAGACAGAGGGGTCCCAACACCCTCYYTTGACCCAGAAGAAGTGAGGGGAGCRAC
AGGATGCCTTGGTGCCCCCAAAACACACTGGCAAGGTGTCCCCAACTCTGGCCCTCCCCTGCCCCCAGAGCTGCATCGACTGGAACCGTGAGGTGCTGAA
GCGGGAGCTGGGCCTGGCAGAGTGTGACATCATTGACATCCCACAGCTCTTCAAGACCGAGAGGAAAAAAGCAACGRCCTTCTTCCCTGACTTGGTGAGG
GCACTACCCATGACTCCTTTGCCAAATCAGGCTGCAAACCTCTAAGCTCGAGAGAGGAAAAATGTCTGGTCACAGTCATATTTAGGATTGTGGTGGCCAG
TGGGGGTGGCAGGGAGAATCAGGGGTCCTATGGTGCTCCTCAGAAGGGCTTCTAGCTGGCTGACCACCATGGTCCCTGTGGAATGCTTGCTGGCCAAGCC
CTGSCCCAAGGGGCATCAGGGAAGGGGTCCACTTGACATTTGTGGAGTGAATGAATGATTGCATGAGGTCACGTGTGCAAAGCACATGGCATCAGCTGGG
AACCCAGATGCTCATTCTGCTCTCTTCCTCCCAGCTTGTGGCTCTTCATCCATCCCACRTGTATTTAGGGTGTCCTGTGGCAGATGCAGAGATGATTAAG
AATGCCCCCTGCTCTCAAGGGACTTTCAGTCTAATCGGTTGAGAGGGAAACTCTTCCCTTCTCTGAGGACATGTCCCAGTGATCTATTTTGTAGGATAAG
GCGATGTGGCAGTTTGGAGGTGAGACAAAGCACTTCCAGCCTAAGAGGTAGAACTGGAGATCCAGGAAGTCTTCATGGAAGAAGTGGCTTTTGACTGAGC
CTTGAGGGCTTTGCCTCTGATGCTTGTAAATCTTTTTTTCTTTTTTTCTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGCTGGAGGGCA
GTGGCACAATCTCACTCACTGCAACCTCAGCCTCCAGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTGTGGGATTGCAGGCGTGC
ACCACCACGCCCGGCTAATTTCTGTATTTTTAGTAGAGATGGAGTTTTGCCATGTTGGCCAGGCTGGTCTTGAGCTCCTGACCTCCGGTGATCCACCAGC
CTCGGCCTCCCAAAGTGCTGGGATTACAGGCGGAAGCCACCGTGCTTGGCCTGCTTCTAAATCTTGAGCTTGCCTTTGAAACACCTGGACAGGTGGGGCC
CCACCCCAGCGGTCCTGATTCAGCAGGTCTAAAGCACGGCCCGAGGCACTGCTGCCGCGCTAACAAACACCCAGGTGGTGCTGATGCTGCCTTTTAGAGG
AACACAGTTTGAGTAGCACTGCTATAGGTCACCCAGCTCCCCTCTCCACTCCTCCCCACCTCATCCCCTAAAAGAACTCAATTTGCCCATTGTCAGAGCC
TTGTGGGGAACCTGTCCACACCACCATTGCTTCATGCCCCGCTTTTTCSTTCCTCTTTTCAGGCAACATTTTGCCCTCCGCTTGCAAAGCCTCTTTTCAC
TCCCCTTCCTTCCTGTTCGAGGCTATCTTGTAATTATATATGTGCCCCAAGAAGTTTGTGCAATGATTCAGGTTCTTGTGTTCRCAAGAGACAGAGTCCT
ACTGAAGCCAGCTTCAGCCAGAGGGAGTCTTAATATAAGGACACCAGAAACCTGAGGGCAGGATAGCTGCAGCAGAGCCTGGAACCCTCTCTGTTTCTGT
GTCTACATCATTCATTCTCTCTCTTTCTCTCACCCTCTCCACCTCCTACTTCTTCTCCCTCTTCTTCCAGCTTGGCTTCCTTTGCTTCTCTGTTCCTGGG
GACAAAGATGAGTATGGCCATGCACAGAGACACTGACACGGGCAGAGACCAACTAGACGCTCCCATTGTCAGTTTCAAATTCCTGGGAGAGGGACTCTGA
TTGGTCCATCTTGGACCAGCTGTTCTCCCTGGCCCAATCAGTTATGGCCTAGAAGGTTGGGATTCTGCAGCACAAACATGGCAGCTGCCACAATCCACAA
TTCCAAATTCACATTAGGGCAGTTTCCAGAGCACGTTGCCAGAGTGAGTTCTGCGGATGCTCCCAAAGGCACCTGGCTAACCGGTTCTTCCCAGCCCCTT
TAGCCAGTTACCTTCTCATTGCACAGGAAAGGGTGAGTAGCTATTGACAAGGCTGTCTAAAACACAAACCTAGGTCCTGCAGGTAGAGTAGAGGTGTGGK
GTGGGAGCCCAGTGATGAAGTGCTGCTTCCCCTTTGGACTGCAGGTGAACATGCTGGTGCTGGGGAAGCACCTGGGCATCCCCAAGCCCTTTGGGCCCAT
CATCAATGGCTGCTGCTGCCTGGAGGAGAAGGTGCRGTCCCTGCTGGAGCCKCTGGGCCTCCACTGCACCTTCATTGATGACTTCACTCCATACCACATG
CTGCATGGGGAGGTGCACTGTGGCACCAATGTGTGCAGAAAGCCCTTCTCTTTCAAGTGGTGGMACATGGTGCCCTGAGACAGCTCCCACCCACCATCCT
GTCCCCCTGGGGCGGGCATTGGCCCAGGTGGTGGAGACAGAGACAGGCCCCTGAACGATAAGCACCAAGAGACCCCAAGGCTCCAGATGGAACACTGAGG
GTGACCGTCCCTCTCAGAAGCCTTTTCCCTGGAAGTGTCCATGCCTCACCTGCAACCCATGTGGTTCTCAGACTTGAATCTTCTCGGCCCCCCAAAAAGA
AGGACCTCATTTCTTATAGCCTCTCCTGTGATTCAACACAACCCATGGAGATGTCCCCTTCTCACTCTGAAATCATCCATTTGGGGACAAATCCACATTG
GGGTCTAGAAACATCCACGTATCTCATCAGCCATCTTGTCCTGTGCATCCTAACAGAGGAAGGATCCATGATTCTGCTTTGGTCCAATTGCTTCCTCTCT
GCAGAGGAACAACCCTAAAACCAGACCACTCCACGCAGGACAGGCAGGAGAGATTCTTCCTAAAGCCTCCCCCATAAAAAGGGAGCTGTGGATCCACTTA
GATCAGGGCGGAACCATCTTTCACCCGGCCAAGCTCCTGCCCAGATGTTGACCCTCACCCAGCGTGAGCTGTCACATAGTAGGAGCTTCTAGATGCATGT
GGAAGCAATGAGAGTTGTCCCTTAGCCTTATAAACTCCCCATGATCTGACATGCAGAAATCCAGCCTTGTCCAGAATCCTCCTGGAATTTCTTGGAGACG
AAAGTATCTGGGGGATTGTTGGGTACTAGGGAGACTGGGTACAAGGGTGAAAAGTAGTTCCCATAATACACATGGTTGACTATGGTGATCCACCTTGTGA
TGGTTAATATTAGGTGTCTGGAGAAGGTTGCTTCATTGGCCCTGGGACTTCTCTCTGCAGGAGGAGAGAMCGCTGCCTCTCCTCTGGATTGGTCTCAGGC
TCTCTGTTGGCCTTTGGTCAGCGTTTCCACATCCTGCTCTGCTGCAGGAGAGGGGGCTAAGGGGCTGGATCCACCAAGGCAGCTCACAGCGGGAAAACTC
TGGGAMTGAACCACTGAATTCAGGGGATGGGGGTGGGGGGGCGGTTCTCGAGGTGTGTGCCAGCTACACGTGTGTTCTGTATGGGTCCAGCTGCGTTTCC
ATCACTCGCTAATAAATCAACAGAAACACAAATGGCTTGGCTCTCATGTTGACCCTTCTTTGAGCTTAGAATGAGACAGCAAAGAGAGAGGACTTTCTTG
CAGCTGAAGCATTTGCTTTCTTGACCCCCAAGAATTTGGGGCTGACATCCCAAATTTTGATAAGACTGAGATTGCCTTGTCTTGGCCAGAGGATGGGTTA
GGACTGCCATGGACACCTGTAATGATATGGACACATAAAAGCAAGCCTGGGGGTAAAATGCCAGGCTACCAGGACAAGTGAGCATGGCAAGGCTAGGGGC
CGGGCTGTGGCTGGAGGTTGCACTGTGGAAGGATGGGCAATGGGGAGCATGTGGAGGCCTTTTGTGTGTCCTTAGCAGCATCCTCCTTCCGCCTGCAAGA
GGCTGCGGGAAGCCTTACTTCAGAGCACTCGGGCACTGTCCCTCTGCCCTCCACCCTCCCAACCCCTTTATTTTCCCTCAAGGCGCAAAACACAGAAACA
CACTCAAGCTCACCCCGGGCTGGGTGGCTAGAGCTGTGTAGGTTTCTCCAGTGCTGCCTCCTTGCCGTGGCTTACTTAGGTTCTCTGAACAGATTCCCGG
TGTCCCCTCACATACCCATATTTTGACAAAATAAGCTCCCTCCCTCATTTCTCCCAGCAGGGGAAGCTGAGACAGATGAAGACGCTGAGAACATCCTATT
TTCTGAAAGGGTTTGGGGAGGGAAATGTGACTCTCTAGAAGGCAAGTGCCTAAAATTCGGAGAACAGGGATGAGTTTCCAACAGGCTTTTCTCACCCCCA
AGACTGGCCACAGGGCTCTGGGCAGACCCAGCATAAAGCCCTGGAAACAGATTGCCTCTCAAAGTTGCTCCCTGTGCTCTAGGTTGGTGTGGGTGGGGCA
ACTGAGCAGTGAAAAACCYAACCCCAAGGCGGACGAGAAGCAAAACACAGTTGAACACGGCATCCACCTGTCCACACAGCAAAGGACAGGGTCAGTGCAT
TACTTTTTGAAGGCTACTATAACAAATTACCATAAACGAAGTGGCTTAAAACAACACAAATGTATTATCTTATGGTTCTGGAGGTCAGAAGTCTGACATG
GTGTCATGCTGGACCTCTACTGACTTCAGTAGTAGCTGGGCATGGTGGTACAGGCCTGTAGTCCTAGCTATTTGGGAGGCTGAGGCAGGAAAATTGCTTG
AGACTAGGAGTTTGAGGTTACAGTGAGCAAAGATCACACCACTGCACTCCAACCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAAAAGGATAGGGATGG
CACCATGTTTGAGAGACCAAAGAAGAGACCAGGAGCCAGTGACCGAGACATAAGGTTTATTGAGGGGACTCATATACGGGGCAGTGCAGTGGTGGTGGGC
TGGACAGGGGAACCACCTCTGCTCGTAAAAAGCATGCAGTTRGCCAGGTGCAGTGGCTCACGCCTGTAATGCCAGCACTTTGGGAGGCCAAGGCGGGTGG
ATCACAAGGTCAGGAATTCGACACCAGCCTGGCCAAGATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTATCCAGGCGCAGTGACGGGCACCTGT
AATCCCAGCTACCCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGATGTTGCAGTGAGCCAAGATGATGCCACTGCACTCCAGCCTGGGC
AACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGCATGCAGTTTATATAGCATTTTGACTTAGCACTCTCACCCTAATAACCTCCTYCTGG
CAATCTTCATTTCACCCATAACAAAGGGCCTCAATCCCCTGTACAGCCTGCATTCTACGAGATAAGTGGTGGGTCCCAATGTTCCTCATAGATAAGAAAT
GAATCTCCGGGTTGGCACTTTCCATAGCTGGGAATCCCAAATGCACATTCATCAGAGACTGTAAGGTCATTCTCAGGGTATGCTCCAGTTTAGCTATTGC
TGGCGGTGCGTCTGCCACACACATGGGTCTCACTGAGCTAAAGTCAACATCTTGGAAGGGCTGGTTCCTTCTGGGCTCTAGGGAAGAATCCTTTTTCTTG
CCTTTGCCAGCTCCTAGAGGCTGCCTACACCCCTTGGCTTCTGGGCTTTTCCTCCATCTTCAAGGCCAGCAGCATAGTAACATTTTTGTATCTTCCTCTG
ATGGATTCTTCTGCTTCCTTCTTCCACTTGTAAGGACCCTTGCGATGACACTGGGCTCATCTGGATAAGCAAGGCTCACCCACCCTCTCTAGGTCAGCTG
ATGAGTGAACTTCATTCAATCTGCAACCTTCATTCCCTTTTACTAAGAAGGTCATATACTCACGAGTTCCGCAGACTCGAACGTGGAAATCTTTGGAGGA
CCATTTTTCTGCTGACTACAAGCAACCAGGCCCTGACTGCCGTTTCTGGCCTCCAAGAGTGAGACCATACCCGGTCCCCTCTGAAATCCACAGAGGCAGC
AGCAGAAAGATGCAGTCAATGAACCCTCACTCTGGGACTGGTGTTCAGTTCTGGACCCTCCGCTGGGCTGAGATCTGGGATCCCATGGATGCAGGCTGGG
TGGCTCCAAAAAGCACTGGAAGCTGCCTCCATCAGGCCTGGGGTCAGGGGTCACCTCCGCTGGCCACTGCCTTCCCAGACAGCTGCCCATGCCACACTGC
CTGGTCCCTTCCGGGGCCTGGCTCTCAGGCCTGGAAAGCCCAGGGAGACTAGGATGAGGCTTGGGTTCTCGTAGGGAAATTTCCCTTCACCCTATTGTGG
TTCCCCTAACACAGTGGGCAACCTTGACCAGGCCTGAGGATAAGGGAAGATACCCAACCGACTCACCTACTCCCAGCTGGCTGCCTGAAACCCCTCGGAG
TTGGACCATCAGATGCTGAACTCGTACTCTCTAGCTGAGCACATAACTTGGGTGAGCCTCAGTTTCCCCCTCCATAAAATGGGCAAAATAACTGCCGCTT
CATAGAGCTTGCATGGGGATGAAGTAGGGTAACTCACAAGTTATACTTAGTGTCAATAGCACAGTGCATGGTGCATAGTAAGTGCTCAGTAAATGATGAC
TGCTGTTACATAGCATCCCCCAGCCCTTCCTCAAGCATCTGCTGTGTAGAACACTCCTAATCTCCGCGCTTTAATAGATGACAAAGACCCTTTGAGACCC
AGAGGTGARATGAGGGAGGTAGGGACAGGACAGCTGTCTTGGCTACTCTCAGATCATACCCTGCTTGTCTCAGCTGTGTAGGACTGGCCCAGGTGGAGGC
TCCTGCCTGGACAAGAAGCTGACAAGAAAGCCTGTCTTTTTTGTGGGGATTTGCAGCTCTGGGTGGCCCTGACTCATGCTTTATTCAGAATTTGGAATAA
GTAGCTGCAGGGCTTCCGCAGGCATTGCCCAACTCTGTGGCCTCCTGCGGCTTCCAGCAGCCCAGGAAGGAGGGCCCTGGGTGAGGATGGCTGGAAAGGA
ATTCTGGATGGCTGGACAGAGTCCATGGGACCTATCACTTCCTACAAAGTCACTGTCATCCCAAGTCCCCTCCAGCATAATGACGGCAAGTGCAAGCATT
GTGCCAGCAGGTACTGAATGCTTCCTGAGCACCATCTGATATAGCCCTCACAGCATGCCAGCAGGCAGCTATTACTATTGTTCTCACTTTATAGACAGGG
AAACTGAGGCACAGCCACATGAAAGCGCTTGCCCTGGTCACAGAGCTATTAAGTGGGGGAAACAAATTTGAGCCTAGACACGTGACCTCTGTACCCAGTC
ACACCAGTGGTTCTCAACCCATCTACACATTAGAATCACCTGGAAGGCTCTCATGAAAACCTAGCAGGGCCAGGCCCCCACCATCAGAGATTCTGTCTGG
ACATTGGGATGTTACACAAAGCAACTCGGTGACTCAGGTGTGTAGCCAGGACACAGCAACACTTTGGAAGGCCAGGCGGGCAGACCACCTGAGGTCAGGA
GTTCAAGACCAGCCTGGCCAACATGCTGAAACCCCGTCTTTACTAAAAATACAAAAATTTGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTT
GGGAGGCCGAGGTGGGCGGATCACGAGATCAGGAGATCAACACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCTGG
GCGTGGTTGCACGTGCCTGTGGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGC
CACTGCACTCCAGCCTGGTGATGAAGCGAGATTCCGTCTCAAAAAAAAAAATTAGCTGGGTGTGGTGGCTCGCACCTGTAATCCCAGCTAGTTGGGAGAC
TGAAGCAGGAGAATCTCTTGAACCAGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCACCACTGTACTCCAGCTTGGGTGAGACAGAGCAAGATTCCATC
TCAAAATAATAATAATAAAGAAAGCTCTGCATGGGGAAAAGCTTAGCATGAAATTTTGGGGTGAGGGATGGGAGCAGGGAGACAAGTCAGAAGGTGGCAG
CTAGTTCAGCCGAAGAGAAGCCACCACATTCAATTCACTCTTTGTGGGGAAACCGGAAGGGACGGGCTTACTGGACAGGACGTGGGGAACAGGGAAAAGG
CAGGGACAAGAGTCCCTCCCAGAGTTTGAGATTTATTTACTCATTGATTTATTATGAAGTAAATCATTAATACAAGACAAGTTTTTTATAATGTTTCTGA
ATGACTAAAAGAATAATTATGGAATGAAAACCTGTATACTCTGGCTGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTG
GATCACAAGGTCAGGAGATCGAGATCATCCTGGCTAACGCGGTGAAATCCCATTTCTACTAAAAACACAAAAAATTAGTCGGGCGTGGTGGCTCATGCCT
GTAGTCCCAGCTACTCAGGAGGCTGAGGCAGAATGGTGTGAACCCAGGAGGCGGAGCTTGCAGCGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGTG
ACAGAGTGAGACTCCATCTCAAAAAAGAAAAAGAAAAAGAAAACGTGTGTACTCAGCATCTTCTCTTTAAGAAAGGGAACATTCCAAACTCCTCTGCAAC
CCTATGGGGGACACTTCCCACTCCCCCCATACCCAGGATTCGCGCTCATCTGAAATTTGCGTTTATCATTCCTTCGCTCCTCTTTATAATTTCCCCATGT
GAGTATCCCTGAACTGCATACTGTTTAGTTTTGCCTGTTAGAAATTTTTTCACAGGGCCATGTTAATGGTGGTGTTCTGTGACTCTCTTCTTTCATTCAG
CACCGTATTGGTGAGTTTCATTCACGTTGTATGTCACCATAATTCATTCCTTCTTATTGCTACAAAGCATTCCATTTTATGAATGGAATTTATTATATTA
TTATTTTGAGACAAGGTCTGGGTCTGTCACCTAGGCTGGAGTGCAGTGGCACGATCTCAACTCACTACAACCTCCGCCTCCTGAGCTTAAGTCATCCCCC
TACCTCAGCTTCCCGAGTAGCTGGGATTAGAGGCGTGCACCACCACACATGACTAATTTTTGTATTTTTTGTGGAGATGGGGTTTCACTATGTTGCCCAA
GCTGGTCTCGAACTCCTGAGCTCAAGCAATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCCTGGCCAGATGAATGGAAT
TTATTATATACAATTTATTCATACTCTTTTGTCAACAGACACTTGGGTCGTTTCCATTTTTTTTTTTTTTTTTTTTTTTTTTGGCTGTAACAGTCAATGC
TGCTGTCAACATTCTTAGGGATGTTCCTGGTGTGCACATTCACAAGTCTCTCTAGAATATATATCTAGATGCTTTCTGGCTTCATGAACAAGGAGAATGG
TGGTGCCATGGAGAAAAAAGGCAAAGGATC


SNP Information

Context             (SEQ ID NO:40226):
GAGGATCACCTGAGTTTAGGAAGGTCAAGGCTGCAGAGAGCTGTGATTGTGCCACTGCACTCCAGCCTCAGCAACAACAACAAAAAAAAAAAAAAAAAAA
R
AGAGAGAGAGAGAGAGAAAAAGAAATATCTAGGGTGCAGAGGCTATACCAGCAAAGCACCAGTAGGGTTTGGGGGATGCAGCATCACCTCTGCCCAGGGA
Celera SNP ID:            hCV16181500
SNP Position Genomic:     28760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40227):
GCAAGCTGACCATCTGCCCACAGGCCGAGAACCGCAACGACCGCTGGATCCAGGTAACCACAGCCACTGGGCAGGGCCCAGCAAGGACGCCATCCTGGAG
R
GAGAGGCCTTCATTTGGGGGCCACCGAGAAACATCCAGGAGGACCTGGGTGCTCCCCAGGGAACTTGCTGCCGTTTCTAATGTGAGACCTAGAGGCTTCT
Celera SNP ID:            hCV22275600
SNP Position Genomic:     28130
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,15)   caucasian(A,29|G,11)   total(A,52|G,26)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40228):
GGATAATTATGGTGCCCACGCCCAGGCATGTCATGAGGATGAATGGAGTTAATGTTTATAAAGAGTTTAGGGCAGGACCTGGATGTGAAGTTCATTCACA
Y
TGGGCCATCTTTTCCTCCAGAACCAGAGGGGTCAGGACTGACCTGGGCACATTTATGGATCCAACTCAGGCCACTGTGAGGGCTTCTCTGTGTCCACCTG
Celera SNP ID:            hCV16181507
SNP Position Genomic:     29853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40229):
GGAGGCAGGATGGTGCACCTGTTCAGAGCACAAGCTTTAGGGTCAGACCAACCCTGTTCCGTTACTTACATGCTGTGTGATGTTGCGTGAGTTACTACCG
Y
TCTCTGAGCCTCAGTTTCCTCATCAGTAAAAATGACATTTTGGCCCTGGCCTCACAGGGGTTTGTGAAGCATCTCATCATCACAGTACCTGCATGGAGGG
Celera SNP ID:            hCV16181508
SNP Position Genomic:     30767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40230):
GGCTGAGGGTTGGGGGTGGTGATGATGGTGGAGCAGGGGCCATTGCACTCCTTGAAGAGAGCCAGAAGCAAGGAATGATGAAATTATACTCCCGGATGTG
S
TGGGGTTGGTGGGTGTTCACCAGACACAGTCCACACTTACCTCGGGGACTCTGAAACCAGAGAGAGCAGAGACCTAAGAGATCATTCAGTCCAACACTTT
Celera SNP ID:            hCV16181509
SNP Position Genomic:     31822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40231):
GCCTGCCTGCCATGGGGTGACTGGGCTGCGTGCCATGGGGTGACTCACCTGCCCCTGCTGCCTCGTGCCCGTTGGGCAGATGTGTCTCCGGTTTGACCTG
Y
CCCAGGAAGCCTGGGCCTGGCTCCTCCCCCGCAGAGCTTCCTTAGAGGATAGAGGATGGATTGGGGCAATAAGAGATAAAGGCCATAGCTTCCTGGAGTC
Celera SNP ID:            hCV16181437
SNP Position Genomic:     7727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:40232):
CCTGGGAGAAAATGCATTTAGGTCAAAGCTTGTTCATACTACCATGTAAATGACTAATATAAGATCTTTTCCTGAGAGCAAGAGAAGTGAGGTACAAGAC
W
TGCTAAGTGAAATGACAATAACATACAGAGAGAGTAACAAATGATGTGTTGTTCAGTAGTGACACAGGGGTGCTGATGGAAAAGGAATCCTATCATATTG
Celera SNP ID:            hCV9779235
SNP Position Genomic:     32490
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,7)      total(A,7|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40233):
TAAGTGAAATGACAATAACATACAGAGAGAGTAACAAATGATGTGTTGTTCAGTAGTGACACAGGGGTGCTGATGGAAAAGGAATCCTATCATATTGGTT
R
CTTGCTGTGGACTAGACCAAGACATTGAGCTAACCAAATGCAACAAAGCTGTTAGAACAGACTTGGGATCAAATAATGAATGAATCCAGAGTCAAGCTTT
Celera SNP ID:            hCV27268800
SNP Position Genomic:     32594
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,303|A,1194)   total(G,303|A,1194)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40234):
ACCTGCACGACGCCCACATGGCCTTACCCTCCTTGCTTCTCTGGAGCACCTGTTGTGTGTCAGACACCAGCTGGCTATGCCACACTTCATGTTTCTCTGG
S
CAATTGAGGAAACATGAGTCCAGGAGAGCATAGATGTCTTCATGGTTTGTTCTTGATGGCTTCCAGGGTTTTCACAAAGCTAGGGCTGGGAGACCCAGGT
Celera SNP ID:            hCV25604830
SNP Position Genomic:     24544
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,3|G,37)   total(C,3|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:40235):
AGCTTTGGAAGGGACTACTGCCCTCAAATACATAATCCCATTGAAAGAGGAAGCTGGACCATGCCCTTAGATACATTTTCCTAAAAATTGAACATGGGGG
W
GAAATCTGTCTCTTGGAGAATAAGAACCTGGTGTGAGGGTGGTTCTGAAGATTTTCCTGGATGGTGGGACCTGGTAGGTCATTGCCCTGGTGTGACTGAC
Celera SNP ID:            hCV27268801
SNP Position Genomic:     32789
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,235|T,1262)   total(A,235|T,1262)no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40236):
CTCCCTTTTTTTTTTTTCCTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCCACTCACCGCAACCTCCGCCTCCC
R
AGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCACGCCCGGCTAATTTTGTGTTTTTAGTAGAGACGGGGGT
Celera SNP ID:            hCV27268802
SNP Position Genomic:     34186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40237):
TGAGTCTTGGGGCAGTGGGTGGTCCCTCTGGCCCCCAGGCCCCGGCTCCATCCTGAGCCCCTCTTCCCTGGGCTTGTCCGTAGTGTGAGGAACAACACGT
R
TTTTGTGGATGCGGTGGCAGAGCTGGCCAGGAAGGCCGGCTGCAAGCTGACCATCTGCCCACAGGCCGAGAACCGCAACGACCGCTGGATCCAGGTAACC
Celera SNP ID:            hCV25604831
SNP Position Genomic:     27988
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40238):
CGTGATCTCCACTCACCGCAACCTCCGCCTCCCAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCACGCC
Y
GGCTAATTTTGTGTTTTTAGTAGAGACGGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCAGCCCGCCTCGGCCTCTCA
Celera SNP ID:            hCV27268803
SNP Position Genomic:     34253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40239):
TCAGCTCACTGCAGCCTCCACCTTTCAGGCTCAAGCAATCCTTCCACCTTAGCCTCACGAGTAGCTGGGACTACAGGCATGTACCACCACACCCTGCTAA
T
TTTTTTTTTTTTGTAAAGACAGGGTTTCACCATGCTGCCCAGGCTGGTCGTGAACTCCTGGGCTCAAGCAATCCACCCGCTTTGGCCTCTCAAAGTACTA
Celera SNP ID:            hCV11556123
SNP Position Genomic:     25956
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,11)   total(-,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40240):
TAAAACCTGACTGATGGTGGGTGGGTGGGCAGCAACTGACCCAGCTCCCCGCTAAGCCAAAGCAAGAGGATTCCTCATCCAGTGCCCTCGGGCAGTTGTA
M
ATTTCCAGTGAAAGGCGTTACCACTTCCAGTGAACTCAAATAAAGGTCTCAGTTCATTCCACTGTGGCAACCAGACCCTCCCACTCCTTATACCCCAAGA
Celera SNP ID:            hCV27268805
SNP Position Genomic:     36963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40241):
GATGGTGGGTGGGTGGGCAGCAACTGACCCAGCTCCCCGCTAAGCCAAAGCAAGAGGATTCCTCATCCAGTGCCCTCGGGCAGTTGTACATTTCCAGTGA
M
AGGCGTTACCACTTCCAGTGAACTCAAATAAAGGTCTCAGTTCATTCCACTGTGGCAACCAGACCCTCCCACTCCTTATACCCCAAGATGTGCACAGTGG
Celera SNP ID:            hCV27268806
SNP Position Genomic:     36975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40242):
GTTGCAGTGAGCCATGATCACCCCACTGCACTCCACAGCCTGGGCAACAAAGTAAGACCCTGTCTCCAAAAAATAATAATAATAAAGGGCAGTGGGGAGG
R
CTCCATTCCTGGTAAGTCTACCAGGCACCACTGGTGTGAAAGACCCCAGACTTCTTGACCACCCCTCTGGTTCATTTCCATCTTGCAGAGAAGCAAGGGG
Celera SNP ID:            hCV11556126
SNP Position Genomic:     27590
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40243):
ACATGGTTGACTATGGTGATCCACCTTGTGATGGTTAATATTAGGTGTCTGGAGAAGGTTGCTTCATTGGCCCTGGGACTTCTCTCTGCAGGAGGAGAGA
M
CGCTGCCTCTCCTCTGGATTGGTCTCAGGCTCTCTGTTGGCCTTTGGTCAGCGTTTCCACATCCTGCTCTGCTGCAGGAGAGGGGGCTAAGGGGCTGGAT
Celera SNP ID:            hCV16181588
SNP Position Genomic:     40870
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,302|A,1183)   total(A,1183|C,302)no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40244):
GTTGGCCTTTGGTCAGCGTTTCCACATCCTGCTCTGCTGCAGGAGAGGGGGCTAAGGGGCTGGATCCACCAAGGCAGCTCACAGCGGGAAAACTCTGGGA
M
TGAACCACTGAATTCAGGGGATGGGGGTGGGGGGGCGGTTCTCGAGGTGTGTGCCAGCTACACGTGTGTTCTGTATGGGTCCAGCTGCGTTTCCATCACT
Celera SNP ID:            hCV16181589
SNP Position Genomic:     41006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40245):
ACCGAGACATAAGGTTTATTGAGGGGACTCATATACGGGGCAGTGCAGTGGTGGTGGGCTGGACAGGGGAACCACCTCTGCTCGTAAAAAGCATGCAGTT
R
GCCAGGTGCAGTGGCTCACGCCTGTAATGCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACAAGGTCAGGAATTCGACACCAGCCTGGCCAAGATGGT
Celera SNP ID:            hCV27268809
SNP Position Genomic:     42542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40246):
GTTCAGGCGCCGCACAAGACCCTCCCGGTGGTCTTTGACTCCCCAAGGAATGGGGAACTGCAGGATTTCCCTTACAAAAGAATCCTGGTGAGTGGTCCCG
R
CCGCAGCCCACCCCTGAGAGCTGAGAGGCCTTACCCCAGGGGCCACACCGGGGTGTGGGGTACAGAGGGCAGCAGTGGGAACCGTGCTCTTTAGGGATGA
Celera SNP ID:            hCV25604769
SNP Position Genomic:     30365
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:40247):
ATAGATGTCTTCATGGTTTGTTCTTGATGGCTTCCAGGGTTTTCACAAAGCTAGGGCTGGGAGACCCAGGTCTTGATACCCACTGACCTGGGGAGGGAGC
Y
GGGCAGCAGAGGAAGGGGCCAGGGGCCAGGACTCCCTTGAGTCACTACCACTCTGTCTGGCTTCACAGACCTGGAAGACATGTCTGTCATGGTCCTGCGG
Celera SNP ID:            hCV22275183
SNP Position Genomic:     24674
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,26)   caucasian(C,3|T,37)   total(C,7|T,63)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,17)      total(C,1|T,17) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40248):
GCTAGTATTTCTTGGGCACTTCCTATGGGCTCAGTCTTTTACATGTATTGTTTCCAAGCTGCATTACAAGCCTCTGAGGTAGAGACCTATAGAGGTAGAG
R
CCTTTTCCCATTTTGCAGAGGAGAAAACTGAGGTGGCTCAGGTAGGTGAGAGGCCTTGGCCAAGGTCATAGAGTACCCAGAGGTGCCGGGCTCAAGCCCG
Celera SNP ID:            hCV1296852
SNP Position Genomic:     18571
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40249):
AATGAATGAATCCAGAGTCAAGCTTTGGAAGGGACTACTGCCCTCAAATACATAATCCCATTGAAAGAGGAAGCTGGACCATGCCCTTAGATACATTTTC
S
TAAAAATTGAACATGGGGGTGAAATCTGTCTCTTGGAGAATAAGAACCTGGTGTGAGGGTGGTTCTGAAGATTTTCCTGGATGGTGGGACCTGGTAGGTC
Celera SNP ID:            hCV16181516
SNP Position Genomic:     32769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40250):
AAGAAAGAGTCAAATGGAAATGCTAGACATAAAAACCATAGTAATAAGAGATTTTAAAAATGCTTTTGAAGGTTTCACCAGTAGACTTGACACAGCTGAG
K
AAAGAATCAGTGAACTTGAAGATAAGTGAATAAAAGTTACCCAAACTGAAACCCAAAGAGAAAAAAGAATAAAACAAACAAATGAAAAAACATAACAGAT
Celera SNP ID:            hCV1296853
SNP Position Genomic:     19643
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,5)   total(G,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40251):
TTAACTGTCACCATTATCATCATCATCAGTTTAAGGCTTTGTCCTGGGCCTGTGGACAGCCTCAAGCATCCCCAAACCTGCCATATGCAGGATGTCTGGG
R
AACAGTCTCTGGACCGTATTGGGAGAAGGAGTTGAGAAAAGAGAAATTTACATCTGACTCATGGCTGAGTCAGGGCAGTCTTCCTGGAGGAGGGGCACCA
Celera SNP ID:            hCV27891820
SNP Position Genomic:     8774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40252):
GTGGGCAACAGAGAGCCATTGCCATTGACATGTCTTGAGAAGGAGGTGCTTCGAGAACGTGGACCTAGCCTCACAGGGTTGGGTGGTTACAGGCCAGGCT
S
GGGTTCCTGGGTAGGGAGGCACAGGTCTCATCTGAGCCCTCATCACTGGCTATGTTTTGTCATTGGCAGCGGCAGTGGGTCTGGGGGCCCAGTGGGTATG
Celera SNP ID:            hCV1296857
SNP Position Genomic:     23555
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,27)   caucasian(C,30|G,8)   total(C,39|G,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|G,8)      total(G,8|C,6) ;JBIC-allele(G,575|C,896)   total(G,575|C,896)   (C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40253):
GTGGCTGAGGGGCCCGCGAAGCTGGTCACCTTTGGGATTCATCACAGGTGGGCTTGGAGAGCAGTCCCCAGGCTGGTTCAGTGAGACATCTCTGGGGTCT
Y
ACACGCCACTTCATTTTTTAGTTGGGGAAACTGAGGCCTGGAGTGTGAAATGACTTGCTCAGGGTTACATAGTGAGTTAGGGACAGAGCTAAAACTAGAA
Celera SNP ID:            hCV27891821
SNP Position Genomic:     9884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40254):
AGTCCAGGGGAGAGCGCCAGCCTCCAGACACACCTCGATGCTCCTCAAAACCCATCTCAGGCTGGCAGCTGCCCCTCCCTAGTGTCTCTAGGGCCAGTGA
R
CACTCACATGCCAGGGCAGAAGCTCTGGAAATGAGCCACCTCGCCATTCTCTTCCTCCAGGGGAGCAGAGGATGCTAGCATTATTTGAGCACCTACTGTG
Celera SNP ID:            hCV1296858
SNP Position Genomic:     23937
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40255):
TTCTGCTCTTTTAAATACGGGGGATTTGGAAAAAGGGTATACGGGGCTGCCACTTTCCAGTGGTGGGGTGGGGCAGGGCCACCCAGATTACAGTGGGACC
R
TGATTTCCTGAACCTGATTCTATTGATGAGGCTGGCAGCGTCGGCGGATCTGGGATCCTCGCTGACTGGGGAGGGGCAGCTGGAACTGCCACCCAGAAAC
Celera SNP ID:            hCV27891822
SNP Position Genomic:     11060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40256):
CCTGTTGCCAGGTTGCCTACCAGGGAACCTCCTGTTCCTGCCTTGGGCCATGGGCAGGTCCTGCTTACACTCCGGGAGATGCCCTGGTGGGTGGCGGGTC
R
CAGTAAGAACAGTCAGAAGTGGGGGCTTTGGAACTGATGAACTGGTGCCCCCAGCACAACACCTGGCCTGAGGTCATTTTATTTGATGAATGACCTTTTC
Celera SNP ID:            hCV1296859
SNP Position Genomic:     25003
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40257):
CCACCCAGATTACAGTGGGACCATGATTTCCTGAACCTGATTCTATTGATGAGGCTGGCAGCGTCGGCGGATCTGGGATCCTCGCTGACTGGGGAGGGGC
R
GCTGGAACTGCCACCCAGAAACCCAGCTGCCTGGGTCTTGGTCTCCTCTGCCCCCACATCCCAGCTCGGTGGAGACCTCGTTGGTCATCTTGTCAACCTT
Celera SNP ID:            hCV27891823
SNP Position Genomic:     11138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40258):
TGACTTTTGCTCATCCTGAGTGCTTTACCCACACTGGTTCCTTTCATCTTCTCCTCATCCCCACCAGATAGATGTCGATGCTGCGGCTGAGGGAGGCAGT
S
ACTCGCTCAAAGTCACACACCTAATGAGTGGTGGGACTGGGATTTGAACCCAGTTGTCTGGCCCCAGGGACCACAGGCTCAAGTACCTTGCCACGGCTCC
Celera SNP ID:            hCV27891824
SNP Position Genomic:     12755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40259):
CATAGCATCCCCCAGCCCTTCCTCAAGCATCTGCTGTGTAGAACACTCCTAATCTCCGCGCTTTAATAGATGACAAAGACCCTTTGAGACCCAGAGGTGA
R
ATGAGGGAGGTAGGGACAGGACAGCTGTCTTGGCTACTCTCAGATCATACCCTGCTTGTCTCAGCTGTGTAGGACTGGCCCAGGTGGAGGCTCCTGCCTG
Celera SNP ID:            hCV27268810
SNP Position Genomic:     44309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40260):
CTTTCACCAGGAGAAAAATCATCGCCAGGAATTATCAGGCATGGAGGTACCCAGCCCTGAGCTAGGCCTTGGTTTGTGGGATCAAGACCTTCTGGACTCA
Y
AAACTAGGTCAGGAGTGGGCAAACTTTTTCCGTGAAAAGTCACATAGCAAGTATTTTAGGCTTTGTGGGACATATGGTCTCAATTCTGCCACTATAGTGT
Celera SNP ID:            hCV606646
SNP Position Genomic:     22884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40261):
GTCACAGCTGTGCGTCTCTCGCCTCTCCTCACTTGCAGGATGAGATGGAGCTGGGCTACGTTCAGGCGCCGCACAAGACCCTCCCGGTGGTCTTTGACTC
Y
CCAAGGAATGGGGAACTGCAGGATTTCCCTTACAAAAGAATCCTGGTGAGTGGTCCCGGCCGCAGCCCACCCCTGAGAGCTGAGAGGCCTTACCCCAGGG
Celera SNP ID:            hCV25604770
SNP Position Genomic:     30306
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40262):
GCAGGTCCTGCTTACACTCCGGGAGATGCCCTGGTGGGTGGCGGGTCGCAGTAAGAACAGTCAGAAGTGGGGGCTTTGGAACTGATGAACTGGTGCCCCC
R
GCACAACACCTGGCCTGAGGTCATTTTATTTGATGAATGACCTTTTCAAATACATTTTAAGCATGTGTAGAAATTCTTATCAAAAATTTCAAACATACAC
Celera SNP ID:            hCV1296860
SNP Position Genomic:     25056
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40263):
GGGTGGGGCCAGGGGCTTTTAAACCTCATCCTAAGGGGCCTCAGGGGCAGTGTTGGGGTTGGCGGCCACAGCTAAGTCCAACACCAGCATGTCGCTGCAG
M
GAATCGTGCGTGTGTCCCTGGAGCATCCCACCAGCGCGGTGTGTGTGGCTGGCGTGGAGACCCTCGTGGACATTTATGGGTAAGAGTCAGAGGCCTAGTG
Celera SNP ID:            hCV9779109
SNP Position Genomic:     6054
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,11)      total(A,11|C,1) ;JBIC-allele(C,229|A,1236)   total(A,1236|C,229)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40264):
GGGTTTCATTGTCTTAGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCGT
R
CCTGGCCGCTTATTTTTTAAATAATCAGACAATATGGAAGTATAGAAAATGAAACCTGAGAGTTCTCTACCCGTCTCTAAATCTGACTTTTTTTTTTTTT
Celera SNP ID:            hCV1296863
SNP Position Genomic:     25702
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40265):
GTGAGCCACCGTGCCTGGCCGCTTATTTTTTAAATAATCAGACAATATGGAAGTATAGAAAATGAAACCTGAGAGTTCTCTACCCGTCTCTAAATCTGAC
T
TTTTTTTTTTTTTTTTGAGTCAAGGTCTTGCTCTGTTGCCCGGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAGCCTCCACCTTTCAGGCTCAAG
Celera SNP ID:            hCV1296864
SNP Position Genomic:     25790
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40266):
GTACCACCACACCCTGCTAATTTTTTTTTTTTTGTAAAGACAGGGTTTCACCATGCTGCCCAGGCTGGTCGTGAACTCCTGGGCTCAAGCAATCCACCCG
M
TTTGGCCTCTCAAAGTACTAGGATTATAGGCGTGAGACGCCGCACCTGGCCTGAATCTGATTGTCACTGTTAACGAGTTGGGATGTGTGCTTCCCAACTT
Celera SNP ID:            hCV1296866
SNP Position Genomic:     26036
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,12)   total(A,2|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40267):
GGGCTTTCATGACTGGAGCCAATGAATTGGCACCCTGGGCTGGAGGGGTGGGGCCAGGGGCTTTTAAACCTCATCCTAAGGGGCCTCAGGGGCAGTGTTG
R
GGTTGGCGGCCACAGCTAAGTCCAACACCAGCATGTCGCTGCAGAGAATCGTGCGTGTGTCCCTGGAGCATCCCACCAGCGCGGTGTGTGTGGCTGGCGT
Celera SNP ID:            hCV27857004
SNP Position Genomic:     6009
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(G,38)   total(A,5|G,69)
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:40268):
TGGGAAAGAGTACCCCCTGGGGAGGATCCTCATTGGGGGCAACCTGCCTGGGTGAGAGAGAGACAGGGAATGGAGTTCCTGGGGTGGAGGCTGAGGGTTG
R
GGGTGGTGATGATGGTGGAGCAGGGGCCATTGCACTCCTTGAAGAGAGCCAGAAGCAAGGAATGATGAAATTATACTCCCGGATGTGGTGGGGTTGGTGG
Celera SNP ID:            hCV25604781
SNP Position Genomic:     31734
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40269):
CTGTTCCAGGGGGTTGTTGGTGGGTAACAGTGCCGTGTCCCTCCTTGCGGCTTGCCTGCCCCTTACCCAAATTAAGACACATCATGGCTTGAGAGGGGGA
R
GGCAAGTTTTAAAGCAGGGGTGTGTCCCCAAATTCAGGGCTTCTCACTCCTGCCCCTGCACACCTTGCTTCACCAGACACCACTGCCCACAGCTGGGGCC
Celera SNP ID:            hCV25604782
SNP Position Genomic:     33856
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,39)   total(A,2|G,76)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40270):
GCTCAGCTGAATCTGTTCTCTGCACGCAGGGCTTCCGGATGCTCCTGGCCAGCCCTGGGGCCTGCTTCAAGCTCTTCCAGGAAAAGCAGAAGTGTGGCCA
Y
GGGAGGGCCCTCCTGTTCCAGGGGGTTGTTGGTGGGTAACAGTGCCGTGTCCCTCCTTGCGGCTTGCCTGCCCCTTACCCAAATTAAGACACATCATGGC
Celera SNP ID:            hCV25604783
SNP Position Genomic:     33743
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:40271):
TCTTGAATTTAACCCTTACAACAACCCTGTGAGCTAGGCTTATTATTAGCATCATCTCATCAGACAAATGAGAAAACCGAGGCAGAGAGGGCAAGCCATT
Y
GCTCAAGTCACACAGTTACTAAGTGGCAAAGCCAGGGTTTAAACCCGCTTGTGGTCTTACTCAGGAGTCTTATGGTTTTAGCTGCTCTGATACTTGGAAA
Celera SNP ID:            hCV9779110
SNP Position Genomic:     6737
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40272):
TGGGCAGACCCAGCATAAAGCCCTGGAAACAGATTGCCTCTCAAAGTTGCTCCCTGTGCTCTAGGTTGGTGTGGGTGGGGCAACTGAGCAGTGAAAAACC
Y
AACCCCAAGGCGGACGAGAAGCAAAACACAGTTGAACACGGCATCCACCTGTCCACACAGCAAAGGACAGGGTCAGTGCATTACTTTTTGAAGGCTACTA
Celera SNP ID:            hCV16181601
SNP Position Genomic:     42019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40273):
TTATGCTCCTACTGTGTGCCAGGTCATGCCTTTGAGGCCCATGGTAGAGGGAGGTAAGGCCTTATCTTCTCTCTCTTAGGAAGAAAAGAGGGTTAGGGTA
K
GGTTTTAAGAGCTGGGCTCTGGGGACCACCAGGGAGCTGGCTTCTTAGGCTTTTGGGGAGAATCCAGGGTCCTGGCTTGGAGGTAATCAGGATACTGGGA
Celera SNP ID:            hCV16193764
SNP Position Genomic:     6985
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40274):
TATGGTTTTAGCTGCTCTGATACTTGGAAAATAAAGATTTCCAACCTGGTTTCCTCTAGACACTCAATGCCCATGCATTATGCTCCTACTGTGTGCCAGG
Y
CATGCCTTTGAGGCCCATGGTAGAGGGAGGTAAGGCCTTATCTTCTCTCTCTTAGGAAGAAAAGAGGGTTAGGGTAGGGTTTTAAGAGCTGGGCTCTGGG
Celera SNP ID:            hCV9779117
SNP Position Genomic:     6908
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40275):
TCCCATAACATGTGGAGATGCTTCCTGGAGTCTGTTGGGTTGTGGCTGCTCATGTGGCTGAGGGGCCCGCGAAGCTGGTCACCTTTGGGATTCATCACAG
R
TGGGCTTGGAGAGCAGTCCCCAGGCTGGTTCAGTGAGACATCTCTGGGGTCTTACACGCCACTTCATTTTTTAGTTGGGGAAACTGAGGCCTGGAGTGTG
Celera SNP ID:            hCV16193768
SNP Position Genomic:     9831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40276):
TATCTTCTCTCTCTTAGGAAGAAAAGAGGGTTAGGGTAGGGTTTTAAGAGCTGGGCTCTGGGGACCACCAGGGAGCTGGCTTCTTAGGCTTTTGGGGAGA
M
TCCAGGGTCCTGGCTTGGAGGTAATCAGGATACTGGGAGGGGAGGGTGCAGAACTGTGGGACAGCTCTCACCTCTCAAGTCTCCCAGCCCTCTCCTCAGG
Celera SNP ID:            hCV9779118
SNP Position Genomic:     7047
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,8)   total(A,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40277):
CAGGGAGCTGGCTTCTTAGGCTTTTGGGGAGAATCCAGGGTCCTGGCTTGGAGGTAATCAGGATACTGGGAGGGGAGGGTGCAGAACTGTGGGACAGCTC
Y
CACCTCTCAAGTCTCCCAGCCCTCTCCTCAGGCCAGGTTTCTCAACCTCAGCACTGCTGTCACGATACCTCTTTGTCATGGGGGCCACCCTGTGCACTGT
Celera SNP ID:            hCV9779119
SNP Position Genomic:     7115
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40278):
GGTTCTCAACCCTGGAAGTGTGTTTCAATCACCTGGGGATCCATAAAAAAATTGATGCCCAGGCCCCACCTTGGGAAACCTGATTCAACTCATCTGTGAA
R
GGCCCCAGCACCCTAGGTTTTCAGGATCCGCTGGGGATGAATGTGCAGCTGGGGCTAAGAACCGCTGCCCTCACTGGGAAGACAAACAACTCATGTCACC
Celera SNP ID:            hCV16193769
SNP Position Genomic:     10560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40279):
TCCGTAGTGTGAGGAACAACACGTGTTTTGTGGATGCGGTGGCAGAGCTGGCCAGGAAGGCCGGCTGCAAGCTGACCATCTGCCCACAGGCCGAGAACCG
Y
AACGACCGCTGGATCCAGGTAACCACAGCCACTGGGCAGGGCCCAGCAAGGACGCCATCCTGGAGAGAGAGGCCTTCATTTGGGGGCCACCGAGAAACAT
Celera SNP ID:            hCV1296871
SNP Position Genomic:     28064
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,39|T,1)   total(C,72|T,4)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,11)      total(C,11|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40280):
CCGAGAACCGCAACGACCGCTGGATCCAGGTAACCACAGCCACTGGGCAGGGCCCAGCAAGGACGCCATCCTGGAGAGAGAGGCCTTCATTTGGGGGCCA
Y
CGAGAAACATCCAGGAGGACCTGGGTGCTCCCCAGGGAACTTGCTGCCGTTTCTAATGTGAGACCTAGAGGCTTCTCTCCAGAACCTTCTGGAGACCCAC
Celera SNP ID:            hCV1296872
SNP Position Genomic:     28154
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,39|T,1)   total(C,74|T,4)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40281):
TCCTGTATTTTTATTTACTGAATCTGGCAGCCCTAAATAGGGGAGGCAGGATGGTGCACCTGTTCAGAGCACAAGCTTTAGGGTCAGACCAACCCTGTTC
Y
GTTACTTACATGCTGTGTGATGTTGCGTGAGTTACTACCGCTCTCTGAGCCTCAGTTTCCTCATCAGTAAAAATGACATTTTGGCCCTGGCCTCACAGGG
Celera SNP ID:            hCV1296873
SNP Position Genomic:     30726
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,11)   total(C,11|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40282):
ATGTTGCGTGAGTTACTACCGCTCTCTGAGCCTCAGTTTCCTCATCAGTAAAAATGACATTTTGGCCCTGGCCTCACAGGGGTTTGTGAAGCATCTCATC
M
TCACAGTACCTGCATGGAGGGAGTGTGTGTGCGCGCACCACTATTAGCTAGTATCATTATTTTAAGAAAAAGGATAACAGGGAAGGTGATGATTGCTAAC
Celera SNP ID:            hCV1296874
SNP Position Genomic:     30846
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|A,8)      total(A,8|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40283):
TCAGTTTCCTCATCAGTAAAAATGACATTTTGGCCCTGGCCTCACAGGGGTTTGTGAAGCATCTCATCATCACAGTACCTGCATGGAGGGAGTGTGTGTG
Y
GCGCACCACTATTAGCTAGTATCATTATTTTAAGAAAAAGGATAACAGGGAAGGTGATGATTGCTAACGAGGACCTCTTGAGAAAACAAGAGTGACTTGC
Celera SNP ID:            hCV1296875
SNP Position Genomic:     30878
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40284):
CAGAGGCCCACATCAGCAGCCTCTTGGTTCCCACAATTGGCCACTTGAGCTGCTACTTGCCCTTGGGCTGAACTTGCAGGAAGGCTGTGTAGGTAAGGGG
R
TGGAGTGGCCATGGCCTCAGGCTCCATGTCCGATGGGGAGTGCAGGAGCAACCGGAGCGCCCCCTGCTGTCTTGCCGTGATAAGGCAGCAGGGCCAGAGA
Celera SNP ID:            hCV1296876
SNP Position Genomic:     31225
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,12)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40285):
CCCCACCCACCGCCAATGACTCTGTATTTCCACCTGAAGAATGGATGGCCTTTCCCACCCTGTCTTGAAGGAGCTCAAAGCCCAGCAAGTTGGTTCAGGC
Y
CTTCCTGGTACCCTCCACCCCCGCCTGACTTGGTTTCCCTCTCCAGGGTCCAGATTTTGGTTACGTGACTCGGGAACCACGCGACAGGTCTGTGAGTGGC
Celera SNP ID:            hCV1296877
SNP Position Genomic:     31486
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,15)   caucasian(C,25|T,15)   total(C,48|T,30)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,11)      total(C,11|T,5) ;no_pop(C,-|T,-)   JBIC-allele(T,308|C,1175)   total(C,1175|T,308) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:40286):
GCAGAACTCACCCTAAGTGGAATTTTAAAATATACGTATCTGGCTGGGTGCAGTGGCTCATCCCTGTAATCCCAGCACTTTGTGAGGCTGAGGCGGGCAG
W
TCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTAGTAAAAATACAGAAAAATTAGCCTGGCCTGGTGGTGCACGCC
Celera SNP ID:            hCV1296878
SNP Position Genomic:     33010
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,11)   total(A,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40287):
AACTTCGTGCATGACGTGTCTTTCCCTGGCATCTGGGGCAAGAACTGAGCTCCAGGGCGCCATGCCAAGGCAGGAGGCTCAGCTGAATCTGTTCTCTGCA
Y
GCAGGGCTTCCGGATGCTCCTGGCCAGCCCTGGGGCCTGCTTCAAGCTCTTCCAGGAAAAGCAGAAGTGTGGCCACGGGAGGGCCCTCCTGTTCCAGGGG
Celera SNP ID:            hCV1296879
SNP Position Genomic:     33667
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:40288):
GTGGGTAACAGTGCCGTGTCCCTCCTTGCGGCTTGCCTGCCCCTTACCCAAATTAAGACACATCATGGCTTGAGAGGGGGAGGGCAAGTTTTAAAGCAGG
K
GTGTGTCCCCAAATTCAGGGCTTCTCACTCCTGCCCCTGCACACCTTGCTTCACCAGACACCACTGCCCACAGCTGGGGCCGAGCTGAGGTGGGAAGCGG
Celera SNP ID:            hCV22273243
SNP Position Genomic:     33875
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,2)   caucasian(G,34|T,6)   total(G,68|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:40289):
CAGCAAGTTGGTTCAGGCCCTTCCTGGTACCCTCCACCCCCGCCTGACTTGGTTTCCCTCTCCAGGGTCCAGATTTTGGTTACGTGACTCGGGAACCACG
Y
GACAGGTCTGTGAGTGGCCTGGACTCCTTTGGGAACCTGGAGGTCAGCCCTCCAGTGGTGGCCAATGGGAAAGAGTACCCCCTGGGGAGGATCCTCATTG
Celera SNP ID:            hCV22274699
SNP Position Genomic:     31568
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,34|T,6)   total(C,70|T,8)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40290):
TGGGCAACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGCATGCAGTTTATATAGCATTTTGACTTAGCACTCTCACCCTAATAACCTCCT
Y
CTGGCAATCTTCATTTCACCCATAACAAAGGGCCTCAATCCCCTGTACAGCCTGCATTCTACGAGATAAGTGGTGGGTCCCAATGTTCCTCATAGATAAG
Celera SNP ID:            hCV11556154
SNP Position Genomic:     42896
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40291):
GCGGGGCTGGAGGCAAGGATGGGATACAGACATCTGAGGCTAACTGTTCATGAAAGCTCAGGTTAGAACAGGCCCAGACAGAGGGGTCCCAACACCCTCT
Y
TTGACCCAGAAGAAGTGAGGGGAGCGACAGGATGCCTTGGTGCCCCCAAAACACACTGGCAAGGTGTCCCCAACTCTGGCCCTCCCCTGCCCCCAGAGCT
Celera SNP ID:            hCV25604793
SNP Position Genomic:     37472
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(C,1|T,39)   total(C,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:40292):
CAGACATCTGAGGCTAACTGTTCATGAAAGCTCAGGTTAGAACAGGCCCAGACAGAGGGGTCCCAACACCCTCTTTTGACCCAGAAGAAGTGAGGGGAGC
R
ACAGGATGCCTTGGTGCCCCCAAAACACACTGGCAAGGTGTCCCCAACTCTGGCCCTCCCCTGCCCCCAGAGCTGCATCGACTGGAACCGTGAGGTGCTG
Celera SNP ID:            hCV25604794
SNP Position Genomic:     37498
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:40293):
CGACTGGAACCGTGAGGTGCTGAAGCGGGAGCTGGGCCTGGCAGAGTGTGACATCATTGACATCCCACAGCTCTTCAAGACCGAGAGGAAAAAAGCAACG
R
CCTTCTTCCCTGACTTGGTGAGGGCACTACCCATGACTCCTTTGCCAAATCAGGCTGCAAACCTCTAAGCTCGAGAGAGGAAAAATGTCTGGTCACAGTC
Celera SNP ID:            hCV25604795
SNP Position Genomic:     37677
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40294):
GCTCAGCCCTTGCCCATGGACACTGGAGGCCCAAGGAACAGCTTTGGGGTTGAGGGAGTTCCATAAAAAGTGTACAGGCTTCAGCCAGGCGCGGTGGCTC
R
CGCCTGTAATCCCAGCTGGGAGGCTGAGGCAGGCGGATCACTTGAGGTCAGGAGTTCAAGACCAGTCTGGCCAATATGGTGAAACCCTGTTTCTACTGAA
Celera SNP ID:            hCV16193770
SNP Position Genomic:     13677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40295):
CTCCTCCCCACCTCATCCCCTAAAAGAACTCAATTTGCCCATTGTCAGAGCCTTGTGGGGAACCTGTCCACACCACCATTGCTTCATGCCCCGCTTTTTC
S
TTCCTCTTTTCAGGCAACATTTTGCCCTCCGCTTGCAAAGCCTCTTTTCACTCCCCTTCCTTCCTGTTCGAGGCTATCTTGTAATTATATATGTGCCCCA
Celera SNP ID:            hCV27498216
SNP Position Genomic:     38949
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,66|C,1433)   total(G,66|C,1433) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40296):
AAAAAAAATAGCGAGGTATAGTGGTGTACACCTATAGTCCCAGTTACTTGGGAGGCTGAGGTGGGAGGATCACCTGAACCCCAGGGAGGTTGAGGTTGCA
R
TGAGCCATGATCACCCCACTGCACTCCACAGCCTGGGCAACAAAGTAAGACCCTGTCTCCAAAAAATAATAATAATAAAGGGCAGTGGGGAGGGCTCCAT
Celera SNP ID:            hCV16193771
SNP Position Genomic:     27496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40297):
CAGCTTAAAGTTTTTCTGCTAAGCCTCCACAAATGGATACATAAACTCCGTGCAAGATGGCTCAGATGTTGGAGCTATCAGACAGGGCATGCAAAGTAAT
M
GTGATTAATATGTTAAGGGTTCTAGTGGAAAAGGTAGACAATATGTATGAACAGATGGGGAATTTCAACAGAGAAGAAAATCAATAAGAAAGAGTCAAAT
Celera SNP ID:            hCV16193772
SNP Position Genomic:     19457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40298):
TGCCCTCACCTCTTGGATGGTGTCTCCTTAGAAATGACTTGCCTTTGCTCAGCCCCAGACAAGCCCTGAGATCAAGGCCTGCCCTGGGCTCCTGGGAACC
Y
TGTAGTGACTTACCCTCTGCCTCCTCTTGCAGACATCTCTCTGGATTGCGACCTGAACTGTGAGGGAAGGCAGGACAGGAACTTTGTAGACAAGGTAAGC
Celera SNP ID:            hCV22274267
SNP Position Genomic:     22532
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(C,3|T,37)   total(C,5|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:40299):
TGGGCGTCTTTTGCCCTATGCTATGTTTGTGAGATTTATCCACTTGTTGCATGGTGGTTGAGTATCTTTTCACATGTTTAAAAATCATTTCAGGCCACGC
R
TGGTGGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCTGGGGTGGGTGGATCACTTGAGCCCAGTAGTTCAAGACCAGCCTAGGCAACATGGTGAAATC
Celera SNP ID:            hCV16193773
SNP Position Genomic:     21641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40300):
AACTAAGAAGACTGCTTTTTTTTCAGAGCAGAAAGATTGATTCTGACCTCCTGAATGCTCCATTTGCATTATGAAATCTCACCCAGTGTCTAGGGCTAAA
Y
GTTAAGAAGGTGGGATGGGGGTGGGATTTGGGGACTGCGAGTAGCTCAGAAAGGACACACAGCCAGGAGGCGGCAGAACCTGGGTTTGTGTTCACATCTG
Celera SNP ID:            hCV16193774
SNP Position Genomic:     22090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40301):
CAGATGTGTCTCCGGTTTGACCTGTCCCAGGAAGCCTGGGCCTGGCTCCTCCCCCGCAGAGCTTCCTTAGAGGATAGAGGATGGATTGGGGCAATAAGAG
R
TAAAGGCCATAGCTTCCTGGAGTCACCTGAGCCACACTGGAGGTTTGCAGAGAAGGCCATCGGTGGGACAGCCACAGGGTGGGGGATGGAAGCTCTGATA
Celera SNP ID:            hCV9779126
SNP Position Genomic:     7803
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,12)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40302):
AGCAGTGCCTGTAAGCGCTTTCCATATGTTAACTAATTCTCACAAAATTCTCAAGTGGGCACTGTCATCATCGTCATTTTATAGATAAGAAAACAAAGGC
M
CAGAGAGGTTAAACAACTTGTCCAAGGTCACATGGCCAGTGAGTGGCAGAGCCAGGATGTAACCCAGTTTGGCCTTACTTCAAAGGGCAGTTAGGGGCAT
Celera SNP ID:            hCV9779127
SNP Position Genomic:     8510
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40303):
TGAGCCATGCACTGGGCGTCTGGTGGCTGATTAACTCCTCCCTGCAACTGGAGGCAGGCTCAGCGGGATGGTGGTCTGACAAGTGCTATCCCACAGGGCT
R
TAGGGCTTGAACCCAGATCCCATCAAGTTCCACAGCCCAGGTGGTTTGCTTGGTTCCACACAGCTCTTTCTCAAGGCTCAGGCATCAGCACAAACCTTAG
Celera SNP ID:            hCV9779128
SNP Position Genomic:     9159
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40304):
AATGTGAAATAGCAAATAAAAACCACCCTGACAAGTCAGGAGAGAGACTCGGGGACAAAGAAACAACTTTATACTGTAGCACTTTTAATGGTACTCTTTT
S
TCTGCTCTTTAAACAAGGAGCTGGCATTTTCTTTTCTTCTTTTTTGAGACAGGGTCTATCAGCCAGGCTGGAGTGCAGTGACATGATCTCAGCTCACTGC
Celera SNP ID:            hCV1296880
SNP Position Genomic:     35104
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|G,6)      total(G,6|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40305):
GAAACAACTTTATACTGTAGCACTTTTAATGGTACTCTTTTGTCTGCTCTTTAAACAAGGAGCTGGCATTTTCTTTTCTTCTTTTTTGAGACAGGGTCTA
Y
CAGCCAGGCTGGAGTGCAGTGACATGATCTCAGCTCACTGCAGCCTCGACCTCCCAGACTTAAGCGAGTCTCCCACCGCAGCCTTGCGAGTAGCTAGGAC
Celera SNP ID:            hCV1296881
SNP Position Genomic:     35163
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,7)   total(C,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40306):
GCGAGTCTCCCACCGCAGCCTTGCGAGTAGCTAGGACCACAGGCATGCACCACCACGCCTGGCTAATTTTTTGTATTTTTTGTAGAGATGGAGTCTCACC
R
TGTTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGTGATCTGTCTGTCTTGGCCTCCCAAAGTATGGGATTACAGGTGTGAACTACTGTGTCTGGCCAG
Celera SNP ID:            hCV1296882
SNP Position Genomic:     35327
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40307):
TTGACCCTGTTGCTCCCAAACGCACCCTAACTAGACTCCGGTGAACCTAGAGTAAGTCTTAGAAATCCTTAAATCCAAATTATGTACCAGGCAGGGAGAA
R
TGCCACCTTCATCTTTCCTGGGAGAACTTATGGTGAGCAAGACCCAGGAATGGGTTGAGCAGAGTTATTCCAACCTGCCCAGCTGGGAGGGAGCGTGGGA
Celera SNP ID:            hCV1296883
SNP Position Genomic:     35950
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,9)      total(G,5|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40308):
CATCACTAAGGTATCCCGGGCAGGTGTCTCCTAAGAGACCACACCTGGCAATGAGCCATGAAGCTCCTCTTTTCTCCAGCTCAGAGGTTCTCAACCCTGG
M
AGTGTGTTTCAATCACCTGGGGATCCATAAAAAAATTGATGCCCAGGCCCCACCTTGGGAAACCTGATTCAACTCATCTGTGAAGGGCCCCAGCACCCTA
Celera SNP ID:            hCV16181473
SNP Position Genomic:     10475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40309):
AGCCACCCCACCCTCGAGGGCTGACACTCAGGCAGTGACTGTGGCGATTAATTACATAGACACAGAGGCCAGACACAGAGGCCAGAGCACTGATTAGACA
M
CTCAGTGCGCCAGGCCTCACGCTGTGTGCATCACACGTGTTATCTCATTTGATCTCACGAGAGATCAAATGGGATGACTCTCACCCACCTTTATTCCCAA
Celera SNP ID:            hCV1296884
SNP Position Genomic:     36177
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,11)   total(A,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40310):
GGCTGACACTCAGGCAGTGACTGTGGCGATTAATTACATAGACACAGAGGCCAGACACAGAGGCCAGAGCACTGATTAGACACCTCAGTGCGCCAGGCCT
M
ACGCTGTGTGCATCACACGTGTTATCTCATTTGATCTCACGAGAGATCAAATGGGATGACTCTCACCCACCTTTATTCCCAAGAATGTGAGGCTCAGAGA
Celera SNP ID:            hCV1296885
SNP Position Genomic:     36195
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,11)   total(A,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40311):
GGCGGGGCTGGAGGCAAGGATGGGATACAGACATCTGAGGCTAACTGTTCATGAAAGCTCAGGTTAGAACAGGCCCAGACAGAGGGGTCCCAACACCCTC
Y
TTTGACCCAGAAGAAGTGAGGGGAGCGACAGGATGCCTTGGTGCCCCCAAAACACACTGGCAAGGTGTCCCCAACTCTGGCCCTCCCCTGCCCCCAGAGC
Celera SNP ID:            hCV1296886
SNP Position Genomic:     37471
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,15|T,25)   total(C,29|T,47)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,16)   caucasian(C,6|T,14)   total(C,18|T,30)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,7)      total(C,7|T,7) ;no_pop(C,-|T,-)   JBIC-allele(C,304|T,1197)   total(C,304|T,1197)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40312):
GGGTGGCAGGGAGAATCAGGGGTCCTATGGTGCTCCTCAGAAGGGCTTCTAGCTGGCTGACCACCATGGTCCCTGTGGAATGCTTGCTGGCCAAGCCCTG
S
CCCAAGGGGCATCAGGGAAGGGGTCCACTTGACATTTGTGGAGTGAATGAATGATTGCATGAGGTCACGTGTGCAAAGCACATGGCATCAGCTGGGAACC
Celera SNP ID:            hCV1296887
SNP Position Genomic:     37904
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,12)   total(G,12|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40313):
TTGCATGAGGTCACGTGTGCAAAGCACATGGCATCAGCTGGGAACCCAGATGCTCATTCTGCTCTCTTCCTCCCAGCTTGTGGCTCTTCATCCATCCCAC
R
TGTATTTAGGGTGTCCTGTGGCAGATGCAGAGATGATTAAGAATGCCCCCTGCTCTCAAGGGACTTTCAGTCTAATCGGTTGAGAGGGAAACTCTTCCCT
Celera SNP ID:            hCV1296888
SNP Position Genomic:     38059
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,12)   total(G,3|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40314):
GTTTCCTCACCTGTTGCCTGGGGATGATAATAATATCAGCAATGGCACTGAATGCCACTCCCCAGCAGTGCCTGTAAGCGCTTTCCATATGTTAACTAAT
Y
CTCACAAAATTCTCAAGTGGGCACTGTCATCATCGTCATTTTATAGATAAGAAAACAAAGGCACAGAGAGGTTAAACAACTTGTCCAAGGTCACATGGCC
Celera SNP ID:            hCV28025734
SNP Position Genomic:     8447
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40315):
GCAAAGCCTCTTTTCACTCCCCTTCCTTCCTGTTCGAGGCTATCTTGTAATTATATATGTGCCCCAAGAAGTTTGTGCAATGATTCAGGTTCTTGTGTTC
R
CAAGAGACAGAGTCCTACTGAAGCCAGCTTCAGCCAGAGGGAGTCTTAATATAAGGACACCAGAAACCTGAGGGCAGGATAGCTGCAGCAGAGCCTGGAA
Celera SNP ID:            hCV1296889
SNP Position Genomic:     39084
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,8)      total(G,8|A,6) ;no_pop(A,-|G,-)   JBIC-allele(A,302|G,1195)   total(G,1195|A,302) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:40316):
GACAGCCTCAAGCATCCCCAAACCTGCCATATGCAGGATGTCTGGGGAACAGTCTCTGGACCGTATTGGGAGAAGGAGTTGAGAAAAGAGAAATTTACAT
Y
TGACTCATGGCTGAGTCAGGGCAGTCTTCCTGGAGGAGGGGCACCAATCAGACCCTTGAAGGATGAGGACAAGCAAGTCTGTTGGGCCTCTCTATCTGTG
Celera SNP ID:            hCV28025735
SNP Position Genomic:     8828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40317):
CCTGGGTCTTGGTCTCCTCTGCCCCCACATCCCAGCTCGGTGGAGACCTCGTTGGTCATCTTGTCAACCTTTCGGTGTTCAGCCATGGGGAACTTTCCCA
W
CAGTTTCTCAGCTCCTAAAATGTCTGATTTTGTTCTCCCAGAAGTCCAGGCCCTGAGTCCATGAAGGGAGAAGATGGGTTTGGGTTTGCAGGCGAGTGGG
Celera SNP ID:            hCV27981958
SNP Position Genomic:     11268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40318):
TTCTGTCAACATCGGATTTTGTTTGATGCGAGAGCTCTGACCTGCCTGTGCAGAGAGCTGGGCCCTTGGGGGGATTGGTGCATTTCTGCTCTTTTAAATA
Y
GGGGGATTTGGAAAAAGGGTATACGGGGCTGCCACTTTCCAGTGGTGGGGTGGGGCAGGGCCACCCAGATTACAGTGGGACCATGATTTCCTGAACCTGA
Celera SNP ID:            hCV27960473
SNP Position Genomic:     10977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40319):
CTCTGCCTGGGCCCAGGAAGCAGGAGTGCAGTTGGAGCTTGCTCTAGGTTGGGTTAAGAAGGATGAGGCCATTACAGATATCCCCCTGCCTCCCAGCTGA
Y
GCCGAGACCAAGGGCCAAAAACAGAAACCAGGCATGGCTGGGGATCTTCTTTCACCAGGAGAAAAATCATCGCCAGGAATTATCAGGCATGGAGGTACCC
Celera SNP ID:            hCV22274276
SNP Position Genomic:     22735
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,26)   caucasian(C,3|T,37)   total(C,15|T,63)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,136|T,1159)   total(C,136|T,1159) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40320):
CTGGGCCCAGGAAGCAGGAGTGCAGTTGGAGCTTGCTCTAGGTTGGGTTAAGAAGGATGAGGCCATTACAGATATCCCCCTGCCTCCCAGCTGATGCCGA
R
ACCAAGGGCCAAAAACAGAAACCAGGCATGGCTGGGGATCTTCTTTCACCAGGAGAAAAATCATCGCCAGGAATTATCAGGCATGGAGGTACCCAGCCCT
Celera SNP ID:            hCV22274277
SNP Position Genomic:     22741
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,3|G,37)   total(A,10|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:40321):
TGCTGGTGCTGGGGAAGCACCTGGGCATCCCCAAGCCCTTTGGGCCCATCATCAATGGCTGCTGCTGCCTGGAGGAGAAGGTGCGGTCCCTGCTGGAGCC
K
CTGGGCCTCCACTGCACCTTCATTGATGACTTCACTCCATACCACATGCTGCATGGGGAGGTGCACTGTGGCACCAATGTGTGCAGAAAGCCCTTCTCTT
Celera SNP ID:            hCV1296890
SNP Position Genomic:     39852
SNP Source:               Applera
Population(Allele,Count): african american(G,8|T,14)   caucasian(G,14|T,22)   total(G,22|T,36)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,7)      total(G,7|T,5) ;JBIC-allele(G,498|T,997)   total(G,498|T,997)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40322):
CTGCACCTTCATTGATGACTTCACTCCATACCACATGCTGCATGGGGAGGTGCACTGTGGCACCAATGTGTGCAGAAAGCCCTTCTCTTTCAAGTGGTGG
M
ACATGGTGCCCTGAGACAGCTCCCACCCACCATCCTGTCCCCCTGGGGCGGGCATTGGCCCAGGTGGTGGAGACAGAGACAGGCCCCTGAACGATAAGCA
Celera SNP ID:            hCV25604805
SNP Position Genomic:     39964
SNP Source:               Applera
Population(Allele,Count): african american(A,22)   caucasian(A,35|C,1)   total(A,57|C,1)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:40323):
TTAGCCAGTTACCTTCTCATTGCACAGGAAAGGGTGAGTAGCTATTGACAAGGCTGTCTAAAACACAAACCTAGGTCCTGCAGGTAGAGTAGAGGTGTGG
K
GTGGGAGCCCAGTGATGAAGTGCTGCTTCCCCTTTGGACTGCAGGTGAACATGCTGGTGCTGGGGAAGCACCTGGGCATCCCCAAGCCCTTTGGGCCCAT
Celera SNP ID:            hCV25604806
SNP Position Genomic:     39700
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,1)   caucasian(G,38)   total(G,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:40324):
GGACTGCAGGTGAACATGCTGGTGCTGGGGAAGCACCTGGGCATCCCCAAGCCCTTTGGGCCCATCATCAATGGCTGCTGCTGCCTGGAGGAGAAGGTGC
R
GTCCCTGCTGGAGCCGCTGGGCCTCCACTGCACCTTCATTGATGACTTCACTCCATACCACATGCTGCATGGGGAGGTGCACTGTGGCACCAATGTGTGC
Celera SNP ID:            hCV25604807
SNP Position Genomic:     39836
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,21)   caucasian(A,1|G,33)   total(A,2|G,54)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40325):
AGAACAGACTGGACCCATTCCCACTGGGCTTTCCCATAACATGTGGAGATGCTTCCTGGAGTCTGTTGGGTTGTGGCTGCTCATGTGGCTGAGGGGCCCG
Y
GAAGCTGGTCACCTTTGGGATTCATCACAGGTGGGCTTGGAGAGCAGTCCCCAGGCTGGTTCAGTGAGACATCTCTGGGGTCTTACACGCCACTTCATTT
Celera SNP ID:            hCV27268782
SNP Position Genomic:     9800
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40326):
ATTGCACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGCTTCCTTGGGAGATGGAAGGCG
R
GTGCCTCAGGAGCGTGGCTGAGGGTGTTCCCGAGGGTATGAGAGGCTGCTCTTCCTACCTGGGTTTGTCTTCCTGTGTCTCTTTCCGACTCCCTGTCTCT
Celera SNP ID:            hCV27268783
SNP Position Genomic:     13988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40327):
TCTGCAAGTTACAGACACATACCATGTGTCCTTGGAAAGCCTTATCATCCCCTTGGGGCCTCTGTCTGCCATCTGTAAAATGGGATAATCATAACCCCTG
Y
CTCCTATCATTGCTGTGGAGTGCCATAGGAGCCAGTGTTGCTCCTTCTCTTGCTTCCCAAGACCCCCTGGAGAAGGAGTTGTCCCAGTTCTGCTGAGTTG
Celera SNP ID:            hCV27268784
SNP Position Genomic:     16915
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,12)      total(C,1|T,12) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40328):
GCATGCAAAGTAATCGTGATTAATATGTTAAGGGTTCTAGTGGAAAAGGTAGACAATATGTATGAACAGATGGGGAATTTCAACAGAGAAGAAAATCAAT
A
AGAAAGAGTCAAATGGAAATGCTAGACATAAAAACCATAGTAATAAGAGATTTTAAAAATGCTTTTGAAGGTTTCACCAGTAGACTTGACACAGCTGAGT
Celera SNP ID:            hCV27268785
SNP Position Genomic:     19543
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40329):
CATGCAAAGTAATCGTGATTAATATGTTAAGGGTTCTAGTGGAAAAGGTAGACAATATGTATGAACAGATGGGGAATTTCAACAGAGAAGAAAATCAATA
A
GAAAGAGTCAAATGGAAATGCTAGACATAAAAACCATAGTAATAAGAGATTTTAAAAATGCTTTTGAAGGTTTCACCAGTAGACTTGACACAGCTGAGTA
Celera SNP ID:            hCV27268786
SNP Position Genomic:     19544
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40330):
ATGCAAAGTAATCGTGATTAATATGTTAAGGGTTCTAGTGGAAAAGGTAGACAATATGTATGAACAGATGGGGAATTTCAACAGAGAAGAAAATCAATAA
G
AAAGAGTCAAATGGAAATGCTAGACATAAAAACCATAGTAATAAGAGATTTTAAAAATGCTTTTGAAGGTTTCACCAGTAGACTTGACACAGCTGAGTAA
Celera SNP ID:            hCV27268787
SNP Position Genomic:     19545
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,10)   total(G,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40331):
TGCAAAGTAATCGTGATTAATATGTTAAGGGTTCTAGTGGAAAAGGTAGACAATATGTATGAACAGATGGGGAATTTCAACAGAGAAGAAAATCAATAAG
A
AAGAGTCAAATGGAAATGCTAGACATAAAAACCATAGTAATAAGAGATTTTAAAAATGCTTTTGAAGGTTTCACCAGTAGACTTGACACAGCTGAGTAAA
Celera SNP ID:            hCV27268788
SNP Position Genomic:     19546
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40332):
GTATGAACAGATGGGGAATTTCAACAGAGAAGAAAATCAATAAGAAAGAGTCAAATGGAAATGCTAGACATAAAAACCATAGTAATAAGAGATTTTAAAA
R
TGCTTTTGAAGGTTTCACCAGTAGACTTGACACAGCTGAGTAAAGAATCAGTGAACTTGAAGATAAGTGAATAAAAGTTACCCAAACTGAAACCCAAAGA
Celera SNP ID:            hCV27268789
SNP Position Genomic:     19602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40333):
CATGCTGGCAGCTCGAGGTGGCCTGGAGAGGAAGGACTTTGTCCAGGTGAGGCTCCAGGTACTTCCCCTGTTCTCTAGGAAATGGGAAGCTAGATCCTCC
Y
GTACCTGATGCAGGTTCTCCTCCCAGCAGCTGCCCCTCTCATTCTCCTAACACACAGCTTTCATGACAGGCATGAGCACTGGACTGGAAGTCAGCAGCCC
Celera SNP ID:            hCV9779146
SNP Position Genomic:     12497
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,11)   total(C,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40334):
TGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTCGACCTCAAGTGATCCGCCCGCCTCGGCTTCCCAAAGTGCCTGACCTCAAGTGATCC
M
TCCGCCTCGGCTTCCCAAAGTGCTGGGATTAAAGGAGTGAGTCACCACGCCCGGCCGACTGTGTATATGTTTGTGTGGGGTCCAGGCTTGACTCGCAGGA
Celera SNP ID:            hCV9779147
SNP Position Genomic:     16246
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,9)   total(A,9|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40335):
GGTGCAGTCCCTGCTGGAGCCTCTGGGCCTGCACTGCATCTTCATTGATGACTACTTGTCCTACCACGAGCTGCAGGGGGAGATCCACTGTGGCACCAAC
R
TGCGCAGGAAGCCCTTTCCCTTCAAATGGTGGAACATGGTGCCCTGAGCCTGCCCCCACCCGCCATCCTCTCTGCCCTCTTGCTAGGGAACCCTGCCAGG
Celera SNP ID:            hCV25637808
SNP Position Genomic:     1099
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(G,38)   total(A,5|G,69)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40336):
GGCGCCTCTGTGCTGGCAGACTTGGCTCTAAGGGCCCCAGAGCTCCAGGTGTTCTCAGATGCACGGCTGTGTAAGCCCTGCAGTCAGAAGGTCCTGGAAG
R
GTCAGGTCCCATCTGCATGGCTGCAGAGGGGCCCAGCGCACACAGCAGCCTAGAGGGCAGCTGAGTCTGTTCTCTAAGACACCTCGAAGAGGGGGCAACC
Celera SNP ID:            hCV237478
SNP Position Genomic:     10192
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40337):
GAGACTCGCCTGGATTGGAGGTCCTGGTGGGGCTTGTGGCGCCTCTGTGCTGGCAGACTTGGCTCTAAGGGCCCCAGAGCTCCAGGTGTTCTCAGATGCA
Y
GGCTGTGTAAGCCCTGCAGTCAGAAGGTCCTGGAAGGGTCAGGTCCCATCTGCATGGCTGCAGAGGGGCCCAGCGCACACAGCAGCCTAGAGGGCAGCTG
Celera SNP ID:            hCV237479
SNP Position Genomic:     10155
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40338):
TGCCATGTTGCCCGGGCTGGTCTTGAACTCCTGGGCTCAAGTGATCTGCCTGCCTGAGCCTCCCAAAGTGTTGGGATTACAGGTGAGAGCCACCGTGTCT
S
GCCCAGTTTCATTCTTAATGGGCAAAATCAAAATCCCAGGATGACCTCTGGTGGGGAGGGCCATCCTCAGGGCCTCTGTCATTGGCCCAGTGGTAAGAAC
Celera SNP ID:            hCV11556105
SNP Position Genomic:     9604
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,12)   total(G,12|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40339):
TGGGCCCAGAGAGACTAAGTGATTTAGTCAAGCTCAGCTGGCCGATGTGTGACCCAGCCTGGTCTAAAACCTAATTCTTGACTCTGGTCCCAGCACCACC
Y
GAGCCCTCGGCTTGCAGCCCCTCCCTTCCCCAACCTCAGATGTAGCTTGTTCACCTGTGCTAAGCCCTTGTTCAGACCGTGGTCCTGGGGACCCTCCTGG
Celera SNP ID:            hCV11556107
SNP Position Genomic:     13321
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40340):
AAGTGATTTAGTCAAGCTCAGCTGGCCGATGTGTGACCCAGCCTGGTCTAAAACCTAATTCTTGACTCTGGTCCCAGCACCACCTGAGCCCTCGGCTTGC
R
GCCCCTCCCTTCCCCAACCTCAGATGTAGCTTGTTCACCTGTGCTAAGCCCTTGTTCAGACCGTGGTCCTGGGGACCCTCCTGGGCAGGGGTGCTTCAGT
Celera SNP ID:            hCV11556108
SNP Position Genomic:     13337
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40341):
TCTCCTTCGGCACCGACCATGGCTCTCTGCCCTGCCCAGGTCAGTGCCTGAGGGCACAGAAATGTTTGAGGTCTATGGGACGCCTGGCGTGGACATCTAC
R
TCTCTCCCAACATGGAGAGGGGCCGGGAGCGTGCAGACACCAGGCGGTGGCGCTTTGACGCGACTTTGGAGATCATCGTGGTCATGAACTCCCCCAGCAA
Celera SNP ID:            hCV25604817
SNP Position Genomic:     16543
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,39|G,1)   total(A,74|G,2)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,232|A,1261)   total(G,232|A,1261) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40342):
GTGTGGGGTCCAGGCTTGACTCGCAGGAGCTTACTGTGAGGATCTGAGGGGACTGGGTGGCCAAGGAAAGCTTCCTGGAGGAAGCAGGGCTTGAGCCAAA
R
CTCAAACATCTGAGCAAAATATATCTCCTTCGGCACCGACCATGGCTCTCTGCCCTGCCCAGGTCAGTGCCTGAGGGCACAGAAATGTTTGAGGTCTATG
Celera SNP ID:            hCV25604818
SNP Position Genomic:     16419
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(A,1|G,35)   total(A,2|G,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:40343):
AGAAAGAGCAAGGTTCCTTGGGCCCCCTCCCCTCCTTACCAGATCCCCGAGAGCTATCTTTTGGGGCGGGAGCTCTTGGCTTCTGCTGGTATTACTCTGC
R
CCCAACTCTCCACAGGTTCAGATTTCCTACCACTCCAGCCATGAGCCTCTGCCCCTGGCCTATGCGGTGCTCTACCTCACCTGTGTTGGTAAGTTGGGGG
Celera SNP ID:            hCV25604819
SNP Position Genomic:     19021
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,39)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:40344):
GCAGTGGGTCTGGGGGCCCAGTGGGTATGGCGGCATCTTGCTGGTGAACTGTGACCGTGATGATCCGAGCTGTGATGTCCAGGACAATTGTGACCAGCAC
R
TGCACTGCCTGCAAGGTGAGGCCGGGGCAGCCTGAGTCCCTGGGTGTCCAGGGTCACTGCTCAGTTACCCCATGGGAGTTCCAACCCACAGGCGAGACTC
Celera SNP ID:            hCV15963388
SNP Position Genomic:     23727
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,2|G,38)   total(A,3|G,75)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,235|G,1256)   total(G,1256|A,235) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40345):
GCCACGGGAGGGCCCTCCTGTTCCAGGGGGTTGTTGGTGGGTAACAGTGCCGTGTCCCTCCTTGCGGCTTGCCTGCCCCTTACCCAAATTAAGACACATC
R
TGGCTTGAGAGGGGGAGGGCAAGTTTTAAAGCAGGGGTGTGTCCCCAAATTCAGGGCTTCTCACTCCTGCCCCTGCACACCTTGCTTCACCAGACACCAC
Celera SNP ID:            hCV22273272
SNP Position Genomic:     33839
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,36|G,4)   total(A,69|G,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:40346):
CAAACAAATGAAAAAACATAACAGATCTAAGAGCTCTGTGACAGTATCAAACAGTCTAAATTCAATGAAATTCCTATAGAAATTCCAACGTGGCTTTTTT
K
TTTGTTTGTTTGTTTGTTTTAAGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTCAGCTCACCGCAACCTCCGCCTCCTGGGTTCA
Celera SNP ID:            hCV27268790
SNP Position Genomic:     19818
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3|-,8)   total(G,3|-,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40347):
TGGGAGTTTGCTTTGGCTCACACACTTGAGAAGCAATTAGCAAAGAAGTTGAAAATGCTTTATCTGTAGGAGGCATTTTTTAGAAGCAGAACTTCTAGGT
Y
ATAGAGAATCTATATTTTTTAACTTGATAGATATTGCCAAACTGCTCTCCAAAAACACTGTATCAGTATACATGTCTGCCAACTGCATATATGCTTTGCC
Celera SNP ID:            hCV27268791
SNP Position Genomic:     20931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40348):
CTGCAGCCCAAATACATACACACATGATCATTGGAAAATAACATAGACAGAAAAGTACATAAAGCTTTATTTTACATACATATGTGCATAAAGCATATGT
A
CACACACACACACACACACACACACACACACGAATAATTACAAAGCAAATCAAAGAATAGCTCAGAAAATAAACCCAAGAGTAGCCCAAGAAATGAAACA
Celera SNP ID:            hCV27268792
SNP Position Genomic:     21236
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,8)   total(A,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40349):
TGCAGCCCAAATACATACACACATGATCATTGGAAAATAACATAGACAGAAAAGTACATAAAGCTTTATTTTACATACATATGTGCATAAAGCATATGTA
C
ACACACACACACACACACACACACACACACGAATAATTACAAAGCAAATCAAAGAATAGCTCAGAAAATAAACCCAAGAGTAGCCCAAGAAATGAAACAC
Celera SNP ID:            hCV27268793
SNP Position Genomic:     21237
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|C,8)   total(C,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40350):
CCTCCTTCTCCTACAGGTAACCACTATCTTGTGATAAGTATTTTCTTGCTTCTCCTCATGGTTTTATCTCTTGAACGCAATACCCAAATAACATGGTCTC
R
TTTTATCATCTGATTTTCTGTGGATGCAGTCATATCATGTATGTTCTTTTGCGTTGGGCGTCTTTTGCCCTATGCTATGTTTGTGAGATTTATCCACTTG
Celera SNP ID:            hCV27268794
SNP Position Genomic:     21486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40351):
AGGTCTGTGAGTGGCCTGGACTCCTTTGGGAACCTGGAGGTCAGCCCTCCAGTGGTGGCCAATGGGAAAGAGTACCCCCTGGGGAGGATCCTCATTGGGG
R
CAACCTGCCTGGGTGAGAGAGAGACAGGGAATGGAGTTCCTGGGGTGGAGGCTGAGGGTTGGGGGTGGTGATGATGGTGGAGCAGGGGCCATTGCACTCC
Celera SNP ID:            hCV16185494
SNP Position Genomic:     31672
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40352):
ATGTGTGCTTCCCAACTTTATTCTACATGTTCTCCAGCGTGTGTCCATATGCTGCTTTCCAACCGGCTTCTTTCATTAAGTAATAATCCCACACACCTTT
Y
CTGGTATTTATTGAGCTCTACTTCATTCTTTTCCACTGCTGTATAATATTCCTAAGCATAGAGGTGCTGTGACTTACACAGTTCTCTGAACATCATAGTG
Celera SNP ID:            hCV27268795
SNP Position Genomic:     26219
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40353):
GATCCTCATTGGGGGCAACCTGCCTGGGTGAGAGAGAGACAGGGAATGGAGTTCCTGGGGTGGAGGCTGAGGGTTGGGGGTGGTGATGATGGTGGAGCAG
R
GGCCATTGCACTCCTTGAAGAGAGCCAGAAGCAAGGAATGATGAAATTATACTCCCGGATGTGGTGGGGTTGGTGGGTGTTCACCAGACACAGTCCACAC
Celera SNP ID:            hCV16185495
SNP Position Genomic:     31758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40354):
GCTGTGACTTACACAGTTCTCTGAACATCATAGTGGTTTGCAGTGTTTTGATTTTATAACAATGCAGGTTGCTTGAGGTCAGGGGCTTTGTTCAAGTCCA
K
AACCGTGCCCCATGGGTGCACTGTAGTTGCACAGTAAATATTTGATGAATTAATGAATATCGAGCACTCTTGTACAGAAATATTATGTGACTTTGTACCT
Celera SNP ID:            hCV27268796
SNP Position Genomic:     26385
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,11)   total(G,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40355):
ACTCATGCTCCCTGGGCCCACAGGGAGTCACAGCCACCCCGTCCCTCCCCTTCCAGGTCCTGAGGATGTGTGTGAGGCCTATAGGCATGTGCTGGGCCAA
R
ATAAGGTGTCCTATGAGGTACCCCGCTTGCATGGGGATGAGGAGCGCTTCTTCGTGGAAGGCCTGTCCTTCCCTGATGCCGGCTTCACAGGACTCATCTC
Celera SNP ID:            hCV27268797
SNP Position Genomic:     27180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40356):
GGAGTGCCATGGCATGATCACAGCTCACTGGCAGCCTGGAACTCCTGGGTTCAAGTGATCCTTCTGCCTCAGTCTCCCGAGTAGCTGAGACCACAGGTGC
R
GCCACCAGGCTCAGCTAATTTTTTGTAGAGATGGGGTCTTGCCATGTTGCCCAGGGTTGTCTCAAACTCCTGGCCTCAAGCAATCCTCCCGCCTCACCCT
Celera SNP ID:            hCV27268798
SNP Position Genomic:     29558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40357):
GATGTGAAGTTCATTCACACTGGGCCATCTTTTCCTCCAGAACCAGAGGGGTCAGGACTGACCTGGGCACATTTATGGATCCAACTCAGGCCACTGTGAG
K
GCTTCTCTGTGTCCACCTGCCTTGGCCCAGTACTCACAGGGACACCCCCAAGGTCATGTCCATGTTCTCGTTCACCTCCGGCCTCTGTCTTGCTGTGTGA
Celera SNP ID:            hCV27268799
SNP Position Genomic:     29934
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40358):
CTCTTGCTTCCCAAGACCCCCTGGAGAAGGAGTTGTCCCAGTTCTGCTGAGTTGGGTCTCAGTTTCCCCACATGTAGGCTGAGGGTTGACTAGGGGATCT
Y
TGCCACTTTGAATGAAAGAGAGAAAGCAGGGACAGGGGAGGGACACCGGTGCCTGGGAAGACCCCCTTCCTAGGTGACAGCATTTCCCCAAGGCGCTTTG
Celera SNP ID:            hCV9779154
SNP Position Genomic:     17062
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40359):
CCCAGCCTGGTCTAAAACCTAATTCTTGACTCTGGTCCCAGCACCACCTGAGCCCTCGGCTTGCAGCCCCTCCCTTCCCCAACCTCAGATGTAGCTTGTT
Y
ACCTGTGCTAAGCCCTTGTTCAGACCGTGGTCCTGGGGACCCTCCTGGGCAGGGGTGCTTCAGTCTTCACTGGGGATCCCCCAGCATCTCACACAGAGCC
Celera SNP ID:            hCV11556112
SNP Position Genomic:     13373
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40360):
TCTTCACTGGGGATCCCCCAGCATCTCACACAGAGCCTGGCACATGGAGAGGCAGGGGCGCTGGGCTGAAACACCCTACACCCAGGGGCTGGAGCCTGGG
R
ACTGAGTGGGGTTTTCATACCAGAAGGACCATCAAGGGCGCTCAGCCCTTGCCCATGGACACTGGAGGCCCAAGGAACAGCTTTGGGGTTGAGGGAGTTC
Celera SNP ID:            hCV11556113
SNP Position Genomic:     13537
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Gene Number:                 187
Celera Gene:                 hCG25127 - 115000158384456
Gene Symbol:                 LOC81569
Protein Name:                actin like protein
Celera Genomic Axis:         GA_x5YUV32W3P1(878318..962061)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12347):
GAACCTGAGGCCAGACTGGGGATGGGGAGACAATATACAATCAAGGGTATAGATGTAGGAGCTAGACAGTTTGCATTCAAATCTCTACTCCATCACTTGC
TGGTTACACGACCTTAGGTAAGTCCCTTCATCTCCCTGAGTCTCAGCGTCTTCATCTGTGAAACTGGATGTGCTATCCAGCTTCCAAGATGGCCTCCAAA
GAGTGTCATTCCCTGGTATTTATAGCCTTGGTCAATCTCCTCCCACATTGTCCCAGGGTTGTTCTGTGTGACCCATAGAATATAGCAGAATTGATGTTAG
TATCTTTGGAGGTGAGGTTATGAGAGATGCTGTGGGTTCTGTTTTAGGTTCTCTCTCTCTCTCTGGCCATTCACTGTGGGGGAAGTCAGTTCCATGCCCT
GAGTCCATTCAGGCAGCTTGTGAAGAGGCCCACATGGCCAATAGCCAGTGAGGAACTGAGGCCTGCAGTGACCACTTGGATGAGCTTGGAAGCACGTCCT
CCAGCCCCAGTCAAGTCTTGAGGTGAGACCACAGTCCTGGCCAACAGGTGACTACAACATCACGGGAAACCCAAAGCCATTCAGCTAAGCCACTCTCAGA
TTGCTGATCCCCAGAAGCTGCATGAGATAATAAATGTTTGTTGTTTTAAGCTGCTAAGTTTTGGAGTAATTGACTACACAGTAATGGATAAATAACATGT
GGGGATAACTATCTTGTAGGTTTGTTGTGAGGATTAAATTCACGTAAGCACTTTGTATAGTACACGATGTATGTTGAAGGCTGTGTGAAATGTAAGAAAA
CAATGGCAGCATAGAAAATATCGTCGATGAACCCCAGGGTCATGTAGCCAGGGTGTGACAGGGCTGATGATGCTGCAGTTCCTAGCTGCCCGGTTTTAAC
CATTTGTGCCCCCTAATCCTTATTGATTGTGGTGGGCACCACAGGCTTTGCCAGAAATGGAACAACAGTGTCAGAGGGTGGGGAGCAGAAGAGGAAGTGA
TGGTGCCAGTCAGTGGGCCCCTGGGGTGGGGAGCAGCCCCAGGGTACTGGGGGTGGAAGACTGAGGCACAGGACTGGAGTGAGTGTGTGTGTGTGTGCGT
GTGTGTGTGTGTGTGTGTATAGGTCACCTCTGGAGACCCTTCCAGCCCAAGACTGGCTGATGATCTGATTTGCTGCTTGTTTCTGGCCCTGGTCTGTGTG
GAAGACTCAGAAAAACCATGGCAACCACGGGATAATTAATGATCAGGGATGGAGGAGGCCAGGAACCTGGTGTCCCCGAGGCCACGTGGAGAGCAGCTTG
GGAGGAAGGTCCACTGGGCTTTCTCTCCGTGACCATGTGGGCTTCCTTGGAAGAGAGATATCAGAGAGGGTCCAGGTGGGAGATAAGCCCCTGGGCCTGT
AGCCCTAACAGTCCAGGAAGCACAGGCCTCTCTGGGCCCAGTAGATGGTTCCTTTGGGGTCGTTGGCTCCCAGGCCCTGGACTGCTGAAATTAATGCATT
GTTTTCAGGAGGCCGTCCATGGCTTCCACCAGGTTCTCAGATGGGTCTGGGACCCAAACCATGGAGACTGTCTAGATATTACCCATTGTAAAGACATGGA
AATGGAGGCACAGAGAGGTTAAGAGACCTGTCCAGGCCATACAGCAGGCTGTGGCAAAGTCAGGCCTGGAATCCAGGCCTCCTTGCTGAACACTCTCCCA
GGGTAGGACCCACAGTGGGTGGACCAGAATGTGCTGTGCATGTGGGCCCCCCTGGCTGGCAGAACTCCCGTCAGGACAGCTGGGTCACTCCTGCCCCCTC
CCTGGGCCAGATGGGCAGCCCTCTCCTCTGCTATTTTCTCCACCTTTGCCTTTTCACAGGGAGTGACTGGGGTGGAAAATTCTAGGGGAGCACAAAGTCT
GCCAAGTTTAAACCTGGCACCAACCCAGGCACCTGGCTGCCAGGCACTTGGAAATAGAACTGGTAAAGGGGTCCCTGGGGGACTGGGCTGCTGGGAGCAG
CTTGGCAACTGCCTCTCCTGGCTCCTTCCAGACCTTCTATCCCAGGAATATTCCCTCCTCGCTAGAACCTGCTGCCATGTGCCAGGAACATCTGGAAGAG
AGTTTTCTGGCAGGTCTGGGGGTACAGAAATGGGTTACAGGGGGCTTGGTCATGTATTATATCACAAACATCTACCGTGATAAGCGAACCAGTGTGCGTC
TGCAGCGCCTGCTGCAAGGGACTGAGCGAGGCCCCCGCACATCCTTCATTTCCCTTTGAATCACTCCTGTGATATGGGGTTCCCCATTTTACAGATGAAG
AAACTGAGGCTTGGGAACTCCAGAGGACTGCCCAAGTTCACCTAGCTTTTCAGTGGCAGTGCTGAGACTTGAATCCAATCTGTGTGACTCCAAAGCCTGC
CTTTTTCCATGGTCTCTCCCTGTGCCCTCTACACCCACCATGTCCAGGTACCAGTCTAGATGCTAGGGATATAGAGATAAACGAGCCATGAGCCTTGCCC
TTAAAGCACCTGTAGTTTAGTGAGTGTATTAGCTATTGCTGCTATGCTAATGCCCCATAACAAGCAGCCCCCAGCTCCCACATCTCAGTTGCTTGCAACC
ACAAGCAGTTATCCTTCTTGTTCCCAGCTGGCTGGGTCGGCTGGGGTGGTTCTGCTTCAGGCTGCAGGTTGGCCAGGTTGGCTTCACCTGTCTCTCATTC
TCCTTGCACCAGTGAAAAAGAAAAATACTCAGGTCCTGTTTTCATGACTGGGAAGGAACACACAATGTCTCCTAAGGGTTCATCTTAGAACTGGGGTACT
GTCATGCTGCCCACATATGGAGACAGGTTACACGGGCAAGGCCTACATCATCAGTGTGGTGGGGAAATACACTTTGCCTCCTCTGATGTGAGGCACTGCA
AAATCACATAGCAAAAGCAAGGATGCCTAATTCTCTAACAGGGAGGCAGGAAGAATAGGTCACAATAATCCAATCACCCACAGTGTGGACGAGAGACTTA
TGATAATAATATTGTACTGCATTCTATCAAACCTAAGCTGCAAGACACACCATTAATTTATGTACCACTAAGAAAGAAAAGTGGCTGTGAACGAAAGTAT
GGCATGATGCTTTCTTAGCCCATCATATTTTTATTTTATTCTTACTGAAAGAGCTATTTGATGCTGAGGCATGGAAGTGTCAACAATGGGAACAGTTGGA
ACCAGGTTTGCTCTTGCAGAGACAATGACGACTGTCACAACTGTCACTGTCCAAGGAGATTATGAGATGCCATCGATTGTAAAACACATTTTGACTTCAA
GGATGTGAAAATGTGAAAATGTGTGTCTTAGAACGGATGAAATTTGTCATTTACTGAGAGTAAGTGGTTGTTCTAGGGTGGACATTGTGGCTAAAATTTC
TATGTGGACAGGCTCATTTGTACCTCAAGACAACCCAAGAGGAAAATATTATTATCCCCATTTCAAAGATGAGTAGGGCAAGATTCAGAGTGATCATGAG
GTGGGAGGCAGGACTTGACTCCTGATGTGGGGCTTGGACACCGGACCAAATGGCGGACTAGCTAAAATAGAGGGGGCAAAGCAGCTTTCTATAAGACACA
TCCACCAGTAGGCCATGTCAGTTTACCATTGCCATGGCAACATGCAGGAGTTACCACCCCTTTCCATGGCAATGACCTGACAACCCAAAAGTTACCACCC
TTTCCCTAGCAATTGCTGTATAAACCACTGCTTAATCTCCATGTAATTAAACATGGGTATAAATACGACTGTGAGGCTGCCCTGAGCTGCTGTTCTGCCT
ATGGGGTAGCCCTGCTCTGCAGGAGCAGTCAAAGACTGGAGCTTTATCACTGGCCCTTCAATAAAGCTCTGCTTTCTTCTACACTTTCTTCTCGCCCTTG
AATTTTTGCCTGGAGGAAGCCAAGAACCCTCATGGGCTAAGCTCTGTTTTGGGGCCTGCCTGCCCTGCATCAGTCAGTTGTCCTGCCCAAGACTCATGGT
TAGTAAGTGGAAGAGCTGAGATTTGCACCTAGGATGGTCTGACTTCCAAGACAAAGTGATAAAGAGTGTGGGCCCTAGGACAAACTATACTTCAGTTTCT
TCATCTGTAAAATGGGGATGATAGGAGTAACTACCGCATAGATTATTGTCCTATGAGAGTTTGAAAAGAGTGTCAGGCACAGAGCACTCAAGACATGCTG
GGTTCTCTGGTAGAAGCAGAGATTTTTGCCTCTCTGAAGCTAACATTAGTGTAATAAAAGCTGCAACCGGACTAAGAGGAGAGGACTATGGGAGCCCAGA
AAAGCAGGCCAATAGCTTAGTAATTTGGGGGAACCATCAGAAATTTGCTGTGAGGGAGCAAAAAGAATGTGTGATTCATGTGTGCACTTATTTATTCAAC
AATATTTGTTTACCCACTGTATTAGTCTGTTCTCATGCTGCTAATAAAGACATACTCAAATCTGGGTAATTTATAAAGGAAAGAGGTTTAATGGATTCAC
AGTTCCACTTGGCTGGGGAGGCCTCACAATCAAGGTGGAAGGCAAAGGAGGGGCAAAGTCACGTCTTACGTGGCGGCAGGCAAAAAGCTTGTGCAGGGGA
ACTCCCGTTTATAAAACCATCAGATCTCGTAAGACTTATTCACTATCATGAGAACAGTATGGGGCAAACAGCCCCCATGATTCAATGATCTCCACCTGGC
CCCACCCTTGACACGTGGGGATTATTAAAATACAAGGTGAGATTTGGGTGAGGACACAAAGCCAAACCATATCACCCACTGTGTACAGGTAGTACACAGT
GACTGGATTTGAAACCAAGTTTGGGGGCTAATTTTTAAAAATTGAGGTATAATTTATCTACAATGCAACACACAGATCTTAGTGTTCAGTATGATGAATT
TTTACAAATGTATACAGCACCCCAATTGCAATAGAGAGTATTTCCATTGCCCTAGAAAATTCCATTGTGCCCTCTTCCAGCTAAATACACCCATCTCCAC
CTGTTTTTTTTTTTTTAATTTCTGTCACTGTAGGTTGCTTTGCCTGTTCTTGAACTTCTGTGAACAAATGTGAACCTGAAAGGGCCAGACCTTCAAGATG
GATCCTGAGTGGCTAAGTGGGCTAGGCTCCGCTGTTCTTGCTTGTAATCCCATCACTTTGGTAGGCCAGGGTGGGCGGATCACTTGAGCCCCTGAGTTTA
CGACCAGACTGGGCAACATACCAAGACCCTGTTCTCTACAAAATAAATAAATACTACCCCCCCCCCCAAATAAGAATGGGTAAGTGGGCCTAAATTTAAA
ATAGAATGAAGCAGCCACTTGCTGACTATGGTTACACAACTACCCTGACTTCCCCAGAAAACCTGCACCTTTTTATCTTTGGTACTTTCTCAGCTCACCT
GAACCAACCAATCAGGGCTCAAGTGTATAAACCAATCAGGGTTTGGCTGTATCAACCAATGAGAGCTCAGCTATATTGACCAATCAGAACTAAGCAAGTT
TCAATCCTTCATTTGCACATCTTGATCTGATTGGGAACCTGGGCAGGAACTTTTGCGCAAAACTTGATGCTTCCCTCATTCTTGGGAACTCCCCTTCATT
TTCCAGTGGAGGGTGCATCTCCAAGTTTGCAAACTGTTTTCTGTACTAAAGTCTCTTTCCTCTAAATTTCTTTTCAGAGAATTTTGTGCATAATGTAAAT
GGAAACTTACAGATTGTGCTGCTTTGCGTCTGGTTTCTTTTACTCAGCATAATACGTATATGATTAATGCATTTGTTTTATGTATCAGTAGTTATTTTCT
TTTTCACTGCTGATATTTCATTGTTGCTGGTTGTCAAATTATTGCCTCTCCGCTCCACATTCACCCTTCTTGCCTGCTTGGTAAAAATGGATCTGGGCCC
TTTAAATTTTCTCCCTGGCCAGCAGGCATGCTGGGCTTTGCCAGTAGAGGGCGCTGGGGAGCCCCAGCAGCGGGGAGGTTCCGCTTCCTGCTTGCCACGT
GCTCACAGAGTAGGCTGCGGCACCACGTGCAGCCGCTCTCGTGCAGGCGTTTGCAGTGTGCAGCTGAGTTCGGCAGCTCACACAGCACCCCTTTCAAGTT
GTTTTGCAGTGGGTGCCTCTTGTGAGACACTGTTTCTGAGAGCAGCTTTTGTGGCATCTTACAGGGCAGATTTCTGGTACGTTCTAAAAGTTGAATTTCT
AACTTTGGCTGGTTGTGGCCCCTGACTGTTTTTTTTTTTTTTTTTGTCCTTCCTGTGGCACAGCCATGCCCTCTTAAGCAAGGCCTGGCTGTCAGCCCCC
AAGGGTTTGTGTGTGGGGCACTTCTTTGTGGGGTTGGGGAGTGACAGGCTCTACCTCAGACCAAGGGCTTTTCCTTAGGGACTTGATTTCAGCTTTTGGA
GGAGACTCTTCCATAGCGGCTGTACCTCAGCCACATGTGTGGGACTGGGGGCCCTTCCTTGGGGGCCCAAGCTTAGCCCCTTGTGGGGGCACCGCCTGGA
GGGGGTTATCTCAGCCTGGTGGAGGGTCCCTTCCCTGGGGTGAGGGGCTCTTTCTGGAGGTCTCTATCTCAGCCTGATATGGGGGTCTCTTTTTGGGGCT
CTATTTCAGTCCTGGGGTGGGGGGCTGTTCCTTGGGGGCTCCACGTCAGCCCTGGGAGGGCTCTTTTTTTGAGGACGTTTACTCTGTCACAGGTGGCAGG
AGGGTGTCTCTTCGGGACTCTACCGCAGCCCTCAGGGGCTTTTTCTTTGTGGACTTTATTTCAGCCYTCGGAGGGGACTCTTCCTTGGGGGATCAATCAC
AGCCCTGGGTAGGGGGCCCCTTCCTTGGTAGCTCTGGGAGCTCTTCTTTGGGGCTCTATCTTATCCCTTGAATAGGGGCTCTTCCCAGGGGGCCTCAGCC
CTGGGGGCCTCTTCTTGGGAACTTTTTTTTAAACCTCTAGTGGGGGACTTATCTTTGGGGAWCCTATGAAAGCCCCCAGGGGCTCTTTCTTGGGGACTCT
ACCTTGGCCTTGAGGGGTTCTTCCTTGAGAGCTTTGTCCAGCTCTGGTTTGGGGGATTCTTAGCGGGGGGTTGTTTATCACAGCTCTGGATGGGGTCTGG
TCTTCAGAGACTCCATCTCAGCTCTGTGGGTTGTGGTTGCTCCTTGCGTCTGCTGTTTCTGTATTAATTATCGTTCTCTTTACTCCTTATCAGTCAATTT
CTTGTTAATTCAGTTCTCTATTATAAGTTAATAATTCTTCATATGAAACTTTCCCTGTAAAAATCACTGTATGGTGTCCTTTCCTTGACTGGACCCAAAC
TGATACAGAATTGGTGTCAGGAATAGGTATCAGGAGATGGAACCACAGAGGTACCATTTTGGGAGTGGTTTTCTGGTGATTTTGGGCTTGGGTGTAGTGT
CAAGTTCCTTGCCAATGGGAAATGGGGTGCTAGTTACCCAAGGCATGTGGTGACATTATATGAGTCTATCATTTGCGGTTAAGACAAAATGCCACCTGAG
GCACGTCTGTTGGGAGCCAGAGTGATGCTGCACTTGACTGTGTGGCCATAATGAGGACTGTGAGAACTGTGGGGTGGGATGGATCCTTTTGAGGGCTCCT
GTCTTCAAGGAACCAGATACTATGCTCTATTTAAAACATACATAGGCAGGCCGGGCACAGGCATGGTGGCTCAGGCCTTTAATCCCAACACTTTGGGAGG
CTGAGGCAGGCGGATTGCTTGAGCCCAGGGGTTTGAGGCTGCAGTAAGCTATGATTGCACCGCTGCACTGTAGCCAGGTGACAGAGCAAGACCCTAGCTC
TAAAAAATAATAATATAATAAGAATTTGAAAAATGTGTAGATAATGACATAGAAAATGACAAGCCCAGGTCCATTAACTCTTCCTTCGAGCCACAGTCTG
AGAATCAGACAGCTTCCATGGCAGCCCTTAAGGAAGTTCTTATTTCTTGCAGCCACAAGGCTGAGACTGCTGAAAATAAAACAAAAAATTTAATTGTGCT
GGTTGCTGAATTATGACAACAGTTGGAATCACATCTGGACAAATTAGGGCATGAATCGTGAAAGAATGGGGTCCTGAAACATGGAATGGGGGCAGTTGTT
GGACTCTGATGAAACTGACAATCTAAACTGCAAGTCACTCTGAGCCCACCCCCCCCACCCCCACCCCAACTTATCAAGTGGAAATACCTTTCCCTCCGCA
GTGCTGGAGGAGACTGCTTTTTCTCTGTTAAGAAACCCTGTGATAATCTCGGCTGGAGCAGATGCTGTTCTCAAGACTCATCACAGCCACCTGCTGTTGT
CACTAGCCCCTAGCTGTGGTCAGATCTCAGCATGTTCCACGGTGGCGGGTATACACAGACCTAGGAGGAAACAGAAAAAGAACGACAAGACTGGTGACAT
GTATGGGAGTGGATTCTAAGGGTTTTAGATCCAGGAAGGCAGAATGTAACACTAGCCTGGGCTGGAYGCATTGATACGGGCACACTCATTAGAGGTTCTG
AATTTGGCTGTTAGCTTCTGCAGCTGGAGGTGGCTCTAACAGCTTGGTTGGTTGACTGAAACTTGGACTTGACAGTAACCTGCAGTTAATGAGGGTTGTG
ATGTCATGATGTGGAAGAGGGAATCCAAAGGCTTGGGGAGACCGCAATGTTGGACTGCATGTATCATGTCTAATCTGCACTCCCCTGCTGCCACCACCTA
TGTTCCACAAGAAGGACCCAAAGACAGAGACATAGAGAGATCCATTAGTGAGGGAGCCCCTTTGTCCTTGAAATGCACAGTGGCTGCTCTCTTTTGTAGG
CCACTGTGAATATAGAGGCTGCCTCCATTGAGATGGGCTCCCTGATTTCAGTGGGGATAAGGGGGTCCTGGAGTAGCAGATACCGAGGGGCAGCACTTCA
CTGTCAAGGACAAGGTGGGCACACATTGGAGAGGGTAGCAGGAATGTATGGGAAGGCAGAATGCCTTTGCCCACAGGGATTTCTAGTGGTGGTGAATTGA
TTAGAGTGTCTCTGGGAATGAAATAAGTGGGCAGCCTACTAGAGTATTATTTCATGTATTTTTATATGTGATAGAAAGTTCTAGGCCCGGTAGCCAAAAC
CTGGCAATTGATAGTCATGGCTTCTCATTCAGTTTCCAGACCCTAAGTCAATTCACAGACCCAGAATCCCTGGGTGGCCGGGTCCCCTTGAGGAAGGAGC
CTGCATCATTGCCATAAATACTTATTGTAAATCTTCCTCCAAACCTTCCTCCAAAGGGACCTGTGACCATTTACCAAAATAATRGGGAAATGGACATACC
CAGACAGTTCTGGAGTTACTTGGCACTAACTCTGAACTGATGCTGTTTCCTGGGGATCTAAAATGCCACTCTGGCTCATAAGTCAAAGTGGGGCTTGTGA
TGGTCAGGGATAGAGTCTTAGCTGTAGTCTGACTCTCAGTAGATTTGCTTGGTCCATGCCCACCCCRAAGTTATTTTCTGAGCTCCTGAATAAACAATTA
GAGTAAGCACACTTGGTAATTATCCATTTTCTTCTCTCTTCTTCCCATTTTTGTTTTATATGCAAGTTTTTGGAAGTCGACTTTATAGTCTTTAGGTGAC
AGAATGTTCCATGGAACTGTGATCGGTATTTAAGTCCTAATAAATATAGTCCATGACGACTCCTGGGCCTATTAGTCTCCTTGTTTTGGGGAGTGAGTGA
GAACTTACAAGGATGATAGCTGCATCTTTTTAGATAGAAATACRCAGTTGTGTTGTTGTACAGGACTTCAGTGGTGTGCAGGAGGATTCATATGGAAGCT
AAGTAGTCAAAGAGATGGGCTTTTCTGGTTATCAATTATTGCTTTTCTGTGTCCAATCACCCTTCTTGCCTGCCTGGTGAAAATGGATCTGGGCCCTTTA
AATTTTCTCCCTGTCCAGGCAGCAAGCTGGGCTTTGCCAGTAGAGGGCGCCRAGGAGCCTCTGCAGCAGGGACCTTCTGCTTCCTGGTTGCCACGTGCTC
ACAGGGCCTGCTCCTGCAGCACGTGCCGCTCAGTGCTGGCTGCTGCCGTGCTCAGCAGAGGCCAGCAGCACCTTATTTTAGGCAGTTTTGTAGTGGGTGC
CTCTGGTGAGACACCTCCTGTGAGCAGCTTTTGTGGCACCCTGCGGGGCAGATTTCTGGTAAGTTCTACAGGTTGGCTTTCTTGCAAGTTCTGCTGGTGT
GCACCAGACCAACTTTTTTTCTCCCCCAATGTAGTGAGGCACAGCCATACCCTCTTCAGCAAGGCCTGGATATCAGCCCTCAGGGGTGTTTGTGGGAGGA
TGCTTGTTTCTGGGTGGAGGCTCCTCCTTGGGCACTCTGTCAGCTCAGGTTGAAGAACTGTTCTTTAGGGGCTCTGCCATAACGCTGGAGTAGAAGCCTC
TTCCTTGAGGGCTGGATGTCAGCCCTAGAGAAGGTGCGTTTGCTTGATACTCTAGCTCAGCACTGGGTGGGGTGGGGGACTTTTGCTTCTGAGGGTCTCT
TTCAGCCCTGGGGGGCAGCAGCTGCTCCTTTTGTCTCCTAAACCTATATTCTTCAGAGTTCCCTTTACTTTCTAGCCAGTTTCTTGTTAATTCCACCTCC
CATTATGGTTAATAATCCTTTATATGAAACTTACCTATTCAAATGACTGCGCAGCTTCCCCCTCCTAATAGGATGCAGAGTGATGCCCATTGTGCATACT
GGCCACAGTTTGTCCACAGTTTTCCTGTGGACATTTCCAATTTGGGGCTATTATGAATAATCTGTGATGTGTATTCTTGAGTGGATGGGCTTTTTTGTGT
TATGCGTTTTCATATCTCTTGGATAAATACCTCGAATGAGGTTCCTTTGGGAAGGCCAGGCCACAGGGCTTTCAATTTGTCTAGAGGGTGCTGAGGAGCT
GCTGGAAGTTTTGTGGGTCTATTTTAAGTAACACTGATGGATTCGATGTGGGTCTTAGAAGGAGTGAATGGGAGGGGAGATGCCAGTCTTCAATTCCCCA
GATGAGGGTGGCAGCTCAAACTGGTGACTTGGTGTGGGACTTTGCTCCATTGTCTTTTTCCTAAACTGTGAAATGGGTTTTTCACAGGCGTGCATAGGAT
CGTTGGCAGGACTGAGTGGGATGAAGCATGAGGGGCACTTGGCATGGGGCTGGCATGGAGCAGATGCACAGTGGTKGCAGCCAACAGGACTGCCATTTTT
AGGTGTTTCAGGCAGGATGTCCTAGCTTCCCCCTGGTGCTAGCCATTATGTGTTCACAGTCCAAGAGCCCAGGGGGGTGGCAAAGGGTCTTGGTGCCCTG
CTTAGAGACAACTCTGGACCTAGAAGGTGGGGCACAGCTGCCCGTTGCTGTGCAGTGCTGGGCACTTTCTGATGCCTTCTTGTGGCATCCCTCAGAGGAR
TGGGTGGACAAGGTGGCCTTGGGTTCTGGGCACTTTGCCCAGCCCCCTGACAATCACCTCAGCTGGCATCTTGCCTGTCCAAGCCCCGAGCTGCTGTGCC
CCAGCAAGTCAAGCGGCCATGATTAGTCAAATAAAATTTCCATCTGTTGAAGAATTTACGAGAGTTATTACTGGCTATAAAACCGATCTGAGGAGAAAGA
TGGATCCGAGGGGGTAAGTGCCTCTAATTATGTGCGGCAGTGACGTTTAAATAAGGTAGCACAAGTCCTTATTGGAGGGAGCCAGGTCCCTATCCCTCTC
TGGGCCCAGAATGTGGCCAGACTGGTGGGGGTGGGTGCTTCACTGCAGAGGGAGGAAARAGGAGCTACCCTATGCAAACTCGGGGACAGGGGTCATTGCG
GCTTAATTTTTTTTTTTTTTTTTTTTTGGTAGAGACAAGGTCTTGCTATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAGCCCTCCCGGCCTC
CCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCTTGGCCACTGTGGCATTTAGAAAGATCTTAGATGCCAAAGGGCCTAGCGCAGTGCCTGGCATGC
AGCAGTGACTTAATAAATGCATGTTTCTGCTTTACCTGCTTCCCTCCTACCTCCGGGGACTGAGCTGGGCCGCTTACAGGATGCAGGAAGTGGTCTCCCT
GGGCCAGGCTCTTGTTGGCACAGACTCTGTGTGATCCGCCCAGGTAATCTTGCTGGGTCTTCATAGCTTCGACTTTAAAGTGGGACAATTAATTACCGAA
GGAACACGGGGAAGGCAGGCTTTTGGGTATGTGGGCCCAAACTTGTTCTGTTTTTTTTTTGGGACTGAGTCTCGCTGTTTCACCTAGGCTGGAGTGCAGT
GGTGTGATCTTAGCTCACTGTAACCTCTGCCTCTTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCCACCACCACR
CCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTTGTCTCGAACTCCCGACCTCAGGTGGTCCGCCCTCCTCGGCCTC
TCAAAGTGCTGGGATTACAGGCGTGAGCTGCCGCGSCCGGCCCTGTTCTTAACACATGACTTAGCTCTAATGCCTCCAGCATCTAGGGAAGGAGATCACA
TCGTGGGTTTCTCCTCATCTCAGGTGGGAAGGTCTCGGGGGTCCATGCGCTCACCTGAGGTCACCTGGATCCCAGATGCTCCTGCCTTCTTGGAGGAATG
TGGCTTTAAAAGGCCAACCCCTAACCTTCACCTTACTCAAGATACTGAGAACAAGACCACTTGGGAGCAAATGTGGCCTCCTGGTAGCTGGGGAGAGCCG
TGAGATGGTTGGTGCTGGAAATTCTGCCTGGAGTCCGGCATAACTGAGTTCCCGGGACCCAGGGTGGAGACGAATAATCCCATCCCAGAGAGTCCGAGCC
TTCAGATATAGGGCTCCGGGGCCTGAGACTCTGAGGTCGTGCAGCAAATTCGTGGCAGGTCCACTGACTGCTAGGCCAGGGGTCTTGTCGCTGGTCCACG
CAGAAAGGAAGGATGGCTACTTTCTGTTCCTCCCCTGACCACCACCCCATCAAGCACAGACCAGGCCCCACCCCCTGGGCCATTTAAAACCAGAGGCCCA
GGTGCTGTGGCTACGCTTTCAGACCGAGAGTCAGCTGTTAAAAGGCTCACACCTGGGCCGGGAGCCATCCGAATTCAGTCTTCCTGAGGCTCTGGCTCAC
CTCCAGGCAGGTAGGTCTCACCGTGGGTCCCTTTCTCTCGGCCAGGCAGCTTGAGTGTGACTGTTTGGCAGTGGTTGTGCACTGTGTCTGGAGCCCCTGG
TCCCCGATATCGAACCCCAGGGGGTTGGGCTGCAGGTGGGAGCCCAGGGGCTGGCGTTTGTGGTGGGGCTGCAGGAAAAACCAAGCTTCTCTGGTCAGGT
TGTGGCCTGTGTGGGTGGTCTTCTCCTTGGTGCCCCCCGCCCCCCAAGGCCTTGTTCCCCGGTGACTCCTGAGCTGTGGGCCCCAGGTGGCAGTGGAGGG
GCTCCCACCTCTGGCGCTTTCTGCGTGGCCTCCCGGGGACTCAGTTTTCCTCTGCGTCCATGGGGGTGGTAGGGCTGCCTGGTGGGGCCCGCGCAATAAT
GGAATGAGTGTGTGTGAGAGAGGGGGACCCCAGGCCTCTGATTCCTCGTTCGCCTTTTGGGGCCAGGCTAGGAGAAGCGGTGGGGAAGTGCTTACCTTGC
CGTGGCAAGTTGATGTCTCTTGGACTGAGACCTTTGGGCCAGAGTAGCCTAGGTCTCTGGGAATTTTCATTTCATCCTGCAATGAAAGAGCCTGGCCTGC
GGGTCCCCAGACACTGTGGGCTCTGGGACAGCTATGGAATTTCTGTCTTTGGATGGCTTCTATCGTGCTGAGGGATTCATTCTGTCTGGGTTTCACGTTG
TTTAAAACCAGGTGGGCTGGGGAGCGGGAGTGTGTGGGGGCTGTGTTGATGCACCCCTGTGTTGGCCCCGAGCTGGCCCAACGCTCCTCTGACCTCGCTT
TCAGACCGTAGAGTCAAGTGACGGGGTAGCGTGGGGGTGCTTTGGGGTGTGGTCTTTAGAAAGCCTCCCCGGAGGTGCTGGCATCCCTGGTTCCCTCTTA
GTCATAATATGTGACCTCCATGGCTTTCCCATCTCAAACTCGGGGTGGAGTGGGTCCCTCAACCCTTTTCCCCACTTCTGCGGGACCCTCGGCCCCTCCC
CGTGTCCCCTGCCTCCAGCCTGGAAGGAGGTTMTGACGAATTGGAGGGCTGCAGATCCCCCTGCTGGCTCCACAGCCTTTGTAAGCAGCTCATTACGTCT
TCCCCATCCTATTCCTCATTAGCCGCAGGTGCTCTCCATGAGAGGGTTGCCAGGATTTCTGAGTTTTAGTGGCACCTRGGGCAGGGGAAGGCTTATGGCA
AAATGTTCCTTAGTCTTTTCTCCCCCATTCCCTCCCCCTGCAGAAAAGGATGAGCGGTTGGGAGCCTTGGGGCTGACAGGTTTTGTGAGTGTGCAGTGGG
GGCTTCCGCCCTCGGGAAACAGGGGTTGGCCCTCTGGAAACAGGGGTTGCGATGGAGCTCCATGCTTTACCGGCTGATGACTCAGCAGGTCTGAGCCTCA
GCTTCCCATTTACTAAATGGGCTAACTGGGACAATGATTGATCTAGTGCCTTCTATCATGATAATCATTATTTTTGATAATATGTCCCAGACAAGAATAG
CAAAGGTTGGAAAGCAGCTCTGTGTTGAGCTGAGCAGGGCTCGGGAAACCCCGGTGGGGGTGGGGGTGGGGGTGCTGGTGCTTTCATGGAGGCAGAAGCC
TCTGGCTGGTCCCTTCCCTTGGTGGGCAGCTATGGTCCAGTTCCCGGCTGACAGTGGGGCTGGCCTTAGGTGTGACGCAAGGGGTGGGTAGAGGCCAGGG
AAGCTGCTCTGTATCCTGCAGTGCACAGGCCGGCCCCTGCTGCAGACAGTCATCCTGCCTCAAATGTCAACAGTGCTCAGGTTGAGACACCCTCAAGCTC
CATGCCTGGCACATAGTTGGCTCTCTATAAAGCTTGGATGAACACCAGTGGGCAAGCCAGGGGGGACTGGTCATAAAGTCAGCCTGAAAACTGGGGGTTC
ACTTCYTTCCAGCCCAATGTTTCTTCTTATTGCTCTGTTAGGCATGGTCAGGAATGCTACGAGGTTCTGACAGGCAGCTTCCAGTCCTGGGTACCCTTGG
AGGTGGGGTTGGTGATGCTGTGACTTCAGCAGCCTAAGCTYCTGGGCMCCCCCCCACAGCATCTCTCATCCTGATGCCTATTGGGTTCAGCCTCGTCCTC
CTTGTGTCGCCCCCACGCTGTTGATGATCCTCCAGCCCCACTTGGCATGCCTGATGTGGCCTGAGAGCCTGGGTTTTAATAGCTGAATATTTCTTTAAAA
GAAATTCCACTTGTCTTGAGGCCCGCGTTCCTCCAGCGTTGCCTGCCTGGCTCCCCGGGGGAGTTCACGCAGAAACTGATGTGTTAACAGGCTGCAGTGT
CTCCCTTTCCATCTCTCCATTTAGCCTCCCTTGGAGATGGCCTGGTCGCTGGCTCTCTGTGCCCTTGCCTAGTGGCTCAAGATGGCACATGACTTGGGGC
CCCCGGATCTGGGTAGGGGGGCTGTATAGACACCAGATGTTGGAATCCACCCAGGTAAAGCCACCATGATGCACAAGTCCCAGGTGCCAACTGTGCAGCG
GTTGGGGGCTCCAGCCAGAGTGGAGTTGGAAGGGATGCTGCTGGAATCCAGCTTGTGGGGAGATGGTACCAACTGGAGGTGCTGGACGCTTCCTTCTTTG
AGATGAGCAGGCAGCGATCACCGGGTCTGGGGCTGTGTGGAGCAGGTTGGGGCTGGCCTTCCTCCTCTGGGTCCCTGAGTGTGGTGGGCCTGAAGGAAGA
GAAACATGTCAACTTGGCTGTCCAGGCCAAGTGTACTAAAGAGTAACCTCCACGTGGGCAGGGATTTTTATCTGCCTTAGTTCACTGTGGTGTCCTGGTG
CCTAGGAGAGTGCCTGGCATGGAGGCCGCACTGTCCCCCACTCCTTGCCTCCAAACCACCTCTGCTTGAGCTCTACCTACAGACAGGACCCTGTGCTTTT
TACACATTAACTCATCAGACACTCGCAATAACCATATGGAGTTGGTGTGATAACATACCCATTTGACAGGTGAGGAAACCGAGGCCCAGGAAAGTGAGGT
AACGTGCCCAAGCCCCTCTCCATGGCAGGCTATGTAGCATCTCTTAGGTCTCAGCTCAGGGTTCCCCTCTTAAGAGGTCTGACCAGAGCCCTGGCTCCAT
TCCACACATGATGTCATTGTTGCTCCCTCGTAGCACGTCACCCGGCTCTCTATAAATGTCTGATTCACTCACTTATTCACGATCTGTCTCCACTCCCCGG
AATGTGAGGTCTCTCAGGACAATGTCTGGCCCCTTGCAGGGCAGAGCTGACTGGTCTGACCTGACATCTGTGCTCTTACCCACCAGGCTTTCCTGCCTGC
CTGGTTTGATGAGCTGTGGGTTCATTACATCTGGCATGGGCGCCATTTCCCGGGTCCTAGGATGTGAGGCAGAGGTTCCCTCGAGACCTCTCTCAACTCC
CAGGGAGTTAAATCTCACCCCAGGTTTTAGAGCAGCCAACTTCCTGTGGCCTGCCCTCCTGCAGAGTAATTACTGTAATTTTCCCAGTGTCACCCTCAGC
CTTTGGATGATATTGTGACCAAAATGTGAGAAGCAATGACACCCTGTGACACTCCCAGCCCTTGTAATTGAGGCTTTGAAAGCACTGCTGAYGTCTCCAA
AGGCATCTGGGTGCTCCACGGCTGTGATGGAGGTGGGACCTCTGAACCCTGGCTTTTTGACTTTGGCTGCTTTGCAAATGTAGTGACTAATAGATGTGAT
GTGTTGATTCACTCCCCTGTCTTCCCAAAATTGTGTTCACATCCCTGATCCAATCTGGAGCCTTGTAGCAGCCTCGTGAGGCTGGGACTGGTACTTTGGC
CCTGACTTAATCGGCAGAGAACTTGTGCATTCCTTGAAATTGTACAGCGTATGAGTGGCAGAGCCTGGCTCAAACCCGGGTCTTCTGCTCCCATGTCACA
CACACTCGGTCTGGGACCTCTTCTGTGCAAATATCCCATTCAAGAGGGCCTCCTGATTATTCTACCACTATCTAAAGTTGGTTGCAGAGTAGCAATAGCA
AAAGCAAAAGTCACAACCTTGGGCGCTGACAGCCTGTCAGGCACCGTCCTAATTGACTTGCCATGTGTTAATGCATTTATTCCTCCCTGAAGCCCACTGT
GGTGGGGGCTGTGATTATCCCCACTTTACAGATGAGGAAACTGATGCCCAGAGAGGGTATATTTAGCCCAGGACTGGGAGCCATAATGTGATGGAGCTGG
GATTGGAACCCACGTAGTCTTCAGAGACCAAGCTTTGACCATACTGCCATATAAATCATCTAGAAAGCCATAATTCCTGGAACTTACTGCATTTTTTTCT
CAGGGGTGTTCATTTGTTCATTCATTCYTAAGCTATGGTTGAATGAATGAATGAATGAATCTATTATGTACTGACCATTGTTCTAGGTGCTGAGSATTCA
GTCCTGGGCAAAACAGACAAAGTTTTGCCCCCGTGCAGTTCCATTCTAGTTGGGGGAGACAAGATATGCAGATGATGAATGTGGTTTCAGGTTGGGAGAA
CTATGGAGAACAATGAATGGAACGGGAACAGAGAGTGATGAAGAAGGTGACTTTGGCCACAGTGGTCAGGGACGGGGGAAGCAGACACCTGAGGGGGAAG
CGAGACGGGTGAGCATCATGAAGAAGGGGTTCCAGGCAGAGAGCAGCGTCTGCAAAGGCCCTGCGGTGGGACTGTGGAGGCCTGCTCTGGAAACAGTGAG
GAGGGCATCAGGAGGTGAGGTCAGAACGGTAAGAGTGAGGAGATGCTGGGGTTGCATCGGATGATAGGATCCGACTTCGCTGCTGGAGACAGAGCCGGGG
GATGAGGCGGAGGCAGGGGGGCCAGTGTGGGGGCCGTCCCTGTGGTACAGGGGTGAGACGATGCTGGCAACTTAGCCTCAGGGTGCTTCTAAAGAGTCTC
TTCTTAGATATCGCTCTCTTCCCTTTCCTCCCGGACTGACGTCTGCACATCCTTCTCTCCCGGCTAAGACCTTCCCTGCTCTCCTGGGGGTTGAGTTTGG
CCTTGTCTAAGCCCGTGGCTGGGTGCATGGCTCCCGGGCACTGCTCTTTTGTGGCTGCCTTGTCCAGTGGTTATTTGGTGCGCAGTAAGCCCTTTGCTTT
TTGGGTATTGACTGTAGATCAGTGCTCACCATGTTTATCCTCCATAGGTGCTTTATTATTATTTTTGGCATCTGCAGAAATACCTGCTTTATGTGTTGCC
TGCTCAGTTATGTCTCATTGTTGCCTTTATTTACTTATTTCACACGAGACAATGTCCCTGCTTGGCTTCTCGGCTCAGTCTGATGCCGTGACTGCTGACA
CGGGAGGAATGACRCTGCGTTACTCAAGCAGGTGGCAGTGTGGCTTTTCTCGAAAGCATGAGGCCCCAGCCTCCCTGGGTGTGCAGAATGGGTGCTCGTG
AATCCCTCTGGTGGGACTGGGTGTCTGTGGGTTCAGTCCTGGGGGGCAGGGGTGAGCATATATGTGATGTGGGGTTTTAGAGAATCAGTCAGGGCTCCGT
GTGTGTAAGCAATAGAAATTGCCTCTGGCCAACTGCAGCAGAAAAGGAATCATCAGAAGGAAACTCTTGTATCTGAAGTTGGGCCAAAAGACTGGCTGGG
AAAAGGTGGGAACCCAGCTAACTCTGGTTGGGAATAGGGTGGCGGGCAGGTGGGGGTGGGTGGGTGGTGTTTCTAGCAAGATCTGCTCAAGGCCCTCTGG
GGACCCCACCAGGATGGGTGGCTCCAGCCAGCTTGAGAATTTTGCAAGACTGGAAATCCATGTACCCAGAGAGAGGGGACCTAACTGGTGGGGATTTGAC
CTTGTGGCGAGGCCTGGCCTGGCAGTGTGCAGGGCTCATGTTCAACAGTCCTGCCAAGACTGCAGTTTGGGGAGAGGATCACTCCTGGAAAGGAATTTTG
GGGTGCTGGTGTCAGAAGAAGAGAGGCTGGGCACTTGGCTGCTACAAGTACCTCCTGTACCCTARAAGAGCCACACATGTGAGCTGTGTTTTGGTCTTTT
AAGATGCTAAGGATGGAGGATATCATCAAATGGAATGTTAAAGTACAGGACCGAGTTCCTCTGAGCCAGTGAACGGGCTGGGCTCAGAGTGCAGAGGGGT
TCCCAGGTCTGGGGAAGTTTTGGACACAGTGATCCGGCTGGGCCTCTAGGGCTGGGTTGCCTGGAATAGGAGGGGCGTTTGGGGAATGGAGCTCTGAGTC
AGGCTCACTGCAGGGGCGAAGGCCTGGAGGCTGGGTTTGGTGGAGKTGAGGGGCAGAGTTGCTGACTCACTGCTAGGGAGTGGGGAGTGAGGCTGGAGCT
GCAGGCTGAAGATGTCTTTGGACACCAGGCTGAGGAGTGTAGTCTTGGGAGGGTAATTGTGTCAGGAAGCAGAGCGGGAGGAGTGGTCCACTGCTTCATG
ACATCCCTCCTATGTGCCTGACACTATACTAATAGTGCTTTGTTGTAGCCTGTTTAACCTACTGATGCTGCTATTTCCCTTTTATACAGATGAAGAGACG
GGGGGTCAGAGAGGTTAAGTGACTTGGACAAAGTCACATAGTGAGTCAGTCGCAAAGAAGGTCCTGCTTCTTGCTACGTCGCCCAGGCCTGGCCAATATT
CTCCACTGGTCTGTGTTGCAGAATCGCCAGCTGTGAAGTCAAGCAGCTGCTGATCTGTCCTGTTGAGCGCCTTGATTCTTTTCCTTCAGCCTTCCCTTCC
CCAGTATCCCTAGAGCACATTGGGCATGGCTGTGGGCCGGCAGGGGTGGCAGAGTGTAGGGAGAGGGTCTGGGGAGACTTTCTCCTTGTCACTGCAGAGC
TGTTTCTCTTCTCTCCATTTCCTCTGTAAAGAGCTGGTACAAAGCTAGCAAAATCAGAGTCAGCAGAAAAATCTAATTTTCACCTTAGACACGTTTGTAG
CTGGTAGATAGTAACCCACCTTCTAGACTTTCCTTCCAGACAGGGCTGAGCTGAGTCCTGCCCTGGACATTGGGGACCTGCTCTGTCACGAATTCCCTGC
CTCTTGTTAGGCAAGACAGTTCTTCTCTGTAAGCCTCAGTTTGTCCACCAGTAAAAAGGGGGTGGTGGTGATCGTGGCAGGGTGTTACAAGCCCACATGC
CTGCAGGGGCCCTCCAGGAGAGACAGAGGCATGAAATAAACCAGGCGCAGGGCAGAAGAGGGCATGGGAATACAAGGGGCCTGGTGGGCACGTGCTCAGC
TCATAGAGTCAACCCCAGCTCGGGGCCAACCAGCTGTTGCTGTGTAGGGCTTCTTGGGCCACATCTTTGGATTATTTTCAAGAAAATCCAGAAATCTGAA
CTATGCTCCAAAATAATTGAAATTTTAAATRTTAGCAACTTATTTGAAATTTTTGAAAGATAGTATAGGCCAATAATAGTAGCTCCATGGCCTGAAACTG
GCCTGTGGAGTCACCAGCTTGCAGTGTCTRGATTATTTGGGTCTCCTCCAGCCAGATGAGCTATGGCTACATTTAATAGGCGTATAAATAAAAATAAAAT
ATTTGCCTTCTAGATATGTTGATTTGTATTTATTGATGAGGTCTGTGGTTTATAATTGGCATCTGAGCTCAGAGTTAATAATGGGGTAGAAGCCTCTTTG
AGAAACTTTAATCAGAGATGTAGAATTGGTGTGCTTATACCTCTCTCTCCAGATTACTTCCTCCTCCTGACATCTATCTTTAATCCTTCCTGCTGCAGAC
TTAGCCTAGCCTAGTTTCTGTGGCAACAGAGTATGCTACCTTTTCTCTCCTCGTAGATTCAGAGAGAAGGAAGCAGGGAGGGTGGCCTTGAGATTTTCAT
AACTCAGACAGCAGTTCCAGGGACCTCTACTTTCTACACCTGCAAAATCAGGGGCAGGACAGGTTTATTTGAAGCCAGTGGGCAGCCCAAGAGCAAGATT
TATTGTCTCTCATAAATTTTTAGAGACCTCTGGCTAAGAGCTACCGACTTTATCACATTAGCTGCTACCTTAGTCCCCAGTCTGGAGGGTGTTCGTGGAT
TAGTTTCTTTAGTATCCAGAGAGCAGTGAGTTTATAGGCCCTTTTAAGGGTGGGCTTGGGAAAGACCTATAGGAACCAAAGGCTTAAAAGAGGATCTAGG
GGTCATACTGGCCAATGTGCTGGTCATTTCTACCATGCACAGTGCAGAGTTTGGGAAAGACCTCAGAGAGACAGTAGTGGCAGAAGAGGATCTAGAGGTC
ATAGTGGCCAATGAGCTGGTCATTCTCGCCATGCACAGTGAAACCAAGATGGACTGTATAGTCAGGAAAGGGAAGTGGCTCCACTGAGATTGTGGTGCTG
ATAGCAGTTGTCAGTCCTGGGCTCTGACCGGGAAGAATAGGGGAAGTGGGTAGGATACAGACATTGGAGTCAAATGCCTGGGTTTGGATCCTGGCTTCAC
CGCTGTGAGGCTGGGGGCGCGGGTAATTTACTTAACATCTCTGAGCTTCTAAGAACTCATCTGTAATGGGAAGATGACAGCAGTTACCGCCTCATAGGTT
ATCGTGAGGATTGAGATGATACTTGTAAAGCGTATAGAACAGGGGCGGCAAACTTTTTCTGTAAAAGACCAGATTGTAAACATTTTGGGCTTTGTGGGCC
ATATGGTCTCTGTCGGACGCTGCAACTCAGCTGTTGTAACTTGAAAGCAGCCRTAGATAGATAATATGTAAATGATGGGCGTGGCTGTGTTCCAATAAAA
CTTTATTTATAGACACTGAAATTTGAATTTCAGATACTTTTCATGTGTCACAAAATAGTCTTCTTCTGATTTTTTTTTTCAACATTTAAAAATACAAAAA
CCATTCTTGGCTCTCGGGCCATATAAAAACAGGCAGTGAGCCGGATTTGGCCCGTGGGCCATAGTTTGCTGACTCCTAGTATAGAATAATGCCTATTATG
TGTTTATTAAATGTCAGTCACTGATATTACCTTGATCTTTATCATTATTCTTTTTATCTCAGGAGGGCGGGTTGAAGACAGTCAGATATTTGGCTCAGAA
AGAGGTGACTTGGTTTGGGGGAAGGAGCATATAAACCGTTACTACCAGGAAGGGAAGATGGGATTTGTCCTGCACTGTCCCAGAGGTGTGTCCTCCAGGC
CCGATTGGCAGAATTGACAGGGAGGTAGATTTTTGGCTTCGAGGCCCCTAGCAGCTAGAGGTACTGAAAGTTGCTATAGACTGCCTTGGGCATAGTTGAG
TGCCTGTCACTGGGGGTGTCAAGCAGAGGACAGATACTCCTGACATGCTGCAGTGGAGGGGGCGTGCTCACCGGCTGGACAAATGGACACTGAGRTGCTG
GGGTCACCACCGTTTCTTGCAGCACCATCAAGGCTAATGGAAGAGGGGGTGTTTTCCTATTCTTCCACGGTCCTTTTCTTAATTCGTGAAGTATCTTGTC
CTCTTCCTGCCTTCTCAAATAATCCAGTGACATGCACAGGCCACATTCTCCCCATTTGAACAGGAGAGACAGAGACAGAAAGCAGGAGAACAGGGAGGTG
GTGGGAGACAGGATGCAGCGCTAACCTTCRCTGTGGACCTTGTGCAGTGCATGCGCTTCGTGTATCCCCGTGAGGCTGAGCTCTGCTGGGTGTAGTCTTC
CGTGTTCACCTAGTGTTTCTAGGGGAAAAGTCCTGAATCAACACATGAGAAGTTTGCATAATGCTCAGATTATTCCCTAATGTATYGATTGCATTGGAAC
AAATACGCATTTTAAAAATTAGTGTTATGGCAGCATGAACTGCACTTTGGATCGGGAGTTATGAGCGGTGGGAGGGTCTTTTCTAGATAGGGACTTCCTT
GTAAGGCTCACCTCACCCCAGAAGGTGGGCTGTTACTCGGCACTTCAGGGCCTGTGAAGGTTTCTGGGCTTTCGGTGAGGTTGATCCTCTCCTAAAGTCG
GTTTCTCCCCCAGACCCCAGCAGCTTGTCTTTTGGGATCTCAAGGCACCATACTGGATCCCTCATAACTTCTGATCCCACCCATTATTTGGGGGAAAGCT
GACACCAGGGATGTTGGGGCAGCTCCACAATTCTGACCACACAAACTCAGCAAAGATGTAGTTTATGCAGGATCATGCTGGACCGGAGAGAGGGAGCCCA
ATAGTGGTGGGAAGAGGTTGGGGGGCTCCCTTTTGAACGAGAGGGGAGCAGTGATGTTTAGCAGGAATTGGCCATGCATCCCTAGCTCCCAGCTCCCTGG
AGCCTCTGCCATTTGACCAGTAAGTCCCACGTGCTCTGGAGCTACAGGGACCCAGAGGGGTGTTTCTGGGGCCAGACCCAGGCAGTCTAAGAACCGCTTT
CTTTTGCATCAAAGCCCACCATGGGGCCTCTGTGTGGGTAATGAGGTCTTGTGAGTACCTCTTCCTTAGAGCAAAGAGGAAAGGAAAAAAAAAAGGATTG
CCTGGAATTTATTAGTCTAATTACATTTTCCTAATGTGGTTGACCCTCGCTCACAGCAGCGAGCTTATCAAAGCAGCAATCATACCAGCATTATTGGAGT
TTTAATAAGAGTCAATTGGTTATTGTCCTCGCTGCGTCGGACACTGTCGACGTAATCCTCCGAAGCCCCTCGRGAAGATAGGGAGTTTGCTTTCTTTGCT
GGAATATTATTTACGTTAATAACAAGGATTAGAGGCTTGTTCTATGTGTTTAGGAGAAGCAGAGCTTTTCTTTGTTCGAGTAGCTCCTGGCTGCCGGCTG
TGTACCTACTGGTGGCCCCTCTGAAGTCTAGAGAGCACCAGGCTGAGAGTCTGGACCCTGGGGCCATAGCTCCAGCTCCTGGCTCACCGATCGCTGTGCC
TTGCTCTGTGAGCTTAGCCAAGCTGTCTCACCTCTGTGGTCCCTCCTTTGTGAAATGAGAAGACACAAGTAATAACAATTAGCGAGAATGCAGGGGAAGC
CTTTCCTAGCACGCAGCAAGCATTAACAAATGCAGGCTCTTCTAAAATAGCCAAATACAGTGGTAGGTGCCGGCTTAGCTCTACCCTTATGCGTTTATTT
ATGATGCCATAGAGTGGAGCAGCTTTGTATCAGGATTGAGCATTTCCAGASTGCCCGGTTCTGTCCTAGTTACTTGACACAAGCTGGGGAGCAATTTAGC
CTGATGAAGAGGAGGCGGGGCTGCAAGGCTCACATTTCTGCTCTCCCCTTAGCTGTGTGACTTTGGGCGACATTCGTGACCTTTCTGTGCCCAAGCAAGG
ATAATCAAAGGGTCTCTCTCACAGGCCTAATGAGAGGATTAGGAGAGGCAATTCATGCAGAGTCCATAGAACAGCACTTGGCCCATGCCGAACAGATGCT
GGTTATTGTGAGATTAACAGGATTTCTGAGCTTCCGTCTTCTACTTTGCGAAGGGAGGGAGAAGAGGCTGTCTGTGCAGGGCCACAGAGGGTGCACTAGA
GTGACGTTTATGTAATGCCTGGCACAAGAGGGTAGCCAGAGGTGGTGGGGTGGGCATACAGGTGGGTAGACTGAGGCCAGATGGTGCAGGGGTTGGCCTG
AGTTCACCTTAGCAAATTAGATGCCCACCTGTGGACATTGCTGTCATGGCCTAGAGGTAGCGCCACCTTCTGTCTCACACTTGAGGACTGCAGAGTCGGA
ACTAAAGCCTGGGGTCCTCTGAGGCCAAAATCTGGGCTCGTTTAGCTCCAGCAGGGGCTTGGGGGGTACTTTCTGTGACCGAGGACTCGGCAGCCTGACG
AATAATCGCTTCCTGCCTTTCCCTCATTTTGCTAATGAGGAAAGCTCTTCCACCAGCTGAACAGCTAGGCGCCCTTGCCCACGCTGGGGGGTGGGGGCGG
GGTGTAGGCTGCTGAGTCCCAGGGCCAGACCCAGCACCAGGCACATAGTAGGTGCTCCGTAAATATCAGCCCCACGTGGAGCTTACAGTATGTCAGAATG
GAATGGGGACAGGATACTGGGGGACTGGGGGTAGGGGGTGTTTAGGGAGCCTTGAAAATTCAACTCCTCAGGGGCCAGGGAAGGCCCACTGAGAAGGTGC
CATCTGAGTAGAGAAATCCAAGGTTATGAAGGAGCAGGGTGTGCCACTGTCAGGGGGAAGGGTGTTCAGGCAGCAGGAAGAGCAGGTGCAAAGGTCCTGG
GGTAGGCATGTGCCTGGAGTGTTTGAAGAGCAGAAGGGAGCCAGGGAGGCTGGAGTGCAGCGCGCAAGGGGGCCTTGTGGACAAGGCCACAGCCAACTCT
GGGACCACAGCAGCTTGTCGGGCCAGGCTCTGAGCTGCGGTAGAGGTGTTGACAGAGGCACCTGACCCCTGGAGCCGCTGGAAGAGGGCTGAGGGCCGCC
TCTTTTGAAGGTTTGACTCTAGCATCTTTGTCTACGTCTCCCAGGAGATGATGCTCCTCTCTCAGCTGGGTGGATGTACCTGCCATGCCAGGCTCCCCTT
TCATCTCTCCAGTCATCTTCATTTACCTGATTCCTAGACAGGAGGCGTGGGCTCTGGAATCTAGGTGAGGAGAGAGAGGCCTGGAGGTTCCTGGGAGGTG
CTCCTTGCTCCTTCCCAAAAGTTCTAGGAGGACACCCCTGCTGGCTCAGCCTTCTGCAGCTGCCCTGTCTGTACTCTGAGAGGACTCCTTACATCAGAGC
AAAATTTAGCCTGATGCTCTCTAAATACAGGTGGGTAGGCTGAGGCCAGATGGTGCAGGGGTTGGCCTGAGTTCACCCAGCAAATTAGAGACCGAGGGCT
GATGTCAGCCAGTACGTTTGGAGCCCAGGGGTCCAGCTGGGCAGGGTCCCAGGAATAGCCTGCAGAGGCCACCCCATCCCTCCCCACTCAGCTGATTGAC
TCCTGGGGCCTGAGTCCTCACTGCCTGGAACTGGAGGAGGAGGAGGAGGGTTGGCTCTTAGGATGGGAATGGCCAGGAAGCTTATTAACCAAGCACCGGG
CTGGGGAGGTGGAAGATTCCGGAGGGAAGTGAAGAGAGAGGTACCAGAGGCCAGGAGGTCCAGCCAGGGCTGTACTGTCAGCATTAGAAGCTCAGGCAGA
CCCAGAGGTGACATCACAAGGAAACCATCACAGGCCTGGACCAGGTATACCACCAAAAGGCTATCGTTTCCTGCCAAGGTCACCTGTGTCCCATGGTAGT
TAAATCTAACAGCCACGTCAGTCCTCATCCTGATCTCAGCAGAGTTAAAGATATTCTTTCTTGAAACGCTCTTGAGCTTTTGGCTTGACTCCACTCCAGG
CACCTGCTTAACTTTGAGAATGTCCCTTTTGGGGCTCCTTGAGGCCTCTCCTCTCCTCCCCCATCCTCCTTCCCTCCTAACATTCATGTGCCCTAGGTGC
TCTCAGTCTAGTAGAGTAGACAGACCAAGGCTAATGAACCTAGCGTGAGGCAGGGGCTTCTTAGAGCTAGGACAGAAGATTCCCGGGACAGTATAAGGAA
GCATCTATTCTACCTGGAAGAGTCAGGGAGGGCTTCCTGGAGGAGGCCTCAGACCAGATCTGTCACTGTTTGTGCTATCCAGATGCTGAGGTTCAGGGAA
GTGAAGTCTCTCACCCAGGTCACATAGCCTGTAAATGATGGGGACAGGATTTGTCCCCCTTAGCCTTGCCTCCCCAACCAAAACTTGTGACCTGCCTCTG
AGGGCCACAGGGAGCCATGGGAAGCTTTAGAGCAGTGGTCAGAAAGCAGCTCAGGATGAAGACAGCACGAAGGTCCTAGGCAGGATGGGACTTGCCCAAG
GAGCCTTCACCCTGCCCCTTCCACCAGGCTTTGGTGACAGCTGTCCTCTCTGAGAGGACCTAGAAGACAGTCAGATCATGGGTTCAAACCAGATCCTGTG
TACAGCCACTCCAGGGTCAATGAGTTTGGTTGCTCGGTGCCTGGAGCTGATGGTGAGGACTGCTGGGTTGGTCCTGAACTTGCCTTCCTCCTGTTTTGGC
CCTCCCGCTGTGCCCCTGGTGTACAGCTAGTTCCAGGAGTTGCGGGGTGAGGCTCACTCGCTTCGGCTCCTCTGCAGTCTCCCAGGAGCTTGGACGGCTG
CTTCCTTGCAGACCCCCTCTCTGTGRAGCTGAGTCTGCTTCYGTTCCACTCTGCCGTCGTCCCTTCTTCCTGCCATATGTTCCTAATGGCCTCATTTTTC
CTCCCAGGCAGAGTCAGTGGCCATCTGCAAACTTGGCAGTGTCACATACGTTCCTGTACCCAGCTTGCTCAGAAGGGTTTTAAATAAGGCCGATTCTAGC
ACCGGTCCCTAGGGTTACCTCCTGTTTTATGCATTCCTTCCAGAGGACCTTATTTGATCCTATTGTTTGTTTCCTCTTTCCTTTTTCTTTGGACAGGGTC
TCGCTCTAGCTCCCAGGCAGGAGTGCAGTGGTAAGATCATGGCTTACTGCAGCCTCGACCTCCTGGGCTCAAGCAATCCTCCCACCTCTGCCTCCTGAGT
AGCTGGGACTATAGGCATCCACCACCGTTCCTGGSTAATGATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAGAGATGGGGGTCTTGCCATGT
TGCCCAGGCTGATCTTGAATCCTGGGCCTGGGCCCAAGTGATCCTCCTGCCTTAGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCGCAGAACCTGGC
TATTTCCTTTTTCTAAGCCAATAACCTACCTGTGGCAGAACAAGCGCCTCTCTTTGAAAAATGCCAATCATGTGTCTATTGTCCTGGGTCAGAACTTTCA
GAAAGTCCAAGGTCCCACATCCTGATTCTCCAGGAACATTTTAGCCTCCCCGGAGCGCCACCTGGTTGTTTACATCGTAGAAATGCTACTTCCTCTACCA
GCAACTTCTCCTGGCCAGCAGTTCTTGGGTGGCACAGCGCCCCTGAAATCCTTCATCCCTCAGCCCCAGGCTCATGCTGTTCCCACTTGGAAGCGTGTCC
CCATTCTCTCGCACATTCCACCAGATAAACACGTGCCTGGTGGTGGAAGGTGTCTGAGATCCTTGGCCGGTGATAGCAGGTGTGAGACGGGGTGCTCATC
TCCTGTGCCAACTCTGATAGATTGGCCGTTGCTTACCAGAGTATGGTGTGGAGCCATTCCAGGCTGTGCTTGGGCTCGTGGGAAAGAATCCATCTGCTGA
TTGATTCGTGATGTCTGCCACCTCTGTGATGGAAAAGATTGGTGGTATGTGTGCTAGAAAGTGCCATCTGAGGCCGGCTGCCTTTTGTTTTGAAACAGTC
TCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCCGCCTCTGGAGTTCAAGCGATTCTTCTGCCTCAGCCTCCCGAGT
AGCTGAACTACAGGCATGTACCACCATGCCCGGCTAATTTTTGTGTTTTTAGTAGAAATGAGGTTTCACCGTGGTGGCCAGGCTTGTCTTGAACTCCTCA
CTTCTGGTGATCCTCCTGCTTTGGACTCCCAAAGTGCTGGAATTACAGGCGTGAGCCACCGTTCCTAGCCCCGCCGCCTTTTTCTCTTGGGTTCCTTGTC
ATGCCATGTACTGTGGAAGGTGACATTGCTGGATGGTGGCACATGTTGGCTGCTTTGAGGGCTGAATGGGAGACAAGCTCTGCTCGTCTTAACCAGTTTG
GGGAACAGTTGGGAATTGCTCTGTGCTTAGCAGCAAAAAGCTGTGGGTTGGCCCCTGCATTGGGGTAGGCTGGGGCAGCTTTGGTAAACAGAAAGGGTTT
ATCCAGGCATGGGGCTTTGGGATCCCTCCAGCCTTGGTGCAGGGCCTGCTCTTTTCCTGGTGGCATCTCACTGGCCCCGAGGGGCTGTAAGGCTGAAGCA
TTTCCTAAGCTGTAGGCCAGGGTGTCTTTCAGGATCCTGGGTGGGGGAGGGTATGAAGGGGCCCAAGCTAAGCTGCTCCCACTGAGACCCTGAATCATCA
TTTCATTCCCTTCTGTCTCAAGACTAGAACTGATGTCTAGTTGGCTGAAAGCATGTTGTCGGGTGTGGCTCCTGATTCAGAGAAGGGCCACTTTTGGTGA
AGCAAAAATCCCAAGGACCCTGGGATCCCAAGAAGCAGTAGTAAAAGAAAGAATAGTATTCTCGGGGATGAATCTGCATTCTAGTCGCACAGCTGTACCT
TGGATTTGCTGTGTGGCTTTAGGGAAGTTAATTCCCTACTCCGGGCCTATCTTTCTTCTCCGTACAAGGAAGAGGACTGACTAGAGATCTAAGGGCCCTT
TTTGCCCTAACTGATGAGATGGGCTGTCTTGGGCACAATGTGTCTGATTAGCTTTCGGTGGGGCTTGTTTGAGAATCTGAGCTCAGGGATGATGAGTCCT
GGAGGCTGCTCTCCCAGACATGGATTTGGTGCTCGTGTGTTGGGCGATGAGTTGAAGAAGAGATGCTGGAGTTGAGTGGCCAGTGTGGGAATGATAGAGG
GGCTGATGACACAGGCCCGACCCGGGTCATGAGAAGCCAGGCCCTGCCTGCCTCTCCCCAGGACTGTTTTTGCCTRGAGGTGGGATAGGCACCCATTCTA
GAAATGTCCCCGTCCCTGGCCTCCCCACTTACCTTGTACTCTTTCTCTGCCTCTCCAGCCCTGTTCCTCCTATACATACCCGAGATTCCAGATGTGCTAA
ACGACTCACAGGCTCACAGCTCAGTGTTTGATTTCTCCCCTGGGCATTTGTACCCATGGACCCTCTCCCTCCTGGACCCCTCTGCCTCCTGGACCCCTCT
CCCTCYCACAACCCCTTCTCACCTCCTTCAACATTCAGCTGGGGCAAGCCACCACAGAAGCCTTCTCTGACCTTCGCCTTGTACCTTGCATCTGGCTTGA
GTCAGAGGCCATCCAAGACTGCCTCCCTCCCCATTAAATTCCTTTGCCACCCTGTCCGGGTTTGATTGCTGCTTCCCCACATTATAGCTGTGTGAATTTG
GGAAAATCCTTTTATCTTTCTGCCTAGATCCCTCATCATCAGATCTGCAAAAGGAGACAGTACTTGTGTTAGTCAGGATAGGCCAGGCTGTGTTGCACTA
ATAAATATGTCCTGAAATCTTGGTGGCTTAAAATACCCAAGTCTGGTTCTTCCCCCTGCAAAGCGCTAAGATGAGCTGGGTGCCTCTCTGGAGTGGCTCT
CTTCCATGCAGTAACTCAGAGATCCAGGGTTGCTTTCATCTATGGCTCCACCCTCTCAACATGGGGCCTCCGTGTTTACCGCTAAAGGGGACAGACCACA
AGCACACAGACGTCCCGCTGCTTTTTAACAGTCTTAGCATGGAGGTGATCACTTCTGCTCATAACTTTATAGGCTAAAATGTCTCATGGCCCTACCTGGA
GTGGGTCTTCCATGTTCCTGGGGAGGGAGACCTGGCTAGGGGTAAGCACTAAGGAATCTACTACAGTCCATGAATCCATAAAGCTTAAGAACCTTTTGGC
TGGGTGCAGTGGCTCATACATGTAATCCCAGAGTTTTGGGAGGCTGAGGCGGGAGGATTGCTTGAGTCCAGGAGTTTGAGACCAGCCTGGGCAACATAGG
GAGACCCTTTCTCTACAAAAAATAACCAAATTAACTGGTTGTAGTGGTGTGCACCTGCAGTCCCAGCCTCTTGGGAGGCTGAGGTGGGAGGATTGCTTTG
AGCCTAGGAGGTCGAAGCTGCAGTGAGCTGTGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGTTGAGACCCTGTCTTGAAAAAAARCCCCAAAAAC
AAAAAACCCTCTGGTTTAGTGACCGGCTTGTAGCAAAGAAGTGGCATTAGCCTGGGAAGACCTTAGGATGCTCTTGTCTAAAGACCAGGTGGGAGAACTG
AGGCTCAGAGAGGGCTGGGGCCTTGCCTGAGATGGCATGTGGAGTCTGCGGAGGGGCTGTAGATCCTAGTTCTCCCACAGTCCAGGCCATATTCTTCCTT
CCTTGTTCTGCTCACTGTAGCCTGGCCTCCTGCTGTGGGATGCAGGCAGGGATGGGGGCGTCATCTCTGGGGCTCTTGTGAAATTATTTTAAGACCRTGG
AAAACAAATTAGAATTTCAAACCATCCAGCCCTCTTGAAAGCAGACTGGGGGTGTGTTCGAAGTAATGTAATTTTTGCTTTGTTTTATTAATAGGATGTG
GGAGGTGAGGGGAGGGTGTGAGCCGATGGTGACTGAGGATGCTGGCTTCAGTGCCTTGGTTGACAGTGCAGTCCTGAATCGGGAACATTGGAGGAAGAGC
AGGGGTGGGAGTGTGTTTTGGGGGTGGGGGTGGGGAGGATAAACCCAATTTGGGACACACTGAGGCTGAAGGGCCTTGAGATAGTTCCGGGTAGTGGCCA
GGGAGCCCTGGCCTGGACATTCAGATTTGGCAACTGCTGGTCTGTATCCGGGAGGTTCTAAACTGGAGTCTGTGGTCTCTCTGGGACTGGGGGGCTGTGT
TAATTTCCTTTGGTTGCCATAACAAATGACCACAATCTGAATGGCTTGAGAGAAATGTATTCTTTCATAGTTCTGGAGGTCAGAAGTCTGAGATCGGTCA
GCAGACTGAGATCAAGGTATCAGCAGATCCCCAGTAACCTCCGAAGGCTCTGGCAGAGGATCCTTCCTTCCTCTTCCAGCTTCTGGGGAATCCTGTTCCT
GGCRTGTGGCTGCATCACTGCCATCTCCGGCTCTGTCCTTACATGGCCTTCCTCTCTGTGTGTCTGTGTTCTTTCCCCTTCTTAGAAGGATATCAGGAAC
ATTTTCTTTCTTTTTTTTTTTTTTTTTAATGGAGACAGAGTCTCACCCTGTCACCCAGGCTGGAGTACACTGGTGCGATCTCAGCTTGCTGCAACCTCTG
CCTTCCAGGTTCAAGCGATTCTCCTTCCTCAGCCTCCTGAGTAGCTGGGATTATAGTGCCTGCCACCACGCCTGCTAATTTTTGTATTTTTAGTAGAGAC
GTGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCTGCCTCGACCTCCCAAAGTGCTGGGATTACAGGTGTGAACCAC
TGCACCCAACCAGGATACCAGGAACTTCTAAGTCATTGGGCTTAGGGCCCAGCCTAAATCCAGGAGGATTTCATCTTGAGATCCCTAGCTAGTTACACCT
ACAAAGATCCTTATTTCCAGATAAGGTTACATTCTGAGGTCCTGGGGTAGACATGAATTTTGGGGGACATGATTCAACCCACTACAAGGGCCATTTATGG
GTGGGCTTCGGGAGGGCTGCACACCACCTAGATCCATACGTAAAATCCCATGCATACATTTCCCCTGGAAAGACACACAGCTCTCTTTGATTTGTTAGGG
CCCCCACAGATGCGGGGACCCATGCTCCTCCAGGACCCATCTCTGGCAGATAGGGCTATTGGGACAGAGGACAGGCCACAAACACAGAAAGAAGGGGAAT
GTGGAGAATGGGCCATCCATGAAGGAGCCAGATGGAGCCAAGAAGATATGGCAGAAAGATGTTTTGGAGGGTTTGGGAGACTGGCCATACCTCCTAGGTG
TTACAGGCATCTTTAAGAACCTGATTTTTTTGGATCTATTCCCACAAGAATGTACATAATGAACACACACACCTTTGGTATACAGCTCTGGTACACGAGC
CCCCGCTACCCCAAAGCCCATCCCTGGGCCTCTGGAGACCCTGATTCAGACTCCAGTTAGGGTACCTTGCTAGAGGAGAAGAGTTTGAGGACAGGGGGAG
GGAACAGCACTAAATGCTGCAGACAGCTTGAGGCAGACTGACAATTAGGAAGACAAGGGCCATTGCTTTCGCTTCTGGCATTGAGGATTACAAGAGAGAA
TACGGGCGAAAGTGCTCTGTGGTTTTAAAAGTTAAATGACTTATCTTGTCATTTTTTTTTTGTTAAACGCTATAAAGCAATATCTGTCCATGGTAGGAAA
AAATGAGGAAATATGCAGATAAGCCAAAGGAGGAAAATCCCTTTAATCATATTATGCATAGATCGCCACGGCGGCCACCTGGGTATATGACCTTCTGAAC
CTTCTTCTCTGTATTTTATTTGACATGAATGGGACCATAACATACGTAACGGTGTAACTCACATTTTCACGTGAAGAAGTGCTCATGAAACGTCTTTACC
AGCCACATAGAGTTCTGTTGTCTGGTTGTACTGCACCTTAACCAGTCTTCTGCTTCTGAACAAATTGTTTTGCATCGTTTCCTTCTTGGTAAACAATTCT
GTAGTGAACATCCTTGGAGTTTCTTTTGTGCATCTGCTTCTATAGGGGAAAGTACGCCACAGACTCTAAACCGTAAAGCACTTTACTGATGTACACATCT
CAAACGCCTTTTATTTGATGCTGAATCTGTGTGAAGCTAGTCCTCAGCTATCCCATCCCACATCTGGGAACTGGCTTTAGGCAAGTTAATTCCCCACTCA
ATCAATGGCACATTGCAGAATGGAACCTTTCCAGTCAACATGGCTCACCATGTGTTTGCCAGCACACACCCAGTATGCCAGGCCAGCTGCTGATTGGGCA
AATGGGGCCAGACACTGAAGTGGGCCCCATAGGCCCACCAAGAACAGGTCTTGCTTCCAGTTTATGGATGAGGGAACAGAGATTTAAAGGTCATACAACT
AGTAAGTAGCCCAACAATCATTCAGACTGGCTCTTCTGGGTACCTGATATGGTTTGGCTGTGTCCCCACCCAAATCTCATCTTGAAWTTCCACATGTTGT
GGGAGGGACCCAGTGGGAGGTAATTGAATCATGGGGGCAAATCTTTCCCATGCTGTTCCCGTGATAGTGAATAATTCTCATGAGATCTGATGGTTTTAAA
AAGAGGAGTTTTTTTTTTTGTTTTKTTTTTTTTTTTTAAWAAAACTCCAGGGCCTGTGACCCTAACTAGTCCCATGTGTCGGATGATGCCTGGAGGCTGT
CTGTGTGAAGGTGGTGGTCCGTATTTAAAGCATTCATCACTTGTGCTCGCTTTGGCAGCACCACATATACGAAAACATTGATTACTTAATACTTGTGTTC
CATGCCGGACTAGAATAGAGGAAAAGGAGTTCCATTCCTGCTGCCGTTTGGCTCTCTAGCTTCGCAACTCTGGCCTCCTTGTGTGTCCCTGAGGTGAGTT
TATTTCTCGTGATGTTAAAGGGATCTGGAACTGCACGGTCGTCGGGCTGGAGATGTCACCTCCAGGCCTCTTCTGCAGACAAGCTGCTCCTATGTTCACT
TTCATTCTAAGGAAGGGCTCCGTTTTCTGGGGAAAGCTTCTCTTAAGCTCCACTGGCCTACAATTCTCAAATGAGAAATAGCTCTTGCCTTGAGTTGGTG
TAAAGGGGATATCTTGGGCCCTTGGCTGAAAGCCTTTGAATTGTTAGTAGCTTGGAGCTTAAGAGTCTCTAGGATGGGTCTGGCATCATCACCCTCTAGA
TCTAAATGGATATCCACCTTCCATTCTGCCTCTCAAATTGCAGACTTGGCCGAGCTGCTTAAGCATGTTGAGCCTTAGTTGTCTAGTCTGTGATATGGGA
ATCGTATTAGTCCATTTTCATACTGATATAAAGAACTACCTGAGACTGGGTAATTTATGAAGAAAAGGGGTTTAATTGACTCACAGTTCTGGAGGCTGTA
CGGGAACCATGGTTAGGGAGGCCTCAGGAAACTTACAATCATGGCCGAAGGTGAAGGGGAAGCAAGCATCTTCTTAACRTGGTGGAGTGGAGGAGAGAGA
AAGAGTGAAGGGGGAATTGCTACATGCTTTTAAACAACCAGATCTCATGAGAACTCACTATCTTGAGGACAGCAAGGGGGAAGTCCGCCCCCATGATCCA
GTCACCTCCCACCAGGTCCCTTCTCCAACATTGGGGATTACAATTCAACAGGAGAYTTGGGTGGGACACAGAGCCAAACCATATCAGGAATTGAACTTCT
ACCTTCCATGCCTCATAGGAACATTAGAAAGCGAGTTCCATTGTCCTCTGTGGGTGAAGAACAAGTACCATATGTTTGGAAGAATGATTTGTCATAACCC
ACTTTCCCAGAAGTTGTTATTGTTCTGAAATTGAACTTTTGTTATTTTTGTCCTCATATTTTCTGAGAGCAGTATAGAATGTTAGGAAAGAGATTCAGCA
TCTTCCTATGCTGGGTACCATGAGGTGTTCTTCTCAATACAATGCTATACCCCATTTATTCCTCATGGGATAAGCACCACGCTTCTTCCCGTTTTATAGG
TAGAGCAGACTGAGGCTCAAGAGATAGCATGGTGTGTTCAAAGCCTAGGTTGTGGAGTCAGATGAGACACAACATGGGCTTGGGTACTGTATTAGTCCGT
TTGCACACTGCTGATAAAGACATACCCGAGACTTGGCAAGTTACAAAAGAAAGAAGTTGAATTGGACTTACAGTTCCATGTGGCTGGGGAAGCCTCACAA
TCATGGCAGAAGGCAAGGAGGAGCAAGTCCTGTTTTACATGGATGGCAGCAGGCAAAGAGAGAATGAGCTTGGGCGGTAGAACTCCTCTTTCTAAAGCTG
TCAGATCTCATGAGAATTATTCACTATCACGGGAACAGCATGGGAAAGATTTGCCCCCATGATTCAATTACCTCCCACTGGGTCCCTCCCACAACATGTG
GGAATTCAAGATGAGATTTGGGTGGGGACACAGCCAAACCATATCAGGTACCCAGAAGAGCCAGTCTATATGATTGTTGGGCTACTTACTAGTTGTATGA
CCTTTAAATCTCTGTTCCCTCATCCATAGACTGGAAGTAAGACCTGTTCTTGGTGGGCCTATGGGGCCCACTTCAGTGTCTGGCCCCATTTGCCCAATCA
GCAGCTGGCCTGGCATACTGGGTGTGTGCTGGCAAACACTTGGTGAGCCATGTTGACTGGAAAGGTTCCATTCTGCAACATGTCTCTGATTCTTGATAGG
AACATTTGGACTATCCCCTTTTGTCCTGGGAGRTAAGAGGACGCACCTAATAGGTTGTTGTGACAATGAAATGAGCAAATGCAGGTAAATTTCCTAGAGC
AGTTGACAGCACAGATGTACACTGCCTTGCTGGTCCTTCAGGKTCTTAGATTTCAACCCTCTCATCCCAYTGTGACAGGGATGCTTGTAGGGTCCTTTGC
CCTAACTCACTATGGCTCCAGATAGTTGTTAGCTAGTTTATATCTGCTATTCTTCATCTCAATCTTCACTTCTTACAGTTATTAGTATCTTTTTTTCACT
CCACTCTTTTATTTCTTAATTTGATGGGTGTGTTAGTTTTTTCCTTGTTGCATAACAAATGACTACAGATTTAGAGGCTGAAAACAGCATTAATTTGTTA
TCTCACCATTTCCTTGGGTCGGGAGCCCAGGCAAAGCTTAGCTGGGTCTCCTGCTTGGATCTCACAAGGCCACAGTCAAGGTGGTGACTGGGCTGTGTTC
TCATCTAGAGGCTGGAGTTGGGAGAGAAGTGCTTCCACACTCATCTGGATTGCTGGCAGGATTCATTCCCTGTGGCTGTGTGACTGAGGGCTCCAGCCTA
TTTCTGGCTCTTGGCTGGGCCTGTCCTTGGGTGCTGCAGGTGGCCCTGAGCCCCTAAGAGGCTCCCGCAGGCCTCTGCCATGTGGTCCTCTCCATAGGCA
GAGCCCAGCATGGTGCTTTGCTTCTTCAAGGTGGACAGGGTGTCTCTCTCCAGCCTGTTCAGACAGAGTCTAACAGGAACAGGAAATAGAATGAAACGCC
ATCACAGGAGAGAGGATTTATCACCTCTGCCTTACCCTATTGATTAGAAGGAAGCTGCAGCTCTCACCCACCCTCAAGGGGAGGGAATTATACAAGTATG
TGGATCACTGGGTTCGCCTTCAGGCGTGTCTGCCTTGGTGAGTTTAGTAAGCTGACAGCTTATTGAAATACAAAATAAGAGTTATTAGTTTAAAGCAGAT
ACAATGCATTTTGACCATCAGATGTCTGTTTGTCTTGTGGTTCTAGGCTGTGTTCTGGAGAGTGAAGGGTGCCAGATAAATAAGTTAYTTAGCCTGTTAC
TTAGCCTGTTACTGTTTGTTTTTTGTGTCTAAATGGCCTGAAGTGAGAGGAAGAATGGAGAACAGGGGAGGAAAGTGAGCAGGACCTCAAAAGGGATAGA
GGAGAGAGGGGACATATACATGGACCTTCTTTACGTACATATGCAAATGCCTTTTGATAGACAATTTTATTTTTAATTATTATTTTTTTAGAGATACGGT
CTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCATAGCTCAGCACAGCCTCGAGCTCCTCAAGCAATCCTCCTGCCTCAGACTCCCAAGTAACT
GGGACTACAGGTGTGCACCACCATGCTGGCCTATTTTTTTAAATGTTTTTTTTTTGTAGAGACAGGATCGTGCTTTCTTGCACAGGCTGGTCTTGAACTC
CTGGCCTCAAGCAATCCTCCCACCTTGGCCTCCCAAAACCCTGGGATGACAGGTGTGAGCCATCACGCCTGGCCCTGACAGTTTTAGATAAGTGCATAAA
TGTTACATTTATAAAGTTCAGTATATTTTTTCCCTTGTTTTGTTTATCTCCTAACCCTCCTTCAGTGACATCCCCCCTCACTCCCACCCTGGAACTCATG
CTAATGATCTCATATAGATCTCTTTCATACTTTTCCATGCTCTTATAGTCAGTTACAAACATATATGAATGCTTTCCTGGATCTTTTCTTATTCAACCAT
GTCCTATGGAAATCCTCCCACCTCAATAGCTGTAGATCTAGTGCATTCTTTTTTTTTGAGACAGTCTCATTCTGTCACTGGGGCTGGAGTGCAGTGGAGT
TATCTTGGTTCACTGCAGCCTCTTCCTCCCAGGCTCAAGCAATTCTCATGCTCAGCCTCCCAAGTAGCTGAGATTACAGGTGTGTGCCACCACGCCCAGC
TAAATTTTTTTCTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCCAACTCCCAGCCTCAAGTGATCCTCCTGCCTTGGCCTCC
CAAAGTGCTGGGATTACAGGCGTGAGCCACACCGCGCCAGGCCTCTAGTGCATTCTTTTAACAGCTACATAATATTCCAGTGCGTGGGTGTGCTGTAATT
CAACTGACCATTCCCTATTGATGGGTATTTGTTTCATTTCTCATTTTTTTTTTTTGCCATAATAAATAGCACCAAGATAAACCTCCTTGCACGCACATAC
ATCCTACAGAGCTAGTTTTATTTCTCTGGGGTATAATCCCAGGCATTGGATTGCTGGGTCAAAAGGTTTGTGTGCTGTTAATTTTAATAGCTGTTGCCAG
CTGGATTTCCCCAGAGGCTGTAATACTTCACATTTACCCTGGTAATTTGAGAGAGGTCGTTTTCCTGTATCTTGCCAGCAAGAGATGTTATTGGCCTTGT
TAGTTTTGTGGGGGCTGAGAGGTATAAAGTGATCTCATTGTTGCTTTCCATTTTCATTTCCCTGACAAGCAGGGGGGCTGAGCAGCCTTTCATCTGTTTG
GCCCTTTGGCCGTGCTCTTGTGAGTTGCATCTGTGGATCCTTTGCTCATTTCCCCGTTGGGTCCTCTGCCCCTTCTTGTCCACTGTCAGCCCTGTGTATA
GCATAGATATCAACCCTCTTTTTGCCTTCTGTGTAGCAGTTATTTTGCCAGAGATGTTGTGTGTTCATTTTGTTTATGATATCCTTTGCTATGTAGAAGT
TCTTATTGTTAGTCAGTTTAAAAAAAATCTGTGTCTTCTTCTGCAGTCTCTGGGTCCCCAAGGTTGGTTAAGAAGCCTCCTTTCCACCCCCTGCTCCTGC
CACATGCCTACCTTCCTTTCACATCCACAGCTCTGGACTGGGGCCGGGAGTCAAGGTGGGCTGCTGCCTCAGCTCAGAGCTTCCCAGCCAGGATACAAGY
GTGCCCAGCTCTGATGCCCTCAGCCCTCGGAGCAGCCAGGCAGGGCCTGGGGTAGCCAAAGCCTGAGGAAGATCACTGCCTGCCATGGACGGCCTCATCC
CTTTACCCCGTACAAATATTTTCTGTTTTCCAAGTTTGCATGCTTCAAGGATGACAGCTGAGTCAGCCAGGTGCAGAGGAGGAGGGTGGTATGAGAGAAT
TCCTGGAGGAAGAAACAGCAAGAGGAGTGGGGTGGGGGGTCTTGTCCTACCTGAGGAGTCCCACCCTGGGCCATAGGAAGAGGTGGGCACAGGGGAGCAA
TGGGCATGTGGGGAGGTGTACCACCAGGCTGCAGAAGGCCCAGTGCAAACCAGAAAGGAACCCAGAGTGGGTGCCCACCATAGCGGGGATGTTGGGGAGA
GGAGAGTTGGACACTTTGCCTCCTTTTTAGTACATCTGAGGTGGGAGGGGCAGGGCCCCTGTGTGACAGCTGACCTCCTGGCATGGCTCAGGTCATCTCT
CCTGGCTGCTCTTGATCAGTGGTCATCAAAGAGGTATACACGAATTTGCAGGAGAGTTTGAGAAGACCTGCAGAGTGCAGGAGACAGAATTAGAACTGCA
TTTCTATTTATGTTCTCATTTCTTCCTCTAAAGGTGTATTTTTGTGTGTGTTTAATGATGTACATAATATTAAGAAGGCAGTGCATGTTCTTAATTATAA
ACAAATATGTATCAGGACATATACATAATCAGAGTTTGGAGACAACTGCTCTTAGTGGCATGATGTATGGCAGCCCTTGGTCCTCTTACCTTCAGCGACT
CCCAAGAGCGAGGGGATCCCCTGACATAGAAGGGAGGGATGCTCGTGTGGGCAGGGGAGGACTGGGAAAGTGATTGCTGGGAAGGGAATAACTTCTCCCA
TGCTCCCAGAAGGGCCATCTCCTTCTCACATATCACCCCTTAGAGCAGTCCCTCTCAGTGCCCCTTGCATGTTATTCTAGCCCCCTTTTTTCTTTCCAAG
ATATCTTCTAATTTGTAGTGATTTTGCCTATTTACCTTTTTCCTATTTCCCCACTAGACTGTAAGCTCTGTGAGAGCAGAGATGGGATGTTTCAGTCTTG
GTGGTGTCCCCAGCACTTAGCACAGTGCCAGGCAACAAAACTGGCCCTCAATACAGAGTTGGGGAGCGTAATGAGTGGATGTTCCAAGCACATGTTAGTG
TTTTCCATACCTTATTTATTTCTATGTCCTTGAAGGTAGACATCATCATCTCCATTTTGTAGGTAAGAAACTTGGGTTCAGAGAGGTTGAGTAATTTACT
CTAGGTCACACAGCTGTTTGTGCCTAGAGGTGGGAGAAAGAGAGATAACATTTTCCAAGTACCTGCTAAATGCCTGGCTCTGACCATACCGTTGTTATAG
GACCTTTGGGGTGTCATTTTTCTGGCTGGAAACCTCTGTGGCTGGTGGCACCTTTGCCTGAGTTTTGCTTAGGCCTGCTGGGCTCATTTCACGCACTCAG
CCTGGAAGGCTGCACTTGGCTCATGCCACTGGCCTGGGTCCCACGCCTGCCAAGGGAGAGTCAAGTGTGGAATGGCAAGGGGTGTGTGAGCAAGCGTGGT
GTGTGGCCACTGCACACAGTCAGACATGCCAGCTGCTGCAGTGGGGCAGGCAGCTCTGGGTGCCAGCACAGGTGCCAGCTCTCTGTGGGTCTGTGGCTGG
ACCAGGTGTACCACAAGCAGCTTCCACGGCTGGCACCGGGGAACACAAAGGCACTCGGAAGCTTGGAGATGCCAGGAACCACAGGGCCCCAGTGAGGGAG
TCACAGCCCTGGCATGGGGAGCTCCCAGGTCTGGGCTCCCTGAAGGGCCACAGCTCTTCTCTTCTTCTCTTCACCTGCAATGTGGTGAGCAAGGGTCATG
TTTCAGCCCTGTTTGTGTTACAGCTCTTTTAGCCTCATTCAGTGGTTCCCAAGTTCTTGTCCCATGCCCTGGAAGAATGAGATAGGCAGACAAACAGAAG
GTGAGCAAGACGAAGAGGAGCTTTATTGAGCAAATATAGCTCAGTGGAGGCCCTGGAGTGGGTAACTCCTCTCTGCAGCCTGTTGTCCCGATGTCTGCTC
AGCTCTGGCTGATCCCAGGGCTTTTATGGGCCTCAGAAAGTGCATGCTGATTGGTCCATGGGCACCCATGGGCGGGCCCAGAAAAGGCACCACAAGTTCC
CACTCTGTGAGACTGGCATCTGGCCCCCAGCCTTCAGGTCCTCCCTGATCTGAAGGTGGGGCCTCACCAGGGACCCACCCCCTTCTACCCAGGAAACTGT
CTGCCTCCTGCTGCTGTTCATAGTGCCCCAGGCTGTAGGTGCCAAGGGGCACCTGCAGGCCAGTGCCAAGTTGCCCTTAGCCCTCCCTTGGCTTCCCTCC
TGTGCTCATCAGCATCCAAAATTCAGAGGGGGCTGAGGCAGCAGGAGGCTGGTGTGTCAGCACTTTCCTGACCGTGTGCACATCTGGCTGGGCTGTGACA
GGGCCTGGGCTTGGCCTTGACTTTGCTCTGAGATTGGAGCAGATGCTAACAGCAGGGGGAAGCCAGGCAGTGGGAGCAGGCTTTTCTGAGCCTATGAGGG
TTGGGGGGAGGGGGCCTTCCTGGGCCCCTAAGAGTGCAGAGATGACTGGGTGGCTGCAGCTGTGCCTGGCAGGGGGTGGGGCCGGGCTCCTGCCTACTCC
ATGGAGCAGGAGGCCTGGGTCTGCTGCCATAGTTCAGACAGCTGCAGCGGCACCCAGGGATCTCCTGCCCCAACTCGGAAGGGGCAGGCCTCCTGCTTGT
CCCCAGCTCCCGCCAGCTCCACGGAGTGTACAGCCCTGGCCACGCCTCCCTGCTGCAGCAGGCGTGATGGCAGCAGCTGCTTCAGATGGCTCGCTGCTGC
CATCACCTTGATACCACCTCATTGGCTACGAAGAGGAAACTGTGTTCACAGAATAGTAAACTGAGACTCAGAGATGAGAAGCAGCTTTCCAGGGCCACAC
AATTAGGGAGTGGAAGATCCGGGATTTGAACACAGGTCTGTGTGAATCCTAGGCACATTCTCTTGCCACCACCCCAGCAGCAATTTCCTTTATTTTGAGT
CAGCTCAAGTGCCTGGTGGTGGCTCTGAGGTCTGCATCGGGCACATCGGGGTGCAGAGTGAATGTGGGTTCCCCTGGCAGATGCCTCCCTGAGGGGCCAT
CAGCATGGTGAGGAGGCTGGCTAGATCAAGCCGCCCTGCGAGTGGGCACCGGGCCATGGGCACCAGGCCCCGAAGCCAGCCTGATTTGCCTGTGGAACGA
GGAGGGTGATGTTTTATGCATGGTGCCTAATTTTGCCCTGGCAGTCTCTGGCTATATTTAACACCATTAATCATTATTGTTGGCTCCCAGGGGGATGGAT
CCCTGATTAGTGTCAGAAACACATCTTATGAGGAAGAGAGAGGGAAAAAATAAGAGCTTCACCCCCAACTTGATTTCTTCCAACTGAAGCCGGGACTCCC
ATTCCTGCCACCATCTCTTTGCTATCTGCAGAGTTTGTGACTTGTGGCATCCTTGGCTTGGGATCCTGCCCCCCCTCATCAACCCCATCAGGAACCCTTA
TCATTGGGGCTGGAGCCAGGGCCTCTTAACCCCAATGGGCCCCTCTCAGTTCAAAGAAGAGGAGCCCCTCTTTGCATCAAAGCACTGTGTGGCTCAGCCA
GGTCAGGACAGCTGCCCCAGGTGGAGCTCAAGAAAGGGTGGACCAGGCGCTTATTAGGCTCTTGCAGTAGGCAAGTCTCGCTGCTCAGTACCTTACCTGC
CTTATTCCAGTCATCCCGACTCTGACCTTCCTAACGGATGTGTTTTTAACCCTTCTTGACAAATGGGGAAACTGAGGCTTGGAGTTAGCTTTCATAGGCC
CATGGCTGGTTTGATCAAATGTGTATAATCACCCCCTCTCCATTTATAAAGTACCATGTGAACATTGTGTAACCCTGTGGTTTTGCCTTCAAATATCTGG
AAGGGTCTTCAGACCATATCCAATACAGGCAAGCGTCCATCTTTYTGATAATCAAACATCACCATGCATATAGACCAGAGATTCGTGTACAACATTCATG
TTCTGCTGTCTTCGGGCCTCAGATAAGGAGCTTGAAGCCCCTTCTGCTTATCTTCATCCTCCTCCTAACTCTGCCGTTTGACCCCCACTCCCTTGGGGCC
CTGCTCATCCTGCCATTACCTTTGTGTTGACATTGGGACAGTGGCTCCTTGTCTCCTCTTGGAGATCGTGAGGCTCTTTCCTGAGCAGAGTGTCTGCCCT
CCTGCTCATCGTGATGACTTTTCTTGACATGACTTTAGGGCTCACTAAGAACCTTCCCTAGCAGGGGTGTATATGGGAGACCAAAGAGAAGGCAAGGACA
GAAGACCCTGTTATCATCCAGGGAGGTGGCAGACTGAAGATCCCAGAGAACTAGACAGAGGTCAGTGGAGAGTGGAGACAGGAGGACATAGGCTCTCTCT
CTGGGGTGTGGGAAGGGACAGGACCACCATCAGGTTCACATCTGCATTTTTTGGGRACCAAAGGCTTCTTGCCCTGGGAGAGAGAAAGCAGGGGCGGGAC
AGTTGGTCCCCTCCCATCCACCCTGCCCAAGCCTGTCCTGAGTGGTGTCTTCTGACTTTCTTGCACTGTCGAGGGGACRATAACCACACAAATGACAACA
GATGCCGGCCTGGGAATGGAACAGCATTTCCTAAGCAAGGGCTGGACTTCCCTCTCTTTTGTGCCAGATCTAGTGTCTCCAGGTTAGACTGCATTGGGTG
CTCTTGGTCTGAAATGTTCAAATCCTGGGGCTCCCTGGAAGGGTCTGGAGTGGCCATCTGGAGCCCTCTTACTCTTGCATATGTGGAGCTGATGCACTGT
GAGCACCTACTGTGTGCACAGCCTGTGCAAAAGGTTTTATCTGCGCAGCTAGTTAACTGAGGAGTCTTAATGCTTTATGGGTAAAACCAGGATATGGTTT
TCATTTTTCCACTTGTTGCTTTTAATGGAATTCCTTCAAGTTCTCCTTTTTTTGAGCCTTAAGGTCCTCAGGCAGATTTCATTATTTTCCGGCCATTTCC
AGTTAAAATATAATCTGATTYATTTTAGAACCTGGGACCTCACATCTCATCTAAAGCACTCTAAACCCTTCCCCTACAGCTTTTCCAGGCTGCTCCAGGA
GTGGGGAGAAGGAAGGAATCTCACTCTCTATTGGACAGGCAGGTTGCAGAGGGTGAGTGGCCACCTACCCTGGTCTGGGTTAGCTCTGCCTACTCTGGTG
ATCTTCTGCTGTGGTGGCACCTCCTGGCTCCTGTTCCCTGACAACCTCCACCTCCCGGCCTGTGTCACCTCTCCTGGCCCATGCTCTGCTCTCTGCAAGG
TTGGCATCCTTTGTGTAGAATATGTGTGGGGAGAATTGGTATTGGGGGTGATTCTGTTGGCTTGCGGTCAGTGCTGCCTGGTAGAGGATGGGAAGGGGGC
AGGTCTGGCTCCAGTTGTGAGTAGCTTCTTGTCAGCTCTCTTTAGAATCTCGGGATACTTGGCCCTCCTTGTCCTTCATTTTGGCTTCAGCTGTCATTCC
AGGGCACCATGAAAAGTCCCTCTCACATTCTGTTATGTGGCAATCTCTCTTGCTGACGCCTCACAATCACCCTGTTTATGGGATTATTCCTATGGACAGA
TGGGGAAATAGAAGCTCAGAGAGATGCAGTCGCTTGGCCAAGGCTGCTCAGCAGTGGAGAGTGGGTAATATCTGAACCTAGGTCTGGCTGACCTTWWAGC
CCGTGGTTAAGAGCCCAGTGGAGTGGAATCACAGTACTGCCATTTCCTAGCTGTGTGACCTTGGACATAGTTACTTAACTTCCTTTTCCTCATCTATAAA
ATGAGGAGGATGACTAGCAACAATATCCTGGGTTTCTGGGGCGATTCAATACATTGTATACCATAAGACTCATGATTGCATTGGCTACCAGGACTGTTGG
TGGCATTGTCCATCAGTTACACCATCCCCTCTAGGCTCCACAGGAGAAATGGCTTTCAGGCCATGATGTCTGGAAAATAGATGTTAAACAAGCAACAGTT
ACCATAAATTGATTGTGTTTTCCTCTTTGCTTTGGCTACTAGGAAGCTCAGTGAAATTGCTCAAAGTATATAGGCCTCCCTGGTCTCATCTTATTTTTTT
ACTACTTTTCTCTTTGCATAATTTTTATTTGTGTCTTATTTCCTACTGTATGAAGTTGTATTAACATTTTAAATTTCTGTATCAAGCTCTTGTTGTCATA
AGCCAATGTTGCCATCAGAGGGGAAGTTGAGGGCAACGTAGAGATCCCACAGAGAGTTGCTCTCCCAGATCGTGTCCAGTTCTTATTCCTTAAAGAAAAG
CACCTTTGAAAACAGAATTGCCCTTGTGGGAGTGGGAGAGGGGGCTGGTTAGTGAGACTGGACTTTCCTTCTAACTCTTTGGATGCTGAGGTGTGTGGTA
GGGGAATCTGCTGATGACATCTGCAGAAGGAGGAATGCTTAGCAGCTCACTGTATCAGTTTAAGATTGATGCAGAAAATCCCCAAATGAGAGGCTTAAAC
AATCCAATAGTTGATTTCACTTTCATGTTCAAATAGTTTAGAAGAGGGTCCATTCCTGGGGTGGCATGGGGCCCCAGAGTCCAGGTACGTTAATAGCATT
CTCGCTCGCACTGCTGTGTAATAGCTTCCATTCTCAAAGTCACTCATGTTCCATGTCCAGAGTCACTGTCGTTTGCCCTCACACCCTGCATTTCAGAAGG
GAGGGCAAAGCAAAGAAGGGCACTTCCTAGAAGTTGCAGAAGACAGCCCCTCCCCACCGTACTTTGTCCTCATTGACTAGTTTCAGGACCGGCCTAGCTT
CTAGGGAGGCCTGGGAAAGGAGTCCTCATTCTGTGCAAACTTGGGCTTCTTWGAGCCTATTTCCTCCACTATAAACAGTCTGACTGCCTTGCAGGGTTCG
TGTGAGGATTAAATAAGAATGTAGTAAAATATAACAGGTGTTCTGCAAATGTAAATTTGCTTCTATTTTTAGTTTTCCCTTCCCTCYGTTACTTGGGWCT
AAGAGAGAAGCTTTAGCTACACGAAGAAAGATTTAGGAGCAATAAAAAAAGAAAACTCTTTRAGAGGAAACGTTGCAGCACACACCAGGAAGCTGGGATA
ACAGATTCCCTTTGGCTCCAATCAGGGAGGCAGTAAAACTGAAATTAAACAGAAGGGTGGGGGTCCCGCGTCAATCACTAGAGGTTAGATAGGTGCAGAA
ATGGGGTACAGACCCTCAGAAGGACCTCCCGTGCCGTTTGATTCCAAAATCTTGTTGTGATCACCTTCCCCGAGTTCGAGGTGGTGAGTGCAATACATGT
GCAAGGCGGGTTGCGTTTGAATGTGCAGCTGTTTTCATCCTCAAGATGAGCTCGGGCATTTCCAAGACTGTCTGCACACCAAGCACACTGGCATGGGGTA
CAGCATTGCTCAGCATCTCATTCCCCTGATGCCCCTTTCTGCCAGGGCTGAACCCTCAGGAAGTCCCCTGGGGCCTTTAAAAGCTGAGCTAGGGAGGGAG
RGAGCCCAGCTGGTGGCTCGCTCTGCTCAGTGGGGGCTGCTGGGAAATGCTGCTCTTTCCTGGGTGTCTTACCAGGGTGGAGATGTTGAAGTCAGCAATG
GGGCAGCAGGTCCTGGGGACCCCAGCTGCTCTGGCTACTGAGCATGCTCAGACACGGACTCTGCTGGGGATGGTTTGGTTCCCTGGAGGAGAAGGAAGAA
GAGGAGGAAGAGGTGGTTTTGGGTGGGGTGGGCTTTAACTTGATGGAGGGAGGAGGATGGCTCTGTGCATGCGTGCACCTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTAGGTAAGCACTCCCACTGTTTTAAACGTTCTCTAGCACTGCTGGAGTGATGGGCAGCTGGAGGTGAGTTAGCTCATACATGCAGGT
GCCTTCAGTATCTCATTTAATCTTTACCATCCCAAGAGGTCGGCATCACGCCCCCACTTACCAGAGGTGAAACTGAGGCTCGCATGGGAGAACAACTTGT
CCAAGGTCAGTGGCAGCCAGCGGTATATTTGGAGAGATACAAATCCAGCTTTGTTAAACACTCAGCTTTGCCCTCCACCCCCTCTGGGGTAAATGGGCAT
AATCCCTACAGGGRATGCTGGGACTCTCCAACCCCCAGCTCTCACAGCTACCCTGTGGCTCATACCGGATTCAAACCCCAGGTCCACCCGGCTTCAAAAG
CCAGCCGTGTGCTTCTTGATCTAGTCTTCCGACCTCTTCAAGCTTCTTCAGCAGCTGAGAGGATGCTCTAGACTTAGATTGCAACGAGTAGGGAGGTTTA
GGTGGCTACTTGTYGGAGTGTTAACTTCTAAGCTGGGAATTTCTAGAATGATAGAGTTTGCACAGCACCGGCACTGCCGTGGCAAGTGGGCCAGCCCTGA
GGGCCTCGGAAGGCAGCAGAAGTCTGCTCTCTGCTCTGGCACWTTCTAGGGACACGCTGCTCAAGTATGGCTCGTACAGGGCCTTCCCTAGGGGTGGTAT
CCACACTCCTAGCATGGTGCTTCCTGGGTTTCAGGCCAGTAGCTGAGATCTGGGGCACCTGCTASTAAGAAGCTCTTGTTTAAGCAGAAAGAGCTCAGAC
TTCCAAACCCACCAGGGTTGGGATCCAAATCCCTCCYGCCTCTCTGTGGTCCCTGCTGCCTGASAGYTTCAGTTTCTGCACCTCTCCAGGCAGGACAGCA
GCTGCCACCTGCTAGGGCTACTGTGGCAGTTCGCGGTGATGCCSATGTTGTGCCCAAGCCCTGYCATGAGGGCACTTGATGCATGGTAGCTATTAGTCAT
AATTTAGGACCTCTCTGTCCCTCCTATGAGACCACGTATGCTTTGGAGCTAAGGACCCCACCTCTTTGAAGTGCCTGGAGCTTACTTCATGCCATATCGG
CGCTTCCCAGGCTGTGTTCTGCAGACAAGAATGTTCCCRAAAGGAGTGTTCTGTAACCACCGTGCATCGGAGGCATTGCGCTCAGTAGCCTTCTCAGGAT
CTTTAATATGGCAGAAAGCATTGTGACTCTGCAGGCGGACAGGGCCAGGTATCCAGCATTTCTCAAGCTTGACCAATAATCAGACCTTCCTGTCCTGCCT
TCAGAATGCAGTGTAGTGTGCAGTCGAGAGAATATTCTGGAAGCCYRCAGGCCTGGGTGTGGCTCTGGCAGCTTCCTGTACTTGCTGCCTGTTTCCTCTC
TGAACCCTGAATCTCATTTCTTCCTCTGAGGAGTGGGGAGATGAATCCCCAGCCTTCCAGGTGGCTGATAATTAARTTGTGGGATGGAAGTAAAGCGGTT
TGCACAGGGCCTGGCCGTCAGTGGGCTTCCAGCAAACGGGAGCCAATGTTCCTGGCAGGGGCTGGGTACAGGGCAGGGGAGCAGGAAATCTGACTTGRCT
GTAGGAGGCGAGGAGGTGGGAGCAGGATCATTGAGAAACTGAAATGCTGTCGAATCTGAGTGGGGCAGAGGACGGAACTGAGTCTCCCTCCATAAAGGCG
TTTTGTCCCGGAGTAGATTGACAATCTGTGTTACCTCCACCACATCTTCAGTCTGGGGGCACCTGGGTTCTCTCCTAGGATCTCAAGGAATTAGCTAATT
AGGCTGGTGTGCCTAGAAGGCAGAGGTCATATGGGTCTGCGCAGTCATCAGTCCCGGCTCTGCCTTCCCTTTTCCTGAAATATGCAGTGGGAGTGCTGCA
GGGTGTGGCACATGTCATCACTTCATGCCACAAATATCTACCCCAAGATATTCGCCCGAGGTGCCCTAAGGAGCTCATGGTCTAGGTGGGAGCTAGACCA
GCAAATGCAGAATTAGAATAGGTGACTGGGGAGGGGCCAGGAGGGCAGAAGACCCACTGCTGCTGGGAGGGAGGACCCAGACGGGAGTAAGAGTAGGTGA
TGGCAGAGGTGCTGGCTCTTAAAGGAAGCCACAACAGCTCGCCTGGCAGATGCTGGGCTTGGAGAAGGACATTTTGGGAGAGGGAGTTGGTGGAGGGGGC
CATTCAAAAGGACCAGAGAGTTTTCTTGGGAGTTCTGTTTTAAGATTTTAGTCTGAGTCACATCCTAATTTCTACCAGGATGATTGAGATGCATGAGATT
GACTTGCATTTGTTCCAAACATGCTTTTCAAAAGCAAAACTGCTTTTTAAAAAAATCTATYTTTGTTCCCCCAGGTAAAACAAGTTCATGTCATTCTACC
ATTTGTCTGGCCAAGGACCCTCTCTGGTTTTCACTTTTTTAAAGTCTTTCCTTCTCCATTCCAGCTCCTGGACCCTCCTGGTGGGAAGCCACGTGTGTGT
TGTCCTCAGATATGTGTGCATCCGTGTAAAATAAGCAGGCGTTTGCCTTAACCGACATCACTAGTCTTGTGCTATTTAAGTTCTTGTTTTACATCTTTAC
CATATCTACCCCACACGCTGTTTGAAAGCTCTGTCTGCACTGCTGTGAAGTCCACTCACGAGCGAGCTCTCCACGGATGCATTCCTGGCTCAGCCTCTCC
CTAAGCGATGYCCACTTTGGTCCCCTCTCTGGTTTTCCACTTTACTAATGATGCTGTAGAGAATGCCCTTGTAGAGTCCCATCACAAGCTTGGAGGACGT
GGTTTCTCTRGGGGGTGTGCCAAGGTTTGGGAAATGCCGAGTCAGCAGGACACGCACATCAAATTCACCGTGTTCCCAGATGCCTTTCCAGCCAGTCCCA
TTGGGCTCACTCCCRCCAGCGGGGTTGGGAGCTTCCTTTTCCCACATCTGTGCCAGCACCTGTTGGCGATCGTCTAGTTTTGCTAATCTGATATGTGTAA
AACATCTCATCCCTTTACTGTGTGTGTTGCTGATCAATGTATGKTTGAACATCATCTCCTTATATGCTTGCTGTTTGGATTGCTGGTGTCTGAATGGATG
YGTTTATACACTTTGTCAATTTCCTCATCTTTTTGTCTTTTTTTTTTTCTTGTTGGTTTCTAAGTTCGTTCCATGTCATTTTTAGATGTTGCTAGTATCA
TCTCCCATTTTGATATGTTTGTCTTAAAGGTGTCTGTGTTTTCACTGARCAGAAATCTATTTCTTTGTTGCTTCCTCTCTTTTTTTTCTCTGGCCTTAGA
AATTGTGTGTGTGCCTTCTGTCTTGTTTTTAGAAGTCCTTCCCTTTACCAAGACCAAAAAAATTCTCCCACAATCTCTTCCCTTAGCTTTATAGTTTTAC
TTTATAAATTTAGGTCTTTAATCCATCTGGGTTCTGTCCTGTGTTCTCTGTCTGATAAGCACACAACCTCGTTTTTCTCTGTACTGTAAATCAGCTCCGC
CCCCGCCCCCACCACCCACATCCATCCTTTTTCCTCCGGTTTCAGGAACCACCTTTATGGTGCTGAATTCAGCTCTTCACACACAGGAGGTTCTATTTCT
GAGCTCTCTCTGCTGTTCCGTTGGTCTGTCTGTTTTTATACGAATGYCTTAGCCGTTTCTATTGCTGTACCTCTGGGACATCTCTTAATGCCTCGGAGGC
CAGAAGTTTTGCTCTTCTTTTTCATGATTAAGCAACTGGCAGACCCTTTTCTTCTTCTAGACAATTTTAGAACTTATTGACCATATTCTCTAAAAACCCT
GCTGTAATTATTATTGAAATTACTTGAAAATGTCTACACTACTTTGGGGAGTTAACATGTGACTAATGTTAACATGACAGTTTCCCTTTTGGGTCATTTT
AATAATGTAAAACTTTTCTCCATACAAGTCTTGAGCATCTGATTCAATTCTAAAATAGTGTATATGTTTTCGTTGATAATATGAGTGGGGTGTCATTTTC
TGTTGTGTTTTCTTCTAGTTGGTTATTGCTAGGGCAAAAGAATGCTGTTAATTTTTAAGTTGGTCACTTTGAACGTGTTCAGATTCTGTTGGATTTTTTC
TATAGATGATATTATCTTAAACGTGAACAATGGTGGTCTCTCTGTCTCTTCTTCCAGTTATTTTACGTGATGTTTCTCCTTTGCCCTACTGCCCTTGCCG
GGACTTCGTTTGATGTTGAGTTGTTGCKCAGTGGCAAACTTCCTTGCCTTGGTGKCAATCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTC
GCMCTATTGTTGCCAGGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACCACACCCTCTGCACCCGGGTTCAATCAATTCTCCTGCTTCAGCCTCCCGAGT
AGCTAGGACTAAAGGTGCGTACCACCATGCCTGGCTAAKTTTTGTATTTTTAGTAGAGWCTGGGTTTTGATATGTTGGCCAGGCTGGKCTCAAACTCCTC
ACCTCGTGATCCACCCACCTCAGCCTCCCAAAGCGCTGGGATTACAGGCATGAGCCACTGTGCCCGGCCACCTTGGTGTCAATCTTAAGAGAAATAAGGT
GAAAATTCCCAGCTAAGGGCGGCATTTGCTGTAGGTTTTACTATGTTGTGTTCATCCAGTCAAGGAAATTCTCTTCAATTCCTTGAGTTTTTAAAAGTAA
ATACATGTTAAATTTGGTCAAATGCTTTTGCCAATCTATTAAAATAATTCTTGCACTTCTGTGCTAAACTCTGTTCTGCCTAAAAGTACTTATAAAGCTC
TGTGTGCCAGACTGTGTTGTAGGTGCTTTGTAAATATTTACTTTCTTAATCCTTATGACAGCTCTATAGAGCTAGATACTGTTTATTATCTCCTCCTTGC
AGATGAGACAAGACACAGAGAGGTTAATTTACTCAARGTCACACAGCTGGTCAGGCCCATCTCTAGCATTTGCAATACTGGGGAAGAGTATAAATGGACA
CACAGCAATTCTAGATATTTAAAGCTGTAAAACAAGATAACAAACTGTTAAACATCTATCCTCTTATCTGAGAAATATACGTTGATAAAGATAAAATCTA
CAAGATACCAAGATGGCCAAATTTAATGATTATTGCACATTTTGGCATTCCATTGTAAGTCTGAGATAGTTGGATGAGTAATAGTCATACATAACTCATA
AATTATGTATTCCATAAAATTTTTCTTGCCTTCAATAAAATAAATTCTGATGTAATCAAGATTTTCATGTAGTTTGTGTTCTATTATAGTAGTGATATAA
AAGATTAAAAATAAAACATAATTATGCTCAAAGCATACAAAATTAAACTTTTACCACCTAGAAGTGAAAGTAAATGTAAAAAAAACAATTTCTGAAGCTT
TCAAAAAGTTTTTCATCTAAAATTGAGAATTATCTGTAAACATTAAGAAGCAAAATACAAATCAGTATGAATTTTTAAATTAAATGTATTTAAAACTGAA
ATTTATTCATGCTTTGAAAATACAATGTTAGCATTCGGTGTCCATCTAGTTACCAGCATAAATCATTGGTCTCATGCTTTTACCCTTATATCTACAGATG
GGTATATGAAGGGTCATATGAATTGTTCAGGGTTTCGAAATGTTCCCAAGCTGCAGCGTTGAGCTGTTGTGAACGCTGTTCTAATTTAGCTGCTAATTCG
TATACCTCTACTAYCCCAATGAGGAGCATGAAGAGAAACAAGAAAATGGATGCCCTGCATTTCTAGGAAATGAGTCTTCATTTCGTGGGAATCTATTGCA
GGAGTGCTAACAGGAAGATTTGATAAGTTGGTTAATTTGTCTTTTCTCTTACCGAAGTGCTTTTGCAGCTCAAATCCTCCCTGCACCTCAGAGCTGTGCC
CTCCTTCTGTCGACAGCACTACATACAACCAGCYTCCACGGTGTGTGGATTCAGGTTGCTGTTTGTTTCTATGAAGTTGAGCCGGGGCTGCTGGGGAGTG
TTTCCCTGGGCCCTGAATGGTACTAGTCATGAGGGTGGACGTGGAGTCAGGAGTTGCATCGTGCTGGCACTGAACAGCAGATCCCGGATGACTGTGCGTG
CGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGAGGGCAGTGGTGCACAYATTTATCAGATGATGGGGCTTAGGGCAGAATCCCCTTTTACCTGGGCTGAA
AGGAGTTACTMCCGCGGGTAAGGAACAGAGCTGGGGTGTGACCTCAGGCTGCCTGATTCGAGTCATATCCCCGATCATAACATCATGTAACTTTCTCTAC
CATATTGTCTTTAACTCTTAGACTTAGCTAGCTGATACTTTATTTTGCAGAAAAGATATCTTCAAACAGTTAGTGATGGCTGGGCATGGCGGCTCATACC
TGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTGTGAGACCAGCCTGGTCAACATGGCGAAACCCCATCTCTACTAAA
AATACAGGAAAATTAGCTGGGCGTGGTGGTGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGGATTGCTTGAACCCGGAAGGCAGAGGTT
GCAGTAAGCCGAGATCGTGCCATTGTACTCCAGCCTGGGTGATAGAGTGAGATTGTTTCAAAAATAAAAATAAAATAACAAACAGTGATATCTGCTGCTA
TGGTTTGGCTGTGTGCCTATCCAAATCTCATCTTGAATTGTAGTTCCCATAATCCCCATATGTTGTGGGAGGGACTTGGTGGGAGGTAATTGAGTCACGG
AGGCGGTTACCCCCATGCTATTCTCGTAATAGTGAGTGAGTTCTTACAAGATCTGATTGTTTTATAAGGGGTTTCCCGCCCCCCCTTTTGCTCGGCACTT
CTCCTTGCTGCCGCCATGTGAAGAAGGAGGTGTTTGCTTACCTTTCCACCATGATTGTAAGTTCCTGAGGCCTCCCCAGCCATGCGGAAATGTGAGTCAA
TTAAATCTCTTTCCTTTATAAATTACCCAGTCTTGGGTATGTTGCCCAGGCTAGAGTGCACTAGTGGTGCAGTCTCAGCTCACTGCAGCCTTCACCTCCT
GGGTTCAAGTGATTCTCCTGCCTCAGTTTTCTCAGTAGCTGAGATTACAGATGCCTGCCACCTTGCCTGGCTAATTTTTGTATTTTTAGTAGAGAGGGGG
TTTTGCCATGTTGGCCAGGCCTGTCTCAAACTCCTGACCTCAGGTGATCCATGTGCCTCGGCCTCTGAAAGTGCTAGGATGATAGGCGTGAGCCACTGTG
CCTGGGCCTTGGATATGTCCTTATTTAGCAGCATGAGGAYGGACTAATACACCTGCCAAGGGTATAAGTGGGGAGTGAGAGTGTATGCTGCATTGGTCAT
TTCTGACTTAAATCATTAAATTCAGCAGAAGGTCTCTATGACTGTAAAGGCAGACAGAGTGAGCGAGGGAGAGTGATAGGGAGTCTAAGCACAGAGTAGG
ACTTTTGAGCCAGCAAGACTTGGTTCATATGTCAGCTTTGCCAATTTCCATCACTATGCTTCTGGACAGTTTATTTTTCTAGTTCTCAGTTTTTGTACCT
GTAAGTTGGAAAATTGGATATACGCTTACTTCCTAGGGTCCTCATATGGCCTAAGTGACATCACATACGAACCCTAAGAATTCTGTCACGAATCTAACCT
ACCCAAACTGGCTCAAAGAAAACAAGGAAATTGATTGATTCAACGAATTTAAAGCCCCAAAGGTAGTTCATGCTTCAGGAGCAGTTTGATCCAGAAGTTC
ACAGTGATGTGCCCTGGCCATATTTCTCTGTGACATTCTTGGCCCTGTCCTTCTCCACAGGCCTGCCTCTTCTTCAGGCTGTAGTGGGAAACACTAAAGG
CTGTGGTGGTCTCAGAGCTGACACCCACCAGCTGAACACGAGCAAATGGGTCTTTGGGGGTCTTGTGTGATGAGGAATGAGAAAGCCTCTTTCCCAGAAG
CCCTTAGTTAGTGTCTCCTCCTCTGATTGGCTTGAGTTGGGTCACATGGTCCTCCCTGAACCTTCACTTTGTCAAAAGGTTGGGCTGTACCCCTGAGCTG
AGAGWGGGGTGAATACATTTCATCTAGGCCACAGGCTGACATGGGGAAAGSKCAGGTCCAAAGCAAGACCTGGGTGCTGTGGACTGGGGAGGCAACGAGG
ACACAGGGACCCAGCAAATGGCTGCCCCTGACCATTGCAGCCACCACCCAGCTGGTCGTCTTCCTTTCATCTTTGTCCCCATCTTTTTTTTTTTTTCTTT
TGAAATGGAGTTTTGCTTTTGTTGCCCAGGCTGGAGTACAATGGTGCCATCTCGGCTCACTGCAACCTCTGCAACCTCTGCCTCCTGGGTTCAAGCGATT
CTTCTGCCTTAGCCTCCTGAGTAGCTGGGATATAGGCACACACCACCAAGCCCAGCTAATTTTTGTATTTTTAGTAGAAATGGGGTTTCACCATGTTGGC
CAGGCTGGTCTCGAACCCCTGACTTCAGATGATCACCCACCTTGGGCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCGGCAGTCCTCATC
TTCTATCCTCAACCCAGCAGCCAGTGTCATTCTCCTAACACTTGGGACAGACGGGACCCACCTCCTCTCTGCTCAGAAACCTTCAGTGGCTCTCCGTCTC
CCTAGGGACCAAAGCCGTATTCTTTACAATTTCCTAACAAGGCCCTAGATGCCCTGCGCACCTCACTTCTCCAGGACCTCACTTCCTCTCCCTCCAGCTC
CCTTCCAGCCACACGGGGAAGCACCCACTTCAGGGCCTTTGCATTTGCCCAGAACCCTGCCTGGAATTCTCTTCCCCAGATGTCTGTGTGCTTCCTGCCC
TCACTACTTTGGGGTCTTGGCCAACTGGGACCCTCCTCAGTCTAAAACAGGAACTCTTTCATCTTCTGTCATCTTCTACCCCTCACAAGTCTTGGCTTTA
TTTTTCTTTATAGCTAGTGCTTTATAAAATAGATATATTTTCTTTTTCTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATTAAGTCTCCCTCYGT
CACCCAGGCTGGAGTGCAGTGGCGCGGTCTTGGGTCACTGCAACCTCTGCTGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGCCTACAG
GTATGCACCACCATGCCCAGCCAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTGGCCAGGCTGGTCTCAAACTCCTGACCTTGTGATCCAC
CGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGTCCGGCCAAAATAGATGTATTTTCTAACAGACATACAGACATGCATACACACC
CTCCACTCCAATGTCAGCTTCCTTAGGGCAGCCACTGTTGTCTTGTTCATRGCTATATCTGCAGAGCCCTGTGCAGTGTATGGTACATAGAAGGTGCTCA
GTAAGTATTTGTTGAGAGCTGTAACTCTAACCCCACTGCCTCTTCCTAACAGCCCACTGAGGGTCTCCTCTCTCTCACCTACCTATCCACTCTTGTCCTA
GGGACAGGCTGGGAGGCCGTAGGGACAAGATGTCACCTACCCTGATGATTTGTGATATGTGTCCTGGACATTGGTGTATCCATTCCGGTCCTTGGGAGTG
GCTGATTAAAGGCATCATCTTCCTGCTTCCTCCTTTTCCTCCTCTTTCTAGGCTGCCAGGATCTTATTAGCCCTGTTTACAYRGCCGGGATGTCGAGCGA
TTAATTTTTAATGGCTTGGTTTATTGCATGTTTGAATGGTTTATTGAGTAATTCTCACATTTAAGTGATTAATTCTCCAGAGTTCAGAACGACTGGTTAG
TTTTACATTAATGGGGGTTTYTGAATGCCAAGAGACAATCAATCAAKCCTTCCTGCCAGGGAGAGTAATGTTAAGATACCTCAAGGTACAATGAGGTTAA
GAAGAGGCATAATTAAAACCCTGTCCTCCCCTCATGCAAATTTGATGTCTTTCTCTGTTTCTCCTTCTCTTTCTTCTGGTACTCCCCCTGTTTCTCAGTA
CAGCCCTCCCTGAACCCGGTTGCTCTTTAAGAGGCGCAAGTCTCCCTCTGTCCCTGGAGGCTCTGACTTCCCTGGTAATGAGGCCCAGTCCAGCTGCTGC
TGGGAGTGGGACTTGCTTAGCGCTTGGTCCCCAGGAAGGGGACTTTGGAGCAGAAGAGGCCTGTAGCAGAGGTTCCTGATTTGCAGGGAAGCTGAGCCAC
ATCCTCAGGATACAATGTCCGGTCACACCTTGTAGCCAGMCAAAGCCCAGGTGGGCCTCAGGAGGACRTCCRCACAGGGAGCAAGGGAGGGTTTTGGGAT
GGGGTTTTGCCTTTAGATTCTTCYGCAGAGCCCTGCGRCCTGCTGCGCTTTGAGCAGGAGAGAAGTGGGAGCTGCTTTTGCATCTGCATGAATCTGCTGT
TATTACTGTAGCAAATTACCAAATGCAGTGGCCCAACACAGCACAGATTCATTATCCTGCAGTTCTGGAGGTCAGAAGCACGGGATGCGTCCCACTGGGC
TACAGTCAAGGTGTTGTCAGGGCTGCCTCCTTTTGGGGGTTCTAGGGAAATATCCATGTCTTTGCCGTTTCCAGCTTGTGGAGGCCACCTGCATTGCTTG
GCTCATGGCCTCTTCTTCCATCTTCAGATCTGGCAGCGTTGCTGCATCTGCACATCTTTCTCTGACTCTGGCCATACTCTTCCACATTTAAAGGACCTTT
GTGATTACTGTGGGCTCACATGGATAATCCAGGATAATCTTTGCCTTCTCAAAGTCAGATGACCAGTAATCTTAATTCCATCCGCAGTCTTCATTCCCCT
TGGTCTTGTAATCTGACATAGTCACAGTTTCCATGGATTAGGGCATCAGAATCTTTGTGCTTTGGAGACCGCAGCATTGACAGGATGAGAAACAAGACRG
CTGACAGGTTGGAGGCACAGACCCTGGAGCCTGATACCCTGGTTCAGTCCTTGCTCAGCTCCTCAATAGCTGTGGGGACATGAGTAAGTTTCCCAACTGT
GCCTCAGTTTCCTTATGAAACTGAGGCAGATGATAGTACTGATCTCCTAGAGTTGTGCTGGGGAAACGAGGAGTGAAGTAGTTGGCCTGGCGTTTGGATC
ATAGCAAGTATGCCGTGTTATGTATGTTTATTGCGGTACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGGCCATCAGTGATAGACTGGATTAA
GAAAATGTGGCACATATACACTGTGGAATACTATGTAGCCATAAAAAAGAATGAGTTCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAACCGTCATT
CTCAGCAAACTATCACAAGATCAGAAAACCAAACACCACACGTTCTCACTCATAAGTGGGAGTTGAATAATGAGAACACATGGACACAGGGAGGAGAACA
TCACACACTGGGGCCTGTGGGGGGTGGGGAGCTGGGGGAGGGATAACATTAGGAGAATTACCTAATGTAGGTGACGGGTTGATGGGTGCAGCAAACTACC
ATGGCACGTGTATACCTGTGTAACAAAATTGGATGTTCTGCACATGTATCCCAGAACCTAAAGTATAATAATAAAAGTATGCCATGTTAGCAGCAGTAGC
AGTGCTGATACCCATAAAATGAGATGGAAACTGGAATGATGTTGCCTACTTTAAGAGGTTGTCTAGGACTCACTGAGAATGTGGGTAAAAGTGCTAAGTG
GAAAGTTCCTTGCAAGATGTTTACAATCACAAAGCAATTCATAAGGGTCCCTGATGGAGTCTTGATGAGCAAACTCTGGAGAGCTTGTGTGTGCAAACAT
TGCACAGACTTGAGGGACACAAGACCCCAGGGACACATTAACAGGAGGCAGATGGCAATAAGAGCTCAACAGACCAATGTGAGTGAACACACTAAGGCCT
CTACCCTTTTTCCTTCAAATGTTATTGTTAGTCCTTTCATCTGTGAAAGATAGTTATTYTCATCTGAAGACTACGGTGTAGAGAGGTGCTTAACTTCAGG
CCACATAATTAATCATGGCAGTGATTAAGAGCTTGGGCTGTGAACCCACAGGTACGGATTTGAATCTTGACTACACTCAAAGGTGGGTGGCGTGGGGACA
ACTCTGTCACTTCTCTAAGCCTCATTCCTTCATCTATAAACTGGCAATGATACTATGCCCTCRTCATTGGGTTTTTATGCGGAGCAAATAAGAGAGATAC
TGTGTGAGAAGTAYCATACCCAGTGCCTGGTTCTTAGTAAGCGTGCTCAGCAAGGATTCTGGATTCATAGTGGTCCGTGGAGGAATGAATTCCTGTTTGC
AAGTTGTCTGGTGTTAGAAGCTTTATGGGGTGAAGGTTTGGTGTGGATCTTGAAGGACTGAGAGGTGTGATGGAAGTGAATTTTAGGCAGAGAGGAGATG
TAGAAAGGACRGAATTCTCCAGCAGCAAACATTCCAGCGTGGCTTTAGCTTCAGGTGCATGGAGAAGATGGGGAAAGTTGGCCAGAGACTGGTGGGCTTT
GTGTGTCAAGCTAAGTTTAGGCTTCATCTTGTTGGCAGTGGGAGCTGTTGAAGAGTTTGGAGCAGGAAAGTAACCAGAAGCCTATAGAAGAAACCCATGT
TTTAGGGACACGGGAGTGCAGCCCATATGGAGCTATCATGCCGCCAGCAAACCAATGTATTTTTAAAAATTTATTCATTCAACACAAACTGATTTAACAA
AAATATGCCAGTTACGTGGTAGARATGGGGAAGTAAAATACAAATATGAACTTGTCTTCCTGGAGCCTACGTTCTGGTGGTGCTTGGGAGAGGTAGACAA
CAGCCAGCAAACACACAGCATAATTATGTATGGTAATAAGTGCTATGACAATAATAAAACTAGTCAATGCAATATTGGGTTGGAGTTGAGTGGTCAGGAA
AGGCTCCAGATCTCACTCAAGCTAAATAAGAGTGATGAGAGCTGGTTTTTGGAAGGGCTAGCCRGGGGTTCCACACAGAGGGTAAGGCAAACATAGGGGC
TGAGGAAGGAAGAAGCAGGCTGTGGTCCAGGGACAGAGAGAAAGGAAAGGCCGTGGCCTGTTGGGAACTAGGCAACAGGAGGTGAGCAGCAGGCAGGTGA
ACCAGTGAGGCTTCATCTGTATTTACAGCCACTCCCCATTGCTCACATTACTGCCTGAGCTCCACCTCCTGTCAGATCAATGGTGGCATTAGATTCTCAT
AGGAACATGAACCCTGTTGTGAACTGYGCATGTGAGGGATCTAGGTTGCGTGCTCCTTATGAGAATCTAATGCCCGATGATCTGTCGGTGTCTCCCATCA
CTCCCAGATGGGACCATCTAGTTGCAGGAAAACAAGCTCAGGCCTCCCACTGATTCTACATGATGGTGATTTGTATAATTATTTCATTGTATATTGCAAT
ATAGTAATAGAAATAAAGTGTACAAGAAATGTAATGCACTTTTGAATCATTCCGTAAACCAACCCCTACTCCAGGTCTGTGGAAAAATTATCTTCCACAA
AACCAGTCACTGGTGCCAAAAAGGTTGGGGATCGCTGATACAGTGTCTAGATTTAACTGCAGTTTGTTCTGATTTTATTCAACTTTTTCTTCCACTGGAT
TATTCCCATCAGCATAAAACCTTAATACATTATTTCTTCTCTTGAACAAAACAACCAAAACCTCCTGGGGCCCCAATTCTCTGCACAATCTACTGTTGTC
TTTCTTTGCTTCCTTTCAGAGCAGAGCTCTTCAAAGTTGTCTTGCTGTCTCCCATATCTCTCCCCRCATCCTTTCTTTTCCTAAAAGCTTTTCATTTAGA
GAAGGTCCAAGAATAGTTCAATACGTTCTCCAATATCCATCATATATATTCACTAGTTACTATCTTTTGACCCCATTTGCTTTGACACCTTTTCTATCGA
CACATGCTGGGTTTTTCTTGATCTATTTGAAAGTAAATCTCATGATATTTTACCTGTAAATACTTTTTCATGGATCTGCTTAAAAATAAGAATATTCTCT
TTGAAAACCACAACATAGTGATCAAACACAGGAAATTTAACATTGAAAATATAACCCATATTCAAATTTTACCATCTGTCCCCAAAATGTTCTTTCAAAA
ATTTCACCTTAAAATGTCATGTGGCGAGACTCGCTTTTTTTGATGTATAGTTCTCAGTTCTGATAAATGCATGCAGGCATGTAACCACTCTGGCAATCAA
GATATGAGACAGTTCCACCACCTCCAAAAATTCCTCCAGTCCTGTATAGTTAACTCTTCTCACCGCCCCAGAAACGACTGATCTGTTTTGTTACTATAGT
TTTGCCTTCTCCTGAATATCATATAATTGGGAATATGCAGTATGTAAGTCTGGTTTATTTCATGTAGCATAGTAATTTTGACAGTCATGGATGTTGTCAT
GTATATCAATAGTTCCTTTTTATTGCTAAGTAGTATTCCATTGTATGGATGTACCACAGTTTGTTCATTTACCAGCTGAAGAACATTTGGGTTGTTTAGT
GATTATGAATTAAGCCTCTGTAAACATTGGTGTAAGGGTTTTTGTGTGAACATAAGTTCTTATTTCTCTGGAGTACATAGGAATAGGATTACTTGTTTGT
ATGGTAAGTATATGTTTAACTTTAAAAGAAACTCCTAAACTGTTTTCCAGAGTGTACACTTTTATATTCCCACTAGCAGTGTATGAGAGTTSCAATTTCT
CCACATCCTTGTTAGCTCTTGGTATTGTCCTTAAAATTTTATGGTTTTAATTTGTTTTTCTCTAGTGACTAATGACATTTAGCATCTTTCAGTGTGCTTA
CTTACCGTCTGTGTAGCTTATTTGATGAAGTGTGAAAATCTTTGGCCCATCTTTGGAAGTGAGTTGTTTGCTTTCTTATTATTGATTATTAGTTGGTCTT
TATATATTCTGGATACAAGTCCTTTAGCAGATGTGTGATGTGTGACTTGCAAATAGTTTCTCCCAGTCTTTGGCTTTTCATTTTCATTCTCTTGATAGTG
TCTTTCAAAGAGCAGAATTTTAAAATTTTGGTGAAGTCCAGGATATTAACTTTTTCTTTTATGAGTGGTGCTTTTGATGTTGTACCTAAGAAACTTAGAT
GTTCTTAGATCTAAGGTCACACAGATGTTCTTATGTTTTTTGCAGAAGTTTTATAATTTTCTGTTTTATATCTATATTTTACATGATCCATTTTGAGTTA
ATTATGTTTTTTGTAAACAAGTGAGGAATGAGTCGAGGTTATTATTTTTACACGGAGARGTCCAGTTTTTCCAGCACCATTTGTTGAAAAGACTAKCTTT
TCATCACGGAATTGTCCTTGTACCTTTGTCAAAATCAATTGATTAGATTTGTGTGAGTCTATTCTTGGACACTCTGTTCTTTTCTACTGATCCATGTGAC
TGTGCTTTTACCAATGTCACATTGTCTTGATGACTGGGTTTTCTGTCTTTTTTTTTTTTTTTGAGACAGGGTCTGGCTGTGTGGCCCAGGTTGGAGTGCA
ATGATCTGATSTCAGCTCACTGCAGCCTCTGCCTCCTGGCTTGGCCTCCCAAGTAGCTGGGACTACAGGTGCATGCCACTGAACCTGGCTAATTTTTTTM
TTTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTGCCCAGGCTTGTCTCGAACTCCTGAGCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTG
CTGGGATTATAGGTGTGAGCTACCACACCCAGCTCTATCTTGATTATTATAAACTTATAGTGGGCCTTGAAATCAGATAGTGTGAGTCTTCCAACTTTGT
TCTTTTAGAAATTGTTTTGGCTATTCTGATTCCTTTGCCTTACCATATACACTTTAGAATCAACTTGTTGATATCTAACGGTAATCCTGCTGGGATTCTG
AGATTTTGATTAGGATTGAATCTATAAAGCAGCTTAGGTAGAAATGACATTTTAATGATATTGAATTGTCTAATCTGTGAACATAGCATATCTATTTTTT
TTCCTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCATCCAGGGTGGAGTGCAATGGCGCAATCTCAGCTCACTGCAACCTCCGCCTCCCG
GGCTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGAAGCTGCGACTACAGGCGTACGCCACCACGCCCTGTCAATTTTTTTTTTTTTTTTGTATTTTAGTA
GAGATGGGGTTTCACTGTGTTGCCCAGGCTGGTCATGAACTTGTATTTTAGTAGAGATGGGGTTTCACTGTGTTGCCCAGGCTGGTCGTGAACTCCTGAG
CTCAGGCAACCCACCCGCCTCAGCCTCCCAAATTGCTGGGATTACAGGCCTGAGCCACCACACCTGGCCATCTCTCTATTTAGGTTTTCTTTGATTTATT
TCATCAGTATTTTGTAGTTTTAAGCACATTTAATGTTTTGTTAGATTTATACCAAAGTATCTCTCTCATAATTTTTGATGTTATTGTCAATGATACTTTT
TTAAAGAAACACTTTTCAGCKATTTATTGATAGTATATAAAATATAATTGGTTTTTAAAATATTTAACTTGTATCTTGTGACTTAGTCAAATTCACTTAT
TAGTTCTAGGATCTTTTTTGTAGATTCTTTGGCATTTTCTACTTAGACAATTATGTCTTCTGCAAATAGGGATAGTTTTATTTATTTCCAATTCATGTGT
CTTTTGTTTCTTCAGTCTTGCCATATTGCACTGGTTTAGGACTTTCAGTTCAATGTTGAATATGCGTGGTGAGGACTGACATCTTTACCTTGTTCCCAGT
CTTAGGGAGAAAGCATCCTACTTCTCACTATTACCTATGTGAGTTGTAGGTGTTTGGATATTCTCTTTATTAGGATAAGGAAAGTCTTCTCTGTTCCTAG
TTAAARATTTTTATGATAAATGCATGTTGAATTCTATCCATTGATTTTTTTTGCATCTGTTGAGATGGTCATATGGTTTTTCTTTTTCAGTCTGTTACTC
GTTTGAATCATACAGATTTAAAATATTGAACCAGTGTTGCATTCCTGGGAGAAGCCCCATTTAGTCATTGTGTACTATTCTTTTTATATATTACTGGGCT
TGCCAAAATCTTATTAAAGAATAATATATCTTCATGAAAGATTTTTGGTTTGAGTTTTGTTTTATTTTGTAATATCTTTGCTTTTGGTTCAAGGTAATAC
TGGCCCCACAAACTGAGTTGGGGTGTGTTGCCTCCTCTTTTGCTTTCTGGGAGAGATTGTGTACCGTTAGTATTATTTCTTCCTTAAATGTTGGGTAAAT
TCTCCAGTGAAACCGTTTAGACCTAGAGTATTCTTTGTTGAAGGTTTATAACTAAAAAGTCTATTTCTAATAGTTATATGGCTATTTAAATATATATTTC
TTCTTGATTGAGCTTTGGTACTTTATGTCTTTAAAGGATTTATCTATTTTACCTAAATTGTCAAAGTGTCAGGTAGAAAGTTATTCCTAATATTCTCTTG
TTATCCTTTTTGTGTCTGTAGAGTCTGAAGTGATGCCACCTCATTCCTGATCGCAGTCTTTTGTGTCTTTTCTCTTTTTTCTTAGTCTTTGATCTTTTCA
AAGAACTAGCTTTTAGCTTTTGGCTTTATTGACTTTTCACTATTTGTTTTCCATTTTCAATTTCGATTACAGTCATTCACCACATGACATTTTGATCAAC
CACAGATGGCATATATGATGGTGGTCCCATAAGATTATAATATTGTAGTTGTACTGTACCTTTTCTATGTTAAGATACACCAATACTTACTGGCTGGATA
TGGTGGCTCATGCCTGTATTCCTGGCCCTTTGAGAAGCCAAGGCAGGAAGAACGCTTGAGGACAGGCATTCAAAACCAGCCCGGACAACAGAGCAGACTC
CATATCTACCAACAAAACAAAACAATACATACAATTATATTACAGTTGCCTACAGTATTCAGTACAATAACATGCCATACCAGTTTGTAGCATAGCAAGA
CTCTATATCTACCAACAAAACAATACAATACATACCATTATGTTAGTCACCTACAGTATTCAGTACAATAACACGCCATACCCGTTTGTAGCATAGCAAG
ACTCCATATCTACCAACAAAACAAGACAATACATACCATTATGTTACAATCGCCTACAGTATTCAGTAGAATAACACGCAGTACCAGTTCATAGCATAGC
AAGACTCCATATCTACCAACAAAACAGGACAATACATACCATTATGTTACAATCGCCTACAGTATTCAGTAGAATAACACGCAGTACCAGTTCGTAGCAT
AGCAAGACTCCATATCTACCAACAAAACAAGACAATACATACCATTATGTTACAATCGCCTACAGTATTCAGTACAATAACATGCCGTACCGGTTTGTAG
CATAGCAAGACTCCATATCTACCAACAAAACAAGACAATACATACCATTATGTTACAATTGCCTACAGTATTTAGTACAATAACATGCAGTACCAGTTTG
TACCATAGCAAGACTCCATATCTACCAACAGTACRTACTATTATTTTACAATYGCCTGCAGTATTCAGTACAATAACATGCTGTACCCGTTTATAGCATA
GCAAGACTCCATATCTACCAATAAAACAAGACAATACATACCATTATGTTACAGTTGCCTACAGTATTCAGTACAATAACATGCAGTACCAGTTCGTAGC
TTAGGAGCAAATGGCTATACCATACAACCTAGGTAAGTAGTAGGCTATACCATATCTTTGCTTTCAATGGCCATACATATTTTGGGAGGAGAAAAATATA
CTTTATAATTTTTWAAATATTTACCGTTTCTGTTTCTCTTTCTTCATTCCTGAGTGCTAGATTCAGCATTATTTTCCTTCAGCCTGAAGAGCTTTAATTA
GCATTTCTTTTTAAAGCAGTTCTGCTAGTAATTTTCTTAGTTTTCCTTCATCTAAGAATGTCTTAACTTCATTCCTGAAAGATTTTTTGCTGGGTATAGA
ATTCTGAGTTGATATCTCTTTTCTTTCAGTCCTTTAAAGATGCCTGACTGTCTTCTGGACTCCATTTTTTTTTTCCCCTGGTGGGAAGTCTGCAGTCATT
CAAAGTGATATTCACCTATATTTAGTGTTTTATTTTTCTCTGGATTCTTTGAAGATTTAAAAAAATATTTGGTATTTAGCAGTTGGGTTATAATGTGGTT
TTCTGGATGGTTTGCATGGTTTTCTTTGAATTTATTTTCTATGGGGTGTGCTGAGCTTCCTGGCTTTGTAGATTTGTCTTTGACCAAATTTGGGAAATTT
TTAGCCATTATGTCTTCAAAACTTTTTCTGAGCCAGTCTTTTTCCTCTCACTTTGAAACTTCAATGACATGAATGTTAGATCTCTTTATATTGCCCCACA
GGTCTCTGAAGCTTTGCTCAGTAAATTTTTTTCTCTCTGTGTTTTAGATTGAATAATTTCTATTGATATTTGAAAATCCCCTTACTCATTCCTCTGTCGT
CTCTATTCTATGGAGCAGAACTTTTCTTTGTTTTTATTTTTTATTCTAAATTAARAATTTACAATTGTATAAATGTATGGGATACAACATGTTATAATTT
ATGAATACAAGGTGGAATAAGTAAATCAAGCTGGTTAACACATCCATTACCTCTAATCCTTAACATTATTTGTGATGAGAGCTTTCAGAACTTACTGTCA
GCGAATTTGAAATGTACRGTACTCTGTTACGAACTATATTCACCATGCTATGCAATAGAACTCAAAATATTAATAGCTTTTTTTTTTTTTTTTGAGACCA
GGTTTTGCTCCCATAGTCTCTAGGCTGAAGTGCAGTGGTGCAATCTTAGCTCTCTGCAAACTCCGCCTCCTGGGCTCAAGCAATCTTCCCACCTCAGCCT
CCTGAGTAGCTGGGACCACAGGCACACACCACCACATCTGGCTAATTTTTTTGTACTTTTGGGAGAGATGGGGTTTTACCATGTTGCCCAGGCTGGTCTC
AAACTCCTGAGCTCAAGCAATCCACCCGCCTTGGCCTCCCAAAGTGCTAGTATTACAGGCGTGAGCCTCTGTGCCCAGCCTAAAATATTAATAGCTTTTC
AGGCTAAAAATATTTGAGCATTATGCTGTGAGACTCTGTGTTCTTTTAACATCCTATGGAGAACATTTATTTGGTTGTGTTTTAGCCTTCAGTCACCCCT
GTTGCACGCAGCCTGCAACTCCGTCTTGTCCTTTGTGGGTGGTGATTCCGCTGTGAGTTCAGTACAAAGGCCTGTGCTCTACTGCCATGGGTGTGTCCCA
GCCATGCACAGGTGAGCTGGGACCTGTGCCCGTTCATATATAGAATCTGGGGAATCCTTTCTCTGACTGGCTCCCATTTCTTCAGTATTCTTCCCCAACT
CTTTGAGTTGCATAGGTTCCTTTTCTTGGTCTTATGTCCAGAGAGACAGGATTTTGCTCAGTCTTGGCTGTGCTGGAAACTTGTCTCAGGTCAAAGTTTG
AGAGAAAACAGGAAAATAAAACAAATAGGAACCTCACCCTCTGCAGGTTGCTTCTCCAAGTTTTGATTCTCTTCAGTCTGCCTGTTATTTTTTTCACTCA
TTGTCCTCAGGTTGTTGGGTTTTTTGTTTTGTTTTGTTTTTTGTTTTTTATTTGTTTTTTCATTTTGTCTAGAATTTTTAGTCCTACTCAGTAGGAAAGA
GGGCTGAAGGAGGCTTACTTCATCCTGGTGAGCATCAGAAGCCTGTGGTAATGTAYCTTAATGCCATTTTTTTTTTTTTTCTGATCTGGGATCAGAAAMT
GTGCGTGGTGTTGGCTGCCATGTCYTTCAATTTTGAACACTTCTTTAATATTTCATTGTTGTGTATGCTGTGATATTTTTGCAGAGCCTGGGCCAGTTTG
GTAGAATTGCTCTCAATCTCTCACCCTTTCTTGAATCAACCTTTTCAAGCTTTTTCTCACCTCTTCAATGGACATGCTTTAGCCAAGGCTGCTGGTAACT
TCCATGTTGCTAAATCCAATGGATAGTCCTTTGTTTTCCTCCTAATTTCTCATCCCATTCGATTCTTCCCTTCTTGAAATACTTTCTCTGCTCGGYCCCG
GGACACTGTTCCCTCTGGGTTTCTTGCCCTCCTCCCTGGCCATTCTCACTCAGTCCTCTTTATTGGTGCCTTCCCAAGGCCTGGCCACTAGACCTTAGAG
GCCCTCAGGCACAAATCTTTGTCTACACTACATCTCTTCATGACCACTTCCATCCCAACCACTTTTCTTTTTTCTTTCTTTCTTTTYTTTTTTTCGAGAT
GGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCACCCTCCATCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTC
CTGAGTAGCTGGGATTACAGGTGCGTGCCACCACTCCTAGCTAATTTTTGTATTTTTCAGTAGAGACGGGGTTTCGCCATGTTGGCCGGGCTGGTCTCAA
ACTTCTGACCTCAGGTGATCCACCTGCCTTGGCCTTCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGACCTCAACCACGTTCAATTCCATCC
ATTCAGGAACTCCCAATTACACCACTAGCTCAGAGATCTTTACATACACTTAATAGGCACCTCCAACTTAACATGTCCCAAATAAATTTCTTAATTTCCT
CCCAAATGCCAAACTCTTCCCCCATGGTCTTTTCCATCATAGTAAATGGATACTTTATTCTTCCAGCTTTTCAGGCTAAAAATTGTGGTATCTTCCTTCA
TTCTTCTTCTGGTCTAACATTTCAGTCTATGAGCCTTACTTAGGTATATCCAGAATCTGATCACCTTGCACCCTCTTCCTGGCCACCACTTTAGCGCAGG
CTACCCACACCTTTCACCTCCTGTAATCTTTCTTCTGCTCTCTGCAGTCTATCCTTTCTATTGGCCGAAGTGATCCTTTCACAAGTGAAGTCAGATCATG
CCATTCCTCTGGCCARGCCCCCAGTGGCCTCCCACATCTGCAAGCATGATACAGAGGCTTGCAAGGCCCTTCTCAGATCTCCAGTATCCTCCCTCCACTC
ACCGTGTCCTTGCTACACAGGCCTGCTGGCTGATCCTAGAACTCATCTGACCTTGTCTTCCTCAGGGCCTTTGCACTTGYTGTTCCTTTGGGGTGGAATG
CTTTTCCAGGTATTCACATGCCTTATTCCCTCACTTCATTCAGTTTTCTGCTCAGATGTCACCCTAGAAGGAGGCCTTTGATGACTGCTCTGCTTAAAAT
GGCATTGTGCCTCTGTGCCTCTTGAGTTCCCTGTCCTTACCAGGTTTTCTTTTTCTCCGCTGTACTGATCTTCCCTGACATGCTGTGTTTGATTTGGTGC
TTATGGATGTTCTTTCTTAGTAGAATGTAAACTCCAGAAGGGGAGAAATCATGCCAGCCTAGAACCGGTTTTATACCTAGGTAGATGCTAATGGGGATTT
GTAGAATTGGTGGCTTAGTAAAAATGCTTCTGAATATACAGATTTTATCTCTGTCTTCAAAGCTGGCTCCTTGGACCCATCCAAACTTTCTTTTACAGTC
ATGTGCCAGGGGAAGAATGGCCCCTGCCTCCCAGCCTCCTCCTCCCAGGTCAGGTCACTTGGGCCACCAACCTGGAGTCCTTTTCCATCCCCTACCCTTG
CCATGCGCACCTTGTTTCACAGCCACAGTGGAGATCACTCTGCCAGCGTCTCCCATGACACCACATGCCAGGGCCGAGAAGCATTTATCAGTCACCTGCT
CTCAGCAGGGCAGAGCCCGCTTCCCGGAATGTCATGCAGCCGGCCAGTTCTCTGTCAYTCTGGATGATTGAGTGTGAGGAATCTATCACTCAGCCTGCCA
GGAGGCGAGGCAGGAGGCCCGGTCACCACAGCTCCATCTCCACGCTCCTTCTTGGCTCTCCCCAGGTCTATGTCAGAGCCGATTAAAGGCAGATAAGCCT
GTTCTCTGCCCTGCAGCCGGTGACAGCAGGGAGCCACTGGCCAGGGCCAGGCCATGGCTCTCATGCTCAATAGTGATGGGTAGATGCAACTGCTGTCCAG
AAACGGAAGCCGAGCAGATAGCTGGGGGAGCGACAGCCCCAGAATGCTGCCTTCGGGCTGAGCTGCCTTTCCGGAGGCCTCTCTTACAGGAAACACCCAC
ATACAGTCTAGGCACCCAGTCTGCTGTCTGTCTGACAATTTGTATTCTGCAAGATGAGTTCATACACCTTTCATTGAATATTCCCACACCCGCTGGATTT
TTCCCTTAAAATTTTTTTTTACTAGGGCCAGGTGTGGTGGCTTACAACTGTAATCCCAGCACTTTGGGAGGCCTAGGTGGGCGGATTGCTTGAGCCCGGG
AGTTTGAGACCAGCCTAGGCTGTTGCCTAGGAAAATTAGCTGGGTGTGCATGGCTTGCACCTGTAGCCCCAGCTACCYAGGAGGCTGAGGTGGGAGGATT
GCTTGAGCCCAGGAGATTGAGGCTGAAGTGAGACGCGATCGTGCCACTGCCCTCCAGCCTGCGCAAGAGCGAGATCCTGTCTCAAAAAAAAAAAACTTTG
TTTTTACTAAAAGTTTACTCTAAAAATAATATAGTTGCGGGAATTTAACAAATGCATACAGAAGTGTGCCCAGCTCCACAAACAAGATACAGCATAGTTC
CATCATGGCCCCAAATTCTGCCATGTCCCCTCTGGTCATCCCCTCTCACCACCTGGCTGCCAGCGGCCACTGATCTGATTTTGGTCCTTATAGTTTTACC
TTTTCCAGAATGTCATGGGAATGGAGTCATACAGTTTGTCGTCTTTGGGGTCTGGCTTCTTTCAGCCTCGGGCATTTGAGATTTATGCACATATTCATGT
TATGGGGTGTATCGGTTGTTCATTCTGTTTTATTACCAGGTAGTATTCCACTGAATGGAGATTTGTGTATTCATTCCCTAGCTGAAGGACTTTGGGTTGG
TTTCTATTTTTGGCAGTTAGGAATAAGGCTATCTGGCTACTATACGTATGTGCATAAAGGTTTTTGTGTGAACGTACGTTTTCATTTCCCTTGAGTAAAT
ACGTAAGAGTGGAAATGCAGGTCATACGGTAGGTGTATGTTGAACTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTCACCCAGGCTGGAGTACA
ATGGTGCRATCTTGGCTCACCGCAACCTCCACCTCCTGGGTTCAAGSGAATCTCCTCCCTCAGCCCCCCCAGTAGCTGGGATTACAGGTATGTGTCACCA
YGCCCAGCTAATTTTTTTTGTTTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCGGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCC
GTCTTGGCCTCCCAAAGTATGCTGAACTTTTTAAGAAACTGCCACACCATTTTCCAAAGTGCTGGTGTCATTTGCCATTCCCACCAGCTGTGCATGGGAT
TTCCAATTTCTCCACTTCCTTGTCAGCACTTGGTAAGGGTGGGCCTTAATTTCGGTCATTCTAATAGGTAGGTGTACAGAAATATCTTGTGATTTTAACT
GGCATTTTCCTAATGAGTAATAATGCTGAATACCTTTTCATGTGTTTATGTGCCATCCATCTATCTTCTTTGGTGAAGTGATTCTTCAAAGCTTTTGCCC
ATTAAAAAAAAAAATTGGCTTGTTTCTCCTATTACTGGGTTTTGAGAGTTCTGTATTAAATATATGATTTGTAAGTATTTTCTCCCAGTCTATGGCTTGT
CTTTTCATTCTCTTTGTAGTAAATAGCGTCTTTGGAAGGACAAAAGTTCCTAAATGTGATGAAATCCAGTTTATCAATTTGTTCTTTTGTGGGTCAGACT
TCTAATGTTCTAAGGAAACTTTGCCTTCGTGGTTTCTCCTAGGTGTTCTTTTAGAAGTCTTATGGTTTCAGGTTTTACATTTATTTCTGTGATCCATTTT
AAGTTAATTTTTTGTAAGGTGTGAGGTATGGGCTAAGGTTCTTTTTTTGGTATATGGACATCCAATTGTTCTTTGCTATTTGTTGTAAAGACTGTCCTTT
CTCCATTTAATTATTTTTCGACCTTGTCAAAGAGCAAATGACACTTTTTTTGTGTGTGGGCCTATTTCTGGACTTTCTGTTCCATGGATCTATGTTTGTG
ACTATTCCCTTTTTTTTCTTTTTGAGATGGAGTCTCACTCTGTCGCCTAGTCTGGAGTGCAGTGGCACAATCTTGKCTCACTGCAACATCCGCCTCCCGG
TTTCAAGCGATTCTTGTGTCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCACTACCACACCAGCTAATTTTTGTACTTCTAGTAGAGATGGGGTTTCA
TCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGGCCGCCTTGGCCTCCCAAAGTGCTGAGATTACATGCGTGAACCACCGTGCCTGG
CCTTGACTATTCTTTTACCAGTACCTCCCACATTGTCTTGGCTACTGTAGCTTTTGAGTAAGTCTGAACATCAGGTAGTGACCATACCTACCTTTTCAGC
AGGGGGGCTGCTGTTCTCCCCACTTTACAGATGAAGAAACTAACCACAATCATGGAGTCTTCCTGATAGTCTCCCTTATCATCAGGTGTTAGATGCTTAG
CTCATGTTTAACACCTAATGCCTGGTGCCTCGCATGCTTGATGCTCAGGACATCGCCTTTGCAGTCTGGGTTGGGTTTGACTCTTAGCTCTGTTTTTGTT
AGTTGTATACCCCTAGGAAAGTAATCTTACCCCCTGTGCCTCAGTTTCTTCATCTGTAAAGTGGACGTCACCTGCCTTATACATCGTGGCAAATATTAAA
TGAGTCCATGTATCAAGTGAAACCATGTGAAATTGCTGATCTCTGACCATTTTCACAGACACAAATGACAGTTTTACCTAGTCCAACCTAACATGCAAAG
CATTCCTTGTAGTACTGGAGAAAGAGTAGGTTCTCCAGAAAATGGTCCCTGTAGCTGCTGCCATGCTCACTAATACAATGCCTGCTTCTGCTGCTGTTGC
TATGACATTGTTATTACTGAAGGTGGTGGCTCTGAGGCTGATGTTTCATGTTCCTTGTGCCCTCTAATCAGGCAGCCAGTGTCTACAAGGACTTCCCAAG
TGGCAAGCTTCTTGCTGAGTCTGCCAAGAGTAATCCAACCCTTTGCAGAGTTGGATTGTGGGGCAGAAGTGCTCACCTAGCAGGATACATGTGTGTGCAA
AGTGCAGTGGGAGAAGCTGAGTGGGCAGGAGGGGTGGGGGCCACTTCCTGGATGTGGCCCATTAAGGGAGCCTGGTAGGATGGTTGGGAATTTGGGATGG
GGGGAGTGTTCCAGGCACAGGTAATGGCTTGTGTAAAGGCTTGGAAGGGGCAGTGGACAAGCTTCAGGGGGAGCCTGAGGTTTGACTGTTGGGTAGAGGG
GGAAGCTGCTTATGGTGGCCTAGGCTGCCTGCACAACTAACCCCATCCTTTGCTTCCRCAGGTCCCACCCACCTCTGCCTCCGCCATGGCTKCAAGAACC
GTTATCATTGACCACGGGTCTGGCTTTTTGAAGGCTGGCACGGCCGGMTGGAATGAGCCTCAGATGGTCTTCCCRAACATCGTGAACTACCTACCGTGCA
AGGAGAACCCTGGCCCCAGCTATGCCCGTAGGCGTGTGAGCCTGGGCRTCGACATTTGCCATCCTGACACCTTTAGCTACCCCATCGAGCGGGGCCGCAT
CCTCAACTGGGAGGGTGTGCAGTACCTCTGGTCATTTGTGTTGGAGAACCACAGACGGGAGCAAGAGGTCCCCCCTGTGATCATCACGGAGACACCCTTG
AGGGAGCCTGCGGACCGAAAGAAGATGCTGGAGGTGAGGCCTGCCGGGGCCTGCTCCCACTCGGGAGCGGGAAACAGACTGACACTATGTCTGGACTGAT
TGGGCACCAGGAATTCTGCTTTTTAAGATAAATTGCCAWCCAGGTGTGGTGGCTTATGCCTGTAATCCCAACACTTTGGGACTCCCAGGCAGGCAGAYTG
CTTGAGCCCAGGAGTTCAGGACCAGCCTGGGCAATATAGTGAGACCCCTGTCTCTATAAAAAATACAAAAATTAGCCAGGTGTGGTCCCAGCTACCTGGG
AGGCTGAGGTGGGAGGATCAGTTGAGCCCGGGAGGTCGAGAATAGAGTGAGCTGAGATCACGACACTGCACTCTAGCCTGGGCAACAGAGCAAGGCCCTG
TCTCAAAAAAACAAACAAACAAAAAAACCCAACAGAAACCAACAAATTGCCCCACAAACATTTCCCAAGAACCTAGTGARTGCCTGGTGTGCCACTAAGC
AGGGGAGCTCAYGGAGGCCCCACCTGCAGACGGACATGCAGCAACCAACGTGCTTGGTGGAAAGGGGGTTACCAGGGAGACGTGGAATATTTGCTTATGG
ATTCCATAATTGCTGATACAGGCCATGTTCTGGCCCTCAGAGAGCTTCCATGAAGGGGTTAAGAAATAATTCCAGGTAGTGATGAGTTCTAGAACCATAA
TGAAATGGGATCATGGTGGACTGTTGGGGGTGGGGAACCTGTTTGAAGAGAGCGCTCAGGAAGGGCTTCTCTGACGGAGGTGATTTCAGCAGCAAGAGCG
GCAAGAGGCAAATAGGATGGTGAGGTTGGAGGAGGCTGGGCCTTGTAGGCCTGGTAGGCTGTGGGGAGTGCTTGGATTCTACTTTAAATCAAGGATTGGC
AACCCAGTGAGCCAAATCCGGCCCACCACCTATTTTGTAAATAAAGTTTTATTGGAACATAGCCACACACATTCATTTATATGTTATGTAAGATAGAAAG
AGAGAGGAAAGAAAAAAGAACATATGCTCATTGCCTGGTAGGTAAAGCCCTATTATTATTTTTTAAATAAAAACTTTCCAAACATGAAGACAAAACAGGA
ATTCTGATATTTAGGGTTTGGCAGAGTGTGCTTTCATACGACAGCATCTGAGTTAAGTTGTTGCAGCAGAGACTGTTTGAGACCATACATCAAGTTAAAG
GCTAAAAYATTTACTATTGTAGGTTTACTAGGTAAAATACGTGATGCCTAGTTAGACTTGAGTTTCAGATAAATTACAAATAATGTCTTAGTATTTAAGT
ATGTTTCATATTGCATGGGGCAYACTTACACTACAATATTATTTATTATTGATCTGACATTCACATGTAACTGGGCATCCTGTAGTTTTATTTGCTGAAT
TTGGCAACCCTTACTGTCTATCCCTTTACAGAAAATGCTTGCCAGCCACTGCTCTAAGTGAATAGGAAGTTCCTGGGGAGTTTTAAATGGAGAGTTTTAA
ATGGGGGAGTTGTATCTGATTTTCTATTTGAAAAAGAGGACCTTGGCTGCTATTTTGAGAAATGGCTGGTGGGGGGACAATTTTCTGAGAGTAGTAATGG
AGGGAGCCCCCTCCCACTGAGGGGAGACGATGGGCTTGTGGGGGCTTGAAGAGGTGAGTAAGTGGCTGGGACCACAGAAGGGTTGACTGTTAGGATCTTT
CTGCTTCTATGGGATTAGAACCTTGGGGAGGCTGCCAGAGCTGAGGAATGGGGGGCAGGGGGGCTTTGTAAAGATTCAGGGGGTGAGGAGCAGGGGGAGA
AAACCAGCCCAGGGACTCTGGCAAACCCTAAATACCAGAATTCCGGGTTTGTCTTGACGTTTGTAAGGTTTTTATTTAAAAGAAAAAATAAGGCTTTTCC
TGCCAGGCAGTGAGCATCTTTTCCCTTTTTTTCTTTTTTCTTTTCTTTTCTTTTCTTCCTTCCTTTCCTTTTTCCTTCGTTCTGGCGTCTTTTTTCTTGT
CTGTCTTATCTTTCTGGTCTGTCTTTTCYAGTCTTCCTCCACTGTTTGGAGACAGTGGTGAATACGCAACACTTGTTTCTTTTCTAATCTGTTCTTCCTT
CTAAAGAGGCGGTTCAGGCTGCACATGTGACCCGTGGCCATGTTGCTCCTGCAGCCAGTGTCCCAGAACCATTTCTTGCAGCCACAGAGCTCTTCTCACC
TCTTCACCGAAGTGGTCTTCTGAACAGCCACGACCAGACAAGCTCCTGAGGGCAAACCCAGCTCCCCTTCTAATCCTCCAGAGCTGCTGCATTATCCTCA
CTGCATAAGCTCCAGGGGCCCTGGGCGCAGCATCCTGGGGCAGCCCGAGAGTCCCCCCGAGGATGGGGCTCTGTGCTGACTTCAGCTTTGACTGCTGAGC
AGGCTGGGGGGAAATGCACTGAGTGAATTCTCCCTCGTTGCAGATCCTGTTTGAGTTGCTGCATGTCCCATCGGTCCTCCTGGCCGACCAGCTGCAGATG
TCCCTGTATGCCTCTGGCCTCCTGACCGGAGTGGTGGTTGATTCTGGCTATGGCCTGACCCGCGTGCAGCCTTTCCACCAGGGCCGCCCCTTGCCCGCCA
GCGGCAAGACGCTGGAGTTCGCCGGCCAGGATCTCTCCGCCTATCTCCTCAAGAGTCTCTTTAAGGAAGATTGCGATAGACGCTGCCTGTTTCAGCTGGA
GACAGTCGCCGTGACTCAGATGAACAAGTGCTACGTGCCGCAGAATCTGGGGGAGGCCCTGGAYTTTCGTGAGAGGCAGCAGAGTGCCTTGGATGAGAGC
AACACCTATCAGCTCCCAGACGGCTCCYGCGTGGAGCTGACCCCCATGCAGCGGGTGGCTCCTGAGATGTTCTTTAGCCCGCAGGTGTTCGAGCAGCCGG
GGCCCAGCATCCCACGGGCCATTGTGGAATCCGTGGAGTCCTGCGAGATCTCCCTGCGCCCCCTGCTGGTCTCCCACGTGATGGCCTGCGGGGGCAACAC
CCTCTATCCCGGGTTCACAAAGCGCCTGTTCAGGGAGCTGATGGGGGATCACGTCTCCTCCACCAAGGCCACAGTCTGGGAGGGTTCCAATAGAAACTTT
AGTGTCTGGCTAGGAGCGTCCGTGGTGGCTCACCTTTCTACCTACCAGTCTGAGTGGATGTCCCGAGAGGAGTATGGTGAGCATATGAGGATGTGACCCT
ACTGGCTCACTCCTGAGAATGGGCTCCTGTTAGATGGGCACGGGCGGATTAATTTTAGCAAAATGTTCTGGGTGGGGGTAGAATGAGGTGGGGTGGGGTG
AGCTGGCTTTGGAATTCTAGGGGCATGAGGGTATTTTTTAGGTTCTAAGGTTTTATCTTGTTGCAAGAGTGGGACCTACCCAAGGGGGAAGACAAGATGT
CATCCTTGGAAAYCCTGCAGGGGACAGTTTTTCCAGGGTGGCCTATCATTGGGGTATGAGTGGCTGACTGCCATCTCCATGCCTGAGAGCCACTGATTTT
TCATTGGCATTTCCCCTGGTTTGTCTCATTCTTCTTGGTTGAGTAGGTTTTAACTGGGGTAGCACTCCTGCTAGGAGTCCCAATTATTTTTGACTAGGGG
ATGGGGGACAGTTGACATTTCTGGTCCTACAGGCCCTTTCTGGCCAGGGAGGCATTGCTGCAGGTGAGCCTGGGATGCCCTTGCCACCCGTGGTTGGATC
TTGTTTTATATCTGCAAATAAATAGCTTGTTTGGAAGCAATGCTGGCTCCTGTGATGGATGGGGGTAGGGTGCGCAGCCCCTTGGGGAGACTTAGGGAGT
GTAAGTGTGAGAGAGCCAGGTGGGGGCCAGGGCGGGCTCTGAGGTGTCTGGGGCCTATGAACAGTGGCTGCCACTGAGCAGAATAGGCAAGGGTCTGGAC
CCCGTGTTCTTTCACTGCCACATTCTATCCATCCATCCCAGGTGTCCCAATATTCTGTTTAAAGTTTCCCTTCTTATTCGTATTTGTTTGGTATATATCT
GATGCATATTCAAGTACCTAGCATGTTTTAGGAGCTGTGCTGGACCTTGGGGACTTGAGAAAGATGTACAAGGTTTCTGGTTTCAAGCTTACAGCCTCCT
GTGGGATCTATTGTAGACAGTATATAAGTAAACATATTTCTGATGATGAAGAATGAAATGAATCAAATGTGACACGGTCATGTGATCTGGAGGTGGAGGG
ATGGCCACTTTCAATGGAGTGGACTGAGATGAGGTTGCTAGGGACCATCAGTAACTGTGTCTTCTCCTTCCACGGCACACTGTGAGGCAATGCTCCCAAG
TCTCCAGCAGTTATATAGGGCCAGGTGGCTGAGTTCTGGCTCAGTTGGCATGCACCTGACCTTAAAAATACTCCTTCACAGCCTGTGGGATGGGTCAATG
GGGAGGACGTGTAAGCCCTAGGGGATGGATGGCAAATGCTGCAGATGGAAGGAGCCTGAGTGCCTAGGTGGAGCAGAAACCCCTGCCCAACCCCACCAAC
ACTAGCCTGTGGCATGAGGAATCTATGTTCAGCCACTGAGAGTGTGGGGATGTTTGTTACAGCAACTGTTTTGCTTACTCTGACTAATACAGAGAAGGGA
GCCACAATATACTATTTATTTAATAAAATGTGTTTTCTGTTAAGTGCCAGAACTGGGGTTTGAACCCAGCCTGGACTCTCAACCACAGTGTTATCCAGCT
GTTTCTGAAAGGGATTCTTGGCTCCTTAATGTTAAGAGCTGGAATAGAGTAACAAGTGTAGTTTGGAAGACTGAAGCTCAAGGAACCCAGATATCTCAGG
GCAAGTAGAGGAATTTGGAGGGCAGAGTCCAACTCACCTTGTCTTTGAACACATGAGCCATATTCTCATGTGTTTGCTCCCACACTTGAAGCATCAGCAG
TCCCCAGGGAAAAGAGTGGGGGCCTGGAATAACAATTCTTAGGTAGACCAACTCAGAACCAGCCTGGTGCAAGCCCCAGACTTGGTGTCAGATTGAGTTT
CAGGCTGGCCCTATCATGAGCTGAGCTGCCTTGGGCAAGTTATTTAACCTCTTTGAGTCTATCAAGTATAAAATAGGAAGTAATAACCACCTTCTCTCAG
AGATTTGGAGTTGAAGATGAACTAAGATAGGGGATGAGAACTCACTTTGAAGCTGTGACGTGCTACTGAGGTAAGAGAAATGACTTTCAAGCTTTTAAGT
TGATGTCACTCGCCTATTAAACATGAGTGTTAATAACAATGGCAGCTACCATCGCTTGCCAGGCGTTGTGGTGAGAGCTTTACAAATGGAATCACATTTA
ATCCTCACGTGCACACTGTGAAATGAGTGACGTTTGTCTCCACTTACAAATAAGAAAACCAAAGATGAGCGATGTTAAACACTTGTTCAAGTTCACACTC
AAGTTCAAGCTAATCATGATTTGTCAGAGTTAGGAATGGATTCAGCATTCCTAGAACACTAGGCTAAAAGTGGCTGAAACAGATTTATTTGTCTCAGGCA
ACAAGTAGACACTCCAGGTGAACAGTGTCAAATCTACATCACCAAGGTCTCTCTTTTTCTTTCCATTTCTCCACCTTCAGCATGTAGGCTTGTTGGATTG
TGGTCACAAAACAGCTGTGGCAGCTCCAGGCATCACCCCCTATATTTCCTGCAGGAAAAGGAAGCATGAAGGGAGTGTCTTATCTGGGTCTGTCACTTGC
TATTAGAAAGTTGTCACCTAGCAGATTTCTGTTTGGCTCATTACTTGGAGGTAGCTGAAATAGGTGACACACAGGTTTGAGTGAGCTGATTCACAGTGTC
TGTTCCTTGGCAGAGGAGGGCTTTGAATCTAGGTCTGTCCATACTAAAGCCTGTGTTATCACCGATAGTGGCAGGCTGCCTTCTCAGCTTTCTGGGCCTT
CTTGGTTCCCTTGGCCTGAGATGCGGATGTGTGATTTTTTCCAGGCTTGTGTGAAAGCTGCTTTCGGATAGCAGTCGAGGTGTGGGCACCCTGGGCAGAA
ATCTTTGCATTTGAAACCCCTATATTTGTACACACCTGAGCCTTAAAAGGCAGAAGTGGGGGAAACTTAGAAATGAGGACAAGGAAAAGGAGGGCCTGGA
GAGGAGATGGGCAAGGGGCATTTTCTTTCCTTATTTAGCTCTGGGCAACTGTCATCAGAACCCTTTTCCTCATTTCATTCTGAATGTAACATTTAACCTT
TCTGTTCAAGCATCAAATCTGGCTGCCTAGTGTATAATTATGAACTTTTCTTCACTTTCTCTCCCCCCTCCCCCACTCCCAAAGCTTTTAGAACTCCCTT
GTTGGGTACTATCTCTCTCCTCTGACTCTCCAATTAAATTAAAAATAGCAGCTCCATGGGCCGTGTGGGGCCTTCAACCTAATGCGGAACTGCTGGCACG
CCTGGCCTGGCGGGGTGGTACGTGGTGCCCAGAAGATGCCTGCTGGGCTCCAGCAAGTCCTGGCAGCTGCTCAGAGCTCGAGGAGGCTCATCCTCTGTGA
GAGGTCTGGGGCTGCCTGCCAGGGGCAGCCAGGTGCAGAGGGGAGGGAGGCAGGGTCTTGGCAGCTGGGTCAGGGGCTGGGTGGGGCTGGCAGAGGGGAC
AAAGGGAAAGAGCCCCCAGGCAACCCATCCCCAGTTCTGAGGATACAGTCCTGCCAATTTCTGCTGCCAAGGCTGGGGCTTAGTACCCTTGCATCTGGGT
GTGGGTAGGGTTTGGATGCCTGAGTTCCCCAAGATAACCCTGGCAGAAACTTTAGGTTCTGCTGATGCAGAGAACCAAGTCGACATTGACACTGAGCACC
CTCCTGGCTCTAGAGGAGAAGTGTGTGGCCTCTCCCACCTCCAGGGCCCTTTCTTAGACAGATGGTAAAATGGACAAGGGCATGAGCTCTGAAGCCAGAC
TTCATGGACTGCAGTCCCCGCTCTGCTGCTTTCTGGCTCTGCTAACCTCCCTATGCCTTACTTTGCCTCTCTGTAAAGTGGGCCCAATAAAGATGCCTAC
CTCAGGGTGGCTTAGATGATTGCCATATAGTTTTAGTGAGTTAACATACATAAAACACTAAGCGAACACCAGGCACATGAAGGTTAGCTATTATTTCGTA
CACACCAGCCTCTATTGGCCAAATCCCTAGGCACACACCTGGCTCATTTTATATGTACTTGTTCACAGGCAGATAGATGCTAGTGATACAACATGGTTAA
AACATAAAGTGCTGGCTTAGTTTCCCCGGGGAAAGGCATTGCAGGGTAATTTCTTTTCTTGTCTGAATGTTGTGGTCTGAATGTTTGTATCCCTACAAAA
TTCATGTTGAAACCTCATCCCCATAGTGGTGGTGGTAAAAAGGTGGGGCCTTTTCGGAAGTAAGTGATTGTCATGAGGGTTCTGTCCTCATGAATGGGAC
TAATTCCCCATAGAAGAGGGCCTTGTGTGCCTGGCCCTCCAGTCTTCCACAATGTGAAAGCACAGCATTCCTCCCTTCTGGAGGATGCAGCGATAAGGCA
CGGTCTTGGAATCAGAGAGTGGACCCTCACCAGACACCAGATCTGTGGGTGCCTTGATCTTGACCTCCAGACCTGTGAGCCAAACATTTCTAATCTTTGT
AAATTATGCAGTCTGTGGTATTTTACTATGGCAGCAGGAACAGACTAAGACATGGAGTGATGGGGTAGAATCACATTCTGGACACGGAGGTATCACAGGT
GTCGGAGGGTACATGGCACCAGGGAGAGGTAAACAGCCAGAGGTGTCTTCTTGTAGGAAATGATGCCTGAGGTGGCTCTTGCCAGAGGAACAGGACTTTG
CAGATGCTGTTCCTTTTGTTTGGAATGCTTTTCCCCACTGCCACCCCCATGGTTGCCTTTGACACCTTGGTATGGGGGGTTAAATAGATGGAACATTTGA
AGTGGCTGGGGAATGAGAGGGAGTAGGGAAGGATGAAGGTGGTTGTTGACAGGCTCAGCTCTTGAAGGACATCAGGGGTCACATCAAGGACAGACTTGTA
AGCAGAATTATGACATCACTGGAGAACRCASGGCTCTCTGGGTATAGCTCGGAGAATATAGGGGCTCAGAGAGGGATCAGACAAAGAGTGATAACATACA
CCATAAAATAGATATTTCACTAGACTCTAGGCTAACAATTCTATATCACCTGGGACCTTGTTCCCCTCTGATGTCTTGGGTTGGGAATTTGGCTTCAGTG
ATACTTGGGGTCTTGGTGAGTTTGAGGGGCTAACAGATCTTCCCTATCCTCCAGCAGTGGTTGCAATTAGTTATCAATTTTGGAGCTATTTTAGTGCCTG
GGTTATGGCAGGAAAGGCAGCCCAGAGTGAAAGACTTCGGAAGAGTAATCTCAAGGTGGAAAAATGAGATGAATTCACATTGAGGGCAAGACCAGCTCTT
CGTCAGTTGCGTACATCTGTGCTTGTTCCATTAGCTCTTCCGTTCAGCACTACAAGTCTTGGACAGCTCCCCTGGGCTTCTCACCTCCTCTCCCCTCTCA
TTCATGATTTCTGGTTCCAAGAAGCCAGTCCCTACTGAGAAAGCAGGAACCCTGGCGGAGAGGACAAACTCTGTTGTCAAAGTCAGGCAGATGCAGGCCG
GAATCTCTGTTCCTCACTTATAAGCTGTGTTGCTTTGGGCAAAGCACTGCCCGTCTCTGGTTCCATGGCCTCATCTGTAAAGTGGTGATAATAATACCTA
ACTCATAAGGCTGATATGGGAATTAAAGCCATTTATCCATTTAGTGAAATTCAGTAAGCACTTTCTCTGTGTCCTAGGCCCTTTGCTAGGCTCTGTTAAA
TTGAAGCATGTTTGTAAAGTGGCTTAGCAGAGCTTGGCACATAGTAGGTGCTCAATAAAGGTAATTTTTCTCCCTGAATCACTGCAAGAAAAATCCAGGA
CTAAGGATGCCAGGAGACTCCACGATGATGCACGGGCCCCAGCACACATTCATGCTACTAGGAAAGGTTCCTTTTCATCCTGTCCTTTTGATTAACTTTT
CCACTAACGTGTTAGGATCTTGATATACAACCATCTTAGGAATCTTCAGAGTTTTAAGAGGCCCTAAAATCAGAGTATGAGAGGTGGGTCTACTCTTCTT
CTGTAATTAATACAGAGTTAATGACACTCGCCCAAATTCAGGCCATTCTCCTGATTACCTAGATCTGTGGTTGTCCCCTCTACAATTACCTCCCTCCAGG
GAGAGGACATTGCTTTCACCTAGGAAGGACAACACTGATGAACTGAAGACACAGATTCATCTTGGCAAGCCTTGCTGAACACCAGGTGGGGCTGCTGGGG
ACATGGAGAACAGACCTGACTCCCACTCCTTAGGGTTTGATGGGAGTGGACATACCCCCAGGGAGGTGGGGGGCAGGCCAGAGCCATCTCCTCTGTAACC
CTGTGCTTGTGGGGTCATGATCTTAGCCCAGCTCTTCCAGCCAGCAAATCAGTCTCCTGGAGCGACTGAGAGCCTTGCCATGTTGCTCCCACTGGAGACA
TTCGGCAGGGGGAAGGGGTTGGTCGTAATCCGGGTTTAATTTCTCCAGGGCCTCCATTATGAATTCCATAACTCTACCAGTCAAAACATGACTAATTCCT
GGGACTGCAACCCCCACCTGGGAGTAGAAAGCTCTGTGCTGTTTTTGCTACCTTTTGTCACCACTAATAAAGGCTTGGCAGTCGGAATTTAGCTGCTGTG
GGTGGTTTTCTTACACATGTGGGCTTTCCCTTCCCCCTACGGG


SNP Information

Context             (SEQ ID NO:40361):
GGAAACAGAAAAAGAACGACAAGACTGGTGACATGTATGGGAGTGGATTCTAAGGGTTTTAGATCCAGGAAGGCAGAATGTAACACTAGCCTGGGCTGGA
Y
GCATTGATACGGGCACACTCATTAGAGGTTCTGAATTTGGCTGTTAGCTTCTGCAGCTGGAGGTGGCTCTAACAGCTTGGTTGGTTGACTGAAACTTGGA
Celera SNP ID:            hCV9780494
SNP Position Genomic:     8467
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,11)      total(C,2|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40362):
GGAGAAAGCATCCTACTTCTCACTATTACCTATGTGAGTTGTAGGTGTTTGGATATTCTCTTTATTAGGATAAGGAAAGTCTTCTCTGTTCCTAGTTAAA
R
ATTTTTATGATAAATGCATGTTGAATTCTATCCATTGATTTTTTTTGCATCTGTTGAGATGGTCATATGGTTTTTCTTTTTCAGTCTGTTACTCGTTTGA
Celera SNP ID:            hCV3041960
SNP Position Genomic:     64006
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40363):
CTGGGTGTAGTCTTCCGTGTTCACCTAGTGTTTCTAGGGGAAAAGTCCTGAATCAACACATGAGAAGTTTGCATAATGCTCAGATTATTCCCTAATGTAT
Y
GATTGCATTGGAACAAATACGCATTTTAAAAATTAGTGTTATGGCAGCATGAACTGCACTTTGGATCGGGAGTTATGAGCGGTGGGAGGGTCTTTTCTAG
Celera SNP ID:            hCV28005086
SNP Position Genomic:     22886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40364):
TAAGCACATTTAATGTTTTGTTAGATTTATACCAAAGTATCTCTCTCATAATTTTTGATGTTATTGTCAATGATACTTTTTTAAAGAAACACTTTTCAGC
K
ATTTATTGATAGTATATAAAATATAATTGGTTTTTAAAATATTTAACTTGTATCTTGTGACTTAGTCAAATTCACTTATTAGTTCTAGGATCTTTTTTGT
Celera SNP ID:            hCV3041961
SNP Position Genomic:     63621
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,8)      total(G,8|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40365):
AGTTAATTATGTTTTTTGTAAACAAGTGAGGAATGAGTCGAGGTTATTATTTTTACACGGAGAAGTCCAGTTTTTCCAGCACCATTTGTTGAAAAGACTA
K
CTTTTCATCACGGAATTGTCCTTGTACCTTTGTCAAAATCAATTGATTAGATTTGTGTGAGTCTATTCTTGGACACTCTGTTCTTTTCTACTGATCCATG
Celera SNP ID:            hCV3041963
SNP Position Genomic:     62396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,9)      total(G,2|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40366):
TTCTGTTTTATATCTATATTTTACATGATCCATTTTGAGTTAATTATGTTTTTTGTAAACAAGTGAGGAATGAGTCGAGGTTATTATTTTTACACGGAGA
R
GTCCAGTTTTTCCAGCACCATTTGTTGAAAAGACTATCTTTTCATCACGGAATTGTCCTTGTACCTTTGTCAAAATCAATTGATTAGATTTGTGTGAGTC
Celera SNP ID:            hCV3041964
SNP Position Genomic:     62359
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40367):
CTTGTTTGTATGGTAAGTATATGTTTAACTTTAAAAGAAACTCCTAAACTGTTTTCCAGAGTGTACACTTTTATATTCCCACTAGCAGTGTATGAGAGTT
S
CAATTTCTCCACATCCTTGTTAGCTCTTGGTATTGTCCTTAAAATTTTATGGTTTTAATTTGTTTTTCTCTAGTGACTAATGACATTTAGCATCTTTCAG
Celera SNP ID:            hCV3041965
SNP Position Genomic:     61792
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,10)      total(G,5|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40368):
TGGGGCCCCAATTCTCTGCACAATCTACTGTTGTCTTTCTTTGCTTCCTTTCAGAGCAGAGCTCTTCAAAGTTGTCTTGCTGTCTCCCATATCTCTCCCC
R
CATCCTTTCTTTTCCTAAAAGCTTTTCATTTAGAGAAGGTCCAAGAATAGTTCAATACGTTCTCCAATATCCATCATATATATTCACTAGTTACTATCTT
Celera SNP ID:            hCV3041966
SNP Position Genomic:     60866
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40369):
AGCCACTCCCCATTGCTCACATTACTGCCTGAGCTCCACCTCCTGTCAGATCAATGGTGGCATTAGATTCTCATAGGAACATGAACCCTGTTGTGAACTG
Y
GCATGTGAGGGATCTAGGTTGCGTGCTCCTTATGAGAATCTAATGCCCGATGATCTGTCGGTGTCTCCCATCACTCCCAGATGGGACCATCTAGTTGCAG
Celera SNP ID:            hCV3041967
SNP Position Genomic:     60327
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40370):
TCAATGCAATATTGGGTTGGAGTTGAGTGGTCAGGAAAGGCTCCAGATCTCACTCAAGCTAAATAAGAGTGATGAGAGCTGGTTTTTGGAAGGGCTAGCC
R
GGGGTTCCACACAGAGGGTAAGGCAAACATAGGGGCTGAGGAAGGAAGAAGCAGGCTGTGGTCCAGGGACAGAGAGAAAGGAAAGGCCGTGGCCTGTTGG
Celera SNP ID:            hCV3041968
SNP Position Genomic:     60064
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40371):
CATATGGAGCTATCATGCCGCCAGCAAACCAATGTATTTTTAAAAATTTATTCATTCAACACAAACTGATTTAACAAAAATATGCCAGTTACGTGGTAGA
R
ATGGGGAAGTAAAATACAAATATGAACTTGTCTTCCTGGAGCCTACGTTCTGGTGGTGCTTGGGAGAGGTAGACAACAGCCAGCAAACACACAGCATAAT
Celera SNP ID:            hCV3041969
SNP Position Genomic:     59824
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40372):
TCAGGAATGCTACGAGGTTCTGACAGGCAGCTTCCAGTCCTGGGTACCCTTGGAGGTGGGGTTGGTGATGCTGTGACTTCAGCAGCCTAAGCTTCTGGGC
M
CCCCCCCACAGCATCTCTCATCCTGATGCCTATTGGGTTCAGCCTCGTCCTCCTTGTGTCGCCCCCACGCTGTTGATGATCCTCCAGCCCCACTTGGCAT
Celera SNP ID:            hCV11461083
SNP Position Genomic:     15248
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40373):
GGCATGGTCAGGAATGCTACGAGGTTCTGACAGGCAGCTTCCAGTCCTGGGTACCCTTGGAGGTGGGGTTGGTGATGCTGTGACTTCAGCAGCCTAAGCT
Y
CTGGGCACCCCCCCACAGCATCTCTCATCCTGATGCCTATTGGGTTCAGCCTCGTCCTCCTTGTGTCGCCCCCACGCTGTTGATGATCCTCCAGCCCCAC
Celera SNP ID:            hCV11461084
SNP Position Genomic:     15241
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40374):
TCCAATCACCCTTCTTGCCTGCCTGGTGAAAATGGATCTGGGCCCTTTAAATTTTCTCCCTGTCCAGGCAGCAAGCTGGGCTTTGCCAGTAGAGGGCGCC
R
AGGAGCCTCTGCAGCAGGGACCTTCTGCTTCCTGGTTGCCACGTGCTCACAGGGCCTGCTCCTGCAGCACGTGCCGCTCAGTGCTGGCTGCTGCCGTGCT
Celera SNP ID:            hCV11461085
SNP Position Genomic:     9952
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40375):
GTGTTAGAAGCTTTATGGGGTGAAGGTTTGGTGTGGATCTTGAAGGACTGAGAGGTGTGATGGAAGTGAATTTTAGGCAGAGAGGAGATGTAGAAAGGAC
R
GAATTCTCCAGCAGCAAACATTCCAGCGTGGCTTTAGCTTCAGGTGCATGGAGAAGATGGGGAAAGTTGGCCAGAGACTGGTGGGCTTTGTGTGTCAAGC
Celera SNP ID:            hCV3041970
SNP Position Genomic:     59511
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40376):
TCTAAGCCTCATTCCTTCATCTATAAACTGGCAATGATACTATGCCCTCATCATTGGGTTTTTATGCGGAGCAAATAAGAGAGATACTGTGTGAGAAGTA
Y
CATACCCAGTGCCTGGTTCTTAGTAAGCGTGCTCAGCAAGGATTCTGGATTCATAGTGGTCCGTGGAGGAATGAATTCCTGTTTGCAAGTTGTCTGGTGT
Celera SNP ID:            hCV3041971
SNP Position Genomic:     59314
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40377):
AATCTTGACTACACTCAAAGGTGGGTGGCGTGGGGACAACTCTGTCACTTCTCTAAGCCTCATTCCTTCATCTATAAACTGGCAATGATACTATGCCCTC
R
TCATTGGGTTTTTATGCGGAGCAAATAAGAGAGATACTGTGTGAGAAGTATCATACCCAGTGCCTGGTTCTTAGTAAGCGTGCTCAGCAAGGATTCTGGA
Celera SNP ID:            hCV3041972
SNP Position Genomic:     59263
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40378):
TAAGAGCTCAACAGACCAATGTGAGTGAACACACTAAGGCCTCTACCCTTTTTCCTTCAAATGTTATTGTTAGTCCTTTCATCTGTGAAAGATAGTTATT
Y
TCATCTGAAGACTACGGTGTAGAGAGGTGCTTAACTTCAGGCCACATAATTAATCATGGCAGTGATTAAGAGCTTGGGCTGTGAACCCACAGGTACGGAT
Celera SNP ID:            hCV3041973
SNP Position Genomic:     59059
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40379):
AGACAAAGCCCAGGTGGGCCTCAGGAGGACATCCACACAGGGAGCAAGGGAGGGTTTTGGGATGGGGTTTTGCCTTTAGATTCTTCTGCAGAGCCCTGCG
R
CCTGCTGCGCTTTGAGCAGGAGAGAAGTGGGAGCTGCTTTTGCATCTGCATGAATCTGCTGTTATTACTGTAGCAAATTACCAAATGCAGTGGCCCAACA
Celera SNP ID:            hCV3041974
SNP Position Genomic:     57438
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40380):
CACACCTTGTAGCCAGACAAAGCCCAGGTGGGCCTCAGGAGGACATCCACACAGGGAGCAAGGGAGGGTTTTGGGATGGGGTTTTGCCTTTAGATTCTTC
Y
GCAGAGCCCTGCGACCTGCTGCGCTTTGAGCAGGAGAGAAGTGGGAGCTGCTTTTGCATCTGCATGAATCTGCTGTTATTACTGTAGCAAATTACCAAAT
Celera SNP ID:            hCV3041975
SNP Position Genomic:     57424
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40381):
GTTCCTGATTTGCAGGGAAGCTGAGCCACATCCTCAGGATACAATGTCCGGTCACACCTTGTAGCCAGACAAAGCCCAGGTGGGCCTCAGGAGGACATCC
R
CACAGGGAGCAAGGGAGGGTTTTGGGATGGGGTTTTGCCTTTAGATTCTTCTGCAGAGCCCTGCGACCTGCTGCGCTTTGAGCAGGAGAGAAGTGGGAGC
Celera SNP ID:            hCV3041976
SNP Position Genomic:     57372
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40382):
AGAGGTTCCTGATTTGCAGGGAAGCTGAGCCACATCCTCAGGATACAATGTCCGGTCACACCTTGTAGCCAGACAAAGCCCAGGTGGGCCTCAGGAGGAC
R
TCCACACAGGGAGCAAGGGAGGGTTTTGGGATGGGGTTTTGCCTTTAGATTCTTCTGCAGAGCCCTGCGACCTGCTGCGCTTTGAGCAGGAGAGAAGTGG
Celera SNP ID:            hCV3041977
SNP Position Genomic:     57368
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40383):
GGACTTTGGAGCAGAAGAGGCCTGTAGCAGAGGTTCCTGATTTGCAGGGAAGCTGAGCCACATCCTCAGGATACAATGTCCGGTCACACCTTGTAGCCAG
M
CAAAGCCCAGGTGGGCCTCAGGAGGACATCCACACAGGGAGCAAGGGAGGGTTTTGGGATGGGGTTTTGCCTTTAGATTCTTCTGCAGAGCCCTGCGACC
Celera SNP ID:            hCV3041978
SNP Position Genomic:     57340
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,9)      total(A,9|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40384):
AGTAATTCTCACATTTAAGTGATTAATTCTCCAGAGTTCAGAACGACTGGTTAGTTTTACATTAATGGGGGTTTCTGAATGCCAAGAGACAATCAATCAA
K
CCTTCCTGCCAGGGAGAGTAATGTTAAGATACCTCAAGGTACAATGAGGTTAAGAAGAGGCATAATTAAAACCCTGTCCTCCCCTCATGCAAATTTGATG
Celera SNP ID:            hCV3041979
SNP Position Genomic:     56947
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,7)      total(G,6|T,7) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:40385):
CTTGTTGGTTTCTAAGTTCGTTCCATGTCATTTTTAGATGTTGCTAGTATCATCTCCCATTTTGATATGTTTGTCTTAAAGGTGTCTGTGTTTTCACTGA
R
CAGAAATCTATTTCTTTGTTGCTTCCTCTCTTTTTTTTCTCTGGCCTTAGAAATTGTGTGTGTGCCTTCTGTCTTGTTTTTAGAAGTCCTTCCCTTTACC
Celera SNP ID:            hCV29300562
SNP Position Genomic:     50249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40386):
AACCACCTTTATGGTGCTGAATTCAGCTCTTCACACACAGGAGGTTCTATTTCTGAGCTCTCTCTGCTGTTCCGTTGGTCTGTCTGTTTTTATACGAATG
Y
CTTAGCCGTTTCTATTGCTGTACCTCTGGGACATCTCTTAATGCCTCGGAGGCCAGAAGTTTTGCTCTTCTTTTTCATGATTAAGCAACTGGCAGACCCT
Celera SNP ID:            hCV29300563
SNP Position Genomic:     50647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40387):
ACACCACATGCCAGGGCCGAGAAGCATTTATCAGTCACCTGCTCTCAGCAGGGCAGAGCCCGCTTCCCGGAATGTCATGCAGCCGGCCAGTTCTCTGTCA
Y
TCTGGATGATTGAGTGTGAGGAATCTATCACTCAGCCTGCCAGGAGGCGAGGCAGGAGGCCCGGTCACCACAGCTCCATCTCCACGCTCCTTCTTGGCTC
Celera SNP ID:            hCV29300565
SNP Position Genomic:     69958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40388):
GTGCTACGTGCCGCAGAATCTGGGGGAGGCCCTGGACTTTCGTGAGAGGCAGCAGAGTGCCTTGGATGAGAGCAACACCTATCAGCTCCCAGACGGCTCC
Y
GCGTGGAGCTGACCCCCATGCAGCGGGTGGCTCCTGAGATGTTCTTTAGCCCGCAGGTGTTCGAGCAGCCGGGGCCCAGCATCCCACGGGCCATTGTGGA
Celera SNP ID:            hCV27484144
SNP Position Genomic:     76828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:40389):
AATTCTAGGGGCATGAGGGTATTTTTTAGGTTCTAAGGTTTTATCTTGTTGCAAGAGTGGGACCTACCCAAGGGGGAAGACAAGATGTCATCCTTGGAAA
Y
CCTGCAGGGGACAGTTTTTCCAGGGTGGCCTATCATTGGGGTATGAGTGGCTGACTGCCATCTCCATGCCTGAGAGCCACTGATTTTTCATTGGCATTTC
Celera SNP ID:            hCV27484145
SNP Position Genomic:     77413
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,49|C,1434)   total(C,1434|T,49) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:40390):
TTTGGTAGGCCAGGGTGGGCGGATCACTTGAGCCCCTGAGTTTACGACCAGACTGGGCAACATACCAAGACCCTGTTCTCTACAAAATAAATAAATACTA
C
CCCCCCCCCCAAATAAGAATGGGTAAGTGGGCCTAAATTTAAAATAGAATGAAGCAGCCACTTGCTGACTATGGTTACACAACTACCCTGACTTCCCCAG
Celera SNP ID:            hCV26979261
SNP Position Genomic:     5257
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|-,9)   total(C,6|-,9) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40391):
GCGAGACGGGTGAGCATCATGAAGAAGGGGTTCCAGGCAGAGAGCAGCGTCTGCAAAGGCCCTGCGGTGGGACTGTGGAGGCCTGCTCTGGAAACAGTGA
G
GAGGGCATCAGGAGGTGAGGTCAGAACGGTAAGAGTGAGGAGATGCTGGGGTTGCATCGGATGATAGGATCCGACTTCGCTGCTGGAGACAGAGCCGGGG
Celera SNP ID:            hCV26979262
SNP Position Genomic:     17900
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,7)   total(G,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40392):
GCTATACCATACAACCTAGGTAAGTAGTAGGCTATACCATATCTTTGCTTTCAATGGCCATACATATTTTGGGAGGAGAAAAATATACTTTATAATTTTT
W
AAATATTTACCGTTTCTGTTTCTCTTTCTTCATTCCTGAGTGCTAGATTCAGCATTATTTTCCTTCAGCCTGAAGAGCTTTAATTAGCATTTCTTTTTAA
Celera SNP ID:            hCV11461021
SNP Position Genomic:     65914
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,12)   total(A,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40393):
TCACAGGCTCACAGCTCAGTGTTTGATTTCTCCCCTGGGCATTTGTACCCATGGACCCTCTCCCTCCTGGACCCCTCTGCCTCCTGGACCCCTCTCCCTC
Y
CACAACCCCTTCTCACCTCCTTCAACATTCAGCTGGGGCAAGCCACCACAGAAGCCTTCTCTGACCTTCGCCTTGTACCTTGCATCTGGCTTGAGTCAGA
Celera SNP ID:            hCV26979266
SNP Position Genomic:     29906
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40394):
GGATTGCTTTGAGCCTAGGAGGTCGAAGCTGCAGTGAGCTGTGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGTTGAGACCCTGTCTTGAAAAAAA
R
CCCCAAAAACAAAAAACCCTCTGGTTTAGTGACCGGCTTGTAGCAAAGAAGTGGCATTAGCCTGGGAAGACCTTAGGATGCTCTTGTCTAAAGACCAGGT
Celera SNP ID:            hCV26979267
SNP Position Genomic:     30890
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,12)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40395):
AAGGTCATACAACTAGTAAGTAGCCCAACAATCATTCAGACTGGCTCTTCTGGGTACCTGATATGGTTTGGCTGTGTCCCCACCCAAATCTCATCTTGAA
W
TTCCACATGTTGTGGGAGGGACCCAGTGGGAGGTAATTGAATCATGGGGGCAAATCTTTCCCATGCTGTTCCCGTGATAGTGAATAATTCTCATGAGATC
Celera SNP ID:            hCV26979268
SNP Position Genomic:     33887
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40396):
TGAATCATGGGGGCAAATCTTTCCCATGCTGTTCCCGTGATAGTGAATAATTCTCATGAGATCTGATGGTTTTAAAAAGAGGAGTTTTTTTTTTTGTTTT
K
TTTTTTTTTTTTAAAAAAACTCCAGGGCCTGTGACCCTAACTAGTCCCATGTGTCGGATGATGCCTGGAGGCTGTCTGTGTGAAGGTGGTGGTCCGTATT
Celera SNP ID:            hCV26979269
SNP Position Genomic:     34025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40397):
TTCCGGTCCTTGGGAGTGGCTGATTAAAGGCATCATCTTCCTGCTTCCTCCTTTTCCTCCTCTTTCTAGGCTGCCAGGATCTTATTAGCCCTGTTTACAC
R
GCCGGGATGTCGAGCGATTAATTTTTAATGGCTTGGTTTATTGCATGTTTGAATGGTTTATTGAGTAATTCTCACATTTAAGTGATTAATTCTCCAGAGT
Celera SNP ID:            hCV3041980
SNP Position Genomic:     56783
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:40398):
CTCCCTGAACCTTCACTTTGTCAAAAGGTTGGGCTGTACCCCTGAGCTGAGAGAGGGGTGAATACATTTCATCTAGGCCACAGGCTGACATGGGGAAAGG
K
CAGGTCCAAAGCAAGACCTGGGTGCTGTGGACTGGGGAGGCAACGAGGACACAGGGACCCAGCAAATGGCTGCCCCTGACCATTGCAGCCACCACCCAGC
Celera SNP ID:            hCV3041982
SNP Position Genomic:     55152
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,12)   total(G,12|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40399):
CCTCCCTGAACCTTCACTTTGTCAAAAGGTTGGGCTGTACCCCTGAGCTGAGAGAGGGGTGAATACATTTCATCTAGGCCACAGGCTGACATGGGGAAAG
S
GCAGGTCCAAAGCAAGACCTGGGTGCTGTGGACTGGGGAGGCAACGAGGACACAGGGACCCAGCAAATGGCTGCCCCTGACCATTGCAGCCACCACCCAG
Celera SNP ID:            hCV3041983
SNP Position Genomic:     55151
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,12)   total(G,12|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40400):
TAGTTAGTGTCTCCTCCTCTGATTGGCTTGAGTTGGGTCACATGGTCCTCCCTGAACCTTCACTTTGTCAAAAGGTTGGGCTGTACCCCTGAGCTGAGAG
W
GGGGTGAATACATTTCATCTAGGCCACAGGCTGACATGGGGAAAGGGCAGGTCCAAAGCAAGACCTGGGTGCTGTGGACTGGGGAGGCAACGAGGACACA
Celera SNP ID:            hCV3041984
SNP Position Genomic:     55105
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,12)   total(A,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40401):
AACATCTCATCCCTTTACTGTGTGTGTTGCTGATCAATGTATGTTTGAACATCATCTCCTTATATGCTTGCTGTTTGGATTGCTGGTGTCTGAATGGATG
Y
GTTTATACACTTTGTCAATTTCCTCATCTTTTTGTCTTTTTTTTTTTCTTGTTGGTTTCTAAGTTCGTTCCATGTCATTTTTAGATGTTGCTAGTATCAT
Celera SNP ID:            hCV3041988
SNP Position Genomic:     50101
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40402):
GGATGAAGGTGGTTGTTGACAGGCTCAGCTCTTGAAGGACATCAGGGGTCACATCAAGGACAGACTTGTAAGCAGAATTATGACATCACTGGAGAACGCA
S
GGCTCTCTGGGTATAGCTCGGAGAATATAGGGGCTCAGAGAGGGATCAGACAAAGAGTGATAACATACACCATAAAATAGATATTTCACTAGACTCTAGG
Celera SNP ID:            hCV778919
SNP Position Genomic:     82031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40403):
ACATCTGTGCCAGCACCTGTTGGCGATCGTCTAGTTTTGCTAATCTGATATGTGTAAAACATCTCATCCCTTTACTGTGTGTGTTGCTGATCAATGTATG
K
TTGAACATCATCTCCTTATATGCTTGCTGTTTGGATTGCTGGTGTCTGAATGGATGCGTTTATACACTTTGTCAATTTCCTCATCTTTTTGTCTTTTTTT
Celera SNP ID:            hCV3041989
SNP Position Genomic:     50044
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40404):
GCTAGTTCCAGGAGTTGCGGGGTGAGGCTCACTCGCTTCGGCTCCTCTGCAGTCTCCCAGGAGCTTGGACGGCTGCTTCCTTGCAGACCCCCTCTCTGTG
R
AGCTGAGTCTGCTTCCGTTCCACTCTGCCGTCGTCCCTTCTTCCTGCCATATGTTCCTAATGGCCTCATTTTTCCTCCCAGGCAGAGTCAGTGGCCATCT
Celera SNP ID:            hCV29300578
SNP Position Genomic:     27226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40405):
GCGGGGTGAGGCTCACTCGCTTCGGCTCCTCTGCAGTCTCCCAGGAGCTTGGACGGCTGCTTCCTTGCAGACCCCCTCTCTGTGAAGCTGAGTCTGCTTC
Y
GTTCCACTCTGCCGTCGTCCCTTCTTCCTGCCATATGTTCCTAATGGCCTCATTTTTCCTCCCAGGCAGAGTCAGTGGCCATCTGCAAACTTGGCAGTGT
Celera SNP ID:            hCV29300579
SNP Position Genomic:     27242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40406):
AATCTTTCCCATGCTGTTCCCGTGATAGTGAATAATTCTCATGAGATCTGATGGTTTTAAAAAGAGGAGTTTTTTTTTTTGTTTTGTTTTTTTTTTTTAA
W
AAAACTCCAGGGCCTGTGACCCTAACTAGTCCCATGTGTCGGATGATGCCTGGAGGCTGTCTGTGTGAAGGTGGTGGTCCGTATTTAAAGCATTCATCAC
Celera SNP ID:            hCV26979270
SNP Position Genomic:     34040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40407):
AGAGAGAAAGCAGGGGCGGGACAGTTGGTCCCCTCCCATCCACCCTGCCCAAGCCTGTCCTGAGTGGTGTCTTCTGACTTTCTTGCACTGTCGAGGGGAC
R
ATAACCACACAAATGACAACAGATGCCGGCCTGGGAATGGAACAGCATTTCCTAAGCAAGGGCTGGACTTCCCTCTCTTTTGTGCCAGATCTAGTGTCTC
Celera SNP ID:            hCV9780591
SNP Position Genomic:     43779
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40408):
GTGTGCCAAGGTTTGGGAAATGCCGAGTCAGCAGGACACGCACATCAAATTCACCGTGTTCCCAGATGCCTTTCCAGCCAGTCCCATTGGGCTCACTCCC
R
CCAGCGGGGTTGGGAGCTTCCTTTTCCCACATCTGTGCCAGCACCTGTTGGCGATCGTCTAGTTTTGCTAATCTGATATGTGTAAAACATCTCATCCCTT
Celera SNP ID:            hCV3041990
SNP Position Genomic:     49915
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40409):
CCACACGCTGTTTGAAAGCTCTGTCTGCACTGCTGTGAAGTCCACTCACGAGCGAGCTCTCCACGGATGCATTCCTGGCTCAGCCTCTCCCTAAGCGATG
Y
CCACTTTGGTCCCCTCTCTGGTTTTCCACTTTACTAATGATGCTGTAGAGAATGCCCTTGTAGAGTCCCATCACAAGCTTGGAGGACGTGGTTTCTCTGG
Celera SNP ID:            hCV3041991
SNP Position Genomic:     49711
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,15)   total(C,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40410):
AGGAAGATTGCGATAGACGCTGCCTGTTTCAGCTGGAGACAGTCGCCGTGACTCAGATGAACAAGTGCTACGTGCCGCAGAATCTGGGGGAGGCCCTGGA
Y
TTTCGTGAGAGGCAGCAGAGTGCCTTGGATGAGAGCAACACCTATCAGCTCCCAGACGGCTCCCGCGTGGAGCTGACCCCCATGCAGCGGGTGGCTCCTG
Celera SNP ID:            hCV778921
SNP Position Genomic:     76764
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,1)   caucasian(C,31|T,5)   total(C,36|T,6)
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:40411):
ACCTCCTGTAATCTTTCTTCTGCTCTCTGCAGTCTATCCTTTCTATTGGCCGAAGTGATCCTTTCACAAGTGAAGTCAGATCATGCCATTCCTCTGGCCA
R
GCCCCCAGTGGCCTCCCACATCTGCAAGCATGATACAGAGGCTTGCAAGGCCCTTCTCAGATCTCCAGTATCCTCCCTCCACTCACCGTGTCCTTGCTAC
Celera SNP ID:            hCV778922
SNP Position Genomic:     69116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40412):
CATCCTAATTTCTACCAGGATGATTGAGATGCATGAGATTGACTTGCATTTGTTCCAAACATGCTTTTCAAAAGCAAAACTGCTTTTTAAAAAAATCTAT
Y
TTTGTTCCCCCAGGTAAAACAAGTTCATGTCATTCTACCATTTGTCTGGCCAAGGACCCTCTCTGGTTTTCACTTTTTTAAAGTCTTTCCTTCTCCATTC
Celera SNP ID:            hCV3041992
SNP Position Genomic:     49361
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40413):
TGCTTTGGAGCTAAGGACCCCACCTCTTTGAAGTGCCTGGAGCTTACTTCATGCCATATCGGCGCTTCCCAGGCTGTGTTCTGCAGACAAGAATGTTCCC
R
AAAGGAGTGTTCTGTAACCACCGTGCATCGGAGGCATTGCGCTCAGTAGCCTTCTCAGGATCTTTAATATGGCAGAAAGCATTGTGACTCTGCAGGCGGA
Celera SNP ID:            hCV3041993
SNP Position Genomic:     48139
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40414):
GAGTTTCAGTTTCTGCACCTCTCCAGGCAGGACAGCAGCTGCCACCTGCTAGGGCTACTGTGGCAGTTCGCGGTGATGCCGATGTTGTGCCCAAGCCCTG
Y
CATGAGGGCACTTGATGCATGGTAGCTATTAGTCATAATTTAGGACCTCTCTGTCCCTCCTATGAGACCACGTATGCTTTGGAGCTAAGGACCCCACCTC
Celera SNP ID:            hCV3041994
SNP Position Genomic:     47964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40415):
CTTGGTCTTGTAATCTGACATAGTCACAGTTTCCATGGATTAGGGCATCAGAATCTTTGTGCTTTGGAGACCGCAGCATTGACAGGATGAGAAACAAGAC
R
GCTGACAGGTTGGAGGCACAGACCCTGGAGCCTGATACCCTGGTTCAGTCCTTGCTCAGCTCCTCAATAGCTGTGGGGACATGAGTAAGTTTCCCAACTG
Celera SNP ID:            hCV778924
SNP Position Genomic:     57999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40416):
AAGAAGCTCTTGTTTAAGCAGAAAGAGCTCAGACTTCCAAACCCACCAGGGTTGGGATCCAAATCCCTCCCGCCTCTCTGTGGTCCCTGCTGCCTGAGAG
Y
TTCAGTTTCTGCACCTCTCCAGGCAGGACAGCAGCTGCCACCTGCTAGGGCTACTGTGGCAGTTCGCGGTGATGCCGATGTTGTGCCCAAGCCCTGTCAT
Celera SNP ID:            hCV3041995
SNP Position Genomic:     47867
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40417):
ATTCCGGTCCTTGGGAGTGGCTGATTAAAGGCATCATCTTCCTGCTTCCTCCTTTTCCTCCTCTTTCTAGGCTGCCAGGATCTTATTAGCCCTGTTTACA
Y
AGCCGGGATGTCGAGCGATTAATTTTTAATGGCTTGGTTTATTGCATGTTTGAATGGTTTATTGAGTAATTCTCACATTTAAGTGATTAATTCTCCAGAG
Celera SNP ID:            hCV778925
SNP Position Genomic:     56782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:40418):
CAGTAGCTGAGATCTGGGGCACCTGCTACTAAGAAGCTCTTGTTTAAGCAGAAAGAGCTCAGACTTCCAAACCCACCAGGGTTGGGATCCAAATCCCTCC
Y
GCCTCTCTGTGGTCCCTGCTGCCTGAGAGTTTCAGTTTCTGCACCTCTCCAGGCAGGACAGCAGCTGCCACCTGCTAGGGCTACTGTGGCAGTTCGCGGT
Celera SNP ID:            hCV3041996
SNP Position Genomic:     47837
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40419):
GGCCAAAATAGATGTATTTTCTAACAGACATACAGACATGCATACACACCCTCCACTCCAATGTCAGCTTCCTTAGGGCAGCCACTGTTGTCTTGTTCAT
R
GCTATATCTGCAGAGCCCTGTGCAGTGTATGGTACATAGAAGGTGCTCAGTAAGTATTTGTTGAGAGCTGTAACTCTAACCCCACTGCCTCTTCCTAACA
Celera SNP ID:            hCV778926
SNP Position Genomic:     56451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40420):
GTATGGCTCGTACAGGGCCTTCCCTAGGGGTGGTATCCACACTCCTAGCATGGTGCTTCCTGGGTTTCAGGCCAGTAGCTGAGATCTGGGGCACCTGCTA
S
TAAGAAGCTCTTGTTTAAGCAGAAAGAGCTCAGACTTCCAAACCCACCAGGGTTGGGATCCAAATCCCTCCCGCCTCTCTGTGGTCCCTGCTGCCTGAGA
Celera SNP ID:            hCV3041997
SNP Position Genomic:     47765
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40421):
TCAGGTGATCCATGTGCCTCGGCCTCTGAAAGTGCTAGGATGATAGGCGTGAGCCACTGTGCCTGGGCCTTGGATATGTCCTTATTTAGCAGCATGAGGA
Y
GGACTAATACACCTGCCAAGGGTATAAGTGGGGAGTGAGAGTGTATGCTGCATTGGTCATTTCTGACTTAAATCATTAAATTCAGCAGAAGGTCTCTATG
Celera SNP ID:            hCV778927
SNP Position Genomic:     54340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40422):
CTAGAATGATAGAGTTTGCACAGCACCGGCACTGCCGTGGCAAGTGGGCCAGCCCTGAGGGCCTCGGAAGGCAGCAGAAGTCTGCTCTCTGCTCTGGCAC
W
TTCTAGGGACACGCTGCTCAAGTATGGCTCGTACAGGGCCTTCCCTAGGGGTGGTATCCACACTCCTAGCATGGTGCTTCCTGGGTTTCAGGCCAGTAGC
Celera SNP ID:            hCV3041998
SNP Position Genomic:     47643
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,12)      total(A,1|T,12) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40423):
CAATGGTGGTCTCTCTGTCTCTTCTTCCAGTTATTTTACGTGATGTTTCTCCTTTGCCCTACTGCCCTTGCCGGGACTTCGTTTGATGTTGAGTTGTTGC
K
CAGTGGCAAACTTCCTTGCCTTGGTGTCAATCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCACTATTGTTGCCAGGGCTGGAGTGCA
Celera SNP ID:            hCV778928
SNP Position Genomic:     51228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40424):
GCCCACTTTGGTCCCCTCTCTGGTTTTCCACTTTACTAATGATGCTGTAGAGAATGCCCTTGTAGAGTCCCATCACAAGCTTGGAGGACGTGGTTTCTCT
R
GGGGGTGTGCCAAGGTTTGGGAAATGCCGAGTCAGCAGGACACGCACATCAAATTCACCGTGTTCCCAGATGCCTTTCCAGCCAGTCCCATTGGGCTCAC
Celera SNP ID:            hCV778929
SNP Position Genomic:     49810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40425):
TCTTGATCTAGTCTTCCGACCTCTTCAAGCTTCTTCAGCAGCTGAGAGGATGCTCTAGACTTAGATTGCAACGAGTAGGGAGGTTTAGGTGGCTACTTGT
Y
GGAGTGTTAACTTCTAAGCTGGGAATTTCTAGAATGATAGAGTTTGCACAGCACCGGCACTGCCGTGGCAAGTGGGCCAGCCCTGAGGGCCTCGGAAGGC
Celera SNP ID:            hCV3041999
SNP Position Genomic:     47514
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40426):
CTTTGCTTCCGCAGGTCCCACCCACCTCTGCCTCCGCCATGGCTGCAAGAACCGTTATCATTGACCACGGGTCTGGCTTTTTGAAGGCTGGCACGGCCGG
M
TGGAATGAGCCTCAGATGGTCTTCCCGAACATCGTGAACTACCTACCGTGCAAGGAGAACCCTGGCCCCAGCTATGCCCGTAGGCGTGTGAGCCTGGGCA
Celera SNP ID:            hCV15751611
SNP Position Genomic:     73748
SNP Source:               Applera
Population(Allele,Count): african american(C,6)   caucasian(A,26|C,12)   total(A,26|C,18)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,15)   caucasian(A,11|C,3)   total(A,24|C,18)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:40427):
TTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTCACCCAGGCTGGAGTACAATGGTGCGATCTTGGCTCACCGCAACCTCCACCTCCTGGGTTCAAG
S
GAATCTCCTCCCTCAGCCCCCCCAGTAGCTGGGATTACAGGTATGTGTCACCACGCCCAGCTAATTTTTTTTGTTTTTGTATTTTTAGTAGAGACAGGGT
Celera SNP ID:            hCV2946187
SNP Position Genomic:     71347
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40428):
TCTATTTTTAGTTTTCCCTTCCCTCTGTTACTTGGGTCTAAGAGAGAAGCTTTAGCTACACGAAGAAAGATTTAGGAGCAATAAAAAAAGAAAACTCTTT
R
AGAGGAAACGTTGCAGCACACACCAGGAAGCTGGGATAACAGATTCCCTTTGGCTCCAATCAGGGAGGCAGTAAAACTGAAATTAAACAGAAGGGTGGGG
Celera SNP ID:            hCV3042001
SNP Position Genomic:     46262
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,14)   total(G,2|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40429):
TCGTGTGAGGATTAAATAAGAATGTAGTAAAATATAACAGGTGTTCTGCAAATGTAAATTTGCTTCTATTTTTAGTTTTCCCTTCCCTCTGTTACTTGGG
W
CTAAGAGAGAAGCTTTAGCTACACGAAGAAAGATTTAGGAGCAATAAAAAAAGAAAACTCTTTAAGAGGAAACGTTGCAGCACACACCAGGAAGCTGGGA
Celera SNP ID:            hCV3042002
SNP Position Genomic:     46198
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,14)   total(A,2|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40430):
CCTTGCAGGGTTCGTGTGAGGATTAAATAAGAATGTAGTAAAATATAACAGGTGTTCTGCAAATGTAAATTTGCTTCTATTTTTAGTTTTCCCTTCCCTC
Y
GTTACTTGGGTCTAAGAGAGAAGCTTTAGCTACACGAAGAAAGATTTAGGAGCAATAAAAAAAGAAAACTCTTTAAGAGGAAACGTTGCAGCACACACCA
Celera SNP ID:            hCV3042003
SNP Position Genomic:     46187
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,14)      total(C,3|T,14) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:40431):
TTTAATGGAATTCCTTCAAGTTCTCCTTTTTTTGAGCCTTAAGGTCCTCAGGCAGATTTCATTATTTTCCGGCCATTTCCAGTTAAAATATAATCTGATT
Y
ATTTTAGAACCTGGGACCTCACATCTCATCTAAAGCACTCTAAACCCTTCCCCTACAGCTTTTCCAGGCTGCTCCAGGAGTGGGGAGAAGGAAGGAATCT
Celera SNP ID:            hCV3042004
SNP Position Genomic:     44221
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40432):
TATAAAGTACCATGTGAACATTGTGTAACCCTGTGGTTTTGCCTTCAAATATCTGGAAGGGTCTTCAGACCATATCCAATACAGGCAAGCGTCCATCTTT
Y
TGATAATCAAACATCACCATGCATATAGACCAGAGATTCGTGTACAACATTCATGTTCTGCTGTCTTCGGGCCTCAGATAAGGAGCTTGAAGCCCCTTCT
Celera SNP ID:            hCV3042005
SNP Position Genomic:     43145
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40433):
CCACATGCCTACCTTCCTTTCACATCCACAGCTCTGGACTGGGGCCGGGAGTCAAGGTGGGCTGCTGCCTCAGCTCAGAGCTTCCCAGCCAGGATACAAG
Y
GTGCCCAGCTCTGATGCCCTCAGCCCTCGGAGCAGCCAGGCAGGGCCTGGGGTAGCCAAAGCCTGAGGAAGATCACTGCCTGCCATGGACGGCCTCATCC
Celera SNP ID:            hCV3042006
SNP Position Genomic:     39100
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40434):
TTATTTTTCTTTATAGCTAGTGCTTTATAAAATAGATATATTTTCTTTTTCTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATTAAGTCTCCCTC
Y
GTCACCCAGGCTGGAGTGCAGTGGCGCGGTCTTGGGTCACTGCAACCTCTGCTGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGCCTAC
Celera SNP ID:            hCV11461044
SNP Position Genomic:     56098
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40435):
CCTTCCTTGTTCTGCTCACTGTAGCCTGGCCTCCTGCTGTGGGATGCAGGCAGGGATGGGGGCGTCATCTCTGGGGCTCTTGTGAAATTATTTTAAGACC
R
TGGAAAACAAATTAGAATTTCAAACCATCCAGCCCTCTTGAAAGCAGACTGGGGGTGTGTTCGAAGTAATGTAATTTTTGCTTTGTTTTATTAATAGGAT
Celera SNP ID:            hCV3042007
SNP Position Genomic:     31197
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,14)   total(G,14|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:40436):
AGGAGTTGCATCGTGCTGGCACTGAACAGCAGATCCCGGATGACTGTGCGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGAGGGCAGTGGTGCACA
Y
ATTTATCAGATGATGGGGCTTAGGGCAGAATCCCCTTTTACCTGGGCTGAAAGGAGTTACTACCGCGGGTAAGGAACAGAGCTGGGGTGTGACCTCAGGC
Celera SNP ID:            hCV11461048
SNP Position Genomic:     53149
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,19)   total(C,1|T,19) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40437):
CAGAGGTCAGTGGAGAGTGGAGACAGGAGGACATAGGCTCTCTCTCTGGGGTGTGGGAAGGGACAGGACCACCATCAGGTTCACATCTGCATTTTTTGGG
R
ACCAAAGGCTTCTTGCCCTGGGAGAGAGAAAGCAGGGGCGGGACAGTTGGTCCCCTCCCATCCACCCTGCCCAAGCCTGTCCTGAGTGGTGTCTTCTGAC
Celera SNP ID:            hCV778930
SNP Position Genomic:     43656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40438):
GTTTAAAGCAGATACAATGCATTTTGACCATCAGATGTCTGTTTGTCTTGTGGTTCTAGGCTGTGTTCTGGAGAGTGAAGGGTGCCAGATAAATAAGTTA
Y
TTAGCCTGTTACTTAGCCTGTTACTGTTTGTTTTTTGTGTCTAAATGGCCTGAAGTGAGAGGAAGAATGGAGAACAGGGGAGGAAAGTGAGCAGGACCTC
Celera SNP ID:            hCV778931
SNP Position Genomic:     37188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40439):
CTGGAATGAGCCTCAGATGGTCTTCCCGAACATCGTGAACTACCTACCGTGCAAGGAGAACCCTGGCCCCAGCTATGCCCGTAGGCGTGTGAGCCTGGGC
R
TCGACATTTGCCATCCTGACACCTTTAGCTACCCCATCGAGCGGGGCCGCATCCTCAACTGGGAGGGTGTGCAGTACCTCTGGTCATTTGTGTTGGAGAA
Celera SNP ID:            hCV25982841
SNP Position Genomic:     73848
SNP Source:               Applera
Population(Allele,Count): african american(A,8)   caucasian(A,35|G,1)   total(A,43|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:40440):
ACTCACAGTTCTGGAGGCTGTACGGGAACCATGGTTAGGGAGGCCTCAGGAAACTTACAATCATGGCCGAAGGTGAAGGGGAAGCAAGCATCTTCTTAAC
R
TGGTGGAGTGGAGGAGAGAGAAAGAGTGAAGGGGGAATTGCTACATGCTTTTAAACAACCAGATCTCATGAGAACTCACTATCTTGAGGACAGCAAGGGG
Celera SNP ID:            hCV778932
SNP Position Genomic:     34879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40441):
GACTGAGATCAAGGTATCAGCAGATCCCCAGTAACCTCCGAAGGCTCTGGCAGAGGATCCTTCCTTCCTCTTCCAGCTTCTGGGGAATCCTGTTCCTGGC
R
TGTGGCTGCATCACTGCCATCTCCGGCTCTGTCCTTACATGGCCTTCCTCTCTGTGTGTCTGTGTTCTTTCCCCTTCTTAGAAGGATATCAGGAACATTT
Celera SNP ID:            hCV778933
SNP Position Genomic:     31804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40442):
GATCATGGCTTACTGCAGCCTCGACCTCCTGGGCTCAAGCAATCCTCCCACCTCTGCCTCCTGAGTAGCTGGGACTATAGGCATCCACCACCGTTCCTGG
S
TAATGATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAGAGATGGGGGTCTTGCCATGTTGCCCAGGCTGATCTTGAATCCTGGGCCTGGGCCC
Celera SNP ID:            hCV778934
SNP Position Genomic:     27635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40443):
CACTCTGGCTCATAAGTCAAAGTGGGGCTTGTGATGGTCAGGGATAGAGTCTTAGCTGTAGTCTGACTCTCAGTAGATTTGCTTGGTCCATGCCCACCCC
R
AAGTTATTTTCTGAGCTCCTGAATAAACAATTAGAGTAAGCACACTTGGTAATTATCCATTTTCTTCTCTCTTCTTCCCATTTTTGTTTTATATGCAAGT
Celera SNP ID:            hCV7541275
SNP Position Genomic:     9467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40444):
GCACAAGTCCTTATTGGAGGGAGCCAGGTCCCTATCCCTCTCTGGGCCCAGAATGTGGCCAGACTGGTGGGGGTGGGTGCTTCACTGCAGAGGGAGGAAA
R
AGGAGCTACCCTATGCAAACTCGGGGACAGGGGTCATTGCGGCTTAATTTTTTTTTTTTTTTTTTTTTGGTAGAGACAAGGTCTTGCTATGTTGCCCAGG
Celera SNP ID:            hCV7541276
SNP Position Genomic:     11759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40445):
CTCAAACTCGGGGTGGAGTGGGTCCCTCAACCCTTTTCCCCACTTCTGCGGGACCCTCGGCCCCTCCCCGTGTCCCCTGCCTCCAGCCTGGAAGGAGGTT
M
TGACGAATTGGAGGGCTGCAGATCCCCCTGCTGGCTCCACAGCCTTTGTAAGCAGCTCATTACGTCTTCCCCATCCTATTCCTCATTAGCCGCAGGTGCT
Celera SNP ID:            hCV7541277
SNP Position Genomic:     14233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40446):
CACTATCTTGAGGACAGCAAGGGGGAAGTCCGCCCCCATGATCCAGTCACCTCCCACCAGGTCCCTTCTCCAACATTGGGGATTACAATTCAACAGGAGA
Y
TTGGGTGGGACACAGAGCCAAACCATATCAGGAATTGAACTTCTACCTTCCATGCCTCATAGGAACATTAGAAAGCGAGTTCCATTGTCCTCTGTGGGTG
Celera SNP ID:            hCV7541278
SNP Position Genomic:     35056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40447):
TGCAAATGTAAATTTGCTTCTATTTTTAGTTTTCCCTTCCCTCTGTTACTTGGGTCTAAGAGAGAAGCTTTAGCTACACGAAGAAAGATTTAGGAGCAAT
A
AAAAAAGAAAACTCTTTAAGAGGAAACGTTGCAGCACACACCAGGAAGCTGGGATAACAGATTCCCTTTGGCTCCAATCAGGGAGGCAGTAAAACTGAAA
Celera SNP ID:            hCV26979144
SNP Position Genomic:     46244
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,14)   total(A,14|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40448):
CAGTTATTTTACGTGATGTTTCTCCTTTGCCCTACTGCCCTTGCCGGGACTTCGTTTGATGTTGAGTTGTTGCGCAGTGGCAAACTTCCTTGCCTTGGTG
K
CAATCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCACTATTGTTGCCAGGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACCACACCC
Celera SNP ID:            hCV26979145
SNP Position Genomic:     51255
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,12)   total(G,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40449):
ACTTCGTTTGATGTTGAGTTGTTGCGCAGTGGCAAACTTCCTTGCCTTGGTGTCAATCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGC
M
CTATTGTTGCCAGGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACCACACCCTCTGCACCCGGGTTCAATCAATTCTCCTGCTTCAGCCTCCCGAGTAGC
Celera SNP ID:            hCV26979146
SNP Position Genomic:     51303
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,9)   total(A,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40450):
CTCGGCTCACCACACCCTCTGCACCCGGGTTCAATCAATTCTCCTGCTTCAGCCTCCCGAGTAGCTAGGACTAAAGGTGCGTACCACCATGCCTGGCTAA
K
TTTTGTATTTTTAGTAGAGTCTGGGTTTTGATATGTTGGCCAGGCTGGTCTCAAACTCCTCACCTCGTGATCCACCCACCTCAGCCTCCCAAAGCGCTGG
Celera SNP ID:            hCV26979147
SNP Position Genomic:     51439
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,9)   total(G,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40451):
GCACCCGGGTTCAATCAATTCTCCTGCTTCAGCCTCCCGAGTAGCTAGGACTAAAGGTGCGTACCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAG
W
CTGGGTTTTGATATGTTGGCCAGGCTGGTCTCAAACTCCTCACCTCGTGATCCACCCACCTCAGCCTCCCAAAGCGCTGGGATTACAGGCATGAGCCACT
Celera SNP ID:            hCV26979148
SNP Position Genomic:     51459
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,7)   total(A,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40452):
CAGCCTCCCGAGTAGCTAGGACTAAAGGTGCGTACCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGTCTGGGTTTTGATATGTTGGCCAGGCTGG
K
CTCAAACTCCTCACCTCGTGATCCACCCACCTCAGCCTCCCAAAGCGCTGGGATTACAGGCATGAGCCACTGTGCCCGGCCACCTTGGTGTCAATCTTAA
Celera SNP ID:            hCV26979149
SNP Position Genomic:     51488
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,9)   total(G,5|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40453):
GAAGGATGAAGGTGGTTGTTGACAGGCTCAGCTCTTGAAGGACATCAGGGGTCACATCAAGGACAGACTTGTAAGCAGAATTATGACATCACTGGAGAAC
R
CAGGGCTCTCTGGGTATAGCTCGGAGAATATAGGGGCTCAGAGAGGGATCAGACAAAGAGTGATAACATACACCATAAAATAGATATTTCACTAGACTCT
Celera SNP ID:            hCV3041934
SNP Position Genomic:     82028
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40454):
GTGGCCAGTGTGGGAATGATAGAGGGGCTGATGACACAGGCCCGACCCGGGTCATGAGAAGCCAGGCCCTGCCTGCCTCTCCCCAGGACTGTTTTTGCCT
R
GAGGTGGGATAGGCACCCATTCTAGAAATGTCCCCGTCCCTGGCCTCCCCACTTACCTTGTACTCTTTCTCTGCCTCTCCAGCCCTGTTCCTCCTATACA
Celera SNP ID:            hCV3042010
SNP Position Genomic:     29676
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40455):
CAAGCTTCAGGGGGAGCCTGAGGTTTGACTGTTGGGTAGAGGGGGAAGCTGCTTATGGTGGCCTAGGCTGCCTGCACAACTAACCCCATCCTTTGCTTCC
R
CAGGTCCCACCCACCTCTGCCTCCGCCATGGCTGCAAGAACCGTTATCATTGACCACGGGTCTGGCTTTTTGAAGGCTGGCACGGCCGGCTGGAATGAGC
Celera SNP ID:            hCV27852733
SNP Position Genomic:     73658
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(A,2|G,12)   total(A,3|G,39)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(A,1|G,7)   total(A,2|G,36)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40456):
GCAGCAATCATACCAGCATTATTGGAGTTTTAATAAGAGTCAATTGGTTATTGTCCTCGCTGCGTCGGACACTGTCGACGTAATCCTCCGAAGCCCCTCG
R
GAAGATAGGGAGTTTGCTTTCTTTGCTGGAATATTATTTACGTTAATAACAAGGATTAGAGGCTTGTTCTATGTGTTTAGGAGAAGCAGAGCTTTTCTTT
Celera SNP ID:            hCV3042011
SNP Position Genomic:     23773
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:40457):
CTTTTTCTGTAAAAGACCAGATTGTAAACATTTTGGGCTTTGTGGGCCATATGGTCTCTGTCGGACGCTGCAACTCAGCTGTTGTAACTTGAAAGCAGCC
R
TAGATAGATAATATGTAAATGATGGGCGTGGCTGTGTTCCAATAAAACTTTATTTATAGACACTGAAATTTGAATTTCAGATACTTTTCATGTGTCACAA
Celera SNP ID:            hCV3042012
SNP Position Genomic:     21853
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,11)   total(G,4|A,11) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40458):
AATTTGTCTTTTCTCTTACCGAAGTGCTTTTGCAGCTCAAATCCTCCCTGCACCTCAGAGCTGTGCCCTCCTTCTGTCGACAGCACTACATACAACCAGC
Y
TCCACGGTGTGTGGATTCAGGTTGCTGTTTGTTTCTATGAAGTTGAGCCGGGGCTGCTGGGGAGTGTTTCCCTGGGCCCTGAATGGTACTAGTCATGAGG
Celera SNP ID:            hCV11461050
SNP Position Genomic:     52934
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,16)   total(C,16|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40459):
TTTTCTTTTTTCTTTTCTTTTCTTTTCTTCCTTCCTTTCCTTTTTCCTTCGTTCTGGCGTCTTTTTTCTTGTCTGTCTTATCTTTCTGGTCTGTCTTTTC
Y
AGTCTTCCTCCACTGTTTGGAGACAGTGGTGAATACGCAACACTTGTTTCTTTTCTAATCTGTTCTTCCTTCTAAAGAGGCGGTTCAGGCTGCACATGTG
Celera SNP ID:            hCV3041937
SNP Position Genomic:     76029
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,15)      total(C,15|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40460):
CAGCTGTTGCTGTGTAGGGCTTCTTGGGCCACATCTTTGGATTATTTTCAAGAAAATCCAGAAATCTGAACTATGCTCCAAAATAATTGAAATTTTAAAT
R
TTAGCAACTTATTTGAAATTTTTGAAAGATAGTATAGGCCAATAATAGTAGCTCCATGGCCTGAAACTGGCCTGTGGAGTCACCAGCTTGCAGTGTCTGG
Celera SNP ID:            hCV3042013
SNP Position Genomic:     20531
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,15)   total(G,15|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40461):
TCATATGAATTGTTCAGGGTTTCGAAATGTTCCCAAGCTGCAGCGTTGAGCTGTTGTGAACGCTGTTCTAATTTAGCTGCTAATTCGTATACCTCTACTA
Y
CCCAATGAGGAGCATGAAGAGAAACAAGAAAATGGATGCCCTGCATTTCTAGGAAATGAGTCTTCATTTCGTGGGAATCTATTGCAGGAGTGCTAACAGG
Celera SNP ID:            hCV11461051
SNP Position Genomic:     52714
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,13)      total(C,1|T,13) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40462):
GTTTACTAGGTAAAATACGTGATGCCTAGTTAGACTTGAGTTTCAGATAAATTACAAATAATGTCTTAGTATTTAAGTATGTTTCATATTGCATGGGGCA
Y
ACTTACACTACAATATTATTTATTATTGATCTGACATTCACATGTAACTGGGCATCCTGTAGTTTTATTTGCTGAATTTGGCAACCCTTACTGTCTATCC
Celera SNP ID:            hCV3041938
SNP Position Genomic:     75323
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40463):
CAAACAAACAAAAAAACCCAACAGAAACCAACAAATTGCCCCACAAACATTTCCCAAGAACCTAGTGAATGCCTGGTGTGCCACTAAGCAGGGGAGCTCA
Y
GGAGGCCCCACCTGCAGACGGACATGCAGCAACCAACGTGCTTGGTGGAAAGGGGGTTACCAGGGAGACGTGGAATATTTGCTTATGGATTCCATAATTG
Celera SNP ID:            hCV3041939
SNP Position Genomic:     74512
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40464):
CTAGGGCTGGGTTGCCTGGAATAGGAGGGGCGTTTGGGGAATGGAGCTCTGAGTCAGGCTCACTGCAGGGGCGAAGGCCTGGAGGCTGGGTTTGGTGGAG
K
TGAGGGGCAGAGTTGCTGACTCACTGCTAGGGAGTGGGGAGTGAGGCTGGAGCTGCAGGCTGAAGATGTCTTTGGACACCAGGCTGAGGAGTGTAGTCTT
Celera SNP ID:            hCV3042015
SNP Position Genomic:     19446
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,10)      total(G,10|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40465):
CAGCATTGCTCAGCATCTCATTCCCCTGATGCCCCTTTCTGCCAGGGCTGAACCCTCAGGAAGTCCCCTGGGGCCTTTAAAAGCTGAGCTAGGGAGGGAG
R
GAGCCCAGCTGGTGGCTCGCTCTGCTCAGTGGGGGCTGCTGGGAAATGCTGCTCTTTCCTGGGTGTCTTACCAGGGTGGAGATGTTGAAGTCAGCAATGG
Celera SNP ID:            hCV11461054
SNP Position Genomic:     46701
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40466):
GTTTGGGGAGAGGATCACTCCTGGAAAGGAATTTTGGGGTGCTGGTGTCAGAAGAAGAGAGGCTGGGCACTTGGCTGCTACAAGTACCTCCTGTACCCTA
R
AAGAGCCACACATGTGAGCTGTGTTTTGGTCTTTTAAGATGCTAAGGATGGAGGATATCATCAAATGGAATGTTAAAGTACAGGACCGAGTTCCTCTGAG
Celera SNP ID:            hCV3042016
SNP Position Genomic:     19165
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40467):
CTCATTGTTGCCTTTATTTACTTATTTCACACGAGACAATGTCCCTGCTTGGCTTCTCGGCTCAGTCTGATGCCGTGACTGCTGACACGGGAGGAATGAC
R
CTGCGTTACTCAAGCAGGTGGCAGTGTGGCTTTTCTCGAAAGCATGAGGCCCCAGCCTCCCTGGGTGTGCAGAATGGGTGCTCGTGAATCCCTCTGGTGG
Celera SNP ID:            hCV3042017
SNP Position Genomic:     18514
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40468):
CCCCACCGTACTTTGTCCTCATTGACTAGTTTCAGGACCGGCCTAGCTTCTAGGGAGGCCTGGGAAAGGAGTCCTCATTCTGTGCAAACTTGGGCTTCTT
W
GAGCCTATTTCCTCCACTATAAACAGTCTGACTGCCTTGCAGGGTTCGTGTGAGGATTAAATAAGAATGTAGTAAAATATAACAGGTGTTCTGCAAATGT
Celera SNP ID:            hCV11461056
SNP Position Genomic:     46052
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,14)   total(A,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40469):
CCAAGCTTTGACCATACTGCCATATAAATCATCTAGAAAGCCATAATTCCTGGAACTTACTGCATTTTTTTCTCAGGGGTGTTCATTTGTTCATTCATTC
Y
TAAGCTATGGTTGAATGAATGAATGAATGAATCTATTATGTACTGACCATTGTTCTAGGTGCTGAGGATTCAGTCCTGGGCAAAACAGACAAAGTTTTGC
Celera SNP ID:            hCV3042018
SNP Position Genomic:     17528
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40470):
CTGTACTTGCTGCCTGTTTCCTCTCTGAACCCTGAATCTCATTTCTTCCTCTGAGGAGTGGGGAGATGAATCCCCAGCCTTCCAGGTGGCTGATAATTAA
R
TTGTGGGATGGAAGTAAAGCGGTTTGCACAGGGCCTGGCCGTCAGTGGGCTTCCAGCAAACGGGAGCCAATGTTCCTGGCAGGGGCTGGGTACAGGGCAG
Celera SNP ID:            hCV27895499
SNP Position Genomic:     48476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40471):
CAGATGGGGAAATAGAAGCTCAGAGAGATGCAGTCGCTTGGCCAAGGCTGCTCAGCAGTGGAGAGTGGGTAATATCTGAACCTAGGTCTGGCTGACCTTT
W
AGCCCGTGGTTAAGAGCCCAGTGGAGTGGAATCACAGTACTGCCATTTCCTAGCTGTGTGACCTTGGACATAGTTACTTAACTTCCTTTTCCTCATCTAT
Celera SNP ID:            hCV11461057
SNP Position Genomic:     44897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40472):
CAAACACTTGGTGAGCCATGTTGACTGGAAAGGTTCCATTCTGCAACATGTCTCTGATTCTTGATAGGAACATTTGGACTATCCCCTTTTGTCCTGGGAG
R
TAAGAGGACGCACCTAATAGGTTGTTGTGACAATGAAATGAGCAAATGCAGGTAAATTTCCTAGAGCAGTTGACAGCACAGATGTACACTGCCTTGCTGG
Celera SNP ID:            hCV7541280
SNP Position Genomic:     36133
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,14)      total(G,1|A,14) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40473):
ACAGATGGGGAAATAGAAGCTCAGAGAGATGCAGTCGCTTGGCCAAGGCTGCTCAGCAGTGGAGAGTGGGTAATATCTGAACCTAGGTCTGGCTGACCTT
W
TAGCCCGTGGTTAAGAGCCCAGTGGAGTGGAATCACAGTACTGCCATTTCCTAGCTGTGTGACCTTGGACATAGTTACTTAACTTCCTTTTCCTCATCTA
Celera SNP ID:            hCV11461058
SNP Position Genomic:     44896
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40474):
GCACCTAATAGGTTGTTGTGACAATGAAATGAGCAAATGCAGGTAAATTTCCTAGAGCAGTTGACAGCACAGATGTACACTGCCTTGCTGGTCCTTCAGG
K
TCTTAGATTTCAACCCTCTCATCCCACTGTGACAGGGATGCTTGTAGGGTCCTTTGCCCTAACTCACTATGGCTCCAGATAGTTGTTAGCTAGTTTATAT
Celera SNP ID:            hCV7541281
SNP Position Genomic:     36243
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,13)      total(G,13|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40475):
ACTAAGAAGCTCTTGTTTAAGCAGAAAGAGCTCAGACTTCCAAACCCACCAGGGTTGGGATCCAAATCCCTCCCGCCTCTCTGTGGTCCCTGCTGCCTGA
S
AGTTTCAGTTTCTGCACCTCTCCAGGCAGGACAGCAGCTGCCACCTGCTAGGGCTACTGTGGCAGTTCGCGGTGATGCCGATGTTGTGCCCAAGCCCTGT
Celera SNP ID:            hCV7541282
SNP Position Genomic:     47864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40476):
CTGTGGTCCCTGCTGCCTGAGAGTTTCAGTTTCTGCACCTCTCCAGGCAGGACAGCAGCTGCCACCTGCTAGGGCTACTGTGGCAGTTCGCGGTGATGCC
S
ATGTTGTGCCCAAGCCCTGTCATGAGGGCACTTGATGCATGGTAGCTATTAGTCATAATTTAGGACCTCTCTGTCCCTCCTATGAGACCACGTATGCTTT
Celera SNP ID:            hCV7541283
SNP Position Genomic:     47944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40477):
CAGGTATCCAGCATTTCTCAAGCTTGACCAATAATCAGACCTTCCTGTCCTGCCTTCAGAATGCAGTGTAGTGTGCAGTCGAGAGAATATTCTGGAAGCC
Y
ACAGGCCTGGGTGTGGCTCTGGCAGCTTCCTGTACTTGCTGCCTGTTTCCTCTCTGAACCCTGAATCTCATTTCTTCCTCTGAGGAGTGGGGAGATGAAT
Celera SNP ID:            hCV7541285
SNP Position Genomic:     48346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40478):
AGGTATCCAGCATTTCTCAAGCTTGACCAATAATCAGACCTTCCTGTCCTGCCTTCAGAATGCAGTGTAGTGTGCAGTCGAGAGAATATTCTGGAAGCCC
R
CAGGCCTGGGTGTGGCTCTGGCAGCTTCCTGTACTTGCTGCCTGTTTCCTCTCTGAACCCTGAATCTCATTTCTTCCTCTGAGGAGTGGGGAGATGAATC
Celera SNP ID:            hCV7541286
SNP Position Genomic:     48347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40479):
TTATTGCATGTTTGAATGGTTTATTGAGTAATTCTCACATTTAAGTGATTAATTCTCCAGAGTTCAGAACGACTGGTTAGTTTTACATTAATGGGGGTTT
Y
TGAATGCCAAGAGACAATCAATCAAGCCTTCCTGCCAGGGAGAGTAATGTTAAGATACCTCAAGGTACAATGAGGTTAAGAAGAGGCATAATTAAAACCC
Celera SNP ID:            hCV7541287
SNP Position Genomic:     56921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:40480):
TATTTAGGGTTTGGCAGAGTGTGCTTTCATACGACAGCATCTGAGTTAAGTTGTTGCAGCAGAGACTGTTTGAGACCATACATCAAGTTAAAGGCTAAAA
Y
ATTTACTATTGTAGGTTTACTAGGTAAAATACGTGATGCCTAGTTAGACTTGAGTTTCAGATAAATTACAAATAATGTCTTAGTATTTAAGTATGTTTCA
Celera SNP ID:            hCV7541288
SNP Position Genomic:     75208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40481):
TTTACTTTCTTAATCCTTATGACAGCTCTATAGAGCTAGATACTGTTTATTATCTCCTCCTTGCAGATGAGACAAGACACAGAGAGGTTAATTTACTCAA
R
GTCACACAGCTGGTCAGGCCCATCTCTAGCATTTGCAATACTGGGGAAGAGTATAAATGGACACACAGCAATTCTAGATATTTAAAGCTGTAAAACAAGA
Celera SNP ID:            hCV26979150
SNP Position Genomic:     51937
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,13)   total(G,13|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40482):
CCAATGTCACATTGTCTTGATGACTGGGTTTTCTGTCTTTTTTTTTTTTTTTGAGACAGGGTCTGGCTGTGTGGCCCAGGTTGGAGTGCAATGATCTGAT
S
TCAGCTCACTGCAGCCTCTGCCTCCTGGCTTGGCCTCCCAAGTAGCTGGGACTACAGGTGCATGCCACTGAACCTGGCTAATTTTTTTATTTTTTGTATT
Celera SNP ID:            hCV26979155
SNP Position Genomic:     62611
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,11)   total(G,11|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40483):
AATGATCTGATGTCAGCTCACTGCAGCCTCTGCCTCCTGGCTTGGCCTCCCAAGTAGCTGGGACTACAGGTGCATGCCACTGAACCTGGCTAATTTTTTT
M
TTTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTGCCCAGGCTTGTCTCGAACTCCTGAGCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTG
Celera SNP ID:            hCV26979156
SNP Position Genomic:     62700
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,11)   total(A,11|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40484):
ATGATCTGATGTCAGCTCACTGCAGCCTCTGCCTCCTGGCTTGGCCTCCCAAGTAGCTGGGACTACAGGTGCATGCCACTGAACCTGGCTAATTTTTTTA
T
TTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTGCCCAGGCTTGTCTCGAACTCCTGAGCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGC
Celera SNP ID:            hCV26979157
SNP Position Genomic:     62701
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,11)   total(-,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40485):
TGTGTGTGTGTGTGTGTGTTGGAGGGCAGTGGTGCACATATTTATCAGATGATGGGGCTTAGGGCAGAATCCCCTTTTACCTGGGCTGAAAGGAGTTACT
M
CCGCGGGTAAGGAACAGAGCTGGGGTGTGACCTCAGGCTGCCTGATTCGAGTCATATCCCCGATCATAACATCATGTAACTTTCTCTACCATATTGTCTT
Celera SNP ID:            hCV11644523
SNP Position Genomic:     53211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40486):
TCAGCTCACTGCAACCTCCGCCTCCCGGGCTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGAAGCTGCGACTACAGGCGTACGCCACCACGCCCTGTCAA
T
TTTTTTTTTTTTTTTGTATTTTAGTAGAGATGGGGTTTCACTGTGTTGCCCAGGCTGGTCATGAACTTGTATTTTAGTAGAGATGGGGTTTCACTGTGTT
Celera SNP ID:            hCV26979158
SNP Position Genomic:     63274
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,8)   total(T,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40487):
AATGAGCAAATGCAGGTAAATTTCCTAGAGCAGTTGACAGCACAGATGTACACTGCCTTGCTGGTCCTTCAGGGTCTTAGATTTCAACCCTCTCATCCCA
Y
TGTGACAGGGATGCTTGTAGGGTCCTTTGCCCTAACTCACTATGGCTCCAGATAGTTGTTAGCTAGTTTATATCTGCTATTCTTCATCTCAATCTTCACT
Celera SNP ID:            hCV11644524
SNP Position Genomic:     36270
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40488):
ACTAGACCTTAGAGGCCCTCAGGCACAAATCTTTGTCTACACTACATCTCTTCATGACCACTTCCATCCCAACCACTTTTCTTTTTTCTTTCTTTCTTTT
Y
TTTTTTTCGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCACCCTCCATCTCCTGGGTTCAAGCAATTCTC
Celera SNP ID:            hCV26979159
SNP Position Genomic:     68387
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40489):
GGGCAACAGAGCAAGGCCCTGTCTCAAAAAAACAAACAAACAAAAAAACCCAACAGAAACCAACAAATTGCCCCACAAACATTTCCCAAGAACCTAGTGA
R
TGCCTGGTGTGCCACTAAGCAGGGGAGCTCACGGAGGCCCCACCTGCAGACGGACATGCAGCAACCAACGTGCTTGGTGGAAAGGGGGTTACCAGGGAGA
Celera SNP ID:            hCV3041940
SNP Position Genomic:     74480
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40490):
GATTGGGCACCAGGAATTCTGCTTTTTAAGATAAATTGCCAACCAGGTGTGGTGGCTTATGCCTGTAATCCCAACACTTTGGGACTCCCAGGCAGGCAGA
Y
TGCTTGAGCCCAGGAGTTCAGGACCAGCCTGGGCAATATAGTGAGACCCCTGTCTCTATAAAAAATACAAAAATTAGCCAGGTGTGGTCCCAGCTACCTG
Celera SNP ID:            hCV3041941
SNP Position Genomic:     74198
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40491):
CTGCCTCCGCCATGGCTGCAAGAACCGTTATCATTGACCACGGGTCTGGCTTTTTGAAGGCTGGCACGGCCGGCTGGAATGAGCCTCAGATGGTCTTCCC
R
AACATCGTGAACTACCTACCGTGCAAGGAGAACCCTGGCCCCAGCTATGCCCGTAGGCGTGTGAGCCTGGGCATCGACATTTGCCATCCTGACACCTTTA
Celera SNP ID:            hCV3041942
SNP Position Genomic:     73775
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:40492):
GGTAGAGGGGGAAGCTGCTTATGGTGGCCTAGGCTGCCTGCACAACTAACCCCATCCTTTGCTTCCGCAGGTCCCACCCACCTCTGCCTCCGCCATGGCT
K
CAAGAACCGTTATCATTGACCACGGGTCTGGCTTTTTGAAGGCTGGCACGGCCGGCTGGAATGAGCCTCAGATGGTCTTCCCGAACATCGTGAACTACCT
Celera SNP ID:            hCV3041943
SNP Position Genomic:     73692
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,3)   caucasian(G,6|T,8)   total(G,31|T,11)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,1)   caucasian(G,16|T,22)   total(G,23|T,23)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,10)      total(G,10|T,1) ;JBIG-allele(T,643|G,834)   total(T,643|G,834)   (G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:40493):
CTGGCACATAGTTGGCTCTCTATAAAGCTTGGATGAACACCAGTGGGCAAGCCAGGGGGGACTGGTCATAAAGTCAGCCTGAAAACTGGGGGTTCACTTC
Y
TTCCAGCCCAATGTTTCTTCTTATTGCTCTGTTAGGCATGGTCAGGAATGCTACGAGGTTCTGACAGGCAGCTTCCAGTCCTGGGTACCCTTGGAGGTGG
Celera SNP ID:            hCV3042020
SNP Position Genomic:     15106
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40494):
TCTGTTCCATGGATCTATGTTTGTGACTATTCCCTTTTTTTTCTTTTTGAGATGGAGTCTCACTCTGTCGCCTAGTCTGGAGTGCAGTGGCACAATCTTG
K
CTCACTGCAACATCCGCCTCCCGGTTTCAAGCGATTCTTGTGTCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCACTACCACACCAGCTAATTTTTGT
Celera SNP ID:            hCV3041944
SNP Position Genomic:     72376
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40495):
TTTGTAAGCAGCTCATTACGTCTTCCCCATCCTATTCCTCATTAGCCGCAGGTGCTCTCCATGAGAGGGTTGCCAGGATTTCTGAGTTTTAGTGGCACCT
R
GGGCAGGGGAAGGCTTATGGCAAAATGTTCCTTAGTCTTTTCTCCCCCATTCCCTCCCCCTGCAGAAAAGGATGAGCGGTTGGGAGCCTTGGGGCTGACA
Celera SNP ID:            hCV3042021
SNP Position Genomic:     14378
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40496):
TTTCACCATGTTGGCCAGGCTTGTCTCGAACTCCCGACCTCAGGTGGTCCGCCCTCCTCGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCTGCCGCG
S
CCGGCCCTGTTCTTAACACATGACTTAGCTCTAATGCCTCCAGCATCTAGGGAAGGAGATCACATCGTGGGTTTCTCCTCATCTCAGGTGGGAAGGTCTC
Celera SNP ID:            hCV3042022
SNP Position Genomic:     12536
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,12)   total(G,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40497):
AGTGGAAATGCAGGTCATACGGTAGGTGTATGTTGAACTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTCACCCAGGCTGGAGTACAATGGTGC
R
ATCTTGGCTCACCGCAACCTCCACCTCCTGGGTTCAAGGGAATCTCCTCCCTCAGCCCCCCCAGTAGCTGGGATTACAGGTATGTGTCACCACGCCCAGC
Celera SNP ID:            hCV3041946
SNP Position Genomic:     71308
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40498):
TGGTGTGATCTTAGCTCACTGTAACCTCTGCCTCTTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCCACCACCAC
R
CCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTTGTCTCGAACTCCCGACCTCAGGTGGTCCGCCCTCCTCGGCCTC
Celera SNP ID:            hCV3042023
SNP Position Genomic:     12400
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40499):
TGGGCGGATTGCTTGAGCCCGGGAGTTTGAGACCAGCCTAGGCTGTTGCCTAGGAAAATTAGCTGGGTGTGCATGGCTTGCACCTGTAGCCCCAGCTACC
Y
AGGAGGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGATTGAGGCTGAAGTGAGACGCGATCGTGCCACTGCCCTCCAGCCTGCGCAAGAGCGAGATCCT
Celera SNP ID:            hCV3041947
SNP Position Genomic:     70578
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,17)   total(C,17|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40500):
TGTTAGCAACTTATTTGAAATTTTTGAAAGATAGTATAGGCCAATAATAGTAGCTCCATGGCCTGAAACTGGCCTGTGGAGTCACCAGCTTGCAGTGTCT
R
GATTATTTGGGTCTCCTCCAGCCAGATGAGCTATGGCTACATTTAATAGGCGTATAAATAAAAATAAAATATTTGCCTTCTAGATATGTTGATTTGTATT
Celera SNP ID:            hCV11461061
SNP Position Genomic:     20630
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40501):
TCCAGTATCCTCCCTCCACTCACCGTGTCCTTGCTACACAGGCCTGCTGGCTGATCCTAGAACTCATCTGACCTTGTCTTCCTCAGGGCCTTTGCACTTG
Y
TGTTCCTTTGGGGTGGAATGCTTTTCCAGGTATTCACATGCCTTATTCCCTCACTTCATTCAGTTTTCTGCTCAGATGTCACCCTAGAAGGAGGCCTTTG
Celera SNP ID:            hCV3041948
SNP Position Genomic:     69280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40502):
GCTTAGAGACAACTCTGGACCTAGAAGGTGGGGCACAGCTGCCCGTTGCTGTGCAGTGCTGGGCACTTTCTGATGCCTTCTTGTGGCATCCCTCAGAGGA
R
TGGGTGGACAAGGTGGCCTTGGGTTCTGGGCACTTTGCCCAGCCCCCTGACAATCACCTCAGCTGGCATCTTGCCTGTCCAAGCCCCGAGCTGCTGTGCC
Celera SNP ID:            hCV3042024
SNP Position Genomic:     11400
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40503):
TAACTTCCATGTTGCTAAATCCAATGGATAGTCCTTTGTTTTCCTCCTAATTTCTCATCCCATTCGATTCTTCCCTTCTTGAAATACTTTCTCTGCTCGG
Y
CCCGGGACACTGTTCCCTCTGGGTTTCTTGCCCTCCTCCCTGGCCATTCTCACTCAGTCCTCTTTATTGGTGCCTTCCCAAGGCCTGGCCACTAGACCTT
Celera SNP ID:            hCV3041949
SNP Position Genomic:     68196
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,12)      total(C,4|T,12) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40504):
GGTTTTTCACAGGCGTGCATAGGATCGTTGGCAGGACTGAGTGGGATGAAGCATGAGGGGCACTTGGCATGGGGCTGGCATGGAGCAGATGCACAGTGGT
K
GCAGCCAACAGGACTGCCATTTTTAGGTGTTTCAGGCAGGATGTCCTAGCTTCCCCCTGGTGCTAGCCATTATGTGTTCACAGTCCAAGAGCCCAGGGGG
Celera SNP ID:            hCV3042025
SNP Position Genomic:     11176
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,7)   total(G,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40505):
ATATAGTCCATGACGACTCCTGGGCCTATTAGTCTCCTTGTTTTGGGGAGTGAGTGAGAACTTACAAGGATGATAGCTGCATCTTTTTAGATAGAAATAC
R
CAGTTGTGTTGTTGTACAGGACTTCAGTGGTGTGCAGGAGGATTCATATGGAAGCTAAGTAGTCAAAGAGATGGGCTTTTCTGGTTATCAATTATTGCTT
Celera SNP ID:            hCV3042026
SNP Position Genomic:     9744
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40506):
CCCCTTGAGGAAGGAGCCTGCATCATTGCCATAAATACTTATTGTAAATCTTCCTCCAAACCTTCCTCCAAAGGGACCTGTGACCATTTACCAAAATAAT
R
GGGAAATGGACATACCCAGACAGTTCTGGAGTTACTTGGCACTAACTCTGAACTGATGCTGTTTCCTGGGGATCTAAAATGCCACTCTGGCTCATAAGTC
Celera SNP ID:            hCV3042027
SNP Position Genomic:     9284
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40507):
TTTTCTCAGGGGTGTTCATTTGTTCATTCATTCCTAAGCTATGGTTGAATGAATGAATGAATGAATCTATTATGTACTGACCATTGTTCTAGGTGCTGAG
S
ATTCAGTCCTGGGCAAAACAGACAAAGTTTTGCCCCCGTGCAGTTCCATTCTAGTTGGGGGAGACAAGATATGCAGATGATGAATGTGGTTTCAGGTTGG
Celera SNP ID:            hCV11461066
SNP Position Genomic:     17595
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40508):
TATCCCTTGAATAGGGGCTCTTCCCAGGGGGCCTCAGCCCTGGGGGCCTCTTCTTGGGAACTTTTTTTTAAACCTCTAGTGGGGGACTTATCTTTGGGGA
W
CCTATGAAAGCCCCCAGGGGCTCTTTCTTGGGGACTCTACCTTGGCCTTGAGGGGTTCTTCCTTGAGAGCTTTGTCCAGCTCTGGTTTGGGGGATTCTTA
Celera SNP ID:            hCV3042028
SNP Position Genomic:     6962
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,11)   total(A,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40509):
GCCTGCCGGGGCCTGCTCCCACTCGGGAGCGGGAAACAGACTGACACTATGTCTGGACTGATTGGGCACCAGGAATTCTGCTTTTTAAGATAAATTGCCA
W
CCAGGTGTGGTGGCTTATGCCTGTAATCCCAACACTTTGGGACTCCCAGGCAGGCAGATTGCTTGAGCCCAGGAGTTCAGGACCAGCCTGGGCAATATAG
Celera SNP ID:            hCV27895500
SNP Position Genomic:     74139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40510):
GTATGTGCATAAAGGTTTTTGTGTGAACGTACGTTTTCATTTCCCTTGAGTAAATACGTAAGAGTGGAAATGCAGGTCATACGGTAGGTGTATGTTGAAC
T
TTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTCACCCAGGCTGGAGTACAATGGTGCGATCTTGGCTCACCGCAACCTCCACCTCCTGGGTTCAAG
Celera SNP ID:            hCV26979160
SNP Position Genomic:     71246
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40511):
GTTGAGTGCCTGTCACTGGGGGTGTCAAGCAGAGGACAGATACTCCTGACATGCTGCAGTGGAGGGGGCGTGCTCACCGGCTGGACAAATGGACACTGAG
R
TGCTGGGGTCACCACCGTTTCTTGCAGCACCATCAAGGCTAATGGAAGAGGGGGTGTTTTCCTATTCTTCCACGGTCCTTTTCTTAATTCGTGAAGTATC
Celera SNP ID:            hCV27895505
SNP Position Genomic:     22495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40512):
ATGGTGCGATCTTGGCTCACCGCAACCTCCACCTCCTGGGTTCAAGGGAATCTCCTCCCTCAGCCCCCCCAGTAGCTGGGATTACAGGTATGTGTCACCA
Y
GCCCAGCTAATTTTTTTTGTTTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCGGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCG
Celera SNP ID:            hCV26979161
SNP Position Genomic:     71401
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40513):
CCAAATACAGTGGTAGGTGCCGGCTTAGCTCTACCCTTATGCGTTTATTTATGATGCCATAGAGTGGAGCAGCTTTGTATCAGGATTGAGCATTTCCAGA
S
TGCCCGGTTCTGTCCTAGTTACTTGACACAAGCTGGGGAGCAATTTAGCCTGATGAAGAGGAGGCGGGGCTGCAAGGCTCACATTTCTGCTCTCCCCTTA
Celera SNP ID:            hCV27895506
SNP Position Genomic:     24251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40514):
ACATGCACAGGCCACATTCTCCCCATTTGAACAGGAGAGACAGAGACAGAAAGCAGGAGAACAGGGAGGTGGTGGGAGACAGGATGCAGCGCTAACCTTC
R
CTGTGGACCTTGTGCAGTGCATGCGCTTCGTGTATCCCCGTGAGGCTGAGCTCTGCTGGGTGTAGTCTTCCGTGTTCACCTAGTGTTTCTAGGGGAAAAG
Celera SNP ID:            hCV11644530
SNP Position Genomic:     22730
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40515):
CTGGTGAGCATCAGAAGCCTGTGGTAATGTACCTTAATGCCATTTTTTTTTTTTTTCTGATCTGGGATCAGAAACTGTGCGTGGTGTTGGCTGCCATGTC
Y
TTCAATTTTGAACACTTCTTTAATATTTCATTGTTGTGTATGCTGTGATATTTTTGCAGAGCCTGGGCCAGTTTGGTAGAATTGCTCTCAATCTCTCACC
Celera SNP ID:            hCV3041950
SNP Position Genomic:     67925
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40516):
GAGGGCTGAAGGAGGCTTACTTCATCCTGGTGAGCATCAGAAGCCTGTGGTAATGTACCTTAATGCCATTTTTTTTTTTTTTCTGATCTGGGATCAGAAA
M
TGTGCGTGGTGTTGGCTGCCATGTCTTTCAATTTTGAACACTTCTTTAATATTTCATTGTTGTGTATGCTGTGATATTTTTGCAGAGCCTGGGCCAGTTT
Celera SNP ID:            hCV3041951
SNP Position Genomic:     67899
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,13)   total(A,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40517):
TTTTGAGGACGTTTACTCTGTCACAGGTGGCAGGAGGGTGTCTCTTCGGGACTCTACCGCAGCCCTCAGGGGCTTTTTCTTTGTGGACTTTATTTCAGCC
Y
TCGGAGGGGACTCTTCCTTGGGGGATCAATCACAGCCCTGGGTAGGGGGCCCCTTCCTTGGTAGCTCTGGGAGCTCTTCTTTGGGGCTCTATCTTATCCC
Celera SNP ID:            hCV11644536
SNP Position Genomic:     6767
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40518):
TTTTTCATTTTGTCTAGAATTTTTAGTCCTACTCAGTAGGAAAGAGGGCTGAAGGAGGCTTACTTCATCCTGGTGAGCATCAGAAGCCTGTGGTAATGTA
Y
CTTAATGCCATTTTTTTTTTTTTTCTGATCTGGGATCAGAAACTGTGCGTGGTGTTGGCTGCCATGTCTTTCAATTTTGAACACTTCTTTAATATTTCAT
Celera SNP ID:            hCV3041952
SNP Position Genomic:     67856
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,14)      total(C,14|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40519):
AATTTCTATTGATATTTGAAAATCCCCTTACTCATTCCTCTGTCGTCTCTATTCTATGGAGCAGAACTTTTCTTTGTTTTTATTTTTTATTCTAAATTAA
R
AATTTACAATTGTATAAATGTATGGGATACAACATGTTATAATTTATGAATACAAGGTGGAATAAGTAAATCAAGCTGGTTAACACATCCATTACCTCTA
Celera SNP ID:            hCV3041953
SNP Position Genomic:     66655
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40520):
TTACAATTGCCTACAGTATTTAGTACAATAACATGCAGTACCAGTTTGTACCATAGCAAGACTCCATATCTACCAACAGTACGTACTATTATTTTACAAT
Y
GCCTGCAGTATTCAGTACAATAACATGCTGTACCCGTTTATAGCATAGCAAGACTCCATATCTACCAATAAAACAAGACAATACATACCATTATGTTACA
Celera SNP ID:            hCV3041955
SNP Position Genomic:     65653
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40521):
ACAATACATACCATTATGTTACAATTGCCTACAGTATTTAGTACAATAACATGCAGTACCAGTTTGTACCATAGCAAGACTCCATATCTACCAACAGTAC
R
TACTATTATTTTACAATTGCCTGCAGTATTCAGTACAATAACATGCTGTACCCGTTTATAGCATAGCAAGACTCCATATCTACCAATAAAACAAGACAAT
Celera SNP ID:            hCV3041956
SNP Position Genomic:     65635
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40522):
TAAGTAAATCAAGCTGGTTAACACATCCATTACCTCTAATCCTTAACATTATTTGTGATGAGAGCTTTCAGAACTTACTGTCAGCGAATTTGAAATGTAC
R
GTACTCTGTTACGAACTATATTCACCATGCTATGCAATAGAACTCAAAATATTAATAGCTTTTTTTTTTTTTTTTGAGACCAGGTTTTGCTCCCATAGTC
Celera SNP ID:            hCV9780849
SNP Position Genomic:     66818
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40523):
CAGCCAGCGGTATATTTGGAGAGATACAAATCCAGCTTTGTTAAACACTCAGCTTTGCCCTCCACCCCCTCTGGGGTAAATGGGCATAATCCCTACAGGG
R
ATGCTGGGACTCTCCAACCCCCAGCTCTCACAGCTACCCTGTGGCTCATACCGGATTCAAACCCCAGGTCCACCCGGCTTCAAAAGCCAGCCGTGTGCTT
Celera SNP ID:            hCV27961654
SNP Position Genomic:     47314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40524):
GTTTGCACAGGGCCTGGCCGTCAGTGGGCTTCCAGCAAACGGGAGCCAATGTTCCTGGCAGGGGCTGGGTACAGGGCAGGGGAGCAGGAAATCTGACTTG
R
CTGTAGGAGGCGAGGAGGTGGGAGCAGGATCATTGAGAAACTGAAATGCTGTCGAATCTGAGTGGGGCAGAGGACGGAACTGAGTCTCCCTCCATAAAGG
Celera SNP ID:            hCV27961655
SNP Position Genomic:     48598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40525):
ACCCTCAGCCTTTGGATGATATTGTGACCAAAATGTGAGAAGCAATGACACCCTGTGACACTCCCAGCCCTTGTAATTGAGGCTTTGAAAGCACTGCTGA
Y
GTCTCCAAAGGCATCTGGGTGCTCCACGGCTGTGATGGAGGTGGGACCTCTGAACCCTGGCTTTTTGACTTTGGCTGCTTTGCAAATGTAGTGACTAATA
Celera SNP ID:            hCV27961656
SNP Position Genomic:     16792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 188
Celera Gene:                 hCG25147 - 146000220816878
Gene Symbol:                 RHBDL2
Protein Name:                rhomboid, veinlet-like 2 (Drosophila);FLJ20435;MGC16997;RRP2
Celera Genomic Axis:         GA_x5YUV32W802(44192867..44260837)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12348):
CACCACCATGCCTGGCTAATTTTTTTGTATTTTTTGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTTGGGTGATCTTCC
TGCTTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCTTTTAAATGAAAATTTATTCATTTACAAATATTTAAGGGCATATCAG
CCTCCTCCAGATACGTTTTGCAAACACCTTTTTGAACCAAACTTAATGCTAATCCCTGTTCTGGGTGCTGGAGACACTGAGATAAATAAAATATAGGGTT
TGTTTTCTTTTTTATTTTCCTATTTCTGAATAGATCACAAGGCTTTGTTTTCTGAGAGCTCCCTAACTTGTGAGTACACCGGGTGTGGGCAGACACCTTT
TCTCTCTGAAATCACACAGCATAGAAAGCAGCTTGTTGAGCATCAAATCACAACAAGGGAGGCTGGCTGGAGGGCTGAACAGTCAGTAGTGTCTTTGACA
GCCAGGGATAACTAGATGTTAGAGTTGAGGTGGCCCAACCACAACCCCGGTACAGTTCTGCGACCAAGCACTGCCTCCTGATACTCTTTGCACTTCCATA
GCTGAGCAGGACCTTTATTCTGTAGACATTTTTCATCTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTTG
GCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTACGTGCCACCACGCCCAGCTAATTT
TTTTGTATTTTTAGTAGAGATGGGATTTCACCATGTTGGCCAGGCTTGTCTCGATCTCTTGACCTCGTGATCCACCCCCCTCGGCCTCCTAAAGTGCTGG
GATTACAGGCGTGAGCTACCGCGCCCAGTCAACATTTTTCATCTTACGTGAAAGCTGTCTCCAGTCCTGGGTGCTAAATGATTGCTGGCGGCATTCGCCC
GGCTCTCACCCATGCCGCATTGATCTTACTAACATATCACTCAGGACAGGACCTGGTTTCCCCAGTTTCTCACTCCTTGAGGGTCCCTCATTCTTGCCTG
CTTGTTGATCTGTGCCATTTTGATGTGATTCTTGGCATCCCTCTGTGAGCTTCTACCTTGCTTTGGTCACTTTTCTCTCCTCTCAGCTGTTTTTTTTTAA
GCAGTTGTCAATTTCCTTCAATCTTCCATCCAGTCTCTCTCCTCCTAACTCGTAGCAGGTATCCTTGCCACCTACTTTAGTTAGAAAATGTGGATGAGGT
GTAACTTCCTTATACATATGTAGGTATAAGCTCCCTACAGAAAGCCTCAGTGCCCGACATGAGTGCCCCAGGCACCTCCCAGTTTCCTCCTTCTACTACT
CTGTCCCTTCCAGTGCTTGGTTGCTTTTGTGCCATCTGAGTCCTTTCTCCCTGCTCTGTCCCTGTGGTGGACAGTGTGCTTGGCTCTCGGTTCTGGCCTT
TCCTCTTATTTTCCCTTGCTCTATACTCTGCATGGCCCTTGCTGGTGTGAAAAGAAACCAAAAATATTTCACCCCAAAATATACTTCTTTGACTTGTTTT
GATATGGCTATTCAGAGGGCCTGCAGACAGGAATAGCCCTGAAAAGCTGCTTTTTTGTGGAGGAGATTTATATCTGTAGAGGAAAAGCCACATTTGTGAA
ATACACAGACAGGCTTTCGCTGAGCCCCACTTCCTTTCTCCAGATCCAGGAACGACTAACTCAACCACAGGCTGCCATCTATTCTTTCTGAGATGACTTT
TCTTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTGAGACAGAGTCCCACTCTGTCACCCAGGCTGGAGTGCAGTGGTACGATCTCAGCTCACTGCAACCT
CAGCCTCCCAGGTTCAAGCGATTCTTGTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGTGTGCCACCAAGCCTGGCTAACTTTTTTTGTATTTTTA
GTAGAGATGGAATTTCGCCATGTTGCCCAGGCTGGTCTCGAACTCTTGAGCTCAGGCAATCCGCCCGCCTTGGCCTCCCAAATTGCTGGAATTATAGGTG
TGAGCCACCGCGCCCAGCTGACCTGATATATTTTCATCTGCAGAATAAGATAACCTTTTCTTGCTTTCTTCTTTCACTCTCCCATCACTCTGTGTGGCCA
CCTCCCTCAGAGCCTGGAGAAACTTGGTCCCAGACCATTGTTCTTTGGGCTTATTCATTTATCCTGAAAATAATTGACTCCAACAACCAGCCCTCCATCC
ATCTTTTCCCCAGTGAAGAGAATATTTAAACCTCAACCCTCTGGCCCTCCTTTGAGTTAATATCTTGTATGACTCCCTTGCACAGGTGTGCAGTAATGAA
TCTGTTATGCTTTTCTCTGTGACCCTTTATAATGGGGAGGGAAGAGCTCACCCATTCTGCCCATACAGCATTCCCTCAAGTCTTGTCTTAGGTCCTCTTC
TTTCTCTCTAATTTCTCTCCCTGAGTGACCTCACCCACTCCCATGGCTTGAGTTGTCATTTCTGTGCAACTCCTAAATCTCTTTTTTCCAACTGTTTGCT
GACTCCTCCCCCAACCCCCCCATCCATTCTCTGCCTTGTTCTGTGCCTTGGGGCACCTTGGCCTCTGGCTTCTGGTTGAGTTTAGCTAATGAGAGGAATC
AGGAATAGGAAGCTGGAGACTAAAGTAATTGGGATATTCCTTCCTCTGTTTCCATTCTGCTCCAGTGGGGGCTGCCTTCTCCACAACTGTGGCTCTGCCA
GGGGCCCTTATCCACAGCTCCAGCTCCCGCTGGATTCAGTGAATGTTACATCTTCTCCTTGTCCCTTCAGGCCTAAGGCTTCCCACTGTCATTCATCCCT
GGATATTCAACATCTCTTAATGACTTCCTTTACCCTTCCCAGATCTTCAAATCTAGCTGAAGATGCCTTCTCCTTCCTGCTGGTACCCTGACTGATACAT
AACTCCTGTCTATCCCTGGAGCAACTACTCCTTGAACATCTCCGCAGGTGCCTCTGACTCAACAGGTCCAGAACAGAATTCATTTCCCCCCAAATTGCTT
TTCTTCCTGATCCTGAAATTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGATGCCCAGGCTGTAATGTAGTGGTGCCATCTCAGCTCAATGCAACCT
CCGCCTTCCAGGTTCAAGCAATTCTAGTGCCTCAGCCCCCCGAGTAGTTGGGACTACAGGCAYGTGCCAACATGCCTGGCTAAATTTTTGTATTTTTAGT
AAAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACATTGTGATCCTCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGACGTGAG
CCACCTCACCCAACTCTTTTTCTTTTGAGACAGAGTCTCGCTCTGTCATCCACGCTAGTCTGCAGTGATGTGATCTCTGCTCACTGCAACCTCCGCCTCC
TGGGTTCAAGTGATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAAGCATTCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGG
GTTTCACCATGTTGGCCAGGCTTGTCTCAAACTCCTGACCTCAAGTGATCCACCCATCTCGGCCTCCCAAAGTATTGGGATTACAGGCGTGAGCCACCGC
GCCTGGCCATTCTTCCTGATTTCTCAATCTTGTTTGTGGTCACCACTATCAACCTAGTTAGTTATTCCAGCTGGAAATCTTCGAGTCATCCTAGATTCCT
CCCTTACTCTTTAAGTCCCATCAATGGTACTCCCTTAGCATCTCTTGAATCTCTTTCTCTCACTCCCACCCCCACTCCCTAGCCAATGCCTTGATAAGGC
CTACATTATCACTTGCCCTGACTCATGCAACCCTGACTGGTTTTCTTGCCTCTAGTCTTGCCTCCTTCAAACCCTTCTTTACACTGCAGGTCTCAGTGAA
TTTTTTTTTTTTTAAGACAGGGTCTCACTCTGTCATCCAGGCTAGAGTGCTGTGGTGTGATCATAGCTCATTGCAGCCTCAACCTCTTGGGCTCAAGCTG
TCCTCTCACTTCGGCCTCTGGAGTATAGCTGGGACTACATGTGCACACTACCATTGCCCGGATAATTAAAAAAAATTTGTTTTGTAGAGACAGGTGCCAC
TATGTTGCTCAGGCTGGTCTCGAACTCCTGGGCTTAAGCAATCCTCCAGCCTTGACCTCCCAAATTGCTGGGATTACAGGTGTGAGCCACCACACCTGGC
TCCAGTGATCTATTTTAAATGCAGTCTGATAGTTTGTGTCCCTTGTTTAAGGCCTATCTGTGAGCTAGCAGGGTGTGGTGTACCACCTGTAATCCCAGCG
CTCTGGGAAGTCAAGGCGGGAGGATCTCTTGAGGCCAGGAGTTCGTGATCACCCTGGGCAACAGAGTGAAATTCCATCTCTACAAAAAATTTAAAAACTG
GCTGACCATGGTGGTGGGTGCCTGTAGTCCCAGCTACACAGGCAGCTGAAGTGGGAGGATCACTTGAGTCCAGGAGTTCAAGGCTGCTTCAAGCTATGAG
TGCACCACTGCACTCTAGCCTGGGTAACTGAGAGAGATCCTATTTTTTCTTTTTTCTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTAGAGT
GCAGTGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCCAGAGAGACCCTGTATTGCAACAAACAAACGAACAAACAAACAAACAATCTTTCTATGACT
CCCCAGAACCTATAGGACACAGTCCAAACTGTTTACCAAGGCACACAAGGCCCTTCATGATCTGACACTCCCTGCTCACAATTCTGAACTTTGAGTAGTT
CCTGCTGAATTCCGTCCCTTCCCATGGCCTTTTCTGTCAGCCTGTGCTCCCCTTCTGTGTGCTCCCCGCTTACAATTCTGGAAAACCCCTGTTCACCTTT
CAAAACCCATCTTGTATGTCATGTCATCTAGGAGCTTTTCCAGAACACTTCCACACAGGGGGATTCCTCTCTGGTCCCTTCTGCCTGAATTTTTTTTTTT
TTTTTTTTTTTGAGACCGAGTTTCGCTGTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGAT
TCTCCTGCCTCAGCCTCCCGAGTGGCTGGGATTACAGGCATGCACCACCATGCCCAGCTAATTTTGTATTTTTAGTAGAGATGAGGTTTCTCCATGTTGA
TCAGGCTGGTCTCGAACTCCCGACTTCAGGTGATCCACCCACCTCAACCTCCCAAAGTGCTGGGATTACAGGCGTGAGACACCATGCCTGGCCACCTTCT
GCCTGAATCTTGAGCAGCGTCTACTTAGAGCTTCATTCTTTGTCTTCCTAGTAGAGTAGGAGGTCAGGGACCCCGTTAATCTACCTCTTCATCCTCAGGG
CCTCACACAAGGCCAGTTATTCTCAAAATGCTTTGAATGAATAATCAGAGCTGGCAAAGCTATTTCACCAGGGGCCATGGTGTCACCAATTCTTCTGTGG
ACTAAATCTCTGCTGAGGATCGTCAAGTCACCCACCCTGGTGCCCAGTACAGGCCTGGCTTCAGACTGGAGCATAACCAAATGCAGAGTGATAGAGACCA
CCCGGTTGAGGCGTCAGAGAGCTGAGAGTGGAGAGCAGGGGACCCAGGCATGAAGCAGGAGGGCAGGACTTGGAGGAGGAATGGAGCTCAGTGTCCTGGA
GAAAGAGCAGAGGCTGCCACCGGCTCCCTGGCTAAGACCCAAGCAGGCGAAGAGGAGGACTCATTCATCCAGGGCCAGCCCAGKAGCAAGACTGCCAAGC
AGGCCGGCCCAGCCCAGCTGGGAGGGGATTTCCTCAGCCTCCCTCCTCCTGGGCTGGGCAGCTTTGGAACCTGTCTGGAGGATTTTTGTTTGGGGAGGGA
CGGAGGAGCGCCTGGCAGAGCGGGATCTTCAGGGCAGCGGGCAACCCCTTGGCCCAGGAAGCCTGGAACGCAAGGACCGGAGGGCGTGGGCTGGGACGCC
CCTACCTTGGTCTTTCAGGGTAAGATGTGGGAGCTGGGAGGGAGTGGAGGGAGTCCTATGTCAGGACAAGGGGGCGGCAGCAGGAAGTGCAGGGCCGAGG
GGTGCTGTGCAGGAAGGAGGAGGGACATGTGGGGTGCTTCGCTGGTAACCCCCCTTCTGGAGTGACCTCCTGGTGTGGCCGCTTTGGATCCTGCTACTTT
CATTTTAAAAGTTGGCAGCATGTTGGGCCAGGAGTCAGGGGCTATCTTCCCGAGGGAAATGGCAGGGAAGGGCTGAGGATGAGGACAGAGTAATTCCATT
CCTCTTCCCTGCCCTTCACACTGGCTTTCCCTCCAGCCATCACGTTCTCCCYAGCACCCCCTACCCTCCTAAGTTTTTCTAACTCCAACTAAGCCAGTTC
CTAGCCCTTTGCTGACCTGGACACTGGAGACCACAGCCAGGGAGACAGTCTCCACTTCTACCCGCAAGGCGGCTCCTCCAGAGTTATTTGTTTCCTTCTT
CCTGGTGTGGGTATCAGAGAGATTTCACTCAATCTTTCATTTATTCATTAGTGTTCATTTGTTTATTCATCACTGTTTGAGCATATACCTGGATTCTCTG
GAGGGAGGGCTGCGCAATTTCTGCTCCTCTTGGGAATAAGAAAACTGAAACTTATTGCTCAAACATTTGATGGTCATCTACAAGCTGGTGGGCAGCATGG
CAGAGCAGAAAATTATTTTGGAGTCACARAGACACTTGGCTTTTTATCCCATATCTCCTGTTTACCTCCTGAGCCTCAGTTTCCTCAGCTATAATTTTTT
TTTAAAGAGACAGGGTCTTGCTACCTTGCCCAGGCTGCAGTGCAGTGGCTGATCATAGCTTACTACAACTTCAAACTCCTGTGCTCAAGCAGTCTTCTTG
CCTCAGCTTCCTGAGTTAACTGAGGCACGGCGGCCAGCTCAAAATGATATTTTTATGAAGATGACAGGGAACAATGCATGTTGAATACCAAGCTGGGTGC
CAGGCTCATTGTGGAGCCTTCCTAAACACCTGTGCTTTTCCCTTCCTCTTTGACTGCCTTCTTGCCATGCCTCTCCCTAACCAGCAACTCCCTCACCTTA
GGCTTGTAAAGATATGCTAGACAACCCCTGGCCTTGAAAGCACGTAGGCAGCGTGTAAACAGAACTGGCCAGTGACGGGTGGAGTGGTGAAGGGAGAGGG
AAGGTTGGGTTCCATGGCTCGCTCCCAGTGATTTGGGAGGCCGAGGCGGGAGGATTCCTTGAGTCCAGGAGTTCGAGACCAGCCTGGGCAATAAAGTGAG
GCCTTGTCTTTAAAAAATAAAATAAAAAAGAAGGGAGAGCCACATAGGCATGGGATTAGGGAAGGTGTCAGGTGCTGGTTTGTGGTAAAAATACTGGACC
AGGGCTGAGTCCAGACATGCTGTGTTTCTGAATTTGCACACTCAACACTGAGCAAGTGATGGGAACCACCAATTCCTAAACTATGGATGCAGGCTAAGGG
CTTTTAAATGCATTCTCTTATTTAATCATAATCCTCTTATGATATTATTATTAACCCTATTTTATAGATGGGGAAATGAAGATACAAACAGGTTAAGGGA
TTTGCCTAAGGTCACATGGCTAATAAGTAATGGATCCAGAATTCAAGTCTAGGTCAGACTCTAAACTCCATGCTTTTTGCTCTGGTGCTTGCTGTCTTTC
AAGTTTCTCTGTATTAGAAAGACCMGGCTGGGGGCGGTGACTCATGCCTGTAGTCCCAACATTTTGGGAGGCTGAGGTAGGAGGATTGCTTGAAGCCAGG
AGTTCAAAGCCAGCCTGGGCAACAAGCGAGAYCCTGTCTCAAAAAAAAAAGAAGTCCTGGCACGGTGGCTCACGCCAGCCGTAGTAATCCCAGCACTTTA
GGAGGCCAAGGTGGGAGAATTGCTTGAGTCCAGGACTTTGAGACTGGCCTGGGCAACACAGTGAGACCTCTTCTCTACAAAAAATAAAACAAAATTAGCC
TGGTGTGGTGGTGTGCACCTGTAGTCTCAGCTACTTGGTTTTTTTTTTGAGGTGGAGCCTCACTCTGTGGCCCAGGCTGGAGTGCAGTGGCGGCATCCCC
ATCTCAGTTGATTCTCTCACCTCAGCCTCCTGAATAGCTGGGACTATAGGTGCACACCATCATGCCCAGCTAACTTTTGTTGTTGTTGTTGTTGTATTTT
TGGTAGAGACAAGGTTTCATCATGTTGCCCAGGATGGTCTTGAACTCCTGGACTCGAGTGATCCACCTGCCTTGGCCTCCCAAAGTGTGGGGATTACAGG
CATGAGCCACCATGCCTGGCCCATCTCAGCTACTTTGTAGGCTGAGATGGGAGGATCATTTGAGCCTGAGACGCCAAGGCTGCCGTGAGCTGAGATCAGG
CCGCTGCACTCCAGCCTGGGTGACAGAGCAAGACTGTCTCTCAAGGAAAAGAAAAAAGAAAGACCAAAAGGGCATCAGCATTCCCCAACTACCTCTCTAG
ACACTGGCCTTTCACTTCCTGTAGATCTGCTCTGGGCTGCTGCATCCAGACTCCTTCCCTGATTCGTTAACTCATTCACTCATTCCTACATCATTCATTA
AATCAAGTGCTCTGTTTATCCCCTGAGACTACAAAGTTTCAAGAGGGCAGGGATCATAAGCATGATCCTGTTCATTCAGTTTTATAATCCTGTTCGTTCA
GCACCTCATTCATTCCTGATACAAAAATTTTCAATGAATTCTTTGTGAGTAAATGAATTTGACAAATATTTACTGATGCATTCCATGGACTAGGTAATAG
GGAGTCAAAGATGAATAATGCGGAAGCCCTGTCCTCAGAATGCTCACAGCCTTGTAGAGGAGACAGTTATAATACAAAGAAGACATTGATGCTCTAGATG
CAAACAGAGGTTGCTGATGGAACTAAGAAGGGCATTTAATTCTACCATGCATCCTCGGTGCCTAACACAATGCTAAGCATGTGGTAGATGCTCAGTAAGG
CTTTGCAGAGGAGTTGTAAAGGACAGAGTCTTTTAGTTTTGTTTTTCTTTAATTAAAAAATTTTCTTTTCTTTTCTTTAACTTAATCCCAAATGTGATAG
TAAGGAACAGAGTCTTAAAGGGGGTGTTAATACTTCCCTGGGACAACAAATGGGGAGTGTGGGAGGATGTTCTAGCAGAGGGAGGAGCTCATGAAAAGAC
CTCATGGAGAGTGGGAGCTGGAACTGCTAGGGGCTCAGTGTGGCTGGGGCATAGGGTATATTTGGGGAAATGGAAAGAAATGAAGGTGGATAAATAGGCA
GGGTTCAGGTCATGAGGTCTTTCTGTGCCTCGTTAAGGAATCTAGGCTTTAAACCAAAGACATTGGATACCCATTGAAAAGATTTTGGCTGGGCGCGGTG
GCTCACGCCTCTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGACCAATATGGTGAAACCCCACCTC
TACTAAAAAAAAAAAATTAGCTGGGCATGGTGGCGTGCACCTGTAGTCCCAGCCACTCTGGAGGTTGAGGGAGGAGAATCGCTTGAACCCAGGAGGCAGA
GGTTGTAGTGAGTCAAGATTGYGCCGCTGCACTCCAGCCTGGGCAACAGAGTGAGACACTGTCTCAAAAAAAAAAAAATTAGCAATGAGAATGACACTAC
CTGATTTGCATTTCAGAAGTGAGGCTGATGTGTAGGGGCCTAGGATATGAAGACGCCAAGGTTTTCAGGCCTGATGGGTCCCCACCTATCTATGAAAATT
AGTCTTCCTTTTTAAGACTTCAGCATGGTTTGTTCATGAAGGATCTCTTGAGTTGGCCTGTTCCTGATGACTGGTACTTTGCCCTCAGCTGTATACTGGG
TCACAGTGAATCTGTTCCTCCTAATAAAAGTTTGGAAATTTATAAATAGTTTCCTTTTGTATAATCTGGAATAAGTTCAAGGATACTACTTGCAATAMCT
TGTGCTTTCTTATGCCAGAGAGCTAGAGATGGAGGTGTAGAAGGGTTTCCAGGAATTATATCTAGCTCTGAGTGTGCCCAGTGAGGGTGTGTCAAACTAG
CCAGTGGTCCTGGAACTGGGGATGCGGGGGCACAGATAACATTAAAAGAGTCCATTTCCAGATTCTCAGCTTCTGCAGGGACTCTTGCCTAAAAGTCATC
TGCTTGTCTGGATTCTTTTAAGTTCTCCTTTTCAACTCTGTTTTCATTGTTTCTCTTCTTTGGCTTTATAAGAAAGTTACACCTCTGTCCATCCCAAATT
CATTGAACAAGGTCCATTGTTCAAAAGGACAGTTAGAGAATGCTGTGTTCCTGAGAGATAGCAAGTAAAGAGAGATTAGGCAGGAGAAACTAAAGGGTGC
TGTGCCTCTACTACAGACTCGTAGTATTTGTTTTATTTAAGAATACTCGGCCAGGGGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAG
GCCGAGGCGGGTGGATCACAAGGTCAGGAGATTGAGACATCCTGGCTAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGSTGGGTGTGG
TGGCGGGTGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGCATGCAGTGAGCCGAGACTGTGCCACTGC
ACTCCAGCCTGGGTGACAGGGTGAGACTCTGTCTCAAAAAAAAAAAAAAGAACACTCGAGAATACTCGGCCAGGCATGGTGGCTCACACCTGTAATCCCA
GCACTTTGGGAGGCCGAGTTGGGTGGATGACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCTCGTCTCTACTAAAAATACAAAAA
TTGCTGGGCACGGTGGCTCACACTTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCCAGACCAGCCTGGCCAACA
TGGTGAAACCCCATCTCTACTAAAAATGCAAAAATTAGCTGGGGGTGGTGGCCAGCATCTGTAATCCCGGCTATTCGGGAGGCTGAGGCAGGAGAATTGC
TTGAACCTAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCGCCATTGCACTCCAACTGGGTGACAAGAGCAAAACTCCATCTTGAAAAAAAAAAAAAAAC
CCAAAAAGCAAAAAACCAAAAATTAGATGGGTATGGTTGCATGTGCCTGCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTG
GGAGACAGAGGTTGGAGTGAGCCAAGGTCATGCCACTGCATTCCAGCCTGGGCAACAGAGTGAGACTCCATCTCAAAAAAACCCCCAAAAACCAACAAAC
AAAAAAGAATACTTGTTTATTCAACCTGAGGAAGCTGATTAAGTAAAGCCAGAAAATAAAACATAAAATAAAAATAAAGAAATAAAAATATTTGTTTAGG
CTGGGCACAGTGGCTCATTCCTCCAATCCCAGCACTTAGGAAGGTCGAAGTGAGAGGATCACTTGAGCCCAGGAGTTTGAATCCAGCCTGGGTAATGTGA
CAAGACCTCGTCTCTACAAGATTTGCTGGGCGTGGTGGCATGTGCCTGTGGTCCTAGCTATTTGGGAGGCTGAGGTGGGAGGATATCTTGAGCCCAAGAG
GTCGAGGCTTCAGTGAGTTGGGTTTGCATCACTGCACTCCAGCCTGGGCAACAAAGCAAGACCCTGTCTCAAAAAACACCCAAATAGGGCCGGGTGTGGT
GGCTCATACCTGTCATCTCAATACTTCAGGGGGCCAAGGTGGGCAGATCGCTTGAGCTCAGGAGTTCGAGACCAGCATGGGCGACATGGCTAAACCCTGT
CTCTACAAAAAAATACAAAAGTTAGCCAGGTGTGGTGGTACACACCTGTAGTCCCAGCTACTTGGGAGGCTAAGGTGGAAGGATAGCTTGAACCCGGGAG
GCAGAGGTTGCAGTGAGCTGAGATCATGCCACTATACTCCAGCCTGGGTAACAGAGTGAGACCCTGTCTCAAAACAAAACAAAACGAAAAATTTGCTCAA
TGCTAATTATGTGCCAGACACTCTTCTAAGAATTTTACAGATAATAAACTAATTCAATACTGATACCGAATCTATAAAGTAGATATTTACCACCCTCCTT
TTACAGATGATGCTCCCAAGGCACAAAGAGGTTTAATAAGTTGCCCAAGGTCACAGAGGTGTCAAGTGGTGAAATCAGAATTTGAATTCAGACACCTTTG
AATTCCTCTAGAATTTGTGTTTTAGCCATTATGCTATATTAAACTTAAGAGCTTTAGCTCTTTATTTATGTGTTATAAAATTAGAATTGAGACATGAGCC
AGTTGTCATGGGGATGCAAATTAATGCATTTATGGAACCTTTTAAAAATAAAGGTAGATTTTCTTATGGACAGAAAATCTCTTTGATTTGGCTAATTGGT
TTGACAGTGAGGACAGGCTTTGCCAACTGGATTATGTGGTAGACATTTTCCATAAACTGAACAAGTGAAATCTGTAGCTCTAAGGTTTGGATGAAAATGT
ATTTAAAACATGTCTCTAACAAAGACTATGACAAAAAATTTGATCTTGGAGCCGATTTTAACTTGTAAAAAATAATTGTAGTTATTAACTTAAAAATGTA
TGAGACAGAACAGAGCTTCTTTAAAAAAATTTTTTTTTTTTTTGCGACTGAGCCTAGCTTTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCA
CTGCAACTTCTGTCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGTCTCTCAAATAGCTGGGATTACAGGTGCCTGCCACCACACCCAGCTAATTTTTTTG
TATTTTTAGTAGAGACGGGGTTTGACTGTGTTGGCCAGGCTGGTCTCAAACTCTTGACCTCGTGATCTGCCCGCCTCGGCCCCCCAAAATGCTGGGATTA
TAAGTGTGAGCCACCGCGCCCAGCCATTTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTCACTCAGGCTGGAATGCAGTGGCGCGATCTCTGCATTGCT
CACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTACCTCCACCTCCGAGTAGCTGGGATTACAGGTGCCCATCACCMCTCCTGGCTAATTTTTTT
GTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAYGATCTTCTGGCTTCGTCCTCCCAAAGTGCTGGGATT
ACAAGTGTGAGCCACCCTGCCGGGCCATTTTATTTTTATTTATTTATTTATTTTTGAGACAGTCTTGCTCTGTCATCCAGGCTGGAGTGCAGTGGCACAA
TCTCGACTCACTGCAACCTCTGCCTCTTAAGTTCAAGCGATTCTCTTGCCTCAGCCCCCTGAGTAGCTGGGATTACAGGCACCCGCCATAACGCCTGGCT
AATTTTTTGCATTTTTCATAGAGATGGGGTTTTGCCATATTGGCAGGCTGGTCTTGAACTCCTGGCCTCAAATGATCCACCCACCTCAGTTTCCCAAAGT
GCTGGGATTATATGCGTCAGCCACCACACCTGACATTCTTCAAAATTTTTATGGGGATTTATGAAGACTTGTGGACACAGCACGGTGGATAACTCCTGTA
ATCCCAGCTCTTTGGGAGGCCAAAGKGGGTGGATCATTTGAGGTCAGGATTTTGAGACCAGCCCAGCCTACAAGTGAAAGCCCATCTCTACTAAAAATAC
AAAAATTAGCTGGGCATAGTGGTGGGCACTTGTAATCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATTGCTTGAACCTAGAAGGCAGATGTTGCAGTGA
GCCAAGATTGTACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAATTGTGAAGACCTGTGAGGTATGACACT
GATAAACATCGCCGGCCATGTGTTTGCTGGTGGGGATGAAGTTTCTGGTTAGGTGAGGGGAAGTAGCTTATCCRTAGGTAAGCAGGGGCAGAATTGGAGC
AAGGACCAGGATTTTCTGACTCCTGCAATGTCAGAGCTCTTTCCATGATACTTCCCTTTTCCTTCCTTCTCCATTCATGGGATTGTTAATTCAGCAAATA
CTTGCTGAGAAATATTTTCCACTTTYGTGGAGSTCATATTCTAGCAGAAAGAGACAGACAATAAATAAACTAACTATTTTTAGATAATGATAAGTGCTGG
GAGAATATAAGTGGGGAAATGTAGTAGAGCATATAGGGGTGCGGGAAGGCATGGGCAGGGGAGACTTCCTAGGGACGTGCTACAGGTTATGAAGGATCAA
GACCAACCTTGTGTGTATGAGTTGTAGGGAAGGGAGAGGGCTAGGTAGAAGGAACAGCAAGTACAAAGACCTTGAGACAGGAGAAGATTTGGTGTATTCC
AGKAACAGAAAGACGTCCCTGTGGCTGCAGCACTGAGTCGTTGGGAGAAAGTAGTAGAAAGTGAATTCCACAAAGAAGGTAGGAGCTAGGTCATATAGGA
TCTTATCATTTGCCATTAGGATCCTATATCTATCCCAAAGACAATGGGAAACCATTGAAGGATTTTTAAGCCGAGAGTTAATACACTCTGATTTACGGTT
TTGTTTTGCTTCATTRTTGGAGGGAGGCAGGAGTGGAAACAGAGTGAAGACTAATTTGGGAGGGTAATTTCGGGTCAGACATCAGTAATCTACTCAATGG
AAGAATACAAAGATGAACAATGTGAATGGAAAGAAAGGCAGAATGGTGTGAGATGTCATTCTGTCTTCTGGTTCTGATGAGGCATGCTGGTAGCTATTAC
TGTGTAACAGATCACCCCAAAATTTAGTGACTCAAAACAAGAATAGGTGTGGTGGCTCACGCCTGTAATTCCAGCACTTCAGGAGGCCAAGGTGGGTGGA
TCGCGTGAGCTCAGGAGTTCAAGACCAGCTTCGGCAAYATGGCRAAACCCCATCTCTACAAAAAATGCGAAAATTAGTTGGGCATGGTGGCGCTCACCTG
TAGTCCCAGCTACTTGGGAGGCTGAGGCACAAGAGTCCCTTGAACTGGGGAGGTGGAGCTTACAGTGAGCTGAGTTCGTACCACTGCACTCCAKCCTGGG
CGACAGAGTCAGACCTTGTCTCAAAACAAACAAATAACAGAAAAACCAAGAGCCATTTTATTTCTTCATAATTATGCAAGTCAGGGATTTGGGCAGGGTT
CAGCTGAGCAGTTCTTCTCCATGTAGTCATCAGCTAGGGTCATTCACAGCTGTATTCAACTGGTGGATGAGCTGGGCTGGTAGGTCAAGAAGGTTCCATT
CATAGGTCTGGCACCTTGGTGCTTTTCTTTATTTCATTTTCACATGACTTTTTCTTTTTTTTTTTTTAAATCAGGCAACCTCCTGAGCCAGACCAGGCTC
AGAGAGACTCCTACTTTTGTGCTCTTCTACATGGCCTCTCTTTCCATGTGGGCACCTTGGGCTTTCTCATAGAATGGTGGCCTCCAGGTAGTGTTAGGTT
ATATGGTGTTAGGCTTCAAAGAGGAAGCATTCCCAAAGGAGCAAAAGTGGGGACCACATAGCTGTTAAGGCCCGGCCCTGCAAAGTATCCAGCATAGCTT
CTGCCACGTAGTATTGGTCAAAACCAGTCACAGGGCTGGCCCAGACTTAAGGAGAGGAGAAACAAACCCAAACCATATCTCTCAGTGAGAGGAATGGCAA
ATTATATGCTCCGTCTTTAGTCTACCATCCTTGGCTTCTGGGAACTGAATAGCCCTAACCATGCTGATGGTGCTGACCCACTTTTAAATCTAAACCACAG
TATACTATGTTGGAACAATTTATAGGTCTTTATTCCCCAGTGAATAGAGAGGGACTGGAGAACAGGAGGTGGTTTCCTTTTCTTTCTTTCTTTTTTTTTT
TTCCCATGTGTTTCCAGAGCCTAACACATACAAGGCATTCAGGGAATGCTACCACTGGATGCACACATCACATAAGCATTCACTGGTAGTTGAAACATGA
TGTATATAAGAATCCCCTGGGAGCTGTTAAAAAGGCATGCAGATTTCTTTTTTCTTTTTTCTTTTCTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCA
CCCAGGCTGGAGTGCAGTGRCGTGATCTCGGCTTACTGCAAGCTCTGCCTTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTTCCGAGTAGCTGTGACT
ACAGGCGCCCGCCAACACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGA
TCTGCCCACCTCGGCCTCCCAAAGTACTAGGATTACAGGCGTGAGCCATAGTGCCTGGCCGCCTGCAGATTTCTGAACAAGACCTGAGCCCAGACCCTCT
GAATCCAAATCTCTAGGGCAGAAGTTTTCAGTCTTGGCTGTACATGAAAAGATACAAGTGCCAGGCCTTCACCCCAGAGACCCAGTTTCTGTTGATCCGG
GGTGAACTCAAACACATTTAAGTCTCTTCAGATGATTCTGATGTGAGGCCAGGGTGAAGAACCAGTGCCCTAGGATTAGAAGCAGCCATCTCTGCTAACC
TCCCCAGATGATTCTGATGCAGGTGGTCCATGACAGGGTGACCAACACCCTTGGCTTGCCCTGATTTTAGCACTAAAAGTCTCACATCCCAAGAAACTCC
TAGTCCTGTGCAAACCAGACAGTTGGTCATTATCAGTGGACCACTATTGAAAAAAAAATTCTACACGAAGCAGTGAAAGCCTTTTTTGAGAAATGCCCAC
AAATATCTACTGAAAGCCATGATTTTGTCTCCTTACTTAAGGGCCTGGGCCAACTGTCCTTGAATTAAGGGGGAAGTGGCTCAGGGTCACTGTTTTCCTT
CAGCCCTGTGCTCTGGTGTGCTAGGTCTGTTAACTCATGTAAATAGTGTGTCTGTCTTTGGGAATTCTTTCAGACTATATCCCTTAGTGCGCACACCACA
GCTTTGAAAGCCCAATCACCATCAACAAAGATGATGTGTTTAGGATAATACAAGATACAGGATGAAATTCCTATGTCTTCTGCACCATTGTGTATTATTA
TTACTATTACAAATACTATAATAGGGTACACAAATATATGTAATATGTTAAATAGCTGTGGGGCGGCCCAGACTCTGGTCTGAGATTCCCAGGTTTGTGC
CYCAGCTTTGCTGTACCTAGGTATGTAATCATGGATGCCTCTTTTTTGCCCTAGTTATTTACCTGTAAAATGGGAATAATAAAGAGGTCTTCACAGAGCA
GACGGGAGGATCCAGAAAATAATAAAAGCGAAAGTGGTTCTGTAGAGTGAGAAGGCTGAGTATTATGATGGTCTTTGAATGGGAAGGACTTGAAGACATT
ATTCCGCCGAGAGGCCCTGCATGTGACTGGGGCTCTGGTCCCCCTACCCTGAACCATAGCCCACCTGTGAAGTTTCAAGGAAGAAACTTTTGACGCAGAG
TGGACCATGGAGAGAGCTCAGGAAGCAGAGTTCTCTACCTTAGCTGCCCTTACTGCTGATGTCAAGTGTGCTTTGCTTCAGCAAAAAGCAAAGCTTTTGG
AAACGGGGGTTTGTGAAGGCATTTTTTGTTTTCAAATCTTTTGCCTATTTATTCCAAGTGTATCCTCAGAAATGCAGCCAAAAGAAAACAACCACAACCA
CAAACCTGTAATATTGAAAAGCCAGTTCTTAATTTCTGTAGCTAAAAAAGCATCCTTTCAGGCTGTAACCACAGAGAGATTGCTGCAGGCCTCTGGCATA
ATGATGGTTTGCAGTGTGATGAAGGAGGCTGCTAAGCTCTGTGGCCCAGAAGTCCAATCCTGGCCTCTCCAATTACCCAGGCGCCTAGCAACACCACCGA
AAGTCTCCCTGGCAGCCCCAGCTGGGCAGCAATTGGCTACACCCAGCACAGCCCGCTGCCCAGCCTCCTGAGCTCCCCAGCCACATCAAGGCGGGTCTCA
GCCCCGGCAGGGGCCTGCCTGGTACCAATGAATGGGTGGGGCCAGCTGTTTAGAAAAAACAATTCAGATATTTAAAACCTCCCTGTTTGAATGCAGCTAG
GCAAGCGGCACAAGCTCACAACTAAAAGTGTCTGCCATGGAAAAGGAGTTGTCATAAGGGTGTTGGCCTTGCCAGGGCCTTCCTGGGTGAGGCGAAGAAG
GGAAGGTGAGCCTGATTTAGTCCTCTGGCTTCTCAAAGAGGCAAATCCTTTTCCCGTCCTGGACGCTTGTGTCCACCTAGAGTCCTCGTCGTAGCAGTGG
GGATGGTGGGAATTCCCAGCCCCATCTTCTCCCAGGGGTAGTGACCTGCCACTTCCTCTACAGCTTCCGTTCGGGAATTCACAGGGTCTAGTCTGGGACT
GTCTAGGCAGCTGGAGGAAAAAGAGGGAGCTAAGAGTACAGGAAAGGATGGGATGAAAATAACCAAAAAGAAGATTCACACTTCTTTTGTTTAAATTTTT
ATTTTTATTTTTATTTATTTAGGTTTTGGAGACAGGGTTTCGCTCTGTCACCCAGGCTGGAGTGCAAGTGGCACCATTGTAGCTCACTGCAATCTTGAAC
TCCCCGTTTCAAGCGATCCTCCTGCCTCAGCCTCCCGAGTACCTGGAAGTGCAGGTGTGCACACCACTGCACCTGGCAAACTTTAATTTTTAATTTTTTT
TTGTAGAGAAAGGCTTTCGCTGTGTTGCCCAGGCTGGTCTCAAACTCCTGGCCTCAAGCAATCCTCCTGCCTCGGTCTCTCAAAGTGCTAGGATTACAGG
CATGAGCCACCATGCCTGGCCCATTATTTTTTATTTAAAATTTTTTTTTTACATGGCCAGGCACAGTGGTTCATGCCTGTAATCCCAGCACGTTGGGATG
CCGAGGCGGGTGGATCACCTGAGGTAGGGAGTTCGAGATCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCCAGGCGTGG
TGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGGTGAGGCAGGAGACTCTCTTGAACTTAGGAGGTGGAGGTTGTGGTGAGCCAAGATCGTGCCATTGC
ACTCCAGTCTGGGCAACAAGAGCGAAACTCTGTCTCAAAACAAAACAAAACAAAACAAGGCCGGGCGCCGTGGCTCACCCCTGTAATCCCAGCACTTTGG
GAGCCCGAGGCGGGTGGATCAAGAGGTCAGGAGATTGAGACCATCCTGGCTAATACGGTGAAACCCCGTCTCTACTAAGAATACAAAAAAATTAGCTGGG
CGTGGTGGCAGGCACCTGTAATCCCAGCTACTTGAGAGACTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCACC
ACTGCATTCCAGCCTGGGCGACAAAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAGAAAGAAAAAAATTTACATTTTAAAATCTTCAATTTATTTAT
TTATTTCAGAGACAGGATCTTGCTCTGTTGCCAAGGCTGGAGTAAATTTTCATTTTTAACTCTAATCCCATCACAGTTGAAGGAGTACCTTTCTATAACA
CTTGGTGCGTAGAAATCACAGGGGCTGTGGAACATGTGGGGGCTTTGGAGTCAGGCGCCCGAGACTCTTCTCCCAGCCCTCCCCTTATTAGCTGTGAGAC
CTTGAGTAAGTTACTTTGGGAGCCTGGGTTTCTTTATCCTTAAAATGGGAATATTATTACCCTGCTTTACAAAGTGGTAAAAATTAATGAAGACAATGCT
CATAAAGTGTTTAGCCTGGATGCTGGCACACAGTAAGTGTTTATTATTCTAGTACCTCTTTATTATTTTATTTGATTCTTACCACAATTCTGTAAGATAC
TCAGGGCAGAGGTGAGCTCTGTTTTACAGCTGAGGAAACTGAGGCCCAGTGGAAAACTAAATGTGGATGCTGGGAGTAGAATTCAGGTCTTTATAGTGTC
AAACACAAGGCAGGCTATTCTCAAAGGCAGATGGCAAGCCCTTTTTTTGGTAGCCATTATGACATGGCAGCTTCACAGTGATGGTGCCCAGTGATGGTAG
AATGATAATGGAAGTGGTGCGGCCTTGCAGAGGAAAAGGTTGGTAGGAGGCTCTTTTCTTTTCTTTTTTTTTGAGATGGAGTCTGGCTCTGTCGCCCAGG
CTGGAGTGCAGTGGCGCGATCTCGGCTCACCGCAACCTCYGCCTCCCAGGTTCATGCCGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCG
CCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCC
GCCTTGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCTGCCCGGTAGAAGGCTCTTTTCAACATAAAGTCACACAAAGACTTAGTCAA
TGTGTGGTTGGAATTCCTCCTTCCCCCTTTTCCCTCCTCTCTTTCTCTCCCTGTCTCTTTCCCTCCCTTTCTTCCAGAAGCATTCCTTTTAAAAAACATT
TTAAAAAAAATAACTCTGATGTTTTGTATGGAATGCTTCACGAATTTGCGTGTCATCTTTGTGTAGAGACCATGTTAATCTTCTCTGTATTGGTCCGGTT
TTTAGTATATGTGCTGCTGAAGCGAGCACCACAAGCATTCTTTTATTGATTGATTGGTTGAGATAGGGTCTCGCTTTATCACTCAGGATGGAGTGTAGTG
CCACGATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCATCCCCAGTAGCTGGGATTAAAGGCATCTGCCACCTCAC
CTGGCTAATTTTTTGGGTACTTTTCGTAGAGATGGGGTTTTACCATGTTGGTCAGGCTGGTCTCGAATGCCCGACCTCAGGTGATCCGCCCGCCTCTGCC
TCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCGCGCCCTGCCCGAGTCAGGTTTTTTTATTGCAAAAGATGGGAACTGATTCTGGCTAATTAAATCAG
GAAATGAATTTTATTGAAAGCACATTGAGTAAGTTACAGAATCACTTGAAGGCTGTAGAAACAAGGCTTGGGAAAAAAGCAGAAACAGAGACCAGGTACC
TAGAATTACACCAAATTCCATCACAGAGCCAGATAGGTGAGGACAGCCTCAGTGCTGCTGCTGCTGAACGCCCMGTGCTGCTGCSTTTGTCACAGCCACA
GCTGGCGTTGGATGCTGGATGCCATGCTGACCCCAGTGGCAAGGCGTCTGGACACTGGATACTGCTGCCACTGCTGCAACCACTGTAAAGAATTTTTTCC
ATCCTCACCTCCAGCCTCAGAAATCCTAAGCAAATGCAGCTGATTGGTCAAGCTGCCCTAGCTGCCTAGGGACATGCAAAAGTGAATATTGGGCATGGTT
AATGTCTGTAGTGGGATCCGTTTCCTGCTGCCCACCAGGAGAAGATAAATTCCCCAAGAAAACTGACAAATGACGACTACGTACATGTTGTCAAAGAATC
CACTGGAAGTCTTTGACATTTGCAGATTCAACACTTGCAATTTTGGTAATTTATTAGTTACTCCCAAAGGCCCATTATAAATGAATATGAGTTGAATGAT
TGGCTTTGCCTGTTAGTGAGCCAGGCCTACTGCTCTGCCTGGATATCTCACATGACTGTTATCCTTTAYGTAGTTTGCATGCAGTGATTAAAATATTTGT
TTCTTGTTTGCAGAGTAGAAAAGATTCATAAAATAAATAATCCAATAGTGCCAGTGATATAAACAAAGAGAAAGTGGGGAGGTATAAGACAGTAACTTTG
TTTTTTGGCTACAAATAGAAGTTTTGGATAAATTGGCATGCTGTGTCAAGTTCAGTGGTGTCTAAGATCCCTGATATCATTAGATCCACCATGTGTGTCA
CTGAGATACAAGGAAAAGTTGTTCAGTGAGTGCATCAGCCAGGCTGCTCATCAAGAGAGAGATTAACCTTTTTTTTTTTTTTGAGACAGAATCTCACTCT
GTCGCCCAGGCTGGAATGCAGTGGCAAAATCTCAGCTCACTGCAACCTCCGCCTCCCACTGCAACCTCCACCTCCTGGGTTCAAGAGATTCTCCTGTCTC
AGCCTCCCGAGTAGCTGGGATTACAGGCACATGCCACCACTGCCGGCTAATTTTTGTATTTTTGCTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGT
CTCGAACGCCTGACCTCAAGTGATCTGCCTGCCTCGGCCTCTCAAAGTGCTGGGATTACAGGTGTGAGCTACCATGCCTGGCCTGGCTATACTTTACAAT
GTAATTTTGGGAGACACTATGTGGTATGTAGTGCATTAGGGCATCTGAAAGGTCTGGAAAAATCTCTTGCAAATGTCAGGAGTCTCCTATGTAAATCTCT
TTATAGAAATCTCTTTTCGGCTGGGCATGGTGGTTTAAGCCTATAATCCCAGCACTTTATGAGGCCTAGGTGGATGGATCACTTGAGGTCAGGAGTTTGA
GACCAGCCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAATTAGCTGGGTATGGTGGTGCATGCCTGTAACTTCAGCTACTTGGGAGTTT
GAGGCAGGAGAATTGCTTGAACCTGGGATGTAGAGGTTGTGGTGAGCCGAGATCGCACCATTGCACTCCAGCCTGGCAACAAGAGCAAAACTCAATCTCA
AAAAAAAAAAAAAAAAGAAAAAAGAAATCTCTTTTCAACAGATTTTTTTTTTAAGGTAGTCAATTGTCCTGAGTAAATGAGCACAGTCCTGCCCTTTCAA
GTCTTTGGCCAATACACTGGCTCTGTGATTGTTAACAAGTAATGCTTATTCTAGGCAAAGTCAGGAAGTAGCAAAGTTCCTTCCGTGTTTCCTTGTTTTT
TTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCATGCTATTCCCCTG
CTTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTGGAGATGGGGTTTCACTGTGTTAGCCAGG
ATGATCTCGATCTCCTGACCTTGTGATCCGCCTGCCTCCGCCTCCCAAAATGCTGGGATTACAGGCGTGAGCCACTGTGCCCAGCCCTGTGTTTCCTTTT
AAGAGTACTTGTGGCCAGGTGGGATCTTTCTATGTTTCCTCTTGAGAATACTTGTGGATTACAGGCTCTCTCACACCTGTAATCTCAATGCTTTGASAGG
TCAAGCAGGGAGGATCCCTTGAATTCAAGGGTTTGAGACTAGCCTGGACAACATGGGGAGGCCACCATTTCAAAATAATAATAATAATAAAGTTTAAAAA
CTTTTTTTTTTTGAAAAAAGAATACCTGCCAACCATGAAGGAAAGGGTTTTGGTTCTTTTCTCTCCCTCCCCAATCCTTAGAACCCATGAAAGGGTTTTG
GTTCTTGGTGTGCATAAGGAACATTTCCATTTTTAACCAGAAGGCTAGAGACATTCTAACAATCTACTCAGTTGTTCCCTACCTGTAGGATGAGAACTTC
TCGCAGCAGTGCCACCCAGTTTTGATCTGTGTATGCGAGGCCTTTCAAAAAAGAGTGGGCAGCAACTTGCTGCAGATAAGAGGTAGGAGGTTTGCTTAGT
GAGTAAGAAAGCAGAGTCAGTGCAGTAAATCTCCACCCAGTGAATGACACCCAATAAGTGAGTGCTCGAGTGCCAAGTAAATGAATGGACAGATGTTGAT
GCTTGAATATTTCTTTGAGACTAGAATGTGTTGTAATCATTATTTTGTTTTGAGACTCCTGMTCCATTCAATTGGGCTTCCAAAAATTCTGGTAATCTGA
CGTGTGTTTCTGAACGCTGTATCCCARGTTTGACCTATAGAGCCCATGGAGTTTATATACAGGCCATGCCCAAGGAAGGACAAAATTAATGACAACATGA
CCTTCGATTAGATTTGCTTTGTGAGGCTCCAGGGAGGGAAACCTTGGACCCAGGAGCTGGTGAATAGATTCCAGCAGTGTAAGGAAGAACTACCCATGAA
TTAGAACTGTTAGAAAATACAGCAACCCCGCTGAAGTCCATCTAGGTTGTTTATAATTCTTCATGGCTATGAATAGTTCTGCATGAATATCCTTGTAATA
TACCATTGTGTATGTGCTCAAATACCTTTGAAGGGTGGATTTCTAGAGGTTGGATGTTTCTGTTGAAAGGTATATGCTTTTAATAGTTTATACACATTGG
CCAATTGCTTTCCAAAAGGCTGCATTAATTTAYACCTCATACATTGCACCCATTGCCACACACCTCATAAATATGGGATATTCTCAGYCTTTTTTTTTTC
TTTTTTTTGAGATGGAGTTTCACTCTTGTCACCCAGGGTTGAGTGCAATGACACGATATCAGCTCACTGAAACCTCTGCCTCCTGGTTTCAAGTGATTCT
CCTGCCTCAGCCTCATGAGTAGCTGGGATTACAGGTCTTGCTACCATGCCCAGCTAATTTTTGTATTTTTAACGGAGATGGGTTTCACCATATTGGCCAG
GCTGGTCTTGAGCTCCTGACCTCAGGTGATCCACCGACCTCGGCCTCCCAAAGTGCTGGTATTACAGGCATGAGCCACTGTGCCCGGCCTAAGTCTTTTT
CATTGTTACCAATCTAATAGGTAATATTTCCTCAGAAATTCAGGAGTGGGGCAGAAGATAAACGTGAGCGGGAGAGATGAGGAAATGTTAGAGACTGGAA
GGAGCACCTGTGAGCATTATAGCACCAGGTATTGGAGATAAGATAAATCAGAGAGAGGCCCCTGTTCTCAGGAAACAGGGTGGAGAGGTATGGAAGTTGG
AGGATGATAGTAATTGAGAAGAGAGGTAAAACCAAAATGCAGTGGCTCACACTTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGAGGATCGCTTGAGC
CCAGGAGTTTGAGACCAGCCTGGGTAACACAAGAAGACCCCATCTCAACAAAGAAAAAAAAAATAGCTGGGTATGGTGGYGTGTGTGCTTGCAGTCCCAG
CTACTTGGGAGGCTGAGGTGGGAGGCTCACTTGAGCCTGGGAGGTAGAGGCTGCAATGAGCCGTGATCCTGCCACTGYACTCCAGCCTGGGTGACAGGGA
GAGATCTTGTCTCAAAAAAATTAAATAAAAAAACCCCAAATGTTTCTAATTGCTAGTAATGTGCTCATTTGGTGCTAGAGCCTGAAGTAGCTAGAACTAC
ATGTCTACTTTACAAGGCAAGGCAGAAAGCAGACATGCAGTGAGTTTTGGCTAAACCGGTTGGGTCAACTATCTTTGCAGCACAGGAAATATATTTAGGC
ACTAACATATTTAAAATGGTGGTCTTGAAGTTGTAAAATTTCTGGAACTGTTGAAATCCCAAGATAAGGGCAAATGTAATCCTTATTTTTGTAGCTCCTT
TTATACAGTTGTATTGTTAACAATGTGACATTTTATTTCCTCATAAAATGATTATGTATGATAYTTAGATACAAAAAGGCTGATTTATACAATGTGAACT
GTCCCTAATTGAACTTATTTTTAAAATGCTTTAATATTTGTGGTTAAAAGCTGCTGATCTTAAATCCACATTGTAGTTTTGTCAATTATGAGACGTGGCA
AAAAGTAGAAAAAAATCATCAGTCTTCAAGGGAAATTAATAAAAGAGTTATATCTATGGACTGAATGTCTGACTCTGGGAGGCGGGTGAGTGGGTGGGTG
AAAAATGCAGGGGAGAGAAAAAGCCTTTATTTTCAGAAAATTTGCTGGGGAAAAGAAAAATAAGATGTCTCTTCCTCAATTTATTGAATATAACCTATTC
TAATGTGAAAACTTGCCTAATGAGTTTCATTTGAAAATCAGTTGAATTTGATCTGATTCCCAGTAACATGCAGTGTGAAAACAGGCGCCAGGCTCAGCTC
CATGCCTTCCATCTATCCATCCATCCATCTAAAACTCATTCATCCATCCACAGCCAATAACAACTAATAATTATAGGGTGTTTACTACRTGCCAGATACA
GTTCTTTTCTTTTTCTTCGAGACACAGTCTTGCTCCATCACCCAGTCTGGAGTGCAGTGGTGTGAATTTGGCTCACTGTAACCTCTGCCTCCCAGGTTCA
AGCGATTCTCCTGCTTCAGCCTTCCTTCAGCTGGAAGTACAGGCACGTGCCACTATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGCGTTTCACCA
GGTTGGCCAGTCTGTTCTGAAACTCCTGACCTCAAGTGATGGGATTACAGGCGTGAGCCACCACGCCCGGCCCAGATACTGTTTTAAGTGCTTTACATGC
ATTATCTCAAGTAAGCTTCCCGGCAATGTTATGAAGCAAGTGCTATCATTATCCTCAGTTTAAAATGGAATCTGAGGGTTTCCCAACAAGTTAAACATAG
AATTAATTACCATATGACCCAGCAATTCCACTCATAGGTATATGCTCCCCCTCAAACTGGAAACTGATGTTTAAAGAAAACTTGTGCCAGGTGCGGTGGC
TCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCTGTCTCTA
CTAAAAATACAAAAAAAAAAAAAAATTAGCCAGGTGTGGTGGTGGGCACCTGTAGTCCCAGCTACTCAGGAGGTTGAGGCAGGAAAATGGTGTGAACCCG
GGAGGCGGAGGTTGCAGTGAGCCGAGATCACACCACTGCTCTCCAGCCTGGGCGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAGAGAAAACT
TGTACAGGGATGTTCACAATAGCGAAAAGGTGGAAACAACCCAAATGTCCATAAACAGACGAGTGGATAAACAAAATGTGGCGTGTCTATACAATGCAAT
AGCATTCAGCCATTAAAAAAAGGAAATTCTAGGCCAGGTGTAATGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCAGGTGGATCACTTGAG
GTTGGGAGTTCGAGACTAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTTTCTGGGTGTGGTGCCGGGTGCCCATAATCCCAG
CTACTTGGTAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTCCAGTGAGCCGAGATCGCACCACTGGACTCCAGCCTGGGTGACAGAGC
GAGACTACATCTCAAAAAAAAAAAAAAAAAAAAGAAAACATGTGAAGGAAGCCAACCACAAAAGGCCACATACTGGATGGTACATATGTATTGTATGATT
TCATTTATGTGAAATATCCAGTATAGGTCAATCTATAGACACAGAAAGCAGATTAGTCGTTGCCAGGGACTGTGGTAAGAGGAGAATAGGAATTAACTGC
TTAACAGGTATGGGTATGGGGTTTTTGTTTGTGATGAAAAAGTTTTGGAACTAGTGGTGATGGCTGCACAACATTGCAAATGTACTCAATGTCACTGAAT
TGTACACTCTAAATGGTTRAAAACAGGGCCGGCTTCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGTGAATCACTTGAGGTCAG
GAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGGAGGGTGAAGCAGAAGAATTGCTTGAACCCAG
GAGGCAGAGGTTGCAGTGAGCTGAGATCTCGCCATTGCACTCCAGCCTGGGCAGAAGAGCAAGATGACTCCACCTCATAAAAAAAAAAAGAAAAAATATA
TATTATATATTAAATGGCGAAAATGGTAAATTTTATGTTATGTGTATTTCACCACAATTTAAGAAATATGTAATTTGAGGCTTGGAGAATTTAATTAAGT
GATTTATCTGATGTTAACTTACAGCTGATACATGGTAGAGCTGCATTTTAATCTCAGTCATCTGGCTCTTTTTAAAACAATTACAGAGAAAACTTTATTT
TGGGCCATTTAGGAGGTTTAGATCATTTTGATCATCTTCAGCTGTCTTCTCTTCACATACAGGAAAGGCCTTGGAAAGCAGTCGTTGCGCCAGACAGCCC
AGGGAAGAGCGGCAGCCTGAGGACCTAGGGCCACCTGCTGTTCCCTGGGATTCATGTCCTTCTGGGGAGGAGGGAGGACCCAGGACAATGGCTGCTGTTC
ATGATCTGGAGATGGAGAGCATGAATCTGAATATGGGGAGAGAGATGAAAGAAGAGCTGGAGGAAGAGGAGAAAATGAGAGAGGATGGGGGAGGTAAAGA
TCGGGCCAAGAGTAAAAAGGTCCACAGGATTGTCTCAAAATGGATGCTGCCCGAAAAGTCCCRAGGAACATACTTGGAGAGAGCTAACTGCTTCCCGCCT
CCCGTGTTCATCATCTCCATCAGCCTGGCCGAGGTGAATGGGGAGCRGGGTGGGCACCGGGGTAAGTGGCATGGGGAAGCTGGGAACAAACTAGGGGTCA
GATCTAGATCTAGAGAAGAGACTGGGAACATGGGAGAGAGCTTCGTGGGGATGGGGACAGCACACACCTCACCTCTGCCTCTGCTCTCCCCACAGCTGCC
TTTGAGGCTTTCCCTATACTCACGGTCACTGCCAACCCAGGGTGGAGTTTCATTTGTCAGACAAATCTGCCCAGCTGTGGCTGCAATTTCAGTGGCTTCC
TTTCATTTTAGTTGTGAGGTCTTTAGGAAGCAAATCATTCTGGGGTTGCACAAGGGCTTTCTCTCATGAACCGATTTAGGCTGGTTGGTAAGGCATTTCT
GGGACCCCAGGTTTAGAAGTGTTATAGAATTCTTCTGAATTTCAGTAGGAAAAAAACGGGATCCTTTAACAATGTCTACTTCAGGCAGCACGTGGTGTGT
TTTCAGGCTCTGATCTAGTCAGTCCTCTTGTTTTCCAGAAAAGACTGCAAGGCTCAGAGAGGTGGGATGACTATCCCAAGGTCACATCATAGTCACTGGG
CCAGGATGAGGCTCCCCTGTACCTCGTGGCACCTAGTTTTTTCCCCCACACTTGATGTCCTATAAAGGAACTGGCCAACCATGGCTGCCTGTGGAGTGTG
ACTTCAGGGGCATTAGGAAGTTCCTAATGTAACCCTTTTAGTTCCCACTGATGCACTGATGCCTCAGCTTCCTTATCACAAACTGTATTAGTCAAGAGTT
CTTCAGAAAAACASAATCAATAGGTGTGTGTTCCCTGGGGGAAGAGAGATTAATATTTATTTTAAGGAATTAGCTCAAATGATTATGGAGACTTGGCAAG
TCCAAAATCTTCAGGGAAGGCTGGCAGGCTGGAGGCCCAGGGAAGACTTGCCATTCAAGTCCAAAGGTAGAGTTCTGCTGGCAGAATTCCCTTTTCCTAA
CAGAGGACAATCTTTTCTCTAGCAAGGCCTTCAACTGATTAGACAAGGCTCACCCACAGTATGGTGGGAAATCGGCTTTACTCAAAGACTACTGATTTAA
ATATTAGTATAAACCATACCCTCACAAAAACACCTAGGATAATGTTTAAGCAAATGTCTGGGTAGCATAGCCTAGCTAAGTTGACACATAAAATTAACTG
TTGCAGGGACCAAGCCTCTTATGGCTCAGACAAAGGTAAGGCTAAGGTGTAAGCATCCTGGGAGATGCTGTGGTCAAGTCTGTTTAGGGTGAAGGGGCAC
AGTTCTAATTTTTTTCACAGGATTTCAYTGTGAGACTGCTTGCAACTGGGAAGTCGTCCGGATCTGAGACATCTGTATCTGTTTTTTCTGCTTCTCCTTC
CTGTTATCCTTCTGGCCTATGGGTTGTCTTGTGTTTCAATCAGCTGTGTGTGTGTCTTGTCCAGGTGAATGGGGAACAATGAGATAAGGTATCGTGGTAC
AAACCWCAATTGCCTAGGCAATGAGTGCTATGGAGGAGGGCAGTTTGCCATAGGAGGCTCATGGAGCAGATGCTGAGATACCTGCCTCTCACAGAAAGAC
CAATTTTTAAATTAAAAATTTTAATTTTGGAATAATTTTACCTCTATAGAGATATTGTAAAGATAGAAYAGAAAGTTCCTGTAGGCCGGGCGCAGTGGTG
CACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACAAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTAC
TAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAGTAGCGTGAACCCAGGAGGCAGAA
CTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCTACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAGAAAGTTCCTGTATGCCT
CTCACCCAGTTTCTCCCATTGTTTATATCCTACATTTCCATAGTACATTGTATTTTTTTCTTTTTTTTCAAACCCAGGATAATCTCTGTATATAGTACAT
TACATTTCCATAGTATTTTTTTTTTTTTTTGAGATGGAGTCGCTCTGTCGCCCAGGCTGGAGTGCCAGTAGTGTGATCTCAGCTCACTGCAACCTCCGCT
GTCCAGGGTCAAGTGATTCTCCTGACTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTGCACCACCACGCCTGGCTAGTTTTTTTTTTGTTTGTTTGTTT
TTTTTGTATTTTTAGTAGAGATGTGGTTTCGCCATGTTGGCCAGTCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCCCCAAAG
GGCTGGGACTATAGGCATGAGCCACTGCGTCTGGCCCCATAGTACATTTGTCAAAACTAAGAAACTGACATTGGCATATTCCTAACTAAACTCCAGATTT
ACCTGGATTTTTACCAGTTTCTCCATTAATGTCCTCTTTCTGTTCCTCTGGTACCCACTCCATTTAGCTGCCATGTCTACCCAGGCTCCTCTGATCTATG
GCAACTTCTCAGTCTTTGTTTTTCATGACTCTGATAGTCTTGAGGGGGACTGGCTAGGGATCCTGTAGAATGTCCCCCAGCTGGGGTTTGACTGATGCTT
TTCTCGTGATTTAACTGGAGTTATGAGTTTGGGAGAAGAATACCACGGAGGTGAAGGGCCCTTCCCATCACATAGCCTCAGAAGGTTGAGGACATCATGT
GGCATCACTGGGACATTCACCTCCATCCCTTGGTTAAGGCAGGGTTTGCCAGGTCTCTCCCCTGGCAAGTGACTATTTTTCCCTTTCCCTGCTCTATTAT
TCGGAAGCCAGCATTGACCTACTTTCATAGCAAGTTGTAAATGAAAGATCAGTTGGTGCGACGATGAGGGCAGTGGGTATTTAAGAGGGAGAGGGTAGTA
GAGAACGTAGTGCCAGAGAGCAGGGTGTCCAAGAGCAGGGCAAAAGGGGTTCAGAAAGTCTTCCTTACAATGTGAGCTAGCACTGCTCCCAACCRTCAGA
GGAAGTGGGGTACGGTGGAAACCATCACAGAGGGGATGGTGAAGAAGTGTATTTCATGTCACCTTCTGGCACTATGGTGTGGCCCACTTGAGAGCTGAAT
CATCTGAAACAGTTACTGCCCAYGGGCTTGGATGGGGCCCCTCTCTGGAGAAGGTGTGGTTAATAYTCATGTCTGCTCCCTCCATCAGCTGGCAGTGTTT
ATTTACTATGCTGTGTGGAAGCCTCAGAAACAGTGGATCACGTTGGACACAGGCATCTTGGAGAGTCCCTTTATCTACAGTCCTGAGAAGAGGGAGGAAG
CCTGGAGGTTTATCTCATACATGCTGGTACATGCTGGGTAAGCAATGATAGTTAAGCCCCTGGTATCAGAGGTGATTATATCATTGTAACCTCTAACATT
TGTTGAGTGCTTTATTATTGATAAGGCACTTTCATGTCCATAATCTTCACAGCAACCCTAAGGGGTAGGTATTGCTCCCACTGTTTTATGTCTGAGGCAT
AGGAGATGTAGTCATGGAGGCTGAGGTGGGCAGATCACTTGAGGTCAGGAATTCGAGACCAGCCTGGCTGATATAGTGAAACCCCATCTCTACTAAAAAT
AAAAAAATTAGACAGGCATGGTGATGCATACCTGTAGTCCCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTAAGCCGAG
ATCGTGCCATTGCACTCCAGGCTGGGGGACAAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAGATGTAGTCACTTGTTCCAAGTCACACAGCTAAGTTG
CAGAGCTAGGACCTCAGCCCACTAGTGCTAACTCTAAGGCCAGCATCCTTTCTTACTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTTGTCACCAGGCT
AGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTGGAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACC
TGCCACCAGGCCGGGCTAATTTTTATACTTTTAGTAGAGACGGGGTTTCACCATGTTGGCTAGGCTAGTCTTGAACTCTGACCTCAGGTGATCCATCCGC
CTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCTTAAGGCCAGTATACTTTATATTGCATTATAACTGCCCRATATTAGTATTTAG
GAATATTAATGAGAAGAGATCAAATCATTGCAAAACCAAAAGCATGTTCCCCTAGTTGTCTAAYGTTGTTAAATATACTCTTTAGGCTATGAAAATGGTG
GTGCTGAATAACCAGTCTCCTCCTCCACCATCATACATCAAACAAAATTTAGTTCATGGCCGGGCACAGTGCCTCACACCTGTAATCCCAGCACTTTGGG
AGGCTGAGGTGGATAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAATATGGTAAAACCCCGTCTCTACTAAAAATACAAAAACTAGCTGGGC
GTGGTGGCATGCGCTTGTAATCTCAGCTACTCAGGAGGCTGAGACAATAAAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGTGCCGAGATCACGCCA
CTGCATTCTAGAGTAGGTGACAGAGTGAAACTCTGTCTCAAAAATAAAATAAAATAAATTTAGTTCATGAACATATTGATGAGTGTGGGATACTGTTATC
CATCTGGAATAATACTGGTAATAGGAGATGCAGTGCCCGCCATTTAGTTTTGCCTACAGTTTCTTTCTTTCTTTTTTTTTTTTGAGATAGAGTCTAGCTC
TATCGCCAGGCTGGAGTGCGGTGGTGCGATCTCGGCTCACTGCAACCTCTGGCTCCCTGGTTTAAGCCATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGG
ATTACAGGCACGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCAATCTCCTGACCTTGT
GATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCGGCCGCCTATAGTTTCTTAAATGCCGATGGCCTTTCATGAAC
TCACTCAGCATCCATGATCCACCATGCCCACTGCAGACAGCGAGCAGCTTCCTGTTGGCCCCACCTATCCGGTGGACTCTTGTGGTCTCAGGTGGGGCCA
ACCTTTTCTGTGCAGTCTACCCAACTCTGGACTTGAAAACGACTTGTAGCTGGGGTGTGGTGATGTGTACCTGCAGTCCCAGCTACTTGGGAGGCTGACG
AAGGAGGATCGCTTTGAGTCCAGGAGTCTGAGACCAGCCTGGGCAACATAGAGAGTGCTCTACAAAAAAAAAAAAAAGTTAAAAATAAATAAAAAATAAA
ATAGAAAGGATGACACTTTTGCTTAGTGGCTAAATAGGCATCAGGACACATGGCTCAGAGGCTTGACAAATCAGGGGCAAAATCACCAACTGCTCAGTTT
CCATTTAACAAGTATGTTCTGAGCAAACATGGCTCCCGCACACAAGGACTTTAAGATGATAAGAAGGAACATGTCAGTTAAATAGCAATGTAAGGCAGTA
CAGTATTATAGTATATAGTAGGCTGGGTGCAGTGGCTCATGCCTTGTAATCCCAGCAGTTTGGGAAGCTGAGGTGGTCACCTGAGGTCAGGAGTTTGAGA
CCAGCCTGGCCAACATGGTGAAACCCCGTCTCTAGTAAAAATACAAAAATTAGCTGGGCGTGGTGGCAGGTGCCTGTAACCGCAGCTACTTGGGAAGCTG
AGGCAGGAGAATCGTTTGAACCCAGGAGGTGAAGGTTGCAGTGAGCCGAGATCGCGCCACCGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAA
GAAAAAAAAAAAAATACACACACACACACACACACACACACGTGTATATGTAAATACACACACACACACACACACACACACACATATATATATATATATA
TGGTATATGGTAGTTACTTAGCTTCCTTGTCCTTTAGTTTCCTCAGGTGTAAAATGGAGTAATATGAATAGTACCTACCTCATAAAGTTGTTGTGATTAA
ATGAGATAATGGCTATAATTTTCACTGTGCCTAACACATAGTAAGGCACTTAAAAAGAATCTGTGGCCAGGAGCAGTGGCTCACACCTGTAATCCCAGCC
CTTTGAGGGGCTGAGGTGGATGGATTGCTTGAACCCAGGAGTTTGAGACCAGCCTGGGTGACACGGTGAAAACCCCATCTCTACAAAAAAATAAAATAAA
ATAAAAAATTAGATCTGCACAGGGTGTGTGCCTGTAGTCCCAGCTGCTGGGGAGGCTGAGGTGGGACGATTAAGGAATCCTCAGGCCCAGGAGATGGAAA
TGTAGTGAGTCGAAATCGAGACACTGCACTCTAGCTTGGGTGAAGGGAGTGAAACCCTGTCTCAAGAAAAAAAAAAAACGGGCCAGGCGCGGTGGCTCAT
GCGTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCAATGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTA
AAAATACAAAAATTAGGCCGGGCATGGTGGCTCACTACTGTAATCCCAGTCTTTGGGAGGCTGAGGCAGGTAGATCACCTGAGGTCAGGAGTTTGAGGCC
AGCCTGACCAACATGAAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCTGGGCATGGTGGCGCATGCTTGTAATCACAGCTACTCAGCAGGCTGAGG
CAGGAGAATCGCTTGAACTCAGAAGGTGGAGGTTGCAGTGAGCCGAGATCATGCCATTGTACTGCAGCCTGGGCAACAAGAGCAAAACTCCGTCTACCAA
AAAAAAAAAAATTAGCTGGGCGTGGTTGCAGGCACCTGTAATCTCAGCTACTAGGGAGGCTGAAGCGGGAGAATCGCTTGAACCCAGGAGGCAGAGATTG
CAGTGAGCCAAGATCATGCCATTGCACTCCAGCCTGGGCGACAGAGGGAGACTTCGTCCAAAAAAAAAGAAAAAAAAATTAGCCAGGAGTGGTGGCACAT
GCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCATGAGAATTACTTGAACCCTTGAGGCAGAGGTTCTGGTGAGCAGAGATTGCACCACTGCACCCCTGG
CTGGGAGACACAGCAAGTCACACACGCGCGCGCGCGCRCRCRCACACACACACACACACACACACACACACAGAAAAAAGAAAAAGAAAAAAAGAGTTGT
CTGCGAAGAAAAATTAGAAAATGGAATTCTAGTTAAGCAAATCCTTAACTAGAGAAAACACATGAAAGTCTGTTCATCTCCCAGGGAAATAACTGCTTGG
TTTAGTCATAATATTTGACAACTATTGTTTGTCTTTGCAGAGTTCAGCACATCTTGGGGAATCTTTGTATGCAGCTTGTTTTGGGTATTCCCTTGGAAAT
GGTCCACAAAGGCCTCCGTGTGGGGCTGGTGTACCTGGCAGGAGTGATTGCAGGTCAGTGTTCTGAGGTAACACAGAATCAATACCTCTGGGCTCTTAGG
ATTAAAAGCAAATGAAATACACACTTATAGTAGGCTTCTTTAAGTCAAGGTTTACTGCACTCCTAATATGTGCTCGGGAACACATTAAGCCTTAGAGATC
ATTGAATTAGAGATACTATCAGCAAGCAAAGACAAGTCATTGTGCCTGTCCTCAGGTATCTCACACTCAAGACAGGGTTTTGCATAATTGAAATTGCAAG
TATGCCTGGCGCTCCTGCCTGTAATCCCAGCACTTTGGGAGGCTGATGTGGGTAGATCACACGAGGCCAGGAGTTCGAGACCAGCCTGGCCAATATGGTG
AAACCCTCTCTCCACCAAAAATACAAAAATTAGCTGGGGGTGGTGGCTCACCCCTATAATCCCAGCTACTCAGGGGGCTGAGGCACCAGAATCACTTGAA
CCTAGGGGGCGGAGATTGCAGTGAGCCAAGATTGTGCCACTGCACTCCACACTCTAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAACAAACAAACAAA
CMAAMAAAAAAAAAAAAAAAAGAAAAGGAATAAAGAAAACTGCAAGTAGTTTGGTGTACAGGTACGTATTTGAGTAAAGGTCTAAAGCCAGATCATGGAG
GCCCTTATATGTCAGACTACTGATTTTGAGAAGTAACATGATCAGATTTGCATTTAAGAAAGACAACTTTAAGAGAATGTAGAGAATAACCAAAGGGGCT
CTAAGACTGGGTAGGTAAAAGTAGCATACGTCAGTGATCCCTAAATCTGGGTGTGCCTAAGATGATCCATTATGGCATGGGAAGAAAATATTAGAACTCC
CATCCATCCATTTGTTTATTTATTGGAAACATTTTTTTAAAAAATTAAACTTTTAATTTTGCGATAATTGTAGATTTACATGCAGTTGTTAGAAATAATG
CCTAGAGGTCTTATGTACCCTTTAAACCAGCGATCCCCAATGGTGACATCTTGCAAAACATTAGTACTGTATCACAACTAGGATATCCACGTTGATATAG
TCAGGGTACAAAACATTTTCAAACCATATGGATCCCTTATGATGCCTTTTTATAGCTATACCATCTTCTGTCCCACCCTCCTTTACCTCTGGCAACCACT
AAYCTGTTCTCCATTTCTATAATTTTGTCATTTGAAGAATATTATATAAATGGAATAATCCGGTATATACCCTTGTGGGATTGATTTTCTTCACTCAGCA
TAATTCTCCGGGGATTCATCTAGGTTGTTGCATGTGTCAATAGTTTATTCCTTTTTATTGCCCAGTATTCATTCCATAAAATGGATATAGCACTGCTTGT
TTAACCATTCACTCATTGAAGGTTATCTGAGTTGTTTCAGTTTTTGGCTATTAGGAATAACACTACTCCAAACACTTGTGTATATGTTTTTATGAATATA
AGTATGGGGTTTTGTGAACAGAGTTTTCAGTTTTCTAGGATAAATGTCCAAAGGCACAGTTGTTGGAACATATGATAGTGGCATATTTTATTTTTTAATT
TAATTTAATTTAATTCATTAATTTATTTATTTTGAGATGGWGTCTTGCCCTGTCGTCCAGGCTGGAGTGCAATGGTGCGATCTTGGCTCACTGCAACCTC
CGTTTCCCAGGTTCAAATGATTCTCCCGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTCTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAG
AGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCCACACACCTTGGCCTCCCAAAATGCTGAGATTACAGGTGAATTTT
TAAAGAAAATTCTTTAAATATTAAACATTTAAAGAATGTTTTCTAGAATGCCTCTCCCATTTTACATTCACCGTAGCAATGCATAAATGATTCAGATTCA
GCATTTGGTGTTGTCATGATTTTTTATTTTACCTGTGCTCGTGATACGGAAGGGTGGAAGGGAAGTGCTGGGTAGAGGAGGGCATAGTGCCTGGCTAGGG
CTCCACCCCCAGGCCTGTGCCCACGGAACTAGGTGAGGACGGACATTTTTGTTTTCCTGCCCAAATGTTGCATTTTCCAATACCACCCTGACTTGCCACG
CCCCCATCCTGTGCCTATAAAAACCCCGAGACCCTAGCCTGCAGACACACAAGCAGCAGGATGTCGAGAGGAACACATCGACAGAAGATGACAGGACAGA
CGCCAGCACGCCAGCAGGCCACTGACCAGCCGGAGGACGCGGAGTTTGGCTGGGGCAGTCAGAGGAGATCCCGGGCTGCCGAGTGGCCTGACTCCAGGGG
AAAACCATCCGCCTTCTGGCTACCCCATCTGCTGAGAGCTACTTCCACTCAATAAAACCTTGCACTCATTCTCCAAGCCCACGTGTTATCCATCCAATTC
TTCCTGTACATCAGGCAAGAATCCTGGGATTACAGAAAGCTCTCTGACCTGGAGATAAGGCACAAGTATAATTGAGCTGACTAACAGAAGCCACCTACAG
ACTACTAAACTAAGAGTACCCTGTAACACATGCCCACTGGGGCTTCAGCTGTAAATTCACCCCTAGATCACTGCCGTGGGGTCAGAACCCCACAGCCTGC
CCGTCTGAATACTCCCCCAGAGGTTTGAGCAGCAGGGCACTGAAGAAGCGAACAACACCCCCATCGCACGCCCTGCGAGGGGGACAAGGGAACTTTTCCC
ATTTCACTCCTAAGTGGGTAGTGATATATGATCATGGTTTTTTTTTTTTTTTTTTTTTTTTGGAGACGGAGTTTCACTCTTGTTGCCCAGGTTGGAGTGC
AATGGTGCAGTCTCAGCTCACAGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGGGCACCACC
ACACCCGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCTAACCTCAGATGATCCACCTGCCTCGGCC
TCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCCAGCTGATCATGATCTTAATTTGCATTTCCCTAATGGCTAATGATGTTGAATATCTTTTTT
TTTTTTTTTTTTTCAAATTTGGAGGAACATTCTGAGATGCATTGTTGAATATCTTTTTATGTGCTTATCTGTCATCTATCTTCTTTAGTGAAATGTCTCT
TTATGTTTTTTGCCCATTTTCTAACTTTTTTTAACTGTTGAATTTTGAGGGTTCTTTATATATTCTAGATGCTAGCCCTTAGCTGAATATGTAGTTTATA
AATATTTTCACCCAGTCTGTAGCTTGTCTTTTTATCCTCTTACCAAGGTCTTTCAGAGAACATGAATTTTAAATTTTGATGAAGTCTAACATCAATTTTT
CCATTTATGAATGGTACTTTTGGGGTTATGTCTTAAAAACCTTTCACTGAACCTTAGGTCCTGAGGATTTTTTCCAATGTTATCTTCTAAAAATTATAGC
TTTATGCTTTACATTTATTTGTTTGTTCACTTTTAGAGACAGGGTCTCACTTGGTTGCCTAGGCTGGAATGCAGTGGCACAATCATAGCTTACTGCAGCC
TGCAGCCTCGAACTCCTGTGCTCAAGTGATCCTCCGGCCTTGGGCTCCTAAAATGTTGGGATTACAGGCATGAGCCACTGCACCAGGCCTTATGCTTTAC
TTTTTTTCTTTAATTTTATGTATTTATTTATTTTGAGACAGAGTTGCGCTTTTGTCGCCCAGGCTGAAGTGCGATGGCGCGATCTCGGCTCACTGCAACC
TCCACCTCCCAGGTTCAAGCAATTCTCCAGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCCACCACCATGCCTGGCTAATTTTTGTATTTTTATT
AGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATG
AGCCACTGCACCTGGCCTTTACTTTTAAATATGCAACCCATTTTGAGTTTGAGGTTTGTTTTGTTTGTTTGGCCTGAAGATATCCAATTATGCTAGAATA
ATTYGTTGAAAGGAATTTTTCCTCCTTTGTTGAATTGCTTTTACACCATTATAAAAAATCAGTTGCCTATAGTTTTGTGGGGGCTATTCTGGGTTCTTTT
TATTCTATCAATCTCTATGTCTATCCCTCCACCAAAACTACATAGGCTTGATTACTGTAGCTATATAATAAGTTTTGAAATCAGAATGATTCCTCCCATT
TTATTCTTCATTTTGAAAATTGTAGCTGTTTTAATTCCTTTGCCTTTCCATATAAGYGTTAGAATAATTCTGTTTATAGCTATAGAAATTCTTGCTGGAA
TTTTGATAGGAGTTGCCTTAAATCTGTACATCAATTTGGGGAGAACTGATATATTTTCTATATTGAGTGTTTCAATGTATGAACAGTGTCTTTTATTTAT
ATCTCCTAAATGGTGTTGTATTTTAAATTTCAGTGTCCATAATTTCATTGCTAGTATATAGAAACACAATTGATTTGTGCATGTTATTCTTTTTTTTTTT
TGAGATGGAGTGTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCCGCTCACTGCAAGCTCCACCTCCCAGGTTCATGCCATTCTCCTGCCTC
AGCCTCCCGAGTAGCTGGGACTACAGGTGCCCACCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGGGGCAGGGTTTCACCGTGTTAGCCAGGATGG
TCTCGATCTCCTGACCTCATGATCTGCCCGCCTTGGCCTCCCGAAGTGCTGGGATTACAGGGATGAGCCACTGCGCCCGGCCTGTGCATGTTATTCTTAT
ACCTTGCAACCTTGCTGAACTCACTTAGTAGTAGGGTTTTTGTTTTGTTTTAGATTCCTTGGGATTTTTCATGTCATCTGCAAATCATCATGTCATCTAT
AAATAAGGATATTTTATTTCTTCCTTTCCAATCTRTATGCCTTTTGTTTCTTTTTCTTGCCTTATTGTGTTGGCTAGCACTTCAAGCACTATGTTGATTA
AGAGTTAAGAGAAAAGATGTTCTTGCCTTGTTTCCAATCTTAGGCAGAAAGCAATGAGTATTTCGCCACAAAATGTAATGTTAGCTGTAAGTTTTTTTTT
TTTTTTTTGAGTTGGAGTCTTGCACTGTTGCCCAAGCTGGAGTGCAATGGCACGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTC
CTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCTCACCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCATTATGTTGGCC
AGGCTTGTCTCAAACTCCTGACCTCATGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTAGAGGTGTGAGCAACTATGCCTGGCCTGAGCCACTGC
GCCTGGCCTTTTTTTTTTTTTTTTCTTGAGACAGAGTCTCTGTCACCCAGGCTGGAGTGAAGTAGCATGATCTTGGCTCACTGCAACCTCCACCTCCCAG
GTTCAAGCAATTCTTGTGTCTCAGCCTCAAAGTAGTTGGGATTACAGGCATGCAGTACCACACCCAGCTAATTTTTTTTTTTTTTCCTGTAGAGACAGGG
TTTCAACATGTTGGCCAGGCTGATTTCAAACTCCTGGCCTCAAGTAATTCATTTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATG
CCCAGCCAACTGTAAGTTTTTTGTAGGTGCTCTTTACCAATCCATTTATTCTAAAAAATGAACAAGAAATCTATCGAGCAGAGTCCTGTGGATGGCAAAA
AGAAAAATAAGGCTGGGCACAATGGCTCATGCCTATAATCCCAGCACTATGGGAAGCCAAGGCAGGAGGATTGCCTGAGTTCAGTAGTTTGAGACCAGCC
TGGGCAATATAATGAAACTCTGTCTCTACCAAAAGAAAATTAGGCCAGGCATGGTGGCTCATGCTTGTAATGCCAGGCTGGTCTCGAACTCCTGATCTCA
GGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGTGCCTGGCCTTATTCTCTTAATATCTTTTGGAGAGGAGACGTTA
TAAATATTAAATCTATAATTTTTATTTTTATTTTTATTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTC
ACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCTACCACGCCCGGCTAATTTTTTG
TATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATATCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGTTGGGATTA
CAGGCGTGAGCCACCGCGCCCGGCCAATTTTTATTTTTAAAAATGTTTTACTATATATATAGTACACATATTATATATATATATAAATATATATGTATTT
TTTTATTTCTGTAGAGACAGTGTTTTGCCATATTACCTAGACTAGTCTCAAACTCCTGAGCTCAAGTGATCGTCTGCACTGGCCTCCCAAAATGCTAGGA
TTACAGGTGTGTGCCATGATGCCTGGCCTTTTATACATTTTCAAACTTTAGGAATTGTGGCTTTTAGTGTCATATCAAATAATTTTTTTTTTCTTTTTTT
TTTGAGACGGAGTCTCATTCTGTCACCCAGACTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAAKTCCGCCTCCGGGTTCACGCAATTCTCCTGCYT
CAGCCTACTGAGTAGCTGAGATTACAGGCGCACACCACCACACCTGGCTAATTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTACGTTGGCCAGA
CTGGTCTCAAACTCCTGACCTTGTGATCCACCTGCCTCGGCCTCCCAAAGCGCTGGGATTACAGGCGTGAGCCACTGCGCCCAGCCTGTATAAAATAATT
TTTACCTAACACAAAATCACCAAGATTTCTCCTAGAATCACCATGTTTTCTCCTAGAAGTTTTATTATTTTAGGCTTTCCATTTAGGTGTATCATCTGGT
ATTTTTGCAAGGGGAAGGACTGAAGTGTCATTTTTTTGCATATGGATGTCTGTTCTAACATCATTTGTTGAAAAGACAGTCCTTTCTCCATTGAMTTGCT
TTAGTATCTGTTGAAAATACAAATTGCTTTTGTATCTTTGTTGAAGTTGTTGTTTGTATATATGAGTGTGTTAATTTCTGGAGGTTCTATTCTGTTCCAC
TTATGTATTTGTATATCTTTACACCAATACCACATATCTTGGTTACTGTAGTTTTCATGACTTTTGGTCATGAAATCAGGAAGGGCTAGCACTCCAACTT
TATTCTTTTTCACAAATTTTTTGGCTATTCTAAATCCTTTGTATTTCCATATAACTTGGTTTGTGCGTTTCTAAAAAAAAATCTGCTGGGATTTGGATTG
CATTGAATCTATAGATCAACTTGGGGAAAACGGACATTTTAACAATATTGAGTCTTCCAACCCATGTTGAACAAGGTATACCTTTCTGTGTATTTAGGTC
TTTCAAAATTCCTCTCAGCATGTTTTTTAGTTTTCAGTGTTTATGTCTTGCAGAGTTTTTGGTCAGATTTATCTCTATGTATTTCATATTTTTGATGTAT
TAGAAAGGGTAATGTTTTTAAAATTTCTATTTCTCGGCCGGGGGTGGTAGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCGCC
TGAGGTCAGGAGCTCGAGACCAGCCTGGGCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGGGCGCCTGTAATC
CCAGCTACTTGGGAGGCTGAGGTAGAAGAAAGGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCGCCATTGCACTCCAGCCTGGGCAACA
AGAGCAAAACTCTGTCTCAAAAAAAAAAAATTATATTTCTCATTCTTCATTGTTACAGCATGAAAATATATACTTTTTGGTATATTTTGTATATAGATCT
TGTGTTTTCCAACCTTGCTAAACTCACTTATTACTTCTAGAAGCTTTTTGTAGATTCCATTAGATTTTCTACATAGATTATTATGTTGTCTGTACTTGCT
AATTTCCCTTTTGATGTTTTCTTTGACACATGGGTTATTTAAAATGTGTTATTTAGTTTTTAAATATTTGTGTGTTTTTYCAAAGATGTTCTGTTGTTAA
TATCTAGTTTAACTGTGGTTAGGGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTTGAGGTGGGCAGATCATTGAGCCCAGGAGT
TTGAGACCAGCCTGGGCAACATGGTTAAACCCCATCTTTAAAAAAAAATAACAAAGGCTGGGTGTGGTGGCTTATGCCTGTAATCCCAGCACTTGGGGAG
GCCGAGGTGGGCGGATCATCAGGTCAGGAGTTCGAGACCAGCCCGACCAACATGGTGAAACCCSGTCTCTATTAAAAATACAAAAAAATTAGCTGGGCAT
GGTGGTGTGCACCTGTAATCCAAGCTACTCAGGAGGCTAAGGCAGGAGAATCGCTTAAACCTGGGAAGCAGAGGTTACAGTGACCTGAGATTGCGCCACT
GTACTCCAGCCTGGGTGACAAAGCGAGACTCYATCTCAAAAAAAAAAAATAATAAAAAAAATAAAAAAATAAAATGAAATAAAGTAAAACAAAACAAAAA
CAAAAATTAGCTTGGTGGTGCACACCTGTAGTCCCAGCTATTCGGGAGGCTGAGGTAGAAAAATCACCTGAGCCTAGGAAGTCGAGGCTGCAGTGAGCTG
TGATCATGCCACTGCGTTCCAGCCTGGGCGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAAAAGAAAAAAGAAGAAAACAAAACT
GTGGTTAGAGAACAAACTTTGTATGACTTGAATCCTTTTAAATGTATTAAGATTTGTTTTATGGTCCAGAATATGGCCTATGTTGGTAAGTGTTCTTTGT
ACATTTGAAAATAATGTGTGAGATCAGTTGTTGTTGGGTAGAATATTGTATACATGTCAATTAGGTCCATTTGGTTGATTGTGTTGTTTGTCTTCTGATT
TTCTGTCTACTTTTTCTATAAATTATTGAGAAAGGATTATTGAAATCTCTGATTATAATAATGCATTTGTTTGTTTCTCCTGTGGTTCTATCAGTTTTTG
TTTTATTTATTTATTTATTTATTTATTTATTTTATTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCAC
TGCAACCTGCACCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGACTACAGGCATGTGCCAMCATGCCCGGCTAATTTTTGCATTTTT
AGTAGAGACGGGGTTTCACCATGCTGGCCAGGCTGGTCTCAGACTCCTGACCTCAGGTGATCCACTGGCCTCGGCCTCCCAAAGTGCTGGGATTATAAGC
GTGAGCCACTGGCCCATTTATTTATTTATTTATTTTTAAATTTTTCTTTCTTTTGTTTTCTTTCTCTTTTTTTCTTTCCTTCTTTCTTTCTTTCTTTCTT
TTTTTTTTTTTTGAGACTGAGCCTTGCTCTATCACCTAGGCTGGAGTGCAATGGTGCGATCTTGGGTTACTGCAACCTCTGCCTCCTGGGTTCAAGCAAT
TCTCCTGTCTCGGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACCAAGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCACTTTG
GCCAGGTTGTCTTGAACTCCTGACCTCAGGAGATCTGCCTGCCTTGTCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCAGCCGACCATATGCC
TGATAATTTTTGATTGGATGCTACACATTTTATCTAGTTGGATGGTGCATATTTTTGTGTTCCTGTAAATACTTTTTTAATTTTTAAAATTTTATTTATT
TATTTATTTATTTATCTATTTAGAGATGGAGTCTTGCTCTGTCACCCAGATTGGAGTGCAGTGATGTGATCTTGGCTCACTGTAGCCTCTGCCTCCTGGG
TTCAAGCGGTGCTCCTGCCTGAGCCTCCCAAGTAGCTGGGACTACAGACGTGTGCCACCACGCCTGGTTAATTTTTGTATTTTTAGTAGAGACAGGGTTT
TGCTATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTTTGCCC
GGCCAATGCTTTTTATTTTTTATTTTTATTTACTTATTTTTTTTGAGACAGAGTCTCACTCTGTCATCCAGGCTGGAGTGCGGTGGCATGATCTTGGCTC
ACTGCAACCTCCGTCTCCCAGGTTCAAGTGACTCTTTTTTTTCTTTTTTTAGACAGAGTCTAACTCTTGTCGCCCAGGCTGGAGTGCAGTGGTGGATCTT
GGCTCACTGCAACCTCTGCCTCTSAGGCTCAAGCGATTCTCCTGCCTCAGTCTCCCAAGTAACTGGGATTATAGGCATGCACCACCATGCCTGGCTAATT
TTTGTGTTTTTAGTGGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTTCCGACCTTAATGATCCACCTGCCTTGTCGTCCCAAAGTGCTGG
GATTATAGGCATGAGCCACTGCACTCGGCCCAGGGGGTTCTTGTGTCTCAGCCTCCCGAGTAGCTGGGATTATAGGTGCACACCACCATACCCGGCTAAT
TTTTGTATTTTTAGTAGAGAAGGGGCTTCACCATGTTGGCCAGGCTGCTTTTGAACTCCTGACCTCAAGTGATCTACCTGCCTTGGCCTTCCAAAGTGCT
GAGATTACAGGCCTGAACCACTGCTCCAGGCCATAAATACTTTTTAGATTTGTTCTGTAACTCAGTTATGTTACTTGAAAGCAGTTTGATTCTTTTTGGT
AAGATGGTAATTATTCCCACCACTGGACCCTTTTGTGTACTCTGAGCATTGCCCCATTAATTATGGCATTTTCCAGTACACATCCCCACACTGCTTGCAG
GAAAGGACCTAGAGAAAAGTCGCAGGGCAGAAAAGCAGAGGAGGACGGCCCTGGATTTGGCTTATCAGTCCTTGGGGCCCTCCTGCCCCAGGAAGGGCAG
CGAGGACCATGGTGTTGCTGCCATCATTATCACCCTGGCCATGAGATTGCAGGACTGGGGCAGACCCAGAGGAGGACTGGAAGGGCCAGAGTCAGCCAGG
AACACAGCAGCTCAGCTCTCGGCTGTTGGCAGGTGGCCTTGATGGCTTTTCAAAGGCAATCACTCCACCCAGGACAAAGCTCACTTTTCTCTGGGGCAAA
ACACATTGGTTCATTTGTTCAGTTCATTAATTCAACCAGTCTGTTTCTAAGGGAAACCTGGCTGTGGCCAGTCCTGCTCCCACATCCCTAGGTGCCCAGT
GTTCCCAAGGGACCTGAATTCCAACCCCAGTTAGGAGTTCAGGGGTCAGCATCCCCATGCCCCACATGCCTGTTAGGGAGGACAGTGAAGGCTGAGCACT
CTTGGGCTCACCAAACACCAGCATTGAGAAACTGCCCCCCATCTTCCCTAGGTAAGGTGACCTTGTAGGACAGTTCATGCTATTGGGATGGTCTGGGTAA
GGTGGCCACGAGGGCAGGGGACCAAGGTCTGCCCCACCTTTGACCTTAGCGACATGCCCCTGATTGCCTGGCCCCCCTCTGGTTGTCGTCTGAGTCCCTT
CTCTGGGGGTACCTGGGCCTTGCTGCACTTCCTTTGTATGCTAACTTCATCCTGATCAAACTTGATTTTCCTACTGTGATTTCTTTCCAATTTCTTCATC
AAGTTAAAAATTCTGTATTGAGAGCAGTTTCCTACATTACCTCAAATCCTGTTSAAACAAGGATTATCCCTAGAAGTCAGAAAGGAGGGAAAACAAGCTT
AGTCACAGAAGACTACTCTATACTTGAGCTTCTGTTTCAAGGGAAGTGAGTAACTGGTGGTGGAGCCCTGCCCCTCTGCAGTGTGTGGTTTTGTCCTGAT
ATATTTTAAGATTGAGATGTAACTYACCTGTCATAAAATGCCCAGACTTATGATGTGTGGAAACAAAAGAGTTTTCCAGTACAGAAAGTTACTTAGCCTC
TCTGGTGCTGTGTAAGCAACAGGTAGTCTTCCCACTTCATTTTTGGTGGTTCTTTCCTTGGCTTGGGTAATTTCCTTGCATGCTCCTTTCTGGAGTTTTC
TGTATGCAGCTTTCTGCTCTCTGGTACCCTGTCTTGTAAACTCTAGCAGTCCAGATCTATCTGGACTCTAAACTTCATCTCATCAACTTAAAGTTTGCYG
AGATCTGCCTGGGTTCCTGCTTCATGCGCTGTATTCTGTAATCTCCCTCAAGGTAGTACCTGGGCAATCAGATAACTCATCTATTAATAACTGATTCCCT
GTCTCTAAGGGTTTACTGGTTTTGTTTTCTGATGTCTAGTATCTTGAAGACCATTCTTTCCTATATGTTGTCCAGTGCTTTTGGCTTTTTCAAGTGAGAC
AGCAAATCCTATTCTTGTGACCTTATCATGGTCAGAAGTAGACATTTGTATCTATTTTAAAAATAAATTTCTCATATGATTATGATATAATCACCCCAGC
CCTAGTCTATAGGTTAGCATTTGAGAATCATTGCTCTAAGTTGCTCTGGACTACTTCTTTGTTTTTTGAGACAGAGTCTCATTCTGTCACCAGGCTGGAG
TGCAGTGGTGCGATCTCAGCTCCCTGCAACCTCTGCCTCCCAGGTTCAAGTGATCCTCGTGCCTCAGACTCCCCAGTAGTTGGAATTATAGGCATGTGCC
ACCACAGCCAGCTAATTTTATTTTTTTTCAATTTTTTTGAGACAGAGTCTCACTCTTGTTGCCCAGGCTGGGGTGCAGTGGCGCCATCTCAGCTCACTGC
AACCTCCACCTCCAGGGTTCAAGCTATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGTGTCTGCCACCATGCCCGGCTAATTTTTGTATTTT
TAGTGGAGATGGGGTTTCGCCATGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGCTGATCCACCTGCCATGGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGCCACCGTGCCCGGCCTACTGGACTACTTCTCACTGATCTTCAGTCATCCATATACCTGTTTGTATGCCATTGCTTTTCCAGTTCTCTAAGTCCT
GAATACCTTCTTCTCTTTTGTTTTTCTTATCCAATCCTTTTGTGTGTGGGGGTGAGGGGAGAGGTCTTCCTCTGTCACCCAGACTGGAGCGCAGTGGCAC
GATGATAGCTCACTGCAGCCTCAAACTCCTGGGCTCAAGTGATCCTATTGGCTCAGCCTCTTGAGTAGCAAGGACCACAGGCGGGTACCACCATGCTTGG
CTAATATTTTTCTTATATTTTTGGAGACGGATATCACTCTGTGGCCCGGGTTGGTCTCAGACTCCTGACTTTCTGGCCTCAAGCAATCTCCTGCCTGGGA
CTCCCAAAGCACTGAGATTATAGGAGTGAACCACAGTGTCTGGCCAATCTTAAAGATTCTTCAAAGTTTAGGCCGGGCGCAATGGCTCACGCCTGTAATC
CCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAACACAAAA
AATTAGCCAGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATAGCATGAACCTGGGAGGCAGAGCTTGCAGTGAGCT
GAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGTGGGACTCCATCTCAAAAAAAAAAAAAAAGATTCTTCAAAGTTTAATGAAAATGCTATCTCCT
CCTCCTCAGAGTAGCAAGGACTCCACCCTTCTGCTGAGAAAATCACTCCTTCCTAAGTGCTTCTACAATAAATTTATTTTTGTCATAGTAGTTGTTATAT
TCTGTACTTTATAATAGTTGTTTGCTCATCTCTTTGTAAAATTACTGAGGACAGACACTTTTTCTTGCACAAAATAGGTACTGTATTGTTTTGTATCATA
CACTAAGGAAATGAAAGAAGACCTTGAAAGGAATAGACCAAGTAATAGAACTAAGCAGTATAGAGAGAATATTTTAGTCTTTGCATAAGGTGGTTTGCAA
AGCCTTGTTTTGGTCCAGTAAATCTAGGATTAGGTTAGCAATTAGGATTCATCTTGCTTGGGGAATCTGATTGGATCGTATGTTGAGAAGGATTCTGAGG
GCACATTATGGCTCATTGAGAAAGATAGCTATTAGATAATAAAATGTTGGATTGTCTCAGGTATTTTGACTGAACATAGGATATTTTGCAATAATATTAG
GTTGATGCAAAAATAATTGCAGTTTTTGCCCTTAAAAGTAATGGCAAAACCGCAATTACTTTTGCACCAACCTAATAGCTAACAAATATATAATACACAT
CAAGCAGTATTCTAAGCACAAAACACACATCAACTCATTATTTACCCTGACAATCCATTAAGGTAAGTTCTATTAATAGCCCCATTTTGCAGGTAGGGAA
ACTGAGACATAGAGAAGTCAACTAACTTCCTCAAGTCACACTGCTGGTAATTCTGGCTCCAGACGATTCTGCCATTGTCACTGCTATGTTGCTGTTCTAA
TGAACATTCCATGTTTTCAGAAACACTGTGGTAGTTAGCATATACAGCTATGCTTCTATGGTATGAAAGGGGCAAAATAGATTTGTTGCTTGCTAATGTG
ATAATAGACCAGACTTCCCAAATGTCTACCTTAGATTAGAAAGATTTATCTTTCCTGATCCGTATAGTCATGTCTGATCCTTTGTGTTTTATTTCTTTAG
GGTCCCTTGCCAGCTCCATCTTTGACCCACTCAGATATCTTGTGGGAGCTTCAGGAGGAGTCTATGCTCTGATGGGAGGCTATTTTATGAATGTTCTGGT
GGTAAGAACCATGGGGATGGAGTCCAYGAGTCTCTTAAAAAAACAGAAAACAGTAACTCTTCTTTGTTTCAACGAACCTTCATTTATCAATATTTACTGA
GCACTCAATTTTCTGAGAATTGTATGGCAATGCCATTTTGTTTCCTTTCTTTTCTTTCTTTTTTTTTGAGACAGAGTCTTGCACCATTGCCCAGGCTGGA
ATGCAGTGGTGTGATAMTGGCTCACTGCACTTCTGCCTCCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCCTAAATAGCTGGGACTACAGGTGTGGGCC
ACCATGCCTGACTAATGTTTTTATTGTTTGTAGAGCCAGGGTTTCGCCATGTTGCCCAGGCTGGTCTCGAACTCCTAGGCTCAAGCGATCTGCCCACGTT
GGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTGCCGCACCTAGCTTCCTTTCATATGTTATCATTTTTTTTCTCATTTCAAAAGTAATGAGTACAAC
ATAAAATTTTAAATAAAAAAGTAGAAAGTTAAGGTCCTCAATATAGTATCTGTTAACAGTTGGGTGGGTGGTGAAAGACGTTGTTAACAGTTTTATATAT
TTTTTTCAGCCCTTTTTATTTTATTTTATTTTTTAAAGGAAACCAAGTTTATTAAGAAAGTAAAGGAATAAAAGAACGGCTACTTCATAGGCAGAGCAGC
CCAGACCTTTTTCTACATGTATTCAAAATCCTACCGATGTTAATCTTATAACAATGACACCACCCTTATATTGTTCTGCATTTTATCATAGAGCATCCTG
ACCATCTACCCATGTCAGTGCTTAGAAATCCTCCCAGCTTAGAGCTGCTCCCTAGCATCCTCTATATAGATGCACCATGATTTATTTAATGAATCTCTCG
CTGAAAAAAATTTGGGGTGATTCCTGCTTTTCATGTTTACAAGTAATGCTATAAGAAATGCCCTTGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAAC
ACTGTGGGAGGCCAAGGTGAGTGGATCATGAGGTCAAGAGATCGAGACCATCCAGGCCAATATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAG
CTGGGTGTGGTGGTGTGTGCCTGTAGTCCCAGCTACTCGAGAGACTGAGGCAGAAGAATGGCTTGAACCTGGAAGGCGGAGGTTGCAGTGAGCTGAGATC
ATGCCACTGCACTCCAGCCTGGCAACAAAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAAAAAGAAAAGAAATGCTTTTTACA
TTTATCTTTTTGCATTTGTGTAAATTTTTTTTGTAGGATAAATTTCTAGGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGG
TGGGCGGATCACAAGGTCAAGAGATCGGGACCATCCTGGCCAACGTGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACG
CACCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAAATTGTGCCACTGCACTCCAG
CCTGGYGACAGAGTGAGACTCCAACTCAAACAACAACAACAACAACAACAACAAAATTCTAGGTAGAAAAGTGTAAAGCAATTATAAAACTGTTCCAAAT
ATAGAAATCACTAAGAAAAGTGGTTTTTTCAACTTTGGATTGCAACCCATTAGTGGTTGTAGACTCACTTTAAGGAACTGTGGCCAAAAGTTAAACCCAA
GAAAAAAAAAGTCAGTGTTATTGTTTGATTTATGYGTGTACTGGGTTGTTATGTAAATTATTTCTTACTGTAGGTCATGGTCACAAGAGTTTGAAAATAA
TTGATTTAGAGTAAACATGCCTATTTCAGCATCTTTACTCCTTGGGRAGAGAGTTACTAATTTGAAAGTGAAGGGACAAGTAATTCAATAAATTATATTA
GAAATGTCTCGCTCAGCAGTTCGCCACTGACGCATAAGGGACCCAAAGCTAAAATCCAACAATGAGCCAGGTGTACTGGAATGCACCTGTAGTCCCAGCT
ACTCAGGAGTCTGAGACAGGAGGAAGGCTTGAGTCCAGGAGTTCGAGGCTGCAGTGAGCTATAGATTGCACCACTGCACTCCAACTTGGGTGACAGAGTG
AGATCCTCCCTGTCTTCTACCTCCCCTCACAGAACCCCCCCAAGAGCGCCCCCAAAAGACCCTGCAATAATTTTTGACGAATATTTTCAATGTTTTTGAA
ATTACCTCAAAAATTAAGGTAATACTCAAATCTCAGTTAAGTCTTTGCTAAATACTACTGGGAAAGAGGATGAAGAAACATCAAATGAATATTAACCAAA
AATCTTATGAATATTTCATCAATCTTAGTTTAACAGCATTTATTTATCTATTTATTTATTGACATGTTAAGTGCTGATTTTATATTACTTTTATTGAGAT
TGTTTCTGGCTAGCAAAATTGTGTCATTTATATTATTAAATTAAATGTCTTGTCATTTTATTCTCCAAAGTGCATTGTACTTCCCAAATACATTTAAAAA
CTCGGCTGTGACACTCATGCTTTGTTTTGCAAATATTTGATACTGGAAGATTATTTCAAATGAAGAGCAGATGAAGAGGGAGTAGAGTTGAGGTTTCATT
TGTCCATAGATAGCTTATATAATTATTATTTATCTCTTTTTAAGAATTTTCAAGAAATGATTCCTGCCTTTGGAATTTTCAGACTGCTGATCATCATCCT
GATAAGTAAGTGTGTTTTGTGAATACTTCATACTGTCCAAGTGAAAATAAAATATAGAGACAAATCTCTAAACATTTYATTTGGGAATCACAGGATTGCA
ATTTGGGGCATACACACAGACCTGGGAGGTCTATGGTATGTCTGAAGTACAAAAGAAAAGGCTGGGGGTTTTATTAGAAAGATAAATTTTACATATTATT
TTGAAAGAAAGCTCATTGGCACTAGAGCAGCCTTTGGGAGYTGGTTGGTGAGTGATGGTAGTGGGGAGAACTAGTCTTAGACTTGTGTTGTTTAGACCTG
ATTCTTAGACTCAATTTGTTTCAGCAGCTATTAGGTAAAACTAGTCTTATGGTTAGAACAGGTAGTTTCGGCAGCTGGGCTTGTGGAGAATTCAATTGTT
GGAGCAGTGCTATGTGCTCTGAGTGCTTTTGTCCCCTGGCCCCTCAACTCTGATTTAGCTGGGTTTGACAACAATGACCTATTTCACATAATCATCTCAC
ATAATATTTTCACCATGTGATTGGTTTAGGCTTCAGAAGGCCTTTCCACATTTCCCAGACACTAACATGGAGAATAACTGCAAGCCTACAGTTAGAGAAA
AATTGTCCACTTCACAGCACTAAGCAGAAAGAAGTAAACGAAGGAGTTTTACAGGCTCTCATGGGTGGTTCTTAGACATGCCTACGTGATGTATTTTKGC
TTTTAGTATCTTTATGGAGTGGGGGAAGCCAAGAGAATAGAGCCCTAGGCACCCCCTCTACTTGAACCACAATAGCTTCACTTATATTTTATATACTGGA
CTTTTTCATATATTGGAAGCTGTATGTGATTTTGTCTGCAGAGGGAAAACTTGGAAACCACTGATATAATCTCTTTTCTTCCTCAATTTCTAAATTTTCA
GATTAAAAAAAAAACTGATCCAGTAAGTATTGAGTGATAGCTGATAGTTGAGGATTAATGATAGAGAGWTGGGGGAGCGGGGGGCAGGTGGCAGCGGGCA
ACCGTTCAAGAAGCCCAGACCAAGAGGGTGACTAATGTGGCTTTTGAAATCTCCAAGCATTCTAGAATCACATGCTAAAGGAGGTTAGGAAGAATGCTGT
CTGGAGAGGGGATGGAAGTGCAGCTGAGTCTGAGAGTAAAGGTAGATTCCAGATGACAGCAGGCCATAGAGCATGGAAGAAAACAAGAGCAAAGKTGGGG
GTGGTAACTGGTGTTGACAGACCTGCTCCAGTTGAAGTTCTCTCCACCTGGAGGGCTGTGGAAGAATGACAGACCCTGGGGTCAGACCTGAAAGCCAAGG
CAGAGGTTATACCTGATAAAGCCTAAGATGTTTTTGGCTGTCCACATAGTAAGAAAACAGGATTTTGCAATTTCTATGAAGGGTTCGATTATCCCCATTA
CAGGAACAGAGGCAACTATGTCTGTGGGAAGGGACTCTTTAGTTTATTGACCATTTAAATATAAGAACGCTAATATTTCACTCTGAGATAAAATAATTCA
CTTGTTTATAGTTTATACTATTCTTAACTTTTTTCTTCATAACAAATTCAAAACCTAAGAGAAGGGAGAGTGAGTATCTGGGAGGCAGCAGAGCTGCTGC
AGGAGCTGAGCTGCCTCCTCAGTTGTTCAGGGTCACACCCAGAATCAGAGGACACATTGTTTGGGCACAGAATTGTTGTCACCYGAGATACGGGGTCTTC
AGTCAGTCTGCTTCATTTCTAAAAGTTCTTTGGCCTGGTTTACCTACTATTGAAAATGGGAAGAGTTACAACACATACCAGATTAATAAAATATAAGTGC
ATCTGTATTTGAAATGTGTTTCTTTGGAAATGTATATAATTTTGTAATATGTAATATGTAATGTGKATAAAGTTGTAAATATTCTTCTTTTTTTTTTTTT
TTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGTAGTGGTGTGATCTTGGCTTACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTC
CTGTCTCAGCCTCTCCTGTCWACAGGTGCATGCCACCATGCCTGGCTAATTATTGTATTTTTAGTAGAGATGGGGTTTTACCATATTGGTCAGGCTGGTC
TCGAACTCCTGACCTCAGGTGATCCACTCACCTCAGCCTCCCAAAGTGATGAGATTACAGCCGTGAGCCACTGAGCCCAGCCAAGTTGTAAATATTCTTC
TTAATTGTAAATGGCAATTGCCCTAAAAAACATTCCTTCATCAAGCATTATGTTTGAGACCATCCTGTGAAACATAGGGAGACTCTGTCTCTACAAAAAA
ATTGGTCAGGTGTTGCGGTGTGGGCCTGTGGTTCCAGCTACTCAGGAGGCTGAGGTGGGAGAATTCGCTTGAGCCTGGGAGGTCAAGGCTGCAGTGAGCC
GTGAACATGCCACTGTAGTCTAGCCTGGGCAGCAGAGCGAGGTTGTCTCAAAAAAAAAAAAATCCATATGAAGGCAACTCTTTTAAAGTAAATGTTAAAT
TTTTAAGGAGGACAATGGTTTGGCTTCTTGGAATAAGGGCTTATTTTCAGGTGGGAAGACACATCTCAGTTTAGAGGCTGCAGCAACCCAGAAGAAAAGT
CCCCTAGGAAGCAGAAAGAGGAAAGAACCAGACTCAGATATAGGAAGGGGCAAGATGAGAGAAACTGGTTGGAGAAATTGACATACTAATGGTTACAAAG
ACTTTCTGAGAGGAGGTCTCCTATTGTGGAAGACTAAGCCAAAGTAACTGTTTCCAGTTATGTGGCAGTGTTTTTTAAAAACACTTTCCTAGACCCATGG
GCATGTTATTTATGTGGACCAGGAAATGCAAATGATGATTGAAAATATGGGCCAGGCACRGTAGCTCACGCCTGTAATCGCAGCACTTTAGGAAGCCGAG
GCGGGTGGATCACGAGGTCAGGAGATCTCATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAACCAGGCATGGTGGCATGGGCCTGTAGTTCCAG
CTGCTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCCTAGGCGACAGAGT
GAGACTGCGTCTTGAAAAAAAAAAAAAAAGAAAATATTATATAGCCTCATGAATCTAGCACTTTGTGTAATAGTCATTTACAACTAAATGAATATTGAAT
ATTTCCTCGACCTCAATTTCTGTCCAGTGACTTCAACATCAATCAATACAGTATTGAAAGGGAATCTAGTCAGAGCACATGTCCTGATGCTATTTTCCCA
AAGGCAAGGACTAGGTCTTTTCATCTCCTAGGACACAGTGGCTCACTAAGTAGAGCATAGGGAATTAGGGGATGGGTGTGGAATGTGATAGCTGCAAGAG
ATGTTTCCAAGCACTACACATATAGGGCAGAGTTCTTCTAGGCCAAGAAGTCGGAAGCTCCTTTTGCAGYGCAGATCCGACTTACTTGAMGACTGCCTAA
CTTCTGGCTCTCACAGTTTTATTGGAGAATATGGAATGATTTCCTTTCATGGCCTGACACCTTCAGAACTCCCGATGGTAATTACAGGCAATTAGTGTGG
TGGCTGAGAGTGGAGTCTTGGTGTCTTGGTTTCTTTATGTATAAAATGCCACCATCCTTCTTCACTTCGATTGCTACAATAGTATTTTTCCAGCTGGTCT
TCCAGTTCCTGTTCTTGCTCCCTTATAGTCTACTTCCTATATGGCAGCTAGAATAATCTTTGTAAAACCATCAGTGTGGTTGMTCAAGCCTGTAATCCCA
GCACTTTGGGAGGTCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGAGTTGGAGACCAGCCTTGTCAACACGGTGAAAYGCTGTCTCTACTAAAAA
TACAAAAATTAACCGGGCATAGTGGCACATGTCTGTAATCCCAGCTAATCAGGAGGCTGAGGCACGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAG
TGAGCCGAGATTGCACTACTGCATTCCAGCCTGGGCGACAGAGTTGAGACTCTGTCATAAACAAACAAACAAAATCTATCATGTCACTCCTGTGCTCAAG
AGCTTTCAAAGACTTCCTATCACTCAGTAAAGGTTGAAGTSCTTACAATGGCCCATATAGACCCTACATAATCTGTCCCCTGCTACCTGTCTGACCTCAT
CACCCACAACCTTATCCCTAACTCTAGTCCAGAATCACYTGGAGGTCTTGTTAAAACAAAGTTGTTGGAAACAACTTTACCACAGTTGGTAGTTGGAAAA
CACAGCCATGGAAGTAGGAATCTRCTAAGGAGMGTACAACTYACCTTCTGAAAACAAAAACAAAAACAAAAACAAAAACAGAAAGCTGAGTCCCACCCTT
AAGTTTTCTGGTTCAGTAGGTCTGGGGTGGGTTTAAGAGTTTTCATATCTAGTAAGTTTCCAGGTGAAGCTGATGCTGCTGGTCTTGGTAAAAACCACTT
TGAAAACTACTGATCCAGCCAGCTCAACTGCTTTGGTATTTTTCAAACACACCAGGCACATTCCTGCTTAGGGASTTTGTACTTGGTCTTCCCTCTCTCT
GAAACACTCTTATGTCAAATAGCAGCATGACTTGGACCCTTACCTCTGTCCAGCGTCATATTCTCAAAGAGATCCTCCTTGACACCCCTATTGGAAATCA
CACTCGACAACTGGCATTCCTATTTCTTCCTCTCTTTGTATTTTCTCCATAGCACTTAGCACTATTTGACATACTGTATGTTTTACTTATTTGTTTGCCT
CCCTACCAATCACCCCCCCACATACCCCCCAACAGTTTGTCAGCTCCATGAGGCAGGGCTGTTAGATCTGTCCATTGCTGCCTATCTACCAGCTAGAATA
ATGCCTGACACATAGAGGACAATGAATGCTTGTTGGATGAATAAATCTGTAAAATGGGATAATGATAGTTCCTACTTCACAGGGTTGTGATGAAGATTAA
TGAGTTAAAAGATCTCTTAGAAAAGCACCTGTCACAGAGTTAAGTATCAATAAATGATAGCTAGTATTATTATTATTAGAGGGGAACCAAAAACATTTGG
TGTACTACTGTGGAGATTCTGAGCCTTTATCAGGGTGTTTTTCCTTCTAGTTGTGTTGGACATGGGATTTGCTCTCTATAGAAGGTTCTTTGTTCCTGAA
GATGGGTCTCCGGTGAGTTCAGTTTCTTTCTTTTATAAAATAGAAATTAGTTTACTGTCAAAAAGGGTTATCAAATAGGGGTTACAACGCTGTGATTTAG
GGCAGCSAAATTTCCATTTGGAAGTTAAGAAAATTTTTAAGGAAATCAGACTTTTGAATTGTCCTTCCCACTTAACTCTCTCACAGCCCTGATCACTGGC
TCTACTTCACTGCACCTGCCATATTGGTAGCTATTCCAAAACAGGAGAGAATGGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCC
AAGATCGGCGGATCACAGGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGATGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGG
CAGTCACCTGTAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCGCTTGAATCTGGGAGGCRGAGGTTGCAGTGAGCCGAGATCGYRCCACTGCACT
CCAGCCTGGGTGACAGAGYGACTCTGTCTCAAAAAAACAAAAAACAGGAGAGAATGGATTTTCCTGTCCACATAGAATAAAAAGCAGTTGGTTTAGCCAG
GCATGGTGGCATGTGCCTGTAGTCCCAGCTACTTGGGGAGCTGAGATGGGAGGATTGCTTGAGTCCTAGAGGTTGAGTCTACAGTGAGCTGTGATCATGC
GACTGCACTCCAGCCTGGGCGACAGAGTTGAGACCCCATTTCAAAAAACAAAACAAAACAAAAAAACAGATTGGAAAACAGCAATGAAAGATTGAGTTCT
ATAAGTTGACAATAAAGAAAATTGACAAAATTTTCCAGTTTTGCTGTGATTTGTCTTTGAATTTGGTAGTTTCTGTTTGGGTATTTCTTGTGTATGTTAT
TACTTGTGTTTTAAATCTGAAACCCCATGTATGTGGAATCAGATTATGCTGCTATAGAGATCCCTCATGGCAACTCAACCATTCTCTTAGTTGGCATTAT
ATAGAATTATTTTAAATGCAATGATGATTAAGAATGAGAAACAATTTCTCTGTCTTTTGTACTCTAAGAATGGGTGAAAATGACATTTTTAAGCTTTGTA
TCTTTCAGAGTATCTCCTTCTCTCTGTGCACATGGAGTTTTGTGTCTCTTTTGCYTTACCCCTAGTTCTCTAGACCTTTAAGACTCTTGTTTAACTGTGA
CGGTATTTGTGTTTGAATAAGAGAGATGCAACTGAAATACACAATTAGCATTGTCTTCACTTATTTCCATTTTCCCTCCTTTTCTCCCAAGGTGTCTTTT
GCAGCTCACATTGCAGGTGGATTTGCTGGAATGTCCATTGGCTACACGGTGTTTAGCTGCTTTGATAAAGCACTGMTGAAAGATCCAAGGTTTTGGATAG
CAATTGCTGCATATTTAGCTTGTGTCTTATTTGCTGTGTTTTTCAACATTTTCCTATCTCCAGCAAACTGACCTGCCCCTATTGTAAGTCAATTAATAAA
AAGAGCCATCTGGAGGAAATAAAAAAAAAAGGAAGACTCTATGAAGAAACAGAGAAGTCTCAGMAAAGGCTAACAATTTTATATAGAGGACAAAACAGCA
TTAAACTCATCAGTTGCAAAGATTGCCTATAAAAGGACCTTAGGATTTAAGGAAGGGGCTTCTTAATGTAGAAAGGGAAGAAGAAGAGAGAAAAGAAGGG
TAGTAAAAACTAGAGATTGGGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGAAATCACCTGAGGTCATGAGTT
CAAGACCAGCCTGACCAATATGGTGAAACCCTGTCTCTACTAAAGAAAATACAAAAATTAGCCGGGCGTGGTGGCGTGTGCCTGTAGTCCCAGCTACTTG
CGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGAAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGTGACAGAGCGACACTC
GGTCTCAAAAAACAAAACAAAACAAAACAAAATTAGAGATTGGGTCTTTCCCAGGCATATGGTATTCTATAAAACAGACTTACTCTCCTTGGAGGATATA
TTTTGGAGAATGCTTCATAAAATCTATGAATACTGTACAATGCTGATAATAAAAACTTTTTATACCTGTGTCAGACTCCTGATAATCACTTTAAAATAGA
TCACTGTTTGAGGAGATAGATCACTACTGTTTGAGGTGTTTTACACACTTTATTGATAATATTATCAACAACCCGGAAAGGTAGTTATTACTCTGCATCT
TAGAGTAATCTTAAAGAATCCCTTAAAGGAACCCTTAAAGAATTAAGTACTTGTCTGAGGGGAGCAGAATTTAAACATAGATAATGACTTGGAAACCTGT
AGTCTCCCCTATAGGTCCAACAATGCTGTGTTCCCCAAACACTGAAGGGTATCATAGGAGTACAGGAACAAACATCTATGCGGGGTACACCATGAATGGT
GGAAATATCTCATAGAAGAAGACTGAGGATTTTCTGGACTGCTAGTTTAAGATTCTGATACCGTGTCTAAGATCCCAAGGAACCGGGCACTGGCTTTCTG
GTGCACACTATATACCTAGACTTCAGATTCTCATCTGTGATCAGACTGTCATCCTTCATGTGGGTCATGGCTCTCCTAGGAGTGGGTAGGATTTATTTAC
AGAAGGTAAAATGTCATACCTGAAAGCTGAGAAGCATGTGTCATTTTCCTGTATAGAATTCAGACTGTGGTTTATTATGTTTTTGGAAATGGTAGTTTTG
GGTCATCTGAATATAGGAAATATAATTTTTTCTTTTATCATCAATGTATTTATTAAACACCCATCTAAACATGTCACTGTATCTGGAAGGGGCATATACA
CTTAGTTAGATATAGTGAGAAAAGTTAATACTTTAGTATTTTGAGAAAAACTGATCAGAAATTTGTTTAAAAAGTTAAATTTAAGTATAAACATGGGAAT
ATGAGTGTTTTTTTTTTTGTTTTGTTTTTTTTTGAGATGGAGTCTCGCTCTGTTTCCCAGGCTGGAGTGCAGTGGGCTGATCTTGGCTCACTGCAACCTC
TGCCTCCTGGGTTCAAGCAATTCTCCTACCTCAGCCTCCAGAGTAGCTGGGATTACAGGCATGCGCCACCACATCTGGCTAATTATTATTATTTTTTTTT
TGAGACCGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCCGGATCTTGGTTCACTGAAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTATCTC
AGCTTCCTGAGTAGCTGGGATTACAGGTGGCCGCCACCAAACCTGACTAATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTAGTAG
AGACGGGGTTTCACCATGCTGGCCAGGCTGGTCTCGAACTCCCGACCTCAGGCCCTCAGGCGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACA
GGTGTGAGCCACTGTGCCCGGTCCCTAATTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTCATCTAGGCTAGAGTGCGATGGTACGATCTCGGCTC
ACTGCCACCTCCACCCACTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCTGCCACCACGCCTGGCTAATTTTTGT
ATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATT
ACAGGTGTGAACCACTGCACTCGGCTAATTTTTGTATTTTTTAGTAGAGACGGTGTTTCACCATGTTGGCCAGGCTGGTCTCAAACCCCTGACCTCAAGT
GATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCTGGCCTTATGAGTGTGTTCTTGGTTAAACAAAGATTCAAACAA
GAAGTTAAAAGATAAAATCTCAGCCAGGTGCAGTGGCTCATGCCTATAATCTCAGCACTTTGGGAGGCCAATGTGGGAGGACTGCTTGAGCCCAGGAGTT
TGAGAACAGCCTGGGTAACATTCAAGAACTCTACAAAAACATAAAAAATAACCAGGTGTGGTGGTGCTTGCCTGTAGTTCTAGCTACTCCAGAGGCTGAG
GTGGGAGGATCACTGGAACCCAGGAGTTCGAGGTTACAGTGAGCTATGATCATGCCACTGCCCTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTTAAAA
AAAAAAAAAATCTCCTTTTGCCTTCTCACTTCAAACCTGCTGTTTTTCCCTAGTGCTGACCATCATCAGTGGTCACAACAGTATGGTCTGTATCCTTGCA
GACATTTTTCTATGTAGGATGAGCAGAAAGGAAAATGGATTTAAGTTAATGTCCAACTCATCCACTGTATTGAACTTCACTGAATCTGCTCTACACCCTC
AAAGGGACAAATCTGAAGAACAAATTAGAGGTGTCCATGGTATAACTCCTCCTAAGCATCATTTGCTTCTCAGATTGATCTCAACTAGGAAAAGTTTTTG
TTAATCGATTTTAGCTAAATATATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATATATATTTTTTTTTTTTTCTTGAGACAGGGTC
TTGCTGTGTCGCCCAGGCTGGAGTGCAGTGGCGCCATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGGGT
AGCTGGGATTATAGGCATGTGCCACCATGCCTGGCTAATTTTTGGTATTTTTAATAGAGACTGGGTTTCACCACATTGGCCAGGCTGGTCTTGAACTCCT
GACTTCAGGTGATCCGCCTGTCTCAGCCTCCTCCCAAAGTGCTAGGATTATAGACATGAGCCCAGCCTCTAATTAGATATTTTTATGAAATGTAGGTTTT
AACAGGATAAATGTGATACATGTATTGTTCTATAACTTGCTTTACAACATGACCTAGGGACCTTTCTCTATTAGTTCATAGAAATCTTTATTCTCTGAAT
TGCTGAATGATATAGATGTACCATAGATAACCATTCCTCTGTCAGACATTTAAATTATTGCTGCTTTTGTATAATTACCAACAGTGCTATGTGAACATCC
TAGCATGTGCAGTGTGTCTCTGAATGTCTATGCTGAATGAATATTTCAAGTATCCAAAAGCAGAAATGCTATACTAATATTGATAGGTTTAAACTGCCTT
TTAAATAGCTGTATCCATTTATATTCTTACCTACAGGATATGAGAGTAACAGTGTCTCCCTACTTTGCCAAAAGAAGGTATTATAAATCTTTAAAATTTT
GCATTTTGATAGTTAAAAAATAATATTTCACTTAAATATGTATTCTCTGACTACCGAGGTTGAGGAAGTTTCGAGTTTATTAATAATTTATGAGTTACAC
ATATGTAATTCAGATAACACATAATATAGAAACATGAATATATTGTGTATGTATGTGTGCCTATACAAATATATATATATATAATATATATATATATATA
TATATAAATATATATATATATATATATATATATATATATATATATATATATATATATTTTGTCCCTGGTGAAATGTTTGTATTTAATCTGAGAAGTAGCT
ATTGTTGGCAAAAAAGCCCAGGGAAGAAGTATTTATCTGTTATGCTCAACCTGCCAGATCACTAGCTCTGAAGGGACCTTTAATGACCTAAAATACAATG
TAATTGTTAATAACAGAACATGGGAGACAGAATCAGGATCTATCTATGAAATCGGACATGACCCATTTATTAAGGCAGATGACCAAGAAGTTATTATCTA
GTAAGAAAGACTTTTTTGGTTCTAGAAACATGGTTTATTGCACAAAAAACAATGACATTTTATTAGGTTCCCCCAGTGGCAAAAGTTGCATACAAACAGC
ACACAAATACCTCCTGTCATTTTAAATTTGACATCTCTGAATTATGGAGGAATCATTCACTCAGCTTAATTTGGGGCTCATGACTTTAGTCTTCTAGATT
GCAGTGTGTTATCAGGACTATTATAAGCATTCTTTATCTGTGCTGTCCAAAAAAGCAGCCATTAGGTAGATGCAGCTCTTTACATTTTTATTAAAATTAT
TTAAAATTAAAAATTCAATTGCTCTGACACACAAACCATAATGCAAGTGTTCAATAGCTACATTTGGCTACTGGCTGCCTTATTGGCTAGCACAGATAGA
ATATTTCCATTGTTGCAGAAAGTTCTATTGGATGGTGCTGTTTTAAAAGCAAGGATAAGCAGAAAGGGACATGGATTTTAGTTGATGGATGACTCACTCA
CTACATTCAACTGAACTGAATCTGCTCTATACCAGCAAAGGGACAAATTCAGAAAATAAATTGAAGATGGCCATGCTGTAACTTCTAAACATGGTTTGCT
TCTCAGATTTACCTAAACTAAGAAAGGTTTGTGTTAATCTCTCTGTTTTAGCTTATTAAGAAAGAGTTGTTTGAAATGTTTTTATCTTTTTCTTTTGAAT
TCTATGGTACTGTATATATGTATACCAGTTTTTATGTCATTTGCTATGAAAGCTTTAATTTGTAGCTAAATACTACTGCTCCTTCTTTCAGGAAATACTA
TGTGTTGTCCTTTATGAAAAAAATATTTTCTTTCTTTTTATGATTATAAAAGTAAAATGCTTATAGTAAAAAATTAAAATACATGTAATTACAATATATT
AAGTATATAATTTGTAATCCCAACATCCAGAGCTAATCACCGTTAATATTTTCATGAATATCCTTCTAGACTTTTTTGTATACATCTGTAAATGTAACTA
AACTTATAATAATGGGGCCATATTATTCTATTTTATAACATCAATTTCACTGAAATGAAATATCAAATGCCATTTTATGTATGTTTATCATTTCTACTGG
TTGCATAGTATCACACCGTGGATGTAGTCGATTATTTAACCAGTTTTTCTTGTATTATTATTTTATGTTTTTAGCTTATGACTATTATAAACAACATGAA
TTACATCTTTGCTTACATTATTATTATTTATGAACCATAAATGAGACTTAACTTGCTTACTTTTTTTTTATTTTTTGAGACAGAGTCTCACTCTATTGCC
CAGGCTGGAATGCAGTGGCCAGATCTCGGCTCACTGCAACCTTCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGATTACA
GGCATGTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTCAACCATGTTGCTCAGGCTGGTCTCGAACTCCTGACCTCGTAATCCG
CCCGCCTGTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCAACTTGCTTACATTTTAAAGTGCTTTGGGTTGTTGGGTCAGAGT
ATGCTATTATTATTATTATTATTATTATTATTATTATTATTATTTATTTTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAATGGTGT
GATCTCGGCTCACTGCAACCTCTGCCTCTGGGTTCAAGTGATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGAC
TAATTTTTGTATTTTTAGTAGAGCAAGGGTTTCAACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCGCTGGCCTCGGCCTCCTAAA
GTATTGGGATTACAGGCGTGAGCCACGTGCCCGGCCAGAGTATGCTATTATTAACATAATAAAGTCAATGGAAAGTTTCTCTATTTCAGGAATACAACTA
TATTTTAGAAGGTTGATGCTTTTGCAAATCGTATTAACAGAGCCGGGCGCGGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGAGGA
TCACGAGGTCAGGAGATCGAGATCACGGTGAAACCCCGTCTCTACTAAAAATAACAAAAAAATTAGCCGGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCT
ACCCGGAGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCG


SNP Information

Context             (SEQ ID NO:40526):
TCCACGTTGATATAGTCAGGGTACAAAACATTTTCAAACCATATGGATCCCTTATGATGCCTTTTTATAGCTATACCATCTTCTGTCCCACCCTCCTTTA
C
CTCTGGCAACCACTAACCTGTTCTCCATTTCTATAATTTTGTCATTTGAAGAATATTATATAAATGGAATAATCCGGTATATACCCTTGTGGGATTGATT
Celera SNP ID:            hCV1976570
SNP Position Genomic:     37586
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,12)   total(C,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40527):
AGGGTACAAAACATTTTCAAACCATATGGATCCCTTATGATGCCTTTTTATAGCTATACCATCTTCTGTCCCACCCTCCTTTACCTCTGGCAACCACTAA
Y
CTGTTCTCCATTTCTATAATTTTGTCATTTGAAGAATATTATATAAATGGAATAATCCGGTATATACCCTTGTGGGATTGATTTTCTTCACTCAGCATAA
Celera SNP ID:            hCV1976571
SNP Position Genomic:     37603
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,6)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40528):
GAATTACTTGAACCCTTGAGGCAGAGGTTCTGGTGAGCAGAGATTGCACCACTGCACCCCTGGCTGGGAGACACAGCAAGTCACACACGCGCGCGCGCGC
R
CACACACACACACACACACACACACACACACACAGAAAAAAGAAAAAGAAAAAAAGAGTTGTCTGCGAAGAAAAATTAGAAAATGGAATTCTAGTTAAGC
Celera SNP ID:            hCV26167358
SNP Position Genomic:     36138
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40529):
GCGCGATCTCTGCATTGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTACCTCCACCTCCGAGTAGCTGGGATTACAGGTGCCCATCACC
M
CTCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCTTCTGGCTTCGTCC
Celera SNP ID:            hCV11262191
SNP Position Genomic:     13282
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40530):
ATTACTTGAACCCTTGAGGCAGAGGTTCTGGTGAGCAGAGATTGCACCACTGCACCCCTGGCTGGGAGACACAGCAAGTCACACACGCGCGCGCGCGCGC
R
CACACACACACACACACACACACACACACACAGAAAAAAGAAAAAGAAAAAAAGAGTTGTCTGCGAAGAAAAATTAGAAAATGGAATTCTAGTTAAGCAA
Celera SNP ID:            hCV26167359
SNP Position Genomic:     36140
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40531):
CACTGCACCTGGCCTTTACTTTTAAATATGCAACCCATTTTGAGTTTGAGGTTTGTTTTGTTTGTTTGGCCTGAAGATATCCAATTATGCTAGAATAATT
Y
GTTGAAAGGAATTTTTCCTCCTTTGTTGAATTGCTTTTACACCATTATAAAAAATCAGTTGCCTATAGTTTTGTGGGGGCTATTCTGGGTTCTTTTTATT
Celera SNP ID:            hCV1976574
SNP Position Genomic:     40604
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40532):
GTAGCTATATAATAAGTTTTGAAATCAGAATGATTCCTCCCATTTTATTCTTCATTTTGAAAATTGTAGCTGTTTTAATTCCTTTGCCTTTCCATATAAG
Y
GTTAGAATAATTCTGTTTATAGCTATAGAAATTCTTGCTGGAATTTTGATAGGAGTTGCCTTAAATCTGTACATCAATTTGGGGAGAACTGATATATTTT
Celera SNP ID:            hCV1976575
SNP Position Genomic:     40857
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40533):
TTACAGGTGCCCATCACCACTCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCA
Y
GATCTTCTGGCTTCGTCCTCCCAAAGTGCTGGGATTACAAGTGTGAGCCACCCTGCCGGGCCATTTTATTTTTATTTATTTATTTATTTTTGAGACAGTC
Celera SNP ID:            hCV11262192
SNP Position Genomic:     13364
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40534):
TTGGTAGGAGGCTCTTTTCTTTTCTTTTTTTTTGAGATGGAGTCTGGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACCGCAACCTC
Y
GCCTCCCAGGTTCATGCCGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAG
Celera SNP ID:            hCV26167288
SNP Position Genomic:     20440
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40535):
GGTTTTTGTTTTGTTTTAGATTCCTTGGGATTTTTCATGTCATCTGCAAATCATCATGTCATCTATAAATAAGGATATTTTATTTCTTCCTTTCCAATCT
R
TATGCCTTTTGTTTCTTTTTCTTGCCTTATTGTGTTGGCTAGCACTTCAAGCACTATGTTGATTAAGAGTTAAGAGAAAAGATGTTCTTGCCTTGTTTCC
Celera SNP ID:            hCV1976576
SNP Position Genomic:     41535
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40536):
TAGGTGTGGTGGCTCACGCCTGTAATTCCAGCACTTCAGGAGGCCAAGGTGGGTGGATCGCGTGAGCTCAGGAGTTCAAGACCAGCTTCGGCAACATGGC
R
AAACCCCATCTCTACAAAAAATGCGAAAATTAGTTGGGCATGGTGGCGCTCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCACAAGAGTCCCTTGAA
Celera SNP ID:            hCV11262195
SNP Position Genomic:     15144
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40537):
TGTCATATCAAATAATTTTTTTTTTCTTTTTTTTTTGAGACGGAGTCTCATTCTGTCACCCAGACTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAA
K
TCCGCCTCCGGGTTCACGCAATTCTCCTGCCTCAGCCTACTGAGTAGCTGAGATTACAGGCGCACACCACCACACCTGGCTAATTTTTTTTTGTATTTTT
Celera SNP ID:            hCV1976578
SNP Position Genomic:     43368
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40538):
GGCATTCCTATTTCTTCCTCTCTTTGTATTTTCTCCATAGCACTTAGCACTATTTGACATACTGTATGTTTTACTTATTTGTTTGCCTCCCTACCAATCA
C
CCCCCCACATACCCCCCAACAGTTTGTCAGCTCCATGAGGCAGGGCTGTTAGATCTGTCCATTGCTGCCTATCTACCAGCTAGAATAATGCCTGACACAT
Celera SNP ID:            hCV11262373
SNP Position Genomic:     59413
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,1)   total(C,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40539):
TTTTTGAGACGGAGTCTCATTCTGTCACCCAGACTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAATTCCGCCTCCGGGTTCACGCAATTCTCCTGC
Y
TCAGCCTACTGAGTAGCTGAGATTACAGGCGCACACCACCACACCTGGCTAATTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTACGTTGGCCAG
Celera SNP ID:            hCV1976579
SNP Position Genomic:     43399
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40540):
AGACAAAGGTAAGGCTAAGGTGTAAGCATCCTGGGAGATGCTGTGGTCAAGTCTGTTTAGGGTGAAGGGGCACAGTTCTAATTTTTTTCACAGGATTTCA
Y
TGTGAGACTGCTTGCAACTGGGAAGTCGTCCGGATCTGAGACATCTGTATCTGTTTTTTCTGCTTCTCCTTCCTGTTATCCTTCTGGCCTATGGGTTGTC
Celera SNP ID:            hCV8858921
SNP Position Genomic:     30128
SNP Source:               Celera;dbSNP
Population(Allele,Count): (C,1|T,7)      total(C,1|T,7)Caucasian(C,1|T,59)   Chinese(C,5|T,11)   Japanese(C,13|T,27)   African(C,0|T,60)    ;(T,-|C,-)   Caucasian(C,1|T,59|T,79)   African-American(T,60|T,84)   Asians(C,18|T,38)   total(C,19|T,320)(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40541):
ATCCTTCTGGCCTATGGGTTGTCTTGTGTTTCAATCAGCTGTGTGTGTGTCTTGTCCAGGTGAATGGGGAACAATGAGATAAGGTATCGTGGTACAAACC
W
CAATTGCCTAGGCAATGAGTGCTATGGAGGAGGGCAGTTTGCCATAGGAGGCTCATGGAGCAGATGCTGAGATACCTGCCTCTCACAGAAAGACCAATTT
Celera SNP ID:            hCV8858922
SNP Position Genomic:     30306
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,2)      total(A,2|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40542):
CTGGCACTATGGTGTGGCCCACTTGAGAGCTGAATCATCTGAAACAGTTACTGCCCACGGGCTTGGATGGGGCCCCTCTCTGGAGAAGGTGTGGTTAATA
Y
TCATGTCTGCTCCCTCCATCAGCTGGCAGTGTTTATTTACTATGCTGTGTGGAAGCCTCAGAAACAGTGGATCACGTTGGACACAGGCATCTTGGAGAGT
Celera SNP ID:            hCV29016255
SNP Position Genomic:     32066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40543):
TTAGGATCCTATATCTATCCCAAAGACAATGGGAAACCATTGAAGGATTTTTAAGCCGAGAGTTAATACACTCTGATTTACGGTTTTGTTTTGCTTCATT
R
TTGGAGGGAGGCAGGAGTGGAAACAGAGTGAAGACTAATTTGGGAGGGTAATTTCGGGTCAGACATCAGTAATCTACTCAATGGAAGAATACAAAGATGA
Celera SNP ID:            hCV9642498
SNP Position Genomic:     14816
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40544):
CAAGAATAGGTGTGGTGGCTCACGCCTGTAATTCCAGCACTTCAGGAGGCCAAGGTGGGTGGATCGCGTGAGCTCAGGAGTTCAAGACCAGCTTCGGCAA
Y
ATGGCAAAACCCCATCTCTACAAAAAATGCGAAAATTAGTTGGGCATGGTGGCGCTCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCACAAGAGTCC
Celera SNP ID:            hCV9642499
SNP Position Genomic:     15138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40545):
ATCTCTTTTCTTCCTCAATTTCTAAATTTTCAGATTAAAAAAAAAACTGATCCAGTAAGTATTGAGTGATAGCTGATAGTTGAGGATTAATGATAGAGAG
W
TGGGGGAGCGGGGGGCAGGTGGCAGCGGGCAACCGTTCAAGAAGCCCAGACCAAGAGGGTGACTAATGTGGCTTTTGAAATCTCCAAGCATTCTAGAATC
Celera SNP ID:            hCV27501680
SNP Position Genomic:     55569
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,144|T,1099)   total(A,144|T,1099) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40546):
GATGCTGAGATACCTGCCTCTCACAGAAAGACCAATTTTTAAATTAAAAATTTTAATTTTGGAATAATTTTACCTCTATAGAGATATTGTAAAGATAGAA
Y
AGAAAGTTCCTGTAGGCCGGGCGCAGTGGTGCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACAAGGTCAGGAGATTGAGACCAT
Celera SNP ID:            hCV26167322
SNP Position Genomic:     30469
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40547):
CTGCCCGAAAAGTCCCGAGGAACATACTTGGAGAGAGCTAACTGCTTCCCGCCTCCCGTGTTCATCATCTCCATCAGCCTGGCCGAGGTGAATGGGGAGC
R
GGGTGGGCACCGGGGTAAGTGGCATGGGGAAGCTGGGAACAAACTAGGGGTCAGATCTAGATCTAGAGAAGAGACTGGGAACATGGGAGAGAGCTTCGTG
Celera SNP ID:            hCV25984774
SNP Position Genomic:     28847
SNP Source:               Applera
Population(Allele,Count): african american(G,10)   caucasian(A,6|G,14)   total(A,6|G,24)
SNP Type:                 INTRON


Context             (SEQ ID NO:40548):
CTCCTTTTCTCCCAAGGTGTCTTTTGCAGCTCACATTGCAGGTGGATTTGCTGGAATGTCCATTGGCTACACGGTGTTTAGCTGCTTTGATAAAGCACTG
M
TGAAAGATCCAAGGTTTTGGATAGCAATTGCTGCATATTTAGCTTGTGTCTTATTTGCTGTGTTTTTCAACATTTTCCTATCTCCAGCAAACTGACCTGC
Celera SNP ID:            hCV1976610
SNP Position Genomic:     61176
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,21)   caucasian(A,5|C,7)   total(A,14|C,28)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,5)      total(A,5|C,2) ;no_pop(C,-|A,-)   JBIC-allele(A,396|C,1049)   total(C,1049|A,396) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:40549):
GAAGAGGAGAAAATGAGAGAGGATGGGGGAGGTAAAGATCGGGCCAAGAGTAAAAAGGTCCACAGGATTGTCTCAAAATGGATGCTGCCCGAAAAGTCCC
R
AGGAACATACTTGGAGAGAGCTAACTGCTTCCCGCCTCCCGTGTTCATCATCTCCATCAGCCTGGCCGAGGTGAATGGGGAGCGGGGTGGGCACCGGGGT
Celera SNP ID:            hCV27837893
SNP Position Genomic:     28763
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40550):
CAAACTGACCTGCCCCTATTGTAAGTCAATTAATAAAAAGAGCCATCTGGAGGAAATAAAAAAAAAAGGAAGACTCTATGAAGAAACAGAGAAGTCTCAG
M
AAAGGCTAACAATTTTATATAGAGGACAAAACAGCATTAAACTCATCAGTTGCAAAGATTGCCTATAAAAGGACCTTAGGATTTAAGGAAGGGGCTTCTT
Celera SNP ID:            hCV1976611
SNP Position Genomic:     61364
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:40551):
TACTTGAACCCTTGAGGCAGAGGTTCTGGTGAGCAGAGATTGCACCACTGCACCCCTGGCTGGGAGACACAGCAAGTCACACACGCGCGCGCGCGCGCAC
R
CACACACACACACACACACACACACACACAGAAAAAAGAAAAAGAAAAAAAGAGTTGTCTGCGAAGAAAAATTAGAAAATGGAATTCTAGTTAAGCAAAT
Celera SNP ID:            hCV26167360
SNP Position Genomic:     36142
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40552):
GTAGTAGAGAACGTAGTGCCAGAGAGCAGGGTGTCCAAGAGCAGGGCAAAAGGGGTTCAGAAAGTCTTCCTTACAATGTGAGCTAGCACTGCTCCCAACC
R
TCAGAGGAAGTGGGGTACGGTGGAAACCATCACAGAGGGGATGGTGAAGAAGTGTATTTCATGTCACCTTCTGGCACTATGGTGTGGCCCACTTGAGAGC
Celera SNP ID:            hCV26167328
SNP Position Genomic:     31895
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40553):
TCTCCGGTGAGTTCAGTTTCTTTCTTTTATAAAATAGAAATTAGTTTACTGTCAAAAAGGGTTATCAAATAGGGGTTACAACGCTGTGATTTAGGGCAGC
S
AAATTTCCATTTGGAAGTTAAGAAAATTTTTAAGGAAATCAGACTTTTGAATTGTCCTTCCCACTTAACTCTCTCACAGCCCTGATCACTGGCTCTACTT
Celera SNP ID:            hCV25983148
SNP Position Genomic:     59907
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,31|G,1)   total(C,61|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:40554):
CATCACAGAGGGGATGGTGAAGAAGTGTATTTCATGTCACCTTCTGGCACTATGGTGTGGCCCACTTGAGAGCTGAATCATCTGAAACAGTTACTGCCCA
Y
GGGCTTGGATGGGGCCCCTCTCTGGAGAAGGTGTGGTTAATACTCATGTCTGCTCCCTCCATCAGCTGGCAGTGTTTATTTACTATGCTGTGTGGAAGCC
Celera SNP ID:            hCV26167329
SNP Position Genomic:     32023
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40555):
CTAGGGGGCGGAGATTGCAGTGAGCCAAGATTGTGCCACTGCACTCCACACTCTAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAACAAACAAACAAAC
M
AAAAAAAAAAAAAAAAAAAGAAAAGGAATAAAGAAAACTGCAAGTAGTTTGGTGTACAGGTACGTATTTGAGTAAAGGTCTAAAGCCAGATCATGGAGGC
Celera SNP ID:            hCV26167363
SNP Position Genomic:     37002
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40556):
GACAAAAAATTTGATCTTGGAGCCGATTTTAACTTGTAAAAAATAATTGTAGTTATTAACTTAAAAATGTATGAGACAGAACAGAGCTTCTTTAAAAAAA
T
TTTTTTTTTTTTTGCGACTGAGCCTAGCTTTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACTTCTGTCTCCTGGGTTCAAGTGA
Celera SNP ID:            hCV26167258
SNP Position Genomic:     12830
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40557):
TAGGAAGTTCCTAATGTAACCCTTTTAGTTCCCACTGATGCACTGATGCCTCAGCTTCCTTATCACAAACTGTATTAGTCAAGAGTTCTTCAGAAAAACA
S
AATCAATAGGTGTGTGTTCCCTGGGGGAAGAGAGATTAATATTTATTTTAAGGAATTAGCTCAAATGATTATGGAGACTTGGCAAGTCCAAAATCTTCAG
Celera SNP ID:            hCV11345873
SNP Position Genomic:     29614
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,12)      total(G,12|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40558):
GGGGGCGGAGATTGCAGTGAGCCAAGATTGTGCCACTGCACTCCACACTCTAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAACAAACAAACAAACAAA
M
AAAAAAAAAAAAAAAAGAAAAGGAATAAAGAAAACTGCAAGTAGTTTGGTGTACAGGTACGTATTTGAGTAAAGGTCTAAAGCCAGATCATGGAGGCCCT
Celera SNP ID:            hCV26167364
SNP Position Genomic:     37005
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40559):
ACAAAAAATTTGATCTTGGAGCCGATTTTAACTTGTAAAAAATAATTGTAGTTATTAACTTAAAAATGTATGAGACAGAACAGAGCTTCTTTAAAAAAAT
T
TTTTTTTTTTTTGCGACTGAGCCTAGCTTTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACTTCTGTCTCCTGGGTTCAAGTGAT
Celera SNP ID:            hCV26167259
SNP Position Genomic:     12831
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40560):
GGCCCATTATAAATGAATATGAGTTGAATGATTGGCTTTGCCTGTTAGTGAGCCAGGCCTACTGCTCTGCCTGGATATCTCACATGACTGTTATCCTTTA
Y
GTAGTTTGCATGCAGTGATTAAAATATTTGTTTCTTGTTTGCAGAGTAGAAAAGATTCATAAAATAAATAATCCAATAGTGCCAGTGATATAAACAAAGA
Celera SNP ID:            hCV26167291
SNP Position Genomic:     21969
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;(T,-|C,-)   (T,-|C,-)   Caucasian(T,60)   African-American(T,60)   Asians(T,58)   total(T,178)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40561):
CAGGCTCAGCTCCATGCCTTCCATCTATCCATCCATCCATCTAAAACTCATTCATCCATCCACAGCCAATAACAACTAATAATTATAGGGTGTTTACTAC
R
TGCCAGATACAGTTCTTTTCTTTTTCTTCGAGACACAGTCTTGCTCCATCACCCAGTCTGGAGTGCAGTGGTGTGAATTTGGCTCACTGTAACCTCTGCC
Celera SNP ID:            hCV11345874
SNP Position Genomic:     26389
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;(G,-|A,-)   Caucasian(A,18|G,32)   African-American(G,33|A,35)   Asians(G,21|A,51)   total(G,86|A,104)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40562):
TCTGGTATTTTTGCAAGGGGAAGGACTGAAGTGTCATTTTTTTGCATATGGATGTCTGTTCTAACATCATTTGTTGAAAAGACAGTCCTTTCTCCATTGA
M
TTGCTTTAGTATCTGTTGAAAATACAAATTGCTTTTGTATCTTTGTTGAAGTTGTTGTTTGTATATATGAGTGTGTTAATTTCTGGAGGTTCTATTCTGT
Celera SNP ID:            hCV1976580
SNP Position Genomic:     43795
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40563):
ATTATGTTGTCTGTACTTGCTAATTTCCCTTTTGATGTTTTCTTTGACACATGGGTTATTTAAAATGTGTTATTTAGTTTTTAAATATTTGTGTGTTTTT
Y
CAAAGATGTTCTGTTGTTAATATCTAGTTTAACTGTGGTTAGGGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTTGAGGTGGGC
Celera SNP ID:            hCV1976581
SNP Position Genomic:     44880
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40564):
GGGCGGTGACTCATGCCTGTAGTCCCAACATTTTGGGAGGCTGAGGTAGGAGGATTGCTTGAAGCCAGGAGTTCAAAGCCAGCCTGGGCAACAAGCGAGA
Y
CCTGTCTCAAAAAAAAAAGAAGTCCTGGCACGGTGGCTCACGCCAGCCGTAGTAATCCCAGCACTTTAGGAGGCCAAGGTGGGAGAATTGCTTGAGTCCA
Celera SNP ID:            hCV26167544
SNP Position Genomic:     7932
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40565):
GTGGTGGCTTATGCCTGTAATCCCAGCACTTGGGGAGGCCGAGGTGGGCGGATCATCAGGTCAGGAGTTCGAGACCAGCCCGACCAACATGGTGAAACCC
S
GTCTCTATTAAAAATACAAAAAAATTAGCTGGGCATGGTGGTGTGCACCTGTAATCCAAGCTACTCAGGAGGCTAAGGCAGGAGAATCGCTTAAACCTGG
Celera SNP ID:            hCV1976582
SNP Position Genomic:     45164
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40566):
TTTTAAGAGTACTTGTGGCCAGGTGGGATCTTTCTATGTTTCCTCTTGAGAATACTTGTGGATTACAGGCTCTCTCACACCTGTAATCTCAATGCTTTGA
S
AGGTCAAGCAGGGAGGATCCCTTGAATTCAAGGGTTTGAGACTAGCCTGGACAACATGGGGAGGCCACCATTTCAAAATAATAATAATAATAAAGTTTAA
Celera SNP ID:            hCV26167295
SNP Position Genomic:     23597
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40567):
TGAGCTTCTGTTTCAAGGGAAGTGAGTAACTGGTGGTGGAGCCCTGCCCCTCTGCAGTGTGTGGTTTTGTCCTGATATATTTTAAGATTGAGATGTAACT
Y
ACCTGTCATAAAATGCCCAGACTTATGATGTGTGGAAACAAAAGAGTTTTCCAGTACAGAAAGTTACTTAGCCTCTCTGGTGCTGTGTAAGCAACAGGTA
Celera SNP ID:            hCV1976583
SNP Position Genomic:     48825
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40568):
TCTGTATGCAGCTTTCTGCTCTCTGGTACCCTGTCTTGTAAACTCTAGCAGTCCAGATCTATCTGGACTCTAAACTTCATCTCATCAACTTAAAGTTTGC
Y
GAGATCTGCCTGGGTTCCTGCTTCATGCGCTGTATTCTGTAATCTCCCTCAAGGTAGTACCTGGGCAATCAGATAACTCATCTATTAATAACTGATTCCC
Celera SNP ID:            hCV1976584
SNP Position Genomic:     49099
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40569):
AGGCGGGAGGATCGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGTAACACAAGAAGACCCCATCTCAACAAAGAAAAAAAAAATAGCTGGGTATGGTGG
Y
GTGTGTGCTTGCAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGCTCACTTGAGCCTGGGAGGTAGAGGCTGCAATGAGCCGTGATCCTGCCACTGTAC
Celera SNP ID:            hCV26167297
SNP Position Genomic:     25380
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40570):
CCACTCAGATATCTTGTGGGAGCTTCAGGAGGAGTCTATGCTCTGATGGGAGGCTATTTTATGAATGTTCTGGTGGTAAGAACCATGGGGATGGAGTCCA
Y
GAGTCTCTTAAAAAAACAGAAAACAGTAACTCTTCTTTGTTTCAACGAACCTTCATTTATCAATATTTACTGAGCACTCAATTTTCTGAGAATTGTATGG
Celera SNP ID:            hCV1976585
SNP Position Genomic:     51827
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,11)   caucasian(C,12|T,4)   total(C,33|T,15)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40571):
TAAATGTCCAAAGGCACAGTTGTTGGAACATATGATAGTGGCATATTTTATTTTTTAATTTAATTTAATTTAATTCATTAATTTATTTATTTTGAGATGG
W
GTCTTGCCCTGTCGTCCAGGCTGGAGTGCAATGGTGCGATCTTGGCTCACTGCAACCTCCGTTTCCCAGGTTCAAATGATTCTCCCGCCTCAGCCTCCTG
Celera SNP ID:            hCV11262349
SNP Position Genomic:     38041
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40572):
GAATTGTATGGCAATGCCATTTTGTTTCCTTTCTTTTCTTTCTTTTTTTTTGAGACAGAGTCTTGCACCATTGCCCAGGCTGGAATGCAGTGGTGTGATA
M
TGGCTCACTGCACTTCTGCCTCCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCCTAAATAGCTGGGACTACAGGTGTGGGCCACCATGCCTGACTAATG
Celera SNP ID:            hCV1976586
SNP Position Genomic:     52017
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40573):
GGTGTGTGTGCTTGCAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGCTCACTTGAGCCTGGGAGGTAGAGGCTGCAATGAGCCGTGATCCTGCCACTG
Y
ACTCCAGCCTGGGTGACAGGGAGAGATCTTGTCTCAAAAAAATTAAATAAAAAAACCCCAAATGTTTCTAATTGCTAGTAATGTGCTCATTTGGTGCTAG
Celera SNP ID:            hCV26167299
SNP Position Genomic:     25478
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40574):
GTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAAATTGTGCCACTGCACTCCAGCCTGG
Y
GACAGAGTGAGACTCCAACTCAAACAACAACAACAACAACAACAACAAAATTCTAGGTAGAAAAGTGTAAAGCAATTATAAAACTGTTCCAAATATAGAA
Celera SNP ID:            hCV1976587
SNP Position Genomic:     53406
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40575):
TTGGATTGCAACCCATTAGTGGTTGTAGACTCACTTTAAGGAACTGTGGCCAAAAGTTAAACCCAAGAAAAAAAAAGTCAGTGTTATTGTTTGATTTATG
Y
GTGTACTGGGTTGTTATGTAAATTATTTCTTACTGTAGGTCATGGTCACAAGAGTTTGAAAATAATTGATTTAGAGTAAACATGCCTATTTCAGCATCTT
Celera SNP ID:            hCV1976588
SNP Position Genomic:     53635
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40576):
AGGTGATCCATCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCTTAAGGCCAGTATACTTTATATTGCATTATAACTGCCC
R
ATATTAGTATTTAGGAATATTAATGAGAAGAGATCAAATCATTGCAAAACCAAAAGCATGTTCCCCTAGTTGTCTAATGTTGTTAAATATACTCTTTAGG
Celera SNP ID:            hCV27907025
SNP Position Genomic:     33086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40577):
TGTTATGTAAATTATTTCTTACTGTAGGTCATGGTCACAAGAGTTTGAAAATAATTGATTTAGAGTAAACATGCCTATTTCAGCATCTTTACTCCTTGGG
R
AGAGAGTTACTAATTTGAAAGTGAAGGGACAAGTAATTCAATAAATTATATTAGAAATGTCTCGCTCAGCAGTTCGCCACTGACGCATAAGGGACCCAAA
Celera SNP ID:            hCV1976589
SNP Position Genomic:     53747
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40578):
TTCAGACTGCTGATCATCATCCTGATAAGTAAGTGTGTTTTGTGAATACTTCATACTGTCCAAGTGAAAATAAAATATAGAGACAAATCTCTAAACATTT
Y
ATTTGGGAATCACAGGATTGCAATTTGGGGCATACACACAGACCTGGGAGGTCTATGGTATGTCTGAAGTACAAAAGAAAAGGCTGGGGGTTTTATTAGA
Celera SNP ID:            hCV25983836
SNP Position Genomic:     54678
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(T,30)   total(C,4|T,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:40579):
TCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCACAAGAGTCCCTTGAACTGGGGAGGTGGAGCTTACAGTGAGCTGAGTTCGTACCACTGCACTCCA
K
CCTGGGCGACAGAGTCAGACCTTGTCTCAAAACAAACAAATAACAGAAAAACCAAGAGCCATTTTATTTCTTCATAATTATGCAAGTCAGGGATTTGGGC
Celera SNP ID:            hCV344659
SNP Position Genomic:     15294
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40580):
AAGTAATGGATCCAGAATTCAAGTCTAGGTCAGACTCTAAACTCCATGCTTTTTGCTCTGGTGCTTGCTGTCTTTCAAGTTTCTCTGTATTAGAAAGACC
M
GGCTGGGGGCGGTGACTCATGCCTGTAGTCCCAACATTTTGGGAGGCTGAGGTAGGAGGATTGCTTGAAGCCAGGAGTTCAAAGCCAGCCTGGGCAACAA
Celera SNP ID:            hCV11266635
SNP Position Genomic:     7825
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40581):
TGGGCATGGTGGCGTGCACCTGTAGTCCCAGCCACTCTGGAGGTTGAGGGAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGTAGTGAGTCAAGATTG
Y
GCCGCTGCACTCCAGCCTGGGCAACAGAGTGAGACACTGTCTCAAAAAAAAAAAAATTAGCAATGAGAATGACACTACCTGATTTGCATTTCAGAAGTGA
Celera SNP ID:            hCV1976553
SNP Position Genomic:     9722
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40582):
GAGGGAAATGGCAGGGAAGGGCTGAGGATGAGGACAGAGTAATTCCATTCCTCTTCCCTGCCCTTCACACTGGCTTTCCCTCCAGCCATCACGTTCTCCC
Y
AGCACCCCCTACCCTCCTAAGTTTTTCTAACTCCAACTAAGCCAGTTCCTAGCCCTTTGCTGACCTGGACACTGGAGACCACAGCCAGGGAGACAGTCTC
Celera SNP ID:            hCV11266638
SNP Position Genomic:     6452
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40583):
TTATATTGCATTATAACTGCCCAATATTAGTATTTAGGAATATTAATGAGAAGAGATCAAATCATTGCAAAACCAAAAGCATGTTCCCCTAGTTGTCTAA
Y
GTTGTTAAATATACTCTTTAGGCTATGAAAATGGTGGTGCTGAATAACCAGTCTCCTCCTCCACCATCATACATCAAACAAAATTTAGTTCATGGCCGGG
Celera SNP ID:            hCV26167338
SNP Position Genomic:     33164
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40584):
ACTTTGAGAGGCCGAGGCGGGTGGATCACAAGGTCAGGAGATTGAGACATCCTGGCTAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAG
S
TGGGTGTGGTGGCGGGTGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGCATGCAGTGAGCCGAGACTG
Celera SNP ID:            hCV1976554
SNP Position Genomic:     10691
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40585):
CCAACCTTGTGTGTATGAGTTGTAGGGAAGGGAGAGGGCTAGGTAGAAGGAACAGCAAGTACAAAGACCTTGAGACAGGAGAAGATTTGGTGTATTCCAG
K
AACAGAAAGACGTCCCTGTGGCTGCAGCACTGAGTCGTTGGGAGAAAGTAGTAGAAAGTGAATTCCACAAAGAAGGTAGGAGCTAGGTCATATAGGATCT
Celera SNP ID:            hCV1976627
SNP Position Genomic:     14603
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40586):
AGAGCTCTTTCCATGATACTTCCCTTTTCCTTCCTTCTCCATTCATGGGATTGTTAATTCAGCAAATACTTGCTGAGAAATATTTTCCACTTTTGTGGAG
S
TCATATTCTAGCAGAAAGAGACAGACAATAAATAAACTAACTATTTTTAGATAATGATAAGTGCTGGGAGAATATAAGTGGGGAAATGTAGTAGAGCATA
Celera SNP ID:            hCV1976628
SNP Position Genomic:     14333
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40587):
GGAGCTGTTAAAAAGGCATGCAGATTTCTTTTTTCTTTTTTCTTTTCTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTG
R
CGTGATCTCGGCTTACTGCAAGCTCTGCCTTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTTCCGAGTAGCTGTGACTACAGGCGCCCGCCAACACGC
Celera SNP ID:            hCV1976555
SNP Position Genomic:     16320
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40588):
CTCAAACTCCTGACCTCATGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTAGAGGTGTGAGCAACTATGCCTGGCCTGAGCCACTGCGCCTGGCC
T
TTTTTTTTTTTTTTTCTTGAGACAGAGTCTCTGTCACCCAGGCTGGAGTGAAGTAGCATGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCA
Celera SNP ID:            hCV26167372
SNP Position Genomic:     42009
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40589):
TACTATTACAAATACTATAATAGGGTACACAAATATATGTAATATGTTAAATAGCTGTGGGGCGGCCCAGACTCTGGTCTGAGATTCCCAGGTTTGTGCC
Y
CAGCTTTGCTGTACCTAGGTATGTAATCATGGATGCCTCTTTTTTGCCCTAGTTATTTACCTGTAAAATGGGAATAATAAAGAGGTCTTCACAGAGCAGA
Celera SNP ID:            hCV1976556
SNP Position Genomic:     17402
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40590):
CAATGTCAGAGCTCTTTCCATGATACTTCCCTTTTCCTTCCTTCTCCATTCATGGGATTGTTAATTCAGCAAATACTTGCTGAGAAATATTTTCCACTTT
Y
GTGGAGCTCATATTCTAGCAGAAAGAGACAGACAATAAATAAACTAACTATTTTTAGATAATGATAAGTGCTGGGAGAATATAAGTGGGGAAATGTAGTA
Celera SNP ID:            hCV1976629
SNP Position Genomic:     14326
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40591):
TGTGTTGGCCAGGCTGGTCTCAAACTCTTGACCTCGTGATCTGCCCGCCTCGGCCCCCCAAAATGCTGGGATTATAAGTGTGAGCCACCGCGCCCAGCCA
T
TTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTCACTCAGGCTGGAATGCAGTGGCGCGATCTCTGCATTGCTCACTGCAACCTCCACCTCCCGGGTTCA
Celera SNP ID:            hCV11262173
SNP Position Genomic:     13127
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40592):
GTTTTACAGCTGAGGAAACTGAGGCCCAGTGGAAAACTAAATGTGGATGCTGGGAGTAGAATTCAGGTCTTTATAGTGTCAAACACAAGGCAGGCTATTC
T
CAAAGGCAGATGGCAAGCCCTTTTTTTGGTAGCCATTATGACATGGCAGCTTCACAGTGATGGTGCCCAGTGATGGTAGAATGATAATGGAAGTGGTGCG
Celera SNP ID:            hCV1976557
SNP Position Genomic:     20221
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40593):
AAAAAGCAGAAACAGAGACCAGGTACCTAGAATTACACCAAATTCCATCACAGAGCCAGATAGGTGAGGACAGCCTCAGTGCTGCTGCTGCTGAACGCCC
M
GTGCTGCTGCGTTTGTCACAGCCACAGCTGGCGTTGGATGCTGGATGCCATGCTGACCCCAGTGGCAAGGCGTCTGGACACTGGATACTGCTGCCACTGC
Celera SNP ID:            hCV1976558
SNP Position Genomic:     21474
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40594):
ACAGAGACCAGGTACCTAGAATTACACCAAATTCCATCACAGAGCCAGATAGGTGAGGACAGCCTCAGTGCTGCTGCTGCTGAACGCCCAGTGCTGCTGC
S
TTTGTCACAGCCACAGCTGGCGTTGGATGCTGGATGCCATGCTGACCCCAGTGGCAAGGCGTCTGGACACTGGATACTGCTGCCACTGCTGCAACCACTG
Celera SNP ID:            hCV1976559
SNP Position Genomic:     21485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40595):
GGCAGCAGAGCTGCTGCAGGAGCTGAGCTGCCTCCTCAGTTGTTCAGGGTCACACCCAGAATCAGAGGACACATTGTTTGGGCACAGAATTGTTGTCACC
Y
GAGATACGGGGTCTTCAGTCAGTCTGCTTCATTTCTAAAAGTTCTTTGGCCTGGTTTACCTACTATTGAAAATGGGAAGAGTTACAACACATACCAGATT
Celera SNP ID:            hCV1976591
SNP Position Genomic:     56284
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40596):
TTACAACACATACCAGATTAATAAAATATAAGTGCATCTGTATTTGAAATGTGTTTCTTTGGAAATGTATATAATTTTGTAATATGTAATATGTAATGTG
K
ATAAAGTTGTAAATATTCTTCTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGTAGTGGTGTGATCTTGGCTTAC
Celera SNP ID:            hCV1976592
SNP Position Genomic:     56466
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40597):
CGCTCTGTTGCCCAGGCTGGAGTGTAGTGGTGTGATCTTGGCTTACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGTCTCAGCCTCTCCTGTC
W
ACAGGTGCATGCCACCATGCCTGGCTAATTATTGTATTTTTAGTAGAGATGGGGTTTTACCATATTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTG
Celera SNP ID:            hCV1976593
SNP Position Genomic:     56621
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40598):
ATGTGGCAGTGTTTTTTAAAAACACTTTCCTAGACCCATGGGCATGTTATTTATGTGGACCAGGAAATGCAAATGATGATTGAAAATATGGGCCAGGCAC
R
GTAGCTCACGCCTGTAATCGCAGCACTTTAGGAAGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCTCATGGTGAAACCCCGTCTCTACTAAAAATACA
Celera SNP ID:            hCV1976595
SNP Position Genomic:     57460
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40599):
AAAAATTGTCCACTTCACAGCACTAAGCAGAAAGAAGTAAACGAAGGAGTTTTACAGGCTCTCATGGGTGGTTCTTAGACATGCCTACGTGATGTATTTT
K
GCTTTTAGTATCTTTATGGAGTGGGGGAAGCCAAGAGAATAGAGCCCTAGGCACCCCCTCTACTTGAACCACAATAGCTTCACTTATATTTTATATACTG
Celera SNP ID:            hCV11262359
SNP Position Genomic:     55298
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40600):
GGATGGGTGTGGAATGTGATAGCTGCAAGAGATGTTTCCAAGCACTACACATATAGGGCAGAGTTCTTCTAGGCCAAGAAGTCGGAAGCTCCTTTTGCAG
Y
GCAGATCCGACTTACTTGACGACTGCCTAACTTCTGGCTCTCACAGTTTTATTGGAGAATATGGAATGATTTCCTTTCATGGCCTGACACCTTCAGAACT
Celera SNP ID:            hCV1976596
SNP Position Genomic:     58070
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40601):
TCAAGTGACTCTTTTTTTTCTTTTTTTAGACAGAGTCTAACTCTTGTCGCCCAGGCTGGAGTGCAGTGGTGGATCTTGGCTCACTGCAACCTCTGCCTCT
S
AGGCTCAAGCGATTCTCCTGCCTCAGTCTCCCAAGTAACTGGGATTATAGGCATGCACCACCATGCCTGGCTAATTTTTGTGTTTTTAGTGGAGATGGGG
Celera SNP ID:            hCV9643740
SNP Position Genomic:     47224
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40602):
AGCTGCAAGAGATGTTTCCAAGCACTACACATATAGGGCAGAGTTCTTCTAGGCCAAGAAGTCGGAAGCTCCTTTTGCAGTGCAGATCCGACTTACTTGA
M
GACTGCCTAACTTCTGGCTCTCACAGTTTTATTGGAGAATATGGAATGATTTCCTTTCATGGCCTGACACCTTCAGAACTCCCGATGGTAATTACAGGCA
Celera SNP ID:            hCV1976597
SNP Position Genomic:     58090
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40603):
TATTTTTCCAGCTGGTCTTCCAGTTCCTGTTCTTGCTCCCTTATAGTCTACTTCCTATATGGCAGCTAGAATAATCTTTGTAAAACCATCAGTGTGGTTG
M
TCAAGCCTGTAATCCCAGCACTTTGGGAGGTCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGAGTTGGAGACCAGCCTTGTCAACACGGTGAAAT
Celera SNP ID:            hCV1976598
SNP Position Genomic:     58383
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40604):
CTCAAGCCTGTAATCCCAGCACTTTGGGAGGTCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGAGTTGGAGACCAGCCTTGTCAACACGGTGAAA
Y
GCTGTCTCTACTAAAAATACAAAAATTAACCGGGCATAGTGGCACATGTCTGTAATCCCAGCTAATCAGGAGGCTGAGGCACGAGAATTGCTTGAACCTG
Celera SNP ID:            hCV1976599
SNP Position Genomic:     58483
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40605):
CTTGGGAATAAGAAAACTGAAACTTATTGCTCAAACATTTGATGGTCATCTACAAGCTGGTGGGCAGCATGGCAGAGCAGAAAATTATTTTGGAGTCACA
R
AGACACTTGGCTTTTTATCCCATATCTCCTGTTTACCTCCTGAGCCTCAGTTTCCTCAGCTATAATTTTTTTTTAAAGAGACAGGGTCTTGCTACCTTGC
Celera SNP ID:            hCV29016270
SNP Position Genomic:     6829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40606):
ATAAGGGCAAATGTAATCCTTATTTTTGTAGCTCCTTTTATACAGTTGTATTGTTAACAATGTGACATTTTATTTCCTCATAAAATGATTATGTATGATA
Y
TTAGATACAAAAAGGCTGATTTATACAATGTGAACTGTCCCTAATTGAACTTATTTTTAAAATGCTTTAATATTTGTGGTTAAAAGCTGCTGATCTTAAA
Celera SNP ID:            hCV26167300
SNP Position Genomic:     25864
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:40607):
CTGTAATGTAGTGGTGCCATCTCAGCTCAATGCAACCTCCGCCTTCCAGGTTCAAGCAATTCTAGTGCCTCAGCCCCCCGAGTAGTTGGGACTACAGGCA
Y
GTGCCAACATGCCTGGCTAAATTTTTGTATTTTTAGTAAAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACATTGTGATCCTCCCG
Celera SNP ID:            hCV11266641
SNP Position Genomic:     3263
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40608):
TTGTGAAGACCTGTGAGGTATGACACTGATAAACATCGCCGGCCATGTGTTTGCTGGTGGGGATGAAGTTTCTGGTTAGGTGAGGGGAAGTAGCTTATCC
R
TAGGTAAGCAGGGGCAGAATTGGAGCAAGGACCAGGATTTTCTGACTCCTGCAATGTCAGAGCTCTTTCCATGATACTTCCCTTTTCCTTCCTTCTCCAT
Celera SNP ID:            hCV1976630
SNP Position Genomic:     14174
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40609):
GAGCTCAGTGTCCTGGAGAAAGAGCAGAGGCTGCCACCGGCTCCCTGGCTAAGACCCAAGCAGGCGAAGAGGAGGACTCATTCATCCAGGGCCAGCCCAG
K
AGCAAGACTGCCAAGCAGGCCGGCCCAGCCCAGCTGGGAGGGGATTTCCTCAGCCTCCCTCCTCCTGGGCTGGGCAGCTTTGGAACCTGTCTGGAGGATT
Celera SNP ID:            hCV469035
SNP Position Genomic:     5884
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:40610):
GTGCTCGAGTGCCAAGTAAATGAATGGACAGATGTTGATGCTTGAATATTTCTTTGAGACTAGAATGTGTTGTAATCATTATTTTGTTTTGAGACTCCTG
M
TCCATTCAATTGGGCTTCCAAAAATTCTGGTAATCTGACGTGTGTTTCTGAACGCTGTATCCCAAGTTTGACCTATAGAGCCCATGGAGTTTATATACAG
Celera SNP ID:            hCV1976560
SNP Position Genomic:     24162
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40611):
TGTGTTGTAATCATTATTTTGTTTTGAGACTCCTGCTCCATTCAATTGGGCTTCCAAAAATTCTGGTAATCTGACGTGTGTTTCTGAACGCTGTATCCCA
R
GTTTGACCTATAGAGCCCATGGAGTTTATATACAGGCCATGCCCAAGGAAGGACAAAATTAATGACAACATGACCTTCGATTAGATTTGCTTTGTGAGGC
Celera SNP ID:            hCV1976561
SNP Position Genomic:     24227
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40612):
GGGCGTGGTGGCAGTCACCTGTAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCGCTTGAATCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGC
R
CCACTGCACTCCAGCCTGGGTGACAGAGTGACTCTGTCTCAAAAAAACAAAAAACAGGAGAGAATGGATTTTCCTGTCCACATAGAATAAAAAGCAGTTG
Celera SNP ID:            hCV26167451
SNP Position Genomic:     60290
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40613):
GGGTGGATTTCTAGAGGTTGGATGTTTCTGTTGAAAGGTATATGCTTTTAATAGTTTATACACATTGGCCAATTGCTTTCCAAAAGGCTGCATTAATTTA
Y
ACCTCATACATTGCACCCATTGCCACACACCTCATAAATATGGGATATTCTCAGCCTTTTTTTTTTCTTTTTTTTGAGATGGAGTTTCACTCTTGTCACC
Celera SNP ID:            hCV1976562
SNP Position Genomic:     24633
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40614):
GCTACTCGGGAAGCTGAGGCAGGAGAATCGCTTGAATCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAG
Y
GACTCTGTCTCAAAAAAACAAAAAACAGGAGAGAATGGATTTTCCTGTCCACATAGAATAAAAAGCAGTTGGTTTAGCCAGGCATGGTGGCATGTGCCTG
Celera SNP ID:            hCV26167452
SNP Position Genomic:     60319
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40615):
GGAGGCTAAGGCAGGAGAATCGCTTAAACCTGGGAAGCAGAGGTTACAGTGACCTGAGATTGCGCCACTGTACTCCAGCCTGGGTGACAAAGCGAGACTC
Y
ATCTCAAAAAAAAAAAATAATAAAAAAAATAAAAAAATAAAATGAAATAAAGTAAAACAAAACAAAAACAAAAATTAGCTTGGTGGTGCACACCTGTAGT
Celera SNP ID:            hCV26167380
SNP Position Genomic:     45332
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40616):
TTATACACATTGGCCAATTGCTTTCCAAAAGGCTGCATTAATTTATACCTCATACATTGCACCCATTGCCACACACCTCATAAATATGGGATATTCTCAG
Y
CTTTTTTTTTTCTTTTTTTTGAGATGGAGTTTCACTCTTGTCACCCAGGGTTGAGTGCAATGACACGATATCAGCTCACTGAAACCTCTGCCTCCTGGTT
Celera SNP ID:            hCV1976563
SNP Position Genomic:     24688
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40617):
GGGTTTTTGTTTGTGATGAAAAAGTTTTGGAACTAGTGGTGATGGCTGCACAACATTGCAAATGTACTCAATGTCACTGAATTGTACACTCTAAATGGTT
R
AAAACAGGGCCGGCTTCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGTGAATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGG
Celera SNP ID:            hCV1976564
SNP Position Genomic:     27919
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40618):
TGCTGTCTGGAGAGGGGATGGAAGTGCAGCTGAGTCTGAGAGTAAAGGTAGATTCCAGATGACAGCAGGCCATAGAGCATGGAAGAAAACAAGAGCAAAG
K
TGGGGGTGGTAACTGGTGTTGACAGACCTGCTCCAGTTGAAGTTCTCTCCACCTGGAGGGCTGTGGAAGAATGACAGACCCTGGGGTCAGACCTGAAAGC
Celera SNP ID:            hCV11262360
SNP Position Genomic:     55795
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;JBIC-allele(T,413|G,1080)   total(G,1080|T,413)
SNP Type:                 INTRON


Context             (SEQ ID NO:40619):
GAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTGCACCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGACTACAGGCATGTGCCA
M
CATGCCCGGCTAATTTTTGCATTTTTAGTAGAGACGGGGTTTCACCATGCTGGCCAGGCTGGTCTCAGACTCCTGACCTCAGGTGATCCACTGGCCTCGG
Celera SNP ID:            hCV26167383
SNP Position Genomic:     46074
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40620):
CTGAGGTGGGAGAATTCGCTTGAGCCTGGGAGGTCAAGGCTGCAGTGAGCCGTGAACATGCCACTGTAGTCTAGCCTGGGCAGCAGAGCGAGGTTGTCTC
A
AAAAAAAAAAAATCCATATGAAGGCAACTCTTTTAAAGTAAATGTTAAATTTTTAAGGAGGACAATGGTTTGGCTTCTTGGAATAAGGGCTTATTTTCAG
Celera SNP ID:            hCV11262364
SNP Position Genomic:     57050
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,8)   total(A,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40621):
TTTTGTACTCTAAGAATGGGTGAAAATGACATTTTTAAGCTTTGTATCTTTCAGAGTATCTCCTTCTCTCTGTGCACATGGAGTTTTGTGTCTCTTTTGC
Y
TTACCCCTAGTTCTCTAGACCTTTAAGACTCTTGTTTAACTGTGACGGTATTTGTGTTTGAATAAGAGAGATGCAACTGAAATACACAATTAGCATTGTC
Celera SNP ID:            hCV27483504
SNP Position Genomic:     60955
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40622):
GGGTCACAGTGAATCTGTTCCTCCTAATAAAAGTTTGGAAATTTATAAATAGTTTCCTTTTGTATAATCTGGAATAAGTTCAAGGATACTACTTGCAATA
M
CTTGTGCTTTCTTATGCCAGAGAGCTAGAGATGGAGGTGTAGAAGGGTTTCCAGGAATTATATCTAGCTCTGAGTGTGCCCAGTGAGGGTGTGTCAAACT
Celera SNP ID:            hCV29016248
SNP Position Genomic:     10098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40623):
ACACCTGACATTCTTCAAAATTTTTATGGGGATTTATGAAGACTTGTGGACACAGCACGGTGGATAACTCCTGTAATCCCAGCTCTTTGGGAGGCCAAAG
K
GGGTGGATCATTTGAGGTCAGGATTTTGAGACCAGCCCAGCCTACAAGTGAAAGCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATAGTGGTGGG
Celera SNP ID:            hCV27965544
SNP Position Genomic:     13826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40624):
GATCAAACTTGATTTTCCTACTGTGATTTCTTTCCAATTTCTTCATCAAGTTAAAAATTCTGTATTGAGAGCAGTTTCCTACATTACCTCAAATCCTGTT
S
AAACAAGGATTATCCCTAGAAGTCAGAAAGGAGGGAAAACAAGCTTAGTCACAGAAGACTACTCTATACTTGAGCTTCTGTTTCAAGGGAAGTGAGTAAC
Celera SNP ID:            hCV27965545
SNP Position Genomic:     48654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40625):
GAGTTGAGACTCTGTCATAAACAAACAAACAAAATCTATCATGTCACTCCTGTGCTCAAGAGCTTTCAAAGACTTCCTATCACTCAGTAAAGGTTGAAGT
S
CTTACAATGGCCCATATAGACCCTACATAATCTGTCCCCTGCTACCTGTCTGACCTCATCACCCACAACCTTATCCCTAACTCTAGTCCAGAATCACTTG
Celera SNP ID:            hCV1976600
SNP Position Genomic:     58741
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,6)   total(G,5|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40626):
GTCCTTACAATGGCCCATATAGACCCTACATAATCTGTCCCCTGCTACCTGTCTGACCTCATCACCCACAACCTTATCCCTAACTCTAGTCCAGAATCAC
Y
TGGAGGTCTTGTTAAAACAAAGTTGTTGGAAACAACTTTACCACAGTTGGTAGTTGGAAAACACAGCCATGGAAGTAGGAATCTACTAAGGAGAGTACAA
Celera SNP ID:            hCV1976601
SNP Position Genomic:     58839
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40627):
TCTGAAGTACAAAAGAAAAGGCTGGGGGTTTTATTAGAAAGATAAATTTTACATATTATTTTGAAAGAAAGCTCATTGGCACTAGAGCAGCCTTTGGGAG
Y
TGGTTGGTGAGTGATGGTAGTGGGGAGAACTAGTCTTAGACTTGTGTTGTTTAGACCTGATTCTTAGACTCAATTTGTTTCAGCAGCTATTAGGTAAAAC
Celera SNP ID:            hCV130034
SNP Position Genomic:     54841
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40628):
CTAGTCCAGAATCACTTGGAGGTCTTGTTAAAACAAAGTTGTTGGAAACAACTTTACCACAGTTGGTAGTTGGAAAACACAGCCATGGAAGTAGGAATCT
R
CTAAGGAGAGTACAACTCACCTTCTGAAAACAAAAACAAAAACAAAAACAAAAACAGAAAGCTGAGTCCCACCCTTAAGTTTTCTGGTTCAGTAGGTCTG
Celera SNP ID:            hCV1976602
SNP Position Genomic:     58924
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40629):
AATCACTTGGAGGTCTTGTTAAAACAAAGTTGTTGGAAACAACTTTACCACAGTTGGTAGTTGGAAAACACAGCCATGGAAGTAGGAATCTACTAAGGAG
M
GTACAACTCACCTTCTGAAAACAAAAACAAAAACAAAAACAAAAACAGAAAGCTGAGTCCCACCCTTAAGTTTTCTGGTTCAGTAGGTCTGGGGTGGGTT
Celera SNP ID:            hCV1976603
SNP Position Genomic:     58933
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,5)   total(A,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40630):
GAGGTCTTGTTAAAACAAAGTTGTTGGAAACAACTTTACCACAGTTGGTAGTTGGAAAACACAGCCATGGAAGTAGGAATCTACTAAGGAGAGTACAACT
Y
ACCTTCTGAAAACAAAAACAAAAACAAAAACAAAAACAGAAAGCTGAGTCCCACCCTTAAGTTTTCTGGTTCAGTAGGTCTGGGGTGGGTTTAAGAGTTT
Celera SNP ID:            hCV1976604
SNP Position Genomic:     58942
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40631):
GCTGCTGGTCTTGGTAAAAACCACTTTGAAAACTACTGATCCAGCCAGCTCAACTGCTTTGGTATTTTTCAAACACACCAGGCACATTCCTGCTTAGGGA
S
TTTGTACTTGGTCTTCCCTCTCTCTGAAACACTCTTATGTCAAATAGCAGCATGACTTGGACCCTTACCTCTGTCCAGCGTCATATTCTCAAAGAGATCC
Celera SNP ID:            hCV1976605
SNP Position Genomic:     59175
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40632):
TCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCAGTCACCTGTAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCGCTTGAATCTGGGAGGC
R
GAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGTGACTCTGTCTCAAAAAAACAAAAAACAGGAGAGAATGGATTTTCCT
Celera SNP ID:            hCV1976606
SNP Position Genomic:     60265
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40633):
TGGGCGTGGTGGCAGTCACCTGTAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCGCTTGAATCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCG
Y
ACCACTGCACTCCAGCCTGGGTGACAGAGTGACTCTGTCTCAAAAAAACAAAAAACAGGAGAGAATGGATTTTCCTGTCCACATAGAATAAAAAGCAGTT
Celera SNP ID:            hCV1976607
SNP Position Genomic:     60289
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Gene Number:                 189
Celera Gene:                 hCG25509 - 209000105734216
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W0QP(50367745..50391091)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12349):
GGAGGAGGTGCTGGCATCTTTGAGTCTAATTTGGCCCCTCTGCAGATGGTGCTGCAGCATCTCAGGCACCTTCCAGTCTGTTATGGGCTGCTTTTCCCCC
ATAAAATTCGTATGTTGGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCAGTCCAATCACCTGAGGTCAGGAGTTCAAG
ACCAGCCTGGCCAACATGGTGAAACCCCGACTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGTGCGTGCCTGTAATCACAGCTACTCAGGAGGCT
GAGGCAGGAGAATCACTTGAATCCAGGAGAATCACTTGAATCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCGCCACTGTACTTCAGCCTGGGTGAC
AGAGAGAGACTCCGTCTCCAAAAAAAAAAAAAATTCGTATGTTGAAGTCCCAATCTTAGAATGTGACCTTATTTGGAAAATTCCTTATAAAAACACGTGA
CCTTTAAAGAGGTAATAAGTTAAAATTAAGTCATTCGGGTGGACCCCAACCCATATGAAGAGGAAATATGGACACAGACACGAAGTGGGAAGGCCCTGTG
TTGACCCAGGAAGAAGGGGGGGCGCTACCCACAGACCCAGAAAACAGCCCCAGGAGAAACCAGCCCCACACATGCCTTGACTGTGGGCCTCTGGCTTCCA
GAACTGGGAGAGAATAAACGTCTGTTGTTGAGGCTCAGTCCCTGGTCCTGTCGTGGCAGCCCTAGGACACTGGATGCATGGGGCCGTCCCTGCCCTCAGC
CCTAGGATGCTGGTGCACTGGCCTGTCTCTGCCCTCAGCCCTAGGACAGTGGGTGCATGGGGCCGTCCCTGCCCTCAGTCCTAGGATGCTGGTGCACCGG
CCTGTCTCTGCCCTCAGCCCTAGGACACTGGGTGCATGGGGCCTTCCCTGCCCTCAGTCCTAGGATGCTGCTGCACGGGGCCACCTCTGCCCTCAGCCAG
AGGATGCTGGTGCAGGAGGCTATTTCTGCCCACCTCAGCACCCTGCAGCAGCCCCATCACACACCCTGGTGGCCCCAGCCCAGGTTGGGACAGGCCTGGA
TCCGTTCTCCTTGGATTTTCCCTGAGTTGTTTCCTAAGACGCTCGCTGCGGAATCCCCCTATGCAGGGGTGAGGCTGCCTCTTCTGGGAAGTGTCAGTGG
CCCTCCCTGCGGCACGTTGCCCGCCTGACCCCCTGGTGTGGGGAGTGGGGCCCCGCCTCCACATCTTTGCCCCTGCCCAGGATGCCGTCCCTTCTCACTT
CTGAGTGTGTCCTGTCTGTCCCTAGGGCCCCATCCCTTTCTCTAGCTCCTGAAGCCCCCAGGAATGGCATGTGGCTCTCAACTGCTGCCTTTGCTGTCAC
CGTGAGCTTCCCTGACAGGCAGGGTGCAGGGGTCTCGGGATGAACTCGATGGACTGGCCCAGTGCTAGAGCCTCTGTCCTGGAGGGAGGGGTCCTTCTGG
GCTCCGGCACTGTGGGCTGAGTGTCCCCCGAGGCCAGCGCCTGCTTCCGCTGGCCTCTGAGCAAAGGAGAGGTTGGTGGTGTTTTGGGTGGCAGGCAGCG
TCCACCCCCTGCTGCCTCGAGACCCTGAGTGCCGAGCTCCGCAGCCTTCCCCTCCCTTGTTCTCTGACCCTTGGACTGAGCCCTGAGCTGTCTGGAATGG
AAAGCTGGAGTGACTGCCTCCGGAACGAAAAGGAAGTGGGAACTTCTCTGAAAGTGAAAGTATGGGGTCCTGGTGGAGGGTAGGGCTGTGGGTGGGGCCG
GGTGGGCCTGGCAGGCGCTGACCATGGCTGGGAAGTCCCAGCTGTTGGTCACTCGCTCAGGCTGCTCTAGAGGCCCCATAGCCAGGGCCCGGCTCTGAGG
GCCCCACGGGCCAGCTTCTCAGGGGGCTGTGTTCTTCCTGGGCCAAGGCTGCGTGCTCAGCAGGTATGTTCTGGGCAGGTGGAGCAGGAGGGCATGGGGT
GCTGTGGGCGGGCTTGAGGACCATTCCGGCTCTGCGTGTGGCCTTCCAGGCCAAGGGCCTCACTCAGAGCCCAGGCCGACCAGGCCAGAGGGCCAGCGCA
AATCACAGTGGACACACACACACCCGATACACAGGCAGACACACTCAGGTAGAAAGCACAGATAGACAGACACAGAAGACACCAAGGTGGGCATGCAGGC
ACAGACACAGACTCAGAAGCACTGGCAGACCCTCTGGGGACACTCCAGGGCAGAGTCATGCACATACAGGGAGACACTCTCAGGCCAACACACAGATGTG
CAAAACCGACGCCCAGAAAAGTGTGTATATGCCCGCGCGCTCAAGCTCAGGCATCAGATTCACTTTCCTGGTTTCCCCGGGAAAGTGCCGAGTACTAGCC
ATGGCTGGGGGCTGAGTCAGGCTCACTCCCTGCCTTGCGGGTCTCCYGGTCTCCAGGCTCTGTAACTGTCCCTCCGTCATGGCAGGTGTGCCCAGGGCTG
GGATCAGGCCCACAGCAGGAGGTGCCGAACATGGTATGGGCTCAGCTGGTCCGGGAAGGCTTCTTGGGGGAGGAGCCATTTCTGCTGAGCCTTCAATGAG
TTGACAACTGAAGAAGGAGGGGCTGAGGTCATTGTAGGCAGAGAGGATGGCCTGTGCAAAGGTGTGGAGGAGAGGTGGGTACTTCTGAGTGATCAGAGTG
AGGGAATGAGTTGGGACTGAAGCCAGAGGGGTCATTAGGAGAGGCCTTGAATGCCAAGCTAAGGATGGAGCTGTGCTTCTTCCGAGGGCAGCAGCGGCTC
AGGGGGCTTATGCTTTGTTGCTACTGTGAAGGGAAGTCTTTTAAGTGTCTCTTTCTAATAGGCTTTGCTAGGGTATAGGAAAGGTGTTGCTTGTATTTAC
ATAATCAATGCACAAAATTTACTAAACCCTTTTATTAGCTCCAATAATTTTCAGCCTCAGATTTTCTAAGCCAACAATCATATCACCTATGAATAATGAC
AGTTTAATCTGCTCCTTCCCAGTGTTTACATCTCTTATTTATTTTTCTTTCCTTATTGCCTTAACTAGTTCTTCCAGCCAAATGTTGAGGAGTAAGAATG
GTGAGAACAAACATCCTTGTCATTTTCCTTATTTGCAGGGGCTGGAAGGAAAAGGAAAGCTTGCAAGGAAAGCTTTCAAAGGAGGTTTATAGGGCCGGGC
ATGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTATTTGAGGCCAGAAGTTTGAGACCAGCCTGGGCACACATAATGAGA
CCCCTGTCTCTACAAAAAATATAAAAATTAGCCAGGCATGGTGTTGCGCACCTGTAGTCCCAGCTACTTGGGACGCTTAGGTGGGAGGACTGCTTGAGTC
CAGGAGTTTGAGGCTGTGGTGAGCTATGATCGCATCCCTGCACTCCAGCAGTGGGTGAAGTGACACAGCGAGACCTCGTCTCTAAAAACAAAAAACAAAG
GAGGTTGACGTTTTGGCAAGATTCTTTTTTTTTTTGCAATTGTAAGATTTAGTAGAGTGAAAACAGAGCTCCTATACAAAAGGAGGGGACCCAAAGAGGG
TAGCTGTTGCCAGCTCAAATGCCTGGGTTTATATCCCGATCATTGTCCCTCCCACTGTGCTCTCAGGCGATAGATGATTGGCTATTTGTTTACCTCCTGT
TTTTGCCTAATTAGCATTTCTGTGAGCTCTCTTTAATACCTGATTGGTCGGGTGTGAGCTAAGTTGCAAGCCCCATGTTTAAAGATGGATGCAGTCACCT
TCCCAGCTAGGCTTAGGCATTCTTAGTCGGACTAGGAAATCCAGCTAGTTCTGTCTCAGTCCCCCCTCTCAACAGGAAAACCCAAGTGCTGTTGGGGAGG
TTGGCCAACGACCGTCTAAGTGCTAGGCAAGATTCTTATGACTGATCCGAGGAGGCAGCATTGAGGGGGCCTGGGAAGGAGAGCAGCTCGGAGGCTGTGA
TCAGGTGAAGGTGGATGGCAGGTGGGGAAGTGAGAGGGGACAAGCCCCGCACAGGGCTTCGGCCCAGGGCACAGTACAGGCAGTCACCTGCAAGAGGCTC
CTTTGGAGCGTTGAGGAGTGGAGCGATGGTCCAGTCCCAGCGTAGTTGGGGAGGCTGGGGAGTGGGTGAGCACTGCAGAGTGATTGGGAGGATGAGGAGC
AGCTACGGGAGGGAAGGTCTAGGGGAAAGCGGGGAGTAGAAGCTGAGGCTGGGGGTAGGGAGGGTGGGGAAGTTCGGACTTGACTTCTCGGACACAGCTA
GGGTGGCCCAGGGTGGGAGCTCTCAGTGACTGTGTCTCTGGGTGGTTTCTTGCCCCTGCTGCTGGCCCCACAAAGGGTGTATTAGCCTGACCTGGGGAGA
GTGGGACCCGGGGCTCAGGCCGGGCGTCAGTCTCTGGGGCCTTGCAATCAGGGAGCGGCAGCATAGGAGCCGGGGCCCCCTGGACTCTCCGGGCACTGGG
GACAGAGAGACGCAGAGAGAAAAGAGAGCCAGAGAGAGTCCATGGGGGTGTGGGGAGGCAGGCACAGGGACAGGCCAGGCGAGAGCCTTGGGAGGTGGAG
GGGGGAGTTGAGAGGGGCCTTCAGGTCTCAGCCCCGCAGGCGCCAGCATGGCAGCAGGCAGGCCAGCCGGGGGTGGCAGGGCGACCCTGATACCGATGTT
CCGCCTGCTTCCAGGCTGTGCTCAGGGGTGACCGGGGTAGATGGACAGAGGCTGCCAGCCCAGTGCAGGAGGGCCACATCATCACAGGGACAGTGCCGAG
TACCCACTGAGCAGATAGATGGTGACGGCCGGTGGTGCAAGGCATCTGAACCCCGAGGTCCTGAAACCCAAGTCAGGTTTGGAGAACAAACAGGGGCCAG
GAAAGGGAATGGCCGGAGGGGAAGCTGGAGGCTGGGCGTGCAGCCGGGAGGACAGAGAAGAAGCTGGGTGGGGTGCAGGTTGTCCGTGAACCCCAGGGGA
AGCTGGTGAGGTGTCATCAGCGGGAGGTGGGGGGTGGAGGAAGGAGGTTCCAGGATGGATGCCCGGCTGTGGGGCTCGGGCAGGAGGGAACCATGGAAGG
GCTTAAAGCAGGGGAGTGACCTGGCTGGACTTTTGCTTTGGGAAGGTCGAGAATAGCTTGGGAAGCTGTTGGGAGCTGCAGGGTCGAAGGTGGCATGGCT
GGAGGCTGAGGGGCCATCTGGGGACCTCACTGGCCCTTCAGCGAAGTTCTGGTTTGGGACAAAAGCAGGCTGAGTGACCCCCAAGCCTCTGCCTATGTAA
CCTCCTAAGAGATTCACCGCACAGCTGCCCCTCCTTACCCGGCGCTCGTCTGGGCTTCCTGGGAGAGAACCTCCACATCTGACCCCACTCTGGGACCTGC
TGACACCTTGGGTCTCTCCGCCGGGAGGGGAGCTTCTGGGCGGCAGTTCTGAGTCCCTGGGGGTGGAGACGTGGCAGGTCCCGCCTCTGCTCCCAGCTCC
AAGCAGGCTCCCCAGCCTGAGTGCGCGGCCAGGGGCAGACTCTGTCCCTCTGTGAGCCTCAGGTTCCTCATCTGTGAAATGGGCAAATGACAACCCCTAA
CTTTGATGTCACAGTAGCTGATCTGTGTCAGGCATCGAGCTGGGCACACAGTAGGTGCTTACTAAGTGTGAGTTCTCCCAAACAAGAAGGCGGGGCCTGG
CTTGTCCTTCCCCACATCCCCGCCTCCGTCCTCTTGACAGCGGTGGATGCAGCATGTGCTGAACCGTTCTCTTCACAACACCCCTGCCCTGCTGGGCGCC
GGCCCCCATGCCAAGCATGAAGGGGCACCGGGGAGAGAGAAGCGAGTGGAGGCTGGGACAGATGGTGCCCTGAAGTGTGGGTCAAGTCCGAATCAGGCAG
GGTCCCTGAACCCTGGCGCTGGGGGAAGTCGCCGACCTGTGGCCAGGGCGGGGCTGATAAAGCTCCATCAATCACTTGACTGTCTCTCCTTCCTCGGGCC
TCCATCCAGCTGCTTAGCCGCCTCTGGGAACCTCAAGGAAGGTAGGTAGGCTGCAGCTGGGCCCAGCAGGCACCTTGCTGGAGGGCGAGGGTGGGTGGGG
GTCTGGGCCCTGCCCACTTTGGTGTCATTCCACCGCAGCAAACTGGGGCCTGGGGAGGCACACTTCCTGCCCGATGTCACCCAAGGGTTGGGTGGTGGGT
CAGGCGGGTGCTTTGGTCCTGGCACCTGGGTGGGGGGCCCTGGGGCTGGGCTAGGGGCAGGTCCAGCCCTTCTTTGGCCCCAGTTTCTCCCAGAGGAAAG
TGAGGTTTTGCTGGCCTAATGCCCTCCCCCACCCATGGCCCAGCTTGTGCAATGGGGTGGGTGGGAGGCCCCTCCCCTCTCCCAACCTAAAGCCAGGAAA
GCAAACACAGCTCCTAACGCTGGAAGGGGGTGTGGGTGGAGCCTGGCAGGCCACGGTGCCGAGGGCCCTGGGGGAGCAGGAGCAGCCGCAGCTCAGCCAC
CCCCATGTCCCTGGGACACCCCCTCCATTCCCTGTGTTGGGGAGGGGCCAGAGCATGCTATGGTGGAGAGGGAGAGGAGTGGGGGGAGGAGGAGAGGCAA
TGGGTGGGAAACAGCATTGAGAACCCCCCCAGTCCCTGGTTAAATATAGACCCGAGGCTCCTCCTTCTGCCGCCCCTGTGGCTGCATGGCCATGATAAGC
CGCAGGGTGGCCTTGGCCACTGCCCTCAGGCCCCACACCTCCTCGGCGGGCTCTGTGACACCCAGGGAAGGGGGTGGGCTCCCATGGGGGTCCCTGCCCT
CCCCGTTGAGCCAAAGTAGTCAGGCCTTTTGGGCTGAAGGCGGGTGAGCTGAGGGACCTGGAGGGCAGTGAAGGAGCTGGTGGGGGCTGGGGGGAGGGTT
TTAGGCCTCAGGACCTAACATCTGGGAAGGCCTAGATGTGGCTGCTGRTCCTGCCCTCGGGTGTTGTGAGCTGTGGTCTGGACTGGGCCCCAGAACTGCA
TGTCAGTGCCCTCCTCCAATTCTAATGGGAGGGTCTRGCCTGGCAGAGGCCGAGTGACGGTGGGCACCTGCGGAGACCCTTTTTGGGGGATGGTCTCAGG
AAAGGCTCCTGATGGAAGCAGCTGTCTATATCTCCGTGCCCAGCTGCGGCCTGGCACACTGAGGGCTCTCGCCAAGAGAGTGGCCTGGTGATGCTTCCTT
TTGACAGCCTGAGGGCTGCCTCCTCTGGAGAGCCTTCCTTGACCAAGCCCCTGGGTGTGGCCAGGCCCCACAGGGCCACAACAGGTTTCTGCATCTGCTC
CTATGGCCACTCCTTCTTGCCCCCAGCTCTCCTGCTGCCAAGATGCCATCACCACAGACAGACACTCCYGGGCCGGAGCTGCAGAGTCCCAAGGAGGCTG
AGGAGCCACAGACTCCAGCTCAGGGCTCCCGGCGAACAAGCAGCAGGAAAGAGCCCAATGCCCACCGCAAGGATGGCACAAGGCTGGGCCTGGGCTCCCT
GAGGCAGGCCTTCTCCCGGGCCAGCCAGCGGGCTTTGACCCAGGTCTCCAAGGAAGATAYGGGCCTGTTCYRGCGAAGCTCCTGCTCCCTGTTCCGGTCC
TTCCGGCAAGCCCTGAATGASGGCCCAGCTACCGGCCATTCCCAGGCSACTCCTGAGGTGCCCTCGGGGGTCATGAATGGTGTCAGCCARCAGGCATCCA
CTGGGGCAGCGTCTGAGGAACTGAAACCCGAGGCAGGTAAGGGCCTCAGAAACAACACGAAGCATGAAAGGAAACGGGCCAGAGGTCAGGGCAGCTCAGC
TGAGGTTTCCGGAAAGGCTGTCCTCCCTAGCTCCCCAAACCCTGCCCCCGAACATGTGCAATTCTTTATTTATTTGAGACAGGGTCTCCACTCTGTCACC
CAGGCTGGCATGCAGTGGTGCAATCACAGCTCACTGCGACCTTGGCCTCCTGGGCTCAAGCGATCCTCCCACCTCAACTTTCTGAGTAGCTGGGACTACA
GGTGTAAGCCACTGCACCCGGCTAATTTTTTTTTTTTTTTTTTGACACTGACTCTCACTCTATCACCCAGGCTGGAGTGCAGTGACGCAATCTTGGCTCA
CTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTTCTGCCTCAGGCCCCCAAGTCACTAGGACTACAGGTGCGTGCCAACACACCTGGTTAATTTTTTTT
TTTGCATTTTTAGTAAGACGGGGTTTCACCATATTGGCCAGCCTGGTCTTGAGCTCCTGACCTCGCGATCCGCCCCCTCAGCCTCCCAAAGTGCTGGGAT
TACAGGCGTGAACCACTGTGCCTGGCCTAATTTTTTAAATTTGTTTTTATTTTTTTGTAGAGATATGGTCTTGCTATGTTGCCCAGGCTGGTCTCAAACT
CCTGAGCTCACCCAATCCTCCTGCCTTGGCTTCCTGAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCAGCTGGACAATTGCACTTTAAATTCTTGC
AGCATCTCTGCAATGGGAGCCCCCCCATTGGGCAGATAAGAAAAGTGAGGCTCAGAGAGGTGGAGTGACTTGCCTCAAGTCTCACAGCGTGGAGAATGGG
ACCTGAACCCAGATATGCATGGCCCTAGATCCCCACCTCTCCATGGCCTTTCACAGCCTGGCTCCTGGTCAAACTAGGGCCATGCACACAGCTGATCACA
GGGTTGCAGAGGGTGCAAGGCTCGCAGAGGTACCAGGAGGGGAGGTCAGGGGGATTGCCCAGAGGAGGATACACTGGGGTGGGAAGAGGGGGACATGGAG
GTGGAGAGCTCTTGTCGGGTGGAGGCTGGCGGAGAGTGGGGAGCAGCAGGAATGTAAAGCTGGACACGGGCAGGACACGCCCTGCCTGAGCTCCGACCCT
ATTAGACCTGCAATCAGGGCTGAGCATGAGGCTATCAGGTCCGGCTCAGCCGGGAGTGGAAGGTGGGTGTGGGATCCAGGCGGAAGGTAGGGGTTGACCC
AAATTGCTCTGTTCAGCCAGGCTTGGGGCCCCAGGTTCTGCCTCTTCAAAGGTGACTCTAAGGGAGGGCTCCTGGCAGCTGGGGCCTGTTGTTCCTGGAG
CAGGCCTTCAGCTGTGCTGGGGCATCTGGCAGAGGACAGACAATCCAGCCCCGATGGATTGAGCCGTGGCCTGCAGGTCTTCGTCCAGGTTCGGGTCTTG
GGGCGGTCCCTCTCACCGCCCTTCTCGCCCGCCTGTGCAGAAGGCAAATCCGTGGCCGACCTCATTACTGAACGGCAACTGCTGGCGGCCTTCGAACAGC
TTCTGCGCCTGGAGACGCTGCTGGTGGCCGAGAAGGCCTCGCGCACCTTTGAGCAGGACCCTACGGCCTTCGCGCGGCGCGCTATGGACGTGTGCCTGCT
TTACGACGGGCTGGCAGCCGAGATCGGCGCCATCGTGCGCGAGACGCTGGACAGCGACGGTGTGGACGCGGCCGCGCTGGCCGAGCTGGCCCGCGTGGTG
AGCGCGGAGGAGGARGCCCACCCTTCTCCCCCCGACGACGGCGACTTCCTGCGCACGCCGCGCCGCTGGCGCCAGCACTGGGAGGAGGCGGTGCGGCGAA
GCGCTCAGGAGCGCGTGCGGCGGCCGGGCGCGGGGTGGGCCTTCGGGGAGGCGGAGGGCGCGTCGGGTTTGGCCCAGCTTCTGGCCGAGCTGGGTGGCTT
GGTTCGCCGCGACCTGCAGAAGGTGCGGCAGGAGGTGCAGCCCGCGTATGCGGCGGCCGGCTTCCCAGCGTGGGAGGTCTATCTGCGTGCCTTCCACAGC
GCCGTGGCCCAGCGCCTCCAGGAGCTCGCGCGCGACGCCCGCGGCTGCGAGCAGCTCTATATCCTGCTGGACTGGGCCGCCAACGTCTACGGCAGGTGAG
TCTCGGCCAGGGCGCCCAGTGGCGAGGACAGCTGCCGCTTCCTCCGCAGGCCTTGGGGAGCCGGCTTTGAGGAGCACCGGACCTTTCTTCTCTGTTCCCT
CCCTGGGAGAGGGCTGAGAGCCGAGGGCTTCGACATGCTTTCCTCGGCGGGTTAGGCCGTGGGGCGCTCCCGCCCCAGGTTTTCTAGGGGTCACCCATAC
ACAGTTCCAGAATTTGAAAAGTTTCCGCGGGGAGGTTCCCATGGGAGCAGGGCCTGTGCTGGTTCCACCAGGTGCCTTTGGGCGCATCAGAAAAGGGCAC
ATCTTGGCCAGGCGCCATGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCGGCCGATCACCTGAGGTCAGGAGTTCGAAATCAGCCTGGCCA
ACACGGTGAAACCCCGTCTCTACAAAAATTAGCCGGGCATGGTGGCACGCACCTGTAATCTCAGCTATTCCGGAGGCTGAGGTAGGAGAATCGCTTGAAC
CCGGGAGGCGGAGGTTGCAGTGAGCCGAGGTCGCGCTATTGCACTCCAGCATGGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAGAAAGA
AAGAAAGAAAAGAAAAAAGAAAAGGGCACCCCGTTAGGCCAGACGGGCATCTGGGTTCAGGGTACAGCCTGCGGGGAGCGGCCACCTCCCGCTCTCTGCC
TGGGATGAGGATGGATTGCCTTCCCCGCGGAGCGGTTCCCAGCCCCACCGGCAGGAGCGCCCACGGAGGTGGGGGAGGTTGCCTGAAGTCCCGCACTCCT
TAAATTGCTCCTTAAATTGTGTGGGGTCAGACCCGTGTCCGCCCTGCTGTGGGCCTCCGTGCTGCGGGTTGGAGGGTGGCCGATTCCTGAGCTGTGTTTG
AGGAGAGGGCGGAGTGCCATCTGGGTAGCCGTCCTTCAGCGTTCTGCAGGAAGGCAGGAACCCAGCTGTCAGAGGCTTCCCGGGAGGGGGTGTGGCATGG
CAGCCTAGAGGCGCGCGCGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTACAGATGCCCAGGTTCGGGATTGGCGTTAGACTTTGAGCCTGGCCAGA
AGAGGGGCAGCGGCTGCCGCATCAGAGCCGCTCCCGCCCCCAGCCCCCTGCCCTGTCTTCCAGTCCTGACTTCCTGGGCGCCCCGGGGCTGGCGCTGCCC
GCCGAGCCGCTGCCTCCGCTCCTGGCGCCGGACGTGTGGGCCCGACTGGAGAGCGACTACACCAGCTTCCTGGAGGTCAGGCCGGGCGGGTCAGGCTGGG
CGGGCCAGGCTGGAGGGGGCGGGCCCTGGGGGGATGTGCGGCGCCCAGGCTATCGGCGGCCAGAGCTGGCTCTGGTTCACCCTGTGGCCCCCGGCGCGGG
CTTGTGACCCGACAGGGCGGCCCTCATCCCGGACGGCGCGGGACGGGGTCTGGGAGGGTCTCACCACGGCCCATCCCTTCTCCCCCCAGGCCAAGATCGC
AAGCTGCTTCGACAGCATCTTGCAGCTGGAGCAGAGTCACTGGGCGGCCGCCGAGGTCCCCGAGGTGCTGCAGGGCCTCTACCAGGCGCCGCTGTCCATG
GACGTCCATATGGTGCGGCCCGGGAGCAGGGGCTGAGAAGGGGCGTCTGTTCAAGCCTCACGCACACGGTGGCGATTTCCAGAACGAATTCCTATCCAGT
CCCAACCAACCCTTCCGTTAGATGGGAGCCTGAGGCCCCACGCGGGGGGAAATCGGGGACCCCCGGCGCGCCGACGGGCAGGGAGGCTGCTGGATGGGAG
TTTGCGGGAGTTGACTCTCCAGTTGGGCGGCTGAAAGCTGGAGGGGCCAAGACTGACAGGCACAGCGGGGCGGGCTGGAGGCGCAGCGGGGGCTACCAGG
GGACCCGCGGCCTCAGGTCGGGGGCTGGGAGGCACGCTCAGTGCGGGGCTTCGCTCGCAGCTCGTGGCCGAGCACGTGAAGGCGGCCGGCGCCATCTCCG
CGGAGCTGGAGGCCACCACCCTGCGAATCTGCACGCGGGCGCTCGGCCTCTTCGTGCCCAGGTGCGGACGCATCCTCAGTAGGGGAGCGACCTGGCCGGG
TGCGCTCTGCAGGTGGGAGGGAGGAGTCTGCGTAGGGACCTGATTGGGAGGGTGGACCCAGGGTCATCGCGCAGCTAGGGAGGGTCCCCAAAGGCTCTGT
GTATCCCGCCCCAGGTTTGAAAAGGCTTTTCTGGCGTCGGAGGCGGTGAGCGAGCCGCACCTGGGCGCCTACATCAACGCCTGCGAGGAGCTCAGGTAGG
GCTCGCCCGCTCCTGTGCGGGCGCAGCGTGGCCAGCAGGGGGCGCGCGAGCGCCGGGAACCTGGATGGAGGGGAGTGCGCGCGCGTGGAGGGGGCAGAGG
TGAGGAGTGTGTGTGTGTGTTTGTGTCTGTGTGTTGGTGGATCTGAGGGGTGTGTGTGCGTGTGTGTGTAGCAGAGTTGGGGGGTGTGTGTGCGTGTGTG
ATGGAGCTGAGGGTGTGTGCCTGTGTGTGCATGCGTGGAGAGCTGAGGCTGTGTGTGTGCGTGTTTGGCAGAGCTGAGGGCTGTGTGTGTGTGTGTGTGT
GTGTGTTGGAGCTAAGAGGTGTTTATGCATGTGCGTGTAGGGGTGGAGCTGAGTGGTGTGTGTGTGTCAGAGCCTAGATGCGTGTGTCTTGTGTGTGTGT
GTCCATCCGAGCAGGGGCCCTGGGGGAGTGTGGATGGCTCTTCAAGGCTGAGCAGAGGCCGAGGGGTTCCAGCTCCCTGCCTGCTGCCCTGGGCTCCATT
TTTCCCTCCCTTCATCCCAGGCAGCATTTCTTCCATCTTGGGACACCTCCTTCTCTGGGAAGCCTCCCTCAGCCTGCACCCTGGGCTTTGCTGGGGTGAG
GTCTGGGTCTCTGTGTCCCCAGAAGGCAGACGCCCTCCCTGTGGGCTGGCAGTAGCTGTTGGCCTTCCGTGCCCTCAGCTCCAGGCCAGGCCTCAGCAGA
TGCGGCAGCGCCAGAGGCACAGACTGAGCCTCCCCATCTGGGTTTATCCTTTTTTAAAAGTGTGTAAATTTTAGTGTCCCGAAGTACTTCTCATTTGTCT
GACTTCAAAGAACAGCTGTGCCACCTGCTGGCTGTGTGCTCCGGGACAAGCCACCTCCCCTCTGTGGCTCTTTTGCCACCTGTCAAATAGGATCAGAGCA
CCTGCTCCCTGGGGTGGTGTGGGACCTCTGTGCCTCAGGGGACTCAGTTCCCATTGGCTCTTTGTGAGCACTTCTCAGTGCCAGGCACTTTGTGGGTGCC
TTCCCTGCCTGACACGTCTCATCCCAAGCGCAGTATACCCACGCACAGGTGCAGAGCACAGGCCTGGAAAGGAGGTGCCACTTGCCCGTGGCCACGTAGC
CAGGAAGTGGTGGAGCTGGGACTTGAACTAGGCCTGCCTAAATCCAAAGCATGACCATCAGGCACTGCTTCTCCAACACTCTCGTCCTTAATCTGTGCCA
GGCTTGTCCTTGGTGCTGGGACCCTGGGGTTTCAGCTCCAGGGAGCGTTCTCTGCCCCTTGGTAGGCAGCCTCTGGCCAAACCCTTGATGGAACTCCAGC
CTGCTCTACTGTGTCCCTGGCTGCGGGGACTGCGTATAGCCTGGCCCTCAGTTTCCTCAACAGTGAAATAGGGACATGGTCACCTTCAGGGGGCAGTTAT
RAGGCTCAGGGTAGGGTATGTTCCAGGCATGGCTATGCCGCACTGTTTATCACCAAGAGGGATGGAAGGTCTGTCCCAGAGCTGCCAGAGGGGAACGGGT
CAGCCACCCCTGACCCACCCCTTTGTGACTGGCTCCCTGGGCTTCTGTGCTGTCCCCCACTTGACTCTGCTCGCAGACAGCTACAATGGGGAGCCCCACG
GGCTGCCCTTCACATTGTAGTCTAAGTGAGTGGAGCTGTGTGCCCGGCTCTATTCYCCAGCCTGGTCTCCCTTGCCCACCTCATCGCTGGTCCTGGCCCC
TCCCCAGGACCAGTCTTCTCTCCAGGTTCCCAGGAACCCAAGAGGAGCTGGAGAAGCCCCTGGTGACGGCCACCTGCAGCTTCCAGAAGCACTTGCTTCA
GGGCTTGCAGCGTGAGTTGCAGGTGACTGTGATAGGCCCTCTCTCCCTACTTCCCATGCCCAGCAGGCACCCCCTATTTCCTAGAGCCTGGGGGCCCAGG
TCACAGCATTCATTTATTCCAGGGTGAGCTCATGGGTGTGTGTGTAGGGTAGTGGGCAGGGGACCCAGGTGAGGTCCCAGCTGAGCAGGGGCGGCTGGGA
GACGCCTGCCTTCTCACTTCAGTCTCCAGCTCTTAGTGGTCACCCCCGAAGCCTGGGATGGTGGGTCCACGGATCCAGGCCCAGGGTCCTCACCCAGTCC
CTCAAGGCTTCTCCAGGGCATGCCCTGAGCAGATCTGACTGCACAGACTCAAACCCTGCCCCTAGAGCTTGGGGCCTGGGAGAGGCATTCTGGGAAAGGG
CTCGTGACATAACCTGTGGCTAGGAGAGGGAATGGCACCCCAAACCCAGGAGGGAAGGGGTCAGGAGTGGCACACTGGGCTTCGAGGGAGGGGTTACGTT
GCGGGCGTAGTGCACATTTGCAGACTCCCAGCCCCTCTGTCCCCAGCCGCTCTTCAGGGTTGTGTGCACCAGGGACTGGCTGACGCAGGACTGGCTGCAT
CCCCTCATGGACAAGGTGGTGACCTTCGCCGGTCATCTCCAGCGTGTGGCCCGGCCGCGGGCACAGGTACCACAAGGGGGAGGGCCCTGGCAGGGCTGTG
CCCAGGATTGGGGCTGTTGACCCTGACCCTGACCCTGACCCTGGGCCGCCCAGGAGACTCTGCAGGAGGTGCACCGGTTCGTGGTCCGCGAGTACCTGGC
GCGGGCGCTGAGGCCACGGGAGCGGTTCCGGGGCATGGAGCGCATGCATGGCTCCCAGAAGATGAGCCTGGATGCCCAGGCCATCAGCGACACCTTCCAG
GGCCTGGTAGGGGCGGCATGACTGCCCTTCGGTGCTCGCCTCTGTGTGGGGAGTGGTGGCAGTGACTAGGGCCTTAGCGCCGGGAGGGCTTTTGGCAGSA
GTGGTTCTCCCCACTCTGGATCAGGTGGAACAGGGACTGGGGCGCCTGTGGGGCTGGGGGGTGGAGGGAACCAGGTGGGAGGGCGGCACTTTGCATACAT
TTGCATACAGTTTGCAGGGGTGCGGGGAAGGGGCGAGGGTCACAGCCCCATCTCACGGTCAGGGCCTTTGGGAGGTGTCCCCCACCTCAGGCCAGAGCCC
TCAGAGTGGAGGCACCAGCGCCCCTGCACACCCCTCGTCTGCCCCCTAGCAGTGCTTTCAGGCTGGCCTCGGTTTTCCTGTCCAAGCAGGATGGGATCGG
AGGGGAGATGAAGGCTGTGTAGCCAGCCCATGAGCCCTCGGTGCCCAGGCACGCTCCCGTTCTGTTTTGGGGGAGGCAGTCCCGGCACCGAGCCAGAGTG
ACTACAGGAGGGCTGACGCTGCGGGAGGGCTGACCTCGCACTGACCTCGCGCTCTTGCAGGAGTTGGAGCAGCGGTGGGGAGAGGGCTGTTGGGGCAGGY
GGTGGCTCTGTCTCGCAGGGTTCCGAGGCCACATGGTTGGACCAAGCCATCCAGTGCGTGGCTGAGATCCTGGGCGAGACCTACAAAGATGACATCCAGC
GGCACCTGGAGACTCTTATCCGGAGCTACCCCGACATCAGGTGTGTACCCCAYCTGCTTCCACTAGCTTCCTACCAGAGCTTCAGGGCCAAGGGGGCTGG
TATTGGAGCAACCCCAGCCCAGACCTGACTGCCCAGGGGCCTGAAGACCAGAGGCAGGAGGTAGGCCTTGGACCCTCAGACCCTCAAGGCTGGAGGGGGA
ATGGAGAGAGCCCCTTCTCCTAATCTGCTCTTGGCCATCCTCCATCAGCCCCACCRGGGGTGGGCACGCCTCCAGTCCTGGAATCTGAGGGGGAGGCGGA
CCCCCCACCCCTGGGGAGAAAGCCCTCTCTGAAAGCCAGGGGATTCTGAGACCTGGTCAGGAGGAAGGAGGTTTTGATCCCGGGTTGTGCTGGGGGGTCG
GTGAGTCATCCAAGCCTTTGGAAATCCCAGCTCGAATCTCTCCAAGTCCATTCTTTTGGAGATTCTGGGATGTGGAGCTCACAGAAAGCCCCTGGTTCAT
CCCCTTCCCCAGGCCACCCTGCCATGGGGTGGGGAAGGATTCCCCATCCCCAGCAGGCCTGTCTTCCAGGCTGTGGCTCAGAGAGAGTGGCCCTTACATC
ACCCTGGGAGTTCCCCTCCAACTACTCCCCAACCCCGTTGGCCCCGTCACCCGCAGCTGCATCACCCCCTCCCTCCCTCTCCACCACCTGTCCCCCGGTC
TCCCTCTCTCCCTCGCCACCCTGTCCCCATGTCTCCCTCCCTCCCTCCCTCTCCACCCTGTCCCCGTGTCTCCCTCCCTCCCTCCCTCTCCACCCTGTCC
CCATGTCTCCCTCCCTCCCTCCCTCTCCACCCTGCCCCCATGTCTCCCTCCTCCCTCCCTCTCCACCCTGCCCCCATGTCTCCCTCCTCCCTCCCTCTCC
ACCCTGCCCCCATGTCTCCCTCCTCCCTCCCTCTCCACCCTGCCCCCATGTCTCCCTCCTCCCTCCCTCTCCACCCTGCCCCCATGTCTCCCTCCTCCCT
CCCTCTCCACCCTGCCCCCATGTCTCCCTCCTCCCTCCCTCTCCACCCTGTCCCCATGTCTCCCTCCCTCCCTCCCTCTCCACCCTGCCCCCATGTCTCC
CTCCTCCCTCCCTCTCCACCCTGCCCCCATGTCTCCCTCCTCCCTCCCTCTCCACCCTGCCCCCATGTCTCCCTCCTCCCTCCCTCTCCACCCTGCCCCC
ATGTCTCCCTCCTCCCTCCCTCTCCACCCTGTCCCTGGGTCTCCCTCTCTCTCCAGCCTGGGTCTCTCCACCCGGTCCCCAGGTCTCCCTCCACGCCTTT
GCGTGGGCTCTTTCCCACTCTGCACACCCCTCTCCTGTGCCCCTTCAAGCCCAGCTATGGTGTCCCCCAGGCCCACGCCCTGCCCCCTCCCCCAGCACAG
CTCTTCCTGGCCTCAGTCAATCTGACCTCCCTGACCATCCTGGAATGCAGAGTGACTCATACTAACTCCCAAGCCCRTGGGTTCGCCTCATGCTGGGGCT
GGGGGTGTTGCGGAGGTGTAGGTCTGCAGTGAGTGCCCGCATGTCTCTGCAGGCGGGACCACATACTGGCCATTCTGGCRCTGCGCCGACTGGGCCGCCR
GCGGAACCAGCATCTCTTGCAGCACACYSAAGACCTGCTGAGAGCTGCGGCCGGGRCGGCGGGTGCGGAGGCCCCTCGGGGCCGCGTGCTCTTCGAGGAG
ATCAAGGTGCCCAGTGCCATGGCTGTGCTGATCACCTGCGTCTAGTTCTCTCTGGCTCGAGGGGGGGCCGGCCGCTGGCAGGGAGCTGTGGTCAGTGGGG
GTCAGCCAGGAGCCCAGGGAGTCACTCTGGGCCCTGCCCCCAACTCTGACACTGCAGTTAGGGAATTTTTGTCGTCAGCAGCCAAGCGCAGCTGTCAGGC
CAGAAGGAGCAGCCGTGCAGGAGGCATTTCAGGCATCGTTGAGGGGAGTGTTTTGGGGCYGCAGAGCTCTCAATGCTGCCTATCGGGCGGGGGGGGGCCT
CCCGCCCGACTGTCCAGCTTCACCCTCCAGTCTGAAAGTGAAGAGCAGAGTATTTATTTAAAAAATAAATGTGAATTAAAATGGTGCCTCCCTAAGGAGT
GGGCAGGGGATGGGAGACCTGGGTCCCGGTGTGCTGAAGGGCCAGGCCGGAGGCTGTCTGGTGACACTATTTGGTGGGTGGCCCTCTCATGCCTGTGGAA
GCCACGGGAAGACTGAGGCAGGTCCAGAGCAGGGAAGGCCCATGCCTGTGGCTGCCCCCACCACGGCCCGGATCCACTGGCCTTGTGCCTGGTCAGCCTT
GTCCCAGCCAAAGCAGACTCGGGGCTTCCTGGGAACAAAAAGAGGATAAGGCTGGTTCTGCAGCTTGAAGAATTTGGGTTAGATGTAGGAGGGACTTCTC
AGCAGTGGAAGTTGTCAAGTTACTGCAGGGGGTGTGTCACCCATGGAGTGTGTGTCCGGGGGTGACCCTGAGGTGTCAGCAATGGAGGCAAGCGTAAGGA
GACTGCTCCAGCGTGCACCTGCGTCCCCGCTTCTCTCTGCAAAGCTGCCGCTGAAATTTGGCGGCAGCCTGCGGGCTGGGGTGCTGGGAAACCTATTTGC
ATTGGCAGCCGGGCTGGCTGGGGAGGCTGAAAGTTGAGATGGGGAGATTTCCAGAGAGCAGCTGAGACAGGTGGTGACAGGTGCCCCTCCCAGCCCTCCA
CAGTGGGCCCCCATAGTGTCTCTGGGCCTGACCCTGACCCTGGCGGGAGTGGGGGGCAGGTGACTGCAGGTGGGCCAAGGTTCCAAGAGCTCCACAAACT
TGGGTCGCCTGAGGACAGGGTAAGGAGTCTGAAAGGCTGTGGTGCCAGGCAAGCAGGGGGCGTGTCTATCCCCACTCCCTCCAGGCCCCCTCCCTGCACT
GTGGACAGTCAGGGGGCAGTTCCCCGGGCAGACCTGCCCCGGTTCCTATGCCAGGGCTGGGGCCTGGAGCCTGAGTCTTGCTGGGGCCTAGAGCCTGGGG
GTTGAGTGCCTGGGGCTTGTCTGTCTCTTCTGGGAGCAAGTGCTGGGGCAGTGCCCTCCTCCATGGGGGCACCAGGGCTGGAGGTCAGGAGCAGGGCAGG
CCAGGGCAAGGGAATATCCAGACCTCCCCTGGCAGGGTGGGGCAGGTGGGGCAGGAATGAGGAAGTGGGAGGGTTGGGGTTCCCCATCTCCAGGGCTGGG
GTGGGGGCAGGTATGTGATGCTGGTGCCAATAAGCGGTCCCGTCCCTGATGGGAAAACAGGCTGGCAGATGCTCAGGATCCTCCCAGCCAGGGGCCAGAG
GGGCATGTCTTTTCCCAGGGGAGGGGTCCAAGAGGGGGCAGGTGATTGACAGGTCAGCCTGTCCCCTGCTTGACCCCACCCCTGACCTGGTGGCCATGAG
TGTCCCAGGCAGGGTGCATGGGAGGGGAGAAGGGAGGGCTTGGCCTGGTCTGGTCCTGGTCAGGTTCTCCCCAAGGAGCCCCTGCCACCCCCTTCCCCAC
CCTTCTGTCTCAAGCTCCTCACTGAGCCACTTGGCTGGAGCCAGAGGGTCCTGGGGCAGGGCTGTGGGGTTAAGGAGGGGGTTCCGTCCTGGCTCTGCCA
CTTCCCACCTGTGAGAATGCAGGCAGGTTCTTTTATCTCACTGCTTCATTTTTTTTCCAGCTGTGAAATGGGGGTGCTGTTAGTGCCTCCTCGGCTGGGG
AGGGTGAAGTCAGAGCCAGCCATAAGGCCGGGGGCCTGGCCTCCCTGTGACCCCATGTTCCCAGAGGCCCACCTACGGGAAGGCCTTGGGCACCCTGGGG
TTGGGGTGGTGGGGTGCTGAGGCTGGAGCAAAACCTGAGTTGAGTGGAGGTCACTGGGAGTGGGAGGCCCCAAGAGAGGCTGGGAAGAGGTGCTGAAGGC
TGAGCGGCTTGTGGCAGAGGGAGGGGGCCCGGCTTAGACCCTGAGGGTTCCTAGGCCCGGAGACAGGAAGTCAGGGTTTTCCTGGCAGGAACTGTGTGCA
CATGTGCACCTGTATCTCCATGCCAGGAGGGTGTGTATGCCATGTGTGCAGATCCTCCTGAACCCAGCGGTGGCTGGGGCTGGGACTTCCCAGGCCAAGC
CAGGCCGAGCTGGGGGTGGGATGGCAGCTCCTAGAGGATGCAGTCAGGGAGGCTGGGGGCAGAGGCGGGGCYGAGACCGGGGCACCCTGGGTGCCTCAGT
CCTGGGGTCTGGCCACTGGCCTTTCTGCTCTAAGGGGTGGAGGCTGAGCCCATGAGACCTTGCAATGAGCCTGCAGTGCTTCCTTGGCCATCTGTTGTCC
AGGCCAAGCCTGCAGGGTGCCGGTGGGGGTGGGGCTGGCTCTCAGAGAGGTACTTGGGTTCTCATTGGCCAGGTCACCTGGCTGATAAGTGTGTGTGTGT
GTGTGTGTGTGTCTGTGCACGTGTACCTATGTGCACCAGCCCCTGTCAGCACCCCCAGGATGGAGGCCCTTGCCTAGTCTCCTCACTCCTCTCAGAAAGC
AGGACAGCCTGGAACCATCCTACTTGCCCCCAAGCTCAGCCCCCAGGCCCTGCCTGCCGGCCCCTGGCCCGCAGCCTTGGCCAGTGCCTGTTCCCTGCTG
CATGGCCCAGGTCTCCTCCCTCTTCAGGGCCAGCTGGGCTTCCCCCAGTGCCACCGTGGCCTGGGGCTCCTGCATGTCCTGGGGTTCCCTCTGGTCTCTG
TCCCTGAGCTTGAGGTCCTTGAGACTGGGTCTGCTCTGTGAATCTTCTGGGGCCCCACCCCAGGCCCAACTGGGAGGGCAGAGAGAAACCACAGAGAACC
CACATGCCCCAGACCCGCACACTCTGGTCTGCAGAGATGATCCACTGTGTGTGTGTGTGTATATATGTATGTATGTGTGTGTGTGTGTGTGTGTGTGTAT
GTGTGTGTGTATATGTGTGTGTGTATGTGTGTGTGTGTGCACACACACACACCTGCTGGCCCAGCGACAGCGTGTGTGGGGTGAGAGGAGACTGGGGAGC
TGCCTCCCCCAGCTCAGGCTGGGGCCCAGCAGCCCTCCGAGGCCATCTCTCCCTCCTGGTGTCTGGGCCTGGCCCCTGCTTGAGTGTGTCATGTGGGAGA
CACACGAGGCTGAGCCATGCAGGCATGTGTTCCAGTCTCAGCTCTGCCCCTTCTAGCGGGGGACCCAGTTTTCTTGTTGGTAACATGGGAGGGAGTGCCC
AGTAGGGAGCCAGTGAACCTGTTCACAGCGTTCCTGACAAGAGGGTGTGCTGTGAGTGACGGTCCGTGTGTCCCCTCCAGGCCTGCACAGCGTGCCCTCT
TCCTTCCTCGCCTGGTGACCCCAGCCCCTCCCTTCCTGGCTTCAGTACCCAGTGGGCCCCTATGCGTGGGGGCAGCATCCCCAGCGGCTGGAAGGTTACT
GCAGGACCCCTCACTGCTGCCCACATTGGGAGAGGAGGCTGCAGGGTCCCCAAGGCTACCCCCGTCCCCAAACTTCCTTCCTTTGCCACCGCAAAGAAGC
CCCAGGGCCGCCGTCGGCGCATGCAACTCACAGGCCATCATGAGGCCCAGGGGGGTGGCCAGGAGTGGGCTGCCCCACAACACTGCCCGTCCCCCCCCTT
CCCTGTGGAAGGCTGGTCAGTGGGCACCTGCCGGCCACTGTGCTGCAACAAGACTGCCGCTGCAGAGGGCGGGGTCCACAGTGCCCCAGGTCACAGGATC
AGATCCTGCTGGGAGCCACCCAAATCTCAGCCTGGCCTCCTGGGACCCTGGTCTTGGGAAACACTTGGAGGGGAGTGAAACTTGGACAAGTCACACCCAC
CCCTCGGTCCATCCTCTCCTGGGCCCTGGGGGCCTGGGCCTCTCCAGGGACACCCTCACTTCTGTCTGCACATATGCCCACCCATCTATTAGCAGCCTTA
AAAATGTGTTAAATGCTTAATAATGTGTTGGGTAGCAATACGTTCACATAGGTCAAAATTTAAAAGATACGCAAAGGGTATAGGGTAAAAAGTCCCCTTC
TTATCTCTAGTCTTCCTGCTCCCATTCCCAGAAGTGACCGAGGTTCCTTGTGGGACACTTGAGTTGTTAAAAAGGGATTCTTGCCCAAGGGATTTATATG
AATGGTGACATTCTGGGCATTGGTGAGGAACCTGTTTTTGCTGGAGGTGGTTGACAGGATAGGGCAGTCGTTTCTTTTTTTCTTTTCTTTTTTTTTTTTT
TTTTTTGAGATGAAGTCTTACTGTGTCACCCAGGCTGCAGTGCAGTGGAGTGATCTCAGCTCATCACAACCTCCACCTCCCAGGTTCGAGCGATTCTGCT
GCCTCAGCCTCCCAAGTAGCTGGGATTATAGGCACCCACCACCTTGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAG
GCTGGTCTCAAACTCCTGACTTCAAATGATCCTCCTGCCTCAACCTCCCAAAGTGCTGGGGTTACAGGTGTGAGCCACTGTGCCTGGCCTGGGCAGTCGT
TCTTGATCCCTATAAACATCAAATGAGGAACTCAAGGCTCTTAGACGGATAGAATCCTCAAATAATGGGCTCTTAGAATCTTGGGGAAAACAAAAGTCAC
CAGTAGAGGGTCGTGACTGCAAGTTGTCCATGTTCTTGGCGTTTTGAACAAAGAATTGGACAAAATGCCCAGCAAAGCAAAGAAAGAATGAAGCAACGAA
AGAACGAAAGCAGGGATTTACTGAAAATGAAAGTACACTCCACAGTGTGGGAGTGGCCCGAGCAGCAGCTCAACAGCCCAGATACAGAATCTTCTTGGGT
CCAAATATCCCCTAGAAGTTTCCCGTTGGCCACTTCATGCTCACCTCATGTAAATGAAGTGGTGGCCTGCAATCAACCTGATTGGTTGCGGAAAGCAGCC
AACCAGAGGCTGAAGTGAAGTTACAAAGGTCACACTCCTGTGCAAACATCTGATTGGTTGCAAAAAGCAACCAGTCAGAGGCTAGGGTGAGGCCGGGCGC
GGTGGCTCACACCTGTGATCCCAGCAGTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCG
TCTCTACTAAAAATACAAAAAAATTAACTGGGCATGGTGGTGGACACCTGTAATCTCAGCTATTCAGGAAACTGAGGCAGGAGAATTGCTTGAACCCGGG
AGGCGGAGGTTGCAGTGAACCGAGACAGCACCATTGCACTCCAGCCTCCCTAGCAGCTGGGATTACAGGTGCCCGCCACCACGCCCAGTTAATTTTTTTG
TGTGGGTTTTCCTTTCAATATAGTTCTAGGAAGTAGGAACGAAACAGCCTTAGGTTCCCTGCCTCCTATTCTCCTGCCTCATCATGAGAAGCTCTGCTGT
TTGTGGGGCGCCCACCATGTGCTTTACTCTGGTGGTGTATGATGTTCCTGCTTTCCCTGGACTCAGGGCTGGCATTTCGAATCAGCTTCTGGACTCAGAC
ACCTCTGGGCTGGAATCCTAGCTCTGCGCCTTCCTAGCTGTGTGACCTGTGTGAGTCACTCCACCTCTCTGGGTTCCATCTCCCTGTGTAAACTGGGGAG
GATTACACAAGAAAATGCAAGAGTTGGCTGGAGGAGGGCCTGGCTCTCCAAGAGCATCCTCCTACCTGTGGCATTCGTTGTTATTTATCTGCACTACCTC
CTTTAAGCCATCCCTGCCAACCCTCTGAGTGTGCCAGTGCCATCTC


SNP Information

Context             (SEQ ID NO:40634):
TGGGGGTGTTGCGGAGGTGTAGGTCTGCAGTGAGTGCCCGCATGTCTCTGCAGGCGGGACCACATACTGGCCATTCTGGCGCTGCGCCGACTGGGCCGCC
R
GCGGAACCAGCATCTCTTGCAGCACACTCAAGACCTGCTGAGAGCTGCGGCCGGGGCGGCGGGTGCGGAGGCCCCTCGGGGCCGCGTGCTCTTCGAGGAG
Celera SNP ID:            hCV2206751
SNP Position Genomic:     17200
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,26)   caucasian(A,2|G,28)   total(A,14|G,54)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40635):
GCTGAGGGACCTGGAGGGCAGTGAAGGAGCTGGTGGGGGCTGGGGGGAGGGTTTTAGGCCTCAGGACCTAACATCTGGGAAGGCCTAGATGTGGCTGCTG
R
TCCTGCCCTCGGGTGTTGTGAGCTGTGGTCTGGACTGGGCCCCAGAACTGCATGTCAGTGCCCTCCTCCAATTCTAATGGGAGGGTCTGGCCTGGCAGAG
Celera SNP ID:            hCV27840035
SNP Position Genomic:     6948
SNP Source:               Applera
Population(Allele,Count): african american(G,20)   caucasian(A,2|G,6)   total(A,2|G,26)
SNP Type:                 INTRON


Context             (SEQ ID NO:40636):
GGTTCGCCTCATGCTGGGGCTGGGGGTGTTGCGGAGGTGTAGGTCTGCAGTGAGTGCCCGCATGTCTCTGCAGGCGGGACCACATACTGGCCATTCTGGC
R
CTGCGCCGACTGGGCCGCCGGCGGAACCAGCATCTCTTGCAGCACACTCAAGACCTGCTGAGAGCTGCGGCCGGGGCGGCGGGTGCGGAGGCCCCTCGGG
Celera SNP ID:            hCV2206752
SNP Position Genomic:     17180
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,13)   caucasian(A,2|G,26)   total(A,7|G,39)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40637):
GATGGCACAAGGCTGGGCCTGGGCTCCCTGAGGCAGGCCTTCTCCCGGGCCAGCCAGCGGGCTTTGACCCAGGTCTCCAAGGAAGATACGGGCCTGTTCC
R
GCGAAGCTCCTGCTCCCTGTTCCGGTCCTTCCGGCAAGCCCTGAATGACGGCCCAGCTACCGGCCATTCCCAGGCCACTCCTGAGGTGCCCTCGGGGGTC
Celera SNP ID:            hCV25609176
SNP Position Genomic:     7572
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,24)   total(A,1|G,55)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:40638):
GCCCACCGCAAGGATGGCACAAGGCTGGGCCTGGGCTCCCTGAGGCAGGCCTTCTCCCGGGCCAGCCAGCGGGCTTTGACCCAGGTCTCCAAGGAAGATA
Y
GGGCCTGTTCCGGCGAAGCTCCTGCTCCCTGTTCCGGTCCTTCCGGCAAGCCCTGAATGACGGCCCAGCTACCGGCCATTCCCAGGCCACTCCTGAGGTG
Celera SNP ID:            hCV25609177
SNP Position Genomic:     7560
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,36)   total(C,68|T,2)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:40639):
CAGCCGAGATCGGCGCCATCGTGCGCGAGACGCTGGACAGCGACGGTGTGGACGCGGCCGCGCTGGCCGAGCTGGCCCGCGTGGTGAGCGCGGAGGAGGA
R
GCCCACCCTTCTCCCCCCGACGACGGCGACTTCCTGCGCACGCCGCGCCGCTGGCGCCAGCACTGGGAGGAGGCGGTGCGGCGAAGCGCTCAGGAGCGCG
Celera SNP ID:            hCV2434898
SNP Position Genomic:     9515
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40640):
GCCCTGCCCCCTCCCCCAGCACAGCTCTTCCTGGCCTCAGTCAATCTGACCTCCCTGACCATCCTGGAATGCAGAGTGACTCATACTAACTCCCAAGCCC
R
TGGGTTCGCCTCATGCTGGGGCTGGGGGTGTTGCGGAGGTGTAGGTCTGCAGTGAGTGCCCGCATGTCTCTGCAGGCGGGACCACATACTGGCCATTCTG
Celera SNP ID:            hCV25609178
SNP Position Genomic:     17077
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(A,2|G,14)   total(A,4|G,44)
SNP Type:                 INTRON


Context             (SEQ ID NO:40641):
GTGAGTGCCCGCATGTCTCTGCAGGCGGGACCACATACTGGCCATTCTGGCGCTGCGCCGACTGGGCCGCCGGCGGAACCAGCATCTCTTGCAGCACACT
S
AAGACCTGCTGAGAGCTGCGGCCGGGGCGGCGGGTGCGGAGGCCCCTCGGGGCCGCGTGCTCTTCGAGGAGATCAAGGTGCCCAGTGCCATGGCTGTGCT
Celera SNP ID:            hCV2206749
SNP Position Genomic:     17229
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,24)   caucasian(C,15|G,1)   total(C,19|G,25)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40642):
GACTACAGGAGGGCTGACGCTGCGGGAGGGCTGACCTCGCACTGACCTCGCGCTCTTGCAGGAGTTGGAGCAGCGGTGGGGAGAGGGCTGTTGGGGCAGG
Y
GGTGGCTCTGTCTCGCAGGGTTCCGAGGCCACATGGTTGGACCAAGCCATCCAGTGCGTGGCTGAGATCCTGGGCGAGACCTACAAAGATGACATCCAGC
Celera SNP ID:            hCV25609179
SNP Position Genomic:     15500
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,17)   caucasian(C,26|T,12)   total(C,43|T,29)
SNP Type:                 INTRON


Context             (SEQ ID NO:40643):
GGATGGCACAAGGCTGGGCCTGGGCTCCCTGAGGCAGGCCTTCTCCCGGGCCAGCCAGCGGGCTTTGACCCAGGTCTCCAAGGAAGATACGGGCCTGTTC
Y
GGCGAAGCTCCTGCTCCCTGTTCCGGTCCTTCCGGCAAGCCCTGAATGACGGCCCAGCTACCGGCCATTCCCAGGCCACTCCTGAGGTGCCCTCGGGGGT
Celera SNP ID:            hCV16185763
SNP Position Genomic:     7571
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,27|T,9)   total(C,61|T,11)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:40644):
CACAGGGCCACAACAGGTTTCTGCATCTGCTCCTATGGCCACTCCTTCTTGCCCCCAGCTCTCCTGCTGCCAAGATGCCATCACCACAGACAGACACTCC
Y
GGGCCGGAGCTGCAGAGTCCCAAGGAGGCTGAGGAGCCACAGACTCCAGCTCAGGGCTCCCGGCGAACAAGCAGCAGGAAAGAGCCCAATGCCCACCGCA
Celera SNP ID:            hCV16185764
SNP Position Genomic:     7369
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,22)   caucasian(T,38)   total(C,4|T,60)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40645):
TGTGGCTGCTGGTCCTGCCCTCGGGTGTTGTGAGCTGTGGTCTGGACTGGGCCCCAGAACTGCATGTCAGTGCCCTCCTCCAATTCTAATGGGAGGGTCT
R
GCCTGGCAGAGGCCGAGTGACGGTGGGCACCTGCGGAGACCCTTTTTGGGGGATGGTCTCAGGAAAGGCTCCTGATGGAAGCAGCTGTCTATATCTCCGT
Celera SNP ID:            hCV27830357
SNP Position Genomic:     7037
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,25)   caucasian(G,32)   total(A,3|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:40646):
CCCACTTGACTCTGCTCGCAGACAGCTACAATGGGGAGCCCCACGGGCTGCCCTTCACATTGTAGTCTAAGTGAGTGGAGCTGTGTGCCCGGCTCTATTC
Y
CCAGCCTGGTCTCCCTTGCCCACCTCATCGCTGGTCCTGGCCCCTCCCCAGGACCAGTCTTCTCTCCAGGTTCCCAGGAACCCAAGAGGAGCTGGAGAAG
Celera SNP ID:            hCV25751476
SNP Position Genomic:     13856
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:40647):
CCAGCCAGCGGGCTTTGACCCAGGTCTCCAAGGAAGATACGGGCCTGTTCCGGCGAAGCTCCTGCTCCCTGTTCCGGTCCTTCCGGCAAGCCCTGAATGA
S
GGCCCAGCTACCGGCCATTCCCAGGCCACTCCTGAGGTGCCCTCGGGGGTCATGAATGGTGTCAGCCAGCAGGCATCCACTGGGGCAGCGTCTGAGGAAC
Celera SNP ID:            hCV16185694
SNP Position Genomic:     7621
SNP Source:               Applera
Population(Allele,Count): african american(C,26|G,8)   caucasian(C,25|G,7)   total(C,51|G,15)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,200|C,543)   total(G,200|C,543) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:40648):
TGTTCCGGTCCTTCCGGCAAGCCCTGAATGACGGCCCAGCTACCGGCCATTCCCAGGCCACTCCTGAGGTGCCCTCGGGGGTCATGAATGGTGTCAGCCA
R
CAGGCATCCACTGGGGCAGCGTCTGAGGAACTGAAACCCGAGGCAGGTAAGGGCCTCAGAAACAACACGAAGCATGAAAGGAAACGGGCCAGAGGTCAGG
Celera SNP ID:            hCV2434901
SNP Position Genomic:     7690
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,24)   caucasian(A,2|G,26)   total(A,4|G,50)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;(A,-|G,-)   no_pop(A,-|G,-)   JBIG-allele(A,272|G,455)   total(G,455|A,272)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40649):
AGGGCCTGGTAGGGGCGGCATGACTGCCCTTCGGTGCTCGCCTCTGTGTGGGGAGTGGTGGCAGTGACTAGGGCCTTAGCGCCGGGAGGGCTTTTGGCAG
S
AGTGGTTCTCCCCACTCTGGATCAGGTGGAACAGGGACTGGGGCGCCTGTGGGGCTGGGGGGTGGAGGGAACCAGGTGGGAGGGCGGCACTTTGCATACA
Celera SNP ID:            hCV11462244
SNP Position Genomic:     14999
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40650):
CCAAGGAAGATACGGGCCTGTTCCGGCGAAGCTCCTGCTCCCTGTTCCGGTCCTTCCGGCAAGCCCTGAATGACGGCCCAGCTACCGGCCATTCCCAGGC
S
ACTCCTGAGGTGCCCTCGGGGGTCATGAATGGTGTCAGCCAGCAGGCATCCACTGGGGCAGCGTCTGAGGAACTGAAACCCGAGGCAGGTAAGGGCCTCA
Celera SNP ID:            hCV8901227
SNP Position Genomic:     7648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:40651):
CTGCTCTACTGTGTCCCTGGCTGCGGGGACTGCGTATAGCCTGGCCCTCAGTTTCCTCAACAGTGAAATAGGGACATGGTCACCTTCAGGGGGCAGTTAT
R
AGGCTCAGGGTAGGGTATGTTCCAGGCATGGCTATGCCGCACTGTTTATCACCAAGAGGGATGGAAGGTCTGTCCCAGAGCTGCCAGAGGGGAACGGGTC
Celera SNP ID:            hCV8901228
SNP Position Genomic:     13601
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40652):
GGCTGGGGCTGGGACTTCCCAGGCCAAGCCAGGCCGAGCTGGGGGTGGGATGGCAGCTCCTAGAGGATGCAGTCAGGGAGGCTGGGGGCAGAGGCGGGGC
Y
GAGACCGGGGCACCCTGGGTGCCTCAGTCCTGGGGTCTGGCCACTGGCCTTTCTGCTCTAAGGGGTGGAGGCTGAGCCCATGAGACCTTGCAATGAGCCT
Celera SNP ID:            hCV11462239
SNP Position Genomic:     19772
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:40653):
AGGGAATTTTTGTCGTCAGCAGCCAAGCGCAGCTGTCAGGCCAGAAGGAGCAGCCGTGCAGGAGGCATTTCAGGCATCGTTGAGGGGAGTGTTTTGGGGC
Y
GCAGAGCTCTCAATGCTGCCTATCGGGCGGGGGGGGGCCTCCCGCCCGACTGTCCAGCTTCACCCTCCAGTCTGAAAGTGAAGAGCAGAGTATTTATTTA
Celera SNP ID:            hCV11660610
SNP Position Genomic:     17560
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:40654):
TCAGGCATCAGATTCACTTTCCTGGTTTCCCCGGGAAAGTGCCGAGTACTAGCCATGGCTGGGGGCTGAGTCAGGCTCACTCCCTGCCTTGCGGGTCTCC
Y
GGTCTCCAGGCTCTGTAACTGTCCCTCCGTCATGGCAGGTGTGCCCAGGGCTGGGATCAGGCCCACAGCAGGAGGTGCCGAACATGGTATGGGCTCAGCT
Celera SNP ID:            hCV2434909
SNP Position Genomic:     2447
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40655):
AGGAGGTAGGCCTTGGACCCTCAGACCCTCAAGGCTGGAGGGGGAATGGAGAGAGCCCCTTCTCCTAATCTGCTCTTGGCCATCCTCCATCAGCCCCACC
R
GGGGTGGGCACGCCTCCAGTCCTGGAATCTGAGGGGGAGGCGGACCCCCCACCCCTGGGGAGAAAGCCCTCTCTGAAAGCCAGGGGATTCTGAGACCTGG
Celera SNP ID:            hCV16182734
SNP Position Genomic:     15856
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(A,536|G,965)   total(G,965|A,536)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40656):
GGACCACATACTGGCCATTCTGGCGCTGCGCCGACTGGGCCGCCGGCGGAACCAGCATCTCTTGCAGCACACTCAAGACCTGCTGAGAGCTGCGGCCGGG
R
CGGCGGGTGCGGAGGCCCCTCGGGGCCGCGTGCTCTTCGAGGAGATCAAGGTGCCCAGTGCCATGGCTGTGCTGATCACCTGCGTCTAGTTCTCTCTGGC
Celera SNP ID:            hCV25760313
SNP Position Genomic:     17256
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,36)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:40657):
AGTGCGTGGCTGAGATCCTGGGCGAGACCTACAAAGATGACATCCAGCGGCACCTGGAGACTCTTATCCGGAGCTACCCCGACATCAGGTGTGTACCCCA
Y
CTGCTTCCACTAGCTTCCTACCAGAGCTTCAGGGCCAAGGGGGCTGGTATTGGAGCAACCCCAGCCCAGACCTGACTGCCCAGGGGCCTGAAGACCAGAG
Celera SNP ID:            hCV16182735
SNP Position Genomic:     15653
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,63|C,1434)   total(C,1434|T,63) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40658):
ACAGCTCACTGCGACCTTGGCCTCCTGGGCTCAAGCGATCCTCCCACCTCAACTTTCTGAGTAGCTGGGACTACAGGTGTAAGCCACTGCACCCGGCTAA
T
TTTTTTTTTTTTTTTTTGACACTGACTCTCACTCTATCACCCAGGCTGGAGTGCAGTGACGCAATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAA
Celera SNP ID:            hCV26351922
SNP Position Genomic:     8026
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40659):
TTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTTCTGCCTCAGGCCCCCAAGTCACTAGGACTACAGGTGCGTGCCAACACACCTGGTTAA
T
TTTTTTTTTTGCATTTTTAGTAAGACGGGGTTTCACCATATTGGCCAGCCTGGTCTTGAGCTCCTGACCTCGCGATCCGCCCCCTCAGCCTCCCAAAGTG
Celera SNP ID:            hCV26351923
SNP Position Genomic:     8193
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40660):
CAGCTGTCAGGCCAGAAGGAGCAGCCGTGCAGGAGGCATTTCAGGCATCGTTGAGGGGAGTGTTTTGGGGCCGCAGAGCTCTCAATGCTGCCTATCGGGC
G
GGGGGGGGCCTCCCGCCCGACTGTCCAGCTTCACCCTCCAGTCTGAAAGTGAAGAGCAGAGTATTTATTTAAAAAATAAATGTGAATTAAAATGGTGCCT
Celera SNP ID:            hCV26351924
SNP Position Genomic:     17589
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40661):
AGTGAGTGCCCGCATGTCTCTGCAGGCGGGACCACATACTGGCCATTCTGGCGCTGCGCCGACTGGGCCGCCGGCGGAACCAGCATCTCTTGCAGCACAC
Y
CAAGACCTGCTGAGAGCTGCGGCCGGGGCGGCGGGTGCGGAGGCCCCTCGGGGCCGCGTGCTCTTCGAGGAGATCAAGGTGCCCAGTGCCATGGCTGTGC
Celera SNP ID:            hCV2206750
SNP Position Genomic:     17228
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,5)   caucasian(C,1|T,15)   total(C,26|T,20)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Gene Number:                 190
Celera Gene:                 hCG25667 - 62000133463573
Gene Symbol:                 CXCL12
Protein Name:                chemokine (C-X-C motif) ligand 12 (stromal cell-derived factor 1);PBSF;SCYB12;SDF-1a;SDF-1b;SDF1;SDF1A;SDF1B;TLSF-a;TLSF-b;TPAR1
Celera Genomic Axis:         GA_x5YUV32W1HM(2274299..2301251)
Chromosome:                  Chr10
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12350):
ATGCTGTTCACACTCTCAGTGTGCACACTCTGGGGTTTCTGATAGGTAGGAACTGATGTATACTCCAGTATGAGAACCTTCAGTGGATCCCCAGCTGCTG
AGTCCAGTCTGCCCAGAGGCAAGGGGAATAGGAGAGAGGGGTGGGGCTAGGAAAGGGAGGCAGAAGGAATCCAGGCCTGACTGTGGTGACTGAGCACAGG
AAGGGTTCACTACTTGGTTCCTGGGAACTGGTGTGGGGACTGGGAGCACAGATCTGAACCCCTGGGGCCTTGGGTCTGATTTGCCCTRTGAGCCCTGGTA
GTCCGACAGTCCCGGGGAATGTCCCAGGAAATACCAACTGTGCTATTGTGAAATATATATTTGGTCTTTGTCCCAGCTTCCTGGCATGCAGCTCCTAAAA
TCTTTGGTTTACTTGACTGATGGCTGGCAACCCTTGGGTAGCTTCAGGATGGAGGCTAGTCATCAGAAAGACCAAGCAGGATTAGAAGGCGGGAACTTAT
AGCCCCACCCCATCAGCCTCTGAGGAAGGAAACAGGGCTGAAGGCTAAGTTACCAATGACCAGTAATGTAATCAATCATGCCTATGTAATGAGCTTCTAT
ACAAACACAACAAAGCAGGGTTCAGAGGGCTTCACGACAGTGGAGGTTCCTGGAGGATGGTGCCTGGAGAGGGCATGGAGGCTTCATGTCCCCTTCCCCC
ATACCTCGCCCTATGCATCTCTTCCCCTGTAGCCTTCATAATACCCTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTCACCTAGACTGAAGTGC
AGTGGTGTGATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAGGTGCCCGCCACC
AAGCCCAGTTGATTTTTGTATATTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACATCAGC
CTCCCAAAGTGCTGGGATTACAGCCGTGAGCCACCACGCCCAGCCCATAATACCCTTTTTAATAAACCAGTAAACATAAGTGCTTCCCTGAGTTCCATGA
GCTGTGGTAGCAAATTAATGAAACCCAAGGATGGGGTCATAGAAACCCTAATTTATGGTCATTTGGTCAGAAGCACTGGGAAAACAACCCAGGGCTTGCA
ACTGGTATCTGAAGTAGGGGCAGCCTTGTGGGACTGGGGCCTCAACATGTGGGGCCTGAGCCTACCTCCAGGTAGATCGTCTCAGAGTTGAATTGAATTA
GAAGACAGCCAGCTGGTGTCTGCAGCTGAAGGACTACTGGCTTTGTATGTGGGGAATCCCCGCCCCCCCCCCCACACACACACACACATCTGAAGTCACA
AAAGTATTTTGTGTTGTGAGAGTAAGGAGAAACTGAGTTTGTTATTCTTACATTCTCAGATCCCCCTGCCTCAGCACTGTCCAGCAAGGAAGTCTTTGGG
CAGAGCCTGCTCAGACAGAAGTCCTGGCCTGCTAGACGTGCACATACCCTGACGGTAAGCCTTGCTTGCCCACACATGTGCCCAGAACCAGTGGGGATCA
GCTCTGCCTCCCAGGGGTCCTTCCCTCTAGGGCAGCCTGGGGCTGTTTGCAACTGGCTCTTGAGGCCAGTGGGGATCTAGACAGGAAAAACATGGCCAGC
TGGTCAAATGCCAAGTCCTGGCCCTGGGTACGGGATTCCAAAAGGCTCCCTGGATGACTGCCATGGGAGTGACTTATGTCCCCAAGAGTGCTTTCAGGAC
CTGGCTGATGTTCCAGGATCCAGAGACGTTGGCCCCAGAGAGATGTACCCTTGCTCCTGCCTGGCTCTGTCATGTTGGCCGAGGCCCTCAACTCTGAGCC
TTGGGCTCAGAGCCCATGGAGACTTGGGTTCCATGTCTTCAAAGCTGAGACAGTGGGGCTTATACTGCAAGCTCGGTCTTTGAAAGTACCAAATTGACAA
ATTCAAAGAAGGCAAACTAAAGTCCTATGTAAGTCCACTGTTCAGTATCTTCCTAAGGGCCTTCTCTGGGCCAAGTGGTTTCACACTGACCAAATCCACC
ATGTCAGCTAATGTACCTGCTGCACAGATGACATCAGCAAGGCGGTGAGGATTTGTCTTCCTCACCGGGCTTCCTGGTTCCTGGAATAGGCCATCTGCTC
CTGAACCCCAGGGCCAGGTGCCAAAGGAGTGAGGGCAGATGTGGGTGGTTGGGAGGGGTCCCTCCAGGACTGCACGGGAGCTGGGAGAGGAGCACTCCTG
GAGGGGTGGCAGGGCCAAGGGTATCCAGGGATCCCATAGGGCCCCACAGTCTTCCTATGACCTGAGCGCTCCTGGACCAGCGTTCTCCAGCCTCACCTGG
CAGGCAAGTGAGGAAGACATCGTGCCTCCCTTGTGTGATTTTATGTTTCAGCACTTTGGAGCCAAATACTTATTTCAAGAGGGGGATTGCGGTGGGAGGG
TGTCAAGTAATACAAAAAATATTCTTCATGTAGAAAAGGTTTTCAAATTTCAGATCTATTTGTATTGCTGTCAAAATTTTTGCTATGTCTCCAGCCACCT
AGACTAGCACTTGCTATGTTAGCTTCAATTGACTTACTTTTTAAAACTTGAACCATATATTAAAAAAAAAWCCTGAGCAATATCTGAAATATCTGCCTTT
ACTGTGCTAGTTATATTTTTTCTTATTACTTTAAAAAAATAAATACATAAATCTATATTTTATAGATTTCAGAGTACCACCTGAAGTCACCTTGTCAATT
ACACACTGTACAACATGGATTTAGTGTAAACCTTCAATCCCTACTGGGAACCCTCTTGCAGGCCCAGCCGTTGGGCCCTGGAGGAGTGAACGGCCCAGGC
CAGGCAGAGGGGGGTAGGCAGATGCTGCCTAGGGGTCTAGAGACCATAGCACACATGCCAGCTCAGGAGATGCCCTGCCTTTAACTCAGCAGCCAGACCC
CTGCCTCCCACCTTGAACTGTGCTTAACAAGGCATCCCTGAGGAGCCGCTGTGCCCTGCATTACCTGGTAGAGCGGCACAGAGTCTGAAGACTTCAGGAG
AAGGTGGGGCTCTATGGGGAGTAAGAGTCCCCAGGCAGAGAAAGAAAGGTGGAGCCTTTTGAGCATAAGCATAAGCAAAGGACACAGGGAAAGGGGTGGG
GAACTTCGCTGACCCGAATTTGAGAGGTACCCCTGTGGCCGAGTGAGCTGGAGACATGTCAAAATGGCCTGGTCTGATGGCCGCCTGCCTGTGCAGGCGG
TGCGGAGGCCCCCAGAGTGTACAGGGTTTTATTTTATTTTATTTACATATTTACATATTTATTTATTTATTTACATATTTGTTTATTTATTTATTTTTGA
GACGGAGTCTCGCTTTGTCACCCAGGCTGGAGTGCAGTGGCGCCATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTTTCCTGCCTCAGC
CTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGGCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTC
TCGAACTCCTGACCTCGTGATCCGCCCGCCTCGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCAGGGTTTTAAATTTCAATCG
CCAATTGTAAAATTGTGAGGCTTGTACCTAAAATATGGATCCTTGGCCACCCTATTTAAAATCCTAACTCCCACCCCACTTTCCTCTGCTCCATCTTCCC
CTAGCATTTAATGGCCTTCTAAGTATTTTATGCGTAATTACTTATGCTTAGCGCCATGTGCTTCTAAACGTTTAGTGCCTTTTCTAAACTACTTCAAACA
TGTAGCCCAGGTCTAGCACATAGTGGGTGCTCAGTAAGTATTTAACGAACGACTAGCGGAAGGGATGGCCCCATGGGTGCCACACTAGCTTCTGTTCTGG
GGCCTCAGGGCGCCTGCGGGAGGGGCAGCGGCCAGGCCTGAATCCCTGGTTCGCCCTCGACTCAGCCCACGCGGGCCTTTCAGGCTTCTGGGACAGATCC
TAGGTCCAGCTGCCCACCTGATTTTGTGGCAAAGAAAAAAAGAAGAAGAAGAAGCGAGAGGCGATGGCGTTTGCTTTGGCCAGATTTAAGGGCAAGCGAG
GCTGCGCGCGGCTCCCGCAGGGTCGGATCTCCGAGCTCCAGGGCGCCCCTCCACCCGGGTGTAGATTTCCCGCGGACCCCTTCGCCCTCCCGGGTTTCAT
CAGCTGCGCAGGAATGGAGCTGGCCAGAGCTCTGGGAGCGGGGAGGGAGGCGCCGCCACCAGAGGGCGCCGGAGCCCCAGCGCTGCGGCCGGTGAGCGGC
CAGGCTCCCCGGCCCAGCCCAGCAAAGGCCTGGGGACGCCCGACGGCTGCCTTCTTCACTGGACCTCACTGCCTTCAGTTCTTTAAGAGCAGGGCCAAGT
CAGTGGGGTTCCCGGCTCCAAGCCCAGTGCCCAGGGTGGGTGGGTGGGTGGGTGGATGGGTGGATGGATGGATGGATGGATGGATGGATGGAGTGCCGGC
CCACAGCCATCTAACGGCCAAAGTGGTTTTGGAAAAAAAATGCACAGAAGACACCTACTCCCACCAGCGGAGTTCCGGAGCCCTCGCAGCCTCCTGTTGA
CCGCTCCCGCCTAATGCAGCCGCTGACCGCCCACTCCCCGACGGCCAGGACTCCCCAGGGACAGGGACGTGTCCCCAGGGCAGGCCCCTGGATGGACGCG
GCGACTGACCCCACTTCGCTGGACGCTGTGCTGGGAAGGACACAGAGAGGTGGCTGGGGCAGCCTGCGGTCACAAAGCGAGGCCCAAAGGGGCGCTCTCC
TCACCCCCACGCCTCCTGGGTGCCGACCTGCACCCTCCCTTCGCCACCGGACTGGGGCCATCTGGGATGTCTCGGGGGTATCCGGAGGGCTAAGCACCGC
CGAGGGACGGCTCCGTGGGAAGAGTTTTCTGGACCCAGAAGGCAGACGCCAGTAGTACTGTCCTAGGAGTCGGAGGTCGGGGTGGGGGAGTTCTCAGCTC
TTTGGGTCGCACGGAGCTTTTCTTGGGTAAGGCAGTAAGTACTTAGGTTTAAAGGACTTACTTACAGCTACCATTTATTGAGTACTGTCTGCTTGTCAGA
CACGATGCAGAGAATTTCGCGGCGTGGGGCGGGTCTCATTGAATCTCCCGTCCCACTCCGCGGGGTGGGCCTGTGATTAGCTCATTTCACCATTGAGAGG
TCGGAAGTACAAAGGCTACATTCGCTTTTACTGAGAGCCGCCGGCGCCTTCTGCTTTGTTTGTACAGGCGAGGAAACTGAGGCTCGGCTGGTGGCGCCGT
GGGCTTGGAGTCCGAGCCACGCTGACTGCAAAGACGGGTCTCATTCCCGCAGATCGAGCTCTGCCGGCGGCTGCGCCGCAAGCCGGGCAGGTGGCGAGCT
TGAGCCCCCACGCACAGAAAGCAGGACCCCCTCGGCTGCCTTGGGCCGCCACCGCCAGCAGGCCCTCCGCCCGGGACTAACTTGTTTGCTTTTCATTGGT
TCTCATTCAGTTCCCGCCATCGAAAGGCCCCGTCCCGCAGCTTTCCACGCGCGCCCCACTTTACGCCTAAGGTCCTCAGTCTCTCCAGTGGGGCCCTGTC
ACAGGGACAATAAGCGGCCCTCCAGCCGGCGTCGCTCAGGCTGCGGACCTCACTGCAGACCGGGCCAGCGGTGCGGGGCCCAGCGGAGCCTGAGAAGGTC
AAAGGCCGGAGCGCACTGCGCCTCGGGAGCACAGAGGGAGCGGAGGAGGGGCGAAGGGGATGGGTGGGGGGTGCCGCCGAGGGAGTCGCGCGTCAGAGAC
CCCGGCCACGGCCAGCACTCGGCTCCGGGCCCGCCCCTCACCGCGCGCCCCGCCCCGCCCCGCCTGGCTCTCCCCTCTAAAGCGCCCGGCGCGCGCCTCC
CACCGCCGCACTTTCACTCTCCGTCAGCCGCATTGCCCGCTCGGCGTCCGGCCCCCGACCCGCGCTCGTCCGCCCGCCCGCCCGCCCGCCCGCGCCATGA
ACGCCAAGGTCGTGGTCGTGCTGGTCCTCGTGCTGACCGCGCTCTGCCTCAGCGACGGTAAGTGCGCTCGGCGGGGAGGCCCTGGCGAGGCTCTGGGCTT
CGGCTCCCGCCCGGCGCAGAGCCGCGGCTCCTCTGCCTGCGCCCGCAGTTTGCGCCGCCCGACACAGTGGGGGTGGAGGCAGCTCGCTTAGCTGGGCGCT
CTGGTGCGGTGTCGCGTTCAAAGCCCTACTTTTGCGCCGAGGGTTTGTGACCTGCAGAGAGCGACCGCCTGACCTCAAGCTGGCTGCAGAGCGAGGTCAG
CCGGGACAACTGGGCAGGAACGCCCCAAGAGAGCGTTCGGGACTGGCGCGGGAAGGCGCGAGGGTGGGGAGCCGCGGACCCCAGACCCCTGCCTGCCCAC
CCTCCACCCACTGCCTTCCCGCTGCGGGCTCGGTTTCCACAGGCGAATGGGCTCCGAGGTCCTGCTGCGCACAGTGCTGGAGGTCGGGCGGTGCATGGCG
AGAGCGCGCTTTGCAAAGTTCGCCTCATGCCGCGACTTGAGGCTGTGAGGTCCGATGCAGCCGCGCAGCCTCCGCTCCCTGCGAAGCCGATCCTCTCCCC
ACACCCTCGCGGGGCTCTTGGCCAGGCGCGGGCGGGCTGCGCGGCGCAGCTGTCGGGCTTGTGCCACCCGCCAGGCCGCGCTTCTGCACAGCTCCGCGGT
CCGCAGCGACGCGGACCTGGGCGCGCGTCCAGCCGCTGYCTTCCTGTCTCTTCTCGGGTTCACCTGAGAGAGGCCCAGGGACCCTCCGAGCCTCACACGC
CCCCTCCCCAGCTCCCCAAACACACCTGCAGACAGGCTCTTTTGTCACCAGCTGGCCAAGCGCTTTGCCCCAGAATGAGAGCTGCAGCAAAGTTCAATCT
CCAAGGCCCTGGGCCACTGGGAACCGTGGTGTCCCGTTTCACTGGGAGAGGGCTTTTTTCTTTTCTTTCGCTGAAGAGAAACTCGCTGCGCTGTCACAGG
ACACCGATGCAAACCAAAATAAACTGTTGCCTCTGAACACACAAAACAAAACCCTGTGGCTCARGCCGCTGAGCTTCCTTGGCTGTGAAGTTTCCTGCAA
AGAGTTGAAGGACACTCTGAGTGCTCTTGCAGCCGCGGGCTGTGCAGGCCCAGCGCGCCTCGAGCCCTTGGCTGGGTTGGTGCAGACGTGGCCCCGGCGT
CCTAGCTGGCTTGGACTGTGCGCTGGTGTGAGCAGGACCAGCGCAGCTGAGTCGGGCTGGAGAAGCTGGGCAGCCTGGGGTCGTGGCGGACTGCCTAAGT
GTTAAGGACACAGACTGAAGGCAATTGGGAATGTTCGTCGTTGATGAAAAGTCCCTGAGGCTGTGTCTGCACACTGACCCCCCCCCCCCCCCCGCAAGTC
ATGGGGCATGTTTCTAGTTTTTATTGCTGGATATTCTTCTGTTCCTGTAARGTCTCTGGTTTGGGCAGTTATTGACTGATTGGTGGGATGAKCGCGGAGG
TGTCACAGTGCGCCGCTCTGGGAAATGGTGCTGCCCCCTCCCCGGAGGGCTGGAGAGAGGATTGGAATGAGGAACCTCGGTCTTTGAGTTATGGGTGCAA
CTGACCTGGGGGAAGCACAGAGACGTGGGGTTCATCCCAGACTCCTCCTGGCCTGGGAAGGGTGACATGGCCCTCAGAGTTGCCCCATTGGCAGCCAAGT
AACCAGGGCAGGAGCCTGGGCTCCAGGCAGATCTGCTCCTTACACACATCGCCAGAATGTTTTGTTTTGTTTTGTTTTCCCCTCACCTCACAGTGCCTAT
GTGCCCCCTATCCCCACACTTAGTCCTCAAGCTGCACTACAGAGAGAGCTTGGCCAGGGGTCCTGCCCCTCCCCCATTGGCTGACTTCCGTCAGGCAGCT
GGGCCCTTGGGTTTCCCGGGCTTAAACTCAGGGTGGGCCCCCTTCCCAAGCCTGCTTGGAGGGGCCAGCTGGGCTCCTGTCTCTGCATTAGACTGGAGGG
CTTTCTGAAAACTCCTGGAGCCAAGCTCACCCGGTCCCAAATCCGGGGTACCATCAGAGCCAGTCAGGACTCTTGCCGGTACACGGATTTACATCCAGAA
CGGTTGGGAAAGTTAGTCTTACTGACAAAAAGCTGGAGGAAGGAGCACATGAGGTACACACGAGACCATGTTCTTTTGGTAAGCACACCTGGGGGCTCTG
TCACTTTAAAAAGACCTGTTGAAATTCGCTGCTTGACAGGCGGGCCTTAGGTCCTGGGAGTAGAAGCAAGAATTGCTTTTGAAGGAAATGGATAATCCCA
GGGGGTGGAGGGGGAGAGGAGAGAGAGCCTGTGTGTTGAGCTCTGAATAGGCTCTGATTTCTGGCCTCATCACCACTGCTTGGTTGGGGGGCCAGAGGAG
CTTCTCTCCTCTGGGCGCTGGAGAGTCACAGCCCCACCCATCCCAGCGGGGGCGGCTGCAGCACTTGCCCTTGGCTGCATATCTTCAAGCTCACTGTTGC
CGGGAGGGGGCTTGTGCCTCACTACCGGCCTCCTATTCTCCTGCTCCACCCCCAACCCACCCCCTGCCTCAGCTTGGAAGGGCCCAAAAGAAATCCAGGG
AAACCTGGAGGCACAACACTCAGGAGCGTTTAGCTCCTCAGTTACCCAGGCTGCAGGCCCCGGCCCTGGGGGTGGCTTTCCCAGGTGATCTGGTTACAGT
GCAGTGCTGACTTCCCCTGCAGGGTCCCAGTGCAGCTGCTGGAAGCTGGCCCCAGAGGTGCCTTTCTGGAGTTAGATCAGGTGTAACTGTGAAGGCTGCY
TTAGGTCTCTCCAGTGCCATGAGTCACCAGCACCCTGATGCTTGGCTTTTTCCTGGTTTTCAGGGAGTTGCATTTGGTCCTGGGGACAAGGAAGTGGGGG
GACAAGTGGTCCACTTTTCCTGCAACTTGGTGGCTGAATACACAATGCARTTCCTAGTCCACATCATCCCTCAATTGATTGCAGTCTGTAGAAAAAATAA
AATAAAATGAGCCCCTTACTCAAGATTTCCTCCTACTTCCCCAGCATTCTTTCCCAAAGGTGCAGAATTTCAGAACCACAGAGGTCTCTCAGAACTTTGT
AAACAGGCAAACTTAAAAAAAAAGAAAAAAGAAAAAAAATCTCTGGACCAAATATTCTTAGACATATATTTAATCTCTGATGAAAGGATCCACAAGTTCA
AATAATTTGGGGTATTAAGTGGGGCTTGGATAAAATCTTCAAGGAAAAAAGAAAAACAAAAAGCACACACAAATCCCAGCCCTCCAGGGCTTGCAATCCT
ATATTTAAAGGGTGAGCAGTGGGTTCTGCAGGAGCCCCTTGCTAATTTACACTAATGAGTGTCAATTATGGCATTTTGTAAATTGGTGATTTTGCAAAGA
TCTTAATACAATTCCTGAGGCTACAGCATCCCTGCCTAGGCAATGAAAACCACATTTAACTCCAGCTCCACTAATCTCTAAGCCTTGGGGAAAGTGCTGG
GCAGAAGGTGGGTCCTTGGCCTGCTCTCAGGGGACTCACAGGTAGGAAGCCAGCCAGGATTCTTTTGTGCCTTCCAGAGCTTTAGGTGAATGTGAGGAGG
GGTCTCTGGGGTGGGGGAGGGCAGCATTCCTGAGTACTACTGTGCTTCCTGGCTAGAGGCCTGTGCCAGAGGAGAGAGGCCAGGGAGCCTGGAGCCTCTT
GTCCCCCTTTCTTTTCCCTGAGTAGGGAGATCTTTCTCAGTTGTCCCTTGAGGAATTTTTTTTACAAAGAGTAACTGGAAATTTCAGTACCTTGGACTGA
AACCGTTATCTACTATAATTACTACCTTTATCTTGAGACACTGAGCAGGTGGCTTCTAATTTAATCTCCCCCCTCATCTAGGCTCCGGCTCTCCCCAGGC
CTGTTGGGCTCCTTGCCCTGTAGAAGCTGAGCCTGAGCTCAGCCAGCACTCACTGTGTTGCCTGAGGAGATGGCCTTTCCCAACATACACCAGTAACCTG
GAACTTACCCCAGTGATGCCGTCTCTTGATCCTTAATCGCTGCACCAAYTGCTGCAGCCCAGACACACATTACCAAAATCTGGCAGGGTAGTAAAGTGCC
TTGTTGTCCTTACCTCTTCTAGGGAAGCCCGTCAGCCTGAGCTACAGATGCCCATGCCGATTCTTCGAAAGCCATGTTGCCAGAGCCAACGTCAAGCATC
TCAAAATTCTCAACACTCCAAACTGTGCCCTTCAGATTGTGTAAGTCTTGAAATTGAACATCATCTAACGAACATAGTTGCATCTAACGAACATAGTAAC
ATCTAACCCGAGTCTTATTAAAGGTGTAGAGGTGACAAGCCAAGTGTCCAACCTTGAACTTGGCATAATTAGTGGCAGCTATTCTTATCATGAGGACCTT
TAGTATGCCACCAGGCATTAATTTTAAAAGCCGCTCTTGGCCTGGGCACCCTGCTGTGCTCGTAGTAGTTCTCTCTTCTTTCCAAACCTGTGTTCTTCAG
CACAGCACAGCTGGATGCTGGAGAAACTATGGGCTTCACCAAGGTTTTGGCTGAAGCCTAGTAAATTASCCAGCCCTTAGCTAATAACAGTGATAACTGG
CCTGCCAGTTTYGGGGATCTGATGCCCTACATTAACTCACAAGACCCAAATGCAGTTTAAGTCCTCTTTAACCATTGGGTGAAACTTCAACATTTTCAGC
TCACTTGCCTGTATTTTCTCAAGTACAACATATGAGGTTTTGGTGTTATTTGGTGTGGATGGCAGCCACTAACATTTGATTTTATTCATTTGGGAAACAA
AGACCAAAATCACACATCCACAAGACAGGAAGATCTCAGCTGGGTACAGAAGACCGGGAGAAATGCGGGAAGAAAGCCATGTGCTTGAAAGCCCTCTCAT
GCTCAAGAGGTCCTGTGTCTGAACACGGGGAAGCGAGGGCTCAGGGAGTCTCCTGGAGAGGATTTGATTGCTCAGAAGTTCTAGTGCTAAAWATGGGGTG
GGGAGACAGCAGTTGGAACCAAAGCTACAACTTTCCCAAGACTTTTCCACCCAACACCAAATGTTTTTACTTTTGATTTTAGAAAACTGTTTTTAGTTTT
GAGTTAACCCTTTACTGCCTTGAATGTGTTTGTTATTTACAGTATGTTTTAGGGCCCTAGAAAATGAATGTTTTTTCAGTACTTTGCCTACAACATGATA
CTTTATCTCTTGTGAAGAGTATTTTAAAGATGCTCAATTTAGCTASCTTGGACCTGCTTTACAGCACTGATCATGCTGGTTTACYGGCCTGGAAATGCAC
CTTGAAGTTGAAGATGCCAAATACAATTCTCAGGTCTGAGCAGACACTAAATTAACAAAGAATAGGCCCCAGATTTGGACCCCAATGTGGGTTGCTCCGA
GCCACACCCAYCTCTGCACCCCTCTTCACCTAATGGACAGGCTGCTTGAAGACTCCCTGGGTGCCCCTGAACCACTGTTCTGGGGCTTAGCTGTCCTCAA
GACCCTTAAGTACTTGGGCTGCATGAGATTACCTGGCACCAAAGGGCTTTCTGGCAAGAGATYCAGAGAGATGAAATCAGGCCYTCCCCAGGAGTTTGCA
TGTAGGGAAGCTTTTAAGAGTGTGAACTTYTAAAAAACAAATGAGACCAAGAAACATTCAGTGAACTTGTAAAATCTTTCTAGAAACTATTTTCTGGTAA
GCCACCTGCACTGCCCCTCCCCTCCCTGGCTGGTCACCCTCCCGGTCAGACCGCGGTGACTTCTGGCAGGCCTCCTTCCTCCAGGCTTCCTCATGCCCAT
CCTTAAGTCGGCCCTATATCTATCAAGATGACCCATCCAAATAAACCTCTGCTCTGTTGCTCTCCATTCTCCCCTCCCCAGGTGCCTAGAGCATCCTGTC
GTCCCCTTCCTCAGTTTCCTCTGTATGCTTTGATGACCCCCCTGGCGTATTTGCTCCTGATTTTCCCTTCCCGTTTATTTACTCTCCAAGCTCCTACTTA
TCCTTCAAAGGCAGCTCAAATGCTCCCTTACATGAATTCCCCTGCACTGCCCCGGAAAGACTTCTGTTCACATTTCCATGTCTCTGCAATGGAACTTCCT
GCACTGCCAGCGCTGAGCTTTCCCCAGCACACCGCGAGCACMTCTGGAGCCTGAGCGTACCAAGTGGAGCACGGGGTGCCAGCGAGGGCCCTAGATGRGT
GTTGGGGGAGCGGATGCACACGTTGCAGCCGCGCYTTCCTCCTGTGCAGCCGCACACTGTTGCCATTCTGTTTTCACAGAGCCCGGCTGAAGAACAACAA
CAGACAAGTGTGCATTGACCCGAAGCTAAAGTGGATTCAGGAGTACCTGGAGAAAGCTTTAAACAAGTAAGCACAACAGCCAAAAAGGACTTTCCGCTAG
ACCCACTCGAGGAAAACTAAAACCTTGTGAGAGATGAAAGGGCAAAGACGTGGGGGAGGGGGCCTTAACCATGAGGACCAGGTGTGTGTGTGGGGTGGGC
ACATTGATCTGGGATCGGGCCTGAGGTTTGCCAGCATTTAGACCCTGCATTTATAGCATACGGTATGATATTGCAGCTTATATTCATCCATGCCCTGTAC
CYGTGCACGTTGGAACTTTTATTACTGGGGTTTTTCTAAGAAAGAAATTGTATTATCAACAGCATTTTCAAGCAGTTAGTTCCTTCATGATCATCACAAT
CATCATCATTCTCATTCTCATTTTTTAAATCAACGAGTACTTCAAGATCTGAATTTGGCTTGTTTGGAGCATCTCCTCTGCTCCCCTGGGGAGTCTGGGC
ACAGTCAGGTGGTGGCTTAACAGGGAGCTGGAAAAAGTGTCCTTTCTTCAGACACTGAGGCTCCCGCAGCAGCGCCCCTCCCAAGAGGAAGGCCTCTGTG
GCACTCAGATACCGACTGGGGCTGGGCGCCGCCACTGCCTTCACCTCCTCTTTCAACCTCAGTGATTGGCTCTGTGGGCTCCATGTAGAAGCCACTATTA
CTGGGACTGTGCTCAGAGACCCCTCTCCCAGCTATTCCTACTCTCTCCCCGACTCCGAGAGCATGCTTAATCTTGCTTCTGCTTCTCATTTCTGTAGCCT
GATCAGCGCCGCACCAGCCGGGAAGAGGGTGATTGCTGGGGCTCGTGCCCTGCATCCCTCTCCTCCCAGGGCCTGCCCCACAGCTCGGGCCCTCTGTGAG
ATCCGTCTWTGGCCTCCTCCAGAATGGAGCTGGCCCTCTCCTGGGGATGTGTAATGGTCCCCCTGCTTACCCGCAAAAGACAAGTCTTTACAGAATCAAA
TGCAATTTTAAATCTGAGAGCTCGCTTTGAGTGACTGGGTTTTGTGATTGCCTCTGAAGCCTATGTATGCCATGGAGGCACTAACAAACTCTGAGGTTTC
CGAAATCAGAAGCGAAAAAATCAGTGAATAAACCATCATCTTGCCACTACCCCCTCCTGAAGCCACAGCAGGGTTTCAGGTTCCAATCAGAACTGTTGGC
AAGGTGACATTTCCATGCATAAATGCGATCCACAGARGGTCCTGGTGGTATTTGTAACTTTTTGCAAGGCATTTTTTTATATATATTTTTGTGCACATTT
TTTTTTACGTTTCTTTAGAAAACAAATGTATTTCAAAATATATTTATAGTCGAACAATTCATATATTTGAAGTGGAGCCATATGAATGTCAGTAGTTTAT
ACTTCTCTATTATCTCAAACTACTGGCAATTTGTAAAGAAATATATATGATATATAAATGTGATTGCAGCTTTTCAATGTTAGCCACAGTGTATTTTTTC
ACTTGTACTAAAATTGTATCAAATGTGACATTATATGCACTAGCAATAAAATGCTAATTGTTTCATGGTATAAACGTCCTACTGTATGTGGGAATTTATT
TACCTGAAATAAAATTCATTAGTTGTTAGTGATGGAGCTTATAGACGTTTCTGGTTTATATAGTTAAGCCTGCCTGCAGTCAGGTGTCTGAGACCCCTTC
TCACAGCCCATGTGTGACAGTGTATGGGCTTTTCTCACGAGCAGATTAGATCTGCAGCTCAAGTTTTTGGATCTTTTTTTTTTTTTTTTAACCCGATTGA
AATAGCAGTGCTGGTTTTCTGAAGAATAATATTTGACTCACTAATTCGTCTTCCCTCCCTCCTCCTCCTTGGTTCTCCTAACTTCCCCATGTAATCCCCA
GAGACTCAACCCTAGTAATATCAACCTTTTACATTTTCCCATGTAAAAATCCCATGACTCCAGGCCATGGTTAATATGAAGCTTTCACAGGGACAGGTGG
CCTCACCCCATAAATCATTAAATACCATTCAGCTTGAATCATTTTAATGTGACAGTCACGAGCCAGTTGCTCTAATAAAATTCTGCTAACCAGCTCTCTC
CCTTGCTCTCCAGAACAATCGCATTCATTCCCAGGAGTGTTCACAGGCGTCTAGAAAGGGGAAGGTGGGACCACTGCCTTTTTTCTCCTCTTCTGAATGG
CAGTCTGAACCTGGGGCCTGCAGCCTCCAAAACGTTATTCAATTTGAAATGCAGACATTTCTTAGAGAAAGCTAAGAGTTCAGCCCTGCATTGAGAAGAA
GAAAAAGTCCCATGAGARCAGGGCAGGGTGGGGTGACAAGGACCACGATGGCCAGCCTGGCCCTGGGTGTACCCTGAGATGTGGATTCCTTGTCCCCAGT
GGGAATCRGGTTCAGGTTGGCAGATTGGCAGTCGCTGTAACCCATTCACAAAGGTGTTCTAGGAGCCCATTGAACATTTGTTTGAATGGAAGGAAATGTC
CAATTTATTTTAATGAATTACTGATAAACAGTGCTTTGACCAGGGGCCTCCAGGCCTGAGACTGAAGGCACAGTTTAACCAGTACACGGGCCAGTGTTAA
ATYTTATGCAGACTGAGACGAACTTTTGTTTATTTCCACATTATTAATGGTWCTACTAATTTTATCTAAGGGGGCGCAGAGAAGAAAAAGTGGGGAAAAA
AGAAAAGATAGGAAAAAAGAAGCGACAGAAGAAGAGAAAGGCTGCCCAGAAAAGGAAAAACTAGTTATCTGCCACCTCGAGATGGACCACAGTTCACTTG
CTCTCGGCGCTTTGTAAATTTGCTCGATCCTCCTCCAGGACAGACCCCCATGCAGACTGGGCAGGGGCTCAGACTTCCGTGGGGGAGCAGTGCTTTGCTG
CCCTGCCAGCCACACCGGCTTCTGTATTTATGTGCTTTTTAAGGCCCTTGTTGGTCTGCTAAGTTATGAAGAAAGTAGTTGTGCAGAGACTGGGGCGGGG
GTCTGTGACGCGGAGSCTGTGTGCTCAGGACTCTGTCCAGAATAGCCTGGGAGCTCCAGGAATGCCCAGGTTGCTGAGCCCCCCAGCCYGCCCTCCACTT
CCTCTCTTAGAAGGCCTGCGCTCACTGGGGAGCTCACCAGCTCCACAYACTTGCAGTCTGCATTCCTGTGGAGACCAGGCTGTGGCCACCTGGCCAGTGT
GCAGGGCAACCTGCTAGCCCAGCAGAGGTGGCCTCGCCAGGAAGGGGGTGTGCCACCCCTCTGTGGCCCTCAGGAAAGGTGAAAACTGACTGACCCTTAG
GAATGGGCCCTGGCTTTTTCCAAATACCCATTGCCTTTCCCTCCAGCACTCTGCCACCTGGGAAGGGGCTTCTTCAGCCCCTCCTTCCTGGGTTGTGGGA
GTGGCTTTATCCCCAAGCCCGGGTGGGTTTCTGCAAACTGTGTGGGGTGAGCCCGAGGGAATGCTGCATTCTCAGAGAGCAGATGTGGAAACACTTCTCA
GGGAGCTCCTCTTTGGGCAATTCTCTTTAGAGTCTTTAAACGGGTCCCCCACGTGGAGGACAGATGTGCTATGGAACTTTGCAAGGGTCCTGAATCCCTG
GGGATCCCAGCCTGTCCCCTCCCGCCTCCTGCGTGATGGCGTGTGCTCCAGCTGCAGGGCACAGCTGCCTCTGTCCTCATTCATGGGAAATACCTTATCT
GCCTAAAGCAAATACCACTTAAGCTCTAGGAACTTTCCTGCACCCTCCTTCCCTGCCCATGTAGATGTATGTGTGAGATTTTTTGGCAAGTTTCTCTAAT
CTGGACCGGGAGGATGGAAGAGCAAGGACSCCATTTCAGTAGTGCTCGGAAAAAGGATGCGTTGAATTTCTCAGCCCTTCTCCACCTCACATAAACACCC
GCCCACCCTGCACCCRGATCCTGGGTCATAATTTTAATAAATGCAGAAAGAGAAAGTGGTTGGAGGATGGAGCACATGGAATTCAGGAGAAAACCCACAA
AGACCCCTGCATGTCAGACACACCCTGTCCCGGAGCGTGGTGTCCCCTTGAGCTTTAATGAGCTCCCTGTGATCACAGCCATGCCTTCTCCTCSTTGGGG
AGGTGTCCTAGGATGCTTCAGCCAAAGACCTTTGTTTCCCRCTGCTATCTCTTTTACCTGGACAACTCTCCTGGCCCACGTTCCTCTTGCCAGCACTGGG
GGTCACAGGCCTGAGCCCTGGGTACAGGGGTGCCCTAGTCTTCTGCCCTCCCCACCTCTTAAGGCACAGAGCTGTTGGGTGGGCTGCCTGGGGCTGCCAT
CCTTCCCGTGGAAGCCAGTAGCCACTCTAGTCCATGGGACTCTTGACAAAAGCGCCCCGAGAGGGCAAACCTGTGCCCCCATACTCGCCTGCATTCTTCG
GACTCCACATGCAGCAGGGCTTTGTGCCTGGGGAGGGGTGGCCAGTCTGTCCTGGTCAGTATGAAAAGCTGTTGGCCCCCTAGGGACAGAGGGCCCAGCT
AAGGCTGCCTGAGGATACAAACTGCTTGCTWTCCCACTCCTGGGGAGCAGGGTCTGCAGGGACTGAGAGTGGGTCCCACCTTGAGAACGCATGCAAGGTC
CGTCCTGTCTTGATGTCTTGATGTGACTGTATGTGCCCTGGGGGCTCACTGTGGTTTACAAGTGGCTTGTGAAGCTCCTGGGAGCAGGTGGTACACCCAG
TGCTGAAGACAGGGTCGCCGTGGAAGAGYGAAGAGCCTGACCGGGATTCCTGGTGGGTTGAAACTAGGAAGTGCTCACACCAGTCAGAGCCAAATGAGGG
GTGCGCTATGGTCACTGCTCTGTCCAGCATGCGTTCCTCCTGGGAGGTCCTGGCCACCTGTGCACCCACCCCTGTGCCACCTCCAGCAGTCCCACCTGGG
GCCACCTACGGTGGCATGGCCCCTGGCTGAGAGGCCCCGAGGGCGAAGGGTTACTGGAAGCCACGAAAGTGCCTCTTGGGACAGCCGAGGCCAGGATGCA
GGGCAGCAGCATCCTGAGCCTCAGCCCCACGCCGGTGCCGGGTAAGCAGTGTGCCCTGTCCCCGTCGTATGACCACTCTGATGGGCCTCTCTGTGCCTTY
GTGCGTCTGCCACGCCCAGTGCTTGCCACRTGTCTGTCCTCTGCTTTCTGCCATCCATGGGTCCCTCCGCTTCAGCCTGGCTGCGTCTCGCACTCCCCTC
CCGTCTGTTGTCGCAGGGCCTCTGAAGGGAGATGCATGGCCAAGGTGGCAACTTGGAAGTAGGGATTGGCCCCAGGGCCTCCGCGCAGGCCRCTGTCCTK
CTGGAGCTGGCTGGGTGTGGGGGGAACCTGCCTTAATGGTGTTTCCCTCTGTTCTTGTCAACAGGAGGTTCAAGATGTGAGAGGGTCAGACGCCTGAGGA
ACCCTTACAGTAGGAGCCCAGCTCTGAAACCAGTGTTAGGGAAGGGCCTGCCACAGCCTCCCCTGCCAGGGCAGGGCCCCAGGCATTGCCAAGGGCTTTG
TTTTGCACACTTTGCCATATTTTCACCATTTGATTATGTAGCAAAATACATGACATTTATTTTTCATTTAGTTTGATTATTCAGTGTCACTGGCGACACG
TAGCAGCTTAGACTAAGGCCATTATTGTACTTGCCTTATTAGAGTGTCTTTCCACGGAGCCACTCCTCTGACTCAGGGCTCCTGGGTTTTGTATTCTCTG
AGCTGTGCAGGTGGGGAGACTGGGCTGAGGGAGCCTGGCCCCATGGTCAGCCCTAGGGTGGAGAGCCACCAAGAGGGACGCCTGGGGGTGCCAGGACCAG
TCAACCTGGGCAAAGCCTAGTGAAGGCTTCTCTCTGTGGGATGGGATGGTGGAGGGCCACATGGGAGGCTCACCCCCTTCTCCATCCACATGGGAGCCRG
GTCTGCCTCTTCTGGGAGGGCAGCAGGGCTACCCTGAGCTGAGGCAGCAGTGTGAGGCCAGGGCAGAGTGAGACCCAGCCCTCATCCCGAGCACCTCCAC
ATCCTCCACGTTCTGCTCATCATTCTCTGTCTCATCCATCATCATGTGTGTCCACGACTGTCTCCATGGCCCYGCAAAAGGACTCTCAGGACCAAAGCTT
TCATGTAAACTGTGCACCAAGCAGGAAATGAAAATGTCTTGTGTTACCTGAAAACACTGTGCACATCTGTGTCTTGTTTGGAATATTGTCCATTGTCCAA
TCCTATGTTTTTGTTCAAAGCCAGCGTCCTCCTCTGTGACCAATGTCTTGATGCATGCACTGTTCCCCCTGTGCAGCCGCTGAGCGAGGAGATGCTCCTT
GGGCCCTTTGAGTGCAGTCCTGATCAGAGCCGTGGTCCTTTGGGGTGAACTACCTTGGTTCCCCCACTGATCACAAAAACATGGTGSGTCCATGGGCAGA
GCCCAAGGGAATTCGGTGTGCACCAGGGTTGACCCCAGAGGATTGCTGCCCCATCAGTGCTCCCTCACATGTCAGTACCTTCAAACTAGGGCCAAGCCCA
GCACTGCTTGAGGAAAACAAGCATTCACAACTTGTTTTTGGTTTTTAAAACCCAGTCCACAAAATAACCAATCCTGGACATGAAGATTCTTTCCCAATTC
ACATCTAACCTCATCTTCTTCACCATTTGGCAATGCCATCATCTCCTGCCTTCCTCCTGGGCCCTCTCTGCTCTGCGTGTCACCTGTGCTTCGGGCCCTT
CCCACAGGACATTTCTCTAAGAGAACAATGTGCTATGTGAAGAGTAAGTCAACCTGCCTGACATTTGGAGTGTTCCCCTTCCACTGAGGGCAGTCGATAG
AGCTGTATTAAGCCACTTAAAATGTTCACTTTTGACAAAGGCAAGCACTTGYGGGTTTTTGTTTTGTTTTTCATTCAGTCTTACGAATACTTTTGCCCTT
TGATTAAAGACTCCAGTTAAAAAAAATTTTAATGAAGAAAGTGGAAAACAAGGAAGTCAAAGCAAGGAAACTATGTAACATGTAGGAAGTAGGAAGTAAA
TTATAGTGAYGTAATCTTGAATTGTAACTGTTCTTGAATTTAATAATCTGTAGGGTAATTAGTAACATGTGTTAAGTATTTTCATAAGTATTTCAAATTG
GAGCTTCATGGCAGAAGGCAAACCCATCAACAAAAATTGTCCCTTAAACAAAAATTAAAATCCTCAATCCAGCTATGTTATATTGAAAAAATAGAGCCTG
AGGGATCTTTACTAGTTATAAAGATACAGAACTCTTTCAAAACCTTTTGAAATTAACCTCTCACTATACCAGTATAATTGAGTTTTCAGTGGGGCAGTCA
TTATCCAGGTAATCCAAGATATTTTAAAATCTGTCACGTAGAACTTGGATGTACCTGCCCCCAATCCATGAACCAAGACCATTGAATTCTTGGTTGAGGA
AACAAACATGACCCTAAATCTTGACTACAGTCAGGAAAGGAATCATTTCTATTTCTCCTCCATGGGAGAAAATAGATAAGAGTAGAAACTGCAGGGAAAA
TTATTTGCATAACAATTCCTCTACTAAYAATCAGCTCCTTCCTGGAGACTGCCCAGCTAAAGCAATATGCATTTAAATACAGTCTTCCATTTGCAAGGGA
AAAGTCTCTTGTAATCCGAATCTCTTTTTGCTTTCGAACTGCTAGTCAAGTGCGTCCACGAGCTGTTTACTAGGGATCCCTCATCTGTCCCTCCGGGACC
TGGTGCTGCCTCTACCTGACACTCCCTTGGGCTCCCTGTAACCTCTTCAGAGGCCCTCGCTGCCAGCTCTGTATCAGGACCCAGAGGAAGGGGCCAGAGG
CTCGTTGACTGGCTGTGTGTTGGGATTGAGTCTGTGCCACGTGTTTGTGCTGTGGTGTGTCCCCCTCTGTCCAGGCACTGWGATACCAGCGAGGAGGCTC
CAGAGGGCACTCTGCTTGTTATTAGAGATTACCTCCTGAGAAAAAAGSTTCCGCTTGGAGCAGAGGGGCTGAATAGCAGAAGGTTGCACCTCCCCCAACC
TTAGATGTTCTAAGTCTTTCCATTGGATCTCATTGGACCCTTCCATGGTGTGATCGTCTGACTGGTGTTATCACCGTGGGCTCCCTGACTGGGAGTTGAT
CGCCTTTCCCAGGTGCTACACCCTTTTCCAGCTGGATGAGAATTTGAGTGCTCTGATCCCTCTACAGAGCTTCCCTGACYCATTCTGAAGGAGCCCCATT
CCTGGGAAATATTCCCTAGAAACTTCCAAATCCCCTAAGCAGACCACTGATAAAACCATGTAGAAAATTTGTTATTTTGCAACCTCGCTGGACTCTCAGT
CTCTGAGCAGTGAAKGATTCAGTGTTAAATGTGATGAATACTGTATTTTGTATTGTTTCAATTGCATCTCCCAGATAATGTGAAAATGGTCCAGGAGAAG
GCCRATTCCTATACGCRGYGTGCTTTAAAAAATAAATAAGAAACAACTCTTTGAGAAACAACAATTTCTACTTTGAAGTCATACCAATGAAAAAATGTAT
ATGCACTTATAATTTTCCTAATAAAGTTCTGTACTCAAATGTAGCCACCAACAGTTTGAAATTAGTGTTACTACTTGGAATTTTCTGGACGTGCTTTTTT
TCCCCACAAACCCAAAACTGAGGGTTGTGTAATCCTGGCTACAGTGGTTCATGGAAAACAGGGCATTGTAATCATGCTAATCACAGCTGAGAATTCTGGA
GGCATACTTGCCTCTTCTGGACAGCTGATCCTTAGCAGGGAAAGGTGCTCCCTTTTCTCTGAGTGTCTTTGATTTTGCTAGAATTGCTTCTGAAAGGCCA
GCCTGTCCTCCACTCCACAAGGGATGGTTTTGTGCAAGGGTCTCAGGTATTTCTTGACAGCTGTGAGGAGGGAAGCTTCCACTCTGCCCTTCTCAGTCCT
GGGAGAATGCAACAGAGGTCTGGCCCTGATGGTAATTGCTGAGGACCAGCACTCTGTGTGTTTCCTGCACTGCACAGAGACCTTGCTGGAAGCCAGACAC
GATTCTCTCACCTAGCAATGGCTAGCCAGCACTGTCCTGGACATGGGGCATAGGAGATGAGCCCAGCAGACAGGTTCTGGTCCTCACAGAGGTCAGCCCT
TAACACTCTCTAGCACATTCTCTGTCATCCACAGTCAACTTTGTTAGAAAGGAGAGTCAGCACAAAAGTTCCGAATGTCTGAGTCAGATTGTCCGGTCCT
CCAAGCCCTCTTCCCCATTGGTCCAGATGTGATCACATCATCCCATGCCAAATCTTCCCATGACTTAATGGGATGGCCGTCATGTGGGTGCTAAGCTGCA
GATGGACTGGGGAAGGAAGAAGGGTTAGAGCAGGCCGGGAAGGGCAGCGTGGTGTCAGGGGACCTGTGCAGGTGTGAAGATCAGTAGACTGGGGCTTGCG
TCCCATTCACTCTCTGCTCCCTCTGTGATTTGAGATGCATCCCTTGATCTCTCTGAGTTCCAGTCTCCCAGCTGCAACACTGAAGCTTATTACTGCCAAC
GGTCAAGAGGATTAGACTGGGAGAGTGTGTGGAAGAAGCTAGCTTTTGAGGGACAGGACAAAGCCCGCCCCTCCACCCTGAAAGTTCCCCATTTTGCTCC
CTCTCTCCACCTCCTGTTTCCTGAGGTCCACAGAGCTAGAATAAGACCCACATCTGCCTCTGCTGAGCCCCTTAACAAAGCTCAGAGACCAAGGGAGCAG
GAAGTGACCTGGAAGCTGAGCCTGCCCCTCAGCTAAAGGATGGGGAGAAGTCACTGGGTCGCATCCCCTGTATCTCCGGCACACCACACTGCTATCCTAG
CACTGGGAATCGACAATGGGCCAACCCTTCAAAATGACCTGGCATCAGAAAGAAARCCTGAGCCCTGGCATGCTTGCATTCTCCCCTCATTTACTTGGCC
AACAACAGCTGTGATGCCTCTCCTGCACCGCAGGAGTGTGGGGAGCAAGACACACTCACTCTAATTCCATGAAGCCTGCAGTCTGGCGGCTGCCGTGTGA
GAAGTGGGTATTTTCATAGATTGTGGTGCATTCAGGCATCAGGGAAGCGTAAAACAGAAAAGACCCCTAACTTAGGCATCAGTAAGGATTTGCTTAAAAA
GCGCTGGTGAAGGTGAGACCTGAGAAAAGTGGATTCTTTGGGGAGGTGGTCTACTGAGCCCATGAGGGCTGGCATGGAGAGCCCAGGTGGTATCCTCCTG
TGAATTGGAAAGGGGGCTTATTCTAGAAGCCGGAGGTGTAGCTCACACAGGGAGTCTGGCATGGGGGGCACAGGGCACTGGGTTTCAGCTTCCTTATTCC
CATCACTTGTGGGAGGCACAAACACAGCTGAGAAAGCTGGACCCCCACGGTGATGGGGTCCCCTCAGCACGGCTGATTGCATGGAGTGGACACTGGATGC
ATATTGCAGGCCGATCTGATTTTCTGTCACAGGAGTACAAGGCTGTGATTCAACAGCATCGGGCTTTGCTCCCTTTCTCTGTGCCTGCAGCTGAGGACTC
GGCACTCTGGAGTGTGGGCTGCCGGGAGACAGAAGCAGAGGGAGCCCCCACTGCTTGAAACAGATTCAGAGAGAGAAGTGGGGATGCAAGACCAGGGAAG
CAACCTGTGGCTGCCCATGGAGGGCCTGGAGAACCTCAGAGGGCATTGGTCACTGGTGAAGTCTGGCCACACTCCCCGCCTTGGGTTCTGTGTGTTCCAA
GTAAATCCTCTTGGAGGTAAAATGAGGATTTCTGCTATTTACACTCAAACAATCATCACCAGGGTCAACTTGCAAGCTCCAAAGAAAGACCATTTAGATC
AGCGTTCCCCAACCTTTTTGACACCAGGGATCGGTTTCTTGGAAGACAATTTTTCCACGGGCAGTGCAGGGTGGGGTGGGTGTGGTTTCAGGATGAAACT
TCCACCTCAGAGGATCAGGCGTGAGTTAGATTCTCATAAGCAGCACGCAACCTAGGTCCCTCGCACGCGCAGTTCACAATAGGGTTCTCCTAGGAGAATC
GAATGCTGTTGCTGATTATCATGACAGGAGGTGAGCTCAGGTGGTAATGCTCCCTCACCCACCATTCATGTCCTGCTGTGCAGTCCAGTTCCTAACAGGC
CATGGACCCCTACTGGTCTGCAGCCTGGGGGTTGGGGACCCCTGATTTAGACCACACAGATTCCTTAGCTGTGCCTGCTACCCATTAGGATTGATCAAAG
ACCCTGAGGCATTCCCCGAGCCTCTCTCCACATAAGGCACACAGGACCCGTGTAGCACCCACCCTGCCTGCCCAGCATCAGCTGTGAAGAGACGGGTGAA
CATCCGTCAGCCTGGGAGAGCTCTGGCCCAGCCACCAGGTGTGTGCAGAGAAGGCTTGGGCCTACTGCACAGCCTGTGTATCCGCTGAGCAGAGCAAACT
GGAGATAGCTAAGTCCTCAGCTGTCCTCAGGTAGAGTCTGCTCCTAGACATCCCCCACTAGGAGGAAGCTCCACAATGCCTTTTCAGGGTTTCCTGCCAG
TGCCTCATCATGGATGTTTCACAGACTTAATGAGTAAGCTGACTCTTCAGGCTGCAAGGCAGCACCAGGCCCTGGGCAGCAGCCTCTGGTCAAGTCACAG
CCCAACCCTGGGGTTCCCGTCTTAGCTGCTGTCAGATTTCAAGGCCATTGCCCTGCTACAAGTAAGAGCATAAGGAATTGTGTCCACCCCTTGGCCCATG
AAACTAAAAAGAAACAAAGCTGAATGAAGCCATAGATGAAGGCTCTGAACTCCCCAATCCTCCTATTCTTGCTGTGAATGGAGGGGCCTGGGGTGGCAAG
TGGGGCTTGTGGACTTGGCAGCTGAGTGGAAAGAGCCCCAGGCTTAGAATAAAGGACCCAGCTGTCAATGGCTGTTTAACCTTCTCCAGCTAAGTCTAAC
TTAGTCCACCCTGCACCTGCACCTCCAAAGCTGATCGGAGCTTAGAAAAAATTCTTCCCTGCTGTCCACTCTCAAAATTCATACTCAGCCACCTGATCCT
ACTCAGCCCTTCTGTTTGCCCTTCCTACTCCTGGGGGCTTGTTCCATGCTTTCTTCTCTTTCGTTAAGCTTTCTTCCTCCTCTCCTTTGTCAACTTGCAG
CTCATGATCTGGCTTCCTCTGTCACAGAATCAAAGGGAGCATTATGGAGGGGGGTTTCCCAAACACCACATGTTCTCACTTATAAGTGGGACCTAGATGA
TAAGAAGACATGGACACATAGAGGGGAACAACACACACTGGGGCCTGTTGGAAGGTGGAGAGTAGGAGGAGGGAGAGGATCAGAAAAAATGACTAATGGG
TACTGGGCTTCATATCTGTGGATGAAATAATCTGCACAGCAAACCCCCATGACATGAGTTCACCTATACAACAAATCTGCACATGTACTCCTGAACTTAA
AAGTTAAAAAAAAAAAGAAGAAGGGGGTTTTCACAAGCTTCACCTCTCGTCCACCCACTCATCCAATATGTATGCACTGTAGCTGCTKTCACCCACCTCC
CTGCCACCCAGCACCTGGGACATGGAGATCAGCATTCCTCACCTGCACAAGGATGCCTCTTCTGACTTCCCCTTTCTGCTACACCATAATTTTTTCACTG
CTTACATTAACCTGCCAACATGTTATAATATCTCCTATCAAAAACAAAGCAAAGCAACATTGAAAACGATCTCTAACCTATATCCCACTGCATCTTCTGG
AGTATCTCTGCTTCTTATCACACACAAGCCCTCAAAAGGGTTGTCTGTGTTCCCCATGCCCACTGTCTCTCCGCCTCTCCCTTCGTTGAGCCCACTTCCA
TGAGCATTCCTTTGGCTCATGTGCTGGAGCTGCTCGGGCGCTAGGCTGCCAGTCAGCCCCATGCTGGGAAATCCAAAGGCCAGTTATCAATGCTAAGCTT
CCTTGGTCCCTTGGCATCACCTGACATTGTTGATCGCCCTCCTTGAAGCACATTTTCTGGTTGGCCTTTAGGAGGCCAATCTGGCCTGTTTCTTTGCTTC
ACACCCTCTCATTCCACTTCACTGCTTCCTCTTTCTCCTCTAGACAGCTTACCATGAGAGCGTCCAGGGTTCAGTGCTCCTAGCTTGTCTTATTTTCTTA
TTTTTTTGTTGTTTTTGTTTTTCTTTTCTTTTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCATTCTGTCACCCTGGCTGGA
GTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGATTACAGGCATGCAC
CACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGCCTGGTCTCGAGCTCCTGACCTCAGGTAATCCGCCCGCCT
CAGCCTCCCAAAGTGCTGGGATTACAGGCGGGAGCCACTGCACCCGGCCCCTAGCTCTTCTTGAGCACCAGTTGTACTCACTTGTTCTTTTGGCCTTGAA
CACCATGGAAACATGAAGGAATTCCAGAGTGCTGTCTCCAGCCCAAACCTGTACACCCAGCTCCTCCTCTGAAATGCACCATATGCAGAATGAAACTCTG
AATTTCCACCTGCTTATCCCCATTTCTGCAAATGGCAACTCCATCCTTTCAGTGGCTCAGGCCAAAGCCCTTATATTTATCTTTGATTGATTTTATTCTC
ACACAACCCCAAGCTAAACCATTAACAAACCCAATTAGTTATCATGAAAATATTTCCAGAATCCAATCACTTCTCACTGTTACTGTCTTGGTCCAAGTCA
CAGGGGTCTCCTGCCTAAATCACTGTGCTAGCCCCTGACTGTCCACCCTCAGGCTCTTTCAGAAGCAGCTGAAGTGGCCTGTGATGATGGCTGGCTGCAG
CCCACCTCCTCAAGCCTTCCTGTGGCTTCCCATCCCATGTGGTGTAACAGCCTACAAAGGTTTGCCCCACCAGCCTGGCATGTCTCTGAACTCAGCCCTC
TCTGCTCCAGCCACACTGGCCTCCTCTTACTTCAACAGGTCAGGCCCACCCCTGGCAGAGGACTTTTGCAGTAGTTGGTCTCTTGGCCCGCATATCATCC
CATGGTTCACCCCTCCCTTCCTGCAGCCTCTGCTCACCATGGCCTTGTCAGAAAAGCCTTTGCAGAGGCCCCCTCCTCCCACGCTGCTGCGCCCCGGCCT
CCTCTTGCTGCTGCTCCTCTCCATTGCATTGCCTGACCACATCTGTTTGTTTCTTGCCTGCTTTCCTGCGCTGCACAGCAAGGGGGGACTTGGTCTGTTG
TGTTTGCCTATCAGTTGCTGTGGCTGGCACATAGAAGGTACGACAGTAATTTTGGAATGATGGCACAATAGCTAAATGGGATGTTAACATGTTGGACGCT
TTCTCCACTCATCTCTGCAATGAAGGCAGCAACTCACCTCCAGGGTTGTGCATTCATTTGCACACCCAAGGTCACACTGGTACCCAAATCCATCTCACTC
CAATGTTTGTACATCAGTGGTTACCCGCACTGCTCCTTCTGCAGACTCCCCT


SNP Information

Context             (SEQ ID NO:40662):
TCCCATGAGAGCAGGGCAGGGTGGGGTGACAAGGACCACGATGGCCAGCCTGGCCCTGGGTGTACCCTGAGATGTGGATTCCTTGTCCCCAGTGGGAATC
R
GGTTCAGGTTGGCAGATTGGCAGTCGCTGTAACCCATTCACAAAGGTGTTCTAGGAGCCCATTGAACATTTGTTTGAATGGAAGGAAATGTCCAATTTAT
Celera SNP ID:            hCV16187084
SNP Position Genomic:     14808
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,130|A,1369)   total(G,130|A,1369) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:40663):
TACCTGGCACCAAAGGGCTTTCTGGCAAGAGATCCAGAGAGATGAAATCAGGCCTTCCCCAGGAGTTTGCATGTAGGGAAGCTTTTAAGAGTGTGAACTT
Y
TAAAAAACAAATGAGACCAAGAAACATTCAGTGAACTTGTAAAATCTTTCTAGAAACTATTTTCTGGTAAGCCACCTGCACTGCCCCTCCCCTCCCTGGC
Celera SNP ID:            hCV27925750
SNP Position Genomic:     11730
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40664):
GGGTCGCATCCCCTGTATCTCCGGCACACCACACTGCTATCCTAGCACTGGGAATCGACAATGGGCCAACCCTTCAAAATGACCTGGCATCAGAAAGAAA
R
CCTGAGCCCTGGCATGCTTGCATTCTCCCCTCATTTACTTGGCCAACAACAGCTGTGATGCCTCTCCTGCACCGCAGGAGTGTGGGGAGCAAGACACACT
Celera SNP ID:            hCV1033712
SNP Position Genomic:     22256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40665):
ACTCCAGTTAAAAAAAATTTTAATGAAGAAAGTGGAAAACAAGGAAGTCAAAGCAAGGAAACTATGTAACATGTAGGAAGTAGGAAGTAAATTATAGTGA
Y
GTAATCTTGAATTGTAACTGTTCTTGAATTTAATAATCTGTAGGGTAATTAGTAACATGTGTTAAGTATTTTCATAAGTATTTCAAATTGGAGCTTCATG
Celera SNP ID:            hCV7550610
SNP Position Genomic:     19410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,11)      total(C,2|T,11) ;no_pop(T,-|C,-)   UK(C,8|T,392)   total(C,8|T,392) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:40666):
TGCTGTGGTGTGTCCCCCTCTGTCCAGGCACTGAGATACCAGCGAGGAGGCTCCAGAGGGCACTCTGCTTGTTATTAGAGATTACCTCCTGAGAAAAAAG
S
TTCCGCTTGGAGCAGAGGGGCTGAATAGCAGAAGGTTGCACCTCCCCCAACCTTAGATGTTCTAAGTCTTTCCATTGGATCTCATTGGACCCTTCCATGG
Celera SNP ID:            hCV1033715
SNP Position Genomic:     20348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:40667):
CCAGAGGAAGGGGCCAGAGGCTCGTTGACTGGCTGTGTGTTGGGATTGAGTCTGTGCCACGTGTTTGTGCTGTGGTGTGTCCCCCTCTGTCCAGGCACTG
W
GATACCAGCGAGGAGGCTCCAGAGGGCACTCTGCTTGTTATTAGAGATTACCTCCTGAGAAAAAAGCTTCCGCTTGGAGCAGAGGGGCTGAATAGCAGAA
Celera SNP ID:            hCV1033716
SNP Position Genomic:     20281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:40668):
TGGATGCTGGAGAAACTATGGGCTTCACCAAGGTTTTGGCTGAAGCCTAGTAAATTAGCCAGCCCTTAGCTAATAACAGTGATAACTGGCCTGCCAGTTT
Y
GGGGATCTGATGCCCTACATTAACTCACAAGACCCAAATGCAGTTTAAGTCCTCTTTAACCATTGGGTGAAACTTCAACATTTTCAGCTCACTTGCCTGT
Celera SNP ID:            hCV1775630
SNP Position Genomic:     10712
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40669):
CCGCACCAGCCGGGAAGAGGGTGATTGCTGGGGCTCGTGCCCTGCATCCCTCTCCTCCCAGGGCCTGCCCCACAGCTCGGGCCCTCTGTGAGATCCGTCT
W
TGGCCTCCTCCAGAATGGAGCTGGCCCTCTCCTGGGGATGTGTAATGGTCCCCCTGCTTACCCGCAAAAGACAAGTCTTTACAGAATCAAATGCAATTTT
Celera SNP ID:            hCV7550630
SNP Position Genomic:     13309
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:40670):
GGGAGGGGTGGCCAGTCTGTCCTGGTCAGTATGAAAAGCTGTTGGCCCCCTAGGGACAGAGGGCCCAGCTAAGGCTGCCTGAGGATACAAACTGCTTGCT
W
TCCCACTCCTGGGGAGCAGGGTCTGCAGGGACTGAGAGTGGGTCCCACCTTGAGAACGCATGCAAGGTCCGTCCTGTCTTGATGTCTTGATGTGACTGTA
Celera SNP ID:            hCV7550614
SNP Position Genomic:     16931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40671):
AGGAGATGCTCCTTGGGCCCTTTGAGTGCAGTCCTGATCAGAGCCGTGGTCCTTTGGGGTGAACTACCTTGGTTCCCCCACTGATCACAAAAACATGGTG
S
GTCCATGGGCAGAGCCCAAGGGAATTCGGTGTGCACCAGGGTTGACCCCAGAGGATTGCTGCCCCATCAGTGCTCCCTCACATGTCAGTACCTTCAAACT
Celera SNP ID:            hCV3223114
SNP Position Genomic:     18787
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,15)      total(G,15|C,1) ;no_pop(G,-|C,-)   JBIC-allele(C,207|G,1292)   total(G,1292|C,207) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:40672):
AGTCAACCTGGGCAAAGCCTAGTGAAGGCTTCTCTCTGTGGGATGGGATGGTGGAGGGCCACATGGGAGGCTCACCCCCTTCTCCATCCACATGGGAGCC
R
GGTCTGCCTCTTCTGGGAGGGCAGCAGGGCTACCCTGAGCTGAGGCAGCAGTGTGAGGCCAGGGCAGAGTGAGACCCAGCCCTCATCCCGAGCACCTCCA
Celera SNP ID:            hCV3223115
SNP Position Genomic:     18299
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;Asian AI|S patients(G,-|A,-)   African American AI|S patients(A,446|G,1271)   Hispanic AI|S patients(G,-|A,-)   Caucasians AI|S patients(G,-|A,-)      total(G,1271|A,446);(G,-|A,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:40673):
ACCCAGCCCTCATCCCGAGCACCTCCACATCCTCCACGTTCTGCTCATCATTCTCTGTCTCATCCATCATCATGTGTGTCCACGACTGTCTCCATGGCCC
Y
GCAAAAGGACTCTCAGGACCAAAGCTTTCATGTAAACTGTGCACCAAGCAGGAAATGAAAATGTCTTGTGTTACCTGAAAACACTGTGCACATCTGTGTC
Celera SNP ID:            hCV1033718
SNP Position Genomic:     18473
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:40674):
GCCCCTGAACCACTGTTCTGGGGCTTAGCTGTCCTCAAGACCCTTAAGTACTTGGGCTGCATGAGATTACCTGGCACCAAAGGGCTTTCTGGCAAGAGAT
Y
CAGAGAGATGAAATCAGGCCTTCCCCAGGAGTTTGCATGTAGGGAAGCTTTTAAGAGTGTGAACTTTTAAAAAACAAATGAGACCAAGAAACATTCAGTG
Celera SNP ID:            hCV7550631
SNP Position Genomic:     11663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40675):
TTCCTGGTTTTCAGGGAGTTGCATTTGGTCCTGGGGACAAGGAAGTGGGGGGACAAGTGGTCCACTTTTCCTGCAACTTGGTGGCTGAATACACAATGCA
R
TTCCTAGTCCACATCATCCCTCAATTGATTGCAGTCTGTAGAAAAAATAAAATAAAATGAGCCCCTTACTCAAGATTTCCTCCTACTTCCCCAGCATTCT
Celera SNP ID:            hCV1775631
SNP Position Genomic:     9050
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40676):
TCTTTCGCTGAAGAGAAACTCGCTGCGCTGTCACAGGACACCGATGCAAACCAAAATAAACTGTTGCCTCTGAACACACAAAACAAAACCCTGTGGCTCA
R
GCCGCTGAGCTTCCTTGGCTGTGAAGTTTCCTGCAAAGAGTTGAAGGACACTCTGAGTGCTCTTGCAGCCGCGGGCTGTGCAGGCCCAGCGCGCCTCGAG
Celera SNP ID:            hCV1775632
SNP Position Genomic:     7164
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40677):
GTATGTGCCCTGGGGGCTCACTGTGGTTTACAAGTGGCTTGTGAAGCTCCTGGGAGCAGGTGGTACACCCAGTGCTGAAGACAGGGTCGCCGTGGAAGAG
Y
GAAGAGCCTGACCGGGATTCCTGGTGGGTTGAAACTAGGAAGTGCTCACACCAGTCAGAGCCAAATGAGGGGTGCGCTATGGTCACTGCTCTGTCCAGCA
Celera SNP ID:            hCV1033719
SNP Position Genomic:     17129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40678):
CCCGTCTGTTGTCGCAGGGCCTCTGAAGGGAGATGCATGGCCAAGGTGGCAACTTGGAAGTAGGGATTGGCCCCAGGGCCTCCGCGCAGGCCGCTGTCCT
K
CTGGAGCTGGCTGGGTGTGGGGGGAACCTGCCTTAATGGTGTTTCCCTCTGTTCTTGTCAACAGGAGGTTCAAGATGTGAGAGGGTCAGACGCCTGAGGA
Celera SNP ID:            hCV3223116
SNP Position Genomic:     17700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40679):
ACTCCCCTCCCGTCTGTTGTCGCAGGGCCTCTGAAGGGAGATGCATGGCCAAGGTGGCAACTTGGAAGTAGGGATTGGCCCCAGGGCCTCCGCGCAGGCC
R
CTGTCCTGCTGGAGCTGGCTGGGTGTGGGGGGAACCTGCCTTAATGGTGTTTCCCTCTGTTCTTGTCAACAGGAGGTTCAAGATGTGAGAGGGTCAGACG
Celera SNP ID:            hCV3223117
SNP Position Genomic:     17692
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40680):
CGCCGGTGCCGGGTAAGCAGTGTGCCCTGTCCCCGTCGTATGACCACTCTGATGGGCCTCTCTGTGCCTTCGTGCGTCTGCCACGCCCAGTGCTTGCCAC
R
TGTCTGTCCTCTGCTTTCTGCCATCCATGGGTCCCTCCGCTTCAGCCTGGCTGCGTCTCGCACTCCCCTCCCGTCTGTTGTCGCAGGGCCTCTGAAGGGA
Celera SNP ID:            hCV3223118
SNP Position Genomic:     17530
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;no_pop(G,-|A,-)   JBIC-allele(A,616|G,861)   total(G,861|A,616) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40681):
AGGGCAGCAGCATCCTGAGCCTCAGCCCCACGCCGGTGCCGGGTAAGCAGTGTGCCCTGTCCCCGTCGTATGACCACTCTGATGGGCCTCTCTGTGCCTT
Y
GTGCGTCTGCCACGCCCAGTGCTTGCCACGTGTCTGTCCTCTGCTTTCTGCCATCCATGGGTCCCTCCGCTTCAGCCTGGCTGCGTCTCGCACTCCCCTC
Celera SNP ID:            hCV3223119
SNP Position Genomic:     17500
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40682):
GTCCCTGAGGCTGTGTCTGCACACTGACCCCCCCCCCCCCCCCGCAAGTCATGGGGCATGTTTCTAGTTTTTATTGCTGGATATTCTTCTGTTCCTGTAA
R
GTCTCTGGTTTGGGCAGTTATTGACTGATTGGTGGGATGAGCGCGGAGGTGTCACAGTGCGCCGCTCTGGGAAATGGTGCTGCCCCCTCCCCGGAGGGCT
Celera SNP ID:            hCV16242217
SNP Position Genomic:     7551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40683):
GTTTTAGGGCCCTAGAAAATGAATGTTTTTTCAGTACTTTGCCTACAACATGATACTTTATCTCTTGTGAAGAGTATTTTAAAGATGCTCAATTTAGCTA
S
CTTGGACCTGCTTTACAGCACTGATCATGCTGGTTTACTGGCCTGGAAATGCACCTTGAAGTTGAAGATGCCAAATACAATTCTCAGGTCTGAGCAGACA
Celera SNP ID:            hCV27971777
SNP Position Genomic:     11346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40684):
CTCACTGTGTTGCCTGAGGAGATGGCCTTTCCCAACATACACCAGTAACCTGGAACTTACCCCAGTGATGCCGTCTCTTGATCCTTAATCGCTGCACCAA
Y
TGCTGCAGCCCAGACACACATTACCAAAATCTGGCAGGGTAGTAAAGTGCCTTGTTGTCCTTACCTCTTCTAGGGAAGCCCGTCAGCCTGAGCTACAGAT
Celera SNP ID:            hCV29289834
SNP Position Genomic:     10149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40685):
CATTGATCTGGGATCGGGCCTGAGGTTTGCCAGCATTTAGACCCTGCATTTATAGCATACGGTATGATATTGCAGCTTATATTCATCCATGCCCTGTACC
Y
GTGCACGTTGGAACTTTTATTACTGGGGTTTTTCTAAGAAAGAAATTGTATTATCAACAGCATTTTCAAGCAGTTAGTTCCTTCATGATCATCACAATCA
Celera SNP ID:            hCV2086912
SNP Position Genomic:     12702
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;UK(C,65|T,335)   total(C,65|T,335)
SNP Type:                 INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:40686):
GCGCGGCGCAGCTGTCGGGCTTGTGCCACCCGCCAGGCCGCGCTTCTGCACAGCTCCGCGGTCCGCAGCGACGCGGACCTGGGCGCGCGTCCAGCCGCTG
Y
CTTCCTGTCTCTTCTCGGGTTCACCTGAGAGAGGCCCAGGGACCCTCCGAGCCTCACACGCCCCCTCCCCAGCTCCCCAAACACACCTGCAGACAGGCTC
Celera SNP ID:            hCV29289835
SNP Position Genomic:     6839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40687):
CCCACAAAGACCCCTGCATGTCAGACACACCCTGTCCCGGAGCGTGGTGTCCCCTTGAGCTTTAATGAGCTCCCTGTGATCACAGCCATGCCTTCTCCTC
S
TTGGGGAGGTGTCCTAGGATGCTTCAGCCAAAGACCTTTGTTTCCCGCTGCTATCTCTTTTACCTGGACAACTCTCCTGGCCCACGTTCCTCTTGCCAGC
Celera SNP ID:            hCV12007802
SNP Position Genomic:     16494
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,15)      total(G,15|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40688):
CCCTCTCATGCTCAAGAGGTCCTGTGTCTGAACACGGGGAAGCGAGGGCTCAGGGAGTCTCCTGGAGAGGATTTGATTGCTCAGAAGTTCTAGTGCTAAA
W
ATGGGGTGGGGAGACAGCAGTTGGAACCAAAGCTACAACTTTCCCAAGACTTTTCCACCCAACACCAAATGTTTTTACTTTTGATTTTAGAAAACTGTTT
Celera SNP ID:            hCV2086913
SNP Position Genomic:     11092
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,11)      total(A,11|T,1) ;UK(T,64|A,336)   total(A,336|T,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:40689):
TCAAAATTTTTGCTATGTCTCCAGCCACCTAGACTAGCACTTGCTATGTTAGCTTCAATTGACTTACTTTTTAAAACTTGAACCATATATTAAAAAAAAA
W
CCTGAGCAATATCTGAAATATCTGCCTTTACTGTGCTAGTTATATTTTTTCTTATTACTTTAAAAAAATAAATACATAAATCTATATTTTATAGATTTCA
Celera SNP ID:            hCV29289836
SNP Position Genomic:     2671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40690):
GAACTTTCCTGCACCCTCCTTCCCTGCCCATGTAGATGTATGTGTGAGATTTTTTGGCAAGTTTCTCTAATCTGGACCGGGAGGATGGAAGAGCAAGGAC
S
CCATTTCAGTAGTGCTCGGAAAAAGGATGCGTTGAATTTCTCAGCCCTTCTCCACCTCACATAAACACCCGCCCACCCTGCACCCGGATCCTGGGTCATA
Celera SNP ID:            hCV12007803
SNP Position Genomic:     16230
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,14)      total(G,1|C,14) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40691):
CGGCTTCTGTATTTATGTGCTTTTTAAGGCCCTTGTTGGTCTGCTAAGTTATGAAGAAAGTAGTTGTGCAGAGACTGGGGCGGGGGTCTGTGACGCGGAG
S
CTGTGTGCTCAGGACTCTGTCCAGAATAGCCTGGGAGCTCCAGGAATGCCCAGGTTGCTGAGCCCCCCAGCCTGCCCTCCACTTCCTCTCTTAGAAGGCC
Celera SNP ID:            hCV16187075
SNP Position Genomic:     15416
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,186|C,1301)   total(G,186|C,1301) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40692):
CAGTCAGGAAAGGAATCATTTCTATTTCTCCTCCATGGGAGAAAATAGATAAGAGTAGAAACTGCAGGGAAAATTATTTGCATAACAATTCCTCTACTAA
Y
AATCAGCTCCTTCCTGGAGACTGCCCAGCTAAAGCAATATGCATTTAAATACAGTCTTCCATTTGCAAGGGAAAAGTCTCTTGTAATCCGAATCTCTTTT
Celera SNP ID:            hCV15833580
SNP Position Genomic:     19928
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   UK(T,7|C,393)   total(C,393|T,7)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40693):
TGCAGTGCTGACTTCCCCTGCAGGGTCCCAGTGCAGCTGCTGGAAGCTGGCCCCAGAGGTGCCTTTCTGGAGTTAGATCAGGTGTAACTGTGAAGGCTGC
Y
TTAGGTCTCTCCAGTGCCATGAGTCACCAGCACCCTGATGCTTGGCTTTTTCCTGGTTTTCAGGGAGTTGCATTTGGTCCTGGGGACAAGGAAGTGGGGG
Celera SNP ID:            hCV15928948
SNP Position Genomic:     8900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40694):
TGTCCCCTTGAGCTTTAATGAGCTCCCTGTGATCACAGCCATGCCTTCTCCTCGTTGGGGAGGTGTCCTAGGATGCTTCAGCCAAAGACCTTTGTTTCCC
R
CTGCTATCTCTTTTACCTGGACAACTCTCCTGGCCCACGTTCCTCTTGCCAGCACTGGGGGTCACAGGCCTGAGCCCTGGGTACAGGGGTGCCCTAGTCT
Celera SNP ID:            hCV1033720
SNP Position Genomic:     16541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40695):
GGAAGAGCAAGGACCCCATTTCAGTAGTGCTCGGAAAAAGGATGCGTTGAATTTCTCAGCCCTTCTCCACCTCACATAAACACCCGCCCACCCTGCACCC
R
GATCCTGGGTCATAATTTTAATAAATGCAGAAAGAGAAAGTGGTTGGAGGATGGAGCACATGGAATTCAGGAGAAAACCCACAAAGACCCCTGCATGTCA
Celera SNP ID:            hCV1033721
SNP Position Genomic:     16316
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40696):
ACTGGGGCGGGGGTCTGTGACGCGGAGCCTGTGTGCTCAGGACTCTGTCCAGAATAGCCTGGGAGCTCCAGGAATGCCCAGGTTGCTGAGCCCCCCAGCC
Y
GCCCTCCACTTCCTCTCTTAGAAGGCCTGCGCTCACTGGGGAGCTCACCAGCTCCACACACTTGCAGTCTGCATTCCTGTGGAGACCAGGCTGTGGCCAC
Celera SNP ID:            hCV1033722
SNP Position Genomic:     15489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40697):
AGAGGTGGCCTCGCCAGGAAGGGGGTGTGCCACCCCTCTGTGGCCCTCAGGAAAGGTGAAAACTGACTGACCCTTAGGAATGGGCCCTGGCTTTTTCCAA
A
TACCCATTGCCTTTCCCTCCAGCACTCTGCCACCTGGGAAGGGGCTTCTTCAGCCCCTCCTTCCTGGGTTGTGGGAGTGGCTTTATCCCCAAGCCCGGGT
Celera SNP ID:            hCV3223120
SNP Position Genomic:     15724
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,11)   total(A,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40698):
ATTCAGTGTTAAATGTGATGAATACTGTATTTTGTATTGTTTCAATTGCATCTCCCAGATAATGTGAAAATGGTCCAGGAGAAGGCCAATTCCTATACGC
R
GCGTGCTTTAAAAAATAAATAAGAAACAACTCTTTGAGAAACAACAATTTCTACTTTGAAGTCATACCAATGAAAAAATGTATATGCACTTATAATTTTC
Celera SNP ID:            hCV7550603
SNP Position Genomic:     20817
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40699):
CTGCAGCCTCCAAAACGTTATTCAATTTGAAATGCAGACATTTCTTAGAGAAAGCTAAGAGTTCAGCCCTGCATTGAGAAGAAGAAAAAGTCCCATGAGA
R
CAGGGCAGGGTGGGGTGACAAGGACCACGATGGCCAGCCTGGCCCTGGGTGTACCCTGAGATGTGGATTCCTTGTCCCCAGTGGGAATCAGGTTCAGGTT
Celera SNP ID:            hCV1033723
SNP Position Genomic:     14718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:40700):
TGGGAGCTCCAGGAATGCCCAGGTTGCTGAGCCCCCCAGCCTGCCCTCCACTTCCTCTCTTAGAAGGCCTGCGCTCACTGGGGAGCTCACCAGCTCCACA
Y
ACTTGCAGTCTGCATTCCTGTGGAGACCAGGCTGTGGCCACCTGGCCAGTGTGCAGGGCAACCTGCTAGCCCAGCAGAGGTGGCCTCGCCAGGAAGGGGG
Celera SNP ID:            hCV3223121
SNP Position Genomic:     15548
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40701):
CCTAGAAACTTCCAAATCCCCTAAGCAGACCACTGATAAAACCATGTAGAAAATTTGTTATTTTGCAACCTCGCTGGACTCTCAGTCTCTGAGCAGTGAA
K
GATTCAGTGTTAAATGTGATGAATACTGTATTTTGTATTGTTTCAATTGCATCTCCCAGATAATGTGAAAATGGTCCAGGAGAAGGCCAATTCCTATACG
Celera SNP ID:            hCV7550604
SNP Position Genomic:     20715
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40702):
GCTCCCTGACTGGGAGTTGATCGCCTTTCCCAGGTGCTACACCCTTTTCCAGCTGGATGAGAATTTGAGTGCTCTGATCCCTCTACAGAGCTTCCCTGAC
Y
CATTCTGAAGGAGCCCCATTCCTGGGAAATATTCCCTAGAAACTTCCAAATCCCCTAAGCAGACCACTGATAAAACCATGTAGAAAATTTGTTATTTTGC
Celera SNP ID:            hCV7550605
SNP Position Genomic:     20580
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:40703):
CCTGCACTGCCAGCGCTGAGCTTTCCCCAGCACACCGCGAGCACCTCTGGAGCCTGAGCGTACCAAGTGGAGCACGGGGTGCCAGCGAGGGCCCTAGATG
R
GTGTTGGGGGAGCGGATGCACACGTTGCAGCCGCGCCTTCCTCCTGTGCAGCCGCACACTGTTGCCATTCTGTTTTCACAGAGCCCGGCTGAAGAACAAC
Celera SNP ID:            hCV1033724
SNP Position Genomic:     12298
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,660|A,831)   total(G,660|A,831)   no_pop(G,-|A,-)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40704):
ATTTATTTTAATGAATTACTGATAAACAGTGCTTTGACCAGGGGCCTCCAGGCCTGAGACTGAAGGCACAGTTTAACCAGTACACGGGCCAGTGTTAAAT
Y
TTATGCAGACTGAGACGAACTTTTGTTTATTTCCACATTATTAATGGTTCTACTAATTTTATCTAAGGGGGCGCAGAGAAGAAAAAGTGGGGAAAAAAGA
Celera SNP ID:            hCV3223122
SNP Position Genomic:     15003
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;JBIC-allele(T,188|C,1293)   total(C,1293|T,188)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:40705):
AGGCCTGAGACTGAAGGCACAGTTTAACCAGTACACGGGCCAGTGTTAAATCTTATGCAGACTGAGACGAACTTTTGTTTATTTCCACATTATTAATGGT
W
CTACTAATTTTATCTAAGGGGGCGCAGAGAAGAAAAAGTGGGGAAAAAAGAAAAGATAGGAAAAAAGAAGCGACAGAAGAAGAGAAAGGCTGCCCAGAAA
Celera SNP ID:            hCV7550622
SNP Position Genomic:     15052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:40706):
CATCTTGCCACTACCCCCTCCTGAAGCCACAGCAGGGTTTCAGGTTCCAATCAGAACTGTTGGCAAGGTGACATTTCCATGCATAAATGCGATCCACAGA
R
GGTCCTGGTGGTATTTGTAACTTTTTGCAAGGCATTTTTTTATATATATTTTTGTGCACATTTTTTTTTACGTTTCTTTAGAAAACAAATGTATTTCAAA
Celera SNP ID:            hCV7550623
SNP Position Genomic:     13637
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:40707):
TCAGTGTTAAATGTGATGAATACTGTATTTTGTATTGTTTCAATTGCATCTCCCAGATAATGTGAAAATGGTCCAGGAGAAGGCCAATTCCTATACGCAG
Y
GTGCTTTAAAAAATAAATAAGAAACAACTCTTTGAGAAACAACAATTTCTACTTTGAAGTCATACCAATGAAAAAATGTATATGCACTTATAATTTTCCT
Celera SNP ID:            hCV12007795
SNP Position Genomic:     20819
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40708):
CTCCTGAACTTAAAAGTTAAAAAAAAAAAGAAGAAGGGGGTTTTCACAAGCTTCACCTCTCGTCCACCCACTCATCCAATATGTATGCACTGTAGCTGCT
K
TCACCCACCTCCCTGCCACCCAGCACCTGGGACATGGAGATCAGCATTCCTCACCTGCACAAGGATGCCTCTTCTGACTTCCCCTTTCTGCTACACCATA
Celera SNP ID:            hCV3223107
SNP Position Genomic:     24888
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,7)      total(G,7|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:40709):
TGAGCAGTGAATGATTCAGTGTTAAATGTGATGAATACTGTATTTTGTATTGTTTCAATTGCATCTCCCAGATAATGTGAAAATGGTCCAGGAGAAGGCC
R
ATTCCTATACGCAGCGTGCTTTAAAAAATAAATAAGAAACAACTCTTTGAGAAACAACAATTTCTACTTTGAAGTCATACCAATGAAAAAATGTATATGC
Celera SNP ID:            hCV12007796
SNP Position Genomic:     20804
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40710):
ACCTGCCTGACATTTGGAGTGTTCCCCTTCCACTGAGGGCAGTCGATAGAGCTGTATTAAGCCACTTAAAATGTTCACTTTTGACAAAGGCAAGCACTTG
Y
GGGTTTTTGTTTTGTTTTTCATTCAGTCTTACGAATACTTTTGCCCTTTGATTAAAGACTCCAGTTAAAAAAAATTTTAATGAAGAAAGTGGAAAACAAG
Celera SNP ID:            hCV12007799
SNP Position Genomic:     19252
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40711):
GGCTTAGCTGTCCTCAAGACCCTTAAGTACTTGGGCTGCATGAGATTACCTGGCACCAAAGGGCTTTCTGGCAAGAGATCCAGAGAGATGAAATCAGGCC
Y
TCCCCAGGAGTTTGCATGTAGGGAAGCTTTTAAGAGTGTGAACTTTTAAAAAACAAATGAGACCAAGAAACATTCAGTGAACTTGTAAAATCTTTCTAGA
Celera SNP ID:            hCV1775627
SNP Position Genomic:     11684
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;UK(C,63|T,337)   total(C,63|T,337)
SNP Type:                 INTRON


Context             (SEQ ID NO:40712):
TTCTCTCTTCTTTCCAAACCTGTGTTCTTCAGCACAGCACAGCTGGATGCTGGAGAAACTATGGGCTTCACCAAGGTTTTGGCTGAAGCCTAGTAAATTA
S
CCAGCCCTTAGCTAATAACAGTGATAACTGGCCTGCCAGTTTCGGGGATCTGATGCCCTACATTAACTCACAAGACCCAAATGCAGTTTAAGTCCTCTTT
Celera SNP ID:            hCV15833401
SNP Position Genomic:     10669
SNP Source:               dbSNP
Population(Allele,Count): UK(C,62|G,338)   total(G,338|C,62) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40713):
AAGATGCCAAATACAATTCTCAGGTCTGAGCAGACACTAAATTAACAAAGAATAGGCCCCAGATTTGGACCCCAATGTGGGTTGCTCCGAGCCACACCCA
Y
CTCTGCACCCCTCTTCACCTAATGGACAGGCTGCTTGAAGACTCCCTGGGTGCCCCTGAACCACTGTTCTGGGGCTTAGCTGTCCTCAAGACCCTTAAGT
Celera SNP ID:            hCV1775628
SNP Position Genomic:     11511
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40714):
CGAGCACCTCTGGAGCCTGAGCGTACCAAGTGGAGCACGGGGTGCCAGCGAGGGCCCTAGATGAGTGTTGGGGGAGCGGATGCACACGTTGCAGCCGCGC
Y
TTCCTCCTGTGCAGCCGCACACTGTTGCCATTCTGTTTTCACAGAGCCCGGCTGAAGAACAACAACAGACAAGTGTGCATTGACCCGAAGCTAAAGTGGA
Celera SNP ID:            hCV15954640
SNP Position Genomic:     12335
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,194|C,1301)   total(C,1301|T,194) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40715):
TGCCTACAACATGATACTTTATCTCTTGTGAAGAGTATTTTAAAGATGCTCAATTTAGCTAGCTTGGACCTGCTTTACAGCACTGATCATGCTGGTTTAC
Y
GGCCTGGAAATGCACCTTGAAGTTGAAGATGCCAAATACAATTCTCAGGTCTGAGCAGACACTAAATTAACAAAGAATAGGCCCCAGATTTGGACCCCAA
Celera SNP ID:            hCV1775629
SNP Position Genomic:     11385
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;UK(C,65|T,335)   total(C,65|T,335)
SNP Type:                 INTRON


Context             (SEQ ID NO:40716):
GACTGAGCACAGGAAGGGTTCACTACTTGGTTCCTGGGAACTGGTGTGGGGACTGGGAGCACAGATCTGAACCCCTGGGGCCTTGGGTCTGATTTGCCCT
R
TGAGCCCTGGTAGTCCGACAGTCCCGGGGAATGTCCCAGGAAATACCAACTGTGCTATTGTGAAATATATATTTGGTCTTTGTCCCAGCTTCCTGGCATG
Celera SNP ID:            hCV7550645
SNP Position Genomic:     288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40717):
CTGCACTGCCCCGGAAAGACTTCTGTTCACATTTCCATGTCTCTGCAATGGAACTTCCTGCACTGCCAGCGCTGAGCTTTCCCCAGCACACCGCGAGCAC
M
TCTGGAGCCTGAGCGTACCAAGTGGAGCACGGGGTGCCAGCGAGGGCCCTAGATGAGTGTTGGGGGAGCGGATGCACACGTTGCAGCCGCGCCTTCCTCC
Celera SNP ID:            hCV15954641
SNP Position Genomic:     12242
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,188|C,1307)   total(A,188|C,1307) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40718):
CCGCAAGTCATGGGGCATGTTTCTAGTTTTTATTGCTGGATATTCTTCTGTTCCTGTAAGGTCTCTGGTTTGGGCAGTTATTGACTGATTGGTGGGATGA
K
CGCGGAGGTGTCACAGTGCGCCGCTCTGGGAAATGGTGCTGCCCCCTCCCCGGAGGGCTGGAGAGAGGATTGGAATGAGGAACCTCGGTCTTTGAGTTAT
Celera SNP ID:            hCV16031829
SNP Position Genomic:     7592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 191
Celera Gene:                 hCG26008 - 30000035920872
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6W6(3676696..3709242)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12351):
TACACATTGAGTCTTCAGGTTTCAAAACGAGAACTCTTCCTGAGTGCTGTAATCTGGTCAAAATCACAGGGTGGGTCGACAGGCCTGAGTTGGAATTCCA
GCTTGTCTCTTTAATTGTGTGATCTCAGGGAAACCATCTGATCTCTTGCTTTAGTTTATTATTTATGAAATGAAGTTAATAATAACTACCTCCTGTGGCT
CATGCCTGTAATCCCAGCACTTCGGGAAGCCAAGACGGGTGGATCGCTTGAGCCCAGGAGTTCAAGACCACCCTGGGCAACATGGCAAAATCCTGTCTCT
ACAAAAAAATTGAAAAATTATCCAGGTGTGGGCCGGGCACGGTGGCTCACGCCTGTGATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAAGTC
AGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAAATTAGCTGGGCGTGGTGGCGGGCACCTGTAGTCCCA
ACTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGGTCGTGCCACTGCACTCCAGCCTTGACAACAGAG
TGAGACTCCGTCTCAAAAAAAAAAAAAAAAATTAGCCAGGTGTGGCAGTGCGCAGCTGTGGTTCCAGGTACTTGGAAGGCTGAGGTGGGAGCATCGTTTG
ACCTCAGGAGTTGGAGGCTGCAGTGAACCAATATTGCACCACCCACTGCACTCCAGCCTGGGCAACAAAGGAAGACCTGTCTCAAAAGAAACAAACAGGC
CAGGCACGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACTCAAGGTCAGAAGTTCAAGACCAGCCTGGCCAACATAGT
GAAAACCCATCTCTACTAAAAATACAAAAATTAGCTAGGCATGGAGGTGGACACCTGTAATCCCTGCTACTCGGGAGTCTGAGGCAGGAGAATCACTTGA
ACCCGGGAAGCAGAGGTTGCAGTGAGCCGAGATGACGCCACTACACTCCAGCCTGGGTGACAGAGTGAAATTCTGTCTCAAAAAAACAGAAACCAAAAAC
TACCTCCTAGACTTGTAGAAAATATTAAGTAATTTTATTTATTTATTTATTTATTTATTTTGAGACAGCGTCTCCCTCTGTCGCCTGGACTGGAATGCAG
TGGCACAACCTTGGCTCACTGCAACCTCTGCCTCCCAAGTTCAAGCGATTCTTGTGCCTCAGCCTCTCTAGTAGCTGGGATTACAGATGTGTACCATCAC
ACCTGGCTAGTTTTTATATTTTTAGTAGAGACAGGGTTTCCCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCTCCTGCCTCAGCCT
CCCAAATTGCTTGGATTACAGGTGCTCCAGGCCAAGATTAAGTAATTTTTTGTGAAGCACCAAGAGCCACAGCTGGATATCATATTACTTAATCTCTCCT
GGAGTTATGGTGAGATTAAACAGTTATAAGGATGCCTGGCACAGAGTCCGAGCTAAATGAGTGATGGATGTGGTTACTGGTGGTAACATGCTTTAGATAT
GGAAGATATTATAGGACTTCCTGCATGCCAACTGCCCTTCAATTTGTGTGGGGGGGAAGGGTGGGCAGAAGGCAGAGGCTCTCACTCATTCTCTAACATT
ATTGCCCCCTCTCCCACAGATGAGTCCTGCCGGCRGTGACCATCTTCCAACATAGGGATATACCTCCCTCCTTCTTATAACTGAAGATCCTGGAGCCCGG
AAGATTCAGGGCAGACAGACCCTGATAATGAGCCTGGCAGGGAAGGGCAACCAACATCTTGTAACTTGCTTTCCCCACCCTGTTTCTGGGGGCAGAGCCA
ATTGCCCAATTTCTACCCTAATCCAAAGTCCCTGGTGTGGGTGGGGTTAAACGTGCTGGTGCATCCTAGGTCATCCAAGAGTGAGCGCCAAGTCCTGAGA
AGGGGCACAGAACTCCCTGGAGGGTGGAGATGGAGCACCTGCCCCCCATGGCAGGGTACACTCTCCCCACAGCCTTCCTCCCCACCATCCCGTGGGGACT
CTCGGGATTTAAGCACTCGTCTCTCTGGGAGGCCCAGACCCCACTCCATTTATAGGCACATCTCCTTCATTTCCTAGGTCACTGCCCCTTTGTTTACAGC
TCCTGCCTCCTCCCTTGACCACAGCCTGGTTTACAAATTCCATCAGCTCCCAGCCCCACCYGCCAAAGTCCCAGGTTTACAAGCCACGCTTACTTGCTGT
GTCTGCGTGGAATTCTCTCCTCTGTCCCCTCCAGTCTCCTCATTGGAGTGACCTGAAGGTGTGGCTTCCTCCACTTTTTCTCAGTATTACTTTGCCTTAG
TTTTCCCCAAGAGGGAAGGCTGGAAMTCTTAACTCTGTACCCCTTGATAGTTATTTAATTCTGTTTCTCCTAGTGGTTCACAATTGAACTGAATTGAGAT
GGTGTCGGGTGGCTAAGGAGACACCTCACCTCTCCTTCCCCATTGTGCCGCCTTTATCAATTGCCTGTTTTGTTTTGTTTGTTTTTTAACTTTCCATAAT
AAAATGGAGTTCTCTTCAACTCGTCTGCTTCTCCTTCTTTGGGAAAAAAAAAGGGTATGTGAGGGGAGGCTCTGGTGGCTGGGGGAGAGGAAAATGATGG
GGGATGAACCAGGAACTCGGCACTGACATGTCAAAAGGGGTCTGGGAAGCTGCACGTGGGTTTCACGCAGGACAAGCAGGTGACATGAGAAAGGGCAGTT
GAAGTGTCCACTAGACTGGAAGTGCCATGAGGGCTGACTACATCAGCTGGATTCACTGCAATATCCTGTACCTGTCAACTAGTAGACACGGAATTATTTC
TAGAATGAATGACAACAAATGAATGAATAGAAGAAAAGGGTTAAAATATTACAGAGGACACTTTGAGTTGAAGGGTTCTAGTATTCAGAAGCCTGCTGCC
ATGAAGGCAGCTAGGTAGTGTATGACACAACCCATGTGGCTAATCCAGGGATACTTACTTAAAGAGCTGGGGCTACGAATACTAAATCTGAAATTGCTGC
AAAATGAAGTAAGTATGTACAAGAGTCAGTTTCCTGGAAAAGGTTCCCCTCTGATAGACAATGGATTTTATATCGTTAAAGGCCTAAAGGCCGGGCACGG
TGGCTCACGCCTGTGATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATAAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCCGTC
TCTACTAAAAATACAAAAAATTAGCGGGGCATAGTGGTGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGG
TGGAGCTTGCAGTGAGCTGAGATTGCGCCATTACACTCCAGCCTGGGCAGCAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAGGTTTAAAAACCATCT
TGATAGTGCATGGCTTTGGTGCCCATGTAGTTGATATTTGGAATTTTCCCATTTCAAAGAATATCTTATACAAATGTGGAACATCAATATTTTACTCATC
AGGAAAATTTGTTTGTTTGTTGTTAGCTCTCCAGGCTAACAAAGATATGGTTGAATAGTTATAGTCCTTCTACCACTACAAGTTGCTCCTCTCAGACTGG
TCAGAGGAGGCCCCACACCTTTACTATAAAACAAAATATATGAGACAAATTGAACTTAAGCATACGCCAAAGGTTTTCAATTTACTAGCAAGAGAACAAG
CCAGGTGTCAAAAGACTCAGCCAGTTCAGAGAAGGTCTGGGTAGGGAAGGAAACAGAATGATTATATTAGTAGCCTGTTAGGTAAAGGTCTTAAAAAGTT
TCCAGTTGTGACCCAGGAAAACAGAGTTAGGAAGCTCCGAGGTGCCAGGGGTGCTCACAGTCCATCTCAGAAACAGAAAACAATGCATTCAAGAGGTCAG
GCCAGGTGTGGTGGCTCATGCCTGTAATCCTAACACTTTGGGATGCCAAGGCGGGTGGACTGCCTCATCTGAGGAGTTTGAGACCAGCCTGGGCAACATG
ATGAAACCCCGTCTCTACTAAAATACAAAAAATTAGCTGGACGTGGTGGCACGCACCTGTAGTCCCRCCTACTCAGGAGGCTGAGGCAGGAGAATTGCTT
GAACCCAGGAGGTGGAGGCTGCAGTGAGCCAAGATCACGCCACTGCATTCCAGCCTGGGCGACAGAGTGAGACTCCGAGACTCCCTTTCCAAAAAAAAAA
AAAAAAAAGTCAGTGATGTAGATCCACTTGTGGCTATTAATAAGAACAATGTTTCATTTCCTAACAGTAGTGCCTGGTAACTGCAATTAATCACAAAAGT
ATGATGCAGGATCAAACAAATCAGACAGCAGAGCATCGAGTAACAAATTCAGCTTTTTGTTTTGTTTGTTTTTTTTTTTTTGAGCATAGTCTTGGTCTGT
TGCCTAGGTTGGAGTGCCTGACCTCGGCTCACTGCAACCTCTGGCTCCTGGGCTCAAGAGATTCTCCTGTCTCAGGCCCAGTGCGGTGGCTCACGCCTGT
AATCCCAGCACTTTGGGAGGCCGAGACGGGCGGATCATGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTAAAACCCCATCTGTATTAAAAATAC
AAAAACTAGCTGGGCGTGATGGCATGTGCTTGTCACACTTGTAATTCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGAAG
TTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGTCTGGGCAACAGAGCGAGACTCTGTCTCCAAAAAAAAAAAAAAAATTCTCCTGTCTCAGTCTCCA
GAGTAGCTGGGACTACAGGTGCACACCTCCACACCTGGCTAATTTTTTGTAGAGATGGTGGGGTCTCACCCTGTTGCCCAGGCTGGTCTCAAACCCCTGG
TCTCAAGATATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGCAAGAGCCACTGCACCTGGCCTTGCTTACTTTTAAATAAGCAGCCACCAGTG
ATTTTCTCAAGCTGTTAAGCAAAAATGCAGAACACAGTTTGCCTGTTCCTTAGTTTGGAGATTTTGTCTTTAACAACTTTCCCCAGTTCCCCAGTTTCTT
CCTGCCTAGAGGTCTTCCCTTATACCTGACCTGTCTTCACTCCTGCTGCAGGCAAACCAGTCCTAGCAACGGTCACTTTTTTGTTTGTTTGAGACAGAGA
CTTCCTCTGTTGCTCAGGCTGGAGTGCCGTGGTGGGATCTCGGCTCACTGCAAACTCTGCTTCCCATGTTCAAATGATTCTCCTGCCTCAGCCTCCCGAG
TGGCTGGGACTACAGGCGCACACCACCACGCCAGGCTAATTTTTATATTTTTAGTAGAGACAGGGTTTCGCCATCTTGGCCAGGCTGGTCTCGAACTCCT
GACCTCAGATAATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCAACAATGCTAATATGTTTTATGAGCATG
GACCCGATCTTCCAATCTGAAATAGAATTTCATTCCTCCCTTACTTTGTATAGTTTTTGGCTCTATAAAATTTCCATACTTTCTTTATTATGTATCCTGT
CCCTCCCCCACCGCAAAATGTAAATTTGGTAAGGAACTTTTGATTTGTCCTCTGCTATATCCCAGGGACGGAAAGCAATGAGCACACATTAGGCATCCAT
TAAATTAATTTCACTTGTTGAATGAATGCGTGAGCGAAGCACTCACAGACTGACCATCAGGGGGCGTCAGAGAAACTGGACAGAGGCGAAATGAAGAAAA
AAGAATTACCCCGAGTTTTCAGGTATGGTTCCGCGAGGTTTGAACTCGCTCGGCCACCGTAGTGCTTAGAGGCCGAAAAAGTACAGCCCCTTCCGGGCTC
CGCGGTACGGGAAGACAGCTTTGGGATGTCGGAAGATCCTAGAGGTCCCAAGGTAGCTGACYTGCGAAGCTGAGGCTCCAGCCGAGGGCTCCAGGCCTST
GACCGGCCCAGCAGTGAGCGCGGCTGCCCGACGCTTCAGGGCCGGGAGCAGGGAGCGTGAGTCGCCATGGCGACGCCGGCGGGTCTGGAGCGCTGGGTTC
AGGACGAGCTGCACTCGGTGTTGGGGCTGAGCGAGCGGCACGTCGCCCAGTTTCTGATCGGTACCGCACAGCGCTGCACCTCTGCCGAGGAGTTCGTGCA
GCGCCTYCGAGACACTGATACCTTGGATCTCAGTGGGCCGGCCCGGGACTTCGCCCTGAGACTCTGGAACAAGGTGTCGGCAGGGGTGGGGAGGGGCCCT
GTGATTTGTCCCGGTGAGGCTGGCCTMACGGTCCATCGAGAAGTTAAGAAAGCTCAGTTCRCAAGCACTTATTCTTTGTCCGTTGTCGCGTAGGTACTGT
GCTAGCTGCTGGACGCCCAGCTCAGTGGAGAAGATTGAGGAGGGCTTAGGTGTGTCGGGTTAAGCGCAATAGAACGGTGTTTCTCGAACTCTTAACATGC
ATCCAAGGTTCTTGTTAAAATGCAGATTGCGATTCAGTAGGGATCTTAGTTTCTGCATTTCTTTCTTTCTTTTTTTTTTTTTTGAGAGACACAGTCTCGC
TCGCCCCGTCGCCCAGGCTGGAGTGCGGTCGTAAGATCACGGCTCACTACAGCGTCGACCTCCCTGGTTGAAGCGACCCTCCCACCTCATCTTCCCCGGT
AGCTGGGACTACGGGCGCGCGCCACCACCCCCGGCTAATATCTTTTATTTTTATTTTTATTTTTAGAGATGAGGCCTTGGTGTGTTGCGCAGGCTGGTCT
CTAACTCCTCAGCTCAAGCAATCCTCTCTCAGCCCCCTCAGAGTGCTGAGATTACAGGCGTGAGCCACCATGCCCGGCCCCCCTCATCTTCTGAACTTCC
TTTCAGTCGTTTAATTAACAGAGGGGGCCGGGTGCAGTGGCTCACACCTGTAATCCCAGCACCCCGGGAGGCTGAGGCAGGAGGATTACTTGAGCCCAGG
AGTTCGAGACCAGCCTGGGCAACATGGCGAAACCTTCGTCCTACAAAAAAATTAAAAATTAGTTGAGCGTGGTAGTGTGCACCTGTGTTTCTAGCTACTT
AGGAGCCTGAGGTGGGAGGATCCCTTGAGCCCAAGAGGGACAGAGTGAAACCCTGTCTGTAAAAAAAAATAAAAAACCCCATTCAGGATGATGAAGATGG
GGTGAAGCCATGAGGAAGAAAGAGAATGAATGCTGGTTAGCTGGTTTAAAACTAAGTAATTGTGCCCGGGTGCGGTGGCTCATGCCTGTAATCCCAGCAC
TTTGGGAGGCTGAGGTGAGTGGATCATGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAAATAGTCG
GGCGTGGTGGCATGTGCCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGAAGTGAGCCGAGATCACG
CCATTGCCTGACAGTGGGGCCGGGCCGCGGGGGCAGGAAAGACTAAGTAATTGCTTAAATTAGGAACAGAGCTAAGTGGGAGGGCAGAGATCAGGAGTTG
CTCAGACCTCCTTATCTTCCCCTCTACTGACAGGTACCACGAAAGGCAGTGGTAGAAAAGCCAGCTCGGGCAGCAGAGCGAGAGGCCCGGGCCCTGCTGG
AGAAGAACCGATCTTATAGGTTACTGGAAGACAGTGAAGAGAGCAGTGAGGAGACTGTGAGTAGGGCTGGAAGCAGCCTCCAGAAGAAACGTAAAAAGCG
GAAACACCTCAGGAAGAAGCGTGAGGAAGAAGAGGAGGAAGAGGCTTCTGAGAAAGGGAAGAAGAAAACAGGGTAAGTCAGAAGCAGGGTGAGAGAGGAT
GGGGCAGGCTGAAGTGTTCTCTATGCCCTTATTTAATCCCCTGGATGGGCTGCAGGGGGAGTAAACAGCAGACAGAGAAGCCAGAGTCGGAAGATGAGTG
GGAACGGACAGAGCGTGAACGCCTTCAGGACCTGGAGGAGCGTGATGCCTTTGCTGAGCGGGTTCGACAGCGGGACAAGGATCGGACTCGAAATGTCCTG
GAACGGTCAGACAAGAAGGTGAATAGGAGCAGCATGTTCTGTAAATCCCCAAGATCCCAGGGTGAAATCTGAGGTTGGCTGTGAGTGCAGAGATAGTGAT
CTCTGGGAAGACAAGGGGCTGTCTCTAGTGAGATGTTCACCTCTGTGGTGAGAGAAGCCCTGTGCATCCTGTGGCTAAGACAACTGTCTGCTGTACCTGC
AATCAGAGAGATTCCTCACTGAGAGGGGACATTTTTTGTGTTAGGGCGCATCTGAATGATCCTTGTGATTCTAGAGGGGAGCAGCTGTCAGTGTGGGGGC
TCTTTGGCCTCACACCCCTCCATTCTTGTTTTTTCTTCTAGGCTTATGAAGAGGCTCAGAAGCGCCTCAAGATGGCCGAGGAAGACCGGAAGGCCATGGT
GAGTCCCAGGGCCTAGGGAGCCAAGATCAGAAGACAAAAGGAAAGACTTTCTGATAGAGTGTATAGGGAGAGAGGATACAGAGGAAGCACAGTGTGGATG
CTGATGGGGKGGTCAGGTTTCTAGAAGAGGGGCTTGGTTGTTAGGAGCCAGCTGAGGATAGACTTATGTTGTTGAGGGAAGGATCCYTCTTAAGTTGTAG
GGGGAAGGAGGCTACCCATAAGTCCTCCTTGACTCTTAACTTTAGGATCAAATATACTCTATTAGTGAATGAAATTGTGAGCTTTCCCTATTCCTGAGTC
CTAATGAGATATGAGGCAGCTGGAATGTTGTCAAGAAGGTTGCTGGAGGGCAAGGGCAGGGCAGCAGTCCCACTGTACAGGGATGTGCTGACCATTCAGC
TTAGGCACACCATCTCCAAATACCTTCCCACCACCTAATTCCTGCACCCCTTATGTGGCTTTGTGATCTCCCTGTGTCTTCTCACTGGACAGGGACAGAG
CCCTTGTAATTCATAAACTGGACTTTTTATGGTGTGAAACTAGGTAGGGTAAGCTGTTTTCCAAAGGCCTGGTCTTGTCAAGTAAAGTCACACTTAGATT
CCCCAATACCCCAATAGAATTTTGAGACTCTTGAAGTTCCTTTTTTTTTTTTTTTTTTTTAAACCTTTTTTCTTTTTTTTGAAACGGGGTCTTGCCCTGT
CACCGAGGCTGGAGTGCAATGATGCGATCTCGGCTCACTGCAACCTCCGCCTCCTGAGTAGCTGGGATTACAGGCGCACACCACCACGCCTGGCTAATTT
TTTGTACCTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGGTGGTCTCGAACCCCTGACCTTGTGATCCACCTGCTTTGGCCTCCCAGAGAGCTGGA
ATTACAGGCGTGAGCCACCATGCCCAGCCTTCTTTTTATTTGTTTTGTTTTATTTTTTATTTTTATTTATTTATTTTTGAGATGGAGTCTCACTCTGTTG
CCAGGCTGGAGTGTGGTGGTGCGATCTCAGCTCACTACAACCTGTGCCTCCCTGGTGGAGGAATCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTG
GGACTACAGGCCTGCAGTACCACACTCGGCTAATTTTTTGTATTTTTAGTAGAGGAGATTTCATCATGTTGGCCAGGATGGTCTTGATCTCTTGACCTTG
TGATCTGCCCGCCTTGGCCTCCCAAAGTGTTGGGATTATAGGCATGAGCCACTACGCCTGGCCGTTTTTACTTTTTAAAATTCATTTATTTATTTTTTTG
AAACAGAGTTTTGCACTTGTTGCTCAGGCTGAAGTGCAGTGGCGTGATCTTGGCTCACTGCAACTTCCACCTCCCGAGTTCAAGCGATTCTCCTGTCTCA
GCCTCCAGAGTAGCTGGGATTACAGGCATGAGCCACCTCGCCTGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCT
TGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGTCACCACGTGCCCGGCCAACTTTTGGAGTTCTAA
GAATGGCCTACTGGTTCCCAGGTCTCTCCTGACCAATTTATCTCATATCTCTTCCTGAAATTGACTGTGGTTAGGCTTCTGGGACATCTCAGTGCAGTTG
TGGTGGTAGTGGTGTTACTGTTTTGGCCTGAATTTAATTTTTCGGGTTTTTTTTGAGACAGAATCTCATTCTGTCGCCCAGGCTGGAGTGCAGTGGCATG
ATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAACCTCCCGAGCAGCTGGGACTACAGACATGCACTAGCATGCCTGGC
TGATTTTTGTATGTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGTCTGATCTCAAACTCCTGACCTTTGGCGATCCACCCCCCTCGGTCTCCCAAAA
TGTTAAGATTACAGGCGTGAGCCACTGTGCCCAGCTGTAATTTTTCTTTTTCGATTACAAAAATATTTAAGCACATAGGGAAGTTGAAAGAATAGAACAA
AGAACACTCATAGACACTATTCAGATTGAAAAATGGTTAATACTATGGGTAGTATTTGCATTGTAATTGTAAATGTGGTATGTTTTTTCTTTTCAGACCA
TTTAAAAGAGTCTTAGACATCATGGCGTTTTATCTCTAAGTACATCAGTGTGTACCTGCTAAGGATAAAGATATTGTCCTCTAAAATCAGAATGCTCTTG
TCACAGTCAGGAAGTTGAACAGTAATTCTTATGTATCGACTAAGATCTCTCTACAATAAAAGATACCCTCATTACCCTCAAAATAACTTTAATGACTGCT
TTTTCCTAACAAGAATGCAGTCAAGGTTCATGCATTGCATTTGGGTCTTAGATGTTAAGTTTGTTTCTCTCTCTGTCTGTCTCACCTTGCAGTGTCCTAC
ATTCTGGATTTGCCTGATTCTTATCTTGTGGTGTTAAGTACTTCTCTGCCCTGTGCTTTCTTTGAAGCAGGAATTGGGTCTAAAGCTTATTGACACTCAG
ATTAAACAGTTGTGGCAGGAACACTTCTTGGGCGGTGATGTGCACTTCATATTATGTCATATCACGGGGACATACTATCCAGTTGTGTATCTATATATTA
GTATTAATATCCTTTCTACCAATAGCCTTTCATCAAATGCTTTTAGAAGCCACTGGTAATCCTTTCCTGAACATGTTATTTTTATTGGGGATTGCAAAAT
GGTGATTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAACGGTGCGATCTCGGCTCACTGCAAGCTCTGCCTTCCGG
GTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGCAGCTAGAACTACAGGCGCCTGCTGCCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGT
CTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACTTCGTGATCCTCTTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCC
GGCCGAAATGGTGATTTTTTGATTCTGTCATTCCTGTTACGTGTATTGGCTAGAATTTGTCTATAAAGAAGAGCTTTTCCTCAACAACTAGGAACAAGCT
ACAGTTCCTTCTTAAAAAGGGTAAATGTTTGTTTCCTTTTAAATACGAATTTTTAGAGTAAGGCGTTTGCTGTAACAGTCATTTCACTGGTGACAGATTT
TTTTCCCTTGTTTTTTGTTTGTGTGTGTCAAATTGGACTCATGAATTTTTATTTTTCAGTATTTTATAATCTCACATCATTATTCTTTTTAATGCTCAAA
TGGCTCTGATTTTTTGCCCATATTAAAAAAAAAATCTATCTGGCTCTTCCATGGAAGGAATATTTGACTGTGGTACCCAGATTAGGTCATGATCATAAAC
TGCATTTTAAGTCTTTACAGAACAAACAAGAAAAGCCAAACAACTAAATAGAACCAGGCCCCTTAAGGGTAGAACAGCAGAGGGGCTTTTTTTTTAAAGA
TGCAGTTTTGTTCTTGTTGCTCAGGCTGGAGTGCAATGGCGTGAGCTAAGCTCACTGCAACCTCCGTCTCCCGGGTTCAAATGATTCTCCTGCCTCAGCC
TCCCGAGTAGCTGGGATTACAGGTGCCCACTACCATGCCCAGCTAATTTTTGTATTTTCAGTAGAGACGGGATTTCACCATGTTGGCCAGGCTGGTCTCT
AACTCCTGACCTTAGGTGATCCACCCACCTCAGCCTTTCAAAGTGCTGGGATTACAGGTGTGAGTCACCACGCCCACCCAGCCACCAGAGGGGCTTTGAC
CTTGCAGTAGAGGAAGTTGTGATCACAGAGAGGATGATGTCATAGTGGGAGGACTCCTGGCAGGAAAGGGCCTTATAGATATTGCCAGTTTTCTGCTGTC
ATCCATAATGTGTCCTGAAAAGTTTGTATCAAAGGTAAATGTGTAGAAACTAAGTGAGACACAGCATGGTGAAGAGAGGTTAGTACCAGAAAGCCAAACA
TCCCTGATTACATTTGCCTTACAGAAACACTCTGATGCTGTAGTCCTAACTTTTTATAATCAGTTTTTCTCCCTTCCTCAAACTACAGTCATTCCGTTTA
AGACCAAAGAACATCTAACTGGGGCTGAAGATTGCCTCCTGTTGGCCCCCTCACTGGTTTCTATCTTTGTCTGAATTGTTTTCGGTTTGAGTCCTGTGCT
TCTAAAYGCTGGATTAGCCTTTTATTTTCCCCCTTTCCACTAATTTGAATAAAATGGCAAGAGTAAAATATAAGCTACGCAGACATCTCCCTAGTGCATC
TATATTAACAAAGATGATAATGCTGCCTAAGAGGACTTTCCAGCTGGATTCTGCTGCAGGAAGATACGATGTGGGGTCAGCATGTAGCATCCAAAGAGGC
CCAGATTTGAGTATGTCATTGTTTTGGTTGTGCATTGCAGAGGGAAGGTAGAGGGTGCATCCTGAGGTTCTCATGCCTGCCTGTCAGGGGATTTTTCCCT
TGTAGGGATTGGTAGAGAAAGGGGTTGCTCCTCCAGCAAGATGAGGATTCGACTGTCCTTTCCCAACTCAGGTCCCTGAGCTGCGGAAGAAATCTCGCCG
AGAGTACCTGGCTAAGCGGGAGCGAGAGAAGCTTGAGGACCTGGAGGCGGAGCTGGCTGATGAGGAGTTCCTTTTTGGGGACGTGGAGCTGAGCCGGCAC
GAGCGGCAGGAGCTCAAATATAAGCGGCGAGTGCGGGATCTCGCCCGGGAGTACCGGGCAGCTGGGGAGCAGGAGAAGCTGGAGGCCACCAATCGCTACC
ACATGCCCAAGGAAACCCGARGACAGGTGAGGTGAAGYGGCGTCTGCTTCAGCCTTGGTCCCCAAGACAAGTTGTGGGGAAGGCTTCAGGGGATTGGGCA
ACACGTGGGTCATCCCCTTTCTTGCCTTGCCGTTCCCAATGGGCAGTGGGCGGGGGTAGTAATGGGAAGAGGGGAGAGGGCAGAGAGGACATCCTGTTTT
TGAGTCTTCACATATCCCCTCTCTCTGTAGCCAGCCCGAGCTGTGGATCTAGTGGAGGAGGAATCAGGAGCCCCTGGGGAGGAGCAGCGGCGCTGGGAGG
AGGCGCGGCTTGGGGCAGCGTCCCTGAAGTTTGGGGCCCGAGATGCTGCCTCTCAGGAGCCCYAGTATCAACTGGTGCTGGAGGAGGAGGAGACCATTGA
GTTTGTCCGGGCCACTCAGCTCCAGGGTGATGAGGTAAGAGGGGAGCTGGGAGACTTTCTGAGGAAGACCCGTAGCGAGCTATTTAGCTCACACCTCCTT
CTCTTTCCTTAGGAGCCYTCAGCTCCACCCACTTCAACTCAGGCCCAGCAGAAAGAGTCCATCCAGGCCGTCCGCCGCAGCCTCCCGGTGTTCCCATTTC
GAGAGGAGCTCCTGGCTGCTATTGCAYATCACCAAGTCCTCATCATTGAAGGCGAGACAGGCTCAGGGAAGACCACCCAGATCCCGCAGTATCTCTTTGA
GGAGGTACAGTCATCTCACCCTTCAGCTTGCCAGGGCACCTGGCATCAATGTCCTCATTCCTGTCAGAGCTCCTTTTACATTATATTTTTAGTAGTCACT
TACCTATCTTTTCCACTAAATTGTGAAATTCTTGAGAGTAAAGACCATACCCTTTTCACATTTCTGTTCTCACTTCCTGCATTCATTTCATTTGGAAGGA
CGGGTAGATGGATAGGTGGAGTGGGGCGTGTATAAATGTGGACCTCCCTATGCTCCAACGTGGCCAAAAAACAAGGAGTTAAAGGACTATTTTCCTGCCT
TTTTGTTAGTTTTTTTTTTTTTTTTTTGGAGACGGAGTCTTGCTCTGTCACCCAGGCTGKAGTGCAGTGGTGCGATCTTGGCTTACTGCAACCTCTGACT
CCTGGGTTCAAGGAATTCTCCTGCGTCAGCCTTCAGAGTAGCTGGAATTACAGGCATGCGCCACCACACCTGGCTAATTTTTTAGTAGAGATGGGGTTTC
ACCATGTTGGCCAGGCTGCTCTCGAACTCCTGACCTCAAGTGATCCAGCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTA
GCCCCTGCCTTATTTTGGAGACAGGCTCTTGCTCTGATGCCCAAGCTGGAGTGATGTGGCACCATCATGACTCACTGCAACCTGGGACTCCTGGGCTCAA
GAGATCATCCCACCTCAGCCTCCTGAGTATCTGGGAGGTGCACACCACCATGCCCATATTAAACATTTTTTGTTTTTTTTTGAGGTGGAGTCTTGCTCTG
TCACCAGGCTGGAGTGCAGTGGCGCGATCTTGACTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGAC
TACAGGTGCGTACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCAATCTCCTGACCTCGTGA
TCTGCCCACCTCAGCCTCCCAAAGTGCTGGAGTTACAGGTGTTAGCCACTGTGCCTGGCCTGAAATTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCT
CTGTTGCCCAGGCTGGAGTGCGGTGGCATGATCTTGGCTTACTGCAACCTCTGTCTCCCAGGTTCAAGCGACTCTCCTGCCTCAGCCTCCCAAGTAGCTG
GAAATACAGGCATGCACCACCATGCTCGGCTAATTTTTTGTATTTTTAGTAGACGGGGTTTCACCATTTTGGCCAGGCTGGTCTCGAACTCCCAACCTCA
GGAGATCCGTCTGCCTCGGCCTCCCAAAGTGCTGGAATTGCAGGTGTGAGCCACTGTGCCTGGTCAAAATTTTGAATTTTTAATTTTTTTGTCACACTAT
GTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAAGCCATCCTCCCACCTCAGCCTCCCAAAGTACTAGGATTACAGGCATGAGCCACTGTGCCCAGCCTT
CCTGCTTTTTTACCTTAGCTGGCTCTGTCTCAGCTAATCTGTTCTTTTCCAGCTCAAGTCTAGCAGAGTCATGAACTTAATTACCCAGAGCTGGGTGAGG
ACCCCCTTTGAGGGCCCTAGGTCTGTCATCCTATCTATTTGCCCTTCTTTTCTGGTTTTCAGCATCTGTCTTTTCCTCCTTTTCTCCTGCCTGGTTTTTA
CAACTTCTTTCTCTGAAATGTACCTGGTCCCAGGGTGCATATTTAGTAAAGGGCAAACTTCTTCTTTTTTCTTTGTCATTCAGGGTTATACAAACAAGGG
TATGAAGATTGCCTGCACCCAACCCCGGAGAGTGGCTGCCATGAGTGTGGCCGCCCGAGTGGCCCGGGAGATGGGTGTGAAGCTTGGGAATGAGGTGAGA
TTTCTAGGGAACCGGGGGGTAGAGTCTGGGGTCTGTGACTCAGTCTACAGTTCCCTCAGGTCCCTACAGCAGAAGTCTTGGTGCTGCCCCACTTCACCTT
TCCCCAAGTTCCTTTCAGGGCACACCAGSCCACACTTGGTTGCTAATGGTTCCCTTGACCAGGTTGGCTACAGCATCCGCTTTGAGGACTGCACATCAGA
GCGAACTGTCCTCCGCTACATGACAGATGGGATGCTTCTCCGGGAGTTCCTCTCTGAGCCTGACCTGGCGAGTTACAGGTATCTCTAATCTCTGGCCTTT
CTCTCCCTTCTTCCCACCCAGCCAATTCAGCCATTGTCTTCTGATTAATCCACCCGTTCTTGAATCTTTGTGGTTCAAATGGTCCTTGAACTGACCTCCA
GGTACCACGGAGATGGGGCTGGAGGACAGAAGAGATTGTAGAGAAAGCCTCTTCTTTCCCCATTCATCTCCAGGGTTTAGAAAACAACCAGGATAGCAGA
GCATTGCTGCCGAGACTTGAAATACCGTGTGAAGACCATTTGAAAACACTTGGAATGCTCAGCTCAGAGGGAGAAACAGGAAGCATCCTGGTTCCCTCTA
AATATGTGAAGGCTGTTACATGGAAAGAAGGATCAGATTGTTTTATGTGACCCTACACGACATAGCTAGGAGCCATGGGGAGGTTACAGGGAGACAGATT
CCAACTCAATACCAATGGCTGAGTAACCCTCAGAGTGGTGGAGATTGCARGGCCTGTCAGAGTGGTTGGACTCTGGGTCTTGGCCCTCCACACAAGTCTT
GGGTAGCTTGGTCTGTGAATAATGAGCTCTTAGTGCTGGAAATGGCCAAGCAGGGGTTGGTTGAACATGTGTTGAGGGGGAAAAGGGATTCATGAATGTA
ATGGGGGTGGGGTCAGGCCAGCTGAACAATATGTGCCTTTTTGACTCTTCAGAGGCTGTGAATTTCTGGTCTTGGAAGATCACAGTGGAGCAATTGGACA
GATAGGATTTTATCCTTCATATCCCTTGCAAAARATCTCTAAGAACCCATGGAGAGCCAGCCAGCGCAAGAGTGTCTGATGCAGATGTTTTTGCCCATCG
AGCCAGCCTGCTTTGTGGAATGGCTGGGGACTTCACCATCACAGTTAGGGTTAGGCACAAAGAGTTGAGGTCAGGGAGGTGGGTAGGGGAAGATGGGGAT
GAGTTCCTGGGACTTGGCTGCCACCCAGAAAAGCCAAAGAACAAAGAGAAAGAAGGTGTCATGCACATAACTGAGTTAGGAGGAAACCAAGGAGCATGCA
GAGTCCTGTGAGAGTTGAGGTAGAAAGGCTTAACTTGCTCCTGTCTCCAAAAGAAGAAACAGTCAAGAATGATGCCAGCAGCAGTTGTCCCACAGGACAC
CAGGAGCTTCTAGGCTATTTGAATCACAGCAGCTCAGGTCTATTACCCCCAGTCAGCCTTGCTGGCCCACCCTTATTGAAAGGGACCCTGCCTTCCACTT
TTTTTTTCCTTTAAAACGTATCAGCCGGGAGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCAGGCGGATCACGAGGTAAGGAGATC
AAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAAATATAAAAAATTAGCTGGGCGTGGKGGCGGGCACCTGTAGTCCCAGCTACTCAGG
AGGCTGAGGCAGGAGAATGGCGTGAACGCAACCCAGGAGGCGGAGCTTGCGGTGAGCCGAGATCGTGCCACTGTACTCCAGCCTGGGCGACAGAGTGAGA
CTCTGTTTCAAAACTCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCACAGTGGCAGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAG
AATGGTGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCTGAGATCATGCCACTACACTCCAGCCTGCAACAGAGCAAGACTGTCTCAAAAAAAAAATCCTT
CCACTTTTTCTTTTTTCTTTTTTTAGATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCTGCCTCCCAG
GTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGTCTACCACCACATCTGGCTAATTTTTTTTGTATTTTTAGAAGAGACGGG
GTTTCACTGTATTGGCCAGACTGGTCTCGAACTCCTGACCTTGTGATCCACCTGCCTCGGCCTCCCAAGGTGCTGGGATTACAGGCGTGAGCTACCACCA
TGCCCAGCCTAAAACATATCCTTCAACTTTTTCTAGTAAGAGCAGCTGCTGAGTCTAAGCAGACTCTTGACTGAACTAGAGGGTATGGCTAACTTGTCCT
GGCCTCAGTGTGCAGCCTCTACATCTTGTYTCCTATTRTCTGCTGAGGCTGGGATAGGTTGCAGATCATGGGGCCCTGGCCTTCTCTGACTTTCTGTTGC
TCTACATAAGTGGGATGGCTGACTTCTCCTTAGAGYCCCCTCCGTCAACAGTCATTCTTGAACTCTTTGTGTCCATTACTCCCCTCTCATCCAGTTAACY
CTGGTGTCTGATACTGCATTGCCTAGCGCTCTTCCCTCATTGCTCTCCTATTCCCTCCCCAGCGTGGTGATGGTGGATGAGGCACACGAAAGGACCCTAC
ACACAGACATTCTCTTTGGATTGATCAAGGATGTTGCTCGCTTCCGACCTGAGCTCAAGGTCCTGGTGGCTTCAGCCACAATGGACACTGCCCGTTTTTC
CACCTTCTTTGATGRCGCCCCTGTGTTTCGAATCCCCGGACGCAGGTTTCCTGTGGACATCTTCTACACCAAGGTGCCCCCTCAGGGAGGATGGGCTTAA
GTCTGTGGCAGAAAAGCTGAGGCCTTTGGAGAAGGTTATCCTGTGGAGGGAAAGATGGAATGGAAGGTTCAAAGGGGAACTAGGATAAAGTGTATGTTGA
ATTGGGAGGAGAGGAAAGGTTTGCCTAAGCAGGTGGCCCTCCTGTGACCCCATCTCTTTCTGCTCTCCAGGCTCCAGAGGCTGACTACTTGGAAGCTTGT
GTAGTATCTGTGTTGCAGATCCATGTGACCCAGCCCCCTGGGGATATCCTGGTGTTCCTGACAGGACAGGTGCCTGACATGGTGGGGAGAGGGGATGATG
TATCCCAGGGGAAGACAGGGCCGGCATGTTGGCCTTCTGTGACTCTGGGACCCCTGCTGCTCTCCCTACCCTCTATCCAGGAGGAGATTGAGGCTGCCTG
TGAGATGCTCCAGGATCGCTGCCGCCGCCTGGGCTCCAAAATCCGGGAGCTCCTGGTGCTGCCCATTTATGCCAATCTGCCCTCTGACATGCAGGCCCGT
ATCTTCCAGCCCACACCACCTGGGGCACGAAAGMTCAGTTGGAGAAACCCACACTCTTCACCCCTRTGCTTCCCACAACTAGTAGTGAAAAAGCTGTGTG
CCTGCCCCATGCAAGGTGAGTCCTGCGCACTGCTGCACACAGCTGAGGAGCAGCCAGTCCCTTGTTCCTGGGACTGAAGAGAGGAGAAATATGGTGTGAA
CCAAGAGAGAGCCAAATATGTGATCTGGAAAGTATGCACAGTAGATTCAGTGGAGAAGGGAAGTCCTTGATGTGCTAAGAGGTGGGATTTGATATGGACC
TTTAAGAGAAATGTCTGAGGTCAGGTGCGGTGGCTCACGCCTGTAATCCCAGGACTTTCGGAGGCTGAGGTGGGCGGATCACTTGAGGTCAGTAGTTCGA
AACCAGGCTGCCTAACGTGGTGAAACCCTGCCTCCACTGAAAATACAAAAATCAGCAGGGCATGGTGGCGTGCGCCTATAATCCCACCTGTTTAGGAGGC
TGAGTCATGAGAATCGCTTGAACCCAGGAGGAGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGTGCGAGACTCCATCTC
AAAAAAGAAAAATGGCTGAGAAGTCATCAGAGGAAGGCCCAAGGTATGTTTGAGGTCAGAGTGTGAGMTAGTAGGCTTAGTGGGAGGTTCATGTGGTGAA
GGAGTAGGAGACAAGGCTAAAAACAATTTGGGGCTAAGATTAGGGAGGGCCTTTGATGACAGGAAAGTTTGGACTTTATTTATTTTTCTTTTTTGAGACA
GAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCAAGATCTCGGCTCACTGCAGCCTCCACCTCCCAGGCTCAAGTGATTCTTGTGCCTCAGCTTCC
CAAGTAGCTGGGATTACAGGTGTGTACCACCACCCCAAGCTAATTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCA
GTGGCACCAACTCTGCTCACTGCAACCTCTGCCTCACAGGTTCAAGCGATTCTCCTGTCTCAGCCCCCCAGTAGCTGGGATTACAGGTGCCCTCCACCAC
GCCTGGCCAATTTTTTGTATTTTTAGTAGAGATGAGGTTTCGCTATTTTGGCCAGGTTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCCACCTTGGCC
TCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCATGCCTGGCCAACACCCAGCTAATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTC
TTGAACTCCTGGACTCAAGTGATCCGCCTGCCTTGGCCTCTCAAAGTGCTGGGTTACAGGCATGAGCCACTGTGCTTGGCGAAGTTTGGACTTTAGACAG
CTGAGTAGCAGTCAAAGGATTTTGAGCAGAGATATAACTTTCATTCAACAAATATTTAATGAGTTCCTTCTGTGTGTCAGGTACACAGGGGTTGATGATA
CAGTGATGAACAAAACAAAGTCCTTAGCCTAACAAACTTGCACTTGTGGTCTATCGGGGAAGCAGTGGATGCATAAATACATATTGTCAATTTGTGGCCA
GTGCTATGAAGAGATACAAGGCAGCATAGTAGGATGGAACTTGACTCTGTGGGGTGGGAGTGAGGACTGGCATGAAGGTATTTTCCTTGGGGTGTAGGGA
GGGCCTCTTCAGTAAGGGGAAAGTGGAATAGAGACCCAAACCAGGTGAGGGAGGGAGCCAGGCTGATATCTGGGAGAAGAGTATGCCAGACAGAGGGAAT
AGCTGATGCAAATGATCCAGTGAGGAGTGCACTTACTTGGGCAGAGCAAAGCAGTGTGTGGGAGGAGTGAGGGAGGTGGTGGAGTGCTAGCAGATGAGGT
CAGAAAGGCAGCTGGGGTAGGTGATCCAGGCTTTTAAGGGGCTTGGATTGAATTCTAGAGTAGGATAGGAAGCCACTGAAGGATGGGGAGTGATGTGACA
GGTTTGTATTTTAAAAGGACCATCCTGGATGCCATGTGACAGAGGCTAGGAGCAGAAGCAGGGATACACGTTAGGAGGCTCTTACAGGAAGTGTTGTGTG
AAGACGAAAGCGGTGATGGGGAGGATCGGGCAGGAACTTGAACACCCCCATTTCCCATCTCTGAAAAAAAAAAAAAACCCTAAATCCTCTTCTCCATTTC
CTTTCCTCCTATGGCCCTGCTGACTCCCAGCCCCCACTTCCCTGTCCCCTGTCTTCTGGCCTTGTCCCCTGCTCCTGACCTTGGATACTACTAATTCCCT
CAGCTCCTGCCCCTTACTGCAACTGCTTCACTACTCCTAACTTTCCAAGATTACTTTTTCTGGGTAACTAGGTAGGTGGGGTCACTGGGTGACCCCATAT
CCTATCACTCAGGTGGTTGTGGCAACGAACATTGCTGAGACATCACTCACCATTGAGGGCATCATTTATGTGCTGGATCCAGGGTTCTGTAAGCAGAAGA
GCTACAACCCCCGCACAGGCATGGAATCGCTCACTGTCACACCCTGCAGCAAGGTCAGCCTGGGGATGCATGGGAGTGGGGGAGGTGGAGTTGGCCCACA
GAGAAGGTCCAACTCAGAAGCAGGGTGGGGGCTTCCTAGGGAACCGGGATGAGCAGTTTGCATCCTTCCAGATTTCTTGCATAAATACTGCCTTTTTCTT
TTCCCTGACCAAATTGTCAGCCAGCCTGTTCCCCTTTCTTTMCAGGCCTCAGCCAATCAGCGAGCTGGCAGGGCAGGTCGGGTGGCTGCAGGGAAGTGCT
TCCGCCTGTATACCGCCTGGGCCTATCAGCACGAGCTTGAGGAAACCACAGTGCCTGAGATCCAGAGGACCAGCTTGGGCAATGTCGTGTTGCTGCTCAA
GAGCTTAGGTGATTGGGCTACCTGAGAGAGGAGGGAGGGGCTGGAGTCACTGTCCTTTGAAGGGACTCTGTTCCATCCATCACACCTCTTTCTAGGGATC
CATGACCTAATGCACTTTGATTTCCTGGACCCTCCACCATATGAGACACTGCTGCTGYCTTTGGAGCAGCTGTATGCTCTGGGAGCCCTCAACCACCTTG
GGGAGCTCACCACGGTGAGTCGGGGGRCAGCATGGGTGGAGGCAGGATGATAGGGGTCAGGATGGCTCCAGGGACCCCTGTAGTAGTAGCGGGAAACCTG
AGGGAGGACTGGGCTCAACTCTCTCTCTCTTCTCCTTAGTCTGGTCGAAAGATGGCAGAGCTGCCGGTGGACCCCATGCTGTCCAAAATGATCTTAGCCT
CTGAGAAGTAAGCCCTCGCCTCCACCTGGGCCCCCAGCACACAAACAGGCCAGGCCTCCTCTGTCTCCAGGGTCCCCTTTGTCTGTCTTTTTCTGTTCAT
CATACTATCCCTTAACACATAATAAAGTATTAGATAACTCTGATTGCCCCCTTTTGAGGCCCACAAGGGTAAGACACTTGATCCTATCCTTGATTCCACT
GCGCCCGGCCCCTTGAGGAACTTACTTGTTCCTAAGGTTTCCAACTAGAACATTTAGATGTAGCTGTGGAGGGATGACCTTTAAATGCCATTCCTCTGCT
GTCAGAGATCTTTTCCAAATGCACATAGTGAATGCACACTTTCTGCAGAAGCCTCAGAATTCCCCGGTGTTTCCTGCTCCTGCCTCCATGGATGTCCCTC
CTTTGTGACTGTGTTTCATCTATGGCCCCTACTTCCTTGACCCCCAAGCTGCTGCCAGAATCTATCTGCTGGCTGCTTTGTAGCCATTATGCCAACCAGC
CTTCCCCACATGAGGAAACATCCATCACACAGTGATCACTCCCCACTCCACCATATCTGTTCCTATGTGTCTTGCTTTGAACTCATGCTTTCCCCTTCCT
GTCCCAGGTACAGCTGTTCAGAGGAGATCCTGACAGTGGCTGCCATGCTCTCTGTCAACAACTCCATCTTCTACCGACCAAAGGACAAGGTCGTCCATGC
TGACAATGCCCGTGTCAACTTCTTTCTCCCTGGCGGTGACCACCTGGTTCTGCTAAATGTTTACACACAGGTCACTGGGCTTGGGTGAGTGGGAATGAGA
GACACTGGGGGACTTTAGTCCTGCTGTATACTTAATTATCTCTCCTTTCTTTTTAACTGTCTTCCCAGTGGGCTGAGAGTGGTTACTCTTCCCAGTGGTG
CTATGAGAACTTYGTACAGTTCAGATCGATGCGCCGAGCCCGGGATGTGCGGGAACAGCTGGAAGGGCTCTTGGAACGTGTGGAAGTTGGTCTCAGTTCC
TGCCAGGGGGACTATATCCGTGTACGCAAGGTCAGCATTTCTTCAGCCTCCTGCTTTCCACCCCCAGTACCTTCCCAGGAGCAAGCTTCTCTGGGGGCAT
GCAGCATTTCCTCCAGCGTGAGAGCATGCCCTCTTCCCCTTGTGTATGACGTGTCCTCCCAGGGCCCTTTCTTCCCCAGACCACTGAAGGTTCATTCCTG
GGAAGTTCTTCATGCATTCCTTACCTCTCTAGTTTTCCTGAAGCCTGAACTAAAAAGGTAGTGCATTCTTAGGGTCCCCAGATGTCTGCCTTTTCCATTG
ATTTTCTTTCCTGCCCGCTCCTTAGGCCATCACTGCTGGTTACTTTTACCACACGGCACGGTTGACTCGGAGTGGCTACCGCACAGTGAAACAGCAGCAG
ACAGTCTTCATTCATCCCAACTCCTCCCTCTTTGAGCAACAGCCACGCTGGCTGCTCTACCACGAACTTGTCTTGACCACCAAAGAGTTCATGAGACAGG
TGAGGAGAACATCCTGTGCCCAYGCAGGTGGAGACTATGTAGAGAGATGGTGTCCTGGCAAGCTAAGAACCCAGGTTCAAGTTGCTGGGACTGGTACAGA
AAGAGGAAGGTAGGGTAAAATAGAAAGACATCCTTTGTTTTTTTTTGTTTTTTTTGAGACGGAGTCTCACTCTGTTGTCCAGGCTGGAGTGCAGTGGCGC
AATCTAGCCTCACTGCAACCTCTGCCTCTGGGGTTCAAGAGATTCTCATGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGCGCAAGCCTCCAGGCCTGG
CTAATTTTTGTTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTCAAATGCCTGCCTCGGCCTCCCAAAGTGCAGGGATTACAGGTG
TGAGCCACCATGCCCAGCCCAAAGACATCCTTTCTAACAGGTGTGTCAGCATCTTCCAAGATCTGAGAACTAGACACTTATTCAATAAATATTTGAATGG
CTACTGTATAGGTGCTGGGGCTATAATGAACAAAGCAGTCTCTGGTCTCACAGAGTATAGTCTTTATGTTCTAGGCTTTTCTTTTTTTTGAGAGAGTTCC
GTGCTGTTGTAGCCCAGGCTGGAGTGCAGTGGCACCATCTCAGCTCATGCAACCTCCGCCTTCGGTTTCAAGTGATTCCCCTGCCTCAGCCTCCAGTGTA
GCTGGGATTACAGGTGCCCACCACCACGCCCAGCTAATTTTATATTTTTAGTAGAGACTGGGTTTCACCATGTTGGCCAGGCTGATCTCGAACTCCTGAC
CTCATGATCCGCCTGCCACGGCCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCACTGTGCCTGGCATGTTGTTCTAGACTTTTCTTGGGAATAGCTTAT
TTGGTATCTTGAATAACATACAGAGGTGTATCTGCCCTTTGGGTATATAATAATAGAGCCAGGCACCTTTACACCTAGCCCTGCAGTCAAAGAGGAAAGA
TAACTTTTGACCATACACATAAGGATCTAGGTTGGGGCTGGGCATAGTGGCTCATTTTTGTAAACCATCCCAGCACTTTGGGAGGCCAAGGCAGGATCCK
AGCACTTYGGGAGGCCAAGATCAGCCCAGGCAACATAGTGAGACCCCAACTATACAAAAAATTAATGGTGCACTGTGATGTGTGCCTGTAGTCTCAGCTA
CTTGGGAGGCTGAGGCAGTAGGACTGCTTTGAGCCATGATACGCCACTGCAGTCCAGCCTGGGCAATAGAGCAAGACTCTGTTTCAATTTAAGAAAAAAA
AATAACAACAACAAAAGATCTATGTTGGAAAGAAGGGAACTCCATTGATCTTTTCTCTCTCCTAGGTACTGGAGATTGAGAGCAGTTGGCTTCTGGAGGT
GGCTCCCCATTATTATAAGGCCAAGGAGCTAGAAGATCCCCATGCTAAGAAAATGCCCAAAAAAATAGGCAAAACACGAGAAGAGCTAGGGTAAGAGAAG
GACGTAAACAGAACCTGACACCAGCTCCTTTTCCTTRTATACATTATTTAATACCTATTAAATAAAATTATTTTTGGAATAAAGCTTGTGGGAACATTTG
GGATCTAGAGAAAGTGATATGTGAAATTCTATCTCATATAGTCAGTTAAACTTTATTATTTACAAGTTAAATTACACAGCAGCTTTACACAGCATGAGAT
GGAAAGGAAGGAAGGAGAGAAACGAGGAGAGGAAGCTGGCTCCTGAGATTCTTGGCTGCCTCCACCTCCTTCTCTTGGGCGTAGCAGTCTTCAGTGCTGC
CTCCACTCCAAGGTCAAGGATCAGGGCTTGGAACACAGGTTTAAGTCAGGTTCTGGCTCTGACAGCCCCAGGGCCACCAGGGCTCCCACTAGCAGCTTCT
TCACAGGCGTTGGAGGTGAGTGTGAAGGCATCAGCTGCAGGGAGAAAGGTTAATGCCAGTTGGGGGAGGCACACAAATGTTCTACCCTTTACCCCACCCA
GCCCTACCTAGGACTCAKTTTATCTAGACGATGGCGACAAATGAGGCCACTGGAATTCAGGTAGAAAGTGGAGTAGGCATCATAGGTCCTGGGGAATAGA
GGGAGGCTTACTGAGGGAGAAGGTGACTGGTCCCAAAGCTGAATTCAAGCATTTGTTTAAACGAGTAGTCCCTAAATTCTGCTACATATTAGATCACCTG
GGCAACTTACAAACATCTCAGTGCTTARGTTGTGCCCTGTCTCARTTAAATCAGAGTGTTTGGCGTCAATATTTTTTAACRATCCTTGGGCATTTCTACT
GTGCAGCAGTTTGGGAACTGCTGGTTTAAAAACTTATATCCAATGTTTGTGGCTGAGTCTAACAATTTATTGGGATTCTACTCCCAGGCGGAAATTTACC
AGGTTGTAAGGCTCAACATATGAGACAGGACTTTTCATTTGTTCAGTACTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGACAGGGTTTCAC
TCTGTCACCCAGGCTGGAGTCCAGTAATGTGATCACGGCTCACTGCAACCTCAACCTCCCAGGTTGAAGTGATTCTCTCATCTCAGCCTCCCAAGTAGCT
GGAACTACAGGTGTGTACCACCACACTGGGCTAATTTTTGTATTTTTTTGGGTTTTACCATGTTGGCCAGGCAGGTCTCCAACTCCTTACCTCAAGTGAT
CCGCCCACCTCGGCCTCCCAAAGTGCTGGCATTACAGGCATGAGCCACCACACCCAGTCTGTTCAGTAAGTATTTGAGTACCTACCATGTGCTAGGCACT
GTATAGGAAGAAACTGAAGCTCAGAGGTTTTTCTAATATACCCAGTCTCTATTTTTTTTTTAACATTAACATAAACTAAACAGGATCCCTGTCCTTAAAC
AGTCAAGTGAGGATAGGTCAAGGGTTGTCTGGGAGACTAGATCATCTGTAATCTCAGCACTTTGGGAAGCTAAGGCAGGTGGATCACCTAAGGTGAGGAG
TTCGAGACCAGCCTGGCCAACATGGTGAAACCCTCTGTCTACTAAAAATACAAAAATTAGCCGGGTGTGATGGTGTGCCTGTAATTCCAGCTACCCAGGA
GGCTGAGGCTGGAGAATTGCTGGAAGCCGGGAGGCAGAGGCTGCAGTGAGCTGAGATCACGCCACTGCACTCCATCCTGGGTGACAGAGTGAGACTCCGT
CTCAAAAAAAAAAAAAAAAGGAACTGATTATAGTTTGGGTCCTTTCTCATTTCTCTCTTACCGGTAATGCTCGTCTTTGTCACGCTTGTAGAACCGCAAA
AAGAGCAAGTGGACGGGCAGCCCCACAAGCCGCCACCGGGCTTGCAGGGTCCAGTTCTCKGGGTGGCGGGTCAGCTGTAAAACCTCCAAACGAAGGTGTG
CAAAATAATTCCAGGCCAGGAAACGGCAGAGGGTCAGTGAAAGAATGTACCATGTCCGGCCCCTGTGAAGAAGGGATGGGAAAGAAATCTCATGATGGCA
GAATTAGAAAACCAAACTGGCTTCTAAGGAATGGGGAACAGCTGTGAGAAGCAGTCTAGGAACTTCTCTGGGAAGTGAAAAGGGTCATGTATATACCTYT
GGGTGCTTTTCCTCCCCAGTGCCCTACCTGTGCCCCAYTTCTCACTTGGTACGTATGTTGAGGATCTCATTGATGAATTCCACATCCAAGGAATACAGAC
TGTAGTCGTGGGACTGAAGGAAGAGCTTGGGAAGCTAGGTGGAAGAAGATGGCATCAACCCAGTGGGAAAGAAAAGATAATCCTATTTTTCAGTTTTCTA
ATTTTTTTTTTTTTTTGAGACGGAGTCTAGCTCTGTCGCCCAGGCTGGAGTACAGAGGTACAATCTCAGCTCACTGCAACCTCCGCCTCCTAGGTTCAAG
CGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCTTGAGATGGAGTCTAGCTCTGTCGCCCAGGCTGGAGTGCAGAGGTACAATCTCGGCT
CACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCATGCCCAGCTAATTTTTG
TATTTTTAGTAGAGACGGGGTTTCACTGTGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTAGGATTA
TAAGCGTGAGCCATGTGCCAGGCCCAGTTTTCTATTTTTAAGGCCTCCTTACTCCCATCTTGGAGTGAAAGATCTCATCCCATGATTAACCTCCCTTAAC
CCAAAATGAGGAACATCATTTTCTTTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCTAGGCTGGAGTACAATGGAGATATCTCCTTTCACT
GCGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCGTCTGCCACCATGCCTGGCTGATTTTTGTGTTTTTAGTA
GAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTAAGCCTCCCAAAGTGCTGGGATTACAGCACTTT
GAGCCACCGTGCCTGGCTGGAACATCATTTTCTCAGGAAAATGTTTATAATATATTTCTATGCCTGCCTCATGGTTCCAAAAAAGAATCCAGTTGACTAT
CCCTGTACGTCCAAGGATTACSCACATCCTTCCCACTGTAGACGAAGGCCACTTTTGCACTGACTTACCTCTTGTCTCAGTCTCTCATACATGACAGACA
GATGTTCCTCCATACTAGGATCTCCTGACGGGGTGGCAGGGGAAGGGTGGGCAGTTCCAGGGACTTGGAAAGGTATCCAAGCCCCAGGATAGGGGCAGGG
AGGTCCCTCAAAAAGGCTTCTAAGCCCATCCAGGCAGCCGCTATGCAACTCAGGTCCTGGTCCCTCCTCCCCCTTTCCTGGAGGGAGAACCACCCATGCT
GAGCTGAGGGCCTGGATCTGAGGGAGAGGTAGTGGGGGAACCTGGGGAAGACGCTGGGTGGGAAGGCGTGGGGGCAGGGGAGACCAGAATAGAGGAGAAG
ATGGGGAAGTGGTTGTCGTGGAGTGGGGCCAAAGGGGTGGGAATGGTAGAGTCCCTGGATAAAGCTGGTCCTAAGGAGAAAGAACAGAAGGGAGAAAGAT
AAGAATCCACTTGTCTAACACCCCTTGATCCCCTGGATGCTCAACAGGCTTCCAATACCTATTCCTCCTGACAGAATGGATGGAATTACTATAGGAAAAA
AGGGATGGATTCATCTCCATCTCTACTGAAAACAGGAGGAAACCATTTTATTTTATTATTTATTTTGAGATGGAGTCTCGCTCTGTTGCCAGGCTGGAGT
GCAGTAGCACGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCGCGCCA
CCATGCCCAGCTAGTTTTTGTATTTTTAGTAGAGACAGGATTTCACCATGTTAGCCAGGATGGTTTTCATCTCTTGACCTCGTGATCCACCCGCCTCTGC
CTCCTAAAGTGCTGGGATTACAGGCGTGGGCCACCGCGCCCAGCCGAGCAAACTGTTTTATGTGACATAAATACCGGCACCTCCCAAAACCTAGCAGACA
TTTTACTTTTTTTTCTTTTTTTGAGACGAAGTCTCACCGTCGCCCAGGCTGGAGTGCATTGGCGCGAACTCGGGTCACTGCAACCGCCGCCTCCTGGGTT
CAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCTTCACCACGCCCGGCTAATTTTTGTATTTTTAGTTACAGATGGGGTTTC
ACCATGTTGGCCAGGCTGTTCTCGAACTCCTGACCTCAGGTAATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCG
GCCCAGTGTTGGAATCTTAAAGAAATGTGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCCGAGGCGGGCGGATCACGAGGTCTA
GGAGTTCGAGACCAGCCTGGCCAATATGGTGACACCCCATCTCTACTAAAGATACAAAACAATTAGCCGGGTGTGGTGGCGGGAGCCTGTAGTCCCAGCT
ACTCGGGAGGCTGAGGAAGGAGAATTGCTTGAACCCAGGAGACGGAGATTGCAGTGAGCCGAGATGGTGCCAATGCACTTCAGCCTGGGTGACGGAGCAA
GACTCCATTTCAAAAAAAAAAAAAAAAAGATTCCAACACTGGGGGCAGTTTCACCTCTCTTATCGCAAGAATCATGTAATACATACTTGATGAGTTAACG
AATAACAGGTTTTATTGTACTGTGGATTAAATGCTGTGGCCTGTACATCTCCATGATTAAGTGTGCGAGGCAAATGTACAGAGAAAAAAGAATATCCAGC
TGAAGCTAGGAATCTGAATTCTATCATGTAACTTTAGGCATTCTCATTCCCTATGCCTCCGCTTCCTACAAATGTCCTATAAATGAGAACAATAAAGCCT
CACTGGGTTATGAGGCCTATATGAAATAATGAATGTAAACAAAACGTAGCGACCTAGAAAGCAGTACATAAATGGAAGCTATTATCATTTCGGGCCCCTC
TAATGACAGACACAACCTCAGGAGACAGTTAAAGGCTGGCCTTCACTCTCCTGGGTTTACCGACGTTGAAACTGCAAGGGGAGGTCACCCAAAGTTAGGC
CTCACCCGAGTCCCTCCGCTCCCAAGGAACCCCCCAGGGGATCGTCTCACTGCAGGGAAGGCGGGCGGACCGCTCGGGTACCTCGGTCCCCGATGGTGTC
CTAGAGGCGCCGTCTCTGCTGGGGGCGTGGCCATCTTGCCAGCCCGGGCGCAGGGGCCCGAACCGGGTGCACACTGGCCGGCCTTCCTGCCAGGACCGCT
CTCCGAGTGCAAGACGGGCGGGCTGCTGAGGGCGCCCCGCGGGTCTGGTCTGGGCCGGGGAACTCCGGGACGGCGCCGCAGCAGGGCTACGAATCTCTCG
GCCCCTGCCCTTCAAATCACCTCTAGGCACAGGTAACCGCGGAGAGTCGGGCGCAACGCAGACGCGCCCCGCTGCCTGGCCTTGACCCCGCCTGACCGCC
CTCAAACCTGGGAGGACCGACGTCCTTGCGCGACAGGCCCGGCAGCGCCTCCCTCCCGCTCCCGCGACCCCTAGCCTGTCCACGCGCTGCAGGGCACAGG
TGGGAAGGGGCGGCGGGTGTCTCTGCGCCTGCGCGGAACCCAGCGCGCGCTCCGCCCCACGCACCGGCTTTGAGGAGGGTCTCTCCCCGCCCCCTCTCCT
CCCTCCCTCTTCTCCTCCGCTCACCTGGGGTCGAGCCTGGTAGGCGCGCAGGCAAGGGCCGAGACGCCGGGCCGCACCCCGGCTGGGCTGGTACATGATC
TTCCGGGAGTGGAGAAGGAGCCTCCTGAGTCCGACCTCCGGCCTCCTCACAGGGGTGAGCGCGCCCCAGAGCCGGCTTCGTGAAGGGGAAAGGAGGCCGG
GGCGRGGGGGTAGGGGGGGAAGGGGCTGAGGGAGGGAAACGGAGATGTCCCGCGCTTGCGCACTGCAGGCTCGAGGGAAGCGGCTGAAGCGCTCTGTCGG
CTGTAAGCGCGCCTGCGCCCGCGGGCTCGGAGACTGCCTGAGTGCGCTTGCGCAAGTTACAGCCTCCCCYGCCCCCCCAAGCGCTGTATTCACAGCTGAG
GCCTTTGAGCAAAAAGCTGAGCAAAAACAGGGCTGAAGGCTGAATGGGTGCAACGACAGTGAGGGGTGAGGCGGCTGAAATAATGAGTCAAATTTTTCAA
CAGCTCTTGTGATAAAAATAAATACTTTTATTGGTCTGGTTAAAAGATACAAATGACTTGAATCTGATAAGCCTGCTGAATGAATGAATGAATGAATGTA
TCCATCTATTATGAGGGTTGGGCTTTGGCTCTTTCCTGTAGTGAGGGAGAAATAATACTTTGAAGATGTTTGACGGGGCTGCGGTCACCAAGGCCTGGTG
CTGCGACGTTCCTGCAGGTTTCGAATGAACCTGGCGTTGAGTATGTCCCCACCCACTGTCCAGGACTGGGCTGGCGGGGCCGGGGCCTGTGGAGGAGCTG
TGTGCATGGGCTTCTCCCCAGACCCATCCTGTGACAAGGCCTGCTC


SNP Information

Context             (SEQ ID NO:40719):
GTGGCCAAAAAACAAGGAGTTAAAGGACTATTTTCCTGCCTTTTTGTTAGTTTTTTTTTTTTTTTTTTGGAGACGGAGTCTTGCTCTGTCACCCAGGCTG
K
AGTGCAGTGGTGCGATCTTGGCTTACTGCAACCTCTGACTCCTGGGTTCAAGGAATTCTCCTGCGTCAGCCTTCAGAGTAGCTGGAATTACAGGCATGCG
Celera SNP ID:            hCV2436943
SNP Position Genomic:     14560
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40720):
TCAAGCATTTGTTTAAACGAGTAGTCCCTAAATTCTGCTACATATTAGATCACCTGGGCAACTTACAAACATCTCAGTGCTTAGGTTGTGCCCTGTCTCA
R
TTAAATCAGAGTGTTTGGCGTCAATATTTTTTAACGATCCTTGGGCATTTCTACTGTGCAGCAGTTTGGGAACTGCTGGTTTAAAAACTTATATCCAATG
Celera SNP ID:            hCV25933957
SNP Position Genomic:     26545
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,2)   caucasian(A,40)   total(A,68|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:40721):
ACCCTACACGACATAGCTAGGAGCCATGGGGAGGTTACAGGGAGACAGATTCCAACTCAATACCAATGGCTGAGTAACCCTCAGAGTGGTGGAGATTGCA
R
GGCCTGTCAGAGTGGTTGGACTCTGGGTCTTGGCCCTCCACACAAGTCTTGGGTAGCTTGGTCTGTGAATAATGAGCTCTTAGTGCTGGAAATGGCCAAG
Celera SNP ID:            hCV2436944
SNP Position Genomic:     16850
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40722):
TTTCTAGTAAGAGCAGCTGCTGAGTCTAAGCAGACTCTTGACTGAACTAGAGGGTATGGCTAACTTGTCCTGGCCTCAGTGTGCAGCCTCTACATCTTGT
Y
TCCTATTATCTGCTGAGGCTGGGATAGGTTGCAGATCATGGGGCCCTGGCCTTCTCTGACTTTCTGTTGCTCTACATAAGTGGGATGGCTGACTTCTCCT
Celera SNP ID:            hCV2436945
SNP Position Genomic:     18530
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,8)   caucasian(C,26|T,10)   total(C,42|T,18)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40723):
TTTGGATTGATCAAGGATGTTGCTCGCTTCCGACCTGAGCTCAAGGTCCTGGTGGCTTCAGCCACAATGGACACTGCCCGTTTTTCCACCTTCTTTGATG
R
CGCCCCTGTGTTTCGAATCCCCGGACGCAGGTTTCCTGTGGACATCTTCTACACCAAGGTGCCCCCTCAGGGAGGATGGGCTTAAGTCTGTGGCAGAAAA
Celera SNP ID:            hCV2436946
SNP Position Genomic:     18915
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(G,2|A,38)   total(G,2|A,76)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): (G,1|A,16)   total(G,1|A,16)Caucasian(G,27|A,281)   Chinese(G,0|A,60)   Japanese(G,0|A,20)   African(G,4|A,96)   total(G,31|A,457)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40724):
TTTATGCCAATCTGCCCTCTGACATGCAGGCCCGTATCTTCCAGCCCACACCACCTGGGGCACGAAAGGTCAGTTGGAGAAACCCACACTCTTCACCCCT
R
TGCTTCCCACAACTAGTAGTGAAAAAGCTGTGTGCCTGCCCCATGCAAGGTGAGTCCTGCGCACTGCTGCACACAGCTGAGGAGCAGCCAGTCCCTTGTT
Celera SNP ID:            hCV2436947
SNP Position Genomic:     19566
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,8)   caucasian(A,29|G,9)   total(A,53|G,17)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,12)      total(G,5|A,12) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40725):
TCCAGCCTGGGTGACAGTGCGAGACTCCATCTCAAAAAAGAAAAATGGCTGAGAAGTCATCAGAGGAAGGCCCAAGGTATGTTTGAGGTCAGAGTGTGAG
M
TAGTAGGCTTAGTGGGAGGTTCATGTGGTGAAGGAGTAGGAGACAAGGCTAAAAACAATTTGGGGCTAAGATTAGGGAGGGCCTTTGATGACAGGAAAGT
Celera SNP ID:            hCV2436948
SNP Position Genomic:     20168
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40726):
GGGAGTGGAGAAGGAGCCTCCTGAGTCCGACCTCCGGCCTCCTCACAGGGGTGAGCGCGCCCCAGAGCCGGCTTCGTGAAGGGGAAAGGAGGCCGGGGCG
R
GGGGGTAGGGGGGGAAGGGGCTGAGGGAGGGAAACGGAGATGTCCCGCGCTTGCGCACTGCAGGCTCGAGGGAAGCGGCTGAAGCGCTCTGTCGGCTGTA
Celera SNP ID:            hCV8942039
SNP Position Genomic:     31905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40727):
TGACCATACACATAAGGATCTAGGTTGGGGCTGGGCATAGTGGCTCATTTTTGTAAACCATCCCAGCACTTTGGGAGGCCAAGGCAGGATCCTAGCACTT
Y
GGGAGGCCAAGATCAGCCCAGGCAACATAGTGAGACCCCAACTATACAAAAAATTAATGGTGCACTGTGATGTGTGCCTGTAGTCTCAGCTACTTGGGAG
Celera SNP ID:            hCV25606211
SNP Position Genomic:     25408
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,34)   total(C,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:40728):
CCTCCCTCTTTGAGCAACAGCCACGCTGGCTGCTCTACCACGAACTTGTCTTGACCACCAAAGAGTTCATGAGACAGGTGAGGAGAACATCCTGTGCCCA
Y
GCAGGTGGAGACTATGTAGAGAGATGGTGTCCTGGCAAGCTAAGAACCCAGGTTCAAGTTGCTGGGACTGGTACAGAAAGAGGAAGGTAGGGTAAAATAG
Celera SNP ID:            hCV25606212
SNP Position Genomic:     24323
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,3)   caucasian(C,36)   total(C,53|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:40729):
TCTCCTTCATTTCCTAGGTCACTGCCCCTTTGTTTACAGCTCCTGCCTCCTCCCTTGACCACAGCCTGGTTTACAAATTCCATCAGCTCCCAGCCCCACC
Y
GCCAAAGTCCCAGGTTTACAAGCCACGCTTACTTGCTGTGTCTGCGTGGAATTCTCTCCTCTGTCCCCTCCAGTCTCCTCATTGGAGTGACCTGAAGGTG
Celera SNP ID:            hCV15877369
SNP Position Genomic:     2261
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(C,1|T,31)   total(C,3|T,67)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(C,235|T,1260)   total(C,235|T,1260)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:40730):
CTTTAGTCCTGCTGTATACTTAATTATCTCTCCTTTCTTTTTAACTGTCTTCCCAGTGGGCTGAGAGTGGTTACTCTTCCCAGTGGTGCTATGAGAACTT
Y
GTACAGTTCAGATCGATGCGCCGAGCCCGGGATGTGCGGGAACAGCTGGAAGGGCTCTTGGAACGTGTGGAAGTTGGTCTCAGTTCCTGCCAGGGGGACT
Celera SNP ID:            hCV25606213
SNP Position Genomic:     23713
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,2|T,38)   total(C,2|T,74)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40731):
TCCCCATGCTAAGAAAATGCCCAAAAAAATAGGCAAAACACGAGAAGAGCTAGGGTAAGAGAAGGACGTAAACAGAACCTGACACCAGCTCCTTTTCCTT
R
TATACATTATTTAATACCTATTAAATAAAATTATTTTTGGAATAAAGCTTGTGGGAACATTTGGGATCTAGAGAAAGTGATATGTGAAATTCTATCTCAT
Celera SNP ID:            hCV8692892
SNP Position Genomic:     25837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40732):
GGCCTAGGGAGCCAAGATCAGAAGACAAAAGGAAAGACTTTCTGATAGAGTGTATAGGGAGAGAGGATACAGAGGAAGCACAGTGTGGATGCTGATGGGG
K
GGTCAGGTTTCTAGAAGAGGGGCTTGGTTGTTAGGAGCCAGCTGAGGATAGACTTATGTTGTTGAGGGAAGGATCCTTCTTAAGTTGTAGGGGGAAGGAG
Celera SNP ID:            hCV25757017
SNP Position Genomic:     8710
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(G,1|T,39)   total(G,1|T,73)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40733):
GAGTGTGAAGGCATCAGCTGCAGGGAGAAAGGTTAATGCCAGTTGGGGGAGGCACACAAATGTTCTACCCTTTACCCCACCCAGCCCTACCTAGGACTCA
K
TTTATCTAGACGATGGCGACAAATGAGGCCACTGGAATTCAGGTAGAAAGTGGAGTAGGCATCATAGGTCCTGGGGAATAGAGGGAGGCTTACTGAGGGA
Celera SNP ID:            hCV8692893
SNP Position Genomic:     26318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;ACCEPTOR SPLICE SITE;DONOR SPLICE SITE;hmCS


Context             (SEQ ID NO:40734):
ATAACTTTTGACCATACACATAAGGATCTAGGTTGGGGCTGGGCATAGTGGCTCATTTTTGTAAACCATCCCAGCACTTTGGGAGGCCAAGGCAGGATCC
K
AGCACTTTGGGAGGCCAAGATCAGCCCAGGCAACATAGTGAGACCCCAACTATACAAAAAATTAATGGTGCACTGTGATGTGTGCCTGTAGTCTCAGCTA
Celera SNP ID:            hCV16141208
SNP Position Genomic:     25400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40735):
AACCGGGATGAGCAGTTTGCATCCTTCCAGATTTCTTGCATAAATACTGCCTTTTTCTTTTCCCTGACCAAATTGTCAGCCAGCCTGTTCCCCTTTCTTT
M
CAGGCCTCAGCCAATCAGCGAGCTGGCAGGGCAGGTCGGGTGGCTGCAGGGAAGTGCTTCCGCCTGTATACCGCCTGGGCCTATCAGCACGAGCTTGAGG
Celera SNP ID:            hCV25606217
SNP Position Genomic:     22242
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,40)   total(A,1|C,73)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:40736):
GCACAGTGTGGATGCTGATGGGGTGGTCAGGTTTCTAGAAGAGGGGCTTGGTTGTTAGGAGCCAGCTGAGGATAGACTTATGTTGTTGAGGGAAGGATCC
Y
TCTTAAGTTGTAGGGGGAAGGAGGCTACCCATAAGTCCTCCTTGACTCTTAACTTTAGGATCAAATATACTCTATTAGTGAATGAAATTGTGAGCTTTCC
Celera SNP ID:            hCV15963164
SNP Position Genomic:     8787
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(C,1|T,39)   total(C,3|T,71)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,236|T,1257)   total(C,236|T,1257) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40737):
CTCCAAAATCCGGGAGCTCCTGGTGCTGCCCATTTATGCCAATCTGCCCTCTGACATGCAGGCCCGTATCTTCCAGCCCACACCACCTGGGGCACGAAAG
M
TCAGTTGGAGAAACCCACACTCTTCACCCCTATGCTTCCCACAACTAGTAGTGAAAAAGCTGTGTGCCTGCCCCATGCAAGGTGAGTCCTGCGCACTGCT
Celera SNP ID:            hCV25606218
SNP Position Genomic:     19534
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,40)   total(A,1|C,75)
SNP Type:                 DONOR SPLICE SITE;TFBS;hmCS


Context             (SEQ ID NO:40738):
TCCGCGGTACGGGAAGACAGCTTTGGGATGTCGGAAGATCCTAGAGGTCCCAAGGTAGCTGACTTGCGAAGCTGAGGCTCCAGCCGAGGGCTCCAGGCCT
S
TGACCGGCCCAGCAGTGAGCGCGGCTGCCCGACGCTTCAGGGCCGGGAGCAGGGAGCGTGAGTCGCCATGGCGACGCCGGCGGGTCTGGAGCGCTGGGTT
Celera SNP ID:            hCV15963165
SNP Position Genomic:     6099
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,138|C,1359)   total(G,138|C,1359) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:40739):
CCCCTCCAGTCTCCTCATTGGAGTGACCTGAAGGTGTGGCTTCCTCCACTTTTTCTCAGTATTACTTTGCCTTAGTTTTCCCCAAGAGGGAAGGCTGGAA
M
TCTTAACTCTGTACCCCTTGATAGTTATTTAATTCTGTTTCTCCTAGTGGTTCACAATTGAACTGAATTGAGATGGTGTCGGGTGGCTAAGGAGACACCT
Celera SNP ID:            hCV27840284
SNP Position Genomic:     2426
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(A,1|C,31)   total(A,3|C,67)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40740):
TGGTCCCAAAGCTGAATTCAAGCATTTGTTTAAACGAGTAGTCCCTAAATTCTGCTACATATTAGATCACCTGGGCAACTTACAAACATCTCAGTGCTTA
R
GTTGTGCCCTGTCTCAATTAAATCAGAGTGTTTGGCGTCAATATTTTTTAACGATCCTTGGGCATTTCTACTGTGCAGCAGTTTGGGAACTGCTGGTTTA
Celera SNP ID:            hCV11196668
SNP Position Genomic:     26528
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40741):
GCGGAAATTTACCAGGTTGTAAGGCTCAACATATGAGACAGGACTTTTCATTTGTTCAGTACTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
ACAGGGTTTCACTCTGTCACCCAGGCTGGAGTCCAGTAATGTGATCACGGCTCACTGCAACCTCAACCTCCCAGGTTGAAGTGATTCTCTCATCTCAGCC
Celera SNP ID:            hCV26546010
SNP Position Genomic:     26788
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40742):
GGCGGAAATTTACCAGGTTGTAAGGCTCAACATATGAGACAGGACTTTTCATTTGTTCAGTACTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GACAGGGTTTCACTCTGTCACCCAGGCTGGAGTCCAGTAATGTGATCACGGCTCACTGCAACCTCAACCTCCCAGGTTGAAGTGATTCTCTCATCTCAGC
Celera SNP ID:            hCV26546011
SNP Position Genomic:     26787
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40743):
AGGCGGAAATTTACCAGGTTGTAAGGCTCAACATATGAGACAGGACTTTTCATTTGTTCAGTACTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGACAGGGTTTCACTCTGTCACCCAGGCTGGAGTCCAGTAATGTGATCACGGCTCACTGCAACCTCAACCTCCCAGGTTGAAGTGATTCTCTCATCTCAG
Celera SNP ID:            hCV26546012
SNP Position Genomic:     26786
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40744):
CAGGCGGAAATTTACCAGGTTGTAAGGCTCAACATATGAGACAGGACTTTTCATTTGTTCAGTACTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GTGACAGGGTTTCACTCTGTCACCCAGGCTGGAGTCCAGTAATGTGATCACGGCTCACTGCAACCTCAACCTCCCAGGTTGAAGTGATTCTCTCATCTCA
Celera SNP ID:            hCV26546013
SNP Position Genomic:     26785
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40745):
AGAGGCAGGCGGATCACGAGGTAAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAAATATAAAAAATTAGCTGGGCGTGG
K
GGCGGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACGCAACCCAGGAGGCGGAGCTTGCGGTGAGCCGAGATCGTGCCA
Celera SNP ID:            hCV26546016
SNP Position Genomic:     17770
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40746):
GTGCTTAGAGGCCGAAAAAGTACAGCCCCTTCCGGGCTCCGCGGTACGGGAAGACAGCTTTGGGATGTCGGAAGATCCTAGAGGTCCCAAGGTAGCTGAC
Y
TGCGAAGCTGAGGCTCCAGCCGAGGGCTCCAGGCCTCTGACCGGCCCAGCAGTGAGCGCGGCTGCCCGACGCTTCAGGGCCGGGAGCAGGGAGCGTGAGT
Celera SNP ID:            hCV26546034
SNP Position Genomic:     6062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:40747):
CAGAATTAGAAAACCAAACTGGCTTCTAAGGAATGGGGAACAGCTGTGAGAAGCAGTCTAGGAACTTCTCTGGGAAGTGAAAAGGGTCATGTATATACCT
Y
TGGGTGCTTTTCCTCCCCAGTGCCCTACCTGTGCCCCAATTCTCACTTGGTACGTATGTTGAGGATCTCATTGATGAATTCCACATCCAAGGAATACAGA
Celera SNP ID:            hCV25966128
SNP Position Genomic:     27899
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,4|T,36)   total(C,4|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:40748):
CCCTTCAATTTGTGTGGGGGGGAAGGGTGGGCAGAAGGCAGAGGCTCTCACTCATTCTCTAACATTATTGCCCCCTCTCCCACAGATGAGTCCTGCCGGC
R
GTGACCATCTTCCAACATAGGGATATACCTCCCTCCTTCTTATAACTGAAGATCCTGGAGCCCGGAAGATTCAGGGCAGACAGACCCTGATAATGAGCCT
Celera SNP ID:            hCV25972654
SNP Position Genomic:     1735
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40749):
ATCTCGCCCGGGAGTACCGGGCAGCTGGGGAGCAGGAGAAGCTGGAGGCCACCAATCGCTACCACATGCCCAAGGAAACCCGAGGACAGGTGAGGTGAAG
Y
GGCGTCTGCTTCAGCCTTGGTCCCCAAGACAAGTTGTGGGGAAGGCTTCAGGGGATTGGGCAACACGTGGGTCATCCCCTTTCTTGCCTTGCCGTTCCCA
Celera SNP ID:            hCV25606200
SNP Position Genomic:     13538
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:40750):
AAGAACATCTAACTGGGGCTGAAGATTGCCTCCTGTTGGCCCCCTCACTGGTTTCTATCTTTGTCTGAATTGTTTTCGGTTTGAGTCCTGTGCTTCTAAA
Y
GCTGGATTAGCCTTTTATTTTCCCCCTTTCCACTAATTTGAATAAAATGGCAAGAGTAAAATATAAGCTACGCAGACATCTCCCTAGTGCATCTATATTA
Celera SNP ID:            hCV27452366
SNP Position Genomic:     12907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40751):
ACTCTGGAACAAGGTGTCGGCAGGGGTGGGGAGGGGCCCTGTGATTTGTCCCGGTGAGGCTGGCCTAACGGTCCATCGAGAAGTTAAGAAAGCTCAGTTC
R
CAAGCACTTATTCTTTGTCCGTTGTCGCGTAGGTACTGTGCTAGCTGCTGGACGCCCAGCTCAGTGGAGAAGATTGAGGAGGGCTTAGGTGTGTCGGGTT
Celera SNP ID:            hCV25606204
SNP Position Genomic:     6461
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,38)   total(A,74|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:40752):
ATCTCAGTGGGCCGGCCCGGGACTTCGCCCTGAGACTCTGGAACAAGGTGTCGGCAGGGGTGGGGAGGGGCCCTGTGATTTGTCCCGGTGAGGCTGGCCT
M
ACGGTCCATCGAGAAGTTAAGAAAGCTCAGTTCACAAGCACTTATTCTTTGTCCGTTGTCGCGTAGGTACTGTGCTAGCTGCTGGACGCCCAGCTCAGTG
Celera SNP ID:            hCV25606205
SNP Position Genomic:     6427
SNP Source:               Applera
Population(Allele,Count): african american(A,36|C,2)   caucasian(A,40)   total(A,76|C,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40753):
TGCCTTTTTGACTCTTCAGAGGCTGTGAATTTCTGGTCTTGGAAGATCACAGTGGAGCAATTGGACAGATAGGATTTTATCCTTCATATCCCTTGCAAAA
R
ATCTCTAAGAACCCATGGAGAGCCAGCCAGCGCAAGAGTGTCTGATGCAGATGTTTTTGCCCATCGAGCCAGCCTGCTTTGTGGAATGGCTGGGGACTTC
Celera SNP ID:            hCV8692883
SNP Position Genomic:     17134
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,14)      total(G,14|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:40754):
TGAAGGGACTCTGTTCCATCCATCACACCTCTTTCTAGGGATCCATGACCTAATGCACTTTGATTTCCTGGACCCTCCACCATATGAGACACTGCTGCTG
Y
CTTTGGAGCAGCTGTATGCTCTGGGAGCCCTCAACCACCTTGGGGAGCTCACCACGGTGAGTCGGGGGACAGCATGGGTGGAGGCAGGATGATAGGGGTC
Celera SNP ID:            hCV8692884
SNP Position Genomic:     22558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40755):
AGCTGCACTCGGTGTTGGGGCTGAGCGAGCGGCACGTCGCCCAGTTTCTGATCGGTACCGCACAGCGCTGCACCTCTGCCGAGGAGTTCGTGCAGCGCCT
Y
CGAGACACTGATACCTTGGATCTCAGTGGGCCGGCCCGGGACTTCGCCCTGAGACTCTGGAACAAGGTGTCGGCAGGGGTGGGGAGGGGCCCTGTGATTT
Celera SNP ID:            hCV25606206
SNP Position Genomic:     6307
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40756):
AAGAGCAGCTGCTGAGTCTAAGCAGACTCTTGACTGAACTAGAGGGTATGGCTAACTTGTCCTGGCCTCAGTGTGCAGCCTCTACATCTTGTCTCCTATT
R
TCTGCTGAGGCTGGGATAGGTTGCAGATCATGGGGCCCTGGCCTTCTCTGACTTTCTGTTGCTCTACATAAGTGGGATGGCTGACTTCTCCTTAGAGCCC
Celera SNP ID:            hCV25758675
SNP Position Genomic:     18538
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,1)   caucasian(A,27|G,1)   total(A,52|G,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40757):
GGACCCTCCACCATATGAGACACTGCTGCTGGCTTTGGAGCAGCTGTATGCTCTGGGAGCCCTCAACCACCTTGGGGAGCTCACCACGGTGAGTCGGGGG
R
CAGCATGGGTGGAGGCAGGATGATAGGGGTCAGGATGGCTCCAGGGACCCCTGTAGTAGTAGCGGGAAACCTGAGGGAGGACTGGGCTCAACTCTCTCTC
Celera SNP ID:            hCV8692885
SNP Position Genomic:     22627
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,8)   caucasian(A,36|G,2)   total(A,62|G,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,295|A,1206)   total(G,295|A,1206)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40758):
GGGTCTGTGACTCAGTCTACAGTTCCCTCAGGTCCCTACAGCAGAAGTCTTGGTGCTGCCCCACTTCACCTTTCCCCAAGTTCCTTTCAGGGCACACCAG
S
CCACACTTGGTTGCTAATGGTTCCCTTGACCAGGTTGGCTACAGCATCCGCTTTGAGGACTGCACATCAGAGCGAACTGTCCTCCGCTACATGACAGATG
Celera SNP ID:            hCV15963154
SNP Position Genomic:     16229
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,78|C,1413)   total(G,78|C,1413) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40759):
ACATCATTTTCTCAGGAAAATGTTTATAATATATTTCTATGCCTGCCTCATGGTTCCAAAAAAGAATCCAGTTGACTATCCCTGTACGTCCAAGGATTAC
S
CACATCCTTCCCACTGTAGACGAAGGCCACTTTTGCACTGACTTACCTCTTGTCTCAGTCTCTCATACATGACAGACAGATGTTCCTCCATACTAGGATC
Celera SNP ID:            hCV25956674
SNP Position Genomic:     29022
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,3)   caucasian(C,40)   total(C,73|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:40760):
ACCGGTAATGCTCGTCTTTGTCACGCTTGTAGAACCGCAAAAAGAGCAAGTGGACGGGCAGCCCCACAAGCCGCCACCGGGCTTGCAGGGTCCAGTTCTC
K
GGGTGGCGGGTCAGCTGTAAAACCTCCAAACGAAGGTGTGCAAAATAATTCCAGGCCAGGAAACGGCAGAGGGTCAGTGAAAGAATGTACCATGTCCGGC
Celera SNP ID:            hCV25967832
SNP Position Genomic:     27660
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,38)   total(G,1|T,75)
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40761):
CTCTACATAAGTGGGATGGCTGACTTCTCCTTAGAGCCCCCTCCGTCAACAGTCATTCTTGAACTCTTTGTGTCCATTACTCCCCTCTCATCCAGTTAAC
Y
CTGGTGTCTGATACTGCATTGCCTAGCGCTCTTCCCTCATTGCTCTCCTATTCCCTCCCCAGCGTGGTGATGGTGGATGAGGCACACGAAAGGACCCTAC
Celera SNP ID:            hCV25606192
SNP Position Genomic:     18700
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,37|T,3)   total(C,72|T,4)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40762):
TTATCTGCTGAGGCTGGGATAGGTTGCAGATCATGGGGCCCTGGCCTTCTCTGACTTTCTGTTGCTCTACATAAGTGGGATGGCTGACTTCTCCTTAGAG
Y
CCCCTCCGTCAACAGTCATTCTTGAACTCTTTGTGTCCATTACTCCCCTCTCATCCAGTTAACCCTGGTGTCTGATACTGCATTGCCTAGCGCTCTTCCC
Celera SNP ID:            hCV25606193
SNP Position Genomic:     18636
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:40763):
ACCCACTTCAACTCAGGCCCAGCAGAAAGAGTCCATCCAGGCCGTCCGCCGCAGCCTCCCGGTGTTCCCATTTCGAGAGGAGCTCCTGGCTGCTATTGCA
Y
ATCACCAAGTCCTCATCATTGAAGGCGAGACAGGCTCAGGGAAGACCACCCAGATCCCGCAGTATCTCTTTGAGGAGGTACAGTCATCTCACCCTTCAGC
Celera SNP ID:            hCV25606194
SNP Position Genomic:     14127
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,37)   total(C,1|T,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40764):
GCTACATATTAGATCACCTGGGCAACTTACAAACATCTCAGTGCTTAGGTTGTGCCCTGTCTCAATTAAATCAGAGTGTTTGGCGTCAATATTTTTTAAC
R
ATCCTTGGGCATTTCTACTGTGCAGCAGTTTGGGAACTGCTGGTTTAAAAACTTATATCCAATGTTTGTGGCTGAGTCTAACAATTTATTGGGATTCTAC
Celera SNP ID:            hCV25934011
SNP Position Genomic:     26581
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(A,3|G,37)   total(A,5|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:40765):
AGCTCCAGGGTGATGAGGTAAGAGGGGAGCTGGGAGACTTTCTGAGGAAGACCCGTAGCGAGCTATTTAGCTCACACCTCCTTCTCTTTCCTTAGGAGCC
Y
TCAGCTCCACCCACTTCAACTCAGGCCCAGCAGAAAGAGTCCATCCAGGCCGTCCGCCGCAGCCTCCCGGTGTTCCCATTTCGAGAGGAGCTCCTGGCTG
Celera SNP ID:            hCV25606198
SNP Position Genomic:     14018
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,38)   total(C,72|T,2)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40766):
ATCAGGAGCCCCTGGGGAGGAGCAGCGGCGCTGGGAGGAGGCGCGGCTTGGGGCAGCGTCCCTGAAGTTTGGGGCCCGAGATGCTGCCTCTCAGGAGCCC
Y
AGTATCAACTGGTGCTGGAGGAGGAGGAGACCATTGAGTTTGTCCGGGCCACTCAGCTCCAGGGTGATGAGGTAAGAGGGGAGCTGGGAGACTTTCTGAG
Celera SNP ID:            hCV25606199
SNP Position Genomic:     13863
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40767):
ATCTGAGGAGTTTGAGACCAGCCTGGGCAACATGATGAAACCCCGTCTCTACTAAAATACAAAAAATTAGCTGGACGTGGTGGCACGCACCTGTAGTCCC
R
CCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGCTGCAGTGAGCCAAGATCACGCCACTGCATTCCAGCCTGGGCGACAGAG
Celera SNP ID:            hCV2436940
SNP Position Genomic:     4167
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40768):
CTCGAGGGAAGCGGCTGAAGCGCTCTGTCGGCTGTAAGCGCGCCTGCGCCCGCGGGCTCGGAGACTGCCTGAGTGCGCTTGCGCAAGTTACAGCCTCCCC
Y
GCCCCCCCAAGCGCTGTATTCACAGCTGAGGCCTTTGAGCAAAAAGCTGAGCAAAAACAGGGCTGAAGGCTGAATGGGTGCAACGACAGTGAGGGGTGAG
Celera SNP ID:            hCV26546009
SNP Position Genomic:     32070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40769):
ACAGCTGTGAGAAGCAGTCTAGGAACTTCTCTGGGAAGTGAAAAGGGTCATGTATATACCTTTGGGTGCTTTTCCTCCCCAGTGCCCTACCTGTGCCCCA
Y
TTCTCACTTGGTACGTATGTTGAGGATCTCATTGATGAATTCCACATCCAAGGAATACAGACTGTAGTCGTGGGACTGAAGGAAGAGCTTGGGAAGCTAG
Celera SNP ID:            hCV25966047
SNP Position Genomic:     27938
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(C,1|T,39)   total(C,3|T,75)
SNP Type:                 ACCEPTOR SPLICE SITE;INTRON;hmCS


Context             (SEQ ID NO:40770):
TAAGCGGCGAGTGCGGGATCTCGCCCGGGAGTACCGGGCAGCTGGGGAGCAGGAGAAGCTGGAGGCCACCAATCGCTACCACATGCCCAAGGAAACCCGA
R
GACAGGTGAGGTGAAGCGGCGTCTGCTTCAGCCTTGGTCCCCAAGACAAGTTGTGGGGAAGGCTTCAGGGGATTGGGCAACACGTGGGTCATCCCCTTTC
Celera SNP ID:            hCV26546026
SNP Position Genomic:     13521
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Gene Number:                 192
Celera Gene:                 hCG26604 - 104000117072315
Gene Symbol:                 DUSP6
Protein Name:                dual specificity phosphatase 6;MKP-3;MKP3;PYST1
Celera Genomic Axis:         GA_x5YUV32W46Y(37030530..37048571)
Chromosome:                  Chr12
OMIM number:                 602748
OMIM Information:            DUAL-SPECIFICITY PHOSPHATASE 6;DUSP6


Genomic Sequence (SEQ ID NO:12352):
CAACCTGGTAGGCGGAAGTTGTAGTGAGCCGAGATCGTGCCACTGCACTCCACCCTGGTGACAGAGTGAGACTGTCTCAAAGAAAAAAAAAAGAATTGTG
TGTATATGTGTGTGTGTGTGTGTAACAATAAAAACAGGTAGCAATCAATGAGTTATTGTTCTAGGACTGTTTCTACCCACTTTACAAATATAAATCATTG
ATTGCAATAGCTCTGTGATAGAGTATTCCCATTTTACAGATAAGGAAACTGAGACATGGGGAGATGAAATGGTTTCCCTGAGTCATAGGGCCAGAAAGTA
GGTAAGCCAGGATTAGAATCCAGGTTGGGCTGATTCCACAAGTCCTAGTCTTGACTAGCAAGATAAAGTGTAACAAATTATGTAGAAGCTATCATGGTAT
ACCAGGTTGAATTCATTCAGGGCCACTCATCAGGTTGGCAGCAGTGTGTATGTACTAAGGAGCTTTGAAGGGACTGAGATGCAAGTTTGGATTCCAGCAT
AAATTACCTGACATTAGAGCTCAGGCTTCCCCACCTTAAAGTTGTGATAATGGTATACCTGTTTTGCAAGGTTATCACAATGGTTAGATTTAACCCGTAC
AATGGTTGGTGTAGAATAAGTTGTAGCCACTATGTTGTTATTTCATGATATGTCCAGATATAACTTTTATAATGAACCCACCAACAGCCTTAAGCAGTGT
TGTTTAGACTGGAGTTTGGGGCTCCCWAGGGTTCTATTAATATATTCTTGGGGGATCTGCAAGTTCTTAAAGTTTGAAAAACTGAGCTAAAGCATTCCTG
TATTGTGGACACACACAGTTACTTCCACTGATTTCTGAAGCAAAAATAGGGTGGCAGGAAATAGTACCCACTTAGGAAAATAATGAGTTCTCTTACACAA
CAGCTATATGTACTACTCACACCTGCGTAAATAAAGCAACACAAGATGGAGAGAAAAGTCACCAGAGGAAACAGCCCACACAGGGAGGCTCACGGCAAAT
ATTCCACATGAAGATGCAACATGGATAATGCCCGACACCACACATGTGGTGCTTCATGACACGACATGAGAAGGTTTTGGAGAGCTGAATACATATAGTC
TCTCACTTACCTGGCTGGCAATGTAAGCTATACTTTCCCACTAAGGATCATCGCTGGGGCTTTCAAAATAGTACAACGGGAAACAAGGTACCGTCAACTC
CTTTCCAAAAGAAGGTAAATGCGCTTACTCAGAAATGTACTGCAGAAATGCCAACGTCATGAGTTTCTTATATATACATTTATATATGCTTTTTACATTT
CCTGCTTTGTAAAAATAAAGGATAAGGAAGAAGAATCAATGAATATTTTCCCAGTGGAAGGCATGGAATTAAAACATCTGAAATAAAAAATTAACATTGC
TATCTTTTAATGAATTTCTTTGCTAGAGACCGTCTAGCTTTTAAAAAAATTCTAGATAAAGTCTCTACAGGAGCCTGAATGTAAATTAATTTGTCTTTCA
TCAGATGACGGGAAACAGAAATGCAAGAAAGCTGACGAAGACCGTAATTTTTAAAAGCTTAGCCAAATTGGCTAAGGTCTGAATTTCACAATAGTTCATG
TTTTTCTTCAGGTGGTATCATCCTGGCAATGCGTGAATGTGCCATCTCGTTCATGGGGAAGCTCCAATCTCCCCCTAGATATGCTTGTGGGTGTGATTCT
GGTGTTGCTGTCCAGCTACCTCTGCCTTGAGGTCTAACCTAGCCTGCCTTTCCCCTTCCCCCGCATTGTTTGGAGAAATCATTAACCCGTGCTCAATAAG
CCCTTGCAGCTCCTCATCATGGGGCAAGCTGCACGGAGCTTCCACGTGAGAAGCAGTTTGATTGCAAACCTGGATCTGCAATTCCCAGGGGCTGCCCTCA
TGGAATTTTAATTGGGGGCTATTTGAAATTCCCTTTGGCTTTCTCACAGCCTATCACTGCCTATAAGTCATGTTACCTACTGTCAGTTCCTTAGGCTTCT
TGTGTTTCTCGGTTGCTACTGTTGTGGTACAACTTCTTGGTATCTTTTAAAAGCACTCATCAGAAGACCTTAGGGACAGTTTTGTGCAACCCATATACAT
TTTACATTAAGCCATACTATTTCAGGTGTATCCTTCAAATACAGTTAAATTCAGTTTTGAAGTTTTAGCTGCACTGAAAGCCACTGTCACTTTGAGGGCC
TACCTGGGACCCCTAAATGCATTTACATTTTAAGTCAGAACTTCCAAAACTCTCCTTATTTGCTGAAAATCTGTTTAACTGTTTTCACATGATGTGTTAA
TAAATGTCATTGTATTCACAGAGATTATTCCAAGAAGATTAAAGGTCATGCTAGCCCATTTGCATCTTATAAATCTCAAGTGCCCTCAAACTCAGGAAAA
TTCCTGCAAAAGTGGAATGTTTCTCAAATGGCCTAGAGAAAATTTTATAACCAAAATACACTGCTTTAAAAATTTTTTTTTTTTAACTAACAATTTTTAA
GGAACTTTCCAGGGGGAAACACCAGGAGGAATTCAAGCACAAGCACAGGTGCTCGGTGCACACATACATACACACACACACACACACACACACACAGAGG
AAGAAACAAGAATCTATGAAAGTGCTTCTCTGCACTCATGAGAATGGATCACAGATGATCTGCTATCTCCAATTTTTAAATACAGACCTCTTCATATGAA
TGATATCCTCTGAAGGGCACTGAGGCCTCTGGAATTAAGGAAGCCTGTAATTCTTCCAACTACTACAGCCCTTATCTCCTAAGAGAGCTTTTCCTCAGTG
CCTCACAGGAATGGCAATATCACCACCAACAGCATTCCTTATGCAGGAATGAAGTGGTGATATTTTAAAAATCATCTTCTGAATACCGACTTTGTGCCCT
ACACTTCTCGTGTGTCATCTCAGTTGTGTCTAATCCTCACAGTCCTTTGAGGGAGGAATATATATTCCCAATGTTACACACTTCCGAATTCCTTTTCTTG
CTTTTTCTCTATAGCGCTTTCACTTTCTAATATATAATTATTTGTTTTGTTAATTGGACTGTCCTCATTAGAATGTAAACTTCAGTGAGGCAGGTTATTG
TTGTCTGTTTATTCTCTACTGCTTTCCTGGAATCTAGAATAAATGCATCAATGAATGAATGAAGTGAGGCCCAGACTACTACTGAGTGACAGAGGTTTGA
ACCTAGGCTTATGTGCTGTGCTGACGCACTAGATAACCAATGACACTTGTGAAGATTAGGATCTAGGGCATATTCTAAGAGAGATAAAATATGCAACATT
TAGTGAATGTTTGACTGATGAAGGGTTGCGTGCAAAGAAAACCACTGGTGTGTAAAAGGAGCAGGGAAAGCAGCCTCGCTTTTGATCTTTGACATGGAGG
ATGCAACAGAAAACGTGAGGCTGGAGAAAGCCTGGAGGTCAAAATTCAAAATGCTGACCTTGAAATTCTTCACATGTGGGCAGGGAATACCACGTGGAGG
TGAATATAGTGTCCATAACACTCTATGTAATCCGTGCATGTGGGCATCCTTAAGAGTCTGTAAAGGGTTTGGCCTCACGTCTTGACACTCTGTTGCTACT
GTGTGCCCTTGGGCAAATTCTTTAATCTTTGTAAATGGGATAATTTACATGTTTTTTCTGAAGACTGTCCGAAATTATGCAAGTAAACACAGAAACAAGA
CGGTACCCATCATGCAGTTAAGTGCCCAATATGCATTGTTGTATCAGTTTGCTGTGGCTGGAGAACAGCGTGTTCCAAAGGTGACCAGTAGGGAGAAATC
AGAAATGTAGCTGGGTCCATTCTGATAACTGTGCTAAAGGATTTTTGATCCTGGTCTACGATAACACCCCCTTTACTTGACAGCTGAATTGGAACGGATT
AAATCGGTTAGGGTAGTATCTCAGAGGGCTTTGCTGCAGATGAGCGAGTCCAGGCGGGCTGTCAAGCGAGCCTCAAGGGGCATCTGTGGGATGCCCAAAC
CGTGTCCCCAAGCCGAGGCCTTTTTACAGGTCCTCAATTCAGAATGAAAAATTAATTCCAACGGCTAATAGCACCCCACCACCACTTTAGGACGTTTCAC
CGTACCCATTTTGTCGTCACAGGGACCCTATGAAGCAGATAGTTTTATCTTCGTTATGCCGACGTGGAAGACTGCAACTTAGAACGGCTAAATGATTTAA
CTAAGGGCGCTTACCTAGGAAGAAGCGGGGGACATAATGCAAACGAGGGCCGTCYCACTCCAGAAGCCCTTTTCGCAGCATTTCTAGTACTGAGCAGTCA
GAACGCCACTTTAATCAATGCGCCAGGAAACACTGGCATTCCCTTGGCGATAAAGTTCAGAAGCATGGGTAAAACTACAGTTTCGATGTATCCTCCCGAA
TCTATAGTCATACTCAAGTAGCTGCGTATTAAAACAGGCAAAGTAGAAACCCAACTTCCCTCCCTTTCTCTTCTGTTGGAGGTCCTGTGCTGAACCTCCA
ACAGGTTTGCTCTTCTCAGTTCCGCTGAAGGGCATCCTGCCTCTTCCCTCCCTGTCCCCAGGTCCCAATGACTGAAACGTCTCGGGGTGGGAACTTCTGT
GACAGATCGTGGAGGACAGGGGGAGTCAACTCCAGCGCAGGCCTCCCCCGGCTGAAACTAGAAGATACCCARTGAAATATACGAGTTTTGTTCCAAGGAC
TGCCCAAAAATGGTGCGGAGAGGAGCTCGGCAATCCCCACCTTTGTCGAACACGCTCCTCCAGGGGCGGCCTGCCTGAAGCAGAGCTCCAAAATTGGCAA
CCTAGGCSTCGCAGCCGCCTTTTTTTAGCCTACATTTCCCAAACCAGGGAAGAGGCGGGTGACTAAAAATGCAAATTGCAGCGGGGGTGTTAGCAGGCAT
GCCCGTGGGTGCGGGGCGTCGGGCGAAGGGAGACCCCGCGACCTTAGGCGCCCTCGCGGTGTTCACGGTAGGCGCAAAGCGCAGCAAGGGACACTCCCCA
AAGCCGCACCCCGCCGGACGGCTGCCCCCGCTTCCGCCTCTCAGGCAGCGGTGGGACAAAGCGCGGCCTCTTTTCCGCCGGGGTTTAGGGAGGGAAGGCC
GGATTAGGGCCCGCGCCTTCCGGCTGCATCCCTCTCGCGCCGCGCCGGCCGCACACAGGTGGTTTTCCGCTCRGGAGGGGCAGGCTTCGGCACTTTTATA
TAACAATAGAGCTCTGCGCGCCGGGAACGCGCCTCCCCGCCGCCGCGGCCCCCACCCGGCCACGCCTCCATCCGGCTTCCAATCCGTCCGCCCCGCGGCG
CCTGGGCCGAGTGCTGCTCGCTGGCCTGGCCCGCACCTCCCCAAAGTTACCTGCTGGCTTTGCAGCGCGGTAGAGACGTTCCCCTCGACTCCTTGGGAGC
GAGGAGCCAGGGGGGTCCCGGCAGGCACTCGTCCTTGCTCCCCCCACCCTCCCCAGATCTCTATGGACCCGGGAGTCCCTCGCTGAGCCCCGCACCCGTC
CACTGCGTCGCGCACAGCCCCGTGCCCAAGCGGGGAGACGGGGACGGCGGGGCGGTGGCAGGGAGCGCAGCGCGCAGGCGCGGCTGGTGCTCCCCGGAGT
GCCCGGCGCTGGACAAAGGGAGGAGGCGGCGGCAGGAGAGGGCTGGGGAGGCCCCCTCTGACATGCCTCCCTGCCAACTGTAACCAATCGTCGAGCCCCC
CTGCCGAGCCCCCGCAGCCTGCAGGTCTTGCGGGAGGACTTCCTCACGCCTCGCCCATGGCGGGGACTGCTGGCCCGGCCCGGCGCGTCCCAGCACACCT
CGCTCAGGCAGCCCCGCCAGACCGGCTCCCCCGTCAGAAGCCGAGCTCCTTGCCCAGAAATCATTAACCAGCGCGACCTCCCAGCAGGCGATGGTGGTGG
TGGGGCGGGGGGAGAGATATAGATTCCCCCGAACAATGGCTTGTAACTCCCCACGCCGCCGGAGCGGAATACAGTAAAAGCACTGGACTGACCTAAGAGT
TTGTTTCTGCACTCTACATTGTTTTAATGAAAATAAAATGTTATTTTAAGAAAAAAGGTTTTCTTCTGATTTTCTGCACAACCAGACGTTTGTTTGTTTG
CTTTAAAATGTTTCAACAAAATCCTGGTTTGTTTCGAAATAYGTTGGATTAGCATTTAACACCTCATCGGTCACTAAAGCCCAGTCAGTTCACCAGCCCC
AACACAGCCTCGGCTAAAAGAACATCAGAGCAAACAGAGCTGGGCCTTTAAAAGTGGCAAACAAATGCCACACACCGCCTAAAGAAGGGGGGTTGGGGGA
GGGGAGGGTTAAGGCGAACTTGGGTCCAAATGAGTTTGAAGGGAATACAAAGAACGAAAAGTCAGCACAAGTTTTCCTAAAGCTAGCTCGCGAACGCAAG
CGTCGCGAACAAGGGCTTTTGTGCATGCTAATTGCGCCATTGGTGCGCAAAAGTTCCGACGCGAAGKGTGAACTCTCAACAGAAGGAAACATGAGACAAC
TGAAGTGCCCTGGTTTATGTGCCCTGCTCCTCCTCCGCTGCCGCCTCCCCTTCTTTCTCCTTCCTCCCGCCGAGCCCGCTGTTGCAGCTTGTTTGCACTG
GGGCTTATCCGGAGCGGAAATTCCTTTCCGTTTTTGTGAATGACAAACTCATTAACAATTCATCAACACAACCTGTTCCAGCCGGCCCGTCCCCACGGCA
ACAGCCCCTTCCGCAGCACGCTCATTGGCTGGCCCGGAGAATGTATCCATTGAGACGCTCGCTGTTTGTATCCATTGAGGAGCTGCCTCGCGCAGGGGGT
GTGCGAGGCTGAGTCCAAGAGATAGCAAATCGAGTCTTAAATAATCCGGGGAGAAAGACGCCCGGGTAGATTTGAGGTGCAGCCTTGGAGGGAGGGATTA
GAAGCCGCTAGACTTYTTTTCCTCCCCTCTCAGTAGCACGGAGTCCGAATTAATTGGATTTCATTCACTGGGGAGGAACAAAAACTATCTGGGCAGCTTC
ATTGAGAGAGATTCATTGACACTAAGAGCCAGCGGCTGCAGCTGGGTGCAGAGAGAACCTCCGGCTTTACTTCTGTCTCGTCTGCCCCAACCGCTAGCCT
CGGCTTGGGTAAGGCGAGGCGGAATTAAACCCCGCTCCGAGAGCRGCAGCTTCGCGCGCGGTGCGCTCGGCCTATGCCTGCCCCGAGGGGCGTCTGGTAG
GCACCCCGCCCTCTCCCGCAGCTCGACCCCCATGATAGATACGCTCAGACCCGTGCCCTTCGCGTCGGAAATGGCGATCAGCAAGACGGTGGCGTGGCTC
AACGAGCAGCTGGAGCTGGGCAACGAGCGGCTGCTGCTGATGGACTGCCGGCCGCAGGAGCTATACGAGTCGTCGCACATCGAGTCGGCCATCAACGTGG
CCATCCCGGGCATCATGCTGCGGCGCCTGCAGAAGGGTAACCTGCCGGTGCGCGCGCTCTTCACGCGCGGCGAGGACCGGGACCGCTTCAYCCGGCGCTG
TGGCACCGACACAGTGGTGCTCTACGACGAGAGCAGCAGCGACTGGAACGAGAATACGGGCGGCGAGTCGKTGCTCGGGCTGCTGCTCAAGAAGCTCAAG
GACGAGGGCTGCCGGGCGTTCTACCTGGAAGGTACGCGCCCAGGGAACTCCGCGCGCGGGGCAGGGCTAGGGGCGCAGGGCTGCGGGCGGGGCGCGTGGA
TTGAAAATACCTCTGCTCCGCTCAGCTGGAGCTTCGGAGCCGCGCTGCCCGCCTAGGGACCGGCAGCCGGCGAGGTAGGGGCCGCGAACCGCGCGTTCCG
CACCAGAGAACCGGGCCGGCTCAGAATCCACTCGCTTCCGGCTGCGGGTACCGGCGGTTTCYTTCTAACGGGTTCTGCGCCTTCTTAGCCAGAACATCCT
CCACCATCACCCTGTTTTCTATCGTTCGATTTTGAATTAAGATTTGCAGGACGGGAGAGATTGTTGGGGATGCAAATTGGCACATCTTAGCTCTCAAAAT
ATTCCAAAAAGTTGCCATTTTGTCTATTTCCGGATTCAAGCGAATAAGGGTTCCCTGGCGAGGCGGGCCCGTTCGTTCCATTCCCGATGGTGCACATTTA
AAGTGTGTTTCTCTTATAGATGGTTCTGTATGWAGGGGGTTCGTAGGATGCTTGTGGTGTTTCTTGCGCCGGGCTGCGGTTCTTACRAGCTGTGAAAACT
ACTACGGCTTCTCAGGTTAGAYGATTGCTTTTCTCGTTCTGGCAGGTGGCTTCAGTAAGTTCCAAGCCGAGTTCKCCCTGCATTGCGAGACCAATCTAGA
CGGCTCGTGTAGCAGCAGCTCGCCGCCGTTGCCAGTGCTGGGGCTCGGGGGCCTGCGGATCAGCTCTGACTCTTCCTCGGACATCGAGTCTGACCTTGAC
CGAGACCCCAATAGTGCAACAGACTCGGATGGTAGTCCGCTGTCCAACAGCCAGCCTTCCTTCCCAGTGGAGATCTTGCCCTTCCTCTACTTGGGCTGTG
CCAAAGACTCCACCAACTTGGACGTGTTGGAGGAATTCGGCATCAAGTACATCTTGAACGTCACCCCCAATTTGCCGAATCTCTTTGAGAACGCAGGAGA
GTTTAAATACAAGCAAATCCCCATCTCGGATCACTGGAGCCAAAACCTGTCCCAGTTTTTCCCTGAGGCCATTTCTTTCATAGGTGAGACTAATTAATAG
TCGTCGCTCTGACATTTAAATGCAAAATTCCTAGCCATTCATAGAGTTTAAGCTGTTAATCGTTCTTGCTGCTTGCTAATTTGTCTGACTGCAGGTCTCT
AMTGTTCCTAGAGCGTCCTTAATTCTGGTTTATCTTCTTGCTAAAGGAAGAAAACCTGCCTTTTGACATGGCTGCAGATCACAGGTGTATTTGAAACGCT
GTTTCTTGAATCTTTGAATTCAGTCATTGACAGTCGTTCATAATCGGACAACAGATTTTTCCCCCCAGTCTTTGGACTCAGGGGAAGGGTCAGATAGAAK
TACTCACTATAGACAGGAATTCCAGCATTGCTTTATAATTTAAAAACATCTAGGAGTTATTTTAGGACATCAAGTTAGTTGTTGGAAAGCAGTATGAATG
CTGAATGTTATSCAGTTGAATGATGCKGTGATACTGGTAACAGTGAGACAGTGGGTAACCTGAGCCCAGCAGGAAGAACTGTGGGCTGGAAGCCTGGGAG
AAGTGAATCTCCAGGCATTGTAATGCATTTCCTATTACAAAGGAACTCATTTTCAGGCCGTGTCGACATCCTGTTCCTCCTAATGGGCCGTCCCCTGTGA
CTTCCCTCTCTCTTTTAAAATGCCTGAATACCTCCATTGTTAGCTGCACAACATTTGGAGCATAATTTAATAGACCCTTGCAGTCTGGTTGTCTGTGTAA
AAGGCATTCACGAACATATTGCAGGGTTTCTGGYATTCACATGCCGAGGCAAAGAATGYACCCATTAAGGAGTTTTTTGTTGGCAGAAACTTAATACAAA
AGCTCTCTTTTCAGAAAATATCTGAAATATGTAATTGTGTCCAGTGTACATGTTTCATTTCAGTGATACATTTTCTGCTGCTTGTAGGGCTCAACTGCCA
CACACAACTATTATTATTATTATGTTTTCAAGTTCAGTTTTTAGACTGATCATTCACAAAGGGTGGTTTTCAGTCTGCTGAGATCTTGCTTTTCTTTTTG
TGTTCACAGATGAAGCCCGGGGCAAGAACTGTGGTGTCTTGGTACATTGCTTGGCTGGCATTAGCCGCKCAGTCACTGTGACTGTGGCTTACCTTATGCA
GAAGCTCAATCTGTCGATGAACGAYGCCTATGACATTGTCAAAATGAAAAAATCCAACATATCCCCTAACTTCAACTTCATGGGTCAGCTGCTGGACTTC
GAGAGGACGCTGGGACTCAGCAGCCCATGTGACAACAGGGTTCCAGCACAGCAGCTGTATTTTACCACCCCTTCCAACCAGAATGTATACCAGGTGGACT
CTCTGCAATCTACGTGAAAGACCCCACACCCCTCCTTGCTGGAATGTGTCTGGCCCTTCAGCAGTTTCTCTTGGCAGCATCAGCTGGGCTGCTTTCTTTG
TGTGTGGCCCCAGGTGTCAAAATGACACCAGCTGTCTGTACTAGACAAGGTTACCAAGTGCGGAATTGGTTAATACTAACAGAGAGATTTGCTCCATTCT
CTTTGGAATAACAGGACATGCTGTATAGATACAGGCAGTAGGTTTGCTCTGTACCCATGTGTACAGCCTACCCATGCAGGGACTGGGATTCGAGGACTTC
CAGGCGCATAGGGTAGRACCAAATGATAGGGTAGGAGCATGTGTTCTTTAGGGCCTTGTAAGGCTGTTTCCTTTTGCATCTGGAACTGACTATATAATTG
TCTTCAATGAAGACTAATTCAATTTTGCATATAGAGGAGCCAAAGAGAGATTTCAGCTCTGTATTTGTGGTATCAGTTTGGAAAARAAAATCTGATACTC
CATTTGATTATTGTAAATATTTGATCTTGAATCACTTGACAGTGTTTGTTTGAATTGTGTTTGTTTTTTCCTTTGATGGGCTTAAAAGAAATTATCCAAA
GGGAGAAAGAGCAGTATGCCACTTCTTAAAACAGAACAAAACAAAAAAAGAAAATTGTGCTCTKTTSTAATCCAAAGGGKAKATTTGCAGCATGCTTGAC
TTTACCAATTCTGATGACATCTTTACGGACACTATTATCACTAAGACCTTGTTATGGCGAASTCTTTAGTCTTTTTCATGTATTTTCCTCATGATTTTTT
CTCTTTATGTAGTTTGASTATGCCTTACCTTTGTAAATATTTTTGCTTGTGTTGTCGCAAAGGGGATAATCTGGGAAAGACACCAAATCATGGGCTCACT
TTAAAAAAARAAAGAATAAAAAAACCTTCAGCTGTGCTAAACAGTATATTACCTCTGTATAAAATTCTTCAGGGAGTGTCACCTCAAATGCAATACTTTG
GGTTGGTTTCTTTCCTTTAAAAAAATTTGTATAAAACTGGAAGTGTGTGTGTGTGAGCATGGGTACCCATTTGATAAGAGAAATGCATTTGATTGTGAAG
AAGGGAGAGTTAAATTCTCCATTATGTTCGTGGTGTAAAGTTTWGAGCTGGAATTTATTATAAGAATGTAAAACCTTAAATTATTAATAAATAACTATTT
TGGCTATTGAATGTGTGTTTTTAAAAACTCAGTTATACCTATGTGTGAAGTGACACATTTTAGAACTTTTTCATTCAGGGATTGATTTTGACTTGTAGGC
ATAGTAGGGCAAGGTTCTTTTAAGCTTTTCCTAGAAYGTTTTTCAGCAGCAGTTTATGAAATTCATCGTTTGCCACGAATAAAGATGACATCCTAGAATG
GACCGACTGTACCGTGTATATGAACAATACCTCTTATGAGTATAGTTCCGGCTTAAGATTTTAAAGCCCCTGAAGAAAAATGAACCTATAGAGCATAGCT
TGCTGAGGAATACAATTTGGATATTAACCACAGAGAGGTGTAGCAGAATACCAAGATGACAGCCACATGTTAACCTCCTCCCTATCCTTCACTGTCAGGA
TCTTCTGCTYTATAATGCTGAGATAATGCCAAAGAGGAAGTAGGGATAATTCTTTTTCCAGTCTGTTGTCATGGGCAATTCTACCTGCAGATATCCTAGT
GTGAGAATGCTGAATCCAGAATGATGTCTCCACTTTTTCCCCTAGCATGCGCATGGCAAGGCATATCTAAGCTTCCTCACYGTGTCAGGATAYGGCTTTA
GAATTTTACATTGGCACTTAGGAGGCAACTTTGTCATCCCTGTTGTAATGTGCTTTTTTGTTTAACTGGCTTGGGATGTGGGTCAGAAACCCTTATTGAA
ACTTGTGGGGATTATTTTAGTTTCTTTTCAAGCTAAAGACTTTATATCTTGCCATTTTTCTTGGGACCTACCCTCTCCTTACCTCAAATGTAAAAATACA
CAAACCAAAATAAAAGGCAGGTGTATGGAATCAAAAGAACTAGAACGTACTTATATTTGGGGCTCTTTTTGCATGAGCTCAGTCCCTTCATGTGAAGTGG
GGAGAAGAATGAGCTTTTCACCTACATGGCACATGAGTTGACTGCTTGGTCGTCTACACTAACTTAGGAGGCAAGTGGCCTTCATTCGATGGCAATCATA
TAAAACTGTCCATGGTGATTTTTAAGCAACTAAGTATAAAAAGCAAACAGAAATAGTGCAAATATATATATATACCAAGTCAGTCTGTCCTATTTGGGTG
TCCCAAGTCAGCAAGAGCACAGAAAGGAGAAGTGGATTGCAGTTCAACTTGGCTCGTGTTAATCCAGTTCTGAACGGTTTCCGCTCCTGGCATTCCCTAA
ACTGCCTGTTCAAAGTAAGGATTTGCAAGCAGCGTTAGCAATTTCCTGTCCAGCTGCAGCTCAAGTAGCTGGGTGCTTTTCCCCCCTTTCTTTTCTCTGA
TTTCTTTTCTCTTTCTTTTTCTTTCTTTCGTTTTTTAAAAAAATATGGGCTGTGGATAATTTTAGTGCATTTCCTCTTTGTGGATTATTATCTCTTTCCT
CCTAGAACCTGCATACATTGAGTTCCTACTGCTTGGCTCAAGCCGACAGCTGGCCTCCCCAGCACTTCCTCTCGTTTTACTGTGGGTTTGTTGTTTGTCA
GTCCACTTCTGAAATTAATAATGTTTTCTGGCTAAGTGCCACAAGCCATTACCACAAAGGGGAAGTAACACATATGAATAGCAGGAAGCCATGCAGGGTC
ACAGTGTGAGCTGAACCTGTGGAGGGAGCATAATTGAGCCTGGCCCATTCAGCAAGTGTCTGACTGCAATTTGGGGAGAGGGAGCTCGCTGCATCTAAGC
AGCTCAAGCTGTGAAAAAAAAAAAAGTTTCCAATAAATTGGGAGCAAATGGTCTTTGTCACCAGTCTGAATAAAGGAGAGAGAGAGTATGAAGAGCTTAG
AGCCTCCATAAAGTTGCAATGTTTGAGGTTTCTCCCCCTTCTCCTGACATATTGTTTCAGAAGGCTGGTGAACAGAGGGGTGCCTGTTTCCCTCTATTCT
CACCAAAGGACTCATGTTAAATGGGTGGTTTTTACGGTTCACATAGGCCAGAAGATTCAAAGAGCTATTCTCTTTCCTTCTTTTTCTTCTGTGGAAGGTG
GAAGGTTGTAACTGACAGCATGGGCCCCCACCTCTCTCTGTGCCTCCCTTTCTTCCAGCTATATCAGGGCTCCTCTGGTTCCTTTGTGCTTGCAGTAGCC
GCGTGAAGGCGATCATTTTGCATCTTGGAGTTGGGCTGGCTTCCTGAATGGAGCCCGCACGGTTACTAGGGCAACCTTTGCCAGCAGCTGCAGTTCCACC
GCCTCCTTCCTCACCTGCTGTCCCCATTAGTAGCTTCCTCAGGTCTCTGAGAAAGCGCTACCTTTCCTGGCCTTTTGCAGGGGCAGGGGGGTAGGGTGGG
GTATGGCTTTTGGGAAGGGGAGGTTATCAGCAGGTTTCCTGGGAGCTGCAGGAGACAGAGATTGCAGTGGTTAATAGTATGAACTGGTCTTAGCGTTAAA
ATAGGAATGAAAAAGGGTTATCTGGGGATAAAAATACCAACACAGTCTTCAAAGGAATGAAAACTGAGACTTGCACCAACCTTGACAATTAGGAGACCTG
AACTGTAGCTGCTGCTTTCTTGCTAATGAATCAGGTAGCCCTGGGCAGGGCACCCAATCTTACCGCATTTCTTTTTTCTTGTCTGTAAAAATGAGGGAGT
TTTTACCTCCCATTCTAGGATTCTCTCATAATTCCAGCTTCTGTTCATGGATTGGTGACACTTATTACATGATAAAATGAGGTGCGGAGCAGGTGAAACA
AATAACTAACATTTATCATGAGTACCAGATACTATACTTTGTATCTCATTTAATCTTCAAAACAGCTCTGTGAGATAGGTCCTATTATTATCTTTATTTT
GCAAAGAGGAAACTGAGGCAGAGAAAGGCCAATAAAGCCTAAAGCCACCTTTATGGGACACCTGACACATAATGTTAGAGAAGGTTTGCATATCCAGTGC
TTGTTACTGCAGAACTGAACCTTGAGCCTTTGGCTCTTCCTGTTGGAAACTGCTTGTCATCAGTATTTGCTCCCCTTTATAAAGTCTCATGATGTCGGCT
AGGAAATGCTGTCCCCATTATACAGCTGAGGAAGTGGAGGAAGCAGAGGTTAAATGACTAGCCAAATTCCATGTGAATTCCACAGCCACATGGGAGGCCC
CAGCTGGTGTGCTGTCAGAGAGGTGTCCACCGGGGGTAAACTTCCATCCTCCTTCTCCGCAGAGAAGTTGCTCTTCCTTGGTCCCATTGGCACTTAAATT
ATAAAACTACTTTTCCTAAGTATCTCTAAAATGGCTACCAGCTAGCATAGGGCCTGACCCTGACCCTTGCCCATACTCCCCTTTCAGGATGACACAACTA
AACTGGCCCCAAAGAAGTTCACTTCCTCACTCTTATCCCTCCTAGAGGCAAACTGGGAGAGGGAGGTGGGTCAGGGGAAAGGGGAAGGGTGTGAAGAAGC
AAGGAGGAGAGGCAGAAGACATATATATGGTGCAGGTCTACAGAAGAAGAGAGGTAAACTGACCAGCAAATTAGCAAATAATGGAGATGGGGGTTTTTAG
GATACAGCCAGGGCAGATCATGTGGTAGCTGGCTGTAAGAAAATATCCTTGAAATGTCCTCTTAAAAAAAGTCAGTCTTCAGACTTTCAGCTGCTTCAGA
AGGATTACTTTGGGTGTAAATTTATATGCAGTTCCTCACACAGCCATAATCGTTTTCGGAAAGATCCTGCAAGACTTTCAAATACCCTTGTTCCTCCCGT
GTTCTCACTGCTCACTTAGCAATTGGCCCTGAATCAGTCCAGTTATGGTGAACGAATTTTCAAACTTCTTTAAAGTCCAAAATCGATTTCCTGAGAATAT
TGAAGGGCACAGAACAAAGTTCAAACAACTCACAAATATTTATCCAGGCCTTGGTGTGCATTGCACTGGTTCGATGAAACAAGTTAAAAATAAAAGGCAA
CGAAAGACCTCCCAGGAGCCCTCAGAGGCTGAAGGCAATGACCCGTTTCTAGATGGAACCGCTAAAGTGCCCAAATCAAAGAGGAGCCCTGAAGAAACTA
CCGGGCAAGGTCTTGTATTTCCCTATCTGCTTCCAACTAACATTTTAGATCCCACATTTTATTTTTTTATATAGGAAAGGATTAATGGCCCACATGTATG
CAATTTGACCCACTCACTTTCTTACTTTGTCATGGAAAACACCACTAGAGAAGGCGTGCATATCTATTAGCCATCACTGATGTAATAAAAACATGTTAAA
CCACCATACCGTCAAACATGAACTCTCAGACACTCAAAGGAAAAGTGAGGAAATATCATTCACTTTTTGATAATGACATCCGAGAAAGCACGAAGCAAGT
CTGGAAAAGGTTGCTAATTCTAAAGAATTCTGTTTCCTACTTTTGGGGAAAATCTAAGTATTTATCACGTTAAGTATTTTTCATTGGGTCCAGTTTAATT
CCTACTGCAAACACGAACAGAAGGAGGAAAGAAAGAGCGGAAGGAGCAGCAGGGGATCTTCGGGTGTACCTGGCTCTCTGAAAAATTGTAGCAGGAATAC
CCTTTTATCTTATGTTCCATTTATTTATTGCTACATTACAAAGCGCCCCAAAACTTAGTGGCTTCAAATAACAGTCATTTATTTTGTTCCTAAGTCTGCA
TTTGGTCAGGGCTCAGCAGGGGAGGCTGGCCTCTGATCAGCGCAGTTTTGTCAGGGGCAGCTCAACTGCTGGCCAGAGGATTCATTTCTAAGATAGTTCA
CTCACTTTGCTGGTGAGTTGGTTTTGGCTTTGGCTGCCCACTGGGACCTCTGCCAGGGGCCGGGGCTGGGGACTTTGGTTCTCCATGTGGCCTAAATTTC
CACATAGTATGGTGGCTGGGTTCCATGGGTGAAATCCCCAGAGAGAGAGAGAGAGAGAGGCTGGTGGAAACTATGTTGATTTTTATGACCTGCTCAGAGG
TCACTTCTGCTGCATACAAAGTTTAAGGAGAAAGAACGTAAAAATCCATCTTTTAATGGAGGAGAGGAAAAATTCTGAAAAAGCACAAGAGATGGAAAAT
ATTGTTGCAGTTGTTCTTGGAAAGTACAATGTGCCACATCTTGGTTGCGTGAATGTTGTTTCAATGTGGGACTGTGAGAGTAATAGTGAGTACCCACGGA
GATAGATATGAAAGTGTTTAGCCATACTAATTTCTTGGTTCAATCTTGAAAACATTCAACAACTGCTATAATTGTTCCTTTATTCCTATTTTTTTCATCT
GTTTCTAACGTTAACAGTAGAGTAATGCCGTCAAAACACTCTTTAAAGGCCGGGTGCGGTGGCTTACGCCTGTATTTCCAGCATTTTGGGAGGCTGAGGC
GGGTGGATCACGAGGTCAAGAGATCGAGACCATCCTGGCCCACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCGCAC
GCCTGTAGTCCCAGCTACTCCGGAGGCTAAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGC
CTGGTGACAGAGCGAGACTCCAGCTCAAACAAAGAAACAAAAAAATTTTTAGATTGACCCATAAAATAAAACAGTTTTTATAAAAGAATATTAATTTTTT
TATTTTGTCAGAGAAAACATTATATTTGAGATTGAGTCGCCCAAGTTATTGAGTGTAGCTATGGTATACATTATTTTCATGCAAAATATAGTGTTTCATG
TATTACATTATAGTAGGTAATCTTACATTGGTAGAATTTGGGTTTTTCCCCCTAATTTTGACTATTTTGAACAATACTGCTAAGAATACTTTTGTGCATG
TATTCTAATGCTCATGTGTACACGTTTCCCGGTGGTTTGCAGAGGAGTGGAATAAGCATAGTTTGTGTAGAACCTCAATTTCAGACAATTAAAATCGTTT
TTGAAGTGGATATTCCAACTTATATTCCCACTAATGATATTTAACTTTTCATACTCTCCCAAATTTTTTATAAACACTTGTTTTGTTTACACTTTTTAGT
TTTCACCTATCTAGTAGATGTGAAATGGTAGTTTATTTTGATTCTAATTTCCATTATTCTGATTCCTAATGAGGTTGGATCCTTTTCTTGTGTTCATTGG
CCATAAGATATTTTATTTTGTGAAGAGCCTGTTCAAATCTGTTGTCAAGTTTCAGTTGTGTTACTTCTATTTTTTTGTATTGATATCAGAGGTGCTTGGA
CACTCTAAATACTAGTCCTCTATTGAGTATATGCATTAAAAATATCAGTACAATGCTTTTCAAACTTTGTTCCTCAGGGAAGGACCAGGCTACATTTGGA
GGCAGGATGTACACTGCACAGCTCTACAGGGTATCAGTCAGAAAGATAATGATACAAATGGCCATGCCCAACCTGTATAACCCTACATGGAGTTCTAGGA
GACTCATGTGGGACTTGTGCCTAAACATATTTGAAATCCACTCATTGAATCCATTTAACAAATGTGGAAACAGAGTCAGAGAGATTAAGTTGAAAGAATA
GATACTTTTGATTATCTCGATTGAAGTGGGGCTGGCCTAGAAGTGTTTTTGGTTATACTAAATCTTGAACTCAGTTTTGAAGAGGGGCTAGTTTTTCACA
TAGATGTGGAAAAGATGTGACAGTTGTGAGTAATGAATTACACCCAGCTTTGGAAGTAGTAAAAGACAAACTTCCTCGCAAGAGATGGCAACAATATTTT
TCAAGATGTAAAACAGAGATAAAAAATCAAGATGCTTAGGGATATGAGAGATAAAATTTAAAGAGAAGTTGCAAAGTGCAGAAATAACTGTATTTTTTTT
GTCTGCCTATCCTCCCTTCCCAGTTACTTGTAGTTGTGGAA


SNP Information

Context             (SEQ ID NO:40771):
TGTTTCTTGAATCTTTGAATTCAGTCATTGACAGTCGTTCATAATCGGACAACAGATTTTTCCCCCCAGTCTTTGGACTCAGGGGAAGGGTCAGATAGAA
K
TACTCACTATAGACAGGAATTCCAGCATTGCTTTATAATTTAAAAACATCTAGGAGTTATTTTAGGACATCAAGTTAGTTGTTGGAAAGCAGTATGAATG
Celera SNP ID:            hCV29407028
SNP Position Genomic:     9000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40772):
ATGGTGCACATTTAAAGTGTGTTTCTCTTATAGATGGTTCTGTATGTAGGGGGTTCGTAGGATGCTTGTGGTGTTTCTTGCGCCGGGCTGCGGTTCTTAC
R
AGCTGTGAAAACTACTACGGCTTCTCAGGTTAGATGATTGCTTTTCTCGTTCTGGCAGGTGGCTTCAGTAAGTTCCAAGCCGAGTTCTCCCTGCATTGCG
Celera SNP ID:            hCV29407029
SNP Position Genomic:     8187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40773):
GGTGCAGAGAGAACCTCCGGCTTTACTTCTGTCTCGTCTGCCCCAACCGCTAGCCTCGGCTTGGGTAAGGCGAGGCGGAATTAAACCCCGCTCCGAGAGC
R
GCAGCTTCGCGCGCGGTGCGCTCGGCCTATGCCTGCCCCGAGGGGCGTCTGGTAGGCACCCCGCCCTCTCCCGCAGCTCGACCCCCATGATAGATACGCT
Celera SNP ID:            hCV25606791
SNP Position Genomic:     7145
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(G,34)   total(A,4|G,66)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:40774):
ATCAACGTGGCCATCCCGGGCATCATGCTGCGGCGCCTGCAGAAGGGTAACCTGCCGGTGCGCGCGCTCTTCACGCGCGGCGAGGACCGGGACCGCTTCA
Y
CCGGCGCTGTGGCACCGACACAGTGGTGCTCTACGACGAGAGCAGCAGCGACTGGAACGAGAATACGGGCGGCGAGTCGGTGCTCGGGCTGCTGCTCAAG
Celera SNP ID:            hCV25606792
SNP Position Genomic:     7491
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,33|T,1)   total(C,67|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40775):
ATCCTAGTGTGAGAATGCTGAATCCAGAATGATGTCTCCACTTTTTCCCCTAGCATGCGCATGGCAAGGCATATCTAAGCTTCCTCACCGTGTCAGGATA
Y
GGCTTTAGAATTTTACATTGGCACTTAGGAGGCAACTTTGTCATCCCTGTTGTAATGTGCTTTTTTGTTTAACTGGCTTGGGATGTGGGTCAGAAACCCT
Celera SNP ID:            hCV1986660
SNP Position Genomic:     11793
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40776):
TTCAGTCTGCTGAGATCTTGCTTTTCTTTTTGTGTTCACAGATGAAGCCCGGGGCAAGAACTGTGGTGTCTTGGTACATTGCTTGGCTGGCATTAGCCGC
K
CAGTCACTGTGACTGTGGCTTACCTTATGCAGAAGCTCAATCTGTCGATGAACGATGCCTATGACATTGTCAAAATGAAAAAATCCAACATATCCCCTAA
Celera SNP ID:            hCV25606793
SNP Position Genomic:     9769
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(G,1|T,35)   total(G,1|T,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40777):
ATACAATTTGGATATTAACCACAGAGAGGTGTAGCAGAATACCAAGATGACAGCCACATGTTAACCTCCTCCCTATCCTTCACTGTCAGGATCTTCTGCT
Y
TATAATGCTGAGATAATGCCAAAGAGGAAGTAGGGATAATTCTTTTTCCAGTCTGTTGTCATGGGCAATTCTACCTGCAGATATCCTAGTGTGAGAATGC
Celera SNP ID:            hCV1986661
SNP Position Genomic:     11610
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;(C,-|T,-)   JBIC-allele(C,39|T,1402)   total(C,39|T,1402)   no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40778):
GACAGGAATTCCAGCATTGCTTTATAATTTAAAAACATCTAGGAGTTATTTTAGGACATCAAGTTAGTTGTTGGAAAGCAGTATGAATGCTGAATGTTAT
S
CAGTTGAATGATGCGGTGATACTGGTAACAGTGAGACAGTGGGTAACCTGAGCCCAGCAGGAAGAACTGTGGGCTGGAAGCCTGGGAGAAGTGAATCTCC
Celera SNP ID:            hCV1986662
SNP Position Genomic:     9112
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,3)      total(G,3|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:40779):
CGTCGCTCTGACATTTAAATGCAAAATTCCTAGCCATTCATAGAGTTTAAGCTGTTAATCGTTCTTGCTGCTTGCTAATTTGTCTGACTGCAGGTCTCTA
M
TGTTCCTAGAGCGTCCTTAATTCTGGTTTATCTTCTTGCTAAAGGAAGAAAACCTGCCTTTTGACATGGCTGCAGATCACAGGTGTATTTGAAACGCTGT
Celera SNP ID:            hCV1986663
SNP Position Genomic:     8802
SNP Source:               Applera
Population(Allele,Count): african american(A,28|C,8)   caucasian(A,31|C,7)   total(A,59|C,15)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,7)      total(A,7|C,4) ;no_pop(A,-|C,-)   (C,-|A,-)   JBIC-allele(C,39|A,1462)   total(A,1462|C,39)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40780):
TTAAAAGAAATTATCCAAAGGGAGAAAGAGCAGTATGCCACTTCTTAAAACAGAACAAAACAAAAAAAGAAAATTGTGCTCTTTTCTAATCCAAAGGGTA
K
ATTTGCAGCATGCTTGACTTTACCAATTCTGATGACATCTTTACGGACACTATTATCACTAAGACCTTGTTATGGCGAAGTCTTTAGTCTTTTTCATGTA
Celera SNP ID:            hCV8716762
SNP Position Genomic:     10682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40781):
CTGAAACGTCTCGGGGTGGGAACTTCTGTGACAGATCGTGGAGGACAGGGGGAGTCAACTCCAGCGCAGGCCTCCCCCGGCTGAAACTAGAAGATACCCA
R
TGAAATATACGAGTTTTGTTCCAAGGACTGCCCAAAAATGGTGCGGAGAGGAGCTCGGCAATCCCCACCTTTGTCGAACACGCTCCTCCAGGGGCGGCCT
Celera SNP ID:            hCV27851171
SNP Position Genomic:     4672
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,36)   total(A,3|G,67)
SNP Type:                 hmCS


Context             (SEQ ID NO:40782):
GCTTAAAAGAAATTATCCAAAGGGAGAAAGAGCAGTATGCCACTTCTTAAAACAGAACAAAACAAAAAAAGAAAATTGTGCTCTTTTCTAATCCAAAGGG
K
ATATTTGCAGCATGCTTGACTTTACCAATTCTGATGACATCTTTACGGACACTATTATCACTAAGACCTTGTTATGGCGAAGTCTTTAGTCTTTTTCATG
Celera SNP ID:            hCV8716763
SNP Position Genomic:     10680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40783):
TTTCCTTTGATGGGCTTAAAAGAAATTATCCAAAGGGAGAAAGAGCAGTATGCCACTTCTTAAAACAGAACAAAACAAAAAAAGAAAATTGTGCTCTTTT
S
TAATCCAAAGGGTATATTTGCAGCATGCTTGACTTTACCAATTCTGATGACATCTTTACGGACACTATTATCACTAAGACCTTGTTATGGCGAAGTCTTT
Celera SNP ID:            hCV8716764
SNP Position Genomic:     10667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40784):
ACCTATGTGTGAAGTGACACATTTTAGAACTTTTTCATTCAGGGATTGATTTTGACTTGTAGGCATAGTAGGGCAAGGTTCTTTTAAGCTTTTCCTAGAA
Y
GTTTTTCAGCAGCAGTTTATGAAATTCATCGTTTGCCACGAATAAAGATGACATCCTAGAATGGACCGACTGTACCGTGTATATGAACAATACCTCTTAT
Celera SNP ID:            hCV8716748
SNP Position Genomic:     11337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40785):
TGTGTGTGTGTGAGCATGGGTACCCATTTGATAAGAGAAATGCATTTGATTGTGAAGAAGGGAGAGTTAAATTCTCCATTATGTTCGTGGTGTAAAGTTT
W
GAGCTGGAATTTATTATAAGAATGTAAAACCTTAAATTATTAATAAATAACTATTTTGGCTATTGAATGTGTGTTTTTAAAAACTCAGTTATACCTATGT
Celera SNP ID:            hCV8716749
SNP Position Genomic:     11144
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:40786):
AGAACTGTGGTGTCTTGGTACATTGCTTGGCTGGCATTAGCCGCTCAGTCACTGTGACTGTGGCTTACCTTATGCAGAAGCTCAATCTGTCGATGAACGA
Y
GCCTATGACATTGTCAAAATGAAAAAATCCAACATATCCCCTAACTTCAACTTCATGGGTCAGCTGCTGGACTTCGAGAGGACGCTGGGACTCAGCAGCC
Celera SNP ID:            hCV8716782
SNP Position Genomic:     9825
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,34)   total(C,1|T,69)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,29)   caucasian(T,26)   total(C,3|T,55)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40787):
AGCATAATTTAATAGACCCTTGCAGTCTGGTTGTCTGTGTAAAAGGCATTCACGAACATATTGCAGGGTTTCTGGTATTCACATGCCGAGGCAAAGAATG
Y
ACCCATTAAGGAGTTTTTTGTTGGCAGAAACTTAATACAAAAGCTCTCTTTTCAGAAAATATCTGAAATATGTAATTGTGTCCAGTGTACATGTTTCATT
Celera SNP ID:            hCV8716783
SNP Position Genomic:     9459
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:40788):
GATTCAAGCGAATAAGGGTTCCCTGGCGAGGCGGGCCCGTTCGTTCCATTCCCGATGGTGCACATTTAAAGTGTGTTTCTCTTATAGATGGTTCTGTATG
W
AGGGGGTTCGTAGGATGCTTGTGGTGTTTCTTGCGCCGGGCTGCGGTTCTTACAAGCTGTGAAAACTACTACGGCTTCTCAGGTTAGATGATTGCTTTTC
Celera SNP ID:            hCV22275398
SNP Position Genomic:     8133
SNP Source:               Applera
Population(Allele,Count): african american(A,13|T,25)   caucasian(A,4|T,34)   total(A,17|T,59)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40789):
CCATTGTTAGCTGCACAACATTTGGAGCATAATTTAATAGACCCTTGCAGTCTGGTTGTCTGTGTAAAAGGCATTCACGAACATATTGCAGGGTTTCTGG
Y
ATTCACATGCCGAGGCAAAGAATGCACCCATTAAGGAGTTTTTTGTTGGCAGAAACTTAATACAAAAGCTCTCTTTTCAGAAAATATCTGAAATATGTAA
Celera SNP ID:            hCV8716784
SNP Position Genomic:     9434
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   JBIC-allele(C,55|T,1436)   total(C,55|T,1436)   no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:40790):
TATTTTAAGAAAAAAGGTTTTCTTCTGATTTTCTGCACAACCAGACGTTTGTTTGTTTGCTTTAAAATGTTTCAACAAAATCCTGGTTTGTTTCGAAATA
Y
GTTGGATTAGCATTTAACACCTCATCGGTCACTAAAGCCCAGTCAGTTCACCAGCCCCAACACAGCCTCGGCTAAAAGAACATCAGAGCAAACAGAGCTG
Celera SNP ID:            hCV27837517
SNP Position Genomic:     6142
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,33)   total(C,1|T,71)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:40791):
GGCAGCCGGCGAGGTAGGGGCCGCGAACCGCGCGTTCCGCACCAGAGAACCGGGCCGGCTCAGAATCCACTCGCTTCCGGCTGCGGGTACCGGCGGTTTC
Y
TTCTAACGGGTTCTGCGCCTTCTTAGCCAGAACATCCTCCACCATCACCCTGTTTTCTATCGTTCGATTTTGAATTAAGATTTGCAGGACGGGAGAGATT
Celera SNP ID:            hCV8716801
SNP Position Genomic:     7862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40792):
TTCCGCCGGGGTTTAGGGAGGGAAGGCCGGATTAGGGCCCGCGCCTTCCGGCTGCATCCCTCTCGCGCCGCGCCGGCCGCACACAGGTGGTTTTCCGCTC
R
GGAGGGGCAGGCTTCGGCACTTTTATATAACAATAGAGCTCTGCGCGCCGGGAACGCGCCTCCCCGCCGCCGCGGCCCCCACCCGGCCACGCCTCCATCC
Celera SNP ID:            hCV8716802
SNP Position Genomic:     5173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:40793):
AAATGGTGCGGAGAGGAGCTCGGCAATCCCCACCTTTGTCGAACACGCTCCTCCAGGGGCGGCCTGCCTGAAGCAGAGCTCCAAAATTGGCAACCTAGGC
S
TCGCAGCCGCCTTTTTTTAGCCTACATTTCCCAAACCAGGGAAGAGGCGGGTGACTAAAAATGCAAATTGCAGCGGGGGTGTTAGCAGGCATGCCCGTGG
Celera SNP ID:            hCV27841305
SNP Position Genomic:     4808
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,1)   caucasian(C,33|G,1)   total(C,64|G,2)
SNP Type:                 hmCS


Context             (SEQ ID NO:40794):
ACAAGTTTTCCTAAAGCTAGCTCGCGAACGCAAGCGTCGCGAACAAGGGCTTTTGTGCATGCTAATTGCGCCATTGGTGCGCAAAAGTTCCGACGCGAAG
K
GTGAACTCTCAACAGAAGGAAACATGAGACAACTGAAGTGCCCTGGTTTATGTGCCCTGCTCCTCCTCCGCTGCCGCCTCCCCTTCTTTCTCCTTCCTCC
Celera SNP ID:            hCV27831612
SNP Position Genomic:     6467
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,22)   caucasian(T,32)   total(G,2|T,54)   
SNP Type:                 UTR 5;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,27)   caucasian(T,34)   total(G,3|T,61)
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:40795):
GGAGCATAATTGAGCCTGGCCCATTCAGCAAGTGTCTGACTGCAATTTGGGGAGAGGGAGCTCGCTGCATCTAAGCAGCTCAAGCTGTGAAAAAAAAAAA
A
GTTTCCAATAAATTGGGAGCAAATGGTCTTTGTCACCAGTCTGAATAAAGGAGAGAGAGAGTATGAAGAGCTTAGAGCCTCCATAAAGTTGCAATGTTTG
Celera SNP ID:            hCV27277232
SNP Position Genomic:     12925
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:40796):
CCACTATGTTGTTATTTCATGATATGTCCAGATATAACTTTTATAATGAACCCACCAACAGCCTTAAGCAGTGTTGTTTAGACTGGAGTTTGGGGCTCCC
W
AGGGTTCTATTAATATATTCTTGGGGGATCTGCAAGTTCTTAAAGTTTGAAAAACTGAGCTAAAGCATTCCTGTATTGTGGACACACACAGTTACTTCCA
Celera SNP ID:            hCV8716822
SNP Position Genomic:     727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40797):
CAAGAGATAGCAAATCGAGTCTTAAATAATCCGGGGAGAAAGACGCCCGGGTAGATTTGAGGTGCAGCCTTGGAGGGAGGGATTAGAAGCCGCTAGACTT
Y
TTTTCCTCCCCTCTCAGTAGCACGGAGTCCGAATTAATTGGATTTCATTCACTGGGGAGGAACAAAAACTATCTGGGCAGCTTCATTGAGAGAGATTCAT
Celera SNP ID:            hCV27839371
SNP Position Genomic:     6916
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,28)   total(C,1|T,65)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:40798):
TAGTTTGACTATGCCTTACCTTTGTAAATATTTTTGCTTGTGTTGTCGCAAAGGGGATAATCTGGGAAAGACACCAAATCATGGGCTCACTTTAAAAAAA
R
AAAGAATAAAAAAACCTTCAGCTGTGCTAAACAGTATATTACCTCTGTATAAAATTCTTCAGGGAGTGTCACCTCAAATGCAATACTTTGGGTTGGTTTC
Celera SNP ID:            hCV8716753
SNP Position Genomic:     10910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40799):
CATCTTTACGGACACTATTATCACTAAGACCTTGTTATGGCGAAGTCTTTAGTCTTTTTCATGTATTTTCCTCATGATTTTTTCTCTTTATGTAGTTTGA
S
TATGCCTTACCTTTGTAAATATTTTTGCTTGTGTTGTCGCAAAGGGGATAATCTGGGAAAGACACCAAATCATGGGCTCACTTTAAAAAAAGAAAGAATA
Celera SNP ID:            hCV8716754
SNP Position Genomic:     10818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:40800):
TATGCCGACGTGGAAGACTGCAACTTAGAACGGCTAAATGATTTAACTAAGGGCGCTTACCTAGGAAGAAGCGGGGGACATAATGCAAACGAGGGCCGTC
Y
CACTCCAGAAGCCCTTTTCGCAGCATTTCTAGTACTGAGCAGTCAGAACGCCACTTTAATCAATGCGCCAGGAAACACTGGCATTCCCTTGGCGATAAAG
Celera SNP ID:            hCV27512506
SNP Position Genomic:     4255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40801):
CTTTTCTAATCCAAAGGGTATATTTGCAGCATGCTTGACTTTACCAATTCTGATGACATCTTTACGGACACTATTATCACTAAGACCTTGTTATGGCGAA
S
TCTTTAGTCTTTTTCATGTATTTTCCTCATGATTTTTTCTCTTTATGTAGTTTGACTATGCCTTACCTTTGTAAATATTTTTGCTTGTGTTGTCGCAAAG
Celera SNP ID:            hCV8716755
SNP Position Genomic:     10762
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40802):
TTTTTTCCTTTGATGGGCTTAAAAGAAATTATCCAAAGGGAGAAAGAGCAGTATGCCACTTCTTAAAACAGAACAAAACAAAAAAAGAAAATTGTGCTCT
K
TTCTAATCCAAAGGGTATATTTGCAGCATGCTTGACTTTACCAATTCTGATGACATCTTTACGGACACTATTATCACTAAGACCTTGTTATGGCGAAGTC
Celera SNP ID:            hCV8716771
SNP Position Genomic:     10664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40803):
CTACCTGCAGATATCCTAGTGTGAGAATGCTGAATCCAGAATGATGTCTCCACTTTTTCCCCTAGCATGCGCATGGCAAGGCATATCTAAGCTTCCTCAC
Y
GTGTCAGGATATGGCTTTAGAATTTTACATTGGCACTTAGGAGGCAACTTTGTCATCCCTGTTGTAATGTGCTTTTTTGTTTAACTGGCTTGGGATGTGG
Celera SNP ID:            hCV15965878
SNP Position Genomic:     11781
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,19|C,1480)   total(C,1480|T,19) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:40804):
CTGACTATATAATTGTCTTCAATGAAGACTAATTCAATTTTGCATATAGAGGAGCCAAAGAGAGATTTCAGCTCTGTATTTGTGGTATCAGTTTGGAAAA
R
AAAATCTGATACTCCATTTGATTATTGTAAATATTTGATCTTGAATCACTTGACAGTGTTTGTTTGAATTGTGTTTGTTTTTTCCTTTGATGGGCTTAAA
Celera SNP ID:            hCV8716772
SNP Position Genomic:     10486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:40805):
CATGCTGTATAGATACAGGCAGTAGGTTTGCTCTGTACCCATGTGTACAGCCTACCCATGCAGGGACTGGGATTCGAGGACTTCCAGGCGCATAGGGTAG
R
ACCAAATGATAGGGTAGGAGCATGTGTTCTTTAGGGCCTTGTAAGGCTGTTTCCTTTTGCATCTGGAACTGACTATATAATTGTCTTCAATGAAGACTAA
Celera SNP ID:            hCV8716773
SNP Position Genomic:     10317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40806):
ATTGCTTTATAATTTAAAAACATCTAGGAGTTATTTTAGGACATCAAGTTAGTTGTTGGAAAGCAGTATGAATGCTGAATGTTATCCAGTTGAATGATGC
K
GTGATACTGGTAACAGTGAGACAGTGGGTAACCTGAGCCCAGCAGGAAGAACTGTGGGCTGGAAGCCTGGGAGAAGTGAATCTCCAGGCATTGTAATGCA
Celera SNP ID:            hCV8716791
SNP Position Genomic:     9127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:40807):
TGCGGTTCTTACAAGCTGTGAAAACTACTACGGCTTCTCAGGTTAGATGATTGCTTTTCTCGTTCTGGCAGGTGGCTTCAGTAAGTTCCAAGCCGAGTTC
K
CCCTGCATTGCGAGACCAATCTAGACGGCTCGTGTAGCAGCAGCTCGCCGCCGTTGCCAGTGCTGGGGCTCGGGGGCCTGCGGATCAGCTCTGACTCTTC
Celera SNP ID:            hCV8716792
SNP Position Genomic:     8275
SNP Source:               Applera
Population(Allele,Count): african american(G,21|T,17)   caucasian(G,11|T,27)   total(G,32|T,44)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): (G,-|T,-)   no_pop(T,-|G,-)   no_pop(G,-|T,-)   JBIG-allele(G,22|T,895)   total(T,895|G,22)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:40808):
GGTTCTGTATGTAGGGGGTTCGTAGGATGCTTGTGGTGTTTCTTGCGCCGGGCTGCGGTTCTTACAAGCTGTGAAAACTACTACGGCTTCTCAGGTTAGA
Y
GATTGCTTTTCTCGTTCTGGCAGGTGGCTTCAGTAAGTTCCAAGCCGAGTTCTCCCTGCATTGCGAGACCAATCTAGACGGCTCGTGTAGCAGCAGCTCG
Celera SNP ID:            hCV8716793
SNP Position Genomic:     8222
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,30)   caucasian(C,7|T,31)   total(C,15|T,61)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:40809):
CGAGGACCGGGACCGCTTCACCCGGCGCTGTGGCACCGACACAGTGGTGCTCTACGACGAGAGCAGCAGCGACTGGAACGAGAATACGGGCGGCGAGTCG
K
TGCTCGGGCTGCTGCTCAAGAAGCTCAAGGACGAGGGCTGCCGGGCGTTCTACCTGGAAGGTACGCGCCCAGGGAACTCCGCGCGCGGGGCAGGGCTAGG
Celera SNP ID:            hCV3162589
SNP Position Genomic:     7571
SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,9)   caucasian(G,25|T,15)   total(G,52|T,24)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,126|G,144)   Chinese(G,26|T,30)   Japanese(T,7|G,11)   African(T,31|G,59)   (T,5|G,5)      total(G,5|T,5) ;(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Gene Number:                 193
Celera Gene:                 hCG26677 - 30000054185227
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY4T(2327785..2341905)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12353):
CAGAAGCAAGGAGTCCCCTGACCACTTCTTCCAAACATATTCTTTTGTCTTTAATTCCCGCGTTCCTTCTCCTTTGTTCAGTCCAACAGGGTCCACGGCA
ACRTGGCACCCATACACAGGGATAGGAGGACATGAAGGAAGAAGGTCTGCTGGAGCAGAAGAAGTGAAATTGATCAGATGAATGGGGACACCAGGAGGAG
TCTGCCGCAGCCGATATAAGGTCAGTGCCCTAAAGAGGTACTGAGAGTAATATAAGGTTCAAGGTATAACCCCAGGCTAACCCACCTGCCCTGGGCTGAG
TTGCTGGACATGCCTGTGAGTGCTCAGAGTCACACACATGAATGAGGGGGTCAGGCACCACGGTGCCTTTATTCATTCATTTCTCAAACTCAATTCCCTG
CAAATCCTGACTCTATTTCATAGGCCAAAGGATGCTACTCATATTTATTTGGTGCCAAATTATTATTATTATTATTATTATTATTATTATTATTATTATT
ATTATTATCTTTTGAGATGGAGTCTCACTCTGTCACCCAGACTGGGGTGCGGTGGCGTGATCACGGCTCATTGCAACCTCTGCCTCCCAGGTTCAAGCAA
CTCTCTGCCTCAGCCACCCGAGTAGCTGGGATTATAGGCAAGTGCCACCATGCCCGGCTAATTTTTGTTATTTTTGGTAGAGACGGGGTTTCACCATCTT
GGCCACGCTCGTCTTGAACTCCTGACCTTGTGATCCACCTGCCTCGGCCTCTTAAAGTGCTGGGATTATAGGCATGAGCCACTGTGCCCGGCCAAAAATT
TTTTTTTTTTTTTAAATCCTTACATCTGCACCTTGAAAAGTAAACTGCAATATCCAGCACAACATTGTCAGACAGAGCTGCTGTATGGTTATTTAGCTTC
ATCTGCCTGGGTAATGTTTAATATGCTTCATCCTTTACAGCTGGAAGAAGGATGTTCTCTGTATTTAACCAGCCATAGTGCATTCAGAGATAAACAGCTT
TTATGGACTATTTGCCCAGGAATTTTCAGTAAACAACTAAGTTCAGGCCCTGATTTTATTTCGGTCAGTATGTGCACATATTCACTTGCAATTACCCAGA
AAGAAGAGAAACTGGTTAACAAGAAACCTACCATTATGTCAGATGCTGGAAATCAATCTTTAGCTACATAATATTTACAGGAAGCATTTTAAGATTCATA
ATCGACTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGTAGGCCGAAGCAGGTGGATCACGAGGTCAGATCAAGACCATCCTGGCTAACACGG
TGAAACCCCGTCTCTACTAAAAATACAAAAAATTTGCCGGGCATGGTGGCAGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCAT
GAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGATTGTGCCACTGCAATCCAGCCTGGGAGACAGAGCGAGACTGCGTCAATAAATAAATAAATGAATAC
AGATAAAAAAATCATAATCCACTTTTTCAGTCTGTCTATTATATTTCATTAGTCAATTGGAAGTGGCATATGAGCTTTATCTGGAAAAAATATTTTCACA
TTTTCTAATTCCTTTGACAAAGAAGTTTTTGTCTGGTAAGGAATGAGAATGCTATTTGGCCATTACCTACTTTTAGAATTCCAACTAACCCTTCAAATAT
CTTTATTTAGATCATATGCTCTCAAACTATCTTACTGTTTTACTGACACAATGGTAAAACTGGTTTCCCAAAATGTCAAAACCATAATGGAATCTCTATG
GTCAGTGCTTCAAAAAAGTACTGGGAACGAGAAGTTTCTTTTTTCCTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCTCCCAGTCTCCCA
GGCTGGAGTGCAATGGCACAATCTCCGCTCACTGCAAGCTCTGACTCTCAGGTTCTCACCATTCTCCTGCCTCAGCCTCCCAAGTAGGTGGGACTTCGGG
CGCCCGCCACCACACCCGTCTAATTTTTGCTATTTTTAGTAGAGATGGGGTTTCACCGCATTAGCCAGGATGGTCTTGATCTCCTGACCTCATGATCTGC
CCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCTTGGGAAAGAGAAATTTCTGAATCAGGTTAACATGGGGCACAATT
TGTTTATTGAAGAAAAACTTTATGTGAAGTTGCTTGAAGTTTTACTTAAACAATCTGTGGCTCAGGTTAGTTGTCAGACATTAACTAAGCTTCTGCATGA
GATTACCATGCATAACCCATGGTTTCCACAGACAGGCACTCTTGATTTGAAAAATTGGGACAGAGCAGGAGAAGGATTAAAATGGGCTCATCAATAGCCG
GGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGAAAAATATGGTGA
AGCCCTGTCTCTACTAAAAATACAAAAATTAGCCTTGACTGGTGGCCGGCACCTGTAGTCCCAGCTACATGGGAGGCTGAAGCAGGAGAATTGCTTGAAC
CCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCCGTCTCAAAAAATAAATAAAAAATAAAAT
AAAATAAAATGGGCTCATCAAGCAGGCCTTAAAGTTGATCATCTGTTTTCTCCACTTGGAGTTTTGTTCATACTGTCCTTCTGCCATTATCTCCTTCTTA
TTCTGCTGGACAGAAGGAGTCATGTTCTGAGTCTAAAAATCTGAAAGAATCTGTTGTCCCACCCACAGCACCAGTTGAAAATAAAAAACAGGAGAGGGAG
TATAAAAATTGGCCTGTACCGCCCCCTCCAATTGCAGAAACATCTGTACCGCCTCCTTCGGTAGCAGAAATAGAAACCCCAATAGAGAGAATTTTATGCT
CTGCTGCCATAGCTGGAGAGCTCTTAGGACCCTGTGCTTTTCCTATCTCCATAAGGCCCGATACAAATAGCCCACAGCAGCTTATTCATCAACACACCCC
ACTAGAGTTTAAGTTGTTGAAGGAATTAAGAGCTAGTGTACTTAATAATGGAATACAGAGCCCATTCACTTTAGGATTGCTAGAATCTGTATTTGGTGCT
ATGCACCTTCTACCCTTTGATGTAAAGCATTTGGCTTGCACTTGTTTGTCTGCTAGTGTATACCTGACATGGAATTTAAATTGGCAAGAAATGTGTGCAG
ACCAAGCTAGACAGAACCGTGCTGCTGGACACAGAGACACTACAGAGGATATGCTGTTAGGTCATGGCCCTTATTCAGACCTGGAACATCAAATGGCACT
CCCAGACGCTGCTTATCAGCAGTGTGCACTGGCCACTAAACATGCCTGGGCCACAATTACAGAAGAGGGAGTCCCAGTACAATCCTTTTTAAATATTGTG
CAAGGGTCTCAGGAACCTTATGCACAATTTCTTGCAGGATCTCAAGAGGCAGTCAAGTGTCAGATTCCTCACACCACTGCTGCAGAAATGTTAACCTTAA
CCCTAGCTTTTCAGAATGCAAATGCAGATTGTAAACATGCACTGGCACCTGTGAAATGTACAAAAACTTGGGAAATTTTCTCAGAGCTTGTCAAGATGTG
GGAATTGAGCTGCATTGCTCCACAATGTTAGCACAAGAAATGGCTAATTTGGCAGTTGATAAGTCTAAAAAGAGCCAATGGTCAAACCCTAAAATGGAAA
AAAAAAAAAAACCCTAAAATGGGAAAATGTTATAACTGTGGAAATAACTGGACATTTTAAAAAGGAATGCAGTGAGATCTCAAGAGAGAAAGGACCTTAC
AATGCGGTTCCCCACTACTACCAGGAAAAAATGCCAGGACTCTGTCCTCACTGTAACAAAGAAAATCACTGGGCTAATCAGTGCCACTCAAAATTTCATC
AGAATCGTACCCCCATCAGGAAATGAGAAGGGGGCCTGGACCCAGGCCCCTCAAACAATAAGGGCATTCATATTTCAGACCACAACCACACTTCAGGGGT
GGGTCCCAGAAGAAACATTGATTCCCTCACCCCAGGAACACCAGGAAGTCCAGGATAAGATCTCCCTGCCAGAGAAAGAATTATATTAGTTGGAGGAGAC
AAACCTACCAAAGCTCCCCCTGGCATTTAGAGACCTTTACCAGCAGGATACATGGGACTAATTTTGGGCAAGAGCCATCTTAACTTGTGAGGCATCACTG
TAGTCCCTGGAGTAGTTGACTCCAATTATGAAGGAGAAATTCAAGTAGTTTTAATGTCACAAGATCTTCAGGTTTTTGAACCAGGAGAATATATTGCTCA
ATTGTTGCTTATTCTCTGCAAATTACACCCTTCTCCATGAAAAGAGAAATGAGGRAACAAAGGGTTTGGGAGCACAACTACATGGGAAATCTATCCCAAC
CCATAAACTCTAATAGACCTACCTGTGTAATACAAATTAAAGAAAAGAAATTTTATGGGCTAATGGACACAGGAGCTGATGTGTCAGTAATAACCAGTAA
GGACCGGCCCCTACCATGGCCTCTCAGACTAACCTCCACATCCCTAGTGGGAGTAGGAGCAGTTCAAAGTGTTTGACAGAGTGCTGAGATTTTACTTTGT
CTTGGTCTGGGTGGACAGTCATATACTTTTCAGCTCTATGTTGCAAATATAGCTATCAATTTATGGGGCTGAGACTTACGGCATGGGATAGCAGACTTAC
AAGTGAAAATTTGATAACCCAGGATTTAAAATGTTGAAGAATATGGGATATCAGAGTGGGAAAAGTTTAGGGAAATTCCTACAAGGAACTCCTAACCCGA
TATGAGAAACTGGAAAAACAGATAGAAAAGGGCTAGGACATCAGGATTTCTGATGGGGGTCATTGATATTTCTCCTCTGCCAACTGCCTTACCATTAGAA
TGGCTCAGCAAAACACCTGTATGGGTCGATCAATGGCCCCTAACACAGGAGAAACAAACTCAACTTCAGCAGCTAGTAAAAGAGCAATTGGATGCAGGAC
ATATAGTGATGTCAGCTGGAATTCACCAGTGTTTGTTATCTCAAAAAAGCCCGGAAGATGGTGACTGTGGCATGATTTGAGAGCTGTTAATGCACAAATT
AAACCAATGGGTGCATTACAGCAAGGTCTGCCAGCCCCAGCAGCCATTCCAAGATACTGGCCTCTTGTAGTAATAGATCTTAAGGATTGTTTTTTTTTTT
TACTATACCCTTACATAAGAAGGATAAGCCTCAATTTGCTTTCTCTGTGCCTTCTATTAATCAAAGAGAACCTGTTTCTCGCTATCAATGGAAAGTTTTA
CCTCAAGGCATACTTAACAGTCCTACACTATGTCAGCATTTTGTAGGAAGGGCATGAAAGGAGCCTTGGAATATGTTTCCTACTGCTTACATCATTCATT
ATATGGATGACATTCTTTTGGTCGCTCCTACAGATCAAATCTCACATGAGTTATTCCGAGGAACAAAGCAGGCTTTAACTAAATGGAATCTCAAAATAGC
TCCAGAAAAGGTACAATTTCCCCATACCATTACGCAGGCACTATTGTTACTGAAAGAAGTGTACAGCCTCAGAAAGTAGTTCTCTGTAAAGACAGGTTAC
AGACTTCAAATTATTTTCAACAGCTATTAGGGGATATTAATTGGCTGCACTCAGCCAGGCGCGGTGGCTCACGCCTATAATCCCAGCACTTTGAGATGCC
GAGGCGGGTGGATCATGAGATCAGAGGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCTGGGCGTGGT
GGCTGGCGCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAACTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCAGAGATCACTGCACTCCA
CTGCACTCCAGCCTGGGCGACAGAGAAAGACTCTGTCTCAAAAAAAAAAAAAAAAGAAAGAAAGAAAAGAAAGAAAAAATTTCTTCTGGTGTGAAAACTC
ACGTTAATAAATGTAAGTGGTGATTTTTTTGATTCTCCATTGCTCCCACAAGAACAGAAAACACACATTAGGGAAAAATCTTATGAATGTAATGAGCATG
GCAAAGTCTTTAGAGTGTCTTCAAGCCTTGGTAACCATGACATAATCCTGGATCCAGATAAACTTTACAAATGTAATGAGTGTGGTAAAGTCTTTAGGAA
AAATTCATACATTGTACAACATCACAGAATTCATAYAGGAGAGAAATCTTACAAACGTAATGAATGTGCAAGGTCTTTAATCGCAATTCACATCTTGCAG
AACATCTGAGAATTCATACTGGAGAGAAACCTTACAAATGTATGGAATGTGGCAAAGTCTTTAGTCGCAATTCACACCTTACAGAGTATTAGTGAGTGAA
TACAGGACAGAAACCTTACAAATGTAATGAATGCGGCAAGTTCTTTAGTTGCAATTCAAACCTTGCACAAMATCGAAGAATTCATACTGGAGAAAGTCTC
AGAAACAKAATGAATGTGGCAAAATATTTAACGAGTGGTTAGACCTCACTGCCCATCTTGTAATTCATACTGGAGAGAACCTTACAAATGTAAAAAAATT
TGGCAAAGTCTTCAGGTATGAGTTATCCCTTATCAATCATCAGAGAATTCATACTGGAGAGAAACCTTACAAATGTAATGAGTGTGGTAAAGTCTTCAGG
AATAATTCATACCTTGCATGACATCAGAGAATTCATACYGGAGAGAAACCTTACAAATGTAATGAATGTTACAAGGTCTTTACTCAGAGTTCACACCTTG
CAGAACATTGGATAATTCATACTGGAGAGAAGCCTTACAAATGTAATGAATGTGGCAAAGTTTTTAGCCCGAGACTGAGTTATTTCTTACTGGAGAGAAA
CCTTACAAATGTAATGAATGTTACAAGGTCTTTACTCACAGTTCACACTTTATAGAACATTGGATAATTCATACCAGAGAAAAGCCTTACAAATGTAATG
AATGTGGCAAAGTTTTTAGTCAACTTTCATACCTTGTATGACATCGAAGAATTCATACTGGAGAGAAGTGTTACAAATATATTGAATGTGGCAAAGCATT
TAGTGACTATTCAGGCCTTATTGCCCATCTTCTAATTCATAGTGGAAAGAAACCTTACAAATGTCATGAACGTGGCAAGGTCTTCAGGCATAGTTTATCC
CTAAGCAATCATCAGAGAATTCATACTGGAGAGAGGCCTTACAAATGTWATGAATGTGGCAAGGTCTTCAATCAAATTGCACACCTTGCACGACATTGGA
GAACTCATACTGGAGAGAAACCTTACAAAAGTAATGAATGTGGTAAGATCTTTAGTCACAATTCACACTTTACAGAACACTGGATAATTCATATGGAAGA
GAAACCTTATAGATGTAATGAATGTGGCAAGGTCTATAGTAGCTATTCATACCTAGCACAATGTTGGAGAATTCATACAGGAGAGAAACTTTACAAATGC
AATAAATGTGCCAAAGAATTTGGTGGGCATTCAAGCCTCACTRCCCATCTGTTAATCCACAYTGGAARGAAACCTTATACATGTAAGGAATGTGATAAGG
ACTTCAGGAACAAGTTCTCCTTAACAATTCATCAGAGAATTCATACTGGAGAGAGACATAAATGTAACGAATGTGGCAGAGCCTTTAATCAAATTTCACA
CCTTGCAAAACATCAGATAGTTCATACTGGAGAGAAATCTTACAAATGTAATTAATATAGCTAAGCATTTAGTGTGCATTCAAGCCTCGCCTTTCATAAA
ATAATCCATAATGCACAGAAACCTTAAAAATGTAGTGAGTGAGACTAGGTTTTTAGACAAAAGTTCCACCTTACAAGTTATCACAGAGTCCATTCTGGAG
AGAAACCTTACAAATATAATGAGTGTGGTAAGGTCTTCACTCAGATTTCACATCTTGCAAATCATCACAGAATCCATACTGAAGAGAAACATTACAAATG
CCATGTATGTGGTAAGGTCTTTAGTCACAAATCACAACTTACACCGCATCAGATAATTAATTCATGAGACAGTCATTACAAACCGAGTATGGCAAACTTT
TCATCATGAGCGTTAATCAACATCAGAGTCCATAGTAAAGAGAAACCATGTAAATGTAGTGTACAAGACACAGGCTTTGTTGAGGCCTGCCACATCACTA
GACATCAAAAGATATATCTTTGAAAATACCTCACAGATAGATTTTGTATGCTGAGGCTATAACTCAAGGAATATTACTAGAGTACATCAGAAGACTTATG
CAAGAAATAACTCAGTCTCTGGTTCTCTTATATTAATGTATGATATTGCATGCTGAAGAAACATTATACAACAAAATATGTTTATCCTCATGACATGATG
TGTACCAAAGGTTCAACGGCATGTGGAAATGATCAGTTATATTCAGCTTATAATTTTTTAAAAAATTATTTGGGAGGTTTTTTGAAAAGGCTTCTTTACT
CTTTATGACTTTAGCCTGAACTTTGAAATCTTTTCATGGCATGGAGGTGAGCAGAGAATAATGTAAAACTATGATGCCAGTCATTATACTTATTGTGTTC
AATGTATCCTTTTCCTTACAGAATGGCTTAGTGCTTCTATGCTCTACCAAATAACCTCAAAATAGAGCATGTCATGGCCTTAGGAAAATAGGATTTTTAT
GGAAAAGAGTAATGGGTTCTTAGGGACTGATTATGCCATAGAAATCATCCAGGGGAAATGATGGCCACCTCCTCAACTGAATAGCAATAGCTGTTGTTTA
GCAAAAATTGATGAACTATAGTCTTATTTTTGAAATGGAAGAGAGAACAGTTATATCAGAGTAGAGAGTTTAATGAAAACTGCCAATATAGCATGTTCTT
GAATAGAATTCACATTTAACTGTTGGTAATATAATGTGCAACTTTGATTTAGAATGTGCATAGTTCTCATGTTTTATGTAATAAAGTTTAAATTTTCTTA
AGTATGAATGAATCATGTTATGTCTACCAACACTGTTTTATCCCACCACAGGAAGATACTTTATAGCAGACAATAATAATGCACCATTAGGGTTTTCACC
ATGTTGGGCAGGCTGGTCTCGAACTCATGGCCTCAGGTGATCTACCCGCCTTAGCCTCCCAAAGTGCTGGGAATACAGGCATGAGTCACTGTGCCTGGCC
ACCATATTATTATATTTCTATGTGCCTTTTTGTGTGTATGCCAAATAAGACCCATGGCATGCACCTTCATTTATATGAAGTATACCAATATAGTAATATG
AAAAATAAGATGTAAAAATGTATGAGGTTAAGGGTAAAAATACTGTAATAATGTCTTTTTCGTCCTTGTGATTAGTGACATTAATCTGAAAATACTAATC
TTCATACATTTTCTCAAGAATGAACACACAAAATGAGTATTGTTTTCTTTTGGCAGACTGACTAGAAATTTCATATATTCACCTTCATACCTTTTTTTTG
GTAATTTTAACTTTTGCCCACTGTACTGGAACTTGTCTAAAGTCTACCTGAGGTTTGGTTTGGATATTGATAATGATGATGCCATACACTCAAATGGCCT
GAAAATGTTTATTACATAATGAGGCTTTATGGAGAAAGCAGGGTAGACTTCTCTAGCTGGTTCAAATGCAGCTTCAGAGAACTGGAATAGATGACAGGCT
TGGGGTACCATGATTGTTAAAGGATAGGGCTGGGGTTGGAGTACCCACTTGTGGTTTGAACTTCCAGCTGGTGCAAAAGGAGGGGGCACTCAGGCTTTAT
TATCAGCTTGACAAGATGGGCAGAATACAAAGAGGGAGTGCAGAGGTGTAAAATGTGTTAGTAATTGTATTAGGGTTCTACAGAGAAACAGAACTAATAG
GATCTGTGTATATATAAAAGGGAGTTTATTAGGGAGAACCGGCTCATACAATTGTAAAGTTAAGTTCCACAATAGGCTCTCTGCAAACCAGGGAAGAGAA
AAGCTGGTAGTCGCTCAGTTAAAATCCAAAAGTCTCTGAACCAGGGAAGCCAACAGTATTACAGCCTTGTATTAGTCCATTCTCACATTGCTATAAAGAA
ATATCTAACACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGGCTCACAGTTCTGCAGGGTGTGCCGGAAGCATAATGCCAGCATCTCTCTGACTTCTA
GGGAGGCCTTAGGAAACTTAAAATCATGAAGGAAGGTGAAGTAAGAGCAGGCACTTCACATGGCCAGAACAGGAGGAAGTGGGTGGGGGTAGGTGCCACA
CATGTTTAAACAACCAGATCTCACAAGAACTCACTATTGCAATGGGAGCACAAAGAGGAAGATGGTGTCAAACCACGTGAAATGCCCTCCATGATCAAAT
CACCTCCCACCAGGCCCCACTTTCAGCACTGGGGATTACAGTTCAACATGAGTTTTGGATAGGGACATAGATCCAATCCATATTAGGCTTTCAGTCTATG
GCTAAAAGCCTGGAAGCCCTTGGGAAGCCACTAGTGCAAGCCTCAGAGTCCGAAGGCCAAAGAACCTGGAGTCTGATTTCCAAGGGCAGGAGGAGTGTAA
GCAAGCGTCCAGCATAGAAAGAAGAAAGAGCCAGAAGACCCAGCAAGTCAATTTATTCTACCTTTTGCCTGTTTTGTTCTAGCCGTCTGGCAGTCAACTG
GATGGTGCCCACCCACACTGAGGGTGGGCCTTCCTCTCCCAGTTTACTGACTCCCATGTCAATCTCCTTTAGCAATACACTCACTGACATATCCAGAAAC
AATACTTTATGAACCATCTAGGCATCCCTCAATCCAATCAAACTGACAACCAAGATTAACCACAAGTCTACCCCTCATCAACTTGGCACCCATACACATC
TCCTTAAATCATAATCTCCAAATATAGACAATAATGTCATAATTATGCCTCAGCAGTTCTTTTGGAGTGCAGCGCACCTCCTCACGGGTCACATCACCTC
TAGCAGCCACTGGGACTTGAGTCTAGTTACAGGTCTAGAGGCAAAGAAGGGTGGTGGGGGAGGAACCTGAGAAGAATCAGCATTGCCTTGCCTCGCATCT
GCCTCAGAGGAGGCCATTGTTGTTTCCTCAGGCAATGCATGGTGAATGTCCTCAGAAAAAAGGTACAAAGGCTGAAAGCAGCCTTGGTGGGGAAGAAGAT
GTTGCCACCATGAGGGGTAGGGAGGCCATTTTCTCTCGCAAAAAGGGCTCATCAGGGTTTAAGAGCTCAGTGTTCCCAGCTTCATCAGGATCCTCCCACA
CATCCCTATGTCAAGTTACATGCTCCCAATCTTTCCCAATCAATGCCCTTACTTTATAGATACCTGGTGAGGCTGAGTGTGCACCAATTATTGTAGGTCA
TCCACTCACATAAGAGCTTGTGTCTGATTTTTGGCAATTTCAGCCTTTTGTCTACAAAACAGTCGCACCCAGGGTACCCTTAGAAGCTTTGAGGCTAAGT
ATGATATATTCTAGATCTGGGAGGTATCATCTCTGAGCTTATCCATTTCTTTCATCATTTTTTACCAGGGAACTTAGGAAAGCAACTTCATTATGTTCTT
TGGTTCTCCAGAAATGTTGAAAAGTATCATGTATAAAGTCACTAAACTCCTTGCCTCTCAGGAGCACTGAATCATGAGTATCAAATACATTTATTTTGCA
CGAGTCTCTGAACAATGCATACCAAGGACTATCAGTGTTCTCTGTACTATTAGAAGTAGAGACCTTAGCATTTTTAGTTGTAATAAGATTAGAGAGCCAA
CTCCAGAAGCCCCTAAACCAACTAAGGAAATTCATCCTTAAAATTTTGTTCCTCTAGGCTGGACACAGTGGCTCACACCTGTATTCCCAGTACTTTGGGA
GGCCAAGGCAGGTGGATTACTTGAGCTCGGGAGTTCGAGATCAGCCTGGGAAGCATGGCAAAACCGCATCATACAAAAAATGCAAAAATTAGCCAGGTAT
GGTGGTGCACACCTGTAGTCCCAGCTGCCTGGGGAGCTGAGGCAGGAGGATGGCTTGAACCTCAGAGGTGGAGGTTGCAGTGAGCCAAGATTGCACCACT
GCACTCCAGCCTGGGCAAAAGAGTGAGACCCTGTCAAAAAAAAAAAAAAAACAAAAAAAAACCACTCCAGGTACCAAAGTCTGTATTAGTCAGGGTTCTC
TATAGGTACAGAACAAATGGGATACATGTATATATAAAAGGGAGTTTATTAGGGAGAATTGGTTCACACAATTACAAGGCAAAGGTCCCATGATAGGCTG
TATGCAAGCTGGAGAAGAGAGAAGCTGGTAGTGGCTCAGTCCAAGTCTGAAAACCTCAAAACCAAGGAAGCCAATGATGCAACCTTCAGTCTGTGACCAA
AGGCTCGAGATATCCCAGGAAGCTGCTGGTTCAAGTCCCAGAGTCCAAAGGCTGAAGAACCTATAATCTGATGTCCAAGGGCAGGAGAAGCATAAACAAG
CATCCAGCATGGGAAGAAGAAAGAGAACCAGAAGACTCAGCAAGCAAGGTTATCCCACCTTCTTCCACCTGCTTTGTTCTAGCCACACTGGCAGCCAGTC
GGATGGTGCCCACTCACATTGAGGGTGGGTCTTCCTCTCCTAGTCCACTGACTCAAATGTCAATCTCCTCGGCAACACCCTCACAGACACACCCAGAAAC
AATACTTTATCAGCCATCTAGATATCCTTCAACTCACTCAAGTTGACACCTAATATTAACCATCACATTACTCAGACATCACAAAATGAAGTCTAACTCT
TTAGGATAACACTGAATGTTTACTCTTGAAACTCCAGACTTGGTTAGGAGAGACTTCAATTTTCTTCATGGTAATAGCTTATTACATTCCTCTTGTGGCT
GGACACATAGGTCCCATTGCACAATATGACTGTTGAAAATGCTTGTGAAATACTGTTTAGTAAAATTGCCTAAGATATTTTTCATATCAGTTCAGTGAAA
ATTATTGTGAAGTGTTTATTTACATAATATAATTTATCATTATCTAATTGTTATATATAATAAATAGGACTCTACTAGAAGAGCATTTTTCCAAAAGCTA
CGGAAATGTCATTTTTGATTATGGTATTAAGCAAAATGTTCTCTGGTTCTTTAATTGTAATAAAATTATTTTTTGTTTTTGTACACAATTTTAAAAAGTT
TCCTTTTCCATATGTTGCAGTCTACATTCTATGTTTCATGCATTTCTTCCCTTTGTTACTGTAGTGAAAAGTTTAGGGGGCACATAAATGAAGCTGTTAT
TTGGAGAAAAAAAATATGCATGAGTATGCACATAAGATCACGGCAGGTATAAACTAGGTTTATTGTAAATATGAAAAAAAGAAGGAAATACTTATACTAT
ATTAGAAGACTTGAAATCACATGAAATGATTCCAACCTTTTTATTTTTTTTCCCAGATGTTTTAGGCATTCTATCTTTTTTTGCCTTTCTACATAATTTT
TTGGATAATCTTGTTAGTATCCACAAAACACCTTGATAGGAAATGTATTAATGTTGTATATCAATTTGGTTAATTTCACATTGTTTCTATGCTGAGTCTT
CCAATAAATTGACATTGTATATGTCTCCATTTGAGTGCCTTTGATTTCTTTCGTCAGCATTTTGTAGTTTGTTTTCTTTCTTTCTTTTTTTTTCTTTTTT
AAGAGTTGGGGTCTCACTCTGTTTCCCACAGGCTGGAATGCAGTGGTTTGATCATGCTCACTGCCATCTCAACTGACTGCCCTCAAGTGATCCTCCCACC
TCCGCCTCCCAAGCAGGTGGGACTACAGGTTTGTGCCACCACGCTCAGCTAAATTTTTTATTTATTTTATTTTATTTTATTTTTTTTGAGATAGTGCTTT
GCTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACCACAACCTCCACCTCCCGGGCAAAACAAGTTACTAACAGATATGATCTACAAAA
GTAAATTGAGGTGTGGTGGT


SNP Information

Context             (SEQ ID NO:40810):
TTCACACCTTACAGAGTATTAGTGAGTGAATACAGGACAGAAACCTTACAAATGTAATGAATGCGGCAAGTTCTTTAGTTGCAATTCAAACCTTGCACAA
M
ATCGAAGAATTCATACTGGAGAAAGTCTCAGAAACAGAATGAATGTGGCAAAATATTTAACGAGTGGTTAGACCTCACTGCCCATCTTGTAATTCATACT
Celera SNP ID:            hCV8706955
SNP Position Genomic:     6571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40811):
GAAGCAAGGAGTCCCCTGACCACTTCTTCCAAACATATTCTTTTGTCTTTAATTCCCGCGTTCCTTCTCCTTTGTTCAGTCCAACAGGGTCCACGGCAAC
R
TGGCACCCATACACAGGGATAGGAGGACATGAAGGAAGAAGGTCTGCTGGAGCAGAAGAAGTGAAATTGATCAGATGAATGGGGACACCAGGAGGAGTCT
Celera SNP ID:            hCV29188723
SNP Position Genomic:     103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40812):
GAAACCTTACAAATGTCATGAACGTGGCAAGGTCTTCAGGCATAGTTTATCCCTAAGCAATCATCAGAGAATTCATACTGGAGAGAGGCCTTACAAATGT
W
ATGAATGTGGCAAGGTCTTCAATCAAATTGCACACCTTGCACGACATTGGAGAACTCATACTGGAGAGAAACCTTACAAAAGTAATGAATGTGGTAAGAT
Celera SNP ID:            hCV26639130
SNP Position Genomic:     7349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:40813):
AGAATTCATACAGGAGAGAAACTTTACAAATGCAATAAATGTGCCAAAGAATTTGGTGGGCATTCAAGCCTCACTACCCATCTGTTAATCCACACTGGAA
R
GAAACCTTATACATGTAAGGAATGTGATAAGGACTTCAGGAACAAGTTCTCCTTAACAATTCATCAGAGAATTCATACTGGAGAGAGACATAAATGTAAC
Celera SNP ID:            hCV11467380
SNP Position Genomic:     7668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:40814):
ATCAGAGAATTCATACTGGAGAGAAACCTTACAAATGTAATGAGTGTGGTAAAGTCTTCAGGAATAATTCATACCTTGCATGACATCAGAGAATTCATAC
Y
GGAGAGAAACCTTACAAATGTAATGAATGTTACAAGGTCTTTACTCAGAGTTCACACCTTGCAGAACATTGGATAATTCATACTGGAGAGAAGCCTTACA
Celera SNP ID:            hCV26639131
SNP Position Genomic:     6839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:40815):
TGTTGGAGAATTCATACAGGAGAGAAACTTTACAAATGCAATAAATGTGCCAAAGAATTTGGTGGGCATTCAAGCCTCACTACCCATCTGTTAATCCACA
Y
TGGAAAGAAACCTTATACATGTAAGGAATGTGATAAGGACTTCAGGAACAAGTTCTCCTTAACAATTCATCAGAGAATTCATACTGGAGAGAGACATAAA
Celera SNP ID:            hCV11467381
SNP Position Genomic:     7662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:40816):
CAGAAACCTTACAAATGTAATGAATGCGGCAAGTTCTTTAGTTGCAATTCAAACCTTGCACAAAATCGAAGAATTCATACTGGAGAAAGTCTCAGAAACA
K
AATGAATGTGGCAAAATATTTAACGAGTGGTTAGACCTCACTGCCCATCTTGTAATTCATACTGGAGAGAACCTTACAAATGTAAAAAAATTTGGCAAAG
Celera SNP ID:            hCV26639132
SNP Position Genomic:     6608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40817):
CTATTCATACCTAGCACAATGTTGGAGAATTCATACAGGAGAGAAACTTTACAAATGCAATAAATGTGCCAAAGAATTTGGTGGGCATTCAAGCCTCACT
R
CCCATCTGTTAATCCACACTGGAAAGAAACCTTATACATGTAAGGAATGTGATAAGGACTTCAGGAACAAGTTCTCCTTAACAATTCATCAGAGAATTCA
Celera SNP ID:            hCV11467382
SNP Position Genomic:     7643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:40818):
GGCGACAGAGAAAGACTCTGTCTCAAAAAAAAAAAAAAAAGAAAGAAAGAAAAGAAAGAAAAAATTTCTTCTGGTGTGAAAACTCACGTTAATAAATGTA
A
GTGGTGATTTTTTTGATTCTCCATTGCTCCCACAAGAACAGAAAACACACATTAGGGAAAAATCTTATGAATGTAATGAGCATGGCAAAGTCTTTAGAGT
Celera SNP ID:            hCV26639133
SNP Position Genomic:     6116
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,12)   total(A,12|-,3) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:40819):
TGTCACAAGATCTTCAGGTTTTTGAACCAGGAGAATATATTGCTCAATTGTTGCTTATTCTCTGCAAATTACACCCTTCTCCATGAAAAGAGAAATGAGG
R
AACAAAGGGTTTGGGAGCACAACTACATGGGAAATCTATCCCAACCCATAAACTCTAATAGACCTACCTGTGTAATACAAATTAAAGAAAAGAAATTTTA
Celera SNP ID:            hCV26639141
SNP Position Genomic:     4455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40820):
CATGACATAATCCTGGATCCAGATAAACTTTACAAATGTAATGAGTGTGGTAAAGTCTTTAGGAAAAATTCATACATTGTACAACATCACAGAATTCATA
Y
AGGAGAGAAATCTTACAAACGTAATGAATGTGCAAGGTCTTTAATCGCAATTCACATCTTGCAGAACATCTGAGAATTCATACTGGAGAGAAACCTTACA
Celera SNP ID:            hCV8706960
SNP Position Genomic:     6336
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,14)      total(C,3|T,14) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 5


Gene Number:                 194
Celera Gene:                 hCG27243 - 110000085683589
Gene Symbol:                 IL1F5
Protein Name:                interleukin 1 family, member 5 (delta);FIL1;FIL1(DELTA);FIL1D;IL-1F5;IL-1RP3;IL1HY1;IL1L1;IL1RP3;MGC29840
Celera Genomic Axis:         GA_x5YUV32VY9Y(617561..635632)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12354):
GAGCTGAGTCCATGCCTTTTTCTCTCTGCGTTGGGAAAGCCATGCTAGCTACATGCATTTTTGGTCATGAACCAGTCTTAGATTTAAGTCAATGTAAATT
TGGCCTTTGCCGTGTTCTTAATGTCTTCTTTACATACCTAGGAAAAGTGAAGGAGAGGTGAGAAAGACAGAGTGGGGAGGAACCCGTGTCTGTGGGTTTG
TRCTAGATGCCAACCTGGCTCTTCACATCCTCTGTCTCATCCAGTCAAGCAGCCACACTGAGTCCCCCAGCATGAGAACAGCTTCCACAGAGCAGGAGAT
TCTGGGTCTGAAATGAGGAGAGAGCTCCAGTCCCACCAGTGCCCTAGAGCATACCTCAGAATGCTCCTTTCTCCTGGTGGGATCCGTGGAGTCTGCCTGC
TCTTCCAAGGATGCCTCAGCCTTTTAAGTAAGGCCTAGGGAGGGGCCCTGAAACTACCAGGACCTGAGGAGAAGCAGGATTCTCAGCGTGATTTCACACC
ACCCTAAGCCGCCGGGAATACTTGCTGCTCATTATCTCTCTATTGGAGTCTCATGGAACACATTGTGGGAAGTGCTATAGAATTCTAGGGACATAGTGGG
CACCAAGTGAATATCAGTTACTTTAATTATTACTAAATTTATCTCCCTAACAGGAATTTACTATCTTACCATAATAAACTCTGCTTACATACTCATATAG
GTGAATACACCTGCCCTAAGTCATCTCTACAGCAAGAGCAGAGGCCACATCTACCTCCAGGGTTATTGCCATTCTCACAAAGGTGAGGATAAGTCACCAC
GGGGAACATTGCTTCTCTGCAGGCTGTGACACTTTCCAGGGCATATAAAGCCCATGAAGAACTGAGATGTTTGCTGAGAAGAGAGCATACCCACCGAAGA
CAGTGGAAAATGAAAAAACAACAGGAGTAGAAACTTCCCAATAGTGATGTCAAACTGTATTAGTTACTAATTGCTGTGTAACAGCAAACCTAGCGACCTA
AAACAAACAAAAAAATTATTTAACAAAGACAGAGTCGGGAATAAGAAAACTGGCTTGGCTGGAGGGTTCGGCTCAGGGTGTCTGATTAGGTTGTAGGAAA
GATGTCAGCCAAGGTTTCAGTCATCTGAAGGCTTGACTGGGACTGAAGGATCTGTTTGTAAGATTGCTCACTCAGACCATTGGCAGGAAACCACAGTTTC
TCACCATGTGGGCTTCTATATAGGGGTGCTTGAATATCCTTATTAGATGGCAGCTGGCTTCATCCAGGTGAGTGTTCTAAGAGCAAGGAGGAAACTGCAA
TGCCTTTTATGACCTGGTCTCAGAAGTGACATGCTGCCATGTTCACCATGTAACATACTCATTAGAAAAAAGTCACTAAGTCCAGTCCATACTCAAGAGA
AGGGCAGTTAAACTTCCTCTCTGTATCAGTCTGTTCTCACACTGCTAATAAAGACATACCTGAGACTGAGTAATGTGTAAAGGAAAGAGATTGAATTGAC
TCACAGTTCCACATGGCTGAGGTGGCATCACAATCATGATGGAAGATGAAGGAAGAGCAAAGTCACATCTTACATGGCAGGAGGGAAGAGAGCTTGTGTA
GGGGAATGCCCCTTTATAAAACCATCAGGTCTCATGAGACTTATTCACTAGAATGAGAATAGCACAGGAAAGACCTGCCCTGATGATTCAGTTACCTCCC
ACTGGGTCCCTTCCATGACATATGGGAATTATGGGAGCAACAGCTCAAGATGAGCTTTGGGTGGGGACACAGCCAAACTATATCATTCCACCCCTGGCTC
CTCGCAAATCACATGTCCTCACATTTCAAAACCAATCATGCCTTCCCAACAGTCCCCCAGGGTCTTAACGCATTTCAGCATTAACTCAAAATTCCACAGT
CCAAAGTCTCATCTGAGACAAGGCAAGTCTCTTCTGCCTATGAGCTGTAAAATCAAAAGCAAGTTAGTTACTTCCTAAATACAATAGGAGTACAGGCATT
TGGTAAGTACAGCTATTCCAAATGGGAGAAATTGGCCAAAACAAAGGGGCTACAGGCCCCATGCAAGTTCAAAATCCAGCGGGGCAGTCAAATCTTAACG
CTTCAAAATTACCTCCTTTGAGTCTCTGTCTCACATCCAGGTCATGCTTATGCAAGAGGTGGGTTCCCATAGTCTTTGGCAGCTCCACTCCTGTGACTTT
GCAGGGTACAACCCTCCTCCTGGCTGCTTTCATGGGCTGACACTGTCTGTGGCTTTTCCAGGCACACAGCATAAGCTGTTGGTGGATCTACCATTCTGGG
ATCTGGAGGACAGTGGCCCTCTTCTCACAGTTCCACTAGACAATGCCCCAGTGGGGACATTGTGTGGGGGCTCCCACCCCACATTTCCCTTCTGCACTGC
CCTAGCAGAGGTTCTCCATGAGGGCTATGCCCATGCAGCACACCTCTGCTTGGACATTTAGACATTTCCAAACATCCTATGAAATCTAGGCGGAGGCTCC
CAAACCTCAGTTCTTCACTTTTGTGCACCCACAGGCTCAACACCACATGGAAGCTGCCAAGGGTTGGGATTTACACCCTCTAAAGCCATGACCCAAGCTG
TACCTTTGCCCTCTTTAGCCAAAGCTGGAGTGGCTGGGATGCAAGTCATCCCAAGTCCTGAGACTACACAAAGCTGCCAGGCCCTGGGTCTGGCCCATGA
AACCATTTTTTCCTCCTGGACCTCCAGGTCTGTGATGGGAGGGGCTTCTGTGAAGACCTCTGATATGCCCTGGAGACACTTTCCCCATTTTCTTGGTGAA
AAACATTTGGCTCCTCTTTCCTTATGCAAATTTCTGCAGCCAGCTCGAATTTCTCTTCAGAAAATAGGTTTTTCTTATCTCATCTTCATGCTGCATGTTT
TCCAAACTTTTATGCTCTGCTTCCCTTTTAAATGTAGGTTCCAATTCCAAACCATATATTTGTGAATACATAAAACTGAATGTTATCAGCACCCAAATCA
CCTCTTGAATACTTTGCTGCTTAGAAATTTCTTTTGCCAGATGCCCTAAATCATCTCTTTCAAGTTCAAAGTTCCACAGATTTCTAGGTCAGGGGCAAAA
TGCTGCCAGTCTCTTTGCTAAAGCATAACAAGAGTCACCTTTGCTTCAGTTCCCAACAAGTTCCTCATCTCCATCTGAGACCACCTCAGCCTGGACCTTA
TTGTCCATATCACTATCAGCATTTTGGTCAAAGCTATTCAGTGAGTCTCCAGGAAGTTCCAAACTTTCCCACATCCTCCTATCTTCTTCTGAGCCCTCCA
AACTGTTCCAACCTCTGCCTTTTACCCAGTTCCAAATTGCTGGGTAACAGGCAAAGTGTTAAAGTGCTGAAATGCCAATAGTGATGTCAAGGTGTGTTAG
TTACCAATTGTTGTGTAACAAAGTATCAGCAAAGTTAGCAGCTTAAAACAAGAAAAAATTATTATTTAACAAAGGCTGAGAGTCAGGAATGAGAAAACTG
GCTTGGCTGGAGGGTTTGGCTCAGGGTGTCTCATTAGGTTACAGGAAAGATGTCAGCCAGGGTTGCAGTCATCTGAAGGCTTGACTGGGGCTAGAGGATC
TGCTTCTAAGATTGTGCATTCACAGACTGTTGGCAGGAAAAAATAGTTTCTCACCACGTGGGCCTCTCCATAGGGCTGCTTGAGTGTCCTTATCACATAG
TGGCTGGCTTTGTCCAGGTGAGTGATCTAAGAGCTAGGAGGAAATTGCAATGCCTTTTATGATGCTGCCATGTTCATCATGTAACATAGCGCCCCACTCC
CAGTATCAATTTACTATATCAGTCTGTTCTCATGCTGCTAATAACAACATAACCAAGACTGTGTAATTTATAAAGGAAAGAGGTTGAATTGACTTAGAGT
TCCACATGGCTGGGGAGGCCTCACAATCATGGTGGAAGATGATGAAAGAAGAGCAAAGTCATGTCTTACATAGTGGCAGGCAGGAGAGCTTGTGTGGGGA
AATTCCCCTGTATAAAACCATCAGATCTTGTGAGACTTATTCACTATCATGAGACCAGCACAAGAAAGACCTGCCCCCATGATTCAATTACCTCCCACTG
GGTTCCTTCCATGACACGTGGGAATTATAGAAGCTACAATTCAAGATGAAATTTGGGTGGGAACAGAGCCAAACCATATCACCTTCTTAAAGATGAAGTT
TCCAAGAATTTATGGACATATTTTAAAACAGCCACACATGGTTTGCGAATTGGCAGCATTGTCTTTAGGTAGTGCCAAAGTTTATTTTTCAGAAGTTCAA
AACTTGACTCTCATACACACATATAGTGAGCATGTGTCAAAGATTTACTATTTTTCATAAGTGAGGGAATCAGCAAGATTATAAAGCTGATTATCAAAAG
ATAATTCAGGGAATGGAGGCTTATACCGTCAGTCAAGAAATAAAGGCTGAAATAGGTTGGCTAAGTTACGTTTTTAAAGACAGCTTTATGACTTGTGAGG
CAATAAAACTGCACCCTTTGGAGTTATCTTTTCTATCAGACAGGAATAATGTGTAATTTATCAATGTTCTCTTAGTTCATGGCTAATTTCACAGAGTCTG
AGACCTAATTAGTAAGTCAAGCAAAGGGATAGGTCCAGAGAGAACTTATTGTTGGTGAGGCCTGTTTGATAATGTTTTCATATAATATTGACAGTATACA
CAGTCATAGTTTCATTTTACTTATTATTTATTTATTTATTGAGGCAGAGTCTAGCTCTCTCTGTCATCCAGGCTGGAGTACAGTGGCTCAATCTTGGCTC
ACTGCAACCTCCACCTCCCAGGTTCAAGCAATTCTCACACCTCAGCCTCCTGAGTAGCTTGGATTACAAATGTGCACCACCAACCCGGCTAATTTTTGTG
TTTTCAGTAGAGATGGGGTTTTGCCACGTTGGCCAGGCTTGTCTCATTTCATCTTATTTCTACTGTCATTCCATTTGGTCAATTTGTAATTTAATAATTT
TGTACAAGGCAGTTTCTACATTAATTTTATTTTTCTGAAAAGTGTCTATCATATTAGTGGCATTATGAAAATCGTAGATTATTTTCTGTGTTTTGAACAA
CTTGATATTTTATTTATTCTTGAACACTTGTAGGACCTCTTGGCTCATATGTCTGAATACCATTTCTTTAAAATGTACGCTTTAACATGTATACATATGT
AACAAACCTGCACATTGTACACATGTATCCTAAAACTTAAAGTATAATAATAATAATAAAAGAAAAAAGAAAAATAAAACTTAAAAAAAAAAGTGTATGC
TTTAACAATAAATTATTAATAAATAGTTATCTGTGTTATTCAAGATATAATTAAATTGTTTTTTGTGCACTGACCCTTACCTTTATTTCAGATCCATCAC
AGAGAGTGCATGGAGGTATTTAAACTGCATTAACTGTTTCACAATTAAGTATTATCTTATCAATTAGGTATTCAAGAAAGATCACTTACAGAATTATAGA
TGGCATGAGCTAGATTTTACTTTCTAAAGAAATAACCAGATACATGAGCAAAGATGTTAATACAAAGATGTTTGTCACAACATGGTTTTCAATAGCAAAA
AAAGAGAGAAAAATATATAAAAGACAAATAACAGTGGATAGGTTTCAATAAATAATGTTACAGTGATACAGTTAAATACTATACAGCTATTGAAGCATGT
CATTATTCATATTTAGTATGGAAAGATATTTTGCTATTTTGCTACATGAAAAAATGAGGTTGGAAAAAGTATAGGTTTTGTGAATCTGTTGTATGAAAGC
TGTCTATAGTTACATGTGTATGTGTGTGGAGGAAAAAGTGTTGTCATTGGTTTTCTGATGATGCACTCAGAAAAGACAAGTATTCACATTTTTTCTTGTG
GCTGATCTGGATTTTCAGGTTTTTCTACAATGAACATGTAGGCTGAACATTCCCTAAGCAGGAGAGTCCCACCTCTAACATCTCCTGTAGGCCTGGCAAT
GGCAGGCAGGAAAGACAGAGGAAGGAAGGAGGGAGAAGGGAAGGAGTGAAGGAAGGAGTGAAAAAGGTAAGGAAGAAAGGGAATAGGGGAGGAAGGGAGG
AAATGGGAAGGGAAAGAAGGAAAGGAAGGAAAGAGGGAGGGAAGAAAGGAAGGGAAAAGGGAGGGAGTGAGTGAATGAAAGATGGAAAGAAGGAAGAAAG
GGAGGGAGGCAGGGAGGAAAGAAAGTYGCGCTTCCCTTGAGCTGCCATGGGCACTGACTCTTAGGGTCTGAAAGCCCCTGAGATGCAAAAGCCTAGTGCT
CACAAAGAGCTGGAAAGCCTCAAGGAAGTTCTTCAATATTTYTGGAAGGAAACTGTCTCCAGAAGCTTCCCTCCCCACGACAGAYAATGAGCAGCAAGTG
CTTCTGGCGACTTAGGGTGATGTGAAATCACGCTGGGAATCCTGCTCCTCCTCAGGTCCTGGCAGTTTCAGGGCCCCTCCCTAGGCCTTACTTAAAAGGC
TGAGGCATCCTTGGAGGAACAGGCAGACTCCACAGCTCCCGCCAGGAGAAAGGAACATTCTGAGGTATGCTCTGGGGCGCTGGTGGTACCGGAGCTCTCT
CCTGACCCCAGACCCAGAATCTGCTCCGTGGAGGCTGTTCACATGCTGGGGAGCTCGGTGCAGCTGCTTGCTCCCCAGACCCCAGSCMACTCAGCCTCTC
TCTCCATGATTTTCTGTTGTTTATTCCAAAATAGGGGAGTCTACACCCTGTGGAGCTCAAGATGGTCCTGAGTGGGGCGCTGTGCTTCCGGTGAGTGTAT
GAGGCCCTGGTTTGGTGGTGTCCTCCGGAGGAAGTGAGTTCTGGATAGACCCGTTGTCCAGCTCTGAGCAGGAGGGAGGAAGGGAGGGGCTGCCATTGCA
GCTGGGAAATTGTGACCAGCACCTCAYTGCTCTTAGAGTTTTCCCAGCCTTTTTCAAATAGGGGCAGGACTGGGGCAGGCCATCTCACAAGGGGTCCCTG
ATGCTGAGGGGGAYAAGTGAACCTCCCAGTCTAGAGCTCCAGCCAAGTCTATCCAAGGTGGGAACGGGGGCCAGGATCCYTGCTCAGAGCTCCGCCATTG
TCCCCCATCACAGTGAATGGATGTAAGCTCACCCACTCTGTGCCCCTRCCTCCCTGCTACTCTTTGGGGATAATAATAAAACAAAAACCATTACCATCAG
YCAGTCTGTCCACCCACTGGCATGTACCAAGCCAGACACTCTGCCGTGTTCTGGGCTTWACAACAGAGGATGAGAGTGGTCCTTTCTCTCAGTCTAATAA
AGCACTTCCCAYGATGTGTTCTATGGGACTCGATTAGAGGAGTCCCACAGAGGCATCCAGGAGATGCTTTACACAGTGGAGCTCTCTGATCAAGTAAATG
CAGGGAATTCTGCTTTCTACATCCTCTCATAAGAGAACCACAGCCCAGCTCAGCATATGAGTGAYTGAGGTTTTCTGAAGTAAGGCAACTTGTTGAATYG
TATTTAGCYATGCATCGACCCAATTTTTACACTGCATCCTTTTCCCCCATATAACTTTTGGAGAAACCCACTTTAGGATACATCTTCCACCTCATAGGAT
GCCAGGAAATCAACTGAGTTCAAAGATGAGAAACAACTTTGAAAAGTTAAATAAAAGAAATTTAAATTTAAAGAAACTCCTCACTTAGTAAGGAATATAT
GACCAAATAGAAATACATGTATCTTGAAGAATTGAAGAATCAGGCTTTAACGTGGAAGAGGCCTGGATGTTATCCAACCCATCATCTTAGTGTAGCAATG
GGGAGGCTCAGGCCCAGAGTGGGCGAGAGAGTTGTCTCCTGCGACTCAGCAGCATTGGAGGCAKAGATGGGGCAAGAWCCTAGGGCTCTGACTCACCGWG
CAGCTTCTCTTCCARCAGGAGATGGGTTGGGGCAGAAAAGGTTGAATAGGGTGAAGGAGCAAACCACAGACTCCAGTGGGAGACTGTGGGGTCATCCTCC
TTGTAGGGCATGAGCCCAGCAGGGCTGGGAGACAAGGCTGTGCTGTTACTTCTGGCACAGTAGGAAGAAAGAGAGACAAAATGCCTGAGATCAGGGGGTT
CTCTGGATCCAGGGCATGCTGGAGTGTCCACCCTCCTCCTAATGTAGTCCTCACCCCTTCCTGATGTTTCAGAATGAAGGACTCGGCATTGAAGGTGCTT
TATCTGCATAATAACCAGCTTCTAGCTGGAGGGCTGCATGCAGGGAAGGTCATTAAAGGTTGGTGATGAAACATGACCCACTTTCCTTGGTCTCTATACA
CTCTCAGGGGAGGGGGCCTGAAGAGGGCTTAGAATAGTCATACAGATTAGCATAGGCCTACAGAGCCCAGGCATTRGGGCAGCACAAACCAGGCTCTAAG
CAAAGGCAAATAAAATACTACACCTCTCAGCAAAGTGAAGACACASGCTCTGGGGCCACCTGAAGCTTCTRTGCAGAAGTGRGAATGTTTTCCAAGAGGC
TTGTCTTGTCATTCCCTTACAGGTAGATTTAGGTCAAGCATTGCATTCCCTGGGAGCCAGTAAGTACCAAGGAGAGAACTAACGTAGATTCTCTATACCT
TTTTTCCCATATGGGAGTGGGTTTCTGCCTCTCCACCCTGGGTCCCCTCTGCTCTCTGAAGATCCTCAGTCACTTAGAGTGGAGGGACCCAGAGAACAGG
TGGCATTGTTGGACCTCCTGCTTGCTCACTCTGCCCCATGCACTGCAACASGTCCCTCTCTAAAATAGTTTGCACCTGCCCACCTGGGGCACCCTTGCTG
AGCACAGATGCCAGGTAGATCCTTCAGCTAGGCCATATGTGTATGTGTGTGCTTACTGGTGTATGTATGTGTGCATGCAGGCATATATGTGTGAGCATAT
GTGTGCATGCATGTATCTGTRTGTAACCATGTATGTGTGAGTGCAGGTATGTAGGTATGAGCATGTGTGTGWATATGTATATGTGTGCATGCATGTATCT
GTGYATGTATGTATCTGATGTATGTGGGTGGTGAGGGGATGTACAGAGAGGAATGAGACCCTCTTTTGCTCTCAGCAACMTCACAGGGTGTAGAAAGTTG
TCCAAACAATTCCAAAGGGGGGCTTATTAAGACAGGGTTCAGAAAAAGGCCTGAGACCCAAGGGGCATTAAAGGAGGGGGTTGARTCTATTTTGGGKTGT
AGAGGCTTGAAGATTTGACCCTGAACTAGAGGGTGGAGTGGAGGTGGTACAATGTGCTTCCATGCCTTGATGTCCACTCTGRGCCAGTGGACAGGAGAAG
CCATGTCATGACAGCTGCTGAGAAGCCTCCCTTCTGCCCAGCCTGGGGGCAGGCCGTCTYACAGCAGTCCTGTGCCCTAGAGCCCAGGACAGGGGAAGAA
GGAGGGAAAGGCATCCAGGGCCCTGCATCTGGCCTCTTTCCCACAGGTGAAGAGATCAGCGTGGTCCCCAATCGGTGGCTGGATGCCAGCCTGTCCCCCG
TCATCCTGGGTGTCCAGGGTGGAAGCCAGTGCCTGTCATGTGGGGTGGGGCAGGAGCCGACTCTAACACTAGAGGTGAGACTTGGGGCATCCTCACTGGG
GACTCAGCCACAGATGCTGAGCCTACTGAAGCCGGGCAGCCCACAGCCCTGGTGCTGTGGGACACCCTAGCAGGATTCTGTTGATGGCAGCTTTGCCTCC
TCCCTAAGGATCCTGCCCAGCCCTCCCTCTGCCCCTGCTTCTGCCCTCACCTGACCTCCCCTCCTCTGCCGGCAGCCAGTGAACATCATGGAGCTCTATC
TTGGTGCCAAGGAATCCAAGAGCTTCACCTTCTACCGGCGGGACATGGGGCTCACCTCCAGCTTCGAGTCGGCTGCCTACCCGGGCTGGTTCCTGTGCAC
SGTGCCTGAAGCCGATCAGCCTGTCAGACTCACCCAGCTTCCCGAGAATGGTGGCTGGAATGCCCCCATCACAGACTTCTACTTCCAGCAGTGTGACTAG
GGCAAYGTGCCCCCCAGAACTCCCTGGGCAGAGCCAGCTCGGGTGAGGGGTGAGTGGAGGAGACCCATGGCGGACAATCACTCTCTCTGCTCTCAGGACC
CCCASGTCTGACTTAGTGGGCACCTGACCACTTTGTCTTCTGGTTCCCAGTTTGGATAAATTCTGAGATTTGGAGCTCAGTCCACGGTCCTCCCCCACTG
GATGGTGCTACTGCTGTGGAAYCTTGTAAAAACCATGTGGGGTAAACTGGGAATAACATGAAAAGATTTCTGTGGRGGTGGGGTGGGGGAGTGGTGGGAA
TCATTCCTGCTTAATGGTAACTGACMAGTGTTACCCTGAGCCCCGCAGGCCAACCCATCCCCAGTTGAGCCTTATAGGGTCAGTAGCTCTCCACATGAAG
WCCTSTCACTCACCACTRTGCAGGAGAGGGAGGTGGTCATAGAGTCAGGGATCTATGGCCCTTGGCCCAGCCCCACCYCCTTCCCTTTAATCCTGCCACT
GTCATATGCTACCTTTCCTATCTCTTCCCTCATCATCTTGTTGTGGGCATGAGGAGGTGSTGATGTCAGAAGAAATGGYTCGAGCTCAGAAGATAAAAGA
TAAGTAGGGTATGCTGATCCTCTTTTAAAAACCCAAGATACAATCAAAATCCCAGATGCTGGTCTCTATTCCCATGAAAAAGTGCTCATGACATATTGAG
AAGACCTACTTACAAAGTGGCATATATTGCAATTTATTTTAATTAAAAGATACCTATTTATATATTTCTTTATAGAAAAAAGTCTGGAAGAGTTTACTTC
AATTGTAGCAATGTCAGGGTGGTGGCAGTATAGGTGATTTTTCTTTTAATTCTGTTAATTTAYCTGTATTTCCTAATTTTTCTACAATGAAGATGAATTC
CTTGTATAAAAATAAGAAAAGAAATTAATCTTGAGGTAAGCAGAGYAGACATCATCTCTGATTGTCCTCAGCCTCCAMTTCCCCAGAGTAAATTCAAATT
GAATCGAGCTCTGCTGCTCTGGTTGGTTGTAGTAGTGATCAGGAAWCAGATCTCAGCAAAGCCACTGAGGAGGAGGCTGTGMTGAGTTTGTGTGGCTGGA
ATCTCTGGGTAAGGAACTTAAAGAACAAAAATCATCTGGTAATTCTTTCCTAGAAGGATCACAGCCCCTGGGATTCCAAGGCATTGGATCCAGTCTCTAA
GAAGGCTGCTGTACTGGTTGAATTGTGTCCCCCTCAAATTCACATCCTTCTTGGAATCTCAGTCTGTGAGTTTATTTGGAGATAAGGTCTCTGCAGATGT
AGTTAGTTAAGACAAGGTCATGCTGGATGAAGGTAGACCTAAATTCAATATGACTGGTTTCCTTGTATGAAAAGGAGAGGACACAGAGACAGAGGAGAYG
CGGGGAAGACTATGTAAAGATGAAGGCAGAGATCGGAGTTTTGCAGCCACAAGCTAAGAAACACCAAGGATTGTGGCAACCATCAGAAGCTTGGAAGAGG
CAAAGAAGAATTCTTCCCTAGAGGCTTTAGAGGGATAACGGCTCTGCTGAMACCTTAATCTCAGACTTCCAGCCTCCTGAACGAAGAAAGAATAAATTTC
GGCTGTTTTAAGCCACCAAGGATAATTGGTTAYRGCAGCTCTAGGAAACTAATACAGCTGCTAAAATGATCCCTGTCTCCTCGTGTTTACATTCTGTGTG
TGTCCCCTCCCACAATGTACCAAAGTTGTCTTTGTGACCAATAGAATATGGCAGAAGTGATGGCATGCCACTTCCAAGATTAGGTTATAAAAGACACTGC
AGCTTCTACTTGAGCCCTCTCTCTCTGCCACCCACCGCCCCCAATCTATCTTGGCTCACTCGCTCTGGGGGAAGCTAGCTKCCATGCTATGAGCAGGCCT
ATAAAGAGACTTAYGTGGTAAAAAATGAAGTCTCCTGCCCACAGCCACATTAGTGAACCTAGAAGCAGAGACTCTGTGAGATAATCRATGTTTGTTGTTT
TAAGTTGCTCAGTTTTGGTCTAACTTGTTATGCAGCAATAGATAAATAATATGCAGAGAAAGAGAAACAAATGCATTTGTTTTATTATTGCAATTTTCTC
CAATATTTTTTATTTTCTTTCTCACAATGAACAACTATCCTTCATTTACCCAAATATTCTATTTAAAAGCTAATAATACAGCATTTGTTGAGTCATCTGG
TTCTGCAAGATTGAGATCCTCTTGTCCTATGTGCCAGGAATGAACTCCAGTGTCCCCACCCAAACCCTGGGGAATGGGAGCAGAAGCCAGAGGAGGAGCC
CATATCTGAGCCCCAGGTATTCCACCTGCACTTCACCTGTTGGACCAGCTTGGTGGTTGAGAGTCCACTGAGGCACTGGCAAGGAGGTGGCCAGGACAGA
CAAGGCTGCCTCTATGGACCTCACAGCTCCAGCCCAGATTCAGCTGAAGTCCTCAGGCAACAGGCAGCACAGCTCCTACCCCAGGCCTCTCAGGGCTGCC
AAGAACATGAGCTCCGGATGCTAGGCTGTGTTTCAGACCCTGTTCACACTCTCTTTGTCCATGGGCCCAGACACAGTCTTGTGCTGCTCCCTCTGCTTTT
GGGTCCTCCATCCATCCTCTCTGCCTAGATAAATCTCTCATCTTTCAATACCCTGCTAAGATGTCACCTCCTCCAAGAAGCTTTTACTGAGTTGAGACAC
CCCCAGCTATCTGATCTGGCAATGTTTGTATGCACCTCCCTGCACTGTAGTACCTTAACTTGGAGTCTGTGGCCCCTGGGATGACCTTAAGGTTAGGGAC
ATATAAGTTTGTCTCTTAGCACCTTGCATAATGCTTGGCACATAATGGAAACCCAATGAGTATATAATGTAGAAACTATTTCTCCACCCTGGAATATTCT
CTCCTTCTCCTCCACCCATCTAAACAGGCCCACCTCTAAGGGAGCAGCTTAAATTCCACCTCATTCTTGAAGGTTTCTCCAGCCTGAATTTGTTGCTTCC
TCATTTGTAGGATGACAGAACTCAGAAGAGCTTTAGCCATGATGAGCCGACACAAGTCAGTAGTAAAAGAAGGAATATAAAATGCCTCCTTCAGGAATGT
ACAGGCTGGACATCATGACTCTACAAGTGAAAAAGAGTTAGTGGCTTTAGATTTCTGCAATTTTGGTATAAATCACTGGCCTGGACCTGTATTTACAGAG
ATGCAATACTCACATCATGTGGGGTTTGTACAAATTGCAGACATCGAGGAACAGAGAATGTTCCAAGGGCAGGCTGTAGGGAAGAGGCTACGATGTGGGA
GGTATTATCCTGAAAAAAGCAATGCACAGGGAGCCCTCTTCAAGCACTTAAAGGCTTGCCAAGTAGAAGAATGTGCTTGTTCTGTGTAATTCCAGAACAC
ACAAGCAGAACCAATGGGTGCAAATTATGTGGAGGCTGTTTTTCCTATATGACCCCCATATTTTAACCACAAGGACCACAAACATTGATAGGGTTTCTTC
AAGAGGTTGTGTGGTCCCTGACCCTGGAGATGTTAAGGCAGAGCCTAATTAACCAATTTCTCAGGGATGCCATAGCACAGATTTCTCCAATTGGAGGGAA
ACTATGATTCCATGTCTATGAGATGGAGTTTCACTCTGTCGCCCAGGCTGGAGTACAGTGGTGCCATCTTGGCCCACTGCAACCTCTGCCTCCCAGGTTC
CAGTGATTCCCCTGCCTCAGCCTCCTAAGTAGCTGGGCCTACAGGTGCATGCCACCATGCCTGGCTAATTTTTCTATTTTTAGTAGACACGAGGTTTCAC
CATGTTGGCCAGGCTGGTTTGAACTCCTGACCTCAAGGGATCTGCCTGCCTTAGCCTCCCAAAGTGTTGGGATACAGGCATGAGCCACCATGCCTGGCCT
AAAGTCCTTTCAATTCTAAGATTTTTTTTTTGCCCAAGGAGCTTATCTGCCACTATTGTTTCCAACATGTCCTTGGCCCACAGCTTAGAGAGTCTGGTCT
TCTTAATTATCTTTTCAAGTGTTTATGACTTAGTTCCTCAGCTAGACTGTGAAACTACTTAACAACAAGGACTGTGTATTGAATGTCTGTGTCACACAGC
AGTGTAAATGCTGGGTAAACACTCATTGGTTGCCTGACATAGTAACTCATGCTTTAAGCCTTCCCATAGAAGGGTGAGAGATTGGGAGAGTGGAAGAAGA
ATGATCACTGGCCTTAGAAAGCAGAAATCTGGTCCCATTTCTGCCCATCTTTTCTCATTTCTCATCCTGCAGGCATCTGAGTCTTAGACCCACCTATCCC
ACTTCCTCAAGAAGCCCTTGGTGGAACTTTGCAAATGACCAAAGAGGGAGAATTATAATAAGGTTGTTAGTTTCCAGAGAACATTACACCTAAGCTTCTC
CACGCTTGTAATGGAGGGATGGATGGATGGATGGATGGATGGATGGATGAATGGATGGATGAAAGGGTGGACAGAAGGGTGGATGGATGGGCACATGGGT
GGATGGATGGTTGGATGGATGATGGATGGATGGAAGAATGGACAGATGGGTAGATAGATGGACAGATGGGTGGCCGGGTGGATGGATGGATGGATGGACT
GAGTCAAGTAATGTCAATTAGAGACCTGAGTGTTCTTTCCTCTGTGCTCTACTCACACTATCATATTTCCTAGCAGTCCATGGCACATGATGTCTGCTCA
GTCTCAGGGTGAATCTGAGGTCAATATCTTTGCAGTTGGGTTTCCCTAGATGTTCTGTCCCATCAAGCTGGTACCAACTAATTAAACCCACTGAAAAGCA
GAGACTCCCTTCTCGTCTTTCCAAACAGAGTCACACTCACAGTGCTATCAGCCCCTTCTCTTATTCTGGCTGTCTGGCCACAGCCTGGATTCCGGCATCA
GAATTTGTTCTGTCCTTGGGCTTGCCAGACATACTTTCTCTTGTATTCACCACCTCTTCAAGCCTAGGATGGAGCCCCACGGGGCACCAAAGATGTCTGA
CCCCAGCACTGTTTATCTGGCTGCAAACCCACTAATAACATAGTCAACRACAGTCAGTACAGAGCAGGGGCCCCATACCTTATTTCTGCCAAGGCTTTAT
GGATGACTCTCTCCCCCTTCAACAAATGCTCMTTAATGTTCCCACCATCTTATTATTCATGCTGTACCAAAGACATTGTGAAATGCCCAGGCTCTTCTTC
CTTCATGTCCTGCAGCCAATTATAGAGATTGGTGCAGGCCTGACCCACCTGTACCAGACGGTATAAACACAGCGCAATGCCCTGGAGAAATCAGTTGGAG
TCTCCAGGGATCAGGGTTCCAGGAACTCAGGATCTGCAGGTCAGTGATGGACAGGCAATATTCTCTCTCTCTTTTCTTTCTTTTCTACTCTCTCCTGTCA
ATATCTCTGGTATGCCCTCTATCCCTTCACTCCTCCTGGCAAGCTGTCTAGGTAACAAGGTAGTCCCCTCATATGACATGATGGGACATCAAAAACATTT
AGGAGCACATAAAGAGATTTGAGGAGAAGGAATAGGTTAAGCCAAATCAAGATTTCTGAACTACTTAGAACAACTGACTTTAGAAAGTAATCTCAAAAGA
AACCATCTGGGCCAATGGTATTCAAACCGTGTTTGGTGGAAGCTTAAGAGATTTTTTGTTTTCGTTTTTTTTTTTTTGTGCTCCTTGGTAGCTCCTCAGT
GTCTTCTTTGCAGGCAAGAGAAATACTAGCAGGGTTCCAAAGTCTCCATTGCTTCCTGTGTCAGCAAAGCAGCTGCCCTTTATCCTTTTTACAATCATTA
GAATTCTGCATAAAATTTTATTGTGAAACTTAAAACAGTTTTGAAAGATACCTTACTCAATCTTTCCATCCAATGTTGATAAGTTGAAGGCCCAGGGATA
AAAGGTGGCAAAATAAATTGGTAGCAGAGCTAGGTCTAGGACTCAGCCTTTCTATTCAAAGTCTGCTCTGTGTGTTTCTATGTCCTGGCCACAAGGACCA
GGGTAGTTCAATTAGGGTGGTTGGAGAGAGCTTCAAGTGAGCTGTAAGCCATGCTTCATGACTTCAAGATCTTATAAACTTTTATAAGGGAAACAAATAT
CTTTATGTACAACAATAAATAATACAGTAAAATTTAATAGGAGTTCAGAGTRGAGTTACAATAGTAAGGGAAAGATTCATTAAACTCTGAGTCATGGAAT
TATAAATAGTTTGGCCTAGAAAGAACCTTCATAACCACATAATCTAATCCCATGAATGTATAGTGCTGAAACTGAGGGTTGGAGGTTAAAAGACATAACC
CTGTATGTCTAAGCTGTAACTCTACACTGGTAATTAATTTGATAGAACTAGATACTGAACCCATCTATACTGATACTATCTCCAGTGATCTTAATATCAA
AAGATCTGAATGGATGACAATGAGAAGGGATGACTTTTGAGGCAGGGAGAACAATGGGACACCTGTGAGTACGTCCACTGAGAAGATAAGAAAGGAATTA
TGTCGCCAGGAGGTGTGGTTTAGTGTCCATGGAGAAGTGAGATGCTATCACACAAGAAAATCAGTGCCAGACGGTGACAAAACAGTCAGTCACTGTAGAT
TCTAGAGCTGGGCAGGGATGTGGTGAAAAAATCTTTAGAACGTGGGTCCACATTCCTCACATAGGTTGGAATGAATGAAAGGCAGAAAAACCGGGAATAC
AAGTACAGTAGTAATGGCAATTAAAAACACAAAGTTATATTTTAAAGAAATAACCTGTAGGGACTTGATAAGTTAGACACTGAGTCAGGAGAAGTAGGAG
ATATTGTCAATGAGTCTCAGGTTTTGAATATCACTGGTGAGAGGAATATTATGACAGTGAGAGAAATGAAATTGGGAGGAATGTGTGGGCTGGGAGGAGA
AGATAATTAACTTAACCTTAAATATATTTGGTTGGATATCAGCAGGATGTCCAAAGTGGGCTGTCCTGTAGGCTGCAGGAGGTAAAGTGGGATGTGCAGT
CTACATTTGGGAGCCATTAGCCCAAGATAATCATTGCAGCTGTAGAAGTCAATGAATTGCAGCTTAATATGATGTGAAATAGAAGTGCTTAGGACCTTGT
TAGCCTTAGGGGTGGCCCCAGAAGGAGGTGAAATCTACAATGGGAGAAAGAGGTGTGAAGGGAGTCATTCAATGTCAAGGGTTCCAAGGAGGCAATGACT
AAATATCAAAGGAATCAAAAGAATCTCTGGATCTTGCTCCACAGAAGTTAATATTGGTCTTGGACAGAACATCCCACATAGATACTGTGCAGGAGAATGA
TGAAGGATAGGACAGGGTGCTGTGCAAAAGAACATGGGGAAAGCCCAAGTTTAGCTGATGGCAGTGTTTGAGCCAGGACAGGTGAATTGCGGAGGTCTGA
GAGCCAGATGCCATGTCCAGGGAGAAATGAGAGGAAGAAAAGAGGGATATAGACTGAAGTTCAGTGAAAAGTCATTTGAGGAAAATAGGGAGGGGAAGCT
TTGGGGGTGAGGCATGTGGCACACTGGGAGGGGCTTGGCACACAGCAGAGGTTCAGCACCAAGACCCAGGCTCTCTGATGGACCAGACGCTAGCTTCCTA
CCCTTACTCACTTCATCACAATCTATCAGAACCCAGGCGGAGGGAGCCGAATAGGGGAGCCTTTGGGAAAGACACTGTACATTTTGGCTGTGCCAGAATG
GGAGGTTTCTAGGGCCCATGGGATCCAGCTGGACTGGACCAGCATTGAATTTCTTCCAGCTCTTTGAGCTGACACTGACCCAGAGTGGGAGTCATCAGCT
TGCTATCCACCTTCACCCAGGGCCCTCCACTTTGTTGCCCCAYCTAGATCTGGGCACAGCTACCACACTGCCCACTGTCCTGCTGCTACAACCAAAGAAG
CCCCAGTGGTTTGGCCAAGGGGAGCCCATCATCAAGTGGGCTTGCATTGAGGCCATGATGCTGTTGAGTTATCTGTACTGGGGGATTGTCTAGTCCTTTA
GGACTCAAAGTGCTGGCCAGGAGGAACCAGCAGCATTGACATCACCTGGTTGCATATTTGAAATGTACAGT


SNP Information

Context             (SEQ ID NO:40821):
TAGGTTATAAAAGACACTGCAGCTTCTACTTGAGCCCTCTCTCTCTGCCACCCACCGCCCCCAATCTATCTTGGCTCACTCGCTCTGGGGGAAGCTAGCT
K
CCATGCTATGAGCAGGCCTATAAAGAGACTTACGTGGTAAAAAATGAAGTCTCCTGCCCACAGCCACATTAGTGAACCTAGAAGCAGAGACTCTGTGAGA
Celera SNP ID:            hCV8737829
SNP Position Genomic:     11881
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,7)      total(G,7|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40822):
ACCACCTCTTCAAGCCTAGGATGGAGCCCCACGGGGCACCAAAGATGTCTGACCCCAGCACTGTTTATCTGGCTGCAAACCCACTAATAACATAGTCAAC
R
ACAGTCAGTACAGAGCAGGGGCCCCATACCTTATTTCTGCCAAGGCTTTATGGATGACTCTCTCCCCCTTCAACAAATGCTCATTAATGTTCCCACCATC
Celera SNP ID:            hCV29370214
SNP Position Genomic:     15049
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:40823):
TGCTTCATGACTTCAAGATCTTATAAACTTTTATAAGGGAAACAAATATCTTTATGTACAACAATAAATAATACAGTAAAATTTAATAGGAGTTCAGAGT
R
GAGTTACAATAGTAAGGGAAAGATTCATTAAACTCTGAGTCATGGAATTATAAATAGTTTGGCCTAGAAAGAACCTTCATAACCACATAATCTAATCCCA
Celera SNP ID:            hCV29370215
SNP Position Genomic:     16152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:40824):
GGCCTTTGCCGTGTTCTTAATGTCTTCTTTACATACCTAGGAAAAGTGAAGGAGAGGTGAGAAAGACAGAGTGGGGAGGAACCCGTGTCTGTGGGTTTGT
R
CTAGATGCCAACCTGGCTCTTCACATCCTCTGTCTCATCCAGTCAAGCAGCCACACTGAGTCCCCCAGCATGAGAACAGCTTCCACAGAGCAGGAGATTC
Celera SNP ID:            hCV8737846
SNP Position Genomic:     202
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,11)      total(G,11|A,4) ;JBIC-allele(G,676|A,815)   total(G,676|A,815)   no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40825):
GCCCTCTCTCTCTGCCACCCACCGCCCCCAATCTATCTTGGCTCACTCGCTCTGGGGGAAGCTAGCTGCCATGCTATGAGCAGGCCTATAAAGAGACTTA
Y
GTGGTAAAAAATGAAGTCTCCTGCCCACAGCCACATTAGTGAACCTAGAAGCAGAGACTCTGTGAGATAATCGATGTTTGTTGTTTTAAGTTGCTCAGTT
Celera SNP ID:            hCV15836405
SNP Position Genomic:     11914
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40826):
GTACCGGAGCTCTCTCCTGACCCCAGACCCAGAATCTGCTCCGTGGAGGCTGTTCACATGCTGGGGAGCTCGGTGCAGCTGCTTGCTCCCCAGACCCCAG
S
CAACTCAGCCTCTCTCTCCATGATTTTCTGTTGTTTATTCCAAAATAGGGGAGTCTACACCCTGTGGAGCTCAAGATGGTCCTGAGTGGGGCGCTGTGCT
Celera SNP ID:            hCV25473447
SNP Position Genomic:     6686
SNP Source:               Applera
Population(Allele,Count): african american(C,22|G,6)   caucasian(C,23|G,5)   total(C,45|G,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40827):
TAACTGACAAGTGTTACCCTGAGCCCCGCAGGCCAACCCATCCCCAGTTGAGCCTTATAGGGTCAGTAGCTCTCCACATGAAGTCCTGTCACTCACCACT
R
TGCAGGAGAGGGAGGTGGTCATAGAGTCAGGGATCTATGGCCCTTGGCCCAGCCCCACCCCCTTCCCTTTAATCCTGCCACTGTCATATGCTACCTTTCC
Celera SNP ID:            hCV27466858
SNP Position Genomic:     10418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40828):
GTAGTTAGTTAAGACAAGGTCATGCTGGATGAAGGTAGACCTAAATTCAATATGACTGGTTTCCTTGTATGAAAAGGAGAGGACACAGAGACAGAGGAGA
Y
GCGGGGAAGACTATGTAAAGATGAAGGCAGAGATCGGAGTTTTGCAGCCACAAGCTAAGAAACACCAAGGATTGTGGCAACCATCAGAAGCTTGGAAGAG
Celera SNP ID:            hCV3252470
SNP Position Genomic:     11399
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:40829):
CCTTCCCTTTAATCCTGCCACTGTCATATGCTACCTTTCCTATCTCTTCCCTCATCATCTTGTTGTGGGCATGAGGAGGTGGTGATGTCAGAAGAAATGG
Y
TCGAGCTCAGAAGATAAAAGATAAGTAGGGTATGCTGATCCTCTTTTAAAAACCCAAGATACAATCAAAATCCCAGATGCTGGTCTCTATTCCCATGAAA
Celera SNP ID:            hCV27466698
SNP Position Genomic:     10579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40830):
GCAAAAGCCTAGTGCTCACAAAGAGCTGGAAAGCCTCAAGGAAGTTCTTCAATATTTCTGGAAGGAAACTGTCTCCAGAAGCTTCCCTCCCCACGACAGA
Y
AATGAGCAGCAAGTGCTTCTGGCGACTTAGGGTGATGTGAAATCACGCTGGGAATCCTGCTCCTCCTCAGGTCCTGGCAGTTTCAGGGCCCCTCCCTAGG
Celera SNP ID:            hCV27841172
SNP Position Genomic:     6385
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:40831):
ATTAGCATAGGCCTACAGAGCCCAGGCATTAGGGCAGCACAAACCAGGCTCTAAGCAAAGGCAAATAAAATACTACACCTCTCAGCAAAGTGAAGACACA
S
GCTCTGGGGCCACCTGAAGCTTCTGTGCAGAAGTGGGAATGTTTTCCAAGAGGCTTGTCTTGTCATTCCCTTACAGGTAGATTTAGGTCAAGCATTGCAT
Celera SNP ID:            hCV16025869
SNP Position Genomic:     8446
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40832):
CATTGAATTTCTTCCAGCTCTTTGAGCTGACACTGACCCAGAGTGGGAGTCATCAGCTTGCTATCCACCTTCACCCAGGGCCCTCCACTTTGTTGCCCCA
Y
CTAGATCTGGGCACAGCTACCACACTGCCCACTGTCCTGCTGCTACAACCAAAGAAGCCCCAGTGGTTTGGCCAAGGGGAGCCCATCATCAAGTGGGCTT
Celera SNP ID:            hCV2146566
SNP Position Genomic:     17843
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:40833):
GCATTAGGGCAGCACAAACCAGGCTCTAAGCAAAGGCAAATAAAATACTACACCTCTCAGCAAAGTGAAGACACACGCTCTGGGGCCACCTGAAGCTTCT
R
TGCAGAAGTGGGAATGTTTTCCAAGAGGCTTGTCTTGTCATTCCCTTACAGGTAGATTTAGGTCAAGCATTGCATTCCCTGGGAGCCAGTAAGTACCAAG
Celera SNP ID:            hCV16234843
SNP Position Genomic:     8471
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,159|G,584)   total(G,584|A,159)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40834):
CTGCCATGGGCACTGACTCTTAGGGTCTGAAAGCCCCTGAGATGCAAAAGCCTAGTGCTCACAAAGAGCTGGAAAGCCTCAAGGAAGTTCTTCAATATTT
Y
TGGAAGGAAACTGTCTCCAGAAGCTTCCCTCCCCACGACAGATAATGAGCAGCAAGTGCTTCTGGCGACTTAGGGTGATGTGAAATCACGCTGGGAATCC
Celera SNP ID:            hCV15836395
SNP Position Genomic:     6342
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40835):
CCCATCATCTTAGTGTAGCAATGGGGAGGCTCAGGCCCAGAGTGGGCGAGAGAGTTGTCTCCTGCGACTCAGCAGCATTGGAGGCATAGATGGGGCAAGA
W
CCTAGGGCTCTGACTCACCGTGCAGCTTCTCTTCCAACAGGAGATGGGTTGGGGCAGAAAAGGTTGAATAGGGTGAAGGAGCAAACCACAGACTCCAGTG
Celera SNP ID:            hCV15823996
SNP Position Genomic:     7878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40836):
CTCAGTCCACGGTCCTCCCCCACTGGATGGTGCTACTGCTGTGGAACCTTGTAAAAACCATGTGGGGTAAACTGGGAATAACATGAAAAGATTTCTGTGG
R
GGTGGGGTGGGGGAGTGGTGGGAATCATTCCTGCTTAATGGTAACTGACAAGTGTTACCCTGAGCCCCGCAGGCCAACCCATCCCCAGTTGAGCCTTATA
Celera SNP ID:            hCV11948062
SNP Position Genomic:     10276
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): England(A,238|G,343)      total(G,343|A,238) ;(A,-|G,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:40837):
CCCAGAGTAAATTCAAATTGAATCGAGCTCTGCTGCTCTGGTTGGTTGTAGTAGTGATCAGGAAACAGATCTCAGCAAAGCCACTGAGGAGGAGGCTGTG
M
TGAGTTTGTGTGGCTGGAATCTCTGGGTAAGGAACTTAAAGAACAAAAATCATCTGGTAATTCTTTCCTAGAAGGATCACAGCCCCTGGGATTCCAAGGC
Celera SNP ID:            hCV8737833
SNP Position Genomic:     11082
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40838):
TTAATTCTGTTAATTTATCTGTATTTCCTAATTTTTCTACAATGAAGATGAATTCCTTGTATAAAAATAAGAAAAGAAATTAATCTTGAGGTAAGCAGAG
Y
AGACATCATCTCTGATTGTCCTCAGCCTCCACTTCCCCAGAGTAAATTCAAATTGAATCGAGCTCTGCTGCTCTGGTTGGTTGTAGTAGTGATCAGGAAA
Celera SNP ID:            hCV8737834
SNP Position Genomic:     10946
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40839):
GCTCTCTGAAGATCCTCAGTCACTTAGAGTGGAGGGACCCAGAGAACAGGTGGCATTGTTGGACCTCCTGCTTGCTCACTCTGCCCCATGCACTGCAACA
S
GTCCCTCTCTAAAATAGTTTGCACCTGCCCACCTGGGGCACCCTTGCTGAGCACAGATGCCAGGTAGATCCTTCAGCTAGGCCATATGTGTATGTGTGTG
Celera SNP ID:            hCV8737835
SNP Position Genomic:     8751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40840):
CTAATAACATAGTCAACGACAGTCAGTACAGAGCAGGGGCCCCATACCTTATTTCTGCCAAGGCTTTATGGATGACTCTCTCCCCCTTCAACAAATGCTC
M
TTAATGTTCCCACCATCTTATTATTCATGCTGTACCAAAGACATTGTGAAATGCCCAGGCTCTTCTTCCTTCATGTCCTGCAGCCAATTATAGAGATTGG
Celera SNP ID:            hCV16119402
SNP Position Genomic:     15132
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:40841):
ACCGGAGCTCTCTCCTGACCCCAGACCCAGAATCTGCTCCGTGGAGGCTGTTCACATGCTGGGGAGCTCGGTGCAGCTGCTTGCTCCCCAGACCCCAGCC
M
ACTCAGCCTCTCTCTCCATGATTTTCTGTTGTTTATTCCAAAATAGGGGAGTCTACACCCTGTGGAGCTCAAGATGGTCCTGAGTGGGGCGCTGTGCTTC
Celera SNP ID:            hCV11512353
SNP Position Genomic:     6688
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,8)   caucasian(A,29|C,11)   total(A,55|C,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,1|A,14)      total(A,14|-,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40842):
GCACAAACCAGGCTCTAAGCAAAGGCAAATAAAATACTACACCTCTCAGCAAAGTGAAGACACACGCTCTGGGGCCACCTGAAGCTTCTGTGCAGAAGTG
R
GAATGTTTTCCAAGAGGCTTGTCTTGTCATTCCCTTACAGGTAGATTTAGGTCAAGCATTGCATTCCCTGGGAGCCAGTAAGTACCAAGGAGAGAACTAA
Celera SNP ID:            hCV8737839
SNP Position Genomic:     8482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40843):
TGGGGAGGCTCAGGCCCAGAGTGGGCGAGAGAGTTGTCTCCTGCGACTCAGCAGCATTGGAGGCATAGATGGGGCAAGAACCTAGGGCTCTGACTCACCG
W
GCAGCTTCTCTTCCAACAGGAGATGGGTTGGGGCAGAAAAGGTTGAATAGGGTGAAGGAGCAAACCACAGACTCCAGTGGGAGACTGTGGGGTCATCCTC
Celera SNP ID:            hCV15824000
SNP Position Genomic:     7899
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40844):
TGCATGCAGGCATATATGTGTGAGCATATGTGTGCATGCATGTATCTGTATGTAACCATGTATGTGTGAGTGCAGGTATGTAGGTATGAGCATGTGTGTG
W
ATATGTATATGTGTGCATGCATGTATCTGTGCATGTATGTATCTGATGTATGTGGGTGGTGAGGGGATGTACAGAGAGGAATGAGACCCTCTTTTGCTCT
Celera SNP ID:            hCV15824001
SNP Position Genomic:     8972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40845):
CCTTCAGCTAGGCCATATGTGTATGTGTGTGCTTACTGGTGTATGTATGTGTGCATGCAGGCATATATGTGTGAGCATATGTGTGCATGCATGTATCTGT
R
TGTAACCATGTATGTGTGAGTGCAGGTATGTAGGTATGAGCATGTGTGTGTATATGTATATGTGTGCATGCATGTATCTGTGCATGTATGTATCTGATGT
Celera SNP ID:            hCV16025870
SNP Position Genomic:     8921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40846):
TGCATGCATGTATCTGTATGTAACCATGTATGTGTGAGTGCAGGTATGTAGGTATGAGCATGTGTGTGTATATGTATATGTGTGCATGCATGTATCTGTG
Y
ATGTATGTATCTGATGTATGTGGGTGGTGAGGGGATGTACAGAGAGGAATGAGACCCTCTTTTGCTCTCAGCAACCTCACAGGGTGTAGAAAGTTGTCCA
Celera SNP ID:            hCV16025871
SNP Position Genomic:     9004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40847):
CAGACATCATCTCTGATTGTCCTCAGCCTCCACTTCCCCAGAGTAAATTCAAATTGAATCGAGCTCTGCTGCTCTGGTTGGTTGTAGTAGTGATCAGGAA
W
CAGATCTCAGCAAAGCCACTGAGGAGGAGGCTGTGCTGAGTTTGTGTGGCTGGAATCTCTGGGTAAGGAACTTAAAGAACAAAAATCATCTGGTAATTCT
Celera SNP ID:            hCV15824002
SNP Position Genomic:     11046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40848):
AAGCTAAGAAACACCAAGGATTGTGGCAACCATCAGAAGCTTGGAAGAGGCAAAGAAGAATTCTTCCCTAGAGGCTTTAGAGGGATAACGGCTCTGCTGA
M
ACCTTAATCTCAGACTTCCAGCCTCCTGAACGAAGAAAGAATAAATTTCGGCTGTTTTAAGCCACCAAGGATAATTGGTTACAGCAGCTCTAGGAAACTA
Celera SNP ID:            hCV15824003
SNP Position Genomic:     11551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40849):
ACGTGCCCCCCAGAACTCCCTGGGCAGAGCCAGCTCGGGTGAGGGGTGAGTGGAGGAGACCCATGGCGGACAATCACTCTCTCTGCTCTCAGGACCCCCA
S
GTCTGACTTAGTGGGCACCTGACCACTTTGTCTTCTGGTTCCCAGTTTGGATAAATTCTGAGATTTGGAGCTCAGTCCACGGTCCTCCCCCACTGGATGG
Celera SNP ID:            hCV27479354
SNP Position Genomic:     10105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:40850):
GGAGGAAGTGAGTTCTGGATAGACCCGTTGTCCAGCTCTGAGCAGGAGGGAGGAAGGGAGGGGCTGCCATTGCAGCTGGGAAATTGTGACCAGCACCTCA
Y
TGCTCTTAGAGTTTTCCCAGCCTTTTTCAAATAGGGGCAGGACTGGGGCAGGCCATCTCACAAGGGGTCCCTGATGCTGAGGGGGACAAGTGAACCTCCC
Celera SNP ID:            hCV3252460
SNP Position Genomic:     6927
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40851):
TATGTGTGCATGCATGTATCTGTGCATGTATGTATCTGATGTATGTGGGTGGTGAGGGGATGTACAGAGAGGAATGAGACCCTCTTTTGCTCTCAGCAAC
M
TCACAGGGTGTAGAAAGTTGTCCAAACAATTCCAAAGGGGGGCTTATTAAGACAGGGTTCAGAAAAAGGCCTGAGACCCAAGGGGCATTAAAGGAGGGGG
Celera SNP ID:            hCV16025872
SNP Position Genomic:     9080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40852):
TTTTCTACAATGAAGATGAATTCCTTGTATAAAAATAAGAAAAGAAATTAATCTTGAGGTAAGCAGAGCAGACATCATCTCTGATTGTCCTCAGCCTCCA
M
TTCCCCAGAGTAAATTCAAATTGAATCGAGCTCTGCTGCTCTGGTTGGTTGTAGTAGTGATCAGGAAACAGATCTCAGCAAAGCCACTGAGGAGGAGGCT
Celera SNP ID:            hCV27479355
SNP Position Genomic:     10978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40853):
GACCAGCACCTCATTGCTCTTAGAGTTTTCCCAGCCTTTTTCAAATAGGGGCAGGACTGGGGCAGGCCATCTCACAAGGGGTCCCTGATGCTGAGGGGGA
Y
AAGTGAACCTCCCAGTCTAGAGCTCCAGCCAAGTCTATCCAAGGTGGGAACGGGGGCCAGGATCCCTGCTCAGAGCTCCGCCATTGTCCCCCATCACAGT
Celera SNP ID:            hCV3252461
SNP Position Genomic:     7014
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40854):
GTTGTCCAAACAATTCCAAAGGGGGGCTTATTAAGACAGGGTTCAGAAAAAGGCCTGAGACCCAAGGGGCATTAAAGGAGGGGGTTGAGTCTATTTTGGG
K
TGTAGAGGCTTGAAGATTTGACCCTGAACTAGAGGGTGGAGTGGAGGTGGTACAATGTGCTTCCATGCCTTGATGTCCACTCTGGGCCAGTGGACAGGAG
Celera SNP ID:            hCV16025873
SNP Position Genomic:     9197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40855):
TCTATCCAAGGTGGGAACGGGGGCCAGGATCCCTGCTCAGAGCTCCGCCATTGTCCCCCATCACAGTGAATGGATGTAAGCTCACCCACTCTGTGCCCCT
R
CCTCCCTGCTACTCTTTGGGGATAATAATAAAACAAAAACCATTACCATCAGTCAGTCTGTCCACCCACTGGCATGTACCAAGCCAGACACTCTGCCGTG
Celera SNP ID:            hCV3252462
SNP Position Genomic:     7148
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,12)      total(G,7|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40856):
ACTCTTTGGGGATAATAATAAAACAAAAACCATTACCATCAGTCAGTCTGTCCACCCACTGGCATGTACCAAGCCAGACACTCTGCCGTGTTCTGGGCTT
W
ACAACAGAGGATGAGAGTGGTCCTTTCTCTCAGTCTAATAAAGCACTTCCCACGATGTGTTCTATGGGACTCGATTAGAGGAGTCCCACAGAGGCATCCA
Celera SNP ID:            hCV3252463
SNP Position Genomic:     7259
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|A,11)      total(A,11|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40857):
CCATGCCTTGATGTCCACTCTGGGCCAGTGGACAGGAGAAGCCATGTCATGACAGCTGCTGAGAAGCCTCCCTTCTGCCCAGCCTGGGGGCAGGCCGTCT
Y
ACAGCAGTCCTGTGCCCTAGAGCCCAGGACAGGGGAAGAAGGAGGGAAAGGCATCCAGGGCCCTGCATCTGGCCTCTTTCCCACAGGTGAAGAGATCAGC
Celera SNP ID:            hCV16025874
SNP Position Genomic:     9360
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,58|C,1435)   total(C,1435|T,58)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40858):
ACCTGACCACTTTGTCTTCTGGTTCCCAGTTTGGATAAATTCTGAGATTTGGAGCTCAGTCCACGGTCCTCCCCCACTGGATGGTGCTACTGCTGTGGAA
Y
CTTGTAAAAACCATGTGGGGTAAACTGGGAATAACATGAAAAGATTTCTGTGGGGGTGGGGTGGGGGAGTGGTGGGAATCATTCCTGCTTAATGGTAACT
Celera SNP ID:            hCV16025875
SNP Position Genomic:     10222
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40859):
ACCCACTGGCATGTACCAAGCCAGACACTCTGCCGTGTTCTGGGCTTAACAACAGAGGATGAGAGTGGTCCTTTCTCTCAGTCTAATAAAGCACTTCCCA
Y
GATGTGTTCTATGGGACTCGATTAGAGGAGTCCCACAGAGGCATCCAGGAGATGCTTTACACAGTGGAGCTCTCTGATCAAGTAAATGCAGGGAATTCTG
Celera SNP ID:            hCV3252464
SNP Position Genomic:     7312
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|C,11)      total(C,11|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40860):
GTAAAAACCATGTGGGGTAAACTGGGAATAACATGAAAAGATTTCTGTGGGGGTGGGGTGGGGGAGTGGTGGGAATCATTCCTGCTTAATGGTAACTGAC
M
AGTGTTACCCTGAGCCCCGCAGGCCAACCCATCCCCAGTTGAGCCTTATAGGGTCAGTAGCTCTCCACATGAAGTCCTGTCACTCACCACTGTGCAGGAG
Celera SNP ID:            hCV16025876
SNP Position Genomic:     10326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40861):
TGCTTTACACAGTGGAGCTCTCTGATCAAGTAAATGCAGGGAATTCTGCTTTCTACATCCTCTCATAAGAGAACCACAGCCCAGCTCAGCATATGAGTGA
Y
TGAGGTTTTCTGAAGTAAGGCAACTTGTTGAATCGTATTTAGCTATGCATCGACCCAATTTTTACACTGCATCCTTTTCCCCCATATAACTTTTGGAGAA
Celera SNP ID:            hCV27161238
SNP Position Genomic:     7465
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4|-,9)   total(C,4|-,9|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40862):
TGCAGGGAATTCTGCTTTCTACATCCTCTCATAAGAGAACCACAGCCCAGCTCAGCATATGAGTGACTGAGGTTTTCTGAAGTAAGGCAACTTGTTGAAT
Y
GTATTTAGCTATGCATCGACCCAATTTTTACACTGCATCCTTTTCCCCCATATAACTTTTGGAGAAACCCACTTTAGGATACATCTTCCACCTCATAGGA
Celera SNP ID:            hCV3252465
SNP Position Genomic:     7499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40863):
GGTCAGTAGCTCTCCACATGAAGTCCTGTCACTCACCACTGTGCAGGAGAGGGAGGTGGTCATAGAGTCAGGGATCTATGGCCCTTGGCCCAGCCCCACC
Y
CCTTCCCTTTAATCCTGCCACTGTCATATGCTACCTTTCCTATCTCTTCCCTCATCATCTTGTTGTGGGCATGAGGAGGTGGTGATGTCAGAAGAAATGG
Celera SNP ID:            hCV16025877
SNP Position Genomic:     10478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(T,361|C,1128)   total(C,1128|T,361) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:40864):
TCTGCTTTCTACATCCTCTCATAAGAGAACCACAGCCCAGCTCAGCATATGAGTGACTGAGGTTTTCTGAAGTAAGGCAACTTGTTGAATCGTATTTAGC
Y
ATGCATCGACCCAATTTTTACACTGCATCCTTTTCCCCCATATAACTTTTGGAGAAACCCACTTTAGGATACATCTTCCACCTCATAGGATGCCAGGAAA
Celera SNP ID:            hCV3252466
SNP Position Genomic:     7509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,9)      total(C,5|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40865):
TATTTCTTTATAGAAAAAAGTCTGGAAGAGTTTACTTCAATTGTAGCAATGTCAGGGTGGTGGCAGTATAGGTGATTTTTCTTTTAATTCTGTTAATTTA
Y
CTGTATTTCCTAATTTTTCTACAATGAAGATGAATTCCTTGTATAAAAATAAGAAAAGAAATTAATCTTGAGGTAAGCAGAGCAGACATCATCTCTGATT
Celera SNP ID:            hCV16025878
SNP Position Genomic:     10863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40866):
TGGATGTTATCCAACCCATCATCTTAGTGTAGCAATGGGGAGGCTCAGGCCCAGAGTGGGCGAGAGAGTTGTCTCCTGCGACTCAGCAGCATTGGAGGCA
K
AGATGGGGCAAGAACCTAGGGCTCTGACTCACCGTGCAGCTTCTCTTCCAACAGGAGATGGGTTGGGGCAGAAAAGGTTGAATAGGGTGAAGGAGCAAAC
Celera SNP ID:            hCV3252467
SNP Position Genomic:     7864
SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,27)   caucasian(G,18|T,22)   total(G,27|T,49)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,9)      total(G,5|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40867):
TGAGTCTATTTTGGGTTGTAGAGGCTTGAAGATTTGACCCTGAACTAGAGGGTGGAGTGGAGGTGGTACAATGTGCTTCCATGCCTTGATGTCCACTCTG
R
GCCAGTGGACAGGAGAAGCCATGTCATGACAGCTGCTGAGAAGCCTCCCTTCTGCCCAGCCTGGGGGCAGGCCGTCTCACAGCAGTCCTGTGCCCTAGAG
Celera SNP ID:            hCV16234850
SNP Position Genomic:     9282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40868):
CCTTGGCCCAGCCCCACCCCCTTCCCTTTAATCCTGCCACTGTCATATGCTACCTTTCCTATCTCTTCCCTCATCATCTTGTTGTGGGCATGAGGAGGTG
S
TGATGTCAGAAGAAATGGCTCGAGCTCAGAAGATAAAAGATAAGTAGGGTATGCTGATCCTCTTTTAAAAACCCAAGATACAATCAAAATCCCAGATGCT
Celera SNP ID:            hCV16234851
SNP Position Genomic:     10560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   JBIC-allele(C,361|G,1134)   total(G,1134|C,361)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40869):
GGATAACGGCTCTGCTGAAACCTTAATCTCAGACTTCCAGCCTCCTGAACGAAGAAAGAATAAATTTCGGCTGTTTTAAGCCACCAAGGATAATTGGTTA
Y
AGCAGCTCTAGGAAACTAATACAGCTGCTAAAATGATCCCTGTCTCCTCGTGTTTACATTCTGTGTGTGTCCCCTCCCACAATGTACCAAAGTTGTCTTT
Celera SNP ID:            hCV16025879
SNP Position Genomic:     11633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:40870):
CAGAGTGGGCGAGAGAGTTGTCTCCTGCGACTCAGCAGCATTGGAGGCATAGATGGGGCAAGAACCTAGGGCTCTGACTCACCGTGCAGCTTCTCTTCCA
R
CAGGAGATGGGTTGGGGCAGAAAAGGTTGAATAGGGTGAAGGAGCAAACCACAGACTCCAGTGGGAGACTGTGGGGTCATCCTCCTTGTAGGGCATGAGC
Celera SNP ID:            hCV3252468
SNP Position Genomic:     7915
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,11)   caucasian(A,19|G,19)   total(A,46|G,30)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,9)      total(G,5|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40871):
ACCCACTTTCCTTGGTCTCTATACACTCTCAGGGGAGGGGGCCTGAAGAGGGCTTAGAATAGTCATACAGATTAGCATAGGCCTACAGAGCCCAGGCATT
R
GGGCAGCACAAACCAGGCTCTAAGCAAAGGCAAATAAAATACTACACCTCTCAGCAAAGTGAAGACACACGCTCTGGGGCCACCTGAAGCTTCTGTGCAG
Celera SNP ID:            hCV3252469
SNP Position Genomic:     8376
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;JBIC-allele(G,55|A,1444)   total(G,55|A,1444)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40872):
CTGAAGCCGATCAGCCTGTCAGACTCACCCAGCTTCCCGAGAATGGTGGCTGGAATGCCCCCATCACAGACTTCTACTTCCAGCAGTGTGACTAGGGCAA
Y
GTGCCCCCCAGAACTCCCTGGGCAGAGCCAGCTCGGGTGAGGGGTGAGTGGAGGAGACCCATGGCGGACAATCACTCTCTCTGCTCTCAGGACCCCCACG
Celera SNP ID:            hCV25605460
SNP Position Genomic:     10006
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:40873):
TTGGTGCCAAGGAATCCAAGAGCTTCACCTTCTACCGGCGGGACATGGGGCTCACCTCCAGCTTCGAGTCGGCTGCCTACCCGGGCTGGTTCCTGTGCAC
S
GTGCCTGAAGCCGATCAGCCTGTCAGACTCACCCAGCTTCCCGAGAATGGTGGCTGGAATGCCCCCATCACAGACTTCTACTTCCAGCAGTGTGACTAGG
Celera SNP ID:            hCV25605461
SNP Position Genomic:     9901
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,40)   total(C,1|G,75)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40874):
AGGGTGTAGAAAGTTGTCCAAACAATTCCAAAGGGGGGCTTATTAAGACAGGGTTCAGAAAAAGGCCTGAGACCCAAGGGGCATTAAAGGAGGGGGTTGA
R
TCTATTTTGGGTTGTAGAGGCTTGAAGATTTGACCCTGAACTAGAGGGTGGAGTGGAGGTGGTACAATGTGCTTCCATGCCTTGATGTCCACTCTGGGCC
Celera SNP ID:            hCV27490492
SNP Position Genomic:     9185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40875):
GATAACGGCTCTGCTGAAACCTTAATCTCAGACTTCCAGCCTCCTGAACGAAGAAAGAATAAATTTCGGCTGTTTTAAGCCACCAAGGATAATTGGTTAC
R
GCAGCTCTAGGAAACTAATACAGCTGCTAAAATGATCCCTGTCTCCTCGTGTTTACATTCTGTGTGTGTCCCCTCCCACAATGTACCAAAGTTGTCTTTG
Celera SNP ID:            hCV16234858
SNP Position Genomic:     11634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:40876):
TCCTGCTTAATGGTAACTGACAAGTGTTACCCTGAGCCCCGCAGGCCAACCCATCCCCAGTTGAGCCTTATAGGGTCAGTAGCTCTCCACATGAAGTCCT
S
TCACTCACCACTGTGCAGGAGAGGGAGGTGGTCATAGAGTCAGGGATCTATGGCCCTTGGCCCAGCCCCACCCCCTTCCCTTTAATCCTGCCACTGTCAT
Celera SNP ID:            hCV27467450
SNP Position Genomic:     10405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:40877):
TCCCCCATCACAGTGAATGGATGTAAGCTCACCCACTCTGTGCCCCTACCTCCCTGCTACTCTTTGGGGATAATAATAAAACAAAAACCATTACCATCAG
Y
CAGTCTGTCCACCCACTGGCATGTACCAAGCCAGACACTCTGCCGTGTTCTGGGCTTAACAACAGAGGATGAGAGTGGTCCTTTCTCTCAGTCTAATAAA
Celera SNP ID:            hCV8737840
SNP Position Genomic:     7201
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,13)      total(C,6|T,13) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40878):
TCATTCCTGCTTAATGGTAACTGACAAGTGTTACCCTGAGCCCCGCAGGCCAACCCATCCCCAGTTGAGCCTTATAGGGTCAGTAGCTCTCCACATGAAG
W
CCTGTCACTCACCACTGTGCAGGAGAGGGAGGTGGTCATAGAGTCAGGGATCTATGGCCCTTGGCCCAGCCCCACCCCCTTCCCTTTAATCCTGCCACTG
Celera SNP ID:            hCV27469128
SNP Position Genomic:     10401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:40879):
AGGAAAGAGGGAGGGAAGAAAGGAAGGGAAAAGGGAGGGAGTGAGTGAATGAAAGATGGAAAGAAGGAAGAAAGGGAGGGAGGCAGGGAGGAAAGAAAGT
Y
GCGCTTCCCTTGAGCTGCCATGGGCACTGACTCTTAGGGTCTGAAAGCCCCTGAGATGCAAAAGCCTAGTGCTCACAAAGAGCTGGAAAGCCTCAAGGAA
Celera SNP ID:            hCV8737841
SNP Position Genomic:     6227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40880):
CCATCTCACAAGGGGTCCCTGATGCTGAGGGGGACAAGTGAACCTCCCAGTCTAGAGCTCCAGCCAAGTCTATCCAAGGTGGGAACGGGGGCCAGGATCC
Y
TGCTCAGAGCTCCGCCATTGTCCCCCATCACAGTGAATGGATGTAAGCTCACCCACTCTGTGCCCCTACCTCCCTGCTACTCTTTGGGGATAATAATAAA
Celera SNP ID:            hCV29370212
SNP Position Genomic:     7080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40881):
CTATGAGCAGGCCTATAAAGAGACTTACGTGGTAAAAAATGAAGTCTCCTGCCCACAGCCACATTAGTGAACCTAGAAGCAGAGACTCTGTGAGATAATC
R
ATGTTTGTTGTTTTAAGTTGCTCAGTTTTGGTCTAACTTGTTATGCAGCAATAGATAAATAATATGCAGAGAAAGAGAAACAAATGCATTTGTTTTATTA
Celera SNP ID:            hCV8737828
SNP Position Genomic:     11987
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;TFBS


Gene Number:                 195
Celera Gene:                 hCG27269 - 79000075887605
Gene Symbol:                 MBL2
Protein Name:                mannose-binding lectin (protein C) 2, soluble (opsonic defect);COLEC1;MBL;MBP;MBP1
Celera Genomic Axis:         GA_x5YUV32VT2P(1976316..1994636)
Chromosome:                  Chr10
OMIM number:                 154545
OMIM Information:            LECTIN, MANNOSE-BINDING, SOLUBLE, 2;MBL2


Genomic Sequence (SEQ ID NO:12355):
TTTTGGTAAGCCTCGAAAGGTGAGCACCTCTCTGCGGTATCCTCCCTATGTTCCCAGTTTCAGGCCTGGGGAGCTGCCATCTCTGTCTCTTCCACTCCTC
CTTGCTGGTATCTGTGGGACTGGTTGGTTTAGATGCAGGAGTACCATCTCTCCAACTCCGTTTTGTGTGTCAGAAAGCTTTGCTTGTTTGTCTTTAATAC
GCCAAATCTCCTGTTTCTAACCCCCTGACTTCCATCTCTCCAGTTTCCCAGTCCTGCAAGAGTCCTTTGCTCTGCTCTTGCAGTTTCTCCGTGTGTTCTT
CAGCAATATGCACCCTGATGGTTTGCACTTTCTATCGTGTTTATTATTCTAATGGCTAATGTCCATGTTAATATTTCTACTTCATTGCTTTTCTACTGCC
TCTTGCTTGTGTCATGTGGGCAGTATCTTCACTGATTTCTCTATGGATATTGATTATACTTATTTTAAATTACTGGTATTCCTTTCCAATAATTTTGCAG
CCAGTAGTGTGTGCTTCTGGTCCTTATCTTTCCATTGTGCTGATCGTGCCCCTCTCAGCCTGCTCTTTATCTTAGCAGTGAGCAACCTCCTTTTGGGGGT
GTAGCCTGTCTGGTCACCTCTGCCACATGCTGCTCTAGGTCACCAGGTGAGCCAAAGCAGAGGCAGAGAATGGGCCTGGACAAGAAGTGTCCCTGGCCCC
AGAAACCTATCAATGATGGTCACCCACTAGGAAATTCTTGTTTTTTTTTTTTAGAGAGGGAAGCTGCCCCAGAGGGAGGACGCTGGTGGAAGGAATATAC
CAGGCCTGGGAGTGAAGGGGCAGAAGGAAGAATGGCAGTAAGGAATGTCTGAGGAGAGTCTGAAAGCCACATGTGTTCTGATTTCTGTGGCAAAAGAGCA
GGTCTTTGCTRTCCTAACTACTGAGCTGCCTTTCACTGCAGCCACCCTGTGTTCAAGGCCATGTCACAGATAAGCATGTCTCTATCACATGGGCAGATAT
GACACCCTCTGACCACCCACCCCATGGCTATAGGGGCCTAAGGTAGTCCTTGCCAGATGCAGTGGGCCTGTGTATTTGTGTTGGTTAAAAAGAAGGCCTG
TGACATTTACACATTCTCAGAGAGTTCATGAGCAAAAACAAGCAAAGAAAAAATAGCAGGACTGGAACACAGGACAGTACAGGATGAAAAGTATGGGAAG
GTCAGGCCTTAGGGTTACAAAGGACACTGCTGACAACAAGAAAGCAGCCTACCGCTGTCAGCTGTCTCTCACAGCCTGTCTCTCATGGCCAGACCATGGT
ATTCCCTGCTGACCCTAAACACTTCCACAGAATACCGGTGTACAACAATATTACTCTGTTGTGAGATCCCAAATCATTSCAAAATCATGTCTTCATATAG
ACAGAAAAGGTTGCTCTGTGAACCACAAAAACGAAAAACATGCCCCTCTCCTGCTTAATATAAACATCTGCCACTCTTTTACAAAATACAGCTTCGCCTT
GCTCTGTTCTACTTATCTCCTAAATAAAAGTTAAGATGCACAATCACAGAATTGCCCAGCTTACGGACAGCACCCTATCCAGAACAGACTCCTGCTTCTC
AAACCCCTTCCCCCAAAACCACCTAAAACAAAACAAGTCTTATAGAAATCCCCTCCCGACACCCTGTTACTGAGAAATCCTAGGGTACACCATTGTGCTC
AATATCCCTGTTGGAACAAACAGTTAAAAGAAACTAAAAATAATAAATCCATTTTATCTGACTATAAGCATATTCCTGATGGTCCTCACTTGGAGAGCAA
TAACATTCTCATTGCTATTGTCCTACTCACAGCAGCTCTGTGGAAAAGGGAATGAGGTTCAAAATCTGATTTGAAAGATGTAAAACTGAGGTTCGGCCAG
AATATGGGGTCTATCTAAGCTCATATTCATGAGACAAAACCAAGCCTTCTGGTTTCCAATCTCAAACCATGCCTCTCACATGGAGCCACCCAAGAACACT
GCTTCCCAAGCTGAGAAGACTCTTGAACAGTCACCCTGGAGGGAATGAAGGCCTTTCTTAAGCAGGCTGTCATGGTGAGCCACGTGCCATGCACTCTGAA
TGTGGACCAGTTAAGGACACACCACTCCACAGCCAAGGCAGCGGTGCCCTCTTTCCCAGACGAGGAAACTGAGGACATGAAGGCAGTGGAACTTGAATAA
GGTCACACTGTTGGGAAGTGGGAGAGCTGGGATTTCACCCTAGTCTACAAAAAAGGGGATGTAGGGCACCAGGCAGTCCTCCTGCAGGTCAGAGAGGCAG
TTTTCTCTGCAGCCTCTTGGGGTGAGGTGGATTTGTTGTGGCGCTGCCAGAATGGAAGCAGTGTTAGGAAAGTGGAAAGTTTTTTTTTTTTTTAGACGGA
GAGGCTCTGTCGCCCAGGCTGGAGCGCAGTGGTGCAATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGCTCACTCCATTCTCCTGCCTCAGCCTCCTGGG
TAGCTGGGATTACAGGCACCCGCCACCACGCCCGGCTAGTTTGTTGTTTTTTTTTTTTTTGTATTTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAG
GATGGTCTCAATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAGGTGCTGGGATTACAGGAGTGAGCCACCACGCCTGGCTGGGAAGGGTTTTA
AAGTCCAGAACAAATGCACACAGTGGCCTTATCTATGGGGTGGAGTGCAGAGTGGGCATTCGTGTGGAGAGAGACATTCAGGCTGCGGCATGTGGAGAGT
GGCCTCTCCTTTTGGGAAAGGCCTTCTGGAGAGCAGGATGTAACTGGGCGACACTCCAATCTCCGGATCAATTGCTAGATTGACTTTCCCCCAGATACCC
ACACCCTCTGAACCCAGTTCTAGGAAATTTCAGGGTCTGGAGAGCAGTTTCCTGACCTCTGGACTAGGTAAACAATGAAAGCAAGCACTGTGATTAAAGC
CAGCACCGCCAGTGACCTGGAGTCAACTACCTCACCTCACCTTCTGCCACTGGAGCAGGAGCAGGGGGAAGCTCTGGCTGCTAAAGAATAAGAAGGGAAA
CAAGTCTTCTCAGGCCCTGTCTTCTTTAGGCCCTGGATCTCCTGATATCCACTGATGGCTTTAGGCATGTGGCTCTGTACCATCCTGGACATTTTTCCAG
GCACAGCAGACAGGTCAGCAGGAAGTAAGGAAGCCAGTCCCTCCACAAGCCAAGAAGACTTCAATTGGAAGGGACCTGGAAATGCATCTTACTCACATTT
CTTTTGGTGTTTGGAGGCCTCCATAGTACCCCCACCACATGGCCCCGCAGCCTCTGAACTTCTCAGGATGGGCTCCCCAACACCCCAAGCTACATGGCAT
TTTTCTGAAAGCCATATCAGTAATGTAGTTGAGAATCAAATGAACTATGTTCGTAAAAGTATTCTTCCATCCCTTCTAGATTGTCCCCATTAACCACAGC
AAGATGGTTCAAGCCATTAACACACACGATACCCATGATCTTATAGTGCCAAGTGCTGTTCTTTTGCTTCTTATCTCAGTTGAGTGGCCCCTAGATAGTC
AAGTCATAAATGTGTGTGCCCATGAAAACTTCTTATTATCACTCACTATTCTAGCTAATTCTCAAGTGCAATCAATACCTCCTGTTTCTCAAGTGTGCCT
ACCTTCTTAATCTAGCTGCCATTACCCTGACCCAGGCCACTGTCTTCTGCTGCTTAGATCATGGCAAGCACTTCCTTTTAGATCTGCTTTTCTCCAGTCC
TGTTCCCCTCAACATCATAGCCAGAACAAGCCTTGCAAAATTCAAATGTGATCACCTCTCCACTACTGCAGTCCCTCTAGTGCCCCCTGGAAGGAAACCC
AAAGTCTTTAACACAGTTTACAATTCTTGTTATGAGGATGAAATTTGAAGACATTGTGCTAAGTGAAATAAGCCAGATACAAGGGGGCTATTGTATGATT
TCACATATATGAGGTACCTAGGATAGATGAATTCAGAGAGACAGAAAGTAAAACAGAAGTTACCAGTGGCTGTGGGTAGGGGTAAATGGAGAATTCTAGT
TTAATGAGTTGAGAGTTTCAGTTTGGGATGATGAAAATCATCCCATGATGTGGTGATGATAGCACAACCGTGTGAATGTACTTAATGCTACTGAGTTGTG
TGCTTAATAATAATGGTCAAAATGGTAAATTTTATGTCTATTTTACCACAATGAAAAACTGGAAAAGTAAAGTCAATGACTATAATATCATAAAGTGTAA
GTAACATGAGAGAAAATAATTCAGGCTAAGAGGATAGAGACTGCTAGGTAGGACTATTTTAGAATAAGTGATCAAGGTACTGATTTCTCTGAAATTGGAA
TATTTGAATAGAAGAGAAAGAGCTAGCTGGCGATGCCCGTAAGGGGTCCAGGCATGGAGACATCAAATGAAGAGTCTGAGGCAGGAATGGCCTTAATGCA
TTAATGGCAGCAAGAGGTCTATGTGGTTTCATGGATGGGTGTGTGCGTGCATGCACGTGTCTGTGTGTATAGTTGGTGTGCATGAGCATGTGTATGCATT
TGTGAGTATCTTTGTTTTTCTGTTGGAAACAAGGATGTCAACAGGACTAACTAGGTGAACCTAGCTGTGGTAGTTCAGCAATGAGATTTGCCAAAATGGA
TGGCAATTGAAAGAGGAATTGTGCTGTATTAAAGCAGACAGCTGCCGAGCACTGTATTGGAGGCTCCTAAATTTCTCATAGTTCTGAGAAGAGCTGTTTA
TTAATCTGGAGTTGAAGGCCAGGCCCAGGATATCCTTGTTCACAAGGTTGATTGGGCCCTACATTGCTGAGCCCAGCCTCCTCCCTCACTCTGAGGCATC
TGCCAGAGCCCCAGGCTAGAGGGCCAGCGTCCTTGTCACTGAGTCCCTGCTCTGCAGAAACACCAGTAAGTCATTTCTGGTGAATAAATCTGGGTTTCCG
GATCAAGGGTTTGGGGAGCTGACATGACCCTGGAGGCATGGAGGAGGCTTTCTAGGGGTGGGGGGAGTGGGATGGAAAGCAGAAATCAGGTTGAGGATGT
CTCTTTTTCTGCTTGTGCTGGAGCATCTGTGACTTTCCTCCATTATCTGTTCATCTGCAGTGGAGACTGTCTTTGTTTTCAAAGGGAAACTTGGAGGCTT
AGACCTATGGGGCTAGGCTGCTGAGGTTTCTTAGGGGGCAATAGCTGGAAGAAAGCTCTGAAGAACAAATGAAAGGTTAATACTGAGAAATGGGAGGAGG
ATTCAAGGCAAGTTTTCTAATTGCCAGTGGTTTTTGACTCACAGAACATGGGGAATTCCTGCCAGAAAGTAGAGAGGTATTTAGCACTCTGCCAGGGCCA
ACGTAGTAAGAAATTTCCAGAGAAAATGCTTACCCAGGCAAGCCTGTCTAAAACACCAAGGGGAAGCAAACTCCAGTTAATTCTGGGCTGGGTTGGTGAC
TAAGGTTGAGGTTGATCTGAGGTTGAGACCTTCCTCTTTGGATCACCAGCTTTCAGCTCAGGGCCTGCCAMTGAGTAAATGATAGTTAACAGGTCCTGGA
GGGGAATCAGCTGCCCAGATACAAAGATGGGATTCAGGTGGCAGATGGACCCGAAGAGGACATGGAGAGAAAGAGGAAGCTCCTACAGACACCTGGGTTT
CCACTCATTCTCATTCCCTAAGCTAACAGGCATAAGCCAGCTGGCAATGCACGGTCCCATTTGTTCTCACTGCCACGGAAAGCATGTTTATAGTCTTCCA
GCAGCAACGCCAGGTGTCTAGGCACAGATGAACCCCTCCTTAGGATCCCCACTGCTCATCATAGTGCCTACCTTTGTTAAAGTACTAGTCACGCAGTGTC
ACAAGGAATGTTTACTTTTCCAAATCCYCAGCTAGAGGCCAGGGATGGGTCATCTATTTCTATATAGCCTGCACCCAGATTGTAGGACAGAGGGCATGCT
CGGTAAATATGTGTTCATTAACTGAGATTAACCTTCCCTGAGTTTTCTCACACCAAGGTGAGGACCATGTCCCTGTTTCCATCACTCCCTCTCCTTCTCC
TGAGTATGGTGGCAGCGTCTTACTCAGAAACTGTGACCTGTGAGGATGCCCAAAAGACCTGCCCTGCAGTGATTGCCTGTAGCTCTCCAGGCATCAAYGG
CTTCCCAGGCAAAGATGGGYGTGATGRCACCAAGGRAGAAAAGGGGGAACCAGGTACGTGTTGGGCTGTTCTGTCTCTGCAATTCTTTACCTTCCAGAGG
AAACTGCCTGGGGATATGAGGAGACTGATGTCCTATTTGAGTATATTTTTCTCAACTATACTRTAACTCAAAACAGAGATTCAGCTCTCATTCTCTGGCA
TCTCAGAATTCCACACAGCAGTTTGTGACTAATAGTTGTCTTGCCAGCCCAGGAAAGTGGCCCACAGGTCAGGCCATCCCRTGGGACACAGGATGAATTT
TTCTTCTCTGGGTCATTGTCATGTCAGACCCCTATTCACTTCAGTAGGGATGGCACCAGGTTCAAGAGGCCAAAGAAGAGATGGAGTCAGCAAACAAACA
TAGGTTTTACTGGGGGAAYCTGTTTACAGGGAGATCCAGCAGCAGTGGGCTGGACAGGAGAACAACAACTACTGGTAAAAACAAATGCAGTTAATTTTCA
CTTTGCACCCTCCCTGCAGCAACCTCCACGTGGCAACTTTATTTCTTAAGTTATTGCTCTCAGGTGCMCACCATACAGTTATTGAGAGCAGTGCTCAGAA
AGGTCAGTCCTGGGTCAAGGTCTCCYTTCTCCTGAGAAGGGATTGGGCATCAAACTCTTGAAGAGAGAGAGCAAGAACATAGATATTAAGTCACATTTCC
TTTGTCTTCCAACAGGCCAAGGGCTCAGAGGCTTACAGGGCCCCCCTGGAAAGTTGGGGCCTCCAGGAAATCCAGGGCCTTCTGGGTCACCAGGACCAAA
GGGCCAAAAAGGAGACCCTGGAAAAAGTCCGGGTAAGGACCCCAGCAAGGTCTGAGCTGACTTCACCCAGGGTTCTGAGACCTTGAGTATCTGGTAAGAG
GTGCCCCTTCTCCTGTTCCTTCAAAGGAAGATACCCAAATTTGCTTTCTGACCCAGTGCCCTCAGCCCTCTCTTCATTCTTAGAGCCTTAGGGAATTCCT
ATAAGTGCCTGAGTACAGACTTACAAACTTTTCAAGACAACTCCCTCATCAGGCACTCCCTGTAAGAGCTGAGCCTGGATTCTCCATCAGCTGAAACAGT
CTAATGTGAGGCCCTGGTCCTAGAGGGAGAAAACAGGCCATCTAAGTGTGGGCTTATTATACCTATTTTTACAAAAGCATGTAACCATGGTATGYCATAT
TTTACTTCATAAGAAACCAAGCCAAAGCTTAATAGCTTAAAAACATAGCCGTCAATTTAAATCACAAGTCTGTGGGTCGGCCATGTGATTTCTCTGCTGG
TTTAAGCTGGGCTTACCCACATGTCTGTGGTCAACTGATGGCCAATAGTCTCACTCATGTGTCTGGCTGTTGTCTGAATGTTAGCTGGAGTGATGAGGGT
AATTGAACCACATCTCTCATCATCCAACAGGGCTTGTTCACATAGCAGTGATTACAGGATTCCCAAGAGTAGAAATAAGATAGGCTTTAGGCTTCTTGAA
GACTCAGAGCACATTATCATTTCTGTCAGACTGTATTGGTCAAAACAAGTCACAAGGCCAGCCCAGATTCAAGGAGTGGGGTAATAGACTCATGTCTTAA
TGCGAGGAGCTGTACCCTATTGAGGCCATTTTTGCCATCTACTACAACAAGTGATTTGCTCATGCCCTCCCCACTTGGATAATGGGCAACTCACAAAAAT
CTTGGTTTCCTGACTAACAGAACAAACCTGGAAAAAACAAAAACAAAACAAAAGACATCAAAAGCAAAACCTCTCCAAAGAYAAAAACTCTGCAATCTTT
TTCGTCACTCTTCACCAGGTCATAATAGAGTAACGCCTCAAGAGATTTCTTTTTAGTTTTGATAGAACAATTTATTTGAAAAAAAAATCTGTGAAGAACC
TGGCATATGGATTGCTAGGTAATCAGGGAGTATATGYGTGCATGTGATATGTATGCGTACTTTGGGATACAGTAAACAGACAAAGAGGGACATTTGGGGT
TGGAYGGAAATAGCGATTTTTCATTCTTTGGGCTTTTCAGTATTTTTTATTTTCCTTCAAAGTGTAAACATCAATGTAAAATAAGCTTTTTTTTTCAGTT
TGAAAAAGATACTCCACTCCCTTGTATATGCACAGTTCTGAGGCTCCTTCTCAACAATGCTTCTTTACTTTGTTCTAATTTTCTAGATGGTGATAGTAGC
CTGGCTGCCTCAGAAAGAAAAGCTCTGCAAACAGAAATGGCACGTATCAAAAAGTGTAAGCTTTTTCTCTTACTCTCCAGGCAGCTTGAAGTTTGGGAAA
AATAGAATGCAACAAATATTTGTTGAATGCATATAATTTTCTGTACCCTGCTAGGCATTTCTCATATTCTTACCTCATGAAATTCTCACAACATTTTGGT
AGAAATGGAGGCAAAGGGAAGTTAAATTACTTGTTCAAATGCACAGAGCTAATAAATGGCAGGGGTGGTTTATAGATGGAAGTCAGTCTGACTCGAGAGA
CCCTAATCCTTTACCGTCTGATATTGCTCACTGAAAATGGGACTTATATCCCTTTGTTGCACTGGTATTGAGACCTGGCCGTGGGGTCTAACCTGCCTGG
GGCAAATATTTTCAGACATTTTTTGTTTGGTCTCAAGTTAACAATTTAGAATTCAGAAGTCCAAATTATATGTCTTTTAGAATTCTGATCTGAAAGCACA
GAGAGGCCTTTGTACCAGTCTGTCTGTTCACATTTGGGTTGCCATATTTAACAAATAAAAAGACAAAGCACCAGTTAAATTGGATTTCAGCTGAAAAACA
TTTTTAGTATAAGTGTGTCTGAAAAATTATATGGGAGATATACTAAAATATTCATTGTTTGTCTGAAATTCAAATTTAACTGGACATACTATATTTTATC
CGGCAACTSTACTCTAGAAGACTTTTTCTTGAGAAATACCTTGAGTTGGGCTTAAGGATGAGTSAGTTTCACCCACTTTTTCACATTTTAGGGCTSACCT
TCTCTCTGGGCAAACAAGTTGGGAACAAGTTCTTCCTGACCAATGGTGAAATAATGACCTTTGAAAAAGTGAAGGCCTTGTGTGTCAAGTTCCAGGCCTC
TGTGGCCACCCCCAGGAATGCTGCAGAGAATGGAGCCATTCAGAATCTCATCAAGGAGGAAGCCTTCCTGGGCATCACTGATGAGAAGACAGAAGGGCAG
TTTGTGGATCTGACAGGAAATAGACTGACCTACACAAACTGGAACGAGGGTGAACCCAACAATGCTGGTTCTGATGAAGATTGTGTATTGCTACTGAAAA
ATGGCCAGTGGAATGACGTCCCCTGCTCCACCTCCCATCTGGCCGTCTGTGAGTTCCCTATCTGAAGGGTCATATCACTCAGGCCCTCCTTGTCTTTTTA
CTGCAACCCACAGGCCCACAGTATGCTTGAAAAGATAAATTATATCAATTTCCTCATATCCAGTATTGTTCCTTTTGTGGGCAATCACTAAAAATGATCA
CTAACAGCACCAACAAAGCAATAATAGTAGTAGTAGTAGTTAGCAGCAGCAGTAGTAGTCATGCTAATTATATAATATTTTTAATATATACTATGAGGCC
CTATCTTTTGCATCCTACATTAATTATCTAGTTTAATTAATCTGTAATGCTTTCGATAGTGTTAACTTGCTGCAGTATGAAAATAAGACGGATTTATTTT
TCCATTTACAACAAACACCTGTGCTCTGTTGAGCCTTCCTTTCTGTTTGGGTAGAGGGCTCCCCTAATGACATCACCACAGTTTAATACCACAGCTTTTT
ACCAAGTTTCAGGTATTAAGAAAATCTATTTTGTAACTTTCTCTATGAACTCTGTTTTCTTTCTAATGAGATATTAAACCATGTAAAGAACATAAATAAC
AAATCTCAAGCAAACAGCTTCACAAATTCTCACACACATACATACCTATATACTCACTTTCTAGATTAAGATATGGGACATTTTTGACTCCCTAGAAGCC
CCGTTATAACTCCTCCTAGTACTAACTCCTAGGAAAATACTATTCTGACCTCCATGACTGCACAGTAATTTCGTCTGTTTATAAACATTGTATAGTTGGA
ATCATATTGTGTGTAATGTTGTATGTCTTGYTTACTCAGAATTAAGTCTGTGAGATTCATTCATGTCATGTGTACAAAAGTTTCATCCTTTTCATTGCCA
TGTAGGGTTCCCTTATATTAATATTCCTCAGTTCATCCATTCTATTGTTAATAGGCACTTAAGTGGCTTCCAATTTTTGGCCATGAGGAAGAGAACCCAC
GAACATTCCTGGACTTGTCTTTTGGTGGACATGGTGCACTAATTTCACTACCTATCCAGGAGTGGAACTGGTAGAGGATGAGGAAAGCATGTATTCAGCT
TTAGTAGATATTACCAGTTTTCCTAAGTGATTGTATGAATTTATGCTCCTACCGGCAATGTGTGGCAGTCCTAGATGCTCTATGTGCTTGTAAAAAGTCR
ATGTTTTCAGTTCTCTTGATTTTCATTATTCCTGTGGATGTAAAGTGATATTTCCCCATGGTTTTAATCTGTATTTCCCCAACATGTAATAAGGTTGAAC
ACTTTTTTATATGCTTATTGGGCACTTGGGTATCTTCTTYTGTGAAGTACCCGTTCACATTTTTGTATTTTGTTTAAATTAGTTAGCCAATATTTTTCTT
ACTGATTTTTAAGTTATTTTTACATTCTGAATATGTCCTTTTTAATGTGTATTACAAATATTTTGCTAGTTTTTGACTTGCTCCTAATGTTGAATTTTGA
TGAACAAAATTTCCTAATTTTGAGAAAGTCTTATTTATTCATATTTTCTTTCAAAATTAGTGCTTTTTGTGTCATGTTTAAGAAATTTTTGCCCATCCCA
AAATCATAAGATATTTTTCATGATTTTGAAACCATGAAGAGATTTTTCATGATTTTGAAATCATGAAGATATTTTTCCATTTTTTTCTAATAGTTTTATT
AATAAACATTCTATCTATTCCTGGTAGAATAGATATCCACTTGAGACAGCACTATRTAGGAAAGACCATTTTTCCTCCACTGAACTAGGGTGGTGCATTT
TTGTAAGTTAGGTAACTGTATGTGTGTGTGTCTGTTTCTGGGCTGTCTATTCTAGTCTATTTGTTGATGCTTGTGTCAAACAGTACACTATCTTAATTAT
TGTACATTTATAGTTGTAACTRTAGTCCAGCTTTGTTCTTCTTMAAGTCAAGATTTCCATATAAATATTAGAAACAGYTTCTCAATTTCTACAAAATCCT
GATGAGGTTTCTACTGGGACCACATTGAGTCTATCAATCAACTTATGCAGAACTGGCAACTTACTACTGAATCTCTAATCAATGTTCATCATGTATCGCT
TCATKTAACTAGRATTTCTTTAACTTAATTGCTATGTTTTGACATTTTTAGTTTAAAAACCTTGTATATCTTGTTTTGGTGGTTTTAGTGATTTTAATAA
TATATTTTAAATATTTTTTCTTTTCTATTGTTGTACACAGAAATACAGTTAAGTTTTGTGTGTAGTCTTACGATGTTTAGTAAMCTCAATAAGTTTATTT
CTTAAATCTAGTAATTTGTAGATTCCTCTGGATTTTGTATATGCATAGTCATGTAAGCTGAAAATATGGCAATACTTGCTTCTTCCCAATTGCTTTACCT
TTTTTCTTACCTTATTGCACTGGTTAGCAACCCCAATACAGAGACCACCAGAKCAGGTATAGACTCCTGAAAGACAATATAATGAAGTGCTCCAGTCAGG
CCTATCTAAACTGGATTCACAGCTCTGTCACTTAATTGCTACATGATCTAGAGCCAGTTACTTTKTGTTTCAGCCATGTATTTGCAGCTGAGAGAAAATA
ATCATTCTTATTTCATGAAAATTGTGGGGATGATGAAATAAGTTAACACCTTTAAAGTGTGTAGTAAAGTATCAGGATACTATATTTTAGGTCTTAATAC
ACACAGTTATGCCGCTAGATACATGCTTTTTAATGAGATAATGTGATATTATACATAACACATATCGATTTTTAAAAATTAAATCAACCTTGCTTTGATG
GAATAAACTCCATTTAGTCACATTTTATCTTGTGTATGTATTATTGGAGTGGACTTGTTAATAGTTTGTTTAGAACGTTTGCACCTATGTTCATGAGAGA
TACTAGCTTTTTTTCCCCTCCTTAATGCACTTGCTATGGTTTGGGGTCAATGTTATGTAAGCCTCATTAAAATGAGCTGTGATGTGCTCTCATGCTCCTT
ATTATCTAAAATAATTTGTGTAAAATTATACTTTAATGTTAGATAAATTCACCAGTGAAGCCATCTTGGAATGGTGTTTTCTGTTGGGAAATGATTTTAA
TTTCAGATTTAATTTCCTCATGATCTAAACCTATTCATGTTTTCTGTCTTTTGTTCGGTTTCAGTGAGTTATATTTTTCAATGAATGTGTCAATTTCCTC
TGAATATATATGTATTGGCATAAAATTGTTACAATATCTTTGTATTTCTTTTCAATATAAGTAGGATCTATAGCAATGTCTATGTATCTGTTATGATTAT
TTGCATTTTATCTTTATTTTATTGTATTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGGCTGGAGTACAGTGGCACGATCTTGGCTC
ACTGCAATCTCTGCCTCCCAGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCAGGTAGCTGGGATTACAGATGCCCACCACCATTCCTGGCTAATTTTTTT
AATTTTTTGTGGAGACGAGGTTTCGCCATGCTGGCTAGGCTGGTCTCAAACCCCTGACCTGAGGTGATCTACCTGCCTCAGCCTCCCAAAGTGCTGGGAT
TACAGGCATGAGCCACTGTGCTTGGCCCATCTCTTTTTTTCTTAATCAATCTTGCAAAGGATTTGTCCATTTTATTAAATTTTTCCAAAAACTTCTTTTT
GGTGTTTACTAACCTCTATGATTACATTTATTTATATCTGTTCCTGTCTTTATCATTTCTTGTATCGATCTTCTGTGGGTTTAATTGGCCATTCTTTTTC
TAGCTTCTTTTAATTGACATTTAGAGAACTGATTTTCTTCCTTCCTTCTTTGCTAATATAATCATTTAAAGTTATAATTTTTATTTAAGAACTATTTCAG
CTGCATACCACAGGTTTGGATATGTATCTTTTCCCACCAATTCAAAATAGGTTTTTCATATCCAATTCAAAATATTTTATAATTTTCATTGTGACTTCTT
CGACTCATGGTTTATTTATAAGTGTGTGGTTTAATTCCTAAATATTTGAGTATTTTAAAAAGCTATACTCCTGTAAGTGATTTATAGTTTAATTCCACTG
TATCCAGAAATATACTTTTATATGAGTTCAATCTTTTGAAATTTGTTAAGATTTTATTTTATGATCCAGGTTATGATTTAGAATGGTAAATGTATTATGT
GCACTAGAAATAATGTGGTTTTTACAGTTGATTAGTGTATCATTAGGTCAGGATATGAATCTTCTTTGTATTTTCTGTATTCTCACTAATATTTTGCCCT
TTTAGAAGGAAATAACAAAGATCAGAATAGAAATAAATGACATAGAGAGTAGAAAAGCAAATAGATCAATGAAACTCAAAAGTTAATTTTTGTGAAATGA
TACAATTTCCAAACTTTAGCTAAAATAACTAAGAAAAATACAGAGAAGACTCAAAATCAGAAATGAGAGGAGACACGACAACTGATAACATACAAGTACA
AAGGATCATAAGAGCTACATTCCTTTGTGTTACATTGTTTTCTCTTTACATTCTGATTGTCTCTCGCTTGCTCGCTGTCTTCTTTTAAAGTTTTGTTTCA
GAAGAACTAAAAAAATCTAGGTTTAAAATGTACAGATATCCTTTGTAACTTAGCATTAGGCAAAATTGTCTTAGAGAACTCAATTACTTTTCAAGTAAAA
AATGATAAATTGAATTTCATCAAAATTAAAGATTAACTCAGTTTGTTAAACATTAGGAAAACAGGCAAACCATGACTAGGAGAAAAATATTTGCAAATAT
TGGCCTGCATCTGTCAAAGGATACATAGGATACAGAAACAACTGCTATAAGCCAGCAATAAAAAGACAGAACTGGGAAGGGATGGCCAGGGACCAAAGGA
GAAGAAATGAAACACAGGATAGACCACCTTCAGTGTCCTTGGTCAGGAATTCCCATTCCTTAATGTTGTGGGCTAAATAGTGTCGCAAAAAAAAAAAAAA
AAAAAAAAAAATCTATGCAAGTCCTAACCACCAGGACTTATGAATGCACCCTTATGTGGAATTAGGGTCTTTACAGTTATAATAAAGACAAGGCGAGGCC
ACACTGGATTAGAGCAGGCCCTAATCCACTGACTGGTGTCCTTCTAAGAAGAGGGAAATTTGGACACGCAGTCACACAAGGAGAATGCTGTGTGATGAAG
AAGGCAGAGAGTGGAGTGACACATCTTTAAGACAAAGACTGCCAAAGATTGTGGACAATACTGGTATCAGAAACTTCTGCCAACTTCTTCTGAAACGTCT
GCCTACAAACTTGTTTTCTACTAAAATCGTCCATTCTATGAGAAAACACAGAATATGATGAACCATTCAGCCAGGAAACTGCTGCTAATTCCTCAGGGCT
GTTTACCTATGATGGCCTATATCAGAAGCTAGGAGTGAGGCATAGAATAATATTCCTCAGAGCCTCCAGTAGGAACCAACCCTAGTGACACCTTGCTCTC
AGACTTCTAGCCTCCAGCACTGTGTAAGAATAAATTTATGTTGTTTTAAGCCACCCAGTTTGTGGTAGTTTATTATGGAAGCCCTAGAAAACAAATACAC
TTGGCAGTGGAGACTCCTGTTGTGTATACTACAGTAGACTGAATTGTTCCCTGGAAAACATCCTTCTGAGCTTCAGTCTTATGATTGGGAAGACAGAAAG
AGAGAGAGAGAGAGAGAGAGAATGAATGAATGAATGAATTGAGATATTTTCATGTGCTTTCCAGGACCTCCATAAAAAGTCACTCTGCGGTCTGGGCTCA
CATCCCCACTGGGGGATTCATGAGGAGGGAGTGGGCTACTGTAGTGTGTGTGATTCAAAGGCTGGGTCCTGCTACATTTATGAGAATAATGATGGCTTCG
ACGTTGACCTCACAGGAAGGTGTCTCCACAGTACTGAAGGCCAATCTGGGCAAGGAGCTGCAGGCCACCCTCAGGCAGACACCAGGCTTTTAGCTAAGGG
TGAGGGGGAACTTCGGAGCCCAATGAGCCCATGTAACCCACAGCAGGACTTTGTCACTGCAACCAAAGTGAGTAGCGGGGAGCTGGCTGGGAGAGGACCA
GGAGTGAGCTAGGTGTGTGTACAGGTTGGGTGCCATGTGATTTAAATCTTTACAGGAGAATCAGAGTGGAACAAGAGGTGAAGAAAAACTTGTAGAAGGG
GTTTCTGAGTACCTTTTATGTGCCATATTTTGTACTTAGAAACTTTGCACCATGACCTCATAAAACATCATTTTACAAAAGAGGAAAAGAGAATCTAAGA
GGTTGGGACACTCGCAGCGAGCTCACAGTTCACGTGAGGTAGCTTTAGAAAGTTGAAAATTCACAACTGTCTCACTCAAAACTCATGTCATCAAGCATAT
TCTCCATGTGTTAATCCATACTCTAGGTCATAAATTGGTTCAAGCAATTCCTCTTGTTCTTCTCTCCCAGTTTCTGGCCAGTGTTACATAACCTAGCTCT
TCCTTTCAGACTTGCCTCCCCTTATCATCCCACCTCAAGAGGCATCACTTAGAGATGCCAAAAGAAGAAACTGCTGAGGACAGGCAACCACTTTCACATG
GAAGGACAGAATGATACATAAAACAAAGATGATGAGGCAGTACCATACCCTTCCTTACACACACACAAGCACACATACAAGAAACACCCAAGAGACACAC
AAAATAAACATGTATACAGCAAACATACAAACACTCATAGATGCATAGAAGCCAGACTCTAATCAAAGGCCTGACTGTGATCCCTCTCTTCTCCAGCTCT
GATCTTGCAGGAATCCATGATCATGGAGGGAAATAGGACCTTTGCCAGCAACAGGCAGTCATTTGGCCGCCCACTGTGAACTCTGTGTCCATGAGTCCAT
CACCACCCTCATGGACCTGAAGAACACAGGCCTAGTATGTCTCATGAGGAAAGTAACACACCTACCTGGGCCTAAGGGAGGCCCCAGTCCCAGGAAATTG
CGCTACCTGAATGAGACCCCTGTAACTGTACATTTGCTACCCAGAGGAGCCTGATGGACAAGACAGAGGAAAGTGCGTGGAGATGAACGGGATAGGAAAT
GGAATAACATAAACTTTGTGCAGTCCTATCTCACTATGTGAGTTCCACATGCATCACCAGGAAAGTCAGGAAGATTAATGCTTGTTCCAGAAACGGGATT
GCTCCCTCACAGCACCCTTCTGGGCACCAATATCTGAATAGTAATGGTTAGTTTGGGCCTACCAGTTTGCCAAATTTTGTATGAAAACTACTGTTGTTAG
CTGAAAGGTAACCTCCAATGATATATTCATATTCTAATCTCTGGGATCCGTGAATATTACTTTACAGGGCAAAATAGTGCATACTATCTTATATGTGATA
TGATTAAATTAAGGATCTTGCAAGGAGGAATTACCCTGGATTATTTGGTTGGGCTCTTTTTTAGCCATTTCAGATTGCTGTAACAAAGTATTGTAGACTG
GGTGACTTATAAATAACAAATTTATTTCTCACAGTCCTGGAAGATGGAAGTCCAAGATCAGCATGCTACCATGGCCGGGTTCCGATGAGGTTGTGGACCT
CTTCCAGGTTCTAGACAGCTGACTGCTCCTTGTGCTCTCACATGGTAGAAAGAGACTGGTAGAGCTCTCTAGAGTCACAGACTCCATAATGGCACAAACT
CATTTAGCAGAGCTCCACCCTCATGACCTAATCACCTCCAAAGGCCACAACTTCTAATACCATCATATTGACAGTTAGGATTTCAAGATAGGAATTTCGA
GAGGAAACAAACATTCAGTCCATTGCAGGCCCTAAATAAAATCACATGTATCAAGATGGGCAGGGGGAGTTTGGAGACAGATGTCCAGAAGAAGAAGAGG
AAGGAATGAGGAAGCAGAGATTGGAGCAATGCAGCCACAAGCAAAGAAACATCTGCAAACACTGAAGGAAGGAAGAAGAAAGCTGAGGCTGAAAGAGGCA
AGAAAGAGATCCTCCCCTACAGTGTCTAAAGGGAGTGTAGCCCTGCCAACACTTTGATTTCAGACTTCTGGACTCCAGAAATTGGAGCAAATGAATTTTT
GTTGTTTTAATCCACCTAGCTTGTGTTAATTTACTACAGTCATCCTAGGAAACTAAAACAAGTATGCACAGGAGTTTTTGCTCAGGACTCATGAAAAACT
ACAGGCTCCTGAAGGAGGCATGAGCCTGTCCTTTGGACAATCTCTATGCAGTGGCCACCACAAATAGTAGCACCCCTCTCCTATAAAGTGTGTCTGCGGG
TTATGAGGCAAACTCCAGTTGCTCCTCTTTCAGGATCCATGGGATCACCTTTTCCTGGAGAATGAAGAATGTCTTGAAATCATGAGCACCAGAATTCTCT
CATTCCTGGAGGCCCTTGAAAGGCTGATCCTTCTCTGTGTCCTTTAGTATCTTTGTCCCACTCCTGTCTGCTCTAAGATGTGGTCATTTTGATGCTGGCC
CCTTAAACTCTGCAGCTGTGGATGTCTATGCCCAATTCTGGGTCTTTCATAACAGCATCTTTATCAATTACATGCACTAAGGGTCTGTTTCCCACCCATG
TCTGCAATCAGTTGATTTCAACCTCCCTCCTACCAAGAGTGGCTTCTCTTCCTACATTTGTTAACCCAGGATCTCAGTGGGTCTCTCTGTTCCTATCCAT
GATGTGGTCTGTGTCAGAGGTCTCAGCTGGAGAGTGCCAACGGGAAGAATGACAGGAAGTACTCATGAATGATGAGATAACTTGTGGAGTGGGGCTGGAA
ATGGATACACACACCCGCAC


SNP Information

Context             (SEQ ID NO:40882):
ACTGGGACCACATTGAGTCTATCAATCAACTTATGCAGAACTGGCAACTTACTACTGAATCTCTAATCAATGTTCATCATGTATCGCTTCATGTAACTAG
R
ATTTCTTTAACTTAATTGCTATGTTTTGACATTTTTAGTTTAAAAACCTTGTATATCTTGTTTTGGTGGTTTTAGTGATTTTAATAATATATTTTAAATA
Celera SNP ID:            hCV16118987
SNP Position Genomic:     11613
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40883):
TCTCTCATGGCCAGACCATGGTATTCCCTGCTGACCCTAAACACTTCCACAGAATACCGGTGTACAACAATATTACTCTGTTGTGAGATCCCAAATCATT
S
CAAAATCATGTCTTCATATAGACAGAAAAGGTTGCTCTGTGAACCACAAAAACGAAAAACATGCCCCTCTCCTGCTTAATATAAACATCTGCCACTCTTT
Celera SNP ID:            hCV15791213
SNP Position Genomic:     1379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40884):
GTGTGTGTGTCTGTTTCTGGGCTGTCTATTCTAGTCTATTTGTTGATGCTTGTGTCAAACAGTACACTATCTTAATTATTGTACATTTATAGTTGTAACT
R
TAGTCCAGCTTTGTTCTTCTTAAAGTCAAGATTTCCATATAAATATTAGAAACAGCTTCTCAATTTCTACAAAATCCTGATGAGGTTTCTACTGGGACCA
Celera SNP ID:            hCV16101523
SNP Position Genomic:     11422
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40885):
GTAAGCTGAAAATATGGCAATACTTGCTTCTTCCCAATTGCTTTACCTTTTTTCTTACCTTATTGCACTGGTTAGCAACCCCAATACAGAGACCACCAGA
K
CAGGTATAGACTCCTGAAAGACAATATAATGAAGTGCTCCAGTCAGGCCTATCTAAACTGGATTCACAGCTCTGTCACTTAATTGCTACATGATCTAGAG
Celera SNP ID:            hCV16118997
SNP Position Genomic:     11953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40886):
TGAAATCATGAAGATATTTTTCCATTTTTTTCTAATAGTTTTATTAATAAACATTCTATCTATTCCTGGTAGAATAGATATCCACTTGAGACAGCACTAT
R
TAGGAAAGACCATTTTTCCTCCACTGAACTAGGGTGGTGCATTTTTGTAAGTTAGGTAACTGTATGTGTGTGTGTCTGTTTCTGGGCTGTCTATTCTAGT
Celera SNP ID:            hCV26813434
SNP Position Genomic:     11256
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:40887):
TGTCTATTCTAGTCTATTTGTTGATGCTTGTGTCAAACAGTACACTATCTTAATTATTGTACATTTATAGTTGTAACTATAGTCCAGCTTTGTTCTTCTT
M
AAGTCAAGATTTCCATATAAATATTAGAAACAGCTTCTCAATTTCTACAAAATCCTGATGAGGTTTCTACTGGGACCACATTGAGTCTATCAATCAACTT
Celera SNP ID:            hCV16101524
SNP Position Genomic:     11444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,8)      total(A,8|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40888):
ATGGGCAACTCACAAAAATCTTGGTTTCCTGACTAACAGAACAAACCTGGAAAAAACAAAAACAAAACAAAAGACATCAAAAGCAAAACCTCTCCAAAGA
Y
AAAAACTCTGCAATCTTTTTCGTCACTCTTCACCAGGTCATAATAGAGTAACGCCTCAAGAGATTTCTTTTTAGTTTTGATAGAACAATTTATTTGAAAA
Celera SNP ID:            hCV26813435
SNP Position Genomic:     7982
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40889):
ATGAACCCCTCCTTAGGATCCCCACTGCTCATCATAGTGCCTACCTTTGTTAAAGTACTAGTCACGCAGTGTCACAAGGAATGTTTACTTTTCCAAATCC
Y
CAGCTAGAGGCCAGGGATGGGTCATCTATTTCTATATAGCCTGCACCCAGATTGTAGGACAGAGGGCATGCTCGGTAAATATGTGTTCATTAACTGAGAT
Celera SNP ID:            hCV26813437
SNP Position Genomic:     5928
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,23)   caucasian(C,30|T,10)   total(C,45|T,33)
SNP Type:                 hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 hmCS


Context             (SEQ ID NO:40890):
GTAAAGTGATATTTCCCCATGGTTTTAATCTGTATTTCCCCAACATGTAATAAGGTTGAACACTTTTTTATATGCTTATTGGGCACTTGGGTATCTTCTT
Y
TGTGAAGTACCCGTTCACATTTTTGTATTTTGTTTAAATTAGTTAGCCAATATTTTTCTTACTGATTTTTAAGTTATTTTTACATTCTGAATATGTCCTT
Celera SNP ID:            hCV2738898
SNP Position Genomic:     10840
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:40891):
TTTAGTAGATATTACCAGTTTTCCTAAGTGATTGTATGAATTTATGCTCCTACCGGCAATGTGTGGCAGTCCTAGATGCTCTATGTGCTTGTAAAAAGTC
R
ATGTTTTCAGTTCTCTTGATTTTCATTATTCCTGTGGATGTAAAGTGATATTTCCCCATGGTTTTAATCTGTATTTCCCCAACATGTAATAAGGTTGAAC
Celera SNP ID:            hCV2738899
SNP Position Genomic:     10700
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:40892):
TCCTGAAAGACAATATAATGAAGTGCTCCAGTCAGGCCTATCTAAACTGGATTCACAGCTCTGTCACTTAATTGCTACATGATCTAGAGCCAGTTACTTT
K
TGTTTCAGCCATGTATTTGCAGCTGAGAGAAAATAATCATTCTTATTTCATGAAAATTGTGGGGATGATGAAATAAGTTAACACCTTTAAAGTGTGTAGT
Celera SNP ID:            hCV8743460
SNP Position Genomic:     12065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40893):
TTACTCAGAAACTGTGACCTGTGAGGATGCCCAAAAGACCTGCCCTGCAGTGATTGCCTGTAGCTCTCCAGGCATCAACGGCTTCCCAGGCAAAGATGGG
Y
GTGATGGCACCAAGGGAGAAAAGGGGGAACCAGGTACGTGTTGGGCTGTTCTGTCTCTGCAATTCTTTACCTTCCAGAGGAAACTGCCTGGGGATATGAG
Celera SNP ID:            hCV2336610
SNP Position Genomic:     6220
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,36|T,4)   total(C,74|T,4)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40894):
TTTAGTGATTTTAATAATATATTTTAAATATTTTTTCTTTTCTATTGTTGTACACAGAAATACAGTTAAGTTTTGTGTGTAGTCTTACGATGTTTAGTAA
M
CTCAATAAGTTTATTTCTTAAATCTAGTAATTTGTAGATTCCTCTGGATTTTGTATATGCATAGTCATGTAAGCTGAAAATATGGCAATACTTGCTTCTT
Celera SNP ID:            hCV15809348
SNP Position Genomic:     11784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,9)      total(A,9|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40895):
AGGAAAATACTATTCTGACCTCCATGACTGCACAGTAATTTCGTCTGTTTATAAACATTGTATAGTTGGAATCATATTGTGTGTAATGTTGTATGTCTTG
Y
TTACTCAGAATTAAGTCTGTGAGATTCATTCATGTCATGTGTACAAAAGTTTCATCCTTTTCATTGCCATGTAGGGTTCCCTTATATTAATATTCCTCAG
Celera SNP ID:            hCV8743461
SNP Position Genomic:     10331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:40896):
ATAAGTGTGTCTGAAAAATTATATGGGAGATATACTAAAATATTCATTGTTTGTCTGAAATTCAAATTTAACTGGACATACTATATTTTATCCGGCAACT
S
TACTCTAGAAGACTTTTTCTTGAGAAATACCTTGAGTTGGGCTTAAGGATGAGTGAGTTTCACCCACTTTTTCACATTTTAGGGCTGACCTTCTCTCTGG
Celera SNP ID:            hCV8743470
SNP Position Genomic:     9109
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,5)   caucasian(C,30|G,8)   total(C,63|G,13)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40897):
TTATCCGGCAACTCTACTCTAGAAGACTTTTTCTTGAGAAATACCTTGAGTTGGGCTTAAGGATGAGTGAGTTTCACCCACTTTTTCACATTTTAGGGCT
S
ACCTTCTCTCTGGGCAAACAAGTTGGGAACAAGTTCTTCCTGACCAATGGTGAAATAATGACCTTTGAAAAAGTGAAGGCCTTGTGTGTCAAGTTCCAGG
Celera SNP ID:            hCV8743462
SNP Position Genomic:     9196
SNP Source:               Applera
Population(Allele,Count): african american(C,13|G,25)   caucasian(C,7|G,33)   total(C,20|G,58)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:40898):
ACTACTGGTAAAAACAAATGCAGTTAATTTTCACTTTGCACCCTCCCTGCAGCAACCTCCACGTGGCAACTTTATTTCTTAAGTTATTGCTCTCAGGTGC
M
CACCATACAGTTATTGAGAGCAGTGCTCAGAAAGGTCAGTCCTGGGTCAAGGTCTCCTTTCTCCTGAGAAGGGATTGGGCATCAAACTCTTGAAGAGAGA
Celera SNP ID:            hCV12113332
SNP Position Genomic:     6768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40899):
CCACGTGGCAACTTTATTTCTTAAGTTATTGCTCTCAGGTGCACACCATACAGTTATTGAGAGCAGTGCTCAGAAAGGTCAGTCCTGGGTCAAGGTCTCC
Y
TTCTCCTGAGAAGGGATTGGGCATCAAACTCTTGAAGAGAGAGAGCAAGAACATAGATATTAAGTCACATTTCCTTTGTCTTCCAACAGGCCAAGGGCTC
Celera SNP ID:            hCV12113333
SNP Position Genomic:     6826
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,19)   caucasian(T,4)   total(C,1|T,23)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40900):
ACCTGTGAGGATGCCCAAAAGACCTGCCCTGCAGTGATTGCCTGTAGCTCTCCAGGCATCAACGGCTTCCCAGGCAAAGATGGGCGTGATGGCACCAAGG
R
AGAAAAGGGGGAACCAGGTACGTGTTGGGCTGTTCTGTCTCTGCAATTCTTTACCTTCCAGAGGAAACTGCCTGGGGATATGAGGAGACTGATGTCCTAT
Celera SNP ID:            hCV2336608
SNP Position Genomic:     6236
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,27)   caucasian(A,3|G,37)   total(A,14|G,64)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40901):
GAAACTGTGACCTGTGAGGATGCCCAAAAGACCTGCCCTGCAGTGATTGCCTGTAGCTCTCCAGGCATCAACGGCTTCCCAGGCAAAGATGGGCGTGATG
R
CACCAAGGGAGAAAAGGGGGAACCAGGTACGTGTTGGGCTGTTCTGTCTCTGCAATTCTTTACCTTCCAGAGGAAACTGCCTGGGGATATGAGGAGACTG
Celera SNP ID:            hCV2336609
SNP Position Genomic:     6227
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,3|G,37)   total(A,4|G,74)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;|anes(A,31|G,214)      total(G,214|A,31);(A,-|G,-)   (G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:40902):
AACAGTCTAATGTGAGGCCCTGGTCCTAGAGGGAGAAAACAGGCCATCTAAGTGTGGGCTTATTATACCTATTTTTACAAAAGCATGTAACCATGGTATG
Y
CATATTTTACTTCATAAGAAACCAAGCCAAAGCTTAATAGCTTAAAAACATAGCCGTCAATTTAAATCACAAGTCTGTGGGTCGGCCATGTGATTTCTCT
Celera SNP ID:            hCV2738900
SNP Position Genomic:     7395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40903):
TGAAATTCAAATTTAACTGGACATACTATATTTTATCCGGCAACTCTACTCTAGAAGACTTTTTCTTGAGAAATACCTTGAGTTGGGCTTAAGGATGAGT
S
AGTTTCACCCACTTTTTCACATTTTAGGGCTGACCTTCTCTCTGGGCAAACAAGTTGGGAACAAGTTCTTCCTGACCAATGGTGAAATAATGACCTTTGA
Celera SNP ID:            hCV8743469
SNP Position Genomic:     9164
SNP Source:               Applera
Population(Allele,Count): african american(C,13|G,25)   caucasian(C,7|G,33)   total(C,20|G,58)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40904):
TCATGTCAGACCCCTATTCACTTCAGTAGGGATGGCACCAGGTTCAAGAGGCCAAAGAAGAGATGGAGTCAGCAAACAAACATAGGTTTTACTGGGGGAA
Y
CTGTTTACAGGGAGATCCAGCAGCAGTGGGCTGGACAGGAGAACAACAACTACTGGTAAAAACAAATGCAGTTAATTTTCACTTTGCACCCTCCCTGCAG
Celera SNP ID:            hCV2738901
SNP Position Genomic:     6619
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40905):
TCAGCTCTCATTCTCTGGCATCTCAGAATTCCACACAGCAGTTTGTGACTAATAGTTGTCTTGCCAGCCCAGGAAAGTGGCCCACAGGTCAGGCCATCCC
R
TGGGACACAGGATGAATTTTTCTTCTCTGGGTCATTGTCATGTCAGACCCCTATTCACTTCAGTAGGGATGGCACCAGGTTCAAGAGGCCAAAGAAGAGA
Celera SNP ID:            hCV2738902
SNP Position Genomic:     6481
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40906):
CTCCAGTTAATTCTGGGCTGGGTTGGTGACTAAGGTTGAGGTTGATCTGAGGTTGAGACCTTCCTCTTTGGATCACCAGCTTTCAGCTCAGGGCCTGCCA
M
TGAGTAAATGATAGTTAACAGGTCCTGGAGGGGAATCAGCTGCCCAGATACAAAGATGGGATTCAGGTGGCAGATGGACCCGAAGAGGACATGGAGAGAA
Celera SNP ID:            hCV11876880
SNP Position Genomic:     5571
SNP Source:               Applera
Population(Allele,Count): african american(A,15|C,21)   caucasian(A,27|C,9)   total(A,42|C,30)
SNP Type:                 TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,7)   total(A,7|C,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40907):
AGTGAAGGGGCAGAAGGAAGAATGGCAGTAAGGAATGTCTGAGGAGAGTCTGAAAGCCACATGTGTTCTGATTTCTGTGGCAAAAGAGCAGGTCTTTGCT
R
TCCTAACTACTGAGCTGCCTTTCACTGCAGCCACCCTGTGTTCAAGGCCATGTCACAGATAAGCATGTCTCTATCACATGGGCAGATATGACACCCTCTG
Celera SNP ID:            hCV8743479
SNP Position Genomic:     911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(G,-|A,-)   (G,-|A,-)   Caucasian(G,12|A,64)   African-American(A,32|G,52)   Asians(G,5|A,53)   total(G,69|A,149) 
SNP Type:                 hmCS


Context             (SEQ ID NO:40908):
GGGCTGTTCTGTCTCTGCAATTCTTTACCTTCCAGAGGAAACTGCCTGGGGATATGAGGAGACTGATGTCCTATTTGAGTATATTTTTCTCAACTATACT
R
TAACTCAAAACAGAGATTCAGCTCTCATTCTCTGGCATCTCAGAATTCCACACAGCAGTTTGTGACTAATAGTTGTCTTGCCAGCCCAGGAAAGTGGCCC
Celera SNP ID:            hCV2738903
SNP Position Genomic:     6363
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,15)   caucasian(A,10|G,30)   total(A,33|G,45)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40909):
AAACAGTACACTATCTTAATTATTGTACATTTATAGTTGTAACTATAGTCCAGCTTTGTTCTTCTTAAAGTCAAGATTTCCATATAAATATTAGAAACAG
Y
TTCTCAATTTCTACAAAATCCTGATGAGGTTTCTACTGGGACCACATTGAGTCTATCAATCAACTTATGCAGAACTGGCAACTTACTACTGAATCTCTAA
Celera SNP ID:            hCV16148640
SNP Position Genomic:     11478
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:40910):
ATATGGATTGCTAGGTAATCAGGGAGTATATGTGTGCATGTGATATGTATGCGTACTTTGGGATACAGTAAACAGACAAAGAGGGACATTTGGGGTTGGA
Y
GGAAATAGCGATTTTTCATTCTTTGGGCTTTTCAGTATTTTTTATTTTCCTTCAAAGTGTAAACATCAATGTAAAATAAGCTTTTTTTTTCAGTTTGAAA
Celera SNP ID:            hCV3033373
SNP Position Genomic:     8205
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40911):
CTCAAGAGATTTCTTTTTAGTTTTGATAGAACAATTTATTTGAAAAAAAAATCTGTGAAGAACCTGGCATATGGATTGCTAGGTAATCAGGGAGTATATG
Y
GTGCATGTGATATGTATGCGTACTTTGGGATACAGTAAACAGACAAAGAGGGACATTTGGGGTTGGATGGAAATAGCGATTTTTCATTCTTTGGGCTTTT
Celera SNP ID:            hCV3033374
SNP Position Genomic:     8137
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40912):
TCCTGAGTATGGTGGCAGCGTCTTACTCAGAAACTGTGACCTGTGAGGATGCCCAAAAGACCTGCCCTGCAGTGATTGCCTGTAGCTCTCCAGGCATCAA
Y
GGCTTCCCAGGCAAAGATGGGCGTGATGGCACCAAGGGAGAAAAGGGGGAACCAGGTACGTGTTGGGCTGTTCTGTCTCTGCAATTCTTTACCTTCCAGA
Celera SNP ID:            hCV25605770
SNP Position Genomic:     6198
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40913):
AGGTTTCTACTGGGACCACATTGAGTCTATCAATCAACTTATGCAGAACTGGCAACTTACTACTGAATCTCTAATCAATGTTCATCATGTATCGCTTCAT
K
TAACTAGAATTTCTTTAACTTAATTGCTATGTTTTGACATTTTTAGTTTAAAAACCTTGTATATCTTGTTTTGGTGGTTTTAGTGATTTTAATAATATAT
Celera SNP ID:            hCV16118986
SNP Position Genomic:     11605
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,9)      total(G,9|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Gene Number:                 196
Celera Gene:                 hCG27350 - 104000116973030
Gene Symbol:                 PROZ
Protein Name:                protein Z, vitamin K-dependent plasma glycoprotein;PZ
Celera Genomic Axis:         GA_x5YUV32W8MG(26885806..26911557)
Chromosome:                  Chr13
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12356):
AGACAGAGAGAAAGAGAGAGACAGAGACAGAGAGAAAGAGAGAGACAGAGACAGAGAGAAAGAGAGAGACAGAGACAGAGAGAAAGAGAGAGACAGAGAC
AAAGAGAAAGAGAGAGACAGAGAAAGAGAAACAGAGGGGAGGGAGTAAGTCCAGGTAAAAAACAAACAAAAAAATTGAGAATAGAACAAGAGAGAAACAG
AGACATGGAGACACAGAGAAAGACACAGTGAGACACAGGAGACAGAGACAGAGAGAGATGCTGAGAGACAGACAGGGAGAGGGAGAGAGAGAGGAGACAC
CAAGACACAAAGAGGGCGGAGAGACAGACACAGAAAGAGGGAGACAGCGGGGCTGGATGGACGTGTGGCCGGGCCAGTGGGGAGGAGAGACGAGTCCGCA
GACAGCGTTCAGAGGCCGCGCTGCCTGGGTGCTGAGCCGTCCCGGGGTTCACGGTCGCAGTTTGTCCTTACAAAACGCCCAGCCGCCCCGACCTGTGGTG
CTTAGGGAGGACCTACCTGGCTGTGCCGGTCTGAGAAGGGGCCAGTGAGGCCCGGTGCGGGTACGGGCGGGTGCAGATGCAGCCAGGAGGACGGGCGGGA
GCGGGGGCCTGTCCCACACGGGGGCCTCGGCAGCACCGGCATGGCTGGAGGCCAGTACGGCCAGGTGTGGCGGGAGGGAGCGCCGTCTGGCTTGGGTCGT
CCATCCTGACAGGACGCTGCAAGGGCAGGAGCCCCGCGCCCCGTGTCCTGCGCCCCCGCTCGAGGACAAGCCCCAGCCGCCGGTCTCCGCTGGGTTCCGA
CAGGCCTTGCTGGGAGGCCTTGCTGGGAGCTGGGGGTCGAGGCTCACAGACTGCGCTGACCCCAGCAGGCACAGCTGGGTCCAGGGACTCGGGAACTCGC
AGCCTGACGCGGGCCGGACCCCCGGGGTGGGTGCTGAGGGCCTCGGATGCCCTCCCTGGCTGGACGTTGTGGCTGTGCTGATACTGAGCGGTAACCCTAG
GAAGGAGAGTCCCCTGGGCTCAGCTACCCGGGACAAGGTCAACAGGGACACCGGCCCCAGTTCCAGGAGAAAAACAAGCACGGCCAGCGGCGAGTGTGGG
CGACAGCAGCTCAGGGAGAAGCAGATTATCAACAGCGAATTCACTCAGGGTCAGCCAACTGTACGCTTAAAAAAAGATTCCTGCGGTAAACTGTATGTCT
ATTTTACCACAATAAAAAACTTATTGTTTTTAATTACCAATGACTTCTAAAAAATGTTTTTAAAACCCAGATCACAAATCCTGAACATAGGGCCTGAAAG
GCGAATTCAGCCACCACGGAGGACTCCCGCACGGTGGAGCCGGGACGCAGGGACTCCATGCTGCGCGGAGGGCAGGGGCACGTGACGCAGGGCGTGGGGG
AGGCGGGGCGTGGAGGAGGCGGGGCGCGGGGGGCGGGGCGTGGGGGAGGCGGGGCGTGGGGGCGGGGCGTGGGGGGCGGGGCGTGGGGGAGGGCAGGGGC
ACGTGACGCAGGGCGTGGGGGAGGCGGGGCGCGGGGGAGGCGGGGCGCGGGGGAGGAGGGGCGTGGGGGGGCGGGCCGTGGGGGAGGAGGGGCGTGGGGG
GGCGGGCCGTGGGGGAGGAGGGGCGTGGGGGGCGGGGCGTCGGGGAGGGCAGGGGCACGTGACGCAGGGCGCGGGGGAGGCGGGGCGCGGGGGAGGCGGG
GCGCGGGGGAGGCGGGGCGCGGGGGAGGCGGGGCGCGGGGGAGGCGGGGCGCGGGGGAGGCGGGGCGCGGGGGAGGAGGAGGAAGGGTTCTGAGTGGACG
CGGGGACTCCATGCCACGCGGAGGGCAGCCGCTCATGAGGCGGGGTGTGGGGGAGGAGGAGGAAGGGTTCTGGAGTGGCTTTTCTACTCCAGAAGTCTCC
CCGATCCTGAAAGAAAATCTAGACAGGTGGAAAAAAGAGAAACATGTCCAGATAGTGTCTTCCACATTAATGGTCTCCCAAGCTCTGAGGAAGCCCAATG
AGTTGAACAGTTTCTCATAAGCTTGCGGGTCCCTGTCAGTGCTTCTGAGATGCTAAAAACGCCAGGCTGTGGGCTGCGTCACCATGTGTCTCCTCTTTAA
TTTCTTCAGGAGCTCCAGGTGATAAGCTGCCACCTCCATCCACAATGTGGACATCAGAGGATGCAGCATGCTGTGGTTTGAATGTGTCCCTATAGTGCAC
GTGTTGGAAACTTAATCCCAAGGCAACAGTGTTGAGAGGTGGGACCTTTAAGACGCATTCATTGTCAGAGCCCACGTGAATGAATTGATACCACTATTGT
AGGAGTGGGTTCGTTATTTTGGAATAAAAGGATGAGTTTGGCCCCCTTCCTCTCTCCCCTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCACGCGCATC
CACCTTCCACCATGGGATGACGCAGCAAGAAGGCCCTCGCCAGATGGGGGCCCCTGGACCTTTGATGTCCCAGCCTCCAGAACTGTAAGAAATAAATTTC
TGTTCTTTATAAATTACCCAGTCTCAGATATCCTGTTACAGCACCACAAAGTGGACTAGACCACACTCTACTCTGTGAATCTAAGACGCACCATTATTGA
TGAACCTGAAAGAAAGAGCATATACCCAAATTAGCTGTGGGTCAGCTCAGCCTGGAGGCAAGAGGGGGAAGCTCAGATAATCTAAACCACAGGCCAGCCA
GGAACCAGCTTTGCAATACATTTACACTATTCACATGGGCTCCCAAAACTCACACAAAAAAATGTATTTAAAGGGATTGCAAAGTGGCAGTGCCCCCAGG
GGGCAACATAAAGCACAACCCCTTTCAGGAAGAACTCGGCCTTGTCCAGGCTGACATTAGAACATTGGCTGTAGGGAACAGGCCAATTCAGAGATGTTGA
AATCTAAAACATAGGTCCCAGAGTTGATTGAACAGGTATTTAAATAGGGACTGCGGCAAGATCTAAGTATTCAATGACCAGGTTCTCCATAGGCTGCTCA
TTTCAGGTTCCACACAAAGTTGTGGGGTCAGTTGATTTAAGCTGGGGACCCCCACAGAGGACACCCCAACATCTGAAGGACACGACAAAGACCCCAAAGG
AAGGAAGATTCTCCTCAGGTATACAGAAGGAAAGTAAACCAGTCAATGGAAAAAGTGTCCCAATGTTGGTTGGTTTGTTTTTCAGAACAGAAGAGGGTGA
CAGAAGAACGATTATTCATATGAGAGATGAGGAAGATGAGCAGAACGAGGTGAATCTTAATGTTTGGACAATTTATTATTGTAGAATTTTTGGTCCAAAG
GTGGTATCTTTGAGAAGGCAGATGAGAAAATTAAATCACCACATACAACACGGTCAGTCCACGTACAACACAGTCAATCACAGCTGTGGCCTCGATGTTG
ATGCCTTCCTGTATTAGTCTGTTCTCATGTCACTGTGAAGAAATACTTGAGACTAGGTAATTTATAAAGAAAAGCGGTTTAATGAACTCACAGTTCCACA
TGGCTGGGGAGGCCTCAGGAAACATAATCATGGCAAGCAGGCACCTCTTCACAGGGTGGCAGGAGAGAGAAAATGTGTGTCAATCACAGGGGGAAGYCCC
TTATAAAATCATTAGCTCTTGTGAGAATGCACTCACTATCACAAGAACCACCTCCATGATTCAATCACCTCCACCTGGTCCTGCCCTTGACCTGTGGGGA
TTATTACAATTCAAGGTGAGATTTGGTTGGGGACACAGAGCCAAACCATCCCCCAAAACTCACGTTGAAACCTAACCCCCTGTGCAATAGTACTAGGAGG
TGGGGCCTCTGGGAGGCACTCTGCCTTCATGGATGGATGACTGCCCTCCCAAAAGAGGCTCCAGGGAGCACCCACATTCCTCCCTTCCACCATCCAAGGA
CACGTCTATGAATCATGGGCCGTCACCAGACACTGAGTCTACTGGAGCCTTGATCTTGGACTTCCCATCCTCCAGAACTGTGAGCACTACGTTTCTGTTT
ATCGTAAATTACCCACTCTAAGGTGTTTTGTTACAGCAGCCCCAACAGACTAAAATGGTCCATGAGGGAAGAGGTTGTAGCTCAGATACCCATGTCAGGC
ATATAGGATGTGCTTAATTAACACTTATTGATCGAATGTGTATGTCCCTGTCTGCCTTTCCATTTTTAGGCAGCTATTGATGGTTTTTAAACTATCCAGC
AGAAGTATTTTTAATGTAAATTTCCATGTGGGAATACATTTTCACACAAAAAAAGGCACCTTTTCTTAAGTGAAGGCCACGTAGATTGCCAGGCTGGTGC
AATTCACCCAAGAGCTATCCTATACAATCAACTTCTGGCTTTCAAATTATTTTAACTCACTCACTAAAGATAAACTTTATTTTCTTTTCCCAGCTTTTTA
AAGCAAACTTCACAACTTCAGTGTATTTGCGGGCATGCCCTCTTAATCAAGGGTGTCAGCTTCTTAGTTTTCTTCTGTTCCCACTTTAACAAAATTGTAT
TTAGAATCCTTTCATTGAGTTTTGCCACCTTTGAGTGTCATTCAATCGAACAATATCTATATGCTGACAATGCTGTCATTTCATCTGTTACCACCTGAAT
CTCCACTGTGAGTCCCAGCTTCTCGGATGCCCACTCCTGTCTCCACCTGGACATCCCACAGACACCTCAAATTTGCCAAACCTCGCTTCCCTCTGCCCTC
CTGGAGCTTGGCCGTCTCAGCACACGCACTGCCATCCTCCCAATCGCTCAGCCCAAACCTTGGAGCCGTGCTGCCCGACACAATTCATCATGAATCCCAT
CAGCTTTCCCTTCCTGAAGCATCCAGACTGCAAACGTGCTTCCTGCTGCATGGCTGCACCCTCACCCCCTCCTGGACTAGCCGGCAGCCTCCCTTTTGAC
TTCTCTGGAATGTTCTGTTCTCCACACAGCAGCCCAGTGATCCCTTCAGAGCACAAATCTTTCCATGTCAATTCCTGTTCCCTCCAATATCTTCCCAACA
CAGTGAAAATGAAACACCAGGTTCTTACCTCAGGCTTCAAGGGCTGATATGGTTTGGCTGTGTCCCCACCGAAATCTTATCTTGAATTGTAATCCCCATA
GTCCCCACGTGTCCTGGGAGGGACCCGGTGGGAGGTAATTGAATCATGGGGGTGGTTTCCACCATGCTGTTCTTGGGATAGTGAGTGAGTCTCAAGAGAT
TTGATGGTTTTATAAGGATCTGGCATTTCCCCTGCTTCAGTCATTCTCTCTGCTGCCACCCTGTGAAGAGGTGCCTTCTGCCATAATTATAAGTTTCCTG
AGGCCTCCCCAGCCATGTGGAACTGGGAGTCAACTAAACCTCTTTTCTTAAATTACCCAGTCTTGGCTATTTCTTCATAACAGTGTAAGAAGGGACTAAT
ACACAGGGCCTACATCTGAAAGCAGCAAACGACAACCCTGGGGCCAAATCTGGCCCCTTAATAGCTCTTATAAATAAAGCTTTATTGGCACACAGCCAAG
TGTTCATTCATGATTGTCTATGCTGCCTCTGCTACAATGGTGCTGAGCTGTAGTGACAGACACTATTTGGCCCTTCCCCGCTTTCTCCCTCCTCCCTCCC
TCCCTTCCTTTTCTCCCCTTCCTTCTTTCCATCCTCCTGCTTTCCCTCCCTCACTCCCTCCTGTCTCTTTCCCTCGTTCTTTTCTGTGTATTCCACACAC
ACCTAGAACGTAAGCTGCATGTGACTTTGTCTGTCCCGCCCAGTGCTGTGTCCCCAGGGCCTATCTCACCTCCATTGACCACACACGGGCATGGGTGCCA
CCTTCCACCTTGCACCTGCTGCCTTTACCTTCTGTTCTCTGTCTCCCTAAATATCTCCCAGGGTCCTCTGAGCCTTCACCGTTCATTTCTCTGCCTGGCC
TCAAACAGAAAACGTCAGGAGGGAAGCACACAGCTGCACAGGTCGTGCCCCGAGGCTCCTGCTGCCGGCACCTCCCCCAGCCTGGACTTTGGCTGTGTTT
GTAGCCCTGTCCCAGCRCTCCGGGTGGGAATGGCAGGCTGCGTCCCACTGCTCCAGGGCCTGGTCCTGGTCCTCGCCCTCCATCGTGTGGAGCCCTCARG
TAGGCATCTGGCTTAYCTRTCTGTTGTGCCTGTGCTGTGTCTTTCTTGACTCGGTCCATGGTGGATTTGTAGATGAGGCTTTTTCCAGGAGCCAGAGGAG
CCCTGAGTGCCCAGACTAGTCTTAATTCCCCTGAAAAAGCTGTTTGGATCTTTATCATTTGGTGACAAGTATTTGGGACATGATAGTGTCACTTGGGGTC
CTCCCAAGAGATGCCCAAATGGRAAGAAGCCTGTGTGCAGGGGATTCAGCCGGGWAAGGCCGGGGAGAGGGGAGGRGGAAAGGGGGAGGAGTGGGGGKAG
GCCTGGGTTGGGCATTGGACGAGGGGAGGGGGTGGGGCAGGCTGAGCCCAGACTGCAATGTGGGCAGAGAGAGCCTTGGCCAGGCCAGCCAGGAATGCCC
AGTCTTGAGTCAGGAGACATAGCCAGGGAGCAGCCACCCTGCCTGCCTGCCACCCTTCTACCACCAGCCACTTCACTGAAGGAACGACATGGACTCCATT
CTGACTCTGCCTGCACAGGCGTCCAGGAAAGCTGCAAGTCAAAACACCCAGCATCCCCGCTGGCCCCATGGTCTCCCGCTGGCCCCATGGTCTCCCACCC
TGAGAGGGTGATCCCCCCGCCCTGYCCTGCCCAGCACTTACCGTAGCCGGACTTAGCTGAGCCCCCYCTGCTGTAACCCTCAGCACCGAGAGAAARGGAG
GGAGGATGGGAAGGGCCTGGGCTTTGACCCTCCCGGAGAGGGAGAGAACATGCTTTGGGACCCTCAGGTGGGAAGAGGCTCCAGAGACCACTGCCGCGGG
TCAACTCRTTTGCCTTCTCCTCCTGGAAATCGCAGAGCCTGCTGCAATGTATAAGTTTCTTCTTTATGTGTTTTATCAAGATGTTAAATGCTGCGCACAG
AGGCRGCACAGGAGCTGATGGCTCTTGGTCCCCAGTTCTCAGTACGGGGACCTTTGACCCCAGCTCAGCCTTCCTTCGCACTCAGACCCAAAACCCAGTT
GGAGCCCTCCCTCCTCCACTTTCCTGACTGAGGCCCGTGGCCTCTCTGCAGAACCTTAGTGTATCCGCACTGATCCTGGGGCTGATCCATTCGCCCAGAG
GATGAAGTGCTTGCCTACCTCGGGGGAGGGAGTAGCGGGGTGGCCCTGAGGCCCTCGCAGGCTGAGAGCCTGTGGAGACRGACGGGGCTGGGGCTGGCGG
CCRGCCGGGGAGGAAGCCAGGCAGCTCTGGAAAGCAGGGCCCTCGGTGCTCCCAGTCACCTGCCTTCTTGTCTCGTCTGTAGTATTTCTCCCGGCCTCCA
AAGCAAACGACGTTCTGGTGAGGTGGAAGCGTGCGGGCTCCTATCTTCTGGAAGAACTCTTCGAGGGAAACTTGGAAAAAGAATGTTATGAAGAAATCTG
TGTCTATGAAGAAGCAAGARAAGTGTTTGAAAATGAAGTAGTCACTGTATGTACCCSCACCACAAACCACAGGCCTCCTCATTATTTAGACTTCTGCTGG
CCCAGGGAGCATCATTTCTCAGAGATTAAGCTTAATTAATTAGCCTATTTACTTACCGATGAGGTTGACACAATCCCAGTTTTACAGATGAGGAAACAAT
TTAGAGAATCGACTTAATCCACCTTTCCCTACAGCAGTGAGTGGGGCTGGAAGTCAGCTCAGAGCCCACTGGACTCATTTCTTCAGGTCAGGCAAGGCCC
ACACACTGATCAGACACCCAGCATACATTTTCTTTCTAGGCTTCAAGTCTGAATAATTCTCCTAATTTTAGATACTCCTACCCCAAACTAAGYGTCCCCA
CTCCCTACAGAGGTATATATCTTTAAAATTCAACTCGGTTTATAAAAAGYGAAAAGGTGATGTGACTTCTATATCATGTGCTTTTGTGGAGGGTGGCGTG
GAGATTGGCCCTAGAAGGGAAGGGCCACGTTAGGGGCTGTGGGTGGTGGGTTTGTGCCATGTCATAGACTCTGGCCTTCCTCAAATAGGTGGTGGTAAGC
ACATGTTGAGTAATATATCTTACAGATACATTTAGTTACTATACATTTAACATAAACAAATAGGCTGTAAAACAGGAAAATTGTGCATTGTTTCAACCAC
TATTGTCCTATTAAGTGAATAAAATCAACATTTTCTTACCTTCAAGTTCATCTAYAGGAAAGAATATAGAAAAACAAATATCCCATTTGTAAYATTTTTA
TGTTTTAACTCTAAAGGATGAATTCTGGAGACGATAYAAGGGTAAGTGGTTTCCTTCGTCTCCTCAGAAGTATTAATTCCTYGGGATGARGTGCGTGGGT
GGGCTTAGGACGCTTCACGACCCCAGCTCAGCGGATGCCAAGCCTCTGGCTCCAGGACCCACGGTGTCTCTCCAGGGAAGGGCAGCTCCGACTCTCCCCA
AGGACCAGGTCAGGAAGCCCCCGGGCTCTGCCACCAGGGCCACAGGCAGTGCCTGGTTTGTCTTGCCCAGTGTCTGGGTAGTTTCTTGGCACTCTGGGAC
ATGGGCCACAGGCCAGGAGGGCCCCCCCAGAGCAGCTCCTCCAGCCGCCTGGCTCCTGGGCTCCTGGGAAGCCTCATGCTGCAGCAGGGTCAGAACTCGT
CTCAAATTTTGGAAAGTCATGGCCCCGATGGAGACTTTGGTTAGGAGACTCCTCCCAAGGGAGGAGCTCTAGGTGGGCAACTGCAGAAGAGCATGGGACA
GRAGTAACACAGATGGAGACCCACGGGGCTGGGGGAGGCCAGGGTAAGGACCCACCTGGGAATGAGTAAGCAAAGAGCTGCAGCCACCACCAGACAAGCA
CGGGGACAACTGGGCACAGAAGGAAGCGGGAGAGGCAGGGAAGGCCGGAGAAGGGCTGATGGGGCGGGACAGAGGGGACCGCGTGCGGACGAAGAAAGGG
CACCCAGCAGAGTGGGAGGCACTGGCAGCCAGGCCTTACATCCGGAGCGGGGAGCGTCCTGGGGGCCAGGCGATGGCATGGGGAGCAGCATGAGCAGGCT
CAGTCCCCATTCCTGCCACCCCCTGCCCCCCCGTCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACCTCCTCACATCCTCCTCCTGCTCAGGTCCCCGTC
CCTGCCACGTCCCCCCATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACGTCCCCACATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACCTCCCCCC
ATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACCTCCCCACATCCTCCTCCTGCTCAGGTCCTCGTCCCTGCCACCTCCTCACATCCTCCTCCTGCTCA
GGTCCCCGTCCCTGCCACGTCCCCACATCCTCCTCCTGCTCAGGTCCTCGTCCCTGCCACCTCCCCCCATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCC
ACGTCCCCACATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACGTCCCCACATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACGTCCCCCCATCCTC
CTCCTGCTCAGGTCCCCGTCCCTGCCACCTCCCCACATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACCTCCCCACATCCTCCTCCTGCTCAGGTCCC
CGTCCCTGCCACCTCCCCACATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACGTCCCCTCATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACCTCC
CCACATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACCTCCCCACATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACCTCCCCACATCCTCCTCCTG
CTCAGGTCCCCGTCCCTGCCACCTCCCCACATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACGTCCCCTCATCCTCCTCCTGCTCAGGTCCCCGTCCC
TGCCACCTCCTCACATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACCTCCCCACATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACCTCCCCACAT
CCTCCTCCTGCTCAGGTCCCCGTCCCTGCCACGTCCCCCCATCCTCCTCCTGCTCAGGTCCCCGTCCCTGCTCCACTCTGTCCTCCTCCTGCTCTGGTCC
CTGTTCCTGTCACCCCACCCTCCTCCTGCTCAGGTGCTCAGGTCCCCGTCCCTGCTGCCACCCCCCACTCCATCCTCCTCCTGCTCAGGTCCCCATTCCT
GTCACCACCCCCACCCTCCTCCTGCTCAGGTCCCCGTTCCTGTCACCACCACCCCAACCCCCATCCTCCTCCTGCAGGCGGCTCCCCGTGCATCTCCCAG
CCCTGCCTCCACAACGGCTCTTGCCAGGACAGCATCTGGGGCTACACCTGCACCTGCTCCCCCGGCTATGAGGGCAGCAACTGCGAGCTGGGTGAGGCCC
CGGCCGTCCCCTTCCCCCAAGGGCCTCCCTGGGCAGGTGGGCCTCACATCCTCGGCCAGAGTCCCAATGGGCCCCTCCTGAGGTGTAGCCAYGAAGGTGC
CTGTGTGAACCGCGATTTGGCTCACCCCAGGGGATTCCTCTCATCCCAACCAGATTCTCCTCCAGAAACCACGCCGGGGGCTGGCTGCATTCTGAGCTGC
CCCTTCCAGACAGGCCCCCATACTTTTCATAGCAGGGGCCCCTCTCCTCCCCCCMCCACCTCAACCATTCACAATCTGCTCACAGGCTGGGGGGGTCACA
CACAGKCGTCCTCASTGCCAGACTCCCAGTGGGAGACTGCAGACAGGGAAGACGCAAAGCACGTAARCAAATATCCTTAAATACCCGCCAAATGTCAGTG
TCCATCATCGCCAACTACAGCAACAAGCGTGCTCCGCTCTCAGCACCACTGGTCAACTTGGAGCCCGTTTCTCTGGGGAAAACCTTCCTCCCAGCCGAGC
CCTCTCCTCCGAAGTCCAGATTTCTGCTCCATCTGCCTCCTTGATGCCCCAGCTAATGCCTTCACAGACACCCCAAATTTACCACGTACCAAAGGGGGCT
TTGACCTTCACCCACCATGTGCCCCTTTCTTAATCTTCTCCCTCTTGGTGGAAAGCCCCCATCCCAGCTGCTCAGCCACCACCGATGTCACACTAACCCC
CTCCCATCCCACGTCCCCTCCTTGAAGAAGCAGCAATTTAAAGGGAATAGCCAATGCAAGCCGGCAGACAAAACAGGCGCGTGGATTAGTCCATGTGGAA
AAAGGACAAATAGAAGTGTCATCACTCATGGAGTCTTTTTTTTTTTTTAATTTTTATTTTATTTTTGAGATGGAGTCTCGCTCTGTCGCCAGGCTGGAGT
GCAGTGACGCGATGTCAGCTCACTGCAACCTTTTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAACTGGGACTACAGGCACGCGCC
ACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGATCTCCTGACCTCGTGATCCGCCCACCTCGG
CCTCCYAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCTCACTCACGGAGTCTTTGTTCTACATGCACATTCCTGAAATACGGACATGTGGG
AAACACTGACACAGAGGACAACGATCTGAAGAGAATGAGAACACATGGACCAACACACCAGAWCTCTTGTGTGCAAGGCTGTGATAAAATGAACATGGAC
CAACACACAGAACTGTGTGCAAGGCTGTGATAAAATGACTATTTCCAAGCTAGCATTTCCTTTTTTTTTTTTYCCTTTTCAGCTAAAAATGAATGTCACC
CAGAGCGGACTGATGGGTGTCAACACTTCTGCCTCCCAGGACAGGAATCCTACACRTGCAGCTGTGCTCAGGGCTACAGGCTTGGTGAGGACCACAAACA
GTGTGTGCCCCACGGTGAGTGCTCAGACCACAGCGGCCTCCAGCTTCCAATGCCAGCRACCCCGWCCACATCCTCCTTCCTTCTGTAGTACTGGGTGAAG
CCCGCGGATTTGTGATAAGCAGTTGCCACGACTCAGAAGGTGGTCCGCGTCTCCACGCTGGAGCAATGGCCATGCTAGAAAGTGCAGTTTCTGTCACTAG
TGCTTGCTCGGACYACTCTGAGCTAAACCATGAGTGCTGTGAGGGGTGGTTTAACTCCAGTCTGTGTGTCTGTGAATTACTGCACATTCATCAGCATTAA
GGATAAGATTATAATGGTTAGTACCATAGACGGAATTATGCAACGGTTAACACCATAGACAGAGTCCGATATTCGCTGAGAAGGCGYTGATTTTTATTCT
CATGTTGCTGCCGCAAATGCAGACCAGTGTGCCTGCGGGGTGCTGACCTCTGAGAAGCGTGCACCGGATCTACAGGACCTCCCGTGGCAGGTAACAGAGC
GCTCTCCGCGTGCTTCAATTTATTGTTATGACTTTCACCTCACTTGTCATTTCCTAAATAGAAATGTTRACAACTAAGTGAATCAGGCATCCTGACTTTG
ATGGGCTACTGACTGCACTGACCAACCTCTATTCACACTTCCAACCATGTTCTAATGCCGAGTTCATAACTAATACAAAAGGASAGCATTATTTACAGCC
CCCAAGACCTTTCCTCTGCAGTTCCAAACTGTTACCAATGTCATTTTCTCAGAACATAAGCATCTCAAAATCTCTGCTCTCRGCTGCTGGCCTGGCATTC
TAGCTTTGTTACTTTGTTCACTAAATTTCTCTAGTTTGGCRTTCATTTTTGTTCTCCTTTTCCCCTCCTTGGCTGGTTTAGAAGTTAACCATTCATTTGT
TTTTGGTTTGTTTTTTTTGAGATGGAGTCTCAATCTGTCACCCAGCCTGGAGTGCAGTGGTCCAGTCCCRGCTCACWGCAACCTCTGCCTCCTGGGCACA
AGCRCTTTCCCTGCCTCCACCTCCTGAGTAGCTGGGATTACAGGAATGTGCCACCACGCCCGGCTGATTTTTATATTTTTAGTAGAGACGGGGTTTCACC
ATGTTGGACAGGATGGTCTCGAATGCCTGACCTCAAGTGACCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCAYGCCTGGCC
TCATCATTCACTTTCTGTTTACTTAATGGTCACTCTTGACACATAAACATCCATATTTAGCACAAGTAGTCAGCTATTTCTCCCTCCTCAGGCTAATTCC
CAGCACCTCATTCTGGGTCCATTTGCTGTCTGGCCAGTATTTTATTCTTTTCTTGCTTTCTGTATATCTTCACAAAATAGATATTACGATTTTTGTTATT
ATGGTTTTATACCACCCACACTGGCTTTGATTTACTTACCTCATTTTCCACTTTCCTTGCCTTTCAGGCCTCTAACACAATTATCTCCTGCCTGAGTATA
TCCTTCAGAACAGCCTTGTCCAATAGAAATGCAGTGTAAACCACATAATTTAAAATTTTCTAGTAGCCACAATAATGTAAGTAAAAGCATGTGAAATTTG
GATATTTAACCCAATATGTGTCATTATTTCCCCATGTAATGAATATAAACATTATTGAGGTTATTTGCCTTTTTCCTTTACACTGAATCTTTGGAATCTG
GTGTGAATTTACACTGAGGTGCAGCCCTCGTGTCCMCAATGCTCCGTACCCGAGTGTGGCTGCCGTGTGGATGGCACAGCCTCAGGGGCCCCCCTTGTGA
GTAATAAGCCCCTGAGGTTTCTGTGTGTGACACCCGTCAGTTTCACCCGACTCTTACAAGACAGCTGTGCCCAGCCCACTCATTCTGGCAGTTGTGTGGA
CTGGCAGAGAACAGGATGGAGCTCAAGGACTTGAAGCCACCCAGCTCCAAGGTGGARAGGAAGAAACCGAAGGGAGGCAAAGCAGACGGAGTGATGGAAG
GCGGGGATGGAAGCGGGAATGGTCTATCACCAGCTTTGCAAACTTCCTCTCAATCTTTTATCACTTTTCCTGCCCAAGCTTTCTAAGACAGTTCTTCCTA
TCGCTGTCTGMCCCATGAGTGCGCTGAGGGTCGGTACTTGGGAGGCCCAGAGTGCAGTGGTCCTCCATAGGTAGTGACAGGGTCTGGCTCTACCACCTGC
AGGCTGTCTCCAGCTTCCCAGCTTACCCAAGGGAAGAGAGGGYGCGGTTCTAGTCTGCAACCGTAGCACTCATACCAGCAAGGCTAAGAGCCATATAACC
AGGGAGGAGGCATTCTCTAAACACAGCTGGTGTGTTTAAGACAGAGGACACTGACTTAGGCAGGCTACATACTATTAGATTTTTTACTTCAGTATTATAA
ATTGTTCTGAAGTTATTTAACTGAATATATGGAATTTTCCTAAAACAAACTTTGAAAAGGAGAATAATTAAGTGACCTAGCAGGAYATAGGGTTGAAGAT
TATCTTTAGAACTTCCTTGTTTCTTACATCCTMGGGAAGAAGTATCACTAAAAGTCTGGCAGACTGATGGCGCAAGTGCCGTCTTCTCTCGAACTTGGTT
TTATCCCCTTTAAAGTGAGGATCTCACCCCTAGAGGTGCAGTGAGGATTACAGRTAACGTTCTTGACTTATGGTAGGTATTCAACAAGTGGCAGCTATTA
TTCATAAACACATGAAGAGTTCCAGGAACGACGCCACGGTAAAGTTGGAAAAACACTTTCTCACTTGGCTCAGCATTTTGCATTAGACGGTTGAAAACTG
CAACACTTAACACTTCCAGAGCCAGTACCCGTRCTATGTGGGSACATGCTTTATTTCATTTAATCTTTCAAACAACTTCTCGTTTTCTCCTTTTGTATCC
CTGGTAATATTATTTGCTCTAAAATCCCCTTTGTCTGATATTGATATASACWCTTTACTTTCTAATTATTAGTGTTAGCATGACTTATCTTTTTCCAATC
TTCTACTTTTAGCCTATTTGTATTTTTATAAAGTGCATGTTTAAAAAATAAATAAGGTACATGTTTTATAGGTAGTATATAATTGGCTTTCATTTTTATC
CAGTGTGAAAAACCTCTGCCTTTTAATTGGGGTATTTAGGCCATTTTACATTTATTGTAATTGTCGATATGTTTACGGTTAAAGCTATCATCTTGCTATC
TTTYATTTTTCTTATCTGTTCTTTTCCCCTTTTTCTGCCTTCTGTTAGATTAACTATATATTGTTATGATTCTGTTTTCTCTCCTTTGTTGGTTTATCAT
CTCTGGTTCTTTGTTGGCGGTTGCTTCACAGTTTGGAGAATGCATCTTTACCCTATCACAGTCCACTCCACTTTCGCCGACGCCACATCCGCTCGCTGTA
GCATGAGTCCTTACAGCAATCATGCCCCATTCCTCCCCTCCTGACCTGGGTGCTGGTTTTGGCATAGGTCTTACATCTACAGATGTTATAAATGCCACTC
TATACTTCCATTATTTTTGTTTAAACAGTATCCKGTRAARAAGTTTAAAGAATAAGGAAAAAAACCTTACATATATAGTGGAATGYGGATAAATATTTAA
TGGGATGTCATAACCTTTTCCAGTGTTCCTTGCTGCTTTGTGTARATCCAGGCCTCCCTCTGGTATCGTTTTCCTCCTGCCTAAAGGGCCCCTTTGATAT
CTGCTGTGCTGTGAGGCGTCTGGGGAAGAAGCCTTCTTGCGTTTGTCTGGAGGAGTCTTTGTTCATCTTCATCTATGAAAGGCATTGCGTCTGGCGCAGA
GCCCCAGGCTGGCAGCAGTCCTCTCCTCTCTGCACTTGGGCCTGCCCCACTGCCTTCCTGTCTGCCTTGTGCCACAAGACGGCTCCCATCACCCTGCTGC
TGTTCCTCACATGTCCTTACCTGTGGCACTTTTAAGATTTTAAATGCTTTTTAATTTTAACTTTCTAAGATTTCCTCTATCATGGATTTTGAATTTAATT
ATACTSTGTATTGTTTTCATGTTTCTTGCACATAGGGTTTGTTGAGATTCTTGTATTTGTGGGCTAATATCGCTTGTCAAATTTGAAAAATATTTGGTCA
TAATTTTCTTTTTTTTGAGACCGGGTCTCGCCCTATTGCCTGGGCTGGAGTGTAGTGGTGTGATCATGGCTCACTGCAGCCTCAACCTCCTGGGTTCAGG
TGATCCTCCCACCTCAGCGTCTTGAGTAGCTGGGACCATAGKTGTGCACGACCACACASAGCTAATTTTTAAATTTCATGTAGAGATGGGGTCTTGCTAT
GTTGCTCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTTCCACCTCAGMCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCATGCCTGGCCCA
TTATTTTCAGATTTTTTTTCTCTCCTCCTTCTCCCTGCTCTGTTTTGGGACTCTAATTACATGTATCTTAAGCTGTTTGAAATCCCATAGCTCAGAGATG
GTCTGTTCATTTTTCAAAAATCTCCGTTCTCTCCGTGTTTTACTTTTGATAGTTTCTGTTGTGATGCCTTCAAGGTCATCAATCTGTTCTTCTGCAATGT
CTAATCTGCCATTCATCCTGGCCAGTGGATGTTTAACCTCATATATTGTAGCTGTCATCCAAAAATTTAATTTAGGTTTTTAAAAATACGTATTTTTGTC
TCTACTTAACTTTTTGAACATTTGGACTACAGTTACAATCACTGTTTAATTGTCCTTGTCTACTAATATCTGTCAGTGCTGACTCAGTTTTGGGATATTT
TTCTTCTCATTATGGGTCACATTTTCCTGTTTGTATGCCGTAATGGATTTCCAGACATGTGAATTTTATCCTGTTAGRTGCTGAATATTTTGTGCTCTAT
ACATACACTTGGATATTGTCCTAGGACACAGTTAGGTTGGAAATACTTTCATCCTTTGGCACATTGCTCTTAAGATTTGTCAGTAGGACCAGGGCAGCGC
TCAAGTCTAGAGCTAGTTATTCTGACTACTGAAGTGAAACCCTTCTATGCATYCTGCCCCGTGCCCCACTGAGTCAGGGATGTTTTAAYTCAGCTGGTGG
AAGCAATTGCTATTCCCAGCTTGTGTGAGTGTCTAGCACAGGTCCSTCTCACACTCTTGGGTGGTTCTTACCYGGCCATAATTAGTCTCCAYGTACACGT
GATCACCACTGCTCTGCTGAAAACTGCTAGGCATGTGGCCATCCTCCAGCATTCTCTACCAAGCTCTCTCCTCTGCCGGACTCTGTTCTGCAGGACTCTG
TTCTGCAAACTCCAGCCACTGYGGCCTCCCTGGGCTCTCAGCTTTCTCTCTTCAATTTAGGGAGTCAGCRGGGCTCCAACTGAGATGCCCCGTCCTGCTC
TGCACCATGGAAATTCTGGACAGTAGCTGAGACCGTTGTTTCTTGGGGATTACGATTCCTGAAAACCATCATTCCATAGATTTTGTCAATTTTTTGCTTC
AGGTGGGAGGGTAAATCTGATCACTGTTACTTCACCTGGGCCGAAAGGGGAAGTGCCGGCCCCATTTAATCCCTAAGCAAACAAAAGCTTAGACTGTCAW
CAATYCGTTAACAATCCTGTACCATTTGAGTGCTGGGGCAAGAATCAAATACGGCTGTCTGCCTTTGGCGGGGGGTGGGGGTGGGGGTGGGGGGGTGGTC
CATATCCCTATCCAGTAGACTTTACTGCCCCTAATCCTGCAAATTGTCACCAGCTATTTATTGTCTGTTTTGATTTTTAAAGGTAAAGTTAACAAATTCC
GAAGGAAAAGACTTCTGTGGTGGTGTTATAATACGGGAAAATTTTGTACTGACAACAGCAAAATGTTCACTGTTACACAGGAATATTACTGTAAAAACAT
GTAAGTATTTTATCATGAGTTTTTATAAAACCACATTGGAAATACACTATCCTAYGTAAGAATGAAATGAYAAATTTAAAACTGGACTGTTTCTAATGCA
ACATAGAACTGAATTTACTGTCAATAAAACTGAGATACTTATCAACTCAGGAAGCATATGTAAAATACCAGCAGAAGCCTGGGCCCAGCGACAGGCAAGT
GCTAACTCACACTCGGCAAGGGAGGAAATCACAGCCTACATAAGGATGACTTCATTTCCCACTGAAATTGAGCAGTTGTGGCATAAGAGATGGATAATTG
GCTAAAAATCGGAAGAATGGGGCTCGAATSCCCCAGCAGTTGAGACCTCAGGCTGAGGCAGTGGCCTTCTCATCGGCTTATCTGTGCCTATTTCTTTCTT
TTTTTTTTTTGAGACAGAGTCTCACTCAATCCCTCAGGCTGGAGTGCAGTGGCATGATCCAGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTC
TCATGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGCACCACCATATCCCACTAATTTTTTGTATTTTTAGTAGAAATGGGGTTTTGCTATGTTGG
AAAAGCTGGTCTTTACTCCTGGCCTTAAGTGATCGACCTGCCTCGGCCTCCCGAAGCGCTGGKATTACAGATGTGAGCCACTGTGCCTGGCCCTTAAATA
TTTTTCAATCAACAAAATAACGTGAAAACCACTTCTCAACAGCCAATGTTTGACTGKCCTGGAGACGTTCCACATCACTGCTTCCTGCTTTTTAATCATT
TCACCACACCCCACTGCACTCCAAAACAGAAGAACTAACCTTGACTGTTTTTAAAGGCTGTGGCACTTGGTTGCAATCGTGCAATCTGTGAGTGGCCTTT
CTGTCCGCAGAAAGGCMCAGTGTCCACACCACGGGGCGGTGAGCCTGCGGGTCCTCCAGGGCYGGTCTCTCCCTCCTCACGTGGCTCCCTGAGMAGCTYG
TTTGAGCATTATGTCCCCTTGAAAATCAGACTGTAAAGAACTGACGATTGTTCATGATTTCAGATTTTAACAGAACGAGCCAAGACCCGCTGATGATCAA
GATAACGCACGTCCATGTGCACATGCGGTATGACGCGGACGCGGGGGAGAATGACCTGTCACTGCTGGAGCTGGAGTGGCCCATCCAGTGCCCAGGTGCG
GGGCTCCCCGTGTGCACCCCTGAGAAAGACTTCGCTGAGCACCTCCTCATCCCACRCACCAGGGGCCTCCTCAGYGGCTGGGCACGCAATGGCACTGACC
TGGGCAACTCGCTGACCACRCGGCCTGTCACACTTGTGGAGGGGGAGGAGTGCGGGCAGGTCCTGAATGTGACTGTCACCACCAGGACCTACTGTGAGAG
AAGCAGCGTGGCGGCCATGCACTGGATGGATGGAAGTGTGGTCACCAGAGAACACAGAGGCTCCTGGTTTCTCACGGGGGTCCTGGGCTCGCAGCCAGTA
GGAGGGCAGGCTCACATGGTCCTTGTCACCAAGGTCTCCAGGTACTCACTCTGGTTTAAACAGATCATGAACTAACTGAAACTCAGCTAGCCAGAATGAA
CAACACAACYGGAAGCGGGATTCCAAGCTGGCACTGCCACTGTGGAGGGCGCTGAAACTTCATCACACACTGAGAGGCCGTCACAGCCCCAGACCACCCG
CTTGGCCCACGCAGCAGCAGAGCCGCCGTTTGCTGGGTTGTTTACCGAGCACTGTGACCTTTCTTTCCCTGGAACTCTTTATCTCAATAGAGACCTTAAA
AGAAAACATGAGATACGTTAAATAATAAAATAAGATAATCTGTCAGTCATAAAGCAGCCTGGTTTCCAGAAATTCTTTCCTTCTCCAAGTCCAGTGTTCC
CTGTGCTCAGGGAATAGCCACCCCAGCCTGCACACTGGTGAGTGTGTTCTGGTGCAGAAGCGACAACAATCTCCGGTTACAGCAGAAAGTGACCTCCTCT
GTTGGTTTACCAATTGCCACTGTGACTGAGGACCATGGCTCAGTGCAGAAGCAGCCACTAGAAGCAGGTTGGCAATGGAGGAGAATGACCCTGTGGGTAT
CCCAGAGAGGCAGCATTAGAGGAAAGGGCCAGAGAGCACAAGAGAGGCTGAGGAGGCACGCCGGCGTCTCACGGGGTTGTGCACCCGCCCTTCTCTGGGA
GGGTTCCCACGGAAGGTTCCGGGGCCCGAARTCAGGGCTGAGCACTGAGACCCAGCTCTCTGCTCGTCCCACCAGGTGGCTCTTGGACAACTGTTCCACC
TCTTCATGCCTCAGGGTCGCCCAGGGTAGAATCCCAGCACCTCACCAATGGGCTGATGGGCAGCTAGGGCAACGCCCAGCACTGTTGTGGCTGGAGTGTG
TGTCCCTTCAAAACTCCAAAATTGGAACTTACCCCAAGATGATGATATGGGGAGGTGGGGCCCTTGGGAGGTGACTAGGCCATGAGGGCTCTGCCAGCCC
CTTCCATCTCTTCTCCCATACGAGGACACTGCAGTGAGGTGCTACCCTGGAGACAGAGAGCCCTCAGCAGACACCAAATCTGCCGGCACCCAGATCTTGA
ACTTCCCAGCCCCCAGATCTGTGAGAAATGAGTTTCTGTTATCACCCAGTCCATGGTATTTTGTAGAACAGACCAGGACAGCACGTGCTGAATCACAGTA
AACACCTGCTGTCATGAAGGCTGCAGCTGCAATGCAAGTACCAAAGACAGAGCTGCAGTCCAGCCCCCAGTGAAACGTCCTTGGAGACTGGAGCTCCTAG
CAGGGTCTGAATTTGCACTGAAATGGACAGAAATGGCATAAATGTTCACATTTTAACTCTGACTTAGTTAAGGAAGGGGCACAGCTGCTTCTCCACCAGT
GTCCTTGAGTGACACAGAGCAGAGCATCGTTGAAGAGCAGAGAGGACTTTTAAAAAGAGGAATTAAAAATGTAGGTGGACAAATATTCTCTTGAGTTGAG
AACAATTTACACATAACTTGGGTTTTTAAGCCTTACTGTTCTTCAGCACACTCTCTTTCATTTACGCTTTAACCCCAGAATTAAACTTTTCTCCAACCTG
TAGATGAAATGGCCCATTTCTCTGAAAGGTCCTTGGCAAAAAGCAACACTGTAATTTAAGGCAAATTAATGGGGAGGGCAGTTTAAAATTCACTAGGGTG
AATTTTAAAGTCTTAGTGAAGTTTGGTTGTATTATTCTCAAACTACAATAAGGTAAGTAAGTCACTGCTTTAAATGCCTACTAATGATTTTAAAATCAGC
TAATGAACATGGCAGGCTTTCTGTACATAATGCTGCAGAAATGTCTGCAATCTTGCTTCTGGTACTTCTATTACAAATTTGGATTTACTAGAGTGGAAGC
CCTGCTTGAAAACTATTCCAGTCCAGGCGCAGTAGCTCACGCCCGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACGAGGTCAGGAGTTCGA
GACCAGCCTGACCAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAAAAAAAAAAATCTTTGCCAAGTGTGGTGGCTCACGCCTGTAATCCCAGCT
ACTGAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTAAACCGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGGGCGA
GACTCCATCTCAAAAAAAAAAAAAAACCTACTTCAAACACAGCTGGGCAGAGGCAAAGCATATGAAGACCCTCCCTCCGTAATGGTGAAATCTGTGAAAT
CAGGAACAATCAGAGAAAGCTACAGGCCCAGACTGTCAGCAGAGACATGAGGGGCCTTCAAAATGAAGTAACTACTCTACTGGCATTTAATGACATGCTT
AGAAACTACACCATAAACAAATCTAACAAAACAGTAAAACTCAAGAAAAGGGAAGCTAGCTATGATGACTGTTTTTCTTGTTTTTTGAGACAGGGTCTCT
GTCTGCCACCCAAGGCTGGAGTGCAGGGCACGATCCTAGCTCATAGTGGGCTCAACTTCCTGGGCTCAATTGACCCTCCCACCTCAGCCTCCTGACTACA
GGTGTGGACCACCATGCCCAGCTAATTTTTGTATTTTCTGCAGAGATGGATTTTGCCATATTGCCCAGGCTGGTCTCGAACTCCAGGGCTCAAGCAATCT
ACTGGCCTCAGCCTCCCAAAGTGCTGGTATCATAAATGTGAGCCACCACATCCAGCCTGTGATGATGTTTTAAAAGGGCCAAACTAGTTCACACTTGGGC
AGAGATTATTAAGTCCAATATTTGAATCCATGCAAACACACTGATACATGCCCATGTGTACGCCCGTGGACTTGAATGCTGCCATGCTGGACACAGGCCT
TGACTTTGCGTCTCCACCCAAATTCCATCTTGAATTGTAATCCCCACGTGTGGAGAAGTGATTGGATCACGGGGGCGGCTCCCCCACGCTGTTCTCGTGA
CAGTGAGGGCGTCTAACGAGAGCTGATGGTTTTAAAAGTGGCAGTTTTGCTCATGCTCACTTCCCCTTCCGCCATGATTGTAAGTTTCCTGAGGTCCCCC
GAGTCATGTGGAACTGTGAGTCCATTAAACCTCTTTCCTTTACATATTACCCAGTCTCGGGCAGTTCTTTATAGCAGCGTGAGAACGAACTGACAGAGGC
CTGAACACCAAGAGGTAAACGTAAGGACACCTACACTGAGGTTGTTTCTTTCATCGCTAAGAATAACCATCCAATTACCTTAAAGTATCAATCCTTGACT
TTAGGTGTCACTATGGACGGTTCAATACGTTACCCAGAAATGTTGACAAACCTGAGCTTTCCACCGCTATTACATCCAGAATGAAATTCAGGTATGCTGG
CAGAAATTCCAATATTCAAATTACTGCAAGAAAATCATTTAARTCAAAAGTTGAAGGATGTTCAAGGCCCATGCAGAGCAGCAGGGAAGATCAGATTTCC
GTACCCAACACTGCAAGAGAACGGGGCCCCACTGGACACATGGGTAGCTAGAAAACAGATGCGCGCCCAAAGCCTCCGCCGGCATGAGTTTGCTCCGTGT
CTGCCCCACAGGACATAGGAGGCACTTGTCACGACTGCCAGCGCTGAGGACCTTGCTGCTGCTGGGGAGCAGCTACGTAGGTCAAGAGGATCCTTGGCAT
GAACTCCACAGGCACAGGCGCTTGCCTTCGTGCATTCATCTCTCGCGTGTACGTGTGGCAGTCCACGGCTGGAATCCGGGTGTGACTTAGGAGAGCAGGG
CATAAAAGAGATCTGGCTTCCCTGGCTCTACTGGGATCTGCGCTCCCAGAATCCAGCTCCCTACGTGTGGAGAGAAACAGGGGAGCCCACCCACAGCCCT
GCTGAGCTCCAGGTGAGAGCCCGGGCCAATACACGGGAATGAGTCACCTTCAAAGAGGCCCATTCGGGCCCCAGAAGAGCCCACAAGCTTCCCCGCCCAG
CCCGGAAGAAACTGCAGACCTGCAGATGTAGGAGCGAGCTAAGGAGTGCTGCTGAAGCCCTGGGGCAGCTCCTGCATCCAGGGGAACCTGAGGAAGGAGC
CACACAAAGTGAGTCCTGYGCCGCGCGGCCCGGAGAGAGAGAAAGAGGGATTCACACTTTGTAGAATAGCCTCTCCTTGAACAAGCAGCTTTCAAATGCA
GTAACTTTGCAAAGATGAGCTCTTATGGTTTGTGTTCTTCTTTAGTAAATTTTTTATAAACGGGGAAATGTGCATACTCTGAAAAATGGCAGTGCTGGGG
ACTAAACTGTGTCCCCCAAATTTCTTACATTGAAGTCCTAGCCCCAGTGTGACTGTATCTGGAGGTAAGGTCTTCAGGGGGTAACTAAGGCTAAATGTGG
TCATAAGGGTGGGGTCCTAACCCGACAGAACTGTGGCCTTGTAAGAGGAAGAGAGCCGGGTGTGGTGGCACATGCCTGTCACTCAGCACTTTGGGAGGCC
GAGGCGGGGGAATTGCCCCGACAGAACTGTGGCCTTGTAAGAGGAAGAGAGCCGGGTGTGGTGGCACATGCCTGTCACCCCAGCACTTTGGGAGGCCGAG
GCGGGGGAATTGCCCCGACAGAACTGTGGCCTTGTAAGAGGAAGAGAGCCGGGTGTGGTGGCACATGCCTGTCACCCAGCACTTTGGGAGGCTGAGGCGG
GGGAATTGCCCCGACAGAACTGTGGCCTTGTAAGAGGAAGAGAGCCGGGTGTGGTGGCACATGCCTGTCACCCAGCACTTTGGGAGGCCGAGGCGGGGGA
ATTGCCCCGACAGAACTGTGGCCTTGTAAGAGGAAGAGAGCCGGGTGTGGTGGCACATGCCTGTCACCCCAGCACTTTGGGAGGCCGAGGCGGGGGAATT
GCCCCGACAGAACTGTGGCCTTGTAAGAGGAAGAGAGCCGGGTGTGGTGGCACATGCCTGTCACCCAGCACTTTGGGAGGCCGAGGCGGGGGAATTGCCC
CGACAGAACTGTGGCCTTGTAAGAGGAAGAGAGCCGGGTGTGGTGGCACATGCCTGTCACCCAGCACTTTGGGAGGCCGAGGCGGGGGAATTGCTTTAGC
CCAGGCGTTCCAGACCAGCCTGTGCAATATTAGCAAGACCCTGTCTCTACAAAAAATAAAAAAATTAGTTGGGTGTGGTGGCATGCACCTGTGCTCCCAG
CTACTTGGGAGGCTGAGGAGGGAAGATCACTTGAGTCTCGGAGGTCGAGGCTGCAGTAAGCACTGACTGCACTGCCGCACTCCAGCCTGGGTGACAGAGT
GAGGTCCTGTCTCAAAAAAGGAGGGAGAGAGTCATCTCTATCTGTACCATCTCTAGCACAGCAAGGAATACCACCTTATTCTTAAGTGTGCAACTCAGAA
GAGAGCCCTCCCCAGAAGCCGACCGTGCTGGCAACCCCATCTCAGTCAGACCTCCAGCCTCTAGAACTGTGAGGAAATACATTCCTGTTGCTTAAGCTGC
CTGTGGTATTCTGTGATGGCAGCCCCAACAGCCCAATGTGAGTGGCCCAACTTAGCGACTGTCAACCTCGCCGTGGTGCCGAAGGGACGCGCTCAGGGGC
AGCCATGCCTCAGCGTCCACGCAGCCCTTCAGTTTCCACTCTCAGTGTAGCACTCGGTAAGCTACACGAGGTATTTACACTTTTATTTTTATTTATTTAT
TTTTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTTTGCCTCCCGGGTTCAAGCGATTCTCC
TGCCTCAGCCTCCTGAGTAGCTGGAATTACAGGTATGCGCCACCACGCCCGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGG
CTGGTCTCCAACTCTCAATCTCAGGTGATCTGCCTGCCTTGGCCTCTGAAAGTGCTGGGATTACAGGCGTGAGCCWCCACGCCCGGCATCTACACTTTAT
TATAAAATAAAATCGGCTTTGTGTTTGATTTTGCCTAAGAGTGGAGGCTTCTGAGTATGTTAAGGAAGGCTAGAGTGAGCCATAATGTTTAGTAGCAGGT
GTATTAAATGTATTTTCAATTTAAGATGGTTTTTTAAAAGAAATTTTTTTTTAACCAACAAAGCAAAGGCAAATAAAATAAGTTTATTGGGATGTAACCC
CATCATAAATTGAGGAGCATCCATACAGGCAAGCTATAAAATCTGGAAAATTTAAATCAAATTAAATTCTGCTTTTAAAAAGGTGCCTTAAGTTAACCAA
GCATTTTGATAACACATTCAAATTTAATATATAAAAATAGATGTATCCTGG


SNP Information

Context             (SEQ ID NO:40914):
CCTCTGCCGGACTCTGTTCTGCAGGACTCTGTTCTGCAAACTCCAGCCACTGCGGCCTCCCTGGGCTCTCAGCTTTCTCTCTTCAATTTAGGGAGTCAGC
R
GGGCTCCAACTGAGATGCCCCGTCCTGCTCTGCACCATGGAAATTCTGGACAGTAGCTGAGACCGTTGTTTCTTGGGGATTACGATTCCTGAAAACCATC
Celera SNP ID:            hCV12128204
SNP Position Genomic:     17370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;PGA-AFRICAN-PANEL(G,7|A,37)   PGA-EUR(EAN-PANEL(G,12|A,34)   total(G,19|A,71)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40915):
TGGCTAAAAATCGGAAGAATGGGGCTCGAATCCCCCAGCAGTTGAGACCTCAGGCTGAGGCAGTGGCCTTCTCATCGGCTTATCTGTGCCTATTTCTTTC
T
TTTTTTTTTTTGAGACAGAGTCTCACTCAATCCCTCAGGCTGGAGTGCAGTGGCATGATCCAGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATT
Celera SNP ID:            hCV12128205
SNP Position Genomic:     18299
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,8)   total(T,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40916):
CACTCCGGGTGGGAATGGCAGGCTGCGTCCCACTGCTCCAGGGCCTGGTCCTGGTCCTCGCCCTCCATCGTGTGGAGCCCTCAGGTAGGCATCTGGCTTA
Y
CTGTCTGTTGTGCCTGTGCTGTGTCTTTCTTGACTCGGTCCATGGTGGATTTGTAGATGAGGCTTTTTCCAGGAGCCAGAGGAGCCCTGAGTGCCCAGAC
Celera SNP ID:            hCV15984266
SNP Position Genomic:     6116
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40917):
GCAAGGCTGTGATAAAATGAACATGGACCAACACACAGAACTGTGTGCAAGGCTGTGATAAAATGACTATTTCCAAGCTAGCATTTCCTTTTTTTTTTTT
Y
CCTTTTCAGCTAAAAATGAATGTCACCCAGAGCGGACTGATGGGTGTCAACACTTCTGCCTCCCAGGACAGGAATCCTACACGTGCAGCTGTGCTCAGGG
Celera SNP ID:            hCV15984339
SNP Position Genomic:     11873
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,7|C,29)   total(C,29|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40918):
TAATTCCCCTGAAAAAGCTGTTTGGATCTTTATCATTTGGTGACAAGTATTTGGGACATGATAGTGTCACTTGGGGTCCTCCCAAGAGATGCCCAAATGG
R
AAGAAGCCTGTGTGCAGGGGATTCAGCCGGGAAAGGCCGGGGAGAGGGGAGGGGGAAAGGGGGAGGAGTGGGGGGAGGCCTGGGTTGGGCATTGGACGAG
Celera SNP ID:            hCV15984267
SNP Position Genomic:     6323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;PGA-AFRICAN-PANEL(G,3|A,43)   PGA-EUR(EAN-PANEL(G,10|A,34)   total(G,13|A,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:40919):
TCATTTGGTGACAAGTATTTGGGACATGATAGTGTCACTTGGGGTCCTCCCAAGAGATGCCCAAATGGAAAGAAGCCTGTGTGCAGGGGATTCAGCCGGG
W
AAGGCCGGGGAGAGGGGAGGGGGAAAGGGGGAGGAGTGGGGGGAGGCCTGGGTTGGGCATTGGACGAGGGGAGGGGGTGGGGCAGGCTGAGCCCAGACTG
Celera SNP ID:            hCV15984268
SNP Position Genomic:     6355
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|A,45)   total(A,45|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40920):
GATAAGCAGTTGCCACGACTCAGAAGGTGGTCCGCGTCTCCACGCTGGAGCAATGGCCATGCTAGAAAGTGCAGTTTCTGTCACTAGTGCTTGCTCGGAC
Y
ACTCTGAGCTAAACCATGAGTGCTGTGAGGGGTGGTTTAACTCCAGTCTGTGTGTCTGTGAATTACTGCACATTCATCAGCATTAAGGATAAGATTATAA
Celera SNP ID:            hCV15984446
SNP Position Genomic:     12214
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40921):
TGTGAAAAACCTCTGCCTTTTAATTGGGGTATTTAGGCCATTTTACATTTATTGTAATTGTCGATATGTTTACGGTTAAAGCTATCATCTTGCTATCTTT
Y
ATTTTTCTTATCTGTTCTTTTCCCCTTTTTCTGCCTTCTGTTAGATTAACTATATATTGTTATGATTCTGTTTTCTCTCCTTTGTTGGTTTATCATCTCT
Celera SNP ID:            hCV15984373
SNP Position Genomic:     15204
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,43)   total(C,1|T,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40922):
CAGGCATCCTGACTTTGATGGGCTACTGACTGCACTGACCAACCTCTATTCACACTTCCAACCATGTTCTAATGCCGAGTTCATAACTAATACAAAAGGA
S
AGCATTATTTACAGCCCCCAAGACCTTTCCTCTGCAGTTCCAAACTGTTACCAATGTCATTTTCTCAGAACATAAGCATCTCAAAATCTCTGCTCTCGGC
Celera SNP ID:            hCV15984447
SNP Position Genomic:     12684
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,1|C,41)   total(G,1|C,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40923):
TCCCCTCCTGACCTGGGTGCTGGTTTTGGCATAGGTCTTACATCTACAGATGTTATAAATGCCACTCTATACTTCCATTATTTTTGTTTAAACAGTATCC
K
GTAAAGAAGTTTAAAGAATAAGGAAAAAAACCTTACATATATAGTGGAATGTGGATAAATATTTAATGGGATGTCATAACCTTTTCCAGTGTTCCTTGCT
Celera SNP ID:            hCV15984374
SNP Position Genomic:     15534
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,3|T,39)   total(G,3|T,39) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40924):
GTAATGAATATAAACATTATTGAGGTTATTTGCCTTTTTCCTTTACACTGAATCTTTGGAATCTGGTGTGAATTTACACTGAGGTGCAGCCCTCGTGTCC
M
CAATGCTCCGTACCCGAGTGTGGCTGCCGTGTGGATGGCACAGCCTCAGGGGCCCCCCTTGTGAGTAATAAGCCCCTGAGGTTTCTGTGTGTGACACCCG
Celera SNP ID:            hCV15984448
SNP Position Genomic:     13736
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,27|C,1)   total(A,65|C,1)
SNP Type:                 INTRON;UTR 3

SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,2|A,44)   total(A,44|C,2) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:40925):
TTAAAGAATAAGGAAAAAAACCTTACATATATAGTGGAATGTGGATAAATATTTAATGGGATGTCATAACCTTTTCCAGTGTTCCTTGCTGCTTTGTGTA
R
ATCCAGGCCTCCCTCTGGTATCGTTTTCCTCCTGCCTAAAGGGCCCCTTTGATATCTGCTGTGCTGTGAGGCGTCTGGGGAAGAAGCCTTCTTGCGTTTG
Celera SNP ID:            hCV783076
SNP Position Genomic:     15645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   PGA-AFRICAN-PANEL(A,14|G,30)   total(G,30|A,14)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40926):
CCTCCTGACCTGGGTGCTGGTTTTGGCATAGGTCTTACATCTACAGATGTTATAAATGCCACTCTATACTTCCATTATTTTTGTTTAAACAGTATCCTGT
R
AAGAAGTTTAAAGAATAAGGAAAAAAACCTTACATATATAGTGGAATGTGGATAAATATTTAATGGGATGTCATAACCTTTTCCAGTGTTCCTTGCTGCT
Celera SNP ID:            hCV783077
SNP Position Genomic:     15537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   PGA-AFRICAN-PANEL(A,20|G,22)   PGA-EUR(EAN-PANEL(A,11|G,31)   total(G,53|A,31)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40927):
GGGCTGGAGTGTAGTGGTGTGATCATGGCTCACTGCAGCCTCAACCTCCTGGGTTCAGGTGATCCTCCCACCTCAGCGTCTTGAGTAGCTGGGACCATAG
K
TGTGCACGACCACACACAGCTAATTTTTAAATTTCATGTAGAGATGGGGTCTTGCTATGTTGCTCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCT
Celera SNP ID:            hCV27042655
SNP Position Genomic:     16242
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;PGA-AFRICAN-PANEL(T,3|G,45)   PGA-EUR(EAN-PANEL(T,12|G,34)   total(G,79|T,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:40928):
TGTGATCATGGCTCACTGCAGCCTCAACCTCCTGGGTTCAGGTGATCCTCCCACCTCAGCGTCTTGAGTAGCTGGGACCATAGGTGTGCACGACCACACA
S
AGCTAATTTTTAAATTTCATGTAGAGATGGGGTCTTGCTATGTTGCTCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTTCCACCTCAGCCTCCCA
Celera SNP ID:            hCV27042656
SNP Position Genomic:     16259
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|C,47)   total(G,1|C,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40929):
AGGCCCAGAGTGCAGTGGTCCTCCATAGGTAGTGACAGGGTCTGGCTCTACCACCTGCAGGCTGTCTCCAGCTTCCCAGCTTACCCAAGGGAAGAGAGGG
Y
GCGGTTCTAGTCTGCAACCGTAGCACTCATACCAGCAAGGCTAAGAGCCATATAACCAGGGAGGAGGCATTCTCTAAACACAGCTGGTGTGTTTAAGACA
Celera SNP ID:            hCV783078
SNP Position Genomic:     14243
SNP Source:               dbSNP
Population(Allele,Count): SC_12_AA(T,6|C,14)   total(C,14|T,6)   PGA-AFRICAN-PANEL(T,12|C,36)   total(C,36|T,12)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40930):
CACACACAGCTAATTTTTAAATTTCATGTAGAGATGGGGTCTTGCTATGTTGCTCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTTCCACCTCAG
M
CTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCATGCCTGGCCCATTATTTTCAGATTTTTTTTCTCTCCTCCTTCTCCCTGCTCTGTTTTGGGACTC
Celera SNP ID:            hCV27042657
SNP Position Genomic:     16353
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|C,47)   total(A,1|C,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40931):
TGCTCAGGGCTACAGGCTTGGTGAGGACCACAAACAGTGTGTGCCCCACGGTGAGTGCTCAGACCACAGCGGCCTCCAGCTTCCAATGCCAGCGACCCCG
W
CCACATCCTCCTTCCTTCTGTAGTACTGGGTGAAGCCCGCGGATTTGTGATAAGCAGTTGCCACGACTCAGAAGGTGGTCCGCGTCTCCACGCTGGAGCA
Celera SNP ID:            hCV783079
SNP Position Genomic:     12065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)   SC_12_A(T,4|A,19)   SC_12_C(T,6|A,18)   SC_12_AA(T,5|A,18)   SC_95_C(T,45|A,142)   total(A,197|T,60)PGA-AFRICAN-PANEL(A,2|T,40)   PGA-EUR(EAN-PANEL(A,12|T,34)   total(A,14|T,74)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40932):
TTTGTATTTTTAGTAGAAATGGGGTTTTGCTATGTTGGAAAAGCTGGTCTTTACTCCTGGCCTTAAGTGATCGACCTGCCTCGGCCTCCCGAAGCGCTGG
K
ATTACAGATGTGAGCCACTGTGCCTGGCCCTTAAATATTTTTCAATCAACAAAATAACGTGAAAACCACTTCTCAACAGCCAATGTTTGACTGGCCTGGA
Celera SNP ID:            hCV27042658
SNP Position Genomic:     18563
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|G,41)   total(G,41|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40933):
GGCTGATCCATTCGCCCAGAGGATGAAGTGCTTGCCTACCTCGGGGGAGGGAGTAGCGGGGTGGCCCTGAGGCCCTCGCAGGCTGAGAGCCTGTGGAGAC
R
GACGGGGCTGGGGCTGGCGGCCGGCCGGGGAGGAAGCCAGGCAGCTCTGGAAAGCAGGGCCCTCGGTGCTCCCAGTCACCTGCCTTCTTGTCTCGTCTGT
Celera SNP ID:            hCV15984301
SNP Position Genomic:     7280
SNP Source:               Applera
Population(Allele,Count): african american(G,16)   caucasian(A,1|G,15)   total(A,1|G,31)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,41)   PGA-EUR(EAN-PANEL(A,10|G,32)   total(G,73|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40934):
CTCTTCGAGGGAAACTTGGAAAAAGAATGTTATGAAGAAATCTGTGTCTATGAAGAAGCAAGAGAAGTGTTTGAAAATGAAGTAGTCACTGTATGTACCC
S
CACCACAAACCACAGGCCTCCTCATTATTTAGACTTCTGCTGGCCCAGGGAGCATCATTTCTCAGAGATTAAGCTTAATTAATTAGCCTATTTACTTACC
Celera SNP ID:            hCV15984302
SNP Position Genomic:     7557
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|C,43)   PGA-EUR(EAN-PANEL(G,1|C,45)   total(G,2|C,88) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40935):
TGAATAATTCTCCTAATTTTAGATACTCCTACCCCAAACTAAGCGTCCCCACTCCCTACAGAGGTATATATCTTTAAAATTCAACTCGGTTTATAAAAAG
Y
GAAAAGGTGATGTGACTTCTATATCATGTGCTTTTGTGGAGGGTGGCGTGGAGATTGGCCCTAGAAGGGAAGGGCCACGTTAGGGGCTGTGGGTGGTGGG
Celera SNP ID:            hCV15984303
SNP Position Genomic:     7950
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40936):
CACTCCAAAACAGAAGAACTAACCTTGACTGTTTTTAAAGGCTGTGGCACTTGGTTGCAATCGTGCAATCTGTGAGTGGCCTTTCTGTCCGCAGAAAGGC
M
CAGTGTCCACACCACGGGGCGGTGAGCCTGCGGGTCCTCCAGGGCCGGTCTCTCCCTCCTCACGTGGCTCCCTGAGAAGCTCGTTTGAGCATTATGTCCC
Celera SNP ID:            hCV15984410
SNP Position Genomic:     18817
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|A,45)   total(A,45|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40937):
TTGACAAACCTGAGCTTTCCACCGCTATTACATCCAGAATGAAATTCAGGTATGCTGGCAGAAATTCCAATATTCAAATTACTGCAAGAAAATCATTTAA
R
TCAAAAGTTGAAGGATGTTCAAGGCCCATGCAGAGCAGCAGGGAAGATCAGATTTCCGTACCCAACACTGCAAGAGAACGGGGCCCCACTGGACACATGG
Celera SNP ID:            hCV15808412
SNP Position Genomic:     22843
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40938):
GCAGCTGTGCTCAGGGCTACAGGCTTGGTGAGGACCACAAACAGTGTGTGCCCCACGGTGAGTGCTCAGACCACAGCGGCCTCCAGCTTCCAATGCCAGC
R
ACCCCGTCCACATCCTCCTTCCTTCTGTAGTACTGGGTGAAGCCCGCGGATTTGTGATAAGCAGTTGCCACGACTCAGAAGGTGGTCCGCGTCTCCACGC
Celera SNP ID:            hCV15984340
SNP Position Genomic:     12058
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,38)   total(G,38|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40939):
TTCATCAGCATTAAGGATAAGATTATAATGGTTAGTACCATAGACGGAATTATGCAACGGTTAACACCATAGACAGAGTCCGATATTCGCTGAGAAGGCG
Y
TGATTTTTATTCTCATGTTGCTGCCGCAAATGCAGACCAGTGTGCCTGCGGGGTGCTGACCTCTGAGAAGCGTGCACCGGATCTACAGGACCTCCCGTGG
Celera SNP ID:            hCV15984341
SNP Position Genomic:     12387
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40940):
GTGAGGCCCCGGCCGTCCCCTTCCCCCAAGGGCCTCCCTGGGCAGGTGGGCCTCACATCCTCGGCCAGAGTCCCAATGGGCCCCTCCTGAGGTGTAGCCA
Y
GAAGGTGCCTGTGTGAACCGCGATTTGGCTCACCCCAGGGGATTCCTCTCATCCCAACCAGATTCTCCTCCAGAAACCACGCCGGGGGCTGGCTGCATTC
Celera SNP ID:            hCV16246577
SNP Position Genomic:     10592
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,434|T,1057)   total(C,434|T,1057)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40941):
TTCTGTCCGCAGAAAGGCACAGTGTCCACACCACGGGGCGGTGAGCCTGCGGGTCCTCCAGGGCCGGTCTCTCCCTCCTCACGTGGCTCCCTGAGAAGCT
Y
GTTTGAGCATTATGTCCCCTTGAAAATCAGACTGTAAAGAACTGACGATTGTTCATGATTTCAGATTTTAACAGAACGAGCCAAGACCCGCTGATGATCA
Celera SNP ID:            hCV15984417
SNP Position Genomic:     18899
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40942):
AGTGGCCCATCCAGTGCCCAGGTGCGGGGCTCCCCGTGTGCACCCCTGAGAAAGACTTCGCTGAGCACCTCCTCATCCCACGCACCAGGGGCCTCCTCAG
Y
GGCTGGGCACGCAATGGCACTGACCTGGGCAACTCGCTGACCACGCGGCCTGTCACACTTGTGGAGGGGGAGGAGTGCGGGCAGGTCCTGAATGTGACTG
Celera SNP ID:            hCV15984418
SNP Position Genomic:     19175
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,26)   total(C,61|T,1)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,4|C,44)   total(C,44|T,4) 
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:40943):
CTGAGAAAGACTTCGCTGAGCACCTCCTCATCCCACGCACCAGGGGCCTCCTCAGCGGCTGGGCACGCAATGGCACTGACCTGGGCAACTCGCTGACCAC
R
CGGCCTGTCACACTTGTGGAGGGGGAGGAGTGCGGGCAGGTCCTGAATGTGACTGTCACCACCAGGACCTACTGTGAGAGAAGCAGCGTGGCGGCCATGC
Celera SNP ID:            hCV15984419
SNP Position Genomic:     19220
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,32)   total(A,1|G,67)
SNP Type:                 SILENT MUTATION;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:40944):
GACAGCATTATTTACAGCCCCCAAGACCTTTCCTCTGCAGTTCCAAACTGTTACCAATGTCATTTTCTCAGAACATAAGCATCTCAAAATCTCTGCTCTC
R
GCTGCTGGCCTGGCATTCTAGCTTTGTTACTTTGTTCACTAAATTTCTCTAGTTTGGCATTCATTTTTGTTCTCCTTTTCCCCTCCTTGGCTGGTTTAGA
Celera SNP ID:            hCV15984348
SNP Position Genomic:     12782
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40945):
CCTGACCTGGGTGCTGGTTTTGGCATAGGTCTTACATCTACAGATGTTATAAATGCCACTCTATACTTCCATTATTTTTGTTTAAACAGTATCCTGTAAA
R
AAGTTTAAAGAATAAGGAAAAAAACCTTACATATATAGTGGAATGTGGATAAATATTTAATGGGATGTCATAACCTTTTCCAGTGTTCCTTGCTGCTTTG
Celera SNP ID:            hCV15984381
SNP Position Genomic:     15540
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,41)   total(G,41|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40946):
TCATTTTCTCAGAACATAAGCATCTCAAAATCTCTGCTCTCGGCTGCTGGCCTGGCATTCTAGCTTTGTTACTTTGTTCACTAAATTTCTCTAGTTTGGC
R
TTCATTTTTGTTCTCCTTTTCCCCTCCTTGGCTGGTTTAGAAGTTAACCATTCATTTGTTTTTGGTTTGTTTTTTTTGAGATGGAGTCTCAATCTGTCAC
Celera SNP ID:            hCV15984349
SNP Position Genomic:     12841
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,46)   total(G,2|A,46) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40947):
TTATAAATGCCACTCTATACTTCCATTATTTTTGTTTAAACAGTATCCTGTAAAGAAGTTTAAAGAATAAGGAAAAAAACCTTACATATATAGTGGAATG
Y
GGATAAATATTTAATGGGATGTCATAACCTTTTCCAGTGTTCCTTGCTGCTTTGTGTAGATCCAGGCCTCCCTCTGGTATCGTTTTCCTCCTGCCTAAAG
Celera SNP ID:            hCV15984382
SNP Position Genomic:     15586
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;PGA-AFRICAN-PANEL(T,2|C,40)   PGA-EUR(EAN-PANEL(T,11|C,31)   total(C,71|T,13)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40948):
GGACATGATAGTGTCACTTGGGGTCCTCCCAAGAGATGCCCAAATGGAAAGAAGCCTGTGTGCAGGGGATTCAGCCGGGAAAGGCCGGGGAGAGGGGAGG
R
GGAAAGGGGGAGGAGTGGGGGGAGGCCTGGGTTGGGCATTGGACGAGGGGAGGGGGTGGGGCAGGCTGAGCCCAGACTGCAATGTGGGCAGAGAGAGCCT
Celera SNP ID:            hCV15984278
SNP Position Genomic:     6376
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|G,44)   PGA-EUR(EAN-PANEL(A,10|G,34)   total(G,78|A,12) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40949):
TGAAGTGCTTGCCTACCTCGGGGGAGGGAGTAGCGGGGTGGCCCTGAGGCCCTCGCAGGCTGAGAGCCTGTGGAGACGGACGGGGCTGGGGCTGGCGGCC
R
GCCGGGGAGGAAGCCAGGCAGCTCTGGAAAGCAGGGCCCTCGGTGCTCCCAGTCACCTGCCTTCTTGTCTCGTCTGTAGTATTTCTCCCGGCCTCCAAAG
Celera SNP ID:            hCV15984383
SNP Position Genomic:     7303
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,41)   total(G,41|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40950):
GTCCTCCCAAGAGATGCCCAAATGGAAAGAAGCCTGTGTGCAGGGGATTCAGCCGGGAAAGGCCGGGGAGAGGGGAGGGGGAAAGGGGGAGGAGTGGGGG
K
AGGCCTGGGTTGGGCATTGGACGAGGGGAGGGGGTGGGGCAGGCTGAGCCCAGACTGCAATGTGGGCAGAGAGAGCCTTGGCCAGGCCAGCCAGGAATGC
Celera SNP ID:            hCV15984279
SNP Position Genomic:     6398
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|G,46)   total(G,46|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40951):
GCTGACTCAGTTTTGGGATATTTTTCTTCTCATTATGGGTCACATTTTCCTGTTTGTATGCCGTAATGGATTTCCAGACATGTGAATTTTATCCTGTTAG
R
TGCTGAATATTTTGTGCTCTATACATACACTTGGATATTGTCCTAGGACACAGTTAGGTTGGAAATACTTTCATCCTTTGGCACATTGCTCTTAAGATTT
Celera SNP ID:            hCV15984457
SNP Position Genomic:     16878
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40952):
CCTTTGGCACATTGCTCTTAAGATTTGTCAGTAGGACCAGGGCAGCGCTCAAGTCTAGAGCTAGTTATTCTGACTACTGAAGTGAAACCCTTCTATGCAT
Y
CTGCCCCGTGCCCCACTGAGTCAGGGATGTTTTAACTCAGCTGGTGGAAGCAATTGCTATTCCCAGCTTGTGTGAGTGTCTAGCACAGGTCCCTCTCACA
Celera SNP ID:            hCV15984458
SNP Position Genomic:     17053
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40953):
TTTCCTTTTTTTTTTTTCCCTTTTCAGCTAAAAATGAATGTCACCCAGAGCGGACTGATGGGTGTCAACACTTCTGCCTCCCAGGACAGGAATCCTACAC
R
TGCAGCTGTGCTCAGGGCTACAGGCTTGGTGAGGACCACAAACAGTGTGTGCCCCACGGTGAGTGCTCAGACCACAGCGGCCTCCAGCTTCCAATGCCAG
Celera SNP ID:            hCV783080
SNP Position Genomic:     11956
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   PGA-AFRICAN-PANEL(A,8|G,32)   total(G,32|A,8)   no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40954):
AGCTGGTGGAAGCAATTGCTATTCCCAGCTTGTGTGAGTGTCTAGCACAGGTCCCTCTCACACTCTTGGGTGGTTCTTACCCGGCCATAATTAGTCTCCA
Y
GTACACGTGATCACCACTGCTCTGCTGAAAACTGCTAGGCATGTGGCCATCCTCCAGCATTCTCTACCAAGCTCTCTCCTCTGCCGGACTCTGTTCTGCA
Celera SNP ID:            hCV8702340
SNP Position Genomic:     17192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40955):
ACAGCAAAATGTTCACTGTTACACAGGAATATTACTGTAAAAACATGTAAGTATTTTATCATGAGTTTTTATAAAACCACATTGGAAATACACTATCCTA
Y
GTAAGAATGAAATGACAAATTTAAAACTGGACTGTTTCTAATGCAACATAGAACTGAATTTACTGTCAATAAAACTGAGATACTTATCAACTCAGGAAGC
Celera SNP ID:            hCV15984459
SNP Position Genomic:     17955
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,2|T,44)   total(C,2|T,44) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40956):
CAAGGCCCACACACTGATCAGACACCCAGCATACATTTTCTTTCTAGGCTTCAAGTCTGAATAATTCTCCTAATTTTAGATACTCCTACCCCAAACTAAG
Y
GTCCCCACTCCCTACAGAGGTATATATCTTTAAAATTCAACTCGGTTTATAAAAAGCGAAAAGGTGATGTGACTTCTATATCATGTGCTTTTGTGGAGGG
Celera SNP ID:            hCV783081
SNP Position Genomic:     7893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   PGA-AFRICAN-PANEL(T,6|C,38)   total(C,38|T,6)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40957):
AACTGCTAGGCATGTGGCCATCCTCCAGCATTCTCTACCAAGCTCTCTCCTCTGCCGGACTCTGTTCTGCAGGACTCTGTTCTGCAAACTCCAGCCACTG
Y
GGCCTCCCTGGGCTCTCAGCTTTCTCTCTTCAATTTAGGGAGTCAGCAGGGCTCCAACTGAGATGCCCCGTCCTGCTCTGCACCATGGAAATTCTGGACA
Celera SNP ID:            hCV8702341
SNP Position Genomic:     17322
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   PGA-AFRICAN-PANEL(T,20|C,24)   PGA-EUR(EAN-PANEL(T,12|C,34)   total(C,58|T,32)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40958):
TCTACAGGACCTCCCGTGGCAGGTAACAGAGCGCTCTCCGCGTGCTTCAATTTATTGTTATGACTTTCACCTCACTTGTCATTTCCTAAATAGAAATGTT
R
ACAACTAAGTGAATCAGGCATCCTGACTTTGATGGGCTACTGACTGCACTGACCAACCTCTATTCACACTTCCAACCATGTTCTAATGCCGAGTTCATAA
Celera SNP ID:            hCV12128189
SNP Position Genomic:     12569
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;PGA-AFRICAN-PANEL(A,5|G,43)   PGA-EUR(EAN-PANEL(A,12|G,34)   total(G,77|A,17)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40959):
TCAACCACTATTGTCCTATTAAGTGAATAAAATCAACATTTTCTTACCTTCAAGTTCATCTACAGGAAAGAATATAGAAAAACAAATATCCCATTTGTAA
Y
ATTTTTATGTTTTAACTCTAAAGGATGAATTCTGGAGACGATATAAGGGTAAGTGGTTTCCTTCGTCTCCTCAGAAGTATTAATTCCTCGGGATGAGGTG
Celera SNP ID:            hCV15984313
SNP Position Genomic:     8293
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40960):
TACCTTCAAGTTCATCTACAGGAAAGAATATAGAAAAACAAATATCCCATTTGTAACATTTTTATGTTTTAACTCTAAAGGATGAATTCTGGAGACGATA
Y
AAGGGTAAGTGGTTTCCTTCGTCTCCTCAGAAGTATTAATTCCTCGGGATGAGGTGCGTGGGTGGGCTTAGGACGCTTCACGACCCCAGCTCAGCGGATG
Celera SNP ID:            hCV15984314
SNP Position Genomic:     8337
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,34)   total(C,1|T,71)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:40961):
CCCATTTGTAACATTTTTATGTTTTAACTCTAAAGGATGAATTCTGGAGACGATATAAGGGTAAGTGGTTTCCTTCGTCTCCTCAGAAGTATTAATTCCT
Y
GGGATGAGGTGCGTGGGTGGGCTTAGGACGCTTCACGACCCCAGCTCAGCGGATGCCAAGCCTCTGGCTCCAGGACCCACGGTGTCTCTCCAGGGAAGGG
Celera SNP ID:            hCV15984315
SNP Position Genomic:     8382
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40962):
CAAGACAGCTGTGCCCAGCCCACTCATTCTGGCAGTTGTGTGGACTGGCAGAGAACAGGATGGAGCTCAAGGACTTGAAGCCACCCAGCTCCAAGGTGGA
R
AGGAAGAAACCGAAGGGAGGCAAAGCAGACGGAGTGATGGAAGGCGGGGATGGAAGCGGGAATGGTCTATCACCAGCTTTGCAAACTTCCTCTCAATCTT
Celera SNP ID:            hCV15984350
SNP Position Genomic:     13957
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|G,45)   total(G,45|A,3)   JBIC-allele(A,269|G,1216)   total(G,1216|A,269) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40963):
AGAGAGCACAAGAGAGGCTGAGGAGGCACGCCGGCGTCTCACGGGGTTGTGCACCCGCCCTTCTCTGGGAGGGTTCCCACGGAAGGTTCCGGGGCCCGAA
R
TCAGGGCTGAGCACTGAGACCCAGCTCTCTGCTCGTCCCACCAGGTGGCTCTTGGACAACTGTTCCACCTCTTCATGCCTCAGGGTCGCCCAGGGTAGAA
Celera SNP ID:            hCV3046055
SNP Position Genomic:     20131
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;PGA-AFRICAN-PANEL(A,3|G,43)   PGA-EUR(EAN-PANEL(A,11|G,29)   total(G,72|A,14)
SNP Type:                 TFBS


Context             (SEQ ID NO:40964):
CTGTCACTGCTGGAGCTGGAGTGGCCCATCCAGTGCCCAGGTGCGGGGCTCCCCGTGTGCACCCCTGAGAAAGACTTCGCTGAGCACCTCCTCATCCCAC
R
CACCAGGGGCCTCCTCAGCGGCTGGGCACGCAATGGCACTGACCTGGGCAACTCGCTGACCACGCGGCCTGTCACACTTGTGGAGGGGGAGGAGTGCGGG
Celera SNP ID:            hCV3046056
SNP Position Genomic:     19156
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,2|G,26)   total(A,3|G,61)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;PGA-AFRICAN-PANEL(A,1|G,47)   PGA-EUR(EAN-PANEL(A,1|G,45)   total(G,92|A,2)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:40965):
CGCTGGGATTACAGATGTGAGCCACTGTGCCTGGCCCTTAAATATTTTTCAATCAACAAAATAACGTGAAAACCACTTCTCAACAGCCAATGTTTGACTG
K
CCTGGAGACGTTCCACATCACTGCTTCCTGCTTTTTAATCATTTCACCACACCCCACTGCACTCCAAAACAGAAGAACTAACCTTGACTGTTTTTAAAGG
Celera SNP ID:            hCV3046057
SNP Position Genomic:     18657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,8)      total(G,8|T,2) ;JBIC-allele(T,723|G,768)   total(G,768|T,723)PGA-AFRICAN-PANEL(T,7|G,35)   PGA-EUR(EAN-PANEL(T,9|G,25)   total(G,60|T,16)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40966):
GCTCACATGGTCCTTGTCACCAAGGTCTCCAGGTACTCACTCTGGTTTAAACAGATCATGAACTAACTGAAACTCAGCTAGCCAGAATGAACAACACAAC
Y
GGAAGCGGGATTCCAAGCTGGCACTGCCACTGTGGAGGGCGCTGAAACTTCATCACACACTGAGAGGCCGTCACAGCCCCAGACCACCCGCTTGGCCCAC
Celera SNP ID:            hCV15984426
SNP Position Genomic:     19510
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,34)   total(C,65|T,1)
SNP Type:                 UTR 3;TFBS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|C,45)   total(C,45|T,3) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:40967):
AGGAAAGCTGCAAGTCAAAACACCCAGCATCCCCGCTGGCCCCATGGTCTCCCGCTGGCCCCATGGTCTCCCACCCTGAGAGGGTGATCCCCCCGCCCTG
Y
CCTGCCCAGCACTTACCGTAGCCGGACTTAGCTGAGCCCCCCCTGCTGTAACCCTCAGCACCGAGAGAAAAGGAGGGAGGATGGGAAGGGCCTGGGCTTT
Celera SNP ID:            hCV15984280
SNP Position Genomic:     6725
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40968):
CACAGCCTACATAAGGATGACTTCATTTCCCACTGAAATTGAGCAGTTGTGGCATAAGAGATGGATAATTGGCTAAAAATCGGAAGAATGGGGCTCGAAT
S
CCCCAGCAGTTGAGACCTCAGGCTGAGGCAGTGGCCTTCTCATCGGCTTATCTGTGCCTATTTCTTTCTTTTTTTTTTTTGAGACAGAGTCTCACTCAAT
Celera SNP ID:            hCV3046058
SNP Position Genomic:     18230
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,9)      total(G,4|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:40969):
GAGGTGGAAGCGTGCGGGCTCCTATCTTCTGGAAGAACTCTTCGAGGGAAACTTGGAAAAAGAATGTTATGAAGAAATCTGTGTCTATGAAGAAGCAAGA
R
AAGTGTTTGAAAATGAAGTAGTCACTGTATGTACCCCCACCACAAACCACAGGCCTCCTCATTATTTAGACTTCTGCTGGCCCAGGGAGCATCATTTCTC
Celera SNP ID:            hCV15984427
SNP Position Genomic:     7520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:40970):
TAACATTTTTATGTTTTAACTCTAAAGGATGAATTCTGGAGACGATATAAGGGTAAGTGGTTTCCTTCGTCTCCTCAGAAGTATTAATTCCTCGGGATGA
R
GTGCGTGGGTGGGCTTAGGACGCTTCACGACCCCAGCTCAGCGGATGCCAAGCCTCTGGCTCCAGGACCCACGGTGTCTCTCCAGGGAAGGGCAGCTCCG
Celera SNP ID:            hCV15984428
SNP Position Genomic:     8390
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,41)   total(G,41|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40971):
CCAGGGCAGCGCTCAAGTCTAGAGCTAGTTATTCTGACTACTGAAGTGAAACCCTTCTATGCATCCTGCCCCGTGCCCCACTGAGTCAGGGATGTTTTAA
Y
TCAGCTGGTGGAAGCAATTGCTATTCCCAGCTTGTGTGAGTGTCTAGCACAGGTCCCTCTCACACTCTTGGGTGGTTCTTACCCGGCCATAATTAGTCTC
Celera SNP ID:            hCV15984392
SNP Position Genomic:     17089
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40972):
ACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCCAACTCTCAATCTCAGGTGATCTGCCTGCCTTGGCCTCTGAAAGTGCTGGGATTACAGGCGTGAGCC
W
CCACGCCCGGCATCTACACTTTATTATAAAATAAAATCGGCTTTGTGTTTGATTTTGCCTAAGAGTGGAGGCTTCTGAGTATGTTAAGGAAGGCTAGAGT
Celera SNP ID:            hCV1633345
SNP Position Genomic:     25376
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:40973):
CCTGCAGATGTAGGAGCGAGCTAAGGAGTGCTGCTGAAGCCCTGGGGCAGCTCCTGCATCCAGGGGAACCTGAGGAAGGAGCCACACAAAGTGAGTCCTG
Y
GCCGCGCGGCCCGGAGAGAGAGAAAGAGGGATTCACACTTTGTAGAATAGCCTCTCCTTGAACAAGCAGCTTTCAAATGCAGTAACTTTGCAAAGATGAG
Celera SNP ID:            hCV1633346
SNP Position Genomic:     23519
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:40974):
GCACTTGGTTGCAATCGTGCAATCTGTGAGTGGCCTTTCTGTCCGCAGAAAGGCACAGTGTCCACACCACGGGGCGGTGAGCCTGCGGGTCCTCCAGGGC
Y
GGTCTCTCCCTCCTCACGTGGCTCCCTGAGAAGCTCGTTTGAGCATTATGTCCCCTTGAAAATCAGACTGTAAAGAACTGACGATTGTTCATGATTTCAG
Celera SNP ID:            hCV15984469
SNP Position Genomic:     18863
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,39)   total(C,39|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40975):
CACATGGCTGGGGAGGCCTCAGGAAACATAATCATGGCAAGCAGGCACCTCTTCACAGGGTGGCAGGAGAGAGAAAATGTGTGTCAATCACAGGGGGAAG
Y
CCCTTATAAAATCATTAGCTCTTGTGAGAATGCACTCACTATCACAAGAACCACCTCCATGATTCAATCACCTCCACCTGGTCCTGCCCTTGACCTGTGG
Celera SNP ID:            hCV8702319
SNP Position Genomic:     3597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:40976):
GTCAGGGATGTTTTAACTCAGCTGGTGGAAGCAATTGCTATTCCCAGCTTGTGTGAGTGTCTAGCACAGGTCCCTCTCACACTCTTGGGTGGTTCTTACC
Y
GGCCATAATTAGTCTCCACGTACACGTGATCACCACTGCTCTGCTGAAAACTGCTAGGCATGTGGCCATCCTCCAGCATTCTCTACCAAGCTCTCTCCTC
Celera SNP ID:            hCV15984399
SNP Position Genomic:     17173
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40977):
GGTTTCACCATGTTGGACAGGATGGTCTCGAATGCCTGACCTCAAGTGACCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCA
Y
GCCTGGCCTCATCATTCACTTTCTGTTTACTTAATGGTCACTCTTGACACATAAACATCCATATTTAGCACAAGTAGTCAGCTATTTCTCCCTCCTCAGG
Celera SNP ID:            hCV12128194
SNP Position Genomic:     13192
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40978):
CTCATTTGCCTTCTCCTCCTGGAAATCGCAGAGCCTGCTGCAATGTATAAGTTTCTTCTTTATGTGTTTTATCAAGATGTTAAATGCTGCGCACAGAGGC
R
GCACAGGAGCTGATGGCTCTTGGTCCCCAGTTCTCAGTACGGGGACCTTTGACCCCAGCTCAGCCTTCCTTCGCACTCAGACCCAAAACCCAGTTGGAGC
Celera SNP ID:            hCV27517493
SNP Position Genomic:     7005
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,15|A,1485)   total(G,15|A,1485) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40979):
TCAAATTTTGGAAAGTCATGGCCCCGATGGAGACTTTGGTTAGGAGACTCCTCCCAAGGGAGGAGCTCTAGGTGGGCAACTGCAGAAGAGCATGGGACAG
R
AGTAACACAGATGGAGACCCACGGGGCTGGGGGAGGCCAGGGTAAGGACCCACCTGGGAATGAGTAAGCAAAGAGCTGCAGCCACCACCAGACAAGCACG
Celera SNP ID:            hCV15984322
SNP Position Genomic:     8802
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40980):
TTCTCCTCCAGAAACCACGCCGGGGGCTGGCTGCATTCTGAGCTGCCCCTTCCAGACAGGCCCCCATACTTTTCATAGCAGGGGCCCCTCTCCTCCCCCC
M
CCACCTCAACCATTCACAATCTGCTCACAGGCTGGGGGGGTCACACACAGGCGTCCTCAGTGCCAGACTCCCAGTGGGAGACTGCAGACAGGGAAGACGC
Celera SNP ID:            hCV15984323
SNP Position Genomic:     10755
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,13)   caucasian(C,16)   total(A,5|C,29)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,8|C,36)   total(A,8|C,36) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40981):
CCAGACAGGCCCCCATACTTTTCATAGCAGGGGCCCCTCTCCTCCCCCCCCCACCTCAACCATTCACAATCTGCTCACAGGCTGGGGGGGTCACACACAG
K
CGTCCTCAGTGCCAGACTCCCAGTGGGAGACTGCAGACAGGGAAGACGCAAAGCACGTAAACAAATATCCTTAAATACCCGCCAAATGTCAGTGTCCATC
Celera SNP ID:            hCV15984324
SNP Position Genomic:     10806
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|G,41)   total(G,41|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40982):
CTCACATGTCCTTACCTGTGGCACTTTTAAGATTTTAAATGCTTTTTAATTTTAACTTTCTAAGATTTCCTCTATCATGGATTTTGAATTTAATTATACT
S
TGTATTGTTTTCATGTTTCTTGCACATAGGGTTTGTTGAGATTCTTGTATTTGTGGGCTAATATCGCTTGTCAAATTTGAAAAATATTTGGTCATAATTT
Celera SNP ID:            hCV3046060
SNP Position Genomic:     16006
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;PGA-AFRICAN-PANEL(C,7|G,41)   PGA-EUR(EAN-PANEL(C,12|G,34)   total(G,75|C,19)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40983):
AGTTGGAAAAACACTTTCTCACTTGGCTCAGCATTTTGCATTAGACGGTTGAAAACTGCAACACTTAACACTTCCAGAGCCAGTACCCGTGCTATGTGGG
S
ACATGCTTTATTTCATTTAATCTTTCAAACAACTTCTCGTTTTCTCCTTTTGTATCCCTGGTAATATTATTTGCTCTAAAATCCCCTTTGTCTGATATTG
Celera SNP ID:            hCV3046061
SNP Position Genomic:     14843
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,8)      total(G,3|C,8) ;PGA-AFRICAN-PANEL(G,7|C,41)   PGA-EUR(EAN-PANEL(G,12|C,34)   total(G,19|C,75)no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40984):
GCCACGGTAAAGTTGGAAAAACACTTTCTCACTTGGCTCAGCATTTTGCATTAGACGGTTGAAAACTGCAACACTTAACACTTCCAGAGCCAGTACCCGT
R
CTATGTGGGCACATGCTTTATTTCATTTAATCTTTCAAACAACTTCTCGTTTTCTCCTTTTGTATCCCTGGTAATATTATTTGCTCTAAAATCCCCTTTG
Celera SNP ID:            hCV3046062
SNP Position Genomic:     14833
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   PGA-AFRICAN-PANEL(A,7|G,41)   PGA-EUR(EAN-PANEL(A,12|G,34)   total(G,75|A,19) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40985):
GTCTGGCAGACTGATGGCGCAAGTGCCGTCTTCTCTCGAACTTGGTTTTATCCCCTTTAAAGTGAGGATCTCACCCCTAGAGGTGCAGTGAGGATTACAG
R
TAACGTTCTTGACTTATGGTAGGTATTCAACAAGTGGCAGCTATTATTCATAAACACATGAAGAGTTCCAGGAACGACGCCACGGTAAAGTTGGAAAAAC
Celera SNP ID:            hCV3046063
SNP Position Genomic:     14654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;PGA-AFRICAN-PANEL(G,3|A,45)   PGA-EUR(EAN-PANEL(G,12|A,34)   total(G,15|A,79)
SNP Type:                 INTRON


Context             (SEQ ID NO:40986):
AATTTTCCTAAAACAAACTTTGAAAAGGAGAATAATTAAGTGACCTAGCAGGACATAGGGTTGAAGATTATCTTTAGAACTTCCTTGTTTCTTACATCCT
M
GGGAAGAAGTATCACTAAAAGTCTGGCAGACTGATGGCGCAAGTGCCGTCTTCTCTCGAACTTGGTTTTATCCCCTTTAAAGTGAGGATCTCACCCCTAG
Celera SNP ID:            hCV3046064
SNP Position Genomic:     14533
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,10)      total(A,10|C,2) ;PGA-AFRICAN-PANEL(C,7|A,41)   PGA-EUR(EAN-PANEL(C,12|A,34)   total(A,75|C,19)
SNP Type:                 INTRON


Context             (SEQ ID NO:40987):
ACTTCAGTATTATAAATTGTTCTGAAGTTATTTAACTGAATATATGGAATTTTCCTAAAACAAACTTTGAAAAGGAGAATAATTAAGTGACCTAGCAGGA
Y
ATAGGGTTGAAGATTATCTTTAGAACTTCCTTGTTTCTTACATCCTAGGGAAGAAGTATCACTAAAAGTCTGGCAGACTGATGGCGCAAGTGCCGTCTTC
Celera SNP ID:            hCV3046065
SNP Position Genomic:     14486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;PGA-AFRICAN-PANEL(T,7|C,39)   PGA-EUR(EAN-PANEL(T,12|C,30)   total(C,69|T,19)
SNP Type:                 INTRON


Context             (SEQ ID NO:40988):
CCCCCATACTTTTCATAGCAGGGGCCCCTCTCCTCCCCCCCCCACCTCAACCATTCACAATCTGCTCACAGGCTGGGGGGGTCACACACAGGCGTCCTCA
S
TGCCAGACTCCCAGTGGGAGACTGCAGACAGGGAAGACGCAAAGCACGTAAACAAATATCCTTAAATACCCGCCAAATGTCAGTGTCCATCATCGCCAAC
Celera SNP ID:            hCV15984435
SNP Position Genomic:     10815
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,1|G,43)   total(G,43|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:40989):
TGTTCTACATGCACATTCCTGAAATACGGACATGTGGGAAACACTGACACAGAGGACAACGATCTGAAGAGAATGAGAACACATGGACCAACACACCAGA
W
CTCTTGTGTGCAAGGCTGTGATAAAATGAACATGGACCAACACACAGAACTGTGTGCAAGGCTGTGATAAAATGACTATTTCCAAGCTAGCATTTCCTTT
Celera SNP ID:            hCV3046066
SNP Position Genomic:     11763
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;PGA-AFRICAN-PANEL(A,16|T,22)   PGA-EUR(EAN-PANEL(A,12|T,30)   total(A,28|T,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:40990):
AAGCGGGAATGGTCTATCACCAGCTTTGCAAACTTCCTCTCAATCTTTTATCACTTTTCCTGCCCAAGCTTTCTAAGACAGTTCTTCCTATCGCTGTCTG
M
CCCATGAGTGCGCTGAGGGTCGGTACTTGGGAGGCCCAGAGTGCAGTGGTCCTCCATAGGTAGTGACAGGGTCTGGCTCTACCACCTGCAGGCTGTCTCC
Celera SNP ID:            hCV15984363
SNP Position Genomic:     14111
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|C,41)   total(A,3|C,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40991):
CATGGTCTCCCGCTGGCCCCATGGTCTCCCACCCTGAGAGGGTGATCCCCCCGCCCTGCCCTGCCCAGCACTTACCGTAGCCGGACTTAGCTGAGCCCCC
Y
CTGCTGTAACCCTCAGCACCGAGAGAAAAGGAGGGAGGATGGGAAGGGCCTGGGCTTTGACCCTCCCGGAGAGGGAGAGAACATGCTTTGGGACCCTCAG
Celera SNP ID:            hCV15984290
SNP Position Genomic:     6767
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40992):
GCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGATCTCCTGACCTCGTGATCCGCCCACCTCGGCCTCC
Y
AAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCTCACTCACGGAGTCTTTGTTCTACATGCACATTCCTGAAATACGGACATGTGGGAAACAC
Celera SNP ID:            hCV3046067
SNP Position Genomic:     11606
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40993):
CTTTATTTCATTTAATCTTTCAAACAACTTCTCGTTTTCTCCTTTTGTATCCCTGGTAATATTATTTGCTCTAAAATCCCCTTTGTCTGATATTGATATA
S
ACACTTTACTTTCTAATTATTAGTGTTAGCATGACTTATCTTTTTCCAATCTTCTACTTTTAGCCTATTTGTATTTTTATAAAGTGCATGTTTAAAAAAT
Celera SNP ID:            hCV15984364
SNP Position Genomic:     14949
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|G,47)   PGA-EUR(EAN-PANEL(C,1|G,45)   total(G,92|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40994):
CACCCTGAGAGGGTGATCCCCCCGCCCTGCCCTGCCCAGCACTTACCGTAGCCGGACTTAGCTGAGCCCCCCCTGCTGTAACCCTCAGCACCGAGAGAAA
R
GGAGGGAGGATGGGAAGGGCCTGGGCTTTGACCCTCCCGGAGAGGGAGAGAACATGCTTTGGGACCCTCAGGTGGGAAGAGGCTCCAGAGACCACTGCCG
Celera SNP ID:            hCV15984291
SNP Position Genomic:     6796
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40995):
AACAAATAGGCTGTAAAACAGGAAAATTGTGCATTGTTTCAACCACTATTGTCCTATTAAGTGAATAAAATCAACATTTTCTTACCTTCAAGTTCATCTA
Y
AGGAAAGAATATAGAAAAACAAATATCCCATTTGTAACATTTTTATGTTTTAACTCTAAAGGATGAATTCTGGAGACGATATAAGGGTAAGTGGTTTCCT
Celera SNP ID:            hCV3046068
SNP Position Genomic:     8255
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,30|T,6)   total(C,63|T,11)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;PCT-TFRICTN-PTNEL(T,8|C,38)   PCT-EUR(ETN-PTNEL(T,10|C,36)   total(C,74|T,18)   TSC_42_A(T,16|C,67)   TSC_42_C(T,16|C,67)   total(C,134|T,32)   SC_12_C(T,3|C,17)   SC_12_TT(T,1|C,16)   total(C,33|T,4)(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:40996):
TATTTCATTTAATCTTTCAAACAACTTCTCGTTTTCTCCTTTTGTATCCCTGGTAATATTATTTGCTCTAAAATCCCCTTTGTCTGATATTGATATAGAC
W
CTTTACTTTCTAATTATTAGTGTTAGCATGACTTATCTTTTTCCAATCTTCTACTTTTAGCCTATTTGTATTTTTATAAAGTGCATGTTTAAAAAATAAA
Celera SNP ID:            hCV15984365
SNP Position Genomic:     14952
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|A,47)   PGA-EUR(EAN-PANEL(T,1|A,45)   total(A,92|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40997):
GGGAAGGGCCTGGGCTTTGACCCTCCCGGAGAGGGAGAGAACATGCTTTGGGACCCTCAGGTGGGAAGAGGCTCCAGAGACCACTGCCGCGGGTCAACTC
R
TTTGCCTTCTCCTCCTGGAAATCGCAGAGCCTGCTGCAATGTATAAGTTTCTTCTTTATGTGTTTTATCAAGATGTTAAATGCTGCGCACAGAGGCAGCA
Celera SNP ID:            hCV15984292
SNP Position Genomic:     6908
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,8|A,40)   PGA-EUR(EAN-PANEL(G,10|A,36)   total(G,18|A,76)   JBIC-allele(G,436|A,1045)   total(G,436|A,1045) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40998):
GGCCTTTCTGTCCGCAGAAAGGCACAGTGTCCACACCACGGGGCGGTGAGCCTGCGGGTCCTCCAGGGCCGGTCTCTCCCTCCTCACGTGGCTCCCTGAG
M
AGCTCGTTTGAGCATTATGTCCCCTTGAAAATCAGACTGTAAAGAACTGACGATTGTTCATGATTTCAGATTTTAACAGAACGAGCCAAGACCCGCTGAT
Celera SNP ID:            hCV15984470
SNP Position Genomic:     18894
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,1|A,39)   total(A,39|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:40999):
TGGTTTGTTTTTTTTGAGATGGAGTCTCAATCTGTCACCCAGCCTGGAGTGCAGTGGTCCAGTCCCGGCTCACAGCAACCTCTGCCTCCTGGGCACAAGC
R
CTTTCCCTGCCTCCACCTCCTGAGTAGCTGGGATTACAGGAATGTGCCACCACGCCCGGCTGATTTTTATATTTTTAGTAGAGACGGGGTTTCACCATGT
Celera SNP ID:            hCV1633351
SNP Position Genomic:     13004
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41000):
TTTAGAAGTTAACCATTCATTTGTTTTTGGTTTGTTTTTTTTGAGATGGAGTCTCAATCTGTCACCCAGCCTGGAGTGCAGTGGTCCAGTCCCGGCTCAC
W
GCAACCTCTGCCTCCTGGGCACAAGCGCTTTCCCTGCCTCCACCTCCTGAGTAGCTGGGATTACAGGAATGTGCCACCACGCCCGGCTGATTTTTATATT
Celera SNP ID:            hCV1633352
SNP Position Genomic:     12977
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|A,7)   total(A,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41001):
TGGCTGGTTTAGAAGTTAACCATTCATTTGTTTTTGGTTTGTTTTTTTTGAGATGGAGTCTCAATCTGTCACCCAGCCTGGAGTGCAGTGGTCCAGTCCC
R
GCTCACAGCAACCTCTGCCTCCTGGGCACAAGCGCTTTCCCTGCCTCCACCTCCTGAGTAGCTGGGATTACAGGAATGTGCCACCACGCCCGGCTGATTT
Celera SNP ID:            hCV1633353
SNP Position Genomic:     12970
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41002):
TCCGGGTGGGAATGGCAGGCTGCGTCCCACTGCTCCAGGGCCTGGTCCTGGTCCTCGCCCTCCATCGTGTGGAGCCCTCAGGTAGGCATCTGGCTTACCT
R
TCTGTTGTGCCTGTGCTGTGTCTTTCTTGACTCGGTCCATGGTGGATTTGTAGATGAGGCTTTTTCCAGGAGCCAGAGGAGCCCTGAGTGCCCAGACTAG
Celera SNP ID:            hCV1633355
SNP Position Genomic:     6119
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;PGA-AFRICAN-PANEL(A,2|G,46)   total(G,46|A,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:41003):
AGGAGGGAAGCACACAGCTGCACAGGTCGTGCCCCGAGGCTCCTGCTGCCGGCACCTCCCCCAGCCTGGACTTTGGCTGTGTTTGTAGCCCTGTCCCAGC
R
CTCCGGGTGGGAATGGCAGGCTGCGTCCCACTGCTCCAGGGCCTGGTCCTGGTCCTCGCCCTCCATCGTGTGGAGCCCTCAGGTAGGCATCTGGCTTACC
Celera SNP ID:            hCV1633356
SNP Position Genomic:     6017
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,11)   caucasian(A,33|G,5)   total(A,48|G,16)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,12)   caucasian(A,31|G,3)   total(A,51|G,15)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;PGA-AFRICAN-PANEL(G,16|A,32)   PGA-EUR(EAN-PANEL(G,3|A,43)   total(G,19|A,75)   (A,-|G,-)   JBIC-allele(G,435|A,456)   total(G,435|A,456)   no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:41004):
TTGTAGCCCTGTCCCAGCACTCCGGGTGGGAATGGCAGGCTGCGTCCCACTGCTCCAGGGCCTGGTCCTGGTCCTCGCCCTCCATCGTGTGGAGCCCTCA
R
GTAGGCATCTGGCTTACCTGTCTGTTGTGCCTGTGCTGTGTCTTTCTTGACTCGGTCCATGGTGGATTTGTAGATGAGGCTTTTTCCAGGAGCCAGAGGA
Celera SNP ID:            hCV11924023
SNP Position Genomic:     6099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:41005):
CAGGTGGGAGGGTAAATCTGATCACTGTTACTTCACCTGGGCCGAAAGGGGAAGTGCCGGCCCCATTTAATCCCTAAGCAAACAAAAGCTTAGACTGTCA
W
CAATTCGTTAACAATCCTGTACCATTTGAGTGCTGGGGCAAGAATCAAATACGGCTGTCTGCCTTTGGCGGGGGGTGGGGGTGGGGGTGGGGGGGTGGTC
Celera SNP ID:            hCV15984400
SNP Position Genomic:     17600
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|A,41)   total(A,41|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41006):
GGGAGGGTAAATCTGATCACTGTTACTTCACCTGGGCCGAAAGGGGAAGTGCCGGCCCCATTTAATCCCTAAGCAAACAAAAGCTTAGACTGTCAACAAT
Y
CGTTAACAATCCTGTACCATTTGAGTGCTGGGGCAAGAATCAAATACGGCTGTCTGCCTTTGGCGGGGGGTGGGGGTGGGGGTGGGGGGGTGGTCCATAT
Celera SNP ID:            hCV15984401
SNP Position Genomic:     17605
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,41)   total(C,1|T,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41007):
ATTCACAATCTGCTCACAGGCTGGGGGGGTCACACACAGGCGTCCTCAGTGCCAGACTCCCAGTGGGAGACTGCAGACAGGGAAGACGCAAAGCACGTAA
R
CAAATATCCTTAAATACCCGCCAAATGTCAGTGTCCATCATCGCCAACTACAGCAACAAGCGTGCTCCGCTCTCAGCACCACTGGTCAACTTGGAGCCCG
Celera SNP ID:            hCV15984330
SNP Position Genomic:     10867
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,41)   total(G,1|A,41) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41008):
TATGCATCCTGCCCCGTGCCCCACTGAGTCAGGGATGTTTTAACTCAGCTGGTGGAAGCAATTGCTATTCCCAGCTTGTGTGAGTGTCTAGCACAGGTCC
S
TCTCACACTCTTGGGTGGTTCTTACCCGGCCATAATTAGTCTCCACGTACACGTGATCACCACTGCTCTGCTGAAAACTGCTAGGCATGTGGCCATCCTC
Celera SNP ID:            hCV12128200
SNP Position Genomic:     17146
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,7)      total(G,4|C,7) ;PGA-AFRICAN-PANEL(G,2|C,42)   PGA-EUR(EAN-PANEL(G,11|C,33)   total(G,13|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:41009):
TGTTACACAGGAATATTACTGTAAAAACATGTAAGTATTTTATCATGAGTTTTTATAAAACCACATTGGAAATACACTATCCTATGTAAGAATGAAATGA
Y
AAATTTAAAACTGGACTGTTTCTAATGCAACATAGAACTGAATTTACTGTCAATAAAACTGAGATACTTATCAACTCAGGAAGCATATGTAAAATACCAG
Celera SNP ID:            hCV15984408
SNP Position Genomic:     17971
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,39)   total(C,39|T,1) 
SNP Type:                 INTRON


Gene Number:                 197
Celera Gene:                 hCG27684 - 63000132612302
Gene Symbol:                 TCF2
Protein Name:                transcription factor 2, hepatic; LF-B3; variant hepatic nuclear factor;HNF1B;HNF1beta;HNF2;LFB3;MODY5;VHNF1
Celera Genomic Axis:         GA_x5YUV32VTMY(1231230..1302932)
Chromosome:                  Chr17
OMIM number:                 189907
OMIM Information:            TRANSCRIPTION FACTOR 2;TCF2


Genomic Sequence (SEQ ID NO:12357):
CCTGTATCCATTTGTTATTTCCTCACAGTGCTCCCCAGAGTGCTCCACGCAGAGTAGACACTCGGTAGTGTTTGTTAGTGAACTCAGGCCAGAAACTCTG
CATTTCGAAGGAAGGGAGGGAGGACATGAGGGAGCCTCTGAGCCGTGTGCTGTGATCAAGCAAGTACTTCATGTGTTCCCAGCTCGTGCCAACCCCACAC
AAGGTGTTTTTCTGTGTTCCTTTAATTCTTCCAACAACCTTATAAGGTATGAATTCCATTATCACTGTTTACCTTTGGTGATAATATAAGTCTGAAAGAA
ATTTAGTAACTTGCCCAAAGTTATGGCTACACACTCCCAGAAAGCAGGTGGCCCATCTGACTCCAGAACTGATTCTCCCAGGGTCCTGTGCTCTTGGGAA
AGTCATTTATCCTCCCTGAATTTGCCTCCTTATCCCAAAGAGGAAGACGTGAAAGGGGATGATTTTAAGGTCCCTTTTGGATCTGTGGACTTCTAGTGGC
CTAAGTGCTTTATCCACGGGTTGACAAACTGACACGTGGGCCAAATGCAGCCAGCTACTTGTTTTTGTAAATAAGTTTCATTGGAACACAGCCACACATA
TTCATTTATGTATTGTCGATAAGAGCAGAGTTGAGTAGTTGTAACAGAGACCATCTGGCCCACAAAACCTAAAATATTTACTATTTTGCCCTTTATAGAA
AAAGTTTGCTGACTCCTGGAATATACTAAGCTATAGACCTTAATGATGATTAACTACAATGATGAATAGGAAAAAATCTGGAGGACCGAACATCAACTGT
AAACTGTTGACGGGGGTAAGAATATTATTTACACTGCTTTGGTTTTTTGTTTGTTTGTTTGTTTTTCAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAG
TGCAGTGGCACAATCTCGGCTCACTGCAACCTCTGCCTCCGGGGTTCACACCAGTCTCCTGTCTCAGCCTCCCGAGTTGCTGGGACTACAGGCGCCCGCC
ACCACACCTGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACTTTGTGATCTACCTGCCTCGGC
CTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCGGCCCCACACTGTTTACATTTTATACTTGGAGTAATTTATTTAATTTACTTTATACTAA
TTTATAACTTACATATGGCAACATGCACAGATCCCACATGTATAGCCTGGTGATGGATCCACCATCCCAATCAAAATATAGAACCATTTCTAGCACCCCA
GAAACCTCCAGCACCACGGATTTGTTTTTCCACTTTTTAACTTTATATAAATGGAATCACACAGTATATACTCTTTCGTGTCTGGTGAAAGTAGTTATTT
ATTTATTTAGAGAATGGGGTCTCATTCTGTCACCCAGGCTGAAGTGCAGTGACACGATCATAGTTCAATGGAACCTCAGACTCCTGGGTTCAAGCGATCC
TCCCACCTCAGCCTCCTGAGTAGCCAGGACTATAAGCATGCACTACCATGCCTGGCTAATTTTTTTATTTTTTATTTTTGTAGAGACAGGGTCTCACTAT
TTTGCTTGAACTCCTGGGCTCAAGCTATCCTCCCACCTCGGCCTCCAAAAGAACTATCACAGGTGTGAGCCACCACACCTGGCAAGTATTTAGTTTTAAC
AGTATTGTCCAGAGGCAATCACATGTTCGTTTACTCAGTAAGCATTTTCTTGAGCATCTACCATGCACCAGCACTTCTCCAGGCACTGAGGAGTAAGACA
TGAGAAGATGCCTGCCCCTCATAGGGTTTGCTCTCTGTGGTATATTTTTTCGTGGCTAGTCAAGGCTTCATGTCCACTACTACACAGAGGTCTGGCCTGA
GCTCTTGGCCCATCTGCCCGAAGGCCTGCAAGTAGACACCCTAATAATTTAAGACCTTTTAGGAATTTCAAATTATAAAAAAAGTTGGAGGACCTAAATG
GTTATCCAGACCAATAGCCATTTTTCAAAGGTAGAATCAGAGACCCAGAGAAGGTGCTCACCAAAACTTTTGGGGAGATGAATCACCCAGAAAGAGGTTT
TGTAGCCAGAAGAAGAACCTCAGGCTCTTTCCAGACCCTGATGTCTAGAATGTTCTCCAGGTTGCAACACTGCTCTCTAACAAGAAGGCCCCTGACCTCC
TGCAGAACAGGTTAGGATGGTATTTATGTTTTACTCTAGAGATGATTTTATTTTGAGGCCTTCTAGATACTCTGTGAACCAATGAGAGAGGCTGGGAGAG
TGGAGTGGCAGGGGTGGAAATGACCAGAATCTCTTCTGTAAACAAAGAAGTGCAACCGTGAAAAGTAGGGGAAAGATTGCATGCACAAATCAGAAAAGAA
ATATCGCTTGTGCTGCTAAGTTCCAGGGGAGATGAGTTCACAGAAGCCACATTTGCCAATCTGTGGAATGACCAGCATGGTGCTCAGAACACCTTCATAG
AATGATGAGTCAACTGGATTTCAACTTATTTTATACCAGGGATTGCACGTCCTATAAAAAACAAGAACAACAAACCTTGGGATATGAACTGCAAATTCAT
CTAATTTGAGCAGATGAAACTGATATGGTCTCTTCAAATTCAGTAGCTCTTAAAAACATGCTGGGACTATAAGAGCCTAAAGACATCAGTTGCCTCAGTT
CTCAGCATGTTATCAAGATGTGCCTCTTCTTTCTAAATACGTGAGAGCCCACCATATTCTAGGAACCTGTGGTTACTAACTCACCTAATCTTCACACCGG
CACAGTAGAGTGTCATTATCATTTTGCACTGAGGAAACTAAGGATCAGAAAGATTATGTAACATGCCAAAAGTCACACAGCAGGTGAAGCAGATCTTGGG
TTCAAGTTTAGTTCTGTTTGACTACTCCAAACCCTGCCCTCTATTCTCTGCTGGGTATCCTCCACCTCTCCCCCACAGAATCCCTCTTTCAACTTCTCAT
CCCTCAAAACAATGACAGCTAGAGACCCTCCTCTTTCATCCTAAAACCCTGCTCAAAAGTTCTGAGCCCCAACCTCAACCCTTCCATTAATTTGCTGAGG
TGGCTACAAGCAACCTGAGACTCTCCCATATCTTATTTTTCCATCTTTAAAATGGAGTTATTATATCAGTCCATCACGACTTTATTCTGTGTGAAGCATA
AACAGATGTTATTTCAATCCTACTCCGTCTTCCTCTATTTGGGGGAAGTTTAACTGAAGAGTTTTACAAGATAGCTCACTTAACATTATGAACTGCATTC
TGAAAGACTATCTGCTGGTCTACTTTACACAGCTCTTTTTAAACTTCCATATGAAGGGACTGGTGAATCTGTTTGAAGATCTATAGTACAGAACAATTAC
TTGATAAGCGCTTATATTGCACAAAGTGGCATATTACAAGGTAGGACTAGGAAGGAGCATTACAGGAAGTTGCTAGATATGAATAGCCAGATTACCTGGA
AAACATACCTGGACACTCATAGGAAGTTTGTCCTATCCTCTGTGTGAAATTGCCTGCACATTCACATAGTTAGCTGGGGTGTGGGGAAGAATGGGTTTGC
TGACACCTGAATTTTGAGAGAGAATGAGGCTTGGGAATCAGATGGGGCACACAGCAGCTGCAACTGCCAATCAAAGTTTTGTTGTTACAACAGAAGTGAT
TGCTGTTTTTTAAATGGGTTTTCCCAGCTTAACACAGAAACTGATCTTCATTACACTTGATGCTTCTATCCTGATAGCGAGTGAGAGACAGACGAAGAGA
TTGTTCTTCAGGGACATTTACTCTGAACACTTCATTATCCTTCTTGAGGCAAGCTGGGTAGGCAGAGAATGTTCTTCCATTGGGCAGAATTATGAGAAGC
AAAGATTTGCACCTATTACAACAAACTAGAGGGAAAGAAGGTGAAATGAAAAGCCAACATTTTCATGAAGTTATGACTCCCTGTGGCACCCTGAGGAGTA
ATGGGTGTCTGGAGGCTGAAGGATGGAGAGGTTCCTGAATTTGGGATTTGCTTGTCTCCGGGAAAGAGGGACTGAGATCAGTGTAAACTTTCCTCAGGCT
ACACGCACACAACCATCCCGCTTCCTTCTGGCTCTCAGCACAAGTGGCCCAGGCACCTGTAGCAGACCCTGTATTTAAGAGGCATCCTAGCTCCTTAACA
GCCTGACTTGATAAATTACACCATCAGCCCTTGCACACCTAGGAGATTAGATCCTGCCCCTAGGCAGATGAGAGCTGCTAGACTCTTCCTCCTCCTGCTG
AAATTCCTCTCTATCCCTAACCTAACCTTACTTCCTCCTAGATATCTTTCAAGGGTGGGAGAGGAAGGAAAATGTGCTTAGAAACTCCTTTGCAATTTTT
CTGCTGATTCTGAAACCCTAGTCCCCCAATCCCTCCAACCCCAGCACTGTATCACCAATTCTGAATACCCTAAGTTTCCAGAGTAACTCAGTTTTACTAC
TGGGAACTGGCTTCCCGTCTTCTCAGACCAGAAAGTGTTGAACTTTATTATTAGACCAAGCGGTTGCACAAGTGGCCTCAGTCAATATACACAACCCCCA
AAAAAAGGTTATCAGTGGTATCCTCTTTTTGCAGATGAGGAAACTGAGGCTCCCAGAAGGGAAGCGTTATGCTCCTCCCCAGAAGCTTTAGGTCTGTGTG
TGGTGGAAGCAAAGAAGCCCCTTTCCCTGTTCTTCTACAGGTCAGGTCCTAGCTTGCAGGTTTGGGCGCGCTTCCGCCGCCCTCCCCTCCTGCCCGTCAC
CAGGGGGGAAGCAGGTGAAACTCCAATAGTGCTGCAAGGCCTATGGCTTCCTACCTGGCCCAGGCCAGAGTGGGAAAAAAAACATCTTTCCCTCAGTAGC
TCTGTCGACACCTTCTGTACTAGGAGTGCAAGACTTCTGCCACTGCTGCAGTGACCTCGTCTACAGAGCTCGTCCCCGGCCCAGGGAACCACAGATGTTC
TGGAACTACGAATAAACCAGAAATGAGTGGGCCGGGGGGACCCTCGGCTGCAAGTGTCCACCCAGCTGCAGGTCAAGCTTTGCTTTCACTGCCTCACCAT
CCTAGTGCCTCACCATCCTAGTGCCTCACCATCCTAGTGCCTCACCATTCTGCCTCACCATCCTCCCCCAAGGCGGAGGCGCCTTGACATCCGGGTTTAA
ACAGGAGAGTGAGGAGCCCCAGGGGTCCAGCTCCCCAGTGGCGTGGCCAGGCTGGGCGCCGGTGCAGCCCAGCTGCTGGGGGAGCTTCACTTTGGCTACT
CCCTCTACCCATAAAGTAGTCTCTTTCCAAGAGTTCTCCCGGACTCCTTCACCCTCGCCTACGCTCTCTGGCGGGCAGTTCTGCAAACCCAAACCGCCAG
ACCAGGCCAGGGAGGTTCTGGGGCCTGGAGGTAGTAACCGAGGTAGAAATAAATGGAGTCCCTCCAGGGCATGCTCACCACACCTAACGCTGCCTCACCT
CCCCCGTGGCCTCGGCGCCCCTTCCTAAGTGGTCAGTTTCTCTTCCGCCCTGCGGGCTCTCCTGGCCCACCACCTGCGTCGGCCGGGACGCATCCAGGGT
CTCTACTCTTCGCTTCCTCCTGCGTCCCCTTCTTCCACGAGCACCCCAGCTTCCTCTGGCTCTCACCTGAACCCCGAAGCGTAGTGTCTTCTCTCTGGAC
TAAAGCGGAACTGAGAACCGGTGGAAAAGCCCCGCGCCTAGGCTGCAAGGCACTGGCTTAACAAGTCCAAAGGTTAGGTGAAGTTTGGCTGATAAGCAGA
ACCAGTAAAAGAAGGTCTCTAGCCCCCCAGCGTGAGTACAATGGACCCTGGCAAAGCCCCGCTCCCGGCCCAGGTCTTCTGCTCTCCAGGTCTGCCCCTC
CGGCTCTCCCTCTCTCCGGGTTTCCCCCTCCCCACCATCATTTGCATCCAGCCGAAAGCTGGGCCCTTCCCACTAATTTGCATATCTTATATGGCCTAAT
GGTGGCGATCATGGCAAGTTAGAAGTTTTCTGACTCCTTTCGGAGGAGCCTCCGGGACCCCGGGGAGTAACAGGTGTCTGGAGGCTGAAGGGTGGAGGGG
TTCCTGGATTTGGGGTTTGCTTGTGAAACTCCCCTCCACCCTCCTCTCTCGCACCCACCCACCCCCTCACCCCCTTCTTTTTCCGTCCTTGGAAAATGGT
GTCCAAGCTCACGTCGCTCCAGCAAGAACTCCTGAGCGCCCTGCTGAGCTCCGGGGTCACCAAGGAGGTGCTGGTTCAGGCCTTGGAGGAGTTGCTGCCA
TYCCCGAACTTCGGGGTGAAGCTGGAGACGCTGCCCCTGTCCCCTGGCAGCGGGGCCGAGCCCGACACCAAGCCGGTCTTCCATACTCTCACCAACGGCC
ACGCCAAGGGCCGCTTGTCCGGCGACGAGGGCTCCGAGGACGGCGACGACTATGACACACCTCCCATCCTCAAGGAGCTGCAGGCGCTCAACACCKAGGA
GGCGGCGGAGCAGCGGGCGGAGGTGGACCGGATGCTCAGGTAGGCGCAGAGCGAGGTGGAGGGGACCCACCCGAACCCCTGGAGCCCCGGCCCCGGGCCT
GAGTGACACTGCGCCCGACCACACTCGCCAAGCCCGTTTCCCACCAGAGAAGTCCCCCGGGGGGCGCTCTGCTTCTCTCCCAACACCCGGACCCTTCCCA
ATCCCTTAGCGGGACGACCCTGCGGCCCACCGGGCTTCTTCTCCCCAGGCCCAGGCCAGCGTCCGAGACCCAAGGGCTTTTCCCCGCGGGGCTGGGGCTG
GGCCGGGGAGAACTGGAGCTGTGGAGCCCTTTGCCGGGAGGTTTGCCCACGCGACTGAAGGTGCGAGTGGGTGCAGTGAAACCGCTGCGACTTCCCGGGA
GCAGAGCCTCGCGCCGCTGCAAGCCCCAGGCCGCGCATTTTTCCTGCGCSCTGCCTCGGGTCTGGAAAGCCGCATGTCGGCCTCGGACACATTGACCTGC
ATGATGACCTGCAGTTCTTTGCCGAAGGACAGGCGGCATCCGGAGCCGGGATCTGGGAGGCGAGTTCCCTGGTGGGCACTCTTGTTAGCCGCGCCCATGC
AAGGCCCGGAATTATCCGGGATCCCCAACGCGGGTTTAGATTTGCAAAGGGCATGTTCCATGCAGGGTCCGGGTGGACACGCGCGGGGCCAAAGAAACSA
AGCGCGGTGGTGTGGGGGCGAACGCGTCTCAGACCTCAGTTCGCAGAGGATCTGGTCTCAGTCTGAGAAAGGAGGGCGTTTCCAGACCTCGCTGCCCACC
CCCGGCCTCTCCCCGGGAGTTCAGGCCGGCTGGCAGTGTATCCCCAGGGCCGGGATCGTTTGTGGGTCCTCCCCGACCGCCCTAGACTTTGACAGCTGGT
TACTAATTATCTAAGGAGCCGAGCGGTTCCCTGAGACAGCACGTCGCTCCCGGGCCACTCCGCTTTAGGACAGAGCCCATCGCGTGGCTTCGGACACTGA
AGCGCYGSGATTTCGGGGCTGAGCCTTGGCCGCACGTCCGCAGCGGCGGTTTGGGGTGGGATATGACCTTGCATTTGAATTTGTGCTCCGAGGGCCTGGC
GGTTTGCCCTCTAGCCAAAACAATCAGGGGAACTTGTAGATTTTTTTTCCCCAAACACACTTTGGTATAATTCATAGGTTTGAGGTTCTTCCCTCGTCGC
TCTCCCGCCCGGAGGTGATTTCTCCCCTACCGGGAGAGAACTCCTGCAAGAGAGTTCCGCGAGGCGGAAGGTGTGAGTCGCGGAGGCTAAGAGGGGTCGA
GAGAGTGGCCCCTAGGAGCGGCTGGGGCGCCAGGGCTGCCGGGGAGGTCGCTCAGGACCTGGCGGATGAACCAGGCTCCCACCGCCGGCCACCGGGGGCC
ACAGGGCCTAGGCCCTCCCACTCGGCCGCAGGCGCCCGCTTTCTAGCGCGGCGCTGGAAGGACCTGGGGCGCCCCTCCGCACCCAGCCCCGCGCCGGGCT
GGCCGCAGCTGAGACGTAACATAAACTGCAGCACGTGGAGTTGGGGTGTTATTAATTTATTTCTATAAATCATCAACAGAAAGATACACAAAGAGCCGTG
ATTAGGTTGAAAAGAGAGGCGGGTTATTCATTGGTGAAGTTGTAAACGCGGCTTAGAGGGGGGAAGGAGATCAAAACGCGGGCGCGGGGCTGCTCGCCGC
TCCCAGCGCGCACCCAGCCAGGCGCCCCGTGCGGCCCYGCGGCCTCACCGCTCTGGCGCGGGACGCGGGCTCTGTGAGCGCCCGAGCCGCCCGCGGAGCC
CCCGGGTCGCCGACACCCGCAGGCCCGGCCGGCGGAGAGCCAGGCCCGGCCCAGGGTCCTTAGACCCCAGCCCCGCTCTTCCCTCCCCAAAGCCCCAGGC
CCCAGCAGGGCAGGGAGAGGGACTGGGGAGCCGGAGACCCTCGCCGAGTTGGAGACGCGGGACAGACCTGGAGGCTTTTTTCTCCCGTCCCGAGCGGGTG
CTGCCTTTCCTCCCCCGCTCCCGGGAGCGCCGGACTTGATTAAAGTAATTTTTCAAGAAATCGCTAGCGGTTCCTAGGTCACTGCACAGGGGGCTCCCAA
GCCTCGGGCACACGCACTCCCTTCTTTTGCCCACCGTGTTCCCTTAAGACGAAAAGCAAAGAGAAAGAAAAGTCGCGTTTTGGAGTTCCTGGAGTTCTAG
TAAACCTCCTGGAAGAGAAAGGCAGGGGAGRAAGGTCGGGACTGCGCGCTTCCCGGTCCCCGGCTCCCGGCCGGAGCTGGCCTTTCTCGCGGCCTCGAGG
CAGGTGCGCCGGGGGCGTCTAGAAAGTGGGCTGCATTCTAAGAAGCCGAAGTTGGGCTCCTTAACGAACGCGCTGCGGACTGCGCTGGAGTCCAGGCTTC
TCTGCTCGTGGGCAGCAAAGTCATTGTTTGAGAAGGAGCGTGCGGGACGGACCCTGCGGGCGCCGCGGCCGGCGTTTGACACCTGCGCTTGGGACACAAT
GGCCGCAGGCCCTCTTCGGGACCGGTGCCTTTCTCSGTGTTAGGGAACCTCTGAACCTGAGCTGTGTTTTCAAACAAACAAACAAAAATAACCAGCTCTC
CCGGCTCTTCCCGGTGAACACACGTGAATTTTGGGGTCAGAGGGYTGTGAAGGTATAACTGCGCCATCTTACTCCTCACTCTTTTAAGTCGGACTTAAAA
GGTTTTGCCATTATTTATAAGGTTCTTGGGGGCTTTTTTTAAACCCTCCCCAATTGTTGGGCTAATTCACTGTTTCCACAGAATCATTCCCACTTAGAAC
AGTACCCTATTTTTCTAGGTTTCTTAGGCATACAAAATGAACACAGGTAAAGGCATTTAAACAAAAGAAAAATAGCCGAAGAATTTGCTAAAGCAATATT
CACTTTTAAAATGCAATTTTTCCCCTAAGGTTCGAGGCGTCTTGTTCGTAGCCGTTGAAAGTATTTTTCCATCCTAAAAATATCKGTGGAAATATTGACC
AGAAATAAACTTTTAAATGATCTGTGATGTTTACAAGGATATGTCTAAAACGTTTATTACATTATTTTCCTCTTAATGTGAATTCTCCACGTTTGAAACT
GTAACTCGTTTTCTCATTTTTTGTTCTTCTTGTTACTTCCTCATATTGTGTACTTGGAAATTACCTTTGTAAATACTTGAGAAATTCGTTCTTATATATA
ATTAATATAAAAAGTTTGCATTTCTCAAAAACATCTCTATCAAAGCCTGTGTTCTCACGAGTTTAATATCAAAGTCTTAATAAAATAATCACAACTACCC
AAATGCTTATAAAATATGTTCGATTACTGGATTTTTATTCATTAAACAGAATTAATTTTATTTGACATATTTAAAGGCGCCATTTAGAAATAAAATTGCT
TATTATGTTGCAATRCTGTATCTATTTCAGCCTCTACACCGTTTTCTTTTTTGTTTCACCTGAAACTAGTTTTCCCTTCCGTTTTTTTTCTTGTTCTATC
AAGCTAATATATATATCAACATACAGTAATGGGGTGCTGGTTTTTGTAAGTTAAATATGTACCTGCATTAAATAAATAGTAAACATGTATATATTGCTTC
TTTAGTACTTTTGTTCTGTGCTGCACACTATTTTAATTTCTAGTTTTAAATTATATCTCTCTTTTCAAAGCATCTGTTCAATAAGCAAGAAAAGATATTG
GCAAAGTTGAAACCATTCTAGACAAATAAAATTCAAAGGTGCTAAAACTAGCAGTTTACACACCTGTGTTTATGAGAAATGAAAAGTATAACCATGTTCT
TATYCAGTATTTAAAATTTATGAGAAACATAATACAGGAAAACAAGCATCTAAAATTGTTAATGTCCGAAATTGAAGTTATTTGTCCCCATTAGCCCAGT
AGATTTTGTCTGGAAGGTGGAGCTGTGGATTTTTTTTTTTTTTAACTACTTGCCTCACCTCAGTGGTGTGATCCTCCCGTCCCAAGGAGATACAACATTG
TATTTTGGAAAACTTTTCTAAAACTCTGAAAATTATTTACTATTTGGCTAAGACATCCTCCTTGCTTCTTAGAAGGTGAACACATACATTTCACCCCTGT
TTTATAAGAAATGGAGATACCCATTCAAAAGGAAAATAATGTAGGAGAGGTTGAAGCTAAAATTGGGCAAATTCAGAAACTGATGCTATCCCTACTTCAT
TGTAGGATCAGGGAGTCCAGCCCCAAGCTAAAGGCATCCCCACTTTCCAGTGGGCCTCCTGCCTTTTAAATCTCCCACATTGCAGGAAAATGGAGGAAAG
CAAAATAAAATGGCCAGGCGCGGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGATGGATCACCTAAGGTCAGGAGTGTGAGCCCAGC
CTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATAAAAAATTTAGCTGGGTGTGGTGCTGGGCATCTATAATCCCAGTTACTCTGGAGGCTGAGGCA
GGAGAATCGCTTGAACCCAGGATCCTGGTGGAGGTTGCAGTGAGCCAAGATGCCGTTGCACTCCAGCCTGGGTGACAAGAGCAAAACTCCACATCAAAAA
AAATAATAATAAATAAATWAATTAATTAATTAAATAAAACAAGAGCTTTTCTTTTTGCTTAATAAGAGAGAGTGGTGGTGGTGCTTTTTTATTCCTGAAG
ATGGGAAGTCCTCTTTTGCCCACTAACCTCRGAAGAAAGGGATGAGGTGTACCGTACAGGGGCAGTCACCTTCTCCTCTGTTTAGCTTCCATTTTGGCCT
CATGTCTACCCCAAAGTTGTAGCTTAGATGGGGGGAAAATTCAGAATTTTGCATAGACCATAGGTAGCACCCCCTAGAAAAAGARTGTTTCTCCCCAGAT
GTCTCCCACTAGTACCCTAACCATCTGCTTGTCTGTCTAGTGAGGACCCTTGGAGGGCTGCTAAAATGATCAAGGGTTACATGCAGCAACACAACATCCC
CCAGAGGGAGGTGGTCGATGTCACCGGCCTGAACCAGTCGCACCTCYCCCAGCATCTCAACAAGGGCACCCCTATGAAGACCCAGAAGCGTGCCGCTCTG
TACACCTGGTACGTCAGAAAGCAAYGAGAGATCCTCCGACGTAAGTGTTTTCATCCTGCCTCTGCCTCAACCTGAAGTGACCTTTGCCCTCTCACCCCAT
TGGCTGCCTCAGTTTCCCTTTCATCGACAAGGCCTTGTGAGCACTTGGCAGATATGAGGAAGGTGGCAAGTAGATTTGGCCTTGGTGGTTGCTGTACAAT
GGATTGGCTTCTGTCATGTTCTTCAGTCACAGCCCCCTTGCTACCCAGCCAGTTGCTCTGAGGAGCCTGTCAGTGTATGCAGCATACCTTAAACTTTTTG
GCCCCTCCTTCCACCTCCTTCTCTTTGAAACCAAGTAGGTGACAGAGTGAAATGTCTTCCCTGAGAGAAAACCCAGCATCTCCCCTTGATACGTGACCAT
CAGTCAATTTCCAAAGAAGACATTTCGTTGCAGTCAATAATATTGATTACTATTACTGTTAATTTCCTCCTCTCTGGAAAAAGYATCAACAATAGAATGC
ATTTGTATAGAGAGATATATTCAGAACTTCACCCTGTTCTTGGAGGATAGTGGGAGGGATTGAATCCTGAGGCAATTTAAGGTGTTTACCCACATTTACC
AACACTGGTAGAGTGTGGGGACCTCAGCTGGTGGCCCTGCTCATGAAGAAGCTATTTCTGGCTAAGGCAGGGCACAGGAAAAGCATCTGCATTTGGAACT
CTGACCCATCAATTCTTGTCATCCCCATTCCCATCCCAAAGTTTTTTTTCTGTCCCAAGATTTCTCCCACCCAATAATTCTAAAAGGTTTTTGTTTTGAA
GTACGTCTAGAGAAGTTTGAACTGCCTATGAATAACAAGAGTAGGAATGACATACTGTCTGTATTTTAGGAAAGTATTCTTTGACATTACACTTTCATTA
CTTTGATCCAATCCTTTTCCTGGAAAATTTGTATCGGTTTTCACTCTCCCCACACACTATCCTCTGGCTTTATCTAGGCTTCTCTGTCTTTATCAAGATG
TTAATTTCCACCACTATCTGGGTTTCTGGGTTGGGTTTTTTCCCTGTTGCTTTTTAAAATGACTCTTGTCTTCTGTTACACACTGCTCTGAAGTGATTGT
TTCAGTATTTATTGTCTCAATGTCCCTGGGCTGGTGAAAGGAATGGTTTTAGGTGTTCATTTCATATTGTGGTGTTTGTGCTTTTGTTGGGAGCATTACA
TGAATAGATTGGAAGAAGCAACATGAGAGCTGTTTGCTGCTTAGAGCGAGAGACCTTTCCAAGAATGGGTTGGCCCCCCATACTTGGTGACTAGCTCTTT
AAGAATTTGTGTTCCTGACATGAAGCAACTCTCTGTAGTTCCTGGAAAGCCTAAAAAAATTCTCAGGAGCCATTGTCTCCAAAGACCCAACAACGCTTGG
GCCCTGCCCAATTTAAGCTTTATGCAGCATYTCCAGTCTGTGCTGCCTCTCTGTATTCAATGAGAATTTCTTCAGAAAGGAGAAGGAGGCAGGAAAGGCA
GACTGGAAACTTCTCAAAAGACAGAGGTCCAGAAAGTTTCTCAAGATGCTGAGGAAGGGACGTTTTACAAATACAACAGCCTCTTCAAGAGATTGTTGTT
ATTGTTATTTTTGTTTTATTTATTTATTTATTTATTTAACTTTTTGAGACGGGGTCTCGCTCTGCCACCCAGACTGGAGTGCAGTGGCGCGATCTYGGCT
CACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGACTGCAGGTGCCCGCCACCACACCTGGCTAATTTTTT
TTTTTTTTGGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTTGATCTCCTGACCTCGTGATCCGCCGCCTCAGCCTCCCAAAGTG
CTGGGATTACAGGGGTGAGCCACCGCACCCAGTTGTTATTTTTGTTTTAAAGTCACACGAGACATAAAAGCTTAAGAAACATTCCTTCCTTCTGTAACTA
TTATACAGGCACCTACTATGTGCCAAACACTACGCTAAGCTATGGAATACATAGGTTCTTTTCTCCAGGGACTTACCTGCCATCCAGTGAAGAAGTGGAG
ATGTTTGAGTAAATAATGACATTCACTTTCTAAGAGCTGTTATAAAGATATACACAAGGGGCAGCAGAGGAATTGCTAAATTGCCTGGAGACATCATGGG
AGGCTTCCTAGAAGAGGTGACATTCAAATCATGTCTTGAAGGATGAATGTAAGACATGCAAGCATGATATAAGAATTAGGAAGTAAGAGAAATAAAAGAG
GGACACAAGTGAATGGGGTGAGGAGAAGGAGGAAGAGGGGAGAGAATAAAAAATGATACATGATTACAAATTTCCTGGAAAAACTAAAAATAACAAATGG
TAATATTCATGGGCCCCTCTACACACACAGAACCTCCTTGTCCAAGCAGCCCCCAAGCCTATAAAGAGGCTACTGAAGCCAACTTCTCCAAGATAATTTT
CATGGGCAATGAACATTTTCTTCCCCAACCCCAATTAATCTGAAGGGAAGTAGAGAAGAGTTGTTGGTGGCTAGAGGGAGCAAATGTGGGAGTCTAGTTC
TTCAAAAATTGGGAGAGGCTAGAGCCAAGCCCCTGATGTCAGTGGAACCCGAATGGTTCTGAGCACCTACAGGCAAACCCACCTGGCTGATTTGAGGACA
CACTGAGTTCTGAACACTGTTCAGCCTGCTACCTCCTCAAAGGGCAGGTGAGAGACTGAGGCAGCCCTCACACTGGGGAGCAGCTGCGAGAGTGTCTCAC
ACCCACCAGACACAAAGCTTCAGGAATCGGTTTTGTCACCTCCACACAAGTCAGATATGAAGCGTTTGCGGGGTACGTGGCTTGGGTTTTGTTTTTAGTG
AGAGGTGATGCACAGGCTGGTAGTTAGGAGCCTGCAAGCCTGCAGGCTGGGCTCRTGTCCAGGCTCCTGCCCCAAGTCCACATGACTTTGGRCAAGTCAC
TTCACCAGTCTGAACCTCAGTTTCTTCATCTGTAAAATGGAGGTGGCTATACTTCTCACATGGAGCGGTCGTAAGAATTAGATGAAGGAATATATTTAGA
GGATTTGGCACAATACCTCACCACAGAAAAGGTTCAATAAATGTGAACCGTTATTGTGTCTGTTCACATYAAATGAAAAAATCTCACATTGCTCCCAGGC
CCTTGGGATGATCCACACTGGCTTTCGCCATTGGTGACTCTACTGGTGCCACACAGGGCCCACGGGGAGGAGGGAAGACACTGTGACAGACCTCACTGAG
CAGGGGACATCTCCTTCTCCCCCTTGGATTTCCCCTCAAGTAACTGCATTTAGAGAGCTGCTGTGAAGTCAAATACCATAGAGGGGCTAAAGCACTTTGA
AAAGTATAATCAGGTGGGGCATGGTGGCTCACGCCTGTAACCCCAATGCTTTGGGAGGCTGAGGTGGCGGGAAGACTGCTTGAGGCCAGGAGTCTGAGAC
CAGCTTGGGCAACATAGCGAGACCCCGTCTCTACAAAAATAATTTTTTTTAATTAGTCAGATGTGGTGGCCTGCACATCCGTAGTCCCAGCTACTTGGGA
GGCTAAGGCGAGAGGATGGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCTATGATCGTACTACTGCATTCCAGCCTGGGTCACAGAGCAAGACCTTGT
TTGAAAAAAAGAAAAAGTATAACCCCCAAAGGAATTTGGGCCAACATCACTATCATCCTGACTAGGGGTAGATATTCTAAAAGACTAGTTAGTGTCCCTA
AGCTTTCAGTCAGTCTCATTCCACAGCTGGGGAGACTAAATGATGAGGGAATTAAGCTGGGGCCCCACATGATCCCACTAGCAGTGACTTCCTGCTAGTA
CATTTGACAGGGACTCTCTCAGGTCTATAGTGGCATTGTTGGGCACCACTGAAAACAGAGCCCTAAGGTGGCCTAAGAATCCTCCAAGGTGAATGGGCCG
AAATCAAAGGCCCCAGTGACACCATCAGTCCACAGTTAAACAAAGCCCAACACCACCTGCAGTTGGGATTGCAAGTCTTGGCGGGCTAGGGGCCCTAACC
ATTCCTCCCGATGGAGCAAAATGGAAATGAGCCTAAGACAGGTGGTAAGTTCCCTGCTGCTGGAGGCATATAGCCTGGAGGGCCACTTGGTGTGGGGTTG
TAGAGGGGATTCAAACGTTAAGTAGTAGCCTGACTTGAACCTTGAGGATTTTGGATCCAGTTGTCCAAAGGAACAGGAAGGATGGCATGTAAATGATGGC
ACATCATTTACATCACAAAGGGAGGTGGTAGCCTTCCACTTTCTGTGACCTGTGGGAGTAATTACAGGAACTGAGAAAGAAAGTCATCAAGGTCGGGCAC
GGTGGCTCACACCTGTAATCCCTGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCGGGAGTTTGAGACCAGCCTGCCCAACATGATGAAACCC
CATCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGCCGCACACCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGTTTGAACCCGG
GAGGCGGAGATTGTAGTGAGCCGAGATCACACCACTGTACTCCAGCCTGGGCAACAAGAGGCAAACTCTGTCTCAAAAAAAAAAAAAAAAAGATATTAAG
ATCCAGAACATAGGGACCCAGAGCTAGGAGATGAATGTATTACGTGTCTTTGCTCAGCAGAGTGCTTAGCCTCCATGTTTATTCATCTTTAAAATGGAAT
TAATCACTCCTGATGAGCCCTGCTTCATGCAGATGTGAAGACGAGGACAGCAAAGCTTTCTTCTTCGGTAATGTAGATATCAAATCTCATTAAACCATGT
GGGCTAAGGCATCACCTCTGGGCCGAGCTGCTGGTTCTCATTCATTCCACAAAAATCTCCTGATGGTCACAGTATGCCTGGACTCAAGGAATTGGACAGA
CAGGGAGCATCATTTCCAGCTAATTAAACACTACTCCCAGACAGGTCCTGTGTTTGTAGTCTTTGAAATTATTTTGAGATCTAAAGCACATTTTCTTTTT
CCAATACAAAGCTCCAGTTATATTTATTTCAAAGCATGTTCCAAAAGGTTTGGGGTTTTTCTAAAAACCTGACTTTATAATGTAGATACCTAGGATATAG
GAAGAGRGAGGAGAGGTGGGGAGTGCTATCTACAGCCTCTGAATATTTTGTGCAAGTGTAAATTGTACCTTTGAGCAGTTCTCCCCTGGATGTGAGACTT
GATTGAGCTCACCCACTTGACATCAAATACAGGAGTTCAGGATGCAGAGTGTTGCTTCATCTCTGAAGGCCAGTGAGCCAAAGGGGAAAAAATAATAATT
TTCTTAAAACTATAGCTGGCTATGTTTGAGCTCCTTCAAAGAAAGGAAAAGGGTGGCTTTGCTGGAGCAACTGAGGTGGGCAGTAAGGGCCTGTGCTGAG
GGCTCCCCATCTCCAGCTCCACATGCAGTGAGAGAAGGTTGCAAAGCTTAGTTAGACGAGGGGAATAAAGGTGTCTTCGTCCGTTGTCTGTCTGTCTGTC
TGTCTGCTGAGTGAAGGCTACAGACCCTATCAAATCTACTCCTTTCTCTTTTCAGAATTCAACCAGACAGTCCAGAGTTCTGGAAATATGACAGACAAAA
GCAGTCAGGATCAGCTGCTGTTTCTCTTTCCAGAGTTCAGTCAACAGAGCCATGGGCCTGGGCAGTCCGATGATGCCTGCTCTGAGCCCACCAACAAGAA
GATGCGCCGCAACCGGTTCAAATGGGGGCCCRCGTCCCAGCAAATCTTGTACCAGGCCTACGATCGGCAAAAGAACCCCAGCAAGGAAGAGAGAGAGGCC
TTAGTGGAGGAATGCAACAGGTAACACCACCAGAAGCTCACCTGGGCAGGTGGGCAAGTACACAGACCCAGGAACCCTCCCCTCGGTCCTGGGATATTGA
GACACTAGTTATACAGATAAGTGTGGCTAAATCAGAGCTTCTCAAAGTATGTTCCACAGAACCCCAATATCAATTCATTAATCAGTAAGTCTGAGAATCA
GCATATGGATACTTCCCCTTAGAGAGTCACAACATATATTAAAGGTTCCGAGAAGCCCTGCAGTCAAGAAACCCACTTAGCTTTGTTGAATTGGTTGTTA
ACTATGGAATCTTCGGTAGAGTACAAACAACCCCATGAATTATTCTTCCAGGGAAGATACTCTGGAGAATGCTAATTTAAAATATGATACTTGGGAAGCG
AAATTGTGTGTTTGACCTCCCTGCAGGCCAGGGTAAAACTTTCCCTTAGCCACAGACTCTAGATCTGGCCTCTACCAATTGTCAGACATGCAGTGGTCCA
AAAGGAAACTTGGCAGGAGAGTAAGAATTGGTCAGATCTGTTCAGTCTACTCTGCCCCCGCTGACTCAACAGAGTTCTTTTTACTTGTTAACTACCAGCC
AGGCACGGTGGCTCACACTTATAATCCCAGCACTTTGGGAGGCCGAGGCGGGAGGATTGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTG
AAACCCTATCTCTATTTAAAAAAAAAAACAAAAAAACAAAAAAACAACTCTGTGTTATTTTAAGTATTTATTTTTAAAATGTGGTCTTGCTATGTTGCCC
AGCAGATCTTGAACTGGGCTTAAGCGATCCTCCTGCCTTGGCCTCCTAAATAGCTGGGATTACAGGCTCTAGCCACAGGGCCCAGCTATTTTTTTTTTAA
ACGATTGGAAAGCCTTGGGAAATCTTTTTACTTCATTCCTGCCCTGTTCTCCCTGACTCCAGTATTGACTTTCTAAAACTTCAGCTCTTTGGTCTGGCCA
AGGCCTGTGTGCGCTTTCTCTGTCTCTGGGCTGGGCTGGCCTTGGCTGTGGGAAGAATGCAGCCAGGGAGGTCAGGCTGGGAAGCAGGGAGGCCTGTATT
GCCACTGAGTCCTCAGGCTGTGCTCCATACCCCGACTAATGAGATGCCTTGCAGCACCCAGTAGTGTCTAAGAATCTCTCGCACCTGGTTTTGAGGTTTC
ACCAGCCCTGATAAAGCTAGAGACTGGCCATCTCAATGCACCCTGCTTTGTACCCCACCCAGCCTGCCTTTTGGAGGGGATAAAGCATCTTGCTTCCTGG
CACTCTTTCAGGGAGTTCAAGCCCCAAAAGACCAGAAATCCTCTCGAAGTGCTTTGAAGCCACTCAAGACAGAGCCAGCGAAGGGCTTTGCCTTTTATGT
GGTGGGAAGAATGGCTAAATAAGGAAGCCCCATCTGGACCTTCCCCTGGACTGCCTGTCCCCGGCTTGCTCTCTTCTCCTCGAGAGCCACACCAGAGCCT
AAGCCCCTGACTCCCAGGGCGGCATAGCCTGCTCTGTCCCTGCGTTCAGGCCCACTTCAGCCATCTTCATCAGATCACTCCATGGATTGGCCTTTTCTCT
GCATAGGCCTCTCCTCCCCAGCCTTCCATTCTGCCCACGGCCCCTTCATACTCCCAACCAAGACTGCTGTGATTGTGTGTTTTTGGCCAAGCACCAACAA
GTCCCCCCGCCCCCCCTCACTCACCATCTCCCCTCCATCCATTCCCAGGGCAGAATGTTTGCAGYGAGGGGTGTCCCCCTCCAAAGCCCACGGCCTGGGC
TCCAACTTGGTCACTGAGGTCCGTGTCTACAACTGGTTTGCAAACCGCAGGAAGGAGGAGGCATTCCGGCARAAGCTGGCCATGGACGCCTATAGCTCCA
ACCAGACTCACAGCCTGAACCCTCTGCTCTCCCACGGCTCCCCCCACCACCAGCCCAGCTCCTCTCCTCCAAACAAGCTGTCAGGTAAGCAAAGGTTGGG
CCTCACTGCCTCGGCAACCCAACCATCCTGGTTCTTGCCACGGATCTTATCTGGTTTAAGGGTTTTCAGAGGAGCAAACGCTTTTGAGATGATCCTAGGG
CCGCTCTCTCATTGCCAGAATATACTCCCCTGGAAATAATGTGTGGCTCTGATCAGTTTCCTCCAACTCCTGGTTCAGCCATTGCCCTGTGAGGGCTCAC
TCGGCTTCCAGGGAGCCCTTTACCCTATTTGTCTCCTTCCCTCTTCTTCTCCCTGTGTGGCTGCTGACTCAGCGGTCATTCTACACTGAGGAGGCTGCCT
TATGGGTGGGCCASATCCAAACCGCAGGCAAACGGGTCGTGATGGCGTGGCAACCCTCACTGTGTTGGAGGATGGCACTCCGGCCACCTCCTCCATCTCT
GGCCATATCCTGCCCCTCGCTCGGTCCGGCTGCCTCAGGAGAAGCTCAGTAGCCTTTGGGGACGGCCACTCTGTTGGTGGCCTCTGCTTGTTGGCTTCCG
TGTGTCATCAGGGTTGGTGGGGGTCAGTCACTTGAAATCTTTGCAGCAATGAGTTGGGAAAAACTGACCGAGTACCTGCTCCATCATGCTTGATTGAGTG
CTCCTGTGTGCTGGGCCCTGGCCTGGATTAGAATGCCTCTGCTGTGGGCTTTGGGTTTGTCAGGATGGAATCCTACAGCCTCCTYGGGGGAAAGCACACC
TCATGCTGAGCGCTGTGTTAGGCACAGGCTGGGATGGAGCACTTCTTCTGGTCCTTCATTCTTCTGGCAAAGCTGGCTTCCTAGAATGGATGTGCTCACT
GGGGTCTGTGTGGTGCCCATGAGGACAAAGTGTAGCAGCCTCCTGCCTGCTCCAAGAAAAGGGCTTGCGAAAGGAAAGCCAAACACTGTTTCTAACTCAG
GGGTGATTCTGAAACCTGTTGGCTCCCCTCACCTGTCGGTTGCCCTTCTGATGAGAAAGGCCTGAGGGCTGGGGGCTGACCCAAGTGTTGAGGGGACCAA
AGCCACCAAGACAGGCTCGGAGCCATCAGCTGGGTGGTGTACAAGCATTTGTTCCATGCCTGCTGTGCCCTCCCATAGCACTGCCTCTTCCAGGGCCTCT
GGGAGCCTGACAGTGCCCAGCATGAAGGTGGGGCCAGTGCTGGGGGTTTCTGTAGGTCCCACTCCCACAGAGGRGAGAGGCTCAGCCACACAGGAAGAAA
GTCTTGGTTACTTAAGAGGCAGAGAAGCCCCTAGGCAAAGACTGGCCTGATTGCAGAGTAACTTCGCCCCTTTAGGGAAATTCAAAGCAGGGTTCTGAGG
GTTGTGGCAAATGGCACATGGCTGGCACTGAGCAGTACCAGTGTGCTTGCCCACCACAGCGATCCACGGAGCTGAAGCTGGGAGCTACAGGGGGCGTGGT
TGGGGCAAGGGGCATTACTGGGAAGACAATGGCCATTGTGTTGGGACCTGTGATCTCCACACCAAAGTCAGGGAGCCTGGAAGCCAAACAAAGGCCCAGC
AGCCTTCTGACAAGCAAGGGCTGTGCTGAGGTCACCACGGGGTCGTTGGTTTAGGCATCCTGTGTGCTGACAGGAGACCCAGAGAGCTAGGGCTGGAGGG
ACAGGGAGCAGGGCAGAAAACACAGCCTGTGTACTCCTCTGACTGGAGTCTAGGAAGGGCGTGTCCCATGGGAAGTGGATACTCTGGGGTGCCCCTGAAG
TCTGGATCTTTCTAAAAATCTTGTAATGTTAGAATTTGGAGGGAATTTGAAGAAAGGAACTGAGGCCCAGAAAGAGGCAGTGATTTGCCAAAGTGACACA
GAGCAATGGTAGCAAAACAAGGACTAGAGCTCAGGCCTGCTGGTTCCCACTCCATACTTTCCCACAGCACTACGATGTGTTGAATGCTTACCAAGTCCTG
GGAATATGCTAGTGATGTACGAGCTGCGCGTCCTGCCCTCTGGGAGGTTACTGTCTGGTAGGAAGGATATCGGGTCACTGTCGAGTCCCCAGAACCAGCT
GCAGATGGAGGTTTTGTTTGGGGGCTTTGTGGATCTTTCTGCGGTGTAATAGATCCTATTACTGTTTCTGGAGCAACAGTTATGGGACACTGAATATTAT
CAGTGGCTGCCTTTCTTCTGTCTTTTTTTTTTTTTTTTTTTTTTGAGAGACAGGGTCTACCTCTGTCACCCGAGCTRGAGTGCAGTGGTGCAGTCTTGGC
TCACTRCAGCCTCGAACTCCTGGTCTCWWGCRGTCCTCCTGTCTTAGCCTCCCAWAGTKCTGGGATTACAGTTGTGAGATTGTGCCCRGCCCTTCTGCTT
TAATTTTCACTCTGGGCTCCTCAACATGGTCCTTGTCCCAAGCCCAGGGACTGGCTTCTCTTTCTCTGAGTGTAGTTATGTATCTGGGTTCTAACCAGTA
AGGTTATAACTGTGGCTAATTCACATAACTTCTCTGAGTCTGAATTTCCTGCCTACAAAATGGAGAAATAGGACCTTCCACACAGGGTGCATGTGAGGAT
GAAAGGAGTGAATGTATAAAGACACCTTTCCCGATAACCCATACTACCCTCATTATGRCTCTTAACATTAGAGAGGGCTAAACAAGGGCAGTGAGAAGAC
TGGCAGGCAGCAGAAATCATTTTCTTTTTGATCTCACACACCAGGGCATTCCCCSTAAGAGGCAGTGAGATGTAGCCTGGCCCTGGAACTAGAAACAGAG
GTGGCTGCTGTGCTAGTGCCTGAGATGCACGATGCTGGGGTCAAAGACTTGTGTCCCCACCTCAGGCTGCCAGGATGGCGTGTGTGCCGTGACAGGGCTC
CCGAGTCATGCACTCAGGCAGACAGCAGGCTGGAGCCCAGCATTCAGGGGTGGCTTCTGTCTGTAGAGCCGCATGGCACTCTTCCCACCTCAGTGCCCAC
AGCCAAGGTAGGGTCACTAACCAAGCCAGAAACGTAACTGTGTGCAGAATACCGAAAAAAAAAAAAAAAAAAAGGCCGGGTGCGGTGGCTCACGCCTGTA
ATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGARGTCAGGAGATCGAGGCCATCCTGGCTAACACAGTGAAACCCCGTCTGTACTAAAAATACA
AAAAATTAGCCGGGTGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGGGA
GCAGAGATCACGCCACTGCACTCTAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAACGCTCTGTGGGCTAGGKGTGGTGGCTCACACC
TGAAATCCCAGAACTTTGGAAGGCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAA
AACACAAAAATCAGCTGGGCGTGGTGGCAGGTGCCTGTAATCCCAGCGACTCCGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGGAAGTGG
AGGTTGCAGTGAGCCGAGATGGGCCACTCCACTCCACTCCAACCTGAGCAACAGAGCAAGACTCTGTCTTAAAAAAAAAACAACAAAAAAAACTCCATGT
TGCTGAGGAGAGCCCAAAATCCACCGTCAGCACTAGCAACCCCAAAGACTGAGCTGGGGGGAACAAGGCCCGAATCCCTCCACACCCACTCTCCASGCTC
TCCCCTCTCCAAACATCAGCACCTGAGCCAGGAGGGCTGGCAGCACCTTGGAGACGAAGCTTCCCCAGAACCCTCTTCCTAGAGAGGAAGAGCAGCCTTT
CTCTAACAGCACSTTCCCTCCCAGCCATGCTTACCATGCTGTGGCCCACTTGCCCACGATGACCACGGTGTGACCCTAGTCCTGGAATGTCCGGCACAAT
AGGGGTGGCAGGAGGAGCACTCTGCCTCTGTCAGCGGCTGATTGGTTACAAGATGCCCTACAAACACACTGTCAGCAGAGTCAGCTGTTTCCAGCGTTGC
CCCTCCTTGGCTTTACAATCACACACCAGCATGCAGCCAAGGGTTGTCATGGCTTTGTCTCCCTTATGCATGCTTAATTGACAATTAAGTTGGGGCTTTG
AACCAGCCTGGCTGCCGCTGCTGGGCCTTCATCTTTCCAGGGAGTGTCACAGGGGCACCCTTTGTTTGCTCTTCTTGGGGGCCTGAAGTTACTGTAGCAG
GCTGCAGGCAGCCATTTATCTTCAGCCTGGAAGGCCTTTATCCGCCCCCACCCCCTATTCCAGCTCTTGGCCAGCAGGAGCTGTCCCTGGTTATAGGCTC
CATGACAGCCCATTCTGAAGCCATTGAGCAGGTCTGGAGTGATGGCCTCTACCTCCCTTCTGGAGATGAATCAAGAGAAAGGCCCCTAAAAGGTCAGAGG
GCAGGGCGGCAGCAAGGAGAAGGACTGGTTGGAGCCTGGTGCTTGTATTGATTGGCTCGAGGAGGAGGAGGAGGAAGTTGGCGCGGGATGGAAACTTGGC
TAGCCTTGGCCCAAGCTGTGGTATCTGCTGTGTGATCTGTGGCGACCTTGCTCCCTGTACCCTTTGCTCTAGTCGGCAGCAAGCTCACCTGGCCACTACC
TTGAGGAGGAGAGGAGGGGTAAAAGGTCTTCATCAGCCTCCGCTCTCCCACGCATGATGTCCTCACTCTTGTGTCACCTTTGAGAGGGAAGGGGGGACTT
ATTCTCCTGGAAAGAAAGTGAGGCACAAAGAAAAAGAGAAGAGGCCCTGCCAGGAGGACTTTCAGGGGTCCCGAACCATAGCCCCTTCACCAAAGAGGAG
ACATTTATTTCTGTGGCTGCTGCTCCTCCCTTTCGCTGAACTCTATTCCTCCCTCTCCAAGCCCAGTGGACTTGACTTCCYTGATGTGGCTTAGAGCTTG
AAAAACAGAGAATCCTGCCTCCTGCCTCTCGCTCATCCCCCTTCACAGCCCCTCCCAGGTTACCTGAGGGAATCTAACCCTGGGTCTCAGACCAGCCAAA
CTCTGGGCCAGGGTACCTATGTGAATGCTGTTGTTTTCCCTGGCACTGAATTCTGCAGGACACGAGGAAATCTCCAAAGTGTCCAGTGGCAAGGTAGTGA
CTCAACGAGAGGAATTCTAATGGCCAGTGTTGATGGAGCACTTCCTTGGTCCCAGGCCCTGGGCCGAGTTCCTCCATGCATCATCTTATGTGACCCACAC
AACAGCCCTGCAGAGTAGGAGCCATCTCTAGTGTCATCTTCATTTTACAATCAAGAGAAGTGAACTATTTAGAATGGAAGGCATGTGCCCAAGTTCATAT
TCTTAGTAAGTGGTGGGGAGAGGTTTTGAGCTGTTGCACACTGTCCATCTCTTTTTGCTTTATGCAGATGCTAAGAACTTTTCAGGCACTAAACCCAACA
CAGAGAGAGAGAGAGAGAAAGACACACACACACACACACAGCCCCCAGCAGTTCCTTTTCCCACATTCCTACTGTTCCCCTCTAAATGACACTGAGGCTT
TGGGAGATCATGGCCAAAGAGGTGGGGTAAGGGTGAGAGTCTCCCATTCTGGGTAGTTTACTACTTCCTCCCCAACCACTGCCCCTGACCAAGGTGGATT
CTGTGCCCTGCCCAGGCAAGAAATCAAAGCCCCCTCTTTCATGACCCCATCCCCATTTGTGTGGGGATTTGAACTGCCCTTGCAGTCGGCACTGTCTGGA
CTACTAAATGCCTTAACAACTTAATGGGGCTTCTGAGACAGTGCAAGCACCTCAGCTCACCTCTGGGAGCTCCGCCCCCTCCCTGGGCAGCAGACAGCGG
GAGGGGTTTATGAGGGTAGTTGTAAAAATATTCATCTCAGCAGCAAAGTTCCTCACGGTAAATAAGGCCCATTGTCCTTAAGTAGCAGATTATTTCAGTT
CAGAAGAGAGACAAATCCTGCCTTGAAATGTCTGCTATTCTAGGAAACACATTCATACTGACTTGAGGTTTAGTGGCGGACATGGGTGGCTCCAGCATTC
TCCTTCTTAGGGACTTTATCTGAGTGCCATTTTATCTCTTGAATTTGAAGGTCATTTTATCTTGTGGGTACCACCCCATCAGCTGCCACTGGGTTGGGGA
AGACAATCAGGATATTAATGAGATTAAGAGGCCTAGCCTTCAGGGTGTTCTGCTGTCAGCCTCCCTCTGATAGGGGACCAGCCCTGGTCTGCATACAAAG
AAACCAGGCTGCTGTGCTCGTGGGGCTCCAAGCCTCTGCACAAAGGGGCCAGGAGATACTGGAGTCCTATCACCAAAGGGTCATGCCTAATCCGCCTGAA
GGATCCTTAGACGATTCAAGGACTCCTTGCCGCCTCCAGTGAGCTCTGAGGAGGAAGGAAGCTGCCTGCAAGCACACAGCCCTGGCCTGCAGCTTATGGG
AGAAGTGCTCTTGGAAACTGTTGAAGGTTTGATGAGAAGCGACAGGAACTTGGAGAGAATTAGGTATTACAGGTGCAGAGAGAGGCAGAGATCTGTGCAA
GGGCCTTTGAAGCTACCTGCTTAATGGAATGGAACAAGATCTGGCTTTATGCCTCTACCTATTTTTTAGGGGGAAGTATAAACACAAATGAAGAGGAGAG
AGAGAAATATACATACATATATATGTATTATATATATATACACACACACACACACACACACACACACACGCATACATATAGAAGTTATATATATAAAAGG
AATGCAGCCCACAAATAAAGTCAGATCAATTAGTCAGTCATGGTTATTATCCTAGCTATTCATAAATTCTCTAGAACAGGGATTGACAAACTTTTTCTGT
AAAGAGCCAGATAGTAACTATTAAGTACTTTAAACTATTCAGTTGTAATTACTCAACTGTGCCTTTGTAGCACCAAAGCAGCCATAGACCATAGACATGG
AAGTGAATGAACATCACTGTCTTCCAGTCAAACTTTATTTTATGGGGACTGAAATTTAAATTTCATATAATTTTCACATATCATCCTATAGTCTTTAATT
GATTTTTTCTCAACTGTTTAAAAATGTAAAACCCATTCTTAGCTTGTGGGTCATACAAAAACAGGCTGCTTTGGCCAACAGACCAGTTTGCTGACCCCGC
TGTAGGACAATAGTTCTCAAATGTGGCCACACTTTAGAATCACCCGAGGGAGTATTTAAAAATCCCAGTATCCAAGCTGCACCCTGGACCTGTCAGAACA
GCTGGGGAGTGGGACTACATATCAGTAGTTAAAACTTTCTAAGTGATACCAATGTGTAGCTAAATTTGAGAACCAGTTCTAAGGTTCTCAAATTTAGCTT
CTCAAATGTTAAAGTGCATGCCARTTCCCTGGGGTGGGGGRTGTTAGGATACAGATTCTCATTCTRTAGGCCTGGGGTGAGGCCTGGGTTTCTGCATTTT
CAACAAGTTCCCAGGTGCTGTTGAAGAGGATGGTCTGGGACACACTTTTGAGTACTGGAGTTGGATTAGCAACTAACTCCCCTTTGCCTCCCAACCTGTG
TAATTTGCCTCACCATCACCAGCCTTGACATCTAATATGGGGAAATGCTCTTTTAAATCCAGCCRGCACAGTGACAAAATTACAGGCTATGGAGGCAGAC
CCAAATTCCAACCTTCACTTTGGCACTTACTGCTGTGTGACCTTGGGCAAGTCTCTGGAATCTCTGTGCTTGCCTCTTGAGGTGTGGAGACATCCACTCA
TGCAGATGCTGGAAGAATTAAATAAGATAATATATATGTAAAACACTCCAGACATACCAGATTCTCATAAATAGTAGCTGTTACCATTCCTTGCAGAGAC
TTGGGGGTTGTTTCTTTGTTTTTTTGTTTTTTTAGTTTTTTCCCTCTTTCCTTGTCCTTCTTGGAGGTTTCATTCAACCTTGATTTTTAAAGAATTTGAG
TATCTCCAACTAGATATTCATCTTGGTGTTTGCAGCAAACTTAGGCTGGCTTGTTGCAGCACATTGGGTATGAGGCAATCTCCTGCTCTTCCTAGGACTT
CTCTGTGACATCCACAAGGCATATTGAGTGCCGTAAGGCATTTAGTACAAATTCAGGAAACAGTGAGGGGAAGCTGGGAAGACCATGGATTGGTGGGGGC
AGAGGGGAGGGTCATGACCATGTAGCAGGAGGTCAGGTTCATGATGTTCATGAAGTCGAGATGACCATGAATTTCCTGTAACTAACAGGGCATTTTTCTT
TTTTCTTTTTCTTTTAATTTTTTTTTTTGAGACAGAGTCTCGCTATCTCCCAGGCTGGAGTGCRGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCC
CGGGTTCACGCCATTCTCCGGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTCCACCACCACGCCCGGCTAATTTTTTGTATTTTTTTTTTTTTAGT
AGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCCATCTCCTGACCTCGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGCCGTGAG
CCACCGCGCCCGGCCATTTTTCTTTTTTAATTAAAGGAGGTGTGAGTACTCCTCTCATGTGTATTGCTTGTTAGTAATTAGCCCTGGGAACCTGCCAGGT
ASAGGGGTGTGGGATGTTCCTGGTGGAGGCTGCATCTGGGAAGCTTAATGGCCCCCAAACKTCAGGCGAAGGAGCATTTAAGAAGGAGAAGGTGCACACA
GCCCCACGGTGAGCAAAGGGAAACCTCAGAGCTCCTAAGGGCTGATTTTCTGGAAACCACTTCCCTCAACCTGTGAGCATGCGTCTGCTTCAGGTACCTT
CCTGTTACCCTATGCTCCAACTTCAGCAGCCTCCGCAATAGCACACTTGCGTGAGTTCAGCCACTGAGGAATCAACTGGCAAGGGGGGACTCGATGCTTC
CAATGCTTTTGGGAAGTCAAGAGTCAGTTTTCTCAGGACTTGTACTCTGCATGTTCTTCCTAAGTTGGAGAAACACCTTGCAGATGGTCTTTAGCATGTA
GACTTTCCCAAGGGAAGCCTACCTGAGCCAAGGTGAGCTGGTTATGGCCAGTCCCTTCTCAGGACCGGATTCAGATGCGTGTGTCTGGGTAGCCMAGTAT
AGCACCCAAATCAGGCTTGGCTTGGGTTGTGGTTCTGTCACTATCCRGCAGTGTGACCTTAAGTTATTAGCTTCTCTGTCCCAATACCTATCCCCTTAGG
GGTGCAATGAGGCTTAAATATGATCAGACACACCCAGTGCCAAGCACAGTGCCTGGCAAGGAAGGTTAGCTGCCATTACAGTATTATTGAATTGACTCAG
AAACTTCAGGGTGTTGAGAGAACGGAAGAGCTTGGGTTCTCCCTGGGTTCTTGACAAGGGTCTTACCTTGTAGTTTCAATCGGGAAGGATTTCCCTTTCC
ATGAACCCTGCTTGTCATTTGAAACATCAGAAACAATGAACTAAGTATTGGCAAGATCTGTGGTTCTCAAATCTCTCTCCAGACCACATAAAAATCATCC
AGGGAGCTCATTAAAAATAGACATGGCTCCCTCCACCCACGCACACCTTTGGAGTCAGAATTGAGAGATGAGGGGTTCACAGGCATAAGAACTTTCGACA
AAAGCCCTAAGAGATTCACGTAGAGTCCCAGCTACTTGTGAGGCTAAGGTAGCAGGGTCACTTGAACCCAGGAGTTTGAGGCTGAAGTGAGCTATGGCAG
TTGGGTTGTAGACAACAAGGAACACAGGCTGCTTATTTTTGTCTCCTTCTATAAAACACCTTGAGATAAATTAAGCACTTTGTGCCCATTGGCGCCACTG
CAGTACAGCCCGGGTGACAGAGTGAGACCCTGTCTCTAAAAAAAAAAAAAAAAAGAGAGAGAGATTTGGATGCATAGTCAGGGTTGACATTACTAGGCCA
GATGGAGCAGGAGAGTTCTGAAGGGGTTGAAGGTAATCCTCATGGCCCCTTGCTGAAATGGGAAAAGAGAAGCAGCCGGGGTGAGGGGCCTTGGACTAGG
ATTCAGGAGATCAGAGCCACCAATGAGCAAGGGTGACCTTGGGTGAATCATTTAACTTCCTGGGAATTCTGGCAAATGAGGGTGTGGGATGAGGGCCTTT
CCACTCTGACAGGCTATTATTTGAAGACTGTGTGTGGCATCCAGTCTTGGGGCCCAGGACTCCGCAGCTTGGAGTGCAGAGGGAGGCTTGCCATTGTGGT
ATTTTATTGTGAAACTCATCATTGTCTCTCTCTCCTTCTCTCCCTCACTCCCTCGCTCCTTCCCCGTTTCAGGAACTGTGTGCTGTTAGAAGCCTTCCAC
CTTTATTAGGGATCATTAGAGCTTTACGACACCAGCAGATTGGGTGGGGCCAGTCACAATAAACAGATTTATAATGGGTATAAACGAGACACCTATAACT
GCTAGAGGTTAACACTTTGAGGGCTTCTGAATAGCAGCTGGCATGCCCATGCCTTCTGGCCCTGTCCACTGCAGGGTGCCTCTTCCTGCTTGGCACCCAT
TGGACTGGGTTGGCAGTGAAGTCTATGTGAGTTCTTGTTCAGCAAGAGTGGAAAACCCTTAAACAACATCTCCTATTTGTGTAACATCAGTTTGCACGAT
GGGCACAAAAGTGCTTAATTTATCTCAAGGTGTTTTATGGATGGAGACAGAAATGAGCGGCCGTTCTTCTTCATTGTCTACAACCCTACAGCCAGGGGAA
CTAGAGGGTTTGCATCCCTACCTGTAAACTTCAATCTCACCGTGAAGAAGAAGGTCCCYGAAGTCTCTGAACACCTTGCTCTGTATGTATGTATTCTGAG
TGGCAGAATTGTGGGCTGTACCAACATCTGAGCCTGAGGTAGCTTTCTTCATCATTGTGTCTCCAGCCCATAGCCCTGTGCCTGGCACATGGTAGACACT
CCATATATTTGTGAAATAAAGATATCTATTATAGAAGGCTTCCTGTCAAAGCATATGCAGAAACCCCCTGTTTTATAAATTTGGTATTCAGTTTAAGAAT
TAAACTGAGCCTAGGATTAGTTTTGTTTTATATAGCATATATGTGCTATATAATTATATATATATGTATATATAAAGGCATATTTTCTCTTCTCTAGAAA
CAGTGTCACCCAGCTTCAACCCTATTAACACTGCTTAAGTGTACAGTTCACAAATTAATGTCGACATTTAATGTTACCAGAAAGTTTTCAAAGAACGTAT
CATGAGTTTCTCCCTAATGTTCTACTAGTAAACTAGTCTACTCATTTAATTTAGTTCTACTAGTTACTTTAATGTTCTACTACTTTCATTCATTTTAAAA
TCTCTTACCAGGATCCCTAGGGCAAGAAAAGAGCAAGAACGTCTCCTCTTTTGTTTCCTTTGAGCAAAATGAGGTCTAGAAAAGGGACTGGACTACTGCA
AATCAATTATCTGGACAGACAGAAACAAAACTGCCCTGCTCTGGGCAGCCATTAGGTCTCTGGTGGTGCTCCCTGAGCACTTGGCTGGTGCTCCTATCTC
AGTGCCCAACACCTGGTGTTGCTTGGGACGAGCCTCCTTGGGCCTGCCGGTGATCGGCAGCTATCTGTCATGATGATGGTGATGATGATGGTGATAATGA
TACTGATGGAGATGCCCTCTGTGACAGTGATGAAGAGGCTGGGATCTGGCCAGGCAAATCCCTATCACAAGGCAGCTCTGACACTTGCCAGACCTCAAAG
GATCTTCTCCCTGGGTATCATCTCCCAGTACGGTCTTTGTTATGAATAGGCTGTGGTGGAAAACCTCTCTTTTCTAAGGCAATTTTATTAGCCCTTCAGT
CACAATACAGATGTCTGTTTATAGGACCTTACTTTTGTGTGGACACCCAGTGGCTCAGTCTGCTGATGGCTTTATAGCCTTTCTCCCTTTGCCCAGACCC
ACTGGGAGCATCACCATTCTCCTTGTCCACTAGGCCTAGAGGCCTTTGTTGCAGCCATATTATCTCTGCCTGCAAAGGCAGCTGCTCAGAAAATACCAGA
CCCCGGGAGCCAGACTGCAGAAGGGCACTCTGTGTCCCCACAGCCTTTAGGCCTAACGATGTCCACCATTAACCCTTCTTAGTTTTACTCTAGTTTCTTT
GGAGAAAGGGGCATTKAAAAGTTATTCATGTTGCCACAGTAAATTCCCATTAATTGACTCTTCTCCTTATCCCCAAATCAACCCAGTAGCCCCCAAACTC
GGTTCTTCAAATGTGAAACTGCCCAAGTCTATCAATACTGTTTCTTCAATTTTGATTGTATTTTAATCTCTCTCTCCTCTTCTCTTACTCCTCTTTCTTC
CTCCTTAAAAAGAATGCTTGCCTCTCCTTGCCCATGGAAAAACAGGGAGGGGAGGCCAAAGCAGAAGGACTACTTGAGCCCAGGAGTTTGAGACTACCCT
GGGCAACATAGACCCCCCCATCTCTTCAAAATAATAATAACAATAATAATAATAATATTAATAAATTAGCCAGGCATGGTGGCATGTGCCTGTAGTCTCA
ACTATTTTTGGGGGCTGAGGTGGGAGGATTCCTTGAGCCCAGGAGTTCAAGGCTGCAGTGAGCTGTGATTGCACCACCACAGTCCAGCCTGGGTGACAGA
GCTAGAGCTTGCCTCAAAAAAGAAAAGAAAAACTGGGAGATTTAGAGGATAAATGGACATACTCCAGTCACTTCACCACCACTCAACTCAACAGTCTAAA
GGTGAAAGTGATGTGGAGTCATCAGTCAGAGTTTAAGCATAGGTTATTCATTCATCATTTACTCCTTCAATAAATGTTTACTGAATGCTTAGCATGACTC
TGCCAAGAAGAAAATGGAGAATACAGACAAGGTCCTGCCCTCATGGGGCTTACATTACAGTGAGGGATGCAGCCAAGGAACAAGTAAACAAACCTGCAAG
ATCATTTCAAGCTATTAGTGGGTCGTGATGGGGAGGCTCTACATATCTGGAGCCCATTTGGGGCTTAGGAGGAAGAGGGAGAAGGGTCAGCTTTGGAATA
CCACGGACTTGCTGGGAGACCCCCTAGCAAGGAGCGGTGCAAACAACCTTGTCCTCTCYGAACCTCRGTTTTCCACTCTGTCAAATGGGTGCTTGTGACA
CATTGAGAAGCAGATGGGTGTAACATACTCTCAGATGTGAGGACTGCCCAAGTTATCAAGTGCCAGGCTGGTTCCTTTTACCTACAGCAGCAATCTTCAG
GCTGAAGTATTCATTGCAAACTGCCTGATGTTTGCCTGCAGAAACTGCCACTCTAGTAAGGATGAGGCGTGGTGGCCCAGGTAGACCTTGTGGGGGAGGA
CACACAGAGTTTCTGTTGGTCTTCTACCTCCCCACATGTGCAATTTTTTCAAGTGCACCATGCATGTTAGCTTCTGTTCTCAGCCAAGGTGCTTTTGATG
AAAGATTTTTTTTTCTTTTCTTGGTTACATTTGCTTTGATTTTTTTTTTAAATAAGAAAACCAGTTTGTGGGCTTCCCTTAAGTATCACTCAACTTTTAC
TCCTTGAGTCAAGAATGTTTACTGTCCCTGCAGGCCTGTCTGTATTTCTCCTCTTATGAATTGAGCTCCTAACTAAGCCATGTTAGGTAGAAAGGGATCC
GGAATTGAAACCAGCCCAGCATTTAAATTGCTTTCATCTTGCATCAGCTTTTTCTTCCACATTTGCAGATTTTTAATCTTCTAAACTCTTTGCAAACATG
AATCTKTATCCTCTCAGAGGAGGAAATATTAATAAGAACTAGCAAAAGTCCAGTGCTACAAACAAGGAAACTGAGGCAGCAATGCTAACTCATTCRAAAG
CTTTCATTTCTGGAGTTCTCAATTTCAAGCCAGGGAATTGTTCACATTCTTTTCTTCCAAATGGGCCTCTCAGAAGTTCACCAGACAGAATCATTTGTCT
CTCTGCCTCTGTCCTTAAGAAAAGTAAAGTGTTTAGGGAGAAGGTAGAGTTATCAGGACACAGTACTGGGTCCATCAAGCCTGGCCCAGTCTCTCCCTGT
CAYCTCCCCAACATAATGATTTGGCTTCATAGAAAAGATGGCTGTGTCTACTCATAATTTATGAACAATGAACATAGTTATTACCTTTTGGAAGAGCTTT
CTCCTTCGCATGCTCTCTCCTGCCTGAGTTTAAATTCCCAGTTTCTAGACCCAACAGGGCTGGGCTGCACTCTGCATGAGGTTAGAAACACAGGGGAAGA
ATGTGTGTGACAGAGCCCCAGCCAGTTGAGTAATGTTTACTCTGTTGGTGGCTGGGACGCTCACTTACGCTGGCAGAGGTCCACCAGCCRGAGGAACATT
CCTGCATTATCAGGGATGGGAGGTTGGCTCTGAAATGTCAAGGGTGAAAGGCATCCCACCAGATTCTGGGTGCAGCTCATAGACTTCAGTGAAAGGAACC
CCCAGGTTTCAGTGCCAAAAGCCACATCGTGGGCAAGCTGAGCCCCACATTGCCCAGGAATCCCCACTTYCCTCATTTCTTCTTACTAAAAGAACAATTC
TGGTCCTGTTTTCTTTGTTGACATTGCTCTTCTGTTTACCCAGCAGAACCAGTGCATCTCTGACATTATTTTATTCATTCATTATTCTGGCTTGTGAAGA
AGGAATATCTGTGTGCCCCTTTCACAGACAAAAATGCCAAGGCTCAAAAGTTAACTGACCCAGAATCATCAGAGAGTTATGGCAGAGAGAGAGAGAGAGA
GAGAGAGAGAGAGAGAGATTGTTAAAGTGTCTAGAGGCTGGTGCCCAGTTGATCTCTGGAATCATGGAATTCCATGATTTTTTGAAGCTCTTAGAGCTGA
ATTAAATCGCCAGGGGCTCTATGAGCTGTAGCTCTAAGGCCCTGAAGCACAGGTTTCTGCAAAGTCTCTGGTGAATGGCACCCTGAGCAGCTCCTCTCTG
GGGTCCTCCTGCAAGGCAGTCATGTTTGTCTTTGAACACACAGGCGCAGTAGGGTCTATATAACCTGACATATGCAGCCTAAAAATCACCAGAGTTTGCT
AAGCCATGTGATAAGAACCACAGGGCTTACGGGAAAAACAGGATTAAAAACACAACACTTGAGGCCGGGCGCAGTGGCTCATGCCTTCAATCCCAGCACT
TTGGGAGGCTGAGGCGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACACGGTGAAACTCTGTCTCTACCAAAAATACAAAAATTTAG
CTGAGCKTGGTGGTGGGCGCCTGTAGTTCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAGCCCGGGAGGCGAAGGTTGCCGTGAGCCGAGATT
ACGCCACTGTACTCCAGACTAGGTGACAGAATGAGACTCTGTCTCTGAAATAAACTTTTTTAAAAAGCACAACACTTGAAAACTTCCTCAGCGACACATT
TTGTTTGTTTTGAGATGGAGTCTTGTTCTGGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAAT
TCTCCTGCCTTAGCTTCCTGAGTAGTGGGGATTACACCACTATGCCTAGCTAATGCGTGTACCACCATACCCAGCTAATTTTTGTATGTTTAGTAGAGAC
AGGGTTTCACCATGTTGGCCAGGCTAGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTCRGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCAC
SGTGCCCGGCCAACACATTTTTAAAAGATAAGAATCCAATAAAAAGATTACCASAGTTTTATACCCGTTAAATAGTTAAGAAATATATCAATGCTATACA
ATAGTAAATATGGCAAGTTTGCCTAGGGAAGTGGGCATCAGAAGTGCTGYGGGTTGTGAGTTACTGTGAAGCAGTGGAGAAAGGGTTATCTGACATGGGA
AGGAAAAGATGTGACTCCATATTGCATGGATGTGTCTTACCAGTGCACACAGTGGACCGAGGCGGCTGGTGGATGTTTGAGGTGCGCATATGTACACACA
GGAGCATTGTTAGTATTCTCCTATGTGGTTCCATTCAGCTGGATGCAGGCTTCTGAATTCACTAAGTGTTTTCCAAATGTGAAATTGACATTACACTCAA
ATTATCCCCAATATGTCTATATAATTGGAACAGATTTACACTTTCACTACAATAAATACACAACTGACTGTATTTTCTACTTCTGCTAGACGTGATGCTC
CTTGTCTGGGGCATGGGTGCTCAAAGCTGCTGGGGTTTYATTCCTTCAGTCAATAAATATGCACAGTACCAGGCAGTCTGCTAGGCTATAAGGATGCAAC
AAGTAAAGACTCATCTCTTTCTTTAAGAGGCAGAGAAAAGTAAACATATCATCAGCGTGCATGCAGGGTGACYGACTCCTGCCGTAAGTCTCTGTCTAGT
GCATGTAAAATACAAAGGAAGGAGCAGCCATCTCCCAGGATGAATCAAGAAGAGCTTCACAGGGGGGCGACATGTGACACGAGATGCTTTCCAGGCAGAG
GAAACAGCAAAGGTGCAGAGGCAGGAGATGGTCAGGCCATTTGAGAAGTGCATTAAGATTGTGGTGAGAGATAATGCAAATAAAACAGAYGAATCACAAA
GGCCCAGTTCTGCCAGTCTCAGGTGTTGGGGCTTTTCTGGAAAGCAGTGAGGAGCCATCAGATRTTTCCAAGCAGAGCAGAGGCATGGTGTGACTTTGTT
TTAGAAAGATATCCCAGGCTGCAGCAGTGTGAAAGGACCCTAGAGACGGTGCTGGCACAGGAAGGCAGAGCAAGGATGCTGGCTTYTTGGAACCATGCAC
CTGTGCCATGCCTTTGGCACTTCTGACCAGTCATATTGGATAGAAACCGAATGATCTGCGTCTGTATCCAGRAATAGCCCAACACCCATGATGCTGATGC
CTAGGAATAGAGGAAAGTAGATGATCTACTCACCAGGGCCTCAGGGATGTCTCAACTCCACCTTGGATGGCTTTTGCTGCTGGACACAATTGCTGTGGTT
CATAGAGCCAACAATGGGGATGGGGCCAGTGAGTGGCTTGAGCTAGGAAGTAAGTRGAAGGTGAATGGCTACCATCTGCCACTGTCATTTCTCCTATGGG
TCCTCTGTGGCTATTAACCTGGCATCTTTGGTTAATCAATATTAAACCAGAGCCCTTGTCATATGTTCACTTTAAGAACTTGCATTGGTGAAGGAAGAAG
GGAAGATGCTATTCCATTTCTTAATGCTTCCTAACACAGTGCCTGGCACATGGTAGGTGCTCAATAAAGTGGCACGACCTCAGCCTTCCTAAAAATGTCT
TTTAAACAAGGACAGTGCCAAAGTAGGAGGAATTGACGTGTTTTCAGCAACTGTTATGTGCCCAGCATGATCTGGGTATTTGGACATCCATTAACTCATT
CCGTTCTCTTCCCAATGACCTGACAGATGGATATTGTTAACAGTAAGGAACTGAAGCTCAGGGAGGTTAAGTAACTTCCCAAGATCACACAGGTCTTACA
GGGTAGAGCCAAGATTTAAACCCAGGTCACCTGGCTCCAGAGCCTACACACTTTGCACTTATTTTTGTTCTCACTTCAAGTGCTCTTCTGAGTTTTTGAA
ATATAGGAGGACTGGCCTCTCCTTCCTCTAACAAGAGCACCTATTTTTGGTGTACACCTTGTGATGCGCCCCCACCCCGCCCCCTCATAAGATGGCTGGC
TGATTACAGCCACCCTCTCAGGGGCCAGTGATTGCCACATGCTTGGTGAGAGGAGCATCGTGGGAACACCTGCAGGTGGATCTGGGGCTGATGAGCAGCC
TTGTGCCTGGCTCCCATCACACTGCTGTGACAATGGCCCCCTCCCCACAGTGGGCCGTCCTCTGGCTTATAGATGAGGAAGCTGGTGCTCACCCAAGAAA
TTGATAGCAGAGCTGAGATTAAAACAGGGATCCCCCAGTTTCCAGCCGRGCCTCTATCACTTAACCAGGGGCTTTTAAAGGAACGTTCAAAGGTCTAGGC
TCATCTGTCTTTTGACAGAGCAGCTCCACCGTTATATTTCTTATATAATAAAGTTTTGTTGGGGAGAAAACAAAGTRTAAAAACCACAGCAGCCTTGGAA
TATGCTGCCTGGATTCTAACAAATGGCTCTTGAGTCTCTCCTGACATGCTCCCTTGTAAAGAAGCCTTTTGTTTCCTGCGGAAATCCTTGGTTAATTATT
TTTAAATAAATAATTGCGTAGCCTTTGGTAGGGGAGAAGCCTCCTTGTGACCCATATTTGATCATCAGAGGGCTGGCCCTTTTCCATCAGCCAAATTAAA
TAGGCTAAATCCAGAGACTGTTTGACTTGAGACTGAATCGATGATGGGGACAGGCTGGGAGGTGAAAACACAMCTGACTCCCAGCGTTATCAMCACTCTC
TCAGGAGCAGAGCCTCTCGGGGAGGTAAATAGCTGGTTAGGGAGTCAGAGAAAGCAGGAGAAAAACAGGGTGAAGTCCAGTTCCTCCAAAAGAACAGAGC
AAGAGGGCAGCGGCTAGACCTCTCTCCCAGGTTGCTTCCAGGGCAAAGCATCAGTGGTTCTGCCAGGGTAGGATTCTTTGGAAACTGTTCTCTACGGAAA
GATAATTCCATTCAGTGTTTAGAATCTGTCCTAAGCCATCTAGAATTCTAGGATCTTAGGGCAAATATCTTGGGGTCCATTCCTGTACCAGCTTCCTCCC
CACAGCATCCCCACCCATAGTTGCCATTTATATGGCATTTTGCAAGAAACTGTATAGATGTTACCTCTAATCCAAAAAGAGTCCTGTTGAGGAGGCATTC
TCTCCATTTTTCTAGAGGAAACAAAGGCACAGAGAGGGAAAGTAATTTTCCCATGATCACAGATCTATTAAGAGCAGCATCAGAATTTGAACCTGAGTTG
GTTTCGCTGCAGAGTCCATAGTCTTCCCACTGCCCCTCCTTGATAGAAAATTCTTCCTGTTATTTATTTGAAATCTGCCTCCCTGTTTTCCATTGAACCT
AGCTCTGCCTTCAGAGCTCATAAGGTTCAAATCTCTTTCTTCTTTCATGTAACAACACTTTGAACTGTTGGAAGCATCCTACTGGGAACTGGGTGGCAGA
CGTGAAGAAAGAAGGCCTCATTTAATCCAATGGGATGGCATCGATGGCAAACAGGAGACGTGGGGGCTGCAGATAGGTGCACAGGAGGACAGGGGCCTGG
GCACCGGCTGTTGACTTGGGGAGCTGAACGCTGTTCCTCCTTTTAACTTCATGATTTCTGTCCTTCCCAAAAAATGTAGTGCCTTAAACCAATACACCAA
TGCCAGCGCCATCCCACTGTCACCACCACCCCCACTAGCAGCTCCTTGATTCAAAGAATGGGGAAAATGGCCAATAGAAAAGCTCATAGAGCAAGCGTCA
AGCCACTACATACTCAGACAAGTTGCTCTTGAAGGTTAGAACCCAGCTTTAGCATTTGTTTTGTTCTTTTCCCCAGCCCTCTTAAGCTCTAGGTCATATC
GGCCTTGGGTAAAGTCCTTAGGAAGATCCAAGGAAAACTGGCTTGGGGCTCATCTAGTCTCATCTTGGTAAGCTTCATCTTGGTGAATTAGAGGCAGATT
ATGACACTGATTATGGCAGTGCCTGGCCCCTGGGGGAACTTTGTGGTCTCCTCTGGAAGGTGGGGCTCTAGCTAGGGCAGGGGGTGGGTGGATGAAAGAG
CAACAACAGAATCAGTGTACAGGGATGGTTCATCTTGGGAAACTGGGCAAAGGAAGACGTGCAGCTAAAGAGTTGGTCCACCTATCCAGATAATTCCATG
CCTAGAGCATTTGGTCTCTGCAGGACAGGGTCCTCCAAACCTTTTTGTCAAATCCAAAGCAAAAAACAAGAACACTGTCTTTCTAAGCACTGAGCTTAGG
GGTGAGATGCCCCATGTACCCCCAACCTTGTCCTTGACTGTTTCATGGGCACATCAAGCAGGATTTCCATCTGCAAACTGGACCCAGGCGTTCTTTTAGC
TTCCTTCAGTTGCCTGATCTCTGTCCAGAACTTTTCTTTCCTGAGAGCAGACCTCCATTTTGGTTCCCGAGCAAGAGGGAGGGTCAGAGCAGCGAGGTTG
TAAACATGTTTGGTTCTACCCTTCCCCTGCAGAGCAAACTCCAGTGGTTTACTAAACATCCACATCTGCCTGTGTGTGGTGCTGCCTGCCCCACCTCCCA
GCAGACACACCTTTCCCTGTGCCCTGGAAGGCAGCCAAATGGGACCCCCAGCAAAGGAATGTGAGTTCTACAGCCTAGCTCCTAGACGCAGCTTCATCCC
TGTCCTGCTCTGCCTGTGTCCGTGCCCCTGACCTCTTGGGCCTGGCCACAAAGGTGGTACACAGAGACTGATGCCTAAGCTACGGCTCTTTCAAGGGTCA
CTGGACAAGGGCTTCTTCTTCGTCACATGGGTCTACTTATACTTTGCAGCACCACGAGGGATGCCAGGGAAACATTTCTAAAAGGCATTTTAAAGAATAA
AAAATACTCCAGCCAGTAACAGAAGGCTAGTCTCMACCCCCAAATCCTCAAAGAACTGTGCGGAAGCAATAACAAACAGAATCCATCCAGTCATTCATTT
ATTCATCAGAAGTTTACCRAGTGGCTATTCAGTGCCAAGGCACTGGGGATACATCAGTGAACAAAACAAACGAGATAAAAATTTCCTGCCCTCGTGGCGC
TTACATTCTAGAATTAAATAGAGAACATGCCATATTTACCCTGGAGAAAAGCAGCCGATATTTCTTGTGGGTGGACAGGGGAGGAGAAAGCAACTTTATT
TTCTTATTACCCACCCTTGAAAACAAGAGGTGCCGAGTCATTGTTCCAGGACCCTGGTGGCACTAATGTTCCCTACTGGGTTTGTGTTGTTTTGCAGGAG
TGCGCTACAGCCAGCAGGGAAACAATGAGATCACTTCCTCCTCAACAATCAGTCACCATGGCAACAGCGCCATGGTGACCAGCCAGTCGGTTTTACAGCA
AGTCTCCCCAGCCAGCCTGGACCCAGGCCACAATCTCCTCTCACCTGATGGTAAAATGGTGAGTACACCTGGGCCATTGTCGCTCTGGAGCTGATAAGAT
AAGAGGCAAAACAAACACAACTTCTCACAAGGCCTGCCTCAAACAATGAACCATTGTAGCCCCATAGGGGAAAATGAGGGCTGTCCAGAGTCGGAAAGGA
GAGGTAGTGCTGGTGACCCAGCCTTTGGCGGGTAGAAGAGGTGTTCGGTTTGAACCCAGCCAATAAATCTGACAGAGTTCTGCTCTCTTTTTATTGATTG
AATGCCTCATAAAGGAGCAAGCCCGGTGGGACACTGTTTGTTTTGGGGCTTGCCAATGACATTTGTGTTGATAAAATGTTCATTCATCYCTCCCCCCAAG
GCCTCCAAAGCCAATTTTTTAACTTAGAGAGCACCTCACTTTGACACAAGCCCCCTCTTCCTCCTTACCATCCCCTTGGTACTGACAAGAAGAGTCATTA
GCAAGTCAGGATGTAGTGGATAGGAGGCGATGGGGAGAAGCTTCTTGAACTGGAACAGTGAAAGACATGGGACACCATGACAGCGAAGATCACAGCACAA
ATGGTAGATGGGGTGGGGCGATGCTTAGGGAGGGAGAAACACCAACTTTGAAGTTACAATTGCCCAGGTTCAAATCCCAGCTCCAGCTCTTAATAGCTGT
GTAGCCTGAGCAGGTTACTCGACTACTTATGATCTCTTCCTCATCTATAAAATGGGGGCGGTAACAATAGACTTGGTGGGGGCATGAGCGTGATAACATT
TGAGAAATACTCTGCAGTGTTTGCCATAGAAAATAGTCAATAAATTGCAGTATTGTTGTTGTTGTCGTGTAAATGTCAATATCATTCTCATTAAATGAAG
TTTTCTATATCCGTAACCACAGCCCCACACCCAGATGCAAGTTTAGCACACTTGGTGAAGAATGCACAATTTGAATTTGAATTTTCTACATCAAACTAGA
TTCTAGGCCAGGTGCAGTGGCTCATACCTGTAATTCCAGCACTTGGGGAGACTGAGGCAGGTGGATCACTTGAGGCCAGAAAGTTTGAGACCAGCCTGGA
CAACAGGGCGAAACACCATCTCTATTAAAAAAAAAATACAAAAATTAGCCAGGAATGGTGGCATGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGTG
GGGAGCTCACTTGAGCCTGGGAGGCAGAGGTTGCAGTGAGCTCACACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCGGGTGTCTCAAAAAATAA
TAATTAATAATAACAATAAAATAAATAAAACTAGGTTCTAATTAGGATTAGGTTCTGATCCTGTAGCAACACAAGTGCAGGAGAGAGTGGCTTATGGGAG
AACAGGAGCATTACGACACTGGCAAGGGTAGAGAATGGAAAGCTCTATTCTTTGGGTCATGCTCTGTTTTTCAGGGGAGGGAGGAGCCGCAGATTCCCGA
CTTTCATGCTGAAGGTGGAGCTGCACACATTCCCAGAGTGGGGGCCAGGATGGGTGAGGGCAACAGGGTGCAGAGGCCATTTTAGATCTTGACGTGTGTG
CTGTGTAGGCAACACAGAAACGGTGAGTCACAGGTGATCGAGTCCCTGGCTCCCTGGAGGAAAAACAAGTGTGGTTTCTGAGGGGAGCACTGACCCGGCC
AATTCTGGTTTCAGAGGACCTGAGCTGCTTGCCCTGGTCGTGGTCTCTGCAAACAAAAATGAAAGGGCATTCCTGGGGGAGGCATTTTGCAGCCCTCTTC
TCCTACTCCCACCTATCCCTTAAGAAAGATWMTTCTCCATRTGAAGAACCACTTGTGTCAGTTACCTGTGAGAGGCACAGACAAGTCTTTCTGACTTCTC
AAGAGTGTCCCAAACAAGTTAGGGTTAAGGATTACCCAGGCTTCCATGGAGAAGGGTGCCTTACGGAAGAGGTCTTGACTTCTCAGTGTGGAAGAACCTT
CCAGGTCTCAGCTCTTACTGCTTGAAGGTCCTTGGGGTTTCCTACTGAGCTCTGCCTCTCCTCCTTCTAAGAGGCAAGCTGCCTCACCCAGGCCAGGGCC
GCTCTAAATGCAGCCTGTGGACACGCTTTTTGCTTCCTGTTCTGCTCAGCAGTGCTTTAACTGGGCAGTGTGTTACTGGATTGATGATTGACCAAGACTG
CACACCTCAACGTTAGCAAACACCTGGAAGCTTGTTTGCAGGGCCTGGCTTTTCTCTTGTCTCCAACACCCTAGTGCATGTGCTGTGTCACTATCATCAG
AGGTCCAAATTCAAGAGTCTGTTTTCTTGTTAATATAATAACATGTCCATCACGGATCTTGGTCCCCCAAGGCAAGAGTGGAGTATGGTTAAAAAGGAAT
GCAGGGAAGGGAACCAGTATGTGCAAGTCTTGGCTCGGTCATTCACCAGCAGTAGTGTGGACAAATTGCTTAACCTCAGTTTCTTCATCTGTAAAATGGG
GGATAATGATGCCTACGTCATAGGGTTGGTGTGAAGATTGCTTGTAGCACTGTTGTTCTTTGGGTCAGCCCTGTTCTAGGAATGACAATCTCTGCATGCT
GACTTTCAGTAGGACGTGCCTTGAAATCTTTCCCCAAGGACTGGTTTTGGAAATAAAGCCAATCCATTTGAACTCTCTGTTGTACTGTCTGCCCCTACCC
ACCCCCATGCCCAAATGTCACGCATTGACAAAAAACTGGCCAGGTTTAGGGTTGTAGTCTGTGCATGTCGAACCTTTAAAAAAAAAAAAAAGAGAGAGAA
CAAAGCAAAGCACATACTGGATACTTTCACAGTATCAAGCAGTATGTCCTAATGGTGAAAAGCTCAGGCTGTGGCGGTAGATAGCCTGCTTTCAACCCCA
ATTCTACCACTTGGGCACACTTCTTAACTTCTCTAAATTTCAGTATCCTTCTCTATGAAATAGGGATAATAATACCAACCTTATAGATTATAGGTATATA
AAGAACCTAGCATAGTGAAGAGACCATAAATGACAGCATTAATGTAATTCAGGCTCTCCAAATTATCATGTAAGGATCACCACTGATACCCTTGGCAGTG
CCCTAGCTTCCATCAGTCCAGGAGCCAAATAGAAAGTAATGGTTGTAGCCGGGCACAGTGGCTCACACGTGTAATTCCACTATTTTGGGAGGTGAGGAAA
GATAATTGCTTGAGCCCAGGAGTTCAAGACCAGCTTGGGTAACACAGCAAGGCCCTGTCCCTACAAAAAATAAAAAAATTAGCTGGGCACGGTGGTGCAT
GCCTGTTGTCCCAGCTACTCCAGAGGTTGAGGTGACAAGATCGCTTAATTCCAGGAGTTCGAAGCTGCAGTGAGCTGTGATCATGCCACTGCACTCCAGC
CTTGGCGATAGAGTAAGACCCTGTCTCAAAAAAAAAAAAAAAATTAAAAATAATAGTTGCATTTTAGAATGGGAAGTAACTTGATCAAGGTTGCCCAAAC
TTAGTAAGTGAATAAGATTTAAGCTCCAGCAAAACTGGATTTTAACTCTGGCTTTTTCACTTATGAGTCAAGTGACATAGAAATAGTCTCAACTCTTCTG
AAGATCAGTTTCTTAATCTGTAATACAGGGACTGATAGTAATAATGCCTGCCCTACTTGTGTCATTATCTATTAAGGACAATCAGTGAAAGCACTTTACA
AATCCTAAAGTCACACACATTTAAATTATTTTTATCATTGGCCTCCACACTTCTCTTATACCATTAACCAAATGCTGAAATGTCAGAGAAATTACTGTCA
CTTGGTTGACTTTCTCCAAAGGAACTACATTACCCAAGAGATTCAGTCTGAGGGCAGGCTACGGATTTTTTTTTTTTTTTTTTTTTAATGACTGGTATTT
TGAAAAACAAGTCCAGCAAACAGGCTGCTTCTCTCTTGTTTGATGTGGTCAGAATTCCTTCTTGGTCATGTGACCCCCTAACATTTCTTGATGCTTATTT
TAAAAACACAAACAAACCTGTTTGGTTTTTGCTTTCTTTCTTTTTCAAATTAACCTTGGACACTATGGAGTTGACCGGAAGGGCAGGGTGGGAGATAGCA
TCTTACCTGGGTGCTGGTGGGAGAGCTATCGTCTGAAAAGCTCTGGGAAGTGAAAGATGGAAGAAGGAAAGTTGAGTTACTCAGACATCTGGTGCATCCT
AACCCTAAAGCACCTCTCGGGGTTCCTGATGCTCTCAAGCACGCCTGGGTTCAGAATAAGAGGGGCCAGTCCTTTCTTCATAATAACTTTAAAAATTATT
TTGAGGCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCACATAACCTGAGGTCAGGAGTTCAAGACCAGCCTGGTCA
ACATAGTGAAATCCCGTCTCTACTAAAAATACAAAAATCAGCCAGGCGTGGTGGTAGGTGCCTGTGGTTCCATCCACTCGGGAGGCTGAGGCAGGAGAAT
TGCTTGAACCCACAAGGCGGAGGTTGCAGTGAGCAGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGCTGGACTCCACCTCAAAAAAAGAAAAAA
ATTATTTTGAAACTATAAGTAGTAAACTAATGTATCATGGAAAAAGTGTAGGTGTGTTTAAAACTGATCGCGCCCTTATAATTACAATTAGAGTTAATGG
GAAAACATTGGAAACATTTCTGATAACATCAGAAGCAAAATAAGCACATCTATTACAGCTGTTATTGTTTAATACTGTAAGTTCTAAGCAATATAATAGG
ACATGTAGACATATCAGTACTAGCAAGGAAAAGACCCTGTTACCATCAGATGCTTGTATTACAATTACATACTTGGAAAAAAATCAATGAGGAAAAGACA
CTAGTAGGATTCAGTGAAGTGGTCATGTACAAAGTAAATACACCAAAATCAGTAGCTTTCTCATACTAATCTGTCATTAAAATATAATGGTGATTACAAT
ATAGGATCCTTGACCAAAAAAGAAAAAAAATTTTGTAATGTGTACTGGAGATGTGGAAAAAGTAGAGAAACCTTRTAATGGCTAATCTCCCCCAACCCTT
AGTAATTTCTGAAGCTGGCTAGTAACTCAGACAGTCAACAATAGATGCACCATGAGGGCAGGGATCACTGTCTGTTTTACTTACTGCTCTATCCCCAGCA
CCTAGAATAGTGTCTGTCCCACAGTAGACACTTAATAATTGTGTTTTTTTCTTTTTTTGTAGAGATGATTTCACCATGTTGCCCAGGCTGGTCTTGAACT
CCTGAGCTCAGGCAGTCCTCCTGTCTTGGCTTCCCAAAGTGCTGGGATTACAGGGGTGAAGCACCATGCCCAGCCAATAATTGTTATTGAGTGAATGAAG
GAATGAATTTGAGAACTAGTCATGCCAAGGAATCGCTAAGTCACATCRTGTTGGAAACTGCTCTTTGTGGTCCAWGTCCACCCATGTTTCTCTTGTTTTT
TTCTCTCCATCAGATCTCAGTCTCAGGAGGAGGTTTGCCCCCAGTCAGCACCTTGACGAATATCCACAGCCTCTCCCACCATAATCCCCAGCAATCTCAA
AACCTCATCATGACACCCCTCTCTGGAGTCATGGCAATTGCACAAAGTAAGTTCTATTCTTGGTTGGAAAACYTGGGGGCAGGGAGAAGAAGAATGGGAA
GCAAATTAATGTGGTGAAAAATAACTGTAGGTCTCCTTCAAACTCACCCACGACTAGTAGATTTGGTTTAACTTCTTTAGTTTCTCATCTGTCTCCTTAA
ATCCAATATTTGGATTGTTTAGCCTAAAACAAGAGAAAATTGTGGAATGGATTTGGATCCTGGTCACAGTTTAGCAGCTGTGCATCCTGGGTCAAATCAT
TGAACCTTCAGGAGATTCAATGTCCTCATCTATAAAATAGGTTGTTAAAGTGATCAACTGACAGTGAATATGAACATGCTTATAAATCTCTAAAGCATGA
ATATGTATAACATCGTAGCTTACACTTTGTCTTGAGTTCATTCCTATCACTAAGTAGGTGGTAGATTTTTCAGGAGGTTCTTTCTGTTTGGTGATGATGA
AGTAAGAATGACAGGTTTCCTTCTAAATGGGGAGTTTTGTGTGGTATATGAAATCTCCTTGGCCAGCAGTGAAAATACACCAAGGGAGGATCCAGAGGGA
AACTGCCATTGTATCTGAGAGCTTTGAAAACTTTAAGGAGAAAAAGCTTGCTTTGGCACATCACACGCCTGAAGACACGGAGATGGATCAGGTCCCTCCA
GCTCCAGGAGGCTCATATTCAACAGCAAGCCTGTGCCCTCCCATACATGGGCCATCTTGAGGCATGAGAAGKCTGAAGGGAACTGTGGTTGTGGATATCT
CTTTGAGAGTTTTAATGTTGATGAGTATTCAGCATATTTCCAGCTTCACTATGACAGCTCAGGTGTCGTTGTTTCTCAAAASCATCCTTGTGACCCTTGG
ATGTATTGCTGGATGTCTTGGGAGAGATCTAAGGGTAACACATTGGTCATCTTTCTTTCAACCTTGTATTGCTCCATTGTCCTCTTACCTTCCTTGTATC
TAGGGCTCATGTTGGCCACCTCTTTGTTTTGTTTCTGCCTTTTTCTTTCTTCCCTCTTCTCTCCCTAAATCAGCTTTAGCTAGGGTCGGAACTTGGATTC
TCACTTCTGAAGAGAATGACTTACACATCCTTTGAGGTCAGAACAGGGCTAAGCCCATTGGAGGCACACAAATTTATTGAATATGTGTGGCTCTCACTCT
ATCCTTAGCTGCTTGGAAATTGACACACAGTGCATTGATTTTGGCAGAAGGAAAATGGGAATGGGGAAGCATTTAGAGAACTCAYAATATAAATGATCAT
TTTAAATGTATTGCCTTTTGACTGRGCCCTCTGGTATATGGAATATGGTAATTATACTAATACCAGAGTTTGGAATGAGATAAGATACCTAAAACCAGCT
TGTTTGCCATTTAGAAGATTTGATTAAAAGGCCCGTGGGGAAGATATTCCACTTATTTCTGCAACCAAAATAATAAACAAACTGTCCCACTTAACTTCTT
TCTTTCCATTCTAAGCTTTCACTGCCATACAGTTATATATATATATATATACTATCTGAATTAAAATTTTCCCTGGGGCTAGTCTGCATCTTTCCATTTT
GTTCTTTCTAATTTCCTCTACTCATATTTCTCTATCATTTCACGATGCTCCTTAATCTCCTATTCAGATGGGCTGCACCAGAGTGCACACTGACCTCAGA
AGGATGGCTGTGTGTGTACATATCTGTGTACACTTGGGGTAGACAGAGCATGAGAAATGGTGAGAATCACCAGAAGACTGCTGAGACACAGAGGTCCTAC
ACTATGGAGTGTTAGGATGAGAAACTGGTTGCAGGCATCTTCATTTAACTGACTGATGTGTTGAGTACCATGGGCCCTGCCTCAGAATTGCGGAAGCCTG
TGGAGAAGGTGGTAACAAATTATTTGGCAGGGCCAATTCCTTATTCTCTACTCATTCTCACCTCTTCATCCTATTCTCTTTCTCATCTCTTCCCTGGACT
GGATAGCATACTTCCCAAGCAAGAACCAGTGCCCRGAAACAGAAACAGATGAAAAGGTCAAGACTTACCCACTGAGGGAGCTGGAATGACATCAGAGGCT
CTCAATCCTGGAATTGAGGCACATCAGGATCACAGACTGCATTGAAAATAAGATTCCTGGGCCCCACCTCTGAAGGTTCTGACTCATTAGGTCTTGGGTG
GGGCCCAGGAATGTATATTTGTTAAAGAGCTCCCCCAGATGATTTCTGAAGCACATGCAGGTTTCAGAACTATGCCTTCAAATGTCATCCACTCTAGACA
GGATCATTTGCTTTTTTGGGCAGCAGTTTCTCAAAAAGAGCAGCAGCAGTGCTCTCAAAGATTTCTCAAAAACGGCACATTCATGGAGCTTTCTGGGAGA
CTGAGACCATAAGCAGGAGGTAGGAAAGGGAAACACGGTCATCGGTCATCAGGGTATCTGGTGAGATGCTGGCTTGAGGAGACGCTGAGCCCCCTGGGGA
ACTGGAGACAGYGCTGTTCTGAGGGTGATCAGAGGGTGGCASCCCCAGCCCCCACCCAGGAGAGCCAGAAGCAGGATTCATCCCCTGTCCTTTCTGCTCA
GGGGTCTCGCCTTTTAGGTTTCTGATAACAGTATCAGCTAAAGCTCTGAGTAGGCAATTGTTGAGGACTCYGTGTTATCTCCATTGATGACTTCCCTCAA
ACCTGCCTATGAAACCGTCTCCATTTCAGGAAAGCCTCTCTAGGTGTCCCTTCCACATCCACCTAAAACAGACCTTTTTCTGGATTCCTTCTTCATCCCA
TTCTTCCCCCAACTTCCCAGAAAGCAAGAACACAGGAACACAATCGACCCCAGGAAGCAGGTCCAGGTGTCTTCTCTCCTGATCGTCCTGTCCCCACTCC
SATCCTACCTTAGCTGTCTTCCTCCGTGTCGCTCTCAGGGAGGAGATAGAGCATGGGTACCAGGGGATCCAATCCTCAGAGTGCTGGCCCGGGTTCTAAA
GAGGCCTCAGGATACACAGTTCCAAGTTACAGAGGCCCTGACATCTCCAGAACAGAAAGATGGGAAGACCCACTATAAATGCCAAGAGTCAACCTTTAAT
GTACTACTTCCTCTTTCTAAAACCTGGTCCTTTTAGTGCCACAAGCCCTATGCTGCCACATAAGATATGCCCGCCTCGCAGACTGGCTGAGTTCCAGTGT
TTTCTCCCCTCTCTGTTACAGTCAAGGGAGTTGGCACCTGATTTCTCTGGGGGTCTTTGTACAGTCTACTAAATAAGGGTCTCCCAACCTCATACTCCCG
GGACTATGGAMGTTGTTTTTAGTCAAAATTTGGGTCCCTGCACACTCCTGCCCTCTACTGGACAGACCGATCTGGGCAATAACCTGTGCCTCAGTGTGGA
CATCTTTAACTCTGCCCTGCGGGCACCAGGGCAAGCCTCTCTCACAGCCTGGCATGGATGGAGTGGGCAGGTAGAGCCAGCTTTTCCAAAGCCCTGGTAA
CCTCAAGAGAGCTAAGTTTGGGAGGTCACAGGATGACTCTGGGAGACTCTCAGGCTTTAATCAGATCTGTTTAATGCCCATCTCCAACCCACAACTCATT
GTGGAACTTGAGCAAGTAAATTAATATCTCCAAGTCTCCGTTTCTTTACACTTGCCTCCCATGGAATCTCCTRTGTAACAGGCTCAGYCCRGTGACTGGG
ACATTGAGCGGGGGCTCAAATGATGGCATCCATCCACCTCTCCTTATCCCAGGAGCTGTCTGTGATCTTTTCCTCTTGCTCCCACAGGCCTCAACACCTC
CCAAGCACAGAGTGTCCCTGTCATCAACAGTGTGGCCGGCAGSCTGGCAGCCCTGCAGCCCGTCCAGTTCTCCCAGCAGCTGCACAGCCCTCACCAGCAG
CCCCTCATGCAGCAGAGCCCARGCAGCCACATGGCCCAGCAGCCCTTCATGGCAGCTGTGACTCAGCTGCAGAACTCACACAGTAAGGACACGGGCATGT
GGAGGGAGGGAGCACTCAGGACCCTCAGTGGCCAACCACTTTCCCTCTCTGGGTCTGAACTTTCTCGGAAGTTTATTGGCTTGGTCRCTTTTCCCTGCCT
ATGATCAACCGACTAAGACAATTTCTCAAGCATAACTCTTGAGTGTTGCTGTACCTTTTCTAGTCCTCTTCTCTACCCCTGAGATTCCCAGGGAAGGGTT
TGAAGAGGACAGTGTAGGCCTACAGATGAAGGGGAATTGGAGCCAGACAGCATGTGGAACACACACCGCCAATTTCCCATTCCAACACCTCTGGAAAAGA
TCGCGTCCATAAACCACCAGCACCTTTTCCCAGTGAACTTCAACTTAGCCTTTGCAATCTAAACTTCCAAGCAGCCATTATCAAATGATCACAATTGGCA
TCTAATTTGCATCCTGTTTGCCTTCCCTAAAAGAGAAGAATCTTCTAGAGTCCCRTGTCCTCCAATTTATACACCCCAAACATCTCTAATCAAGAACCAT
GAACACAAGTGAAAAATACCAGTGGCATGCCATCCTGGGCATTAGAGTTTCTTCCTCCATGCCACCCCTGCATCTCTGCACACAGACTGTTTCTCATATC
CAATTTCTATACCTACCCCAAGCCTACCTTTCGACCACTTATTTCCCATCCAATCCCATCCTCTGTTTCTCTGCCTTTCATCCTGAGTCCCAGGCTTCCA
ATCCTCTGGCCAGGTCTGGCTATAGCCCCTGACACAGGAGTTTGGGAGGAATCRTGGCTTCTCTGCTTCAGAAACCCCAAGGAAGTGTTCAGTATAAAGC
ACTAGTCTTAGATCAGACAGACCTGGATTTAAATCCTGGCTGTGATACTTACCAGCTGTGTAGCYTAATGCAAGTTACTTAGCCACTCTAAGTCCAATCT
CTACATCCATAAAATGGAAATAGTATGCATTTAGAGTCATTATGAATATGAAATAAACATAGGGGTAAACTGCGTTTGGTAAGCATAAAAAATTATAAAG
ATTATTTATAAAGGGACTCTTAGAAGGCAATGATGGTGAAAGAGGTTTGTGTTTCTTCCCTAGCTGCATCGGATAAGCTGTGGGTTTGRGGGAGAACAGC
CAAGTCCAGCCTTCTATCTTCAGGGCTCAATCCCCACTCGGGCCTGTGGAGCTGGTTTCTGAGCACCATCTCACATTCCAATCACATTTTAGTGGCTTCT
GAAAATCTGCCACAGCCTGTAGSAGAGTCTGAGACCACATGTGCCCCACTTCCCTTCCTCCCAGAGCCTGGTGATGTGCTCCCCACTTACCCCATCCCTT
CACCTGGCCAGGCTTCCTCAGTGGCGAGGCCTGGGTGGGATAGTCAGAGAGTGGTCACCAGCGACCTGTGGACTGCTGAGGCCCAGCAGGCCTGGCCGCC
CATGAAGAGAGAGCCCATGGTGCCCTGGACCAGGAAATAACCTGCCTCCCTGCATGAGAAGGGCAAGCCGAGGCAACAGCCAGTGACCTTTGCTCCCRTT
CCGTACCGGAGGCCTCCCTGGTAGGCCCTGTGTTCTGAGAGCAGGTGGTCTCTCCCTCACAGCCAAGCATCCACATGCTTTCGGGAGTTGGTYATGTGAC
TTGGAATTTACATGAATCTTATGGATAACTAATATGAGAAATCCCCACTATAACCACCAGCCCTTTTRTCTACCTGAGGAGATGGGAGCTATGGTGTGGG
ATGGGGGCTCTGTACCTGTGTCTKTSCCTGTGTATGCACCTTGATTYTGTCTTCACTCTGTCTCTCCAGTGTACGCACACAAGCAGGAACCCCCCCAGTA
TTCCCACACCTCCCGGTTTCCATCTGCAATGGTGGTCACAGATACCAGCAGCATCAGTACACTCACCAACATGTCTTCAAGTAAACAGGTAATGCCAGCA
GGATTTGCGGGGGTTGGGGTGTGGGCAGGGTGTGATAAGGCCATGGATGTGCAGAGGTTGTGGCAAGCATGGACTCRGCCAGAAATTAGRTCCTTCTGAG
GCTCCCTGTTGTTTGCAAAGGGAATCCTTAAGGTCCCAGGGCAAAAAAAAAGGGCCACAGGCTGAAAGGGCTTATTGCTCCCCCAGATTCCCCAGGAAGA
GCACTAAACAAGGACAGAAGTTTGATAGGTTGCTGGAGACTGGATGACATAGAGYGCTTAGGCATTTAGATTGAGTGTTCCCTAATAGAATGATCAATGG
TCCATGGAAAAGGTATTTCCAAGGAGGGCTCAGGAGGACAGATYCCCTGCTGAGGTTCATGCTTTGCAAGAGGGATCCCTGAGGATCCACAAAGTAGTCA
GCGGAGAAAGTGAGTAGGAAGTCAGAGGTCCTGAGGCTGATTCCCCTGGACCCAGAATGCCATAAGCTCTGGGAATGACCCAGTTGTGTCAACCCATGGG
GACTCCCCAGTAGACAGCCTGGCTTTTCCAGGGGTAAGCATCCACTTGGGGTTTTATCAAGAAATTTAGAATCAACTTCCTGCTGCACTGAAAGTGGGGA
ATCCAGAGGCTTAGTCACTGTTTCAGTTGATGACTAAGTCCCACCTCTGAATAGAGGTGATGGAATAGTAGACAGGCAGCTGATGGCGAGGCTCATTGCT
GCAGCTTGGACAGCTGGACTGCAAGAAGACACCGAGAGTTAGAAAACAGGACAAGATGTCTGAACACAGGTGATGATTCCAGAGTAACACAATGAGACCT
TTTAGTAGCTGGGGTCTGTGCAGTGTGGGAACTGTTTGGCCTCTATCGATTACTAGATAAGTAGGTGRCAACCTTGAACTTCATGTCAGAAGCTCTCAGA
ATTTGGTCTTGTTGAWGGTCTTTTTTTCATCTGAGCCCTGCAAATCACACTTCATCCACTGCCATGGGCTTCCCAGGAGGTTCCTTCATGGGATCAGGGT
TCTCTATCCTTTCCTTTGCCCCRATCTCCTTCCAGCCCTAGAGTGCAGTGGAGCAGGTGGGTTCTATTCCTGGTTCTGCCATTTGCTTGGTGACCTTGAC
CTCCCTGAGCCTTCATTTCTTCATCTTTAAAGTGAGAGTTGTAACATCTGCTTTTTCTGAGGATTCAGCAAGCTTGCGTAGATTAAGTAACTGGTGTCTT
GGGCACTGAAACACACACACGACCAGGGCAGCTGGGCTCTGGAGCTGGGGGTAGAGGGAGAGGTGTGTGGGACCTGCTTTGCCACTCTTCTCTCACCCAA
TAGAAGATGAAAGGACAACCCCTCACTACCCTGCCCTTCGACTCCCGTGCGAGTTCCCACTCTTTGTAGTGGGCAGGGAAAACATTTATCTGTGCTCACA
AATCTCAATCAGGGGGGCAGCCAGGCGCAGCGGCCCTCCTTGGGAATACCTTCCCCTTTGAAAGGTTTATCAATCCATCTGCCGCTTGGTCAGCCCCAGA
CAGGACCATGATTAATTATTCCTGTCTTTCCCAAGTTGACTTTGATGGTTGCTTGTTGAAACAAGTCGTCTGAATTCAGGAAATGGTCTCTTAATCAAAA
TACTTTAAGATGCTCCCTGAGACGCTGCACCAGCCCCCCACTGGCTTCTCCTCTCCATTGGACAGAGTGGCCAGCCAACCTTGAAGCTGCATGAGTGGCC
TCCCAGAACTGCTGTGACATTGTCTCCATGTCCCCAGACATTTCAGGAGTCTGGCAATAGACTCATTTCTGCGATGATGAGGATGATTATTACACTCAGT
AAGGATGAAAAATACTCACGTGGCACGTTACAGTTTATACTTCTCATGAACATTGTCTCATTGTTTTCTTTTTACTGCAACCTCCTAAGTACAAAGAAAT
AAACTAAAACCCAGAGATGAAGAGTGACCTGCCCAAGGTCACACAGATGATAAATTCTAGTGCTGGACCTTCAGGCTTTGGTCTTTGACTCCACATACTT
GCCTTCCACTACCATCTTTAAAATTCTACGGTAACTGCTGCCACTCTTGTTGTCTTTGTGGTCAGGAACAAGAGTAAAAAATAAGTTCACTTGCCATATT
CCACTCAGGAAACGTTCTTCCAACAAGTTGAAAGAGAAGGAGGAATGGGAAAGGCACAGTGAAGTAAAATGAGGGTAAAGGTGCTGCCTCCTGACAGCAG
AAGGTACCCAAGGTGAAGACAGTTTGTACAAACTCTGTTCCTAAGGCAGAGGGTCAGAAGTGAGTTCTGAAAGAGACCTGATGGCAATTCTGCTTTTTTG
GTTTTGTTTTAAGGTCTTATATTCCAACAGGAATTTCAAATTCATTTCTGGCGTGTTCAGATTTATTGCTTATAGCGATGTCTGTTTGCTTCGCTATAAA
GAAATATCTGAGGCTGGGTAAAAGAGGTTCAAAGGCTCATGGTTCTGCAGGCTGCACAGGAAGCATGATGCCAGCATCTGCCTCTGCTGAAGGCCTCAGA
AGGTTTACAAGCRTGGCGGAAGGTGCAGACAGGGCAGGTGCATCACGTGGTGAGAGTGTGAGCAGGAGGGAGAAGGGAGAGGCCCTGCCCTGGGYTCTTA
TTTATTTATTTATATTTTTATGTTTTGAGACAGGGTCCCGTTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCACAGCTCACTGCAGCTTTAACCTCC
TGGGCTCAATCAGTCCTCCCGCCTCAGCCTCCAGAGTAGCTGAGACTACAGGCGCACACCACAATGACAGGCTAAATTTTTGCATTTTTTTTGTTTTGCC
ATGTTGCCCAGGCTGGTCTCAAACTCCTGCGCTCAAGTGAACTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACMGGTGTGAGCCACCATGCCTAGCC
CTAGACTCTTTTAAACAGCCAGATCTCACGTGAACTAACTCAAGCATGAATTCCTCACCCATCACCATGATCCATTACCTCCCACTGAGCCCCACCTCCA
ASACTGGGAATCACATTTCAACATGAGATTTGGAGGGGACACACATCCAGACCATATCATTCCACCCCTGGCCTCCCAAATCTCATGTCCTTCTCACATT
GAGAAATACAGTCATCCCTTCCCACTAGTCCCTGAAAGTCTTAACTCATTACAGCATTAACTCAAAGTCCAGAGTCTCATCTGAGACTCAAGAGCAAGTC
CTTCCACCTATGAGCTTGTAAAATAAAAAAACTATATACTTACTTCCAAAATACAATGGTGGTACAGGCATTGGGCAGACGTTCCCATCCCAAAAGAAAT
AAATTGGCCAAAAGAAAGGGGTAACACCCCATGCAAGTCTGAAACCCAACAGGGCAGGCATTAAATCTTAAAGCTCCAAAATAATCCTTGATTCCATGTC
CCACATCCTGGGCACATTGGTGTGCCAGGTGGGCTCCCAAGGCCTTGGGCAGCTSTGTTCCTGTGGCTTTTCCATGCTGAGGTTGCAAGCTGCTAGTGGC
TTTACCATTCYGAGGTCTAGAGGGTGGCAGGCCCATTCCCACAGCTCCATTAGGCAGTATCCTGGTAGGGACTCTGTGTGTGGGGCGGGTGGGGCTCCAA
TCCCACATTTCCCCTCAGCACTGCCCTAGTGGAGGTTCTCTGTGGGGGCTCTGCCCCTGCAGCAAGCTTCTGCCTGGGCACCCAGGCTTTCTGATAMAGC
CTTTGAAATCTAGGTGGAAGCTGCCAAACCTCCTTCACTCTTGCATTCTGTGCATCTGCAGGCTTAACATCACATGAAACCCACCAAAGCTTACAGACTG
CACCCTCTAGAGTGGTGGTCTGAGCTGTACCTGGGKCYCTTTGAGCCAGGGCTGAAGCTAGAGCAGCATGTATGCAGGGAGCAGTGTCCCAAGGCTGTGC
AGGGCAGCAGGGCCTTTGGTCTGGCCCCCAAAACCATATTTTCTTCCTAGGCCTCTGGGCCTCTAGTGGGAGGGGCTGCCTAGAAGATGTCTGAAATACT
TCAGTGCCTTTTTTCCATTGTCTTGGCTATAGCATGCAGCCCTCTTTAGTCAAGCTAATCTCTCTAGCAAGCTGTTGCTCCATAGGCCACTTGAATTCCT
TCTCTACCACAGGGTTAGGCTGCAAATTTTCCAAACTTTTACGCTCTGCTTCCCTTTTTAAATGTAAATTCCAACATTCCAAATGTAAGTCATTCCTTTG
CTTCCGTAGCTACTGTGGGTTGTTAGAAGCAGCCAGGCCACATCATGAATGTTTTACCGCTTAGAAATGTCTTCTGTTAGATACCCTAGGCTATCATTCT
GAAGTTCAAACTTCCACAGATCCCTAGAATATGGACACAATGCAGCCAAGTTCTCTGCCTGGGCGTAAGGAGGGTGACCTTTGCTCTAGTTCCCAATCAG
TTCCTCATTTCCATCTGAGATCTCATCAGCCTGGCCTTCACTCTCCATAGTTCTATCAGGATTTTGGTCACAACCACTTAACAGGTCTCTAAGAAATTCT
AAACTTTCCTTCATCTTCCTGTCTTCTTCTGTTCCTCCAAACTCCCAATCTCTGCCTGTTACCCATTGCCAAAGCTGCTTCCACATCTTCAAGTAYCTTT
TTTTTTTGCGGGGRGGGGGGGCGGCGGGGCGGGGGGAYGGAGTTTTGCTCTTGTTGCCCAAGCTGGAGTACAATGGTGTGATCTCAGCTCACTGCAGCCT
CCACCTCCCAGGTTCAAGCGATTCTGCCTCAGAGTCCTGAGTAGCTAGGATTACAGGCACAGGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGA
AACAGGGATTCACCATGTTGGCCAGCCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGC
CACTGCACCTGGCCATCTTCAAGTATCTTTATAGTAATGCCCCACTCCCAGGACCAGTTTTTTGTGTTAGTCCATTTGCATCACTATAAAGGAATACCTG
AGGCTGGGTAACTTAAAAAGAAAATATGTTTAATTGGCTCATGGCTCTGCAGGTTGTGGTGCCAGCATCTGCWTCTGGTGAGGGCCTTAGGAAGCTTACA
GTCAGGGCAGAAGGTAAAGGGGGAATAGGCATGTCATATGGTGAGATAAAGAGCAAGAGAGAGAAAGGGAAGATCCCAGACTCTTAAACAACCAGATCTT
GTGTGAATTAACTTGAGCGAGAGCTCACTTATCACCAAGGGGATGGCGCTGAGCCATTCATAAGGGATCTGCCCCTGTGATCCAATATCTYCCACCAGGY
CTTACCTCCAACACTGGGTATCGTATTTCAACATGAGATTTGGAAGGGACACACATCTAAACCATATCACTAGGTATCAAGGACATACGAGTGAGGGGAG
AGAAGGATTTCTTGGTCAAATATGTTGGGGGAACTGCTGGATTACACAAAGTTAAATGCTACTGGGCAGGGCTTCTCAGAGCATTTCACTTGCTGATGTG
TGCACTGAACCGGGCAATTAGCGTGCACCCTGCTCGAGTCAAAGGGACACATCCTGAGCAGTGCTATTTTAGAGGTATTGTACAGTGGTAGGAAACGCCA
GCAGACCTGAGCTACTTTCAGCTTCATCACCCCCTGGTATGTGACCTTGGGCAGTTAATTCCCTGTAGGGAGACTCAGTTTCTTCATCTATAAATGGAGA
AAATCCCACCCCCATCTCACAAATATTCAATGTGCCTTACAGAATGGCTAGTACATAGTCAAGTATTCAAATGGTAGCCCCCTCCCTGTTTTCTCTCCCG
GTCTTGAATCTCTTAGAAATAATTGTCTCCCCTTTCAGAGACCCTTTTTTTTTCTTTTTTTTTTTTGAGAAAGGGATTCTATTCTTGTCCCCAAGCTGGA
GAGCAAAGGGGGGGGCCTAATTAAATGCACCTCTCCCTATTGGGACACACAATCTTCCCGCCACCTCTCAAGAATGGAATACAGCGCGGCCCCCCACTAG
GTATTTTTGTTTTTATAAAAACGGGTTTATTTGTTGGCCGGCGTCTCATTCCCACCCTGAATTCCCGCCTGCCTCAAAGGTGGAATAAAGGGAGCCCTGA
CCCGCTAATATCTTANNNNNNNNNNNNNNNNNNNNTCTCCCACCAGGCCTTACCTCCCAACACTGGGTATCGTATTTCAACATGAGATTTGGAAGGGACA
CACATCTAAACCATATCACTAGGTATCAAGGACATACGAGTGAGGGGAGAGAAGGATTTCTTGGTCAAATATGTTGGGGGAACTGCTGGATTACACAAAG
TTAAATGCTACTGGGCAGGGCTTCTCAGAGCATTTCACTTGCTGATGTGTGCACTGAACCGGGCAATTAGCGTGCACCCTGCTCGAGTCAAAGGGACACA
TCCTGAGCAGTGCTATTTTAGAGGTATTGTACAGTGGTAGGAAACGCCAGCAGACCTGAGCTACTTTCAGCTTCATCACCCCCTGGTATGTGACCTTGGG
CAGTTAATTCCCTGTTGGGAGACTCAGTTTCTTCATCTATAAATGGGGAAAATCCCACCCCCATCTCACAAAATATTCAATGTGCCTAACAGAATGCCTA
GTACATAGTCAAGTATTCAAAGTGGTAGCCCCCTCCCTGTTTTCTCTCCCGTCTGTGATCCTTTAGGAGATAGTTGTCTCCCCTTCCAGTGACTCTTTTT
TTTTTTTTTTTTTTTTTTTGAGATGGAATCTCACTCTGTCACCCAGGCTGGAGTGCAATGGTGTGGTCTCAGCTCACTGCAACCTCCGCCTACTGGGTAC
AAGCAATTCTCCCGCCTCAGCCTCCCAAGTAACTGGAACTACAGGCACAGGCCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCA
CTATGTTGGCCAGGCTGCTCTCAAATTCCTGACCTCGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGGAATTACAGGTGTGAGCCACTGGACCCGGCC
TAGTGACTCTTTCAATATCCAATTCAGTGCTTGGTCTACATGCAGTCAAAGGAGGCTGGGAGAAGAAAATGTCTCAGGATTACTACCATCTCTCAAGCAC
ATCCTACCTCTTGGGCCTGGGYTCCGGATCCCTGTTTCCCATTCTCCTGCTGATACACAGACTCCCTGCTCACCTATTTCCCAGGAAAAAAGCAAATAGT
TCAGGGCCTGTCAAAGCACCCATACCCTTTGGGCTTAGCCAAATGCCTGGGCTATATTAGATGTTCAGTAAATAACAAAGAATGAATGAACGAACGAACG
AATGAATGCAGAACCCGTGTTTTTTGATGCCTCCATTTTCCAAGCAGCACCCCAGATGCTTTTCTAGCTTACATTTCCTGGAGAACCCTCTTACCCATTC
TGCAAGGTCGTTATTTTTATACCTGATTTACAAAGCAGAAAACTGAGGTTCAAAGATGGGTATGGATCTGGTCAAGTTCAAACAGATCATAAATTCCAGA
GCTGGACTTCCAGACTGGCTTTCTCACTCCAAACTCATTAAACAACGTTCATCTTCCAATATCCACTTTTAAGCACCCATAATAACAACCCAAGGTTATG
CAGGTATAAGGCTAAAGCCAGGATTTGTACTTGTATCTGTCTGATCCCAGTACTTCCTGTTGTCAAGGCAGACATGCCCCAAGGGCCTTGGGGATTACAG
GTCAGGAACCCCAGGCTGGGACTTCTCGCGCCAAGAATCCTTCTGCATCTACTGCCATCTGTCCCTTCCAGAGCACATACGTCTCCCTCCTTCTCAACTC
TTGGGTGCTGGCAAGTTATCTCTGAGTGGGTTTGTGCKTGAGTTCAACAATGCCCCKCTAGTCTGGAAACAAGACCACAGCAACCACTGACCTCAGTTAG
AACAAGTGCAGGCAGGTTGTGAGCCAACTCCTGTTTCCACAGTGTTCTCTCCCCGCTGCTTGACTTCCTAGTTTATGGGAAGGTGAAGAGAGGGCCCCCA
GAGCAGTAACTAGTCAGGGCACTGACAAGGGGGCAGGTGGGTGGCCTCATCATCTATCCCCTTCGGCTATTCCTCTCCCAGCTTCTTCACTGGGTGAGGA
AGCAGAGTGTTCTGATGGTTGGGAGCATCGACCTRGGAGTTAGGCAGATCTGGGCTCAACATTCTACCACTTTCTACCTGTGTGACCTCAGAGAAATGTC
TTAGCCTCTTTGAGCCTCTGTTTGCTCACCTGTAAAATGAAGATAATGATACCTCTTTCATGGGATCACTGAAAGGACTAACTGCACGAAGACCTGTAAA
ATACTTCACTCAGCGCATGTCCCAAAGGAAACACCCAGCCCATGGAAGCTGGGTCAYTCTTGGCTTCCCCTGCTAGCACCCCTGAGCGGCTCTGAGTTTG
GGAAAAGGGTCTTACGTGGCAAAGGGCATTTATTTCCCCGTGTTGAGGGGGTTGAAAGAAGTGCTCTTACATAGGGGTGAAGAGCACAAGCCTTGCTGTT
GTGAGACCCCGGCCAACTTACTTATCACCTCTCCAGGCCACRCTTCCCTCATCTGTAAAACCGGAATTATAATCATGACTTTTAATTAATGGAGCCACAA
TGAATCTCACATAAGTTCATGGTCATAGAAGTGACTTATCTGTCCTCACTGTCTCCACTTCCTCACCCTCAATTCTCTCTTGAGATCACTGCAGACTGGC
CTTTATCCTCACGCCTCACTGTGTCCAGCTCACGATCCCCTCCATGCTGCTGAAACCAATGGTTACTTTTCAACCTCTGTCTCTGACACAGCTGATCTCT
CCCTCCTTTTTTCCATGGGAGTTTGGGATACTACCATTCCTGGTTCTTCTACGGCACTGGCCACTTCTCATCTCCTCAGCTGGCAACTCATCTTCCCAAT
ATTTATGTGTTGGAGGGCCCCGGGCCTCATTCTTTGGCCTCTTCTCATCTGTGCTCACTCCTGGGTGATCTCCTCCAGTCCCATGGCTTTAGGTCAAGTG
TACACGCCGATGGTTCCTGTAATTCTGTGTACAGTCCGGTCTTMCCTACTGAGTGCTCACTCACAGATCCAGTGCTGCTTCGGCAGGGACAGACGCATGT
CTAAAATATCTAATAAGCCTCTTGAATTCAACGTGCCTAAAATAGGAACTCTTCATTTTGCCCTATTTCATCCTATCAAAATTGCTTCCCCCATGGGCTT
CTCCATTTCCAAAACTGGTACCAGTTGTTCAAGTGAGAGAGCTGAGAGTATCCCTGATTCTTCTCTCCACATCACATCAGTCTCTCAATAAGTTCTACTA
GGGGACCCTCAGAATACATCCTAAATCTGACCTCTTCTCACACTCCCATCAGGACTGCCCTAGTCCCAGCCCAGGCCCCCTTGTCTCTCCCTGATCTCCT
TAGGTGGCCCTTGCCTGTCTCCCACTTCCACCCTTGCCCCACTGGGGGCTGTTCGCCAGAGTGATCTCTTACAAAGAGACATCAAGCATGTCAATCCCCT
GTCAAAACTCTCCAATAGCTTTCCATCACAACCAAACTAAAACAGAGACATACAGGACCCTATGTGATTATGCCCCTGCCAGTGTCGCCGTTCTCACCTC
CTTCCTCCCTCCATCACCCGCTCAGCTTTAGCTGTGCCAGGGCTGAAGAGATCCCACTCCAGGACTCCTGCATTTGTGGTGTCTGCCTGGAGCTCTTTTT
TTCTGTGCATTTTTACATGCTTGCCCCTTCACTTCATTCAGCTCAAATGTTACCATTTCAAAGAGGCCTCGCCTGATTCCCATATCTAAGTTAATCTCTT
TTTCCTCAAGCTGCCCTAACCTCTATGCTTATTTTTCTATGGAGTGCTCATCTCCMCCTAAAGTTGTAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCAC
GCATTTGTTTACTTGTTTATTATTCAAAGCCTTCACTAGGAGGTAAAGCCTGTGAAGAAGTGGGCAGGGTGTTGTTTACAGCTGCATCTCCAGTGTCTAA
AAAAGTGCCAAGTACACAGTAGGCACTCAAACGTGTTAAATGAATTCACGATAATCACCTACTTCAAAGGGTCGACGTAAGAACTCGAGGCAGTGATGCT
TGTGAAGCCCTTGGTATGGTGCCTGGCACACAGTAGGATGTCRATAAATGTTAGCTCTTACCATTATGTAACAAATCCTCTTAGAATAAGGATGTCCTTC
ACATTTGCCACAGCTACCACACCTTTCAGACGGAGGGCCCCGCGGTCTCTCAGAGATCTTCTGGGCCAGGCCCCCGTGGGGCTGCGTGTGCTGGGCCTCC
AGTTCTAAGGGACCACAGTGCACCCCTTATCAGATGTTTGTGTTTAGACTCTGRAGGAGGCAAATAACTCTAGTTCTTTTGACAACATTTTGGGCTCTGC
CACCATTTTATTATGTGAGCAAACATTTGATAGCTGGGAAGCCCATCCCTAATGACAGGCCATAGAATCTCACTGGCGTCTCCTTATCTGCCCTTCTTGT
TTGCTCTTCTTTTGAAACCTGCAAGGTCACAAGCCGTTTTCTCTCTCCTCCACCTGAAATCTGAAAATTGGAAAAAGGCTGATAGTGGGAAGTAAAGAGA
CTTGAGAGTGGGGGTGGGCCAGGGGAGGAAGAGGAGGCAAAGGGTATCAGAGGACCCTGACCAACGTCTCAAGAATGTGGAAGGGTCAGAAGCCTGTCTC
CTCACATGCACGCACTGCTCAGCCCCCCTCTTTTTTTTTTTTTTTTTTTTTTTTGGTGAGACCAAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTAGC
ATAATATCGGCTCACCACAACCTCCGCCTCCTGGGTTCAAACGATTCTCTTGCCTCAGCCTCTCAAGTAGCTGGGACTACAGGTGTGCACCACCATGCCC
AGCTAATTTTTGTATTTTTAGTAGGGATGTGGTTTCACTATGTTGGCCAGGCTGATCTCGATCTCCYGACCTTGTGATCCACCTGCCTTGGCCTCTCAAA
GTGCTGGGATTACAGGCGTGAGGCACTGCGCCAGGCCTTCAGCCCCACTCTTAAGAGTACTGAGGAGCAGCAGGGGCTTGGGCYGAAGAACCCCATGTTA
ATAATAACAATTGTGCCAAGGACCATGCTCAGGACTCCACAGGTGTTGACTCATCTAATCACACAACAACTCCCATATTATAGGGGAAGAAACTGAGGCA
CAGAGAGAGTAACTTGTCCAAGAGCACAAAGCTTAGTAGAAGGCTCCTCACCTCCAAGCATGATTGAAAGAGCACATGCTGAGTGGCCACCTAGACAGCT
AGTTTGAAGCTGTGGCTCCACACTCTCCTAGTTCTTAAACCATGGACAATTCACTGACTCTCTTTTAGCCTTGTTTTCCTAATYTGTCAAATAGACATAA
TGGTATCCTCATATAGGGTTATGGTTGGAGCACTGATCAATGCGATAACAGTGGCCTTTAGTGGTATTGGTAGGTGTAAGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTTTGGGGGGATCTTGAGAGAATAAGCCACTAAGTCAAAGGCAGAACCTTAGATGCCGGCAAAAGCAAAAGGGAA
GGAGGAGACACAGGGAGACAAAAAGAGACTCCCCAGAAGTGAAAAGGAAAGCAGTGACACTCCATGACAGTTCAAATGAATAAGGCCCAGGCACTGGAGG
GCAAGGCTGCCCTGAGTTGGGTGAGGTGGCTTCTCTCGAGGGCTTCTCCAGCCATTCTGGGGTCTCCTGCCCTGGCCCACCCACAAGGATGGCATCAGAG
GCCTTCAGCCTTTGGATCCTTTCCCTGGTCCTCTGAGTTTCTTATGCTAAAGTAAGAAACCCGTAGAAAGCACTTTGCAATTTGCAAAGCTCCTTCCTGA
TGAGTAGTTTGAGTGGTCATTTTCTCGTGTGCTTTCTGGCCTTGCTGCCCTAGGTGAGCAGCACTGGCACACCCTGGGAACTTGTTAGAAATGCAGACTC
TTAGGTGCACCCCAGGCCTACAAGTCAGAATTAAACCAGAATCCACATTTTCACAGGCTCTCTGGTACTTGTGGGTCCGTTAAAGTTCGAGAAGCATTAG
TATAGGAGGCCTCTGCTCTTAGCGGTCTTAGGAAGAGACCCTTGCTTCCACGAGAGGCAAGAGCTCACCATCCAGCTGCCTTTTCAAGTACACTAAGCAC
TCTATAAATGCCACTGTCACAGAAAGAGGAGCCCAGCTTCAGGATTCAGGTCAGCAAGTTAAGACTACTTCAAGGTCCCCAGCAATTCACTTCTTTCTTC
TGAAGTGGCCAGGAAAGCCGGCTCCCGGGTTTTCCTGCAGGAAGTGTGCCTCAGCATGAAAACTGCAGAACTGAGCAGACACGAGGCCCCCAGCCCTCCA
CCTGCTGCTCTTTGCTGGTTGAGTTGGGCATCATCTCCCTTAGAGAAGCCAAACTAATGGCCCATGACCCTGCCAAATGACACAGCTGAGCACCCTCTCT
CCTCTCTCTCTGCAGTGTCCTCTACAAGCCTGGTGATGCCCACACACCACTTACTTCGTGCGCAACAACAAGGACCCTGTTTTCCACACCATCACCCTCT
GGGCAGCTGTCATGGAAAAGCCCAGTGACCTGACMRGCACCTGCGAGAGGTCCCTGCTTACCTGACGGACGTCCTGCTGGCACCTCAGACAATCCACTCT
CAGGAGGCGCAGCCCGAAGCCCAGTTTCCCTTCTATGCAGTATTGCCACAATGCCTCTCCCACGATGTCAAGGACTCCTGTCTGTCCTGGAGGTGGGAGA
CAAGGAACCWCCGAAGAGGAAGCAAGAAAGCCGTACTGTCTATGTTGTGATCCTTCATCGAACAAACTGATGCGAAAACTTGAATCTGTTACTGAAATGA
GGAGAGAAGGACATGTGCTRTTGAACTGAGCCAAACACACTGTAAATATCCACAGACTCCCTCCCCTGCCCCCATCCCAMATGATCTTGAGATTTCTTTT
AAAGAAGTAAATTTGTCCAATGGCTGTAAACTATAAACTACTGTAATTAAGTGCAATTTCCCCTCTGTGTCCTCTCCCCTCTGCCCTGTATATAATACTA
AAGTGTCTATTAGTTTTCTTTGTAAAGGTCAGAGTCAAAATTTCAAAAGTGATCTGTCCCCTCTCCCCTCATGGAGAAACATCCTAAGTGGGAAGTGAAG
CCCCTTGTCCTCTCCCGCGGGCCTGGACACTTATGGGGACAGCATACCTTGGACTGACTACCAGCTAACTCCAGTCTCCTGACATTAAGACACACCTCTG
GATCCCTGGAGGGGCTGAATGTAGTGTGTCAGAGTAACATGCCAGCTTCCTGTGGGCCAGGAGCTCAGCCGTGCACTCCCTAAGAAACCCCAGGGCAGGG
AAACTGGCTGTTTGATAGCAGAAGAAAAAGTTGCAGTCTCAGAAAGCCTTCCATTAAAASAATTTATTTTATCACTACCCAGAGTCTCATATTTCTGTCT
CTGATACTTTCCCTGCCATGGTTCCACCGAGAACCCCTGGCCCCTGGTCTCCTTGGAATTTTCTGTATACTCCACTGGGATCCTGTAGTGTGTCATCTAG
GGGTGTAGAGAGGTGGGTGGCCTTCTCTTGCCGTCATGCTCCCAGTGTCTGTGTAGGCTTTACTGCTGATTGAGGTGAAGAAGAGTTGAATSCCCCAGTA
AGACTCCACAAGTCGCTCAGAGGGAATCTGGCCAGAGCAGGAGCTAGCACCCTTTTCTTCCCTGCAACTCACAGGGGTAAAGTCATAGAGTCAATTCTTG
GTGGGTGACATGTGATAGAAACAGACAAAAAGTAGGATGAATGAAAACTCTGCGGGTAAATTGTTTAGCCTCATTTAAAGCATTAATTCCAGCCTTTCTT
CCTGCCCTCCTTTTCCTTCCCTTACAGCTCTCAGTCACTAAGTGAATGGGCTCTTGTGGACGTCACCTCTTGCCCAAGATTCTCTCTCTGGTGGGGATGC
TAAGGAATACAAATAGTCCAAACAGTAAAAAGCCAAAGGCCCAGAGACTCCACCAGCAGGGACTTTACCACAAATAATTCAGTGCTGACTCCAGAAGAAA
GGAAGATGGACCTGTCTTCTTTGCTGTTTCCTTTTTTGCCAAACAGCATAGGCCTACTGCCCTGTGGTTCTTCGCTTTTAGGCAGAGCATGTCCCAATGA
AAGTGGAAGCAAAGATTGTGCTAACCAGGCCATGAGTGATGGATTTTTTCAAAATCCCATTGTAGTGGGAGATTCAATTCTCAGTGAGCTGGGCAAATTT
ACTGAGTACCTAGTCTGTGGCCAGAGCAGCAATGGATGGACAAGGAAATACTGACTTTAATTGATTCCTAGCTCCCCCTAACAATGTAATTTGGATTGAA
ACAGTGAAGAGAAAAGTTCATGACTGGGTTGAGGAGGGCTGAGGACAAGGCCGAGCACTGCATATGGAGAGAGGCCAAGATCCCCTTTCATTAGCTGAGC
TGTCCTGTTGGATGGCTCCTGTGAGCTCCGGGAAGAGGAAAGGAACATAGGCCTCAAGCTCCAGCCCCAATTGAAGCCCTATATCTGGACTCGTGTTGTT
TCTAGAAAAGCAAGCATCTGCTTTTGATAGATTTTAGATCTTGCATTTAGACCCTGAAAACCCAGAAGGTCATATTTATCTAACAGGTCATCTGGGCAGA
GGTGTAGATGGAAGAGAGGGAGGATGGCTGGGTTGGGGACAGTCTCTAGAGAGTTTTCCTAACGAAATCCTATTTGAACGAAGATATGTAGACAGCTGAC
CCTGGCAACTGAGAGCCCCAAGGATGGTTAGCTTCACCTTTCTAAATCAAACAGGGACCTCCCTCCACTGGCTATACAAGGGCCAAGGGGAATCACACAC
TCTGAAGATTCATTGGCAAGCTTCAACCCCCACACCTTCCTCCCACCACCTGATGGACCAACAATCTCCAGGGTGTCTTTTCATACCCTGACCCCAGGCT
CACAGACAGATGGTTCCATTTTTATCAGAGCCAGCTGTCACTTTCTAGGGTGAGCCTGAGGAAGGCAAATTTCATTTTAACATCCATGGATAGGAAATAA
AACCAGTACTGAAAACTCGCCTTAAACTGTATTAAACTTTTCCATGCTAACCAGTTATGGGGTATTCCACCAAAGGCAGAGATAACGCAGTGTTAGCTGC
TGAATTCAGGTAGATAAGAAAGAATACAATGCAGACAGTCAGGGAATCTGAGCTCTTGGCCCACAGTTGGGGGCAAGTCTTTGAATTACCTTTGGAGCCA
AAATTCCTTGATCAGAATCTCCAACTCCACCATTTAACCTCCCTGGCCCTTAGTGTCCTGCTATGTGAAACAGGAATGATAATGGTAGTACCTACTTTAT
TAGATTGTTTGAGAAGTAAGAGGGTTAATATATGTTAAACACTTAGAACTGTATATACAATGGGTATTGTGTGTTAGTATCATCTCACCCCAGAGTGCCT
TCTCCTGTAGTCTTGTGTAGTCTTCTGGGTTTGGTTGACATTTCCAGATAACTTCATCACCAACTTGACGTTTGGTTAAAAAAAAAACAAAAAAACAAAA
AAAACCTGCCAATAATTGGTAACGTTTTTGTTCTTCTGTATGGTATATGGCAAATCTCAGTGGTAAACCAAGGCTGAGTCAGGAAGGAGAGGCCTGAGGA
GAAGAGAAAGGCTTCACTGGAGAGAGTCTTTGTCCTCCTTAGGAAAAGAAGAAGATAAAATGTGATGATCTTATATGAGTGGGAGGGCCACAGAGAGCAC
TGGGAAGATGGAACTAAAACTGGCTTTGTGTTCTAAAAAGTGGGTTGGGGATCATGGAGGAATCCAGTGAGCAAGGAAGAGTGAGGGTCAGGAAGAGGTG
GGAGCTAACTTCTGTCCAAGGAAAATCAGGGTCAAGGTGTCCCCTTTGACTTAGGAATTAATTCAAACACGCCATCCAAAGCTGCTCTGGAAAATGAGAT
ATGACATATCCATGCCTTAATGCTTCAAACACATCCCAACAGCATCACACAGGCTGAATATTTATGAGAAATTGCAATCAGCTGAACCAAGTGCCTGTTA
GGCCCTTCCTCCCCACCCCCCTCCCTCCTCCTCTTCTCCTGGGTGCAGAGGTCATTCTAGCTGGACAAATACTGGATTGTCTGCCGAGATTTATAACATG
ACTATTTTACAAATGAATCTTTAGAGTTTGCAGGACTTTGCACGTGCCTGGATGAACATTCCTTTTTCCTGGGTGCATGCCTATAGAGAAAACACTTTCT
AAGGGAGAACCTGCAAAGCAAATATGAGGGGGACCACATCAAAAGCAGGAAACACCAAAGCAGGCTTCACACGATCTGCATATGTACGTTTACGCCAACA
GATCACGCAACACAAAAACAAGATGTTTCTTTCCCCCGTCTTTTATTTTTTCACCAGATACACACTGTTATATTCCCCAAAGAAAGATTTCTTTCCTGTG
CCATATTGTCTTGACATCATTAATGAACTGATATATTAGATTATCCCCAATTAATTATGAAGGTTGAAGGTAATAAATGGATAAAGCTAATTTTTTAAAA
AGACCAAAAAATACCAGTATAAGGAAAACATGTCTGATTTCCTGAGCCATTACAAGATCTTCTGTGTATATCTTTGCTTTTGTAAATACATAATTCAAAA
TAATATTTCCCCTTCATTTATTCAAGAAATACTTACTGGCACTTACTGCATGTCAGGTACTATCGTTCTAGACACTGGAGATCTATCAGTAGACCAAATA
GATAAAAATCCTTACCTTCATGAACCCTACATTCTAGTCAGGGAGATAACAAATAAATGTGTGAATATATGTATGTGTATGTGTGTGTGTCAGATGATTT
TAAAAATCTATGCAAATTGGCCGGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACCTGAGGTCAGGAGTTTGA
GACCAGCCTGACCAATATGGGGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCAGGCATGGTGGCACATGCCTGTAATCCCAGCTATTCGGGAGGCT
GAGGCAGGAGAAGCGCTTGAACCCGGGAGGCGGAGGTTGTGGTGAGCAGAGATCGTGCCGTTGCACTCCAGCCTGGGCAACAAGAGTGAACTCCGTCTCA
AAAAAAAAAAAAAAAAAAAAAAATCTATGCAAATTATAGCAGGTAAAGGAGATACTAGGGGTAGCCATTTATTTTTATTTATTTATTTTTAATTTTTTTT
TGAGACAGAGTCTCACTCTGTGGCCCAGGCTGGAGTACGGTGACACGATATCGGCACACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTC
AGCCTCCTGAGTAGCTGGAACTACAAGCACACGCTACCATGCCCGGCTAATTTTTGTATTTTTTAGTAGAGACTAAACATGGGTTTTGCCATGTTGGCCA
GGCTGGTCTGGAACTCCTGACCTCAGGTGATCTGCCTACCTTGGCCTCCCTAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCTGGTAGCCAT
TTTAAACAGTATGGACAAGGAAGAAGAGAGTGGCCACTGAGAACGTGACGTCTGAGAGCCCTAAGGCTGCTGAGTCAGCCATRTGGACATCTAGGAGGAG
AGCATTCCAGGCAGAGGTAATAGCAAGTGCAAAGGCCCTGGGGCAGGAAGAGAAACATATAGCAGAGCCGCTAGAGCAGAGAGAGAGGGATAGTTCTGGT
TCACAGAGATAAACAGGTGCAGGGGCACAATGACAAAGGGCCTTGTGACCATTTGTAAGCACTTCGGCCAACTGGTGTAAGAACTTTGGCTTTTACTTTG
TGTGAGCTGGGAGCCAGCAGAGAATTTTGAATACAGCAAGGACAAGATACGACTTCTGTTTTAAAAGGATCCCTCTGATTGCTGAGATTTTGGGGAAGGG
AGTGCCAACAGTGACAGCAAAGAGATTATCAGGAAGTTGTTGCCATAATCTAAGCATAGGTGATGAGAGCTGATCTGATTCTGTATTTTGAAGGTACAGG
ATTTGAAGATACCAGGATTTCCTGWTGGTTTAGATGTAGAATGTGAGAAAGAGTGATAAAAAATAATTCCAAGATTTGGGCCCTAAACAAAGTAGGAAAT
AGAAATTAGTGTTGTTGGCCAGGTGTGGTAGCTCACACCCATAATCCCAGCACTTTGGGAGGCCAAGGCAAGAGGATCTCTTGAACCCTGGAGTTTGTGA
CCAGCCTGGGCAACATAGCAAGACTTTGTCTCCACTAAAAATTAAGAAAATCCAGGTATGGTGGCGTGCACCTGTGGTCCCAGCTACTCAGAAAGCTAAG
GCAAGAGGATTGCTTGAGGAGGTCAAGGCTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACCCTGTCTCAAAAAAAAA
TAAAATAAAATAAAAAATAAAAATAAAAATAAACCCTGCTGTTGTAGAAAGTGAAAAACAATGTTACACAAACATAGGCTGTATCTTGGTTTTTCTTTAA
AGTGGTACCTTAGGAAGCATCTTAGTAGTATGTTATGCTGTAATGTGATATTATCATATCCCTAATATGATGTCAGGCTCTTCAGTAACATGACATTCAT
TTGGTTGATGTATTAGTCCATTCTCACACTGCTATAAAGACATACCTGAGACTGTATAATTTATAAAGAAAAGAGGTTTAATCAGCTCACGGTTATGTGG
GCTATACAGGCTTCTGCTTCTGGGGAGGCCTCAGGAAACTTACTATGATGGTGGAAGTCGAAGTGGAAGCAAGCACGTCTTACATGGCAGGCAGGAGGAG
GAGAGAGAAGGGGGACATGCTACACACTTCCTTTTTTTTTTTTTGGATGGTAGTTTCGTTTTATTTTATTTTATATATATATATATTTTTTTATCATACT
TTAAGTTCTAGGGTACATGTGCACAACGTGCAGTTTTGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCATCATTTACATGAG
GTATATCTCCTAATGCTATCCCTCCCCCCTCCCCCACCCCACAACAGGCCCTGGTGTGTGGTGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTATTCAAT
TCCCACCTATGAGTGAGAACATGCAGTGTTTGGTTTTTTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGA
CATGAACTCATCATTTTTTATGACTGCATAGTATTCCTTGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTC
CAAGTCTTTGCTATTGTGAATAGTGCCACAATAAACATACATGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATG
GGATGGCGGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTG
TAAAAGTGTTCCTATTTCTCCACACCCTCTCCAGCACCTGTTGCTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTG
GT


SNP Information

Context             (SEQ ID NO:41010):
CAGCCCGAAGCCCAGTTTCCCTTCTATGCAGTATTGCCACAATGCCTCTCCCACGATGTCAAGGACTCCTGTCTGTCCTGGAGGTGGGAGACAAGGAACC
W
CCGAAGAGGAAGCAAGAAAGCCGTACTGTCTATGTTGTGATCCTTCATCGAACAAACTGATGCGAAAACTTGAATCTGTTACTGAAATGAGGAGAGAAGG
Celera SNP ID:            hCV2559947
SNP Position Genomic:     64810
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:41011):
AGAGTTCAGTCAACAGAGCCATGGGCCTGGGCAGTCCGATGATGCCTGCTCTGAGCCCACCAACAAGAAGATGCGCCGCAACCGGTTCAAATGGGGGCCC
R
CGTCCCAGCAAATCTTGTACCAGGCCTACGATCGGCAAAAGAACCCCAGCAAGGAAGAGAGAGAGGCCTTAGTGGAGGAATGCAACAGGTAACACCACCA
Celera SNP ID:            hCV27528033
SNP Position Genomic:     17432
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41012):
TTGAATCTGTTACTGAAATGAGGAGAGAAGGACATGTGCTATTGAACTGAGCCAAACACACTGTAAATATCCACAGACTCCCTCCCCTGCCCCCATCCCA
M
ATGATCTTGAGATTTCTTTTAAAGAAGTAAATTTGTCCAATGGCTGTAAACTATAAACTACTGTAATTAAGTGCAATTTCCCCTCTGTGTCCTCTCCCCT
Celera SNP ID:            hCV11415601
SNP Position Genomic:     64980
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:41013):
TGTGTGAATTAACTTGAGCGAGAGCTCACTTATCACCAAGGGGATGGCGCTGAGCCATTCATAAGGGATCTGCCCCTGTGATCCAATATCTCCCACCAGG
Y
CTTACCTCCAACACTGGGTATCGTATTTCAACATGAGATTTGGAAGGGACACACATCTAAACCATATCACTAGGTATCAAGGACATACGAGTGAGGGGAG
Celera SNP ID:            hCV27452517
SNP Position Genomic:     57300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41014):
ACACAGTGCATTGATTTTGGCAGAAGGAAAATGGGAATGGGGAAGCATTTAGAGAACTCACAATATAAATGATCATTTTAAATGTATTGCCTTTTGACTG
R
GCCCTCTGGTATATGGAATATGGTAATTATACTAATACCAGAGTTTGGAATGAGATAAGATACCTAAAACCAGCTTGTTTGCCATTTAGAAGATTTGATT
Celera SNP ID:            hCV29194719
SNP Position Genomic:     47425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41015):
AAGCAAGAAAGCCGTACTGTCTATGTTGTGATCCTTCATCGAACAAACTGATGCGAAAACTTGAATCTGTTACTGAAATGAGGAGAGAAGGACATGTGCT
R
TTGAACTGAGCCAAACACACTGTAAATATCCACAGACTCCCTCCCCTGCCCCCATCCCACATGATCTTGAGATTTCTTTTAAAGAAGTAAATTTGTCCAA
Celera SNP ID:            hCV11415603
SNP Position Genomic:     64920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:41016):
CGCGACTGAAGGTGCGAGTGGGTGCAGTGAAACCGCTGCGACTTCCCGGGAGCAGAGCCTCGCGCCGCTGCAAGCCCCAGGCCGCGCATTTTTCCTGCGC
S
CTGCCTCGGGTCTGGAAAGCCGCATGTCGGCCTCGGACACATTGACCTGCATGATGACCTGCAGTTCTTTGCCGAAGGACAGGCGGCATCCGGAGCCGGG
Celera SNP ID:            hCV2559879
SNP Position Genomic:     6950
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41017):
CTGTGCAGTGTGGGAACTGTTTGGCCTCTATCGATTACTAGATAAGTAGGTGACAACCTTGAACTTCATGTCAGAAGCTCTCAGAATTTGGTCTTGTTGA
W
GGTCTTTTTTTCATCTGAGCCCTGCAAATCACACTTCATCCACTGCCATGGGCTTCCCAGGAGGTTCCTTCATGGGATCAGGGTTCTCTATCCTTTCCTT
Celera SNP ID:            hCV7450620
SNP Position Genomic:     52916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41018):
CATCAACAGTGTGGCCGGCAGCCTGGCAGCCCTGCAGCCCGTCCAGTTCTCCCAGCAGCTGCACAGCCCTCACCAGCAGCCCCTCATGCAGCAGAGCCCA
R
GCAGCCACATGGCCCAGCAGCCCTTCATGGCAGCTGTGACTCAGCTGCAGAACTCACACAGTAAGGACACGGGCATGTGGAGGGAGGGAGCACTCAGGAC
Celera SNP ID:            hCV7450621
SNP Position Genomic:     50022
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): Scandinavian, non-diabetic without a family history of diabetes(A,3|G,180)      total(G,180|A,3) ;(G,-|A,-)   ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41019):
GTTGAGGGGGTTGAAAGAAGTGCTCTTACATAGGGGTGAAGAGCACAAGCCTTGCTGTTGTGAGACCCCGGCCAACTTACTTATCACCTCTCCAGGCCAC
R
CTTCCCTCATCTGTAAAACCGGAATTATAATCATGACTTTTAATTAATGGAGCCACAATGAATCTCACATAAGTTCATGGTCATAGAAGTGACTTATCTG
Celera SNP ID:            hCV2960802
SNP Position Genomic:     60542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41020):
CGTAAGAATTAGATGAAGGAATATATTTAGAGGATTTGGCACAATACCTCACCACAGAAAAGGTTCAATAAATGTGAACCGTTATTGTGTCTGTTCACAT
Y
AAATGAAAAAATCTCACATTGCTCCCAGGCCCTTGGGATGATCCACACTGGCTTTCGCCATTGGTGACTCTACTGGTGCCACACAGGGCCCACGGGGAGG
Celera SNP ID:            hCV11415608
SNP Position Genomic:     14770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41021):
TATGTTCGATTACTGGATTTTTATTCATTAAACAGAATTAATTTTATTTGACATATTTAAAGGCGCCATTTAGAAATAAAATTGCTTATTATGTTGCAAT
R
CTGTATCTATTTCAGCCTCTACACCGTTTTCTTTTTTGTTTCACCTGAAACTAGTTTTCCCTTCCGTTTTTTTTCTTGTTCTATCAAGCTAATATATATA
Celera SNP ID:            hCV2960803
SNP Position Genomic:     9915
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41022):
GCTGGGTAAAAGAGGTTCAAAGGCTCATGGTTCTGCAGGCTGCACAGGAAGCATGATGCCAGCATCTGCCTCTGCTGAAGGCCTCAGAAGGTTTACAAGC
R
TGGCGGAAGGTGCAGACAGGGCAGGTGCATCACGTGGTGAGAGTGTGAGCAGGAGGGAGAAGGGAGAGGCCCTGCCCTGGGCTCTTATTTATTTATTTAT
Celera SNP ID:            hCV16231973
SNP Position Genomic:     54513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41023):
CACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCAACACATTTTTAAAAGATAAGAATCCAATAAAAAGATTACCA
S
AGTTTTATACCCGTTAAATAGTTAAGAAATATATCAATGCTATACAATAGTAAATATGGCAAGTTTGCCTAGGGAAGTGGGCATCAGAAGTGCTGCGGGT
Celera SNP ID:            hCV16231974
SNP Position Genomic:     35254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41024):
TTACAGGGGTGAAGCACCATGCCCAGCCAATAATTGTTATTGAGTGAATGAAGGAATGAATTTGAGAACTAGTCATGCCAAGGAATCGCTAAGTCACATC
R
TGTTGGAAACTGCTCTTTGTGGTCCAAGTCCACCCATGTTTCTCTTGTTTTTTTCTCTCCATCAGATCTCAGTCTCAGGAGGAGGTTTGCCCCCAGTCAG
Celera SNP ID:            hCV25606360
SNP Position Genomic:     45948
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,36)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:41025):
ACTATAACCACCAGCCCTTTTATCTACCTGAGGAGATGGGAGCTATGGTGTGGGATGGGGGCTCTGTACCTGTGTCTTTGCCTGTGTATGCACCTTGATT
Y
TGTCTTCACTCTGTCTCTCCAGTGTACGCACACAAGCAGGAACCCCCCCAGTATTCCCACACCTCCCGGTTTCCATCTGCAATGGTGGTCACAGATACCA
Celera SNP ID:            hCV25606361
SNP Position Genomic:     51847
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:41026):
TTCTTCCCCCAACTTCCCAGAAAGCAAGAACACAGGAACACAATCGACCCCAGGAAGCAGGTCCAGGTGTCTTCTCTCCTGATCGTCCTGTCCCCACTCC
S
ATCCTACCTTAGCTGTCTTCCTCCGTGTCGCTCTCAGGGAGGAGATAGAGCATGGGTACCAGGGGATCCAATCCTCAGAGTGCTGGCCCGGGTTCTAAAG
Celera SNP ID:            hCV27457609
SNP Position Genomic:     49001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41027):
CCCTGGTCGTGGTCTCTGCAAACAAAAATGAAAGGGCATTCCTGGGGGAGGCATTTTGCAGCCCTCTTCTCCTACTCCCACCTATCCCTTAAGAAAGATT
M
TTCTCCATGTGAAGAACCACTTGTGTCAGTTACCTGTGAGAGGCACAGACAAGTCTTTCTGACTTCTCAAGAGTGTCCCAAACAAGTTAGGGTTAAGGAT
Celera SNP ID:            hCV29194720
SNP Position Genomic:     42332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41028):
GCCCTGGTCGTGGTCTCTGCAAACAAAAATGAAAGGGCATTCCTGGGGGAGGCATTTTGCAGCCCTCTTCTCCTACTCCCACCTATCCCTTAAGAAAGAT
W
CTTCTCCATGTGAAGAACCACTTGTGTCAGTTACCTGTGAGAGGCACAGACAAGTCTTTCTGACTTCTCAAGAGTGTCCCAAACAAGTTAGGGTTAAGGA
Celera SNP ID:            hCV29194721
SNP Position Genomic:     42331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41029):
AATTCCTTATTCTCTACTCATTCTCACCTCTTCATCCTATTCTCTTTCTCATCTCTTCCCTGGACTGGATAGCATACTTCCCAAGCAAGAACCAGTGCCC
R
GAAACAGAAACAGATGAAAAGGTCAAGACTTACCCACTGAGGGAGCTGGAATGACATCAGAGGCTCTCAATCCTGGAATTGAGGCACATCAGGATCACAG
Celera SNP ID:            hCV27452521
SNP Position Genomic:     48135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41030):
ACAGAAGGCTAGTCTCAACCCCCAAATCCTCAAAGAACTGTGCGGAAGCAATAACAAACAGAATCCATCCAGTCATTCATTTATTCATCAGAAGTTTACC
R
AGTGGCTATTCAGTGCCAAGGCACTGGGGATACATCAGTGAACAAAACAAACGAGATAAAAATTTCCTGCCCTCGTGGCGCTTACATTCTAGAATTAAAT
Celera SNP ID:            hCV29194722
SNP Position Genomic:     40119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41031):
GCAAGGCCCGGAATTATCCGGGATCCCCAACGCGGGTTTAGATTTGCAAAGGGCATGTTCCATGCAGGGTCCGGGTGGACACGCGCGGGGCCAAAGAAAC
S
AAGCGCGGTGGTGTGGGGGCGAACGCGTCTCAGACCTCAGTTCGCAGAGGATCTGGTCTCAGTCTGAGAAAGGAGGGCGTTTCCAGACCTCGCTGCCCAC
Celera SNP ID:            hCV2559880
SNP Position Genomic:     7199
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41032):
GCAGTCTGCTAGGCTATAAGGATGCAACAAGTAAAGACTCATCTCTTTCTTTAAGAGGCAGAGAAAAGTAAACATATCATCAGCGTGCATGCAGGGTGAC
Y
GACTCCTGCCGTAAGTCTCTGTCTAGTGCATGTAAAATACAAAGGAAGGAGCAGCCATCTCCCAGGATGAATCAAGAAGAGCTTCACAGGGGGGCGACAT
Celera SNP ID:            hCV29194723
SNP Position Genomic:     35873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41033):
CTGCCTCTGTCCTTAAGAAAAGTAAAGTGTTTAGGGAGAAGGTAGAGTTATCAGGACACAGTACTGGGTCCATCAAGCCTGGCCCAGTCTCTCCCTGTCA
Y
CTCCCCAACATAATGATTTGGCTTCATAGAAAAGATGGCTGTGTCTACTCATAATTTATGAACAATGAACATAGTTATTACCTTTTGGAAGAGCTTTCTC
Celera SNP ID:            hCV29194724
SNP Position Genomic:     33503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41034):
ATTATCTAAGGAGCCGAGCGGTTCCCTGAGACAGCACGTCGCTCCCGGGCCACTCCGCTTTAGGACAGAGCCCATCGCGTGGCTTCGGACACTGAAGCGC
Y
GCGATTTCGGGGCTGAGCCTTGGCCGCACGTCCGCAGCGGCGGTTTGGGGTGGGATATGACCTTGCATTTGAATTTGTGCTCCGAGGGCCTGGCGGTTTG
Celera SNP ID:            hCV2559881
SNP Position Genomic:     7506
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41035):
CATGTAGACTTTCCCAAGGGAAGCCTACCTGAGCCAAGGTGAGCTGGTTATGGCCAGTCCCTTCTCAGGACCGGATTCAGATGCGTGTGTCTGGGTAGCC
M
AGTATAGCACCCAAATCAGGCTTGGCTTGGGTTGTGGTTCTGTCACTATCCGGCAGTGTGACCTTAAGTTATTAGCTTCTCTGTCCCAATACCTATCCCC
Celera SNP ID:            hCV29194725
SNP Position Genomic:     28595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41036):
AGGTGGGTGGCCTCATCATCTATCCCCTTCGGCTATTCCTCTCCCAGCTTCTTCACTGGGTGAGGAAGCAGAGTGTTCTGATGGTTGGGAGCATCGACCT
R
GGAGTTAGGCAGATCTGGGCTCAACATTCTACCACTTTCTACCTGTGTGACCTCAGAGAAATGTCTTAGCCTCTTTGAGCCTCTGTTTGCTCACCTGTAA
Celera SNP ID:            hCV27456951
SNP Position Genomic:     60135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41037):
TATCTAAGGAGCCGAGCGGTTCCCTGAGACAGCACGTCGCTCCCGGGCCACTCCGCTTTAGGACAGAGCCCATCGCGTGGCTTCGGACACTGAAGCGCCG
S
GATTTCGGGGCTGAGCCTTGGCCGCACGTCCGCAGCGGCGGTTTGGGGTGGGATATGACCTTGCATTTGAATTTGTGCTCCGAGGGCCTGGCGGTTTGCC
Celera SNP ID:            hCV2559882
SNP Position Genomic:     7508
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41038):
TTGCTAAAGCAATATTCACTTTTAAAATGCAATTTTTCCCCTAAGGTTCGAGGCGTCTTGTTCGTAGCCGTTGAAAGTATTTTTCCATCCTAAAAATATC
K
GTGGAAATATTGACCAGAAATAAACTTTTAAATGATCTGTGATGTTTACAAGGATATGTCTAAAACGTTTATTACATTATTTTCCTCTTAATGTGAATTC
Celera SNP ID:            hCV29194726
SNP Position Genomic:     9485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41039):
AGTGGGCCGTCCTCTGGCTTATAGATGAGGAAGCTGGTGCTCACCCAAGAAATTGATAGCAGAGCTGAGATTAAAACAGGGATCCCCCAGTTTCCAGCCG
R
GCCTCTATCACTTAACCAGGGGCTTTTAAAGGAACGTTCAAAGGTCTAGGCTCATCTGTCTTTTGACAGAGCAGCTCCACCGTTATATTTCTTATATAAT
Celera SNP ID:            hCV27456952
SNP Position Genomic:     37449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41040):
GAGCGTGCGGGACGGACCCTGCGGGCGCCGCGGCCGGCGTTTGACACCTGCGCTTGGGACACAATGGCCGCAGGCCCTCTTCGGGACCGGTGCCTTTCTC
S
GTGTTAGGGAACCTCTGAACCTGAGCTGTGTTTTCAAACAAACAAACAAAAATAACCAGCTCTCCCGGCTCTTCCCGGTGAACACACGTGAATTTTGGGG
Celera SNP ID:            hCV2559883
SNP Position Genomic:     9036
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,1)      total(G,1|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41041):
CCCTTGGAGGGCTGCTAAAATGATCAAGGGTTACATGCAGCAACACAACATCCCCCAGAGGGAGGTGGTCGATGTCACCGGCCTGAACCAGTCGCACCTC
Y
CCCAGCATCTCAACAAGGGCACCCCTATGAAGACCCAGAAGCGTGCCGCTCTGTACACCTGGTACGTCAGAAAGCAACGAGAGATCCTCCGACGTAAGTG
Celera SNP ID:            hCV27860648
SNP Position Genomic:     11547
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41042):
CCACCGTGTTCCCTTAAGACGAAAAGCAAAGAGAAAGAAAAGTCGCGTTTTGGAGTTCCTGGAGTTCTAGTAAACCTCCTGGAAGAGAAAGGCAGGGGAG
R
AAGGTCGGGACTGCGCGCTTCCCGGTCCCCGGCTCCCGGCCGGAGCTGGCCTTTCTCGCGGCCTCGAGGCAGGTGCGCCGGGGGCGTCTAGAAAGTGGGC
Celera SNP ID:            hCV29194727
SNP Position Genomic:     8731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41043):
AAAGGAACGTTCAAAGGTCTAGGCTCATCTGTCTTTTGACAGAGCAGCTCCACCGTTATATTTCTTATATAATAAAGTTTTGTTGGGGAGAAAACAAAGT
R
TAAAAACCACAGCAGCCTTGGAATATGCTGCCTGGATTCTAACAAATGGCTCTTGAGTCTCTCCTGACATGCTCCCTTGTAAAGAAGCCTTTTGTTTCCT
Celera SNP ID:            hCV27456953
SNP Position Genomic:     37577
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41044):
GAACCTCTGAACCTGAGCTGTGTTTTCAAACAAACAAACAAAAATAACCAGCTCTCCCGGCTCTTCCCGGTGAACACACGTGAATTTTGGGGTCAGAGGG
Y
TGTGAAGGTATAACTGCGCCATCTTACTCCTCACTCTTTTAAGTCGGACTTAAAAGGTTTTGCCATTATTTATAAGGTTCTTGGGGGCTTTTTTTAAACC
Celera SNP ID:            hCV2559884
SNP Position Genomic:     9145
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41045):
TGCTGTGATTGTGTGTTTTTGGCCAAGCACCAACAAGTCCCCCCGCCCCCCCTCACTCACCATCTCCCCTCCATCCATTCCCAGGGCAGAATGTTTGCAG
Y
GAGGGGTGTCCCCCTCCAAAGCCCACGGCCTGGGCTCCAACTTGGTCACTGAGGTCCGTGTCTACAACTGGTTTGCAAACCGCAGGAAGGAGGAGGCATT
Celera SNP ID:            hCV27860649
SNP Position Genomic:     19265
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41046):
AAGTTGAAACCATTCTAGACAAATAAAATTCAAAGGTGCTAAAACTAGCAGTTTACACACCTGTGTTTATGAGAAATGAAAAGTATAACCATGTTCTTAT
Y
CAGTATTTAAAATTTATGAGAAACATAATACAGGAAAACAAGCATCTAAAATTGTTAATGTCCGAAATTGAAGTTATTTGTCCCCATTAGCCCAGTAGAT
Celera SNP ID:            hCV2559885
SNP Position Genomic:     10304
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41047):
TTTTTCATCTGAGCCCTGCAAATCACACTTCATCCACTGCCATGGGCTTCCCAGGAGGTTCCTTCATGGGATCAGGGTTCTCTATCCTTTCCTTTGCCCC
R
ATCTCCTTCCAGCCCTAGAGTGCAGTGGAGCAGGTGGGTTCTATTCCTGGTTCTGCCATTTGCTTGGTGACCTTGACCTCCCTGAGCCTTCATTTCTTCA
Celera SNP ID:            hCV29194728
SNP Position Genomic:     53023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41048):
AGGTGATGATTCCAGAGTAACACAATGAGACCTTTTAGTAGCTGGGGTCTGTGCAGTGTGGGAACTGTTTGGCCTCTATCGATTACTAGATAAGTAGGTG
R
CAACCTTGAACTTCATGTCAGAAGCTCTCAGAATTTGGTCTTGTTGAAGGTCTTTTTTTCATCTGAGCCCTGCAAATCACACTTCATCCACTGCCATGGG
Celera SNP ID:            hCV29194729
SNP Position Genomic:     52868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41049):
TAAATAAAACAAGAGCTTTTCTTTTTGCTTAATAAGAGAGAGTGGTGGTGGTGCTTTTTTATTCCTGAAGATGGGAAGTCCTCTTTTGCCCACTAACCTC
R
GAAGAAAGGGATGAGGTGTACCGTACAGGGGCAGTCACCTTCTCCTCTGTTTAGCTTCCATTTTGGCCTCATGTCTACCCCAAAGTTGTAGCTTAGATGG
Celera SNP ID:            hCV2559887
SNP Position Genomic:     11231
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41050):
CCTTGATACGTGACCATCAGTCAATTTCCAAAGAAGACATTTCGTTGCAGTCAATAATATTGATTACTATTACTGTTAATTTCCTCCTCTCTGGAAAAAG
Y
ATCAACAATAGAATGCATTTGTATAGAGAGATATATTCAGAACTTCACCCTGTTCTTGGAGGATAGTGGGAGGGATTGAATCCTGAGGCAATTTAAGGTG
Celera SNP ID:            hCV2559888
SNP Position Genomic:     12084
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,1)      total(C,1|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41051):
CTCTGTAGTTCCTGGAAAGCCTAAAAAAATTCTCAGGAGCCATTGTCTCCAAAGACCCAACAACGCTTGGGCCCTGCCCAATTTAAGCTTTATGCAGCAT
Y
TCCAGTCTGTGCTGCCTCTCTGTATTCAATGAGAATTTCTTCAGAAAGGAGAAGGAGGCAGGAAAGGCAGACTGGAAACTTCTCAAAAGACAGAGGTCCA
Celera SNP ID:            hCV2559889
SNP Position Genomic:     13031
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41052):
GATAACTAATATGAGAAATCCCCACTATAACCACCAGCCCTTTTATCTACCTGAGGAGATGGGAGCTATGGTGTGGGATGGGGGCTCTGTACCTGTGTCT
K
TGCCTGTGTATGCACCTTGATTCTGTCTTCACTCTGTCTCTCCAGTGTACGCACACAAGCAGGAACCCCCCCAGTATTCCCACACCTCCCGGTTTCCATC
Celera SNP ID:            hCV15877661
SNP Position Genomic:     51824
SNP Source:               Applera
Population(Allele,Count): african american(G,11|T,25)   caucasian(G,6|T,30)   total(G,17|T,55)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   JBIC-allele(G,399|T,1088)   total(G,399|T,1088) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41053):
CCATCCAATCCCATCCTCTGTTTCTCTGCCTTTCATCCTGAGTCCCAGGCTTCCAATCCTCTGGCCAGGTCTGGCTATAGCCCCTGACACAGGAGTTTGG
G
AGGAATCATGGCTTCTCTGCTTCAGAAACCCCAAGGAAGTGTTCAGTATAAAGCACTAGTCTTAGATCAGACAGACCTGGATTTAAATCCTGGCTGTGAT
Celera SNP ID:            hCV9267621
SNP Position Genomic:     50846
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,4)   total(G,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41054):
CTCCCGTTCCGTACCGGAGGCCTCCCTGGTAGGCCCTGTGTTCTGAGAGCAGGTGGTCTCTCCCTCACAGCCAAGCATCCACATGCTTTCGGGAGTTGGT
Y
ATGTGACTTGGAATTTACATGAATCTTATGGATAACTAATATGAGAAATCCCCACTATAACCACCAGCCCTTTTATCTACCTGAGGAGATGGGAGCTATG
Celera SNP ID:            hCV15877662
SNP Position Genomic:     51693
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,21)   caucasian(T,2)   total(C,7|T,23)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,464|T,993)   total(C,464|T,993)no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41055):
ACCACAGTTTTATACCCGTTAAATAGTTAAGAAATATATCAATGCTATACAATAGTAAATATGGCAAGTTTGCCTAGGGAAGTGGGCATCAGAAGTGCTG
Y
GGGTTGTGAGTTACTGTGAAGCAGTGGAGAAAGGGTTATCTGACATGGGAAGGAAAAGATGTGACTCCATATTGCATGGATGTGTCTTACCAGTGCACAC
Celera SNP ID:            hCV27457252
SNP Position Genomic:     35350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41056):
GCCCATGAAGAGAGAGCCCATGGTGCCCTGGACCAGGAAATAACCTGCCTCCCTGCATGAGAAGGGCAAGCCGAGGCAACAGCCAGTGACCTTTGCTCCC
R
TTCCGTACCGGAGGCCTCCCTGGTAGGCCCTGTGTTCTGAGAGCAGGTGGTCTCTCCCTCACAGCCAAGCATCCACATGCTTTCGGGAGTTGGTTATGTG
Celera SNP ID:            hCV15877669
SNP Position Genomic:     51598
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,69|G,1426)   total(G,1426|A,69) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41057):
CTGGCCCTTTTCCATCAGCCAAATTAAATAGGCTAAATCCAGAGACTGTTTGACTTGAGACTGAATCGATGATGGGGACAGGCTGGGAGGTGAAAACACA
M
CTGACTCCCAGCGTTATCAACACTCTCTCAGGAGCAGAGCCTCTCGGGGAGGTAAATAGCTGGTTAGGGAGTCAGAGAAAGCAGGAGAAAAACAGGGTGA
Celera SNP ID:            hCV27457611
SNP Position Genomic:     37873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41058):
ACCAGATCTTGTGTGAATTAACTTGAGCGAGAGCTCACTTATCACCAAGGGGATGGCGCTGAGCCATTCATAAGGGATCTGCCCCTGTGATCCAATATCT
Y
CCACCAGGCCTTACCTCCAACACTGGGTATCGTATTTCAACATGAGATTTGGAAGGGACACACATCTAAACCATATCACTAGGTATCAAGGACATACGAG
Celera SNP ID:            hCV27457256
SNP Position Genomic:     57291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41059):
ACTTATACTTTGCAGCACCACGAGGGATGCCAGGGAAACATTTCTAAAAGGCATTTTAAAGAATAAAAAATACTCCAGCCAGTAACAGAAGGCTAGTCTC
M
ACCCCCAAATCCTCAAAGAACTGTGCGGAAGCAATAACAAACAGAATCCATCCAGTCATTCATTTATTCATCAGAAGTTTACCGAGTGGCTATTCAGTGC
Celera SNP ID:            hCV27457612
SNP Position Genomic:     40035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41060):
AAATTAAATAGGCTAAATCCAGAGACTGTTTGACTTGAGACTGAATCGATGATGGGGACAGGCTGGGAGGTGAAAACACAACTGACTCCCAGCGTTATCA
M
CACTCTCTCAGGAGCAGAGCCTCTCGGGGAGGTAAATAGCTGGTTAGGGAGTCAGAGAAAGCAGGAGAAAAACAGGGTGAAGTCCAGTTCCTCCAAAAGA
Celera SNP ID:            hCV27457257
SNP Position Genomic:     37893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41061):
AGGGTTTCACCATGTTGGCCAGGCTAGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCAC
S
GTGCCCGGCCAACACATTTTTAAAAGATAAGAATCCAATAAAAAGATTACCACAGTTTTATACCCGTTAAATAGTTAAGAAATATATCAATGCTATACAA
Celera SNP ID:            hCV27457613
SNP Position Genomic:     35201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41062):
ACCATACCCAGCTAATTTTTGTATGTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTAGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTC
R
GCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCAACACATTTTTAAAAGATAAGAATCCAATAAAAAGATTACCACAGTTTTATAC
Celera SNP ID:            hCV27457258
SNP Position Genomic:     35164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41063):
CATTAAAATATAATGGTGATTACAATATAGGATCCTTGACCAAAAAAGAAAAAAAATTTTGTAATGTGTACTGGAGATGTGGAAAAAGTAGAGAAACCTT
R
TAATGGCTAATCTCCCCCAACCCTTAGTAATTTCTGAAGCTGGCTAGTAACTCAGACAGTCAACAATAGATGCACCATGAGGGCAGGGATCACTGTCTGT
Celera SNP ID:            hCV16141526
SNP Position Genomic:     45575
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41064):
TGGTGTGACTTTGTTTTAGAAAGATATCCCAGGCTGCAGCAGTGTGAAAGGACCCTAGAGACGGTGCTGGCACAGGAAGGCAGAGCAAGGATGCTGGCTT
Y
TTGGAACCATGCACCTGTGCCATGCCTTTGGCACTTCTGACCAGTCATATTGGATAGAAACCGAATGATCTGCGTCTGTATCCAGGAATAGCCCAACACC
Celera SNP ID:            hCV16141527
SNP Position Genomic:     36286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41065):
CTTATCCCAGGAGCTGTCTGTGATCTTTTCCTCTTGCTCCCACAGGCCTCAACACCTCCCAAGCACAGAGTGTCCCTGTCATCAACAGTGTGGCCGGCAG
S
CTGGCAGCCCTGCAGCCCGTCCAGTTCTCCCAGCAGCTGCACAGCCCTCACCAGCAGCCCCTCATGCAGCAGAGCCCAGGCAGCCACATGGCCCAGCAGC
Celera SNP ID:            hCV27860650
SNP Position Genomic:     49943
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41066):
ACTGTGGTTGTGGATATCTCTTTGAGAGTTTTAATGTTGATGAGTATTCAGCATATTTCCAGCTTCACTATGACAGCTCAGGTGTCGTTGTTTCTCAAAA
S
CATCCTTGTGACCCTTGGATGTATTGCTGGATGTCTTGGGAGAGATCTAAGGGTAACACATTGGTCATCTTTCTTTCAACCTTGTATTGCTCCATTGTCC
Celera SNP ID:            hCV26657390
SNP Position Genomic:     46982
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41067):
AAAATTATAAAGATTATTTATAAAGGGACTCTTAGAAGGCAATGATGGTGAAAGAGGTTTGTGTTTCTTCCCTAGCTGCATCGGATAAGCTGTGGGTTTG
R
GGGAGAACAGCCAAGTCCAGCCTTCTATCTTCAGGGCTCAATCCCCACTCGGGCCTGTGGAGCTGGTTTCTGAGCACCATCTCACATTCCAATCACATTT
Celera SNP ID:            hCV29194731
SNP Position Genomic:     51189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41068):
TCTTCCTGTCTTCTTCTGTTCCTCCAAACTCCCAATCTCTGCCTGTTACCCATTGCCAAAGCTGCTTCCACATCTTCAAGTATCTTTTTTTTTTGCGGGG
R
GGGGGGGCGGCGGGGCGGGGGGACGGAGTTTTGCTCTTGTTGCCCAAGCTGGAGTACAATGGTGTGATCTCAGCTCACTGCAGCCTCCACCTCCCAGGTT
Celera SNP ID:            hCV26657391
SNP Position Genomic:     56614
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41069):
ATTCTAAACTTTCCTTCATCTTCCTGTCTTCTTCTGTTCCTCCAAACTCCCAATCTCTGCCTGTTACCCATTGCCAAAGCTGCTTCCACATCTTCAAGTA
Y
CTTTTTTTTTTGCGGGGAGGGGGGGCGGCGGGGCGGGGGGACGGAGTTTTGCTCTTGTTGCCCAAGCTGGAGTACAATGGTGTGATCTCAGCTCACTGCA
Celera SNP ID:            hCV26657392
SNP Position Genomic:     56596
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41070):
TTTTTAGTGAGAGGTGATGCACAGGCTGGTAGTTAGGAGCCTGCAAGCCTGCAGGCTGGGCTCGTGTCCAGGCTCCTGCCCCAAGTCCACATGACTTTGG
R
CAAGTCACTTCACCAGTCTGAACCTCAGTTTCTTCATCTGTAAAATGGAGGTGGCTATACTTCTCACATGGAGCGGTCGTAAGAATTAGATGAAGGAATA
Celera SNP ID:            hCV2559891
SNP Position Genomic:     14592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41071):
AGGAGGAAGAGGGAGAAGGGTCAGCTTTGGAATACCACGGACTTGCTGGGAGACCCCCTAGCAAGGAGCGGTGCAAACAACCTTGTCCTCTCCGAACCTC
R
GTTTTCCACTCTGTCAAATGGGTGCTTGTGACACATTGAGAAGCAGATGGGTGTAACATACTCTCAGATGTGAGGACTGCCCAAGTTATCAAGTGCCAGG
Celera SNP ID:            hCV26657393
SNP Position Genomic:     32567
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,2|A,3)      total(A,3|-,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41072):
TAGGAGGAAGAGGGAGAAGGGTCAGCTTTGGAATACCACGGACTTGCTGGGAGACCCCCTAGCAAGGAGCGGTGCAAACAACCTTGTCCTCTCCGAACCT
C
AGTTTTCCACTCTGTCAAATGGGTGCTTGTGACACATTGAGAAGCAGATGGGTGTAACATACTCTCAGATGTGAGGACTGCCCAAGTTATCAAGTGCCAG
Celera SNP ID:            hCV26657394
SNP Position Genomic:     32566
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41073):
ACCATGAATTTCCTGTAACTAACAGGGCATTTTTCTTTTTTCTTTTTCTTTTAATTTTTTTTTTTGAGACAGAGTCTCGCTATCTCCCAGGCTGGAGTGC
R
GTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCGGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTCCACCACCA
Celera SNP ID:            hCV26657395
SNP Position Genomic:     27764
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41074):
TCCCATCCTCTGTTTCTCTGCCTTTCATCCTGAGTCCCAGGCTTCCAATCCTCTGGCCAGGTCTGGCTATAGCCCCTGACACAGGAGTTTGGGAGGAATC
R
TGGCTTCTCTGCTTCAGAAACCCCAAGGAAGTGTTCAGTATAAAGCACTAGTCTTAGATCAGACAGACCTGGATTTAAATCCTGGCTGTGATACTTACCA
Celera SNP ID:            hCV29194736
SNP Position Genomic:     50854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41075):
GCGGAGCTTGCAGGGAGCAGAGATCACGCCACTGCACTCTAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAACGCTCTGTGGGCTAGG
K
GTGGTGGCTCACACCTGAAATCCCAGAACTTTGGAAGGCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAAC
Celera SNP ID:            hCV26657396
SNP Position Genomic:     22785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41076):
AGCCCTTTACCCTATTTGTCTCCTTCCCTCTTCTTCTCCCTGTGTGGCTGCTGACTCAGCGGTCATTCTACACTGAGGAGGCTGCCTTATGGGTGGGCCA
S
ATCCAAACCGCAGGCAAACGGGTCGTGATGGCGTGGCAACCCTCACTGTGTTGGAGGATGGCACTCCGGCCACCTCCTCCATCTCTGGCCATATCCTGCC
Celera SNP ID:            hCV2559894
SNP Position Genomic:     19814
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41077):
GTGTGCAGAATACCGAAAAAAAAAAAAAAAAAAAGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGA
R
GTCAGGAGATCGAGGCCATCCTGGCTAACACAGTGAAACCCCGTCTGTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCGGGTGCCTGTAGTCCCA
Celera SNP ID:            hCV26657397
SNP Position Genomic:     22540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41078):
AAATGGAGAAATAGGACCTTCCACACAGGGTGCATGTGAGGATGAAAGGAGTGAATGTATAAAGACACCTTTCCCGATAACCCATACTACCCTCATTATG
R
CTCTTAACATTAGAGAGGGCTAAACAAGGGCAGTGAGAAGACTGGCAGGCAGCAGAAATCATTTTCTTTTTGATCTCACACACCAGGGCATTCCCCCTAA
Celera SNP ID:            hCV2559895
SNP Position Genomic:     22058
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:41079):
CATGTTGCTGAGGAGAGCCCAAAATCCACCGTCAGCACTAGCAACCCCAAAGACTGAGCTGGGGGGAACAAGGCCCGAATCCCTCCACACCCACTCTCCA
S
GCTCTCCCCTCTCCAAACATCAGCACCTGAGCCAGGAGGGCTGGCAGCACCTTGGAGACGAAGCTTCCCCAGAACCCTCTTCCTAGAGAGGAAGAGCAGC
Celera SNP ID:            hCV2559896
SNP Position Genomic:     23196
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;JBIC-allele(G,305|C,1188)   total(G,305|C,1188)
SNP Type:                 INTRON


Context             (SEQ ID NO:41080):
GTCTACCTCTGTCACCCGAGCTAGAGTGCAGTGGTGCAGTCTTGGCTCACTACAGCCTCGAACTCCTGGTCTCAAGCAGTCCTCCTGTCTTAGCCTCCCA
W
AGTGCTGGGATTACAGTTGTGAGATTGTGCCCAGCCCTTCTGCTTTAATTTTCACTCTGGGCTCCTCAACATGGTCCTTGTCCCAAGCCCAGGGACTGGC
Celera SNP ID:            hCV26657398
SNP Position Genomic:     21755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41081):
TTTTTTTTTTTTTGAGAGACAGGGTCTACCTCTGTCACCCGAGCTAGAGTGCAGTGGTGCAGTCTTGGCTCACTACAGCCTCGAACTCCTGGTCTCAAGC
R
GTCCTCCTGTCTTAGCCTCCCAAAGTGCTGGGATTACAGTTGTGAGATTGTGCCCAGCCCTTCTGCTTTAATTTTCACTCTGGGCTCCTCAACATGGTCC
Celera SNP ID:            hCV26657399
SNP Position Genomic:     21732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41082):
CATGCTTGATTGAGTGCTCCTGTGTGCTGGGCCCTGGCCTGGATTAGAATGCCTCTGCTGTGGGCTTTGGGTTTGTCAGGATGGAATCCTACAGCCTCCT
Y
GGGGGAAAGCACACCTCATGCTGAGCGCTGTGTTAGGCACAGGCTGGGATGGAGCACTTCTTCTGGTCCTTCATTCTTCTGGCAAAGCTGGCTTCCTAGA
Celera SNP ID:            hCV27475839
SNP Position Genomic:     20185
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,636|C,853)   total(C,853|T,636) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41083):
ATTATCAGGAAGTTGTTGCCATAATCTAAGCATAGGTGATGAGAGCTGATCTGATTCTGTATTTTGAAGGTACAGGATTTGAAGATACCAGGATTTCCTG
W
TGGTTTAGATGTAGAATGTGAGAAAGAGTGATAAAAAATAATTCCAAGATTTGGGCCCTAAACAAAGTAGGAAATAGAAATTAGTGTTGTTGGCCAGGTG
Celera SNP ID:            hCV16098541
SNP Position Genomic:     70125
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,2)      total(A,1|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:41084):
CTCCCACCATAATCCCCAGCAATCTCAAAACCTCATCATGACACCCCTCTCTGGAGTCATGGCAATTGCACAAAGTAAGTTCTATTCTTGGTTGGAAAAC
Y
TGGGGGCAGGGAGAAGAAGAATGGGAAGCAAATTAATGTGGTGAAAAATAACTGTAGGTCTCCTTCAAACTCACCCACGACTAGTAGATTTGGTTTAACT
Celera SNP ID:            hCV16098542
SNP Position Genomic:     46173
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,3|T,35)   total(C,3|T,71)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41085):
GCCCCTTCACCAAAGAGGAGACATTTATTTCTGTGGCTGCTGCTCCTCCCTTTCGCTGAACTCTATTCCTCCCTCTCCAAGCCCAGTGGACTTGACTTCC
Y
TGATGTGGCTTAGAGCTTGAAAAACAGAGAATCCTGCCTCCTGCCTCTCGCTCATCCCCCTTCACAGCCCCTCCCAGGTTACCTGAGGGAATCTAACCCT
Celera SNP ID:            hCV16098546
SNP Position Genomic:     24381
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   JBIC-allele(T,494|C,997)   total(C,997|T,494) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41086):
CGGCCACGCCAAGGGCCGCTTGTCCGGCGACGAGGGCTCCGAGGACGGCGACGACTATGACACACCTCCCATCCTCAAGGAGCTGCAGGCGCTCAACACC
K
AGGAGGCGGCGGAGCAGCGGGCGGAGGTGGACCGGATGCTCAGGTAGGCGCAGAGCGAGGTGGAGGGGACCCACCCGAACCCCTGGAGCCCCGGCCCCGG
Celera SNP ID:            hCV27528271
SNP Position Genomic:     6496
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41087):
CTCTGTTACAGTCAAGGGAGTTGGCACCTGATTTCTCTGGGGGTCTTTGTACAGTCTACTAAATAAGGGTCTCCCAACCTCATACTCCCGGGACTATGGA
M
GTTGTTTTTAGTCAAAATTTGGGTCCCTGCACACTCCTGCCCTCTACTGGACAGACCGATCTGGGCAATAACCTGTGCCTCAGTGTGGACATCTTTAACT
Celera SNP ID:            hCV16164186
SNP Position Genomic:     49411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,6)      total(A,3|C,6) ;(C,-|A,-)   (A,-|C,-)   no_pop(A,-|C,-)   JBIC-allele(A,728|C,755)   total(A,728|C,755)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41088):
GATGCCCACACACCACTTACTTCGTGCGCAACAACAAGGACCCTGTTTTCCACACCATCACCCTCTGGGCAGCTGTCATGGAAAAGCCCAGTGACCTGAC
M
AGCACCTGCGAGAGGTCCCTGCTTACCTGACGGACGTCCTGCTGGCACCTCAGACAATCCACTCTCAGGAGGCGCAGCCCGAAGCCCAGTTTCCCTTCTA
Celera SNP ID:            hCV16172204
SNP Position Genomic:     64635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:41089):
TCAAGTAAACAGGTAATGCCAGCAGGATTTGCGGGGGTTGGGGTGTGGGCAGGGTGTGATAAGGCCATGGATGTGCAGAGGTTGTGGCAAGCATGGACTC
R
GCCAGAAATTAGGTCCTTCTGAGGCTCCCTGTTGTTTGCAAAGGGAATCCTTAAGGTCCCAGGGCAAAAAAAAAGGGCCACAGGCTGAAAGGGCTTATTG
Celera SNP ID:            hCV25753246
SNP Position Genomic:     52077
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,10)   caucasian(G,12)   total(A,2|G,22)
SNP Type:                 INTRON


Context             (SEQ ID NO:41090):
ATTCAGTGCTTGGTCTACATGCAGTCAAAGGAGGCTGGGAGAAGAAAATGTCTCAGGATTACTACCATCTCTCAAGCACATCCTACCTCTTGGGCCTGGG
Y
TCCGGATCCCTGTTTCCCATTCTCCTGCTGATACACAGACTCCCTGCTCACCTATTTCCCAGGAAAAAAGCAAATAGTTCAGGGCCTGTCAAAGCACCCA
Celera SNP ID:            hCV27458937
SNP Position Genomic:     59122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41091):
TAGACTCTTTTAAACAGCCAGATCTCACGTGAACTAACTCAAGCATGAATTCCTCACCCATCACCATGATCCATTACCTCCCACTGAGCCCCACCTCCAA
S
ACTGGGAATCACATTTCAACATGAGATTTGGAGGGGACACACATCCAGACCATATCATTCCACCCCTGGCCTCCCAAATCTCATGTCCTTCTCACATTGA
Celera SNP ID:            hCV27954187
SNP Position Genomic:     55002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41092):
AATTCACGATAATCACCTACTTCAAAGGGTCGACGTAAGAACTCGAGGCAGTGATGCTTGTGAAGCCCTTGGTATGGTGCCTGGCACACAGTAGGATGTC
R
ATAAATGTTAGCTCTTACCATTATGTAACAAATCCTCTTAGAATAAGGATGTCCTTCACATTTGCCACAGCTACCACACCTTTCAGACGGAGGGCCCCGC
Celera SNP ID:            hCV27458938
SNP Position Genomic:     62143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41093):
TTTTATTGATTGAATGCCTCATAAAGGAGCAAGCCCGGTGGGACACTGTTTGTTTTGGGGCTTGCCAATGACATTTGTGTTGATAAAATGTTCATTCATC
Y
CTCCCCCCAAGGCCTCCAAAGCCAATTTTTTAACTTAGAGAGCACCTCACTTTGACACAAGCCCCCTCTTCCTCCTTACCATCCCCTTGGTACTGACAAG
Celera SNP ID:            hCV27458939
SNP Position Genomic:     40889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41094):
TTTTTTTTTTTTTTTTGAGAGACAGGGTCTACCTCTGTCACCCGAGCTAGAGTGCAGTGGTGCAGTCTTGGCTCACTACAGCCTCGAACTCCTGGTCTCA
W
GCAGTCCTCCTGTCTTAGCCTCCCAAAGTGCTGGGATTACAGTTGTGAGATTGTGCCCAGCCCTTCTGCTTTAATTTTCACTCTGGGCTCCTCAACATGG
Celera SNP ID:            hCV26657400
SNP Position Genomic:     21729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41095):
TTTTTTTTTTTTTTTTTGAGAGACAGGGTCTACCTCTGTCACCCGAGCTAGAGTGCAGTGGTGCAGTCTTGGCTCACTACAGCCTCGAACTCCTGGTCTC
W
AGCAGTCCTCCTGTCTTAGCCTCCCAAAGTGCTGGGATTACAGTTGTGAGATTGTGCCCAGCCCTTCTGCTTTAATTTTCACTCTGGGCTCCTCAACATG
Celera SNP ID:            hCV26657401
SNP Position Genomic:     21728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41096):
GCTGCCTTTCTTCTGTCTTTTTTTTTTTTTTTTTTTTTTGAGAGACAGGGTCTACCTCTGTCACCCGAGCTAGAGTGCAGTGGTGCAGTCTTGGCTCACT
R
CAGCCTCGAACTCCTGGTCTCAAGCAGTCCTCCTGTCTTAGCCTCCCAAAGTGCTGGGATTACAGTTGTGAGATTGTGCCCAGCCCTTCTGCTTTAATTT
Celera SNP ID:            hCV26657402
SNP Position Genomic:     21706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41097):
GCCCAGCCTGGTAGCCATTTTAAACAGTATGGACAAGGAAGAAGAGAGTGGCCACTGAGAACGTGACGTCTGAGAGCCCTAAGGCTGCTGAGTCAGCCAT
R
TGGACATCTAGGAGGAGAGCATTCCAGGCAGAGGTAATAGCAAGTGCAAAGGCCCTGGGGCAGGAAGAGAAACATATAGCAGAGCCGCTAGAGCAGAGAG
Celera SNP ID:            hCV11621639
SNP Position Genomic:     69683
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:41098):
CAGTTATGGGACACTGAATATTATCAGTGGCTGCCTTTCTTCTGTCTTTTTTTTTTTTTTTTTTTTTTGAGAGACAGGGTCTACCTCTGTCACCCGAGCT
R
GAGTGCAGTGGTGCAGTCTTGGCTCACTACAGCCTCGAACTCCTGGTCTCAAGCAGTCCTCCTGTCTTAGCCTCCCAAAGTGCTGGGATTACAGTTGTGA
Celera SNP ID:            hCV26657403
SNP Position Genomic:     21677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41099):
GTGTAATAGATCCTATTACTGTTTCTGGAGCAACAGTTATGGGACACTGAATATTATCAGTGGCTGCCTTTCTTCTGTCTTTTTTTTTTTTTTTTTTTTT
T
GAGAGACAGGGTCTACCTCTGTCACCCGAGCTAGAGTGCAGTGGTGCAGTCTTGGCTCACTACAGCCTCGAACTCCTGGTCTCAAGCAGTCCTCCTGTCT
Celera SNP ID:            hCV26657404
SNP Position Genomic:     21644
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,11)   total(T,11|-,2) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41100):
TTGTTATTGTTATTTTTGTTTTATTTATTTATTTATTTATTTAACTTTTTGAGACGGGGTCTCGCTCTGCCACCCAGACTGGAGTGCAGTGGCGCGATCT
Y
GGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGACTGCAGGTGCCCGCCACCACACCTGGCTAATT
Celera SNP ID:            hCV26657405
SNP Position Genomic:     13296
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41101):
AGTAGTTAAAACTTTCTAAGTGATACCAATGTGTAGCTAAATTTGAGAACCAGTTCTAAGGTTCTCAAATTTAGCTTCTCAAATGTTAAAGTGCATGCCA
R
TTCCCTGGGGTGGGGGGTGTTAGGATACAGATTCTCATTCTATAGGCCTGGGGTGAGGCCTGGGTTTCTGCATTTTCAACAAGTTCCCAGGTGCTGTTGA
Celera SNP ID:            hCV2559904
SNP Position Genomic:     26824
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41102):
AGGATCCTGGTGGAGGTTGCAGTGAGCCAAGATGCCGTTGCACTCCAGCCTGGGTGACAAGAGCAAAACTCCACATCAAAAAAAATAATAATAAATAAAT
W
AATTAATTAATTAAATAAAACAAGAGCTTTTCTTTTTGCTTAATAAGAGAGAGTGGTGGTGGTGCTTTTTTATTCCTGAAGATGGGAAGTCCTCTTTTGC
Celera SNP ID:            hCV26657406
SNP Position Genomic:     11119
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41103):
TTGAGAACCAGTTCTAAGGTTCTCAAATTTAGCTTCTCAAATGTTAAAGTGCATGCCAATTCCCTGGGGTGGGGGGTGTTAGGATACAGATTCTCATTCT
R
TAGGCCTGGGGTGAGGCCTGGGTTTCTGCATTTTCAACAAGTTCCCAGGTGCTGTTGAAGAGGATGGTCTGGGACACACTTTTGAGTACTGGAGTTGGAT
Celera SNP ID:            hCV2559905
SNP Position Genomic:     26866
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41104):
ATTAGCAACTAACTCCCCTTTGCCTCCCAACCTGTGTAATTTGCCTCACCATCACCAGCCTTGACATCTAATATGGGGAAATGCTCTTTTAAATCCAGCC
R
GCACAGTGACAAAATTACAGGCTATGGAGGCAGACCCAAATTCCAACCTTCACTTTGGCACTTACTGCTGTGTGACCTTGGGCAAGTCTCTGGAATCTCT
Celera SNP ID:            hCV2559906
SNP Position Genomic:     27065
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41105):
CACCGCGCCCGGCCATTTTTCTTTTTTAATTAAAGGAGGTGTGAGTACTCCTCTCATGTGTATTGCTTGTTAGTAATTAGCCCTGGGAACCTGCCAGGTA
S
AGGGGTGTGGGATGTTCCTGGTGGAGGCTGCATCTGGGAAGCTTAATGGCCCCCAAACTTCAGGCGAAGGAGCATTTAAGAAGGAGAAGGTGCACACAGC
Celera SNP ID:            hCV2559908
SNP Position Genomic:     28102
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41106):
TGCAGAAGGGCACTCTGTGTCCCCACAGCCTTTAGGCCTAACGATGTCCACCATTAACCCTTCTTAGTTTTACTCTAGTTTCTTTGGAGAAAGGGGCATT
K
AAAAGTTATTCATGTTGCCACAGTAAATTCCCATTAATTGACTCTTCTCCTTATCCCCAAATCAACCCAGTAGCCCCCAAACTCGGTTCTTCAAATGTGA
Celera SNP ID:            hCV16114651
SNP Position Genomic:     31616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41107):
GTATTGCTTGTTAGTAATTAGCCCTGGGAACCTGCCAGGTAGAGGGGTGTGGGATGTTCCTGGTGGAGGCTGCATCTGGGAAGCTTAATGGCCCCCAAAC
K
TCAGGCGAAGGAGCATTTAAGAAGGAGAAGGTGCACACAGCCCCACGGTGAGCAAAGGGAAACCTCAGAGCTCCTAAGGGCTGATTTTCTGGAAACCACT
Celera SNP ID:            hCV2559909
SNP Position Genomic:     28161
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41108):
CACTCTTGCATTCTGTGCATCTGCAGGCTTAACATCACATGAAACCCACCAAAGCTTACAGACTGCACCCTCTAGAGTGGTGGTCTGAGCTGTACCTGGG
K
CCCTTTGAGCCAGGGCTGAAGCTAGAGCAGCATGTATGCAGGGAGCAGTGTCCCAAGGCTGTGCAGGGCAGCAGGGCCTTTGGTCTGGCCCCCAAAACCA
Celera SNP ID:            hCV28019097
SNP Position Genomic:     55836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41109):
TGGGGCTTAGGAGGAAGAGGGAGAAGGGTCAGCTTTGGAATACCACGGACTTGCTGGGAGACCCCCTAGCAAGGAGCGGTGCAAACAACCTTGTCCTCTC
Y
GAACCTCAGTTTTCCACTCTGTCAAATGGGTGCTTGTGACACATTGAGAAGCAGATGGGTGTAACATACTCTCAGATGTGAGGACTGCCCAAGTTATCAA
Celera SNP ID:            hCV28019098
SNP Position Genomic:     32559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41110):
CAAAGCTCCAGTTATATTTATTTCAAAGCATGTTCCAAAAGGTTTGGGGTTTTTCTAAAAACCTGACTTTATAATGTAGATACCTAGGATATAGGAAGAG
R
GAGGAGAGGTGGGGAGTGCTATCTACAGCCTCTGAATATTTTGTGCAAGTGTAAATTGTACCTTTGAGCAGTTCTCCCCTGGATGTGAGACTTGATTGAG
Celera SNP ID:            hCV28019099
SNP Position Genomic:     16807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41111):
CAGGCATTAAATCTTAAAGCTCCAAAATAATCCTTGATTCCATGTCCCACATCCTGGGCACATTGGTGTGCCAGGTGGGCTCCCAAGGCCTTGGGCAGCT
S
TGTTCCTGTGGCTTTTCCATGCTGAGGTTGCAAGCTGCTAGTGGCTTTACCATTCTGAGGTCTAGAGGGTGGCAGGCCCATTCCCACAGCTCCATTAGGC
Celera SNP ID:            hCV27872619
SNP Position Genomic:     55455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41112):
CATGGAATCTCCTATGTAACAGGCTCAGCCCGGTGACTGGGACATTGAGCGGGGGCTCAAATGATGGCATCCATCCACCTCTCCTTATCCCAGGAGCTGT
C
TGTGATCTTTTCCTCTTGCTCCCACAGGCCTCAACACCTCCCAAGCACAGAGTGTCCCTGTCATCAACAGTGTGGCCGGCAGCCTGGCAGCCCTGCAGCC
Celera SNP ID:            hCV11621712
SNP Position Genomic:     49860
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,13)   total(C,1|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41113):
TGCCTTGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGGCACTGCGCCAGGCCTTCAGCCCCACTCTTAAGAGTACTGAGGAGCAGCAGGGGCTTGGGC
Y
GAAGAACCCCATGTTAATAATAACAATTGTGCCAAGGACCATGCTCAGGACTCCACAGGTGTTGACTCATCTAATCACACAACAACTCCCATATTATAGG
Celera SNP ID:            hCV11621640
SNP Position Genomic:     63084
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41114):
AATGCCCATCTCCAACCCACAACTCATTGTGGAACTTGAGCAAGTAAATTAATATCTCCAAGTCTCCGTTTCTTTACACTTGCCTCCCATGGAATCTCCT
R
TGTAACAGGCTCAGCCCGGTGACTGGGACATTGAGCGGGGGCTCAAATGATGGCATCCATCCACCTCTCCTTATCCCAGGAGCTGTCTGTGATCTTTTCC
Celera SNP ID:            hCV11621713
SNP Position Genomic:     49773
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,24|G,14)   total(A,58|G,18)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,10)      total(G,4|A,10) ;no_pop(A,-|G,-)   (G,-|A,-)   JBIC-allele(G,504|A,791)   total(G,504|A,791)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41115):
GTGAGAGATAATGCAAATAAAACAGACGAATCACAAAGGCCCAGTTCTGCCAGTCTCAGGTGTTGGGGCTTTTCTGGAAAGCAGTGAGGAGCCATCAGAT
R
TTTCCAAGCAGAGCAGAGGCATGGTGTGACTTTGTTTTAGAAAGATATCCCAGGCTGCAGCAGTGTGAAAGGACCCTAGAGACGGTGCTGGCACAGGAAG
Celera SNP ID:            hCV27452484
SNP Position Genomic:     36164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41116):
GTAGCTGGGACTACAGGTGTGCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGGGATGTGGTTTCACTATGTTGGCCAGGCTGATCTCGATCTCC
Y
GACCTTGTGATCCACCTGCCTTGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGGCACTGCGCCAGGCCTTCAGCCCCACTCTTAAGAGTACTGAGGAG
Celera SNP ID:            hCV11621641
SNP Position Genomic:     62967
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41117):
AAGGATGCTGGCTTCTTGGAACCATGCACCTGTGCCATGCCTTTGGCACTTCTGACCAGTCATATTGGATAGAAACCGAATGATCTGCGTCTGTATCCAG
R
AATAGCCCAACACCCATGATGCTGATGCCTAGGAATAGAGGAAAGTAGATGATCTACTCACCAGGGCCTCAGGGATGTCTCAACTCCACCTTGGATGGCT
Celera SNP ID:            hCV27452485
SNP Position Genomic:     36372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41118):
ATCTGTCCCTTCCAGAGCACATACGTCTCCCTCCTTCTCAACTCTTGGGTGCTGGCAAGTTATCTCTGAGTGGGTTTGTGCCTGAGTTCAACAATGCCCC
K
CTAGTCTGGAAACAAGACCACAGCAACCACTGACCTCAGTTAGAACAAGTGCAGGCAGGTTGTGAGCCAACTCCTGTTTCCACAGTGTTCTCTCCCCGCT
Celera SNP ID:            hCV27452486
SNP Position Genomic:     59857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41119):
CCCAGCAGATCTTGAACTGGGCTTAAGCGATCCTCCTGCCTTGGCCTCCTAAATAGCTGGGATTACAGGCTCTAGCCACAGGGCCCAGCTATTTTTTTTT
T
AAACGATTGGAAAGCCTTGGGAAATCTTTTTACTTCATTCCTGCCCTGTTCTCCCTGACTCCAGTATTGACTTTCTAAAACTTCAGCTCTTTGGTCTGGC
Celera SNP ID:            hCV11621717
SNP Position Genomic:     18398
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41120):
CATCCACATGCTTTCGGGAGTTGGTTATGTGACTTGGAATTTACATGAATCTTATGGATAACTAATATGAGAAATCCCCACTATAACCACCAGCCCTTTT
R
TCTACCTGAGGAGATGGGAGCTATGGTGTGGGATGGGGGCTCTGTACCTGTGTCTTTGCCTGTGTATGCACCTTGATTCTGTCTTCACTCTGTCTCTCCA
Celera SNP ID:            hCV25755507
SNP Position Genomic:     51768
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,35|G,3)   total(A,70|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:41121):
ATGACTCTTAACATTAGAGAGGGCTAAACAAGGGCAGTGAGAAGACTGGCAGGCAGCAGAAATCATTTTCTTTTTGATCTCACACACCAGGGCATTCCCC
S
TAAGAGGCAGTGAGATGTAGCCTGGCCCTGGAACTAGAAACAGAGGTGGCTGCTGTGCTAGTGCCTGAGATGCACGATGCTGGGGTCAAAGACTTGTGTC
Celera SNP ID:            hCV7448676
SNP Position Genomic:     22155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41122):
GTGCAGTCTTGGCTCACTACAGCCTCGAACTCCTGGTCTCAAGCAGTCCTCCTGTCTTAGCCTCCCAAAGTGCTGGGATTACAGTTGTGAGATTGTGCCC
R
GCCCTTCTGCTTTAATTTTCACTCTGGGCTCCTCAACATGGTCCTTGTCCCAAGCCCAGGGACTGGCTTCTCTTTCTCTGAGTGTAGTTATGTATCTGGG
Celera SNP ID:            hCV7448677
SNP Position Genomic:     21788
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,13)      total(G,2|A,13) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41123):
ACCTCTGTCACCCGAGCTAGAGTGCAGTGGTGCAGTCTTGGCTCACTACAGCCTCGAACTCCTGGTCTCAAGCAGTCCTCCTGTCTTAGCCTCCCAAAGT
K
CTGGGATTACAGTTGTGAGATTGTGCCCAGCCCTTCTGCTTTAATTTTCACTCTGGGCTCCTCAACATGGTCCTTGTCCCAAGCCCAGGGACTGGCTTCT
Celera SNP ID:            hCV7448678
SNP Position Genomic:     21759
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,13)      total(G,13|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41124):
GCCAGTCCCTTCTCAGGACCGGATTCAGATGCGTGTGTCTGGGTAGCCAAGTATAGCACCCAAATCAGGCTTGGCTTGGGTTGTGGTTCTGTCACTATCC
R
GCAGTGTGACCTTAAGTTATTAGCTTCTCTGTCCCAATACCTATCCCCTTAGGGGTGCAATGAGGCTTAAATATGATCAGACACACCCAGTGCCAAGCAC
Celera SNP ID:            hCV2559910
SNP Position Genomic:     28647
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41125):
GGCCGTTCTTCTTCATTGTCTACAACCCTACAGCCAGGGGAACTAGAGGGTTTGCATCCCTACCTGTAAACTTCAATCTCACCGTGAAGAAGAAGGTCCC
Y
GAAGTCTCTGAACACCTTGCTCTGTATGTATGTATTCTGAGTGGCAGAATTGTGGGCTGTACCAACATCTGAGCCTGAGGTAGCTTTCTTCATCATTGTG
Celera SNP ID:            hCV2559911
SNP Position Genomic:     30259
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41126):
TGAAACCAGCCCAGCATTTAAATTGCTTTCATCTTGCATCAGCTTTTTCTTCCACATTTGCAGATTTTTAATCTTCTAAACTCTTTGCAAACATGAATCT
K
TATCCTCTCAGAGGAGGAAATATTAATAAGAACTAGCAAAAGTCCAGTGCTACAAACAAGGAAACTGAGGCAGCAATGCTAACTCATTCAAAAGCTTTCA
Celera SNP ID:            hCV2559913
SNP Position Genomic:     33206
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41127):
ACATGAATCTGTATCCTCTCAGAGGAGGAAATATTAATAAGAACTAGCAAAAGTCCAGTGCTACAAACAAGGAAACTGAGGCAGCAATGCTAACTCATTC
R
AAAGCTTTCATTTCTGGAGTTCTCAATTTCAAGCCAGGGAATTGTTCACATTCTTTTCTTCCAAATGGGCCTCTCAGAAGTTCACCAGACAGAATCATTT
Celera SNP ID:            hCV2559914
SNP Position Genomic:     33296
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41128):
GGCTGAGGCGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACACGGTGAAACTCTGTCTCTACCAAAAATACAAAAATTTAGCTGAGC
K
TGGTGGTGGGCGCCTGTAGTTCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAGCCCGGGAGGCGAAGGTTGCCGTGAGCCGAGATTACGCCAC
Celera SNP ID:            hCV2559916
SNP Position Genomic:     34707
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41129):
CACTTTCACTACAATAAATACACAACTGACTGTATTTTCTACTTCTGCTAGACGTGATGCTCCTTGTCTGGGGCATGGGTGCTCAAAGCTGCTGGGGTTT
Y
ATTCCTTCAGTCAATAAATATGCACAGTACCAGGCAGTCTGCTAGGCTATAAGGATGCAACAAGTAAAGACTCATCTCTTTCTTTAAGAGGCAGAGAAAA
Celera SNP ID:            hCV2559917
SNP Position Genomic:     35739
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41130):
TCCAGGCAGAGGAAACAGCAAAGGTGCAGAGGCAGGAGATGGTCAGGCCATTTGAGAAGTGCATTAAGATTGTGGTGAGAGATAATGCAAATAAAACAGA
Y
GAATCACAAAGGCCCAGTTCTGCCAGTCTCAGGTGTTGGGGCTTTTCTGGAAAGCAGTGAGGAGCCATCAGATGTTTCCAAGCAGAGCAGAGGCATGGTG
Celera SNP ID:            hCV2559918
SNP Position Genomic:     36090
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41131):
CTCCACCTTGGATGGCTTTTGCTGCTGGACACAATTGCTGTGGTTCATAGAGCCAACAATGGGGATGGGGCCAGTGAGTGGCTTGAGCTAGGAAGTAAGT
R
GAAGGTGAATGGCTACCATCTGCCACTGTCATTTCTCCTATGGGTCCTCTGTGGCTATTAACCTGGCATCTTTGGTTAATCAATATTAAACCAGAGCCCT
Celera SNP ID:            hCV2559919
SNP Position Genomic:     36556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41132):
CGGCCTGAACCAGTCGCACCTCTCCCAGCATCTCAACAAGGGCACCCCTATGAAGACCCAGAAGCGTGCCGCTCTGTACACCTGGTACGTCAGAAAGCAA
Y
GAGAGATCCTCCGACGTAAGTGTTTTCATCCTGCCTCTGCCTCAACCTGAAGTGACCTTTGCCCTCTCACCCCATTGGCTGCCTCAGTTTCCCTTTCATC
Celera SNP ID:            hCV16128
SNP Position Genomic:     11625
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41133):
GGACACGGGCATGTGGAGGGAGGGAGCACTCAGGACCCTCAGTGGCCAACCACTTTCCCTCTCTGGGTCTGAACTTTCTCGGAAGTTTATTGGCTTGGTC
R
CTTTTCCCTGCCTATGATCAACCGACTAAGACAATTTCTCAAGCATAACTCTTGAGTGTTGCTGTACCTTTTCTAGTCCTCTTCTCTACCCCTGAGATTC
Celera SNP ID:            hCV15850476
SNP Position Genomic:     50187
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41134):
GTGTGGCTCTCACTCTATCCTTAGCTGCTTGGAAATTGACACACAGTGCATTGATTTTGGCAGAAGGAAAATGGGAATGGGGAAGCATTTAGAGAACTCA
Y
AATATAAATGATCATTTTAAATGTATTGCCTTTTGACTGGGCCCTCTGGTATATGGAATATGGTAATTATACTAATACCAGAGTTTGGAATGAGATAAGA
Celera SNP ID:            hCV15850477
SNP Position Genomic:     47385
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41135):
CATAGCACTGCCTCTTCCAGGGCCTCTGGGAGCCTGACAGTGCCCAGCATGAAGGTGGGGCCAGTGCTGGGGGTTTCTGTAGGTCCCACTCCCACAGAGG
R
GAGAGGCTCAGCCACACAGGAAGAAAGTCTTGGTTACTTAAGAGGCAGAGAAGCCCCTAGGCAAAGACTGGCCTGATTGCAGAGTAACTTCGCCCCTTTA
Celera SNP ID:            hCV27493577
SNP Position Genomic:     20674
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,65|A,1422)   total(G,65|A,1422) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41136):
CAAACTCCCAATCTCTGCCTGTTACCCATTGCCAAAGCTGCTTCCACATCTTCAAGTATCTTTTTTTTTTGCGGGGAGGGGGGGCGGCGGGGCGGGGGGA
Y
GGAGTTTTGCTCTTGTTGCCCAAGCTGGAGTACAATGGTGTGATCTCAGCTCACTGCAGCCTCCACCTCCCAGGTTCAAGCGATTCTGCCTCAGAGTCCT
Celera SNP ID:            hCV11621650
SNP Position Genomic:     56638
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41137):
TCCAAGCTCACGTCGCTCCAGCAAGAACTCCTGAGCGCCCTGCTGAGCTCCGGGGTCACCAAGGAGGTGCTGGTTCAGGCCTTGGAGGAGTTGCTGCCAT
Y
CCCGAACTTCGGGGTGAAGCTGGAGACGCTGCCCCTGTCCCCTGGCAGCGGGGCCGAGCCCGACACCAAGCCGGTCTTCCATACTCTCACCAACGGCCAC
Celera SNP ID:            hCV27528442
SNP Position Genomic:     6302
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41138):
TGGTCTCTGCAAACAAAAATGAAAGGGCATTCCTGGGGGAGGCATTTTGCAGCCCTCTTCTCCTACTCCCACCTATCCCTTAAGAAAGATTCTTCTCCAT
R
TGAAGAACCACTTGTGTCAGTTACCTGTGAGAGGCACAGACAAGTCTTTCTGACTTCTCAAGAGTGTCCCAAACAAGTTAGGGTTAAGGATTACCCAGGC
Celera SNP ID:            hCV2559920
SNP Position Genomic:     42341
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;(A,-|G,-)   JBIC-allele(G,523|A,746)   total(G,523|A,746)   no_pop(A,-|G,-)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41139):
TAACTAATATGAGAAATCCCCACTATAACCACCAGCCCTTTTATCTACCTGAGGAGATGGGAGCTATGGTGTGGGATGGGGGCTCTGTACCTGTGTCTTT
S
CCTGTGTATGCACCTTGATTCTGTCTTCACTCTGTCTCTCCAGTGTACGCACACAAGCAGGAACCCCCCCAGTATTCCCACACCTCCCGGTTTCCATCTG
Celera SNP ID:            hCV25755374
SNP Position Genomic:     51826
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:41140):
AGCAGGAGGTAGGAAAGGGAAACACGGTCATCGGTCATCAGGGTATCTGGTGAGATGCTGGCTTGAGGAGACGCTGAGCCCCCTGGGGAACTGGAGACAG
Y
GCTGTTCTGAGGGTGATCAGAGGGTGGCACCCCCAGCCCCCACCCAGGAGAGCCAGAAGCAGGATTCATCCCCTGTCCTTTCTGCTCAGGGGTCTCGCCT
Celera SNP ID:            hCV2559921
SNP Position Genomic:     48612
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41141):
TCGGTCATCAGGGTATCTGGTGAGATGCTGGCTTGAGGAGACGCTGAGCCCCCTGGGGAACTGGAGACAGCGCTGTTCTGAGGGTGATCAGAGGGTGGCA
S
CCCCAGCCCCCACCCAGGAGAGCCAGAAGCAGGATTCATCCCCTGTCCTTTCTGCTCAGGGGTCTCGCCTTTTAGGTTTCTGATAACAGTATCAGCTAAA
Celera SNP ID:            hCV2559922
SNP Position Genomic:     48642
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,6)   total(G,6|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41142):
GCAGGATTCATCCCCTGTCCTTTCTGCTCAGGGGTCTCGCCTTTTAGGTTTCTGATAACAGTATCAGCTAAAGCTCTGAGTAGGCAATTGTTGAGGACTC
Y
GTGTTATCTCCATTGATGACTTCCCTCAAACCTGCCTATGAAACCGTCTCCATTTCAGGAAAGCCTCTCTAGGTGTCCCTTCCACATCCACCTAAAACAG
Celera SNP ID:            hCV2559923
SNP Position Genomic:     48771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41143):
CAATCTAAACTTCCAAGCAGCCATTATCAAATGATCACAATTGGCATCTAATTTGCATCCTGTTTGCCTTCCCTAAAAGAGAAGAATCTTCTAGAGTCCC
R
TGTCCTCCAATTTATACACCCCAAACATCTCTAATCAAGAACCATGAACACAAGTGAAAAATACCAGTGGCATGCCATCCTGGGCATTAGAGTTTCTTCC
Celera SNP ID:            hCV2559925
SNP Position Genomic:     50555
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41144):
GCTTCAGAAACCCCAAGGAAGTGTTCAGTATAAAGCACTAGTCTTAGATCAGACAGACCTGGATTTAAATCCTGGCTGTGATACTTACCAGCTGTGTAGC
Y
TAATGCAAGTTACTTAGCCACTCTAAGTCCAATCTCTACATCCATAAAATGGAAATAGTATGCATTTAGAGTCATTATGAATATGAAATAAACATAGGGG
Celera SNP ID:            hCV2559927
SNP Position Genomic:     50965
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41145):
GGAGCACTGATCAATGCGATAACAGTGGCCTTTAGTGGTATTGGTAGGTGTAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
TTGGGGGGATCTTGAGAGAATAAGCCACTAAGTCAAAGGCAGAACCTTAGATGCCGGCAAAAGCAAAAGGGAAGGAGGAGACACAGGGAGACAAAAAGAG
Celera SNP ID:            hCV26657356
SNP Position Genomic:     63527
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41146):
GGGCTCAATCCCCACTCGGGCCTGTGGAGCTGGTTTCTGAGCACCATCTCACATTCCAATCACATTTTAGTGGCTTCTGAAAATCTGCCACAGCCTGTAG
S
AGAGTCTGAGACCACATGTGCCCCACTTCCCTTCCTCCCAGAGCCTGGTGATGTGCTCCCCACTTACCCCATCCCTTCACCTGGCCAGGCTTCCTCAGTG
Celera SNP ID:            hCV2559928
SNP Position Genomic:     51323
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41147):
GTTGGAGCACTGATCAATGCGATAACAGTGGCCTTTAGTGGTATTGGTAGGTGTAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTTTGGGGGGATCTTGAGAGAATAAGCCACTAAGTCAAAGGCAGAACCTTAGATGCCGGCAAAAGCAAAAGGGAAGGAGGAGACACAGGGAGACAAAAA
Celera SNP ID:            hCV26657357
SNP Position Genomic:     63524
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,7)   total(G,7|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41148):
TGGTTGGAGCACTGATCAATGCGATAACAGTGGCCTTTAGTGGTATTGGTAGGTGTAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTGTTTGGGGGGATCTTGAGAGAATAAGCCACTAAGTCAAAGGCAGAACCTTAGATGCCGGCAAAAGCAAAAGGGAAGGAGGAGACACAGGGAGACAAA
Celera SNP ID:            hCV26657358
SNP Position Genomic:     63522
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,7)   total(G,7|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41149):
AGTTGTAAACGCGGCTTAGAGGGGGGAAGGAGATCAAAACGCGGGCGCGGGGCTGCTCGCCGCTCCCAGCGCGCACCCAGCCAGGCGCCCCGTGCGGCCC
Y
GCGGCCTCACCGCTCTGGCGCGGGACGCGGGCTCTGTGAGCGCCCGAGCCGCCCGCGGAGCCCCCGGGTCGCCGACACCCGCAGGCCCGGCCGGCGGAGA
Celera SNP ID:            hCV2264152
SNP Position Genomic:     8238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41150):
CATTTGCATCACTATAAAGGAATACCTGAGGCTGGGTAACTTAAAAAGAAAATATGTTTAATTGGCTCATGGCTCTGCAGGTTGTGGTGCCAGCATCTGC
W
TCTGGTGAGGGCCTTAGGAAGCTTACAGTCAGGGCAGAAGGTAAAGGGGGAATAGGCATGTCATATGGTGAGATAAAGAGCAAGAGAGAGAAAGGGAAGA
Celera SNP ID:            hCV27975766
SNP Position Genomic:     57073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41151):
ACAGGGGAAGAATGTGTGTGACAGAGCCCCAGCCAGTTGAGTAATGTTTACTCTGTTGGTGGCTGGGACGCTCACTTACGCTGGCAGAGGTCCACCAGCC
R
GAGGAACATTCCTGCATTATCAGGGATGGGAGGTTGGCTCTGAAATGTCAAGGGTGAAAGGCATCCCACCAGATTCTGGGTGCAGCTCATAGACTTCAGT
Celera SNP ID:            hCV2264155
SNP Position Genomic:     33790
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   Caucasian(A,20|G,64)   African-American(A,8|G,76)   Asians(A,24|G,60)   total(G,200|A,52) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41152):
GTGCAGCTCATAGACTTCAGTGAAAGGAACCCCCAGGTTTCAGTGCCAAAAGCCACATCGTGGGCAAGCTGAGCCCCACATTGCCCAGGAATCCCCACTT
Y
CCTCATTTCTTCTTACTAAAAGAACAATTCTGGTCCTGTTTTCTTTGTTGACATTGCTCTTCTGTTTACCCAGCAGAACCAGTGCATCTCTGACATTATT
Celera SNP ID:            hCV2264156
SNP Position Genomic:     33970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41153):
ATATGAAGCGTTTGCGGGGTACGTGGCTTGGGTTTTGTTTTTAGTGAGAGGTGATGCACAGGCTGGTAGTTAGGAGCCTGCAAGCCTGCAGGCTGGGCTC
R
TGTCCAGGCTCCTGCCCCAAGTCCACATGACTTTGGGCAAGTCACTTCACCAGTCTGAACCTCAGTTTCTTCATCTGTAAAATGGAGGTGGCTATACTTC
Celera SNP ID:            hCV543332
SNP Position Genomic:     14555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41154):
TGTCCCCCTCCAAAGCCCACGGCCTGGGCTCCAACTTGGTCACTGAGGTCCGTGTCTACAACTGGTTTGCAAACCGCAGGAAGGAGGAGGCATTCCGGCA
R
AAGCTGGCCATGGACGCCTATAGCTCCAACCAGACTCACAGCCTGAACCCTCTGCTCTCCCACGGCTCCCCCCACCACCAGCCCAGCTCCTCTCCTCCAA
Celera SNP ID:            hCV25606345
SNP Position Genomic:     19372
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,35|G,1)   total(A,73|G,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:41155):
CCCACAACTCATTGTGGAACTTGAGCAAGTAAATTAATATCTCCAAGTCTCCGTTTCTTTACACTTGCCTCCCATGGAATCTCCTATGTAACAGGCTCAG
Y
CCGGTGACTGGGACATTGAGCGGGGGCTCAAATGATGGCATCCATCCACCTCTCCTTATCCCAGGAGCTGTCTGTGATCTTTTCCTCTTGCTCCCACAGG
Celera SNP ID:            hCV25606346
SNP Position Genomic:     49788
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,32|T,4)   total(C,62|T,6)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,10)   total(C,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41156):
TAATGCCAGCAGGATTTGCGGGGGTTGGGGTGTGGGCAGGGTGTGATAAGGCCATGGATGTGCAGAGGTTGTGGCAAGCATGGACTCGGCCAGAAATTAG
R
TCCTTCTGAGGCTCCCTGTTGTTTGCAAAGGGAATCCTTAAGGTCCCAGGGCAAAAAAAAAGGGCCACAGGCTGAAAGGGCTTATTGCTCCCCCAGATTC
Celera SNP ID:            hCV2559930
SNP Position Genomic:     52090
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;JBIC-allele(G,647|A,834)   total(G,647|A,834)
SNP Type:                 INTRON


Context             (SEQ ID NO:41157):
CCACAGGCTGAAAGGGCTTATTGCTCCCCCAGATTCCCCAGGAAGAGCACTAAACAAGGACAGAAGTTTGATAGGTTGCTGGAGACTGGATGACATAGAG
Y
GCTTAGGCATTTAGATTGAGTGTTCCCTAATAGAATGATCAATGGTCCATGGAAAAGGTATTTCCAAGGAGGGCTCAGGAGGACAGATCCCCTGCTGAGG
Celera SNP ID:            hCV2559931
SNP Position Genomic:     52255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;JBIC-allele(T,175|C,1326)   total(C,1326|T,175)
SNP Type:                 INTRON


Context             (SEQ ID NO:41158):
ATGACATAGAGCGCTTAGGCATTTAGATTGAGTGTTCCCTAATAGAATGATCAATGGTCCATGGAAAAGGTATTTCCAAGGAGGGCTCAGGAGGACAGAT
Y
CCCTGCTGAGGTTCATGCTTTGCAAGAGGGATCCCTGAGGATCCACAAAGTAGTCAGCGGAGAAAGTGAGTAGGAAGTCAGAGGTCCTGAGGCTGATTCC
Celera SNP ID:            hCV2559932
SNP Position Genomic:     52344
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;JBIC-allele(T,175|C,1320)   total(C,1320|T,175)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41159):
CTCAGAAGGTTTACAAGCATGGCGGAAGGTGCAGACAGGGCAGGTGCATCACGTGGTGAGAGTGTGAGCAGGAGGGAGAAGGGAGAGGCCCTGCCCTGGG
Y
TCTTATTTATTTATTTATATTTTTATGTTTTGAGACAGGGTCCCGTTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCACAGCTCACTGCAGCTTTAA
Celera SNP ID:            hCV2559933
SNP Position Genomic:     54595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41160):
GTCATCTAGGGGTGTAGAGAGGTGGGTGGCCTTCTCTTGCCGTCATGCTCCCAGTGTCTGTGTAGGCTTTACTGCTGATTGAGGTGAAGAAGAGTTGAAT
S
CCCCAGTAAGACTCCACAAGTCGCTCAGAGGGAATCTGGCCAGAGCAGGAGCTAGCACCCTTTTCTTCCCTGCAACTCACAGGGGTAAAGTCATAGAGTC
Celera SNP ID:            hCV29194704
SNP Position Genomic:     65692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:41161):
TTTTTGCATTTTTTTTGTTTTGCCATGTTGCCCAGGCTGGTCTCAAACTCCTGCGCTCAAGTGAACTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTAC
M
GGTGTGAGCCACCATGCCTAGCCCTAGACTCTTTTAAACAGCCAGATCTCACGTGAACTAACTCAAGCATGAATTCCTCACCCATCACCATGATCCATTA
Celera SNP ID:            hCV2559934
SNP Position Genomic:     54877
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1)   total(A,1|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41162):
TGGCCACCTAGACAGCTAGTTTGAAGCTGTGGCTCCACACTCTCCTAGTTCTTAAACCATGGACAATTCACTGACTCTCTTTTAGCCTTGTTTTCCTAAT
Y
TGTCAAATAGACATAATGGTATCCTCATATAGGGTTATGGTTGGAGCACTGATCAATGCGATAACAGTGGCCTTTAGTGGTATTGGTAGGTGTAAGTGTG
Celera SNP ID:            hCV2960796
SNP Position Genomic:     63384
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41163):
GGCACATTGGTGTGCCAGGTGGGCTCCCAAGGCCTTGGGCAGCTCTGTTCCTGTGGCTTTTCCATGCTGAGGTTGCAAGCTGCTAGTGGCTTTACCATTC
Y
GAGGTCTAGAGGGTGGCAGGCCCATTCCCACAGCTCCATTAGGCAGTATCCTGGTAGGGACTCTGTGTGTGGGGCGGGTGGGGCTCCAATCCCACATTTC
Celera SNP ID:            hCV2559935
SNP Position Genomic:     55511
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41164):
TTCATGGGATCACTGAAAGGACTAACTGCACGAAGACCTGTAAAATACTTCACTCAGCGCATGTCCCAAAGGAAACACCCAGCCCATGGAAGCTGGGTCA
Y
TCTTGGCTTCCCCTGCTAGCACCCCTGAGCGGCTCTGAGTTTGGGAAAAGGGTCTTACGTGGCAAAGGGCATTTATTTCCCCGTGTTGAGGGGGTTGAAA
Celera SNP ID:            hCV29194705
SNP Position Genomic:     60357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41165):
CCAATCCCACATTTCCCCTCAGCACTGCCCTAGTGGAGGTTCTCTGTGGGGGCTCTGCCCCTGCAGCAAGCTTCTGCCTGGGCACCCAGGCTTTCTGATA
M
AGCCTTTGAAATCTAGGTGGAAGCTGCCAAACCTCCTTCACTCTTGCATTCTGTGCATCTGCAGGCTTAACATCACATGAAACCCACCAAAGCTTACAGA
Celera SNP ID:            hCV2559936
SNP Position Genomic:     55697
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,5)   total(A,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41166):
TCCTTCTGCATCTACTGCCATCTGTCCCTTCCAGAGCACATACGTCTCCCTCCTTCTCAACTCTTGGGTGCTGGCAAGTTATCTCTGAGTGGGTTTGTGC
K
TGAGTTCAACAATGCCCCGCTAGTCTGGAAACAAGACCACAGCAACCACTGACCTCAGTTAGAACAAGTGCAGGCAGGTTGTGAGCCAACTCCTGTTTCC
Celera SNP ID:            hCV29194706
SNP Position Genomic:     59838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41167):
AGATCTTCTGGGCCAGGCCCCCGTGGGGCTGCGTGTGCTGGGCCTCCAGTTCTAAGGGACCACAGTGCACCCCTTATCAGATGTTTGTGTTTAGACTCTG
R
AGGAGGCAAATAACTCTAGTTCTTTTGACAACATTTTGGGCTCTGCCACCATTTTATTATGTGAGCAAACATTTGATAGCTGGGAAGCCCATCCCTAATG
Celera SNP ID:            hCV2960798
SNP Position Genomic:     62354
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41168):
CTCTTGCATTCTGTGCATCTGCAGGCTTAACATCACATGAAACCCACCAAAGCTTACAGACTGCACCCTCTAGAGTGGTGGTCTGAGCTGTACCTGGGGC
Y
CTTTGAGCCAGGGCTGAAGCTAGAGCAGCATGTATGCAGGGAGCAGTGTCCCAAGGCTGTGCAGGGCAGCAGGGCCTTTGGTCTGGCCCCCAAAACCATA
Celera SNP ID:            hCV2559937
SNP Position Genomic:     55838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41169):
GGAGCTCAGCCGTGCACTCCCTAAGAAACCCCAGGGCAGGGAAACTGGCTGTTTGATAGCAGAAGAAAAAGTTGCAGTCTCAGAAAGCCTTCCATTAAAA
S
AATTTATTTTATCACTACCCAGAGTCTCATATTTCTGTCTCTGATACTTTCCCTGCCATGGTTCCACCGAGAACCCCTGGCCCCTGGTCTCCTTGGAATT
Celera SNP ID:            hCV7450613
SNP Position Genomic:     65460
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;JBIC-allele(G,346|C,1145)   total(G,346|C,1145)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:41170):
ATGCCCACACACCACTTACTTCGTGCGCAACAACAAGGACCCTGTTTTCCACACCATCACCCTCTGGGCAGCTGTCATGGAAAAGCCCAGTGACCTGACC
R
GCACCTGCGAGAGGTCCCTGCTTACCTGACGGACGTCCTGCTGGCACCTCAGACAATCCACTCTCAGGAGGCGCAGCCCGAAGCCCAGTTTCCCTTCTAT
Celera SNP ID:            hCV7450614
SNP Position Genomic:     64636
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Canadian Caucasians(G,6|A,94)   Canadian aboriginal Oji-Cree(G,15|A,100)      total(G,21|A,194) ;(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:41171):
TTTCAAAGAGGCCTCGCCTGATTCCCATATCTAAGTTAATCTCTTTTTCCTCAAGCTGCCCTAACCTCTATGCTTATTTTTCTATGGAGTGCTCATCTCC
M
CCTAAAGTTGTAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCACGCATTTGTTTACTTGTTTATTATTCAAAGCCTTCACTAGGAGGTAAAGCCTGTGAA
Celera SNP ID:            hCV7450619
SNP Position Genomic:     61856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41172):
CTCATCTGTGCTCACTCCTGGGTGATCTCCTCCAGTCCCATGGCTTTAGGTCAAGTGTACACGCCGATGGTTCCTGTAATTCTGTGTACAGTCCGGTCTT
M
CCTACTGAGTGCTCACTCACAGATCCAGTGCTGCTTCGGCAGGGACAGACGCATGTCTAAAATATCTAATAAGCCTCTTGAATTCAACGTGCCTAAAATA
Celera SNP ID:            hCV27530164
SNP Position Genomic:     61044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41173):
ACAACTCATTGTGGAACTTGAGCAAGTAAATTAATATCTCCAAGTCTCCGTTTCTTTACACTTGCCTCCCATGGAATCTCCTATGTAACAGGCTCAGCCC
R
GTGACTGGGACATTGAGCGGGGGCTCAAATGATGGCATCCATCCACCTCTCCTTATCCCAGGAGCTGTCTGTGATCTTTTCCTCTTGCTCCCACAGGCCT
Celera SNP ID:            hCV25606354
SNP Position Genomic:     49791
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:41174):
GCTTCCATTTTGGCCTCATGTCTACCCCAAAGTTGTAGCTTAGATGGGGGGAAAATTCAGAATTTTGCATAGACCATAGGTAGCACCCCCTAGAAAAAGA
R
TGTTTCTCCCCAGATGTCTCCCACTAGTACCCTAACCATCTGCTTGTCTGTCTAGTGAGGACCCTTGGAGGGCTGCTAAAATGATCAAGGGTTACATGCA
Celera SNP ID:            hCV25606355
SNP Position Genomic:     11385
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|G,1)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:41175):
CAATAATTGTTATTGAGTGAATGAAGGAATGAATTTGAGAACTAGTCATGCCAAGGAATCGCTAAGTCACATCGTGTTGGAAACTGCTCTTTGTGGTCCA
W
GTCCACCCATGTTTCTCTTGTTTTTTTCTCTCCATCAGATCTCAGTCTCAGGAGGAGGTTTGCCCCCAGTCAGCACCTTGACGAATATCCACAGCCTCTC
Celera SNP ID:            hCV25606356
SNP Position Genomic:     45975
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,36)   total(A,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:41176):
AAGTGATACCAATGTGTAGCTAAATTTGAGAACCAGTTCTAAGGTTCTCAAATTTAGCTTCTCAAATGTTAAAGTGCATGCCAATTCCCTGGGGTGGGGG
R
TGTTAGGATACAGATTCTCATTCTATAGGCCTGGGGTGAGGCCTGGGTTTCTGCATTTTCAACAAGTTCCCAGGTGCTGTTGAAGAGGATGGTCTGGGAC
Celera SNP ID:            hCV9459534
SNP Position Genomic:     26841
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41177):
ACATCAGCACCTGAGCCAGGAGGGCTGGCAGCACCTTGGAGACGAAGCTTCCCCAGAACCCTCTTCCTAGAGAGGAAGAGCAGCCTTTCTCTAACAGCAC
S
TTCCCTCCCAGCCATGCTTACCATGCTGTGGCCCACTTGCCCACGATGACCACGGTGTGACCCTAGTCCTGGAATGTCCGGCACAATAGGGGTGGCAGGA
Celera SNP ID:            hCV15844949
SNP Position Genomic:     23313
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41178):
AAGACACGGAGATGGATCAGGTCCCTCCAGCTCCAGGAGGCTCATATTCAACAGCAAGCCTGTGCCCTCCCATACATGGGCCATCTTGAGGCATGAGAAG
K
CTGAAGGGAACTGTGGTTGTGGATATCTCTTTGAGAGTTTTAATGTTGATGAGTATTCAGCATATTTCCAGCTTCACTATGACAGCTCAGGTGTCGTTGT
Celera SNP ID:            hCV27452512
SNP Position Genomic:     46872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41179):
CCTGACCAACGTCTCAAGAATGTGGAAGGGTCAGAAGCCTGTCTCCTCACATGCACGCACTGCTCAGCCCCCCTCTTTTTTTTTTTTTTTTTTTTTTTTG
G
TGAGACCAAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTAGCATAATATCGGCTCACCACAACCTCCGCCTCCTGGGTTCAAACGATTCTCTTGCCTC
Celera SNP ID:            hCV2559945
SNP Position Genomic:     62756
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,4)   total(G,4|-,1) 
SNP Type:                 INTRON


Gene Number:                 198
Celera Gene:                 hCG27927 - 79000075466114
Gene Symbol:                 VLDLR
Protein Name:                very low density lipoprotein receptor
Celera Genomic Axis:         GA_x5YUV32VTY6(36132492..36177474)
Chromosome:                  Chr9
OMIM number:                 192977
OMIM Information:            VERY LOW DENSITY LIPOPROTEIN RECEPTOR;VLDLR


Genomic Sequence (SEQ ID NO:12358):
CAAGTCCTAAGTAATCTCCTTCCACCCAACCCAGATAAAAATCTCGCGCATACAGAGCCATCTGACTTCTCCTAAGTCTAGCTCAGAATGTCTCAACTGT
GGCACCATTGACATTTTAGACTGAATAACTCATTGTGGGGCCCAGTCCTGTGCACTGTAGGATGTTCAGCAGCATCCCTGGCCTCTACCCAGTAGAGGGT
ACATCTCCCAGGAGTACCTCTCCCCAGGCATGACAGTGAAAAATGTCTCAAGACATTGACGAACATTGATTGGGTCTACAATTGCTTCCAGTTAATAATC
ATTTGTCTAGCCTCATATTCAACCCATTTTGGAATTTCCACTGTTTTTACATTTGGCCACATTTTTTACTTTCTGAAATTGTTCAAAAGCAGTGTGTAAA
ATTGTCTTTGGCCTTGGAATTTCAAAAACCTTGTCGTTACCAGATTGTAACCCTCAATCGGCATTCACTTATAATACGTCCACATTAACCCCTGATTTAG
AGTGGGGAATTCATCTGGCCAGGTTACACAAGAATACAGTTGTTCAAAACTGTCCTTACTAATACCTGTATTCCTCTTCTGAATGCCCTCCAGGAGGGGT
TAGCCATGTGCAGAGTTTTGCCTATTGCTTTCAGGTAAGCACATTCCATCCCTCAAGAGGGCACCTCTGTCATTTAGGTAGCAAGTAAGAGAAAACGCAA
TCTAAACCGACTTCAGCAACAAAGGGAATTTTTTGGTGCAGGTAAACAAGAAGTCCGATGGAATGGCAGCTTTTGAAACAAGCTGATCTGGGCTTGGGCT
TACAAATATGAGTGCCATTTATTTCAGTTTCCTCTTCTCCATAAGTCAGTTTCGTCTTCCAACTGGCTTCCTTCAGGGTGGCAAAATGGCAGAAGCAGTT
CTGGCCTTACGTCCACACATCTCATTACTTAGAAGATAATGCCTTTCTAGCCAAGCAAAAGCCCTGAGCTTCGTCGTAACTGAGCTAGCTTTTGTAATGT
GCCTAAGGCTGAAGCATCCAATCAATGCCAACAGAGGAAGGTCATAGGTTGACTGGCTGAGGCCCTTAAACCAATTACAGTAGCTAAGGGGGGAAGTGAT
GTCAATGGGTTCAGAACAGTGGTTCTCAAAGTATGCTCCCTGACCAGTGGCATTAACATCATCTGGGAACTTACTAAAAATGCAAATTCTTGGGCCTACT
GATCCAGAAACTCTGGAGGTGGGGCCCAGCAATCTATGTTTTAACAAGCCTTCCAAGTGATTCTGATGGAAGCTAAAATGCATGACCCACTGATTTTGAC
CATCAGGTCCTACTCATGGAGCCTAGAAGGGGGGAATCCCACTCATTTCCCTGGGCTGTCACACAATTAGAAAATAATGGAATGGAGGCCTGTGAAGTTA
CCATCGAAACACTTCAGAAGGGGATGGCCCCAGAAGAGGACAGCTCATTTCACATCTTACTTTCTATGCTGAGGCTGTGGGGTAGAAATCACAGTGATGA
GTACTACAAATTAGCAAATTGGTTTGAAGATTATTTCAGATGCCAATATTATCAGTCTAAGGATCTTGAAGAAAAATAATGATAAGCATCAACCTTAGCA
TTTTCTATGGGTCCTAACCTACTCCCTTAGGAGAAATTTGACAAATTAATTTACACAAATATGACAGAAGTAAACCTACTTAGCAATTAAACGGCACTGA
AGAAGTCATTCTCTAAAACAGTTTCTTAATCATGACTAATCCTAAGAATCAACTAGAATAGGGTTACATATACAGATTCCTGGGTTCTACCCTAGACCAA
TTGAATCAGGATCATCAACGGAGGGGCCTGAGAATCTGTACTTTTAGCAGACATAGCCAGTGATACACAGGGATTATATATGTTTGGAAAATGCTTCAAG
GAGATAAAGCCAAAAAAATCAAGGAGAAAAATCTCATGGAGGAATTATTTGAATGCTTCTGACTAATCAAACGGTAGTTTCTTCCCCTTATTTTTATTAT
TATTTTTTTTGAGACACGGCTCCCTGAATCACCCAGGCAGCAGTACAATGGCATGATCACAGCTCACTGCAGCCTCACCCTCCAGGCCTCAAGCAATTCT
CTTGCCTCAGGCCCCCCTCCACCCCCAGTAGCTGAGTCTATAGGTGCGCACCACCACGTCCAGCTAGTTTTTTGTATTTTTTGTGGGGTTTTGCCATGAT
GCCCAGGCTGGTCTTGAACTCCTGAGCTCAGGTGATCTGCCTGCCTCGGCCTCTCAAAGTGTTGGTATTACAGGTGTGAGCTACCACACCCAGCCTCCTC
TACTTTCTTCAATGCACTCCCTCACTACTGGGGCCTCTAACTAATGTTTCTTCCTCTAGTCTGACCCTATCCCACACCCTAAACAAGTTGCTTTCCATAC
CATTGTCACAGTAAAAGAAACTGGATGTCAGGCCTCTGATCAAAATCTATCACAAGTCCTTACTATGGTTCACAGGATAAAATCCAAAGCCTTAGCATGA
CATCCTAGACTCCAGCTAATCCAGTCCTTGCCTTTCTTCTTCAGCCTTACTTCACATTGTTAGTCCATTTGAACCCCACCCTTGAATCACCCTGAATCCC
TTCCATTGCCTTGAATAGATACTGCTGTTTTGCCTTTGTGCCCTCTGCTCACCATGGTTTTCCTTCCCTCTTCCCCTGGTGTATCAGTCAGGTTAACACT
AGGTTATGCTGAGGTAACAAAATCTCAGTAGATGAAGATGACAAAGATTTACTACTCTCTCACCCGTTCTATGTTAGGGGTTGGCAAGTTTGTTTGATTT
TTTTTTTTTTCTAAAGGACTAGATGGTAAATATTTTAGGCTTTGGGAGCAACATACAGTCTCTGTTGCACACTATTCCTCTTCTTTGTAAAACTCTTTTT
AAATGTAAAGATCACTCTTATTTGTAGGCCATACAAAAGCAGGTGACTGGCTAGACTTGGCCCATGAGCCCTAGTTTGCTAACCTCTACTCTATGTGACC
AGTGCTAAAGACACATAGACAGCAGGGAACTACTCACATGGGTAGTTCTAAATGAATCGAATCACTCGGAGACCTGGGCTAATGCAGCAGCCACCTCTTA
AACATTTCTTGTCACCACGCAGACACAAAGAGAGGGTTTCACATAAGCAATTAAGTGCTCCGGTCTGAAAGTGGCACCCTGTAACTTAGGCTCACAAATA
ATTAGCCAAAGTTAGTCTTTCGACCCCATCCAACCATAAGGGGGCCAGGACGTCCAATCCTACCATGTGTCCAGAAGTAGGGAGAATTCAGATCACCGGG
TAAAAATTATGAAAAAAGCTCAGAGACAAACGCTCTGTGAAGCCTTTTCTGATACCTTCATCCTGCAGCCAGAATAGCTGCTTCTTCCTTGCAATCTTCT
AGCACTTTAAGCATCTCTTAATCAGAGTGCTATACATAGGGTACTACAGTTGCCCACTTGCCTGCCTCCCCTACCAGATGCTGAGCTTCCTAGATAAGCA
CTTCTGTATGCCCACTACTTTGCACAGTGCCCGTTAGCCAGGGATGCTCACTATGTGTTGCTTCAACAAATAAATGAATGTGGTGGATTGTAGGAGTGAA
TGGGATTGCCTCTGCATTTACCTGACGGCGTCGGGAATCCAGCAGTGTCAACTTCTCTGAACCCAGTTAGTTCAACCATTTCAGTCTCCACTTATGATCA
ATTAGCTCTGTTAGTTCAACCACTTCAATATCCACTTATCATCAATTTATCTTTTTAGTTATTAGCTACTTTCTATCATAATCCAATGAATTTCTCCATA
CAACCTTTTTCTTCTAATAAACAACACCTTGCAGAGAGCTGGTCCTTGAGGCCACGGAGCACTTTGATATAATGTGGCTTGGCTTTCTTTTCAGTTTACA
GGCCAAAAGGCAGACACAGAGAGGCACAGTGATTTTTCCCAAGTTACACAGTCAATCAGAGATGGAGCCAAAAGTTATGCTTTCTTTTGAGTCAACAAAA
AAGCTACAGGATTGAATACAGAGCTGCAGCTAAGTTCACTGAAAGTTTATTTATATCCCTTGGAGAATTAGAAAGTACTCACACACGTTTTTCAAAGTTA
AGTCTTATTATACCATATCAATGTATAGCTTGTAGTATACCTGTATCTCTGAGTAAAGTATTAAAAACAAGTCATATGACTGTTTATTAATGCTGCCTCT
TTTTGTATTGATTCCACCCATCCCTTCTACTCCTTTCCTCTTCTGTAAAGCAGTAGCTCATCAGATGGCATTTCAGAACCCTGAGAATATGAAAGACATC
ATGCACTAAGGTTTTCCTATCACATCTCAATGCCATTAGGTGAATAACACCGGCATGCATCTTCACTACTAAATGTCATACAAACAAATTTCAGTTGTTT
CACATGCAACCTGTGTGGCTGCTGCAGTTTGTATCAACTATGTAACCACAGGGTGGGCAAAATAGCATTCAAAATGAGCTATAGTGCAAGATACCATCCA
TACGTAGAGTTAAGCCCTTTCATGCTTAGCAGTCACAATCAGGATATCTTTGGCCCACAGAAACCTATCCTGACTGGAATTTTCCTCTCCTGTGTGTCTC
CTGGATATAGTAAGTTCCTAATAAACATCTCCTCTGATTGCTAGCCTTGACAAATTTCCAGGAGAACCAGGGCAAGGAGAAGACAGTGAGGCAGTGCCCG
CTGCTCTTCAGATCACCAACAGAATAGAGTCAGAATATGATATTATTGAAACCTTCCAAGTTTGAATTAAGATAAAAACAACTTTTTCAAAATACCAAAA
ACCTTTTATTTAAGAAAGTGAAATCGCTCGATGTGCCCTCCCACTCTGGTTAGATGCTCAACAGACCACAGCAGACAATGCACCTCAACCAGGGCTAAGT
GTGCAAGAAAACTGAAGTACACAAAAAGCAAATTATAGACTCAGGTACTGTCAGGCACAAAAGAAGAACCAACCCTTTCTAGGAGTCTTGTCTTTGCTTC
CTTTATTCTTTCCTCGATTCTTGTAATTGAATGTTACAAAGTATATCAAGAGGAATAAACGTATGGGGCCCCTCTCTTCCAAACAAGAAAAGGTTAAGCT
TTTAATTACAGGCCCTCAAACTATCATTTTGTGCAATTAGCAATTAACTATAATCGTTGATGAGCAAATGCAAAGCTGCGCTAGCAATTTCCCTTCTCCT
CATCCCAGGCTGGGTTATTTCAGTCTTGTTCTATTACAGAGGACCAGMCACAACCGCGCGCACTCTCTTTCAAACATACACACTCTCTCACTTAAAGACA
CATTTAGTTTTCGGCAAAACGGCATCTCAGCGTGCGATTGAGACCGGCATCCCAAACCCCACWTTTGAGCAGCCCAAACGTTTGGAGCCCCTCCGCTTCA
TCACTTTCTGAGTGGATAGAGGAGGCCCGAAGAAGATGCTACCTACCAGCCTCTCTCAGGGGCGCAGGAGAGGGTGGTAGAGAGATGCTTGTTGCCCCTG
GAAACTGCAAGTACCCCCCAGGTGCACGCCCCGTCAGTGGGGAGGCGGTGGCAACAGCAACGATAGTTGCATCAGCGCTAACTGCTGCTGCTGCTGCGTG
TTCTGCCGGAGGCTGCCGGGAGGGTACAGTAATGACTGTAGGGAGCGCACAGCCGCTGCGGCGGCAGGTTCCCTGGATCAGGAAATTAGGACAGGCACCS
GGGATTGGAGGCGAGGGCGGCGCGCGAGCCAACCAGCGGTCGCCCCGGGCCCCCGTGAGCCCCAGGCGAACGCGCGGAGCAGCCGGGCCCCTAGAGCGGT
CCGGGTGGCGGCGGCGGCAGCCACGACCACGACCGCGGTCACTCACGCACGCTCACACTCGCACGCTCCCCGCGCGGGCACCCGGCTGCCCGGCGCGTGC
AAGAGGAGCGCGTCGAGGGAAAGGAGGGCCGAAGCCGCCGCGCTCCCGCCCGCCCGCCGCGCCTCCCGTTGACCACGCCCCCTCCGGCCCCCTCCCCGCT
GCTCACCCCGCTCTCCGGCCGCCGCCGGTGCGGGTGCTCCGCTACCGGCTCCTCTCCGTTCTGTGCTCTCTTCTGCTCTCGGCTCCCCACCCCCTCTCCC
TTCCCTCCTCTCCCCTTGCCTCCCCTCCTCTGCAGCGCCTGCATTATTTTCTGCCCGCAGGCTCGGCTTGCACTGCTGCTGCAGCCCGGGGAGGTGGCTG
GGTGGGTGGGGAGGAGACTGTGCAAGTTGTAGGGGAGGGGGTGCCCTCTTCTTCCCCGCTCCCTTCCCCCGCCAACTCCTTCCCCTCCTTCTCCCCCTTT
CCCCTCCCCGCCCCCACCTTCTTCCTCCTTTCGGAAGGACTGGTAACTTGTCGTGCGGAGCGRACGGCGGCGGCGGCGGCGGCGGCGGCACCATCCAGGC
GGGCACCATGGGCACGTCCGCGCTCTGGGCGCTCTGGCTGCTGCTCGCGCTGTGCTGGGCGCCCCGGGAGAGCGGCGCCACCGGAACCGGTGAGTRAGGA
CGCGCCCCTCCGCCGGCGGGCGGGACCCAGCCGGGGCACCGGGAGACCCCGAGGCGTAGGTCTCCGTTTGCCCACCCGCCTCCTAGGAGGCGCCTCTCGG
TTCTCCTCGCCTTCCCTCCCTCCCCTCCGTGGTGGCGCCTCTGAGCTGTCAGCGCCGAGGCTAAAGGGAGCCGGGCTTGGGGAACAGCGGGGTTCGGGGT
GCCCCGACGCCTCGCCTGAACTAGTCTTCTGCCCCTCACTCCGCCTCCCCCAGAGCCGCTGCTTYGCCTCGYTTCTCGCCCTCTTGACGGGCGCCGAGGT
GCGTGGGCTTCTGAGCATTGAACAATGGTTCTGCCTCCTCTGCCAGGCGCAGTGTTGGGAAGGAGGCAGAGGGCCAAGACGTGTGCGGCAGCCTCGGGCG
CACCCTCGAACCCCGGGGAGTGCGGGAGCGGACGGGGGGAGAAGGTGAGCGCCTCCGGGGACGCGGAGCGCCAGGGGCCGGCCGGGCTTCWGAGTCTTCC
GGCGGCCGCGAGCTGGCGCACGTTCGGTGGGCGGCGGCCGGGAGGCTCCGCGGAGCCGAGGGCACCCGGACTGCGACTCCCCCGGCGCGGGGCCGCCTCT
CCGGCGTGCGGGGTAGGGGAGCGGCGGGGCTTTACGCAGGACTCTGCTCTGGGCGCTTCTCCTCTCCCTTTTCCCCGCCTCGGGCGGCGTTTGGAAACCG
CTCGGSTCTCCCGTGTAGCTGAACGCGGAGGGGGAGTGGAGGGGAGACTTAATCWGGTTAGTTTGCTGACCCTCCTTCCCGGTGACGTTTCCTCGAGAGG
AATTGAGTCCTAGGCTAGTGACTGTAATTAGCCTTCATTCTACACAATAGCTCAAAGGAGCAGCGCGAGAGCGAGCGTGTGGCCCTGTCTTGTTGGGAAG
GGCGGCGGTGACTACTGTCGGGTCCCCAGACTCTGCCGCGGGGGCCTGGGGGCCCCGCCTGGTCGTCAGCCACGTTCCCACTTGGGGCCTCGTAACTTTC
CTGGACAGGCGACAGGAAGCCTTTCTGAGAGGACTCAGTCGGAATCCTAGCGCGTCCCCGAAGTGATCTTCAGATGTGACGCCGAGGGGCTTGCTTGCCA
GCTGCAGGGAATTGGGACTGAAAGCCGCCCAGGCCCTTAACACCCGTTCCAGAGTCCCTGGCTCCCGTCGCCGGGTGGCTTCAGGGGCCCTGCCGGCCTG
CAGTCACGTGCTCCTGAAGTGAGAGCGAACTTTAAAGCATGTGGTCAAGGAGCCTGTCGGGCAGCGCCTGGGGTTTTTACGTCTCCGAATGCCCCTGCCC
TTTGGTTGCCACTGTCCGGAGCGTGTGAACTGRGACTGGCCTTTCCGCCCTCTGCGATTGGTTAGCGGTGCGATCACGTTTAGGTTGGTCACATGGTTCC
GCGGACTCTTAAGTGRGCAGCATGGGCAGTGTTATTTTCAATGGAAAGTAGGAGACTCCACAGGCTCTTACGGGCTGTTCTCTCAAATGCCTTCCCCTGC
CTGGACTCTTTGAAGAGGACGAATGTGTAGTGAACATGGAATCTGATGTGTAACAAGCCTGAGAGCCTAGAAAAGCTCTGCTTACAAGAGTTTCCAAACG
CTAGCATTAATCATTAATAGATGAGTAATACTAACTTATTAAACGATTTCTCAGTATAGTGCCATGACTTGCATTATGCCTTTTGTAACATTTCAAAACG
CTAAGGTATACCAGAAGGAGGGACAATTATCCAGGAAGGTGAGAGAAAAGTTTCGTTTTTGCTGCATGTCCCTTCCACTAGAGGTTAACTTTACCTTATA
GAATGCTAGGAATGCACCTAAWCTACTGACATGAGTTAGTCAAAGCCAGATGTTCACCTTGTATTGGGCAGGTGAGGATCCTTTTCACTTTGTCACATGT
GAARTATTTGACATGCCATGAACAATGGAAAAACAAATTCTTCAAAGGAGAGGAAGCAGATTCTTCCAGAACTGGAGGAAATTTGGGCTGAGGCAGTTAT
TGACCCTAAACCAATCCCAACCGGCATCTGTCTTAAGTTCAAAGTCTCAGGGCATGTGGGCTGACTTTCTACCCTGGAGCTTCTACACATACCCCTTCTG
TCCACTGGCACATGGTGCTGTTCCACAATACTCCTGGACAAGACAGGTGAACACTGAGACTCTGGCAAGGAACTTAAGGCTAACAAGAAGTTGGTATACC
TGATTGCACAATTCCTGGGGGTTCTGGGACATTTTCCTTCAGCCTAAGTAGTCAAGATTAAGATCTGTGGTATGATATATTCTTTAAGGCCAGAGTCTAA
AAGAACCAAGGTTTTTTGAGAGCTATTCATATATGGCTAGCAACTAGCCTAAGAATAGAAAGAAAATTCCCTCATTGTGAGAAGTGGGTTGGTGGTACTG
GTGGTAGTAATAGACCTGGAGGTAGGAAACTGGTTGGCATGGAAAGTAAACTTGGCTCATCCAGATAGCACCAATGAAGGTATGACGATGATAGTACCCC
TTATCAAAGACTGATCACTCATGTGAGCAGGGACTGCGTAAAGGAAGGTCACCAGCCAAGCCCTCCTTGGCAGTAACAGCTTCATGAAATCYAGTGTAGC
TTTGTTCCCTGGATCACCCTCTTGCCCACTTTATGTGGCATTTACCTATAGTGCCTGTCCTGTGTCATTTTGATTGTTTGCTTTTATGGCCTGAGTCCCC
AGATACTTAAAGCATGTATAAAGGTCAAGTAGAGCTGCCAAATATTAAGACTTTAGTACAATAGACTGCTATTTAACACTAAACATTGCTAGCAAAGGTG
ACAGTCTCCATGCTCAAAAGAAGTGAAGACCTGATCCAAGTGTCTCTACCTGTCATAAAATTGAATAACCGTAAACTTGACTTGAGTAGKTTCATTACAG
TTTTGGAAGAGGAAAAAAGTTGTTACAAGCCCCTTCTGCTCCAGGAGAGGTATCAAATTGATAAGACTTAACAAGAACTCCTAGAGTAGAACATGACCAT
AAGATCAAGGGAACACATAGTACCCAGCCGTGTGGCTTCGGGTTTTGATCCCAAACCTTGAAGACTTGGCACACAGCATAGAAATACAGCTAATTCATTT
TAAATATCTAGCCCATTTTCTGTTTCTCACAGAATGTAAATTTGTTCTTTTCAGTGCAGGGAAAAGTGTTTAAGACAAGGCAGTTGCCTACGTGACTTAA
AGTAATGATTGCATTCACTTTGGATACTGACTTTCATTTGGAAAACCACCTTCACATACTAGCCTATAAGAAATTAAATGTATTAAAGGGCTTGATGAGG
TCTATAATGATGTTCGTTGTAAATGTACCTGCCTTAGGGAGCTCCTTGTGGTGGCTAATACAACTGCCCTCTACATGGTTAGTTGATAAATTCAAAATTG
CTTAGTTTGGTCCCTACTAATTTAATCTCAAAAGAATACTTGGACAACAGAGTGATAGACTACTTTCAAGGCAAACAGTCCAAAAATACTGTCTGCTGAG
GTTATGGGCGAGATATACTTGTTAAGCGGAAGTAAGTAGTCCAGGGACAATTTTTTCTGCCACCTAAAGAGTTTTGGGCTAGAAAATCTGAGGACTGATA
GTTTTTCTGAAGAGTTGGGGCAGAGTCTAACCTAGCTATAGGCGAATCTGGCTTTTAAGTAAAAATCATCTCAATTTTACTGTCTGCATTTTTCAAACTA
AATCAGTGTCTCTTTGCTAAGTTCGTCTATTGGCTTGCAACAAAAACTSTAAACACTGTTAATACCACTTAGTTAAGTACACTAACTGCACTGCAGGAAC
CAAATGAGATGGCAGGTGATAACACAGGTTAAGTGTCCTTTATCTGAAATACTTGAAACCAGAAGGGTTCCACAGAGTTTAGATTTTTTCAGATTTTGGG
ACATTCACACATACATAATAAGGTATCTTGGGGATGGGACCCAAGTCTAAACATGAAATTCGTTTATATTTCACATAYACCTTATACACATAGCCTGAAG
GTAATTTTATAGACTATTTTTAATGATTTTRTACAAGAAACAAAGTTTTGACTGCAACTTGTCACGTGATGTCAGGTGTGGAATTTCCACACTTACGGCA
TCATGTCAGCACTCAAAGTTTTGGATTTTGGAGCATCTCAGATTGCGGATTAGGGATGCTCAACCTGGACCATAAATTTAGCATACTTTTCCCCTTGAGT
GAAGTCTCCTAGGAAAGCTTGGGCCCAACAGTTATTTTGAGTCTCTAAGCAAGAGAATGCCTGTTAGGTCCTGTGAGAGTAAGTGTGGAGATTCTGTTAG
AAATGTTTCAATGCTTGCTTAGAGATCCTTTGCCTACTTTGTAGTTTAGAGATGCTGGAAACTATAAGATGAAGCCTCTGGCTAGAGCAGCTGATTTTGC
CAACTTGGGGGCCATCTGGGKAGCCTTTATGTATGTAGACGAGGTGGTGGGGATGGGGGGACTTGCAATTTGCCAACCAAGGGACATAACAAAGCCTCGG
CGATAGACAGCATTTGTGAGTTACATCACATGTTAGAACTTAATAGTTCTCCCACATGCTGTGAATAAACAGGGTTTCTATTTTATAGACTGCCTCTAAT
CTTTCATTTTCTTAAGAAAGACTTCCCCASATCTGAGGTATTAACTGATCTGTATGTTCACTAAGTAGGTTGCAGATTGATGTTGGTCATCTTTGTGCAT
CTTCTGGAAACCACTTAATGTACATCTACTGAGTACCTACCATATGGCACCAGGCATGGGGACAGAGTGACCATAGCACTGGTGGTTCCTTCCTTTGTGG
CACTTAGTCTAGTAGGGGAATCAAAGCAGGAAACAGCCAAAGACCGCTTGGAATAGAAGCTCTGAAGAGGAGTGAGCAGATCCAGTGTTTAAGACTTAAT
CATAAAAGAGGCAGATAGCAGCTGGAGATTTCTGGAATTTCCATATGCTATCTGGGTTCTAGCTTATGAAGTTTCCCTAAAATTACCAAGAACTTAGACT
TTAATTTCAAAAAGCCAGAAATAATTCTATGTCTGCAGATAATCCTACAAAAGTGATATGACTAAAGCAACAATGGATTACWGCCAGTATTACCAAAGAG
CATTAAAACATGTCAGAAGTAAAATCTGCGTCTGATATATCACACTCAACTTTACCAGTTAGCCGCTGCTAACCTTCTCAGGTGTTGGAACCTCTCTTTT
CACATGGAAATGAAGCCAACACACCCAAAGGGACACACTCATTCTGACAGACAAGTGTGTGAAAATGCACTGTTTTTAAATGATAAATTGCAACAAAGAG
GCCGGGCGCGGTGGCTCAAACCTATAATCCCAGTGCTTTTGGAGGCCGAGGCAGGCAGATCACGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGT
GAAAGCCCATCTCTACTAAAAATACAAAAAAATTAGCTGGGTGTGGTGGTGCGAGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTT
GAACCCGGGTGGCAGAGATTTCAGTGAGCCGAGATAACGCCACTGCACTCCAGCCTGGGCTACAGTGCGAGAMTCCATCTCAAAAAAAAAAAAAAAAAAT
TGCTACAAAGATGAGGTGAAGGTACCCTCATAGGCCTAGGGAACAGGGACCTTTATAACCTAGAGTCTTTSAAAGTATTCTAGCTAGTAAAACAACCAGT
CACACTTGGTTTCAAGTTCTGAAAAAGCTGGGGGAAATGTTTTTGACAAAAGTTTTTAGTTCAGACCAGCTTTATTAGTAAACTAATAAATCAACTCATG
CACCCAAGACTACCAACTAGTGCCTAGAGAATATAGGATGTCAGGCACCAGGTCCTGAGTTACAAATGTGAACTGCAGCCCATGCCTTAGGGGATCTCTG
TGTCTAAAGGTGAAAAATGGTAGCTGAACTCATCTCCTTGGGTGATGGCTCTGTGACAGGGACTATTATGAGAAAGCAGCCAGACCATACCTAGTTTTTC
CAAAAAAGGCATTGAGGCCTCATTCAAGAATACAATCTGAGCCCACTCCTGGTGAATGGGTGGACAAGGGCAACATGAACAAACTGAGACAAAGCAGCCA
TGAGGAAGGGCAAAGCCATGGGGAAGTGAGTGGGTCCCCTTTGAGCTGTTAGCTCAGCCCGTATAGCAGATGGTGGGTAGTGACCAATAGGGAAAAGTCT
GAGGAAATTAGTAGGGAACTTAATCCTAGAGATAGTGGTAAGCCAAGAAATGACCCCATTCTTGGCTATTCTAGGTTGCTTGAATCACTAGGTTGCTTGA
TATGGGTAGAGAATGTGGCAGCCTGGAGGCAAAGGAACAAGACATTTAAATTGACATCAGGTGAGAGGAGGGCTTGGGCATAGCCAGGGATTGATGGCCA
AATGTCAGGGAAGAATTTGGGCTCATTTCTGGAGTACTGATTTAGAGTAAGTAATGGGGCCAATCAAAGATAGACTACACAGGGAGGGAAGGATGGATTT
TAGAAGAACCTCTGCCTAGTAAGACACCCAAATAAATTTTTTCTGCAAAATAGTTTTGAGGGCTTTACTCACATGTTACTATCATGTGTATTGTAAAAGA
GGCATTTATCTCCTGTGTCCCTCCTGTGATGAACATTAGGCCTTATGAGGGTGTTATTGGTATATGCTACAACCCTGAAAATGAAAGAGCCACTTACATT
ATGGGTAGAAGCTGTAGCTTCTTAACCTTAGTGCAGTGGTTCTCAMAGTGTGGACCGAAATTGGCAACATTAATTCAATGTTAATTGAGTTCATGTGTCA
ACATTGACTCATTAGAAATGCAAACTTAGGCCCTGTTCTAGACCTGCTGAATCAGAATCCAGGCTGGGGCCCAGCATTCTGTGTTTTAACAAGCCTTCCT
GGGGATTCTGATGCACACGGGAGCTTGAGAACGACTGACTTAGTTTACCACTCACAGAAGCTAACGATTTTCAAGGTATATCCGATGGAGGGCCTTTCCT
CTGACTTGAACCCTAGACAAGAAAACCAAGAGCTATAATCCTTTTAGAAGACTTGCTGAGGAATTCTAGAAACATTTTTAAAAACTTAGAATGAGGAAGG
AAAGCAGGCCTCCATCTCAACAACAAGGCTAAATCTAAGTTGATGCTTAGTAACACAGTATCTAGAGCCAGTGCCTGGGTTCAACTCCTAGCTCTGCCCA
GGGCAATCTGGGACAAGTGACTGTACTTTCCTTCTCTACCAGGTTTCCTGATCTGTAAAAGAGGAATAATAGGGCCAACTGTGCAGGATTAAGAATTTTA
AAAGCTAAGAGATGTGAAGTCTTAGAGCAGTGTTTGACCAACAACAAAAACGATTCGATTATGTCCATGATTCTTAAGATCAATTTGATGTAAATGGAAA
TTGAATGTAACTGACAATTGAACTGTAAAATTCACTTATTTCCATGACTCAGAAGAATTAGCCTACATATTCACCACTTTTTAGTGGCCCCCRAACTAGT
GTTTTTGTTGCTGTTTGTTTGTTTGTTTTCGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACTATCTCGGCTCACTGCAACTTCTA
CCTCCCAGGTTCAAACAATTCTCCTGCATCAGCCTCCCMAGGAGCTGGGATTACAGGTGTGTGTAATGCCTGGCTAATTTTTGTATTTTTAGCAGACACT
GGGTTTCACCATGTTGACCAGGCTGGTCTTGAACCCCTGACCTCAGGTGATCTGCCYGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACC
GTGCCTGGCCCAAACTGGTTCTTACAATGTTTCAGAGGCTGACTTTAAGGCCAGAGCACAATCTTTGTGCTTGACAGCTCAGAACATTTCCCTTAACACC
TGTTGTGGTACTTTGCCTCTTACAAACCCTTCTCCCCTTAGGAAAACTTTTTTGCTGACTCAGAAATTTGCTTGTCCTGAAAGGAGTTTTAGCTTACAAA
TAGAAACACTGTCATTAAAGTGGCAAGCAGTAGAAGTGAACTAGACTAAAAATAAATGCCCTTGGTGGCCCCAGAAGTGCCAAAACAAATGGACGGAAGG
AATTCCAGCAAGTAACACCCATATGCTCAAGCAATGAGTAAGGGCATGAGAGATGTAAATGCTTGGCCCTGGTGGCCCCAGCAGTGTGGCAGCATGAGCC
TCTGTGCAGGCTGAAGTACGCTCTGAGCCTGGTACCCAGAGACACTTTCTCTATATTCTGGGCATGCATCTTGGAGTGCTCCTGCCAGGGTGCTGCTCGG
AGCCCCATAGGGAGATTTGTAGTCCGTTTGGAAGGCTTGGTATTTACTCGAAGGCCTATGCAGTTTTTTACTGAAGCTTATGTATTAGTCCTCCATGTCA
ACCGCTACAGGGAAAATTAGACAATGGCGGCTGACTTCTATATGCATTAAAAACCCTGAGTTTCCCTCTAGGACATTGGTCTAGACAAGGAATTTATGAA
ARAGACCTCAAAAGCTTAGGCCACAAAAACAAAATAGACAAATGGGACTTAATTAAACTAAAAAGCTTCTGCACAGCAAAAGAAATAATCAACAAAGTGA
AGAACAACCTGCCGAATGGGAGAAAATATTTGCAAACTATTATCTGACAGGAGACTAATATCCAGAATATACAAACTCAAACAATGGGGAAAAAATAATC
CCATTAAAAAGTGGAGAAAGGACATGAATAGACATTTCTCAAAAGAGGACATAAAAATAACCAACAGATACATGAAAAAATCGTTACCATTACTAATCAT
YAGAGAAAYGCAAACCAAAACCAAAATGACATATAATCTTATACCAGTCAGAATGGCTATTAATAAAAAGACAAAATACAACAGATGTTGCTGAGGATAT
GGAGAAAAGGGAAGTCTTATACACTGCTGGTGAGAATGTAAACTAATACAGCCACCAAGGAAAACAATATGCAGATTTCCCAAAAAACTAAAACTGGAAT
TAACATTTGATCCAGCAATCCCTCTACTGGGTATCTACCCAAAGGAAAAATCAGTATATCCAAGGGATACCTGCACTGGCATGTTTATTGCAGCACTATT
CACAGTAACAAAGATACAGAATCAACCTAAATGCCCATCAATAATGAAAGGGTAAAGAAAATATGGTACATATACACAATGGAATACTATTCAGCCATGA
AAATGAATGAAATCATGCCATTTGCAGCAGCATGGGGATGGAATTGGAGGTCATTATGCTAAGGGAAATAAGCCAGGCACAGCARGACAAATATCTTATG
TTCTCAATCGTATGTGGAAGCTTAAATATTTCATTCCATGGAGGTAGATGGTAGAAAGATGACAGAGACTCAGAAGTAGGGGGAAAGGGAGAGCAGRTGA
AAGGAAGTGGGTTAAAGAATACAAACCTACAGTAAGGTAGAAGAAATAACGTCARTGACTGTAGTTAACAAAAACGTGCTCGCGTGATGGACACCCTAAA
TCCTCGGATTTCATCAGTATAGATTCATTACATACATGTAACAAAATTTTACATGTACCTCATAAATTTATACAAACACCACCAAGAAGAACCCTGTTTT
TCTTGGAGCCAGTGAACTGCCAATGTGTCTGTGTAGCAAAGTTAACTAYTTAGAGAAGCAAGGCTCCCAGGAAAATAGGTCCTTGAAGTTAGTGTGCATA
TTCTATAGTCTGATTCCATCTATATAAGTGACAGTAAAAGTGAGAATTTTTTGACGCTCCAGGAATTCATTCATTACAAATTTAAATAGGCACATAAGTG
AGTAGGTACAAGCGACTTCCAACCCCCTCACCCAAAGGAGCAGAGATATTCTAAGGATTAGAGCTGGAAGAAAACCTAGACAATTTCTTAATAGAACCCT
TTTCAAATTCTTACACCAAAATCCAATATTCAAAAGAAAGTCTTGGTAGAGGCAGAGGTGGAACACMCAGGGCCTCTGCTACTGTGGCCTTTCCCTCCAC
TTCAACCACCCCTCTAGCCTGAGGCATTCTTGTGAAACCTCATGGCTTTAAGGAACCCACTAACAATTGCATTTTGCCCCATCTTCTCACCTGTCTGAGC
AGAAATGCCTAGCACTTCTACTTCCAAGGTATTTTTTGMGGTGTCATTGGCTTTAGTTTAGCCTGAAGAATTAAAAGAATCTCGAGTGTAGATGATTTCA
AGCTCAACTTGTTCCCTTTATGAAAGTATAATACTGAATTTGAGACGTAACTTTCATGGATGGAAATAGACTGCAGGTCCACAATCCTATAATCCCAAAG
CTTTGGAAACCAAAAGCCTCTTAACTCATTTGGTGCTTTCAGTTCTCCTAGAGCTCTGCACAGCAGCAGTCCCAGCTGAGCACCAGAGGTGGATAGGTAG
AACCTTTTAAAAACTTGAACAGAAAACTTAACAGTGTTCCAGTCAGGTGGCTAAGGGCTGGGCATTCGATTTAGTGTCTGAGCTCTCCCTCTCTGTGGGA
AGCAGAGAATTAAACAGAACTAGGGAGCACTTTCTGCCCAGTAGCAGTCCCTCAAAACAAAGTGCTTAGGAAACTAGGAAACGAAGAGGCATAGCCATAA
AGCTTAAGGTCTTTATTTGCCTGTCTTTAAAGAGTCCTTTATAAAGCCAGCTTGTCTTCCCACCCCCACCCCAATGTCATTCTTTTAAACAGGCAGGGAC
ATTTTAGTAGCACACTGTACTCCTAATGCCTGTTGCTACTCCTTATTGGAGAGAGAGAGAGAGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTGTGGTTGAGAGAGAGGGAGTAAAACACAGCTTTATGATGATCAGGCAGAAGCTTGAGTAAAGTGGAAATATCTCGGATAAGAAAAGCTAGAAATTAAA
CTCCTTTTTGGCTTCGGATATTTTCTTAGTAGAAAATGCTGATGCCTGTCCTGAGTCTCCTCAATATAGACTCTTAGAGCAGAGCTGCTAGGATTTTAAT
AGAATTTATTACTGTTGATAGCTTGTATATTACAACTAAATTCAGAGACCCTCTTTAAGGCAATAGTAGAGTAAATATCAGCCTTGGGATACTGTATGCC
CATACTTAATCCSAGGCCACTCTGAGTGCCTAGGAAATCTGTAGCTTCAAACTCATTCTTAAGGAGGTTGTCTTCCRGGTACCTTAACCCTGAGGTGGGA
AACTATCAATTGACATTGACCTTTAAGTTGCTATTCAAATCTGATTACAAGGTTTCCATTTTGATTATGTAGATATCARTGTCAATGTTGTTGTCTCATT
TTGACTTAATAACCTTTGGTAACTAAAACCTTAAAAAAAAAATCAGAGGCTTTCAGTCTTTACTGTATCTTAACTCCAACCTGACTATTCTTTCCAAGTA
TATTTATACCTATGTTCTCAGACTACAAATCATTCTTTTCCTGATTACTCAAGGTAGAGTCTTACCACTTTCACAGTCCCCAAAGGTAGTAAGGTCATAT
AGAACTGCAAGACACGTACCCTCAGCATTGAGAATATTGCAAACATATTAAGAATCCAGTGGCAATGAGGGGAGAGGGGAGAGGCACCAGGTACCTCAGA
TTTGGTTTAGCAGTATAAAACAACACAGGTGATGCTTCCTGACAACAATCTCTACCCTCCTCTAGTTCCCCTTCTAAATCCCTAGTATATTACAACCAAT
AAAACGTGAAGAATGAAAAAGTATTATGAAATGAAGGTAGGAAACCATTCTGCTTTGTAGCTGGGTCCTAGCTTAATTAGACTCATGGGAGCAGAGTGAT
AGATGCAGTTTTAAAAGCAACATATTTAATATCCAAGGAAGTAACCACACCCATATGGTCATCTTGATTTGGGCCAAATTTTAATCTCCCTGGGAAGAGC
CACAAAGCACGAAATGCTCCCAGACAGCAGGGAGTAGCTGACACTAGGGAGACCAACTAGGGTATTGTGCACGTAACACAAGAGTTCCAGTCTGTGCTTG
TCTCTGTAATATCAGTTCTTATGCCAGCATGCCACAGCTGCAAATGCTGAAAGGTGGCAGGAAATCGGAAGGCCTTCTGCTGGGACACCCTCCCTAAGTA
ATCTGCGTGAACTATATGATTCCACTGTTTTTCTCAAATATTTGCAGTATATTTGCTTTAAGGGCCACATCTGTGCCTTTTATCGTGAAGCAATCACATC
CGCCAGAAGGACGGAACTGCTAATGATAGGAAGCACCTGAACATTAGCTGGCCTGTGCCGGGCAAAACACCAACTGTCCCACTTAGAAGTCTTAGTTCAC
ACCATTGTGTGAATTAAATATCCATACATTAAGCATAGAAAACCAGATTCAGAGAAATCGAATCTACATCTTCAGCTCCACCTCACTTTCCTTTCCTCTC
CTCTTTAAATGACAAATGATCTTCCTTTCCCTCTTAACTATACTTTCTTGTTGCTTTTATCTTGGAGCTGTTTTTTAAAGCTGTGTTTTTCCAATTAGAC
CTCAGTTTCTAAGAGGAGGAATCATGTATTAAATCTCTATTTCTACCCTATTCTTGCTGCTCCTTCTAAATCTTCTTCACTGTGCTTGTAATAGAAACAT
CATTAATGGATAATAGTATGGATGTGGACAAGAAATGCCATTAAAGGATTAGGACTTGGCTGATTATAGCCACACACGTAGTTTCAACAAATGAGAGAAA
TGAGTCCACAGGCAGAGATGATGCCCCTTGTGGTCTCTGGGCAATCTGGATTCCTTCTATTTTCGTCTGGCTCCATTTGCCCGAGATCACTATTCCAGCC
ACCATGCCCAATTTTCAGGTACCAGGAATGAASAGATGGAAAGAAAATGGATCCTCTATCCTCTTAAGGACATTTCCCAAAGTTGTATATACCATTTTAG
TTTACATTCCATTAGTCAGAATGTAGCCCCTTGGCTGCACCTCACTGAGAAAGAGGCTTGAAAATCTAGTATTTAGTCTTAGCATGCACCCAGCTAAGAA
CGCAATTACTGTCAGTCACTGGCTGAAGAGCCATCCTACTCTGGCCCTTAGGATGTCATAGCCTGCCGAGTCTGCAGTATCCTTCTGAGAAGGTCCCCAT
CCATGGGTATTAGGTATCTTGAATCTATAACCAATCCTTGCTTTACCGAATGTTCCCTTCTTATTCTAGGGAGAAAAGCCAAATGTGAACCCTCCCAATT
CCAGTGCACAAATGGTCGCTGTATTACGCTGTTGTGGAAATGTGATGGGGATGAAGACTGTRTTGACGGCAGTGATGAAAAGAACTGTGGTAAGTAAAGA
GTTTGATGACTTATGCATTTTGTTAAAATATGATGTTATCTTAGTCTGCAAATGTATTGAGATTCTGAAAATAAAATCCACTTCTAACAATTGCTTTGAA
AGAATCTATACTTCTCTGTGTAAAGGAATAAAATTGAATGTTTGACGTGGGGTTATCAACTTGAGAATGGAATGATAAGGTGATGTTCCATTTAAATGAC
AGGACCTAGTTTATCTTAGATCAGACAAACGTGGAATAGGAATCTGGGAGAAGGGAGAAGAGGACCAGAAATAGAGACAAACAGAAGATTGCTTAGAAGG
GGCTTTTTTCCCCTTTTAATTTTCAAATGGCTCTGATCCTAGAAAAGAAGGCAAGCCATGGACATGAGAAAATCCCATAAAGTTTCAGGGGGTTAATTAA
CCCTTGACATAGAAACTACAAGCCAGCACAGATCAAAGATCAGATAAGGATTCTTTTTTAATTCTCTGCCTACAATAGTTGCTAATTCTAAAGCATTAGC
AGGGCGGAAGACATTCTCTCCCCAAGAGAATGGGGATACAGTRTCACAGCCATCAATCAGCATCTATTAAAAGATCAYTGTGAGAAATGCCTATGTATGC
AATCTATACAACCTCATGTCAAGCCAAAATAGCTGAGAACTGCATGGCAAGATTACATTTACATACCATGAATACATGCTGAAATTTGCTCTACGATCCC
TTTGTTCAGGGTTGTAAACATTCTGAAACAATATTCTATGTGAATATTGGTGCTAACATTGTCATTTATCTTTTAAAAGATGTTATATAAAGATGTTCAC
TATACAAGGTAGAAATACAGAAGAAAAGTAGAGTCTAAATGTAGGTTTCATCAACTGCCATCTTGTTATGCCTTTACCTACTTCTTCATGCATCATTATT
AAAATGCTRTAAAGTATGCATCATGGCAGACCTTGTTCTACACCTGATCTCTCAGAGCAGTATCACAGGTGTTTTCATGCCAATGTGTAAAGCAGATCAG
TAGCTCCTTTAGAAGCATAAGAAAGTCCATTCTACCATCTCAGGGAAGAAACTTACATCCAGTCTCAGGACCAAGAATAGTTCTCCTGTGCAACACTTTA
TCATCATTTGCATTTTAACACTAAGATTTTAATCTATTCCACAAGACACTGAGTCTCATGCTATTTCTGGGTTACCTAGGTAATTTAGTTCTCTTACTAA
ATATCTCCTTAGAGAGTCCTCACTCTTGTCAACTATTTTCCTGTTGTAAGTTGCAATTTTTTTTCCTCTCTTCTAAACGATATATTTGGCAAAACCCATT
GCTTGTTCTTAAAAAGTAATTATTCTCTTTGTGTTGCACAAGTCTTTTTTTACCATGTGACTCAGTAGGAACTAACCTGGGTCAACTTGGGATTTTTCTA
AAATAGTCYTGTATAAGTACTCTCTACTAGCCACATGGTAGGAGAGTTTGGCAAAGAAAAAGAGGTAGATGTATATCTAATCAAGATCATTTGAGGCAGG
AAAAATTATATCCTTAGCCAAAATTTGTCTCTACTTCCTGTGTGTGACAGTAGAGAAAGAAAGTAGAAATATTACAATCAGGGAAGGTCTGAGTGCTTAC
TTTGTTTCTCTATGGAAGAGGAAAGCTATAGAATTACTTAAAACTTCCAAAGCTGCCTCCTATTTTTAGTCTAACCTCTTAATATGGAACTTGGTTACAA
TATTTAGCTTAGTTCTTTATTTCCAGTATGTCAATGGGCATAGTCAACTTAACCTTAGATTCTATTAGCCATGTGCTTCTGTTGGTCCCATTAACTCATT
CTTTTATAATGTTAGGCTGAGCTAATTAATCAGCAACCTAAGTACTCTAAATATGTAACTGCTAATTCTCTTCCTCTGTAGCACATCTAAATTCCTATTT
GTCTCTCAAGGCCCAGTTCACATATCCTTTCTTTACCCTCCCAGTCTATGCTCCAAATGAAGAGAGAKAACCATACGGCAATTTGTCTGTCTCTGTTTAT
CTTTTGCTCAAACACTGTGGTATACAGCCAATCTTTCACATCCTCCTTACGTTTTCTAAGACTTAAAATCATGGAGGGCCGGGTGCGGTGGCTCACGCCT
ATAATCCCAGCACTTTGGGCGGCCTAGGCAGGCGAATCACGAGGTCAGGAGATCGAGACCACCCTGGCTAACACAGTGAAACCCCGTCTCCACTAAAAAT
ACAAAAAAATTTAGCCGGACATGGTGGCAGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGC
AGTGAGCCAAGACCACGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAATAAATAAAAATAAATAAAAAATCAATCAATCAAT
CAATCATGGGGTCTCTTTACAGCCATTCCGCTACTCCCTCTTTTGTAGCTTCCAAAGAATATCACAGGTTGAATTATAGCAACTAACCCTGCAGACCCTC
TGACTTCTTCCTCCATGCTCAGGAGAACAYAGACCTTGAATAGCACTTAATTCATTAACATTAGTGTTTGAGTTTTTCAGTGATTTTAGAAACAGGCATG
AATCTAAAGCTAGCATGGCCAGTCTTGTTTCCTTGGCTGTGTAATTCAAGGAGATAATCCTTTATAGATCATCATAATTTGTCAACCCATCTTGAGTTCT
AGAAATTAACTGTAATCACTGTCTCTCTCCTTTACAATATCTTACTCTCAACCAGAGTGGTCCAAGGGCACACTCTAAGCTCTGAGAGTTCTACCTGCTT
TAAACCAGTGATTTGAGAAACAGTCCCTTTCAAATGTTCATCAAATTGTGAATTTTTCACTTATTTACCTTCACAGAATATATGTTATAGAGGAATGTTT
TAAAATAGAAATTGGGTAGAAGGTATAAGCATATAGGCAAGAAAGAATATAATCTAAGAAAGATAAGCTTAGGGTATCCTGTGTGGCTACTTTATATCAA
GATTCATCCTGCTCCGTGATTCCTTCATGGGTAGGATAATCAAGCTGCCCGATTTGCTTAGGACAGTCCTGGTTTATGCTTATCTTCCAGATATAATTAA
AAGTGTCCCCTTTCTGCTGAGACTGTCCCAGTTTGGACAAAAAATTGCATGGTAACCCTAAGTATAGGGGAAAGACCTGCCCCAGGAAGAATTAGCAACA
GAATCAATTCCTCTCCTTAGGCTATTTTAACATTAGCAGKCAGTTATGGATATTAGCACTGACAGCTTCAATGACTTTTAGCTGGTTGATGTTAGCCTAC
CCCTTGGCTAGAAAGGCTAAAATCTTCTCTCCCTTGAATTCTAAGTACAACATCTCTTGTTACACTGATTGAGTTTTCTCCCCTTTCTACCTGATGAGTT
TCTTTGCCCCTGTAGACCAGTATGGGTGACAATATTCAGTACTGGGGTTTGGCCTTCATTCTCCACACTAAACACATGTGTTGTTAGGGGATGCCCCTTG
AACAGTATATTAGTCAGCTCAGACTGCTGTCACAAAAATACCATAAGTGGGTGGCTGAAACAACAGAAATTTATTTCTCATAGTTGTGGAGGCTGAGAAG
AGACCTGCCAGTAGATCTGATATCAGGTGAGGGCTGTCTTTCTGGTTTGCAGATGACCATCTTCTCACTGTGTCCTTACATAGTAGATAACAAAGAGAGA
GAGAGTAAGCGCTCTGGTTTCTTTTTATGAGGGTGCTAATCCCATTCATGGGGGCTCCACCCTCATGACTTAATTACCTCCCAGAGGCCCTACCTCCTAA
TAACATCATGTTAGGGGTTAGGATTTCCACACGTGAATTCTGGGTGGAGACAAACATTCAGTCCCCAGCAAGCAGTTCTACTATGATCCAGTCAGAAGAT
GGAATGTTTAGCTGTTAAATGAAGTACTTGAATGACTTGGAAGAAATGCATGTAGAAAATGAAAGTGTTACTTAATCTCAACATTATAAAACAGGCAGGA
AGTTAAATGTAAGGTATCTCCGAGTTGTAAGATAATGGGCAACCTCTGTCTGACCTTGACTTCAGTTTCCTCCAAGTCTCTCAAATGAGCATCTTCCTCC
TCTGAAAAAAAATAATAATTTTTCTGAAGTTTCCCCTGGATATTGGCAGTTGAGTGCCCATTGACTCAGCTTTTTTTTAGAGCAAAACATGCCAAAATGC
AGTATGAGCCCTCATGTGAAGCTAGGGCTGTGGGTAAATGACTTCAACTTTAACCCTTCAAATAAACGTTTGTAGTAAAGAAGACGTGTGCTGAATCTGA
CTTCGTGTGCAACAATGGCCAGTGTGTTCCCAGCCGATGGAAGTGTGATGGAGATCCTGACTGCGAAGATGGTTCAGATGAAAGCCCAGAACAGTGCCGT
GAGTGTAACTTGCTTTGGCCTTGAACTTTGCCAAGTTGTTCGGTGTCTAACATTTCTAAGTATTGCTTAATCTCCTACTTGGTATTCATTTTTCTTTGCC
TGCCTTAAAGTTTAGGTCAATTGACTCCAAGGGCAGTCAAATCATTACCAGTTTATCAGCCTCCTTTAAAGAATGTTCTCCCTGGTCCAACAAGACTGAC
ATTCTCTTGGGTAGCTTCACTATTGAATACTTAAAACTGAAGTCAGCAGATTCAATCAAGAACTCCTTGACTAGGTGCATAGATTTCAAATGTCTGTTTA
TAATAACTGAGCAGATGGTACTCTGGTCCTGGAAGCTAAGTCAAGAAGTGAGGGTTCCCTATGGGCCAAGCAAAAGCTTTTAGAAGCACAGCTTATCATA
CTATTAAAAAGCTATTACTGAAGAGGTAAGGTAGCTAGTAATTGGGTGATATAGTGACTCCTGACACACATGTAACCTCAAGTTACTAAAATGGAGATCT
TACAGCATRTTCTTAAATAAGAGAAACTTCATAGGTATGCAAGTATATACCTGTGTCCTTAGGAAAAAGTCTATGAGACCATAAAGAATGATGGTTTGGG
ATCATATAAATTGAGATCACACGAATGTCAAGGCAAAGAAAGTCTTAGAGTTTGAGTCAGTAGAGGCCTGCACTGGTAGAAACACTAAAAAAGGACTAAC
ATGAACACAGTTTAGGTCTAAAGTGTGATTATGAAAGAAAATCAAATAGAAAGGAAGATAAGGCTGTTACTTTCARTTTTCTAGATAAGAAGTGAGGGGA
GTAATATTGGTCAAGGCAAGTGAGTTCAAGGCCTGTGAGCTAAAGACAGGTTGTGTAAAGATTCAGCCTCAACTTTTAGTGGAGAATGACCTGGTCAAGT
CAAGCATTAGGGCATGCTTCTACTTTGCAAGATGTCAATCTAAAGGACATTGTGAAGGAGGCCCATAAAGGAATCTAGGCAATAGAAGATTTTGTAGGTG
TTTGACCATCTGACTTTTCATGTATTTGAGATTAGATGACAATATCTAGGTGTGCCCACTTGACATCCAACAGATAAATAGTGGTCTAGGAGCAGGCCAG
CCAATAAACTTCACCACGCCAAGTAAAACAAAAGCCAGAACTGAGCACGCCATGGGACCTTGAAGGAGTGACGTGGTCAAAGCTGTCACGTACACTGCCA
GGTAGCATAGGTTGGCACAGCTTCTAAGGAGTGGAGCTGATGAAAGAGCTCCCCGGGCTTCAGCCAGTTAGTAGAATTTCACCAGTGTGCCAGGCTACTG
AGTCACAGGTATTAGCGCTTCCAGGCAGCACAGGAGCAGCAGCTTTGCATTGATCAGTTCTGAGGCTCTTTTGAGACTGTATATCATCAACAGATATGAG
AACATGCCGCATACATGAAATCAGCTGTGGCGCCCATTCTACTCAGTGTATCCCAGTGTCCTGGAGATGTGATGGTGAAAATGATTGTGACAGTGGAGAA
GATGAAGAAAACTGTGGTAAGAAGATCAGTGTTGAGTGACGTAACCCAAAGACCCTTTTCCTAAAGGAAGGGTGGGCAGGGGAAACTAATCTAAGCCTRA
AGACGCACTGACATTGACTCACTTTTCAGTGACTTCACTATCTGCTCAATTACTTGTCCTTCATAACTGCCCTAAAACCCTAAAAGACATTCATGTGGCA
ATTGACCATCGCTTGGTGTTTCTTTTAGGCAAATAGAAATAAGAAGGTAAGTCATTCAAGGCACTTATATATAGAAGTAGCTCAGGGAAGCAGCAATTGT
GTGGGCTTTTGTTTTGACAGTAATTCATGTGTCTTTTGCACTTTGGCACAATAAAATTAGAAGGTGAGTAGGGTTGGCAAACACATTCATAGGTCTAAAT
TTGATTGGGTTATTGGAATAAATTATTTGAGTATTATACAAGCATTTCTTTGCCCATGAACTAGATTCTGGCATAACTTTCCCAGAAAAAAAAAAAAAAA
AGACACAGAAGCATGAATTAACATCTTGCCTCAGATACCCAAAGAAAAGTCTACCCAACTGGTGATACCTTTGTCTCCTGTTGCAGTTCCTGTCTCTGAA
AGCTAACTCTGCTTCCTATTCTTTCATGTTTCTGGTCTTGGAAAATCTTTAATAAAATGCTGCATGTTGAAGGTGAGGGCCTGGGAAAATCACTAGGTTG
AACAAACAGTGCTTTGAATGTTCTTTCAAGCTACTGCCCTTTTTATAGGGCCTCTAAAACCTACAGCTCCCAAGTCTGACAAGCATGGGCCTCCTGATAT
GGTAGTAGTCAAGGGAGCTCAGGGCACTTACAGTTGAAACACCAGTCTTGTGTGTAGAAGTCGCCTCCTGAGGTCAATACCACTGCACCTAGTCCAATGA
GTTTTAGTGTTCAATCCTAGAATTGGGTTTTCTGTATTGGTAAGCCCTGGTGCTGCCAAGTGTTTCCCTTATAAATCTAGACTTTGCTTCCCAAGAGAGT
CGTGGTCTCTATTCTAATTGCCACCAAATTGTGACCTTGAAACATTTGGCAGGAATTTAAGTCAAAGTACCAATTGGCTAGTAGGACTAGCTTATCATTG
TCAGCATACCTGATTGTTAAATGGTGATTATAGCCCTGGCAGTGACTTTTTCAAAATGGAAAGTGTTTAAGACTTGTTATTCCTGATCCTTATTTAAAGG
ACCAAAAAGAGGAACCATATATGGTGGTATGTGGTTCACCTCTTTTGGTGACAAAGTCTTAATGCTTGTTGTGAGTATTACGTTGCATGATATTCTCAAC
TAGTGATAAGATCTGACAAGCAGTATGTTGATTCAAGGACAACTCAATCTCTGCCTTCCAAATTGAAATCCCTTGTTACAGTTTGTTATTTATGATGGCC
ACTTTTAGAATCAATTGTGGTTCTCATCTCAAATTAATTTCCAGTCTTCAACTATTTTCTTGGTTCTTTATTTCTGTTCTTCTTATTTATTGTGTGSCTT
CATTTTTTGTACAATGAGACTGTACAAAAGTTCTTGATTTAACTCCATTGTAGCCTTTAAGTTGGGCTAGTAAGTTAGGATTAATGAATAAAGATCAATG
TATTAGATTTTGGGACAAGAATCTTGAACGGACCAATCTTGATGCATTTTCAGTGGGGCATCCTYTCTCTTAATAGGCAATATAACATGTASTCCYGACG
AGTTCACCTGCTCCAGTGGCCGCTGCATCTCCAGGAACTTTGTATGCAATGGCCAGGATGACTGCAGCGATGGCAGTGATGAGCTGGACTGTGCCCCGCC
AACCTGTGGCGCCCATGAGTTCCAGTGCAGCACCTCCTCCTGCATCCCCATCAGCTGGGTATGCGACGATGATGCAGACTGCTCCGACCAATCTGATGAG
TCCCTGGAGCAGTGTGGCCGTCAGCCAGTCATACACACCAAGTGTCCAGCCAGCGAAATCCAGTGCGGCTCTGGCGAGTGCATCCATAAGAAGTGGCGAT
GTGATGGGGACCCTGACTGCAAGGATGGCAGTGATGAGGTCAACTGTCGTAAGTAGCTTTCTAGCATGGCATGTTCAGTTCTCTTCCCTGTATCAACTGG
GACAATTTGCTGGCTTCATTCCATGGTGTTTCCTCCCTTTGTAGCCTCTCGAACTTGCCGACCTGACCAATTTGAATGTGAGGATGGCAGCTGCATCCAT
GGCAGCAGGCAGTGTAATGGTATCCGAGACTGTGTCGATGGTTCCGATGAAGTCAACTGCAAAAATGGTAAGGGTTTCTTCTTGTTGGTTAAGCAATGGA
TTGCTCTGACCAGACCCACTCATGGAATCTCTCTTCTTTGTTTCTCTTYGTAGTCAATCAGTGCTTGGGCCCTGGAAAATTCAAGTGCAGAAGTGGAGAA
TGCATAGATATCAGCAAAGTATGTAACCAGGAGCAGGACTGCAGGGACTGGAGTGATGAGCCCCTGAAAGAGTGTCGTAAGTGTACTTGTTGTTCAAGTA
CAGATCCTGGAAGTTTGACACAATCCAGTATAGCTAACACTGTGTGGACCCCCCGTGATGGCTAGTTAAACTTTTGAATGTACTGAAGTTCAATTGTAGA
CTTCAGAGTGAAACTTTATGACTTAAAAGCCCAGGTAGGACAAACTAGTTTATAGTTTTTGTTTTTGTTGTTTTTTTTTTTTTTTTTTTTTTGAGATGGA
GTTCCACTCTTGTTGCCCAGGCTGGAGTGCAATGATGCAATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAGTTCTTCTGCCTCAGCCTCCT
GAGTAGCTGGGACTATAGGCGCCCACCACCACGCCCGGCTAATTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGC
TGGTCTCGAACTCCTGACCTCGTGATCCACCCGCCTCGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCCAAACTAGTTTATAG
TTTAACCTCCTTAAAGATAACTGATCATCAATAGAGAAACTTGACTAAATGCTTGACCARCTGGTAACTTGCCGAGGAGTTAGATAATCCACCCTGAAAT
ATATACCTATAAAATAAATGATTAGGTCTTAGACAAATCGTGGGTTTGACCAGGCCAACTAGATAAGTTATCACAAATAGCCTGGGTTTTAAATGTGAAA
GATATTAATTGAAAATAAGTTGTCAAGTGACTACTACATTTTTATTCCAGATATAAACGAATGCTTGGTAAATAATGGTGGATGTTCTCATATCTGCAAA
GACCTAGTTATAGGCTACRAGTGTGACTGTGCAGCTGGGTTTGAACTGATAGATAGGAAAACCTGTGGAGGTGAGTCTAAGAAGAAAACCYGGACCCTGC
AGGTGATGGGAAAGGATAGTATGTACCTAGTAAGGTATAGGAGCAGCAAGACTAATTCTGATTTCCCTCCYAGATATTGATGAATGCCAAAATCCAGGAA
TCTGCAGTCAAATTTGTATCAACTTAAAAGGCGGTTACAAGTGTGAATGTAGTCGTGGCTATCAAATGGATCTTGCTACTGGCGTGTGCAAGGCAGTAGG
TAAATGAACTTGGACTGGTATGGCTRTTGTACCTTTATGAGTAAGTGCCTCTAAAAGGTACAGCCAGTGACTACAATAGTCAAACTAAACATGAAATTGT
ACTTGAGAACAATGCTGSTAACCTCATAATACAGCRGTATAGGTCAAATAGCAGATCTCTCCCCTAGATATGTACCTTGATCATTCCTTTTGCATATGAT
ACCATGAATACCTACCAGGTTTGCATGCTCTGTTTCCAAAACTTGAGTCCAACTCAAACAAGTGACTTATTCATCACTCACCCTGTTCTTGAAGGCTGTA
ACCCCACGACTGCCTTCCTAAACTGTAGGAAGCACTTGCAGGTCCCAGGGGCAGGAACTCCAGAACAGATACTACTGAGGTATTCCACAATACCTTTATT
TTCTAAGTGCTCCTCTGCTGGGAGGAGGTGGTTTAGAAAGACCTTGCCTTCTTAAAGCAAAACTAAGTAACCCWGACTTCCATCTTGCAGGCAAAGAGCC
AAGTCTGATCTTCACTAATCGAAGAGACATCAGGAAGATTGGCTTAGAGAGGAAAGAATATATCCAACTAGTTGAACAGCTAAGAAACACTGTGGCTCTC
GATGCTGACATTGCTGCCCAGAAACTATTCTGGGCYGATCTAAGCCAAAAGGCTATCTTCAGGTAACTTTCAGTTCCTTTTGTGGTGTCKTGACATAAGT
CATTGTCACTTGGGAAGTGATCTGTGGGATAGTTTGGAGGAGTTTCTTTTGTGTCTAGCCCCATCTAGCATCGAATTACCTGGGGACATTAAATCTAATG
CTAATTCTTTATTAAACTGTTATCACTTCCTAATTAGAAACTAACAATTGTCTATGAAGTAAAAGATGACATCTTTCATATTTTTTATATTTTCTCCCTT
TTCTCTACAGTTAATTGAGAACTGTTCATTGTTGCTACAAATAGAAATGGTAGTACAGCCTTTTCTTAATGGGAACTATAGAAACTCAGATGATGGATAC
TGAAACAAATAGCTTCACTTAGAAATTTGTTGTTCTTGTATATAGAATACATACCAGCAACTAGATAATCTACAGCATTATTAATTTAGGATCAGTAAGC
AGCATGGTTAAATAATTTGAGTGGTGAGCTGTGGTGTTAACTGGATTTCTTTCTGAACAAAGTCATTGACCATTTTGTAAGCAAAAAGTCCATTCTCCAA
GCTCTAATTGTGTCAAACTCTTAAATTTCTTGTGACCTATTCTGTTTCAGTGCCTCAATTGATGACAAGGTTGGTAGACATGTTAAAATGATCGACAATG
TCTATAATCCTGCAGCCATTGCTGTTGATTGGGTGTACAAGACCATCTACTGGACTGATGCGGCTTCTAAGACTATTTCAGTAGCTACCCTAGATGGAAC
CAAGAGGAAGTTCCTGTTTAACTCTGACTTGCGAGAGCCTGCCTCCATAGCTGTGGACCCACTGTCTGGGTTTGTAGTCTGTTTTCCATCACAGACTTTG
GAATGGTATCTGTGTAGGTCAGGAGCTTTCTCATACCTGAATTAGTACTCAAATCTCAAGGTTTATGAGCCTTCTGCAACAAAGAATTAGAATTCTAATT
TAAGATATCAGTTTTGCCCCAGGTGAGTGACCCTGGGATGTCCTTATCTATATGACAGGTCCTCCTGTCTGACTCTCGTATGACTGATTGCTGGCTGACA
TTAATGAATTAACATTCCTGATTTGATGTGTGTACCAAAAGCTGTATCTGAACCCTTTTGTCCACCCAGTTTCTACGCAAGTGATTTTTTAATTTTTGAC
TGAAAGCTTTGCTGGGCTAGCTCTGGATGATCAAACCTAAACGACAGCCTGAATTGTGAGGATTTGGGTAACCACATTGCATCTAAGTGTGCAAGTTGTC
TGAAAGTCCAGCAGAAATAAACAGACCTTTCTAGAAACATTTCACTAAGGGGGTTCTGTAAATTGCCACTAAGTAACATAGAAGAGCAGCTCAGGAAGTT
GACTAAGGCTGTAGTTGTCATCACAACTGGCCCCCGTGCAGCCTCATTAGAACTCAGTCAGCCAGCCAACCCCTGCTATGAAATTTGAAGGATGTTCGTC
TTGCACTCCTCTGTAAGAACTGACCTTTTAAAAAGGAAACATAACCTTGTGACTTTGGGCCGAAATTTAAATGTCAGACAAACATAGATTATTATAGTTA
ATAATGAGCTTGTAGATTCTTAATATTCAATTTTATTTACCTAGAACATAATTTAGACCCTTAAGTGTTACTATTTGTCACTAGAGAATGCCTTGAGTTT
TCTGCTCAAATTTTAAATTTTTGTTTCCAGCTACTACAACTTTATTCCTTCTAAACCACTGAGGCTTATTTCTCATTTAATTTTTCACAGCTTTGTTTAC
TGGTCAGACTGGGGTGAACCAGCTAAAATAGAAAAAGCAGGAATGAATGGATTCGATAGACGTCCACTGGTGACAGCGGATATCCAGTGGCCTAAYGGAA
TTACACTTGGTATGTATGTTCTTCCTTCTCGACCACCCACTCAACTATCTTCATAGTGTTTCCATTTATCTCCATGGTGAATTCTGGACTAGCAGATGAC
TCTACTGCTTCCGCCTAAATTCTAGCAGGAATTTTCAATGGGAGTAACTGAACAACACAAGTAAAATGGTGGATTARCAAATTACACATTCCATAATTAC
TGGCCTGTTGTCCAGCTGGGCCTAATATGTGACACAAATTCAGTGAACGTTGGGTCTTGGGTGCACTCATACTAAATATTCTGGGCATGAGTGCCTTAGC
ATTTCCTGAATTGCAGGCTTTTAACAGTTTTCTTCTGGCTTTTTGGAGGAGAACAACAAAATGGTAGCCTCTTTTAATATTTTCTGTAATGTGAGTAATA
TTTCTTAAGTCATTTGCTTTGAGAATCTCAGGTACCCTGTTAGTCCCCAAAAATGAACGTGGATACAGGCTCTGCATGCTGCTTCGCAAGGTTTATGGTG
ACCCCGTTAAGAAACCCTGCTGGGGAAAGAACCGTGAAAGTAGATTATTAATTCATTAGATATTTTTAATGGAAGCCAGAGTAGTAGTGGCTTGTCATGT
AATGACAATTCTTTTCCTACCTAGACCTTATAAAAAGTCGCCTCTATTGGCTTGATTCTAAGTTGCACATGTTATCCAGCGTGGACTTGAATGGCCAAGA
TCRTAGGATAGTACTAAAGTCTCTGGAGTTCCTAGCTCATCCTCTTGCACTAACAATATTTGAGGTAAGATGTGTCTCACATCAAAGTGTGTACCTTTGA
GCTACTATATCACTTTGAGAAGAAATAACAGACATAGCGGGAGGAGGGAAGAGCAGCTGAACATGGCTTGAGAAACTGCTTTCACTTAAAACCTGGTACA
AATCAGACACTAAGTCCCAGAAGCACTCCACACCTAAACTTGATTCTTTTACAGTTTTATATCCAGTGTCCCAGTTCAGCATTCAGTAAACTTAGTCCAT
TAAATGAGAAGTAAATGATGATGACCTTAGAAATGGACTTGTGTTAATCCTGGATGTACATGCTAATTGTGGGCTTCTGTTTTAGGATCGTGTCTACTGG
ATAGATGGGGAAAATGAAGCAGTCTATGGTGCCAATAAATTCACTGGATCAGAGCTAGCCACTCTAGTCAACAACCTGAATGATGCCCARGACATCATTG
TCTATCATGAACTTGTACAGCCATCAGGTACCGTGGAGAAGCACAGTCCTTAATAACTACTTTAAGGGAAGCAGCATGACACAGAACCTGCTGGATGTCA
GTAGCTCTTGGCAACTCAGTTTTCTTTAAAAGGGAACTTTTGCCCTCCTGTACCCTACCTTAAACATTTCACATGTTATTTTTTTATTTCTGCTGCCTCA
GAGAAATGGCTTCTCAACTTCAGCTCCTGGCTTTCCTCCCAAGCCTCAGTGTCAGAGCTTTTATTTCTGTTTCATTCATGTCCCCTTGGCCTTCAGCCCC
TCTTGCCAAGACTATTGCAGTAGCCTCCAAAGTAGCTTTTGTGCTACAAGCTTTCTCTACTGTTAGTTTGCTAGGATTTTTGCAATGAAGTACCACAGAC
TATCTTAAACAACAGAAATTTATTGTCTCAAAACTCTGGAGGCCAGAAGTTTGAAATCAAGGTGCCAGGAGGGTTGGTGCCTCTTGAGGGCTGTGAGGGA
AGGGTCTGTTCCAGGCCTCTTCTTGGTCTGTTGATGGTGCTCTTCCCCCTTTGTCTCTTCACATCATCGTCCCTCTGTATATGCTCGTGTCCAGCTTTCT
TGCTTTCTTTCTTTTTCTGTTTTTTGGAGACTGACTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCGCCTCC
TGTGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGAGTGAGCCACCACGTCCAGCTAAACTTTGTATCTTTAGTAGAGATGGG
GTTTCACCATGTTGGCCAGACTGGTCTCGAACTCCTGACCCAAAGTAATCTGCCTGCCTCGGCCTCCTAAAGTGCCGGAATTACAGGCGTGAGCTGTAAT
AACAGTCATATTGGATTAGAGCCCACCTTAATGACCTCATTTTAACTTGATTACCTCTGTAAATATCCTATCCTCAATATCTCCAAATAAGATCACATTC
TGAGGTACTAGGACTTCAWTATATGAATTTTAGGGAGGAACACCATTCAACTCATAACACCTACTTTCCCCCTGTGACACACCTGATATAGGATTGTGTA
GATTCTCAAACACATCGGGTTATATTATCTCCTGCTGAAAACACTTGGCTGGTTCTATCTAAATAAAGCCTTCAAACCTTCCTAAGGCTGAGTTTCCTTC
CACTTTGTTGGAGCAAGTCAAGAGAAAACCAGGAGAACATGCCTAGTCTCCTTTCTCTGAGCCTTCACGCTAAACCTCGGGCAAATAGTGAGAGCCAGTC
CTGGTCCCTCACCTCCCTTCCCCACCTCCTCTTTTGGCATCTGTCTCTTAAAGGCATAACTTTTACAGTCTATCTCGAAGAGGTCCCTTATCTGGTGTCC
TTAGAGCATGCTGCCTGTACCTGTATACTTATTCTTCCTTGATACTGTTCTCACTTGAAGGATTAGCAGAGTAGACAAGTTTAAGCTCTTGGGGGCAAGG
ACTCAGGTCTTCAACATGTAGAACAAGGCTTTATATATACTAGGCACCGGAATACCCATTTTAATGGTATTTTTTTTCCTGACTAGGTAAAAATTGGTGT
GAAGAAGACATGGAGAATGGAGGATGTGAATACCTATGCCTGCCAGCACCACAGATTAATGATCACTCTCCAAAATATACCTGTTCCTGTCCCAGTGGGT
ACAATGTAGAGGAAAATGGCCGAGACTGTCAAAGTAAGGCATTTTGTGTTTCAACCACAAGTAGAACCTACAACAAGCAATATAATAAGACACAAGCTTG
GATTTTTAAGAATTCTGTCTTAGCTAATTCWTTGAATAGATTTGAGAAGATATCTGCTATTGTATGCCGGGTTATCATGTCATTTCTTTAGAACTGACTT
TAACCCATTTCAACATTAAATGAGTTTATAGGAGACTAAAGTGTCAACATACCTTACACTAATTTGTACCTAGTCCCTTAACAGCACTGAGCTAGCCAAC
TTGCAGGTAATTAAATGAGGCCTTAACATTTTTCCTCAAAAGGAGGAGGACAGAAATTATGCTTAAGGAAGGCCATGGTTACAGAAACCTCATTGCCTCA
GTGGGTGACGCTACCCTAAAATAACACTTAGGCTGAATTTGCATTTAGTCTTCTGTTCTTAACTTTTGATTAAGTGGCAAATTAAAGTCATTTGTGTGAT
CAAGGAGCTTGTATGGTGAGGCTGATGAGGTTTTTATTAGCGTAATTCATGGTCAGGCAGGGATTAGCTCAGTTTACCAAGAAATTAGTTGCAAGACAGT
CTGGTATGCCTGGTATACCAGAGCATCTTGAGAACATTTCTCGTAGTTTCCAGGAACATGGGATGTTGTTTAGAGGGATAAAATGTGGTTGTCCATCATT
TTGAATTGTCAAATTCCAAACACCGACTGTCCTTCCCAAAGTTTCATGTATCTCTTTTTTGCATGAAGATTGCTATTTCAATGTTGACACATCAGCTGTA
CAACTTAGTTCAGCAGTGGTTTGTCTATTTTACCTGGTTTTAAAATAACCTTTTACRTGGCTTGYCTGGACAAAACAGCTAGCCATGCTGGAACCCTGGC
AYTAACCAGGTTCTTGGTTTTTATAATTCAGGTACTGCAACTACTGTGACTTACAGTGAGACAAAAGATACGAACACAACAGAAATTTCAGCAACTAGTG
GACTAGTTCCTGGAGGTATTGAGTTCAGTACTGCAAACTGTTAATCTCAACTAACAGCCACACTCTTTGTATCTACAGCTTAAATAATTAATGCAGCCTT
TAACTACTATTTCTGCCCCAATTGGTAACCTATATTTAAACACCAAAGACTTAAAACTTGCATATCTTTTCCTGACTGATCTTAAAGGTTTCTAGTAGAG
AACTGTCAGTGAAATGGCTACTACAGCATGKGACTCAAATACTTCTAAGCCAGAGTTGTTCCTGGTGTTCAATTGTTGTAGATACTGAACATCAATATTG
GATGCAAAGGTTTTGGCTCCTTACCYGATGGGTAAATTTCTAAGTCTGAATACAGATCCTTCTAAACTGATTCCTTTTATTCCTCTGTAGGGATCAATGT
GACCACAGCAGTATCAGAGGTCAGTGTTCCCCCAAAAGGGACTTCTGCCGCATGGGCCATTCTTCCTCTCTGTAAGTAKATTTCCTACAAGTCTGGGTTC
AAGAACTTCTTAGATACCAGATGAAGATTTTTTGTTCATCTGGAGCTACCCCTTTCATGGGCCTTTATGCTGTCTAGCATTTATGACACTGAATTACGTT
CGCTTTCTCCCCCACATAATACACTAAATTAAGGCCCATATCTTTCTCTTCAGTTGTACCTTTGGCACAGTAACTGGCAATGATAAGTGTTCAACGGTTA
ATGCTTTCTACTTCCGCACTGTTAACCTGGCTTATCCCCTTTTATAATAAGTCTCTTTAACTAGTGTACTGTTCTGTTCCCCCTTTGAAATGTGTGTAAT
GCTTCATACAGAGGAGATGCACAAATGCTTAAATGCTAAGAGTTACAGGACTTGTTGAGGATAAATTAAAAGCAGTTAAGAATTTTCAAACCTATGGAAA
AGGACCTCTAAACGAGACACGCAAATTCTAAGGACTTTGCTATAAAAACCTTTGTCCTAAATGAAGAGACCCAAGCTTAGCTAACACGCCAGGACCACCT
GAATAGCTCTCCAGAACCTTCTGCAATTTTAATTTGGTGAGCCTAAGGTGGGACCGAGGACCCTGCCCTTGCCTGGATGGATGTGGCTAGTCCAGCTCCA
GTGCACAGAGCTACCTCTGGGCTGAACTTGTTTCAAGCTCCTGGCCCATGTGTATTCCAACTTCTAGTTATCCTAGCTCCATAAAACATGGCATTTTTAC
TAATGTCAATTATTATGGATTCCTGAACGTTATTACCTTTCTTGTATGTTCCAATACTAGACTTAGCTCACTTAGCTACCCTCTGATTTTTTTCAGTGCT
CTTAGTGATGGCAGCAGTAGGTGGCTACTTGATGTGGCGGAATTGGCAACACAAGAACATGAAAAGCATGAACTTTGACAATCCTGTGTACTTGAAAACC
ACTGAAGAGGACCTCTCCATAGACATTGGTAGACACAGTGCTTCTGTTGGACACACGTACCCAGCAGTAAGTCAGCTTTGTGTCTTTATACACCATGGCT
TGAAGTGAGACTTTTCAGAAAGGAGACCTGGGTGAGAGAGAGAGAGCCATTAGGATGATGGAGTTACCAAACACTTCATCTGCTACCTGGCTATTAGACA
GACAGTATAGCCTGTTAGAACATAAGTCACTCAGTTGATCAGCATCTAACCCTCACCAACTGACAAGTGGGTCAACTTAAAGTCACCACTATATTAAGAT
ATTTTTGGTTATAGAAATGACATGTAAATACTAGCATGAACCAAGTAGCTCATTACTGAACTATTAAATCCATTGCCTACTGGATATTTGAAAGTAAATT
AGCATATCATATATAGGGGAGTTGGCTTAAAGTCAGTGTATTGAGTAASATTCACTTAGCCAAAATTATTATATGCTTTGCTTTAAAAAGGTATCCCACC
GCCCTTAGTATAGCTAGCTTTTCTTCCAGCAATAGTCASTCACTTGTTCTTCAGATGAAACCCAAGTGGAGTATTTGGCCTTCACGTAGGAAACAGGCTG
AACAAAACAAGTATTGATCACTCCCCTCTCAAACTCCGGTGAAACATGGAACAGTGGTCAATTCTTGACACACACATGGCTTTTCACATTTTTCCCCAAG
ACTTATGATCATTAAGTAGAAAAGACAGAATTAGTCACACTATCTTATCTCACTACCAAGCAGGTATAGTTGAATTCAAGTTAAATGCATGAATGATACA
ACTCAGTATTCTTTTGTATCTGACTGACTTTTCTTCTAAGCACTCTGAGTGTTTGAATGACCAACTCAAAAGCAAGGTCCATTTTAAAGACTAGAGTTGC
CATCAGTGAGTGATCACCAAGCTCATTCTATACTTCTTCTTTTCCACAGATATCAGTTGTAAGCACAGATGATGATCTAGCTTGACTTCTGTGACAAATG
TTGACCTTTGAGGTCTAAACAAATAATACCCCCGTCGGAATGGTAACCGAGCCAGCAGCTGAAGTCTCTTTTTCTTCCTCTCGGCTGGAAGAACATCAAG
ATACCTTTGCGTGGATCAAGCTTGTGTACTTGACCGTTTTTATATTACTTTTGTAAATATTCTTRTCCACATTCTACTTCAGCTTTGGATGTGGTTACCG
AGTATCTGTAACCCTTGAATTTCTAGACAGTATTGCCACCTCTGGCCAAATATGCACTTTCCCTAGAAAGCCATATTCCAGCAGTGAAACTTGTGCTATA
GTGTATACCACCTGTACATACATTGTATAGGCCATCTGTAAATATCCCAGAGAACAATCACTATTCTTAAGCACTTTGAAAATATTTCTATGTAAATTAT
TGTAAACTTTTTCAATGGTTGGGACAATGGCAATAGGACAAAACGGGTTACTAAGATGAAATTGCCAAAAAAATTTATAAACTAATTTTGTACGTATGAA
TGATATCTTTGACCTCAATGGAGGTTTGCAAAGACYGAGTGTTCAAACTACTGTACATTTTTTTTCAAGTGCTAAAAAATTAAACCAAGCAGCTTAACCA
TGGTTTGTGCCTGTTCCTCTAGGATGAACTCCTATCCTGAGTAGTACCAAGTGTTCTAACTAAATGTGTGAGCTGTAGTTCTTGATGTTGTATAACTAAG
CCTGTAATTGGGCTGGTTTCTCTTACACCCTAGCACAGTTAAAAAATGAAGTACTGTTTAACATTTGCTCCCGAAATATTTCTTACTGTGTAAAAGAAGC
TAGCTTAGTCTGTACCTAGAATTCCTCTTGGTTAGAGGAGTGAGTTTCTTTTTTTTCCATTAACTTGTTTCCTGATCGAGAAACACGTGCTAAGATTTCT
ATGAATTCTGCTTCTTTATAGTTAAGTCTCTGTTTTCCATGTTCTGTCATTTATATAGGTCAAGGACAAGTGCCTTCTAAGGCATGGATAAGGGCTTTCT
TCTTATGAAAGTCTAGACTGTCTTACTGTGAAGATGGCCAGGGAGGATAGCAAGCAATGGCATTCTTGAACAGTCTAAGGCAGGTTTCTCAGTGTGGTCC
TGAGAACAGAAGCATCTGCATCACCTGGGAATGTATTAGAAATGCAAGTTCCCAGCCCCATCCCAGACCTACTGAATCAGAAACTCTGGGGGCGAGGGCT
GAAACCTGCTTTCATAAGCCCTTCAGGCGATACTGATGTAAACTAAAGCTTAAAAACCACCGTTTTACTGTGACTTCATGAAGAATATAATTGCAATATC
ACCTAAATTTTTATCCTGGCTGGGATGGGGCAGATTCTTACTATGGACAATTTCTGGAACTTACAGTATGAAGAGCAGATGAGGAGTTTGAGACAAAGAA
AAAATTGTACAGGGAGTTTAGTGAATTTTCCATCAGGTTGGCCATTACTTTCTTTCTCTAAAGTCTCAGGATGTCTGGAAGCAAGGAAAGACAAAAGACT
TGAAGCACCGGGTGCATGCTGTGTGTCACAAGTGAGGTGGAGAGTTGGCTGTGGAAGGTACAGCAATTCCTCTGGAATTAAATGACCGACCAACACAGTA
CCAAGAGGATGAAGAGAAGATGTTTTGCGTTGCTACGTGAATCAGTGGATGACTCATATTTCACTTGCATATGAAATATAAGGCAGTTAACATCTTGTTT
GTGGCTTAAGCAAGGACATTAATCCTACTAGATGAAGGGGAAGTTGGTTCTGTTGTCTTAAGGGATGCCCCCTTGTGATTTTGGTCAACTGAATGAAAAA
GAAAAGATAGCCTTGGACTTTTTTTTCATGGGAGGTTTGGAGGTCAAGCATGTAGAAGGAAAAGGCTGTAGTCATGAATATAGAACTGTCTGCTCTCCAC
CTTTTCCTCACTCTACATTTAGTCATCACACTGAACAGGATGTGGCCTGCTGACAGTGAGTAGCTGAAGTGCCTGTTTGGTAAGTAGGTTAGCATTCATC
ATGAACTCTGAAAGCCATTTCAGAGTTTGGCTGCTGCTCTGACCCTGCTGTGGTACAAAAAACATGGATTTTTTTTTTTTTAACTGGAGTAATACCAAAT
TCCCTTTAGAAGCTTGAAGTTTGATACTATTGCTTTCCCCATTATAAGGATTATACAGTATTAATTAATTATAAGGCCCAAAGTTTGTTTTGGCAAATAA
AGTATTATTCTCTATCATCATCTTTTGAATTCCTGTCCCTAGTATGTTCTTTCATGTTCTGGGTAAAATTTCCAACCCTCAAAGAGTCTAAAACGTCTCA
TTTTTTTTTACCACGTCCTCCCCAGTAAGAAGCCAAGGTACAACTCATTGTACCTACGAGGTACAAACTCATTTGTAGAAACAAAGTAACTAGATATTCC
TATTGAAATAAGAATAGATATATTGGTGGGCCAGGCATGGTGGCTCACGCCTATAATCCCAGCACTTTGGAAGGCCAAGGCAGGAGGATCACTTGAGGCC
AGGAGTTCGAGACCAGCCTGAGCAACATGGTGAGACCCTGTCTCTACAAAAAAAAAATTTATAAAAAAAGAAAAAAATAGTTATATGACTAAACTACTAG
TCAATACAGCTTGCAATAATAGTGCATGAATGATAACAGGCCTCGGCTTTATCACCCAAAAAATAACTTGAATTCTATGTGAAATGTGTTAGGATAAGTT
TGCTCTGTCTCTAGAGTTCAATGTAGAAGATAATTAAGAGGTAAAATATGAAGCTTATCATACACTAAAGGAGAATATTTGGAGTTAGATGAGCCTGTCA
CACAAAGTGAAAGTGGACCCTCCAGAAATTTTAGGAATTGCCACAAAGATTGATGATAGATGAATAAACAGATTTGTGGCCTCTGGTAAAGAAATCCAGC
CAAGTTCCTCTGTCCAAATTTTTAAGTGCCCTTTGCAAGCTAATCTATTTGGCAAAAAAATAGTCCCAGTTGTTCAACTAGCTCCCTTAAAACATTCTAG
TAGGTGTTTTAAAGCCTAGGTATCGCTGCCTCTTTAGTTCTTGATGAATACAAGGCAAAAAAAAAAAAAAAAAAAAAAAAAAAATTGAGGCTTTCACTTT
GGCATTTGCTTCTGTTCCTTGTATCTGTGGAAGTCAAGTAGCCCTTCTCAAAAATGAGAAGCCAAGCTTTAAATAGCAAACTACAGGGTATTAAAAGACT
AACTCTTCAGTTAAGAACACTGTAGAAATGGTAGACCAACTTAAAGTCTACCTTTTAACAATCTTTACCCCAAACCTAAAGATTCTAGGGGTCACTTATC
TCTATTACGTAATCTAACTGGAATAATTTCCTAGAATTCTTACTAGTGAAATCTTACCCAAGTAAAACAATTTATTATTTTGAATCCAAATGAAAGCTAT
ACTGTTTGCTTTCAATGGTGGCAAAAACTTGCAAAAAGCAGATATACTTTTGCTAATTTAAGTTGAAGTACTATGAATACAACCTGCTAATCTTGATCCC
CAAATCTGAGCCCTTCAGTTTCATAATTGTTTTATCCTGAACGTAGTTGTGACATAGACATTTCTCAAAAGGGTCTGATACATCAAACTCCTAACAAGTA
GGAGCAGCAACTAGCTAAAGAGTAGAAAGAAGCTTCCCTTATTGTGGGTGATGAGGCGGTGCCTAAAAACCACATATATATAATCCCCTGGGTATTACAT
ATTCTGCAAGCCCTGTTAGTGGGGAGATGGTAGTGGCAATAGCAGCGATAGTTGCGTCAGTGCTAACTGCTGCTGCTGCCCGTTCTGTTGGCGGCTGCTG
GCCAAGTGTGCACACTTAGCCCTGGTTGAGGTGCATTGTCTGCTGTCGTCTGTTAAGCATCTAACCGGAGTGGGAGGGCACATCAAGCGATTTCACTCTC
TTAAAGAAAAGGTTTTTAGGTATTTTTGGTATTATATAGTCTCTAAGGCCAGAAGGGGCTTATAATGACTTCTCTTCTAGAATTGTAATACTAAAAAACT
ACTCGAGTAAATATCCTAACAAGTATGATTTTTCTTGGGAAAACTAAAAATTGTACATCCATGCTTCAGCCATATCATGGGCCTAAACTATGAGAGTTCA
GAAATATATAAAAGTACAAAAATCTTCAAAGGTACTTATTTCCAAATATGGAGGGAATGAATCTGAAGAGGGAACAATGGCGTTTTTCGAACTTATTTCT
CTCTAATCCAGCCTGGAGGATTTTTAGCCGAAACAGTTGCATGTGAAGGATTATCAGCCATCTTTGCATATCCCTTTCACATCTACCTTCACACAGGAAA
GCTGAATGCATTTTACCAGTGAGGCTCTAGATATGAAACTTAGGGATCCATAGATAAATAAGCTACTAACAAACTGATAACAGTGGTGTTCCATCTCTCT
ATCATGTCTCCTGAGTCCGTTTCACGTTTTTGAGCCTGGCTAATGAGAAAAAGAACAAAGTAGGACCATGACCCAGTGTTCTCCTGTAAATCTCACTGTA
AAAATCTCAATGCAAAAACACTGAGACAGGAGTGAGACCAGCTGCGGGTGGGGAGTTTGTGCTCCGCAGGTTACCTCATGGCATATCAAAAATGGCTTTT
TTCTTCACTGCGCTCAAGGAAAAAGTCAGATGGGTGACAAGGTGGTTCTGTTTAGAAGCAGCAGGCAATGTAGTTAACAGCATAGACTTCCGTGTCTTGT
GTGTGGTACCTTGGGCAAGTTACTAACTCCCTCTGTAAAGTAGAGACGATGGGGACTGTCTCACTGTGACAAGGTAAGATTTAAGTGAGATGCACACAAA
AAGCTCAGCACAGTGTCTGGCATCTAATATGTGCAGGGCAGATGTCACTACTGAATATCACATCAATGCTAGGGCTGTATTTACTGTCGCACACAGGCAC
CGGTAAGTGACTTTACCGGTGAAAGTCACAGGTACCTTTATCTATGATGAATGTAATGTGTTAGATGGTGACCGAAGTGTTCTCCACTACACCTGTCTGA
AGAGATCTAAGTCTGATATTTAAGGAGTGATAGCATCTTGCATACTTAAGAAGGCTTAAAAGACTGCATGGTTTAAACCCTAGAAACATAAATGGAATGT
TTCTGCCTCAGTTCTTTTGACTACCTCCTAGGACATGGAAACAAATATTTGGGAGCCTGCATAGTCTTTAGATGGCTGCCAAAGCACTTAAAATCTCCTT
TAAATTCTTACCATATGCTTACTTTTGTACTAAGTAAGTGCTCCCAAGTCTTTTACTTGCTCTTCACAGCAACCCTAATAGGTATCTCCATTTTACATAG
GTAAAAACTGAGGCTACAAACAATCTATGGTTCCAAATCCTATGTGCTTACTGCCGTCTTCTCTTAGAAGGGGATGCAGTACTGTACAAAGATYGAGCTG
GATGTCGCATTGCATGTTTGCTGAGTCCTCCTCATTGCTGATGTTAGGATCCTTCAACAGTTTCTCAGATGCCAGCTATGGCTGGCATCCAGTATGGTGG
TGTAATGGAAGTGTACTACTAGCACTACTACATCAGGTCAGCACAGATTAACTCAGTTACGTGTTATACCTTCAAGACGCTAGACATTCCAGAATTATTT
TCCTTGGCCATCCAAGTGAAGTAGAAGTAGATTGTTGGATTGCAAAGAAAATGATAAAGATTCCCTAAAGGAATTTATAAGCAGGCAACTTCATTCCTAT
GTATAAGATATTGGGAGAAAACAAACTGTACCACAACAAATCTTAAGTTTCAAGGCTCTCCTATAGGGAGAAACATGGCCAAAAAGACAGGAAGAACTGT
GGCTTGTAACTCAATGATGCTATAACTCCAGCACTGGATCTTAAGTATTCTGGAATATACCAGATTGGTAGAACTACCAGACTTGGGTATTTCTCAGTTA
ACACACATGCAAGGAGGAAGAGAGTTTTTTTGAACAAAATGACTGGCTTTGACAAAACTATCTTGCTCTTTTTAAATGTCACTTGATACTAGAATGCGAT
TTAAAAGCATGTAATGCCTCAGGAGTCCGGCATATACAACCAAATTATCATGCTCAGGATCTTCAGAATTCTAAAGGCACATGTTAGAATGCAGAGTCCT
GATGACCTGTCAATAAACTTTTTTTTACTAATGAACTGTACATTTAAATAAAAGTTTATTTTTGGGATAATTGTGAGCCTTTCCTTTCTCTAGAGACCTT
TTATAAAAGCTTTTACTCAAATCTTTTTCCTTTTCTCAACTGAATCACTGAAGATGACTCAGTCACCCCTTTCTAGGAACAAGTAGGGCCACCCAGGTCT
GGACACTTCAGGCTGAAAAACTGAGAGATGGTCCCTTTCTTGCCATATTTAGTACAGTTAGTGCCTCACCATGGACAGCCAGTATATTATCCTCTCAAAT
TTCCCCTCTCTACCCTTCCCATGAAAAAGACAGAAGTCAAAGCTACTGTTACTTAGTTAGGAATGTTAGCCTAGCACTTCCTTCTTGTAGGTGACTGAGA
ACAGGCCACACCTGGCTAAAGGGGGGCATATCCCAGGGCGGCAGGACAGGAAAGGACATTACAAGTAAAATCATTTTGATGCTGTCTCCTCGTTAGTTCT
TAGATGGTCTGTGTTGAAATTCGTTTATAAGGCTAAAACTTTTGTGAGTCGTAGATATATTCCACCTAAAACTTTTCTAAGCAATGGCCCCAGTTGTTCG
AATTAGTTGGGCACTAAACCTTGAAATTGACTCAGAGGATCCAAAAGAGTAGGAGAAAAATAAGTAAATCGAAGGAAAGAGAAACAGTCAAAAAAATATT
TTAAAGCTCAACAGTGAGTCTGTAATAAGTGAGATATTGCATTTTGTTTGAGATGTTGATCTCACCAGCTTTGCAGTGAGGT


SNP Information

Context             (SEQ ID NO:41180):
AAGTGGAGAAAGGACATGAATAGACATTTCTCAAAAGAGGACATAAAAATAACCAACAGATACATGAAAAAATCGTTACCATTACTAATCATTAGAGAAA
Y
GCAAACCAAAACCAAAATGACATATAATCTTATACCAGTCAGAATGGCTATTAATAAAAAGACAAAATACAACAGATGTTGCTGAGGATATGGAGAAAAG
Celera SNP ID:            hCV1595779
SNP Position Genomic:     15309
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41181):
TTTATAATTCAGGTACTGCAACTACTGTGACTTACAGTGAGACAAAAGATACGAACACAACAGAAATTTCAGCAACTAGTGGACTAGTTCCTGGAGGTAT
T
GAGTTCAGTACTGCAAACTGTTAATCTCAACTAACAGCCACACTCTTTGTATCTACAGCTTAAATAATTAATGCAGCCTTTAACTACTATTTCTGCCCCA
Celera SNP ID:            hCV11257299
SNP Position Genomic:     35720
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,11)   total(-,11|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41182):
GAAGTCAACTGCAAAAATGGTAAGGGTTTCTTCTTGTTGGTTAAGCAATGGATTGCTCTGACCAGACCCACTCATGGAATCTCTCTTCTTTGTTTCTCTT
Y
GTAGTCAATCAGTGCTTGGGCCCTGGAAAATTCAAGTGCAGAAGTGGAGAATGCATAGATATCAGCAAAGTATGTAACCAGGAGCAGGACTGCAGGGACT
Celera SNP ID:            hCV25608572
SNP Position Genomic:     28049
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(T,36)   total(C,3|T,67)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41183):
GGCTAGTAAGTTAGGATTAATGAATAAAGATCAATGTATTAGATTTTGGGACAAGAATCTTGAACGGACCAATCTTGATGCATTTTCAGTGGGGCATCCT
Y
TCTCTTAATAGGCAATATAACATGTAGTCCCGACGAGTTCACCTGCTCCAGTGGCCGCTGCATCTCCAGGAACTTTGTATGCAATGGCCAGGATGACTGC
Celera SNP ID:            hCV25608573
SNP Position Genomic:     27365
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,34)   total(C,67|T,1)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,38)   total(C,67|T,1)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41184):
AGATCAATGTATTAGATTTTGGGACAAGAATCTTGAACGGACCAATCTTGATGCATTTTCAGTGGGGCATCCTCTCTCTTAATAGGCAATATAACATGTA
S
TCCCGACGAGTTCACCTGCTCCAGTGGCCGCTGCATCTCCAGGAACTTTGTATGCAATGGCCAGGATGACTGCAGCGATGGCAGTGATGAGCTGGACTGT
Celera SNP ID:            hCV25608574
SNP Position Genomic:     27392
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,34)   total(C,1|G,69)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(G,38)   total(C,1|G,69)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41185):
GTATGGCTGTTGTACCTTTATGAGTAAGTGCCTCTAAAAGGTACAGCCAGTGACTACAATAGTCAAACTAAACATGAAATTGTACTTGAGAACAATGCTG
S
TAACCTCATAATACAGCAGTATAGGTCAAATAGCAGATCTCTCCCCTAGATATGTACCTTGATCATTCCTTTTGCATATGATACCATGAATACCTACCAG
Celera SNP ID:            hCV15884692
SNP Position Genomic:     29418
SNP Source:               Applera
Population(Allele,Count): african american(C,6)   caucasian(C,23|G,13)   total(C,29|G,13)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,522|G,967)   total(G,967|C,522) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41186):
CTCTCTTTCAAACATACACACTCTCTCACTTAAAGACACATTTAGTTTTCGGCAAAACGGCATCTCAGCGTGCGATTGAGACCGGCATCCCAAACCCCAC
W
TTTGAGCAGCCCAAACGTTTGGAGCCCCTCCGCTTCATCACTTTCTGAGTGGATAGAGGAGGCCCGAAGAAGATGCTACCTACCAGCCTCTCTCAGGGGC
Celera SNP ID:            hCV27852873
SNP Position Genomic:     5363
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,36)   caucasian(A,11|T,29)   total(A,13|T,65)
SNP Type:                 TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:41187):
GCATGTGACTCAAATACTTCTAAGCCAGAGTTGTTCCTGGTGTTCAATTGTTGTAGATACTGAACATCAATATTGGATGCAAAGGTTTTGGCTCCTTACC
Y
GATGGGTAAATTTCTAAGTCTGAATACAGATCCTTCTAAACTGATTCCTTTTATTCCTCTGTAGGGATCAATGTGACCACAGCAGTATCAGAGGTCAGTG
Celera SNP ID:            hCV25608578
SNP Position Genomic:     36026
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,28)   caucasian(C,1|T,25)   total(C,5|T,53)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41188):
AACTTAGTTCAGCAGTGGTTTGTCTATTTTACCTGGTTTTAAAATAACCTTTTACATGGCTTGTCTGGACAAAACAGCTAGCCATGCTGGAACCCTGGCA
Y
TAACCAGGTTCTTGGTTTTTATAATTCAGGTACTGCAACTACTGTGACTTACAGTGAGACAAAAGATACGAACACAACAGAAATTTCAGCAACTAGTGGA
Celera SNP ID:            hCV25608579
SNP Position Genomic:     35602
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,28)   caucasian(C,3|T,37)   total(C,5|T,65)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41189):
TTGAACCCGGGTGGCAGAGATTTCAGTGAGCCGAGATAACGCCACTGCACTCCAGCCTGGGCTACAGTGCGAGAATCCATCTCAAAAAAAAAAAAAAAAA
A
TTGCTACAAAGATGAGGTGAAGGTACCCTCATAGGCCTAGGGAACAGGGACCTTTATAACCTAGAGTCTTTCAAAGTATTCTAGCTAGTAAAACAACCAG
Celera SNP ID:            hCV11257330
SNP Position Genomic:     12099
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41190):
ATGTTAGAACTTAATAGTTCTCCCACATGCTGTGAATAAACAGGGTTTCTATTTTATAGACTGCCTCTAATCTTTCATTTTCTTAAGAAAGACTTCCCCA
S
ATCTGAGGTATTAACTGATCTGTATGTTCACTAAGTAGGTTGCAGATTGATGTTGGTCATCTTTGTGCATCTTCTGGAAACCACTTAATGTACATCTACT
Celera SNP ID:            hCV11257334
SNP Position Genomic:     11130
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41191):
CCATTAAAAAGTGGAGAAAGGACATGAATAGACATTTCTCAAAAGAGGACATAAAAATAACCAACAGATACATGAAAAAATCGTTACCATTACTAATCAT
Y
AGAGAAATGCAAACCAAAACCAAAATGACATATAATCTTATACCAGTCAGAATGGCTATTAATAAAAAGACAAAATACAACAGATGTTGCTGAGGATATG
Celera SNP ID:            hCV1595780
SNP Position Genomic:     15301
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41192):
GTGTGTGTAATGCCTGGCTAATTTTTGTATTTTTAGCAGACACTGGGTTTCACCATGTTGACCAGGCTGGTCTTGAACCCCTGACCTCAGGTGATCTGCC
Y
GCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCCAAACTGGTTCTTACAATGTTTCAGAGGCTGACTTTAAGGCCAGAGC
Celera SNP ID:            hCV1595781
SNP Position Genomic:     14257
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41193):
GTAGAAACACTAAAAAAGGACTAACATGAACACAGTTTAGGTCTAAAGTGTGATTATGAAAGAAAATCAAATAGAAAGGAAGATAAGGCTGTTACTTTCA
R
TTTTCTAGATAAGAAGTGAGGGGAGTAATATTGGTCAAGGCAAGTGAGTTCAAGGCCTGTGAGCTAAAGACAGGTTGTGTAAAGATTCAGCCTCAACTTT
Celera SNP ID:            hCV27500052
SNP Position Genomic:     24976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIC-allele(G,107|A,1392)   total(G,107|A,1392) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41194):
GTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACTATCTCGGCTCACTGCAACTTCTACCTCCCAGGTTCAAACAATTCTCCTGCATCAGCCTCCC
M
AGGAGCTGGGATTACAGGTGTGTGTAATGCCTGGCTAATTTTTGTATTTTTAGCAGACACTGGGTTTCACCATGTTGACCAGGCTGGTCTTGAACCCCTG
Celera SNP ID:            hCV1595782
SNP Position Genomic:     14139
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41195):
TACATAGGTAAAAACTGAGGCTACAAACAATCTATGGTTCCAAATCCTATGTGCTTACTGCCGTCTTCTCTTAGAAGGGGATGCAGTACTGTACAAAGAT
Y
GAGCTGGATGTCGCATTGCATGTTTGCTGAGTCCTCCTCATTGCTGATGTTAGGATCCTTCAACAGTTTCTCAGATGCCAGCTATGGCTGGCATCCAGTA
Celera SNP ID:            hCV11717309
SNP Position Genomic:     43494
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;TSC_42_C(C,12|T,71)   total(C,12|T,71)
SNP Type:                 hmCS


Context             (SEQ ID NO:41196):
AATGGAAATTGAATGTAACTGACAATTGAACTGTAAAATTCACTTATTTCCATGACTCAGAAGAATTAGCCTACATATTCACCACTTTTTAGTGGCCCCC
R
AACTAGTGTTTTTGTTGCTGTTTGTTTGTTTGTTTTCGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACTATCTCGGCTCACTGCA
Celera SNP ID:            hCV1595783
SNP Position Genomic:     13993
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41197):
TGAGGGTGTTATTGGTATATGCTACAACCCTGAAAATGAAAGAGCCACTTACATTATGGGTAGAAGCTGTAGCTTCTTAACCTTAGTGCAGTGGTTCTCA
M
AGTGTGGACCGAAATTGGCAACATTAATTCAATGTTAATTGAGTTCATGTGTCAACATTGACTCATTAGAAATGCAAACTTAGGCCCTGTTCTAGACCTG
Celera SNP ID:            hCV1595784
SNP Position Genomic:     13246
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41198):
AAAGATGACAGAGACTCAGAAGTAGGGGGAAAGGGAGAGCAGATGAAAGGAAGTGGGTTAAAGAATACAAACCTACAGTAAGGTAGAAGAAATAACGTCA
R
TGACTGTAGTTAACAAAAACGTGCTCGCGTGATGGACACCCTAAATCCTCGGATTTCATCAGTATAGATTCATTACATACATGTAACAAAATTTTACATG
Celera SNP ID:            hCV7589157
SNP Position Genomic:     15955
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41199):
GAATCCATCTCAAAAAAAAAAAAAAAAAATTGCTACAAAGATGAGGTGAAGGTACCCTCATAGGCCTAGGGAACAGGGACCTTTATAACCTAGAGTCTTT
S
AAAGTATTCTAGCTAGTAAAACAACCAGTCACACTTGGTTTCAAGTTCTGAAAAAGCTGGGGGAAATGTTTTTGACAAAAGTTTTTAGTTCAGACCAGCT
Celera SNP ID:            hCV1595785
SNP Position Genomic:     12171
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41200):
GGACAAAACGGGTTACTAAGATGAAATTGCCAAAAAAATTTATAAACTAATTTTGTACGTATGAATGATATCTTTGACCTCAATGGAGGTTTGCAAAGAC
Y
GAGTGTTCAAACTACTGTACATTTTTTTTCAAGTGCTAAAAAATTAAACCAAGCAGCTTAACCATGGTTTGTGCCTGTTCCTCTAGGATGAACTCCTATC
Celera SNP ID:            hCV7589159
SNP Position Genomic:     38636
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:41201):
TCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGTGGCAGAGATTTCAGTGAGCCGAGATAACGCCACTGCACTCCAGCCTGGGCTACAGTGCGAGA
M
TCCATCTCAAAAAAAAAAAAAAAAAATTGCTACAAAGATGAGGTGAAGGTACCCTCATAGGCCTAGGGAACAGGGACCTTTATAACCTAGAGTCTTTCAA
Celera SNP ID:            hCV1595787
SNP Position Genomic:     12073
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41202):
CTCTTCCTCTGTAGCACATCTAAATTCCTATTTGTCTCTCAAGGCCCAGTTCACATATCCTTTCTTTACCCTCCCAGTCTATGCTCCAAATGAAGAGAGA
K
AACCATACGGCAATTTGTCTGTCTCTGTTTATCTTTTGCTCAAACACTGTGGTATACAGCCAATCTTTCACATCCTCCTTACGTTTTCTAAGACTTAAAA
Celera SNP ID:            hCV28001021
SNP Position Genomic:     21768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41203):
ATTACCAAGAACTTAGACTTTAATTTCAAAAAGCCAGAAATAATTCTATGTCTGCAGATAATCCTACAAAAGTGATATGACTAAAGCAACAATGGATTAC
W
GCCAGTATTACCAAAGAGCATTAAAACATGTCAGAAGTAAAATCTGCGTCTGATATATCACACTCAACTTTACCAGTTAGCCGCTGCTAACCTTCTCAGG
Celera SNP ID:            hCV1595788
SNP Position Genomic:     11582
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,7)   total(A,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41204):
GAAGATTGCTATTTCAATGTTGACACATCAGCTGTACAACTTAGTTCAGCAGTGGTTTGTCTATTTTACCTGGTTTTAAAATAACCTTTTACATGGCTTG
Y
CTGGACAAAACAGCTAGCCATGCTGGAACCCTGGCATTAACCAGGTTCTTGGTTTTTATAATTCAGGTACTGCAACTACTGTGACTTACAGTGAGACAAA
Celera SNP ID:            hCV25608580
SNP Position Genomic:     35565
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,21)   caucasian(C,3|T,35)   total(C,8|T,56)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41205):
TTTTGCATGAAGATTGCTATTTCAATGTTGACACATCAGCTGTACAACTTAGTTCAGCAGTGGTTTGTCTATTTTACCTGGTTTTAAAATAACCTTTTAC
R
TGGCTTGTCTGGACAAAACAGCTAGCCATGCTGGAACCCTGGCATTAACCAGGTTCTTGGTTTTTATAATTCAGGTACTGCAACTACTGTGACTTACAGT
Celera SNP ID:            hCV25608581
SNP Position Genomic:     35557
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,2)   caucasian(A,34|G,2)   total(A,58|G,4)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41206):
AAAGTAAGGCATTTTGTGTTTCAACCACAAGTAGAACCTACAACAAGCAATATAATAAGACACAAGCTTGGATTTTTAAGAATTCTGTCTTAGCTAATTC
W
TTGAATAGATTTGAGAAGATATCTGCTATTGTATGCCGGGTTATCATGTCATTTCTTTAGAACTGACTTTAACCCATTTCAACATTAAATGAGTTTATAG
Celera SNP ID:            hCV25608585
SNP Position Genomic:     34831
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,35)   caucasian(T,32)   total(A,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:41207):
TGACAATTCTTTTCCTACCTAGACCTTATAAAAAGTCGCCTCTATTGGCTTGATTCTAAGTTGCACATGTTATCCAGCGTGGACTTGAATGGCCAAGATC
R
TAGGATAGTACTAAAGTCTCTGGAGTTCCTAGCTCATCCTCTTGCACTAACAATATTTGAGGTAAGATGTGTCTCACATCAAAGTGTGTACCTTTGAGCT
Celera SNP ID:            hCV25608586
SNP Position Genomic:     32503
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,39)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41208):
CTCATTACTGAACTATTAAATCCATTGCCTACTGGATATTTGAAAGTAAATTAGCATATCATATATAGGGGAGTTGGCTTAAAGTCAGTGTATTGAGTAA
S
ATTCACTTAGCCAAAATTATTATATGCTTTGCTTTAAAAAGGTATCCCACCGCCCTTAGTATAGCTAGCTTTTCTTCCAGCAATAGTCACTCACTTGTTC
Celera SNP ID:            hCV29341032
SNP Position Genomic:     37549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41209):
TATATTTAAACACCAAAGACTTAAAACTTGCATATCTTTTCCTGACTGATCTTAAAGGTTTCTAGTAGAGAACTGTCAGTGAAATGGCTACTACAGCATG
K
GACTCAAATACTTCTAAGCCAGAGTTGTTCCTGGTGTTCAATTGTTGTAGATACTGAACATCAATATTGGATGCAAAGGTTTTGGCTCCTTACCTGATGG
Celera SNP ID:            hCV29341033
SNP Position Genomic:     35931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41210):
TAGAGACAAACAGAAGATTGCTTAGAAGGGGCTTTTTTCCCCTTTTAATTTTCAAATGGCTCTGATCCTAGAAAAGAAGGCAAGCCATGGACATGAGAAA
A
TCCCATAAAGTTTCAGGGGGTTAATTAACCCTTGACATAGAAACTACAAGCCAGCACAGATCAAAGATCAGATAAGGATTCTTTTTTAATTCTCTGCCTA
Celera SNP ID:            hCV11257309
SNP Position Genomic:     20172
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41211):
GGCCACTTTTAGAATCAATTGTGGTTCTCATCTCAAATTAATTTCCAGTCTTCAACTATTTTCTTGGTTCTTTATTTCTGTTCTTCTTATTTATTGTGTG
S
CTTCATTTTTTGTACAATGAGACTGTACAAAAGTTCTTGATTTAACTCCATTGTAGCCTTTAAGTTGGGCTAGTAAGTTAGGATTAATGAATAAAGATCA
Celera SNP ID:            hCV29341037
SNP Position Genomic:     27197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41212):
TCTCTTTTTCTTCCTCTCGGCTGGAAGAACATCAAGATACCTTTGCGTGGATCAAGCTTGTGTACTTGACCGTTTTTATATTACTTTTGTAAATATTCTT
R
TCCACATTCTACTTCAGCTTTGGATGTGGTTACCGAGTATCTGTAACCCTTGAATTTCTAGACAGTATTGCCACCTCTGGCCAAATATGCACTTTCCCTA
Celera SNP ID:            hCV11717312
SNP Position Genomic:     38265
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:41213):
ATTCCTCTGTAGGGATCAATGTGACCACAGCAGTATCAGAGGTCAGTGTTCCCCCAAAAGGGACTTCTGCCGCATGGGCCATTCTTCCTCTCTGTAAGTA
K
ATTTCCTACAAGTCTGGGTTCAAGAACTTCTTAGATACCAGATGAAGATTTTTTGTTCATCTGGAGCTACCCCTTTCATGGGCCTTTATGCTGTCTAGCA
Celera SNP ID:            hCV11717314
SNP Position Genomic:     36179
SNP Source:               Applera
Population(Allele,Count): african american(G,19|T,15)   caucasian(G,28|T,8)   total(G,47|T,23)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41214):
CTATAATCGTTGATGAGCAAATGCAAAGCTGCGCTAGCAATTTCCCTTCTCCTCATCCCAGGCTGGGTTATTTCAGTCTTGTTCTATTACAGAGGACCAG
M
CACAACCGCGCGCACTCTCTTTCAAACATACACACTCTCTCACTTAAAGACACATTTAGTTTTCGGCAAAACGGCATCTCAGCGTGCGATTGAGACCGGC
Celera SNP ID:            hCV7589129
SNP Position Genomic:     5248
SNP Source:               Applera
Population(Allele,Count): african american(A,20|C,18)   caucasian(A,26|C,14)   total(A,46|C,32)
SNP Type:                 hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,20|C,16)   caucasian(A,27|C,11)   total(A,47|C,27)   
SNP Type:                 hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:41215):
GAGCCCACCTTAATGACCTCATTTTAACTTGATTACCTCTGTAAATATCCTATCCTCAATATCTCCAAATAAGATCACATTCTGAGGTACTAGGACTTCA
W
TATATGAATTTTAGGGAGGAACACCATTCAACTCATAACACCTACTTTCCCCCTGTGACACACCTGATATAGGATTGTGTAGATTCTCAAACACATCGGG
Celera SNP ID:            hCV11717315
SNP Position Genomic:     34019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41216):
AGAGATCCTTTGCCTACTTTGTAGTTTAGAGATGCTGGAAACTATAAGATGAAGCCTCTGGCTAGAGCAGCTGATTTTGCCAACTTGGGGGCCATCTGGG
K
AGCCTTTATGTATGTAGACGAGGTGGTGGGGATGGGGGGACTTGCAATTTGCCAACCAAGGGACATAACAAAGCCTCGGCGATAGACAGCATTTGTGAGT
Celera SNP ID:            hCV1595790
SNP Position Genomic:     10921
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41217):
GTGTCTACTGGATAGATGGGGAAAATGAAGCAGTCTATGGTGCCAATAAATTCACTGGATCAGAGCTAGCCACTCTAGTCAACAACCTGAATGATGCCCA
R
GACATCATTGTCTATCATGAACTTGTACAGCCATCAGGTACCGTGGAGAAGCACAGTCCTTAATAACTACTTTAAGGGAAGCAGCATGACACAGAACCTG
Celera SNP ID:            hCV11717317
SNP Position Genomic:     32990
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,-|G,-)    ;(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:41218):
TGGCTTTTAAGTAAAAATCATCTCAATTTTACTGTCTGCATTTTTCAAACTAAATCAGTGTCTCTTTGCTAAGTTCGTCTATTGGCTTGCAACAAAAACT
S
TAAACACTGTTAATACCACTTAGTTAAGTACACTAACTGCACTGCAGGAACCAAATGAGATGGCAGGTGATAACACAGGTTAAGTGTCCTTTATCTGAAA
Celera SNP ID:            hCV1595791
SNP Position Genomic:     10249
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41219):
TTTACTGGTCAGACTGGGGTGAACCAGCTAAAATAGAAAAAGCAGGAATGAATGGATTCGATAGACGTCCACTGGTGACAGCGGATATCCAGTGGCCTAA
Y
GGAATTACACTTGGTATGTATGTTCTTCCTTCTCGACCACCCACTCAACTATCTTCATAGTGTTTCCATTTATCTCCATGGTGAATTCTGGACTAGCAGA
Celera SNP ID:            hCV11717318
SNP Position Genomic:     31796
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41220):
TAGCAAAGGTGACAGTCTCCATGCTCAAAAGAAGTGAAGACCTGATCCAAGTGTCTCTACCTGTCATAAAATTGAATAACCGTAAACTTGACTTGAGTAG
K
TTCATTACAGTTTTGGAAGAGGAAAAAAGTTGTTACAAGCCCCTTCTGCTCCAGGAGAGGTATCAAATTGATAAGACTTAACAAGAACTCCTAGAGTAGA
Celera SNP ID:            hCV1595792
SNP Position Genomic:     9390
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41221):
AGATTGGCTTAGAGAGGAAAGAATATATCCAACTAGTTGAACAGCTAAGAAACACTGTGGCTCTCGATGCTGACATTGCTGCCCAGAAACTATTCTGGGC
Y
GATCTAAGCCAAAAGGCTATCTTCAGGTAACTTTCAGTTCCTTTTGTGGTGTCTTGACATAAGTCATTGTCACTTGGGAAGTGATCTGTGGGATAGTTTG
Celera SNP ID:            hCV11717319
SNP Position Genomic:     29936
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,38)   total(C,67|T,5)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:41222):
CGGGCTTGGGGAACAGCGGGGTTCGGGGTGCCCCGACGCCTCGCCTGAACTAGTCTTCTGCCCCTCACTCCGCCTCCCCCAGAGCCGCTGCTTTGCCTCG
Y
TTCTCGCCCTCTTGACGGGCGCCGAGGTGCGTGGGCTTCTGAGCATTGAACAATGGTTCTGCCTCCTCTGCCAGGCGCAGTGTTGGGAAGGAGGCAGAGG
Celera SNP ID:            hCV1595794
SNP Position Genomic:     6772
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41223):
CAGGCGGGCACCATGGGCACGTCCGCGCTCTGGGCGCTCTGGCTGCTGCTCGCGCTGTGCTGGGCGCCCCGGGAGAGCGGCGCCACCGGAACCGGTGAGT
R
AGGACGCGCCCCTCCGCCGGCGGGCGGGACCCAGCCGGGGCACCGGGAGACCCCGAGGCGTAGGTCTCCGTTTGCCCACCCGCCTCCTAGGAGGCGCCTC
Celera SNP ID:            hCV1595795
SNP Position Genomic:     6496
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41224):
TGTTGATAGCTTGTATATTACAACTAAATTCAGAGACCCTCTTTAAGGCAATAGTAGAGTAAATATCAGCCTTGGGATACTGTATGCCCATACTTAATCC
S
AGGCCACTCTGAGTGCCTAGGAAATCTGTAGCTTCAAACTCATTCTTAAGGAGGTTGTCTTCCAGGTACCTTAACCCTGAGGTGGGAAACTATCAATTGA
Celera SNP ID:            hCV8650718
SNP Position Genomic:     17613
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41225):
ATCAGCCTTGGGATACTGTATGCCCATACTTAATCCCAGGCCACTCTGAGTGCCTAGGAAATCTGTAGCTTCAAACTCATTCTTAAGGAGGTTGTCTTCC
R
GGTACCTTAACCCTGAGGTGGGAAACTATCAATTGACATTGACCTTTAAGTTGCTATTCAAATCTGATTACAAGGTTTCCATTTTGATTATGTAGATATC
Celera SNP ID:            hCV11257312
SNP Position Genomic:     17677
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41226):
CAATGTATTAGATTTTGGGACAAGAATCTTGAACGGACCAATCTTGATGCATTTTCAGTGGGGCATCCTCTCTCTTAATAGGCAATATAACATGTAGTCC
Y
GACGAGTTCACCTGCTCCAGTGGCCGCTGCATCTCCAGGAACTTTGTATGCAATGGCCAGGATGACTGCAGCGATGGCAGTGATGAGCTGGACTGTGCCC
Celera SNP ID:            hCV16173540
SNP Position Genomic:     27396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:41227):
TTAAAAAGTAATTATTCTCTTTGTGTTGCACAAGTCTTTTTTTACCATGTGACTCAGTAGGAACTAACCTGGGTCAACTTGGGATTTTTCTAAAATAGTC
Y
TGTATAAGTACTCTCTACTAGCCACATGGTAGGAGAGTTTGGCAAAGAAAAAGAGGTAGATGTATATCTAATCAAGATCATTTGAGGCAGGAAAAATTAT
Celera SNP ID:            hCV29341042
SNP Position Genomic:     21209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41228):
GATAAGGATTCTTTTTTAATTCTCTGCCTACAATAGTTGCTAATTCTAAAGCATTAGCAGGGCGGAAGACATTCTCTCCCCAAGAGAATGGGGATACAGT
R
TCACAGCCATCAATCAGCATCTATTAAAAGATCACTGTGAGAAATGCCTATGTATGCAATCTATACAACCTCATGTCAAGCCAAAATAGCTGAGAACTGC
Celera SNP ID:            hCV29341043
SNP Position Genomic:     20343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41229):
TATGTTCTCAATCGTATGTGGAAGCTTAAATATTTCATTCCATGGAGGTAGATGGTAGAAAGATGACAGAGACTCAGAAGTAGGGGGAAAGGGAGAGCAG
R
TGAAAGGAAGTGGGTTAAAGAATACAAACCTACAGTAAGGTAGAAGAAATAACGTCAATGACTGTAGTTAACAAAAACGTGCTCGCGTGATGGACACCCT
Celera SNP ID:            hCV29341044
SNP Position Genomic:     15897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41230):
TAGTACCCCTTATCAAAGACTGATCACTCATGTGAGCAGGGACTGCGTAAAGGAAGGTCACCAGCCAAGCCCTCCTTGGCAGTAACAGCTTCATGAAATC
Y
AGTGTAGCTTTGTTCCCTGGATCACCCTCTTGCCCACTTTATGTGGCATTTACCTATAGTGCCTGTCCTGTGTCATTTTGATTGTTTGCTTTTATGGCCT
Celera SNP ID:            hCV7589133
SNP Position Genomic:     9092
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41231):
CCGCTACAGGGAAAATTAGACAATGGCGGCTGACTTCTATATGCATTAAAAACCCTGAGTTTCCCTCTAGGACATTGGTCTAGACAAGGAATTTATGAAA
R
AGACCTCAAAAGCTTAGGCCACAAAAACAAAATAGACAAATGGGACTTAATTAAACTAAAAAGCTTCTGCACAGCAAAAGAAATAATCAACAAAGTGAAG
Celera SNP ID:            hCV29341045
SNP Position Genomic:     15002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41232):
TTTAGATTTTTTCAGATTTTGGGACATTCACACATACATAATAAGGTATCTTGGGGATGGGACCCAAGTCTAAACATGAAATTCGTTTATATTTCACATA
Y
ACCTTATACACATAGCCTGAAGGTAATTTTATAGACTATTTTTAATGATTTTGTACAAGAAACAAAGTTTTGACTGCAACTTGTCACGTGATGTCAGGTG
Celera SNP ID:            hCV7589134
SNP Position Genomic:     10478
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41233):
TGCTAGGAATGCACCTAAACTACTGACATGAGTTAGTCAAAGCCAGATGTTCACCTTGTATTGGGCAGGTGAGGATCCTTTTCACTTTGTCACATGTGAA
R
TATTTGACATGCCATGAACAATGGAAAAACAAATTCTTCAAAGGAGAGGAAGCAGATTCTTCCAGAACTGGAGGAAATTTGGGCTGAGGCAGTTATTGAC
Celera SNP ID:            hCV29341046
SNP Position Genomic:     8404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41234):
GGGATGGGACCCAAGTCTAAACATGAAATTCGTTTATATTTCACATATACCTTATACACATAGCCTGAAGGTAATTTTATAGACTATTTTTAATGATTTT
R
TACAAGAAACAAAGTTTTGACTGCAACTTGTCACGTGATGTCAGGTGTGGAATTTCCACACTTACGGCATCATGTCAGCACTCAAAGTTTTGGATTTTGG
Celera SNP ID:            hCV7589135
SNP Position Genomic:     10531
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41235):
GACAATTATCCAGGAAGGTGAGAGAAAAGTTTCGTTTTTGCTGCATGTCCCTTCCACTAGAGGTTAACTTTACCTTATAGAATGCTAGGAATGCACCTAA
W
CTACTGACATGAGTTAGTCAAAGCCAGATGTTCACCTTGTATTGGGCAGGTGAGGATCCTTTTCACTTTGTCACATGTGAAATATTTGACATGCCATGAA
Celera SNP ID:            hCV29341047
SNP Position Genomic:     8322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41236):
ACTGAGGTATTCCACAATACCTTTATTTTCTAAGTGCTCCTCTGCTGGGAGGAGGTGGTTTAGAAAGACCTTGCCTTCTTAAAGCAAAACTAAGTAACCC
W
GACTTCCATCTTGCAGGCAAAGAGCCAAGTCTGATCTTCACTAATCGAAGAGACATCAGGAAGATTGGCTTAGAGAGGAAAGAATATATCCAACTAGTTG
Celera SNP ID:            hCV11717322
SNP Position Genomic:     29774
SNP Source:               Applera
Population(Allele,Count): african american(A,25|T,7)   caucasian(A,34|T,4)   total(A,59|T,11)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41237):
CCGGAGCGTGTGAACTGGGACTGGCCTTTCCGCCCTCTGCGATTGGTTAGCGGTGCGATCACGTTTAGGTTGGTCACATGGTTCCGCGGACTCTTAAGTG
R
GCAGCATGGGCAGTGTTATTTTCAATGGAAAGTAGGAGACTCCACAGGCTCTTACGGGCTGTTCTCTCAAATGCCTTCCCCTGCCTGGACTCTTTGAAGA
Celera SNP ID:            hCV29341048
SNP Position Genomic:     7916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41238):
TATTGAGTAAGATTCACTTAGCCAAAATTATTATATGCTTTGCTTTAAAAAGGTATCCCACCGCCCTTAGTATAGCTAGCTTTTCTTCCAGCAATAGTCA
S
TCACTTGTTCTTCAGATGAAACCCAAGTGGAGTATTTGGCCTTCACGTAGGAAACAGGCTGAACAAAACAAGTATTGATCACTCCCCTCTCAAACTCCGG
Celera SNP ID:            hCV1595765
SNP Position Genomic:     37639
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41239):
GTTGTCAAGTGACTACTACATTTTTATTCCAGATATAAACGAATGCTTGGTAAATAATGGTGGATGTTCTCATATCTGCAAAGACCTAGTTATAGGCTAC
R
AGTGTGACTGTGCAGCTGGGTTTGAACTGATAGATAGGAAAACCTGTGGAGGTGAGTCTAAGAAGAAAACCTGGACCCTGCAGGTGATGGGAAAGGATAG
Celera SNP ID:            hCV11717323
SNP Position Genomic:     29019
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41240):
TAAAGCATGTGGTCAAGGAGCCTGTCGGGCAGCGCCTGGGGTTTTTACGTCTCCGAATGCCCCTGCCCTTTGGTTGCCACTGTCCGGAGCGTGTGAACTG
R
GACTGGCCTTTCCGCCCTCTGCGATTGGTTAGCGGTGCGATCACGTTTAGGTTGGTCACATGGTTCCGCGGACTCTTAAGTGGGCAGCATGGGCAGTGTT
Celera SNP ID:            hCV29341049
SNP Position Genomic:     7833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41241):
GTGAATTCTGGACTAGCAGATGACTCTACTGCTTCCGCCTAAATTCTAGCAGGAATTTTCAATGGGAGTAACTGAACAACACAAGTAAAATGGTGGATTA
R
CAAATTACACATTCCATAATTACTGGCCTGTTGTCCAGCTGGGCCTAATATGTGACACAAATTCAGTGAACGTTGGGTCTTGGGTGCACTCATACTAAAT
Celera SNP ID:            hCV1595767
SNP Position Genomic:     31977
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41242):
AAAAGGCGGTTACAAGTGTGAATGTAGTCGTGGCTATCAAATGGATCTTGCTACTGGCGTGTGCAAGGCAGTAGGTAAATGAACTTGGACTGGTATGGCT
R
TTGTACCTTTATGAGTAAGTGCCTCTAAAAGGTACAGCCAGTGACTACAATAGTCAAACTAAACATGAAATTGTACTTGAGAACAATGCTGCTAACCTCA
Celera SNP ID:            hCV1595768
SNP Position Genomic:     29326
SNP Source:               Applera
Population(Allele,Count): african american(G,6)   caucasian(A,2|G,32)   total(A,2|G,38)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41243):
GTGAGTCTAAGAAGAAAACCTGGACCCTGCAGGTGATGGGAAAGGATAGTATGTACCTAGTAAGGTATAGGAGCAGCAAGACTAATTCTGATTTCCCTCC
Y
AGATATTGATGAATGCCAAAATCCAGGAATCTGCAGTCAAATTTGTATCAACTTAAAAGGCGGTTACAAGTGTGAATGTAGTCGTGGCTATCAAATGGAT
Celera SNP ID:            hCV1595769
SNP Position Genomic:     29171
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,3)   caucasian(C,32|T,2)   total(C,57|T,5)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41244):
TATTCTAGGGAGAAAAGCCAAATGTGAACCCTCCCAATTCCAGTGCACAAATGGTCGCTGTATTACGCTGTTGTGGAAATGTGATGGGGATGAAGACTGT
R
TTGACGGCAGTGATGAAAAGAACTGTGGTAAGTAAAGAGTTTGATGACTTATGCATTTTGTTAAAATATGATGTTATCTTAGTCTGCAAATGTATTGAGA
Celera SNP ID:            hCV11717327
SNP Position Genomic:     19762
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(G,38)   total(A,5|G,69)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,-|G,-)    ;WIAF-CSNP-P(1(A,3|G,103)   total(G,103|A,3)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41245):
GAAGAAAACCTAGACAATTTCTTAATAGAACCCTTTTCAAATTCTTACACCAAAATCCAATATTCAAAAGAAAGTCTTGGTAGAGGCAGAGGTGGAACAC
M
CAGGGCCTCTGCTACTGTGGCCTTTCCCTCCACTTCAACCACCCCTCTAGCCTGAGGCATTCTTGTGAAACCTCATGGCTTTAAGGAACCCACTAACAAT
Celera SNP ID:            hCV11717328
SNP Position Genomic:     16467
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   Caucasian(A,28|C,56)   African-American(A,32|C,52)   Asians(A,37|C,47)   total(A,97|C,155) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41246):
TATGAGTAAGTGCCTCTAAAAGGTACAGCCAGTGACTACAATAGTCAAACTAAACATGAAATTGTACTTGAGAACAATGCTGCTAACCTCATAATACAGC
R
GTATAGGTCAAATAGCAGATCTCTCCCCTAGATATGTACCTTGATCATTCCTTTTGCATATGATACCATGAATACCTACCAGGTTTGCATGCTCTGTTTC
Celera SNP ID:            hCV25953110
SNP Position Genomic:     29436
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,1)   caucasian(A,36)   total(A,41|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41247):
GTACCTTAACCCTGAGGTGGGAAACTATCAATTGACATTGACCTTTAAGTTGCTATTCAAATCTGATTACAAGGTTTCCATTTTGATTATGTAGATATCA
R
TGTCAATGTTGTTGTCTCATTTTGACTTAATAACCTTTGGTAACTAAAACCTTAAAAAAAAAATCAGAGGCTTTCAGTCTTTACTGTATCTTAACTCCAA
Celera SNP ID:            hCV8650729
SNP Position Genomic:     17779
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41248):
CTGTGGCTCTCGATGCTGACATTGCTGCCCAGAAACTATTCTGGGCCGATCTAAGCCAAAAGGCTATCTTCAGGTAACTTTCAGTTCCTTTTGTGGTGTC
K
TGACATAAGTCATTGTCACTTGGGAAGTGATCTGTGGGATAGTTTGGAGGAGTTTCTTTTGTGTCTAGCCCCATCTAGCATCGAATTACCTGGGGACATT
Celera SNP ID:            hCV25608567
SNP Position Genomic:     29990
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,29)   caucasian(G,4|T,34)   total(G,7|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:41249):
TATCTGCAAAGACCTAGTTATAGGCTACGAGTGTGACTGTGCAGCTGGGTTTGAACTGATAGATAGGAAAACCTGTGGAGGTGAGTCTAAGAAGAAAACC
Y
GGACCCTGCAGGTGATGGGAAAGGATAGTATGTACCTAGTAAGGTATAGGAGCAGCAAGACTAATTCTGATTTCCCTCCCAGATATTGATGAATGCCAAA
Celera SNP ID:            hCV25608568
SNP Position Genomic:     29091
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(T,38)   total(C,2|T,70)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41250):
TACTATTCAGCCATGAAAATGAATGAAATCATGCCATTTGCAGCAGCATGGGGATGGAATTGGAGGTCATTATGCTAAGGGAAATAAGCCAGGCACAGCA
R
GACAAATATCTTATGTTCTCAATCGTATGTGGAAGCTTAAATATTTCATTCCATGGAGGTAGATGGTAGAAAGATGACAGAGACTCAGAAGTAGGGGGAA
Celera SNP ID:            hCV11257322
SNP Position Genomic:     15785
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41251):
AAGCTATTACTGAAGAGGTAAGGTAGCTAGTAATTGGGTGATATAGTGACTCCTGACACACATGTAACCTCAAGTTACTAAAATGGAGATCTTACAGCAT
R
TTCTTAAATAAGAGAAACTTCATAGGTATGCAAGTATATACCTGTGTCCTTAGGAAAAAGTCTATGAGACCATAAAGAATGATGGTTTGGGATCATATAA
Celera SNP ID:            hCV16173550
SNP Position Genomic:     24709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIC-allele(A,392|G,1095)   total(G,1095|A,392) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41252):
GCTTCTCCTCTCCCTTTTCCCCGCCTCGGGCGGCGTTTGGAAACCGCTCGGGTCTCCCGTGTAGCTGAACGCGGAGGGGGAGTGGAGGGGAGACTTAATC
W
GGTTAGTTTGCTGACCCTCCTTCCCGGTGACGTTTCCTCGAGAGGAATTGAGTCCTAGGCTAGTGACTGTAATTAGCCTTCATTCTACACAATAGCTCAA
Celera SNP ID:            hCV16173551
SNP Position Genomic:     7255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,5)      total(A,2|T,5) ;no_pop(A,-|T,-)   JBIC-allele(T,180|A,1291)   total(A,1291|T,180) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41253):
GCCTCGGGCGCACCCTCGAACCCCGGGGAGTGCGGGAGCGGACGGGGGGAGAAGGTGAGCGCCTCCGGGGACGCGGAGCGCCAGGGGCCGGCCGGGCTTC
W
GAGTCTTCCGGCGGCCGCGAGCTGGCGCACGTTCGGTGGGCGGCGGCCGGGAGGCTCCGCGGAGCCGAGGGCACCCGGACTGCGACTCCCCCGGCGCGGG
Celera SNP ID:            hCV29341050
SNP Position Genomic:     6991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41254):
AGGGAGCCGGGCTTGGGGAACAGCGGGGTTCGGGGTGCCCCGACGCCTCGCCTGAACTAGTCTTCTGCCCCTCACTCCGCCTCCCCCAGAGCCGCTGCTT
Y
GCCTCGTTTCTCGCCCTCTTGACGGGCGCCGAGGTGCGTGGGCTTCTGAGCATTGAACAATGGTTCTGCCTCCTCTGCCAGGCGCAGTGTTGGGAAGGAG
Celera SNP ID:            hCV29341051
SNP Position Genomic:     6765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41255):
GTTCTGCCGGAGGCTGCCGGGAGGGTACAGTAATGACTGTAGGGAGCGCACAGCCGCTGCGGCGGCAGGTTCCCTGGATCAGGAAATTAGGACAGGCACC
S
GGGATTGGAGGCGAGGGCGGCGCGCGAGCCAACCAGCGGTCGCCCCGGGCCCCCGTGAGCCCCAGGCGAACGCGCGGAGCAGCCGGGCCCCTAGAGCGGT
Celera SNP ID:            hCV29341052
SNP Position Genomic:     5700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:41256):
AAGATGAAGAAAACTGTGGTAAGAAGATCAGTGTTGAGTGACGTAACCCAAAGACCCTTTTCCTAAAGGAAGGGTGGGCAGGGGAAACTAATCTAAGCCT
R
AAGACGCACTGACATTGACTCACTTTTCAGTGACTTCACTATCTGCTCAATTACTTGTCCTTCATAACTGCCCTAAAACCCTAAAAGACATTCATGTGGC
Celera SNP ID:            hCV1595770
SNP Position Genomic:     25799
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41257):
AAAAATTGCATGGTAACCCTAAGTATAGGGGAAAGACCTGCCCCAGGAAGAATTAGCAACAGAATCAATTCCTCTCCTTAGGCTATTTTAACATTAGCAG
K
CAGTTATGGATATTAGCACTGACAGCTTCAATGACTTTTAGCTGGTTGATGTTAGCCTACCCCTTGGCTAGAAAGGCTAAAATCTTCTCTCCCTTGAATT
Celera SNP ID:            hCV1595771
SNP Position Genomic:     23040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41258):
GCTACTCCCTCTTTTGTAGCTTCCAAAGAATATCACAGGTTGAATTATAGCAACTAACCCTGCAGACCCTCTGACTTCTTCCTCCATGCTCAGGAGAACA
Y
AGACCTTGAATAGCACTTAATTCATTAACATTAGTGTTTGAGTTTTTCAGTGATTTTAGAAACAGGCATGAATCTAAAGCTAGCATGGCCAGTCTTGTTT
Celera SNP ID:            hCV1595772
SNP Position Genomic:     22330
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41259):
GTGCGGGGTAGGGGAGCGGCGGGGCTTTACGCAGGACTCTGCTCTGGGCGCTTCTCCTCTCCCTTTTCCCCGCCTCGGGCGGCGTTTGGAAACCGCTCGG
S
TCTCCCGTGTAGCTGAACGCGGAGGGGGAGTGGAGGGGAGACTTAATCTGGTTAGTTTGCTGACCCTCCTTCCCGGTGACGTTTCCTCGAGAGGAATTGA
Celera SNP ID:            hCV11717331
SNP Position Genomic:     7206
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41260):
GTAGAAATACAGAAGAAAAGTAGAGTCTAAATGTAGGTTTCATCAACTGCCATCTTGTTATGCCTTTACCTACTTCTTCATGCATCATTATTAAAATGCT
R
TAAAGTATGCATCATGGCAGACCTTGTTCTACACCTGATCTCTCAGAGCAGTATCACAGGTGTTTTCATGCCAATGTGTAAAGCAGATCAGTAGCTCCTT
Celera SNP ID:            hCV1595773
SNP Position Genomic:     20709
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41261):
ACAGGCATGAGCCACCGCGCCCGGCCCAAACTAGTTTATAGTTTAACCTCCTTAAAGATAACTGATCATCAATAGAGAAACTTGACTAAATGCTTGACCA
R
CTGGTAACTTGCCGAGGAGTTAGATAATCCACCCTGAAATATATACCTATAAAATAAATGATTAGGTCTTAGACAAATCGTGGGTTTGACCAGGCCAACT
Celera SNP ID:            hCV27089651
SNP Position Genomic:     28760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41262):
GTTGCTAATTCTAAAGCATTAGCAGGGCGGAAGACATTCTCTCCCCAAGAGAATGGGGATACAGTGTCACAGCCATCAATCAGCATCTATTAAAAGATCA
Y
TGTGAGAAATGCCTATGTATGCAATCTATACAACCTCATGTCAAGCCAAAATAGCTGAGAACTGCATGGCAAGATTACATTTACATACCATGAATACATG
Celera SNP ID:            hCV1595774
SNP Position Genomic:     20378
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41263):
AGCTTAAATATTTCATTCCATGGAGGTAGATGGTAGAAAGATGACAGAGACTCAGAAGTAGGGGGAAAGGGAGAGCAGATGAAAGGAAGTGGGTTAAAGA
A
TACAAACCTACAGTAAGGTAGAAGAAATAACGTCAATGACTGTAGTTAACAAAAACGTGCTCGCGTGATGGACACCCTAAATCCTCGGATTTCATCAGTA
Celera SNP ID:            hCV27089653
SNP Position Genomic:     15919
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41264):
GTCTCTGGGCAATCTGGATTCCTTCTATTTTCGTCTGGCTCCATTTGCCCGAGATCACTATTCCAGCCACCATGCCCAATTTTCAGGTACCAGGAATGAA
S
AGATGGAAAGAAAATGGATCCTCTATCCTCTTAAGGACATTTCCCAAAGTTGTATATACCATTTTAGTTTACATTCCATTAGTCAGAATGTAGCCCCTTG
Celera SNP ID:            hCV1595776
SNP Position Genomic:     19333
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41265):
CTTCCCCCGCCAACTCCTTCCCCTCCTTCTCCCCCTTTCCCCTCCCCGCCCCCACCTTCTTCCTCCTTTCGGAAGGACTGGTAACTTGTCGTGCGGAGCG
R
ACGGCGGCGGCGGCGGCGGCGGCGGCACCATCCAGGCGGGCACCATGGGCACGTCCGCGCTCTGGGCGCTCTGGCTGCTGCTCGCGCTGTGCTGGGCGCC
Celera SNP ID:            hCV27089654
SNP Position Genomic:     6363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41266):
CTCATGGCTTTAAGGAACCCACTAACAATTGCATTTTGCCCCATCTTCTCACCTGTCTGAGCAGAAATGCCTAGCACTTCTACTTCCAAGGTATTTTTTG
M
GGTGTCATTGGCTTTAGTTTAGCCTGAAGAATTAAAAGAATCTCGAGTGTAGATGATTTCAAGCTCAACTTGTTCCCTTTATGAAAGTATAATACTGAAT
Celera SNP ID:            hCV1595777
SNP Position Genomic:     16639
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,6)   total(A,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41267):
TTACATGTACCTCATAAATTTATACAAACACCACCAAGAAGAACCCTGTTTTTCTTGGAGCCAGTGAACTGCCAATGTGTCTGTGTAGCAAAGTTAACTA
Y
TTAGAGAAGCAAGGCTCCCAGGAAAATAGGTCCTTGAAGTTAGTGTGCATATTCTATAGTCTGATTCCATCTATATAAGTGACAGTAAAAGTGAGAATTT
Celera SNP ID:            hCV1595778
SNP Position Genomic:     16149
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 199
Celera Gene:                 hCG28122 - 79000075151795
Gene Symbol:                 EDG3
Protein Name:                endothelial differentiation, sphingolipid G-protein-coupled receptor, 3;EDG-3;LPB3;S1P3
Celera Genomic Axis:         GA_x5YUV32VUMT(20563082..20586679)
Chromosome:                  Chr9
OMIM number:                 601965
OMIM Information:            ENDOTHELIAL DIFFERENTIATION GENE 3;EDG3


Genomic Sequence (SEQ ID NO:12359):
GCTCTCCTCCTTATGGGTTGTGTAGACTTGAATGAGGTCCCCTCTCCAAGCCTTTATTTACTCATTGCTGCAATGACAGCAACCTCTCTGCTTCATAAAA
GGGTATATGAAGCAACCCTAGCATGGTCTCCAATAAGCTCAGTGGGCATTCCTTCTCTGTCCCCACCATATCCATATGGCCTTTCTACAACTATTTCTAT
GTTTAAAAGAGCTAAACCTGCCTGTTATCCCATTTATTATAATTCTTTCATTTCGTATGTCTAACTGCACTTGAGTCCTCACAATTCAGATGGATAGAGT
GAAGGCTTTTCAGACCCTCAACTGATTAGGTGAGGCCCACCCACACTCAATGGGGCCACCTGCTTTCATCACATGGATATGCTGAAGACAGATTGTTGAA
ATATTCTTTGTTTTTAATTTAAACTTGTTTCATCATACTGGTTCTTTTGAGGTGATTTTCATCTCACTTTCAGGTCGTTTGAGAGTTTCATCTTACTATA
TAATGGTTGAAAAAGGAAAGGAAGTCATCACTTGCCCAAGGTGGTGGTGAATTCCCATTCTGTTACCAGCCAAGGGAAGGGATTAGGGGAAAATATTTCA
CCCAGAAAAGTGCTGTGTTGTTTGAGTTCGCCTTTTGGTTATTAAGGGTACTAATATATTTTTCATCAACAATGACTTAAGGCCCCTAGAAGTTCATGAA
CCTGGTGTGGGTGTGTGTTTCCCACTCAGATGTGCTGTGTAACTTGCACCTGAGGGTAACACGAACTCTCCCTGGGCAAGATGTAACCAGGGAAAGAAAG
GAGAAGGCAGAGCTCAGAGCAAGCAGAAAGCCAAGCAGGAGACCAAAAGAGGCCTCAGAGGCCATGTTTGCATCTTCCACAGAGGGACAGACACATTCTC
TGCCTCTCCAGTAAACACAAACATGCAAACATGCACACACAGAGACATGCACACACACGGACCATACACACCACACCACACACACACACACACAACTACT
TATGTTTCTGAATATTACAAACATCATTACAAAATATGAAATGTACAAAGAACAATTCCCGGTGGCTCATGCTTGTAATCCCAGAACTTTGGGAAGCCGA
GGCAGGTAGATCACCCGAGGTCAGGAGTTCAAGACTAGCCTGATCAACATGGTGAAACCCCGTCTCTATTAAAAAATACAAAAATTAGCCAGGCACAGTG
GTGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATTACACCATTGCAC
TCCAGCCTGGGCAACAGAGCAAGCCTCCGTCTTAAAAAAAAAAAAAGGAACAATTCCTGAAGCTTCTGATGATTTCTGGCTGACCATGAGGTTGGAAGTG
GGAACACATTAAGGGCTTAATGATGGGACACAGTGATGTAACCACTGTGGAGCCACAATTGAAGTGCTGAGATTCAGCATTGGAAGACATCTCTGTCACC
AAATGAACACGCCTCCCTAAAGAGCTCTGGCAGTGAGTCAAAGGCTTCATTTGGGTCAAGACAGAGTTATTATACAAAAAGCCAAGTTTCATTCTACAAA
TCCACATCGGGGTCAATATTTTAAAGTGATTTCCCCCAAGTTCTGTGTAGAGCAAGCTGACAGAGAAGAAATGGCTCTGAGATATCTGGCAAGGTGCAGA
TGGACTGACCACAAGCCGCTTATCCCCACTGTAGCTCCGGGCTCCCTTCTACCACAGTGGCCATATCTGTGAGGTTCTGCCCTTTCCCTGGGGCCACTGC
ATCAGTCAGGGCTCTCCAGAGAAACGGAATCCACAGGAGGTATACCTATAGCATACACAAAGGCTTTATTATAAGGAATTGGCCCATGCAATTATGGAAG
CTGACACATCCAATGTCTATAGGTCCAAGGTCCCAGTTCCAGTCCTAAGAGGATTCTCCTAGTTAGAGACTTCTCTCTAACTAGGGAGAGTGTTGGCTTT
TTGTCTTCAATAACAGTCTACTCAGGCCCTCAACTAATTGGGTGAGGCTCACCCACACTAGGAAGGGCCATCTGCTCTCCTCAGTCTACTGACTCACTTG
TCAATCTCATCCAGAAACCCCCTCACAGACACATTCAGAATAATGTTTGACCACATATCTGGGCACCCCATGCCCCAGTCAAGTTCACACATACAATTAA
CCATCATAACTATCTGTTAGACCCCACCTTGCAGGGGGCAGTCCTCCTCTGGAAACCTTCAGGACTTGAAGTGTCAAGCTCATGTGTGCAAACTGTGACC
AACACACATTTTCCTGAGAAGAGGCCTCAGACAAACAAAAAAATATCATGCATGCACATTTACTCAGATAATGACTGTCTGTTGCAGCCTTTACGCTAAA
CAGAGCTAAGAGTAGAGATAGTGCAGATTAACTCAGACCCAGAAACTTGGGGAGGCACCCTGGGATCCTGGAAGCAGATGCTGGGAGGGCAGAGGGGACC
GAGAAAGGAGGTGCATTTACTCAGCTCTTCTGAGACAATTCTGCTCTCCTGCGGTGCACTCGTTCTGCTGGAGAAAGGGCTCACTTTGAGTTTGAATCTT
AAAACTGCATGTCCTTTAACCACACTGTACCTGCTCACCAGGCTGTGGACACTAAATTGTTGGGAAAGTGAATATATTTCATTTTTTTAATTAAAAAAGC
ATGTAAGGTTATATTACATAATTGTGATATATAATACATTTATTCAAATCATATTTAAGTTTGGGGCCACATGATTTTCAAAAGTATACAGATATAACTC
ATAGTATCTTTCAATTTTATTCCCATAAGCCTAGATTTGATTTAAAGTCTAAGCGCAAAGGTAGAGAAATTTTTTAGTTGTTTAGTACCTGCCATTTTAT
TTTTCTCCAACTTTTTATTATGGAAAAAGTTCAAAGATACAAAGAAGGAGAACAGATTGTACAACCCCTTCCCTAAATCCACCACGTAGAACCAATAATC
ACCAACCTTTTGTCATATCAGCTTATGTGCACGTACTGTGCTGAACAATTTAAAATAAGTTTTAGACATGAAGACATTTTACCCTTTAATACTTCAGCAG
CACCTCCTAAAATTAAAGCCATTCTCCTAAACAAACATTATGCCATTATCACACCTAAAAACATTAACAATAATTCTATACTATCAGTCAATATCCCCTC
CAATTTGTAATTTCCTCCAAAATGTTTTTGTGTGCGTGTGTGTGTGCTGATTTGTCCAGCTGGGAGTCAATCCGGATTTGTACTTATTGTTATACTTCTT
CTTTTCAGCTGTTCTTATACCAGAAGAATCCTTCACCCCTTTTTCTTGACATTGATTTTTTTTGGAAGAGCTCAGGACTGCAGAATGCCCACACTCTGGT
AGTCCAGTTTTTCCCATGGTGTCATTTAACTCATGGCTCAAACTCTTCCATTTCCTGTAAACTTGCAGTAAAGTCTAGAGGCTTTGCAATTGATTCAATT
GAAGCATCTTTGGCAAGCACACAGCAACAATGATGTTGTGTGTTTCTTTTGCATCACATAATGCCAGGTTGAGCCAGTATTAGTGACACTGAGTTTGATC
TTCCTGTAAGGTACAGCCAGATGTCTCCATAAAAAAATGGAAAATGGAAAACCTTTTTCTTTTTTTTTTCCAATTAGCACCCGTTCGCCTGCACACTTTC
ACCTAAGGGTTTGACACCCACTAGTGCACACTGCCTGATTTAATTATTTCATTAAGGGTTACAGAATGGGGATTTCCTCATTCTCGCATTTCTACGTTTA
TGAGCTGGCATTCTTCTGTTAAACTGCTTTCACTTGTGAAACAGGATGCAGAGGAGGAGACTTATTCAACAGAATTGTAGGGAGGGCTGTTTCTCTCAAA
AGGAGTGGTGAGAGAAGATGGTCTCTACCGGGGCATGGAGGGCTCCTTGTCAGAGTCTAGTGTCTGAGCTTTAAGGCCCAGGAAGAGGGCAGCAGATGGG
GGTGGGGCAGTGGGTGAGTGAGAGGCCCGTGTGTGGGGAGACCCACTGAGGACAGGGATCGTTAGGGAAACGGAGCCTCACTGAAAGAGGAATTTCAGTG
ATGCCATGGGTCAGATCCTGGGTCTCTCTTAGGGAAACCTGCCATAAAGCATGAGAGCCACATTACTCCTCAGGCCTTCTGGGCTCCGATTCCGCAGACT
AGTTTTGGAGGCATCACCACGCCTCAAGGTTGCTCTGTTATATCAGGGTAACTGACTTTCTCTAGGAACGGAGACTTGGGTGCCCCTTAAAACAACCCTC
AGCCAGTATCCTAGCAGTAAATTTTTCATCACGGGAAGCAACTAATTGAACAGAGGTGTGATGAACCTACTGACCACTTTGGTAATATAGACACAGTGGC
CACAGTATGGGGGATTGTTATCCTGGTTGTGACCAATGCCAAAGGAGCATGTTTCCTTCTTTTCTTGACTTGATGCTGTAGGAGTCCAACAAAGGGAAGC
ACATTCAGGCCCACATGAAACTTGGGACAGAAGTGGCTTCTCAGAGCCGTGCACCAGGCACTTTGAACAAGTTGGAAGGCTACAGTGCCGGRAGACTCCA
CAGTAGCACAGGCGAAGTGGCTTAGGCGAAAACGCTGGGAAGTACCCCAGCTCCCGGGGGCCAGAGCCTCTAGGGCTGGCAGCCTCAGCAGGCAGAGTCA
CTTGCCTCCTTCAGCTCAATTGCTGAGGGCTTGCGTTTCTCTGCAGGGAACAGGAGTGCCGCCGACTTCCACTCTTGGTGCCCTTCACCGCTCAAACTGC
ACCCCAAATAAGCGTATGCACCCTGCTCCAAGAGAAGGATGCGCTGGGCTGATCCTCTGGAGGCAAGAGGGCAAAAGACAGAAAGTAACGAGCGGCCTTT
GCACAAAGAATCCTCAACTCTCTGCAGCGGCCCCTGCGGCCCAATCCTGCCGGCCCAGGAATGCACGGTCGGATAACAGGCCTCTCCTTGCTTTTTCGTC
TTCTTCCTCCCGCTTCTCTCCTCTCTCCTTTTCCTCCTCCTCCTTTTTCTTTAATTTTCTCCTTTCTCCCCAAGCTTCTACAGTTGTTTCTGTGTTCGCT
CAATCATGGCCTTTGGCATTGATTGAAAATTTGGCAGTTCCTTCTCTCGGAATTCTGTTTGAAGCCTTCATATGGATTTATTATTATTATTATTATTTTT
GCCACACAAAAGGGGCAAATCCGCGTGAGGAAGGGGGTCGCATGGGGGTCGGCTGAGATCTGCTGGCTGCCGGTCTAGGAGGGGCGCTGCTCTGTGCCGG
AGTGGGCTCTGGTGCACCAGCAGAGGCTGGGGGAGAGTGCTGCCCCCGCCTGGAGCCCAAGTCTCTGCGTGCCTGGGGGTAGAGCGCGGAGAGGGACCAG
GCAGGCGCCGGAGGGGACCCGCGMGGAAAAGGAAGAAGCCCAAACAAAAACGCTGTCCGGCGCCAGGCGCCCACCTGCAAGCCCAAGCCGGTGCTCGGCC
AGTTACAAAAGAAATGGTCAGGATCTGGACAACGATAATGATAGTATTAATCCTCCTATTAAGAATCGGCCCAAACAAACCCTCGCTGTCAGGGCGACAG
GCGCCCGCCCAAGCCCAGACCTCGGACCTGGTTCCAAGCCTGTTCCCGCTGGGTCTCTGGGCGCCCGGTTTCTGCACCTGGAGCTCGCCCGATGAGGACA
AGGTCTGGAGGCCGGCCTGGGAACAGGGGCCGAAGGGCGAGCCGGACCCTAGGGGATTGGTAGGGTCGGGGAGAAGGGGTCCAGGCTAGGGGCGGGCGGG
GCGCASGGAGACCAGGCGGCTTGAGCGGGAGGTGGGGAGCTGGAGGAGTGCCGGGTTCGCGGGCGGGGGACGGGGAGAGGGGGGCGGGGAGAGGGGCGGG
AGTCGGGGGCGGCGAGGGGAGGGGCGGAGCGCGGGTCCCGCCCCGGCGGGCCGCTGGAAAAGTTTAGTCTCTGACTCGCTCGGGCAGAGGCCGAGGAAGC
CGGTTCCGGGGACGGGCAACAGGGACTCAGGGACCAGAAGGCGGCTGCAGGACGCGACCGAGCAGGACCCCAGGCCCGGGAACGACGTCGCGAGCGCTGA
GACTGCCGGGCCTCCCAGCCCATCTGGCATTCGAGCGCAGGACCGGGCGCCCCGGCACCGCCGCGCGCCACCCGCTAGGATGCCGGTGGCCCCAGCGCCC
TCAGCCGACGGAGGTGAGAGGCGGGCCCGGGCGGGGCGCGGAACCAGGGTGGGGGGCTGGGGGCCGAAGGACCCACCTTTCCAACAAAATCCCCACCGAT
CCCGGGCGCGACGGGGACTTGGGCGCGCCACGGCGGCCGGAGCGCTCCACATCAGCACCCCTCCCCCAGAGCCGCTGCAGGAACAGGGAGGAGGCCTTTT
CCACCGCACCCGGARCGTTTACAACGGGCTGGAGCTGAATACCTGGATGAAAGTGGAGAGGCTGTTCGTGGAGAAGTTCCATCAGTCGTTTTCCTTGGAC
AATTAACAAGTTAGGCTTCCACAGTGCCAGGGCCTGGGGATGCTGGACGTGGGAGAGGGTTGTGGTCGTTAGCCTGGGAAAATCATTCTTTTAAACAATA
TTCGCCGGAAAATTAGTTTTTTCCTAACATTTCTCAAACAAGGCAATTAGGGCCGTCAGAATCGGTGCTGGAAGACGAAGTCCCCACAGTGCAATAATGA
GGTTCCCACGGAAAATCAGTACGTTGTGTTCGTAACTGAGATAACAGCTAGAGAAGGGGCTTTGGGCTTTTTGAGTCTCCCAATAGTCAGTCTCTCTCTC
TCTCTCTCTCTCTCTCTTCCTCTGACTTTCTGGCTTTGGACACTCCCAATGGTATATTTCTTTGTGGTGTTTTTATATTTGGATATAAGAGAGGAACTTC
TTGTTGGATTTTTAAGGGAACACACTTCGTTTTGACCCTTCCAATAAGGAAAGGGGAGCTACAGGAACAGAGAGCTCTTTAGAAGGTTACTTTTAAATGG
AGGCCCCCCCATTCATGGTACCCACTCCCACTTGGACCTCTGAGACCTCCAGAATTAGGCATCATTCTAAAATCTGGACATTAGAAGTCACAGACTTTGT
ATATAACCACATATTCATAATTTATCTTTTCAATGTTTTTTATTCATAGATGAAAATCTTGCAGGCATAGTTAAGAAAAATATAATTCCTAGAAAGTACA
AGGGAAGGATTATGCTCTGCAGATACATGACTAACAAGGATAGCTGGCCATGCCCAGGGCTGGTGTTGGTTGAGGAGGTGGTGATGGTGCGGGGCATGTG
TGTGTGTGTGTGTGTGYGCGCTTGAGGAGTTGTGGAAGTGTTCATATCTGTAAAGTATTATTTCATGGATGCAGACCTTAATGCTAGGTTGAATAACTTT
GTTGCCATAGAAGAAGAACCGCACGTCAGGCTTTTTTCATTAGCAAACCAGTAAGCACTCACTTTGGGCCTYTGAAATCACTTCCATCACCTAACACCAG
AGATACAAACTGAAGCTAGCCCTTAAGAGCCTCCCCCTAAGATTTAGAGAGAATGATTTCTCAACCAGTTTTCATCTTTGAAAGTGCCATTTCTCCCTTT
ATCATTGTGATTTTTATTCAAATGCATGAGTCTCTGATTTTCTACCATATACAAAGGGTAGAGACTACAGTTTCCTATAGAAGAAACTTCACATAGTGGC
CGAAGGATCTTATTTCTCAAAATTCAGGAACTGGTTTCCTCTTTCTGGAAATTATGACATTAACTTGATTTCATGGTATCTCTTTCATCTTCCTCAATGC
CTGTGCTGTATGTATATTTTTATTATATACTGTAGGTATATTTTTATTACCAAAAAAAGGAGAATTTGAGCATGCCACAATCTTGAAAAATCTGAGGTTG
CCCTGCTGTAGAACCCTTTAACTGCCAGGACTTTGTACTGTTTCCCAAGTGTTACCAGAGCCAGGCCGCCAGCCTTATGCAGTCTGTTTACCTTAGCTGG
AACCAGGGTGCTGTGCTGTGGGTTCTATGAAACTTTCTGTTTCTTCATATTTGGCTTTGTAATTCCTTTCTTATCAGTTTTGGAGGCATTTCCTATTATT
CCTCTGCCATATGTTTTCTGCCAAATTAATTGCCTTAAGATTTTCCTTAAGCTTTTGGAAATGTATAATGTTTGAGAAAAAAGAAAAAGAATAGACTGAG
TGGAATCGTATCTAGTTTCAGTTAATAACAYGTTTCAGTTGATGTTACTGTTATAGCTACTGGGCATAAAGTCTCCTTCCCTTTTTTGAATCCTATTTTT
GAGGCATTGAAGCTGTGTCTGTAAGAGACAATAGGCCAGTTGGGTTAAATCAGTGACGAGATTGTCCAGTGCAGATTGGTGCCCAGTGAGTGGATCTTCA
CTGCTCACAGGCCGGACTGGGGTCAGCTCACACAGCGAGGTGACGGTCCGCTCCTCAAGCAGTGGATGGTGCTCTTCGGCCTTGCAGATGCCGCTCCATT
TTCCTGGCTTCAAAATTTTCCAGATATTTCAGTGCCCCCAGAATGACATGCTAACATTCTGCTGGCATGGGAGCATGAGGCAGTTTGTCTCTAAAACATG
CCAGAGAATCTCTTGTCACTACCTAGGCAAAGAACCAGTGGCAAGGTGGCAGCCTCCCAAAGAGCTCATCCCTAATGTGACATCCTGGAATCAGATGGCA
CGGACACCGGCCCAGCCCCTTCCCAGCTCTGTGACTAAGGACAAGTGACACCCYCCCTCCCCCAGCCTCGGTCTCCTCCTGTGTACATTCAGAAGGCAGA
TGCTGCCATGAGGCCATGTGTGCTATGTCCATGGTGCAAGGTGGCACGCATGCCGAGTCACCAGGTGAGACTGCCGCTTTGGGAAGGGATAGGAAGGATC
TCCGGTAGCCTTCGTGGGCAGGATGCCTCTTATTTGAATGTGCCTTTAGCCACCTCACAGAGCCTATTTCCACATCCCTGTGGATTCATCCCTGTGGAAA
TCTTGAGAATCATTTATCCTATGCTGTCATGAAGCAGCAGCAGAATGGAGAAGGTTTAAAAAGACTCATGGACAGGCAAAGCGGTCAAACACCTCCTGGC
TCAGACGCACTTGCCTTCCCACACACAAGTCTGGAAGCTCAGGATGGTGTTCACGGAGGCAGATGCTCGGGGCCGGGGCCTGAGTTTCCTGGGGCACAGC
CTCCATATCTGGGGTTCCCTGGACTATGCCCAGATAGCTCATAATGTCCCAGCCTTATTTGTGATGGAGAAGGACTTGGGGAAAAGCCACCGGGAAGCAG
TAAGTCTAACCAGGGAAGTGCACTGACTTGCATGCTTTGAAGAAGAGAAGGGAGAAAAGATACAAAACCCTCACCTGGTTTGTCTGTAACAGTTGTTATT
TCTCAGGGGAGCTGCATTAATGGGCCAAGCCTGTGCAGCTGGGTGTGTGAAGCATGCATTTTGCAATGGACTGTCTCCAAAAGCAGAGCGAGGTCACCCA
AGAAATCTAGAGCAAGGGAAAATACTCATTAGCAAAGGAATTTTGCTGGAGCCTTGTAACGGCCGACTCATTATTTCCTTTCCAAGTTATTTTAAATGAA
ATTTTAAAAAACATCTTGCTTTCCAAGAAATTTTGCTTGTTGGCATATGTTTGGTGTTTTGATTCAGTTTGGAGGATGAACTAGTTAATTTCCCTGGGAG
TACATGCCTATTAAAAATATAGCATCCTGCATCTGACCAAGATGCTATCTTACTATCTTATTGTGCCTATCTTTTATGCGGAGAGAGAAAGGGGGGTGTT
GGGAAGGAGACCAGACTGTGGAAACATTTTCTTTATTTTTTCTCTTTTTCTTCCTTTTATAGTTTGTTTATTTTTCAACTTGACATGGGTAGAGAAAGCG
AATCGCTAGTATAGAAAGCACATCTGGAATCCATCCGGCCTCCTCTCTCTGGCTCACCCTCCTCCCAGCAATGTTTCTCCTTGGAAGTTGGGGGAAGGTA
GGCACCTCTGACCTTGGCAGGGTCTAACTTGGGGTCATCCACTGCATACTCATCTTCCAGAAGGCGTCTTATTCCTCCTCGACAAAAAAAAAATGTGTTG
GTATTAAAATGCTTTGAGGTAGGCTGGATGAACCCAGCTTAGTGARGATGACATGAAAACCCTTAGCTAATGGGGTCTTTATTGAGTAGAACTCAGGTAA
GTTCAGATGTAAGCAGTGTCTCTCAGTAAACATGAAAAGACTGAAGATGCAGACAATCAAATACTTAAGTCTCTTGAAGAGCTGGGTGGTGGGCGGGGGT
CTTCCCAGGTGGTCAGGGAGATGTGTTAGTGTAGCACTTGGAAGAGAGTGGAACGACCAGGCAAGGATGTGCCGTGGAGGTGGGCAGTGGGAGCAGCCCA
GTGTCAGCATCTGTATTGGTTAGAAGACCACCGCTAATGAGGAGGAGCGTCTCTACCCTGCAGCTGTCTGTACTCCTGTGTCTTCCGTAATGTGCCAAGC
TCTCTGAATATATGCAAAACTAGTCTGCAAARAGCCATATGTCTCAGCATCTGGCTTTATTTCTAAGTGTTCAGGTGGAATTTAAGCCGCGATCAAATTT
ACAATGTCACTGCCAGCTCTGGACACTTACTTTTGGAATAAAGCAAAGAGTGAACACTAATACTGCATCAGTCTTGCCCTCTGTTAGGGGCCGCCCCTTC
TCCCCACACCAGTTTTGCAAGATGGGCTGGCTGGGGTCTGAGAAACCCAGTGCCTCCGAGTCATGGTTAAAGCCCATCTCAGACACCAACACACCGCTCA
CAAATCAACATCGACCTGCGAAAACATGGACATGTGTTCGCCAAGAGAACATCCTCAATCAATCCCAGCAGTGCTACTTGATGATAATCAACACATGGGC
CATGGAAGAAATTACCCCATGTCCATAAACAAGAATGAATAGAGGGTAGTGTATCTACCCACACCATGAGAGCAAGAATATTCAGCATGCAGGTGCATCT
ATGTGCATGACTCGTACAAGCATCATGGGGAGAGGAAAGCAATGGACACAATTGTATCCTGTAGGGTTTCATTCACGTGAAGGTCAGAAGCAGGCTAAAC
TCACCTAGGGGAGAGTCCTATCCCAGGTAGTGGTCATGCTTGGGGACAGGTGGTGACTAGGAGGGGCACAAGGAAGGCTGCAGSGTCCGGCCCATCTTGT
TGCTGGCCTGGGTGCTGGTCTCACTGATCTCTGTGTGGTGGGGCAGGTCAGCCTCCCAGGCCTGCTGGTGCCTGCAGTGCCCAGCACTCCTGCCGTGCCT
GGCAGTGTTAGTACCAATCCGCCAGAGTGACTGACTCCCCTCTTGCCCTGAGTAGGGCTTGCTGACTCCAGGAGCCTCAGGGCGGGGTGGGCTTTGAGCT
TTCTTCTAGCAAACTTGAGGTCTGTGGCTGGTACCCCTCAGGAGCGGAGGGGAACTCTTGTCCATGAGATGCTTTTAACCGTGCGCAATAATGTGTAGAC
GCATCCAAAATCAATCTGGCCTTTAGCCCAGCACTTAACTCTTGGGATGAGGCCTGCTTTGTAAATGTTGATAATCCAGAGAAAATGAGCTTTTAGATTC
CAAAGACAGCCAGATATCTTCCACTTATGCAAAATGCAGAGAATCATATTTAACAAAAGATGTTCTGGACAAATATGCTTCTTGAGGGATGAATATTTAA
TTATAAGGGAAATGATAAATCAAACATTAATGGGAAAATATGTTTGCCCTCAAGATTCATGATTTTGATGGGTCTCTGGCAAATCTTATACTATGTTTAT
TGGGGTTATTTTATTGCTGGTTATTAGTTTTTAATTGTTTGCTTGTTTTCTGCTCTGATCAATTTTTGTATAAGCCGTGGGTCTATTCACCCTCTTCTCT
CCATTCCCGGGAGCAAGTCCACATCTGGCTGTTGGATGCATGGCAAAAGCAAAGGTGTGGAGAAGGTTCAGAGGAGACAGGACATGTATAAAATGGTAGG
GTCAGGTTGTCATGGGGGAAACTGAGGCACAGGAGGCAAGCTGAGTTAGTACAAGAACAGTCTGAATCATAACGACATGCCAGTATTACCTAAAAGGATG
AGGAACATGGAGCTGTACTTGAATCCCTACGTGAGCTGGGGAAAAGGGGCCTCAGGAATCACTGACATTGGAACCAAGGTTTGTCTGCAGCTTGTCGGTT
TCTGGGACAGAAACCCAACATACTGGAGTGGGTATCCCAGCRATCTGTAGGATAAACCAGGACACTGTGGTGTCATGGATAGCTGGCTGTCTGCCAGGTG
ATGGCCCCTCTGGTTGCAATGTGAGCCGGGCAGGTCATCCATTTGGCAGCATGGTGAGGGCTCTGGCCCCAGTTGCTATGGGAGGGAGGATGCTGGCACA
GGGCACTGTTCACAGACTGCCTTTGCTCCATGCCTTTTCCATGAGCATGAGTGGCTGTTCGTGTGGGAAACGGCAGAGCCCTCGCRGTCCCCATCAGCAC
TGTGCAGTGGTACCGGAGGTGGCAGGAGACAGCCTGATGGCCCAGGTTGTCTTCATACCCGGCTTCATGCCAGGGTGCATGCCGGGCATAGCACATGTGT
CCCTGAGAGGCCCCTGATCAGGGGTGGAAACCCAGCAAAGTGAAAATCAGAAATAGTGATTCTCCAGTTCCTGTTCACAGATAAAGAAAGAAAGAAATAA
TAAGCAATACTAGGCCTGGTGTGGTAGTTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAATCACTTGAGGTCAGGAGTTCAAGACCAGC
CTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAATATTAGCCGGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCA
GAAGAATCGCTTGAACCGGGGAGGCGGAGGGTGTGGTGAGCCGGGATCGCACCGCTGCACTCCAGCCTGGGTGACAGAATGAGACTCCATCCCAAAAACA
AAACAAAACAAAACAAAAAACAAACAAAAACAACTAAAAGGACAGTATCTTTTTAGCACCCATCAGTGTACAGGATGCTGGGGAGGGTACTGTGAACTTA
CCCATGGTGAAAGTCCCTGTGTTAATGGATAAGCTCAATGCTCAGAAAATGCTGCTGACTGTGGTATTGCCCCATTTAAAGAGACAGTTTGCAGTACGTT
TTCAGAAGTGGCATGCAGCCTCAGAGAAAAGTCACCAGGGGCTGGCATGATTCCAGAAAATGTTACAGAGCAAGTGGAATTTGACTTGAGGCTTGAAGGA
TGGGCAAGATTTAAATAAAATTCAGAAACGGTAGAGAGGGAGGGGCTGGGGGGAAGGCTGCCCACTGGACTGTCCTGTTTGCCTCCAGGAGAACCTACAG
GCAAGACATGGTCTCTTCTCAGGTGAATGGGAAGCCAAGTAGGGCTGGCATGGGTGAGCCACAGCTCGAGGAGGCAGGCCCCGGGCCCTGCGCTGCCTGT
CATGGCTCATGAGTGATGGGAGAGATCTGGGCAGGCAACCTCCTCTCATCCTGCATCATCAGCCTGGACTTGGAACTTGGCTGCTTTTTCTTTCTGCAGT
TAGCRGAGGGCCTTGGCCAACACATAAGCCTTTCTGCCAGCACTTGGCATTCCAGCTGACCTCGACCCAAGGCCTCTGTGACTTCAGGAGGCGGCAGCTG
GGAAGGGTCAGGGCAGTTCCAGGCAGAGCACAGACGTCAGCTCAGACATCCTACCCCCCGCCAACCCCCCGCCCCCGGGGTTTCCAGAGCAACCAACACC
ACCAAGCTCCAGGACACTGGAAAAAAAATCTTTGCAAAGAAGCAAGGGGCCATCTCAGAAAATCCAGGTCCCCCAAATTGATGTAGGGAGAGGAGGGCTT
TGACAGCATTCAGCACTCCAGAGGGTCACGAGGATACAGAAACCATTTGGAGCCACCTCTGCTTCTCAGCCCCACCCAGGCAAGCCCTGGATCTTCAAGG
GACTGATTTGTACCTGGGAATAAACTCATGCATGGATGAGATTCAGAGTCAATCACACCCTAAAATGCAGAGCCCATAGTATTGGTGAGTTGTTCATGTG
TCTCTGAAGCAAATTTAGGGCTGTGGTTCAAACATCGTAAAAGTTAAAAAAAATTCACTGGATACACACAGTAGGCTCTTTTAAATTAGCCTCATTTGAA
CTTAATTACATATTTAAATACTCAAATAATAAATGATGGCTGGGTGCGGTGTCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCTGATCA
CTTGAGGTCAGGAGTTCGAGCCCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCATGCATGGTGGCGGGTGCCTGTAA
TCCCAGCTACTTGGGAGGCTGAGGCAGCAGAAGCACTTGAACCCAGGAGGCAGTGGTTGCAATGAGCCGAGATCGCACCACTGCATTCCAGCCTGGGTGA
CAGAGCAACACTGTGTCTCAAAAGAAAATTTTTTTTAATAAAAATAAAAAATAAAATAAAATAAGTGAGTCCACTGAAAGCGGTTTCTACCTTGATAGTT
GGGTGTGTGGCGTCATCAACATCACAGAAGGCTGATCGATATTACCAGGTGTGGTTGAGTGCAAGTGTTTGAGGTCTCGTGGGGGAAGAGTTTGGAATTC
AGAATCCATTGAGGCCTTCACTCACCACTTTCCCTCTCTCGCTGTGTTCCCAAATGTGCCACTTTTCTGTTGGCTCACATGCACCCATGCTCTATTTGAT
ATTCAGGGCTCTGAATTTCAAGCCAGACTCAGTCAGTGTGATTGTCACTGCTTTCCTGTCCTTCCTTTATCATCTGTAGACTTGGGTCCCGTTTTTGCAG
GTTGATGTTCTGTCTTCGCTGGGCTCTGGACTCACTGCTCACGAGTGCGGTGTCTGCATGGGCACTGCCCAGACATGCACTGTTGGTCCCTCGATGGCTG
CATGGTCAGGCCTCAGGGCTCTCTGCCAGGCCGACCTACAGCCCATACAGACCTGATTTCTGGGCCTGGATCCAGGGGATGCCATCTGGGAAGTGCGGGA
TCTTCCCACGATGTCACTGTAAAACTCACCAGGGAGGTTTTAGAAATTGAACCGGCATCATTCAGATTCCATCCTGCTTTTTGGTCCTGAGAAAATCCTG
CTTTTCCCTGAGTAACTGGGATAATGGGTCACCAGCTCCCATGCCCTAGATGAGGACTAGTTAGCATTTTCTAGTGCCTGGAGATTTCCAGATGGAAGCT
GTACTTGGGTCTGTGTATCTTTGTTACAGGATTCAATAATTCATGCACTGAATTTCCCTTCCCGGCAACTCCAGACACCAAATCGCTTCCCATGGTGTCC
CCCAATCACTTAGGAATTTAGCCTGTGTCTAAAGACCCTCTCTGCAGCCTGACGTGGCTMGCCATCCCAGTACTTCCACGTTTTTCRTGCCTTTCTCCAA
CAGCGTTGCCGTGGCCCCTTAGGCGGCGATCGTTTTATCAATGGTCGCTCCCTCTTTTTATCTGTTGGCAGGAGCCCTTTTTCAACGCCCTCGCTGGAGT
CTGGCCTGCACGCCTTGCTGAATGAAGCCGGAACCTCAGCCCCGCTTCCCTTTGAAATGAATGTTCCTGGGGCGCCCTCTCGTGGATTTTGGAGCTAATC
GTCTGTGAATGCCAAGTGATGGCAACTGCCCTCCCGCCGCGTCTCCAGCCGGTGCGGGGGAACGAGACCCTGCGGGAGCATTACCAGTACGTGGGGAAGT
TGGCGGGCAGGCTGAAGGAGGCCTCCGAGGGCAGCACGCTCACCACCGTGCTCTTCTTGGTCATCTGCAGCTTCATCGTCTTGGAGAACCTGATGGTTTT
GATTGCCATCTGGAAAAACAATAAATTTCACAACCGCATGTACTTTTTCATTGGCAACCTGGCTCTCTGCGACCTGCTGGCCGGCATCGCTTACAAGGTC
AACATTCTGATGTCTGGCAAGAAGACGTTCAGCCTGTCTCCCACGGTCTGGTTCCTCAGGGAGGGCAGTATGTTCGTGGCCCTTGGGGCGTCCACCTGCA
GCTTACTGGCCATCGCCATCGAGCGGCACTTGACAATGATCAAAATGAGGCCTTACGACGCCAACAAGAGGCACCGCGTCTTCCTCCTGATCGGGATGTG
CTGGCTCATTGCCTTYAYGCTGGGCGCCCTGCCCATTCTGGGCTGGAACTGCCTGCACAATCTCCCTGACTGCTCTACCATCCTGCCCCTCTACTCCAAG
AAGTACATTGCCTTCTGCATCAGCATCTTCACGGCCATCCTGGTGACSATCGTGATCCTCTACGCACGCATCTACTTCCTGGTGAAGTCCAGCAGCCGTA
AGGTGGCCAACCACAACAACTCGGAGCGGTCCATGGCACTGCTGCRGACCGTGGTGATTGTGGTGAGCGTGTTCATCGCCTGCTGGTCCCCACTCTTCAT
CCTCTTCCTCATTGATGTGGCCTGCAGGGTGCAGGCGTGCCCCATCCTCTTCAAGGCTCAGTGGTTCATCGTGTTGGCTGTGCTCAACTCCGCCATGAAC
CCGGTCATCTACACGCTGGCCAGCAAGGAGATGCGGCGGGCCTTCTTCCGTCTGGTCTGCAACTGCCTGGTCAGGGGACGGGGGGCCCGCGCCTCACCCA
TCCAGCCTGCGCTCGACCCAAGCAGAAGTAAATCAAGCAGCAGCAACAATAGCAGCCACTCTCCGAAGGTCAAGGAAGACCTGCCCCACACAGCCCCCTC
ATCCTGCATCATGGACAAGAACGCAGCACTTCAGAATGGGATCTTCTGCAACTGATCGTCTCCATGCGCCCTGCTCTGCGGCTGTGTTCTTATTTATTGC
ATGCGTCGCTTCCACAGGGGCCCCTCAAGAGCTGTGACTCGGGAGAGCTACCTTACTTTGACCAACAGCCTGCCCAGTGTGGATGTCTCTTACAGAGGGG
GCCCAAGGAATCACCACCCCGCTTCAGTGTAAACAACGTGCCTTGTCCACTTTGGGCTCCAGAGTCTTTCAGATGTACTAAGCTGCTGACATCATCCACT
GCCTTCTGCTGCATCCTAGACACCCTCCCTGTTGTTCACAGAGAGGGAAGGTCGTGGGCCACACAATGCTGTGTGACCCTCTCCGTGTGCCTCTGAATGG
TGTTTTGATGATTTTACACTACATTTCCTGTGCGTAGAATGGATGCTTGTATATTCGTACATCTCTATGTTACACAGAATTTGTGTTGCAGGTGTTTGCC
ATGTGGTACCTACATAGAATCTCCATACAACACACAGGTAACAGGTTATACAAGTGGATTCAGACTGAACCCCCAGTACAAGGACATTGTTTTGAACTAG
GTGGACATGCCATCCCTGGTCTCCTTAGACTGACATGATTCTCATGTTAACCAAGTTTTAAAAGTTCAAATTCCCCAAAAAGGCTTGTCCAAGGCTGGCC
CCAGATGTGTGGGTCTGACCCACACCAGCCCTGTGTCCTGTCCTTTCAGTCATTTGTCCCTGCGTAATTTTAATCGTATTCCAAAGCCCAATTATGTGAT
GGTTTTCAGGTTTCTGCAAATTACAGAAGAGCCAGCCAAGATCACCCAGGAGCTTGTGCCCCCAGATGGGCCAAAGAAAGAGCCTATGAAGGAGAAGCAG
AAGCAGACGGCTGGCCTGGCTCACCTTCCCACGCCAGTGGGGCAGGGGTCTGCTTCAGGAAATGGAAGCTGTCCAGGAAATGAGCAGAGATTCACAAGAC
AGCACTTTGATTCTATGTTGAGTTTGTTTCTATATTAGAAAAGCAGCAAGTCAGTAATCCCCCGTGGCATCACAGCTAAGTAGCTGTGGCCACCGGCAGT
TTCACAGCATCCTGAAAGCTGGCACTGATCGTGACTATCAGTGAAAGAAGTTTAATTTTCAGGTTAGAAAATGTGATCTGGCAGTTTATGCATTCTTCAG
AGTAATGTAATAATACCTATGTGATGCTGTAATTTTACTTTTCAACATAAGTTGAACCCGTAGCAGTCTGTTTACCTTGTAAAGGGATTACTTAGAAGAC
ATTTTTGTACATGCTCTTCCCCAAGGATTGTACGTATTATACAAATAGATGGAAAGAAAAGTGAACACGTTTGTAGAACTTTCATAAGCACACAGTTGCT
GTGTTGAGTTCTCTTTAAAAACAAGGACAAAACCAACCAGCGTTCAAAGGAACCTCCCATCAGAGTCCCCTAAAGTATTTTAGGTTCAGTGAGCATTTGC
CTGAATAAAACCTAAAAGAGTAGTCTTAACACATTACTAACTTTTTCTAAGAGAAATTGATTCCTGTTTTGTCATCTGATGCAATTTGCTCTTATAAAGA
GACATTTTCATAGGTTCAGAGTAACTCACCTCCATGGGCTGACCAAAGGCTTTTCTAATTTTTGTTACTGATGAGATGAAACCTATTTGTAAGGAGATCT
TCCCCAGGAGCATTTCTGTTGCCTTCTTGACATCAATGAAAAGTAGCATATTCTCTTATGAAATAGCATGAGAAAACACAGGGCATTTCTAGGACAGTAA
AACGTTAAAGTACTGGATTAAGAAAACAACAACAGGCTGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCT
GAGGTCAGGAGTTTGTGACCAGCCTGGCCAACATAGTGAAATCCTGTTTCTACTAAAAATACAAAAATTAGCTGGATGCGATAGCACGTGCCTGTAGTCC
CAGCTACTCGGGAGGCTGAGGCTGGAGAGTTGCTCAAACCCGGGAGGCGGAGATTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGTGACAG
AGCGACCCTCTGTCTCAAAAAATAATAATAATAATAAATAAAACAACAACAAAATGCATCAGAGAGCCAAAACATTCAGTATTGCATTTTCACATAGGTG
ATGAAATGACTTTGGAACTTTATCTGTGTTATAGTTATGAGTTGCTTTGGGAGACTTGGAGCTCTCTGTAGCTATTGTTCATAACACTTTGCTCCATAAC
CCTGATGTCCGCAGTATCTAAGTATCTCAGCCTTCATCCATTAACTCTACTAGGGAGCCCACAGCCACCATTTCCACTAGGAGGTATCAATATTTGTGGT
ATGACATAAGGCTCCCTTGAAATAACAAGACTTTTGAGCAATCTGAATTAAAAATACATCAAAAAAGTAATAGCGCTCATTTGCTAAATGCAAAAAATAA
TCACCTTTGATACCAATGTGCACCAATATGCCTAACTAGCTAGCCAGCTGGAGATAATTTACCAGGGAATGTTTCAAAGCCCTAACTTTGAAGTTTGGAA
ACAGGTGGTCTTCTATGCTGCAGAGAAACTATGCATTAGGTCTCTTTTCAATTAGAAACCTTTACTATTTCCAATGTATGTTTGTTAAAAATAATAATAA
TAAAACCAAAAGCCTTTGTGGAAACCCACTCTTCGTAGTCCATGTGATGGGATTGTTTTATCGTTTTCACCGGGTGCCCTCCCCACTGCAGGGGTGCGCA
CTGTTGTTGCAGGCTTGCTACCCACCTGTGTTTCTTAGCATTTCAGGAATTAAACCACATTCAGAACCCCAAATAACCTTTCCCCTTTCTTCTTACCCAC
TATCATAGGTGGTATTTTAATGAAGCATCTGTGCCTTGGGTGCTATTTACACCAATTTTGGTAGGTCATACTATTTTGAGAATGGTCTTTTGATAGGGAG
AAATTTCTAAGACCCATGGTAATAAAAGTGCAGCTCAAAGACATGGGACCTCTTGTCCTGCCCCATTTGCTGTTGTTTATGCAGCAGGAGAGAATAGGTC
AGAACCAACCTTTGCACACTAGCTTTCTCCCACACAAACGGTCCATTTTAGCCTCTCTGTCCCACTTGCTATGTAAAGAGGAGGCCAGTGCTCGGCATAA
CTGTTCTGGTAGCGATGCTTGTTACAACTCATGATGAAATGTCCCAACGCAAGTGAGGACGCAGCTGCCCGCCCCAGAGCTAGAAGGTAAGGTGAGTTCT
CTAGGAGTACATCTGCCCGGATGCATTTTCATTCCGCAGCCTTGATGAATGGGACGAGGCTTTGTTGTGACTGTTTTTTAAGCAGTCCCCCAGGGAATCA
CTGAAAATACCTACTTCTTAGAGAAAAGTTTCAAGCTCCCCTCCTCTCTTTTGTGAGGCAATACAAAATCCATCATCCAAATGAAAGATACTTTTCACAA
CAGCCTTTATTGCCTGCAGACTTACATGTATAGTCCTTTAAACAATTAACTGTTTAGAAAATGGTTGTTTCTCTCAACCCTTGAGCCAGTTATTCCACGC
TGGTAAGACCCTTTCACAGAAATGTAACAAGGTGCATTTTATAGAAAACATCTAATTAAATCACCAGTTTCATGCTTTTAAGTTGTATCTACAAGTGCAA
AACTGCAACACCCAAATGTTTTTAGTATCTAAGTCAGATATCCAAAAGTTAGCTCCATAATCAGAAATGCGCACACCACTGTTCTGATAATAAAGGCACA
TTTTCCAATAACCAATTATAACAAGAAGTGCAGCATTACCTAAATTGGGTGTGTCATCTTCCCCTCCTGGGTCACAGGATGACACCTGGGGATGCGATGC
CGTGCCTGCACTTGGCGATCCCAGGAGCACAGAAATGCACCAGACAGATCATGAAGGGCTAATGCTTGGAAACCACACCATTTCCTGACAGAGTGAAGGG
ATCCCTGTGGATTTATCAAAAGGGAGGAGGGAATTTAAGCTAATTCTCTTCACCTGCTGTATTCTCAAATCTCCAAAACACCAGATAACTTAGGTTTTTT
CATTTGTCATAGAACAAAGATTAGAGAACTTGAAATTCGTTTTGCATTTCCACTCCTCAGGGATGTCAAAAAAGCCAGTTCTGTTCCAGCACAAAGTAGA
AAGTGGTGAATTGGCAATACGCCAAGACATAGACTGTTACAGTAATTCTTTTTGTTTCACAAAAGTTAATGGAAACAAAACAACTTTCAGATAATATTCA
TTTGTCAGTATGTATAATTTGCCATCCAAATGCTTTTTAAAAAGTTATTATCTTATTATTACACATTAAATTTACATGGAGTTGTCTCCTAATCCTGGGA
TTTTAACACCAAATGTTTAATTCTGAATACAAAGAAACATTCACATACTTAATTTTACAATATTCTGGAACAAGTTATATTCAAAAGTCAAATGAACAGA
GAACATTCCACTTGCAACCAACACATAGCTGTTAACAAAATTAACCCCATTAATATTTAAAGACGGATTTATCCATTAATGCCTGTTTTAATTGTCACTT
GATTTTGATGGTTAGAAACTTTGGTTATGGTAAAAATGATCACATGAGTGGGAATTCATTACCTCAAAGCTCAGGACCACAGCTCCCCATGTGCATGTTT
TTCTGTCTGCAGTATTTCAAGGTGAGACAACAAAATAGACACCTAAAATTGTATGAGATTTTATTCCTGGTGCTTTTTCAGCGAGAACCATTTTTCCAGA
CCTAGGGAAGGAGCCTGTGTGTTTTTGGCCTGAAGGATTCATCAATTCAGAGCATCTGTGACAGCCAGGAGGAGGAAAGAAGGGAGGCTGGGATCACCTC
CCGCCCCTTCTAGCATCTCTACTGAGAGTGACAACTCCAGGCTGTCCACCCCCATCCTGAGCCTTCCACACTCTTCTCCATGCCACTAACACTCAGTATC
TGACGCCTGCAGTGCGAAGCCTCCAGAGTCCCCAGACTGACCTGGGCACTCCACCCTTGCTGGTTCTACTTTACTTGGACACACGGGTACCTTAAGGCTT
GTCACACTCCAACACCTTTGTGTGTGTGTGTCTTTATTTCTTTCTAGGTTATAAACTCAGGCAGAGGCCTCATACATTCACTTCTCTATCCCACCATCCC
AGTACAGGGCCAGCCACATATTAACTAATGCACAAATGAGGCCAAGAAACTGGCTAGAAATCCCAAGAAACTGTGCCAAGTATATGCAGCTGCACCTGGG
AATACACGAAAGCATGACATCACGAGCACAGCCTCCTCCACCACACCTTCCCTTTCTCCTCCTTCCCTGCTGGCCTCAGACAGCTATGCATGGCTGCATG
AAGGAAGATCTAAATCTGGACTTGTTTTATCCTCCCCTTCCCTTCTTCTCACCTTTATTCTGCCTCCACCTTCTTCTTTCTTTGTCTTCCCCCGCTGGCT
TCTCTGTCATTTCCCACAGTGGGTTCCCCCAATCCCTGTGGTCCTCATGTCCTGTTCTTGTTCTCTTTGTGCTGGATCTCACATCCTACAGCATCCAGGA
CCATCCTCCATGGCTGATGCCACAGCCTGCCAATTCCCAAATTCTTCACGTTTGTTTGACTTCCTACTTAGCTGTAAAACCAAAGCCCAGGGAGGAGTCC
CAAGGTGCACAACACAGAGCCAATCTGCGTGTGTACAGAGATGCAGATCCGTTTTTAATCAATGTAAGTATATGCGTATATGTATATACATATGCAATTC
ACATTCACAAGTCCTGGTATAAAGTTGCAATTTTTCTGGCTGCTATAAAATGTGCCAGTTTTAAAACTGTGCATTTGTTGCTTGCAAACTTATAAATATG
TATAAACCCCATTATAAATAAATTATGGCTGGCAGATGGCATTTAAGCTGCCAGCAATGGTTGCATGGAGTTATAAATGCTTATTAATTCTCCACTTTTA
AATTCACAGCACGGACCCTGGGATCTGTGACATGAAGTGGTGTGAAAGCATAATTATAAATTAGAGGGGGGAAAGCCATCAATAAGAGACAGGTAAGGGC
TGGAAACTCTCACTAGTGAGTGGTTCTCAAAGTCAAGACTTCAGAGCAGCTGCACCAGCATCACCTCGAGATTTTTTGAAATGCAAATTCCCGGGCCCCA
CTCCAGACCTAGGGAGTCAGGAACTTGGCGGGGCCAGGGGGGTGGAAGGGCCTGCAATCTTTGTCTGAACCAGCTCACAGGGTGGTTCTGATGCCTGCCT
TCCACTCGAAGTCTGCTTGTCACGAACGCCTGTCTCAGCTCAGGGACATCCCCGGCTTAGGAAGTATGCTCAGGTGTGTGCAGGGCCAGTCAGAAATTGT
TTCCAGAAACAGCCTTTCATAAGTGATAGACTTGGTGAATAAATACCCCAGCTGTCTCCCCGCCTTGCTGGGTGAACTCTGGGGTGTCAGCTCTGTCTCT
CGGGGTTCCCCAGTGGGATTCAGCTCCAGTTGTGCACATGACGGTAACTTACTTGATAATGCACGCCTTCCCCGTCAGCTTCCTTCTCTCCCTACTTCCG
GGATCTTCACTCAGATAAACTACATAACCTCAAGTCCTCTCTCAGGGTCTCCTTCTGGAGGAACCCCAACTAAGAGGAAGTAGAAACACTGTCTCTCCCA
TCTGAATGACTCAGGCTTTTATGCATTTTGAGATGGAGCACAGATGTAGAACCCCTGGAGGGAAGCACTGCTTGCCATTTCCGTGGGGCAGGGGGCT


SNP Information

Context             (SEQ ID NO:41268):
CCATCGAGCGGCACTTGACAATGATCAAAATGAGGCCTTACGACGCCAACAAGAGGCACCGCGTCTTCCTCCTGATCGGGATGTGCTGGCTCATTGCCTT
Y
ACGCTGGGCGCCCTGCCCATTCTGGGCTGGAACTGCCTGCACAATCTCCCTGACTGCTCTACCATCCTGCCCCTCTACTCCAAGAAGTACATTGCCTTCT
Celera SNP ID:            hCV25610461
SNP Position Genomic:     16216
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41269):
CTGCAGATACATGACTAACAAGGATAGCTGGCCATGCCCAGGGCTGGTGTTGGTTGAGGAGGTGGTGATGGTGCGGGGCATGTGTGTGTGTGTGTGTGTG
Y
GCGCTTGAGGAGTTGTGGAAGTGTTCATATCTGTAAAGTATTATTTCATGGATGCAGACCTTAATGCTAGGTTGAATAACTTTGTTGCCATAGAAGAAGA
Celera SNP ID:            hCV26054422
SNP Position Genomic:     7317
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41270):
ACCATCGTGATCCTCTACGCACGCATCTACTTCCTGGTGAAGTCCAGCAGCCGTAAGGTGGCCAACCACAACAACTCGGAGCGGTCCATGGCACTGCTGC
R
GACCGTGGTGATTGTGGTGAGCGTGTTCATCGCCTGCTGGTCCCCACTCTTCATCCTCTTCCTCATTGATGTGGCCTGCAGGGTGCAGGCGTGCCCCATC
Celera SNP ID:            hCV25610470
SNP Position Genomic:     16446
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,22)   caucasian(A,2|G,36)   total(A,4|G,58)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41271):
AAAAGGGGCCTCAGGAATCACTGACATTGGAACCAAGGTTTGTCTGCAGCTTGTCGGTTTCTGGGACAGAAACCCAACATACTGGAGTGGGTATCCCAGC
R
ATCTGTAGGATAAACCAGGACACTGTGGTGTCATGGATAGCTGGCTGTCTGCCAGGTGATGGCCCCTCTGGTTGCAATGTGAGCCGGGCAGGTCATCCAT
Celera SNP ID:            hCV28968570
SNP Position Genomic:     12242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41272):
CTCCCAAAGAGCTCATCCCTAATGTGACATCCTGGAATCAGATGGCACGGACACCGGCCCAGCCCCTTCCCAGCTCTGTGACTAAGGACAAGTGACACCC
Y
CCCTCCCCCAGCCTCGGTCTCCTCCTGTGTACATTCAGAAGGCAGATGCTGCCATGAGGCCATGTGTGCTATGTCCATGGTGCAAGGTGGCACGCATGCC
Celera SNP ID:            hCV28968571
SNP Position Genomic:     8754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41273):
CGCTAATGAGGAGGAGCGTCTCTACCCTGCAGCTGTCTGTACTCCTGTGTCTTCCGTAATGTGCCAAGCTCTCTGAATATATGCAAAACTAGTCTGCAAA
R
AGCCATATGTCTCAGCATCTGGCTTTATTTCTAAGTGTTCAGGTGGAATTTAAGCCGCGATCAAATTTACAATGTCACTGCCAGCTCTGGACACTTACTT
Celera SNP ID:            hCV380620
SNP Position Genomic:     10532
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41274):
AGGCTGGGGGAGAGTGCTGCCCCCGCCTGGAGCCCAAGTCTCTGCGTGCCTGGGGGTAGAGCGCGGAGAGGGACCAGGCAGGCGCCGGAGGGGACCCGCG
M
GGAAAAGGAAGAAGCCCAAACAAAAACGCTGTCCGGCGCCAGGCGCCCACCTGCAAGCCCAAGCCGGTGCTCGGCCAGTTACAAAAGAAATGGTCAGGAT
Celera SNP ID:            hCV28968572
SNP Position Genomic:     5424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:41275):
ATACTCATCTTCCAGAAGGCGTCTTATTCCTCCTCGACAAAAAAAAAATGTGTTGGTATTAAAATGCTTTGAGGTAGGCTGGATGAACCCAGCTTAGTGA
R
GATGACATGAAAACCCTTAGCTAATGGGGTCTTTATTGAGTAGAACTCAGGTAAGTTCAGATGTAAGCAGTGTCTCTCAGTAAACATGAAAAGACTGAAG
Celera SNP ID:            hCV380621
SNP Position Genomic:     10146
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41276):
AAGGGAAGCACATTCAGGCCCACATGAAACTTGGGACAGAAGTGGCTTCTCAGAGCCGTGCACCAGGCACTTTGAACAAGTTGGAAGGCTACAGTGCCGG
R
AGACTCCACAGTAGCACAGGCGAAGTGGCTTAGGCGAAAACGCTGGGAAGTACCCCAGCTCCCGGGGGCCAGAGCCTCTAGGGCTGGCAGCCTCAGCAGG
Celera SNP ID:            hCV28968573
SNP Position Genomic:     4592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:41277):
TGCCTTAAGATTTTCCTTAAGCTTTTGGAAATGTATAATGTTTGAGAAAAAAGAAAAAGAATAGACTGAGTGGAATCGTATCTAGTTTCAGTTAATAACA
Y
GTTTCAGTTGATGTTACTGTTATAGCTACTGGGCATAAAGTCTCCTTCCCTTTTTTGAATCCTATTTTTGAGGCATTGAAGCTGTGTCTGTAAGAGACAA
Celera SNP ID:            hCV380622
SNP Position Genomic:     8231
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41278):
ATCGAGCGGCACTTGACAATGATCAAAATGAGGCCTTACGACGCCAACAAGAGGCACCGCGTCTTCCTCCTGATCGGGATGTGCTGGCTCATTGCCTTCA
Y
GCTGGGCGCCCTGCCCATTCTGGGCTGGAACTGCCTGCACAATCTCCCTGACTGCTCTACCATCCTGCCCCTCTACTCCAAGAAGTACATTGCCTTCTGC
Celera SNP ID:            hCV25610468
SNP Position Genomic:     16218
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41279):
ACTGCCTGCACAATCTCCCTGACTGCTCTACCATCCTGCCCCTCTACTCCAAGAAGTACATTGCCTTCTGCATCAGCATCTTCACGGCCATCCTGGTGAC
S
ATCGTGATCCTCTACGCACGCATCTACTTCCTGGTGAAGTCCAGCAGCCGTAAGGTGGCCAACCACAACAACTCGGAGCGGTCCATGGCACTGCTGCGGA
Celera SNP ID:            hCV25610469
SNP Position Genomic:     16348
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,40)   total(C,75|G,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41280):
CAGACCTTAATGCTAGGTTGAATAACTTTGTTGCCATAGAAGAAGAACCGCACGTCAGGCTTTTTTCATTAGCAAACCAGTAAGCACTCACTTTGGGCCT
Y
TGAAATCACTTCCATCACCTAACACCAGAGATACAAACTGAAGCTAGCCCTTAAGAGCCTCCCCCTAAGATTTAGAGAGAATGATTTCTCAACCAGTTTT
Celera SNP ID:            hCV380624
SNP Position Genomic:     7472
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41281):
TTCCCATGGTGTCCCCCAATCACTTAGGAATTTAGCCTGTGTCTAAAGACCCTCTCTGCAGCCTGACGTGGCTAGCCATCCCAGTACTTCCACGTTTTTC
R
TGCCTTTCTCCAACAGCGTTGCCGTGGCCCCTTAGGCGGCGATCGTTTTATCAATGGTCGCTCCCTCTTTTTATCTGTTGGCAGGAGCCCTTTTTCAACG
Celera SNP ID:            hCV25610478
SNP Position Genomic:     15487
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:41282):
TCCCGGCAACTCCAGACACCAAATCGCTTCCCATGGTGTCCCCCAATCACTTAGGAATTTAGCCTGTGTCTAAAGACCCTCTCTGCAGCCTGACGTGGCT
M
GCCATCCCAGTACTTCCACGTTTTTCATGCCTTTCTCCAACAGCGTTGCCGTGGCCCCTTAGGCGGCGATCGTTTTATCAATGGTCGCTCCCTCTTTTTA
Celera SNP ID:            hCV25610479
SNP Position Genomic:     15460
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,1)   caucasian(A,34)   total(A,63|C,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,34|C,2)   caucasian(A,40)   total(A,74|C,2)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41283):
GGACTTGGGCGCGCCACGGCGGCCGGAGCGCTCCACATCAGCACCCCTCCCCCAGAGCCGCTGCAGGAACAGGGAGGAGGCCTTTTCCACCGCACCCGGA
R
CGTTTACAACGGGCTGGAGCTGAATACCTGGATGAAAGTGGAGAGGCTGTTCGTGGAGAAGTTCCATCAGTCGTTTTCCTTGGACAATTAACAAGTTAGG
Celera SNP ID:            hCV380626
SNP Position Genomic:     6415
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41284):
GCTCATGAGTGATGGGAGAGATCTGGGCAGGCAACCTCCTCTCATCCTGCATCATCAGCCTGGACTTGGAACTTGGCTGCTTTTTCTTTCTGCAGTTAGC
R
GAGGGCCTTGGCCAACACATAAGCCTTTCTGCCAGCACTTGGCATTCCAGCTGACCTCGACCCAAGGCCTCTGTGACTTCAGGAGGCGGCAGCTGGGAAG
Celera SNP ID:            hCV380618
SNP Position Genomic:     13605
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41285):
TCAGAAGCAGGCTAAACTCACCTAGGGGAGAGTCCTATCCCAGGTAGTGGTCATGCTTGGGGACAGGTGGTGACTAGGAGGGGCACAAGGAAGGCTGCAG
S
GTCCGGCCCATCTTGTTGCTGGCCTGGGTGCTGGTCTCACTGATCTCTGTGTGGTGGGGCAGGTCAGCCTCCCAGGCCTGCTGGTGCCTGCAGTGCCCAG
Celera SNP ID:            hCV380619
SNP Position Genomic:     11184
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,1)      total(G,1|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41286):
TGGAGGCCGGCCTGGGAACAGGGGCCGAAGGGCGAGCCGGACCCTAGGGGATTGGTAGGGTCGGGGAGAAGGGGTCCAGGCTAGGGGCGGGCGGGGCGCA
S
GGAGACCAGGCGGCTTGAGCGGGAGGTGGGGAGCTGGAGGAGTGCCGGGTTCGCGGGCGGGGGACGGGGAGAGGGGGGCGGGGAGAGGGGCGGGAGTCGG
Celera SNP ID:            hCV380627
SNP Position Genomic:     5806
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:41287):
GATTTCTCAACCAGTTTTCATCTTTGAAAGTGCCATTTCTCCCTTTATCATTGTGATTTTTATTCAAATGCATGAGTCTCTGATTTTCTACCATATACAA
A
GGGTAGAGACTACAGTTTCCTATAGAAGAAACTTCACATAGTGGCCGAAGGATCTTATTTCTCAAAATTCAGGAACTGGTTTCCTCTTTCTGGAAATTAT
Celera SNP ID:            hCV11761040
SNP Position Genomic:     7655
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41288):
GAGGATGCTGGCACAGGGCACTGTTCACAGACTGCCTTTGCTCCATGCCTTTTCCATGAGCATGAGTGGCTGTTCGTGTGGGAAACGGCAGAGCCCTCGC
R
GTCCCCATCAGCACTGTGCAGTGGTACCGGAGGTGGCAGGAGACAGCCTGATGGCCCAGGTTGTCTTCATACCCGGCTTCATGCCAGGGTGCATGCCGGG
Celera SNP ID:            hCV9329133
SNP Position Genomic:     12486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Gene Number:                 200
Celera Gene:                 hCG28276 - 145000147419502
Gene Symbol:                 SLC2A8
Protein Name:                solute carrier family 2, (facilitated glucose transporter) member 8;GLUT8;GLUTX1
Celera Genomic Axis:         GA_x5YUV32W1V9(14295686..14319175)
Chromosome:                  Chr9
OMIM number:                 605245
OMIM Information:            SOLUTE CARRIER FAMILY 2, MEMBER 8;SLC2A8


Genomic Sequence (SEQ ID NO:12360):
GGAGGGATCTAGACAAATGGGCACACTTACCAGCAGTCAACTGCTAATTCAAATCTATTGAGACCTGGCCAGGCACAGTGGCTCATGCCTTTAATCCCAG
CAGTTTGGGAGGCCAAGGCGGGCAGATCACCCAAGGTCAGGAGTTCGAGACTAGGCTGGCCAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAG
TAGCCGGGCGTGGTGGCACATCCCTGTGGTCCCAGCTACTTGGGAGGTTGAGGCAGAAGAATCGCTTGAACATGAGAGGCGGAGGCTGCAGTCAGCCAAG
ATCGTGCCACTGCACTCCAGCCTGGGTAACAGAGCAAGACTTCATCTCAAAAAATATATATATAATATATATTTTATATTTATATATTTAATATCTATTA
TATATATATGTAGAGAGAGAGAGACTTTTTCCTCACCAGATTGACAGAGAGTTTTTAAAATAAAAATGCTGGCTAGGCATGGTGGCTCATGCCTGTAATC
CCAACACTTTGGGAGGATGAGAAGAGAAGGTCACATGAGCCCAAGAGTTCAATCCCAGCCTGGGCAACACAGCAAGACCCATCTCTACAAAAAAAAAATA
TATATATATATATATAGGCTGGGTCTGGTGGCATGAGCCTGTAGTCCCAGTTACTTGGGAGGCTAAGGTAGAAAGATCACCTTCCTTCTGGGAGGTCAAG
GCTGCAATGAGCCATGATCACACCACTGCACTCCAGCCTGGGTAACAGAGCAAGACCCCGTGTCAAAAAAAAAAAAAAAAAACACTTAGTAAGACTGCAG
GGAAACAGGTGCTCTCTATGCAGTAATGCAGTACTGGTAGCACATACACAGTCCAGCCTATCCGAATGCCAGGTCAGCATCACACGTCAATGAATAGTAG
TTAAGTCACACTGATTTGTCCTGTAARATCTCTGTTATCCTTCAAGCAACATCACACGTGCTCCAGTGTGGGGAGTGATAGTTCGTATGTCCAAGCTTCA
TTCATTCACTCAACACACATTCTTGGAGCACCTAGGACTTAGTTGGGTATTAAGATATGGAAAGGACTAAGCCCCCACCTGTGCCTTCAAGGGGTTCCCA
GGCCAGTGGCAAAGACCAACAAGCGTCCAGAAAATGACTGCATTCCAGCATGGCAGGTGATGTGTAAGGAGGGTTGCCATCCAGCCCACACCTGGGGCAG
GGAGGGTCTCAAACATCAGGGGAGGCTGAGCCTCCTCTCAGAAGTCATAACCTGACAAGGCCCCTGCCCTCAGGGACTTTGCATTCTAGTGTGGGAAAAC
AGACAGCCAACCTGTAAACAAGTAAGCAAATAAAATCATTTCAAATAGTGACAAGTGCTACAAGAAATTGAGAAGAAGTGACGGGGCTGGCACATAGAAG
GTCTACTCTGAGAGAGGGGTCAAGGAAAGCTTTTTGAGGAAGTAGCATTGGGCTGGGCTTGGAATAAACGGTAAGAAGCTAGGGGAACAGCCCTTCTGAC
AGCAACTACCTCAGGGCAAGGGCCCCGAAGCAGGCCTAGCATGGCCAGTTAAAAGGCAGGAGGAAGAGTGGACAGGCTTGAGCATAGAGAACGGAGCCAG
GAACTGTGTGAGGCCGAGAGTGGGCAGCAGCTGAGCCAGGTGGGCTTTTGCAGGCCAATGAGTATTTGTGGAATGCATTAACTCTCTGAGAAGTGGAAAC
CAATATTGGTCAAATTAATATGCAGCTATTGAGAGAGTCCTGAGGAGCTGGAGGAAACAGAGGGAGTCAGGGGTGCCCTGGGAGGCTGGAGGGATCACAG
GCCTAGTCCCGGAACCTTGGCTATGAGTTTCAGCCTGATCCTCAGGCCCTGGGCACCCATGGGAGGGTTTTAGGCAGGATGACATTATCTGGATTTGCAC
TTTAGAAAGGTAGGTAAATAATGCCTCACAAACACCTTCCATGTGTCACACACTCGGCCTTTAATCCTCAAAACCCCCTGAGGTGATGGGGGTGGCATTC
CAGCACTTCCCCACCTCTACCACATAACAGTGAGGGTTTGGTGAGCCAAACTCATGAGCTCAGATGAGCAGGAAATTGCCAGAAAAAAATAGGCCCAGTT
CTGTGGTACTCCCAAAGATCCTCTTACAGTGACTTTTCTCTTCTAGGATCCCATCAGGCTCCTTGGAAAGTGCTTCTACTTCCGAAGCCAACCCTGAGGG
GCACTCAGCCAGCTCTGACCAGGACCCTGTGGCAGACAGAGAGGGCAGCCCGGTCTCCGGCAGCAGCCCCTTCCAGCTCACGGCTTTCTCCGATGAAGAC
ATTATAGACTTGAAGTAACAGAGTTGAATCTCATTTGCCATCTTTAGTTTTCTTATGGAGGTTTATACTCTTTAAACAGTTYTGATGTAATTTCTCAACA
AAATGTGGCTTTTAGCCTGTCAGTGATCTATTGGACCAAACCTTCTGCACACTCGGCCAGTTCCCTCTCCAATGTCCGGTGCCATCTTTCCTGACCTTTG
TTTCTTTCTGTTCAGGAACCATCAGTCCCCTTGTAATAAAGGTGGTAGATTTCATTGAGGTTTTAGATTGAAACTTTGAATAAATCAAAAATACTCATTC
TTATTTACTGCAACCTTCTCATATTTTATATACTTAGATGGAAAATTATTTTTTCATTACAGTTTTGATTTATGTCACATAATGTGTTTCTTTTATAAAG
AAAAGTCGTTGCTTTTTAACTTTATTATAAGTAAGTTTTTTTTCTGCACCTTTGGCCCCGGTTGCTGTTTCAGTTCACCGTGATTGGAACCAGCTGCATT
CCTGCCTGTAGACTTTTGAGAAAAGTTGAATGGTTAGATCTTAGAAGCTCCTCCTTCTTCCCTGCATCTCATGAAAAATATTAAGGCATAGGAGCTTGTC
AAAAGTCTTCAGATTATTTTGTGTGGTTTTATTGTTACTCTGCAATAATGTAACCAGAGAACAGCTACTCCTTGTGGTTAAAAGTATTCTCATTGTAATC
CCAGTGCTTTGGAAGGCCAAGGTGGAAGGATCCCTTGTGCCCAGGAGTTTAAGGCTGCAGTGAGCTAAGATTGCACCACTGTTCTCCAGTCTGGGCAACA
GAGGGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAAAAAAAGAAAGCATTTTCAAACTCCTCCTTCTTTTTGAGTCCCCCTCA
CTCTTTCACATAAATGATATGAAGATAATAATTTGGTTTATCTGCCTTTCCTGGCTCCCTCTCCAGTGTGAACAGAAAGAAATGTGGACTGGGCCAAGTG
CAAAAGAAATAGTGAAATCTCAGCCACTAGCCAAGGGGAGATCCAGTTTCACTAGCATTGTTTGCAAATATTTTAATCTGTGTGAAGAAGGTATTTTACC
TTTGGCTTTAGTCTAGCCAATTCAATTTTATTCTGTCTCTTCCTACTTATATTATTACATTATTCATCAAAGGAAACTTCCTGTTACCCCGTTAAAGCAG
CTCAGAAGAGTTCTTCTGCAGGCTTTTTTTTTTTTTTTTTTTTAGACAGAGTCTTACTCTATTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCTC
TGCAACCTCCACCTCCCAGGTTCAAGCCATTCTGCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCACGCATCACCACACCCAGCTAATTTTTGTAT
TTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCGCCCACCTTGGCCTCCCAAAATGCTGGGATTATAGG
TGTGAGCCACTATGCCCGGCCAGCAGGCCTTCTTTGTGAGTGTGGAGAACTGAGTTTGACAGGACCTTGGTCTGACAGATTTTATAGAAGTTTGGGTCGT
ACCTCCTAGTGGGCCTTGCACACTGTGGGGAAAGTTCCCCTCTCTGTCTTTTGTACAAACAGATCAGCATGATAGCCCAAGCTGAAGGTTGCTTGGTTCA
TCTTTGGCAGAAGGCAAGAGTCAAGAGTAGTAAAGACAGTGCTTTTTAGGTATACCCAGATGGGGCTGTTTATAACCAAATGTGTCTGCTCATATTCTTT
GCAGCAGTTAGCATGCCCATTCTTCCTTTGTGTGTTTTATGCCCTTTTCCTATATAGGGGGAAAAAAACACTGTGTCTCAACCCCACCAACAGTTTAATG
AATTATGTTTTATTATTCTTGCTTTTCAAATAAGGAAATAGGCTTAGGAAGGGGCAATGGTTTGAACCTGCAAGTTCTTTGACTCCAGAGCCCTTGCTTT
CCCCACGTCTGCCATGCAGAGCCAGGCTCAGTGCCTTGTGTCAGCTGGATCTGGCTGGTGTTTTTCATGTTAAACTAATTTGTAAGCTTTATGAGCTTGT
ATCTGTGTTTTTCCTTTTTTTCTGGAAGTTTCTTGCTTCACAGTGTAGCATAAAAAAAACCCAAGGACTATTTTAGAGCATTCTTCCAAATCAGCAGCAT
TAGAGCCACCCACAATTTGACAAGAGTCACAGGTCTGAGGAGTGATGTAGCAAGGGCAAGAGGTGGACCCTACTGATCAGGCTGATGGTGCTTTGCCTAT
GAAAAGGGGGCAGGAGGCTGTTCTGGCAACATTATTTGTCTACAAAGGCCAAGAAGTGAGTTCTGCACACTCACGGGAAGGGAAGCCATCGGCCACAGGG
TAGGAGCACCCTGCCTACATAATCCTTTCTGTGTACCCGACTGGCTGAGTCACACAGAAAATCATCTAACTGCAGTGTCTGCCTATGGAGTTGGAGGCAT
TGATCCACTCTGCACACACCAAGTGCCTCCTCTCCAGAGGAGGTCATGTCCATTGGGGGAAGGACGGAAGTAAACAAGGGATCACAAAGCAGTGATAAAT
GCTGTGATAAGAATACACATCTAGTGCTCGAGTTATCAAGCATTAGATGCTGTGGGAGTACAGAAGGGCAGTTGCCTAAGTCTTTAAGGATAGGCTTGTG
GTCAGGACTGAAAAATGTTGGTTGCTAGAACCATCAAGTGACTGCAACATATCAGATGACTGTCTTCATCATACCGGTTAGCCTTTGAGTGCTTCACATG
TCTTATATACATTACCTTGCTTCACAACTCTCCTGGAAGATAATGGTCATCCCCACTTAGAGATGAGGAAACACAAGGCCCAGAGAGGGATTACAAGCCA
AGCCTCTTACTCCCATGCCCTGGCTCTTTCCAGAATTACACCAGCATTCCACCACAGCTGCCTGCACCCAGAGTGTTGGGTATGAATCGGGTACAACTGG
TGAGATCCAACAGTGCCTCATCATTCGACTTGGGTGCACACGGGAGAAGGTGGCATTAAAATCCACAGGGAACTCAAAATATGGAGGCAGGTAGATGAAG
ATTCAAGAGTCAGGACTCCCTGTGAAGTGAGTGACACTTAAGAGGGGGAGTGGAGCCCAGATCTGTCACACATACGGCGTGGGGGACCCCACCTACCACT
GGTCCTCAGCACCTGGAGACCCGAGCCTTCAGCAATCTGGGAAGCATGAAAGTGGGTTTCGGTGCACAGGGCCACGCCTCCGCCGCCAGCAGCCCAGCGG
GAGCGTCTGACCAGTCTCGCCCTCCGAGAGGAGAGAGAGGCGGCCCAGGACGGTCTGCTTAGAGGCTCTCTCCCCTGCAGAGCTGGGCCCAGGCATAGGT
CAGACGCCTCCAATACAGTCCCCAGGGCAGCGATTAAAGCGGAGCAGGAACTGCAGACCCGACCGGGCAGGACAGGTGCAGCTTCTCGGAGTTGGGGGCG
GGAAGTCTCGGGCTGAGRCCCACGTGCTTCGCCTTCGCCCCGCCTCTACCCTCATTGGTTGAAGCCAGATTGAGAGGAGGTGCCAGAAAAAAAACTCCTC
CCTCCAACCTCATTGGCCAGCTCAGTTCTGAGGCAGCTCTCTGGCCCCGTCTATGGGCTCGCACTACACTCCAATTGGGTGGTTGTTCTCCCAGACGGAA
ACTCCGCCCCACCTGTACCTTGGACCGCTCCGCCCTAGGGGCGGTTCCAGCGCGCTTCGCTAATCGGTTCTATGCTCCCATTGGTCTGCTTTAATGTGAA
GGGCGGGTCCTAGCTGAKTCGCTAGCCCCGCCTTGCGTTCCTATTGGCTGCTCCTGCTCTGCGGTTCCGATCCCGCCCAGCACCGTCCCCCACCCCCCGC
CGCCCATTGGCTGCGAGAGGCCGGTGCGGGCCGCACTCGCAGGGCCCGTGGCGGTTCAGGCGCCAGAGCTGGCCGATCGGCGTTGGCCGCCGACATGACG
CCCGAGGACCCAGAGGAAACCCAGCCGCTTCTGGGGCCTCCTGGCGGCAGGTGAGCTCCGGGGAACCCGGGCCCGGATGCGGCCTCGCCCTCCCGCCCCT
CCGCGTCCGCTCCGCTCACCCTCGGCCCTGTCCCCCCAGCGCGCCCCGCGGCCGCCGCGTCTTCCTCGCCGCCTTCGCCGCTGCCCTGGGCCCACTCAGC
TTCGGCTTCGCGCTCGGCTACAGCTCCCCGGCCATCCCTAGCCTGCAGCGCGCCGCGCCCCCGGCCCCGCGCCTGGACGACGCCGCCGCCTCCTGGTTCG
GGGTGAGGCCCCGGGCTCGCTCCTCCCGCCCTGGGACCCCACGCCCTCCTCTCGGGACGGGCATCGGGACCCTCCGCCCCCCACCCTTCCCCTCGGGACA
GGCATCGGGCCCCGCCGCCACCACCTTTCCCCACGAGACAGGCATTGGGCCTCTCTGCCCCCCATCCCTTCCCTCGGGACGGGCATCGAGCCCCTCAGCC
CCCACCCCTCCCCTCGGGACGAGCACCGGGCCCCTCAGCCCCCTACCCCTCCCCTCGGGACGGGCGCGGGGCCCCGGCTCTTTTACCTCTGAGCCCGCGG
GGAGTGGGTGGAGGGGGAGGATGGGCTGCGGCTTCGGCGCCCCCTCCTCAGCAGCCGCCCGCCTCCAGGCTGTCGTGACCCTGGGTGCCGCGGCGGGGGG
AGTGCTGGGCGGCTGGCTGGTGGACCGCGCCGGGCGCAAGCTGAGCCTCTTGCTGTGCTCCGTGCCCTTCGTGGCCGGCTTTGCCGTCATCACCGCGGCC
CAGGACGTGTGGATGCTGCTGGGGGGCCGCCTCCTCACCGGCCTGGCCTGCGGTGTTGCCTCCCTAGTGGCCCCGGTGAGTGTCCCGTCTCTCGAGTGTC
CTGTCTCGCGGCCTGAGACCGAGGGGGAGTGGGACAAACCGCTCCCCAGGCCTGGGGGCGCGGCTCCCCCTGGCGGGACCTTCTGGGTGCCAGGCTTGAA
GTCCCTGCGTTATCTCGCGGTCCCTCCCGTCGACCCTGGGAAGGATCCTACTGTTCTCTCCATTTTACACTGAGGTCATGACATGCAGTCTCGGAAAGGT
GAAGTCCTTTGCCCAGGCGAGGTCCACAGCTAGTCAGAGGGGAAGCAGTTGCAGGAACCCAGGGTTGTCCCACTTAGCCGTGCCCCTCTTTTGCTCTGCA
AACCTGCGGATGATCCACAGGAGCCCACTCCCTACATTTTGGTTTTCATCCCTGGCTTCGGGTCAATGACTGCAATTAGCAGGAAGTTCCTGTCCTGATT
TCTCTTGGGGCAAAGGCTGCTGGCCTCTGTGTTCCCCTTCCCTTCTCACAGGCCAGCCCCTCTGGCTTCCCCATCTTCCCCCTTTCCCCCTCCTGACCCA
GGCTGCCCACTTGGGAGCCCCGAACATCTGGGTCAAATCCTGGTTCTGCCACTAACCTGAGCAGAGTGCCTCCCTGGGCCTCAGTTTCCTTCTCTGGAAA
ACAGGGATTATGGCATTAGCCCCTGAGGTAGTGGTCAGGATTCAGTGGGACTTTGGATAGACAGCCCCTGGCATGGCTTGTAGAGGACTGGATCCTGACA
GCTTGGTGACCCATGAACTGCCCCCAGCCATGGGCTTGGACAATATCTCCCCCAAGTGAGGTTGAAAGCAGCCACTCAGGCCCCTCCCTGGGTGCTCATT
TCACCAACGTTTGCTAACCGGCAGCAGCAGCTGGACCAGAAGAGGGTGGGGAAGAAGCTGGGCCTTTTATGTCTTTGGTTTTTTTAACTGGGCAGAAACA
CACCTGTGTTAGGGGCCTAAGCTATGGAATAACCTTAGATGCATGGGTGAGGGCCTGGTGGCCTGTGGGCCCAGGAGGGAGCTAGTGGCAGCCACTGGTA
GTGACCGAGGCAGAGAGTTCGTGCTTCTAGTCCAAGGCCACCACTCAAAGCGTGGGCCCTGGGCTAGGATCCTGGGTGGGCGTCACGTGGAGCTGGTTAA
CAAGGTGGAATCTTTCGCCTGTCCAGACCTACTGCATCGGAATCTATGATTTATCCAGGGTGTCTGTGCACATTAAACGAAGGCTTGAGAAGCTCTGTGC
CCACCGCCTCTCGTCATCATATGCAGCCCTCTCCGTTACCCTTAATCCCCTTTAAACACCTGCCACAGATCTTTCAGTGGTGGGGACCTGGGGATGGCTC
TGCTCACCTAGGCAGGTTCCACTAAGGGGCTTCAGGGCCTGCCGTAACCCCCTGCAAGGACTTTCCTCAGCTCTGAATGGCTGAGACCTTTCCATTTTAA
GAACTCTTGGAGCCTGAGTAAAGCCTCATCTTTTTTTTTTTTTTTTTAATTTTTATTTAAAAATTTCGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGC
AATGGTGGGATCTTGGCTCACCGCAACCTCCACCTCCAGGGTTCAAGTGATTCTCCTCCCTCAACCTCCTGAGTAGCTGGGATTACAGATGTGTGCCACT
AGGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCCTGTTGGTCAGGCCAGTCTCAAACTCCCAACCTCTGGTGATCTGCCCGCCTCGGCC
TCCCAGAGTGCTGGGATTGCAGGCATGAGCCACTGCGCCCAGCCATAAATCCTCATCTGATTGCTGGCAGGTCTACATCTCCGAAATCGCCTACCCAGCA
GTCCGGGGGTTGCTSGGCTCCTGTGTGCAGCTAATGGTCGTCGTCGGCATCCTCCTGGCCTACCTGGCAGGTATAGTTGTCATTATCTCTTGCTTCCTGT
TTGTGGTCATGTGGCCATTTTACAGATGTGTAAACAGAGGTTCAGTGAGGTCAAGGGACTTGTCTGAGGTCACATAGCCAGTGCCCAACATGCCAGGCTC
GCCTTCCTGGGACCTTGGGATAGGTGAGTCTTTTTTTTTTTTTTTTTGAGACAGAGTCCCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGGCTCTCTGC
AACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCTTCCCAAGTAGCTGGGACTACAGGCATGTGCCACCACACCTGGCTAATTGTTTGTATTT
TTGGTAGAAAGGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATGAACCGCCAAACCTCAGCTTCCCAAAGTGCTGGGATTACAGG
TGTGAGCCACCGCGCCCGGCCGATAGGTGTGTCTTATGACTGAGTTCCAGGGACAGCTGGAGAAGGTGATACCCTCAGCTTTCCTGAAGCCCCCTCTAGG
GGTGTGGGAAGGGCTGACTGCTTAGGTCAGTACCTTACTGTGCAGTGACAAACCAGAGGGCTCCAGAGGTGGGTGGGTCCCTGTAAAAATCTTCAGCCCG
GGCGAGTAAAGGGCTGAGCAAGTCCCCTGAGAATGTCAGTGCCAGATTCACCATGTCGGCGAGTTGCAACGTGAAGGAGGCCGGGGTCCTGGGGACCCCG
AGGGGCAAAGCTGGGCCAGCATGAAGAAACTTCAGGAGACAGGTGTGTTCTCATTAGAAAGAGGCCAGGCTTTAGAGGCCAGACCCAGTGGCTCACACCT
GTAATCCCAGCACTTTGGGAGGCAGAGGTGGGCGGATCACTTGAGGTCAGGAGTTCGAGATCAGCCTGGCCAACATGGTGAAAACCCATTTCTATTTAAA
ATACAAAAATTAGCCAGGCGTGGTGGTGGGCACCTGTAATCCCAGCTACCTGGGGGGCTGAGGCACAAGAATTGCTTGAACCCAGAAGGCTGAGGTTTCA
GTGAGCTGAGATCGCGCCACTGCACTCCAGTGTGGGCGACACAGTGAGACTCTGTCTCAAAAAGAAAGAAAAAACAAGGGCAGGCTTCAAATCTGACCAT
CCTGAGTTTGGGGATAGCCTCTCCTACGTGCTGTGTGACCTTGGCCAAGTCATACCACCTCTGAAAGCCTCAGTTTCTCTGTCTTGAAATGGGCATAACC
TCATCTAGTCCAGTACCTGTCCATTAAATTAATTGACACATGAAAAGTGCCTAACAGTGGGTTCCAAATGAGAATTGTCAAGGGATGACTTGAGAACCAT
GGGGATCATCGGGGTAGGAGGCCTCGGGGGCCTGACGGGCTATGGCCTGGCCCAGGGCACAAGCCCTCTGCATCGTCAGGGCGGATGATACACAGGTCTT
TGGTGTTTCATTTTTACCCACTTAACCACCCTAACAAATTCAGAATCCTGCCAGCGATCTGGCTACCTTGGGAGACCTGAGTAAACCAAAGCCCCCACTG
TGTGCAGGTGTTGACATTCATCATTTCGGGGACAGGTACTGGGTGTCCACCCACCCGTGGCACTATCTTCAGCTCATCTTAATATGTGCTTGTTGCTTCT
CCTGCCTTTCCTGATCAATTTCTGTGAGTTTCGATCCACTGGGGTGGGTGAACTCTGATAACTCCACAAAGTGACATGGTGGTGGCACGTTTGCTTCACA
TTGGGGCAATCATGTTCCAACGACTAGACTTCATAGAACAATTGTCTGCACCCCCAGCACAGAAGAAAAATAGGGACATCATGGCTACCTTAGAGGTATT
TTTCCACTGGGAACCAGGGATGGGTAAGCCTTGGGCTTAGGAAAAATTAGTAATTAGAGCAGCAATGCCCTAGACTCATTTATTCCAGGGCCCCTTTGTA
AGAGAACCTTTTAACTTTATATAAAACTAGGTAATTCTGCACTTATGCTGTTCTTCATACGTCAAGACAGCAAAATCCTCTCACCTCTCTACTTTCATGT
ATACTTTGAATAGATAATGCATTCAAATGACTCAACACTCAAGTGCCAGAGTGGAGAGATGTCCAGTGAAAAGCTTCCTCCGCCTCTGTCCCTTTCTTGT
CTGGGGGAGTCCCCATTGCCTGTTTCTTGGTAGCCTTCAGAGAGTCTGTTCATATGAGGGACATGCATATTTATCCTCCCTCCCCCACCTCTTCTACAAA
TGGTGCCACATCATACCATGCGGACACGCAGCAAGCACCTCATCCTTCATTTTTGTGGCTACATAAATGTTTCGTTGAACGGATGCAGCCTAGTAATGTC
CGCGTTGTCATACCCACTGTCGCTTCCGCAGCTGGTGTGATTGGCCCGTGCCATGTGCCTTCATGAACAGTTGTGATAATGGCAATGTCAGTAGCRAACA
TGAGGGCAGATGTGCAGAGGCAGCGAGGCCCCATCTCTGAAGCTGAGTCTTTGAGGCTGGCAAGGCCCAGGCTGGCTCACCCTGGCTCTGACGCCAGCCT
CCYCCACCCACCCCCCGCAGGCTGGGTGCTGGAGTGGCGCTGGCTGGCTGTGCTGGGCTGCGTGCCCCCCTYCCTCATGCTGCTTCTCATGTGCTTCATG
CCCGAGACCCCGCGCTTCCTGCTGACTCAGCACAGGCGCCARGAGGCCATGGCCGCCCTGCGGTTCCTGTGGGGCTCYGAGCAGGGCTGGGAAGACCCCC
CCATCGGGGCTGAGCAGGTGAGAGGCTGGAAGGCAGAGCTGACAGGAGTGGGACAGCAGTCACGGGAGGGTAGCACAGCCTGTTCCCAAGGCCACACACT
TGGGGGGTGGGGGACAGGGAGGTGCCTATCCACCCTCCACCCTCAGCGAGGACAGGCCCAGTGTGTCCTGTCTTTGAGCAGGCCAAGACAGCTGGAGCCC
CACGGAGCTGGGCCCTGGCCTCCAAAGTCACCAGCAAAGCCCGAGCTTTGACCCTTACTGTCCCAGGAAGAGAATGGCCAGGCCTGGTGGGGGATACAGA
GGCAGAGCTGAGGACTTGGATTTAACAAAGGAGTTGCAAGGCAGGGTAGAGGGCTAAAAGTCTGGGTTTTAGAGTCACCCAGGCATGGGTTTGAAGCCCC
CACGCTGCCCCTCACCTAAGCTTTAGCTCTTCACCTGTGATGTGGGAGTCAGCACCTGCTTCACAGTGCTGGGTGGGACTCAGTGGGGGAAAGGAAGGCG
GGGCTTAGGGAGGAGGGGGGCTCAGTGGGGAGGGTGGGGTCAGCGAGGAGGATGGGTTCAGTGGGGAGGGGAGGGTCAGGGCTGTAGGAGGTGCTTAGCT
AGGGCCAGGCCCAGACCTGAGGCAGGTGCTGGATGTGTTGGTGGTGGCAGGGATGAGGGCAGCAGCTTGCTCTTTGCCCAGATTACCTCTTTGTGGCTCC
CCCCCACCTATCAGGAAGTGCCCTGGGCAGGTGAGGGTCATCTCACCTGACACATGGGGAGGCTGGGACTTGTCTGCACACCTGAGGACACAGGGGGTGC
TGGGATGAGGAGCCAAGACGTGGGAGTCAGYGCTCCCCAAGCCTTAGGACAGTAGACCCCCAGAGGGGGGCCGCTTGCGGGAGGGGAGAGAGAAATCCTG
ATGGCCAGTATCCRTCAGAGCAGAGCTTTCACCTGGCCCTGCTGCGGCAGCCCGGCAYCTACAAGCCCTTCATCATCGGYGTCTCCCTGATGGCCTTCCA
GCAGCTGTCGGGGGTCAACGCCGTCATGTTCTATGCAGAGACCATCTTTGAAGAGGCCAAGTTCAAGGTAAAAGGGCCCTGCCTGGCCTGCCTCGTCCAG
CCCCCACATAGATGGAGCTTCCTCCCCAAGCCCAGGGCCCAGCCATCCAGCACAGGCCTGGAGAGGGAGGGACCCAGCTCTCAGCTGGCCCACCTGACCT
GCCTGGGCTCTGTCTCCCCCAGGACAGCAGCCTGGCCTCGGTCGTCGTGGGTGTCATCCAGGTGCTGTTCACAGCTGTGGCGGCTCTCATCATGGACAGA
GCAGGGCGGAGGCTGCTCCTGGTCTTGTCAGGTGAGGGTTCACCCCTGTGCAGCCTCCCCGCCATGSKGGGGAGGGCCTTCGCCAAGGCCACCACACTGC
AGGAGGAGGACAGGGAGCATTTGTGATGACAAACATCATGGACTAATGCGGCCATGATTTGACAGCAGCTTGTCACCAAGCACTCACTGCAGGCCTGTCC
ATGCCAGTGGCACTCCCACACCACGCCTTTAACCTCTGTGGTGAACCCACCAGAAGGCACTCTCACAGCCCCAGCTTATGACGGGAAAACTGAGGGCCAG
GAAGGTGAAGTGACTCAAGAGTTTGTGGGTCCTTTTGGACAAGTGACTTTACCTCTCTGAGCCTCAGTCTCCCCCTCTGGGAAGTGGGGGTAATGGCAGT
GCCTCCCTCAGCACCATTTTGAGGAGTGGGAGGTGATCCACGTGAGGCCTTCAGCAAGAGCTGCGGCCCACGGACATTTGGTACCCAGCAGCTGCTGCGA
AGACGACCGTCGGGGCTGAGGGTTACTCGCTGCTGCTTCTGYGCCGGTACCTCCCATTTCCTCGGCCCAGAGGGTCTGCTCCGGGAACTTTTTGCAGTTC
GCTGAGGTCCAAGGCGGGGTGGCTGCCACCCAGTCAGGGCTYCTGCGGCCAAGGTGCCAGAACACCAAGCTGGCCGTTCTCTGGGAGCCGGGCCTGCCCC
TCTCAGAGGCATCCAGGCCATGCTGCTGCGCCCTGGGCCGTTCCCCGGGTGCCCCGCCCACTGCCGCCCTCCCGCCTGCAGGTGTGGTCATGGTGTTCAG
CACGAGTGCCTTCGGCGCCTACTTCAAGCTGACCCAGGGTGGCCCTGGCAACTCCTCGCACGTGGCCATCTCGGCGCCTGTCTCTGCACAGCCTGTTGAT
GCCAGCGTGGGGCTGGCCTGGCTGGCCGTGGGCAGCATGTGCCTCTTCATCGCCGGTAAGGGGGCCTGTGGGAGGCTGGGCGAGGAGTGGGAGGTGATCC
CCCCGGCCCTGCTGTGGCGGCTYCMGGCAGGTGGGGTCTTCCCCAGCCTCACCTCTCCTCTCGTAAGTTCCAAGYTCTGCATTTCTAGCTCTGACCACAT
GCAGCTGTGGAACTAGGCCCCTCTGCGTTCCTTTCACTTAATCCCCTGAGCAGCCCTCGAGCAGGCCCCGTTGTGACCCCATCTCAGAGACAGAGCCTGT
GCCTGAGGAGGGAAGAGGCTGGCCGAGGCCTTGGCAGGAAAGCATGGAGCTGGYGGGACCACACTGGGATCCGGGACCCCACAGCCCCACAGGCTGGGAA
GCTGGGTCTCTTGGCTCTGCAGCAAGCTGAGGAGCCCAGCCCTGCGGACCCTGATGCCTGTCTTGCCTGTCTCGCTCCCACAGGCTTTGCGGTGGGCTGG
GGGCCCATCCCCTGGCTCCTCATGTCAGAGATCTTCCCTCTGCATGTCAAGGGCGTGGCGACAGGCATCTGCGTCCTCACCAACTGGCTCATGGCCTTTC
TYGTGACCAAGGAGTTCAGCAGCCTCATGGTGAGGGCAGGCTCCACCAGCACCGCGTTCGTGCAGTCAGCCRAGAAGCACTTTCTAAAACCACTTGTATT
GCAGAAGACCCAGGGTCGTGGCCTTACATGCAGCCTGAGCCCCACCATGCCTGGGCCACTGGCCATCTTGGGCAAGGCGACGTGGAGGCAGATGGGCTAG
GCCAGATGGGGAACCCAGGCTGTGACCCCTTGGGAGTCCTCTGCCTGTCTTGGCAGTCAGACAGCACAGCTGGCCTCTCCCCTTAGTGAACGTCAGGAAA
GCGGGCCTTGAGCCTAAGGTCTTACATGGGAAGAGTTGACAGGGCTGGGCTGCAGCCCCACCCTGGCTACTTCCTTGCTGTGTGACCTTGGGTATGATGC
TTACCTTCTCTGAGCCCGCTTCTTTGGCTGAAACTGGAGGAGAGTAACAGCAGCTTGCTCTTAAGACGGATGGGAGCATTAATTCAGTTCATCCTGTTGC
TGCCTTCTCACGGATGGACTGGCACAGGTGTGGCCCCTGTCCCGGGGCTTCCCAGCCAACAGAGAGACAGTTCTGGGGTAGATGATCTGGTTGTTTGTTC
AGTCATTTGTGCCCTCCAGGTCTCCTGGCATGTGCCATGTCCAGGCCCATTCAAGGCGCCAGGGAGAGCAATGAACAAGATGGACAGGGTCCCCTTTATG
ACAAGGACGGGAAAGGCCATGGCAGTGGTGGGAGAATGAACCCCAGTGGGGCTGGGTTAGGATGTGGTGGGGCGGGTCATGAGGGGCCAGCCTGGAGTCT
GTGCAGAGCTTGGGACCCGCTTAGGCAGGACTGCCCGGGGAGCACATCGAGGGGGCCAGGCCGATGCCTGGGGGTGGAGATTACTTGCTGCAGCTGGGAG
GGGATGCGCAGCAAAGGAAGGAGGAAAAGAAGCCAAGAAGGAGGTGACAAAGGACCTAACAGTCCTTTTTTAGGAGAGAAAATGTCCAAGAGGCCAAGAG
AAGGCCTTCGAGGAGGGAGAGATCRCCAGGTCCCAGAGGACCAGGAGCTGARAAGCACCTTTTTAGTTCTGGCACGTGGGAGGTCACAGTGGTGGTGGAT
GGCAGGGACAGGTTCTGACTGAAGGCCCCATGTGCTCCTGGGGCCATGCTCGCTTTGCCCTGTCTCACCCATTTCCACCACACTATGAAAGAACCCACCG
GGGGCCTCAGGGTGGGGCCAAAGCTGAGGGTGGAGGGTTGGTCTGTGGGCCCTGGAGTCAGACCTGGAACAGGAGCCCAGCTGTCACTGGATAGCGGGTC
TCTGGCCTTGAGGCAGTCACTTCATTGCTGTGAGCCTCAGTTTCCCCAGCCATACGACCTCGGTATCTTGGACAGTGCTCGGCCCAAGCCACCAGACTGG
ATGCCAGACTATCCTCCATGTCCCAGAGCTGGGTGGAGATAAAATGGGTGTGGCCTTGGGCAGGGCAGGCTGGGGTCAGGGGACTRGACCCCCTGGTGGC
AGAGCTGTCTCAGTGATCGCGTGGGGCTTCCTGATCTCTCCCCGYGTCCACCCATGGCCTTTCCTCTCTCTGCAGGAGGTCCTCAGGCCCTATGGAGCCT
TCTGGCTTGCCTCCGCTTTCTGCATCTTCAGTGTCCTTTTCACTTTGTTCTGTGTCCCTGAAACTAAAGGAAAGACTCTGGAACAAATCACAGCCCATTT
TGAGGGGCGATGACAGCCACTCACTAGGGGATGGAGCAAGCCTGTGACTCCAAGCTGGGCCCAAGCCCAGAGCCCCTGCCTGCCCCAGGGGAGCCAGAAT
CCAGCCCCTTGGAGCCTTGGTCTGCAGGGTCYCTCCTTCCTGTCATGCTCCCTCCAGCCCATGACCCGGGGCTAGGAGGCTCACTGCCTCCTGTTCCAGC
TCCTGCTGCTGCTCTGAGGACTCAGGAACACCTTCGAGCTTTGCAGACCTGCGGTCAGCCCTCCATGCGCAAGACTAAAGCAGCGGAAGAGGAGGTGGGC
CTCTAGGATCTTTGTCTTCTGGCTGGAGGTGCTTTTGGAGGTTGGGTGCTGGGCATTCRGTCGCTCCTCTCACGCGGCTGCCTTATCGGGAAGGAAATTT
GTTTGCCAAATAAAGACTGACACAGAAAATCAGGTCAGTGTCTCTGGGCTTTGTGCAAGCTCAGTTTGAAAAGGGTTTATTCCCWTCACTGCCCAGGACA
CCCTGTGGCTTTACTTGCTCATGGTCAGCCAAGCTTACCCTTCACACTGAGAAGTCATTTCTGGCTACTTCCTTGGGCTCAGTTCCCTGGGTCATCAGCC
ATCAAATCTTGTTGAGTTTAAAAAATAAACAGCAAAAAAAAACAAAACAAAACAAAAAAAAACACCTTTTGTTCTGTTGACTTTAATGGAGCCAGAAGTC
TTTTATAATTTTATTATTAATTAGCTAATATGTGTTCATTGTAGGGAAATTAAAAAAGATTTAATATCATTTTTATAGCTGTTAACCAGCTGCTATGCAC
TGTCCTAAGCACTTTACAAATATTAACTCATTTATTTGGATAAACAATGATAAAACTATTTACAGCCACCCCTTTCCAGAGATAACATCTCTGTTGGGAT
TTTGTTCTGCCAGGCACGGTGGCTCACACCTTTAATCCCAGTGCTTTGGGAGGCTGAGGCAGGAGGATCTCTTGAGCCCAGAAATTCGAGGCTGCACGCA
CCTCGGCATCCGCATTACCAGTGCTTGCGTGGCAGTCCACTAATCGGGTGAGAACCATATTGCTTTTTGCATCTCAATGAAGCAATAGTAGCAATTTATC
AAGCACTTTTTTTTCCAGACTGGTATAAAATTGTATGTGCTTTTGTAAACCATTTAACAATAAAAGTAAAATACAAAAGGGAACAGGGCACGGTGGCTCA
CGCCTGTAATCCCAACACTTTGGGAGGCCAAGGCGTGTGGAGTCAGGAGTTCAAGACCAGCCTGACTAACATGGTGAAACCCTCGTCTCTGCTAAAAATA
GAAAATTAGCCGGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAAGAGAATTCGCTGAGGCTGAGGTGAGAGAATCCCTTGAA
CCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCACTGNNNNNNNNNNNNNNNNNNNNACAGTTAAACGGATCTCACTTCCAACACACATGCTGTC
TAGCAACACTAAGTAGAGGGGACCATTCTTCCCAACTCACGGCTGCTTTGTCCACTTCCCAGACCTGCAGCCCCAGCACCTGCCCACCTTGGCATCTCCC
ATTAAGTCACATAATGAGGGCAGAGAGCAGGGGCCTGTTTTTGCGGACACTTGAAGTACAGCATGGACCAGGCAGAGCAAGGCGCCGGATCAGATCAGTT
CCAGAAGATATGCAGCAGCTGCTCTGATTTCAGTGAAATGTGTGAAACCATGCACAGGACTTTGGACAACTCTCAGCTGTAGCAAATCCAGTTTCCCCTT
GGGCCTTCCAGAAGCAGGGTCCTGTCTCCACGCAGGAGCATCTCCCGTGGCAATGGCTGCACCTCGGCATCTGCATTACCAGTGCTTGCGTGGCAGTCCA
CTAATCAGGTGAGAACCATATTGCTTTTTGCATCTCAATGAAGCAATAGTAGCAATTTATCAAGCACTTTTTTTTCCAGACTGGTATAAAATTGTATGTG
CTTTTGTAAACCATTTAACAATAAAAGTAAAATACAAAAGGGAACAGGGCACGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCAAGGCGTGTG
GAGTCAGGAGTTCAAGACCAGCCTGACTAACATGGTGAAACCCTCGTCTCTGCTAAAAATAGAAAATTAGCCGGGCGTGGTGGCACATGCCTGTAATCCC
AGCTACTCAGGAGGCTGAGGCAAGAGAATTCGCTGAGGCTGAGGTGAGAGAATCCCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCA
CTGCACTCCAGCCTGGGGGACAGAGTGAGACTCTGTCTCAAAAATACATACATACATAAAATAAAGATCATTAGAGATATATTCTCTTTCCACCAGCTTT
GTGCCTGGAGGTTATGGATGTGGGGCTCTGGCTGCCCTCTTGCCACCGACTGGAGCTTCAGACTGAAGCTTAACATGGGCCAAAGCAAGCATGTAGGAGA
GATAGGGAGGTTGGGGGAGATGATGGGGAGGTGGGGGAGATGGGGAGGTGGGGGAGACGATGGGGAGGTGGGGGGAGATGATGGGGAGGTGGGGGAGATG
ATGGGGAGATGATGAGGTGGGGGAGATGATGGGGAGGTAGGGAGAGATGACGGGGAGATGATGAGGTGGGGGAGATGGGGAGGTAGGGGGAGATGATGGG
GAGGTGGGGGAGACGATGGGGAGGTGGGGGGGAGACGATGGGGAGGTGGGGGGGAGACGATGGGGAGGCGGGGGGAGATGATAGGGAGGTGGGGAAAAAG
ATGGGGAGGTCGGGGGAGATGATGGGGAGATGGGGGAGATGATGAGGAGGTGGGGGAGACGATGGGGAGGTAGGGGGAGATGATGGGGAGGTGGGGGAGA
CGATAGGGAGGTGGGGGAGACGATGGGGAGATGATGGGGAGGTGGAGGAAGATGATGGGGAGGTGGGGGGAGATGATGGAGAGGTGGGGGAGATGATGGG
GAGGTGGGGGGAGATGATGGAGAGGTGGGGTAGACGATGGGGAGGTGGGGGGAGATGATGAGGTGGGGGAGGTCATGTGGGGGGAGCTGATGGGGTGGGG
GAGGTGATGGGGAGGTGGGAGAGGTGATGGGGAAGTGGGGGAGGTGATGGGGAGGTGGGAGGTGATGGGGAGGTAGGGGAGATGATGGGGAGGTGGGGGG
AGATGATAGTGAGGTGGGGGTAGGTGATGGGGAGATGATGGGGAGGTGGGGGGAGGTGAGGGGAGATGATGGGGAGGTGCACATCAAAATGTGAACAGTG
CTGCCCTGCCACTTGACTTTTTGAAAGCTGCCTTGAAAATAAGCTTTCTGGGTCCAAATGATCCTTTGCTCAAGCAAAGCCACTGATACATGGCTTTAGG
TTAGTAATATATAAAACCCAGAGCTTATGAGTTCGGGGAGGAAGTATTCACAACATTATGGTTATATAAACATCGTTACTGTAAACCTAATGAAATGGAC
TTAAAGACATAATCCTATGTCAGTCAGCCTGTGTTACTCAAAAAGGAATATTCTAAGCAGCAATATAAAATGGATTTTCTCTTATACTACATCAGTTAAT
TAAAATAATGCCAGATTTGAGTTTGTACCTTATTTAGGACATGATAATATTAGATTTCTTTTTTACCTGGAGTTTTGTTGTTGTTGTTTTTCCTTCTTAA
GAAACGTGTCATTTTCTTCACCATATGACTGAGGTCTTTCCCCTTTGTAATAATGCTAGCTGTTGCATGGAATCCATTTTTTTCTCCTTCTGACCTCTTG
TTTTGGGGGACCTGCGGCAAAGCTGTTTTCGTTTCATTGATTCCTGGGTTAATTTCTCTGCTTCTTGGGTTCCACACCTTGCTCCTTGGATTCCATTTCT
TTTTTCTTTCTTTTTTTTTTTTTTTTTGAGACGGGGTTTCGCTCTTGTTCCCCAGGCTGGAGTGCAATGGCTCGATCTCGGCTCACTGCAACCTCCGCCT
CCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGCATTACAGGCACCCGCCACCATGCCAGGCTAACTTCTTGTATTTTTAGTAGAGAC
GGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCTTGACCTCAAGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAACCAC
CGCGCCCGGCCTCTTGGATTCCATTTCAATTTGCAGGGCTACACCTTCACAGGGCTACCATGTCTGATATCAGTCATTTTTTCAGGACAGGTACAGAGGG
AGCGAGTTTCTGCATGCCTAAAAAGCCTTTATTTTACTGTCACTTTTTTTTTCTTTCTTTTTTGTAGAGACAGGGCGAGTCCATACAGTAAAGTGAAAGC
AAGTTTATTAGCAAAGTAAAGGACTAAAGAAAAGCTGCTCCATAGAGCAGCCCCGAGCGCTGCTGGTTGCCCATTTTTATGGTTATTTCTTGATTATATG
CTAAACAAGAGGCGGATTATTCATGCCACCCTTTTTTAGACCATATTAAGTAACTTCCTGGCATTGCCACGGCATCTGTAACCTGTCATGGCGCTGGCAG
GAGTGTGGCAGTGAGGACGACCAAGATCACTCTGGTTGCCATCTTGGTTTTGGTGGGTTTTGGGCCGCCTTCTTTACCGCAACCTGTTTTATCAGCAAGG
TCTTTACGACCTGTATCTTGTGATGACCTCCTATCTCATCCTATTACTTAGAATGCCTTCACCATTGGCATTGGCAGTGCAGCCCAGTAGGTCTCAGCCT
CATTTTACCCCGCCCCTACTCAAGATGAAGTTGCTCTGGTTCAAACGCCTCTGATACCATGAGATTTTGAATCTCGATACTTTCTTCTGGGAACTTGTTC
TTCTTTTACTTCTTCATTCTCACATCCCAGCCCCTGATTTTCTCTGTTTCCTCTTTCTGAAACTTCTAGTAGACACTGTACTTCCTGGCACAGTATCCTC
CCTCAATTTTTCACTTATATACTCTTTTAGTGTCTTCGTATTCTAGGAATTTTTTTTTTACTTAATCCTCTAGCTCTTCTACAAAATGTTCTGTTTTGTT
AATCATGTTTAACATAATTTTGATCCTTTTAAATGTATTGAGACCTATCTTGGTGAATGTTCCATGTGCAATTGAAAAGAATATGTACTGTGCTGTTGCT
GGGCGGAGTGTTCTATAAATGTCACTTAGGTCAAGTTGTTTAATAGTCTGCTTCATGTCTTCTGTATTAATCAGGGTTCTCCAGAGATTAAACTAATGGT
GTGTGTGTGTGKGGGGGGGGGATGTATGTGTATGTAGAGAGAGATACATAGAGAGAGAAATAAGAAATCAGTTCACATGATGGCCAAGCACGGTGGCTCA
CGCCTGTAACCCCAGCACTTTGGGAGGCCAAGGCAGGCAGACCACTTGAGGTCAGGAGTTCGAGACCAGCATGGCCAACATGATGAAACCCTGTCTCTAC
TAAAAATACAAAAAAATTAGCTGGGCATGGTGGCATACTCCTGTAATCCCAGCCACTTGGGAGGCAGGAGAATTACTTGAACCTGGGAGGCAGAGGCTGC
AGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAGAAGAAATCAGTTCACATGA
TTATGAAGGCTGAGGTCACAAGATCTGCAGGGTGAGTTAGCAGCTGGAGGCCCAGGAGAGCTGATGGTGCAGTTCCAATCCAAAGGCCAGCAGGCTGGAG
ATACAGGAAGAACCAATATTGCAGTTCAAGTCTGAAGGCAGGAAAAGACTGTCAGTCATCCCCACTCAAGAGAGTCAGGAAGCGTTTCCCCTTACTTTCG
TTCTACTCAGGCCTTCATGGATTGGATGAGGCTCACCTACATTGAGGGGGGCAATCCGCTTCACTCAGTCTACTGATTCAAATGTTAATTTCATCCAAAA
CACCTTTACAGAATAATATTTGACCTGTCAGGTTGACACATAAAATTAACTATCATGTCTTCTAAATCCAGGTTTTCTGTCCACTGATTCTGTCGATTAC
TGAGAGAGGGTGTTGGAATCTCACCTCTGCATGTGTATTGTCCAGCTCTGTAGTTCGTTGGCCTTTGTCTGGCACTTTGGAGCTCTGCTCTTAGGCACCT
GTGCATTTAGGATTGTACCGTTCTCCTGACTGCTCCATCCTTTATCTTTAGGAAATGGTCCTCTTTATCCCTGGTACTGCCCCTTGTTCTGAGGTCTGAC
CCTGTCTGACATGAAAATCGCCACTCTGTTTTGGCAGTAATTTCTAATATTGTCTTATTCCCTGTGCCTTTTTATTTTATTTATTATTATTTTTTTAATT
TTCCTGGTTTCCTTGGTGTCTTCTAAACCTGTGCCTTTTTCGTAGCATCCTGTGCTCTTCTTTTTAATGGCTTGCCTGTTTGAATTTCTCTAAGGATACA
TATTTTCACTTTTTAAATATCAGCTTTAGGCTGGGCACAGTGGCTCACACCTGAAATCCCAACACTTTGGGAGGCCAACGTGGGCGGATCATTTGAGGTC
AGGAGTTCGAGACCAGCCTGGCCAACATGGCAAATCCTTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGTGCATGCCTCTAATTCCAGCTA
TTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGAAGGAGGAGGTTGTAGTGAGCTGAGATCACACCACTGTACTCCAGCCTGGGTGACAGAGCATG
ACTCTGTCTCCAAAAGAAACAAAAAACAAAAAAAACCAGCTTTGATTGAGGCATTATTTACTTAAGTAAAATTCAATAATTGTAAGTATAAAATTTAATG
ACTTATGACAAATGTATACAGTCATGTAACTGTCAGGCCTCTGAGCCCAAGCCTGCACGTATACATCCAGATAGCCTGAAGAATCACAAAAGAAGTGAAA
AATGGCCAGTTTCTGCCTTAACTGATGACATTACCTTGTGAAATTCCTTCTCCTGGCTCAGAAGTTCCTTCACTGAGCACCTTGTGACCCCTACCCCTGC
CCGTAAGAGAACGACCCCCTTTGACTATAATTTTCCACTGCCCACCCAAATCCCATAAAAGTGCCCCACCCCATCTCCCTTTGCTGACT


SNP Information

Context             (SEQ ID NO:41289):
TGCTGCTTCTCATGTGCTTCATGCCCGAGACCCCGCGCTTCCTGCTGACTCAGCACAGGCGCCAGGAGGCCATGGCCGCCCTGCGGTTCCTGTGGGGCTC
Y
GAGCAGGGCTGGGAAGACCCCCCCATCGGGGCTGAGCAGGTGAGAGGCTGGAAGGCAGAGCTGACAGGAGTGGGACAGCAGTCACGGGAGGGTAGCACAG
Celera SNP ID:            hCV366724
SNP Position Genomic:     11778
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,26|T,10)   total(C,59|T,15)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41290):
CCCTCCATGCGCAAGACTAAAGCAGCGGAAGAGGAGGTGGGCCTCTAGGATCTTTGTCTTCTGGCTGGAGGTGCTTTTGGAGGTTGGGTGCTGGGCATTC
R
GTCGCTCCTCTCACGCGGCTGCCTTATCGGGAAGGAAATTTGTTTGCCAAATAAAGACTGACACAGAAAATCAGGTCAGTGTCTCTGGGCTTTGTGCAAG
Celera SNP ID:            hCV11496102
SNP Position Genomic:     16659
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41291):
TCTATAAATGTCACTTAGGTCAAGTTGTTTAATAGTCTGCTTCATGTCTTCTGTATTAATCAGGGTTCTCCAGAGATTAAACTAATGGTGTGTGTGTGTG
K
GGGGGGGGGATGTATGTGTATGTAGAGAGAGATACATAGAGAGAGAAATAAGAAATCAGTTCACATGATGGCCAAGCACGGTGGCTCACGCCTGTAACCC
Celera SNP ID:            hCV26060570
SNP Position Genomic:     21612
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:41292):
GTGAGGGTCATCTCACCTGACACATGGGGAGGCTGGGACTTGTCTGCACACCTGAGGACACAGGGGGTGCTGGGATGAGGAGCCAAGACGTGGGAGTCAG
Y
GCTCCCCAAGCCTTAGGACAGTAGACCCCCAGAGGGGGGCCGCTTGCGGGAGGGGAGAGAGAAATCCTGATGGCCAGTATCCGTCAGAGCAGAGCTTTCA
Celera SNP ID:            hCV25763127
SNP Position Genomic:     12631
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,2)   total(C,27|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:41293):
CTGGCTCACCCTGGCTCTGACGCCAGCCTCCTCCACCCACCCCCCGCAGGCTGGGTGCTGGAGTGGCGCTGGCTGGCTGTGCTGGGCTGCGTGCCCCCCT
Y
CCTCATGCTGCTTCTCATGTGCTTCATGCCCGAGACCCCGCGCTTCCTGCTGACTCAGCACAGGCGCCAGGAGGCCATGGCCGCCCTGCGGTTCCTGTGG
Celera SNP ID:            hCV25610651
SNP Position Genomic:     11672
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,36)   total(C,72|T,2)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41294):
GTCCCCAGGGCAGCGATTAAAGCGGAGCAGGAACTGCAGACCCGACCGGGCAGGACAGGTGCAGCTTCTCGGAGTTGGGGGCGGGAAGTCTCGGGCTGAG
R
CCCACGTGCTTCGCCTTCGCCCCGCCTCTACCCTCATTGGTTGAAGCCAGATTGAGAGGAGGTGCCAGAAAAAAAACTCCTCCCTCCAACCTCATTGGCC
Celera SNP ID:            hCV29292220
SNP Position Genomic:     5818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:41295):
CCCCAGAGGGGGGCCGCTTGCGGGAGGGGAGAGAGAAATCCTGATGGCCAGTATCCGTCAGAGCAGAGCTTTCACCTGGCCCTGCTGCGGCAGCCCGGCA
Y
CTACAAGCCCTTCATCATCGGCGTCTCCCTGATGGCCTTCCAGCAGCTGTCGGGGGTCAACGCCGTCATGTTCTATGCAGAGACCATCTTTGAAGAGGCC
Celera SNP ID:            hCV25767100
SNP Position Genomic:     12758
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(C,3|T,31)   total(C,5|T,67)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41296):
GATTGCAGGCATGAGCCACTGCGCCCAGCCATAAATCCTCATCTGATTGCTGGCAGGTCTACATCTCCGAAATCGCCTACCCAGCAGTCCGGGGGTTGCT
S
GGCTCCTGTGTGCAGCTAATGGTCGTCGTCGGCATCCTCCTGGCCTACCTGGCAGGTATAGTTGTCATTATCTCTTGCTTCCTGTTTGTGGTCATGTGGC
Celera SNP ID:            hCV25610652
SNP Position Genomic:     9015
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,34)   total(C,71|G,1)
SNP Type:                 SILENT MUTATION;UTR 5;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,36)   total(C,73|G,1)   
SNP Type:                 SILENT MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:41297):
TGGAGCAAGCCTGTGACTCCAAGCTGGGCCCAAGCCCAGAGCCCCTGCCTGCCCCAGGGGAGCCAGAATCCAGCCCCTTGGAGCCTTGGTCTGCAGGGTC
Y
CTCCTTCCTGTCATGCTCCCTCCAGCCCATGACCCGGGGCTAGGAGGCTCACTGCCTCCTGTTCCAGCTCCTGCTGCTGCTCTGAGGACTCAGGAACACC
Celera SNP ID:            hCV29292221
SNP Position Genomic:     16432
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:41298):
GGAGGGGAGAGAGAAATCCTGATGGCCAGTATCCGTCAGAGCAGAGCTTTCACCTGGCCCTGCTGCGGCAGCCCGGCATCTACAAGCCCTTCATCATCGG
Y
GTCTCCCTGATGGCCTTCCAGCAGCTGTCGGGGGTCAACGCCGTCATGTTCTATGCAGAGACCATCTTTGAAGAGGCCAAGTTCAAGGTAAAAGGGCCCT
Celera SNP ID:            hCV222066
SNP Position Genomic:     12780
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,26|T,8)   total(C,62|T,10)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:41299):
CCTTGGACCGCTCCGCCCTAGGGGCGGTTCCAGCGCGCTTCGCTAATCGGTTCTATGCTCCCATTGGTCTGCTTTAATGTGAAGGGCGGGTCCTAGCTGA
K
TCGCTAGCCCCGCCTTGCGTTCCTATTGGCTGCTCCTGCTCTGCGGTTCCGATCCCGCCCAGCACCGTCCCCCACCCCCCGCCGCCCATTGGCTGCGAGA
Celera SNP ID:            hCV27504206
SNP Position Genomic:     6118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:41300):
GTTCACAGCTGTGGCGGCTCTCATCATGGACAGAGCAGGGCGGAGGCTGCTCCTGGTCTTGTCAGGTGAGGGTTCACCCCTGTGCAGCCTCCCCGCCATG
S
GGGGGAGGGCCTTCGCCAAGGCCACCACACTGCAGGAGGAGGACAGGGAGCATTTGTGATGACAAACATCATGGACTAATGCGGCCATGATTTGACAGCA
Celera SNP ID:            hCV222067
SNP Position Genomic:     13167
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41301):
TTCACAGCTGTGGCGGCTCTCATCATGGACAGAGCAGGGCGGAGGCTGCTCCTGGTCTTGTCAGGTGAGGGTTCACCCCTGTGCAGCCTCCCCGCCATGG
K
GGGGAGGGCCTTCGCCAAGGCCACCACACTGCAGGAGGAGGACAGGGAGCATTTGTGATGACAAACATCATGGACTAATGCGGCCATGATTTGACAGCAG
Celera SNP ID:            hCV222068
SNP Position Genomic:     13168
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41302):
GTGAGGCCTTCAGCAAGAGCTGCGGCCCACGGACATTTGGTACCCAGCAGCTGCTGCGAAGACGACCGTCGGGGCTGAGGGTTACTCGCTGCTGCTTCTG
Y
GCCGGTACCTCCCATTTCCTCGGCCCAGAGGGTCTGCTCCGGGAACTTTTTGCAGTTCGCTGAGGTCCAAGGCGGGGTGGCTGCCACCCAGTCAGGGCTT
Celera SNP ID:            hCV222069
SNP Position Genomic:     13642
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41303):
CGTCCTCACCAACTGGCTCATGGCCTTTCTCGTGACCAAGGAGTTCAGCAGCCTCATGGTGAGGGCAGGCTCCACCAGCACCGCGTTCGTGCAGTCAGCC
R
AGAAGCACTTTCTAAAACCACTTGTATTGCAGAAGACCCAGGGTCGTGGCCTTACATGCAGCCTGAGCCCCACCATGCCTGGGCCACTGGCCATCTTGGG
Celera SNP ID:            hCV25766884
SNP Position Genomic:     14672
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41304):
GCTGGGCGAGGAGTGGGAGGTGATCCCCCCGGCCCTGCTGTGGCGGCTCCCGGCAGGTGGGGTCTTCCCCAGCCTCACCTCTCCTCTCGTAAGTTCCAAG
Y
TCTGCATTTCTAGCTCTGACCACATGCAGCTGTGGAACTAGGCCCCTCTGCGTTCCTTTCACTTAATCCCCTGAGCAGCCCTCGAGCAGGCCCCGTTGTG
Celera SNP ID:            hCV25765257
SNP Position Genomic:     14175
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,9)   caucasian(C,21|T,13)   total(C,46|T,22)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41305):
TGCAGTACTGGTAGCACATACACAGTCCAGCCTATCCGAATGCCAGGTCAGCATCACACGTCAATGAATAGTAGTTAAGTCACACTGATTTGTCCTGTAA
R
ATCTCTGTTATCCTTCAAGCAACATCACACGTGCTCCAGTGTGGGGAGTGATAGTTCGTATGTCCAAGCTTCATTCATTCACTCAACACACATTCTTGGA
Celera SNP ID:            hCV9289811
SNP Position Genomic:     927
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41306):
TGCCGGTACCTCCCATTTCCTCGGCCCAGAGGGTCTGCTCCGGGAACTTTTTGCAGTTCGCTGAGGTCCAAGGCGGGGTGGCTGCCACCCAGTCAGGGCT
Y
CTGCGGCCAAGGTGCCAGAACACCAAGCTGGCCGTTCTCTGGGAGCCGGGCCTGCCCCTCTCAGAGGCATCCAGGCCATGCTGCTGCGCCCTGGGCCGTT
Celera SNP ID:            hCV222070
SNP Position Genomic:     13742
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41307):
AAAAGAAGCCAAGAAGGAGGTGACAAAGGACCTAACAGTCCTTTTTTAGGAGAGAAAATGTCCAAGAGGCCAAGAGAAGGCCTTCGAGGAGGGAGAGATC
R
CCAGGTCCCAGAGGACCAGGAGCTGAAAAGCACCTTTTTAGTTCTGGCACGTGGGAGGTCACAGTGGTGGTGGATGGCAGGGACAGGTTCTGACTGAAGG
Celera SNP ID:            hCV222071
SNP Position Genomic:     15625
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41308):
GGACCTAACAGTCCTTTTTTAGGAGAGAAAATGTCCAAGAGGCCAAGAGAAGGCCTTCGAGGAGGGAGAGATCGCCAGGTCCCAGAGGACCAGGAGCTGA
R
AAGCACCTTTTTAGTTCTGGCACGTGGGAGGTCACAGTGGTGGTGGATGGCAGGGACAGGTTCTGACTGAAGGCCCCATGTGCTCCTGGGGCCATGCTCG
Celera SNP ID:            hCV222072
SNP Position Genomic:     15652
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41309):
TTCAGGGCCTGCCGTAACCCCCTGCAAGGACTTTCCTCAGCTCTGAATGGCTGAGACCTTTCCATTTTAAGAACTCTTGGAGCCTGAGTAAAGCCTCATC
T
TTTTTTTTTTTTTTTTAATTTTTATTTAAAAATTTCGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGGGATCTTGGCTCACCGCAACCTCC
Celera SNP ID:            hCV26955198
SNP Position Genomic:     8631
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41310):
CCCTCGAGCAGGCCCCGTTGTGACCCCATCTCAGAGACAGAGCCTGTGCCTGAGGAGGGAAGAGGCTGGCCGAGGCCTTGGCAGGAAAGCATGGAGCTGG
Y
GGGACCACACTGGGATCCGGGACCCCACAGCCCCACAGGCTGGGAAGCTGGGTCTCTTGGCTCTGCAGCAAGCTGAGGAGCCCAGCCCTGCGGACCCTGA
Celera SNP ID:            hCV27518604
SNP Position Genomic:     14354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41311):
AAGCCACCAGACTGGATGCCAGACTATCCTCCATGTCCCAGAGCTGGGTGGAGATAAAATGGGTGTGGCCTTGGGCAGGGCAGGCTGGGGTCAGGGGACT
R
GACCCCCTGGTGGCAGAGCTGTCTCAGTGATCGCGTGGGGCTTCCTGATCTCTCCCCGCGTCCACCCATGGCCTTTCCTCTCTCTGCAGGAGGTCCTCAG
Celera SNP ID:            hCV25765965
SNP Position Genomic:     16086
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,27)   caucasian(A,14|G,24)   total(A,23|G,51)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41312):
ATGTCCGCGTTGTCATACCCACTGTCGCTTCCGCAGCTGGTGTGATTGGCCCGTGCCATGTGCCTTCATGAACAGTTGTGATAATGGCAATGTCAGTAGC
R
AACATGAGGGCAGATGTGCAGAGGCAGCGAGGCCCCATCTCTGAAGCTGAGTCTTTGAGGCTGGCAAGGCCCAGGCTGGCTCACCCTGGCTCTGACGCCA
Celera SNP ID:            hCV27518605
SNP Position Genomic:     11496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41313):
GGCCCATCCCCTGGCTCCTCATGTCAGAGATCTTCCCTCTGCATGTCAAGGGCGTGGCGACAGGCATCTGCGTCCTCACCAACTGGCTCATGGCCTTTCT
Y
GTGACCAAGGAGTTCAGCAGCCTCATGGTGAGGGCAGGCTCCACCAGCACCGCGTTCGTGCAGTCAGCCGAGAAGCACTTTCTAAAACCACTTGTATTGC
Celera SNP ID:            hCV25766768
SNP Position Genomic:     14602
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:41314):
CAAGACGTGGGAGTCAGCGCTCCCCAAGCCTTAGGACAGTAGACCCCCAGAGGGGGGCCGCTTGCGGGAGGGGAGAGAGAAATCCTGATGGCCAGTATCC
R
TCAGAGCAGAGCTTTCACCTGGCCCTGCTGCGGCAGCCCGGCATCTACAAGCCCTTCATCATCGGCGTCTCCCTGATGGCCTTCCAGCAGCTGTCGGGGG
Celera SNP ID:            hCV25767206
SNP Position Genomic:     12714
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,33)   total(A,1|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:41315):
TGGGTGTGGCCTTGGGCAGGGCAGGCTGGGGTCAGGGGACTGGACCCCCTGGTGGCAGAGCTGTCTCAGTGATCGCGTGGGGCTTCCTGATCTCTCCCCG
Y
GTCCACCCATGGCCTTTCCTCTCTCTGCAGGAGGTCCTCAGGCCCTATGGAGCCTTCTGGCTTGCCTCCGCTTTCTGCATCTTCAGTGTCCTTTTCACTT
Celera SNP ID:            hCV25766510
SNP Position Genomic:     16145
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,1)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:41316):
TGGCCGTGGGCAGCATGTGCCTCTTCATCGCCGGTAAGGGGGCCTGTGGGAGGCTGGGCGAGGAGTGGGAGGTGATCCCCCCGGCCCTGCTGTGGCGGCT
Y
CCGGCAGGTGGGGTCTTCCCCAGCCTCACCTCTCCTCTCGTAAGTTCCAAGCTCTGCATTTCTAGCTCTGACCACATGCAGCTGTGGAACTAGGCCCCTC
Celera SNP ID:            hCV25765353
SNP Position Genomic:     14123
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,11)   caucasian(C,22|T,14)   total(C,47|T,25)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41317):
GCCGTGGGCAGCATGTGCCTCTTCATCGCCGGTAAGGGGGCCTGTGGGAGGCTGGGCGAGGAGTGGGAGGTGATCCCCCCGGCCCTGCTGTGGCGGCTCC
M
GGCAGGTGGGGTCTTCCCCAGCCTCACCTCTCCTCTCGTAAGTTCCAAGCTCTGCATTTCTAGCTCTGACCACATGCAGCTGTGGAACTAGGCCCCTCTG
Celera SNP ID:            hCV25765354
SNP Position Genomic:     14125
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(A,1|C,35)   total(A,1|C,71)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41318):
GGCTGGCTGTGCTGGGCTGCGTGCCCCCCTCCCTCATGCTGCTTCTCATGTGCTTCATGCCCGAGACCCCGCGCTTCCTGCTGACTCAGCACAGGCGCCA
R
GAGGCCATGGCCGCCCTGCGGTTCCTGTGGGGCTCCGAGCAGGGCTGGGAAGACCCCCCCATCGGGGCTGAGCAGGTGAGAGGCTGGAAGGCAGAGCTGA
Celera SNP ID:            hCV27503384
SNP Position Genomic:     11742
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:41319):
ATCGGGAAGGAAATTTGTTTGCCAAATAAAGACTGACACAGAAAATCAGGTCAGTGTCTCTGGGCTTTGTGCAAGCTCAGTTTGAAAAGGGTTTATTCCC
W
TCACTGCCCAGGACACCCTGTGGCTTTACTTGCTCATGGTCAGCCAAGCTTACCCTTCACACTGAGAAGTCATTTCTGGCTACTTCCTTGGGCTCAGTTC
Celera SNP ID:            hCV16007480
SNP Position Genomic:     16785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41320):
GGCTTTCTCCGATGAAGACATTATAGACTTGAAGTAACAGAGTTGAATCTCATTTGCCATCTTTAGTTTTCTTATGGAGGTTTATACTCTTTAAACAGTT
Y
TGATGTAATTTCTCAACAAAATGTGGCTTTTAGCCTGTCAGTGATCTATTGGACCAAACCTTCTGCACACTCGGCCAGTTCCCTCTCCAATGTCCGGTGC
Celera SNP ID:            hCV8782448
SNP Position Genomic:     2382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:41321):
AGGGCAGATGTGCAGAGGCAGCGAGGCCCCATCTCTGAAGCTGAGTCTTTGAGGCTGGCAAGGCCCAGGCTGGCTCACCCTGGCTCTGACGCCAGCCTCC
Y
CCACCCACCCCCCGCAGGCTGGGTGCTGGAGTGGCGCTGGCTGGCTGTGCTGGGCTGCGTGCCCCCCTCCCTCATGCTGCTTCTCATGTGCTTCATGCCC
Celera SNP ID:            hCV366723
SNP Position Genomic:     11603
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;JBIC-allele(T,242|C,677)   total(C,677|T,242)
SNP Type:                 INTRON


Gene Number:                 201
Celera Gene:                 hCG28713 - 103000085228276
Gene Symbol:                 SCARF1
Protein Name:                scavenger receptor class F, member 1;KIAA0149;MGC47738;SREC
Celera Genomic Axis:         GA_x5YUV32W2JD(13881169..13905035)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12361):
GTGATGGTGCCGCAGTGGGGCACTCACCAGACCGTGCACCTGCCTGGCCAGCTGCCCCAGCATGAGTACCTCAAGGTAATGGGGAGTGATGGAGCCTGGG
AGTGTGGAAAAGCTGGTGCGATTCCTGTCTGTGGATGGGATTCAGCTCTGTACTCCTCTTTACCTATAGGAGATGGAACCCTTAGGTTGGATCCACACTC
AGCCCAATGAGTCCCCGCAGTTATCACCCCAGGATGTCACCACCCAYGCCAAGATCATGGCTGACAACCCATCTTGGGATGGCGAGAAGACCATTATCAT
CACATGCAGGTGGGCCTGGGCTCCTTGGGAGGAAGTATGGTGGGGCAGGGATTGCAGGCCAGGGCCCAGAACAGTGGCCTRAGCTGTTACTCTGTCCTCG
TTCCTCCCCCAGCTTCACGCCAGGCTCCTGTACACTGACGGCCTACAAGCTGACCCCCAGTGGCTACGAATGGGGCCGCCAGAACACAGACAAGGGCAAC
AACCCCAAGGGCTACCTGCCTTCACACTATGAGAGGGTGCAGATGCTGCTGTCGGACCGTTTCCTTGGCTTCTTCATGGTCCCTGCCCAGTCCTCGTGGA
ACTACAACTTCATGGGTAAGTGGGAGGAGCCTGGGGATGTGGGGATAGCAGTAGGGATAAGGTGAGGCCATCGCCCTTTGCACTTGGGGCCTGGCTGGCT
TGGAGGTGGCGCAGGCTGCATGAGGCAGGAGCCCTGTTAACATTGGCTGTTTCCTTCTCCCCGAAGGTGTTCGGCATGACCCCAACATGAAATATGAGCT
ACAGCTGGCGAACCCCAAAGAGTTCTACCACGAGGTGCACAGGCCCTCTCACTTCCTCAACTTTGCTCTCCTGCAGGAGGGGGAGGTTTACTCTGCGGAT
CGGGAGGACCTGTATGCCTGACCRTTTCCCTGCCTCCTGCTTCAGCCTCCCGAGGCCGAAGCCTCAGCCCCTCCAGACAGGCCGCTGACATTCAGCAGTT
TGGCCTCTTTCCCTCTGTCTGTGCTTGTGTTGTTGACCTCCTGATGGCTTGTCATCCTGAATAAAATATAATAATAAATTTTGTATAAATAGGAGTTCAG
GGGCTGGTTTGTTTTTTTTTTCCCCCCCAAACTCAAATTCTGGATTTAGGTCTAACAGGAGGCTGGACTGGAGCGGTTCACAGCAAGATGCTGGGCTCGG
CTGTGAAGGGGGGAGTATGAGGCCCCCTTCCTATTCAGGGCTTTGGGGTAGATAGCCCCTGGACTCAGTGGAGACCTGAGGCAGGGCTGGGCTTTCACAC
TCCGCTGCCTTGACCACATTTGCTGCTTTTTCCACAAAACTACTTGGAAGCTCTCGCCTCCTTTCCACAGTTTTGGGAGCAGTTGCCCTTTCCCGGGTCT
AGGAACTCTGTGGCTTGTGCTGAGCGGCTGCGGTGTCCAGCCCAGCCCTTTAAGCTTTCTGTGTCAGTCCTGGTCAGGAAAACAAGCACACAGGCAGGCA
GTTTGTGTACAGCCGGGCGGAGGCCAGAGACCGGCTGCCTACCTGTCACCTCTCGCCTGGAGCGGGCCACTGCCAAGTTGGCCCCATGACTCCAAACGGG
CGGAGCCTGGATTGGGCCTGTGGGGAGGGCTCCACTCAAGTGACCACTTGCAGCCCTGAACCTCAGCTCTTGGACGCCTGGCTGGAAGTTGGCTGTCTTG
TTTCCTGTGACCTTGGGGGTGGAAAGGACAGAGCCCAGGCGACCTAGGGCACTATCTCCCTACCCCACGCCTTCTCCCTTCCTCGTTCCTCCCTACCCTT
ATCGCTTCTACCCCGCCCACACCGCCCTAAACGGCTTCCTGGGGCGGAACTGTTTCGCTTTTCCCCGTCCCAGTGGAGGGTGGGGTGGGGGGGTCGCAGC
CCTAAGCCTCTGGGAGACATGGAGCCCAGGAGGGCGGCGCCCGGGGTGCCTGGCTGGGGGTCTCGGGAGGCCGCGGGGTCGGCATCGGCCGCGGAGCTTG
TGTACCATCTAGCCGGGGCCCTGGGCACTGAGCTGCAGGATCTGGCGCGCCGTTTCGGGCCGGAGGCGGCGGCCGGGCTGGTGCCGCTAGTGGTGCGGGC
GCTGGAGCTCTTGGAACAGGCTGCCGTGGGGCCCGCCCCGGACTCGGTGAGTCATGGCCCTCCCTTCGCCACCCACGGGGYCGGCAGGGCCGAAGCCTGA
GACCCGGGTCTCCCCAGCTGCAGGTGTCGRCGCAGCCGGCGGAGCAGGAGCTGCGGCGGCTGCGGGAGGAGAACGAGCGCCTCCGCAGGGAGCTGCGCGC
GGGGCCACAGGGTAAGCGCAGCCCCGGCCAGGGCAGGGCGGGTGACGACCTGCTCGGGTCCTCCCCTCCCTCCCGCGGGCCGCGCGCCGCCGCCGCTAAG
AACGCCCCTTCCTCAGAGGAGCGCGCGCTGCTGCGGCAGCTCAAGGAGGTCACGGACCGACAGCGGGACGAACTCCGGGCGCACAACCGCGACCTGCGGC
AGCGCGGCCAGGAGACCGAGGCGGTGAGGGCGGGGCGGGGCTCTGGGGCGGGGCGGGGGCGGAGCGTGGCAGGCGCTGGGCGGGGCTCCGGGGGCGGGGG
CGGAGCGAGGCAGGCGCTGGGCGGGGCTCCGGGGGGCCCTCGGTGCCCCGCCCACCCCACCCTTTGCTCCGCTCCCAGTTGCAGGAGCAGCTGCAGCGCC
TCCTGCTGGTGAACGCTGAGCTGCGGCACAAGCTGGCGGCCATGCAGACCCAGCTGCGCGCCGCGCAGGACCGCGAGAGGGAGCGCCAGCAGCCTGGCGA
AGCCGCGACTCCGCAGGCTAAAGAGCGAGCGCGGGGGCAGGCCGGGCGGCCCGGGCACCAGCACGGACAGGAGCCCGAATGGGCGACCGCCGGCGCAGGC
GCCCCAGGGAACCCTGAGGACCCGGTGAGTGCCGTATGAGGGCAAGGACCCAGCCCAGGACGCAGCGTCCAGCCCTCGGTGGGCACTCAAGCAAGGTTTG
CATGCTGCACAGCAGGTCGGCCAGGAAGCGGGGAGGTGGCAGACAGATCTGCGCCCCCGGCCGGCCTCGGCCCCCGCTCTCAGCTGGAGCACTGCTCTGT
TATCTGTTAGGGCACCCTTGTCCCCCAAGTCTCCCGGCCCGTCACTTCCTCTAGCATTCCCATGATGGCCCTGGGGCGGGGGAACGCCAGCCGAGGCGAC
CCTCTGACTGTGCCTGTCCTTCCAAAGGCGGAGGCCGCGCAGCAGCTCGGGCGCCCCTCGGAGGCAGGGCAGTGCCGCTTCAGTCGGGAGGAGTTTGAGC
AGATCCTTCAGGAGCGGAATGAACTCAAAGCCAAAGTGTTCCTGCTCAAGGAGGAACTGGCCTACTTCCAGCGGTGAGGACGCTGGGAAGCCGGGGGGCC
TCCGATCACCCCACCTCATTCTCCAGTCATTGACATGTCCACAGTGACATGTGCCAGGCCTGCGCTGGGAACTGGGAGGACATGAATTGTACAGCCCTTG
CCCTCCTGCAATGTCATCCAGACAGGGGAGAGGGACAGTACAAAGGGTTGCAGCTGCAGCAGCCAGGGAATCTCTCCTAGGAGGGGGCCACGGGGCCACC
TAATTTAAGGTCTGAGGGTGTCAGCAAGGCAGAGCGCTTCCCGTGTTCAGGGAAGAGCTGCGTGCACAGGTACCAGGAGTGAGGACTGCGGCTGGCATCT
CCACTGCTGGCATCCCCATGGCTGGCATCACCAGGGCTTTCTCCCTCCCTGCCCCTTTTCTTTAGGGAGCTGCTCACAGACCACCRGGTCCCYRGCCTTC
TGCTCGAGGCCATGAAGGTGGCTGTCCGGAAGCAGCGGAAGAAGATCAAGGCCAAGATGTTAGGGACACCAGAGGAAGCAGAGAGCAGGTAGGTCCCTGC
CTGCATTCCCACGGAGCCAGGCCTCCCTCCCTCATTCTGCTGAGCCTGATGACCCAGCCTGGTCACCCTCTGAGCCCATTGTCTCAGACTGAGGCTGTCA
CCCCAACCCGGTCACCCCTTGAGCCTCCCTAGCCTGGCCGCTTCTAGGGCCTGCTGACCTGCTCTGGCTGTGTCCCATGGCCGCTGTCCAGCCTGCGCCC
TTCTCCCTGGATCTCACCACTCCCCTTGCCTTGCCTGCCATCCATTCTGCCTGACAACACTGCCTCTCCACATTCATTCTTCAAGTTCCTGTCTTGGCTG
GGTCTGTTTATTCTTACGGGGGTGAAACTGTAGCCGCGGCTGTGTCAGGGCCTGCTGTGTGTCAAGCTATAAAATAAACCCTTGGCAGGGCGCGGTGGCT
CACGCCTGTAATCCCAGCACTTTGAGAGGCTAAGGTGGGTAGATCACCTGAGGTCAGGAGTTCGAGACCAGCGTGGCCAACATGGTGAAACTCCGTCTCT
ACTAAAAATACAAAAATTAGCCGGGCATGGTGGCATGTGCCTATAATCCCAGCTACTCAGGAGGCTGCGGCAGGAGAATCGCTTGAACTTGGGAGGCGGA
GGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAATTAAAAATTAAAGGCTCGACAT
CCTGCATCTCCCCAGGGTTGCCTTCTCTCCAGCCCCGGGGGCCCTGCAGTCCCTCCATCCCCCCTGCTGGATTCCTGTTGTCCCTCAGGGCCTTGATCAA
TGGCCCTCACTTCTCCTCTCTCCTCTGTCTCAGTGAGGATGAGGCTGGCCCATGGATCCTGCTCTCCGATGACAAGGGAGACCATCCCCCAYCCCCGGAG
TCCAAAATACAGAGTTTGTATGTTGGGGAAAGGGGAAAGGCAAGAGTGTGGGGAGGGAGGAAGGGCCCTGGCTGGTCCTTCTCAGGATCCCCTTTCCCGC
TTCTCTGCCCATCACCCTGCTGTGCTTGGCTCTAAGCACACCGTCCCCTCCTGCTTCTCTGGCCCTGGCCCCCATCACCTTCACACTCCCTCAGGCTGCC
CTTTCTTCCCCCTCTCCCCTTTTCTCACCATCCCCTGCCCTCACCCATATCCTTGACCTCTCTGGCTTCCTGGCTCAAAGTGCCTCTGGCTGTCTCTCTC
CAGCTTTGGCCTATGGTATCGGGGTAAAGCTGAATCCTCTGAGGATGAGACCAGCAGCCCTGCACCCAGCAAGCTAGGGGGAGAAGAGGAGGCCCAACCA
CAGTCTCCAGCTCCTGATCCGCCCTGTTCTGCCCTCCACGAACACCTTTGTCTGGGGGCCTCAGCCGCCCCAGAGGCCTGACTTAGGGGTCTGGCTGTGG
AAGGATGTGTGGCCTCAAATGAGGACAGGGCTCCCGCCTTCACAGCCCTCGCCAGGGGTCTGCCCCAATCCTGGCCTGCATCAGGGCAGGACGGGGTCTC
AGCCCGCCTCCCTCTCTACGTCTCTGTACCGAGCCTCTGGGGCCAGATATAAGAGTGCCTCTCTGAGTCTCAGTTTCCCCATCCATGAAATGAGAGCTGA
CTGCCTAGCTCCCAGGGCTTTGTGCAGACGGCCTGAGCTCATGTAATAAAGAACTGCCCGTAATACACAGAAACTGTTCCTCGCCTGTCTGTCCATGTCT
GTGCCACCTCCCAACCCTGCCAGGAGCAGAGGCAGGCTGAGGGGTCCTCGCTGGTCTCCTTGCTCAGTCACTGGGTGGGGTGGCTTCTTGCAGCTCAGGC
CTTGCTTTGGGAGTGTGGCCTGATGGAAAGCCGTGGCTCCCAGCCTCAGTCCACCCCCTTCCCTGGCCCCGGCACCCAGGGACCTGCAACTTCATTCTTC
TGGCCCTTCCAGGCCCAGGCCAGTCAGCCCTGCCATTGCCTTTCTTTCCCTTTCTTTTTTTGAGTGTCAGTCTTTCCAGCCACCCCCTCCCTCTCAGGGA
GGTGCCTCGTGGCAGCCCGCCCCTCYGGCCTGGTTTCCTCAGGAAAAGCCCTGAGAGGAAGCAGKGAGGGGGTTGGGAGCTGTGGGGGCCAGACGAACCC
GAGCGCTCCCACCGAGCTGCCTGCCATGGGGCTGGGGCTGCTGCTCCCGCTGCTGCTGCTCTGGACTCGGGGGACTCAGGGGTCCGAGCTGGACCCCAAA
GGGCAGCACGTCTGTGTGGCCAGCAGGTGGGTCTCGTGGGAGTCTGATGCGTGTGGCCAGCAGGTGGGTCTCGTGGGAGTCTGATGCGGGTGGCTGAACC
GGTGTTGAGGCCGTTAGGGGAAGGAGGAGACTAGGAAGGGGGCTTAGGCTGAAAGGAAGGGACTGCTGATGGCGGTCTGGCAGGTAGTGGCCAGCCAGGG
CAGATGGTGGAAGGGTCAGGGAAGGAGAGGGGAGGGGCTGGGGACCCTAGCTGTAAAGATCCATTAGGCCTCCCCAGGGGGCTAAGGCAGCCTCCCCCAC
TGCAGCCAGAGACAGTGATCCACCTTCCTCAGGGCCAGGCTGCACCCCCCACCATGTCCGGCTGACCCCTTTTTGCCCCACAGCCCCTCTGCTGAGCTGC
AGTGCTGCGCAGGCTGGAGGCAGAAGGATCAAGAATGCACCATCCGTGAGTAGCCAGGACAGACCCTCAGCCAAGGAGAAGGGAGGCCGTAGCCCAGTGA
CAACCCTTCCTTCCTACCCCATGGGGCCTGCCCCTCCTGAWACCAGGAGTCAGGGTTTCTCCTGTGACGCACYCCCAGGCCTGAAGGGGCACCTCTTGAG
GAGGCATGGCCCCTGGAGCCAGTGAGAGGGCAGGGGTGTCCCCTGGTCCTGCTCCCGTCTTTCCAACCTGGGTGGGGTGTCTTTCAGCCATCTGTGAGGG
GCCGGACGCCTGCCAGAAAGACGAGGTGTGTGTGAAGCCGGGCCTCTGTCGATGCAAGCCTGGATTCTTTGGGGCCCACTGCAGCTCCCGTGAGTCTCAA
GGGCCAGATGAAGTTGCTGGGCAGAGCTGGGTACGGGGGCAGTGGTGTGGGAGCAGGCGAGGCAGGTAGCCATGCAGCCTCAGGACAGCAGGGCCAGAAT
CCCCCCCAGCTTCACTGAGGAATTGCGGTCCAGAGACAGGAAGTGACACACACTCCCGGGAGATGACCTGAGTCACCGGGTTTTTACCCACATCCACAAA
GCACTGCCCACCTGAGCATCTTCCTCTTCCACTTCTCAGAAAACCTGTGATTCCCCTTCATTGTAAAATGAGTGTATTACTTGCCTTTCCCACATATACC
TTATACATGGGCAGTGGATGGAAGGGGGCCCCTGGCTGGGCTCTCTGCCCTCTCTGGCAGAAAGAGAGGGAAGGGAAAGGGGTTGGGAAGCAGGAGAGCC
AGAGGGTGGGCATCAGGAATCAAGGAATCACTAGGGGAAAGGTGGCTTCTCCCGACACCCTGGCGGGCAGTATCCAGGCCTGAGATCAGGAGAAAGCCAG
CTCTCCTCCAGCCCAGCAGAGATCCATCTCGGCAGGGAGGAGCAGGCATGGAGGAAGGCCCACCAACCTCGGTGCCACGCTCTGGGCAAGTCCCCTGCCC
ACTCAGGATCTCTGAGTGTGTTCTGGAATGTGAAGTGGCAGGCTGAGCCTCCCACTAATGGCTAAGGGTTTTCTGTAGGTCAGAGCGGAGCAGGAAGTGA
GTGTTGCCCAGGACAGGCTGCCGGATGTTCTGAGGGTCTGTCCCCGGCTCTTGGAGGATGGGCCCAGCGCCCCTTTTCCTTGAGGAAGGGGACGCAGGGT
AAGGGTCTGCGCGCGGCCCTGAGCCCGCTGACCCCTCCCGTCCCCACCCCCGCAGGCTGCCCGGGCCAGTACTGGGGCCCCGACTGCCGTGAGAGCTGCC
CCTGCCACCCGCACGGCCAGTGCGAGCCAGCCACGGGCGCGTGCCAGTGCCAGGCCGACCGCTGGGGAGCCCGCTGCGAGTTCCCGTGCGCCTGCGGCCC
CCACGGGCGCTGCGACCCCGCGACCGGCGTGTGCCACTGCGAACCCGGCTGGTGGTCGTCCACGTGCCGCCGCCCGTGCCAGTGCAACACCGCGGCGGCG
CGCTGCGAGCAGGCCACGGGCGCCTGCGTGTGCAAGCCGGGCTGGTGGGGGCGCCGCTGCAGCTTCCGCTGCAACTGCCACGGCTCCCCGTGCGAGCAGG
ACTCCGGCCGCTGCGCCTGCCGGCCGGGCTGGTGGGGTCCCGAATGCCAGCAGCAGTGCGAGTGTGTGCGGGGCCGCTGCAGCGCCGCCTCCGGCGAGTG
CACCTGCCCGCCCGGCTTCCGCGGAGCGCGCTGCGAGCTGCCCTGCCCGGCAGGCAGCCACGGGGTGCAGTGCGCACACAGGTGAGCGGGCGGGGCGGGG
ACAGGTGGGCTGGCGGGGCGGGGGCGGACACAAGTGAGCAGGCGGGGCGGGGCGGAGACAGGGGGGCGGGGCGGAGACAGGGGGCGGGGCGAAGACAGGT
GGGCGGGGCGGACACCGGTGGGCGGGGCGGACACCGGTGGGCGGGGCGGGCACCGGTGGGCGGGGCGGACACCGGTGGGCGGGGAGGGGGGCCGGGGTGG
AAACTGGTGAGCGGGCAGGGTGGGGGCGGGGCGGGCACAGGTGAGCGGTCGGGGGAGGGGGCGGAGGCGGACACAGGTGAGCGAGGCTGCGCGGAGACCT
GTGAGCGGGCGGGGCGGAGCGGAGACAGGTGGCCGCGGCGGGGCGCCGGGAGGAGGGGTCAGGGCTTCGCGGTGCTCCTCTCAAAAAACATACAAAGCAG
AGGAACGAGAAAGGGGAAAAGTCGGATAGGTGGGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGCATCACCTGAGGTCAGGAG
TTCGAGACCATCCTGGCCAACATGCTGAAACCTCGTCTCTACTAAAAACACAAAAATTAGCCGGGCTGCGCCTGTAGTCCCAGGTATTCGGTAGGCTGAG
ACAGGAGAATCGCTTGAGCCCTGGAGGCGGAGGTTGCAGTGAGCCGAGGTCGCACCACTGCACTCCAGCCTGGGCCAGAGAGCAAGACTCCGTCTCAAAC
AAAACAAAACAAAAACTTTTAAAAACGCTTTGTTGCCCCAGGTCCAGCCTCACCTGCTCATTTCATTGATTACTGCTGTGCAAAATATACTAGCACTGCT
AGCAAGCCATATGTAGGTAATAAGTGGATCGAGTCCAACAATGATAGACTGGGTTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATA
AAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGAAGAAATTGGAAATCATCATTCTCAGTAAACTATCGCGAGAACAAAAAACCAAACACCGCATAT
TCTCACTCATAGGTGGGAGTTGAACAATGGAATCACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAGGGGGGAGGG
ATAGCATTGGCAGATATACTTAATGCTAGATGACGAGCTAGTGGGTGCAGCACACCAACATGGCACATGTATACGTATGTAACTAACCTGCACAATGTGC
ACATGTACCCTAAAACTTAAAGTATAATAATAAAAAAATATATATAAATATATTTAAAAAAAGAAAATTAAAAAAATGGTTTCTTACAAAAAAAATAATA
AATAAGTGGATCGAGTGACCAAGGGTCCTGAGCAAGGTCCCTTTAGGGCTCAGTGGCTTTCAAACTTTGACTGGCTGCACTCACAGTAAGAAATTTCATC
CCTGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCTAA
CATGGTGAAACCTCGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGTTGGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATC
ACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGCGCCACTGCACGCCAGCCTGGGCGACAGAGTGAGACTCAGTCTTGAAGAAAATAATAAT
AAAATAAAATAAGAAATAAAAATGCTGGTCAGGATCAGCTAAATGGCTTTTATAAACTGCCCTTCTTCTCCCCTACTAATGGGTCTGACCCAAGTATATG
ATCCCAGCTAGTTAAGCATCTGAGGGAGAAACTTCAGGTAACTATTAGGCATCAATGGGAAATTAAGATATGGCAAATGTGAAATTATATTGGTGACAAC
AGTGGTCTCCAACCTTTTGGCACCAGGGACTGGTTTCATGGCAGACAATTTTTCTATTATTACACTGTAATCTATAATGAAATAATAATATGACTCACCA
TAATATAGAATCAGTGGGAGCCCTGAGCTTGCTTTCCCGCAGCTCGAGGGTCCCATCTGGGGGTGATGGGAGACAGTGACAGATCATCAGGCATTAGATC
CTCGTAAAGAGCATGGAACCTGGACCCTCCCGTGCGCAGTTCACAATAGGACTGGCGCTCCTATGAGAATCTGAGGCCACCACTGATCTGGCTGGCAGCG
GAGCTCAGGCGGTCAGGCTCCCCTGCTGGTCATCTCTACGCTGTCGCCCAGTTCCTAACATGCCACGGACTAGTACCAGTCCATGGCCCAGGGTTTGAGG
ACCCCTGGGTGAAAACACTTTACATTTTTTGCATTTCGTGTGATGGGGTAGAAGACACTACTGAGTCCCATTCATGCCAGACCTGGGGACGGCTCAGTGT
GGAAAAAGGAAAAGTGAAAAGAGCAGGAGGGAAGGCCTGGCAGACCTCGCAAATGGGACTCAGAGCTTGGTGGTGACTCGCCTGCCCTGGCTGGGCTGCT
GGCTCCTGATGGTCCTGGGACCCAGGGAAAGACGGTCACAGAGCAGATGCCTGGAAGGAAAGGGATGGGATCCTGTAAGAGCCCTCATTTGTCCTCATTG
TACAACGTGGGGAAACTGAGGCTCAAACCTGCCTGACCCAGGTGGGACCCGAACACTCTCCAGGGCCCCCGAAGGCCTGCGTGGAGTACAGGGGTAGGAG
GGGGTGGGCGCTCCATCCATCCACCCCCACTGTTCCCACGAAGCCCTTCTCTTCCCAGCTGTGGCCGCTGCAAACACAATGAGCCGTGCTCTCCAGACAC
AGGCAGCTGTGAGTCCTGCGAGCCGGGCTGGAACGGGACCCAGTGCCAGCAGCCCTGCCTGCCTGGCACCTTTGGCRAGAGCTGCGAACAGCAGTGCCCT
CACTGCCGACATGGGGAGGCCTGTGAGCCAGATACTGGCCACTGTCAGCGCTGTGACCCTGGCTGGCTGGGGCCCAGGTGAGGGCACCATTCTGTTCAGG
GTGGGGTACACCTTCCCCCAGGACCCTCAGCTCAGCGGCTCTCTCCGAGAGCACCACCCTCCCCGACACACAGGTTCATGCGGCCCCAGGGGCCTCCCTC
CTGTTGAAGACTGGGGGAGAGCAGTGGGTTCTGGGGGGGCCTGGGCAGGATCCCAGCTCCCTCCCCTCTGAGGCTTCCTGCCCTCCTCGCCCTCTGGGGA
CTTGTAGTCTGTCACCTGCTGGATTTGGCCCCAAGTTCAAGGCCCTATTTGCACCTGAGCTTCACTGCTGAGGAGTGGCCAGTTGGGTCCTTGAGTCCAG
GAGCGTGGGGCGGAGGGGTGGGGCCCCACAGTGGGGGCCAGGCCTGCCTTGGTCTCCCCTTCCCCGAGTCTTGCCTCACCCCAGGTGTGAAGACCCCTGC
CCCACTGGTACCTTTGGGGAAGACTGTGGCTCTACCTGCCCCACCTGTGTTCAGGGGTCCTGTGATACTGTGACAGGGGACTGTGTCTGCAGTGCCGGCT
ACTGGGGGCCCAGGTAAGGATGGGGATCCCGGGGGCRGGAGAGTGCCAGGGGCCTAGGTCAGGGCTCTGTGCAGCATTTCCTGAACTTCCCTGGACAGTG
CCCAGAAATCTCCCTGCCCGTCTCCTGCCTGCCTCCCCCACTTCACCCAGCCCTCAGCCTGCCTCTCCATGTCACTCCATAGCTGCAACGCCTCCTGCCC
AGCCGGTTTCCATGGAAACAACTGCTCAGTTCCTTGTGAATGCCCAGAGGGACTCTGCCACCCTGTCTCTGGGTCCTGCCAGCCAGGTAAGGTGGAAGAA
GGCTGCGGGGTGCAGTAGCCAGGGAAAGGCGGGCCCTTCACATGGGCTCCAGGGCAAGTTCCTCACCAGGGAGTCTGGGCCCACTTCAGAGATATTCTTT
TTTTTTTTTTTTTTTCCCTTAAGACGAGGTCTTGCTCTGTCACCCAGGCCAGAGTGCAGTGGTGTGATGTCAGCTCACTGCAACCTCCACCTCCCAGGTT
CAAGCCATTCTCCCATCTCAGCCTCTCGAGTAGCTGGGATTACAGGCGCACGCCTCCATGCCTGGCTAATTTTTATATTTTAGTAGAGACAGGGTTTCAC
CATGTTGGCCAGGCTGGTCTCAAGCTCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCCACTGTGCCCGGC
CCAGAGACATTCTTTATACCTGAGCTCTGTGTGGATGCTCTGGGGCCCCCTGAAGATGTGACAGAGCCCCCGCCCCTGCGAAACCAGGCTAGAGCCGTGA
AATGGGCAGCGGGGTGGCTGGACACTGACATGGCCTCAGGGGCAAGAACCTGTGGAGGGGACACGCCAGCAGAGGGGCTGCCCGGAGGCAGGGAGTGACC
CCCAGGAAGAAGCTTCTGGGTAGCAGGCAACTCAGAGCAAAGACAGGATGTGTAGGAGACAGGAAGGCCTGAATATCCCCCGTTTCTGGCTCCCCCAGGC
TCTGGCAGTCGGGACACTGCCCTCATCGYGGGCAGCCTTGTGCCTCTGCTGCTGCTCTTCCTGGGYCTTGCCTGCTGTGCCTGCTGCTGCTGGGCCCCCC
GATCAGACCTCAAGGACAGGTGAACGCCAGCCCGTCCCTTCCCCACACAGCTCAGGCCACAGGGTGGGAGCAGGGGGGCATCTGGTTTCCTTGTGGGGTG
GGGAGGGCTGGCCTTGTTGCCCACGTGGGTCAGAGGTGATGGGGGTGGGGAGGGCTGGCCTTGTCGCCCCCGTGGGTCAGAGGTGATGGGGGTGGGGAGG
GCTGGCCTTGTCGCCCACGTAGGTCAGAGGTGATGGAGGTAGTTGGCAGTGCCCGTGGCCTGGAGACACTGGAGACACCGGGTCAGCTGCCTGCCCTCCT
CGGAAGCCTTCAATGAGGAAGTTTCTGAGTTGCATGGGCACCAGGCTGGCGAACCGGAGCCTGCAGCGGGAGGCAGAAAGCTGACACCGGCGGGGACCAG
AGGAGGAGGGCTGGGACCACGGAAGGAGCAGCCCGGCTCTGGGCCAGGAGGGAAAGAGACCAGGCCTCAGATGGCCCACGAAGGAAAGAGACATCAATGT
CTGTGCAGTGGTTTAGCAGAGAGTGTAGCTGCCTGAGAGACGGAGAGGGGAGGAAGGGTTGGGCTGGTGGGGCCCGCGCAGGGGGCTTACGCAGAGCTTT
GTTCCTTTATGAAACCTCGTCACATTCCAGGCTCCTTTGAGACTCACAGCAGCGTGGAGGTTTGGAACAGGGAGTGTGGGGCCGGGAGGATAAATGTCCT
CAATTCCCAGAGGACATTGAGGCCCAAGGTGATCTAGTTGGTACTGGCACACAGGAAGCCCCTCTCCACCTTTTTGGACTCTTTGTCTGGTGCTCTCTTA
CTAGTTCCTGCCCTAGTCCAATAGCACATCCTCCTCTGTGCTTGTGCGGCATTCACAGAGGAGCAGATACAGTTGCCCCTGGCCCAGGGCATAGAGCCCA
GGGTGGGAAGAAGCCCCTCGCAGGGACACGAGGACAGGTGCAAAGGCTGTTGGAGGAACAGTGAAGAGCAGAGCAGTCTCCTCCACATGTGGGGGTAGAG
CAGAGTGGGAACAAGGGAAGGCTTCCTGGAGGGGGTGTCATTTGAGACAGGTGSGCCGGGCGCAGTGACTCACGCCTGTAATCCCAGCACTTTGGGAGGC
CRAGGTGAGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGGTGTGGT
GGTGCACGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAATCCAGGAGGCGAAGGTTGCGGTGAGCCAAGATCGTACCACTGCA
CTCCAGCCTGGGCAACAAAAGCGAGACTCTGTCCCAAAAATAGAGAGAGAGAGAGAGAGAGAAACGTGAGCTGAGGCTCAGCTAGGATGATAATAACAAA
GACCTGCCAGGTCCTGCAAAAAGCTCAGATAGATGATAGATAGATGGDTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGGATCT
GTTTTACAGATGCGGAAACTGAGGCCTAGGGAGGTGAAGTGTGAACCAGAGTTGTTACTCRGCTGTCTGACTCTAGAGCCACTCTTTGTTCTGTGGCAGG
CCTGAATTGTGGGCTCAATCATTTGGATTTTATTCTGTAGTCAATAGAGAGCCACTGAAGCCACTGAAGTAGAGGCAGTCACCCTGTCACACCCTGCCAA
GGTGACCCAGGTCACCGTGGGTCTCATGTAYTGACCARTGTCCCTACCCTCCTCCCTCAGGCCAGCGAGAGATGGAGCTACCGTGTCCAGGATGAAGCTG
CAGGTCTGGGGGACACTGACCAGCTTGGGCTCCACGCTGCCCTGCCGTTCCCTCAGCTCCCACAAGCTACCCTGGGTGACAGGTCAGTGGGCGCTGGGGG
CCGGGGTCTGGGATTGGACAGGGCTTTGCATCAGGTYCTGCAGGCGCYTGATCTGGAGTCTCTACAGTCTCACATCACGACCCGGAGGTCCCCTTCAACC
ACAGCTTCATYGAGCCGCCCTCTGCCGGCTGGGCCACTGATGACTCCTTCTCATCCGATCCTGAGTCTGGAGAGGCAGATGAGGTTCCTRCCTACTGTGT
GCCACCCCAAGAAGGTAGCCCCCCAACAGCCCACATAGCCCCTGAGCAGCCCTGCCCACCACGACCCCCTCTTTAGTCCTCCAGCAAAGTTATTTATTTT
TATTTTTTTTTGAGACTGGGTCTTGCTCTGTCGCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTC
CCCTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGCGTGCACCACCACACACGGCTAATTTTTATATTTTAGTAGAGACCGGGTTTCACCGTGTTAGCC
AGGATCGTGATCCACCCGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCCACTGCGCCYGGCCAGCAAACAGTTATTAAGGGCCCATTTTGTG
TTAGTCACTGTTCTTGGCTCCGGGCATGCAAGAGATAACAAGACAGATTCCTATCCTCACCAGGCTTAGAGTCAGAYGGGCAGTCATCAGACAATGACAG
GACACAGTGATATGTGTTTCCATGGGGGACATACAAGTAGGGACTCATTTGCTAGCCATGTTGGGGTGACTGGGGTCAGGGACGATGTGTGTGGCATCCC
AGTCGAGTCTAGCAGAATCAGTAGGAGTTGGCCAAGTGAAAGTCAGGGAGAGGAGGGAATGGTGTTTCAGGAAGATGGAACAGCATACACAAAGGCCCAG
AGGTGAGAGGGATGTGGCTGTGTGCCATYGAAAGAGTTTTAGCTTGGTAAGAGTGTGACAGTATTTCAAAGTAGGGAGAGGTGGTGAGAAAAGAGTATAG
AGACCAGGTGTGGTGACTCACACCTGTGATCCCAGCACTTTGGGAGGCTGAGGCGGGAGGACTGCTTGAGGCCAGGGGTTTGATACCAGCCTGGCCAACA
TAGTGAGACCCCATCTCTACAATTAAAAAAAAAAAAAAAAGAGTGTAGAAGTAACAGTGTCTACCTGAATTGGTCCTTCTGCCACTCTCCTCATCCTTGC
CCTCTTCCTTGCCCTATTTTTGAGGCCTCCTGGAAGATGCTGAGCTGTGGGTAGGATGCATTGGGGTGGCCAGTTCAGCTCCAGCCAAGCTCTTCTGTCT
CCTCTGCCAGGGATGGTCCCTGTGGCCCAGGCAGGGTCGTCAGAGGCCAGCCTGGCTGCAGGTGCTTTCCYGCCCCCTGAGGACGCCTCCACGCCATTCG
CCATCCCGCGCACCTCCAGCCTAGCTCGGGCCAAGCGGCCATCGGTCTCCTTCGCRGAAGGTACCAAGTTTGCACCACAGAGTCGCCGAAGCTCAGGGGA
GCTCTCCMGCCCGCTCCGAAAGCCCAAGARGCTCTCCCGGGGGGCGCAGTCGRGTCCTGAGGGCCGGGAAGCCGAAGAGTCCACAGGCCCAGASGAAGCA
GAAGCCCCCGAGTCCTTTCCGGCGGCTGCCAGTCCCGGGGATTCAGCCACTGGCCACCGGYGGCCCCCACTTGGTRGCCGGACAGTGGCTGAGCACGTGG
AAGCCATTGAGGGCAGCGTCCAGGAGAGCTCGGGCCCTGTGACCACGATCTACATGCTGGCAGGGAAGCCCCGCGGATCCGAAGGCCCTGTCCGCTCTGT
CTTCCGCCATTTTGGTAGCTTCCAGAAAGGCCAGGCGGAAGCCAAGGTCAAGAGGGCCATCCCTAAGCCTCCGCGCCAGGCCCTGAATCGGAAAAAGGGC
AGCCCTGGCCTTGCCTCTGKCTCTGTCGGCCAGAGCCCCAACTCAGCCCCAAAAGCTGGGCTTCCTGGGGCCACAGGGCCTATGGCAGTCAGACCAGAGG
AAGCGGTCCGGGGGCTGGGGGCTGGCACCGAGAGTTCAAGGAGAGCCCAGGAGCCAGTCTCTGGCTGTGGCTCCCCAGAACAGGATCCCCAGAAGCAGGC
TGAAGAGGAAARGCAGGAGGAACCTGAGTATGAGAATGTTGTACCCATCTCCAGGCCACCAGAACCCTGATGACCTTGAATTTGGGGAGTGGGGAGAGTG
GATGGACTAGACTGTGCTGTGTGCTGGAAAATGATCCCGGGGCCAGGACAGACAAACCAGAGCCTCTGCGCCTCCACAGGGAAAAGGCAAGGCTTCCAGG
CCAGTTGGCCCAGGCCCCTGGCAGTGCTCCCGGAGGGGCCCAGGAAGGCCTGGGCAGAGACCCTGTAGGATGGGGTCAGGAAGGGTTGCCTGCAGGGACT
TTTGCTCTGCTGTCCTGGACCCTGTGTGCCTCATAAGGGCTATTCTTTCTTTCACGTGCAAAACATTTTTCTGAAATAGCAAACAACCTACATGTTTGCT
GATAAAAGATTGGCTAAACAAAWTTTTTTTTTTTTTTTTGAGACAGAATCTCCCTCTGTCCCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGC
AAGCTCTGCCTCCCGGGTTCACGCCCTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCTCCACCACGCTTGGCTAATTTTTTTGTATA
TTTAATAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATGACAGG
CATGAGCCACCACGCCTGGTCTATGAACTTTTTAAAAAGGATGTATGTGTATAAAAACAGATTCAAGGGAAAGGCACTAAATGGTTTTTTCCTCTGGAAG
ATGAGATTGTAGGTGATATTTATTTTCTTCTGAAACTTTTGTATAGTTTGCAAATTTTCTACAGTGAACATTCTTTTTTACTTTTGTTACTAGATTGAAT
TTGATAAAGTATAATAAAAAGCAATGATCTTTGTTAAAAAAATAAAAAGTACTAACATTACAGACATGTATAAAGTAAAACGGAGATTTCCTTTCTCCCC
AGAGGCGTCTGTGGGTCAAGAGAGAGGTAGAATCTACTTTTCCCTGGCAGCTTTTTGGTCTTGTTTGAATTCTTTGCTCACATATTACCTAGTCAGAAAA
GAAAAGGGGCAACCCTCCCCCCGAGCTTTATTTTTTTTTTTTTAAGATGGAGTCTCAGTCTGTCACCCAGGCCGGAGTGCAGTGGTATGATCTCGGCTCA
CTGCCACCTCTGTCTCCCCGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTGGCTGGGATTACAAGCGCCCGCCACCATGCCCGGCTAATTTTTGTA
TTTTTTGGTGGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCCAAACTCAAGGGCTCCACAGCTTCGGCCTCCCAGAGTGTTGGGATTA
TAGGCATGAGCCACCGCGCCCGGCCAGGGGCAGCCCCTTCTATCTCAGTGCTCAGAGAGTCTCATCAACAGTTGAGGTGCTTTCTTTCAGATGTTTTTCT
GTGTACATGTCAACAAATATTTTAAACAAAAAATTTTAGCATACTAAGCATACTGTTCCTCAGCTTCTTTTTTTTTTTTTTTTTTTCTTTTTGAGACGAA
GTTTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTG
AGTAGCTGCAATTACAGGTGTGTGCCACCACACCCAGCTAATTTTTGTATTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGTTCTCGAACTCCTG
ACCCGCCTCGGTCTCCCGAAGTGCTGGGATTACAAGCGTGAGCCACCGCGGCCAGCCTCAACTTGCTTTTTTACTTAACGACATATCCTGGATATAGTTC
AATGTCCATAAATGTAAAGCTAACTCTCTTTATTTAAAAAATGACTACATGAGATTCCATCTAGCACAATTATTTAAATCATTCCCCCGCCAATGGAAGG
TTGGGTTGTTCTGATCTGTTTTGATACAATAAGCAATGACATAGTATACAACTTTGTCCATATTTATTTATTTATTTATTTTTTGAGATGGAGTTTCACT
CTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCAGCTCACTGCAACCTCGGCCTCCTAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCGAGTAGCC
GGGACTACAGGCGCATGCCACCACGTGCAGCTAATTTTTTTGCATTTTTAGTAGAGATGGAGTTTTGCCATGTTGGCCAGGTTGCTCTCGAACTCCTGAC
CTCAGAAGATCTTCCCACCTTGGCCTCCTAAAGTGCCGAGATTACAGGTGTGAGCCACTGTGCCCAGCCACTAAAGCTTCTAAAAAGTATATATAATTTT
TGTGTGTGTGTTTAGCCATCAACAATTATATCTCATTACAATTTAAAGTTCTATGAGTATTCTAAGGTTGTTTCTTTTCCGTCTTGGCTCACTGCAACCT
CCGCCTCCCAGGTTCAAGCCATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGAATTACAGGCGCCCACCACCATGCCCAGCTAATTTTTGTACTTTTTGTA
GAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTCCAGGTGTGA
GCCACCGCACCTGGCCATTTGCCCCTTTTCAGGAGTTCATGTTTTCATTCCACAAACTCATATTGTGCAACTGCTTTGTGCTTGCTTCTCTATCAAGGGC
TGGTCATACAAAGTTGAATAAGACACCGTCCTGCCCCCAAAGAGTTCATAGTCAATTAGAGAGGAAGGCAAACAGACGAATAGCTAATTATAAAACAATG
CCAGCAGTGGACAAATAAAGTGAACAGTATTAATGGGGAGTGGTTAGGGAAGGCTTCCCAGCGGAGGTGCTGTCCAAAATGAGGCTATGTCGCGAGCTAG
AGGAGAGAGAACAGCAGGTGCAGAAACCACAGGCAATTCCATGTGACTGGAGCATCGGGGACCAGGCAGGTCAGATGTCCTTCAGAGGGAGGGAGAGGGA
GGAGCCTGTGTGGGTCAAATTGGGGAACTGGAACTTTTAAATTTTGTTTATTTTTTTGAGACGGAGTCTCGCTTTGTTGCCCAGGCTGGAGTACAGTGGC
ACAATCTCTGCTCACCGCAACCTCTGCCTCCCCAGCTCAAGCAATTCTCCTGCCTCAGCCTCCCAGGTAGCTGGGATTACAGGCGTGTGCCACATCACCC
AGATCTTTTTTTTTTTTTTTTCTTTTCAGACAAAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTTCAACTTCCGCCTC
CCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAGTAGCCGGGATTACAGGTGTGCGCCACCACACCCAGCTAATTTTTTGTTTCTTTAGTAGAGACA
GGGTTTCACCATCTTGGCCAGACTGGTATCGTACTCCTGATCTTGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGC
GCCCAGCCATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTTAACTCCTGACCTCAAGTGATCTGCCCGCCTCAGCCTC
CCGAAGTGCTGGTATTACAGGTGTGAGCCACCGTGCCCAGCCAGGAACTGGAACTTTATCCTGTTTTACAAATAATAGTTTCTGAAGGATTTTGGCAGAA
GTCACATTTACATTTCCCTTAGTGCCCTGGGATGAGATGGGGGCTGGATTTGAGGAACTGAAATCTGAAGGTGGCTCAACAACAGTAGTTGCGGGCCTAA
GGGCACAGATGGACCGATTAGGTAAATATGTAGGAGATACAGCTGTATCAGTTTGATGGGGATGCGGTGAGGGAGAGGCAGAATCACAGCGACTGCCTAA
CAAATGTCTGATGAAAGGATGGTTCTCAGCAGGGCACTGTGAGTCATGCCTGTAATCCCTGCACTTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCA
AGACTTCAAGACCAGCCTGGGCAACAGGGCAAGACCCTATCTGTACAAAAAATACAAAAATTAGCCAAGTGTGGTAGCATGCACCTGTGGTCCCAGCTAC
TTGGGAGGCTGAGGCAGGAGGATCACCTAAGCCCAGGAGGTCGAGGCTGCAGTGAGCTATGATCATGCCACCACACTCCAGCAGTCTGGGTGCCTGAGAT
CCTGTCTCAAAAAAAAAAAAAAAAGAAAAAGAAAAAGAAAAAAGACAGGGTTCTTGGTATCTAACTTCAGTAGACAGTAGTAGTATGGTTATCTGAGAGA
AAATGTGGAGGACAGTTCTGGGGGATATTTGAGGCATGTTTGAGCCCTGCAGCGCCGTCAGGCTGCTCAAAGAGGAGGGAAGGGTGAAGAAAGAGATTTT
TCAGATGGCAGTTGAAACCTTGGGAGTGGGAAGGGTTCCACAGGGTGAGGAACCGGGTAGGCTACCAGCTGGAGCCGCCCCCCAGCAGGCTGACAGCTCC
AAGCGTTGTCTGGGGGAGGTTGCCCTCGCCAGGTGGCCCGGGCGGATTCTAGACAGTAGGGGGCACACTCGGACTGGGGCAGGTGGAGCAAGAGGCGTTT
GGGGCTCCCACAGCCCTGGGGTGGTGGTGGGGTTTTATTTTTGGTTTTTATTTTGGTAGAGATGGTTCTCGCCATGCTGCCCAGGCTGGTCTCAAACTCC
TGTCCCCAAGTGGCCCTCCGACCTTAGCCTCCCAAACCGCTGGGATTCCAGACGTGGACACCGCGCGGCAGCCCTGGGGTGCTAAGCCAGCCCCCCGGAG
CGAGCCAGGGTGACCAAGGCGATTCTGGGGCAGTCAGAGGGTCTTCCCGGGTCGGGTTAGTGCCTCGAATCCGGGGGACGAAGACGGGGAGCTGAGCTTT
CGGAGCCCGGGCTTATCAGACGGGGACCCGGAGCCCCCTCGAACCCTCCCTAGCTTGTACCAGCTGGCGGACGTGGCCCGTAGCATCGCCCTGCAGAGGG
GACCTTCCCTGAAAGGGACGGGGAACGGGGTGAAGGTGGCCAGCGCGGGCAGGGAGCACCCAGATGACGATCAAGGGTGGAGGGTCCCCGGAGGACCGAG
CAGTGCGTGAACACGGGCGGAGAAAGGTCAGTCTGATGGGGGGAGCTCAGGAGACCCCATCCTAGGACGGGACAGACCAGCCCCAAATCCCCTTGCAGAT
TTCCAAGGGCCAACTTCCAGGGACCGGGCAGACGCCACCGGGGAGAGGGGAAGGGGTCGGTGCATCAGCGGGGGGCGCCACGGCTGGACCGGGTCCGGGA
TCCCAGGCCCCGAATACGCCGGGACGGGAACCACCGGGGCGGGGGAGCGAGGAACCAGGACCCAAAGCCCGAGGCGGCGGGGACGGCGGCGCTGCGTGGG
GAGGAGGCGGGGTGGGGATTCGAGAGTGGAACCACCGTGCGGAGCCGGCGCATCTGGGCGTGGTGACCCGCGCGCAGGGGGCAGCTGGGGACGGCGGGGC
GGCCGCGGGAGAGCCCGGCTGGGGGCGCTGGTGGCCCGGCGGCTTCTGGGGGGAGTCCGCTGGGGGCCGGGACGCGGAGCCGGAGCCCCAGCCTCGCAGG
GTCAGGCCGCTGGAGAGGCCGCGGGGCGATGTCGCCGGGGATTCCCGGCCGCGCTGTGACTCGGGTTGAAGGCTGCAAAGCCGAGGCCCGGCCCGCAGCG
CCCAGGCCCCTCCCGTCCCCCATCTCTCTTGTTTGTCTCCGAGTCCGGCCGGAACCGGCTTCTGCTCGCGGCGGGGCGGGCGGGGGGCTGGCTGCTGATT
GGTCGACGCCTGTTTCCAGCCCCGCTCAGCCAATCAGCGGGCGGCAGTGTTTTCTTCTTGGGGTCGGAATAAAAGGGCTGGAATAAAAGAGGGCAGAAAA
GGCGCCGGGCGGGCCCGACACACGCCGGAGGAGCCGGGTGAGCTGCAGCAGGGAGGGGATCGCGGCCGGGGCGAGGGCGCGGGGGCAGAAGCGGCCGCCG
AAGGGGCGTAGGGAGAAAACGTGGGAACAAGAGGAGAGAGATGGAGCGATGAGRGGCCGCCAGGGAAGAGATGACGAACAGATGCGGGCTGGGGAATGGA
GGCGCGGGGGTCCGAGGCCATGGAAACGGGCGAGTTGCCGGGGGAACGCCCGAGATGGGGGTCGCGCGGCTGGCTCGCGCCRCCGGTTTGAACCGGCTCC
TCGTCTCCCACGCTGGGTTCGCGTGGCCGCAGCGCCTAGCGACCTAGACGGCGGCCAATGGCGCGGCAGTTCCTGCGCCGTCCGGCCAATGAGCGCGCCG
GGGCGGGCCGTTCCGTAGGTCTGGGCGCTGATCTTGTGGTTGAAGAAACCAGCTCTGGGGAAGGGTCTCGGGCGCGGGCGGGAGGGCACCTGTCAGGGTC
CCTGGGAGAGGCAGCCCTCGGATCTGCCCCTGCCCACCTCACGCTGCGTTCCATGCTGGCCCCAGGCGATGTCAGTCCTGCTGCAGGCCAGGACTAGTTC
CACGGCCCTGAGCATGCGTTAGCCCCTTCTTGCCTCCATGCCTCAGTTTACCTCGGAGTGAGCTGCGGGAGACGTCTCCCTGCCTGGCCGGGGCGGCTCT
GTCGTAGCGGAGGGCAGCGGTACGAGCCGGCCGCGGGCTCGGGGTGTCCCAGGTCCGGGCAGGGCTGGGGTTCGCTTCCTCTGCTGCGCGCACCGGCCGC
CGCGGCCGGGGAGGGGTGGCAATCCCGAGCCCTGCGGCAGCGGTCGGGGCTGCTGGGGGCGGCCGCAGGGGCTGGGCAAGGGCCGGCCGCTGACGCCGAG
TTCTGTGCGCAGGTGGTGCAGAGCCGGAGCCGGAGCCGGAGCCGCGCCGCGCCGCACCATGGCGCC


SNP Information

Context             (SEQ ID NO:41322):
TGGCCAAGTGAAAGTCAGGGAGAGGAGGGAATGGTGTTTCAGGAAGATGGAACAGCATACACAAAGGCCCAGAGGTGAGAGGGATGTGGCTGTGTGCCAT
Y
GAAAGAGTTTTAGCTTGGTAAGAGTGTGACAGTATTTCAAAGTAGGGAGAGGTGGTGAGAAAAGAGTATAGAGACCAGGTGTGGTGACTCACACCTGTGA
Celera SNP ID:            hCV1247307
SNP Position Genomic:     15729
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41323):
CAGTTATTAAGGGCCCATTTTGTGTTAGTCACTGTTCTTGGCTCCGGGCATGCAAGAGATAACAAGACAGATTCCTATCCTCACCAGGCTTAGAGTCAGA
Y
GGGCAGTCATCAGACAATGACAGGACACAGTGATATGTGTTTCCATGGGGGACATACAAGTAGGGACTCATTTGCTAGCCATGTTGGGGTGACTGGGGTC
Celera SNP ID:            hCV1247308
SNP Position Genomic:     15477
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,8)   total(C,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41324):
TATTTTAGTAGAGACCGGGTTTCACCGTGTTAGCCAGGATCGTGATCCACCCGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCCACTGCGCC
Y
GGCCAGCAAACAGTTATTAAGGGCCCATTTTGTGTTAGTCACTGTTCTTGGCTCCGGGCATGCAAGAGATAACAAGACAGATTCCTATCCTCACCAGGCT
Celera SNP ID:            hCV1247309
SNP Position Genomic:     15366
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,7)   total(C,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41325):
GCGCACCTCCAGCCTAGCTCGGGCCAAGCGGCCATCGGTCTCCTTCGCGGAAGGTACCAAGTTTGCACCACAGAGTCGCCGAAGCTCAGGGGAGCTCTCC
M
GCCCGCTCCGAAAGCCCAAGAGGCTCTCCCGGGGGGCGCAGTCGGGTCCTGAGGGCCGGGAAGCCGAAGAGTCCACAGGCCCAGACGAAGCAGAAGCCCC
Celera SNP ID:            hCV25981629
SNP Position Genomic:     16308
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,1)   total(A,29|C,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41326):
AGAGAGAGAGAGAGAAACGTGAGCTGAGGCTCAGCTAGGATGATAATAACAAAGACCTGCCAGGTCCTGCAAAAAGCTCAGATAGATGATAGATAGATGG
D
TAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGGATCTGTTTTACAGATGCGGAAACTGAGGCCTAGGGAGGTGAAGTGTGAACCA
Celera SNP ID:            hCV26032844
SNP Position Genomic:     14348
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,4|A,4|-,13)   total(G,4|A,4|-,13|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41327):
GCCAAGCGGCCATCGGTCTCCTTCGCGGAAGGTACCAAGTTTGCACCACAGAGTCGCCGAAGCTCAGGGGAGCTCTCCAGCCCGCTCCGAAAGCCCAAGA
R
GCTCTCCCGGGGGGCGCAGTCGGGTCCTGAGGGCCGGGAAGCCGAAGAGTCCACAGGCCCAGACGAAGCAGAAGCCCCCGAGTCCTTTCCGGCGGCTGCC
Celera SNP ID:            hCV25981646
SNP Position Genomic:     16330
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,26)   total(A,2|G,26)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41328):
AGAGAGAAACGTGAGCTGAGGCTCAGCTAGGATGATAATAACAAAGACCTGCCAGGTCCTGCAAAAAGCTCAGATAGATGATAGATAGATGGATAGATAG
A
TAGATAGATAGATAGATAGATAGATAGATAGATAGATAGGATCTGTTTTACAGATGCGGAAACTGAGGCCTAGGGAGGTGAAGTGTGAACCAGAGTTGTT
Celera SNP ID:            hCV26032845
SNP Position Genomic:     14356
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,15)   total(A,15|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41329):
GGGCCGGGAAGCCGAAGAGTCCACAGGCCCAGACGAAGCAGAAGCCCCCGAGTCCTTTCCGGCGGCTGCCAGTCCCGGGGATTCAGCCACTGGCCACCGG
Y
GGCCCCCACTTGGTAGCCGGACAGTGGCTGAGCACGTGGAAGCCATTGAGGGCAGCGTCCAGGAGAGCTCGGGCCCTGTGACCACGATCTACATGCTGGC
Celera SNP ID:            hCV25981809
SNP Position Genomic:     16461
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   total(C,28|T,2)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,2)   total(C,31|T,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:41330):
GAGAGAAACGTGAGCTGAGGCTCAGCTAGGATGATAATAACAAAGACCTGCCAGGTCCTGCAAAAAGCTCAGATAGATGATAGATAGATGGATAGATAGA
T
AGATAGATAGATAGATAGATAGATAGATAGATAGATAGGATCTGTTTTACAGATGCGGAAACTGAGGCCTAGGGAGGTGAAGTGTGAACCAGAGTTGTTA
Celera SNP ID:            hCV26032846
SNP Position Genomic:     14357
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,15)   total(T,15|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41331):
AGAGAAACGTGAGCTGAGGCTCAGCTAGGATGATAATAACAAAGACCTGCCAGGTCCTGCAAAAAGCTCAGATAGATGATAGATAGATGGATAGATAGAT
A
GATAGATAGATAGATAGATAGATAGATAGATAGATAGGATCTGTTTTACAGATGCGGAAACTGAGGCCTAGGGAGGTGAAGTGTGAACCAGAGTTGTTAC
Celera SNP ID:            hCV26032847
SNP Position Genomic:     14358
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,14)   total(A,14|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41332):
GAGAAACGTGAGCTGAGGCTCAGCTAGGATGATAATAACAAAGACCTGCCAGGTCCTGCAAAAAGCTCAGATAGATGATAGATAGATGGATAGATAGATA
G
ATAGATAGATAGATAGATAGATAGATAGATAGATAGGATCTGTTTTACAGATGCGGAAACTGAGGCCTAGGGAGGTGAAGTGTGAACCAGAGTTGTTACT
Celera SNP ID:            hCV26032848
SNP Position Genomic:     14359
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,14)   total(G,14|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41333):
AGAAACGTGAGCTGAGGCTCAGCTAGGATGATAATAACAAAGACCTGCCAGGTCCTGCAAAAAGCTCAGATAGATGATAGATAGATGGATAGATAGATAG
A
TAGATAGATAGATAGATAGATAGATAGATAGATAGGATCTGTTTTACAGATGCGGAAACTGAGGCCTAGGGAGGTGAAGTGTGAACCAGAGTTGTTACTC
Celera SNP ID:            hCV26032849
SNP Position Genomic:     14360
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,16)   total(A,16|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41334):
TTCCAGAAAGGCCAGGCGGAAGCCAAGGTCAAGAGGGCCATCCCTAAGCCTCCGCGCCAGGCCCTGAATCGGAAAAAGGGCAGCCCTGGCCTTGCCTCTG
K
CTCTGTCGGCCAGAGCCCCAACTCAGCCCCAAAAGCTGGGCTTCCTGGGGCCACAGGGCCTATGGCAGTCAGACCAGAGGAAGCGGTCCGGGGGCTGGGG
Celera SNP ID:            hCV25613505
SNP Position Genomic:     16720
SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,3)   caucasian(G,4)   total(G,27|T,3)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,38)   total(G,73|T,3)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,3)   caucasian(G,2)   total(G,29|T,3)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,92|G,1387)   total(G,1387|T,92) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:41335):
AGAGTCCACAGGCCCAGACGAAGCAGAAGCCCCCGAGTCCTTTCCGGCGGCTGCCAGTCCCGGGGATTCAGCCACTGGCCACCGGCGGCCCCCACTTGGT
R
GCCGGACAGTGGCTGAGCACGTGGAAGCCATTGAGGGCAGCGTCCAGGAGAGCTCGGGCCCTGTGACCACGATCTACATGCTGGCAGGGAAGCCCCGCGG
Celera SNP ID:            hCV25613506
SNP Position Genomic:     16476
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,6)   caucasian(A,2)   total(A,26|G,6)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,6)   caucasian(A,38)   total(A,68|G,6)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41336):
AAGGAGAAGGGAGGCCGTAGCCCAGTGACAACCCTTCCTTCCTACCCCATGGGGCCTGCCCCTCCTGATACCAGGAGTCAGGGTTTCTCCTGTGACGCAC
Y
CCCAGGCCTGAAGGGGCACCTCTTGAGGAGGCATGGCCCCTGGAGCCAGTGAGAGGGCAGGGGTGTCCCCTGGTCCTGCTCCCGTCTTTCCAACCTGGGT
Celera SNP ID:            hCV25613507
SNP Position Genomic:     6673
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,3)   caucasian(C,2)   total(C,27|T,3)   
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,40)   total(C,75|T,3)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,34)   total(C,67|T,3)   
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41337):
AGGGGATCGCGGCCGGGGCGAGGGCGCGGGGGCAGAAGCGGCCGCCGAAGGGGCGTAGGGAGAAAACGTGGGAACAAGAGGAGAGAGATGGAGCGATGAG
R
GGCCGCCAGGGAAGAGATGACGAACAGATGCGGGCTGGGGAATGGAGGCGCGGGGGTCCGAGGCCATGGAAACGGGCGAGTTGCCGGGGGAACGCCCGAG
Celera SNP ID:            hCV1247295
SNP Position Genomic:     23054
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41338):
GGGCTGGGGGCTGGCACCGAGAGTTCAAGGAGAGCCCAGGAGCCAGTCTCTGGCTGTGGCTCCCCAGAACAGGATCCCCAGAAGCAGGCTGAAGAGGAAA
R
GCAGGAGGAACCTGAGTATGAGAATGTTGTACCCATCTCCAGGCCACCAGAACCCTGATGACCTTGAATTTGGGGAGTGGGGAGAGTGGATGGACTAGAC
Celera SNP ID:            hCV25981938
SNP Position Genomic:     16912
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,2)   total(A,2|G,30)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41339):
TAGATAGATAGATAGATAGATAGATAGATAGATAGGATCTGTTTTACAGATGCGGAAACTGAGGCCTAGGGAGGTGAAGTGTGAACCAGAGTTGTTACTC
R
GCTGTCTGACTCTAGAGCCACTCTTTGTTCTGTGGCAGGCCTGAATTGTGGGCTCAATCATTTGGATTTTATTCTGTAGTCAATAGAGAGCCACTGAAGC
Celera SNP ID:            hCV12114321
SNP Position Genomic:     14461
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,7)   total(G,5|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41340):
GTGTGCCTCATAAGGGCTATTCTTTCTTTCACGTGCAAAACATTTTTCTGAAATAGCAAACAACCTACATGTTTGCTGATAAAAGATTGGCTAAACAAAT
T
TTTTTTTTTTTTTTTGAGACAGAATCTCCCTCTGTCCCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGC
Celera SNP ID:            hCV12114323
SNP Position Genomic:     17324
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:41341):
TCTACCACGAGGTGCACAGGCCCTCTCACTTCCTCAACTTTGCTCTCCTGCAGGAGGGGGAGGTTTACTCTGCGGATCGGGAGGACCTGTATGCCTGACC
R
TTTCCCTGCCTCCTGCTTCAGCCTCCCGAGGCCGAAGCCTCAGCCCCTCCAGACAGGCCGCTGACATTCAGCAGTTTGGCCTCTTTCCCTCTGTCTGTGC
Celera SNP ID:            hCV25613633
SNP Position Genomic:     924
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,36)   total(A,1|G,67)
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:41342):
TATTCTGTAGTCAATAGAGAGCCACTGAAGCCACTGAAGTAGAGGCAGTCACCCTGTCACACCCTGCCAAGGTGACCCAGGTCACCGTGGGTCTCATGTA
Y
TGACCAGTGTCCCTACCCTCCTCCCTCAGGCCAGCGAGAGATGGAGCTACCGTGTCCAGGATGAAGCTGCAGGTCTGGGGGACACTGACCAGCTTGGGCT
Celera SNP ID:            hCV25613529
SNP Position Genomic:     14631
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,11|T,1)   total(C,41|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:41343):
CCCCTTCAACCACAGCTTCATCGAGCCGCCCTCTGCCGGCTGGGCCACTGATGACTCCTTCTCATCCGATCCTGAGTCTGGAGAGGCAGATGAGGTTCCT
R
CCTACTGTGTGCCACCCCAAGAAGGTAGCCCCCCAACAGCCCACATAGCCCCTGAGCAGCCCTGCCCACCACGACCCCCTCTTTAGTCCTCCAGCAAAGT
Celera SNP ID:            hCV25613491
SNP Position Genomic:     14990
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41344):
AGCCCTGCCATTGCCTTTCTTTCCCTTTCTTTTTTTGAGTGTCAGTCTTTCCAGCCACCCCCTCCCTCTCAGGGAGGTGCCTCGTGGCAGCCCGCCCCTC
Y
GGCCTGGTTTCCTCAGGAAAAGCCCTGAGAGGAAGCAGGGAGGGGGTTGGGAGCTGTGGGGGCCAGACGAACCCGAGCGCTCCCACCGAGCTGCCTGCCA
Celera SNP ID:            hCV27829872
SNP Position Genomic:     5926
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,2)   caucasian(C,22)   total(C,28|T,2)
SNP Type:                 hmCS


Context             (SEQ ID NO:41345):
CAGGGGAGCTCTCCAGCCCGCTCCGAAAGCCCAAGAGGCTCTCCCGGGGGGCGCAGTCGGGTCCTGAGGGCCGGGAAGCCGAAGAGTCCACAGGCCCAGA
S
GAAGCAGAAGCCCCCGAGTCCTTTCCGGCGGCTGCCAGTCCCGGGGATTCAGCCACTGGCCACCGGCGGCCCCCACTTGGTAGCCGGACAGTGGCTGAGC
Celera SNP ID:            hCV25613492
SNP Position Genomic:     16394
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,10)   caucasian(C,2)   total(C,22|G,10)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,10)   caucasian(C,30)   total(C,44|G,10)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,91|C,1410)   total(G,91|C,1410)   no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:41346):
TCTGTACTCCTCTTTACCTATAGGAGATGGAACCCTTAGGTTGGATCCACACTCAGCCCAATGAGTCCCCGCAGTTATCACCCCAGGATGTCACCACCCA
Y
GCCAAGATCATGGCTGACAACCCATCTTGGGATGGCGAGAAGACCATTATCATCACATGCAGGTGGGCCTGGGCTCCTTGGGAGGAAGTATGGTGGGGCA
Celera SNP ID:            hCV7459926
SNP Position Genomic:     247
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,18)   caucasian(C,2|T,38)   total(C,22|T,56)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,12)   caucasian(C,1|T,33)   total(C,27|T,45)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,16)   caucasian(C,1|T,37)   total(C,21|T,53)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41347):
GGCATCTCCACTGCTGGCATCCCCATGGCTGGCATCACCAGGGCTTTCTCCCTCCCTGCCCCTTTTCTTTAGGGAGCTGCTCACAGACCACCGGGTCCCC
R
GCCTTCTGCTCGAGGCCATGAAGGTGGCTGTCCGGAAGCAGCGGAAGAAGATCAAGGCCAAGATGTTAGGGACACCAGAGGAAGCAGAGAGCAGGTAGGT
Celera SNP ID:            hCV25613743
SNP Position Genomic:     3794
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,1|G,37)   total(A,3|G,71)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41348):
CGCGGAAGGTACCAAGTTTGCACCACAGAGTCGCCGAAGCTCAGGGGAGCTCTCCAGCCCGCTCCGAAAGCCCAAGAGGCTCTCCCGGGGGGCGCAGTCG
R
GTCCTGAGGGCCGGGAAGCCGAAGAGTCCACAGGCCCAGACGAAGCAGAAGCCCCCGAGTCCTTTCCGGCGGCTGCCAGTCCCGGGGATTCAGCCACTGG
Celera SNP ID:            hCV25613493
SNP Position Genomic:     16353
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   total(A,2|G,28)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,2)   total(A,2|G,30)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,24)   caucasian(A,1|G,27)   total(A,1|G,51)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41349):
TGGCATCTCCACTGCTGGCATCCCCATGGCTGGCATCACCAGGGCTTTCTCCCTCCCTGCCCCTTTTCTTTAGGGAGCTGCTCACAGACCACCGGGTCCC
Y
GGCCTTCTGCTCGAGGCCATGAAGGTGGCTGTCCGGAAGCAGCGGAAGAAGATCAAGGCCAAGATGTTAGGGACACCAGAGGAAGCAGAGAGCAGGTAGG
Celera SNP ID:            hCV25613744
SNP Position Genomic:     3793
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:41350):
CTTGATCAATGGCCCTCACTTCTCCTCTCTCCTCTGTCTCAGTGAGGATGAGGCTGGCCCATGGATCCTGCTCTCCGATGACAAGGGAGACCATCCCCCA
Y
CCCCGGAGTCCAAAATACAGAGTTTGTATGTTGGGGAAAGGGGAAAGGCAAGAGTGTGGGGAGGGAGGAAGGGCCCTGGCTGGTCCTTCTCAGGATCCCC
Celera SNP ID:            hCV25613745
SNP Position Genomic:     4792
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34)   total(C,71|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41351):
AGAGTGGGAACAAGGGAAGGCTTCCTGGAGGGGGTGTCATTTGAGACAGGTGGGCCGGGCGCAGTGACTCACGCCTGTAATCCCAGCACTTTGGGAGGCC
R
AGGTGAGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGGTGTGGTGG
Celera SNP ID:            hCV1247311
SNP Position Genomic:     14002
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41352):
AGGAACAGTGAAGAGCAGAGCAGTCTCCTCCACATGTGGGGGTAGAGCAGAGTGGGAACAAGGGAAGGCTTCCTGGAGGGGGTGTCATTTGAGACAGGTG
S
GCCGGGCGCAGTGACTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGAGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATG
Celera SNP ID:            hCV1247312
SNP Position Genomic:     13954
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41353):
CTGCAGGTGCTTTCCCGCCCCCTGAGGACGCCTCCACGCCATTCGCCATCCCGCGCACCTCCAGCCTAGCTCGGGCCAAGCGGCCATCGGTCTCCTTCGC
R
GAAGGTACCAAGTTTGCACCACAGAGTCGCCGAAGCTCAGGGGAGCTCTCCAGCCCGCTCCGAAAGCCCAAGAGGCTCTCCCGGGGGGCGCAGTCGGGTC
Celera SNP ID:            hCV27510688
SNP Position Genomic:     16256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41354):
CAGTTCAGCTCCAGCCAAGCTCTTCTGTCTCCTCTGCCAGGGATGGTCCCTGTGGCCCAGGCAGGGTCGTCAGAGGCCAGCCTGGCTGCAGGTGCTTTCC
Y
GCCCCCTGAGGACGCCTCCACGCCATTCGCCATCCCGCGCACCTCCAGCCTAGCTCGGGCCAAGCGGCCATCGGTCTCCTTCGCGGAAGGTACCAAGTTT
Celera SNP ID:            hCV25981632
SNP Position Genomic:     16171
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   total(C,29|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41355):
GAAACGTGAGCTGAGGCTCAGCTAGGATGATAATAACAAAGACCTGCCAGGTCCTGCAAAAAGCTCAGATAGATGATAGATAGATGGATAGATAGATAGA
T
AGATAGATAGATAGATAGATAGATAGATAGATAGGATCTGTTTTACAGATGCGGAAACTGAGGCCTAGGGAGGTGAAGTGTGAACCAGAGTTGTTACTCA
Celera SNP ID:            hCV26032850
SNP Position Genomic:     14361
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,16)   total(T,16|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41356):
GTGCCGCTAGTGGTGCGGGCGCTGGAGCTCTTGGAACAGGCTGCCGTGGGGCCCGCCCCGGACTCGGTGAGTCATGGCCCTCCCTTCGCCACCCACGGGG
Y
CGGCAGGGCCGAAGCCTGAGACCCGGGTCTCCCCAGCTGCAGGTGTCGGCGCAGCCGGCGGAGCAGGAGCTGCGGCGGCTGCGGGAGGAGAACGAGCGCC
Celera SNP ID:            hCV22273386
SNP Position Genomic:     2181
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,7)   caucasian(C,32)   total(C,41|T,7)   
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,12)   total(C,2|T,12)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41357):
TGTCAGTCTTTCCAGCCACCCCCTCCCTCTCAGGGAGGTGCCTCGTGGCAGCCCGCCCCTCCGGCCTGGTTTCCTCAGGAAAAGCCCTGAGAGGAAGCAG
K
GAGGGGGTTGGGAGCTGTGGGGGCCAGACGAACCCGAGCGCTCCCACCGAGCTGCCTGCCATGGGGCTGGGGCTGCTGCTCCCGCTGCTGCTGCTCTGGA
Celera SNP ID:            hCV25981781
SNP Position Genomic:     5965
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,1)   total(G,29|T,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:41358):
TAGTCAATAGAGAGCCACTGAAGCCACTGAAGTAGAGGCAGTCACCCTGTCACACCCTGCCAAGGTGACCCAGGTCACCGTGGGTCTCATGTACTGACCA
R
TGTCCCTACCCTCCTCCCTCAGGCCAGCGAGAGATGGAGCTACCGTGTCCAGGATGAAGCTGCAGGTCTGGGGGACACTGACCAGCTTGGGCTCCACGCT
Celera SNP ID:            hCV25613530
SNP Position Genomic:     14638
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,11)   total(A,1|G,43)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:41359):
CTGCCCTGCCGTTCCCTCAGCTCCCACAAGCTACCCTGGGTGACAGGTCAGTGGGCGCTGGGGGCCGGGGTCTGGGATTGGACAGGGCTTTGCATCAGGT
Y
CTGCAGGCGCCTGATCTGGAGTCTCTACAGTCTCACATCACGACCCGGAGGTCCCCTTCAACCACAGCTTCATCGAGCCGCCCTCTGCCGGCTGGGCCAC
Celera SNP ID:            hCV25613531
SNP Position Genomic:     14837
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:41360):
GGCGAGAAGACCATTATCATCACATGCAGGTGGGCCTGGGCTCCTTGGGAGGAAGTATGGTGGGGCAGGGATTGCAGGCCAGGGCCCAGAACAGTGGCCT
R
AGCTGTTACTCTGTCCTCGTTCCTCCCCCAGCTTCACGCCAGGCTCCTGTACACTGACGGCCTACAAGCTGACCCCCAGTGGCTACGAATGGGGCCGCCA
Celera SNP ID:            hCV25613621
SNP Position Genomic:     381
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,29)   caucasian(G,34)   total(A,7|G,63)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,23)   caucasian(G,8)   total(A,5|G,31)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(G,40)   total(A,7|G,71)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41361):
CATCCGTGAGTAGCCAGGACAGACCCTCAGCCAAGGAGAAGGGAGGCCGTAGCCCAGTGACAACCCTTCCTTCCTACCCCATGGGGCCTGCCCCTCCTGA
W
ACCAGGAGTCAGGGTTTCTCCTGTGACGCACCCCCAGGCCTGAAGGGGCACCTCTTGAGGAGGCATGGCCCCTGGAGCCAGTGAGAGGGCAGGGGTGTCC
Celera SNP ID:            hCV25613517
SNP Position Genomic:     6641
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,26)   caucasian(T,2)   total(A,2|T,28)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,31)   caucasian(T,32)   total(A,1|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:41362):
CAATGAGCCGTGCTCTCCAGACACAGGCAGCTGTGAGTCCTGCGAGCCGGGCTGGAACGGGACCCAGTGCCAGCAGCCCTGCCTGCCTGGCACCTTTGGC
R
AGAGCTGCGAACAGCAGTGCCCTCACTGCCGACATGGGGAGGCCTGTGAGCCAGATACTGGCCACTGTCAGCGCTGTGACCCTGGCTGGCTGGGGCCCAG
Celera SNP ID:            hCV25613518
SNP Position Genomic:     11177
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,34)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41363):
TGCCCCACCTGTGTTCAGGGGTCCTGTGATACTGTGACAGGGGACTGTGTCTGCAGTGCCGGCTACTGGGGGCCCAGGTAAGGATGGGGATCCCGGGGGC
R
GGAGAGTGCCAGGGGCCTAGGTCAGGGCTCTGTGCAGCATTTCCTGAACTTCCCTGGACAGTGCCCAGAAATCTCCCTGCCCGTCTCCTGCCTGCCTCCC
Celera SNP ID:            hCV25613519
SNP Position Genomic:     11837
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,4)   total(A,1|G,31)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41364):
GAAGGCTGCGGGGTGCAGTAGCCAGGGAAAGGCGGGCCCTTCACATGGGCTCCAGGGCAAGTTCCTCACCAGGGAGTCTGGGCCCACTTCAGAGATATTC
T
TTTTTTTTTTTTTTTTTCCCTTAAGACGAGGTCTTGCTCTGTCACCCAGGCCAGAGTGCAGTGGTGTGATGTCAGCTCACTGCAACCTCCACCTCCCAGG
Celera SNP ID:            hCV12114318
SNP Position Genomic:     12198
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41365):
TTCCCTCAGCTCCCACAAGCTACCCTGGGTGACAGGTCAGTGGGCGCTGGGGGCCGGGGTCTGGGATTGGACAGGGCTTTGCATCAGGTCCTGCAGGCGC
Y
TGATCTGGAGTCTCTACAGTCTCACATCACGACCCGGAGGTCCCCTTCAACCACAGCTTCATCGAGCCGCCCTCTGCCGGCTGGGCCACTGATGACTCCT
Celera SNP ID:            hCV25613480
SNP Position Genomic:     14848
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,23|T,1)   total(C,57|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41366):
GGATTGGACAGGGCTTTGCATCAGGTCCTGCAGGCGCCTGATCTGGAGTCTCTACAGTCTCACATCACGACCCGGAGGTCCCCTTCAACCACAGCTTCAT
Y
GAGCCGCCCTCTGCCGGCTGGGCCACTGATGACTCCTTCTCATCCGATCCTGAGTCTGGAGAGGCAGATGAGGTTCCTGCCTACTGTGTGCCACCCCAAG
Celera SNP ID:            hCV25613481
SNP Position Genomic:     14911
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,33|T,7)   total(C,69|T,9)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41367):
AACTCAGAGCAAAGACAGGATGTGTAGGAGACAGGAAGGCCTGAATATCCCCCGTTTCTGGCTCCCCCAGGCTCTGGCAGTCGGGACACTGCCCTCATCG
Y
GGGCAGCCTTGTGCCTCTGCTGCTGCTCTTCCTGGGTCTTGCCTGCTGTGCCTGCTGCTGCTGGGCCCCCCGATCAGACCTCAAGGACAGGTGAACGCCA
Celera SNP ID:            hCV12114319
SNP Position Genomic:     12829
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41368):
GGCCCGCCCCGGACTCGGTGAGTCATGGCCCTCCCTTCGCCACCCACGGGGCCGGCAGGGCCGAAGCCTGAGACCCGGGTCTCCCCAGCTGCAGGTGTCG
R
CGCAGCCGGCGGAGCAGGAGCTGCGGCGGCTGCGGGAGGAGAACGAGCGCCTCCGCAGGGAGCTGCGCGCGGGGCCACAGGGTAAGCGCAGCCCCGGCCA
Celera SNP ID:            hCV25613734
SNP Position Genomic:     2230
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,8)   caucasian(G,2)   total(A,6|G,10)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41369):
CTGCGGCTGGCATCTCCACTGCTGGCATCCCCATGGCTGGCATCACCAGGGCTTTCTCCCTCCCTGCCCCTTTTCTTTAGGGAGCTGCTCACAGACCACC
R
GGTCCCCGGCCTTCTGCTCGAGGCCATGAAGGTGGCTGTCCGGAAGCAGCGGAAGAAGATCAAGGCCAAGATGTTAGGGACACCAGAGGAAGCAGAGAGC
Celera SNP ID:            hCV25613735
SNP Position Genomic:     3786
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,25)   caucasian(G,38)   total(A,7|G,63)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41370):
GGCCTGAATATCCCCCGTTTCTGGCTCCCCCAGGCTCTGGCAGTCGGGACACTGCCCTCATCGTGGGCAGCCTTGTGCCTCTGCTGCTGCTCTTCCTGGG
Y
CTTGCCTGCTGTGCCTGCTGCTGCTGGGCCCCCCGATCAGACCTCAAGGACAGGTGAACGCCAGCCCGTCCCTTCCCCACACAGCTCAGGCCACAGGGTG
Celera SNP ID:            hCV15961686
SNP Position Genomic:     12866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41371):
ATGCGGGCTGGGGAATGGAGGCGCGGGGGTCCGAGGCCATGGAAACGGGCGAGTTGCCGGGGGAACGCCCGAGATGGGGGTCGCGCGGCTGGCTCGCGCC
R
CCGGTTTGAACCGGCTCCTCGTCTCCCACGCTGGGTTCGCGTGGCCGCAGCGCCTAGCGACCTAGACGGCGGCCAATGGCGCGGCAGTTCCTGCGCCGTC
Celera SNP ID:            hCV28958514
SNP Position Genomic:     23182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41372):
TGTGTGCCTCATAAGGGCTATTCTTTCTTTCACGTGCAAAACATTTTTCTGAAATAGCAAACAACCTACATGTTTGCTGATAAAAGATTGGCTAAACAAA
W
TTTTTTTTTTTTTTTTGAGACAGAATCTCCCTCTGTCCCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACG
Celera SNP ID:            hCV1247305
SNP Position Genomic:     17323
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,7)   total(A,5|T,7) 
SNP Type:                 UTR 3


Gene Number:                 202
Celera Gene:                 hCG29363 - 206000045516811
Gene Symbol:                 MRPL10
Protein Name:                mitochondrial ribosomal protein L10;MGC17973;MRP-L8;RPML8
Celera Genomic Axis:         GA_x5YUV32W3KM(14965386..14985656)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12362):
AGCTGGCTGCTGTTGGGGATGACTAGGACCACAGCTCCTTGGTCCTTGGCTTGGACCGGGGAAGGGCACTCGCTAGGGGTGGCAGTGAGATGGCATGCCT
CTTCCATGAGGTGGTGCCCGCTTCCTGCCCAAGTGGGAGCCAGGAAGCCAGCGGGGGCCTGAGGCATGCCTGCCCTGTGGGTAGCTCCCGAAAGATTCCA
GACTCGCTCTTTAGAATCAGGTGGCTCACTGAGCTCTGTATTTTGTTTCCTGGAGCTTTCACTGGTTTCTTCCCCTGAGATACCCCAAGTGACATGAAAA
GCATACTCAGGGCCTAGAGACACTTTACTGGGGATGGGCTTCTGTCACAGGTCAGAGGTCTGAGAAGAGGGGCAGGCCCCACTCCTCTCCACTAGTAGAG
AAAGGTTGACAGAGAATCATTTCTTGCTTCTCTTGGCCGTAGTTTTGGTTGTGCTGGGGGCCTCAGCCACAGAGGCCTTGGGGGCTGTGGCTGCTCGTGC
CCCCTTCCTTCCCCAGAAAGAGCTTTGGTGGCCCCTGGGAATCAGACTGCATGGTTTCTTGGTGGGAGAGGAGGCCTGGGGTGAGGAGACGGCCTCAGGG
ACTGTCTCCTCCCCTTGCGCAGGAGTGGCAGAAGGGCTGCTGTCCCCAGCCATGGGCACCCCAGGTAGCAGGGGCAGGTCGGTGAGGGTGGGCTGCATCT
CCATCCTCAGCAGGTGCTCTGTCAGGGCCGTCTGTTGCCGGTGCTCCCTGTGCCTGCTCAGCTCCTGCTCCAGCTCCTTGAGGAAGCCTGGGAGGGGCCG
GGGGTGGAGGGTACAGGGTGGGTGGAGCCCTGGGCTCAGCAGGAGGGTCCCTGGGCTCAGGGAAGTCTCTGGCTGGCCCCTTGTCCCTTGTGGGAAGGAG
CCTGAGGCTGGGGCCCAGGACTGACACCTGGCTCTGGCCCAGATGTTGATCTGAACTTGGGGCTCCCCTCCCCGGACGCCACTGCCACCTTAGCTTCCCT
CATGTCCCACAGGGCAGAGGTGGGCTCTGGGGAGGCTGAAAACCTTGGAAAGCAGKGTCACCTCGTTCTGAGCAGAATGGGCCACTCAGCTCTGGGAACT
CCTCATCGCTTGAGGCTTCATCCTCCTCATCCGAAATCCAGCGCTCCACCACAGGCTGCCCGTCCAGGTCCAGGAGAAGTGGCAGGGCTTCTGTCACCAG
CTCGCTGCAGAGCAGAAGGAGCAGAGGTTACCCAGGAGGGCACCCTGGCRTGGAGGATGCAAAGACACGCACCACAGCACTCACACCCGGAGGGGTGGTG
GCTCATGAGCTAGGTAGGAGGTGGGGGAGAAGGTGTCATGGACAGGACCCCAGGTTTGCAGGCTGAGAGGGGTCTGGGCTGAGTTAGCAGGTAGAGCTCA
GCCATGACCTTTCTTCCCACCCTCCACTCCTTACCGGTAGCCATCCTGGTTGGTGCAGCTGTTTCCAGACAGGTTGAGGATGAGAAGGCTCTGGGGGAAC
TCATCTGCACACAGCAAAGAGAGAGGAAATGGGGTTCTCACTTGATCTTAGCCAAAAGACCATGAAGCGATGGGAATGGGGTTCTCATACCCACTTTCTA
GTCCAAAGCCAGTACCTCTAGGCACAACCCCTTGAACTCCCTGAGGATGAAATGTGGACCTGCAGGGGCATGGCTAATAGAAGCATGGGCAGATGGGTGC
AGAGGGGAGGGCAGGCCCCACAGGGGATGTGTTTGGTGAGCCAGGGCGAGTGGGTTCCTACCCAGCTTCAATGTTTCTATCAGGTTCTCAGAAAGGTCCA
GAAACTGGAGGCATGGGAGGTCGAGGAGGTTTTCCACCTGCCTGATTTGGTTTCCTGCCAGAGACAGGAAGCTGTAGGGGAAGGAAGGGGTACAGAGGCA
GAGCTGAATCATGGAACAGCTGGAAGAAAAGAGGAGGGCACCTGACACCGGGGCCCCTGGGCTAGGCAGCTGATGACCAGTGGGGACACATGGCCTTCTG
GGGTGAGGGAGTAGATCTAGGCTTGCTGGTCCTTGACTGACAAGGACCCAGGCTTGGAGAAATCTGAACCAGTTCTTTGGGATATGGCTAGGTTCCCCCA
ACCCCTCTTCCCCTGCCTGAGCCCTGGCACCACATACCGCAAGGAGGGGATGCAAGCCAGGTTCTCAATTTGCTGGATCTTATTCTGCAAGAAGAAACCG
AAGTGGRGAAACCAAGCTGAGATCAGATGCGTCAGGGGCCCTTTACGGGGACAAAGCCCCAAGACCATGTCTACTCTGCAGCTGGAGATCTGGCACTTTG
GGAATGATCACCCCACTCCTTGAACAGGTTGCCACTACCTTAAGAAAGATGATTTTCTTTCCCCATGTGGATGGTTAAGGGTGTAAACCTGGGGTATCTA
AACCTGACTACGTATACTCTTCTGATTCCACAACCAAAGAGTGACCTGGGAATCAGAAAAGGAAACTAAGAAGCCACCAGGAAAACGGAAAGGGCCTTGG
TGGTGGCTTGCATACACAGAGAGAACAATGAGCATACAGGAACTTGACGGTTAAAGTTTCTATGGGGAAAGTTGAAGCGAGCTGGGAATACTCAACCAGG
AGAAGGCTGAAGATCAACCAACCACCACCACCACCACCAAACAGCCTTCAAGTAGGATCTGAATGATGTACAGGAATCTTCATAGTTTCCTCTTCTTCAA
AACAGGAAATGGGCTGGAGCTATTTAACGTGAAAGATTTAGAGTAGATGCCAAAAAGAACTTCTAGATCAAGAGAAGTGCCTAAAGAACAGTGGAAGGAG
CACAGGTCATGTTCAGGATCTATTTTGAGGGAATTAGTTTTTCAATTCAGGACCCTATGTCATTCGTCTGGGAATGGTTTAAATGAAGGTCTGCCTGCCT
GAACACCAGGGAATGGGCAGGATGACCTGGTTGGCTCCTTTCAGATGAGACAGATTAGGTCCACAGGGGTCAAGGGGAGGGGAAGGGTGGAGAAAGAAGT
TACCCCTTGCAGATAGAGACTGTGAAGATTCTGGAGGCCTTCTAAGTTCCTGATAGTAGTAATCCCCTCCCGGTCCAGGCGGACAGTCTGCAGTTCATCA
AGAGTGTGAAACCTGGGAAAAGAGTCAGTAAGGGTGGTGTTAGAGCACCACTCATGTGGTCTCTTAGCAGGGAGGATGGGAGACGGAGGAGGGAAGGGGT
TTCAAGGAGGGGTAGTTGGCTGAGTCATTTTAATCAGATGTGAGAAACATCTTGACATCTTGAGGTGGTGTCTAGATCATGAAACCGGCTTGACTTGCAG
ACTCGTATCTCTATTGTTAGCACTGGGAAGGGTGAGAGAGAGGAGTAAGGGCCCTCTGGGAAATTGGGGGATGGCAGCTTATGGTTTCTGGAGAGATTCA
GAGGCAAGAGAAACCTTCCTCTGGCCAGCTTGGATGGTGGAGGCAGGGGTGGGACAGAGATGAGACACTGCAGAAAGATCCTTCCTCACCTTCCTTTTGA
GTCGTTCATGGAGAAAAAAGCACTTGTTCCATCCACCCATTCATTCATTCCACAACATTGCTGAGTGCCTACTAGAGACAAATGACAGAGTCTCTGCCCA
CCACTAATAAAGAAGCAGGGCAGGCTGGCCATGGTGGCTTACCCTGTACTCCCAGCACTTTGGGAGGCCGAGGCAGGAGGATCGCTCGAGCCCAGGAGGT
CGAGGCTGCAGTGTGCCATGATTATGCCACTGCACTTCAGCCTGGGTGACAGAGCAAGACCCTATGTCATAAAAAAAAAAAAAAAAGAGGCTGGGCGAGG
TGGCTCACTGTAATCCCAGCACTTTGGGAGGTCGAGGTGGGTGGATTGCCTGAGGTCAGGAGTTCAAGACCAGCCTGGCTAACATGGTGAAACCCCATCT
CTACTAAAAATACAAAAAAAATTAGCCGGGTGTGGTGGCGCACACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCTGGAGAATCGCTTCAACTCAGGAG
GCAGACGTTGCAGTGAGCCGAGATCACACCATTGCACTCCAGCCTGCGCAACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAATAGGAAGAAGGC
CAAACATCTATGACAAGTGGATAACAGAGGCAAGTACAGGGGAAAGGAAGAAGGAGGAGGAAGAAGGGAAAGAAGGAGGAAGAGGAAGAAGAAAGAAAGA
AAGAAAGAATAAGGCCAAACATCCCTGACAAGTGGATAACAGAAGCAAGTACAGGGGACAAAGGGAGTACATAGGCTGTGCACTAAATTCACAGTAGGAG
GAATCAGGGAATGCTTCCTAGAGGAGGTGACAGATGAGTAGGCATTAGCCATGAAGGTGGGGGGATATGGGGAGAAGGCATTTCAAGCAGAAGGAATAGT
ACATGCTAATACAGCCCTTCCGAAACTCCAATATGCCCATGCAGATTCTAATTCAGTAGATCGGGTGGAGGGGCTGAGATGCTCCACTTCTAACAAGCCC
CCTGTGATGCCAATGCTGCTGTCCTACCCCTGCACCCCCTCCCATCCACACATACTCTGAGTAGTAAGGTACTAAGGTGTGAGTACACAGTGTGGGAAAT
TGTACACTTGTGGAGAGTGGCCAGAAATAAGGCTGAAAAGCAGAAGTCAACTCATGCTTAGGCATTGGGATTTATTTGGGAGGAAGTTTCTATCAGTGAA
TGCCTGATTAGATTTGTTATTTAAAAGGATCACTTTGGCTACTCAGGAGGCTGAAGTGGGAGGATTGTTTGAGGAGTTCAAGACCAGTCTGGCCAACAGA
GCAAGACCCCATCTCTAAAAAAGTAATTAAAAATACTTTACTTTTTGTTTGTTTTAGAAATAGGGTCTCACCCTGTTGCCCAGGCTGGCATGCAATGGCA
TGATCATAGCTTACTGCAGCCACAGGTACCTGGGTTCAAGTGATCCTCCTGTCTCAGCCACCTAGGACTACAGGTGTGCACCACCATGCTCAGCTAGTTT
ATTTTTATTTTTTAGAGATAGGATTCTGTCTCTATTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGGTG
GGTGTGTAGGAGAGAGGTGAACACGGCCTTATCTAAGACAGTTGAGTGAGGATGGTGAAAAAGAAATGGAATTATTTTGAAGAAGGGAAAATCAGCTGGG
CATTACCACTGATTGAATGTGTGGAGTAAGGAGAGAAACAAAGATCAGTTGACAAATCAGTACACGTCAGGGACCTGGTCATCCTGAGTGTTTCAGCCTT
CTAGCACCCCTTTTCTCCCCCATGCACTCACATCTTCTCTGACAGTTCCCCATCTTCAGGGAAAGTCAAGTTCCGCTTAGTGATAAGGGCTTCAGTGATG
CAGACGCCCCCTTCCTCTGGACCCTGGGCTGACTTCCCTGTGAAAAGATGAGTCCAACTGTGACACTTCCTCACTCTTGGAGGCCTTACCCCGCTGTTTT
CCAACTGCTCTACCCACCGTCCCACCTCCCTACTCACCTCCAGACATGATCTAAAATAAAAGGCTGCTGGTCTGAGGCGGGAGAGGAACGAAAAGAGAGG
TCTTGGCGGCCCCTAAGGATGGCAGAACTCAGGATGGCAGGAGGAGAGAGAAACTCAGAGACTTAGGAGAGGAGGAAAGGGGGTTGATTCAGAGAAAATT
GCTGGGGTGAGGTCGAAGAAAACAGTAAATTGATGTGAAGGGTCTGGAGTTTGAGGGGTGTGGAGGGGCTTTGCTGGCAGCAAGCTGGGGTGTTGTGGGC
AGGAATGGTTGAGAAAGGAGCAGTTCCTAGGAAGCCGGAGTCGTTGCTAAGAGACTGGACGCCGAGTGGGGAGGTAAAGGCGGGCTCCGTTGGCCCGGCC
TAGCGCATGCGTCTTACGGCTACAGCCGGCGGGTACGCCCACTGCTTCCGGCCCCGGGGTTCGCTACCCCACAATCCTTAGCTCTTTCCGTCTCCACTCG
GCTTCCGTCCATTCTTCCGGTGGAGATGGCTGCGGCCGTGGCGGGGATGCTGCGAGGGGGTCTCCTGCCCCAGGCGGGTAAGGAGTGGCCCAGGTCCTCA
CGGCGTGTCTTGCGGCCGCTCTCTAGTCCTCATCTGCCCTCCTCTACTACTGATTCTTCCCATAATCTCTGACCCCAGCTAGATCGCTGGCCTCCTTACC
CCGTCCAGTTCCTTGTGACTCGACTGGTAATCACAGCAACAACGTCCAGATGTTGTCTGTCTCCAGCGTTTCTTTTGCCTGGACCACTCCTCGCCCAGAC
CTTTGCATTATGTCTCCATCTTAATGTGTCAGTCTAAATGTCACCTCAGGTCTTCCCTTGACTCCTTAGCCCCGTCGCAATCTGTAATTTTGCATTTGTT
TAGTTGCTTGTTTCCTCTATTAAACTCCGCAAGGGCAGAACCATGTTCATTCAGCATAGCCAGCAGGTGGCATGGTGCTGGATGTTAGTAAGCGTGCGGT
AGATATTTGTTTAGTGAATGGATTTGAGCACTTAATATAGGCCAGGCACTGTGATAACTATTTTTATATGTGTTAGCTCATTTAAATCTTTTAAATCATT
TAAATCTAAAGCACCCTGTGAGAAAGACATTCGCATCTCCTCTTTACAGACGCAGCAACTGAAGTTCAGACCAGTTGGGTGGCCAAGGTCACAGCTAGTA
ATTGGCGGAAGAGAGATTAAAATCCAGTTTCGGCTGGGCGCGGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGAGGGAACACCTGAG
GTCAAGAATTTGAGACCAGCTTGGCCAACATGGCGAAACCCCAACTCTACTAAAAATACAAAAATGAGCCGGGTGTGGTGGCGCGTGCCTGTAGTCCCCG
CTACTCAGGAGGCTGAGGCGTGAGAATCGCTTACACCCAGGAGGCAGAGGTTGCAGTGGGCCGAGATCGCATTGCTGCACTCCAGCCTGGGCAACAGAGC
GAGACTCCATCTCAAAAAAAAAAAAAATCCAGTTTAATTTGATTCCAAAGCCTGCCTGCAGTCTTAACAGTTAGGTTTTGTGGCTGCTGGCAATAAGACC
TCTTACCCCAGCAAATATCCATACTCTCTGACTGTTAGAGCCGCCTTCTATCTGGACCTTTTTCTGAGGTCACATCCCAGTCTTGGAAATGACTGAAAGT
GGGAAGTTCTAGTCTTGGCCCTTGTGTTGAGGATTAAGTGGTCACTTTGTCTCAGGGCTTTTGAGTGCCTCCCTTGTTTTCTGTGGGGTGCTCTGTAGCA
TTATCTGTAAACAGGAAGAGAGGAGGAAAGAGAAACTTGTCTGAGAGCTGTGAGAATGGTGTAACATTTTTTTCTCCTCTTCAAATCATAGGACAGGGTG
TCAGAGCAGCGGTTAGAGTGGTGGTTTTCAAACTTTAGCATGCGTCAGCATCACCAGGAGGGCTTGTTAGAACACTATTTGTGACCCGTCTTGGTAACAT
AGTGAAACCTGGTCTCTACAAAACAAAACAAACAAAAAACACTATTTGCTAGGCTCCACCCCAGAATTGCTGATTCAGTAGGTCTAGGCAGGGCCTGAGA
ATTTATGTTTATTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTCACCCAGGCCGGAGTGCCGGAGTGCAATGGCACAATCTCG
GCTCACTGCAACCTCTGCCTCTTGGGTTCAAGCAATTCTCATGGCTCAGCCACCTGAGTAGCTGGGACTACAGGTGTGTGCCACCACGCCTGGCTAATTT
TTGTAGTTTAGTTAGAGACGGGGTTTCACCATGTTGGCCAGGTTGGTCTTGAATTCCTGACCTCAAGTGAGCTGCCCACCTTGGCCTCCCAAAGTGTTGG
GATTACAGGCGTGAGCCACCACACCCAGCAAAATTTCTAACAAGCTCTCAAATGATGCTGATGTTGCTGGTTGGGGTGGAGGTGGGGCATACCTTGAGAG
CCACTAGATTAGACCAGGGGTTGGCGTATTATGGCAGGGCCAGTCACTGTGTTTTATAAAATTCTATTGGTACATAGTTTCTGCTGTCTCTTTAAATATT
GTCTGTGGCTGCTTTTGGCAGAGTTGAGCATTAGAGACAGATTACATGGGCCCCAAACTTAAAATATTTACTGTTTGACCATTTTAAGAAAAAGTTTATT
TAACCTTATCCCCTTTTTCTTTCTCTCTCTCTCTCTCTCTTTCCTTCCTTCCTTCCTTCCTTCTTTTTTTTTCTGAGACGGAGTCTTACTCTGTGCCCAG
GCTAGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCAAGTAGCTGGGATTACAGGT
ATACACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTCG
CCCGCTTCGGCCTACCAAAGTGCTGGAATTACAGGTGTCAGCCACCACACTCAGCCCCCACTTTTCTTAATGTGTTCAAAATATTTTCTCCTTTGTTCTC
ATTTTTTTCTCACATTTCTGCACATTGAGAAGAGCTAGAGAAATGGTAGCCTCAAGAGATTAAGTAATTGACCTCGGGTCACTTACTGAAAGAGAAGCTT
TGGAAATTCAGGACTTTTGTCAGACAATTCCTTGTCCCACTCTTGTGTTGAGTCTAGCTCTGTGAGCTGTGCTTTTCTCTGCTAGAGGGTGTGTTTTTTC
TCCATTTGGGATAAACTAGGGCCTCCAGGAGGTTGCCTCTAACCATGTTGCTATATGCCCTCCCAGGCCGGCTGCCTACCCTCCAGACYGTCCGCTATGG
CTCCAAGGCTGTTACCCGCCACCGTCGTGTGATGCACTTTCAGCGGCAGAAGCTGATGGCTGTGACTGAATATATCCCCCCGAAACCAGCCATCCACCCA
TCATGCCTGCCATCTCCTCCCAGCCCCCCACAGGAGGTAAGGAGGAATTTGGRTACATGTCACTTGGTGGTGGGATGGTGGATTAAAGTAATCTTGTCTC
TGGCCATAGTGAAGTAGGACACTYAGSCATTGTCATGCACGTCATTATTTCAGTTTGACTGCCTGATCCAGATATTTTAAGATGAARTCCGCACTTGATT
CTGTATTGGCTTTTGGGCTCTGGATTGGGTGGGCCTCCTGAATTTCCTTCTTGTCTCCAAAAATGTGTGTGTGAGAGCTACCCTAGCAGGTGGGGCTGGG
GAGAGTATCTCTCCAATCTTTTTTTTTTTTTTTGAGATGGAGTATCGCTCTTGTTGCCCAAGCTGGAGTACAATGGCGCGATCTTGGCTCACTGCAGCCT
CTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTACCACCATGCCTGACTAATTTTTGCATCTTTAGTA
GAGACAGGGTGTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGGCATGAGC
CACCCTGCCTGGCCATTTTTTTTTTTTTTTTTTTTTTTTTTTTGTGAGACAGAGTCTCTGTCACCCAGGTTGGTGTGCAGTGGGACACTCTTGGCTCATC
GCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCTGCCTCAGCCTCCTGAGTAACTGGGATTATAGGCACATGCCACCATGCTCAGCTAATTTTTTGTATT
TTTAGTAGAGATGGGGTTTCGCTATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAAGCAATCCACCTGCCTTGGCCTCCCGAAGTGCTGGGATTATA
GGCATGAGCCACCGCGCCCAGCCAARTTTCTCAATTTTAAACTAACACTGCAAAAGAGTTATATTTATGATTGGCAAAATAATTCAACATGAGTACAGTG
TCAGATTGATAATTGAAATAATTTTAGCAATATTATTGTCAAGCACTGTTGACTAGGGCAGACTGCAGGCCTGTTTTCGGGGGAGTGGATCTGAGCATCC
TCAGGTTTGAAAAACACTGCTAAAGACTGCAATTATCTAATGAAAGTGAAAAGGTTAGAGTAGTGGGAGATGTTACATGTCTCTGAGAGTCAGAGGCCCA
GTTATCCTACTTGTTCCCCGATCTTTTGCACATCTGGACATCACTGGAAGCCCTAGAACCTACCACAGAGGGAGCAACGTTGCCAGGAGAAGTGGCAGCT
GATGTACCCTTGGTCATTGCTTTCCAACTTCAGGAGATAGGCCTCATCAGGCTTCTCCGCCGGGAGATAGCAGCAGTTTTCCAGGACAACCGAATGATAG
CCGTCTGCCAGAATGTGGCTCTGAGTGCAGAGGACAAGCTTCTTATGCGACACCAGCTGCGGAAACACAAGATCCTGATGAAGRTCTTCCCCAACCAGGT
AGGGAGCAGGCCCCTTGGCATGGGTTGCCCATCTTCCCCCCACCCCCACCAGACTCAGACCTCACCATCTGCTCCCCAGTGATGATACTTCTTACTCCTC
CTCTCCATGAGTCACCCTCTAATCTGGTGTCTAACCTATGATTAGGGGCTGAGAAGACCCTTGGGTTGCACCCTCAGCCTAATGTGGCCCATGACCCACG
AGGTAGCTCTTCCTCCCACTTGTCCCCGATAAGCCATTTTYCCCTGCTGTTCCCAGGTCCTGAAGCCCTTCCTGGAGGATTCCAAGTACCAAAATCTGCT
GCCCCTTTTTGTGGGGCACAACATGCTGCTGGTCAGTGAAGAGCCCAAGGTCAAGGAGATGGTACGGATCTTAAGGACTGTGCCATTCCTGCCGCTGCTA
GGTGAGCAAGCACCCCTGCCAGTTAGGGGTGGGGTGAAGAGGGGCCTGCTGCCATCTGCTAGGCTTGTCTTGGTAAAACCGTGAACGTTCTTGGAGAGAG
CATCCTTTCACGGATGGAGCCTGAGTAAACAGCACATTTATTGAGGGCCGACTGTCACTCCCACACCTGTGTTGTCTCACTACCCCAGGTCACTTCTGCA
CTGGAGGGAAGACTAGGAAAGGCAGACATGGAGCAGGGAGAGAAAATTTAGATACCTTGAGTCTAACAGTGGGGTAGTAGGTGCTGAAACCCTCACAGAT
GAAGATATTTAATACAAGTAGCCCAAGTAAAGGGTGCCGAGGGCCAGTGACCAGTGTTTCCCAGACTCCCCTGATGCTGACTCACTTAAGGGGCAGAGAA
TACTGCACATGTCCTTGGAAATCCAGATTTCACAGGTCTCTGTAGGGAGGGGGCGGGACAGGAATCTGATTTTTTTTTTTTTTTTTTTTGAGATGGAGTC
TCACTCTATCACCTAGGCTGGAGTGCGGTGGCACAGTCTCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGT
AGCTGGGATTACAGGCACCTGCCACCACGCCCAGCTAATTTTTTTTTTTKCGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTGGCCAGGCTGGTCTTG
AACTCCTGACCTCAGGTGATCCGCCACCTCAGCCTCCCAAAGTGCTGGGGTTACAGGCATGAGCCACCGCTCCTGGTGAATCTGTGATTTTAATACCCCC
TCAACACTCCATGATATTTATTCAATTTTTTAATTGTAAAATACACACAAAATTTACCATCTTAACCATTTTAAATGTACAGTTCCGTGTTAAGTACATT
CATAATGCTATGCAACATCACCACCATCCATCTCCAGAACGTTTTGTCTTCTAACAGTGAAACTCTACACCCATTAAACAATAGTTCCCCGTTACTTCCC
TCCATTCCATGATTCAGGGTCTCACTCCCATTGCCCAGGCTGGAGTGCAGTGGTCCGGTCATGGCTCACAGCAGCCTGGACCTCCTTGGCTTAATCCATC
CTCCCACCTTAACTTCCTAAGTAGCTGGGACTACAGGCGCATGCCACCATGTCCAGCTAATTTTTGTATTTTTTGTATTTGTATTCACCATGTTGCCCAG
GCTTGTCTTGAACTGCTAGTTTCAAGCAATTATGCCACCTTGGCCTCCTGAAGTGTTGGGATTACAGGCGTTTTCCACTGCACCCAGCCTGATTCTTTGT
TTTTTTGAGACGGAGTTTCGCAGTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTTAAGCGATTCTCT
TGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCTTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATGTTGGCCAG
GTTGATCTCAAACTCCTGACCTCAGGTGATCCACCGACCTTGGTCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCGTACCCAACCTCATCCTGATT
CTTTTTTTTTTTTTTTTTTTTGAGACGAAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCAATGGCACGATCTCAGCTTACTRTAACCTCTACCTCCCGGG
TTCAAAYGATTCTCCTGCCTCAGCCTCCCGAGTGGCTTGGATTACAGGCGCTCGCCACCATKCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTT
CTCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCT
GGCTGCCTGATTCTTATTTACAAGGAAGTTTAGGAAACACTGACTTAATAGGGGTCAGGGCCAGGTGGATATATTAAGAGTTTTCTGAGGGAAGAGTGAA
GAAGTAGGGATCGATCCCAAGCAGAGTGGGTGTGGTGTGGGGCACAGTGGAACCCAGGTCCTGGGGAAGGCAGGATTTTGAGAAGGGCAATGGAGAGCAA
GTTACTAGGGTCAGAATATTGTTTTCAGAGAAGAAAGGCAATCTGCAAGGAGCCTAACTGACCCTGTGTTCTTCCAGGTGGCTGCATTGATGACACCATC
CTCAGCAGGCAGGGCTTTATCAACTACTCCAAGCTCCCCAGCCTGCCCCTGGTGCAGGGGGAGCTTGTAGGAGGCCTCACCTGCCTCACAGCCCAGACCC
ACTCCCTGCTCCAGCACCAGCCCCTCCAGCTGACCACCCTGTTGGACCAGTACATCAGAGAGCAACGCGAGAAGGATTCTGTCATGTCGGCCAATGGGAA
GCCAGATCCTGACACTGTTCCGGACTCGTAGCCAGCCTGTTTAGCCAGCCCTGCGCATAAATACACTCTGCGTTATTGGCTGTGCTCTCCTCAATGGGAC
ATGTGGAAGAACTTGGGGTCGRGGAGTGTGTTTGTCACTTGGTTTTCACTAGTAATGATATTGTCAGGTATAGGGCCACTTGGAGATGCAGAGGATTCCA
TTTCAGATGTCAGTCACCGGCTTCGTCCTTAGTTTTCCCAACTTGGGACGTGATAGGAGCAAAGTCTCTCCATTCTCCAGGTCCAAGGCAGAGATCCTGA
AAAGATAGGGCTATTGTCCCCTGCCTCCTTGGTCACTGCCTCTTGCTGCACGGGCTCCTGAGCCCACCCCCTTGGGGCACARCCTGCCACTGCCACAGTA
GCTCAACCAAGCAGTTGTGCTGAGAATGGCACCTGGTGAGAGCCTGCTGTGTGCCAGGCTTTGTGCTGAGTGCTGTACRTGTATTAGTTCCTTTACTGCT
GACCACATTGTACCCATTTCACAGAGAAGGAGCAGAGAAATTAAGTGGCTTGCTCAAGGTCATGCAGTTAGTAAGTGGCAGAACAGGGACTTGAACCAAG
CCCTCTGCTCTGAAGACCGCGTCCTGAATTTCTWCACTAGAGCTTCCTCATCAGGTTACCCAGAAGTGGGTCCCATCCMCCATCCAGGTGTGCTTGGATG
TTAGTTCTCCACCCTCGAGGTGTACGCTGTGAAAAGTTTGGGAGCMCTGCTTTATAATAAAATGAAATATATTCTACTTCCTTTATTTTGTGGTTTACAC
GGTTGTCCTCCCTCTAAACTTACTCTCAGGGGCTTCTCTGTCATCTGACTTTCCTCACTCTTGCTTCCCTTCCTAGGAAAATCCTCTTCCCCTATACCTG
TTCCCACAAATGGCATCCCGCGCATGCTTGCCCTATTAAAGGCAGCTGACAGCTGTACCCACTAGCTAACGTGTCTCTGGTGGTTCTGGACAAAAGGCCT
GCGGGAAAACTAGGATTCTCTATTAATGGGGAATTCTGAGAGCTCTAGGGTAGGAGGCCTCATGCAAGTCTTCATGAACCAGAAATTCCTAATAAAGGAG
ACGGGATGCTTAACTCAGAGTCCACCATCATCCTTGAYTGGAGCACATTCTGGGTGGATGCAGGGGTGACCCGGGGAAGGTGGCTGTTCAACATTCCTTC
TCGGACTTGAAGCAATGCCACCGCTTCCTTAGTCTTGGACAGGCACTGTCTGGCAGGGWTGACCTGCAGCAGCTCTTTTGTGGCCTGGGCCAGGACCAGC
TTCCCCCAGTGCCTCATCCTGTGCTGTATGCCCAGGGATGTTCAATCACTGGGAAGTGGCTTAAAAGGCCCTTGAGGCTCCTGGATGCCAGAGCTTGTCT
GGTCAGTGCTGCCCAGTGCTCCTGTCCCTCCCAGAACCCTGCCAGGTGCTAACAACACCCTCCTCCTGGGGTGGCTGGAGCAGCACTGAGGCTCTGAATA
AAGGCAAGACAGTGGGTGTTCCCGAGAGATATGTGAGACCCTGAAACGTAAACCAAGCTCGGTGAGGATGAAGTGGAAGGGATAAGTGGCCCATGTCACT
TTTGGGGTCAGAGAAGAAACTTGAATCACATCCTTCACCTGAGGCCCCACCTACTTCTTTCCAGAAAACTTAGCTGCGCTTGAAACTGTAGGTCTATGCC
ACATTCATTTGAATGAATTTTAGATCTTTGTTAAGAGCCGATTTTTCATTAGAATTGAGCAGCTGGGCACAGTACTCCAGCAGAAGGGTAAAGGGAAGGG
AGGGGACCAGCATTGCAGCCCTTTTAACGGCAGCTGTGACTGCCCCAGGCCTGCTCCTGATCAGAGACTGCAGGCTGTGGGGTGTCTTCATACACACAAG
CACTTTCAGATCTCCATGGGGCCTGACCTAGTGGGGCATCACCCCAGTGAAGGGCCTCAGTGTGGGGACTGCTGGCTGTCCCTTTCCTGGCTTGACTGCC
CCTGCTGACTGTGCTCTTGGCACTCTCTTATGGTCCCAGAGGGGGCATCTGTCCCTCCACCATCAACCTGATACTTTTGCTGGCTCCAAATTTTGCAGTC
TATTTTCAGATGTAAAATGAGAGGCGGGGGGCGGGGGTTAATTAGGAATTGGCCTTGGGTACTAACAGGGTCACTGCCATGCTAGTCTGAATAAATCCTT
TATCACCACTGGCGTACAGCCAACAGTTCCCCAGTCCTCTGATCTATCTGGAACCATGCCCAGCAGGGACTGTGCCCCCACTCCCAAGCCACATCGATGC
TAGGGCAGTCTGCTCAGCCCTGAGTCCTCCGGGGAGCAGGGGGGCAGAGCTGAGCGGCYGCCCGGAGCTTGGCGGGAGGAGGGGACAGGGGAGAGGGAGG
TGGGGAGATCCGGCTAGAGGGGAGGCTCTGACATCTCCTTCCTTCCTGGTTCCTGCAGCAGCTGCTGCCACTGCTCAGCGCGGTGAGGAGGGAGCCGGTG
ACTCGGAGACRGTGACTCAGAGRCAGAGCGGCGCAAGGGCCAAGRAGTACTGGCGTCCATGGACCCTGGGGTAAGGGGGCTGCGTGGCAGCAGCTGACAT
TCCTGAGAAGAGCTTCCTCCCACCTGAAGCTGGTGGGTCTGCTCCTGAATAGAGGTGGAGAGGGGGCACCCACCTGGCTCACCTAGACCCTTCACCTGCC
TACCGATAGAGCCTCCCCCTCTACCCACAAGCAGTGAGGGGCCAGGATCCCCACAGGGCCGGGAGAAGGGCCCAGAGATACCTGAACACCGGAAGAGTTT
GAGAACTTTCAATGGCTGAATGCAGGAGTTTCCTCCCAGGTCAGCCTCTTGCAGCAAGGGTCCCTCTGCCCCAACCTCCTGGGCACCCGTTCCTGCCACA
TCCCTGTCCCCTCTGGGCCTCAGTTCCTCAGGTGCTTGCTAGCTCCATTAGAAGATCTGGGCTGCTTCCCCCACCTCAAACCAGCCTCGCCCCTCCAGTC
CCCTCCCCCGTCTCACACATGCAGAGCCTCATGCATTATTGATCTCCCGGTGGAGCCAGGATGGCCAGGGCCAGTGCCAAGGGTGCCTGTGGGCACTGCT
GCAGGACCTGTGCAGACCTGGGCATGTCCTGGGCCCCCTCTTCTCTCATGAAGTATCTCCTTTAGCCCAATGTCCTGCCCTCTCTGGGTGGGTGGCACTT
CTCAGAGCCCCAAGGACTGTGAGGGTAGACAGGGGATGGTGAGGCTTTAGGGGGTACTGAGGGTCCAAAAAGGGCATCCTAGGGGCATGTTTGGTGGGAG
GAGACATGGGAAAATGGGGGCTATCTCAGGCCTCAGTTTCTCCAAGCACTAGATAATATGGAGATTAATTGGTGGGAGGCTGGGGAGTTTTCTGCAAGAT
CATGGCAGAGAAGTCTCTGAGCTACGGTGGCAGGGTGGAGGGGTCCTGAAGGCAGAGGCAGCTGGATTGAGGAGGTCTCGCTTGTCCAGTCTCTGAACCC
CTCTGTCTCTTCTTGGAGCCTCTTCTGTCACTCCCTTGCTTCACCTCTGAGCACTCCCAGGGAAGCCTCTAAAGAAAGCACTGAATGTTTCTTGGAGCCC
CAGAGTATGTGCCCAAGGCGGGGCTGGGCATATGTCTTGTGGTTTTCCCTGGGCACCTGCCCGTCTGCTGTGTGCTAGTTCACTCTCAGGGCAGTGTCCA
TATCAGGTGAAAATGGGTGGGGTCGGGACAGAGGGGCAGACTTGGGAGAGGCTTGGCAGGTGAGCAGAGGGTATGTTGGGGAGCCCTTATCTCAGAGGGT
GTGGGAGGGGCTGGAGGTGGGGAAGGTGATAGCAGAGTTTGCGTTAAGGGGGTCTTTCTCTTGCTTCAAGGACCCCGTCAGGAGCAGGTGACATCCTTCC
CCTTCCACCCTGCTCCCTGCTCTACATCCCCAGCAGGGAGTGGCCTCTCCCTTCTCCATGGACTTCCAAGAGAGGGACCCGCCCTTCCTGCCTGAGAGCG
CTCAGTCCTCAAAGCCCAGCAGTGCTCAGCAGGTCAGAGAGTGGGAAAGCGGTGGTGGGTGGGCCAAGCTTGAACCAGACAGGGAGGGGCCAAGGCGGAC
GTCTCACCAGTGCTCCCCTCCCTCTGTCCTGGACTGCAGGCCTCTGAGCTGTGGGAGGTGGTGGAGGAGCCTCGGGTCAGGCTGGGGACAGAGGGTGTCA
TGCCTGAGAGGCAGGAAGGTCACCTGCTCAAGAAGAGGAAGTGGCCTCTGAAGGGCTGGCACAAGGTAGGGTGGGCAGGCAAAGGGAGGGTCCAGACATG
GGGGGCGGGGTGGGAATGGGGGGCAGCTGCTGGGCAGTCCAATGGTGTTTGCATGATGAGAAGGAAAAGAAAAGCTAATTTGTGTGGTTGCCTTCTCCCT
CATGCCCTTCCTCTCGGCCTCCCGGGTCCTGTCACTCCTGGGCAACATCACAGAGATACTTTGTGCTCGAGGACGGGATCCTTCATTATGCAACAACCCG
GCAAGACGTGAGCCCGGGCAGTGGCTTGGGGTTGTGGGAGGAGTCTGGCCCCAGTATGCCCTGGGCAGGCATGGGGTATCTGGAATCGACCAGAGCAGGG
TCTGAATCCCAGGTCCACCACTTGCTGAATGTGTGATCTCGGGCAAGTTACATCCCTGGGCCATAGCTTCCTCACCTCTAATGGGAGAGCACCATCCCCC
AGGTGCAGAGCTGTCATGGTAAGGGAGGTCATACGTACAAGGCTCTCTGGACAGGGCAGAATAAGTGCCCAAGAAATGGGGGCTTTACCACCCTCATCCT
GGTCCCATTCTCAGGCTGGGAACAAGGAACTGAAGGCCTGGGTACCCAGGATCTCTCTGGGAGGGTGTTGCCTTCCACAACCCTGCAGACCCCTGAGGGT
GGGAATAGTTTTTCTTGATCTGTGACTTCTTAGAGACCAAGATGTGACTTGACGTAGGGGAGCGTTCTGCACATGGGAGGATGATTGACAAGTCTCTACT
GATAGTGTGACTTGGACATGAGGGTGAACCTGCCACCTGGCCCTTGAGCCTAGAATGGCATCAGGGAGATGGTGGCTCTATGGCTCTGAGAGCCTAAAAC
AGGTCCCCTCTCCCTCTACCAACGCTTCACCCCCAGATCACCAAGGGGAAGCTCCATGGCTCCATCGATGTCCGGCTGTCGGTCATGTCCATCAACAAAA
AGGCCCAGCGCATTGACCTTGACACTGAAGACAACATCTACCACCTCAAGGTGACATCCCTGGGAGGCAGGACGTGTGTTGGCCCCCAACCTGACAGAGG
CATTGGAACACACAGGGGCAGGGGCTGAGGGTCTGTGGAACTCAGGGTCTGTCTCTGAGTTTGACAAAAAGTAAGTTTCCATCCTGTAAAAACAGCCAAG
GGCAAACCTGCACTTCTTGGTTGTTGTATGGACAGGCACAGAGCTAAGGGCTCAGACACCTGGGCGCCTTGCGCTCTGTCTCCCTGCAAGTGAGCCTTGC
ACAAACCAGGCTCTGTAAGAAGAGACCCTGCTTGTCTGGGGACCAGAGCCCTGACTTCTTGCTCTTGGAAAGTGGTCCCTCTCTTCAGATAGCCCTCCCC
CTCTCCATCACTTCTGCAGATCAAATCCCAGGACCTATTCCAGAGCTGGGTGGCGCAGCTGCGTGCCCACCGCCTAGCCCACCGCCTGGACATRCCCCGT
GGCTCACTGCCCAGTAYTGCTCACCGGAAGGTAAGGTGGACCCTGGGGTGGGGGCAGGTAATGTGGCAATTCAGGGGCRRGGGCTATGGAGAACTGTGAG
ACCCAGGGAGGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCTYCCAACAGMAGCTACTGCCTCAGCCCTACCTGGG
CTTGGACCGYGGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGGYTGGACCGCTGCTCTCATGGTGAGGGGCCCTAGGCGCAGCACCTCCAAGGGT
AGGCCCCAAGCTGGCAGGTCTAGGAGGGGATAATGTTACCTCCATCCCTGCCTCAGGGAGCCCCAGTTTAATGAGACAGCCTCTGCCTCCAAGGAGATCC
AGTCTACCTGGGCCCTGTCTAGGGGAGTCCCAGTCTTACAGAGGAGTAAGAGTCTGCCTGGGCACATAGACAGACGTGGATGCAGGGACAGGAGTTGTGA
CAAAGCAGATACTGAGTGCCCACACAGGGCAGGGGCCTGAGGAGTAGCGCCAGGGAAGGGGTGTGCTCTAGGAAAGGGTTCCTGCAGTAGGGTCTGTGAA
GTTGGCCTGGAGGGAGAAGTGTAAACCAAGTAGAGAGAGAGAGAGGGTGAGCACATCCCCAGTCTGCTCAAAGGCAGCAAAGGTGAGGCATGGTCTAGAG
ACAGAGCAGAAATTAGGCTTCAGACCCTCCCAGGAAACCAGGGGGCACCACACCAACAGGGGTAGCGACCTGAGCTCTTGAACAGGGAACAGGGAGCAGT
ATCGGGATCTCCATGAAGTCAGTGTTGGGAGAGTCATGTCCTTGAGGCTGGGTTCGGTGGCTCATGCCTGTAATCCCAGCACTTTTGGAAACCAAGGTGG
GCAGATCACCTGAGGTCAGGAGTTCGAGGCCAGCCTGACCAACATAGTGGAACCCCATCTCTACTAAAAATACAACAAATTAGCCAGGCATGGTGGTGCG
CACCTGTAATCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCATTCCACTCTAG
CCTGGGCAACAAGAGCAAAACTCCGTCTCAAAAAAAAAATGAATGGTGTTCTTGTTCTTGTTCTTTTTCCCCGCAGAGCTCTCTGAGTGTCAGGGGAAGC
TCCAGGAACTACACAGGCTCCTCCAGAGCCTGGAGTCCCTGCACCGAATCCCCTCAGCCCCTGTTATCCC


SNP Information

Context             (SEQ ID NO:41373):
ATTAGGGGCTGAGAAGACCCTTGGGTTGCACCCTCAGCCTAATGTGGCCCATGACCCACGAGGTAGCTCTTCCTCCCACTTGTCCCCGATAAGCCATTTT
Y
CCCTGCTGTTCCCAGGTCCTGAAGCCCTTCCTGGAGGATTCCAAGTACCAAAATCTGCTGCCCCTTTTTGTGGGGCACAACATGCTGCTGGTCAGTGAAG
Celera SNP ID:            hCV2960530
SNP Position Genomic:     10741
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,7)   caucasian(C,12|T,26)   total(C,13|T,33)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,13)      total(C,1|T,13) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41374):
CTTGGGGCTCCCCTCCCCGGACGCCACTGCCACCTTAGCTTCCCTCATGTCCCACAGGGCAGAGGTGGGCTCTGGGGAGGCTGAAAACCTTGGAAAGCAG
K
GTCACCTCGTTCTGAGCAGAATGGGCCACTCAGCTCTGGGAACTCCTCATCGCTTGAGGCTTCATCCTCCTCATCCGAAATCCAGCGCTCCACCACAGGC
Celera SNP ID:            hCV25923093
SNP Position Genomic:     1056
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(G,29|T,5)   total(G,37|T,5)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41375):
GGACTCGTAGCCAGCCTGTTTAGCCAGCCCTGCGCATAAATACACTCTGCGTTATTGGCTGTGCTCTCCTCAATGGGACATGTGGAAGAACTTGGGGTCG
R
GGAGTGTGTTTGTCACTTGGTTTTCACTAGTAATGATATTGTCAGGTATAGGGCCACTTGGAGATGCAGAGGATTCCATTTCAGATGTCAGTCACCGGCT
Celera SNP ID:            hCV542406
SNP Position Genomic:     13422
SNP Source:               Applera
Population(Allele,Count): african american(G,6)   caucasian(A,5|G,17)   total(A,5|G,23)
SNP Type:                 UTR 3;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(G,-|A,-)   (G,-|A,-)   Caucasian(A,33|G,51)   African-American(A,6|G,70)   Asians(G,36|A,46)   total(G,157|A,85) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:41376):
TCCAAGGCAGAGATCCTGAAAAGATAGGGCTATTGTCCCCTGCCTCCTTGGTCACTGCCTCTTGCTGCACGGGCTCCTGAGCCCACCCCCTTGGGGCACA
R
CCTGCCACTGCCACAGTAGCTCAACCAAGCAGTTGTGCTGAGAATGGCACCTGGTGAGAGCCTGCTGTGTGCCAGGCTTTGTGCTGAGTGCTGTACATGT
Celera SNP ID:            hCV2960532
SNP Position Genomic:     13682
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:41377):
ACCCAACCTCATCCTGATTCTTTTTTTTTTTTTTTTTTTTGAGACGAAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCAATGGCACGATCTCAGCTTACT
R
TAACCTCTACCTCCCGGGTTCAAACGATTCTCCTGCCTCAGCCTCCCGAGTGGCTTGGATTACAGGCGCTCGCCACCATGCCTGGCTAATTTTTGTATTT
Celera SNP ID:            hCV11419028
SNP Position Genomic:     12582
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41378):
TTTTTTTTTTTTTTTGAGACGAAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCAATGGCACGATCTCAGCTTACTGTAACCTCTACCTCCCGGGTTCAAA
Y
GATTCTCCTGCCTCAGCCTCCCGAGTGGCTTGGATTACAGGCGCTCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATG
Celera SNP ID:            hCV11419029
SNP Position Genomic:     12607
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41379):
TGGCACGATCTCAGCTTACTGTAACCTCTACCTCCCGGGTTCAAACGATTCTCCTGCCTCAGCCTCCCGAGTGGCTTGGATTACAGGCGCTCGCCACCAT
K
CCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCTGCCTCAGCCTC
Celera SNP ID:            hCV2544977
SNP Position Genomic:     12662
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,8)   total(G,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41380):
CCTCCCCCTCTCCATCACTTCTGCAGATCAAATCCCAGGACCTATTCCAGAGCTGGGTGGCGCAGCTGCGTGCCCACCGCCTAGCCCACCGCCTGGACAT
R
CCCCGTGGCTCACTGCCCAGTACTGCTCACCGGAAGGTAAGGTGGACCCTGGGGTGGGGGCAGGTAATGTGGCAATTCAGGGGCAAGGGCTATGGAGAAC
Celera SNP ID:            hCV29403794
SNP Position Genomic:     18994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41381):
CCACCGCCTGGACATGCCCCGTGGCTCACTGCCCAGTACTGCTCACCGGAAGGTAAGGTGGACCCTGGGGTGGGGGCAGGTAATGTGGCAATTCAGGGGC
R
AGGGCTATGGAGAACTGTGAGACCCAGGGAGGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCTTCCAACAGCAGCT
Celera SNP ID:            hCV29403795
SNP Position Genomic:     19079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41382):
CACCGCCTGGACATGCCCCGTGGCTCACTGCCCAGTACTGCTCACCGGAAGGTAAGGTGGACCCTGGGGTGGGGGCAGGTAATGTGGCAATTCAGGGGCA
R
GGGCTATGGAGAACTGTGAGACCCAGGGAGGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCTTCCAACAGCAGCTA
Celera SNP ID:            hCV29403796
SNP Position Genomic:     19080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41383):
GGGCAAGGGCTATGGAGAACTGTGAGACCCAGGGAGGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCTTCCAACAG
M
AGCTACTGCCTCAGCCCTACCTGGGCTTGGACCGCGGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGGCTGGACCGCTGCTCTCATGGTGAGGGG
Celera SNP ID:            hCV29403797
SNP Position Genomic:     19175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41384):
GGTTCCTGGTGCCCAGCTTCCAACAGCAGCTACTGCCTCAGCCCTACCTGGGCTTGGACCGCGGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGG
Y
TGGACCGCTGCTCTCATGGTGAGGGGCCCTAGGCGCAGCACCTCCAAGGGTAGGCCCCAAGCTGGCAGGTCTAGGAGGGGATAATGTTACCTCCATCCCT
Celera SNP ID:            hCV29403798
SNP Position Genomic:     19249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:41385):
CCCCCCACAGGAGGTAAGGAGGAATTTGGATACATGTCACTTGGTGGTGGGATGGTGGATTAAAGTAATCTTGTCTCTGGCCATAGTGAAGTAGGACACT
Y
AGCCATTGTCATGCACGTCATTATTTCAGTTTGACTGCCTGATCCAGATATTTTAAGATGAAATCCGCACTTGATTCTGTATTGGCTTTTGGGCTCTGGA
Celera SNP ID:            hCV25923110
SNP Position Genomic:     9124
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,2)   caucasian(C,23|T,15)   total(C,31|T,17)
SNP Type:                 INTRON


Context             (SEQ ID NO:41386):
ACAACCTGCCACTGCCACAGTAGCTCAACCAAGCAGTTGTGCTGAGAATGGCACCTGGTGAGAGCCTGCTGTGTGCCAGGCTTTGTGCTGAGTGCTGTAC
R
TGTATTAGTTCCTTTACTGCTGACCACATTGTACCCATTTCACAGAGAAGGAGCAGAGAAATTAAGTGGCTTGCTCAAGGTCATGCAGTTAGTAAGTGGC
Celera SNP ID:            hCV7454265
SNP Position Genomic:     13779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:41387):
CGGCTAGAGGGGAGGCTCTGACATCTCCTTCCTTCCTGGTTCCTGCAGCAGCTGCTGCCACTGCTCAGCGCGGTGAGGAGGGAGCCGGTGACTCGGAGAC
R
GTGACTCAGAGGCAGAGCGGCGCAAGGGCCAAGGAGTACTGGCGTCCATGGACCCTGGGGTAAGGGGGCTGCGTGGCAGCAGCTGACATTCCTGAGAAGA
Celera SNP ID:            hCV27857002
SNP Position Genomic:     15811
SNP Source:               Applera
Population(Allele,Count): african american(G,22)   caucasian(A,1|G,29)   total(A,1|G,51)
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:41388):
CAGATCAAATCCCAGGACCTATTCCAGAGCTGGGTGGCGCAGCTGCGTGCCCACCGCCTAGCCCACCGCCTGGACATGCCCCGTGGCTCACTGCCCAGTA
Y
TGCTCACCGGAAGGTAAGGTGGACCCTGGGGTGGGGGCAGGTAATGTGGCAATTCAGGGGCAAGGGCTATGGAGAACTGTGAGACCCAGGGAGGTGGGCA
Celera SNP ID:            hCV25753310
SNP Position Genomic:     19017
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41389):
CCCACAGGAGGTAAGGAGGAATTTGGATACATGTCACTTGGTGGTGGGATGGTGGATTAAAGTAATCTTGTCTCTGGCCATAGTGAAGTAGGACACTCAG
S
CATTGTCATGCACGTCATTATTTCAGTTTGACTGCCTGATCCAGATATTTTAAGATGAAATCCGCACTTGATTCTGTATTGGCTTTTGGGCTCTGGATTG
Celera SNP ID:            hCV25923047
SNP Position Genomic:     9127
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,2)   caucasian(C,35|G,1)   total(C,43|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:41390):
GTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAAGCAATCCACCTGCCTTGGCCTCCCGAAGTGCTGGGATTATAGGCATGAGCCACCGCGCCCAGCCAA
R
TTTCTCAATTTTAAACTAACACTGCAAAAGAGTTATATTTATGATTGGCAAAATAATTCAACATGAGTACAGTGTCAGATTGATAATTGAAATAATTTTA
Celera SNP ID:            hCV11626446
SNP Position Genomic:     9926
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41391):
CCTGATGCTGACTCACTTAAGGGGCAGAGAATACTGCACATGTCCTTGGAAATCCAGATTTCACAGGTCTCTGTAGGGAGGGGGCGGGACAGGAATCTGA
T
TTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTATCACCTAGGCTGGAGTGCGGTGGCACAGTCTCAGCTCACTGCAACCTCTGTCTCCTGGGTTC
Celera SNP ID:            hCV11626448
SNP Position Genomic:     11370
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,7)   total(-,7|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41392):
TCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCTGCCACCACGCCCAGCTAA
T
TTTTTTTTTTTCGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCACCTCAGCCTCCCA
Celera SNP ID:            hCV11626449
SNP Position Genomic:     11539
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41393):
GGACAACCGAATGATAGCCGTCTGCCAGAATGTGGCTCTGAGTGCAGAGGACAAGCTTCTTATGCGACACCAGCTGCGGAAACACAAGATCCTGATGAAG
R
TCTTCCCCAACCAGGTAGGGAGCAGGCCCCTTGGCATGGGTTGCCCATCTTCCCCCCACCCCCACCAGACTCAGACCTCACCATCTGCTCCCCAGTGATG
Celera SNP ID:            hCV25923263
SNP Position Genomic:     10484
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,5)   caucasian(A,6|G,10)   total(A,7|G,15)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:41394):
CACAGGCTGCCCGTCCAGGTCCAGGAGAAGTGGCAGGGCTTCTGTCACCAGCTCGCTGCAGAGCAGAAGGAGCAGAGGTTACCCAGGAGGGCACCCTGGC
R
TGGAGGATGCAAAGACACGCACCACAGCACTCACACCCGGAGGGGTGGTGGCTCATGAGCTAGGTAGGAGGTGGGGGAGAAGGTGTCATGGACAGGACCC
Celera SNP ID:            hCV2960542
SNP Position Genomic:     1250
SNP Source:               Applera
Population(Allele,Count): african american(G,6)   caucasian(A,2|G,36)   total(A,2|G,42)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41395):
GGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCTTCCAACAGCAGCTACTGCCTCAGCCCTACCTGGGCTTGGACCG
Y
GGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGGCTGGACCGCTGCTCTCATGGTGAGGGGCCCTAGGCGCAGCACCTCCAAGGGTAGGCCCCAAG
Celera SNP ID:            hCV25751840
SNP Position Genomic:     19210
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41396):
GAGAGCTCTAGGGTAGGAGGCCTCATGCAAGTCTTCATGAACCAGAAATTCCTAATAAAGGAGACGGGATGCTTAACTCAGAGTCCACCATCATCCTTGA
Y
TGGAGCACATTCTGGGTGGATGCAGGGGTGACCCGGGGAAGGTGGCTGTTCAACATTCCTTCTCGGACTTGAAGCAATGCCACCGCTTCCTTAGTCTTGG
Celera SNP ID:            hCV29403782
SNP Position Genomic:     14438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:41397):
TGCAGGGGTGACCCGGGGAAGGTGGCTGTTCAACATTCCTTCTCGGACTTGAAGCAATGCCACCGCTTCCTTAGTCTTGGACAGGCACTGTCTGGCAGGG
W
TGACCTGCAGCAGCTCTTTTGTGGCCTGGGCCAGGACCAGCTTCCCCCAGTGCCTCATCCTGTGCTGTATGCCCAGGGATGTTCAATCACTGGGAAGTGG
Celera SNP ID:            hCV29403784
SNP Position Genomic:     14559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:41398):
CAATTCAGGGGCAAGGGCTATGGAGAACTGTGAGACCCAGGGAGGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCT
Y
CCAACAGCAGCTACTGCCTCAGCCCTACCTGGGCTTGGACCGCGGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGGCTGGACCGCTGCTCTCATG
Celera SNP ID:            hCV25751933
SNP Position Genomic:     19167
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,37)   total(C,1|T,75)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:41399):
GTGTGTTTTTTCTCCATTTGGGATAAACTAGGGCCTCCAGGAGGTTGCCTCTAACCATGTTGCTATATGCCCTCCCAGGCCGGCTGCCTACCCTCCAGAC
Y
GTCCGCTATGGCTCCAAGGCTGTTACCCGCCACCGTCGTGTGATGCACTTTCAGCGGCAGAAGCTGATGGCTGTGACTGAATATATCCCCCCGAAACCAG
Celera SNP ID:            hCV25923013
SNP Position Genomic:     8889
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,7)   caucasian(T,38)   total(C,1|T,45)
SNP Type:                 SILENT MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:41400):
GATTACATGGGCCCCAAACTTAAAATATTTACTGTTTGACCATTTTAAGAAAAAGTTTATTTAACCTTATCCCCTTTTTCTTTCTCTCTCTCTCTCTCTC
T
TTCCTTCCTTCCTTCCTTCCTTCTTTTTTTTTCTGAGACGGAGTCTTACTCTGTGCCCAGGCTAGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTC
Celera SNP ID:            hCV27268437
SNP Position Genomic:     8240
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41401):
AGAGAAATTAAGTGGCTTGCTCAAGGTCATGCAGTTAGTAAGTGGCAGAACAGGGACTTGAACCAAGCCCTCTGCTCTGAAGACCGCGTCCTGAATTTCT
W
CACTAGAGCTTCCTCATCAGGTTACCCAGAAGTGGGTCCCATCCACCATCCAGGTGTGCTTGGATGTTAGTTCTCCACCCTCGAGGTGTACGCTGTGAAA
Celera SNP ID:            hCV7454255
SNP Position Genomic:     13934
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:41402):
AGTAATCTTGTCTCTGGCCATAGTGAAGTAGGACACTCAGCCATTGTCATGCACGTCATTATTTCAGTTTGACTGCCTGATCCAGATATTTTAAGATGAA
R
TCCGCACTTGATTCTGTATTGGCTTTTGGGCTCTGGATTGGGTGGGCCTCCTGAATTTCCTTCTTGTCTCCAAAAATGTGTGTGTGAGAGCTACCCTAGC
Celera SNP ID:            hCV25923103
SNP Position Genomic:     9187
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,1)   caucasian(A,37|G,1)   total(A,44|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:41403):
CAACCTCTGTCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCTGCCACCACGCCCAGCTAATTTTTTTTTTT
K
CGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCACCTCAGCCTCCCAAAGTGCTGGGG
Celera SNP ID:            hCV27268438
SNP Position Genomic:     11550
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41404):
CCTCATCAGGTTACCCAGAAGTGGGTCCCATCCACCATCCAGGTGTGCTTGGATGTTAGTTCTCCACCCTCGAGGTGTACGCTGTGAAAAGTTTGGGAGC
M
CTGCTTTATAATAAAATGAAATATATTCTACTTCCTTTATTTTGTGGTTTACACGGTTGTCCTCCCTCTAAACTTACTCTCAGGGGCTTCTCTGTCATCT
Celera SNP ID:            hCV735216
SNP Position Genomic:     14046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,13)      total(A,13|C,2) ;(C,-|A,-)   Caucasian(A,84)   African-American(A,84)   total(A,168)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:41405):
CAGAACAGGGACTTGAACCAAGCCCTCTGCTCTGAAGACCGCGTCCTGAATTTCTTCACTAGAGCTTCCTCATCAGGTTACCCAGAAGTGGGTCCCATCC
M
CCATCCAGGTGTGCTTGGATGTTAGTTCTCCACCCTCGAGGTGTACGCTGTGAAAAGTTTGGGAGCACTGCTTTATAATAAAATGAAATATATTCTACTT
Celera SNP ID:            hCV27268439
SNP Position Genomic:     13979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:41406):
CTTCCCCTGCCTGAGCCCTGGCACCACATACCGCAAGGAGGGGATGCAAGCCAGGTTCTCAATTTGCTGGATCTTATTCTGCAAGAAGAAACCGAAGTGG
R
GAAACCAAGCTGAGATCAGATGCGTCAGGGGCCCTTTACGGGGACAAAGCCCCAAGACCATGTCTACTCTGCAGCTGGAGATCTGGCACTTTGGGAATGA
Celera SNP ID:            hCV25923035
SNP Position Genomic:     2207
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,8)   caucasian(A,15|G,23)   total(A,17|G,31)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41407):
TTGATCTCAAACTCCTGACCTCAGGTGATCCACCGACCTTGGTCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCGTACCCAACCTCATCCTGATTC
T
TTTTTTTTTTTTTTTTTTTGAGACGAAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCAATGGCACGATCTCAGCTTACTGTAACCTCTACCTCCCGGGTT
Celera SNP ID:            hCV11626450
SNP Position Genomic:     12502
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,8)   total(-,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41408):
CCCAGCAGGGACTGTGCCCCCACTCCCAAGCCACATCGATGCTAGGGCAGTCTGCTCAGCCCTGAGTCCTCCGGGGAGCAGGGGGGCAGAGCTGAGCGGC
Y
GCCCGGAGCTTGGCGGGAGGAGGGGACAGGGGAGAGGGAGGTGGGGAGATCCGGCTAGAGGGGAGGCTCTGACATCTCCTTCCTTCCTGGTTCCTGCAGC
Celera SNP ID:            hCV27845236
SNP Position Genomic:     15659
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,39)   total(C,1|T,73)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:41409):
CCTGGTTCCTGCAGCAGCTGCTGCCACTGCTCAGCGCGGTGAGGAGGGAGCCGGTGACTCGGAGACGGTGACTCAGAGGCAGAGCGGCGCAAGGGCCAAG
R
AGTACTGGCGTCCATGGACCCTGGGGTAAGGGGGCTGCGTGGCAGCAGCTGACATTCCTGAGAAGAGCTTCCTCCCACCTGAAGCTGGTGGGTCTGCTCC
Celera SNP ID:            hCV27833637
SNP Position Genomic:     15845
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,19)   caucasian(A,11|G,17)   total(A,12|G,36)
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:41410):
AGGCTCTGACATCTCCTTCCTTCCTGGTTCCTGCAGCAGCTGCTGCCACTGCTCAGCGCGGTGAGGAGGGAGCCGGTGACTCGGAGACGGTGACTCAGAG
R
CAGAGCGGCGCAAGGGCCAAGGAGTACTGGCGTCCATGGACCCTGGGGTAAGGGGGCTGCGTGGCAGCAGCTGACATTCCTGAGAAGAGCTTCCTCCCAC
Celera SNP ID:            hCV11626452
SNP Position Genomic:     15823
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:41411):
CTGATGGCTGTGACTGAATATATCCCCCCGAAACCAGCCATCCACCCATCATGCCTGCCATCTCCTCCCAGCCCCCCACAGGAGGTAAGGAGGAATTTGG
R
TACATGTCACTTGGTGGTGGGATGGTGGATTAAAGTAATCTTGTCTCTGGCCATAGTGAAGTAGGACACTCAGCCATTGTCATGCACGTCATTATTTCAG
Celera SNP ID:            hCV27937116
SNP Position Genomic:     9053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 203
Celera Gene:                 hCG29594 - 84000314003876
Gene Symbol:                 ITGBL1
Protein Name:                integrin, beta-like 1 (with EGF-like repeat domains);OSCP;TIED
Celera Genomic Axis:         GA_x5YUV32W8MG(15168138..15472261)
Chromosome:                  Chr13
OMIM number:                 604234
OMIM Information:            INTEGRIN, BETA-LIKE 1;ITGBL1


Genomic Sequence (SEQ ID NO:12363):
GATTATGCTTTAGTAACTACACAAGACTGTAATATTTTTGAGACTCTCATTAAGATTAGGTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAG
GCTGGAGTGCAGTGGCGCAGTCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCTCCGAGTAGCTGGGACTACAGG
CGCCCGCCACCACGCCCGGCTAATTTTTTTTTATTTTTAGTAGAGACAGGGTTTCACCGTGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCGGCC
TCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGCGCCCGGCCTAAGATTAGTTTTAATCCGTATACACTTGTTTATGTTCTGTGATTTCAAGACCCAC
ATGTCACCAAATATTGCTATGATGAACTTTTAGATGCTCTTTGGGCAGGGAAAATTAAGGTTTAGAATACACACCTAAAAATGTAAACAGGCTAACTAAT
AGGCATCTCCTGCTTGTTGCCTCACTAACATGGATTTACATGTACAGGCGTTCCTGGAAGACAGTGCAATTTGGTTTCAGACCAATGCAATAAAGTACAT
ATCACAATGAGGCAAGTCACACAATTTTTTTTTATATTCCAATGCATATATAAGTTATGTATACACTGTACTGTATACTAAAATATATATATATCTTAAC
TTAAAAATACTTTATTGCCAAACAATGCAAATGATCATCTGAGCCTTCTGTGAGTCTGTGAGTCATAACCTTTTTTTTTTTTTTTTTTTTGAGTATCACT
CTTGTCACCCAGGCTGGAGTGCAATGGTGCAATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTACCTCAGCCTCCTTAGTAGCT
AGGACTACAGGCGTGCATCACCACGCCCAGATAATTTTTGTATTTTTAGTAGAGACGGGGTGCGATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCT
CAAATGATCCGCCCGCCTTGGACTCCCAAAGTGCTGGGATTACAGGCGTAAGCCACTGTGCCCAGCCCCTCATAACCTATTTGTTGGAGGAGGGTCTTGC
CTCATTGTTGATGACTGCTGGTTGATCAGGCTGGTGCTTACTGAAGGCTGGAGTGGCTGTGGCAATTTCTTAAAAATAGACAAGCATGAAGTTTGCCACA
TTGGTTGACTCTTCCTTTCATGAGAGATTTTTCTGTAACATGCCATGCCATTCAATGGCTTTTTACCCACAATAGAACATTTATCAAAATTGCAGTCACT
CCTCTCAAACTCTGCTACAGCTTTATCAATTAAGTTTATGTAATATTCTAAACCCTTTGTTGTCACTTCAACAATGTTCACAGAATCTTTACGAGGAGAA
GATTCCATCTCAAGAAACCACTTTCTTTGCTCATCCATAAGAAGCAACTCATCCATTTAAGTTTTATCATGAGATTGTAGCAATTCGGTCACATCTTCAG
GCTCTATTTCTAATTCTAGTTCTCTCACTATTTCCACTAAATCTGCAGTTACTTCCTCCACTGAAGTTTTGAACCCCTCAAAGTCATCCATGGGGGTTGG
AATCAAGTTTATCCAAGCCCCTGTTAAAGCTGATATTTTTATATTCTTCCATGAATCAGGAATGTACTTAACAGCATCTGGAATGGTGAATCCTTTCCAG
AGGGTTTTCAATTTACTTAGTCCAGATCCACCAGAAGAATAGCTATCTATAGCAGCTATAGCCTTACAAAATGTATTTCTTAATAAGACTTGAGAGTTAA
AATGGCTGCATAATAAATGTGTTAGCAGGCATGAAAATAACATTCATCTCCTCTCCAGCAGAGCTCATGGATAACTAGGTACATTGTCAACGAGCAGTAA
TAGTTGGAAAAGAATCTTTTTTTTTTTTTTTCTGAGCAGTAGGACTCAACAGTGGGCTTAAAATATCCAGTAAACCAGAGCTGGGTGTGGTGGCTCATGC
CTACAATTCTAGCAATTTGAGAAGCTAAGGAGGGAGGATTGCTTGAGCCAGGAGTTTGAGACCCTGTCTGTACAAAAATTCAAACAATTAGCTAGGCATA
GGGCATATGCCTGTAATCCCAGCTACATGGAAGGCTGAAGCAGGACGATTGCTTGAGCACAGGAGGTTGAGGCTGCAGTGAGCTGTGTTTGTGCCACAGC
ACTCTAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAGATAATAGAAAAAAGAAAAAAGAAATTCCAGTGAACCATGCTGTAACACATGTGCTG
CCATCTAGACTTTGTTGTGCTATTTCTAGAGCACAGGGGGAGTAGATCTAGCATAATTCTTAAGGGCTCTAGGAGTTTGGGAATGGTGAATGAGCAATGG
CTTCTACTTAGTCACCAGCTGCATTAGCCCCTCACAACAGAGTTAGCCTGTCCTTTGTTCTTTGAAGCCAGACACTGGCTTCTTCCCTCTAGCTATAAAA
GTCCTAGATGGCATCCTCTTCCAATAGCAGGTTGTTTTGTCTACATTGAAAATCTGTCATTGAGTATAGCCACCTTCATTAGTTATCTTAGTGAGAACTT
CTGGATAACTTGCTGCAGCTTCTGCATCAGCTGCTTCACCTCATATTTTTATGTTACGGAGCCAGCTTCTTTTTCTTAGACCTCATGAATCAGTCTTTGC
CAGCTTCATATTTTTCTTTTGCAGCTTCCTGACCTCTCTCAGACTTCATAGAACTGAAGAGAGTTAAGGCCTTGCTCTGGATCAGGCTTTGGCTTCAGGG
AATGTAGTGGCTGGTTTCATGTTCTATCCAGATTACTACAACTTTCTCCATATCAGCAAAAAGGCTGTTTTGCTTTCTTATTACTCGTGTGTTCACTGGA
GTAGTACTTTTAGTTTCCTTCAAGAACTATTCTTTTGCATTCACAACTTGGCTAACTGTTTGGGGCAAGAGGCCTAGCTTTTGATCTATCTCAGCTTTTG
ACGTGCCTTTCTCACTAAACTTAATCATTTCTAAGTTTTGATTTAAAGAGAGAGATTTGGAACTCTTCCTTTCACTTGAACACTTAGAGGCAATTGTAGG
GTTATTAATTGACATAATTTCAATATTGCCATGTTTCAGGGAATAGAGAGGTCCATGGAAAGGGAGAAAGAAGGAGGAACAGCCAGTTGGTAGAGCAGTC
AGAACACATACAACATTTACTGATTAGGTTCTCTACCATGGACATGGTTCATGATGCTCCGAAACAATTACAATAGTAACATCAAAGATCACTGATTACA
TATTGCCATCACAGATACGATAATAATGGAAAAGTCTGAAATATTGAGAATTACCAAAATGTGACACAGAGATACAAAATGAGCACATGCAGTTGGGGAA
GCAGCCCCGATAGACTTGCTTGAGGCAGGGTTGCCACAAACCTTCAATCTGTAAAAACAAAATACAATATCTGCAAAGCACAATAAAATGAGATGTGCCT
GTACAGAATTCAGCCTTGGCAGAATAGATGCATTTTGATAATGGAGTGCATTGGGAAATTTAAGGCAGTTTGCCTCCCAGATCGCCCAGCAGGAAACACG
ATGTGGAGTGTCTCTGGGGAAAGGAAAGAGATAACAGAAGAGATGTCGCTAAGTTTTGTAGCCCCAAAGACCAATCTCACTTTGCGTAGCTCTGTCTTGG
ATCTTGAGGGAAGTAACAAGTGTGATAAGATTCTATTGAGGAAAGAACTGCTGGGTTGGTGGTCTTCACTTGCCAGTGATATTCTAGATGAAAAACTTGA
ATAAGTCTTCTTCTCGTAAGTCAGCATCTCTAAGCAACCACAAAACATTTATTCATAATTAAATATTTCAAGCTATTGAAAGACACCGCGCATCATAGCT
TTTCCTTAAGGCGATGTTCCTCAAACTTCTCTGATAATAAGGATTACCTGGACCATCTTAACTATTTCCAGAGAGGTTCTCATTAAGTATCTCTGGAGTA
GGAAAGGCAACTGTGGAGAATTCCTCTTTATAAAACAGACATCCTTTCCTAACAGGCCAGAGTGGACTTGCCTACTTTCCTCCCTGTCCTGCGAGTCTGT
GTGCTTCAACCACCATCTGGACCAGTTCTGCAACACCTATAGACCCTGCACTTACATTGTAGCTGTGTTATCTGAAGCACTAAAAACAGGTGAGCGCAAG
TAGGTGGTAAAAATCCATCTGCTGAGTCAGAGTGGAGGTCTTTGAAAGGTTGGCATATGGCCTTTAATTGTGTCATTGAAATCAGCTGTGGATGGGAGAA
GCCTTAGTATACCCATCAACAGAAAATAAGGGTAAGTTCATAGAAAGATGCTATTAAACCTCAAAGAGACAGAAGCTGTGATGTTTATACTGGGCAGAAA
TATCTTTGGGCAAGGAATGCAATTGATTTTTCTTATGGAAAAAATAACTGCCTAATGACATCGGAGAGGTGACGGACACACTGTACTTGGAAAATCCTAT
GGTGGAGAAGTAGGTGTGATATTCACACTGTGCGTACTTTACAGATTAATCAAAAATATTTTCTACATCACCGTTTTGTTGTACTTTAGAATTATATTTT
CAGAGGAAACTAGGTTTTAGAGAAAAAAAAACAAAAGGAAGCCTGTGAAATCAGGAGTAAACAGTAATGCCAATTAAGCACTCGTGCTGGGAGCAAAACA
GAGGCCTCATTGTGTTGAGCCACAGCTGAGCCAATCGCCCAAAGGAACTGGTGGACTTCTAAAAACAAAGGTCAAGTTTCAAGTGAATCACTCAGCAACA
AAATGAAGAATATTTTGACCATTTAATAAAGGCTGCTACAAGATAGGAGTAAAGCTTTGGTTCCAAAACTAACCATGAAGAACTCATTTATTGCATAAAA
TATCTTAGCAAATACATGATAACCAGGGGCTCAGACCCTTCAGGATTGATGGGCTGGGTCACTCCATGAGACACGAGCTGAGAGGGAGAGGGATCCAAAT
AAGAGAGGGGATGAGCATCATTTACTGAGTTCGGGCCAGCTGTAGCAGCACTGGCTGTTGTTCATTTCAGTAATTCTCCTCTTATACATTGCCCAGAAAT
CAGGACCAACAAAGATCCTGGACAAATTGTCCCTGGATGGAAAAAACTTAAAGAGAGAAGCAAGTAGATCTGAGTAGCCTGAGAAGCAAGAGCTAGACAG
TGCTGGATACTACTGGCACCACACCCAGATCCTAACAGGCCAGTGCAATTATCACCCAACTTGTGTTAGGATGACTGCTAACTTCTCAGAACTGTCCCCT
TCCCCAGAGAATGACCCTCTTCTGAATAGCAGATGTCTTACATGGGTCGGTATAACCCCACCCTGACGCAGGGGCAGTCTGAAGTCAGGGACAAATGGAC
ATGTTTCTACAAAAGCTAGGCCTCTTGCCTCCAGGTGGACCAGCTCTGTGTGTCATTCTTCTCCAGAGTTCCCCAGAGGTCCAGGCTGAAGCTGAACTCC
ATCTCCCCATATATTTAGAAGGAGCATGCCCTGTGCAGTTTTGATTGCTCAGCAGCGTCTTCTATGTGCTGATCATGAAGTTCAATATTTTTGCATCTTA
ATTTTTGTTTGCTTGATTTGTAAGTTTCTGAAAAGTTTGTATTAAAATCCCCCTCTATGACTGAGGGTTTGTCTTTATTTATATTTCTGTCAGTCTTGCT
TTATATGATGTGAGGCGATGTTACAAAGTGCATACAAATTTAAAATTGCTATATTTTCCCAATGTAATAAAACTTTGGCCATTCCAAAGTGACTTTATAT
CTGGTGATATGGTTTGGATTTGTGTTCCCGCCCAAATCTCGTGTCAAATTGGAGGAGGGGCCTGGTGGGAGGTGATTAGATTATGGCCGGAGATTTCCCC
CTTGCTGTTCTCGTGACAGTGAGTTATCACGAGATTTGATGCTTTAAAAGTGTGTGGCACTTCCCCTTTCGCTCTGTCTCTCTCCTGCCACCATCCGAAG
AAGGTGCGTGCTTCCTTTTCGCCTCCCACCATAATTGTAAGTTTCCCGAGGCTGCCCAATCATGTTTCCTGTTAAGCCTGCAGAAGTGTGAGTCAGTTAA
ACCTCTTTTCTTCATGAATTACCTAGTCTCAGGTAGTTCTTTATAGCAGTGTGAGAATGAACTAATACACCTGGTAATGCTTTTTTCTTTAAAGTAATAT
TAGTGTAGCTGCCCCAGGTCTCTTCTGCTGTGTATTTTTCATCCTTTTTCACTTTCTATTCTTTAAACTTCTTTTTTTCCCCTATGATTTAAACTTTAAC
ATTTTATCTTTTTACTTTCAACCTTTCTGAATCCTAATTTTTGATATACTTCTGATTGTGCATGTTTGTCTTTTGATTTAGTATTTTGATCATTTATCTG
CCCAGATTTCCATTTGAGAAAACCTGCTGGTGGCAAATAGTTCCTTTTTTGTTGTTTATTTGATAATGTCGTTAATTACTAAGTCTTGAAAGATGAATTT
GTCCTGATATAATAAATTCCTAGTGTAGTTTAGCATTTATATTATCTCAGCACATTGAATATAAAATACCACTTCAGCATCTTCTAACAAACTAACAAAC
GTTTCTATTTTTTTTGAGACGGAGTCTCGCTCCGTCGCCCAGGCTGGAGCGCAGTGACGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGTTTCACGC
CATTCTCCTGCCTCAGCCTCGGAGTAGCTGGAACTACAGGCGACCGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAAAGACGGGGTTTCACCGTG
TTAGCCAGGGTGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGACCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCAGCCACAAA
CGTTTCTATTTTTGAGAAGTCAGTGCTCAGTCTATATGTTTTTCTATTGATCTATCTTTTTATATGTGTGTATATATATATATTTACTCTTTGTGTTTGT
TTTTCTGGAATTTCTCCATGATGGATTTATGTGTGGATGTCTTTTTATCTATTCTAGTTGAGATTTATTAGACTCGGAACTTATGGATTGGTATTAATTA
TTTCTTCTGCTTGTTCTCTCCTTCTGGGGCTCCAGTTTATGTACATTAGCCCATCACGCTTTATCCTTCATGTCTATGGATCTGTATTTCCTTTGTTCCT
TTATTATGTATTCTGAATAGTTCATCTGACCTGTTTTTCAGTTCACTTATACACCTTGCTGCATCTAAAAAGCTATTAAACCAGTCTTTTCAGTTATTAA
TTTCAAATATTTATTTAGTTTTTGAAATGCTATTTGATTTTTTATGTGGCTAGCTGTTTTTTTATTTCCTACAGATATTTTTAGGTTGCTCTTTATTGAC
TTRTGCTCTAAACATAATACAGTTATTTTATATTATATGTCTGGCAATTTCAAAGTCTAAATATTTTCTGGATCTGTTTTTGCAGTCTAATTTTTTCTGA
AGATTCTTCATCATGGTGTCTAATTTTCTCTCTCTGTTGCTTATTTTTTCAACAAGTGGTCTCGAAAAATCTTTTACAAAATTTTTTGAGACTTAAGATG
AAAATGGTTTCACTAGGGAGGATTTGTTTTAGCTTTTGTCAGACACCTAAAGACACCAACAGTCCATAGTACAAGGATGACCAAAATTCATGGCATGTGA
TTTTTTTTATCACCTGTGGGAAGGCATTTTGTCTAAAAATCTGTGCTAGTGCTTGCTCTTAGTTATAAATCCTTGGGGACAATGCTTCCTTATGCTCAGC
TTCAAGGCAAATCTTGTCCTCTGTCTTCTCAAGTCTATGGAATCCAATGGAAGATTTATAGCTTTTTCTTTTGCTATAAACAAAAGTTTTATTTAAACTG
GATAGGCAAATTCCCTTATGGTAGAAATGCCTTCAACCTCTGCTTATATTCCAGTATTCATTCTTGTTGCCTGCATTTCGCCTGATGATTGCTGACTGTC
TTATCAGCTCTTGGATGCTTTTAGGAAGAATTAAAATTTTTAATATTTAGTCTAGCTTTTATAATTATATTTACCAGGAAGCTTAGCTAGAAAATCTAGA
CCACTTTTTCTCCAGAAACAGAAGTCACTGGACACTTCTTTGAATCTTTCACAAAATACTTGAGTAGATGTTTTCACCTCCTTGCTGCCACATGAACTAT
GGGGCATGCTTCTACCTTAGGGCCTTTGCACCTAGCCTTTCCTATAAAGTACTCTTCCCTCAGAAATCTTTTGAGCTCACTTGATCCTTCACTTGTTTGG
GCTGTTTTTCAATTTTTATTTCAGAATTGGGGAACATGTGAGGGTTTGTTACAAAGGTATATTGCATGATGCTGAGGTTTGGAGTACAAATGTATCTGCC
ACCAAGGTAGTGAGTATAGCACTCTATAGGTAGTTTTGTTTTGTTTTGTTTTGAGACTGAGCCTCACTCTGTTACCCAGGCTGGAGTGCAGTGGCGCGAT
CTCAGCTCACTGCATCCTCCACCTCCCGGATTCAAGCAATTCTCGTGCCTCAGGCTCCCAAGTAGCTGGAACAMAGGCGTGGGCCACCATGCCTGGCTAA
TTTTTGTATCTTTAGTAGAGATGGGATTTCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGATCTCAGGTGTTCCACCCACCTCAGCCTCCCAAAGTGC
AGGGATTACAGATGTGAGCCACTGTGCTCAGCCTCTACAAGTAGTTTTTTCCAACCCTTATCCCCCTCCCTCCCTCCTCCCTCTTGTATTCCCCAGTGTC
TATTGTTCCCATCTTTATGTCCGTGTGTACCCAATGTTTAGCTCCCACTTGTAAGTGTGAACATGCAGTTTTCTGTTTTGGTTTCTTGTTTCTGCATTAG
TTCACTTAAGTCCTTCGCTTCCTGTATATTAACTTCCCAGTCAAACCTTCACTGTCTACCCCATCTAAAATGCCATCACCCCAATCCATATTTCTTATTT
TTTCATTTAAAACAATCTTTACTCCTTAGTTCTTTTAGATACCCAACATTCTCTATATTTTACTTATCTTGCCCATTGTCCACACCACTGAAATAGAAGG
TTCATCAGGGCAGGGGTTTTGTTTGTTTCACCCATTTGCTCTATCCTTAACACCTAGAACAGTGCTTAGCACATACTAGGCATTTAAAAATATGTATTGA
ATGAATAATGGAACAACTGCAGTCTTGGATCCTGTCTTTTAAGGACATAGACTAGTGTTTTAGAAATGCAGGACTGATGTAGCACAATTGAATTATTATG
GAAATGTTGGAATAGCAAATTAGAATTACAGCTAAAAATAAATAAATTGCTAAACTTTGGGTCTGGCAAATAAGGGCATCTGTCAATAGTTTAAACAGGA
GAGCAACCAATCATGCAAGTCAGTTGTAGAAGAGAGTGTACCTTGCACTGGAAGAAGAAAGCATAAACAGTACAAAGCATATTATTTCAGAGSATTTGTT
CTCTACTCCCATAGTTTTACTTTTTAAAATTTAAAATATATGCTCTTTGAGAGTAGGGATTTCTGTCAGTTTAGTTCACTGCTATATTCTCTCCCTCAAA
AGAGATCTTGTATATGCTGTGTGCAATAGTTACTTTTTGAATATGTGATATTATGAATATTGACATTGAYATTATTGTTGAGTAAATTAAATTATACATA
TGATTATGACATGAATATAGCCATAGCTTACTCAGCAAGTCTTTTAGTGAGATGGTCAATAGAAACCCATGATTCAACTGGATATCTTGATAGGCCACCT
GGAATTAAGTCTTCAATGAACAATGTTTATAGAAAAGCGGATTTTGGTRTCAAAGCAAAAGCTACTGCAGAAATAAGCATCTCTTTTGTACATAAGTCTC
TGCCTATCTACCAGGGTAGTTTAGAGGTATTGCCTATAAGTCACTTGTAGCAAAAGGTATGCTCTGTGCATATATAGATGGAGCCACTAGTAGTCCAGCC
TTTCTGTGAAGAAAACAGCACCCTCTATTATGGGGTGACTCAACACATATCAGGGATTATGGCTTGGAGAAAATATAGCAAGGCCTGGATTTCAGCCCCA
TGCATTCCCTCAGCCAGGTGTCTGTGCAAAGCATGACTTGCACAATCCGATATAGTGAGCTCATGTGTGGATGGCTTTCCAGAATGTTAGTTTGCATGTC
TACTAGCGGTGCACCGTGAGCCTGCCTCACCCATCCTCTTCAGTGTTATAGTCTATAGTCTTTCCAGTTGAAATGATGAAAAATCATATCTCATTGTTTT
GTTATTTTACCTTTTCTTGCTTACCTGGTGAGTTTGACTTTTGAACTACATTTTTATGTATTTCTTGTTTTTATGACCTTTTTCTACAATTTGCTTATTT
TGTTGGAAAACTAACATTTTATTATCAATTTATAAAATTTGATAAGATATATGTTGCTATATATATGTGTGAATGTGTACGCATTTATACATATACACRA
ATTATGTATATGAAGACATATATSTTGCTATTATTTTGCCAAGCTTATTATAATACATAGAAGAATATACTTTTTCTCTTCAGTGGTTCTAACAGTTGTA
GACTTTTAGTGAAAAACTGTGTTCAAAGTCTTAAATTAGGAATTGTTAATAATTTTTTTCATAAATTTTATAAATATTTCTCCCATTTAGTATAGGTTTT
ACTTTTTTTGTGATGTATCAAAAGTTCAGTAAACTCTRTTAGCCTTTTCCTTTGTGGTTTTTCCCTTTGTTTTTATGCTATTAACATGTATCAATATATT
TATATTTATAAATCTATATCTAGCTTTGTTCCATTTAGAATTTAGTTAGAGTTTGGTATCAACTGAAGACTTAGGTCATTTTATTTTGAAAAAAATAGCT
GTCCAAATATTTCATCATAACCATTAATGTTTACTGTATTTAGAATATAAGGTTCAATTTTGATTTATCTTTTCTGTGATATGATGTAAATGTTAACTCT
TGCACAAAATTTATTCCATTTTTAGTATCTTCCCCATAAAATGCACTTAAATAGTTAAAAGAAAAAGTCTTATTTGCCAACTGCCACTATTACAGTTCTT
TTCTATTATGTATTAGTCATATTGTAATTATTTCTGCAAATTAATTTTGGAAAACCATTTTATGCCATCCACAAAAGTAACATGTTAAGATTTTTAGTGA
CATTTCATTAAGCATTTGAGTTACCCTGTGAGTAACTGACATCTTTGTTATTGTCTAGGAAGATGGCATAGCCCTTTTCATTGAGTTCTAATTTGATAGT
TCGCATTAAATTTATGTATTTTCTCTTATAAAGGCTCCATACATTTCATGCAGAAGTCATTCTTAAAAGTTTTAAATATTTGGGTAACCATTGGCTCTGT
GATTTTCCCTATTTATATCCAAATTTGTTATTGCTTTACGTAGATAAAATATCTAGTTTTGTACRTTTATCTTGTATTTGGCTACATTTCTGAACTCTTA
AGAATTCTAAAAGTATTTAGTTCCTTCTGGATTCATGTATGTTGCTATTACTTTGCCAAGCTTCATGTGAGGCATAAAAGAAGATACACTTTCTTTTCTC
TTGAATGGTTTTAACATTGGTCTACCTCTAATGAAAAACTATTTCCCAGACCATAGGCTTGCCTGAGGTTTGCATGAACCTGGGGATGTGGAATGATTGG
CAGAAACCATATTAACCAGCTTCATATCCATTATAATTTCAACCAATGAGTACCACAGAGTGAGTTATGGTGAATCAYTTCCACAGAAGAAATTTCCTGA
GAGATTTCAATCCTGTTATATATRAAAATTGTCAGAAGTAAACAGCACTAGGTCAAAAAAGTTTTCAACTTATGTCAGCTCTTTTAGCGCATACATGAGA
CGTATTTTGTTCATTTCTGTATCCCTAGAACCTAGAACAGGACTAGAAAATAGTAGAATTCAACATCTATTTCTTTATTGCTGTTGAATATAAATTTGGA
GAAGTCAAATTGCCTATAGGAGAAAAATAACCTGATACTGACAAATCTATAGGCTTTGGAGTGTCKGCAGCGTCTACTAGTGTGTATTTAGAGGGAATTT
TTGAKAWGACTCAAGATTTTGAGTGGCATTTTATTAAGCATTTGAATTACTTTGTAACTGACATCTTTGTTATTGTCTASAAGAATGGCATAGCCCTTTT
CATTGAAGTCTAATTTGATAGTTTGCATTATATTGATGTATTTTCTCTTATRTGGGTTTCATACATTTCAYGCAGAAGTCATTCTTAAAGAGTTTTGAAT
AAGACTCTTATCCAAAATTCCCTCTAAAAACACGTTAGTAGACATTGGTGGTTGTCTGACCAATTAGTTCTCTCTCCCCTTGGCCATGTGCTCAGGGCAA
GGGCCAATCACCAACTCAAATGAACAGCCATGTTAATGCTGTTTCCGCCTTCAGTARTTGTGTTAGGCATAGGCATATGACATAATTTTGTTCAACAAGG
CTTGTGAGGTAGAGGGATCAGACCTTCTGAGAAAGATCTTTTTCATTCTTAAAAAGGAACGTTAAGTCAGAGACATGCTTTACTTCCCAGAGGATATTCT
GAGTGAGTTKTATGAGTTGGTGAGGTTTAGACTGGACACAGCCATCTGGTAACCATGAAGGGACAAGTCTGAGACCAGAGCCAACAGCCTGAGGATGAGG
GGCAAACACAGAGGAAGAATCTGGGCCCCATGAGGTCAACAGTGAGCTGCTAAAATTAACCTGAAATTTCCCTGCTGGGAGACATTGTGTTGTSAAATAG
TTTTATACCATCTTTTACTAGGTTTTCAATTACCAGCAGTTGGATGCACCCTGTGATCCAATGGATACAAATGAGATTTAGAAGTGCACTTTAACTTAAA
TAAAATAAATAGCCTTGTCTAATGTATTAACGAGAAAGACATTTTTGTCTTATTTATATGTCTTATGTTCTTTGAAATGAAATAAATGACCATATATGCT
TGTAAAGAGAGGGAGTCTACAGATATTTGGAGAAAGGACATTCTGGGTGGAGAGAACACAGAGTGCAAAGGACTTGAAGTTAAAGTGCATCCAGCAGTCT
CAAGGAAGAGTAAAGGGGTCCATGTGAGTGGAATAAGGTGAGCAAGGGAGAGAGGAGCAGGAGATGGGGCGCAGAGATAAGCAGGTGAGGTRCAGGTCAT
GGAATGGCTGTAGGTCATTCAAAAAACTTTTTTTTTTTTATATTTCCCCAAGAAATGAAAAGATTTTCAGCAAAAGAGCACAGTGGTCTAATAATGGCTT
AAGAATCATTCTGGCTAAGTTGTCTAAGGGGAATAAGGGCAGAAGCAGGGAGACCTGATTAGCTGTCTCCCGCTATTCGGGCAAGAGCAGATGTTGAGTT
GGAGTGGGAGCGGTGGGGATGGTGAGATGTGTGCTGATGCAAAATCATTTCCAAAGGATCTGACAGGAATCACTGAAGGATAGAGTGTGGGCAATGAGAG
AGAACGTGGACTGTGAGGAGTCAAAGATCACCCTGAGGTTTTAGGCCTGAGCCTCTAGAAAAATGAAGTTATGATTTATTTAGATGGGGAGGGSTGTAGG
AGGAGCAGGTTTAGATGTGGGKTAAGGGAAAAACAAGAGCTTGGTTTTGACATGTGAAACTTTGGATGCCTGTTAGATCTCCAAGAGAAGACTCTGAGTA
GCATTTGTAATATAGACATATCACAAAAGATAGAAGTATGTATGTATATACACATGTGTGTACATACATATATATATGAATATATCATTTATAGAAATAG
TCATATAGGAGTGTATGTGAGTTATAAATCTGGTAGTCTTCAGCATAGAGATGGTGTTTAAATCCTAGAAACTGGATAAAATCACCTAGGAAATCTCTTT
TCTATATAGAAATATAGAAGTGGTCCACAGTCAAGCATAGGGCATACAATAGTTTCAAGGCCAAGGAGATGTGAATGGAGACACTCTGCATAAACAACTC
CTTAAAGGAGTTTTGCTGTAAATGGAAAGATAGAAATGATGTGACAATTGAAGAAGGAAGTACATCAAAGAATTTTTTTTTTTTTGTACAGTTGGGAGAC
ATAACAGTACACTTTATGCTGAACTGGTGGACAGGCAARACATGATAATGCAAAGACTGGTRAATAAAGAAAGCATTGCCCTTGTGGAGAGGAGTGGGAT
AGGATCCAGTGGACAAAGGAGGGCTGGCCTGCACTAGAAGGCAGGTGATTCATCCACTCATTCACACTAGCAGAAAAGAAGGCAGAGTGCAAGGTCCTAA
AGGCAGGGAGTGGGTAGTTAGCTGACACAAGCTTATGAAAATTTCTTCTAATTGATTTTATTTTATGTCAGTAAAATAGGAAGAAACTCATTAAGTGAAG
GTGAAGATTGAAAAAAGATGTGTTGGAGGTTTGGGGAAAAGAAAGTTATGCATTAGTCAACTAGAAGAATGTAGGAGAAGCTGGATTGGACTGTGGGTGA
TTGCTAGAAATATTAAGAAMCCACGAAGGAGAGCATCAGGATAAATAGCTAATGCAMATGGGACTTAATACCTAGGTGATGGGTTGATAGGTGCAGCAAA
CCACCATGGCACACGTTCACCTAGGTAACAAACCTGCACGTCCTGCACATGTATCCCGGAACTTAAAATAAAATATTAAARAAGAACCCACTGGAAAGAA
TAGATCATGAAGTTAAAGCGAGATATGTACATTTTTGTCCTAGCCTTGCTCAGTTATGTGAGTGAATGTGATGATAATGCAGTCTGCTCTTGTCAGGATT
GTGGTTTGGCCTGGAGAGTAATACAAAAATCTTCAAGTCCAGTGCCACTGTGGCAATGTCTCCTGTGGYTGTGTTTCCCTTAAGAAGTTTAAGTCAGATT
CATGTGAGTTTCTCAAGTCATTGTATCTTGTGTGCTAGCATAGAGCTTTCAGAACTCATCAGCCCTTCTGCTCATGAAAGATACCTATCCTCAGAGAAAA
GATGAAAAATGAAGAGATGTATCATCAAGGGAATAAATGAGCCATTTGGAACCACATCAAGTAAATAAAATATTTCTCTAAGAAATATGCATTGTGGTTT
ATCACCAAAACCATTGAACCTCATTAACCTCAGTGATAACGTACACAATTGGTTTTGAGATGTTTACAGCTGGACTCTACCAAAACAYAAGACTATTAGA
GAGTAAAAGATATGGGAAATATATTCATTGGCTGGATACATTATTCTACATTAATATTTTCCAAAGGATTAATTTGGCCTCATCTTGGTTCAATACTGTC
TTTTATGGTAATATATCTTCTTATTTAGATTTTGAGGCTCTGAAAAAGAGGGCCTTATAAGKCTTCACATAGTCTTTTTTTCTGTGTCTTGTACTTTTGT
TTTTTTTAACCCAGTTAGGAGCTAAATCAGTATTTGCTTAATGAATTAACTACCAATTAATTCACAAATTCAGTTGTTCAAGTTTTAAGTGCTTTGTATG
AATAATGGTCCCTTTGATGCAATGGATATTTTTAGGGAGACAGTCAAATATTTTTATATTAGGAACTAAAAATTTTCCATTCCCTGACCAGAAATCAATC
TCAAAACACGGCCATGATAATGTCTAATTATGAAACCACCAGGGAACCAAAGCTTCCTATTTTAGTGTGAAAATAAAATAGAGGATGATGTTGAATAAGT
ATGTCCTCATTAGCCTTCAAAACATTCTCACATTGTTGGACTGGAAAAACCCTAAGAGGCTGTTGGCTTTATCATCTACTTCCAGGCAGGATGATAACTA
AATCATACCGAAAATATTGTTGCCTTTCTTAAATAAAAATCTTCAGTGAAAACTATTTTATAAAAATGTTTTAGTTATAAATTTTCATGATGCTGTATAA
CAAATTAAAAATTACAGACATGATCTGATTTTTATGTTTTTATCACATCAAACAATTGGTGTAATAAATCTTCGTAACTAAATTTTTGGACTCAAATAAT
GGTTTTCTTATTTGATATTTCATCATTGTTTAAATTTCCCAGAAGCAGGCTCTGAGATGAATATTTGTGTGCAATTTTAAAACAAGTGCTCCCAGGGGAG
ACTGACATCGAAGTAGAAGGAGGACAGGAGGTAGAAAAGATAACTGTTCAGTCTTAGGCAGAAGACCCACAGGGACCGGAACTTAGCATGATTATGTTTG
GGGATTCTAAATTATAACTTACACCTCAGAGTTGTCTAAACCTAAGGCAGATTTGCAGTTTTTCACCCAACAGTCATTAGTTAATAGCTTTAGGAGGGTA
AATAAGGAGGGGGGAATAAAAATAAACATTTAGGCACTTCTGACTCTGCATTTGTTGACARAGTGGCTCGATAGTCTGAGGGCAGTGACCTGAAGTTCTA
CAGGAGCTGGCGCATCCCACCTATACCAACAGAAGTTGCGAATCTCGGGGAACCTGGACAAGGYAGCAGCCATGTCTGCTACCCATGGCAGGTGCCTTCA
AGATGCTGAGAAAATACAGCCAACACATATAAAGCAGTTACAGTGCAGTGCAAAAATTAATTAACTAGTTGTCATTGTAAGTTCAACATAAATTGAGACT
GTGAAGATTATCCATATGGGCTGAAAGACACTGATCAGACATTGAACTAAACAGGTCTTTAAAAATGTGAAAGATTTAAGTACATGGAGAAGTAAGGGCA
TTTCAAGTAGATGCAAAAGCAAGATTTTTGAAGATCAAGAAACAAGTGTTGAGGTGGAATTAGGAGTACACAAGGTTTGCTGGGAAAAGGAAGAAGCAAG
ATTGGGCAGGGGGAGCCATCAGACTTCTGTGCTGACCTGACATTGCCTCTGTGCCAGCCCTGTGGGAGGCCCTTGATCCATGATTGCCCTAAGATTATAC
TACATTTGGCTCAAGTGGCTGGACTCTCAGATCACTGCTTTGTACAGCCAGAGACAGACCATCCTGAGAATATCGTGACCTTGGTTCACACCTGTTTTTG
AAGGGGTGAACAGCTGGTGGCGTTCAGCCTACCCTACTCCTCCCAGCTGGTTAACAAGTACTTTTCTGAAGGGAATTCTACACTATATAGCTTTATTTTT
GTTCTTATGGCTAAGTGCAAAATGTCAGAAATTATGAATGCTTGTGAGACAATATCAGACTATTTGTAATGGAATAGAAACCACCTTGGTAATCATAAGA
AATATTACAGATTGTGAGAAATATTCCTCGGGTCTGTGCTGCTTGTATTTCTCATCGTCTTGCAAACCTGGTGTCAGTCTTGATAGTACTTAATAGAYGT
ACACTGAATTTTTTTTTTGAATAACTGAATGAGTCTAGGCAMGTACTTGTTGCTATGGGAAGGGTATGGGGATGATCCAGTGTTCCAGCTSAATCAAAGA
AAACCGAGTTACCTGAGAACATGTGGCAGGGAAGGAGAAAGAAGTAACTRAAGTGGAAAACAGATGGGTGCAGAATAAATTTTACCATCTTTATTCTTTG
AACTAAGGCTAATTCTGTTCCAAAAGAAGCAATTGACTGTAAGCACAATGCTTTCTCTATAATCTACTAGCATGATTATCTTGCTTTGTATGCCTGACTT
TTGCAAGCATCGTGTTTCCACCTCATGAAGTTGTTGTATGAGTTAAACAAGATAAAATATCACATCTTGTTTATTCCAAGAGGCAATTATTTTGTTCACA
TTTTTGACAAATTTGAAATTGGATCAATAGCAATGAATGGCATTTTGCGATCTCTATTGGTAAGTCATGATGATGCACAAACATCCAAAGCTCTGACTTT
GAAATCTGCAAAACTGGTGTCAGGAACTTGCAAGAAAATTCTGAGATAGTAGCAGAGCAAGTGAGTTGTGTTGAGCACGAGTGGGCCATGGTGACTCAAC
TGAGTTCAGAAAACTTCTAGAAGTTGGAATAAAAAATYGGGCAGCTATAGAAATATACAAAGAGCTCAGCACCAAAGGGATTTGGCTTCTTTCATAGGTT
GTATTAAGTAAAACTGCATCACCTGCACTTAAGGACAATATATAATCAGAGGGTGATATATTGTATGAAAAACACAGTCATAYGATTCCAAGTTGAAAAG
TGAATAGTTGGACTCTCCAAAGGAGTTTTAGGAATATCTCAATTTRTTTCACCTGYGTTTTCTTTTTATTTCTATATAATAATATGCCAATATAATGATG
TTTTGGTAAACAAGGAACCACATATATGATAGGGATCCCATTAAGGTTATAAAGCCATATTTTTACTGTTTCTTTTCTATGTTTRCATATGTTTAGATAT
ACAGATACTTACTATTGTGTTACAGTTGTCTYCAGCATTCAGTACAGTAATGTCCCATACAGATTTGYAGCCTGGAGGAAATAGGCTATACCATACAGCC
CAGGTGCGTGGTAGGCTATCAGGGTGTGTATGTACACTCTGTGATGCTCACACAGTGATGAAATTGCCTAGTGATGCACTTCTCAGGGAAGACCCTGTTG
TTAAGCAATGTAGAACTGTAATAGGGAGATATGACAAAAAAWATACTTCTAAATAAGCCTAAAATATCTCTTTCAATAAATATAAAATTAAAATCTAACT
GATAAGAGCCTGTGTCATAGTTTAGTTTGCCACATTTTTTTCTTTTACAGTGGTACATAAAATGATGAAAAATCTCTCAATGGATGGTTGTATTTGATAA
ACTATGGCATGRAAAGTAATTCATACATCATAAGTTCTCAATGAAAGTGAATGGACTGGATTTTTTTTATTAGTTGTTGCTTACCAATCTTAAAGAACTT
AGGTAAGCCATTATAAAGAATTYCTTAGAATAACAAACACAATAAAAATAAAAATATAGAAGATAAACCATCCAGTTAATATCTTCTTGTTCCATAGTAT
AGGTTTCTCATTAACAGAAAGAAGTATAYGCTGTTTTYTTCTGCTTTTATATCCAATCAATTATAAATAGACSTAGGAAGACAGTTAATTTAAAACATGA
CAATTAAAAAACAATGAACTGCATTTTCTTTCCATTGTATTAAATAGTCTTTCAGTACACCAGGACACTTCTAAGAATATTTAGGTTTTCAATAACTATT
TAATGTGAAGCTTCATTTGACTCTACAATGCCAAACTGACTGATTTAGGGGCTAAAGTAACTGAAGGAACAAGTTGCTTGACCATTTCAACCAGAGCTTG
AAAGGCAAGTGTAATTTATTGTGTTGCCTGGTCAAGAGGAAGGCAGAAGGTGATAGGAGAAGTGGTAATCGACTGGGCTACCCACAGAGGAGGTAACAAG
CTGCTGGCTTTATCATTCAATACTTTTCTCACTCAAGCTACTTTTTTTTTTTTTTTTTTTTTTGGTTACTGGTCTTATTTACCCCTTCTTTATTCCATAA
AGAAATTCATATCTTACTGTTAGTAATTGATCTAGATTATTATATCAAATAAAAATTTCTATGACTAAATTTCATTTTCTGTTTATGAAAATGAAAAAGT
TTTGTGGACAATTTTCATCACAATAAGGCAGTGTTTATGGCAATTTGGTCAAAGAAATTACATCAAAATCCATATAATGTCAGTTTTATAARTTGAATAT
TATTATGGGAAAATGCTTGRGCTCTCATATKGGCTTTTATACTGTGATTATTATTCCCATAACACGTTTTAGTGTCTTACACAACTCAGGACAGAGTCTC
TTGACCCTGGCGCTAGCACACAACCTCATGAGCTTCTCTCTTCACCTATGGAACCTGTATTTAGTTTGTTGCCTGTGGTTCCCGAGTGTAGCTCTAGTGG
ACCAGGCTGTGTAGTAGGAAAGGTCTTGGCACAGAGTTCAGATCAAAATACACATAAATGAAATATATTTTTAACTTCTGGAAACTTATGCTATATAAAA
TAGCTCTATATGAATACCTATTAGCAGAAGACTCATACTTGTTTTCATCATTTCCAACTCTGATATGTATGTAGGATATATATATATTTTTTATTAATCT
ATTGTATATAATATATAAATAAAGCACCAATCCTATTGACACTATTCCACAAGATAAGGAAAGAGGGAATCTTCCCTAAATCATTCTATGAAGCCAGTAT
CACACTAATACCAAAACCAGGAAAGGACATAACAAAAAAAGAAAACTATAGACCAATATCCCTGATGAACATAGACACAAAAATACTTAACAAAATACTA
GCTAACTGAATCCAATAGCATATCAAAAAGATAATCCGCAATGATCAAGTGGGTTTCATACCAGGGATGCAGGGATGATTTAACATACGCAAGTCAATAA
ATGTGATACATCACATAAACAGAATTATAAACAAATACCACATGATCATCTCAATAGATGCAAAAAAAGCATTTGACAAAATACAGCATCTTTTTATGAT
TAAAACTCTTAGCAAAATCGGCATACAAGGGACATACCTTAATGTAATAAAAGCCATCTATGACAAACCCACAGCCAACATAATAATGAGGAAAAGTTGA
AAGCATTCCCTCTGAGAACTGGAATAAGACATGGATGCCCACTTTCACCACTTCTCTTCAACAGAGTACTGGAAGTCCTAGCCAGAGCAATCAGCCAAGA
GAAAAAAATAAATTGTATCCATATCAGTAAAGAGGAAGTCAAACTGTCACTGTTTGCTGATGATAATATTGTATACCTAGAAAACCATAAAGACTCCTCC
AAAAAGCTCCTAGAACTTATAAATGAATTCAGCAAAGTTTCAGGATACAAAATTAATGTAAACAAATCAGTAGCTCTGCTATATACCAACAGCGACCAAG
CTGAGAATCAAATCAAGAACTCAACCCCTTTTACAATAGCTGTAAAATAAAAATTAAAAAAATAAAAACCTTAGGAATATACCTAACCAAGAAGGTCAAT
GACCTCTACAAGGAAAACTACAAAACACTGCTGAAAGAAATCACAGATGACACAAACAAATGGAAACACATCCCATGCTCATGGATGGGTAGAATCAATA
TTGTGAAATTGATCATACTGCCAAAAGCATCTACAAATTCAATGCAATTCCTATCAAAATGCTACCATCGTTCTTCACAGAACTACAAAAAAAATCCTAA
AATTCATATGGAACTAAGAAAGAGCCCACATAACCAAAGCAAGACCAAGCAAAAAGAACAAATCTAGAGGCATCACATTACCTGATTTCAAACTCTACTA
TAAGGCCATAGTCACCAAAACAGCATGGTACTGTTATAAAAATAGGCACACAGACCAATGGAMCAGAATAGAAATAAACCCAAATACTTACAGCCAACTG
ATCTTCGACAAAGCAAACAAAAACGTAAAGCAAGAAAGGATACCCTATTCAACAAATGGTGCTGGGATAATTGGCAAGTCACATGGAGGAGAATGAAGCC
AGATCCTCATCTCTCACCTTATATAAAAATCAACTCAACATGGATCAAGGACTTAAATTTAAGACCTGAAACTATAAAAGTTCTAGAAGATAACATCAGA
AAAACCCTTCTAGACATTGGCTTAGGCAAAGATTTAATGACCAAGAACCCCAAAGCAAATGGAACAAAAACAAAGATAAATAGGTGGGACTTAATTAAAC
TAAAGAGCTTTTGCATGGTAAAAGAAACAGCAGAGTAAACAGACAACCCACAGAGTGGGAGAAAMATCTTCACAATCTATACATCTGACAAAGGAYACAT
ATTCAGAATCTACAAGGCTCTCAAACAAATCAGCAAGAAAAAAACAATCCCATCAAAACTGGGTTAAGGATGTAAACAGACAATTCTCAAAAGAAGATAT
GCAAATGGCCAACCAATATATGAAAAAATGCTCAACATCACTAATGATCACRAAAATGCAAATCAAAACCACAATGCAATACCACCTTACTTTCACAAGA
ATGACCACAATCAAAAAATCATAGATGTTGGCATGGATGCAGTGAACAAGGAACACTTTTACACTGCTGGTGGGAATGTAAACTAGTACAACCAATATGG
AAAACAGTGTGGAGATTCCTTAAAGAACTAAAAGTAGAACTATCATTTGATCCACCAGTCACACTACTGGGTATCTACCCTGAGGAAAAGAAGTCATTAT
AAGAAAAAGATACTTGTACATACATGCTTATAGCAGCACAATTCGCAATTGCAAAAATATGGAACCAGCCCAAATGCCCATCAATCAATGAATGGATAAA
GAAACTATTATATATATATATACACTTAGCCATAAAAAGGAATACTACTTAGCCGCAAAAAGGAATGAATTAATGGCACTTGCAGCAACCTGGATGGGAG
AGCATTATTCTAAGTGAAGTAACCCAGGAAGGAAAAACCAAATGTCGTATGTTCTCACTCATGAGTTGGGGGCTAAGAGATGAGGATGCAAAGGCATAAG
AATGATACAATAAACTTTGGGAACTTGGGGGAAAAGAGTAGGAATGGGGTGAGGGATAAAAGGCTACAAATGGGGTTCTGTGGATACTGCTTGGGTGATG
GGTGCACCAAAATCTCACAAATCACCACTAAAGAACTTACTCATATAACCAAACACCATCTGTTTCCCAAAAACCTATTAAAATAAAAAATTTTAAATAT
ACATAATATATATTTTATATAATGTATATTATATATTATATAATATATTTTAATAGTACATAAAATATTTTGTTGTATGTTAAAATATATAATATATTAA
ATATATAATATAAAACATACATATAAAACTTACATATTAGAGTTGGAAATGAAATATTTATATACATTTTTATATAAATTATATGAATATATAAAACACA
CATGTATATATGTTTATATATGTGTGTATAATATACGTGTGTGTCTGTATACACACGTGTACATATGTGTGTGTATGTGTATCTGTTCTTCATCTATTAC
TAGAAGACACTGTGGACAAATACATAAYATAATCATAGAAGTTCAGCATTAGAGAAAACTGATATTCCCTTCAAGCATGCCCTTGTGGAAACAGAATTTA
GGAGGTTAAGAAACCTGGCCAAGGTCTTCAGCTATTGGATTACAAAGGCAGCAGCACAATTCATCTCTGAACGGTTAAGTCTCCATGCCACTTGTGTGCC
TAGTTACGTGTGTGCCTAGTTACATCCTCCTGCTTATTAACAGCTAAATACCACTTTAAGAATTAAAARTCTATTCATTGGCATAAGAATAATATTTATG
TGATAAGTTTCTTTTCCCCTAAAGTCAATGAAAATGACTCCTAGAWTTTTTTCCTAAAATTTCCTTCTAGCATCAACTAGAACKGCCGAAATATTCAGAA
GAGTGAAAGAATATTTCTCATCCCAGAGACTCCTAATATTTCCAGGTGTTTTTGCTATGTGGGAGGGAAAAAAAGCCCTCTGGTTCTGTGCTAACATCTG
GAAAAGATGTTAACTATACACCTTTTTTTTTTTTTTTCTAATTCCACAGATCTGGCTCAGCTGAGAAGCTCTTTTTCTTGGAAATGCAAACTTATTTTTA
TTGCTGCCTGGGAATATTTAGCCTTCCTGAAAACTTTGGTGTGCCTTTTACTATTTGAAAACCTGGAAGGTGCCTTTGAGTGAAAATATCATTCAAGTAG
GTTTTGAGTGAAATTGAGATTTTTTTTAAACTYCAAACTTGACTGTAAGTGATTGTAACAATTAGTGCCACACATATATGGAGAGTTCAGTAGGTGCTGT
TTATTATCTAACTGTAGATTGGCTTTCTTGATGTTTTTTCATAATAGATAGAATTTTCTTTGTTTTTATATTTTAGTTGCCTAAATTCATCTCATTACYG
CACGKTGATTTTTGCCTTCCATTAAGCTTGAAATACTAATACTCTCATTTAGTTCAAAAGGTTGAGTTTAATCAACATGTTATTAAAAWTTTTAAACCAT
TTATTATTCATTTATTTTATAATTCATTCTGTCAGCAAATACTTGTTGAGGCTTTTCTCTGTGCAAGATACTGGGGTTACAGCAAAGAACAAGAGAGAAA
TGGTCCCTGCTCTCACAGAACTTGCATTGAAATGGGGGAGTAGTAGATTATTCACAAGTAGATAAAGATATGGAAACAATAATATTAGATACTCGTAAGT
ACTATCAATMAAATGGGATAAAGCGTGCTTGGACAGGGGAGTGGCTTTAGACAGCACAATCAGGGATCAGCCTCCTCTTTCAGAAGGTGGCATTCRAAGA
GAAGCCACTCAGCATGTAACCTGGGGGAGAGGGATCCTTGCAAAGGGGGCACTGAGGCAAAGAACAAGCTTAGGATGTTCTAGAAACRTGAGAAACAGAA
AGCCTCTGAATGGTTGGAGAGTAGTGAGTAAGGGGAACAGTAATGAGAGAYGAGGTTAGACAGGCTGACAGAGCCACATCACACAAGGCTTTGTAGGATT
TGGGAAGTAAGTAATCAACAGAAATTTATGGAGCAATGTAATAATGGGAGGAAGAATCAGTGAAAGAGTGAGTGGAGATGGAAGGAAGGAATGAAGGAAG
GGAGATATTGTGTAAAGATACAAACGCTGATTTTGCAGAGAAATTAAAAGTACCTAGAACTGAATTGGACAAGAATATTCTGCCTTTTCCAAGGATAGTR
ATGGTCAGAGCACGGCATACCTTGGTCTGAGTTAATATAGGTAATACGATAGGGGAGCGGGCAGCTGGAAAACGGAAACAAGTTMACAAAAAGAGATACA
CACATTTGAAACTGCTTTAACCAGTACTATCTGTATTCGTGGTTATTCGAATTGCTTCAACATGTGTATAATGTGTAGTGTGGTATGTGTAYGCATACAT
TGATCCTTATTTGTATCATACTTTAGATGTGCTTTATCAGTATAATGAATATTAGAATCAGTTTTTAATTGGTGGGATATATGTTGTTTAAGTTAAGGGG
TTGGCTTGGAGTGATGCTCTTGCATAAATAAAGTGTTAAAACCAGCCAGCCCATCAGTTACACCAGCTTTGAGGTACATGAGGTCTGGAGGCCATGGGTT
CTGGTTCTATTCACTAAAGACCTTGACCACAAGAGATTTGCSAATCCTGTGGGTGGTAAAAATGCCACTGAATATGCTTCAGAAGATTCAGAGGGAAGCT
TCTATACAAAGCTTAGGTTGGTATATCAGAAGACAGAGGGGTAGGGATATTACTTTTCCAGATAGGCTGTGTGACCACTCTTGCGTGTTTGCTGATAAAT
GCCTACGTGTTTGGCTATTTCAGGTCTGAGGCTCAYTTTCCTTGTGACAAATGCCTGATAGTTTGTGGGGCAGAAACTTACAGCTCTCCTTTCTCCCTCT
GTTGGGAACCACCTGATACTGCTGATGTTGCCAAAAATCCATCTGAATGACCAAACCAGTTTGTGTTGGTCAACTAAGTCAGTGTCCAAAAAAAAGCAAA
CAAGTGAACAACAGGGCTTGGTATGATTATTTAAGATCTTCTAGCCCTGGGGAKATCTTTATCCACACCCACATTTTGATGGACAATAAGAACTGCTGTC
ATGTTTGTTCACATTTACATTTCTGCAGTSTCAGACCAGTCCTTGGAGAAGCTTGAAGGGTCAAACTGTCATATTCTCCCAAAGAATCTACTGGAGAAGT
TATAATAATAATGCTTAATATCTCACAATTCAACTTGCCTTTAAAGCCCGGCATCACTTTAAAGTAAAAGAAAAGAGAGATTGTATCCAGACAAGCCATA
ATTAAAGAAAGGGTTTAGCCTAGAAAGAGCTTTGATTTCTGATGATGAATAGAAGTGTATGACTAGAAATAAAGCAACAAAGACTGGATTTACCAAGATT
TCCAGTCATTTCCTACTAAAATCTTGAGGAAATTTACCATCTTATGCTTGCATTTCAGCCCCTGAAATGGAAGCGTCATGGGAWTGCTTTCTGCAGTGGG
GATGTTTGMACAATGAGTTTATTAATTGATGCATGTAGACAAGAGACTGTTGGGTGGTGCTAGGAAGAAGAAACCAGCACCCTCAGAGAAGAGRTAGGGG
TAGTGCCCTGCCCCGTGCAGAGTGGACTTTACTGAATAGAACTTCATACCCTAAGAACTGGATTGCCCCTCATCACTCTGTGGCCTTGGTATACATATGA
ATTGCATTATTTTTAAAGGAATATGATCCTTGAAAACAGTTTTAAAAGACAAATGATGCACTACTAATAGACTTATGTAGGAATCYCCTGTCCCATCCTC
CTATCTCCAGTGTGGCTACCCTGAAGCAAGAACCTTCAACTTCTCTACCCTGAATCAACTGCAGTGCCATTCTCCCCAATGGCATTTACCTCCATGTTTC
TAAGTATGTGTTTGTGCTGCTTGTAGTTGATTTATGGTAGAGAAGACTTTAGCTCTCTCATATTACCATTCCATTTCCTCTATACCCCTGCTTCCTAATT
TGGTGATATTACCAGTTTTCTATTTGCTTGGTTGTCTATGTACATATGGTTTGTTTTCCCCTTAATCCAGTGCTTCTACTTGTCAAATTTATCATGTCAG
ATCTGGTAGGTCCATTTTCTGTTCTCTTGAAGATCTGCCTTCTAAAGCCTCACATTGTTATATAGCAGTCGAGAGTAGTTGTTCTGCAACATAGAACTTG
CCTTTGAAATTCCCCTTAACTTCATTATTTGTTCTTATTTTCATTTTTCTTCTGAGATTTATCTGAATTCCTGGATCCCATGTCTTCCCTGTCTTGATTT
TTTGACCTGAGAGTAGTGAATCAGATCTTCTATCAGCTTCCCAGGAAGGGGGCCAGGATGAAACATTTTTAAAAACCAATATATCTGAAAGTATTTTAAT
TAGCATGTATGTTGGATATAGAATTATGGGCTGAAAATCACCATCATTCTGAATTCCAAAAAAATTGCTTCCAATGTTACTATTAAAGCATCCAATACCA
CTCTAGTTCCTGGTTCTCTGTATGTGACCATTTATTCTCTTTTGGAAAGTTTTTTAAAAATATTACTTTCCTATTATTCTGAAATTTCCCCAAGATGTTC
CTTGGTTTCCATCATTTTCATTCATCTTTTTACCTGTTAAGTGAGACTATCCAATATGGAAACTCATGGTCTTCAGTTTGGGGAAATTTTCTTGAACTTT
TCTTCAATAATTTTATCCCCTTTATTATTTTTCCTATTCCCTTTCCAGAACTCCTATCAGTTAGACGTCAAATCTCATAGATCAGTCATTTAATTTTTTA
GTCTTTATTTGTATCAGTGTTTTGGCTTTCATTTTTAGGAAACTTCTCCTCATTTATTTTTCAACCCTYTTAGTGACTTCTTTCCAGCTAATTTATAATT
CACTTTTTTGGCACTGCATTCATTTTTGATTGTCCTATTTTTATGGCTGCACATTTTTGCAAGCCCGGATCTGCTTAGCTCTCTGAGGAGAGGGATTATA
CTTTCTTACTTAAGTTGCTTCCTGTTGCCTTCATCATCTTTGTCATCTGAGTTTCTTTCATTTGTGCTTTGTTTTTTTAGTTGTTTGTTTTGACTTGGGT
CTTTTATTTTGGAGGGGCTCCTTCAAGTTCTGGTGCCTAGTAATCCTTAGCAATCTTTTTATTAAAAGTGTGGTTTTGAAAGTCAGAGTGTAAATTCACA
GTATCTTAGTAGGACCTATTGAGGGTGAGCTCCACCACAGATAATTTTTTTATGAAAGCCTCAAATATTTACATTCATATCCATTGTGTGTGTTTGTGTG
TGTGTGTGTATATATACATATATATATGTATATATATGTTGAGTTTTCTAAAAACTAACAATTTAATYGATAGCCCCTGAGGGAAATAAGACTCGTATAG
GCCAAGTAAGGAARCAGGGTGGATTATCGCTGTTCAGTTGGCTCAGTTTCACTTAATTCCTCTTTTCTTTCATACTGCCTTCTGCTGTGTCCAGTATTCC
TGAGTCTAAAGCCTGGGGTCTCAATTGGGAAAGAGGTAACTTCCTATCTGAAAGATCACAGGTGAAAATCTGAGGTCAAATTTCTCCTGTAAGAGTATTT
ATACAAATCTTCTTGTTAACCTSACACCTCACACATCTTGTCGCTTTCAGTTTTTGAATCTTTGAGTCTTYTCTGCATTGTTGACAGAAGCACAATGATG
GAGCTGTCCAGCTCTACAGTTTCCATATGTGAGAGGCTTAATGATGTCAATACTGTTGGAGGTAGAGATTAGGGAACTGTCTTGAATCTGAGTGATCAGC
CTCTGGGAAGCCTGTCCTCTTATGCACAGGGCAAGTCTCGGTGAGAGGGGCAGCTGTGACTCATCAGCAGTTAYTACTGTCATCAGCGAGATGGGTGGAT
ACATGGGCCCCGGAGAGGGGATCTGGGAGGCACCACAACATCCACTAGGGAGACAGTCAGAGTCCAGATACAAAGTAACTTATGAACTCAGAGAGTATTT
GGGCTTTATACTATAAACAATGGAGAGCTACTACAATATTTTCAATAGGGAATGGACGTGATGAAATTTGCATGCTAGAAAGATGTCTTAGGGAGCAGGA
TAAATGTAGACACAAAAAGATAAGAATAAATGCAGAGAGACCAGTTGGGAGGCTATGGCAATAGTGTACGAGGTATAAGATGAAGATCTGAAATACATAC
ATTGAAGTGGAAGGCTAGATTACTAAGAGGTGGGCTCAATGTGATTCAGGGATTTACCAGAAAATCCAGATGAATTGTAGACAGGAACCAAAGGTAACTC
TCACAATTATGTCTACAGGGAATAAGTTAAAATGATATGATTAACAAAAATTGGGAATATAGGAAAAGGATCTGGTGTTATATAGATTCAAGCTGAATCC
ACAGTCATCTCAGGGGGATACCTAAGGCCAAAATGTCATCTGACAACTGATCCAGAATCCACTATATCACCTGCATCCTTTGTTGACTCATAAATTTATT
ATTYATGTTGTACATTATTTTTAGTTATTTTTGCCATAAATATATATCGAGTATGTAATATGTATTGGGCACTATTTTAGATGATGGCAGAAAAAAGTGG
TAGCCTATGTAATGGTAAACTAAGAAAAGTAAAGCAACCGATGGGATCTTTCATAATATTTTTCTGGGCAAAATGAAGAAATAGGTTCATATCAGACAAC
TCAGTACACTTGTAAGTGGTTGGATGGCCTCTTCAATATGTGCTAAGAGGCTAATATTGTCTTAAGAAAGATTGTATCTAAACTTGGTCCTCAGCCTAAT
TTTTTTTCAAATATCTTCTTAATTATTTGAATAAAGGTACAGAATGTGTGCTCATCATATTACTTTTGAGAGGGTGAAATAAATATAAAACAAGTAACCA
TAGTTATTTTTACCGACTGGATAAAAGAACAAAGCTTAGATGAAAAATAATAAAGATAAATATCAATTTGTGTTTGGGGAAAAATACACTTTTAAAAGCA
CACAACTGGGACAACGTGGCATTCAAAAAAGTGAATATGACCTTCAGTTTTATTGGGAGAAATATAGCATATGAAACAAGAATACTCAAAGTACTGATCT
ATTCCACATCCATTAGGCCACAGCTTCTTGAATGGTTTCAGTTGTATATATCATACTTTCCAAAAGGCATCCATCCCAGAAAAAGCAAAAATGCTCAGAA
AATCAGGGTTTTGAAAGCTTGAAGTTATAATACGTAAGAAAGAGGTGAAGGCAATGAAAATATTTATCTTTAAGAAGTGTAGAATTGTTTGGGGGTTATA
TAGACTGGGGAATATACTATTACATCATTGAATATTTGATTCAAGGCTAGTGGCTAGAATATTATTTTAAATGTCTTCTTAGAGTAGACCTGGAACCAAG
GGGTGAAACCTTCAAAGCAATTCTCAGAAAAGGATGTGGTCCTCTTAATTTTTGTTTTTTTACCAAGGCCACCTAATTACTTGGCAAATATACGGTATGT
TATCAACAAATTTAGTTTTGAACTAGACAACCTTTAAAAAATACCTTGAAGGCTGAAATTCTCTGATTGTGTAACCTGAGGACTGAAGGACTCCATTCAA
GGACTAGGGTGTTTTCAATCTTTTTGAATTCAGTTCCAGATGCACCCGGTCCTTTCAGGCACCCTTCATTATGCATCCAACCTACTGCTGTGTCCCCAGC
CAGCAGAAGTGAGAAACTCAGGACCTTTCTTGGCACATGTGCGTCCTTGAGGTTCTGAAAACTGGGAAAATGGAAGGAGTAGGTGTTTCCAAGGCATTCA
ATACTTTGGTTAAAAAAAAAAAAAAAGAATGCTAAAAGGCATAAATTTAAAGTTACCCTTTGATTTTGACAGAGTTTCTGTGGATCCAAGACTTTCGACT
GAGTCACCAAGTCAGCCACAATATAACTATTTCAACTGACTGGGAATATTATTTCTGAGTCATAGTAATGTAATGATCTGAACATTTATATTCTCTCAGT
TACCTAGTACATACTAACTTCATTTCAAAGGTGAATAATATATTAAAGAGAATATTGCTTATTGAATACTACACTGTATGAAAATACTACAGGTTAAAAA
ATCACTTAAATCCATTAAAAATGTTCAAATATCAAGTCCCTATTTCATAATAAATTTTCCCTCAGAAAATATGCAAGGAGTAAACAATACATGACTCATT
TATTAAAGCTTCCATGTTTTTATTGCAAATTCCTAGTTGGGCTTTGGAATAGATACTTCCCTTCTATCATTACCACATTCTCTGAGTCACTAGGTTTCTA
GATGTTGACAGGAAAGCCTGTTCCTATGTCCTTGTACTATCACACGTGGGCAGGATAAAATGTAACTCTAGAATTTGTACTAAAGGTGGGTGGAAATTCC
ACTCTTAGATCCAGGCACCCTCAGGCGTCAGCCCTGAGCCCTGTGCTTTGCAAACTTCTCAAGCTATTATTATGTAAAAATAGATATCTTGGGATATTAT
TCAAATGCACTCTGTGATTCCTTAGAGCTGGGGTTGGGGCCTGAGAAGTTGCATTTCCATAAGTTCCCAAATGATGCTGATGTTGCTGCAGGTCCATGGA
CCACGCTTTAAGAACAACTGACTTAGTAATTCCCATTCTGTCTCTTTTAGRCAGGCCCTTCCCCCACAGGCTGCAGTTCATGTGACTTAGGGAACCTGCC
AACTCAGAACCTGTGTCCTTTTTTCCTAAGCCGCACTTTGGTTATCCAAGACCCCAGAATTACCTGTCCAGACAGCCTCCCAAAACTGTGCATACCTGTC
CCCAGTCTGTCCTTGCAATAGAAGACTCCACCAGTGTGTACACACCTGTATCTAAGTGTGGCCAGAAAATCAGCTATTTGAAAAAGGTTAAATTGTGTGG
GTAGGGGTTGGGGGGTGGGGGGACACACAGATGGGCCTCATGCAAAACCTCCCCTATTACAGGGTGGAGATTGGGGTAGAAACAGAAATGTACTATGATT
AGAGGACCTTCATCGTCTTCTTGCTCCAGCAGGCTAGTGTTGTGGTGGTCTTACCCTTATACCTACTTATATATAAAGGACAGGGAGAAATCCCATCCTA
TTATGGCTCATCCCTGATTTTAAGGATCTGGGACCACAGATGATTCTTGGATGGTTCTATTTCATGAGGAAGGATTGCATGTACAGTGCTCTTCTTAGGG
TGAATGAAAAATGTTTTCCCCCTTCCATATAACCCTCTACACATTTTCCCAGATGACCATAAATGTAGGGGATAGTGTATGCACTTTGGATTTCAGCTGA
AATACGACTAACTTCCTCTGTGAATTTGAGCAAGTCAGTTGACCTCTTTGCCCTCAGTTTCTTTATCTTTAAAATGGGAGTAAGAATGTCTCCCTGTTCT
CTTCCATCTCCTTCTTATTTCTACCCAATTTAATTCAATACTTTTTTCAGTTTTTTGTTCAGATGCTACCATCTTTGATTAGATCAAGTGCCTGTATCTC
ATCTGGAAGTAACTTCTCACTGCACTTGCAACCCTTTGTTCTTTTTTTTTGTGGTTTTGTGTTGATTAATGTCTTTCTAGCTCATTGGACTCTGAGAGAG
CAGGGATCATGTCTCCTTAGTTCTCTGTTATATTCATTCTGTCTTGCACAAAACCTGGCACCTGATAGATGCTAAATCCCCATTTGCTAATGCATAAATA
AATGTGTGATTATTGTCATAATTAGAGAAAACATACTAAATGACTGGCACATAGTAGGTGCTTAGTAAATGACACCAATTGTTTTTCAGTGCAATTTGTG
CTATAAATAAACATTTAATTTTCTTTTCTCACATTTGATATATGGGGAGAATGGGGTGAATTTGAGACAACTACAATTTAAACTGTCCAAGTCACCAACA
AATTGTGGTGTGATAAGCTACTGGCCTAAACAGCTGGAAGCATGACACGCTTTTTAAAGACTAAAGAAATGAAATATCCAGTTTAAATCAAAGGATAATA
AATGCAAGAAAAAGTTGTGTTTGTCAGATTTCCTTGCCCCGGCCCCAACCCAAACTCCAAAGAGTGCATCTACTTTAAAAGCGTGTGGTGAAAGTAATTC
CCTACCCAAGTGTTCCCACTACTGTCACTGGCCTCACCCTTCTCCACAACTCAGGGATTATTTTAAAGGTTTCTTTAATATCGGCCAGTCCAAATATTCT
CTTGTCAAATATTTCTGTGGCCCGTACTTGAAATCTGTGAACAGGACACTTTTTTTTTTTTTAATGTCAAAATAAACCATCTGCTTGTACAACTGTTTCT
AATTACTTCCCTGCCTARACTCTCCACTGAGGGGTTTGGCACCAGCACCCCGCCCAGAGCAGTGCCGCTGCCCAAATCCTCGCAGGCAGCTCATCAACGC
AATTGCAACTCCGGCTGGAGCCCCGGACCTGCAAGCCTGGGTGTCCGTGGGTCCGTCTGCCCAGCCATCTGCTGGTGGCACCTCTCCCTCCTGCCGCCTC
CCTCGGTGAACCCCACCTTGCAGAAGTGCAGCTCGCCCGGAGCAGCCCAGGAGCTCAGCATGCGTCCCCCAGGCTTCAGGAACTTCTTGCTGCTGGCGTC
CTCCCTTCTCTTTGCTGGGTTGTCAGCTGTTCCTCAAAGCTTCTCGCCATCTCTGAGGTAAGTTTGGTTTGTTATTCTTCAGTACAGACCTGCCCTGCTT
ATGTGGCAGGGCTCAAGCTTGCAGGATGGCTGCCCTAAGCCAAGAGCTGTTATTAAATTGGACAAGGGATAAACTGTTTTCAACCTGTTCCTTTTCCTCT
CCTTATATCTACAGCGTGTATTGCCTCATGTCTGTCCTTTTGCTTTTCCTTTGGAAAAATGCAATCATTGAATAAAAATATAATTTTCTTTTCTGCAAAT
ACATATCAGGAGGAATTCCTGCTGTGAGTTAAAATGCTATGTGTACCAGTATCTTCTCACAACATGTAAAGCAGAATGATCTGTTTCCCAAGGGCAGCAA
CAGGAGGTCTGTGTTACATTTTGTATCATCCTGAAAGAGACTGAGTGAGGCACACTGCAATAGTGAAACTAAACTTTTTAAAAGTAGAGTTCCTAAAGAC
TGCTTAATGCAAATTATGCCCGATGCTATCATAGCATGTCTAACTCTTTCTATAGATTCACGTTTTCTCTTCTGTAATATAAGTGCCCATTGGCCATCAG
ATAGCAGTGGGACGTTTTTTAAAGGAGAACTGAAAAGTCAGCTGAGTGCCGTACCTTGGATTACTTTGTATTTAATCTAAATGTGCATATAAGATTTAGT
GATAAACTACCAAAGAGCAGGGCAGTTCACCTCTGTCCACCTGGAGGAAGGACCTGTGTCCGGGGGCAGGTCACCCATTACACATTTTGGGCCCTGGTCA
TTTCTCTGGTGGGTGATACCTGTTTGCTTGGGAAAATACAGCCCTTCCAGGCAGCGCTTGGACCCCAGAGAGATGTGGGCCTCAGGCGTCCTGTTCTTGG
GGTTGTACGTCTGCACCTGGAGGGGACACTGGGGAGGAAACGTGGGTTCGGAGCAGGGGGCGGCGTCYGCGTCTGACCCGGCCTGCCGGTTGCTTGTCGC
CCGCGCAGGAGCTGGCCGGGCGCCGCCTGCAGGCTGTCCCGGGCCGAGTCSGAGCGACGCTGCCGCGCACCTGGGCAGCCCCCGGGGGCCGCGCTGTGCC
ACGGCCGGGGCCGCTGCGACTGCGGCGTCTGCATCTGCCACGTGACTGAGCCGGGCATGTTCTTCGGGCCCCTGTGTGAGTGCCATGAGTGGGTGTGCGA
GACCTACGACGGGAGCACCTGTGCAGGTAAGAGGGCGGYGCTGTCTCCTCCCTCGGGAGGTCGAAACTCCTCTTCTGGGATTTCTGCCACTCCCTAGAAG
AGTGAAGGGTGGGGACACGCCTCCCTTCACATAAGCACCAATTAAGTTACTGCGATTGTCACACTTTGGCTAGTTAATTCTGGCATCATTTATCACAACA
CTTTTATCCCCCAGGCTCTGAACTTGAATGGAAGTAAAGTTTTAAAAATTCATTCACTTAATTATATATTTTATTGTAATTATGATTTTTTAAAGTTGGG
ATCTTGCTATGTTGCCCTGGCTGGTCCCCCCCCCCCCCCCCAACTCCTGGAATCAAGCTATCCTCCCTCCTGAGCTTCCCAAAGTGTTGGGATTACAGGC
GTGAGCCACTGCACCTGGCCGTCATTTGCTTAATTCTAAAATCTCACTTGCCTCTAAAGTTCCTCATTATAGACTAAATTCCCCAATGTCCTCACAAATG
GAGTTATTTTACTGGGTTCTCCTATCCCTATCAAGAATGTTAATGATAATATTTGTAGATCTTAGGCCTGTATTTTATTTTACATAGGARACAGTGGGAG
GGGGAATGTATTATTTTCCTCCATTCTAGGGAGGCAGGTTTTGTCTTTGAAGCCTGATTTGCCCTCTCATTATTAGAATATAGTTCACAGGCAGGAGTGC
ATATCAGAAAACTGTAACAAGGAAAAAAGTAAACGGGCACATATTTACTTAGAATGACTGTTCTTGCATTGTTCTAGCTGCTTGAATTTTTGAGTTGCAA
TGAAACTTGGTATTTTCTGAGGGTGGAGTGAAAATACATTCATTTCCCTTGCACATTTTTAAGGAGTGATTCAGGTTCTGATATTGGAAAGGGTCAAAAA
ATTCCTTCCCAGAGAACACCCTTAACCTCTTTACCTGTGTCGTTTTACTTAAGGCCAAGAGCCTCAATTAGTGCCTTGTGAGTGACACAGAACTCCATTA
GTGAAAGCACAACACAATGCATTCCAGCCAGGGTTTGGCAAATTTGTAGGAAAAACCAGCCACTTATTTTACCCTCAATGTAGCTAAGAATAATAAGACA
GCCAACACTAACATAGAAAGATCAAGAATGAGTTTATAGCAAAATATTTTTTTCTCRGARCCTGGKCCCAGTAGTGTATAAGTTACTTAATATGCAGGCT
GCTTGGCAATGCAAAAAATAGTCATAGAAGAAATTTGGAGGGGCGCAGGTGCATCTACTTGATTTGTTTTCCCTGTGAAGGCTGTGGATCAACTCTTTAA
AAATACTGAATGCTGGGTGGGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGAATCACTTGAGGTCAGGAGTTCAAGACCAGCC
TCGCCAACTTGCTGAAACCCAGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTCGTGGCATGTGCCTGTAATCCCAGCTACTTGGGAGGCCGAGGCAG
AATTGCTTGAACCTGGGAGGCAGAGGTTGCAGAGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGYRACAGAGCGAGACTTCATCTCAATAAATAAAT
TAATAAATAAAATTAAAATATTGGATGCCACAACTTGTTATTTAACTTCGCAGTCCTACAARCCGCAGTATWATTAAGGGTAGCCCTTTGGAATGAAAGC
TAAGTTACCGCCTAATATTTCATTCCAAATTTGACTGTTACTTGGCTTCTCTGACCTATGGCCTCTGGCAAGCCCTCTTCAATATCATGAATTTTGAACA
AATTTTCCAGGGCTTTTTCTCTTGTTTTATTAGAGAAGTAAGAGGTAAGATGCAGCCTTTAACTGGTGAAAGTTGTGAGTGTYGTCAGATTCACTTTCCC
TGTTGAAGAACCTAGGCTGGTGCTTTTCTCCGAGAAACTATGCAGAAGGAATGCTGTGGTAGACAGCATTCYTTTTTCCCTCCCATAGAAAATGATATGT
TGTTTACTCATAGCATCTTAGTCACTGCATTCCTTCCTTCTTGATAYGAAATGCAGGACTGAGTCAAGCATGGTTTTGTTTGGTTATGCATGCATTTCTG
TAGAAGATGAAATGCTTCTCTTTATTTTAATACTGAATGGAATAATGAAGTTCATTTTTTATTCTCATCTTGCTGACTGATGCCCATCAAAACTTACTCT
ACAGGGCCTTGAGCAGAATCTGTCCCCGCAAATGCCCTGACCACGTTTGTGGGGCCCATGCGGAGATCCCTACAAGTAGCACCTAGGGCTGCCTTGCGAG
CCCGTCGATGTATTCCATGCTTCAAATTTAGCTTCTCAGTTTTATTTTTAAGAGATAGTTCCAGTTGTATCACTGGAATATGGAAATATAGCAGGTTTCC
TATGTTTATGTGCCCCTGTGCTTTCACCTCCATGAAAGTTCCTGTAGGTCCTTTCCAGAAATAGAGTAACTTTCGGAGACCTCTCCAACTTCTAAGAAGA
AAACAAAATCCTTCTCTTATAGTACTATATCAYGGAGTGATTAAAAGTGTGGGCTCTGGGCTGGGTGTGGTGGTTCATGCCTATAATCCTAGCACTTTGG
AAGCCTGAAGCAGGTGGATTACCTGAGGTCAGGATTCAAGACTAGCCTGGAGAACATGGTGAAACACCATCCCTACTAAAAAACACAAAAATTAGCTGGG
CTTGGTGGCATGTGCCTGTAATCCCAGCTACTTGGAAGGCTGAGGCAGGAGAATCGCTTGAACCCGGCAGGCAGAGGTTGCAGTGAGCTGAGATGATGCC
GTTGCACTCTAGCCTAGGAAACAAGAATGAGACGCTGTCTCAAAAAAAAAGTGTGGACTCTGGGAGACAATTTCCAGGATTCAAATCCTAGTCCTATTAC
TTAATAGCTGTATGAACTTGGGCAGTTACTTAAACATTCTGAGCCTTGATTTCTTCATCTGTAAAATGGGAATAACAGTACCTAACTTATAGAGCTGTTG
TAAGGTTTAACATATGTAAAATACTTAGACTAGTGTCTGACATGAAGTAAGTGCTCAGTACATATTAAAATGTATATATACATAATATTATTACAATGAT
GCATAACAAGTGGGCTAGTATGGATGGAAGGATGGGTGGATGGAGATGACAGATGGGTAGATAGATAGCTGGCCCAGTGTTTGTTGGGCATTTAATGCAG
TGAGAGCAATTTACTTCTCTTCATGTAGTCTGGGTCTGTTACTGATTCAAGGCCCAAAAAGTCAAGTAGGGATAACTATTTTGGCCCAGCCTCAGGGCAG
CTGTATTAGATACACTATGCCCTTTTAAAGTTAAGTCCATTGGGATTATTATACTGTGAATCATAAGAACCATACTTATTATAGTTTGCGCTGGTTGAAA
GTGATTAGGTTCCCTCCATTAGAAGTCTGTTTCTTCCAGTGTCCACTTGTTCGTGGCACRTGCATCTTCCACAGACTTTTATAGCATAAAGATCCAGCCA
AGTGAGTGTTCCTATGGATGTGATGGTCTATTAAGGGGTAAAATAATTTTGGTAGAATGGTGAAACCCTGTCTCTACTAAATATACAAAAATTAGCTGGG
TGTGATGGTGTGCGCCTTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCGC
CATTGCACTCCAGCCTGRGTGACAGAACGACACTCCATCACAAAAAAGGAAAGAAAAAAAGAAAGAATGGCAAAATGTTTGATTGCATGGAAAGAAACTT
TCAGTTGATATTTCTAAAGCATTCCTGGTTGACCCCATGACCAGCTACAATGACACTTAAATAATGTATTGTTTTCTTAGAAATCTTTTGAAATTGCTGT
TGAAATATGTCACTTAAAGAGTTTCAGTTTTAGTAATTTAGGAAGAGCTAATTGAATTCAATTTAGCAACACTTATGAAGCACTGCATATTTTCTAGGCT
CTGTCCTGTTGAAGGGAGTGTAAAGATGAGGGATAGAAGGCAGCTTACCATTGAGTAGGGAGACACAGAGAAATACCAGATATCTATAATGTAATGCAAA
ATATCATCTGTACAAATTTTTATGAGGGCTCCATTGAGCCAGGGGTTATATATTATGGCTAAAAGTTCTTGAGAAAGAGGTAGCATTTGACATAAGCACT
TGAGTACTGGGAGATTTTTTAATCCAAAAAGTGGACTGTTGGAATTCTGAGTAAGGAAAATCTTAAGCAAAAGTGTAGAAGCAGAAAAACATGTGGATGT
TTGGGAAATAGGGCTACAAGGGTTGGCTTGGCTGGATCTTAGAGCTGTAAGGAAAGTAATAAAAGATATGTTGAGAATTACAGTTGATCATATTGTAGAG
AGTTTGTTCTTGATTAAACAGCATATAAGAGCTATTAAGAGTCCAAATATAGGAGTGATCATTAGTGCTCTGATTTATGGAAAGAAATACAGTCATTCCT
TGATATCTGCTGGGAATTAGTTCTAGGGAGCCTCCCCCACCAGTGGATACCAAGGATGTTCCAGTCTCTCATATAAAATGGTGTAGTATTTGCATGTAAC
CTATACACATCCTCTAGTAAACTTTAAATCATCTCTTGATTACATATAATACCTCATGCAATGTAAATGCTATGTAAATAGTTGTTATACTGTATGTTAG
TTGTATTATTTTGTACTACACTTTTTTATTTTCTGAATAGTTTTAATCTGCCAATGAGGAGCCCACAGATATGGAGGCCCGACCGTATGGTGCCCAAAAG
CATGGCAAGTTAAAGTAGAGAACCAATGGGGAGGAACTCCACGGGAGAGGCAATAAGAACAGAATTATTATTTTTTTAAAGGCCATTTAAAAGTAAAATC
AATATGAATTAGTGTCCAAGGATGAGTAAGATGAATTAAAACTCATGCTGGGTTTTTAAGTCTGCGAGATCAGAAGTGTGATGGAACTGATGGAGTCAAG
AAATCACAGGAAAGAACCAGATAACCAAATCCATGACTTAAAGTTCTTTTAAAAGAACTCTCATTTTTAAGTGGAATTGATATAAAATGAAAAATYAATG
CTAGCAGAAAGAGATTCTGATTTCATTGGCCACCACGTTTGGGGCAGGATGGGAATCTTGTCTGAATTGTTAACGTGGGTTAACTTGTTTATGTTGTTAA
CCTTGAGCCAGGTTTTTAATTTACCTGATATTTAGTGCCTTTTTCTGTAACAGTATCCTTATGGATATGAAGAACCTTCTATTCTGTGTGACATTGAGCA
TGATTTTATGTATGTATGTATAAATTTATTTAATATTCATATCCTTTATATACTTCTACATTTATTCAGACTATACGCCATCCTTAGCTGGGTGTGGTGG
CTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTAGCTGGGATGGCTTGATCTCAGGAGTCTGAGACCAGCCTGGGGAACATGGTGAAACTCTGTC
TCTACAAAAGATACAAAAATTAGCTGGGCATGGTGCACACCTGTAGTCCCAGCTACTAGGGAGGCTGAGAGGGGAGGATGGCTTGAGCCCAGGAGGCATA
GGTTGCAGTGAGCCATGATCATGCCACCGCACTGCAGCCTGAGCAACAGAGGGAGGCCCTGTTTCAAATAAATAAGAAATAAATATAAAAAATAAATATA
AGCCATTCTTATAAACATTGATTTATGTGTTCAAATATTAACAATATAACAATTAAAATAATTAGAATACATTGAAACATTTTTAATATGTAAAAATTAG
TAATTTTTTTTCTTGAAGATATTTGACTTTTATACTACGAAGTAAGTAGTATGGGAATTATATGTGGTTATTCATGAGAACTGGACTTCCTGGCTCTTGA
GGCTGCCTGAGGACTGTTCGACTTGCCTTTCCCTTCCAATTGCATTTTTCTTAGATTGTTGAACGATCTCCCTCCAAGCCTACTTGTGGATTTACTCAGG
CTTTTTCTTTACTAGTCTTTTTCTATTTTTCATCTTCTCTCCCTTCCTTCAATCCTCATCCTGTCTTCCTTGCCCACTCCTTCACCTCCGTCTAGCCCAT
CTTGGATTTACCGCCCCCTCTCTTTCGCAAAATAGCCCTTCCATGTCTCTGAGTCGGAGGCACCAAGCACGTAAGAATATTATCTGCCTTGAATCCCCTT
CACCAGTAAATAAATGTCTGTAACAGACAGACTGGCTTTCACATTGCCTCTTTCCTGTATTTTCTTCATAGTCTTCACATCGCTTGTAGTTTTTGGAAAC
ACATTCAGGAGTTCCCCACTAGCTCACCCACTGCATGTAAGCCATTTTTCGGGAGCTCTACTTTCTTACATTCATCKGTGTTCGATAAATGCATATTGTC
TTAGCCCAAGTGACGTATAAAAGTTAAATGTTTTCTTTCTGAAAGCAAGTGCCAAACATGCACAGCAATTTTCCTCAATTGTACTGCTTTATTTGGACAG
GGCTCTGCAGCTCTACCATGGTTTCTTAGTCTGTTTTGTGTTGCTGTAAAAGAATACCTGAGACTGGGTAGGTTGTAAAGGAAAGAGGTTTATTTGGCTT
ACAGTTTTGCAGGCTGTACAAGCAAGGCACCAGCATGTGCTAGGCTTCTGGTGAGGCCTCAGGAAGCCTTTACTTATGGAAAGTGAGGAGGGACTGGCAT
GTCACATGGCAAGAGAAGGAGCAAGAGATAGAGGGAGGGGTACCACATTCTTTTAAGCAACCAGCTGTCCTGTGAACAAATAGAGAACTCACTCATGACC
TTGGGGAGGGCACCAAGCCATTCATGAGGGATCCACCCCCATAACCCAAACACTTCCCACTTGATTCCACCTACAAGATTGGGGATCACATTTCAACATG
AGATTTGGAGGGGACACACATCCAAACTATATCACACAGAGACAGACATACCTTGCCCTGGACTAGGTCATCCCTGCACCTTGATGATCTAGAGGAACAT
ATTTATAGCATTGTGGTATTTAGATAAAATAGTATAAATGTGAGAAATTCAGGARTTATTTTCTATGTAAAGTTTCCCCAGAATGAGAAAGGAAAGGAAC
ATATGGAAACAAATTTATTTGTATTACAAATTTTAAATTTGCAAAACATAAACCTCCCTCATAAGGTTCTCAGAGTCTTCAATATATTTTGAAACACAAT
GCTAAAACTGACATCGCATGTTCTTGATATCATAAACCCCCACAAAAGCTGCTCAGCTCTCTGAGCCTCATATACATATTGTTACATCTGACCTTGTGAC
TCACCATGTTCATGTTCTTGAGGTAGGTGATCAATGCCCTAGGAGGGACTGGGTGTAGTGGCTCACATCGCCTGTAATCCTAGCACTTTGGGAAGTTGAG
GTGGGAGGATCCTTGAAGCCCAGTGGTTTGAGACCGGCCTGGGCAGCATAGCGAGACCTGCTCCCTACTAAAAATTTTTTAAAAATTGCCAGACCCAGTG
GTGGGTGACTGTAGTGCCAGCTATCAGGAGGCTAAKACAGGAGGCTCATTTGAGCATGGGAGATTGAGGCTGCAGTGAGCTATGATCAGGCCACTGCACT
CCAGCCTAGGTGAGAGAATTAGACCCTGTCTCAAAAAAATAAAATAAAAAATTCCCTGGGAGCAGAGAGCCCCGTTATCATTCTTTGGGGGAATTCCCTG
TCTGCAAAATTATGAAGTAAGACGAGACATTTTGCCAAGCTTCATATCCTGCCCTTGTATTATTTTTCTATTGCTGCTACAACAAATTACCACAAACCTT
GAGGCTTAAACAGCTCAGATGTCTTTTCTAGAGTTCTGTAGGTCTCAAGGTCCCCTGACATGGGACTTCCAGGGCCAAGGTGTTGATAGCCTCTGTTCTT
TTCTGAAGACTCTAGGAGAGAATCCGTTTCCTGGTTATTGGTGTTGAGATAATTTAGTTCTGTGTGGTTGTAAGACTGTGGTCCCCAGTTCCTTGCTGGC
TGTCAGTTGGGGTCCCTCTTGTCTTCTAGAAGCTACTTTCGGGTCCTTACAAGTACCCCACTCCCAAATCTCAAAACTGGAAACAGGTTGTGAGACCTTT
CTCACACCGCTGTCTCCCAGAGCCTCTTCCATCATCACATCCCTTCTTACCACCGTCGGAAAACATACTCCACTTTTAAGGTGTATTTTAACTAGACTGA
ACCCAGATAATCCAGGATAAGCTTCCCATCCAAGACTCATAAACTTCATCACATCAGCAAAGTCACTTTTGCCACGTAAGGTGACATATTTACAGGTTTC
AGGAGCAAGGGTATGGCTATCTTTGAAGGCCCATAGTCTTCTCAGCATAGTCACCCTCCTATAAAGTGCAGGGCACTCTGTATGTGTGAATGGCAAGGGA
GAGGTTCCAACTCCATTCATATCTGGCTGTTGGTATGCTCCATCGAGGATGCAAGGGCTGAGTCTTTTCCTTCTTTTCCGAGGTTATCTATATGATCTAA
TTGCTCTGGCCCATCTTTTCCATATCATTATTTTTTTTGAGTTGGATTCTCGCTGTGTTGCCGAGGCTGGAGTGCAGTGGAGCAATCTCAGCTCGCTGCA
ACCTCCACCTCCCGGGGTCAAGTGATACTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTGTAGGCATGCGCCCCCACACCTGGCTAATTTTTGTATGTTT
AGTAGAGACAGGGCTTCACCATGTTGGCCAGGCTGGTCTCTAACTTCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGCGATTACAAGC
RTGAGCCATGGCACCTGGCCTTTTCCATATCATTTCTGATAAAGAACACTAAGTGTCTTTCTAAAGCATGAAGAGAGGGACTTAAGCCCAACAGTTGCCT
GCATTCAGTTCCTGACATTGTCACTTGCCCACTGTGGAGCTACAGGGAGGTTACCCAAGAGGTTACAACCTCTGTTTCCTTATGGTTGAAAAGAGGGCAA
TAATAAGACCAAATAGGGATAATGACAGTGCCAAACACATATGAGTGATTAATAAATCACTGGAGTTATTATGCTTAAATATGCTAGACACCCCTCTCCT
ACCCTAGCGTAATTCCTGGTCCTAAGATATTTATTTTCAAATAAGCAATTTTCTTTCCATGTTATATCTTCCTCCATTACTAAATTCATGTCTTGGAATT
ACTCTGRTAGTCTTTGAACTATTATATCCCAACAAGCTTGCCTACTCTATAGTGCCAGGGCTGGGTGTGCCCTCAGCCCTGGCCAGCATGAGGAATCTGA
GAGCTTACTGTATCATGCCCCAACTCACTGCACTGCCAGCCGTCTGAGTCTTGTATATGTCTTTGTCTCAGAACCTGCCTTTTGTGTTCCTGTCCCTGAA
ATCTGTACCCTGATTTATATGATCATAATTGATCTAATGGAATGCTCCAGAACCCTACCCTCAGAACTGTATAATTAGTCCTTGAATTTGGAATTTTCAT
KCTTTTTCTCTGCTGGAAACCTTTAGACGTCTGCARACTCCCAGGGCTTACTCTATAAGTGCAATTCTGCTTCTGACTCTTCCCTCCACTGAGATGCCTG
TACTTCTAGGGTGTTCCTTGATCTCCTCTAAATTGTTGATCCCAAATAGGTTGATCCCAGAAACTGCTTCTTCAGTTGCAAAACTGCAGAAAGCAACACA
ATAAAAAAACAAAATCAAAATAACTCACATATTTTTAAAAATATGTAATAAACATTACTGAATGTTGTGGAGACATTGGGTTGTGTGTTATTTAATCATA
AGAATGCAAACTACTGAAGATTGAATAGGAGTCATTCTAGTTCTTTTTTTTTTTTTTTTTTTCCGAGACAGATTCTCGCTGTGTCACCCAGACTGGAGTG
CAGTGGTGTGATCTCAGCTCACTGCAACCTCCACCCSCCGGATTCAAACGAATCTCCTGCCTCAGCCTCCTGAGTAGCAGGGACTACAGGCGCCCATCAT
CACACCTGGCTAATTTTTGTATTTTTAGTAGAGACTGGGTTGGCCAGGCTGGTCTGAAACTCCTGACCTCAGGCGATCCACCCGCCTCAGCCTCCCAAAG
TGCTGGGATTACAGGCATGAGCCACCACGCCTGACCCATTCTTAAAACTCCCAATGCTTTGTTATGTACTTCAGCCTCTCTTCTTTATCCTGTTTGATCC
CCTCCTTCTCATCACATTTCTGTTTTTTTATTTCACTTTCAAATAATGTTCATTTTTCACAAGGAGTTTAGTTATTATTTCTGTCATCTCATTTTTTGCC
CATCCATGGCCTCTAAAATCTTGGCTTGTACCCCAAGTGTTGATGTACTCAGATATTAAGGACACAGACATATATGCATGTGTCTGTATGTATATATGTA
GTTTTTTACATTCTGGTTTATTATGTATATGTATACATAGAAGACCCAGAGAGGGTCTCTCTCTCTCTCTMTATATATATATATGCATATGTTTATATAT
CCTCCTATATATTATTTATGCTTGTATAGCCAATCAAAATACATATATTTTACCCATTTATATTTGGTATATGTATATATTTTGATTGCCTGTACAAACA
TAATATATATACACATATTTATATATGTATACATACATATTTGATACCCTAATTTTATACACATACGCCATACATATGTGAATATGTAAGTATGTGCACA
AACATACATATATATGTGTGTTTGTATATATGTGTGAGTCTAAATGTTATACACAGGGACATACATGCGTAAGCCCTTTTCTGGTAGACCACTACCTGCA
GATCGAAGTCAAGTCCACTTTCAAATTTCTGTAATGCTGACACTCTTGATATAAAGGTTGCTTGGGATTGATGCCACATGTGTAAACCTGCTAGAAATCA
ATATCTCATTGGGGAATACTTTTGTGTCTTTATCTGTTTAATGAATGCCATGAAAACAATGACGTATCATTTGGGTGATTCATAATTGGATTCTTTTTTC
ACTATGGAGTTAACTAAATGCTTTTAGGCTATTCAAGTCACATTCGAATTACAGTTAATAGTTGGTAAATGGTCCTCATATTGTTATACTAAAACTGTGC
AAAGATAGAAAAGAGAAAACAGCTTCTTTTCTTTTTTCAAAATAAATAATAGTGACATTCTTATGACTAATATATTTTAATGCTATATACATTTTTGTGG
AGTATTTGGAAATGTCACCAAAATTAGGTTTCATTGGAAATCCTTGAGTCTAGGGTTGGAGACAAAAATCACTCAGGATTCTCTTATAGCTGTCCTCTGA
AAGACATAGTCTTAAAAATATAAAACTATGATAAATTTTCTCTATCTTTGAGGCAATAATAGCTGCTTGTATTATTTTGCTTCTAATAATAAATTCTGAT
ATCTATTAACAGATATGCTATTCTTTGCTAAATTACTGTGAATTTTGTAGTCACATCTCAGAAGGAAGAAAAAAGGAAATAAAATAATGTGATAAATCAG
CTTTAGATTTGTCCGGTTTTAAGACCCTCTGCCTTAAGAAGCAGCTTGCATCAGTGGAAAGATAACTGGATTAGGAGACAGGAGAAACAGGCCCTATTAT
CTACTTTTCCACTTATCTACTATGTGATCTTGGCAAATAACAGTCACCCATTTATATTTGGTATGGTACTTCTGACTTTTTTGAAGAGAAGGTATGAGGT
TGAGGATCCCTGCAATGAGTAATTGGCAGTTTGTAGGGGCTCAGTAAATATATGTTCAGTGAATAAATGAGATTCAGCTTATTTAAATTACCATTATGGC
TATGGAATAAATATTTAGGTAAAGGCATCTGAAAAGATTAATAATTGAGGATAGCGGTAACTGTAGAGCGTAGAGGATAAAGACACTCATAACTTTAAGA
GCAGAGGTAGTGATGTTACTGATAAACAGTTGACAAGCCAACCAAAATGAAGACGTGGAGTCAGAAAGGCCAAGAAAACTTGGAGGGGAGGGGATCCTCT
TAGTCATCCAACTAAACTATGGCCAACTTTGACTCATCCTTTTCATTTGCTCTCATATCCTGCCAATATTGCTAATGTTTTTACTTAATTTTCTGCTGAA
TTTAGTTCTATTGCTAGTGACTTAGCTTAGCCTTCRTTTCCCTTGACAAGGAATATTAGTAATAGTAAAGTTCTTATCACACCTCATGCTTCATTCAGGC
TGTCTTCCCTTCTGTCTATCCTGTATACCACCACTTGGTGAATCACCGTAAGTGACATTTTGTCAAGTATCTGTGCTTTTCAAATTCACTTCAAAGATCA
TTCTAACCATTTATACTGGCCACTTATTCTGTACCCCTGCTTTGATTCACTTCATGAACACACATTGAGGGTATATACTATAGGTATCAAATCTAAATTT
TGGCTTCTAATCTACTTGGCCATTAAGACATTCTAGAATCTGATTCCTCTTTAATGGCATGCTGACCCGCTTCCTCTTTCTCACCTTGTATGCTCCCATC
TCTCTAGTTAGATCTTAACATCACTGTCACTTAATACAGTCTACACCAAACACATTTTTCATGATTTCACGTGTTTTCTTATGTTTACAAATATGCTGAA
TATTCTGAATACTAGCACCATCTCACATATTTTTCTGGAAACTAAAAACAAAAATATTTAGCACAAAAAATAGGTATTTAGCACAGTTCTGAGTAAACAG
TACAGATCGATCTTTCCTGGAGCTCTGCTTTGTATGGTTTTGAATTACTGTCTAGTGTCCTTTTATGTCAACCCGAAGGAAGGACTCCTTTAGAATTTGT
TGCAGGGTAGATGGTTTAGTCCATTCAGGCTGCTGTAACAAGATACCCTAGACTGAGTAATTTAGAAACAGGACAAATTTAATGCTCACAGTTCTGGAGG
CTGGGAAGTCTAGAATCAAGGTGCCAACAGATTCAGTGTATGGTGAGGGCTCATTTTCAGCTTCCTGGATGGCAACTGTATCCTCACATGTTGGAAGGGG
TAAACAGGCTCCCCCAAGCCTCTTTTATAAGGGCACTAATCCCACTAATGAGCCTGGAGTGCTCATGACCTAATCACCTCCTGCAGGCCCACCCACCTTC
TTAATACTGTCACGTTGGGGATTAGGTTCCAAAATATGGGTCAATATTTATATCATAGCAGCCGGTCTACTAGCTGACCTTGGCAAAGGGAAACCTCACA
TCAGTGGGACGGGGATATTGAAGCCTTTGTCCTTTGGGAAATYTAGCTTCCAAACCTGGTCTGAGATTTAAAGGCAAGAGTCACATCTAAGAAGGTGGAA
AAGTCTGGTACAGCTAGACTGAGAGTATCAGGGGAATTTACCAGGGCGTTTTTGGGACTCTACGTGGGTAAATTCTCAAGCTATTTTCTAATAACTTCTA
AATTGATAAAGATAGAGAGCTGCATGGGGGTTGCAAATCTCATTTTCTTTGGAAAAGGAGTGCTTTGTCTTTCCAAGAATCACATTTCCTGGCAAATAAG
AAACTATATTTTGTAATAGAAGTCATTCTCCTGTCTACTCTAAATCATCTTACTTAAGGCTGGGTAGAAGAATGAGGGCTTTATAAAGAGAAAAGAAAAA
TAAGACTTTTATAAGGGTGCTTACTGATTTGACTTTGTACAACCCCACTCTTAGGTTATACGATAAAATCAGTCCCTGTACCAAGAGCCCTATCGTTGTA
ATTGTTTGTACATAGTCACTAGTTCAAACACCGAATTATTTAAAGTGAATACCTACCCACTCTAGTTTCCTGTTCTGTTATTTTATCTGGAAACTTCCTA
GGGAAAGGTAGGCTAAATTTTTTTTTTTAAAAGAGGTCAATGAGTTTGGGCATTGCTTAAAAACTTCTCTTACGGCAAGGTATTAACTGTAAATTCATGA
CTTAGTCAATGGGGTAGAGTAAGGAGCCAAAATCAGAAAATGAAAACGTGGTAAATGCATTTCCTAATTGTTCATTACTGCTTTTTCAAAGCTATCATTT
TCTGCTGAGCAAAATAGTTAGACAAAACTAGTTATTTTTATAAACAAAGTGACTTGGCCATTTAAGCAGTTTCCTCTCCAAAATACAAAAGACAAGTTAT
AGACTATTTTCTTTTCTTTCCTGGGCAACACCATTAGTTATATGAGCTCTAAGAGCTGTCTTGACATGGAARTAATTCACTTGCTTCAAGAAAGAAAGTA
TTTGATTTGTTAACTATGTGCTCGAGAGACTTCTCTCAGTTGCCTGTTTGGATAATTTTAAGCCTTGAAATTAATGCTACATTAGAAATACAAATGAGTA
AGAGTAGTATCTACCTATATTTGAGTATAGTATGCTGGAAAATATTTTCATACATATGAATTCATTCACTTTTTATAATAACTTTTAAGAGATAGTCAAA
ACAATTATCCTCCAACTATTGTGCTAAGTAAGCCTGAGGAGAAATTCCTCCCACCCCAAATCAATAGAAGGGTTTTCTTCAGCATTATAGTAAAATTATC
CTAAAAGCACATATGTAGGGATAATTTCTTCATGAATTTTGGAGTACTGAAAGAAAAACATAATTTTCAGAAACTTTATTTACATTTAAAAATATAACTT
CTTTTTGGAAAAGTAGATTTTGATTCTTATTTTTGTCTTAGAGAGTGCATGTAAAAGCTCAAATGGTAAGAAAGTACTGGGCAAAAGAACCCGTTATGCA
TCTCATGTTAAAGAAAGTGAGATAGCCGAAATCACTGGGACAAAATTACTTGTCGTACTGATAATGAGCATTTTCTCAGCTGTAGTTGAAGTTTTTAGAG
AGATTGCATTTAACATCAACCATATCCAAATAAGAAGGATCCTCCTGAGTCAGCCTTTGAAGGAACTCCTCCATAACCTAATTTTTCTTGTCTATAAAAG
TGAAAGAAAAGGTAGGTAGGAGAGTTGAATCTACATATTTGTTATTTCCTTGGGCATTACCTTACATTATTTTGTGTATTACATATTTTGGCTATTACGA
ATAAGTCACATCAGAGATTCTCTTTTGTTCTTATAACATTACATTTCATAAAGTGAGCTCCAAAAATTTAAACACATGCAGGTTTTAATATACGTATAGC
CTTTTTGAGATCAAAGCTATGCGAGCCAACAATACTGCAAAGAGAGAGAAGAAAGGCATTTACAGAAAGCTGAACAGTTTTGAATGGATCATCATGTAGG
TTCACTTTGCATCTTGGAAATGAATGGGTGGACCGTGGGTCATAATATGAAGGCTTATGGGGACATCCTGCCTACCTGGGATTCTGGATATTGTGGTCTT
TCAATATTTCAAATATCCCTGTTAATACACCAGTTGTTGCCAGGCGCTGTGGCTCATGCCTGTAGTCCCAGCACTTAGGGAGGCCGAGGCAGGTGGATCA
CCTGAGGTCACGAGTTCGAGACCAGCCTGGCCAACATGGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGGGTGCCTGTA
ATCCCAGCTACTTGGGAGGCTGAGACAGGATAATTGCTTGAAACCGGGAGGTGGAGGTTGCAGTGAGCTGAGATCACACCAYTGTACTCCAGCCTGGGTG
ACAAGAGTGAAACTCCATCTTTCCATCTATAAAAAAACAAAAACAAAAAACACCACAAAAACAGATGTTGTATTTTAAGACCTATGAGTGGCAATGCGCT
GATCTTTTATTAAAAGATAGTACAGTCTTTACTGAATTTAACAATCTTTTCCTTGGGAAAACTAAGCAGGCAGGTTTGGGTAGGATGAAAATGCAGAGGC
AGAATGCTCTGGAAAATGCTTGGGAATTGGAATTAAAAAACAAAGCTGTTTGATCTTTCTCCGCTATTGTTGCTGCCTGTGTGATCTTGCACAAATCACG
TAACTTCTCTGAGCCTCAGTTCAGTTAAATTCAAAAGGCACTTATTAAACATCTCCAGAAGGATGTCTAGAGAAGAACAGGGAAATCTTATGATCAGACC
TAGCCTCATTAGCTGTGAGATTTCAGCCATCAGATGGCAACAGGAGCTGGATCTCCAGTTACTGTAGATTTGATAAGAGGGTGGAAAGAATTTGTTTTCT
TACAGTTGACTGCAAAACGAAATATTCTGTTACCTTAGCTAACCTTGGAAGCTCTGCTTTCCTTGAGGATTTAAGAACTTTCATATCCATAAATAATTAT
TTAATGCATGTCCAGTGCTTGAAAGATAGTATAATATAGGCATTACTATTTTATTCCTTTTTTAATTAATTTATTTTTTTTTTTTGAGATGGAGTCTCGC
TCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAACTCCACCTCCTGGGTTCCAGTGATTCTCCTGCCTATGCATTACTATTTTAT
AAAGTAGACGTGGTGTTTGTCTTTAATTCCCCAACTATATGCACACAGTCTGTTAAAGCACAATGAAATAATGATATTTGTGTGCATCTCAACATTTACC
CTCTGGGTGTATAGTTATCAAAAACCATAATAGTCTCTGCTGCCCTTTATATGAAAGTCAACTAGGCAACCTAGCAAGAGAGCCATGACTTTGAAGAACA
ACTAATGAATGAGGTGTGTGTGGGAGGGGTGGAGGGGTGGTGTTTAGAAGAGAATAGCAATAGTCTGGAAAAAAATTCCTTTTCTAGTAGGACAACATTC
TATGGGGTGCCCTTAAAAATCTATTTAATTATAATCATCCTATATGCTTATTCTTAATTTGAAATAAGGTAATGATAATACAGCTAACATTTATTTAGAA
TTGCTACATCCTTCTTGTGTGGTGTTAAATTCTCCCAATAAACAAATAGCAGGATAAATCATCTTACCATTCTAAAGATAAAAGCATGAGCCTCAAAAAG
ATTAAATAAAATGTTTAAGATCACATGTTGTCTGAAATAAAAACTGTGCAATCAGTCACTTTGTTATTAAGTTACACCATTTAGTACAGTGACACTGGCT
AACAAATGCCCCAAGAAGTATTAAATCTCTTTTCTGAATTTTGAATTATCACATGCATTATTAATCTACCATAATTMAATGTCATTTTCATATGTGAAAG
TGTGAGAGGGAGAATGCTGAGGAGATTGAAGGAGAAAGACTATATGGGTTCCAAAACTGGCTCGATTTTGGGAAGTTAGTTGATTTGCTTGTGCCTCTGT
TTCCTCTTATCATAGTGTTATTATTGAGAAAACTCCCTTGCAGGTAATAAATCCTCAACAGCAACTTCTTTTTGTTATCAGTATTATCAGGCCATTCCCA
TGTCACTATGATTAAATTATATACTCCTCAAGGGCAGGAATAGTATCTGATTTTCTGTAAGATTTTCTCTTAGGTCTTTGTTGTTATTGCTTCAAGAATG
CTTCATTACAGACCACCACAACATTTAGTGGCTTACAGAAAGGCAACACAAATATATATGTGTGTGTGWGWGTGTGTGTRTGTRTGTGTGTGTGTGTGTG
TGTGTGTATATATATTTCTCACTCTTGGGTGTGCAAATGAGCTACAACTCAGCTAGGCAAGCCTGGACTTCAGGCTGAAGGCTGGCTGCATTCTGCTGCA
CGTTATTTTTATGCTACCCAAGCTACGTTTTCGGTATTGTGGATCACAGGAGCACTAGAAAGTGAGACGAAATACTTGAGATCTCTTAAATCTTTGACTC
TGAACCAATAACATGCACTTTATATCCAAACATCACTGGGCAAAAGGAGCCACAGGCCCAAGCCAGATATCTCTGCTCTGCATGGTGGGAGTGAGTGAGG
AGCTCACAGCAGTAATACCATCAGTAGGATTTAGAAGGGATATTCAAATATTCAGTGAAATTAATTTATTGACATGATCATAAACATCTGACATTTAAAT
TTAATTTGGAAATAAATACATTTTATTTTTATTTTAAGTATAACCATATTAATCAATTACATAGTAAATTATATTGACATCATAAGACATTAGGTCTATG
TTTAGGGAATTCATTTTTATGAGATTGATATGAACTCTCTTATGTATTAACTTCTGGATGTATTTTTACTTGTTTAAAAATTTTCATGTCCCTTCACAAA
AATCCTTAATTTCCTAAATATAGACTTAATGTCTTATGAGTTAAAGAACACTGCACTGAAATATATCCAATATGCCACTTTATGGCACCTTCCAAATGCT
CTTAGTGTAAATGTATGTTACAAATCCCATAAAGCACAGCAAARATAACAACCAAACTGTTGGTACAAATCATGAGACAGATTCAGTAGTTGTCTGTTTT
TATATGCACATTCAGTAAGCTGCTTACCTATGTTTTGTTACATTACTTTAATTTTCGTGCGTTTTCTACCTTAAAATAATATTTTATGTAGGATAATATG
CTTAGATCTTTGAATAAGCTACTTTTAGAATTTCTTGAGAACTTCAAGAGTATTGGAAGCAGTCAACATATTATTATTCAGATTTCTGTTTTGGGGGTTT
TTAAACCATATAACTCAACTTACTTGAGAAGAAAGGAAAACGTAAATGGTTTTAAATGGTGTTAGCTCTCACACAGGCATTGGGTGGCCAGTCAACTGTT
TTAAATTAACTGACAATGCTATTGTGAAGTCCATTAACTTAATGCAGAGGGTTGTTTCATTTTTTTTAATGAGGAACTTTAATTCCTTTAGGAACTAATA
TTTCCATAAAGTTTCATCAATTTTGAAATTTAATATACATTTTGATTTGATGTCCATATTTGTATAAATATATTTGACAAACATATTTATCCATATCAAA
TGAACACAATCTTTAAGAATTAAAACTCTAAAAATGGACTGCTTTCTCATATATAGAGTCAAGGATTTATATATTGATATATAAATTAAGAGTTGTATAT
ATTTATGTTGTGTGTATAATTATGTTGTTCAATCAACAGTTATTTATTAAGGAACTACTATTTATAAGATGCTRTATTTGTAGCTGCAGAGGTTRTAAAG
ATTAAAATGTGATTCTTGAGAGGGAAGTGGAACAAGATAGCCAACTAGAACCCTCCAATGATCATCCACCCCACAGAAACACCAAACTGAACAATTATCC
ATGCAGGAAAGCACCTTTATGAGAACCAAAAACCAGATGAGTGATCACAGTACCCGGTTTCAATACCATATCAAAGAAAGAGGCAATGAAGAGGTAGGAA
AGACAGTCTTGAATCACCACACCATGCCTACCCCATCCGCYGGCAGCAGCCATGTAGTGTGGAGAGATCATCTCTGTGCTGTTGAGGGAGAGGGAACAGT
GATTGTGGAACTTTGGATTGGAACTCAGTTTTGCCCTGTACAGTGGAAGACAACAAGGGGCAGGATTCAGCTGATGCCTACAGACAGATCATTTTGATCA
GCCCTAGCCAGAGCGGAATCATCCATTCTAGCAGTTGGAGCCTGAGTTCTGGCTAGCACCACCACTGTGGACTAAAGTAGTCTGGTGTTTTAAATAAACT
TGAAAGACAATCTAGACCATAAGAACTAAGATTTCTGGGCAAGTCCTGCTCTGTGCTGGGCTTGGAGCCAGTGGATGTGGGATGCATGTGACCTGGTGAG
ACACCAGCCAGGGCAGCCAAGGGAGTGTGTGCATCACCCCTCCTTTGACCCTAGGCAGTGCAGCTCATAGCTCCAGGAGGAGAGGGTAAAGAGGAATTTG
TCTTACAACTTGCATACCAGCTCAGCCACAATAAAATAGTGTACCAGAGCCCCCATTCGAGGCACTAGCTCCTTGTGCCAGAAGGAAACCCACTACCTTG
AAGAGAAGGACCCAGTGCTGGCAGAATTCATCACCTGGCTAAAGAGCACCTGGGTTTTGAATAAATATCAGTGGTACCCAGGCAGTACTTGCTGKGGGCC
ATGGGTGAGACCCAGGGCCATGCTAGATTCAGGTGTGATCCAACATATTTCAAGCTGTGTTGGCCATGGAGAGAGATTTCTTTTGCTTGAAGAAAGGAGA
AAGAAAAGTAAAGGGGACTTTGTCTTACAGCTTGGGCAACAGCTTGGCCCAGTGGGTTAGAGGATCAAGTGAATCCCTGGGGTCCCCAGTTCTACAGTTC
TAGGCCTTGACTCCTGGATGGCATTTCTGGACCCACACTGGGCCAGAGGGAAGCCCACTGCCCTGAAGGGAGASACCAAGGCCTGGTAGCATTCACCACA
AGCTGAGCCTTGAGTGAACATTGGTACCAAGCCTGGGGTGGTAATGGCCATGGATAGACACTCTTTCTGACTGAGGAAAGGAGAGGGAAGGGTGGGAAGA
ACTTTGTTTTGCAGCTTGGGTGCCAACTCAAGTCACARCAGAACAGTGCACTAAKTAGATTATTAAGTTTCCTGACTCCAYGCACTGGCTCATGGACAGC
ATTTCTGGGCCAGCCTTGAGCCAGGGAGTAGCTTGCTGCCCTRAAGGGAGGAACACAATCCTGGCTCAGTTTGCAACCTGCTGACTGAAGAGCCCCTGGG
CCTTGAACAAAATTGGCAGTAGCCAGGCAGTGTGGTTGCTATGAGCCTTGGGTGAGACCTARTACCATGCTGGCTTTGGGACTGACCCAGAGTAGTCCCA
GTAGTAGTTGCWACAGGGGTGCTTGTGTTACCCCTCCCCCAGTTCCAGGCAGATCAGTGTGAAAAGAGAGACTACATTTGTTTGGAGGAAAGTAAGGGAA
GAGAACATGAGTCTGCCTGGTAATTCAAGGAATTCTCCTGGATCTTATCCAGGACCACCAAGGRGATACYTTTACAAGTCTGTAAGAATCACGGCATTAC
TGGGCTTGGGGTGCCCCCTAATGCAGACACAGCTGCAATGACCAAAGATTTAGATAACAACACTCAATTCCCTTTGAATGCTTGGAAATCCCTTCTAAGA
AGGACAGATACAAATAAGCCTGGACAGTGAAGACAACAATAAATACCTAACTCTTTAATGCTTAGACATCAGTGAATATCCACAAGCATCAAGGCCATCC
AGGAAAACATGACCTCACCAAACAAACTRAATAAGGCACCAGGGACCAATYCTGGAGTGACAGAGTTATGTGACCTGTCAAAGATAATTTAAAATACCTG
TTTTGGGGAAGATCAGTGAAATTCAGGATAACACAGAGAAGGAATTCAGAATTCTATCAGATAAATTTAGCAAAGAGATTGAAATAATTAAAAAAAGCAG
AAATTCTGGAGCTGAAAAATTCARTTGACATACTGAAGAATGCATCAGTATCTATCAACCACAGAATTGATCAAACAGAAGAAAGAATTAGTGAGTTTGA
AGACAGGCTATTTGAATAGTYAGAAGAGACAAAAGACAAAAAGAATGAAGTTTGCTTACAAGACCCAGAAAATAGCCTCAAAAGGGTAAATCTAAGAGCT
ATTTGTCTTAAGGAGAAGGGGGAGAGAGAGATCAGCATAGAAAATTTATTCAAAGGGATAGCCGAGAAATTTCCAAACCTAGAGAAATATGTCAATACTC
AAGTACAAGAAGGTTATAGAACAYCAAATAGATTTAACCCAAATAARACTACCTCAAGGAATTCAATAGTCAAATTCCCAAAGGTCCAGGATAAAGAAAA
GATTCTTAAATTAGCAAGAGAAAAGAAACAAGTAACATTCAAAGGAACTCCAATACATTGGAGCAGACTTCTCAGTGGAAACCCTACAGGCCAAAAGCGA
CTGGTGCAACATATTTAAAATGCTGATGGGGGGCAGGTGGTGGGGGCTGGGGAGGTGGGGAACAACTTTTATCCTACAGTAACATATTCAGTGAAAATAT
CCTTCAAACATAAAGAAGCAACAAAACTTTCCCAGATAAACAAAAGCTTAGGATTTCATCAATATCAGATGTGTCCTATGGGAAATGCTAGTTTTTCAAT
CTAAAAGAAAAGGATGTTAACAAGCAATAAGAAATTATCTGAAGGTACAAAACTCTCTGGTAATAGTAAGTAAACAGACAAATACAGAATATTATAGCAC
TGTAATTGTGTGTAAAATATTTATATTTTGAGTAGAAAGACTAAAAGATGAACCTATCAAAAATAATAACTCCAATAACTTCTTAAGACATAATAACATA
AATAGAAACAATAAAAAGTTAAAAAGTGGGTGGATGAAGTTAGTGTAGAGTTTTCATTAGTTTTCTCTTTGCTTGTTAGTTCATTTTTGCAATCAGTGTT
GTCATCAGTTTAAAATAATGAATTATAAGATATTATTTGCAAGCTTCATAGTAACCTCAATTCCAAAAACTGACAGATAAAAAGTTTAAAAATGAAATTA
AAACATACCATCAGAAAAAATAATCTTCACAAAAAGGAAGACAAGAAGGAAGGCAAGAAAGAAGGAAAGATGACAAAACAACCAGAAAACAAGTAACAAA
ATGGCAAGATTAAGTCTTTACTTATTAATAATAATATTGAATATAARTGGACTAAACTCTCTAATCAAAAGACATGGAGTGACTTACTGGATTCAAAAAC
TAAACAAAACAAATGAGACCCAATGAACATTTGCCCACAACTAACACACTTCATCTGTAAGACACAAATAGACTGAAAATAAAGGGATGAAAAAACATAT
TCCATACAAACAGAAACCAAAGAAGAGCAGGAATAGCTATACTTATGTCAGACAATATAGATTTCAAGACAAAAACTATATAAGAGGCAAGTTTATTATG
TAATGATAAAGGAGTCAACTCAGCAAGAAGTTATAGCAAGTGTAAATATATATACACCCAAAACTGGAGCRCCTAGACATGTAAAGCAAATATTATTAGA
GCTAAAGTGAGAGATAGACCCCAATACAATAAGAGCTAAAGACTTTAACACCCCACTTTCAGCATTGGACAGATCATCTAGACAGAAAATCAACAAAGAA
ACATCAGACATAATCTGCACTACAGACCAATTGAACCTGATAGGTATTTCCAAGAACATCGATGGCTGCAAAGTGCACATGCTTCTCCTCTGCACATGGA
TCATTCTCAAGGGTAGACTATATGTTAGGCCACAAAACAAGTATTAAAGAATTCAAAAATATTGAAATTATATCACATATCTTCTCRGACCACAATGGAA
TAAAACTAGAAATCAATAACAAGAGGAACTTTGGAAACTATGCAGACACACAGAAATTAAACAATATGCTCCTGAATGRCCAATGGGTCAATGAAGTAAT
TAAGAAATAAATTWAAAAATTTCTTRAAACAAATGGAAAGACTACATACCCAAACCTATGGAATACAATGAAAACAATACTAAGAGGAAAGTTTATAGTA
ATAAGGACCTACATCAAAAAAGTACAAAAACTTCAAATAAACAACCTAGTGGTGCATGTTAAAGAATTAGAAAAGCAAGAACAAACCAAACCCCAAATTA
YTGGAAGAAAATAGTGAAGATCATAGCCGAAATAAATGAGATCAAATTAAAAAAATAACAAAAGATCAACCAAAGGGAAAGTTGGTGTTTTGAAAAGATA
AACAAAATTGCCAAACCTTTAGCCAGACTAAAAAAGAAGAGCCAAATAAATAAAATCAGAGATGAAAAAGGAGACATTACAGCTGATACTACAGAAATTC
AAAGGATCATTTGTGACTACTATGAACAACTATATATATGCCAATAAATTAGAAAACCTGGAAGAAATGGATAAATTCCTAGACACATACAACCTATCAA
GATTGAACCAAGAAGAAATTCAAAACCTAAATAGTCCAATAACAGTAATAAAATTGAAACCATAGTTTATTGTACATTGATGAAAAGTTTCCTGGCCTAG
TAAAGCCCAGGACTCAATGGTTTCACTGCTCAATTTTACAAAACATTTAAAGAAATAATACYGATCCTACTTTAACTATTTCAAAAAATGGAGGAGGAGG
GAATACTTCCRAACTAATTCTGTGAGGCTAATATTACCCTGATACCAAAACCAGACAAAAACACATCAAAGTAAGAAAACTATAGGCCAATATCCCTGAT
AAGCATTGGTGCAAAAATCCTCAACAAAATACTAGCAAACCAGATTTAACAACACATTAAAAAGATCATTCATCATGACTAAGTGGGATTTATCCCTGGG
ATGCAAGGATGGTTCAACATATGCAAATCAATCAACGTGATACAACATATCAGCAGAATGAAGGACAAAGCCATATGATCATTTCAGTTGATACTGAAAA
AGCATTGGATAAGTCACTATTACTTCATGATAAAAACCCTCAAAAAACTGGGTATAGAAGGAACAAACTTCAACACAATAAAAGCCACATATGACAGACC
TATGGCTAGTATCATACTGATYGGGGAAAAACYGAAAGGCTTTCCTTGAAGATCAAGAACAYGATACRGATGCCCACTTTTACCAGTGTTATTCAACACA
GTACTGGAAGTCCTAGTCAGACAATCAGATAAGAAAAAGAAATAATGKTCATCCACATGGGAAAGGAAGAAGTCAAATTATCCTTGTTTGCARATGATAT
GATCTTATGCTTAGAAAAACCCACAGACTCCACCAAAAAACTATTAGAACTGATAAATTCAGTAAAGTTTCAGGATATAAAATCAAAATATAAAAATCAR
TAGCACTTCTAAATGCCAACAGCAAACAATTTGAAAAAGAAATMAAGAAAGTAACCTCATTTACAACAGCTACAAATAAAATGAGTTAACCAAAGAAGAG
AAAGATCTCTACAATGAAAACTATAAACATTGATGCAAAAAATTGAAGAGGACTCAAAAAATGGAAAGAGATTTCATGTTCATGGATTAGAAGACTCAAT
ATTGTTAAAGCATCCATACTACCCAAAGCAATCTACAGATAAAATGTAATCTCTATCAAAATACCAATGACATTCTTCACAAGAATAGAAAAAGTAATCT
TAAAATTTATTGAACTACAAAATACCCAGAATAACCAAAGCCATCTTGAGCAAAAAGAACAAAACTGGAGGCATCATATTACCTGACTTCAAATTATAAC
ACAGAGCTATAGTAACCCAAATAGTATAGTACTAGCATAAAAACAGACATATAGACTGAAGGAATAGAATAGAGAACACATAAATAAATCCATACATCTA
CAGTGACCTCATTTTTTTATAAAGGTGCCAAGAACATACATTGAGGAAAACACAATCTCTTCAATAAATGGCTCTGGGAAAACTGATATCCATATGCAGA
AGAATAAAACTAGACCCTTATCTCTCACCACATACAAAAATCAAATCAAAATGTATTAAAGACTTAAATCTAAGACCTCAAACTAGGAAACTACTAAAAG
AAACAGTTGAGGAAACTCTCTAGGACATCGSTCTGGGCAAAGATTTCTTGAGTAATACCCCACAAGCACAGGCAACCAAAGCAAAAATGGACAAATGGGA
TCACATCAAGTGAAAAAGCTTCTGCACAGCAAAGGCAACAATCAACAAAGTGAAGAGACAACCCACAGAATAGGATAAAATATTTGCAAACTATTCATTT
GACAAGAGATTAATATCAAGAATATATAAGAAGCCCACACAACTCAACAGGAAAAAAAAAATCTAAAAATCCAATCAAAATGGGCCAAAGATCTGAATGG
ATATTTTTTGAAGACATACAAATAGCAAACAGGCATATGAAAAGGTGCTCAACATGACAGATCATCAGAGAAATGCAAATCAAAGCTACAATGAGATATC
GTTTCACCCCAGTTAAAGTGGCTTTAATCCAAAAGGCAGGCAGTAACATTCCCACCAACAGTGTATGAGAGTKGGAGAAAAAGGAACCCTCTTACAGTGT
TGGTGGGAATGAAAATTAGCATAGCCACTGTGAAGAACAATTTGGAAGTTCCTCAAAAAACTAAAAATAGAGCTATCATATGATCAAGCAATCCCACTGC
TGGATACATACCGAAAAGAAAAGAAATCAGGGTATGGAAGAGATATCTGCMCTGTTATGTTTATTGCAGCACTATTCACTATCACAAAAGACTTGGAAGC
AACCTAAGTGGCCATAAACAGATGAACAGTTAAAGAAAATGTGGTATCTATACACAGTGGAGTACTATTCAGCCATAAAAAATGAATGAGATCTTGTCAT
TTGAAACWACATGGATGGAACTGGAGGACRTTATTTTAAGTGAATAAGCCAGGAACAAAAAGACAGACTYTGCATGTCCTCACTAAGTTGTGGGAGCTAA
AAATCAATGCAATTGAATTCATGGATACAGAGAGTAGAATGATGGTTACTAGAGGCTGGGAAGGGCAGTGAGTGGCAGAGGGGTGGAAGTGGGAATGAGT
AAAGTGTACAAARATATAGTTAGATACAGTGTATAAGATCTAGTATTTGATAGCTCAATGATGCTATTTTTTCCATTTGATAACACAAATACTAGATGAA
TGTAGGGTGACTACAGTCAAAAATAATTTATTGTACATTTAAAAATAACTAAAAGAATACAATTGGAATGTTTGTAACACAAATAAATGATAAGTGCTTG
AGGAGATAAATACCCCATTTACCCTGATGTGATTATTACACATTCTATGCCTGTATCCAAGTATCTCACACCCTGTAAATATATACATCTACCATGTACC
CATAAAAAGTAAGAATAAAAAAATAAATTCAGAGTAAAAAATCATATGATTTTGTCCTTGAGAAACTTAGTAGTAGGTTTATAGTATAGCATAATGCAGT
ATTAGAGAAGTACAAAGTGCTTTATATGTGAGGAGTTGGGGTTGTTTTGAAAATGAGCATGATGTTGACTGGTGGGTATGAAAAGAATTGCATTGTAGTC
AAACAAGCRAAATTTTAAGGTAGGATATCATGGACATTTTGCTTGCCTAGGCCAGCAGGTTCTTTTAAAGAWGCTGTTGGAGAGRAACCTTCAGAGATCA
ATAGGAGCAGCTCATAGGGAGCCTTTTAATGCCAAAAGATATGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTACTCATATATGTGTAACTATATACAC
ACACATGCATATATATACACACACACGCATATATATATATACACACACGTGCATGTATATACACACATATATATACACAWGTGCATATATATATGWATAT
ATATATATGAGAGAGAGCATATATATACATATRAGAGAGAGAGAGAGACTGTGAACGCCCTTGGCAGKCAATGTGAGCAGAGAATTGGCTTTTCCAGAAA
GGAGTTTCTGGGACATCACTCTTGGGATAAATAGGAAAAAGATAAAAGCCTTCAAATGGAGGTACCAAGGAGAAAGCTATTTAGCTATTTTAATAGCTAA
TAGTGAAATTAATAATATTCTAAAATTTTGTGGGTGGCTATAGGAAGAAAAGGGAAAGAATGATGCTAGGCACATTGTGATATTATAGAACTGACAGGAA
TTGGAGACTGGGTTAAGAGGTGGAGATGGGGCTGCAATTTGGTAAATGTAASYAGTTATGGACTTCTGGCTCTCAAATATTGCAAGTTCTACAACCCTTC
CTCCACCKTATCCCAGAGATATCTGAGTGTCTTTTTGGTTTGAATTTCAAGTTAAAACCCTGAATATCTGGAGGAACACCCACGCCCATCATGCTCTGAT
GTTAAGTACTAATACCTTTTGCTCATCCTTGGTTAAATCTTTTTAAATTCATTCATTGTTCTCTCTATATATACTCCTCACTAACATGCAAGATTTTCTT
TTTATTTTGAGTTGTATATATTTTTATTTTTCCCCATTTAATTTTTAGTTGAGATTAATGTTGCACATATTCACGGTAGGCAAAGTGATATTTCAATATA
TGTATACAATGTATAATGATCAAATCAAGGTGATTAGCGTATCCATCACCGCAAATATTTATCGTACCTGGGAGAGTCAAGGGGAATGTGGTGGGGCCAG
AAAGGGGAAATTTAGAAGGCAATATTTGGGAGGCAAAGGAATGAGGGGCAGTTGTTCATGAAATGACAGTCTGAAGGTAGAAAGTGGGGGCCAAAGAAGA
CATCAACTCCCAAAGATTACCAGTTTATTACGTAATGAGCATGTATTAGCCGAGAAGGCTTGAAAAAGTTGACTTTTGAATGCGACACATTTTCTTTAAA
ATATTGAATCTGGATGTTTTTCTAGTTATTTAAATTTTTATTTGTAGGTATCTGTCTAGGGCACTTTGACCCTTTAGGTGTGGGTTAGCCATTTCTCATT
AGGACTGGGAAAGATGAGTGAGAAATAAAATTATAGATTGCATGTTAAAAAGAAAAACACTGGTTGTGACACTGAGTATAGGTTTTTTTTTTTACTATAT
CTGAAGTAAAATGATACTTATCTGCCTTGTTAATTATATTTATTTGTAAAAATAGTTTCCATTTAAATTTGTCAATAATAAAATTCCTCATGAAAAATAT
CAGAAACCTACTCTCTTTTATAATGAAAAGAAACCTAAGTATTAGTTTTTTATGTACCTATGACATTTGATTACAATATGGAATGAAATTTAATTGTAGC
ATAGTATGAAATGGAAAACACCCTAAATATACCATGAAATTTATGTTATGCTGTGTAATAATTTCCTCATATACTTTCCATATATAGGCACTAAATAAAG
TGAAGTAATTTAGGTTAATTTAGGAGGCAGATGTTTTTCAAATACTCATAGGTGTATCAGGTAGGATACACCTGATTGTGACATTATTTGGGGTCCGTAT
AATAGAAAACCCAAGCCAAGGGTGTGTAAGGAAAAAAATTGCAATTTACTGGACCACTTAACTGWAGTAGTTAGGACTGTGATTTCCAAAGTGTGATTCT
TGAATCAGCAGCACACGCATCAACGGGGGACTTGTTAAAACTGTGAATTCTCAGTTTCATACTCACGGCATCAGAGACTCTGGCTGTGGAGCTCAACAGC
CTGTGTATTAMCAAGTCCTCCAGCTTCCGATGCTTCCATAGTCAAGTTTAAGAAACACTGGTATAGAGCTGGATCTATCCCTGGGTGCAAATCAACTTAC
GGTTCAAAGGATACCACCAGGATCTAAAGGTGGACTCTGCTAGGCACTGGGATAGCCCCACAYCCAGGCTTCACATGGTGGCTAATGACAACAGTAGATA
CATATCATCACAGCACCCTGTCCAGTGGACAGAGAAATTATCTCACCTGGAATCCTCTTGATGTTCCTGGGTAGCCTGACTCAGGGAGTATCTCTGTCCT
TCAGCCAATCACAATGCTGAGTGAATGGGATGTTCCAGTTGTCTTATTCTAGTCATATTGTCCACTGTCAAGGTTGCAATTAATTTAGTATGGGGGCATT
GCCACAAGAAGGACAAGAAGATGTAGAATATCATTGACAATGTGTCACAAACAGCAAAGATTCAGTTGTTTCAGAAGACAACCTCAGGCCAAAATTTATT
TAACTGAAGTTATTGATGAAAGAAAAATTCAGAGATGCTCTAGAAGTCAATCACTTGACTGGAGAAGGAGAAAAATGTTCACTTGCACAGAAAATGCACA
GTCCCATTTTCCAATGTCCTATTACCTAGAGGGCAATTTTAGTTTCATAACCTTGATTACACTATTAATACTGGGCTATTTGGGCTAGTGTGGAGGATAG
GCTTGATGTTTGTAAAATAACATTTATTTGAATATGTTTTTCTAAAATTCAATTTTTTTCCTTCTTAATATAAAAATTGTCCTTATTTTACTATCTTACC
ACATATTTTTGAAATCTAATCTGATTGTTATCACATATTTCTTTAAGTGGAATGGCTTAAATAACTCAGATAATTAAAGGCTAATTAAAGGCTTTGTCAT
CATTAAGATAATTAAAGTATCAATTAGCTTTTTAAAAGGAAGCTTAGCCTTAATCAGAAATCCTCTATTCACACAGCAGGGCCTCAGATATGGCAGATAT
TCCTGAAATGGAAAAACAGTACTTCAAAGTTKAGGCTCTGTGGAACTTCGTCATGATTTTTCTTCATCAATCTCTATTCTTTTTTGTAGAYGGCATATTT
GGTTTTTTTTTYCCCTGCTTTTTGTCTAACTAGTTATATATTGCTTATTGTAGATACTTTTGCAAATACCAAAAAAAATGAAACTCCCAGAAGCAACATT
TTAGCTAATTTTTCCCAGCATTTTTCTAAGTTTTATTTTTATTTTTGTGGTTAAAAGGGATAGGTAAAAACCCATCAGCATAAAAAATTTACTTCTCTAA
TACCCTAGGAAAACAAGAGAATTACAAAATACCTAGAACTGAATGATAATGATTTCTGGTTTCAAATATTTCCTGCCATGAATTTAGTTTTATTTATCCT
ATCAGTGATTATGTATAGCTTTTCTACATGGTTTATTTAATTCTTAAAAATTCTCAGTGATTTTTCTATTCCAACATTGTSAATTGACCCAAGTTGAGTT
TCTGGATATGAAAACCACAATATTTGATATGAAAAATACTATATGGGATTAACAGCAGATTCACATCACAGAAGAAAAAACGGTGAATTTGAAGATGGAG
CATTCGAAGCTATCCAAATTAAAACAGAAAAATRTTTTTATTTGTATAAATTTTAGGATTACAAGTGCAGTTTTGCTACATGAATATGTTGTATAGCGGG
GGAAGTCTGGGTTTTTAGTGTAATCATCTCCTAGGACTATTCAGAAAATAGGTTTTAAAAATGAATGGAACATCAGTTAGCTGTGAAACAATTTTAAATG
ATCTAATAGAGGTATAATTTAATTTGTGAAGGACAGGAACTGGCAAAATATTTGAAGAAATAATAATGAAAATATTTCAAATTTGATGAACATTGTATAT
CCACAAGCACAAGACGCTCAATAAACTTGAACTATAAACAAAGAAATCTGAAGACACTACACTGAGGCATGTCAAAATTAAATTGCTCAAAACCGTTAAT
AGGGAGACAATCTTAAAAAGCATCTAGAGAAAAAACCGTATACTGTATACAGAGGAACRAAAATAAGGATGATAGCAGATTTCTCTTATTTCAAAGACAG
TAGAACAACATCTTTAAAGGATTGAAGAAAAAATGTAAACCTAGAAGTCTAAACTCAGCAAAATACTTTTCAAAAACAAATGTGAAATTAAGACTTTTTT
CAGGCTTACAAAAGAGAATCATCACTGGTCGATGTCAGCTAGAAGAAATGCTAGAGGAAGTTCTGCAGGCACAAGGAAAATCATGCCAAGTGGAAAGATG
AATCTACACTAAGTCATGAAAAGAACTAGAAATGGTAATTACATGGGTAAATATATRTGGTGCATTTTTCTTTTATTCACATGTCTTTTAAAGAGAARTT
TGCATCAAAAAGTGGGTAAAGGATATGAATAGACAGTTCTCAAAAAAAGATATACAAACAGCTAACAAACATATGAAAAAATGCTCAAAATCACGAATCA
TCAGGGAAATGCAAACTAAAACCWCAGTGAGATACTACCTTACTCCTATAAGAATGGCCGTAATTAGGCCAGGTGCGGTGGTTCACGTCGGTAATCTCAG
CACTTTGGGAGACCGAGGTGGGCTGATCACGAGGTCAGGAGATCGAGACCACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTACCTGGGCGTGG
TGGCRGGCGCCCGTAGTCCCAGCTGCTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGATCACGCCACTGT
ACTCCAGCCTGGTCAACAGMGYGAGACTCTGTCTCARAACAAAACAAAACAAAAGAATGGCCATAATTAAAACATCAAAAAAACAATAGATGTTGGTAGG
GATGTGGTGAAAAGGGCACACTTTTACACTGCTGGTGAGAATATAAATTAGTGTAATACAACCAGTATGGAAAACAGTGTGGAGATTTCTTAAAAAACTA
AAAGTAGAACTACCATCAATCCAGCAATCCCACTCCTGGGTATCTACCCAATGGAAAAGAAATCATTAGACRAAAAAGATAAACGCACACATGTGTTTAC
AGCAGCACCATTGCAAAGATGTGGAACCAACCTAAGTGTCCATCAACCAACGAGTGGATAAAAAAAAAATGTGGTATATATACACCAGGGAATACTACTC
AGCCTTGAAAAGGAGTGAAATAATGTCTTCTGAAGCAACTTGGATGGAGCTGGGGGCCATTATTCTAAGTGAAGTAACTGAGGAATCAAAAACCAAATAT
ATGTTCTCACTTATAAGTAGGAGCTAAGCTATGAGAATGCAAAGGCATAAGAATGATATAATGGACTTTGGGGACTTGGGAGAGGGAAGGGTGTGAGATG
GGTGAGGGATAAAAGACTACCCAYTGGGTACAGTGTACACTGCTCAGGTGATGAGTGCACCAAAATCTCAGAAATCACCACTAAAGAACTTCACCTGTTT
CCCRAAACTATTGAAATAAAAATAAAAATTAGAAAAGATCAGAGGGAAAGAATATGGGGGAAATAAGACCCCCATCAAAAAATAAGTGATGAAAGATAYT
GGGGAAAAAYACAGGAGAGCAGGTTACTGGGGAAATAAAGACTATTTGAGAAATGGGCAAAAATGATAAATAATGCAAATCCACAATGTAAGTTTCATAT
TTTAAAAGTCTAGACCTCTTGCAGCTTTGAAACTTCATGATGCTATTTAAATGTCATGTTTAGTATTGTAAATAATGGTAATTTTAATCATTAATGCTAA
TTGCTATTCTCTGTGGCTATATTACTATTCATTTATTCAGTCAATGCATGTTTGTTTAGCACTAGAAGGAACATAAGCACACATCCAGTAGTCTGTATTT
TATTTGGTTTAATTTCACACACCCAAAAATGCCTACGTAGGTATTAAATGTCAGCTCTTATTTTTAATGCTTTCTAGATTGCATCAGCCAAATGGGAAGA
ATTATAAAAAAATGTAAATAACTACTTAAATACATTCATAAGGTCAATAATAACAAAATTTTATAATACTTCTTCATAAACCTTGGATTTGTTTTATTGC
TTCTAGGTTCTCATAGTGATTTTGATAGCCTATCTTATCATTTGTTACTATATCTTTGTTAGGTATAAATGTTCAGGCTTCACCTATTACCAGGCATATT
AAATTTCACAAGAGAAATGTGTAGTTAYAGCTCCAAGGCAGGTGTTATGATCCTGTCAAATTGCTCAGGCTAATTTTAAATCATATCAGGTCTGTTGCTG
GGAGATGTTTGAGGAACACAGGAAATTATATGGAGCCTGTTGATAACAGCCTGTCCTTATCCTGTGACCTAAARTAATACCAAACTTGCCACATTACCAA
CCCTCTTGTTTAAATGTAAAACCCATATTGGAGGTTTACACCAATGTCATTAAAAAAAGAAAGTTAGGATTCAAAAATATGATTGTAATTTTTGAAATCC
TGGTAGCGAAAATTTAGCTGAAATTGGCAATTATATTTGACAAAATATTTAATATAAATCAATGTGATGTTTAGTTCAATTACCTCAGGAATATATAGAG
TTATCACTGATGGCCTAAGGCCATGCATTCCAAGCTTGGGTGATCATAAGCATTACCTGTGGTGTGTTTCTGCAATACAGTTTCCTAAGCCCCTTTTCCG
AAGTGCATTCCGTAGATGTGCAGGTTAACCAGTGTCCTCGGTGAATCTCCTGCTCAGATATACTGGCAGCACACTGGCCTAAAGTAAGGAATTCTTATGC
TTTTTAAGAAACTGGATGCAGAGAGCTCTTCTGCATCAACTGAAGTATGTTCAGTCTTAGCTTGTAGGTTTTATTTCCTTACAGTTCATTAAGGTCAGAA
AGAAGGGTTAATCTTCCTAACTCAAATGATGCTCCGAAGACAGGAATTGTTAACTAGGTTTGTGTTCAGTGTGAAACTGGCACAGGGGGCCTGACTGCAA
ACAGCCATGCAGGGAGGTTGAGGCTGAGGAGGTGGTGATGGTAAGAATGCTGGGCTTCGGAGGAGGAGATCAAATGGGCCTCCCTCATGATGAGAAGGGA
GAGAAGGGATGGAGGATGGCAGGGATTGGGACTTACAGTAAACAGATACTGGTTTTTCTTGAAGGATGTTTGGATTTCACAGCCCATGCTTTTCTAACCA
AGGAGCCAGCCTTAGCATTGACATTTGAGGGAGTATACAATTCCAAATGAGGTTGAAGATAAAGGAGCAATTGCTTTTTACATTAAAGGCACAGCCTTTT
CAGAGCAATCTGTTCATCCTCTGTTATCACTTTAAAGGGAGTCTAGTTTTTAGCTTGATGTATACATTTAACTGACTCTCTATAATGGCAGAGAAGACTG
CATGGCACTTCCAAGTTCATTTCTTTACCTTTAAGTGGATTAAGGCATATGCCTGCTTAGCTTTCCCACGTTCACTGCTTTGAGGGGAGTAAAACTGGAG
TGATTTCAGGAATTGACACTGGAAGAGTTTCCTGGTCACAGGCTTTGAACCCGGAAAGACCTAAGCTGACTGTCAACTTTAACTTGAGAGAGCTGTTAAC
CACCTCAGTTTCCTTGTCTAAGCGGAAGAACAGAACATGTTAATAGAAAGTGCAGTTTACTGAGCATGTACTGTGTGCTCAGGCATTGTACTAAGTACCC
TATGTCTTATTCGTGAACCCCCCACTACAACCTTTGGAGATATGTGTTATGTTCTGACAACAGCAATAATTTTGCGTCTTCCTCATGGAATTTTTTGTTT
ATGTGTGAGTGATAATGAGATTAGACTCATTAAAGATTAAAGAAGATTAAAGCCATGCCAATATTAGGTTCCCAGTTCTCAAAAAAAAGGGAGTTATATT
CCTTTTCTTTCATTTGTGACTGTTCCTTTTCATCTTTTGGTGTTTTCAGGAAGCCATTTTGCCTGCAGCCGCTGAAGTGGCCCAGCTGCAGATGTTAATG
GCTGTTTACCAGTAGGAGCCAAAACACCACACTAAAGAAGCTAGGAGGTGTGGTTATTTTGCCTTTTCTGTAAGATAAATTTCTTAATGCTAATGCCTCC
AAATGAAGACATTTGATTTATCTCTAAAGTATATTTTTAAGTATAGAAACTGTAATGAGTGGCTAGATTACTACTCTGTTTTAAAATGTGTTACAAGACA
GCTTTCATCATGTCAATCTACGGATCCAACAATTAAAAGAAAGGTTACCGAAATTGTACACAGATAGAAGTTTACTTCATATAGCCCTGGCATTCCAGTC
TCTTCTAAGAATGTGAAATAAAGGATTGATAGATGGATAAACACATGGTAGATGGAGGTCTGATTCAGGYGGTGTTAAAAATCAAACAAAAATCTTTCCA
AAGTAGGGATCAAATTCTACTTCTTTTGAGATATAAACTGTTTATAGCTTTGAAATGACAGTTTTCACCTCAGCACACCCATTAAATTTTTATGGAACCC
TTCCTCGTCTATTAATACATGGCATATAGGAGGGGCTCAATATAATTTAGTTCCCCTTAAATGCTTTGGTATGTGATTTGGAGAGAGCAGCTGACATAGT
TGAATATATATCAGATATATGGTTAGAAAAATATCGCATAGCATCTGTAGCAGAAAAATTAGTTTTCTGAAAAGAGTGAATGTAAATAATGCCAGGGAAG
TATGCTTTTGAATAACATTTGGTAAGATCCATTCTGAAAGAAGAGAGTTAGGGAACTTTTATTTTATTTTATTTTTCACAGTACAGGAAAAAAGCAAAAC
AAAGCAACCAAATGTCCTGCTTGGGATGAGGTCATTGATATCAGAGGATGCTGCGATACTGATCAAACTGATAAAATAGCATTCAGTTTGTCTGACTCAT
TGGTGAAAAATAGAAACCAGTGAGAGGTGGACTAAAGGTTAGTGTGACGGTTGCTAGCTTTTAGAACAAGCAGAAAACAAAATATTTTTACTTTAAACTT
TGTCTCATGAACTTAGTTGCAGTGATGGGAGCATTTAATAAAGGTAAGTAGTATTTTTCATTAAATTTTATTAGCATTTTGTTATGGACTGAATATTTGT
TTACCCCCAAAATTCTGTGTTGAAATTCTAACCCCCAGTGTGATGGTATTTGGAGGTGGGGCCTTTTGGAGATAATTAGGTTTAGTTGAGTACATGAGGG
TGGGGCCCCATAATGGGATCAGTACCTTTATAAGAGAAGGAAGGAACACCAAGAGCTTTCTTTCTCCACCATGTGAGGGTACAGCAAGAAGGCTGCCATC
TGCAAGCCAGGAAGAGAGCCCTCACCAAGAACTGAATCTTCCCGCACTTTGTTCTTGGGCTTCCCAGTTTCCAGATCTGTGAGAAATAAATGTCAATTGT
TTAAGCCACCTTTTTATGGTATTTTTGTTGTAGTAGTGCTAGCTGACTAAGACACACTTGATAAGTAGCTACTATGCACAGAGTCCTCTTAAGGAATAAA
GAACAGTCTAACCCTGAAGCCAGTGAAGACAAGACTAATTAAAATAATACTACTAACAGGGCTGTGAGTAATGTGTTGTTCACACACAGTAAGTAGCCAT
TAATTCTGCCTGGGATTATCTTGTGGGTGGTGCTGTTTGAGCTGAGTCTTGAAGAGTAAGAGGGATTTGTAGCCTTGAGATGGTACAGCTTCTGAAGACA
GGAAATTGGAAATGGGCACAGAGAAGAGGCTAAACTACAAATAAGTGTTTTGACAAAATATGCCAAACCTAACACATGTAGGCAAAGCCACATGCAGTAG
TTCTGGCTCTGTTTATCTTCCTGCTCAGATTTTAGTCTGACAGATTTATAGAGAGAAGGGGCAGAGTTTCTGGTTCATTTGAGAAATCATGGCTGAATAA
CAGGTTTTTCCCTTGATTAGCTGGGAATCCCTAGGGTTGCCCAAGGGCCACAGATACTTACTGACATTTAGTAAAGAACCTCTAAAACATCTTCAGACTG
GTCTCATTGTTAATAAGTGGTGTGACACACATTGTGTGTGTAATGTCTGTCTTGGTTTTTGGTGGACCACTTAAAAGTTTATAAAAATAGTTTTTTAAGG
TTCTGATGACTTTTCTGCAATATAATTTGTAAGTGCTTATATATCTCCAACCTGTAACTATGTAAATTACTGTGAATAATTTTGTCCTTAATGAAACTCT
GTCTGCTTCTCTGTCTGTGATTAAAGATTATGAATAAAATGCATCGGTCTTTTTTGTCCTACATTCTCCTCTGCAAGGTCAGGAGATAGGGTTTGTCAGG
GCCCAGTTCTAGCACTGTCTTAARACTCCATCCTCAGACCCTCCTTCTCCCCGTTACCATCACTGCAAAACTTACCCTATAAAGCAGATAGCTTCCAAAT
TAACCTACTTTGAACATTTTTTATCATTATGAGCAACTTCATCTAGCAGATATAAGTAGTGAAGTTTTATTCAGATTGTTACATTTGAAGGGATTTTATA
ATTTGTCACATTACGGTAGAGAGCCCTGTGGCCTCCCAAATTGTAACAACTTTTCCTCCATCACACATTGTCATTTTCTTATGCCACACATTCTTCTGAT
GATTTTTAAGTGGATTTGTAAGATGAARAATTCTGAATCACCTGGATGAGCATTGCTTTCTTTTTCTTTATTTTTTTTTAAATTATACTTTAAGTGCTGG
GATACATGAGCAGAATGTGCAGGTTTGTTACATAGGTATACACATGCCATGGTGGTTTGCTGCACCCATTAACTCGTCATCTGCGTTAGGTATTTCTCCT
AATGCTATCCTCCCCTTAGCCCTCCACCCCCTGACAGGGCCCCGGTGTGTGATGTTCCCCTCCCTGGGTTCATATGTTCTCATTGTTCAACTCCCACTTA
TGAGTGAGAACATGCAGTGTTGGTGTTTGGATTTCTGTTCCTGGGTTAGTTTGCTGAGAATGGTGGTTTCCACCTTCATCCATGTCCCTGCAAAGGACAT
GAACTCATCCTTTTTTATGGCTGCATAGTATTCCATAGTGTATATGTGCCATATTTTCTATATCCAGTCTATCATTGATGGGCATTTGGGTTCGTTCCAA
GTCTTTGCTATTGTGAATAGTGCTGCAATAAACATATGTGTGCATGTGTCTTTAAAGTAGAATGATTTATAATCCTTTGGGTATATTCCCAGTAATGAGA
TTGCTGGGTCAAATGGTATTTCTGGTTCTTAGTTCAACCATTGTGGAAGACAGCGTGGTGATTCCTCAAGGATATAGTGCATCGCTTTCTTACAGAGGTG
TCTGAAATAAATGCAGTTCCTTCTTTTGAAAGTTCAAAGGCGTTAAGTCAATATATGACTGTATTTGTGGTCCTGCTCAGCAGTTATTCATTTAGGAGGT
GATTTGCTATTTTCTGAGAACAGGGATATGAAATGAATGTGGTTGCTTTTAGAGTCCAGAAATCCATTTGGCTCAATGGAGCTGACACAGTTTATTGCAG
TTTTTAGGACCTTTTTGTAATTTACAGTGGATACTAATTTCCTGCTCAAGTTTTCTTTGGCAGCTTCTGTACAGCTGGAACAGAAGCTGGAGCTATGCCC
TAAGAGGGTGGTCTGGATTCACTTCTGTGGGTCTACTCCTCTGCCTCTTCTTCTCTGTTCCCTCTTTCCTTTGCCTTTCTTTTCCCAAATTCCTCAAAGC
TTGAAAGGGTGAGATTTTCCTTTTCTTTCCCTTGCTGCCCTCCTTGGAATTCCATTATGCAATTCACCAGCCTCAGCTGTTGGTGGAATAAATGGTAGCT
ACCAGAGGAATTTAGACAATCCTTTCTCTTGGCTCTCAAGTATATTGTCTCACTGTACAATCCTCTTTTGAATTCCCAAAGCCGAATATTAACTCTTTCT
TTCTTCGCATTGCTTCTGTAATAATCCTAAACTTCCTCACTCCCTTTCCTTTTCCAAGTTCAAATGCAGAAGCTTCAGGCTGCCTAAGGATAAAATGCGT
TTATGAAGAATTCCTTTACACAGAACTTTTCTGGGAGTAAATCTCTGTTAAGCATGTAGTAGATGTTGTACAAAGTTTATTGTGTAGATAAATCCATGGG
TTAATGGGWGGAAGGGGAGGTAGAAATTACAGACTTTGTGGAATGAGTAGATTTCAAATCATCCTTGGAATTTTCAAGATTTTACTCAAGGAGCTGATAT
TTAGAGCTTAGATACACCTCTACTATTTTATAAATAAAGGGCCAGCTGAACYGTATGAGTTTCTTACTTAGCAGAATTGGAGCTCTTGCTTTTTTGTCTT
TCATCCTCTATCCCAAAGATTTGTTGAAGGATGATGAACTGAATGAAGGCTGGGTATCTTTAAGAAGATACCAACAATGTCACTTATTGAAAAAAAAAAA
GCTATTTCGATTACATAGTTTTAATAATCCTCATGTCATGTACTCTTATTACGATTCTCAATATTGCAGTAAATTGTGTTTTGTGGGGCTTTGATTAAAA
TTACATTTTGCACTCACTTTTATGGTCTGGAGTGATTCTGATCTATGGGGGGAGTGATAACATCAGCATCAAGATTTTCTTTGTCCGGGACGTGCTTCAG
CTGCATGACAACTCTCCTCCTGAGTGATATGTGACTTGTGCCTTCATCACCTGTTCATCCTGCCAATATATTTTCCACATCTGTCCTCCCATTCACCTAA
AGATTTATTCCACATGCCTGATGACAAAATGTCCTTGCACCTGGGGGACCTAAGCCTGTAGAACATCTATCTCATTTTCTTTCTTTTGACACAAGTCCAT
TAGCTTCATCTGTCTTGAGGACAATCCCGGCTAAGAGCCTATCTGATGTTTCTTCTTTGGGGAMCTTTCAGAATTTCAAGGTTATAGGAAACTTGGCTTT
GTGCAAAGTATGTTGCCATCTGTTGCTAGTTTCTAATTTCAGATCCATTTAAGAGATTTGCCAGGTTAGATTTATATAGACATTTTAACTAATTCTATTT
CTTTGTACTTAACCCAAGATCACATACTTAGGTTTGTCCTTTCAATAWCATTTATCAGAATACTCCACTATTCAGCCACTTTGAGGAGACACATTGTTTA
CCTGCCACTTGCTGTGATAAGACATTACATGCAGCATGTGTTTATTTGGTAGTTATCAAATAATAATGCCTGGTAACAGACAGCCAAAAAGCAAACAGGG
GATTTAGAGGTTCCTGTTTATTTTTGTTTGTTTGTTTTGTTTTAAATAAGTAAATTGAAACTCAGAGCAATTATGCRGCTTACTTAAAGTCTCAAAATTA
GCTCATATTTCAGATGAAATTTGCCTTCAAGTTCTAGATCACCTGCAGCACTGAAGTTTTGGTGACCATTTATTCTTCAGATTGTATTTATGATTCCTTG
ATTAACAAATCTTTAAAAAGTTGTGAAAATTATTTTCTGGCAAACATTGGAAAAGGGCTAAAATATGATAATACTGTAGTCAGAAAAAAACTATTCAAAG
ACACACTTGTATACAAATAAATATATTTTTATTACATATGCTTCATACGCACTTTCTCACATACAGAGCTCTAACTTCAGTGACAATAAGCTCTTTCCAG
AGATTTATCTTAAGACAATAATCCAGAAGAAGGAAAATGCTATACATATGATGGCTATAATAGCCAAGTGTTATAGGCAAATTGTGTATCCAATAATATA
AAATAAATGATAGCATATTAACTAATGTGGTAATTTACAGTCATTAAAATGATGAGTATGAAGACAATATATGGAAATATGATGAACAATCGAGTTTAAA
AAGCCAGAACCACTGTATTCGCTTTCCTTTCAACTATATGAAAAGTATACATGCATAAGACAAAAATGTAAAAGTCTATGAAATACTTAGTGTTAGGTTG
ATGATATTATAAGCGCTTTTCTACTTTTATATTTTTCTGTAAGTTAATGTTGGTTCTACAACACACCATGATTACAGTGGTATGATATCCACTGCCAAAG
AATAGGAATGCGTTAGACCAAGAGTGATGGGGATTATTTCACACAAGTGCTATATTTCTCTACTTCCCATGATTGACATTCTTAATTGATGTTGGAAGGG
TTTTGAATCCTTCTAAGTTAGTTCTTCAGGTTCATGAACTGATCAGCAAGAGCATGGAAGTTGCCAACCCTTTTTAACTTTTATGTAGTTTACTCTATAT
TCCAAATTAATTGTCCAGAAAGAGTATTGACTTTAAATGGGCTCCAAAATATATAAGTAGCAGGAATGGTGGCTGAGACAAAACTCCTGGTGTTCATTGC
TTAGAAATGTCTGATGTGGAAGTGATGGAAATGGTGGGATCTGAGCTGGCCGTTGTCGTAGCTGTGAACGAATTCACATTTGTTTCCCAGGCCCCACACA
GGTAATGCTCTGTCTGTATTCCACAGACAGACASACGGTCAACCCCACAAGGGTGCTTTTCTGTTCCCTTCCTAGAGTCCWCTCATGAAAATGTGCTTGK
TCTCATCTCATCCCCTCAAGGTTTGGCTTTCTACTTCACTGACTCCCCGGATTTAATCCATGTATGGGTGCAGCTCCTCAACAGTGGGATTGCTATTTGT
GTAGGAATCTTCTGGGTCCCCACACTTTTTTTTTTTGTACAAAGAGGTAACTAGCAAAAGGGATTTTTTTTAAGTAAATGATTTTTGGTACACTTCCAAT
CAGTCTATATGAAGGGCCTACCTCCTATAAGGATGGGCATGAGTAGGGGAATTAGAAGAAGATTAAGGGGGGGTCTTTAGTTGGAGCTACCAGGGAGGTG
TATGAGATTTCATGGTGTCTGTCTGGGACCTGGTAAGGAGTAACCTTTCCCATTTGTGTAGGTGTATTTACAGTTGACATAACTGGTATAGCTTTCCTTT
ATCTCAAGACAGGACAAATAATACTGTAATTCTAGGTAAAAGCAATTCATTGAGAGAGAAACTGATATATCTTACATTGTATATTTCATAATATAGTGAR
ACATTTTGAAAGCTTACTTGTCTTATATTGGTTTTCTTAATATTCTTTAATTTTCCCACCAGCTTCAAATTCCACAATTTATCTACATGCAGATACCCAC
CATTTCTCACAGATACATATATTCCAGCCTATATTTCTCCAGAGTTGCTATTTCTTACAGAATATTTCTACTTGAATGATTTACTAATATGTAACCTATT
TTTGTTGCAAAACAACAGATAGTGCTCAGTGTAGAATTTCACACTCCAATCCAATGTAATCTAGAGGTAGACGCTCCCGGGCAGGCTAGTGTTCAGCAGG
GACACAGCCCTGGGCATATAGTTGGGAGACTTGGGCTGGGGTTTTCTCTGCCAGAGCACAGRTCTCTGATCCTGTAAGTCATTTAAATTCTTGTGTTTCA
AATTCCCTCACTGTAAAAGGAGTGGCTTGACCTAGATGATCTCAAAAGTCTCTCCAAGCTTGAAAATTCTGGTTCTATGATTTTAATATTTAACAATACA
CATAATTGTGCTTGTGCTTGCATGATAATTAGGCATGCATGATAATGGGGCACAGTGAATGACTGTAATTAGCTTTACTCCTACAGAGAAAAAATCTATT
TTTAAGTCTTTCCACTTCTCATCTTATTGGTTTTTTAAAATATTGATAATCAGTATCAATGGCCTTTGACTTTCCCTTGGAACCTTTTACCCTTACCATC
CTCAACTTCCTTCTTGCCACTGCTCTCTGTCATTATAGCGGTAATCACAAATCCACACATATATTAGAGACCATTATGTTGAATATTAATTCCTGCAGAG
CTGAATTCTTCCTGTTCTGACTTTCAGGTAGGACAATCCTCTCCCATGTCCTTAATTTTCATCCAATAAAGGTACTTTTGTGGAAGCTTCCTGCCATATC
CTGAATAAAGGTGTCCTTAAAAATCCAGAGATGAACATGGAGGAATTAGGTAAACAGGATCTGTTTCACAGGGGCCTGTGGAAAGCCTGGGATGTTGTAG
TATCAGGCATGTAGATCATAGTAAAGGGGATGTCAAGGAGCCAGGGGAGCCTGGGACAAGCATGGCAGAGGGCAAAGCCCACAGTGTGAGAGGCCTGGGG
GCCTGCTGACCCACCTGGGAGTTCTGAGGCCAGAGGGAAAAGAGAGGGAGAGTTGTCCTTACAGGATGAGAGAAGCTAGAATTGTGGCCCTTTACTTTAG
AAGTAGCCTTCTGGCTCTGTAAGTAAATTTACCTGACAATCATATTAATTATTATAACTAACATTAATTCTACAAATGTGCAAGGAACTGTGATAAGTAC
TGTAAAAGAATGATTTAACTCCTCACATTATTCCTTTTAAGTAAATCCTTTTGAATCCCTCAATTGTAGGTTGATGATCTAAGTACTAGAGAGTTCTGAA
AACTTGATCCCAGTGATATGAGTAGCAGGCGATGGAGCCAGCTTTAGACACAAGGCGATGACATTTTCTTTTCCCTTCTACTCACCCCACAGTCCGTATG
CCATCCTCAAAATATGTAATTGCAATGTCAATTTTTCCTGTTTCGTTGGACCAGGACATGTAAACCATGGAGGCAGAGTCTGAAAAGTTCTACGTAATTG
AGCAAAGTAGTGAAAAAGTGAAGCTGGAAACGAAAGACAAGTTTTGATTCCACTTGGTGTGTTTTAATTTAAGTTGGCCACCAGGAGTTCCTGAGCAAAG
GTGCTCACTGTCTCTAGTGGTACTTGTCTTCCTGAGATGGAAGCTCTCGGTCCTTACTCCCCAAGTGACCATGTCACGCTCCTTAAGGGCAGTCTCTCCA
GATGATGACCAAATGGTTTGTAGGGAAGATTTTAACTCTGATGTGGAGGGGCTCTTCAAGCAAATATTTTGTCTCTTCTCAGTACAGTAATTAAGCTGAT
AATTTTTTTTTTTTTTACCTTTTCGGGCCACTACAACATTCTCTGCTCTTGGATTCAAAGATGAATGTTCCTTCCACACAGTTTAATACGTCTACAGTTC
CAGCCGAGGTTGGGGGAGATTTTGTCTGATCAGGATGTTTTTCCAATAGTAGTGTCTGGTTCTGTGTTGGGATTTCACTCAGTAAGGTTTTCCATTCAGT
TTTATGATTTGGTACTCCTGGTATGCACATCTTAATATATCTGACCCTTCACTTTAAATTTTTGTTGCACTTTTTCTTTTTTTTAAATTTTGTACCAAAA
AAAAATGTTCTGTATCCGAGACCTCATATAGCTTCTATTGGGAGTTGTCTCCACTTCAAACTTACATTTCCTTTGAAATCCCAGTGAGTAGCCTTACTTT
CCATATGGCCTGATGAGAATGTATTTCCCTTGCAGATGTGAACAAGCTTTTTATTTTTAACTTCTCAAATAAGATGTACATCCAAGACTGTTAAAATAAT
CTTCCATAATGATTTGTCTTAGAGTAGAAATATGTGGCATATTTTTAATCATAAATACATATACACATTATAATTGTTCTTYTGTATTTAAGTTAGTACC
TGTGATTTGTTTATCCAAGACAGATGGTAAGGGGTGATACTTTTGTCAGCTTACATCTAGAGATCTATAGTAGGGTTAATTTAGAATTCAAGTAATTTTT
GTTCAAGGCTTTATGATTTTATGAAGAAAAAATAGGAAGAGGTTAAATGTCATCAAGCATTCAGTTTAAAAAATATACAGATGACCTAAATAATTTGTTC
AGTTGTATACTTATATATAGGTGTATGATGTATTACTCAGCTTAAACCTCCAGTCCTTTCTCCTAGAGCCTAATAGCATGAACGGCCGCAGATGGGGATT
TTACCTAGGTTTCTGTGTTAGCCTGTTTTTAGGCTGCTGATAAAGACGTACCTGAGTCTGGGTAATTTATACAGAGAAACAGATTTCATGGACTCACAGT
TCCATGTGGCTGGGGAGGCCTCGCAGTCATGGTGGAAGAGAAAAGGCACGTCTTACATGGCAGTGGGCAAGGAAAGAAATGAGAACCAAGCCCCTTATAA
AACCATCAGATCTCATGAGACTTATTCACTACCACTAGAACAGTATGGGGGAACCTGCCCCCATGATTCAATTATCTCCCTCTCACAACTCATGGGAATT
AGGGGAGCTACAACTGAAYGTGACATTTGGGTGGGGACACAGCCAAACCATATCAGTTTCTGAATGTCCTCTTCAGGCACAATTTTGCCTTGTGTTATCT
GTGCTCTAAGTTCATGCTGCTTGTTTCCTGGCTATCTGCAAAAATAATAAAATAAAATGCAGCTTCAGACTCCTGCATTTGCCACATATACTTTTCTTAT
GCTTTACAAACTTTATCCTAGTTATCAAAGACCAGGTGTTGCTGGATATTTCTGCTTTGGCTTCTACTTTTCTTTAATTCTGTCAACCCCTCCCTCATGT
CTTTACACTGCAATTACATAGAGGTACTCAGTACAAAATATATTGTATCAGCAGCATAGATGGCTGCAGAGATTGCCTTACAGTAGAAGGCAGTAGAAGT
TTTTATGGTTTTATATGGAGAAAGAAAATTGTTTGCTAGCACTCAGATATTCTTCTCCTTAAGTTCGTTTCTCCCGACTTTGACTTTCACTATAAAATGC
CCTGACTCACTTTTGGAACTGGAGCAAAGAGAACAAGAGAAGTGATCTAGAGTTGCTACTTCTTGCTTGGGCAAATAAATGCCTCATGCTTCCCCTGTCC
CTTTAGTGTGAGTCACATAGAAGACTTTGGCAATTGATTTTTCTATTTATAATCAGATATCCCCATAGGAATCTTTACTGGATTACTCTGACTTTAAAAA
AGGAGAGAGATTTCTGTATTTAAAATGTTTCATAAAAATAATTGGGGAAAAGAGAAACAAGAAATAAGAGATGGCTCAGGGCTTAGATGCCTGTGTCCCC
TAATTTGCCCCTGAGATGGAGGACATTCCTGCCTTCTGCTGCGTCAGCCTCCTTCCACTGGCTCTTCAACCTCCTGGACCTCAGTGTGGCTTTCCAGGTG
TGGCCACTGGCTGGCCTTGGGCCTGTCACCACTCCTTTCATCTGATGCCTTCCCCCACTGAAGGCCATAGGTTTATCTTCCACCATCAGTTTGTCTTATT
AAAACTGGCCACTCGACCCTTGCATTTTCTGTGGTCTCACAAAATAACACCTAAGGATAAAGACAGTAAATCCAGAATACACTTTGTTTAATTCCTCATG
TTGAGGATCATTTTTGATCATTGCCTGCTCCAACAAGCCAGAAAAAAAAAGTCCAATAAAATATATTATGCAGTATCTCTTTATAAATTGTTTTCTTGAA
TAGTTATGAGTGGAGTCCATTGGATTCCCATTTATAACAGAGTTTAATGTAGTGAAATTCCTGCTGACTGATATTGGAAATGAAAGTTTCATTTATAAGG
ATGCAATTAAAGCATTGCCAAGTTAAAAATGTCATGTTGCTCTTTGTCAATGAGGTTCATTATGCTATATTATTATATCTGTGTGAATCCTTTCTTCTCA
GGAGCGAAATGTTCTTTCTGAATATTAACCAACTGCTACAAAATTCTTCAGAGATTATTATTCTTTCAAATTACATGAATTTAAAAATCATTTACTAATG
AATCCTCCTGAATTTCTCAGAAAAAGAAAGAACTCGAGCAGATTTACCCATTGGTAAAGGAAACTGCCCCTTCTCTGATATTGGGTTGGTTAGTAACCAT
TCAGTTGCATTTTTCCTGCACTTTCATGTAAGTCAGTCATAGATGCAGAAGGGCATCCTGGTGGGAAGTAGCATTTTACAGCCTTTAAGCAGACTGTTTT
TCTAAATATAATAACAATGAAAACTATTTGGATACACATGTAAGTCCTYTGTGAGGCTTGAGTCTAGATGAAATATCAGAGTCTACTGCAACATCCAGTC
TGAGGGTGCCTTTGAACCATTTCAGGACAAAAGCAAATTAAACTTGGAATCCTATCCCAACTTCATTACCTAGCTGAATGTACTCACAGTTCATCTAACC
TAATTGCTCTTCCTGCTTCCTCCTGACAGTAAATGAAATAATAATGACAATTATTTTAAAACAGTAAAGGGATATATAACTTAGTGGTTGTTATTCTGAT
TACTACTGTGTGTCTCCTCTGCTTCACAATGGGTAGAGTTTAGTTTGATGGGTGGTTCACCTTTTGGCTCCTGCTATTTGGCTTAATTGATGATTGGCAG
GCAATCTGGCTTAAATCTGWTGACCTTTCTTCAGGAAAGGAAGGGTGAAATGAAGAGATGGTAAGAATTCCTCCCATATTTCCTGATCTATCTTTGGTGG
CCCAGGCTTCCAGAATTCCCTGAATCACACTCCTCTGCAGAATCCTTGCAGTAATGGTTGACCATAGTATGGAGAGTGACTGTCCTGTTATCTACTGTTG
GTGTGGCTAGACTTATTCTGCCAGCTTATCTGCTGGCTCCCAGGAACCCAGTGGAATGGGAGTCCTGGCATGCAGTGCCCTGTGAATTCAATTTCCAGGC
AAAACCAAGGAAGAGCTTTCCTTTCGAGAATGCAGCTGACACTGACATCCTCAACAACACTTTAAATACAATGATTACAGTAAACAAAAATACAATGTCG
TAAAAAAGAAAAATGACTCTTAGATATTACCCAGCAAGGAAACCACAGTGTTCCAGAGAATTGTAATGCCCCATGATAGCCCTTAAACTCCCTCACCACT
CCTACTTTTTGATAGAAAGATCTGTAAGGGCTACATGACCTTAGGCTCTACTCCCCAGCAAGGTCAGTTTTGTTCTATGGAATATACTATAATGTTGATT
GTTGTGTTCCCATAAGGTCAGCACATCTCCAAGGTCTGTCCTAACAGATAAACTTTTGGATCAGTGGTGAGCAGACTAGGACAGGTATAACATGTGCTCC
CTAACCAGCTTCCTGAAGTGGCTCATGGTTGAATTTTTGGGAATCCTTTATCACAAAGATGGAGAAATTGGGGACCAGAASGTTGAATGTAAGCCAGTTC
CTTTTCCCCAGAGGCTTCCCTCTCACCTGAAAGGGCATTTTTGGGTGAGCCTCATCGTTGAAAGAAAGTGGGATACAAACAAAACAAAAAATAAGAATGT
GTATTGGCCCCCAAGCAGACACCCTAATTTAGGGATTAATGGATATCATAGATATAAGTACACACTTAAAAAAAACAACTAATGCTCTTTGATAGCTTAA
ACCTTAAGTCTTTAATTTTATGCACATTATTATTTTTTATTTTCCAATTTAAAACATTTGCTTCGTTAAATAAAACACACATTAAGGAAACCACATAGGA
CCATGTGTGATATAATAAGTTATCAGAAGGTTGAATTCTTACATTTACTACTCAGGCTAAGAAATTAGTCTGTGGCCATGCTGGAGCCCTGTGTCCCATC
CTAAGTTTGTTCTCACTCTCTTTCTTCAAAAGAGATCATTATCTTGGTGCCTAGTCCTTCATTTATTTATTCACTTATTCAACAAGCATTATGGTGTGCC
TGGCATATGTCAAATCTTTTCCATCTGAAAGATTCAGAATGGYCTCTTAGGTATATGAGATAACATTCTAAATTAATTTTATTCTCCTGGCCTGCAAATT
TATTCTCAAAAACTGCTAGTTATATGGTTGCTCTGTTTACTTGGGGACAGGTAGGCTGGTTCATACATTTACTAATTAAATTACTTTTATTGCTAACTCT
GAATATTTAATGCCTTGTTTGGCAATTATGAGAGATATGAGTAAACCACAGTCTTTGCTTCTACAATGATTATACATTATCCAAACATAATGCAAAGGAA
ATGTTACCAGTAAGAATGCCAGAGGCCCTTTTCCCCTAAATTCTCATGTGCCTCGTTCCAGGAAGAAAAAAAGAAAGATTTAGGATGTTTCTTTCTAYAT
CAGTCATTCCCTTGGAGACAAGAGAGAATGAGGCAAGATGTATTGGATTGTTCCTTAGTGTTTTTCCATTATGCCTCTCCATYTACAGATTGTGCCCTCC
AACAATTTCCTCCCTCTAATTCAAACGCAGTGCTCTTGGGAACTTATTTTATGTGTACCCAATAAAATGGCATTAATCTGATAGTGGTTTGTTCAAACTC
ACACAAAATTTGAAGCAAGTGCTGTGTTCCACCAGCCAGATGTCATATTTGGTAAAAGAAATATGGGGTAATCAATTTTAAAGTCCTCCAAGTTTTCCTA
TACTGTGAAATTTAGGGAGGTAAAATTAGGATTGAGGCAAAAGGATCTGGATCTCCTGAAAAAATATGGTTGTGCACTTAGTGTTGTACACATCTTTCCT
AACCCTCTATTCCTTGGACTGTTTGTACTCAGGGTCAGGGAGTGGTGAGGCTCTCATTGGCATGACCATTTAAGGGGTTCAGGAGGTGTGTACTCCACAG
AAGGCATTGCTGAACCTGTGGAAGAAATGCTAACAAGAATTTGAAGAATCAGACTCCAGGAATGGGAAACACTATTCTGAAATAATGGAGGAAAAGAGAC
CACATTCCTTTCTTGGGGGCTGGGATCAAGAAAGGGCCCCCAGGTGGGCCAGGAACTCACCTGGGCTGGATCCATGCAGAGTTTGTTCATGGTTATTAGA
GATTATGCCTTTAGAAGTGACACTAGTGGGCACCCCTGAAATGACCTCCAACACACCCCCTAGGGGAGYACACCCTGAGTTTCCCGAAAAATRAGGAACC
ACTGACAACAGAAAGAACTGGTTTTCTTTGTGTGGAGGGGTTAGTCCCTGGGAGGGAATAATCTTCCTTCAGTCTCAAYAGCTAAAACTGTGGGGAAGTG
ATGAATGGTAGACTTGAGACTTTCCTTTGCTGTTAAGGATGATGGACTAGATGATGGATGCTGTTAAAGATGATGATGTTTTGGGACATCAGAGCAACCA
ATAACTAAACAGCAGCCTGTGATAGGCTGGAGCAGGTTGTCACTAGGAAGACAGGGAGTATTCAAGTCTGGCTTTCTCTAAATCGTGAAATCATTATTCT
CACTTTGATGGTTTTAGGCTAATTTGACTTGGTAAAGCAAAGATTACATAAAAAGTTCAGATTGTGGCTGAAACACAGGCATGTCCTTCAATCTGTAAAA
GATAAAGGCAATTAAAAAATGAACTGTAAATGAAGACATATTTTTGCTAAATGTTGGAATAATTGTTAAAAATAATTATTTTGCTTTATAAACRTATATT
TCCAGGAGGGCTGTCAAAGGCACTGTGGTTAGGATACATACACTTATTTTTTAAAAAGTTAAAGATCTGTTTTTCTTATAAAACTGTTCATCCCTTTTGT
GCTTGACACATGCTACCAGAGATACAAAGTAGATGGAAAGGAATCATGCCCTCTCAGAGTCACGATCCAGCAAAGAACCTGAAAATGACAATCTGACACC
CAAGTCCAAGCTCTTAACTACTATTTTACACTGATTCTCAGAATTGCTTGGAAGATTAAATAAGATGATAATAAGAGTGCATCATAACCTTATGGCCAAA
TAGAATACCATTCACTAATAAAGCAAATGTTCTGTACATTTCCTTCCATATCTATATCAAATTATTCATCAAGAACATCAAAATGCTATTATMCATCCAC
AACTAATATTTACAACCAACATTTTAGTAAGTTAATTTTAGGTAAATTAATTGAAACACGGCCTGTATATATATTTTATGTGAAAGTATTAATAGTGAAG
TCAGAAACGTTGCATGAGTGTCTCTCCTTAGCTTTTTATACCTATTCTGTGGAAAGATAATTTAAAGAAGGTGAAATAGCCCTTGCAAATGATAGCTGGC
TGGCTGACTCACTGCTATGACTTGCTTTGGTAGCTGCTGCTTCTGTCTTGCCTGTGTTTTAGGGGGAAAATATACCTGGCAAATTCCTCTAATGTGCATT
GCACCATACTTGGAGAAAATGAAATCTTCACATAATGTCAAAGAAAAAACCAGCATCACACAGCCTTTTTGTACAATTAGGGATAATTCTACCTAAGTGG
AAGAAGGGAAGGGCAAAATAGAACATTCAGCAGGTCATCTCTCCAGGAAGTGTTTAATACTGAGGCGTTTTGGGTGTTCGTGTTGTGCTTTAAGCTGTTA
CCATCTCTCAAGCCTCCCTACTTATTTATTATAAACATTTAAAGCTGAGACCTTTACAAAAGGCCAAMATTAACAGTGAGTGCATTCACACAATGAAAAT
GTATTTGAATGAGATTTCTCTGCTGTTAGATGGATCGTCAGTGGCATTGTCTCAAAGGATATTTGTGCTTCTCTCCTTGTCYTTTGGCTTTGACAATCAG
AATGATGAAGATTCCTGTAGTAGAAGTGTGCATGTAAATGGAATTTTTTTAACCTATTTTATGAACACTTCCTGAGTCCCTACTGTGGACTGGATGTGCA
TGTTCTTGAAGAACTCATAATCTAGCAGAAGATGTAAATAAATMAATCTATAGAGTAGRATGTGATGAAATGTTGGAGAGAAGGGTGTTTATTTGCCCTG
GGGACCCTAAACAGGTTGTGGCTAACTCCGCCTGGAGGATTTAGGGGAGTAATAATGAATAAAACATTCATTATCTTATTCAATCTGTATTGAAATGGAT
AAAACATTTATTGTCTTATTCAATCTTTATTGATTGCTTCAGTGTATGCCATGCACTGTATTTGGTGCTAGGAACACATGGGTGACAAGACAGCRTTGTG
AAGAACTGCAAAAGATCTGAGGTTTCTACCCTCCTTGCCAGCCAATGAGCTTAAGGCTTTCTCTCCGTCTGAGAAACCATCAATAGTCGATGTTCCCTTC
CTCTTCCTGCTTGCTAATACTCCCCAGAGCAATTCTACCACTGTTTGAACTAGCCACTGAATAGGAGGACACTGACAACTTTGGGTGGCAGCTTTCCAGT
TCTTCAGAAACTATTAAACTGGCAACAGAGAAGAAGCGGAGCTTGCTGGGACTAGGCCTGCAGGTTTGAAAGTTGCTTCAGCAGCAGAGCACCAGCATCT
GAGCTCCCTTTTTTGGCTGCATGTCGGCCCTGGGATGACAGTACAGTAGTGACATGAGAAAGAGATCTATTAGCAAGAGACTCAGCTGCTTCTGAAGAGG
TGGGCTTTCCTACCAAGTGAATATTCTTTTGATGGCAAGCCTACTACAATGCGCTCACTGTGGAACTAACCTAAGGACATTCAAGAATACTTCAGATGTC
CTAAAATGTGAGAATGTACTGCTGAGCCAAATAAGACATTCCTGATGTGTTGGATTTTGGAACTTAGTTTGATTTAGGACAAAAGACCAGGAGGCATATC
TCTCTACATTTTTCTAGCATCTGTGACATTGAAGACAGAAGAAATGTTAAATTTGTTTGATTGTTAAAGACAAAACTAACATGTGTCAAAGACAATGTCA
TAATTTATTTTGTTTATTCTGGGATAACTTTCTAGAGTAATGTGTATCAGATTAGTAATGGGGTCTTGATGGGAGGCATTGTTGTTCATAGCGACTCTGA
AAGACCACATGCAGCAAGGTATTGGGATGCTTAGAAGATTTGCCAAGTATTCAGGGTGAAGTAGCAGGTGCACAAATGGGCAATCAGGGCACAGCCAGGT
CGGCAGAGCCAGAATTGTCCCTGCCCTGCTTCCATACCTCTACCAACCGTCACCTGCAGGCTGCACACATTTCCATATGAAGAGTGATTCCTGACTCTTG
AGGAAACATAAAAGGTGTTGTAACTGAGATAAAATTTGCTTCAGCTTAAAGAATTCCTTCTATTATTTCCTGTGACTTGCATTTTATTTTTTATTTCCTT
TGACTTGTGTGACATGTAGGATCCTTCTCTCCTGAGATCTCTCTTGACTGTAAACTAATTACCCATTGTGACATGAAAACAAAATATGCTTCAAATTTCC
AAGAACTGTGGATCTTAAAGAGAGTCATTGTTTGTTCAGTGGAGATGAGGGGTTTGAAGATGTAATTGGAAGAGGTAAGCTTTTGTGTATGAGGAAAGGA
AATATAAAGACATTGGGGAAGATCTGGGAGAAGGAGAACTGCTGGGGTGGAGGAAGAAGAAATAAGAAAAACCTGGTTGCTGAGGTGAAGAAGACATTTG
GGAGAAAAAGGAATACATGTAGAGAAGATTCCTTCTCCACGCCCCAGTAAAGTCTTCCCACATAATATGTAAAGTCAACCCTTTTCCTTGCAACTTCATG
AAATCTTCAGGAAGATAGTGGTTCCTCATTCATCTATTGAGAAGTCAGAGCTRTTTATTCCCTGCTTTTCCTACCAGAAGTTCCATGAGGGCAGGAGGAC
AGCCTGCTTTGTTCTCTGCTTTACCCCGGCACCAAGGACAGTGCTTGGTAGAGTGGATATCCAGAAAATACTTCAACAAATAGATGACTTACTTATTTAC
AAATAAATGCTTTTGTTTACAAATAAATGCTTTTATTTTTGTGATTGTGTTGAACAAAAAGATTTTTCTTCACATATCATCCTGCTTCAAATAATACCTA
TTTCTAGAATGATTTTTTACCTTTCCTAATGATAAAAAATATATAAATTATTTGATATTTTAAAAATACACAATAATGTGAGGCAAGAAAGCACCCACAA
TATCATCGATGTTAGGAAACTTAATTCTTTTATGTAGTCTTTCTTGTCTTCTTTGCATACACCATTTTTATACAGCGTCATTTCTGGCTGGTGTTTTAAG
GCAAAATGGATATATTGAGGTCACAGAGCCATTGGAACAACTGAAGGAAGAGATTTTAAGACTGGCCTTTTGGAAATAACTTTAAGGCAAAATAGATATA
ATGAGGTCACAGAGCCATTGGAACAACTGAAGGAAGAGATTTCAAGATAGCTTTTGGAAATAACTTCACATTTATCCTGTTCTCTTTCCAAGTTGCATTC
ATAAAACTTAGATTGTACATAGGGCATTGCTCGCAAGGGAGTATGGGAATGTAGTTTTTAAGGCACCAAACCTTTTCTTGTGTATTTTTGTAGTTTTCTT
TTGTCTGGACCTCTCTTTCTGCAGCTGGCTCTACAACTAACCTATTGACATATTTCAAATCTGAGTTCAAAAGTCAACTCTGATGAGACGAGAGACTTTA
TCTGCTCACTGACTCACAGCTTACCTCTCCCACTTACTCTACCTTATTACCCAGTTTATTTTCTTTGTAGCATTAGTGGCAATCTGTAATTATTTATTTA
TGTCTCTTGGCTGTCTCCACTACTAGAATGTAAGCTCCATAAAAGCAAGAACTTTGTCTTTCAATACTGTATCCTCAKTACCTAACATTTTGCCAGGGCT
TTATGTATTTTATACACATTTGTAATACGATCAATTCACCAAAAGTTGTACATTTAGTTTCTTTCCAGTTTACTATAAACACTGCATGATGAGCATCTTT
ACATAAAAATATTTGTCTACGTTTCTGATCATTTCCATAAGATAGACTGGTAGGAGTTATTGAATTGGTAGGTATGGAACATCTTATCTCTTATATTYGC
CAAACTGCTTTATAAGAATATGGTTCTATTTACTTTCCTGCCAGCAAAGTGTGAGCTTCCATTTTATCACATCATCACTGGAATTGAATATTTTCATATT
TAAATATTTGCTAATTTTTCTCACTAAAGCTTAGAGGGTGTGTTTTCTGATAAATATTAAGTTTTATTATATTATGGATATTTATGCTTGGTCATATTTT
TGAAATAAAATTTACATTGTTTTATTCTATGTTAGAAGTCTTACATTTATATGTAGTCAAATCAATTGATTTTTTATTTGTGATTTCTGTMATTATTAAG
AAAGTTTTTGTCCAGAGCTCAGATGAATATTCCATATTTKGTTCTTTGATGTTTTCAATATTTCAACTCTTTGAGAAACTTTTTAAATCAAATTTATTGT
AATAAACTGTATTTTAAGGTTTTTTAAAAAATTCTCTCCTTYCCCAAACTTGAAACTGGCTCCCGTTAGTAAAGAACATTGGCTCATATTAATAGAAAAC
ATTGACTAAGGAACCAAACATAAATCACAAACAAAAAAGAAAAGAAAAGTAAAGCTTTCATATCTGTCATATTAGTCCATTTTCATGCTGCTGATAAAGA
CATACCCAAGACCGGGCAATTTACAAAAGAAAGAGGTTTAATGGACTTAYAGTTCCKCATGGCTGGGGAGGCCTCACAATCATGGTGGAAGGCAAGGAGG
AGCAAGTCACATCTTACGTGGATGGTGGCAGGCAAAGAGAGTTGTTCATGGAAACTCCCATTTTTTAAACCATCAGATCTCATGAGACTCATTCACGATC
ATCAGAATAGCACAGGAAAGACCTGCCCCCATAATTCAATCACCTCTCACTAGGTTCCTGCCATGACACCTGGGAATTGTGGGAATTACAATTCAAGATG
AGATTTGGGTGGGGACACAGCCAAACCATATAGTCTTTTATATCTGTTTATTCTTATACCAGCATTAAGCAACTCTGAAAATCACATTCAAACATTCATC
CCTCATTTTAATTTTATTTACAAACATAAATTAATATTCTACCCAGGTTCTAAATTGAATAATACCATTGGACCCGGTTTACTTAGCACATGTTGTGATT
GTTTCAATATTAACCGATATTCAATATCATTATTATTATTGGATGATAAGGTTTGTACATGGACCTAATTTCAGATTTGAAACTGATCATAGTGACTTCC
CAAAGCAAAAATGAATGGGGAAATTTTGGTTTTAGTGATGCACAAAGCCAGTCATCCTCCGTGTCTGATTCYAGAGTGAACAGAAATGACTTCCCATAGT
CCCTTTAAAGTTTTAACCTATCAAATAAAGTCCTTTAGTCTAATCTCCTTGAAAAACACCATTTTTCAAGTTTCCTGTTATTAACTTCATGTCAGAATTC
AAATCCCCAATGTTTTAAAGAATGTCATTGGTTACTATAACAATTAACTTACTTAATTCAACAGAGTGCCTTCCTAGACATGAATTATGCAGTGATCTTG
AAAGAACAAAAGATAGTACAAAAAAGAAATCCAATTTCTCTTTTTTTTCTTTAGGAGTACTAGCTTTAATTAATTTATCTTTTACTTTCAGCTTTTATTT
TAGATATAGGTGGTACATGTGTAGGATTGTTACATGGGTATATTGGACCCAGGTTGTGAACCTAGTACCTAATAGGTAGTTTGTAAACCAGTGCTCCCTT
CCTCCATCCCCTCCTCTAGTAGTCCTCAGCATCTATTGTATCTATGTTTATGTTCATGTGTATTCCATGTTTAGCTTCCACTTGTAAGTGAGAACATGTG
GTATTTGGCTTACTCTTCCTGTATTAATTCACTTAGGATTATGGCCTCCAGTTTCATCCATGTTGCTGCAAAGAACATGATTTCATTCTTTTTTATGGTT
GTGTAGTATTCTATGCTATATATGTACCATATTTTCTTGATCCAATCCACCATTGATGGGTATGTAGGTTGATTCCGTGTTTTTGCTATTGTGAATAGAA
CAGCAGTGAACATCTGAATGCAATATAATGATCTATATTCCTTTGGATATATACCTAGTAATGGGATTGCTAGGTCAAATGGTAGCTCTGTTTTAAGTTC
TTTGAGAAATCTCCAAACTGATTTCTAAAGTAGTTGAACTAATTTACATTCCCACGAACAGTGTACGAGTTCTCTTTTTCCTGCCAGCCTTGCCAGCATC
TGTTGTTTTTTGACTTTTTAATAATAGCTATTTTGACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTTGATGATGATTAGTGATGAGCA
TTTTTTCATATGTTTGTTGATCACATATATATCTTCTTTTGAGAAGTGTCTGTTCATGTCTTTTGCCCACTTTTTAATGGGGTTATTTGTTTTWTGCTTG
TTAATTTGTTTAAGTTTCCTATAGATTCTCGATATGAGACCTTTGTTGGACACATAATTTGTGAATATTTTCTCCCATTCTGTATGTTGTCTGTTTAGTC
TGTTGATGATTTCTTTTGCTGTGCAGAAGAAGCTCTTTAGTTTAATTAGATCTCACTTGTCAATTTTTGTTTTTGTTGCAATTGCTTTTAGGGAGTTGGC
CATAAATCCTTTACCAAGCTTGATGTCGATGAGGATATTTCCTAGATTTTCTTCTAGGAACTTTATAGTTTGAGGTCTTACATTCAATTTTCCTAATTTA
TTGTTTTCTTTCTTAGAATAATCATTCTCTTCTACTCCAATTTGAAAAAAAAGAAAACTTCAGGAGTAGAAAGAGAGATGACTTTAATTTGCAGAAAGTA
TGGGTTCACCTATTTAGGCCTTATCAATGAGAACTCTTAAAGAAACAGCCTTTGAGTATACAGTACTGTGGCACACACCCCTAAGGAACCTTCTATGAGT
CATGACCTTGTATAATTCCTTTTTCTTGAGTGGAACCTGAGACTTGCCTTTAGCCACTACAATATGACAAAAGTGATAGAATGTCACTCCAGTGATTTTG
TTAACTTATACACAAAGGTGAAAGGATTTTTGCAGAATCATTAAGTCCCTAGCCTTTTGTTTTGAGCTAATCAAAAGAGAAATTTTACTGGGTGGGGTTG
ACCTAATCAGGTAAGCCCTTTAAAGGAAAAGCCAGGCCTTCCCTGGAGTTAGAGCTTCAAAGCAGCAGAGACTCTCGCCCTCCTTTCCTGGCTTTGAAGA
AGCAAGTTTCCATACATCCTATAGCCACAAGGAAATGAATTCCACAAACAACCTGTGGTTGCTGGGAGGTAAAGTCTACCCCGTTCAAGTCTCCAGATGA
GAATGCAGCCAGACATGCACCTTCATGTCAGCCTCCTGAGTGGAATACCCACCTAAGTTGTGCCCAGACTCCTGATCTGCAGAGCTGTGAGATCATGAGT
AGATGTTACTTTAAACATCTTGTTTGTGGTCATTTGTTATGCTGCACTGGAAAATGAAAACCAGAAGTCTCCTTGATGGCATCAGCTAAGGGAGGAAGAA
TTCCTTCTCTCAGACATACCAAAATGTGCAATTTCCTTTTCAGTCTGCAGATTAATTTGAATGTTGTCATTCTAATTTGAAATAATACCCCTCTGACAAA
TAGTAGCAGTTACTCCTGTGGATTTTGTGTTTCTTTGTAATTCGACTACTCGTCCTATTTTTTCTATCCTCATTTAAGTCATTTTACTTCCAAGCTCAGA
TGGATATCCCTCTTCCACTTGCCTTTGTGTTTGATGATCTGATCTCTTCTTCTGCATRTTATTTCTACTTTGCCTTTGCTGGGTTATTTCTGTATTTCTT
CCTCACTTCTCGCTTATTTCTATTTTTATTCCCATTCTGGGTCCACTCGTGCTTCTCCTCAGGCCACTCACCATCCAGGAAATTTCTGTCTCCACGTCTC
TTCTAAGATTTACCTGTACTTAAGAATTTCCATTTTCTGAATGATGTTTCAAATTTAGAAATGTGGATTTAGGTCTATTTGCTTTGTAAGATTTATGTTT
CACAAATTTATTTATTTTCCTTGAGAATTAGTGAACAAATGGTTAGGTAACCTTGAGTGGACATGAAGCTTTTCATCGGAATTGGATACAGATTGTATTT
AAACACCTCATCAAAGATTTAGGACTGTGGGATTGTCATTCATAGGTTGTGAGTGAGCACAAGGACCCTTCCCATGGGGTGGTTGACCTTTTGTTTTGAG
AGCCAGAGTGCTGCAAGGAAATGTAGTTATTCTTTGACTGGAAGATGTCTTTTCTGTTCTGAATGTTCTGAGGTATGTGGATTCTTATCTATAATTACCT
TCCCTTAAGTCAATCTGCATGCTAAAGCCTCCCCCAGGTCCTGCATCTGTGCCTCATTCTTTGAAGCTGGGATTCAGAATATATTATAACAGAATAAATT
ATAAAGATTGCTTGGGTGTTTCCTGTACCAGGACATAGCAGTGGTTTGGTGTCCTGCCCATTTGTGTGGCAGRAAATTCTTTTGTTTGTGCTGGTGAATY
GTTTTGTCTGGGGCTTCTTTCTTTGCTAAAAATCTTGCATTCTTTCATTTGGCAAGCATTTTGTCAACAACTTTAACTTGCAAGAACTATGGGTCCACCT
ATTTAGGCATTATCGATGAGAACTTCTAAAGGAACAGCCTTTGAGTGTACAGTACTATGGCACACACCCCTAAGGAACCCTCTATGAGTAATGGGTTTGT
ATAATTCCTTTTTCTTCAGTGGAACCTAGGACTTGCCTGATATTCCAGAGAGTGTGAAGAGGGATATTTAAAAATAAAAATGAAAAAGTGTTGCCCCCAT
AGTATGTAACAAATGCCTCTCAGGTGTGACAGATGTGAGTTATACTGTGAAGGTGATATTGATGAGTCTGGGTAGGTGTGCAACTGCTTATGGCATAAGG
CAGGTACACAGTAAGACCAGTAAGACTAAATGAGAATTACTGGGTATGGAGCTTGGGGATCCAATAAGCCTCCCAAGTGATTCCTGTGTACACTGAAATT
TAAGAAAATTATTACATGGTGCCAAAATTTTGTTGTTGATCATGATGATCATTGGAAGACAAAATACCAAAAATTTTATCCAACGTATTATGTCTTTAAG
AGAATGTTATAATTTTAAAAGAGAAATTATATACTCCTTAAAATCATTTTCATTAATCAAAATTACTTATGGCTAGAATTCCTCTGCCTTTATAATGCTC
TTGCACTTCTAAGTCTAAAGCCTTTAAAATGGTCAGTAATTATTATACTTCAAATTAATGAAGAACCATTGACCCCATGAAATCAAGTTCTGAAATTGAC
CAACAAGTAATGAATTGTTAACGAGGATGTATTATTCACATCTGCAGTAATTATTTTGCACCAATATTCTAGATTTAAGTGATCTTGGAAAATATCATAC
ATGTGATACTCCTGATCTCAAAGAACAACTTAGTAATGTATAATTATTTTTATTTTTCTGCAATAACTGAGAATGAAGTGCATATTTAAATAAATATTTA
TATAGTRTTTRTTTATTCAATGTGAATTTCATCATATAAAGTTAATGCCCTAAATTTAATATCTTTTGCATTATTGTGGCAATTGTGATAGTTAACACAT
CTGTAAACACAAACACATGTTCTGTGTTTCCATTTGATGACCTATAAATGAAGACACATTCTAAAGTGAGACAAAATAACTATATCCTAAATATTCTATC
CTAAACGTCCCCATATTCTTGCATTGTATGAAGAAGTGTGTTGGCTGGTGTRTGCTAATTTAATAGTTAGATATAATTTGGTTGCTTGATGGAAGATAAA
GGGAAACTTGCAGTTTGAAAGCAGTCAGAATGTTAACATCTGTTAAAAATTTGCTAAGTTTCATCACTGAAATTGCCATGACTTAGTACTTTAGAGGGAA
TAATTATCTCCCTTGGAAAAAACTAATCACTTTAGAAGTGCATAAACACTTCTAAGTCACAAAGGTGCTGTTTCATGAATGACATCAAATTATTATTATT
TTTTTTGGTTAGGAATCAGTTTTAGGAGCTAATTTATTTCCTAAAGTCTCTCATTTCTTCTTTAATGTCATTTGTGTAGTGAGAGATATTAACAAGCTAC
TCTACAAATGATGAGAAATATAAAAACAAATTAATTGTATCTATTAATAACCGTATCTGTTAATATTATGAAATTTCCATATTTCTCCCCCTAGCTGTTG
TCAACATCACATCTATTTATTGTCTGAATTTCAATTTCTTTGTTATCCCTCATATATGAAAGTTTAACCTTGAACCTGAAATGACCACTAAATATACTGC
CTTAAAAACTGGAATACACATGGGTGTGGTATGTGTGTACCCTCACTTATTCCAACTTAGATGCCTTCCATTCCTTCTATCCACCTTTGCTCCTGAGGTC
CCAGGCTAGGGGAATTTGGGTTGTACTAATAAGCACTTTAATATTGGCCACCAGAGGGCTCCCATATTCCTTCCRTCTAAGTATGAAAATACAAAGTGCA
ACTAACATAAAGTTCACCATCAAATAGAAAATATTATAGGAATTTATGATATAGTTCTCTCTAGAGTGAAAGTGTTCCAAACCCATTGTGTTCTTATATA
AAATACTTACAATGAACCAATTTGGGATACTCAACACTTTCATTAAAATAAAGTTATGAAATTATGTTTGGTTTTGTCTTTGTTTTGGGAGGTTATGATA
AGACTTATAATACTTAATTGGTGATTCCACATTTTAAATATTAATGTTAGTAAATCTGGATGTAAATCCATTATTTACATATGAATGATGTAAAATACAA
CTGATTCTAGTCATAGGAGTACAATTTTTTATCACAAGCTAGCTATATAAATAATCCTCTATTAAAACCCCGGGTATTTTTTTTTTTAGCCCAGCATTTT
GATGGTACACAAAACTTTAGACAACAAGATGGTAGGGTTTCTTTAAGTGTGTGTTGGTAGTAAGAAATAGTTCCATTGGAGAAAAACAAAGAATTGCTTC
GTTGGTGAGTCTTTCCACTAGTTCTTGTTGGGTTGTGTTAGCCGAGAACCATTTGCAGTTACTGAGACATGCTGGGATACCTCTCAGGGTTTTAGAAGCA
GCAAAGGTATCTGCCATTTTTTTTTCTTTTTCTTTCATTGATGGTAATTTGTTTGGTTTTGTACTGACCAGGTGCTGACCAAAGTATTTATGTATGCAGA
CATATTTCTGCTGTGCAGTAGAGGGTAGGGTTAGCCAATAGTGAAACTGTTGTAATTGACAGCGGAACAGACTTTGAAGTTTCTTTAGGAACTCTTTGAA
TCTAGGTGAAACATTTCATATGAGTCATCAGATTGATCTTCTCTGCGATGTACTTTAAAAATTACAATTCATTTATCATCAGTAACCGAAAATGGCATTT
AACCATTCTACCTTTTTCRATTGCTTTTCTTCTAGAACACATTACTTATATTTCTGCACTTAAATGTGCATCAAAGAGGATAGCAACATGGAAGGCCTGA
TTAACTAACTCAATTATACACCCACACCTAGATGCTGTCTTTTTGACTGTGAGACTGCAATGTTGTGTTGCAGAAGAAAATAAAACAATCTGTTCCCCTT
TTTTTATCCATTATGTTATTCTGGTCTGAGAATTATTGATTGTACTTTTTCTTTAGAAAAAGAGAATAAAAATGAGCTAATTTTGGTGCACCTTGTATTT
ATTGAAATAGTTTTAAAGCAGTGTTTTGAATTATGTTTTGATATGTGTTTTTAAAACGGTTTTTCTGAAAGCAGGCTTTCTTTGTTTAAATCCTCCTCTG
TCCCATCCTTTGCTTTCTTTTCATGAGACAATTGTGATTAAAAAGCACTCTAATCTCTAGGGTTAGATTATCATGTCTAAATGAAATGCGGTTATAAAAC
TATCTTTGTATACAATCTATTTTGGAAATTTGAATAGTTTTATTCAGAATCACATAGTAACAAATCCAGTCCAGTTTGTCCTGATGATTCAGTGGGATTT
TGATCTGATAATGTTCACCAGGCATTTGCATTCAATTTCTGCTCAAGGAAATCCACAATATCGCAACTAGTAATTGACTGCATTTTAAAAATATGCACAA
GCAAAAGAAAAGGTAGAAAAAATGCAACAACCAATTTTGATAGTGACTGGATATTATCATAGCCCAAAAGCTAACTGTATTATGTTCCTCTTAGAAGTCT
TTGAATTAACAAGCAAGGCAAATTTTCAGGGTTAGATAGATTTTATTCAGGAACATCTTTGTTAATTATCATATTATTTCTAAGTTTATACTGTCTAGGA
ATAAAAAATACCTGGAAATGTTTTAATTAGTATGTTCACACACTTCCATGTAAACTGATTTGGGTTCCTAAGTTTCCTGAATAATTGCTCTAATTTTGAA
ATTCAGCATTCTTAGATACCACTCCAATTGTATGTATTTACCACTTAGAGAGAAAGTTTATTCCTATCTAGCTTGTGTGAAATCAAATTGGCAGAGAATG
AACTTTGGCTTAAAAGCTTCTCCTGACATTTATTTGCAAAGGTTTCTATGGCTAATATTCTTGCACTCAAGGTGACATTAAGCTTCCTTGGTCACTAGGG
AGAAATGTGGCTTTTCTCTTCACTGATTCTGGGTATGAGAAGAAAAGAATGACTTGAGGATATGCCAACCTCACCTTGCTTCTGTCTGCCCCTAGCTATA
TTTTATATTTRCATTTCAGGCAAGAGACCAAAAAACTGAATTCCCAACACAGAGAGACAGTGGCGAGCGAGAGGACCTGCATCACCCAGCTCTTAAATCC
TACATCAGTACCTATGCCTAAAGCCACCAATGATATCCAGAGACCTTCCTATCTGAAGCTATTGATGTTTATTTTTTTCAAGACTTTAAGACCTCTCAAA
AAATAAAATATAAAATTTAACTTAGAATACTGGTGCTTAATTGTGACTGCACGTTACGCTCATCTAGGGGTGCTCTTTAATTCCTAATACTCAGGTTGCA
TCACTGACCAATTAATCAGAATGACTGGGATTCAACCAGACCTCAGTAGTTTTGTAAGCTCTCTCTCATGACTGTGACTACACTATGGGTTGAGAAGCAC
TCAAAGTTTGAGAACCACTGTCTTGTAAACCAGGACCACTAAATGATATCATAATCCTACATCCTGACATATGTAAAGGATAAGGATCTTAGACTGCAAA
TCCAGATGTTCAAGAAATACAGGTTGATTATGAGTTGTGTGGTCCAAATTCTGTAATTCAGCCAGTGTGGTGGAGGGTTAATCTTGGCCAATTCAGGGTT
CTTCCTTTCCATAAGAATGCAAGTGAATTACAATGGGTTCAGAGAGTGCTACATTATTTGGGGGTAGGGCTGGAGAGGACTCTGTCCTGGGTGGCTACTT
ACCTGTGCCAGCCTTGCTGAAATGTGCACCAAGGCATCTGTCCACAGTGGATCAGTGGTGGCTCAAGTCCCCACAGCACTGCCCCTTCACCCCACCAATA
GGCCATTTTCTTTCCCCCATGCCATGTTATGGCATGACGTGAGCTGGTGTGTACCTGCCGTGAAGTGTCCCTCAAAATTTTTTCCTCTTCGGTCTTCTCC
ACACTTGAGAAAATGACTACATGTTTGTTGTTTCTCAGAGATTTGACCTCAGATGAAAATGTTAAGAAAGGAACCAATCATTAAACTGAGACTCCTGGTC
AGTACAACCGATGTTTCCTCTTCTTTTTAAAGCAAAAGCTTGTAAATTCCTTTTTTCAATTATAAGGAACCATAAAATCATGCATTTTTGTCCTGAAGGA
ACTTTTTTAGTATGCAATAATTTGATTAAAAATAATCACTAAAAAGTATATTACCATCAATCGTTATGTTAAGATACATAATACATGAAGTGTTCATATA
CATACATTGTTATGTTGCTGGATAAATCTAATTCATCTCTGTTTTCCCAAGGTACTTTTGTCATCTGTCCAAACAGTTAAGAGTCACGTTTAAAATGGTA
TCAACTGATACCTACTCCAGAGTATTTATCTTAATCTAATCAGTGTTATTGCTCCTGTCATTCAGAATCTTCTTAATTATTGATTTGGATTAATTACCTG
GTGAACATTTAAAGCCAATTCAAGGGGAGAAAAAGAACAGTATATTGATTAGCACCATTACTGAGGATATCATTTCAGTTTGTCTTAGACAGGGATCCCC
CAGGTATGTATAATATTGGCCTTGAGAAAATGTAATTCTGCCATACAAAGTCTAATTCAAATATAATGGCATTTATGTTTTTATCAATGTAACAATAATT
TACATTAATTACATTCTTACTATGTGTTGGAGACCATATTAGTACATTGTAAACACTGTCTTGCTTAATCCAATAATCTCATGGGGATATTTACTATTTT
ATCTCCACTTTACAGTTGAGGAAACWGCTCAAATCACTTTTCCAATTACTCAGCTAGTTACCACAGTTAGGACTTGCACTATGTTTTTAGCTATTATACT
TAGACATACAAGTTGAAGGCAGTTCTTGATGTTTTAAAGTAATTGTTGTAAAGACAGATACATGCACACCCACATGCAGAAAATACTCCTTTTTCTAATA
GATACTAAACTTTAAAAATAAAGTCAGTGGTACGCATTAAAAATACGTATGTTCAAATCCGTAATGGAATATCAAGGGGAGCCTGGAAATATTTTGAAAA
TAAACCTTTTTGGGGGTGATGTGAGAGACAGTACCCGGGCCTCTGCAAAAATGTTTTTGATATGAGAATACTGCACTAAGGGCACCATAGTCTACCCCAG
GGCTGCCTGATACAGCTATATGCAGTGATGAAAATGTTCTTCATTTGCAATGCCCAGTATGGTTGTCTATTGAGCACTTGAAATAAGCGTAGTGCAAATT
AAAAACTGAATTTTTAATTTTTAAAATCTTAATTAGGTTAAATCTAAGTAGTCATATGTGGCTATTGGCTACGGTACTGCCAAGTGCAGGCTAATCTGCA
CTTACTCTGCTTCTTTCTCTCTCTCCCTTTACTCCCACCACTCCTTCCTTCCTGCCTGTCTGCCTGCCTGCCTGCCTGTCTTCCCTTCTTCCTGCTTTCC
AATAAAGAGAATAAATATAAAGTTTGGATCAGACAAATAAAATTCGCTTTTTAATAATCTGAGTAAATGCATGCGTTTTTCCTTCTTAAATGCAAACAGT
AAATAACAACACCTACTTATATCATTATTTTTAGGACTAATGAGACAATAACAGATCCTGATTATGGTAATTTTTTWGAGCTAATTAGATAATATATGTA
AAGCATCAAGTAGACTTCCTGCTATAAATGATGATCCATTGGTGATGATAATGATTATGATGATGGTGATACTGACACTAATGCTGTATTCATTTAGCAA
ATGGGATAGAAGGAGGTCCCCATTTCTACATCAGTGTCTCATGTGGTAAAAAGATTCAGATATTTACTCATTGATGTAGTAATATATTTCCTGTCAATAA
AGCCATGTGTGTATATAGTGATTTATTAGTATGGGGTAACTGCTCATGTTTGAGCATGTCGACATGCTTTTTGAGTTTAGGGTTGAAATATTAGCCTTGT
GTTACTAGTAATAAAAYGAAAATCCAGTGAGAGGGATTTGCTGCAGATCACATAGAATTTGTACTCAAGTTCCTGTCTTCTTTTCCATCTACTTCTCTTT
CTGTGTTATCATAGTTCCCATAAAAAAATAATATGAAAGACTCTAAGATTCAATGAAAAACATAAATTTTGTGGGATTTCTTCATAACTTTTTGACACAA
AATAAATAAGATGTTAGAATCAGTGGTTGAGTACGATCAAAACTCCAKATGAAATTATTTTTTGCATCTCTTTTTTTAACCAATTATTAGCAGTGCTTTT
TAGAGAGCAGCATTTATTTTGTTTAACCTTGCAATGAGAGAGTTTCAGGCCCAGTTTTTTAAATGAGTGTGATAGTAGCCAATGATAGAGAAAAATCCAG
TATTCCTAGGGAATAAAAATTGAAGAAGTAATCATCTGGCCTTGGAAGTATGTATCAGCATGGCCAAGTCATGTATCAGCTTCCATCTTTCACTGTTGCC
ATAGTTCCATGGAGGTGATGGAATCCAATCATGTTCTTTTAAAGGATAACCACTGCTCTGTTCAGGGCACCCTGCTCACTCCGTGGGGAATGCTGGAAGG
ATGTGGGACCCTGCAAGGCTGCCTCGCTGGAACCAAGGGATTTAGCAAATGCTAGGAAAGAAAAGCAAGTTTAAGCTGGGAATGCAAGTCATTTGCTGAG
ACGGCAAAACAAGAAGAGAGAAGCCAGAGGATTGCTGGCCATCACAAAGCCAAGGGGCCTAAAGGAGGTGGAAATGCAGCATACTAGAGGCCAGATGTGC
TTCCACTCAAACCCATTGGTGGCAAGGGCCTGAGAAGGAAGTGGTAATGAGTCACAAGCAGGATGATACAGTATTAACCCACATCCTTTAGAAGGCTTGA
ACATCGTCCTTTTGTAGCTGATTCCTGTCTTAGATCAGAATGCCGACTGAGAGACAGGATTTTGACAGAAATAAAATAATAAAGGGTTACCAAGTGAAAG
AGTGATAAAAAGTGCTGGAATGGAAAAMTATGTAGTACATTTACAAACTCTGGGTCGATTCGAAAGAACAGAACTTTGCTAATGTAAGAGCTGTGTTTGG
GGCATAGATTCTGAGATAATATTGGAAAGTTATTCCTCATCCTTTTATTCACTCATTATTTCACTTCTTCATTCATTTCCAAGCATTTTTCTAGAAGCAA
GGGACATAGCAACAGATACAACTGACGAAAATCTCTGCTTACATGCATCTTTCATTGTAATATGGGAAACAGACAATAAGTGAGAAAATAAGTAAAAAAT
AAAGTAGGTTAGATGGTGATAAATACTACAGAAAAATTACATGGGAGGGAGGATCAGGGATTTTTGGGCCGATGAGAAGCAATTTTAAATTGGGTTGCCA
GGGAAGGCCTGCAAATCCAAAGGACCTCACTTTTGTATCCAGGGAACAAGACAGAGACCAGTGTGCCTGGATCTGGACCSAAGGGAATGAGAAGGGAGGG
TGGGAGGAGATGACGTCAGAGGAGTGATGGGTGGGGACAGAAGATGCCATGGAGTCTCATYGAACCAGCTCGAAGACCTGGACAGAAGAGGATTGCTTCT
CCATCCTGGCAGCATGGAGAAGGCCTTGTTCCCTGTGTGATTCCCACAGGAGTGCCGAAGAGCATCCTGCCCCTTTCCTGATGTATCCATTTACAATCCG
CACAAGTAAAATTGCAACAGCTGTCCCTCTGGACTAGTTCTTTTCCTTTCTTTCTTTTTCCTTACCTTTCCTTTTCTTGCTTTTTTTTTTCTTTTTGTCT
TCAGCAACAGAAATTCATTTTCTCATAGTCCTGGAGGCTCAGGTTCAAGATCAAGATGCTGTTAGGATTGGCTCTAGGTGAGGCATCTCYCCTTGGCTAA
CAGACACCACCTTCTGCTGTGACGGCAACATGGTCTTTATGCTCACRGTGGGAGAGAAAGAGAGAGGGAGGAAGAGGGAGAGAGAGAAGAGAGCAAAGAG
AAGAGAAAGAGATTGAGTGCTCTGGTGTCTTCCTATTCTTATAAAAACACCAGCTCTATGAGATCAGGGCCCCATCCTTATGATGTCATTTAACTTTAAT
TATCTCCTAAAAGGCCTTGTCTCTACTTACAGTCACATGGGAAGTGAAGACTTCAACATACGAATGTTGGGGGGACACAATTTGGCTCATAATAGTATAT
GAACTAAAGATGTAGCATTAAAAAATGTCTATATTATACTAATAAAGACCTTACAGACTAGTTACTTTGCATCCACAAAGCTACACTACAAGAAGGAGAA
GAAGAAAGATACTCTTACTATTCCCTCCCTCCATTGGGCCAGCCCTGGAGGTTATGATTTCTGTTATTCTTAACACATGTCATAGAGAAATTTGAGTTCA
GCTGTGAAGAGCCATTTAAGCCTTTTGAGAAGAAATATACCTTGATCAGAACCGTGATTTAGGAAGATAAACATGAACTGCTTTGTGGGAGGTAGGAAGA
TTAGGAGAAGGGAGACTTATCAAGTAGATTTTAGAGTACTCTAAGAAAAATTCGATGTGGCTATTATGTGGGACATTGACAGAAGTTTCCTCAGTCAGTA
CATATTTACTGAGTGTCTACAATGTGCCTGTATCTACTGTAACACATTTATACAGTTCTAGGTGCCAGGAACAAGTCAGGGCTCTTTGTTATTTGCCTTT
GATAAAAATGATGACAAGTCAGATTTGAGGAGCTTTAAACCCAGACACAAGAAGACATTGTTTTGATCCAGGCAGACAAGTGACAAAGAGCAAGCGCAGA
GAGTAGGAATGGAATAAAGTCTTGGAGTTAGGACAATGAAGCAATATCTACAAAGGACAAGCCGTTGGTTACATCGCTGCAGGCAAAATAATGCCAAATG
GACAGACATCTCAAAATGCATTCCTCTCTCGTCCAAAGATTTCACCTCAGATCGCTCAGAGATGTTTTTTCTTTTATGCAAGTTAAAAATGCAGACAAAT
GGAAATAATGCTGCTTTATGAAAATTCAATCTTTAGCTACCTTTATTAGCACATATCTGTTCTATGAAACAAATGTTATTTGTCCATCCTAGCTCCATTT
GTCCTTGAAATAAATATTTGGCCCTAGCTCCTGGATTTCTTAGGAAATTCAATTTATTGCTGGACATGTTTCAGTAATCTGTGAATGACCCCAAATTACC
TGTTCATAAGAGAAGGCCAGGCCTGGATGACAAACACAGAAGGCTTTTCATTTTTCCCATGACTTCCTTTTTTGGCAAACCATCCTCTTTGTGAGAGTCC
GCCTCCAAGTTGGATTAGAAGATGTCCTGGAGCGTGCAGTTCACCACCCACTATATTGTAAGCTGAAAGTGTTTTTGCTAACTGAATGTCAAATTAATGM
GGTTTTGCTATCTACATGGCATGTTTTGACAAAAATACTGTGTACCTTTATTGACAGTGAACCTTCTGCTCYGGAGTAATGCTAATCCARGACTGCTGGT
TTTTCATGTTAAAACCCATAAACTTGTTATTAGAGCAGATGACTTCCAAAACGTCAAAACTAAAGATGTTGCTTATTCACTAGAGGAGTTTATGTTGTTC
ACATTTAAGATGATTTATTTTTATTCACTTGACAACACTTCGAACTTCAAATGGWTGCACACAAGCCAATTCTTGGAGGGTTGTGACTGCAGAAAAAAAA
TTAAATCTTGTGCTCATGTGTTGCTCCATCATAGTAATCCTCAGTTTTGTCCCAGAAGTAGCATGTGTCACTTCCAGTGATTCAGGACCAGCTGGTAGAA
AGGACGGACATTTCATGCTGCCATGAGCAACTGCYGTGTGGTCCAGGATGACTTTTCCAAAAGCTTCACTCACTGCTCCTCAGACCACGTCTGTTTTTGT
AGAGGCAAAATGAGATGGCTGAGAGAATTGTGGACTCTGGCCAAATGAGTAGTCATTCCCTGGCTGTAAGTGGGTGAAAGAGAGGTGACAGAACCATTTT
TACTGCAGTGCAGTGTGATTAATCTGTGTCTTCTTAATGAGATTAAGGGGAAAAACAAACTTTTTTTTTAATTTTTTTTTTTTTTTAACTAGCTCTCCTC
TATACTGCAAGTTAAACAACTTATTCTGGCAGAAGGTTGAAAGAAGGGAACAATTGCTCCTTTGCTAGAAATTCTCTTCATTAGGAGCATAGCCTTTCAA
AAAACAATGCCACTCATGATATGCTTCAGATTCTATATAATCATCTCATGTTGCACTTCTYCTAATTTATTTTATAAAAGAAGTTCTTTTTTGGTGAGAG
ATAGATTGTAAAACTCAATGTATTCTTATTCTTTTTTTTTTTTGCAATTATTCCTGAATACAAAACTTAAAAAATGACACCAGGGCTTTATRTCTAGAGT
AGACTGTGAAAAAAATGAATACACATTTATTTGGGAAAGATATTGGTGGTCATTATGCCAATTGACATATAGTTGTCATCACTGATGTAATTTTGCATTT
GTTTGTGTAATTATTTAATTAACATCTGTTTCTCCTACTGTAGTATCAGGTTCTTTTTTAGTGAGAGATAGATTGTAAAACTCAATGTATTCTTATTCTT
TTTTTTTTTTTGCAAATATTCCTGAATACCAAAATTAAAAAATGACACTAGGGCTTTATATCTAGGGTAGACTATGAAAAAAATGAATACACATTTATTT
GGGAAAGATATTGGTGGTCATTACGCCAACTGACGTATAGCTGTCATCACTGATGTAATTTTGCATTTGTTTGTGTAATTATTTAATTAACATCTGTTTC
TCCTACTGTAGTATCAGGTATATGTAGAGGTAATCACAGATGCATCGGCTCAACACTGCTTTTGGAGGGCTGCACACAACCTTGGCACATGGTTGGCACT
CCATTTGTATGTTTGTTGGTGAAAGGATGAATGAATACCTATAATTGAAATTTTATGCAATTTATTTTTTATTTTTGTAGTGCTTGTCCAAGCTTTTTTG
AGCACCTCTAGCTATAGAGAAAAAGTTTTCTTCATAAGGGTGCTCAATGTGTTTTCAGAAGTTTTGGATATTACAAAGTTTTTTCTTTTATTGAACTGAT
ATATGTTCATATATAGACTTTACCATTTAAAAATAAAATAATTGTATGGAAAAATGACTGATATTAAGGGACAACCTTCTTTATGTAATTTATGTCCTGA
TTAATGGACTTTTCTTGTTTGGGATTCATTCCTTTTCATTCAAGCATTGTTCACAAAACTGGATTAGTTGTTAATTACAAATGGCCTAAACTATTTTAAG
AAAGAATTTTATTATGGAAAAATAAGAGTACTATAAAAAARGTCAGTTGGGGTCACCTTGTCTATTGCAACTAAAATAGAATTGACTCAGAGCTACATTT
TCGTCACCTCCTTTTCCTACCTCTTTCTTGGCCCCCTTRTTCTGGCCTTAGATTACTCTGCAGAAACACAGGCACCTTGTTTTTTTTTTTTWATGTGGAA
AAAATTAGGTTTCTTTTTCTTATTCTTCCACTATTCCAGATGAATTCCGTGTCTATTTTCTAATAAATGTTAACTATTTTGAAGAGAAATGCATTACTCC
CATAGAAAGAACAAATACTTGCAATCAGTGATGTTTTACACTTACTRTTTCTATTTTAATTTGTATTTATTATAAAAATAGGGGATATGTGCACACTTGA
AAACATTCTCGTTGTGTAACATTAGAGTATTACAGTTAAAACTGAAGCCCTCTTTAAGCAGTAATACCTCTATTATTAAGCATTTAAATATATATGCATA
TATACATATATCATTGTTTTTATGGGTTTTGATATGTGGTACCTCAAGACTCTCTTCTCTCTATTTTTCCAAATCAATATCAGTGAATCATAAATTTTGC
ATTTTCATATATGTTCATATATATTTCTGATATATGTTGTTTGTTTTTACTTTTGAAAAATAACAACCCTATTTTGATTACTTCACATCAAGAAGTCTGT
TTCACTCTTACCTTTAGATTGTTCTGCCTTCAAATACAAACATTTTACTTGAAACTGTGGCAGTAAGAACTCTGGAGCCAAAGGCTAGTTTCTTCTTCTT
CTTCTTCTTCTTCTTTTTTTTTTTTTTTTAAATACTTTAAGTTCTGGGATACATATGCAGAACGTGCAAGTTTGTTACATAGGTATACACATGTCGTGGT
GGTTTGCTGCACCCATCAATCCGTCATCTACATTAGGTATTTCTTCTAATGCTATCCCTTCCCTAGCCCCCCACCCCCTGACAGGCCCCGGTGTGTGATG
TTCTCCTCCCCATGTCCATGTATTCTCATTGTTCAACTCCCACTTATGTTTATTGCAGCACTATTCACAATAGCAAAGACTTGGAGTCAACCCAAATGCC
CATCAATGATAGACTGGATAAAGAAAATGTGGCACAGATACACCATAGAATAGTATGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTTCAGGGACATG
GATGAAGCTGGAAACCATTATTCTCAGCAAACTAACACAGGAATAGAAAGCCAAAGGCTAGTTTCTAGGCGCTCTTTTGGTTTGATTTTGAAATCTGAAA
AATCAGCATTGAAGTTATAKGTGTGTGTGTGTGTGTGTGTGTGTGTATGTAAGAAAAGTTCAGTAAACACCTTTAGCACCCAAATTAAACACTAGTTAGC
ATTTTTCTATAATATATTTTTATGTTTATTCATCTATAATGCCATCATAGATTTATGTATTATCTGCTTATAATTTTTTCTGAATTATTTGATAAGTTGC
AGGTATCATGGCATTCTACCCCCAAATACTCCAGCTTGCATTTACTAAAAATAAGAACATTTTCTTGTATCAACATAATGCCATAATCACACCCAAGAAA
AATAATAATTTCTTATATAATATCTAATTTAAAGTAACATTTTCCTATTATTTCCAGAATATTTTTAAAGCTAGATACCTTCTTTGATTCTATGCCAACA
AAAATTCAGACACCCTAGTTATGTCTCTTTAGTCTCTTTTTTAAAAAATCACATCTATTAAGATAAAATTTGAMTTCAATGAATCGCACCCATTTAAAGT
ATACACTTTAGTGCATATTGCCCATACATGCATGTTTGATTCTAACTTCATGATCAAGATACAAAACAATATCATCATCTCCAAAATATTTCCTCATGTC
CCTTGACTATTCATCTCTCCTTCCATCAGCCCATAGGCAACCACTGAGCTACTTTCTGTTGTTAAAAGTTAGTTTGCATTTCCTATAATGTAATATAAAA
GGAATGTTGTACATTGTACTCTTCTGTGTCCAACATCTTTTGCTCTGCATGCTTTTGAGATTCATCCATGCTGTTGCATATAGTAGTACATGTATGGATA
TATCACTATTTCCTTCACCATTCAACTATGGATGGTCATTTGAGTTGTTTCCATTTGAGGCTATCATGAATAAAACTATGATGTATATTCATTCCTAAGT
TTTCATGTAGGCATGTGTTTTGTTTCTCTTGAGTAAATGCAATAATACATTTAATTTTAGAAGAAACTGCGAAACAGTTTTACATAATCCTCAACAATGT
CTGGGAGTTCTGGTTACTCTGTATCTGTCAAGACTTGTTTTTTTCAGAGTTTTAATTTAGCCATTCTAATAATGTGCTCAACTTTCACTGATATCAAATT
TCAGTTAAATTTTACTAGTATCAAATTTCACTGATAAGTATGTTTTGAATATTTTCATATGGTTATTGGCCATTTATAYACATTCATTTGGAAAGTGAAT
GTTCAAATTTTATCGTATTTATTTAGGAATTTGTCTTCTCATTACTCAGAAGAACATTTATATATTCTTGATAGGAATCCTTTGGCAGGTATACGTATTG
CAAGTAATTTTTCCCATTCCATAGCTTGCCTTTTACTTTTCTTATTGTATGCTTTGAAGGTAAAATGTTTATGGTTTTGCTAAAATCCAATTTGTAGATT
ATTTTTTCTTTAATGGCTCATATGTTTTGTTTGCTATATAAGCAACCTGGTGTTTTCTTCTTGGAAAATGTTTTATTACAAAGTTATTGTTTTTATATAA
AAATATATATAGGTTTATTAATATTTAATGGTTTATTAATATTTTTCTTTTTTGTCAGTTTTTATATTTCTGTCTTTCAGTGAATTTATCCATTTAATCT
AAGTTTTCAATTTATTGGCATAGAGCTATTTATAATATTGTCTTATTGCCTTTATAATATTCAAGGAATCTCTAGTTGTGCTCACTCTAATTTAGAATAT
TGTAATTTGTTTATTACTTGTGTTTTTAACATAAATGTTTGTGTACATTGTTGTTTATAAATTTCAGTGATCTTTCCAAGAAGTCAGCTTTTGGCCTCAT
TGATTTTTCTCTATAGTTTGTTTTTTTATTTCCTTTATTTTAGCCCTTATATTTATTAATTTATTTGTGCCATGTTGTGTTCTTCTTTTCCTAGATTCAT
AAGGAGAACTCTTAGATCATTGATTTTTAGCATTTTATTTTGTTATTATTTTGCTTAAAATATTTTTTAAATTTATTTGTGATTCCTTATTTTACCTATG
GTTTAGAAACAAGTTGTTTGTTCTCCACATACTGAATGTATATAATGAATGTTCTGTCAAAGTCGTTAAGTAGTTCTTAAAATGAAATTAACAGAAGAGG
GAGCTTTGTAAAGGTAAACAAGGATTTCTGAACTTCAAAATTATGGATCAAGTAATTTTCTATAAAAATAAGCATAGCAAAATATTTAGGCCCAATCCCA
TAGTAAGATATTGTAAGACAAAAGAGAATGAGACAAATAACATCCCTAGAGGTAATAAAAACTAGTCAAATAAAATAAATAAAAATATCAACTTGTATTT
CAAAACTAGCTAAATGACATTAAGAATATAATGCAAAACATGGAATAACATTATAAAACAGAATTAGAAAAACTCAAAAATTAGGCACTATACCATAGGG
AAAAATAGAAATGAAAGAAAATAATAATTTCAGAAATGAAGACTAAACTAGAAATATCAAAAGAACAAATAAACACATGGATAATGCTTTAAGAAAAACC
GAAGTTGAAAGTAGAAAAAAATTGAGAAAGAGAAATGCAGAAAGAAATACAWATAATTTGAGAGAGAAATTGAAACGTGGAATATGAATAAAGAACTTCT
TAAATATGGTTAATAGGCATCTCTAAAGAAAAAAAAAGCAAGGGAAAGAACTGATACTAAAATCTATAATTCAGAAAAAGTTTCTGCAGTGAGAAAAAGA
TGAAAAAGATTTCAAACTACGTGTTGAAACAGCATACCAAATGCCACATTGACCAGAATTAACCAAGACCAAAATATGTTCTAATAAAACTACCAGATTC
TAAAGAAAAAGAAAGAAAAAATAACAACTGGGCATCCAGAAAGAACAGTAAGTGACACTGGAAAAAGAAAACTATGTTAGCATCCCTATTTTTGGCAAGT
ATAGTTTACTCCAGAAGAAAATGAGGCTACATAGTTCATGTGGTTTGGCTCTGTGTCACCACCTTGAATTGTAATCCCCACGTGTTGAGGGAGAAACCCA
GTGGGAGGTGATTGGATCACGGGGGTGGTTTCCCTCATGCTGTTCTCATGATAGTGAGTGAGCTCTCATGATATCTGATGGTTTAAAAGTGGCACTTCTG
CCTTTGCTCGTTTTCTCCTGCCGCCATAAAAGACTTGCTTTGCTTCCCCTTCTGCCATGATTTAAGTTTCCTGAAGTCCCTGCAGCCRAGTAGAACTGTG
AGTCAATTAAACCTCCTTCCTTTGTGAATTACCTAGTCTCAGGTAGTTCTTTTTGGCAGTGTGAAAACGAACTAATTCAGCAGTTAAGATAATCAAGAAA
AAAATAACTTGTGAGCCCACAATTTTCTATCTAAAAAAATCACCTTCCAGTATAAAAGGCGTAGACAAACTGTTATCTATAAGGAAGAACTCAGGGAATA
TTGAGTAATCTAATAAAGAAACAGCCTAAAACAACCAAAATGCCTAGAGAGAAGAGACAGGTGGTACACATTAAACACTGGTGGGAAGCATTAAAAACAT
AGTTACTTTTGTTGACAAGTCTTACTTTAGTACGAAGACTAGAACAAGTCTTAGTGTAGAACTATGACTAAATGCAGGTTAATGGGGGAAAAGTATGAAA
TGTAATTATATATAGAGAGAGAGAGAGCGCGAGGGGAGAGAGAGAGTAGTGATGGACAATCAAATTACATTTTCACTTTAAAGAAAATAATATACTATAG
TGATGTCTACTAGTATCTTATAAGTAAGAGTAATTATAATAATATTAGCAATTGCCTTGCTGCTTCTGTGCCAGGCATAATTGGGTGCCATGTATCAGGG
TGATCCTTTTCCCCACCCAGGGTTTTGCTTAGATGGTTCTCCCTTAAAAATGCTTTTGCCACTGTCTTCTAGTTTCCCAGCCCTTCCCTTTTGGTGGAAG
GCTTCCAAAACCAAGACTGAAAGTCAAGTTTGTTTATGCTGATGTGTACTCTCTGGACATTTTTCTTGTAATAGAAATCAGTGTTATTTTATTTTACATC
CTGATATTTTATATATTTTATCTAAATTTGTTTGAATATGTTTGGTAATTTACATATGTAGCCTTTAGCTTACAAAAAAATTAACACACACATTAAATCT
TCAATTTTATCTAATCTAATACACTGATGAGATTTTGATTCTTTAGGTTGGCTATTGACCTAAAAACACATTTTTGGGATATGTCGCATGTAAGCAGCAA
CAGTTTCTAATGAAATCTTCTTGGACTGACTATCAACTTCAAATTCTTGAAGGGCAAACCACATTTACTTAGTGTCTGGTTGGGTCTAGATTCATCTTAA
AAAATCACTAAGAAAAGTAAAATCATGTTCGAAAGTCCATGGAGGTTTCTTGTCTTTCTTTCTTTGAACTACTAGAGGAGCTGTAATATAGGAAGAAATA
TTAGAGGATTTTTTTTTATTTTAAAAACTTTGGAGGCATACAGGATAAACTTTCAATAATGGCTAAGTTTATGAAATTTAACTGAAATGTGTGTACTATA
TATTTAGTTGTAACTGTTGATTTTAAAAAAACGTATACTAGTTGGTTCTAATCAGAAATTGTCAATATTTATGTAATGTAAGTGACTAAAAGTTATGGAA
TACAAAAAAGTAAACAATTGTTTACATGATATGTTTTCGGGGCTCTGATATTTCTGCTGCTGCTCCACTGAATTGCAGTTTAACTTAGCTGTAACTTAAA
GYTTCAGTTTCAGTTTTTGCTAATCATTAATATTCATTCACTTATTCAGTTCTTAAATATTTATCCAGGTCCTGCTACTTTTGTGGGTGTGATATTGTGC
TGTTTTAAAGCAATACTCTGGAAAGGATTAAAAAGCCATTAACAATATAGAGTGAAGTCAAGGTCAGTGAGTAGGATTTTGCAGAATTGGAAGTAAGACA
TTTGCACTCGAAAACAGGGGTAGTTGGTTTCTGGAACACGCTACACCCGATTACTTCATAGCGTATTTTTTTGGGGGGGGGGATTTACTTTATTTCTTAA
GTAGTTTAGGTATTTTATTAGTGATTTTGATTTTTCTTGAAGGTTTTATTTTTTTTATTTTGTTATTTATTTTGTTATTTATTTATTTATTTATTTATTT
ATTTATGTTTTTTAGACGGAGTCTCGCTCTGTGGCTCAGGCTGGGGTGCAGTGGTGCGATCTTGACTCACTGCAAGCTCCGCCTCCCAAGGTTCATGCCA
TTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACAACAGGCGCCTGCCACAGGCCTGGCTAATTTTTTTTATTTTTTTGGTAGAGACGGGGTTTCACCATG
TTAGCCAGGATGGTCTCGATTTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCGGCCAGTTT
TATACTTTTTAATTTACTCTCCAATATTCAAGACATACAACATGCACATCTTAAAATAAGTTGTGTATCTGTATTTAAAGAACGAATTTTTTTCAAGTTA
TTTCTTAGAAGTTATTTATTTGAAGAGATTATTTTTAATCATATGGTTGCTGTTGAATAAATTTTTAAAACAAAATATGTAAAGAAGTACACAAAATCAT
TTTCAGTAATTCTCTCCTTATCCAAGAAGGCAAGTTCTATCTTAAGAACCTGCACAGAGTAAATATTCAGTACATTATCTATCAAGTAGTGTGTTATTCA
CTGCAAATTGAAAATCATCAAATTCCTARTTGTTCTGCTTAATAGATGCTTAACTATATTTTAGCAGATTCCAAATATATGTTAATATATATTTTTGGAA
TTCAGCATGAGTATCTTTAGATGCTAATTGCAAGTTAATCTTTCTTCCTAGAATGTAAGTTCCATGGATTATAAACGTTATTCCTATTGCAGATTTTCTA
AATAGTGTTTCTGCTGGTGAAGTCTTCTTCACTCTCTGGTGCTTAAGATTAGAAAGAAAAAAGGAAAGTAACTGAACAAAAGAAATTCTTTGAACATGAA
ATTATCAAATGAAACTGTACATATGCAAAGGAATTTTAAACCATTGCCTTGCAAAGTCTTTTTTTGCATAACAACGTTTTGATAAAATGAAGAGACTGAC
CAAAGTAACAACTCTAAATAATRGCATTTCACTGCCATAAGGATGATTGTAATTATCAGTGGAAGCCTAGAGCATTAGGTCCCAACTCCTAATATTAGTT
TCAAYTTTTATAGCCTGGTTGTTCAAAGACATKCAATTAAACTAACCTAGTATTATTGGAATAGAAAATAAAGAACTACTGTTGGAAACACAATTAACAA
TACATAATAGAGGGGCCATATTTCCAATGGCTGCATATTAAAATCAACATTGAGCTAAACTAAGCATAGGCCAAAGCTGAATATCATCATCATAGGACAT
ACTTCTAGGATTACAAGAGTGTATCTGAAAGTGACTACCACTTTAATGATATTAATTTTATCATTAAAAGGTTTTATGGTCAAATTTCAAAATCATGGCA
TTGTAATGTAGGGTGAAAGTTCCTCAGCACTGCCATGTGATTATTTCTGCAATGAACCTGCTGCACATTTGCCATTCTAAAAGGACACTGACTTTCAACT
TGTGTCTCTGGAAGAGCCAGACCCACCTCTGCTAGTATAGCTTACTGCTAATAGTCATGCTGCAGTAACAACATTATCAAGCTTTTCTCCTTCTCTCAAA
GAAAATGATTCAGGTAATGCTTTGCTTCCTTTGCAACCCAGGGATTGGACCTACTGTCTTCAAACAAAGCTCTGTGCAGTGTTGGTAGAAATGGTTTCTG
AATATTTTTAGAAGCAGACTTAAAACTGTAGCATGATTTCTTGTATTTTCCACAAATGCACTTGATGCTTTACTCATTCATTGAGATACGTAATCCTTCA
AGTCTGGATCCTTCCCTATATTTGATGTTAAATAAATGTTAAATGTATTGGTTAAAACTTTTTGATTAGAAGTTAAGTGTAAATCCAAACACTAAGTTTT
GTTCATATTATTCACATTCTGAAACTCATTTGGTATGATATTAAACTTTATAACAGAGAAGACTTTGCAGCAGGTAATTGAGTATTATGATTTCCAATGC
TGAAGTACAATAAAAGAGTTTGGCTAAGCATCTCTTGGCTAAGGCCTAACATTAGTGTTTTCCTAATATGATTCATAAAACATTCTTTTCTAATAAAAAC
AATCTATTTGGCTGCTACTTTGGACACCTTGAAATCAAAGAAGATTAAATATTCCATTAATAATGTTAAATTAGTAAAGTAGGAAATGGTCCAATTGTTC
AAATCTTTGCCTATTTTCCAAGTTAAAAAATAAGCCACTAAGGMAACAAAGAAGAAATAATCAGAGATAGAAAGGCATTCAGAAAATAGTGTGTCAGGGA
AGACAAAGATAGTTTTTCAAAGAAAAAATAACTGGCCAACAGCATCATAATCAGCRCAGTCTAATTAAACAAATATAGACTACCGTTCTTGTATCCACAG
CACAAATGTCATTGTCAACGTTGAAAAGAATAGGTTCAGGGAGTAATGACAGCAAAAGTTTGGAAGGGGAGAACCATTAATGGGTGGGGAGGAAGGAGAA
ACAGCAGGCATAGGCTACTCTTTCCAGAAGCTTGGGTTGGGAAGGAAAGGATAAAACAAGAAATAGGTACGTAAGTCTTAGAATTGAGAAAGGTTGCTTT
CATGTTTGCTTTTGTTTTTTAGAAGAAGAAATAGGTAGGAATGGTTTTAGGTTGAGGGCAACACACTAAAAGATAAGACAATTTAAAAGTGTAAGAGAAA
GATGGATCCAAATCCAGGAGGAAATAGAAGAAGGACTCCAAGATTCACATACACCAGTAAGGAATCAACAGGCAGTTTCCTGTTTCCTCTAAAAATGGAA
AGACCCTGGAAAGGGTCAGTGCAGAGGTTGGACAGTCACAACTGACAGGACCAGTGAGAAGAAATCTTAGTTCATGATGGCCTCCATCTTCYTGATGAAG
CAGAAAAAAAGGCAGCCTGTTAGCACTGAAAAGGCTGAAGCTTAGGAAGAGGGTGTTAAATGTTCATAAAGGTCAAAAAGTTGAAAGAAGGTGTTGGAGG
GTTTTTTAAGGCCGTAAAGGGCTTATTAAGCTGTGTTGAGTGCTCAGAGAAATCTGGAGACCATGATTTTCATTCCATAAATCTGCACATAAGTACAATT
TTTTTCCAGCAGTAATTATTAATCCAGGTGKAGAGGAGAGATTGTGAAATTAACCCAGGGTAAAATAAAACAGTGTAACATAAGATGTTCTGGTGGTGCT
ACAGCAAGGAGAGATGGAGCATTTGTCAAAGATGATTGTGACCACCATGCTTATGGCCTTCATTCTGTAGCTTTGTTTGTCATATTCCTCTTGTCTTCAC
AGTATCTTCGTCAGAAGCATCATTGCTTTTACTCCACTTGGGATTGGCTTTCCATAATTGACCCCAGAAAGAGGCTTTTCTTTCTCTGCTGTCATTGGCC
CTTAGCTGCATTATGCTCAATATATCTACGTGGTGATAATGCCCTATTAAAGGTGAATCTTCACAGATGATATTTTAGGAATCTTAAGTATGTTTTTATT
AACTCAAAAAAAAGAGCAAACTTTCACCTACTCCAGCAGAAGACTAGGAAAAGTGTACTCTGATGTTACCCAGACATTACCTTTTGATGAGGCTTCACCC
ACTCTTTCAGAGCTCCAGGAGGCTGTGTTCTTCTGGGAGTGCTTGGAGTTAATGCTAGACCTTATAGTTAGAGAATATGATGTTAGCTGGCAGAGACATC
CTGGTCAAATTATTTTAGTTTAAACTTTCAACCTCTCTCAAAACATCTTTGAATCCCTATTAAATTCATGACCAGACAGTTTTCTAAAATTCCTCTGACT
TGAGAATCTAGGCTGACTCAGAGCTTGTCCTTGTGAAAACTTTATCTAAACTTAATCTAGGTTCAGACTCTTTCCTTAAGGATAAGTTGAGAGTTCATAT
ATCAGAACTGAAAACATGTTGAAGCTAATTGACATAATCTTCACAAACAACAACAATGACAATAACAATAACAACTTGTTCGGAGATATTCTTAAGCTCT
TCAAAGATGATTTGATTCCAAAAACTTTTGCGAAGAGTCTGAAAAAAATTTTTCCTTGCAAAATTTTGCAATTCGAATCTCTTCTTCATAATCATTCTTA
AAAGTCCAAGTGAAAAGTTCTCATATGGCTGTTAGGAACTATAAGTTGAATATTGATAATTGGCTTAATTTGTGTTGAAATAGAGTTTTTAAAGTATATT
TCTCATGGTTAGTTCTGTACTTTAGCTTTTGAAATAGATTTTGTGTTTGATCCTCAATTTATTCTCTTTACCTTAAATATGAATATCTGGGGAAGGTTGG
TGGCCCTTTTCTATCTTTTTTTTTAAATTATACTTTAAGTTTTAGGGTACATGTGCACATTGTGCAGGTTAGTTACATATGTATACATGAGATACCATCT
CACACCAGTTAGAATGGCCCTTTTCTTTTAAAAGGACTCTGCGTGGCAAATAATCAAAAGACTAGGCTATACTTGTTTCTTCTAAAAACAGTATTTGTAC
CCTATCCCTCCCTGAAGTCAGGCTTACTAATAGAACAAATTGTATTTTTATTTTTAACTTCTAGACGCTTTCAGTTTCCAGAAGAGGAAATATAAAAAAC
AACAACTATTTTCACCAGAGTGACTAATACAGGAAAGATTATTTAGCATAATTTCTAAACATATATAATTGTAAAATAAATAACCATGAGGGCACGCATT
TTCTTGAAAGCATTATTGAGAAGAGGCAAAATTGAGAGCAATTGTTGAAGCTGAGTAGTATTGTAGAAAAGAGAAGACCATGGATATTAAGATTGAGTAT
AACTTTATGATTTGAGGCAAGTCAGTTGGTCTCCCTGTTCTAAATGTTGGCTTTCTCATTCTCAACTCATAAGTTGTGGTCAATAATTCATTGTGCTAAT
AAATTTGAGGACCTAGGTACAATATGTATTCCTTTCTTACCCTCAGGATTTTTAATCTGCCTCATAAAGACTTCTGAGTAAATTGATGCAAGACTTCTAT
TATTTCCCTATGGTTGTCTCACTAGTAAATAATACCTTTCAATACAGAAGATGATTTCTGGTCAAATTAATTTACTATAATCTCATATTAATWATTATTT
CCAGAAAATATCTGGAGCAGATGTCACTGGAGCATATTTAAGAAATGAATGGCATTTAAAGGTTTAATTTAAACTGATCACATTTAATAAACTTTTAATA
CATAGATATTCTTTGCTTATCTCTACTTTGAGAAGGATGCTTTTGTCTGTGATGAAAACTTATCTACATTTTAAAATAAACCATTTCCTAAACCTRTTCT
AGCACCCAGTGTTTCTATTCCCCATTGTGATAAAACGTATGTAAGCATATAGAGGTGACAAGGTTAAAGTCGTACCTTCTCTAACATTCAATAATCAGTC
TCCTGAGACATGTGAAATTCATCATATTCTAATCAACTTGTATATTATCAGCCCTGAAACACAAATATTATATCAGCTCTGACTGCCTCAAACCACATCT
TARCAGTCAGAGACTGGCTCTCCAGGCTATTCCATCTCATTTGAGAAGAAAACCAAGAACCAAAACAAATTTTGGTCAAGTAACTTAGGAAATATTTAAA
ATGGAATACATATTTCCAGTAACAAATGGATGATATTAAAATAATTTTATATGAAACTTAATCTTTAGAAAAATATAACATTTCAAAGGAAGGCTTTGAA
CTCAGTCATGAAGTCTGATGATATGTGGCAATTTTGGGATGCTGTTGCTCACTGTGGCCTTGGAAAAGGTCAAATTAAAATGAAAGTGTACATTTTAAAT
GACAGTTTGTTTCACTTAGCATAGAGCAGTATGGTACSTTCACTAAACTTCCTAGATTCAAGGTTGATTCAATCATCTTAACAAAACTAAATTATTAATT
TAAAAACACACATTTTTCATGTAAAGCAGAGGGTTCCCTCTTATTTCCCAGAGAATTAAAATTGTCATGTGGATCACAATGTATTAAATTGCTTTGATCA
ACTCCCAGTCATTTTTACCTTAGAATGAACTTTACAGGTAGTCTATATCTTTAGCTTTGTTTAATGGATTCTAAGATTGTTTGCATGAAGATCCACTGAG
TTTTAGTCATTATGATTGACAGGTGGTCAGTTGCAGCTTAATCAACTTAAAGAATTATACAATAATTTCATGAAGAACTGTTAATCCTATGTCAAACTTT
GGTTACATAGATTAAAAACTATGTTTGGATCATGCTTTAAAGTCTCACACTAATTAAAGCTTATTAATAATGTCTATGCACACATACATCATAATTTTAT
CAGTATTAGGATAAATAAGTTATTTGTAAGAGTCATTTGAAGGATAATTATAATTTCATGTATGTAAAACAGGTTTTTGACCGAGACTCAAGTTTTAAAA
TTTATATTGGTGTAACTAAGGAAATGTATAGTAGGAAAATAGGATTTGTAGAGWCAAGAACTAGATCCATATTCTACTTTTGCTATTTATCAGTGGTGTG
CCCATAAGCAAATAGTTCTAAAGAAGATGAATTCTTAGTTCTAAAGAAGGAAACAGTTTACTGGGGTTGGGGGGCCGTGTAAAGAGATGATAACAGACTA
GAAGTAATGAATATGAGGAGGCATACTGGGGGGTCTAGAAAAGTTTCCTCTCCCATTTGAGGGTTAAGAAGGCTTTCAAATAGTAAACAAAAAGGAAGAA
ACACTGGCTTACAGTTGTTGGTAGAAATGAAAATTGCTTATAACCATTTTAAAGAACTATAAGGCCATATCTATGAAACTTATGAAGATTGGATTTTTTA
AATTTACCTTTAGAAATTCATTTTTGAAAAACATAACACGAACATAATAAACAAAACTCCAGAAAAAAAATCAGCACCTGAAAGATCTCACCATAGAACT
ATAAATTATGAACAATTTTTATTTTACAAAATTAAAAAGAAAGTGTTTCATTCTAATAAGCTAATGGATATGTTAACTTCCTGGAAATAAGAGCTCAAAG
GAGAAATGTCAGGCATGTAAGGGAAAATTACATGAGAGCAGAGATAAGTTCTTTTTTAAAAGGATTTAAGAAATACTTACATAGTGTTTATTATGTGACA
AACACTCTTAAGCAGTTTATAGTYATTATTTTACATAGAAATTCTGTAATGCAAATACTACCATTTTCTCATTTTACAGATGAATATTCTGTGATATATA
AAGAGGTTAAATAACTTGCTCAAGTTCACACAGCAAATCCATGTAGTGGAGCTTTACCATCAGTGGTACGGTTGCGGAGTGTGTGACTTTGAGATTTATG
CTGTGCTGCTTCTTTTTTTTTTTTTTTTTTTTTTTTTTAAGTTTTAGGGTACATGTGCACAACGTGCARGTTAGTTACATATGTATACATCTGCTGTGTT
GGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTGATGCTATCCCTCCCCCCTCCCCCCACTCCACAACAGGCCCCAGTGTGTGAT
GTTCCCCTTCCTGTGTCCGTGTGTTCTCATTGTTCAATTCCCACCTGTGAGTGAGAACATGTGGTGTTTGGTTTTTTATCCTTGTGATAGCTTGCTGAGA
ATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTTTT
AATTCAGTCTATAATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTCAGTAGTGCCGCAGAAAACATAGGTGTGCATGTGTCTTTATAGCAG
GATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTTTAGATCCCTGAGGAATCGCCACACTGACTTCC
ACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGAT
TGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCT
GCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATACTTCACCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCTTTGT
AGTTTCTGGATATTAGCCCTTTGTCAGATGAGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTATTCACTCTGATGGTGGCTTATTTTGCTGT
GCAGAAGCTCTTTACTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATG
TCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATACATCTTGAATTAATTTTTGTATAAGGTG
TAAGGAAGGGATCCAGTTTCAGCTTTCTACATACGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCTTTTCCCCATTTCTTCTTTTTGTC
AGGTATGTCAAAGATCAGATGGTTGTAGATATGCGGCATTATTTCTGAGGGCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTACCAGTACCAT
GCTGTTTTGGTTACTATAGCCTTGTARTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGTTTTGCTCTTTTGACTTAGGATTGACTTGGCAATGTGGG
CTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAATCATTGGTAGCTTGATGGGGATGGCAATTGAACCTATAAATTA
CTTTGGGCAGTATGGCCATTTTCACGATATCGATTCTTCCTGTCCATGAGCATGGAATGTTCTTCCATTCGTTTGTATGCTCTTTTATTTCATTGAGCAG
TGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTGCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTC
ATGATTTGGCTCTCYGTTTGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCCTATCA
GCTTAAGGAGATTTTGGGYTGAGACAATGGGGTTTTCTAGATATACAATCAYGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAAT
ACCCTTTATTTCCTTCTCCTGCCTGATTGCCCTGGCCAGAACTTSCAACACTATGTTGWATAGGAGTGGTGAGAGAGGACATCCCTGTCTTGTGCCAGTT
TTCAAAGGGAATGCTTCCATTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAGATACRTCCCATCAATACC
TAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATAGAYGGTTTTTGTGGTTGGTTCTGT
TTATATGCTGGATTACATTTATTGATTTTTGTGTGTTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCACGGTGGATAAGCTTTTTGGTGTG
CTGCTGGATTTGGTTTGCCAGTWTTTTATTGAGGATTTCTGCGTCAATGTTCATCAGGSATATTAGTCGAAAATTCTCTTTTTGTTGTTGTGTCTCTGCC
AGGCTTTGGTATCAGGATGATGCTGGCCTCATAAAATAAGTTAGGGAGGATTCCCTCTTTTTCTGTTGATTGGAATAGTTTCAGAAGGAATGGTACCAGC
TCCTCCTTGTACCACTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTTTTTTTTGGTTGGTAAGCTGTTAATTATTGCCTCAATTTCAGAGCCT
ATTATTGGTCTCTTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGGAHGTATGTGTCGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTATAT
TTGTGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTGTTTCTGTGGGTTTGGTGGTGATATCCCCTTTATCATTTTTTATTGCTTCTATTTGATT
CTTCTCTCTTTTCTTCTTTATTAGTCTTGTTAGCAGTCTATCAATTTTGTTGATCTTTTCAAGAAACCAGCTCCTGGATTCATTGATTTTTTGAAGGGTT
ATTTGTGTCTCTGTTTCCTTCAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTTCTTTTA
ATTGTGATGTTAGGGTGTCAATGTTAGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTGTACACACTACTTTGAATGTGTCTCA
GAGATTCTGGTAAGTTGTGTCTTTGTTCTCATTGGTTTCAAAGAACATCTTTATTTCTGCCTTCATTTCGTGATGTACCCAGTATTCATTCAGGAGCAGG
TTGTTCAGTTTCCATGTAGTTGAGCGGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAGTTTAATTGCACTGTGGTCTGAGAGACAGTTTGTTGTAATTT
CCGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACTATATGGTCAATTTTGGAATAAGTGYGGTGTGGTGCTGAGAAKAATGTATATTCTGTTGA
TTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGTTTGRTGCAGAGCTGATTTCAATTCCTGGATATCCTTGTTAACTTTCTGTCTCGTTGATCTG
TCTAATGTTGACAGTGGGGTRTTAAAATCTCCCATTATTATTGTGTGGGAGTCTAAGTTTCTTTGTAGGTCTCTAAGGACTTGCTTTATGAATCTGGGTG
CTYCTGTATTGGGTGCATATATATTTAGGATAGTTAGSTCTTCTTGTTGAACTGATCCCTTTACTATTRTGTAATGGCCTTCTTTGTCTCTTTTGATCTT
TGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTTGTTTTCCGTTTGCTTGGTAGATCTTCTTCCATCCTTTTATTTT
GAGCCTGTGTGTGTCTCTACACGTSAGATGGGTTTCCTGAATACRGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATT
GGAGCATTTAGCCTATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATTTTAGCTGGTTATTTTGTTCGTTAGTTGATGC
AGTTTCTTCCTAGCCTTGATGGTCTTTACAATTTGGCATTTTTTTGYGGTGGCTGGTACTGGTTTTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTC
TTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGATTTTATTTCTCCTTCACTTATAAAGCTTAGTTTGGCTGGATAT
GAAATTCTGGGTTGAAAATTCTTTTCTTTACGAATGTTGAATATTGGCCCCCACCCTCTTCTKGCTTGTAGAGTTTCTGCCGAGAGATCAGCTGTTAGTC
TGATGGGCTTCCCTTTGTGGGTAACCTGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCCTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCT
TGGGGTTGCTCTTCTTGAGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAGTTTGAATGTTGGCCTGCCTGGCTAGATTGGGGAAGTTCTGCTGGATA
ATATCCTGCAGAGTGTTTTCCAACTTGRTTCCATTCTCCCTGTCACTTTCAGGTACACCAATCAGACGCAGATTTGGGCTTTTCACATAGTCCCATATTT
CTTGGAGGATTTGTTCATTTCTTTTAATTCTTTTTTCTCTAAACTGCTCTTCTTGCTTCATTCATTTGATCATCCATCACTGATACCCTTTCTTCCAGTT
GATCAAATCGGCTACTGAGGCTTGTGCATTTGTCACGTAGTTCTCGTGCCTTGGTTTTCAGCTCCATCGGGTCCTTTAAGGACTTCTCTGCATTGGTTAT
TCTAGTTAGCCATTCGTCTAATTTTTTTTCGAGGTTTTTAACTTCTTTGCCATGGGTTCGAACTTCCTCCTTTAGCTCGGAGTAGTTTGATTGTCTAACG
CCTTCTTCTCTCAACTCATCAAAGTCATTCTCCATCTAGCTTTGTTCTGTTGCTGGTGAGGAGCTGCGTTCCTTTGGAGGAGGAGAGGTGCTCTGCTTTT
TAGAGTTTCCAGTTTTTCTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACCTTTGGTCTTTGATGATGGTGACGTACAGATGGGGTTTTGGTGTG
GATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGTCAGGACCCTCAGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCCACTCCAGACCCTGTTTGCCT
GGGTATCAGCAGYGGCAGCTGCAGAACCGCGGATATTGGTGAACAGCAAATGTTGCTGCCTGATCGTTCCTCTGGAAGTTTTGTCTCAGAGGAGTACCTG
GCCGTGTGAGGTGTCAGTCTGCCCCTACTAGGGGGGTGCCTCCCAGCTAGGCTCCTCGGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGTCTGTTCTCA
GTTGTCCAGCTGCATGCTGGGAGAACCACTACTCTBTTCAAAGCTATCAGACAGGGACATTTAAGTCTGCAGAGGATTCTGCTGCCTTTTGTTTGGCTAT
GCCCCGCCCCCAGAGGTGGAGTCTACAGAGACAGGCAGGCCTCCTTGAGCTGCGGTGGGCTCCMCCCAGTTCAAGCTTCCTGGCCGCTTTGTTTACCTTC
TCAAGCCTCGGCAATGGCGGGCACCCCTCCCCGAGCCTTGCTGCTGCCTTGCAGTTTGATCTCAGACTRCTGTGCTAGCAATGAGCAAGGCTCCATGGTC
ATAGGACCCTCCAAGTCAGGCGCGAGATATAATCTCCTGGTGTGCCGTTTGCTAAGACCATTGGAAAAGCGCAGTRTTAGGAAAAGTGACCCGATTTTCC
AGGTGCTGTCTTTTATCCCTTTCTTTGACTAGGAAAGGGAATTCCCTGACCCCTTGTGCTTCCCGGGTGAGGCGATTCCTCACCCTGCTTCAGCTCACAC
TCGGTGCGCTGCACCCACTGTCCTGCACCCACTTTCCAACACCCCTCAGTGAGATGAACCCGGTACCTCAGTTGGAAATGCAAAAATCGCCCATCTTCTG
CGTCGCTCACACTGGGAGCTGTAGACTGGAGCTGTTCCTATTTGGCCATCTTGGCCCCACCCCTATGCTGTGCTGCTTCTAAAACAGTAAGATGAGCTGG
CGGTGTTTTGGAGAAAAATATAGAAAAAAGTAAAAATACTCTAAGAATTAACAGTGTTAGAATGAATGTTGTCACAAGAAGAATAGATGCACACAGGCCC
ATTGGGAACAAGAAACACAGGCTTAAAGGTATTAGAATTGAATGAAAAGTAATCAAGTGTTACACCAATGAGTAGAGAGAAAATAATATAGAAGGAAAAA
AGGGAAATCCAACATAAACAAAATTGGTGCACTTGCTGAAGAGAACAGAAAACRTAGAATAATTTTCAAAGATGTAATTCAAGATTACTTGTTGAAAATA
TGTACACTTTTATCTGTAGACAGGGAAAAATATGTCCTGGGGGAAAACAMATATTTTAAAAAAACGACATATAATTCAGCAGTAAAATCTTCCATGGTAA
AGTTAGTGCATTCAAAAGATAAGGAAAAAATCTAATGGGAGAACCAAGCTAAATATAAACAATAAAAAAAGTCATCTTCTTCAGGGAATTTATAGTAACA
GCCATCACTGGGGCCCTCTGCTGGGACTCATGGACCAGCCTATGATTCAACAACTAAAGGGAGAAGGCAGAGCAAAGCAGCAAGCCTCTGACTGTTGTAT
GTTCAGATTGGTTACTCCTAGTTAAACATTTTGAATATTATACCTGTTTATAATTACATTCCTAGTATGACAACTACTGAAGGCAATCCCCAAAGTCCCA
CAGCAGAATAAAGAATAATTTTTTAAAATAATCATACAATGAACTATATCAAGGTGAAAAAGAATGAAATACAGCTACAAGTAGCCAAATAGATGAATCT
TACAATATTATAGATATTACAAACATAATATTGGGTAAAATGTTATGATAAAAAATAATAGCTTTGAGTGACAGAGTTCATGTAGTATGATTCCTTTATG
AACGTTAGAACATGTGAAATTAAACTGGTCACATGCATATTTAATTCAATAAAACTGTAAAGAAAAGCAAATAAATCATAAACATAAAATTCAGGGTGGT
TGGTGCAATTGCAGTGGGCTACAAGGGATACTCATGATTTTGGTTTTCATTGTCGAGGTGGTGGTTACATGGCTTTAATTTCATTATTGGGTGTTAAACG
ATAGGTAGGGTTTATATRTACACTTTAGTGTGCATGATATTGTGGAACAAAACAATTCACATGGCAGAAATGAAACAAATGAAAATGAACATTTTAAGGG
TCCAAAATCGAAGTAAGAAAATAACAGAATAAACCTAAAAAAGTAAAGAAAGATAATGAAAACAAACAAAAATGATAGAAATAATTTAAAAAGTCAAATR
TTAAGTCTTTGTATAGTCTTCCTGCAAACTTAATTTTAAAAACTAACAAACTCATAACAGAACAAACAAAGGTGAAAAGCAACAGACAAACCTAACAGAA
AAGCAACAAAGAAAAAATTGGTAAATATATTAAGAATGAAACTGTATACATTAACTATAGAATTAGCATAGAATTAAGAATATAGCAAGCAACTTTTATC
TAGCAAGCTTATAAATTTAGATGAATCTCAATTTCCCAGAAATATTTTTTAATCTGACTCAAAAAGAGATAGAACATGTTAAACTATCAGGAATTAAATA
AGGTGGCTAATAATCACAACTGTTTTCATATCKTACTGAAGATGCTACCAAGTGAAGTCAAAGTAGCATAGCAATGTGAAGGAAAAACAATTCTCAAATA
TTTTAGTATCAGTAGATCTCTATAATTTTAGAAAGAAAAGAATAATAAAACCAGAGAAAATAAAACACAAAATAAAATCCTATTGATTACTAAAAATATC
TCTTGGAAATCTTACAACAAAAGTCAAACCCAGACTGCAGACCACCAAGATTACAAAAATAATGAAAATCCTGAATATCAGAAATGTGTTTGTGTCTATA
TAACCTATTTATATTGTTTATTGACTTAGTTAGCACTTTATTTTCCTTTTAGAATTTATTGCTAATTTTTTCTTGTTTGTTTTGTGTATGCCTATATTCC
TCCTTTTTGAATTTATTATGAAAGCTAATGACTTTGCCATTTTACTAGCTATTGAACATATTAAGCTCACTTACTCATGTGATTATTTTCTAATTTATTA
ACTTCTGCTATCATCTTTAATTAGTCCTTCTCCTTTTCTAAGAATTGATATTTAATGACTTTATTTTTAATTAAAAGATTAATTTTATTCTTTCTTGTTT
AGTAAGAAAAATATTTTAAAATACAGCTTTTTTCCTTAACACCTCTTTGGAAGTATACAAAAAGAGTGTTGCAAATAAAAAAATCTTTATGCATGTAAAT
ATTAAAGCCTAGATGAAATGGATGTCTGGGAAGGGTAGTGGGGAGGGAACTGAGATGGTTAATGGGTACAAAAATATAATTACATAGAACAAATAAGATC
TAGTATTTGACAGCTCAACAGGATGGCTACAGTCAAAAATAATTTATTGTACATTTTTAAATAACTAAAATATTGGATTGTTTTTTAATACGGAGAAAGG
ATAAATGTTTGACGTGATAGATCTGCATTTACCCKGATATGACTATTATGCGTTGTATGCCTGTATCAAAATATCTCAGGCACCCTATAAATACATACAC
CTATTATGCACCCACAACAATGAAAAAGAAAAATTGCTTTCTTACATTAAATATRTGTATATATCTCTGTGTGTGTGTATATATATATATGTGTATATAT
ATACACACAYGTATATACACATACACACACACACAAAAAGAGATAAAGCAAACTCTAAAAAGGTTTATTAACCATAGTTACCATTTTAGATGTTTAAAAG
TCTTGTTACCACCAAGTGCTTAAAACAAGACAAAGTGTTTCACAGATAAACATTATAAAACTTTTAAGAATAAGTTTAGTTCCTTCTTAAATTCTGTTAG
AATGTAGAAAAGAAGGTCAATTTCCAAAGTTTATTCTTCAAGGCTGCAAAACATTGACTATATCCCCAGATAAATATGACAATACAAAACACTATACCAA
ACTCACTGGATTGCTAAGCCTTTGAGTAATGTATTAGCAGATAGAAATAACAGCATGTTTAAGGATACTATGCTATTACTAATGGTGTCAGTACAAAAGA
GGGAAGGCTGGCTTAATCTTAGTATCTTTTAATATCATTTTCCATATTGAGAGATCGATCTACTTTAAAAATCCTGTGATCATTTCTACAGAGATTGAAA
AGCTATTTAACAAAATTTATCTTAATCTATGCCTTAAATGTATGACCACAATTTAAAATGGGTGAATATTTTCTATATATGAAAAGAATGCATATCATAG
TCTTCCCCAAAAAGCAGCATTAAGTTTAGTGCATTTAAGTGAAGAATAAGAAACATATATCCATGTCTGTTATCATTTTAAACATTGTTTTATACATAGA
AGGGAAAATAACAAAATAAGTAAAAAATTGTCTTCACTATTTAACTATCATTAACTTGATAAAGATCTTATTATATAGCTAAAGCAAAAGAAAACAAAAT
ATCTGAAACAAAAGGATTATTAGAATTAATAAGAGAATATAGTAGACAATTTATTGAAATTGACAAACTGTTTCTATATTATAAATTATTGTATATCTGT
GAATTTACCTTACATTAATCTTTATGTTTAATGTGATTAACTACTCTCTCCAAGAAATTCCAAGATTTATTTTTGGAATTAAATAAGCTGAGTTGAAAAA
TAAAGGCTTAAAATGAAGAATACAAAAGGGACATCAGACCTACCAATTATTTTTTAAAAATACATTATTACACTTGAACATTTAAAAGTCTGGCAGTCAC
ACATGAATTCACGCATAAATTGAGATCAGCAGATATCAACATAAGATTATACAGAGTTGAGAAAAAGATAAATATTCAGGAATGTAGTATTTAACAAAGG
TGACTTTAAATAAATGAGAAAGAAATAAGTTGTTAATTAATGGTCCTTCAAAAACCTGTCTAGCCATATGGAAAAAATAAATATGGACAGTAACCATATT
TTATGGACATACGATAACCATATTTTATGTCCATATTTATGGACAGTAACCATATTATCTTACAGTATAAAATTTCCAGATTTATGCATAAAATCAAACT
TTCAAGAAGAAAGCATAAGAGAATTTGATCATATGATTTAGGAGTGTGAGAAACTTTATATATGTCACAAAACTTAGAATTCATAAATTAAATAATTTTC
AAGCAATAAATATTAAAATTTTATGGAAAAATGCCATTTATTAAAAGTCAAAAGATCAAAAATAAACTGAAAAATGGCTGCAACATGATGGAAGTAAAAG
GCTGAAAACAACATACAGAATTGAATGCCCAGAAAAATAATGAAAATGTTCAAGACTCAGTAGAAAATAAGCCAAATATATGAGGAGAACTTCTAAGAAA
ATTTTTTAAAAGATTTTTTATATAACAAAAACGATTTATAAACCAATGAGAAGATTTTGAATCTTATTCACAGTTGACACATGTCAGTGAAAATATCCAG
TATAATTTTCAGTGCCAAGATTGACACAAGTTATTTGGTAATTTTTTTTTTGTTATGTGTTGGTAAGTGTATTCTTACACATTGTCGGTGAAAATAAATT
TAATATAACTTTGAAAACAAATCTGGCTATATCTATTAACAATGTATTGATATACATAGCTTTCATCCGTAAATTCAACATATAATAATTGATCTCAGAG
GTCTAGTCACACTTCTGCACAAAGATGCTCCTGTAAGGAAGAATATTTATGATGATATAATTTGTAGTGGTAAATGGTCAAAAACTAGTTAGTTAATAAA
GGACTGCTAGATGATTATGGCTATATACTATAGTCACAAATTATGCATCTATTCAAAAGAATAAGTCTTTTTCTATGAGCTGGGATATAGATATGTTTAG
ATATTGGGAGAAAATTCTCCATGGGCCTCTTGTGTTTGCATATTTTTGTCAACATAGGCCCTGACTAATTTTGTTCCAGACTATCTTTTCATGGCTGTTT
GTTCAGAGAACAGCCTGGGAAGACAGACATGGTGCCTGCCTCTGGAGAAAAAGAGTATATTTATAGCATAATATAATAAACTACTGTCTCCTTCTGGGGC
AAAGGTCAGGAATACTTACTGCCCACTGTGAAAGAGCAGGGACCCCSTATCCTGAGGGTTCCTCTCCTGGAACACAACCAACTGCATGTTCAAACACCAC
TTGGTTCTCATTGTGTTGCCTTTTGGGAAGTAAAACTTGATAACTATCTCAAATTGATATTCCAGTTACTGATCTTGCCATTATAAAGCCCCTTGACGCT
GATTCAAGAGTCTCATGTCTTCTGCCAGAATCCGTGAAACTGTGGCAGGCTAATTTGTTAGTTTGAAAGTAAGGTGAAATCTAATCCCAGTCCCCTTTCA
CAGTTCTCAACAAAAGTTCTCCAAGATATATTGTAGGTGGAAAAATAAACCAAGGCTCAGAGCAGTATGTATGGTAGAGTAATAAATTTAAGAAAACTGA
TAAGTGTGTGCTTGTGGAAGATTAAACTTCACATTCTTTATCTTGAAKGTGCAAAGGAAATATTTCTTTTAATTCCTTTCTATTTTCTCTGATGTTTCTC
ATGAGCTTTCTTCCTATTTTTCAACTGCTCACTGAATGCCAGGAAAAAAAATAGAACAAAGCTTAATAAAACATAACTTAGTTCAAGCCTACTTAAAACT
TAGTGTGATTCAGTCATGTGAAGAATATCTTTAGGTTTAATTAACATTCTTCAGAATACATGTTCCAGTCTTGTTCTTTTATTTGCTTCATCGCTTCTTG
GATGCACTGGGGTGTATGGATTTTGCTGACCCTCTGTCATCATGTAGGCATGATGGAGAGGGGTGAGGATACAGAGGAGGATGGGGAGGGTAGGAGAAAG
AAGAGAAGTTGTCAAAAGACAAAGAAGCAACAAATGAGGTAAGGATTTAACAGGCAATTGAACTAAGCAGTGAAAAGCATATTAGTTTATCTTAGAGAAA
TGTCAGTAGGATGGTGGGAATAAAATCTGATTGTAAATAAAAGGTGAGWCTTGGAATGAAACCTACCTTCGCCTAATGTAGTACTGATTATATTTTGTAA
AGAACAGGAGACACTTGCTCAGTTGTATGGTTTAAGGGGAGGTATCGAAAATGAAGCCAAGGTTGAAATAGAGAAGAGAGAGGAATTCGGGACCCAAAGA
ACCAGAAGGCAAAGAAGTCAAGGCTCCTTGAAAGGAATGGACCTAGACATGGCCTTGGGKGCTGGAGAAAAGGGAGCAAGATGGATCAGGAAGGAAGTTC
AGGAAGGGAGGGGATTTCTGTCTTGCTCCTCAGCTCCAGGGTACCTGAGCTGGGTAAGTGACTTGAGAAATTGGCTAAAAATTTGGAGGAATCATGAAAA
GACATTCACCAAGAATTTCCTTTTCTAGAAGTGAGGATGATTATGTTTTCTGTTTTTCATGCCATTTTGCAARTCAAAGTGATTTTTAACTCAGAAGATT
AACATATGCTTATGTTATTTTATGCATTATAAACTTGGTAAAGCTATTTTCCAAAGTAAATATTGGTATGCCAATGCAAAAGGAAGACAAGATGTATTAT
CTAGAATGATTAAAAATGAGATAGTTTGTAAATGTAAAACTAAGTGAAGATTATCTATCATGACAGATTTTCAGAATGTGGGGTGATATAGCCCATGGGT
CAAGAGCAGGGAGGGCAGCCTTGATGGGGGTGGTGAGTTTTGAACTGATCATATTTTCATGGGAAGATATTCCTTTTTGTCGAAGTGATTKCCACCACTG
TTTTCATGCTCTTTCCTCAATCTCCAAGCTCCTTGGTTTTAAATGGCTTCAAAACAGCTGTGCATACTGGCCACTCTAGCAACCTTTCCTTAACTGCATA
CCTGAGTACAGTTTGCAGTCCCTTTACCAAAATACATGATTTCTATGAGAGTTCTACTTGCTGAATGAACTGTGTCCAGTGTTTAGTCCTCAAGAAAGGA
GATGGGGCATCAGAACAGAGAGAGAGTATCATATCCTGCAAAATATTGCTTGGCTTATGGATTTATTCTCAATTTAATTTTTCTGTCTACTGATCTAGGT
GTTTTTTTTTAAATAGAATCAAAAGTGACAATTCATTTGAAATATTTCTCCCTTGTCCATGAATTGCTTTGTAAATCTTGTGAGCTACTTCACGAGTTAT
GAAGTTTTTAAGAATAAATAGCAATGAACTCACTTTAGTCTCCATGCCAAATGYAGATGTTTTTGTGATAGCTGATCTTGTTTTGTAGGAAAACTCTTGC
CTTCAAGTCCTTCTATTGGCTTTCAAGAGAATAATTTCCTTGTTTTAAGTCAGATCAAGCAAACTGTCAATAATGTTTATTAACTACCCACTTTACAACA
GCTTACAGTGGAGGTTCCCTAGGGAGTTAGAGTTAATAGAAAAGTCATTGCAATTAGAGGATTTACAATAAAGTTAACTCAAAATATAAATGTTTGTTAA
TTTTGAACTGAGTGAGAAGGAAAGAAAAATAAATTATTGCAATCTTCTCCTTTTCAGTTGGGTGAGGAGAAGATAACATTCCAAAGAATTGAGTGATCAT
AACATTTGTAGATCATAAGGTGATTATTGGTAATCTTTGTGTTAGCCATTTCACAAATTTATTTGAAGGAGCAGTAAAAATGTTCTCTCTGTCTATGAAA
CATCTTCTCCTCAGGCATRATTTGTCAGCTTTGTGTGGGGGATTCTTTACACAGCCCACTGGAATTCAGTGATGCAATGTTGTTAGTAGGAGAGGACTGA
CATTTTTTTCAGACAAAGAAAGTGGTCTTGTTTTTTAGACAACAAACTTTGGGGAATGGAGGAATCCCAAGTAGAATTAGAAAGAGAAGTCATGGAGAGA
CATTTGGCCTGTTACTTAGTGATTGCCTCAGCTGTGTGTTTCATTATATGGGAGATTTCTATTGCTTTTCTTTCCTACTGCCTTTAGACACATGTTAGCA
AGGAGAAATATATACTTTTGTTAAGAACTTTTTGCCTTCTGATGTAATTTTCAGGATGGCCCTGGGTATGTCAGGTACAATATTCAGATTTAATTATTTC
TCCCAAGATTCATGTAAATTTCAACCCTCATTTATGAGGTCACCTCTTAAGCATATATATTAAAATGCATTAATATGTCAATGTGTGGCAGTTACTTTTT
GAAACTGCAAACTCAGAAACGCAAAATGATATACCTTCATTTTCCTACAATTTTTGAAGACTGTACCTTGAGTTTCTGCCTTGGTTTGCAAGGGTTACTA
TAACAGAGTGCCACAAACGGGATGGTTTTGAATTACAGAAATTTTTTGTCACAATGTTTTGGAGACCAGAAGGCTGAGATCAAGGTGTTGGCAGACTTGG
TTCCTCCTGAGGGTTATGCGAGTGGCTCTGTTCTATACTCCCTTGGGAGCTTCTGGCGGCTGATGACCCTTGGCTTGTAGACACATTGCCCCGATCCCTG
CCTTCATCTTCACAAGGCATTCTCGGTGTGCCTGCCGCTGTGTCCATATTTCCCCCCTTTTTTTGAGACAGAGTTTCTCTCATTGCCCAGGCAGAAGTCC
AATGGCACGATCTCGGCTCACCGCAACATCTGCCTTCCAGGTTCAAGCAATTCAACTGYCTCAACCTCCCAAGTAGCTGGGATTACAGGCATGCACCACC
ACACTCAGCTAATTTTGTATTTTTAGTAGAGACGGGTTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCAACCTCAGGTGATCCTCCTGTCTCGGCC
TCCCAAAGTTCTGGGATTACAGGCATGAGCCCCCGCTGTGCCCGGCCGAGGTTTCCCCTTTTTATAAGGATAACAGTCATATCAGATTAAGGGCCCACCT
AATCCAGTGTGATCTCAACTAATTCTATCTACAACCACCCTATTTCCAAATAAGGTTACATTCTGTGGTACTGGGGTCTAAGTTTTCAATATATGAATTG
TAGGAGGACACAACTTAGCCCATAACAGCTCTCAGTCCACTGATGACAGAATGTTATTAAATTCCATTTAGGTTGCTCTCAATCAATGTGGATTTTCCCY
GGAGTCAAGACAATAATCCTTGGGAGTAAACTGTTCACAGTTCACAGGGCTTTGCCACTGTCACCTGGTCCCTGCTTATGTCTCATTTCTCTAGCTGCTG
TCTTACACGATGACATCTGTATTTGCCATGTGGTCAATGGTGGGCAGTCCTTGTGGGCCCATCTACTTGTTCTCACCATAGGTCCTCTTCAGAYAGCAAC
CTTCCTTTGAAGCAATTATGGTTGTTCTCATGAGCCATGCTGCGTCTGTGGAACATTTGGTGGCCTRTGTCAGGCATGTGTGGCCTTAACAGCCACAAGT
GCCTTATTCTGTTGAAATTGTTCTGAGATGATTCAGAGAAAATTTGCAACTCTCCAGGGATATGCAGTTTGGACCTGAGGCTCTGTCTTTCCCTGTCTGT
ACTCCACCCCTCCTGGGGTGGGGCAGGGGACAGGGCCCTTTTGTGGAGTGCCACACAATTCATAGCTTTTCTATGCATTTCTCATACTGGCATCACATTT
TTCTGAATAATAGTGTCCTTTTCATTTAAATAGTCATTAATTACATTCTCTTGGCTCTTCACAGCCCCTCAGGTTGCAAAGATTAGTATTACTCTGTCTT
CCCCCAGGCAGTGACTTATGAATGTGTCAGGATACTATGAGTTGTAACATCTCTTGATTTCACTGAAATCCCAAAACAACATCATAGTTAAACAACATCT
TTAATATTACTGCTTACAGAAAGACTGTTTCTGACATATGTTTTTCCTTTTTTAAATTTTTGAGTGAAATATTATCATAAAGTATAAAAAGTGACAATAT
TAATATTGTGTGTTCATCACCCAGCTTAAAAAATAGAATTTTTCTTATAGCTTTGCAAATCTAAGCTTACATCAATTCAAAACTTTTTTGATTACACATC
AAAAGTGAAACTTACACATACATGCATATTCATTTATAATTTATATAGGCATATTTTACGTCAATATGTTGTGCACATAAAATGTACAAAATAACCATTT
TTAAAGATAAAACAAAAATAAGGATATGTATTAATTCTAGTGTTTTCTTCTTGTATCCCAAATATTTTTTTTTGTACTCCCTCAACGAGGGCCCTATATT
TTGGAAACCACCAGTGTGTATCAGGACCTTTGCTCTGAAGATGAAAAACACAGAAAAATTAATTTTTGCTGTTGGTTATGTTTCTRTTGCTTTTCCAAAG
GCAGCTGATGTCAAGGTATAATATGGATATGGGAAGGGGTGGCGTTTAGGAATCTTAAAATAATACACAGACAACGCACACAAGAAAATATATATGCATG
TATTTAAGTATCTACATATATGTATGTGTATATATATGCATGTATTTAAGTGTTTTGTGTGTGTGTGTGTATGTTTTATATAGATAAAACATTGGTTAGC
ACTTTAAAGTCTTTAAATTCTTATCTGGCTCCAATTGGTTTTGAATTCATCTGTTAGTAGGTTTGTCTGTTAGTTTTGTGGACATTCTCCAGGAAAATTT
CTTATCTCTGTAACCCAGATGCACTATTAGTATTTGATCAGGGATTTTTGTGTGCCATATGAGAGAAGGACTCAGACTCAGAATTTTCACTTAATGTCCT
TTATTTCATTCTGCAAAAGTACTTCTTCATTTAAGCTTAGGGTTGTGATGGTCAAGACAGTTGTGTTAGGGCAACCTGCTCTCCAAACACTTTCAGTGTG
GATAGTAATAGCTATGATTTGACTGATAAGCAGTGTTCTAAGTGCTTTGTGCGTACTGACTTATTCCATACATTTAACAGCTCTATGGGAGAGGGGCTAT
CATTAGCTCCTTTTTCACAAAGGAAGACACAGAGATAATGAGAGGTGTTATGAGTTGAACTGGGTCTCCCCAAAAGATGTGTTGAAGTTCTAACACCCAG
TACCTCAGGATGTGATCTTATTTGGAAATTGGGCCTTGCAGAGATAATTTATTAAGTTGAGATCATACTGGAGTAGAGTGGGTCCTTAATCTGATATGGC
TGGTATCCTTATAAGAAGAAGAAAAGAAGCTGGGCRCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCCCCTGAGGTCG
GGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGTCACTACTAAAAATACAAAATAGCCAGGGGTGGTGGCACATGCCTGTAATCCCAGCTACTC
GGGAGGCTGAGGCAGAATTGCTTGAACTCCAGAGGCGGAGGTTGTGGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGGGAAATTCC
GTCTCAAAAAAAAAAGTAGAAGAAGAAAAGAGACACAGAGACATGACTGGAGAAGGCCATGTAATTGGAGTGATTGGAGAGGCAAAGATCTGAGTGATGC
AACTGTGAGCTGAGAAACTCCAAGAAATGTAGGTCACTGCCRGAAGCCAAAATAAGGCAATGAAGGATTCTACTCAGAGTCTCAAGAGACCCTGGTCCTG
TTCGCACCTTGGTTTTGGACTTCGAGTCTCCAGAAATATGAGACAAAACATTTTTGTTGTCTGGAGTTACTCAATTTGTGGGACTTTGTTATGGCAGTTC
TTAGGAAACTAATATGATGGATTAAATAGTTGCCTAAAKTTACATAGTGAGCAAGTCATACAAGCAGAATTTGAGTCAAGCAGTCTGTCATTGGAGCCTG
CACTCCACAGCCCTGCCTTATCCCTCCTCAGGGGACAGACAGAGCGGTGCCATGCTGATGCACAGCTCCTGCTGGGGCATGAGGAATAAGGCTGTGGGCA
GAGATTTTTCCTTAGGCAACCAGTGGAACTTAGGATGAAGAACGCAGCACTGTCAGATGAAGAATATTATTAATGTTTATCAAAGATGCACATTCAAGAT
TTCTGAAAAACATTTTCAACACTGGAAGGCATGTTAAATATCATCTCATTACACAGTGCTTTTACTTTGAGTCGCCATTTAAAAGATAAAGTTTATAGCC
TTGCTGATCTCCTTGGCATATGCTTACATACATATGTGAATACATAGACACACATATATGCACATATAAATGTGCATGTCGTTCTTCATTTAACCAGATT
CCTTGTGCCCCTGTATTAAAAATGGTCAAGTTTCTATTTCAAACCATGCAATAATTATAATATCAGATAAAGAATTCTTTCACAATCTTTTCTTAGAATT
CTAGATGTGACTTAGTTTCCTTCCTCTACAGTGAGGGAGGAAATAAGAGTGATTTGTGAAGATGCATATTTTTTTTCAGTAAAACWGGGGAGGTTTCACY
TATCTCGGGTCTCCTATTCTGGATACAACATTTCAAGAGTCTTGGATTCCTGTTTGATTATCAAGTTCACTTCCACTGACCAATAAATATTGGTAGAYGT
TAAGTTCTCAGGCTTGAGAGGCTTCTGTCATTTGGTGTGTCCGATGCTAACAGACACTCTTAAATAAAATGCCTCATGAGGGGCCGGGCACGGTGGCTCA
TGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCATGAGGTCAGGAGATTGAGACCATCCTGGCTAAAATGGTGAAACGATGTTTCTACTA
AAAATACAAAAATTAGCCAGGCATGGTGRTGCACTCCTGTAATCCCAGCTACTTGTGAGACTAAGGCAGGAGAATTGCTTGAATTCGGGAGGCGGAGGTT
GCAGTGAGCCGAGATCGCGCCACTCCAGCCTGGGAGACAGAGCAAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGCCTAACGAGAAGGTAA
AAGAGCAAGGAGGAAACTAAAGCAAGGATTRCTTTTATTGCAAAAGAGGTGGAGGAATCTTTAAAGATTTCTGATACAGCAGAAAATCAGATATTGCATG
TTCTCACTTACAAGAGAATGAGCTAAACAATGAGTACACAGGGACATAAAGATAGACATAAGATACTGRGGACTCCAGAAACGGGGAGGGAGGGAGAAGG
TGGAGGTTGGAAGGTTACCTTTTGGATATAATGTTCATTATTTGGATGATGGGTACACTAGAAGCTCAGTCCCCACCATTAGGCAATATACCCATGTAAC
AAACATGCACTGCTACCCCCTGAATCTAAATTTTTTAAAAAAGATTTCTGACAAATAGAGTCTTAGAACTGAAAGCTAGAAGGTGACAAAGAGAACGGAG
AATGTCTGTCATCAAATCTAGTGGTCTTCCCTTTCTCTCGTTCCCTTCTCAGGACACCTGAGATATGCCATACTCTCTTTTATTATCATGGATTCTCTGG
TAGGGAAAGGGTCACCAAGTTTTTGGGATTTACGTGGATGAAACGGCAGAGGAAGATAATTCCGATACCCTCTTAAAGGGACATGCCTTGCCTCCCTCAA
GAAATTCTGATCTCATATACATTTTTAATTTACCAGACAAAAATATTGGGACCAGAAAAATTAAAAGATTAACCATCTGGCTGAAGGCCACAGAGCTAGC
AGTGACATAATCTATACTAACACCTAGAGGTTTCCTGAATCCCAAACTAGTGCTTGTGTATTTGTATTTGTGTGTGTATGTGTGTGTGTGTGTGTGTTTA
TATAACTTTCATGAATTTGATACATGAATATATGTTTGACTTTATAAAATTTTCTAAGTTCAGCCAAAATACTGTGTTTTGCTTTACTATAATTTCAATT
TCATCCTTTAGTCACAGGTTATTAGAAAACCCCCTAATTTTAGTAGCATTAATGCAAACACACCTTAACAATAAACATATCATGATTATCTGCAATACTT
TAATGGATACTCTGAATGACACATAGAATTTTAACTGGTCATGGTTGCTTTTAGTAGCAAACAAGATCTGATCACAATTAATTGATGTCTGTCACCCCCT
TGTTTTAATAGATTGAGTGCCCAATTTGAAAATACTACTTTGTTGTGAGAAAAAGAAAATAATTGAGGATATAGTATGGGATTTTGCAGATGAAGGGAAT
CTTGGGGCTATTCAATCCAATCTCTTAATTTTGCATGTGAATACAGTGAAGTAGGTCAAGAAAAATTTCATGACTAGATTTCTGAATTATTTCATGTAGT
TTTAGCATTATTCAATTTTAAATCGTGAAGTTCAATAATTTACTGTTATAGTTCTTTCACCAAGGATTGTGAATAATCCAATTCTAAGCATGTGTGTTTC
AAAGGAAGCAGTAAAAATAAAACCAGTGCTATCCAACAACCAATCCATAGCTTTTACTAACACCACTCTTCCTACAGCAAAAGAGTCCTTTCAAGTCCAT
TGCTAAATTCCAGAACTAAACAGATAATGTTGGCTGTCATGGGAAAAACATAGCTTTTGAGCTTACCAGCTATATGACCTTGAGCCAAACCAAACTACTT
AAACTCTGCTCAGTCTTTTCACTTGTAGAATGGAAAAACAAAGCCCATCTCACTGGCTCATTATGAAAATCAGACTAACTTGCATAAAGTACTTATCATA
GTACTGGAAGCCAATAATTATTAGATTCCCTTTCTTCTCTTCTTTTTTATTTTCCTTCAAGATTACATGGCTAGTTAGTGTCCAGGCAGGACAAGAGTGG
AGACCTTTTAATTTCGAGGCAGTGGAACCCTCTATATTCTTCCGTTGTCCACATGAAAATGCTCTCAGGAATGAAAAGCAGAAATACCTAAGGAACATTT
TTTTTCTCAGCTTGAGAAGCAAGCCAGGGACTGGTGCCCTGTCTTAAAAATGGTGAAGTTTCTATCTCAAATCATGAAATAATTGTACTGTCAGATAAAG
AATTCTTTCACAATCTTTTCTTAGAATTCTAGATGTTACATTGTTTTTTTGTTTCTTATTACTAGAGAAGGCTTAGGAATCTATGGTGGCTCAAAAATGA
CTAGAGAAAAATTGAGTTTATCTGTTATAAACTGAGCATATTTGAATACACTGGAAAATAGGACACAAAACAGGTTTTTGGAATTTACATATTTGAACAA
AGCAAATGAATTTTAGCTGGCAGAGTCAACTAAGTGTTCAAATTAAAATACCCCTATTTCAAGGTTATCATGAGGCTGTAGCAGTGGTACACCTAGCTTA
TCAGATGCACAGAGAGAATAAATTTTTAATACCTATCCTTCTCTATGTGATAAAATTGTTGCCAGTAATAATCATGAAGAGATAATTAACAATCAGATTT
TTAAATTTGTTTTTTAGTCTTAAAACAAGTAACAGTGTATGTAGAATAATACATTTACTTTTAAAAGATATTGCAAAATTAAGTTAAATAATTTATATAT
GAACAAAAATTTGCACTTACCTCAAAAGTTATGCATTACATCCCTCTGTATGCTGTTTTAAAATGTAAAACAAGTAAACATTCCAAGTGGTTAAGAAGAC
AAATACAAGTAACTCAAATTATCCTTTTTTTGTATTTACAATCTCTGAGCTATAATTGTTTATTTCCAATATACATGTAAATGCAGGGCTGTGTAGCATC
ACARGTTTTGGGGATGGGAGCTATAGTTATTCTTTACCCTTGATGAACTTATTTGCAAAGTGTCTGTAAGATTTTGGTTTCCACTTAGGGATGTAGAAAG
TTACAAAGTGTGATTCCCATTCTTACACTGAAGAAAAGTGGGACGAATTAAAAATCCCCATGTGTTTCTGAATTCATCCAAGATCTGAAGTCACAGGAAA
AGCAACTGGCCCCAAATCTGGAGATAGATAGGCAGATGAAGGGAGAGAAATGAGCTCGGGCTTAGCTGGGTAGACATAATTAGGTGCTGAGAAGGGTGGT
GGGAAAGTTGGTAGCGGCCAAGTATGCCCTCGTGAATGAGCATGAAGCCCCGGGTGCTGCAGAATTTGAGAGAGCCCAAACCCTCTTCAGATTTGTATCT
ATAAATCCTACTGAGCTCTCACAGAAAGGACTGGAAGATGCTTTTGAAAACAGATCCAGGAAGTGGGGAACTCAAGGAAGAGAGGAGCARCTCCTCCAGG
ATGGTCATGAAACTATCCAGACATTTAGTACCTGTTTCCCCTATAAAACAAAATCTTTCACTGTCGGGGAAAGGGTAATACATCTCCTTGCTCTTAGGGC
ACTTGTAAGTATCCATGGCAGCTATGGGAAGGAAACAGGAACATAAATAAATGAAAGCTCGACATAGATAAATAACGAAGAAAACATATCACACAAAAAC
AAAGAGGTGGACTTATCATTTTCAAATTACCAAACACAAAAACAAACAGAAACTCTTACAGGCAGTTACAGAAAAAGAAACATATGCAGAGGAACAAAGA
TACTAATGACAGGGGACTTCTTGTCAGAAACCATGCAAGCGTGGGGAAAATGGAGAGACGTCTTTGAAAGCCTGAAAGAAATAAATGTTAGCATTGAATT
CTATATCCAGCAAAAAGTATATTCCAGAAATGAAAACAATTAAGGATTTTTATGAGGCTATTCATTACAGCAGACCTACCCTAAATAAATGTAAAGGAAG
TTCTTTAGACAAAAGGAATGTGATACTTGACAAACTTGAATCTACACAAAGAAATGAAGAGCAATGAAAATGGAATAAATTAAAGTGTAATAGCATTATA
GTTTTATTTTTAGTTGCTCTAAAAATAACTGACTGTCTAAAACAAAATTAATGGCAGTAGATTGTGTGTCTATAGGAAATGTGTGTGTGTTTATGCAAAA
ATAAAATGGCACAAAGAATGGGAGGAAAGAGCTGGGAATTTAATGTTTTAACTCTTASAGTTTTAACTCTTTCCTAGAATTACATATAAAGTGGTACAAT
ATTATTTGAATGTAAACTCTGGTTGGTTAAAGATATATAATGTATACACTAGGACAACCACTAAAAATCAAAGTATACAAATAGCAGAGGAAATAGAATA
AAAAATAATGCTCAATAAACAAAACAGAAAGCAGAAAAAAGAGGCAAAAACAAGAACTGATAAAGCTAATAAAAATTGCTTAGAAAGTTGGTAGATTTAT
ATCCAGCARTGTAAAAAATCATGTTAAATGTGATCTCTTTAAACTCACCAGTTAAAAGATAGAGATTGTCAGATTGTATAAAAACTGAGACACGACTAAT
CTATAAGAAATGACTTTAAGACATTGACAGGTTAAATATAAATGAATGGGAAAGGTATTCTATGCAAACACCCGTCAAATGAATACTGGATCAACTATAC
TGATGATAGACAAAGTAGGCTTTAGGACAAGAAATAATATCAAGGATAAAGAGAGATATTACACAATGAAAAAGTAATTATATCCTAAGTTTTAAAATGC
TAAGTATATATACACATAAAGCATTTCAAAATACATAAATTTAAARAATGACAGACTGAAAGGGGAAAAAATCCACAATTGTAGTCAATGTCAATACTCC
TTTCTCATAGTCGACAGAACAAGTAGATAGAAAATTAGTGAGGATATAGCAAACCTGAACAAAACTATATTACCAGCTTGACCAAATTGACATTTATAGA
ACAGCAGAAGATACATTATTTTAAAATGCACAAGGAAAATTGAACAAGATAGATCATCTTCTGGGTCATAATAGAAGCCTTCAGAAATTTAAAAGAAACT
GTATTATCATATAATAATGTGATTAAACTAGAAATTACAGAAATAGATCTGAAAAAAATTTGAACAACACACTTCTACATAACCCATAGGTTAATAGGAA
ATCTCAAAGGATATTAAAAATATTTTAATGAATGAAAATAAAATAATTTATAAATAAAAATATTTAACTGAATGAAAATAAAATATAACATATCAAAAAT
TTGTGGATTGCAGCTAACATAGTACTTAGAGAAAAATTTACAGAATTAAATGTTTATATTAGAACAGAAGAAGTGTTTAAAATTAATTTATACTTCTACC
CTAGAAAATAGAAAAAAAAGACCTAATTAAATCCAAAAACAGGAGAAGGAAGAAAATAATAAAGATTAGAGAAAAAAATAGTGAAATTGAAAAGAGAAAA
ACAATAAAGAAAATCAATAAAACCAAAAGCTGATTATTTGAAAATAACAATAAAATTGATTTATTTTTAAGCAGACTGATCAAGAAACATACAGGACATA
CAAATATTACCAGCATCAGCATGAAATAACATACATAATATCCAACACTATGCATGTTAAAAAGATAGTAAGCTTATGATATAAGCAAGTCTATGCCTGT
TAAGTTCAGGAATTTAAATGAAATGGGCCAAGTCCTTGAAAGACACAATCTGCCAAAAATCAATTAAAAAGAAATAGATGAYTTGAATAGCCAATATTGG
TCAAGCAAAGTGAATCATAGTTAAACATTTGTAAAAATGAATATTCTAGGCTCCAATGATTTTACTAGCAAATTCTACCAAACCCTTAAGGATAAAATAA
TGCTGATTCTATACTACCTCTTCCAAAAACTAGGAGATTAGAGAATACATTTCAAATCATTTCACTAGGGCAAAATTTTCCTTATCCTAAAAGTAGACAA
AGACCTTACAACAAACAAAACTGCATGCCAGTATGATTTATAAACATAGAACACCAAATCTKTAATAGAATATTAGCAAATGGAATCCAATATATAAAGA
AATATATAAAAATATAATACTTATTACCAACCAAATGAGGTATATCTCAAGATGCAAGGCTGGTACAACATTAAAAAATCAACCAATGTATTTCACTGTA
GTCACAGACTAAATATTGTTAAGATGGCAATTCTCTCTACTTTTATCTATAGATTCAATGCAATCCCTATCAAAATCTGTGCAAGCTTTTTTGCTGATGT
CAACATACTGATTCTAGACTTTATATAGAAAATCAAAGGAACTACAAGAGCTGAAATAATTTTTTAAAAAGAACAAAGTTGGAGTTCTCAGAATACTTGA
TTTCCATACTTACTATAAATTAGGGTAATCAAGACTGTGGTTGTAGCAGAAGAATAAGCCTAGAGTTAGGCAAAGGTTTTTCAAGTAGATACCACAAAAA
CCACTATTAAAGAAAAAACTTGATAAATTGGATTTAATTAAGATCAAAACCTTTTACTCTTCAAAAGATACTGTTAATAGAACAAAAGGCAAGTCACAAA
TTGGGAGAGAATATTTGCAAATTACATTTGTGACAATGAACTTCTATCCAGGAGATACGTACATATATATGTATATACAACAATTTATATACATATATAT
CCGTACATATATGTATATATAACAATATATAACAATTTATGTACATATATATGTATCCTGGATATGCATGTATATATGTGTATATGTTGATATATATATA
TATGTTTTTATATATACATATATATGACAATGAACTTGTATCCAGGATAAACATACATATACATGTATGTATAAATTTTTAAACATATATATAGAAACAC
AGGTATATATGTATGTGTATATGTACATATATGTATATGTAATTATATATGTTATATAGTCATATATAAAAAATGACTCTGCAATTTCAATACAAAAATG
GGCAAAAGAAGATAGATGTCCCTAAAACTTAAAGTATAATAATAATAAAATTTAAAAAAAGAAGATAGATGTATTGCAAATAAGCATATGAAAGGATATG
CAGTATCATCAGAGCAGAGTTACACTGCCACAAGCCAAGAAATGCCCAAGATTACCTGCAACCACCAGCAACTGAGAGAGAGGCATGGAACAGTTTCTCC
CTCAGGTCCTCCAGAACTAACCAACCCGATTTCAGGTTCCAGTCTTCATCACTGTGAGAGAATAAATTTCTGTTTTTTTAAGCCACCAAGTTTGTGGTGC
TTTGTTATGGAAGATTCAGGAAACTAACACATAACAAATAAATTATTTTGAAAAATGAGGTGTTTTTTGAAGCCATGTTATTGACACTGTAATGGAGATT
ACCTTGCCACAATAATATAGCAACCTAATCCCCCGAGGTCTGCTAAAGCTCTTACTAACCTTAGAAAAAATTGTAAACAATAGTCTGAATACTATTTTKT
AAATATATATTTATCTTTAAACAAGGTTACACAGGCTATTTGATAATTCTTGACAGTCAGAAATCAATTCCTATTCAATGAGTTTTCCTAAATGGAAGAA
AATGAATCATGGAACCCTTACTGGGCATAAAGCTTAGAAAGAATGTAAAGGCAGATGGCCCTGTCTGACATTAGCTGTCATCTTTGCCTCCAAACAGATG
CTAAGGAAGAAGCTGAAAACACATTACAGTGTCTGACACAGTGTTAGTCTAAGCATGTGCCTAAGATGCTAATACAGGTTATGAGAAAAGGGGCCTCGTA
GCCAAAGTTTTGCAAATTCTAAGCTAAAAAMATTAAAAATATTTTTCATGATAGGATATATGAGGCTCATTAGTGTGCTGATATATATCGTGACACATTA
GAACAGAAGAYAGCAGACTCTTTTCCATGTTTATTTTACCCTAGAATCTTCTGTGAAGAGAGTTTCATGAAACTGAGCCTCCATGAACYCACTTCAGGGG
ATAAGCAACTTAGAATATTKCTTCTATTGATGCGTCATTGGGTCAATTTGGAAGGGATGGATCTCTCCCTATCCTGTATACATTTTGTTTATTTTCCCCC
TTTCTTTCTATTTTTAACCATCTCACCTTTAAAAAGATGTTCCTTTGACCCACAAATTATTTCCCATCTCTACTGTGTATACTTTAGGATCTAAGATGTC
CTATTTAATATAAAATTWAAAAAATCACATTGAGTAGTCTTTTATTCCTGATTCACCAAATTACTGCTACCATAATGCTTTATCTTCTAAATCATTTCTA
TTTTCTTTACTGTTTATTGGTGTGGAACCATAAGAAACAGCTGATATTCAACTTATGAAAGTGGCAATTCCATATGGTTCAACCAAATACATTAATGTTA
TTAAAGAGTCAACACAGTTTCCAAGATAGTTGATTTATCAAAGAGCCTTAACCACTGCAAGAATTTGGCTTAATGCTTTTATAAATAGGCTAGGTGGTTG
ACAGGTGAGATCACTTATGCTTAAAAATGATACCAAGTTGGGCAAGAYTGACAATATTTTGTAGGGCCAGGCAGGAATGCAAAATGATGCAGTCAATTTG
AGGGAGTAATGTGTGCTGAATAGAATGAATTCCTAATAAAATACTTGCAAGGTTTTGGTTATAAAATAGAATAATTAATTTTATAAATGCAACAGAAATA
GGAACATTTACATGGACTGGTCCACATAAAGAGCAGTTTTAAAGTCACAGCCAATCACAGATTCAGGCTCTGCCAAACATGCCCAAATGGGCAGCCTCCA
AGCCATTCATACTGACCAACCATCTGGACCTTATCCCTTGGATTTCAGCTACCATGTTGAATCAGATCAATGACTTCATGTGGCCTATGAATTTTAGGCA
TTTAGACATAGTAGTATTGTCTTGAGTAATATATGTACACTCTTCCTGTAACCCATTCAAAATCTGCTCAACTTTCAAGGGCCAGTTAACAGTCAAGGAA
GTCCAGAAAGTCTCTGCTGTTACGTCTATAGGTCATAGACTTTATCGCTCAGCTTAACTCAAGRTGACAATCACTTCTGGCTGACAATCACATCAGCTTC
TTTGTATATTAGCCTTGACTTTGAAGTTTGTACATTCTTTGAGGACAAGGACCAAGTACTGCACATGTTTTGCACTTCTGTCAGACTAATGTGCAATCAA
TAAAAACATTAGTAGGCTTCATCAAGCAGGACTTAATAACATTACTGATCACAACAATGAAAACAACATGCATTAAAGCAAAATGACTATTGAGAACATT
AAAGATTGAGAAATTTATGTGGAGGCAGATGAATATGAAACAAAATATATACGTATTTTATGTCCATATTACTGAAGTTGGTATTTAATATATCCATAAA
TTTCATTACATGCTTAATTCGAGTTAACAGTAAGGCCAGTGTTTAGTTTAGTAGAGTTTCATGTAAGAGTCTTTATTCATGGTTTGTGGTTTAATGTGTT
ATGTAAAATACAGTAAACTAGAAGTATTTTTTCGTTGGACTTTTGTCTCTTAAATACTGAGATGCTGGATAGAATGGTTTTTCAGTGCTGAATTTTCTGA
CCCTGTGATTTATTAGGCTTTTTAATGTATTATCCTAATGTCTTTATAAATTAATGTTTTTATAATTTATCGGTTGACTATTGAAATAAAATTTTCATAT
TCCATTGCATTTTATATAATAGCATTACCCCTCAGCCACTGCGATATACATGAGTTTCARTTTATTATAGCTCAGTCCCAAATCAATGTCACTGTTAAGA
GTATGTGTTACAGTAGTGGTTATCTTTGGAAAACAATTTGAGTCTGACTAGATGTTGTTCAATCCCCAGRCCATGGTAAGTGTGACTGTGGCAAGTGCAA
GTGTGACCAGGGATGGTATGGGGATGCTTGCCAGTACCCAACTAACTGTGACTTGACAAAGAAGAAAAGTAACCAAATGTGCAAGAATTCACAAGACATC
ATCTGCTCTAATKCAGGTAAGAAGTATACCCTGTGAAAATTGTTAAGTGGAATAATCAAATTTTGTTTTTAATGGAAATATGTGGGCGTGGAGAAATGTT
GAATCTCAGAGTGAGTCTGCTTTTGAGTATGTTTTTTAGAAGTGAAATTCAGATAAATCAATAGAAAAAAAATGCCATCTTGCTGAGACTGGCAAGTTTG
ATGCTTTCCAGCTGTTYCAAATGCCTCCTTCTAGCAGGATATTCACTGGAAACAACACCCCAACCACATTTTATGTAAATTGTGAGCCATGATATTGAAT
ACCGGATTACATCTGTTAAAAAGGATTTATATAAACTGACTTAATTATTTTCTGTTACAGATCACGGGTGCTTTGAATTTTTACCTTCGCAAAATAGAAC
CAAATACTTTAAATTTGATAGAAGTTTCAGATATACTGGTTATAAAGCTCTTTGAAGGATACAGTCACAGAAAGATTTTTTGTTTGATCAAAATATTTTT
TATTTCATAGAAGTTATTTGAAAATATTTTTTACAAAATTGTAGCAATGCTGTTAAAATTTATTAGCAAAATCATATAAAAGAGTTGCAGTTTAGGTTTC
AATGGTATTTAGCGAGTGTTACCGTAATTAAATATTCTTTTTACATTTGGGCAGGTGAAGCCTCAAAATCAGATTTTCTCAACCGTGGTTGAACATCAGC
ATCCCAAGGAGAAAGGAATAAACTGTCAGTTCTCATGTAGTACACCAGAGGTTCTGTTTCAAGTGCTTTGGTGTGTGGCCTTGACGTTGGTGGTTTTTTT
AAAGCTCTCTGGGTGATTTTAATATAGATGAGTGTGTGACCCATTGCTCTAAATGCTAAAGGTGAGGATTTGACTTCACGAATGAGTACCTTTCTTCCTG
AAGCTCACATTGTTGGTAGGGCCCATCTCTAACCAGAGCTGAGAATTCCCCACAGTCTGATTGCAACAGATTGTGTGTTTTAGACTGAGCTCARTTAAAG
GTGTTTTGCTGATAGGAATCAGACCATATCCAAAGCGAGGTGTGAGTGGATCCGTCAGGGGTCATGACAAATGGTCTTAGCAGTTAGGTCCCTTTCTGTG
TTCATGATGTTCTCATCATATTTCTCTAGCACTTCAGTCTTTCTTTCTTCTTAGTMGGATTTCTCTACGTCCAATTCATAACACCCACCCCTCCAAACAC
ACACACACACACACACACACACACACACACWCTTCTCTACTTCCAATTCATAACACCCACCCCTCCATACACACACACACACGCGCACGCGCGCGCATGC
CCCATAGCGTCTTTCATCTTGAAAAAATTATTCTTTTCAAACTTGTTTCAGTAACAAGACTTGAATTCTGTTTTGGGTTTGAAATCTATTTTGGGATTTA
TTTATTTATTGTTTGCAAATCAAATTTAGGGTTTTTTTTTAGAGAACATTATAATCAAATGTGGTAGTCTAGGATTCTAAAGATGTTTAATATTAAGGAA
TCTAAACATGTAATTCACCACATTAACATATCTTAAAGGAGAAAACATACAGAAGTGTTTCAGTAGATGATAAAACATATTTGATACAATGTAAAYGCAT
TTCTAGGACATCTGTACTCTCTCATTTTTTAAGCATGGATGCAATACCTTTGTTCATAACCTGCTTTAGTCAAGGGACCCAGTAATGTCCTGTATAGCGT
TTTCCTCTCCTTACAGGATTCAGACTATTGAAAATGTTATGTTTATATCTCTCTTTAGTCTTCTTTAATCTGGGTCATTTCCACAGACTTTGGCTTTAGA
GCATTGAAACTTGTGAAGAAAGTTGTCCCCATTTTATTAAAAGAAAAGTGTACTTATCTTGGATTTGTCTGATGTCTCCCCCGCCATGATTAGATTCATA
ATACATATTCTTAGGTAAAACACTAGAGAAATGGTTTTGTGTTCTCAAAATGTTTCATCTGGAAGCACATGATGTCCATCTGCTCATATTGGTGATGTCA
GTTTTGATGAGCTGGTCAAGGTGTTGGCTGGTGTCTTAACTGTGTTATTTCTGACTTACCCTCTTCACAAATGTGCATTCTATGAGGAAATACTTTAAAG
CCATACATGTATCACATTCCTCACTAAAATTACCCCAGATTTAACATCCGCTGATGACAATCACCTGACACAGTATTGACAATGATGACTGGAAAATGAT
GATTTATGAACTGTAACATTCTCTCTGAATTGACTAGTTGGCACTCAGTATTCCACCACAAACAGGAATCCTCCTCTCTCATTTATCAGTTATTTGTTAT
TTCATTTACTTAGTGACTTATTATCAGTCTAGAAGCACAATTCTTATTATTTCATTGATTTGTTATTCATTTTGTACATAATTATTCTGGTGCACAGAGT
TTTCCAGATTAGGTATTAAAGCCCATCAGGCTAGCTTTTGTGTTTTTGTGACATGCCTGCCTTTTGTTTTTGTTTTTTGTTTTGTTTTTGCAATTCTTTA
CTTGTTGGCATAATAACATATTCCAGGGTCATATTGGACCTGCTTCACTGCACCTTTGGAATCATCCACTTATCCAAACAGCCCTGATTCCTTTTAGTGA
AAATGGTATTTGAATAAAAATTGTGGGCACAGGGATACTTATTTCCACTGGAGGGTATTTGCTTCTTGGCCCTTTCTGCAAATAGGCTTGTGTCAAAAAA
GTAGATTGAAGCATAATACAATTTTTATTTTATCTGAGCAAACAATGATTCATGAATCAGGCAGCTCCAAATCAGAAGTGATTCAGGTGCTTCATTGAGG
GAATGCAAGTGGGAGGCTTTTATAGGGTGAACAGAAAAAGAAAGCAAAGAAAAATAGTTGGTTGGCTAATGTTATATGGTTGCCTTRTTTAGTCTATCCT
GTTGGAAAGTCCCTAGTTATATAATTATAAGTTTGTTGGTTGCTTCTGATTGGTTAAACTTAAGTTCTGTTCTTCTTTAATGTAGACATTTATAAGAAAT
AACTTAAGCTAAGTTTCACTTATTTTTGCCTGTCAGGCAAGGTTAGGATCATTTATGAGGCCTAACTGGCTTAGTCTGCTCAGGGGTTCTTTAGGCCTTG
TCTCCATTTTAATTTATCTTGACACTAGTAAATATATGCCTGTGCATATACACACAAATACATATACACATACTTGCACACAGATATGCATGTACACATA
CACATACATGCATATTTTAGAAATCATGAATTTACACCAGTGCATCTAATTCCAGTCCAACCTCACAGGATTACTTCTTGTTTTCTCCATTCCATATTTG
CATGTCCCATTTTCACAGGGAGAACCCTGGCTCCCAATACCACCAACATATTTACTTATTTGCTCAATCCTATACTACATCTCTAGTTACTTCTAGAAGT
GCTGCAGACACACCACTAAACCAAGCAAATGTACCAAAAGAGATTAGGATTTGCAGTCCACCCCTCTCCACTTCCCCCCACTCACTGTACCTCAATCATG
CCCAAGATTGGGGTATGTAGTCGAATGACGTGTTCATAAGTCACTCAGACTTATTTTATTTTCTTCTCTTTTAGTGTGGTTATGGTACTCATTTGAAATA
CAATTTAGCTTATTTATTTCAGATCACTTTCAATTTTAGGTTTTATAATTCCTTCCCATCTGTATTAATATATTTTATAATGTATAGTACACTAACATGC
TTCTAAAAGTCATAACTATGCAGAAAAGTATACTCAGAGAATCATCCCTCTCTTCCTCAAACSTTGCACCCTGCTTACCCTCACCTTATAGATAACCAAC
TTTATTGCTCTCTTCCTTCTCTGTGCATGTATTTCTTTTTGTGTAAAGATAAATAGACATATTTGTGTGTTATTATTTCTCATTTTTTTCCTGTGCAAAT
GGTTGTGCTTTCATTCCATGTGTTCTTTTGCACTCTGCTTTTACGACTCAACATAATCTCCTGGAATTCACTCCAAATCAGTTCATAGAAATCCTTCTCT
TTATTTTTTCAAAAGCACAGGACTGGATTCTATGTATGCAATGTAATTTATTCAATCAAGCTCTTATGCTTGAGCATTTAGACAGTAGTCAGTATTTTGG
ATTGTAAATAATAGTGCACAGAATGATCTAGTGCACATATATTTTTATATTTTTGGAGGTGTGTATTCAAGGCAAATTACCAGAAATGCAATTGGCCAAA
AGATACATTTATATTCAGTGTTACATTTAATCTTTTCTGTCTCATTTACTCTTGTAGAAATATCTAAGCCTTTCATGTTTACTTTGGCAGTCTCATTCTC
ACCTGTCTTTCTTTTAATACCCACTTCCACCCTCCGAGTTCAGGACCATTTTCCCCAAATTGCATTAGCCTATGAAGTCTCTCTATTAATCCTTCCCTTT
CATATCACAGTGTGGTTTTCTGAAGTAGTTTGGAGCAGAAGGGGAAGAGGAGTTAAATGGATTGGGGAATGAGACTGAAGGGCAGAATGAGGCAGAGCTG
GGGATCAAAGTGTTCCAGAGGCTAACTTTGTGGGAAAAGTAGAAGGGAGGTCCAGTGTGCAGAGCAGGGTGAGGCCCCGGCACCACTGTACAGGAGTGTG
GGCTGGTGTACATGTCTGGTCAGTCATCCTAGAGAGAGTCAGTTCTATTGGGCACTATGAAAAATGAGAGCTAAAAATCATCAAGTGTAAGGCAGAAGAC
CARTCCTAGAGGCTGAGTTAACTGGCAACCACRAGAGAGAAGCTGTGTGTGTCATAGCATGAGCACAGGAGTCTGGAGCTTTTGCCTGGGCGTCCATATG
CCATGTCTTGGAGGCTCCGTTGTGAATTCTGCTTTATGGGTGAGACAGGAAGTCTCTGAGCTGTTGTAAACTTCCCACATCAGCCGGGAATGTTTCCGAT
GTGTGGATGAGAGGGAGCTGCCTATGGGGGACTTCAGTGAGGAGTCATAGAATTTGGAGGCAGAGGCTGTTCCTTCCCATCTTTCCTGAAAAAACTTCCT
CATACACAGTCCTAACCAAGTGACTTCCTGCTCTCATATTATATATGAGAGGCCCATATTATATATGGTTACATGTATAATATTTGTATAGGTTTATATT
TGTAGTTATAAAACAAGAAAACATATGACACAAAGGCTTTTGCAATAGACTTGTGGCAAATGCTATACAAAATGTATTAATAGGGTATCTCTTCCTGGTC
TATGATTTACTTAATTTTAAGCATCTCATTATTTTCTATAGCACTTAGTTCCTTGCAAACAACATAACAGATAACAAGAAAGCTTAATGGCTGGATATGT
GGGTGGTTGAGAGACAGGATGAATAAATGTGAAAATGAAAAAGAAGGGTGATAATTAGAGAACAAAAACTAGATGAAGCAATAGCATAAATTATAGCATT
AGATTTCAAATTACTTTTATGAATTGAGTTAGCTTTTAGGGAAAAATGCAATAAAATGAAGTTTAATGACAGGAAAATTCACATGAGTATTTGCAAGATA
GAAAAATAAATTCTGCAAAATCACCATTTATATGTAACTGTGAGTGAAAAATTTATAGATAATAGTGACTTGCAAGTGATCTGGGTAACAGAATCATGCA
GAGGATATGAAAACAAGGATATTGTCAGCATCCATAAATATATTTTCTGGAGAAAATGTTTGTAAATATGATGAATATACTCTATATCTTAATGGGAGAA
GAGGAAGAACCCAAATTTTCTCAAATCCTACTATGTACTAGGTGCAGCAGTGCTTCTAGAAACATGACTGGGTACATATTCATCACTTGGTATTGGCAGC
AGTTCTATGAAGCAGAGATTATTTGCAGATATGGAATCTGGGAATTAGAAATGAAAGCAATGCCTTTAAAAATGCATAGCTCATGAGGATTAAAACTCGG
AATTCAGCTACAGCTCTACCTTACTCACAAGTTCATTCTCTTTCTAATAGATCACATRTAGATTTGCTAATATCTAGTAATTCAAACCAAATTAKCAACA
GCTTCCTTGGTTCCTTCCCATCCTTCACYCTTTACACTCAGTCACCAAATGCCCTCTACTCTTTCTCCTAAAAATATCCCCARATGTATTTGTTCCATTC
TAAACTCATCGCATCATGTGTCTAGCCACTGTCTTCTTTCCTGCAGACAAATATAACAGCCTTTTAACTCATTTCTTTGCATCCACTTTTGCCTCATTTC
AGTTCATTCACTCTTATGCTATTGCTTCATCTAGTTTTTGTTACATGACAACCAGAGTAATCTGGTAAAAATTCATACATGATCACAGGACTCCCTTGCT
TCTATGTCTTCCAATTATTTTTGGATTAAAGCTGGAAATCTTTAACATGACCTATAAGACTTCCATGAACTGCACCTCAGGTTGCTTTATTCATTTCATG
CCACTTTTCATGCTGTTCTGTATACCTCAATCCCATGTGGTGTTTTTCCTTCACTTCCCCTTTTATTGCAGAGCCTGTGCTATTGTCTCRTGCTGGAAGT
AAGCCTCTTCACCATCTCACTTCTCTTAGCTATGCTTTTTCTCTTGGCTTTTAGTTCTCAGCTACTTCCTCAGGGACTCTGACTTTGACCTACTGGTCTC
AGTTAAATCCCCTTGCTATGTGCTTCTGCAACACTTTGCACTTCTGTATTTATTTTATCACATTGGTTTTTGCTCATATAAAACTCTGAGAGGAGGGTTA
TGGCTGACTTGATTCCCGTTGGATTTTCAGAGTCCAGGGTGGTTTCTTGTGAGAGATCAAGTCTCAGTTGATACATGGTGATGGCTGTGATGAGCATTAA
AACTCAAAATAGATAAATTAACAAGGAAATTTCTCAAGTGGGCATTCTACCTCTCAAAATTGTTTGAGTGCAATATTAATGTTGGTGAAATTACATTTGG
GGGATGTGGTAGAATCTTCAGACTTGGATGAGTATATGGCTCGTGGTAGACCAGATGACTACCATGCCTCTCTAACGTGGAGGTCCCCTGAGAATCTGGT
GAGTTACCAGCAATCCATGCCTAAGGAAATCCACTCTTGTCCCATTATTGTAAGGACATGTGTATCAGTATAAGTTAATGCTGAGGAGGAGAAATTATCA
GGGGCACATATGATTTTTATTTATGCATTTGATAATAAATTATTTCCACAAATATTTATTAYATAAATAGTATGTTCAAACATAGTGCAAAACATTGAAT
AAATACTGGTGAGGAAGATAAGCAAGGTTGCTTCCCTCACAAAGCTTAGAATTTGCTGCTTTATTTCACTTCAGACCCAGGTGTAATCAGAAGACATTCA
TGCATTGGTTGGATGGCTATATGTGGAGTAGCTCTGCACTTGGAGAGGTCAAATTTACATTCATTAAACCATTAGAGGTCAATAATAATAGTTGTGTGAT
CTAAAATATAATTGCCATGCTAAAATAACCTCAAGAAAGAGTAGCATGTGCTTTACCTCACCATGCCCACAGAAATATCTAATTGAAATATTAAATTGAT
TTGGATTATCTACTCTCTTGAGAGAGATGGTATAAAAATTCATTAATTATAATTTTATGTGCATGTAACAAACAGTCTTTTTTGTTTTCATGGTTTAGGT
ACATGTCACTGTGGCAGGTGTAAGTGTGATAATTCAGATGGAAGTGGACTTGTGTATGGTAAATTTTGTGAGTGTGACGATAGAGAATGCATAGACGATG
AAACAGAAGAAATATGTGGAGGTATGTATATTGGCTCTGTAGAAATTAATAAAAGTACCTGTTTTTTTCACCTATTTCATTGTTCTTTTATCTCTACATA
AGTTTCTGCTCTAGGTGTGCTAATGTAGTTTAAACCTATGTTTATCTGGAAAACATTTCACATAAGGAGAGTGAGACTATGGCATTAAGAGTAGACTAGT
ACTTTTTAGATGCAAAGCCAAATTGTCCCCAGAGGAGAGCTGTGTCATTATGGCAACAGGCCAACTGCATAGCTCTGAAGTAGTCCTAGTAGAATACCAT
CTCCTCTGCTCACCTTAGTCACTTTTATTTTCCTTTCTCCTACTCTCTTAAGTGTACATTTTCATTTCTTTGTTTTTCCCTTTCTAAAACATGAGTCTCA
TGTCCTATCAGGGACAATGAAGGTCAATAGGGTTATTAGCCTAGAGTTTACCTCCCCCTCTCTGTCCCTAAACACTTAAATAACATTTTCAATGACCTTT
TCTGTGTACCACCATTACTCAATTCATTTTTCTGTTGTAGCAGTTCTTGCATGTTTGCTAGTGACAAATTCTGCAATAAGTGCTTTACATTCATTATGTT
TTGTCTCACAACATCACTCTAGGCTAAGAATTATGTTTATCTACATAGATAGATGTGGAACCTGGGACGTGGATAAATTAGGTAACGAACCCAGGGTCAG
TCCACCAATAATAGTAGAATTTGGGCTCGTGTCTGTGTGATGCCAAAGTCTATGTTCCTGATGCCTCACCACTCACGACTGCATCAGTGCCTTAGAGCTC
AGAGCTCCACAAGAGGAGTCTCTCCTCACCACTTGCAGTTTTCATCTCTTCTGCTCAACCTGCAAGCCTGTGCCCAGAGTTCCCATTTGCAACCTTGACT
GGTGTAGGAAAAGAAAAGTAGAAAGCAGAGAGAATCATTTGGTTTAGGTAAATTTTTCTCTGCTCTGAACTTATATTTCACTCCTATCTCATGGGATTCC
AGTTGAAGGAAGACTGCCCTGCGTGCAGAAATGGTAGTTTTAGAAGTATTGTTTTTCTGGAAGGACTAGGGCCCAATGGGGCCACGTGGAACCAGAGAAC
CCTGAGAAACTGTGGCTAGCATAGGACAAGCTTGTTCTTTTGTTTACATTTCGGTAGCTTCAATTCCTGTGAGTCATCCAAATACACTTATTTTAGGCCT
GATTGGCCCTCCCTCCTTGATCTCCTGGCTGTACAAACTRCCTGGATAAAACAAACAAACACAAAAACCTTATTTTCATTTTTCCGAGCCAATGACCTAA
GCAAGATGCTGCTCAGACAATTCTYTCTTAAAGGGCTCAGTCCAAAATAATTAGATCAATTAGACAAATCCATCCACAAATATATGTGTTTGTCCTCTTG
ATGTTTAGTTTCCAATTATTATAGATGATGAAAAAAAAAAAAAGAAGAAGACGGGAACATGCTTTGGGGCCAGTGTGTGTTGATAAACACCACAAAAGCA
GAGTCTATTTGCATGTATCAATAGAAAAATGTAACTTGAAACAACACAACAGAAAATGTTTAACTTTCAAACTTTCTAGTTGTTATTTCCATTTGTTTGA
GGCTTAAGCAATTTCATGGTGCAAAGTCTCTGAACAAGGACACCAGCACTGCAGTAAACACCCTCTGGGGGTGACATTGCCTGGGATTGTAAATCTTTCC
ATGTGTCATTCACATGAAACCAATCTGCTGAGAGATGATTCCACAGTTCATCAGTGAAGTAGTACAAATAGACATTTTCTTGCTCTATCAGTTTGCACAA
AGCAAAGAATTATGTTTATTGTCTGGAATATGTATTGTCCTAAAGCACACATTTTAATCTCAATTATTCAGATGTGTCTTGTTCAATATTTTTATTTGAG
TTATGTGGATATTTGTTTAATTTTCCATACCTGCATAGACGTGTATTGTTACATAATTTTTGCTTCCTTATTTACCTCTAACTCAAAGGTTTCTTAGTAA
AACCCTAATTCAGTACTGAATTGTATAAATATTCAAAGAATTTGGATGTGAGAAATATAGATTTTCTATCATTTATTAATATAGTAATCCTTACTTATGT
TGCACCTTCTGTATAAATTTTCTGAAATTACAGAGAAAATAAATTCCGTAGTCTAAAAAGGTGATTGGGTCGTACAAACCTGACTCCTAAGAAAAGCAAT
TAATATACACTATTGCTTTTTTTTCAGTGTAATCCTTGAGTTCTTGAGGCCTGTGATATATCACTAGGATGTGATTTGTGTGTGCAAGTAGACACCATTT
TAAGTTCATAAATAAGATATATAGATGATATATTCTGTACTGATTAAATCACTTGACAGCCTTTGCATTTGCTTAAGTAAACAAATTTAAAATTCAAATT
CRTTGTGGAAATGGTCATTGATTTTTAGGTTAACAAGTGATTTTCTTTGAATATCCCAATTATAACTTATTTAGACAGAGAACATGGCATTGGGTCCCTG
TCTCTTTCTCTGTGTCTCACTATAGCACTCTTTCTGTTCATCTCTCTGGCTCTGTCTCTCAGATGTGTATCTTCTTGATGGAAGTCTCATCTGCTGGACA
TGAATAGCGTAGGATACCAGAATATTCTGTTGTACTTCTTGCTTCTTATGTGAGTTTTACAGGTCCTATTAATGTTCTTGCCATTGGCCAGAAATACCAT
AGTGTTAGAATGATAAATATGCTTATAAGACAATGAAAAGTAGTCTCATAATCAGTTTTGCATTGTCTTTTGGGGAGTTTGGCTGTAAGAGAAGAGAGAT
GGAAAGAACAAAGACTTTAGCCATAGACTGATAAAACACAAACTCCTATAATACAGAAAGAATAGACTAAAAACAAAACAAGAACAAGGACATACATTTA
TACTTAGGTGATATAACTACAAAGATGAGAGTATAAGAAGTAAAATTTGGGATAAATGCCATCTTTGGGGAATTTGCAGAAGGATTGCTAGRTGTGGATG
AGGAAAGCAATGGTGCGATAATTCACTACAGATGGCTTGGAGGCAAGTGCAGATGAGCAGGTAACAGGTTACAGAGAGGTGGGAGCTGAAAGAGGGCATC
TGGACACAAAATGGTGAGTGCCCTTACCTGTCATTTGTATCCCCTTGACAAGTAGAAAGGGAATTTGATTGCGTGGCCAAGGGCCCATGGTATTTTGTTT
GTCTAAATGAGGATTAAACATGGACTAGGCTGAAAACCTCTCTTTCACATGGTGGAACACAACAGCTTGTGGGGCACAGTTGAGTGAAAAGATGAAATAT
TTATTCTGCTTTAAAGAGTTGTTTGGTCATTCATAATGTCTATCTAGGTAAATATGCACCATTGGTTTCTCAATAGTTGATTTCAAATGAAATATTTTAA
TAACTAATTCAAGAAACGTCCTTAGAGTGAATGCTCATATATATTTGGGTTTGATGTGTGCATTTGAGATGGAAAAGTAATAGACTGTCATGGTCATTCA
TGTCATTTCTTTAAAAATACTTTTAATCAGTTCCCTGTCTAGGCCAAGTTAAAGGACACTTTGCTCTTTTTGTATGATTAAGCAGGTATAGGCACAACCA
TGATGTGTTTGGAGAAAGCTGTATAATTTGATTATTTTAGGCAAGGAATGTGGAGCTGTGACAGTATTTCAGAAGGCAAAAATGATCACAAAGAGATAGA
AAGTTAATTCTGCTTATGAAAGTTGCTTTTTTCCTCACTGTATAAAATTCATTTTGGGTAAAGGCCATGGGAAGTGTTACTGTGGAAACTGCTACTGCAA
GGCTGGTTGGCATGGAGATAAATGTGAATTCCAGTGYGATATCACCCCCTGGGAAAGCAAGCGAAGATGCACGTCTCCAGATGGCAAAATCTGCAGTAAC
AGAGGTGTGTCATTCATACATGTTACTACATAATGGGGAGGCAAACAAAGCTTTTAATTGTTAACACTTCTTTTCTTTGTATTTCCTCTAGTGTGGGAGG
AAGTTATCTTCTAACCATTTACTTTGATGTAAATCAACATTTACTATCCCAACAATCTTTTCTGTCTTGTTTTTTATTGAGTAGAAAAGAGAAAGATAAG
AAAGTTGCTGTCATTCTTTAAGCTTCACTGAATAAACAGTTAACTTAGGGACTGTAATTTCTTTGGCAGCCCTCCAGACATAGCACAGTGCAGCTAAAAG
GCAATTCCTTTAGATACTTCTGTTAAATGTCTCTTGACTAACAGAACCATCTACAGCATGAGCATCTAATTATCCGTAGAGAATTCAGAAAACCCTCTTG
TCTTAATTATGAGTATATGGAAGGCTTGGTTGAAATGCAGATTTGATATGGACTAATTTAACTTCCGTGTGCAATAATAAAAATTTGATATTGAATACAA
TAGATATACAAAGTATGTATCCAATAGCCATAGGAAATGTACACTGACTTTACAAAGGAAGTTAACAAATATATTAATATTGCTAAACTATAATTTAAAG
GTAGTTAACTAACTTTTGATGTAAAATCAAACAGTTTAAACATAGTTTTAAAATTCCTTGAAAATACTTAATTTTCCCTTTGCTGTAGTGATAAAGAGAG
CCATACTAAAGTTTTCATTGCCTATCCAATGGCATTAAAAAGTGATTATACTTCTTTAAAACTAAAAAAATCTAGATAGCTGGAAAACTTTTTTTCATTT
CTATACATGAATAATGCATTGCAATAGATAATGCTAATACAGAAATCGTAGCATACCACCTGTCAGAAATTGACATAGAGGAGTAAAATGTGCCACATTT
CTTTACATAGAGAAAATAAATAAAAAGGCAGGAACTTGGAACAAAATCATGAAGTCTTCCTTTGTGGGGACTAAATCTTACTATATATCATACTAATTTA
CCTTATGGTTTCTTTTTATTATTTATTATTATTATTATACTTTAAGTTCTAGGGTGCATTGCACAACGTGCATGTTTGTTACATATGTATACATGTGCCA
TGTTGSTGTGCTGCACCCATTAACTTATCATTTACATTAGGTATATCTCCTAATGCTTCCCCTCCCCACTACCCCCACATCACAACAGGCCCCAGTGTGT
GATGTTCTCCTTCCTGTGTCCAATGTGTTTTCTGCATAAGTCCTTTTATGCAGTAGGGGTCACAGTCACCATTTTTAAGTATATGAAGCTTGAACTCTGG
TACTGTGGAAAATGACTATTTGGCTGTCAAAAAGAGAGAGGTGGAAAATGGAATTGGTTGGGCTGTGGATTAAGGTCAGGTTCTGCAGCAGAGTTACATT
GGCTGTGAGAGACGATGTCCTTCAGAAACATAAGSTAAGCCACCTGCATCCCACTTCGCTGTGCTTGGAGCATTCTGACCTGGAGCTATGGCAGAGGCAG
AATGGGAAGCAGCTTGCCTGAGCGAGGCTCACAGCTTCTGAGATTCAGGGGTACTTGAAGACAGGGCAGAAGTGGGCGCTGAGATGAGTCATTTTTTTTT
CTCAAAAGATAATACTCCTGACTACCCTGAAAGCATTTCTGCATCATTGCATCCATAGGTAATAGAAACACACTGGTCCCTGCACATACCTATCTTGTCT
TCCTTTTTCCCCATCTTCAGGGGCCAAAAAACCAATGTTGCAGACATAAGCATTAATAGAACAAATGTCCTCTATTGCCCATCTGTTTTATTGAGTTTCA
TAGTGGACCCCTTTACACGTGGCTGAGAAGCTGCTTCTTCGTCACATCTGCATAGCTCCTAGTCCCTGTTCCTCCTGACCAAACTCATTTATCCTATTAT
GAGAGCAATGCATATTCATTTTTTAAAATCTAGATAATAAAGTAGAGTACACAGAAAAATAAGAAAGTGACCCATAAACCTAACTTCCAGGTGTAACCTC
CTTTTACATTTTGGTACATGAGCTTTCAGTCCGTATTTATTTATTAAAATTCATTTTTATGGCTGCCCTATCCCTGTATTTCCTTCTTATTAAAGAAAAA
AAATCAAATCATACTGCACGTGCTGATTTGTAATTTTACAGTTTTATTTCATGATATATGTTGTTTATCTTTCCATATTTATGGGGCAAAAACCTAATTT
ATTACTTAGTGATTGCTAGGTAGTCCATATGTGTGTACCATTACTGCGCTAATTCCCCATTGAACAATATTTYGGTCACTAGTAATTTTTCAAAAACATA
AATACAACTATATTTTATATTTCTGAACATACACTTGTGTGTACTTTTTCTTTCTGTTGGGTACATTAATTAAAGTGAGCTATAAGTCTGAATAATAACA
CAGATATAAAAAGTACATATTGCAAAATCGCTACCCAGAAAGTTGTACCATTTCGTACTCCCCTTCAGGGCAAGAAAGTACCCATTGTCCCACACCTTTA
CCGAGTCTGGATCCAACAATATTTTCCACCTCTGAYGATCTGACTTCTAAAATAATTGCCAATCACGATTATTTTGAAGATCTGCCACTGCTACCCACTT
AGTAGTGGTTGATTGAGTGATAAACATTTTTCATCTTTATCTGTCATTATTTCTGTATGAAATTTCCTTTTGTTCTTTCCTTTTGTCTATTTCACTTTGG
GCATATTAATCCTTTATATATTCAATTCTATGATTTATTTATATGTTTTTGAAATTGTTCTTTGTCTTTTACAGACATATTAACTACTTGTTTCAGCTTT
GTCAGTCTTTTTTTTACAGTGTTTTGTTTCCAACCAAAATTTTCAATTTTTATGGAAATTTTCAATTTCCTTTTTTAGTAATTGTGCTTTGGGGTCTTGA
ATAAAAAGAGTTTAGTTCATATTATACAGTTTTATTTTGTACGTTTAAATCTTTAATCCAACTGGTACTTATTTTGATGTAAGAGGTAAGAAAAGGATTT
AACTTTATGTCTCTATCAAATGATTAGCTGGTTGCCCTAAAGACAGTTACTGATAATCCACACAGAGTAAACATGATGTACAGCTGGGCATTTCCCTCTG
CAAATCTGCAAATGACCAAGTTTATGTCTCTCAATCTGATCTCCAACATTCTCTATAATCTGGGCTCATCTGATCTAGCAAACCTTACTTCTTAGTCTTT
TTTATTTTTTAACATGCACCTCAGGGTCCCTATGCCCATCCCTACCCTTCTTTGCTCAGTCTTTTTTTCTTGACTTTCTCTTAGTTCTACCTCCAATGTC
TCCTAGAACATTTCCTCTAATCCCTATATATCCAATCCATCCACTGCTAATTACTCCAACACTCATTGATCCTCTTTCTCCAAATTCTTAGAGCATTCAT
GTCTTAGTTTACAAAATATTTGCACATTGTTTTTAGTGTTTGTTAATTTTTCTTTCTAATTAGCTTTCTATTTGCCAAATAGATTGCAAGCTTCTTGGGG
GAAAGGATTATATCTTATATAAATTGTTTTAGTGTTATCTTTGAAGGAAACTAACATAATACTAATGACAYATTCCACCAACTCACATAATTATAGAATA
GATAATAACTTTTGTTTATTAAGGAATCTCTATTATCAATATTAGATGGTGTTTTTCCTTTTTAGAATATTTTTGTCTGAATATATGTGTTTTTTTCAAA
CACAAAGTAAACAGAAAATAATAAGCGATATGTGAAATGCTTTCTTTCRTGGTTTTTCTTGACTGGATTCTTATAAAATTCTTCTTCCCACCTAGGGACT
TGTGTATGTGGTGAATGTACCTGTCACGATGTTGATCCGACTGGGGACTGGGGAGATATTCATGGGGACACCTGTGAATGTGATGAGAGGGACTGTAGAG
CTGTCTATGACCGATATTCTGATGACTTCTGTTCAGGTAAGGGCTCTTCCAATTCCTGTTTTTCTGGAGGGGGAGGTGGGGCTTGTTAATGGGTAAAAAA
AAAAAAAAAGCAATTAGAAAGAATAAATAAGACATACTGTTGGATAGCACAATAGGGTGACTATAGTCAATAACTTAATTGTACATTTTTAAATAATGTA
AAGAGTATAATTGGATTGTTTGTAACACAAAGGATAAATGCTTGGAGGGGATGGATACCCCATTCTCCATGATGTACTTATTTCACATTGCATGCCCGTA
TCAAAACATCCCATGTACCCCATAAACATATGCATCTACTATGTACCCACAAAAATTTAAAAAGTAATGAATAAAAAATAAAAATGCATATTTCCCTGTT
TTCAAGATTTCTGATTCTCACATACCCTGTAAAAGAAACTGAATGTGTATTCTAAAGCATCTTATATTTGCAGTGCTCCTACTGGTAACTTGGAAAACCT
CCAGAGAATTCCCAAAGTTGGCAAAGACTAGAGATGAGAGGGCACCCACTCTTTTAAAGTTAGTCTAATTCCTCACCCAGGAGAACCATTAGCTCTAGAT
AGCTACTCAGTTCAACTCTGAGACTACAAAACTAGCAGAGCTGTTGACAATGAACAGGATAGTTATCATTAGGGCACCTATATTAATGTATTACAAAACA
GGATAATACAGTGCTCAGGGTTATTTTGTGCATTAACTCTTTGATAGGCTTTAATGTTATTCTGCAATGTAGTCTGTAATTAAATATCAATTAGTAGATT
CAAAAATCTTTGACTGTAAATACTGTGGGGCAGATACTGTCTGTTAGGGACTGAGTGACATCTGGGCTACTGGTGTAGTAGGAGCCAGTAGGGGACAGGA
GACAGCCATGAACTTTGACTTCATGGAGTTTGCAATCTAAATGCAAATAAATAAAATATGTAAGTCCAGGATGTCTAATAGTGCAAAGAAAAAGAAAGCA
GTCAGAARTCTATCTGAAAAGGTATCATTTAGCAAAAATGGARTTATAGATTTTCAGTCCAGTTCTATTTGATAACCCATAAGGTAGACACATACACATA
TACATCTTGYTAAGCTTGACTGCCTCATTGGTGCATGCAGATGGATAGAAACTCCTCTGGTCTCCTGAAAGTTTGCCAGCAAAGGGAGATAAAAGAACTG
TCCCATTTAATTATGAGTGTGCAACTTCAAAGGCTTCTCCAGACTGACTGGGGAAAGCCTGCTGCTAAATCTTCCCATTGCAGAAGRGTTTCCCTCTTCT
GATAATCTCTTGTGCTCCAGAGGATTTCCTAAACATTTTGTGAACACTATTCTCTTGAGGGTATTTTTTTCTATTATTAATTATACATGCTCATGTTCTT
CATTATCATTGCTGTCAACACAGTGGTAATAAAAGAGCTCATGACTAGTGAGTGGCKTCTGTGTTCCAAAGAGATGATGAGAATAGTGGGGAAGAGGCCT
GTTGGAGATTTTAATTAGGATGATGTGGCTCTTCACAGTGGTGGTGATGTAGGGMTCATGAATTGCAGGAGGCTATTGGATCACAGTGCATGTGGGTTTT
ATCCTAAAAAAAATAGGCTTGCAGGTAAAGAAAGATGAGAGGGGCATTCCAAGCAGAAGGAACAGAGGGATAGAATCTGTGTATAGGACCAGACTCAGTT
TGAAATTACCAGAATGCAGAATTAAGGAAGCATGTGGTAAAAGGTAAAGTTGGTTGAGAAACAAGAACTGGGGGGCTTTTYACCTTCCTGCAGACCCAGG
TTTTATTCTAAAGGCAATGAGGAGCTAATGATGGTTTTAGGCAATAGAGTGCTGTCATCACCAGATTTCTAGTCTGAGTGTCTGGGAAAATGTTGGTGCC
ATTTACTGAAATAGGGAATATGGAAGGAAGCTGTCAAGTTTGTTTCTAGACATCTCCAGCATAGAGGGCAAAGGGTAAGCCAAAGTTTATATTTTTTCCC
AGCCTGTTGAATATGTGAGTCAGGGTCAGGGTTAAACCAAGAGAATTTCAAGTTGTAAGCATAGAGTTGGTGGTTAAAACTATGCTGGCATTCAGGAAAT
GCCATTTGACAATAYCATTTTCTTTTTTGAGATGGAGTCTCCCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCGAGCTCCACCT
CCCAGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGCAGCTGGGGCTACAGGTGCCCACCRCCACGCCCGGCTTATTTTTTTGTATTTTTAGTAGAGA
AGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCCGCCAGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCT
CCCCCGGCGGCAATGTCATTTTAAGATTGCTTTTGAGATAAACATGATTTGACACAATTTAAAATAAGAAAATAAGGGAGGCATATRAAAGGCAGTATTT
TAAAATTGTAAGTGTGTGACTTGCTGATATGGAGCCCCTTTTTCCTATGGGTATTCACTCTCTTGTGAAATCCATAATTCTGATGTTGATCCTGATTTTG
GACTGGGGTTGAAAAATTCAAACTAACTACATTATAGCGATAATTCAGGGTCCTGTGAGCCAGTCCATCTCACTGTGAGGGAGTGGGGTCATGGGGTAAA
GATGGGTGATCACTCCTGAACTGACACTTCAATCCTCGTGTAAGCTTGTGTGCAATTCCCGCAGCGTGTCATTTAGTCTTGGAGTGCTTACTCTAGGCTG
AGCAGGTGAAGTGTCATTAAGGAGGCTGCACTGGAATCTAATTTTCCACCTCACCTATTCCCCTCCAACCCCTCTTCCCTGTTTTCCTTTTTCTCACATT
TTCCTTTCTTTCATACCCTATGAGATTCCACACAGTGGGTATGGACAGGTAGGGGTAGGAAGAGGTGATGGCACAATTGGCTGTAGTTTGAACAAGAAAA
CATCAATCTATTATTGTGATTTTATGATTCGCTGGTTGAAGTGAATTGAACATGGCCAGCTTTCCACAGCTTGRCTCCCACACTTAGAATGAGGAATTGA
GGAAAGAGGAAGAAACTCATATTTACAGAGACTCTACTCTATTGGACCCTTGCTGAGTTCTTTTATAAACCTCATTCCATTTTATGTACACACTAACTCA
GAGAGGGAGGCATTATTGTCTATAGTTTAGCAGAAGAGAAAATACRTTCAGAGAAATTAAGTAACTTGATAAAGTTCACACTGCCATAAAAGTGTCATCT
GAAAACACATATAGCCTGACTACTCATGTAACTTAATCTCCAGGTGATGCAAATACAATTCTCCAGTTTTACTTTATTTTTCTGAGGAAGAACTGTCCTC
TGGGTACTCAGATTTTTTWAAAATAAAACTAAGCTTCTCTGAACATCATTACAATCTGGAGCAGACATCAACCTCTGCAGKATTTCATCATTCTTACAGA
ATCTGTAGAATTCTATATACTGTATGGTATTATGCTTATTAGTCTTTAAATTTTTCCTAATTAACAGTCTAAGTTGCAGTGTAAGAAGAGTGCCATATAG
TTGATTATTGAGTATATTAATACCTTTGTGTTATGAGACAGAAGTAACCCAATGACATCAATATTCTCTAGTCTTTCATGCAAGACTAGAACATAATAAG
GCTCTGATGAAATGAAGTTTTATTTTTAGCTCCTATTCTTGCCATCCTGAGAGTTTTGGTCTTATTTAAGTCCAAGGGAAGTCTCTGGACGGATTAGTTT
AAGTTAGCTCTTTTAATTGACATTCTCATTTTATTCATTCATTTCCATTCTCTCCATTTATCTGTTCAATAATGCATTTAAATGTAAATATTTTATGCCT
AACACATCATGAATATAGGGAACACAAATATGTTGAAACATGGTCCCTGCACCCACCAAATAAATCAATTTTATTTACTTCTTTTAATCCTGTCTGTTGT
TCATCATCCACAAAATATGTGTGTTTGTGTATGTTCATTTGCCCATACACCAACATGACTGTTATACTACACACATACACGCACCCCTCAAAGACAATAC
GGTTGACACAATTTGAGTGTGACTGAAATGATCAGGGCATGAATGGGCATCCTGACGTGTCCCGACTGTCCTGTTTGTTACACCCAATTTACTTTCTGAT
TCTAATATAACTGCTTTATTCCTAATGGCCGCTTACCACTCAGGTCTATTTACCCAAATCCCATAATTGGAAAAATACGCTGCAATGTGACCTTAAACTT
TATCGTTCAGCTTTCCCTGCCTAAGAAAATTATGAAAATATAGGGAAAGTTTTGGCTTAGAGTTACATTAGTTTGGAAAATGGAATATTTTGATAGAACC
ATATTATGTGGTGAAATTTGTCCCTGTGGATTGTCAAAGCATTAAGAAAGAAACTAAAGGAAATGATTAAGTATATCCAGACCACATTTTCTTGAAAGGA
AAAATTAATATATTGAATTTAAAAAAAATAGCAAGTACTACCTAGATCTAAGTTATTCCCCAAAGCTTTTCTCTATTGATGGTCTTCATGTTACTTTGTA
AACATGTTAACAGACGATTCAAATTCASRGGCATTTTTTGATCCTTTAAAAAGAAAGAAGTATCCTCTAAAGCAGAGAAGTGTTTGTCTGGAATAGATGC
AACTGCACTTGTGCTGAAACACCTGCACCTGTTTCTGGAGTTTGGATAGCATAACTCCAAAGAACACAATAGTTACAAATAAACAAGAAAAAGTTTAGTT
AACACCCTTTCCTATAATGGCCTGAGAACCTTAATAAYTCCTGCCTTCCCAGCATGGCCTTTGGACCACTCAATGGCTGCTCTTGCTGCAAATCTTCCTT
TTCRTATGGGTATTTTGGGCTGCAGTCATTTTTATGGTAGGTAGATTATACCAACACCAAGCACTGTATTCTTCCATTGTGTGTGTGTGTGTGTGYRTGT
GTGTGTACATACAGRGAGATCTTTAGAGAGCATTTCTCTTATTTGAATTCTTCTGATGTTCGATATCAAGACAAACAGCACCATGCCGAATCTTTCATCT
CTATTTCRTTGATCTTCTGCCTACACAGTTTAAAGGAATACTGGTTAGAAGTAATGAAACTAAAACCTGCAGGCTTAACATACACATAAATTTGACAAAC
CAGCATGGAAGCATTGCATTTCAGATCCATGTGGCAAAYTGATCTTTTTTTAGTTCTGTCATTTGAAAGATAAAGCAATTTGAGATAAGGCCCAGAAAAG
ATAGTGGCACATCAGATGAAGGACACAAGTCTCCTGATTTCTTCTTTTATGACCTTTTCACTATTTGTCTATTAAAAAAAAAAAAAACCTGATGTAATGT
TATGGCAGTCTAAAGGGTTTTCATGCTAAATAGATACCATTATCTCTAAACTCTTCTATATAGCAAAACCCAACATTTTCATCTTCTTGACTTTATCTCT
ACCAAATGATTCCTTCTTTGGCATAACTTTTAAAATTGGAATTGAGAAACTGGTAAATTCACAAGAAAAGTTGCAATTTTGTTTTATAATTTTCTGTCTT
ATCYGAAAAGCCCAATACCTGCCTGRGAATCTGGTACCAACACCTGAYATTTCTAAGTGATTTTTAAACTCTACCAGTTAAATATCACAAAGGATTTTGT
AGGACATGTACAGTTTCACTTAAAGTGGTATCTCTAATATTCTAAAATATATTTTGACAGCACATGACTAACTTCTTGAAATATGTAGTATATAATTTTT
ATTACTGAAAAAGCAAAAGTTATGTTTCTGTTTCAACTCTGTCAATTAATCTGTAATAAACATTTAAATTAGGCAATACCATTGTCGATACTATTTTTAT
TATGGTAGGCTAGAATTATAGAAAGTTTATCCATGCACTTTTATGCTTGCTTCTTCTATGATATACAGTAAGATATCTTGTTTAGAAAATTCTACTTTCC
CCAAACAATAAAACCAGTTCTACTCTCCCCAGACAATAAAACCATCAAACACTTTCTGTGCCACTATTTTGTCACTTAAACTGGTGACCATACATTCGCT
GACTTTCAGGAACTTCATTCTTTATGGATGGCTTATGTATGTCACTCATATTTAAATACCTCTTCTTTCCTTAGCTTGAACTTGTTCAATTAATATCAAA
TCCTGGTGGTAAAGCATAGAAGACATATCAGTGGATGATTTGAGGAGGAACATTGGCCATCTTGAACTAAACAATGTTCTCCCACTTTGATACTTTCCTG
TTTAGGGCTAAGGTCTTTTATCCTTCAGCCAATCACAGCAATGATACAATCTCTTAAATTCATCCCAATGTGCAAGCAATTGGCTGCAGGTGTGTTATTG
AGAAGATTATTGAGGAGTCATCACACACATGCCAAAGTWAGGACACATATATATTCTTCCCAGCTTTGCTTATAGTTGGCAATGCCTGGAGGTGAAGCAC
GCATTTAGAAGCATGATCCTGGAGAATGTTCATGATGTTGCATTAAGTACACAGGAAAAGAGGTGTGGGAGCTTATAGGCTGTATTTTCCCCCTCATGTT
TGTAGAAGAGCATCAGAAATAGCAATGGGATATAAAAATAAAGCTGCAATAATAGAATTATGTTAGGGGAAAAAGGTTGAGAGAATTAAAAACTGAGAAA
AATAAAATGATAAGAAAACAGAACGTGCCTATGGGAGAATAAAGGTGAAAGACCGCCAAAGATTTCTTCCTGCAGGTCTAGAGCATCTGAACTTAAAAAA
CGAAAAATTATTAAGGCTTCCACAGCTAATCTGGCTTTTGTTACTAATTGGATAGGATTCCAACTTTAAAAATCTCTTTTGAATAACTTCTGCCTTTAGG
ATTTGTTTTATTCTGCCACATGTTTTTAAAGATGTCAACATGTGAATGGATTTCAGATAGGAAAAAATGGTTGCTTTTAAACATGGATTCCGACTATGCA
ACTTAAGAACGTTCTCCCTTCAGTCGTGTGTCTCCCTTTGTACCTGCCTTTATCCCCAAGGTTTCTATTTTATTTTCCCTCCCCAGGGAGGGAATCCTCC
TGTGGGGCACGTCACTGCTTGTGAATTCAGGTGGGCCTTAGTGGCAGATGACATTCTCTTGGGCAGTTAGGGACTTCCTGGGTCCCGCATCGGCTAGATG
TATTGTTSTAACCTTCACAGCCATTAAACTTTCAAGAGTGGAGAAACTTTTTCTCCCTCTTCAATCTGGTTTTCAATGTTATTGTTAAAGTGTCAACAAG
CAATGTTATTGTTCCAGTGTCAACAAGTCTCTCGCAAATGTCAGCATGTTCTGTACTTTGCCCAGTTTCCTCACAACARATCTGTCGCTGAAATAAAACC
ACTTGTCTCCAAGAATTTCAAAGCCATTGGCTCCTGTGAAACAACAGAATTGACTGTACTTTAAATGTGAAATATTTATGTGTTAAAATCATTATTTATA
TAGGCATTTCCAATGTAGATCTGTTTGCAATGTTTGTCCTTAACCTTACATGAGGGCTGGAAATAAAGAAAGATAGGAACTTCTTTGTTTTGTTTTTTTT
GAGTTGGAATTTCCCTGTGTCACACAGGCTGGCGTGCAGTGGCACAGTCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTAG
CCTCCCAAGTAGCTGAAACTACAGGCATTTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCT
TGAACTCCTGAACTCAGGTTATCTACCTGCYTTGGCCTTCCAAAGTGCTGGGATTATGGGCGTGAGTCACCACGTCCGATGGGAACTTCTTAAACTGAGA
TGAATGAATGGCAAAAGCCATAGAACCCAACAACCTATGAAATATAATTGTTAATAAGCATAAACCGTTACAAAAATTCCCATACTGTAAAGTCTAATCA
TATTCATATGTCATGTATGTTTATTAATAATAACAATTTTCTTTTCCTTTCAACTGAGGTCTAGAACAGATAATTATGGCAACAATTTGTCAAATAGACT
CTGTTACATAGCAGATGATCAACAAATGAGCATCTGAATTGAATTGAATTTGGGATTAAATGAGAGATTTAAATTCAGTGATCCCTAATGTCTCATTCCA
CTTTGATTTATGATTTTGTGATTTTTTTTTTACTAAAAATTAGTTAAATGGTGAAAAGCTTCTACATATGTGTATTGTCCAGTTTCTTCAAATTCAGAAG
ATGGAACCGCAAACCTCAAGGAATATTAGTAAAATGGTCTAGTCTTTACTGGAGGCCAATTTTCATATTGGATGATATACATTAATATCAGATGCTAAAG
ACAGCATGCATTTTCATCCATTAGCATTTCTATGTACTTTTAAAAAGTGTAATTCCACTTTTAAAATTCTTCATGCATTTTTGCAGCAATTATAGAAATC
TACTTTGTTCTRTATCTGCGGTGATGAGTAGCTTCATGTTTATTAGGAATTATGGAAAGCTCAGTTGAAACTRTGCTTTCCTCTACTTGCTTATAATGTG
GGAACTGATGAATACAAAAACCAGTAGCTCCTTTTTATGTAGCTTTTAAACTATTTAATGTACTTCCGAAGAAATGTGGATTGATAATATATTTTCTTCC
TTTTTAAAATGAAGAAACTGAAACTCAGATGTGGTCATTTGACCAGCCCCACTCTGTAGGAAGCAGAATCAGGATTTGAACCCATTATTTTATTGATAAT
GTAGGTCGATTTTTGCTAAACCACACCGTTTCTCACAATTCTTTGCAAACTGTATATTCATGTGTTGAAAAATTTAATATCTTTTCTGACTTCTTTGGAA
TACACTAGGCTAATCTTCAAGGATTGTAAACTCCATGTAGGTTACTGGTTTTACTCTAAGGGTCTCCAGGCTAAACATGTAGTATTTGCTTAAAAAGTGC
ATGAAAATAAAGTGTGGAGACTCCATAAGATAACATTCTGCTTCGGTGAAGTAACCAAAACAGAAATTAAGAAAACAATTTTATCTGCGGTCGTGTCAAA
AATAATATACTTAGGAATAAAATTAACCAAGGATGTGAAAGATTATTGCACCAAAAACTGTAAAACATTGATGAGAGAAATTGAAGACACAAATAAATGG
AAAGATATCTCATGATCATGGATCAGAAAAATGAATATTGTCAAAATATTCACACTACCTAAGGTGATCTACAGATTCGTTGCAATTCCTATCAAAAGTC
CCATGACTGACACCCAACTGATTTTCAACAAAAGTGCTAAGAACACACATTGGAAAAAAGATAATATTTTCAATAAATGGTGCTGGAGAAATTGGATATC
CATATGCAGAAGAATGAGATTAAATCACTACTTCTCATGATATACAAAAATCAACTGAAAATGCATTAAAGTCTTAAATGTAAAACCCAAAGCTACAAAA
TTACTAGAAGAAAACATAGGATAGTACTTTACTGTGGGCAAGAATTTTTAAAATAAGACCTCAAAAGCAAAGCAACAAAAACAAATAGATAAATGGAAGG
ACATCAAACTGACAAGCTTTTGATCAACAAAGGAAGCAACTAAAAGAATGACAAATAGACCTACATAATGGGAGAAAATAGTTGCAAACTATATATCTGA
CAAAGGATTAATATTAAGAATACATAGGGAACTTAACAGCAAGAAAACAACCCAAGTAAAAATAGGCAAAATACATTAATAAATATTGCTCAAAAGAAGA
CATTCAGATGTCCAACAGGTATATGAAGATATGATCAAGATCACTAATTGTCAGGGAAATGCAAATCAACTCCACAGTGAGATACCTCTTCACTCCAGTT
AGAATCGGTTTTATTATAGAATTATAATAAAAAAAGACAAAAGAAAACAAATGTTGGCAAGGGAGGTAGAGAAGAGAACACTGACACACTGTGGGTGAAA
ATGTAAATTAGTATAGTCACTATGGAAAACTGTATGGAGGTTCCTCCAAAAATTAAAAATAGAGCTGTGATATGCATATAATTCAGTAATTTCACTACTA
GATATATATCCAAAAGAAGTGAAATCAATATGTCAAAGATATATCTGTACCCCTTTATTGCAGCACTATTTACAGTAGTCAAGATATGGAATCAACCCAA
GTGGCCATTAACAGATGAATGGATAAAAAATTGTGGTATATATACACAATGGATAATTCTGCCATAAAAAGAAAGAAATCCTGTCATTTGCAACAATATG
AATGGAACTGGAGGTCATCATGTTAGGTTAAATAAGGCACAGAAAGACCTTATTTCAAAACCTAAAAAATTGGAATCTAAAAATAAAATTGAAATCATAG
AAGCAGAGAGTTTAAAATGTGGTTACCAGAGACGGGAGGAGGAAGATGGGAGGATAGGGAAAGGTTGGTCTGTGGTCCAAGTTACAATCAGATAGCAGGA
ATAAGTTCAACTTCTATTATACAGTAGGTTGAGGACAGTTAACAGTAAGATATGGCATATTATAATTAGAAAATAATTAGATAAGCTTTTGAATGCCCTT
ACCACAAATGATAAATGCATAAGGTGATCATCATGTGAAATACCCTAATTTGATCATAATGCAACCTATATATGTATCAAAACATCTGATTCTACCCCAT
AAATATGTACATATAATAATTTTTAACCTCTCCTAGCATTTTTAATAGTAATAACAAAAAAATCTTAAAATTCACATGGAACCACAATATACCCCAAATA
ACTAAAGCAATCTTCAGCAAGAACAAAGCTGAAGGCACCATAGCTCTTGATTTCAAATTATATTACAAAACTATAGTAATTAAAACAGTATGGTACTAAC
ACAAAAACAGACACATAGACCAGTGGAACAGAATAGACAGCATAGAAATAAACCCATACATTTATAGCCAATTGACTTTAAACAAAGATGACAAGAACAC
ACAATAGGGAAAAGACAGTTTATTCGATAAATGGTGTTGGGACAACTGGATGTCCACATGCAGAAGAAAGAAATTAGAGTCTTATCTCATACTGTATATA
AAAATCAACTCAAAATGAATTAAAGACTTATATGTAAAACCTGAAATTTTAAAACTACTCGAAGAAAYGTAGGAGAAAAGCTCCATGCCATTGGTCTTAG
CAATGATTTTTTTTTGGATATAACACCAGAACACAGACAACAAAAACAAAAATAAATGAGTGGGACTGCATTGAACTAAAACGTTTCTACAGCAGCAAAG
GAAACAACAGAAATGAAAAGGCAACTTCTGGAATGAGAGAAAATATTTGCAAACCATATATCCAATAAGGGGTTAATRTTCAAAATATAYGAGTTCTAGT
CCATTTTTGCATTGCTACAAAGAAATACCTGAGGCTGGGTAATTTATAAAGAAAATAAATTTATTTTGGGCCAGGCACATGGTGGCTCATGCCTGTAATC
CCAGCACTTTGGGAGGCCGAGGTGGGCAAATCAGTTGAGGAAAGGAGTTGTAGACAAGTTTGACCAACATGGTAAAACCCCGTCTCTACTAAAAATACAA
AAATTAGCCGGGCGTGTTGACGCACACCTGTAGTCCCAACTACTGGGGAGGGTAAGACATGAGAATCACTTGAACCTGGGAGTTGGAGATTGCAGTGAAC
CGAGATTGTGCCACTGCACTCCAGCCTGGGCAATAGAGTGAGACTGTGTCTCAAAAAAGTAAATAAATAACTAAAACCAAAAAACCAAAAACAGGTCTAT
TTTGACTCACATTTCTGCAGTCTGTACAGGAAGCATGCCACCAGCTTCTGTTCCTGGTGAGGTCTCAGGAAGCTTCTGATCATGGCTGAAAGTGGAGGCA
GAGCTAGTGCATCACATGGCGAGAGAGAGGAAGACAGAGGGAACAAAAGAGGTTGGGAGGAGGCGCCACACTCTTTTAAACAATCAGATCTTACGTGAAC
TACCAGAGCAGGAACTCCCTCATCAGCAAAAGGACAGCATTAAGCCATTCATTAGGGATCTGCCCCCATAGTCAAAACACCTCCCACCAGGCCCCATCTC
TAGTTTTGGGGATTGCATTTCCACGTGAGATTTGGAGAGGACAAACGTTGAAACTATATCTAACTCRTACAACTCAATAGCAAAAAAAATCAAACAACCA
GATTAAAAAAATGGGCAAATGACCTGAATAGACATTTTTCCAAAGAAGATATGCAAATGGCCAGTGGGTATATGAAAAAAGTGCTTAACATCACTAATAR
GGAAATGCAAATCAAAACCACAATGAAATATGACCTCACAACTGTTAGGATGGCTGTTATCAAAAAGTCAAAAGATAGATGTTGGCAGGGTTGTGGAGAA
AAGGAAAACTTCCATGTTGTTGGTGAGGATGTAAATTGATACAGCCATTATGGACGATACTATGGAGTTTCCTTAAAAAATCAAAAAGAGAATTATATGA
TCTAGGAATTTCTGGATTTATGTACAAAGGAAATTAAATCACTATCTTGAAGAGCTGTCTGCACTCCCATGGTCACTGCAGCATTACTCCTAATAACCAA
GATATGAAAACAACACAAGTGTCTGTTGTAAGATGAATGGGTAAAGAAAATGTGAGATATATATCTATATATGTAACATGATGTTTTGATATGCATATGC
ATAATATGCATATATTTACATATGTGTGTGTGTGTATATATATATCTATATATACACAAATACCCAGTGGAATAGTATTCGTCCTTTAAGAAGGAAATCC
TTTCATTTGCCACAACATGGATGAACCTGGAGGACATTCTGCTAAGTAAAATAAGCCAGACRTAGACAAAAAAACACTGCACGATCTCACTCATATGTGG
AATCTAAAAACGTTGAACTCTTAGAAAYAGAGTAGAAGGGTGGTTACCCAGGGCCAAGGGGTAGGAGAAATGGGGAGACTTTGCATACAAACTTTCAAAG
TTATAAGATGAATACGTTCTGGAGATCTAATGTACAGCATGGTTACTATAGTTTGTAATACTGTCTACTTGCATTGTATGAGGAGAGTACATCTTAGATA
TTCCCACTGCACATAGACACACACACAAAGTTAACTGTGTGAGGTGATGGATATGTTTATTATCTTGGTTGTGGTAATCATTTCACAATGCATATGCATA
TCTAAACATCATGTTACATACTTTAAGAATCTACAATTTTTTGGTCACTTATACCTCAATAAATCTTGGGGAAGAAAAGAGCGACCTCTTCTGAATTCTA
GATTTCATGCTTTTTGTCAGTTCATGGCCCCCAGTTTGACCGTGGTTGTGAGACCTTAATAAATAGCGATCCATTAAATGGTTAATTTAAAAAAATCCTG
CTCTGAATAATATTCCATTCTTTGGATATACCACAGTTTATTTATCCATAGAGGAATCTTAGATGCATATTACCAACTGAAAAAAAAACTGAAAGGACTA
CATATACTGTATGACTCCAACTATATAACATTAAGGAAAAGGCAAAATTATGGAGGACAGTGAAAAGATCAGGTTGTCAGGGATTGGGGAAAGGTGTGGG
AGAGGGACGGATGACTAGGCAGATCACAGAGGGTTTTCAGGGCAGTGAAATTACTGTGTATGAGTAGTGAATTCATGTCACTATATGTTTACTCACACTC
ATACAATGTACACTAAGAGTRGACCCTAATGTCAACTATTCACTTTGGGTAATAGTGATGTGTCAATGTACGCTCATCAGTTACAGCAAGTGTACTTCTC
TGGTGGGAATTGTTGATAATGGAGAAGGCTATGCACGTGAGGGAGAAGGAGGTATATGGAATATCTCCGCRTCTCTCTCAGTTTTGCTGTGCACCTAAAA
CTGCTCTAAAAAGAAAACAGTCTTAAAAGAATATGTACTCTCTCTGATATTKTTTGTTAGCGTGCTCTATAAATGTTAATTATGTCTACTGGGCTGTTAA
TGTCAACTTTTCTATATCCATACTGATTTTAATTTCACTAATTGCATTAATTACTGAGAAAGGAGCGTTTATATATTAAAAAGTAGTCTAAAAAGCAAAA
AAAAAAAAAAAAAAAATCCTGCTTCAAAAATACAGTTAGTCCTTCCCTGTGACTCCCCTCCATGCAAATTAATTGCCAAATCCACCAAATACTCCTTTCC
GTTTTTTCTTTTTTTGTTGTTTTTTTTGTTTTTTTGTTTTTTTTGAGACGGAGTCTCCCTCTGTCGCTCAGGCTGGAGTGCAGTGGCATGAACCTGGCTT
GCTGCAATGTCTGCCCCCCTGGGTTCAAGTGACTCTCCTGCCTCAGCCCCCTAAGTAGCTGGGATTACAGGTGCACGCCACCATGCCTGGCTAATTTTCA
TATTTTTAGTAGAGACCGGGGTTTCACCATGTTCGTCAGGCTGGTCTCAAACTCCTGACCTCGTGATCTTCCCTCCTCGCCCTCCCAAAGTGCTGGGATT
ATAGACATGAGCCACAGCGCCCGGCCCAAATACTCCTTTAAGGCCCCAGCAAACCAATACAATCACATGCACCTGGAATTTGACAGCTTGAAGTTTATAG
CCTTACTAAACTGTTTATCTTATCTGTTGCTTTTCTCTACCCCTCAAGATCAATTCATATAAGTCAGTTATTTAAGAATTTGAGAAAAATGTGCGTTTGC
CTTAATATGTTATATTATGTTCATCAAGATCCTGACTCATTTGTGACATTTGCTGTTAGAATGAAAACTAATTCCAACTTCATTATCTTTATGTRCATTT
TTATTTTTTGCCACTCTCACTGTGAAGGTCATGGACAGTGTAATTGCGGAAGATGTGACTGCAAAGCAGGCTGGTATGGGAAGAAGTGTGAGCACCCACA
GTCCTGCACGCTGTCAGCTGAGGAGAGCATCAGGAAGTGCCAGGGAAGCTCGGATCTGCCTTGCTCTGGGAGGGGTAAGTGAGGTCTCTCAGGGCTTCCC
ACGGCCTCTCCATCACAATTCAAATGAATTCAATGCACACACATCTTTTTGTTTGTTTGTTTGTTTTTTGTTTTCTGCTTTTTGGTTTTTTTGTTTTTTA
TTTTTTTATTTTATTTTTTATTATTATAYTTTAAGTTTTAGTGTACATGTGCGCAATGTGCAGGTTTGTTACATATGTATACATGTGCCATGATGATGTG
CTGCATGCATTAACTGGTCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCCCGCTGCCCCCACCACACAACAGTCCCCAGTGTGTGATGTTCCC
CTTCCTGTGACCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCCGTGTTTGGTTTTTTGTCCTTGCRATAGTTTGCTGAGAATGATG
GTTTCCAGTTTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCACAGTATTCCATGCTGTATATGTGCCATATTTCCTTAATCC
AGTCTATCATTGTTGGACATTTGAGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGA
TTTATAATCCCCTGGGTATATGCCCAGTAATGGGATGGCTGAGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATTGTCACACCGACTTCCACAAA
GGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCATATCATCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCA
TTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTGTTCATGTGTCTTTTGGCTGCATA
AATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATT
CTGGATATTAGCCCTTTCTCAGATGAGTAGGTTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGA
AGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGACTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTG
AATGGTATTGCCTAGGTTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTGACATGTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAG
GAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTTCTTCTTTTTGTCAGGT
TTGTCAAAGATCAAATAGTTGTAGATATGCGGCATTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTG
TTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTTGCGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCAATGTGGGCTCT
TTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGATTGATGGCGATGGCATTGAATCTGTAAAGTACCTTG
GGCAGTATGGCCATTTTCACRATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTTCATTTGTTTGTATGCTCTTTTATTTCCTTGAGCAGTGGTT
TGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTGCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGAT
TTGGCTCTCTGTTTGTCTGTTGTTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCCTATCAGCTTA
AGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATGCCGT
TTATTCCCTTCTCCTGCCTGATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAA
AGGGAATGCTTCCAGTTTTTGTCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAGATACATCCCATCAATACCTAAT
TTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATGTATTGAGATAATCATGTGATTTTTGTCTTTGGTTCTGTTTA
TATGCTGGATTACAGTTATTGATTTGCATATGTTGTACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATAGTGGATAAGCTTTTTGATGTGTTG
CTGGTTTCGGTTTGCCAGTATTTGATTGAGGATTTTTGCATTGATGTTCATCAGGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTCTCTGCCAGGC
TTTGGTATCAGGATGATGCTGACCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCT
CCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTAGTCGTGGACTGTGTTTGGTTGGTAAGCTATTATTGCCTCAATTTCAGAGCCTGTTATTGGT
CTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGAGTGTATGTGTTGAGGAAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCGTAG
AGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATTGGTGGTGATATCCCCTTTGTCATTTTTTATTGAGTCTATTTGATTCTTCTCTC
TTTTCTTCTTTATTAGTCTTGCTAGYGGTCTATCAATTTTGTTGAACTTTTCAAAAAACCAGCTCCTGGATTCATTGATTTTTTGAAGGGTTTTTTGTGT
CTCTATTTCCTTCAGTTCTGCTCTGATCTTAGTTATTTCCTGCTTTCTGCTAGCTTTTGAGTGTGTTTGCTCTTGCTTCTCTAGTTCTTTTAATTGTGAT
GTTAGGTTGTCAATTTTAGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGTGTCCCAGAGATTCT
GGTATGTTGTGTCTTTGTTCTCATTGGTTTCAAAGAACATCTTTATTTCTTCCTTCATTTCGTTATGTACCCAGTATTCATTCAGGAGCAGGTTGTTCTG
TTTCCATGTAGTTGAGTGGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGMGAGACAGTTTGATATAATTTCTGTTCTT
TTACATTTGCTGAGGAGTGCTTTACTTCCAAGTATGTGGTCAATTTTGGAATAGGTGTGGTCTGGAATGCACACACATCTTAATTTAAAAAACAGCTGAG
ATCCCTGAATGAGGGGCTATTAGTCTTTTTAGAACTAATAATAAATCCAATTTCCATGAATGAAAGTACATGGAGAAATATGATTCTCTTTCTCTCTTTA
TATATATCTTTTGCACACAGACACTCTCACTCACTGTCAGSYTACTTTAGCCTTAAGGTATGTTCAATTTCAGTTCAGTTCAGTTCAATGTTACATTAAA
AAACACAGTTTAGACGTTTGCTTAAAGTTTTCTGAATGAGACCATCTAATTGTCCACTGACATTTATGAAACCCAGTAACATTATTTTGAGGACAGTGTT
GGCTTTTGAAAATTCATTGTATAAACAAATAGCTATGAATAAGCTTTTGTCATTTGAGAAGGAAGGCATGTAGCCTCAGGTGTGTTCTTGGTATCAGATC
AGTACAAATTGGAGAAGGACAAATTCATCTAGAAGAACACGTGTTCCATTCCTCTTGATTTATCAAAATAAGAAATGCAATTTCACTTCCCACATGAGAA
TAACAAAGTTAATATGAAATATGCTTTTGAAGAAGTCGTAATTGACATTATTACCAATTTTGTTCAAGAAAGGAAACAAAGACTTTCTTCACTTGAACAT
TAGATCAGAAATTTAATTTTATGTTGCGTTTTTCTTTTTTAAAAAATATATGTTAATAGAGATATAATTCACATACCACAAAATTCACATACCACTCAGT
ATTTTGATATRTTAACATAATTATGCAGCCATCACCACTGTCCARTTCCAAAAAAAAAGTTTATCATCATAAAATACCCTGTTACCCTATAGCAGCCACT
CCCCATTCTCTTGTCCCAGAACCCCTGGAAACCACCAATCTACTTTGTCTCTATGGACTTGTCTATTCTGAGTATTCCATACAAATGGAATCATAAAATA
TGTGATCTTCTCGCATCTGGCTTTTTTCACTTAGCATAAGTGTTTGCAAGGKTTATCAAAGTTGTAGCATATGTCAGTCCTTCATTGCTTTTTATGGCTG
AATAATATCCTGTTGTATGGATACACCACCGTTATTTAACCCTTCATCAGTTAATGGGCATTTGGACATAGGATTTCTACTTTTTGGTCGTTATGAATAA
TGCTGCTACAAACATTCCTGTGCGACTTTTTGGGTGGACATGTCTTTTAATTTCTTTGGGGTCTGTATCTGTGAGTGGAATTGCTGGGTCATAGAGTGAC
TCTGTTTTACCTTTTGAGGTAGCACAGGACCGTCTTCAAAATGACARTACCATTTTACATTCCACCAGCAGCGTGTGGAGTTTCCAGTTTGTCCACATCC
TTGCCATTTCTTGGTATTGTCTGTCTTTTTGATTCTTTAGAGTATTCTTTATAAAGAAAACTCCAKAAAGTGTCTCARGTTGTTTGCAGCACAGATATTT
TCTCATATCCATTATTTTCCCCTAAGGGTTGTAAGTAGAAGAGTGGAGGAGTAGGATATGGGTATAATAATCTTTTTAATGTCAAAAGTATTTTTGACTA
GCCCTGTATTTCACCAGTAACCCCAGACAGGAACCATTGTTCTATCTGCATTGGAATATTGTCATTATAGTGCTGCATAAGCCATCATGCTTTTAAAGTA
ACAAAGATTRAAATTCATATCCCTCAGACTGCTTAGTTACCAACACTTGTAATCTACAGCAAAAAATAATTTTACATTATTATTTTACATTTACACAAAG
CTTTATCTGTTGGGCCCAGACATGTAAAAAAAATGACCATAGGAAGGCTAACCACTGTCTCTTTTTTAAAAAAAAATGTGTGTGTATTTTCAAAAATGTA
TTATAATCCTAGGGACAATTCCATTTCAAATTAAAAACCTTGGGAAGTAAAGAAAATGACTTCATCTCAAAAATAGATTTTTGATCTTGAGGATACTTTT
TCAGTTACATTTAAGTTAGAGAACTTTAGGTACAGTGATTTTTACTGTTATCTTAAAGTGGTAAACAAAGCAAAGGGTGATCTGATATCTTAAAACATTA
TTTAAAGGGTTTACATTTGGTAAAATTATTTAAACTCCAAATGGTTATGTTGCTAGTAGAAGTAAACAGAACAGAAACCAATAGGGATATGCACTTATAT
TTTAAAACAAAGAAATGAACAAAATGTATACTTTTAACAAATGCTTTTATATTTTGAAGTTAAAAATGTCAAACCATATAATAGAAAGATAAGAAAAGCA
TACAAAATAGCTCTCAAACAGAGAAAATCACTGTAAGTATATACTTATAGCAATGGTTTTTCATTTGTCTCTAAATTTTTTAATATGTAGAACAAGTAAA
ATGAAATTATTGGGGACTTAATATATTGATCTTTTATAAACTCCACTAGGTTTTTCCTCAAACATGCATRTTTCCTGTCTTTCTGGAGATTCACTAACTT
ATTTAGCTACCATTTTTTAAGCAATAGAGTATGTTTAAACTTTATTTTATTAAAAAGGTGTTGAGTAAATGTATAGAATTATGATTTTTAAAATTGTTTA
TAATTCATTTCAGCCTCTTGAAGTACTTTAAAACTAAATAAGCTTCATCAGTTTCCTTACATGAGCAAARTAATTTTGCAGGGAATCATGACAGTATGTA
AGATTTTTGAAAACGAAAACCAAGAATTTATGACAGCCAGTTGAGTGCCTTTGGTCAAGGTCACGGACCCTTTCTTTCTCATAGTGCTACATCTGCAAAC
ACATTGGTACTGGATGTTTTGAAGCAAATGACCAGTATGAAAACTTGTAAAGAGTTCGTTTTGCAATTTATGAATGAAAACTGCAGCTGTGGTTACATGA
GTTAGGAAAGCAATTATAAGACCCATCAGTTTCTCAATCCTGACAGCCGCCATCACCTCACCAGCTGGAAAAAAAAATCCTAGAAGAATATACTGAAGTT
TGTCAGGGACCAGGTGAAGGCAATATATATATATATATATATATATATATATATATATATATATACACACACACACACATATATATGTGCATATATGTGT
GTATATATACGCATGTATATATGTGTACATGTGTATATGTATATATACATATATGCGTACATGTGTATATGTATATATACATATATGCGTATATGTGTAT
ATGTATATATACATATACGCATATATGTGTATATGTGTATATGTGTATATACATATATGCGTATATGTGTATATGTGTATATATGTATATGTGTAAATAT
ACATGTGTATATGTGTATATATACATATGTGTGTGTATATGCGTATATATGCACATATAGACATAGGCATGTGTGTATATGCGTATATATACACATATAG
ACATAGGCATGTGTGTATATGCGTATATATACACATATAGACATAGGCATGTGTGTATATGCGTATATATACACATATATAGGCATGTATATATGCATAT
GCGTATATATATATACACATATCTAGACATGTATGTGTGCATATGCGTATATATACACATATATGGGCATGTATGTGTGTATATGCGTATATATACACAT
ATATAGACATGTATATGCGTATATATACACATATATAGACATATGTATATGCGTATATATACACATATATAGACATGTATATGCGATATATACACACATA
GACATATGTATATGCGTATATATACACGTATTTAGACATATGTATATGCGTATATATACACGTATTTAGACACGTACGTGTGTATATGCGTATATATATA
CACGTATGTAGACATGTATGTGTGTATGCGTATGCACGTATGTAGACATGTATGTGTTTATGCGTATACACGTATGTAGACTTATGTATGTGCGTATATG
CGTGTACACGTATGTAGACATATGTATGTGCGTATATGTGTGTACACGTGTGTAGGCATATGTATGTGCGTATATGTGTGTACTCGTGTGTAGACATGTA
TGTGCATATGTGTATATATACGCATATACATATGTATGTGTGTATATGTGTATATATACACATATATAGACATGTATGCGTGCATGTGTATATATACACA
TATATAGACATATGTATGCGTGTATGTGTATATATACACATAYACACATATATATGCATATATGTGTATATATATGTGTATATATACACATATATATGTA
TATATGTTATATAGCATATATATGATATAAGGCTATCCTTGTATATATATGTGATATATATATATGCTATATATATATATRYKCTCTCTCTCTCTCTMTA
TATATATATAGCCTTCACGTGGTCCCTGATATACTTCAGTATATTCTATTAGGATTTTTATATATATATATATATATAGCCTTATATCATATATATATGA
TATATGTATCAGAAATTAAGTTAAATTTCTAATTTCTTATTTCTGCTGGTGGTGACTAAGTGTGATCATTATGTCTTGAAGGTAGAATAACTTAGATGAT
GTCTTACATTCTGTATCCTGTGATTCCTTGATTTCTATACCATATTGGCTGTAGATATATTTTCATGTAACTAGATGTAGCTCATATAGCCATTATAGRT
ATAAAGACATTCGTCCTAATTTCGGTTCCTGGGAGTAAAGGTGGGAAAACACTTTCTCTAGTCTCCTAGTGTTGTGCTCAAAAACTATAATGGCTTATGG
TAGGCTAAACGTTAGTTTTACATTCTTCCTGATTAAAGAATACATCATTATTATTATCGATGTTCTCCTGAGCATCAGTTTGACTTTGGTTTAAAAAAAA
TGTGAGTAAAGTTAATTTGCATCACATCTGAGCAGAAGCTATAAGAAGCAGTGAAAAATCTGCCATTGTCTCAGGCAGGAGGATTTGCAGTGCTGGAGAT
CGTCTCTGACCCATTAGCTTGGCTCTCTGAATGAGGATGGGCAGGAGAAACCTCTATTAATCCACCAAGGTTCTATGATGTGAATGAGAAAGAAACACCT
GTTGTTTTAAACAAGTGAGATTTTGGAGGGAGGTGTTCTTGCAGGAGAATCCCTGACTGATAATCGGTTCCCCATATAAAATGTAGGGAATGTGGTTAAG
CCAAGATAAACAAACACAGCAAAAATCATGTTTACATAATTTATATTTTGTATTATATACATAATTTATAAATGCCATAATTTATATTCTTGTAGCAGGA
TTCATGTACAAATCTCTTAGTATTGATTCTTGGATATGGAATACATAGGTCTAAAAAAACCATGCATATATTTTATAAATGATGTGTTTATGCTCTTCTG
TCAACAGCATTTATGTGCACTTTGTCAACAGGTAAAATGATAAGAACATTGAATACATTTTTWAAAATTTCCTAAAAACACAATGAGGTAGGAAGACGTA
TAATTATTATTCTTTTTACAGAAGAAGAAATTAGATATCTGAACAGTTTGCCATTTTACATAATTGCAATGGTGCAAGTTTAAAAAAAATTAATACATGT
TCTCTGACTCCAAGGTTGTTGTTTTGGATAACTTACAGGTTCTTGTTACATGCCAATTTATTGGACRATATATATTAAACATATTTCCTGTTACAAATAT
AATTCTGCAGAATAATTGAAATGGCTGCATAATATTCCATTATATAGTTGTAGCAAAATAATTCAATCAATCCTCTTTTTATTAGATATCTATATGTTCT
TTTATTCAAGTTCTAAATGCCATAATTTATATTCTTGCAGCAGGATTCATGTACAAATCTCTTAGTATTAATTCTTGGATATGGAATACATAGGTTTAAA
TGAAAAAAAATAAGTTAAATATTTTGAAGAAAAAAGTCCAATTTATAATCTCTAAAATAAATTATACAGGTGTGCTCTCCTGCCGGGGGCTTAAGAAAAG
TCTTCTTCCCCCACCACTAGTGACAATTTRAATTATCAGTTAGCTCTTCTCAATGTATWTTGCTGTTGGTGTTACAAACTTTTGCCATTTATCAAACTTC
TTTCATTGACTTCTATAATCATCAAAACGAATGATTTATCTGCAGGCATTATTATTCAGAGGCTTGTGTTTTCAGTATTTGCCTTCTTTGATCATCGTTT
GTCCTTGTGTCTAAGTCATCCTTTCATTTGATACTGCAATCCCATGTGCTTTTCTTATCTGTCCTGTTTGCCCTTTGGTTTTCTTTTATCAGACTTGTTC
TATGCGGTATTGCATATGTTTTAGTTCCTTAAACACATAACCATACACCCCCATAAGGGAAGGTGTGAAATGGGGGAAGAATGATAGATGGAGGCTAATT
ATTTAATATTGTAACTTCTAGAAAATAGAAACCATGTCCTCATTTTTATCAATTAGCATGCTTTAATTAATGAATTAAGAATTGTTTCAATTCCCTTACC
TAGGAACATACTTTCAAAGAATAGTAGCATGCCAAATTCTCACCATCTGGATATTTTTCAATGAAGTCACAATTTATCTTTCCTTTTTATTGGGAAAGCC
CATCTTTAATTTCCTGTTTTATTTTTCAGAGAAGTTTTCATGATACATGCTTTCTTTCCTTTTTTTTTTTCTTTTTGACCTGTGTGTTTTTTACTCTATG
TAATTTTGGACAGCTGAATCATTACCTTTCTTATTCATGTTTACAGAGAGTTTATTTATTTGGAACAAAGAGAAAGTTTAAAAATTTGGAAGTTCTCCAA
ACATTTTCAGTTAAGCAGCATACCATATACAGTGATTATGATTATATTTTAAAATCCTTTGTGGCTTAACTAACCATCTTATCATAAGTTTGCTGCTGCA
GGAAATGTGCTGAGTGTTTAGGTAACAAGGGAACCCCCAATGTGTTCTTCCAGTAGTACTTTGAGAAAGCAAGTGGGATTCAGATTTACCCTATTCTGTG
CTTTCTGCTAGATTGATTCATTATTTCTGCCAGTGCTAGAGGACCCTGGAATAGTCATGAACTGAGTTATGCCATTTGAAACCTAGTTTTTATAAACTAT
AGCCAAAGATGATAAATAAATGACCCTGCAAAATTAACTTATTTACTATTTCTTATCCAAGAGGAATGGTCCTGCTTTTAGTGTGCATCAAATAGGGAGA
AATATAAATGAATTGGTGAGTTTTTTCAGAAGGAAAGGCCTGGACTTTGTCATGTTATGGACATTAAATGACAAGAATAAGCCTGCATACCACCAGGGAG
TCTTCCATGCACCTTTGATCATGCTTTGAACTGACAATGCCCACTATTATGGGTTGTATATGCTCTATTACCATGCAATAGCCCATAATAGTAATATTAT
ATGTAGAAATAGAAGAGCCTGTTTATCATTTGCTTTCTTTATACTCATTATGATATCTTAAACTGTATATGCATCATACATTTCAGAACATGTCGGGAAT
GTAATTGTTATTTATTATGAGGTTATTAAGGATAGTACTGATATGAGAAGACTGAGATGGAGGGAGAATTAAATAGGGTGCTTCTGGTATCCTTTATCTA
TCTTTATGATGCACTTGGATTTCTGTGTTGGGACATTGTGTATTCTCATAGAGATAGCCAAAGGTGCAGGTGCTCAGAATAGTCATCTACTTGAAGGTCC
TAGTTAAATCCAGTATTAAATCTCTCAGTCATATGATGAAGCAGCATTTACTAAGCTAATGACATAATCTGCATATGTGAAAAGAAATTATTAAAGGGAA
TGGAAAAGAGCCTTGTTAAATAGAAGAGACGATCTCATTCAGGTTGATTTTTCAGAGATTCCCCTTTGCAGTAGGTATTTATGTTCCTTATTTCTCCTCT
TGTGTTTGATCTTGCCTTTCATCTTGCTATTGTTATATTCAACAGAACAGAGAGAAAAGAAGAATCCAGAAGCTGAATTTAATACTTTTGTTTATTTTTA
AGAGATGGTAGAAAATAATTCAGTGGAAAATAATAAACATAATATATTTTAATTAACTGAGGTTTTTCTAACTAATAGTCCAGAAAACTGTATTACTACC
AAGTAAGAGAGAGTATTTTTTTCCTGTTCTAAATAAACAATCTTTATCTATGGCAACAGAACAGTTTGTATCAAAGATAGGAATTGATCCAAATAAATAG
ACAAGTTTCATTACATTTTGCATTATTTTTATGTTGTAAGTTGAAAACCAGTGAAATTCTTTGGCTAAGATAACTTCCTAGTAAAGACTGCAACCAGTAT
TGTCAAAATGTATTTGAAATGAAAATAGAAAATTGGACTTGAATTTAATTCCAATTTCTCCAGGCAAGCTTAAAATAAATGTGACAGTTATGAAAATTTT
GTTACTATGATTATATATTTATTTCTATTAAAATACTAAAATTATAGTGCAGATTGTAGTGGARAGCTTTAGCAGTTATTTACCTGATTTCATTCAATAT
AAACAGGCAAACCAGATACTTTTATGGGAAACAATTTGCTCTGGTTATCAGCCATAATCTTCATAGAMTCAGCCTCAACAGATGTTCTTTCTAATAGAAA
ACCAATGAGGCACAGTGTTATCCCTTTGTGTAGCCTGTAGAGTCACATAGCTGATCAGAACCTGCGATGCCCCTCTTAGGATACACAAAACTTAATAGGG
CTGGTCATTGTGCTATAGTTGCAAAACGAATGCAGATACTCTACACTCACAGCATACAGACAACATGTACATCATATTTTCATAAACGATGTTGCTTATC
ATAATCAATCTAATATTTATTGATCTTACCACCATGTATCTCTGGGCTAAGCTAGTGGTCAGAAAASTAGGGTTAGGCCTACATTCTCTTTTTGTAAATA
AAGTTTTATTAGATCATTGCCATGCTCATTTGTTTACGTATAGCTACTTTCTTGCTGTAATGGCAAAGTTGAGTAGTGGCCACAGAGAGCACAGGGYCCA
CAAAGCCTGAAATATTTCTCATGCAGCCCCTTACAGAAAAAACCTGCTACCCYTGAGCTAAGCATTTGTGATAATTGTGACAAATATGTCGGGAGAAGGG
ATTGAGTGTCTTGAGAATCAGAGGAAGATGACATTTGCTCAATTTGTGTGCAAATATGGCTTCATGAAATGAGTGAACCTAGTGGGTATCTGCAGAGATG
AGTAGTAGCATTAGGCAGATAATAATTTAGAACAAAAATAAAAGGACATCCCAGGTAGGAGGAAGAGCAGGGACAGAAACTCTGAGTTATGATGGGAATA
ATGTGTAAAGAACAGGAARCATACTCACTTGTGATGATTTAGAAAAAATAAGAAAATGGTGGGAGACAGCCTGGGGGGAAATATGTCTCTCCCTCCCACC
TAACTTCTTCTTGTGTGATTGACAGGTTTCAGACAGAAAAATCCACTTCTTTGCAGAGCTCTCTATGTCATAATTGTCTTATGAGGTTAATTGTTAGTAA
AATGATGTCATAGAAATGCCAAGTTAACGTTGCTTCATGCCCATCCATTGGGTCATTGCTAAAATGCCAAGTTTTATTTAACTGAATTTAGCGAGATTCA
AGTTTTTCCATGAACAAGACAAATACTTTAACATCCTTTCATGTGCCCTTCTGCACCTCGTATCATGTTTACTTAACTACTGACAGAAGATGAGAAAACA
AGCACAAATCCAAAATTGTTTTATTCGAAGGCATTTATATCAGCAAAGTATTAAAATGACAACTGTCAGCAGTCAGATTTGTATTTTGAGAATGAGATTA
CTATTATCTAGATATTGGGTATGTATATAGATGCCTACATGTTTAAAATGGGAAAGGGTCACGTTGCACAGTTAGTTGAACAGTAAGCTACTGGGATAGA
GGTGGGCAGACCCTGAGTTAGTCTGGGTTCAGTCACTAGCCAGCTGTGTGACCCAGCAAGTCATACACTGAACTGGCAGCAGAACCCTTCTCGGTGACCT
TGAACTTAGCTCCATAAGCTTGCATTGCCTCCCTTTAACCTCTCTTTGCAATAAGTGAATTTGACACTGTGTTCTGACTCATCCGGACCCCTAGATTTTA
TATCTACTCAAATGGACACCATGCCTGTCATTTCTGACATACCTTCATAGCAGACTTTGTGTCTGGTTTTGCAAAGCTAACTAGACAGACTAAGATCTGA
CTAACTACGTCTCATGAGAATCATGTGACTAACCCATCGTTCTTTCAGACTCTGCTTTCTACCAAGAGTCTGCTTGGGATTCAAACTAATATATTCTTCA
GTTATGGCATTCTTTCCTTTGGAATATAACAATTTAAGATGGATGAGATTTTGGTTCTCCATAAATATTTATTTTTCATGTGTTGCCTACTATTTGGATA
AAGGCAAAAAGGCAAGATTCTTTGGCTTCCTATTTAAGTTTATAAATAATTTTGGCCTCTTTGATGCTCAAAATATTCATGCCATGTGGATGTTGGTAAA
TAATACCAAATGGCCTGGCATGGTACAGTTGTAAGCTGCTTAAGATTTGGATGGTCTCTAGGGTGAAACAGCAAATATTTTGAGGTCATGTATAAAGTCC
TTTATAAAGATGTGAACTCTTTTGCCAAGATTTCTTTGCAGAGCCCTGTATTGTATAATAGTTAACCAAAGGAAGTTAAAAGGAATGTGAAAAACATAAG
AAAATATGGAGTATGTAGTGCCTGGTAAAGTCTCTCCTACTGCTTCCTTTAATTTGCTGGAAGTCTGGGTATGGTTAATGATACTGTTGAATTAYAGTTG
CAATGGTGAGAGAGAATTGTAAAACTCACCCTCTTGAGTGTAGCTTAATGTAATTATAAAAAAAAAGGTGGTAGCAAAATCCAAGTGACATAATTTATGC
TTGAGTCTAGATATATTCTGGATAACTCTACATAGAGAGGAAAACCCAGAGGGATTGCAGTTTTTAGGTTAGGCTTCTTAGTAAATAAGATTTTGGATGT
GTTAGGAGGCCTGGAGTCTTGTGACCACACAAGGGTATGACAGGGTGAGCACAGGGCGACACTATTCACCCCTGCTCATCTATTCATCAGTGATACTCTC
CTCTTCACTGGCAAGGTCCCTGGAAACACTATTAACAGGCATCAGTTTCTTGTTCGGGTAGAAAGACACACATGCTGCCAACACCGTGCCTTCCCTCAGC
GTCCGTAGCTTATCAAAACAGCCAGGCTCCAACTGTGAGGGCGTGTGCTCTGAGGGGGCAGGGATGGAAGAGATGGCCACGTGGCTGCATGACACCCTCA
TAGAGCTGATGTCTCACACCACTTATTATTAATGTGACTTTGTAGAGTTTTGTATTTTTAAAAAAACTTTTTGGACCCTTAACTTTGTTATCTATAAAAA
TGGCATTAGAACAATTGCTGTTTACTCTGAAATGTTGTTGTGAGAGACCCTTGAAACAGTATATATGAAACTTCTTTGTTAACTTTAATATACAATTTTA
CGGGCTTACAAGGTTTTAAGTAGATGGCATAAAAATGACCTCCAGGGCATACGATTTAATAGAGAAAACAAGGTCAACGTTCATTCATTCATTCATTCAT
TCACCCAGTCAACATATATTTACCAGGGTCCTCCTGTGTTCCCAGAACCACTCTCAGTGCTGAGAAAAAATAGACAAGGCAACGGATGTCATAGAGTTTG
GGAAAATAAGTTAAACCAGAAAACAAATAATTTCAGATACTCCTATGAGAAGGGAAATCAAGAGAATATAAGAGAGTGGCCAAGATGAAGTCTGGGGGCT
GCTGTAAGTACGGAGGGCAGGGACCCTCTCCCAGGAAGTCATATTTGGCCAGATTGGAGTATTGAAAGTGGGCCACATGACAACTCAGGGAAGATGGCAG
AGGAAACAGGAAAACAATTTCAGACTCAAGGGATAAAGTTTTCTGGAAGGAGATGTAAGTCAGGTGGGCTTCATCCTTTAAAAAAATCATGGAGGAGATG
AGGGCACTTGGAGAGCTTGCAGAAGTATTTTTAAAATACCAGTGCTGAGTTCCCACCCGACTTGATTTGTCTGCAATATGGCCTGGGCGTCCGGGATTTT
AAAAGCTCCCTGGGTGACTCTGCTGAGCAGCCACATGAAGACTCACCACTCTGCAGGGTTGTATAACAGGCACGGTCCTGCAGCAGGAGGATGGACACTT
TAGTTTTTGCCCTACTTCCCACTGAGCAAACAGGGCTTTAGGGAGTGCTTAAAAGTTGCACAAAACTTATTGCTCTGTGGTGTCCTTTCCCAAAGCTTTG
TTGAATAGGGATAGGAGGGAAAGGAATGAGTCAGGGACAAGAGGGGTGGGTGGGTCGGGTAGGGGTGTAGAGAGAAATACAGAGAGGAGATCTTGAACAA
TGAACCACCTTAGGCACGTTTGAATACCGGCAGCATACAGGACAATGATTATTTGTTCTATATGAAAGATAATTGGCTGAATAGATAGAATTGTCAAAGA
GTCCAGAAAAGGGGCTTTGTCAGAAATGCATTTTGGGTTTTCGCCATAGATAATTTCTGCTTTGAAAAATAATATGGAGGAATGTATTTAGCCACTCTTT
TTCCTAGAATAGCCATGGTGATATTTAATAATAAAATATTATTTAGTTCTGTTACCACAACAGTACTAATTGTTTTCCATGTTGTCTTTTTTCCCATGCA
TATTTTCTTATGTGTTGAGGAGAGGCATTCCTCAGGATTATATTTTCCTTGTTAATGAAACTAAGAATTTTGTGGATGAGTCTGTGTAGGTGCAGTTTGA
GCACATTTTCCATTATTAAATCAAAGAACTGACCAGCGAATCCATATCAGCTCCCTACAATCTGTTCCCAGCCCAGCCTTCCTGCTTGGTCCGCTGCTAA
GCTGGCTCCTTGTCTGCTTTGTCCCCAGGTTTTTGTTTGGGCTTTCGCAGCTACGGTGAGAGGCGACACTTCTGAGAAGTGAGGCGCATGCTCAGGGGAG
CAATGAGCCAAGGCGAGTTTAGCAGTAAAACCATTGCATGTTGTCCAGAGAGAGGCTCCTCAGGACCAATGCTGGGAGATAGCCCAGAGAGAGTTAGGCT
GTCCTCAGATGCTCCCCAGAAACCCTTCATTTGCATAGTGCTTCTTTTGAAGAGCCCGATTTTGAAACACCACTTCTGTCTTAGCTGCAGGTGACCCCTT
GTGATCCACATTGGAGGTATACCCCAACCCTGCCCTCAGGTTAGATTCCTAGGGCTGCAAAAACAAATGACCACATATTTGATGGCTGAAAACAACAGAA
ATTTATTCCCACAGCTCTGGAGATCAGAAATTTGAAATTGAAAAATGTCAGGATCCCTCCMAAGGATCTAGGAGAGAATCCTTCCTTGCTGTTTCTAACT
TGTGGCTTTTGGCGTTCCTTGGCTTGTGACTGCATCACTCCCTGCTCTGCCTCTCTCTTCACATGGCTATCTTACCTGCCTCTCTGTGTGTCCAAGCTCC
CTTCTCCTTTCTCCCATAAGCACAATAGTCTTCGGACTTAGGGCCCACCCTAAATCCAGGATGATTCAGCTCTAGTCTTTAATTATATCTGCAAAGACCC
TATTTCCAAATGAGGTGACACCCTGGGGTCCTAGGTGGACATGAATTTTGAGGAACACTATTCAACTGATTATACCCTCTTAGGGGAAATCAAGCCCGCT
TCTACCAGAGATATTTATTCAGAAAATAAATGTCTTATCCACCATATACTACTTTATTTGCTGATTTGTGCACATTACTTTGGCCTGAATGTTTGTGCCC
TTCTTAAAAATTACATGTTGAAACCTAGCCCCAAAGTTGATGATATTAGAAGGTGGGGTCTTTGGGAGGTGATTAGGTCATGAGGGTGGAGTCCTCATGA
AAGGGAATGGTGCTCTTACAAAAGAGACCCCAGAGTGTGGTAGTACATGCCTGTAGTCCCAGCTACTCAGGAGGCTAAGGTGGGAGGATTTCTTGAGCCC
AAGAGTTTGAAGCTGCAGTGAGCCATGATGGCACCACTGCAATTCAGCCGGGAAGACAGAGACCATGTCTCTAAAAGTAATTRTAATAATAATAAAATAA
TAAATAAATAACAAAAGAGACCCCAGAAAGCTAGCTTGACAATTCCACCATGTGAGGACACAGTGAGAAGGTGCCATCTATGTGTAGGAAGCAGGCTCTC
GCTAGACACTGCATCTTCCGGTGGCTTGATCTTGGACTTCCCAGACTCCAGAGCTGCAAAGCATAGATATCTGTTGTTTATGAGCTACTCATCTATGGTA
TATTTTATAGCAGCTCAAATGGACTAAGACAAGTATCAAAGTTCAATTAGATACAGCGTAAAAAAGAAAGAGAAAAACATAAATCATTGCAGTAGAATGT
AGTAAATGCTCTGACGGAGATATTTGAGGTGCTCTCTACCAGCAAAATTAAGAGGGTGAGGGAGGTCTTGAATGGTCAGAAGTTTGCTCCTGGAGAAATG
GGGAAGAATATGTCCAAGACAGGAAATCCCATCACGAAGCACAGAAAGATGAAAGGATATGATAAGTTCAGGTAAYTGTTTCATCCAGCTTATGTATATC
CAAGGTAGGATGGGAGTCTTTATTTGTAAGTAGATCTCCAGTGTGAATATGAAGTATTTTGGCTTAAATTCTGGGGGTATAAATCTGTTTCATAAAACTT
TCCTTCTGTGGTATAAGTTGCTCAGAACTCTGAGATCGGCTTTCTGCCTTCATAGCTAGTTTTCTTTCTTTTTCTTTTTATAATTGTTTATTTTTTTTAA
ATGGAGTCTCACTGTTGCCCAGGCTGGAGTGCAGTGGCGCTATCTCAGCTCACTCCAGCCTCCGCCTCCCAGGTTGAAGCGATTCTCCTGCCTCAGTCTC
CTAAGTAGCTAGGATTACAGGCATGCACCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCACATTGGCCAGGCTGTTCTCAAA
CTCCTGACTTCAAGCGATCTACCCACCTCGACCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCGCTGCAGGCAGCCGATAGCTAGTTTTCTGAGAGGTA
CTCTCTGATGTGCTTCCTTGGCCAGAATAATCTGCATTGTAATGAGGGAGTTGGGGAATCCCATATCCAGGGACTCTTAGCCTGGAATTCATGCAACCCC
AGAGGATGGTTAGGTATCAGACAATGAGAACACCTTAAAATGGCACAAATATATTGTGTTTACCTTTTAATATTTTTGTGCAGAAGGAGTCCATAGCTTC
TTTGGCTAGATTATAAAAGGGCTCCATAATATCAACAAAGGTGGCAGTGATTTAGACATCTCTGCATAAAATCAAACAAAGACTTTTAGCTGTCACAATA
TATTATTTTGAGCTACATATGCTTTAACTAGGTACTGTATTGTTTACTAAGTAAATTAGTAAATTATTCAAAAGGTAGTCAAACATAGAAGTACCTTGTG
ATATCCAGTTTTATTTATAGTTTTTGATTCTGCTTTTAAAAAATTGGAATAAAAAGGTAGACCAAGCCCCAAATTATTTTACTATAAGTCATAAGAATTT
GTCACTGAAGTTTCTTTTAAGGATAATTGGTAACAAGCAGAAGTTCAAGCAGAGAAAAGAATTCCTCTCCTGTTTTACTCTCAGAAGACAGTGATCTTTG
TTCTATAATTCCTTAGGTTTTAGTGTGTATCCATGAGAAGGATCTCTATTCTGATTAATGTGGAAGCACTGGATGCTCATATGAGTACAACCTGGCATCC
TAGAAATAATAGGAATACAGAAACAAGAAGAGAAATAATTTTAATTTCTATGCTAATCAAGTTTCATTTGAAAGTCTTTTAAGCAGACTCATCTCATTAT
ATAAAAATACAGTCTTTTATTAAAACTATAGAAATTTAATAAAAAATATAATTGATGTTTTGCATTTCCTACATGACTCTAACCTAATATTTAGCCAGTT
TATAGACTGGCTAAATCAACCTTCAGCCGTATTATTACTGTTTTAACTTTGGCTAGTGAATATCCATATGAATCTTGTGAATGTGTGGGATATGGCTAAA
TTGTCAAAGACAATTTCAGTGTGGCAGAGCACCCAGAACCTGAGGAGACAGTAGTGAAGAAGTATTAATGGATCATGAAGCAGTAGTAACAGTGGTTTGT
TGATATTGAATGATCCAGGGCCTACCTCCTGGGCTTAGAACAATTTTTTTCACTATATATTCATGTACTTAATCATTCACTCAATGTGATTAGTTACATT
GGCAATATAAGGTAACTAGAGAATCTTCCTAGTATTCACTTTAGTGAAATAATTTGGGTTGCTGCTATTTACCTCTTACATATGCTGCTTATAGATTCTG
GTTGAATCCACGGACTTTGTTTCTATGCTATTAACTAGCTACATGGGGGGAAATTATGTTTAGTGAGAATATTTGCTATTATTTGTTCAACATAGGCAAT
AGATTAGGAAAGTGTTAAAGAAGACATGGTTGATGCCTACTATAGATCAAAGACTTAGCRACAAAAAGCTATGGTGTTGCTGGTACCAGATCACACTTTG
CAGCAATCTCCRGTTTGGGACATATAAAGAGTTGTTCTTCGTTTTCTATGTCCTGAAAGAATTCTAGCTTCCTTTATTACGTTTTAAAATCCTTTGTCAT
TAGTTATAGTGCTGAGCATATAAGAAAACTATACAGCATCTATTTTAATTAAAAGACCTTAGATGAAAGTGGCAGAATCCCAATTCAAACAACCAGAAAC
AAATAAATGATTTATGTGCTCACAAACCAAAAAGGACAGGGGTACAGATGACCTTTGGGAAGAATGGTAAAGGGACTTAGACAACCTCCCACAGACTCTC
TCACTCTTTCACTTTCTGTATCACACCTACACCCGTGTACATACGCATGCACATGGGTTGACGCAACAGCCTCCAACACACACGTTTCTGCTTTTATCAG
CCCTTTAATCTGAATCTTGTCTACTGCAGATGGATTTTTCTCCATASAGGAGGAACATGGATTTTAGCATCGTCTAAGGTTATAGTTTTACTATGCTCTG
ACCAAGAAAGATTAAAGGCTTTTCCTTAGCAGTTTAAGGGAGAAAAAAAATATTCAGGGGGAAAACTCAGATTGACTTTGCTTGGATGAAATGGTCAGGT
TTGAACCAATCACTGATGATAGAGGGATGGTAGCGTTCTAAATTTGGGTCACCACTGGGGGCAGGTGGGAATTGGGGCAACGAGATGTGAGACTGTAAGA
CTTTAAGGAGTCCTTCTGAGCAGACCACAGTTTTCACTAGATACAACTGCATTCAGGTTGATATTGATCTTGAGTATCATTGATTACGTGTACAGCCTTC
TTAATGTAACAAAGATGATACATAGCTTATTTTCAGACTTATAACCAAATGACAGCACAACAGGACAAAATAATTCATTGATGATTGTGGTAGGTAGAAT
ACTGCCCCCATCAAAGACACCCCTGTAATCCCTTGAATCTGTGAATATGTTAGATTACATGGCAAAAGGGACTTATGATTGCTAATCAAAAGATTATACT
AGATCATCTGGGTGTGCCCAATACAATCACAAGGGCCCTTACAAGTGGACAYGGGAAAGAAAGAGTCAGAATCAAGTGATTCAACATGAGAAGGACTCAA
CCTACCACTACTGCCTTTGAAGATGGAGAAAGGGGACCAAGAGCCAAAGAATGCAGCCTGTCTCTAAAAGCTTGAAAAGGCCAGGAAAGAGATCCTAAAG
CCTCCAGAAGGAATGTAGTCTTGACGACACCTTGATTTGAGCCCAGCCAAACCATTTTAGACTTCTGATCTCCAGAACTGTAAGACAATAAATGTGTATT
GTTTTTAGGCATAAAGTTTGTGGTAATTTGTTATTGTAGGACCAGGAAATGAATACAGTGATCTTTGGACATATTCTTTGGCATAGTCAACAGAATATAC
ATCAGAAGCTGTTTCTGAATTATGTATTCCCATGTATTTTGAAAAGCTTTTTTACAAAAAATCTGAAAAAGAATTATGTATAAAAGATTATTTCCTTTAC
TGAGAGTATCTCAACTATAGGCATAAACATAGATTAGTTGAGATATGATTTTCTTCTTGGCTTTTTTCTTGCTTTGTCTTAAAATGAAACCAGTCCTCTT
ATAACTTTTTCCAAAGCACAACTTTATAGCTTACTCGTTGCACCTATTTGAAGTCTTACAATTTATTCCATGTTGTAATATAATCTTGGTATRTTGTTTT
TAATGATTACACATTAACATATTTTAACCAAGCATAATATGCATTATATTCCGTCGTTTAATCAATTTTTCTATTTAAATGGCCCATGAACATAATTACA
ATATTTTAATATTATGGCCTAAATTGTTTTACTATTTTTACATTGTAATTCTACATTGCAATTTGGGATGCATGTCTTTGTCTAACRTAGATAAGTAGAT
TCACATTTTGCAGGGTTTACATTTTGGGAGTCCTTTTTAATAAAATGAATTCAAAATCAAAAGTACAAAGTTAGTTAAGGTGAATACTAACTTAGGATGA
AAAGGCAATCAGCACAAATTACATTTTTATATCAGACAGATACCATAAACCTCACAAATCTAGAATATGATGTAATTATAATTTTACACATCTGTTGTAA
GTGGCTCTGTATATTTCAAAACTTGTTCATTCTCAACTTCTTAAATGTGRGCTGAGCATTATAGGATGCATACAATTTTATTATTTGATCTCTCGTCTTA
AATTGTCATGACCCAAGAGGGCTACAGCAGTATTTCTAGAAGGCATTTCTATACCCTGAAAAGCCACAGAAGTGATGGTACCCCACTAATMGCAAAATGA
ATGTGTCCTCAACCCACCTTCTCTTTGGCTGAATCTCAGAAGTACCTGGAGTCTTTCCAGAGCCACTGGACATGAGAGGAAATGTGGATGAGTCAAAGTT
AGAATAGAAGGAGAGTCAGTCATCTTACTTCACTCAAAATTTCTTATTTTGGAAAAATTTAAAACACGTATGTCATCTATTGTCATGGTCCTTCTCAGTG
CCAGAGACTCCCACCAGTGAGGAAATCTAAAGAATAGTTGCTGTTAGTTCCATGGTAAATGTGCCTGTCTCTTTGATGATTGATACTGAACAACTGCACC
TGGGGCTGTACCCAAAGTGGAGAACAGTGAGTTTCTGTGTCGTGACTGTCATTGACCTTCCACCTTTCCTCTCCAAAAGAATAAGAAGCRAATCAATTGT
GAAGATGGAGCAGGTGCTGTGATTCAGCCTTTCTTTATATCACCAGACAAGGTGAAGCCTTCCTGGGTTTATCATGGTCTCCCAAAGGACTGTTGACACC
TTTGTACCTACGCAGCTTTCTGCTGCTTGATGCTAATATCATACACGTTCTTCTGAAATATTAACAGGAAAATATCTGTTTGAATAAATAGCTTTGTACA
AGTGTATGTCTCCATCCCAGGCATCCTTCCACTCCCTGGGTGTGTATGGAATTAGAAACATGTACCACTTCATCAGCTTTCAAACACATTTTTTAAAATC
TGGAAGTGTATAGCCTGGGGCCTCAGTGTTTCTATTTCTGTTTATTTGTCATACAGAGTGTTGCTTCTCACCTGAACCCCTTGCAGACATTCCAGCAAAA
TGAAAACATGACCTTGAGCCTTAGTTTCACAGTCCATGAAAAGCTCAACTTTTATTATRGAAATTCAGGGTTASAGCCCTTCTTTTTTTTCTCCCACTTA
AAAAGGGATAAAGAAACTAACCCACCCAGATTGCTGCTAAGCCTAACATGAGCTTTGCATAGCCATTGAAAAAGGTTCCCACACTCTAGAATTTTTATTC
CACCTTTTAAAATGCTCTTGTCCATCTCTTCTGAAGACTTTGGAGACAGGAGATTTTTCAGTCTTAATGCATTGAAATGAAGATAATACAAAAAGAAAGC
TTTTTCAAAATTTTTAGTCTCAAAAAGTCTTCTCTTGGGAAAAGGCAGACCTTTATCTTAGTCAAAAGGGAATGAGACTGTTGGCAATGACAAATTAAAG
TTTGAGGGGATAATTGAAATAAGGAAATGGAAAAGTATGGCTGATTATCCCCAAAGCCTGGATCAGACAAGGAAATAAGCCAGAGGCAGCATAGATTTGA
GTGAAGATGTGCACCCTCAGGTCAAGAGCTGAGGCTGGTTGGGAGCAAAGAAAAATAATAGAAAGAAAGAAATGGGAGGAAATGTTTTAATACATTTAAG
ATAGTGGAATATAAATAAGCAGGCAGGGGTTTCTATTTCTATTTATTGTGTTTCCTTTGCCTGCACAGAGTGTTGATTGACTTCACCTTTCTCCGTATCC
AGAAATCCATCTATGTGATTAAACTTTTGTTCTTAAACAAGGCTTCTAATATTAGATGGAAGATTTAATGAATAATAGTAGTTAACATTAAGTGAGTACT
TATAGAGTTCTAGGCACTGTTCTAAATGTTTGACTTATGTCATTTAATAATCTCATCAACCTCATGATGATGGTAGTATCATGATTATCCCTACACAGCT
AGTAATAACACCAGCGTCTCTGTCTATATAAATTTAATCATTCCTATTTCCATCAATACCAATTCAGTCTAGGTTCTTGCTTTTGCCCTTCTCTCTGTCT
AGAATAACCACTGACACCTTGTAAGCCTGAAAAAAATGCAACCTCACATGTAGCTGTGATCACATTTTCCTCCATATTCCAGCTAAACCGGTGCGCACTT
TTAGTTTTGTATTTGCCGTTTACTATAATTATTTGTTGGTGTTGGTCTCTCTGACTCCATGAGTAGTGTTGATTTTCTTTGTATTTCTAAAACCTAGAAT
CTAGCAAACATTTGACTGAATAAAGAATAATGATTGACTGTGAAACAAATGACTACATGAGCGCACAGATGGATCCAGTGTTTTTTTCTTTTAAATAAAT
GATCATGTACCAGTAATTACAGAACTGGTTCTAAACATGGATTCTTATGTAGTTAGAGATCCATGAATAGAAAATCTTTATTTAATTTAATACGAGGCCT
CTAGCCTAGTATTCAGTTAGTTCTAGGTTCCCCAGCACTGATCTGGAAGGGAAAAGAAAATTGAATCTGAAATGAGGCTGGGATGTGTGTGTGGGGTATG
TATGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTCCTGTAGTTGTGACTTAATATCAAAGACAATTGCAGATAATATGAGAACTTTTCATTATTTATGCT
TGTTTTCTCTAATTGAGATTAGATTATATTTTGCAGATAAACAATTTGAATTCGTTAATAACGTGATTTTTGAAAATCACTGACGCTTGTTAATGTTAAC
TAGGATAAATATTATTCTCTATTTAAATTGTGTGTTTTGATCTTTCCCTTTAAAAATAATTTACTACAAATTTTAAAATATTAAATATTAATATGATAAT
GCAATCCGAGGTTTATAATTTAGCTTGATCCCATGACAGAGTAAGCTAATGTTAACTATATAATCAACAACTTGTAAAAAATGTTCAGAGATTACCTCTT
AAGGCCCACAGTAATAAAACTATCTACACTTTTCTCTAAAAGTCATAAAAATGTTTGTGAAATAAAATCAAGTTTCATATYTTTGTGTACTGAAATTAGT
TTCTTATTCCTACCCAATTATCTAACATACAATTGTCATTTTGTTATGAGATACATACACTTCTCATTACACATGGAGAAGCATTATGTCATTATTTTTA
TAAAAGGCTGATAAATACAGTTGTTCCTTCATGTATGGCTCCCATACAGATTCCTGGTAAGATGATTCTATAAAATTATATAACTCAAATCTCCTGTTGA
CTTTCATCTGAGGACAGGCAGTGGGTTCACCGTGAGTCACTGTAGTTCAAAGATGTAAAGAAATCTGTTGTAATCACACTTAACCTTCGCAGAGCACAAA
TTTAAAGGGAGACTCATGATTTAAAAGTGGACAATTAACAAATGACCTTTCTCCTTCACATTAGGTGAGATCATCAGGGCAGTGTGGTAAGTAGTCTGAC
TGTAGAATATTTTAAAGGAATGAAAGTTTTTTTGGGTATACCTTCTGGCCTTCTGGGCCTGTTTTTGGCCTTCTGGCCCTGTTTTAAATCCCATTTTTAA
AAACCCTATTGCTTAAAACAGCTAAAAGAACAAATTTTGTAAGCATTCCATTAGACTGGCTAAACATCTCCCCCCACCCAGTTTACAATGTATACAATCT
CTTATATTCATGTGGCTTAGTGATTTGTACAGGATGACCTAAAGCCACCAGGATTCCTGGAGATATKCTTAGATGTTTACTAGGTTGCTTTGGAGAGTGA
GAAGAAATCTGGGCTTGTTGAGCTTTACCTACCCTACCTACTGCTTTCTCTGGGCAAATTCACTTACATATGTTTTATTTAGCATGGATCTGTTAATACT
TTCATTTGGAATGAAATGTTTCTGCCGGTTTCTTTCTGTTCTTGTGCAAATGTGAAAACTATTGCTTTAGCGAAAGCAAACACCGTTACTTCCTGAATCA
CAGCTCCCTCCAAACCACTCCTCTCCAGATAAACATTTATGTTTTATGCCCCARTAACTACACTTCCTTTTATTTTCCCTGCTCTGAGCCTTGAAGTGTT
CACCTRAAAGCATTTTAAAATAGTCTGTAATTCCAAAGGAAATGAAGTAATTGTCCATGGAAGGGAGGTGAGGACTCAGGATACAGATTGACCTGGGGTT
GCTCATGAATTGAGACCAAAAGAAAAACAGAGGTAGAATAAAATGAAAGGGAGAAGWGCTCAGTGAACATCTGTGCTTTCTCTTTGCCGAGTCCTGACAC
AGCGCTCACTACCCCTCTGCATTTTATCCCTGTCACCATTTGGAGAATCAGGCAGGAAGGCCCAGCATCAGGGATTTCCTCTCCCTTCAAATTCTGGTCC
CTGCAACCAGCTGGAGCCACCCACAGATTCCCTTTGTTGATGAGTGCTTCCGGAAGGTGAAGGAGAACCTCCCCATCAGGGGGCTGCAATGTTCCAAACT
GCAGCATCATTCATGACGTGGCTAACATTTACCTTCATTTTTGTAGGGGGTGGAGAAAGGTATTTTTTTATAGTAATAAAATACAATCTGTGAATTCTGC
CATATACCAAATTAAAAGAGGTTTTGCGGTACAGCTTTCCATGGAGACAAGGAACAGGTAATTATTCAGAGATAATGCTTCTGAAACAGAACATTGTCAG
TATATAATGGTTCCCTGCCGGTAGATAAATGCAGAGGCAAAGACAGCATATTTATTTTTTAAAGCAAGAGACATTCAGTGATGCAATTGCAACTCTTGAA
ATTACCTTTCCTGTTTTACCAGATGAAAGGTTGTAGATTTAATCATCATGCCTGATGGAGCACTGGTGTCACAAAGTGACAGAAATAAGCCCAGTGACAG
CAGCCCTGCTGTGTACAGATTGACTTAGTAAACACTCTTGGCACAGACTTTAGCCGTTGAGGAACTTCTTAGTTATAAATGGGTGGATTCTCCATATAGC
TGCTCAAATTCTAAATTCATTATATTCCTGCCAGTTAAGCCTTCGTATGTCTTTGCTTTGCCARTGAAAACTCAGCCGGCCAGGAACAAATCATATACAG
ACTTAATTTGAATTCAAGGGATGATATTGCTTCTTCTGTAGGTTAAGGGTTGCAGTGGTAGCTCGATAGTTGTGTAACTACACTGCACTGCAAGGGCTCA
TCAGGTCCCACTCAGTATTTTATTTCTAATAATAGTAATGGCTAATTTTTTTTTTTTGAGATGAAGTTTCACTCTTGTTGCCCAGGCTGGAGTACAATTG
CACGATCTAGGCTCACCGCAACCTCTGTCTCCTGGGTTCAAGCGATTCTCCTGCTTTAGCCTCCTGAGTAGCTGGGAATACAGGAGCCTGCCATCATGCC
CAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCATCACGTTGGCCAGGCTTGTCTTTAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCC
CAAAGTTCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCAGTAATGGCTAATTTTATTGAGCATTTAATGATGCGTTAGACACTGTTCTAAAGACTGC
ACATGTATTTTTCATCAACCCTATAATGTATTTTTAAAATGCGGTAGATTTCTCTTTTACCCAGGGAGAAAGGAGAACTTAAGGGAATGGCTTGGATCTG
ATCACATGGCTAATAAATGGTAGAACTTCGACTCATTGAGTTGATGGGCCTCTTAACCATTGTACCTTTGCTATTCAAAGTGTGGTTTGTAGACTAACGG
TATCAGCATCAAATTGTATTTCAGATACAACTTCAGACCCAGTTAATCAGAATTTGCATTCTAAAGAGATCCCAGGTGATTTGTAGTCTTCATAGACAGT
GTCTACAAACTTTTCTGGAATGCTTTTGCTATTTTAAAATGAAGATCACTACCACCCATGGATTTTTATAGCCTTTCTCATCATCTTTGATCTATTAAGC
ACTTTGAAAATTACACTACAATTTAATGGCACAGAAAAGAATGAGTTTTGTGGACATTTTAATTTTAGAAAAATGTCATTGTAAGTGAATAACAATTTTC
TCCGAAATAAGCAGCTTACCTTAGAAGTTAGCTTGGGACTGATTGATGTGAGTCCCCGAGAGATAGCCCTTTTGCTGAATCAGACAGATCTTTCATCTAT
CTCTAAAAAGTACCATCTACTCCAGGAAACCTGGCAGTTTCTACTACCTTTATCTGCATTGCTTTGCTTGTGACAGTCCTTTGCATATATGATGGCCTTT
TTCAGTGCTTTCTAAAGCTATTTTTAATACAAATGAAGGATTTGAATTTAAATTAAAATCCAGCTGCACACATTATTATTAAAGATAATTTCGTTGTGGA
GAAAATCTAATCAGTAGATATTTTTATTGATGTTAATGTGCCAATTCTCAGACAATAGGAGTACATCTTTTTTTATAAAGAAATCATTTTAAAATTGATC
CTAATTTCAGAAACCTTAAAATATGAAAACAACATTTTAGAGTTAAGGGTTTAGCTAATTAAATGTTTTCCAAATTTAATCTTAGTGTTTCTTCAATAGG
GAGACACTGGTATATCTTAAAAAGAGCCCTGGACTAGGAGGCAGAAGATCTGAGTGAAATCCTGATTCAGACACTTATAGGCTGTATGACTTTGCGTAGG
TCATTTAACCTTTTGGAGACTCCTTCATCTTGTCTGCAAATAAAGATAAAACACGAGAATTAAATAAGGATTGAAACTTGCGGTTTTCTGTTTCACTCAT
TTCTGTAACAGGTTTCATGTTTTACTTTCATTTTCACTGCTTCTCAAAGTGTAGTCTGAGTTATAAGATTCCTCTTTCATGTAATTTTTTTTTATATTTC
TTACAAGTTTTTTTGGAATTATGACCACAGACCATAGCTTGTAGAAAACATGTGATATTTCAATGCTTTTTGTAATACACTTTATTTTTTAGTGCACTTT
TAAGTTCACAGTAATACTGAACAGAAAGTACAGGGAGATCCCATATACTCCCTGCCCTCACCCATGCATGGCCTCCCCTGTCATCATCCCCCACCCCACC
ACAGTAGGTCTATTGGTTACAAGTCAGGAACCTACATTTACACAGCACTATCCCCCAAAGTAATTATTATAATTTACCTTAGGATTAACTCTTGGTATTG
TATTTTCTATGTGTTTGGTAAATTTTATAATGACACGTACCCACCATGACAGTAACATATAGAGTAGTTTCACTGCCCTACAAATCCCCTGTGCTCCACC
TGTTCACCCCTCTCTCCCTACAACCCCTGGCAAGCACGGATCTTTTTACTGTCACCATAGTTTTGCATTTTCCAGAGTGTCATACAGTGTGTAGGCTTTT
CAGATTGGTTTCTTTCACTTACGAATATGCACTTAAGTTTTTTAAGTGTGTTTTGATGGCTTGAGAGCTCACTTCTTTTTATTGCTGAGTAATACTGCCT
TGTCTGAATGTACCACTGTTTATTTAACCATTCACCTACTGAAGGACGTCTTGGTTGCTTCCAAGTTTCGGCAATTATAATGTAGCTGCTGTAAACGTTG
GTTTGCAGGTTTTCATGTGGACATTAAGTTTTCAGTTCCTTTGGGTAAATAACAAGGAGTGTGATTGCTGGATCATATAGTATGTTTAGTTCAGTAAGAA
ACTGCTGAACTGTCTTCCAAAGAGGCTGTAGCATTTTGCATTCCCACCAGCAATGAATGAAAGTCTGTGTTTTCTCCACATCCTTGCCAGTGTTGGGTGT
TTTCAGTGTTCTGGATTTRAGCCATTCTAACAAGCGTATAGTGGTATTTCATCGTTTTAATTTGCATTTGCCTGATGACAATATATAATATGAAACATCT
TTTTATGTACTTGTTTGCCATCTGTATGTYTTCTTTAATAAGGCATCTGTTAAGATCTTTGGGCCATTTTTAAATTGTTTTTCTCTTATTGTTGAGTTTT
AGGAGTTATTTGTATATTTTAAGTAACAGAACTTTATCAGATATGTCTTTTGCAAATATTTTCTCCTTGTCTATGACTTATCTTTTTGTTCTCTTGATAT
TTCTTTTCTTTTCTTTTTCTTTTTCTTTTTTTTTTTTTAAGACAAAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCA
ACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTGCACCACCATACCCAGCTAATTTTTTTTTTTTT
TGTATTTTTAGTAGAGACTGTGTTTCACCATGTTGTCCAGGATGGTCTTGATCTCTTGACCTCGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGAT
TACAGGCGTGAGCCACCACACCCAGCCCTCTCTTGATATTTCAATGCTTTTTACATGATCTAGTATATGATGGATATCTCTATTTTTCATAAATGTTCTG
TGGATAGTTTAGAGAAGGTTGATTAGAGTAAGAGGCAAAGTTGACATATTAAATAAATTATCCTTATTAATTATTTTGTTCTGAGTTATATAATACTGCT
TAGACTTTCTCATAATAGTAATCAACTTCTCATCTGTTTCTAACAGTTTTTATGTCATATATATTGATAATGAGTGATATTGACCAAAAATTCATGACTT
CACATATTCCTTAACATTCAAATTATAGAAAAAGAAAATCATATGACCTTTTTGTTTTGTTTAGTTGTTTTGTGTTAAATTCTGCTGAGTCTGAAATTTA
GGCTACCATGCCGTTTTTCTATATGCTTGAKAAATCTTTGACAACCCTTTACATTTTATTCTTCTTCATTCCTTTGAGTCAGATTTGTCACTTTGGGGCA
GCATACACTTTGATTTATGATTTTGTTAATTTTTTACCTAATCTACAAATCTTTGCTGTAAGAGAGTAGGGATTAAAATATTTGAGTTTACTATCATAAT
TGACATATTTGATTTTATTCCTGCCAACTTATTTTATCCTTTCTTCATACCATTTTTAATTTTGTGTCTTCTTTCAATTATTTTATAAAATACACTGCAT
ACAGTTTAATGCCCAATCCTTTGAAAATAAATATATATTTTTATTTATCCTAATGGTTACCTTATATTATTTTAAAAACATYGTCAGTATTCATTTTATA
TCAAGGTCTCAAATTTAATGGTGTCATTTGTTCTTCATCTATTTAAAATGAAAGATATAGCATTTTTTCAATTTTCCTCCCATCTTTACTCACTGGAAAT
TATTAGTATAAACTTTGCTTTTTATAACTAGGTAAATAAAATTTTAACTATTTTATAGTGCTTCTGTTTTAATCATTAATTTTGATATTTCCATTGAGTT
GTATAACCGTATTTATAGTGGTCCTTAAATCCGACTACTATAGGAATTGATTAACGTAATATAGACAGCCCCATTTTCCAATTCTCCCATATTTTGAGCC
CATTTATTTATTTATTCATTTATTTTTTGAAATAGAGTCTTGTTCTGTCACCCAGGCTGGAGTGCAGTGACACAACCTCGGCTCACTGCAACCTCTGCAT
CCAAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACCACGCCCGGCTCATTTTTTGTATTTTTAGTAGAGAC
GGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTGATCCACCCACATTGGCCTCCCAAAGTGCTGGGATTACAAGCTTGAGCCACCG
CGCCTGGCCTTATTTATTTTTTTGTTAAAATTTCAAAGTAAATTTTGAAAGAATTTTATTTGGACAATTTGTTTTCTAAAACCTTGAATACCTAAGATTA
CTTTTTCTATTGCCCTAACCATGAACACAGTTTACCTTTGTTATTTAAAATAAGTATTGTCATTCAATATTTATTTTGAAAATAAAATAAATGACAAATC
ATTCAATATTTTGAATGACAATATTTTCTTTCTCTCTAAATGCTCCATTTTTGCTGTTTTAATTGTAAGAAATCTGATCCTTTGTAGGTGGTCTACATGT
ATTTCTCACTTGTATATTTAAATTCTTTCATGATGTGAATCTCTTAATTGATCTACCCACAGAGCATGGTAAGTTGTTTCTAACTTCACATTGAGACCTG
GTTTTAGGTACAAAATGTATACTTCAATGGTTTCTTCAACGTCACATCTGGTACTGTTGCACTTGATTTTTCTTAGAGAAGACCCRTAACTCCTAGATTG
GATAGTTCTACATCTATCATCATCTTCCAGTGATTTTCCCTTATTCATTTCCTATGCATTTTTGAAATACTTTTCAGTTTGTATTCCAAATCATTGTTAG
ATCTCCCCTGGTAAGTGCTGATCTGCATTGTTTTCAATGGCAAATTTAATTTTACAAGTGTACTTTTATTTTCTTTGTTGTTATCTCTTTCTTACCTGCT
CCCTTGTAATCTTAGTTGCCTCTCTGTCTCTGTATGGCATTTTTGTTATTGTTTAATTGGAGCTATATCTTTTACTGCAATCAGTAAAGATAAAGACTTC
TTTTAGTGTTTCTGCTAAAATAATTTTGAAGCATGTGTTCTGAATTCGACTTGTCGCTTTGCTGGTTCTGTAGCTCTATCTTATGCTCCAACTGATCAGA
CATATGTTGATCACTCTGTCCTCTTCTTGGAGATGTTCAGCACTTGTTGGTTAGTTAAAGACTCTGATATATCCTGCAGTAAGAAAAGTCTTTAACTCTG
TCCAACCAATATTTCCTGAAATTAATTGATCCTGGAACTTTTCTCCCCATGAAACACCTTACAGAGCTACTGTTTCATGAAATCATATTTGATCGCAAAT
GGTTAAAAATATGTYGTCTTATAGTTAGTAAATATCTTGGGGAATTCTTTCACTGCTATGATTATACACTAATATTCATCTTCACCTTAAGGATAATTTA
TTTGATTTTCTATTTAATTGCAGTTTCTTTACAAATGAAAAGAAATTGTGATGCAGTTTCCCAGTGATTTTTTTTTTTGCAATGTAAAAATGATTTGTAG
ATGTTAAGTCTATATCTCATAGTTCTTTAAATGAGGAGGAAAGGCATTTAATGAGTTTGTATAGACACATTTTCAGATACCCACACAGAGAAACTGCAGA
AGAGAAGTGCAAACACATTTACACTGTCCTACTACCATAGATGATGTTGAAATTTTGCAAGGGATTACTAAAAGATGTCAAATGAGCTAACTATAGGATG
TGAAGTCATGTTTTTGCCTACATTTGCTAATTGAAGAACTGTGTGTGAGAGAGGTTATTGTAAAGTGTCAATGACTCATTTTTTGTGTATCATGAAAATT
TTGCTCCATTATTTTATAGCTACATAGAATATGAAAAGATATTTACACAAAAGTATCTGAAAAATGAAAGTCAAGAGGGTCTCCACAGCTACAGCTAGTT
GCCAAGGCAAGTTAATGAGTAAAGGAAACATTTTAAACAAATGGTACTAGAACAATAATATAAATGTTTGAAAAAGAATGAATGGACCTCTTCCACACAG
TATATACAACCGAATGTAAAAGTCTAAACTAGAATCTAGAAGAAAATAGGAAACAATTTGTTTTGACCTTGGGTTGATGAAGATTTATATACGGTACACA
AAAAAAAGCAAAAACTATAAAAATTGATTGAATTTCTTATAATTAAAACAATAAACTTGGCTTATCAAAACACACTCTTAGGAGAATGAAAAAGAAAGTC
ACACATGGATAAAATATTCTCTCTCTCTCTCTCTCTCTATATATATATATATCTGACAATAAGCTATACCTAAAATATATAAACCACTTTTATTACTAAA
TAATACAAAGGTAAACAACCCAACTACATAGGAAAAGGACTTTATCAGATGTTACAAAAGAAGGTATATGCTTGGCTAGTAATCACTTGGAAAGGTGCTC
AATATCATCATCAGGGAAATATAAATTAAAACCCCAATGAGTTATCCCTGCACAACCACTAGAATGGAGAAAATTAAAGAGCCTGAAAAGCACCAATATG
TTGGTTAGGCTGTAAAGCCCAGAACTCTCATACATTGCTGTTGGGAGTATAAAATGGAACACCTGCTTTGGAGAAAGTGCACACCTACTCTGTGACCTAG
CAATGTCACATAGGTGTTAACCCAAGAGAAATGTCTGCAAACAATATGTATTGGTAAGTGAACCACCACTTACCAATTATTCCATTCATAAAATGGAATA
TTACTCAATAATAAAGAGGAATAAATTACTGATAAAGACAACAATATGGATTTATTTATATAGCTTGTATTTTATCTCCATTCATCAAAAATCTCTACTT
AATTTGGGTGAAAGATACACATTTTCTTTCTTTACCTGAGTTTTTCTTGAAAGAGACTATCAGGTTTACAAGTTTAGAAGTAAGAATGTTAGTCTTCTAA
AACATCACTTCAGTAGAGGAGAACTTTTGAGTCACAGACTAAGTCTAGCCTTCAGTTTAATTTCACCTGATGATATTGCTTTGATCAGATAATGATTGTG
AATGGCAAAGCAGAGGTTCTCAAACCTTAATGTGCATGGGGATCCGCTGGAGTTTCAGATTTAGCTGGACTGGAATGAAGCCTGAGATTTCTCATTTCTC
CCAAGTTCCCAGGTGATGCTGGCACTGCTGGTCCAGGATAGATGAGTGCTCTGGATAATGAACTTTCTGTTGGAATTGGAAGGGCTGAAAAGAATGTATT
TTCACAATTTGTATTTCAAAGAGTACATGGATATCAGAGCGTGGTGAAGCCTGCCCTTTCAGGCATATCACAGTTGGGACCACCGTCTGAGTTCATTTTA
AGCCATTTTAGGCACCTCCATAATGAATGTATCTACTTTTGCCCCAAATTGACCGTTTTCCTTTCTACTTGACCTGTTGACCTGAGGAGAAGCAATAGTG
AAATGATGAACTAGATTAAGAAGGGTATGCATATTGTTTTGTATCTTCTAATTGACCTGGCGTTGACAATTTCAAAAARTGTATGAGTTCTTAAGCCATC
TCGTTGATTTACTGAAATAGGTTGAATGCTGTGGTGGCTTCATGACTGTGCCCAGTTCTTCCATCCATGCATGTTGCCCTGTGACTTCTATTGCTGTGAA
ACTCATGTGAGTTGTCAGCCAAAAAAACCAAGTGGAATGTGAGTCTGACAGTTCTGAGCAGAAGCTTTGAGAGCCTCCCGTGGCTTCTCAGCCTTTTTGC
TTTTTCCCTTCTGCAGTAAGAATGGCACGTCACAGATAGTGACTGATCTTTCGGCCAAAGTAAGAAAAATACGTGAAGAGTTGCAGCTGACATGTAACCT
GAGCAAGAAATAAATAATTGTTGTATCTCAGTGAGACTTTGGGGTTATTATTGTGGCAAAATCTAGAAAAAATCCACAAATAGTCTATATCTCATACCTG
GTGTCAGGTATTGGGATAGGCTGATTATGTATTTTATTTGTATTAGTCATCACAATAATGGTTACATAATTTTTCTCAAATCATAGGGGAGAAAATAAGG
TTTACAGAGAGTTGACATCACTAATTCTGGGAAAAGATTTATTTCAAATGTACTGTGGTGTGATGATGCATAAAATTATGAAATATGACTAAGATTTTGT
ACAAATATAATGAGAAAAGTTATCAATAGTACTAGTTTAACCTTTTAATTATAATATTCTAATCAATGGGCAGAATTAATGCAATTATAGACAATAGCAG
AAACTCCTTTTCACTAGAATTGGCTTTCTCATTCAAATTCAATCGAATATATTTTTAAGAACTGAAAGCAAAATGTTCCAGTTAAAAATTTCTACTCTGC
AAAACTTGGAGTACAATTTAATTAGCTTTCTTGGAGTAAATGAACTGAGATTTTGATCTTTGAAAGTGGAAGATGATAGACTCCAATGGGGAGATGACCT
TAGCCTAGTTAAGAAATGTTTAGTCAAGTAAGTCAACATGATAATGTAACAGATCATTGGTATTTTGGTTGCTAATGAGGCAGAAAATGAAAGCTTCATA
GGAGACATAATAAAGGCCTTGATATCCAAGTTTTGTGCTTAGGAGGCTGGTTTTAATGACGAGATTAAGTTTAGGGATATGCAAAGTAAGATACTTTTCC
AGTGAGATGGGAAAGATTTCAATAAAGATGTTATATAAAGAAAGTTTTGAGAATCCACTGGGCTAGTCATTTGGGACTAGCTTTCTTAAACATTTCATTC
ATTTATTCCTTAATTACGTTTTTACAGTGGACCTACTCAGCTAAGAGTGCCAGGTGTGTGTCATATGCACTGAATAGGAAATTATCCTGTTCTCACAGAT
GTCTTACATTTCAGTGGGGGATATAAACAAGAAACAAAGGAATTCCTTTTTAAAATCAKAAGTGCAATGAAGAAAATGATAAAAGAAGAGTGTGGCTATT
TGCAAGGGGCAGGGATAGTATTTGCAAGAGGAAGGGGTGAATGAAAAGGGAGCTGATAAGGAACCAATGTTTTATCTAAGACCCGAATGAACTAAAGAAG
CATAGATATACTTTCAATATAAGCAAAAGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTCTAGTTTTATAGGCAATTATGCTCAATTTCAATTCGA
ATTTCCTTTTTTTTTAGCTTTATGTGCATATCTTAACTGTAGCAGCTATGCTGGGAACATGTTAAATTGTATATTATATAGTCAAAAGAAAATGAGAATG
TACAATTATCTGGGAAGGTTTYGTATCATTCATACAGACTTTTAGAAAAAAAAATTGGTTCCCTAAATTATCTGTGTTGCCTCAGCAAATAAGAGTCTCT
CAAGCTTTTGTGGCACAAAATATCCTATGGAGCAAAAGATTTAGTCACTGAGTTATTTCCACCCCTGGCCTACCTTCAAAAAAGAATGTCATACCGAAGG
AAATAAAACACATGTTAAATATCTGCATAATAAACGAAATAAAAGAACCGAAAATAACATCTATTTCAATAGAATGAATAAGAATATAATCTCTTTGAAA
TAAACTCCAATTTAGTCATAAACAAATAACTCATGCTAGTCATAGATATTATTACATGCCATGTAGTTGTGTGAGGTTTAAAAAATCAGTCTCAAAGCTT
ATTAAAGGAAGTACAATTGTATTATTTGCTCGTAGAGTCAAGAAATATATGAAATGTGGCCATATTTCAATGAGTGCTATTGTTCAAATACTTGCTGATT
CCCATGGTAAAGACAGAAGATACATTCTTAATCTGTATGCACTCAGGTACTATAGATTAAATGTGCAGCTCTTTGTGTATTAGAATTCACTCCAGTAACT
AATGTAGACCCAAACCATATAGGAGGTAGTAATTATATATGCATAAAGAAGGGCAGATTAAGTCATTTCAAACACTTTAAAGAATATCTGGGCTAATTTT
CTACTCTCATATGGAACTGAATAAAATCCAGATCAAAATTGCATCCACCATTTATATTTACCATAACTTAATTGTGGCATAATTCAATCAGTATCTAAAG
AAAACTGAGAGGAAACAATTACTGTTTACCTAACCAAGTTATGTCTGTTTTAAATGACTTAATTTCCAATTAACTATTAAAAATTAAAGAACATAAAAAT
TATACAAATTAATTATTTACTCAGTGATGAGAACTTTTTTATCCCAACAGGCTGAGACCATATTTAAWACTTTTCCTTGTATTTTATTCTTCCATGCAAT
ACACTTTTGAGTTTTCAGAATATGTTCCTCTTTTCAGTTTGTCCCTATATGTTGGTCAACAGATTCCTAATGGCAATTCAGAATAGAAGAGTGTTTAACT
CTAGAAATTTGATTTTGGGTACCAACAGCCTACTGCAGACACTTTCAGGAAGAAAAACTACTTTCTAATTGGCCAGTGTCAAGGATCCAAGAGTCACCTA
TTCCTTTAATACTCAAACATATATCCACTTAGTGGGAAAGTTACCTTAATTTATCATTTAATCATAATCATTTTCAATCTGAACAAATCAGAAACTTATG
ACATGTTTAATCAAGGGCTAACAGGAGGAATTGGCACTCTGGATCAATATAAAATCTCCATATTTGTTTAGAAGCCTATTCAAACATGTATAGACTATAG
GCTTGTTAATATGTTACTTATATTTCTTCAGTATTTTTTAATGAACAGAACTATTGAAAAATTAATTGGAACCTTCTTATTGACTTTCGTTGGAGACACC
AAGTTCTACTCCTAGGTTAGCAGAGGATTAATAGCATTGAACTACTTAAAAATAGCTGCATCTTGTGCTTTGCAGAAGTGGGAAGGAGAAGCTAAAGAAA
ATAATTATTCCTCACACTGTGTAATACWCTGGTCCTGGTGATTTTCAATATTGAAATACGTTCTATCATCTSTAAAGTTTCTAATATTGATCCTGCTGTA
TCTTATTCTGAATATATTATTTCATATTATTTATTTGGATGCCAAAGACTCAGTCTACTGCTTTGATAAATTTTGTTCTAGCTCATCACATCAAATTTTT
TGTGAAGGAATTTAATTAAATTAATTTTACATGTTATATCAAAATATCACATCCACTTAATTCTGAAAGCAACTCTTTACTGGGGCTGAAGTTTAAAATT
GACTACATCTAGAAAATTCTATGGGTATTCATTAGACTATTTTTATAGTTATAAAGTGTTCATGTGCGTATCACCAAAAATAACAAAATGGGAAGATACA
TCAAAGTTATGTAGAACAAGTTTGCTAATGTTCCATATGTGTAGGCACTTTCAATGACTTGGAGGTGATGATATTTTCAAATAAAATAATTTAAAAGCAT
ACCTCAATTCAATGTTTGTTATATACCCAAAGAAATTTGTGTATGTATGTAACCATACTTGAAATGTCAAGTATGGTTTGAAGTTAAATCGGTGCTGGGG
ACAACAAAGTCAAAATGATTGGAACAGTATTTTTTTTTTTTTTTTTTTTRAGACAGAGTCTCACTCTGTCACCCAGGCTAGAGTGCAGTGGTGCGATCTG
GGCTCACTGCAACCACCGCCTCCTGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACGTGCCACCACACCTGGCTGAAT
TTTTGTATTTTTAGTAGAGATGGGGTTTCATTGTGTTAGTCAGAAWGGTCTCGATCTCCTGATCTCCYGATTCACCCGCCTTGGCCTCCCAAAGTGCTGG
GATTACAGGCGTGAGCCACCATGCACCATGGAACAATAATTTTAAGAACATTAATTGTTGACATCTTGGCTGCCATCACACCAACAGAAATACTACCATC
ACTCTAAGCCAACTCTCTCTTTTACCTTTGGTTTACATGGGCATACCATATCTGGCTACAGAGAAATTCTCCAGGAGTCTGCAGTACACTTTCACATTGT
CCAGCAATGCTAACATTCAATCTTAGAGGTCATTTAGCAGCTCATGACTGAGTTGATTTTGTGCAGTAAGGCATAGATCTATAATGAAAAACAAATCTTC
ATTTACTTCTGTTGCCCCATTTAATGATTATGAAGAGTAAACTCTTATAAAGTAAAGTAATACTCTACTTGAAAGGAATATTCCTGTTACACTATAAAAT
ATATTACCAGATATTAATTTGATGGTAGAACAAAGGAAGGATCTGYTATAAAATATATCAAGTAAGGTTTTACATGTCATTATACACAAYTGCAGAGTTT
TTTGAGAGGCTCTAATGAAAGGGTACTTCTCATGCTTTGGAAGCTCAAGTCTTCCTCCTCAAAGAGAGTCAATGACATTATTTTACAGAGGATTTTGTAG
AAATGAAAGGTAATTAATGCCATATAAAAGCAAAAACATTACATCTGTAATTGCTACATAGCATGTGCATGACAAGTTGCTGGTGCCCATAAGGGACAGC
ACTTGAAGGTCAAAGGAAAGAGCATACCCTTCCACCTCTCAGTTTGATTTGAGTATTAAATGAGCTAGCACACAGCTTGGCACATGTTAGGCTTTCAGTA
TTTACCTTCTTTCTTAAAAAATAAAAAAAAAAAACTATTTGTATTAGCCCGTTTTCATGCTGCTGATAAGGATATACCTGCAACTGGGCAATGTACAAAA
GAAAGAGGTTTAATGGAGTCACAGTTCCACATGGCTGGAGAGGCCTCACAATCATGGTGGAAGGTGAAAGGCACATCTCACATGGCGGGAGACAAGAGAG
AATGAGAATCAAGCRAAAGGGATTTCCCTTTATAAAACCATCAGATCTCATAAGATTTATTCACTACCATGAGAGCAATATGGGGGAAACCACCCCCATG
ATTCAATTATCTCCCACTGGGTCCCTCCCACAACACATGGGAATTATGGGAGCTACAATTCAAGATGAGATTTGGGTGGGAACACAGCCAAACCATATCA
CTATTATTCAGAGTAATTATGATCAAATGCAACAGTGAGATTGAAAATATTATTTAATATTGCATTTTGAGTACAAATAAATTTTGGCTTTTAATCGTGA
ACAGTCATAATGTTGAATGTTTTACTTAACTGTAYTTATTATTAATTTTTTGAAATGGTAAAAAGTAACAACTAACAAACTAAGAAAAAAGAGAAAGGAA
ATGAACAGTGTTATAGGCAAGTAGATGCTGTGGCTTACAAGCATATGGTTTTCTCTCAGAAACGCCCCAGYCCTGTCTCCTATCTCATCTCTAGGAGCCC
ACATCTACACATCAACCTTTCCTACCTGAAGTCAAGACCTAAAATAGCTGTTTACATTTGGAAGATAGTATTCAGAGTATTCGCTTTAAATATCTTATCT
AGAAATTACAAAAAAATTCAGACTTCTCATAGATTTTCTATACCATATTTTCTACTCGTGGCCAATATTTCCCTGAGACAAAGTTTTCTTTTGTTCTGAA
ATTCATGGGATAAAATAATTGCTTGAATAATCAATTTTTGGAAAGACTGATAATGTTGCTCAAGAATTGAAGATACACATATCTAATCATCATTTGGAAT
TGGGTGAGTCATCTCCAAGTTATTTCATATGAAATAAAATCAAATCCATTATTTAAATTACAGCTCACAGATATTTCTGAAATTACAATTCCTTCAAATA
TATATAAGAAGAAGTTAAATATTTACTTTTAAGATTTATTCTAAAACAAAATAGTTTACTACATTGAATAGACTCAGATTTCAATTTGGGTCTTTAGGTA
TAAGTAGGACCTGTCTTCCTTACTTTTAATTTATTTTAGCATGGCTTTATTATTCTGCATTACACACCGTCTTGTGTGTTTCCAATTACAAACCATGTTT
CATTGGGTTCTCTCAGCATTTTAGTTTTGTTTTTGAAATATTTGGTGGTTGCTTCTCCTCTAAAATGCTTTAATGCAATTTCGGTTAAACTTCAGATCAT
CCAATTATCAGAATAGCACTATATAGACAACACATGAAGAAGTGAGTCATTCACCCATTTCCTGTCTTTTGTTTCTTTACTGATTGAAGGGTTCAATAAA
TTCCTTCAGCTCATAATGACCATGAAAGTTAAATACTATTTTTATCCATTCAGCTGGGTTTTAAATACAGCATGTGGACCCATCATTCTGTCATGGGCAG
AAGCTCTGGAAATTCTTGAYAACTTATAATCTTCCCTGCCCATATTCACAAGTGAAAATGATTATACTTACAAGAAAGAACTTTACACACTAATTTTTGA
ATCAACTTTCAGAAAGACAAGAAGTCCATGAAAATCAGTGTACACTATTGCTTTTGAGAAAAAAATTATCTGAGTATAAAGCATTCAGGATTTAAGGGTT
CAACTTATTACTTGTTTATCACAAGTTAAAGTTCTTGTTTATCACAAGTGGAATAAAATCAATTATTCATGATAACACTTTGGCTTACTCAATGTAAATT
TTCTTGGATTAAAGTTAAATTTTAAAATAAGGCAGTCTGTTTGACAGAAAATGAAACTTTTACTTTAGGAGAAGAATACAATGTCCCAGACCACTCAATT
TAGATTACACCAGGCACTCTCTTGATTTATCCCATACCCTTGTATATTCTACCTGGGTACATTTTTTACTACCTGAAATCTCACCGTATATTTTTTTACT
TCTAGAAGTCTATTTTACCTTTTAGGATAAAATTACAGAAGAACGCACACTTTTCTTATTTAGCTTTGTGGTCTTTAAATTTTTTTAATTTGCATTTATT
TTATTTTAAAACCTTCAACTTCCATTTTGGATTCAGGGGGTACATGTGCAGGTTTGTTACATGGGTACACTGTGTGATGTCAAGGTTTGGGGTAGGAATT
ATCCCATCACCCAGGCAAAGAGCATGGTACCTAATAGGTAGTTTTTCAGCTTTTGTCCCCCTCCCTCTCTCCCTTTCTAGTAGTCCCCACTGTCTATTGT
TCCCATTTTTATGCCCATGAGTACCCGATGTTTAGCTCCCACTTATAAATGAAAACCTGAGAGCAGTACATTAGCATGTCAAGTACTCCAGTGTCCTAAT
AAATAGCTGATGACTAACGTTGAAGGAATGAAAAATATCCATCATTACTTATTTAGTATTAGTGTACATTTTACTACCATGGCACTTATGACTAAAGGTT
TTGAAATCTGCACTGCAGAACTTCATGGGTCTTTTTTTATGCCTATGTTCTGAGTGTAATTATTCCTTAGTTGTTTCATGTGTATATATGAGTTATTTTT
CTCAATTAGGATGCAAACATGCTGATGGCAGGAACTTACAATAGCTTCATCTTTTGAGTTCTATCATGGCTGACATAGATTAGCAGCAGAGTGTCAATGT
GTGCAGTGAGGGAATGATGAGTCAATGTCTGAGTGCAACAGTAGGTGTCAAGTAATGGTTGTTAAATAAATGCATTACTTTAATAATCTGCCAGTCAGTT
TATGAATAAGGTGAAGAAATAAACATATATTTCTTTTTATTTTTTTGCATATTTTAAATTATTTCCTCTTGGTCTATATAGAAAAGGAGTTAAAATGTGT
GCTTTCTAAAGTCTCTCTGATTTTTTGATTGTCTATTTATGTCATTGTGGTTTTTATTCTCAATTTTGGGGTGTACTCCTTCATAACTTGTGTTTATGTG
TCTTTCTTTTTTATTTTATTTTATTTTATTTATTTTTATTTTTTCTTTTTTTTCTTTTTTTATTATGCTTTAAGTTTTAGGGTACATGTGCACAATGTGC
AGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCCTCATTTAACATTCGGTATATCTCCTAATGCTATCCCTTCCCCCT
CCCCCGACCCCACAGCAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCGGTGG
TTGGTTTTTTGTTCTTGCGATAGTTTACTGAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTACAT
AGTATTCCATGGAGTATATGTGCCACATTTTCTTAATCCAGTCTGTCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAAGAGTGCCGC
AATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTART
TCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTC
TCCAGCACTTGTTGTTTCCTGACTTTTTAATGATYGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTACATTTCTCTGATGGCCAG
TGATGGTGAGCATTTTTTCATGTGCTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGCTCATGTCCTTCGCCCACTTGTTGATGGGGTTGTTT
KTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGGTGAGTAGGTTGCAAAAATTTTCTCCCATTTTGTAGGTT
GCCTGTTCACTCTGATGTTAGTGTCTTTTGCTGTGCAGAAGCTCTGTAGTTTAATTAGATGCCATTTGTCARTTTTGGCTTTTGTTGCCATTGCTTTTGG
TGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCCAGGGTTTTTATGGTTTTAGGTCTAACGTTTAAGTCT
TTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTGGCCAGTTTTCCCAGCACCATTTATTAA
ATATGGAATCCTTTCCCCATTGCTTATTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCAGCGTTATTTCTGAGGGCTCTGTTCTGTTCCA
TTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCGTGATGCCTCCAGCTTTG
TTCTTTTGGCTTAGGATTGACTTGGYGATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTA
GCTTGATGGGGATGGCATTGGATCTATAAATTACCTTGGGCAGTATGGCCATTTTCATGATATTGATTCTTCCTACCCATGAGCATGRAATGTTCTTCCA
TTTGTTTGTATCCTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACGTCCCTTGTAAGTTGGATTCCTAGGTATTTTATT
CTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTT
TGTATCCTGAGACTTTGCTGAAGTTGCCTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAGTCATGTCATCTGCAAACAG
GGACAAAGAGGAAGGCTTTATGTGTCTKTCTCCATTGCATTAGTATGTTGGAATAAAGTCCACTGTGATCACAGAACACAGTTTGTGGAAAATAAAGTCT
AGGACTTCATTTTCTCATATGTAATCTTTAGTCACCAGTGAGAATGAGCTGCTTTCATTCCCTCAAATTTCTAATACAGGGTACAGGGGAGCAATTTGAG
AACCAGCTGGATCCACTGTAGGGGCTGGGAGAGTAGCTTGATCTCTTCACTTCTCTATCCCCTCACCTGAGTTCTTATAAATAAGTCTTAGAAATAAGTT
CTTATAAATAAGTGACTTATTTATAAGTTTTGTGTTCAGCAGTTCTGGTTTTGCAATGAGAAGTGCTACAACTTCTCAATGAATACCAAGCTCTTTCTCT
TCTTTCTGGGGTTGTAAACTGGCGGTCCTCCAGAGTGGCCCACACAACGTTAGCTCCATTTCAAACTTAGAGCCAACATCCAGATTTCTGGAAACTCTTT
GAAAAGTGGAAGATCCGGCAACTTTGGCCCAGATCCCTGGCTGGCCGTGTCACCTCGGGGCATAGTAGCTGCTGTCTTTGAAGGATGCATGCTTGGCCCT
CCCTGTTGCTCCCTTACCTGAACCTTAGTGGAAGCTTCCAGTTACCCTCATACTTGTCGAGTACAGTCTAATGGAGAATAAAACACTGACTCTGCACCTT
CAATAAAAACTACTTTGGTCACTAGATATGTGAGTTTGTTCTTTCTCCACCAGAATATAAAACAGTGGAGTTTTATGTATAAAGTAGAGGGAGATGGTCA
GGCTCAATTTTATCCTTTTCATTGCATTTGGAATCTGAGTGATATTCATGGAAAGGACAACAAGGAGTTCAAATATTAGAAGTGGTGTCTAATGTCCACT
TCAGATAATGGTGAGATCAAATGATTGCGATGCCTATGGACACTGATGTCGCCTTGGAGATATTAAGTAGGATATCCTCAGATTTATAACTACTCTATAC
TCACAGTGAGATTACAGCAGGAAAATGAAGTTCATCAAATTTTCATTGAAAAAAGTAAACAAAAGCTGCCAAATAAAGATTTAAATTCCTCTTTAGGGAT
TCAGCAAATACTTGAAAAGCAAAGTCATCCTTATATTTACATTTATATTTTGTTCAAAATGCGCTGTAACCATTTTGAACAAAATGTAACTACGCCTCTG
AATTTGTCTAAGAAAAATCCAGTAACTCTTTTTTAGATGAGTAATATTTACTCATTTATGTGAATAAGCAATTGACAAATAAAGGAATAAATTAGATATT
GTGGAGTACCTAATGAAAATATTAGAATGTATAAGGCATGGATTTCTAATTCATGTAATACCTTAAGAACTAGATTCTTGGAGAGAAAATATTGTCAGTT
TCAGATAAAAGGATTTTAGATAGAAGATGAATGTCATCAAAATAAGCAGCAATGGAAAATAGAGACCAGATAAGTAAATTGGAGAATTGCATTACTCAGG
AATAATTTTTGACTCAATAACAGACACACCCCCTCCCAATCAAATGGCAGTTTAAACAAATTTTGAGGGAGGTCTTATTTTGAGGAAGTGTAAAGGTAGG
CAGGTTAGGGCTGGTGTGACCACTGTGTAACATGACCAAGTCTCTCATCAGAGACCAAGGCTTGCTTTGGCTTGTGGTCTGTAAGATGGAACCACACTTG
CACTCATGCTCTAAGATATCTGCAGGGACCCTAGAGTCATCCCTGCGTCTCAGGAAGGAAGAAAGTAAAATGCCAAGGGAAAACAAAACGACATTGCTTR
TTCTTTAAGTAAAGAACTTGACACCTTTAAAGCCACCTTTTCAGGAGCCCACTCAGTGGCTTCTGTTTCTTTTTCATACAATTATATTTCATTGACTTTG
ATTGCATTCGACAGGATATAGCTATGCCTATCTGTGAATGAGCCTGGGAATAGAGCTTCGTATTTGGGCACATTATAAACCTGAAAAAAAAAATTTGTCT
CTAAGAAACAAGGGGGTCATTATATTGTATAGGCAACTAGCATTCTCATTGCTTTTTCTCTCATTCGGGGAAATTAAGTATAATCAATACCTTGAGGCAT
AGTTTGCAGGTTCTATGCAAAAGCCTTCTCTGGGGTGAGCCAGGTAAGCAGCCAGGGAGTGAGACAGGGAATCTGAATACGGGCTCTAAGAAGTGAAGAT
GAAAAGCTCAGGGATGGGCATAGCATGAGGTTCATGCCCCGCAACTGCCTCACGCAGGAGGGACACGTGGGTAAGGAGACTGAGTTTAGGTAAGTGTGTT
TTATAAATTCTCATTTCTCATATTTTGTGTTCTGGGATAATTTATTTTTTGTTTTTTGGAAATTAAGTGGGGAAAAATCCTAGTATTTAGCTTTTGATAT
TTGAATTTTTTGTTTTCTCCAACTGAACTTCTCTTGCATCTGACTTCAGAAACAGTCTCCAGTTTTGCTGGAGGAGCAATATAATGCTGTTCTCTGCCTA
ATGAAAGCAGTTAATAATGATTAATGCCAAAGAGTGAGTGCTCAGAGGGAGGAACAGAGCTGCTGGACAGTATCCACCTTTGATTGATGTGTTTCCATTG
GCTTTTACCCTTCATTGTTTCTTTGCATCTGCAATGGCGTGAACTGCAAGCACCATTTTGAGGACAGTATGCTTCTTGTTGTAGTCTCTCACATATTCCA
CCACTCCACTGAGTTTCCCTAAGAATAAAACTCTTTTACAGTAATGGGTGTTTCCTTTTGAGAGCCACCAGGTGTAATTATTTTACCTTGTTGTATTTCA
GTTAAAAAAAAATCATTCTTAATGTGAAAAAGCCTAAAAAATATATGAAGATTGCAAATTACATAAACGAATGGTCAAAGAACCTTAAGAAATAACTTAC
CCAAAGGTTAAAAAAAAGTAATTAAAATGTATATATAAAAGTTCCATTAATTTGGAAATATGAAACTTTTTTACTTATAAATTGGAAGGATGTTTTTAGT
GACATTCAGGGTTGATAAGAATTCACCGTGGAGTAACTGGCCAGTGTGAATAAAGAGCCTTAAACATCTATACCCCTTTCCCAAGTAGTTTTATTTTACA
GAGTCYACCTCAGTAAATGCTACAAAATGCAAAGGTTTATATATATGTATTAATACAATCTTTGAAATTTAATTTCTAATATTGGAAAAAAGAAAGCAAC
CTAAAAATCTAATAAGAGAATTAAATGGTTAAATAGAATGCTGAACCACACTAAAACAAAACAAAACAAAAAGGAAAAAACTTTTCAAAGGACAKTGAAA
GACATGAGATGTTACTGATGTCATATGTAAAATAAGTAAGATTCAAAGATGCAAGAGAGGTTCAGTTGGAGAAAGAAATTCAAATATCAAAAGCTAAATC
CTGGAGTTTTATAACATATATTGTATATAATCCGTTAACAAGAAATAATAGAAATTAAATGGGCCAAAAATCTAAAAGTAATRGACCCTGAGTGGTACAA
TTATGTATTACTCTTGTTTTCWTCTCTTTTTTTATTTTCCCATTTTAGACAGTGAATCTATATTTGTTCAGTCATTAAAATGTGTTAAATATCTTAGTTA
GCATGATGTTTGTTATTCACTGAAATATATGAAGTCAATTTCTAGGACAGATGAGAACAAAAATGCCACATAATCATGAGAATAAATTTTTAGACTTCTG
TTTACCACAATTATAGAAATTAATTAACCTCAAGCAAGTAATTCAGTAGTAATAGAAATAGTTATCCAAATTAATATTTTTCATTTTCAAAACCATCTAT
GATGAGAAAATATTTGTCTATAATTCATTTATAATACAAGATTTTTATTGAAAAATTTTATTGTTAACACATTTTAAAAATTAATATGTGGTTCAGTTTC
TTTTTATGATGAAATAGTTTTAGCAGACCAATGCTACTGACAAAGTCAACAAGAAAAGCTGTATAAAATACCAACAAAAAAAAATATATTTGAAGGAATG
GGAATGCCGTTAAGGCAGCCAGTGCTTGAGAAACCCAGATCTCATAGGGAAAAGAAGCTGATTTGGGTGTGCAATTCTTCCCTCTCAGGCCATTTGCTGA
ATTTTACCCTGTGCAGGGAAAGAGGGTGAGAAGTTCAGCAGATAACTTGGATAKAAGAAGAGAAGATGTCAGAACTTTCTGGGTTCTTACAGGGTTGGAA
GAAAATATAGAAGGTTGAGACTTTTAAAGCCACCAGCCCTTTTGGGTCAYGACCTTGGAGACAAAGGAGGTGCGAAAAAGGGAGCCAGCTATTCCACCCT
GGTTTTTTTCTCCAAAGCATTTGCCAATTCAAGAACAGTGAAAGATTAGAGAATAAGAAGCCAAGAAGAAAGTGACTAACAAATTGATTAGAACTGGTGG
GAGCGCTGGTGTGCTTGGAAAACAAATACTGAATTTCAACATCCATGAAGAAGCATGGACCTCATGTTCTTACAGAAGCGTATGGAAGTATTGGTGAATC
AGAGAGATCAAACCTAGCAAAGACTGCCACCTCCCTGGCATCAGCTCAGTCGCTGATTGGACTTGTGAGATCTACCCCTAATTTTGATGACTGCCAGACA
ATAGGATAAATTATTTCAGGAGAATTATTACACCGTTCAGAGCTTCTACAGTGTCCTACATTCAATAAAAATATRTCCAAACAAACAAAACAAATAAGCA
GACAACAACAAACTAGGACTGTTAGGAAATACAGATGATAGAAAGAGAAAGGTGAGACAGATATTGGAATTATCAAATATGTGTGATATATGTTTAAGAG
AGGACAAGATATAGAATTCAAAAGATATTTAGAATCAGTAAAAGAATGCAGTAACTAAGATCGAGAACTCAAGTAGTGCGTTTAACACAGATTGGGCATA
ACAGAAGAGAGAATTAGTCAAAACAAATAAGAGATAGACATTTAATGATGAAATATTTAAAGCTTTCTCCCAGTGATCGAGGACAAGGCAAGGATGCCTG
ATAGCACCACTTGTATTCATCATTGTTTTGGTGAACTTAGTCCATATATAAAGGCAAGAAAATTATAAAAAGACATAACAAATGGAAGGGAAGAAATAAA
CTGTTATTGTTCACCAATGACATAAAGTAATTTCTGGAAAACCATTAAAATTATTAAATAAAGTTCATAGAAAATAAGAATATAAGAAAAAATTAGTTGT
ACAACTATCCTAGCAACAATGTTAGACATGAAAGAGTATATTCTGCATAATTCCAATTACAAAAATTTCAAAAATTGATCTACAGTAATAGAAGCTAGGT
TAGTGGTGGAGTTGGTGGGGGACAGAAGAGGAAATCTGGGGGTGTTAGTAATATTATTTTCTTTCACTTGAGTGTTAAATTGATCTGTTCACTTTATGAC
AATTCATTGAGTCATGAATTCATGATTTGTGCATTTCTCTGTATATGCATGATAAGTGATACTAAGATTGACATACTAGGAATATGAGACATCTACATAA
GATTTTAAAGAGTGATAAGAGCCATAATTAAAATTATGATTAACACACTTTTATTCTTAATAAAGAGGAGTATGCATATGAATCAAGAAATTGGTAATTT
TAGTTTTAGAGTCTTGTTGGCTTTTAAACATCTGTTCACTTTTGTGGTTCACAGATATTCAATTTTTATTGAAATTTAAATGTGAAAACACATCTGTTTC
TCTGATTCATATTTTTATGGTCAACTCTGAAATGAGACAGTTGTGAACTGAGAAATTATTCAAAACACAAGGGATGTGTCTTCCTATTAYTTGTGAGGAG
GAAGTACAATAAAGTCCTGAAATCAGCAACTTGCATTGGTGGCTTGTTTACATAAGGAATATATTAAATATTTCCTTTTCTACTGTGGATTTCTGTCTTT
CTCAATTAGACTATAAGGTCAATGTAAGAAGGGTTCCTAAATAAATGATTAAARAAATTAAAGTGTGAATAGCAGAGCTACATTTTGAATTAGAGATTTT
TAAAAATATTGTCAAGGTAAGGGACCTGCGGATGATATTTCTCATGGAAATCTATACTTGTTTAGATATTTTTTTTCCAGTCCAATGAGGTAATGTCTGA
TCGCCTAGATGCTTCTGTCACAACCTTAGCAAGGWTCATGATTTCTCAATTGTATTGCTCAAGAGCCTTTGGCTGCTCTTACTGACCAGCCTATTACTCA
TCTTGTACACTTTGATTTATGTATTCACCACACTACCTTCAAGGTAATCTGGCCAAAATTTTATTTTCTAATTTTTCAGCTTAAAGTTTATTAAGACTTT
AGGACACGTCTAGATTCCTTTCCTCTACCATACCCTCTTAGTTTCACTTCAAACCTCAGTGAAAGTGTGACCTTTTTCAAGAAGCTCTCAGGGCTGGAAC
CAGATATCTGTGATCTAGTTACATTTCCCACATTCTTACCACCTTGAGTTATAACATGTAGGATTATTTGTCTGCTCTGCCCAATAAAGTGTAAGACACC
TGAGAAGGATTTAGAGTAAGAATAAAAGCAAGAGAGAGAGAGACTGAGAGAGATAATTAGCGTTTTTTTCTGAAAATGCATTGTCCTCTTAATGCTCATG
GTACTGTTGGGTCTCAGCTTTCTCATCAGATTCTAAAATGCTCAAAAACTTTTTGATTAAAGTAAATGTAATTGTTGCCCTGCACCGTGGTCTTATATTT
TCTCAGATATATACTAACAGCATTAGAAGCTGTACTTTACTTTCTTTCTTTTAGGAAGAATATTAAGTTAGTTTGTGTTTAAATGAACTAATTGTTTTGC
AAATGTGTTTATAAGGAGATGATATACATTTTTTTTTCTTGTACCTTATGGTAAATACTTGAATGTTTGTATTATATATTTTCCCAGTATCTTCCTTTGA
CAGTAATTTTTATATCATGACCCTTATTTCATGTTGAAAAGCATAAATACATTCATGGTAATTGAAAATATTAATTACTTTTCTTTAGCATTTGTCCAAA
ATAAAAAGTAAGTATCACCAGTGATTTAAAATGCAAATTTTGAGAAATACAAAAATTGGATCAAGTTCTGGCTCCCCATCTGCTGGCCAGGTGACTTCTT
TTTTTTCTTTTTTTTTTTTTTTAGTCAACTTTTAATTTCTAGGGTACATGTGCGGGATATGCAGGTTTGTTACATAGGTAAACATGTGCCATGGTGGTTT
GCTGTACAGATCCGCCCATCACCTAGGTATTAAGCCAAGCACCCATTAGCTTTTCTTCCTGATGATATTCCTCCTCCCATGTCCCCCTTTTGACAGACCC
CAGTGTGTGTTCTGCTCCCCCACAGCCCACTGATATGTCCATGTGTTCTCATTGTTAAGCTCCTACTTATAAGTGAGAACGTGCAGTGTTTGGTTTTCTG
TTCCTGTGGTAGTTTGCTGAGGATTATGGATTCCAGCTCCATCCATGTCCCTGCAAAGGACATGATCTTTTTCCTTTTTATGGCTGCATAGTATTTCATG
GTGTATGTGTACCACATTTTCTTTAGTCTATCATTGATGGGCATTTGGGTTGATTGCACGTCTTTGCTATTGTGAATAGTGCTACAGTGAACATATCCAT
GCATTTATCTTTATAGTAGAAGGAATTATATTCCTTTAGGTATATACCCAGTAATGAAATTGCTGGGTCAAAGGGTATTTATGCTTCTAGATCTTTGAGG
AATCTCCACACTGTCTTCCACAATGGTTGAACTAATTTACACTCCCACCAACAGCGTAAAAGCATTCCTTTTTGTCTGCAACCTCTCCAGCATCTGTTGT
TTCTTGACTTTTTAATAAAGGCTATTCTGACTGGTACGAGATGGTATCTCATTGTAGTTTTGATTTACGTTTCTCTAATGATCAGKGATGTTGACCTCTA
ATGATCAGTGATGTTGACCTTTTTTCGTATATTTGTTGGTCGCATGAATGTCTTATTTTGAGAAGTTTCTGTTCATGTCCTTTGCCCACTTTTTAATGGG
GTTGTTTGTTTTTTTCTTATAAATTTGTTTAAGTTCCTTGTAGACTCTGGATATTAGACCTTTGTCAGATGGATAGAAGGCAAAAATTTTTTCCCATTCT
GTAGGTTGTGTGTTCACTCTGATAATAGTTTCTTTTGCTGTCCAGATGCTCTTTAGTGTAATTAGATCTTATTAGTCAATTTTTGCTTTTGTTGCAATTG
CTTTTGACGTTTTCATCATGAAATTTTTGCCCGGGTCTATGTCCTAAATGGTATTACCTAGATTTTCTTCTAGGGTTTTTATAGTTTTGGGTTTTACATT
GAAGTCTTTAATCCATCCTGAGTTAATTTTTATATAAGATGTAAGGAAGGGGTCCAGTTTCCATTTTCTGCGTATGGCTAGCCAATTCTCCCAGCACCAC
TCATTAAGTAAGGAGTTCTTTCCCCATTGCTTGTTTTCGTCAGGTTTGTTGAAGATCAGATGGTTATAGATGTGCAGTCTTATTTCTGAGTTCTCTATTC
TGTTSCATTGGTCTATGTGTCTGTTTTGTACCAGTACCATGCTGTTTTGGTTACCATGTGACTTTTTAAAAAAAATTATTTATTTATTTATTTATTTTTA
GAGACAGGATCTCACTCTGTAGTTCAGGCTACACTTTATCTTAGCCAAAAGACCAAGAAGTCATGTCRCCCAGGCTAGAGTGCAGTGGTGCATTCATGGC
TCACTGCAGCCTCAAACTCATGGACTCAAGAGATCCTCCTGCCKCAGCCTCCAGAGGATCTGGGCCTGCAGGTGCATGCCACCACACCTAGTTAATTTTT
TTTACATTTTTTCAGCAACAGGGTGGCCATGTGACCTTATGTAAGTTACCTAAACCCTGTAAGTCTATGTGCCTCATCTGAAAAACTGATAAAAACAGAA
CCCTCTTTATAGGGTCATGGTGGAGAAGAATCAAACAGTGGACAAGGAATATTTAGTATAATGCCAGGAAACTAGTTGACTGGTCATAGTCACACAGATG
CTTCAGGGCAGGCCTATTTCTTGCATACCTRTGATTTCAGGACATTTTCAGAAGTCCCAGACCTAGAACCCATAGGTGGARAATCCAAATTTTTTGTCTG
AGGACAATGAAGGTGTCAGTGAATATCTACTCCCTTACAAGAGCTTTGTTACAATTGTTCAAACCTATCAACTTCTAGATGGGGAAGACTGGAAGAAGGT
TCAAGAAGTGTTTCCTCAGAAACACCCAAAATGCACGAGAAGGAAATAGACGCACCAAAGTTACCTCAATATAGTGATCATCACAGAATAAGAAACTTGA
GCGGCCGGGTGTGGTGGCTCGTGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACTGGAGGTCGAGAGTTTGAGACCAKCCTGACCAAC
ATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCAGGCATGGTGGTACATGCCTGTAATCCAGCTACTCGGGAGGCTGAAGCAGGAGAATTGCT
CGAACCCGGGAGGYGGAGGTTGCAGTGAGCCGAGATCACGCCACCRCACTCCAGCCTGGGCAACAAGAGTGAAACTGAGAAAGAAAYAAAGAAAGAAAAA
GAAGGAAGGAAGGAAGGAAACAAGGGGGAGGGGGAGGAGGAGGAGGAGAAACAAAGAAGAGAAGAAGAGGAGGAGGAGGAGGAGGGGAGGAAAGGAGAAA
GGAAGGAAGGAAGGAGAAATTTGTGCCATTGACTAACTGAGGCCAGTATCATGGTGGAAAAGCCTGTTACTAGTGTTGAGGTGAAGAAGCTTGACCATAT
AAGAGATACTTCTGAATTTATTCAGGTGAATATTGGGATATCACTGATTTTATCAGATTCATTATATTTAAGAGTAAGAAGGAAGAAAAGTGGAATTCTG
GGATCATGAAGAGTTCAGAATAAATGGGAAAAGGAAATGCAGCACTAAAAACATGACCAAAATCAATCAACAAAAGTCAGTCAACAAATATATGTTAGGT
ACATATGTGAATTACATTGGTGTTCAAAATAGAATCTTTGACTTTAAGTGCATACATTTTAATTAGTAAGAAGAGGGCTCCAAAAACATGTAAATAGGCA
GCAAGACAATACATGCTTTTGGCAAGTGCTATTATGAACTATGACCACACAGTAAGARATGAATATGGGTGGTAGAGAAGGCTTCTTTTTTTTTGAGACA
GAGTCTCACTCTGTCGCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTTAAGTGATTCTCCTGYCTCAGACTCCC
GAGTAGCTGGGACTACAGGTGCGCACCACCATGCCCAGCTACTTTTTTTKTTTTTTGTTTTTTTTTTTTTGKATTTTTAGTAGAGACAGGGTTTCACCAT
GTTGGCCAGGATGGTCTCGATCTCTTGACTTCGTGATCTGCCCACCTCCGCCTCCTAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCTGAG
AAGGCTTCTTAGATGACTTATGTGTTGAGAAATAAATGACAAGACAGTGAACAAAATTTGGGGGGAATTCTTTACAAGCGGAAGTAACAACAAATAAAAA
ATGCCAAGTTTGCCGATTTCAGGAACGAAAAGGATCACTGTGTTCAGATGATCATAACTGAGGCCGAGGAACAGAGAAAGATGAGTTCAGATCTTGTTCT
GAAAACAGACCATGCAGGGCCCTGAAGTCCAAGTTTGGATTTTATTCCAAATTAATGAAGGCCCTTGGAAGATTTTTAGAAGGGGAAGGTGACATACTTT
TCTTTCCTTTGAGAGATCACTGTGGCTGCTATGTGGTGGATGCCTCCAGGGACCCGAAGGTGGGGACAAAGGCCAACTAAGAAACACAACAGGAGTTCAG
GTAGAAGATGATGGTGGCTTAGACTGGGAGCGGTGGAAATGGTATCATAATTTCCATTTGACATCCATTTTACCAAAGGTTTGAGATTTGGAATATGAGT
GAAAGGGAGGAATCAAGGTCATTTTTGGTCTGAGTTACTGTCTGAAGAGTCATGCCATTAACAGAGAAACAGAAGGCATTGAGGAGCTGACTCGAYGGTG
GCATGGGCAAATCAGTGGTTCTCCTTCGGTCATGTTACATTTGAGGTGCTTATGATATAAAGTGAGAAGTTCAATACASACGTCTGAAAGTAAAAAGAGA
AGTCTGTGTTAGACATGTAGATGTCATGTCTTCAGAATGCAGATCGGTGTAAAGCTCTGGGCCTGGATGCAACCACCCAGGGAGAAAGTCTACTTATGGG
AAAGGCTGGGGACAAAGCAACATTTCCAGGTCTGGGAGGAGAGACCTGGAAACCAAGAAGAAAGGGTCAAAGCAGTGCTGAGGAACAGGCAGATTTCAGT
TAGAGCAAAAAGATAAAAGCAATGTTCAGAGAAGAAGGTGTATGGGTATAGATGACCTTGGTGATGACAGATTAAATTTCACAGACATTAGGAARGGAGT
GCAGAGGAGAAGGGGCCACGAGGAATAGATCAGAATAGTGACGCATTTCCTTTTGGTGGCGTGCAATCTGGAGACAGATTTCTGAAGATGACTGAGGTGA
AAGTGATGCAAGGAATGATGCACTTGCTTAAAAGCAAAGTGTGCCATGAAGGCGGGGATCTTGGCAAAGAGGAGAATTAATTCATCAAAGCACCCTGCCC
TTGAAATCTCACCACACTGCTAGATTGAAACTAGATTGATGGCACAGAATGGRTGTTTTGTTTTATCTTATCTCTCTATTTTCTTATGTGGGAGGAGTGG
ACATATTGCAAAAAGCAGTTGCCAGACATGCACATTTAAATGTACTGAAACGCAAGGTGATAGACAAGAAAAATTTAGTCAAATTTATGCATTAATAATT
TATCTTCAGAAAATGCAAATCCCTGTTGTAGTTATTTTCCTATTTCTACAAATGTAATTAAAGCATTGATAACACAGGGGAACCACARCATYGGAATTGA
GAACAACCTGGTGTGAAAGAAAAGAAGTGTTGAAAATTTTAAGTTTCCCTCTCCTATGCTTTCTATTATTTCTGTGTGTAAACCCAATTTTCACTTCCCC
TTTCTATGAAGCTAATGCTAGATCTTATCTCTTGACATTTAAAACATCCACTCTTCCTGCCAACATTCATTTGCTTCTCCATTGTTAAATCGGATAGTCA
CAACTCTGATGTGCTGTGTTGTAGTACCTGAGCTGATCGTATGGAGGCAGATCTTATGACGCTGGCCATTGCCACAAGTGATAATTGGCAATGCCCAAAG
AGATGCTATGAAAGCCTTAATATTGTTGACGAAAAGAGTCAAACTCTGTGAAATATTTGAAGAGATTTATTCTGAGCCAAATATGAGTCGCCATGGCCCA
TGACACAGCCTCAGGAGACCCTGAGAACATGTGTCGAAGGTACAGCTTGGTTTTATCTATTTTAGGATGGCGTGAGACATCAATCAAATACATTTAAGAA
ATACATTGATTTGGTTCAGAAAGGTGGCACAACTCAAAACGAGGTGGGGGAGGGGGGCTTCCTCGCTAAAGGTAAATTTAAACGTTTTCTGATTGACAAT
TGGTTGAGTTTGTCTGAAGACCTGGGATATATAGAAAGGAAATGTTCAGATTAAGATAAGAGACTGTGGAGACCAAGGTTCTTTTGAAGTTTTATAGTGG
CTGCCCTTAGAGACAAAAGATGTCAAAGGTTTCCCATTCAGATCTTTAAAAGGTGCTAGACTTTTAGTTAATCTCTTCAGGATTGGGAGAACCTGGAAGA
AAAAGATCTAGCTGTTAGTAGAGATTCTTTACTGATGCAGTTTTCCCCCCACAAAGGACAGCTTTGCAGGTCCATTTCAACATATGGCAGGGAAACATGT
TTTGGGCTAAAATATTTTGATTTTCTTCCTTGTTTTGTAATGTTATGCCTGAGTCAGAGTGGAAAGTAAGCCACAATATATAGGGTTAAATAAAATCCAT
CTGATGAGAATTTATGGTTTGTAGGGCATGACTTTCTAGACAACTTAGGAACTTGGGCAAGATAAAAAAAATCAGAGCTTAGTCCTTAATATCCAGAGAA
TATGATGCATTTTCATAAAAAAGTAAGGATCACCCACTTAACACTCTACCCTTTCAAAATCCACTCATATTGTAATTTGTTTGTAATAGGTGACAATATT
TTTCTTTCATTTATAGATAACTAATCTTCACCTTTATCAAACATGTCTTTCAAGAGTATGTAATACATCGATTGCAGCTCCAAGTCTACATCATCTGTTT
TTGCATCCTTCTTATTTACTTATTTTTCTTTTTGTCAATAAAATACATCTTAAATATATAGTCAGGCTCCTCTTTAGCTCAAATAGTGTTGTTTTGTTTA
ATTAGACTGTGTTCCCAGTATTGCTTCTATTTTTTTTTCTTTTTTTCTTTTTTTTTTTAATTATACTTTAAGTTTTAGGGTACATGTGCACATTGTGCAG
GTTAGTTACATATGTATACATGTGCCATGCTGGTGCGCTGCACCCACTAACTCGTCAGTATTGCTTCTATAGAAGGCTAGCCCAAATGCAGAGAGGAAAA
TGGCTTGACTTGGCCTTAAATATAATGAAGCTTGTACAGTGTGCATTGTGTTTTAAGTTTGAATATGAATGTAACTGCTACATGTATTGTATTAAATTAA
TGAACTTTTATTATGCTTAGCCCAGTGTATCCTCAGTTTTTAATTCAAGTTGCACAAAAATTTATTATTTTGCTTCTTGATAAAATGATTTATTAATATT
TTATTCAACCTCATTGTTTTAAGCTTTTCTGAAACATATTCCCTCTTTAATCAATGATGATATGCTAGCTTTAGGTAARCGGTCTGATGTTAACMCATAT
ACAGAGAGTATAAAATTCCACTTGACTCCTCAAGTGCCCATCAAACATTTTYTTTAAAACTCYTTTGATACATCTTAGTCCCATTCTGCATTTTATATGG
GTCCCATTCTTTGATTTTCATTTGTTTTATTACATTTGAGTCTCTTTACAAATTAGCTAAATATGCCYAAACTCTAATGGTGTTGTTGTAGATTTTTTAA
AGTTACAAAATATTTTGAGATTGGTTTTCTACTTGTTGAAACTGGACTTCATATTGCAGGGTAATATTCCCCCATGGGGCCATCAGTATTCATAAATCTA
TTTGATTTACATGTTGAACACTACATGTTCCGTAAAATACCTAGAATGCTGCACATGTGGATGAATATTAATGATTGTCTCTACAAATAATAAAGCAAAG
AACAAATGACCTCTCTTTAATAATCTAGTGTTACAGCAGTCCTGAAAGAAGTGGGCAGAGCAAGGGTCCCCAGCCCTCACAGCTCTTCTTATCCTTTGGG
TAGCACACAAGAGAAAGAAGTGCATTTGAGAGAGTTCATGAGCAATTTTAAAAGACTTCTGTAGGAAGATAGATGCTTTTATCCAAAAAATGGTCTACTT
ACTGATTTAAGTGATTACATCTGCATTCTCTCTTCACTAGGAAAGAATGGCCAATTAATCAAACTTAAAGTAAATTCATCTACATTTGAAATTCTGTCAG
GTATAATTCAAATGTGTACTTTGGCTGGTACCAAATATGTATGCTCCTTTTAAGAAACAATGCCATATTTTGGGATAAAGTTCAACTGCAATTTAAGTCA
TGAAAAAGGCTACTGGGAGAATGACCTTAATTAAAATAAATCATTTTCAAATTGTTCCTAACTAAAATATTTGTTATAATTTTAGATGAAATTATATTGC
ATTGTTTACTCATATCTGGAAAAATAGGTGTAGTTAAAATACTAGAAGAAAATCAGTTGAAACATTAACAGTATTTGTTCCTAAAGCTATGTTTAATAAG
GAATTTTCTGCCTTCTACTTATGTGTTTTAAAAAAATTAAAGTGATCGTGTATTGCTTTAATATTATGTGTGTTGCTTTGATAATACTTTTTAAATCAGT
TAAATTATAATCTAAAATAAAAGGTGATTTTAGTGCATATACATGCATGTGTATGCATGTATATGCATATGTGTCTTATATACTTATATTAAAATTTTGA
ACTGGCAATTAGGGAAGTGGTTTTTTAAACTGGGATAATACATTTTAAAAATATGTAGTGGATGGGAATCTCAGGTAATGGCATAAAAGTGCTAATGACC
TGCACAAGCATTGAATGAAAGATGCAAATGAGCAGCTTAATGGAAAAAATATGAGGAACTTGGTGCTAAATCATTCACAGTCAACCTGTTYCTGGGCTGG
GGTTTCCTAAGCAGCRGAGCACCTCCCTCACTACCGTCTATTGAAAGTCAGCTTTTAAACAATAATAGTAATAAATAATAAAAAATAATAAAAATATACA
TATATMAAACTTTGACACCATGGTGTACATTTTAGATAAATCAATATTTGTTAGACTACAGCACTAACAAGTTTCTATCTTAAACATTATAGTGACCCCT
AATCAGGCCTTAGAGTGGTGATTGAATTTTTTTTTTTTTTTTTTTTTTGAGGCGGAATCTCGCTCTGTTGCCCAGGCTGGAGAGCTGGAGTGCAGTGGGG
CGATCTCAGCTCCTCAGCTCACTGCAACCTCTGCCTCCCATGTTCAAGGGATTCCCCTGCCTCAGCCTCCAGAGTCTACTTAAAACACATAAATAGAAGG
CAGAAAATTCCTTATTAAACATAGCTTTAAGAACAAATACTGTTAATATTTCAATTGATTTTCTTCTAGTATTTTAACTACACCTATTTTTCCAGATATG
AGTAAACAATGAGATATAATTTCATCTATAATTATAACAAATATTTTAGTTAGGAACAATTTGAAAATGATTTATTTTAATTAAGATCGTTCTCCCAGTA
GCCTTTCTCAAGACTTAAATTGTGGTTGAACTTCATCCCAAAATATAGTATTATTTCTTAAAAGGAGCAAGTATATTTGGTACCAGCCGAAGTATACATT
TGAATTATTCCTGCTGACAGAATTTCAAATGTAGATTAATTTACTTTAAGCTTGATTAATTGGCCATTCTTTCCTGTAGCTGGGACTACAGGCATGTGCC
ACCGCACCTGGCTAATTTTTTGTATTTTGAGTAGAGGTGGGGTTTCACCGTGTTAGCCAAGATGGTCTTGATCTCCTGACCTCGTGATCCACCCACCTCA
GCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACAGGTCCTGGTGAGGTAATTTTTAAGTRACTATGTATCTGTTCATATGTAAGTATATGTG
TGTAGGAGTGCAGATGCCAGTGTGTTTGGACCTCTGGGGAAGGAGAGGGTAAGCAAGAGATATGATGCAACTCAGCCTCAGATGAGCTCAATCACTCACA
GAATTAATTAAGGTAATTGACCCTCATTCACTTCTGGGTTCCTCAATAACAGCACTACTAACATTTTGGACCAAATAATTATTTGCTGTGGAGACTGTTC
TTCTGTGCATTGTAGGGTGTTTAGGAGCCTCCTTGACCTCCACCCTATAGATGCCAGTAGCACTGTAACCACCAGACAGGTTCTTCCTGCCCGCTGAACA
AAGTTAATTCATGGAGACCATAGCATTGCAGTAAAGAAATAGTTTAATAAAGTTGAGGCCGGCCACACCACGTGGGAGACAGTTGTAACTCAAATCAATT
TTCTTGAAGGCTCAGAGGTTAGGGGTTTTTTCAAAGATAGTTTGGTGGATAGGGGCCCAGGGAGTGGGGAGTGCTGATTGGTTGGGTCAGAGATGAAATC
ATRGGGAGTTGAAGCTGTTCTCTTGCTCTAAGCCAGTTCCTGGGTGGGAGCCACAGGACTCAGGACTGGTTGGCAAATGCTGGTGGGGCCATCCAGTTTT
CAGAAATGCAAAATCCTGAAAAGACATCTCAAAAGGCTAGTCTCAGGTTCTACAATAGCAATGATATCTGCAGGAGAAATTGGAGAAGTTGCAAATCTTA
CGACCTCTGGAATAATGGGTGTTAATTATGTAACTATGTTTGCATCTTAGCAGAATTCAGGTCCCTCTCATCTTCCTAACCTGGTGGCCTTTTATTAGTT
TTACAAGGGCAGTTTACTTTTGGGGAAGGGCTATTATCATTTAAACTATAAACTAAATTTCTCCCTAAGTTAACCTTGCCCATGCCCAAAAATGTGCGAA
GACAGCCACCCTTGAGGCTAGAAGCAAGATGGACTCAACCATGTCAGATTTCTCTTACTTTCATAATTTTGCAAAGACAGTTTCAAGACCTCTCTATTGT
TATATCTAAAAATGCCTCCAAACATTGTCAAATGTCTGGCATTTTGTGAGCAGGTGGTTGGGATGGGTAGGAGGTTGTCTGGGATTGAGAAACACAAAAC
ACTGCTCTAAATTTGTTACCAAGGGGTGAATCATTTTGCGGGGAATATTTCATCCAGATGCTCTATAGTCTTTTCCATACAACTGTTGACATTCAATTAA
AGAAATATGAAACAGGACTAAGGAAACAACAACAGACAGTAGTAGCAGATGCATAAATGACCAGTTATTAGGAATTAACGGATATACATATTTAAATAAC
TATAACAAACATAGTAAAAAAAAAAAATGGCAAGGTGGGTAATTGGACAATATCCAGTCTAAAGTACAGATAACTCAAAGAATATTGTTTTTCCTGACTT
TGGTTCATGGTGGTTTGCTTCCTTGTGTGTGTATTTTTTGGTCTTCAGTTTCGAGCTTATCCTAAACTCCGGAATATCTTGAAACCTAAGTTCAGGACAC
GTTTTTCAATAAGTTTTGTCCATTTTTGAGATGAATATTACTGWTCTTGCACCTCTTCAGTCCTCATTTCATGACACCTACTCCCCGGCTTACTCAGGTA
GTCTTGGGTCTATCTTTTCCACCTTTATGGCCTGAAGTACCAATGTAGGAATTTACCCACAGAGCTCCTTTCATGTGAGCTTATGGTTTATTCCTCTTGC
TTCAGCTTATAGCTCTTGTTTTCGGGTTTCCTGAAGGATATTACTTCCTATAAGTCCAGTAATAAAACAAACAATTGATATTTGGTATAATAGATTATTT
GGTCTTTGCATTGCTGGAAGCTAAAGCCCATATACTGTGTGCTTCATTGTAATATATCTTTCATCATGCTATTTCAGAATGTGACAATTACTAAAAGCTG
ACATTTGAGATCATATCACCACCTAATATTTTTTTTCAAAAGTAAAARTAAAGTGGAAGATAAACGAGAAACTTAGAAAAGACTAGGTTTAGAAAGTTTA
TTAATTATACTTCTGAAAAAGCAATTGTCATTTTCTAAACGGATAAAAATGAACTGCAAATTARAATTCCCAGTGGAATTAATGCAGTGACTCATTACAT
AATACATCATGGGCAAGTAATCCATCCTTTGTACTCTCAGGCAATCGGATGTATTTAAGCCAAAGATAATTCAAGACAAAAGTAATCAGGGTTCCTCCAA
CATCGCTTTTTATGTGACATAGAGCTTATCATTGTTTAAAGCATCGAACTGCTTAGGCATTCTTTGTTCTCTTTTATTGCCTTCATTTCATTGTCTGAAT
AGCTTTTGTAGTATGATGTTAACTATCACTGTTTGGACTGATTGAATAGTTTATTTATTTTGATAACCATCAGGTGAAAGCAAAAGTCATTTCATGGCAA
TTTCCTGTTACTTCAATGAGACACTGCTTTCCAAAAATGGCAAGAATGTTCTTGACAATTAGCATTTACACGTGATTTTAAAATTTTACTTTGTTTTTAT
TCTTCCATATGAGCTCTTTTGATTTTATTGAAGCTTTGAATGAGTGAGACATAAGCACAGTTTAAGTTGTATGATGGGAGCTAAAGTAAGTTTAATTTCA
ATTTCAAGCAAATACTATTTATTCTACATTTTCTATAGTCAGGGAGACATGAGGGCTTGCATGAAGGACCTGCATGTCAAATTCCTCTATTTTCTGACTT
TTTTCCATTACCAATATAGACATAATCACATACATTTGGTTGTTCTTACTTTTCCAACAGCCTCCCTCCCTTTCTCTTTACTGTAATTGGAAGCATATTT
CCATCTCTTCCTCTGTCTCCATCCCTCCCACTTTGATATTCTTATTAAAGTGGAATATTTCCTCTTATCTGGTAGAATGTGAGGAAAAYAGGGCACCCTA
ATTTATTTGATCACCGTTCAGTTTTTCTCGGTAACTAAGTTTGTCCCTGAAAGTTTCTGGTCTCACTTATGGTTACATTGTTAATTATCTTGGAATAGTG
AAAAAGATAGTCAATATTTTTTTTTCATATGTCTTCCCACAGTGTCTGAACTATTTCCATGATTTTTTGACTATTCGCTTTTGTCTTTGTAGAAAATATT
CATTAGGATATAATTTACAAATCTAATTTTCATAGTTCTGGATCACTTATTGCCCCAGTAAATTCCATTATTTGGAACTGTACCTCTATACTTAACTACT
AGTGAATGGCAGAAGGTGTTTCTCTATCCTAGCTTCTTTAGGGAAAGAAAGATTATTTGAAGGGAACCACAAGCAGCTTTGTTTCTATCTGTGATGGAAG
ATAACAATTTTAATATTTAAATAGATGTTGAATAAATGAGTATGATTTTTATATGTACATTACATAGTAATAATAGTAAATGTCTTTGGGAAAAAATGCA
AATAATACCATGATAGATGCTATCAGAGTCTAATAGATTATATAACTTGACTGCACATATTTGAAACATTTAAGTAGAAAACAGGACTGGTAGTTACAAC
TGGTGTAGCTTTATGAATCTCTAATTCTATTACATCTGAGACACTTTAGAGATCGCTTGATCTAGTCTCTTTGTGCAGAAAACAAGGAACTGAATCTTTG
AGAAGCAAAAGTGGCTTATCCAGGCTACATAATTAAAACTGTCATCAAAATGGGCCTCCCAGCTGCCATCACAGTGCTTGGCCCATACCAACCATTGATT
CTTACTTTCCTATCAGGCCTGGGCATATTCCAGTCTGTCCACCATTTCTTGTGCATATCCTTACAATAAACATGAAAYTTATATTTTATAATCCAAATTS
AGGTAATGTTCCATTTGACTGTCATACAAGGTTTCCCAATCAAAAGCAGATGAGATAGTGGTTGAGGCCAAGGCATCCTGGGTATTAGTTATGTATTTAA
ATTCTCTAATTAATTGTCTCCAGGAAGGAAACAAATGTGTACACTTTGGAATTTGTCTGTATTACTACTAATGTAAAATAAACATTGCACTAAAACTTGG
ATGATGATTGAAAAAACAATTTAAAAACCATGAAAGAACACCACAAAATATTTTTCTTACTTGAACTACATTAATGTTCAAGGTGGCCTAAGGGAAAGAG
AGAGAGGAAGTGCTGTTTTAAAATGTTCTCTCTCTCTCTTGAGAAACAGCAGATTTATTGTCATAATAATCTCAAAATGCTTTTGAGGAGGTCAGCAGAT
ATAAAGTACATGCAGATTGAGTGTAATCATTATATGAAAAATTAACCACATGAACAATGAAATGGTACTGTGGTAGCAGCCCTTTGTCAAATTAATGTTC
TGAAGAGTGTTATTTGTGAAATACAAAGGCTCTGAAAATAAGTGGACTGGACTAACTTCGCAGTTTTATGTGCTACATTTGTAACTGGATTCCAGAAAAA
ATTATTAGGAGAAGGAGAATTTAGAGCTTAACATTCTGTTCACCTAATATAAAGTTACAGAGTGTCAGATCAGATAGCATCATCCAATTAGTCAATTTAC
ATTGACATAATATATATGGGACTTCCATAATGAACAATAGTCAAAATGTATTATTTTGGGAAATCTTGAATCAAATTATTTACAGGTATCCTGAGAGATC
TCTATTATAATAATTGTAAAAGGCAGCAATARCTTTCTGAAAAATATTTATATATTGTTTCTTTTTTAAATATTGTTTAATTATACTTATTTTTTATTTA
TGTCTATAATGTAAGGTAAGGGTTAAAAATACTGTTTAAATGCAGTTGGGATATATAATTGATCCAGGATCAATTTATTGAAAAATAAACTTTTTTCACT
GCACTGTAACATTAGCCCACCATAAATCAAGTGACCTTATGTGTATGAACCTGTTTGTGGTGTTTCTATTCTGTTTCATTTGCCTATTTGTCTGATCTTG
TACTAGCAATCCATTCTTGTTTGTTTGGTTGGTTTTTGTGAGATGAAATCTCACTCTGTTGCCCAGGCTGGAGTGCAATGGCATCATCTCAGCTCACTGC
AACCTCTGCTTTCCAGGTTAAAGTGATTCTCCTGCTTCAGCCTCCCCAGTAGCTGGGATTACAGGCACCCACCACCACACTCAGCTGATTTTTGTATTTT
TAGTAGAGATGATGTTTCGCCATATTGGTCAGRCTGATTTTGAACTCCTGACTTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGAGATTACAGG
CATGAGCCACCTCACCCAGCCAATACATTCTTAAATACTATAGCTTTACAGTATGTTTTAAAATCTGATATTGACATCTGTCCACCAATTTTTTTTTTCT
CAGCAAGGCTTTGGCTATTTGTATGCCTTTGCATTTGTGTATAAATTTTAGAATAAACTTGTGAATTTTCTTAACATGAAAACTGTTGGGATTTTGATGT
GGATGCATTAAATCTATAAATCAATTGACAGAATTGACAGCATTGATGTTCTAATCTATAGCCTTCCTTTTTATTTGTATATTTTTTAATTCACTTAATA
ATTTGTAGTTTTCTATAAAGAGGTCTTGACATATTTCATGAATATTCCTATTTTCTGTTTTTTATATGTTATTATAAATGACATAATTTTAAAAATTTAT
ATTTTAAATGTTTGTTTCTACTATATAAAAATATAACTATTTTTAAAATTATTAACCACTTGTATCTAGGGACCTTGCTAAATTAATTTATTAATTGTAT
GTAGCTTCTTTTATATTTTCTACCTATATAATCATGTCATATGTGAATAATGACTGTAGCATTTCTTCCTTTCTGTACTGTTTGTATTTCTTTTTCTTGC
TTTGGGGCAATTAGCTATGGCTTCTGTGTAATGTTGGTTAGGTGTAGTGATAGTGAGCATTCTTGTCGTGCTCCCAATCTTGGAGAAAATGCTTTGTGAA
AGCTATCAGAATCAAAATGGAATCACTTTTGTCAAACCCTTACAAAAAAAAGTGGGGAATATGAAGGGAGGGTTCTTATGCACAATTGCCTAATAACAAG
AACTATCATAAGAGACTGCCAAAACCRCAGCGTTGCACAAAGACCACCACAGTCTTACACACACAAAAATATATATACTTATGTGAGGATCTGCCCAGCA
ACTGCCTGCCTAACCTTGGACGGACACTGGCTTTGTTATTGATCCTTGTAGCCAGGGATAATTATCTCAAAATAACTTATATAACCTCCTCATTTTACCT
TCAAAAACCCTTGTCTTTTGTTTTCCTCCCCTGAAGGTGTCTGTAGTTTACTATGCTATGTTATTCCATGCTGTASTGCCCACTGCCAGATAAACTTATT
ATCTTTGGAGAATGTCTGTCTTTCTGCCCATTATTAAGACTGACATAATCTGGTATCAAGAAATGGGACAGAAGTAAGCTCACCTGGAACAGCCGGGCAG
CCCCTGGAATCAAGTGCAGTACCAACTGAATGAACCCTTTGTACTCTCTGCTTCCAGGAGTCACCTTTTCTGCCCTGGTGATTCTCCTCTTAAATTCTTG
GACTGCCTCCTTTTAGTGAGTTCTTTTGACTTGACTTGGGACCGCACTGGTTTATCCGGTTGCCTCAAGTAGAAGATATTGCATCCCTCTTGGAACTGTG
AGCCTGTCTTCTCTGGCAAGTTCTTTTTAATAGAAGGACAAGTATCTTTCCAGAGAGTTCTTGGATTTCTGCAGAACTTACATTATTTGTGAGGCATGTT
TTTTTTTTTCTCGTGAATTCACTTTTGATTTTTTCTTCATGTTTGATTTAATGTTTTGTTTGATCTGTACCACTGGCTTAAAATTTTTGTGAGTACAGAA
TTTTGTTTTATTTTTGTTTGGTTACATGTGTCTAATGATTTAGCAATTTTATGTTTTTCTCCCTCTTGTTTATGAACATCTTTTGAAAGCAAAAATAGGC
ATTTTAAACAGTGGATGTGGGATGGCAAATTGAAAGTCACTAGAGCAGTCACCACCATCTTTGTGGCACCTTAATAATAAGAGCCTCAGAGAAAAAGTCT
CCCATGTCAAGATCAACTGTTACGGACAGGCAAGGTCACCTTCAGGAACCCAGTCGGTTCCAAGAAAAATTCTATACAATGAAGGAAACTTKGTCACAGG
TCAAAGAATTAGGGCACAAGCCATCTGCCAAGTATGAAATAAAGGAATCTTGTGCCACRTACACTTGTGAAAGCAAAACGATTTGTCCAAATCCTTAAAA
TTCCTTGACAGGGCTTATAGGATTATCTGTCGCTCTCCAGAGATTAATAAGAAACTGAATGACATTCCAAAATTCTAAGACATGCCAAACCCTTAGACTG
CTATACATTCAAAATTTATGGTCCATTCTCATGAACATTTTTTTAAACTGATGGGAAAATTACACCAAGAATAATGTATGGCCATTATGGAGATTGTTTT
GGCCTTCCAAGCTTGTTTTTCTCAGAAATGAATTAGAAAAGTGCAACTAGAGGGCTAACATATAGTCTTTTAAGTTTCCTATTTTTCTATTTTATCTCTG
CCTATTTGAATATACTGACGTTTTTGCTTGCATTGGAAGAGAAACTCTCTGCTGCAATTGTTCTTGAAACTAAAATAGGTCAAAGTCTGCTTGGAGATTA
TTTTTCTCATGGCATTTCAATGAAACATAAACAGCAAGGAATTAATCCTTAATCTAATTTAACACTGAGAAAAAAAAAAAGGAAAAGAAAGTAAAAGGGA
CTTATTAAAACAAAGTTGCTAGAGAAACTGCTTTACCCAAAATTTGATGCACAGCCTTCATAATATTACCCATCAGGACAAATGAAAATCTTAAGTTTAG
CCATGTGAACATTTCCCATTGTGTCAGAAACTGAATTTAGATTCAATTGTCCTTTTATAAACCATTGAGTTTATATTACTATTTTACTGTCTCATGACTA
AAATTTTTAAATGAAAGCTATAAGATCTTTGTGTGTATATGTGTTTATGTGTGTTTAGACACATATGCATGTGTTATGTTGTATGTTGTATATACATAAT
ACAATCTGGCATAGTTGGCCAGAAATCCTTTAAGGAATTCTTTTCAAGTTGGCTTAGAGATAAGATATGCAAATGACACTTAAAAGTGTAAAAAAAAAAA
AAMCCCAAATGCCTTTTAGCTCATGGGATTCATATGAATCTTTGATAAATAAATTGGTTTTAAATTTGTTGGTAAAATAAAAATTTGTTTCAGAATTGTT
AGCTTACATTTTGTTGCCTGGGTTTGCTGGTTAGACAGGATTACATTGATCTCTGTTAGATGTTTTACAGTCATAAAACTATAAATTCAGCTTAGGCCAG
GTGCAGTTGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAAGAGTTCGAGACCAGCCTGACCAACATGGTGAA
AACCTGTCTCTACTAAAAATACAAAAATTAGCCAAGCATGGTGGTGGCCTCCTATAATCCCAGCTACTTGGGAGGCTGTGTCAGGAGAATCACTGGAAGC
CAGGGGGCAGAGGTTGCAGTGAGCTGAGATCATGCCACTTCACTCTAGCCTGGGTGAAAGAGTGAAACTCCATCTCAAAAAATAGGTAAAATAAAATAAA
ATATATTCAGCTTAATAGCAAAATAGATTTTGTTTGTGTAGCTCTTTAAAAAAGATGACTAATATTGTTGGTTTAAGAAAAACAGCTGTATTTTCTGAGT
TACTGGCAAAATACCCATATATTTCAGGTTCCTACTTGGGTGATGAACACCTGATATTCACAGGCTTCAAAAATAGTTAACAGAGAATCAACTTGAAATG
AGAACTAGCTTGTCTAATATCTCAGTTTTCATGAATAATCTGGTATAATTGTTTAAAATAAATAGGTGAATATAAATGGTATAAATGTGTATAAATGAAC
TTTTCATGTAATTTCAGATGTTAAAATTATGTTATTTTGAATTAAGTAATATTCATAAACTGGATTATTTCCAAATAAGATAAAATAATAAACATTAATT
TCTGATCAGAGGTTCATGTTTATTTAATTTTGGCTTCTTAAATTTTACAGGAAAACACAATATATTTGGATCTATTAAAAATTATATCATGTTTCACATT
AAAAATTTGTTCTATGAGGAAGCACACATTCCTAGAAGTTGTAAGATGTATATTCATAAGCTGTTGCTATATGACAAATAGTTCAAAATGCTTACCTCCT
AGGCTTTAACTAGAAATTAAAGCTACAAAGAGTTAAACCTTTTAATTAATATATGTAATTCTATATGTAAGTTGTACAAGGAAGTAAGATACCTTTTTCG
TTAAAAAAAAAAGTATAAGCATGGGAAATATTTAAATTTTGGTAGGAAGGAAGAATAATTTTGTCTAAGGGTTATTTCAAAGTATTAAAAGAAATAACAA
CAAAGCAAAAAGAAGCCAATAATTAGGGGAGTGAGAGGGATGCAAAGAAGGTTATGAGGAAGTGTTTTTAGGTAAAGAAGTTAAAAGCAGAAAGTGAATA
ATATGAAAAATAATATTGTGTGGTCAGAATGATAAAGGGAAATAAGAAAAATAAATGTTTGTGCTAAGGTAGAATTTAAAAAGAAGAAAATATAGGAGAA
AACTGAAAGCTTAATCAAGTCGTAAAAGGTCTGAGGAGAATGCAAAGGTTTGTAAAGTATAATCTTATGAAAGGAATTTGTGTGCAATCAAGTTGGCTTA
AGTTAGAAGAGAATTGTTTACAATTCTTTCTAAAATTGAACATTACTATACTGATACAAAACCAGAATCTAGTCCTCTGTGTTTAAAGCAACACAGTTTT
CTTGGATTATTGATCTGCTCTCAGTGAAATTTGCAGAAAGTTTTTATTTTTAATTGTAAAACTTGTTTCTTTTAATTTTCAATCATTTTCTGAACTGCAT
CTTTTGCCCAATTTACAGTTTTCATTTATTTTTTCCCAATTCCAGATTAAAATTGCTATGTTCTTCTTTTAAAATACCAATTTAATTTCACAAATTGGAG
TTTCCTCTTGAAGCTTTTCAGATTCATGTCTCAGAAGTTCAACTTTTCATTGCATCTCACTGCACATAATTTGCAGGTCATACATCATTGCCTCTAGCTC
TTCCTCCTTCTCTTCCTGCAGAGGTACATCTTTTCATATTGTTAAAGTTGTGACTCTCTCCATTGACTTTTTAGTCAGCTCCTACTGCCTTTTTTTCCCC
CTCCAGTTGTTACTCTGCCACTGTGGTCTGATGCTGGAAAATGTCTTGAAGGCCCAGAAGAGCAATGTCTTCCTCCAGGATAACTTGATCTGTTCTCTTG
GCTTTTCTTGATGTGTCTGAATTGTTCCATGTAATGAGGCAATTTTGCATGCTTTTACTTTTTTTAAGAGCCACATATTACCCTGCTCAAGGTACTAGTT
TTCTTGTTTACTTCTATGATATGAAGTGCACTCATAACCTCGGGCAGACAATTCCAGTGTCTTAGAGAATTCTGGTATCTTTTCATTGGGTTCAACTTCC
AGGTTATTTAAATGGACTTCCATAAGCAGACAACAATCACACTGCAGGAGGTTCGTGTTTGTGTGTTTCTTAAACCTTTTGATGATGGGCCTAAGAAACA
AAAATTTTGTGTTTTATCAAGATAATTCCCTATGCTTTATGTTGTCTTACTAGGTTTTTCATTAGTGAGGGAAACTGAGCTTTGAAAGAGTTAAAGTTTT
CTTACATCCTTGTAATTTTCTGTATTTATTTTTGACATTTTCTGTCACTCTAGTTAAGTGAATAATTATTATTTCATGATGACATGTGATTCTGTTTTAA
TTAAATGTTTTAAACCTTTTGACATCTTTGGCAGGCTTCCCCAGTATCAAAGTTCTAAATTAAGTCTTTTTGACTTCAAATTAACTTTGGGAATTTCTAG
TCAGGAAATTCTGAAGGATGTGTCTCTCATCTTATGAAAGAGTTATTAAACGAATTAGGCTTATTTAATATGTTGGGTTGTCTGGTAAGCATTGTCTAAT
AATAGAGTGATGCCAAATCTTTTTCAAGTTATATTTATATGAATATGTTATTGATRTGAATGTTCCAAAGATTATGTAAAATTTATAGAAGTCTGATGGC
TCTGGTTGGATGCTGTCAACCATAATTCTGGTTGTTATCTTAAAATGTTACATGCGATAGAAATAACCGAATTTCTTCATCAATTTTGTCATTATTATAA
TGAACCCTGCAGAGTTCAAATTCATCAGATTTTTAAACCATAGTTATTCTAAATCTTTGTCATCTACTGTTACAGTTTTGTTTCTTCTCTAAACACATGT
GCATTCAGATGCCTAGAAAAGACTCCAGTAATTACTCTTGCTTACAGGTTTCTGATAACACTAAACTCAGTAGGCCAAGCGAAAATTTCCAGAACTCTGA
TAAAGAAACTGATACATTCATGAAACTGCTAACAAAAATCAAGCAGAACAAAAATTAATTACATGAAGTGAAATAACTAACAAAGATGATGTTTTATGAC
TTTTATTTGAAACATTGTTGTTTCTTTACTTAAAACGTTTCAGTTGCAGATTTAAGGAAACTTTCCCTCTTAAGCTAATTATAATTTACAGCTATTTGAC
AAAAGTATACCTTTGTTTTTTTTTTKTTTTTTTTTKTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCGGGCTGGAGTGCAGTGGCGYGATCTCGGCT
CACTGCAAGCTCCGCCYCCYGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCAYGCCYGGCTAATTTTTT
GTATTTTTAGTAGAGGCGGGGTTTCACYGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCACCTCTGCCTCCCAAAGTGCTGGGATT
ACAGGCGTGAGCCACCGCGCCCGGCCAAAAGTATACCTTTGTAAACTAAAGTGGAAAAATTTACTTTTTATCCCTATTTGATCCTATCAAAATTCAGAAA
CTACATGAGTATTCTTATGTTTTTTAATGGCAGTATATATGTTTGTGTAAGTTCAATAAGAATCTGCTTTCTTTATAACAGAATAGAACTGGAAATATTG
GCTATATTACAAAGGTTTTGACTGAGATGTGATATTTAAGTTATTTATAGGTACTACAGACAAAACCTGAAGCCTGCCTTGGTTTGACTTTTTAGTCTCA
AGAGATATTTAAGGGTCCAATCTGAGATTACTATATGTTTAATCACTATTCTTGCTACATTTATGTAAATAATTCAGTCACATTTGACAAAATTAAACTT
ATTTTACAAACAAATTAATCTTATTCTCATTATCTTTAGTAAAGATTGGGATGACTGTAGAGAGAAAAATTATGTTTCTAAAGAAAAACTCTAATATACT
TGTTAGATGTTGGCCCTGTGCATAGTTTCTTAGTTTTTATTATCTATCTGTAGWCTAGACTGGATCTTGAATTCTTCTGATATAGGAGTTAAGAAGAAAT
TACTTAGGCAGATAGTGAGAATATGGGAGTCCTCAGTAAGGTTTTCCTTTTAATGAAAAGCAGCCCCCAAATCATTTTCTTTTCTTACGAAGAGCAGCCT
ATTGCTGGCAGTTGTGCCAATAGGAAGAAACTACCTGGGAATAGGCAGGCTCAAAATGGCAGCTCCAYCCTCTCTTTGCCAGCCACACGTACAGTAAGGA
GCAGACAAGATGGTTCTGGCCAAGTGGAAAGYCCATTTGCATAATAAGATTAGGGTGGGGCGACCAGCCTTCCCACACACAATGTAAATGTCACACCTGA
TCCAATCAATCTGTGGGCCCTACATAAATCAGACAGTGCCTTCTCAAGCTTGCCTGTAGAATCCAGTGCACTCTGCCACCAGCAGGTCTTTCCTTTTCAG
ATACCTCTCTCTGGCAAGAGACAGACAGAGACGGCTGCTCTCCTCTCCCCTTTCTTCTGCTTATTAAACTTTCCGCTCCTTAACCCATTCCATGTGTGCG
TGTCCATGTTGTTAATCTTCTCAGCACAAAATGACCAACCCCAGGTATTTACCCCAGACAATGATGCCACTTCACTTGTAGGTTCCTCCAATCCACTTTT
CTCTCATGAAATTAGTGAGAACAAAACCACCCTTTTCTAAACCCGCGTAGAATGAAGCTAGACAATTTGATGTAAATTTCAAGGGACAAGACTTGTGCCT
GATGTTTGAGCCACACGGCAAGTTCACCAAACTGTCGAATGCTGTAACCAGAGACCTTCAAACCACAAACCAGGGTGAGAAGTTGACAATTTCATGCTGG
GAAAAATTCTTCCCAAGACATTGAAATAAGATTCCTTATCATAATGAGACTCTTGCCCCTCTTAATTTTTCCTTGCTTGTGCCTACCTTTTTCACTTGGC
AGGATAATGGTATAGTTAAAATTTCACAATCAATAGCTTCTGCAGGAAGCTGTAAAAAATGTTGCATCTGTCATGCCCATCCTAAATATTTACATGCCCT
GACAGATAAGCCCTTAGCCTGCCCAATGGGTAACTTCAACAGCATCTCTAGTACAACTGTTGCTCATTCTGTGTTTTAATTCAACCCAGCTATAAGATAC
GAAATGATAGAATTGCTCTAGATTCTCTATTGGTTAAATAAGGAGATATTTGTGCTATTGCCAATAATACATGCTGTACCTGGATAAACCCCTTTGGGCA
AGTTGTGATGCAAATACTCAAGAAAATAGGCCACATAGTTACAACAGGACTTACCTAATTCCCCATGGTCATTTGGCTGATTCAGTCAGTTGCTTTCAAG
CCTAGGTTCTTGGCTCAATATTATTACATAAACTAGAATTTTCCTATTACTATTAATTTTACTTTGTATTTTTCTTTATAAACTTYGTACTTATTGCTTG
TCAAATTTCAGCAGAAGTACAACTCCTGAGAGAATAATGCTGGCTCAGAGTTTTGAGATGATAACCCTTGTCTATGAAACTGATGAAGTTGGACTTAACA
ACGAACACTCCCCACAGAACTCCTGATGCTCAAATGTGGCTAAAGGGTTTCATACTGACTCCTAATCAGCAATCACTTCCCTCTGACATGGGATCAGAGT
TACCCAGAACAAGTTCATCCTGGCACTGATGGATGATGAAAATCTAACCACAGAATGATTAGTCAGCAATGGTTTTAGAGACGTATTTTGATCAAAAGGG
GCAAATGTGAAAGTTGTCTGAATCAAAATGAAGTCACTTGTGTCAGACACTGACATAATGAAGCCAGGAAAGGCCATGAAGAAAGCATTTTCATACACAA
TTGCCTGATAATAAGACTTTGACAAAACTACAATCATATACAAAGCCATTGCAACCTAATACACACACACATACACACACTCGCGTGCATGCACACGCTT
CTGTGAGGATATCTGCTTGTCTAACCTTGGACTAATGTCAGACTTGTTTTTGATCCTTGCAACTAAGAATAGCTGTTTCAAAATAACTCATGTAACCCTC
CTCACTTTACCTTTAAAAACCCTTGTCTTCTTTTGCCACCCTGAGTACTTCCATAGTTTACTATGACATGTTCTGCATTGCTGTGCGTGTTCCTGAGTAA
ACTTACTATCTTTGGAGAACCTCTCTCTGTTCTGTTATTTAAGATGAAACCTTTCAATATTATACTTCTAAATATGATGTTTGATATAAATTTAGTTTAG
ATTACCTTCATCAAAATAAGGAAGTTACTTTCTATTTCTTTCTTATGAATGATTTTAAATATTGTCTAATATAGAGTATATATGTTGAGATAATTTTTTT
TTCTGTCAAAGGTACTATTTATTTTGATTTTAAAATGATAAAGCAACCCTCTATTCCTTGACTAAATCTACTTATATAAATTTTTTTGTATATTTCTGGG
TTCAAAGTTCATGAGATTGATTTGTAACCTCCTTTTCCTAATGTCTTTATGTTATTTCTGTATCCATGCTATTCTAGTATCATAATATTTACATTCTAGA
TTTAGTTTAACTTCATCTTATTTTTATGGAATTTTTTCACTTAGATTTACCCTATATTTGCTTTTTGTTTTTCTTTATTTGCTTCTTGACTTCAGTGTTT
CTCTTTCTCTTTTTGATCTTTTATCTAATATGTGAAGAAATTTTTTCTTTAACATTTCTTCTGATAGGCTCCTCTGGTCACAACTTCTGTTAGTATCTGT
TTGTCTGGAAAAGTTCTGATTTTTGCCTTCAAATGAAAGGATATTTTTGCTATGCACAGAATTCTAATTTGACAATTTTTTTCAGAATTTTTAAAATGCC
ATTTCATCATCATCTGGTTTGGCCATTTGTTTTGGTAATTCAGTTATCAGTCTTGTTGCTTTTTCCTTTGAAAGTAATGCATCTTTTTATCTTTTACTAC
TGTAAAAATTTTTCCCTTTTTCTTTGTCTTGACTTTGTCATGACTGTGTTATGTCTCTGTGGATTTCTTTTTATTTATTCTCTTTATGTTCCATGTCTCA
GATCTGTAGTTTGAATTAGTTTGGCATTTGTGTTAGTTTGCAAAGACTGTCAAAAAAATTATTAAAGACTGAATGGCTTAAACGACAGAATTTTAATTCT
CACAGTCCTGGAAGCTAGAAATCCAAGACAAAGATTTAAGTAAGGTTGATTTCTTCCAAGGGCGTCTTTCCTTGTCTTGTACATAGCCTTCCCTTTGTGT
CTTCACATGATCTCTTCTCTTTAATGTGTGTGTTCAAATCTCCTCTTCTAGTAAGGTCACCAAGATTAGGGTCACCTTAATGATCTCCTTTAACATTAAT
TACCACTTTAAAGAATCTATCTTCAAATATAATCATACTCTGAGGTACTGGTAATTAGGACTTCAACATATAAATTTAGGGGTGGGATATTTCATCCAAT
AATAGCCGTGTAAATGTCTTATCCATTATTTCTTCAAATGTCCTTTCTGCCTCATTCTATCTTTTCTCCTTCTGAGAACCCAATTAGATGCATGAGATAC
AATTTCAAGTCCAATGTATCTCTTATGCTCCTTTCCCCAATTCTTTTTCTTCCCTATCTAATCTGGGTATTTTCTACTATCCTATCTTCCAGTTTGCTAA
TCTTTCCTTCTGTGTCTAGTCTACCATCGAATATCCTTATTCAATTTTTAATTTTACTGTATTTTTAAATTCAGAATTTCCACTTTATTTGTTTTTTACA
GATAATTGTCTAGTGAGTTTCTCCACACAGTAATATTTTTTGAACATTTTAAAAGTAATAGATATTTTAGTCAATGACTGATGATTTAAGTTTGTTACCT
GCATCATTTTTTAATCTCTTTCTATTGTCTGTTTTTTTCTCTTTTATTTTTAGTGAATCTGTCCTGTCTCTTGACATACCTGTTTTTGTTTTGTTTTGCA
TTTTTGTTGTTGTTGTTGGTTTTGGTGTGTTTAAACATTGTTTATCAAAATCGGTAGAATTTTGTAAATGATATGATCTTCCTTGAGGGACAGTTTACTT
TTTTTCTGGCAGATATATAGATATAGATATAAATATAGATATAGATATATATCCAATTAGGAATTGAGATAATATCTAAAGTGAAAATCTGTGGTGTTTA
TGGAATGTTTATCAATACCTCCTTCTTGAAGGTTGCTGTGTTCCAATTACTGTATTTGCAGCAAGATCAAAAAGCCAAAAGTTCTGCCTAGTTTATTCAT
ATTTTAGATATTGTTTTCTGCTTGGCATTTCAACCTCTTGCCCCAAATAGTTTCGGAAGTGACAAATACATCAAAGAGATTATTTGGATAGAAGGTAGAA
GTCACTTTCCAATGGTCCTCTTTTCTCTAGTATCTTGGCCACTTAAATCCTGGTTGCCTTTGGGTTTACTTAATACTGTTTATTGGATTTTTGGTAATCT
AAAAATTATTTCTTACAACAGAGACAAAAATTCCAATAGGACTTTAAAGTGGAAAAGGAGTCGGTTGAAGAATAATGTCAGTATAAGATATTCGTATAAG
ATATTATTTAAATTACCATTAAATTAAATAAGCATAGTAGCATTACTGGCTGGGCACACTGTCTCACACCTGTAATCCCAGCACTTTGGGATGCTGAGGT
GGGTGGATCAGTCGAGGCCAGGAGTTGGGTGGCGAAACTCCATCTCTGCTAAAAATATAAAAATTAGCTGGGCGTGGTGGCACATGCCTGTAATCCTAGC
TACTTGGGATGCTGAGGCACGAGAATTGCTTRAACCTGGGAGGTGGAGGTTGCAATGGGCTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGCG
AGACTCTCTTTCTAAATATATAAATACATAAATAATTAGCACTACTTAATAGAGAAACCATAAGTTATCTGAAACATATTGTCGGCAGAGGGGGAAAAAG
AAGAAAGCAGAAATTCATTTTAGAATGAGAAACATATTAGGTGTGAAAAAACTATATACCACTGTCATATACAAAAATATAATATGTGTAGGTCTATTTG
TGAAAGGCTTTTACTCTTTAGGTTATATAGTTCTTGAATTTTTAAAGCTGTTCAGACACTGTACCACAACCTCATATCACAGTGGTACCCAGAAAATCCA
AATAGTAGTACTTGTGWAAATAGATTTCTRTTTCAGCCTCTTTAAAGGCAGTTATGTAGATACTCTTAATTTTGAATTTTTGGAAATAGGGAGGATCATT
ATTTCCTAAAATTATAGCACTTATAAGTGGTAGATAGGGAATTCTCTCGTAGGTCTCAGACTCCAGAGCACAAACGACCAACCTTTATGAAATATGAACT
TCCTGGCTTCACTTCCATCTGGGAGGAGAAATGTATTCCCCCTTATGCTAATCCATTCCATTCAGGACAATGCTCATGGGTAGAATCCTATTTATTATAG
TATGTTAAACTCTACTTCTCTGTAACTCTTACTTATTAATCCTGCCTATGATGAATGTGCTGTAAAATGGCAAAGTCAAAGCAAATTTACTACATCCTTA
AACTTTAAGCTTATTATGTTTCTGGCATTTGGGGCTATACAGTTCCCAGGTTCTGCATATGTTTGACACGGCTTCATAGATAAAAATGGCTTACATCCCG
AATATGATGCTAAAAACTGTTTTCCAAAATTGGATATAAAATGTGTGAGTAGGTGTATACATGATTATTGATACGACCTTATTTTTGAAAATACCATTTA
ACTACATAAATTATATATAGTTTTACTTATGTATTTTTAAATTATAAACTATTTTTATTTGAAATAATTTCAAACTTAGAAGACTTAAGAATAGTACAAA
GAGCTTTTTTGCATAAACTATTTGAGGATAAGTTGCTCACATGAATTTGCATCATCCCAAATTCGCATGTACATACATTCTCACATATGTGTAAACTCGT
ATGTATGCAATATTCTTTCTAATGTCTGCGACTTGGGGAAGTTTATTTTGGTAGAGTCAAAAACAAAGACTAATAAAAAGATAAGCTAGAAGAAACTGTT
GTTTTATGGTGAATTTTTCTTAATTTTAAAAGATAAGCCTATTTGTGAAGGAAAGTATATTATGTATTTTTCTATTGATTTTGTTGTTCAATTTGTAAAA
TATATTTGCTAATTATCCCAGATTTGGGAAGAAAACAGTTTAATTAGCACTTCTGAAATGTGTATTAAGGAAGTGACAGATTCACTGAGACTTTTTTTTT
TTTTTTTGAGATGGAGTCTCATTCTGTCACCTAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCATGCAGTTCTCC
TGCCTCAGCCTCCTCAGTAGCTGGGACTACAGGTGCTCACCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGACTGGGTTTCACCATGTTGGCCA
GGCTAGTCTTGAACTCCTGACCTCAGGTGATCCACTGCTTTGGCCTCCCAAAGTGCTGGGATTAGAGGCATGAGCCACTGTGCCCGGCCCACTTTTTAAT
GTTTTAAAGCGTTAGTACCAAGAAGTTCAAAGTGACTAGAGCCTGATTCTACCCTACTCCTTTCTCCTCCCCAAATAAACTCATCTTCAAGAAACACTTT
TTTTAATTTTTTTTTTTATTTTTTTGAGTTGGAGTCTCACTGTTGCCCAGGCTAGAGTGCAGTGGTGTGATCTGCAACCTCCGACTCCCTGGATCAAGCG
ATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAGACATGTGCCACCACGCCCAGGTAATTTTTTGTATTTTTAGTAGACATGCGGTTTCACCATG
TTGGCCAGGATGGTCTCCATCTCCTGACCTCGTGATCTGCCCTCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCGAGAA
ACACTTTCTATAGAAACATTTATCTGATTATATCAACGACAACACTTTCTTTCACTGGTGCATGACGTTGATTGCCTGTGTGTGTCCTTCAGCATTTATC
TCATAAAGTAATTTTATGGTGAATTACAGTTGAGTGTGTTTGTTTACAATCTGGAATGAAATCATTAAAGTCAATGTCAAAGATCAGCCAGTATTTCATA
GGACTTATGTATTCAGAAATCCATAACTGTGTTTCGAAAGCAGGGCACTGCCTGATGACCAATCAATGGGTTTTGCCAGCTAGAAAAAAGGAGATTTTTA
CTCTAATTTACATGGGCTGCTTCATGGTGGACTACACTGGTTAAGAACTTCAGCTCTACATTTCCTACCTCAGTCATTCACTGACTTTTTAAACTTGGAC
CTGTCACTCAGTTTCAGAATTACTTTTGTATATGAGTATGATATTACTACCTAATTTATAGCGTTTTTGTTAGAAAAAGGTGAATCTTGAATAGTTTTTG
GTGTTGTTGTRGAAGCCATCTCAAGGTTCAAATAATGAGATAATCTGTTAGAATCCTAAATGACCTCCTCTGTGATGTTTTGCTCTATGGTTTGGAAAAC
CTTTAGAGATGAGTGTGGCCTGGCGCTTCTCTTCCCATTTTCAATTTTAGACACTCTAAGACAGAGAAGAGAAAATTATATTAGTACAGAATTTGCTTAA
ATGTCTTAGTTCCTCACATAGTCCATGACTGATTACTTTAATCCTTGTGTACTAAGAAAACACAAATAGAAGAATCGACATTTATCTGTATTTTAAAGTT
ATGAGCAACTTTTTCTTGGCTAACGATTGATCTGTAATGTCAACGTGGCTTGCATTATATGAAGTTTTACTGGCTGTTTTGAAATGGAAGGTGAGGGTGC
CTCTTCACTTTCAAATGTCTGAAGGAAGATTACTGTATTCGCACAAAAATATTTGTACTTAGCTGAAATGGCACAGAATATTATAGTTCTCAAGTGTTTA
ATTCCTTCTCATAGAAATTGCAAGGGAACTTAGGATGCATTTGGCAGGCGCTTTCTCTAGTGCAATCAGGTTGCTATGGCAAACCTATTATTTTAGGCGA
AGAAGGACTATGTTAGTAAAGTGCTAATCTATTTTCTGTTTTATGTGAGCCTCTAATTACTCCCCAACTATTGAGCACATACTGCAAGTGTGGTTTTTAT
CATTTTAAAAAGTGAAAAAAAAAATAAGGTCATGGAGAGTGTGCCTACTGTTACCACACCAGCAGGTGCATTTGATGATACAGTGCTCTCCTGAAATCAT
CTCATTCTGGGTCGGGAATACACTTTTTTTTTTTTTCATAGAAAAGTACAATGAAAAAGGAAGTGAACAAATTGTATGTGAGTAATTGAACTCCAAGCCT
CCCAGCTGTGTTTTACTTATTAAAATATGATAATAATATCTAATATTTGTTGAACACATACTATGTGCCAAGCCCTGTACTGTGTAGTTTGTACACATTA
TAACATTCAGCCCTTACAATCATCCTGTGCTATGGGTATTATTTTTACTCCCATTATGCAGCCACAATAAATGAGGTTTAACTTATTCTTCCAAGGAATC
ACATTTAGTTGTGTATGCACCAAGATTAAAATCCAGACCTATTAAAAGTTAGAGCCCACATTTTTAATTGTACCTGTGCCACAAAGTGTATTTCCCTTTT
AGACACTTAAACAAACACATTAAGACTCAACCCCACATTATCTTTGCCAGAACCTTTCTCTAACCCTGCAGGCCCTGTGTGCACGTGCATTTTACCTTAA
TTTCCCCTGCTAGTAAAAGTGTTAAAACATCCTTCTTTCTTTTGTATCTCAATATCTAGCATGATACTTACCCCACAGTTGATAGTCAAAATGTGTCTGG
GGAATGATCAAAGTAATGCAGACATTTAAGATTGTGAGCCCTGCTAAACCTATTCTTCAGCAAGAACATGTGTGTTCTCTATGTGGGGTAGTTAGAAGGA
AGTTAGTATTCTTCAGCGGAACACTTTAAATGTGACCATATAGGGAAGAAACGTATGTGTATGTGTGTGTGTGTGCCTGTGTGCATATGTGTGTGCGTGT
WGCATATTCAGTCATGGTTTCTGAAGGTGATTACAATTTTTAACACTAGCAGTTCAAGTCCAGGCATCTACCCTGTGGCTTCTGAGTTTACAGATTTTCA
CCCTTTCACAAATGTGCAAAAATGTTACTGGTGGTCATGCAGAAGAGATGTACTTGGTCCTGAATAAATAATGACTTTCCTGAATTAGTTATCTGAGGAC
TCTCTTGATTGTCAATCCATGAGGTTAGTGGGCGACTGTGTCTGTCTTGTTCGTCTTCTTGTCTCCCCATCCAAGATCTAGAAACTTAGTCCCTGCTGGT
TTGAAACCTGTGTCATGTGGAAGTGAGACCTTAAAGCGAGAAAATCAAAGAAAGTGAGGGAAGGAGATGTCAAAGTCTAAGGCTTGAGATATTGGTTGTG
GTTGAGATTATGAAAAAAGAGGAATCCAAGAAGAAAAGAAAAACCTGGAAGAAAGAGGGAAGGAGTGAAGGTGGTGTGTGTCTGTGTGTGTGTGGGTGTG
CGCATGTGCGCATGTGTGTATATGTGTGTGTGTGTTGGGAGAGAATAGTCAGAGGGGAAAGGGAGGGAGTAGAGGATCAAGAAGAGGCAGAGAAGGAGAG
AAAAGAGGAAGAGGAATATAGCTTGAAAAACAAATGTCAAACTTCACAATTTCACAATCTTTACCTTATACCAGTTTTAGAAAATTAACCTCTACCAGAA
GTTGACAACTTTCCATAAGGCAGTGCTTCCAGATATGAGTCATCCATGAATGTTTAACTATTAAAAAATAAGACAGACAATAGTTAAATAAAAGATTGTG
GAACAAGAGATGACCTTTCCATTTCTTCTCTTACCCTCTGATTATTTCTACTGTAACTACACTCCAGCAATTAATCAGGATGTGAACCAATGAAACTACT
AAAGTTTTAATCTATTTGTAATAATGCAAATGAGGCAATCTGTATTTTATAAAGGTCACAAGCTACTCTTTTTCATTTTGTCTTATACTTTAGATATACT
GACTTACCCTATAAGTAAAAGAAAAGTTCGACTTTGTCTTTCTAGTATTAAAATAATAGTATTTTGTTTATATAAATCTTGCAGTATCTTATGGATAACA
TTCCAAAAAAACTGTGAATGAGAGTTTCTTCCAGGCTATATCAAGTAAAATTTAGTAACAAAGATTTCAGAAATGTCAAGTATTTCAATGAACACGGTAA
CTTTCCTAAAAGTGTAATTATTTCAAGTTTGCAGTTAATTTCCATCATATTTACTAAAAGACAAAAGTAATTTCATGTTCACAATGATCAATATATATTA
CTTCTATTGTGAATAACCCATTTTTGCCCTCAGTTCATTTTTCTTTTGCTCATTTATTATTAGTTATTTTTATTTTAACTTATACACATAGTAATGTTTT
CTTAGTGTCTATATTGTTTGTACAAATATTTTGTCCTTGTTTATTGTTTATATTTTAGTCTTAGGTTATTCATTGCTCTATAGAAATTGAATATTGAATA
TTTTATGGTCAAATTTATTAATATTGTCCTTTATATTTCTGATTTGGTGTCATATTTAGAATAGTTTTCTCACCCAAGTGTTATGAAAACTCTCACCTAT
ATTCTTGTCTAGTTTTATGACTTAAACTTTTACATTTGAATGTTGAAACCCCTGGAAACGTATTTAGTTGTAAGGAGTGAAGTAAAGGAAATGAATATTT
TTGAAACATGGCTCACCAATTTTATCAAACATATTTTTTGAATAATCCATTATGCCCAGAAAAGTATATAACATAAATTTATAGCATTATGAATCATATA
AAGTAATCACATGCCCAGATTCAGAAATAGAAGAATGCCAGAATCCTAAAAGCTCCATTCTCACTTCTCTGAAATCAGCATACCCTCTCCCTAAAAAGAT
AACCTTTATTCTCATGTTCATGTAATCACCTCTATACCTGTCTTTAAAGTTTTCCGCCTAGATATATATTCCCAAACAGTGTGATAGTTAGACGTGACTT
TTTTGGAATTAATCCAACAGCATGCATTGTTTTATGACTGAGTTCTCGCACTCTACATTATGTTCTTGAGACTCAGGCATTACGTTGAATGTATTTGCGA
TTCTTTCTTTTAATTGCTATAGTGTTTCATTTAAGAATATAGCTGATATGTAAGTATTCCGTAATTGATGAACATTTGGGGCATTTCTCCTTTGAAGTTG
CTAAGAATAATGTTGCTATGATTATTCTGGAACATTTCCTGGTTCACATGTGTATGCTTTTTTCTCTAGGGAACTTACCCAAGAATTAAATTGCTGATTC
TTAGATTATGCATGCCAACTTCACTAGATAATGCCAAACGGTCCCCAGAATATTCTACCAATTTATATTCTCACCCTCTGCAAAAGACTTATCTGTATTT
CCAAACCATTGCCAATGCTTATTAGGGTCAGTTTTTAAATCTTTGCTAATCTGATTGGGTTGGGGCAGAATCTTTTTGTGGTTTTAGTCTGCATTTCCCA
TGTGAATAAGAGGAGGAGTATCTTTTCATATATTTACTGGCCATACAATCCCATTTGCTGAAGTGCCCATTCAGATCTCCTGCCCATGTCTTTAATGGAT
TGTATGTATTTGTTGTTGTTGTTGTTAGAGTTCTTTAAATAGTTTGGATATGAGACAGTTGTCAGATATGTGTGTCACTGATATCATCTCTCATTCTGTG
GCTCACCTTTTCACTCTCTTATTTTCTAATGTACTAGAGCTCCTAATTATAATTCAAATGGTTAATATTTTCTTTTTTAGTTACTTACTCCAGCACCATT
TATGTGAAAAGTCATCTTTCCTTTGTTGCTTTTCAGTGTCACCTTGTCCTAATCCAGTATTTGTATATGCAAGGAATTGTTTTTGGATTCTCTATTCTAT
TCTACTTGGTCTCCACTTCCACCAAAATCCAACTTTTATGATTACTGTGCCTTTAAAATAAGCCCTGATATCTATTTCAAAAGGTATTTCTACCTCCTTC
TTGTTCATAAGTATTTTCGTTATTGGTGCTTTCCATTTCTGTATAAATGTCATAATTGGCTTTTAAGCTTTAAAAAATCCTGATAAGATTTTSGTTGTAR
TTACATCGAATCTATAGATCAATTAGGGGATATTTGGTATTTTAACAATATTGAATAATAAGCATACAGTATTTCTTCACATTTAAATCTCAAAGCTTTC
ATTTGTCTATGCTGCATATACATATGTGATTTATTTTTGTATATATGTTTGCTATAGGGCAACTAATATACTCTCTTAATAATCCATATTATTTGTTAGT
AGTTTTTGCATTGTCTACATGCACAGTTTTCGGTTAAGTAATTTTTGTTTCCTTCTTTCAATTCTTTATGTCATCTTTTTATCCTTACCATATTCTACCG
ACAAAGACATCTAGTGCAATGTTGGATAGAACTAAAAGATAAATTTATCTTTCTCTTATTCCTAATCCAAATAGAAGGTTTTAAAATGTTTACCATTAGC
ACCAACCAATTATTATTATTAAGTGCATGCATATCCTTTAACATTTTTTCTCTCTTCCTCTTTCTTCCTTTTTCACTAGTAAAACACTTTATTTACTATA
GTTAGAGGACATTTTATTTGGTTGAATAATATAAAATTGATGACGTCTGACTATTTTTGACTTATAAAAAGAGTCATTTTACATTGTTCAGCTTACCTGT
TATGACATTTCTCCACTTATTTTCCATAGATACACACAGACTCTGTTTTTAAAGTATTTCTGAATATTACCATACTTGTTATTTCAGACAAATTTGAGAA
TCATTTCATCAACTTGAAAACATTCAGTGAGTTTGATTGGTACAATATTGATTTATTAATTCAGGAAAAATCAGACACTTCTTAATAAGAAAGTATGTCC
TTTTAAAAATTATAAGTCTTCTCCTATGGCCTTCACTATGACTTTATATGCAAAGTTGTATAAGTTCATTTATTTTACGTTGCTGATATTTTTGTACATG
AAACAATTTTCCATTATATTAGGTTGGGTTAGTGTTGGCACATAAAAATTTTTTCATTTCTGTATGTTAATTTTGTCACAAGATACCTTGCCAAAATGTT
TTAKTCCTTTAAATGCATTTGTAATTTTTAAAATCTTGGGCATAAAGACAGACCATCTGCTAATAATGATCTTGGCTCTTTATTATATTGTTTGTCTAAT
TTTTATTAAATTGCACTTAAACTATAACAATGGTTGTTATAAACATCTCCCATCTCTAACTTAGATCACTCCCTGTTAACCATAATGTTGGATTTCTTTT
GAAAAGATTATTATATATACCTGTTGGCATTAGTATTTAAGCAATTTTCTAGAATAGTGTCTTCTCAGGGGATGACTCTAGGCCAGTGATATATTTGAGA
GTGTTCATCATGTAAGACAGTTGTTTAATCCATGGGATAGCAGGAAATTTTGGAAAATATAGAGGAAAGAAGGTTCAGGGCTGAGCCATGGGGCAATCCA
AGATTTAGATATTTGTATAAAGATGAGAATCCAGTAATATAGCCTAAGAAGAATTCGTAATCCAATAATAGCTAATAGAAGAAAGTATTTCCCAAAAGGG
CAGGGTCAACTCTCAAAAGCTTCTGAGAGGTTATATAAGATGGTACAGAGAATTGGCCACTGGGTTGGGGTCATTGGAGACATTGCTGAARAAGTACTTG
TCACATAGCAGTATCTTGAGGTAATTGGATTGGGTTGAGATGAGACTGGAGTTAAGAGAACAGCAGCAAACTTCTTTTTGGGAAGTTTACTTTAAATTGT
ACTTTGCTGCTATGCTTTTGCAACACAAGGTGTTTTCTATCTTTTACTCATCTATGTTTTGCCCGGTTCCTATGTTACTCCTCCCGGCAACCACCACCAC
CACTGCTTTCCCCTATTAGAATGAAGCAGTTCTAACTAAGCCTCCTTTTCCTCCTCCTTATTCTCCTGCTTCTCCTTTTAGCTGCCTTTGAGGTTTAGTC
TCTCATATATGGCAACCATATAAAGAGAAAAAAATAATGTGATGTATTTTTCATGGATTATGCTGAGATAATTTTTGAAGGCAGTTCACTGTTAGTGGGA
GAAGGTGCTGTGGTCTATAGGTGAGGTCTGGAAGGACTTCAGACAAATATTCAAGTGCTGACTAATTTATAAACCCAGAGCAGAGGTTTTACTTCCAGAA
TTATTTTTACATATAATATATTCAATCTAATAGCATTAAAATGCTATYCAAGAATACACATAGCATTCTAAAATTTTAAGCTTCCGTTTTAATGAATACT
TTAAAGATTTTGAGCTAGTCATATAGAAGATTGGGTTTAAGGTTAGAATGAGATAATGTGGATTATGTTGAGATAATTTTTGGAGGCAGTTCATTACTAG
TGGGCGAGGGTGCTGTGGTCTGTAGGTGAAGTCTGGAAGGGCTTCAGACGAATATTCAAGTGGCAACTATTTTATAAACCCAGAGCAGAGTTTTATTTCC
AGAATTAGTTTTACATATAAAATATTCAATACACAAAATGCTATTCAAAAATGCATATAACATTCTAAAATTTTAAGCTTCCTTTTTAATGAATACTTTA
AATATTTTGAGATAGTTATATAGAAAATTGGGCTTAAGGTTAGAATGAGATAATGTTCTAGTAAATTTTAGCTGTCTATATATTCYATTAAACAATTATT
ACATATATTGTGACCTTTTAGTTTTATACTAGTAGCAYTTTTTTATTATGAAGTTAGTAATGCTGGTCAAAATGTTTAGGGTTTAATTTTGGTGATATAA
TCATTCCTCCACATTTTTTGGTAGTCAATATGCAGTAAAATGAGGTAAATGCTATAGAATAGCAGACTTTAGAGACATATATATCTTTTATTTAACAGTG
TACTCCCATATCTAATCGTGTATTTCATACGAAACAGATTCTTAAATATTTGTTGAATTTTATATAAAATATTTTGGAGTAAGTGAATCAAGGTTTTCAC
ATTTTCATGTAGTTCTTATGAGAAAAAAATGTACTCTAAGGTGAAAATAGACACTTTATCTGAATCTTATATCTTAATGATTGTGGGAAAATATAAATTT
AAAGAGATTTAAATTAAGAGTTTTTATTAAAATGATTACCTGCACATAGTTGGGCTTTTTGCTTATATCTTGACTTATAATTTGTCTATATTTTACACAA
GTTCAGAGTCTGAACTTGTTTGAATTTTTAAGTAAAATCTATTTTGATCGGAACTTCTAAAAATCTGCCTTAGTTCATTATTCTTCTTTGATAGCTTATA
ATGAGCTTTAAAATATAATTCATAAAAAATGCAGTTCTTTATGAAATGATATCATTGGAATGATTTTATATGTGCCTAAAGATTATCTACTTTATTAAAA
CTTAATAAGAGTAGGCAGACTCAATGTAGAGTAAATTTCAGATAAGTTTTGGTTGGATGATATTGATGATGTTGGCTGAATTAATTTCTTCTCACACAGT
TATTTCTATGCTCCTTTCTGTCTGTTTCTGAATTGTCTTCTTGCAAATTACTTGCTTTATTTTTATTTCTTTGGGTATCTCTTTTTTTAGATTTTCTTTT
AAATATGTCGTATAAAGTAGCACAGTGCTAGAAAGGCAGATTTCCATTTTCCTTCTTTCTCATGTATGAGAATATTAATTTGGTATTGATTTCAGAAGCC
ACAGTTGTATCTCCATAACAGTAAAACAATCACTGAAATAATAATAATAATATTATTTAGTAAACAAAAGAAAAAGATTGGACTCAATTTCTTATCTGAA
ATCAAGTCAATAAACCTGTATGTCAGCATCCTTCTACTACATTAAGGGAGAACTTAGTTGGCTGCTACCAAGATACAAATCTCACCGTTAGTCTGGACCG
TAGTGATTTTATCATTTAACAATTGGGTTGAGGCACTTGCTTATCTAGTTTAAACTTTGCATTCAGTATTCTACTAGGTATAGACAAAGGGCTGTGGGAT
CAGAAAGGTGACAATTCTTCCAGGTAACCAACCTGGGATGGCAAGGAAGGTTTCAGAGGAGATTAGATTTGGGCTGGCTATAGAACACCGAGTAGGACTT
TACAGAGAAAATGGTGGTGTGCACCACGGAGGGAAGAAATAGGGAACATAAAGTCTCTGAACATGAGTGCTCTATAATTGCTGGATATATACTTGAAAAG
GTTAAGTTGGACCATGTGTGGAAAACTCTGTTGAAGAATCTAGTCTTTGCTTTGAAGGTTACATGGGGCCATCAGAGGGATTTGTGCAAAGGAATTACAC
AATCATATGTATGTTTTTAAAAAGCAGATTATGTGGATTTTCACAGAAGACCCAAGAAGAAGAGTAGGTTTGTGAATACAGATGATGAATTTGTCGTGGG
ACATATTTAATTGATCTGACCATGGAAAACACAAATGAAGGTATTCAGGCAATTGGAAATGAATATCTATTCTGGGAGAGATATACCATTTCAAATTCAA
GTTCTACCATTAATGCTCATGTATTGTGTGAATATTTCTATAGTATTTATATATGATTACTGTTTAATGCACGTGTTCAATAAATATTGATTCAAAACAT
TATGATTGCCGGGCATAGTGGCTCACACCTGTGATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATTGCTTGAGGCCAGGAGTTCAAAACCAGCCTGGC
CGACAGGTGTAATCCTGTCTCTACTAAAAATAGAAAAAAAAAATCATCTGGGTGTGGTGGCGCATGCTTGCAATCCGAGCTACTCTGGAGGCTGAGGCAA
GAGAATTGCTTGAACCCAGGAGACAGAGGTTGCAGTGACCCAAGATTGCAACACTGCACTGCCAGCACTCAAGCCTGGGGACAGAGCAAGACTCTGCCTA
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTATGAGGACACATAAGAAGCATASTTAATTTTATTGTATTTGTGAAATTGTGTGAGTAG
GAGGATGCCAATGTCACAGATTTGGTGAAGTTTTCCTTGGACCTTGAAGAATGATTGGAAATTTACCTGATAGGTATATGATAATGACTGAAACAAAATT
GGTAGTGATTTGTGGTAGTGGCTAAAYAGAAGTTGTGAASTGAGGCAGCAAAATAATAAACTTACAAAAATTAGCCAGGCACGTGCCTGTAGTCCCAACT
GCTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAACCTGAGTGACAGAGCAA
GACTCTGTCTCTAAAAAAAAACCCAAAAAAATATGGAATGCATGAAGAATTTACTCTTTTTTACCTCTCTGTCTGCAATAAATTAGCCTTTCCTAATGCA
TTATATTTTAATTGTTAACTTTTTAAAAAATGTTGTGGATATATAGTAGGTGTATATGTTTGTGGGAGACATGAGATGTTTTGATATAGGACACAATGTG
AAATAAGCACACCATGGAAAATGGGTTATTCATCCTCTCAAGAATTTATCCTTTTGAGTTACAAATAATTCAGTTACACTTTTTCACTTATTTTAAAATA
TACAATTAAGTTATTATTGACTGTAGTCATCCTATTGTGCTACCAAACAGTACGTCTTATTCTATTTTTGGTGCCCATCCTAATACGTTATTTTTGATTT
TTATCAGAAGCCACTGTATCTTATAAACTGTATTAGGGTTACATGCAAAAGGTTAATTCATCTCATAGTTGCCTTAGTATTAGTCATTTTAAAACTCCAA
TAGATACATGGTGAAAAAAGAATTGGAAATTGGTTACTATATTCTCTGATATTTTAAAAAGATATGTGAATTGTTATTTATCAGGAAAGAAAATGTGCCG
ACGCCAGAATATTAACACTTTATTGTCTAACTTTACACAAAAATATGGGACAGAAATTATCCACAATGAAAACAACGGAATGTTGAAATCTGAACACATA
TGCCAGTGTTTAGTTCATCTTTTCTGAAGAGGCACAGAAGCCAATGAGGCACATTCAGGAAAATTACTTAAAATGTGAATTACTTAAAATTACTTAARAT
GTGAATAAATTTGTCACCATGAATACATATACCCTGAAACGTAGAAACTGGTTCTATGTAACTGGAATGCATTGCCCCTCAGGAATAATGCAACTGATGR
TCATGGCTTCCCACATCTGTGTGTGAAGGAACAGTTCACCATATCCAGACCACACTGCTGATGGTACTACAGTTTGCCTCTTTCTCCCCACAGCCTGCAT
TATTGGAATCATTTGCACATCCACCCATGAAAAAGATTAGAGCATTTATGCACATTGAAAGGTGACTGGAGTTCAGAAAATCTAGGTTCTAAAACCAACA
CTACTAATAGATAGAGAGCTGGCCTTGGGCAAATCATTTAGCCCCAGCATGCTTGAGTTTCCTCATCTATTAAATAAATTGAAGGAAGTCATGGATCCTT
CTGACATTTTACCAAAAAAAATGTGTATTGGTATATTTTTCCAGGGATAGATCTGTGTTCTGCCARTTATGGTTCTTGATTACAAACAACAAAACCAACT
TCATTAAAAGGGATAAAAAAATATTTTATTAGAAGGCTTTAGGCTCAGAATGCAACTTTGAACAATTAGCTCCTGCAGCAACCTGGGGAAGCAAGGCACT
GCCAAGAACCAGTTCCTGCTGCCATCACTTCTGAATGTCAGCCACTGCAGGCTGAGCTTCAAGGCTCCCAGAATTGCTATGCTGTTGCATTTGCCACACT
GCCCACAGACGTTGTGCCTTTGCTTTCACCCTCAAGAATAAAAGCCCTGACCAAGGGTGTCTGATGTGTGCCTGTTCTAGCTGCCAGGGTATAGGAAGAG
GGAATATCGTTGAAGGAGGGACCCCTGCCTCCTGCTGAACCTGGGACTACCTCCAAGTAGAGATTAGTTGAAGGTCAGCCAGCACAACACTGTATTGCCA
TGTCTTTCACCAGATTCTCAAAGGGATCGTGACCCCATCATGTCAGCTAGAAAATATTATGAATCATTGCATTAGATTATCTTTAATTACAGCTCTGAAA
TTATATGATCCTAAATACTAATTTTTCTTTCCCCCATCATCCACCAACTCAGAATTTCTTTAACAAGATACAAGTTCAGCAACAGAGTGACTAACAACAT
TGCAAGGTCAGCCCTGAAGCATCTTGTGATTATTTCAGTGGGTGTGTAATTATGATGGTTGGGCTAATGACAGGGAGTAACAGATGTCTCGGAGCACTGT
CACCCAAGCAAATTTCTGGCAAACCAGTAGTGATTCCTCAAACAAAAGAAATTTACTTTCTCATATAGCCTTCCGGTGCTGCATTAGATGTACATTAAGA
TACAATGTGGTTTAATGGTTAGTTGTGCAAACTTTGAGGTTAATGAGAATGGATGTAAATTTTGAATCTATTTCTTCCTAGCTGGTTCACCATTGGAAAG
TTACTTGGCCTCAATATGTCTCGGCTTCCTGTTTAGTAAAATGATTGTAATGATTCTAGTCAATGTGTGGTGTTGGAAAATGAAATGATGTCATGCAGGG
AATGATAGTGTTTGACACATAGTTACCACTCAATAAATCATGATGAAAGTCAGCATAATGGGACTAGTTAAGGGGTTCCCAAACGATGAACCAAATTCAT
TGCAAAAATATTTATAATTTTAAATTTTAAGACGAGGATAATAAAGATATTTAGGTTATGCTCTTTGACATAGGTTCTATGCTAAAATGAGTTCTATGAA
CTATAAAATTGACTACAAATAGTCACTAAAATAGCACATTGAAATATTACCTATGACCACTTTTTTTTTCTCATGGAGCAGATAGACCCAAGATTAAAAC
ATTTTAAAATGGCCACATCATACTAAATTATGTCAGTATATATAATGTATTATGTTATGTTCAAGGAATCATCAGGATAAGTTGTATATGAAATAGCCAG
AGAGTTTTATAATGGATTTATTCAAAAATGAATGAAACAAAAATTAGAGAATAGCAAATGTGAATGACTTCTGAGACAGCAACTGCCACTTCCACTCCAG
ACCACCACGGAATTTCTTCTTGAACTTCAGCTTACCTTAGGGAGGTTGGAAATGTGTATTTGTGTAACTATTATCAGGCACAGACTGGAACTATTCTAGG
AGATTTGGGTTTAATAGTGTGCTCRCCTCCTTGAAAGCCTTAGTGATTCCGGGACTCTCCTCATAAGTGTGCACTTTCTTTATACTTTCCAGGTAAATGT
GAATGTGGCAAATGCACCTGCTATCCTCCAGGAGATCGCCGGGTGTATGGCAAGACTTGTGAGTGTGATGATCGCCGCTGTGAAGACCTCGATGGTGTGG
TCTGTGGAGGTAGTAACCTTTCTCATAGCTGTATGCTACCTGCATGCAACTTGCTTTACCTGCCTTTGTTATTCTACTGACTCTTGCTTTTTCAATTGCT
GTTAAAAATAAGATAAACAGAAAGCAATATACCATTGAACCTAAAAGCAATATACAATTAGGTTTGTAATGACTTTTATTTCCCTGAACTCTTTATTTAG
CAGGTATGTGAAAGTACGCAGTACACTATCAATAAAAGATCATTGAATCTAAGTACTAAGATACTTTATGATCGTGAAAGGTTTTGGGGCAAGTCAGCAT
TTTAACATGATTTTCATTACTTTATTTATAAACACTGGTAGGAGAAAGTATAATATCACCCACAAACTTGAAAAAATGGAGTAAGATTACTCTTAGAAAT
CACAAGAGGTATACGCTCAGATTCTATGATGCCTCTCATACCCAAACAAGAGCTCACTGGCATTAATAAACTGTCCAGAGAATGAGTGAGGCAGATAGAA
GGTAGTGAGCAGAGGTAACCCACAAAAATGAGAGTCCCAGGAGTAGAGTGCTGATCCGAGCACCTCCATGGCTGGGAATGTGGGTCAACATTATTCTTGC
ATTGCATTCTTGAAAAAGTTCATATCGCTGAGGCTGATGCATGTGAATTACAGATCTTTCCACGTTTCCAGTATAAATGAAGTGATGTGGACATGGAATT
ACATTACAAGAAAATAATTATATCCCTTTATTGGGGGAAAGAAACAGAATGTGTGTCTTTTCTAACTTTTATTTTAAGTTCAGGGATGCATAGGTAGGCT
TGTTACATATGTCTTATTGGAGGRTGGAGGGTGGGTTGAGGGAGAGGATCAGGAAAAATAACTAATGGGTAGTAGAGTGTGTGTCTTAATGGAAGGCTGA
GGCACCATCCATCCATCCTABCTGTCTGTCTRTCTRTCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCATCTATTATCTGTGTATCTATT
ATCTATCTATATCAATCATCTATATGCCTGTTCTCTCTCTAACCAACGATAAGACATTTGAAACCTGACAAAAAAATACTTTCTTCTTTCCTTTCTCTGT
GAGTTGAGGGGAAAAGCCCTTTTAACCTGTTAATGACTGAGGTTAGACTTTTTTGAATTTTTGCAGTCAGACCTTGGTGATGACCTGGAGCAGTAGGATA
TAAAAAACTCCCACATGCTTAGCGTCCCAATAATGGAACACCAGGCATAAATTCGTAAAACATCTGCTGTGCTGGGCAGTTTATCTTATGCCATTGTCAT
GGCAGCCACCCTAAGAGATTGTTTCTACTATTTTTTCTTTCATAAATGGAAAATAGAGTGAGGTTGGAGAAGTTAACATCCCATAACTAAAATGTGGCAG
ACCCAGAATTTCAGCTCTGATATTTAGTTCACAGATCGTTCCTTATGTCAGTCACAGTTTTCCCTAGAGTGACACCAACGTGTTTTAACAATATGTCAAT
ATTATTCTTAGGTTAAATCCTCTGTTCACTGGTATTAGTTAACCAGAAATACCTATGTAGGTTTTACTCTTTTTGTTTGTTAAGGACATGACATATATTA
ACTCATTTATTTATCATAGCAATATGTATGTATGTATATATACGTATTCATGTATAAAAAGCTTGCCTGGCCCCTTGAAAGTGCCATCTACATGTCTCTG
CTCTTGTTACCATTGTTACTTTTCTTTTCTTTTCTTTTCTTTTTTTTCTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTAGAA
GCAGAGCTCACTGAAACCTCAAACTCCTAGGCTCAAGCAATCCTCTGGCCTTAACTTACTGAGTATCTGGGACTACAGGCACATACCACCACAGCTGGCT
ATTTATTTTTTGTGGAGATTTGGGGGTCTCACTAAGTGGCCCAGATTGATCTTGAACTCCTGGGCTCAAGGGATTCTCCTGCCTTGGCCTCCCAAAGAGC
TGGAATTACAGGTGTGAGCCACTGAGCCTGGCCAGAAATGGCTTTTGTATGTTTTTTCTGTCTATTTGTTGCTTTGGAGTAATCTCAGTCTCTTCCACTT
TCATATTTAGGTCAATGTCTCTTGAAATGATTGATCAGCAATCAGTCATCCTTGGCTTTAGATTCTTTTCAATTTCTAATAAAAGATTTTCATATGGGAA
TTCCTCCAAATTACGCATGGTTTAAACTGAAGTAATTATTTTTTCATTAACTAAACAAATATTCATTGAGTGTCTACTATTTGCCAGCACTAGACATTCA
GTGGTGAACATAGAGCATTTGCTCTCCTGGAGCTTATGGTTGAGCGTGAAGGGAGGACATTGAGAAAGGAATGAAAAGGAGCTGAGTGATCTGAAAAGAG
ATTTGATTCAATGGGAATATACATAACGGGGATTTAACATAGGCTGAAGGCTAAGAAAGACTTCTCTAATGCCTTCATATCTGGATAACAACTATGTAAT
GCAGACTATGTGCTTTACAGGTATTAACTACACCTCACAACAATACTTGGTAGTAATAGGATACATGGAACTTGGCCAAGTAGGGGAAGTGGGGTACAGT
CAGAGAGCAGCTTGTGCTCAGTTGTGTGGGAGAAAAGAGAGTGTGTGACGTGTGCCAGGAACATTTGAGGACCAGAGAAAAACCCTGTGTGATTGCAGAT
TAGAAAACCAAAGGGAAAAGAGTGTGACGTGTTTTGTAAACATGTTAATAACTTGAGGCTTTACTCTAAAGGTGACAGGAAACCAAAGGAAGGGCTTAAA
CAGAGCTTAAACATGATCACAGTGTTTTAAAAAGTACTTCTGGTTGTCAGATGGAGTATGGATTGCTCCAAGGACTATGTGTGTTTGTGGGTTGGTAGGT
GAATCTGGATGTTAGGAGATGAGCCCTGGTGAGAGATGAAGGTGCCTTAGCTGGATGGAAGACAGTAAAGGTGGAGGATCTTGAATGTGTTGGAGAACAT
GTTAGAAGCAGTGGGGTCAAGAGACTAACAAAACCCTTCACCCTGCTGCAAGAGACTCCAGCACTCTGTTAAACTCCTAGCTCTGGTTCCCTGGCAACAG
ATGAAGATGGTGCATTGCAGTGTTAACAAGCAACATTGCTCATGGTCATAATGATTTATGATTGATAAGTTTCAACTACATTGGAAGAGATGATGAATTG
AACTATAAGCAGCTGATGGGAACCTCATGCTTTTGGATTTCATAAGTGTCATAACTCTGCCAACAGTCTTGTCCCTTGTGGGCTCCTTGAAAGCTGTTTA
CGGAATCATCGGGAAAGATTTTGGCTCCTGTTGGGCGTGCGACTTCTTCTAAGCCAGAAAAGCCTCAACATCTGTGCAGTGTGGATCTCATCTCTGTGCA
TATGGGCTGTGTTATCCCAAGAGAAAATAGYCCCCAATTATATGAGTTCATCCTCATGAACTCCTGCAAGAACTCCCRTGGGTATATCCTGGTGCCTGAC
AGTGCCTGCTGGTAAGATGTGGCTCCTGTCCCACAGCCTTCAAAGGAGAYTGGTGGCAAGTGTCAGCCTGAGAGCTTAGTTGAAACTTAGAGCTCCCTCC
CCAGAGTACAAGCATATTTAAGGAAATTCATGATTGCACAATATGAGGGGCAGGGTAGGATCAAGGWTGACACCAGGTTTCTGTTTTGAGCAACTGAATG
GTGGAGGAGACTATGCTTGTCTTGACCAGTTGTCTCCATTTCTTGAAAAATTGGTTTCTTCACAGAGAGCAACAGAGATGGAGAAACTTGGATATGTTGC
TCCCTTTGGAACATATCCCTTGGGTATGTTAGTTCCCTCTCCTAGTCCTTATTGTCACTTCTCCTTGTGAATAACTTATTGTCTTTCCATTCTTCCATGA
TTTTTCCAAATTACCTCCTATAGGAAGCCTCTCTGAAATGATGTCCTACTTCCTCTATACCGCACCACCTGCATCGTAGTGTGATGAAGTTGTATYGAGA
GTGTCCCTGTGTCCCTTTTCTTTAAGTCTACAATTCTCATGGATATAATCAATCTCTCTCTCTCATTATCATATGCTCAAAGCTAGGATAAAGGTTAGTG
CTCAATATTTTTATTTGAATAAATGATCAAGTAAAGGATTCACAATTAAGGAGAATGAGAAAGGAAGAACTATTCCAGTTTTGGATACAGGATTCTTCAA
GTTGAGGTGAGGATGTGATTTGGACCTTGAACAACTAGTATTTAGATGTGCAGAAATAGGATGTGAAGAATATTTTAGGCCTGGGAAAGCTGGGCAAAAG
CACACAGGTGAAAAGTTATTTATTAGATATTGAAGGAAAATATCGATTTCATTTTTTTTTTTTACATCAAGAGCTCTTTCTCAGCTGCTTCTGTACCCAT
CATTAGAAAGGATTTTTTTCACATATTACTTACTCATGTATTATTTATAATATATATTATGTCACCTTCATTTCTTATACTTGGCTCATCTTTAGATATC
AGGTCTTTAAAAATATTGTTAAATTGGTGTTTTTGCTTTCAAAATTAAAAAAATATATAGAGAGAAATGGAAACCACAAAATAAAAATCACCCATTAATT
GATCATCCTAGAATAATATCTGATGACACTATGTTGTATTTCTTCCTAGGTWTTGTTTCTGAGGAGTAAAATTATTTTCAAAATATAAATTCATAAATCT
TCTTTGGGTATTTTGATATTTTGTCTAGAGAAAGTCCACATTGTATGGTATCCTCAGTTGCTTTAATGTACATGGTGTGCACTTTGTTGCATTTTTTCAT
GTAAGATTTAAGTGAGAAGAAGTAACCATTTTCTTTGGAATTAAGTGAGGCAGTGCCATATAGCAAGACGAATGGGAACCCTGTATTCAGACAGACCAGG
ATTTTAATTCTGGGTCTATTTCCTGCTTATTGTAGTAACTTGGACAGGTTGTTTGTCTTCTCTGCTTTGGTTTACCTATGTATTTGTTTGACCTGTCTAC
CTTGGTTTACTCCTATATACAATAAGGATAATAATCCATTTGGCTTTATGGAAAGAAAGAGACATAAAGACGGAAATGTGCCTGGTACTATGTGCCAGTG
AATATTTGATGAATGCCCTGTATCTGTAATAAAAATAAAAGATTGTAGTGGCCATCTGCATTACAGAACAAAATAATACATCTGTCTCAGGTATCTGGAA
GCACTAGCTGCAGAGCGTTTTGCAAGGAAGTTGGACTCACACAAATCAGCAGCTCTGTACCTCGGGGAGGAAATTGCAGCTGGTTTTTCCAAAGCAATTA
GTCCCCCCCATCATCTCTCCAGTGGAGAACAAATCTTACTAATATGAGAATGTGAAACACACAGACATCATCCCTCTGTTATGGCTTCAGAGAATAACAA
AATAAGAGAGTCACTCATTTTGGTAATTTTTTTAGTTCTCCACCAGACACTAAACCATAAGATCTGTGGCCTTTCATATGGAGAATATAAAACCTATATA
TCCAACATGTGGCCAGAGAGTAAAATATGGTACTTGACTSCAAAATCAGGGACTGTCTTAGCATTTTAGCAAACAAGCAAATAAGTAAGATAAAAAACAT
GTATAAACTTAACTGATCAGCAGATGCATGAGCACTAAGAGCCAATAGTGTTTATCCCCTTTCCTACCAATAACACTAAAGATGATTAAACCAATTCTGA
TAGGTTGGATAAATTAGCAATTGTACCTGAAGGTGAATGTAACTAATTTCATAATTTTTACAGTTCAGTTTTGATTACACCAAAATTACAACCTGGAAAA
GAGTCATGAAAATGACTAGCAGAAAGAAAATCAGCATGAAGTGAGATCGTTCTTCATTTAATTAACTTGTGAGTCATGTTCAATCATCATAGACTGTCTG
TGGATGTTCTCAAAACATCTTTATTAAAAGAAGATGTTATGCAACCTATGCATGCATGGATTTATTATCAGATAAGTCACTATTTATAAAAAGCATGACT
TGTCCAGTGATAGTTCGTAAGATTTATTTATTTTATTGGTATATCATTTTAAGATTACACAAGTGAAAYATATTCACATACTGGCACATGTGTGTTTAAT
TGTTTAGCCTAATATAAGTTAAATCAGAGACTTCCCTCCTGTGTGCCATATACCTAGGGTGAGAATAAGAACTAGGCTGCTTATTGCTTTTCTTCTTTCC
TCTATACTCCTGGAATAGCTACCCATGAGTCCAATTTAAAAAACAAGAAGGGATAATGAAGAGCCACCTCTTAATTACACAATCAGTTCACATTTCTTCA
GGGAGTTCTCTAGTTCATCGCTGCAATTTGAAGGAGATCRTGCCGCCTGAGAGTATGAATTCAGTGACTCCCAGGCACTGATGGATTTCTTGTATGAGGA
AGAGATCAGATCACACACTCAGACTAACCCTTTCTTAACTGAACAATACAGTCAGAATGTGATTGTCTCCAAATTACATCTTAAAATTGCACACCTGTTT
CGTGAATTTGTAAGAGGATCAGTTAGTCCTGTGTTTGGCTGAAGGTGATAGACACAAATACTGAGTCTTCAGGTTGTCATTCCAGGGTTGGATGGTGAGG
CGACTGCCTGAGCACCACAGTGTCCCTGAACCCCATCTCTCTCTTCTGCTCTGCCCTTCCAGTATGACGTTTATCATTGTTATGGTTTGGCTGTGTCCCC
ACGCAAATTTCATCTTGRATTGTAGTTTCTATAATCCCCAAGTGTCGTGGGAGGGACCAAGTGGGAGGTAATTGAATCACGGGGGTGGTTTTCTCCATGT
TATTCTCATGATAGTAAGTTCTCACGAGATCTGAAGGTTTTATAAGGGGCTTCCCCCTTCACTCGACTCTCATACTTCTTCTTCCTGCCATCATGTGACG
AAGGACATATTTGCTTCCCCTTCCACCATAATTGTAAGTTTCCTGAGGCCTCCCCAGTCATGCAGAACTGTGAGTCAATTAAACCTCTTTCCTTCCAAAT
TACCGAGTCTTGGGCAGTTCTTTAAACACAGATGTTGTTATCAATGAATGGTCCATGTAGATGATTCTCCAACAGTTCCACCACTCCTGGGTGTTCCTCT
TACAGGTCTAAGTGGCAACACAGTCGTGTTGGTGAGACAAAAGATGAATAAAACTACTTCTATGGTCTTATTTTTTAAACTCAAATTTCCAGGAACATTC
CACTTAGTAGACCTCCAGTATGGGACACGCTCCTTTGTCATTTCATGAGACAACACAATCTTAGTTTTCTCCTTCCTTACTGAATGTTCTTGTCTGGCTT
CTCTAGTTACCTAACTCTAAATATTGGGGTCCCCAAGACTAATTTCTCCCTGGATAGCTGCTTCACTTCTAGGGCTTTAAGTGCCATCCACATTTGTAAG
CTCTAACATGTGTATGCCTAGAGCCAGCACTAACATGTTCTCTGAGCAGCAGCTTGTGCCTAGCTGCTTACTTGACCTCACTATCTCATTGTCTTAAGAG
TGTCTCAAATACAACAGGCTCAAAACAGAGCTGTTTTTCTGCCCTCAACCTCTTTCTCCTGAAGTGCCCCTACCCAATAAACAGCATCATTATTCACACT
ATTTCTTCTAGCTAGAAAACTTGTCTTGTCTTTTCCTCACTTGCCACATCCAGTCCAACATTGTGTCCCACATATACAGGCTCCATCACCAAAATAGATT
TCCATGTACTTCTCTGTGTTTCCACTGCCACCACTGTCCTTTAAGCTTCTATCACTTTTCACTTGGAAAACAGCAAGAACCCTCTAACTTCCCCATATTC
ATTCCTCCCAACATACCTTAATCTGTCCCACCTAGTTGCCAAATGAGTTTGCAAAGTGTAAACTATATCGTCACATCATTCACTTCCTTAATATCCTTCT
GTCATTTCTCAATCCTCTTAAAATAAATTTAGATTTTTTTTACCAAGAGTAAATCATTTGCTATGTTCTCATTTCTGAGAAGGGAATATTTCTCCACCTT
CATTATTCAGTGTTTTTGACTTACTATTCTTCAAACACGTTGGCCTTCTTTTACTGCCTGTAACATGCCAAGCTATTTCTTGTCCCAAGAACTTTTCATT
TGTTTTTCTAGGCTCTGTTCCTAGAACATTGGCTGTCTGGCTCCTTCTCATCCCTTGGCTGTCACTGAACCCTTCCCTGACTACCCTAGTTAACAGTGTT
CTTGCTATTGAATATACTAGCATTTTCTTTTTGTCTTCTATTACTCAAATGTTGCTTATCGTTATTTTCTTCCCTAGAAGACCGTAATTACCATGAAGAC
AGGGCCAATGCCTATTTTACTTACTGTTATATTCTAAGCTGTTAATACAATTCCTGATACATAGAAAATATTTCTTGAAGAGATAACTAAATTATTAGAG
TTTATTAAAAAGAGGGTATTGAAAGTTGTTTTGTTCTTAAGTAAAGTCATATAAATGACAACTCAAAGCATTTGAATATTAATGTATTTTGATGATTGGC
TGAGCTAGATACCAACTTAACTTCGTGGAAGGATATAATAGATTAGCTAATAATAAAAAATCATCGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCA
CTTTGGGAGGCCGAGGCGGGCAGATCATGAGGTCAGGAGATCAAGACCATCCTGGCCAACACAGTAAAACCCTGTCTCTACTAAAAATACAAAAATTAGC
TGGGCGTGGTGGCACATGCCTGTAATCCCAGCTATTCGGGAGGCTGAGGCAGGAGRATGGCTTGAACCCGGGAGTCGGAGGGTGCAGTGAGTCAAAATTG
CCACTGCGCTCCAGCCTGGTGACAGAGCAAGACTCCATCTCAAAAAAATAAAATAAAATAATAATAAATAAATAAAAAATCATCTATTTTCTTGCATAAC
ATTTTATATTATTTGCAATGAGATGCCATAAAATTATTCTTAATAATATTGTAAATCAAAGGCAGAATATCAACTTCTAAAAGGGGAAAAATTGTCTCAT
ACTACAACATGGAAGGATCTTTAAGATATGTTAAATAAAATAAGCCAGTCATGAAAAGAAAAACACTGTATGATTTCACTTATATAGGTACCTAGAGTAG
TCAGATATATAGACAGAAGCTGGAATGGTGATTTCCAGGAGCTGAGAAGAGAAGGGAATGGGACTTACTGTTTTATGGGTGCTTAGTTTCAATTTGGGAA
GATGAAAATATTCTAGAGATGAATGGTGGTGATGGTTGTACGACAATGAGAATATACTTAATGCTACTGAACCATACACTTAAAATGGTTAAGATGGTAA
ATTTTATGTTATATCTATTTTACCATAATAAAAAATATTGTAGAAAAAAGTAGCCATAGGTCTACTTTAATTATCTGTTTCTTTTTATGTGGGTTTTAAT
AGATTGTGTCTTCACGGAATTGGTCCAAATGATCCAGGTTATCAGATTCTTGGACAAATCATTGTTTGTAATATTCTATTATTATCCTTTTAATGTCCAT
AAGGTAAGATATAATCATCTCTCTCTTAATTTTCATATTGAACATTTGTGTCTTCTCTCTTTTTACTTGTTTAGCCTGGCCTAATATTTATCAATTTTAT
TGATCTTTTCAAATAGCCAACTTTTGTTTTATTGATTTTCTCTGTTGGTTTTCTATTTCCAGTTGTATTGATTTGTCATGGAATTGATTGTATTTCTTTT
CTTATGACCAATTTAGTTTTATATTGCTCTTCTTTAGTGTTTTAAAGTGAAAGATTACATCACTGATTTTATATTTTTCATTGCTTCTGATTGCATTCAT
GCTGTAAATTTCTTTCCAAGTATTACTCTTGCTGTATCCTACACATTTTCATAATATGTATTTTCATTTTCCATATAGTACTAATTAAATTTGAAAAAAA
AAGGCAGAAAACAAAAAAAAGACAGAATATTTTTCTATGCAATACAGATTAAATGATTTCAGTTGTGTCAAATTGTGATAATTCTTACCAACCTAGGGTC
AGTAAGAAACATGAGCATTTGAGAAGTTCATAGCCCAATTGAGCTGGTACTAGAAGCTCTCTTTCTCTTCATTTTTGGTTTCTTGTACAACAGATTCTCT
GCCTTCAAAGATGGACAACTTTTTATTTAACTCTTTAAGGACATCTGGACTTTAAGTGGACTTTGGTTTTCATGGAGAAGTAAAGATGTACTCAATTTAA
CAATTATTCATTGAGTAGATAGGGGCGTAGGGGTGCCAGTTTTCTAACTTGGCTCTACTCTACAGTTTGATTTGTGGGTAAAAATGAGAAAGATGTTTTG
AAAAAGACAATTTCAATCTCCTCCAAGTTTTTGAAGATCCACTGTGTCTCAGGCATTGTGTTAGGCACTCTGAAGACTACAGTGCTGACAGAAGTAATAC
TCAGAAAATTCATAGTAGAGTAGTGGATTCATTTGACACATAACTATATACCATGAGATGGAAGTCAAAAAAGTTCCACAGGAGGTAAAAAAAAAAAAAT
AAGGTATTACAGAAATTCAGAGGAGAGACAATGAGTCTCACTTAGGGATATTAGGTAAATCTTCACAGAAGGGTAGTCGCTTTTTGCTGAGCTTTGAAAA
TTACTCAGAACCTGAATGTGTATAGTAAGGGAAAGGTACTTCTACCTCTGCAAAAACATGAGGTCAGAAAAGCATGACAAATGTGCAGGAAACAATGAAT
GGGCCAGTTTGGTTAAAGGGAGAAGAGAAGGAATACAATTGGAAATGTAGCTTCTGTTTTTCAAGAAGCTAAAACATAACAAAGGCTAGAGTAGGTAAAC
TCTATGCCATGAGTATTAGGAAGTTATACGGGACTAAATATCAAGGCAAGTTGTGCTGTAGGAATCTACGAGCCAGAGTATTGGAGAGACATGACAGGAA
GTTTTTTCCAACGTTGTGATGGTGATGTAAGTGGGAATGTTGGAGGTGGTTTCAACAAGACTTGACAACAAGCTGGATGAGGGCAGTAAGGGAAATTCAA
ATGAGACTCAAAACATCATGAACTGGTTGATTGAAAGGATAGCTGTTACATTAAAAGAAATGAGAAAGACAAGCAGCTTTTGGAAAGAAAATCATATATG
GATGTAGGAGATCGGTCAGGGTGGTGGGAAAAATTGTAGAAGATGCAAACCTTCTTGGAAGGCTGGAAGATTTTACAAAAGCTTTGGAAAAGGATTTGGC
TGAAGGCAGCCAGATTCTCTTATCTGGTGAAACTAATCTAAATAAGTAAGTTAACATAGGCCTTGGAACCTGGCCTTTGATCATCTGAGTGCAGGACTAC
TCTCTCTGGGGAGGGGAGGGGACGGGAGAGACCATGTAAATTGCCCACAAGTGTGTTGACTCAGAGCCTTTGTGATTAAATCTATACTGAATAAATGCCT
GCAGTGCCAGCTTGTCAGGGCCACGGCTGCTGACTCTTTACAGCACCCTCCTTGGTGTCTGGTGTCTGTGAGCAGCCTGGTCCCCTAGCCCACTCTTTCA
CTGGATACCTGTGTCTGGGTGCATTTGTTCATCCGTTGTTCCACCAGGGTCTATGGGTCGGACCCTGCCTATGTAGCTCTGGAGGTATTAAGTGGGGATG
CTAATAGAACACAAAGTGTGGAATCATGAAAGGGGAATGTAGGAGAAAATCAGGGGCTGGAGATACAGCCCTGTGGTCTTGGCAGTTATCTGAAAGCCCA
AAATTTAATGGATTTTTCAAGAAAGAAATTATGGAGAGATTAAAAAAGATGATTAAAGATAAACATTGGGTGAATACCTGCACTTATTCATTCAGTAAAA
AAAAAAAAAAAAAAAAAAAAGTAGAAGAATAAATAGAGACAAAGGAGGAGTGTTGAATGAGGCCAAGAGAATTTTGTGGCATGCCAATAGAGAAGAGACT
TGCAAGGAGAGAAAGTGCCTGTGAATATCAAATATATACCTTCAAATGATGTGGTGGTTGAAAGAGACAAGAATTAAGAAATCCTGCTGTGTCTCACTTT
CTAAAGTGAAATATAGAAGCAAAGCAACACATTGGGAAGAGTGTAGACATTGGAATCAGAGGAACTAGAGTCAGTTCCGATCTGGCTGAGCCAATTATCG
GTCACATGTTTACATGCATGCTACTTTTAAACTTTAATGGTTTCAGTTTTTGGGTTTTTTGTTTGTTTCTTTGTTTGTTTTTACTTTGCATGTAAATCAA
GCTAGGTGAAAAAGACCACAATTACCTCATTTATTTGTTTATTTATTTACTTTTTTCCTTTTTTGCTAACCTGTGTGACAAGAACAGTCATTAGCCTTAG
AAAGTGCCAGAGCACTTGCTGATTGAGTGCATGTTAAAGGTATGGCAGCGACATTTTTCTTGCAGATTTAGTAGTCCCCCATTCGTATCCGATGTTTTTC
CCAGAATATTTTTTAAAAGAATGTCAGACATTCCTAGTATCCTGTCTTTCTTTCAGGATCCCAATTTTCTCCAGGGGAGCAACATATGCTGGATTAAAAA
ACCGCTCTCCCAGACCTTCTCTGGCTGTTAGGAGGCACTTGTTGCATGGCCTGTGAGGTAGGGATGTGGTATAACCCAGGGAAAATCTCTCTTATTTAAT
TTAAAAAGCAAAAAAAAAAAAAAAAACAACAACAACAAAAAAAAATAGTTTTCCAAGAAACCCTCTCCAGGAGACTTCTGCTTACCTCTCAGTGATCAAA
AACCKTTTCACCACAGTTACTTACCACGTCCTACCGATCCGCATTCTCGCAAGTGTCCTTCACTCCATTTACTCTACTGCATTTTTCACTGTATTTCTCA
TGCCAAAACTTGGGCTTCTCCACCAGTCTGCACACGTTCATGCTCTCAATTCTCACAGCCATCTATTTCATTCTCCACTAAACTGTTAGAGGGATTTCTG
TAGAAATTAAAGAAATTCCTATCACTCCTAAAAAAAAAAGAAAAAATAATTATAATAATTAATTGCAAACCATTAAGCATTGGTTACTCATCCTCCCTGT
GGAGAGCTGAATGGAGGGGGAGCAGATGGAGCAAGGTTCACTCCTGAGGGTCCTGCCAGAGCAAATGGTCAGGAGAGAACGGTGTCAACAGCTTCAGAGA
GGCTAATCAGTGTGAATGATGAGCGTATCTGTCCCTGGGAGAAGAGCAGGGACCACTTTGTCCATGGTGCTTGATTTTGTATCCCCTAGTGCATAGCAAA
ATGCTCTGTTGATAACAGATACTCAGTAACTCTTCGCTAGGCAAATAGTTGATTCAGAGAGACCCTGCTGTAAGGTAATGCACATATCAGGAAAAGGAAT
AAAGGGTCGAGCGGAAACTGAAATGGAAGAAATTGAAATGGAATATCATGCAATCTAATGGTGTGTTGGTGGCAGGCAATAAACAGGTGTACATCCTGGT
ATATAGCTGTCACAAATACAATGTTACATATATACCAAAAGATAAACATCTGAAAAACCAGGAACCAATGTCAGGAACCAAACCAAAAAAAATGTGCCAA
ACATGAATCCAAGCTAATGTTAATTTTTATGCAATAATAGAGAGACACCATTACTTCCACTTGTATCTGTTGTTATTTGTAAGCAGAGAGGTATACAGAT
AAACTAATATAGTRCCAAATGCCATTTGTATGAAAGTTACCCTTTTGTTTTATTAGTAAGCAATAGGAGAACAATCAATAAATACTGCCACCAGTGGTAA
TGTGACTAGCCTTGCAAATTGGTCTGGATGGCATGGTGTGTGCAATGAAGAATAGCGCTAAGACTCCATACTGATAAAAATGCAAATGAAGAAGTATTTT
CTATCAAGAAAGGTGGTATAATTCCATTTAAAATTATTGCAAGATTTCTTTCTCTCAAGTCATCTCCTATGCTACATTCAAATTTATTATGTTAAGCTAG
AACTCTGTTGTAAGTTCTTTCAAACAATTACATGCCAAATTGACTATGCATAAAGAAGAATGTGTTGGATGGGAAATGAGATCCTATGGTTTACACATTT
CTTTCTTAAAACTCTCTGCTTCAGCTGGTTATTTCCTCATCCTCTCACTCCTTTCCTGTGRTTGCTTCACAGGCCACGGCACATGTTCCTGTGGTCGCTG
TGTTTGTGAGAGAGGATGGTTTGGAAAGCTCTGCCAACATCYRCGGAAGTGTAACATGACGGAAGAACAAAGCAAGAATCTGTGTGAATCAGCAGATGGC
ATATTGTGCTCGGGGAAGGGTGAGTATCTCTGCTGGTGCCTGGACTCCATTCCTGTTCTGACACATGATTTGTAGAACAGCATGTAGCAACTGTCTTTCC
CAGACTGAACTTTGCATGAAAGCAAACCACTATGTCCTCTGCTGTCCCCAACTTGAAGCTTGAAGATTAACCAAATGAAGTTTTGGATCTAAGAAAATGA
AATGCGTGTGAGAGGATTCATGCAAAAATATCCTTGTATGCAAAGTTATTGCTGAATGAAATAGAATTAATACTTTTATCAAGAAATTAGGACAACAAAA
TATACCAGATACTAAATGGACCCAAAAATGGGGAAAAAAGGCAAAAGAATGATTATTGGGCTCACCTCTGAAACAACACAGCTCAGAACTACAGAAAAGT
AATCACAAGCATCTGAGCTGCCCAAAGATATGACTTTGGGAACTTCTGGGGCTAAATTATTTAGCTGTATGTGGAGCAGGGGAAGATTGAAGGTGTGAGA
AGACATAAAAGGAGACAAAATATTTAATTTAGTTTAATTTTTYTAAAAAGGAAAGAAAAGCTATGGGGGAGGGGTAGTATCCCACAAGTCTGATGGAATT
TTCTTTGCCCTAAAAATCACCAATTGTTCCAAGTAAACATGTGCAGCCTGATATAAGAAAATAGGTAATTGTTCGGTTGGGCACCGTGGCCCATGCCTGT
AATTCTAGCACTTTGGGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTCTAGACCAGCCTGGCCAACGTGGTGAAAAATACAAAAATCTACTCTA
TTAAAAAAAACACAAAAAAATTAGCCAGGCATTGTGGCTCACACCTGTAATTACAGTTACTTGAGAGGCTGGGGCAGGGGAGGAGCTTAAACCCAGGACG
TGGAGGTCGCAGTAAACTGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCCCAGAAAAAAAAAAAAAAAAGGTAATAATTA
AACAAAGAAAACAAAAGCCTGCCAAATGGTTATAACCTACAAGTTGGTTGAATAGAAGCCACCAACCCAATAAAACATTTGCCATGGAAACATATTAAAG
GAAAAAGCAAGCCTTCTCCATCTCCCATCCTACACACATGCAAACACACACACACACACACACACACACACAYACACACATACACACAAATTGGAAGAGG
ATTCCCCTGAGTAAAGAATGCTAATAGATTAAATTTTGAACACCTTGATTTTGATGTTTCTGTATACTATTCTTGAAGGGACTTTAAAATCCTGCCATTG
TAATGCATATGGCATCATCTAGAAAGCTGTTGTGTTCTTCTTTGCTAGTGACTAGGAAGACACAGGGAGCCTGAAAGATTCTCACCTCATGTCTGGGGAG
CAGCGCTTCAAAGAAACTGAAGTTAGGGGCTTCCCAGCTCTCCTCTTCAGCTCAGTATCCTCTTTACACCACAGACACACTTTTTTTTTTCTGACAAGGC
ACAGCTCTGGCTGAAGCTTCATTTACCCTCAAAACCTCTGCTGGTCAGGATGACCAGGTAAATAATTTTCTGAAGAAGACAGCAAAGCAAAAGTGTGCTA
GAGACACTGAATCCTGTTGCCAAAGAACCACACCAGTGAGGCTGCCACACACGAAGGAAGGAGGTCTCTGAAGCAAGATGTGCCGTGTGTCCCCTAAACA
GTAGCTTTTGTTTTGCCTCGTATGCAAGACCAATGCTATCAAGTTGAAAGAGACTTTTTGGCAGAACTTCAGACATCAAAGAGGATGGATGCTGTGACTA
TCTGTGGTGCCAAGAAGGGGGATGAAAATGAATGCAGATGTATTCACTTCAATAGATGACAGTGTCCTTGGTTTCCAGGAGTTCTGTGTTCAACACTTGT
ATTTACAATGCTCAGGCAAGGAGGCCATGCCATCAACCTAATGTCATTACAGCAGGCAGGTGGAAAATGAGTTTAAAGCAATCGCTTTGTGCCTTGTTTG
TTCTCTCACTAATTCAATCTAATCTCAAGCCCCAAACAGATCTTCCACCAGTTCTGTTCTCAGGGGGCTTCAGCCCCTAGAAACACCTACCTTGAATTCA
AGCTGTGTTGGGACAACCAAAAAGAAGGAAAGGTTAAAAGGAAGAAAACAAGGGAAAGAATTGGGGAGAAGGAGATTAAGGAAGAAAAGCAGGAGGCCGG
GCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAAGGTGAAAC
CCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCRGGAGAATGGCGTGAACCC
GGGAAGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAA
AAAAAAAAAGAAAAGCAGGAAAGGAGGCAGGGATGGAATTAAACTGCAAGAGAGAAGTAGGAGAGAATAAAAGAGATGTTATCAGAGGGGAATGATCTGT
GTATAAAAAGATACTGAGAATGAATCGTTTTTGAATTAGATTTTTTTTTCCTCTGAGCATGGCTTCAGACATAGAGCACTTAAGTTTAGATACTTTTTTA
CTTGGTTTTCTGTAATGGCATTGTCACTGGGATAAGAATAGAAGCTTTTCACAGAAGCTCTACTGAAAAAGATACCCATACATATTAAAACACTAGTGTG
CTTATTTATATTTGTTTATTTTAAGAGTCAACTATTGTTTGTGTTTGTGTGTTTACTACGCTCACTATTGAATCATTAACACTTTCCATAAGCGGGTCTT
CCCTAAGACCTGTCCAACTGCGAGTACAGGAAGAACACACAAAGCCATACCCTCCAGGGTAACAAATAGCAGTCTTCCATTTCCTAAACTGAAGGTCATG
TAACAAGAGTTGTTTCTTCTCAGAAAATAAATATGCTTATGAAAGTCATTACAGCCCTAGGAAAGATTCTCATCTTTCAGCATCATAAATGTAGAAAATA
CAAAGAAAAAAATAGGTTGACTAAATATTGACTCAAAGGCATTTCCTGAAAACAAAACAAAACAAAGCCAAAGAGTCCCTCTAGCTAATGCCTTTGCAAA
TTGTTTGCTTTGGGAGGTGGCGATATATTCAGAGATCAATGAAGGGTTGAAAGCATATTTGTSTAAACTATTTGTTTATCCTTCAATGGGTAGGGAGTTT
GGGAGTCCTTAAACTTAAAAGGGAATATGAAAGCTGCCTCAAGGCTGCACATTTTGACATTCATGTTAGTGGACCGGCCTCCGGACTGTTGGCAGCAGCT
GATCGTGATCTCCCTTCTTTTCCCCTTTTATGGAGACATCAATGCTGGATTATCGATGACGAAAGGGGATAAAACCAGGATCATGGAACTGTGATCTATG
ATAGGCGCAGAGGATAATGGGGATGCCACAGTTACTCCTGGTTCCAGTGGGGAGCACTACCCCACAACCCACCCTGAGAACCACAGGAAAAGTAATGCAT
GAAATAGACTAAGGGACTTTAACATGGTGATGGAAAAGAAAAACCTGTTTCCGATTTTTTGACTGGGGCCATGTATTTCTAGATCAATTTCATGGACTTG
TCCAAATTTTCTATCATTTTTCTCAAATTTGTCAATGAAAGTCCCTCACCCTGATGGTCACAAAAGATRTTCAAGTTCTTTCTTTATTTGATTATGGGAC
AGATCTTAGCAGTGGGCATGAGATCGCCATGGCACACAGCTTGGTGGCCTGTACCCACCAAAAGGCTGAAACGTGCACTTCCCATGAGCTGTGAATAAAG
CTGTCACCTCAGGAGACGATGAAGAAATAGCGTTTTATTTCTTTACAAATTTATAGCCAAGACAATAAATCACTCCATAGAAAAATTTAAAACAAGATAC
ATTCTTGTGACCTTCATAACAGATGGAGTAGTTAGTACAATAGTGAAAACTGCCTGCTGGGATGTCAGGTTGCAGCATTTTGTCAGGCTTGAATGAAAAA
GAAAGTCCAACATTAGTAATGGAATGGGCAACTGACAAAGGTGCCTTGCCCTTAGACTCAAATTGTTTTTGTGAATAACCAAGAGAGATGAGGTTAGTGC
AGTGCCGGGTCTTCCCTAAGCTTAGCTACCTTTGCAAAGTACATGATATAATTCATTGTGGGTTGTTTTGTTCATTTGGGGATTTATTTGGCTTCAAGAC
TACACAATTATATCTTTGCCTTGACTACTTCAAGCTAGATCCAGATAATCACGTCCAATCTTCTTACAGATGCTGTTGTGTGACAATGGCTGTAAACACA
TGTCATTAACTGTCTCCTTAAACTCTCACAGTGATACTTCTTGGGTCCCACATCTTCCAAAGAAGTCCAGCATACACACACACTCACCCACCCACAACCT
GTCMCACATCCCCAGAAAAGAGAAAGAGTGAAAKATGCTTCACAAAATCGGCCTCAGCCTKKTGTTCAAGTTGCCTCGCTCAATATGCCTGTGCAGTCAG
ACCTGCAGGAAGAAACAGCTCATTTTTAAACTACTGTATATGAAAGTTTTTGCCTGGAGATACATCACAGATAGGCAGATCACTAAAAAGAAGAGTGGAT
TGAATCAGAGTGAAGTCTTCAGTTAACTGTTTGTTTATTGCCTGTGAGGTCCAGGACAGTTTCCTTTATTCTCTCTTCCATTCTCATCTTTGAAGGTAAA
ATTTCATTTCTTTCCCCTTCCTATGTCCTAAGATGCCCTGAAGACACATGAGAAAATGTGGCTGATTCCCCAGGGATGGAAGCCAGCAAAAATGCACAGA
AGGGAGATGGGAACATTCTCAAGGGTCCTTATATTGAGAAAGAAAATGAATGGATTAGTGGTGCTGTGGTGATGAACTATCTGCCCTAAAACTCCTGCCA
AGATCAGCCAGCTGTTCTCTGGCTAGGCTGGGTCTCAGGGGTGTGAGTGGGTCTTGGCCAGCTGAGTTGAACCATTTCTCACCTCTTGATAGTCATGCAG
CCTACATCTGTCTGATGGAACCCTCTCCCTGTGTGCTTCCCATTTAAGAGAGGCACAATTTGACCCATGTTATGGAAGAAAACAGCTAGAGCGTTCTACA
GGAAAAGTGCTATAATAGGTCCTAATAACTATTCACACTGTGTTATTACTATGTGCTATCTAGTTCTAGTTTCACAAGCAGTAGAATAATTTCCTACCTC
TAAGATGCACTGAGCATTGACAAACAGGAAAGAATAACACAGCTGGGAAAATGCTGACCTAGAAATGCTACTGTTTCATGACACATACAAAATCAATCCT
CATTTTTTATTCTAAGTATTTCAGCGACTAGTAGACTTTCAGAACTGGAATTTACTCATCAAATGTTCTATCCATATATGCCATATTAGCTTTAGCTGAG
CTTACCAGTTTTCTGAAAATGCTCTACTATGGCATGAAGCTAAGCATTCCAGAAGCAAGAGCAGTGATTAGAATAGTTCCAGGGCCAGAGGATAAGTTTG
AAGATGAAATATAAGATATTTCATGAATTGTGACATATATAAAATGATATCCTGGGTGTATATATGAATATTATGGGCATATAAAATCAGCACTACTTTA
GAAACAACTAAAGACAGCCAAATACTTCAAATAACTAATTTTCCTTCACTCATGGAAATAAAACACTAAGTATGGTGCCTTTCGAGGAAACTTCTCTGAT
AGTCAATGAAATACTCCATGTGGTCTTTGTTGGCAGATATATCACTATCCATTTGTTAAACAAGCAGTAGRGTGCTGTACATTTTTTTATGCCTAGAAAT
GTGAAAGAAAGTCTTCAAAATTMGGATAAAGAAATCTCTAAAATCAGGAAATTCCTCACCTTGATGAGACCACAAGGGAACCAGCATCCYTTGCAGACTG
ACCTGGGAGCAGCAGCTCACTGGGTCCTGAGAAACCACAGGGCTGTCAGTCAATTATTAAAACTGAGAAGACGTGTATATTTCCTCAAGAGCATGCAAAT
CAACCTGGACCCTCAGGAAAACAAGTCAAGACTAAATACAATTATGCCATAGCTACGCAAGAAGTTAAAAAACACARTTGTCACAATCTAAATAATTCTG
ACTGCACTCTTACTTTGAGAAGTGTGTCAAGAAATGGCAAACATTTAATTTGGACTTTGGGGATTTTTGCAGCTGAAATGCATATACCAGTTTCCCTGAT
ATGAAATATCACATAGTTGAGACACATGAACCTGAATCCTTTCATGATATCTGTGATGACCACAACTCCTTTTTCCTGATCACTTTAATCACCCAGGCTG
TTAACTCATTTTTAATCACTGTGTTTTAAAAGAAGCACTAATGATTGATYCTTGCCCCTTTTCAATATATTTTGAACTTACCAATTCTGCAGTTTTGTTA
AATATGTCAAAATACTCTTTTCAACTGCACATTTTTTCAACGTGATTTTGACTCAAAAARAATACAGCCATCTTTTAGTAAATGGAAGTCATGTTTGGAA
AGAACAACCAACCCAAGGAAACAGAAGGAAAAGAAAGTCCTTTTTATTTGTTTCTTTTTCATTGTAAAGTCTTTCCTGCTGTCGTTGAGGCAGTTTTTCC
ATGTAAGGGTTTTTAGTCTGTCATGGAAAGCTGTTTAGACTGAGAGAACTTCTGTCTTGGATACCATTCATCATCTCATTTATTTTCTTTTATTTTAAAT
ATATCATTAATAAAATTTTTACTCAGTAAGTAAAGATATTTTAAATAACCAAAGAGGAAGTTTTTTAGTTAGGTAGGAGAAATGGGTGAAGTGGAGGGAA
AAAGAGTTGAATCCAGAGCCTCATAAAATATGAACTTTGGGAGTAATTTGAGCTATCCCAGTTTATGACAGAGGGTCCTGAGGATGAGTCTCACAAGGCA
AATATACTGAGTGACTGTATGCATTTTTAGCACTTTAATTAGCCACCCAATATGCAGGTGTGCTCCTACTCCAAGAAAATCATGTAAACGAAAATCCAAA
ATTATAAGCACAATAATTTAGTAGTTGTTTTAATTAGAAATGCAACCTAATTTAATACAATTCCCTATTCATTTCCTTTAAAGAGCAGGCACTTTAAAAA
CATGATTCAATTTAGGAGGAAAAAATCTATTTTTGAATACTTTTTTGGAAGACCATCTATAAGAATCAACCCCATCCTGCTCTCATTGACATTTCAACCA
GACTGGGCCATGGGACATTTGTTCAAGGCTAATTGCAACTGTCTAGATCCATAATGAAGGCTTTCCTGGGTGACCTTTATGAATTACAGTAAGTAAAGCT
CCCCTCTGAGAAACCAGCCATTCAATACACTTTTACCTTTGGATGATGGGTTATTAGAAGCCTGTTGTCAGTGTGTCAACGATATTCTATTCGAGATGGA
AAYCTTTAGTTATAAGGTGATGGTGAGTAATAGCCTTTGTAATTTCAGGTTCTTGTCATTGTGGGAAGTGCATTTGTTCTGCTGARGAGTGGTATATTTC
TGGGGAGTTCTGTGACTGTGATGACAGAGACTGCGACAAACATGATGGTCTCATTTGTACAGGTGCAGTATTAACCTTTTCTAATTGCTCTATGCCACAG
TTTGTTATAGAGCCAAGAGACACTCGTCATGCAATGCTTTAGGTGGCTGGACCAACAGGGCCAACCGTGAATATGAAATATCTACCAAAGGCGAAGTGGG
CATTTGGGAAAAAGCCCTCACAAAAGCCTCACATTATTCCTAGGCATAGAAGAATACAAGAGAATGAAGCTAAATTTTGTGATTATTTGGGATCCTTCCA
CAAAGTAACCTCCCCACCCTCAAACTCACATGTATGCAGTTGTATATTGAACACAGAAAAGAATTTTGTTGGCAACCATTTTACTTTGAACATGGTATAG
GGAATGAAATATTCTTTTAAACAGAATCTGGGTACCACTAGTTGATGTGTTGGTTGCTTTTAGGGAACTGGATGTGTGTATGGGGGAGAGGTATAAAGAG
GGCTCAGCCGTGTCATAGCCACTGCTATCCTAATTTATTGAGTCCTCATAATTGGTTATAAATYCATTTGTTTAGCCAAGTTACGAGGAAACAGAGACAT
GTRTACTTCTCCTCAGCTCTAGCTGAAGGTAAAAGATGACTCTTTGTGYGTCATTAAGTTAGACCTTTGCTTTCTGCCCATCCTTACTACGTAAGACTCT
CTTCACGGATTACTTGGCCTGCCTCATGTTATGTCAAAGAGCCTTATGTTTTTCTGTATTTATTCATAAGTCAGATATAACTTGCTCTTTAAGGGAAAAC
AAAATTGTCACCTAAAAGCCTAGCTGGAGTGATACAGGATGGTGACTATCTGATCGGTAAAGGGTGGCACCAAATAAATGCCACTAATTGTTTGAAAGAT
TAGATGTCTCGCAGCTGCTTAATAAGATGTAATAATAACATCATTGCACAATAAGAAAATCTACCAAGGATGAATGAAATGATTTCATTGTGGACACTTG
TGATTTATAATAGCATGTTTAAATTTGGCACATTTTGATCATAATCATRATACCTATATGTATTTTATTGCAGGGAATGGAATATGTAGCTGTGGAAACT
GTGAATGCTGGGATGGATGGAATGGAAATGCATGTGAAATCTGGCTTGGCTCAGAATATCCTTAACAATTACATGAGAGAGGTCTGGATTCTTATTTTTT
CTGGGCCATTAGAACAKATAAATGCGAAGGAAACCATGTATATTCACCACTAGGACAGGTTAAAAAGACCATTGTATGTTTTTCTATTTCTGAATTACGA
ATGAAATCCGAGTACCTATTAGAAATGAGTTATGCAAATTTAGATGCAAATAACRTTAGAAAAAAAAGATTCTTCCATAATTAACATAAGTGGTTCCTAA
CGAGAGCAATTTTTCCACCCAAAAGTCATTTGGCAACATCTACAGACAATTTTGATTGTCACACTGGGTCGGGTAGGAAGGTATGCTGCAGACATTTGGT
GGGTAGAGGCCAGGGATGCTGCTGAGCATCCCGCAGTGTACAGGACAGCCCCCAAACAAGGAATTATCCAGCCCCAAATGCCAATAGGGCTCAAACTGAG
AAACATTGAGTTATATGGCTATTAGAAATCCACATTCTTACACAAGAAAGACCATATTAGAATCTAAGGAAAACATGCATATTCACATTAATTAATCGAT
CAGATTTTTCCAGAATTCCGTATCAGTCACCATTTTAATATGGGGACAATGAAGACAAGCACACAGGAGGTAGAATATCAGAGTGGGGCTGGATCAAGGG
CAAAAACTGGTCATTAAGTCATCTGACATTAAATCATTTAGCCACTAAGTTATTTGTCTACTCTCACTTTAAACTCACCAAAGAAGATTCTCTTAAAGAA
ATTATGAAAAATGTACAATTTAACATTTTAAATAAATAGTGACAGAAGTTGTTTATACTCTGTGTCAGTATATATATCTACTGATAATTAAAAATGAATT
GTTATTCAGGGATATCTATTTTAGGTTTCTAGAAATAAGGGATCACATTTTTAAAACTGGGCAGGGGTTATGCGTACAAGAAATCTGATTTTTTATTTTA
ATTTATTCCATGGTAGTGTGGCCTTTTAAAAAGACAATATTGAGTTACATATAAAATGGGCCTGAAGTATGCATCCATTTCCCTTAAAATACTTTTTTTT
CTAAGGATACCTTACTTACTGGAAACCTGGGGTCATGCAAAGAAGTCAAGACGAGAAATACTGTGATAAAATGGCACCAATCTCAGAAGCTCACAAAAGA
CCAAAAAAAAAAAAAAAATCTAGAAATGGCTTAAATAGAAATTACAAATATTCACTCAGTGATAGGAACAAAATGTTTATTTTCTTAATGGTGAAACTTT
GCTTTGTATGAAATTCACATTGAAYTATGAAAGTGTACAATAATTGGGACTTCCCTTACATATTTACAGGTAAATCTACTTATACACATTAGTTTAGGCA
ACCTTTAATTATTTAGAGCTAAAAAAAAAACCACTTTTTTTCTAAAGGTGAATTACTTTGTAAAATCCTAGAATAATGTAGCAAAATCATTTCCGTATTA
CTTTAAGATGAAAATTTTTACTTGGAAATTTTATTTTAATGATGTAAATATTCTAGTCATGGCTTAAACTTTATAAGTCAAATTTCCAAAAATAAGGAAA
ATATGCATCCACTGAGTTACTTAAAAATTTAATATTGAAAATTATTTTAAGAGAACATTTAACTGATCCTGATTTTTATAGTACTAACAATGTTCTCATA
ATGTAATAGATTTATAAAAATTGTTATCTCTATCCTGAGATTAAGGAGTGCAACCATGTTGTAGTTCTATTATTGAGTACGTAAATTGATAGATCTCTTC
CGTAAAATGAGGGAAATATAAGTAGTCAATAAATAATGTAGGTTATATTCTTTCCTCTTCACTACCTAAACATTTTAAGCTGTGAACAACCTATTATTAT
TGTTTTGTAGCAATTTTGATGACGTATTCGCTGATGCACAGACATTGGAATTCATTACATTATCTAGCCATCGTAATACAAATGACCTTTGGATTTCTCT
ATCACGGCGCTTATCCTCCTATTAAGGATCAGAAAGTTAAACTTTACGGACCACGTACGTCCCTGTCTCATATTCTTCTTTGTTGGTTTCTGTTTAATAC
TTTAAAGCTGTAAAAAAAAWTTAAAAAATTCCTTCTGAGCTCCCAGGCCATACAAAAGCAACTTAAGGGTGGATTTGGCTGGCAGCTGGGCAGTACTTTG
TCAGCCTCAGCTCCACTGGAACTGCCCTTGATTCTCTATAGCTCATCACAAAACCTCAGGTATGTCTTATTTTTCTTATAATCCTCTGTATGTTATTATC
CTTTTTATTAACAACAACAACTACAACAAAAGTGCTGCTCTTTTTCATAGTCTCATGTAAGAAGAGTGTCAAAAATGTCCTCGGCATTTGTTTTCTCAGA
AAAAGAATTTAGATATTGGAGAAATTATCATACCATAAAAAGTTCAAAATGTGATTCATCTAAAATTTTGGACAAAGATGAAAATATAGTCAGCTCTGTT
CTAGTGTTCATTTAGTTAGAAACCATAGTACCGGAACTGTATTATAGTAGAAGTTAATGGTACCTAAACTCTAAGGAATGCTTTTTCTTTGAAAACAGAA
ATATTTTTACTTATTTCTGTCCACTATGTTTGTGTGTATGTGTGTGTTTGTGTGTGTATGTGTGGTTTTGATGCCAGCAATGCAAACACCAATATATCTA
TTAAGAAGTGATTGAATTTAGATTGGAAAAAATAAAATAGTTACATGTAAAGACATAAACTCTTTCCTTCTTAAATGTGATTTTCAACTCTATGATAGAA
ACTCCCTCTAAAAAACAAGCAGGGCAAGAACAAACTTACTTGTAATGGGTGAGAGAAAATAAGCAAATCTCATTGGCTCATTCCTGTTTTTAGGAAGTTG
CAGTGGGATTAATGTCAATTGGAAGGGATGCAGCAAGTTTAGAGAAGGTGTTGGCACTAACGCTGCTTGTTTGGCAAATCATCATCACTGAGGTATTCCA
CCCAGAGACTTTTTCAAAAAAGTCAACTAAAGTGCTAAGTCATAAGAGGAGAGCCATTATACCCGTTGTCTTTCTGGGCTCCTTGAGTTTATCTGGATTC
CAACAGCACTTGGAAAGTACCGCCCTCCACTACCTCAAATGCAAACACAATCTCTGCCAGTAGACATTGGAATTAGACTTAGTGAAAACCAGGAAAAAAA
AAAAAAACTAAAATATAACTCAGCCTTAGTTTGCAGACTCAACTGTCAACACTTTGAAACCCTACTCCATATTCAAGAGAGTCAACAGGCCCTATGTCAC
ATTGTAGGCTAAGAAACCTCAGCTATGACTACTATTTCACTCAAAGTAAGACCATGTACATCCTGGATTTTGATATGCCTGCATTTTGGAAAAAAAAATT
GAGGATTTAGCCCAGTCGCTTTCCCTTGATATAGCCTTGTTCTGAATTAAAATGGAAAAAATATTTCAATTATTTTCATCTTGTTCTCAACTGGATGTTA
GTCAATGTGGTCTCTTTTTGAATATGTATCAAATATTAATGATCCATAATATTAGGGAGATAATTTTAAATGAAGTGATACGTGTCTAACTTACTTAAAG
AATAAGTTTTTGGTTTTTGCTTTTAAAGACAACCAAATCTGATATTGTTCATCCTGATAAAAATAACAACTTTTAGTGCTTAAAGCATTAATTAAGCAAG
TGGCTAGGTATGATAAAGAACTTCTGCTTGCTCCCCAAGAGGCAAACTATTAGAAGAACTGGAGCGGGAGTCCTTTGGACCCATCGTGGATCTCTTTAAG
CCACTGCTACCCAAAAACATTCAGGACAAGCAAACATTTAGAGCAAGAATCTCCAAATTCTTCAGGATTTGTAATGAAATGATGTTCAGTTCCATTTTGC
TCTTTACATAGGGTGGAGAATTGTCATGTCTTCTCTAATTTTTCCAAGTAAAGTGGTAGCAAAATGTTTTAAAAAGCAATCTTATATTAGAAAACAAAAA
TGTTGTCACTTGAAATACCAAAACAACATTTCTGAGCGTTGTTGAGGGACTGGCAAAGCAATCAGCTACTATAACAAATCAGTAGAAATAACCCTCCYAC
ACCAGATATGCATGCAGAAGGAATGGAGTATTATAGAGACTTGATACAATGGACATATGCACATGGAGGTACAAAACACACAGTCTAAATACAAATGAAT
TCCATCAGATTTACTATACGGAACATCAGTAGTGACAGATTGCACTTCTTACTTAATAACAGCAAACTTAATTTCTGAGGGGAAAAAAATGGCGAAGTCT
TATCCCAAACAAATAGCAAGAGAGGTATCATCAAAGAGCTAAAATTTTCTTTGGCATGGTAAAGGGGGAAATTGAGTTTACCAACTTATTTACATGACAT
TTCTCTATATTGGTGAGTAATGCAATGCCATTTTGTTACATAAAGTTGTTTGATGTTTTTTAATATGCCTTCATATAAATATTTTATTCAATATGTTGTA
TTTGTGAATTTAACAAATGATATTAAACACAAACTACAATGCAGACAGACAAACTMTTTGTATGCRAATTAGCAATACATACCAACAGTTCTTGATACAC
AGGTACCTACTACATGCAGCTCATCATTGCTGTCCTCTTCCCATGCTACAGGTGAGACCAGACACAAAGTAAATGACCTAACTCAATTACAAATAACAAG
GACCCCTCTGCAATATGTCTAAACATATATTAGAAKAAAGTATTTGACATCCTTCATAGGGATAAATGCCCTTATAGACACCCCATATATAAAACACAAC
AGAGATACACATTTACATAAATCTCAGTCATTTACAAAAATAAATCTTGTCTTAATTTAAACCAATAAACAGACTTGCAGGGGAAAAAGAAACCAGCAAG
TAGGGCTAATTATCAGTAACAAATAGATGGGGGTGTTTGCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATATGTGTGTGTTTGTGTGAAGT
GAAGTGTTGCTGCTGTAAGTAGTGTCCATAAGCCCATTTGACTGTATTACAAGTTAGTTAATTACTCATATAGTTGGCCACATATTATGGGATCTATGTT
TTCTGAAAATAATTGGTTAATGGAAGTTATCTAATATATTTTAACTGTTCCTGTTAAAAACAATAGGCTTCAAGATGACATAACACCAAATCAAAAATGA
CCAAAGGAATCATTTTGTTTGTTAGATTTGTAATTTAGCATCATTGGCAATAAATCTACTCAAACGTTCTGCTAACTTTTTATTTATTCAAGTAGAATCC
AATATGAAAATGAAATAAGCATAAACAAACAGTTAAATTTCTACTAAACCTTTAATCAGCTAAGCAGGCCAGAATTTTTTAATGCTGGGCAAGGGCTGTC
ATGAAGAAGATTTATGAAAGCAGTGACAAAATAATTTCCCAATAAATACAGTGCAGATGGGGAAAATGATGACTGGGTCATCCTCCCACATAGAAAGAAT
AACAAGAGGCCAGTACATTGATCCCACATATAATTTTCAATAAATGAGGTTCAGTTTGGTCTCAATGAACTCTTCTRAGAAGAAAACATTGAATTTTATT
AGGTGTACACAGAGTTAACAAATAWATTCCMAAACAGTTTAGTATGAAACATTTTGAACCCCTTTAGATCCAATATTGAACATTTTGCATGGAATCTTCA
TTGTGTAGTCAACTGTTCCTGGCCTTTCTTGGTAGTTGTCTTCCCTAAGCTCAAACAAACAGTGTTAAACTAAAAAGGAAATTAAGAATGCAAAATAAAA
GAAAATAAATGGAATGGACCAAAATCCTCATGGATGAATGTGTTGGTTTGCCTTTATTTTCATCTAGGATAATTCAACAGACTGTATTCTGAGATCATGG
CAAGGCACCTCTAACCCAGCCACTGGGCAACATGAGCCCCAGATGCTGAGCTAGAGGCATGTACTGGTGAAATACACAGTACCGGACTCAGCATGCTGAG
CTAAAAAAAATATTTTTCCTAATATGTCCAGTTTAAAAACTTGTCATTAAACACCAAAAATATTAAAGTCTAATTAATTTATAACTAACGTTTGCATTGC
TGCTGCAGGAAAGAACACAACAGCCGTCTTGCCCATGCTCTGCTGAGTATGAGGGGAACGCAGCCAGAAACGGGGATGGCGTTAAGTTTGGTTCATTAAA
AACAGGACGGAGTATATCTGAAATGGATTTAGGTAGCGCAATTCTTGTAGGTTATAATTACTGATTTTCCTTTTTTTTTTTTTCCAAATAATGAGAATTA
ATAGATGAAAAATGAACCTTAATCAGGCCTACAAGGCCTACAGAAATCTTTGGACCCACTTTCTCAAAAACCAGTGGGTCTTGCTCGCTGGGCAAGGCAA
ATGTTACCATTACCAGTAAGCTTGTGATATGTATAAAACACACACACACAAAGAAACTAGAGGGGGATGTCAAACACATATCATAGAGAGCTTCCCTGGA
TTGTGTTTGAGCCATTTCCCACCCAGGCAATGCCGACCTTGGGAGCACAGTATCTGCTACTGGACAGAGCGTATATGTGTGTTTAATCGATAGTGTGAGC
CAGAGACAACAATCTTTCTTAATCTTTCTTTATAGATGCAATTTGTAATAATAGGTTTAGAAGGCTTCCTGATTCCCTGATTGCTCTCCGACCTAAGCCA
ACTGCAACATTTAAGATTTAGAGGAACAAAATCCCTGCAAAAGGTCACAGACAGTGGAGCGAGCAGCCCTGTAAAAATGGGAAGAAGAGAAATCCGTAAT
AGCACAGGTTTACAGCGTCTAACTAGAAATTACTCAATATTATTTGTGTGCTACAAAATTGAACTTAAACACATAGATTTCGCTGAAACAGGACTCAAAA
AGGATTATGGGTAGCTGTCAGCAGGCAAGGTATCGAGTGTACTTGTGAAGTATGTCATTCACATGAAGTGTCACAGTCACAGAAAAGATATTAAAAAGGC
ATTCCATATCTGGTAGGGCATTCCATGGTCTGAGTTTAGCTGGTTATCCAGGTGTCTTCTTGTTGTGGGGGGTGCAACAGGTTGAGATTTATCCACTTGC
AACAGAGAAGTTCGGAGACAGCAAAGAATAAGCATTAGCTTACTTCCTGCTGCTCTTCAGCCACGGAGCAGGAATGTCTGGTGAGGATAAATCACTCAAC
TGTGCTCAGGACGAATAAGTCACAACACCTGTGAGGATCTGGCTATGTTGTCTTACTCTTGTTGACTGGTTTGCCTCCATTCATTATTGCAGAYGCACTT
GTGCTTTTACTTGGCGTCACCCCAGGCTTCGGGACCGTTTCCCCAACATCATGCAAAGATGGTTCTCGGTACATGGCAACTAGTGATGGGAAGAAAGGAG
GAGGAAAAGCAAACATTGCTTGGTTAGGTGTGAGAATGGTCCATCCATACCTGCATAGACCACTGCAGTTTGCCCATTTCTGTTTTCCCTGAAGTAAAGC
AATTCCATTGAGACAGAATTCCTGTTGTAAAGCAATCATTTCCAGCCCACAGAGGACATTACTCCCTTCACATTCTCTGGTCTGTATACCTAAAATATGT
ATATGAGTGTGCATGGATTTTTGTCTAGGACAGCAGGTTTAAATGGGAGCTATGGCCTCTTTGTGGGTCCATGATGTAAAACACACACACACACACACAC
TATAGGAGAATGACAGGCATTTAACTTAATTCTCAAAAAAAGAAAACTCAGACATCCCTTCCACTGCACATTAATATCAACACATGAACTTCTCATTCAC
TTCAATCAATCTTTGTGAGCTGCGGTATTTACATCCTAGAACATTAAATTACTTTCTTTCATGTGGTTCAAAAGCAACATAGTCATACTAGTGTCAACTT
CAAAGCTACACAAAATAATAACAAATAACTCTCTTCCCATAAGCCAGAGCCTTCAGGAGATTATCATTTCAATGTTCATTTCCTACAATCATGGAAAAAG
ACCCTTGGGCAGCAGAAGGCAACTCATTTTCTGCTATGTTATTAAAAATCTAATAATTGACATGATACAGGGGCAGAAAACAGAATGGCAAGACAGCAAC
TGAAACTACCTGAATAAACTCTGAGGATTTATCTAAATAGTGTCTGGTGGCATAATCATAGTAGTTCACGTGGCTTTTTAGAAAATGATTTCTGGAAGTC
CTGAGAAAGGACATATAAGAGTGACTGATGGTTGGGGAAAACTAGGGATTAAAGTCATCTGCCATCAGAAATACAAGTGCATTAGAGCTGCCCAAACTGC
TTTTTAGGTTTTTGAAAGTTTAA


SNP Information

Context             (SEQ ID NO:41412):
ACAGGTTAAAAAGACCATTGTATGTTTTTCTATTTCTGAATTACGAATGAAATCCGAGTACCTATTAGAAATGAGTTATGCAAATTTAGATGCAAATAAC
R
TTAGAAAAAAAAGATTCTTCCATAATTAACATAAGTGGTTCCTAACGAGAGCAATTTTTCCACCCAAAAGTCATTTGGCAACATCTACAGACAATTTTGA
Celera SNP ID:            hCV11422462
SNP Position Genomic:     296055
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:41413):
CTTCTGGGGCTAAATTATTTAGCTGTATGTGGAGCAGGGGAAGATTGAAGGTGTGAGAAGACATAAAAGGAGACAAAATATTTAATTTAGTTTAATTTTT
Y
TAAAAAGGAAAGAAAAGCTATGGGGGAGGGGTAGTATCCCACAAGTCTGATGGAATTTTCTTTGCCCTAAAAATCACCAATTGTTCCAAGTAAACATGTG
Celera SNP ID:            hCV11422390
SNP Position Genomic:     287643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41414):
ATGAACTTTGACTTCATGGAGTTTGCAATCTAAATGCAAATAAATAAAATATGTAAGTCCAGGATGTCTAATAGTGCAAAGAAAAAGAAAGCAGTCAGAA
R
TCTATCTGAAAAGGTATCATTTAGCAAAAATGGAGTTATAGATTTTCAGTCCAGTTCTATTTGATAACCCATAAGGTAGACACATACACATATACATCTT
Celera SNP ID:            hCV28025260
SNP Position Genomic:     164508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41415):
CCTTTTCGTATGGGTATTTTGGGCTGCAGTCATTTTTATGGTAGGTAGATTATACCAACACCAAGCACTGTATTCTTCCATTGTGTGTGTGTGTGTGTGC
R
TGTGTGTGTACATACAGAGAGATCTTTAGAGAGCATTTCTCTTATTTGAATTCTTCTGATGTTCGATATCAAGACAAACAGCACCATGCCGAATCTTTCA
Celera SNP ID:            hCV15786753
SNP Position Genomic:     168497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41416):
TCTTTTTGTCTTCAGCAACAGAAATTCATTTTCTCATAGTCCTGGAGGCTCAGGTTCAAGATCAAGATGCTGTTAGGATTGGCTCTAGGTGAGGCATCTC
Y
CCTTGGCTAACAGACACCACCTTCTGCTGTGACGGCAACATGGTCTTTATGCTCACGGTGGGAGAGAAAGAGAGAGGGAGGAAGAGGGAGAGAGAGAAGA
Celera SNP ID:            hCV11929763
SNP Position Genomic:     102090
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41417):
AAAGAGGCTGTAGCATTTTGCATTCCCACCAGCAATGAATGAAAGTCTGTGTTTTCTCCACATCCTTGCCAGTGTTGGGTGTTTTCAGTGTTCTGGATTT
R
AGCCATTCTAACAAGCGTATAGTGGTATTTCATCGTTTTAATTTGCATTTGCCTGATGACAATATATAATATGAAACATCTTTTTATGTACTTGTTTGCC
Celera SNP ID:            hCV15786754
SNP Position Genomic:     208319
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41418):
GCCCTGGACTAGGTCATCCCTGCACCTTGATGATCTAGAGGAACATATTTATAGCATTGTGGTATTTAGATAAAATAGTATAAATGTGAGAAATTCAGGA
R
TTATTTTCTATGTAAAGTTTCCCCAGAATGAGAAAGGAAAGGAACATATGGAAACAAATTTATTTGTATTACAAATTTTAAATTTGCAAAACATAAACCT
Celera SNP ID:            hCV12128067
SNP Position Genomic:     41255
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41419):
GCGTAATTCCTGGTCCTAAGATATTTATTTTCAAATAAGCAATTTTCTTTCCATGTTATATCTTCCTCCATTACTAAATTCATGTCTTGGAATTACTCTG
R
TAGTCTTTGAACTATTATATCCCAACAAGCTTGCCTACTCTATAGTGCCAGGGCTGGGTGTGCCCTCAGCCCTGGCCAGCATGAGGAATCTGAGAGCTTA
Celera SNP ID:            hCV12128068
SNP Position Genomic:     43407
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41420):
TCAGAAGTTTGCTCCTGGAGAAATGGGGAAGAATATGTCCAAGACAGGAAATCCCATCACGAAGCACAGAAAGATGAAAGGATATGATAAGTTCAGGTAA
Y
TGTTTCATCCAGCTTATGTATATCCAAGGTAGGATGGGAGTCTTTATTTGTAAGTAGATCTCCAGTGTGAATATGAAGTATTTTGGCTTAAATTCTGGGG
Celera SNP ID:            hCV28025262
SNP Position Genomic:     196476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41421):
ATCTGTACCCTGATTTATATGATCATAATTGATCTAATGGAATGCTCCAGAACCCTACCCTCAGAACTGTATAATTAGTCCTTGAATTTGGAATTTTCAT
K
CTTTTTCTCTGCTGGAAACCTTTAGACGTCTGCAGACTCCCAGGGCTTACTCTATAAGTGCAATTCTGCTTCTGACTCTTCCCTCCACTGAGATGCCTGT
Celera SNP ID:            hCV12128069
SNP Position Genomic:     43701
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41422):
AAGATCAAGATGCTGTTAGGATTGGCTCTAGGTGAGGCATCTCTCCTTGGCTAACAGACACCACCTTCTGCTGTGACGGCAACATGGTCTTTATGCTCAC
R
GTGGGAGAGAAAGAGAGAGGGAGGAAGAGGGAGAGAGAGAAGAGAGCAAAGAGAAGAGAAAGAGATTGAGTGCTCTGGTGTCTTCCTATTCTTATAAAAA
Celera SNP ID:            hCV11929766
SNP Position Genomic:     102147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41423):
AGATTACATGGCAAAAGGGACTTATGATTGCTAATCAAAAGATTATACTAGATCATCTGGGTGTGCCCAATACAATCACAAGGGCCCTTACAAGTGGACA
Y
GGGAAAGAAAGAGTCAGAATCAAGTGATTCAACATGAGAAGGACTCAACCTACCACTACTGCCTTTGAAGATGGAGAAAGGGGACCAAGAGCCAAAGAAT
Celera SNP ID:            hCV28025263
SNP Position Genomic:     199552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41424):
TGATCTTATGCTTAGAAAAACCCACAGACTCCACCAAAAAACTATTAGAACTGATAAATTCAGTAAAGTTTCAGGATATAAAATCAAAATATAAAAATCA
R
TAGCACTTCTAAATGCCAACAGCAAACAATTTGAAAAAGAAATCAAGAAAGTAACCTCATTTACAACAGCTACAAATAAAATGAGTTAACCAAAGAAGAG
Celera SNP ID:            hCV27981486
SNP Position Genomic:     58800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41425):
TAGAGGTAGACGCTCCCGGGCAGGCTAGTGTTCAGCAGGGACACAGCCCTGGGCATATAGTTGGGAGACTTGGGCTGGGGTTTTCTCTGCCAGAGCACAG
R
TCTCTGATCCTGTAAGTCATTTAAATTCTTGTGTTTCAAATTCCCTCACTGTAAAAGGAGTGGCTTGACCTAGATGATCTCAAAAGTCTCTCCAAGCTTG
Celera SNP ID:            hCV11496542
SNP Position Genomic:     76462
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41426):
CTTACATTTATATGTAGTCAAATCAATTGATTTTTTATTTGTGATTTCTGTCATTATTAAGAAAGTTTTTGTCCAGAGCTCAGATGAATATTCCATATTT
K
GTTCTTTGATGTTTTCAATATTTCAACTCTTTGAGAAACTTTTTAAATCAAATTTATTGTAATAAACTGTATTTTAAGGTTTTTTAAAAAATTCTCTCCT
Celera SNP ID:            hCV27981487
SNP Position Genomic:     88940
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41427):
ATACATCTTAGTCCCATTCTGCATTTTATATGGGTCCCATTCTTTGATTTTCATTTGTTTTATTACATTTGAGTCTCTTTACAAATTAGCTAAATATGCC
Y
AAACTCTAATGGTGTTGTTGTAGATTTTTTAAAGTTACAAAATATTTTGAGATTGGTTTTCTACTTGTTGAAACTGGACTTCATATTGCAGGGTAATATT
Celera SNP ID:            hCV27981488
SNP Position Genomic:     237768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41428):
CTGCTTTTGAGTATGTTTTTTAGAAGTGAAATTCAGATAAATCAATAGAAAAAAAATGCCATCTTGCTGAGACTGGCAAGTTTGATGCTTTCCAGCTGTT
Y
CAAATGCCTCCTTCTAGCAGGATATTCACTGGAAACAACACCCCAACCACATTTTATGTAAATTGTGAGCCATGATATTGAATACCGGATTACATCTGTT
Celera SNP ID:            hCV11698305
SNP Position Genomic:     148217
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41429):
TGCTTTTGAGTATGTTTTTTAGAAGTGAAATTCAGATAAATCAATAGAAAAAAAATGCCATCTTGCTGAGACTGGCAAGTTTGATGCTTTCCAGCTGTTC
C
AAATGCCTCCTTCTAGCAGGATATTCACTGGAAACAACACCCCAACCACATTTTATGTAAATTGTGAGCCATGATATTGAATACCGGATTACATCTGTTA
Celera SNP ID:            hCV11698308
SNP Position Genomic:     148218
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41430):
AGAGAGTCAGTTCTATTGGGCACTATGAAAAATGAGAGCTAAAAATCATCAAGTGTAAGGCAGAAGACCAGTCCTAGAGGCTGAGTTAACTGGCAACCAC
R
AGAGAGAAGCTGTGTGTGTCATAGCATGAGCACAGGAGTCTGGAGCTTTTGCCTGGGCGTCCATATGCCATGTCTTGGAGGCTCCGTTGTGAATTCTGCT
Celera SNP ID:            hCV11698309
SNP Position Genomic:     152733
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41431):
AATGGAATGCTCCAGAACCCTACCCTCAGAACTGTATAATTAGTCCTTGAATTTGGAATTTTCATGCTTTTTCTCTGCTGGAAACCTTTAGACGTCTGCA
R
ACTCCCAGGGCTTACTCTATAAGTGCAATTCTGCTTCTGACTCTTCCCTCCACTGAGATGCCTGTACTTCTAGGGTGTTCCTTGATCTCCTCTAAATTGT
Celera SNP ID:            hCV12128070
SNP Position Genomic:     43736
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41432):
TGAAAAAGTTTTGTGGACAATTTTCATCACAATAAGGCAGTGTTTATGGCAATTTGGTCAAAGAAATTACATCAAAATCCATATAATGTCAGTTTTATAA
R
TTGAATATTATTATGGGAAAATGCTTGAGCTCTCATATGGGCTTTTATACTGTGATTATTATTCCCATAACACGTTTTAGTGTCTTACACAACTCAGGAC
Celera SNP ID:            hCV27994736
SNP Position Genomic:     19592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41433):
AAATATCAAAAGAACAAATAAACACATGGATAATGCTTTAAGAAAAACCGAAGTTGAAAGTAGAAAAAAATTGAGAAAGAGAAATGCAGAAAGAAATACA
W
ATAATTTGAGAGAGAAATTGAAACGTGGAATATGAATAAAGAACTTCTTAAATATGGTTAATAGGCATCTCTAAAGAAAAAAAAAGCAAGGGAAAGAACT
Celera SNP ID:            hCV11929773
SNP Position Genomic:     109352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41434):
AGTGGCACTTCTGCCTTTGCTCGTTTTCTCCTGCCGCCATAAAAGACTTGCTTTGCTTCCCCTTCTGCCATGATTTAAGTTTCCTGAAGTCCCTGCAGCC
R
AGTAGAACTGTGAGTCAATTAAACCTCCTTCCTTTGTGAATTACCTAGTCTCAGGTAGTTCTTTTTGGCAGTGTGAAAACGAACTAATTCAGCAGTTAAG
Celera SNP ID:            hCV11929774
SNP Position Genomic:     109988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41435):
TTTCATGTATGTAAAACAGGTTTTTGACCGAGACTCAAGTTTTAAAATTTATATTGGTGTAACTAAGGAAATGTATAGTAGGAAAATAGGATTTGTAGAG
W
CAAGAACTAGATCCATATTCTACTTTTGCTATTTATCAGTGGTGTGCCCATAAGCAAATAGTTCTAAAGAAGATGAATTCTTAGTTCTAAAGAAGGAAAC
Celera SNP ID:            hCV11929777
SNP Position Genomic:     118354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41436):
GAAGATCAAGAACACGATACGGATGCCCACTTTTACCAGTGTTATTCAACACAGTACTGGAAGTCCTAGTCAGACAATCAGATAAGAAAAAGAAATAATG
K
TCATCCACATGGGAAAGGAAGAAGTCAAATTATCCTTGTTTGCAGATGATATGATCTTATGCTTAGAAAAACCCACAGACTCCACCAAAAAACTATTAGA
Celera SNP ID:            hCV27959974
SNP Position Genomic:     58648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41437):
TCAACACAGTACTGGAAGTCCTAGTCAGACAATCAGATAAGAAAAAGAAATAATGTTCATCCACATGGGAAAGGAAGAAGTCAAATTATCCTTGTTTGCA
R
ATGATATGATCTTATGCTTAGAAAAACCCACAGACTCCACCAAAAAACTATTAGAACTGATAAATTCAGTAAAGTTTCAGGATATAAAATCAAAATATAA
Celera SNP ID:            hCV27959975
SNP Position Genomic:     58693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41438):
GTGGCCATAAACAGATGAACAGTTAAAGAAAATGTGGTATCTATACACAGTGGAGTACTATTCAGCCATAAAAAATGAATGAGATCTTGTCATTTGAAAC
W
ACATGGATGGAACTGGAGGACGTTATTTTAAGTGAATAAGCCAGGAACAAAAAGACAGACTCTGCATGTCCTCACTAAGTTGTGGGAGCTAAAAATCAAT
Celera SNP ID:            hCV27959976
SNP Position Genomic:     60308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41439):
TTGGTATACATATGAATTGCATTATTTTTAAAGGAATATGATCCTTGAAAACAGTTTTAAAAGACAAATGATGCACTACTAATAGACTTATGTAGGAATC
Y
CCTGTCCCATCCTCCTATCTCCAGTGTGGCTACCCTGAAGCAAGAACCTTCAACTTCTCTACCCTGAATCAACTGCAGTGCCATTCTCCCCAATGGCATT
Celera SNP ID:            hCV15835200
SNP Position Genomic:     26186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41440):
CAATGATGATATGCTAGCTTTAGGTAAACGGTCTGATGTTAACACATATACAGAGAGTATAAAATTCCACTTGACTCCTCAAGTGCCCATCAAACATTTT
Y
TTTAAAACTCTTTTGATACATCTTAGTCCCATTCTGCATTTTATATGGGTCCCATTCTTTGATTTTCATTTGTTTTATTACATTTGAGTCTCTTTACAAA
Celera SNP ID:            hCV27959978
SNP Position Genomic:     237652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41441):
ACACTGAGGCATGTCAAAATTAAATTGCTCAAAACCGTTAATAGGGAGACAATCTTAAAAAGCATCTAGAGAAAAAACCGTATACTGTATACAGAGGAAC
R
AAAATAAGGATGATAGCAGATTTCTCTTATTTCAAAGACAGTAGAACAACATCTTTAAAGGATTGAAGAAAAAATGTAAACCTAGAAGTCTAAACTCAGC
Celera SNP ID:            hCV15835209
SNP Position Genomic:     65159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41442):
AGCAATTTGAGATAAGGCCCAGAAAAGATAGTGGCACATCAGATGAAGGACACAAGTCTCCTGATTTCTTCTTTTATGACCTTTTCACTATTTGTCTATT
A
AAAAAAAAAAAAACCTGATGTAATGTTATGGCAGTCTAAAGGGTTTTCATGCTAAATAGATACCATTATCTCTAAACTCTTCTATATAGCAAAACCCAAC
Celera SNP ID:            hCV11698315
SNP Position Genomic:     168874
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41443):
AGATTAAAAAAATGGGCAAATGACCTGAATAGACATTTTTCCAAAGAAGATATGCAAATGGCCAGTGGGTATATGAAAAAAGTGCTTAACATCACTAATA
R
GGAAATGCAAATCAAAACCACAATGAAATATGACCTCACAACTGTTAGGATGGCTGTTATCAAAAAGTCAAAAGATAGATGTTGGCAGGGTTGTGGAGAA
Celera SNP ID:            hCV11698316
SNP Position Genomic:     175800
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41444):
GGCAATCTGTAATTATTTATTTATGTCTCTTGGCTGTCTCCACTACTAGAATGTAAGCTCCATAAAAGCAAGAACTTTGTCTTTCAATACTGTATCCTCA
K
TACCTAACATTTTGCCAGGGCTTTATGTATTTTATACACATTTGTAATACGATCAATTCACCAAAAGTTGTACATTTAGTTTCTTTCCAGTTTACTATAA
Celera SNP ID:            hCV27525655
SNP Position Genomic:     88378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41445):
AATGAAGTCACAATTTATCTTTCCTTTTTATTGGGAAAGCCCATCTTTAATTTCCTGTTTTATTTTTCAGAGAAGTTTTCATGATACATGCTTTCTTTCC
T
TTTTTTTTTTCTTTTTGACCTGTGTGTTTTTTACTCTATGTAATTTTGGACAGCTGAATCATTACCTTTCTTATTCATGTTTACAGAGAGTTTATTTATT
Celera SNP ID:            hCV11698323
SNP Position Genomic:     188560
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41446):
ATTCAATGAAAAACATAAATTTTGTGGGATTTCTTCATAACTTTTTGACACAAAATAAATAAGATGTTAGAATCAGTGGTTGAGTACGATCAAAACTCCA
K
ATGAAATTATTTTTTGCATCTCTTTTTTTAACCAATTATTAGCAGTGCTTTTTAGAGAGCAGCATTTATTTTGTTTAACCTTGCAATGAGAGAGTTTCAG
Celera SNP ID:            hCV11496569
SNP Position Genomic:     100448
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41447):
TGGAAGTCTGGGTATGGTTAATGATACTGTTGAATTATAGTTGCAATGGTGAGAGAGAATTGTAAAACTCACCCTCTTGAGTGTAGCTTAATGTAATTAT
A
AAAAAAAAGGTGGTAGCAAAATCCAAGTGACATAATTTATGCTTGAGTCTAGATATATTCTGGATAACTCTACATAGAGAGGAAAACCCAGAGGGATTGC
Celera SNP ID:            hCV11698325
SNP Position Genomic:     192758
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,8)   total(A,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41448):
ATGCACATGGGTTGACGCAACAGCCTCCAACACACACGTTTCTGCTTTTATCAGCCCTTTAATCTGAATCTTGTCTACTGCAGATGGATTTTTCTCCATA
S
AGGAGGAACATGGATTTTAGCATCGTCTAAGGTTATAGTTTTACTATGCTCTGACCAAGAAAGATTAAAGGCTTTTCCTTAGCAGTTTAAGGGAGAAAAA
Celera SNP ID:            hCV11698327
SNP Position Genomic:     198947
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41449):
TGAACATAATTACAATATTTTAATATTATGGCCTAAATTGTTTTACTATTTTTACATTGTAATTCTACATTGCAATTTGGGATGCATGTCTTTGTCTAAC
R
TAGATAAGTAGATTCACATTTTGCAGGGTTTACATTTTGGGAGTCCTTTTTAATAAAATGAATTCAAAATCAAAAGTACAAAGTTAGTTAAGGTGAATAC
Celera SNP ID:            hCV11698328
SNP Position Genomic:     200387
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41450):
GTGTTGGAGGTTTGGGGAAAAGAAAGTTATGCATTAGTCAACTAGAAGAATGTAGGAGAAGCTGGATTGGACTGTGGGTGATTGCTAGAAATATTAAGAA
M
CCACGAAGGAGAGCATCAGGATAAATAGCTAATGCACATGGGACTTAATACCTAGGTGATGGGTTGATAGGTGCAGCAAACCACCATGGCACACGTTCAC
Celera SNP ID:            hCV11923984
SNP Position Genomic:     14520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41451):
GGGTTGATAGGTGCAGCAAACCACCATGGCACACGTTCACCTAGGTAACAAACCTGCACGTCCTGCACATGTATCCCGGAACTTAAAATAAAATATTAAA
R
AAGAACCCACTGGAAAGAATAGATCATGAAGTTAAAGCGAGATATGTACATTTTTGTCCTAGCCTTGCTCAGTTATGTGAGTGAATGTGATGATAATGCA
Celera SNP ID:            hCV11923988
SNP Position Genomic:     14681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41452):
GTCATCCTCCCACATAGAAAGAATAACAAGAGGCCAGTACATTGATCCCACATATAATTTTCAATAAATGAGGTTCAGTTTGGTCTCAATGAACTCTTCT
R
AGAAGAAAACATTGAATTTTATTAGGTGTACACAGAGTTAACAAATATATTCCCAAACAGTTTAGTATGAAACATTTTGAACCCCTTTAGATCCAATATT
Celera SNP ID:            hCV11698403
SNP Position Genomic:     301377
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:41453):
CTATCTGAAAAGGTATCATTTAGCAAAAATGGAGTTATAGATTTTCAGTCCAGTTCTATTTGATAACCCATAAGGTAGACACATACACATATACATCTTG
Y
TAAGCTTGACTGCCTCATTGGTGCATGCAGATGGATAGAAACTCCTCTGGTCTCCTGAAAGTTTGCCAGCAAAGGGAGATAAAAGAACTGTCCCATTTAA
Celera SNP ID:            hCV28003378
SNP Position Genomic:     164610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41454):
GCAGAAGTGGGAAGGAGAAGCTAAAGAAAATAATTATTCCTCACACTGTGTAATACACTGGTCCTGGTGATTTTCAATATTGAAATACGTTCTATCATCT
S
TAAAGTTTCTAATATTGATCCTGCTGTATCTTATTCTGAATATATTATTTCATATTATTTATTTGGATGCCAAAGACTCAGTCTACTGCTTTGATAAATT
Celera SNP ID:            hCV28003379
SNP Position Genomic:     216972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41455):
TCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTGCACCACCATACCCAGCTAA
T
TTTTTTTTTTTTTGTATTTTTAGTAGAGACTGTGTTTCACCATGTTGTCCAGGATGGTCTTGATCTCTTGACCTCGTGATCCACCCACCTTGGCCTCCCA
Celera SNP ID:            hCV11698337
SNP Position Genomic:     208788
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41456):
TATCTAACTGTAGATTGGCTTTCTTGATGTTTTTTCATAATAGATAGAATTTTCTTTGTTTTTATATTTTAGTTGCCTAAATTCATCTCATTACTGCACG
K
TGATTTTTGCCTTCCATTAAGCTTGAAATACTAATACTCTCATTTAGTTCAAAAGGTTGAGTTTAATCAACATGTTATTAAAAATTTTAAACCATTTATT
Celera SNP ID:            hCV11923991
SNP Position Genomic:     23805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41457):
TATGAGTCATCAGATTGATCTTCTCTGCGATGTACTTTAAAAATTACAATTCATTTATCATCAGTAACCGAAAATGGCATTTAACCATTCTACCTTTTTC
R
ATTGCTTTTCTTCTAGAACACATTACTTATATTTCTGCACTTAAATGTGCATCAAAGAGGATAGCAACATGGAAGGCCTGATTAACTAACTCAATTATAC
Celera SNP ID:            hCV15835231
SNP Position Genomic:     96019
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41458):
TGCTAGCTTTAGGTAAACGGTCTGATGTTAACACATATACAGAGAGTATAAAATTCCACTTGACTCCTCAAGTGCCCATCAAACATTTTTTTTAAAACTC
Y
TTTGATACATCTTAGTCCCATTCTGCATTTTATATGGGTCCCATTCTTTGATTTTCATTTGTTTTATTACATTTGAGTCTCTTTACAAATTAGCTAAATA
Celera SNP ID:            hCV28003380
SNP Position Genomic:     237663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41459):
TTTGCTAGAAATTCTCTTCATTAGGAGCATAGCCTTTCAAAAAACAATGCCACTCATGATATGCTTCAGATTCTATATAATCATCTCATGTTGCACTTCT
Y
CTAATTTATTTTATAAAAGAAGTTCTTTTTTGGTGAGAGATAGATTGTAAAACTCAATGTATTCTTATTCTTTTTTTTTTTTGCAATTATTCCTGAATAC
Celera SNP ID:            hCV11496581
SNP Position Genomic:     104461
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41460):
TCAGTTGCTTTCAAGCCTAGGTTCTTGGCTCAATATTATTACATAAACTAGAATTTTCCTATTACTATTAATTTTACTTTGTATTTTTCTTTATAAACTT
Y
GTACTTATTGCTTGTCAAATTTCAGCAGAAGTACAACTCCTGAGAGAATAATGCTGGCTCAGAGTTTTGAGATGATAACCCTTGTCTATGAAACTGATGA
Celera SNP ID:            hCV2698979
SNP Position Genomic:     253886
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,7)   total(C,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41461):
ATTCTCAGCAAACTAACACAGGAATAGAAAGCCAAAGGCTAGTTTCTAGGCGCTCTTTTGGTTTGATTTTGAAATCTGAAAAATCAGCATTGAAGTTATA
K
GTGTGTGTGTGTGTGTGTGTGTGTGTATGTAAGAAAAGTTCAGTAAACACCTTTAGCACCCAAATTAAACACTAGTTAGCATTTTTCTATAATATATTTT
Celera SNP ID:            hCV11496585
SNP Position Genomic:     106820
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,4)   total(G,2|-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41462):
ACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACTTGTTGTTTCCTGACTTTTTAATGAT
Y
GCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTACATTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCATGTGCTTTTTGGCTG
Celera SNP ID:            hCV15931466
SNP Position Genomic:     222435
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41463):
ACTACAGGCACGTGCCACCACACCTGGCTGAATTTTTGTATTTTTAGTAGAGATGGGGTTTCATTGTGTTAGTCAGAAAGGTCTCGATCTCCTGATCTCC
Y
GATTCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCACCATGGAACAATAATTTTAAGAACATTAATTGTTGACATCTTG
Celera SNP ID:            hCV11698342
SNP Position Genomic:     217768
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41464):
GGCAAGTTCTATCTTAAGAACCTGCACAGAGTAAATATTCAGTACATTATCTATCAAGTAGTGTGTTATTCACTGCAAATTGAAAATCATCAAATTCCTA
R
TTGTTCTGCTTAATAGATGCTTAACTATATTTTAGCAGATTCCAAATATATGTTAATATATATTTTTGGAATTCAGCATGAGTATCTTTAGATGCTAATT
Celera SNP ID:            hCV11496589
SNP Position Genomic:     112529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41465):
ATATTTCATTGACTTTGATTGCATTCGACAGGATATAGCTATGCCTATCTGTGAATGAGCCTGGGAATAGAGCTTCGTATTTGGGCACATTATAAACCTG
A
AAAAAAAAATTTGTCTCTAAGAAACAAGGGGGTCATTATATTGTATAGGCAACTAGCATTCTCATTGCTTTTTCTCTCATTCGGGGAAATTAAGTATAAT
Celera SNP ID:            hCV11698345
SNP Position Genomic:     225684
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,10)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41466):
ATGGCTCACTGCAGCCTCAAACTCATGGACTCAAGAGATCCTCCTGCCTCAGCCTCCAGAGGATCTGGGCCTGCAGGTGCATGCCACCACACCTAGTTAA
T
TTTTTTTACATTTTTTCAGCAACAGGGTGGCCATGTGACCTTATGTAAGTTACCTAAACCCTGTAAGTCTATGTGCCTCATCTGAAAAACTGATAAAAAC
Celera SNP ID:            hCV11698347
SNP Position Genomic:     232496
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41467):
GACTACATTTGTTTGGAGGAAAGTAAGGGAAGAGAACATGAGTCTGCCTGGTAATTCAAGGAATTCTCCTGGATCTTATCCAGGACCACCAAGGAGATAC
Y
TTTACAAGTCTGTAAGAATCACGGCATTACTGGGCTTGGGGTGCCCCCTAATGCAGACACAGCTGCAATGACCAAAGATTTAGATAACAACACTCAATTC
Celera SNP ID:            hCV16283309
SNP Position Genomic:     54970
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,13)      total(C,13|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41468):
CAAGTGTTACACCAATGAGTAGAGAGAAAATAATATAGAAGGAAAAAAGGGAAATCCAACATAAACAAAATTGGTGCACTTGCTGAAGAGAACAGAAAAC
R
TAGAATAATTTTCAAAGATGTAATTCAAGATTACTTGTTGAAAATATGTACACTTTTATCTGTAGACAGGGAAAAATATGTCCTGGGGGAAAACACATAT
Celera SNP ID:            hCV11924008
SNP Position Genomic:     125654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   Gontrol(G,120|A,361)   total(G,120|A,361) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41469):
ACTAACAAACTAAGAAAAAAGAGAAAGGAAATGAACAGTGTTATAGGCAAGTAGATGCTGTGGCTTACAAGCATATGGTTTTCTCTCAGAAACGCCCCAG
Y
CCTGTCTCCTATCTCATCTCTAGGAGCCCACATCTACACATCAACCTTTCCTACCTGAAGTCAAGACCTAAAATAGCTGTTTACATTTGGAAGATAGTAT
Celera SNP ID:            hCV15945377
SNP Position Genomic:     219271
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41470):
AAACATAGAATAATTTTCAAAGATGTAATTCAAGATTACTTGTTGAAAATATGTACACTTTTATCTGTAGACAGGGAAAAATATGTCCTGGGGGAAAACA
M
ATATTTTAAAAAAACGACATATAATTCAGCAGTAAAATCTTCCATGGTAAAGTTAGTGCATTCAAAAGATAAGGAAAAAATCTAATGGGAGAACCAAGCT
Celera SNP ID:            hCV11924009
SNP Position Genomic:     125750
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41471):
TTTAGGTTATATAGTTCTTGAATTTTTAAAGCTGTTCAGACACTGTACCACAACCTCATATCACAGTGGTACCCAGAAAATCCAAATAGTAGTACTTGTG
W
AAATAGATTTCTATTTCAGCCTCTTTAAAGGCAGTTATGTAGATACTCTTAATTTTGAATTTTTGGAAATAGGGAGGATCATTATTTCCTAAAATTATAG
Celera SNP ID:            hCV2698982
SNP Position Genomic:     257617
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,5)      total(A,4|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41472):
CAATTTTCCATTATATTAGGTTGGGTTAGTGTTGGCACATAAAAATTTTTTCATTTCTGTATGTTAATTTTGTCACAAGATACCTTGCCAAAATGTTTTA
K
TCCTTTAAATGCATTTGTAATTTTTAAAATCTTGGGCATAAAGACAGACCATCTGCTAATAATGATCTTGGCTCTTTATTATATTGTTTGTCTAATTTTT
Celera SNP ID:            hCV2698984
SNP Position Genomic:     265604
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|T,5)      total(G,5|T,5) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41473):
CCCAAAAGGGCAGGGTCAACTCTCAAAAGCTTCTGAGAGGTTATATAAGATGGTACAGAGAATTGGCCACTGGGTTGGGGTCATTGGAGACATTGCTGAA
R
AAGTACTTGTCACATAGCAGTATCTTGAGGTAATTGGATTGGGTTGAGATGAGACTGGAGTTAAGAGAACAGCAGCAAACTTCTTTTTGGGAAGTTTACT
Celera SNP ID:            hCV2698985
SNP Position Genomic:     266191
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41474):
GCACTCAAGCCTGGGGACAGAGCAAGACTCTGCCTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTATGAGGACACATAAGAAGCATA
S
TTAATTTTATTGTATTTGTGAAATTGTGTGAGTAGGAGGATGCCAATGTCACAGATTTGGTGAAGTTTTCCTTGGACCTTGAAGAATGATTGGAAATTTA
Celera SNP ID:            hCV2698986
SNP Position Genomic:     269465
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41475):
ATTTTACCCTCAATGTAGCTAAGAATAATAAGACAGCCAACACTAACATAGAAAGATCAAGAATGAGTTTATAGCAAAATATTTTTTTCTCAGAACCTGG
K
CCCAGTAGTGTATAAGTTACTTAATATGCAGGCTGCTTGGCAATGCAAAAAATAGTCATAGAAGAAATTTGGAGGGGCGCAGGTGCATCTACTTGATTTG
Celera SNP ID:            hCV1806100
SNP Position Genomic:     35366
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41476):
GACCTTGAAGAATGATTGGAAATTTACCTGATAGGTATATGATAATGACTGAAACAAAATTGGTAGTGATTTGTGGTAGTGGCTAAATAGAAGTTGTGAA
S
TGAGGCAGCAAAATAATAAACTTACAAAAATTAGCCAGGCACGTGCCTGTAGTCCCAACTGCTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGA
Celera SNP ID:            hCV2698987
SNP Position Genomic:     269640
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41477):
CTGTAATCCCAGCTACTTGGGAGGCCGAGGCAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGAGAGCCAAGATCATGCCACTGCACTCCAGCCTGGG
Y
GACAGAGCGAGACTTCATCTCAATAAATAAATTAATAAATAAAATTAAAATATTGGATGCCACAACTTGTTATTTAACTTCGCAGTCCTACAAACCGCAG
Celera SNP ID:            hCV1806101
SNP Position Genomic:     35768
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41478):
ATATGCCAGTGTTTAGTTCATCTTTTCTGAAGAGGCACAGAAGCCAATGAGGCACATTCAGGAAAATTACTTAAAATGTGAATTACTTAAAATTACTTAA
R
ATGTGAATAAATTTGTCACCATGAATACATATACCCTGAAACGTAGAAACTGGTTCTATGTAACTGGAATGCATTGCCCCTCAGGAATAATGCAACTGAT
Celera SNP ID:            hCV2698988
SNP Position Genomic:     270598
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41479):
TGTAATCCCAGCTACTTGGGAGGCCGAGGCAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGAGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGC
R
ACAGAGCGAGACTTCATCTCAATAAATAAATTAATAAATAAAATTAAAATATTGGATGCCACAACTTGTTATTTAACTTCGCAGTCCTACAAACCGCAGT
Celera SNP ID:            hCV1806102
SNP Position Genomic:     35769
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41480):
ATGCAAAGGAATTTTAAACCATTGCCTTGCAAAGTCTTTTTTTGCATAACAACGTTTTGATAAAATGAAGAGACTGACCAAAGTAACAACTCTAAATAAT
R
GCATTTCACTGCCATAAGGATGATTGTAATTATCAGTGGAAGCCTAGAGCATTAGGTCCCAACTCCTAATATTAGTTTCAATTTTTATAGCCTGGTTGTT
Celera SNP ID:            hCV11496594
SNP Position Genomic:     112923
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41481):
TGTGAATAAATTTGTCACCATGAATACATATACCCTGAAACGTAGAAACTGGTTCTATGTAACTGGAATGCATTGCCCCTCAGGAATAATGCAACTGATG
R
TCATGGCTTCCCACATCTGTGTGTGAAGGAACAGTTCACCATATCCAGACCACACTGCTGATGGTACTACAGTTTGCCTCTTTCTCCCCACAGCCTGCAT
Celera SNP ID:            hCV2698989
SNP Position Genomic:     270700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41482):
CCTGGGCGACAGAGCGAGACTTCATCTCAATAAATAAATTAATAAATAAAATTAAAATATTGGATGCCACAACTTGTTATTTAACTTCGCAGTCCTACAA
R
CCGCAGTATAATTAAGGGTAGCCCTTTGGAATGAAAGCTAAGTTACCGCCTAATATTTCATTCCAAATTTGACTGTTACTTGGCTTCTCTGACCTATGGC
Celera SNP ID:            hCV1806103
SNP Position Genomic:     35862
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41483):
GTAACAACTCTAAATAATAGCATTTCACTGCCATAAGGATGATTGTAATTATCAGTGGAAGCCTAGAGCATTAGGTCCCAACTCCTAATATTAGTTTCAA
Y
TTTTATAGCCTGGTTGTTCAAAGACATGCAATTAAACTAACCTAGTATTATTGGAATAGAAAATAAAGAACTACTGTTGGAAACACAATTAACAATACAT
Celera SNP ID:            hCV11496595
SNP Position Genomic:     113005
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,10)      total(C,3|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41484):
AGAGCGAGACTTCATCTCAATAAATAAATTAATAAATAAAATTAAAATATTGGATGCCACAACTTGTTATTTAACTTCGCAGTCCTACAAACCGCAGTAT
W
ATTAAGGGTAGCCCTTTGGAATGAAAGCTAAGTTACCGCCTAATATTTCATTCCAAATTTGACTGTTACTTGGCTTCTCTGACCTATGGCCTCTGGCAAG
Celera SNP ID:            hCV1806104
SNP Position Genomic:     35872
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41485):
TGCCATAAGGATGATTGTAATTATCAGTGGAAGCCTAGAGCATTAGGTCCCAACTCCTAATATTAGTTTCAATTTTTATAGCCTGGTTGTTCAAAGACAT
K
CAATTAAACTAACCTAGTATTATTGGAATAGAAAATAAAGAACTACTGTTGGAAACACAATTAACAATACATAATAGAGGGGCCATATTTCCAATGGCTG
Celera SNP ID:            hCV11496596
SNP Position Genomic:     113033
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,7)   total(G,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41486):
TATCATGAATTTTGAACAAATTTTCCAGGGCTTTTTCTCTTGTTTTATTAGAGAAGTAAGAGGTAAGATGCAGCCTTTAACTGGTGAAAGTTGTGAGTGT
Y
GTCAGATTCACTTTCCCTGTTGAAGAACCTAGGCTGGTGCTTTTCTCCGAGAAACTATGCAGAAGGAATGCTGTGGTAGACAGCATTCTTTTTTCCCTCC
Celera SNP ID:            hCV1806105
SNP Position Genomic:     36083
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;Control(C,120|T,361)   total(C,120|T,361)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41487):
GTTGTGAGTGTCGTCAGATTCACTTTCCCTGTTGAAGAACCTAGGCTGGTGCTTTTCTCCGAGAAACTATGCAGAAGGAATGCTGTGGTAGACAGCATTC
Y
TTTTTCCCTCCCATAGAAAATGATATGTTGTTTACTCATAGCATCTTAGTCACTGCATTCCTTCCTTCTTGATACGAAATGCAGGACTGAGTCAAGCATG
Celera SNP ID:            hCV1806106
SNP Position Genomic:     36172
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   (C,-|T,-)   Caucasian(C,8|T,76)   African-American(C,20|T,64)   Asians(C,8|T,76)   total(C,36|T,216) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41488):
AGGAATGCTGTGGTAGACAGCATTCTTTTTTCCCTCCCATAGAAAATGATATGTTGTTTACTCATAGCATCTTAGTCACTGCATTCCTTCCTTCTTGATA
Y
GAAATGCAGGACTGAGTCAAGCATGGTTTTGTTTGGTTATGCATGCATTTCTGTAGAAGATGAAATGCTTCTCTTTATTTTAATACTGAATGGAATAATG
Celera SNP ID:            hCV1806107
SNP Position Genomic:     36247
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41489):
TGAAAGTTCCTGTAGGTCCTTTCCAGAAATAGAGTAACTTTCGGAGACCTCTCCAACTTCTAAGAAGAAAACAAAATCCTTCTCTTATAGTACTATATCA
Y
GGAGTGATTAAAAGTGTGGGCTCTGGGCTGGGTGTGGTGGTTCATGCCTATAATCCTAGCACTTTGGAAGCCTGAAGCAGGTGGATTACCTGAGGTCAGG
Celera SNP ID:            hCV1806108
SNP Position Genomic:     36733
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41490):
ATCATAAGAACCATACTTATTATAGTTTGCGCTGGTTGAAAGTGATTAGGTTCCCTCCATTAGAAGTCTGTTTCTTCCAGTGTCCACTTGTTCGTGGCAC
R
TGCATCTTCCACAGACTTTTATAGCATAAAGATCCAGCCAAGTGAGTGTTCCTATGGATGTGATGGTCTATTAAGGGGTAAAATAATTTTGGTAGAATGG
Celera SNP ID:            hCV1806109
SNP Position Genomic:     37660
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41491):
ACAGTGCACTAAGTAGATTATTAAGTTTCCTGACTCCACGCACTGGCTCATGGACAGCATTTCTGGGCCAGCCTTGAGCCAGGGAGTAGCTTGCTGCCCT
R
AAGGGAGGAACACAATCCTGGCTCAGTTTGCAACCTGCTGACTGAAGAGCCCCTGGGCCTTGAACAAAATTGGCAGTAGCCAGGCAGTGTGGTTGCTATG
Celera SNP ID:            hCV8714946
SNP Position Genomic:     54643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41492):
TAGACACTCTTTCTGACTGAGGAAAGGAGAGGGAAGGGTGGGAAGAACTTTGTTTTGCAGCTTGGGTGCCAACTCAAGTCACAGCAGAACAGTGCACTAA
K
TAGATTATTAAGTTTCCTGACTCCACGCACTGGCTCATGGACAGCATTTCTGGGCCAGCCTTGAGCCAGGGAGTAGCTTGCTGCCCTAAAGGGAGGAACA
Celera SNP ID:            hCV8714947
SNP Position Genomic:     54555
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,7)      total(G,7|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41493):
ATCAATTTATAAAATTTGATAAGATATATGTTGCTATATATATGTGTGAATGTGTACGCATTTATACATATACACGAATTATGTATATGAAGACATATAT
S
TTGCTATTATTTTGCCAAGCTTATTATAATACATAGAAGAATATACTTTTTCTCTTCAGTGGTTCTAACAGTTGTAGACTTTTAGTGAAAAACTGTGTTC
Celera SNP ID:            hCV9266582
SNP Position Genomic:     10524
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41494):
GTGGTAATGGCCATGGATAGACACTCTTTCTGACTGAGGAAAGGAGAGGGAAGGGTGGGAAGAACTTTGTTTTGCAGCTTGGGTGCCAACTCAAGTCACA
R
CAGAACAGTGCACTAAGTAGATTATTAAGTTTCCTGACTCCACGCACTGGCTCATGGACAGCATTTCTGGGCCAGCCTTGAGCCAGGGAGTAGCTTGCTG
Celera SNP ID:            hCV8714948
SNP Position Genomic:     54538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41495):
GCTACAAGGGATACTCATGATTTTGGTTTTCATTGTCGAGGTGGTGGTTACATGGCTTTAATTTCATTATTGGGTGTTAAACGATAGGTAGGGTTTATAT
R
TACACTTTAGTGTGCATGATATTGTGGAACAAAACAATTCACATGGCAGAAATGAAACAAATGAAAATGAACATTTTAAGGGTCCAAAATCGAAGTAAGA
Celera SNP ID:            hCV11924010
SNP Position Genomic:     126518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41496):
GAAGCTGATTTGGGTGTGCAATTCTTCCCTCTCAGGCCATTTGCTGAATTTTACCCTGTGCAGGGAAAGAGGGTGAGAAGTTCAGCAGATAACTTGGATA
K
AAGAAGAGAAGATGTCAGAACTTTCTGGGTTCTTACAGGGTTGGAAGAAAATATAGAAGGTTGAGACTTTTAAAGCCACCAGCCCTTTTGGGTCACGACC
Celera SNP ID:            hCV15945381
SNP Position Genomic:     227854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41497):
ACTTATCTCGGGTCTCCTATTCTGGATACAACATTTCAAGAGTCTTGGATTCCTGTTTGATTATCAAGTTCACTTCCACTGACCAATAAATATTGGTAGA
Y
GTTAAGTTCTCAGGCTTGAGAGGCTTCTGTCATTTGGTGTGTCCGATGCTAACAGACACTCTTAAATAAAATGCCTCATGAGGGGCCGGGCACGGTGGCT
Celera SNP ID:            hCV11924013
SNP Position Genomic:     137898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41498):
GAGATGGTCAATAGAAACCCATGATTCAACTGGATATCTTGATAGGCCACCTGGAATTAAGTCTTCAATGAACAATGTTTATAGAAAAGCGGATTTTGGT
R
TCAAAGCAAAAGCTACTGCAGAAATAAGCATCTCTTTTGTACATAAGTCTCTGCCTATCTACCAGGGTAGTTTAGAGGTATTGCCTATAAGTCACTTGTA
Celera SNP ID:            hCV9266589
SNP Position Genomic:     9849
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41499):
CCATGTATTTCTAGATCAATTTCATGGACTTGTCCAAATTTTCTATCATTTTTCTCAAATTTGTCAATGAAAGTCCCTCACCCTGATGGTCACAAAAGAT
R
TTCAAGTTCTTTCTTTATTTGATTATGGGACAGATCTTAGCAGTGGGCATGAGATCGCCATGGCACACAGCTTGGTGGCCTGTACCCACCAAAAGGCTGA
Celera SNP ID:            hCV16185272
SNP Position Genomic:     290869
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   JBIC-allele(A,688|G,811)   total(G,811|A,688) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41500):
AGTGTGGATCTCATCTCTGTGCATATGGGCTGTGTTATCCCAAGAGAAAATAGTCCCCAATTATATGAGTTCATCCTCATGAACTCCTGCAAGAACTCCC
R
TGGGTATATCCTGGTGCCTGACAGTGCCTGCTGGTAAGATGTGGCTCCTGTCCCACAGCCTTCAAAGGAGACTGGTGGCAAGTGTCAGCCTGAGAGCTTA
Celera SNP ID:            hCV2698991
SNP Position Genomic:     276378
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(A,-|G,-)   ;(G,-|A,-)   JBIG-allele(G,359|A,1136)   total(G,359|A,1136)   ASG_42_A(G,18|A,65)   ASG_42_G(G,30|A,53)   ASG_42_AA(G,9|A,74)   total(G,57|A,192)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41501):
CAGTGTCCCTGAACCCCATCTCTCTCTTCTGCTCTGCCCTTCCAGTATGACGTTTATCATTGTTATGGTTTGGCTGTGTCCCCACGCAAATTTCATCTTG
R
ATTGTAGTTTCTATAATCCCCAAGTGTCGTGGGAGGGACCAAGTGGGAGGTAATTGAATCACGGGGGTGGTTTTCTCCATGTTATTCTCATGATAGTAAG
Celera SNP ID:            hCV2698993
SNP Position Genomic:     279618
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41502):
AAAACAAGAAGGGATAATGAAGAGCCACCTCTTAATTACACAATCAGTTCACATTTCTTCAGGGAGTTCTCTAGTTCATCGCTGCAATTTGAAGGAGATC
R
TGCCGCCTGAGAGTATGAATTCAGTGACTCCCAGGCACTGATGGATTTCTTGTATGAGGAAGAGATCAGATCACACACTCAGACTAACCCTTTCTTAACT
Celera SNP ID:            hCV27500501
SNP Position Genomic:     279240
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,129|A,1356)   total(G,129|A,1356) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41503):
ATACTTCTTGGGTCCCACATCTTCCAAAGAAGTCCAGCATACACACACACTCACCCACCCACAACCTGTCACACATCCCCAGAAAAGAGAAAGAGTGAAA
K
ATGCTTCACAAAATCGGCCTCAGCCTGGTGTTCAAGTTGCCTCGCTCAATATGCCTGTGCAGTCAGACCTGCAGGAAGAAACAGCTCATTTTTAAACTAC
Celera SNP ID:            hCV2698996
SNP Position Genomic:     291634
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41504):
TATGGTGCCTTTCGAGGAAACTTCTCTGATAGTCAATGAAATACTCCATGTGGTCTTTGTTGGCAGATATATCACTATCCATTTGTTAAACAAGCAGTAG
R
GTGCTGTACATTTTTTTATGCCTAGAAATGTGAAAGAAAGTCTTCAAAATTAGGATAAAGAAATCTCTAAAATCAGGAAATTCCTCACCTTGATGAGACC
Celera SNP ID:            hCV2698997
SNP Position Genomic:     292971
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   ;JBIC-allele(G,220|A,1267)   total(G,220|A,1267)
SNP Type:                 INTRON


Context             (SEQ ID NO:41505):
GTCTTTGTTGGCAGATATATCACTATCCATTTGTTAAACAAGCAGTAGAGTGCTGTACATTTTTTTATGCCTAGAAATGTGAAAGAAAGTCTTCAAAATT
M
GGATAAAGAAATCTCTAAAATCAGGAAATTCCTCACCTTGATGAGACCACAAGGGAACCAGCATCCTTTGCAGACTGACCTGGGAGCAGCAGCTCACTGG
Celera SNP ID:            hCV2698998
SNP Position Genomic:     293023
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,3)      total(A,3|C,1) ;no_pop(A,-|C,-)   ;Control(C,91|A,390)   total(C,91|A,390)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41506):
ATATTTCCTCAAGAGCATGCAAATCAACCTGGACCCTCAGGAAAACAAGTCAAGACTAAATACAATTATGCCATAGCTACGCAAGAAGTTAAAAAACACA
R
TTGTCACAATCTAAATAATTCTGACTGCACTCTTACTTTGAGAAGTGTGTCAAGAAATGGCAAACATTTAATTTGGACTTTGGGGATTTTTGCAGCTGAA
Celera SNP ID:            hCV2698999
SNP Position Genomic:     293277
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41507):
GGCCTGGGCAGCATAGCGAGACCTGCTCCCTACTAAAAATTTTTTAAAAATTGCCAGACCCAGTGGTGGGTGACTGTAGTGCCAGCTATCAGGAGGCTAA
K
ACAGGAGGCTCATTTGAGCATGGGAGATTGAGGCTGCAGTGAGCTATGATCAGGCCACTGCACTCCAGCCTAGGTGAGAGAATTAGACCCTGTCTCAAAA
Celera SNP ID:            hCV1806112
SNP Position Genomic:     41736
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,8)      total(G,6|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41508):
CTAGTTCTTTTTTTTTTTTTTTTTTTCCGAGACAGATTCTCGCTGTGTCACCCAGACTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCCACCC
S
CCGGATTCAAACGAATCTCCTGCCTCAGCCTCCTGAGTAGCAGGGACTACAGGCGCCCATCATCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACTG
Celera SNP ID:            hCV1806113
SNP Position Genomic:     44137
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41509):
AATATTTATATCATAGCAGCCGGTCTACTAGCTGACCTTGGCAAAGGGAAACCTCACATCAGTGGGACGGGGATATTGAAGCCTTTGTCCTTTGGGAAAT
Y
TAGCTTCCAAACCTGGTCTGAGATTTAAAGGCAAGAGTCACATCTAAGAAGGTGGAAAAGTCTGGTACAGCTAGACTGAGAGTATCAGGGGAATTTACCA
Celera SNP ID:            hCV1806116
SNP Position Genomic:     47443
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41510):
ACCTTGAAGAGAAGGACCCAGTGCTGGCAGAATTCATCACCTGGCTAAAGAGCACCTGGGTTTTGAATAAATATCAGTGGTACCCAGGCAGTACTTGCTG
K
GGGCCATGGGTGAGACCCAGGGCCATGCTAGATTCAGGTGTGATCCAACATATTTCAAGCTGTGTTGGCCATGGAGAGAGATTTCTTTTGCTTGAAGAAA
Celera SNP ID:            hCV1806117
SNP Position Genomic:     54095
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41511):
TGTTGTTTCTTTACTTAAAACGTTTCAGTTGCAGATTTAAGGAAACTTTCCCTCTTAAGCTAATTATAATTTACAGCTATTTGACAAAAGTATACCTTTG
T
TTTTTTTTTGTTTTTTTTTGTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCGGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCC
Celera SNP ID:            hCV11698365
SNP Position Genomic:     251616
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41512):
CAGGATAACACAGAGAAGGAATTCAGAATTCTATCAGATAAATTTAGCAAAGAGATTGAAATAATTAAAAAAAGCAGAAATTCTGGAGCTGAAAAATTCA
R
TTGACATACTGAAGAATGCATCAGTATCTATCAACCACAGAATTGATCAAACAGAAGAAAGAATTAGTGAGTTTGAAGACAGGCTATTTGAATAGTTAGA
Celera SNP ID:            hCV1806119
SNP Position Genomic:     55424
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41513):
TCTGTGATGACCACAACTCCTTTTTCCTGATCACTTTAATCACCCAGGCTGTTAACTCATTTTTAATCACTGTGTTTTAAAAGAAGCACTAATGATTGAT
Y
CTTGCCCCTTTTCAATATATTTTGAACTTACCAATTCTGCAGTTTTGTTAAATATGTCAAAATACTCTTTTCAACTGCACATTTTTTCAACGTGATTTTG
Celera SNP ID:            hCV2699000
SNP Position Genomic:     293550
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41514):
ATAAAGAGAGATATTACACAATGAAAAAGTAATTATATCCTAAGTTTTAAAATGCTAAGTATATATACACATAAAGCATTTCAAAATACATAAATTTAAA
R
AATGACAGACTGAAAGGGGAAAAAATCCACAATTGTAGTCAATGTCAATACTCCTTTCTCATAGTCGACAGAACAAGTAGATAGAAAATTAGTGAGGATA
Celera SNP ID:            hCV11698298
SNP Position Genomic:     142846
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41515):
CCTCACAAATGGAGTTATTTTACTGGGTTCTCCTATCCCTATCAAGAATGTTAATGATAATATTTGTAGATCTTAGGCCTGTATTTTATTTTACATAGGA
R
ACAGTGGGAGGGGGAATGTATTATTTTCCTCCATTCTAGGGAGGCAGGTTTTGTCTTTGAAGCCTGATTTGCCCTCTCATTATTAGAATATAGTTCACAG
Celera SNP ID:            hCV8714957
SNP Position Genomic:     34790
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;TSC_42_A(G,35|A,48)   TSC_42_C(G,14|A,69)   TSC_42_AA(G,16|A,67)   total(G,65|A,184)
SNP Type:                 INTRON


Context             (SEQ ID NO:41516):
CCTCTGAGAAACCAGCCATTCAATACACTTTTACCTTTGGATGATGGGTTATTAGAAGCCTGTTGTCAGTGTGTCAACGATATTCTATTCGAGATGGAAA
Y
CTTTAGTTATAAGGTGATGGTGAGTAATAGCCTTTGTAATTTCAGGTTCTTGTCATTGTGGGAAGTGCATTTGTTCTGCTGAAGAGTGGTATATTTCTGG
Celera SNP ID:            hCV2699001
SNP Position Genomic:     294603
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,29|T,7)   total(C,62|T,10)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(C,23|T,1)   total(C,49|T,1)   
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   ;JBIC-allele(T,260|C,1225)   total(C,1225|T,260)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41517):
TAAGCAAGTCTATGCCTGTTAAGTTCAGGAATTTAAATGAAATGGGCCAAGTCCTTGAAAGACACAATCTGCCAAAAATCAATTAAAAAGAAATAGATGA
Y
TTGAATAGCCAATATTGGTCAAGCAAAGTGAATCATAGTTAAACATTTGTAAAAATGAATATTCTAGGCTCCAATGATTTTACTAGCAAATTCTACCAAA
Celera SNP ID:            hCV11698299
SNP Position Genomic:     143782
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41518):
GAACTGTCTTGAATCTGAGTGATCAGCCTCTGGGAAGCCTGTCCTCTTATGCACAGGGCAAGTCTCGGTGAGAGGGGCAGCTGTGACTCATCAGCAGTTA
Y
TACTGTCATCAGCGAGATGGGTGGATACATGGGCCCCGGAGAGGGGATCTGGGAGGCACCACAACATCCACTAGGGAGACAGTCAGAGTCCAGATACAAA
Celera SNP ID:            hCV8714958
SNP Position Genomic:     28274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41519):
TGAGGTCAAATTTCTCCTGTAAGAGTATTTATACAAATCTTCTTGTTAACCTCACACCTCACACATCTTGTCGCTTTCAGTTTTTGAATCTTTGAGTCTT
Y
TCTGCATTGTTGACAGAAGCACAATGATGGAGCTGTCCAGCTCTACAGTTTCCATATGTGAGAGGCTTAATGATGTCAATACTGTTGGAGGTAGAGATTA
Celera SNP ID:            hCV8714959
SNP Position Genomic:     28071
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41520):
GGAACTGGATGTGTGTATGGGGGAGAGGTATAAAGAGGGCTCAGCCGTGTCATAGCCACTGCTATCCTAATTTATTGAGTCCTCATAATTGGTTATAAAT
Y
CATTTGTTTAGCCAAGTTACGAGGAAACAGAGACATGTATACTTCTCCTCAGCTCTAGCTGAAGGTAAAAGATGACTCTTTGTGTGTCATTAAGTTAGAC
Celera SNP ID:            hCV2699003
SNP Position Genomic:     295264
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41521):
TAATTGGTTATAAATTCATTTGTTTAGCCAAGTTACGAGGAAACAGAGACATGTATACTTCTCCTCAGCTCTAGCTGAAGGTAAAAGATGACTCTTTGTG
Y
GTCATTAAGTTAGACCTTTGCTTTCTGCCCATCCTTACTACGTAAGACTCTCTTCACGGATTACTTGGCCTGCCTCATGTTATGTCAAAGAGCCTTATGT
Celera SNP ID:            hCV2699004
SNP Position Genomic:     295349
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41522):
AGGAAGGCAAGAAAGAAGGAAAGATGACAAAACAACCAGAAAACAAGTAACAAAATGGCAAGATTAAGTCTTTACTTATTAATAATAATATTGAATATAA
R
TGGACTAAACTCTCTAATCAAAAGACATGGAGTGACTTACTGGATTCAAAAACTAAACAAAACAAATGAGACCCAATGAACATTTGCCCACAACTAACAC
Celera SNP ID:            hCV9245610
SNP Position Genomic:     56647
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41523):
AATGGCTTAAATAGAAATTACAAATATTCACTCAGTGATAGGAACAAAATGTTTATTTTCTTAATGGTGAAACTTTGCTTTGTATGAAATTCACATTGAA
Y
TATGAAAGTGTACAATAATTGGGACTTCCCTTACATATTTACAGGTAAATCTACTTATACACATTAGTTTAGGCAACCTTTAATTATTTAGAGCTAAAAA
Celera SNP ID:            hCV2699005
SNP Position Genomic:     297125
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41524):
TCAGTTGACATACTGAAGAATGCATCAGTATCTATCAACCACAGAATTGATCAAACAGAAGAAAGAATTAGTGAGTTTGAAGACAGGCTATTTGAATAGT
Y
AGAAGAGACAAAAGACAAAAAGAATGAAGTTTGCTTACAAGACCCAGAAAATAGCCTCAAAAGGGTAAATCTAAGAGCTATTTGTCTTAAGGAGAAGGGG
Celera SNP ID:            hCV1806120
SNP Position Genomic:     55521
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41525):
AAAAACTATATAAGAGGCAAGTTTATTATGTAATGATAAAGGAGTCAACTCAGCAAGAAGTTATAGCAAGTGTAAATATATATACACCCAAAACTGGAGC
R
CCTAGACATGTAAAGCAAATATTATTAGAGCTAAAGTGAGAGATAGACCCCAATACAATAAGAGCTAAAGACTTTAACACCCCACTTTCAGCATTGGACA
Celera SNP ID:            hCV1806121
SNP Position Genomic:     56971
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41526):
CCTCTGCACATGGATCATTCTCAAGGGTAGACTATATGTTAGGCCACAAAACAAGTATTAAAGAATTCAAAAATATTGAAATTATATCACATATCTTCTC
R
GACCACAATGGAATAAAACTAGAAATCAATAACAAGAGGAACTTTGGAAACTATGCAGACACACAGAAATTAAACAATATGCTCCTGAATGACCAATGGG
Celera SNP ID:            hCV1806122
SNP Position Genomic:     57287
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41527):
ATCTTCTCAGACCACAATGGAATAAAACTAGAAATCAATAACAAGAGGAACTTTGGAAACTATGCAGACACACAGAAATTAAACAATATGCTCCTGAATG
R
CCAATGGGTCAATGAAGTAATTAAGAAATAAATTTAAAAATTTCTTAAAACAAATGGAAAGACTACATACCCAAACCTATGGAATACAATGAAAACAATA
Celera SNP ID:            hCV1806123
SNP Position Genomic:     57379
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41528):
CAATAACAAGAGGAACTTTGGAAACTATGCAGACACACAGAAATTAAACAATATGCTCCTGAATGACCAATGGGTCAATGAAGTAATTAAGAAATAAATT
W
AAAAATTTCTTAAAACAAATGGAAAGACTACATACCCAAACCTATGGAATACAATGAAAACAATACTAAGAGGAAAGTTTATAGTAATAAGGACCTACAT
Celera SNP ID:            hCV1806124
SNP Position Genomic:     57414
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41529):
GAACTTTGGAAACTATGCAGACACACAGAAATTAAACAATATGCTCCTGAATGACCAATGGGTCAATGAAGTAATTAAGAAATAAATTTAAAAATTTCTT
R
AAACAAATGGAAAGACTACATACCCAAACCTATGGAATACAATGAAAACAATACTAAGAGGAAAGTTTATAGTAATAAGGACCTACATCAAAAAAGTACA
Celera SNP ID:            hCV1806125
SNP Position Genomic:     57426
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41530):
ATAAGGACCTACATCAAAAAAGTACAAAAACTTCAAATAAACAACCTAGTGGTGCATGTTAAAGAATTAGAAAAGCAAGAACAAACCAAACCCCAAATTA
Y
TGGAAGAAAATAGTGAAGATCATAGCCGAAATAAATGAGATCAAATTAAAAAAATAACAAAAGATCAACCAAAGGGAAAGTTGGTGTTTTGAAAAGATAA
Celera SNP ID:            hCV1806126
SNP Position Genomic:     57601
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41531):
ATTTTTAAATTCAGAATTTCCACTTTATTTGTTTTTTACAGATAATTGTCTAGTGAGTTTCTCCACACAGTAATATTTTTTGAACATTTTAAAAGTAATA
G
ATATTTTAGTCAATGACTGATGATTTAAGTTTGTTACCTGCATCATTTTTTAATCTCTTTCTATTGTCTGTTTTTTTCTCTTTTATTTTTAGTGAATCTG
Celera SNP ID:            hCV11698374
SNP Position Genomic:     256261
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41532):
CCATTTAGTACAGTGACACTGGCTAACAAATGCCCCAAGAAGTATTAAATCTCTTTTCTGAATTTTGAATTATCACATGCATTATTAATCTACCATAATT
M
AATGTCATTTTCATATGTGAAAGTGTGAGAGGGAGAATGCTGAGGAGATTGAAGGAGAAAGACTATATGGGTTCCAAAACTGGCTCGATTTTGGGAAGTT
Celera SNP ID:            hCV1806129
SNP Position Genomic:     51277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,7)      total(A,7|C,4) ;no_pop(A,-|C,-)   Control(C,125|A,356)   total(C,125|A,356) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41533):
AAAAAAATGTGTATTGGTATATTTTTCCAGGGATAGATCTGTGTTCTGCCAGTTATGGTTCTTGATTACAAACAACAAAACCAACTTCATTAAAAGGGAT
A
AAAAAATATTTTATTAGAAGGCTTTAGGCTCAGAATGCAACTTTGAACAATTAGCTCCTGCAGCAACCTGGGGAAGCAAGGCACTGCCAAGAACCAGTTC
Celera SNP ID:            hCV11698378
SNP Position Genomic:     271115
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41534):
CCCTGCCTCCTGCTGAACCTGGGACTACCTCCAAGTAGAGATTAGTTGAAGGTCAGCCAGCACAACACTGTATTGCCATGTCTTTCACCAGATTCTCAAA
G
GGATCGTGACCCCATCATGTCAGCTAGAAAATATTATGAATCATTGCATTAGATTATCTTTAATTACAGCTCTGAAATTATATGATCCTAAATACTAATT
Celera SNP ID:            hCV11698379
SNP Position Genomic:     271523
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,6)   total(G,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41535):
TAATTTTCAATAAATGAGGTTCAGTTTGGTCTCAATGAACTCTTCTGAGAAGAAAACATTGAATTTTATTAGGTGTACACAGAGTTAACAAATATATTCC
M
AAACAGTTTAGTATGAAACATTTTGAACCCCTTTAGATCCAATATTGAACATTTTGCATGGAATCTTCATTGTGTAGTCAACTGTTCCTGGCCTTTCTTG
Celera SNP ID:            hCV2699010
SNP Position Genomic:     301431
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,6)      total(A,3|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:41536):
TTTACATTCATATCCATTGTGTGTGTTTGTGTGTGTGTGTGTATATATACATATATATATGTATATATATGTTGAGTTTTCTAAAAACTAACAATTTAAT
Y
GATAGCCCCTGAGGGAAATAAGACTCGTATAGGCCAAGTAAGGAAACAGGGTGGATTATCGCTGTTCAGTTGGCTCAGTTTCACTTAATTCCTCTTTTCT
Celera SNP ID:            hCV8714968
SNP Position Genomic:     27768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41537):
TTTAAGATCTTCTAGCCCTGGGGAGATCTTTATCCACACCCACATTTTGATGGACAATAAGAACTGCTGTCATGTTTGTTCACATTTACATTTCTGCAGT
S
TCAGACCAGTCCTTGGAGAAGCTTGAAGGGTCAAACTGTCATATTCTCCCAAAGAATCTACTGGAGAAGTTATAATAATAATGCTTAATATCTCACAATT
Celera SNP ID:            hCV8714969
SNP Position Genomic:     25530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41538):
ATTAAATATTCCATTAATAATGTTAAATTAGTAAAGTAGGAAATGGTCCAATTGTTCAAATCTTTGCCTATTTTCCAAGTTAAAAAATAAGCCACTAAGG
M
AACAAAGAAGAAATAATCAGAGATAGAAAGGCATTCAGAAAATAGTGTGTCAGGGAAGACAAAGATAGTTTTTCAAAGAAAAAATAACTGGCCAACAGCA
Celera SNP ID:            hCV1806200
SNP Position Genomic:     114144
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41539):
AATAATCAGAGATAGAAAGGCATTCAGAAAATAGTGTGTCAGGGAAGACAAAGATAGTTTTTCAAAGAAAAAATAACTGGCCAACAGCATCATAATCAGC
R
CAGTCTAATTAAACAAATATAGACTACCGTTCTTGTATCCACAGCACAAATGTCATTGTCAACGTTGAAAAGAATAGGTTCAGGGAGTAATGACAGCAAA
Celera SNP ID:            hCV1806201
SNP Position Genomic:     114256
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41540):
TAGCAATGAGCAAGGCTCCATGGTCATAGGACCCTCCAAGTCAGGCGCGAGATATAATCTCCTGGTGTGCCGTTTGCTAAGACCATTGGAAAAGCGCAGT
R
TTAGGAAAAGTGACCCGATTTTCCAGGTGCTGTCTTTTATCCCTTTCTTTGACTAGGAAAGGGAATTCCCTGACCCCTTGTGCTTCCCGGGTGAGGCGAT
Celera SNP ID:            hCV1806202
SNP Position Genomic:     125076
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,8)   total(G,8|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41541):
ACTCAACTGTGCTCAGGACGAATAAGTCACAACACCTGTGAGGATCTGGCTATGTTGTCTTACTCTTGTTGACTGGTTTGCCTCCATTCATTATTGCAGA
Y
GCACTTGTGCTTTTACTTGGCGTCACCCCAGGCTTCGGGACCGTTTCCCCAACATCATGCAAAGATGGTTCTCGGTACATGGCAACTAGTGATGGGAAGA
Celera SNP ID:            hCV25608831
SNP Position Genomic:     303094
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38|T,2)   total(C,73|T,3)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38|T,2)   total(C,71|T,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41542):
TTCCCAGAAATATTTTTTAATCTGACTCAAAAAGAGATAGAACATGTTAAACTATCAGGAATTAAATAAGGTGGCTAATAATCACAACTGTTTTCATATC
K
TACTGAAGATGCTACCAAGTGAAGTCAAAGTAGCATAGCAATGTGAAGGAAAAACAATTCTCAAATATTTTAGTATCAGTAGATCTCTATAATTTTAGAA
Celera SNP ID:            hCV1806204
SNP Position Genomic:     127033
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41543):
AAAAATAATTTATTGTACATTTTTAAATAACTAAAATATTGGATTGTTTTTTAATACGGAGAAAGGATAAATGTTTGACGTGATAGATCTGCATTTACCC
K
GATATGACTATTATGCGTTGTATGCCTGTATCAAAATATCTCAGGCACCCTATAAATACATACACCTATTATGCACCCACAACAATGAAAAAGAAAAATT
Celera SNP ID:            hCV1806205
SNP Position Genomic:     127935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41544):
AAGAACACTGCACTGAAATATATCCAATATGCCACTTTATGGCACCTTCCAAATGCTCTTAGTGTAAATGTATGTTACAAATCCCATAAAGCACAGCAAA
R
ATAACAACCAAACTGTTGGTACAAATCATGAGACAGATTCAGTAGTTGTCTGTTTTTATATGCACATTCAGTAAGCTGCTTACCTATGTTTTGTTACATT
Celera SNP ID:            hCV1806132
SNP Position Genomic:     52444
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41545):
GTGGGTATGAAAAGAATTGCATTGTAGTCAAACAAGCAAAATTTTAAGGTAGGATATCATGGACATTTTGCTTGCCTAGGCCAGCAGGTTCTTTTAAAGA
W
GCTGTTGGAGAGAAACCTTCAGAGATCAATAGGAGCAGCTCATAGGGAGCCTTTTAATGCCAAAAGATATGTGTGTGTGTGTGTGTGTGTGTATGTGTGT
Celera SNP ID:            hCV1806133
SNP Position Genomic:     61072
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41546):
AACCAAGGCTCAGAGCAGTATGTATGGTAGAGTAATAAATTTAAGAAAACTGATAAGTGTGTGCTTGTGGAAGATTAAACTTCACATTCTTTATCTTGAA
K
GTGCAAAGGAAATATTTCTTTTAATTCCTTTCTATTTTCTCTGATGTTTCTCATGAGCTTTCTTCCTATTTTTCAACTGCTCACTGAATGCCAGGAAAAA
Celera SNP ID:            hCV1806209
SNP Position Genomic:     130948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41547):
TATATATACACATGTGCATATATATATGTATATATATATATGAGAGAGAGCATATATATACATATGAGAGAGAGAGAGAGACTGTGAACGCCCTTGGCAG
K
CAATGTGAGCAGAGAATTGGCTTTTCCAGAAAGGAGTTTCTGGGACATCACTCTTGGGATAAATAGGAAAAAGATAAAAGCCTTCAAATGGAGGTACCAA
Celera SNP ID:            hCV1806137
SNP Position Genomic:     61368
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41548):
AGAGATACACACATTTGAAACTGCTTTAACCAGTACTATCTGTATTCGTGGTTATTCGAATTGCTTCAACATGTGTATAATGTGTAGTGTGGTATGTGTA
Y
GCATACATTGATCCTTATTTGTATCATACTTTAGATGTGCTTTATCAGTATAATGAATATTAGAATCAGTTTTTAATTGGTGGGATATATGTTGTTTAAG
Celera SNP ID:            hCV8714970
SNP Position Genomic:     24792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41549):
GGGAAAGAATGATGCTAGGCACATTGTGATATTATAGAACTGACAGGAATTGGAGACTGGGTTAAGAGGTGGAGATGGGGCTGCAATTTGGTAAATGTAA
S
TAGTTATGGACTTCTGGCTCTCAAATATTGCAAGTTCTACAACCCTTCCTCCACCTTATCCCAGAGATATCTGAGTGTCTTTTTGGTTTGAATTTCAAGT
Celera SNP ID:            hCV1806138
SNP Position Genomic:     61652
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41550):
GGAAAGAATGATGCTAGGCACATTGTGATATTATAGAACTGACAGGAATTGGAGACTGGGTTAAGAGGTGGAGATGGGGCTGCAATTTGGTAAATGTAAC
Y
AGTTATGGACTTCTGGCTCTCAAATATTGCAAGTTCTACAACCCTTCCTCCACCTTATCCCAGAGATATCTGAGTGTCTTTTTGGTTTGAATTTCAAGTT
Celera SNP ID:            hCV1806139
SNP Position Genomic:     61653
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41551):
GACAGAAGTAATACTCAGAAAATTCATAGTAGAGTAGTGGATTCATTTGACACATAACTATATACCATGAGATGGAAGTCAAAAAAGTTCCACAGGAGGT
A
AAAAAAAAAAAATAAGGTATTACAGAAATTCAGAGGAGAGACAATGAGTCTCACTTAGGGATATTAGGTAAATCTTCACAGAAGGGTAGTCGCTTTTTGC
Celera SNP ID:            hCV11698386
SNP Position Genomic:     283387
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41552):
TTTGTTGGAAAACTAACATTTTATTATCAATTTATAAAATTTGATAAGATATATGTTGCTATATATATGTGTGAATGTGTACGCATTTATACATATACAC
R
AATTATGTATATGAAGACATATATCTTGCTATTATTTTGCCAAGCTTATTATAATACATAGAAGAATATACTTTTTCTCTTCAGTGGTTCTAACAGTTGT
Celera SNP ID:            hCV1806068
SNP Position Genomic:     10499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41553):
TTTTCCAAGGATAGTAATGGTCAGAGCACGGCATACCTTGGTCTGAGTTAATATAGGTAATACGATAGGGGAGCGGGCAGCTGGAAAACGGAAACAAGTT
M
ACAAAAAGAGATACACACATTTGAAACTGCTTTAACCAGTACTATCTGTATTCGTGGTTATTCGAATTGCTTCAACATGTGTATAATGTGTAGTGTGGTA
Celera SNP ID:            hCV8714978
SNP Position Genomic:     24685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41554):
GGGAGATATTGTGTAAAGATACAAACGCTGATTTTGCAGAGAAATTAAAAGTACCTAGAACTGAATTGGACAAGAATATTCTGCCTTTTCCAAGGATAGT
R
ATGGTCAGAGCACGGCATACCTTGGTCTGAGTTAATATAGGTAATACGATAGGGGAGCGGGCAGCTGGAAAACGGAAACAAGTTCACAAAAAGAGATACA
Celera SNP ID:            hCV8714979
SNP Position Genomic:     24600
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41555):
AGAAATATTACAGATTGTGAGAAATATTCCTCGGGTCTGTGCTGCTTGTATTTCTCATCGTCTTGCAAACCTGGTGTCAGTCTTGATAGTACTTAATAGA
Y
GTACACTGAATTTTTTTTTTGAATAACTGAATGAGTCTAGGCACGTACTTGTTGCTATGGGAAGGGTATGGGGATGATCCAGTGTTCCAGCTGAATCAAA
Celera SNP ID:            hCV29442021
SNP Position Genomic:     17298
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41556):
TAATAGATGTACACTGAATTTTTTTTTTGAATAACTGAATGAGTCTAGGCACGTACTTGTTGCTATGGGAAGGGTATGGGGATGATCCAGTGTTCCAGCT
S
AATCAAAGAAAACCGAGTTACCTGAGAACATGTGGCAGGGAAGGAGAAAGAAGTAACTGAAGTGGAAAACAGATGGGTGCAGAATAAATTTTACCATCTT
Celera SNP ID:            hCV29442022
SNP Position Genomic:     17391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41557):
TGCCAATATAATGATGTTTTGGTAAACAAGGAACCACATATATGATAGGGATCCCATTAAGGTTATAAAGCCATATTTTTACTGTTTCTTTTCTATGTTT
R
CATATGTTTAGATATACAGATACTTACTATTGTGTTACAGTTGTCTTCAGCATTCAGTACAGTAATGTCCCATACAGATTTGCAGCCTGGAGGAAATAGG
Celera SNP ID:            hCV29442023
SNP Position Genomic:     18285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41558):
GGGATCCCATTAAGGTTATAAAGCCATATTTTTACTGTTTCTTTTCTATGTTTACATATGTTTAGATATACAGATACTTACTATTGTGTTACAGTTGTCT
Y
CAGCATTCAGTACAGTAATGTCCCATACAGATTTGCAGCCTGGAGGAAATAGGCTATACCATACAGCCCAGGTGCGTGGTAGGCTATCAGGGTGTGTATG
Celera SNP ID:            hCV29442024
SNP Position Genomic:     18332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41559):
GTTTCTTTTCTATGTTTACATATGTTTAGATATACAGATACTTACTATTGTGTTACAGTTGTCTTCAGCATTCAGTACAGTAATGTCCCATACAGATTTG
Y
AGCCTGGAGGAAATAGGCTATACCATACAGCCCAGGTGCGTGGTAGGCTATCAGGGTGTGTATGTACACTCTGTGATGCTCACACAGTGATGAAATTGCC
Celera SNP ID:            hCV29442025
SNP Position Genomic:     18368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41560):
GTGTCATAGTTTAGTTTGCCACATTTTTTTCTTTTACAGTGGTACATAAAATGATGAAAAATCTCTCAATGGATGGTTGTATTTGATAAACTATGGCATG
R
AAAGTAATTCATACATCATAAGTTCTCAATGAAAGTGAATGGACTGGATTTTTTTTATTAGTTGTTGCTTACCAATCTTAAAGAACTTAGGTAAGCCATT
Celera SNP ID:            hCV29442026
SNP Position Genomic:     18712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41561):
TCAAGAAATCACAGGAAAGAACCAGATAACCAAATCCATGACTTAAAGTTCTTTTAAAAGAACTCTCATTTTTAAGTGGAATTGATATAAAATGAAAAAT
Y
AATGCTAGCAGAAAGAGATTCTGATTTCATTGGCCACCACGTTTGGGGCAGGATGGGAATCTTGTCTGAATTGTTAACGTGGGTTAACTTGTTTATGTTG
Celera SNP ID:            hCV28002918
SNP Position Genomic:     39296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41562):
TTAAAGAAAATGTGGTATCTATACACAGTGGAGTACTATTCAGCCATAAAAAATGAATGAGATCTTGTCATTTGAAACAACATGGATGGAACTGGAGGAC
R
TTATTTTAAGTGAATAAGCCAGGAACAAAAAGACAGACTCTGCATGTCCTCACTAAGTTGTGGGAGCTAAAAATCAATGCAATTGAATTCATGGATACAG
Celera SNP ID:            hCV27938064
SNP Position Genomic:     60330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41563):
CAGCCATAAAAAATGAATGAGATCTTGTCATTTGAAACAACATGGATGGAACTGGAGGACGTTATTTTAAGTGAATAAGCCAGGAACAAAAAGACAGACT
Y
TGCATGTCCTCACTAAGTTGTGGGAGCTAAAAATCAATGCAATTGAATTCATGGATACAGAGAGTAGAATGATGGTTACTAGAGGCTGGGAAGGGCAGTG
Celera SNP ID:            hCV27938065
SNP Position Genomic:     60370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41564):
CTTATATAACCTCCTCATTTTACCTTCAAAAACCCTTGTCTTTTGTTTTCCTCCCCTGAAGGTGTCTGTAGTTTACTATGCTATGTTATTCCATGCTGTA
S
TGCCCACTGCCAGATAAACTTATTATCTTTGGAGAATGTCTGTCTTTCTGCCCATTATTAAGACTGACATAATCTGGTATCAAGAAATGGGACAGAAGTA
Celera SNP ID:            hCV9908021
SNP Position Genomic:     246276
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,13)      total(G,1|C,13) ;Control(G,101|C,380)   total(G,101|C,380)
SNP Type:                 INTRON


Context             (SEQ ID NO:41565):
GGTGATTATTGGTAATCTTTGTGTTAGCCATTTCACAAATTTATTTGAAGGAGCAGTAAAAATGTTCTCTCTGTCTATGAAACATCTTCTCCTCAGGCAT
R
ATTTGTCAGCTTTGTGTGGGGGATTCTTTACACAGCCCACTGGAATTCAGTGATGCAATGTTGTTAGTAGGAGAGGACTGACATTTTTTTCAGACAAAGA
Celera SNP ID:            hCV1806213
SNP Position Genomic:     133119
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41566):
CTGGGTTAAGAGGTGGAGATGGGGCTGCAATTTGGTAAATGTAACTAGTTATGGACTTCTGGCTCTCAAATATTGCAAGTTCTACAACCCTTCCTCCACC
K
TATCCCAGAGATATCTGAGTGTCTTTTTGGTTTGAATTTCAAGTTAAAACCCTGAATATCTGGAGGAACACCCACGCCCATCATGCTCTGATGTTAAGTA
Celera SNP ID:            hCV1806140
SNP Position Genomic:     61708
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41567):
GCAAATAAATAAAATATGTAAGTCCAGGATGTCTAATAGTGCAAAGAAAAAGAAAGCAGTCAGAAGTCTATCTGAAAAGGTATCATTTAGCAAAAATGGA
R
TTATAGATTTTCAGTCCAGTTCTATTTGATAACCCATAAGGTAGACACATACACATATACATCTTGCTAAGCTTGACTGCCTCATTGGTGCATGCAGATG
Celera SNP ID:            hCV27938066
SNP Position Genomic:     164543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41568):
TATTAATATATTTTATAATGTATAGTACACTAACATGCTTCTAAAAGTCATAACTATGCAGAAAAGTATACTCAGAGAATCATCCCTCTCTTCCTCAAAC
S
TTGCACCCTGCTTACCCTCACCTTATAGATAACCAACTTTATTGCTCTCTTCCTTCTCTGTGCATGTATTTCTTTTTGTGTAAAGATAAATAGACATATT
Celera SNP ID:            hCV15829879
SNP Position Genomic:     151763
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   Control(C,202|G,279)   total(G,279|C,202) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41569):
CGAGGGCCCTATATTTTGGAAACCACCAGTGTGTATCAGGACCTTTGCTCTGAAGATGAAAAACACAGAAAAATTAATTTTTGCTGTTGGTTATGTTTCT
R
TTGCTTTTCCAAAGGCAGCTGATGTCAAGGTATAATATGGATATGGGAAGGGGTGGCGTTTAGGAATCTTAAAATAATACACAGACAACGCACACAAGAA
Celera SNP ID:            hCV1806214
SNP Position Genomic:     135686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41570):
CTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAGTCATGTCATCTGCAAACAGGGACAAAGAGGAAGGCTTTATGTGTCT
K
TCTCCATTGCATTAGTATGTTGGAATAAAGTCCACTGTGATCACAGAACACAGTTTGTGGAAAATAAAGTCTAGGACTTCATTTTCTCATATGTAATCTT
Celera SNP ID:            hCV27938067
SNP Position Genomic:     223728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41571):
CTTGTTCATAAGTATTTTCGTTATTGGTGCTTTCCATTTCTGTATAAATGTCATAATTGGCTTTTAAGCTTTAAAAAATCCTGATAAGATTTTGGTTGTA
R
TTACATCGAATCTATAGATCAATTAGGGGATATTTGGTATTTTAACAATATTGAATAATAAGCATACAGTATTTCTTCACATTTAAATCTCAAAGCTTTC
Celera SNP ID:            hCV27938068
SNP Position Genomic:     264600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41572):
TTGCAGAGATAATTTATTAAGTTGAGATCATACTGGAGTAGAGTGGGTCCTTAATCTGATATGGCTGGTATCCTTATAAGAAGAAGAAAAGAAGCTGGGC
R
CGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCCCCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACC
Celera SNP ID:            hCV1806216
SNP Position Genomic:     136536
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41573):
ATAGAGCTGGATCTATCCCTGGGTGCAAATCAACTTACGGTTCAAAGGATACCACCAGGATCTAAAGGTGGACTCTGCTAGGCACTGGGATAGCCCCACA
Y
CCAGGCTTCACATGGTGGCTAATGACAACAGTAGATACATATCATCACAGCACCCTGTCCAGTGGACAGAGAAATTATCTCACCTGGAATCCTCTTGATG
Celera SNP ID:            hCV1806143
SNP Position Genomic:     63263
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41574):
TGCTTCAGCCTCCCCAGTAGCTGGGATTACAGGCACCCACCACCACACTCAGCTGATTTTTGTATTTTTAGTAGAGATGATGTTTCGCCATATTGGTCAG
R
CTGATTTTGAACTCCTGACTTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACCTCACCCAGCCAATACATTCTTA
Celera SNP ID:            hCV9908025
SNP Position Genomic:     245133
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41575):
CATGACTGGAGAAGGCCATGTAATTGGAGTGATTGGAGAGGCAAAGATCTGAGTGATGCAACTGTGAGCTGAGAAACTCCAAGAAATGTAGGTCACTGCC
R
GAAGCCAAAATAAGGCAATGAAGGATTCTACTCAGAGTCTCAAGAGACCCTGGTCCTGTTCGCACCTTGGTTTTGGACTTCGAGTCTCCAGAAATATGAG
Celera SNP ID:            hCV1806217
SNP Position Genomic:     136942
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41576):
TAGAGGGATCAGACCTTCTGAGAAAGATCTTTTTCATTCTTAAAAAGGAACGTTAAGTCAGAGACATGCTTTACTTCCCAGAGGATATTCTGAGTGAGTT
K
TATGAGTTGGTGAGGTTTAGACTGGACACAGCCATCTGGTAACCATGAAGGGACAAGTCTGAGACCAGAGCCAACAGCCTGAGGATGAGGGGCAAACACA
Celera SNP ID:            hCV1806071
SNP Position Genomic:     12610
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41577):
TGGCAGATATTCCTGAAATGGAAAAACAGTACTTCAAAGTTGAGGCTCTGTGGAACTTCGTCATGATTTTTCTTCATCAATCTCTATTCTTTTTTGTAGA
Y
GGCATATTTGGTTTTTTTTTTCCCTGCTTTTTGTCTAACTAGTTATATATTGCTTATTGTAGATACTTTTGCAAATACCAAAAAAAATGAAACTCCCAGA
Celera SNP ID:            hCV1806144
SNP Position Genomic:     64191
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41578):
TTGGTTGCTTTTAGGGAACTGGATGTGTGTATGGGGGAGAGGTATAAAGAGGGCTCAGCCGTGTCATAGCCACTGCTATCCTAATTTATTGAGTCCTCAT
A
ATTGGTTATAAATTCATTTGTTTAGCCAAGTTACGAGGAAACAGAGACATGTATACTTCTCCTCAGCTCTAGCTGAAGGTAAAAGATGACTCTTTGTGTG
Celera SNP ID:            hCV11698391
SNP Position Genomic:     295250
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41579):
GAACAATAGTCAAAATGTATTATTTTGGGAAATCTTGAATCAAATTATTTACAGGTATCCTGAGAGATCTCTATTATAATAATTGTAAAAGGCAGCAATA
R
CTTTCTGAAAAATATTTATATATTGTTTCTTTTTTAAATATTGTTTAATTATACTTATTTTTTATTTATGTCTATAATGTAAGGTAAGGGTTAAAAATAC
Celera SNP ID:            hCV9908026
SNP Position Genomic:     244632
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41580):
TGAGACAAAACATTTTTGTTGTCTGGAGTTACTCAATTTGTGGGACTTTGTTATGGCAGTTCTTAGGAAACTAATATGATGGATTAAATAGTTGCCTAAA
K
TTACATAGTGAGCAAGTCATACAAGCAGAATTTGAGTCAAGCAGTCTGTCATTGGAGCCTGCACTCCACAGCCCTGCCTTATCCCTCCTCAGGGGACAGA
Celera SNP ID:            hCV1806218
SNP Position Genomic:     137139
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41581):
GATGAGGGGCAAACACAGAGGAAGAATCTGGGCCCCATGAGGTCAACAGTGAGCTGCTAAAATTAACCTGAAATTTCCCTGCTGGGAGACATTGTGTTGT
S
AAATAGTTTTATACCATCTTTTACTAGGTTTTCAATTACCAGCAGTTGGATGCACCCTGTGATCCAATGGATACAAATGAGATTTAGAAGTGCACTTTAA
Celera SNP ID:            hCV1806072
SNP Position Genomic:     12794
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;Control(G,149|C,332)   total(G,149|C,332)
SNP Type:                 INTRON


Context             (SEQ ID NO:41582):
AAATACTATATGGGATTAACAGCAGATTCACATCACAGAAGAAAAAACGGTGAATTTGAAGATGGAGCATTCGAAGCTATCCAAATTAAAACAGAAAAAT
R
TTTTTATTTGTATAAATTTTAGGATTACAAGTGCAGTTTTGCTACATGAATATGTTGTATAGCGGGGGAAGTCTGGGTTTTTAGTGTAATCATCTCCTAG
Celera SNP ID:            hCV1806145
SNP Position Genomic:     64734
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41583):
TCTTACTTTCCTATCAGGCCTGGGCATATTCCAGTCTGTCCACCATTTCTTGTGCATATCCTTACAATAAACATGAAATTTATATTTTATAATCCAAATT
S
AGGTAATGTTCCATTTGACTGTCATACAAGGTTTCCCAATCAAAAGCAGATGAGATAGTGGTTGAGGCCAAGGCATCCTGGGTATTAGTTATGTATTTAA
Celera SNP ID:            hCV9908027
SNP Position Genomic:     243800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41584):
TCTTTTCTTAGAATTCTAGATGTGACTTAGTTTCCTTCCTCTACAGTGAGGGAGGAAATAAGAGTGATTTGTGAAGATGCATATTTTTTTTCAGTAAAAC
W
GGGGAGGTTTCACTTATCTCGGGTCTCCTATTCTGGATACAACATTTCAAGAGTCTTGGATTCCTGTTTGATTATCAAGTTCACTTCCACTGACCAATAA
Celera SNP ID:            hCV1806219
SNP Position Genomic:     137786
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,10)      total(A,4|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41585):
CAGCAGTCTCAAGGAAGAGTAAAGGGGTCCATGTGAGTGGAATAAGGTGAGCAAGGGAGAGAGGAGCAGGAGATGGGGCGCAGAGATAAGCAGGTGAGGT
R
CAGGTCATGGAATGGCTGTAGGTCATTCAAAAAACTTTTTTTTTTTTATATTTCCCCAAGAAATGAAAAGATTTTCAGCAAAAGAGCACAGTGGTCTAAT
Celera SNP ID:            hCV1806073
SNP Position Genomic:     13192
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41586):
GAAGTTCTGCAGGCACAAGGAAAATCATGCCAAGTGGAAAGATGAATCTACACTAAGTCATGAAAAGAACTAGAAATGGTAATTACATGGGTAAATATAT
R
TGGTGCATTTTTCTTTTATTCACATGTCTTTTAAAGAGAAGTTTGCATCAAAAAGTGGGTAAAGGATATGAATAGACAGTTCTCAAAAAAAGATATACAA
Celera SNP ID:            hCV1806146
SNP Position Genomic:     65457
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41587):
ATGAATCTACACTAAGTCATGAAAAGAACTAGAAATGGTAATTACATGGGTAAATATATGTGGTGCATTTTTCTTTTATTCACATGTCTTTTAAAGAGAA
R
TTTGCATCAAAAAGTGGGTAAAGGATATGAATAGACAGTTCTCAAAAAAAGATATACAAACAGCTAACAAACATATGAAAAAATGCTCAAAATCACGAAT
Celera SNP ID:            hCV1806147
SNP Position Genomic:     65498
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41588):
ATCTCATTACTGCACGTTGATTTTTGCCTTCCATTAAGCTTGAAATACTAATACTCTCATTTAGTTCAAAAGGTTGAGTTTAATCAACATGTTATTAAAA
W
TTTTAAACCATTTATTATTCATTTATTTTATAATTCATTCTGTCAGCAAATACTTGTTGAGGCTTTTCTCTGTGCAAGATACTGGGGTTACAGCAAAGAA
Celera SNP ID:            hCV8714980
SNP Position Genomic:     23889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41589):
ATGAGAGAGAACGTGGACTGTGAGGAGTCAAAGATCACCCTGAGGTTTTAGGCCTGAGCCTCTAGAAAAATGAAGTTATGATTTATTTAGATGGGGAGGG
S
TGTAGGAGGAGCAGGTTTAGATGTGGGGTAAGGGAAAAACAAGAGCTTGGTTTTGACATGTGAAACTTTGGATGCCTGTTAGATCTCCAAGAGAAGACTC
Celera SNP ID:            hCV1806075
SNP Position Genomic:     13594
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,8)   total(G,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41590):
TATGAATAGACAGTTCTCAAAAAAAGATATACAAACAGCTAACAAACATATGAAAAAATGCTCAAAATCACGAATCATCAGGGAAATGCAAACTAAAACC
W
CAGTGAGATACTACCTTACTCCTATAAGAATGGCCGTAATTAGGCCAGGTGCGGTGGTTCACGTCGGTAATCTCAGCACTTTGGGAGACCGAGGTGGGCT
Celera SNP ID:            hCV1806148
SNP Position Genomic:     65624
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41591):
CAAAGATCACCCTGAGGTTTTAGGCCTGAGCCTCTAGAAAAATGAAGTTATGATTTATTTAGATGGGGAGGGGTGTAGGAGGAGCAGGTTTAGATGTGGG
K
TAAGGGAAAAACAAGAGCTTGGTTTTGACATGTGAAACTTTGGATGCCTGTTAGATCTCCAAGAGAAGACTCTGAGTAGCATTTGTAATATAGACATATC
Celera SNP ID:            hCV1806076
SNP Position Genomic:     13622
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41592):
ACATCAAAGAATTTTTTTTTTTTTGTACAGTTGGGAGACATAACAGTACACTTTATGCTGAACTGGTGGACAGGCAAGACATGATAATGCAAAGACTGGT
R
AATAAAGAAAGCATTGCCCTTGTGGAGAGGAGTGGGATAGGATCCAGTGGACAAAGGAGGGCTGGCCTGCACTAGAAGGCAGGTGATTCATCCACTCATT
Celera SNP ID:            hCV1806078
SNP Position Genomic:     14162
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41593):
TGATGATAATGCAGTCTGCTCTTGTCAGGATTGTGGTTTGGCCTGGAGAGTAATACAAAAATCTTCAAGTCCAGTGCCACTGTGGCAATGTCTCCTGTGG
Y
TGTGTTTCCCTTAAGAAGTTTAAGTCAGATTCATGTGAGTTTCTCAAGTCATTGTATCTTGTGTGCTAGCATAGAGCTTTCAGAACTCATCAGCCCTTCT
Celera SNP ID:            hCV1806079
SNP Position Genomic:     14869
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41594):
GTTTATTATCTAACTGTAGATTGGCTTTCTTGATGTTTTTTCATAATAGATAGAATTTTCTTTGTTTTTATATTTTAGTTGCCTAAATTCATCTCATTAC
Y
GCACGTTGATTTTTGCCTTCCATTAAGCTTGAAATACTAATACTCTCATTTAGTTCAAAAGGTTGAGTTTAATCAACATGTTATTAAAAATTTTAAACCA
Celera SNP ID:            hCV8714985
SNP Position Genomic:     23799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41595):
ACTTTGGTGTGCCTTTTACTATTTGAAAACCTGGAAGGTGCCTTTGAGTGAAAATATCATTCAAGTAGGTTTTGAGTGAAATTGAGATTTTTTTTAAACT
Y
CAAACTTGACTGTAAGTGATTGTAACAATTAGTGCCACACATATATGGAGAGTTCAGTAGGTGCTGTTTATTATCTAACTGTAGATTGGCTTTCTTGATG
Celera SNP ID:            hCV8714986
SNP Position Genomic:     23633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41596):
GAACGGTTAAGTCTCCATGCCACTTGTGTGCCTAGTTACGTGTGTGCCTAGTTACATCCTCCTGCTTATTAACAGCTAAATACCACTTTAAGAATTAAAA
R
TCTATTCATTGGCATAAGAATAATATTTATGTGATAAGTTTCTTTTCCCCTAAAGTCAATGAAAATGACTCCTAGATTTTTTTCCTAAAATTTCCTTCTA
Celera SNP ID:            hCV8714987
SNP Position Genomic:     23169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41597):
ATACATCATAAGTTCTCAATGAAAGTGAATGGACTGGATTTTTTTTATTAGTTGTTGCTTACCAATCTTAAAGAACTTAGGTAAGCCATTATAAAGAATT
Y
CTTAGAATAACAAACACAATAAAAATAAAAATATAGAAGATAAACCATCCAGTTAATATCTTCTTGTTCCATAGTATAGGTTTCTCATTAACAGAAAGAA
Celera SNP ID:            hCV29442030
SNP Position Genomic:     18823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41598):
CACAATAAAAATAAAAATATAGAAGATAAACCATCCAGTTAATATCTTCTTGTTCCATAGTATAGGTTTCTCATTAACAGAAAGAAGTATATGCTGTTTT
Y
TTCTGCTTTTATATCCAATCAATTATAAATAGACGTAGGAAGACAGTTAATTTAAAACATGACAATTAAAAAACAATGAACTGCATTTTCTTTCCATTGT
Celera SNP ID:            hCV29442031
SNP Position Genomic:     18938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41599):
CAGTTAATATCTTCTTGTTCCATAGTATAGGTTTCTCATTAACAGAAAGAAGTATATGCTGTTTTCTTCTGCTTTTATATCCAATCAATTATAAATAGAC
S
TAGGAAGACAGTTAATTTAAAACATGACAATTAAAAAACAATGAACTGCATTTTCTTTCCATTGTATTAAATAGTCTTTCAGTACACCAGGACACTTCTA
Celera SNP ID:            hCV29442032
SNP Position Genomic:     18973
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41600):
GATAGAAGAAGAGAAGATGTCAGAACTTTCTGGGTTCTTACAGGGTTGGAAGAAAATATAGAAGGTTGAGACTTTTAAAGCCACCAGCCCTTTTGGGTCA
Y
GACCTTGGAGACAAAGGAGGTGCGAAAAAGGGAGCCAGCTATTCCACCCTGGTTTTTTTCTCCAAAGCATTTGCCAATTCAAGAACAGTGAAAGATTAGA
Celera SNP ID:            hCV15936678
SNP Position Genomic:     227950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41601):
ACAATAAGGCAGTGTTTATGGCAATTTGGTCAAAGAAATTACATCAAAATCCATATAATGTCAGTTTTATAAATTGAATATTATTATGGGAAAATGCTTG
R
GCTCTCATATGGGCTTTTATACTGTGATTATTATTCCCATAACACGTTTTAGTGTCTTACACAACTCAGGACAGAGTCTCTTGACCCTGGCGCTAGCACA
Celera SNP ID:            hCV29442038
SNP Position Genomic:     19620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41602):
GTGTTTATGGCAATTTGGTCAAAGAAATTACATCAAAATCCATATAATGTCAGTTTTATAAATTGAATATTATTATGGGAAAATGCTTGAGCTCTCATAT
K
GGCTTTTATACTGTGATTATTATTCCCATAACACGTTTTAGTGTCTTACACAACTCAGGACAGAGTCTCTTGACCCTGGCGCTAGCACACAACCTCATGA
Celera SNP ID:            hCV29442039
SNP Position Genomic:     19631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41603):
CGAGGTGGGCGGATCATGAGGTCAGGAGATTGAGACCATCCTGGCTAAAATGGTGAAACGATGTTTCTACTAAAAATACAAAAATTAGCCAGGCATGGTG
R
TGCACTCCTGTAATCCCAGCTACTTGTGAGACTAAGGCAGGAGAATTGCTTGAATTCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTCCAGC
Celera SNP ID:            hCV1806220
SNP Position Genomic:     138129
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41604):
ATGTGCATATCTTAACTGTAGCAGCTATGCTGGGAACATGTTAAATTGTATATTATATAGTCAAAAGAAAATGAGAATGTACAATTATCTGGGAAGGTTT
Y
GTATCATTCATACAGACTTTTAGAAAAAAAAATTGGTTCCCTAAATTATCTGTGTTGCCTCAGCAAATAAGAGTCTCTCAAGCTTTTGTGGCACAAAATA
Celera SNP ID:            hCV9908102
SNP Position Genomic:     215322
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41605):
TGGGAGACAGAGCAAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGCCTAACGAGAAGGTAAAAGAGCAAGGAGGAAACTAAAGCAAGGATT
R
CTTTTATTGCAAAAGAGGTGGAGGAATCTTTAAAGATTTCTGATACAGCAGAAAATCAGATATTGCATGTTCTCACTTACAAGAGAATGAGCTAAACAAT
Celera SNP ID:            hCV1806221
SNP Position Genomic:     138331
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41606):
CCTGAAATTAATTGATCCTGGAACTTTTCTCCCCATGAAACACCTTACAGAGCTACTGTTTCATGAAATCATATTTGATCGCAAATGGTTAAAAATATGT
Y
GTCTTATAGTTAGTAAATATCTTGGGGAATTCTTTCACTGCTATGATTATACACTAATATTCATCTTCACCTTAAGGATAATTTATTTGATTTTCTATTT
Celera SNP ID:            hCV9908103
SNP Position Genomic:     211415
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41607):
TTCTGATACAGCAGAAAATCAGATATTGCATGTTCTCACTTACAAGAGAATGAGCTAAACAATGAGTACACAGGGACATAAAGATAGACATAAGATACTG
R
GGACTCCAGAAACGGGGAGGGAGGGAGAAGGTGGAGGTTGGAAGGTTACCTTTTGGATATAATGTTCATTATTTGGATGATGGGTACACTAGAAGCTCAG
Celera SNP ID:            hCV1806222
SNP Position Genomic:     138469
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41608):
TTGGCCCATACCAACCATTGATTCTTACTTTCCTATCAGGCCTGGGCATATTCCAGTCTGTCCACCATTTCTTGTGCATATCCTTACAATAAACATGAAA
Y
TTATATTTTATAATCCAAATTGAGGTAATGTTCCATTTGACTGTCATACAAGGTTTCCCAATCAAAAGCAGATGAGATAGTGGTTGAGGCCAAGGCATCC
Celera SNP ID:            hCV9908031
SNP Position Genomic:     243778
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41609):
TAGATTGTGTGTCTATAGGAAATGTGTGTGTGTTTATGCAAAAATAAAATGGCACAAAGAATGGGAGGAAAGAGCTGGGAATTTAATGTTTTAACTCTTA
S
AGTTTTAACTCTTTCCTAGAATTACATATAAAGTGGTACAATATTATTTGAATGTAAACTCTGGTTGGTTAAAGATATATAATGTATACACTAGGACAAC
Celera SNP ID:            hCV1806223
SNP Position Genomic:     142258
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41610):
GGAAGCATATTTCCATCTCTTCCTCTGTCTCCATCCCTCCCACTTTGATATTCTTATTAAAGTGGAATATTTCCTCTTATCTGGTAGAATGTGAGGAAAA
Y
AGGGCACCCTAATTTATTTGATCACCGTTCAGTTTTTCTCGGTAACTAAGTTTGTCCCTGAAAGTTTCTGGTCTCACTTATGGTTACATTGTTAATTATC
Celera SNP ID:            hCV9908032
SNP Position Genomic:     242889
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41611):
TGCTCAATAAACAAAACAGAAAGCAGAAAAAAGAGGCAAAAACAAGAACTGATAAAGCTAATAAAAATTGCTTAGAAAGTTGGTAGATTTATATCCAGCA
R
TGTAAAAAATCATGTTAAATGTGATCTCTTTAAACTCACCAGTTAAAAGATAGAGATTGTCAGATTGTATAAAAACTGAGACACGACTAATCTATAAGAA
Celera SNP ID:            hCV1806224
SNP Position Genomic:     142509
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41612):
CTAAGCTATGAGAATGCAAAGGCATAAGAATGATATAATGGACTTTGGGGACTTGGGAGAGGGAAGGGTGTGAGATGGGTGAGGGATAAAAGACTACCCA
Y
TGGGTACAGTGTACACTGCTCAGGTGATGAGTGCACCAAAATCTCAGAAATCACCACTAAAGAACTTCACCTGTTTCCCAAAACTATTGAAATAAAAATA
Celera SNP ID:            hCV1806151
SNP Position Genomic:     66524
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41613):
ACGAGAAACTTAGAAAAGACTAGGTTTAGAAAGTTTATTAATTATACTTCTGAAAAAGCAATTGTCATTTTCTAAACGGATAAAAATGAACTGCAAATTA
R
AATTCCCAGTGGAATTAATGCAGTGACTCATTACATAATACATCATGGGCAAGTAATCCATCCTTTGTACTCTCAGGCAATCGGATGTATTTAAGCCAAA
Celera SNP ID:            hCV9908033
SNP Position Genomic:     242064
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41614):
TCACTAGGGCAAAATTTTCCTTATCCTAAAAGTAGACAAAGACCTTACAACAAACAAAACTGCATGCCAGTATGATTTATAAACATAGAACACCAAATCT
K
TAATAGAATATTAGCAAATGGAATCCAATATATAAAGAAATATATAAAAATATAATACTTATTACCAACCAAATGAGGTATATCTCAAGATGCAAGGCTG
Celera SNP ID:            hCV1806225
SNP Position Genomic:     144062
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,8)   total(G,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41615):
GAGGGATAAAAGACTACCCATTGGGTACAGTGTACACTGCTCAGGTGATGAGTGCACCAAAATCTCAGAAATCACCACTAAAGAACTTCACCTGTTTCCC
R
AAACTATTGAAATAAAAATAAAAATTAGAAAAGATCAGAGGGAAAGAATATGGGGGAAATAAGACCCCCATCAAAAAATAAGTGATGAAAGATACTGGGG
Celera SNP ID:            hCV1806152
SNP Position Genomic:     66604
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41616):
TTACCTTGCCACAATAATATAGCAACCTAATCCCCCGAGGTCTGCTAAAGCTCTTACTAACCTTAGAAAAAATTGTAAACAATAGTCTGAATACTATTTT
K
TAAATATATATTTATCTTTAAACAAGGTTACACAGGCTATTTGATAATTCTTGACAGTCAGAAATCAATTCCTATTCAATGAGTTTTCCTAAATGGAAGA
Celera SNP ID:            hCV1806226
SNP Position Genomic:     145499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,11)      total(G,3|T,11) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41617):
TTTCACCCAACAGTCATTAGTTAATAGCTTTAGGAGGGTAAATAAGGAGGGGGGAATAAAAATAAACATTTAGGCACTTCTGACTCTGCATTTGTTGACA
R
AGTGGCTCGATAGTCTGAGGGCAGTGACCTGAAGTTCTACAGGAGCTGGCGCATCCCACCTATACCAACAGAAGTTGCGAATCTCGGGGAACCTGGACAA
Celera SNP ID:            hCV1806080
SNP Position Genomic:     16361
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41618):
TTCCCAAAACTATTGAAATAAAAATAAAAATTAGAAAAGATCAGAGGGAAAGAATATGGGGGAAATAAGACCCCCATCAAAAAATAAGTGATGAAAGATA
Y
TGGGGAAAAACACAGGAGAGCAGGTTACTGGGGAAATAAAGACTATTTGAGAAATGGGCAAAAATGATAAATAATGCAAATCCACAATGTAAGTTTCATA
Celera SNP ID:            hCV1806153
SNP Position Genomic:     66699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41619):
TGGCTCGATAGTCTGAGGGCAGTGACCTGAAGTTCTACAGGAGCTGGCGCATCCCACCTATACCAACAGAAGTTGCGAATCTCGGGGAACCTGGACAAGG
Y
AGCAGCCATGTCTGCTACCCATGGCAGGTGCCTTCAAGATGCTGAGAAAATACAGCCAACACATATAAAGCAGTTACAGTGCAGTGCAAAAATTAATTAA
Celera SNP ID:            hCV1806081
SNP Position Genomic:     16464
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41620):
CTTTTCCATGTTTATTTTACCCTAGAATCTTCTGTGAAGAGAGTTTCATGAAACTGAGCCTCCATGAACTCACTTCAGGGGATAAGCAACTTAGAATATT
K
CTTCTATTGATGCGTCATTGGGTCAATTTGGAAGGGATGGATCTCTCCCTATCCTGTATACATTTTGTTTATTTTCCCCCTTTCTTTCTATTTTTAACCA
Celera SNP ID:            hCV1806228
SNP Position Genomic:     146020
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41621):
CTTGTATTTCTCATCGTCTTGCAAACCTGGTGTCAGTCTTGATAGTACTTAATAGATGTACACTGAATTTTTTTTTTGAATAACTGAATGAGTCTAGGCA
M
GTACTTGTTGCTATGGGAAGGGTATGGGGATGATCCAGTGTTCCAGCTGAATCAAAGAAAACCGAGTTACCTGAGAACATGTGGCAGGGAAGGAGAAAGA
Celera SNP ID:            hCV1806082
SNP Position Genomic:     17342
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41622):
GCCTATCTTATCATTTGTTACTATATCTTTGTTAGGTATAAATGTTCAGGCTTCACCTATTACCAGGCATATTAAATTTCACAAGAGAAATGTGTAGTTA
Y
AGCTCCAAGGCAGGTGTTATGATCCTGTCAAATTGCTCAGGCTAATTTTAAATCATATCAGGTCTGTTGCTGGGAGATGTTTGAGGAACACAGGAAATTA
Celera SNP ID:            hCV1806155
SNP Position Genomic:     67328
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41623):
TGTAATATATCTTTCATCATGCTATTTCAGAATGTGACAATTACTAAAAGCTGACATTTGAGATCATATCACCACCTAATATTTTTTTTCAAAAGTAAAA
R
TAAAGTGGAAGATAAACGAGAAACTTAGAAAAGACTAGGTTTAGAAAGTTTATTAATTATACTTCTGAAAAAGCAATTGTCATTTTCTAAACGGATAAAA
Celera SNP ID:            hCV9908037
SNP Position Genomic:     241948
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41624):
CCATCTCACCTTTAAAAAGATGTTCCTTTGACCCACAAATTATTTCCCATCTCTACTGTGTATACTTTAGGATCTAAGATGTCCTATTTAATATAAAATT
W
AAAAAATCACATTGAGTAGTCTTTTATTCCTGATTCACCAAATTACTGCTACCATAATGCTTTATCTTCTAAATCATTTCTATTTTCTTTACTGTTTATT
Celera SNP ID:            hCV1806229
SNP Position Genomic:     146218
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41625):
TTGCTATGGGAAGGGTATGGGGATGATCCAGTGTTCCAGCTGAATCAAAGAAAACCGAGTTACCTGAGAACATGTGGCAGGGAAGGAGAAAGAAGTAACT
R
AAGTGGAAAACAGATGGGTGCAGAATAAATTTTACCATCTTTATTCTTTGAACTAAGGCTAATTCTGTTCCAAAAGAAGCAATTGACTGTAAGCACAATG
Celera SNP ID:            hCV1806083
SNP Position Genomic:     17450
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41626):
CTTGAAGGCTCAGAGGTTAGGGGTTTTTTCAAAGATAGTTTGGTGGATAGGGGCCCAGGGAGTGGGGAGTGCTGATTGGTTGGGTCAGAGATGAAATCAT
R
GGGAGTTGAAGCTGTTCTCTTGCTCTAAGCCAGTTCCTGGGTGGGAGCCACAGGACTCAGGACTGGTTGGCAAATGCTGGTGGGGCCATCCAGTTTTCAG
Celera SNP ID:            hCV9908038
SNP Position Genomic:     240503
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41627):
ATTCTGAGATAGTAGCAGAGCAAGTGAGTTGTGTTGAGCACGAGTGGGCCATGGTGACTCAACTGAGTTCAGAAAACTTCTAGAAGTTGGAATAAAAAAT
Y
GGGCAGCTATAGAAATATACAAAGAGCTCAGCACCAAAGGGATTTGGCTTCTTTCATAGGTTGTATTAAGTAAAACTGCATCACCTGCACTTAAGGACAA
Celera SNP ID:            hCV1806084
SNP Position Genomic:     17938
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41628):
GTTTACTTCATATAGCCCTGGCATTCCAGTCTCTTCTAAGAATGTGAAATAAAGGATTGATAGATGGATAAACACATGGTAGATGGAGGTCTGATTCAGG
Y
GGTGTTAAAAATCAAACAAAAATCTTTCCAAAGTAGGGATCAAATTCTACTTCTTTTGAGATATAAACTGTTTATAGCTTTGAAATGACAGTTTTCACCT
Celera SNP ID:            hCV1806157
SNP Position Genomic:     69470
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41629):
TTGATCTCCTGACCTCGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACAGGTCCTGGTGAGGTAATTTTTAAGT
R
ACTATGTATCTGTTCATATGTAAGTATATGTGTGTAGGAGTGCAGATGCCAGTGTGTTTGGACCTCTGGGGAAGGAGAGGGTAAGCAAGAGATATGATGC
Celera SNP ID:            hCV9908039
SNP Position Genomic:     239968
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41630):
ATATATTGTATGAAAAACACAGTCATACGATTCCAAGTTGAAAAGTGAATAGTTGGACTCTCCAAAGGAGTTTTAGGAATATCTCAATTTGTTTCACCTG
Y
GTTTTCTTTTTATTTCTATATAATAATATGCCAATATAATGATGTTTTGGTAAACAAGGAACCACATATATGATAGGGATCCCATTAAGGTTATAAAGCC
Celera SNP ID:            hCV1806085
SNP Position Genomic:     18156
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41631):
CACGTGACTGAGCCGGGCATGTTCTTCGGGCCCCTGTGTGAGTGCCATGAGTGGGTGTGCGAGACCTACGACGGGAGCACCTGTGCAGGTAAGAGGGCGG
Y
GCTGTCTCCTCCCTCGGGAGGTCGAAACTCCTCTTCTGGGATTTCTGCCACTCCCTAGAAGAGTGAAGGGTGGGGACACGCCTCCCTTCACATAAGCACC
Celera SNP ID:            hCV27348802
SNP Position Genomic:     34239
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   JBIC-allele(T,675|C,798)   total(C,798|T,675) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41632):
AAGATTATGAATAAAATGCATCGGTCTTTTTTGTCCTACATTCTCCTCTGCAAGGTCAGGAGATAGGGTTTGTCAGGGCCCAGTTCTAGCACTGTCTTAA
R
ACTCCATCCTCAGACCCTCCTTCTCCCCGTTACCATCACTGCAAAACTTACCCTATAAAGCAGATAGCTTCCAAATTAACCTACTTTGAACATTTTTTAT
Celera SNP ID:            hCV1806158
SNP Position Genomic:     71424
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41633):
CAGCCACTTATTTTACCCTCAATGTAGCTAAGAATAATAAGACAGCCAACACTAACATAGAAAGATCAAGAATGAGTTTATAGCAAAATATTTTTTTCTC
R
GAACCTGGGCCCAGTAGTGTATAAGTTACTTAATATGCAGGCTGCTTGGCAATGCAAAAAATAGTCATAGAAGAAATTTGGAGGGGCGCAGGTGCATCTA
Celera SNP ID:            hCV27348803
SNP Position Genomic:     35357
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41634):
AATTCCTTTACACAGAACTTTTCTGGGAGTAAATCTCTGTTAAGCATGTAGTAGATGTTGTACAAAGTTTATTGTGTAGATAAATCCATGGGTTAATGGG
W
GGAAGGGGAGGTAGAAATTACAGACTTTGTGGAATGAGTAGATTTCAAATCATCCTTGGAATTTTCAAGATTTTACTCAAGGAGCTGATATTTAGAGCTT
Celera SNP ID:            hCV1806159
SNP Position Genomic:     73209
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41635):
AATAACAAACACAATAAAAATAAAAATATAGAAGATAAACCATCCAGTTAATATCTTCTTGTTCCATAGTATAGGTTTCTCATTAACAGAAAGAAGTATA
Y
GCTGTTTTCTTCTGCTTTTATATCCAATCAATTATAAATAGACGTAGGAAGACAGTTAATTTAAAACATGACAATTAAAAAACAATGAACTGCATTTTCT
Celera SNP ID:            hCV1806087
SNP Position Genomic:     18929
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41636):
CCACTTATTTTACCCTCAATGTAGCTAAGAATAATAAGACAGCCAACACTAACATAGAAAGATCAAGAATGAGTTTATAGCAAAATATTTTTTTCTCAGA
R
CCTGGGCCCAGTAGTGTATAAGTTACTTAATATGCAGGCTGCTTGGCAATGCAAAAAATAGTCATAGAAGAAATTTGGAGGGGCGCAGGTGCATCTACTT
Celera SNP ID:            hCV27348804
SNP Position Genomic:     35360
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41637):
TGATGGTGAGCATTTTTTCATGTGCTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGCTCATGTCCTTCGCCCACTTGTTGATGGGGTTGTTT
K
TTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGGTGAGTAGGTTGCAAAAATTTTCTCCCATTTTGTAGGTTG
Celera SNP ID:            hCV16215240
SNP Position Genomic:     222601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41638):
TGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCGCCATTGCACTCCAGCCTG
R
GTGACAGAACGACACTCCATCACAAAAAAGGAAAGAAAAAAAGAAAGAATGGCAAAATGTTTGATTGCATGGAAAGAAACTTTCAGTTGATATTTCTAAA
Celera SNP ID:            hCV27348806
SNP Position Genomic:     37918
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41639):
ATAATATACGTGTGTGTCTGTATACACACGTGTACATATGTGTGTGTATGTGTATCTGTTCTTCATCTATTACTAGAAGACACTGTGGACAAATACATAA
Y
ATAATCATAGAAGTTCAGCATTAGAGAAAACTGATATTCCCTTCAAGCATGCCCTTGTGGAAACAGAATTTAGGAGGTTAAGAAACCTGGCCAAGGTCTT
Celera SNP ID:            hCV8714995
SNP Position Genomic:     22928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41640):
TCAGAGGGTGATATATTGTATGAAAAACACAGTCATACGATTCCAAGTTGAAAAGTGAATAGTTGGACTCTCCAAAGGAGTTTTAGGAATATCTCAATTT
R
TTTCACCTGTGTTTTCTTTTTATTTCTATATAATAATATGCCAATATAATGATGTTTTGGTAAACAAGGAACCACATATATGATAGGGATCCCATTAAGG
Celera SNP ID:            hCV8714996
SNP Position Genomic:     18146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41641):
TGGCTTCTTTCATAGGTTGTATTAAGTAAAACTGCATCACCTGCACTTAAGGACAATATATAATCAGAGGGTGATATATTGTATGAAAAACACAGTCATA
Y
GATTCCAAGTTGAAAAGTGAATAGTTGGACTCTCCAAAGGAGTTTTAGGAATATCTCAATTTGTTTCACCTGTGTTTTCTTTTTATTTCTATATAATAAT
Celera SNP ID:            hCV8714997
SNP Position Genomic:     18083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41642):
CAAAAACAAAGATAAATAGGTGGGACTTAATTAAACTAAAGAGCTTTTGCATGGTAAAAGAAACAGCAGAGTAAACAGACAACCCACAGAGTGGGAGAAA
M
ATCTTCACAATCTATACATCTGACAAAGGACACATATTCAGAATCTACAAGGCTCTCAAACAAATCAGCAAGAAAAAAACAATCCCATCAAAACTGGGTT
Celera SNP ID:            hCV29442042
SNP Position Genomic:     21665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41643):
CATACAAAAATCAAATCAAAATGTATTAAAGACTTAAATCTAAGACCTCAAACTAGGAAACTACTAAAAGAAACAGTTGAGGAAACTCTCTAGGACATCG
S
TCTGGGCAAAGATTTCTTGAGTAATACCCCACAAGCACAGGCAACCAAAGCAAAAATGGACAAATGGGATCACATCAAGTGAAAAAGCTTCTGCACAGCA
Celera SNP ID:            hCV12125987
SNP Position Genomic:     59531
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41644):
AGTACAAAGTGCTTTATATGTGAGGAGTTGGGGTTGTTTTGAAAATGAGCATGATGTTGACTGGTGGGTATGAAAAGAATTGCATTGTAGTCAAACAAGC
R
AAATTTTAAGGTAGGATATCATGGACATTTTGCTTGCCTAGGCCAGCAGGTTCTTTTAAAGAAGCTGTTGGAGAGAAACCTTCAGAGATCAATAGGAGCA
Celera SNP ID:            hCV12125988
SNP Position Genomic:     61009
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41645):
ATCAAAACTGGGTTAAGGATGTAAACAGACAATTCTCAAAAGAAGATATGCAAATGGCCAACCAATATATGAAAAAATGCTCAACATCACTAATGATCAC
R
AAAATGCAAATCAAAACCACAATGCAATACCACCTTACTTTCACAAGAATGACCACAATCAAAAAATCATAGATGTTGGCATGGATGCAGTGAACAAGGA
Celera SNP ID:            hCV29442045
SNP Position Genomic:     21852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41646):
AAAAGTTTTAAATATTTGGGTAACCATTGGCTCTGTGATTTTCCCTATTTATATCCAAATTTGTTATTGCTTTACGTAGATAAAATATCTAGTTTTGTAC
R
TTTATCTTGTATTTGGCTACATTTCTGAACTCTTAAGAATTCTAAAAGTATTTAGTTCCTTCTGGATTCATGTATGTTGCTATTACTTTGCCAAGCTTCA
Celera SNP ID:            hCV15934073
SNP Position Genomic:     11465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41647):
TATTCAAGTGCTGACTAATTTATAAACCCAGAGCAGAGGTTTTACTTCCAGAATTATTTTTACATATAATATATTCAATCTAATAGCATTAAAATGCTAT
Y
CAAGAATACACATAGCATTCTAAAATTTTAAGCTTCCGTTTTAATGAATACTTTAAAGATTTTGAGCTAGTCATATAGAAGATTGGGTTTAAGGTTAGAA
Celera SNP ID:            hCV15936688
SNP Position Genomic:     266748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41648):
AAATACCACTTTAAGAATTAAAAGTCTATTCATTGGCATAAGAATAATATTTATGTGATAAGTTTCTTTTCCCCTAAAGTCAATGAAAATGACTCCTAGA
W
TTTTTTCCTAAAATTTCCTTCTAGCATCAACTAGAACTGCCGAAATATTCAGAAGAGTGAAAGAATATTTCTCATCCCAGAGACTCCTAATATTTCCAGG
Celera SNP ID:            hCV15934074
SNP Position Genomic:     23246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41649):
TAAGAATAATATTTATGTGATAAGTTTCTTTTCCCCTAAAGTCAATGAAAATGACTCCTAGATTTTTTTCCTAAAATTTCCTTCTAGCATCAACTAGAAC
K
GCCGAAATATTCAGAAGAGTGAAAGAATATTTCTCATCCCAGAGACTCCTAATATTTCCAGGTGTTTTTGCTATGTGGGAGGGAAAAAAAGCCCTCTGGT
Celera SNP ID:            hCV15934075
SNP Position Genomic:     23284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41650):
CATGATTTTTCCAAATTACCTCCTATAGGAAGCCTCTCTGAAATGATGTCCTACTTCCTCTATACCGCACCACCTGCATCGTAGTGTGATGAAGTTGTAT
Y
GAGAGTGTCCCTGTGTCCCTTTTCTTTAAGTCTACAATTCTCATGGATATAATCAATCTCTCTCTCTCATTATCATATGCTCAAAGCTAGGATAAAGGTT
Celera SNP ID:            hCV2315905
SNP Position Genomic:     276896
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(T,-|C,-)   (C,-|T,-)   Caucasian(C,15|T,63)   African-American(C,11|T,65)   Asians(C,10|T,72)   total(C,36|T,200) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41651):
AAACATTTGCCATGGAAACATATTAAAGGAAAAAGCAAGCCTTCTCCATCTCCCATCCTACACACATGCAAACACACACACACACACACACACACACACA
Y
ACACACATACACACAAATTGGAAGAGGATTCCCCTGAGTAAAGAATGCTAATAGATTAAATTTTGAACACCTTGATTTTGATGTTTCTGTATACTATTCT
Celera SNP ID:            hCV2315906
SNP Position Genomic:     288273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41652):
TTTATAAAATACACTGCATACAGTTTAATGCCCAATCCTTTGAAAATAAATATATATTTTTATTTATCCTAATGGTTACCTTATATTATTTTAAAAACAT
Y
GTCAGTATTCATTTTATATCAAGGTCTCAAATTTAATGGTGTCATTTGTTCTTCATCTATTTAAAATGAAAGATATAGCATTTTTTCAATTTTCCTCCCA
Celera SNP ID:            hCV9908110
SNP Position Genomic:     209682
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41653):
AAAGAAAATCATATGACCTTTTTGTTTTGTTTAGTTGTTTTGTGTTAAATTCTGCTGAGTCTGAAATTTAGGCTACCATGCCGTTTTTCTATATGCTTGA
K
AAATCTTTGACAACCCTTTACATTTTATTCTTCTTCATTCCTTTGAGTCAGATTTGTCACTTTGGGGCAGCATACACTTTGATTTATGATTTTGTTAATT
Celera SNP ID:            hCV9908111
SNP Position Genomic:     209331
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41654):
CAAAGGATTAATTTGGCCTCATCTTGGTTCAATACTGTCTTTTATGGTAATATATCTTCTTATTTAGATTTTGAGGCTCTGAAAAAGAGGGCCTTATAAG
K
CTTCACATAGTCTTTTTTTCTGTGTCTTGTACTTTTGTTTTTTTTAACCCAGTTAGGAGCTAAATCAGTATTTGCTTAATGAATTAACTACCAATTAATT
Celera SNP ID:            hCV8715000
SNP Position Genomic:     15362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41655):
ATGGTATGGGGATGCTTGCCAGTACCCAACTAACTGTGACTTGACAAAGAAGAAAAGTAACCAAATGTGCAAGAATTCACAAGACATCATCTGCTCTAAT
K
CAGGTAAGAAGTATACCCTGTGAAAATTGTTAAGTGGAATAATCAAATTTTGTTTTTAATGGAAATATGTGGGCGTGGAGAAATGTTGAATCTCAGAGTG
Celera SNP ID:            hCV1806230
SNP Position Genomic:     148013
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,3)   caucasian(G,32)   total(G,61|T,3)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,32|T,4)   caucasian(G,37|T,3)   total(G,69|T,7)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|G,6)      total(G,6|T,2) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41656):
ATGTGACAATTGAAGAAGGAAGTACATCAAAGAATTTTTTTTTTTTTGTACAGTTGGGAGACATAACAGTACACTTTATGCTGAACTGGTGGACAGGCAA
R
ACATGATAATGCAAAGACTGGTAAATAAAGAAAGCATTGCCCTTGTGGAGAGGAGTGGGATAGGATCCAGTGGACAAAGGAGGGCTGGCCTGCACTAGAA
Celera SNP ID:            hCV8715001
SNP Position Genomic:     14139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41657):
TCTATTTCTTTATTGCTGTTGAATATAAATTTGGAGAAGTCAAATTGCCTATAGGAGAAAAATAACCTGATACTGACAAATCTATAGGCTTTGGAGTGTC
K
GCAGCGTCTACTAGTGTGTATTTAGAGGGAATTTTTGATAAGACTCAAGATTTTGAGTGGCATTTTATTAAGCATTTGAATTACTTTGTAACTGACATCT
Celera SNP ID:            hCV8715002
SNP Position Genomic:     12066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41658):
AGGAATCTAAACATGTAATTCACCACATTAACATATCTTAAAGGAGAAAACATACAGAAGTGTTTCAGTAGATGATAAAACATATTTGATACAATGTAAA
Y
GCATTTCTAGGACATCTGTACTCTCTCATTTTTTAAGCATGGATGCAATACCTTTGTTCATAACCTGCTTTAGTCAAGGGACCCAGTAATGTCCTGTATA
Celera SNP ID:            hCV1806233
SNP Position Genomic:     149596
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41659):
TTTAAGAGATTTGCCAGGTTAGATTTATATAGACATTTTAACTAATTCTATTTCTTTGTACTTAACCCAAGATCACATACTTAGGTTTGTCCTTTCAATA
W
CATTTATCAGAATACTCCACTATTCAGCCACTTTGAGGAGACACATTGTTTACCTGCCACTTGCTGTGATAAGACATTACATGCAGCATGTGTTTATTTG
Celera SNP ID:            hCV1806160
SNP Position Genomic:     74148
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41660):
GTGCTTCATTGAGGGAATGCAAGTGGGAGGCTTTTATAGGGTGAACAGAAAAAGAAAGCAAAGAAAAATAGTTGGTTGGCTAATGTTATATGGTTGCCTT
R
TTTAGTCTATCCTGTTGGAAAGTCCCTAGTTATATAATTATAAGTTTGTTGGTTGCTTCTGATTGGTTAAACTTAAGTTCTGTTCTTCTTTAATGTAGAC
Celera SNP ID:            hCV1806234
SNP Position Genomic:     150887
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41661):
CAGACAGCCAAAAAGCAAACAGGGGATTTAGAGGTTCCTGTTTATTTTTGTTTGTTTGTTTTGTTTTAAATAAGTAAATTGAAACTCAGAGCAATTATGC
R
GCTTACTTAAAGTCTCAAAATTAGCTCATATTTCAGATGAAATTTGCCTTCAAGTTCTAGATCACCTGCAGCACTGAAGTTTTGGTGACCATTTATTCTT
Celera SNP ID:            hCV1806161
SNP Position Genomic:     74377
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41662):
AAGTTCATTCTCTTTCTAATAGATCACATATAGATTTGCTAATATCTAGTAATTCAAACCAAATTAGCAACAGCTTCCTTGGTTCCTTCCCATCCTTCAC
Y
CTTTACACTCAGTCACCAAATGCCCTCTACTCTTTCTCCTAAAAATATCCCCAGATGTATTTGTTCCATTCTAAACTCATCGCATCATGTGTCTAGCCAC
Celera SNP ID:            hCV1806235
SNP Position Genomic:     154029
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41663):
GTGGGATCTGAGCTGGCCGTTGTCGTAGCTGTGAACGAATTCACATTTGTTTCCCAGGCCCCACACAGGTAATGCTCTGTCTGTATTCCACAGACAGACA
S
ACGGTCAACCCCACAAGGGTGCTTTTCTGTTCCCTTCCTAGAGTCCTCTCATGAAAATGTGCTTGTTCTCATCTCATCCCCTCAAGGTTTGGCTTTCTAC
Celera SNP ID:            hCV1806162
SNP Position Genomic:     75534
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41664):
AAGTTCATAAATAAGATATATAGATGATATATTCTGTACTGATTAAATCACTTGACAGCCTTTGCATTTGCTTAAGTAAACAAATTTAAAATTCAAATTC
R
TTGTGGAAATGGTCATTGATTTTTAGGTTAACAAGTGATTTTCTTTGAATATCCCAATTATAACTTATTTAGACAGAGAACATGGCATTGGGTCCCTGTC
Celera SNP ID:            hCV1806236
SNP Position Genomic:     158102
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41665):
CTCTCACAGAACTTGCATTGAAATGGGGGAGTAGTAGATTATTCACAAGTAGATAAAGATATGGAAACAATAATATTAGATACTCGTAAGTACTATCAAT
M
AAATGGGATAAAGCGTGCTTGGACAGGGGAGTGGCTTTAGACAGCACAATCAGGGATCAGCCTCCTCTTTCAGAAGGTGGCATTCAAAGAGAAGCCACTC
Celera SNP ID:            hCV1806090
SNP Position Genomic:     24110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41666):
TGTTTCCCAGGCCCCACACAGGTAATGCTCTGTCTGTATTCCACAGACAGACACACGGTCAACCCCACAAGGGTGCTTTTCTGTTCCCTTCCTAGAGTCC
W
CTCATGAAAATGTGCTTGTTCTCATCTCATCCCCTCAAGGTTTGGCTTTCTACTTCACTGACTCCCCGGATTTAATCCATGTATGGGTGCAGCTCCTCAA
Celera SNP ID:            hCV1806163
SNP Position Genomic:     75581
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41667):
AGGTAATGCTCTGTCTGTATTCCACAGACAGACACACGGTCAACCCCACAAGGGTGCTTTTCTGTTCCCTTCCTAGAGTCCTCTCATGAAAATGTGCTTG
K
TCTCATCTCATCCCCTCAAGGTTTGGCTTTCTACTTCACTGACTCCCCGGATTTAATCCATGTATGGGTGCAGCTCCTCAACAGTGGGATTGCTATTTGT
Celera SNP ID:            hCV1806164
SNP Position Genomic:     75600
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41668):
ATATCCATTATAATTTCAACCAATGAGTACCACAGAGTGAGTTATGGTGAATCATTTCCACAGAAGAAATTTCCTGAGAGATTTCAATCCTGTTATATAT
R
AAAATTGTCAGAAGTAAACAGCACTAGGTCAAAAAAGTTTTCAACTTATGTCAGCTCTTTTAGCGCATACATGAGACGTATTTTGTTCATTTCTGTATCC
Celera SNP ID:            hCV8715007
SNP Position Genomic:     11824
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41669):
TAAGTACTATCAATCAAATGGGATAAAGCGTGCTTGGACAGGGGAGTGGCTTTAGACAGCACAATCAGGGATCAGCCTCCTCTTTCAGAAGGTGGCATTC
R
AAGAGAAGCCACTCAGCATGTAACCTGGGGGAGAGGGATCCTTGCAAAGGGGGCACTGAGGCAAAGAACAAGCTTAGGATGTTCTAGAAACGTGAGAAAC
Celera SNP ID:            hCV1806091
SNP Position Genomic:     24196
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41670):
ATACATTTATACTTAGGTGATATAACTACAAAGATGAGAGTATAAGAAGTAAAATTTGGGATAAATGCCATCTTTGGGGAATTTGCAGAAGGATTGCTAG
R
TGTGGATGAGGAAAGCAATGGTGCGATAATTCACTACAGATGGCTTGGAGGCAAGTGCAGATGAGCAGGTAACAGGTTACAGAGAGGTGGGAGCTGAAAG
Celera SNP ID:            hCV1806237
SNP Position Genomic:     158692
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41671):
TATCTCAAGACAGGACAAATAATACTGTAATTCTAGGTAAAAGCAATTCATTGAGAGAGAAACTGATATATCTTACATTGTATATTTCATAATATAGTGA
R
ACATTTTGAAAGCTTACTTGTCTTATATTGGTTTTCTTAATATTCTTTAATTTTCCCACCAGCTTCAAATTCCACAATTTATCTACATGCAGATACCCAC
Celera SNP ID:            hCV1806165
SNP Position Genomic:     76100
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41672):
ACCTGGGGATGTGGAATGATTGGCAGAAACCATATTAACCAGCTTCATATCCATTATAATTTCAACCAATGAGTACCACAGAGTGAGTTATGGTGAATCA
Y
TTCCACAGAAGAAATTTCCTGAGAGATTTCAATCCTGTTATATATAAAAATTGTCAGAAGTAAACAGCACTAGGTCAAAAAAGTTTTCAACTTATGTCAG
Celera SNP ID:            hCV8715008
SNP Position Genomic:     11778
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41673):
TGGCATTCAAAGAGAAGCCACTCAGCATGTAACCTGGGGGAGAGGGATCCTTGCAAAGGGGGCACTGAGGCAAAGAACAAGCTTAGGATGTTCTAGAAAC
R
TGAGAAACAGAAAGCCTCTGAATGGTTGGAGAGTAGTGAGTAAGGGGAACAGTAATGAGAGATGAGGTTAGACAGGCTGACAGAGCCACATCACACAAGG
Celera SNP ID:            hCV1806092
SNP Position Genomic:     24288
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41674):
TTTAGTTCACTGCTATATTCTCTCCCTCAAAAGAGATCTTGTATATGCTGTGTGCAATAGTTACTTTTTGAATATGTGATATTATGAATATTGACATTGA
Y
ATTATTGTTGAGTAAATTAAATTATACATATGATTATGACATGAATATAGCCATAGCTTACTCAGCAAGTCTTTTAGTGAGATGGTCAATAGAAACCCAT
Celera SNP ID:            hCV8715009
SNP Position Genomic:     9670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41675):
ACTGAGGCAAAGAACAAGCTTAGGATGTTCTAGAAACGTGAGAAACAGAAAGCCTCTGAATGGTTGGAGAGTAGTGAGTAAGGGGAACAGTAATGAGAGA
Y
GAGGTTAGACAGGCTGACAGAGCCACATCACACAAGGCTTTGTAGGATTTGGGAAGTAAGTAATCAACAGAAATTTATGGAGCAATGTAATAATGGGAGG
Celera SNP ID:            hCV1806093
SNP Position Genomic:     24351
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,10)      total(C,4|T,10) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41676):
ACATCGCTTGTAGTTTTTGGAAACACATTCAGGAGTTCCCCACTAGCTCACCCACTGCATGTAAGCCATTTTTCGGGAGCTCTACTTTCTTACATTCATC
K
GTGTTCGATAAATGCATATTGTCTTAGCCCAAGTGACGTATAAAAGTTAAATGTTTTCTTTCTGAAAGCAAGTGCCAAACATGCACAGCAATTTTCCTCA
Celera SNP ID:            hCV27348810
SNP Position Genomic:     40577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,9)      total(G,1|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41677):
TGATGACCAAATGGTTTGTAGGGAAGATTTTAACTCTGATGTGGAGGGGCTCTTCAAGCAAATATTTTGTCTCTTCTCAGTACAGTAATTAAGCTGATAA
T
TTTTTTTTTTTTTACCTTTTCGGGCCACTACAACATTCTCTGCTCTTGGATTCAAAGATGAATGTTCCTTCCACACAGTTTAATACGTCTACAGTTCCAG
Celera SNP ID:            hCV1806167
SNP Position Genomic:     78003
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41678):
TTTCCTACTAAAATCTTGAGGAAATTTACCATCTTATGCTTGCATTTCAGCCCCTGAAATGGAAGCGTCATGGGAATGCTTTCTGCAGTGGGGATGTTTG
M
ACAATGAGTTTATTAATTGATGCATGTAGACAAGAGACTGTTGGGTGGTGCTAGGAAGAAGAAACCAGCACCCTCAGAGAAGAGATAGGGGTAGTGCCCT
Celera SNP ID:            hCV1806094
SNP Position Genomic:     25909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41679):
AAGGGCATCCTGGTGGGAAGTAGCATTTTACAGCCTTTAAGCAGACTGTTTTTCTAAATATAATAACAATGAAAACTATTTGGATACACATGTAAGTCCT
Y
TGTGAGGCTTGAGTCTAGATGAAATATCAGAGTCTACTGCAACATCCAGTCTGAGGGTGCCTTTGAACCATTTCAGGACAAAAGCAAATTAAACTTGGAA
Celera SNP ID:            hCV1806168
SNP Position Genomic:     80949
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41680):
CAGTGGGGATGTTTGAACAATGAGTTTATTAATTGATGCATGTAGACAAGAGACTGTTGGGTGGTGCTAGGAAGAAGAAACCAGCACCCTCAGAGAAGAG
R
TAGGGGTAGTGCCCTGCCCCGTGCAGAGTGGACTTTACTGAATAGAACTTCATACCCTAAGAACTGGATTGCCCCTCATCACTCTGTGGCCTTGGTATAC
Celera SNP ID:            hCV1806095
SNP Position Genomic:     25994
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41681):
GATCCATGCAGAGTTTGTTCATGGTTATTAGAGATTATGCCTTTAGAAGTGACACTAGTGGGCACCCCTGAAATGACCTCCAACACACCCCCTAGGGGAG
Y
ACACCCTGAGTTTCCCGAAAAATGAGGAACCACTGACAACAGAAAGAACTGGTTTTCTTTGTGTGGAGGGGTTAGTCCCTGGGAGGGAATAATCTTCCTT
Celera SNP ID:            hCV1806169
SNP Position Genomic:     83769
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41682):
ATACATATATATATGTATATATATGTTGAGTTTTCTAAAAACTAACAATTTAATTGATAGCCCCTGAGGGAAATAAGACTCGTATAGGCCAAGTAAGGAA
R
CAGGGTGGATTATCGCTGTTCAGTTGGCTCAGTTTCACTTAATTCCTCTTTTCTTTCATACTGCCTTCTGCTGTGTCCAGTATTCCTGAGTCTAAAGCCT
Celera SNP ID:            hCV1806096
SNP Position Genomic:     27814
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;(A,-|G,-)   Caucasian(G,17|A,49)   African-American(G,17|A,65)   Asians(G,12|A,68)   total(G,46|A,182)
SNP Type:                 INTRON


Context             (SEQ ID NO:41683):
AATTGGGAAAGAGGTAACTTCCTATCTGAAAGATCACAGGTGAAAATCTGAGGTCAAATTTCTCCTGTAAGAGTATTTATACAAATCTTCTTGTTAACCT
S
ACACCTCACACATCTTGTCGCTTTCAGTTTTTGAATCTTTGAGTCTTTTCTGCATTGTTGACAGAAGCACAATGATGGAGCTGTCCAGCTCTACAGTTTC
Celera SNP ID:            hCV1806097
SNP Position Genomic:     28023
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41684):
TGGCCCGTACTTGAAATCTGTGAACAGGACACTTTTTTTTTTTTTAATGTCAAAATAAACCATCTGCTTGTACAACTGTTTCTAATTACTTCCCTGCCTA
R
ACTCTCCACTGAGGGGTTTGGCACCAGCACCCCGCCCAGAGCAGTGCCGCTGCCCAAATCCTCGCAGGCAGCTCATCAACGCAATTGCAACTCCGGCTGG
Celera SNP ID:            hCV1806098
SNP Position Genomic:     32718
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 ACCEPTOR SPLICE SITE;TFBS;hmCS


Context             (SEQ ID NO:41685):
GAATTGCATTGTAGTCAAACAAGCAAAATTTTAAGGTAGGATATCATGGACATTTTGCTTGCCTAGGCCAGCAGGTTCTTTTAAAGAAGCTGTTGGAGAG
R
AACCTTCAGAGATCAATAGGAGCAGCTCATAGGGAGCCTTTTAATGCCAAAAGATATGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTACTCATATATG
Celera SNP ID:            hCV12125992
SNP Position Genomic:     61085
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41686):
AGTAGAGACAGGGCTTCACCATGTTGGCCAGGCTGGTCTCTAACTTCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGCGATTACAAGC
R
TGAGCCATGGCACCTGGCCTTTTCCATATCATTTCTGATAAAGAACACTAAGTGTCTTTCTAAAGCATGAAGAGAGGGACTTAAGCCCAACAGTTGCCTG
Celera SNP ID:            hCV29442124
SNP Position Genomic:     43001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41687):
GTGTGTATTTAGAGGGAATTTTTGATAAGACTCAAGATTTTGAGTGGCATTTTATTAAGCATTTGAATTACTTTGTAACTGACATCTTTGTTATTGTCTA
S
AAGAATGGCATAGCCCTTTTCATTGAAGTCTAATTTGATAGTTTGCATTATATTGATGTATTTTCTCTTATATGGGTTTCATACATTTCACGCAGAAGTC
Celera SNP ID:            hCV27972994
SNP Position Genomic:     12180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41688):
CAAACCAAATTAGCAACAGCTTCCTTGGTTCCTTCCCATCCTTCACCCTTTACACTCAGTCACCAAATGCCCTCTACTCTTTCTCCTAAAAATATCCCCA
R
ATGTATTTGTTCCATTCTAAACTCATCGCATCATGTGTCTAGCCACTGTCTTCTTTCCTGCAGACAAATATAACAGCCTTTTAACTCATTTCTTTGCATC
Celera SNP ID:            hCV15934084
SNP Position Genomic:     154083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41689):
CAAATCTCATAGATCAGTCATTTAATTTTTTAGTCTTTATTTGTATCAGTGTTTTGGCTTTCATTTTTAGGAAACTTCTCCTCATTTATTTTTCAACCCT
Y
TTAGTGACTTCTTTCCAGCTAATTTATAATTCACTTTTTTGGCACTGCATTCATTTTTGATTGTCCTATTTTTATGGCTGCACATTTTTGCAAGCCCGGA
Celera SNP ID:            hCV27972997
SNP Position Genomic:     27269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41690):
GCTAATGACCTGCACAAGCATTGAATGAAAGATGCAAATGAGCAGCTTAATGGAAAAAATATGAGGAACTTGGTGCTAAATCATTCACAGTCAACCTGTT
Y
CTGGGCTGGGGTTTCCTAAGCAGCGGAGCACCTCCCTCACTACCGTCTATTGAAAGTCAGCTTTTAAACAATAATAGTAATAAATAATAAAAAATAATAA
Celera SNP ID:            hCV9908050
SNP Position Genomic:     238991
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41691):
TTATTAGAGATTATGCCTTTAGAAGTGACACTAGTGGGCACCCCTGAAATGACCTCCAACACACCCCCTAGGGGAGTACACCCTGAGTTTCCCGAAAAAT
R
AGGAACCACTGACAACAGAAAGAACTGGTTTTCTTTGTGTGGAGGGGTTAGTCCCTGGGAGGGAATAATCTTCCTTCAGTCTCAATAGCTAAAACTGTGG
Celera SNP ID:            hCV1806170
SNP Position Genomic:     83793
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41692):
TCCCTGGGGTCCCCAGTTCTACAGTTCTAGGCCTTGACTCCTGGATGGCATTTCTGGACCCACACTGGGCCAGAGGGAAGCCCACTGCCCTGAAGGGAGA
S
ACCAAGGCCTGGTAGCATTCACCACAAGCTGAGCCTTGAGTGAACATTGGTACCAAGCCTGGGGTGGTAATGGCCATGGATAGACACTCTTTCTGACTGA
Celera SNP ID:            hCV12126000
SNP Position Genomic:     54374
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41693):
AATATTTTATTCAACCTCATTGTTTTAAGCTTTTCTGAAACATATTCCCTCTTTAATCAATGATGATATGCTAGCTTTAGGTAAACGGTCTGATGTTAAC
M
CATATACAGAGAGTATAAAATTCCACTTGACTCCTCAAGTGCCCATCAAACATTTTTTTTAAAACTCTTTTGATACATCTTAGTCCCATTCTGCATTTTA
Celera SNP ID:            hCV9908051
SNP Position Genomic:     237595
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41694):
GTTTCCCGAAAAATGAGGAACCACTGACAACAGAAAGAACTGGTTTTCTTTGTGTGGAGGGGTTAGTCCCTGGGAGGGAATAATCTTCCTTCAGTCTCAA
Y
AGCTAAAACTGTGGGGAAGTGATGAATGGTAGACTTGAGACTTTCCTTTGCTGTTAAGGATGATGGACTAGATGATGGATGCTGTTAAAGATGATGATGT
Celera SNP ID:            hCV1806171
SNP Position Genomic:     83879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41695):
TGTAAAAGATAAAGGCAATTAAAAAATGAACTGTAAATGAAGACATATTTTTGCTAAATGTTGGAATAATTGTTAAAAATAATTATTTTGCTTTATAAAC
R
TATATTTCCAGGAGGGCTGTCAAAGGCACTGTGGTTAGGATACATACACTTATTTTTTAAAAAGTTAAAGATCTGTTTTTCTTATAAAACTGTTCATCCC
Celera SNP ID:            hCV1806172
SNP Position Genomic:     84294
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41696):
TTTACATAAAAATATTTGTCTACGTTTCTGATCATTTCCATAAGATAGACTGGTAGGAGTTATTGAATTGGTAGGTATGGAACATCTTATCTCTTATATT
Y
GCCAAACTGCTTTATAAGAATATGGTTCTATTTACTTTCCTGCCAGCAAAGTGTGAGCTTCCATTTTATCACATCATCACTGGAATTGAATATTTTCATA
Celera SNP ID:            hCV1806173
SNP Position Genomic:     88598
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41697):
TTTTTTCTATCCTCATTTAAGTCATTTTACTTCCAAGCTCAGATGGATATCCCTCTTCCACTTGCCTTTGTGTTTGATGATCTGATCTCTTCTTCTGCAT
R
TTATTTCTACTTTGCCTTTGCTGGGTTATTTCTGTATTTCTTCCTCACTTCTCGCTTATTTCTATTTTTATTCCCATTCTGGGTCCACTCGTGCTTCTCC
Celera SNP ID:            hCV1806174
SNP Position Genomic:     92358
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41698):
TTCAGAATATATTATAACAGAATAAATTATAAAGATTGCTTGGGTGTTTCCTGTACCAGGACATAGCAGTGGTTTGGTGTCCTGCCCATTTGTGTGGCAG
R
AAATTCTTTTGTTTGTGCTGGTGAATCGTTTTGTCTGGGGCTTCTTTCTTTGCTAAAAATCTTGCATTCTTTCATTTGGCAAGCATTTTGTCAACAACTT
Celera SNP ID:            hCV1806175
SNP Position Genomic:     93073
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41699):
GTATATATTTATGTTGTGTGTATAATTATGTTGTTCAATCAACAGTTATTTATTAAGGAACTACTATTTATAAGATGCTATATTTGTAGCTGCAGAGGTT
R
TAAAGATTAAAATGTGATTCTTGAGAGGGAAGTGGAACAAGATAGCCAACTAGAACCCTCCAATGATCATCCACCCCACAGAAACACCAAACTGAACAAT
Celera SNP ID:            hCV12126005
SNP Position Genomic:     53195
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41700):
TTAATAATTTATCTTCAGAAAATGCAAATCCCTGTTGTAGTTATTTTCCTATTTCTACAAATGTAATTAAAGCATTGATAACACAGGGGAACCACAGCAT
Y
GGAATTGAGAACAACCTGGTGTGAAAGAAAAGAAGTGTTGAAAATTTTAAGTTTCCCTCTCCTATGCTTTCTATTATTTCTGTGTGTAAACCCAATTTTC
Celera SNP ID:            hCV9908056
SNP Position Genomic:     235692
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,10)      total(C,10|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41701):
TATAAAGATTGCTTGGGTGTTTCCTGTACCAGGACATAGCAGTGGTTTGGTGTCCTGCCCATTTGTGTGGCAGGAAATTCTTTTGTTTGTGCTGGTGAAT
Y
GTTTTGTCTGGGGCTTCTTTCTTTGCTAAAAATCTTGCATTCTTTCATTTGGCAAGCATTTTGTCAACAACTTTAACTTGCAAGAACTATGGGTCCACCT
Celera SNP ID:            hCV1806176
SNP Position Genomic:     93100
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41702):
TTGATATATAAATTAAGAGTTGTATATATTTATGTTGTGTGTATAATTATGTTGTTCAATCAACAGTTATTTATTAAGGAACTACTATTTATAAGATGCT
R
TATTTGTAGCTGCAGAGGTTATAAAGATTAAAATGTGATTCTTGAGAGGGAAGTGGAACAAGATAGCCAACTAGAACCCTCCAATGATCATCCACCCCAC
Celera SNP ID:            hCV12126006
SNP Position Genomic:     53174
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41703):
TGCATTAATAATTTATCTTCAGAAAATGCAAATCCCTGTTGTAGTTATTTTCCTATTTCTACAAATGTAATTAAAGCATTGATAACACAGGGGAACCACA
R
CATCGGAATTGAGAACAACCTGGTGTGAAAGAAAAGAAGTGTTGAAAATTTTAAGTTTCCCTCTCCTATGCTTTCTATTATTTCTGTGTGTAAACCCAAT
Celera SNP ID:            hCV9908057
SNP Position Genomic:     235688
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,14)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41704):
TACTCCTGATCTCAAAGAACAACTTAGTAATGTATAATTATTTTTATTTTTCTGCAATAACTGAGAATGAAGTGCATATTTAAATAAATATTTATATAGT
R
TTTGTTTATTCAATGTGAATTTCATCATATAAAGTTAATGCCCTAAATTTAATATCTTTTGCATTATTGTGGCAATTGTGATAGTTAACACATCTGTAAA
Celera SNP ID:            hCV1806177
SNP Position Genomic:     94107
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41705):
CCTGATCTCAAAGAACAACTTAGTAATGTATAATTATTTTTATTTTTCTGCAATAACTGAGAATGAAGTGCATATTTAAATAAATATTTATATAGTATTT
R
TTTATTCAATGTGAATTTCATCATATAAAGTTAATGCCCTAAATTTAATATCTTTTGCATTATTGTGGCAATTGTGATAGTTAACACATCTGTAAACACA
Celera SNP ID:            hCV1806178
SNP Position Genomic:     94111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41706):
AGACACATTCTAAAGTGAGACAAAATAACTATATCCTAAATATTCTATCCTAAACGTCCCCATATTCTTGCATTGTATGAAGAAGTGTGTTGGCTGGTGT
R
TGCTAATTTAATAGTTAGATATAATTTGGTTGCTTGATGGAAGATAAAGGGAAACTTGCAGTTTGAAAGCAGTCAGAATGTTAACATCTGTTAAAAATTT
Celera SNP ID:            hCV1806179
SNP Position Genomic:     94352
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41707):
GCACACGCATCAACGGGGGACTTGTTAAAACTGTGAATTCTCAGTTTCATACTCACGGCATCAGAGACTCTGGCTGTGGAGCTCAACAGCCTGTGTATTA
M
CAAGTCCTCCAGCTTCCGATGCTTCCATAGTCAAGTTTAAGAAACACTGGTATAGAGCTGGATCTATCCCTGGGTGCAAATCAACTTACGGTTCAAAGGA
Celera SNP ID:            hCV29442201
SNP Position Genomic:     63111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41708):
AATTTAGTTTTATTTATCCTATCAGTGATTATGTATAGCTTTTCTACATGGTTTATTTAATTCTTAAAAATTCTCAGTGATTTTTCTATTCCAACATTGT
S
AATTGACCCAAGTTGAGTTTCTGGATATGAAAACCACAATATTTGATATGAAAAATACTATATGGGATTAACAGCAGATTCACATCACAGAAGAAAAAAC
Celera SNP ID:            hCV29442202
SNP Position Genomic:     64581
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41709):
CAGCTGCTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGATCACGCCACTGTACTCCAGCCTGGTCAACAG
M
GCGAGACTCTGTCTCAAAACAAAACAAAACAAAAGAATGGCCATAATTAAAACATCAAAAAAACAATAGATGTTGGTAGGGATGTGGTGAAAAGGGCACA
Celera SNP ID:            hCV29442203
SNP Position Genomic:     65920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41710):
GAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGATCACGCCACTGTACTCCAGCCTGGTCAACAGAGCGAGACTCTGTCTCA
R
AACAAAACAAAACAAAAGAATGGCCATAATTAAAACATCAAAAAAACAATAGATGTTGGTAGGGATGTGGTGAAAAGGGCACACTTTTACACTGCTGGTG
Celera SNP ID:            hCV29442204
SNP Position Genomic:     65937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41711):
AAACAGTGTGGAGATTTCTTAAAAAACTAAAAGTAGAACTACCATCAATCCAGCAATCCCACTCCTGGGTATCTACCCAATGGAAAAGAAATCATTAGAC
R
AAAAAGATAAACGCACACATGTGTTTACAGCAGCACCATTGCAAAGATGTGGAACCAACCTAAGTGTCCATCAACCAACGAGTGGATAAAAAAAAAATGT
Celera SNP ID:            hCV29442205
SNP Position Genomic:     66172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41712):
GTGGCCTCCCAAATTGTAACAACTTTTCCTCCATCACACATTGTCATTTTCTTATGCCACACATTCTTCTGATGATTTTTAAGTGGATTTGTAAGATGAA
R
AATTCTGAATCACCTGGATGAGCATTGCTTTCTTTTTCTTTATTTTTTTTTAAATTATACTTTAAGTGCTGGGATACATGAGCAGAATGTGCAGGTTTGT
Celera SNP ID:            hCV29442206
SNP Position Genomic:     71728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41713):
TTAGAACTGATAAATTCAGTAAAGTTTCAGGATATAAAATCAAAATATAAAAATCAATAGCACTTCTAAATGCCAACAGCAAACAATTTGAAAAAGAAAT
M
AAGAAAGTAACCTCATTTACAACAGCTACAAATAAAATGAGTTAACCAAAGAAGAGAAAGATCTCTACAATGAAAACTATAAACATTGATGCAAAAAATT
Celera SNP ID:            hCV27890340
SNP Position Genomic:     58844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41714):
CATCTATCTCATTTTCTTTCTTTTGACACAAGTCCATTAGCTTCATCTGTCTTGAGGACAATCCCGGCTAAGAGCCTATCTGATGTTTCTTCTTTGGGGA
M
CTTTCAGAATTTCAAGGTTATAGGAAACTTGGCTTTGTGCAAAGTATGTTGCCATCTGTTGCTAGTTTCTAATTTCAGATCCATTTAAGAGATTTGCCAG
Celera SNP ID:            hCV29442207
SNP Position Genomic:     73964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41715):
TTGAATTCATGGATACAGAGAGTAGAATGATGGTTACTAGAGGCTGGGAAGGGCAGTGAGTGGCAGAGGGGTGGAAGTGGGAATGAGTAAAGTGTACAAA
R
ATATAGTTAGATACAGTGTATAAGATCTAGTATTTGATAGCTCAATGATGCTATTTTTTCCATTTGATAACACAAATACTAGATGAATGTAGGGTGACTA
Celera SNP ID:            hCV27890341
SNP Position Genomic:     60513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41716):
CCAAGACTGTTAAAATAATCTTCCATAATGATTTGTCTTAGAGTAGAAATATGTGGCATATTTTTAATCATAAATACATATACACATTATAATTGTTCTT
Y
TGTATTTAAGTTAGTACCTGTGATTTGTTTATCCAAGACAGATGGTAAGGGGTGATACTTTTGTCAGCTTACATCTAGAGATCTATAGTAGGGTTAATTT
Celera SNP ID:            hCV27890342
SNP Position Genomic:     78582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41717):
GACTTATTCACTACCACTAGAACAGTATGGGGGAACCTGCCCCCATGATTCAATTATCTCCCTCTCACAACTCATGGGAATTAGGGGAGCTACAACTGAA
Y
GTGACATTTGGGTGGGGACACAGCCAAACCATATCAGTTTCTGAATGTCCTCTTCAGGCACAATTTTGCCTTGTGTTATCTGTGCTCTAAGTTCATGCTG
Celera SNP ID:            hCV29442208
SNP Position Genomic:     79219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41718):
AATTAACTATTAAAAATTAAAGAACATAAAAATTATACAAATTAATTATTTACTCAGTGATGAGAACTTTTTTATCCCAACAGGCTGAGACCATATTTAA
W
ACTTTTCCTTGTATTTTATTCTTCCATGCAATACACTTTTGAGTTTTCAGAATATGTTCCTCTTTTCAGTTTGTCCCTATATGTTGGTCAACAGATTCCT
Celera SNP ID:            hCV27890343
SNP Position Genomic:     216268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41719):
TGCTTCACAATGGGTAGAGTTTAGTTTGATGGGTGGTTCACCTTTTGGCTCCTGCTATTTGGCTTAATTGATGATTGGCAGGCAATCTGGCTTAAATCTG
W
TGACCTTTCTTCAGGAAAGGAAGGGTGAAATGAAGAGATGGTAAGAATTCCTCCCATATTTCCTGATCTATCTTTGGTGGCCCAGGCTTCCAGAATTCCC
Celera SNP ID:            hCV29442209
SNP Position Genomic:     81320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41720):
GAGGGGTAGGGATATTACTTTTCCAGATAGGCTGTGTGACCACTCTTGCGTGTTTGCTGATAAATGCCTACGTGTTTGGCTATTTCAGGTCTGAGGCTCA
Y
TTTCCTTGTGACAAATGCCTGATAGTTTGTGGGGCAGAAACTTACAGCTCTCCTTTCTCCCTCTGTTGGGAACCACCTGATACTGCTGATGTTGCCAAAA
Celera SNP ID:            hCV29442066
SNP Position Genomic:     25236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41721):
AAATTGCCTATAGGAGAAAAATAACCTGATACTGACAAATCTATAGGCTTTGGAGTGTCTGCAGCGTCTACTAGTGTGTATTTAGAGGGAATTTTTGATA
W
GACTCAAGATTTTGAGTGGCATTTTATTAAGCATTTGAATTACTTTGTAACTGACATCTTTGTTATTGTCTACAAGAATGGCATAGCCCTTTTCATTGAA
Celera SNP ID:            hCV27929353
SNP Position Genomic:     12107
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41722):
TTGTAACTGACATCTTTGTTATTGTCTACAAGAATGGCATAGCCCTTTTCATTGAAGTCTAATTTGATAGTTTGCATTATATTGATGTATTTTCTCTTAT
R
TGGGTTTCATACATTTCACGCAGAAGTCATTCTTAAAGAGTTTTGAATAAGACTCTTATCCAAAATTCCCTCTAAAAACACGTTAGTAGACATTGGTGGT
Celera SNP ID:            hCV27929354
SNP Position Genomic:     12252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41723):
TGACCAATTAGTTCTCTCTCCCCTTGGCCATGTGCTCAGGGCAAGGGCCAATCACCAACTCAAATGAACAGCCATGTTAATGCTGTTTCCGCCTTCAGTA
R
TTGTGTTAGGCATAGGCATATGACATAATTTTGTTCAACAAGGCTTGTGAGGTAGAGGGATCAGACCTTCTGAGAAAGATCTTTTTCATTCTTAAAAAGG
Celera SNP ID:            hCV27929355
SNP Position Genomic:     12457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41724):
TCATAGGAGTACAATTTTTTATCACAAGCTAGCTATATAAATAATCCTCTATTAAAACCCCGGGTATTTTTTTTTTTAGCCCAGCATTTTGATGGTACAC
A
AAACTTTAGACAACAAGATGGTAGGGTTTCTTTAAGTGTGTGTTGGTAGTAAGAAATAGTTCCATTGGAGAAAAACAAAGAATTGCTTCGTTGGTGAGTC
Celera SNP ID:            hCV1806180
SNP Position Genomic:     95511
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41725):
GTTGGAGACCATATTAGTACATTGTAAACACTGTCTTGCTTAATCCAATAATCTCATGGGGATATTTACTATTTTATCTCCACTTTACAGTTGAGGAAAC
W
GCTCAAATCACTTTTCCAATTACTCAGCTAGTTACCACAGTTAGGACTTGCACTATGTTTTTAGCTATTATACTTAGACATACAAGTTGAAGGCAGTTCT
Celera SNP ID:            hCV1806181
SNP Position Genomic:     99026
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41726):
AGTGATTTATTAGTATGGGGTAACTGCTCATGTTTGAGCATGTCGACATGCTTTTTGAGTTTAGGGTTGAAATATTAGCCTTGTGTTACTAGTAATAAAA
Y
GAAAATCCAGTGAGAGGGATTTGCTGCAGATCACATAGAATTTGTACTCAAGTTCCTGTCTTCTTTTCCATCTACTTCTCTTTCTGTGTTATCATAGTTC
Celera SNP ID:            hCV1806182
SNP Position Genomic:     100217
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41727):
CAATTTTAAATTGGGTTGCCAGGGAAGGCCTGCAAATCCAAAGGACCTCACTTTTGTATCCAGGGAACAAGACAGAGACCAGTGTGCCTGGATCTGGACC
S
AAGGGAATGAGAAGGGAGGGTGGGAGGAGATGACGTCAGAGGAGTGATGGGTGGGGACAGAAGATGCCATGGAGTCTCATTGAACCAGCTCGAAGACCTG
Celera SNP ID:            hCV1806183
SNP Position Genomic:     101680
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41728):
TTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTGCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTG
T
TTGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCCTATCAGCTTAAGGAGATTTTGG
Celera SNP ID:            hCV27348900
SNP Position Genomic:     121017
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41729):
GTGTGCCTGGATCTGGACCGAAGGGAATGAGAAGGGAGGGTGGGAGGAGATGACGTCAGAGGAGTGATGGGTGGGGACAGAAGATGCCATGGAGTCTCAT
Y
GAACCAGCTCGAAGACCTGGACAGAAGAGGATTGCTTCTCCATCCTGGCAGCATGGAGAAGGCCTTGTTCCCTGTGTGATTCCCACAGGAGTGCCGAAGA
Celera SNP ID:            hCV1806184
SNP Position Genomic:     101761
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41730):
TGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTGCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGT
T
TGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCCTATCAGCTTAAGGAGATTTTGGG
Celera SNP ID:            hCV27348901
SNP Position Genomic:     121018
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41731):
CACTAGAGGAGTTTATGTTGTTCACATTTAAGATGATTTATTTTTATTCACTTGACAACACTTCGAACTTCAAATGGATGCACACAAGCCAATTCTTGGA
G
GGTTGTGACTGCAGAAAAAAAATTAAATCTTGTGCTCATGTGTTGCTCCATCATAGTAATCCTCAGTTTTGTCCCAGAAGTAGCATGTGTCACTTCCAGT
Celera SNP ID:            hCV1806185
SNP Position Genomic:     103878
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|-,5)   total(G,4|-,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41732):
TGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCCTATCAGCTTAAGGAGATTTTGGG
Y
TGAGACAATGGGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCC
Celera SNP ID:            hCV27348902
SNP Position Genomic:     121119
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41733):
TAATCCTCAGTTTTGTCCCAGAAGTAGCATGTGTCACTTCCAGTGATTCAGGACCAGCTGGTAGAAAGGACGGACATTTCATGCTGCCATGAGCAACTGC
Y
GTGTGGTCCAGGATGACTTTTCCAAAAGCTTCACTCACTGCTCCTCAGACCACGTCTGTTTTTGTAGAGGCAAAATGAGATGGCTGAGAGAATTGTGGAC
Celera SNP ID:            hCV1806186
SNP Position Genomic:     104035
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41734):
TTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCCTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAATCA
Y
GTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTGATTGCCCTGGCCAGAACTTCCAACACT
Celera SNP ID:            hCV27348903
SNP Position Genomic:     121152
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41735):
ACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTGATTGCCCTGGCCAGAACTT
S
CAACACTATGTTGAATAGGAGTGGTGAGAGAGGACATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCATTTTTGCCCATTCAGTATGATATTGG
Celera SNP ID:            hCV27348904
SNP Position Genomic:     121245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41736):
CGGGGATCTTGGCAAAGAGGAGAATTAATTCATCAAAGCACCCTGCCCTTGAAATCTCACCACACTGCTAGATTGAAACTAGATTGATGGCACAGAATGG
R
TGTTTTGTTTTATCTTATCTCTCTATTTTCTTATGTGGGAGGAGTGGACATATTGCAAAAAGCAGTTGCCAGACATGCACATTTAAATGTACTGAAACGC
Celera SNP ID:            hCV9908068
SNP Position Genomic:     235453
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41737):
TGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTGATTGCCCTGGCCAGAACTTCCAACACTATGTTG
W
ATAGGAGTGGTGAGAGAGGACATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCATTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCA
Celera SNP ID:            hCV27348905
SNP Position Genomic:     121259
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,9)   total(A,9|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41738):
TTCAGTTAGAGCAAAAAGATAAAAGCAATGTTCAGAGAAGAAGGTGTATGGGTATAGATGACCTTGGTGATGACAGATTAAATTTCACAGACATTAGGAA
R
GGAGTGCAGAGGAGAAGGGGCCACGAGGAATAGATCAGAATAGTGACGCATTTCCTTTTGGTGGCGTGCAATCTGGAGACAGATTTCTGAAGATGACTGA
Celera SNP ID:            hCV9908069
SNP Position Genomic:     235195
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,7)   total(G,7|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41739):
GTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCATTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAGATAC
R
TCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATAGATGGTTTTTG
Celera SNP ID:            hCV27348906
SNP Position Genomic:     121387
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41740):
TGAGATACATCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATAGA
Y
GGTTTTTGTGGTTGGTTCTGTTTATATGCTGGATTACATTTATTGATTTTTGTGTGTTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCACG
Celera SNP ID:            hCV27348907
SNP Position Genomic:     121479
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,14)      total(C,1|T,14) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41741):
TGATTTTTGTGTGTTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCACGGTGGATAAGCTTTTTGGTGTGCTGCTGGATTTGGTTTGCCAGT
W
TTTTATTGAGGATTTCTGCGTCAATGTTCATCAGGGATATTAGTCGAAAATTCTCTTTTTGTTGTTGTGTCTCTGCCAGGCTTTGGTATCAGGATGATGC
Celera SNP ID:            hCV27348908
SNP Position Genomic:     121623
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,11)   total(A,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41742):
CTTGGTGCCTAGTCCTTCATTTATTTATTCACTTATTCAACAAGCATTATGGTGTGCCTGGCATATGTCAAATCTTTTCCATCTGAAAGATTCAGAATGG
Y
CTCTTAGGTATATGAGATAACATTCTAAATTAATTTTATTCTCCTGGCCTGCAAATTTATTCTCAAAAACTGCTAGTTATATGGTTGCTCTGTTTACTTG
Celera SNP ID:            hCV29442210
SNP Position Genomic:     82643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41743):
TATATGCATGTGTCTGTATGTATATATGTAGTTTTTTACATTCTGGTTTATTATGTATATGTATACATAGAAGACCCAGAGAGGGTCTCTCTCTCTCTCT
M
TATATATATATATGCATATGTTTATATATCCTCCTATATATTATTTATGCTTGTATAGCCAATCAAAATACATATATTTTACCCATTTATATTTGGTATA
Celera SNP ID:            hCV27348836
SNP Position Genomic:     44671
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41744):
GATGAAGCCCACTTGATCACGGTGGATAAGCTTTTTGGTGTGCTGCTGGATTTGGTTTGCCAGTATTTTATTGAGGATTTCTGCGTCAATGTTCATCAGG
S
ATATTAGTCGAAAATTCTCTTTTTGTTGTTGTGTCTCTGCCAGGCTTTGGTATCAGGATGATGCTGGCCTCATAAAATAAGTTAGGGAGGATTCCCTCTT
Celera SNP ID:            hCV27348909
SNP Position Genomic:     121659
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41745):
TGGCCAAATAGAATACCATTCACTAATAAAGCAAATGTTCTGTACATTTCCTTCCATATCTATATCAAATTATTCATCAAGAACATCAAAATGCTATTAT
M
CATCCACAACTAATATTTACAACCAACATTTTAGTAAGTTAATTTTAGGTAAATTAATTGAAACACGGCCTGTATATATATTTTATGTGAAAGTATTAAT
Celera SNP ID:            hCV29442211
SNP Position Genomic:     84693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41746):
GCATTCACACAATGAAAATGTATTTGAATGAGATTTCTCTGCTGTTAGATGGATCGTCAGTGGCATTGTCTCAAAGGATATTTGTGCTTCTCTCCTTGTC
Y
TTTGGCTTTGACAATCAGAATGATGAAGATTCCTGTAGTAGAAGTGTGCATGTAAATGGAATTTTTTTAACCTATTTTATGAACACTTCCTGAGTCCCTA
Celera SNP ID:            hCV29442212
SNP Position Genomic:     85382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41747):
ATGGTGGTGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGACAGGATAATTGCTTGAAACCGGGAGGTGGAGGTTGCAGTGAGCTGAGATCACACCA
Y
TGTACTCCAGCCTGGGTGACAAGAGTGAAACTCCATCTTTCCATCTATAAAAAAACAAAAACAAAAAACACCACAAAAACAGATGTTGTATTTTAAGACC
Celera SNP ID:            hCV27348838
SNP Position Genomic:     49782
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41748):
TCTTCCCACATAATATGTAAAGTCAACCCTTTTCCTTGCAACTTCATGAAATCTTCAGGAAGATAGTGGTTCCTCATTCATCTATTGAGAAGTCAGAGCT
R
TTTATTCCCTGCTTTTCCTACCAGAAGTTCCATGAGGGCAGGAGGACAGCCTGCTTTGTTCTCTGCTTTACCCCGGCACCAAGGACAGTGCTTGGTAGAG
Celera SNP ID:            hCV29442213
SNP Position Genomic:     87353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41749):
GAAGTCCAGCATACACACACACTCACCCACCCACAACCTGTCACACATCCCCAGAAAAGAGAAAGAGTGAAAGATGCTTCACAAAATCGGCCTCAGCCTG
K
TGTTCAAGTTGCCTCGCTCAATATGCCTGTGCAGTCAGACCTGCAGGAAGAAACAGCTCATTTTTAAACTACTGTATATGAAAGTTTTTGCCTGGAGATA
Celera SNP ID:            hCV2955824
SNP Position Genomic:     291662
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,9)   total(G,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41750):
TGGTGAGAGATAGATTGTAAAACTCAATGTATTCTTATTCTTTTTTTTTTTTGCAATTATTCCTGAATACAAAACTTAAAAAATGACACCAGGGCTTTAT
R
TCTAGAGTAGACTGTGAAAAAAATGAATACACATTTATTTGGGAAAGATATTGGTGGTCATTATGCCAATTGACATATAGTTGTCATCACTGATGTAATT
Celera SNP ID:            hCV29442214
SNP Position Genomic:     104592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41751):
AGAAGTCCAGCATACACACACACTCACCCACCCACAACCTGTCACACATCCCCAGAAAAGAGAAAGAGTGAAAGATGCTTCACAAAATCGGCCTCAGCCT
K
GTGTTCAAGTTGCCTCGCTCAATATGCCTGTGCAGTCAGACCTGCAGGAAGAAACAGCTCATTTTTAAACTACTGTATATGAAAGTTTTTGCCTGGAGAT
Celera SNP ID:            hCV2955825
SNP Position Genomic:     291661
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41752):
ACAAAAAAGTAAACAATTGTTTACATGATATGTTTTCGGGGCTCTGATATTTCTGCTGCTGCTCCACTGAATTGCAGTTTAACTTAGCTGTAACTTAAAG
Y
TTCAGTTTCAGTTTTTGCTAATCATTAATATTCATTCACTTATTCAGTTCTTAAATATTTATCCAGGTCCTGCTACTTTTGTGGGTGTGATATTGTGCTG
Celera SNP ID:            hCV29442215
SNP Position Genomic:     111502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41753):
CATTAACTGTCTCCTTAAACTCTCACAGTGATACTTCTTGGGTCCCACATCTTCCAAAGAAGTCCAGCATACACACACACTCACCCACCCACAACCTGTC
M
CACATCCCCAGAAAAGAGAAAGAGTGAAAGATGCTTCACAAAATCGGCCTCAGCCTGGTGTTCAAGTTGCCTCGCTCAATATGCCTGTGCAGTCAGACCT
Celera SNP ID:            hCV2955826
SNP Position Genomic:     291604
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|A,7)      total(A,7|C,3) ;no_pop(A,-|C,-)   ;JBIC-allele(C,385|A,1112)   total(A,1112|C,385)
SNP Type:                 INTRON


Context             (SEQ ID NO:41754):
CTGTGTTGAGTGCTCAGAGAAATCTGGAGACCATGATTTTCATTCCATAAATCTGCACATAAGTACAATTTTTTTCCAGCAGTAATTATTAATCCAGGTG
K
AGAGGAGAGATTGTGAAATTAACCCAGGGTAAAATAAAACAGTGTAACATAAGATGTTCTGGTGGTGCTACAGCAAGGAGAGATGGAGCATTTGTCAAAG
Celera SNP ID:            hCV29442216
SNP Position Genomic:     115031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41755):
GCCTTTTCCTTTGTGGTTTTTCCCTTTGTTTTTATGCTATTAACATGTATCAATATATTTATATTTATAAATCTATATCTAGCTTTGTTCCATTTAGAAT
T
TAGTTAGAGTTTGGTATCAACTGAAGACTTAGGTCATTTTATTTTGAAAAAAATAGCTGTCCAAATATTTCATCATAACCATTAATGTTTACTGTATTTA
Celera SNP ID:            hCV27348769
SNP Position Genomic:     10842
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41756):
CTGGATTTACCAAGATTTCCAGTCATTTCCTACTAAAATCTTGAGGAAATTTACCATCTTATGCTTGCATTTCAGCCCCTGAAATGGAAGCGTCATGGGA
W
TGCTTTCTGCAGTGGGGATGTTTGAACAATGAGTTTATTAATTGATGCATGTAGACAAGAGACTGTTGGGTGGTGCTAGGAAGAAGAAACCAGCACCCTC
Celera SNP ID:            hCV29442072
SNP Position Genomic:     25884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41757):
GATGCTGTTGCTCACTGTGGCCTTGGAAAAGGTCAAATTAAAATGAAAGTGTACATTTTAAATGACAGTTTGTTTCACTTAGCATAGAGCAGTATGGTAC
S
TTCACTAAACTTCCTAGATTCAAGGTTGATTCAATCATCTTAACAAAACTAAATTATTAATTTAAAAACACACATTTTTCATGTAAAGCAGAGGGTTCCC
Celera SNP ID:            hCV29442217
SNP Position Genomic:     117738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41758):
CCAACACAGTAAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACATGCCTGTAATCCCAGCTATTCGGGAGGCTGAGGCAGGAG
R
ATGGCTTGAACCCGGGAGTCGGAGGGTGCAGTGAGTCAAAATTGCCACTGCGCTCCAGCCTGGTGACAGAGCAAGACTCCATCTCAAAAAAATAAAATAA
Celera SNP ID:            hCV2955829
SNP Position Genomic:     281656
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,11)   total(G,3|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41759):
GACAGTTTGTTGTAATTTCCGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACTATATGGTCAATTTTGGAATAAGTGCGGTGTGGTGCTGAGAA
K
AATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGTTTGGTGCAGAGCTGATTTCAATTCCTGGATATCCTTGTTAACTT
Celera SNP ID:            hCV29442218
SNP Position Genomic:     122683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41760):
TATGGTCAATTTTGGAATAAGTGCGGTGTGGTGCTGAGAAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGTTTG
R
TGCAGAGCTGATTTCAATTCCTGGATATCCTTGTTAACTTTCTGTCTCGTTGATCTGTCTAATGTTGACAGTGGGGTATTAAAATCTCCCATTATTATTG
Celera SNP ID:            hCV29442219
SNP Position Genomic:     122743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41761):
CAATGGTGCAAGTTTAAAAAAAATTAATACATGTTCTCTGACTCCAAGGTTGTTGTTTTGGATAACTTACAGGTTCTTGTTACATGCCAATTTATTGGAC
R
ATATATATTAAACATATTTCCTGTTACAAATATAATTCTGCAGAATAATTGAAATGGCTGCATAATATTCCATTATATAGTTGTAGCAAAATAATTCAAT
Celera SNP ID:            hCV27481502
SNP Position Genomic:     187567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41762):
CTCAGCCTCCCGAGTAGCTGGGACTACAGGCACGTGCCACCACACCTGGCTGAATTTTTGTATTTTTAGTAGAGATGGGGTTTCATTGTGTTAGTCAGAA
W
GGTCTCGATCTCCTGATCTCCTGATTCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCACCATGGAACAATAATTTTAAG
Celera SNP ID:            hCV27481503
SNP Position Genomic:     217746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41763):
AAAGTCAGTTGGGGTCACCTTGTCTATTGCAACTAAAATAGAATTGACTCAGAGCTACATTTTCGTCACCTCCTTTTCCTACCTCTTTCTTGGCCCCCTT
R
TTCTGGCCTTAGATTACTCTGCAGAAACACAGGCACCTTGTTTTTTTTTTTTAATGTGGAAAAAATTAGGTTTCTTTTTCTTATTCTTCCACTATTCCAG
Celera SNP ID:            hCV1806191
SNP Position Genomic:     105639
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41764):
CCGTGTCTATTTTCTAATAAATGTTAACTATTTTGAAGAGAAATGCATTACTCCCATAGAAAGAACAAATACTTGCAATCAGTGATGTTTTACACTTACT
R
TTTCTATTTTAATTTGTATTTATTATAAAAATAGGGGATATGTGCACACTTGAAAACATTCTCGTTGTGTAACATTAGAGTATTACAGTTAAAACTGAAG
Celera SNP ID:            hCV1806192
SNP Position Genomic:     105847
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41765):
TCCTCTCCAAAATACAAAAGACAAGTTATAGACTATTTTCTTTTCTTTCCTGGGCAACACCATTAGTTATATGAGCTCTAAGAGCTGTCTTGACATGGAA
R
TAATTCACTTGCTTCAAGAAAGAAAGTATTTGATTTGTTAACTATGTGCTCGAGAGACTTCTCTCAGTTGCCTGTTTGGATAATTTTAAGCCTTGAAATT
Celera SNP ID:            hCV12126022
SNP Position Genomic:     48372
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41766):
TTGAGGAGCTGACTCGATGGTGGCATGGGCAAATCAGTGGTTCTCCTTCGGTCATGTTACATTTGAGGTGCTTATGATATAAAGTGAGAAGTTCAATACA
S
ACGTCTGAAAGTAAAAAGAGAAGTCTGTGTTAGACATGTAGATGTCATGTCTTCAGAATGCAGATCGGTGTAAAGCTCTGGGCCTGGATGCAACCACCCA
Celera SNP ID:            hCV9908073
SNP Position Genomic:     234879
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,7)   total(G,5|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41767):
ATCCTTTTCATTTGCTCTCATATCCTGCCAATATTGCTAATGTTTTTACTTAATTTTCTGCTGAATTTAGTTCTATTGCTAGTGACTTAGCTTAGCCTTC
R
TTTCCCTTGACAAGGAATATTAGTAATAGTAAAGTTCTTATCACACCTCATGCTTCATTCAGGCTGTCTTCCCTTCTGTCTATCCTGTATACCACCACTT
Celera SNP ID:            hCV12126023
SNP Position Genomic:     46336
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41768):
TTTTTTTTGGTTGGTAAGCTGTTAATTATTGCCTCAATTTCAGAGCCTATTATTGGTCTCTTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGGA
H
GTATGTGTCGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTATATTTGTGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTGTTTCTGTGGGT
Celera SNP ID:            hCV27348910
SNP Position Genomic:     121953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,5)      total(A,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41769):
TGAGTGAAAGGGAGGAATCAAGGTCATTTTTGGTCTGAGTTACTGTCTGAAGAGTCATGCCATTAACAGAGAAACAGAAGGCATTGAGGAGCTGACTCGA
Y
GGTGGCATGGGCAAATCAGTGGTTCTCCTTCGGTCATGTTACATTTGAGGTGCTTATGATATAAAGTGAGAAGTTCAATACACACGTCTGAAAGTAAAAA
Celera SNP ID:            hCV9908074
SNP Position Genomic:     234796
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,7)   total(C,6|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41770):
GATACCTTCTTTGATTCTATGCCAACAAAAATTCAGACACCCTAGTTATGTCTCTTTAGTCTCTTTTTTAAAAAATCACATCTATTAAGATAAAATTTGA
M
TTCAATGAATCGCACCCATTTAAAGTATACACTTTAGTGCATATTGCCCATACATGCATGTTTGATTCTAACTTCATGATCAAGATACAAAACAATATCA
Celera SNP ID:            hCV1806194
SNP Position Genomic:     107274
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,3)      total(A,2|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41771):
TGCACTGTGGTCTGAGAGACAGTTTGTTGTAATTTCCGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACTATATGGTCAATTTTGGAATAAGTG
Y
GGTGTGGTGCTGAGAAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGTTTGGTGCAGAGCTGATTTCAATTCCTG
Celera SNP ID:            hCV27348911
SNP Position Genomic:     122666
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41772):
AGATGTCTATTAGGTCTGTTTGGTGCAGAGCTGATTTCAATTCCTGGATATCCTTGTTAACTTTCTGTCTCGTTGATCTGTCTAATGTTGACAGTGGGGT
R
TTAAAATCTCCCATTATTATTGTGTGGGAGTCTAAGTTTCTTTGTAGGTCTCTAAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATA
Celera SNP ID:            hCV27348912
SNP Position Genomic:     122821
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41773):
CTTAGGTCTTTGTTGTTATTGCTTCAAGAATGCTTCATTACAGACCACCACAACATTTAGTGGCTTACAGAAAGGCAACACAAATATATATGTGTGTGTG
W
GTGTGTGTGTATGTATGTGTGTGTGTGTGTGTGTGTGTATATATATTTCTCACTCTTGGGTGTGCAAATGAGCTACAACTCAGCTAGGCAAGCCTGGACT
Celera SNP ID:            hCV27348840
SNP Position Genomic:     51669
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,4)   total(A,3|-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41774):
TAATGTTGACAGTGGGGTATTAAAATCTCCCATTATTATTGTGTGGGAGTCTAAGTTTCTTTGTAGGTCTCTAAGGACTTGCTTTATGAATCTGGGTGCT
Y
CTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAACTGATCCCTTTACTATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGT
Celera SNP ID:            hCV27348913
SNP Position Genomic:     122903
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41775):
TAGGTCTTTGTTGTTATTGCTTCAAGAATGCTTCATTACAGACCACCACAACATTTAGTGGCTTACAGAAAGGCAACACAAATATATATGTGTGTGTGTG
W
GTGTGTGTATGTATGTGTGTGTGTGTGTGTGTGTGTATATATATTTCTCACTCTTGGGTGTGCAAATGAGCTACAACTCAGCTAGGCAAGCCTGGACTTC
Celera SNP ID:            hCV27348841
SNP Position Genomic:     51671
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,4)   total(A,3|-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41776):
GTCTCTAAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAACTGATCCCTTTACTATT
R
TGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTTGTTTTCCGTTTG
Celera SNP ID:            hCV27348914
SNP Position Genomic:     122969
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41777):
TGTTGTTATTGCTTCAAGAATGCTTCATTACAGACCACCACAACATTTAGTGGCTTACAGAAAGGCAACACAAATATATATGTGTGTGTGTGTGTGTGTG
T
ATGTATGTGTGTGTGTGTGTGTGTGTGTATATATATTTCTCACTCTTGGGTGTGCAAATGAGCTACAACTCAGCTAGGCAAGCCTGGACTTCAGGCTGAA
Celera SNP ID:            hCV27348842
SNP Position Genomic:     51679
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41778):
AGAGACTAGGATTGCAACCCCTGCCTTTTTTTTGTTTTCCGTTTGCTTGGTAGATCTTCTTCCATCCTTTTATTTTGAGCCTGTGTGTGTCTCTACACGT
S
AGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCTATTTACATTTA
Celera SNP ID:            hCV27348915
SNP Position Genomic:     123125
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41779):
GCCAAAAGACCAAGAAGTCATGTCGCCCAGGCTAGAGTGCAGTGGTGCATTCATGGCTCACTGCAGCCTCAAACTCATGGACTCAAGAGATCCTCCTGCC
K
CAGCCTCCAGAGGATCTGGGCCTGCAGGTGCATGCCACCACACCTAGTTAATTTTTTTTACATTTTTTCAGCAACAGGGTGGCCATGTGACCTTATGTAA
Celera SNP ID:            hCV9908079
SNP Position Genomic:     232444
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41780):
CCTTTTCCTTTGTGGTTTTTCCCTTTGTTTTTATGCTATTAACATGTATCAATATATTTATATTTATAAATCTATATCTAGCTTTGTTCCATTTAGAATT
T
AGTTAGAGTTTGGTATCAACTGAAGACTTAGGTCATTTTATTTTGAAAAAAATAGCTGTCCAAATATTTCATCATAACCATTAATGTTTACTGTATTTAG
Celera SNP ID:            hCV27348770
SNP Position Genomic:     10843
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41781):
GTTGTTATTGCTTCAAGAATGCTTCATTACAGACCACCACAACATTTAGTGGCTTACAGAAAGGCAACACAAATATATATGTGTGTGTGTGTGTGTGTGT
R
TGTATGTGTGTGTGTGTGTGTGTGTGTATATATATTTCTCACTCTTGGGTGTGCAAATGAGCTACAACTCAGCTAGGCAAGCCTGGACTTCAGGCTGAAG
Celera SNP ID:            hCV27348843
SNP Position Genomic:     51680
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41782):
CTGCCTTTTTTTTGTTTTCCGTTTGCTTGGTAGATCTTCTTCCATCCTTTTATTTTGAGCCTGTGTGTGTCTCTACACGTCAGATGGGTTTCCTGAATAC
R
GCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCTATTTACATTTAAGGTTAATATTGTTATGTGT
Celera SNP ID:            hCV27348916
SNP Position Genomic:     123145
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41783):
CTTTTCCTTTGTGGTTTTTCCCTTTGTTTTTATGCTATTAACATGTATCAATATATTTATATTTATAAATCTATATCTAGCTTTGTTCCATTTAGAATTT
A
GTTAGAGTTTGGTATCAACTGAAGACTTAGGTCATTTTATTTTGAAAAAAATAGCTGTCCAAATATTTCATCATAACCATTAATGTTTACTGTATTTAGA
Celera SNP ID:            hCV27348771
SNP Position Genomic:     10844
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41784):
TTATTGCTTCAAGAATGCTTCATTACAGACCACCACAACATTTAGTGGCTTACAGAAAGGCAACACAAATATATATGTGTGTGTGTGTGTGTGTGTATGT
R
TGTGTGTGTGTGTGTGTGTGTGTATATATATTTCTCACTCTTGGGTGTGCAAATGAGCTACAACTCAGCTAGGCAAGCCTGGACTTCAGGCTGAAGGCTG
Celera SNP ID:            hCV27348844
SNP Position Genomic:     51684
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41785):
AATTTGATCCTGTCATTATGATTTTAGCTGGTTATTTTGTTCGTTAGTTGATGCAGTTTCTTCCTAGCCTTGATGGTCTTTACAATTTGGCATTTTTTTG
Y
GGTGGCTGGTACTGGTTTTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGT
Celera SNP ID:            hCV27348917
SNP Position Genomic:     123347
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41786):
TTTTCCTTTGTGGTTTTTCCCTTTGTTTTTATGCTATTAACATGTATCAATATATTTATATTTATAAATCTATATCTAGCTTTGTTCCATTTAGAATTTA
G
TTAGAGTTTGGTATCAACTGAAGACTTAGGTCATTTTATTTTGAAAAAAATAGCTGTCCAAATATTTCATCATAACCATTAATGTTTACTGTATTTAGAA
Celera SNP ID:            hCV27348772
SNP Position Genomic:     10845
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41787):
GAGAGATGTGGGCCTCAGGCGTCCTGTTCTTGGGGTTGTACGTCTGCACCTGGAGGGGACACTGGGGAGGAAACGTGGGTTCGGAGCAGGGGGCGGCGTC
Y
GCGTCTGACCCGGCCTGCCGGTTGCTTGTCGCCCGCGCAGGAGCTGGCCGGGCGCCGCCTGCAGGCTGTCCCGGGCCGAGTCGGAGCGACGCTGCCGCGC
Celera SNP ID:            hCV16187315
SNP Position Genomic:     33968
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41788):
TATTGCTTCAAGAATGCTTCATTACAGACCACCACAACATTTAGTGGCTTACAGAAAGGCAACACAAATATATATGTGTGTGTGTGTGTGTGTGTATGTA
T
GTGTGTGTGTGTGTGTGTGTGTATATATATTTCTCACTCTTGGGTGTGCAAATGAGCTACAACTCAGCTAGGCAAGCCTGGACTTCAGGCTGAAGGCTGG
Celera SNP ID:            hCV27348845
SNP Position Genomic:     51685
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41789):
TTTCTCCTTCACTTATAAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTACGAATGTTGAATATTGGCCCCCACCCTCTTCT
K
GCTTGTAGAGTTTCTGCCGAGAGATCAGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCTGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCC
Celera SNP ID:            hCV27348918
SNP Position Genomic:     123563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41790):
TTATTGTGTGGGAGTCTAAGTTTCTTTGTAGGTCTCTAAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAG
S
TCTTCTTGTTGAACTGATCCCTTTACTATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTG
Celera SNP ID:            hCV29442220
SNP Position Genomic:     122938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41791):
ATTGCTTCAAGAATGCTTCATTACAGACCACCACAACATTTAGTGGCTTACAGAAAGGCAACACAAATATATATGTGTGTGTGTGTGTGTGTGTATGTAT
G
TGTGTGTGTGTGTGTGTGTGTATATATATTTCTCACTCTTGGGTGTGCAAATGAGCTACAACTCAGCTAGGCAAGCCTGGACTTCAGGCTGAAGGCTGGC
Celera SNP ID:            hCV27348846
SNP Position Genomic:     51686
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41792):
TTGTGGCGTTCTCTGTATTTCCTGAGTTTGAATGTTGGCCTGCCTGGCTAGATTGGGGAAGTTCTGCTGGATAATATCCTGCAGAGTGTTTTCCAACTTG
R
TTCCATTCTCCCTGTCACTTTCAGGTACACCAATCAGACGCAGATTTGGGCTTTTCACATAGTCCCATATTTCTTGGAGGATTTGTTCATTTCTTTTAAT
Celera SNP ID:            hCV27348919
SNP Position Genomic:     123828
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41793):
GAAAAAGAGTATATTTATAGCATAATATAATAAACTACTGTCTCCTTCTGGGGCAAAGGTCAGGAATACTTACTGCCCACTGTGAAAGAGCAGGGACCCC
S
TATCCTGAGGGTTCCTCTCCTGGAACACAACCAACTGCATGTTCAAACACCACTTGGTTCTCATTGTGTTGCCTTTTGGGAAGTAAAACTTGATAACTAT
Celera SNP ID:            hCV29442221
SNP Position Genomic:     130547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41794):
TTGCTTCAAGAATGCTTCATTACAGACCACCACAACATTTAGTGGCTTACAGAAAGGCAACACAAATATATATGTGTGTGTGTGTGTGTGTGTATGTATG
T
GTGTGTGTGTGTGTGTGTGTATATATATTTCTCACTCTTGGGTGTGCAAATGAGCTACAACTCAGCTAGGCAAGCCTGGACTTCAGGCTGAAGGCTGGCT
Celera SNP ID:            hCV27348847
SNP Position Genomic:     51687
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41795):
GGCTAAAAATTTGGAGGAATCATGAAAAGACATTCACCAAGAATTTCCTTTTCTAGAAGTGAGGATGATTATGTTTTCTGTTTTTCATGCCATTTTGCAA
R
TCAAAGTGATTTTTAACTCAGAAGATTAACATATGCTTATGTTATTTTATGCATTATAAACTTGGTAAAGCTATTTTCCAAAGTAAATATTGGTATGCCA
Celera SNP ID:            hCV29442222
SNP Position Genomic:     131873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41796):
TGCTTCAAGAATGCTTCATTACAGACCACCACAACATTTAGTGGCTTACAGAAAGGCAACACAAATATATATGTGTGTGTGTGTGTGTGTGTATGTATGT
G
TGTGTGTGTGTGTGTGTGTATATATATTTCTCACTCTTGGGTGTGCAAATGAGCTACAACTCAGCTAGGCAAGCCTGGACTTCAGGCTGAAGGCTGGCTG
Celera SNP ID:            hCV27348848
SNP Position Genomic:     51688
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41797):
TAAAGCTTTCATATCTGTCATATTAGTCCATTTTCATGCTGCTGATAAAGACATACCCAAGACCGGGCAATTTACAAAAGAAAGAGGTTTAATGGACTTA
Y
AGTTCCGCATGGCTGGGGAGGCCTCACAATCATGGTGGAAGGCAAGGAGGAGCAAGTCACATCTTACGTGGATGGTGGCAGGCAAAGAGAGTTGTTCATG
Celera SNP ID:            hCV95846
SNP Position Genomic:     89250
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41798):
TTCTTTGATGTTTTCAATATTTCAACTCTTTGAGAAACTTTTTAAATCAAATTTATTGTAATAAACTGTATTTTAAGGTTTTTTAAAAAATTCTCTCCTT
Y
CCCAAACTTGAAACTGGCTCCCGTTAGTAAAGAACATTGGCTCATATTAATAGAAAACATTGACTAAGGAACCAAACATAAATCACAAACAAAAAAGAAA
Celera SNP ID:            hCV95847
SNP Position Genomic:     89042
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41799):
TCAACTAGAAGAATGTAGGAGAAGCTGGATTGGACTGTGGGTGATTGCTAGAAATATTAAGAAACCACGAAGGAGAGCATCAGGATAAATAGCTAATGCA
M
ATGGGACTTAATACCTAGGTGATGGGTTGATAGGTGCAGCAAACCACCATGGCACACGTTCACCTAGGTAACAAACCTGCACGTCCTGCACATGTATCCC
Celera SNP ID:            hCV27348777
SNP Position Genomic:     14557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41800):
GTCATATTTTTGAAATAAAATTTACATTGTTTTATTCTATGTTAGAAGTCTTACATTTATATGTAGTCAAATCAATTGATTTTTTATTTGTGATTTCTGT
M
ATTATTAAGAAAGTTTTTGTCCAGAGCTCAGATGAATATTCCATATTTGGTTCTTTGATGTTTTCAATATTTCAACTCTTTGAGAAACTTTTTAAATCAA
Celera SNP ID:            hCV95848
SNP Position Genomic:     88891
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41801):
GATTTGTATCTATAAATCCTACTGAGCTCTCACAGAAAGGACTGGAAGATGCTTTTGAAAACAGATCCAGGAAGTGGGGAACTCAAGGAAGAGAGGAGCA
R
CTCCTCCAGGATGGTCATGAAACTATCCAGACATTTAGTACCTGTTTCCCCTATAAAACAAAATCTTTCACTGTCGGGGAAAGGGTAATACATCTCCTTG
Celera SNP ID:            hCV29442226
SNP Position Genomic:     141490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41802):
TGCATTGTGGTTTATCACCAAAACCATTGAACCTCATTAACCTCAGTGATAACGTACACAATTGGTTTTGAGATGTTTACAGCTGGACTCTACCAAAACA
Y
AAGACTATTAGAGAGTAAAAGATATGGGAAATATATTCATTGGCTGGATACATTATTCTACATTAATATTTTCCAAAGGATTAATTTGGCCTCATCTTGG
Celera SNP ID:            hCV27348779
SNP Position Genomic:     15188
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41803):
TGCAAATTCTAAGCTAAAAAAATTAAAAATATTTTTCATGATAGGATATATGAGGCTCATTAGTGTGCTGATATATATCGTGACACATTAGAACAGAAGA
Y
AGCAGACTCTTTTCCATGTTTATTTTACCCTAGAATCTTCTGTGAAGAGAGTTTCATGAAACTGAGCCTCCATGAACTCACTTCAGGGGATAAGCAACTT
Celera SNP ID:            hCV29442227
SNP Position Genomic:     145911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41804):
CGTGACACATTAGAACAGAAGATAGCAGACTCTTTTCCATGTTTATTTTACCCTAGAATCTTCTGTGAAGAGAGTTTCATGAAACTGAGCCTCCATGAAC
Y
CACTTCAGGGGATAAGCAACTTAGAATATTGCTTCTATTGATGCGTCATTGGGTCAATTTGGAAGGGATGGATCTCTCCCTATCCTGTATACATTTTGTT
Celera SNP ID:            hCV29442228
SNP Position Genomic:     145989
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41805):
CTGCTCAACTTTCAAGGGCCAGTTAACAGTCAAGGAAGTCCAGAAAGTCTCTGCTGTTACGTCTATAGGTCATAGACTTTATCGCTCAGCTTAACTCAAG
R
TGACAATCACTTCTGGCTGACAATCACATCAGCTTCTTTGTATATTAGCCTTGACTTTGAAGTTTGTACATTCTTTGAGGACAAGGACCAAGTACTGCAC
Celera SNP ID:            hCV29442229
SNP Position Genomic:     147064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41806):
GTCATCTCAGGGGGATACCTAAGGCCAAAATGTCATCTGACAACTGATCCAGAATCCACTATATCACCTGCATCCTTTGTTGACTCATAAATTTATTATT
Y
ATGTTGTACATTATTTTTAGTTATTTTTGCCATAAATATATATCGAGTATGTAATATGTATTGGGCACTATTTTAGATGATGGCAGAAAAAAGTGGTAGC
Celera SNP ID:            hCV29442087
SNP Position Genomic:     28904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41807):
TCCAAGAAAAATTCTATACAATGAAGGAAACTTGGTCACAGGTCAAAGAATTAGGGCACAAGCCATCTGCCAAGTATGAAATAAAGGAATCTTGTGCCAC
R
TACACTTGTGAAAGCAAAACGATTTGTCCAAATCCTTAAAATTCCTTGACAGGGCTTATAGGATTATCTGTCGCTCTCCAGAGATTAATAAGAAACTGAA
Celera SNP ID:            hCV27481514
SNP Position Genomic:     247159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41808):
TTGGGCGTGCGACTTCTTCTAAGCCAGAAAAGCCTCAACATCTGTGCAGTGTGGATCTCATCTCTGTGCATATGGGCTGTGTTATCCCAAGAGAAAATAG
Y
CCCCAATTATATGAGTTCATCCTCATGAACTCCTGCAAGAACTCCCATGGGTATATCCTGGTGCCTGACAGTGCCTGCTGGTAAGATGTGGCTCCTGTCC
Celera SNP ID:            hCV27481515
SNP Position Genomic:     276331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41809):
AAAGCAAAAAAAAAAAAAAAAACAACAACAACAAAAAAAAATAGTTTTCCAAGAAACCCTCTCCAGGAGACTTCTGCTTACCTCTCAGTGATCAAAAACC
K
TTTCACCACAGTTACTTACCACGTCCTACCGATCCGCATTCTCGCAAGTGTCCTTCACTCCATTTACTCTACTGCATTTTTCACTGTATTTCTCATGCCA
Celera SNP ID:            hCV27481516
SNP Position Genomic:     285605
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,72|T,1403)   total(G,72|T,1403) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41810):
AAAAAAAATTATTTATTTATTTATTTATTTTTAGAGACAGGATCTCACTCTGTAGTTCAGGCTACACTTTATCTTAGCCAAAAGACCAAGAAGTCATGTC
R
CCCAGGCTAGAGTGCAGTGGTGCATTCATGGCTCACTGCAGCCTCAAACTCATGGACTCAAGAGATCCTCCTGCCTCAGCCTCCAGAGGATCTGGGCCTG
Celera SNP ID:            hCV9908080
SNP Position Genomic:     232368
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41811):
GTTTGTTAGTTTTCCTTCTAACAGTCAGGACCCTCAGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCCACTCCAGACCCTGTTTGCCTGGGTATCAGCAG
Y
GGCAGCTGCAGAACCGCGGATATTGGTGAACAGCAAATGTTGCTGCCTGATCGTTCCTCTGGAAGTTTTGTCTCAGAGGAGTACCTGGCCGTGTGAGGTG
Celera SNP ID:            hCV27348920
SNP Position Genomic:     124513
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41812):
TAAGTAAGGAGTTCTTTCCCCATTGCTTGTTTTCGTCAGGTTTGTTGAAGATCAGATGGTTATAGATGTGCAGTCTTATTTCTGAGTTCTCTATTCTGTT
S
CATTGGTCTATGTGTCTGTTTTGTACCAGTACCATGCTGTTTTGGTTACCATGTGACTTTTTAAAAAAAATTATTTATTTATTTATTTATTTTTAGAGAC
Celera SNP ID:            hCV9908084
SNP Position Genomic:     232205
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41813):
GTGCCTCCCAGCTAGGCTCCTCGGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGTCTGTTCTCAGTTGTCCAGCTGCATGCTGGGAGAACCACTACTCT
B
TTCAAAGCTATCAGACAGGGACATTTAAGTCTGCAGAGGATTCTGCTGCCTTTTGTTTGGCTATGCCCCGCCCCCAGAGGTGGAGTCTACAGAGACAGGC
Celera SNP ID:            hCV27348921
SNP Position Genomic:     124736
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41814):
AGTCTGCAGAGGATTCTGCTGCCTTTTGTTTGGCTATGCCCCGCCCCCAGAGGTGGAGTCTACAGAGACAGGCAGGCCTCCTTGAGCTGCGGTGGGCTCC
M
CCCAGTTCAAGCTTCCTGGCCGCTTTGTTTACCTTCTCAAGCCTCGGCAATGGCGGGCACCCCTCCCCGAGCCTTGCTGCTGCCTTGCAGTTTGATCTCA
Celera SNP ID:            hCV27348922
SNP Position Genomic:     124864
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41815):
GCACTCATGCTCTAAGATATCTGCAGGGACCCTAGAGTCATCCCTGCGTCTCAGGAAGGAAGAAAGTAAAATGCCAAGGGAAAACAAAACGACATTGCTT
R
TTCTTTAAGTAAAGAACTTGACACCTTTAAAGCCACCTTTTCAGGAGCCCACTCAGTGGCTTCTGTTTCTTTTTCATACAATTATATTTCATTGACTTTG
Celera SNP ID:            hCV9908086
SNP Position Genomic:     225500
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,7)      total(G,7|A,7) ;TSC_42_A(A,-|G,-)   TSC_42_C(A,-|G,-)   TSC_42_AA(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41816):
GTTCAAGCTTCCTGGCCGCTTTGTTTACCTTCTCAAGCCTCGGCAATGGCGGGCACCCCTCCCCGAGCCTTGCTGCTGCCTTGCAGTTTGATCTCAGACT
R
CTGTGCTAGCAATGAGCAAGGCTCCATGGTCATAGGACCCTCCAAGTCAGGCGCGAGATATAATCTCCTGGTGTGCCGTTTGCTAAGACCATTGGAAAAG
Celera SNP ID:            hCV27348923
SNP Position Genomic:     124969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41817):
GTGATCACAGTACCCGGTTTCAATACCATATCAAAGAAAGAGGCAATGAAGAGGTAGGAAAGACAGTCTTGAATCACCACACCATGCCTACCCCATCCGC
Y
GGCAGCAGCCATGTAGTGTGGAGAGATCATCTCTGTGCTGTTGAGGGAGAGGGAACAGTGATTGTGGAACTTTGGATTGGAACTCAGTTTTGCCCTGTAC
Celera SNP ID:            hCV27348851
SNP Position Genomic:     53441
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41818):
GTCCAAAATCGAAGTAAGAAAATAACAGAATAAACCTAAAAAAGTAAAGAAAGATAATGAAAACAAACAAAAATGATAGAAATAATTTAAAAAGTCAAAT
R
TTAAGTCTTTGTATAGTCTTCCTGCAAACTTAATTTTAAAAACTAACAAACTCATAACAGAACAAACAAAGGTGAAAAGCAACAGACAAACCTAACAGAA
Celera SNP ID:            hCV27348924
SNP Position Genomic:     126700
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41819):
GTATGCCTGTATCAAAATATCTCAGGCACCCTATAAATACATACACCTATTATGCACCCACAACAATGAAAAAGAAAAATTGCTTTCTTACATTAAATAT
R
TGTATATATCTCTGTGTGTGTGTATATATATATATGTGTATATATATACACACATGTATATACACATACACACACACACAAAAAGAGATAAAGCAAACTC
Celera SNP ID:            hCV27348925
SNP Position Genomic:     128055
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41820):
CTGGCTAACAAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGC
R
GGAGAATGGCGTGAACCCGGGAAGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGTGACAGAGCGAGACTCCGTCTC
Celera SNP ID:            hCV12106720
SNP Position Genomic:     289482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41821):
TGGCTCAGTTTGCAACCTGCTGACTGAAGAGCCCCTGGGCCTTGAACAAAATTGGCAGTAGCCAGGCAGTGTGGTTGCTATGAGCCTTGGGTGAGACCTA
R
TACCATGCTGGCTTTGGGACTGACCCAGAGTAGTCCCAGTAGTAGTTGCAACAGGGGTGCTTGTGTTACCCCTCCCCCAGTTCCAGGCAGATCAGTGTGA
Celera SNP ID:            hCV27348853
SNP Position Genomic:     54762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41822):
AGGCACCCTATAAATACATACACCTATTATGCACCCACAACAATGAAAAAGAAAAATTGCTTTCTTACATTAAATATGTGTATATATCTCTGTGTGTGTG
T
ATATATATATATGTGTATATATATACACACATGTATATACACATACACACACACACAAAAAGAGATAAAGCAAACTCTAAAAAGGTTTATTAACCATAGT
Celera SNP ID:            hCV27348926
SNP Position Genomic:     128078
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41823):
GGCACCCTATAAATACATACACCTATTATGCACCCACAACAATGAAAAAGAAAAATTGCTTTCTTACATTAAATATGTGTATATATCTCTGTGTGTGTGT
A
TATATATATATGTGTATATATATACACACATGTATATACACATACACACACACACAAAAAGAGATAAAGCAAACTCTAAAAAGGTTTATTAACCATAGTT
Celera SNP ID:            hCV27348927
SNP Position Genomic:     128079
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41824):
TGATGCTCACACAGTGATGAAATTGCCTAGTGATGCACTTCTCAGGGAAGACCCTGTTGTTAAGCAATGTAGAACTGTAATAGGGAGATATGACAAAAAA
W
ATACTTCTAAATAAGCCTAAAATATCTCTTTCAATAAATATAAAATTAAAATCTAACTGATAAGAGCCTGTGTCATAGTTTAGTTTGCCACATTTTTTTC
Celera SNP ID:            hCV27348782
SNP Position Genomic:     18542
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,7)   total(A,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41825):
AAGAGAGACTACATTTGTTTGGAGGAAAGTAAGGGAAGAGAACATGAGTCTGCCTGGTAATTCAAGGAATTCTCCTGGATCTTATCCAGGACCACCAAGG
R
GATACCTTTACAAGTCTGTAAGAATCACGGCATTACTGGGCTTGGGGTGCCCCCTAATGCAGACACAGCTGCAATGACCAAAGATTTAGATAACAACACT
Celera SNP ID:            hCV27348855
SNP Position Genomic:     54964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,8)      total(G,6|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41826):
ACCCACAACAATGAAAAAGAAAAATTGCTTTCTTACATTAAATATGTGTATATATCTCTGTGTGTGTGTATATATATATATGTGTATATATATACACACA
Y
GTATATACACATACACACACACACAAAAAGAGATAAAGCAAACTCTAAAAAGGTTTATTAACCATAGTTACCATTTTAGATGTTTAAAAGTCTTGTTACC
Celera SNP ID:            hCV27348928
SNP Position Genomic:     128110
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41827):
AACAGGCAATTGAACTAAGCAGTGAAAAGCATATTAGTTTATCTTAGAGAAATGTCAGTAGGATGGTGGGAATAAAATCTGATTGTAAATAAAAGGTGAG
W
CTTGGAATGAAACCTACCTTCGCCTAATGTAGTACTGATTATATTTTGTAAAGAACAGGAGACACTTGCTCAGTTGTATGGTTTAAGGGGAGGTATCGAA
Celera SNP ID:            hCV27348929
SNP Position Genomic:     131449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41828):
GTATCAGTATAAGTTAATGCTGAGGAGGAGAAATTATCAGGGGCACATATGATTTTTATTTATGCATTTGATAATAAATTATTTCCACAAATATTTATTA
Y
ATAAATAGTATGTTCAAACATAGTGCAAAACATTGAATAAATACTGGTGAGGAAGATAAGCAAGGTTGCTTCCCTCACAAAGCTTAGAATTTGCTGCTTT
Celera SNP ID:            hCV29442232
SNP Position Genomic:     155162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41829):
TCTAGAGGCATCACATTACCTGATTTCAAACTCTACTATAAGGCCATAGTCACCAAAACAGCATGGTACTGTTATAAAAATAGGCACACAGACCAATGGA
M
CAGAATAGAAATAAACCCAAATACTTACAGCCAACTGATCTTCGACAAAGCAAACAAAAACGTAAAGCAAGAAAGGATACCCTATTCAACAAATGGTGCT
Celera SNP ID:            hCV27348784
SNP Position Genomic:     21263
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41830):
TATTCAAAGGGATAGCCGAGAAATTTCCAAACCTAGAGAAATATGTCAATACTCAAGTACAAGAAGGTTATAGAACACCAAATAGATTTAACCCAAATAA
R
ACTACCTCAAGGAATTCAATAGTCAAATTCCCAAAGGTCCAGGATAAAGAAAAGATTCTTAAATTAGCAAGAGAAAAGAAACAAGTAACATTCAAAGGAA
Celera SNP ID:            hCV27348857
SNP Position Genomic:     55747
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41831):
TAAACTAAAGAGCTTTTGCATGGTAAAAGAAACAGCAGAGTAAACAGACAACCCACAGAGTGGGAGAAAAATCTTCACAATCTATACATCTGACAAAGGA
Y
ACATATTCAGAATCTACAAGGCTCTCAAACAAATCAGCAAGAAAAAAACAATCCCATCAAAACTGGGTTAAGGATGTAAACAGACAATTCTCAAAAGAAG
Celera SNP ID:            hCV27348785
SNP Position Genomic:     21696
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41832):
CCATATTTATGGGGCAAAAACCTAATTTATTACTTAGTGATTGCTAGGTAGTCCATATGTGTGTACCATTACTGCGCTAATTCCCCATTGAACAATATTT
Y
GGTCACTAGTAATTTTTCAAAAACATAAATACAACTATATTTTATATTTCTGAACATACACTTGTGTGTACTTTTTCTTTCTGTTGGGTACATTAATTAA
Celera SNP ID:            hCV29442234
SNP Position Genomic:     161873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41833):
ATAGTTTATTGTACATTGATGAAAAGTTTCCTGGCCTAGTAAAGCCCAGGACTCAATGGTTTCACTGCTCAATTTTACAAAACATTTAAAGAAATAATAC
Y
GATCCTACTTTAACTATTTCAAAAAATGGAGGAGGAGGGAATACTTCCAAACTAATTCTGTGAGGCTAATATTACCCTGATACCAAAACCAGACAAAAAC
Celera SNP ID:            hCV27348859
SNP Position Genomic:     58062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41834):
AGATAAAAGAACTGTCCCATTTAATTATGAGTGTGCAACTTCAAAGGCTTCTCCAGACTGACTGGGGAAAGCCTGCTGCTAAATCTTCCCATTGCAGAAG
R
GTTTCCCTCTTCTGATAATCTCTTGTGCTCCAGAGGATTTCCTAAACATTTTGTGAACACTATTCTCTTGAGGGTATTTTTTTCTATTATTAATTATACA
Celera SNP ID:            hCV29442235
SNP Position Genomic:     164787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41835):
CCAGCCAGCCCATCAGTTACACCAGCTTTGAGGTACATGAGGTCTGGAGGCCATGGGTTCTGGTTCTATTCACTAAAGACCTTGACCACAAGAGATTTGC
S
AATCCTGTGGGTGGTAAAAATGCCACTGAATATGCTTCAGAAGATTCAGAGGGAAGCTTCTATACAAAGCTTAGGTTGGTATATCAGAAGACAGAGGGGT
Celera SNP ID:            hCV27348788
SNP Position Genomic:     25042
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41836):
ACTACTCATGTAACTTAATCTCCAGGTGATGCAAATACAATTCTCCAGTTTTACTTTATTTTTCTGAGGAAGAACTGTCCTCTGGGTACTCAGATTTTTT
W
AAAATAAAACTAAGCTTCTCTGAACATCATTACAATCTGGAGCAGACATCAACCTCTGCAGTATTTCATCATTCTTACAGAATCTGTAGAATTCTATATA
Celera SNP ID:            hCV29442236
SNP Position Genomic:     166919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41837):
TCTGAGGAAGAACTGTCCTCTGGGTACTCAGATTTTTTTAAAATAAAACTAAGCTTCTCTGAACATCATTACAATCTGGAGCAGACATCAACCTCTGCAG
K
ATTTCATCATTCTTACAGAATCTGTAGAATTCTATATACTGTATGGTATTATGCTTATTAGTCTTTAAATTTTTCCTAATTAACAGTCTAAGTTGCAGTG
Celera SNP ID:            hCV29442237
SNP Position Genomic:     166981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41838):
AAATGATTCCTTCTTTGGCATAACTTTTAAAATTGGAATTGAGAAACTGGTAAATTCACAAGAAAAGTTGCAATTTTGTTTTATAATTTTCTGTCTTATC
Y
GAAAAGCCCAATACCTGCCTGAGAATCTGGTACCAACACCTGATATTTCTAAGTGATTTTTAAACTCTACCAGTTAAATATCACAAAGGATTTTGTAGGA
Celera SNP ID:            hCV29442238
SNP Position Genomic:     169104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41839):
ACTTTTAAAATTGGAATTGAGAAACTGGTAAATTCACAAGAAAAGTTGCAATTTTGTTTTATAATTTTCTGTCTTATCTGAAAAGCCCAATACCTGCCTG
R
GAATCTGGTACCAACACCTGATATTTCTAAGTGATTTTTAAACTCTACCAGTTAAATATCACAAAGGATTTTGTAGGACATGTACAGTTTCACTTAAAGT
Celera SNP ID:            hCV29442239
SNP Position Genomic:     169126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41840):
GCATTTCCATAAGTTCCCAAATGATGCTGATGTTGCTGCAGGTCCATGGACCACGCTTTAAGAACAACTGACTTAGTAATTCCCATTCTGTCTCTTTTAG
R
CAGGCCCTTCCCCCACAGGCTGCAGTTCATGTGACTTAGGGAACCTGCCAACTCAGAACCTGTGTCCTTTTTTCCTAAGCCGCACTTTGGTTATCCAAGA
Celera SNP ID:            hCV29442099
SNP Position Genomic:     31051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41841):
GGAGTCACAGTTCCACATGGCTGGAGAGGCCTCACAATCATGGTGGAAGGTGAAAGGCACATCTCACATGGCGGGAGACAAGAGAGAATGAGAATCAAGC
R
AAAGGGATTTCCCTTTATAAAACCATCAGATCTCATAAGATTTATTCACTACCATGAGAGCAATATGGGGGAAACCACCCCCATGATTCAATTATCTCCC
Celera SNP ID:            hCV9908093
SNP Position Genomic:     218815
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41842):
AGGTTGAAATAGAGAAGAGAGAGGAATTCGGGACCCAAAGAACCAGAAGGCAAAGAAGTCAAGGCTCCTTGAAAGGAATGGACCTAGACATGGCCTTGGG
K
GCTGGAGAAAAGGGAGCAAGATGGATCAGGAAGGAAGTTCAGGAAGGGAGGGGATTTCTGTCTTGCTCCTCAGCTCCAGGGTACCTGAGCTGGGTAAGTG
Celera SNP ID:            hCV27348930
SNP Position Genomic:     131660
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41843):
CACTATAAAATATATTACCAGATATTAATTTGATGGTAGAACAAAGGAAGGATCTGCTATAAAATATATCAAGTAAGGTTTTACATGTCATTATACACAA
Y
TGCAGAGTTTTTTGAGAGGCTCTAATGAAAGGGTACTTCTCATGCTTTGGAAGCTCAAGTCTTCCTCCTCAAAGAGAGTCAATGACATTATTTTACAGAG
Celera SNP ID:            hCV9908094
SNP Position Genomic:     218290
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41844):
TATAAAGTAAAGTAATACTCTACTTGAAAGGAATATTCCTGTTACACTATAAAATATATTACCAGATATTAATTTGATGGTAGAACAAAGGAAGGATCTG
Y
TATAAAATATATCAAGTAAGGTTTTACATGTCATTATACACAATTGCAGAGTTTTTTGAGAGGCTCTAATGAAAGGGTACTTCTCATGCTTTGGAAGCTC
Celera SNP ID:            hCV9908095
SNP Position Genomic:     218246
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;Control(C,207|T,274)   total(C,207|T,274)
SNP Type:                 INTRON


Context             (SEQ ID NO:41845):
TTTTTTGAGACAGAGTTTCTCTCATTGCCCAGGCAGAAGTCCAATGGCACGATCTCGGCTCACCGCAACATCTGCCTTCCAGGTTCAAGCAATTCAACTG
Y
CTCAACCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCACACTCAGCTAATTTTGTATTTTTAGTAGAGACGGGTTTTCTCCATGTTGGTCAGGCTG
Celera SNP ID:            hCV27348932
SNP Position Genomic:     134059
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41846):
GACTCAATGGTTTCACTGCTCAATTTTACAAAACATTTAAAGAAATAATACCGATCCTACTTTAACTATTTCAAAAAATGGAGGAGGAGGGAATACTTCC
R
AACTAATTCTGTGAGGCTAATATTACCCTGATACCAAAACCAGACAAAAACACATCAAAGTAAGAAAACTATAGGCCAATATCCCTGATAAGCATTGGTG
Celera SNP ID:            hCV27348860
SNP Position Genomic:     58111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41847):
TAAAATAATACACAGACAACGCACACAAGAAAATATATATGCATGTATTTAAGTATCTACATATATGTATGTGTATATATATGCATGTATTTAAGTGTTT
T
GTGTGTGTGTGTGTATGTTTTATATAGATAAAACATTGGTTAGCACTTTAAAGTCTTTAAATTCTTATCTGGCTCCAATTGGTTTTGAATTCATCTGTTA
Celera SNP ID:            hCV27348933
SNP Position Genomic:     135856
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41848):
AAAATAATACACAGACAACGCACACAAGAAAATATATATGCATGTATTTAAGTATCTACATATATGTATGTGTATATATATGCATGTATTTAAGTGTTTT
G
TGTGTGTGTGTGTATGTTTTATATAGATAAAACATTGGTTAGCACTTTAAAGTCTTTAAATTCTTATCTGGCTCCAATTGGTTTTGAATTCATCTGTTAG
Celera SNP ID:            hCV27348934
SNP Position Genomic:     135857
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41849):
GTCTGACACAGTGTTAGTCTAAGCATGTGCCTAAGATGCTAATACAGGTTATGAGAAAAGGGGCCTCGTAGCCAAAGTTTTGCAAATTCTAAGCTAAAAA
M
ATTAAAAATATTTTTCATGATAGGATATATGAGGCTCATTAGTGTGCTGATATATATCGTGACACATTAGAACAGAAGATAGCAGACTCTTTTCCATGTT
Celera SNP ID:            hCV27348935
SNP Position Genomic:     145831
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,7)   total(A,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41850):
CAATAAGAAAATCTACCAAGGATGAATGAAATGATTTCATTGTGGACACTTGTGATTTATAATAGCATGTTTAAATTTGGCACATTTTGATCATAATCAT
R
ATACCTATATGTATTTTATTGCAGGGAATGGAATATGTAGCTGTGGAAACTGTGAATGCTGGGATGGATGGAATGGAAATGCATGTGAAATCTGGCTTGG
Celera SNP ID:            hCV25611055
SNP Position Genomic:     295749
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(A,5|G,31)   total(A,8|G,62)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41851):
TTAACCACTGCAAGAATTTGGCTTAATGCTTTTATAAATAGGCTAGGTGGTTGACAGGTGAGATCACTTATGCTTAAAAATGATACCAAGTTGGGCAAGA
Y
TGACAATATTTTGTAGGGCCAGGCAGGAATGCAAAATGATGCAGTCAATTTGAGGGAGTAATGTGTGCTGAATAGAATGAATTCCTAATAAAATACTTGC
Celera SNP ID:            hCV27348936
SNP Position Genomic:     146548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41852):
ATGCAAATCAAAGCTACAATGAGATATCGTTTCACCCCAGTTAAAGTGGCTTTAATCCAAAAGGCAGGCAGTAACATTCCCACCAACAGTGTATGAGAGT
K
GGAGAAAAAGGAACCCTCTTACAGTGTTGGTGGGAATGAAAATTAGCATAGCCACTGTGAAGAACAATTTGGAAGTTCCTCAAAAAACTAAAAATAGAGC
Celera SNP ID:            hCV27348864
SNP Position Genomic:     59973
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41853):
AACTGGTAAATTCACAAGAAAAGTTGCAATTTTGTTTTATAATTTTCTGTCTTATCTGAAAAGCCCAATACCTGCCTGAGAATCTGGTACCAACACCTGA
Y
ATTTCTAAGTGATTTTTAAACTCTACCAGTTAAATATCACAAAGGATTTTGTAGGACATGTACAGTTTCACTTAAAGTGGTATCTCTAATATTCTAAAAT
Celera SNP ID:            hCV29442240
SNP Position Genomic:     169148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41854):
CCTCAAAAAACTAAAAATAGAGCTATCATATGATCAAGCAATCCCACTGCTGGATACATACCGAAAAGAAAAGAAATCAGGGTATGGAAGAGATATCTGC
M
CTGTTATGTTTATTGCAGCACTATTCACTATCACAAAAGACTTGGAAGCAACCTAAGTGGCCATAAACAGATGAACAGTTAAAGAAAATGTGGTATCTAT
Celera SNP ID:            hCV27348865
SNP Position Genomic:     60151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41855):
CTTCCTGAAGCTCACATTGTTGGTAGGGCCCATCTCTAACCAGAGCTGAGAATTCCCCACAGTCTGATTGCAACAGATTGTGTGTTTTAGACTGAGCTCA
R
TTAAAGGTGTTTTGCTGATAGGAATCAGACCATATCCAAAGCGAGGTGTGAGTGGATCCGTCAGGGGTCATGACAAATGGTCTTAGCAGTTAGGTCCCTT
Celera SNP ID:            hCV27348938
SNP Position Genomic:     148994
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41856):
CACGTCACTGCTTGTGAATTCAGGTGGGCCTTAGTGGCAGATGACATTCTCTTGGGCAGTTAGGGACTTCCTGGGTCCCGCATCGGCTAGATGTATTGTT
S
TAACCTTCACAGCCATTAAACTTTCAAGAGTGGAGAAACTTTTTCTCCCTCTTCAATCTGGTTTTCAATGTTATTGTTAAAGTGTCAACAAGCAATGTTA
Celera SNP ID:            hCV29442241
SNP Position Genomic:     170708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41857):
CAGGGGTCATGACAAATGGTCTTAGCAGTTAGGTCCCTTTCTGTGTTCATGATGTTCTCATCATATTTCTCTAGCACTTCAGTCTTTCTTTCTTCTTAGT
M
GGATTTCTCTACGTCCAATTCATAACACCCACCCCTCCAAACACACACACACACACACACACACACACACACACTCTTCTCTACTTCCAATTCATAACAC
Celera SNP ID:            hCV27348939
SNP Position Genomic:     149156
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41858):
TTATTGTTAAAGTGTCAACAAGCAATGTTATTGTTCCAGTGTCAACAAGTCTCTCGCAAATGTCAGCATGTTCTGTACTTTGCCCAGTTTCCTCACAACA
R
ATCTGTCGCTGAAATAAAACCACTTGTCTCCAAGAATTTCAAAGCCATTGGCTCCTGTGAAACAACAGAATTGACTGTACTTTAAATGTGAAATATTTAT
Celera SNP ID:            hCV29442242
SNP Position Genomic:     170879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41859):
TATATGTGTAACTATATACACACACATGCATATATATACACACACACGCATATATATATATACACACACGTGCATGTATATACACACATATATATACACA
W
GTGCATATATATATGTATATATATATATGAGAGAGAGCATATATATACATATGAGAGAGAGAGAGAGACTGTGAACGCCCTTGGCAGTCAATGTGAGCAG
Celera SNP ID:            hCV27348867
SNP Position Genomic:     61280
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41860):
ATAAATCCAATTTCCATGAATGAAAGTACATGGAGAAATATGATTCTCTTTCTCTCTTTATATATATCTTTTGCACACAGACACTCTCACTCACTGTCAG
S
CTACTTTAGCCTTAAGGTATGTTCAATTTCAGTTCAGTTCAGTTCAATGTTACATTAAAAAACACAGTTTAGACGTTTGCTTAAAGTTTTCTGAATGAGA
Celera SNP ID:            hCV29442243
SNP Position Genomic:     182241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41861):
TACACACACATGCATATATATACACACACACGCATATATATATATACACACACGTGCATGTATATACACACATATATATACACATGTGCATATATATATG
W
ATATATATATATGAGAGAGAGCATATATATACATATGAGAGAGAGAGAGAGACTGTGAACGCCCTTGGCAGTCAATGTGAGCAGAGAATTGGCTTTTCCA
Celera SNP ID:            hCV27348868
SNP Position Genomic:     61296
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,5)   total(A,3|-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41862):
ATATATATACACACACGTGCATGTATATACACACATATATATACACATGTGCATATATATATGTATATATATATATGAGAGAGAGCATATATATACATAT
R
AGAGAGAGAGAGAGACTGTGAACGCCCTTGGCAGTCAATGTGAGCAGAGAATTGGCTTTTCCAGAAAGGAGTTTCTGGGACATCACTCTTGGGATAAATA
Celera SNP ID:            hCV27348869
SNP Position Genomic:     61333
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4|G,4)   total(G,4|A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41863):
TAAATCCAATTTCCATGAATGAAAGTACATGGAGAAATATGATTCTCTTTCTCTCTTTATATATATCTTTTGCACACAGACACTCTCACTCACTGTCAGG
Y
TACTTTAGCCTTAAGGTATGTTCAATTTCAGTTCAGTTCAGTTCAATGTTACATTAAAAAACACAGTTTAGACGTTTGCTTAAAGTTTTCTGAATGAGAC
Celera SNP ID:            hCV29442244
SNP Position Genomic:     182242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41864):
AATATATGTTAATAGAGATATAATTCACATACCACAAAATTCACATACCACTCAGTATTTTGATATATTAACATAATTATGCAGCCATCACCACTGTCCA
R
TTCCAAAAAAAAAGTTTATCATCATAAAATACCCTGTTACCCTATAGCAGCCACTCCCCATTCTCTTGTCCCAGAACCCCTGGAAACCACCAATCTACTT
Celera SNP ID:            hCV29442245
SNP Position Genomic:     182845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41865):
AATAAAGTTTTATTAGATCATTGCCATGCTCATTTGTTTACGTATAGCTACTTTCTTGCTGTAATGGCAAAGTTGAGTAGTGGCCACAGAGAGCACAGGG
Y
CCACAAAGCCTGAAATATTTCTCATGCAGCCCCTTACAGAAAAAACCTGCTACCCCTGAGCTAAGCATTTGTGATAATTGTGACAAATATGTCGGGAGAA
Celera SNP ID:            hCV29442246
SNP Position Genomic:     190897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41866):
TGCTGTAATGGCAAAGTTGAGTAGTGGCCACAGAGAGCACAGGGCCCACAAAGCCTGAAATATTTCTCATGCAGCCCCTTACAGAAAAAACCTGCTACCC
Y
TGAGCTAAGCATTTGTGATAATTGTGACAAATATGTCGGGAGAAGGGATTGAGTGTCTTGAGAATCAGAGGAAGATGACATTTGCTCAATTTGTGTGCAA
Celera SNP ID:            hCV29442247
SNP Position Genomic:     190953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41867):
CATAAGAAAATATGGAGTATGTAGTGCCTGGTAAAGTCTCTCCTACTGCTTCCTTTAATTTGCTGGAAGTCTGGGTATGGTTAATGATACTGTTGAATTA
Y
AGTTGCAATGGTGAGAGAGAATTGTAAAACTCACCCTCTTGAGTGTAGCTTAATGTAATTATAAAAAAAAAGGTGGTAGCAAAATCCAAGTGACATAATT
Celera SNP ID:            hCV29442248
SNP Position Genomic:     192695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41868):
CCTCACAAATCTAGAATATGATGTAATTATAATTTTACACATCTGTTGTAAGTGGCTCTGTATATTTCAAAACTTGTTCATTCTCAACTTCTTAAATGTG
R
GCTGAGCATTATAGGATGCATACAATTTTATTATTTGATCTCTCGTCTTAAATTGTCATGACCCAAGAGGGCTACAGCAGTATTTCTAGAAGGCATTTCT
Celera SNP ID:            hCV29442249
SNP Position Genomic:     200650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41869):
GAGAGGGAAGGGTGGGAAGAACTTTGTTTTGCAGCTTGGGTGCCAACTCAAGTCACAGCAGAACAGTGCACTAAGTAGATTATTAAGTTTCCTGACTCCA
Y
GCACTGGCTCATGGACAGCATTTCTGGGCCAGCCTTGAGCCAGGGAGTAGCTTGCTGCCCTAAAGGGAGGAACACAATCCTGGCTCAGTTTGCAACCTGC
Celera SNP ID:            hCV29442178
SNP Position Genomic:     54581
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41870):
CACTTCAGTCTTTCTTTCTTCTTAGTAGGATTTCTCTACGTCCAATTCATAACACCCACCCCTCCAAACACACACACACACACACACACACACACACACA
C
TCTTCTCTACTTCCAATTCATAACACCCACCCCTCCATACACACACACACACGCGCACGCGCGCGCATGCCCCATAGCGTCTTTCATCTTGAAAAAATTA
Celera SNP ID:            hCV27348940
SNP Position Genomic:     149230
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41871):
ACTTCAGTCTTTCTTTCTTCTTAGTAGGATTTCTCTACGTCCAATTCATAACACCCACCCCTCCAAACACACACACACACACACACACACACACACACAC
W
CTTCTCTACTTCCAATTCATAACACCCACCCCTCCATACACACACACACACGCGCACGCGCGCGCATGCCCCATAGCGTCTTTCATCTTGAAAAAATTAT
Celera SNP ID:            hCV27348941
SNP Position Genomic:     149231
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41872):
TGGTTTCTTTTTATTATTTATTATTATTATTATACTTTAAGTTCTAGGGTGCATTGCACAACGTGCATGTTTGTTACATATGTATACATGTGCCATGTTG
S
TGTGCTGCACCCATTAACTTATCATTTACATTAGGTATATCTCCTAATGCTTCCCCTCCCCACTACCCCCACATCACAACAGGCCCCAGTGTGTGATGTT
Celera SNP ID:            hCV27348942
SNP Position Genomic:     160706
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41873):
TTGGGAGACCGAGGTGGGCTGATCACGAGGTCAGGAGATCGAGACCACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTACCTGGGCGTGGTGGC
R
GGCGCCCGTAGTCCCAGCTGCTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGATCACGCCACTGTACTCC
Celera SNP ID:            hCV27348870
SNP Position Genomic:     65805
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41874):
ATAGCAAGTACTACCTAGATCTAAGTTATTCCCCAAAGCTTTTCTCTATTGATGGTCTTCATGTTACTTTGTAAACATGTTAACAGACGATTCAAATTCA
S
AGGCATTTTTTGATCCTTTAAAAAGAAAGAAGTATCCTCTAAAGCAGAGAAGTGTTTGTCTGGAATAGATGCAACTGCACTTGTGCTGAAACACCTGCAC
Celera SNP ID:            hCV27348943
SNP Position Genomic:     168128
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41875):
GCTGCTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGATCACGCCACTGTACTCCAGCCTGGTCAACAGAG
Y
GAGACTCTGTCTCAAAACAAAACAAAACAAAAGAATGGCCATAATTAAAACATCAAAAAAACAATAGATGTTGGTAGGGATGTGGTGAAAAGGGCACACT
Celera SNP ID:            hCV27348871
SNP Position Genomic:     65922
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41876):
TAGCAAGTACTACCTAGATCTAAGTTATTCCCCAAAGCTTTTCTCTATTGATGGTCTTCATGTTACTTTGTAAACATGTTAACAGACGATTCAAATTCAC
R
GGCATTTTTTGATCCTTTAAAAAGAAAGAAGTATCCTCTAAAGCAGAGAAGTGTTTGTCTGGAATAGATGCAACTGCACTTGTGCTGAAACACCTGCACC
Celera SNP ID:            hCV27348944
SNP Position Genomic:     168129
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41877):
ATTGAAATAAAAATAAAAATTAGAAAAGATCAGAGGGAAAGAATATGGGGGAAATAAGACCCCCATCAAAAAATAAGTGATGAAAGATACTGGGGAAAAA
Y
ACAGGAGAGCAGGTTACTGGGGAAATAAAGACTATTTGAGAAATGGGCAAAAATGATAAATAATGCAAATCCACAATGTAAGTTTCATATTTTAAAAGTC
Celera SNP ID:            hCV27348872
SNP Position Genomic:     66710
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41878):
GAGTTTGGATAGCATAACTCCAAAGAACACAATAGTTACAAATAAACAAGAAAAAGTTTAGTTAACACCCTTTCCTATAATGGCCTGAGAACCTTAATAA
Y
TCCTGCCTTCCCAGCATGGCCTTTGGACCACTCAATGGCTGCTCTTGCTGCAAATCTTCCTTTTCGTATGGGTATTTTGGGCTGCAGTCATTTTTATGGT
Celera SNP ID:            hCV27348945
SNP Position Genomic:     168338
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41879):
ACCCTTTCCTATAATGGCCTGAGAACCTTAATAATTCCTGCCTTCCCAGCATGGCCTTTGGACCACTCAATGGCTGCTCTTGCTGCAAATCTTCCTTTTC
R
TATGGGTATTTTGGGCTGCAGTCATTTTTATGGTAGGTAGATTATACCAACACCAAGCACTGTATTCTTCCATTGTGTGTGTGTGTGTGTGCATGTGTGT
Celera SNP ID:            hCV27348946
SNP Position Genomic:     168404
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41880):
GCTCAGTCCCAAATCAATGTCACTGTTAAGAGTATGTGTTACAGTAGTGGTTATCTTTGGAAAACAATTTGAGTCTGACTAGATGTTGTTCAATCCCCAG
R
CCATGGTAAGTGTGACTGTGGCAAGTGCAAGTGTGACCAGGGATGGTATGGGGATGCTTGCCAGTACCCAACTAACTGTGACTTGACAAAGAAGAAAAGT
Celera SNP ID:            hCV25611066
SNP Position Genomic:     147870
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,34)   total(A,1|G,67)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:41881):
GGATGTTTCTTTCTACATCAGTCATTCCCTTGGAGACAAGAGAGAATGAGGCAAGATGTATTGGATTGTTCCTTAGTGTTTTTCCATTATGCCTCTCCAT
Y
TACAGATTGTGCCCTCCAACAATTTCCTCCCTCTAATTCAAACGCAGTGCTCTTGGGAACTTATTTTATGTGTACCCAATAAAATGGCATTAATCTGATA
Celera SNP ID:            hCV27348874
SNP Position Genomic:     83083
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41882):
ATATGATCAAGATCACTAATTGTCAGGGAAATGCAAATCAACTCCACAGTGAGATACCTCTTCACTCCAGTTAGAATCGGTTTTATTATAGAATTATAAT
A
AAAAAAGACAAAAGAAAACAAATGTTGGCAAGGGAGGTAGAGAAGAGAACACTGACACACTGTGGGTGAAAATGTAAATTAGTATAGTCACTATGGAAAA
Celera SNP ID:            hCV27348947
SNP Position Genomic:     173429
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41883):
TCACATTGAGACCTGGTTTTAGGTACAAAATGTATACTTCAATGGTTTCTTCAACGTCACATCTGGTACTGTTGCACTTGATTTTTCTTAGAGAAGACCC
R
TAACTCCTAGATTGGATAGTTCTACATCTATCATCATCTTCCAGTGATTTTCCCTTATTCATTTCCTATGCATTTTTGAAATACTTTTCAGTTTGTATTC
Celera SNP ID:            hCV29442250
SNP Position Genomic:     210786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41884):
TTATAATTTATCGGTTGACTATTGAAATAAAATTTTCATATTCCATTGCATTTTATATAATAGCATTACCCCTCAGCCACTGCGATATACATGAGTTTCA
R
TTTATTATAGCTCAGTCCCAAATCAATGTCACTGTTAAGAGTATGTGTTACAGTAGTGGTTATCTTTGGAAAACAATTTGAGTCTGACTAGATGTTGTTC
Celera SNP ID:            hCV25611067
SNP Position Genomic:     147760
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,38)   total(A,74|G,2)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,38)   total(A,74|G,2)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41885):
TTATGAACACTTCCTGAGTCCCTACTGTGGACTGGATGTGCATGTTCTTGAAGAACTCATAATCTAGCAGAAGATGTAAATAAATAAATCTATAGAGTAG
R
ATGTGATGAAATGTTGGAGAGAAGGGTGTTTATTTGCCCTGGGGACCCTAAACAGGTTGTGGCTAACTCCGCCTGGAGGATTTAGGGGAGTAATAATGAA
Celera SNP ID:            hCV27348875
SNP Position Genomic:     85559
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41886):
TATGATCAAGATCACTAATTGTCAGGGAAATGCAAATCAACTCCACAGTGAGATACCTCTTCACTCCAGTTAGAATCGGTTTTATTATAGAATTATAATA
A
AAAAAGACAAAAGAAAACAAATGTTGGCAAGGGAGGTAGAGAAGAGAACACTGACACACTGTGGGTGAAAATGTAAATTAGTATAGTCACTATGGAAAAC
Celera SNP ID:            hCV27348948
SNP Position Genomic:     173430
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41887):
GACCTGAGGAGAAGCAATAGTGAAATGATGAACTAGATTAAGAAGGGTATGCATATTGTTTTGTATCTTCTAATTGACCTGGCGTTGACAATTTCAAAAA
R
TGTATGAGTTCTTAAGCCATCTCGTTGATTTACTGAAATAGGTTGAATGCTGTGGTGGCTTCATGACTGTGCCCAGTTCTTCCATCCATGCATGTTGCCC
Celera SNP ID:            hCV29442251
SNP Position Genomic:     213579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41888):
ACTGTATAAAATTCATTTTGGGTAAAGGCCATGGGAAGTGTTACTGTGGAAACTGCTACTGCAAGGCTGGTTGGCATGGAGATAAATGTGAATTCCAGTG
Y
GATATCACCCCCTGGGAAAGCAAGCGAAGATGCACGTCTCCAGATGGCAAAATCTGCAGTAACAGAGGTGTGTCATTCATACATGTTACTACATAATGGG
Celera SNP ID:            hCV25611068
SNP Position Genomic:     159537
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:41889):
ATGATCAAGATCACTAATTGTCAGGGAAATGCAAATCAACTCCACAGTGAGATACCTCTTCACTCCAGTTAGAATCGGTTTTATTATAGAATTATAATAA
A
AAAAGACAAAAGAAAACAAATGTTGGCAAGGGAGGTAGAGAAGAGAACACTGACACACTGTGGGTGAAAATGTAAATTAGTATAGTCACTATGGAAAACT
Celera SNP ID:            hCV27348949
SNP Position Genomic:     173431
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41890):
GTGTTTTTCCTTTTTAGAATATTTTTGTCTGAATATATGTGTTTTTTTCAAACACAAAGTAAACAGAAAATAATAAGCGATATGTGAAATGCTTTCTTTC
R
TGGTTTTTCTTGACTGGATTCTTATAAAATTCTTCTTCCCACCTAGGGACTTGTGTATGTGGTGAATGTACCTGTCACGATGTTGATCCGACTGGGGACT
Celera SNP ID:            hCV25611069
SNP Position Genomic:     163349
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,9)   caucasian(A,29|G,7)   total(A,58|G,16)
SNP Type:                 INTRON


Context             (SEQ ID NO:41891):
TTCATATCTGTCATATTAGTCCATTTTCATGCTGCTGATAAAGACATACCCAAGACCGGGCAATTTACAAAAGAAAGAGGTTTAATGGACTTATAGTTCC
K
CATGGCTGGGGAGGCCTCACAATCATGGTGGAAGGCAAGGAGGAGCAAGTCACATCTTACGTGGATGGTGGCAGGCAAAGAGAGTTGTTCATGGAAACTC
Celera SNP ID:            hCV27348877
SNP Position Genomic:     89257
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41892):
CAGATTTGAAACTGATCATAGTGACTTCCCAAAGCAAAAATGAATGGGGAAATTTTGGTTTTAGTGATGCACAAAGCCAGTCATCCTCCGTGTCTGATTC
Y
AGAGTGAACAGAAATGACTTCCCATAGTCCCTTTAAAGTTTTAACCTATCAAATAAAGTCCTTTAGTCTAATCTCCTTGAAAAACACCATTTTTCAAGTT
Celera SNP ID:            hCV27348878
SNP Position Genomic:     89872
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41893):
CCTTGAAAAACACCATTTTTCAAGTTTCCTGTTATTAACTTCATGTCAGAATTCAAATCCCCAATGTTTTAAAGAATGTCATTGGTTACTATAACAATTA
A
CTTACTTAATTCAACAGAGTGCCTTCCTAGACATGAATTATGCAGTGATCTTGAAAGAACAAAAGATAGTACAAAAAAGAAATCCAATTTCTCTTTTTTT
Celera SNP ID:            hCV27348879
SNP Position Genomic:     90047
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41894):
TGCAAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGTTAGTGTCTTTTGCTGTGCAGAAGCTCTGTAGTTTAATTAGATGCCATTTGTCA
R
TTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCCAGGGTTTT
Celera SNP ID:            hCV29442254
SNP Position Genomic:     222772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41895):
GATAAAATGATTTATTAATATTTTATTCAACCTCATTGTTTTAAGCTTTTCTGAAACATATTCCCTCTTTAATCAATGATGATATGCTAGCTTTAGGTAA
R
CGGTCTGATGTTAACACATATACAGAGAGTATAAAATTCCACTTGACTCCTCAAGTGCCCATCAAACATTTTTTTTAAAACTCTTTTGATACATCTTAGT
Celera SNP ID:            hCV29442255
SNP Position Genomic:     237579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41896):
TTTTGTCAAACCCTTACAAAAAAAAGTGGGGAATATGAAGGGAGGGTTCTTATGCACAATTGCCTAATAACAAGAACTATCATAAGAGACTGCCAAAACC
R
CAGCGTTGCACAAAGACCACCACAGTCTTACACACACAAAAATATATATACTTATGTGAGGATCTGCCCAGCAACTGCCTGCCTAACCTTGGACGGACAC
Celera SNP ID:            hCV29442256
SNP Position Genomic:     246027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41897):
ACTGTAGAGAGAAAAATTATGTTTCTAAAGAAAAACTCTAATATACTTGTTAGATGTTGGCCCTGTGCATAGTTTCTTAGTTTTTATTATCTATCTGTAG
W
CTAGACTGGATCTTGAATTCTTCTGATATAGGAGTTAAGAAGAAATTACTTAGGCAGATAGTGAGAATATGGGAGTCCTCAGTAAGGTTTTCCTTTTAAT
Celera SNP ID:            hCV29442257
SNP Position Genomic:     252454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41898):
GTTCTTGAATTTTTAAAGCTGTTCAGACACTGTACCACAACCTCATATCACAGTGGTACCCAGAAAATCCAAATAGTAGTACTTGTGTAAATAGATTTCT
R
TTTCAGCCTCTTTAAAGGCAGTTATGTAGATACTCTTAATTTTGAATTTTTGGAAATAGGGAGGATCATTATTTCCTAAAATTATAGCACTTATAAGTGG
Celera SNP ID:            hCV29442258
SNP Position Genomic:     257630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41899):
TTAATGAATACTTTAAATATTTTGAGATAGTTATATAGAAAATTGGGCTTAAGGTTAGAATGAGATAATGTTCTAGTAAATTTTAGCTGTCTATATATTC
Y
ATTAAACAATTATTACATATATTGTGACCTTTTAGTTTTATACTAGTAGCACTTTTTTATTATGAAGTTAGTAATGCTGGTCAAAATGTTTAGGGTTTAA
Celera SNP ID:            hCV29442259
SNP Position Genomic:     267186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41900):
TGCCTAGAAATGTGAAAGAAAGTCTTCAAAATTAGGATAAAGAAATCTCTAAAATCAGGAAATTCCTCACCTTGATGAGACCACAAGGGAACCAGCATCC
Y
TTGCAGACTGACCTGGGAGCAGCAGCTCACTGGGTCCTGAGAAACCACAGGGCTGTCAGTCAATTATTAAAACTGAGAAGACGTGTATATTTCCTCAAGA
Celera SNP ID:            hCV15877107
SNP Position Genomic:     293090
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41901):
AAACAGGAGAGCAACCAATCATGCAAGTCAGTTGTAGAAGAGAGTGTACCTTGCACTGGAAGAAGAAAGCATAAACAGTACAAAGCATATTATTTCAGAG
S
ATTTGTTCTCTACTCCCATAGTTTTACTTTTTAAAATTTAAAATATATGCTCTTTGAGAGTAGGGATTTCTGTCAGTTTAGTTCACTGCTATATTCTCTC
Celera SNP ID:            hCV8715070
SNP Position Genomic:     9493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41902):
TCAAATATTTATTTAGTTTTTGAAATGCTATTTGATTTTTTATGTGGCTAGCTGTTTTTTTATTTCCTACAGATATTTTTAGGTTGCTCTTTATTGACTT
R
TGCTCTAAACATAATACAGTTATTTTATATTATATGTCTGGCAATTTCAAAGTCTAAATATTTTCTGGATCTGTTTTTGCAGTCTAATTTTTTCTGAAGA
Celera SNP ID:            hCV8715071
SNP Position Genomic:     7403
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41903):
TTTTTTGTTTTTTTTTGTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCGGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCC
Y
GGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGGCGGG
Celera SNP ID:            hCV7495664
SNP Position Genomic:     251720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41904):
TGATCAAGATCACTAATTGTCAGGGAAATGCAAATCAACTCCACAGTGAGATACCTCTTCACTCCAGTTAGAATCGGTTTTATTATAGAATTATAATAAA
A
AAAGACAAAAGAAAACAAATGTTGGCAAGGGAGGTAGAGAAGAGAACACTGACACACTGTGGGTGAAAATGTAAATTAGTATAGTCACTATGGAAAACTG
Celera SNP ID:            hCV27348950
SNP Position Genomic:     173432
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41905):
AGGAATTGTTAATAATTTTTTTCATAAATTTTATAAATATTTCTCCCATTTAGTATAGGTTTTACTTTTTTTGTGATGTATCAAAAGTTCAGTAAACTCT
R
TTAGCCTTTTCCTTTGTGGTTTTTCCCTTTGTTTTTATGCTATTAACATGTATCAATATATTTATATTTATAAATCTATATCTAGCTTTGTTCCATTTAG
Celera SNP ID:            hCV322395
SNP Position Genomic:     10738
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41906):
TTAATGTCAACTTTTCTATATCCATACTGATTTTAATTTCACTAATTGCATTAATTACTGAGAAAGGAGCGTTTATATATTAAAAAGTAGTCTAAAAAGC
A
AAAAAAAAAAAAAAAAAAATCCTGCTTCAAAAATACAGTTAGTCCTTCCCTGTGACTCCCCTCCATGCAAATTAATTGCCAAATCCACCAAATACTCCTT
Celera SNP ID:            hCV27348952
SNP Position Genomic:     177597
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41907):
CTTGAAAAACACCATTTTTCAAGTTTCCTGTTATTAACTTCATGTCAGAATTCAAATCCCCAATGTTTTAAAGAATGTCATTGGTTACTATAACAATTAA
C
TTACTTAATTCAACAGAGTGCCTTCCTAGACATGAATTATGCAGTGATCTTGAAAGAACAAAAGATAGTACAAAAAAGAAATCCAATTTCTCTTTTTTTT
Celera SNP ID:            hCV27348880
SNP Position Genomic:     90048
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41908):
TAATGTCAACTTTTCTATATCCATACTGATTTTAATTTCACTAATTGCATTAATTACTGAGAAAGGAGCGTTTATATATTAAAAAGTAGTCTAAAAAGCA
A
AAAAAAAAAAAAAAAAAATCCTGCTTCAAAAATACAGTTAGTCCTTCCCTGTGACTCCCCTCCATGCAAATTAATTGCCAAATCCACCAAATACTCCTTT
Celera SNP ID:            hCV27348953
SNP Position Genomic:     177598
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41909):
TTGAAAAACACCATTTTTCAAGTTTCCTGTTATTAACTTCATGTCAGAATTCAAATCCCCAATGTTTTAAAGAATGTCATTGGTTACTATAACAATTAAC
T
TACTTAATTCAACAGAGTGCCTTCCTAGACATGAATTATGCAGTGATCTTGAAAGAACAAAAGATAGTACAAAAAAGAAATCCAATTTCTCTTTTTTTTC
Celera SNP ID:            hCV27348881
SNP Position Genomic:     90049
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41910):
AATGTCAACTTTTCTATATCCATACTGATTTTAATTTCACTAATTGCATTAATTACTGAGAAAGGAGCGTTTATATATTAAAAAGTAGTCTAAAAAGCAA
A
AAAAAAAAAAAAAAAAATCCTGCTTCAAAAATACAGTTAGTCCTTCCCTGTGACTCCCCTCCATGCAAATTAATTGCCAAATCCACCAAATACTCCTTTC
Celera SNP ID:            hCV27348954
SNP Position Genomic:     177599
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41911):
TGAAAAACACCATTTTTCAAGTTTCCTGTTATTAACTTCATGTCAGAATTCAAATCCCCAATGTTTTAAAGAATGTCATTGGTTACTATAACAATTAACT
T
ACTTAATTCAACAGAGTGCCTTCCTAGACATGAATTATGCAGTGATCTTGAAAGAACAAAAGATAGTACAAAAAAGAAATCCAATTTCTCTTTTTTTTCT
Celera SNP ID:            hCV27348882
SNP Position Genomic:     90050
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41912):
TCCCCAGTGTGTGATGTTCCCCTTCCTGTGACCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCCGTGTTTGGTTTTTTGTCCTTGC
R
ATAGTTTGCTGAGAATGATGGTTTCCAGTTTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCACAGTATTCCATGCTGTATAT
Celera SNP ID:            hCV27348955
SNP Position Genomic:     178880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41913):
ATGAGCATTTTTTCATATGTTTGTTGATCACATATATATCTTCTTTTGAGAAGTGTCTGTTCATGTCTTTTGCCCACTTTTTAATGGGGTTATTTGTTTT
W
TGCTTGTTAATTTGTTTAAGTTTCCTATAGATTCTCGATATGAGACCTTTGTTGGACACATAATTTGTGAATATTTTCTCCCATTCTGTATGTTGTCTGT
Celera SNP ID:            hCV27348883
SNP Position Genomic:     90994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41914):
TTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGATTGATGGCGATGGCATTGAATCTGTAAAGTACCTTGGGCAGTATGGCCATTTTCAC
R
ATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTTCATTTGTTTGTATGCTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGT
Celera SNP ID:            hCV27348956
SNP Position Genomic:     180221
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41915):
AATCTGGCATAGTTGGCCAGAAATCCTTTAAGGAATTCTTTTCAAGTTGGCTTAGAGATAAGATATGCAAATGACACTTAAAAGTGTAAAAAAAAAAAAA
M
CCCAAATGCCTTTTAGCTCATGGGATTCATATGAATCTTTGATAAATAAATTGGTTTTAAATTTGTTGGTAAAATAAAAATTTGTTTCAGAATTGTTAGC
Celera SNP ID:            hCV16119237
SNP Position Genomic:     248103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41916):
GGGTGAAAGAGAGGTGACAGAACCATTTTTACTGCAGTGCAGTGTGATTAATCTGTGTCTTCTTAATGAGATTAAGGGGAAAAACAAACTTTTTTTTTAA
T
TTTTTTTTTTTTTTAACTAGCTCTCCTCTATACTGCAAGTTAAACAACTTATTCTGGCAGAAGGTTGAAAGAAGGGAACAATTGCTCCTTTGCTAGAAAT
Celera SNP ID:            hCV27348884
SNP Position Genomic:     104272
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41917):
TAGTTTGTATTTCTGTGGGATTGGTGGTGATATCCCCTTTGTCATTTTTTATTGAGTCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAG
Y
GGTCTATCAATTTTGTTGAACTTTTCAAAAAACCAGCTCCTGGATTCATTGATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGA
Celera SNP ID:            hCV27348957
SNP Position Genomic:     181526
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41918):
GGTTAGAATGAGATAATGTTCTAGTAAATTTTAGCTGTCTATATATTCTATTAAACAATTATTACATATATTGTGACCTTTTAGTTTTATACTAGTAGCA
Y
TTTTTTATTATGAAGTTAGTAATGCTGGTCAAAATGTTTAGGGTTTAATTTTGGTGATATAATCATTCCTCCACATTTTTTGGTAGTCAATATGCAGTAA
Celera SNP ID:            hCV29442260
SNP Position Genomic:     267238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41919):
CAAGCATTGTTCACAAAACTGGATTAGTTGTTAATTACAAATGGCCTAAACTATTTTAAGAAAGAATTTTATTATGGAAAAATAAGAGTACTATAAAAAA
R
GTCAGTTGGGGTCACCTTGTCTATTGCAACTAAAATAGAATTGACTCAGAGCTACATTTTCGTCACCTCCTTTTCCTACCTCTTTCTTGGCCCCCTTATT
Celera SNP ID:            hCV27348885
SNP Position Genomic:     105541
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41920):
CAGTATTCATTCAGGAGCAGGTTGTTCTGTTTCCATGTAGTTGAGTGGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTG
M
GAGACAGTTTGATATAATTTCTGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAAGTATGTGGTCAATTTTGGAATAGGTGTGGTCTGGAATGCAC
Celera SNP ID:            hCV27348958
SNP Position Genomic:     181972
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41921):
GCTACATTTTCGTCACCTCCTTTTCCTACCTCTTTCTTGGCCCCCTTATTCTGGCCTTAGATTACTCTGCAGAAACACAGGCACCTTGTTTTTTTTTTTT
W
ATGTGGAAAAAATTAGGTTTCTTTTTCTTATTCTTCCACTATTCCAGATGAATTCCGTGTCTATTTTCTAATAAATGTTAACTATTTTGAAGAGAAATGC
Celera SNP ID:            hCV27348886
SNP Position Genomic:     105692
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41922):
GAGTTTCCAGTTTGTCCACATCCTTGCCATTTCTTGGTATTGTCTGTCTTTTTGATTCTTTAGAGTATTCTTTATAAAGAAAACTCCATAAAGTGTCTCA
R
GTTGTTTGCAGCACAGATATTTTCTCATATCCATTATTTTCCCCTAAGGGTTGTAAGTAGAAGAGTGGAGGAGTAGGATATGGGTATAATAATCTTTTTA
Celera SNP ID:            hCV27348959
SNP Position Genomic:     183478
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41923):
AGTTTTTATATTTCTGTCTTTCAGTGAATTTATCCATTTAATCTAAGTTTTCAATTTATTGGCATAGAGCTATTTATAATATTGTCTTATTGCCTTTATA
A
TATTCAAGGAATCTCTAGTTGTGCTCACTCTAATTTAGAATATTGTAATTTGTTTATTACTTGTGTTTTTAACATAAATGTTTGTGTACATTGTTGTTTA
Celera SNP ID:            hCV27348887
SNP Position Genomic:     108457
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41924):
GTTTTTATATTTCTGTCTTTCAGTGAATTTATCCATTTAATCTAAGTTTTCAATTTATTGGCATAGAGCTATTTATAATATTGTCTTATTGCCTTTATAA
T
ATTCAAGGAATCTCTAGTTGTGCTCACTCTAATTTAGAATATTGTAATTTGTTTATTACTTGTGTTTTTAACATAAATGTTTGTGTACATTGTTGTTTAT
Celera SNP ID:            hCV27348888
SNP Position Genomic:     108458
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41925):
AATATATAGAGAGAAATGGAAACCACAAAATAAAAATCACCCATTAATTGATCATCCTAGAATAATATCTGATGACACTATGTTGTATTTCTTCCTAGGT
W
TTGTTTCTGAGGAGTAAAATTATTTTCAAAATATAAATTCATAAATCTTCTTTGGGTATTTTGATATTTTGTCTAGAGAAAGTCCACATTGTATGGTATC
Celera SNP ID:            hCV29442262
SNP Position Genomic:     277552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41926):
TTTTATATTTCTGTCTTTCAGTGAATTTATCCATTTAATCTAAGTTTTCAATTTATTGGCATAGAGCTATTTATAATATTGTCTTATTGCCTTTATAATA
T
TCAAGGAATCTCTAGTTGTGCTCACTCTAATTTAGAATATTGTAATTTGTTTATTACTTGTGTTTTTAACATAAATGTTTGTGTACATTGTTGTTTATAA
Celera SNP ID:            hCV27348889
SNP Position Genomic:     108460
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41927):
CCACCAGACACTAAACCATAAGATCTGTGGCCTTTCATATGGAGAATATAAAACCTATATATCCAACATGTGGCCAGAGAGTAAAATATGGTACTTGACT
S
CAAAATCAGGGACTGTCTTAGCATTTTAGCAAACAAGCAAATAAGTAAGATAAAAAACATGTATAAACTTAACTGATCAGCAGATGCATGAGCACTAAGA
Celera SNP ID:            hCV29442263
SNP Position Genomic:     278440
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41928):
AAATGTTGTCACTTGAAATACCAAAACAACATTTCTGAGCGTTGTTGAGGGACTGGCAAAGCAATCAGCTACTATAACAAATCAGTAGAAATAACCCTCC
Y
ACACCAGATATGCATGCAGAAGGAATGGAGTATTATAGAGACTTGATACAATGGACATATGCACATGGAGGTACAAAACACACAGTCTAAATACAAATGA
Celera SNP ID:            hCV29442266
SNP Position Genomic:     299898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:41929):
AACAAACTTCAACACAATAAAAGCCACATATGACAGACCTATGGCTAGTATCATACTGATTGGGGAAAAACTGAAAGGCTTTCCTTGAAGATCAAGAACA
Y
GATACGGATGCCCACTTTTACCAGTGTTATTCAACACAGTACTGGAAGTCCTAGTCAGACAATCAGATAAGAAAAAGAAATAATGTTCATCCACATGGGA
Celera SNP ID:            hCV29442195
SNP Position Genomic:     58562
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41930):
CGCTCATCAGTTACAGCAAGTGTACTTCTCTGGTGGGAATTGTTGATAATGGAGAAGGCTATGCACGTGAGGGAGAAGGAGGTATATGGAATATCTCCGC
R
TCTCTCTCAGTTTTGCTGTGCACCTAAAACTGCTCTAAAAAGAAAACAGTCTTAAAAGAATATGTACTCTCTCTGATATTGTTTGTTAGCGTGCTCTATA
Celera SNP ID:            hCV9908400
SNP Position Genomic:     177371
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41931):
AGATCACAGAGGGTTTTCAGGGCAGTGAAATTACTGTGTATGAGTAGTGAATTCATGTCACTATATGTTTACTCACACTCATACAATGTACACTAAGAGT
R
GACCCTAATGTCAACTATTCACTTTGGGTAATAGTGATGTGTCAATGTACGCTCATCAGTTACAGCAAGTGTACTTCTCTGGTGGGAATTGTTGATAATG
Celera SNP ID:            hCV9908401
SNP Position Genomic:     177221
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41932):
TTTTTTTTTGTTTTTTTTTGTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCGGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCC
Y
CCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGGC
Celera SNP ID:            hCV8743639
SNP Position Genomic:     251717
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41933):
TGGAGGACATTCTGCTAAGTAAAATAAGCCAGACATAGACAAAAAAACACTGCACGATCTCACTCATATGTGGAATCTAAAAACGTTGAACTCTTAGAAA
Y
AGAGTAGAAGGGTGGTTACCCAGGGCCAAGGGGTAGGAGAAATGGGGAGACTTTGCATACAAACTTTCAAAGTTATAAGATGAATACGTTCTGGAGATCT
Celera SNP ID:            hCV9908408
SNP Position Genomic:     176428
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41934):
TCTATTCGAGATGGAAACCTTTAGTTATAAGGTGATGGTGAGTAATAGCCTTTGTAATTTCAGGTTCTTGTCATTGTGGGAAGTGCATTTGTTCTGCTGA
R
GAGTGGTATATTTCTGGGGAGTTCTGTGACTGTGATGACAGAGACTGCGACAAACATGATGGTCTCATTTGTACAGGTGCAGTATTAACCTTTTCTAATT
Celera SNP ID:            hCV15877117
SNP Position Genomic:     294686
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,31|G,7)   total(A,63|G,9)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:41935):
ACCCAGTGGAATAGTATTCGTCCTTTAAGAAGGAAATCCTTTCATTTGCCACAACATGGATGAACCTGGAGGACATTCTGCTAAGTAAAATAAGCCAGAC
R
TAGACAAAAAAACACTGCACGATCTCACTCATATGTGGAATCTAAAAACGTTGAACTCTTAGAAATAGAGTAGAAGGGTGGTTACCCAGGGCCAAGGGGT
Celera SNP ID:            hCV9908409
SNP Position Genomic:     176362
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41936):
ACAAGCGTATAGTGGTATTTCATCGTTTTAATTTGCATTTGCCTGATGACAATATATAATATGAAACATCTTTTTATGTACTTGTTTGCCATCTGTATGT
Y
TTCTTTAATAAGGCATCTGTTAAGATCTTTGGGCCATTTTTAAATTGTTTTTCTCTTATTGTTGAGTTTTAGGAGTTATTTGTATATTTTAAGTAACAGA
Celera SNP ID:            hCV9908339
SNP Position Genomic:     208430
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41937):
GTGTATATATACGCATATACATATGTATGTGTGTATATGTGTATATATACACATATATAGACATGTATGCGTGCATGTGTATATATACACATATATAGAC
A
TATGTATGCGTGTATGTGTATATATACACATATACACATATATATGCATATATGTGTATATATATGTGTATATATACACATATATATGTATATATGTTAT
Celera SNP ID:            hCV27348960
SNP Position Genomic:     186110
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41938):
TGTATATATACGCATATACATATGTATGTGTGTATATGTGTATATATACACATATATAGACATGTATGCGTGCATGTGTATATATACACATATATAGACA
T
ATGTATGCGTGTATGTGTATATATACACATATACACATATATATGCATATATGTGTATATATATGTGTATATATACACATATATATGTATATATGTTATA
Celera SNP ID:            hCV27348961
SNP Position Genomic:     186111
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41939):
TATATGTGTATATATACACATATATAGACATGTATGCGTGCATGTGTATATATACACATATATAGACATATGTATGCGTGTATGTGTATATATACACATA
Y
ACACATATATATGCATATATGTGTATATATATGTGTATATATACACATATATATGTATATATGTTATATAGCATATATATGATATAAGGCTATCCTTGTA
Celera SNP ID:            hCV27348962
SNP Position Genomic:     186143
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41940):
GTTTGCCTTAATATGTTATATTATGTTCATCAAGATCCTGACTCATTTGTGACATTTGCTGTTAGAATGAAAACTAATTCCAACTTCATTATCTTTATGT
R
CATTTTTATTTTTTGCCACTCTCACTGTGAAGGTCATGGACAGTGTAATTGCGGAAGATGTGACTGCAAAGCAGGCTGGTATGGGAAGAAGTGTGAGCAC
Celera SNP ID:            hCV25611081
SNP Position Genomic:     178295
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:41941):
ATATATATGTGTATATATACACATATATATGTATATATGTTATATAGCATATATATGATATAAGGCTATCCTTGTATATATATGTGATATATATATATGC
T
ATATATATATATATGCTCTCTCTCTCTCTATATATATATATAGCCTTCACGTGGTCCCTGATATACTTCAGTATATTCTATTAGGATTTTTATATATATA
Celera SNP ID:            hCV27348963
SNP Position Genomic:     186268
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41942):
TTTACTTTATTTCTTAAGTAGTTTAGGTATTTTATTAGTGATTTTGATTTTTCTTGAAGGTTTTATTTTTTTTATTTTGTTATTTATTTTGTTATTTATT
T
ATTTATTTATTTATTTATTTATGTTTTTTAGACGGAGTCTCGCTCTGTGGCTCAGGCTGGGGTGCAGTGGTGCGATCTTGACTCACTGCAAGCTCCGCCT
Celera SNP ID:            hCV27348890
SNP Position Genomic:     111884
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41943):
TGTGTTGGATGGGAAATGAGATCCTATGGTTTACACATTTCTTTCTTAAAACTCTCTGCTTCAGCTGGTTATTTCCTCATCCTCTCACTCCTTTCCTGTG
R
TTGCTTCACAGGCCACGGCACATGTTCCTGTGGTCGCTGTGTTTGTGAGAGAGGATGGTTTGGAAAGCTCTGCCAACATCCGCGGAAGTGTAACATGACG
Celera SNP ID:            hCV25611082
SNP Position Genomic:     286961
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41944):
TATATATGTGTATATATACACATATATATGTATATATGTTATATAGCATATATATGATATAAGGCTATCCTTGTATATATATGTGATATATATATATGCT
A
TATATATATATATGCTCTCTCTCTCTCTATATATATATATAGCCTTCACGTGGTCCCTGATATACTTCAGTATATTCTATTAGGATTTTTATATATATAT
Celera SNP ID:            hCV27348964
SNP Position Genomic:     186269
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41945):
ACTTCTATTATTTCCCTATGGTTGTCTCACTAGTAAATAATACCTTTCAATACAGAAGATGATTTCTGGTCAAATTAATTTACTATAATCTCATATTAAT
W
ATTATTTCCAGAAAATATCTGGAGCAGATGTCACTGGAGCATATTTAAGAAATGAATGGCATTTAAAGGTTTAATTTAAACTGATCACATTTAATAAACT
Celera SNP ID:            hCV27348891
SNP Position Genomic:     116993
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41946):
CTCTCACTCCTTTCCTGTGGTTGCTTCACAGGCCACGGCACATGTTCCTGTGGTCGCTGTGTTTGTGAGAGAGGATGGTTTGGAAAGCTCTGCCAACATC
Y
GCGGAAGTGTAACATGACGGAAGAACAAAGCAAGAATCTGTGTGAATCAGCAGATGGCATATTGTGCTCGGGGAAGGGTGAGTATCTCTGCTGGTGCCTG
Celera SNP ID:            hCV25611083
SNP Position Genomic:     287042
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41947):
TATATACACATATATATGTATATATGTTATATAGCATATATATGATATAAGGCTATCCTTGTATATATATGTGATATATATATATGCTATATATATATAT
R
TGCTCTCTCTCTCTCTATATATATATATAGCCTTCACGTGGTCCCTGATATACTTCAGTATATTCTATTAGGATTTTTATATATATATATATATATAGCC
Celera SNP ID:            hCV27348965
SNP Position Genomic:     186281
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41948):
CTGAGACATGTGAAATTCATCATATTCTAATCAACTTGTATATTATCAGCCCTGAAACACAAATATTATATCAGCTCTGACTGCCTCAAACCACATCTTA
R
CAGTCAGAGACTGGCTCTCCAGGCTATTCCATCTCATTTGAGAAGAAAACCAAGAACCAAAACAAATTTTGGTCAAGTAACTTAGGAAATATTTAAAATG
Celera SNP ID:            hCV27348892
SNP Position Genomic:     117403
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(A,0|G,84)   TSC_42_C(A,0|G,84)   TSC_42_AA(A,0|G,84)   total(G,252) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41949):
ATATACACATATATATGTATATATGTTATATAGCATATATATGATATAAGGCTATCCTTGTATATATATGTGATATATATATATGCTATATATATATATA
Y
GCTCTCTCTCTCTCTATATATATATATAGCCTTCACGTGGTCCCTGATATACTTCAGTATATTCTATTAGGATTTTTATATATATATATATATATAGCCT
Celera SNP ID:            hCV27348966
SNP Position Genomic:     186282
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41950):
AAAATTACATGAGAGCAGAGATAAGTTCTTTTTTAAAAGGATTTAAGAAATACTTACATAGTGTTTATTATGTGACAAACACTCTTAAGCAGTTTATAGT
Y
ATTATTTTACATAGAAATTCTGTAATGCAAATACTACCATTTTCTCATTTTACAGATGAATATTCTGTGATATATAAAGAGGTTAAATAACTTGCTCAAG
Celera SNP ID:            hCV27348893
SNP Position Genomic:     119024
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41951):
TATACACATATATATGTATATATGTTATATAGCATATATATGATATAAGGCTATCCTTGTATATATATGTGATATATATATATGCTATATATATATATAT
K
CTCTCTCTCTCTCTATATATATATATAGCCTTCACGTGGTCCCTGATATACTTCAGTATATTCTATTAGGATTTTTATATATATATATATATATAGCCTT
Celera SNP ID:            hCV27348967
SNP Position Genomic:     186283
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41952):
AACTTGCTCAAGTTCACACAGCAAATCCATGTAGTGGAGCTTTACCATCAGTGGTACGGTTGCGGAGTGTGTGACTTTGAGATTTATGCTGTGCTGCTTC
T
TTTTTTTTTTTTTTTTTTTTTTTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTAGTTACATATGTATACATCTGCTGTGTTGGTGTGCTGCACC
Celera SNP ID:            hCV27348894
SNP Position Genomic:     119213
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41953):
ATACACATATATATGTATATATGTTATATAGCATATATATGATATAAGGCTATCCTTGTATATATATGTGATATATATATATGCTATATATATATATATG
C
TCTCTCTCTCTCTATATATATATATAGCCTTCACGTGGTCCCTGATATACTTCAGTATATTCTATTAGGATTTTTATATATATATATATATATAGCCTTA
Celera SNP ID:            hCV27348968
SNP Position Genomic:     186284
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41954):
ACTTGCTCAAGTTCACACAGCAAATCCATGTAGTGGAGCTTTACCATCAGTGGTACGGTTGCGGAGTGTGTGACTTTGAGATTTATGCTGTGCTGCTTCT
T
TTTTTTTTTTTTTTTTTTTTTTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTAGTTACATATGTATACATCTGCTGTGTTGGTGTGCTGCACCC
Celera SNP ID:            hCV27348895
SNP Position Genomic:     119214
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41955):
TACACATATATATGTATATATGTTATATAGCATATATATGATATAAGGCTATCCTTGTATATATATGTGATATATATATATGCTATATATATATATATGC
T
CTCTCTCTCTCTATATATATATATAGCCTTCACGTGGTCCCTGATATACTTCAGTATATTCTATTAGGATTTTTATATATATATATATATATAGCCTTAT
Celera SNP ID:            hCV27348969
SNP Position Genomic:     186285
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41956):
CGGTTGCGGAGTGTGTGACTTTGAGATTTATGCTGTGCTGCTTCTTTTTTTTTTTTTTTTTTTTTTTTTTAAGTTTTAGGGTACATGTGCACAACGTGCA
R
GTTAGTTACATATGTATACATCTGCTGTGTTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTGATGCTATCCCTCCCCCCTCC
Celera SNP ID:            hCV27348896
SNP Position Genomic:     119269
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41957):
AGATATGCGGCATTATTTCTGAGGGCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTATAGCCTTGTA
R
TATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGTTTTGCTCTTTTGACTTAGGATTGACTTGGCAATGTGGGCTCTTTTTTGGTTCCATATGAACTTTA
Celera SNP ID:            hCV27348897
SNP Position Genomic:     120627
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41958):
CCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTGCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTC
Y
GTTTGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCCTATCAGCTTAAGGAGATTTT
Celera SNP ID:            hCV27348898
SNP Position Genomic:     121015
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,2|T,10)      total(T,10|-,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41959):
CTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTGCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCT
G
TTTGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCCTATCAGCTTAAGGAGATTTTG
Celera SNP ID:            hCV27348899
SNP Position Genomic:     121016
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,10)   total(G,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41960):
ATGGAAGGGAGGTGAGGACTCAGGATACAGATTGACCTGGGGTTGCTCATGAATTGAGACCAAAAGAAAAACAGAGGTAGAATAAAATGAAAGGGAGAAG
W
GCTCAGTGAACATCTGTGCTTTCTCTTTGCCGAGTCCTGACACAGCGCTCACTACCCCTCTGCATTTTATCCCTGTCACCATTTGGAGAATCAGGCAGGA
Celera SNP ID:            hCV9908340
SNP Position Genomic:     204757
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,10)   total(A,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41961):
CCCTCCAAACCACTCCTCTCCAGATAAACATTTATGTTTTATGCCCCAGTAACTACACTTCCTTTTATTTTCCCTGCTCTGAGCCTTGAAGTGTTCACCT
R
AAAGCATTTTAAAATAGTCTGTAATTCCAAAGGAAATGAAGTAATTGTCCATGGAAGGGAGGTGAGGACTCAGGATACAGATTGACCTGGGGTTGCTCAT
Celera SNP ID:            hCV9908341
SNP Position Genomic:     204606
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,10)      total(G,10|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41962):
ATGGATAAAACATTTATTGTCTTATTCAATCTTTATTGATTGCTTCAGTGTATGCCATGCACTGTATTTGGTGCTAGGAACACATGGGTGACAAGACAGC
R
TTGTGAAGAACTGCAAAAGATCTGAGGTTTCTACCCTCCTTGCCAGCCAATGAGCTTAAGGCTTTCTCTCCGTCTGAGAAACCATCAATAGTCGATGTTC
Celera SNP ID:            hCV8714501
SNP Position Genomic:     85795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41963):
TTCTATCCACCTTTGCTCCTGAGGTCCCAGGCTAGGGGAATTTGGGTTGTACTAATAAGCACTTTAATATTGGCCACCAGAGGGCTCCCATATTCCTTCC
R
TCTAAGTATGAAAATACAAAGTGCAACTAACATAAAGTTCACCATCAAATAGAAAATATTATAGGAATTTATGATATAGTTCTCTCTAGAGTGAAAGTGT
Celera SNP ID:            hCV8714502
SNP Position Genomic:     95075
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;TSC_42_A(A,-|G,-)   TSC_42_C(A,-|G,-)   TSC_42_AA(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41964):
TTTTCCTTCTTAAATGCAAACAGTAAATAACAACACCTACTTATATCATTATTTTTAGGACTAATGAGACAATAACAGATCCTGATTATGGTAATTTTTT
W
GAGCTAATTAGATAATATATGTAAAGCATCAAGTAGACTTCCTGCTATAAATGATGATCCATTGGTGATGATAATGATTATGATGATGGTGATACTGACA
Celera SNP ID:            hCV8714503
SNP Position Genomic:     99877
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,3)      total(A,3|T,3) ;(A,-|T,-)   Caucasian(A,38|T,46)   African-American(A,25|T,59)   Asians(T,38|A,46)   total(A,109|T,143)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41965):
CATAGTCAAAACACCTCCCACCAGGCCCCATCTCTAGTTTTGGGGATTGCATTTCCACGTGAGATTTGGAGAGGACAAACGTTGAAACTATATCTAACTC
R
TACAACTCAATAGCAAAAAAAATCAAACAACCAGATTAAAAAAATGGGCAAATGACCTGAATAGACATTTTTCCAAAGAAGATATGCAAATGGCCAGTGG
Celera SNP ID:            hCV9908417
SNP Position Genomic:     175667
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41966):
AAGAAATTAGAGTCTTATCTCATACTGTATATAAAAATCAACTCAAAATGAATTAAAGACTTATATGTAAAACCTGAAATTTTAAAACTACTCGAAGAAA
Y
GTAGGAGAAAAGCTCCATGCCATTGGTCTTAGCAATGATTTTTTTTTGGATATAACACCAGAACACAGACAACAAAAACAAAAATAAATGAGTGGGACTG
Celera SNP ID:            hCV9908418
SNP Position Genomic:     174668
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41967):
GCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGAACTCAGGTTATCTACCTGC
Y
TTGGCCTTCCAAAGTGCTGGGATTATGGGCGTGAGTCACCACGTCCGATGGGAACTTCTTAAACTGAGATGAATGAATGGCAAAAGCCATAGAACCCAAC
Celera SNP ID:            hCV9908419
SNP Position Genomic:     171331
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41968):
GAAAACTATTGCTTTAGCGAAAGCAAACACCGTTACTTCCTGAATCACAGCTCCCTCCAAACCACTCCTCTCCAGATAAACATTTATGTTTTATGCCCCA
R
TAACTACACTTCCTTTTATTTTCCCTGCTCTGAGCCTTGAAGTGTTCACCTGAAAGCATTTTAAAATAGTCTGTAATTCCAAAGGAAATGAAGTAATTGT
Celera SNP ID:            hCV9908348
SNP Position Genomic:     204554
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,7|A,8)      total(G,7|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41969):
GTCCTCTTATAACTTTTTCCAAAGCACAACTTTATAGCTTACTCGTTGCACCTATTTGAAGTCTTACAATTTATTCCATGTTGTAATATAATCTTGGTAT
R
TTGTTTTTAATGATTACACATTAACATATTTTAACCAAGCATAATATGCATTATATTCCGTCGTTTAATCAATTTTTCTATTTAAATGGCCCATGAACAT
Celera SNP ID:            hCV9908349
SNP Position Genomic:     200193
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41970):
TGTATATATGTTATATAGCATATATATGATATAAGGCTATCCTTGTATATATATGTGATATATATATATGCTATATATATATATATGCTCTCTCTCTCTC
T
ATATATATATATAGCCTTCACGTGGTCCCTGATATACTTCAGTATATTCTATTAGGATTTTTATATATATATATATATATAGCCTTATATCATATATATA
Celera SNP ID:            hCV27348970
SNP Position Genomic:     186297
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41971):
GTATATATGTTATATAGCATATATATGATATAAGGCTATCCTTGTATATATATGTGATATATATATATGCTATATATATATATATGCTCTCTCTCTCTCT
M
TATATATATATAGCCTTCACGTGGTCCCTGATATACTTCAGTATATTCTATTAGGATTTTTATATATATATATATATATAGCCTTATATCATATATATAT
Celera SNP ID:            hCV27348971
SNP Position Genomic:     186298
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41972):
TCTCGTCTTAAATTGTCATGACCCAAGAGGGCTACAGCAGTATTTCTAGAAGGCATTTCTATACCCTGAAAAGCCACAGAAGTGATGGTACCCCACTAAT
M
GCAAAATGAATGTGTCCTCAACCCACCTTCTCTTTGGCTGAATCTCAGAAGTACCTGGAGTCTTTCCAGAGCCACTGGACATGAGAGGAAATGTGGATGA
Celera SNP ID:            hCV27348972
SNP Position Genomic:     200791
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41973):
ACAACTGCACCTGGGGCTGTACCCAAAGTGGAGAACAGTGAGTTTCTGTGTCGTGACTGTCATTGACCTTCCACCTTTCCTCTCCAAAAGAATAAGAAGC
R
AATCAATTGTGAAGATGGAGCAGGTGCTGTGATTCAGCCTTTCTTTATATCACCAGACAAGGTGAAGCCTTCCTGGGTTTATCATGGTCTCCCAAAGGAC
Celera SNP ID:            hCV27348973
SNP Position Genomic:     201190
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41974):
TGTTGCTTCTCACCTGAACCCCTTGCAGACATTCCAGCAAAATGAAAACATGACCTTGAGCCTTAGTTTCACAGTCCATGAAAAGCTCAACTTTTATTAT
R
GAAATTCAGGGTTAGAGCCCTTCTTTTTTTTCTCCCACTTAAAAAGGGATAAAGAAACTAACCCACCCAGATTGCTGCTAAGCCTAACATGAGCTTTGCA
Celera SNP ID:            hCV27348974
SNP Position Genomic:     201659
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;(A,-|G,-)   (A,-|G,-)   Caucasian(A,14|G,48)   African-American(G,20|A,42)   Asians(A,23|G,59)   total(G,127|A,79)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41975):
TCTCACTCCTTTCCTGTGGTTGCTTCACAGGCCACGGCACATGTTCCTGTGGTCGCTGTGTTTGTGAGAGAGGATGGTTTGGAAAGCTCTGCCAACATCC
R
CGGAAGTGTAACATGACGGAAGAACAAAGCAAGAATCTGTGTGAATCAGCAGATGGCATATTGTGCTCGGGGAAGGGTGAGTATCTCTGCTGGTGCCTGG
Celera SNP ID:            hCV25611093
SNP Position Genomic:     287043
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:41976):
GAACCCCTTGCAGACATTCCAGCAAAATGAAAACATGACCTTGAGCCTTAGTTTCACAGTCCATGAAAAGCTCAACTTTTATTATAGAAATTCAGGGTTA
S
AGCCCTTCTTTTTTTTCTCCCACTTAAAAAGGGATAAAGAAACTAACCCACCCAGATTGCTGCTAAGCCTAACATGAGCTTTGCATAGCCATTGAAAAAG
Celera SNP ID:            hCV27348975
SNP Position Genomic:     201674
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41977):
GTGAGATTGAAAATATTATTTAATATTGCATTTTGAGTACAAATAAATTTTGGCTTTTAATCGTGAACAGTCATAATGTTGAATGTTTTACTTAACTGTA
Y
TTATTATTAATTTTTTGAAATGGTAAAAAGTAACAACTAACAAACTAAGAAAAAAGAGAAAGGAAATGAACAGTGTTATAGGCAAGTAGATGCTGTGGCT
Celera SNP ID:            hCV27348976
SNP Position Genomic:     219135
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41978):
CCATGAAAGTTAAATACTATTTTTATCCATTCAGCTGGGTTTTAAATACAGCATGTGGACCCATCATTCTGTCATGGGCAGAAGCTCTGGAAATTCTTGA
Y
AACTTATAATCTTCCCTGCCCATATTCACAAGTGAAAATGATTATACTTACAAGAAAGAACTTTACACACTAATTTTTGAATCAACTTTCAGAAAGACAA
Celera SNP ID:            hCV27348977
SNP Position Genomic:     220220
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:41979):
GCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTA
R
TTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCT
Celera SNP ID:            hCV27348978
SNP Position Genomic:     222299
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41980):
GTGTTAAAGAAGACATGGTTGATGCCTACTATAGATCAAAGACTTAGCAACAAAAAGCTATGGTGTTGCTGGTACCAGATCACACTTTGCAGCAATCTCC
R
GTTTGGGACATATAAAGAGTTGTTCTTCGTTTTCTATGTCCTGAAAGAATTCTAGCTTCCTTTATTACGTTTTAAAATCCTTTGTCATTAGTTATAGTGC
Celera SNP ID:            hCV9908350
SNP Position Genomic:     198512
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41981):
TCTTAGATCAGAATGCCGACTGAGAGACAGGATTTTGACAGAAATAAAATAATAAAGGGTTACCAAGTGAAAGAGTGATAAAAAGTGCTGGAATGGAAAA
M
TATGTAGTACATTTACAAACTCTGGGTCGATTCGAAAGAACAGAACTTTGCTAATGTAAGAGCTGTGTTTGGGGCATAGATTCTGAGATAATATTGGAAA
Celera SNP ID:            hCV8714510
SNP Position Genomic:     101228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41982):
CGCCTCCAAGTTGGATTAGAAGATGTCCTGGAGCGTGCAGTTCACCACCCACTATATTGTAAGCTGAAAGTGTTTTTGCTAACTGAATGTCAAATTAATG
M
GGTTTTGCTATCTACATGGCATGTTTTGACAAAAATACTGTGTACCTTTATTGACAGTGAACCTTCTGCTCTGGAGTAATGCTAATCCAAGACTGCTGGT
Celera SNP ID:            hCV8714511
SNP Position Genomic:     103600
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41983):
TTTTTGCTAACTGAATGTCAAATTAATGAGGTTTTGCTATCTACATGGCATGTTTTGACAAAAATACTGTGTACCTTTATTGACAGTGAACCTTCTGCTC
Y
GGAGTAATGCTAATCCAAGACTGCTGGTTTTTCATGTTAAAACCCATAAACTTGTTATTAGAGCAGATGACTTCCAAAACGTCAAAACTAAAGATGTTGC
Celera SNP ID:            hCV8714512
SNP Position Genomic:     103672
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   (T,-|C,-)   Control(C,125|T,356)   total(C,125|T,356)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41984):
CAATGATACAATCTCTTAAATTCATCCCAATGTGCAAGCAATTGGCTGCAGGTGTGTTATTGAGAAGATTATTGAGGAGTCATCACACACATGCCAAAGT
W
AGGACACATATATATTCTTCCCAGCTTTGCTTATAGTTGGCAATGCCTGGAGGTGAAGCACGCATTTAGAAGCATGATCCTGGAGAATGTTCATGATGTT
Celera SNP ID:            hCV9908426
SNP Position Genomic:     169939
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41985):
ACCCTTGCTGAGTTCTTTTATAAACCTCATTCCATTTTATGTACACACTAACTCAGAGAGGGAGGCATTATTGTCTATAGTTTAGCAGAAGAGAAAATAC
R
TTCAGAGAAATTAAGTAACTTGATAAAGTTCACACTGCCATAAAAGTGTCATCTGAAAACACATATAGCCTGACTACTCATGTAACTTAATCTCCAGGTG
Celera SNP ID:            hCV9908428
SNP Position Genomic:     166746
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41986):
TTAGTGAGAATATTTGCTATTATTTGTTCAACATAGGCAATAGATTAGGAAAGTGTTAAAGAAGACATGGTTGATGCCTACTATAGATCAAAGACTTAGC
R
ACAAAAAGCTATGGTGTTGCTGGTACCAGATCACACTTTGCAGCAATCTCCAGTTTGGGACATATAAAGAGTTGTTCTTCGTTTTCTATGTCCTGAAAGA
Celera SNP ID:            hCV9908357
SNP Position Genomic:     198460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41987):
GGAGGATTTCTTGAGCCCAAGAGTTTGAAGCTGCAGTGAGCCATGATGGCACCACTGCAATTCAGCCGGGAAGACAGAGACCATGTCTCTAAAAGTAATT
R
TAATAATAATAAAATAATAAATAAATAACAAAAGAGACCCCAGAAAGCTAGCTTGACAATTCCACCATGTGAGGACACAGTGAGAAGGTGCCATCTATGT
Celera SNP ID:            hCV9908358
SNP Position Genomic:     195983
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,12)      total(G,3|A,12) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:41988):
AAACAAATGACCACATATTTGATGGCTGAAAACAACAGAAATTTATTCCCACAGCTCTGGAGATCAGAAATTTGAAATTGAAAAATGTCAGGATCCCTCC
M
AAGGATCTAGGAGAGAATCCTTCCTTGCTGTTTCTAACTTGTGGCTTTTGGCGTTCCTTGGCTTGTGACTGCATCACTCCCTGCTCTGCCTCTCTCTTCA
Celera SNP ID:            hCV9908359
SNP Position Genomic:     195261
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41989):
CAAATTAATGAGGTTTTGCTATCTACATGGCATGTTTTGACAAAAATACTGTGTACCTTTATTGACAGTGAACCTTCTGCTCTGGAGTAATGCTAATCCA
R
GACTGCTGGTTTTTCATGTTAAAACCCATAAACTTGTTATTAGAGCAGATGACTTCCAAAACGTCAAAACTAAAGATGTTGCTTATTCACTAGAGGAGTT
Celera SNP ID:            hCV8714519
SNP Position Genomic:     103690
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:41990):
CAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGG
Y
GATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGGATCTA
Celera SNP ID:            hCV27348980
SNP Position Genomic:     223226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41991):
AAAGTCATTGGTAGCTTGATGGGGATGGCATTGGATCTATAAATTACCTTGGGCAGTATGGCCATTTTCATGATATTGATTCTTCCTACCCATGAGCATG
R
AATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACGTCCCTTGTAAGTTGGATTCCT
Celera SNP ID:            hCV27348981
SNP Position Genomic:     223388
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41992):
GGACCTGCGGATGATATTTCTCATGGAAATCTATACTTGTTTAGATATTTTTTTTCCAGTCCAATGAGGTAATGTCTGATCGCCTAGATGCTTCTGTCAC
A
ACCTTAGCAAGGATCATGATTTCTCAATTGTATTGCTCAAGAGCCTTTGGCTGCTCTTACTGACCAGCCTATTACTCATCTTGTACACTTTGATTTATGT
Celera SNP ID:            hCV27348982
SNP Position Genomic:     229822
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41993):
ATTATTTGTCTGCTCTGCCCAATAAAGTGTAAGACACCTGAGAAGGATTTAGAGTAAGAATAAAAGCAAGAGAGAGAGAGACTGAGAGAGATAATTAGCG
T
TTTTTTCTGAAAATGCATTGTCCTCTTAATGCTCATGGTACTGTTGGGTCTCAGCTTTCTCATCAGATTCTAAAATGCTCAAAAACTTTTTGATTAAAGT
Celera SNP ID:            hCV27348983
SNP Position Genomic:     230263
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41994):
TCCAGCATCTGTTGTTTCTTGACTTTTTAATAAAGGCTATTCTGACTGGTACGAGATGGTATCTCATTGTAGTTTTGATTTACGTTTCTCTAATGATCAG
K
GATGTTGACCTCTAATGATCAGTGATGTTGACCTTTTTTCGTATATTTGTTGGTCGCATGAATGTCTTATTTTGAGAAGTTTCTGTTCATGTCCTTTGCC
Celera SNP ID:            hCV27348984
SNP Position Genomic:     231586
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,12)   total(G,2|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41995):
AAGAAACTTGAGCGGCCGGGTGTGGTGGCTCGTGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACTGGAGGTCGAGAGTTTGAGACCA
K
CCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCAGGCATGGTGGTACATGCCTGTAATCCAGCTACTCGGGAGGCTGAAGCAG
Celera SNP ID:            hCV27348985
SNP Position Genomic:     233090
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:41996):
TGGTGGTACATGCCTGTAATCCAGCTACTCGGGAGGCTGAAGCAGGAGAATTGCTCGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGCCACC
R
CACTCCAGCCTGGGCAACAAGAGTGAAACTGAGAAAGAAACAAAGAAAGAAAAAGAAGGAAGGAAGGAAGGAAACAAGGGGGAGGGGGAGGAGGAGGAGG
Celera SNP ID:            hCV27348986
SNP Position Genomic:     233246
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:41997):
GCAGGAGAATTGCTCGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGCCACCGCACTCCAGCCTGGGCAACAAGAGTGAAACTGAGAAAGAAA
Y
AAAGAAAGAAAAAGAAGGAAGGAAGGAAGGAAACAAGGGGGAGGGGGAGGAGGAGGAGGAGAAACAAAGAAGAGAAGAAGAGGAGGAGGAGGAGGAGGGG
Celera SNP ID:            hCV27348987
SNP Position Genomic:     233287
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41998):
ACTGCAACCTCTGCCTCCTGGGTTTAAGTGATTCTCCTGCCTCAGACTCCCGAGTAGCTGGGACTACAGGTGCGCACCACCATGCCCAGCTACTTTTTTT
K
TTTTTTGTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACTTCGTGATCTGCCCACCTCCG
Celera SNP ID:            hCV27348988
SNP Position Genomic:     234050
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:41999):
AGTGGACATATTGCAAAAAGCAGTTGCCAGACATGCACATTTAAATGTACTGAAACGCAAGGTGATAGACAAGAAAAATTTAGTCAAATTTATGCATTAA
T
AATTTATCTTCAGAAAATGCAAATCCCTGTTGTAGTTATTTTCCTATTTCTACAAATGTAATTAAAGCATTGATAACACAGGGGAACCACAGCATCGGAA
Celera SNP ID:            hCV27348989
SNP Position Genomic:     235596
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42000):
CAAAACTAAAGATGTTGCTTATTCACTAGAGGAGTTTATGTTGTTCACATTTAAGATGATTTATTTTTATTCACTTGACAACACTTCGAACTTCAAATGG
W
TGCACACAAGCCAATTCTTGGAGGGTTGTGACTGCAGAAAAAAAATTAAATCTTGTGCTCATGTGTTGCTCCATCATAGTAATCCTCAGTTTTGTCCCAG
Celera SNP ID:            hCV8714520
SNP Position Genomic:     103855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,7)      total(A,7|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42001):
CAACTTTCACTGATATCAAATTTCAGTTAAATTTTACTAGTATCAAATTTCACTGATAAGTATGTTTTGAATATTTTCATATGGTTATTGGCCATTTATA
Y
ACATTCATTTGGAAAGTGAATGTTCAAATTTTATCGTATTTATTTAGGAATTTGTCTTCTCATTACTCAGAAGAACATTTATATATTCTTGATAGGAATC
Celera SNP ID:            hCV8714521
SNP Position Genomic:     107979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42002):
CAATTGGCTGTAGTTTGAACAAGAAAACATCAATCTATTATTGTGATTTTATGATTCGCTGGTTGAAGTGAATTGAACATGGCCAGCTTTCCACAGCTTG
R
CTCCCACACTTAGAATGAGGAATTGAGGAAAGAGGAAGAAACTCATATTTACAGAGACTCTACTCTATTGGACCCTTGCTGAGTTCTTTTATAAACCTCA
Celera SNP ID:            hCV9908435
SNP Position Genomic:     166574
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42003):
GCGTCTGTGTTCCAAAGAGATGATGAGAATAGTGGGGAAGAGGCCTGTTGGAGATTTTAATTAGGATGATGTGGCTCTTCACAGTGGTGGTGATGTAGGG
M
TCATGAATTGCAGGAGGCTATTGGATCACAGTGCATGTGGGTTTTATCCTAAAAAAAATAGGCTTGCAGGTAAAGAAAGATGAGAGGGGCATTCCAAGCA
Celera SNP ID:            hCV9908436
SNP Position Genomic:     165055
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42004):
GAGGGTATTTTTTTCTATTATTAATTATACATGCTCATGTTCTTCATTATCATTGCTGTCAACACAGTGGTAATAAAAGAGCTCATGACTAGTGAGTGGC
K
TCTGTGTTCCAAAGAGATGATGAGAATAGTGGGGAAGAGGCCTGTTGGAGATTTTAATTAGGATGATGTGGCTCTTCACAGTGGTGGTGATGTAGGGCTC
Celera SNP ID:            hCV9908437
SNP Position Genomic:     164957
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,4)      total(G,4|T,4) ;TSC_42_A(G,-|T,-)   TSC_42_C(G,-|T,-)   TSC_42_AA(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42005):
AAAATGGAAAGACCCTGGAAAGGGTCAGTGCAGAGGTTGGACAGTCACAACTGACAGGACCAGTGAGAAGAAATCTTAGTTCATGATGGCCTCCATCTTC
Y
TGATGAAGCAGAAAAAAAGGCAGCCTGTTAGCACTGAAAAGGCTGAAGCTTAGGAAGAGGGTGTTAAATGTTCATAAAGGTCAAAAAGTTGAAAGAAGGT
Celera SNP ID:            hCV8714526
SNP Position Genomic:     114792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42006):
ATAATAATTTAGAACAAAAATAAAAGGACATCCCAGGTAGGAGGAAGAGCAGGGACAGAAACTCTGAGTTATGATGGGAATAATGTGTAAAGAACAGGAA
R
CATACTCACTTGTGATGATTTAGAAAAAATAAGAAAATGGTGGGAGACAGCCTGGGGGGAAATATGTCTCTCCCTCCCACCTAACTTCTTCTTGTGTGAT
Celera SNP ID:            hCV9908367
SNP Position Genomic:     191219
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42007):
TAATACATAGATATTCTTTGCTTATCTCTACTTTGAGAAGGATGCTTTTGTCTGTGATGAAAACTTATCTACATTTTAAAATAAACCATTTCCTAAACCT
R
TTCTAGCACCCAGTGTTTCTATTCCCCATTGTGATAAAACGTATGTAAGCATATAGAGGTGACAAGGTTAAAGTCGTACCTTCTCTAACATTCAATAATC
Celera SNP ID:            hCV8714527
SNP Position Genomic:     117196
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(A,84)   African-American(A,84)   Asians(A,84)   total(A,252)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42008):
TTTAGCAGTTATTTACCTGATTTCATTCAATATAAACAGGCAAACCAGATACTTTTATGGGAAACAATTTGCTCTGGTTATCAGCCATAATCTTCATAGA
M
TCAGCCTCAACAGATGTTCTTTCTAATAGAAAACCAATGAGGCACAGTGTTATCCCTTTGTGTAGCCTGTAGAGTCACATAGCTGATCAGAACCTGCGAT
Celera SNP ID:            hCV9908368
SNP Position Genomic:     190468
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42009):
GCCCATGGGTCAAGAGCAGGGAGGGCAGCCTTGATGGGGGTGGTGAGTTTTGAACTGATCATATTTTCATGGGAAGATATTCCTTTTTGTCGAAGTGATT
K
CCACCACTGTTTTCATGCTCTTTCCTCAATCTCCAAGCTCCTTGGTTTTAAATGGCTTCAAAACAGCTGTGCATACTGGCCACTCTAGCAACCTTTCCTT
Celera SNP ID:            hCV8714528
SNP Position Genomic:     132191
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42010):
CACATATAATTTTCAATAAATGAGGTTCAGTTTGGTCTCAATGAACTCTTCTGAGAAGAAAACATTGAATTTTATTAGGTGTACACAGAGTTAACAAATA
W
ATTCCCAAACAGTTTAGTATGAAACATTTTGAACCCCTTTAGATCCAATATTGAACATTTTGCATGGAATCTTCATTGTGTAGTCAACTGTTCCTGGCCT
Celera SNP ID:            hCV7558980
SNP Position Genomic:     301425
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:42011):
TCTTCCCATGCTACAGGTGAGACCAGACACAAAGTAAATGACCTAACTCAATTACAAATAACAAGGACCCCTCTGCAATATGTCTAAACATATATTAGAA
K
AAAGTATTTGACATCCTTCATAGGGATAAATGCCCTTATAGACACCCCATATATAAAACACAACAGAGATACACATTTACATAAATCTCAGTCATTTACA
Celera SNP ID:            hCV7558981
SNP Position Genomic:     300536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:42012):
TGCCTTCATATAAATATTTTATTCAATATGTTGTATTTGTGAATTTAACAAATGATATTAAACACAAACTACAATGCAGACAGACAAACTCTTTGTATGC
R
AATTAGCAATACATACCAACAGTTCTTGATACACAGGTACCTACTACATGCAGCTCATCATTGCTGTCCTCTTCCCATGCTACAGGTGAGACCAGACACA
Celera SNP ID:            hCV7558982
SNP Position Genomic:     300366
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:42013):
ATGGAATGGAAATGCATGTGAAATCTGGCTTGGCTCAGAATATCCTTAACAATTACATGAGAGAGGTCTGGATTCTTATTTTTTCTGGGCCATTAGAACA
K
ATAAATGCGAAGGAAACCATGTATATTCACCACTAGGACAGGTTAAAAAGACCATTGTATGTTTTTCTATTTCTGAATTACGAATGAAATCCGAGTACCT
Celera SNP ID:            hCV7558983
SNP Position Genomic:     295917
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:42014):
GTGGACATATTGCAAAAAGCAGTTGCCAGACATGCACATTTAAATGTACTGAAACGCAAGGTGATAGACAAGAAAAATTTAGTCAAATTTATGCATTAAT
A
ATTTATCTTCAGAAAATGCAAATCCCTGTTGTAGTTATTTTCCTATTTCTACAAATGTAATTAAAGCATTGATAACACAGGGGAACCACAGCATCGGAAT
Celera SNP ID:            hCV27348990
SNP Position Genomic:     235597
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42015):
CTCAGCCGTGTCATAGCCACTGCTATCCTAATTTATTGAGTCCTCATAATTGGTTATAAATTCATTTGTTTAGCCAAGTTACGAGGAAACAGAGACATGT
R
TACTTCTCCTCAGCTCTAGCTGAAGGTAAAAGATGACTCTTTGTGTGTCATTAAGTTAGACCTTTGCTTTCTGCCCATCCTTACTACGTAAGACTCTCTT
Celera SNP ID:            hCV7558984
SNP Position Genomic:     295303
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42016):
TGGACATATTGCAAAAAGCAGTTGCCAGACATGCACATTTAAATGTACTGAAACGCAAGGTGATAGACAAGAAAAATTTAGTCAAATTTATGCATTAATA
A
TTTATCTTCAGAAAATGCAAATCCCTGTTGTAGTTATTTTCCTATTTCTACAAATGTAATTAAAGCATTGATAACACAGGGGAACCACAGCATCGGAATT
Celera SNP ID:            hCV27348991
SNP Position Genomic:     235598
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42017):
GGACATATTGCAAAAAGCAGTTGCCAGACATGCACATTTAAATGTACTGAAACGCAAGGTGATAGACAAGAAAAATTTAGTCAAATTTATGCATTAATAA
T
TTATCTTCAGAAAATGCAAATCCCTGTTGTAGTTATTTTCCTATTTCTACAAATGTAATTAAAGCATTGATAACACAGGGGAACCACAGCATCGGAATTG
Celera SNP ID:            hCV27348992
SNP Position Genomic:     235599
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42018):
TTTCAATATATTTTGAACTTACCAATTCTGCAGTTTTGTTAAATATGTCAAAATACTCTTTTCAACTGCACATTTTTTCAACGTGATTTTGACTCAAAAA
R
AATACAGCCATCTTTTAGTAAATGGAAGTCATGTTTGGAAAGAACAACCAACCCAAGGAAACAGAAGGAAAAGAAAGTCCTTTTTATTTGTTTCTTTTTC
Celera SNP ID:            hCV7558985
SNP Position Genomic:     293660
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42019):
TCTTAAATATATAGTCAGGCTCCTCTTTAGCTCAAATAGTGTTGTTTTGTTTAATTAGACTGTGTTCCCAGTATTGCTTCTATTTTTTTTTCTTTTTTTC
T
TTTTTTTTTTAATTATACTTTAAGTTTTAGGGTACATGTGCACATTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGCGCTGCACCCACT
Celera SNP ID:            hCV27348993
SNP Position Genomic:     237148
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42020):
CAAAGCCAAAGAGTCCCTCTAGCTAATGCCTTTGCAAATTGTTTGCTTTGGGAGGTGGCGATATATTCAGAGATCAATGAAGGGTTGAAAGCATATTTGT
S
TAAACTATTTGTTTATCCTTCAATGGGTAGGGAGTTTGGGAGTCCTTAAACTTAAAAGGGAATATGAAAGCTGCCTCAAGGCTGCACATTTTGACATTCA
Celera SNP ID:            hCV7558986
SNP Position Genomic:     290363
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42021):
ATTCAACCTCATTGTTTTAAGCTTTTCTGAAACATATTCCCTCTTTAATCAATGATGATATGCTAGCTTTAGGTAAACGGTCTGATGTTAACACATATAC
A
GAGAGTATAAAATTCCACTTGACTCCTCAAGTGCCCATCAAACATTTTTTTTAAAACTCTTTTGATACATCTTAGTCCCATTCTGCATTTTATATGGGTC
Celera SNP ID:            hCV27348994
SNP Position Genomic:     237603
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42022):
CAGATAAGTCACTATTTATAAAAAGCATGACTTGTCCAGTGATAGTTCGTAAGATTTATTTATTTTATTGGTATATCATTTTAAGATTACACAAGTGAAA
Y
ATATTCACATACTGGCACATGTGTGTTTAATTGTTTAGCCTAATATAAGTTAAATCAGAGACTTCCCTCCTGTGTGCCATATACCTAGGGTGAGAATAAG
Celera SNP ID:            hCV7558987
SNP Position Genomic:     278969
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   JBIC-allele(C,302|T,1163)   total(C,302|T,1163) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42023):
CCTAAGCAGCGGAGCACCTCCCTCACTACCGTCTATTGAAAGTCAGCTTTTAAACAATAATAGTAATAAATAATAAAAAATAATAAAAATATACATATAT
M
AAACTTTGACACCATGGTGTACATTTTAGATAAATCAATATTTGTTAGACTACAGCACTAACAAGTTTCTATCTTAAACATTATAGTGACCCCTAATCAG
Celera SNP ID:            hCV27348995
SNP Position Genomic:     239106
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5|C,5)   total(A,5|C,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42024):
CCTGAGAGCTTAGTTGAAACTTAGAGCTCCCTCCCCAGAGTACAAGCATATTTAAGGAAATTCATGATTGCACAATATGAGGGGCAGGGTAGGATCAAGG
W
TGACACCAGGTTTCTGTTTTGAGCAACTGAATGGTGGAGGAGACTATGCTTGTCTTGACCAGTTGTCTCCATTTCTTGAAAAATTGGTTTCTTCACAGAG
Celera SNP ID:            hCV7558988
SNP Position Genomic:     276567
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|A,9)      total(A,9|T,2) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42025):
GACTAAGGAAACAACAACAGACAGTAGTAGCAGATGCATAAATGACCAGTTATTAGGAATTAACGGATATACATATTTAAATAACTATAACAAACATAGT
A
AAAAAAAAAAATGGCAAGGTGGGTAATTGGACAATATCCAGTCTAAAGTACAGATAACTCAAAGAATATTGTTTTTCCTGACTTTGGTTCATGGTGGTTT
Celera SNP ID:            hCV27348996
SNP Position Genomic:     241316
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42026):
ATCCTCATGAACTCCTGCAAGAACTCCCATGGGTATATCCTGGTGCCTGACAGTGCCTGCTGGTAAGATGTGGCTCCTGTCCCACAGCCTTCAAAGGAGA
Y
TGGTGGCAAGTGTCAGCCTGAGAGCTTAGTTGAAACTTAGAGCTCCCTCCCCAGAGTACAAGCATATTTAAGGAAATTCATGATTGCACAATATGAGGGG
Celera SNP ID:            hCV7558989
SNP Position Genomic:     276450
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;(T,-|C,-)   no_pop(T,-|C,-)   (C,-|T,-)   Caucasian(C,84)   African-American(T,3|C,75)   Asians(C,80)   total(C,239|T,3)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42027):
TTCAGTTTCGAGCTTATCCTAAACTCCGGAATATCTTGAAACCTAAGTTCAGGACACGTTTTTCAATAAGTTTTGTCCATTTTTGAGATGAATATTACTG
W
TCTTGCACCTCTTCAGTCCTCATTTCATGACACCTACTCCCCGGCTTACTCAGGTAGTCTTGGGTCTATCTTTTCCACCTTTATGGCCTGAAGTACCAAT
Celera SNP ID:            hCV27348997
SNP Position Genomic:     241544
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42028):
TTACTTAAAACGTTTCAGTTGCAGATTTAAGGAAACTTTCCCTCTTAAGCTAATTATAATTTACAGCTATTTGACAAAAGTATACCTTTGTTTTTTTTTT
K
TTTTTTTTTGTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCGGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTC
Celera SNP ID:            hCV27348998
SNP Position Genomic:     251626
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42029):
CGTTTCAGTTGCAGATTTAAGGAAACTTTCCCTCTTAAGCTAATTATAATTTACAGCTATTTGACAAAAGTATACCTTTGTTTTTTTTTTGTTTTTTTTT
K
TTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCGGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCT
Celera SNP ID:            hCV27348999
SNP Position Genomic:     251636
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42030):
TTTGCCAAATAGATTGCAAGCTTCTTGGGGGAAAGGATTATATCTTATATAAATTGTTTTAGTGTTATCTTTGAAGGAAACTAACATAATACTAATGACA
Y
ATTCCACCAACTCACATAATTATAGAATAGATAATAACTTTTGTTTATTAAGGAATCTCTATTATCAATATTAGATGGTGTTTTTCCTTTTTAGAATATT
Celera SNP ID:            hCV9908444
SNP Position Genomic:     163171
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42031):
AGCTATTTGACAAAAGTATACCTTTGTTTTTTTTTTGTTTTTTTTTGTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCGGGCTGGAGTGCAGTGGCG
Y
GATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGG
Celera SNP ID:            hCV27349000
SNP Position Genomic:     251690
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42032):
TGTCATATGCACTGAATAGGAAATTATCCTGTTCTCACAGATGTCTTACATTTCAGTGGGGGATATAAACAAGAAACAAAGGAATTCCTTTTTAAAATCA
K
AAGTGCAATGAAGAAAATGATAAAAGAAGAGTGTGGCTATTTGCAAGGGGCAGGGATAGTATTTGCAAGAGGAAGGGGTGAATGAAAAGGGAGCTGATAA
Celera SNP ID:            hCV1114965
SNP Position Genomic:     214959
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42033):
CAGAAAGTTGTACCATTTCGTACTCCCCTTCAGGGCAAGAAAGTACCCATTGTCCCACACCTTTACCGAGTCTGGATCCAACAATATTTTCCACCTCTGA
Y
GATCTGACTTCTAAAATAATTGCCAATCACGATTATTTTGAAGATCTGCCACTGCTACCCACTTAGTAGTGGTTGATTGAGTGATAAACATTTTTCATCT
Celera SNP ID:            hCV9908445
SNP Position Genomic:     162136
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42034):
GTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCA
Y
GCCTGGCTAATTTTTTGTATTTTTAGTAGAGGCGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCACCTCTGCCTC
Celera SNP ID:            hCV27349001
SNP Position Genomic:     251784
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42035):
AGAGAGGTGGAAAATGGAATTGGTTGGGCTGTGGATTAAGGTCAGGTTCTGCAGCAGAGTTACATTGGCTGTGAGAGACGATGTCCTTCAGAAACATAAG
S
TAAGCCACCTGCATCCCACTTCGCTGTGCTTGGAGCATTCTGACCTGGAGCTATGGCAGAGGCAGAATGGGAAGCAGCTTGCCTGAGCGAGGCTCACAGC
Celera SNP ID:            hCV9908446
SNP Position Genomic:     161035
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42036):
CGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCC
Y
GGCTAATTTTTTGTATTTTTAGTAGAGGCGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCACCTCTGCCTCCCAA
Celera SNP ID:            hCV27349002
SNP Position Genomic:     251788
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42037):
CAAATCATTTTCTTTTCTTACGAAGAGCAGCCTATTGCTGGCAGTTGTGCCAATAGGAAGAAACTACCTGGGAATAGGCAGGCTCAAAATGGCAGCTCCA
Y
CCTCTCTTTGCCAGCCACACGTACAGTAAGGAGCAGACAAGATGGTTCTGGCCAAGTGGAAAGCCCATTTGCATAATAAGATTAGGGTGGGGCGACCAGC
Celera SNP ID:            hCV27349003
SNP Position Genomic:     252668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42038):
GCAAGCTTAAAATAAATGTGACAGTTATGAAAATTTTGTTACTATGATTATATATTTATTTCTATTAAAATACTAAAATTATAGTGCAGATTGTAGTGGA
R
AGCTTTAGCAGTTATTTACCTGATTTCATTCAATATAAACAGGCAAACCAGATACTTTTATGGGAAACAATTTGCTCTGGTTATCAGCCATAATCTTCAT
Celera SNP ID:            hCV9908375
SNP Position Genomic:     190364
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42039):
GTATAGGACCAGACTCAGTTTGAAATTACCAGAATGCAGAATTAAGGAAGCATGTGGTAAAAGGTAAAGTTGGTTGAGAAACAAGAACTGGGGGGCTTTT
Y
ACCTTCCTGCAGACCCAGGTTTTATTCTAAAGGCAATGAGGAGCTAATGATGGTTTTAGGCAATAGAGTGCTGTCATCACCAGATTTCTAGTCTGAGTGT
Celera SNP ID:            hCV11422329
SNP Position Genomic:     165281
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42040):
TGTCCATGAATTGCTTTGTAAATCTTGTGAGCTACTTCACGAGTTATGAAGTTTTTAAGAATAAATAGCAATGAACTCACTTTAGTCTCCATGCCAAATG
Y
AGATGTTTTTGTGATAGCTGATCTTGTTTTGTAGGAAAACTCTTGCCTTCAAGTCCTTCTATTGGCTTTCAAGAGAATAATTTCCTTGTTTTAAGTCAGA
Celera SNP ID:            hCV8714535
SNP Position Genomic:     132654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42041):
TACCTGGGAATAGGCAGGCTCAAAATGGCAGCTCCATCCTCTCTTTGCCAGCCACACGTACAGTAAGGAGCAGACAAGATGGTTCTGGCCAAGTGGAAAG
Y
CCATTTGCATAATAAGATTAGGGTGGGGCGACCAGCCTTCCCACACACAATGTAAATGTCACACCTGATCCAATCAATCTGTGGGCCCTACATAAATCAG
Celera SNP ID:            hCV27349004
SNP Position Genomic:     252732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42042):
GTAGGAGGACACAACTTAGCCCATAACAGCTCTCAGTCCACTGATGACAGAATGTTATTAAATTCCATTTAGGTTGCTCTCAATCAATGTGGATTTTCCC
Y
GGAGTCAAGACAATAATCCTTGGGAGTAAACTGTTCACAGTTCACAGGGCTTTGCCACTGTCACCTGGTCCCTGCTTATGTCTCATTTCTCTAGCTGCTG
Celera SNP ID:            hCV8714536
SNP Position Genomic:     134500
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   (C,-|T,-)   Caucasian(T,13|C,71)   African-American(T,8|C,76)   Asians(T,9|C,75)   total(C,222|T,30)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42043):
ACTGTATTTTTAAATTCAGAATTTCCACTTTATTTGTTTTTTACAGATAATTGTCTAGTGAGTTTCTCCACACAGTAATATTTTTTGAACATTTTAAAAG
T
AATAGATATTTTAGTCAATGACTGATGATTTAAGTTTGTTACCTGCATCATTTTTTAATCTCTTTCTATTGTCTGTTTTTTTCTCTTTTATTTTTAGTGA
Celera SNP ID:            hCV27349005
SNP Position Genomic:     256256
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42044):
AAAAAAGTCCAATTTATAATCTCTAAAATAAATTATACAGGTGTGCTCTCCTGCCGGGGGCTTAAGAAAAGTCTTCTTCCCCCACCACTAGTGACAATTT
R
AATTATCAGTTAGCTCTTCTCAATGTATTTTGCTGTTGGTGTTACAAACTTTTGCCATTTATCAAACTTCTTTCATTGACTTCTATAATCATCAAAACGA
Celera SNP ID:            hCV27515800
SNP Position Genomic:     187930
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,117|A,1366)   total(G,117|A,1366) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42045):
TGCATATATTTTATAAATGATGTGTTTATGCTCTTCTGTCAACAGCATTTATGTGCACTTTGTCAACAGGTAAAATGATAAGAACATTGAATACATTTTT
W
AAAATTTCCTAAAAACACAATGAGGTAGGAAGACGTATAATTATTATTCTTTTTACAGAAGAAGAAATTAGATATCTGAACAGTTTGCCATTTTACATAA
Celera SNP ID:            hCV9908377
SNP Position Genomic:     187363
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|A,8)      total(A,8|T,2) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42046):
GCTGCTGTCTTACACGATGACATCTGTATTTGCCATGTGGTCAATGGTGGGCAGTCCTTGTGGGCCCATCTACTTGTTCTCACCATAGGTCCTCTTCAGA
Y
AGCAACCTTCCTTTGAAGCAATTATGGTTGTTCTCATGAGCCATGCTGCGTCTGTGGAACATTTGGTGGCCTGTGTCAGGCATGTGTGGCCTTAACAGCC
Celera SNP ID:            hCV8714537
SNP Position Genomic:     134694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42047):
TTAATAGCATTGAACTACTTAAAAATAGCTGCATCTTGTGCTTTGCAGAAGTGGGAAGGAGAAGCTAAAGAAAATAATTATTCCTCACACTGTGTAATAC
W
CTGGTCCTGGTGATTTTCAATATTGAAATACGTTCTATCATCTCTAAAGTTTCTAATATTGATCCTGCTGTATCTTATTCTGAATATATTATTTCATATT
Celera SNP ID:            hCV27515801
SNP Position Genomic:     216928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42048):
CTGTATTTTTAAATTCAGAATTTCCACTTTATTTGTTTTTTACAGATAATTGTCTAGTGAGTTTCTCCACACAGTAATATTTTTTGAACATTTTAAAAGT
A
ATAGATATTTTAGTCAATGACTGATGATTTAAGTTTGTTACCTGCATCATTTTTTAATCTCTTTCTATTGTCTGTTTTTTTCTCTTTTATTTTTAGTGAA
Celera SNP ID:            hCV27349006
SNP Position Genomic:     256257
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42049):
AAAAAGTCTCCCATGTCAAGATCAACTGTTACGGACAGGCAAGGTCACCTTCAGGAACCCAGTCGGTTCCAAGAAAAATTCTATACAATGAAGGAAACTT
K
GTCACAGGTCAAAGAATTAGGGCACAAGCCATCTGCCAAGTATGAAATAAAGGAATCTTGTGCCACGTACACTTGTGAAAGCAAAACGATTTGTCCAAAT
Celera SNP ID:            hCV27515802
SNP Position Genomic:     247092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42050):
TGTATTTTTAAATTCAGAATTTCCACTTTATTTGTTTTTTACAGATAATTGTCTAGTGAGTTTCTCCACACAGTAATATTTTTTGAACATTTTAAAAGTA
A
TAGATATTTTAGTCAATGACTGATGATTTAAGTTTGTTACCTGCATCATTTTTTAATCTCTTTCTATTGTCTGTTTTTTTCTCTTTTATTTTTAGTGAAT
Celera SNP ID:            hCV27349007
SNP Position Genomic:     256258
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42051):
CTTCAGCTTACCTTAGGGAGGTTGGAAATGTGTATTTGTGTAACTATTATCAGGCACAGACTGGAACTATTCTAGGAGATTTGGGTTTAATAGTGTGCTC
R
CCTCCTTGAAAGCCTTAGTGATTCCGGGACTCTCCTCATAAGTGTGCACTTTCTTTATACTTTCCAGGTAAATGTGAATGTGGCAAATGCACCTGCTATC
Celera SNP ID:            hCV7558990
SNP Position Genomic:     272725
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,9|G,31)   total(A,19|G,59)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;Gontrol(A,106|G,375)   total(G,375|A,106)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42052):
GTTTCAGAATTACTTTTGTATATGAGTATGATATTACTACCTAATTTATAGCGTTTTTGTTAGAAAAAGGTGAATCTTGAATAGTTTTTGGTGTTGTTGT
R
GAAGCCATCTCAAGGTTCAAATAATGAGATAATCTGTTAGAATCCTAAATGACCTCCTCTGTGATGTTTTGCTCTATGGTTTGGAAAACCTTTAGAGATG
Celera SNP ID:            hCV27349008
SNP Position Genomic:     259911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42053):
TCTATTAAATAAATTGAAGGAAGTCATGGATCCTTCTGACATTTTACCAAAAAAAATGTGTATTGGTATATTTTTCCAGGGATAGATCTGTGTTCTGCCA
R
TTATGGTTCTTGATTACAAACAACAAAACCAACTTCATTAAAAGGGATAAAAAAATATTTTATTAGAAGGCTTTAGGCTCAGAATGCAACTTTGAACAAT
Celera SNP ID:            hCV7558991
SNP Position Genomic:     271066
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42054):
AGTTAGTATTCTTCAGCGGAACACTTTAAATGTGACCATATAGGGAAGAAACGTATGTGTATGTGTGTGTGTGTGCCTGTGTGCATATGTGTGTGCGTGT
W
GCATATTCAGTCATGGTTTCTGAAGGTGATTACAATTTTTAACACTAGCAGTTCAAGTCCAGGCATCTACCCTGTGGCTTCTGAGTTTACAGATTTTCAC
Celera SNP ID:            hCV27349009
SNP Position Genomic:     261501
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42055):
CCTCCTTCTTGTTCATAAGTATTTTCGTTATTGGTGCTTTCCATTTCTGTATAAATGTCATAATTGGCTTTTAAGCTTTAAAAAATCCTGATAAGATTTT
S
GTTGTAATTACATCGAATCTATAGATCAATTAGGGGATATTTGGTATTTTAACAATATTGAATAATAAGCATACAGTATTTCTTCACATTTAAATCTCAA
Celera SNP ID:            hCV7558992
SNP Position Genomic:     264593
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,11)      total(G,11|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42056):
ACCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCATCCTCCACCTCCCGGATTCAAGCAATTCTCGTGCCTCAGGCTCCCAAGTAGCTGGAACA
M
AGGCGTGGGCCACCATGCCTGGCTAATTTTTGTATCTTTAGTAGAGATGGGATTTCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGATCTCAGGTGTT
Celera SNP ID:            hCV12127996
SNP Position Genomic:     8574
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42057):
GCGAAACTCCATCTCTGCTAAAAATATAAAAATTAGCTGGGCGTGGTGGCACATGCCTGTAATCCTAGCTACTTGGGATGCTGAGGCACGAGAATTGCTT
R
AACCTGGGAGGTGGAGGTTGCAATGGGCTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTCTTTCTAAATATATAAATACATAAA
Celera SNP ID:            hCV7558993
SNP Position Genomic:     257232
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42058):
ATATTTCTCATGGAAATCTATACTTGTTTAGATATTTTTTTTCCAGTCCAATGAGGTAATGTCTGATCGCCTAGATGCTTCTGTCACAACCTTAGCAAGG
W
TCATGATTTCTCAATTGTATTGCTCAAGAGCCTTTGGCTGCTCTTACTGACCAGCCTATTACTCATCTTGTACACTTTGATTTATGTATTCACCACACTA
Celera SNP ID:            hCV7558994
SNP Position Genomic:     229835
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|A,8)      total(A,8|T,1) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42059):
AAGGAATATATTAAATATTTCCTTTTCTACTGTGGATTTCTGTCTTTCTCAATTAGACTATAAGGTCAATGTAAGAAGGGTTCCTAAATAAATGATTAAA
R
AAATTAAAGTGTGAATAGCAGAGCTACATTTTGAATTAGAGATTTTTAAAAATATTGTCAAGGTAAGGGACCTGCGGATGATATTTCTCATGGAAATCTA
Celera SNP ID:            hCV7558995
SNP Position Genomic:     229654
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42060):
TGTATATAATCCGTTAACAAGAAATAATAGAAATTAAATGGGCCAAAAATCTAAAAGTAATGGACCCTGAGTGGTACAATTATGTATTACTCTTGTTTTC
W
TCTCTTTTTTTATTTTCCCATTTTAGACAGTGAATCTATATTTGTTCAGTCATTAAAATGTGTTAAATATCTTAGTTAGCATGATGTTTGTTATTCACTG
Celera SNP ID:            hCV7558996
SNP Position Genomic:     227222
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42061):
AATATCAAAAGCTAAATCCTGGAGTTTTATAACATATATTGTATATAATCCGTTAACAAGAAATAATAGAAATTAAATGGGCCAAAAATCTAAAAGTAAT
R
GACCCTGAGTGGTACAATTATGTATTACTCTTGTTTTCTTCTCTTTTTTTATTTTCCCATTTTAGACAGTGAATCTATATTTGTTCAGTCATTAAAATGT
Celera SNP ID:            hCV7558997
SNP Position Genomic:     227183
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42062):
TAACCATACTTGAAATGTCAAGTATGGTTTGAAGTTAAATCGGTGCTGGGGACAACAAAGTCAAAATGATTGGAACAGTATTTTTTTTTTTTTTTTTTTT
R
AGACAGAGTCTCACTCTGTCACCCAGGCTAGAGTGCAGTGGTGCGATCTGGGCTCACTGCAACCACCGCCTCCTGGGTTCAAGCCATTCTCCTGCCTCAG
Celera SNP ID:            hCV11209472
SNP Position Genomic:     217550
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42063):
AGCAACCTAAAAATCTAATAAGAGAATTAAATGGTTAAATAGAATGCTGAACCACACTAAAACAAAACAAAACAAAAAGGAAAAAACTTTTCAAAGGACA
K
TGAAAGACATGAGATGTTACTGATGTCATATGTAAAATAAGTAAGATTCAAAGATGCAAGAGAGGTTCAGTTGGAGAAAGAAATTCAAATATCAAAAGCT
Celera SNP ID:            hCV7558998
SNP Position Genomic:     226995
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42064):
TCAGGGTTGATAAGAATTCACCGTGGAGTAACTGGCCAGTGTGAATAAAGAGCCTTAAACATCTATACCCCTTTCCCAAGTAGTTTTATTTTACAGAGTC
Y
ACCTCAGTAAATGCTACAAAATGCAAAGGTTTATATATATGTATTAATACAATCTTTGAAATTTAATTTCTAATATTGGAAAAAAGAAAGCAACCTAAAA
Celera SNP ID:            hCV7558999
SNP Position Genomic:     226806
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42065):
TCAAATTGCCTATAGGAGAAAAATAACCTGATACTGACAAATCTATAGGCTTTGGAGTGTCTGCAGCGTCTACTAGTGTGTATTTAGAGGGAATTTTTGA
K
AAGACTCAAGATTTTGAGTGGCATTTTATTAAGCATTTGAATTACTTTGTAACTGACATCTTTGTTATTGTCTACAAGAATGGCATAGCCCTTTTCATTG
Celera SNP ID:            hCV28038232
SNP Position Genomic:     12105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42066):
TATTGTCTACAAGAATGGCATAGCCCTTTTCATTGAAGTCTAATTTGATAGTTTGCATTATATTGATGTATTTTCTCTTATATGGGTTTCATACATTTCA
Y
GCAGAAGTCATTCTTAAAGAGTTTTGAATAAGACTCTTATCCAAAATTCCCTCTAAAAACACGTTAGTAGACATTGGTGGTTGTCTGACCAATTAGTTCT
Celera SNP ID:            hCV28038233
SNP Position Genomic:     12271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42067):
TGCAGTGGCATGATCTCAGCTCACTGCGAGCTCCACCTCCCAGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGCAGCTGGGGCTACAGGTGCCCACC
R
CCACGCCCGGCTTATTTTTTTGTATTTTTAGTAGAGAAGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCCGCCAGCCTCGG
Celera SNP ID:            hCV11422330
SNP Position Genomic:     165763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42068):
GGTGTGAGCCACCTCCCCCGGCGGCAATGTCATTTTAAGATTGCTTTTGAGATAAACATGATTTGACACAATTTAAAATAAGAAAATAAGGGAGGCATAT
R
AAAGGCAGTATTTTAAAATTGTAAGTGTGTGACTTGCTGATATGGAGCCCCTTTTTCCTATGGGTATTCACTCTCTTGTGAAATCCATAATTCTGATGTT
Celera SNP ID:            hCV11422331
SNP Position Genomic:     165987
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42069):
ACTTCTTAGTTATAAATGGGTGGATTCTCCATATAGCTGCTCAAATTCTAAATTCATTATATTCCTGCCAGTTAAGCCTTCGTATGTCTTTGCTTTGCCA
R
TGAAAACTCAGCCGGCCAGGAACAAATCATATACAGACTTAATTTGAATTCAAGGGATGATATTGCTTCTTCTGTAGGTTAAGGGTTGCAGTGGTAGCTC
Celera SNP ID:            hCV7559000
SNP Position Genomic:     205564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42070):
AAATTATACAGGTGTGCTCTCCTGCCGGGGGCTTAAGAAAAGTCTTCTTCCCCCACCACTAGTGACAATTTAAATTATCAGTTAGCTCTTCTCAATGTAT
W
TTGCTGTTGGTGTTACAAACTTTTGCCATTTATCAAACTTCTTTCATTGACTTCTATAATCATCAAAACGAATGATTTATCTGCAGGCATTATTATTCAG
Celera SNP ID:            hCV7559001
SNP Position Genomic:     187959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42071):
ATGTCTTACATTCTGTATCCTGTGATTCCTTGATTTCTATACCATATTGGCTGTAGATATATTTTCATGTAACTAGATGTAGCTCATATAGCCATTATAG
R
TATAAAGACATTCGTCCTAATTTCGGTTCCTGGGAGTAAAGGTGGGAAAACACTTTCTCTAGTCTCCTAGTGTTGTGCTCAAAAACTATAATGGCTTATG
Celera SNP ID:            hCV7559002
SNP Position Genomic:     186599
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(A,-|G,-)   Caucasian(A,84)   total(A,84)
SNP Type:                 INTRON


Context             (SEQ ID NO:42072):
GTGGAATAAGGTGAGCAAGGGAGAGAGGAGCAGGAGATGGGGCGCAGAGATAAGCAGGTGAGGTACAGGTCATGGAATGGCTGTAGGTCATTCAAAAAAC
T
TTTTTTTTTTTATATTTCCCCAAGAAATGAAAAGATTTTCAGCAAAAGAGCACAGTGGTCTAATAATGGCTTAAGAATCATTCTGGCTAAGTTGTCTAAG
Celera SNP ID:            hCV12128006
SNP Position Genomic:     13228
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42073):
TTCACCAGTAACCCCAGACAGGAACCATTGTTCTATCTGCATTGGAATATTGTCATTATAGTGCTGCATAAGCCATCATGCTTTTAAAGTAACAAAGATT
R
AAATTCATATCCCTCAGACTGCTTAGTTACCAACACTTGTAATCTACAGCAAAAAATAATTTTACATTATTATTTTACATTTACACAAAGCTTTATCTGT
Celera SNP ID:            hCV7559003
SNP Position Genomic:     183710
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;SC_12_C(A,1|G,22)   SC_95_C(A,3|G,186)   total(G,208|A,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:42074):
TTGTTCTCACCATAGGTCCTCTTCAGATAGCAACCTTCCTTTGAAGCAATTATGGTTGTTCTCATGAGCCATGCTGCGTCTGTGGAACATTTGGTGGCCT
R
TGTCAGGCATGTGTGGCCTTAACAGCCACAAGTGCCTTATTCTGTTGAAATTGTTCTGAGATGATTCAGAGAAAATTTGCAACTCTCCAGGGATATGCAG
Celera SNP ID:            hCV8714541
SNP Position Genomic:     134767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42075):
AGAGAATTGCTTGAACCCAGGAGACAGAGGTTGCAGTGACCCAAGATTGCAACACTGCACTGCCAGCACTCAAGCCTGGGGACAGAGCAAGACTCTGCCT
A
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTATGAGGACACATAAGAAGCATACTTAATTTTATTGTATTTGTGAAATTGTGTGAGTAG
Celera SNP ID:            hCV27349010
SNP Position Genomic:     269400
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42076):
TTCAATGCACACACATCTTTTTGTTTGTTTGTTTGTTTTTTGTTTTCTGCTTTTTGGTTTTTTTGTTTTTTATTTTTTTATTTTATTTTTTATTATTATA
Y
TTTAAGTTTTAGTGTACATGTGCGCAATGTGCAGGTTTGTTACATATGTATACATGTGCCATGATGATGTGCTGCATGCATTAACTGGTCATTTAGCATT
Celera SNP ID:            hCV7559004
SNP Position Genomic:     178629
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42077):
TCTAGATGTGACTTAGTTTCCTTCCTCTACAGTGAGGGAGGAAATAAGAGTGATTTGTGAAGATGCATATTTTTTTTCAGTAAAACTGGGGAGGTTTCAC
Y
TATCTCGGGTCTCCTATTCTGGATACAACATTTCAAGAGTCTTGGATTCCTGTTTGATTATCAAGTTCACTTCCACTGACCAATAAATATTGGTAGATGT
Celera SNP ID:            hCV8714542
SNP Position Genomic:     137800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,10)      total(C,4|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42078):
CCCTTTATTGGGGGAAAGAAACAGAATGTGTGTCTTTTCTAACTTTTATTTTAAGTTCAGGGATGCATAGGTAGGCTTGTTACATATGTCTTATTGGAGG
R
TGGAGGGTGGGTTGAGGGAGAGGATCAGGAAAAATAACTAATGGGTAGTAGAGTGTGTGTCTTAATGGAAGGCTGAGGCACCATCCATCCATCCTATCTG
Celera SNP ID:            hCV27349011
SNP Position Genomic:     273724
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,8)   total(G,8|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42079):
CAGCAGCAAAGGAAACAACAGAAATGAAAAGGCAACTTCTGGAATGAGAGAAAATATTTGCAAACCATATATCCAATAAGGGGTTAATATTCAAAATATA
Y
GAGTTCTAGTCCATTTTTGCATTGCTACAAAGAAATACCTGAGGCTGGGTAATTTATAAAGAAAATAAATTTATTTTGGGCCAGGCACATGGTGGCTCAT
Celera SNP ID:            hCV7559005
SNP Position Genomic:     174890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42080):
AGGGTGGAGGGTGGGTTGAGGGAGAGGATCAGGAAAAATAACTAATGGGTAGTAGAGTGTGTGTCTTAATGGAAGGCTGAGGCACCATCCATCCATCCTA
B
CTGTCTGTCTGTCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCATCTATTATCTGTGTATCTATTATCTATCTATATCAATCATCT
Celera SNP ID:            hCV27349012
SNP Position Genomic:     273821
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1|T,1|-,10)   total(G,1|C,1|-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42081):
TGTATAGAATTATGATTTTTAAAATTGTTTATAATTCATTTCAGCCTCTTGAAGTACTTTAAAACTAAATAAGCTTCATCAGTTTCCTTACATGAGCAAA
R
TAATTTTGCAGGGAATCATGACAGTATGTAAGATTTTTGAAAACGAAAACCAAGAATTTATGACAGCCAGTTGAGTGCCTTTGGTCAAGGTCACGGACCC
Celera SNP ID:            hCV9908384
SNP Position Genomic:     184670
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42082):
AAAACGTTTCTACAGCAGCAAAGGAAACAACAGAAATGAAAAGGCAACTTCTGGAATGAGAGAAAATATTTGCAAACCATATATCCAATAAGGGGTTAAT
R
TTCAAAATATATGAGTTCTAGTCCATTTTTGCATTGCTACAAAGAAATACCTGAGGCTGGGTAATTTATAAAGAAAATAAATTTATTTTGGGCCAGGCAC
Celera SNP ID:            hCV7559006
SNP Position Genomic:     174878
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42083):
TGGGTTGAGGGAGAGGATCAGGAAAAATAACTAATGGGTAGTAGAGTGTGTGTCTTAATGGAAGGCTGAGGCACCATCCATCCATCCTATCTGTCTGTCT
R
TCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCATCTATTATCTGTGTATCTATTATCTATCTATATCAATCATCTATATGCCTGTT
Celera SNP ID:            hCV27349013
SNP Position Genomic:     273832
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42084):
TATGGACTTGTCTATTCTGAGTATTCCATACAAATGGAATCATAAAATATGTGATCTTCTCGCATCTGGCTTTTTTCACTTAGCATAAGTGTTTGCAAGG
K
TTATCAAAGTTGTAGCATATGTCAGTCCTTCATTGCTTTTTATGGCTGAATAATATCCTGTTGTATGGATACACCACCGTTATTTAACCCTTCATCAGTT
Celera SNP ID:            hCV9908385
SNP Position Genomic:     183052
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,9)   total(G,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42085):
ATGCATTTTTGCAGCAATTATAGAAATCTACTTTGTTCTGTATCTGCGGTGATGAGTAGCTTCATGTTTATTAGGAATTATGGAAAGCTCAGTTGAAACT
R
TGCTTTCCTCTACTTGCTTATAATGTGGGAACTGATGAATACAAAAACCAGTAGCTCCTTTTTATGTAGCTTTTAAACTATTTAATGTACTTCCGAAGAA
Celera SNP ID:            hCV7559007
SNP Position Genomic:     172073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42086):
TTGAGGGAGAGGATCAGGAAAAATAACTAATGGGTAGTAGAGTGTGTGTCTTAATGGAAGGCTGAGGCACCATCCATCCATCCTATCTGTCTGTCTGTCT
R
TCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCATCTATTATCTGTGTATCTATTATCTATCTATATCAATCATCTATATGCCTGTTCTCT
Celera SNP ID:            hCV27349014
SNP Position Genomic:     273836
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42087):
ATTTAATTTTATGTTGCGTTTTTCTTTTTTAAAAAATATATGTTAATAGAGATATAATTCACATACCACAAAATTCACATACCACTCAGTATTTTGATAT
R
TTAACATAATTATGCAGCCATCACCACTGTCCAGTTCCAAAAAAAAAGTTTATCATCATAAAATACCCTGTTACCCTATAGCAGCCACTCCCCATTCTCT
Celera SNP ID:            hCV9908386
SNP Position Genomic:     182811
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42088):
TTTCATCCATTAGCATTTCTATGTACTTTTAAAAAGTGTAATTCCACTTTTAAAATTCTTCATGCATTTTTGCAGCAATTATAGAAATCTACTTTGTTCT
R
TATCTGCGGTGATGAGTAGCTTCATGTTTATTAGGAATTATGGAAAGCTCAGTTGAAACTATGCTTTCCTCTACTTGCTTATAATGTGGGAACTGATGAA
Celera SNP ID:            hCV7559008
SNP Position Genomic:     172012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42089):
TACTGGTTAGAAGTAATGAAACTAAAACCTGCAGGCTTAACATACACATAAATTTGACAAACCAGCATGGAAGCATTGCATTTCAGATCCATGTGGCAAA
Y
TGATCTTTTTTTAGTTCTGTCATTTGAAAGATAAAGCAATTTGAGATAAGGCCCAGAAAAGATAGTGGCACATCAGATGAAGGACACAAGTCTCCTGATT
Celera SNP ID:            hCV7559009
SNP Position Genomic:     168739
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42090):
AGGATACCTTACTTACTGGAAACCTGGGGTCATGCAAAGAAGTCAAGACGAGAAATACTGTGATAAAATGGCACCAATCTCAGAAGCTCACAAAAGACCA
A
AAAAAAAAAAAAAATCTAGAAATGGCTTAAATAGAAATTACAAATATTCACTCAGTGATAGGAACAAAATGTTTATTTTCTTAATGGTGAAACTTTGCTT
Celera SNP ID:            hCV27349017
SNP Position Genomic:     297004
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,10)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42091):
TATTAAGGATCAGAAAGTTAAACTTTACGGACCACGTACGTCCCTGTCTCATATTCTTCTTTGTTGGTTTCTGTTTAATACTTTAAAGCTGTAAAAAAAA
W
TTAAAAAATTCCTTCTGAGCTCCCAGGCCATACAAAAGCAACTTAAGGGTGGATTTGGCTGGCAGCTGGGCAGTACTTTGTCAGCCTCAGCTCCACTGGA
Celera SNP ID:            hCV27349018
SNP Position Genomic:     297920
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,9)   total(A,1|T,9) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:42092):
TAGGCTTATTTAATATGTTGGGTTGTCTGGTAAGCATTGTCTAATAATAGAGTGATGCCAAATCTTTTTCAAGTTATATTTATATGAATATGTTATTGAT
R
TGAATGTTCCAAAGATTATGTAAAATTTATAGAAGTCTGATGGCTCTGGTTGGATGCTGTCAACCATAATTCTGGTTGTTATCTTAAAATGTTACATGCG
Celera SNP ID:            hCV27495726
SNP Position Genomic:     251056
SNP Source:               dbSNP
Population(Allele,Count): Control(G,197|A,284)   total(G,197|A,284) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42093):
ATTGGCAGTAGCCAGGCAGTGTGGTTGCTATGAGCCTTGGGTGAGACCTAGTACCATGCTGGCTTTGGGACTGACCCAGAGTAGTCCCAGTAGTAGTTGC
W
ACAGGGGTGCTTGTGTTACCCCTCCCCCAGTTCCAGGCAGATCAGTGTGAAAAGAGAGACTACATTTGTTTGGAGGAAAGTAAGGGAAGAGAACATGAGT
Celera SNP ID:            hCV11923682
SNP Position Genomic:     54812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42094):
GAATGGAGACACTCTGCATAAACAACTCCTTAAAGGAGTTTTGCTGTAAATGGAAAGATAGAAATGATGTGACAATTGAAGAAGGAAGTACATCAAAGAA
T
TTTTTTTTTTTTGTACAGTTGGGAGACATAACAGTACACTTTATGCTGAACTGGTGGACAGGCAAGACATGATAATGCAAAGACTGGTAAATAAAGAAAG
Celera SNP ID:            hCV12128010
SNP Position Genomic:     14073
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42095):
CATACAGAGAGATCTTTAGAGAGCATTTCTCTTATTTGAATTCTTCTGATGTTCGATATCAAGACAAACAGCACCATGCCGAATCTTTCATCTCTATTTC
R
TTGATCTTCTGCCTACACAGTTTAAAGGAATACTGGTTAGAAGTAATGAAACTAAAACCTGCAGGCTTAACATACACATAAATTTGACAAACCAGCATGG
Celera SNP ID:            hCV7559010
SNP Position Genomic:     168608
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42096):
TTGGGCTGCAGTCATTTTTATGGTAGGTAGATTATACCAACACCAAGCACTGTATTCTTCCATTGTGTGTGTGTGTGTGTGCATGTGTGTGTACATACAG
R
GAGATCTTTAGAGAGCATTTCTCTTATTTGAATTCTTCTGATGTTCGATATCAAGACAAACAGCACCATGCCGAATCTTTCATCTCTATTTCATTGATCT
Celera SNP ID:            hCV7559011
SNP Position Genomic:     168515
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42097):
GTGAGTCAGGGTCAGGGTTAAACCAAGAGAATTTCAAGTTGTAAGCATAGAGTTGGTGGTTAAAACTATGCTGGCATTCAGGAAATGCCATTTGACAATA
Y
CATTTTCTTTTTTGAGATGGAGTCTCCCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCGAGCTCCACCTCCCAGGTTCACACCA
Celera SNP ID:            hCV7559012
SNP Position Genomic:     165615
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   SC_12_C(C,1|T,22)   SC_95_C(C,3|T,182)   total(C,4|T,204)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42098):
TTCATTTCATGCCACTTTTCATGCTGTTCTGTATACCTCAATCCCATGTGGTGTTTTTCCTTCACTTCCCCTTTTATTGCAGAGCCTGTGCTATTGTCTC
R
TGCTGGAAGTAAGCCTCTTCACCATCTCACTTCTCTTAGCTATGCTTTTTCTCTTGGCTTTTAGTTCTCAGCTACTTCCTCAGGGACTCTGACTTTGACC
Celera SNP ID:            hCV7559013
SNP Position Genomic:     154490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42099):
AGATTGTGAGAAATATTCCTCGGGTCTGTGCTGCTTGTATTTCTCATCGTCTTGCAAACCTGGTGTCAGTCTTGATAGTACTTAATAGATGTACACTGAA
T
TTTTTTTTTGAATAACTGAATGAGTCTAGGCACGTACTTGTTGCTATGGGAAGGGTATGGGGATGATCCAGTGTTCCAGCTGAATCAAAGAAAACCGAGT
Celera SNP ID:            hCV12128017
SNP Position Genomic:     17309
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,8)   total(-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42100):
TTTTTTAATATGCCTTCATATAAATATTTTATTCAATATGTTGTATTTGTGAATTTAACAAATGATATTAAACACAAACTACAATGCAGACAGACAAACT
M
TTTGTATGCAAATTAGCAATACATACCAACAGTTCTTGATACACAGGTACCTACTACATGCAGCTCATCATTGCTGTCCTCTTCCCATGCTACAGGTGAG
Celera SNP ID:            hCV27349020
SNP Position Genomic:     300356
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 hmCS


Context             (SEQ ID NO:42101):
ACTCGGAATTCAGCTACAGCTCTACCTTACTCACAAGTTCATTCTCTTTCTAATAGATCACATATAGATTTGCTAATATCTAGTAATTCAAACCAAATTA
K
CAACAGCTTCCTTGGTTCCTTCCCATCCTTCACCCTTTACACTCAGTCACCAAATGCCCTCTACTCTTTCTCCTAAAAATATCCCCAGATGTATTTGTTC
Celera SNP ID:            hCV7559014
SNP Position Genomic:     153995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,5)      total(G,5|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42102):
TCATCCTCCCACATAGAAAGAATAACAAGAGGCCAGTACATTGATCCCACATATAATTTTCAATAAATGAGGTTCAGTTTGGTCTCAATGAACTCTTCTG
A
GAAGAAAACATTGAATTTTATTAGGTGTACACAGAGTTAACAAATATATTCCCAAACAGTTTAGTATGAAACATTTTGAACCCCTTTAGATCCAATATTG
Celera SNP ID:            hCV27349021
SNP Position Genomic:     301378
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:42103):
CAATGCCTTTAAAAATGCATAGCTCATGAGGATTAAAACTCGGAATTCAGCTACAGCTCTACCTTACTCACAAGTTCATTCTCTTTCTAATAGATCACAT
R
TAGATTTGCTAATATCTAGTAATTCAAACCAAATTAGCAACAGCTTCCTTGGTTCCTTCCCATCCTTCACCCTTTACACTCAGTCACCAAATGCCCTCTA
Celera SNP ID:            hCV7559015
SNP Position Genomic:     153958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42104):
TTTCAAATCATCCTTGGAATTTTCAAGATTTTACTCAAGGAGCTGATATTTAGAGCTTAGATACACCTCTACTATTTTATAAATAAAGGGCCAGCTGAAC
Y
GTATGAGTTTCTTACTTAGCAGAATTGGAGCTCTTGCTTTTTTGTCTTTCATCCTCTATCCCAAAGATTTGTTGAAGGATGATGAACTGAATGAAGGCTG
Celera SNP ID:            hCV8714480
SNP Position Genomic:     73352
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42105):
CATCCTCCCACATAGAAAGAATAACAAGAGGCCAGTACATTGATCCCACATATAATTTTCAATAAATGAGGTTCAGTTTGGTCTCAATGAACTCTTCTGA
G
AAGAAAACATTGAATTTTATTAGGTGTACACAGAGTTAACAAATATATTCCCAAACAGTTTAGTATGAAACATTTTGAACCCCTTTAGATCCAATATTGA
Celera SNP ID:            hCV27349022
SNP Position Genomic:     301379
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:42106):
CTGGTGTACATGTCTGGTCAGTCATCCTAGAGAGAGTCAGTTCTATTGGGCACTATGAAAAATGAGAGCTAAAAATCATCAAGTGTAAGGCAGAAGACCA
R
TCCTAGAGGCTGAGTTAACTGGCAACCACGAGAGAGAAGCTGTGTGTGTCATAGCATGAGCACAGGAGTCTGGAGCTTTTGCCTGGGCGTCCATATGCCA
Celera SNP ID:            hCV7559016
SNP Position Genomic:     152703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42107):
ACAGGTATAACATGTGCTCCCTAACCAGCTTCCTGAAGTGGCTCATGGTTGAATTTTTGGGAATCCTTTATCACAAAGATGGAGAAATTGGGGACCAGAA
S
GTTGAATGTAAGCCAGTTCCTTTTCCCCAGAGGCTTCCCTCTCACCTGAAAGGGCATTTTTGGGTGAGCCTCATCGTTGAAAGAAAGTGGGATACAAACA
Celera SNP ID:            hCV8714481
SNP Position Genomic:     82081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42108):
GTATATGGAATATCTCCGCATCTCTCTCAGTTTTGCTGTGCACCTAAAACTGCTCTAAAAAGAAAACAGTCTTAAAAGAATATGTACTCTCTCTGATATT
K
TTTGTTAGCGTGCTCTATAAATGTTAATTATGTCTACTGGGCTGTTAATGTCAACTTTTCTATATCCATACTGATTTTAATTTCACTAATTGCATTAATT
Celera SNP ID:            hCV9908399
SNP Position Genomic:     177452
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42109):
GAAATGTTACCAGTAAGAATGCCAGAGGCCCTTTTCCCCTAAATTCTCATGTGCCTCGTTCCAGGAAGAAAAAAAGAAAGATTTAGGATGTTTCTTTCTA
Y
ATCAGTCATTCCCTTGGAGACAAGAGAGAATGAGGCAAGATGTATTGGATTGTTCCTTAGTGTTTTTCCATTATGCCTCTCCATCTACAGATTGTGCCCT
Celera SNP ID:            hCV8714491
SNP Position Genomic:     82998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42110):
TTTTGGGTGTTCGTGTTGTGCTTTAAGCTGTTACCATCTCTCAAGCCTCCCTACTTATTTATTATAAACATTTAAAGCTGAGACCTTTACAAAAGGCCAA
M
ATTAACAGTGAGTGCATTCACACAATGAAAATGTATTTGAATGAGATTTCTCTGCTGTTAGATGGATCGTCAGTGGCATTGTCTCAAAGGATATTTGTGC
Celera SNP ID:            hCV8714492
SNP Position Genomic:     85268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42111):
TTTTTTTAACCTATTTTATGAACACTTCCTGAGTCCCTACTGTGGACTGGATGTGCATGTTCTTGAAGAACTCATAATCTAGCAGAAGATGTAAATAAAT
M
AATCTATAGAGTAGGATGTGATGAAATGTTGGAGAGAAGGGTGTTTATTTGCCCTGGGGACCCTAAACAGGTTGTGGCTAACTCCGCCTGGAGGATTTAG
Celera SNP ID:            hCV8714493
SNP Position Genomic:     85544
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42112):
TACAAGTAACTCAAATTATCCTTTTTTTGTATTTACAATCTCTGAGCTATAATTGTTTATTTCCAATATACATGTAAATGCAGGGCTGTGTAGCATCACA
R
GTTTTGGGGATGGGAGCTATAGTTATTCTTTACCCTTGATGAACTTATTTGCAAAGTGTCTGTAAGATTTTGGTTTCCACTTAGGGATGTAGAAAGTTAC
Celera SNP ID:            hCV27527059
SNP Position Genomic:     141004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42113):
TCTAAATTTTTTAATATGTAGAACAAGTAAAATGAAATTATTGGGGACTTAATATATTGATCTTTTATAAACTCCACTAGGTTTTTCCTCAAACATGCAT
R
TTTCCTGTCTTTCTGGAGATTCACTAACTTATTTAGCTACCATTTTTTAAGCAATAGAGTATGTTTAAACTTTATTTTATTAAAAAGGTGTTGAGTAAAT
Celera SNP ID:            hCV15820169
SNP Position Genomic:     184470
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42114):
AAAACCCTCAAAAAACTGGGTATAGAAGGAACAAACTTCAACACAATAAAAGCCACATATGACAGACCTATGGCTAGTATCATACTGATTGGGGAAAAAC
Y
GAAAGGCTTTCCTTGAAGATCAAGAACACGATACGGATGCCCACTTTTACCAGTGTTATTCAACACAGTACTGGAAGTCCTAGTCAGACAATCAGATAAG
Celera SNP ID:            hCV27937791
SNP Position Genomic:     58533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42115):
TTAATTTCTTTGGGGTCTGTATCTGTGAGTGGAATTGCTGGGTCATAGAGTGACTCTGTTTTACCTTTTGAGGTAGCACAGGACCGTCTTCAAAATGACA
R
TACCATTTTACATTCCACCAGCAGCGTGTGGAGTTTCCAGTTTGTCCACATCCTTGCCATTTCTTGGTATTGTCTGTCTTTTTGATTCTTTAGAGTATTC
Celera SNP ID:            hCV11422361
SNP Position Genomic:     183347
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42116):
CAGCAGCGTGTGGAGTTTCCAGTTTGTCCACATCCTTGCCATTTCTTGGTATTGTCTGTCTTTTTGATTCTTTAGAGTATTCTTTATAAAGAAAACTCCA
K
AAAGTGTCTCAGGTTGTTTGCAGCACAGATATTTTCTCATATCCATTATTTTCCCCTAAGGGTTGTAAGTAGAAGAGTGGAGGAGTAGGATATGGGTATA
Celera SNP ID:            hCV11422362
SNP Position Genomic:     183466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42117):
GTACATCATATTTTCATAAACGATGTTGCTTATCATAATCAATCTAATATTTATTGATCTTACCACCATGTATCTCTGGGCTAAGCTAGTGGTCAGAAAA
S
TAGGGTTAGGCCTACATTCTCTTTTTGTAAATAAAGTTTTATTAGATCATTGCCATGCTCATTTGTTTACGTATAGCTACTTTCTTGCTGTAATGGCAAA
Celera SNP ID:            hCV11422365
SNP Position Genomic:     190767
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42118):
AACCAGTTTGTGTTGGTCAACTAAGTCAGTGTCCAAAAAAAAGCAAACAAGTGAACAACAGGGCTTGGTATGATTATTTAAGATCTTCTAGCCCTGGGGA
K
ATCTTTATCCACACCCACATTTTGATGGACAATAAGAACTGCTGTCATGTTTGTTCACATTTACATTTCTGCAGTCTCAGACCAGTCCTTGGAGAAGCTT
Celera SNP ID:            hCV12128037
SNP Position Genomic:     25454
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42119):
ATGTTCAGAGATTACCTCTTAAGGCCCACAGTAATAAAACTATCTACACTTTTCTCTAAAAGTCATAAAAATGTTTGTGAAATAAAATCAAGTTTCATAT
Y
TTTGTGTACTGAAATTAGTTTCTTATTCCTACCCAATTATCTAACATACAATTGTCATTTTGTTATGAGATACATACACTTCTCATTACACATGGAGAAG
Celera SNP ID:            hCV11422367
SNP Position Genomic:     203581
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42120):
TCTCCCCCCACCCAGTTTACAATGTATACAATCTCTTATATTCATGTGGCTTAGTGATTTGTACAGGATGACCTAAAGCCACCAGGATTCCTGGAGATAT
K
CTTAGATGTTTACTAGGTTGCTTTGGAGAGTGAGAAGAAATCTGGGCTTGTTGAGCTTTACCTACCCTACCTACTGCTTTCTCTGGGCAAATTCACTTAC
Celera SNP ID:            hCV11422368
SNP Position Genomic:     204267
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42121):
GGTTAGCCATTTCTCATTAGGACTGGGAAAGATGAGTGAGAAATAAAATTATAGATTGCATGTTAAAAAGAAAAACACTGGTTGTGACACTGAGTATAGG
T
TTTTTTTTTTACTATATCTGAAGTAAAATGATACTTATCTGCCTTGTTAATTATATTTATTTGTAAAAATAGTTTCCATTTAAATTTGTCAATAATAAAA
Celera SNP ID:            hCV11496512
SNP Position Genomic:     62483
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,6)   total(-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42122):
GATACACCTGATTGTGACATTATTTGGGGTCCGTATAATAGAAAACCCAAGCCAAGGGTGTGTAAGGAAAAAAATTGCAATTTACTGGACCACTTAACTG
W
AGTAGTTAGGACTGTGATTTCCAAAGTGTGATTCTTGAATCAGCAGCACACGCATCAACGGGGGACTTGTTAAAACTGTGAATTCTCAGTTTCATACTCA
Celera SNP ID:            hCV11496517
SNP Position Genomic:     62965
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,5)      total(A,5|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42123):
CGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGGCGGGGTTTCAC
Y
GTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCACCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCAA
Celera SNP ID:            hCV2366621
SNP Position Genomic:     251828
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42124):
CCCCTAATTTTGATGACTGCCAGACAATAGGATAAATTATTTCAGGAGAATTATTACACCGTTCAGAGCTTCTACAGTGTCCTACATTCAATAAAAATAT
R
TCCAAACAAACAAAACAAATAAGCAGACAACAACAAACTAGGACTGTTAGGAAATACAGATGATAGAAAGAGAAAGGTGAGACAGATATTGGAATTATCA
Celera SNP ID:            hCV11422372
SNP Position Genomic:     228375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42125):
ACATCTGTTTCTCTGATTCATATTTTTATGGTCAACTCTGAAATGAGACAGTTGTGAACTGAGAAATTATTCAAAACACAAGGGATGTGTCTTCCTATTA
Y
TTGTGAGGAGGAAGTACAATAAAGTCCTGAAATCAGCAACTTGCATTGGTGGCTTGTTTACATAAGGAATATATTAAATATTTCCTTTTCTACTGTGGAT
Celera SNP ID:            hCV11422373
SNP Position Genomic:     229490
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42126):
TCAAACAGTGGACAAGGAATATTTAGTATAATGCCAGGAAACTAGTTGACTGGTCATAGTCACACAGATGCTTCAGGGCAGGCCTATTTCTTGCATACCT
R
TGATTTCAGGACATTTTCAGAAGTCCCAGACCTAGAACCCATAGGTGGAGAATCCAAATTTTTTGTCTGAGGACAATGAAGGTGTCAGTGAATATCTACT
Celera SNP ID:            hCV11422376
SNP Position Genomic:     232731
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42127):
TGGTCATAGTCACACAGATGCTTCAGGGCAGGCCTATTTCTTGCATACCTGTGATTTCAGGACATTTTCAGAAGTCCCAGACCTAGAACCCATAGGTGGA
R
AATCCAAATTTTTTGTCTGAGGACAATGAAGGTGTCAGTGAATATCTACTCCCTTACAAGAGCTTTGTTACAATTGTTCAAACCTATCAACTTCTAGATG
Celera SNP ID:            hCV11422377
SNP Position Genomic:     232781
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42128):
GTCTCTACTAAAAATACAAAATTAGCCAGGCATGGTGGTACATGCCTGTAATCCAGCTACTCGGGAGGCTGAAGCAGGAGAATTGCTCGAACCCGGGAGG
Y
GGAGGTTGCAGTGAGCCGAGATCACGCCACCGCACTCCAGCCTGGGCAACAAGAGTGAAACTGAGAAAGAAACAAAGAAAGAAAAAGAAGGAAGGAAGGA
Celera SNP ID:            hCV11422378
SNP Position Genomic:     233214
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42129):
TTGTTTACATTTCGGTAGCTTCAATTCCTGTGAGTCATCCAAATACACTTATTTTAGGCCTGATTGGCCCTCCCTCCTTGATCTCCTGGCTGTACAAACT
R
CCTGGATAAAACAAACAAACACAAAAACCTTATTTTCATTTTTCCGAGCCAATGACCTAAGCAAGATGCTGCTCAGACAATTCTTTCTTAAAGGGCTCAG
Celera SNP ID:            hCV16066032
SNP Position Genomic:     156940
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIC-allele(G,312|A,1188)   total(G,312|A,1188) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42130):
TTTAATTAGTAAGAAGAGGGCTCCAAAAACATGTAAATAGGCAGCAAGACAATACATGCTTTTGGCAAGTGCTATTATGAACTATGACCACACAGTAAGA
R
ATGAATATGGGTGGTAGAGAAGGCTTCTTTTTTTTTGAGACAGAGTCTCACTCTGTCGCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACC
Celera SNP ID:            hCV11422380
SNP Position Genomic:     233858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42131):
TTTTTTGAGACAGAGTCTCACTCTGTCGCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTTAAGTGATTCTCCTG
Y
CTCAGACTCCCGAGTAGCTGGGACTACAGGTGCGCACCACCATGCCCAGCTACTTTTTTTGTTTTTTGTTTTTTTTTTTTTGTATTTTTAGTAGAGACAG
Celera SNP ID:            hCV11422381
SNP Position Genomic:     233989
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42132):
GAGCAGGGGGCGGCGTCCGCGTCTGACCCGGCCTGCCGGTTGCTTGTCGCCCGCGCAGGAGCTGGCCGGGCGCCGCCTGCAGGCTGTCCCGGGCCGAGTC
S
GAGCGACGCTGCCGCGCACCTGGGCAGCCCCCGGGGGCCGCGCTGTGCCACGGCCGGGGCCGCTGCGACTGCGGCGTCTGCATCTGCCACGTGACTGAGC
Celera SNP ID:            hCV12128053
SNP Position Genomic:     34051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42133):
TTTAAGTGATTCTCCTGCCTCAGACTCCCGAGTAGCTGGGACTACAGGTGCGCACCACCATGCCCAGCTACTTTTTTTGTTTTTTGTTTTTTTTTTTTTG
K
ATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACTTCGTGATCTGCCCACCTCCGCCTCCTAAAGTGCTGGGATTAC
Celera SNP ID:            hCV11422382
SNP Position Genomic:     234072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42134):
TTAAAAGGAAGCTTAGCCTTAATCAGAAATCCTCTATTCACACAGCAGGGCCTCAGATATGGCAGATATTCCTGAAATGGAAAAACAGTACTTCAAAGTT
K
AGGCTCTGTGGAACTTCGTCATGATTTTTCTTCATCAATCTCTATTCTTTTTTGTAGACGGCATATTTGGTTTTTTTTTTCCCTGCTTTTTGTCTAACTA
Celera SNP ID:            hCV11929751
SNP Position Genomic:     64132
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42135):
TGAAAGATGCAAATGAGCAGCTTAATGGAAAAAATATGAGGAACTTGGTGCTAAATCATTCACAGTCAACCTGTTTCTGGGCTGGGGTTTCCTAAGCAGC
R
GAGCACCTCCCTCACTACCGTCTATTGAAAGTCAGCTTTTAAACAATAATAGTAATAAATAATAAAAAATAATAAAAATATACATATATCAAACTTTGAC
Celera SNP ID:            hCV11422383
SNP Position Genomic:     239016
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42136):
TCCTTTTCGTATGGGTATTTTGGGCTGCAGTCATTTTTATGGTAGGTAGATTATACCAACACCAAGCACTGTATTCTTCCATTGTGTGTGTGTGTGTGTG
Y
ATGTGTGTGTACATACAGAGAGATCTTTAGAGAGCATTTCTCTTATTTGAATTCTTCTGATGTTCGATATCAAGACAAACAGCACCATGCCGAATCTTTC
Celera SNP ID:            hCV15786743
SNP Position Genomic:     168496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42137):
AAAAACAGTACTTCAAAGTTGAGGCTCTGTGGAACTTCGTCATGATTTTTCTTCATCAATCTCTATTCTTTTTTGTAGACGGCATATTTGGTTTTTTTTT
Y
CCCTGCTTTTTGTCTAACTAGTTATATATTGCTTATTGTAGATACTTTTGCAAATACCAAAAAAAATGAAACTCCCAGAAGCAACATTTTAGCTAATTTT
Celera SNP ID:            hCV11929754
SNP Position Genomic:     64212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42138):
GAAGTTTTCCTTGGACCTTGAAGAATGATTGGAAATTTACCTGATAGGTATATGATAATGACTGAAACAAAATTGGTAGTGATTTGTGGTAGTGGCTAAA
Y
AGAAGTTGTGAAGTGAGGCAGCAAAATAATAAACTTACAAAAATTAGCCAGGCACGTGCCTGTAGTCCCAACTGCTCAGGAGGCTGAGGCAGGAGAATTG
Celera SNP ID:            hCV11422385
SNP Position Genomic:     269627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42139):
CTGGCTGTACAAACTACCTGGATAAAACAAACAAACACAAAAACCTTATTTTCATTTTTCCGAGCCAATGACCTAAGCAAGATGCTGCTCAGACAATTCT
Y
TCTTAAAGGGCTCAGTCCAAAATAATTAGATCAATTAGACAAATCCATCCACAAATATATGTGTTTGTCCTCTTGATGTTTAGTTTCCAATTATTATAGA
Celera SNP ID:            hCV16066039
SNP Position Genomic:     157025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42140):
CTCTTTAATGCTTAGACATCAGTGAATATCCACAAGCATCAAGGCCATCCAGGAAAACATGACCTCACCAAACAAACTGAATAAGGCACCAGGGACCAAT
Y
CTGGAGTGACAGAGTTATGTGACCTGTCAAAGATAATTTAAAATACCTGTTTTGGGGAAGATCAGTGAAATTCAGGATAACACAGAGAAGGAATTCAGAA
Celera SNP ID:            hCV9266447
SNP Position Genomic:     55251
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,18)   total(C,18|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42141):
CTAATGTTAATTTTTATGCAATAATAGAGAGACACCATTACTTCCACTTGTATCTGTTGTTATTTGTAAGCAGAGAGGTATACAGATAAACTAATATAGT
R
CCAAATGCCATTTGTATGAAAGTTACCCTTTTGTTTTATTAGTAAGCAATAGGAGAACAATCAATAAATACTGCCACCAGTGGTAATGTGACTAGCCTTG
Celera SNP ID:            hCV11422388
SNP Position Genomic:     286514
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(A,11|G,73)   African-American(A,13|G,71)   Asians(G,84)   total(G,228|A,24)   (G,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42142):
GAAGACAACAATAAATACCTAACTCTTTAATGCTTAGACATCAGTGAATATCCACAAGCATCAAGGCCATCCAGGAAAACATGACCTCACCAAACAAACT
R
AATAAGGCACCAGGGACCAATCCTGGAGTGACAGAGTTATGTGACCTGTCAAAGATAATTTAAAATACCTGTTTTGGGGAAGATCAGTGAAATTCAGGAT
Celera SNP ID:            hCV9266448
SNP Position Genomic:     55229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,8|G,10)      total(G,10|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42143):
CTTTTCTCTTCACTGATTCTGGGTATGAGAAGAAAAGAATGACTTGAGGATATGCCAACCTCACCTTGCTTCTGTCTGCCCCTAGCTATATTTTATATTT
R
CATTTCAGGCAAGAGACCAAAAAACTGAATTCCCAACACAGAGAGACAGTGGCGAGCGAGAGGACCTGCATCACCCAGCTCTTAAATCCTACATCAGTAC
Celera SNP ID:            hCV11929759
SNP Position Genomic:     97311
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42144):
CTTCAACACAATAAAAGCCACATATGACAGACCTATGGCTAGTATCATACTGATTGGGGAAAAACTGAAAGGCTTTCCTTGAAGATCAAGAACACGATAC
R
GATGCCCACTTTTACCAGTGTTATTCAACACAGTACTGGAAGTCCTAGTCAGACAATCAGATAAGAAAAAGAAATAATGTTCATCCACATGGGAAAGGAA
Celera SNP ID:            hCV28025259
SNP Position Genomic:     58568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42145):
GAGAGAGATCAGCATAGAAAATTTATTCAAAGGGATAGCCGAGAAATTTCCAAACCTAGAGAAATATGTCAATACTCAAGTACAAGAAGGTTATAGAACA
Y
CAAATAGATTTAACCCAAATAAGACTACCTCAAGGAATTCAATAGTCAAATTCCCAAAGGTCCAGGATAAAGAAAAGATTCTTAAATTAGCAAGAGAAAA
Celera SNP ID:            hCV28024387
SNP Position Genomic:     55724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42146):
ACTTCATGATAAAAACCCTCAAAAAACTGGGTATAGAAGGAACAAACTTCAACACAATAAAAGCCACATATGACAGACCTATGGCTAGTATCATACTGAT
Y
GGGGAAAAACTGAAAGGCTTTCCTTGAAGATCAAGAACACGATACGGATGCCCACTTTTACCAGTGTTATTCAACACAGTACTGGAAGTCCTAGTCAGAC
Celera SNP ID:            hCV28024388
SNP Position Genomic:     58522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42147):
TTTTAAATCATATCAGGTCTGTTGCTGGGAGATGTTTGAGGAACACAGGAAATTATATGGAGCCTGTTGATAACAGCCTGTCCTTATCCTGTGACCTAAA
R
TAATACCAAACTTGCCACATTACCAACCCTCTTGTTTAAATGTAAAACCCATATTGGAGGTTTACACCAATGTCATTAAAAAAAGAAAGTTAGGATTCAA
Celera SNP ID:            hCV11496536
SNP Position Genomic:     67474
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Gene Number:                 204
Celera Gene:                 hCG30023 - 208000044049213
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VU68(1644489..1671285)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12364):
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNCTCCCCTAAATGCAAAGCATCCTGTGATGCTTTTTTCTCCCACTGTGCAGATGGAAACCATCCTGGACTAGAATTTCTTTCAGGGAGAGA
TGGAGCCCTTCTGTCTTTACTTTGAGCTGCTCAGGGGGTTCTGAGGTGAGGAGCTGAAAGTGGTCAGGCCCTGATGGGACTCTGTGGCCTTGACATATAA
GGAGACCAAGGAGACAGATCCTCCTTACACCTGGGAGCCAAATGCCTTGACACTGCTCTGTGTCCTGTAAGCCAGCCTCTCCATCTTTCGGGTGCTGGCC
AACAACACTTGGCTCTCCAGATATTTTATTCATCAGGGATCCCCAGCCCTGCCCGCCCATGGCTAGGGAAGGCAGGATGGGGCTTGAGGACAAGCCTAGG
GGAGCTGGTGAAAATACAGAATAGTGGCCGGGCGCGGTGGCTCATGCCTATAATCCCAGCACTTTGGAAGGCCGAGGTGGGTGGATCACCTGAGGTCAGG
AGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTATACTGAAAATGCAACAATTATTCGGGTGTGGTGTCGCGCATCTGCAATCCCAGCTACTC
GGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGGGGCGGAGTTTGCAGTGAGCCAAGATTGGCACTCCAGCCTGAACAACAAGAGCGAAACTCAATCT
CAAAAAAAAAAGAAAGAAAAAGAAAAAAAAATACAGAAAAGCTCCAACACATGCTCCCGTGCATCAGCAGGGGCTCAGGAAGAGGTGGGTTGCTGGGAGG
ATCACCTGACAGAAGAGAGTTCTCTGGGTTTGGGCTGGAGGCTGGCAGTGGCCTCCTTGCCCAGACAGGGCTGATGGGTAGGGGGATTGGCAGTGGAGGG
GTGGGGGCAGTGAGGGCTGACACCTTGAAGCTGGATGCTGAGTTTGACACACTTAGAGCTGAACACTGATGTCTGTTCAGCCAGAGTCTGGGGAGGTCTT
GGACTCCAAAGCTGATTTGGGAATTTGGGAAGAAACATTAAAGCTTTTTAGAGAATAAGGAAAGAGTATGGGAGCTTTACTCTGTTCAGAAAGGAGAATT
TATGGAAGTATAGCTCACAATCTATGATCTGCACCCCCAAACATCCAACCTCCCATATGAGAGATAAAACACAGCATCCCTAGGAAGCATTATTCCTGCG
CCTCCACCAGGCAGTCATGCCCCAGCCCAGCCTGTCTTCATCCCTAACCATTACCATTCCACCTCCTTTTGTTCAGGGCAGGTCTGGGAATATGTTCATG
TGAGGGATCACTTCTTGCAAATGCTCCAGTTATCCTGCACCCTTCAAGTAGGCTCCAAATCCTACAACATTCTCCTTGCCCTCCCAACTCGCAGGGTGCC
AGCTTCTTCCCATTCTGGCCAGAGTTTGTGACTTCCATGAACGCCCATAATCTACTTTTCTCTGTTTTCTCTGACCCCATGCTGAGGGGGAAATCAACAA
TAATAAAAAGGAGGCCAGGCACAGTGGATCACACCTGTAATCCCAGCAATTTGGGAGGCCAAGGTGGGTGTATCACTTGAGGCCAGGAGTTCGAGACCAG
CCTGGCCAATGTGGTGAAACTTTGCCTCTACTAAAAACACAAAAAATAGCCCGGTGTGGTGGTGCGCACCTGTAGTCCCAGGTACTCGGGAGGCTGAGGC
AGGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAACCGAGATTGTGCCACTGCACTCCAGCCAGCAATAGTGTGAGGCTCGGTCTCAAAAAACA
ACAACAAAAACAATAACAAAAGGGAAAATGAGTAAGGAAATAATGCCCTGTCCCAATGACTGTGTCTGTCTGCAGTGCACTCTATGGGTCAGAGAGACAG
CAATGGTCCCACGGGGCAGGTGCCTGGGGCTTCCTCTCCTAAATCAATTCTCTCTCCTGATCCCTGTCTCCTAACAACCCTACATAGTCACAAGCTTGGT
CTCTAAATCAGAGGTGATCATTGTCCATCACTACCTTAATTGACCACCAGAGGGAGGTAGAGAGCAAAGTTTACCGCCTGCCTGAGCAGCACTCACCGCA
TGACCAGGTCCTGCTTCCTTATTGTCTCTTTTAATTGACCTGAAGCGTCCTTACAAGGCAGTCTAACTTAAATATCCGCCAGTACAATTTAAATTCTGCC
CCAGGCCGGGCGCAGTGGCTCACGCCTGTAACCCCAGCACTTTGGGAGACCGAGGCAGGAGGACTGCTTGAGCCTAGGAGTTCAAGATCAGCCTGAGCAA
CATAGGGAGACTCCCTTCTCTACAAAAAATTAAAAAGTGAGCCAGGCATGGCCGGGCGCAGTGGCTCAAGCCTGTAATCCTAGCACTTTGGGAGGCCGAG
GCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTTTACTAAAAATACAAAAAATTAGCCAAGCGTGGTGGTG
CGTGCCTGTAATCCCAGCTATTTTGGAGGCTGAGGTAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAATATTGTGCCATTGCACTCC
AGCCTGGGCGATAAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAGCCAGGTGTGGTGACACATGCCTATAGTTCCAGGTACTGGGAGCAGGGAGC
GGGCACTGAGATGAGAGAATCCCTTTAGCCCAGGAAGTCAAGGCTGCAGTGAGCCATGACTGCACCACTGCACTCCAGCCTGGGCAACAGAGTGAGAACC
TGTCTCAAAAAAAAAAAAAAACAGAAAGAAAGAAAGAAAAGAAAAAGACGCAGCTGGGCACGGTAGCTCACGCTTGTAATCCCAGCACCTTCAGAGGCCG
AGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCGAACAGGGTTGAAACCCCGTCTTTACTAAAAATACAAAAATTAGTTGGGAGCGGT
GGCATGTGCTTGTAACCCAGCTACTCGGGAGGCTGAGGTAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATTACACCACTGCCC
TCCAGCCTGGGAGACAGAGTGAGGCTCCATCTCAAAAAAAAAAAAAAGAAAAGAAAGAAAAAGAGGCAGGGCACCCTGGATGGGAGGAAGGAGCACCACC
AAGACAAGCCTAAATGTGGATATTTTCATTCCAAAAGCACAAGAACTTCAACCTGGCTGACCCCACAAGCCCATATATCTCCTCCCTGCCTTGAACTCAC
CAAGCCCCCTGCTTGGAATACCAGTAGGCAGTCTGAGGGAATGGGACAATGTGGTGCAGGCAGGGTCGGGACGACACCAGGAGTGTGAGGACAGGCCCGG
CAGAGTGCTCTGAGATCAGACTGAAGGCGGGAGAAATGAGAGAAGCAAGACTTCCCGGTCAGAGGAGAGAAAGCTGACTAGATGGGCTTTGCAGGTCCTT
GGGGAGAGCAGAGCCACGTGTGGCTTTTAGATGCCACTGTTCTCCAGATCTTTGCAGAATCCACTAAACTAGGAACCTTGGCCTGCAGCCAGTGGGAGAA
GGGTAGTCACTGGGAAGAAACTCCCAAAAGTCTGACCGAGGCAATGCTAGGCTGGTGAGAGGGTGGGAGTGGGACTATCTTCCCTGGAGCTGATTAAGGC
ATAAGGAGACTGCACAGCCTCAGGACTATATGCTGAAATGCAGGCATCACGTCAGTGTAGTGGCTGAGAGATACAAGGAGGAAGAGGTGGAAATCCAGGA
AAACAGACAGAGATGAAAGGACTATAACACACACAGCAGGTTTCTATGTAAATATGTGCTTGTGATAGGGACCAGATGACTAACGACAACCTTTTTTTTC
TTTTTCTTTTTTTTTTTTTTGAATCGGAGTCTTGCTCTGTCGCCCAGCCTGGCATGCAGTGGCACGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTT
CAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCTGCCACCACGCCCAGCTAATTTTTGCAGTTTTGGTAGAGATGGTGTTTCC
CTCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACTTCTGCCTCCCAAAGTGCTGGAATTACAGCCGTGAACCACCGCACCCA
GCCTAACGACAACCTTCCCACACACTCAAGCCCCCACCTCTGCCTCTCCTAAGGAGAAGGGACATTTGATTGCTGGAATGGCTGGAGCTGTGGAAGGAGG
ATGAAGTATTGGGTGGCTGCAGTGAGCCATGATCAAGCCACTGCGCTCCAGCCTGGGTGACAGAGCGAGGCCCCGTCTCAAAAAGGTGTAGGGTGGATGG
GAAAGTATGTAAAGAAAAAGAGAGTGAGCAGGGACCAGAGAGGCAGAGGCAAGGCTTGGCTTTGTTCTGTTTCAAGACATAGAGAAGAGATATTTGGGAG
CATCTGTCATATTGAATGAGACTTTGGGGACACAAGTGGAGTAATGACTATTTTAGGGAGTTTTCCTAAGTGTGGAATGGTCTAGTCTCATTCACCATCA
GCCCCTCAAGGAAACGTTCAGTAAAGATGGAATTGGCCGGGCGCAGTGGCTCATCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCATGAG
GTCAGGAGATCAAGACCCTCCTGGCCAACATGGCGAAACCCCGTCTCTAATAAAAATACAAAACTAGCCAGGCATGGTGGTGCATGCCTGTAATCCCAGC
TACTCGGGAGGCTGAGGCAGAGAACTGTTTGAACCCGGGAGGTGGAAGTTGCAGTGAGCTGAGATTGCACCGCTGCACTCCAGCCTGGAGGACAGAGCGA
GACTCCTTCTCAAAAAAAAAAAAGATGGAATTTACTCTTCACAGCATTCAGGGTTGCGTTTCTTTTTCCATGAGTGGTACTAAGAAGAGCCTCAAGGTGG
GAGCAGGAAGGCTCTGCTGTGTCAGGTTATACCTGCACATATGCATGGCCACATGGCCCAACACTGTAAGGGCCTTGCTTGTAAGTCCCTTATTCTGTCC
TCTAGCAATGTGACCATGTAGGCAACATTTGAAATTCCTTTAAAATTCCTTCTAGGCAGAGATTTAAGCTAAGAGGAGGACCTGAGTGACCTCTGGTGCA
ACATCTGAAAGCCCACGACAAGCCTCCTGGGCTTTTCCATGAATATCGCCGTGCCCCTGCCTACGGATATGCTGATGTGTGTATACAATATTCTGTGAGA
AGCAGAGACGCTGAACACTAAACAACACAAACCCATTTGGTCTAACTCCATCTCTGCCTACTCAGACATCTGCTTCTAGCGGTATCAGAGTTATGTCTAT
GTAGCTAAAACAAATGGAGTAAGGCAGCAATACACACAGGCTGACAAGCCCAGGATGGAGGGCGGCACTGCAGATGCTCTGCTCTCTACTGGAATGTGTG
GACATACAGGAATCCCTATCCCAGGACACCCGCAGACCCCCACCATGAATCCGAGATGCTCCCCAATGACGGTGATGATGACAGAACAGAGATGCCATCC
CTGGTCACACACACACACACACACACACACACACTCCCACTGCCTCCCTCTGCACCCCTCCCAAAGGCACCTGCCTTCCTCTCCTCTCAATCCACAAGCC
AACCTCCAGCTGCCACCTCTCTATCAGCCTTGGCTACCCCCACCCACGCTGGCACCTGCCTGGCAGCTCCCTATCCACCCCCTCAGCCCTCAGGAGGCCA
GGGCACACGTGGAACAGGTTGATGTTGTTCTCCAGGAAGTGGAGTGGGAGGGGGGTGGGGTCACTAGGGCAGGCGGGGTCCCCGGAAGCCTCTGTCCCTG
CATAAAGCAGCCTGTCCTGGCAAGGGATGGTCATCCTCTCAACCTACAGACCCAGTGAGCCCTAGGCCCTCACCCCAGACCCAGCTGCTGGATAGGACCC
AGCCCCGCTCCCAGGTAAGAACTTGATGACAGCAGGGAAGGCAGGGGTGCTCTGAGGACACAGGAAGATGGGTGGACCAAGAAGGGAATGGAACTCCCCT
AGAGTCCAGTGGGATAAGTATCCCGATAGGCCTTGGGGAGGGAAGGGAGAGGCAGGCCTGTGGACATCTCTCTGGTGAAGAGGAGGCTGCTGTTGCCCAA
GCCCTTCCCAGGTGCACCCAGGTAGCACCAGGAGGTTGTCCTGCCCCATCCTGGCCCTCCCAGGAATGAGGGTGAAAAAAAAAAAAGCACCTTGAAGCTG
GCAGAACAGCCCCACGCATCTGTGCCGTGCTTCCTGCCCCCCCTGCTGCTGTGAAGTGCCTGTGGTGGATGTGGGATGCTTCCAAGCCAGCTGGTGTGGC
CTCTTCCACCCACGGGGATAACTGGGGTGTGCCGATCGGCCACCCAGCCAGAGCACCTGGACTCAAACTTCAAAGACAGAGACTTAAGATGTTGACCCTC
AGGTCAGGTGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGGTGAGATGGGCGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACA
TGGTGAAACACCGTCTCTACTAAAAACACAAAAATTAGCTGGGCATGGTGGCAGGCGCCTGTAATCCCAGCTACCTGGGAGACTGAGGCAGGAGAATCAC
TTGAACCCAGGAGATGGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAATGAAACTCCATCTCAAAAAGAAAAAAAAAA
TGTTGCCTCTCAGGTTCCCATGGGCCCCACATTCTCCAGGGCCCTCTCATCCTAGCGCACATCTCTCAGGGCCACATTCATTGGTTCTTTCCACACACAT
TTGCCAAGCTCGAACTCTGTGCCAGGTGTGGTACTTGCTGCTGCAGAGGTGACTAAGACCCATTTCCTGCCCTCTGGGAAGTCACAGACGAGTTGCTGAT
AGGGTCAGGTGAACAGATCATAACAAAGGAAGGTGCATCAGAAGAGCGCTTTGGAAACACAGATACAGTCACCAGCTGCCTGGAGGACTGAGGGAAGAGG
TTCCAGGAGGTGACCTGAATTGAGCATTAGCGGAGGACTAGGGAGTCTTCAGATCCGGAAGCGGGTATTGTAAGCAGAGGGGGCAAAGGTGAAGAGCATC
AAAATGCCTGGATCCTGGCTGGGCACAGAGGCTCACACCTGTAATCACAGTACTTTGGGAGGTCAAGGAGGGCGGATCATTTGAGGTCAGGAGTTCGAGA
CCAGCCTGACCAACATGGTGAAACCCTGTCTCCATTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACACACCTGCAGTCCCAGCTACTCGGGAGGCTG
AGGCAGGAGAATCGCTTGAATCTGAGAGGTGGAGACTGCAGGGAGCCGAGATGGCACCACTGCACTCCACCCTGGGCAACAGAGTAAGACTCCATCTCAA
AAAGAAAAAAAAAAGTCTGGATCCAGGCATCCCCCAGGGGCTGTGAGAGGGGAGTGGGTGTACTCATACCTGTGGCACGCATGAGGGAAGGACAGGGTGC
AGGGAAGTGTAACCCACACATGGAAAGGGCAACTGGGGCAGGTGAACAGCTTGGCCACCCAGGCTCTTGTTGCCAGCAGCATCTCCTTCCCTCCCCTGGT
GTCCTCCGACTCTGGCTATTGCTAGTCTCTGGTGTGAGAGAAAGCTTTACTTCCATTGCTAAATAAATGCTCTAGACCAGGCGCAGTGGCTCACACCTGT
AATCCCAGCACTTCGGGAGGCTGAGGTGGGAGGATCACTTGAGCCAGGAGTTTGAGACCAGCCTGGGAAACATAGTGAGACTCTGTCTCTACAAAAAAAA
TTTAAAAATTAGCCAAGTGCATGACTGCAGTCCCAGCTACTCAGGAGGCTGAAGTGGGAGGATCAATTAAGCCTTGGCGGTCAAGGCTGCAGTGAGCTGT
GATCACGCCACTGCACTCCAACCTGGGCAACAGAGTAAGACCCTGTCTCGGAAGAAAAGAGAAGAAAGCAAAGCAAGGAAAGGCGAGGTGGAGGGAAGGA
AGGAAGGGAAGGAAGGAAGGAAGGGAGAGGGGGAAGAAAGAAAGAGGAAAGAAAGAAAGAAGGAAGGAAGGAAGAAAGGGAGGGAGGGAGAGAAAGAAAG
AAGGAAGGAAGGAAGGAAAGAAAGAAAGAAAGAGAAATAAATAAAGAAAGAAAGAAAGAAAGAAAAAGAAAAGAAAGAAAAGAAGTGCTCCAGCTGGGCT
CCGTGGCAGTGAAGAAAATGAGCGTGGAGTGAGAAAAATGCCCTTGACAAAGAAAAGGGAGGTGTGGCTTTGCTGGCCATCTRTGGGACTTTGGGGCAAC
TCTTTCAACTCTCCAGCCCTAGGTTCCTCATCATAAAATGCAGACTCCCTTGATTCTTTCCAGCTGTGACATGAGACAATCCAGGCATCTCTAAGAGCTC
CTCCTGCCTCAGAGCCGGGTAAACTCTCTCTGCAGGGGCCCAGCCTATATCCCGGGCTCCTTGGCAGCCTTGGCAGCCACCTTGACACTCTCCTGTCTCC
CCACCTCCACAGAGACAATGACCATGTTTGAAAATGTCACCCGGGCCCTGGCCAGACAGCTAAACCCTCRAGGGGACCTGACACCACTTGACAGCCTCAT
CGACTTCAAGCGCTTCCATCCCTTCTGCCTGGTGCTGAGGAAGAGGAAGAGCACGCTCTTCTGGGGGGCCCGGTAYGTCCGCACCGACTACACRCTGCTG
GATGTGCTTGAGCCCGGCAGCTCACCTTCAGGTCAGCCTCAAGYGGGGCTGGGAACTGAGGGATACTGAGGGACAGRGGCTGGGCACCTGGCCTGCAAGG
AGGACCTCAAAGCTCCCTCTGGCCAGAGGTGATTAGATGTCATCTAGCCCAAAGTCATCATCAGGAGCTGAGGAGGCTGGTGGTCGGGGGGATACCTCTC
AGCTCAGCCTCTTTTATTTATTTACTTGTTTGTTTTTGTAGAGATGGGTTCTTGCTTTGTTGCCCAGGCTGGTTTCAAACTCCTGGGCTCAAGCAATCCT
TCCACCTTGGCCTCCCAAAATGCTGGGATTACAGGCATGAGTTACTGCACCCAGCCAGCCCAGCCCCTTTTGTCTTTTCCCTCCTGCAGACCCAACAGAC
ACTGGGAATTTTGGCTTTAAGAATATGCTGGACACCCGAGTGGAGGGAGATGTGGATGTACCAAAGACGGTGAAGGTGAAGGGAACRGCAGGGCTCTCGC
AGAACAGCACTCTGGAGGTCCAGACACTCAGTGTGGCTCCCAAGGCCCTGGAGACCKTGCAGRAGAGGTGAGAGTGGGCGGGACYGAGGGTCTCCCGGGA
TGTGGGTGGGGCAGTGCATGGAAATGGTGCTTGGGGCCTTGAGCTGAAAGGTAGGACCCTTGCACTGACCTTTGCCAATGTGGTCATGACAGGGGAGCTC
TTGGAGGCAACCCTTCTGGCCCATGGCTGCATCCAGGCCATTTCCTAGTCACACCTCCCGCTGCTGCCACCGTCTCCAGGACCACCTCCCCACTGTCACG
CATGCACAGGGAAGATGATGTCCACACTAGCTTGCTGTGTGATCTTGGAAAAGTCACTTCTCTTGGGACCTCAGTTTTCTTTTCTGCAAAATGACAGGAT
TGAATGATCATCTCTAAGGCTCCTTCTAACTCTAAGACTATGCAATACACTAGAAAAAGGAGGGATGTGTCTTAACTGCCCCCAGCTGAGACCTGAGCAC
TGTGTTCTGCTCCCATAAATGAAGCCTCCTGCCTGACCCCAATACACACTAAGCACGCCCTCGGGAATGCTGCCCCACAGCACAAAGGGTGTGGCAGGTG
CCACATTGATGCTGGGCACCACCGGATGTTTGGCTTGACACGGGAACTGACTTTTAAGTAGTTAAGTAGTGGTTGAAAGAAGGAGGTAAGGACTGTGAAG
GCCAGAAGGAAAGGCTGGGGTAGTCATCCAGCAAGCATGTATATAGTAAAGCACTCTACTACGGGCTGGGGTGCGCCTAGAACATCTTTGTCCAAGAACC
TTGCAGTCTAGGAAGGTGAAAATTTTAAAAACCTGTGCAACAGTAATTATAATCAAAGCCAAGAAGTGCTAAGTGCTGTAGGGATGGTTTGACTGAGTCT
TGTGGCAGGTCAAAGGGACTTCTGGCTGGGGAAATAAGGGAAGATCTCACAGACATGGCAGCCTCTGTTTTGGGCCTTGAAAGATGAGCAGAAATTGGGC
ATGCAGGGCTGGGAGAAGGGTATTATGAAGGCACACAGGTGAGCAATCTCAAAACCACCAAGGGCCAGGAACAGCCAGCATAGCAGGGGCGGAAGAGGTG
CGAGTAGAACGAGCAGGAAATGCAGGTGAACCCAAACCATGGAAGAGGCAAGTGGCAGCTCCAGGAGACTGAATTGTAGGCACCAGGAAGATCCTGAAAA
TGTTCTGATGTGTCCCATGACTAATCCAGCCAGATGGAGGAAGTGTGTCAGATAGGGGAAGAGGAACAGGGGTTTGAAGCAGTCAGACAAGGCAAGACAC
TTTTCTTCTTTTTTTGTTTGAAACAGTTTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACCGCAACCTCCGCCTCCCAGGTT
CAAGCAATTCTCCTGCCTCAGCCTCACGAGTAGCTGGGTTTACAGGTGCCCGCCACTACGCCCGGATAATTTTTTATTTATTTATTTTATTTATTTATTT
ATTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAACTCCGCCTCCTGGGTTCAAGCAATTATCCAG
CCTCAGCCTCTCAAGTAGCTGGGACTACAGGTGTCTGTCACCACACCCAGCTAATTTTTTATATTTTTAGTAGAGACGGAGTTTCACCATATTGGCTAGG
CTGATCTCGAACTCCTGACTTTGTGATCTGTCCGCCTCGGCCTCCCAAAGTTCTGGGATTACAGGGAAGTAATCCCAGTTAAGTAGTGGTTGAAAGAAGG
AGGTAAGGTGGCTCGTGAGCCACCACACCCGGCTAATTTTTGTATTATTAGTAGAGATGGGGTTTCACCATGTTAGTCAGGCTGGTCTTGTACTCCTGAC
CTGAGGTGATCCGCCTGCCTCAGCCCCCAAAAGTGCTGGGATTACAGGCGTGAGCCACTGAGCCCGGTCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGAC
GGAGTCTCTCTCTGTTGCACAGGCTGGAGTGCAGTGACACGATACCAGGTCACTGCAACCTCCGCTTCCCAGGTTCAAGCAGTCCTCCTGCCTCAGCCTC
CTGAGTAGCTGGGATTGCAGGCGCACGCCACTACATCCAGCTAATTTTTGTATTTTTGGAAGAGATGGGGTTTTACCATGTTGGCCAGGCTGGTCTCGAA
CTCCTGACCTCAGGTGATCCGCCTACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACCCCCAGCCAAGACACTGTTCTTCTATCCCAT
GAGCAACGAAAACTGAGGACCCGAGCTGGGGAAGGGCAAGAGGAGTGAAGAGGGAGGAATGGATGCAATGCCCATTGCCAACGGTGATAGAATGGCCTGG
GCTTGGTAGCTGATTGCAGGATGAGGGAAAGGGTTTTGTCAAAGGTGACTGCGAGATTTTACCCAGGTTGTGACATTATAGGACATTAAAGCTACCATTA
CAGGTGACAAACAGGAAGACACAGGTTAGAGGTAGATTTGGAGATTGTGAGTTCCTTTTGGATGTTTTGAGTTTCTGGTTCTGCTGAGACATCAGCTGAG
CATGTTGAACAGGTGATTGGAAATAAGGGCCTGGAGCTCAGGAAAGAGGTCAAAGTGAAGATACACACAAGGTAATCAGCACTATAAAGATTAAAACTGT
AGGAGCCAGGGGAGGAGTCTCASTCCCGTAAGCCCAGCACTTTGGGAAGCCAAGGCAGGATTGCTTGAGCCCAGGAGTTCAAACCAGCCTGGGCAAGAGA
GTGAAACCCCCATCTCCACAAAAAACGCAATATTAGCCGGGCATGGTGGTGCGCCTAGAGTCCCAGCTACTCAGGAGGTTGAGGCAAGGGGATCACTTAA
GCCCAAGAGCTCAAGTCTGCAGTGAGTTATGATCGAGCCACTGCACTTCAGCCTGGGCAACAGAGTGGGACCTTAAAAAAAAAAAAAAAGAAAAAACTAT
AGGAGTGAGTTGGGTGTGGGGAGCTTTTAGAGGGAGTTGAGAAAACAGGACTGAGAACAGAATCTTACAGAACATAAAATTTTAGAGAACCAAAGAAACT
GGAAAATGAGGTGCAGACAGAATGGATAAGATTTAGGAACTAGAAGTACTGGAGTTGAGCCAGGGTGGTACATTGTGACTGGAAGCCAAGAGAAGCCAGC
GTTGCACGGAGGGTTTCCACAGCAGGATCGAGWATTGCACAGAGTTAGGCGAGGTCRTTGAGACTGAYAGGTAAGAGATCATTGTAATTTCAGCTGAGTA
GTGGAAATACAAGGCAAATTATAAAGAATTTAGGTGGACCGGGCATGGTGGCTCACATCTGTAATCCCAGCTATTCAGGAGGCTGAGGGAGAAGAATCGC
TTGAACCCGGGAGGCAGAGGTTGTAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGTGAGACTCCGTCTCAAAAAAAAAAAGA
ATTTTTTTGATATATTTGCCAATGAAATGAAGGAAAAAAATAGGGTAGTAATTTGAGGGAGTGGCATGATCAAAGCAAACAAATTTGTTAGGATTAGGGA
CACGTTTATATATGGAAGCAGACAGAAGGAGCAAGTGGAGAGGAGGAACTGGTGTTAACAGCAAGAGAGAGCATAAGATGTGGAGAGAAAGGATCCCAGA
GAGATGAATGGGGAGGAAAGAGSGGGGGAGCATCTACCCCCRGGATCCCAGAGAGATGAATGGGGAGGAAAGAGRGGGGGAGCATCTACCCCCGAACTGG
AGGAAAAGGGGGTAAGAAGCACCCAAGAGGCCCTGTTCCYGGCCAGGTGCTGGCCCARTTACCGAGTTTATCTCTGAGCAACCCAGGAGGTCAGCATCAT
TATACTCATTTCATAGATGAGGCAATTAAGACTCAGAGAAGCTGCCCTGCCAGTAAGCATGAGATCTGGGTTTCAACCTCAGCCCTAGTCCAGAGTCCTC
ACTCCTTCCCTGCCACCACAATGTCTAGTTCCTGGGAATGACAGAAGGAAAGAGGAGGGTGTGKTACAGGCAGGAAGGAGCTCTGAACGGTTCCCTTATG
TTTCTCCTGCAACAGGAAGCTGGCAGCAGACCACCCATTCCTGAAGGAGATGCAAGATCAAGGGGAGAACCTGTATGTGGTGATGGAGGTGGTGGAGACG
GTGCAGGAGGTCACACTGGAGCGAGCCGGCAAGGCAGAGGCCTGCTTCTCCCTCCCCTTCTTCGCCCCATTGGGGCTACAGGTTTGATTCAAACACACAC
ACACACACACACWCTCACACTCACACTCACACATACACATTTACATTCAGCCCCTCCTTGGAGGCTTCATTAGCTTTGCCTGATCAGCGCCCACCGAGGA
TGCTGAAAAGGGCCACTCCTTCCCCCGGCTCTTAAAGATCCAAACCCCAGACATATGCCCCCTCCCTGGTCAGTGGCACCCAGTGAGGGCAGATCCCTGC
GCCAGATGCCACAGGGAACTACTGGGGAAGGGGAAAGTCACATTCCTGGGTTTTCCCTCGTGGTGCTCCCATTCCAAAGAGGAGACATCTTTACTCTCGG
AAAGTCATCAGGTTCATAGAGGAGACACAGAGGCTAAAGCCCAGAGAACACAGGCTTGGAAAAGCCAATGGAAATAAGGAATGGTCTCCATACCTCTATC
TATTGCATCTAAATATTCAAGGGATGATTTGGGATTTGGAGCCAGGAGTAGGGGTTAGTCATGGAAGGCGTCCTGAAAGAGGTAAGCATGGGACAGATGG
TGAAGAGGAAGAAGGAGCCAGGGCTTGGATGGAAGCTCTAGGGTGATGTACAGGCAGGAGATGGAGCAGGTCTGCCCAGTTCCCTTCATGCATCTGAACC
AGGAACTAGAACTGACCTGACTAGACTCTACTGACCTGAACCAGGTCACTAGAGGGAAAATCAGCAGAAATGAGCACAAGGACTTTGAAGTCCTTCCTCA
GAGTCCAGACCAGGGACACCACTGAAGGCTTCCAGCTTCTTATCTCCCTGAAGGCTCTCAGCCCTGACCCTGCACCTCCCCCAACTCRCGCTCCCAATAT
CTCATACTTAAGATGTCCAGAGATTCACAAATTCTCATTGTCTAATTCTAGGGATCCATAAATCACAAGGAGGCTGTAACCATCCCCAAGGRCTGCGTCC
TGGCCTTTCGAGTGAGACAGCTGATGGTCAAAGGCAAAGATGAGTGGGGTGAGCAGAGACCCGCATGTTCTCCCCACAAGATGAGAATTACCTGCACCAG
TACTGAGGCACCCTGGTCCCCTCTTGCGGAAATGTCAGAGAATGAGTAGGGGGGTGTATTGTACTGTGATCCGACTGCAGCCATGGAGCCTGCTCTGGAG
AGAAGGGTGAAGAGGCTCCTGGATTCTGAGCATCTTCTGGGTGCTGGGCACTGTGGTTATTGGGGGAGGGGGTACAAATATGAACATGCACTGCCTCTGC
TCTCAAGAAGTCTGTGGCCAAAGGAGGAAACAGACAGAGACTGGAATGGATGATAGAAAGTAGTGTTCTCATAGTAGAGAATTTATCAAGGAAGAAAAGA
TTGCTTCCAGCAATGGAGGTTGAAGCTGGGAATTAAATGAAGCATTTGGGGTGCAAGGTCCTAGCCCTTAGCAGAGCCCTTTGGCTTGAGACTGAAGAAG
GGAATGTGGGGCAGCTGCTAAGTGTCCTCCCACCCTCCCTCCCTTGCCCTTCACAGATATTCCACATATCTGCAATGATAACATGCAAACCTTCCCTCCT
GGAGGTAAGTGAAATTGCTTACGGGCTTCCCACATCTTCCGCCCTACCCCTGACATTATCTGCCAAAATCCTCCACCCTCTCCTAGCTTATACTATAATC
CCCCAAGGAGCCTCTGCTTTTGTTTCCCAAGTCCCTAAGAATACCTAGCCTCAACTTTAGGAAAGACAGATAGAGGCATATAAATACTGTCCCAGAGAGA
TATAGAAACTGACAGACAGAGACYGGAAGGCACAGTCAGAAGCAGAAGTAAGACTTGGAGACTGAGTGTGTTCCCGAATCATGGGGGTGRATGAGCTAGC
ATAATCTCCCTGTGTTTTTATAATGATCACTGATGAAACTSCCTTGAAGACTGTTTTAGATGAAAAGGCAAAAATGGGTTTTGTGCTGACAGATGTGCAT
TTTTTCTGTCTTCAGAAAAGTCAGGAGAGGAGAAGGTCATCCGTAAGTGTTTCCTTTCATTCCACTGAAACTTTCTTGACTCCAAATTTTAAAACTCCAG
TCTTTTTCTTTCCTTCTGACAGGACTGACAGGGAAATAGCAGAGCGAATCTCAGCAAATAATTGTCCCCGAAACATGGCAGAAATTCCAATAGCTTGGGA
AAAAGCAGTGGAAAGGGGGGAGTCTTTGCCCAGGTGGTCTGACGCCTGAGACCTTTGTCCTCAACAGCCTTASTAGCAGCCAGGCACAGTGATTCACACC
TATAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATCCCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATAGTGAGACAATGTCTCTATTTAA
AAAAAAAAWTTTTTTTTTGGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGTAGTGGCGCAATCTCAGTCCACTGCAACCTCCACCTCCCCGGTTCA
AGTGATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGATTACAGGCACCCGCCACCATGCCCTGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCAC
CATGTTGGTCAGGCAGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTATTGGGATTACAGGCRTGAGCCACGGCGCCTGGC
CTTTTTTTTTTTTCTTGAGACAGAGTCTCATTCTGTTGCCCAGACTGGAGTGCAAAGGTGAGATCTCCACTCACTGCAAACTCTGCCTCCCAGGTTCAAG
CAATTCTTGTGCCTCAGCCTCCTGAGTAGCTAGGATAACAGGCGCGGGCCACCACACTCGGCGAATTTTTAGTATAGATGGGGTTTCACCATGTTGGCCA
GGCTGGTCTCAAACTCCTGACCTCAGGTGATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATCACAGGTGTGAGCCACTGAGCCTGGCCTAGAAAAAAA
AAAAAAAAATTAAGAGWCTTAGTAGCTATAACCTGCTACACACACATCTGCAACTCGGCCGCCCAGCAACTGGGGCCAGAGCCACTGAGTCACAGTAATG
CCAGGAACAAGGTAGCTGGGCTCTCCCAGGAGACAGGCAGGATGTATTTCCTCATCTTCCTTAGTGTCTCAACCCCTGGGTATGGCTGCCATTCTGAAGG
ATTGCATTCTTATCTTTTTTTTTTCCTTTTTTTCTCAGTTATCCAGGCATCTGATGTTGGTAAGGAACTTTGTGAGTTTCTCCCAAGACTTTGGCATGGA
GGTAGCATTAGGGGCAGAGAGAGGAGAAGGCGAAGTCATTCTTTGTCAGCTAACTCATGGGAAGGGAAAACAGACTTTCTTTCTCCACTTTTTGCTGGAG
TCTCAAAGAAAAGTCAAGTGTGTACTGATATGGGATAAGGCCTGGGATCTCAGGAAGATTAACTGTTGGGTTAGATGATACATGCATCCTGGCCCACCTT
CTCGCCCCAACCCTCAGGTTAGGGTTGGTGGATAGTTCTGTCACYGCATTCCTTGGTAAAGAAAAATGGGGCCAGGCTCAAACTGGGGGGTAGAGCATGG
GTACCTAAAGGGGGCTGAGTGTAGGAGCCCTGCAGGGGGAATGCTGACTGGAGAGGAAGGTGCCCGAYGGAGGGCTGTGTGTCCCATTATTGTCCCCMYA
GGGGACGTACACGAAGGCTTCAGGACACTAAAAGAAGAAGTTCAGAGAGAGACCCAACAAGTGGAGAAGCTGAGCCGAGTAGGGCAAAGCTCCCTGCTCA
GCTCCCTCAGCAAACTTCTAGGGAAGAAAAAGGAGCTACAAGACCTTGAGCTYGCAGTGAGGACCTAGTGGAAGTGGGGAAGGGTGGGAGAAGGCATGTT
TTGGTGAAGATTTGGTGGGGGCGGGTATTGCAGCAGGTAGGGAGATCTGACGGGGGCAGGAGGTGGGTGGCCAGGGGAGTCCACCTTAGATACCTTCCCC
AAGGCTGGCCACGTGCCCCAAGGCTGCCAGGCCACTGCTCCTCCCTTTGTCCCCTGGAAAAGGGYAAACAGTGGGTTCCCCCAAGGCACATGCTCCCTCT
GATGGCCAGAAGGGACTTCTGCTGGAGGGGCTGGAACCTTCTCTTTCCAGAGTCCAAAACTCAGGAAACAAGGAACCCAGGAGTCCAGTACTCTTCAGGA
CATGAGGCCTCGAAAAAGAAATCAGGAARTGGAGAGAGTTTCCGCATGTCAAGGGGTTATTATGTGCTGGGCCCTGGGTTGGGCCCTTTCCTATGTTATC
TTCAATAGTCGCCCACCTTCCCCCACAGCTTGAAGGGGCTCTAGACAAGGGACATGAAGTGAMCCTGGAGGCACTCCCAAAAGATGTCCTGCTATCAAAG
GAGGCCGTGGGCGCCATCCTCTATTTCGTTGGAGCCCTAACAGGTAAGTGGGGAATAAGGTCTTCATTTATAGACCTTTTCAGTAATAGGAATGAATCAC
TTGAATCAATTCCCAAATGGATGAATAAATGAATGAATGACAAATTATACCACAGTTAAGTAGTTTATATCTACATTTTTATAAATTGGTTTCATGGCTG
GCTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGATGGATCACCCGTGATCAAGAGTTCGAGATCAGCCTGGCCAACATGGTGA
AACCCCGCCTCTTCCAAAAATAGAAAAATTAGCCGGGCGTGGTGGCAGGTGCCTGTAATCCCAGCTACTCTGAAGGCTAAGGCAGGAGAATCGCTTGAAC
CCAGGAGGGGGAGGGTGCAGTGAGCCGAGATCACTCCATTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCATCAAAAAAAAAAAAAATTGGTTTCATT
CCTAAGGATTTGCTTGGTCACATTGGGTAGTCTGAGAAGACAGCCTAGTCTTGCTAATAGAGGTTGAATAACCCTAGTTTTATCAGCAACATATTTAAAA
TTTCTGCATATAGCTAAGCTCATCACTTCTATCCTGATACCTGTTAGCTTTAACTTCAGGGAGTAACATTTTCTTATCTTGCCCCTAAGAGCTCTTCTTC
CCTCCACATTTTCTAGTTTTCCACTTAGAAAAACTCTGTGGTCCTTCAGGTGTAAGCCAAAACGTTTGTTCCCTTAGGAAGCCTGCCCTCCGACTCCAAG
ACCAAAGTGGACCCCTCAGCTATGGCTCCCTTAACACCTGCGTTGTAATTACATCCAATGAATGAAGGCTGAAATTCTGGAAGTGCGCTATTTGGAGGCT
GTAGTCCCCTCTGCACCAGCAACACACATCTTTCTCTGCTTTTTYTCTCCAGAGCTAAGTGAAGCCCAACAGAAGCTGCTGGTGAAATCCATGGAGAAAA
AGATCCTACCCGTGCAGCTAAAGCTGGTGAGGGAAAAACAGCAGATGCTGGGGAGAGTCTGGGAGTAGCTGCAGCCAGTGGAGATGCAGATTTCGCCTAA
GGATGGAGCCATTCTGGAGGATCCCTGTCTTATCCCAGGGGCTTATGCCCACTCCTCCTTTCTCTCTCTATTTCTCATTTTTTGTTATTTCACAAGAGGT
AGAAGACTGAATTTCTGGGCAATAATCTGGGTTTATTAGCCTGATCTTGGGAGAAGAGACAGAAACTGTGGCTTTGCTTATTCCTAGCCAAATATTGTAA
GCAAATTTTTTTTTTTTTTTTTTTGAGATAGAGTTTCACTCTTTTTGCCCAGGCTGGAGTGCAATGGTGCGATCTTGGCTCACCACAACCTCCGCCTCCC
GGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCCCACCACCACACCCTGCTAATTTTGTATTTTTAGTAGAGACAGGGT
TTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCTCGC
CTGGCCTGTGAGCAAATTTTTTACTGTGTCTGAGTCTGTCTCAATTTATTCCTCTGTAAAATGGGGCTAAAAATCAATGTGCTGCCCACTGTATAGGGCT
GTTCAAAGACCCAGATGGGGTTGTAATGTAAGGTAAAGTAAGGAATTCTAATAAGGGGAATGTAACCTTCTTGTGATTTTTGTGAGTTAGGAGAGGAGAG
AGGTTTCCAGTTCTTTCTTTTCATGCTGTTTTGATTCCCTCCAGGTGGAGAGCACGATGGAACAGAACTTCCTGCTGGATAAAGAGGGTGTTTTCCCCCT
GCAACCTGAGCTGCTCTCCTCCCTTGGGGACGAGGAGCTGACCCTCACGGAGGCTCTAGTCGGGCTGAGTGGCCTGGAAGTGCAGAGATCGGGCCCCCAA
TATATGTGGGACCCAGACACCCTCCCTCGCCTCTGTGCTCTTTATGCAGGCCTCTCTCTCCTTCAGCAGCTTACCAAGGCCTCCTAATTTGCCTTTTACG
TCTGCTTCATGACTCCCTAATGCCTTCCCAACCTCGTGGTGCTGTGTCCTTACCACCTAAGGGCATTTCAGAGCCATCAGCTGAAGACATCTGAAATCTC
AGCTGGTCACCCATGATAACCAACTTCCACCTGCCCAACCATATATCACCCCCTACCCCTCCAGCTCCGCAACCCACTAAGCCCATCTGCTGATGCTTAA
ATTTTCTTTACTTTTCTTTTCTTTTTTTTTTTTTTTTTGAGATGGAGGCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCTTGATCTTGGCTCACTGCA
ACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCTCGAGCAGCTGGAATTACAGGCACGTGCCACGACACCCAGCTAATTTTTGTATTTTT
AGTAGAGACGGGGTTTCACCATGTTGCCCAGGTTGGTCTCGAACTCCTGGCCTCAAGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGC
GTGAGCCACCGTGCCCGGCCTGTGCTTAAATATTCTAGGAGTAGAAGCACTCAGACTTTTAAAACTATGAGCCGTTTCAGCAAAACTGAGAAAAAAAGAA
GATTAATTAATTTCCTATCCTAATCCCTCCTACTTATACTTCCCCAAAAAACAAGCTTTACTGGAATTAATGGAAAATATTATGTCAATCTTAGGAATGA
TATGTCTTTTGGTGTTTTTCTTTAAAGAATTTATCATACAGAAATTCTTAATTTGTGCCAGAAAAAGAAATTGTTATCATACTGCATATAAATCATATGT
ACATGAATATGATGCTGTACTGTCCTCAGGCAAACTGGAAAATGCTCAGAGGGTATAGAATGTGGAATCCAGATTTTTTTTTCTGTTCAATTAGTTTTCT
TTAATGGAATCTAGAGTCTCAAGTGAGAAGATATCAAAGCAGTTTGTCTTCAAAGAAGAGCATTTGGGAGTCCCCTAGCTCTGGGTTGAGGGAAAGACCG
AGAGATATATAGTAGAAGCCCGAAACAAAAATAAGACAGATTTCAAATTTATTGAACAGAAAATGCAGATGGGCCTTTAAAAAAAAGGGGGACCCAAGAA
TAAGACTAACCCAAAACTTTAAAAACTAAATTGTGATATTATTTCACCTTTCTCTGTTCTGCCCTGAAATTTAGGGTTCTTGTAGGAGGAAGTAGTGTGG
GTAGGCTTGGCATATTACTACTAATATGGATATTACAATCTCATCAAACCGCTGGGTTTATATCATCCTCCTCTGCCTAAAAGCTGGGTTTGAACATCTT
TCACCAACCTCTTTTAAAGCAGTATCAGGACCGGACACCGTAGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTAATGTGGGCAGATCGCTTGAATCC
AGGAGTTCAAGACCAGCCTGGGCAACAGGGCGAAACCCTATCTCTACAAAATATACCAAAAATTAGCCAGGCATGGTGGCATGTGTCTGTGGTCCCAGCT
ACTCGGGAGGCTGAGGTTAGAGGATCACTTGAGCCTGGGAGGCTGAGGCTGCAGTTAGCCAAGATAGCACCACTGCACTCCAGCTTGGGTGATGGAGCGA
GATCCTGTCTCAAAAAATAAAAATAATTTTTAAAAAAGTAGTTCTATGAGTGCAGTACATGTCTGTAATCCCAGCACTTTGCAAGGCCGAGGCAGGAGGA
TCACCTGAGGTCAGGAGTTCAAGACCAGCCTAATCAACATAGTGAAGCCCTGTCTCTACTAAAAATTAAAAAAAAAAAAATTAAAAATTAGCTGGACATG
GTGGCTCGCACCTGTAGTCCCAGCTACTCAGGAGAAGGAGGCAGGAGAATCGCTTGAACCCCAGAGGGGGAGGTTGCAGTGAGCCAAGATCACGACACTG
TACTCCCTAGCCTGGCCAACAGAACGAGATTCCGTTTAAAAAAAAAAAAAAGTTTTATGAGTGGAAGAATTTCTCTAAGGATTTTGGTCCGTGGAGTCAG
ACTCTCCCCCAGTGTCTTAGTCACCCCCTGCCCAGCCTGGTTCCCTCATCCACCAAGAATTCATGACCAACTGCCAGAAGCTTTGTGTTATGCCGCCAGC
CTCCCTGATCCTGAGCACCTTCCAAAGCCTCACTCTATTGCTCATGGATATACTGGGTTGTTATCTGCTGACTTGGTTGTTTTCTCCTTGTGATGTAAAC
TTAATAGAGAGATGAGCTAACACCCTAACTATCTAGAAGAGTAACTCCTTTGATTGTTAAGGATGAACATAACTCATCTGTTTTCTTCCTTACCATTCTC
GCCCACCTTCAGTTGCAGATATGGTGTTATGAAGAGGTTCTAATGAGTTTATTCCAATGATGATTCAAAAGTCCTGTTATCCACCCCCCAGCCCTGGAGG
GTGAGAGGACAGTTGAGGAGGAACTGGTCAAGGCATGTTCCCTAAAACTAGAGCACATATCTTTCCAGTTAGCGAGTGGCTGTTTAACGCAAGGAACATC
CTGCAATCCTATGAAAGAGGATGCAAAAGATATGCAGGATACCCTTTATATATGCAAAGGAGGAGGTCAAAACATATTTCCTGCCTTCTAGGTCCTTACA
ACAGGGCTAGATTGTCTTGTAGGGTCCGTGAAAGGTCTAAAACTCAGGACTTCCACTTATGGGAGAGAGAAAAGTTTCAAGGTAGGGAGAGAGTTTTTGT
TTTGTGTTCTAAGAAATTGGGAGCTATATCCTTCACCTTGTTTCACCTTCCCTGCAGAACCAGTGGGGCAGTCCTTTGAAAAATAAGTGGGTAGGGTTTC
TTGTCCAATTTGCTTCCCCTTAGGTACACCACTAAGTAAACCATCATTCTCTCCTTAGGCACACCATTATTCTGTTCCCCATTTCACAATGTCTGTCTGG
ATGTATAAAAGCCCTCTCAATGGGCTCCCTAAAGCGTCTGCCAGTAGGGGCTCCCACCCTCTTTCCTCAACACTCCCAATCCACCGCAGCCCAGAGCACA
GTGTCTGCTTATCTAACCATCTGACTCCCCCGTATACTACATTCTTGAGCTGTTTTTCACCCCCCTATTTGCTAACCGTGGGCCGTACATAGGGTGGACC
CCTATATTTTGTTAAACTGGAGTGATTCTACGCAAATGCACGCTCCTACCTATCGGCACTCCCAGCCTGCAGAAATTGTATGCCTTATGTTCAGCACTAA
ACTCAAATCTAACCAAGGAAGTCCGGATCCCATAGGGKTCTTCCTACTCTCCAGTTCGGTTTATTTTAAGGCCAACAGCCCTAGCTTCACGTCCCTCCTT
CACAGCCTTCTTTCCTTCCCTCCTGCCGGATGCGCCCGGCAGCCGTTGAGCACAAGCCCAGCGGATCTGGAAGGAGACCCCGCCGCGACCGGGGAAAATT
GAGCGAACTTGGGCGCAAAACCCGCCCGGCAACTCGTGACGTCATCTCGTCCCGCGCTCGGATAGGCTGTACCCACTCCACGCTGGTTGAGGCGCTCTTA
AAGTCCTTTGTAACCCAGATTGGAGCCTGAGGGGACCTCTCGTGGACGCCCACAGAAATGCACTCGAGAGGAACATAAAAGCATCACACTTAAGCGCTCG
AAAGAAAGCCCCACGAACCCATAAAGGCTCCTCCCCGCTCCTTCCTCGAAGCTCCTCCTTCATCCTGCACCTCGGCTGTGGATTTATTTCCCCTTTGTTG
ACTCGGCCRTCGGCCTGCCGGGCCTGGCGTTTCCCAGAAGGCCCAGCGCCGGGAAGGGGTTTGCAGCTGCTCCGTCATCGTGCGGCCCGACGCTATCTCG
CGCTCGTGTGCAGGCCCGGCTCGGCTCCTGGTCCCCGGTGCGAGGGTTAACGCGAGGCCCCGGCCTCGGTCCCCGGACTAGGCCGTGACCCCGGGTGCCA
TGAAGCAGGAGGGCTCGGCGCGGCGCCGCGGCGCGGACAAGGCGAAACCGCCGCCCGGCGGAGGAGAACAAGAACCCCCACCGCCGCCGGCCCCCCAGGA
TGTGGAGATGAAAGAGGAGGCAGCGACGGGTGGCGGGTCRACGGGGGAGGCAGACGGCAAGACGGCGGCGGCAGCGGYTGAGCACTCCCAGCGAGAGCTG
GACACAGTCACCTTGGAGGGTACGGCAGCCCAGGCCGGGAACGTGCCGCGATCGCGGGTGACAGCGACCCCTGTGATTTGGCTTCTTGCTGGGAAGCCAC
AGCAGCCTCCACCACCCTCAGTTCTTTGGGATCACCCCCAGATACCTGCTTCCACTGGCCGACACTCCGATTCAGGCCCAATGACTGAACCTTCTCTCCA
GGCTGGGAAACACTCCCCTCCCATCCCCTCCATCCCCATATCTGGGGTTGCATCTATATCTAGGTCCCAGTGGGCCTGGGGACTCCCTCTTTTAAGTCCT
CCCCTCTGACCTATTCCGTTTATATCCCACCCGACTGATTTTAGCGCCTCCAATATATGACTGATTGTTCCCGCTGGAAACCAGTGTTTGTGTCTGTGTG
TAAACAGGGCCAGGATGACCTAGAATATTGACTCCTGAGTTTTAAAACTGTACAGCAGATTTTTGTTGTCCTAGCTGCCTTTAGCACACTCCCCCGAATG
AACCATTTCGACCTAGTATCTTGTTTCCTACTTCTCTAACTGAAGTGTCCCAACAGTCCCCTTGCTGTCTCCTCCCTTCAGGTCCTTACTGCCCCTCTGT
TTCTAAAGGGTTTAAGTACATACACACTTAAAACTTTTCGGGTGTCATCTTTGTTTGGTTTTGTAATACTCAACCTTTGGCCTAAACTCCTATATACCGG
TGTCTCCTATTTCTTTTCTCCGAGGTTCCTGTTTCGAGTGTCTGTAGTCCTCTTGTTCCTCCAAGTTCATGTTTTACTTTTCCCACTTACAGCGTCCTGT
TTCCATTTGAAGTGGGCAAAGTGAGAGCTTCCCACTGTGATCCTGGTGCCATTTTCCTGGTTCTGGATCAAGTGGGACCAGACTACTTACTAGGTTTTCT
TTTCACTAAAATGCGTGAGAAACTAGCTCAAAAACATTGAGATAAGCAAAGTTATCCTCCTAGGTGGTGCTTTTGAGGATGTGATGGTGTTGACTACATC
AGCTCTTACTGTAAAGTTGAGCAACAGGATCGATATTTAATAGAGATCCTTTTACCTAAAGTAGTGGCAGCAATGTCAAAGGTGCCACTCAGCATTGCCT
ACTGGGTGTGTTTATTACAGGCACTTCATTTTCTTCTTGTAAAGTAATTCATATTCATTGCAGAAATTGTGGAATGTATGAGAAGTTAAAAGCAGGGGAT
AAAAAACATGGTTAACATTTTTTCTTGTGAATTTTTGAGCTGTTCTCCTATAATTGAGAGCAAGTTATGTATACAGTTTGTATCAAGGCATAACTAAATA
TAAATTTTGAATTTTATGTGTTTTCATTAACATTCGTAAACATAATCAGCATTCAATTTATTCCAGAAACATTTATTGAATACCCAATATAATGGTTAAG
AGTACAAGTTCTGGAATTAGTTCCCTCATCTGTATAAATACAAGTAATAGTACAGTACTTTATTGGGTTGTTGTGAACATTAAAATGCTTAAAACTGTGC
CTAGCACATAAATATCAGCTGTTATTATTTATATCATTAGTGTGGCCCAGATACCCTGTGCTAATCGCTGAATATACAGAAGTGCCTAAGAAACTACTCA
TTGATTGCATTCCCTTATTGCTTTGCATTTAAACTGTTTCTAGTTTCTTGCTATCATAAATAGCTTTGAAGCAATCATCTTTGTGCCCAACTTAAAAAAT
CTACTTTTCTAATTATTTCTTCAGTACAGATTCCCACCAAAACCTATATGCCTGAGTTTAAAAGGCTGAACATTTTAAAGGTTTTTGATAGTTATTGTCC
AGAAAAACTGTGCTGATTTACATTATACCAGGAGAAATGTAGTTTTCACTGTACTCTATAATTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCC
CAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCTGCCTCCCAAGTTCAAGCGATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGATTACG
GTCACCCACCACCACGCCCGGCTAATTTTTTTATTTTTAGTAGAGACTGGGTTTCACCATGTTGGCCAGGCTGGTCTCCAACTGCTACCCTTAATGATCC
GCCCTCCTCAGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACTGTGCCCCACCTATAATTTTTTTAATGTTACAAATTTGGTAGTTTAAAAATGTT
TCCATTTGCAATTACTCAAATACTAATGGAATATAATTTTTGTCTGTTAGCTATTTTTCCTCTTTGTATGTTAGTTCGTCTCCATTTTTGTTTTGAAATT
GTGGCAATATAATCATTATACCATTATATCTCTTAACCATTTATACAAGCTCTTTATAGAATAAAAATATGAATCTTTGATCACATTTGTTGAAAATATT
TTTCTTTTGTATACACAGTTATCTAAAAGGGTTTTTTTAAATGAAGTCAAGCCCATTAATCTTTTGTGCGTATGTGATTTCTCCCATTGTTCACATTTAG
AAAGTCTTTTCCATTAAGATCTGATAAATCTGGACTCCAGGTTTCTGTAGTTAATTGGTTTTTCTTTTCTTCCTCTGTCATCCTCTACCCCATCCT


SNP Information

Context             (SEQ ID NO:42148):
AGCAGAAGTAAGACTTGGAGACTGAGTGTGTTCCCGAATCATGGGGGTGGATGAGCTAGCATAATCTCCCTGTGTTTTTATAATGATCACTGATGAAACT
S
CCTTGAAGACTGTTTTAGATGAAAAGGCAAAAATGGGTTTTGTGCTGACAGATGTGCATTTTTTCTGTCTTCAGAAAAGTCAGGAGAGGAGAAGGTCATC
Celera SNP ID:            hCV11631026
SNP Position Genomic:     15541
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,10)      total(G,10|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42149):
GTAATTACATCCAATGAATGAAGGCTGAAATTCTGGAAGTGCGCTATTTGGAGGCTGTAGTCCCCTCTGCACCAGCAACACACATCTTTCTCTGCTTTTT
Y
TCTCCAGAGCTAAGTGAAGCCCAACAGAAGCTGCTGGTGAAATCCATGGAGAAAAAGATCCTACCCGTGCAGCTAAAGCTGGTGAGGGAAAAACAGCAGA
Celera SNP ID:            hCV25754598
SNP Position Genomic:     18945
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(T,36)   total(C,3|T,67)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42150):
TTAGGAACTAGAAGTACTGGAGTTGAGCCAGGGTGGTACATTGTGACTGGAAGCCAAGAGAAGCCAGCGTTGCACGGAGGGTTTCCACAGCAGGATCGAG
W
ATTGCACAGAGTTAGGCGAGGTCATTGAGACTGATAGGTAAGAGATCATTGTAATTTCAGCTGAGTAGTGGAAATACAAGGCAAATTATAAAGAATTTAG
Celera SNP ID:            hCV26835592
SNP Position Genomic:     12633
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42151):
TCTGACAGGACTGACAGGGAAATAGCAGAGCGAATCTCAGCAAATAATTGTCCCCGAAACATGGCAGAAATTCCAATAGCTTGGGAAAAAGCAGTGGAAA
G
GGGGGAGTCTTTGCCCAGGTGGTCTGACGCCTGAGACCTTTGTCCTCAACAGCCTTACTAGCAGCCAGGCACAGTGATTCACACCTATAATCCCAGCACT
Celera SNP ID:            hCV11631027
SNP Position Genomic:     15815
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42152):
GAGCCAGGGTGGTACATTGTGACTGGAAGCCAAGAGAAGCCAGCGTTGCACGGAGGGTTTCCACAGCAGGATCGAGTATTGCACAGAGTTAGGCGAGGTC
R
TTGAGACTGATAGGTAAGAGATCATTGTAATTTCAGCTGAGTAGTGGAAATACAAGGCAAATTATAAAGAATTTAGGTGGACCGGGCATGGTGGCTCACA
Celera SNP ID:            hCV26835593
SNP Position Genomic:     12657
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42153):
CTGACCTCAGGTGATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATCACAGGTGTGAGCCACTGAGCCTGGCCTAGAAAAAAAAAAAAAAAATTAAGAG
W
CTTAGTAGCTATAACCTGCTACACACACATCTGCAACTCGGCCGCCCAGCAACTGGGGCCAGAGCCACTGAGTCACAGTAATGCCAGGAACAAGGTAGCT
Celera SNP ID:            hCV11631028
SNP Position Genomic:     16617
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42154):
ATTTTTTTGATATATTTGCCAATGAAATGAAGGAAAAAAATAGGGTAGTAATTTGAGGGAGTGGCATGATCAAAGCAAACAAATTTGTTAGGATTAGGGA
C
ACGTTTATATATGGAAGCAGACAGAAGGAGCAAGTGGAGAGGAGGAACTGGTGTTAACAGCAAGAGAGAGCATAAGATGTGGAGAGAAAGGATCCCAGAG
Celera SNP ID:            hCV26835594
SNP Position Genomic:     13001
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,4)   total(C,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42155):
TTTTTTTGATATATTTGCCAATGAAATGAAGGAAAAAAATAGGGTAGTAATTTGAGGGAGTGGCATGATCAAAGCAAACAAATTTGTTAGGATTAGGGAC
A
CGTTTATATATGGAAGCAGACAGAAGGAGCAAGTGGAGAGGAGGAACTGGTGTTAACAGCAAGAGAGAGCATAAGATGTGGAGAGAAAGGATCCCAGAGA
Celera SNP ID:            hCV26835595
SNP Position Genomic:     13002
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42156):
CTGCCAAAATCCTCCACCCTCTCCTAGCTTATACTATAATCCCCCAAGGAGCCTCTGCTTTTGTTTCCCAAGTCCCTAAGAATACCTAGCCTCAACTTTA
G
GAAAGACAGATAGAGGCATATAAATACTGTCCCAGAGAGATATAGAAACTGACAGACAGAGACCGGAAGGCACAGTCAGAAGCAGAAGTAAGACTTGGAG
Celera SNP ID:            hCV1385728
SNP Position Genomic:     15360
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|G,7)   total(G,7|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42157):
TTTTTTGATATATTTGCCAATGAAATGAAGGAAAAAAATAGGGTAGTAATTTGAGGGAGTGGCATGATCAAAGCAAACAAATTTGTTAGGATTAGGGACA
C
GTTTATATATGGAAGCAGACAGAAGGAGCAAGTGGAGAGGAGGAACTGGTGTTAACAGCAAGAGAGAGCATAAGATGTGGAGAGAAAGGATCCCAGAGAG
Celera SNP ID:            hCV26835596
SNP Position Genomic:     13003
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,4)   total(C,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42158):
GGAGGAACTGGTGTTAACAGCAAGAGAGAGCATAAGATGTGGAGAGAAAGGATCCCAGAGAGATGAATGGGGAGGAAAGAGGGGGGGAGCATCTACCCCC
R
GGATCCCAGAGAGATGAATGGGGAGGAAAGAGGGGGGGAGCATCTACCCCCGAACTGGAGGAAAAGGGGGTAAGAAGCACCCAAGAGGCCCTGTTCCCGG
Celera SNP ID:            hCV26835597
SNP Position Genomic:     13142
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42159):
GAATGGGGAGGAAAGAGGGGGGGAGCATCTACCCCCGAACTGGAGGAAAAGGGGGTAAGAAGCACCCAAGAGGCCCTGTTCCCGGCCAGGTGCTGGCCCA
R
TTACCGAGTTTATCTCTGAGCAACCCAGGAGGTCAGCATCATTATACTCATTTCATAGATGAGGCAATTAAGACTCAGAGAAGCTGCCCTGCCAGTAAGC
Celera SNP ID:            hCV26835598
SNP Position Genomic:     13258
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42160):
AAGTCCTTCCTCAGAGTCCAGACCAGGGACACCACTGAAGGCTTCCAGCTTCTTATCTCCCTGAAGGCTCTCAGCCCTGACCCTGCACCTCCCCCAACTC
R
CGCTCCCAATATCTCATACTTAAGATGTCCAGAGATTCACAAATTCTCATTGTCTAATTCTAGGGATCCATAAATCACAAGGAGGCTGTAACCATCCCCA
Celera SNP ID:            hCV7453060
SNP Position Genomic:     14488
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,4|G,28)   total(A,5|G,61)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42161):
TTCCCAAGTCCCTAAGAATACCTAGCCTCAACTTTAGGAAAGACAGATAGAGGCATATAAATACTGTCCCAGAGAGATATAGAAACTGACAGACAGAGAC
Y
GGAAGGCACAGTCAGAAGCAGAAGTAAGACTTGGAGACTGAGTGTGTTCCCGAATCATGGGGGTGGATGAGCTAGCATAATCTCCCTGTGTTTTTATAAT
Celera SNP ID:            hCV26835599
SNP Position Genomic:     15424
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,12)      total(C,12|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42162):
GCACGCTCCTACCTATCGGCACTCCCAGCCTGCAGAAATTGTATGCCTTATGTTCAGCACTAAACTCAAATCTAACCAAGGAAGTCCGGATCCCATAGGG
K
TCTTCCTACTCTCCAGTTCGGTTTATTTTAAGGCCAACAGCCCTAGCTTCACGTCCCTCCTTCACAGCCTTCTTTCCTTCCCTCCTGCCGGATGCGCCCG
Celera SNP ID:            hCV7453061
SNP Position Genomic:     23338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:42163):
CCACCGCCGCCGGCCCCCCAGGATGTGGAGATGAAAGAGGAGGCAGCGACGGGTGGCGGGTCGACGGGGGAGGCAGACGGCAAGACGGCGGCGGCAGCGG
Y
TGAGCACTCCCAGCGAGAGCTGGACACAGTCACCTTGGAGGGTACGGCAGCCCAGGCCGGGAACGTGCCGCGATCGCGGGTGACAGCGACCCCTGTGATT
Celera SNP ID:            hCV7453062
SNP Position Genomic:     24178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42164):
ACCTGACACCACTTGACAGCCTCATCGACTTCAAGCGCTTCCATCCCTTCTGCCTGGTGCTGAGGAAGAGGAAGAGCACGCTCTTCTGGGGGGCCCGGTA
Y
GTCCGCACCGACTACACGCTGCTGGATGTGCTTGAGCCCGGCAGCTCACCTTCAGGTCAGCCTCAAGCGGGGCTGGGAACTGAGGGATACTGAGGGACAG
Celera SNP ID:            hCV25612613
SNP Position Genomic:     8876
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,31|T,1)   total(C,69|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42165):
GCCTCATCGACTTCAAGCGCTTCCATCCCTTCTGCCTGGTGCTGAGGAAGAGGAAGAGCACGCTCTTCTGGGGGGCCCGGTACGTCCGCACCGACTACAC
R
CTGCTGGATGTGCTTGAGCCCGGCAGCTCACCTTCAGGTCAGCCTCAAGCGGGGCTGGGAACTGAGGGATACTGAGGGACAGGGGCTGGGCACCTGGCCT
Celera SNP ID:            hCV25612614
SNP Position Genomic:     8894
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,1|G,33)   total(A,9|G,63)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42166):
AGGAAGAGCACGCTCTTCTGGGGGGCCCGGTACGTCCGCACCGACTACACGCTGCTGGATGTGCTTGAGCCCGGCAGCTCACCTTCAGGTCAGCCTCAAG
Y
GGGGCTGGGAACTGAGGGATACTGAGGGACAGGGGCTGGGCACCTGGCCTGCAAGGAGGACCTCAAAGCTCCCTCTGGCCAGAGGTGATTAGATGTCATC
Celera SNP ID:            hCV25612615
SNP Position Genomic:     8944
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,29|T,1)   total(C,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42167):
GGGTGGCCAGGGGAGTCCACCTTAGATACCTTCCCCAAGGCTGGCCACGTGCCCCAAGGCTGCCAGGCCACTGCTCCTCCCTTTGTCCCCTGGAAAAGGG
Y
AAACAGTGGGTTCCCCCAAGGCACATGCTCCCTCTGATGGCCAGAAGGGACTTCTGCTGGAGGGGCTGGAACCTTCTCTTTCCAGAGTCCAAAACTCAGG
Celera SNP ID:            hCV25752905
SNP Position Genomic:     17665
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,32)   total(C,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42168):
TGTACCAAAGACGGTGAAGGTGAAGGGAACGGCAGGGCTCTCGCAGAACAGCACTCTGGAGGTCCAGACACTCAGTGTGGCTCCCAAGGCCCTGGAGACC
K
TGCAGAAGAGGTGAGAGTGGGCGGGACCGAGGGTCTCCCGGGATGTGGGTGGGGCAGTGCATGGAAATGGTGCTTGGGGCCTTGAGCTGAAAGGTAGGAC
Celera SNP ID:            hCV25612634
SNP Position Genomic:     9457
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,23)   caucasian(G,8|T,6)   total(G,15|T,29)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42169):
AAAGACGGTGAAGGTGAAGGGAACGGCAGGGCTCTCGCAGAACAGCACTCTGGAGGTCCAGACACTCAGTGTGGCTCCCAAGGCCCTGGAGACCTTGCAG
R
AGAGGTGAGAGTGGGCGGGACCGAGGGTCTCCCGGGATGTGGGTGGGGCAGTGCATGGAAATGGTGCTTGGGGCCTTGAGCTGAAAGGTAGGACCCTTGC
Celera SNP ID:            hCV25612635
SNP Position Genomic:     9463
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,20)   caucasian(A,7|G,17)   total(A,17|G,37)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42170):
ACGGCAGGGCTCTCGCAGAACAGCACTCTGGAGGTCCAGACACTCAGTGTGGCTCCCAAGGCCCTGGAGACCTTGCAGAAGAGGTGAGAGTGGGCGGGAC
Y
GAGGGTCTCCCGGGATGTGGGTGGGGCAGTGCATGGAAATGGTGCTTGGGGCCTTGAGCTGAAAGGTAGGACCCTTGCACTGACCTTTGCCAATGTGGTC
Celera SNP ID:            hCV25612636
SNP Position Genomic:     9485
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,23)   caucasian(C,4|T,18)   total(C,11|T,41)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42171):
AGGCGAAACCGCCGCCCGGCGGAGGAGAACAAGAACCCCCACCGCCGCCGGCCCCCCAGGATGTGGAGATGAAAGAGGAGGCAGCGACGGGTGGCGGGTC
R
ACGGGGGAGGCAGACGGCAAGACGGCGGCGGCAGCGGCTGAGCACTCCCAGCGAGAGCTGGACACAGTCACCTTGGAGGGTACGGCAGCCCAGGCCGGGA
Celera SNP ID:            hCV16006920
SNP Position Genomic:     24140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42172):
GCTAAGGCAGGAGAATCGCTTGAACCCAGGAGGGGGAGGGTGCAGTGAGCCGAGATCACTCCATTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCATC
A
AAAAAAAAAAAAATTGGTTTCATTCCTAAGGATTTGCTTGGTCACATTGGGTAGTCTGAGAAGACAGCCTAGTCTTGCTAATAGAGGTTGAATAACCCTA
Celera SNP ID:            hCV11631030
SNP Position Genomic:     18476
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,6)   total(A,5|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42173):
GGATCTCAGGAAGATTAACTGTTGGGTTAGATGATACATGCATCCTGGCCCACCTTCTCGCCCCAACCCTCAGGTTAGGGTTGGTGGATAGTTCTGTCAC
Y
GCATTCCTTGGTAAAGAAAAATGGGGCCAGGCTCAAACTGGGGGGTAGAGCATGGGTACCTAAAGGGGGCTGAGTGTAGGAGCCCTGCAGGGGGAATGCT
Celera SNP ID:            hCV25758701
SNP Position Genomic:     17145
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,26)   total(C,57|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42174):
CCGGGATCCCAGAGAGATGAATGGGGAGGAAAGAGGGGGGGAGCATCTACCCCCGAACTGGAGGAAAAGGGGGTAAGAAGCACCCAAGAGGCCCTGTTCC
Y
GGCCAGGTGCTGGCCCAATTACCGAGTTTATCTCTGAGCAACCCAGGAGGTCAGCATCATTATACTCATTTCATAGATGAGGCAATTAAGACTCAGAGAA
Celera SNP ID:            hCV1385730
SNP Position Genomic:     13240
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42175):
AAGATGTGGAGAGAAAGGATCCCAGAGAGATGAATGGGGAGGAAAGAGGGGGGGAGCATCTACCCCCGGGATCCCAGAGAGATGAATGGGGAGGAAAGAG
R
GGGGGAGCATCTACCCCCGAACTGGAGGAAAAGGGGGTAAGAAGCACCCAAGAGGCCCTGTTCCCGGCCAGGTGCTGGCCCAATTACCGAGTTTATCTCT
Celera SNP ID:            hCV1385731
SNP Position Genomic:     13175
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42176):
AAGCCTCCTGCCTGACCCCAATACACACTAAGCACGCCCTCGGGAATGCTGCCCCACAGCACAAAGGGTGTGGCAGGTGCCACATTGATGCTGGGCACCA
C
CGGATGTTTGGCTTGACACGGGAACTGACTTTTAAGTAGTTAAGTAGTGGTTGAAAGAAGGAGGTAAGGACTGTGAAGGCCAGAAGGAAAGGCTGGGGTA
Celera SNP ID:            hCV26835655
SNP Position Genomic:     10022
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,7)   total(C,7|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42177):
CCCCACGAACCCATAAAGGCTCCTCCCCGCTCCTTCCTCGAAGCTCCTCCTTCATCCTGCACCTCGGCTGTGGATTTATTTCCCCTTTGTTGACTCGGCC
R
TCGGCCTGCCGGGCCTGGCGTTTCCCAGAAGGCCCAGCGCCGGGAAGGGGTTTGCAGCTGCTCCGTCATCGTGCGGCCCGACGCTATCTCGCGCTCGTGT
Celera SNP ID:            hCV27523730
SNP Position Genomic:     23809
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,24)   caucasian(A,24|G,16)   total(A,36|G,40)
SNP Type:                 TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:42178):
CAGAAGGAGCAAGTGGAGAGGAGGAACTGGTGTTAACAGCAAGAGAGAGCATAAGATGTGGAGAGAAAGGATCCCAGAGAGATGAATGGGGAGGAAAGAG
S
GGGGGAGCATCTACCCCCGGGATCCCAGAGAGATGAATGGGGAGGAAAGAGGGGGGGAGCATCTACCCCCGAACTGGAGGAAAAGGGGGTAAGAAGCACC
Celera SNP ID:            hCV1385733
SNP Position Genomic:     13123
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42179):
GGTGGAGACGGTGCAGGAGGTCACACTGGAGCGAGCCGGCAAGGCAGAGGCCTGCTTCTCCCTCCCCTTCTTCGCCCCATTGGGGCTACAGGTTTGATTC
A
AACACACACACACACACACACTCTCACACTCACACTCACACATACACATTTACATTCAGCCCCTCCTTGGAGGCTTCATTAGCTTTGCCTGATCAGCGCC
Celera SNP ID:            hCV9275049
SNP Position Genomic:     13691
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42180):
TTGGCAGCCACCTTGACACTCTCCTGTCTCCCCACCTCCACAGAGACAATGACCATGTTTGAAAATGTCACCCGGGCCCTGGCCAGACAGCTAAACCCTC
R
AGGGGACCTGACACCACTTGACAGCCTCATCGACTTCAAGCGCTTCCATCCCTTCTGCCTGGTGCTGAGGAAGAGGAAGAGCACGCTCTTCTGGGGGGCC
Celera SNP ID:            hCV1385736
SNP Position Genomic:     8770
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,12|G,20)   total(A,22|G,46)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42181):
AAGTGCTCCAGCTGGGCTCCGTGGCAGTGAAGAAAATGAGCGTGGAGTGAGAAAAATGCCCTTGACAAAGAAAAGGGAGGTGTGGCTTTGCTGGCCATCT
R
TGGGACTTTGGGGCAACTCTTTCAACTCTCCAGCCCTAGGTTCCTCATCATAAAATGCAGACTCCCTTGATTCTTTCCAGCTGTGACATGAGACAATCCA
Celera SNP ID:            hCV1385737
SNP Position Genomic:     8483
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:42182):
ATAAGGGCCTGGAGCTCAGGAAAGAGGTCAAAGTGAAGATACACACAAGGTAATCAGCACTATAAAGATTAAAACTGTAGGAGCCAGGGGAGGAGTCTCA
S
TCCCGTAAGCCCAGCACTTTGGGAAGCCAAGGCAGGATTGCTTGAGCCCAGGAGTTCAAACCAGCCTGGGCAAGAGAGTGAAACCCCCATCTCCACAAAA
Celera SNP ID:            hCV7453053
SNP Position Genomic:     12123
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,9)      total(G,1|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42183):
GGGTACCTAAAGGGGGCTGAGTGTAGGAGCCCTGCAGGGGGAATGCTGACTGGAGAGGAAGGTGCCCGATGGAGGGCTGTGTGTCCCATTATTGTCCCCA
Y
AGGGGACGTACACGAAGGCTTCAGGACACTAAAAGAAGAAGTTCAGAGAGAGACCCAACAAGTGGAGAAGCTGAGCCGAGTAGGGCAAAGCTCCCTGCTC
Celera SNP ID:            hCV25759580
SNP Position Genomic:     17299
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,29)   caucasian(T,34)   total(C,7|T,63)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42184):
TGGGTACCTAAAGGGGGCTGAGTGTAGGAGCCCTGCAGGGGGAATGCTGACTGGAGAGGAAGGTGCCCGATGGAGGGCTGTGTGTCCCATTATTGTCCCC
M
TAGGGGACGTACACGAAGGCTTCAGGACACTAAAAGAAGAAGTTCAGAGAGAGACCCAACAAGTGGAGAAGCTGAGCCGAGTAGGGCAAAGCTCCCTGCT
Celera SNP ID:            hCV25759581
SNP Position Genomic:     17298
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,34)   total(A,69|C,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42185):
GTCCGCACCGACTACACGCTGCTGGATGTGCTTGAGCCCGGCAGCTCACCTTCAGGTCAGCCTCAAGCGGGGCTGGGAACTGAGGGATACTGAGGGACAG
R
GGCTGGGCACCTGGCCTGCAAGGAGGACCTCAAAGCTCCCTCTGGCCAGAGGTGATTAGATGTCATCTAGCCCAAAGTCATCATCAGGAGCTGAGGAGGC
Celera SNP ID:            hCV25612622
SNP Position Genomic:     8977
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,27)   caucasian(A,9|G,11)   total(A,18|G,38)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42186):
TCCCAATATCTCATACTTAAGATGTCCAGAGATTCACAAATTCTCATTGTCTAATTCTAGGGATCCATAAATCACAAGGAGGCTGTAACCATCCCCAAGG
R
CTGCGTCCTGGCCTTTCGAGTGAGACAGCTGATGGTCAAAGGCAAAGATGAGTGGGGTGAGCAGAGACCCGCATGTTCTCCCCACAAGATGAGAATTACC
Celera SNP ID:            hCV25612623
SNP Position Genomic:     14592
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,32)   total(A,1|G,63)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42187):
CAGACCCAACAGACACTGGGAATTTTGGCTTTAAGAATATGCTGGACACCCGAGTGGAGGGAGATGTGGATGTACCAAAGACGGTGAAGGTGAAGGGAAC
R
GCAGGGCTCTCGCAGAACAGCACTCTGGAGGTCCAGACACTCAGTGTGGCTCCCAAGGCCCTGGAGACCTTGCAGAAGAGGTGAGAGTGGGCGGGACCGA
Celera SNP ID:            hCV25612624
SNP Position Genomic:     9387
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,32)   total(A,1|G,65)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42188):
TCCCAGAGAGATATAGAAACTGACAGACAGAGACCGGAAGGCACAGTCAGAAGCAGAAGTAAGACTTGGAGACTGAGTGTGTTCCCGAATCATGGGGGTG
R
ATGAGCTAGCATAATCTCCCTGTGTTTTTATAATGATCACTGATGAAACTGCCTTGAAGACTGTTTTAGATGAAAAGGCAAAAATGGGTTTTGTGCTGAC
Celera SNP ID:            hCV26835600
SNP Position Genomic:     15490
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,13)      total(G,13|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42189):
ATCTGGGTTTCAACCTCAGCCCTAGTCCAGAGTCCTCACTCCTTCCCTGCCACCACAATGTCTAGTTCCTGGGAATGACAGAAGGAAAGAGGAGGGTGTG
K
TACAGGCAGGAAGGAGCTCTGAACGGTTCCCTTATGTTTCTCCTGCAACAGGAAGCTGGCAGCAGACCACCCATTCCTGAAGGAGATGCAAGATCAAGGG
Celera SNP ID:            hCV25758767
SNP Position Genomic:     13464
SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,4)   caucasian(G,34)   total(G,58|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:42190):
GTACATTGTGACTGGAAGCCAAGAGAAGCCAGCGTTGCACGGAGGGTTTCCACAGCAGGATCGAGTATTGCACAGAGTTAGGCGAGGTCATTGAGACTGA
Y
AGGTAAGAGATCATTGTAATTTCAGCTGAGTAGTGGAAATACAAGGCAAATTATAAAGAATTTAGGTGGACCGGGCATGGTGGCTCACATCTGTAATCCC
Celera SNP ID:            hCV27977210
SNP Position Genomic:     12668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42191):
AGTAGAGATGGGGTTTCACCATGTTGGTCAGGCAGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTATTGGGATTACAGGC
R
TGAGCCACGGCGCCTGGCCTTTTTTTTTTTTCTTGAGACAGAGTCTCATTCTGTTGCCCAGACTGGAGTGCAAAGGTGAGATCTCCACTCACTGCAAACT
Celera SNP ID:            hCV26835601
SNP Position Genomic:     16282
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42192):
CCCAACAAGTGGAGAAGCTGAGCCGAGTAGGGCAAAGCTCCCTGCTCAGCTCCCTCAGCAAACTTCTAGGGAAGAAAAAGGAGCTACAAGACCTTGAGCT
Y
GCAGTGAGGACCTAGTGGAAGTGGGGAAGGGTGGGAGAAGGCATGTTTTGGTGAAGATTTGGTGGGGGCGGGTATTGCAGCAGGTAGGGAGATCTGACGG
Celera SNP ID:            hCV25757511
SNP Position Genomic:     17453
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,32)   total(C,65|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:42193):
TGTGCTGGGCCCTGGGTTGGGCCCTTTCCTATGTTATCTTCAATAGTCGCCCACCTTCCCCCACAGCTTGAAGGGGCTCTAGACAAGGGACATGAAGTGA
M
CCTGGAGGCACTCCCAAAAGATGTCCTGCTATCAAAGGAGGCCGTGGGCGCCATCCTCTATTTCGTTGGAGCCCTAACAGGTAAGTGGGGAATAAGGTCT
Celera SNP ID:            hCV25612646
SNP Position Genomic:     17963
SNP Source:               Applera
Population(Allele,Count): african american(A,11|C,23)   caucasian(A,11|C,21)   total(A,22|C,44)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42194):
ACACTGGAGCGAGCCGGCAAGGCAGAGGCCTGCTTCTCCCTCCCCTTCTTCGCCCCATTGGGGCTACAGGTTTGATTCAAACACACACACACACACACAC
W
CTCACACTCACACTCACACATACACATTTACATTCAGCCCCTCCTTGGAGGCTTCATTAGCTTTGCCTGATCAGCGCCCACCGAGGATGCTGAAAAGGGC
Celera SNP ID:            hCV25755391
SNP Position Genomic:     13713
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,14)   caucasian(A,2|T,8)   total(A,4|T,22)
SNP Type:                 INTRON


Context             (SEQ ID NO:42195):
GGCTGGAACCTTCTCTTTCCAGAGTCCAAAACTCAGGAAACAAGGAACCCAGGAGTCCAGTACTCTTCAGGACATGAGGCCTCGAAAAAGAAATCAGGAA
R
TGGAGAGAGTTTCCGCATGTCAAGGGGTTATTATGTGCTGGGCCCTGGGTTGGGCCCTTTCCTATGTTATCTTCAATAGTCGCCCACCTTCCCCCACAGC
Celera SNP ID:            hCV1385720
SNP Position Genomic:     17829
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,7)   caucasian(A,34)   total(A,63|G,7)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42196):
GGGGCCAGGCTCAAACTGGGGGGTAGAGCATGGGTACCTAAAGGGGGCTGAGTGTAGGAGCCCTGCAGGGGGAATGCTGACTGGAGAGGAAGGTGCCCGA
Y
GGAGGGCTGTGTGTCCCATTATTGTCCCCATAGGGGACGTACACGAAGGCTTCAGGACACTAAAAGAAGAAGTTCAGAGAGAGACCCAACAAGTGGAGAA
Celera SNP ID:            hCV25759510
SNP Position Genomic:     17268
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(C,10|T,24)   total(C,13|T,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:42197):
CAGCACTTTGGGAGGCTGAGGCAGGAGGATCCCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATAGTGAGACAATGTCTCTATTTAAAAAAAAAA
W
TTTTTTTTTGGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGTAGTGGCGCAATCTCAGTCCACTGCAACCTCCACCTCCCCGGTTCAAGTGATTCT
Celera SNP ID:            hCV1385722
SNP Position Genomic:     16009
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,5)      total(A,5|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42198):
ACATGGCAGAAATTCCAATAGCTTGGGAAAAAGCAGTGGAAAGGGGGGAGTCTTTGCCCAGGTGGTCTGACGCCTGAGACCTTTGTCCTCAACAGCCTTA
S
TAGCAGCCAGGCACAGTGATTCACACCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATCCCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCA
Celera SNP ID:            hCV1385723
SNP Position Genomic:     15873
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Gene Number:                 205
Celera Gene:                 hCG31412 - 63000132726743
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VU68(839223..860115)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12365):
TGGTGGATCTCTTGAGCCCAGGAAGTCAAGGCTGCAGTGAGCTATGATCACACCACTGCACTCCAGCCTGGATGACAGAGCGAGACCGTGTCTCAATAAA
GAAATTAAATTAATAAATAAATGTTAGCATCTTGAGCTCTTGGAGAGCAAGTGGAGGCGGCTGATAAGAGAAAGGAAGGTGAGGCCGGGCACGGTGGCTC
ACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACT
AAAAATACAAAAATTAGCCAGGCGTGGTGGCGGCGCCTATAATCCCAGCTACTCGGGAGGTGAGGCAGGAGATTTACTTGAACCTGGGAGGCGGAGGTTG
TGGTGAGCTGAGGTCACACCACTTCACTCCAGCCTGGGTAACAGAGGGAGACTCCGTCTAAAAAAAAAGAAAAAAAAAAAAAAGAGAGAGAGAGAAAGAG
AGGTGGCCAGGTGTGGTGGCTCATGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGGGTTCAAGACCAGTTTGGCCA
ACATGGCAAAACCCTGTCTCTACTAAAAATACAAAAATCAGCCGGGTGCAGTGGCACACGCCTCCAGCTACTCTGGAGGCCAAGCAGGAGAATCGCTTGA
ACCCAGGAGGCGAGGCTGTGGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTTAAAAAAAAAAAAAAAAAAAAAA
AAAAGGGAGTGACTGCTGATGGTGGTCTTCTCAGCAAAAGCAGGTAAAAAAAACCAAAGAAGTTAGGGGCAGAAGTGATCAGTCCATCTTTGGTCAAAGT
GGGTTTGAGGTGCCTGTGGGACATTCAAGAAGAGAAGCAGAGGCTGGGCGTGCTGGCTTGTGCCTGTAATCCCAGCACTTTGGGAGGACCAAGTGGGCAG
ATCAATTGAGGTCAGGAATTCGAGACCAGACTGGGCAACATGGTGAAACCTCATCTCTACTGAAAATACAAAAATTACCTGGGTGTGGTCGTGGGCGCCT
GTAATCCCAGCTACTCAAAGGCTGAGGCAGGAGAATTGCTTGAACTCGGGAGGTGGAAGTTGCAGTAACTGAGAACACGCCACTGCACTCCAGCCTGGGT
GACAGAGCGAGACTCTATCTCAAAAAAAAAAAAAAAAAAAAGAGAGAGAAGAGGAAAAGACAGCTGGGTACATGGTCTGGAGCTCCACAGAGAGGTCTGG
AGTAGAGTCTGATGTTTTGAATCAATGTCAGGTATTATTAACTCCAGTTTACAAAGTTCAGAGAGGTTAAACTATTTGACCACAGTTATACAGCCATGAG
GCAAGGATTTGAACTCAGATATATAGATGTCAAGTTCTGTGGTGCCTTTGACCCCCAAGTTCAGTGCTAATTCCCTTGTCCCAGGATGCATCAGCTTCTG
CAAGSGGGGGCTGGGGGTTTGAGAAGGAGGAAGCAGGTGTCTGAGTGTATTTGTGCCCCATGTGCCTTCTGCCTGAAATTGCATTTGCAGCCCGGACACG
GTGGCTCATACCTGTAATCCCAGCACTTTGGGAGGTCGAGGTGGGTGGATCACTTGCGGTCAGGAGTTYGCAACCAGCCTGGCCAACATGGTGAAACCCC
ATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGTGGGTGCCTGTAATACCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGA
GGGGGAGGTTGCAGTGAGCTGAGATGGAGCCACTACACTACAGCCTGGGCGATGGAGGGAGACTCTGTCTAAAAAAAAAAAAAAAAAAGAGAGAAAAGAA
ATTGCATTTGCCTGGAACTTGCAGGAAAGGCATTTCTAGCTGGCTTGGAGATAGCGAGAGATGGGGGCAGATTCTTGTTTCTTGGTAATCAGAAGCTCTC
AATTAACTCTGGCTACACCATCAGCAAGTTAGTGGTTGTCCATGTGTGAGGATTTCGACAACCATGAAGTCAGCTGAGACCAGGCAGGAACTGAGGGACT
GGGGACTTCTGCTACCTGGGACCCTTTGTTTCCTTCCCTGACTAGCTGCTCCTGTTTTTGCAGTGGGTTCTGTCCCAGAATGAGGTGATGTGGGAGAGGC
CCAGGTCCTACATGTGGCTTAAGGTTTCCACTGTTCTACACTAAAGAGAACTAGGCTGAGGCCACCATGGTCCAGGGACAAGGGGCTGTCCCAGTTCAGT
ATCTTAGAGAAAAATTTTGTCTTAGCTCCAATAATCTTTTTGTGTCCGGAGTTGGTTCCTGCTGGTGGGGTTCGTGGTCTCGCTGACTTCAAGAATGGAG
CCGCGGACCTTCGCGGTGAGTGTTACAGCTCTTAAAGATGGCACGGACACAAAGATTAAGCAACAGCAAGATTTATTGTAAAGAGCAAAAGAATGCAATA
GAACTAAAGCTTCCACAGCGTGGAACGGGACCCGAGCACATTGCTGCTACTGGCTGGGAGGTGGCCAGCTTTTATTCCCTTATTGGCCCCGCCCATGTTC
TGTTTCTGTCCTATCGGAGTGCGCTTTTTTCTTTTTCTTTTTTTTTCCTTTCTTTTCTTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTC
CCACTGTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGT
AGCTGGGATTACAGGTGGGCACTACCACGCCCAGCTAATTTTTGCATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTG
ACCTCGTGATCTGCCCCCCTCGGCCKCCCAAAGTGCTGGGATTACAGGCCCGAGCCACTGCACCCTGCCAGAGTGCCCTTTTTTTCAATCCTCCCTGTGA
TTGGCTACTTTTAGGATCCTGCTGATTGGTGCGTTTTACAGAGTGCTGATTGGTGCATTTTCCAGAGCACTGATTGGTGCATTTTACAATCCTCTTGCTA
GCTACAGAGCACTGATTGGTGCGTTTTTACAGAGCACTGATTGGTGCATTTTACAATCCTCTTGCTAGCTACAGAGCGCTGATTGGTGCGTTTTACAATC
CTCTTGTAAGACAGAAAAGTTCTCCAAGTCCCCGCTCGACCCAGGAAGTCCAGCTAGGTTCACCTCTCATTTTCTTCAGAGAAGGGTGCCTTGCTTTCTT
TCTAAATCAGGCCTTCCTACTGTCTCTCAGAGGGGTGTGTGTGTGTGTATCTGTCTCTCTCTCTAGACCACAAGCTCCATAAAGACCCAGACTGGGAATG
GGAGCAGTGGCTCATACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGAGATTGTTTGAGTCCAGGAGTTGGAGACCAATGGCGAAGCCCATCTCTA
CAAAAAAAAAAAAAAAAAAAAATAGCTGGGAGTGGTGGCTTTCACCTCTACTCCCAGCTACTCAGGAAGCTGAGGTGGGAGGATCACTTGAGCCTGGGAG
GTTGAGGCTGCAGTGAGCCGCGATCCTGCCACTGGACTCCAGCCTGGGTGACAGAGCAAGGTTCTGTCTCAAAAAAACAAAACAAAACAAAACAAAACAA
AAACATAAACACCTGGACTAGGTCTGTTTTGTCTACTTCATGTATTTCCTGGCTCATATTTGTCAAATGAATGAATGAACGAATGAATGCTTCTTAAGAT
CCAGGTCCTGGGCCTCAAAGTGGAGGCAGATCTTCTCGTCTGTTTTTCTATTTTCTTTTCTTTTTTTTTTCTTCTTTTCTCTTTTAATTATTATTTTTTT
TAATCAGGCAGCTTCCAGAGCCAGAGTATGCTCAGAGAGATGCCCTCTCCTTGTCTGTTTACTGAATGTGTTTCCAGCTTGCAGAGTGTTACTTTCAATT
CTGCAAAGAGGAGGTGGGGAGGGCAGCATGCACTAAGATGTTCCTCCCCGCATCCCACTAACCCCAGGAAACAGATGGTAAAATGCTTAAGACACTGCTG
CTTCCCTCAGCACCCTTGGTGCCCCACCCCCCAGCCCCAGACTTGGCTCCTTCTCTCCTAAGGCTGAAATGCAATCAGCCCAGATGGGCTCTGGCAGTCA
ACTCTATCCTTCTAACTCTGGGCACCAAGCAGGGTGGGATGAAAGTCTGTATTTAGTCAGCTATTTTCCTRCTTCTTCCCGCAAACTTCCCAGCCTTCCT
CAATCCTCTTAAACTTGTGTTCACATTCCTTTTTTAATACTCCAAGTGCCATTTCTCAGGCTGTAGCTTAACTCATTCTACATCAGTCTGACAGCAACAC
ATTCCTCCTGTGTGCAGGGTTCTGGACCAGGCAGGGAGTGATTGGGCTGGCGGGGGAGGTCATATGCTGGTTAACAATATATGAATCCCACCCTGGTACT
CACAGTTGATGGGAGGAAACAGACTTGCCCGTCTATAAGCCCAGTGTAGGGAGAAGCCCCATGTGGCTGGAGAACCAAGTCAGGGCTGGGGAAGCAGGTG
GCTTTTATGGCAGGGCAGCTAATGGGTCTCAGGCATTCTCCTTTCTGAGAAGGTGAAAGGCACTCAAGGAGGAAATGCAGAAGCAAAGGCACCATCAGAA
AGAGCCAGGCATGTATAGGCAGGAACCAGTAGATACAGAGCCTGGGAGATAAACCTGTGAAGGCAGSTGGGGGCTGTTCGTGGAAGCTCTTGAATGTCAA
GTGGAGACTGATCTGAATCCAGTGAGCAATAGGGAGCCATTGAAGATCTATGAGCTGGGGGAGTTACAGACCCTGAGCTGTGCTTTAGGAAGGTTAATAG
GGGCCATGGAGAGGATGCCTTGGGAAAGGAGAGGAAGATGCAGGGAGACCAGTTAGAAAGTTGTTACCTTAATGGAGGGTTGTTACCTTAGTGGAGGCTG
CAGGAAGGCAGTACAGTCGGGTGGAAGGAGCTGGCTCCCTGGTGTGTTGGCTGGATCTCCTGCTAACCATTCCTGCAGCCTGAGGGCACGTTGCCTTTTG
GACTTCTCCTTTTGTTATCTGATTTTTTGTTTTTCTCCGCCKAGCTTAAGCAAAGAAAGAAATTCACAAGCAACAGCAGGAAACTCCACCTTCCATTCCC
TCCTCAGGCCTGGCCTCCTGGTTCTCTGTTGGCCCATGTACTCCTCTGCCAGGTATCTGGGGCCTCTCTGCAGGGTCTCCAGCCGGAGGATCTCTCTTCA
TGCTCCATCCTTGTCTTCAGGCGCCCACTTTTGGGGATCAGGAAGCTGTGCCTGGGCAGTAGGTTTGTCCGTGAATTGTAGGAGTACTGATTTATCCTAG
AAGTTGCCAAGCATCAAGGGGAGACCCTGCCCTTCCCCAGGGGAATGCAATTTGAGTGGGCCCACAAGACCCACGCTAGTGAACCAACTGCACATCTGTG
GAGGGTTGGAATATTCTCCCAGCTCAGAGAGGATCGGTGAGCCCTGTCTGTACTACACAGCTGGTAGGTACAGAAAGTGGGTCGCCTGGGGTTTTGCTTC
AGTCTAGTGCCCTAGACATGGCACTCAGAGGAGGGAGAGCTGGGATCCGGTTCCGCGCGCAGTGCTGAGTCTCCCCTGATTTGCGGTAGTGGAGCAGTCC
ACCCGGAGAACTCAGGAGTTTTCGCAGGGCGAGGGGGAGGGCTGGAGCCTGGAACCCCCATATTCCTTGCACCTCTTGGGCCCGGGACAGGCAGCCCTTA
GTCACTGGGGTGTCCATAGTGCCCACGAAGGGCCAGCGTCCCAGAGGGTTCCCAGGTCAGGTTGGTGACGTGTGGGGCTTCCCTAACTTCGTAGGCAAAA
TCTGCCAGACCCTCCCGGGGGAGCGGAGCTCCGARTACCAGGGCCGACTCCGCTCCTGAGGCCGCTGAGCCCTCCTGCACCTGTCCGGCCCGGGAAGTGC
CATGGGACAGCTGATCGCCAAGTTAATGAGCATCTTCGGGAACCAGGGTAAGGRGCGCACAGGGCATCCAAGCKAGCGCTTTGATCTCGCCCTCTTCTGG
GACTCCTCTGATCTGTGGTCGGACGCACGGGGGGACCTCGGGCTCCGAGGGTCGTATATGGGCGCTCCTCGACTGCCCCGCGGCCTCCCCTGCCCCCGTC
CCTGCCTGCTCCTCTTGGGTCCCGGCGCTTCGGTGCGCCCCAGGACGCAAAGCTGGGCGACCCTCCTTTCTCCCCGCTAAACGGAGCCAGCGGCGGGGAT
GGGGGGCTGCTGCGAGTTTCCTGCGATTGTGACTTCGCGTTAKGCTCTTTCTCTAAACACCGTCTCTTGGCAAGCCCCGAAGCGCCCCGGGCCTTTCAGA
CACTTTTCTRGAATGTGAAGGGAGGTGGGGGCTCAGCTGTCTTTTCCACCGTCCCGGAGTGGGGCAGGTGTCGGAGYTGGGTGGGAAGCAGACGCGGTAC
GGTGGGCAGAGGTCCCCAGCCTGCGGGGAGCGCTATCTCCTTCCTGGGAGGTCTGGTGGGGGCACACAGTCCCTTGGTCTTCGGGTTTGGCCCTGACGCT
GCCCTTCCTCCGACGCTTCCAGAGCACACGGTCATCATCGTGGGACTGGACAATGAAGGAAAGACCAYCATTCTCTACCGGTTGTAAGTGACTCTCGGGC
GGGGAGGGTAGAGAGCTGGGCCTCCCACCAGACTGACAGGCAGGGGGACCAATCACTGGAGCTCTTCCCTGGGTTCCCGGGCTCCTCTGTAGTCCGGAGG
AGCGATTGGGCACGCTGCTTGGACCTTCCTAGTACTGCGGCTCCTCGGTCTGGCATTCAAATCCTGCACSGTACAGGCAACCCTAGCTCCCACTGCTTTC
CTCCATCTTCCCGGGGGCCCTGCCAAACCCAGCTCCAGGCCTGCCAAGTGTCCCAAACTGCCTCCCTGCTCTTCGCTCCCTCTAGCGGCAGGTCCCTCCT
TTCTCACCCCTGTCCCCTCTGCCAGTTAACTTTCTTCCCCTTCTTCAAACCCAAAGGCTCACTGAGGCTCTGTAGCTCCTGGTCTAGCAAGCCTGGCACA
TATGGGTGGTGCTGAGTAAATACCGATCGCAGCTTTCCCCGATATTCGCTCTCTGGATGGCACCTCTCCCATTTTACAGCCTCCAAAGTACTTTACTTAG
GAGAAGCTTTTCCATGAAAAAGTAATACATGTAATGATTTTAAAAAATTATAAAGGAAAATTTCAAACAATGGAGGAATACACGGTGAAAAGTAAGTTTC
CTTCTTGCCTCTGGCTCCTAGTTTTCCTCCTATTGTAACTTTGCGTAACTTTTCAGAAGCATTATTTACATATAAAAGCATGTGTATATTTTCTATGTCA
CTTTAAACAAAGCACCTCTCTGATGTCCCTCACTGTGTCTGTCTCATTTTTCTAAACTCTTGCTCCTCAAAGTGTGGTCTACAGACCAGTCACACAGGCA
TCACCTGAAAGCTTATTAGGAATGCAAAACCATGGCCGGGCGCTGTTGCTCTCAAAGTGCCTGTAATCGCAGCACTTTGGGAGGCCGAGGCGGGCGGATC
ACCTGAGATCAGGAGTTCAAGAGCAGCCTGGCCAACATGGTGAAACCTCGTCTCTACTAAAAATACAACAACAACAACAACAACAACAACAAAGGGCTGA
GCAAGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCTGAAGTGGGTGGATCTACCTGAGGACAGGAGTTCGAGACCAGCCTGGCCAACATGGCGA
AACCCYATCTCTACTAAAAAAATATAAAAATTARCTGGGCGTGGTGGCACATGCCTGTAATCCCASCTACTCTGGAGGCTGAGGAAGGAGAATCACTTGA
ACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGACTGCGCCACTGTACTCCAGCCTGGGCGACAAAGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGTGCCA
CTGCACTCCAACCTGGGCGACAGAGAGAGACTACATCTCAAGGAAAAAAAAAAAAAAAGCAAAACTGTGGCCGGATGCGGTGGCTCATGCCTGTAATCCC
AGCACTTTGGGAGTCCAAGGTGGATGGATCACTTGAGGTCAGGAGTTCGAGACTCGCCCAGCCAACATGGCGAAACCCCGTTTCTACAAAAATACAAAAA
TAAGCCTGGCGTGGGGGTGTGCTCCTGTAATCCCAGCTACTCAGGAGGCCGAGGCGGGAGAATTGCTTGAACCTGGGAGACATGATCGTACCTACACTCC
AGACTGGGCGACAGAGTGAGACTCTGTGAAAGAAAGAAAGAGAGAGAGAGAAGGAAAGAAAGAGAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAA
AGAAAGAAAGAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGGCAAAAGCCTGGACCCCTGCCCAGACTCACTGGGTCAGAATCTGCATT
TTGACAAAACTCTCAGGTCATTCAACTGCATATTAAAGTTTGAGGAGGCTGGGCTCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCA
GGAGGATCTCTTGACAGGAGCCCAAGGTCAGGAGTTCAAGGTAAGCCTGGGCAACACAGTGAGACCCTGTTTCTATAAAAAGAAAAAAAGAGATAAAGTT
TGAGGAGCCTCCTCTAAGATGTTTCCCTTCTCTGGGGTCCAAGCCAGGGCAGGGCTTRGTCTCACTCCTGTCTTCATTCCCCAGGGCCCAGCACRGGGCC
TGGCTCCGARCAGGTGTTTGGTGAACCTGGGTGGACTTGTTCTGAGTTAGATTCAGACTGCTTTGGGAGTAGAGCATTTGGGGGCCAGAGTTGGGAGTAG
GCTGGACTGAGCTCTTGGTGCCCACTCCTACCTCCCCAGCTTGACCARTGAGGTGGTCCATATGTGTCCCACCATTGGCAGCAACRTGGAGGAGATCATT
CTGCYGAAGACCCACTTCTTCMTGTGGGACATAGTGAGACCTGAGGCTCTGAGCTTTATCTGGAACACATACTACTCCAACACTGAGGTGRGGAGGGCAC
CAGGGCTGAAGGGTCTCCAAGGCAGGCGTGTGATATCAGACTGTCATGTAACCTTTCTGAGCCTTGGTTCCCCAACTTGTGAAATAGAGATTATAATGGT
CGGTTCCTGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGTCCAAGGCGGGTGGATCACCTGAGGTCAAGAGTTCGAAACCAGCCTGGCCAACATGGC
AAAACCCCACCTCTACTGAAAATACAAAAATTAGCTGGGCATGGTGTCAGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAACTGCTTGA
ACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCATTGCAACTCCAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAAGTTTTATATAT
ACATATATATAATGATCTCCCTAAGTTGTTGTGAAAATTAAATAACAAACCAATATGTAATGCATATATGTCAGATACTCAACACAGTGCAGTGCCTGCC
TGTTAACGTGTTTGAATACTTCCTGGCAGCTGCTGGCAGCTTTCTGTTTGATGCACTGGATGGGTAGGCCCCTTCTCTCTAGGGGCCTTACTTTCTTACT
CCAGCAGGAGTAGAATTCAGTGGTATAATTYCTGGACCGAGACAGAGCTGGGTTCCATTTCCAGCACTGCTACTCACCAGCTGTGTGGTCAAGAGCAAGA
TACATAGCCTCACTGAGCCTCAGTCTCTTCATTTGTAAAATGGGGATACTAACAGTACCAAGTCCACAGSGTTGTGGTAAGGCCTAAATGGAGTCATGAA
CACCCAATGCTTATGTAGCACAGCCTCTGCCACACAGTCAGAGGTGTGCTATTCCCATGTCTGGATAGAAAAGACAATTACAGGCCAGGTGTGGCAGCAC
ACCTGGTGGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATGACCTGAGATCAGGAGTTTGAGACCATCCTGGCCAACATGGCGAAACCCCGTCTC
TACTAAAAATACAAAAATTAGCCGGGTGTGGTGGCACGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGTGGGAGAATCGCTTGAACTAAGGAGGCAG
AAGTTGGAGTGAACCAAGATTGCGCCACTGCACTCCAGCCTGGATGACAGAGCGAGACTCCGCCTCAAAAAAAAAAAAAAAGACAATTATAATGGAAGCA
GGGTGGTGAAATCTTGAGGCTGCATGCTTTCATTTCTCTGGGGCTGACATCTGGGCAGTGCAGAGACCAGTGGGGAAASAAAGAGGGCAGGAAACACATT
TACCAAAGAGAAAGSCTGTCTCTCACGGCTCCCCTCTGCTGCCCAGTTTATCATCCTTGTGATTGACAGCACGGACCGGGATCGKCTGCTGACCACYCGG
GAGGAGCTATATAAAATGCTGGCCCATGAGGTAAGCCCCCTGCAGTTGGGAGAGGGCCCAGTGGTACTAGCTGTGTGCCCTCAGGCTGGTCACTTAGCTT
CTCTGAGATTCGTTYCTGCTGTCCCAGTTTCTSAGAGCCTCTATACCAGCAGCATGAGGAGGGCTGGTTTGTGCCTGATGAAGGGCATCAGTACCCTCAG
TGCAATTGACTATAGAAGCCAGRGTTGCTGGTTCAAGTTCTAACTCCATCTTTCATTCACTGTAGGACTTTGGACAAGTGACTTCACCTCTCTAATCCTC
AGTTTCCCCAAGTATAAAATGAGGAGGATCATCAATTCCYACCTATGGGAYTGTCATAAAGAGGCTTTCCTTGAGCTGCTGATGTTATTTGATAYGGTTG
CTACCATTGTGGCAGGGCCCCCATCTCTGCCCCATCCAGGCATGGGCCTCTCTTCCTGGGACAGCTGGAGAGGGAGCCAGAGAGCGCCTGTGAGGCAGTA
GGAAGGAAGGCTGGGCACTAGCAGGCTGACTGGGGCTGGGCTCCTCTGTCCACAGGCTCTACRGGATGCTTCAGTCCTGATATTTGCCAATAAGCAGGAC
GTGAAGGACTCCATGAGGATGGTGGAGATCTCCCATTTCCTTACTCTCAGCACCATCAAAGACCACTCGTGGCATATACAAGGCTGCTGTGCCCTCACCA
GGGAAGGGTTAGTGGCTGCCCTACCTGGATCTYTAGGGCCTGGCTGAACCAATGGATGACTGACCATCAGAACCCTTCTCCTGCCTCTCTCCTGTGAGAA
TCTGGTTCACAGTTGGCTCCTGGGCCAAGCCAATTTGGCATCTCCCCACAGGTGAGATGTGGTGGGTAAGCCACAAGCAGACAGCATCCCTGCTCTCAGG
GGCTTGTTCTAGTGGAGAAAGAGGTAGCACTCCGCCTAAATGCAATAATCTCTCTCTCTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTTGTTGCCC
AGGCTGGAGTGCAATGGCATGACCTCAGCTCACTGTAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGATTACAG
GTACCCGCCACCACGCCTGGCTAATTTTTATATTTTTAGTAAAGATGGGGTTGGCCAGGCTGGTCTTGAACTCCTGACCACAGGTGGTCCACCGGCCTCG
GCCTTCCAAAGTGTTGGGATTACAGGCATGAGCCACTGCACCTGGCCGCAATAATCTTAGGTGCTGAGAAGTGATGTGAAGAATCCCACTGGTTACCAGA
AATGGAAGGGAGAAGGATAGGTCTGATTTAGTTCTGGTGGTCAGGGCTGGCCTCTCTTAAGAGATGACTTTTGAGCTGAGACCTGAGTGAAGAGTAGGAG
ACAGCCATGGGGAGACCTGGGGAACAAGCCTTCCAGGCAGAAATCATTGACTCACTCTGACTTCAGTTTCTTAWCTGTAAGGAAGAGGATCATTATACCT
CCTAGAGTTTCTGTAGAGTAAATGACACCATTCAGTACACAWATCTTTCTTGAGCACCTCCTTTGTGCCAGGTACTGTTCTAGGCACTGGAGAAACAGCA
GCGAGCAAAACAGACAAAAATCCCTGCCCTCACGGAGCTTACTTTCCGGTAGGGGAGGCAGATGATAAACAAGAAAAATATATAGTCAGTTAGAAAATGA
TGGCGGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACCCAAGGTCGGGAGTTCGAGACCAGCCTGACCAACA
TGGAGGAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGCAGATGCCTGTAATCCCAGGTACTTGGGAGGGTGAGGCAGGAGAAGCGC
TTGAACCCAGGAGGCGGAGGTTGCGGTGAGTCAAGATCATACCATTGCACTCCAGCCTGGGCAACAAGAGCGAAGCACCATCTCAAAAAAAAAAAAAAGA
AAGAAAGAAAATGGTAAACGGCTTGAGGCCAGGAGTTTGAGAAAAGCCTTGGCAACAGAGCGAGACTCTGTCTTTACAAAAAAAAAAAAAAAAAAAAACC
GCTGGATGTGGTGGCACACACCTGTATTCCTAACTGCTCATGAGGTTGAGGCAGGAAAATCACTTGAGCCCAGGAGTTCCAGGCTGCACTGAGCTCTGAC
CATGTTGCTGCACTCCAGTCTGGGTGACATAGCAAGATCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTGATAAATGATAAGGTGAATAAAGA
GTAAGAAACAGAGATTGGGCCAGCATGGTGGTTCATGCCTGTAGTTCTAGCTACTGGAGAGTCTGAGGCAGGAGGATGGCTTGGGGCCAGGAGTTGGAGT
CCAGCCTGGGCAACATATCCAGACCCCCATTTCCAAAAGCAAAAACAAAGAAAAGAAAAGGGAGAGTGGAAGTGTGTGGAGGGAATGTTGCAATTTTAGG
TAAGTTATCTGACAAGGGACACTAAGCAGGTAGATATTGAGTAATCACCTGGAGGATTTTAAGGAGCTGGGCCACGTAGAAAGGGCCTTACATCAGGCCT
GGAAAACTTCCCTTTCGTCTTACCTGTCAAGTGGAATCATGGCAGGCTGGGCACACAGGTATCTTTTTTTTTTTTTTTGAGGCAGGGTCTCCCTCTGTCA
CCCCCCAGGCTGGAGTACAGTTGTGCAAACATGGCTTACTGCAGCTTCAACCTCTTGGGCTCAAGCGATCCTCCCACCTCAGCCTCCCTAGTAGCTGGGA
CTACAGGCGCACACCACCATGCCCTGGTAATTTTTGTATTTTTGTAGAGACAAGGTTTTGCCACGTTGCCCATGGCTGGTGTCAAACACCTGAGCTCAAA
TGATCTTCCTGCCTTGGCCTCCCCAAGTGTTGGGATTACATGAGTGAGCTACCACGCCTGGCGCAGATGTGTTTTTTGAAGAAGGGGAGACTKTAGGCAA
GTCAGTCCAAGGGACCACACGTTTCTAGCAGTGTCCTTGCCACCCGCTGGGTCAGGAGAACCCTCTTCCACAACCCACAGTCAGTTCAATCAGCATTTTC
CCTCCCTTCTTTCCCTCCCTCCCTCCCTCACTTCCTCCCTCTCTTCCTTCCTTCCTTCCTTCCTTCCTCCCTCCCTCCCTCCTTCCCTTTCTTCGACGGC
CACTTGCTCTGTTGCCCAGGCTGGAGCGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCTGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCG
AGTAGCCGGGATTACAGGCGTGAGCCACCACGCCCGGTTAATTTTTTTTTTTGTATTTTTAGTAGAGACGGTGTTTCATGGTGTTAGCCAGGATGGTCTC
GATYTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGYGCCCGGCCACTTTTTTCTTTTTTTTTTTTT
GAGTGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATAGCATGATCTCAGCTCACTGCAACCTCCGTCTCCCGGGTTYAAGGGATTCTCCTKCCTCA
GCCTCCCAAGTAGCTGAGATTACAGGCATGCGCCAACATGCCCAGTTGATTTTTGTATTTCTAGTAGAGACGGGCTTTCTCCATGTTGGTCAGGCTGGTC
TCGAATTCCCGACCTCAGGTGATCCACCCGCCTCCGCCTCCCTAAGTGCTGGGATTAMAGGCGTGAGCCACTGCGCCTGGCCCAATCAGCATTTTCTAAG
TACCCCCCATGTTCCCTGTGCGGTGCCAGACCAAGGCTGAGGATGATACAGAGATGACCAAGACTCCACCCATGCGCCGGAGTTGCTTACAATCTAATGG
GGGAACTTGCGTAGGGAACCTCTTTCTGGCACAGATCACCGTGAAGAATCCTTGCCCAGAGACACAGCTAAGGGGCCCAGCAAGGTGAGTCTCCAGGCTC
CTTCCTCAGAGAAGCMCTCCCTGACTCTCAGGCATCCAGAGGCCTCTGTATATTTCCTTTATCACAGTATGTAATTACAGAATTATGTGTCTGACCATTT
ATTTAGTATCCATCTCTTCTACTAGACAGTAAGCCTCAGGGGCATGTCTGCATTTTCACCAGTAACTCCAGAGCCTTGCACAGTACCTGATGCACAGCAG
ATACTCAAGCCAGTTCATCTCTGTTAATTGAATTATTGGATGTAACTTTGGTTCCTGCACCCAGTCCGATCTGGGCAAGGGCTGGAGACTTGAAGGCCAT
CATTCTCTTGGGTTAGGCTGACCCCTCCTGTTCCTTCCTCCCTGCAGGCTGCCTGCCAGACTTCAGTGGATGGAATCTCAGGCCGCTGCTAACTGATGTT
CCAGTCTGAGGTCAACCAGAAACTTTGGGGTTTTGCATGGTCAACATGGGTGGAAAATCAAGTGGCTATTTATTACTTTTCTATGGTTCTCTAGTGGGAG
CAGTGGCTGCTATGGACAGTGAGATTGACACCATTCTCCCAACCCGTTGCTGASAAGCTGGACTGCATACCTTGGATTCCTGCAGACAGCACAGCAGAAG
AAGCTGCTCCTCACTCCATGGCCGCAGGCATCCTTCTTGGAGACGTYYGGGAAATGTTGGATATGTTGCAGATTTAGTGAGTGGAACTCTCTCCCTCTCC
TCAGCCCTCAGTCTCTCCGTAGGAATAATGTGTGTGTGTGTTGGGGGGGCAGATTAAGAGACCCCTGAGGCTGGGCGCGGTGGTTTACGCCTATAATCCA
GCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGGTCAGGAGTTGGAGACCAGCATGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATATAAAAA
TTAGCTTGGTGGTGGTGCACGCCTGTAGTCCCAGCTACTCGGGTGGCTGAGGCAGAAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGA
TTGTGCCATTGCACTCCAGCTTGGGTGACAGAGCGAGACACCGTCTCAAACAAAACAAAGCAAAATACAAAAATTAGCCGGACGTGGTGGCGGGCGTCTG
TAATCCTAGCTACTCGGGAGGCTGAGACAGGAGAATCCTTTGAACCTGGGAGGCGGAGGTTGCAGTGAGTTGAGATCGGGTCACTGTACTCCAGCCTGGG
CGACAGAGAGAGACTCCGACTCAAAACAAAAACAAAAACAAAAAAAAAAACCCCTGGAATTGCTCTTCATTTCCTCAAACCTCCTTCCACCCTCAGGCTT
TTTAGCCCCTCAGCCATTTTTGTCCCATTCCCTTTGGGCAAAGGAGATTCTAGCAAGGTGAAGAAGGTGGGCTCAAGGGGAGGAGGGCAGAGGCAAAAAC
TGGAAGGGGAAATGGAGGAGGACAGGACGTCCCAGATAGGGACAGCCCTTTGCACTGCAGGGATTCCACTTCTCCTCGTCTTCCCATTCCCTCTGAGATG
CTGACTCTGACCACAGCTCTTGGACTTTAAGCCACCCCACAGCATCCCCTTTACTTCTAGTGTCCTTCCAATTTGAATCCCACTCCTCCCAAATATACCA
GATTCCTAAAGGGGCTGCTTGTTTGTCTTTGTGTAATGATTTTTGTTGTTGTTGTTATTGTTGGAGTCTCGCTCTACCGCCCAGGCTGGAGAGCAGTAGT
GGCGCGATCTCGGCTCACTGCAACCTCCGCTTCCCGGGTTCAAGCGATTGTCCTGCCCCAGCCTCTCGAGTAGCTGGGACTATAAGCGCGCACCACCACG
CCCTGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTC
CCAAAGTGCTGGGATTACAGGCGCGAGCCACCGCGCCCGGCCAGGATTTTAAAAAAAATACTGTATTAGGATTTTTATAAGGCTGTAGTAAATGCTATTG
AAAAATGCTTACCTCTTATTTCAGCCTTCTCCTCTGTCTGTTCCTCAAACTGGCTTTTGGTTTGAGAGAAGGGGAGGAGCGACCCTGGGGTTGGAAAAGC
CCAGGAGACAAGATGGAGATCCAGTCTGTTCATCTGTACATCCCTGGACCTGGGGCGGTCCTGGGGACAGTCCTTTTCTCAAGCCAGTCAGTGGACATTT
GGGGGAGAGTCTAGGCACGGATATAGAGGACCCAATATTCCTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCT
CGGCTCACTGCAAGCTCCGCCTCCAGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACACCCGGCTAAT
TTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGAGGTCTCGATGTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGG
ATTACAGGCGTGAGCCACCGCTCTCGGCCCAAGATTCCTTAATCTAGTTGGTTTTCCGAAAGCGTGGCTATGAAGGAAGAACTCAGGAGTTCTAGCCATT
CCCATTGTATTTTGTGTTTTTTTCAGTAGGTATCCCGACGCAACCCTCAGATTAAAACTTTAAGGGAAAATGAAGACCACACCCCTATTCCATAGAAATT
AACTCTAATGACAACGTAGTGGCGTGGCGGGGGTATAGCTCAGTGGTAGAGCATTTGACTGCAGATCAAGAGGTCCCCGGTTCAAATCCGGGTGCCCCCT
CTGTGCTCCGGAGTTACCTCGTTTTGTTGGTCTCCGGAGGTCCTCTAAAGAGTTCCCGCACAGATGGAATGGGAGGGAGTCTCGAGCCCTGCCACCCTTT
TTGCTTTCGCAGGCGAGTGAGGATGGAGTCCTGGCCCCTGCCAGTGGCTCAGCCTGTGTGTGTACCCAGGGTAGAATGCAATGCGAGTGAGGGCGAGGAG
CTCCGGGCTGACCCTTGGAACACGGTACGGGTGGCTCAACCTCGCAATGGCAGGGCGGAGGCGAGCGCACCCCCAGGTCAGCCTGGCTCTTTCTTGGCGG
GAAGGAGGCTGAGTTTCTAAGGGCTGGGCTGGGGAAGACAGGTCGGGAGAAGCCGCGTGAGCATGTGGGAGGGAGAAAGAAGCTCCGAGACGTGGCAAGG
GGTCTTCTGCAGGGCAGGAGAGTGGGACGCCCCCGAAGTGAAATATTTCGAGAGACTTCTCCTTCCACACCCCAGGAATATATTTTCTTATACTGCCAGT
GGGGATCTTCAGCTCAGAGCTTCAGGGAACAACCCCTGCTTCCAAGTGAGTAATTCTTCTGGGAGTTGTATTTTTTCCATCTCTTGTAAACGTCTTACCC
CACTTCCACTTCCCTTCGGGAACGCCACACAGCGCCTGCGCAGCAATACCACTAAGCGACTACGTGCGGTCGGTTTGCCGGCAGAGGGGGTATAGCTCAG
TGGTAGAGCATTTGACTGCAGATCAAGAGGTCCCCGGTTCAAATCCGGGTGCCCCCTCTTTGGCCTTTTCGAGATACTGTTTTTGTCCTGGGTGTCGATT
TTTCCTAAGCTGTTTGCTTTTACTCCTACTGGCAGACGAGGAGCAGTGAGGGACTGAAAGGAACTGGGGATTCAACAGCAGTGGCTCTCAAAATGTGGTC
CTGGGACCAGCAGCATTACCTGGGTACGCTCGGGCCTCATCCCAGACCTAATGAATTAGAAACTTGAGGGTGGAGTCCAGAAATCTGTGTTTTCATATAC
GCTCCCCATCGCTTGAGTCCAGGAGTTGGAAGCTGCAGTGAGCTATGATCGCAGCACTGCACTCCAGCCTAGGCAACGTGCGAGAACCTGTTTCAAAAAA
CAAACAAAATACACACACACACACACACACACACACACACACACACACACACACACACCCTGCAGGTGATTACGATCTCAAGTTCTAGAGGCTTACGTTA
AAATTTACACATTTGCTTCTACTATTTACAAGTTTATGTTTCAGCCTGAGCTCTTCTTGTAAGACAGACCACGAGGTACCCCAGATGGAGGAATGTGCAA
AGACGCCGGGGCTGGAGCTGGAATCCGTCCCGAGACTTCTCACCTTGACCTCGAGGAAGGCAGGAGGTCGGAGACAGGGGGTGGGCAGGCCGGGGAAAGA
GGAAACCCGCAGGACAAGAGGGTTGTGGCTCGTCACGTGGCCACTTGAGGGCAGCAAGTAGCTGCAGCTGGAGGTAGCTGCCTATCTGATTCTGTTTGAG
AGTCCGCCAAGTTGGGATTTAAATTAGACATCAAGAAGAATTTACAGACCGGCCTTGCCTTGTTCCACGGTAAGGGGACATTGGGTTTAGGGCTGGAGGA
GGTAGTCTCTGGGACTCTGGGCCCGGCGGAAGGAGGAACCGGCGTTCTAAGAGATTAGAGAGCCTTTAGTTGTTTCCTTTCTTAGGTGTTTTTTTTTCTT
TTCTTTTCTTTTTTTTTTTTTTAACCTCAGTGCCACGGAATCCGTCTCTTCCAGCCCACAGTGTACCTTCTCCTGTCCCCGCCCATATCCCTCCTCCTGG
AAAATTTCTCCAATGGCGCTCAGCGTTCGCACCCTTCCTCTCCGCGGTTTTCTAGTCCCTAGGCCCCAGCCCACTAGAAGCCAGGATGCCCCCTCACCCC
GTCTCCCACTCTCCAGCGCCCCAGCTCCTTGCCGTCACAAGAACGAAGTAGGTYAGGGGAGGGAAGAGGCATCTTCGTGTCCTGACCTGATTCCTTGCCG
TCTATTAAATATCCTACATTGCGGGTATTTTTATTCTGTCCTGGAAGAAAAAATAAAAAGATTATCTATCCCCAGAGCCTGTCAGAAGGTGGTGACAGGT
GRGGTGAGCCATTTCCTCGTCTGGGGCTGGCTCTGAAGATTGATTGGGTCTGGCCCTGAGTAGGCCTGGAGGCCCCAGAGAGGCAGGAGGCCTGGGTTAC
CTACTCGTGGGGAGGGGTCCAGACTGTTGCAGAGTAAGGGGTAGCCAGGCCCCCTCCACCCTCACGTCTGCTAGGCTTGGGGGGCAAATCGGTGCTGGAA
ATGGGGGGTGGAGGGATAAGGTGGAGTCATGGAAGGGGGGTGGGATTCAGGCCCCTCTTGGGGAGAAAAGCTGGGGGTCTTTGCTGCAGGGGGAGATTTC
TGGGGGTGGGGGCTGGAGGACAAAGCATCAGAGACGCACAGAATTCCGAAGAACAGCTCAGGAAGTCGCAGAGCTTGGAGGAGCTGGGGGCGGGGGACAG
TCAGGGGCCCGTGACCCAGGGATGGGGCGCCTGTCCCTTCCAGGGGTCCAGTCCTCGGGCCTTCTCTCTGCAGCTTTCCCGGCGGAACGGAGGAGGGAAA
GGGAGCCAGGAGCTCAGTGAGGAGCGCGGGGCGGCTGATGCTTCTAGGGGTTCTCTCAGCCCGAGGGGCTCCCGCCCTGTCCCCTACTCTGCACCCCTTG
CCTTGGGAGCGGCTGCAGAGCTCTAGGGGAGCGCTCCGKTAGGGCTGAGGGCAGGCGCCGGGAGAGCCCCCAACGACGCCGCGCCCCCCGCCCCGCCCCC
TGCCCCAGCTCCCCCCCACCCCCACCGACCCAGCGGCCCCCCCAGCTCCCCGCCTGCTCCCGGAGGCCGCAGCCTCCAGCTCCGCTCGCGCTCTCGCCGC
TCCTGCCGGCTCGCCCGGCCCCGCGCTCCGCCGTCTCCTCGCCGCCCGCCCCTCCGCCAGCCCCGGGGACCGCGCGGCCGCAGCCTGAGCCAGGGCCCCC
TCCCTCGTCAGGACCGGGGCAGCAAGCAGGCCGGGGGCAGGTCCGGGCACCCACCATGCGAGGCGAGCTCTGGCTCCTGGTGCTGGTGCTCAGGGAGGCT
GCCCGGGCGCTGAGCCCCCAGCCCGGAGCAGGTAGGACTGGCGGGAGCCGGCCCGGGTGGGCCGGGGGCGGGGAGGGACGGGCAGTCAGGTGTGGGCATG
GGCAGGTGTGGACGGCCTGGCGATGTCCGCGAGGGGGGCATTGTCCGCAGGAGGCCAGGAGAGCTGTGGGCTGTGGGCAGGTGGATAGGGACCCCACTTT
CCCAAACACATAGGGTGTGTGAGTGACGGTGGAGACACCGATGCCCGGACCTCTTCTTCTCTCCTGGAAGGATACTGGAGGGACCTTAGGAGAGGCGGCT
CTATGTGGCCATGGGCTCTGAAAGGGGACAGCGGGAGAGTCATCAGGACCCCTGATCACCCCAGGCAAGGCTGAATTCTGATGAGATGGGAGCCTGGGGA
GGCCCCTGCCCCAGCCATGCCTTCTTTTCCTCTTCTCTGCCACACCCCCGACCCCAAAGCTGATCCAGGCTAGGGATAGGTGGGAGCAGCCA


SNP Information

Context             (SEQ ID NO:42199):
CGACAAAGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAACCTGGGCGACAGAGAGAGACTACATCTCAAGGAAAAAAAAAAAAAA
A
GCAAAACTGTGGCCGGATGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGTCCAAGGTGGATGGATCACTTGAGGTCAGGAGTTCGAGACTCGCC
Celera SNP ID:            hCV11625831
SNP Position Genomic:     8058
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42200):
TGCTGAGAAGCTGGACTGCATACCTTGGATTCCTGCAGACAGCACAGCAGAAGAAGCTGCTCCTCACTCCATGGCCGCAGGCATCCTTCTTGGAGACGTC
Y
GGGAAATGTTGGATATGTTGCAGATTTAGTGAGTGGAACTCTCTCCCTCTCCTCAGCCCTCAGTCTCTCCGTAGGAATAATGTGTGTGTGTGTTGGGGGG
Celera SNP ID:            hCV26308971
SNP Position Genomic:     15148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:42201):
TTGCTGAGAAGCTGGACTGCATACCTTGGATTCCTGCAGACAGCACAGCAGAAGAAGCTGCTCCTCACTCCATGGCCGCAGGCATCCTTCTTGGAGACGT
Y
AGGGAAATGTTGGATATGTTGCAGATTTAGTGAGTGGAACTCTCTCCCTCTCCTCAGCCCTCAGTCTCTCCGTAGGAATAATGTGTGTGTGTGTTGGGGG
Celera SNP ID:            hCV26308972
SNP Position Genomic:     15147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:42202):
AAAATCAAGTGGCTATTTATTACTTTTCTATGGTTCTCTAGTGGGAGCAGTGGCTGCTATGGACAGTGAGATTGACACCATTCTCCCAACCCGTTGCTGA
S
AAGCTGGACTGCATACCTTGGATTCCTGCAGACAGCACAGCAGAAGAAGCTGCTCCTCACTCCATGGCCGCAGGCATCCTTCTTGGAGACGTCAGGGAAA
Celera SNP ID:            hCV11418400
SNP Position Genomic:     15054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:42203):
TTTCTAGTAGAGACGGGCTTTCTCCATGTTGGTCAGGCTGGTCTCGAATTCCCGACCTCAGGTGATCCACCCGCCTCCGCCTCCCTAAGTGCTGGGATTA
M
AGGCGTGAGCCACTGCGCCTGGCCCAATCAGCATTTTCTAAGTACCCCCCATGTTCCCTGTGCGGTGCCAGACCAAGGCTGAGGATGATACAGAGATGAC
Celera SNP ID:            hCV26308973
SNP Position Genomic:     14258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42204):
TTTTTTGAGTGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATAGCATGATCTCAGCTCACTGCAACCTCCGTCTCCCGGGTTCAAGGGATTCTCCT
K
CCTCAGCCTCCCAAGTAGCTGAGATTACAGGCATGCGCCAACATGCCCAGTTGATTTTTGTATTTCTAGTAGAGACGGGCTTTCTCCATGTTGGTCAGGC
Celera SNP ID:            hCV26308974
SNP Position Genomic:     14095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42205):
TTTTTTCTTTTTTTTTTTTTGAGTGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATAGCATGATCTCAGCTCACTGCAACCTCCGTCTCCCGGGTT
Y
AAGGGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGCATGCGCCAACATGCCCAGTTGATTTTTGTATTTCTAGTAGAGACGGGCTTTCTC
Celera SNP ID:            hCV26308975
SNP Position Genomic:     14081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42206):
CGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCACTTTTTTCTTTTTTTTTTTT
T
GAGTGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATAGCATGATCTCAGCTCACTGCAACCTCCGTCTCCCGGGTTCAAGGGATTCTCCTGCCTCA
Celera SNP ID:            hCV26308976
SNP Position Genomic:     14000
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42207):
TGGGTTCCCGGGCTCCTCTGTAGTCCGGAGGAGCGATTGGGCACGCTGCTTGGACCTTCCTAGTACTGCGGCTCCTCGGTCTGGCATTCAAATCCTGCAC
S
GTACAGGCAACCCTAGCTCCCACTGCTTTCCTCCATCTTCCCGGGGGCCCTGCCAAACCCAGCTCCAGGCCTGCCAAGTGTCCCAAACTGCCTCCCTGCT
Celera SNP ID:            hCV11418404
SNP Position Genomic:     6870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42208):
GGTGTTTCATGGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTG
Y
GCCCGGCCACTTTTTTCTTTTTTTTTTTTTGAGTGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATAGCATGATCTCAGCTCACTGCAACCTCCGT
Celera SNP ID:            hCV26308977
SNP Position Genomic:     13970
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42209):
AGCCGGGATTACAGGCGTGAGCCACCACGCCCGGTTAATTTTTTTTTTTGTATTTTTAGTAGAGACGGTGTTTCATGGTGTTAGCCAGGATGGTCTCGAT
Y
TCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCACTTTTTTCTTTTTTTTTTTTTGAGT
Celera SNP ID:            hCV26308978
SNP Position Genomic:     13904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42210):
ATCCGTGCCTAGACTCTCCCCCAAATGTCCACTGACTGGCTTGAGAAAAGGACTGTCCCCAGGACCGCCCCAGGTCCAGGGATGTACAGATGAACAGACT
R
GATCTCCATCTTGTCTCCTGGGCTTTTCCAACCCCAGGGTCGCTCCTCCCCTTCTCTCAAACCAAAAGCCAGTTTGAGGAACAGACAGAGGAGAAGGCTG
Celera SNP ID:            hCV2960013
SNP Position Genomic:     4271
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:42211):
CCTGCACCTGTCCGGCCCGGGAAGTGCCATGGGACAGCTGATCGCCAAGTTAATGAGCATCTTCGGGAACCAGGGTAAGGGGCGCACAGGGCATCCAAGC
K
AGCGCTTTGATCTCGCCCTCTTCTGGGACTCCTCTGATCTGTGGTCGGACGCACGGGGGGACCTCGGGCTCCGAGGGTCGTATATGGGCGCTCCTCGACT
Celera SNP ID:            hCV27855677
SNP Position Genomic:     6074
SNP Source:               Applera
Population(Allele,Count): african american(G,22|T,2)   caucasian(G,30)   total(G,52|T,2)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42212):
CTACTCACCAGCTGTGTGGTCAAGAGCAAGATACATAGCCTCACTGAGCCTCAGTCTCTTCATTTGTAAAATGGGGATACTAACAGTACCAAGTCCACAG
S
GTTGTGGTAAGGCCTAAATGGAGTCATGAACACCCAATGCTTATGTAGCACAGCCTCTGCCACACAGTCAGAGGTGTGCTATTCCCATGTCTGGATAGAA
Celera SNP ID:            hCV2960030
SNP Position Genomic:     9870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42213):
AAGGCCAAAGAGGGGGCACCCGGATTTGAACCGGGGACCTCTTGATCTGCAGTCAAATGCTCTACCACTGAGCTATACCCCCTCTGCCGGCAAACCGACC
K
CACGTAGTCGCTTAGTGGTATTGCTGCGCAGGCGCTGTGTGGCGTTCCCGAAGGGAAGTGGAAGTGGGGTAAGACGTTTACAAGAGATGGAAAAAATACA
Celera SNP ID:            hCV2956898
SNP Position Genomic:     2926
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,9)      total(G,9|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:42214):
GACTGAGCTCTTGGTGCCCACTCCTACCTCCCCAGCTTGACCAGTGAGGTGGTCCATATGTGTCCCACCATTGGCAGCAACGTGGAGGAGATCATTCTGC
Y
GAAGACCCACTTCTTCCTGTGGGACATAGTGAGACCTGAGGCTCTGAGCTTTATCTGGAACACATACTACTCCAACACTGAGGTGAGGAGGGCACCAGGG
Celera SNP ID:            hCV25968629
SNP Position Genomic:     9005
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42215):
CTGCCTGAAATTGCATTTGCAGCCCGGACACGGTGGCTCATACCTGTAATCCCAGCACTTTGGGAGGTCGAGGTGGGTGGATCACTTGCGGTCAGGAGTT
Y
GCAACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGTGGGTGCCTGTAATACCAGCTACTTGGGAG
Celera SNP ID:            hCV2960050
SNP Position Genomic:     1669
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,13)   total(C,13|T,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:42216):
GGAGATCATTCTGCCGAAGACCCACTTCTTCCTGTGGGACATAGTGAGACCTGAGGCTCTGAGCTTTATCTGGAACACATACTACTCCAACACTGAGGTG
R
GGAGGGCACCAGGGCTGAAGGGTCTCCAAGGCAGGCGTGTGATATCAGACTGTCATGTAACCTTTCTGAGCCTTGGTTCCCCAACTTGTGAAATAGAGAT
Celera SNP ID:            hCV25966018
SNP Position Genomic:     9091
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42217):
AGCTGAGACCTGAGTGAAGAGTAGGAGACAGCCATGGGGAGACCTGGGGAACAAGCCTTCCAGGCAGAAATCATTGACTCACTCTGACTTCAGTTTCTTA
W
CTGTAAGGAAGAGGATCATTATACCTCCTAGAGTTTCTGTAGAGTAAATGACACCATTCAGTACACAAATCTTTCTTGAGCACCTCCTTTGTGCCAGGTA
Celera SNP ID:            hCV540410
SNP Position Genomic:     11974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42218):
CCACTCCTACCTCCCCAGCTTGACCAGTGAGGTGGTCCATATGTGTCCCACCATTGGCAGCAACGTGGAGGAGATCATTCTGCCGAAGACCCACTTCTTC
M
TGTGGGACATAGTGAGACCTGAGGCTCTGAGCTTTATCTGGAACACATACTACTCCAACACTGAGGTGAGGAGGGCACCAGGGCTGAAGGGTCTCCAAGG
Celera SNP ID:            hCV2960035
SNP Position Genomic:     9022
SNP Source:               Applera
Population(Allele,Count): african american(A,25|C,13)   caucasian(A,35|C,5)   total(A,60|C,18)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42219):
AGCTCAAATGATCTTCCTGCCTTGGCCTCCCCAAGTGTTGGGATTACATGAGTGAGCTACCACGCCTGGCGCAGATGTGTTTTTTGAAGAAGGGGAGACT
K
TAGGCAAGTCAGTCCAAGGGACCACACGTTTCTAGCAGTGTCCTTGCCACCCGCTGGGTCAGGAGAACCCTCTTCCACAACCCACAGTCAGTTCAATCAG
Celera SNP ID:            hCV525950
SNP Position Genomic:     13493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42220):
AGCTGGAGAGGGAGCCAGAGAGCGCCTGTGAGGCAGTAGGAAGGAAGGCTGGGCACTAGCAGGCTGACTGGGGCTGGGCTCCTCTGTCCACAGGCTCTAC
R
GGATGCTTCAGTCCTGATATTTGCCAATAAGCAGGACGTGAAGGACTCCATGAGGATGGTGGAGATCTCCCATTTCCTTACTCTCAGCACCATCAAAGAC
Celera SNP ID:            hCV540411
SNP Position Genomic:     11063
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,36|G,4)   total(A,70|G,6)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42221):
TAGATTCAGACTGCTTTGGGAGTAGAGCATTTGGGGGCCAGAGTTGGGAGTAGGCTGGACTGAGCTCTTGGTGCCCACTCCTACCTCCCCAGCTTGACCA
R
TGAGGTGGTCCATATGTGTCCCACCATTGGCAGCAACGTGGAGGAGATCATTCTGCCGAAGACCCACTTCTTCCTGTGGGACATAGTGAGACCTGAGGCT
Celera SNP ID:            hCV2960036
SNP Position Genomic:     8948
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,25)   caucasian(A,35|G,5)   total(A,46|G,30)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42222):
CTATTAAATATCCTACATTGCGGGTATTTTTATTCTGTCCTGGAAGAAAAAATAAAAAGATTATCTATCCCCAGAGCCTGTCAGAAGGTGGTGACAGGTG
R
GGTGAGCCATTTCCTCGTCTGGGGCTGGCTCTGAAGATTGATTGGGTCTGGCCCTGAGTAGGCCTGGAGGCCCCAGAGAGGCAGGAGGCCTGGGTTACCT
Celera SNP ID:            hCV526010
SNP Position Genomic:     19402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:42223):
CCCAGTTTCTGAGAGCCTCTATACCAGCAGCATGAGGAGGGCTGGTTTGTGCCTGATGAAGGGCATCAGTACCCTCAGTGCAATTGACTATAGAAGCCAG
R
GTTGCTGGTTCAAGTTCTAACTCCATCTTTCATTCACTGTAGGACTTTGGACAAGTGACTTCACCTCTCTAATCCTCAGTTTCCCCAAGTATAAAATGAG
Celera SNP ID:            hCV540412
SNP Position Genomic:     10723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42224):
AAAGACAATTATAATGGAAGCAGGGTGGTGAAATCTTGAGGCTGCATGCTTTCATTTCTCTGGGGCTGACATCTGGGCAGTGCAGAGACCAGTGGGGAAA
S
AAAGAGGGCAGGAAACACATTTACCAAAGAGAAAGCCTGTCTCTCACGGCTCCCCTCTGCTGCCCAGTTTATCATCCTTGTGATTGACAGCACGGACCGG
Celera SNP ID:            hCV540413
SNP Position Genomic:     10379
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,32|G,6)   total(C,68|G,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42225):
GCTAGAATCTCCTTTGCCCAAAGGGAATGGGACAAAAATGGCTGAGGGGCTAAAAAGCCTGAGGGTGGAAGGAGGTTTGAGGAAATGAAGAGCAATTCCA
G
GGGTTTTTTTTTTTGTTTTTGTTTTTGTTTTGAGTCGGAGTCTCTCTCTGTCGCCCAGGCTGGAGTACAGTGACCCGATCTCAACTCACTGCAACCTCCG
Celera SNP ID:            hCV1144670
SNP Position Genomic:     5139
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:42226):
TGCTGGCAGCTTTCTGTTTGATGCACTGGATGGGTAGGCCCCTTCTCTCTAGGGGCCTTACTTTCTTACTCCAGCAGGAGTAGAATTCAGTGGTATAATT
Y
CTGGACCGAGACAGAGCTGGGTTCCATTTCCAGCACTGCTACTCACCAGCTGTGTGGTCAAGAGCAAGATACATAGCCTCACTGAGCCTCAGTCTCTTCA
Celera SNP ID:            hCV540414
SNP Position Genomic:     9731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42227):
TCCTCTAAGATGTTTCCCTTCTCTGGGGTCCAAGCCAGGGCAGGGCTTAGTCTCACTCCTGTCTTCATTCCCCAGGGCCCAGCACGGGGCCTGGCTCCGA
R
CAGGTGTTTGGTGAACCTGGGTGGACTTGTTCTGAGTTAGATTCAGACTGCTTTGGGAGTAGAGCATTTGGGGGCCAGAGTTGGGAGTAGGCTGGACTGA
Celera SNP ID:            hCV2960039
SNP Position Genomic:     8810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42228):
TGCTTCTAGGGGTTCTCTCAGCCCGAGGGGCTCCCGCCCTGTCCCCTACTCTGCACCCCTTGCCTTGGGAGCGGCTGCAGAGCTCTAGGGGAGCGCTCCG
K
TAGGGCTGAGGGCAGGCGCCGGGAGAGCCCCCAACGACGCCGCGCCCCCCGCCCCGCCCCCTGCCCCAGCTCCCCCCCACCCCCACCGACCCAGCGGCCC
Celera SNP ID:            hCV7452880
SNP Position Genomic:     20039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:42229):
AAGCCCCCTGCAGTTGGGAGAGGGCCCAGTGGTACTAGCTGTGTGCCCTCAGGCTGGTCACTTAGCTTCTCTGAGATTCGTTCCTGCTGTCCCAGTTTCT
S
AGAGCCTCTATACCAGCAGCATGAGGAGGGCTGGTTTGTGCCTGATGAAGGGCATCAGTACCCTCAGTGCAATTGACTATAGAAGCCAGAGTTGCTGGTT
Celera SNP ID:            hCV25966072
SNP Position Genomic:     10633
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,39)   total(C,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:42230):
CAGAGTTGGGAGTAGGCTGGACTGAGCTCTTGGTGCCCACTCCTACCTCCCCAGCTTGACCAGTGAGGTGGTCCATATGTGTCCCACCATTGGCAGCAAC
R
TGGAGGAGATCATTCTGCCGAAGACCCACTTCTTCCTGTGGGACATAGTGAGACCTGAGGCTCTGAGCTTTATCTGGAACACATACTACTCCAACACTGA
Celera SNP ID:            hCV540415
SNP Position Genomic:     8986
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,4|G,36)   total(A,7|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42231):
CCGAAGCGCCCCGGGCCTTTCAGACACTTTTCTAGAATGTGAAGGGAGGTGGGGGCTCAGCTGTCTTTTCCACCGTCCCGGAGTGGGGCAGGTGTCGGAG
Y
TGGGTGGGAAGCAGACGCGGTACGGTGGGCAGAGGTCCCCAGCCTGCGGGGAGCGCTATCTCCTTCCTGGGAGGTCTGGTGGGGGCACACAGTCCCTTGG
Celera SNP ID:            hCV525991
SNP Position Genomic:     6477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42232):
CTGCGAGTTTCCTGCGATTGTGACTTCGCGTTATGCTCTTTCTCTAAACACCGTCTCTTGGCAAGCCCCGAAGCGCCCCGGGCCTTTCAGACACTTTTCT
R
GAATGTGAAGGGAGGTGGGGGCTCAGCTGTCTTTTCCACCGTCCCGGAGTGGGGCAGGTGTCGGAGTTGGGTGGGAAGCAGACGCGGTACGGTGGGCAGA
Celera SNP ID:            hCV525992
SNP Position Genomic:     6410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42233):
TCCTGAGGCCGCTGAGCCCTCCTGCACCTGTCCGGCCCGGGAAGTGCCATGGGACAGCTGATCGCCAAGTTAATGAGCATCTTCGGGAACCAGGGTAAGG
R
GCGCACAGGGCATCCAAGCGAGCGCTTTGATCTCGCCCTCTTCTGGGACTCCTCTGATCTGTGGTCGGACGCACGGGGGGACCTCGGGCTCCGAGGGTCG
Celera SNP ID:            hCV525993
SNP Position Genomic:     6054
SNP Source:               Applera
Population(Allele,Count): african american(G,24)   caucasian(A,1|G,29)   total(A,1|G,53)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42234):
ACAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTACTAAAAAAATATAAAAATTAGCTGGGCGTGGTGGCACATGCCTGTAATCCCA
S
CTACTCTGGAGGCTGAGGAAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGACTGCGCCACTGTACTCCAGCCTGGGCGACAAAGG
Celera SNP ID:            hCV26308981
SNP Position Genomic:     7866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42235):
AGGAGGAAATGCAGAAGCAAAGGCACCATCAGAAAGAGCCAGGCATGTATAGGCAGGAACCAGTAGATACAGAGCCTGGGAGATAAACCTGTGAAGGCAG
S
TGGGGGCTGTTCGTGGAAGCTCTTGAATGTCAAGTGGAGACTGATCTGAATCCAGTGAGCAATAGGGAGCCATTGAAGATCTATGAGCTGGGGGAGTTAC
Celera SNP ID:            hCV525994
SNP Position Genomic:     4767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:42236):
AGTCCCTAGGCCCCAGCCCACTAGAAGCCAGGATGCCCCCTCACCCCGTCTCCCACTCTCCAGCGCCCCAGCTCCTTGCCGTCACAAGAACGAAGTAGGT
Y
AGGGGAGGGAAGAGGCATCTTCGTGTCCTGACCTGATTCCTTGCCGTCTATTAAATATCCTACATTGCGGGTATTTTTATTCTGTCCTGGAAGAAAAAAT
Celera SNP ID:            hCV16199306
SNP Position Genomic:     19254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:42237):
CATTTACCAAAGAGAAAGCCTGTCTCTCACGGCTCCCCTCTGCTGCCCAGTTTATCATCCTTGTGATTGACAGCACGGACCGGGATCGGCTGCTGACCAC
Y
CGGGAGGAGCTATATAAAATGCTGGCCCATGAGGTAAGCCCCCTGCAGTTGGGAGAGGGCCCAGTGGTACTAGCTGTGTGCCCTCAGGCTGGTCACTTAG
Celera SNP ID:            hCV25965389
SNP Position Genomic:     10497
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,2|T,38)   total(C,2|T,76)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42238):
GGATTTGAACTCAGATATATAGATGTCAAGTTCTGTGGTGCCTTTGACCCCCAAGTTCAGTGCTAATTCCCTTGTCCCAGGATGCATCAGCTTCTGCAAG
S
GGGGGCTGGGGGTTTGAGAAGGAGGAAGCAGGTGTCTGAGTGTATTTGTGCCCCATGTGCCTTCTGCCTGAAATTGCATTTGCAGCCCGGACACGGTGGC
Celera SNP ID:            hCV26308988
SNP Position Genomic:     1505
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|G,10)   total(G,10|C,7) 
SNP Type:                 TFBS


Context             (SEQ ID NO:42239):
AGTCCCTTGGTCTTCGGGTTTGGCCCTGACGCTGCCCTTCCTCCGACGCTTCCAGAGCACACGGTCATCATCGTGGGACTGGACAATGAAGGAAAGACCA
Y
CATTCTCTACCGGTTGTAAGTGACTCTCGGGCGGGGAGGGTAGAGAGCTGGGCCTCCCACCAGACTGACAGGCAGGGGGACCAATCACTGGAGCTCTTCC
Celera SNP ID:            hCV27830299
SNP Position Genomic:     6668
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,2)   caucasian(C,12)   total(C,32|T,2)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42240):
GAACCTCTTTCTGGCACAGATCACCGTGAAGAATCCTTGCCCAGAGACACAGCTAAGGGGCCCAGCAAGGTGAGTCTCCAGGCTCCTTCCTCAGAGAAGC
M
CTCCCTGACTCTCAGGCATCCAGAGGCCTCTGTATATTTCCTTTATCACAGTATGTAATTACAGAATTATGTGTCTGACCATTTATTTAGTATCCATCTC
Celera SNP ID:            hCV2960020
SNP Position Genomic:     14516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42241):
AATCATTGACTCACTCTGACTTCAGTTTCTTATCTGTAAGGAAGAGGATCATTATACCTCCTAGAGTTTCTGTAGAGTAAATGACACCATTCAGTACACA
W
ATCTTTCTTGAGCACCTCCTTTGTGCCAGGTACTGTTCTAGGCACTGGAGAAACAGCAGCGAGCAAAACAGACAAAAATCCCTGCCCTCACGGAGCTTAC
Celera SNP ID:            hCV2960022
SNP Position Genomic:     12042
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42242):
CCATTTCCTTACTCTCAGCACCATCAAAGACCACTCGTGGCATATACAAGGCTGCTGTGCCCTCACCAGGGAAGGGTTAGTGGCTGCCCTACCTGGATCT
Y
TAGGGCCTGGCTGAACCAATGGATGACTGACCATCAGAACCCTTCTCCTGCCTCTCTCCTGTGAGAATCTGGTTCACAGTTGGCTCCTGGGCCAAGCCAA
Celera SNP ID:            hCV2960023
SNP Position Genomic:     11233
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,37|T,1)   total(C,68|T,4)
SNP Type:                 SILENT MUTATION;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:42243):
AGTGAGACCCTGTTTCTATAAAAAGAAAAAAAGAGATAAAGTTTGAGGAGCCTCCTCTAAGATGTTTCCCTTCTCTGGGGTCCAAGCCAGGGCAGGGCTT
R
GTCTCACTCCTGTCTTCATTCCCCAGGGCCCAGCACGGGGCCTGGCTCCGAGCAGGTGTTTGGTGAACCTGGGTGGACTTGTTCTGAGTTAGATTCAGAC
Celera SNP ID:            hCV2960040
SNP Position Genomic:     8758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42244):
ATCCTCAGTTTCCCCAAGTATAAAATGAGGAGGATCATCAATTCCCACCTATGGGATTGTCATAAAGAGGCTTTCCTTGAGCTGCTGATGTTATTTGATA
Y
GGTTGCTACCATTGTGGCAGGGCCCCCATCTCTGCCCCATCCAGGCATGGGCCTCTCTTCCTGGGACAGCTGGAGAGGGAGCCAGAGAGCGCCTGTGAGG
Celera SNP ID:            hCV2960024
SNP Position Genomic:     10895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42245):
TTTCATTCACTGTAGGACTTTGGACAAGTGACTTCACCTCTCTAATCCTCAGTTTCCCCAAGTATAAAATGAGGAGGATCATCAATTCCCACCTATGGGA
Y
TGTCATAAAGAGGCTTTCCTTGAGCTGCTGATGTTATTTGATACGGTTGCTACCATTGTGGCAGGGCCCCCATCTCTGCCCCATCCAGGCATGGGCCTCT
Celera SNP ID:            hCV2960025
SNP Position Genomic:     10851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42246):
TGAGAGGCTGAAGTGGGTGGATCTACCTGAGGACAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTACTAAAAAAATATAAAAATTA
R
CTGGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGAAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGACT
Celera SNP ID:            hCV2960042
SNP Position Genomic:     7834
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42247):
CTAACTCCATCTTTCATTCACTGTAGGACTTTGGACAAGTGACTTCACCTCTCTAATCCTCAGTTTCCCCAAGTATAAAATGAGGAGGATCATCAATTCC
Y
ACCTATGGGATTGTCATAAAGAGGCTTTCCTTGAGCTGCTGATGTTATTTGATACGGTTGCTACCATTGTGGCAGGGCCCCCATCTCTGCCCCATCCAGG
Celera SNP ID:            hCV2960026
SNP Position Genomic:     10840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42248):
AGAATCTCCTTTGCCCAAAGGGAATGGGACAAAAATGGCTGAGGGGCTAAAAAGCCTGAGGGTGGAAGGAGGTTTGAGGAAATGAAGAGCAATTCCAGGG
K
TTTTTTTTTTTGTTTTTGTTTTTGTTTTGAGTCGGAGTCTCTCTCTGTCGCCCAGGCTGGAGTACAGTGACCCGATCTCAACTCACTGCAACCTCCGCCT
Celera SNP ID:            hCV2558855
SNP Position Genomic:     5142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:42249):
GTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCTGAAGTGGGTGGATCTACCTGAGGACAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACCC
Y
ATCTCTACTAAAAAAATATAAAAATTAGCTGGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGAAGGAGAATCACTTGAACCCGG
Celera SNP ID:            hCV2960043
SNP Position Genomic:     7806
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42250):
AATGCTGGCCCATGAGGTAAGCCCCCTGCAGTTGGGAGAGGGCCCAGTGGTACTAGCTGTGTGCCCTCAGGCTGGTCACTTAGCTTCTCTGAGATTCGTT
Y
CTGCTGTCCCAGTTTCTGAGAGCCTCTATACCAGCAGCATGAGGAGGGCTGGTTTGTGCCTGATGAAGGGCATCAGTACCCTCAGTGCAATTGACTATAG
Celera SNP ID:            hCV2960027
SNP Position Genomic:     10615
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,39|T,1)   total(C,72|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:42251):
GGGCAGGAAACACATTTACCAAAGAGAAAGCCTGTCTCTCACGGCTCCCCTCTGCTGCCCAGTTTATCATCCTTGTGATTGACAGCACGGACCGGGATCG
K
CTGCTGACCACTCGGGAGGAGCTATATAAAATGCTGGCCCATGAGGTAAGCCCCCTGCAGTTGGGAGAGGGCCCAGTGGTACTAGCTGTGTGCCCTCAGG
Celera SNP ID:            hCV2960028
SNP Position Genomic:     10485
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,11)   caucasian(G,40)   total(G,65|T,11)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42252):
GGACGCAAAGCTGGGCGACCCTCCTTTCTCCCCGCTAAACGGAGCCAGCGGCGGGGATGGGGGGCTGCTGCGAGTTTCCTGCGATTGTGACTTCGCGTTA
K
GCTCTTTCTCTAAACACCGTCTCTTGGCAAGCCCCGAAGCGCCCCGGGCCTTTCAGACACTTTTCTAGAATGTGAAGGGAGGTGGGGGCTCAGCTGTCTT
Celera SNP ID:            hCV2960044
SNP Position Genomic:     6343
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,7)      total(G,5|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42253):
TGAGGCTGCATGCTTTCATTTCTCTGGGGCTGACATCTGGGCAGTGCAGAGACCAGTGGGGAAACAAAGAGGGCAGGAAACACATTTACCAAAGAGAAAG
S
CTGTCTCTCACGGCTCCCCTCTGCTGCCCAGTTTATCATCCTTGTGATTGACAGCACGGACCGGGATCGGCTGCTGACCACTCGGGAGGAGCTATATAAA
Celera SNP ID:            hCV2960029
SNP Position Genomic:     10415
SNP Source:               Applera
Population(Allele,Count): african american(C,24|G,4)   caucasian(C,36)   total(C,60|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:42254):
AGCGTCCCAGAGGGTTCCCAGGTCAGGTTGGTGACGTGTGGGGCTTCCCTAACTTCGTAGGCAAAATCTGCCAGACCCTCCCGGGGGAGCGGAGCTCCGA
R
TACCAGGGCCGACTCCGCTCCTGAGGCCGCTGAGCCCTCCTGCACCTGTCCGGCCCGGGAAGTGCCATGGGACAGCTGATCGCCAAGTTAATGAGCATCT
Celera SNP ID:            hCV2960045
SNP Position Genomic:     5935
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,15)   caucasian(A,24|G,4)   total(A,29|G,19)
SNP Type:                 TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,10)      total(G,10|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:42255):
AAAGTTTGAGGAGCCTCCTCTAAGATGTTTCCCTTCTCTGGGGTCCAAGCCAGGGCAGGGCTTAGTCTCACTCCTGTCTTCATTCCCCAGGGCCCAGCAC
R
GGGCCTGGCTCCGAGCAGGTGTTTGGTGAACCTGGGTGGACTTGTTCTGAGTTAGATTCAGACTGCTTTGGGAGTAGAGCATTTGGGGGCCAGAGTTGGG
Celera SNP ID:            hCV526003
SNP Position Genomic:     8795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 206
Celera Gene:                 hCG31497 - 83000099460680
Gene Symbol:                 AGL
Protein Name:                amylo-1, 6-glucosidase, 4-alpha-glucanotransferase (glycogen debranching enzyme, glycogen storage disease type III);GDE
Celera Genomic Axis:         GA_x5YUV32VY6P(3688994..3774928)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12366):
CAAGAGCCTTCCATTCTCCTGCTGCAAACTGTGTCACTTTGACAACAATTAAATTTTAAAATAAAATACCACGCAAACTGTGTCAGAGACTACTAGTTGT
CCACCAAAATTATTCTTTCTTTCCTGAACAACAAAACCTGGGTGTTAGCTAGACTCATTGCTGCCTACATAAAGGTTACATTTGTATGTACATTGGGATT
AAGTTTTAATAAACATGAGACAAGCAGAAATGTACAGTATTTTCAATAATTATCCTTAAAGGAAGAAGGTTCGCCCTTCTTCTTCTCTTCTTCCATCCTG
ATGCCTGAATTTGGATATGACAGCTGGAGTTCTGGCAGCCTTATTGTACAATGAAGATGAGATCCACAACACAAAAGGGAGGAAGCTATGGGCTGAAAGG
AGCCTGGGTTCCTGATGACTTTACAGAGCTGCCTCACCAGCTTTGAAGAGCTTACCTCTAGCCTTTTTTTTTTCGAGACGGAGTCTCGCCCTCCTGCCTG
TCGCCCAGGCTGGAGTGCAGTAGCATGATCTCGGCTCACTGCAGCCTCTGCCTCCTGGGTTCAAGGAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGA
ATACAGGGGTACACACCAGCAGGCCCGGCTAATTTTTGCATTTTTAGTACAGACAAAGTTTTGCCATGTGGGCCAGGCTGGTCTCAAATTCCTAACCTCC
AGTGATTTTCCCACCTGGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGGGCCCAGCATCCTCTACACTTTTATGTGAGAGAAAATATGTGAG
AGTGGCTCTTATTTAAGCCACTTTTGTCGTGTGTGTGTGTGTTCCTGCCATCTGCAGCTGAGGTGATGCTAACAAATACAGCAAATCAGCTTGAAGTCCC
CCTTTCCTGGTCCTTTCTCTTCAGCTATACTGCCAACCCAAAGCGCTCATTTATGGAAACTCTGGAGCTCACAATTTTAACAAGCTGCCGAGACCACCTC
GGTAGGAGAGAACTTAACCCAGCGGTACTAGAGGAATTAAAGACACACACACAGAAATATAGACGTGTGGAGTGGGAAATCAGAGGTCTCACAGCCTTCC
GAGCTGAGAGCCCCGAACAGAGATTTACCCACATATTTATTAACAGCAAATCAGTCATTAGCATTGTTTCTATAGATATTAAATTAACTAAAGTATCCCT
TAAGGGAAACGAAGGGATGGGCCGAATTAATTGAATAGGTTGGGCTAGTTAACTGCAGCAGGAAGACGCCCTTAAGACACAGATCGCTCAGGCTTTTGTT
TATGGCTTAAGAATGCCCTTAAGCGGTTTTCCGCCCTGGGCGGGCCAGGTGTTCCCTGCCCTCATTCCCGTAAACCTGCAACCTTCCAGCTTGGGCGTTA
TGGCCATTATGGACATGTTACATTGCTGCAAAGATTTTATTTATGGCCAGTTTTGGGGCCAGTTTATGGCCAGATGTTGGGAGGCTTGCTTCCAACAACA
AGCAGCTAAATTTATTTGCAAGAGTAAATGATTTCGTTTTTAAATTGGGGCCAAACAACATTTTAAAAGATCTACTCTAAGAAAAAAGGAAAGATCACCA
CCAAAAAAAGCCTCTCGCGTGTCCTCCTGTCATGCATTCAAAGCATTCCATACATTGTTTTTGACTAATTTATTATATCAATTATTAGGAATTTTTAAAG
GACTTTTCCTATGCAAACTCTAAGAGCTCAAGTTTTGTTTTGAATAGAAATACAACTATATTTACCACTATTTATGTACATCTCAATACATTTTCTAATA
AATATTTATTGTATACTGACTAATCCTCATTTCATTCTTAGGTTCTGCCTTTTTTTTGTTTTCTAATTTGGGCTGAAACAATTACGCTCTGATTTTGCTC
ACTGAATTCACTCTTATATCCCCTCTTCACAAAGTAAGAAACTTTCTGGAAACTTTGGCCTCTGCCATGCACTGGGAACCTCCTCTTCATCTAATTTGTC
TGACTACCATCTTGAACCCAGCAAGGACAACTAGATGTGACCCCTTCTTTTTTAAAAAAACTATTATTAAAAGTCTATCATGTGCTAAGTGCTAGAATAG
ATGCTTCAAATGCTTTCTTTTTTTCTTCTAATCTTCATGCCAAATTTGCAAGTGAGGTCTTGTTCTCTCCATTTTATGGGTGATCAATCGTGATTCAGAG
TGATTAAAACGAATCCAAGGTTTGTTTGCCTCTAAAGTCTGTTTTCTATCTCACTTTAAGAAAATCTCTCTCTGATTTTCCATACCTCTGTATCATTACA
TTCAAGTCTTCCACTTCTCCAACTTCAACTCTATTTCTTTTCCCTGCTTCCCTTTTGCTTCTCACTGGCTGTATCTGGATATTTCAAAAGTACAGAATAA
GTTGTTCAATTTAGAAGGGATTCTGAAAACACAAATCCAAATTTTACAAAGTAAAATTATGACATGATAATAATGGTGCACTCTGAAATAAAGTGCACAG
AAAATGCCAAAGAATATAAAAACCAAATATAAGGCAGCCCCATCCATTTCAGATCCACAAGGTCACAGGATTAGGACCTAATTATAAATAATAACCCAAA
TAACTCTTTTCCTTTCAGAAAGCATACATACATACACACAACCCTGGAGAAAGTCTTTTCCAACTACAGTCCTCCTCCCACTCCCCAAATGCATTAACTT
CAATGTTTTAGAAAGCACTAGAGTCACTGCCAAATAGTTGAGGTTATCCATCAGATGTTCCCCAAGGTGAGCCTTCTCCTGACAACTACAGCATGAGATT
ATTGTGTATATATAGATCACTGTCATGCACAGGACAGGCACATGACAAATGTGCATTAAAATGAAGGCTGCACATGGCACCACTGTAGCCCTAGACTGCA
AACTCATTGGCATTCCAAGAACTTCACAAATAGCACAATAATGTGACTTTTCTTTTTTAAAAAGGACACTATGTAGCTTGTAAAATTAATCTTAGAGGCA
CATCATATTAATCATGGTTCCATTACTTAGCAGTCTTCATTTTCATTCAAAATATGAAATTTCCAAGATTAAGATGATTTGGATTTACAAATCTTGTAAA
ATTCAAGCATTTGTATGAGAATAAATCACTACTAAAGGAATTGATGTCATCAATATCTTTTACTCCTTATATCTAATTGCAACACTGGGCATTAAAGTGA
GAGTTTTACTGGAGGAAGGACAGCAAGAAAGGCTAATTTTGGAGCCCTGGAGAACAGTGATCAACAGGAGGGCAGTGTAATGAGATAGTCATAGGAGAGA
CTGAAAGTGGGAGGGGGCATGGAAAGGGAGAACTTGAAGACAAACATAAATGTGATCTGTTTTCACAACATGGTCAGGGCCTCACTCTGCTAACATTTGT
ATGTACGCTAGTACTTAGTCTCTATCAGGCACAGTTCTAAGCCCTCATTTACTTAACAATAGATACTACTTTCATCCCCATTTTATAGTTGCAAAAACCA
AGGCCCAAAGAGGTTGAGTACCATGCAAAGCTTCACAGCTAGTTAGTGGCAGAGCTGGGATTCAACACCAGGCACCACTTCATAATCATGAATTATCATT
TTACACAGCATGCAATCTAGAACAATCACTTTCAATCTTGTTTTTAACCATAATCCTTCCAGTAAGAATACATGACTCAGTACACCAAAACATAAGTAAC
AGAAATAGAAGTTTTGTGAAATAATACTTTTACCAAATGTAATGCATTTGGTAGTCCCAGCTACTGGGAATGGATGAGGAAGGCTGAGGGAGGAGGTTGA
GGCTGCAGTGAGCCATGATTGCACCACTGCACTTCAGCCTGGGTGACAATGAGACCCTGTCTCAAAAAGTAAAATAAAATAAAGTAACTTTTTCTATTGG
TTATATGTTGAAATGATGCCTTGGATATATTAAGTAAATTATATTGCTAAAATTAATATTACCTTTTTCAAAACTTTCTTTTCTTTTCTTTTTTTTTTTT
TTTTTGAGACAGTCTCGCTCTGTCACCCAGGCTGAAGTGCAGTGACATGATCTGGGTTCACTGCAACTTCCACCTCCCAGGTTGAAGCGATTCTCCTGCC
TCAGCCTCCACAGTAGTTGGGACTACAGGCATGTGCCACCATGCCTGGCTAATTTTTGTATTTAAAAAAGTTTTTTTAATGTGGCTACTTGAAAATTTTA
AATGACCTATGTGGCACTTAATATTTCTATTGGACAGTGCTTTCTGCTCATTCAGGCCAAAAACCTTGGAGTCATCCTTGACTCCTTTCTCCACCAATCC
TGTAGGTTCTATCTTCAAAATAGTCCAGAATTCAGCAACTACACCACCTGCTATACCACCTCCCCCCCATCACCCCCAACCCCCCGACACAGAGAAAACA
CACACAAGTCACTTTCTCTTGCTTGAATAACTAAAATAGCTTTCTAACTGGTCTCCTTGCTTCCTTCCTTGCTACACTCTACAGTTTATTCAACTATTTC
CCATAAAGTTGCGGAGCGATCCTTTTAAAAGGTCAATCAGATTATGTCACTCCTCTGTTCAAAATCTCCATGGCTTTTTTTCCAAAGTTTAAAAGCCCAA
GTCCTTGCAATGGCCTACAAAGCCTTAAAAGATCTGGTCACCCGTCTGTGCTCCTGATCCCTTCTCCTGCCCCATCTGTCTGTCCTAATCTCTTACCACT
CTCTTCTTCACTCAGCTATGGTGATCTTCTTCGGTTCACCAAGTATGCTCCTGCCTCATGGCCTTTGTACTTCCTATACCTCTACATGTAACCCTCTACC
TTAGACTTCTTCTTTCTCGCAGTTTGGCATCACTTTACTGAACGTTATATTTAGAAATGCAAACCTCTCTCTGCTTACTCTTCCACACTTCCCCCTTCCT
ATTATATATAGGATATAACATATCCTTCTTATTATATAGGATATATTATATCCTGTATAATTTATTTAATTTATCTGTCTCCCACCAATAAAATGTAGGA
GTTCCTTGAGGGCAGTGACTGTTTTATTGCTGCATTCCCAGCACCTTATGTGCCTGGCAAATAGTAGGGGCCAGAAAATGAGCTGTGGGTTCCCAAAGTC
AGTTACGGACCATTTGCAACTAGCCATTCTCAGAAATCTACAGAAATAAACAAATACTTCAGTATGGGGTTTTTTTTTTTAACTTATATCCTCTTTGGAC
CTACAGTCATTCCACAATAAAGAATGCAAGAATCTTCTCCACACGCCACAAGTCTTAGTTAACCAAATCTTCTGTCCATTTTCTCATAACCATTAGGAGC
CCTCCAAAAGCCCTGGAAGATGGGTTTTCCTTTACCCTCAGGCATTAAATCTCCTTAAGCATCTGCAAAAAGTTCTGAGTTACTGGCCTAACATAAGTGC
AGCTTAATCTCAGACGATCTCCGGGTCTATCTAGTGTACATGAGGTACACCCGGACACCGTTAAGTATCAGTGGTGTTTGCACTCTCGATGGTTTGCAGA
CTGGCCACACCTTACCTACTGGGTCTGCATTCAGGAACATGTGTCCTGTCTGTTAGCACTAGAAGTGATGGACACGTGTTGGCTGGAATGTCAAGGCTGT
AGCCAGGCCCCTTATTTTAGACACTTAGAAATCAGGACTCTGAGAACTTAGGCCAAGTAAAAATTATCAAAACAAAGAAACAAAACACGTGGTGGCACAA
AAGACACCAGAAGCCAGGTCGTTTGCCCCTCACCATTCAGCCCTTCCCAGCAAAAGATCCTACTGTGCAGCTCAACCTAGCTCGCAGCCGGTACCGCGGG
ATTTTAATGTGCAACTGTGAGCTCGCAGGCTGTTAAAGGAAGGCCGCGCCTTGGCCGGTGCACCTTCCCCAGGGCAAGGAGAAAGCGCCGCTCCCGGCCT
CAGCCGCAGCAGGCTCCAGGTCCCCCGGCCCGGAGCCGACTGAGACGGTGCGGTGCCCACGCTCTCGCGAGACTAGCGGTCGGGGCGGGCGGGTCGAGCC
TCCCGGAAGTGGGCCAGAGGTACGGTCCGCTCCCACCTGGGGCGAGTGCGCGCACGGCCAGGTTGGGTACCGGGTGCGCCCAGGAACCCGCGCGAGGCGA
AGTCGCTGAGACTCTGCCTGCTTCTCACCCAGCTGCCTCGGCGCTGCCCCGGTCGCTCGCCGCCCCTCCCTTTGCCCTTCACGGCGCCCGGCCCTCCTTG
GGCTGCGGCTTCTGTGCGAGGCTGGGCAGCCAGCCCTTCCCCTTCTGTTTCTCCCCGTCCCCTCCCCSCGACCGTAGCACCAGAGTCGCGGGTCCTGCAG
TGCCCCAGAAGCCGCACGTATAACTCCCTCGGCGTAAGTGCTAGGAATGCCGCTGGCCTCGCGGGGAAACGCATTCTTTCTATCTATAGCTCGCTCTGTA
CATCTTCTGTCTACGGCAGCTATTCCAGAGGCAACAACTGCTTCCCTCTGTTCTCATCTCCCCATTGGTGGCTGGCGACCCGAATTTGGGAATGGGGAGA
TTGCCCACCTGTTATCTTTGAGCAGACTAATCTCTTGTAAGCAGAAGTGCCATTCGGAGTCTCCAGAGCCCTGTGGCTTGGGGCTGGGAATGTCCCCCTG
ACTTCAGGCTTTCCTAAGTGTATTGCTTTTCTCTGAGAATGGTCTAGGTTTTTAATTTTTTAATTGTAAGAATCTGTAATACAGCATTTTTATTTCGGTC
TTATTCGTTGTGCTCAAAGGCAGGAAACAACTATTAATTTGCCTTCTCGAATCTTAATAGTTATAAGATTCATTCTCTTTCATTGCTCTGCTAGGCATAA
AACACACTTCGAACATGTAAGTGCCGCTGTCAGCTCTGGAGAGTTTAAGGCAATAGTTATTTTCGATATTTTAACTCCTTTTTGTTTCATAGGGGTAACT
CATTCGACTGTGGAGTTCTTTTAATTCTTATGAAAGATTTCAAATCCTCTRGAAGCCAAAATGGGACACAGTAAAYAGATTCGAATTTTACTTCTGAACG
AAATGGAGAAACTGGAAAAGACCCTCTTCAGACTTGAACAAGGTCAGTAGCAAGTTGTTTTGATTTGCTCATTTGCGTCTTTTAAACTTTTAATTCATTG
GCAGTCCTGTTAAATGTTTTAAAGCTYTAAGATAAATATTATTTCCAAGGGTCTAAAACTTGATTTGTGCAAAGATGGTGCTGTGTTCTCCATATATCAC
TAATTAATGTTGATTTGAATTAAAAATATTTTATATCCCTCGTGTTAGGATAAGGATAAAATAGTTCTCTTTTCTCTGCGTACTAATTCCCACTTAAGAT
TGAAGTTAAATATATGATCAGAAGATTGCCCATATTATTTCTAATAACATTTACTATTAAAACTTGGTAAATTACTTCATATGTAATTTTGCTTTGGGTA
TGCATGTAGTTTTGCCTTTGTATAACTGTCTCTTTTCCTTTGTTGAACCTTTGAATTGACAAAATAGATTGCAGCAAAAAGTATAGTAAACTATTGTTTA
TGTATATCAAAAACTTCTCAAATGTGGAGTAGGTAAAAGCTGAAAATATTTTCTTAGCAAATAAAAAGTGCAATAACTCATCTGGTTATGTTGAACTATA
TATAGTTGATCTGTATTTAAAAGATCAAATTACTTTTCTACAAGGCTAGTTAATAGATGTTTTATTTTCTTAGCCTTTGTAATTTTTCAACATTGAAGAA
GTGTAATATATGAAAAATCCAGTCCCCCTTATTAATGTACCAAATGGATGTTGCTRGTCATAAACATTTCAAAGGAATTTTTAAATTTCGCTAATGTTTT
AAGAATTAAATTTTTGAAAAAAATTTCACACATACAATGTGATATCTTCATGCCAAATCCGCGCCTTTTTCCAACTTTGGCATTTAAAATCACTGAGTAC
CTACTCCATTTTTGGCTTTCCTGACTCTGCACTTTTCTGGTTTTGATTTTTTTTTCCCCCTCCCCTGTTGCATATTCTTGTCAACTTGGTGTCTCTTACT
AGGCTCTCTTCCTTTCACTTTTTAATTAATTATGGGTATCTGCTAGGAATTCTTTTTCTGTTCTCCTTCAAAGAATTAGTTACACAGTCTCATGGCCTCA
ACTGTTGCCTCTGTGCTAATGACTACTTTTGGAGGAAAAGCCTTGAGCTTTCTTCTTCTTGGAAGCTTTCAGCATTTGATGACGGGTAGATCTAGAGCCA
GAATTCTCCTGGCTCTGCTGCTAACAAGCTGACTTGGGGCAAGTTACATTAATTCTGAGCATTCATTTCTTTTTTTTTTTTTTTTTTTTTCCTTTTCTCT
TTTTCTGAGACAGGGTCTTACTCTGTTGCCCAAGCTGAGTGTTGTGGCATGATCATGGCTCAGTGCTGCCTCAACTTCCTGGGCTCAAGCAGTTCTCCTG
CCTCAGCCTCCCAAGTAGCTGGGACTGCAGGCATACATCACTATGCCCCGCTAATTTTTTTTTTTTTTTTTTTTGTAGAAACTGGGTCTCACTATGTTGC
CCAGGTTGATATTGAACTCCTGGACTCAAGCAACCCTCCCTCTTTGGCCTCTGAAAGTACTGGGATTACAAGCATAAGCCACCGGGCATGGCCCCAATTC
TGAGCATTAATTTATTTATTGGTGAGATGAAAGTGGTAATTTCTGTTCTTCTACCTTTCTAGGTTTTGAGACTCAAAATTAATAATACATGAATTTTTTG
TGATAAAGCCCTAAATAAATATAAGGCATTGATATGAATCACTCCATGTATTCCCACCCTGGACCTTGGCTTCAACCTGATATTATGCAATAGAATAGTA
TTAGGATAGCTCAACTTGGATATGCTTAAATCTAGCATGTCCAAAAATATCCCCTGCCCATTCTCGATCCTTTATTTCTCAGCTTCCCTGTTTATTTCGT
GGCATCTCCATTTTTATAGTTCCCAGGGTAGAAACCTTATATTCTTTGATGATTTCTTCTCTTTTCCTGCAGTCTCTTTTTAAGCTTGCAGTTTCTTTCC
AAATATCTCTGATTGCCTGTCTATTCTGTATGGCTGAATATAGATGCCAGAATAATCTTATGCAGTCTCTTCCCTTTGTTATTAAGTGGTATGTATAAAA
TCAAATTTAAATACCTCTGTCTGACTTCTAAGACATTCTGTAATGAGACTACACCTTCCTTAGCCAAGATTGTATCTCATTCTCCATCATTAATGTCATA
GATCTTTACAGTTGCCCAAGTCATTCCTGTTAATTCCCTTCTCAGCAGGYTTTCTCATGCCTGTCCTTATACCCGTACTCCCATCAGATTCCTTTATATC
TGTTAAATCTCATTTACTGTCAGTCTATGTGTTGCCTAAGTTTCAACTTTCAGCTAGAATATCACCTCCTTTGTGAAGTCTTTCCCTAATTTTTCACTGT
CTGCTTCCTTTGATTTCCAATTACACAATGAGCACAGAACTATTAAGTGCTGAATAATGAAGYAGTGTCTAAAGGCTTGTTAGTCTTACAGTGTCAGACT
AGGGTTTAAAATCTGTGAGAATTGATGAGGGCAGGTGACTCACACTTGTAATCTCAGTGCTTTGGGAGGCTGAGGCTGGAGGACCACTTGAGGCCAGGAG
TTCATGGTCAGCCTGGACAACATAGTAAGACTTTATCTCCACAAAAAAGAAACAAAATTAGCTGGGCATGATGGTGCTTGCCTGTGGTCCCCAGCTACCT
AGGAGGTTGAGGCTGGAGGATCTCTTGAGCCCAGGAGTTAAAGGCTGTAGTGAGCTATGATCCCACCATTGCACTCCAGCCTGGGTGACAGAGTGAGACC
CTGTCTTTAAAAAACAAAAATAAAGGGCCGGGCGCAGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCCGAGGCATGTGGGTCACCCCAGGTCAGG
ATTTTGAGACCATCCAGCCTGATCAACATGGTGAAACCCCTTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGCATGCCTATAATCCCAGCT
ACCTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGATGCAGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGCAACAAGAGCA
AAACTCTATCTTAAAAAAAAATAAAAAATAAAATAAAATCTGTGAGGATAGGGACAGCCTTACAAACTTAGTGCAGTGTACTGCTGATTGATTACTAGAA
CTCTAGTTAAAACTAGCAAAAATTGTAAAAGCTAACCTATTTGAAGAGGGAAATTGAAGGATTTATGAAAAAAGAATGATGTGGTTGACTTTATAACTCT
GGTTAAAACCGGTAAATGTATCCAAATGTTATAAATGAGAATGTGCCACCTTTTTTTGCAGTAATGGTGTGATCATTTTGTTTTAGAAGATAATTTGAAG
CCGGGTGYGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACTATCCTGGCTAACATAGTG
AAACCCCGTCTCTACTAAAAATACAAAAAAAATTAGCCGGGCCTGGTGGCGGGCGCCTCTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAAAGGCGT
GAACCCAGGAGGCGGAGCTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGATGCCGTCTCAAAAAAAAAAAAAAAGATA
ATTTGAAATGTGAAAGATGAGTGGAAGAGTGGTAGAGAAGGGACATTGGAGACAAGAAGCATTGAGAAGGCTATTTTAAAAACACATCTGATTAAAGAAA
AGGATTGAACAGCCTGAGTTGAAAAAGAGAGGACAAGGCCAGGCGCGGTGGCTCACACCTGTAATCTTGGCACTTTGGGAGGCCAAGGCAGGCGGATCAC
CTGAGTTCAGGAGTTTGAGACCTGCCTGGCCAACATGGTGAAACCCTGTCTCTCCTAAAAATATAAAAATTAGCCAGGCGTGCTGGCGGGTGCCTGTAAT
CCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGATGCGGAGGTTTCAGTAAGCCAAGATCGTGCCAATGCACTCCAGCCCGGGCAAC
AGAGCGAGACTCCGACTCAAAAAAAAAGAAAAAAGAAAAAGAGAGGACAAAGTATGAGTTATTTTCAAGTTCAGAGGACTTGGTAACCAATCAAATGTGA
GGAAAAACTCTGGCAGTTTTTGGCTGTTTCATATTTAATTGGTCATCAAAGCCCTCATATTTCTTTCCTTCTCTCTTTTCTACAAGAAGGAATTCCTCCT
CGTTTTTAAGACTGATATTTCTATAGATTCTTCCAGTTCAACAAGTACAAGAATAAATAATGATCTTTTCTAGACAAATCATAGCTTTTTCGCTTATTTC
CTATCTCATTTAGTGGTAGAATAATGAATAAAATCAGGCCGAGCACGGTGGCTTACTCCTGTAATCCCGGCACTTTGGGAGGCCGAGGCGGGTAGTTGAC
CTGAGATCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACCAAAAATACAAAAATTAGCCAGATGTGGTGACATGCACCTGTAGT
CCCAGCTATTCAGGAGGCTAAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCACACCACTGTACTCCAGCCTGGGCAAC
AGAGCGAGACTCGGTCTCAAAAAAAAAAAAGAATAATGAACAAAATAAGTACTTCCCAAATCTGAAATTCTTCCATCTTTTAAGTAGGTTGATGAAATTT
ATAATTTTTACTATTTTTTAAAGAAAATATTTAGACATAAAGGTTCTTTGATTAGAAGACTGAGTTTCTATAAATTGAGTGGAGGGGAAAAGATAGAACA
TATTTATTTACAATAATAGTTTAATCACTCATTATGCTAGTTGCCTACAAGAGAGACATGGCTAATGCAAGTTAAGTATCCTAGCATTAGTATGAGGAAT
AAGATAGCCACACCATGTACTGCTATGACCTCAGCTAATTTTAGCAAACTGAGTCATGGAATCTGACCTACTGTAGGCTCTCTGATGTTTCATTTACTGT
ATATAAAAATTTTAGTTTCAGTGATTTGCATTAGAGGTCWACAGAGTGGCTATGTRTCCCTTGGGGTATGCGCTGATATATCTATTGGGCTACAGAAAGA
AAATATAACATCCCTTCCTTCCTTCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTTCCTTCCTCCCTTCCTCCCTCCCTCCCTCCTTCCTTC
TTTCCTTCCTTCTTCCCTTTCTTTTCTTTTCTTGTATTTATTTATTTATTTATTTATTTTTATTGATCATTCTTGGGTGTTTCTCGCARAGGGGGATTTG
GCAGGGTCATAAGACAATAGTGGAGGGAAGGTCAGCAGATAAACAAGTGAACAGAGGTCTCTGGTTTTCCTAGGCAAAGGACCCTGCGGCCTTCCACAGT
GTTTGTGTCCCTGGGTACTTGAGATTAGGGAGTGGTGATGACTCTTAGGGAGCATGCTGCCTCCAAGCATCTGTTTAACAAAGCACATCTTGCACCACCC
TTAATCCATTTAACCCTGAGTGAACACAGCACATGTTTCAGAGAGCACAGGGTTGGGGGTAAGGTCATAGATCAACAGCATCCCAAGGCAGAATTTTTCT
TAGTACAGAACAAAATAGAGTCTCCCATGTCTACTTCTTTCTACACAGACACAGCAACAATCTGATTTCTCTATCTTTTCCCCACCTCTCCCCCTTTTCT
ATTCCACAAAACCGCCGTCGTCATCATGGCCCGTTCTCAATGAGCTGTTGGGTACACCTCCCAGACGGGGTGGTGGCTAGGCAGAGGGGCTCCTCACTTC
CCAGTAGGGGCGGCCAGGCAGAGGTGCCCCTCACCTCCCGGATGGGGCGGCTGGCCGGACAGGGGGCTGACCCCCCCACCTCCCTCCCGGACGGGGCGGC
TGGCCGGGCAGAGGGGCTCTTCACTTCCCAGTAGGGGCGGCCGGGCAGAGGCGCCCCTCACCTCCCGGACGGGGTCGCAGCCGGGCAGAGGCGCTCCTCA
CATCCCAGACGGGGCGGYGGGACAAAGGCGCTCCCCACATCTCAGACGATGGGCGGCCGGGCAGAGACGCTCCTCACTTCCTAGATGGGATGGCGGCCGG
GAAGAGGTGCTCCTCACTTCCCAGACTGGGCAGCCGGGCAGAGGGGCTCCTCACATCCCAGACGAAGGGTGGCCGGGCAGAGACGCTTCTCACTTCCCAG
ACGGGGTGGCGGCCGGGCAGAGGCTGCAGTCTCGGCACTTTGGGAGGCCAAGGCAGGCGGCTGGGAGGTGGAGGTTGTAGTGAGCCGAGATCACGCCACT
GCACTCCAGCCTGGGCAACATTGAGCACTGAGTGAATGAGACTCCGTCTGCAATCCCGGCACCTCAGGAGGCCGAGGCTGGTGGATCACTCGCGGTTAGG
AGCTGGAGACCAGCCCGGCCAACACAGCGAAACCCCGTCTCCACCAAAAAAATACGAAAACCAGTCAGGCGTGGCGGCGCGCGCCTGCAATCGCAGGCAC
TCGGCAGGCTGAGGCAGGAGAATCAGGCAGGGAGGTTGCAGTGAGCCGAGATGGCGGCAGTACAGTCCAGCCTTGGCTCGGCATCAGAGGGAGACCGTGG
GGAGGGGGAGGGGGGAGAGGGAGACCGTGGGGAGGTGGGAGGGGGGATAGGGAGACCGTGGGGAGGGGGAGGGGGAGGGGGGAAGAGGGAGAGGGCTCTT
TTCTTTTCTCTCTACCTGTTTTAGTTTTTTAAGTCTGTTATATGTTAGCAACATTGAATTACGTTAATATATGAATTATGCTCTCAGTTTGTATGTCAGA
TAAGTTACAAACAAAAAAGGCATACTCAGAAGAAAACGTAGAGGTTGTAGGTCTGGAAGGGGTTGACAATCACACCCTCATTTGTTTGCAGTATGTTGCC
ATGCATTGCACTTTTACTTAAGCTAGGTTAAGTAGCTTTACGGGTTATATTATCTTAAATAACAGTCTCTATATTACTTTGTAAGGAGAGGTAGAGTAAC
CAAGAATAGTTCTTTTACCTCACAGGAGTGATCGAACTTAAAAGATGAGTTAGAAAGTGTTTGAGATTCGTCCTTTTCAGAAATAACAAGTAGCATTAGA
TAGTATGATACTTAGAAAATATTTTCAGAAAAAATAAAAACTTAAGTCTTTGATGTAAACATGAGTGAGAAAGTTAAGTGCTTTTTTGAAGGAAATTGAT
GCTTGGAGCAGAGTTTGGCACATATTTTCCTGCAAAAGTTCAGATCGCAAATCTTTGCAGCTTTTCAGGCAATGCACTCCCTATTGGAGCGACTCAACTC
CCATTGTAGCAGGAAAGCAGCCATAGGCAAACATACATGAATGGATGTGGCTGTGTTCCAGTAAAACTTCATTTACAGAAATGGGGATTAGGCTGGATAT
ACTTTGCCAACCCTTGCTATAGTGAAAGCATTTTGAATATATATTTTTAGAAATGCTTCTTTCATCATTATATGATTTTACCCAAAATAAGTAGAACTTG
AAATCTTTGAATCACTTTATTACAAAATATTAAAACCAAGACTTTTTAAAATAATGAAATTTATTTAGTTACATTTTCACTGAGAGATATTATCAATATT
AATTTTTAGTGAGAGCCAAAAGGTTTTTTCTACCCACTAATAAATAAAATGTATTATTTAAATATTATTTATTTCATTTATATCTTATCCCATTAAGTTA
ACTTTTATATTTTATAATTTACATAATCTATGAGAACATCATACATATATATTATATAAATAAATGACTTAGCTTGGGAATTATTGGGGTTTTTTCCTGA
AGGTAGAGCACTGATCCAAATACTGTTTTGGAGATTTTAGATGAGTTTTAACCTTTGCTCTGCAAGTTCTCTGAATACTTGTGTAATTATAAAAACAGTA
TTTGTATAAACTTAACAGGGGACAGGTTGTACACATATACCCAGACAGCTAATCTCTGCTGTTTGTACTTGTTCAAAATGACACTATTTCTCCTAAAGAT
AAATTTAGTCATTCTTGTGAGATGTAAATGTTTATGCTTCTCAGTCACTAAGTATTTTACTTCATGTTTTAATTCTTTCTGTAATTATTTCTTAGTCTAT
CCCTTCATAATTGTAGSTCTAATTTTAAAATGTTTTCCCTAATTATAAAATTATGCAAATGTATAAAAAGCATTTTTTCTGTGTTTTTTTTTTAATTAGG
ATTATACTATCTAAACAATTTTGTAACCTGCCTTTTTCCYGTTTGTAGTAGTATTATGGTGTATGTACTCTACCTCCCTGCCTACTGCCATGTTTCAGCC
ATACTTTTTTCCAGAAGATATTTTAAAAGCTCTACATAAATGTGTACAATGTAACAAAATAGAATAAATTAAAAGTGGTTATTACATTTTTTTTTAATGG
AGTCTTGCTCTGTCACCCATGCTGGAGTGCAGTGGTGCGATCCTAGCTCACTGCAACCTCTGCCTCCTGGGTTGAAGCAATTCTGCCCCAGCCTCCTGAG
TAGTTGGGATTACAGGTGCACACCACCACACCCAGCTATTTTTGCGTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTTCTGAC
CTCAGGTGATCCTCTCGCCTCGGCCTCCCAGAGTGTTGAGATTACAGGCGTGAGCTACTGTGCCTGGCCAAATGTCTTTTGATAACATGATTTATAATGG
CTTTACAATATGCCAGCTTGTAGATTTACCATAATTTATTTAATCACTGCCAATCATTAGATATTTAGGTTGTTGTCAGTTTATTTCATTTCAATAAATG
AGGCTGTGATAAATATCCTTATACATAATCTCTGTTTACATCACTGATACTTTTCTCAAAAAATCTATRTAAAATTCCTAGATCAAAAAATATAAACATT
CTTAATATATTAATGCCAAATTGTATTATAGAAAAAGTACATTTAGTTGCTTAGAGAAGAAATTCTTAGTTTCACTATAGAGCATTCTCTTAGTGTCTTT
TACTGAAAWCTTTTGTTCACAGAAAATATCCCTGTTAGTATATCCTCTTTTATTACTTTGTTGGATGTTTAATAAGTCAAGGATTATAAATTATAAATAA
TATATATTAAATAGGTAAATATTAGTTTTTTTCCTCTCAAAGAAATTCCTTAGATATTAAAGATTTTACTCAGTGGAACTAAACTTTCCTGCCTCATCAG
TTATTATTGCCCATTATTAATTGAAAGTTATATTCGTGTTTAAAATTTATATGTATTATATTTCTAATAGACTTGACCATAGTCAGTATTTTYGTATTCT
AATAATTATAAAGAAGGTTTAAAGTCTGCTTTAAACCAACCAAAATGTTTCTTTCACAGTACAGTTTTAACTGTAATGTGCTTATTTGTTTTCGCTTATG
GCAAAATATTTGTAACACATTGCACAAGTCTAAGGTATGTTTTTTTAAAAATAACCTAACTTGGGCAAAAGTAGAAATGCATTGGCTCTCAGGATTACAA
GACAGCTTTAGTAACTAAACCATGAAGCAYAGGGATATAGGCAGTAGTGTGTTGGAGGTGCTTTTGCTGGCTYACAAGAGCTGATTGTGCACATCCCTTC
CCACTTCCACGTTCAATGTTGTCGTGTTGGTAGCTTAAGATTGCCCATGTCGGGATTATTTCCACCAGAAAGTCAGCAAACACTCCAAGTCAGAGGTTCC
CACCACCCTAGTCAGTTGCTAAATCTTTATTAGCACATCACTGGACTTGAGCAGATATCAGTCGGGTTCAGTTGCCTTCAGAACTCCTGTTAGAATCCTG
AATTCTGCCTCTATAGAGGTTGACTTCTGTCAGTGAAGACTAGCTTTCTCAGTATGGTGAGATAATAGTCCCATGGTAGCTCCCAAGTTTTACAGACTAT
CACATACTTTCTGACACCATAGAGAAACTAGCTTTCTCTGTTGCAGTTAGAAAAATACTAGAGAAGGTCTCTCCTCAGATGCCTGCCATTGGGTACTTAA
TTCAGGGGTGAGGATGGGGGATCATGGTAAATGGGGTTGTATAAGAATTTGCACATCCCAAGTTGCTATGTGAATAGGAATGCGTTTCCAGGGGAAGGAG
AAAGAGACATTACAGAGCAGACAGCTCTATGATGTTTACTATACTTGCTAAAATGTGAAATTCAGCTAAATTGGAATACAAAGTAGTGCCAAAACAGCAT
TAGGTTTGCGGAGTTATTTTAAACATAATTGAAAAATCAAGGTTTTTTAATACTTTAAATAAAACATCTGTTTTTCAATGTGGTAATTTAAGTCCTAYGA
TGAGTTTATTAACATGTGCTTTTTATTTAGGGTATGAGCTACAGTTCCGATTAGGCCCARCTTTACAGGGAAAAGCAGTTACCGTGTATACAAATTACCC
ATTTCCTGGAGAAACATTTAATAGAGAAAAATTCCGTTCTCTGGATTGGGAAAAYCCAACAGAAAGAGAAGATGATTCTGATAAATACTGTAAACTTAAT
CTGCAACAATCTGGTTCATTTCAGTATTATTTCCTTCAAGGGTAAGTCAGGTGTTTTGTTTGTGAGAAAAAAAGTTAATTTGTTCTGTAATTTGAAGTCA
CCTAACTTGTAAATGTTACTGTATGAACCATGGCAGTGCAATTTTTATAGTGCTTCCTTGAGATGCAAATAGAATATTCTTTGATTTCTAGGAGGTAATT
TTATGGTCCATTGCAGAGCTAAAGTATCAAGTAAATGTATTTTAAGTAACATMTTAAAATGTAGTAATTTCATGCAACCTGATTATAGGTTGCTGTTTAT
TTGCGTGCCCTTGTTATTACTGATAGGTTTTAGTATACTTATATTTCATTAAACCAACATTCTTGGATATTTTGTGTATTATACATGTAATTATGTAGAT
TGTGAAAGGGTAAAAGTAGCTTTTCCATTAAGTTTTGTTGCAACTTTTAAAATGATTTTATGYGCTTAGAAATAAATACATTTTATTTGGGACAATTAAC
CTTTTAGTTAGAGTCAGACTATATTATATGAGGATTTTTTTTCTATCACTGACTGAAAAGTTTTTGTTTTGTTTTTTCCCTTAGAAATGAGAAAAGTGGT
GGAGGTTACATAGTTGTGGACCCCATTTTACGTGTTGGTGCTGATAATCATGTGCTACCCTWGGACTGTGTTACTCTTCAGACATTTTTAGCTAAGTGTT
TGGGACCTTTTGATGAATGGGAAAGCAGACTTAGGGTTGCAAAAGAATCAGGTAATGTCAGCTTGCTTTCTTTTTCTTATTTAAAAAAATAAATGTAATT
ATCCTCTGTGATATAGATTTCAAAAGTTTTGTGTATTAGTCCATTCTCTCATTGCAGTAAAGAACTACCTGAGACTGGGTAATTTATAAAGAAAAGAGGT
TTGACTCACAGTTCCGCAGGCTATACAGGAAGCATGGCTGGGGAGGCCTCAAGAAACTTACAGTCATGGCAGAAGGCAAAGGGGAAGCAGGCATGTCTTA
CATGGCCAGAGAAGGAGGAAGAGAACAAAGTGGGAGGTGCTACRTGCTTTTAAACAACCAGATCTTGTGAAAACTCACTCACTATCATGAGAACAAGGGG
GAAATCCACCTCTGTGATCAAACACCTCTCACCAGGCCCCTCCTCCAACATCGGGGATTACAATTCGAATGAGATTTGGGCAGGGACACAAATCCAAACC
ATATCTTTTTGCCTSTATGTTTAATTTTGTTTCTTATTATTTAGTAATATAAGTAGATAGAACCATATTAAAAAAAAATTTTTTTTTTTTGAGACGGAGT
ATCACCCTGTCACRTAGGCTGCARTGGTGCGATCTCAGCTCACTACAACCTCCACCTCCCGGGTTCAAACGATTTTCCTGCCTCAGCCTCCTGAGTAGCT
GGGATTATAGGCACCYGCCACCATGCCTCACTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTTCTGACCT
CGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCTGCTGTGCTTGGCCCATATTACATTTTTGATACTTAACCATTTTTAACC
TATAAAAATGGCAAATTTTGTGGTTCAGCTTAAGAAATGAAGGAACTCCATAATGAAACACTTATCATTTCTAAGACTTTACCATATAAAAATCAGAAAT
AAGCTATTGAAAAGTGAAGGAAAATGTATTATCATTATGTATCATTTTAATTCAACAAACATTGGTTAACCATCTTTTGTGTAGAAGACATGTGCTACCA
TAAATACCAAGAGCAAAATGAAACTTGTGTTTCATTTTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTTCTGCCTCAGC
CTCCCGAGTAGCTTGGGACTGCAGGCGCCTGCCACCACGCCTGGCTAATATTTTGTATTTTTAGTAGAGACAGGGTTTCACGGTGTTAGGATGGTCTCGA
TCTCCTGACCTCATGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCCTTTTTTTTTTTTTTTTTTTTAAGA
CAGTGTCTCTGTCACCCAGACTGGAGTGCAGTGGCCTGATCTATTTTTTGTAGAGACAAAAGTCTCACTGTGTTGCCCAAGCTGGTCTTGAACTCCTGGG
CTCAAGYAGTCCTCTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGCAAACCACTGCAYCTGATCTCAATATTAATTTTCTGCTTTTAAGTTGGAT
AATACATGAAGAAAGGAATGAGAAGTTCACTGACATAACTAAAACAGAATACAAGTACTATGGAACATTAAAAGTAGTAGAAACACGTGTTGATATACTC
GTAGAAGATAAATTTACTACATGTTAAGTATATAAATTTTCTAATAGGCAGTGTGTGTGAATTTTTTCAAATATTATCTCATTATCTCTGTCTTGTATAT
GAGGACACATATCTTGAAAGATTTAAATAAACTTGCTTAAAGTCTCTTGTGGTACAGTTAGGATTTGAACCCAAGTGTTTGACCTCTTTTCCAGTAKCAT
GCTTGCCTTGCTATTTATAATTACTTAAGAAAGTTTAAATTTATATTTTCTTCATTTTAGSCTGGTTTTGTTTGTTTGTTTTTACAGTGGTCTTTCCTTT
ATTTGCTTTGCAGGCTACAACATGATTCATTTTACCCCATTGCAGACTCTTGGACTATCTAGGTCATGCTACTCCCTTGCCAATCAGTTAGAATTAAATC
CTGACTTTTCAAGACCTAATAGAAAGTATACCTGGAATGATGTTGGACAGCTAGTGGAAAAATTAAAAAAGGAATGGAATGTTATTTGTATTACTGATGT
TGTCTACAATCATACTGGTATGAGCTTCATTGACTGCCTTCATTAATTTTGATGAGAATTTATGCACAYACACATATACACACAAATAAGAGAAAGGAAG
AAAGAAAGRGAAAGGAAAGGGGCTAACATAAATTTTAAAAACACAAATGATGATTAGGTGTCCTTCYGTTTAAAAAATTAATATTTTTCCTTTCAAAGAA
AACATTCTTAATTGAGGATTAAGTCAATATATAAGTATCTTGCATCTGTTGCTTATAAATACAGGAGAGTGATCATAGAAGGAACATAATGATCACATAT
TTCAACTTACAGTACAGTAGTCCCCCCTTATTCGCAGTTTTGCTTTCTGAGGTTTCAGTTACCTGCAGTCAATCACATTTCAAAAATATTGAATATTCCA
GAAATCAGCAATTCATAAGTTTTAATTTTCATGCTGTTTTAAGTAACATGACAAACTCTCATGCCATCCTGCTCTATCCCACCTGGAATGTGACTCATCC
TTTTGTCCAGTGCATCCATGCTGTAAATACTACCTGTMCACCAGTTACTTAATAGCCTGCTCAGTTATCAGATAAAAAAACACAAAATATCAAAATATAT
ATATATATAGGGTTTCATACTATCTATAGTTTTACACATCCACTTGAGGTCTTGGAAGGTACCCCTAAGGATAAGAGGGGACTACTCTATTAATCCTTTC
CCAAGTAACTCATGGATCCTATATTAGCAGGAGCTCTGGTACTATAGTACTATAGCATATATGAAAAAACTGAATGACTTCTATTATTTGGAGAGAAACT
TATTAGTAAACTCTCAGAAGTTGTATTTGGAAATTATGTCTTCTACATGTTAAAAGAGCTTATTAAATTTAGTCTGTTTTGGTTCCTAAGATTCCTTAGT
GGTATATAATTCTATTAAAATAGATCAGATTTTTCCAGCTAGTGATCCTTGAGGAAATGGTTGCTCCCCTCACCTGTCAGAGGAGCTGAGCCTGGCCTGG
CCTAGCCTGACAAAGCGTGGCCATCAGCAGCTTTGGGTTTAACCCAGTTTACCTTACAAATGTTATCTTGTGTGTATGCTACAATGTAGAAAAGTTTGGA
AACCACTGATTTGCATATGTAAAGAACAAGAATTCTRGTTGGTACAAACATTTAAAAGATACAATCTGCTGTTTCATAAAACAGTTCTCCAAGTAACCAT
AGAAACTATGAAGATATTTAAAAGCTCATAGATCTGGTTCATCAATATAAATAAAAATCTCTAATCATAATGGCAAAGTTAGGTAAAGAAATAGGTACAT
TCTAAAATTTGGTGTTTCTGCATGTACCTAGAAACCAAGCCTCCAGTTCTACRGTGAAAACTTCATAATACCTAAGAACTCAGTATTCTTCATTTGAAAA
TTTGACATTATTAAGCCAGGTGCTGTGGCTTGCACCTGTAATCCCAGCTGCTTGAGAGGCTGAAGTGGGAGGATGACTTGAGGCCAGGAGTTTGAAACCA
GCCTTGGCAACATAATGAGACCCCCATCTCTTACAAAATAATGTAAAAAAATTGTAAAGGAAAATTTGACAGTCTTGATAATCACTTTGAGATCTATAAT
ATTATTGAAATCAGATTTATCAAACCACATAAGGGCATTTTATGAGTTATAAATTGTATGAGTTAGGATATGGCATAAGCAGCTATAACAGAAAAACATA
GGGACTAAAGGCTAAAATTGTATTTATTTCTTACAAAAGATTAGATAGGCATTCCTGGACTAGGATGGTAGTTCAGTGGTGATAGGGAACTAGTTTCTCT
CATGTTGCTCTGCAGTCTCCAACACTTWGCTTCAAATTCTTAGTCAGATATGGCTATTCCAGCTCCTGCTACCACATTCTCCCCAGTGGAAATGAGGAAA
GGGCAGGCATGTCTTTTTGGGTATGATATGATATATATTACTGTGTTCATATTGCATCACAGGAATTTGTCTCTTGCCATACCTACCTTAAAGGAGACCT
GCAGCGTAGTCTTGAGWTTGTCAGCTATGTGTAAAGTTGAACCTTGGGAATTTTATTACTAAAGAAAGAAAGGGAGGATAAAACTGAGTACAGCAGCAGT
CTCTACCACAGACTGTATTTCTGAGACATTTGRGAGATTCTGTGCAATGTAAAAGAAGTAAACCTTGCCACAGCCTTACTTGAAAAGTGTTGCAAATCGT
AATATCCTTTCTGTGAAACAAGTTTTCTTTTATTTATTTATTTTATTTATTTTATTTTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTG
CAATGGCGCGATCTCGGCTCACCGCAACCTCCACCTTCCAGGTTCAAGTGATTCTCCCGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCAA
CACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCTTCATGTTGGTCAGGCTGTTCTTGAACTCCCGACCTCAAGTGATCCGCCCACCTTGG
CCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCAGCCAGTTTTCTTTTAAAAAAGTATTATCTAGCAGAATTCAACCTCCAGAATGGTTAT
GTGAAGGCTTCACACACTCTTTACGTAGTGAAACAACCCTAACTGGTGAAAATTATTTTAAGACAATCACTTAAATCCCCTTGAAATTGTCCTACGGATA
TTTAGCATATGGAGAAACATATGAAGATCTACTACATCTTAGTAAGAACAGGAGTCCTTGGTGATTGAACCAAGACCTGCTCCATTATCTTACACAAATG
CCTCTGTTATGGAAGCTGTATCACAGGTGCTCCACTCCTGGTAGGTGTGGCCAAGARGGAGACATTCTCTCCTCCCAACTCCCAGCCTGGGGTTATAGTT
TCATGCTAAGAGGCACAGTCTATGAGTGTTTTTAATTCTCCCTGCCGGCCCTGTCTTGCAGAAGTTCTTTTTTTTTAATTTTTTTTTCTCTTTTTTTTTT
TGAGACGGAGTCTCCTTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAGTCTTGGCTCACTGCAGCCTCCACCTCCCGGGTTCAAGCGATTCTTGTGCCTC
AGCCTCCCGAGTAGTTGGAATTACAGGTATGAGCCACCATGCCTGGCTAATTTTTATATTTTTAGTAGAGTTGGAGTCCCGCCATATTGGCCAGGTTCGT
CTCAATCCACCCTGCCTTGGCCTCCCAAAGCGTGAGCCACCGCACCCGGCCGTGTTGCAGAAGTTCTATTCCAAGCAGGCAGGTGGAGAAAAATCTCCTT
TTCTCCACCCAGCCCCTACTTGCAGAGCTGACATCCTTTCCCACAAGTAGCAGGCCAAGAACACTGGGAACCCATTTGCCCTGGAAAAGGTCTTGGTTCA
AATGCCAAGACTCTTGCTGTTCTTATCTTAAATAAATGTTTCTTCTTATGCTGAATGCCCTAGGATAATTTCCAGGGACTAAATGATTGTTTTTAAAATT
ATTTTCACCAGTTAAATTGTTTTGCTAGGGACAGTGTTTGTTGAGTTTCTTACTGTATCACTCCAGAAGTCCATATTTATTTTTTAATGTTGATGTGTGT
TAAAACATAGTTTGGAGTTTGACTCTTCTTTCATGTAGAATTAGAAAAAAATATTTTCACTACCTATTGTTTAGAATTCTTTCATTTTACAGTTGATTTT
TGTTTCAAAATATTGAAAAAAGAAACAGTTTTAGGATTTTGCTATTTTAAAAATTGGGGACGGGTGGAGTGGCTCACACCTGTAATCCCAGCACTTTGGG
AGGCCGTGGCGGATGGGTCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGGCATCATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGC
ATGGTGGTGGGCGCCTGTAATCCCAGCTACTCCAGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTRCAGTGAGCCGAGAYTGTGCCA
CTGTACTCCAGCCTGGGTGACAAAGCAAGACTCTGTCTCAAAAAAAGGGAAAAATTTAAATTAGCTGTGTGTGTTGGCATACACTTGTCGTCCTGACTAC
TTGGGAGGCTGAGGCAGGAGGATCACTTCAGCTCTAGAGTTCAAGGCTGCAGTGAGCTATGATTGCACCACTGCACTCCTGCACTCCTGGGTGATGGAGA
AAGACCTTTCTCAAAAATAAATGGATGAATGAGAGCAGCATTGGTATTTACTCTTTTTTTTTTTKTTTTTTGAGACAGGGTCTCATTCTGTCACCCAGGC
TGTAGTGCAGTGGCACAATCTCAGTTCATTGCAACCTCCACTTATTGGGGTCAAGCAGCCCTCCCACCTTAGCCTCCTGAGTAGCTGGSACTTTAGGCAC
ATGCCACCATGCTCAGCTAATTTTTTAAAAATTTTGTAGAGATGAGGTCTCACTATGTTGCCCAGGCTGTCTCCAGCTCCTGGACTCAGGTGATACTCCC
TCCTCAGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACTGCACCTAGCCCCAATATTTATTYTTTATACGTGAAAATCCTATTTGGACATAAGTTA
TTACTACATTTTGTCATTTTGAAAAATACCTTGAATTTCAGTGATTGTGTTGATGAATCTCGGAGGAACTACTTAATGCAAGTTTTGAGAATTACCAATT
TAACTTTTATTACAACTTCTYTGCTCCTTACATAGCCTTTCTTCATCTGAGTGCTTATTATGGGTATGAATAAATACTAAGTAAATAAATGACTTACTAA
ATAAATGACTGAAACTGGAAATAATAATGATTCTAAAATTATATAAGGGTGCTCAGCTGAGTAAATGAAGCACAAACAATTCATTTCAGCAGCAGAGCAA
TGTGGTTAAGATTGCATATTCTGAAGAGRGACTTGGCCAAGTTAATTCCTGACTGTATGACTTGGGCTGAGTTACTTAACTCTCTGTGCTTCAGTTTCTC
TTTTGTTAAGGGAACATAACAGTATGTCCTAATTTGTGTGGTAGGAAGTGAGGAATAATAAATTAGTGTATTTAACTGCTTAGAACAATTTCTGGTATGT
GGTAAATATTCAGTAATTGTTACTACTTTTTATTTTATACACATTAATCACTCATGCTCTTCAATATGAATTCAGGGATAATTATTAGTCCATTTTAAAG
ATCAAACAAATTCCATGTAACTTTCATTCGTTTATTTTAAATTAAAACAAATTATCTGTTTTTAAATAGGTAGATATAAGGTTTCACTGTGTTGCCCAAG
CTGGTCTTGAACTCCTGCAGGCTATCCWACCTCCACTCCCACAAAGTGCTGGGGTTGAGCTACCGTGCCTGGCCAAAACAAATTATCTTCAATGTTGTAA
ATATTTGGAATACTGTGCCAAACTCCTGATTCTGATTCTGAACTATAAGCTACATTCGTATTCCTTGAGCGTATTTATTTTAGCAYTTTCTCAACCTCGC
TTTTATCCAACTTATCAAAACAACGTATTTCATTAACACTTTAGGATGAGCCATACAAAAGTGTTACCTATGAGAGAGTTGCTTTTTGTTTCATCGGATT
TTCTAAGCAGAATTAAAGTTAGAAAAAAAAAAAGTATGCTGAAGCGAATGATAGGATACCATAACCAAAGAAAAAACTTTTCCTGTAACAGTATCATCGT
AAAATTGATGTCCAATATAGAAAAAAATGAGTGGTAGATCTTTATATTTTATTTCRCCTCTAAACTTAACATAGATACAGTTTCAATTTAATTATGAGAT
ACTCCTTTGTGTCTCCTTTTTCCTTCAGCTGCTAATAGTAAATGGATCCRGGAACATCCAGAATGTGCCTATAATCTTGTGAATTCTCCACACTTAAAAC
CTGCCTGGGTCTTAGACAGAGCACTTTGGCGTTTCTCCTGTGATGTTGCAGAAGGGAAATACAAAGAAAAGGGAATACCTGCTTTGATTGAAAATGATCA
CCATATGAATGTCAGTATGTACAGAGGAGTATCACACTAAAACAGAAAAAATTTCTAAAGCACACATTAAATATATGGTTGAAAATTACTTAGAACCTGT
ATTTTAATATGATAAACAGTATTTGCTTAACTGATTTTAAATAAGTATATGTATATATGTATTTTTTAACTATTGACATTTTTCAGTCCATCCGAAAAAT
AATTTGGGAGGATATTTTTCCAAAGCTTAAACTYTGGGAATTTTTCCAAGTAGATGTCAACAAAGCGGTTGAGCAATTTAGAAGACTTCTTACACAAGGT
AAAGGATACATACTAGAATGTTCCTATCGATTTTAAGAAATGTAATATTATAAAGGGAAAACTCTCTTTTGGGTAACGTCATTATTAAATATGTCATTGT
ATTATATTTGTGTTATTGTTGATATTATAAAACTGTGATTCTGTAAGCTGAGAGTTAGCAGAAACATCTAAAGGGCACGTCATAATAATACATAACACAA
TTATTTCCCCTGGGTACTGTATCTTACTGTTAGTTCCATAGAATGCTCAGAATATTGTGGAACCCAGTATATAGTTGTTAAATGTATGAATGGGAAGTAG
GTTGAACAGGTTATTTCAGCTGAGAAAGGCTTGAAACAAGTTTTGAAATTGAGAGATGTGATAGTCTCCTGTTGTCTATAGTAAGAACCTTAACTGACGT
AGAGGGGCTCCCAGCTGATTTTGCGCACTATTAAGGCCACCTAACCACTAGTGATATTGAAGCCAGATATTGACGAGATAACAAAAGGTAACGAAGTGAG
TCTTCTATTAAGGACATAACTAATCAAGCAGTTAATGTGCCCCCCCCCCAACAAAATAGGGTAGGAAAAAATAGGTGAAATGAGAAAGTAGGGTTTGTAG
GAGACAAATTAGAAAGGATTATTAAGAGTCTATCTGCATTTCATATAGGACAACCTAGCAGTGAGGATTTGGGGAAGATCTTAAAATACTTTTTTTCTCT
TGCAGAAAACAGAACTAGAGTAGGACTCAGAAATAGTGCCTTTGAAGTAGACGTCAATATGGCTTGAGCTCTAGGATACTCAGTCAGCTTCATGCATCAA
CTTTTGCAATTGTGTAACACCTTAATACAGGAATTTTTAATATTAACTTTTCTCCCTGTTTCATTTTACTAAAGGGCCTCTATCTTCCCTTCCCCCAATA
ACCTGTATTATTTACATGAAATAATATGTGCTCATTGTAAAGAGAAAAAGCCCAATAGTTTAAATGTGTAAGAAAATAGAATGTATGACCTCTTCTTTCC
CAAAACCCACATCTCAGCTACTACATATTGTTTCTTGTACTTAAGACTCTTTGTGAAAAAAAATTCAATTTTATATATAATTTTATATAATTCTATATAT
GGTAAGTACATAAATTTTATATTTATTTTTATTTTTTACACATGCAAATAAGAACATAAATTGTCAACAACTTGTTCTTTTAGTTGACAATATGAATTTA
TTATAGCTAATTATTTCTTTTAACCTCTGTATAGCAATATGCTATTTTTAAAGTACTTGAATTTATTTAGCCTTTTTGATAGGTTGTTTCCAGTTTTTTC
ATTTTTCATTCATTCATTCAATGCATATTCATTGAACCACCTACTACTGTGTGCTAGACATGAGGATTCAGTGGTAAACAGAACAAAGTCCTTTCCCTGG
ATAAACTTCCAGTCTCATAAGCTGTACTGCAGAAAATACATCCCCGTACACCTTATGTTTACTTGCTTATGTGAGTCAATCTGAAGGATACATTGTTAAA
CATGGAATTATTGAGTCAAAGGGTATACAGATTTCAAATATAATAAATTTATTTTCACAGCAAGTTATACCAACTTAATATTATCACTAACATTAGATAT
CATTAACCTTTATCATGTTTGTCAGTTAGGCAAAACATACCTTATTTTAATTTACATTTCTTTTTTTTTTTTGAGACTGAGTCTCACTCTGTCACCAGGC
TAGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAAACTACATGCAT
GCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTCGTGATCTGCCTGC
CTCRGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCTTTTAAGTTACATTTCTTTGCTTATTAATGAAGTATATTTTTACACCTT
GATTAGCTATTTATATTTCTTCCATTAATTGCCTGTTAATGTTTCTTCTCATTTTTCTATTGAGTTGTCTCTTTKTTTATATCGACATTATTGATTATTA
CACAGGCCTCAAATATATCCCCTAGTATGCTCTTGATCTTTTAACTCTTGTTTATGGTGACATTTTTTTTCAATGTAGTCAAACTTTTCAATCTCTGATG
GCTTCCAATTTCATATCATGCTTAGAAAAGACCTTCCATCAACATTCTCTTTTCTTCTAATTTGTATTTTTACATTTGAATATTTAATATACCTGAAATT
TATTTTTGTGTATTATATAAAGAAGATATTTAACTTGATTTGTATTYTTAAAATTATATTGAGTTGAAAATCCATCCTTTTATACTGATTTGAAGTACCA
CCATAATACTTCATAGTGTATGGTAATATACAAAATATACAKCTGTTATCTGTGCTCTTCCACTGATCCGTCTCTTTTATTCTATCAATACTAAAGATTA
TTAGTTTATACTGATGGCATAGCTTTTTCTCTTTTTCAAACATTTCTTGGCAGTGTTCTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTCGC
CTAGGCTAAAGTGCAGTGGTGTAATCTCCRCTCACCACAACCTCCGCTTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTAC
AGGCATGTGCCACCACACCCAGCTAATTCTGTATTTTTAGTAGAGATGGAGTTTCTCAATGTTGGTCAGGCTGGTCTCGATCTCTTGACCTCAGGTGATC
CACCCACCTCAGCCTCCCAAAATGCTGGGATTACAGGTGCAAGCCACCATGCCCGGCGGCAGTTTTCATATATTTACTCTTCCAGATGAACCTTAGAAAC
TGGATTTTAAGAATTGATTTGTATTTTATGCTGTTTTGTGAGGCTAACGTGAATAACCACTACACTATGAAACCCATTATTTTGTTTTTTTGTTCGTGTT
TTTATAAGTCATTTCAAAGTCTCTTTAGAATAAGCCAGACACAAATTAATTAGTTAATATAAAATCAAGTTCAATGGARGCAATCCTGTACCAGTTCTTA
ATTTTATTACAAACAAGTTCCAGAAAAAGAGTGAAAATTTCCCCAAAAACCATTTATTTCCTTTTTAATTTTTAAGTTATTATCTAAGGAATATGGTTGA
TGAAAAGGGARAAAAAGTATTAAACCTKTGTGCTTCTTTTAGAGAATTCAAAGAAAGTCAGGTTGTTAATAAGACTTYAGGAAGCAAACTTTGAAAGCAA
TCTTGAAAAAGAACTCCTGAGGTTAGAATATTTGGTAGCACCGGGGAGGAAAACGGGTTCCACTAAAGTCCTTAMAGTGTTTAAAAAAAAAAAAGGTACA
TGTATACATGTATAACAAACCTGCAAGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAAAATATATATATAAAAAAATAAAAAAAGAATAGAATAA
GTGAATGCTGATGTAGGCAGAAAAGTGGGGGCTGAGATTGAATTGATAGGAATCCTTGTGTCTTTCTTTTATGTTATTTTTGTCTCTGTTTCTTTCTCCC
CCACACCCCTCGTGTGTGTTTGCGCGTGCACGCACGTGCACACACGTGCACACAGCAGGATGAGAAGGGGAGGAGGTAGGAGGATACCTGTGAAATAAAT
ATTTGTTTTATTTTCAGTGAAAAAATTATAGGCCAAAAATTAGAAAATAGTGACAGTTATAATCTCTTTGTAGATATTTGCATTTAAGGTATCRTCTTTT
CTTTCTTTTAGAAAATAGGCGAGTAACCAAGTCTGATCCAAACCAACACCTTACGATTATTCAAGATCCTGAATACAGACGGTTTGGCTGTACTGTAGAT
ATGAACATTGCACTAACGACTTTCATACCACATGAGTATGTAATGTGTTTTTTTCTGTGAAATAATAATATTACTTACAAACCTTTATGGCTAGTATGAT
TTTCATACTACTTATTAAAAACGCTTAATAGAAAATGAAATAAAGTAATTCACTGTAATTCTACTATTTCAGCACATGACATTTTCCCACTTTTTCTGTG
TGTGGGCCATGTTTCTATATGTGTATATAAACATTTTTACAATTGGAAAACATCATCAGCCATAATTGAAATCCCGATGAATATATTTAAGGTTTCTGTG
ACCTTTGTTAGAAAGTTTTTAAATGTAGAATCTGTAAAGCCATTAAATATTATATCTGCATTTCTCCATCTGCTCTAGCAAGGGGCCAGCAGCAATTGAA
GAATGCTGTAATTGGTTTCATAAAAGAATGGAGGAATTAAATTCAGAGAAKCATCRACTCATTAACTATCATCAGGAACAGGTTTTACTTATTTTTGAAC
TGCTGCTTTTCCTTGCATCTTACTACTATTTTTTTGTTGTCTTGAGGATGGTGATGATCTAACACAATTTAATGTTTTTCAGGCAGTTAATTGCCTTTTG
GGAAATGTGTTTTATGAACGACTGGCTGGCCATGGTCCAAAACTAGGACCTGTCACTAGAAAGCATCCTTTAGTTACCAGGTGTTGCATTTTTGTTTTTT
TTCTTATTGATGGTTGAAAACTGAAAATTGTATTTAACTTTTGAAATTAACCTAAATGTTTTCTTTAACATGTGAGTTCAGTACATTTCTTAAATTGAAA
TAGAAGTTTTGATTTGGACATAGGCTTAATATTAACTAATTTTGTTAGGCAAATATTTTGTTAGAGAAACTGTCATCAGTATAAACCAATTCATAGTTAT
TATTTAATGTTTCTGGAGGACTGCATACTTAGTAATAAATTCAATATTAATCAAATTAAGCAAGCATCTGGCTCCTTACTTTGTAAGTGACATAAAGCAT
AGGTTGGGCAACTAGAGTGCAGTAAAAGCCTTTGCATATCTTTACTTAGAGTCTTTTTTAAAAATATCTTTGCAAAGTAACATCAATGCCTCAATTATGT
ATTTATTTTTTTTCTTTGAGATGGAGTCTTGTTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCAYTGCAACCTCCGCCTCCAGGGTTCAA
GCGATTCTCCTGCCTCAGCCTCCCAAGTAGCCAGGACTACAGAGGTGCACCACCATGCCCAGCTAATTTTTGTAGTTTTAGTAGAGACGGGGTTTCCCCA
TGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTAATCCCCCTGCCTCGGCCTCCGAAAGTTCTAGGATTACAGGCATGAGCCACCATGCCCAGCTG
CCTCAATGATTTTTTAAAATAATTTTATGAAGTTTTAAAAATTGTTTAAACTGTTAGCCAGATATGCTGTCATGTTAACTCCCTATTTCTCACATCCTGC
TAGATTTACTCAAAAAGCCTAATGAAGATTTTTGACCTATATTGAAGTTTTTTTCCTATAAATAGCATCAAACTTATTTTATTCTATTCATTAGAAAAGA
AGTTTAGTTTTAATATTGCAAATTTATATTCTCTCCAAGGAGTTTCTTTGTATGGATTTAATATTTAATTATATTTTCATAGGTATTTTACTTTCCCATT
TGAAGAGATAGACTTCTCCATGGAAGAATCTATGATTCATCTGCCAAATAAAGCTTGTTTTCTGATGGCACACAATGGATGGGTAATGGGAGATGATCCT
CTTCGAAACTTTGCTGAACCGGGTATGTAATTTTTAACTTCTCTGTGGATGGGGAAAGAATAGTTCATGGCAAGGTCAAAATAAAATCTGCTTTAYTGAT
TTTCTTCCCCATTAGTCTATTGGTTTTTAAATATTTCACCATAAAKGTACCAGAGATACATACAATTTGAGAAAGAAAACATGGAGCCAACAAAAAAAGA
AGTTCATCTTCTGTCCTCTCCTTTGCCTTCCTACCTTTTATCTTCTCAAACAGAATAACTTTTATGTACTGTTTTCTATATTGTGGGTCTACATAAGCTT
TTATTTGGACAAAATATTATTGCATTTTTACAGACAAGTTTGAAACCACTGCTATTACAATTACATTGACATAAGAGATATTTTCACTCATTGGCCAGAG
GTATTAAGAATTTCAGTGGCAATTAAACCAGAACCTAATGGTTTTAGGTCCCCCCTCACTCTYAGTGTCTTGTGTTTCTATAGCTATTTCATTACCAGGA
AGAATGTTGCAGGAGYCCATTGATATATTTATTTTTTAACATTTCRAAACTAGGAGTCTATATTAGTGACATTAAAATTTATTCAGAAATCTTAATGCTT
TTTTTTAAGAGTATAAATTTGGGTGTAAGTATCTCTGCCCTCTTTTTTCTAGYCATTCTAAACGAAATCAAGCCATTCTGCTGTATGCCATGGATCTAAT
ACAACCTGTTGCCRAAAATAAGTAGGAGGGTGGAGATGGAGTTTTAAATGTTTTTGGTAGAACTATGGTTTTAAAAGGCCTATGATATTAACATTTCTGT
TTTCCCTTATGATGCGACTTGGGTTTTTGAAATTGAGGACAAATTTTTAGAAGAGACTGTAAGCTAGAGTTTTTTCAGAATAGCTATGAGAAATAAATAA
TTATTAATTTTTTAAAACATTATCTCATACCACTTTAGATAWAATTTAACCAATATATCATTTATGGCAGAAATGATCAAAGCAATTTAAAAACCAGTGT
TTCCTTGAAGTAATTGTTTTCRTTTTATTTCTTGAACCATTGAAAGCAATCTCTTTTCTGAACAGGTTCAGAAGTTTACCTAAGGAGAGAACTTATTTGC
TGGGGAGACAGTGTTAAATTACGCTATGGGAATAAACCAGAGGACTGTCCTTATCTCTGGGCACACATGAAAAAATACACTGAAATAACTGCAACTTATT
TCCAGGGAGTACGTCTTGATAACTGCCACTSAACACCTCTTCACGTAGCTGAGGTACAGAAAAACAATTTATCTACATTAAGAAAAGAAATTCAGTGTTC
CTTCCTAGCTTTCCTTAAGTAAACTATGCAGGTAAATGTTTCCTTTTGCTAGTTGGACACAAGCATTGATTTGGTGGTAGTATTTATCACTATTGCATAA
TTAGCATAATTCTAACAATCTTTTGCAGTTGTTATGGAATACTGGGCTATAAAATATTTAACTAGCTAATTTTAAAATTTTAATTTAGGGAAGTTGATCA
CGTTTCTGATAATATGGAGTGCAATCATATTGGCTACTGTGAATACATAAAATGTTAATTTTTGTTATTTTTAGGTTGCTTTCAATATATTTTAGAAGTG
ACTGTGAAGGTGAATAGCTTATTACACATTATAGTGGTGTGTGCCTATAGTCCCAGCTACTCGGGCGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGG
TGGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTGGCGACAGAGTGAGACTCTGTCTAAAAAATAAATTAATTAATTAAATTAAATAAAA
AATAAACATTAACATTATAGCATATTGAAGCCAGTCTAGCCTCATCGATTTAATTTTTATTATTTATAAAAATTATAAGTGTAAACATAAACATTGTCTA
TTTCTCTTTGAGCTCTTTACAATAACTTCTGAACAATGCCAATACTTATAGTATTAACTTCTATCTAATACAATCTTTGTAATTAAACTCATAATTTTCA
TCCTGCTTATAAGTTTTTTTTGTTATTTTTAGAAACCCTACAGTGGCACTGCTTATAAGATTTTTGATACCTTACTAGTGACCAGTGTCACTTAGGTGTT
CTTTGGAAATGTGTGCTTACCTAAAAAATGTCTATTTCTATAATATTAAAGCAGTATTATAATATATATTTCAAGTCCTAKGATGAAAAATTGATTTGAT
TTGGAGGGATTTAGTGAATATTAGTTAAGCTGGTAGAACATTGTTTAGTTCCAAAAAATGACRGCTTTATTTTATTGTGCTTTTAGCAATAGCAAAAAGA
AATATGCTTCTAAGATTGTTACATGGCAGAAAAGAATGTTCAAACTTAATTTACTTAATTTTAARTTACAAAATCTAGGATTCTACTTGTTAGCTAATAG
AGTTTCRAGTATTTTATTAATCTTTGTGCAAATGTTGTGTTTAACAGTTTGGAACCAATCTGATTTTTTATTATAAACCAGTGTTTATAATAAACAGCTA
GATAGATAGCAMCAGTGTTAAACGTAAATCACACAAGTGGAAATTGTAAGGTGTAAGAGTTTTTAAGAGTTATTTATCATCATCTGTAGGAGAAACTGGC
TTCAGTCTGGTCAGACAAATCTAATCTTTCCAACAGCTAAGTAATTCACCAGCAGGGAATTTATGAATAATTATTTAGTCAACCACCTGGAAATTAAGTC
TGATTAAAGTTTTAAAAATAAGCAAGCAGGCCCAGGCACGGTGGCTCAYGCCTGTAATCCCAACACTTTTAGGCTCAGGCAGGCAGATCAGCTGAGGTTG
GGAGTTTGCAACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCTGGGTGTGGTGGTGCGTGCCTGTAATCCCAGCTACT
CGGGAGGCTGAGGCTGGAGAATTTCTTGAACCTGGGAGGCGGAGGTTGTGGTGAGCTCACATCATGTCATTGCACTCCAGCCTGGGCAACAAGAGCGAAA
CTTGGTCTCAATAAATAAATAAATAAATAAATAAGCAAACAAAAAACAGGGAGAAAACCTAACAGAATTGTAGTGTTATGATTTACATTTAGTAATATGA
AACTAACATTTTTCTTCTTCTTTTCCTCTCTCATGTCTCAATATCTTTGCAAAATCTAATCTTCCTTTTTAACCGTTTTCTTCTCTTGATAAATTCTCTT
GTTTCTATGTGTTTTGGTATGTTTGATATCTTGCTGCATATTTTTCTATGTCAAATCATGCCTCCTTTTGTCTCTTTSCTTCCTCCTATCTTGCTTTTCT
CTTTCTGTTACATTTATTTGTTACATTTGTCACTGTGCTTTTTACAGTACATGTTGGATGCTGCTAGGAATTTGCAACCCAATTTATATGTAGTAGCTGA
ACTGTTCACAGGAAGTGAAGATCTGGACAATGTCTTTGTTACTAGACTGGGCATTAGTTCCTTAATAAGAGGTAGGCTTGTTGGAGTGTATTTCCCTCTA
AAACTTTAGCTTTTGTTTAAGTAGATTAAAGGATTTAATAGCTTCATATGCAATGCTTAATAATTTTTTAACACAGTTAATGTTCTTCTAAATACTTTGT
ATGACATATTCTAATATAACTCAGTCTATTTTTATCAGTATAAATTTCTACTTTGGGGTAAGATACCTCATTTCAAATTGAAAGACCAGTAGGATGAACT
GAAGACTCACTAACAAAACCATTTTTTGTTGTTGAAAATATGCAAACCTGTTTTTCATCTTCTACTGGGAGATATGATGTAATGTTTAGATGTTTTATAA
TCAATTTTGTATAGCTTACATCCCAGTAAACAACATATGTTCCCTTTTCCTTACATGAGCCATTTCTCCAGTTAAGTTATGGGGAAAACTTTTTTGTCAC
TTAAACTAGTAGACATTTGTTTAAATCCTTAAAGCAGTTTTATTTTTTATAATATTGATGTGGTCTTTATTTTGAAAATCATTTATGAGAAGAAATCTAA
CCTCTTCCTGGACATAAATAATGAAGATTGTTAAAATATTCTGTAATGCTCTGCAGAGGCAATGAGTGCATATAATAGTCATGAAGAGGGCAGATTAGTT
TACCGATATGGAGGAGAACCTGTTGGATCCTTTGTTCAGCCCTGTTTGAGGCCTTTAATGCCAGCTATTGCACATGCCCTGTTTATGGATATTACGCATG
ATAATGAGTGTCCTATTGTGGTAAGCACCTAATCTTTTTCATGTACTTATTTTGCTAAATGCTTTGATATTTAACTCTCTGACACTTGGTCACAATCATA
CCCATATACTTCAAAATAGTGTCTTAGATTTATAACTGATTTATAATACATAGTTTTCAGAATGTTTTACTTGTTTAAAAGCAAATTAATTTACCTTATG
AATTTATTTATGTAATTATCCTTTTACTTCATTATGCTATAGAATAGCACTTTGCATTTGAAAGAAAGCAAACTTTTGCTTTGTTGTTGTTGTCTTCTAG
CATAGATCAGCGTATGATGCTCTTCCAAGTACTACAATTGTTTCTATGGCATGTTGTGCTAGTGGAAGTACAAGAGGCTATGATGAATTAGTGCCTCATC
AGGTTTGTTYATATGTTGTTTCTTAAAACCTACATGGCCAACAACTTTGGGCATTTTTATTAAAAAAAATTCATTGTAATTAAGATGTATCCATGCTAAA
TTTTACCTTTGTCCAGATTTCAGTGGTTTCTGAAGAACGGTTTTACACTAAGTGGAATCCTGAAGCATTGCCTTCAAACACAGGTGAAGTTAATTTCCAA
AGCGGCATTATTGCAKCCAGGTGTGCTATCAGTAAACTTCATCAGGAGCTTGGAGCCAAGGGTTTTATTCAGGCAAGAAATAATTAAATTTGTTTCTTCA
GGTTCAATTTCAGAGTAAGTCTTTCCAGTTTGAGAGCTAATCTAGTTGTTCTTTCTGCTTCTCAGGTGTATGTGGATCAAGTTGATGAAGACATAGTGGC
AGTAACAAGACACTCACCTAGCATCCATCAGTCTGTTGTGGCTGTATCTAGAACTGCTTTCAGGAATCCCAAGACTTCATTTTACAGCAAGGAAGTGCCT
CAAATGTGCATCCCTGGTAATGCAATCTAAAAATTGTTACTGTATTTGTATTATATTATTATATTAAATTATACTGTAATGTTATGGTTATATATCATGT
ATATATCATATATATTATAACACAGTGCTACTGTGGACGTACTTGAGAAAAAGAATTTAAACTTTTTGGTAACTTGGCCAGGTATGATGGCTCACACCAG
TAATCCCAACACCTCAGGAGGCTGAGGCAGGMAGATCACTTGAGCTCAGGAGTTCAAGACCAGTCTCAGCATTATGGTAACACCCTGTCTCTATCAAAAA
AAAAGTACAAAAAATTAGATGGGCATGGTGGCACATGCCTGTAGTCTTGGCTACTCCTGAAGCTGAGGTGGGAGGATCGCTTGAGCCCAGCASGCAGTGG
TTACACTGAGTCCAGATCCCACCACTGCACTCTACTGGGTGATAGAGTGAGACCCTATCTCAAAAAAAAAGAAATTTTTGGCAACTTATATTTTTACTGC
ATGGAACAAAACCTAGACAGAAATACTTTCAAATGTTAACATTTTTTGAGTTGTGAAATATTTTTGTTTATATTTTATTTCCTAATTTGTGTAAAATGAA
CATTTATTTCTCTTCTAGCAGAACAATATGTATATTTGTGTTAGTGTATATGTATATATGTGTATAAATGTCTTTGTGTGTATATATGCACAAACATACA
TACAAACATGCGAACTAAAATGGAAAATAATATAACCTTATGTTTAAGGCTTTTCATAATCCATTCTCATCCACCATCCTAGCCCTATGTCAGTCCACTA
TTTCAGCCAAATAGATATTTTTACTTCTCCCCAAATACTATGCGAATTGTCTGGATCTTTCAAGGTCTAAAGTTGCACCTCCTTTGTTCAGTGATTCTTC
TGAACATGTAGCAATTATAGTCTCTATGTATTCCTCTAGCATAGAGAGTCAAAAATTATAAAATACATCCCTGAGATATGTCCTTAATATTACTTGATTT
TTTTCTGGATAGGTGTATTTTATTGTCTTACTTACTATTATATGTGGCATATTACAGCATAGCATGCTCCTGTTCATGCAGCAGCTGGCAAAGTTTGTTG
ATTGATTGACCAAATGAAAATTCCTATAAAAATCATCATATTCTATATTGGTTGCTAGTTGCTGAATATGCATAGTTCCGGTTTTTAAAAATTATCAACC
TGAATACCTAAAAGTTTCTTTAATTGTTCACAAATGTATATTCACTATCCTTATCTGATCTTTGCTAATATACGTATTCAGTTTTATAGGACAACAATCA
CTGTGTACAATATTATCTCAGGTTTTGTTTTGGTCACRGATCATTCTTAAAACATTTCCACTTCAGTCCGCAAAATTGTGATTTTTATTTTGTTAAATGT
TCGTACGTTCTGTTATTATGCCCTTTTAAATATTCTATAGTATGTTTAGTAGTGTTACTAAGTGTTAAATATACAGTAAGGATAATTGTTTTTTCTTTTA
AACAATTTTCTTAGTGTATATTTACAGAGGTAGAATTTCTAGATCAAAAGGTTCTGTTACCTGTTGCCAGATTAATGACTTAAAGCTTAAGTTATTTAAA
GTAAGGTTGAAATTTTATATAATCCATTGACCCTGCAGTTCTATCCCTAGGTATATATCTGGGAAACTTTCATATATTTCCATTTGAAGATATGCACAAG
AATATTTATTACAACATTATTTATAATAGAGAAAAATTAGAGACAACCTTAATAGAACAGATATATTTTGGTATATTCATACAGTAGAATATTATTTGGC
ATTTGAAGTAAATGTGCTGTAGCTGATGCAGCAGTGTGAATGAATCTAAAAAATACATTGTTGACCACTAAAAAGCAAGTTGCAAATATATATAACTTCA
ATTCATTTTAATAAAACTTGGAAATAGGGAAAATAATATATGTTGTTTAAGGAAACAGGCATGTGTAGTGAAAATGCCAGGGGTAGTGAGCACCAAACTG
AATTGAGGTTACCTCTGAAAGTGAAGAATGGGTACACAGAGGCTTTATTGTATTTGTAAAGTTTAAGTGAGGAAGTAGAACTTGGGTTTTTAATTTTTTT
TTGTATCCGAAATATTCCAAGTTTTAAAAAAATGTMAGCCTTTCAAGTGATTTGCTTTTCTCTGCTCAAAATTAGGAAGTTGTTCCCTAGAGCTAAGCTA
TTATTTTGATACGTTTCTACTTCAAAAAAAGCTTTGTTAACTAAGCTGTAATTTTTTTTACAAATGTGAAAATACACCTTGGGTAGAATCATCTACTTTC
AGACTTCTAAAAAAAAGTAACTGATAATTTGTTTTCAACTTTAAGTTAAATGATTTGAAACCACTTTAGCCTTCCTAATTTTGGATGATTCCATATGAAA
TTTTGTTAAAATGTTTTTATGTATTCCTAGGCAAAATTGAAGAAGTAGTTCTTGAAGCTAGAACTATTGAGAGAAACACGAAACCTTATAGGAAGGATGA
GAATTCAATCAATGGAACACCAGATATCACAGTAGAAATTAGAGAACATATTCAGGTATTTGGGACTCTCATCTTACTACTGTGTTTAGCATTTTAAGAA
CATTAGAACTATTTGTTGAATGGATTTTTTTAATGTACTTTTTTTCAAGCTTAATGAAAGTAAAATTGTTAAACAAGCTGGAGTTGCCACAAAAGGGCCC
AATGAATATATTCAAGAAATAGAATTTGAAAACTTGTCTCCAGGAAGTGTTATTATATTCAGGTATGTTAATTGAGCTCAAACTGTTGACTTTACTTATA
TTTAAAATAGTTTGCATATCCTGTTAAATTTGAATAAATTACTCCTAAAAATTAACCACTTTTTAATTAACATTTTCAGAGTTAGTCTTGATCCACATGC
ACAAGTCGCTGTTGGAATTCTTYGAAATCATCTGACACAATTCAGTCCTCACTTTAAATCTGGCAGCCTAGCTGTTGACAATGCAGATCCTATATTAAAA
ATTCCTTTTGCTTCGTAAGTATGCCTTGTTTGGTAGAGATTTGCCACCTTAATAAGTAAGTTACCACTAGAYTGAATTAAGCAGTTTTAAGGGTCCTCTA
TATCCTTGCTACTCAAAGTACGGTCCAAGGACCAGCARTGTCAGCATCACCTGTTGTTAACATTTTACCCTATTGTTTTATAATTTGTGTGTGTACCTGC
ATGTGTATTCTCTCTATAGATATAGATACACACATGCCTACATGCATACATAACACATGCATGCATCTCTGTATACACACACACACAATTTCTCTGAAGT
ATTTGAGACTAAGTTGCATACCTCATACCCTTTACCACATCATTTTTTAAAAATGTCAACATATTATTCTACTTTATGGCTTTACCATAATTTATTTAAA
CAATTTCCATTTTTGGACATCTAGATTGCTTCTAATTRTTCCCTATTATTTATGTCTTTGTACATTCATCTTTACATGAATCCTTAGTTATTCCCTTTCT
AGATGTTTCTGCATACTACAGAAGAATATAGGTTTTGAGGTTTAGACCTAGGTTTAACTTTAGCTTCATTACTGTCAGTATGATCTTGGATCTATTGTTT
AGAACTTTCATCATCTCAGTCTCCCATCTGGAAAATTTTGTAAGAATTAAATAGGATAACACTTATAAAACACTTAATACAATGCCTGGCACATAGTAAA
TGCTCATAGTTTGCCATCATTAGTACTAGTATAAATATTTTCAGAAATGGAAGTTTTGGGTTAGACGAGGGGTCCCCAACCTCTGGGCCACAGACTGGTA
CTGGTCCATGGCCTGTTAGGAACCAGGCCGCACAGCAGGAGGTGAGTGGCAGGTGAGCTTTATCTGTATTTACAGCTGCACCCCATCACTCGCATTACCA
CCTGAACTCTGCCTCCTGTCAGATCAGTGGCTGCATTAGATTCTCATAGGGACGTGAACCCTATTGTGAACTGTCCCTGCGAGGGATTTAGATTGCATGC
TGCCTATGAGAATCTAATGCCTGATGATCTGCCACTGTTTGCCATCACCCCCATATGGGACTGTCTAGTTGCAGGAAAACAAGCTTAGGGGTCCCACTGA
TTCCACATTATGGTGAGTTGTATAATTATTTCAGTATATATTACAATGTAATAATAGTAGAAATAAAGTACACAATAAATGTAATGCACTTGAATCATCC
CAAAACCACGCCCCTCACCCCCAGTCTGTGAAAAAATGTCTTCTGTGAAACCAGTCCCTGGTGCCAAAAAGGACCATTGGGTTAGACTATATCCATATAT
TTGAGGCTGTTAATACATACTGCCAAATTTTCTCCAGAAAGATTATAATAATTAATACTTTCAGCTCTATCCAAGAGTTTCCATCATTASCAATACTGAG
TATATATYATTATAACGTAGTGTTTAAGGGCATGGAGTATAGAACCAGACTAACTGGRTTTGAATTCCAWTGCAGACTCTTATTAGCTATAAGAAGTAAG
ACCTGGCTGAGTGCAGTGGCTCACTCCTATAATCTCAGCACTTTGGTAGGCCAAGGTGGGAGGATTGCTTGAGCCCAGGAGTCCAAGACCAGCCTGGGCA
ACATAGTGAGACCCTATCTCTACAAAACGTTTTAAAAAAATTAGCTGGAAGTTGTGGCATGCACCTGTGGTCACAGCTGTTCAGGAAGCTGAGGTAACAG
CATCAGCATCAGTTGAGCCCAGGAGGTCTAGGCTGCAATGAGCCATGATTGTGCCACTGCTCTCCAGCCTGGGCAACAGAGCAAGACCCTGTCTCTAGAA
AAAAAAAAAGAGATCTTTGAGAATTTATAATAGACATAATTATAGCACCTTTCTTACAGATTACTTGAGTAAAACACAATAGTTTTTGACACATAGTGAT
TGATAAGTGTTAGCTGTTACTAATCAAACTGGTAAATATAAAATAGTTAAAAATAACATCTCATGTAATTTAAATATTAAGCTAAATTATTTTGTTCATT
GGCCATTTGTATTTATTTGTTGAAGTGTTGTTTTATGTATTACCCCATTTTGCTATTGTGTTCGGCTTTCTTTGTTGTTTTGTAAGACTTTTTATTGTTA
AGGATATTAACTCCTAATTCAAACTATTCTTAATAAAGTAGTTGCATTCTTAACCAAAAAATCTGTGATGAAGCAGCTTTGTGTTTGGATGGACTGCTTG
TAAAATGCATGTTCCTCCTCAGACMTGCTCAGATTATTTTGGAGCAAGGCCAAGAAATTTGCAGTTTTATAAGATCCCCAGGTAATTTTTAGGCAAGGAG
TCCACTGGCTATTGAAAAATATTGTCCTAGAATGGAGTTGATACTGAGACTTCTGAGTGATTTGACTCAGGCTTGACTCACAAACTAGCTCTGGGGAGGG
AGGCTGATATGGAGAGAACAAAGCACAGATGACAATGATTTTCTAAATTGAGCCAGAACTAAATGGGAAARAAAGATACACATTCAAGAGGATATGTGTT
CACATAAAATRGCAGTCATGTAAAATGAAATTACCTGAGCATCTATTATAGAAGCACAAGAAAATACAGTTTCAGCTGTATTCAGGTGTGGTCAGTTATA
CAGTCTTACTGCTAACCAAACAAAGGGAAATCAAGGCCATGATAGTCTTCCCTCTGACAGTTATCAGGAGGCATCTTAATCTGAGAAAAATCCTGGTTTC
TTGAATAAACAAGCTGAGGGGCAGTGCAACCTTAGAGAAGAGAAAGGAAGGGACTTGGAGAGAAATATGAAGGYAGAGAGCATGTGATTTCCTAGGCAAT
TAACTTTGACTTTTTATTCCTTTAGTCATCCTCTGATAAGTATTTTTAGTATACAATAACTAGCATAAAAAGTTCTTGATGTCTCACTTAGGGGAATATA
AAGGAGAGAAATCAGATGAGAACACATAAATAAATGAAGGAAGGAAGGAAAACACTAAGTCCAAACTAGAAAGGTTAAAAAAACAGATTTATAAGATAAA
GGATATAGAAGCCAAAATATTTTCCCAGCATACTTCTAATCAATACAATTTGGTACTTGATTATTTGCTTGGTTTGGGAGTAATGTCGCTTCTAATTGAA
TTTTTTTTCACAATTTGTCCTTTAATAATTACTTAAAATGTATGAGTATAATGTTTATTTGAATGCTGAGTTCCTAAAACATACACTGCTAAGACATTTT
ATGATTGTAATTCAGATTTTCTTCTTTTGTTTCTATTGACAACAAGCGAWACTTCAATATATGGTTATCTTTATTTTCCAATTCTTAGTCTTGCCTCCAG
ATTAACTTTGGCTGAGCTAAATCAGATCCTTTACCGATGTGAATCAGAAGAAAAGGAAGATGGTGGAGGGTGCTATGACATACCAAACTGGTCAGCCCTT
AAATATGCMGGTCTTCAAGGTAAGCAAATRGAAGGATAGCTGAGCTTTGTGTTTTTCTTTTAGGGTCATCTGGTGTCTTCTTTACAGACATAGATATAGG
CTCAGAGTATGCCTACTTGGGTTGCAATTATGGCTCTGCTTCTGCTCATTAATTGACCTTTGGCAAGTAATATAACCTCTTTGTGTGCCAATTTCTGCTT
CTATAAAATTTGAATAATATTATCTAATTTAGAAGGTTTTTGTGAGGATTAATGAGATCATTCACATAAAACACTGAAAACAGGATGTAACACAAAGTAA
TTACCCAGTAAATTTTACCTAGAAATACTAGTTCTATCTCTTTCCTTAAGGTCTGTATAGCTCTTTATGTATACTTGGACCTTGATTAATGTTTCTTGAC
CTGGTTTATTATATAATAAACAGAATATTCTTGTTTGGGCCCCAAGTGGGATTAGGTTGTAAATATAATCCATTCACCTTTTTTTAAATCTAATTGGAAA
TATATTTTATTGCATATTTGTTTTATCCTGTAAAGAGAACTTACAGTAAAACATACAGTAGTTGTAAGATGAGTTAAAGGAATTAAGTATTTATCAGTTT
TATTCATCTAGTTGGTAATATTTACTTAGATGTTTAAGAAATTTGCTTTATCACACCTGTATTCCTGGTTCATATAGTTTTCACTTATGCCTTTTGTTCA
ACTCTTTATTTCTTTCTCCATCTAACCTATCTTTAAGGACTAATTTAATTCTTGCATCTTTCATAAAACCTTCTTTAACTATTGCTTTTTACAGTAATTT
CTTTGTCCTCCAGACACCATTGCATTTATTTTCTATACCTCTTACTTGGCCCTTGAAATATATTGCCTTATTTTGATAGTTAGTATAATGATTTTTGTGA
ATCTTTATCATTGTGATTAAGAAACAGGCTTTAAAACCAGATTTCCTGGGTTACATTGACTAGTTTTATAACCTGAAGTAAATGCTCTATGGCTTACTTT
TCCMCTGCAAAATGGTRCCTACCACAGGGATTATGGTTAGGATTAATGAATTAATACATGTGAACAGCTCATTAGACGACACCTAATTCATACTAAGTAA
TTGGAAATTGTTAGCCTTAAAACCACACTAAGTAGGCTGCACACTTTCAGAAAGAAGAATTAAGTTTTATCTTTTTTATGCTTCTTGTCTTTTAGCTTTT
ATACTTTCTGCAAAACCAAGCACGTAAGCGGTTCTCAATAAACTTTTTTGAGACTTTTTGGATTTATGATCTTTTTTTCTAAAATATTCTCATTTTTAAT
ACAAAATGTTTTGTGCTATGAGTAAGAAAGAAGTGTATGTGAGCCAGACATGGTGGCTTCCACCTGTAATCTCATGCTTTGGGAGGCCACAGCAGGAGGA
TCACTTGAGCCCAAGAGAGGTTTGAGGCTGCAGTGAACTATGATCATGCCAATGCCCTCCAGCCTGGGTGACAGAGTGAGACTGTCTCAAAAAATAAATA
AATTTATTTATTTAATTAATTTTTAAAAGATGTATGTATGTTATCAGATTTGAGTAATTATCTACTTCATTTTCACTCTGAGTTGTTAAACTACTTCTAG
TTCACTACAAAGACCAAAYTTGTGTGTGCTCTTTTTCTAGCCTTTGTCTTTCTTATAGTTAAGTTTGGTTCTTTGCTAATTCTCCTTATCTTTCTAATGA
AATGATTCTTCTTATCTTTTCTAAATAGAATTGCCTTTACCTGTTTATTTTTTGCTGCTTTATACCAATCCCTTTTCCCTCTGATTGTTTAATATTTTCA
GCAGGCCACATATTTCCAGCAGGCTGCTAATAAGAGCCTCAGATTAAATCAGATTTAACTACTTTGTTGACCTGTCTTTCCCTTAAACAAAATGTATTTC
CCTCCTTATAATACRGTATATCTAGTCATGTTGGAATCCAGGAATCCATTTTGGATCTGCTCCTTTCATCCTCAGTATCCAATCAGTCATTATGATTTGT
GGATTCTTTTCCATGTTCTGTTGGGTACACCATATCCTTTTTATTACCACAGTTTTCACTCTATTCTAGGACTAAGTCCTATATACAAAACCAACTAACC
AATTTTCCAAATCTTGTTACCTCATCTACAAATCATTCCATTCCGTTGGTCATCATCAGATCTGTTTCTAAAACACTGTTTTCCTTATGTCCTTCCATTA
TTCAACAGTGAGACCAACATTTACCGAGCATTATCTGCTGTCCATGAAAATGCYAGGGCATATGTAGAATATTATTTTATAGTCTTGTTTCCCAACATCT
TTATGTTTTAAGCTTTCTTCCCCAGAGAAGATTGTGAGCCCCTTGAGGGAAAGAACTTTATCTTAAATTTATRTAGTTTTTAGTTTCTCAAAACATGCTA
CATACCTAGTAAAATTCATGCAATTCTAAATAGATAAATAAATTTAGTCTWAATGAAGTCAGTGATGCCAATATAATTTTTAAGGTAGCATCATTGAAAT
AATAAAATCTGGGAAATTCTAATGCTTCTAATTGAAGACTAGAAGGATTAAGAAAAAAAAAAWATATATATATATACCTCATTTTGATACTTCACTTAGT
TCTAAGTACCTCCTGTTAAATTTTAACAATTCCTTCCAAAGCATGCTTTATTCTTATTATCTCCATAGGTGTTCTTGCTCTTTCTGAAACCAGTTCTATG
ACTTCCTTAAATCTAGCCTGAATACTGATGAACCCACTACTTTTCAACATGAAAAAATACAGGCTTATTACTTTTCTTTCTTGAGATGCTTTTGGGCAGG
GAAGCCATGCCAGTTACCCTTGAATATTATAACATTAAAATCCAAAAGAATAAGACCAGTCCCAGAAGTTATGAATCCTGAAAAGCTCTTTATATCTCTT
GTGACAGTAGTCCCCTTCAGTATGCCTTTGTAACTTGGCTCAAGCCAGTATTGTCATACTTATCTCCAACTGTATTAAGCAGTGTTGTGGACTGGGTAGC
CCTTGTGTGTGCCTCTAATAYGTATTCMCCCCAAATCACTAGAATAGAGACTAGCAGAATAGGGACTAGAGGATATAGGAACAAATTGATGCTACCAATA
ATACAGCRTGACATGTCTCTGAATTTTCAGGTTTAATGTCTGTATTGGCAGAAATAAGACCAAAGAATGACTTGGGGCATCCTTTTTGTAATAATTTGAG
ATSTGGAGATTGGATGATTGACTATGTCAGTAACCGGCTTATTTCACGATCAGGAACTATTGCTGAAGTAAGTAGAGCTATATTATCGTCCCAAAAAATC
AAGGACATAATAATAAATATTACCATGTTATATATAATATTTACATTGTTTTCTAACCTGAACCATTTTCCTCCTTCCTTCATCATCTTTCAGTTRTAAT
AAATGGAAATCGGGTTTATAGATTACTAGATAAAGTTGCACATTTAGATTTACCTCTAAAAACACACCTAGTCTGTACACATACCAAATTAACTTWCAAA
TTTATTTTAATTACAGGTTGGTAAATGGTTGCAGGCTATGTTCTTCTACCTGAAGCAGATCCCACGTTACCTTATCCCATGTTACTTTGATGCTATATTA
ATTGGTGCATATACCACTCTTCTGGATACAGCATGGAAGCAGATGTCAAGGTATATCCAACAAAGCTTGAATAAATGGGCATATCTGTGTTGAAACTATA
TRCAGAGTCACTTCATACATGTTCTTAAAAAACCMAACCATAAAGAATTGTCATAGAACTGAAAAGGCTTGTAGGTGGATAGTAAATTTATTAGCATCCT
TTAGTCTGTGTAGCATACAAAAACAAACTTGAATATTATAAAATCTGTTCTAAAAGCTAATAAAACATATTGATAAGAATATTGTTTTATATTGTTTCTA
TGTATTCACTGACTTATTGAGTTAATTGATAAAGTTTCTGAAATCTACATGTACAAWTTTTCTAATTTTTCATCAATTAGGAGAAAAAATTCCACTATTA
CTATGAATGAAATTTGCCTTTAATGATGAATTTCCCTAAAATGAAACCACAAATTTAAGTGTACTCGTGAGAGCCACCAAATTGATTAGGACATAATTTC
ACAAGAACAAACTTTCATTTCTACCATTTGTTTTACAACCATCTGTGGACTGTAAGCCAGCTAAAATAATGGGTGAAATGAAAGCAGTTTTGAAATCTAA
CCAAAGTTTTAAAAATGTTAAGTAATATTACTATTGTTATAGATTTGTATAGAAAAATCATTTGAAGGAAAGAAACCAAGTAAAATAAAACTGCTAAAAA
TTGTATTTCTACAAGTAATAAATTCAATCACTTTTGTTACAGCTTTGTTCAGAATGGTTCAACCTTTGTGAAACACCTTTCATTGGGTTCAGTTCAACTG
TGTGGAGTAGGAAAATTCCCTTCCCTGCCAATTCTTTCACCTGCCCTAATGGATGTAYCTTATAGGTTAAATGAGATCACAAAAGAAAAGGAGCAATGTT
GTGTTTCTCTAGCTGCAGGTAAGGAATTATGTACAAGGTTAAAATATGTAAATCRATAGTATTCGCGGAAGAAAAGTTATAGGAAAATGATTATTTTTTA
AAAGCTTGTAATGCTACTCAAGATTTTATTTTACCACTTAGTACATTTCATAGATATTCACTCATAAAAATAATAACCATGCTTACTGTTTAATTATAAC
TGTGCACCAGGCATTTATGTGTGTTTTTTATGGCTAGCTGATTCTYCATGTTTCTATTTTTTCCAACTCTTGACATTCTGTGTTTTTTTAAATCAAATTT
ATTTTRCTATTCTCTTTTCTATATTTTCCCCCAATTTTAAAAAATAAACCCAATCTTGTAATTATCAAGAGGTCATGTAAGGGTCCCTATAAATTATAAA
ACAAAACAGATGTTAAATAATTTTCATCATGTGTCTAATTGGAATCAAATGCTTTCAACATTTGAATAAATATCCTTTATTCCAACTAGATTTAAAACCT
GAATCAAGTAACAAATTCAAGTAAGCAAAATAGGCTAAAGGACAGGCTTTTGTTTTCTTTTTAATACATTTCAAGCATATTTCTAGAAAGTACTTAGTAT
TTGAGGTGACTGAAGTTTAGAACTTTCCAAACTAAACTGAAAAATATCAAGTTACAGGAAGAAAGAAATAGTATTATCTGTGTAATTCCCTCTTTTACCC
TTAAATTTGCAGCTACTTAGACCAGATAAAAAGACTTAGTGATACCCAACAACTAAAATGAAAATTACCTTTCCATTAAAAATGTTCATGAAACATTCAT
AAAACGTTGTTTAAGTTCTATAATTGTGTTTTTAGATTTTCATTTGACTGTTTGATCTCCTGGTACCCGTTGTTCCCTCATGAATCCATGCAGATGCTCA
TGAAACTGACCTTAGCCATAGGGGCAAAGGAAACATTGATGTAAATAACTTGGTTTTAAAGCCTACTTTTTAGAACCCATTACAAAAAATAGTAATTTCA
ACCTTTTTGATTGTGTACTGCTGTTGTTAAACATCTTCAAAATATACACTTTAAACGATATACTGATATAAACTGTTACATCTGACATACTTCTCAGGTA
CGATATAAAACAAATAAAAACTAAAAAATTAAGTTGATAAACAAATACAAATAGAAGTGTGATATTTGCTCCTAGCATCCCAAGGGARTGTTTTGCCTAT
TCCATACTTGTAAAAAATAGGACTGTATTCAGATTTGCAGATAGGTTTTTTGGGGTTCATTTTAAACTGATTGGGGATGTCTTCCTTTGGTTATAGTATT
GCAACAACAGCAATTAAAAACAATGGTTCATACCTGTAATCCCAACACTTTGGAAGGCTGAGGCAGGAGGATCGTTTGGGGCAGGGAGTTCAAGACCAGC
CTGAACAACATAGCAAGACCCCATCTTTACCAAAAAAAAAAATTAAAAATTAGCCAGGCATGGTGGTATGTACCTGTAGTCCTAGCTACTCAGGAGGCTG
GGGCAGGAGGATCCCTTGAGCCAAGGAGTTTGAGGCTGCAGTGAGCTATGATCACACCACTGCACTGCAGCCTGGGTGACAGAGGAGACCCTGTCTCAAA
AAAAAAAAAAAATTTGTAGCCTGTTCTAATAATTGACAAATTAGAAATCACTTAGAAGATATGGAATCTATTAGTTGTGTACTCTTAGAGGTCAAAAAGT
TAATACAAACATTTCCATAYATAGTGCTAGAGATTTTATAGTTTTGACTTTTTCACAAAGACAGACCGCATATATTTTTGGATATACCGATTCAGACTCA
CCTTTGAATCTACCTGTATTCATGTTTCATACAAGGAATTAAATGGGTCAGAGTACCAGGAAGTGTGTATGGCACAGAGTGCTATATATATGTTAGCTGC
TGTCATCACTATCATCAAAATTAATATCATGTATATATCAACCATATATAAACCATATTAATCATAAATAAATAATACACAGTGTATTTGGGGAAATTTT
GTACCGTCATTTTGGAGACAACATAGGTAGGAAAAAGGTCTAATTCTTATCTTTCTTAATGGAAGAAACTAACATCTAATTCCCAATAAACAGAAACTTA
AATTGTGAAGTACACTCAGGAATTGCCAAAACTTTCTTTTATCTTAGTCAAATTCTTTCACTTTTCGATCTACATTTTAATATTTGTTTTTTATTTCAGT
CATCAAATATTTATAGGTATATATTATATACAGTTACAATTTTCARTGAATACATACTTGTTGGTGAACAARGTAGATGAGGTTTCTACTCATAGGTCTT
ATTTCCTACTGGGAAGATATATGCATTCAACAGATAGCAAACAAGATAATTTTCAGATAGCGTTAAGTGCTTTTAAGATAGTTATAAGTGAATGCTGTGT
ATATTTTATTTGTCCTCAGTTTCCCCTAACCAAAATATGTGTTATATTTATGCTTTGGCATAATTTTTTTTCTTTTGAGACAGAGTTTCGCTCTTTTTGC
CCAGGCTGGAGTACAATAGCGTGATCTCGGCTCACTGCAACCTCCGCTTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCACCCAAGCAGCTGGGATTAC
AGGCACCCACTACCACGCCTGGCTAATTTTTTGTATTTTTAGTGGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGAATTCCTGACCTTACTGTT
TTATAAGAAACCAAACTCAATCTTTAAGTAAAATTTTAGATTGCACCATTAATCATACTATTTTATCTTGTATATAAAACCTCCAATTACCTAGAATGAA
GGATTTAATGTGCCAGATAACTTGAAGTGACAAGTAAAATTGTACATATTGTGTACAGAATATAACACTTTTAAGTTGTTTTAAATTAGTGGGAAATTTG
ATAATGTTGACTCAAGTGCTCAAATGTTGACTCCATATACTTAATTAGGTATCATTAAGGTAATAATTTCATGTTTAGGTTTATTTATTGTCCTTAAGTT
CAAGGTAGAGTCTTTTTAAATATATAATTAATATTTAGTGTTTATGTGTTAAATATTTGATCTCTGATTTTACTCTTTAGATTTAATTTATAAAAGAAAG
TTTGGCCAGGTACAGTGGCTCCTGCCTGTAATCCTAGCACTTTGGGAAAGCAAGTTGGGCAGATCACTTGAGCTCAGGAGTTCAAGACCAGCCTAGGCAA
CCTGGCAAAACCTCATTCTCTACAAAAAATACAAAAACTAGCCAGGCATGGTGGTGTCTACCTGTAGTCTCAGCTACTTGGGAGGCTGAGGTGGGAGGAT
GGCTTGAGCCTGGGAGGTGGAGGTTACAGTGACGCAAGACTGTGCCACTGCACTCCAGCCTGGACAACAGAGCCAGACCCTCTCTCAGAAAGAAGAAAAG
TTTATCTGTGTATTCACACCTCAATTTAGATAAGTATCTCTCTATAGCTCTGGTTCTTAATCTTCTTTAGGTCATAGGTTCCTTTAGGAATCTGACAAGA
TAATGGAATCTCATTTGACAGAAGTTAACATAAGTATAGACATACATTTTGCAAATAATTTTAGAGGGTTTTAGAGGATTTGCAGGTGCCTGCCTTGTAC
CCCAGGTTTAGAGTAACTGTTCTATAGTAATGGAGTTCATAGGTTTGTGTGTATTATTATGATTAACATATTACTTTRTTGTGTTTTTTTTGTTAGGCTT
ACCTCATTTTTCTTCTGGTATTTTCCGCTGCTGGGGAAGGGATACTTTTATTGCACTTAGAGGTATACTGCTGATTACTRGACGCTATGTAGAAGCCAGG
TAGGAGAGCCTCTAAAGTGTTGTACTGCGAGTTTATGTCTGAATGTCTTTTACATGCTCTTCAAACTTTCCTTCTTGTCCATCTTTTCTTAACATTTGGG
AGCTGTATTTTCTTTAGGTAGTTTTTATTTTATTTTTGTATGTTCACTTAATAGGATCATAAAATTTCAAAGGGGTGAAAATCTTTGAAGTCACTAAGTT
CTAGTCCTTCATATTACAAGTCAGGTTATCTTTARCATTAGCTAATTTATTTCAACAAAACTAAAAATGTTATAACCTTTTTATGCCTTCCATAGTGAAG
GCATTGCTAGTTCTTTGTCTGAGTCTTGTAGAAGTCTTGATGTTTCCCTCTATTTGTTGTCAAGCCTTGTAACCTCCAGTTTTATGTTTTCTAGACTTAA
AATGGTTTTTTTTGTTTTTGTTTTTTGTTTTTTGTTTTTGAGACAGAGTCTCGCACTGTCGTCCGGGCTGGAGTGCAGCGGCACAGTCTYGGCTCACTGC
AACCTCCGACTCCGCCTCCCGGGTTGAAGCCATTCTGCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTG
TATTTCTAGTAGAGACGGGGTTTCACCGTGTTGGTCAGGCTGGTCTTGAACTCCCGACCTTGTGATTTGCCTGCCTCGGCCTCCCGAAGTGCTGGGATTA
CAGGCGTGAGCCACCGTGCCCGGCCGTAAAATGGTATTTTTTTTAATGTCACAATAATATGAATGAACTTATTGGAGGTCGAAAGGAAAGCACTACAGCA
GTGCCACTCAAAATGCATTCCACACATCAGTAGTGTCACCCTCACCTGAGAGCTTGTTAGAAATGCAGATTCTTGGACCCTATGCCAAACCTCCCAAATC
CAAACCTGGACATAGAGAGAGTAGGGTTGGTGGGCAGAAATCTGTGTTTTCACAAGGTCTCTGGATGATTATCAACAGTCTAAGGCTGAAGTTTGAAAGC
ACTGCTCTAAAAGATAAAACTTTCAGCAAAAGGGCATTTATACGATACCTTGTTTTGATGCCATCAGGAAAATAACTGAAGTTTGCRTCTTTACATGCCA
AAATTTTATTTTTGATACTTTTAAAACTGAAGTTTTTAGGTGGGCATCTGAAATGAATTGCATTTTTGTTAATCCGATATATAGTAAGACCTTTTTGTAT
TACCATTATGGAGCTATAGAAATTTAGGAAGCTGTTTGCTTCTTCCCTAAATGCTCCTGAATTACTGATTTAGAAGAAGGAAATGGAACATCAGCATTCA
GCATAGTATAGTGGTTAAGAACTTCGGCTTTACACCAGACTGCCAGCTTCTAATCCTGGTTCCAAACTACCAACTGACAAATTACCTTACTGGGTACTTG
GGAGGATCAAATGAACACATACAGTTAAGGTGCCTAGAGTAATATCTGCCACATGCCTAGAGTAATATCTGCCACATGCTAAACAGTTCATAAATGTTAG
TTTTTATCATTATTAATGTTTAGGCTCCCAATTATCACCTCTATGCAATATCACAAATTTGTGCTGCTTAATTTTACATAGAACTGTCTAGATTATTGGT
TAGCAAACTGTGGCCTATCACCTGTTTTGTATGGCCTATGAGCAAAGAATAGCTTTTACCTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACTC
AGGCTGGAGTGCAGTGGCGCAATCTCCGCTCACTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAG
GCGCCCGCCACCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACCGGGTTTCACCATGTTAGCCAGGATGGTCTCGATATCCTGACCTTATGATCCG
CCTGCCTCATCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCTACCAGAATAGCTTTTACCTTTTTCTTTTTAAAGGGTCATTTAAAAGA
AGAAAGCATGTGCAACAGAATTCATATATGTCCCACAAAGCCTAAAATACTTAGTATATGGCCCTTTATAGAAAAGGTTTGCCTACCCCGATCTAGAGGT
GATTCCCAGAGAATAATATATTATCCCAGAGGGTATTTGTTAGGGTAGTGCTAGCTGCCATAAATTATAAACACTTAAAATCTTAATGGCTTTTCACAAA
TAAAATTTATTTCTTGCTTGTAGTCGTAGACGCATGCTCAGTAAGCAGCCTTCTAYATACTGATTCAGGGAAGCAGGTTTCTTCCAGCTTGAGGATCTGT
CAGTTTCCATGGCTTCTGGGGCCTCTCCAGGAGGCAAGCAGAGAGGGAAAGAGAGCTGGGGGAACACACCTATTCTCCATACACTTAACATGCATCAGTT
CTGGCCACAACCAACTGTAAGATTGGTTGTGAATTGTAGGAAATTCGTTTTAGTGGACATATACCTCTACCACAGATGGTTCTACTTCCTCCCTCTATAG
AGGTAATCATGAATCAGAAGTCGTTTTATTAAAATGTACAAGATTGTTCCAGATGGTTAAGATTGCTAGCACTATGGCCAGGCATGGTGGCTCACAACTG
TAATCAGCACTTTGGGAGCCTGAGGCGGGCAGATTGCTTGAGTCCACAAGTTCAAGACCAGCCTGGGCAACAGGGTCTCTTAAAAAAACAAATATATATG
TATATATAGAGAGAGCTAGTATTCTGACCTTTTCTTAATTGAAAGTGTCACTGTCTATACTAATATTTTTATACTTTGTAAATAAAAAGTTTCCCATTGC
ATTACTGTTGAAAAGATGGGCATTAAGCTTAGACATAGAATTAATAAAAATTTCTGAGTGGTTTAGCCAAAAAGCAGTAAGACCTAGACATTTTAAATAA
CATTTCCAAGGCCACACAGATGGCAAAGCTAGGATTTAGACTTCAGCCTTCTTATTTCTTAATTTCATGCTGTTTCTAGAGTGCCTTTCTGTCTTACAAA
CAAAATTTTCATTTGGTATATAATAGTAAAATAATGCTTTAAAAAATTAACTGTCTTCAACCAGTTTTTAAACTGGTTGAATTATGTTTTTCAAGGTCAG
CTTCTACCAGTTTGTTTTCTTTCTCTCTCTCTCTCTCTCTTTCTCTCTCTYTTTCTCTCTCTCTCTCTTTCCCTCCCTCCCTCCCTCCCTCTCTCCTTCC
TTCCTTCCTTTCTTTCTTTCCTTCTTTCTTTCTTTTCTTTCTTTTTTTTGAGACTGAGTCTCGCTCTGCCATCCAGGCTGGAGTGCCGTGGCGCAATCTC
CGCTCACTGCAAGCTCCGCCTCCCTGGTTCACGCCGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACTACGCCCGGCTAATT
TTTTGTGTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGTCAGGATGGTCTCGATCTCCTGACCTCGTGATCTACCCGCCTCAGCCTCCCAAAGTGCTAG
GATTACAGGCCTGAGCCACCACGCCCGGCCTTCTTTCTTTTCTTTCTTCTTTTTTTTTTTGATAGAGTCTTGCTCTGTTGCCCAGACTGGAGTACACTGG
CACAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAGGCAATTCTCTTGCCTAAGCCTTCTGAGTAGCTGGGACTACAGGCACGCACCACCATTCC
TGGCTTATTTTTGTATTTTTAGTAGAGACAGCGTTTCACCATGTTGACCAGGCTGGTCTCAAACTCCTGACCTCAGGTGTTCCGCCCGCCTCGGCCTCCC
AAAATGCTGAGATTACAGGTGTGAGCCACTATGCCCAGCCAGTTTGTTTTCYTATATGTTTGTTTTACTCTTGGTTTCTGCTATTTAAAATAATTAAGTT
CTTRTTTAATAGTTACTTCGATTTTGAAATACCATAGACTTCAAAAGTAGAATCTGGAGCTATGAGGGACCTTAAAAATCACCCAGTCCAATCTCAAATG
AAAAAACTGTATCAGAGAGGGAGTCACACAGATTGTTAGCATAAAATTCTAGTCTAGAATCAAGGTTCCTGACTTTAATTCAGTACTTACTCTATCATAC
TATGACTACTTTCTACATGAAAATATAAAGAAATAGGGCAAGAGAGAAAACGCATTCAAAATATAGTCACCAAAAGTGACTGGTTTTTGTCTTCARTTTT
TAAGTGTTTGTTTTCATTTCTGATCCACTTAATTCTGTTGTTTTAGGAATATTATTTTAGCATTTGCGGGTACCCTGAGGCATGGTCTCATTCCTAATCT
ACTGGGTGAAGGAAWTTATGCCAGATASAATTGTCGGGATGCTGTGTGGTGGTGGCTGCAGTGTATCCAGGATTACTGTAAAATGGTTCCAAATGGTCTA
GACATTCTCAAGTGCCCAGTTTCCAGAATGTATCCTACAGATGATTCTGCTCCTTTGCCTGCTGGCACACTGGTAAAGATATTTCTTAAAATGTTTTTTT
GTTTTTTKTTTTTTTTCTGAAAAATGACTTTTAGTTTCTAATGTAAAAATAAGGGTAATTAAGAATCCAAATCTTACGAATTATTCAAATGTCAGTATTG
ATTTGGCACCTGCTGGTACTATAAGTGATTGGTCTTTGCCTGAAGAACTTTGCAACATGGTAGAAGAGATGATGATGTGTACATAAATATGGCCATTGCA
ATAGATTGTAGAGGAAGTGTTGTGTAGTCTCTTAAAAGAGAGAGAAGGTCCAGTAGGTAGGTCTCAGGGAGAACGTTAGAAAGTAGCTAAAGTTTCACCT
AAATGAGCCATAAAAGGTGAGTAGGACTTTCGGAGAGATGGAGAAAGTTGTTGGGAGACATTAGAGTTGAAAAGAAGCCAGGTGTATGGCACACACCTGT
AATCTCAGCTTCTCAGGAGGCTGAGGCAGAAGGATCACTTGAGGCCAGGAGTATGAGTCCAGCCTAGGCAACATAGCAAAACTCAGTCTCTTTAAAAAAA
AAAAAAAAAAAAAAAAGAGGAAAGGAATAATAGGGTTGCATAGTGGATTGAAGCACAGTTTAGGGGACATAGTACTTAATAGTGTTTTTGTAAGAGCCTA
GGCTCTTATAAAATACGTTTTGTGAAAAAGTCAATATGGTTTGGCTTTTTGTGTAGGATACCTGCAGGGTAGTAAGAGATTATGGAAAGGGTGAGCCAGG
TTATGGAGAGCCTTGACTACCAATCCAGGGAGCTTAAAGATTATCTTATGAACAGTGAAGAATGGATAGACATTTTTGAGTGTTTTTTTTTCCCTAATCA
AGAATGGACAATAATACTATACTTTTGCCACTTCTGATCTGCCTTTATGTTAATAGTTTGTTATATATGATTGGGGGGGCTGGGAGGGGATAGTAGCTTT
GTAAGCTACTCCAGGGTTAGCATATATTTGTGTYCTCATGATATTTATTTATATCATGAAGTACTCAACATTTGTCCAAAATTTTTTTATTTGTCCTCTG
TTATCAACTGACATTTCTGTTACAATGAATATAGGTTCATGCTATCAGGCAGGTAATTATTTTACACATAACTTTGTTTTCTCACAGTTTATCCAAAAAT
ATTCACAGCATTATAATTTTTATAATTAATAGTAGAATTTTTATATTATAGAGTTTTGGTTATATTCAGAGTCTTTAAAATGAAACATAATAAACATGTA
AGGACTCTAAACATTTTGCTTCTATTTAACATTCTTTACCTTATTTTTAAAAATATAATTGTATATTTTCCCAAATGTCATCCTGAGTATCACATTTATT
ATTTATATGGGTAAAGAAAATGACTTATGAATTCTTTACATTCACTGGGGTATTTTCCAAAGTCATTATGGATCCTCAAATTTGAGAGTTTCCCTTTAGC
TCATAATTTACCCCCATTACCTGTGTATGCAGATGAGTAAAAATARCAATGCCAATTTAAAATTCAGATGCTGGATAACAAGCTAGGTTCGTTTATTAGC
TGAAGAGATCACTCTGATAGAAACTGTAGAAGCTCACTAGATTTGTTTTTGTGTATCAGCAGATTATTTTATGTCACAGACATGAATAGTCAAAACTACT
GATGTTAAATATTTGTATGCTCGTCTGTATTATTTGGTATATAGGAGCTGCTTCTTCCCTGGCCTCACCCCAATTCCTATTTCTCACTTCAAAGGAAAGT
ATATATTTTCACATTACTTCAGTTGTCGGATTTGGGGGAAAATAAGAAAAATGTAATTTCTAACAGAGGTAACACCCATTATGTCTCAAACAGGATCAGC
CATTGTTTGAAGTCATACAGGAARCAATGCAAAAACACATGCAGGGCATACAGTTCYGAGAAAGGAATGCTGGTCCCCAGATAGATCGAAACATGAAGGA
CGAAGGTACAGAACTTTAACTAAAATAGTACAAATTYATCAAGGTGATGAAATTAAACCTTGCAATTGTTCACTTAGTAAATATTTGTGTGCCAAACCTC
ACGATATAATGATTAAAAAGATTAACATAGTTCCTGATCTCACCAAGTTTTTAGTTTCTAGCAGAAAAATAAAATTTTATATCTTTTGTCAGCCAGTTTG
AAAGATAATTTTGGTGGTTTCATTTATAACTATAATAATCGCCATGAACTGCATGCTTACTATTGCTAGGCATTGTGGTAACTACTTTACCTATRTTATT
ACCATTTAACACTCCCCAAAACATTGAGAATGAGTGATATTGTTTCCATTTTTTTTAATTATTATACTTTAAATTCTAGGGTACAGGTGCACAACGTGCA
GGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCATCATTTACATAGGTATATCTCCTAATGCTATCCCTCCCCCATCCC
CCCACTCCACAACAGGCCCCAGTATGTGATATTCCCCTTCCCGTGTCCAAGTATTCTCATTGTTCAGTTCCCATCTATGAGTGAGAACATGCGGTGTCTG
GATTTTTGTCCTTGCGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGT
ATTCCATGGTGTATATGTGACACATTTTCTTAATCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATACTGCTGCAAT
GAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTCT
AGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTAACAGTCCCCCCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCC
AGCACCTGTTGTTTCCTGACTTTTTAATGATYGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGA
TGATGAGCATTTTTTCATGTGTCTGTTGGCTGCATAGATGTCTTTGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGCTTGAGTTCTT
TGTAGATTCTGGATAACTGAAGCAGAGTAGCTTGCCCAGAGTCACATAGCTACTAAGTGGTAGAGGTAGACTTTACTCATGGTCTATCTTGAGAGCCTAG
GCACTTACAAAATACTTTTTGTAGAAAGGTTTATTTGTATATGGTATTAAAATAAATGTGCTTTTCTAACTTCTCTTGAGTTCACCATATTCGTCATCTC
ATGGCACACTATCATCGCCGCCAATGCAAGGCTAATAGTAATTTATTTCATTTTATTCCCCATTCCCCTTAGTCATTCCAATGTGTTTATTATATATTTA
TTTTGTAAAACATGCATTGTTTTATGTTCATGTGGGTTTTTTAAACTTTGTAATTTTGAAAGATTAGACTCACAAGAAGTTGAAAAAATGATACATAGTA
TGCCATGAACTCTTCACCCAGTACAGCATCAGAGTCAGGAGATTGACATTAGTATGTTTTCAACTTTTAAAAGTTTTTACATTCACTTGTGTGTATATGT
GTATGTGTAGATCCGTGCAATTTGACCCCATGTATAGCTTCATGTAGCCACTGCCATAATCAAGATACAGAACTGGTCCATCACCATAAAGATCTTTGTG
TACCCTTTTATGGTCACACCTGACCACTCCACCCCCAACCCTGGTCTCTCTGGCAGCTACTAATCTGTTCTGCAACTCTATAGTTTTGTCATTTTGAGAA
TGTTATATGAATGAAACCATGTTCTATATAACCTTCTGAGATTGATTTTTTCACTGTGCATAATGCCCTTAAGATCCATCCAAGTTGTTGCATTTATCAA
TAGTTTATTCCTTTTTATTGCTGAGTAGTATTCCCTTTTATGCATATACCAGTATTTATTTAACCATTCATCCAAACCATTCATCCATTGAAGGACATTT
GGGTTGTTTTCATGTTTTGGCTAATACGAGTAAAGCTACTRTGAACATTCATGTACAAGTTTTTGTGTGACACATAAGTTTTCATTTTTTCTGGGATAAA
TGTCCAAGAATGGGATTGGTTCATATAGTAAGTATATGTTTTGTTTTAGAAGAAACTGCCAAACTATTTTCCAGAGTGTTTTACCATTTTAATAAATTCC
CGCCAGCAAACTGGAGAGATCCAGTTTTGCTACATCTTGCCAGCATTTGGTGGTACCCCTTTCTTTTAAGCTGTTCAGATAGCTTCATAGACCACTACAA
ACTGTGTGTGGTGGGGGGGTGGGTCTGAGATGGAGTCTTGCTCTGTCCCCCAGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAMTCTCTGCCTCCT
GGGTTCAAACGATTCTTGTACCTCAGCCTCCCAAGTAGCTGGACTACAGGTGCATGCCACCACAACTAGCTAATTTTTTGTATTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTTTAGTAGAGATGAGGCTTCGCCATGTTTTGGCCAGGCTGGACATTGTGGTTTTAATTTGCATTTCCCTAATGGCTAATG
GTATGGAATATCTTTTCATGTGCTCATTKGCCATCCATCTTYCCTCTTTGCTGAAATGTCGGTTCACGTATTTTGCACATTGTCTCTTTCTTTATTATTT
TTTAGAGACAGGGTCCCACTCTGTCACTGAGACTGGATGGCAGTGGTGCATCATAGCTCACTCAACTTCTAATTCCTGGGTTTAAGCAGTCCTCCTGCCT
CAGACTGCCAAGTAGCTGAGACTACACGTGTGCACCACTGAACCAGGCTAATTTCTTTTTTTAATTTTTTTGTAGAGGTGGGAGTCTCCCTATGTTCCCC
AGGCTTGTCTTGAATTCCTGACCTCAAGCAATCCTCTTGCCTCAGCTTCCTAAAGTGCTGGGATTACAGGGATGAGCCACTGAGCTCAATCTCTTTTGTC
CGTTTTATAATTGTATAATTGGAGTGCTGTTTTTTGTTTTGTTTTGTTTTGTTTTTACTATTGGTTTTTTTTATTGTGGTAAAATAGACATAATGTATAT
TTACCATTTTACCATAAAAGTTACAATTTTAGCCATTTTAAGTGTACAATTCAGTGGCTTTAAGTACAATCACATTGTTGTGCAACCATCATCACTGTCC
ATCTCCAGAACTTTGTCATCATTCCTAATTGAAGCAGGAACTCCTCATTATCTCCTTCCCCAGCCCCTGGAACCACTATCCTACTTTCTGCCTCTATAAA
TTCARTTATCCTAGGGACCTCATATAAGCGGAATCATACAGTCTTTGCCCTTTTGTACCTGGCTTATTTCACTTAGCATAATTATTTTTTATCAATACAT
AAGAGTTGTACATACTTAGCATAATTCTTTTGAAGTTCAGCCATGTTGTAGCAGATGTCATAATTTTATTCCTTTTTTTGTCTTTTTTGTGATAAAAAGC
ATGTAACGTTAAATTTACCTTAGCCATTTTCAAGTGTACAGTTCAGTAGTGTTAAGTATATTAACATTGTTGTGGAACAGATCTCTAGAACTTTTTTACC
TTGCAAAACAAACTCTATACTCGTGAAACACTAGTTCTTCCTCCTCTATCCCCACTCTTCCCAGGCCTTAGTAACCACCTGTCTGCTTTCTGTCCCTGTG
ATTTTGACTACTTTAGATACTTCATATGAGTGAAATCATGCAGTATTTGTTCTTTTGTGACTGATTTTTTCCACTTAGCATAATGCCAAGGTTCATYCAT
CTCATAGCATGTGACAGGATTCCCTTCTTTTTCAAGGCTGCATAATATTCCATTGTATGCATACATTTTCTTTATTCATTCATTGTCAGTGGGCATTTTA
TTGCTTCCATCTCTTGGCTCTTGAGAATAATGCTGCAGTTAACATGTGTATGCAAATATCTCTTCAGGATCCTGCTTTCATTTTTATGTATATATACCCA
AAGTGGAATGCTAGATTGTATGTTAATTCTATTTCTAATTTTTTGAGAAACTTCTATAATATTCTCCATAATGGCTGCAACATTTACATTCCCACAACTA
TTCAAATTTCTCTGCAACTTTGCTAACACCTGGTATTTTCTGTTCTTTTGATAGTTACCATCCTAATGGGTGTGAGGTGATATCCCATTCTGGTTTTGAT
TTGCATTTCCCTAATGATTAGAAGTGTTAACCATCTTTTTATATGTTTGTTTGCCAATTATGGGTCTTCTTTGGAGAATTGTCTATTGAAGCCCTTTGCC
CATTTTTTAATTGGTTTTTGATTTTTTGGTTATTGACTTGTAGAAGTTTCTTATATATTCTGGATATTAACCCCTTATCATACATATGAGAATTTCATTT
CTTTTTAAGGCTRAATAATATTCCATTGTATGTATATACCACATTTTGTGTTTCCATTCATTTGTCAATGGACATTTGGGTTTTTTCCACCTTTTGGCTA
TTGGGAATAATGCTGCTGTGAACATGGGTGTACAAATATCAGTTTGAGTCCCTGCTTTCAATTCTTTTGGGTATCTACCTAGAAGAGAACTTGCTGGATC
ATATGATAATTGTTTGTTGACCTTTTTGAGTAACTACCGTACTGTCTTCCACAGTGGCTGTGCCATTTTACACTCTTACTAATAGTAAACAGGCTTCCAT
TCATCTATATCCTCACCAATACTTGTTTTTTTCTGTKTTTGTTTTTTTGGATTTTGTTTTTGTTGTTTTGGTTTTTGTTTTTGKTCGTTTGTTTTTGTTT
TTTKTTTTTTTTGCTAGTAGCCATCCTAAATGGCTATGAGGTGGTATCTAATGGTTTTGATTTGCATTTCCTTAATGATTTCTTAGTGATGTTGAGCATC
TCTTCATGTGCTTGCAGGCATACATATATCTTCTTTGGAGAAATGTCTATTCACATCCTTTGAATTTAGGGAATGAATTGAGTTCTTTTGTTATTGAGGT
GCAGGGTGCTTTGTATATTCTGGATACGAAACACTTATTAGATATGGTTTGCAAATATTTTCTCCCATATTGTGGGTTGTCTATTCACTATCTTAAAAGT
ATCCTTTGATAAACAAAAGTTTCTGATTTTGATTAAGTCCAATTTATCTACTTTTRTTACCTGTGCCTATTGTATCATATGCAAAAAAGCCTCATCAAAT
TCAATGTCATGAAGCTTTTGCCATACATTTTTGTCTAAGAATTTTATAGTTTTAACTCTTGTGTTTAGGTCTTTGATCCATATTGAGTTAATTTTTGCAT
ATGATATTAAGTCCAAGTCCATTTTTTTTTTTTGCATGTGAATATCCAGTTTACTCAGCTCCATTTGCCAAAAAAAATATAAACTGTCCCTTCCCCAATG
AATGGTCTTGGCACCCTTGTCAAAAAAAATTTGACTGCATATACAGGGTTTATTTCTGGGTTCTCTGTTCCATAGGCCTCTGTGTCTGTCTTTATGACAG
AACCACACTGTTTTGGTTAGTGTAGCTTTGTAGTAAGTTTTGAAATGAGGAAGCATGAGTCTTCTAACTTTGTTCTTTTTCTAGATTGTTTTGGCTATTC
AAGGTCCCTGGAGATTCCATATTTATTTTAAGATGGAATTTTCTATTTCTACAAAGCATCATTCTCTTTGGAGCATTTTTATGATACCTCCCTTAAGCTT
TTCTGTCAGATACTTCCAACATCTGAGTCACCTCAGTGTTGTCACCTGTTAATTGCCTTTTCTCATTCAGGTTGCGATTTTCCTGGTTCTTGGCCTGACA
AGTAGTTTTTCGTGTTTTCCTAGACCTTTGGATGTTATAGGACACTGGATCCTATGAAATCTTTCATTTTACCAAGTAGCCGTTATTTAAGTTTAGTATG
CAGCTTCTGGCCTACTCTTGTGGGCTGTGGTTTCAGTAACAATTTAATATTTAGCAAGGTTATTCTGGTCTACTTCATTCATGGGCTATCAGGAGGCCAC
TCAGGAAACCTGAGTGGAATTCCACACTGTGTAATTTACTTCTCAAACCTTTGGGTGTGTTAATGCTCATCTGTTTCACATGTAGATTGGTCAGAGCCTG
CCCAGGACTTCCTATACAGCTTTAAAGCGTGGTTTTCCAGCTTCCTCCTCTTCAGATCTTCCCTGAAATCTCTAGTTGGGAGTGTGAGGGGCACCCCATC
ACTGCTGGGCAGGGCATGGAAATCCGGACTCTCCACTCAGTCTCTGCTGACAGCATGCTGTCAGGAGAGGGGAGCACTGTCCCTAACGACCTGCTTCCAC
TGGGGGTGGAAGTCTATACTCCCCACCCAGTTTGTGCTAACATCATGCAGCAGGGGTGGGAAACACCCTGAGCTGCCTGCTGCCACCCCAAGGCCACCTA
CTACTGCCAGGTTGGGTGTGGAAGTTCATACTCCCCAGATTCCCCTCGTGGTGCCCGCAGGTACCACGCTGCTGAGGAAGGGGARCACTGCCTTAAGCCA
TCTGCTACCCCCAGGTAGGGGATAGGAGTCCAGGCTTCCACTCAGTCTCCACTGACATTCCAGGGAGAAAGGACATCCATGGTGTTTACTGGCACAGGGC
GGATGTTGTCACAAAAGTTTCTGTCTGGGTAGGGTCCCTCTTTCCTTTTCCTTTGGCTAGAGTCAATTGGTTTTTCTTGGAACTCTTTGTCATTACCTGT
TGGAGGTTGCAGGTTGCTTTTCCAAGTTTACATCTCACCCAGACTGGTATATATGGAGAATTTTAAAAAAAGAAAAAAAAAACCAGGGAACTCACCACTA
TGACATTCCTCAAGTCTTGAGGTTCCTAGCCAATCTGCCTTCCTCTTTACACTTTTTGAGTCCTCTTATGATAGTCCACTGTATTATGCTCAGGGATTTT
CATTGTACTTAAGAGAGGAAGATCAGGGAAAAATGAGTCTTCTCCCCTTTTTCATACCAGAAGTTTTTGAACTTTCTGTAGTTATGTGTGTTTGAGTATG
TGTAAATTACTTATGCTATATATTACATAGCATATATTCAGTGTACTATAATATATACTATAATCAATAATTTATGTTTTGAGATTATACACAGATATTA
GATATACCAGTATTATCTATGATTAAACTTTTACRAAAAAGTTATCTTACTATATATGTCCTTTTGCAACTTGTTTTATTCAATCATTTTGTTTTGGAGA
TTTATCTTTTTTATATAAATTTAAGGGGTACAAGGGCAGTTTTGTTGCATGGATATATTGGGTAAGGGTGAAGTCTGGGCTTTTAGTGTAACCATCAGCA
AAATAATGTACATTGTACCCATTAAGTAATTTCTCATCTGTCACTCTCATCTCACCCTTCTGAGTCTCTGGTATCTATTATTCCACACTCTATGTCCATG
TACATACATTATTTAGCTCCATTTTGATACATGTAAATCCAGTTCATTAATTTCAAATGGTATAGAGGGTTTCCCATTGTATGAATAAACTACAGTGTTT
ATCCATTCCTCTATTGAGCAGTTATTTTTTGTGAATGCAAGCAATGTGGCAGTGAATATCCTTGTACACATCTCCATGTGCACATAAGTAAGGGTTTCTC
TAGAATATATATAGAAATGAAATTCCTATGTGGTAGAATATACACATCTCCAACTTTGTGCTTGTATATTCTGGATACAAAATAATAAGATACCACCAAA
CTGAGCTTTAGAGTGGTTGTCCTAGTTTATTATATTTAAAATTTTGTAAATGTTTTAAAATATTTGTATATACTATATATAATACTTATAAAATTTTATT
TTATACACATTTTGTTTTTTAGGTTTTAATATAACTGCAGGAGTTGATGAAGAAACAGGATTTGTTTATGGAGGAAATCGTTTCAATTGTGGCACATGGA
TGGATAAAATGGGAGAAAGTGACAGAGCTAGAAACAGAGGAATCCCAGCCACACCAAGGTAGTGTAAATGTTATAATGCTGTGTAATTATACCCTTCTTT
AARAAAGCACWTACTTGTGGAATCTTTTATTCTGTTAACTATGAACTCTTTACATTAAGTCAATCAAAATTTCCCTGCCTTCTTCCCTTCATCTCCCCAT
TATACATTTACACAATCCTGTTGATATAAGTTATCAAGTAACACTATCTGTTCTTTTCTGTAAGTGCTCGTGGGTTGATTCTCTACAAGCACCTCAAAGG
AAAGATTTATGATTCATTATCCCAGTGGTTAAGACATTTTCGTAACCTGAACTGCTTATTGATGTAAACATTTCATTATGCCCATCTTTTGCAAACATAG
AAAACAACCAGTTGTTCTGTCTTTTATGCAATTCTTTCACTTTCTGAACCTTTTTTCCTAATTTTTAAATCTTTTTTCCTAATGTTTGTCATTTAAGAAG
TTTTTATCATTTCAAATGCTAAATACATCATCATAAGCTATTAAAATCACTTTTAATATTACTATCACCCAAATAACGTACTTTGTACCCATTAAGTAAT
GTCTATTAAAATAGCTTCTGATACTGTATTAAGCTGAGAAGTTATTTTCTTATTCTAATTTTTTTTTTTGAAAGAGAGAGCCTCACTCTGTTGCCCAGCC
TGTAGTGCAGTAGCACAATCATGGCTCACTGCAGCCTCTGTCTCCCAGATTCAAGCAATTCTCCTGTCTCAGCCTCCCAAGTACCTGGGGACTACAGGCG
CACACTACCAGACAGGCTAATTTTTGTATTTTTAGTGAAGACGAGGTTTCACCATGTTGGCCAGGCTGATCTCAAATTTTTGGCCTTAAATGATCCACCC
ACCTCAGCCTCCCAAAGTGCTGGGATTACAGAAATGAGCCACTGCACTCGGCCTTTTATTCTAAATTTTATCTTCAGTAAGAATTGTCCAAAAAATAGTT
GTGTACTGGGTGTGGTAGCTGACGTCTGTAATCTCAACACTTTGGGAGGTTGGGAGGTTGAGGTGGGAGGATAGCTTGAACCCAGGAGTTTGAAACCAGC
TTGGGCAACATAGTGAGGCCCCATCTCTACAAAAAATAATTAATAAATAAGTTGCCATCTTTACATGCTTTACCAGTTTTTTAAAAATCTATTTGGTACA
TTAGATCCTTGTACTTCCCTTTTATTTTTCTTAAAAATGAGCTTTCAAATTAATGTGTCTGCCTTCCCTCACTTTCTCCAGCCCTATTTTTCATGTTTGC
TATCTTTTCTCTAGTACCTTATCCCAATATTCAGATTCCTTACTCCTACCTTTTCCAACTGCCATCTTCTTTTATTCCACAATTCCCATTCTACATCATA
GAATTTTTTAAAATTATGTGAGGATGATAGACAATGGCAAAACYGTGAGAGGAAAAAATCTTTACATGATATAGTACACATTCCTATAGAGTAAGGATTT
TTTAATAGTTTTCATAATATGTTATATGATTCATTACAATTGTTTACCGAATGCCCTTTAAATAGTACTTAAAGGACGCCAACTTAAAGAATAAAAATAC
GTTTTTTAATTTTAGAGATGGGTCTGCYGTGGAAATTGTGGGCCTGAGTAAATCTGCTGTTCGCTGGTTGCTGGAATTATCCAAAAAAAATATTTTCCCT
TATCATGAAGTCACAGTAAAAAGACATGGTAAGCTGGTTATTTTATTTACAAAGAACCTTCAAATGTACTATGTATATTCTCAACCTATGTAATCATCAT
TTGATTCTATCAGCTAATATCGGAAAACCCTTAAAATTAAGAAGAAAGAAAATTCATTAATTTACTAGTGTGAAAATTGTAACAATTCTAGTTGAACCAT
ATTTGTCGCAACTTTGAACTGAGATAAGAAAGCAGCATAGCTGTTGCCTTTATTGTGCATGTCTTTTTCCTCACTGTGACTGAGCAAGTTGCATTTCTGT
GAGCAATTTTGCAATCTTTACWTGTCTTTTTCTAGAATAGTGCTGTCCAAAATAATGTGAACCACATACATAATTTTAAATTTTATAGTACCCACATTTT
AAAAAGTAAAAAGAAGCAGGTGAAATTGATTACAAGATATTTTATTAAATCAGCCAGGTGCAGTGGCTCATGCCTGTAATCTCCACACTTTGGGGGGCCA
AGGCAGGCAGATCGCTTGAGCTCAGGAGTTTGAGACCATCCTGGGCAACATGAAAACCCATGTCTACAAGAAATACAAAAATTAGTAGGGTGTGGTTATG
TGAGCYTGTAGTCCCAGCTACTTGAGAGGCTGAGGTGGGAGGATGGCTTGAGCCCAGGAAGCGGAGGTTGCGGTGAGCCAAGTTCATACTACTGCACTCC
AGCTTGGGTGGACAATACCAGACGCTGTCTTAAAAAAAAAAAAAGACATTTTATTTAACTCAGTGTATGTATATAAGATATTGTTTCAACATGTAATCAA
TATAAAATTATTCATGAGCTATTTTACATTCTTTTTGGGTGGTGCTACATCTTCATAATCCAGCTTATATTTTACATTTATAACACATCTCAATTCAGAC
TGGCCACATTTTCCAAAAGTGGATAATTTATTGCCTTGTAGTAGATAAAAATAAACTAAATATTACTATTTGTCTGTAACTAGATGTGTGAATTGTTTTG
AATGATTAAAACTACCATGTCTTATGTCATTTTTCAGGAAAGGCTATAAAGGTCTCATATGATGAGTGGAACAGAAAAATACAAGACAACTTTGAAAAGC
TATTTCATGTTTCCGAAGACCCTTCAGATTTAAATGAAAAGCATCCAAATCTGGTTCACAAACGTGGCATATACAAAGATAGTTATGGAGCTTCAAGTCC
TTGGTGTGACTATCAGCTCAGGCCTAATTTTACCATAGCAATGGTTGTGGTAGGTGATTCGTTTGTAAAAACATTTCAAAAAATGATGTGCTAGAGTTTG
CTTAGTTCCTTATTCCCATTTGTTTTCAAATTCACTTCATTGCTAAAAAGTAGTATATTGCTTACTAGCTAGTTTTAAATAGTCTTTCCTAATTAATCAA
GTATTATGCGTATCACTTTTAACCTGTAACATTCAGTATCCAAAAGCCGAAAGTAATAGATGATGACTAATGAAGTGCTTCCTAGAGTTTTTCACATTCA
GAGCACACATAGAAGATGTTATTTGTGGCCAGATGCAGTGGCTCACACACTTGGCGGACTGAGGCAGGAGGATCACTTCAGCCCAGGAGTTTGAGACCAG
CCTGGATATCATAATGAAGCCCCACCACCATATTTGAAAARAAAAGAAAAGAAAATGATATTTGTATAGCACAATAGGTTACATGGAGTAGGCTGCTTGT
GCTAGATCCAACTACTTCAGTTAGCCCCAGGCCCCACCCAGCTACCCTGAAAGCTGAGGGTCTCTGTATCCTACACACCTGTGCTATAACCAGTGCCTCA
GCACACTAGTTGGAAAGCCCTGAACTAGTGAACTAAAGTGGATAGCTTTAGTTAACATTCTGTTTTCATTGTTGCATTGCTGCAATCAGTTTGTCCGGCA
AAGAATTTTAGACTCTCTGCTGTTTTAAATCTATACTTTAGTCTAAAAATAAACTACAAGGAAGTAAAATAGAGAAGGTATGTGTTCTTCTRTGCCTGGC
TAGCTGTTTTCACGTTGTCAAAAAGAGTACCAAACCTACTACTATAAATTATAGTAGAATGAAAAGTGTAAAAGTACACAAAGGTAGCTTTGGTTCAGCG
TGGACCATTAAAATTAATGCATATTCTTGGTCAACAATGCTTTTCTCTTCTTTCTCTGTATCTCTGATAAATTTACTCATGCTATTGGAGTAAAAGTTCT
GTGTTWATTTATGGCCCCAGAAGCAAACAATGGGTATCAGATGTACTTAAAGAAAGCTATTATGAATCTGCTGAAGAATGAGTTACATAAATTTAAGTGT
GTGCTGTCTGGGTTCAGTGGCTCACACCTGTAATTCCAACACTTTGGGAGGCTGAGGTTGGAGGATCATTTGAGCTCAGGAGTTCAAGATCAGCCTGGGC
AACATAGTGAGACTTCATCTCCACAAAAATTTAAAAAAAAATTAGCCATTTGTGGTGGTACACACCTGTAGTCCCAGCTGCTCAAGAGGCTAAGGCAGGA
TGATCGCTTGAGCCCAGGAGATTGAGGCTGCACTGAGCTCTGATCTCGCCACTGCACCCCAGCCTGGTGACAGAGYGAGACCCTGTCTCCAAAGGGGTTA
AAATAAAAGTGTGTTCTGCCTTCAGTGTAGCTGTGGCAACTTCCTTTTGGAGCTGAGTAACTTTCTTGAGGTGACACAGAGAAATAATCACCTCTAAAGG
CTTTCCTAACTTCTACGGCCAAAAACAGTCCTTCTAAGTCAGCCTCATAGGATTAGATCTGTTTAGGCATCTACACTCAAATTCTGACCCTCATGGTATT
TTAAGTAATTTTTTTCAAGCTTATGAATAGTTTCTGTGGGTAGGAACTAATTCTTCTGTGATCTTAAAAATTTGTATATTTGTTTTTGGCATTCACTAGG
CCCCTGAGCTCTTTACTACAGAAAAAGCATGGAAAGCTTTGGAGATTGCAGAAAAAAAATTGCTTGGTCCCCTTGGCATGAAAACTTTAGATCCAGAGTA
AGTTGGAATATAAGTATTAAGAATGTTATCATATTTAATCCAAATACATTGACATCAACCATAATTTTTTTTTTTTTGCCAGGGCAACAAAAGGAGATGC
CATCTCTACAAAAATAAAAGTTAAAAAAAAAATTAGTTGGGAGAGATTGTGTACACCTGTAGTCCTAGCTACTCAGGAGGCTAAGGCAGGAGTATCACTT
GAGCCCAGGAGATCAAGGCTGTAGTGAGCTATGATGGCACCACTGCACTCCAGCCTGCYTGACAGAATGAGACACTGTATTAAAACACACACACACACAC
GCACACACACACCAAAACTCACAATTAAAGCTGACTCTTGTGACCAGCTCTCCAAAAAAAGAAAAGTAACAAATGGAGTATAGATAACTGTGTTATAAGT
TCCATGTATTACAATAAAGCAATATGTATATTCAGTTGCTATTTGTAATCCGATAATAGGCCAATTTTAATTTTAAAATAATTTTATGGAGAAGCTTAAA
AATCACCTTTCCAATCTATAATTAATAAAACCATGTCTTTAATTTTTATTAATTCAAATTATTCTATATATATTTCAATTATTAGATAGGCTTCAATATA
TTAGAGGCCTAGGAAATAGTTGACTTTAAACCAAGCCATATTTAGTGCCAGGCTAACTTCTTTAAGGCAAGATACCAGAATATTTTACATTTTTTATATT
AACCAGTATTTGTTAATCATTTTTAACACATGATTAAAGTCCTGTGAACTCAGTATGTACTAATTTAAGKTTAGATGGATGATGTACTAATGCCGAGCTT
ATTCTGTAGAAGACAAAATAATTRATTATTTCTCTTACCTTTGTTATTGAAATTTTTCTAATGCTTTTTACATAATATCTGATCATCTTTTATTTAACTT
AAATTTCAATCATTTTGCAGTGATATGGTTTACTGTGGAATTTATGACAATGCATTAGACAATGACAACTACAATCTTGCTAAAGGTTTCAATTATCACC
AASGACCTGTAAGAATTTCATTTATCTTCTGAGTTTCAGTTTAAATTATTTTTCAAGTAATTTTTAGGTATTTATGGTTTTTTTTGTCTTTTAAATAATC
TTTTTTAGGAGTGGCTGTGGCCTATTGGGTATTTTCTTCGTGCAAAATTATATTTTTCCAGATTGATGGGCCCGGAGACTACTGCAAAGACTATAGTTTT
GGTTAAAAATGTTCTTTCCCGACATTATGTTCATCTTGAGAGGTAAGTCATCAGGAGCATGTAATTTCCATAACTAGTGTTTAGTCAGTTTATTAGCTAT
TAGGTAAATTACAGTTTCTTAGAATTGATTTCTGTATGCCCTAGGTATCCCAATGAAAAGTGAAGCCTTTATTCTTTAACATGACAAATTCTGTTATATA
ATTTTCACTTTCTCTTATTTTGGGTTGTTATTTATTTTAAGTTGAGGTCTTGATATTGTGCGATTTATACATGTGGAATAGTCTTTGATTTTTAAAATTT
CCCTGATGTTTTTGGATGTGGTTAGCACAGGATAAATATAAAAACTGAAGGTACTCAGCCTGGGCCTTTTGAGTTAATTGATTTAAAGATATATCAAGAA
ATAGTTTTCAGAAATGCTTTCATTATAGTTAAAATATCAGAACTGGTCTTTTGCCTGTTAGTTCAAAAAACATTTTTCACTTCCTTGTCCTAATTATTAG
CAAATAGACAGTGTCAGAGTTACGTATCTTTATAAGAGTATAAATTCAGAGTGTATCTTAATTCCTCAAATTTTAGATTATACCTAAGTATATCTATATT
CTATTCCTCAGATAATGAATAAACAGCACAAATTTTATCTCCTTTCTTACAAGCACATAAGGGACTTCTGCGTGTTTCATATTAATAGAGCCACTCCTGG
TCTGTTTTGTTTGGTTGTCACCATGGTACAGATTTTACCATCCTTTTAAGCTATTTATGTCTTTGTATTTAAAGTGGCTTTCTTGTACATAGTAGCATGT
AATCGGGCCTTGCTCTCGTGTAGCACAACAGTTTCTGCTTTTGGAATATTTAGACCATTTACACTTAAGGTCTGAAATTGTGAAATTTAAATGTTTGTTG
TCTGTTTATTCTGTCTGTTCTTTGTTAGCTTTTTCCTCTTTTTGTGCTTCTTTTGCATTGAATATTTATTATTTCATTTTAATCTCCTTTGTTGGCTAAT
TAGATGTAATTCTTGTTTATTTAAAATGGCTGCTTTAGGTTTATAGTATATGTCTTTATAGTTTACCTTCCAGTGATATACCACTTCAAGTAAGGTATAA
AGATCCTTAAAATAGTATAGTTTTATTTTTCCCCTCCCGGCCTGTGTGCTATCATCATCATCCATTTTGCTTTTACCTGTTATTACCCCCCACACTACAT
GGTTACTACATTTGTTTAGGCAGTCAGTTATGTTTTAATGATCTTTAAATAATATATTAAAAAGTCTAATTACTCTTATAGTTGCCATTTTCAGTGCTCT
TCATATGTTTGTGATGTTCTGTATCTCCATCTTGTATCATTTTCCTTCTACCCGAAGGACTTTCTCCATCATGTCTTGTAGTGTTTGCCTCCTCATGATG
AATTCTTTCAATTCTTATAAGTGTAAAACATCTGTGTTTTGCCTTTATTTTAAAGATATTTTCACTATGTATAGAATTCAAAGTTAAGCTTTTTTCTCTT
TCATACTTTAAGGTGGTTACATTGTTTTGATAAGAAATCTGCATCATTTTTATGTCTAACCTACCATCACATCCATGCTGGTGTTTTTCATTTCAACGTT
GTAGTTTTCATTTCTCAAAGTTTTATCTGGGCTGTTTTTATATCTTCCATGTCTCTGCTTAATGTTTTGAACATGTGGAATATGATTACAGTGACTCTTT
TAATATCCTTGTCTGCTAATTCATTTCTGGGTTGCTTTTGCTTGTGATTGTTCTCTTTATTTTGGGTCATATCACCCTGCTTCTTTGCTTGGTAGTTTTT
GTTTTTTGATTTTTGGAGCGACAGGGGTCTTGCTATCTTGCCCAGGCTGGTCTCGAACTCCTAGGCTCAAGCAGTCCCCCAACCTCGGCCTCCTGAAGTG
CTGAGATTACAGGCATGAGCCACCACACCCAGCCATTTGCCTGGTTATTTTTTATTAGATACCAGATGTGAATTTTACCTTGTTGGGTGCTAGATTTTTG
GTGTTTCTGTAAATGTTTTTGAGCTTTGTTTTGGAATGCAGTGAAATTACTTGGAAACAGTTTGATCCTTTCTGGTCTTGATTTTAAGCTTGTTAGACCT
GACCAGAATAGCATTTGGTCTAGGAATAATTATTCTCCATTAGTGAATCAAGACCCRTCTGTGTTCCCTACCCTGTATTTCGAAAATTATGACGTTTTCA
AATCTGGCTGGTGGGAACAAGCAAGTGTTCCTGACGCTGTATGAGTGCCACATACTGCTTCTTCTCATCCTTTTGGATGGTTCTTTCCTTGTTCTTTGGT
AGTTTCCTCTTGTGAATTTGCTGGTTGGTACACTACAGATACTTGAGTGGGACCCTCTGCATATCTTCAGAGTTCTCTCTTTGTACAGCTCCTTCCTCTC
TAGTACTCTATCCTGCAAATTGTAGCTGCTTTGTAGTGTTCCTGGATTCTCAGTTCAACTCAAGGAAGTCTGCCAGGCTCCACCTGTGTTCCCCCTCTCT
GTGCCAAATCCTGGAAACTCTCAAGGCAGTAAGGTATGGTAATCATAGGGTTTGCTTCATTTGTTTCTCATCCTTCAAGGATCGCTATTTGTTGCCTAAT
GTCTAATGTCTTAATGTCCAGTTCTTCAGTTGTATCAGACAGGAGGGAAATTCTGTCCATACTACTTCCTGTTTGTCACATATGGAAGTCCTTCCTTGCT
TTCTGGCCCAGCAAGGTTTTCAACACTCATCTTTCACTTTCACTACCCCAGCCTGGAATTGGGCAATTCTCTAAGGATCCCTTGTTCTTTATAGTGAAAA
ATGTTATTTAGAAGCCAGATCTGAGCACATGGTGTATTTATTATTACTATGACCCCCAGTAGATAGGGCTAGGGAATATATAATAATACATAAACATAAG
TAAATACATACACACTTATCTTCATCTCAATGTATCCTGTCTATGTGTGTTGAAAACCTGAGTTTACACCAGTTCCAAGCTATTTCTCAGTGTTTAATTC
TATTTTTCTCCCTTTCTATATTTGTAATTCCCTTTTCCAACAATGAATAACCTACTTCCCACAYTGGGCCATCACCACCACATAGAGTCTGCTCACCCAG
CTTGGGCCTGCTACCCCACAGTAAGCCACCTCTATGTGTGGAGCCCTCCTGGCACCACTTGGATTCTAACTACCCACTCTGGACCACTCTCACCCTTGGT
GGACTCCCTCTTCATACCTCTTGGACTCTAACATCCTGCTCCATACTACCTATTACCCTTTCCCCTCCATTTCTGGTCACCTACCTTGCTCTGTCCCACC
TAATGACTTCAGGATGAATTTTTCAGGAAAGCAAGGGAAAGGGGACTTCCTTATATTTGTATGGATACATTCCATGTCCTAGTGTCCAAGTGTAATTATG
GGCAGCATATTCATGGTTTTGTAACCTCATTTTGTTTTTTAATTTTGGTATCTGTTAGTTTGCTAGAGCTGCAGTAACAGAGCACTACAAACTGAGTGAC
TTAAATAATAGAAATTGTTAAACAGCAGAATATTGTCTCACAGTTCTGGAGGCCAGAAATCTGAAAAATCAAGGCATGGGCAGAGCCATGCTCCCTCTGA
AGGCATTAGGGAAAGGTCTCTTCCAGCCCTGTCTCCTAGCTGCTGATAATCCTGTGGCTTGTGGCAGCAAAACTCCAATCTTCATGTGGCATTATCTTAA
CTAATTACATCTGCAGTGACCCGATTTCCAAACAGGTTCACATTCTGAGGTACTCGGGGCTAGGACTTCAACATACAAATTCTGTGGAGATGTAATTCAA
CACATTACAGATGCCCAGGTATCCAACTTCAGTCATTTGGCATTTTACTCTGATGTAGCTTGAATACTTGGAAACATACATTTTCTATATTTTCCATGTT
TCTATGACAGTTTTTTAAATATGGTACCTAGCTGATATTAGTTATTATCCAAAATACCCTGTTTTACCTAATGGGATTATTTTTTCCCATTTTTACTATG
AAGTATTTGATGCCCACTGAAGCGTGTATGTAATATAGCCCTGAGATACAAACCATAGTAATGAAACAAATATGTTCCCACAACCCAACTTAAAAATGAA
ACATTACAGATGTCTGTACTTTTTGAATTTGTTTTCATTTTTAAGGGATTACATTGAAATTAACAATAAATTTGATGTGCTAACATCACTGTGTTCTGAT
AAGGAGGGCTGGAACAAGTTATTTAACCTCTATAAATCTCTCTTACCTCTCTATAGATAGGAATACTTATGGTACCTTCCTTACAGGGTTACTGTGAACA
TTAAATGAGATAATATACATAAAAGCAGTATTAGAACATAAATGCATAATAAATACCAAGTTTATTATTCAGTAGAAAGAGAAATTAATTGGCATTTTTT
TCTTTAAGTAGAAAGTATTCTGGAATGCCATTTTTCCGCCTAATCATAGTTCTTAGTGTTTCTTCATTACTTTTACTTTTACAGTTTTATCAAGATCACA
CATAACACATCTGCATAATTACAATTTGAGTCTCATAAACAAAATTATGCCTGAGAGAGTATTTATCTCTATGTTTATATGTAGCTTGTAATGGTAGTTT
CTTCTATGTTTTTAATACATAAAGGGATTCCTTGTATTTAAAAGTCTCAAATTCCAAAGATGGAATGTCAAAGAATAATTTCAGTCTAAATTCATTTGTA
TGTCTTTAGGATATTGTTTTATTTTGTAGCAAATGACTACATATGATTATTTTCTACACTAGAAGGCAAAAATCACCAGGTCTTGCCTATTTTGTTAATA
TGAATTAAATTATGTCTTTGTAAAATGTCTTTTCTTTCATTCAGATCCCCTTGGAAAGGACTTCCAGAACTGACCAATGAGAATGCCCAGTACTGTCCTT
TCAGCTGTGAAACACAAGCCTGGTCAATTGCTACTATTCTTGAGACACTTTATGATTTATAGTTTATTACAGATATTAAGTATGCAATTACTTGTATTAT
AGGATGCAAGGTCATCATATGTAAATGCCTTATATGCACAGGCTCAAGTTGTTTTAAAAATCTCATTTATTATAATATTGATGCTCAATTAGGTAAGATT
GTAAAAGCATTGATTTTTTTTAATGTACAGAGGTAGATTTCAATTTGAATCAGAAAGAAATATCATTACCAATGAAATGTGTTTGAGTTCAGTAAGAATT
ATTCAAATGCCTAGAAATCCATAGTTTGGAAAAKAAAAATCATGTCATCTTCTATTTGTACAGAAATGAAAATAAAATATGAAAATAATGAAAGAAATGA
AAAGATAGCTTTTAATTGTGGTATATATAATCTTCAGTAACAATACATACTGAATACGCTGTGGTTCATTAATATTAACACCACGTACTATAGTATTCTT
AATACAGTGCTCACTGCATTTAATAAATATTTAATAAATGATGAATGATAGAAGTTTCCATCTACAATATATGTTCCTAAATGGAGCACAGATGTTCAAA
CTATGCTTTCATTTTTTCACTGATATATTAATTTTTGTGTAATGAATGCCAACAGTATATTTTATATGATTTACTTATGTGAGGAAACATGCAAAGCATT
AGGAAATTTATTTCCTAAAAACAGTTTTGTAAAATTAGTATTGAGTTCTATTGAGTATTATAAGATAGCTTACATTTTCAAAATGGAAATTGTYGGTCAT
ATTTCTAGAACTTTAAAGAAAAAAGAATGTTATATTAGTTTTCTAAAACTCAACTATCTTTAGTCATGTTCAAAAATCTATTGCTAGATCATAGTAGATA
CTGGTTTTCTATTAACTCAAAACCTACATTGACAAGTTTAACATTGAGAAGAATCTTAACAAAAATATGGATATGAATTCAGTAGATATCTTAAATTCAA
TAAAATCACTGGAAGTTTTTCATGATAACTTATTTTAAGATGCCTTAAAAATCTTAAAGTCACAAAAGGAAAAAGGTTTTTAACATTTAYATGAGTTAAC
ATTTTTTCATAGAACTTATTTCCTAGATAGAATTTTTTACTGTTTTTTACTGTTTTCTTAAGAAAACAGTTAAATCATTATGCATTCAGTTGGAAGAAAG
TAGTGGCAAGAATTCTTTCATTGCTATATAATATTCAGTGGCTCATTTATACCTAATAAAATAATGGTATTTTAAAATAATGCTAYTTTCAAAGTAGCAT
TTTTTTAGTTAGTTTACAGGTTACATACCCAAAACCTTAACTATGACTAAGAAATTAMAGAAGAAAACCAGCAAACTAAAACTTCTGGGCAGCAAAAATA
TATAAATGCTTCAGATGTCAAATACCCATGCTTGAAAGCTCGTGTAATTTACTTTAAGATTATCTGCCTGCTCTTCTTCAAAGCTGACCTTGCTTTAGAA
ATAGTTTTAACTAGCTTAGTTTTCTGGTTTCCAAAACTAAAATAGATTAAATCCTACAAATTTAAGGACAGTTGTGACAGTAATCTGACCACTATCTATA
AAYACATTGGACATTGGTTTCCAAATCTCCCTTTCTTCTTCAGTTCCTTCCTTGTTCAATATATACCCTTCTCTAAACTGTGCGGGTAAAAGGAATGACT
GTCCTTGAGAGAACCATTAGTTTATCAAAGGTTTATGTAGTTTTGTTGCTGTACCCTAACTTTGATATTCAGGGAGGTAGGAAAGGTAACAGAAAACCAG
CATATTTAATCAAAGCAAGAAGTAATCGCTGACAGTTAAATGTGACCAAAAAAATTAAAAGTTCACAATTTTTTTAATGTAGCCATTTGGGGTTATCTCT
AGTAAGGCAGATACCCACGTTGGTAAATTTTTAGGATATTGTGTTGCACTAGAAAACTAAGTGGTTCATATTTCTAATGAGGAAGATTAATGAAAGAACA
TTGTTATATTCTGCGTGGTATATTTTAAAGTTTAAGAAGGCATGTTAAACATTATTTCCTCTATGGTAGTTAAAATACAGAATTAGATTTTTAACAGGTG
TCATTTGACTAAACGTTTCGGTAGAATGCTTCATACTTGAGTGATGCTGGATAAGGTATTGTATTTCAACAATGGACTATGCCTTGGTTTTTCACTAATC
AAAATCAAAATTACTCTTTAACATGATAAATGAATTTACCAGTTTAGTATGCTGTGGTATTTTAATAAGTTTTCAAAGATAATTGGGAAAACATGAGACT
GGTCATATTGATGAATATTGTAACATGTGAATTGTGATCCATTTCTGATATGTCTTGAACTACTGTGTCTAGTRGGCAAATGTCATTGTTACCTCTGTGT
GTTAAGAAAATAAAAATATTTTYTAAAGGTCTGTATTTTGCTTTCATTCATAGTCATTGCACCCAGCTAATTTTTTATTTTTTACTTATTTTTTATTTTG
TAGAGACAGGATTCTACACTATGTTCCCTAGGTTGGTCTCAGCCTCCTGGCCTCAAGTGATCCTCCTGCCTCAGCCTCCTAGAGGCAATTAATTTGTCAG
TGCTGACCAGAGTCATTTATTCAGTGCTTGCCTACTTTAGGTGCTTACCTTTTTGCAGGAGGCAGAGAGGAGGAAGAATTTTAGACTGTTTTGATTATTT
ATTTCATTAGGCATGTTGAAATTAGGAGCAAAATCAACTTCCAATGTATAAATCTGTTAGAAACTATACACTTCTGGTGACAATGGGCCTCCTGGAAAAA
TAAAAATAATTTTTTTAAAATAAATAAAAATAAGCTGCACACTTTCCTGGTACTTCTTGAAACCTTTTACTCAAGTGTGAATTTTTAATTTACCTTTGAT
CAACTTACAGTAAACACTACAGGCCAGAAGACATATATACGTTGCCTCCTAAAGTAGCCAAAATTTTTTTACTTTTCATTGTATTACTGAATAATATACA
TATTTATAGAAAAGCATCTAATGACCAAAGTTGATCAGTTTGGTCTTTGCCTTAGTTTCTGTTGGTTTCTTTTTACTGCAGATATGCATATCTTCATCTT
CAGATAAAAGATATTAACCTAAAAATCCAAACCTGTAACTACCACAGCAAACTTGCCAAAATTACTTACATAGAACCTCAATGTGCCAATATAATAAACT
CATGGAATTTGCTTAGTAGTTGTTGGTTCCCTCCCCCAACCCCCCCAATTTGTATGAGCCTTGAATTATAGAGTAGTGCTAATACTTTGTCATTCTGGCT
GTAGTTATTTTGGTTAGAGCAGGGGTTTTGTTTTTGTTTTTTTAAAGAGTCTTGCTTTGCTGCCCAAGCCTGATGACAGACAGCTCATTACAGCCTCAAC
CTCCTGGGCTCAAACTACCCTCCCACCTCAGCATCCCAAGTAGCTAGGATGACAGGCGTACAACTACTGCACCCACCTAACTTTTGCATTTCTTTTTTTG
TAGAGATGGGGGTCCACACTGTGTTGTCTAGGCTTGGTCTCAACCTCCTGGGCTCAAACTATCCTCCCACCTCAGCCTCCCAAGTAGTAGGATACGGCGT
ACATACTGCACCCCTATTGTTTTAGAGTCTCGCTGATTATATAGGCGTGACCATTTCTGGCCAGCTTTTTTCTTTAATCAGATCTTTCAGCACTTGCCTC
CACGTTTGTAATCTCTACTGTCTCCTCAAAATTTACATCAGTCTCAATAATAACCATTGTTTCTATTTCCAGTTTTATTTTTTTTATAAGTGCATGTGGT
ATGAGATGAGACATTACTTAGGCTTTTTTTTCCAAATTGTTAAATCCCAAACTTATAAGTTGAATATGATTTATGGGAAGTCCTTTTTTAATCTTGCATT
ATTCTTTACTAGTAGGGTCTANNNNNNNNNNNNNNNNNNNNCCAACCCCCCCAATTTGTATGAGCCTTGAATTATAGAGTAGTGCTAATACTTTGTCATT
CTGGCTGTAGTTATTTTGGTTAGAGCAGGGGTTTTGTTTTTGTTTTTTTAAAGAGTCTTGCTTTGCTGCCCAAGCCTGATGACAGACAGCTCATTACAGC
CTCAACCTCCTGGGCTCAAACTACCCTCCCACCTCAGCATCCCAAGTAGCTAGGATGACAGGCGTACAACTACTGCACCCACCTAACTTTTGCATTTCTT
TTTTTGTAGAGATGGGGGTCCACACTGTGTTGTCTAGGCTGGTCTCAACCTCCTGGGCTCAAACTACCCTCCCACCTCAGCATCCCAAGTAGCTAGGATG
ACAGGCGTACAACTACTGCACCCACCTAACTTTTGCAATTCTTTTTTTGTAGAGATGGGGGTCCACACTGTGTTGTCTAGGCTTGGTCTCAACCTCATGG
GCTCAAGCAATCCTCCCACCTCAGCCTCCCAAAGTGCTGATTATATAGGCGTGACCATTTCTGGCCAGCTTTTTTCTTTAATCAGATCTTTCAGCACTTG
CCTCCACGTTTGTAATCTCTACTGTCTCCTCAAAATTTACATCAGTCTCAATAATAACCATTGTTTCTATTTCCAGTTTTATTTTTTTTATAAGTGCATG
TGGTATGAGATGAGACATTACTTAGGCTTTTTTTTCCAAATTGTTAAATCCCAAACTTATAAGTTGAATATGATTTATGGGAAGTCCTTTTTTAATCTTG
CATTATTCTTTACTAGTAGGGTCTACTTCTAGAATATACTGTTTTCTGTGCCCATTCACCTATTTCACTATTACAGTTTTTGTTTTAATATTTGTTAGAG
CATTTTGTCACCACGTTTTTCTCTCATCGGTTCCCTCGTCTTCTTTTTCAGAATCTTATTTATTCCCACCTATTCTTTGTATGTATTTTTCCAAATCCAA
AAAGTATTCTCAGCATTTTTACTAAACAAGCCCTCATACTATTAATTTGATAACAACAGACATATTGACATTATTTAATCTTAAAACATAAGCTATTTAT
TTAAAAATTTTTAGCTTGTTGGAATTCTTCCTAATTTTTATGTTTATGATTGCTGTGGTCCATTTTGGTTCAATTTGGTGGTCAATTGGTCAGAATCGAA
AATTCAGATTCAAGAAACATTTATGGAGCCCCTACTATATAAGCAATTTTACATTGGAGGTATTATATCCCTTTTGTAAATCAGAACATTGATAATCTTA
CCATAAATCACATAGTGGATAAATTGTTGGACCCAAGACTCAAACTCTGATTTTCCTACCACAAATCCTCTTACACAAACCCTCAAGATTGCTGTCTTCT
GTGCTTGCCCTCCTGCTTCCTGCAACCATCAACCCACAGGACCCACTGTTGATATTATCGGTTTCCCATGGAAAGCATTTAGGTCTGTTCTCCTTGGGCC
TAGGTATACTTCCTTATTATTACCTGGCCAAAATTCTGTATCTGCAGCCATCTGCACTAATCAGATAACCCCATGTGTTCCTGGCTAAATGTGTAGACTT
GGTGCCAAGCATGGGCTAGGTTATACAAGTAGGATAAATTTGGAAATATAAGTATCTTATCAAGGACAGTGAAACAGAAAAGTCAGAGACAACAGGAAGT
GTTAATAATTAAGAGAAGGCCAACTGGTTAAAGTTGGTCCAAAGGAATTTCGGCCAAAAAGTGGGGCCCATGCCCATGCATTTTTAATACCAAAGGAAAC
AATCTATGGAAATTCACTAAAAAATATGGCACTTAATTCTGCAAGTGTTCAATGTTAATATATTTATTGTAATGGATATATTTTCAAAGTACAAAACTGA
GCACTAAGTCTTATTAGATATCTTTTTTACCACATAAAGGAGCAGTACTCCAAAAATGATTTATCTTGGCTCCCACATCACATTCAATGGATCACAAAGT
CTTTTCACTTTTACCTGACTGCAGATTTCTACTCGTACTCTTATCTTGTGCATAGATTAACACAATAATCTTTAAATTGATCACAATTTATCCCTCATGG
AACTATGAGGAAAACCTTTCTTGAACACTGATGCTGTCCATCACTGGTCAGAGGACATTGAGGATTCGCTATGATTTGGCCTCAGTCTCTTTCCAGTCCT
ATTGTCTTAGTGTCTCCTTGCTGTTTCCAAAGCTGATTACTTGCCTCCCTGAAACTTTGTTTCTTCAATTGTAAAAACAGTGACTGTAACATCTGTGGGT
AGTAAGAATTCACGAGGGCAACCCATAGTGTATTTAAGTTTCACTGCCTATAATAGAACCTAAATAACAATGGTCTACATAAGATAAATGTCGAAGGTGT
GCACCCCAGATTTGATATGATGGTTCCATTGTCATCAAGAACCAAAGCTAGCATTTAATGACATAGAATATTCAAGAACTTCTCAAATATTTCTTTTAAT
ATGAGCTTATTGTCTCTTAGATATTATAAGCAGGGGTAGACAATAATCTGTTTACTTTTTGTAATGTTTTTAGCGGCAGAGTCTCACTCTGTCACCCAGA
CTGGAATGCAGTGGTATGATCATAGTTTACTACAGCCTCCAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCTCAGAGAGCTGGCACTACAGCCA
TGTGCCACCAAGCCTGGCTAATTTTTAATATTTTGTAGATATAAGGCTTCACTGTGTTGCCCAGGCTGGCCTCAAACTCCTGAACTCAAGCGACCCTCTA
GCCTCAGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACTGCACCCAGCCTATTTATTTTAACAATAGGGGAAACAACTCAAATTTTACATCATCTA
AATTGATGGCAAATTTTAAGGCTTGGCTAAAATAACAAATTTTCTCACCTAAAAAAAAAATCTGTAATTTTATACTTAAACTCTAAAGAAGCAGAAGAGC
TATTACTGAAGTCTTTACTAATAAAGCAAGATAGAATTTTATAGGAATTTTTGTTCGTTTTGGTTTGGTTGATTTTAATTCTACTTTGGTCTTTCTCATC
ATTGGACAACGTGGGGAAATGTATTTCAGACAAATAAATGAACTAGCTTGCAATAAATAGAGTGTGACTGTTTGATAGACTTCCCTTCTTTCTGAATGTC
TACAAAAGATAAGCTTTTTTATTTTCTTTAAGCAACTTCAAAGCATTAACTCTTAGACCTAGAGATCGGTTTCCTTTTTTTTTTTTTTTTTGAGATAGAG
TCCCACTGTTTTTCCTAGGCTGGTCTTGAATGCCTGAGCTCAAGCAATCCTCCTGCCTCAGCCTCCCTCAGCCTTCAGAGTAGCTGGGATTACAGGCATG
CAACCCACATCTGGCTAGAGATCTATTTCTATTAGAGATTCACTTACTGGAATTCAGCTCTGCATACTCAGAAATAAGCAAATATATGCTTCCCTGGGGG
GGTCTTCATTTCTGTGTGTTTCTCATAATGTCATTGTTCCACTGAGCCAATTGTGAGTCCAGTGTTTAAAAATATACCATTTCCATAAGACACAGTTCCC
TAAACCAGTGCTTCCAACCCTTTACATGTTATAGAACACATGTAAAAAGGTAAGCTTGGACTGAGTGTGGTGGCTCACGCCTGTAATCCCAGCACTCTGG
GAGGCCAAGGTGGGAGGATTGTTTGGGCCCAGGAGTTTGAGACCAGCCTGTGCAATATAGTGAGACCCCCATCTCCACAAAAAAATTTAAAAATCAGTCA
GGCATGGTTGTGCACACCTGTGGTCCCAGCTACTTGGGAGGCTAAGGCAGGAGGCTCACTGGAGCCCAGGAGGTCAAGGCTTCAGTGAGCTGTAATTGCA
CCACTGCACTCCAGTCTGGAAGACAGTGCCAGACCCTGTCTTTAAAAAAAAAAAAAAATTATATATATATAGCTTGGGAGGCTGAGACAGTGAGACAGGA
ACAGGAAGATCACTTGAGCCCAGGAGTTCAAAACCACCCTGGGCAATAAAACCCCATCTCTACTAAAAAGTTTAAAAATTTGTTTGGTGTGGTGGCACAC
ACCTGTGGTCCCAGCTACTAAGGAGGCTGAGGTGGGAGGATCACTTGAGTCCGGGAGGTCAAGGCTGCGGTGAGCTATGATCATGCCACTACCTTACAGC
CTGGGTGACAGAGCGAGACCCTGTCTCAGAAAAACACACAAGAAAAAGACTGGGCTTAGTGGCTCACATCTGTATCCTAGTACTTTGGGAGGCTGAGACT
GATGGATCACTTAAGGTCACGAGTTTGAGACCAGCCTGGCCACCGTGGTGAAACCTTGTCTCTACTGAAAATACAAAAACTAGCTGGGCATGGTGGCACA
CACCTGTAGTCCCAGATACTTGGGAGGCTGAGGCAAGAGAATTGCTTGAACCCAGGAGGTGAAGGTTACAGTGAGTTGAGATCCTGCTATTGCACTCCAG
CCTGGGTGACAGAGTGAGACTCTGTCTCAAAACA


SNP Information

Context             (SEQ ID NO:42256):
GGCAGATCGCTTGAGCTCAGGAGTTTGAGACCATCCTGGGCAACATGAAAACCCATGTCTACAAGAAATACAAAAATTAGTAGGGTGTGGTTATGTGAGC
Y
TGTAGTCCCAGCTACTTGAGAGGCTGAGGTGGGAGGATGGCTTGAGCCCAGGAAGCGGAGGTTGCGGTGAGCCAAGTTCATACTACTGCACTCCAGCTTG
Celera SNP ID:            hCV2027646
SNP Position Genomic:     69006
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,6)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42257):
ACAGCATGACATGTCTCTGAATTTTCAGGTTTAATGTCTGTATTGGCAGAAATAAGACCAAAGAATGACTTGGGGCATCCTTTTTGTAATAATTTGAGAT
S
TGGAGATTGGATGATTGACTATGTCAGTAACCGGCTTATTTCACGATCAGGAACTATTGCTGAAGTAAGTAGAGCTATATTATCGTCCCAAAAAATCAAG
Celera SNP ID:            hCV25612128
SNP Position Genomic:     47203
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,38)   total(C,74|G,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42258):
AGATAAGAAAGCAGCATAGCTGTTGCCTTTATTGTGCATGTCTTTTTCCTCACTGTGACTGAGCAAGTTGCATTTCTGTGAGCAATTTTGCAATCTTTAC
W
TGTCTTTTTCTAGAATAGTGCTGTCCAAAATAATGTGAACCACATACATAATTTTAAATTTTATAGTACCCACATTTTAAAAAGTAAAAAGAAGCAGGTG
Celera SNP ID:            hCV2027647
SNP Position Genomic:     68722
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,7)   total(A,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42259):
TGTGCCTCTAATACGTATTCACCCCAAATCACTAGAATAGAGACTAGCAGAATAGGGACTAGAGGATATAGGAACAAATTGATGCTACCAATAATACAGC
R
TGACATGTCTCTGAATTTTCAGGTTTAATGTCTGTATTGGCAGAAATAAGACCAAAGAATGACTTGGGGCATCCTTTTTGTAATAATTTGAGATCTGGAG
Celera SNP ID:            hCV25612129
SNP Position Genomic:     47108
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42260):
CTGATCTGCCTTTATGTTAATAGTTTGTTATATATGATTGGGGGGGCTGGGAGGGGATAGTAGCTTTGTAAGCTACTCCAGGGTTAGCATATATTTGTGT
Y
CTCATGATATTTATTTATATCATGAAGTACTCAACATTTGTCCAAAATTTTTTTATTTGTCCTCTGTTATCAACTGACATTTCTGTTACAATGAATATAG
Celera SNP ID:            hCV2027649
SNP Position Genomic:     57734
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42261):
GTAGTCCTAGCTACTCAGGAGGCTAAGGCAGGAGTATCACTTGAGCCCAGGAGATCAAGGCTGTAGTGAGCTATGATGGCACCACTGCACTCCAGCCTGC
Y
TGACAGAATGAGACACTGTATTAAAACACACACACACACACGCACACACACACCAAAACTCACAATTAAAGCTGACTCTTGTGACCAGCTCTCCAAAAAA
Celera SNP ID:            hCV25766758
SNP Position Genomic:     71659
SNP Source:               Applera
Population(Allele,Count): african american(T,8)   caucasian(C,10|T,18)   total(C,10|T,26)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42262):
ATCTCATACCACTTTAGATATAATTTAACCAATATATCATTTATGGCAGAAATGATCAAAGCAATTTAAAAACCAGTGTTTCCTTGAAGTAATTGTTTTC
R
TTTTATTTCTTGAACCATTGAAAGCAATCTCTTTTCTGAACAGGTTCAGAAGTTTACCTAAGGAGAGAACTTATTTGCTGGGGAGACAGTGTTAAATTAC
Celera SNP ID:            hCV15965938
SNP Position Genomic:     33522
SNP Source:               Applera
Population(Allele,Count): african american(A,8)   caucasian(A,22|G,10)   total(A,30|G,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,607|A,690)   total(G,607|A,690) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42263):
CCCTTTGCCCTTCACGGCGCCCGGCCCTCCTTGGGCTGCGGCTTCTGTGCGAGGCTGGGCAGCCAGCCCTTCCCCTTCTGTTTCTCCCCGTCCCCTCCCC
S
CGACCGTAGCACCAGAGTCGCGGGTCCTGCAGTGCCCCAGAAGCCGCACGTATAACTCCCTCGGCGTAAGTGCTAGGAATGCCGCTGGCCTCGCGGGGAA
Celera SNP ID:            hCV27853782
SNP Position Genomic:     6268
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,31|G,3)   total(C,61|G,3)
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:42264):
TAACACATGATTAAAGTCCTGTGAACTCAGTATGTACTAATTTAAGGTTAGATGGATGATGTACTAATGCCGAGCTTATTCTGTAGAAGACAAAATAATT
R
ATTATTTCTCTTACCTTTGTTATTGAAATTTTTCTAATGCTTTTTACATAATATCTGATCATCTTTTATTTAACTTAAATTTCAATCATTTTGCAGTGAT
Celera SNP ID:            hCV16185213
SNP Position Genomic:     72224
SNP Source:               Applera
Population(Allele,Count): african american(G,6)   caucasian(A,14|G,14)   total(A,14|G,20)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42265):
ATTTTAAATAAGTATATGTATATATGTATTTTTTAACTATTGACATTTTTCAGTCCATCCGAAAAATAATTTGGGAGGATATTTTTCCAAAGCTTAAACT
Y
TGGGAATTTTTCCAAGTAGATGTCAACAAAGCGGTTGAGCAATTTAGAAGACTTCTTACACAAGGTAAAGGATACATACTAGAATGTTCCTATCGATTTT
Celera SNP ID:            hCV190827
SNP Position Genomic:     26734
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,6)   caucasian(C,12|T,26)   total(C,14|T,32)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;JBIC-allele(C,434|T,1037)   total(C,434|T,1037)   no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42266):
ATTAATGAAGTATATTTTTACACCTTGATTAGCTATTTATATTTCTTCCATTAATTGCCTGTTAATGTTTCTTCTCATTTTTCTATTGAGTTGTCTCTTT
K
TTTATATCGACATTATTGATTATTACACAGGCCTCAAATATATCCCCTAGTATGCTCTTGATCTTTTAACTCTTGTTTATGGTGACATTTTTTTTCAATG
Celera SNP ID:            hCV26334347
SNP Position Genomic:     28875
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42267):
TTTCATAGATATTCACTCATAAAAATAATAACCATGCTTACTGTTTAATTATAACTGTGCACCAGGCATTTATGTGTGTTTTTTATGGCTAGCTGATTCT
Y
CATGTTTCTATTTTTTCCAACTCTTGACATTCTGTGTTTTTTTAAATCAAATTTATTTTACTATTCTCTTTTCTATATTTTCCCCCAATTTTAAAAAATA
Celera SNP ID:            hCV26334275
SNP Position Genomic:     48746
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2|-,6)   total(C,2|-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42268):
CAATAGTTATTTTCGATATTTTAACTCCTTTTTGTTTCATAGGGGTAACTCATTCGACTGTGGAGTTCTTTTAATTCTTATGAAAGATTTCAAATCCTCT
R
GAAGCCAAAATGGGACACAGTAAACAGATTCGAATTTTACTTCTGAACGAAATGGAGAAACTGGAAAAGACCCTCTTCAGACTTGAACAAGGTCAGTAGC
Celera SNP ID:            hCV11894038
SNP Position Genomic:     6951
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,11)   caucasian(A,15|G,13)   total(A,40|G,24)
SNP Type:                 UTR 5;ACCEPTOR SPLICE SITE;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;(G,-|A,-)   JBIC-allele(A,678|G,813)   total(G,813|A,678)    
SNP Type:                 UTR 5;ACCEPTOR SPLICE SITE;TFBS;hmCS


Context             (SEQ ID NO:42269):
GAAAAATACCTTGAATTTCAGTGATTGTGTTGATGAATCTCGGAGGAACTACTTAATGCAAGTTTTGAGAATTACCAATTTAACTTTTATTACAACTTCT
Y
TGCTCCTTACATAGCCTTTCTTCATCTGAGTGCTTATTATGGGTATGAATAAATACTAAGTAAATAAATGACTTACTAAATAAATGACTGAAACTGGAAA
Celera SNP ID:            hCV1814582
SNP Position Genomic:     25221
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   SC_12_A(C,4|T,16)   SC_12_C(T,10|C,13)   SC_12_AA(C,1|T,19)   SC_95_C(C,63|T,116)   total(C,81|T,161) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42270):
TAATTATAAAATTATGCAAATGTATAAAAAGCATTTTTTCTGTGTTTTTTTTTTAATTAGGATTATACTATCTAAACAATTTTGTAACCTGCCTTTTTCC
Y
GTTTGTAGTAGTATTATGGTGTATGTACTCTACCTCCCTGCCTACTGCCATGTTTCAGCCATACTTTTTTCCAGAAGATATTTTAAAAGCTCTACATAAA
Celera SNP ID:            hCV16196797
SNP Position Genomic:     15340
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,4|T,4)   total(C,4|T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42271):
GATTCTAAAATTATATAAGGGTGCTCAGCTGAGTAAATGAAGCACAAACAATTCATTTCAGCAGCAGAGCAATGTGGTTAAGATTGCATATTCTGAAGAG
R
GACTTGGCCAAGTTAATTCCTGACTGTATGACTTGGGCTGAGTTACTTAACTCTCTGTGCTTCAGTTTCTCTTTTGTTAAGGGAACATAACAGTATGTCC
Celera SNP ID:            hCV1814583
SNP Position Genomic:     25429
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42272):
AATGTTTATTTGAATGCTGAGTTCCTAAAACATACACTGCTAAGACATTTTATGATTGTAATTCAGATTTTCTTCTTTTGTTTCTATTGACAACAAGCGA
W
ACTTCAATATATGGTTATCTTTATTTTCCAATTCTTAGTCTTGCCTCCAGATTAACTTTGGCTGAGCTAAATCAGATCCTTTACCGATGTGAATCAGAAG
Celera SNP ID:            hCV25612130
SNP Position Genomic:     43850
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,40)   total(A,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42273):
CTGCACTCCTGCACTCCTGGGTGATGGAGAAAGACCTTTCTCAAAAATAAATGGATGAATGAGAGCAGCATTGGTATTTACTCTTTTTTTTTTTTTTTTT
T
GAGACAGGGTCTCATTCTGTCACCCAGGCTGTAGTGCAGTGGCACAATCTCAGTTCATTGCAACCTCCACTTATTGGGGTCAAGCAGCCCTCCCACCTTA
Celera SNP ID:            hCV11642661
SNP Position Genomic:     24771
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42274):
CCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTCGTGATCTGCCTGCCTC
R
GCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCTTTTAAGTTACATTTCTTTGCTTATTAATGAAGTATATTTTTACACCTTGATT
Celera SNP ID:            hCV1814585
SNP Position Genomic:     28704
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42275):
TGATCAAACACCTCTCACCAGGCCCCTCCTCCAACATCGGGGATTACAATTCGAATGAGATTTGGGCAGGGACACAAATCCAAACCATATCTTTTTGCCT
S
TATGTTTAATTTTGTTTCTTATTATTTAGTAATATAAGTAGATAGAACCATATTAAAAAAAAATTTTTTTTTTTTGAGACGGAGTATCACCCTGTCACGT
Celera SNP ID:            hCV877603
SNP Position Genomic:     18815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42276):
CTTCAGGAAGCAAACTTTGAAAGCAATCTTGAAAAAGAACTCCTGAGGTTAGAATATTTGGTAGCACCGGGGAGGAAAACGGGTTCCACTAAAGTCCTTA
M
AGTGTTTAAAAAAAAAAAAGGTACATGTATACATGTATAACAAACCTGCAAGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAAAATATATATATA
Celera SNP ID:            hCV1814587
SNP Position Genomic:     30175
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,4)      total(A,4|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42277):
TACACCTTCCTTAGCCAAGATTGTATCTCATTCTCCATCATTAATGTCATAGATCTTTACAGTTGCCCAAGTCATTCCTGTTAATTCCCTTCTCAGCAGG
Y
TTTCTCATGCCTGTCCTTATACCCGTACTCCCATCAGATTCCTTTATATCTGTTAAATCTCATTTACTGTCAGTCTATGTGTTGCCTAAGTTTCAACTTT
Celera SNP ID:            hCV8395221
SNP Position Genomic:     9250
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42278):
TGGCTGAGCTAAATCAGATCCTTTACCGATGTGAATCAGAAGAAAAGGAAGATGGTGGAGGGTGCTATGACATACCAAACTGGTCAGCCCTTAAATATGC
M
GGTCTTCAAGGTAAGCAAATAGAAGGATAGCTGAGCTTTGTGTTTTTCTTTTAGGGTCATCTGGTGTCTTCTTTACAGACATAGATATAGGCTCAGAGTA
Celera SNP ID:            hCV25612137
SNP Position Genomic:     44009
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,40)   total(A,75|C,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42279):
CTGTTGACAATGCAGATCCTATATTAAAAATTCCTTTTGCTTCGTAAGTATGCCTTGTTTGGTAGAGATTTGCCACCTTAATAAGTAAGTTACCACTAGA
Y
TGAATTAAGCAGTTTTAAGGGTCCTCTATATCCTTGCTACTCAAAGTACGGTCCAAGGACCAGCAGTGTCAGCATCACCTGTTGTTAACATTTTACCCTA
Celera SNP ID:            hCV25612138
SNP Position Genomic:     40672
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:42280):
ATATGAGGACACATATCTTGAAAGATTTAAATAAACTTGCTTAAAGTCTCTTGTGGTACAGTTAGGATTTGAACCCAAGTGTTTGACCTCTTTTCCAGTA
K
CATGCTTGCCTTGCTATTTATAATTACTTAAGAAAGTTTAAATTTATATTTTCTTCATTTTAGGCTGGTTTTGTTTGTTTGTTTTTACAGTGGTCTTTCC
Celera SNP ID:            hCV877608
SNP Position Genomic:     20197
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42281):
GGATTTGAACCCAAGTGTTTGACCTCTTTTCCAGTAGCATGCTTGCCTTGCTATTTATAATTACTTAAGAAAGTTTAAATTTATATTTTCTTCATTTTAG
S
CTGGTTTTGTTTGTTTGTTTTTACAGTGGTCTTTCCTTTATTTGCTTTGCAGGCTACAACATGATTCATTTTACCCCATTGCAGACTCTTGGACTATCTA
Celera SNP ID:            hCV877609
SNP Position Genomic:     20261
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,2)   caucasian(C,25|G,11)   total(C,31|G,13)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42282):
TATATCTGCATTTCTCCATCTGCTCTAGCAAGGGGCCAGCAGCAATTGAAGAATGCTGTAATTGGTTTCATAAAAGAATGGAGGAATTAAATTCAGAGAA
K
CATCGACTCATTAACTATCATCAGGAACAGGTTTTACTTATTTTTGAACTGCTGCTTTTCCTTGCATCTTACTACTATTTTTTTGTTGTCTTGAGGATGG
Celera SNP ID:            hCV25612139
SNP Position Genomic:     31151
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(G,37|T,1)   total(G,45|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42283):
CTAATAAAACATATTGATAAGAATATTGTTTTATATTGTTTCTATGTATTCACTGACTTATTGAGTTAATTGATAAAGTTTCTGAAATCTACATGTACAA
W
TTTTCTAATTTTTCATCAATTAGGAGAAAAAATTCCACTATTACTATGAATGAAATTTGCCTTTAATGATGAATTTCCCTAAAATGAAACCACAAATTTA
Celera SNP ID:            hCV25763136
SNP Position Genomic:     47957
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,22)   caucasian(T,30)   total(A,2|T,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:42284):
GATTTCAGTGGTTTCTGAAGAACGGTTTTACACTAAGTGGAATCCTGAAGCATTGCCTTCAAACACAGGTGAAGTTAATTTCCAAAGCGGCATTATTGCA
K
CCAGGTGTGCTATCAGTAAACTTCATCAGGAGCTTGGAGCCAAGGGTTTTATTCAGGCAAGAAATAATTAAATTTGTTTCTTCAGGTTCAATTTCAGAGT
Celera SNP ID:            hCV27471187
SNP Position Genomic:     37316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42285):
CCAGCAGGGAATTTATGAATAATTATTTAGTCAACCACCTGGAAATTAAGTCTGATTAAAGTTTTAAAAATAAGCAAGCAGGCCCAGGCACGGTGGCTCA
Y
GCCTGTAATCCCAACACTTTTAGGCTCAGGCAGGCAGATCAGCTGAGGTTGGGAGTTTGCAACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAA
Celera SNP ID:            hCV27508448
SNP Position Genomic:     35249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42286):
CTAGTGATATTGAAGCCAGATATTGACGAGATAACAAAAGGTAACGAAGTGAGTCTTCTATTAAGGACATAACTAATCAAGCAGTTAATGTGCCCCCCCC
C
CAACAAAATAGGGTAGGAAAAAATAGGTGAAATGAGAAAGTAGGGTTTGTAGGAGACAAATTAGAAAGGATTATTAAGAGTCTATCTGCATTTCATATAG
Celera SNP ID:            hCV26334350
SNP Position Genomic:     27348
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|-,5)   total(C,4|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42287):
CTTCTAAGATTGTTACATGGCAGAAAAGAATGTTCAAACTTAATTTACTTAATTTTAAATTACAAAATCTAGGATTCTACTTGTTAGCTAATAGAGTTTC
R
AGTATTTTATTAATCTTTGTGCAAATGTTGTGTTTAACAGTTTGGAACCAATCTGATTTTTTATTATAAACCAGTGTTTATAATAAACAGCTAGATAGAT
Celera SNP ID:            hCV27511813
SNP Position Genomic:     34907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42288):
GCTGTCTCCAGCTCCTGGACTCAGGTGATACTCCCTCCTCAGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACTGCACCTAGCCCCAATATTTATT
Y
TTTATACGTGAAAATCCTATTTGGACATAAGTTATTACTACATTTTGTCATTTTGAAAAATACCTTGAATTTCAGTGATTGTGTTGATGAATCTCGGAGG
Celera SNP ID:            hCV26334358
SNP Position Genomic:     25066
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42289):
GCACCACTGCACTCCTGCACTCCTGGGTGATGGAGAAAGACCTTTCTCAAAAATAAATGGATGAATGAGAGCAGCATTGGTATTTACTCTTTTTTTTTTT
K
TTTTTTGAGACAGGGTCTCATTCTGTCACCCAGGCTGTAGTGCAGTGGCACAATCTCAGTTCATTGCAACCTCCACTTATTGGGGTCAAGCAGCCCTCCC
Celera SNP ID:            hCV26334359
SNP Position Genomic:     24765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42290):
AAGTAACATCAATGCCTCAATTATGTATTTATTTTTTTTCTTTGAGATGGAGTCTTGTTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCA
Y
TGCAACCTCCGCCTCCAGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCCAGGACTACAGAGGTGCACCACCATGCCCAGCTAATTTTTGTAG
Celera SNP ID:            hCV1814590
SNP Position Genomic:     31875
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42291):
ATCCTCTTCGAAACTTTGCTGAACCGGGTATGTAATTTTTAACTTCTCTGTGGATGGGGAAAGAATAGTTCATGGCAAGGTCAAAATAAAATCTGCTTTA
Y
TGATTTTCTTCCCCATTAGTCTATTGGTTTTTAAATATTTCACCATAAAGGTACCAGAGATACATACAATTTGAGAAAGAAAACATGGAGCCAACAAAAA
Celera SNP ID:            hCV1814591
SNP Position Genomic:     32596
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,2)   caucasian(C,11|T,19)   total(C,17|T,21)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42292):
ACATTGACATAAGAGATATTTTCACTCATTGGCCAGAGGTATTAAGAATTTCAGTGGCAATTAAACCAGAACCTAATGGTTTTAGGTCCCCCCTCACTCT
Y
AGTGTCTTGTGTTTCTATAGCTATTTCATTACCAGGAAGAATGTTGCAGGAGCCCATTGATATATTTATTTTTTAACATTTCGAAACTAGGAGTCTATAT
Celera SNP ID:            hCV1814592
SNP Position Genomic:     32963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;(C,-|T,-)   JBIC-allele(T,462|C,1027)   total(C,1027|T,462)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42293):
GTGGCAATTAAACCAGAACCTAATGGTTTTAGGTCCCCCCTCACTCTTAGTGTCTTGTGTTTCTATAGCTATTTCATTACCAGGAAGAATGTTGCAGGAG
Y
CCATTGATATATTTATTTTTTAACATTTCGAAACTAGGAGTCTATATTAGTGACATTAAAATTTATTCAGAAATCTTAATGCTTTTTTTTAAGAGTATAA
Celera SNP ID:            hCV1814593
SNP Position Genomic:     33016
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;JBIC-allele(C,457|T,1016)   total(C,457|T,1016)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42294):
ATCATACTGGTATGAGCTTCATTGACTGCCTTCATTAATTTTGATGAGAATTTATGCACACACACATATACACACAAATAAGAGAAAGGAAGAAAGAAAG
R
GAAAGGAAAGGGGCTAACATAAATTTTAAAAACACAAATGATGATTAGGTGTCCTTCCGTTTAAAAAATTAATATTTTTCCTTTCAAAGAAAACATTCTT
Celera SNP ID:            hCV877610
SNP Position Genomic:     20609
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42295):
AGGTCCCCCCTCACTCTTAGTGTCTTGTGTTTCTATAGCTATTTCATTACCAGGAAGAATGTTGCAGGAGCCCATTGATATATTTATTTTTTAACATTTC
R
AAACTAGGAGTCTATATTAGTGACATTAAAATTTATTCAGAAATCTTAATGCTTTTTTTTAAGAGTATAAATTTGGGTGTAAGTATCTCTGCCCTCTTTT
Celera SNP ID:            hCV1814594
SNP Position Genomic:     33046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42296):
CACACACATATACACACAAATAAGAGAAAGGAAGAAAGAAAGAGAAAGGAAAGGGGCTAACATAAATTTTAAAAACACAAATGATGATTAGGTGTCCTTC
Y
GTTTAAAAAATTAATATTTTTCCTTTCAAAGAAAACATTCTTAATTGAGGATTAAGTCAATATATAAGTATCTTGCATCTGTTGCTTATAAATACAGGAG
Celera SNP ID:            hCV877611
SNP Position Genomic:     20667
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42297):
GATGTTTTATTTTCTTAGCCTTTGTAATTTTTCAACATTGAAGAAGTGTAATATATGAAAAATCCAGTCCCCCTTATTAATGTACCAAATGGATGTTGCT
R
GTCATAAACATTTCAAAGGAATTTTTAAATTTCGCTAATGTTTTAAGAATTAAATTTTTGAAAAAAATTTCACACATACAATGTGATATCTTCATGCCAA
Celera SNP ID:            hCV27480878
SNP Position Genomic:     7756
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   no_pop(A,-|G,-)   JBIC-allele(G,137|A,1356)   total(G,137|A,1356)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42298):
GGAGTCTATATTAGTGACATTAAAATTTATTCAGAAATCTTAATGCTTTTTTTTAAGAGTATAAATTTGGGTGTAAGTATCTCTGCCCTCTTTTTTCTAG
Y
CATTCTAAACGAAATCAAGCCATTCTGCTGTATGCCATGGATCTAATACAACCTGTTGCCGAAAATAAGTAGGAGGGTGGAGATGGAGTTTTAAATGTTT
Celera SNP ID:            hCV1814595
SNP Position Genomic:     33153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42299):
TAAATTTGGGTGTAAGTATCTCTGCCCTCTTTTTTCTAGCCATTCTAAACGAAATCAAGCCATTCTGCTGTATGCCATGGATCTAATACAACCTGTTGCC
R
AAAATAAGTAGGAGGGTGGAGATGGAGTTTTAAATGTTTTTGGTAGAACTATGGTTTTAAAAGGCCTATGATATTAACATTTCTGTTTTCCCTTATGATG
Celera SNP ID:            hCV1814596
SNP Position Genomic:     33214
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42300):
TGTCACCCAGGCTGTAGTGCAGTGGCACAATCTCAGTTCATTGCAACCTCCACTTATTGGGGTCAAGCAGCCCTCCCACCTTAGCCTCCTGAGTAGCTGG
S
ACTTTAGGCACATGCCACCATGCTCAGCTAATTTTTTAAAAATTTTGTAGAGATGAGGTCTCACTATGTTGCCCAGGCTGTCTCCAGCTCCTGGACTCAG
Celera SNP ID:            hCV877613
SNP Position Genomic:     24889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42301):
AATTTTTAGAAGAGACTGTAAGCTAGAGTTTTTTCAGAATAGCTATGAGAAATAAATAATTATTAATTTTTTAAAACATTATCTCATACCACTTTAGATA
W
AATTTAACCAATATATCATTTATGGCAGAAATGATCAAAGCAATTTAAAAACCAGTGTTTCCTTGAAGTAATTGTTTTCATTTTATTTCTTGAACCATTG
Celera SNP ID:            hCV1814597
SNP Position Genomic:     33442
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,4)      total(A,2|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42302):
TCGTTTATTTTAAATTAAAACAAATTATCTGTTTTTAAATAGGTAGATATAAGGTTTCACTGTGTTGCCCAAGCTGGTCTTGAACTCCTGCAGGCTATCC
W
ACCTCCACTCCCACAAAGTGCTGGGGTTGAGCTACCGTGCCTGGCCAAAACAAATTATCTTCAATGTTGTAAATATTTGGAATACTGTGCCAAACTCCTG
Celera SNP ID:            hCV877614
SNP Position Genomic:     25828
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42303):
ACCAGTGTCACTTAGGTGTTCTTTGGAAATGTGTGCTTACCTAAAAAATGTCTATTTCTATAATATTAAAGCAGTATTATAATATATATTTCAAGTCCTA
K
GATGAAAAATTGATTTGATTTGGAGGGATTTAGTGAATATTAGTTAAGCTGGTAGAACATTGTTTAGTTCCAAAAAATGACGGCTTTATTTTATTGTGCT
Celera SNP ID:            hCV1814598
SNP Position Genomic:     34681
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,4)      total(G,1|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42304):
CTCTTTTCTTCTAATTTGTATTTTTACATTTGAATATTTAATATACCTGAAATTTATTTTTGTGTATTATATAAAGAAGATATTTAACTTGATTTGTATT
Y
TTAAAATTATATTGAGTTGAAAATCCATCCTTTTATACTGATTTGAAGTACCACCATAATACTTCATAGTGTATGGTAATATACAAAATATACATCTGTT
Celera SNP ID:            hCV877615
SNP Position Genomic:     29147
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42305):
TATTTCACCTCTAAACTTAACATAGATACAGTTTCAATTTAATTATGAGATACTCCTTTGTGTCTCCTTTTTCCTTCAGCTGCTAATAGTAAATGGATCC
R
GGAACATCCAGAATGTGCCTATAATCTTGTGAATTCTCCACACTTAAAACCTGCCTGGGTCTTAGACAGAGCACTTTGGCGTTTCTCCTGTGATGTTGCA
Celera SNP ID:            hCV25612146
SNP Position Genomic:     26350
SNP Source:               Applera
Population(Allele,Count): african american(A,8)   caucasian(A,35|G,1)   total(A,43|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42306):
AAGGAATGGAATGTTATTTGTATTACTGATGTTGTCTACAATCATACTGGTATGAGCTTCATTGACTGCCTTCATTAATTTTGATGAGAATTTATGCACA
Y
ACACATATACACACAAATAAGAGAAAGGAAGAAAGAAAGAGAAAGGAAAGGGGCTAACATAAATTTTAAAAACACAAATGATGATTAGGTGTCCTTCCGT
Celera SNP ID:            hCV25612147
SNP Position Genomic:     20569
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,35|T,1)   total(C,43|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42307):
AATAAATATTTGTTTTATTTTCAGTGAAAAAATTATAGGCCAAAAATTAGAAAATAGTGACAGTTATAATCTCTTTGTAGATATTTGCATTTAAGGTATC
R
TCTTTTCTTTCTTTTAGAAAATAGGCGAGTAACCAAGTCTGATCCAAACCAACACCTTACGATTATTCAAGATCCTGAATACAGACGGTTTGGCTGTACT
Celera SNP ID:            hCV877617
SNP Position Genomic:     30594
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,2)   caucasian(A,19|G,9)   total(A,25|G,11)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42308):
AGATACCAGAATATTTTACATTTTTTATATTAACCAGTATTTGTTAATCATTTTTAACACATGATTAAAGTCCTGTGAACTCAGTATGTACTAATTTAAG
K
TTAGATGGATGATGTACTAATGCCGAGCTTATTCTGTAGAAGACAAAATAATTGATTATTTCTCTTACCTTTGTTATTGAAATTTTTCTAATGCTTTTTA
Celera SNP ID:            hCV25612148
SNP Position Genomic:     72170
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,1)   caucasian(G,31|T,1)   total(G,38|T,2)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42309):
GTTTAACCCAGTTTACCTTACAAATGTTATCTTGTGTGTATGCTACAATGTAGAAAAGTTTGGAAACCACTGATTTGCATATGTAAAGAACAAGAATTCT
R
GTTGGTACAAACATTTAAAAGATACAATCTGCTGTTTCATAAAACAGTTCTCCAAGTAACCATAGAAACTATGAAGATATTTAAAAGCTCATAGATCTGG
Celera SNP ID:            hCV11642677
SNP Position Genomic:     21637
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42310):
CCGTACTGTCTTCCACAGTGGCTGTGCCATTTTACACTCTTACTAATAGTAAACAGGCTTCCATTCATCTATATCCTCACCAATACTTGTTTTTTTCTGT
K
TTTGTTTTTTTGGATTTTGTTTTTGTTGTTTTGGTTTTTGTTTTTGTTCGTTTGTTTTTGTTTTTTGTTTTTTTTGCTAGTAGCCATCCTAAATGGCTAT
Celera SNP ID:            hCV16070809
SNP Position Genomic:     63537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42311):
GTCTAAGAATTTTATAGTTTTAACTCTTGTGTTTAGGTCTTTGATCCATATTGAGTTAATTTTTGCATATGATATTAAGTCCAAGTCCATTTTTTTTTTT
T
GCATGTGAATATCCAGTTTACTCAGCTCCATTTGCCAAAAAAAATATAAACTGTCCCTTCCCCAATGAATGGTCTTGGCACCCTTGTCAAAAAAAATTTG
Celera SNP ID:            hCV26334217
SNP Position Genomic:     64133
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,8)   total(T,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42312):
TATTTTCTCCCATATTGTGGGTTGTCTATTCACTATCTTAAAAGTATCCTTTGATAAACAAAAGTTTCTGATTTTGATTAAGTCCAATTTATCTACTTTT
R
TTACCTGTGCCTATTGTATCATATGCAAAAAAGCCTCATCAAATTCAATGTCATGAAGCTTTTGCCATACATTTTTGTCTAAGAATTTTATAGTTTTAAC
Celera SNP ID:            hCV26334218
SNP Position Genomic:     63956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42313):
TCTCACTGTGTTGCCCAAGCTGGTCTTGAACTCCTGGGCTCAAGTAGTCCTCTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGCAAACCACTGCA
Y
CTGATCTCAATATTAATTTTCTGCTTTTAAGTTGGATAATACATGAAGAAAGGAATGAGAAGTTCACTGACATAACTAAAACAGAATACAAGTACTATGG
Celera SNP ID:            hCV26334364
SNP Position Genomic:     19863
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42314):
CTCTGTCACCCAGACTGGAGTGCAGTGGCCTGATCTATTTTTTGTAGAGACAAAAGTCTCACTGTGTTGCCCAAGCTGGTCTTGAACTCCTGGGCTCAAG
Y
AGTCCTCTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGCAAACCACTGCACCTGATCTCAATATTAATTTTCTGCTTTTAAGTTGGATAATACAT
Celera SNP ID:            hCV26334365
SNP Position Genomic:     19807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42315):
TAGATTTCAATTTGAATCAGAAAGAAATATCATTACCAATGAAATGTGTTTGAGTTCAGTAAGAATTATTCAAATGCCTAGAAATCCATAGTTTGGAAAA
K
AAAAATCATGTCATCTTCTATTTGTACAGAAATGAAAATAAAATATGAAAATAATGAAAGAAATGAAAAGATAGCTTTTAATTGTGGTATATATAATCTT
Celera SNP ID:            hCV8395384
SNP Position Genomic:     77834
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   JBIC-allele(G,578|T,895)   total(G,578|T,895) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:42316):
AGGCTGCAATGGTGCGATCTCAGCTCACTACAACCTCCACCTCCCGGGTTCAAACGATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCACC
Y
GCCACCATGCCTCACTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTTCTGACCTCGTGATCTGCCCACCT
Celera SNP ID:            hCV26334366
SNP Position Genomic:     19016
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42317):
CAAAGATAATTGGGAAAACATGAGACTGGTCATATTGATGAATATTGTAACATGTGAATTGTGATCCATTTCTGATATGTCTTGAACTACTGTGTCTAGT
R
GGCAAATGTCATTGTTACCTCTGTGTGTTAAGAAAATAAAAATATTTTCTAAAGGTCTGTATTTTGCTTTCATTCATAGTCATTGCACCCAGCTAATTTT
Celera SNP ID:            hCV8395385
SNP Position Genomic:     79874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:42318):
ATTTTGTTTCTTATTATTTAGTAATATAAGTAGATAGAACCATATTAAAAAAAAATTTTTTTTTTTTGAGACGGAGTATCACCCTGTCACGTAGGCTGCA
R
TGGTGCGATCTCAGCTCACTACAACCTCCACCTCCCGGGTTCAAACGATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCACCTGCCACCAT
Celera SNP ID:            hCV26334367
SNP Position Genomic:     18924
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42319):
ACATGTGAATTGTGATCCATTTCTGATATGTCTTGAACTACTGTGTCTAGTGGGCAAATGTCATTGTTACCTCTGTGTGTTAAGAAAATAAAAATATTTT
Y
TAAAGGTCTGTATTTTGCTTTCATTCATAGTCATTGCACCCAGCTAATTTTTTATTTTTTACTTATTTTTTATTTTGTAGAGACAGGATTCTACACTATG
Celera SNP ID:            hCV8395386
SNP Position Genomic:     79923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:42320):
TCTATGTTTAATTTTGTTTCTTATTATTTAGTAATATAAGTAGATAGAACCATATTAAAAAAAAATTTTTTTTTTTTGAGACGGAGTATCACCCTGTCAC
R
TAGGCTGCAATGGTGCGATCTCAGCTCACTACAACCTCCACCTCCCGGGTTCAAACGATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCAC
Celera SNP ID:            hCV26334368
SNP Position Genomic:     18914
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42321):
TAGTCTATCCCTTCATAATTGTAGCTCTAATTTTAAAATGTTTTCCCTAATTATAAAATTATGCAAATGTATAAAAAGCATTTTTTCTGTGTTTTTTTTT
T
AATTAGGATTATACTATCTAAACAATTTTGTAACCTGCCTTTTTCCCGTTTGTAGTAGTATTATGGTGTATGTACTCTACCTCCCTGCCTACTGCCATGT
Celera SNP ID:            hCV26334369
SNP Position Genomic:     15293
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42322):
TTTCTAACAGAGGTAACACCCATTATGTCTCAAACAGGATCAGCCATTGTTTGAAGTCATACAGGAAGCAATGCAAAAACACATGCAGGGCATACAGTTC
Y
GAGAAAGGAATGCTGGTCCCCAGATAGATCGAAACATGAAGGACGAAGGTACAGAACTTTAACTAAAATAGTACAAATTTATCAAGGTGATGAAATTAAA
Celera SNP ID:            hCV27540606
SNP Position Genomic:     58657
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42323):
TGGATGGGGAAAGAATAGTTCATGGCAAGGTCAAAATAAAATCTGCTTTACTGATTTTCTTCCCCATTAGTCTATTGGTTTTTAAATATTTCACCATAAA
K
GTACCAGAGATACATACAATTTGAGAAAGAAAACATGGAGCCAACAAAAAAAGAAGTTCATCTTCTGTCCTCTCCTTTGCCTTCCTACCTTTTATCTTCT
Celera SNP ID:            hCV877620
SNP Position Genomic:     32646
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42324):
GCCCAACTTTACAGGGAAAAGCAGTTACCGTGTATACAAATTACCCATTTCCTGGAGAAACATTTAATAGAGAAAAATTCCGTTCTCTGGATTGGGAAAA
Y
CCAACAGAAAGAGAAGATGATTCTGATAAATACTGTAAACTTAATCTGCAACAATCTGGTTCATTTCAGTATTATTTCCTTCAAGGGTAAGTCAGGTGTT
Celera SNP ID:            hCV15852417
SNP Position Genomic:     17555
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,31)   total(C,1|T,69)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42325):
TTTTATTAATCTTTGTGCAAATGTTGTGTTTAACAGTTTGGAACCAATCTGATTTTTTATTATAAACCAGTGTTTATAATAAACAGCTAGATAGATAGCA
M
CAGTGTTAAACGTAAATCACACAAGTGGAAATTGTAAGGTGTAAGAGTTTTTAAGAGTTATTTATCATCATCTGTAGGAGAAACTGGCTTCAGTCTGGTC
Celera SNP ID:            hCV877621
SNP Position Genomic:     35012
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42326):
TTGGATATTTTGTGTATTATACATGTAATTATGTAGATTGTGAAAGGGTAAAAGTAGCTTTTCCATTAAGTTTTGTTGCAACTTTTAAAATGATTTTATG
Y
GCTTAGAAATAAATACATTTTATTTGGGACAATTAACCTTTTAGTTAGAGTCAGACTATATTATATGAGGATTTTTTTTCTATCACTGACTGAAAAGTTT
Celera SNP ID:            hCV27478460
SNP Position Genomic:     18063
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,201|T,1254)   total(C,201|T,1254) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42327):
GATTCATTACAATTGTTTACCGAATGCCCTTTAAATAGTACTTAAAGGACGCCAACTTAAAGAATAAAAATACGTTTTTTAATTTTAGAGATGGGTCTGC
Y
GTGGAAATTGTGGGCCTGAGTAAATCTGCTGTTCGCTGGTTGCTGGAATTATCCAAAAAAAATATTTTCCCTTATCATGAAGTCACAGTAAAAAGACATG
Celera SNP ID:            hCV25612155
SNP Position Genomic:     68328
SNP Source:               Applera
Population(Allele,Count): african american(T,8)   caucasian(C,1|T,35)   total(C,1|T,43)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42328):
AGTAAACAGGCTTCCATTCATCTATATCCTCACCAATACTTGTTTTTTTCTGTGTTTGTTTTTTTGGATTTTGTTTTTGTTGTTTTGGTTTTTGTTTTTG
K
TCGTTTGTTTTTGTTTTTTGTTTTTTTTGCTAGTAGCCATCCTAAATGGCTATGAGGTGGTATCTAATGGTTTTGATTTGCATTTCCTTAATGATTTCTT
Celera SNP ID:            hCV26334222
SNP Position Genomic:     63584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42329):
TGTGGACGTACTTGAGAAAAAGAATTTAAACTTTTTGGTAACTTGGCCAGGTATGATGGCTCACACCAGTAATCCCAACACCTCAGGAGGCTGAGGCAGG
M
AGATCACTTGAGCTCAGGAGTTCAAGACCAGTCTCAGCATTATGGTAACACCCTGTCTCTATCAAAAAAAAAGTACAAAAAATTAGATGGGCATGGTGGC
Celera SNP ID:            hCV8395313
SNP Position Genomic:     37832
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,10)      total(A,1|C,10) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42330):
AGGCCTCAAGAAACTTACAGTCATGGCAGAAGGCAAAGGGGAAGCAGGCATGTCTTACATGGCCAGAGAAGGAGGAAGAGAACAAAGTGGGAGGTGCTAC
R
TGCTTTTAAACAACCAGATCTTGTGAAAACTCACTCACTATCATGAGAACAAGGGGGAAATCCACCTCTGTGATCAAACACCTCTCACCAGGCCCCTCCT
Celera SNP ID:            hCV8395240
SNP Position Genomic:     18644
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42331):
ATATTCACTATCCTTATCTGATCTTTGCTAATATACGTATTCAGTTTTATAGGACAACAATCACTGTGTACAATATTATCTCAGGTTTTGTTTTGGTCAC
R
GATCATTCTTAAAACATTTCCACTTCAGTCCGCAAAATTGTGATTTTTATTTTGTTAAATGTTCGTACGTTCTGTTATTATGCCCTTTTAAATATTCTAT
Celera SNP ID:            hCV27494646
SNP Position Genomic:     38938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42332):
TTGGTGCATATACCACTCTTCTGGATACAGCATGGAAGCAGATGTCAAGGTATATCCAACAAAGCTTGAATAAATGGGCATATCTGTGTTGAAACTATAT
R
CAGAGTCACTTCATACATGTTCTTAAAAAACCAAACCATAAAGAATTGTCATAGAACTGAAAAGGCTTGTAGGTGGATAGTAAATTTATTAGCATCCTTT
Celera SNP ID:            hCV877627
SNP Position Genomic:     47702
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42333):
TCCAAGAGTTTCCATCATTAGCAATACTGAGTATATATTATTATAACGTAGTGTTTAAGGGCATGGAGTATAGAACCAGACTAACTGGATTTGAATTCCA
W
TGCAGACTCTTATTAGCTATAAGAAGTAAGACCTGGCTGAGTGCAGTGGCTCACTCCTATAATCTCAGCACTTTGGTAGGCCAAGGTGGGAGGATTGCTT
Celera SNP ID:            hCV8395314
SNP Position Genomic:     42070
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42334):
TATTCTTAATAAAGTAGTTGCATTCTTAACCAAAAAATCTGTGATGAAGCAGCTTTGTGTTTGGATGGACTGCTTGTAAAATGCATGTTCCTCCTCAGAC
M
TGCTCAGATTATTTTGGAGCAAGGCCAAGAAATTTGCAGTTTTATAAGATCCCCAGGTAATTTTTAGGCAAGGAGTCCACTGGCTATTGAAAAATATTGT
Celera SNP ID:            hCV8395315
SNP Position Genomic:     42825
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|C,7)      total(A,1|C,7) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42335):
GGTTTTTGATTTTTTGGTTATTGACTTGTAGAAGTTTCTTATATATTCTGGATATTAACCCCTTATCATACATATGAGAATTTCATTTCTTTTTAAGGCT
R
AATAATATTCCATTGTATGTATATACCACATTTTGTGTTTCCATTCATTTGTCAATGGACATTTGGGTTTTTTCCACCTTTTGGCTATTGGGAATAATGC
Celera SNP ID:            hCV26334226
SNP Position Genomic:     63213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42336):
TCCTTTTTGTTTCATAGGGGTAACTCATTCGACTGTGGAGTTCTTTTAATTCTTATGAAAGATTTCAAATCCTCTAGAAGCCAAAATGGGACACAGTAAA
Y
AGATTCGAATTTTACTTCTGAACGAAATGGAGAAACTGGAAAAGACCCTCTTCAGACTTGAACAAGGTCAGTAGCAAGTTGTTTTGATTTGCTCATTTGC
Celera SNP ID:            hCV27860957
SNP Position Genomic:     6976
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42337):
TTCTTCTCTTGATAAATTCTCTTGTTTCTATGTGTTTTGGTATGTTTGATATCTTGCTGCATATTTTTCTATGTCAAATCATGCCTCCTTTTGTCTCTTT
S
CTTCCTCCTATCTTGCTTTTCTCTTTCTGTTACATTTATTTGTTACATTTGTCACTGTGCTTTTTACAGTACATGTTGGATGCTGCTAGGAATTTGCAAC
Celera SNP ID:            hCV1814600
SNP Position Genomic:     35778
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42338):
TGTGATTTTGACTACTTTAGATACTTCATATGAGTGAAATCATGCAGTATTTGTTCTTTTGTGACTGATTTTTTCCACTTAGCATAATGCCAAGGTTCAT
Y
CATCTCATAGCATGTGACAGGATTCCCTTCTTTTTCAAGGCTGCATAATATTCCATTGTATGCATACATTTTCTTTATTCATTCATTGTCAGTGGGCATT
Celera SNP ID:            hCV26334228
SNP Position Genomic:     62597
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,10)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42339):
AATAAACCAGAGGACTGTCCTTATCTCTGGGCACACATGAAAAAATACACTGAAATAACTGCAACTTATTTCCAGGGAGTACGTCTTGATAACTGCCACT
S
AACACCTCTTCACGTAGCTGAGGTACAGAAAAACAATTTATCTACATTAAGAAAAGAAATTCAGTGTTCCTTCCTAGCTTTCCTTAAGTAAACTATGCAG
Celera SNP ID:            hCV27860958
SNP Position Genomic:     33731
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:42340):
GCGTATGATGCTCTTCCAAGTACTACAATTGTTTCTATGGCATGTTGTGCTAGTGGAAGTACAAGAGGCTATGATGAATTAGTGCCTCATCAGGTTTGTT
Y
ATATGTTGTTTCTTAAAACCTACATGGCCAACAACTTTGGGCATTTTTATTAAAAAAAATTCATTGTAATTAAGATGTATCCATGCTAAATTTTACCTTT
Celera SNP ID:            hCV1814601
SNP Position Genomic:     37110
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,25|T,13)   total(C,39|T,35)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;(C,-|T,-)   JBIC-allele(T,451|C,1036)   total(C,1036|T,451)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42341):
ATTTCAATCATTTTGCAGTGATATGGTTTACTGTGGAATTTATGACAATGCATTAGACAATGACAACTACAATCTTGCTAAAGGTTTCAATTATCACCAA
S
GACCTGTAAGAATTTCATTTATCTTCTGAGTTTCAGTTTAAATTATTTTTCAAGTAATTTTTAGGTATTTATGGTTTTTTTTGTCTTTTAAATAATCTTT
Celera SNP ID:            hCV27860959
SNP Position Genomic:     72403
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42342):
ACAGAGGCTTTATTGTATTTGTAAAGTTTAAGTGAGGAAGTAGAACTTGGGTTTTTAATTTTTTTTTGTATCCGAAATATTCCAAGTTTTAAAAAAATGT
M
AGCCTTTCAAGTGATTTGCTTTTCTCTGCTCAAAATTAGGAAGTTGTTCCCTAGAGCTAAGCTATTATTTTGATACGTTTCTACTTCAAAAAAAGCTTTG
Celera SNP ID:            hCV1814602
SNP Position Genomic:     39736
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42343):
GATTTGCCACCTTAATAAGTAAGTTACCACTAGACTGAATTAAGCAGTTTTAAGGGTCCTCTATATCCTTGCTACTCAAAGTACGGTCCAAGGACCAGCA
R
TGTCAGCATCACCTGTTGTTAACATTTTACCCTATTGTTTTATAATTTGTGTGTGTACCTGCATGTGTATTCTCTCTATAGATATAGATACACACATGCC
Celera SNP ID:            hCV1814603
SNP Position Genomic:     40738
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,21)   caucasian(A,25|G,13)   total(A,38|G,34)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;Control(G,45|A,56)      total(G,45|A,56);(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42344):
CATCATTTTTTAAAAATGTCAACATATTATTCTACTTTATGGCTTTACCATAATTTATTTAAACAATTTCCATTTTTGGACATCTAGATTGCTTCTAATT
R
TTCCCTATTATTTATGTCTTTGTACATTCATCTTTACATGAATCCTTAGTTATTCCCTTTCTAGATGTTTCTGCATACTACAGAAGAATATAGGTTTTGA
Celera SNP ID:            hCV1814604
SNP Position Genomic:     41038
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42345):
TATCCATATATTTGAGGCTGTTAATACATACTGCCAAATTTTCTCCAGAAAGATTATAATAATTAATACTTTCAGCTCTATCCAAGAGTTTCCATCATTA
S
CAATACTGAGTATATATTATTATAACGTAGTGTTTAAGGGCATGGAGTATAGAACCAGACTAACTGGATTTGAATTCCATTGCAGACTCTTATTAGCTAT
Celera SNP ID:            hCV1814605
SNP Position Genomic:     41990
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42346):
TCTATATCCTCACCAATACTTGTTTTTTTCTGTGTTTGTTTTTTTGGATTTTGTTTTTGTTGTTTTGGTTTTTGTTTTTGTTCGTTTGTTTTTGTTTTTT
K
TTTTTTTTGCTAGTAGCCATCCTAAATGGCTATGAGGTGGTATCTAATGGTTTTGATTTGCATTTCCTTAATGATTTCTTAGTGATGTTGAGCATCTCTT
Celera SNP ID:            hCV11370644
SNP Position Genomic:     63604
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42347):
TGTTAATACATACTGCCAAATTTTCTCCAGAAAGATTATAATAATTAATACTTTCAGCTCTATCCAAGAGTTTCCATCATTAGCAATACTGAGTATATAT
Y
ATTATAACGTAGTGTTTAAGGGCATGGAGTATAGAACCAGACTAACTGGATTTGAATTCCATTGCAGACTCTTATTAGCTATAAGAAGTAAGACCTGGCT
Celera SNP ID:            hCV1814606
SNP Position Genomic:     42008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42348):
AAATACTGTTTTGGAGATTTTAGATGAGTTTTAACCTTTGCTCTGCAAGTTCTCTGAATACTTGTGTAATTATAAAAACAGTATTTGTATAAACTTAACA
G
GGGACAGGTTGTACACATATACCCAGACAGCTAATCTCTGCTGTTTGTACTTGTTCAAAATGACACTATTTCTCCTAAAGATAAATTTAGTCATTCTTGT
Celera SNP ID:            hCV26334370
SNP Position Genomic:     15018
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,10)   total(G,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42349):
TCAAGTGCCCAGTTTCCAGAATGTATCCTACAGATGATTCTGCTCCTTTGCCTGCTGGCACACTGGTAAAGATATTTCTTAAAATGTTTTTTTGTTTTTT
K
TTTTTTTTCTGAAAAATGACTTTTAGTTTCTAATGTAAAAATAAGGGTAATTAAGAATCCAAATCTTACGAATTATTCAAATGTCAGTATTGATTTGGCA
Celera SNP ID:            hCV11370645
SNP Position Genomic:     56808
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42350):
CTTTCAGCTCTATCCAAGAGTTTCCATCATTAGCAATACTGAGTATATATTATTATAACGTAGTGTTTAAGGGCATGGAGTATAGAACCAGACTAACTGG
R
TTTGAATTCCATTGCAGACTCTTATTAGCTATAAGAAGTAAGACCTGGCTGAGTGCAGTGGCTCACTCCTATAATCTCAGCACTTTGGTAGGCCAAGGTG
Celera SNP ID:            hCV1814607
SNP Position Genomic:     42058
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42351):
CAAATACTGTTTTGGAGATTTTAGATGAGTTTTAACCTTTGCTCTGCAAGTTCTCTGAATACTTGTGTAATTATAAAAACAGTATTTGTATAAACTTAAC
A
GGGGACAGGTTGTACACATATACCCAGACAGCTAATCTCTGCTGTTTGTACTTGTTCAAAATGACACTATTTCTCCTAAAGATAAATTTAGTCATTCTTG
Celera SNP ID:            hCV26334371
SNP Position Genomic:     15017
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42352):
TTTACCGATGTGAATCAGAAGAAAAGGAAGATGGTGGAGGGTGCTATGACATACCAAACTGGTCAGCCCTTAAATATGCAGGTCTTCAAGGTAAGCAAAT
R
GAAGGATAGCTGAGCTTTGTGTTTTTCTTTTAGGGTCATCTGGTGTCTTCTTTACAGACATAGATATAGGCTCAGAGTATGCCTACTTGGGTTGCAATTA
Celera SNP ID:            hCV1814608
SNP Position Genomic:     44030
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,5)   caucasian(A,26|G,10)   total(A,29|G,15)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,17)   caucasian(A,30|G,10)   total(A,47|G,27)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,6|G,8)      total(G,8|A,6) ;no_pop(A,-|G,-)   ;(G,-|A,-)   SG_12_A(G,5|A,18)   SG_12_G(A,11|G,12)   SG_12_AA(G,9|A,12)   SG_95_G(G,65|A,122)   total(G,91|A,163)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42353):
TCTTCACTTCCCAGTAGGGGCGGCCGGGCAGAGGCGCCCCTCACCTCCCGGACGGGGTCGCAGCCGGGCAGAGGCGCTCCTCACATCCCAGACGGGGCGG
Y
GGGACAAAGGCGCTCCCCACATCTCAGACGATGGGCGGCCGGGCAGAGACGCTCCTCACTTCCTAGATGGGATGGCGGCCGGGAAGAGGTGCTCCTCACT
Celera SNP ID:            hCV26334372
SNP Position Genomic:     13118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42354):
ATTTTTAAAAGATGTATGTATGTTATCAGATTTGAGTAATTATCTACTTCATTTTCACTCTGAGTTGTTAAACTACTTCTAGTTCACTACAAAGACCAAA
Y
TTGTGTGTGCTCTTTTTCTAGCCTTTGTCTTTCTTATAGTTAAGTTTGGTTCTTTGCTAATTCTCCTTATCTTTCTAATGAAATGATTCTTCTTATCTTT
Celera SNP ID:            hCV1814609
SNP Position Genomic:     45619
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42355):
TATGCCTTTGTAACTTGGCTCAAGCCAGTATTGTCATACTTATCTCCAACTGTATTAAGCAGTGTTGTGGACTGGGTAGCCCTTGTGTGTGCCTCTAATA
Y
GTATTCACCCCAAATCACTAGAATAGAGACTAGCAGAATAGGGACTAGAGGATATAGGAACAAATTGATGCTACCAATAATACAGCATGACATGTCTCTG
Celera SNP ID:            hCV25764461
SNP Position Genomic:     47021
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,26)   total(C,57|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42356):
ACATTTTAATATTTGTTTTTTATTTCAGTCATCAAATATTTATAGGTATATATTATATACAGTTACAATTTTCAATGAATACATACTTGTTGGTGAACAA
R
GTAGATGAGGTTTCTACTCATAGGTCTTATTTCCTACTGGGAAGATATATGCATTCAACAGATAGCAAACAAGATAATTTTCAGATAGCGTTAAGTGCTT
Celera SNP ID:            hCV11370648
SNP Position Genomic:     50772
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42357):
CCTCCTTCCTTCTTTCCTTCCTTCTTCCCTTTCTTTTCTTTTCTTGTATTTATTTATTTATTTATTTATTTTTATTGATCATTCTTGGGTGTTTCTCGCA
R
AGGGGGATTTGGCAGGGTCATAAGACAATAGTGGAGGGAAGGTCAGCAGATAAACAAGTGAACAGAGGTCTCTGGTTTTCCTAGGCAAAGGACCCTGCGG
Celera SNP ID:            hCV26334373
SNP Position Genomic:     12389
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42358):
ACCGGTAAATGTATCCAAATGTTATAAATGAGAATGTGCCACCTTTTTTTGCAGTAATGGTGTGATCATTTTGTTTTAGAAGATAATTTGAAGCCGGGTG
Y
GGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACTATCCTGGCTAACATAGTGAAACCCCG
Celera SNP ID:            hCV1187257
SNP Position Genomic:     10408
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42359):
CTTTATTTTATTGTGCTTTTAGCAATAGCAAAAAGAAATATGCTTCTAAGATTGTTACATGGCAGAAAAGAATGTTCAAACTTAATTTACTTAATTTTAA
R
TTACAAAATCTAGGATTCTACTTGTTAGCTAATAGAGTTTCAAGTATTTTATTAATCTTTGTGCAAATGTTGTGTTTAACAGTTTGGAACCAATCTGATT
Celera SNP ID:            hCV27477231
SNP Position Genomic:     34865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42360):
GCTCACACACTTGGCGGACTGAGGCAGGAGGATCACTTCAGCCCAGGAGTTTGAGACCAGCCTGGATATCATAATGAAGCCCCACCACCATATTTGAAAA
R
AAAAGAAAAGAAAATGATATTTGTATAGCACAATAGGTTACATGGAGTAGGCTGCTTGTGCTAGATCCAACTACTTCAGTTAGCCCCAGGCCCCACCCAG
Celera SNP ID:            hCV11642616
SNP Position Genomic:     70041
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42361):
TCCTACCTTTTCCAACTGCCATCTTCTTTTATTCCACAATTCCCATTCTACATCATAGAATTTTTTAAAATTATGTGAGGATGATAGACAATGGCAAAAC
Y
GTGAGAGGAAAAAATCTTTACATGATATAGTACACATTCCTATAGAGTAAGGATTTTTTAATAGTTTTCATAATATGTTATATGATTCATTACAATTGTT
Celera SNP ID:            hCV27494292
SNP Position Genomic:     68144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42362):
ATGGAATCTGACCTACTGTAGGCTCTCTGATGTTTCATTTACTGTATATAAAAATTTTAGTTTCAGTGATTTGCATTAGAGGTCTACAGAGTGGCTATGT
R
TCCCTTGGGGTATGCGCTGATATATCTATTGGGCTACAGAAAGAAAATATAACATCCCTTCCTTCCTTCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTC
Celera SNP ID:            hCV8380692
SNP Position Genomic:     12156
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42363):
TCCAGCAGGCTGCTAATAAGAGCCTCAGATTAAATCAGATTTAACTACTTTGTTGACCTGTCTTTCCCTTAAACAAAATGTATTTCCCTCCTTATAATAC
R
GTATATCTAGTCATGTTGGAATCCAGGAATCCATTTTGGATCTGCTCCTTTCATCCTCAGTATCCAATCAGTCATTATGATTTGTGGATTCTTTTCCATG
Celera SNP ID:            hCV1814610
SNP Position Genomic:     45915
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42364):
CATCAGATCTGTTTCTAAAACACTGTTTTCCTTATGTCCTTCCATTATTCAACAGTGAGACCAACATTTACCGAGCATTATCTGCTGTCCATGAAAATGC
Y
AGGGCATATGTAGAATATTATTTTATAGTCTTGTTTCCCAACATCTTTATGTTTTAAGCTTTCTTCCCCAGAGAAGATTGTGAGCCCCTTGAGGGAAAGA
Celera SNP ID:            hCV1814611
SNP Position Genomic:     46254
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42365):
AAATCAAGGACATAATAATAAATATTACCATGTTATATATAATATTTACATTGTTTTCTAACCTGAACCATTTTCCTCCTTCCTTCATCATCTTTCAGTT
R
TAATAAATGGAAATCGGGTTTATAGATTACTAGATAAAGTTGCACATTTAGATTTACCTCTAAAAACACACCTAGTCTGTACACATACCAAATTAACTTT
Celera SNP ID:            hCV11370650
SNP Position Genomic:     47396
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,1)   caucasian(A,7|G,17)   total(A,12|G,18)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,14)   caucasian(A,14|G,24)   total(A,38|G,38)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,449|G,1026)   total(G,1026|A,449)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42366):
TATTTTATAGTCTTGTTTCCCAACATCTTTATGTTTTAAGCTTTCTTCCCCAGAGAAGATTGTGAGCCCCTTGAGGGAAAGAACTTTATCTTAAATTTAT
R
TAGTTTTTAGTTTCTCAAAACATGCTACATACCTAGTAAAATTCATGCAATTCTAAATAGATAAATAAATTTAGTCTAAATGAAGTCAGTGATGCCAATA
Celera SNP ID:            hCV1814612
SNP Position Genomic:     46373
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42367):
ATAATAAATGGAAATCGGGTTTATAGATTACTAGATAAAGTTGCACATTTAGATTTACCTCTAAAAACACACCTAGTCTGTACACATACCAAATTAACTT
W
CAAATTTATTTTAATTACAGGTTGGTAAATGGTTGCAGGCTATGTTCTTCTACCTGAAGCAGATCCCACGTTACCTTATCCCATGTTACTTTGATGCTAT
Celera SNP ID:            hCV1814613
SNP Position Genomic:     47496
SNP Source:               Applera
Population(Allele,Count): african american(A,12|T,26)   caucasian(A,22|T,12)   total(A,34|T,38)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,5)   caucasian(A,16|T,6)   total(A,17|T,11)   
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,6)      total(A,2|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42368):
TGATGCCAATATAATTTTTAAGGTAGCATCATTGAAATAATAAAATCTGGGAAATTCTAATGCTTCTAATTGAAGACTAGAAGGATTAAGAAAAAAAAAA
W
ATATATATATATACCTCATTTTGATACTTCACTTAGTTCTAAGTACCTCCTGTTAAATTTTAACAATTCCTTCCAAAGCATGCTTTATTCTTATTATCTC
Celera SNP ID:            hCV11370651
SNP Position Genomic:     46563
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42369):
GCTTGACTCACAAACTAGCTCTGGGGAGGGAGGCTGATATGGAGAGAACAAAGCACAGATGACAATGATTTTCTAAATTGAGCCAGAACTAAATGGGAAA
R
AAAGATACACATTCAAGAGGATATGTGTTCACATAAAATGGCAGTCATGTAAAATGAAATTACCTGAGCATCTATTATAGAAGCACAAGAAAATACAGTT
Celera SNP ID:            hCV1187263
SNP Position Genomic:     43071
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42370):
GGAGAGAACAAAGCACAGATGACAATGATTTTCTAAATTGAGCCAGAACTAAATGGGAAAGAAAGATACACATTCAAGAGGATATGTGTTCACATAAAAT
R
GCAGTCATGTAAAATGAAATTACCTGAGCATCTATTATAGAAGCACAAGAAAATACAGTTTCAGCTGTATTCAGGTGTGGTCAGTTATACAGTCTTACTG
Celera SNP ID:            hCV1187264
SNP Position Genomic:     43111
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42371):
ATTAATGCCAAATTGTATTATAGAAAAAGTACATTTAGTTGCTTAGAGAAGAAATTCTTAGTTTCACTATAGAGCATTCTCTTAGTGTCTTTTACTGAAA
W
CTTTTGTTCACAGAAAATATCCCTGTTAGTATATCCTCTTTTATTACTTTGTTGGATGTTTAATAAGTCAAGGATTATAAATTATAAATAATATATATTA
Celera SNP ID:            hCV11370657
SNP Position Genomic:     16109
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,11)      total(A,1|T,11) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42372):
TTGTAACTTGGCTCAAGCCAGTATTGTCATACTTATCTCCAACTGTATTAAGCAGTGTTGTGGACTGGGTAGCCCTTGTGTGTGCCTCTAATACGTATTC
M
CCCCAAATCACTAGAATAGAGACTAGCAGAATAGGGACTAGAGGATATAGGAACAAATTGATGCTACCAATAATACAGCATGACATGTCTCTGAATTTTC
Celera SNP ID:            hCV566767
SNP Position Genomic:     47028
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42373):
TTCAGACTTGAACAAGGTCAGTAGCAAGTTGTTTTGATTTGCTCATTTGCGTCTTTTAAACTTTTAATTCATTGGCAGTCCTGTTAAATGTTTTAAAGCT
Y
TAAGATAAATATTATTTCCAAGGGTCTAAAACTTGATTTGTGCAAAGATGGTGCTGTGTTCTCCATATATCACTAATTAATGTTGATTTGAATTAAAAAT
Celera SNP ID:            hCV1187269
SNP Position Genomic:     7127
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(C,10|T,20)   total(C,15|T,51)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42374):
TTAAGAAACAGGCTTTAAAACCAGATTTCCTGGGTTACATTGACTAGTTTTATAACCTGAAGTAAATGCTCTATGGCTTACTTTTCCCCTGCAAAATGGT
R
CCTACCACAGGGATTATGGTTAGGATTAATGAATTAATACATGTGAACAGCTCATTAGACGACACCTAATTCATACTAAGTAATTGGAAATTGTTAGCCT
Celera SNP ID:            hCV566769
SNP Position Genomic:     45017
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42375):
CATGAAAACTTTAGATCCAGAGTAAGTTGGAATATAAGTATTAAGAATGTTATCATATTTAATCCAAATACATTGACATCAACCATAATTTTTTTTTTTT
T
GCCAGGGCAACAAAAGGAGATGCCATCTCTACAAAAATAAAAGTTAAAAAAAAAATTAGTTGGGAGAGATTGTGTACACCTGTAGTCCTAGCTACTCAGG
Celera SNP ID:            hCV26334386
SNP Position Genomic:     71477
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42376):
AGTTTTAACTAGCTTAGTTTTCTGGTTTCCAAAACTAAAATAGATTAAATCCTACAAATTTAAGGACAGTTGTGACAGTAATCTGACCACTATCTATAAA
Y
ACATTGGACATTGGTTTCCAAATCTCCCTTTCTTCTTCAGTTCCTTCCTTGTTCAATATATACCCTTCTCTAAACTGTGCGGGTAAAAGGAATGACTGTC
Celera SNP ID:            hCV3193446
SNP Position Genomic:     79103
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:42377):
AAAATAATGGTATTTTAAAATAATGCTACTTTCAAAGTAGCATTTTTTTAGTTAGTTTACAGGTTACATACCCAAAACCTTAACTATGACTAAGAAATTA
M
AGAAGAAAACCAGCAAACTAAAACTTCTGGGCAGCAAAAATATATAAATGCTTCAGATGTCAAATACCCATGCTTGAAAGCTCGTGTAATTTACTTTAAG
Celera SNP ID:            hCV3193447
SNP Position Genomic:     78858
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|A,12)      total(A,12|C,4) ;no_pop(A,-|C,-)   ;(A,-|C,-)   JBIC-allele(A,596|C,903)   total(A,596|C,903)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:42378):
TCAGTTGGAAGAAAGTAGTGGCAAGAATTCTTTCATTGCTATATAATATTCAGTGGCTCATTTATACCTAATAAAATAATGGTATTTTAAAATAATGCTA
Y
TTTCAAAGTAGCATTTTTTTAGTTAGTTTACAGGTTACATACCCAAAACCTTAACTATGACTAAGAAATTAAAGAAGAAAACCAGCAAACTAAAACTTCT
Celera SNP ID:            hCV3193448
SNP Position Genomic:     78786
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,15)   total(C,15|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:42379):
TGTGTTTTTTTTGTTAGGCTTACCTCATTTTTCTTCTGGTATTTTCCGCTGCTGGGGAAGGGATACTTTTATTGCACTTAGAGGTATACTGCTGATTACT
R
GACGCTATGTAGAAGCCAGGTAGGAGAGCCTCTAAAGTGTTGTACTGCGAGTTTATGTCTGAATGTCTTTTACATGCTCTTCAAACTTTCCTTCTTGTCC
Celera SNP ID:            hCV16182201
SNP Position Genomic:     52280
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,5|G,33)   total(A,5|G,41)
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS

SNP Source:               HGMD;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;JBIG-allele(A,315|G,1172)   total(G,1172|A,315)
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42380):
CTTAAATTCAATAAAATCACTGGAAGTTTTTCATGATAACTTATTTTAAGATGCCTTAAAAATCTTAAAGTCACAAAAGGAAAAAGGTTTTTAACATTTA
Y
ATGAGTTAACATTTTTTCATAGAACTTATTTCCTAGATAGAATTTTTTACTGTTTTTTACTGTTTTCTTAAGAAAACAGTTAAATCATTATGCATTCAGT
Celera SNP ID:            hCV3193449
SNP Position Genomic:     78590
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,12)   total(C,12|T,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:42381):
TCTTCAATGTTGTAAATATTTGGAATACTGTGCCAAACTCCTGATTCTGATTCTGAACTATAAGCTACATTCGTATTCCTTGAGCGTATTTATTTTAGCA
Y
TTTCTCAACCTCGCTTTTATCCAACTTATCAAAACAACGTATTTCATTAACACTTTAGGATGAGCCATACAAAAGTGTTACCTATGAGAGAGTTGCTTTT
Celera SNP ID:            hCV29072540
SNP Position Genomic:     25986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42382):
CCAGAACTTTGTCATCATTCCTAATTGAAGCAGGAACTCCTCATTATCTCCTTCCCCAGCCCCTGGAACCACTATCCTACTTTCTGCCTCTATAAATTCA
R
TTATCCTAGGGACCTCATATAAGCGGAATCATACAGTCTTTGCCCTTTTGTACCTGGCTTATTTCACTTAGCATAATTATTTTTTATCAATACATAAGAG
Celera SNP ID:            hCV1007129
SNP Position Genomic:     62105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42383):
AGCCGGGCATGGTGGTGGGCGCCTGTAATCCCAGCTACTCCAGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTACAGTGAGCCGAGA
Y
TGTGCCACTGTACTCCAGCCTGGGTGACAAAGCAAGACTCTGTCTCAAAAAAAGGGAAAAATTTAAATTAGCTGTGTGTGTTGGCATACACTTGTCGTCC
Celera SNP ID:            hCV29072541
SNP Position Genomic:     24493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42384):
AAAATACAAAAATTAGCCGGGCATGGTGGTGGGCGCCTGTAATCCCAGCTACTCCAGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTT
R
CAGTGAGCCGAGACTGTGCCACTGTACTCCAGCCTGGGTGACAAAGCAAGACTCTGTCTCAAAAAAAGGGAAAAATTTAAATTAGCTGTGTGTGTTGGCA
Celera SNP ID:            hCV29072542
SNP Position Genomic:     24479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42385):
GTGAGATGTAAATGTTTATGCTTCTCAGTCACTAAGTATTTTACTTCATGTTTTAATTCTTTCTGTAATTATTTCTTAGTCTATCCCTTCATAATTGTAG
S
TCTAATTTTAAAATGTTTTCCCTAATTATAAAATTATGCAAATGTATAAAAAGCATTTTTTCTGTGTTTTTTTTTTAATTAGGATTATACTATCTAAACA
Celera SNP ID:            hCV29072543
SNP Position Genomic:     15217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42386):
ACAATGGTTGAACTAGTTAACAGTCCCCCCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGAT
Y
GCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTGTTGGCTG
Celera SNP ID:            hCV26334242
SNP Position Genomic:     59732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42387):
CATTAGGTTTGCGGAGTTATTTTAAACATAATTGAAAAATCAAGGTTTTTTAATACTTTAAATAAAACATCTGTTTTTCAATGTGGTAATTTAAGTCCTA
Y
GATGAGTTTATTAACATGTGCTTTTTATTTAGGGTATGAGCTACAGTTCCGATTAGGCCCAACTTTACAGGGAAAAGCAGTTACCGTGTATACAAATTAC
Celera SNP ID:            hCV16195671
SNP Position Genomic:     17398
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,17)   caucasian(C,26|T,4)   total(C,47|T,21)
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:42388):
CACCTCCTTTGTGAAGTCTTTCCCTAATTTTTCACTGTCTGCTTCCTTTGATTTCCAATTACACAATGAGCACAGAACTATTAAGTGCTGAATAATGAAG
Y
AGTGTCTAAAGGCTTGTTAGTCTTACAGTGTCAGACTAGGGTTTAAAATCTGTGAGAATTGATGAGGGCAGGTGACTCACACTTGTAATCTCAGTGCTTT
Celera SNP ID:            hCV27918495
SNP Position Genomic:     9463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42389):
TCTTTTTCAAACATTTCTTGGCAGTGTTCTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTCGCCTAGGCTAAAGTGCAGTGGTGTAATCTCC
R
CTCACCACAACCTCCGCTTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCACACCCAGCTAATTCT
Celera SNP ID:            hCV1187271
SNP Position Genomic:     29430
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42390):
GTATTTTTAAAATTATATTGAGTTGAAAATCCATCCTTTTATACTGATTTGAAGTACCACCATAATACTTCATAGTGTATGGTAATATACAAAATATACA
K
CTGTTATCTGTGCTCTTCCACTGATCCGTCTCTTTTATTCTATCAATACTAAAGATTATTAGTTTATACTGATGGCATAGCTTTTTCTCTTTTTCAAACA
Celera SNP ID:            hCV566771
SNP Position Genomic:     29242
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42391):
ATTTTGTTTTTTTGTTCGTGTTTTTATAAGTCATTTCAAAGTCTCTTTAGAATAAGCCAGACACAAATTAATTAGTTAATATAAAATCAAGTTCAATGGA
R
GCAATCCTGTACCAGTTCTTAATTTTATTACAAACAAGTTCCAGAAAAAGAGTGAAAATTTCCCCAAAAACCATTTATTTCCTTTTTAATTTTTAAGTTA
Celera SNP ID:            hCV1187272
SNP Position Genomic:     29879
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   SG_12_A(G,5|A,16)   SG_12_G(A,10|G,13)   SG_12_AA(G,0|A,23)   SG_95_G(G,63|A,112)   total(G,81|A,161) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42392):
AAACAAGTTCCAGAAAAAGAGTGAAAATTTCCCCAAAAACCATTTATTTCCTTTTTAATTTTTAAGTTATTATCTAAGGAATATGGTTGATGAAAAGGGA
R
AAAAAGTATTAAACCTGTGTGCTTCTTTTAGAGAATTCAAAGAAAGTCAGGTTGTTAATAAGACTTCAGGAAGCAAACTTTGAAAGCAATCTTGAAAAAG
Celera SNP ID:            hCV1187273
SNP Position Genomic:     30011
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42393):
AGAGTGAAAATTTCCCCAAAAACCATTTATTTCCTTTTTAATTTTTAAGTTATTATCTAAGGAATATGGTTGATGAAAAGGGAAAAAAAGTATTAAACCT
K
TGTGCTTCTTTTAGAGAATTCAAAGAAAGTCAGGTTGTTAATAAGACTTCAGGAAGCAAACTTTGAAAGCAATCTTGAAAAAGAACTCCTGAGGTTAGAA
Celera SNP ID:            hCV1187274
SNP Position Genomic:     30028
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42394):
TATTATCTAAGGAATATGGTTGATGAAAAGGGAAAAAAAGTATTAAACCTGTGTGCTTCTTTTAGAGAATTCAAAGAAAGTCAGGTTGTTAATAAGACTT
Y
AGGAAGCAAACTTTGAAAGCAATCTTGAAAAAGAACTCCTGAGGTTAGAATATTTGGTAGCACCGGGGAGGAAAACGGGTTCCACTAAAGTCCTTAAAGT
Celera SNP ID:            hCV1187275
SNP Position Genomic:     30078
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42395):
AAGCATTAGGAAATTTATTTCCTAAAAACAGTTTTGTAAAATTAGTATTGAGTTCTATTGAGTATTATAAGATAGCTTACATTTTCAAAATGGAAATTGT
Y
GGTCATATTTCTAGAACTTTAAAGAAAAAAGAATGTTATATTAGTTTTCTAAAACTCAACTATCTTTAGTCATGTTCAAAAATCTATTGCTAGATCATAG
Celera SNP ID:            hCV3193450
SNP Position Genomic:     78294
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;JBIC-allele(C,319|T,784)   total(C,319|T,784)   (C,-|T,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:42396):
CCATGTTTTGGCCAGGCTGGACATTGTGGTTTTAATTTGCATTTCCCTAATGGCTAATGGTATGGAATATCTTTTCATGTGCTCATTGGCCATCCATCTT
Y
CCTCTTTGCTGAAATGTCGGTTCACGTATTTTGCACATTGTCTCTTTCTTTATTATTTTTTAGAGACAGGGTCCCACTCTGTCACTGAGACTGGATGGCA
Celera SNP ID:            hCV1007130
SNP Position Genomic:     61442
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42397):
TTACACCAGTTCCAAGCTATTTCTCAGTGTTTAATTCTATTTTTCTCCCTTTCTATATTTGTAATTCCCTTTTCCAACAATGAATAACCTACTTCCCACA
Y
TGGGCCATCACCACCACATAGAGTCTGCTCACCCAGCTTGGGCCTGCTACCCCACAGTAAGCCACCTCTATGTGTGGAGCCCTCCTGGCACCACTTGGAT
Celera SNP ID:            hCV3193451
SNP Position Genomic:     75664
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42398):
AGATGAGGCTTCGCCATGTTTTGGCCAGGCTGGACATTGTGGTTTTAATTTGCATTTCCCTAATGGCTAATGGTATGGAATATCTTTTCATGTGCTCATT
K
GCCATCCATCTTCCCTCTTTGCTGAAATGTCGGTTCACGTATTTTGCACATTGTCTCTTTCTTTATTATTTTTTAGAGACAGGGTCCCACTCTGTCACTG
Celera SNP ID:            hCV1007131
SNP Position Genomic:     61429
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42399):
ACAGTTTGATCCTTTCTGGTCTTGATTTTAAGCTTGTTAGACCTGACCAGAATAGCATTTGGTCTAGGAATAATTATTCTCCATTAGTGAATCAAGACCC
R
TCTGTGTTCCCTACCCTGTATTTCGAAAATTATGACGTTTTCAAATCTGGCTGGTGGGAACAAGCAAGTGTTCCTGACGCTGTATGAGTGCCACATACTG
Celera SNP ID:            hCV3193452
SNP Position Genomic:     74757
SNP Source:               Celera
Population(Allele,Count): no_pop(G,7|A,9)   total(G,7|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42400):
TAGACCACTACAAACTGTGTGTGGTGGGGGGGTGGGTCTGAGATGGAGTCTTGCTCTGTCCCCCAGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCA
M
TCTCTGCCTCCTGGGTTCAAACGATTCTTGTACCTCAGCCTCCCAAGTAGCTGGACTACAGGTGCATGCCACCACAACTAGCTAATTTTTTGTATTTGTT
Celera SNP ID:            hCV1007132
SNP Position Genomic:     61188
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42401):
AGCTGCTCAAGAGGCTAAGGCAGGATGATCGCTTGAGCCCAGGAGATTGAGGCTGCACTGAGCTCTGATCTCGCCACTGCACCCCAGCCTGGTGACAGAG
Y
GAGACCCTGTCTCCAAAGGGGTTAAAATAAAAGTGTGTTCTGCCTTCAGTGTAGCTGTGGCAACTTCCTTTTGGAGCTGAGTAACTTTCTTGAGGTGACA
Celera SNP ID:            hCV3193453
SNP Position Genomic:     70976
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42402):
AAGAACTTTATCTTAAATTTATATAGTTTTTAGTTTCTCAAAACATGCTACATACCTAGTAAAATTCATGCAATTCTAAATAGATAAATAAATTTAGTCT
W
AATGAAGTCAGTGATGCCAATATAATTTTTAAGGTAGCATCATTGAAATAATAAAATCTGGGAAATTCTAATGCTTCTAATTGAAGACTAGAAGGATTAA
Celera SNP ID:            hCV11642635
SNP Position Genomic:     46451
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42403):
CATTAAAATTAATGCATATTCTTGGTCAACAATGCTTTTCTCTTCTTTCTCTGTATCTCTGATAAATTTACTCATGCTATTGGAGTAAAAGTTCTGTGTT
W
ATTTATGGCCCCAGAAGCAAACAATGGGTATCAGATGTACTTAAAGAAAGCTATTATGAATCTGCTGAAGAATGAGTTACATAAATTTAAGTGTGTGCTG
Celera SNP ID:            hCV3193454
SNP Position Genomic:     70606
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,5)      total(A,2|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42404):
TTTATCATTGTGATTAAGAAACAGGCTTTAAAACCAGATTTCCTGGGTTACATTGACTAGTTTTATAACCTGAAGTAAATGCTCTATGGCTTACTTTTCC
M
CTGCAAAATGGTACCTACCACAGGGATTATGGTTAGGATTAATGAATTAATACATGTGAACAGCTCATTAGACGACACCTAATTCATACTAAGTAATTGG
Celera SNP ID:            hCV11642636
SNP Position Genomic:     45004
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4|-,8)   total(A,4|C,4|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42405):
TGGGGTATTTTCCAAAGTCATTATGGATCCTCAAATTTGAGAGTTTCCCTTTAGCTCATAATTTACCCCCATTACCTGTGTATGCAGATGAGTAAAAATA
R
CAATGCCAATTTAAAATTCAGATGCTGGATAACAAGCTAGGTTCGTTTATTAGCTGAAGAGATCACTCTGATAGAAACTGTAGAAGCTCACTAGATTTGT
Celera SNP ID:            hCV1007133
SNP Position Genomic:     58246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42406):
TAAAACATCTGTTTTTCAATGTGGTAATTTAAGTCCTACGATGAGTTTATTAACATGTGCTTTTTATTTAGGGTATGAGCTACAGTTCCGATTAGGCCCA
R
CTTTACAGGGAAAAGCAGTTACCGTGTATACAAATTACCCATTTCCTGGAGAAACATTTAATAGAGAAAAATTCCGTTCTCTGGATTGGGAAAATCCAAC
Celera SNP ID:            hCV25952842
SNP Position Genomic:     17460
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,32)   total(A,68|G,2)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42407):
CATTTCTGATCCACTTAATTCTGTTGTTTTAGGAATATTATTTTAGCATTTGCGGGTACCCTGAGGCATGGTCTCATTCCTAATCTACTGGGTGAAGGAA
W
TTATGCCAGATACAATTGTCGGGATGCTGTGTGGTGGTGGCTGCAGTGTATCCAGGATTACTGTAAAATGGTTCCAAATGGTCTAGACATTCTCAAGTGC
Celera SNP ID:            hCV25612106
SNP Position Genomic:     56615
SNP Source:               Applera
Population(Allele,Count): african american(T,8)   caucasian(A,1|T,33)   total(A,1|T,41)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42408):
TGTCCGGCAAAGAATTTTAGACTCTCTGCTGTTTTAAATCTATACTTTAGTCTAAAAATAAACTACAAGGAAGTAAAATAGAGAAGGTATGTGTTCTTCT
R
TGCCTGGCTAGCTGTTTTCACGTTGTCAAAAAGAGTACCAAACCTACTACTATAAATTATAGTAGAATGAAAAGTGTAAAAGTACACAAAGGTAGCTTTG
Celera SNP ID:            hCV3193455
SNP Position Genomic:     70392
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42409):
TCTTAATCTGAGAAAAATCCTGGTTTCTTGAATAAACAAGCTGAGGGGCAGTGCAACCTTAGAGAAGAGAAAGGAAGGGACTTGGAGAGAAATATGAAGG
Y
AGAGAGCATGTGATTTCCTAGGCAATTAACTTTGACTTTTTATTCCTTTAGTCATCCTCTGATAAGTATTTTTAGTATACAATAACTAGCATAAAAAGTT
Celera SNP ID:            hCV11642637
SNP Position Genomic:     43374
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(C,-|T,-)   JBIC-allele(T,343|C,932)   total(C,932|T,343)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42410):
GGGAGAAAGTGACAGAGCTAGAAACAGAGGAATCCCAGCCACACCAAGGTAGTGTAAATGTTATAATGCTGTGTAATTATACCCTTCTTTAAGAAAGCAC
W
TACTTGTGGAATCTTTTATTCTGTTAACTATGAACTCTTTACATTAAGTCAATCAAAATTTCCCTGCCTTCTTCCCTTCATCTCCCCATTATACATTTAC
Celera SNP ID:            hCV3193456
SNP Position Genomic:     66811
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,6)   caucasian(A,25|T,13)   total(A,27|T,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,9)      total(A,3|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42411):
ATTTGCAGGTGCCTGCCTTGTACCCCAGGTTTAGAGTAACTGTTCTATAGTAATGGAGTTCATAGGTTTGTGTGTATTATTATGATTAACATATTACTTT
R
TTGTGTTTTTTTTGTTAGGCTTACCTCATTTTTCTTCTGGTATTTTCCGCTGCTGGGGAAGGGATACTTTTATTGCACTTAGAGGTATACTGCTGATTAC
Celera SNP ID:            hCV25612107
SNP Position Genomic:     52178
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,1|G,35)   total(A,1|G,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:42412):
CATACTATGACTACTTTCTACATGAAAATATAAAGAAATAGGGCAAGAGAGAAAACGCATTCAAAATATAGTCACCAAAAGTGACTGGTTTTTGTCTTCA
R
TTTTTAAGTGTTTGTTTTCATTTCTGATCCACTTAATTCTGTTGTTTTAGGAATATTATTTTAGCATTTGCGGGTACCCTGAGGCATGGTCTCATTCCTA
Celera SNP ID:            hCV1007135
SNP Position Genomic:     56496
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;SC_12_C(G,0|A,23)   SC_95_C(G,10|A,169)   total(G,10|A,192)
SNP Type:                 INTRON


Context             (SEQ ID NO:42413):
GATAAAATGGGAGAAAGTGACAGAGCTAGAAACAGAGGAATCCCAGCCACACCAAGGTAGTGTAAATGTTATAATGCTGTGTAATTATACCCTTCTTTAA
R
AAAGCACTTACTTGTGGAATCTTTTATTCTGTTAACTATGAACTCTTTACATTAAGTCAATCAAAATTTCCCTGCCTTCTTCCCTTCATCTCCCCATTAT
Celera SNP ID:            hCV3193457
SNP Position Genomic:     66803
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,6)   caucasian(A,24|G,14)   total(A,26|G,20)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42414):
TCAGTTGAGCCCAGGAGGTCTAGGCTGCAATGAGCCATGATTGTGCCACTGCTCTCCAGCCTGGGCAACAGAGCAAGACCCTGTCTCTAGAAAAAAAAAA
A
GAGATCTTTGAGAATTTATAATAGACATAATTATAGCACCTTTCTTACAGATTACTTGAGTAAAACACAATAGTTTTTGACACATAGTGATTGATAAGTG
Celera SNP ID:            hCV11642638
SNP Position Genomic:     42409
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42415):
TGCCATAAATTATAAACACTTAAAATCTTAATGGCTTTTCACAAATAAAATTTATTTCTTGCTTGTAGTCGTAGACGCATGCTCAGTAAGCAGCCTTCTA
Y
ATACTGATTCAGGGAAGCAGGTTTCTTCCAGCTTGAGGATCTGTCAGTTTCCATGGCTTCTGGGGCCTCTCCAGGAGGCAAGCAGAGAGGGAAAGAGAGC
Celera SNP ID:            hCV1007136
SNP Position Genomic:     54556
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42416):
TATTCAGTGTACTATAATATATACTATAATCAATAATTTATGTTTTGAGATTATACACAGATATTAGATATACCAGTATTATCTATGATTAAACTTTTAC
R
AAAAAGTTATCTTACTATATATGTCCTTTTGCAACTTGTTTTATTCAATCATTTTGTTTTGGAGATTTATCTTTTTTATATAAATTTAAGGGGTACAAGG
Celera SNP ID:            hCV3193458
SNP Position Genomic:     65935
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42417):
ACCCCAAGGCCACCTACTACTGCCAGGTTGGGTGTGGAAGTTCATACTCCCCAGATTCCCCTCGTGGTGCCCGCAGGTACCACGCTGCTGAGGAAGGGGA
R
CACTGCCTTAAGCCATCTGCTACCCCCAGGTAGGGGATAGGAGTCCAGGCTTCCACTCAGTCTCCACTGACATTCCAGGGAGAAAGGACATCCATGGTGT
Celera SNP ID:            hCV3193459
SNP Position Genomic:     65285
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42418):
TACTTCTCAGGTACGATATAAAACAAATAAAAACTAAAAAATTAAGTTGATAAACAAATACAAATAGAAGTGTGATATTTGCTCCTAGCATCCCAAGGGA
R
TGTTTTGCCTATTCCATACTTGTAAAAAATAGGACTGTATTCAGATTTGCAGATAGGTTTTTTGGGGTTCATTTTAAACTGATTGGGGATGTCTTCCTTT
Celera SNP ID:            hCV1007138
SNP Position Genomic:     49688
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42419):
ACCAGGCATTTATGTGTGTTTTTTATGGCTAGCTGATTCTTCATGTTTCTATTTTTTCCAACTCTTGACATTCTGTGTTTTTTTAAATCAAATTTATTTT
R
CTATTCTCTTTTCTATATTTTCCCCCAATTTTAAAAAATAAACCCAATCTTGTAATTATCAAGAGGTCATGTAAGGGTCCCTATAAATTATAAAACAAAA
Celera SNP ID:            hCV1007139
SNP Position Genomic:     48806
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   SC_12_A(G,5|A,12)   SC_12_C(A,5|G,12)   SC_12_AA(G,7|A,8)   total(G,24|A,25) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42420):
GTTAAATTTGAATAAATTACTCCTAAAAATTAACCACTTTTTAATTAACATTTTCAGAGTTAGTCTTGATCCACATGCACAAGTCGCTGTTGGAATTCTT
Y
GAAATCATCTGACACAATTCAGTCCTCACTTTAAATCTGGCAGCCTAGCTGTTGACAATGCAGATCCTATATTAAAAATTCCTTTTGCTTCGTAAGTATG
Celera SNP ID:            hCV27540926
SNP Position Genomic:     40523
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:42421):
CCAGTTTCCAGAATGTATCCTACAGATGATTCTGCTCCTTTGCCTGCTGGCACACTGGTAAAGATATTTCTTAAAATGTTTTTTTGTTTTTTTTTTTTTT
T
CTGAAAAATGACTTTTAGTTTCTAATGTAAAAATAAGGGTAATTAAGAATCCAAATCTTACGAATTATTCAAATGTCAGTATTGATTTGGCACCTGCTGG
Celera SNP ID:            hCV26334252
SNP Position Genomic:     56816
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,12)   total(T,12|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42422):
CCCAGTTTCCAGAATGTATCCTACAGATGATTCTGCTCCTTTGCCTGCTGGCACACTGGTAAAGATATTTCTTAAAATGTTTTTTTGTTTTTTTTTTTTT
T
TCTGAAAAATGACTTTTAGTTTCTAATGTAAAAATAAGGGTAATTAAGAATCCAAATCTTACGAATTATTCAAATGTCAGTATTGATTTGGCACCTGCTG
Celera SNP ID:            hCV26334253
SNP Position Genomic:     56815
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,12)   total(T,12|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42423):
CTTAATTCTGTTGTTTTAGGAATATTATTTTAGCATTTGCGGGTACCCTGAGGCATGGTCTCATTCCTAATCTACTGGGTGAAGGAATTTATGCCAGATA
S
AATTGTCGGGATGCTGTGTGGTGGTGGCTGCAGTGTATCCAGGATTACTGTAAAATGGTTCCAAATGGTCTAGACATTCTCAAGTGCCCAGTTTCCAGAA
Celera SNP ID:            hCV27859145
SNP Position Genomic:     56628
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:42424):
GCTGGTCTCAAACTCCTGACCTCAGGTGTTCCGCCCGCCTCGGCCTCCCAAAATGCTGAGATTACAGGTGTGAGCCACTATGCCCAGCCAGTTTGTTTTC
Y
TATATGTTTGTTTTACTCTTGGTTTCTGCTATTTAAAATAATTAAGTTCTTGTTTAATAGTTACTTCGATTTTGAAATACCATAGACTTCAAAAGTAGAA
Celera SNP ID:            hCV26334254
SNP Position Genomic:     56152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42425):
TCTCTCTCTCTCTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCTTTCCCTCCCTCCCTCCCTCCCTCTCTCCTTCCTTCCTTCCTTTCTTTCTTTCCTTCT
T
TCTTTCTTTTCTTTCTTTTTTTTGAGACTGAGTCTCGCTCTGCCATCCAGGCTGGAGTGCCGTGGCGCAATCTCCGCTCACTGCAAGCTCCGCCTCCCTG
Celera SNP ID:            hCV26334255
SNP Position Genomic:     55526
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42426):
AAAAATCTCTAATCATAATGGCAAAGTTAGGTAAAGAAATAGGTACATTCTAAAATTTGGTGTTTCTGCATGTACCTAGAAACCAAGCCTCCAGTTCTAC
R
GTGAAAACTTCATAATACCTAAGAACTCAGTATTCTTCATTTGAAAATTTGACATTATTAAGCCAGGTGCTGTGGCTTGCACCTGTAATCCCAGCTGCTT
Celera SNP ID:            hCV8395274
SNP Position Genomic:     21853
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   ;(G,-|A,-)   SG_12_A(G,5|A,12)   total(G,5|A,12)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42427):
CTCTCTCTCTCTCTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCTTTCCCTCCCTCCCTCCCTCCCTCTCTCCTTCCTTCCTTCCTTTCTTTCTTTCCTTC
T
TTCTTTCTTTTCTTTCTTTTTTTTGAGACTGAGTCTCGCTCTGCCATCCAGGCTGGAGTGCCGTGGCGCAATCTCCGCTCACTGCAAGCTCCGCCTCCCT
Celera SNP ID:            hCV26334256
SNP Position Genomic:     55525
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42428):
TTCTTACAAAAGATTAGATAGGCATTCCTGGACTAGGATGGTAGTTCAGTGGTGATAGGGAACTAGTTTCTCTCATGTTGCTCTGCAGTCTCCAACACTT
W
GCTTCAAATTCTTAGTCAGATATGGCTATTCCAGCTCCTGCTACCACATTCTCCCCAGTGGAAATGAGGAAAGGGCAGGCATGTCTTTTTGGGTATGATA
Celera SNP ID:            hCV8395275
SNP Position Genomic:     22328
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42429):
TCTCTCTCTCTCTCTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCTTTCCCTCCCTCCCTCCCTCCCTCTCTCCTTCCTTCCTTCCTTTCTTTCTTTCCTT
C
TTTCTTTCTTTTCTTTCTTTTTTTTGAGACTGAGTCTCGCTCTGCCATCCAGGCTGGAGTGCCGTGGCGCAATCTCCGCTCACTGCAAGCTCCGCCTCCC
Celera SNP ID:            hCV26334257
SNP Position Genomic:     55524
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42430):
TTCTCTCTCTCTCTCTCTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCTTTCCCTCCCTCCCTCCCTCCCTCTCTCCTTCCTTCCTTCCTTTCTTTCTTTC
C
TTCTTTCTTTCTTTTCTTTCTTTTTTTTGAGACTGAGTCTCGCTCTGCCATCCAGGCTGGAGTGCCGTGGCGCAATCTCCGCTCACTGCAAGCTCCGCCT
Celera SNP ID:            hCV26334258
SNP Position Genomic:     55521
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42431):
CTTCCTTGAGATGCAAATAGAATATTCTTTGATTTCTAGGAGGTAATTTTATGGTCCATTGCAGAGCTAAAGTATCAAGTAAATGTATTTTAAGTAACAT
M
TTAAAATGTAGTAATTTCATGCAACCTGATTATAGGTTGCTGTTTATTTGCGTGCCCTTGTTATTACTGATAGGTTTTAGTATACTTATATTTCATTAAA
Celera SNP ID:            hCV1187283
SNP Position Genomic:     17853
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42432):
TGCATATACCAGTATTTATTTAACCATTCATCCAAACCATTCATCCATTGAAGGACATTTGGGTTGTTTTCATGTTTTGGCTAATACGAGTAAAGCTACT
R
TGAACATTCATGTACAAGTTTTTGTGTGACACATAAGTTTTCATTTTTTCTGGGATAAATGTCCAAGAATGGGATTGGTTCATATAGTAAGTATATGTTT
Celera SNP ID:            hCV3193461
SNP Position Genomic:     60841
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42433):
ATCAAAAAAAAAGTACAAAAAATTAGATGGGCATGGTGGCACATGCCTGTAGTCTTGGCTACTCCTGAAGCTGAGGTGGGAGGATCGCTTGAGCCCAGCA
S
GCAGTGGTTACACTGAGTCCAGATCCCACCACTGCACTCTACTGGGTGATAGAGTGAGACCCTATCTCAAAAAAAAAGAAATTTTTGGCAACTTATATTT
Celera SNP ID:            hCV1187287
SNP Position Genomic:     37993
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42434):
AGTTTGAAAGATAATTTTGGTGGTTTCATTTATAACTATAATAATCGCCATGAACTGCATGCTTACTATTGCTAGGCATTGTGGTAACTACTTTACCTAT
R
TTATTACCATTTAACACTCCCCAAAACATTGAGAATGAGTGATATTGTTTCCATTTTTTTTAATTATTATACTTTAAATTCTAGGGTACAGGTGCACAAC
Celera SNP ID:            hCV3193462
SNP Position Genomic:     58995
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,11)   total(G,3|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42435):
TGTCGGATTTGGGGGAAAATAAGAAAAATGTAATTTCTAACAGAGGTAACACCCATTATGTCTCAAACAGGATCAGCCATTGTTTGAAGTCATACAGGAA
R
CAATGCAAAAACACATGCAGGGCATACAGTTCCGAGAAAGGAATGCTGGTCCCCAGATAGATCGAAACATGAAGGACGAAGGTACAGAACTTTAACTAAA
Celera SNP ID:            hCV3193463
SNP Position Genomic:     58624
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,7)   caucasian(G,36)   total(A,1|G,43)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): (A,1|G,13)   total(G,13|A,1)Caucasian(A,0|G,309)   Chinese(A,1|G,60)   Japanese(A,0|G,20)   African(A,5|G,95)   total(G,484|A,6)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42436):
GTTGTTGTCAGTTTATTTCATTTCAATAAATGAGGCTGTGATAAATATCCTTATACATAATCTCTGTTTACATCACTGATACTTTTCTCAAAAAATCTAT
R
TAAAATTCCTAGATCAAAAAATATAAACATTCTTAATATATTAATGCCAAATTGTATTATAGAAAAAGTACATTTAGTTGCTTAGAGAAGAAATTCTTAG
Celera SNP ID:            hCV1814568
SNP Position Genomic:     15969
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,9)   total(G,5|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42437):
ATGCTGAGATTACAGGTGTGAGCCACTATGCCCAGCCAGTTTGTTTTCCTATATGTTTGTTTTACTCTTGGTTTCTGCTATTTAAAATAATTAAGTTCTT
R
TTTAATAGTTACTTCGATTTTGAAATACCATAGACTTCAAAAGTAGAATCTGGAGCTATGAGGGACCTTAAAAATCACCCAGTCCAATCTCAAATGAAAA
Celera SNP ID:            hCV3193464
SNP Position Genomic:     56204
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42438):
CTCATCAGTTATTATTGCCCATTATTAATTGAAAGTTATATTCGTGTTTAAAATTTATATGTATTATATTTCTAATAGACTTGACCATAGTCAGTATTTT
Y
GTATTCTAATAATTATAAAGAAGGTTTAAAGTCTGCTTTAAACCAACCAAAATGTTTCTTTCACAGTACAGTTTTAACTGTAATGTGCTTATTTGTTTTC
Celera SNP ID:            hCV1814569
SNP Position Genomic:     16393
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42439):
TGAAGTTTGAAAGCACTGCTCTAAAAGATAAAACTTTCAGCAAAAGGGCATTTATACGATACCTTGTTTTGATGCCATCAGGAAAATAACTGAAGTTTGC
R
TCTTTACATGCCAAAATTTTATTTTTGATACTTTTAAAACTGAAGTTTTTAGGTGGGCATCTGAAATGAATTGCATTTTTGTTAATCCGATATATAGTAA
Celera SNP ID:            hCV3193465
SNP Position Genomic:     53387
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42440):
AGTCAAATTCTTTCACTTTTCGATCTACATTTTAATATTTGTTTTTTATTTCAGTCATCAAATATTTATAGGTATATATTATATACAGTTACAATTTTCA
R
TGAATACATACTTGTTGGTGAACAAGGTAGATGAGGTTTCTACTCATAGGTCTTATTTCCTACTGGGAAGATATATGCATTCAACAGATAGCAAACAAGA
Celera SNP ID:            hCV3193466
SNP Position Genomic:     50746
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42441):
CCTGTTCTAATAATTGACAAATTAGAAATCACTTAGAAGATATGGAATCTATTAGTTGTGTACTCTTAGAGGTCAAAAAGTTAATACAAACATTTCCATA
Y
ATAGTGCTAGAGATTTTATAGTTTTGACTTTTTCACAAAGACAGACCGCATATATTTTTGGATATACCGATTCAGACTCACCTTTGAATCTACCTGTATT
Celera SNP ID:            hCV3193467
SNP Position Genomic:     50220
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|C,10)   total(C,10|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42442):
CATCTGGCTCCTTACTTTGTAAGTGACATAAAGCATAGGTTGGGCAACTAGAGTGCAGTAAAAGCCTTTGCATATCTTTACTTAGAGTCTTTTTTAAAAA
T
ATCTTTGCAAAGTAACATCAATGCCTCAATTATGTATTTATTTTTTTTCTTTGAGATGGAGTCTTGTTCTGTCACCCAGGCTGGAGTGCAGTGGCACGAT
Celera SNP ID:            hCV11642648
SNP Position Genomic:     31765
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42443):
GTACCTTATAGGTTAAATGAGATCACAAAAGAAAAGGAGCAATGTTGTGTTTCTCTAGCTGCAGGTAAGGAATTATGTACAAGGTTAAAATATGTAAATC
R
ATAGTATTCGCGGAAGAAAAGTTATAGGAAAATGATTATTTTTTAAAAGCTTGTAATGCTACTCAAGATTTTATTTTACCACTTAGTACATTTCATAGAT
Celera SNP ID:            hCV3193468
SNP Position Genomic:     48555
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,5)   caucasian(A,28|G,10)   total(A,31|G,15)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   JBIC-allele(G,394|A,1065)   total(G,394|A,1065)   SC_12_A(G,5|A,18)   SC_12_C(A,11|G,11)   SC_12_AA(A,12|G,12)   total(G,28|A,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42444):
TTTTGTTTTGTTTTTTCCCTTAGAAATGAGAAAAGTGGTGGAGGTTACATAGTTGTGGACCCCATTTTACGTGTTGGTGCTGATAATCATGTGCTACCCT
W
GGACTGTGTTACTCTTCAGACATTTTTAGCTAAGTGTTTGGGACCTTTTGATGAATGGGAAAGCAGACTTAGGGTTGCAAAAGAATCAGGTAATGTCAGC
Celera SNP ID:            hCV27535895
SNP Position Genomic:     18262
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:42445):
TTTGTATGTTCACTTAATAGGATCATAAAATTTCAAAGGGGTGAAAATCTTTGAAGTCACTAAGTTCTAGTCCTTCATATTACAAGTCAGGTTATCTTTA
R
CATTAGCTAATTTATTTCAACAAAACTAAAAATGTTATAACCTTTTTATGCCTTCCATAGTGAAGGCATTGCTAGTTCTTTGTCTGAGTCTTGTAGAAGT
Celera SNP ID:            hCV25612119
SNP Position Genomic:     52535
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,7)   caucasian(A,2|G,32)   total(A,3|G,39)
SNP Type:                 INTRON


Context             (SEQ ID NO:42446):
AAAGCAATCTTGAAAAAGAACTCCTGAGGTTAGAATATTTGGTAGCACCGGGGAGGAAAACGGGTTCCACTAAAGTCCTTAAAGTGTTTAAAAAAAAAAA
A
GGTACATGTATACATGTATAACAAACCTGCAAGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAAAATATATATATAAAAAAATAAAAAAAGAATA
Celera SNP ID:            hCV11642649
SNP Position Genomic:     30194
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42447):
CTGCATTTCTCCATCTGCTCTAGCAAGGGGCCAGCAGCAATTGAAGAATGCTGTAATTGGTTTCATAAAAGAATGGAGGAATTAAATTCAGAGAAGCATC
R
ACTCATTAACTATCATCAGGAACAGGTTTTACTTATTTTTGAACTGCTGCTTTTCCTTGCATCTTACTACTATTTTTTTGTTGTCTTGAGGATGGTGATG
Celera SNP ID:            hCV25764859
SNP Position Genomic:     31156
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,1|G,37)   total(A,1|G,45)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42448):
CTGTCTTCAACCAGTTTTTAAACTGGTTGAATTATGTTTTTCAAGGTCAGCTTCTACCAGTTTGTTTTCTTTCTCTCTCTCTCTCTCTCTTTCTCTCTCT
Y
TTTCTCTCTCTCTCTCTTTCCCTCCCTCCCTCCCTCCCTCTCTCCTTCCTTCCTTCCTTTCTTTCTTTCCTTCTTTCTTTCTTTTCTTTCTTTTTTTTGA
Celera SNP ID:            hCV26334260
SNP Position Genomic:     55451
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1|-,7)   total(C,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42449):
TATATATTTCAAGTCCTATGATGAAAAATTGATTTGATTTGGAGGGATTTAGTGAATATTAGTTAAGCTGGTAGAACATTGTTTAGTTCCAAAAAATGAC
R
GCTTTATTTTATTGTGCTTTTAGCAATAGCAAAAAGAAATATGCTTCTAAGATTGTTACATGGCAGAAAAGAATGTTCAAACTTAATTTACTTAATTTTA
Celera SNP ID:            hCV26334334
SNP Position Genomic:     34763
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;(A,-|G,-)   JBIC-allele(A,613|G,678)   total(G,678|A,613)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42450):
ACATGCAGGGCATACAGTTCCGAGAAAGGAATGCTGGTCCCCAGATAGATCGAAACATGAAGGACGAAGGTACAGAACTTTAACTAAAATAGTACAAATT
Y
ATCAAGGTGATGAAATTAAACCTTGCAATTGTTCACTTAGTAAATATTTGTGTGCCAAACCTCACGATATAATGATTAAAAAGATTAACATAGTTCCTGA
Celera SNP ID:            hCV8395352
SNP Position Genomic:     58737
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,7)   caucasian(C,3|T,35)   total(C,4|T,42)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42451):
TCTAGACTTAAAATGGTTTTTTTTGTTTTTGTTTTTTGTTTTTTGTTTTTGAGACAGAGTCTCGCACTGTCGTCCGGGCTGGAGTGCAGCGGCACAGTCT
Y
GGCTCACTGCAACCTCCGACTCCGCCTCCCGGGTTGAAGCCATTCTGCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGCGCCCGCCACCACGCCCAG
Celera SNP ID:            hCV26334263
SNP Position Genomic:     52790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42452):
TTTAGCAAACTGAGTCATGGAATCTGACCTACTGTAGGCTCTCTGATGTTTCATTTACTGTATATAAAAATTTTAGTTTCAGTGATTTGCATTAGAGGTC
W
ACAGAGTGGCTATGTATCCCTTGGGGTATGCGCTGATATATCTATTGGGCTACAGAAAGAAAATATAACATCCCTTCCTTCCTTCCTCCCTCCCTCCCTC
Celera SNP ID:            hCV877597
SNP Position Genomic:     12140
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42453):
ATACCATAACCAAAGAAAAAACTTTTCCTGTAACAGTATCATCGTAAAATTGATGTCCAATATAGAAAAAAATGAGTGGTAGATCTTTATATTTTATTTC
R
CCTCTAAACTTAACATAGATACAGTTTCAATTTAATTATGAGATACTCCTTTGTGTCTCCTTTTTCCTTCAGCTGCTAATAGTAAATGGATCCAGGAACA
Celera SNP ID:            hCV8395285
SNP Position Genomic:     26256
SNP Source:               Applera
Population(Allele,Count): african american(A,6)   caucasian(A,17|G,17)   total(A,23|G,17)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;Control(G,44|A,56)      total(G,44|A,56);(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42454):
GTTTTTATCATTTCAAATGCTAAATACATCATCATAAGCTATTAAAATCACTTTTAATATTACTATCACCCAAATAACGTACTTTGTACCCATTAAGTAA
T
GTCTATTAAAATAGCTTCTGATACTGTATTAAGCTGAGAAGTTATTTTCTTATTCTAATTTTTTTTTTTGAAAGAGAGAGCCTCACTCTGTTGCCCAGCC
Celera SNP ID:            hCV26334196
SNP Position Genomic:     67300
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42455):
CTAAGGTATGTTTTTTTAAAAATAACCTAACTTGGGCAAAAGTAGAAATGCATTGGCTCTCAGGATTACAAGACAGCTTTAGTAACTAAACCATGAAGCA
Y
AGGGATATAGGCAGTAGTGTGTTGGAGGTGCTTTTGCTGGCTCACAAGAGCTGATTGTGCACATCCCTTCCCACTTCCACGTTCAATGTTGTCGTGTTGG
Celera SNP ID:            hCV1814570
SNP Position Genomic:     16630
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42456):
AGTTTTTATCATTTCAAATGCTAAATACATCATCATAAGCTATTAAAATCACTTTTAATATTACTATCACCCAAATAACGTACTTTGTACCCATTAAGTA
A
TGTCTATTAAAATAGCTTCTGATACTGTATTAAGCTGAGAAGTTATTTTCTTATTCTAATTTTTTTTTTTGAAAGAGAGAGCCTCACTCTGTTGCCCAGC
Celera SNP ID:            hCV26334197
SNP Position Genomic:     67299
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42457):
AGAAATGCATTGGCTCTCAGGATTACAAGACAGCTTTAGTAACTAAACCATGAAGCACAGGGATATAGGCAGTAGTGTGTTGGAGGTGCTTTTGCTGGCT
Y
ACAAGAGCTGATTGTGCACATCCCTTCCCACTTCCACGTTCAATGTTGTCGTGTTGGTAGCTTAAGATTGCCCATGTCGGGATTATTTCCACCAGAAAGT
Celera SNP ID:            hCV1814571
SNP Position Genomic:     16673
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   SC_12_T(C,6|T,17)   SC_12_TT(C,1|T,20)   total(C,7|T,37)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42458):
TTTAAGTAACATGACAAACTCTCATGCCATCCTGCTCTATCCCACCTGGAATGTGACTCATCCTTTTGTCCAGTGCATCCATGCTGTAAATACTACCTGT
M
CACCAGTTACTTAATAGCCTGCTCAGTTATCAGATAAAAAAACACAAAATATCAAAATATATATATATATAGGGTTTCATACTATCTATAGTTTTACACA
Celera SNP ID:            hCV1814573
SNP Position Genomic:     21038
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42459):
TTCAACCTTTGTGAAACACCTTTCATTGGGTTCAGTTCAACTGTGTGGAGTAGGAAAATTCCCTTCCCTGCCAATTCTTTCACCTGCCCTAATGGATGTA
Y
CTTATAGGTTAAATGAGATCACAAAAGAAAAGGAGCAATGTTGTGTTTCTCTAGCTGCAGGTAAGGAATTATGTACAAGGTTAAAATATGTAAATCGATA
Celera SNP ID:            hCV25612120
SNP Position Genomic:     48458
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,33|T,3)   total(C,40|T,4)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,35|T,3)   total(C,42|T,4)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,27|C,880)   total(C,880|T,27) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42460):
GGAAGCAGATGTCAAGGTATATCCAACAAAGCTTGAATAAATGGGCATATCTGTGTTGAAACTATATACAGAGTCACTTCATACATGTTCTTAAAAAACC
M
AACCATAAAGAATTGTCATAGAACTGAAAAGGCTTGTAGGTGGATAGTAAATTTATTAGCATCCTTTAGTCTGTGTAGCATACAAAAACAAACTTGAATA
Celera SNP ID:            hCV25612121
SNP Position Genomic:     47735
SNP Source:               Applera
Population(Allele,Count): african american(A,23|C,1)   caucasian(A,32)   total(A,55|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42461):
TTGGGTATGATATGATATATATTACTGTGTTCATATTGCATCACAGGAATTTGTCTCTTGCCATACCTACCTTAAAGGAGACCTGCAGCGTAGTCTTGAG
W
TTGTCAGCTATGTGTAAAGTTGAACCTTGGGAATTTTATTACTAAAGAAAGAAAGGGAGGATAAAACTGAGTACAGCAGCAGTCTCTACCACAGACTGTA
Celera SNP ID:            hCV1814576
SNP Position Genomic:     22517
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42462):
AAAGTTGAACCTTGGGAATTTTATTACTAAAGAAAGAAAGGGAGGATAAAACTGAGTACAGCAGCAGTCTCTACCACAGACTGTATTTCTGAGACATTTG
R
GAGATTCTGTGCAATGTAAAAGAAGTAAACCTTGCCACAGCCTTACTTGAAAAGTGTTGCAAATCGTAATATCCTTTCTGTGAAACAAGTTTTCTTTTAT
Celera SNP ID:            hCV1814577
SNP Position Genomic:     22633
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42463):
CTTGGTGATTGAACCAAGACCTGCTCCATTATCTTACACAAATGCCTCTGTTATGGAAGCTGTATCACAGGTGCTCCACTCCTGGTAGGTGTGGCCAAGA
R
GGAGACATTCTCTCCTCCCAACTCCCAGCCTGGGGTTATAGTTTCATGCTAAGAGGCACAGTCTATGAGTGTTTTTAATTCTCCCTGCCGGCCCTGTCTT
Celera SNP ID:            hCV1814578
SNP Position Genomic:     23357
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,9)   total(G,9|A,5) 
SNP Type:                 INTRON


Gene Number:                 207
Celera Gene:                 hCG31746 - 145000147123870
Gene Symbol:                 GP3ST
Protein Name:                glycoprotein beta-Gal 3'-sulfotransferase
Celera Genomic Axis:         GA_x5YUV32VWPT(47295104..47336236)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12367):
ACCGTTGGGCCGGAGCAGGCCAGTGCCGGGCACGTCCTGCCCATGACAGCCCTGCTGCCAGCCGTGGGCACTTGTTCCTGGAGCTCCGTGGCTGGGTCCT
GCCGTCTCCGCTGCTGCCCTGCCCTGCCATGTTCACCTCCAGTTTATCCAGCAATGGGGAGAGGGGCTTCTTAGATCCCCCTCAGGCTTTTCTTTTGTGC
CTTTAGATATGTGAAATACAACACAGCCAGGCAAAGCAGGTGCCGGTGAGACACCTGGCTGGCCCGAGCTGGCCCGAAGAACTGCCTGTCTGCCATGAGG
AAAACCCACACTGCGTGGTGGCTGGGAGGCCAGGAGTTTTCACAAGCCGGAAACCTGTTAGATTTCTCTACCTGACAGCAGGAAAATCTGATGAGACCCG
ATCGCATCCAGGCAGGCCGTGTGCTCGCAGCCCGCGGGTTAACACAGACTCCGAGTGACTCCGACGCAGGAGAACGCGGCGAATCTGCGTGAGGCAGGCC
ACCAGCCTTGGTGCCCCGGAGACAGCTCCCCCAACGGCCATGTGACGGCGTTGAGTGTCCGTGGTCAGGTGTGTGTAAGAGACGCGCAGAGAATTCCACG
CCGTCCCAACCTCCCAGCCGGAGGCTCTGACGAGGCCTGCAGCCACGCGGAAAGAGCAATGAGGAGCACGTGTGTGGGGAGGAAGGCGGGTTCTGACCCC
GTTCCTTCCGCAGCGGCTCCGGCCTGGCGGGTTCTGACGGAATTCTGCAGCGGCTCCAGCCAGGGTCGTCGGGGCGGGGTGGGTGCTCAGGGGCGGCCTT
TGTGTTCGGATTAGAAGCTGGTGATTGTCACATTAAGACCTCTAAGCTGCTGCAATCTGAGAAGATGTTACACAACCAGGGCCCCTGAGCTGAGGCCAAG
GAGGGGGCCAGGAGAGTGGCGGGAGGGGCCCCAGGCAGGGCCAGAGCTGCCTGTGTACAGCAGGGGAGAGGGGAGAAGGGGTGGGCCTGGTGGTCTCAGC
CCCAGGGAGAGTGGAGTGCCCGCCCCTCCCCTCCCCCAGGACGGCTGGCCCCTGGGAGAGCCCCTGGGGGAGCCAGTTTCCTGTAAGCAGAAGGGCAAGT
GGTTGGGACCCAGAGGTGTCTGACAGTTGTGGACTTAGAGCCCAGAGGAAGGGTTTGGGGTTTGGGGCTCCTGGGACGCCGCAGGCCCCTGAGGACGTCC
ATCAGGATCCTGGCAGTGTGGAGGTGTAGGGTCCAGCCCTACGGGGCTTAGCGGGTGTTTTCCCTGTGTGTGGAGATGAGGGATTGTAATAAATAAAGAC
ACAAGATAAAGAGAGAAAGAGAAAGCAGCTGGGCTCTGGGGACCACTACCATCAAGACGCGGGGACCGGTAGTGGTCCCAGAGGGCTAGGCCCACTGATA
TTTATTGCATACAAGACAAGGGGGCAGGGTAAGGAGGGTGAATCTTCTCAGTGATTGACAAGGTGAAGTAAGTCATGTGATTACAGGATAGGGGGCCCTT
CCCTTTTAGGTAGCCGAAGCAGAGACGGAAGGCAGCAAACGTCAGCATTTTCTTCTCTGCACTTATAAGAAAGATCAAAGACTTTAAGACTTTCACTATT
TGTTTTACCGCTATCTGCTACGAACTTCAAAGAGGAACCAGGAGTACAGGAGGAGTATGAAATGCAACAAAGAGTAATATTAAAAGCTAATGATTAATAA
TGTTTATAATAATGATTGATAATTGTCCATGATCATCTCTATATCTAATTTGTATTATGACTAATCTTATTCCAACTATTTTCTTTATTATACTGAAACA
GTTTGTGCCTTCAGTCTCTTGCCTCGGCACCTAGGTACTTTCGCCCACATGGAGGCAGAGGTGACAGGCGTACAGGGCAGTGTGTCTGGACCCAGATGGC
AGGCACGTTAACGACCAGTGACCAGGGCTCTGCCCACCTGGCCCGGCGCGTTGGCCCCCCAGCGATGTGGCTTCACGCCGGCTGCTTTCCTGAGCGCTCG
GGGTTTAGGTCCTGTTCTGCTGCCTCTGAGCACCTGTGACCTGAAAAGGCCCTACCCTCGGCCTGGGTCCCTTGGGGTGCCACTGACCTTCTGGGACCCT
GAAGCTGCCTGTGTGGTAGGCGTGTCCACCCCCACACCCACCCAAACGATGCAGAGGAGTGAAAAATGATTCCTCGAGGAGCTGGTCCAGGGCCGGGCGC
GGTGGCTCACACCTGGAATCCCAGCACTTTGAGAGGCCGAGGTGGGAGGATTGCTTGAGCCCAGGAGTTTGAGAAGAGCTTGGGCACACATGGTGAGACT
CTGCCTCTACAAAAAATTAAACATAGCCAGGCGTGGTGGCATGCACCTAGAGTTCCAGCTACAGGAGGCTCTTACAGGGGAGGAGGGACAAGCCTGAGCT
CAGGAGGTCGAGGCTGTGGGGAGCCCCACGTGACTACACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACCCTCTCTGGAAAAATAAAAAGGAGCTGG
TCAGGGAGGCCGAGAGCAAATAGCTGCTAGAATGTGGCGCTGCCTGGGACGGGGAGGGCTGGGGGCCCTTGGGGTGGACCAGGAGCCTGAGTTGAGGGTT
AGGGGCAGGTGGAGGGGCTGGGAAGCTCGGGGCTGTCTTAGGAGAGCCCTCCTGACACCTAGGCCCTGGGCCGGGTTCCTCCTGGTGGAACATCACAGAC
CTGAGCCCTCCCACTCACTTTTCCTTGGACCCCACAGGCAAGGAGCTGGGGCGGCTGTCTGCTCCCAGGCTGAGGCCCCGGGACGGGCCCCTCCTCGCTT
TGTTAGCCGGTTAGACCCAGGGCGGGCGCAAGCCCTTGGCAGTGCTCCCCAGCACTGCCCCTTGGACCTCAGGGGTGTGGGGAGGACAGACCAGGGCAGG
ACCCAGGAGGCCACAAGGGCTGGTGGGGGTCATGGTCCTGGCAGCCCCAGTCAAAGGCTCTGCCCTCCTGCACCCACCCCCAGAGGGGGATCCTCTCGAG
GGAGCATGGGCCCTGTCTCCCCACCTGCCCTTCTGGGAGATCAAGAGTTGCTGTGAAGTTTCTAGAACAGTGCCCGGCCTGGCGGACGGGCACGGAGGTG
CCTCCTGGGTGTGCCCGGGTGCGGCCTGACAGGGCTGGGGTCCTGTTGGGTTGTGGGCAGGTCCTCAGACGGCCTCCTGGCTCCTGCCTCGCCCCTCCCC
ACAGGCCCTGTGCCAGCGGCTGTGCAAACAGAGGCCAGGAAGCGAGGTGATGCTCCCTTTGTTTCTGGCAGAGTGTGTGGCACCTGGAGCTACCTTCCGG
GTTCCATGGCCCTGGGGCCCTGGGGCCCTGGGGACAGGGAGGGAATGGGATGCACAGCGGCCAGGGGTGTTCAGCGTCACCGGTGGAAGGGGTGAAACCT
GTTCTTCCTGGTGGTGAGGGTTTGCCCCTTGACTCCGGAAAGCAGAGACCGTGGAGCAGGGCCCACTTCAAAGCACAGTGCTGGGGGCTGTGGCCTCGGC
CCTCTGTGGACGTGGGCGGATGGGTGGCCCTGGACTGGTGAAGGACTGGCCGGGAGTTCTGTAGGGCCCCCACCTCCTGCCAGCGCCCAGCCCACAGTCG
ACCACTGCCTGCCCGGGGCAGGAGACTTCCTTCCTGCAGCCCCGGACCCGGGATCTGAGACCTAGAAGCTGACTCCATCCTTTGACTGCTCTGTTCTGAG
CTAGGCCACCCCTGCCCCTGCCCCGAGGTGGCCCTGGGCTTGCCCGCCCGCCTGCAGTGTCGGCTGAAGAGGGTAACGTGCGTGCGCCCCGGCTGCTCCC
GGCTGCTCCCGGCTGCTCCCCGGCTGCTCCCCGCTGCTCCCGGCTGCTCCCCGGCTGCTCCCCGGCTGCTCCCCGCTGCTCCCGGCTGCTCTCGGCTGCT
CCCGGCTGCTCCCCAGCTGCTCCCCACCGGCCTTGGGTCTGGTGGGTGTGGCCCTCCTAGTGGGACCAGGCCACACACTGGAGCACATGGGCACGGCAAT
GCCAATGCCGATGGAGGCGGGTTCCTGGGCATGTGGACCTGTCCCTTACTCGAAGCAGCTGAGGGGCCTCCAGCCAGCCCCGTCCGCACCCCAGGGGTTA
GGGCTCTGCCATGGGGGCGTGGGCATCTGCTCTGACAAACAACGTGTGCATTTGATTGGTGTTCCTGAGTCACCGTGGACCAGGCAGGCTGCCAGAGCGG
CTGATTCTTAGCGGGGAGCTGGGGCCGGGCAGACACCCTGACTCCCTGGGGCTCCCAGCAGGGCCCCACTGGCAACAGGCAGCCTCCTCCCTCTGGCCGC
CGGGCCTCCGTCCCTTTCCCAGCCTGGGGCTGGGACCACCGCTCCACACCACACTGCACTGCCCTTGTCTGCCCCAGCAGGGGGTGAAGGTGGCTGGTGG
CTGAGGACCCCCTGCCCAGGCCCACACTTCTTGCTCAGGCCCCATAAGTCACTTGGGATCTGGAGAGCTGGGGACTTTGACCTGGGAGGGAGGCATCTGG
TCGTGACCCTCAGGCGTGTGTAGGGAGGTGCCTGGCCGTGACCCTCAGGCGTGTGTCCCTGGCAGGTTGCTCTCCACCGGCCCCACCGTTTGTAACACAT
GGCTCGGCCAAGGTGATTCTGGGGTAAGGACCCATGAGGCGCCATCTTCTTTGTTCCTAGGCTGAGCCTGTGGTGCCCTGGGCAGGGTGGGTGGAGGAAG
CAGCAGGGAGGCTCCTTAATGGTGGAGTGAACACCCACACGGATGTCTCTGGATAGTGGAATGCGGAGGATGCAGGGCACGCCGGTGGAGAGCTGCCCAG
CCGTGCCAGCAAGGCCCCGGCATCCCTCCCACCTGCCGTTAGCACCGGGAGCTGCTCTGCTGGCCCCTCCCACAGACTCGGGCTCTGGAGGTCTACAGAG
CAGCTGGGAGGGTGATGCCTAGGCGGGGGCGGAGATGCCAGGCCCCTGGGCTGCAGGTGGAGGTAAATGGGGAAGGGAGGCTGGGGGTCTCTGGGCCTTT
CGCCAGCAGCCGCCCAGCCCAGGGTCTCTGATGCCAGGGAGGTCCATGTGTGCTCGGCCCCTCCTCTGAGCCCCTCAGCCCAGCCTTGTTTCTGCCTCCA
TGGCTATGGGGCCTGCACCCATCCGAGCCAGGCACTGGCTAGGGCAGGGAGGCTGCCTTGGGCTGGGGCCAGTCCCGGAATCCAGGCTCAGCTGGCACCG
ACAGGGAGGGGTTGTGGGAAGGTGACCAGCCGTGTGGAGAGCTTGGCGTCGGAGGGCATGGTGGGCACCAGCGCTGGTGGGATGTGGCGAGGGTGGTGGT
GACTCATGGCGCGTGGCCCGTAGCTCTGAGGAGCATTTGCGTTTTCCTGTGGATTCACTGTAGCGCCTGGTCACAATGTTGCAGCATTTCCCTGGCTGCT
TGTCTCGGAATTAATATCTATTTCCTGAAAAGAGAAATGAACTTTCTTGCAGTAAAATCTAAACAAATATTTATATTTATTTTCCACCTCCATGTCCTGT
TTCAAACTTATTGTCCAGCCCAAGATTTTAAAAAGTCAGATTTTCTTTTGGTGTGAAGCAGGCTCAGGAGGAGGAGGAGGGGGAGGAAGAAGAGGAGGAC
GAGGAGGGGGAGGAAGCTGGGAATTGGGCTGAGCTTTCCTCGCTCATCCTTGCAGTGGCCACAGGGCCCTCTGCCCTCTCGTCTGCGTCAGGTCCTGAGT
TCTGAGTCCAGAAGCCGTCGCTGTGCTGTTGGAGCCCACCAAGCCCGTCCCTTGTGGGGACAGCTCCCTCCAAGCCCCCCGGGGGGATGGACACTGAGGG
TGGGGCAGGGGAGCAGGGATAGGCCCCAGGCAGGTCCTCCCAGGGCCTGGGGAACACAGGGGCCCATCGAGGGCTCCCCAGACTCCCTCAGCCAGTTCTT
CCCGAGAACAGAACAGTTAAAACCAAGCCCTCCGATGGAGGTGCGGGGAGAGGGCGTGGCTCCCGTCCCAGGAGGCAGGTGAGCTTCTGGGGATTCCAGT
TCACCTGCCCCACAGCCGCACCCTGCCTGTGCCTGCACCCTGGGGAGCCCAGAGCCGGCAGGGGCCGAGGCGGTGGGACCTCGGGGGAGCTCAAGCCTCG
ACTGTCCCCTCGCTGGAGGCCAGAGGCCAAGATGATGTCCWTGCTGGGCGGCTTGCAGAGRTAAGGGGGGCAGTTGGACCCCCCAGGTGGACAAAGCGCT
TCATCTGTGGCTATTCTGAGAGACGGACAGGAGTGGGTTTTGTTTGTCTTTCGAAGGAAGTGACTTGGATTTGGAGGCTGTTCCTACTCAGGCTTCCCTG
AATTCACCTGTCTTGGCTTCGTTTCGGAAGTAGGGGGCCCCTCCTGCCCAGGCCTGGTGCTGCTTCTGGGTGTTTGGGGGTTCTGGGATGTGGGGCCCAG
TGAGAAAGCTGCCCCCCAACACTGTGGCGTGGAGACGCTCGAGTGTCCGCGTGACGGCTGGGGAGGGTGAGACCTGCTGGGCTTGGGACCTCCCAGCCTC
GGTCTGCGGCTCAGGCCCATGGCTGGGCCGTGTTGGTGGGAGTGCCAGGCGCTTGCTGGAGCGTTGGTCATGCGTGCGCTTCAGGATGCTCCCGGGGCTC
TGGGTGGTGACGGGGAGGCTGGGCTCTGCTGTGCTGTCTCCCTTCTGTAAACAGAGGGGAGGTGGATTTCTTCCCAGTTAGGTTTGGAGGGGTGGTGGGT
GTGGCTAAGGATGCCTTGCGTTTTCCTTCTCCTGCTCGCCATCCTGTTTGGGGTGATTCCAGGGCAGTTTGAAGCCGTCCCTGCGCTGGCAGGTCCCTGC
CTCCCCGGGGCGTGTGCCGCCATGAATTCAGTTACCTTCCTTTAAGGGGTGACTTAAGACCAGCTGCCAGGACACTGGCTGAGGACACCCCGTCACAGGG
CTGAGAGGTGTGGGGCCGGCTGCCTGGCCTGGACCATCCTAGATGCCCCCTCCTGTGGACATTGTGACCATATTGTGAAGAAGAGGCCCAGGGGCTGGGG
AATCAGGCTCACTTGATTAGCTGGTGGCCAAGCTAGGGCCCCCCTGGCTGCCCTGGGGCCCCCCGAGGTCGGCCAGGGCGGGTGTGCCTGACCCCAGCTG
AGACTCTGTGGGTGAGACATGGGAGGCATTGCAGCCGAAGGCCCTCGGGGAGCCCAGGGCACAGGCTCCTCAGCTGCTGGTCTCACTGCCTGGCAGGATG
GGCTCACTGCAGCAGCCCATGCAGGCTGCACGTCCCACACTAAGGCCAGGGAGCTTTGGCTCCGGGTGTCCCAGGCTTCATTGAGCACGGCCTGCAGGAG
GGAAGCCCCGAGTCACTTCCCCACAGCCCTGGACAGCAGCCTTCCTGAGCCTCGCATTTATTTTCCTGGGGTTGGGCAAGTGTGGGAGGCTCACCTCGCT
TGTGTCAGCTTGCTTGGCCTGTGGGTGGAACAAATCAACAGCCCTGGGGACAAAGGGGACGGTAGTGTGTGGTGCCACTGGCACCCACCTGGGTGATTCA
AGGAGCTGCCCAGAACAGAGGAGAGACTTTGCCTGCGCTAGTGAGGCCTAGTCTTGACCACCGGCCACGGGAAATCCAGGCCGCCGGGCAAAGTGCTCAC
TTGGATGCTTGCTGATCTTTTGTTTTGCTGGTGATGATTCAGGCACAAAACTCTGAGCTATGGCACTTGGGGGTGTTGCCTCCCTGGGGTGTGGCCAGGT
ATCTTTGGGGAGGAGGGGACTCATGATCAGAGAAGATGTGGTACAGAGCCCATGGGGGTCACCATGCCGGTGTGAACCCCCAAAATCTGAGACAGGTCTC
GGTTAATTTAGAAAGCTTACTTTGCCAAGGGTGAGGACGCGCACCCATGACCCAGCCTCAGGAGGTCCTGATGAYGTGTGCCCAAGGTGGTCAGGGCACA
GTCTGGCTTTATACATTGTAGGGAGACATGAGACATCAGTCCGCATATGCAGGACGAACATTGGTTCGGTCTGGAGAGGCAGGACGGCTCGAAGCAAAGG
CAGGAAGACTCCAAGTGGGGAGGGGACTTCCAGGTCACAGGCAGGTAAGAGACAAATGGTTGCATTCTTTTGAGTTTCTGATGAGCCTCTCCAAAGGAGG
CAGTCAGATACGCATTTATCTCAGTGAGCAGAGGGGAGACTTTGAATACAATGGGGGGCAGGTTTGCCCTGAGCAGTTCCCAGCTAGACTCCTCCCTTTA
GCTTATAGTGATCTGGGGGCTCAAGATCTTTTCCTTTCACATTTCCCCCCGTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTTCTGACCTCAGGTGATCCATGTGTCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGTACCACCATGC
CTGTCCCCGAGGGGTTGAATAGCTTTAATTTCTGACTCTGTGTTTCAATAATGCAGTTTATTTTGATTGGCATCTTCTACTGGGGCTTTAATTGCTGTCA
GTGTTTAAAATATAGCAGGACTTGGTGTCCTTTTTACACCCAGGAGTCAATGTCCTGTAATTCAGTGTCACAAGTACTTTAAAAGTGCATACAGAGAGAT
ACGTGGATGGAATAACCTTAATTTAAAAATGTTTAAGGCTGGGTATGGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCTGAGGTGGGTGGATCAC
CTGAGTTCAGGAGTTCAAGGCCAGCTTGGTCAACATGGTGAAACCCTGTCTCTACTAAAAATGTAACAAATTAGCTTCGTATGGTGGTGGGTGCCTGTAA
TCCTAGCTACTTCGAGGCTGAGGCAGAAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCAAC
AAAAGTGAAACTCCATCTCCAAAAAAAAAAACCCACACAAAAAAAGTTTAATCTCAATTTTTTTTCCTAAGGAAACCAAAACTTAATAATAATATGACAA
CTTGATCATATAAAAGTTTTTGTGTTTGTTTTTTTAAATATAATTCCTCTTATTGTGACTTACATAAACCATTCATTACATGTTTGGATTTTCTCGTTTG
TCCTGAACTTCCCTGCATCTTAAACAACCAGTCATTTTACTCTAGGACTAAATTTACCATACAAGATTCTTTCTAATATGAAATTATTTCCCTTTAAGCT
TTCTTACCAAAAAATCCTCTGTATTGTTATAACTTTCTATCTTGTTTCGTACATAAACTTTAAGCTTTGAATTAGACAAAAATTATTCACCTTTTTAAAA
GGATACCATTTTTTTTAGCAAGAATGTTTTCCTTCAATATATTTTTATTGGAAAATATCCAAATATGAAATATCTATTATCTAATTTAATATAACTTTAG
ATTCTAAATTATGACGTTTGTCTGCAAGTATTTATTCTAATACATTTACCTAATTATTTTATTTTAATCATTTACTTATTTATGAAAACTGTGATATTCA
TCATTTAACGTTATGAAACTGCTCTTGCAAAATTATAACTGAGACAGTAAAAAACATCTGCCCTAACTGACTCCTTGTTGCTTCTAACCTCCAGGCCATC
CTTGTTCATTCCTGGTTGGAGGCTGAACTAACTTTGGGAGGAACGAACTTAGTTTATAGTTTAGTTTTGAAACAAAAATGATAAGAGCCCTTTCCCAAAA
CAAACCTCCTTACTGCCTGTGGACTAGACTGTCTAAAGCCACAGGATTAGAATTTATGGTAATCTTACTAAATTCAAGCTGTAGCTATGGATCATTAAAC
AAATATTAATGTCTTCTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTCTTGCCCAGGCTGGAGTGCAGTGGTGCAATCKCAGCTCACTGCAACCTCC
GTCTCCCGGGTTCATGCCATTCTCCAGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCTCACCACCACGCCCGGTTAATTTTTTGTATTTTTATTAG
AAACGGCATTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTAACCTCGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCC
ACCATGCCCGGCCTAAAGTCTTCTTTATTAAAGATTACACAAATAAAGACCATTCTGTTTTGGGCTGCCTTTATAGTTTTGCAACCCCTATGCCAAATTT
TGACACCTTATATTATTTGGCAGAGATAAGTAGGAAATTGCTTGATTAACAAATGCAAACAAAAATGGATGCTGGCAAATTCTTAAGACATTTCTAGTAT
TATTTTACCAATGATTTAAAATCCAGCGTATTAAAGATTTGACTTAAGTGGTGTGAACTTGAAGGGCATTTGACTAGTCTTTTTTCTTTAGTATCTAAGT
ACTTTTATTTTTTAAGCCAATTAATTGAGCTCCTTTATATATTTTTACTAGTGAAACATTGTGTACACAACACATAAATACATAGACATATTAGGCACAC
TGATAGAAGTACATCTTACTGATTTATAAAGACTTTTTCTTTCTTTATCTCAGACTTTCAGATTCTTAATAACCTGTTTCAGAACCCTAGGCAGTTGTTA
GCTAGTCTTAAATTTGCATATTAAAGGAAACAACTCTGGTGAAAATCAAATAGCAAAATTTACAACATATGATATGGAGAGAACAAGTCTGGTGTGCTAG
AGGGAGGTTAAAGATGGATGCCAAATCAAACATAAAATTATAAAAATCTACCATTGGATTATATAAGGAGACCAATTTTATTTAGACAGGGACTACCTAT
ATTGTAACTGGACCTGAGCTCTGGGCAGAGCCCACACTGAATCCTGGGTTTCCAAAAAGGGAGAATTATTATGAGGCTGGATCATGTGATGCTTTTACAG
TGCACTTAATTTTTTTTTAAACAAAGACGTTTCTAAGTGTCTAAACTACACTCTTCTGTAAAAACCCAAGAGTAGCCTGTTTCAAATAACTATTTTAGTC
AATAAATCAGGTAACACAATACAAAAGCAAGCAGTTTAAAAGCTAAGACAGCCCACGTGTGGTGGCTCACGCCTGTAATCCCTGCATTTTGGGAGGCCGA
GGTGGGTGGATCACCTGAGGTTAGGAGTTCGAGACCAGCCTGGCCAACATGATGAAACCTTGTCTCTACTAAAACTACAAAAAATTAGCCAGGCGTGGTG
GTGGGCACCTGTAATCCCAGCTACTCAGGAGGCAGAAGCAGGAGACTCGCTTGAACCTGGGAGGCAGAGGTTTATTGAGCTGAGATTGCACCACTGCACT
CCAGCCTGGGCAACAAAGATGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAGCTGAGACGAACTTGTCTGTTTACACATTTGGGGTTCCATGGGAACCC
AAAGGGAGTCTGGCACCTTCTTGGTTTTCTTTAAGGAACCCCAGTCTCTTATAAACTATTTTAGGTCTCTCGTGCAGCAGAGGGTGCAAGATAAAGGAGA
GACAGCAGAAGTAAATAAAGAAAAACAGACCTCAGTCAACTGAGAAAAAACAAAAAACTTTTGCTCAAAAAAAGGACAAGGTCCTAGGAGAGACAAAAAA
CCCAAAAACATGAAGAACATGAAGAAGGCCTTTTAAATACACACACACACACACACACATCCCTTGGATGTTAGCTTTTAATTAAGCTGACTTTAACAGT
TGAGCTCCTTTAAAAAAATGTTTTTAAATCTCATTACCATATTTCACCTGCGACAAATTGCTGCTGTTTCAGAAATACAGACATTGCTCTTTCAATTTGG
TCTGGCTAGCAAAAAGGTGGTCTTGTTATGTAAATAAAGTCCCTTTAGTAGTCAAAATAAAAAATATTTCCTCTTTTTTTTTCTTTTGGCTGGCATCTTT
CTCCCCCACCACACACCTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGGGGGGATCTTAACCATCTGAGAGGTCTTGTTCCCAATAATTTGGAA
CTTTTCTTCAGATTTGATAAAGTTGGATAGAGTTGGTCAAACCCAATGGGAAAAAGACTGAAAAAACAACAAAAACAGAGACAAACAACAACAACAACAA
ACAGTTCAGTAAAACAAGCAATCACACAACTATATGATTCCTGAGTGCTCTAATGGTAAGGAGAAATTAAGACCAGCTGGTTGATAACTTTAGCCAAGAC
AGAACCCCAATTCGGCTACTTAACCTAGGGATGGGTCTCAGGCTGATACTCTCTACCATCTTAGAAGCAGGAAAAAAAGAAAACCTCATCTTCCCTGTTG
GAAACAATCTCAAACTCCATAAAGGAGTTACCTGCCTTCCATCGTCATGGAAGCAGGAGAACTGGCCCTCCTTGTTGGAAGCAAGTAAAACTCCAAAAAA
ATAGGGAGTTGTACAGCAAAATAAACTTTAGATCTTGACCAAATTTTGGGAGATCAGGGATTTTTTGGAGGGGGTGCTCCCAGACCTCAGCAAATTGTCC
TATTGGTTTGAGCCATAAAGTTAGCTCATGTCAGTACCAAGCTCCGATAGGAGGTTTGCCAAAGGTCAGGGACATCTCCACCCAGAATCCCTCCATGGTT
ACCGAAATGCAAACCCTGAAAATTTGAGATAGGTCTACAAAAGGAAAATATCTTGGGCCCCTGAAATCACTAAGCTAAAGCAAAATGTCAAACTGGGAAC
TGCTTAGGGCCAACCTGCCTCCCGTTCTCTTCAAAGTCTCCCCTCTGCTCACTGAGACAAATGCATATCTGATTGCATCCTTTGAAGAGGCTCATCAGAA
ACTCAGAGAGGGTAATCAGAAACTCAAAAGAATGCAACTGTTTGTCTCTTATCTACCTATGACCTGGAAGCCCTTCCCTGCTTCAAGTTGTCCCATTTTG
CTTCTAGTTGTCACACCTTCCCAGACCAAACCAATGTTCATCTTGCATATGTTGATTGATGTCTCATGTCGCCCTACAATGTATACATAAAAAAAAGCTA
AGCTGTGCTCTGACTACCTTGGACACATGTGGTCAGGACTTCCTGAGGCTGGCAAACAAATGCGCATCGTCAACCTTGGCGCAATAAGCTTTCTAAATTA
ACTGAGACGTGTCTCAAATTTTTAGGTTCACATTTTGGTAACCACAGAGGGATTCTGACCTTTGACAAATCTATTGGTGCTTGGTATTGGCATGAGCTAA
CTTTATGGCTCAAATCAATAGGATAATTTGCTGATGTCCGGGAGCACCCCCTCCAGAGACTCCCTAATCTCCCCAAATTGGTCAAGATATAAAGTTTATT
TTGCTGTACAACTTCTCCTCCTTTTTTTTTTTTTTTTTGGAGTTTTACTTGCTTCCAACAAGGAGGGCCAGTTCTACTGCTTCCATGACGATGGAAGGCA
GGTAACTCCTTTATGGAGTTTGAGCTCACTTCCAACAGAGAAGATGAGTTTCTTTTCCTGCTCTAGGATGGTAGAGAGCTGTTTTCAACCTGAGACCCTT
CCCTAGGTAAGTAACTGAACTGGGGTTCTGTCTTGGCTAACGTGACAACCAGCTGGTCTTAATTTCTCCTTTCCGTCAGAGTGCTCAGTGATATATTGTT
GGGGATTTTGTTGTCGTTGTTTGTTCTTGTCTTTCTCTAATTGGATTTGACCAACTCAGCCTGACTTGGTCAAATCCGAGTGAGAATTCCAAATTGTGGG
TAACAAGGCCTCTCTAATTTGGCTAAAATTCCTTGCAGCTGCAAAGGGGGAAGAACGATCAAACATAAAACCACGTGTTTGCTTTCTGTCTTAAAAAAGC
AATTGTCCCTTCATTTACTTTTCTTCCACCCCATACCTCCTTCCCCCTTTGCCATCTCCAGTACCAAGGACTCTAGAGAAGGCTTCTAATGACTTGAACC
CCTTTAAATAATTCAGAACAAGGGCACCACTCACCGCTTTTGGGGTGTTCTGTCTTCATTGTGGAGTTTCAAGAGTCATGGGCAGGTTCTTCTTAGGTCT
AAAGCTCTGTTTTCCTGTATTGCATTACCTGACCTCTTTGGCTTTGGGGGGTACCATAGATGACCTTGCACTGTGAGAGGATTTGACCTCGGCGTGTATA
ATGGCAGATGAGAGCTACAAAGTTATGGGTGGCTGAATACAGTTTACAGGAAGTGGTCTTGGCTGTATTTTTTTTTTCTTTTCTCTCCTAGGAGGTTGTT
GTTTAAGGATCCTAATTCTAGTTTGAAGATGCATTCTAAAGGGTCTTCTTTATTGCTTTTCTCCCAACATTAATCTCAGTTTGGTTTGTCTGTGTGCATT
TGTGCGAGGAACTGAACTGAACTGTTGTTTTCATAGGTAAATGAGAGACTGAGTTTTTCAGCTCCAAAGAGAAAAGGTATCTGCTTCTCCCAGCCAAAGG
TGCCCCTGGGTGACCAGGGGGCCTCGTGGGAGTGTCTAGGGGGTTGACCCCTGCTGTGACATGCAGCAGCCCTTCAGGGAAATCCCCTCAAAAGTTAATT
TAAAAATAGTTCATCCAGGAAACGCATGTAAAGGCTGATCACCCAGCGTTTTGAGCCCTCTCTGAGGTCATAGACCTCTGGAGAGAGAAACTGAGACTCA
TAAGAGGGCAGAAGTGACTCAGTGGTGACACACTGTGGAGTCCTGCCCACAAGCAGCACACATCAATCCACTACACAAAAACCTAGGCCACAGCTCAGTT
CCTCCTTTTAAGAAAAAAAAAAGTGGGAAACAAATAATCCAAGAATGAGGAGAAAACACAGAGAATGATCCCCTTTTGAGCACTCTGTAGGGTTTAAGGC
ACATCTACTTGCCAGAGTAAAATGGAAGTAAGACAGTCTTTGTGCACATTTACATTAAGGAAAAAAGAGCCCTAACGTCGACCCCAAACCAATAGAGTTC
TTACGTCCCCTTTTCCCCATTTTCTTTTCTGCCTGCTTTAAATCTGCTGTTACCTTTCTAGTGAGATAAAAACCACTGTTTCGATCTAGCAGGTCTTTTT
TTGCAAGCCAGTGAACTTATATTTATCTCATGGCTAAAGTACTGAAGTAAAAGCTATAGAATCTTTGTGTGTGTGTATGTGTGATGTATATGTCTGTGTG
TGTGTATAGTTGAAGGCCCTTATAATAGACTTATATAATTTTATGTTCAATTGGCAATTAAATCTGCTTTAGTTTCCCTCTAGCTCACCAGACTTTCTCT
TCGTACCTTACTATGTAAATTTTGCTATTTGATTTTCACCTGAGTTATTTCCTTTAATATGCAAATTTAAGACTATTTAGCTGACAATTGCCTTAGGGTT
GTGAAACAGATTATCAAGAATTTGAAAGTCTAAGATAGGGAAAAAAATATGGTCTTTATGGATCTATAACATGTACTTCTGGCTGGGTGTGGTGGCTCAC
GCCTATAATCCCAGCACTTTGGGAAGCCAAGGAGGGTGGATCACATGAGGTTAGGAGTTCAAGACCAGCCTGGCCAATGTGGTGAAGCCCCGTCCCGGGG
CATGGTGGTGGGCGCCTGTAATCTCAGCTACCTGGGAGGCTGAGGCAGGAGAATTGTTGGAACCCGGGAGGCAGAGGTTTCAGTGTGCCGAGATTGTGCC
ACTGTACTCCAGCCTGGGCTGATAACAGTGAGACTCCATCTCAAAAAAAAAAGAAAGAAAAAATGTACTTCTATCAGCATGCCTAATATGTCTATGTATT
TAGATTTCATAGGTAAATGAGAGACTGAGTTATAACATATGTTATGGAAAACTCCTATAATTCTGATATAACTTAGTATGCTTTATCAATAACAATTATA
ATTGTTATGTTAAGTTATTGTATGCCACAGAGGAAACAAATTTCCTTGTCAATTGTGTCTTTGACTATGGTTGCCCTAAAACTTTTTGTCATCCACGGAC
ATTTGTTGTCTTGTTTTGGTCCTCCTTAGAAAGTGGTTTTGTAATCAGCTATAGAACTCTAACAGGTGTTCTTACATATAGGATTCTGATAACTTTGGGG
ATTGTGGCATTAGAATAGAGAAAGAAACTTTCCAGACTCTCATGGAGAGCAGAAATGTTCATGAATATCAAGCAGAACAGGAGTTAACTGTGTAAACTGA
ACTGATAGAAGACTAAAGAATCTTTTTGACCTTTGCTTTAAATGTTGCTGATTCTTTCTTTTGTATTTTTCAGAGCTGAGAAAACTTTTCTTTTGAGCTA
TTGACAGCTTTTTACAATTCAGTATACTCCTATGAACAAAATTTGGGGTATATTTGTTTCTCTTAAGGACTAAGCTCTGATTTTGTATCTTGCCCAAATT
CCTATCTAAGAGGTCTGGGGAGTCGTGTCCTACAAACCATAAATTCTCATCAGATGGCTTTTATTTGACCCTGTATATCATGATTTACTTTCCAATCTGA
GTCTGGCATAACAAGGAAGAAAATAACAATGTTTTACCCCAAAATATATTTCCTTGTCATACCTTGAAATTGCCCTACAACGTCTCTTGTGGGAAAAATC
CACATTCTATAGAGAATCACCTTTCTCCTTTGTTTTCCTTTCTTCTCAGATCCAGGAGATAATCAATTAAGAGCCAGGCACCCTTTTAGGTCTGATGAGA
AACATTTTACAACCTGCTCTCTCTTTGAAGTCTGCTATCTGAGAGCTCCCTCTCTGCACAATAAAACTTGGTCTCCACAATCCTTTACCTTAACCTGAGC
ATTCCTTACTATTGATCCCAGGTCTTCAGATAAACTCAACCAATTGTCATCCAGAAAATGTTTAAATTTCCCTGTAGTCTGGAAGCCCCTGCTTTGATTT
GTCCCACCTTTCTCAATCAAAACAATGTATTTCTTAAATGTATTTGATTGATGTCTCATGTCTCCCTAAAAATGTTTTAAACCAAGCTGTACCCCTACCA
ACTTGGGCACATGTTCTGAGGACCTCCTGAGGGCTGTGTCATGGGCCATGGTCACTCATTTTGGCTCAGAATAGATCTCTGCAATTATTTTACAATTTGA
CTCTTTTTGTCGACACTCTCTACCTGGTTTCCCCAGAATTTGGAAACTATTTGTGAGTATTTTTAATTTATGGGAGTACAGTTATTTGTATAAGTGCAAT
AAGAATTTGTTTTCATTTTGCAGCAGGACACAATTGGAGAAACTGGTTACTCCAATGTACTAAGGCTTTGACTGGAATGGTGAGCTTTCATTTAAGGAAT
CAAACTTGACTTATGGAGCCAATGAAAGCCCCTTGGAAAAACTGGCCTCATACCTTTGTCTACAGAGTCCCTGTACAGGGTTCCTGACCTGTGGCAAGAA
AAGAATATCACTTTCTGACAGGTCCAGGAGCCCCAGGTTTATCCTGGAACCTCAAGCGATGAGGATGACTCAACTCATAGGTATTTGATGGCACAAATTC
GTGGCTGGGCTCGGCTTTAAAAAAGTCTTATCTGAGATTCCTCCTATGGAGCAATGTTCCATCAAAGCCAATTTAAAAGCCTATGTAAAAAGTAATTATT
CTTGCTGCACTGTATACAAATAATTAGGCCAAGTATAATAAAGCAAACCAGTCTTACCATGATTTGTCTTTAGTGAAAATGGGAAACTGGAGAGAGAAAA
ATTATGTTTCAATACTATGGTACACCTATTTTTAGATTCCAGTCTTGCCTAATGTTTTCAAGTTTTATTATTTTCTACAGTTTGGACCAAATTCTGATTT
TCCTTGGCTACAAGTCTTCAAAATAATGTTTGCAATTTTTTTCATTTGTTTGCCCCACCCCCCATTTTTCTGTTTTCTTTTCTTTTCTTTCTTTCTTTTT
TTTTTTTTTCTSAGATGGAGTTTTGCTCTTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAAT
TCTCCTCCCTCAGCCTCCCTAGTAGCTGGGATTACAGGCACCTGCTACCCTGCCCAGCTAATTTTTGTATTGTTATTATTATTATTATTTAGTAAAGATG
GGGTTTCACTATGTTGGTCAGGCTGGTCTCAAACTCCTGAACTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGACATGAACCACT
GCACCCACCCGCCCCCCTTATTTTTCCTAATTTGGAGTCACTAAAATCTAAGCTGTGCTTTCTTAAAGCCCTGCAAACTGAAGCCAGACAACTTAAACTT
CAGAAGAAAATAACAGCAACCTATTTTCATACATAAGCCACTTTCATGGCCTACCAATGTATGGACTTTAAAGTTATGTGGCCTATATCGATTTTTGCAG
GATTATTCTTTGGTTTGTTGTTGTTTTCTTTCTTCCTCCCCCTATTTTCTCTTCTAGGACATGAGACTTCACAACCTGCTAAAAATGAGCTTTCCTAATA
ACTTAGGACCTGCCCATCTAGGAATAAACCATCCTAGCCATGAGAGATCAGATGAAACCTGGGACCAGAGACTCATTTTCTTCTAAAATCTTGGAGAGCT
TTCTCCAAGATTTTAAAGAGAAAACGGGGGGAAATGTGAAAGGAAAAGATCTTGAGCCCCCAGATCACTATAAGCTAAAGGGAGGAGTCTAGCTGGGAAC
TGCTCAGGGCAAACCTGCCCCCCATTGTATTCAAAGTCTCCCCTCTGCTCACTGAGATAAATGTGTATCTGACTGCCTCCTTTGGAGAGGCTCATCAGAA
ACTCAAAAGAATGCAACCATTTGTCTCTTACCTGCCTGTGACCTGGAAGTCCCCTCCCCACTTGGAGTCTTCCTGCCTTTGCTTCGAGCCATCCTGCCTC
TCCAGACCGAACCAATGTTCGTCCTGCATATGCGGACTGATGTCTCATGTCTCCCTACAATGTATAAAGCCAGACTGTGCCCTGACCACCTTGGGCACAC
GTCATCAGGACCTCCTGAGGCTGGGTCATGGGTGCGCGTCCTCACCCTTGGCAAAGTAAGCTTTCTAAATTAACTGAAACCTATGAACCTCCCAAATCTG
AGACAGGTCTCAGTTAATTTAGAAAGTTTATTTTGCCATAAAGTTCATCCATGTCCAGCGAGCTGGTCAGAAGGAACCGCAGGGGGATGTGTGTGTCCGT
GTGTGTGTATGTGTATGTATCTGTATGTATGTGTGTGTATTGTGTGTGTATGTATGTATTGTGTATGCATGTGTGTGTATATGTATGTATACATGTACGT
GTGTATATTGTGTACGTGTATGTATGTACTGTGTATGCGTGTGTATGTGTATGCATGTGTATTATATGTACATATTGTGTATGTGTGTGTATATGTATGT
GTGTATTGTGTTTATATGTATGTGTGTATATGTATGTATGTGTATATGTGTGCGTATATGTGTATGTATGTATATGTGTATATGTGTGTGTATTGTGTGT
GTACATATTGTGTTTGTGTGTACATATTGTGTATGCATATGTGTGTGTATGCACATATTGTGTATGTGTGTGTATATGTGTATGTACGTATTGTGTATGC
ATGTGTGTATGTGTGTATATGTATGTGTGTGTGTATTGTGTATGTGTAGTGTGTATTATTTGTGTGTGTGTGTATTGTGTGTGTATGTCTGTGTGTGTGT
TCAACCCCGGAGTGTAAAAAACCATCGCCATAAGAATTTGCATGAGTCTTCCTCATAGTCAACAAGGTTTCTAAAACCAGAAGTTCCCTGAGCTGGAGAT
GGGATGTCTTAAGTCGGTTTTGTTGTTGTTGTTTGTTTATTTTTTGAGACAGAGACTGGCTCTGTGACCCGGGCTAGAGTGTGGTGGTGAGATCAAGGCT
CACTGCAGCCTCGACCTCCCTGGCTCAGGTGATCCTCCTGCATCAGCCTCTTAAGTAGCTGGGACCACAGTCCGGAGCCATCACACCTGGCTAATTTTTG
TATTTTTCGTAGAGATGGGGGTCTCACTATACCACCTAGGCTGGTCTTGAACTCCTTGACTCAATTGATCTTCTCACCTCAGCCTCCCGAAGTGCTGGGA
TCACAGGTGTGAGCCACCACACCTGGCCAAGACTTTTATTACCCCTCATTTTAGATATTTTGTGGGTTCTTACTGAGAAGTTGCAGAATTCTCCCCGAAT
GCCCTGGGAACTGCTGTCCTGCAGGCGCTCACAGCTCACCGGGTTGTGCTTGCAGGGCCGAGGCCTGGTGCCTCAAGCTGTCCCCTCTGTCCCCACTGGA
ACTGGGCCAGTGCCTCCCAGGCCTCTCTTCTCTTTCTTTTGGGGAGCCTCAGCGACTTGCTGGGGCCATTTGTCTGGGGCTGGTGCACTGTGGCCCCTGA
TGGCCCTGCCTGATCAGGAACCATCAGCCCCACCAACCTGCCCAGAGCTGGAAAGCCAGACCTTCTGGGCGCTCCCAGTGAGGCAGCAGGTCAGTGGCCT
CCAAGYCCCGAGGCTCCAACAGCAGGAAGTTTGAGGCTCTTTGGGAACGACTGAGCTACTCTGGCAACCCCCAGAGCAAAGGCAGCAGGGCCTGGCCGCA
GTCCCCACGGTTGTGAGTCCCATAAGGCAGCTTTAGCTTGAGGGGAGGGTCTTTGGGGACTTCAGGGAGCTCCTAAAAGCTAAGGGCACTTGAAAGCAAT
GTCAAATGGTTTATAATTTTTGGCAATATTTCATTTTCCCTCCACAATCGTCAGCTTTCAAGGTTTTTAGCAGCTGAACTCTTGAACATTTTTAATTGAT
TTTTTATTTTTTTAACAGCCTTATTGAGATGCAATTCACACACTAAAGAATTTACCCAATTAGAGTGCACAATTCGCTGGTTTCTAGTAAATTCCCAGTA
GTGCAGCCACAGGCTCTCCTTAAAGAATGTGTAACAATGTGTAACTCCTGCGTGTAAGGACAGAAACACCATCTCTCTGCTTGGTGGAACACATCACCCA
TTTACTGCCCCACGGTGCTCTGGGTCGGTCACGGGCACCTGTGGCTGGGCTCACCTCCTGGGTCCCCAGGTCACCCCCTTCCCGGTTGCTCCAACACTGA
CCACCCTACCTGACCCCTGCAGGTGTGGGACCAGCAGGTCTTTTGGCAAAAGGGAAGAGCCCGCCTTGAGAAGGCTGTAGCATTTCTCTGGAAACGTCAT
TGTTTTAATTGGGCAGTTGCAAAGAACAGAGACAGATTCATGCTGCCGCAAGGCCAAGGGGGGTATTGTAAGTGTGAAAGCAGCATCTCAAACAGATGGC
CAGTGCGTCCCATAAAAGTGCAGAGGGGCTATAAAAGTGCAGAGTGAGGGGCCATAAAGGTGCAGGGTGTTTGAGGAAGGAGTTGACTATGGCGGAACGA
AGTGATGGCCAAGGGTGGTGGCTGAGAAACCCTGCTGGTGAAGTCCTGCGTGGGCCTTATCAGTGAGTTAATCTCTAACTGTGCGGAGCCGTAAAACTGC
CCTTCCCACCTCGTGCAGCCACTCTCCCGGGGAGGGTCTTGGGAAGTCCGCAGAAGTGGCCCAATGGCAGAGCAGGAGCTCCGCTCTCAGTGTGGGGCCT
CGTTTGGGTTTGGGAAAACATGTCCTCTCTCACGAAGACGTGGGTGTCTCCAGCGGGACCCTGATCCCGCGTGGGGCGCATGGCCCTCTCTGCTCTGCGG
CCCCTCTCGCTCTCCTCTCTGTGCCTGGGAATTCTAGTGTTTACTGGGCCTTGGCCGCTGGGAGCCTCTTCAAGGTGGTTCCATTTTGACGTAAGGACTG
GAGGGGTGCATTGAAGAATTGTAGAGTGCAGGTGAAGGGAGGGCCTGGAAGCTCCTGTCCCGTCTCCTAGAAGCGTGGCTGTGGTGGCACTGGCATTGGA
GTCTGAGGTGCCGCGTGTGCCGTGAGGATGAAGTGTGAGAAATTTTGGGAGGTCCTAGTTCTACCATCCCCAGTGTCTTCGAGACCCACACCCTTGGTGT
GGAAGAAAGGAGACAAGATGTCATACGAAGAGGTTCTGTTGAAAGACGCAGTCTTGGAGCTGGGGGTTCCGGTGTGGACTCATGAGGGGTTCCGTCTCTG
TATGTGTAGCTCTGAGCTCTGACTACGGAGAAGGCCCAGACATATGACCTTCTCAGGGCAGTGAGCACCCCAGCACCCCGAGTGTGGTCCCTAAAGACCA
CTTCCTACCAGCGGGACCCAGAGCTCCTTGGAGACATGGTTGACTCCAGACCTGGGCCAGGAGACGTACAAAGCAGGCTCGGAGCACCCTGGTCAGCAGG
GAAGCCATCGAGGACCAGGGCAGGAGCCCTCCCTGGGCCGGCCACGGAGCTGATGGTCGTCACGTATCAGGGCTCTGCTCAGTCATGGGAACTGAGTCGT
CACCCCATTTCTGTGGTGAGCGGCTTCTGCAGAAGACAGATTTGTTTCATCTGAAGTTATTTATTCTGCTGTCATAGGTGAAGCCTGCTACACCCATGTC
CCCACATCCCACTGTTCTCTCCCTGATGGCCGGGGGGAGCAGGGCCGGCTCTGGTCTTGTCTGAAAGGGAGGCACAGAGCAGGGCCATCGGCTGGGGTCG
GGGGAGACAGAGTGGTCCTGACCAGTAGCTGAGCGCCCGGGGTAGATGGTTACTGGGTGGTTCCCGTGGGGGGCTGGGCTGTTGGCAGCCCTGAGCTGGC
CCCACGTGGGGTCAGCTAGTGGCTGGGTGGGGCAGGCACTTTGACCAGAGCCAGCTCACTGCTGTGGCCACAGCCCCAGGGGTGCCTTGAGGTCCCATGC
AGGGTGAGGGGACTGCGGGGGGCTTGAGGCCCTGAGGGCTGCCCCGTTTGCTGTTAGCATGCACCTGGCCGCCCTGGCGCAGCCATCCTTGAAACACTCT
GACAGCAATGTTTTAAGAATGTAGAGATGGGGTYTCACTGTATTGCCCAGGCTGGCCTCAAACTCCTAGGCTCAAGCAATTCTCCCACTTCCGCCTCCCA
AAATGTTAGGGTCACAGGCGTGAGCTGCCGCGCCTGGCCTGAAACATTACGTGTTTGCCAGATTTGTCTTTCTTTTCTTCATACCCTCTTGGTTTTGTGT
CTTGCTTAGACGGCAGCCTCATTCTCCTTTATCCTCTGACTTCAGTGGTTTTATTTTTTTACATTAAATCTTTGACCCCATGTGGAACTGATTCTGATCC
ATGGAGCAGATCTGGGAGAGCCGATGTTCGTTATCGTGACTGTTTAGAATTTTTCTGGCCATCACTATATGTTTTTTGTCCATTTGAACTTTAGAAGTGA
CTTCTTAGTTAAAAATTCTCTTCTTCGGGATTATGCTAAAATTCAAGATTGTTTTATGCAAAAATCATCTCCTTTCTCCAAAAGGAGAGGAGTGCCGGGC
CAGCGTGTGGGAGTGAGGACCTGCTGCTCAGGAACTCTTCCTGGGCAGGGGCCAGTGGGGCCGGGCAGAGCCAGCCCAGCCCTCCCCGCTGCTCCCATGG
CAGAGCCAGCCCAGCCCTCCCCGCTGCTCCCATGGCAGCGCAGGAATGGTCGTGTGACCACTGAGCAGCGGGGCTGATCCTAACCCAGTTCCACGTCCCG
GGAGGGTGAAGAGTGACGTTGCACTGGGCCTGGGTCCTGCCTCCCTGCTGTTCTAGCACCCCCAGCCCCCTGGCCCGCTTTGCCTTGGTTACAATTCCTC
CTTCCCCACTGGCTTGTTGTGCTCCTATGTACCCTGTAAAGCCCCATGCAAAGGCCCCAGTCCAAGCAGGAAGCTCACCCCTTGTGTCCTCTCCAGATGC
TGAGCTYGCCGAGTGCAGGTGTGGTGTCTGGTTCCCTCGTAGCCTGTGCCTGACCTGCACTGAGACGCTACGGCCCACGTGGCAACCCCCCATCACTGAG
GGGACACAGCCCACGTGGTAGCCCCACCCCATCACTGAGGGGCCCCTTGGCTGCTCTGTACTGATGGGGGGCTTTGCCCAGAGGATGGGGGACCCTGGCT
CCCCGCCCGACTCCACGGTCAGGCCTTACCCAGATCTGCTCTTCCCTGATCTGGCTGCACCTGCTATGCTAGGCTCCTGGGACCCAGGCCAGGCCTCCTC
AGGCCTCCTCATGTGGGCCCCGCCTCTCTGTTTGGAGACATCATGCTTCCTCCAGGCTCAGTCACCCCGGGCTGTCACAACAGACACCACAGACAGGCTG
GCCCCAGCAGCAGACATGTGCTTCTCACCGTTCTGGAGGCCGGAAGGCATGCGATCTCGAGCCAGCATGGSGGGTTCCTGGGGAGGGCCCTCCTCCTGGC
CTGCAGATGCCACTTTCTCTCTGTGCCCCTATATGGGGAGCGAGGGTGGGGAGTGGAAGCTGCACTCTGGTCTCTTCCTTGTCTTAGAAGGACACGAATC
CCATTACAGGGACTCCACCCGCCCTCAAACCTCATCCAACCCTAACACCTCCCAGAGGCCCCACCTCCAGGCACCATCACGCTGTGTGTTAGGGGTTTGG
CCTGTGGATTTTGGGGGCGCACAGTCCATTGCACCAAACTCTCAGCCTCTCCAGATCCCCTGGGGGCCTGGGGGTCTCCGTCCCATACAGTCTCCCAGGG
GGCCCTGCGTGGGTAGAGGTCCCCTGACCTGTTCCCACCTCTGGTCCCAGGAGCGCGGCCCTGTCAGCTCCCGAACCCCAGGGAAAGGGATGGCTCATCC
ACTAGGCTCTTTCCGGCCCTAAGCCATTCAGGGGTGGTCGGGATGGGGTCAGATTCAGGCCTGTCCTGGGTTGAGACTCCCTAGCCCATGGGCCGGCACC
CAGTGGGTTTGAGGACAAGACGTTACAGAGGTGAGGGGAGGCCCAGACCTGTGTGGCCCAAGGCCTGGACTTGGCTGCAGGATGGGAGGTGGRGGTGGGG
CTGGCACGACCCGGACTGGGCACTCATGGCCTGCCCTTTCCACAGATACTTCCGGGTCATCCTCCTCCTCCTCCTGGCCCTGACTCTGCTCCTGCTGGCC
GGATTCCTGCACTCGGACTTAGAGCTGGACACACCGTAAGTCCTGCCCCCACCATAAGTCCTGCCCCGGGTACCTCCTAACAGCCCCGAGGACAGAGCCT
GGGACCCCAGCATGATCACGCCCCCCACTGGGCCTGTCTCCCTCTGGAAGAGGAGGGGTGGATGGGCCCTTCCTTGGGGGGACCCTGAGAGTCTCCTGTT
AGCCACAAACCCACCTGGGCCTTTGGGGAGGGCTCTGGGGAGCAGGGGCCGGGTCTGGGTTTGGGGACAGACCCAGTGTGTGCAGAGGGTCCCTGTGTGT
GGGAGGCAGGGCTGGAGGCCTCCTTCTTGCTCCCCACAACAGAGGTGGCCTGTGGGCCTGGGCTGGATCTGGGAAGGAAAAGGTCAGAACCGTGCTCAGG
ACAGACCTTGCAGCCATGGGCCCACCTGGGACCCTCTCCCCTGCCTGCCTGTGGCACATCCTCTGTGGAGCCCCTGCTGCATGGAGGTGCCCACCTGTGC
TCACCTCGCAGCCCAGCTGTGCCTCCAGACAGGGCTTTAGCCAGGCTGCTGGAAGGGTCTTCCAGGCCCCGCCACTCCCCAGCCCCTCTGGTTGGAGGAG
ACAGAGGAAGCACCAATCCCTCTGGGCCGAGCTGCCAGAGACAGGTGCCAAGGACCCTGTCTTTGCTCACCCCCATCACCCAGGCTGGCCAGGCCTGGGT
ACCCTGACCCCACCATCCTGGTCACTTCTGCTGGCCCTGTTCTGGGGCAGGGAGGGCGCCTGCTACTCCAGCCCCACTGGGTGGGTGTCATGATGGGATT
CTAGGAGTGGGCCCAGCCCTACRTCTGGCCGCTGGTCTCGGCTTTGGGGTCCTTCCTTTTCCTGGTGTGAAGGGACAAGAAGCACTGCACGTGTGGCTGA
GGTCACAAAGCCAGCTGCATGTGCGTGCCTGGGCACCAGGGAGAAGGCTGGGGTGATGTGTGGGCCAGAGTGTGTAGCCCCCGAGGGAAACAGGGATGGG
TCTGAGGACACTGTCTCCGTGGGGCCCTGAGGCTGGGGCTGAGGGTCTCTAGGTTGGGGTGCAGTGATGGGTCTGGTGGGGGTTCCAGGGTTGGGGGTGT
CAACTGAAGAATCATGACATCTATGAATGTGGAGAGGACACTTTGTTTCTTAAAAAGTGTGGACATCCCACAGGCTGGGAGCACAGCCGCCGACCCAGGC
TGGGAGCACAGCCGCCGACCCAGGCTGGGAGCGGGCACTTCGAGGGAGGGGGTGGGACAGGGGCTTACGCTGAACGGCTTGGCCAAGTACACGTTCAGCA
GGTGACGGGAGGAGCTGTGGATATTCATGAAGGGGGTCCTGACGCACGTGTCCTGAACAAACAGGTGTGTTACTTACTTGTGACCCACGTTCACCTTGGG
GTGGAGACTGCACATCTAACTGCGTTACAATCAGGCCCTGCACGTCAGAAGGTGGAGCCGGGACGGGAAGCACTCGGTGCGCAGCCTCTGTAAACCGCCA
GAACCAGTCCGGGGCTGGGGGTCCCTGCTCAGGGGACAGTTACTGAAATGCGGCTCTTGTCCGATGGCAGCTGTGGTTCTGGCTGGGGGAGCAGGGGTCA
GCGAGGCAGCGTCTGGCAGCGGGTGAGCTGCACCTGCTTTAACGTTGTTCGTCTCAAGGCCAGCGTTTGGGTGTCAGAGAAAAAGAAAACTCCCGTGGCA
GGTAGAACATAAATAAGTGCAGCGTGTGTGACTTCGCCCCTGCCCGGCATGGCCTCAGGTCCCGTTGATAATGTAGCGTCTTATGGCCACAGTCAGTTCT
GCTGGGCCATGGTCTCCTTTTATTTTTTAATTTTTAAAAAATTTACTTTAAGTTCTGGGACACACGTGCAGAACGTGCAGGTTTGTTACACAGGTATACA
CGTGCCACGGTAGTTTACTGCACCTATTAGCCCGTCATCTAGGTTTCAAGCCCCGCATGCATTAGGTATTTGTCCTAATGCTTTCCTTCCCCTTACACCC
CAYCCCCGACAGGCCCTGGGATGCGCTGTTCCCCTCTCTGTGTCCACGTGTTCTCATTGTTCAAGTCCCACTTATGAGTGAGAACATGCGGTGTTTGGTT
TTCTGTTCCTTTGTTAGTCTGCTGAGGATGATGGTTTCCAGCTTCATCCATGTCCCTGCAAAGGACATGAACTCATTCTTTTTTATGGCTGCACAGTATT
CCGTGGTGTAGATGTGCCACATTTTCTTTACGGTCTCTATGTAACATTCACACCCGGCAGCTGCTGGGTCTAAACCGCAAAGGGGAGGGGGTGTGACGAG
GCGTCTACCTCCCATCCCATCACTGCTGGGAACTCAGTTTTAAGGTGGGTCTGGGGTCCCCTTGGCCAAGATGGGGTTCATTTAGGGTTTTATTTTTAGT
TCTCGGGGGCACAGGGTTGGGGGAGCATGGTTACGGGAGACAGTTGGGGGAGTTTGTGTTCGGGCCACCAGCTGGGAGGTTGTGGAGTGGGGCAAGGATT
GGGGCCATGGGTCGGTGCCTACCCAGTTGGCCCCCTGGCCTAGAGTTGGGGGGCTCAGGTTGGGAGGTCTCTCCTTGCGGTTGCCGGGCTGGGGGTCGCT
GTTGGGCGGGGGTTGGGGCATCTGCACCCTTGCTGAAGGCTGCGTGTGCCTTCCCTCCCAGCCTGTTTGGGGGCCAGGCTGAGGGGCCGCCGGTCACCAA
CATCATGTTCCTGAAGACGCACAAGACGGCCAGCAGCACGGTGCTCAACATCCTCTACCGCTTCGCCGAGACCCACAACCTGTCCGTGGCGCTGCCCGCC
GGCTCACGCGTCCACCTGGGCTACCCCTGGCTCTTCCTGGCGCGCTACGTGGAAGGCGTGGGGTCGCAGCAGCGCTTCAACATCATGTGCAACCACCTGA
GGTTCAACCTGCCTCAGGTACYGCGGGCCTGCTGGGGAGGAGGGCGGGCTGCAGCCGTGCCTGTGGCTGTGGGTCTGGGTGGTGTAGCCTGGAGGCTGGA
GAGAAGGAGTGTAAGGCTTGGGGGCGGGGCGTGCAGAAGGCGGGTTGGGAGGGCCTGGGCCGCACGCCCTGCTGAGCCAACCCCTGCCCCTCCAGGCGGC
CAGTCGCCTGCCGTTGCTCTTGGAATGAGACCTGGGAGCCCCACAGCCCCTGCCCAAGGGCGTCCCCAGCGCTCCCCCGCTTCTCTGGCCTCCTAGTTGT
GCACAGGCCCGGCTCTCCCCACCCTGTGACCTTCGCTTCTGTGGCTGCAGGCCCTTCTTTGGGTCCCTTGGGTCTCAGCATAGAGCCGGCTTCCCCCCAG
GGCTTCCCTGACCTTCCTTACAAAGGAAGCAGGGCAGGGAGTGTGGGTGGGAGGGCTGTGGGCAGGCACAGGTGTTTTAGGGTCACCCTGAGCGCTCTGT
GGAGAATGGCCAGCAGAGGCTAGGTGACCAGGCGGGGCCAGAGGGAGGCCGGGTGGGGARAGGTGATGGGCAGAGAGCGGGGCAGCGGGGGTGTGCTGTG
GGGTGGGGGCTGCGGGGCAGAGGGAGGAGGAGGGGCCGGGAGGAGGGGAAAGGAAGAGGGTGGGGGCAGGGAGGAGGCCTCCCACTGTTCTCTCCCTGGG
TTTCTGAGGATGGAGAAGCAGGCGGTGTAGTTGGGCGTGACTTTCTGCAAGACTTTACTTTCTGTGGGTGGGGTATATCCTCCAGGACCTCTGAGGGGGC
ACAAGCGAGGGTGAGTCCAGACCCACCCTGTGGGGAACCTGGGTCACGGACCTTCTCTGGGCCTCAGTTTCTTTGTCTGTTAGGTGGGTGTCACCCTGGC
CTGTGGGCAGCTGGTGGAGTGCTGAAGCCCCCTGTGCCAGGGGCCCGTGGAGGGCCCTTCGTGCTGTCTGTGCGCCACAGCATCCCACTCCTAGAGGCCT
CTGGGTCTCCTCGAGATGCCAGTGGGAGCTCCTCCTCCCTCCTCCTGCTCTGCCCACGGACTCCTCCTCCTGAGGCCCCTTCCTGGCGTCCTTGGCCTCT
GTTCTGGGCACCCGGGAACCAGTGACTGGGCTGCAGGGCCTGCGTGTGGCCCTGGCTCTGCTCCCGGAGCTGCCGCACGAGAAGGCGCCAGGCCCAGGTT
CCTCGGCAGATGTGAGGATGGGGGTGCTCCTTGAGCGGGTGTGGCCAGGGCGCGCCTCCTCCCCGCGGGTGGGCCACCCTGGCCTGGGCCCGCGGTCCGC
AGCCCGCCTCTCTGTCGCCACACAGGTKCAGAAAGTCATGCCCAACGACACCTTCTACTTCTCCATCCTGAGGAACCCCGTGTTCCAGCTGGAGTCCTCC
TTCATCTACTACAAAACCTACGCCCCCGCCTTCCGGGGCGYCCCGAGCCTGGACGCGTTCCTGGCCTCGCCGCGGACGTTCTACAACGACAGCCGCCACC
TCAGGAACGTCTACGCCAAGAACAACATGTGGTTCGACTTCGGCTTCGACCCCAACGCGCAGTGCGAGGAGGGCTACGTGCGCGCGCGCATCGCCGAGGT
GGARCGGCGCTTCCGGCTGGTGCTCATCGCCGAGCACCTGGACGAGTCCCTGGTGCTGCTGCGGCGCCGGCTGCGCTGGGCGCTGGACRACRTGGTGGCC
TTCAGGCTCAACTCCCGCAGCGCGCGCTCCGTGGCCCGCCTGTCGCCCGAGACCCGGGAGCGCGCGCGGAGCTGGTGCGCGCTGGACTGGCGCCTGTACG
AGCATTTCAACCGCACCCTCTGGGCGCAGCTGCGCGCCGAGCTGGGGCCGCGGCGGCTGCGCGGGGAGGTGGAGCGGCTGCGCGCCCGGAGGCGCGAACT
CGCGAGCCTGTGCCTGCAGGACGGCGGCGCGCTCAAGAACCACACGCAGATCAGAGACCCGCGCCTGCGCCCCTACCAGTCCGGCAAGGCCGACATCCTG
GGTTACAACCTCCGGCCGGGCCTGGACAACCAGACGCTGGGCGTGTGCCAGAGGCTTGTGATGCCTGAGCTCCAGTACATGGCCCGCCTGTACGCCCTGC
AGTTCCCGGAGAAGCCCCTCAAGAACATCCCGTTCCTGGGGGCGTAGAGGGGCCGGGCCGGGGACGAGGCCTCCTGCGGACACCAGCTCCTCTCTCCGCC
GTCACCGGGGAGGCCGRGGATCCTTGCAGGGCTTCTGGGGCGTTGGGAAACCCAGGCCCGCCGGCCACGGCTCTAAAATGAAGAGGGCGGAGACCCCAGT
GAAGAGCACCCCCCGCAATCCGCGCAGATCCCTCCCAGAGAAGGCCCTGAGCCCAGGCGGCAGCCACCCGCCCCCCTTCCGAGGCTGTGTCTCTGTTTAG
AACTGAACACGAGGGTGGGGAGTGGGGGATGCTGGACCACAGGGCAGCACCTGCCCGGCAGGATGCGCGTGCCTGTGAGCCCCGGGACTCCCCAGGGTCC
TGGGCACTKGGGCTGTGGATCCTCGGAGGAACTCAGAGTGGTTCCCCTGAATTTCCCGGCCCTGGCGACGAGGTGCTGGTCCCAGAGACAGGTGCAGGCA
CAGGCAGTGCCACAAAGACCGGCCCGGGAGCGGGGCAGGGGCCAGGGCTCAGCCGCTCCCGAACAGCTCCACAGCTTTCGCTGCAGGAGGTTTGGTTCTG
ATGGAAGGATGTTTTCTACAGAGAGATGGCACAACTGCTCACAAGACCAGGGTTCTAGCCGGAGCCCAGGTCGAGYTCAGCTCCACGACCCCTGCTGGTC
AGCCCCTGATGCYTCGTGAAGGAGAGGAGTCTCACTTGCCAAAGGAGGCTGGAGTGGTTGGGGGTACACACACCCTTGGTTGCCTTGGAGACCGTGTTGG
GTGTGGTGCCAGAGGGCAGCTGTGGGTACCCCTCTTTGTCATTCACAGGGAGGGACAGAGCCTCCCTGCCTGGCAGGAYGTGATCCCTGGCTGCCAGGGG
CTCAGCGGGTAAAGGGGGTGCACTCGCCGGGACCAGCCGATGCCTGGGGCACCCAGGAAACGCAGCTACTCTGCAGCATGCTCAGCCTGGAGGCTGAGAC
CCCAGCAGTGGATCTAGGCCTGCAGGTCTAGGTGTGTCCACGCTTTTTTGGGGACGGGAAACCAGCATTTCAAAGAAGGGAGAGAACCGGAAACCGCAGC
GTAGGCAGCTCCCTCGGACCCCAGTGTAATGGGGGAGTTGCAGGAAGAGTGAATTTTCAGTGAGAGTCGGCCGTGAAGAATGGCAGGAGCTCTGCTGAGT
CAGAGTCAGCCAGGGACGTCTGCAGGCCACCCTCCCTCCCCCTCAGGCNNNNNNNNNNNNNNNNNNNNTCCGCAGGCCACCCTCCCTCCCCCCTCAGCCC
AGGGACCTCGCCCTCCCTCCCTCCCTCCCCCCTCAGCCCAGGAAAGGCACAGGAGAGGATCCTGCCAGGTAAAGGGAAAGTGGCCCGGGAGGAGCCCACG
TGCCAACAACAGGAGTCCCAGAAGACAGAAAAGACCACAGATGAGAAAGCAGTTCACGCAGAGAACAAAACRTTCCCGGACCAAACCCAGGGTCGGGTTG
CTCATTCCCGAGGCCCGATAGCGAGATGCAGATGAACTGGGGAAGAAGAGGGATTTTATTTCTGTAACTGGTTACAGGGAGAAGGCCTGGAAATGATYGC
CAGACCAACTCCAGATTACAGTTTTTCCAGAGCTTACACACCTTCTAAGCTCTGTGTCTCCGTGTCAGTGTGCATTCGTCTAAAGACGTACGTGATTCAA
TTCTTCTCATCTCTAACTGAGGTYTGGTCCTGAAGATCTTCCTCTGAAGACTCAGTAAATTTACTTGATCTAAATGGGCCCAGGTGTTTACCCTTATCTT
GTYTTCTGCTAAATCATGGAGGTTTGGGGAGTTCCTTCTCCACTTGTTTGTGGAGGCCTGGGGAGTTTTTTCAGACCCCCAGTAAAACTTGYTTAATCCT
AAACGGGTCCTGGTCTCGTCATGCTTCAAGGCCCAAGAAAGCCCTGGGCAAAACTCTTGATGGGCTTTTGTTACGTCCCAGCCCTCGTGTGAGGGCGCTG
GCTCTCAGCTTTCAGGATTTCACTTCACCCTCAGTCAGTGCTGAACAGTTGTCGCGGAGGCCTGCGTGAGTGAGGCCTGGCGTGCCCTGGAAACATTCCC
CTGAGTTGAAGAAAGACTCACAGTTTTCAGCATCCAGTTACCCTCTGAGCATCAGGCAGAACCCGCCGGCCCCAAAACCAGGCCCCCTTGGCACATGTGG
GCCCGAGTGAGTCCAGCATGAGGAGGTGCCGCTTCTGAGCAGAGCTCAGGTTGTCTCTGGGAGGAGGAGCGAGCGTTGGGTGCGGTGGCCGCTGCGTTGG
CAGCCCTGTCCCTGAGCGGAACGCAGGTCGTCTCTGGGAGGAGGAGCGAGGGTTGGACKCAGTGGCCGCTGCGGTGGCAGCCCTGTCCCCAGGCGTGGAC
TCTGCCCTCAGCTTCACAGTCACCGAAGAAATGAAGTTACAGGAGGGGCACACCGTCCTTTTGTCTCTGCCTTTGAGGTTGGCGGGAACTGAAACTGGTA
CGGTCTTTTTGAATAGAAATTTGGGGTCTTTCTGGCGACGTAAAACTGTGTGTAGTTTGCAGTAGAGAGTGTTGAGAACAGCCTGTCTGGGCTGTGCATT
GAGAAGGGGCGGTTAAAATGCTGCCACGTCGTGCAGCCCATAAAAGGGGGACACAGAGTAGCCGAAACTGCTCTTGGGGGAGGGGGCACGTCCCAGCCTT
CCGTGTGATGCTGGGGTCAGCGTGGCCCCTCGGCTGCCAGAGCTCACGAAGACGGTTAAGGAAAGCTTCCCCCGGGTGGCTTTCACCCCACGGGGACAGA
GCCCCAGATGGGCCCAGGGACCTCTGAGCAGCCGTGGGCCATGGGGTGACAGTTGGGGGTTGGTGGGACCCGTGGCTGTCATATACCCTGGGTAGACGGT
GGCTTGTCCAGGCAGAGATGCCCAGGGGAAGTGGGTGGCACCTGAGGGCAGATCTGACTTTTCAAGAGAAGCTGAAAACACGGGTTTTTCTGTGAAATCT
CTAGATTGAAAACAGTGGGCTTGAAAAGCCTGGAGCAGAGGGAGTGAGGCCTGCTCCCCACCCCAGCTCTGCGGGCACACCCTGGCCAGACAGCCCTGCT
CCAGACCCGGCCTGTGTCTCAGGGTGGCCCAGGAGGGGACTTTGCAAGGTGACGTGGGGCTTGGAGGTCCCGTTTCCCTGTAAGCCTGGGTACTTAGGGG
ATGGCCCTGGTCAGACTCCACCAGTCCCAGACTTGGGGGACACGAGAAGGGAGATGGGCCACCCAGTTCTGGTTGGGCTGGGGTGGGGCTTCTGAGGGGT
GGGGAGGTTGTCCCTTCCCACCCACCTGCCCCTGCCCCAGGATTCTCGGCTGTGAGCAGGAGGATGTGTACGATGGCCAAGTTGCCTGGACTGGGTCCGC
CCCTCCTGGGGCTGTGAGTGCACAGGACACTGGGCCCACAGGCACCTCTGGGGCTCTGTCCCCGTGGGGTGAAAGCCACTGGGGGGAAGCTTTCCTTAAC
CGTCTTCACGAGCTCTGGCGGCCGAGGGGCCACGGGGGGCATTCAGATGAGTCAGAAGGAGCTGGGGCCCACCCCTCCTGCTTCCTCGCCGCCCCCCTCC
CAGCTGCCCCCAGTAAATCCCCTCAGGCCCCTAGGACCTGGAGGGACGCGGCAGGTTTATCATCTCAGCCTGGAAACCACGTGACCTACCTGTTTCCCAC
CACAGCGCCCCAGGTTTCAGAAGCAGCTGAGGATGCCCTTCGCAGGGGAGGGAGGGACAGTGAGAAAGGAGGGTGTTCAGGGCCCAGGGATCCCCCACGG
AGGCTGCCCCATCAGAACTTACCGGGGACCTGTGGCCTCCTCTGAGATTCTGGCCTGGGCAGTGGTCATTTGAGCATTGGTTACCAAGGCTGCCTCTGAA
ATGGCAGGCTGGGGGCAGGCCAGCGTGAAAGGGACTGGCAGGAGTCCTGCGGGGACAGGCTGGGGGCAGGCCAGCGTGAATGGGACTGGCAGGAGTCCTG
CAGGGCAGCTGTGCTGGGGAGGGGTCACCCTGGGCCCTGAGAGGCACAGGACATTGCGATGGGGTGCTGGCCTGCCAGGAGCACAGATACAGAGCTAGAG
CCCAGCGAGGCCTGTGCTGCGAGGGGCTGTGCTGTGCCAGGGGAGGCCCCGCACCCGGGAAGCCCAGAGGAGAGTGTGCACTCACGGAGCCCTCCTGGCA
GGGCCGCGTCTCTGGAGCAGCAGACCCGTGTCCCTCTGGGAGGTCAACTGCGGCCTCACAGCTGGGCCTGTCCCAGCACAGCCCTTGTTGGAGGGCGCAC
CCCCGTCTCCTCAGCACCCCAGTGTTGAGTGCMTTGACCTGCAGASGGGAGCCTGTGCTGGTCCCGGGCGTCTGTGTGGCTCCTGGGTGCCCATCTGCAC
CCCTGGCCCTGCTCTGGGCTTCAGTGGAGCCGTGCCACCGTGGGAGTGTCCAGGGTCCTGACGTAGCCCTGAGACGTGGCCAGCTCCCTGGCCTGCTGCC
CGCACAGTGGGCCCTTGTCTCTGCTCTGGGTCAGGCGAGGCAGCCACCCATGATGAGCTCTGCAGCCTTCCCAAGGTGGCTGGTGAGTCCCTGCCCTTTG
CACCCCCAGCACCCTCACCCCTCTACCCGGGCGCCCGGGGTCAGGACCCGCTCCTGAGGTATCTGTCCAGCTGGCCGCCCCCTCTGTCTGGGGGTGCTGG
ACGAGTCCCACTCCTTGCCAACCCCAGGGTGGCTCCTCAGCTCTCAAACAAGGGGCGGGCTGCAGGGATTCCGAGGGCCCCTCCAGCAGGAGGTCCCACA
TGCATCTCCCAATGGGACACTTACCTGGCCCACAGGGTGGGTGTGACACTGAGGGTTCCTGGGGGCAGATTCAGGGCATGGGATGGAGACAGACTGGTTG
TGAGGGGCCCAATGCAGGGGGCCGGCCCCAGCCCACAGGGTCGTTCTGCAGATGGGCTGGTCGGGGACGCTCTACCAGGTGAAGGGTCTGTGGTCGGAGT
CTTCGCCCTGGCCAGGGCCCAGGACGCTCACGGTGCAGGCTGAGGGTCAGAGCCGCCGAGGGCCCCCTGCCGGGATTCTGTGCAAAGGGCCTCTGCACTT
TATGTGGGTGCATGTGAATGCCCCTCGCCAAGATGTTCCTACCCTGCACCTGACACTTCCCACGACAAGAAGTGCTGACCCCAGAGGGTGTGCGCGGACC
CCAGAGGGTGTGCGTGGACCCCAGAGGGTGTGTGCGGACCCCAGAGGGTGTGCGTGGAGGGCCTGGTCTGACCTCAAGGCTCTTGGGGCGCCCACACAGG
ATGGGCTGTGAGGGGTTGGCGGGGGTGGGGGGGGTGGTCTGTGATGGCCCCCTGCTGAGCCAGAGTGACCCCTACAACCGGTCCAGGGGTCCACGGACCA
GAAGGCCAGGTTCTCCTGGAGGTCCCATCTCCCCTGGGCCTCGGTTTCCCCTTCTGTGACTCCACACCCCCAAGGAGGGCCCTGTCAGGGAGGGCGGGGG
GCACTGGTTAATGTCCAGGACATGGCTGTCCCAGTCAAGCCAAACCCCTGGAATGTGCTGAACTGGCTACACTGAGCGGGGCTGGCCTCCGAGACAGAGG
GGCCTGCCGAGGACACGGAGGCTCTGTGGAACCCAGGGCCTGGCCACACTAACTGGGGCTGGCCTCCGAGACAGGGGAGGTCCTGAGGACACGGAGGCTC
TGTGGAACCCAGGGAACTGGTCACACTGAGGACACGGAGGCTCTGTGGAACCCAGGGAACTGGTCACACTGAGGACACGGAGGCTCTGTGGAACCCAGGG
CCTGGCCACACTGAGCACGGCTGGTCCCCCAAGACAGAGGGACCTCCTGAGGACACAGAGTCTCTGTGGAACCCAGGGCCTGGCCACATGGAGGACACGG
AGGCTCTGTGGAACCCAGGGCCTGGCCGTGGCAAGGAAGCCCCAAGCCAAGTGTGTGTCAGCCTTGTCCTCTCTGTGGGCCTCAGTTTCCCCTCTGTGCA
ACAAGGGGAGTGACCAGCTGGTTTCTGGAGTCTCCTCCTCTCCCTCTCTGTCCCCAGGGGTGGGCCTGGGCCTCATGTCTGCAGGGGGTGCTGACACCTG
CTCCTGTGGTCCGGGCCTTGGGGAGGGAGCCAAGTGCAGAGAGAATGTCTTGCTTGTGCCTGCTCAGCCCAGAGGGACACATGGCGTCTGCACCTGCTTC
CCGCTTGGGCACAATTGCCCTTTGAGAGCAGAGCCAGGGGCTTCTTGGGGACGGAAGCTGCTCTCAGAAGCCGCGCACTGGTGGTGGGGGAGCRGCAGGA
AGGGGCCGGCCAGCTGTCCTAGCCAAGAGCCTTTCAGGAACCGGTGGCCCAGGGCAGAGGTGGCTGGAGGTGGAGCTGTCTGTTTGGGCCTCAGGTGTCG
GGGCAAGGCCTGCTTGGGTTTTACACGAGTGTTGCGCCTTTACCCGGGTCTCTGTCAGTGGGTCCCGCCTGACCCGTGGGTGTGCATGGGTCCCCGTCGT
AGGCAGGCGTTCTGCCCTGGCCAGGCGTGGTGTCCGGCATCCGGCCATCTCCCTCCTCCCTCCTTCCCTTAGCCCCGCATCCAGGTGCCCCGTGTGCCCG
GCCTGGGCGGCTGGCCGTGGATCTGACCGCTCCTGCATGGTGGAGGACCAGCGTTCCCACTGTCTGCAGCTGTGCCACCTCCCTGTGCCGGGCTGTGCGT
GCTCACGCTCGGCTCCGTCTGCCTTTGTGCGATCAGACTGAGAGACCCCCCAGGCAGGTCCCGCCTGCAACAAGCAGACCCCATGCGTGCCCCAAATGCC
CCCTCACCCGGGCCCTGCCCTGGTGGGTGTTGCCTGGGAGCAAACTCCCAGAATGGCCGCCGGGCCCCACTCGGCTTTGGAGCTTCTGATTCCTGTGGGC
GCTTCTCAGGTCAGGGCCCTGCAGGTGGGAAGCACCAGGCACTGGAATGAGGGCACTGTGGGGCCAGCTGCCTGCAGGCAGGGGTCTGATCACCAAGCAC
CTGTCCCCTGCAGGATCCCTGGCTGTGGCTCCCCCGATGACGTTCAGGAAGTGGGAGCCGATCCCCTGTCCCCAGAGAGCCCCGTGACTCCCCCGATGAC
GTTCAGGAAGTGGGAGCGGATCCCCTGTCCCCAGAGAGCCCCGTGACTCCCCCGATGACGTTCAGGAAGTGGGAGCGGATCCCCTGTCCCCAGAGAGCCC
CATGACTCCCCCGATGACGTTCAGGAAGTGGGAGCCGATCCCCTGTCCCCAGAGAGCCCCGTGGCTCCCACAGGTCCCTGTGGGCTCACCTCTTTGTGTC
TCTGCTGTGGCTTCCACGGTGCTGTGGCCTCTATTCTGGGGACACTGAGCTCCTCCTTGCTCGAGGTTTTGGGTCCTCATTGTCCACATGACCTCCTGCT
GGGCGAATTCTGGGATGACCCTGTGTCCTGGGCACATGGCTGGCAGGGTCCCGGGGGCTCTCTGGCCAGCCTCCCCTGCACCCTGGCACCAACCAGCCTG
GCCGAGGGTCAGCTCCCAGAGCCGTGTTGAGAGGGGAAGGGGCTGATTCCACAGACATTTGGGGTGGAGTGGGTGCGAGGGAGGGTGGGGGAGGGGCTGC
TCCAGATCTGGGGTGAGGGAGTCAGAAACAGGGCTGACCCCAAGGTGGGTACAGGAAGAGGCCCAGGTGTGGGCAGGAGCTGTCTGCACCTCCTGAGCGC
GTTCCCCAGTCCAGACCGGGAGCGAGTGTGGGGCTCCCTGGGCCTGTCTTGCTGACCTGTGGCCCTGTACTGACCAGCAGAGCATGGGGGTCCCTCGTAC
CCCTTCACGGACAGTGCTCTTCGAGCGGGAGAGGACGGGCCTGACCTACCGCGTGCCCTCGCTGCTCCCCGTGCCCCCCGGGCCCACCCTGCTGGCCTTT
GTGGAGCAGCGGCTCAGCCCTGACGACTCCCACGCCCACCGCCTGGTGCTGAGGAGGGGCACGCTGGCCGGGGGCTCCGTGCGGGTGAGTGAGTGGCCGG
GGGCTCTGTGTGGGTGTAGTGGCCGGATCTGCTGGGGCTGCACACCCCGGGATGGGGCGGGGGTGGYGGCGGCAGGCAGATGCCCGAGGTAGAGATGAGC
AAACCAGGCTCAGCGATCCTGGGTGCCCTGCGGGGGGCTGTGCCCAGGTCCCTGGACGTCCTGGTCAGCGGAACTTCCTCCTCTGGGCAGTGGGGTGCCC
TGCACGTGCTGGGGACAGCAGCCCTGGCGGAGCACCGGTCCATGAACCCCTGCCCTGTGCACGATGCTGGCACGGGCACCGTCTTCCTCTTCTTCATCGC
GGTGCTGGGCCACACGCCTGAGGCCGTGCAGATCGCCACGGGAAGGAACGCCGCGCGCCTCTGCTGTGTGGCCAGCCGTGACGCCGGCCTCTCGTGGGGC
AGCGCCCGGGACCTCACCGAGGAGGCCATCGGTGGTGCCGTGCAGGGTAGGCGGGCAGGGTGCCGGTCTGGGTCCCTTTGATTGGCCACGGTCCACATGG
AAGGGAGATTCCAGCGGGAAATTGCCATTCTG


SNP Information

Context             (SEQ ID NO:42464):
GGGAGGAGGAGCGAGCGTTGGGTGCGGTGGCCGCTGCGTTGGCAGCCCTGTCCCTGAGCGGAACGCAGGTCGTCTCTGGGAGGAGGAGCGAGGGTTGGAC
K
CAGTGGCCGCTGCGGTGGCAGCCCTGTCCCCAGGCGTGGACTCTGCCCTCAGCTTCACAGTCACCGAAGAAATGAAGTTACAGGAGGGGCACACCGTCCT
Celera SNP ID:            hCV2769382
SNP Position Genomic:     34959
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42465):
CCTTATCTTGTTTTCTGCTAAATCATGGAGGTTTGGGGAGTTCCTTCTCCACTTGTTTGTGGAGGCCTGGGGAGTTTTTTCAGACCCCCAGTAAAACTTG
Y
TTAATCCTAAACGGGTCCTGGTCTCGTCATGCTTCAAGGCCCAAGAAAGCCCTGGGCAAAACTCTTGATGGGCTTTTGTTACGTCCCAGCCCTCGTGTGA
Celera SNP ID:            hCV2769383
SNP Position Genomic:     34492
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42466):
TTTCCAGAGCTTACACACCTTCTAAGCTCTGTGTCTCCGTGTCAGTGTGCATTCGTCTAAAGACGTACGTGATTCAATTCTTCTCATCTCTAACTGAGGT
Y
TGGTCCTGAAGATCTTCCTCTGAAGACTCAGTAAATTTACTTGATCTAAATGGGCCCAGGTGTTTACCCTTATCTTGTTTTCTGCTAAATCATGGAGGTT
Celera SNP ID:            hCV2769384
SNP Position Genomic:     34324
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42467):
GTTGCCTTGGAGACCGTGTTGGGTGTGGTGCCAGAGGGCAGCTGTGGGTACCCCTCTTTGTCATTCACAGGGAGGGACAGAGCCTCCCTGCCTGGCAGGA
Y
GTGATCCCTGGCTGCCAGGGGCTCAGCGGGTAAAGGGGGTGCACTCGCCGGGACCAGCCGATGCCTGGGGCACCCAGGAAACGCAGCTACTCTGCAGCAT
Celera SNP ID:            hCV28005534
SNP Position Genomic:     33479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42468):
TTGCTCATTCCCGAGGCCCGATAGCGAGATGCAGATGAACTGGGGAAGAAGAGGGATTTTATTTCTGTAACTGGTTACAGGGAGAAGGCCTGGAAATGAT
Y
GCCAGACCAACTCCAGATTACAGTTTTTCCAGAGCTTACACACCTTCTAAGCTCTGTGTCTCCGTGTCAGTGTGCATTCGTCTAAAGACGTACGTGATTC
Celera SNP ID:            hCV2769385
SNP Position Genomic:     34198
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42469):
GCCGGGGGCTCCGTGCGGGTGAGTGAGTGGCCGGGGGCTCTGTGTGGGTGTAGTGGCCGGATCTGCTGGGGCTGCACACCCCGGGATGGGGCGGGGGTGG
Y
GGCGGCAGGCAGATGCCCGAGGTAGAGATGAGCAAACCAGGCTCAGCGATCCTGGGTGCCCTGCGGGGGGCTGTGCCCAGGTCCCTGGACGTCCTGGTCA
Celera SNP ID:            hCV27511313
SNP Position Genomic:     40667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42470):
AACCCCCAAAATCTGAGACAGGTCTCGGTTAATTTAGAAAGCTTACTTTGCCAAGGGTGAGGACGCGCACCCATGACCCAGCCTCAGGAGGTCCTGATGA
Y
GTGTGCCCAAGGTGGTCAGGGCACAGTCTGGCTTTATACATTGTAGGGAGACATGAGACATCAGTCCGCATATGCAGGACGAACATTGGTTCGGTCTGGA
Celera SNP ID:            hCV11525230
SNP Position Genomic:     7875
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42471):
AAGGGAAAGTGGCCCGGGAGGAGCCCACGTGCCAACAACAGGAGTCCCAGAAGACAGAAAAGACCACAGATGAGAAAGCAGTTCACGCAGAGAACAAAAC
R
TTCCCGGACCAAACCCAGGGTCGGGTTGCTCATTCCCGAGGCCCGATAGCGAGATGCAGATGAACTGGGGAAGAAGAGGGATTTTATTTCTGTAACTGGT
Celera SNP ID:            hCV2769386
SNP Position Genomic:     34072
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42472):
ACGAGGGTGGGGAGTGGGGGATGCTGGACCACAGGGCAGCACCTGCCCGGCAGGATGCGCGTGCCTGTGAGCCCCGGGACTCCCCAGGGTCCTGGGCACT
K
GGGCTGTGGATCCTCGGAGGAACTCAGAGTGGTTCCCCTGAATTTCCCGGCCCTGGCGACGAGGTGCTGGTCCCAGAGACAGGTGCAGGCACAGGCAGTG
Celera SNP ID:            hCV2769387
SNP Position Genomic:     33009
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,8)      total(G,8|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42473):
CCTCAAGAACATCCCGTTCCTGGGGGCGTAGAGGGGCCGGGCCGGGGACGAGGCCTCCTGCGGACACCAGCTCCTCTCTCCGCCGTCACCGGGGAGGCCG
R
GGATCCTTGCAGGGCTTCTGGGGCGTTGGGAAACCCAGGCCCGCCGGCCACGGCTCTAAAATGAAGAGGGCGGAGACCCCAGTGAAGAGCACCCCCCGCA
Celera SNP ID:            hCV2769389
SNP Position Genomic:     32717
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,19)   caucasian(A,5|G,19)   total(A,18|G,38)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:42474):
TCCTTGAGCGGGTGTGGCCAGGGCGCGCCTCCTCCCCGCGGGTGGGCCACCCTGGCCTGGGCCCGCGGTCCGCAGCCCGCCTCTCTGTCGCCACACAGGT
K
CAGAAAGTCATGCCCAACGACACCTTCTACTTCTCCATCCTGAGGAACCCCGTGTTCCAGCTGGAGTCCTCCTTCATCTACTACAAAACCTACGCCCCCG
Celera SNP ID:            hCV25760725
SNP Position Genomic:     31828
SNP Source:               Applera
Population(Allele,Count): african american(G,19|T,1)   caucasian(G,28)   total(G,47|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42475):
AAGTCTTCAAAATAATGTTTGCAATTTTTTTCATTTGTTTGCCCCACCCCCCATTTTTCTGTTTTCTTTTCTTTTCTTTCTTTCTTTTTTTTTTTTTTCT
S
AGATGGAGTTTTGCTCTTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTCCCTCA
Celera SNP ID:            hCV11536321
SNP Position Genomic:     20512
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42476):
CCGGCACCCAGTGGGTTTGAGGACAAGACGTTACAGAGGTGAGGGGAGGCCCAGACCTGTGTGGCCCAAGGCCTGGACTTGGCTGCAGGATGGGAGGTGG
R
GGTGGGGCTGGCACGACCCGGACTGGGCACTCATGGCCTGCCCTTTCCACAGATACTTCCGGGTCATCCTCCTCCTCCTCCTGGCCCTGACTCTGCTCCT
Celera SNP ID:            hCV25612830
SNP Position Genomic:     27493
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,27)   caucasian(G,16)   total(A,5|G,43)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42477):
TTTCTACAGAGAGATGGCACAACTGCTCACAAGACCAGGGTTCTAGCCGGAGCCCAGGTCGAGCTCAGCTCCACGACCCCTGCTGGTCAGCCCCTGATGC
Y
TCGTGAAGGAGAGGAGTCTCACTTGCCAAAGGAGGCTGGAGTGGTTGGGGGTACACACACCCTTGGTTGCCTTGGAGACCGTGTTGGGTGTGGTGCCAGA
Celera SNP ID:            hCV2351007
SNP Position Genomic:     33313
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(T,1|C,83)   African-American(C,74)   total(C,157|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42478):
CCCAACGACACCTTCTACTTCTCCATCCTGAGGAACCCCGTGTTCCAGCTGGAGTCCTCCTTCATCTACTACAAAACCTACGCCCCCGCCTTCCGGGGCG
Y
CCCGAGCCTGGACGCGTTCCTGGCCTCGCCGCGGACGTTCTACAACGACAGCCGCCACCTCAGGAACGTCTACGCCAAGAACAACATGTGGTTCGACTTC
Celera SNP ID:            hCV25612831
SNP Position Genomic:     31941
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,2)   caucasian(C,22)   total(C,46|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42479):
TTTCGCTGCAGGAGGTTTGGTTCTGATGGAAGGATGTTTTCTACAGAGAGATGGCACAACTGCTCACAAGACCAGGGTTCTAGCCGGAGCCCAGGTCGAG
Y
TCAGCTCCACGACCCCTGCTGGTCAGCCCCTGATGCCTCGTGAAGGAGAGGAGTCTCACTTGCCAAAGGAGGCTGGAGTGGTTGGGGGTACACACACCCT
Celera SNP ID:            hCV2351008
SNP Position Genomic:     33276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42480):
CGCCGAGGTGGAGCGGCGCTTCCGGCTGGTGCTCATCGCCGAGCACCTGGACGAGTCCCTGGTGCTGCTGCGGCGCCGGCTGCGCTGGGCGCTGGACGAC
R
TGGTGGCCTTCAGGCTCAACTCCCGCAGCGCGCGCTCCGTGGCCCGCCTGTCGCCCGAGACCCGGGAGCGCGCGCGGAGCTGGTGCGCGCTGGACTGGCG
Celera SNP ID:            hCV15828663
SNP Position Genomic:     32192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42481):
CTTCTCATCTCTAACTGAGGTCTGGTCCTGAAGATCTTCCTCTGAAGACTCAGTAAATTTACTTGATCTAAATGGGCCCAGGTGTTTACCCTTATCTTGT
Y
TTCTGCTAAATCATGGAGGTTTGGGGAGTTCCTTCTCCACTTGTTTGTGGAGGCCTGGGGAGTTTTTTCAGACCCCCAGTAAAACTTGTTTAATCCTAAA
Celera SNP ID:            hCV11536329
SNP Position Genomic:     34403
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42482):
GGGCAGGCACAGGTGTTTTAGGGTCACCCTGAGCGCTCTGTGGAGAATGGCCAGCAGAGGCTAGGTGACCAGGCGGGGCCAGAGGGAGGCCGGGTGGGGA
R
AGGTGATGGGCAGAGAGCGGGGCAGCGGGGGTGTGCTGTGGGGTGGGGGCTGCGGGGCAGAGGGAGGAGGAGGGGCCGGGAGGAGGGGAAAGGAAGAGGG
Celera SNP ID:            hCV7440059
SNP Position Genomic:     31060
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42483):
GGAACGTCTACGCCAAGAACAACATGTGGTTCGACTTCGGCTTCGACCCCAACGCGCAGTGCGAGGAGGGCTACGTGCGCGCGCGCATCGCCGAGGTGGA
R
CGGCGCTTCCGGCTGGTGCTCATCGCCGAGCACCTGGACGAGTCCCTGGTGCTGCTGCGGCGCCGGCTGCGCTGGGCGCTGGACGACGTGGTGGCCTTCA
Celera SNP ID:            hCV27532371
SNP Position Genomic:     32104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42484):
CCTCTGGGAGGTCAACTGCGGCCTCACAGCTGGGCCTGTCCCAGCACAGCCCTTGTTGGAGGGCGCACCCCCGTCTCCTCAGCACCCCAGTGTTGAGTGC
M
TTGACCTGCAGAGGGGAGCCTGTGCTGGTCCCGGGCGTCTGTGTGGCTCCTGGGTGCCCATCTGCACCCCTGGCCCTGCTCTGGGCTTCAGTGGAGCCGT
Celera SNP ID:            hCV2769373
SNP Position Genomic:     36933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,3)      total(A,3|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:42485):
TGCCACGGTAGTTTACTGCACCTATTAGCCCGTCATCTAGGTTTCAAGCCCCGCATGCATTAGGTATTTGTCCTAATGCTTTCCTTCCCCTTACACCCCA
Y
CCCCGACAGGCCCTGGGATGCGCTGTTCCCCTCTCTGTGTCCACGTGTTCTCATTGTTCAAGTCCCACTTATGAGTGAGAACATGCGGTGTTTGGTTTTC
Celera SNP ID:            hCV2769390
SNP Position Genomic:     29603
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42486):
GGGGCCGAGGCGGTGGGACCTCGGGGGAGCTCAAGCCTCGACTGTCCCCTCGCTGGAGGCCAGAGGCCAAGATGATGTCCATGCTGGGCGGCTTGCAGAG
R
TAAGGGGGGCAGTTGGACCCCCCAGGTGGACAAAGCGCTTCATCTGTGGCTATTCTGAGAGACGGACAGGAGTGGGTTTTGTTTGTCTTTCGAAGGAAGT
Celera SNP ID:            hCV25760517
SNP Position Genomic:     6161
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 DONOR SPLICE SITE


Context             (SEQ ID NO:42487):
CACTTCTGCTGGCCCTGTTCTGGGGCAGGGAGGGCGCCTGCTACTCCAGCCCCACTGGGTGGGTGTCATGATGGGATTCTAGGAGTGGGCCCAGCCCTAC
R
TCTGGCCGCTGGTCTCGGCTTTGGGGTCCTTCCTTTTCCTGGTGTGAAGGGACAAGAAGCACTGCACGTGTGGCTGAGGTCACAAAGCCAGCTGCATGTG
Celera SNP ID:            hCV2769391
SNP Position Genomic:     28423
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42488):
CGTGTATGTATGTACTGTGTATGCGTGTGTATGTGTATGCATGTGTATTATATGTACATATTGTGTATGTGTGTGTATATGTATGTGTGTATTGTGTTTA
T
ATGTATGTGTGTATATGTATGTATGTGTATATGTGTGCGTATATGTGTATGTATGTATATGTGTATATGTGTGTGTATTGTGTGTGTACATATTGTGTTT
Celera SNP ID:            hCV26891630
SNP Position Genomic:     22015
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42489):
GCTGTCACAACAGACACCACAGACAGGCTGGCCCCAGCAGCAGACATGTGCTTCTCACCGTTCTGGAGGCCGGAAGGCATGCGATCTCGAGCCAGCATGG
S
GGGTTCCTGGGGAGGGCCCTCCTCCTGGCCTGCAGATGCCACTTTCTCTCTGTGCCCCTATATGGGGAGCGAGGGTGGGGAGTGGAAGCTGCACTCTGGT
Celera SNP ID:            hCV2769392
SNP Position Genomic:     26871
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42490):
GTGTATGTATGTACTGTGTATGCGTGTGTATGTGTATGCATGTGTATTATATGTACATATTGTGTATGTGTGTGTATATGTATGTGTGTATTGTGTTTAT
A
TGTATGTGTGTATATGTATGTATGTGTATATGTGTGCGTATATGTGTATGTATGTATATGTGTATATGTGTGTGTATTGTGTGTGTACATATTGTGTTTG
Celera SNP ID:            hCV26891631
SNP Position Genomic:     22016
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42491):
CACTGGCTTGTTGTGCTCCTATGTACCCTGTAAAGCCCCATGCAAAGGCCCCAGTCCAAGCAGGAAGCTCACCCCTTGTGTCCTCTCCAGATGCTGAGCT
Y
GCCGAGTGCAGGTGTGGTGTCTGGTTCCCTCGTAGCCTGTGCCTGACCTGCACTGAGACGCTACGGCCCACGTGGCAACCCCCCATCACTGAGGGGACAC
Celera SNP ID:            hCV2769393
SNP Position Genomic:     26407
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42492):
TGTATGTATGTACTGTGTATGCGTGTGTATGTGTATGCATGTGTATTATATGTACATATTGTGTATGTGTGTGTATATGTATGTGTGTATTGTGTTTATA
T
GTATGTGTGTATATGTATGTATGTGTATATGTGTGCGTATATGTGTATGTATGTATATGTGTATATGTGTGTGTATTGTGTGTGTACATATTGTGTTTGT
Celera SNP ID:            hCV26891632
SNP Position Genomic:     22017
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42493):
GAGGGCTGCCCCGTTTGCTGTTAGCATGCACCTGGCCGCCCTGGCGCAGCCATCCTTGAAACACTCTGACAGCAATGTTTTAAGAATGTAGAGATGGGGT
Y
TCACTGTATTGCCCAGGCTGGCCTCAAACTCCTAGGCTCAAGCAATTCTCCCACTTCCGCCTCCCAAAATGTTAGGGTCACAGGCGTGAGCTGCCGCGCC
Celera SNP ID:            hCV2769394
SNP Position Genomic:     25534
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42494):
GTATGTATGTACTGTGTATGCGTGTGTATGTGTATGCATGTGTATTATATGTACATATTGTGTATGTGTGTGTATATGTATGTGTGTATTGTGTTTATAT
G
TATGTGTGTATATGTATGTATGTGTATATGTGTGCGTATATGTGTATGTATGTATATGTGTATATGTGTGTGTATTGTGTGTGTACATATTGTGTTTGTG
Celera SNP ID:            hCV26891633
SNP Position Genomic:     22018
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,3)   total(G,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42495):
CTGCCTGATCAGGAACCATCAGCCCCACCAACCTGCCCAGAGCTGGAAAGCCAGACCTTCTGGGCGCTCCCAGTGAGGCAGCAGGTCAGTGGCCTCCAAG
Y
CCCGAGGCTCCAACAGCAGGAAGTTTGAGGCTCTTTGGGAACGACTGAGCTACTCTGGCAACCCCCAGAGCAAAGGCAGCAGGGCCTGGCCGCAGTCCCC
Celera SNP ID:            hCV26891634
SNP Position Genomic:     23106
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42496):
TGTAACAAATTAGCTTCGTATGGTGGTGGGTGCCTGTAATCCTAGCTACTTCGAGGCTGAGGCAGAAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAG
T
GAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAAAAGTGAAACTCCATCTCCAAAAAAAAAAACCCACACAAAAAAAGTTTAATCTCAATTTTT
Celera SNP ID:            hCV26891635
SNP Position Genomic:     11562
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42497):
TAGCTATGGATCATTAAACAAATATTAATGTCTTCTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTCTTGCCCAGGCTGGAGTGCAGTGGTGCAATC
K
CAGCTCACTGCAACCTCCGTCTCCCGGGTTCATGCCATTCTCCAGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCTCACCACCACGCCCGGTTAAT
Celera SNP ID:            hCV11536315
SNP Position Genomic:     12582
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42498):
CTCTAAAATGAAGAGGGCGGAGACCCCAGTGAAGAGCACCCCCCGCAATCCGCGCAGATCCCTCCCAGAGAAGGCCCTGAGCCCAGGCGGCAGCCACCCG
C
CCCCCTTCCGAGGCTGTGTCTCTGTTTAGAACTGAACACGAGGGTGGGGAGTGGGGGATGCTGGACCACAGGGCAGCACCTGCCCGGCAGGATGCGCGTG
Celera SNP ID:            hCV9232870
SNP Position Genomic:     32871
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,7)   total(C,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42499):
AACTGCGGCCTCACAGCTGGGCCTGTCCCAGCACAGCCCTTGTTGGAGGGCGCACCCCCGTCTCCTCAGCACCCCAGTGTTGAGTGCATTGACCTGCAGA
S
GGGAGCCTGTGCTGGTCCCGGGCGTCTGTGTGGCTCCTGGGTGCCCATCTGCACCCCTGGCCCTGCTCTGGGCTTCAGTGGAGCCGTGCCACCGTGGGAG
Celera SNP ID:            hCV27476505
SNP Position Genomic:     36946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:42500):
CTGCTTCCCGCTTGGGCACAATTGCCCTTTGAGAGCAGAGCCAGGGGCTTCTTGGGGACGGAAGCTGCTCTCAGAAGCCGCGCACTGGTGGTGGGGGAGC
R
GCAGGAAGGGGCCGGCCAGCTGTCCTAGCCAAGAGCCTTTCAGGAACCGGTGGCCCAGGGCAGAGGTGGCTGGAGGTGGAGCTGTCTGTTTGGGCCTCAG
Celera SNP ID:            hCV9232962
SNP Position Genomic:     38894
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42501):
TGGGGAGCCCAGAGCCGGCAGGGGCCGAGGCGGTGGGACCTCGGGGGAGCTCAAGCCTCGACTGTCCCCTCGCTGGAGGCCAGAGGCCAAGATGATGTCC
W
TGCTGGGCGGCTTGCAGAGGTAAGGGGGGCAGTTGGACCCCCCAGGTGGACAAAGCGCTTCATCTGTGGCTATTCTGAGAGACGGACAGGAGTGGGTTTT
Celera SNP ID:            hCV25612829
SNP Position Genomic:     6141
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,10)   caucasian(A,6|T,10)   total(A,10|T,20)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,21|T,17)   caucasian(A,29|T,7)   total(A,50|T,24)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:42502):
CATCGCCGAGGTGGAGCGGCGCTTCCGGCTGGTGCTCATCGCCGAGCACCTGGACGAGTCCCTGGTGCTGCTGCGGCGCCGGCTGCGCTGGGCGCTGGAC
R
ACGTGGTGGCCTTCAGGCTCAACTCCCGCAGCGCGCGCTCCGTGGCCCGCCTGTCGCCCGAGACCCGGGAGCGCGCGCGGAGCTGGTGCGCGCTGGACTG
Celera SNP ID:            hCV15828659
SNP Position Genomic:     32189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42503):
TACCCCTGGCTCTTCCTGGCGCGCTACGTGGAAGGCGTGGGGTCGCAGCAGCGCTTCAACATCATGTGCAACCACCTGAGGTTCAACCTGCCTCAGGTAC
Y
GCGGGCCTGCTGGGGAGGAGGGCGGGCTGCAGCCGTGCCTGTGGCTGTGGGTCTGGGTGGTGTAGCCTGGAGGCTGGAGAGAAGGAGTGTAAGGCTTGGG
Celera SNP ID:            hCV25757715
SNP Position Genomic:     30522
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 INTRON


Gene Number:                 208
Celera Gene:                 hCG31836 - 83000099460631
Gene Symbol:                 FLJ10287
Protein Name:                hypothetical protein FLJ10287;FLJ11219
Celera Genomic Axis:         GA_x5YUV32VY6P(3460511..3489860)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12368):
AATTAGTAAAAAATACCTATGCACAAGTACTTCTCAAACTATTCTGCCAGAATTAAATAACAATGGCCTTTCTTTGATGTGCAGGTAGAAAAAAGTAAAC
TAACAAATAGAATTTGTTCAATTTTAAGTTTTTCTTCTAAGGACTTCTTTTAAACCTTTTCCACACTATTGCTTATCTACTACACAAGTAAAAAGTACAA
ACAGCAATTGAGTACTGATAGAAAAACTTGGAAACAGTTGATCAAGGCTAGATTCAATTGTTTAGATTTTTTAATGCTGACTTGTAATTTTATATGGGTT
TAAAATGTGTCATTTTAGTTAAGTTTCTTGTTGAACTATGATTGGATGCTAAATCTCCGTTTGTACAATAAGGTTAAATGTTACCTCATAACTTGTATCT
GTTTTCTGAAAAGGAACAAGAAGCACTGGTTTACACCAGAGAGAGGAAGAATTATTTTCAAAACAAGAGAATACACTGTTGCTATTTTTCTAGTATCTAA
AGCAACATATGTGAAACAGATTAGAGTGTTACTCCAATTCCATTTAAGCTTTCCTGAGCTGGGCACAGTGCCTCCCACCTGTAGTGCTGGCTACTTCAGA
GGCTGAGGCAGGAGGATAGCTTGAGCCCAGGGGTTCAAGTCCAGTCTGGGCAACACAGCAAGATTAAGCTTTCGTGGTGGGGTGGGGGAGGGGGGGACTC
AGTTTCCGAACTTGTAAGATAAGTGGATTCAACTAGAAGGTTTGTGAAAACCTTTTTAGCTCTACATCATTATGTTTGGTTTTCATCTTCTGAAGTTTTC
TCTAGTATAAATGCCATAGTGGTATGATACTGCAGTTGGTATTTAACTTTTTATGGTGCTTTACAGTTTATTTTTATTTTAATTATTTATTTATTTATTT
ATTTTTGAGACAGAGTTTCGCTCTGTCACCCAGTCTGGAGTGCAATGGTGCGATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAACGATTCTCCT
GCCTCAGTCTCCTGAGTAGCTGAGTTTACAGGGGCACAACACCACACCTGGCTAATTTTCGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGA
CTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGATAGCAGTACAGGCGTGGGCCACTGCACCTAGACGGTGTTTTACGG
TTTTAAAAGTCCTGTCATACTTCATATATTTGCAAAAAGTACAAGAAGAATTCACTTATCAAAGTGTTCTTTACATAATCCTGGAAGAGTTATATTACTA
TGACAATTTACCAATCATATTAATGATATTGTTGCATATATTCCAAATGCCTATATACATTAGATGTTGAAAGAAAAAACGGAAGGCCTGTAAGTTAAAC
GAATTCCCCATGCTTAGTTAAAAAACATCCCTAGAAATATGCTGTAGAAAAATACAAGCTTTCAGAGGATACGCTAACTAAAATCACAAATCTTATTTTT
TCCCTTATAATGGTTAATGTCATAAGAGCAATATAAAACAATAAAAACTCAATAAAATGTTATTTCTCATCTCAATAGATGTCGTACTCAATAGATGTCT
AATACTAATGACATTAGATTTAGTTATGAGTTCTTCTAAATAAAAAGTATTCTAAACATCAGGCTTGCTTTAGCACAACTGGATTCTAGGCCATCTCTGA
CACCCAGTAGCTGTGCTCTTAAACTATCAATCAAACAAATAAAAGGTACTTTAAGCCAGGTATTGTGCCAGGTGCTAGGGATACAAACAGAAATAAACAT
GGTCCAGGGGCTTGGCGCAGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGCCAAGAGTTCAAGACCAGCATG
GGCAACATAGCAAAATCCTATCTCTACAAAAAATTTATAAAATGAGCCAGGCATGGTGGTGCATGCCTGTAGTTTCATGTACTCTGGAAGCTGAAGCAGG
AGAGCTTAAGACCAAGAGTTTGAGATTACAGTAAGCCATGATTATGACACAACACTCTAGCCTGGGCAACAGAGTGACAGCCTCTCTCTAAAAAAAAAAA
AATAATAATTTTTGAACATAGGATGACACAAACAAAACAAAACAAAAAAAACCATGGTCTCTGTCCTCAAATTGAGATGAGATTAATGACTTTTTGCTAG
ATTTGCTTCTGATTGCATTTTAGGGCTCCATGAGAGGGGAGGGAAGGGTTACCAACACTACTGAGTACCTGCCAGGTATTCTACATATATCATCTTATTT
AACAATAATCTTGATAAGTAAATATTATTTATTTTACAAAAGAAGAACTTAAGGCCCAAATAATGGTTTAAGGTCACATTACAGAGCCCAAATGAAAACT
CAGATCTTTCACCTACACCACACTATCTAATAACTGAATAATGGCAATTCATTTCAACTTAGGCAACTTTGAAGGGTCCTTATAGTGAAAGGATTTAAGA
CATACCTGAAAGTTATGAAAGAAAAAAGCATTTGAGGCACAAGGAACAGCAGGGGTAATAGTATAGAATGAGTATCAGGTATATTCAGAAGGTAACAAGA
ATGCTTGTATGACTTTCATATTGGAGAGATAAGCTTAGGAAACAAAACTGAAAAGGCAGATTAGTGTCAAATCATGGGTTCCAAAATTTTGCATAATTTT
CCACCAGATGAAGTTCCCTGATCATTACCACTGTCCTCAACTGAATTTCCTTCTTCTCTGACTTTAGTGTACTTATATTACTTTATGCATTTGTCACACA
TTAATACCTAAAATTTAGTGAACATTTATTATGCTCTAGTCACTGTTGTAAGCAGTTCATATGTATAATTCATTCCATTCTCATAATACCATGAAGTAGG
TACTGTTATTACCATCAACTTAAAGATGAGACACAGAGAAGGAAATTGTACAAGATCTGTCAGTAAGTGGAAGAACTGGGACTTAAACCCAGGCAATCTG
GCTCCAGAGCCTGAACTCCTAATCTGTGCTATGGTGCCTGTTCAAGGAAAATCTTATTTCCCCTATTAAAATGTGAGTTCCTTGAGGGACAGAATGAAAA
GAGGTTTTTGTTGGCTTTTGTTGTTGTTGGGGACGGAGAGGGGGGTGCGTATTTACATCCTCCACACTTAGGACAGTTCCTGAGACACAGCAGACATTTG
CCAGTATTTGTTGAGCTGAACTGGCCTCAAATACTCAACCAAGGCGTCTGGGCTGGGCGTGGTGGCTCACGCCTATAATCCCCGAATTTTGGGAGGCTGG
GGTGAGAGGATCACTTGAGCCCAGGTGTTCAAGACCAGCCTGGGCAATACAGGGAGACCCCGTCTCTTTTAAATTAAATTAACAACAAAAAAAAGCCAGG
CGTGGTGGTATGCGCCTGTAATTGCAGCTACTCAGGAGGCTAAGGTGAGGGGAACCCTTGGGCCCAGGAGGTCAAGGCTGCAGTGAGCTGTAATCGTGCT
ACAATACTCCAGTCTGGGCAACAGAGCGAGACTCTGTCTAGAAAAAAAAAAAAAAAAGAGAGAGAGAAAGAGAGAGAGTCTGGGTTGTTCTTCCTATAGG
TCAAGGATCACCAAATTATTCTGTAAAGGGCCAGATAGCAAATATTTTAGGCTTTGCGGGCCATAAGGTCTCTGTCACAATTACTCATCTCTGCCCTTCC
TGTGCAAAAGCAGCTACAATATGTAAACAAATGAGCATGGCTGTGTTCCAAGAAAAGTTTATTTACGAAAACAGTGAGCCAACTGGCCCATGTGCTCCAG
TTTGCTGACCCCTATTATACAGATAATAGGAATATATTAAAGGTTTCTAAGCAGAGAAATTGAGTTTTTAGATTAACTGTGATGGCAATGTAACCAGAAA
GAGACCATCTAGGAGTTTCCATATTGAAACCAAAGTCATGGCCTCCTTTATCTTTCTATAATCATTCTAAAACAGTGTTGTCCAATGGAGATACAATGTA
AGCCACAAATGTGAGCCAGGTATGTAATTTTAATTTTTTTCTTTTTCTTTTTTTTTTTTCAGAGACAGGATCTCGCTCTATCACCCAGGCTGGAGTACAG
TGGCACAAATMRTAGCTCACTGTAACCTCAAGCTTAGGCTCAAGCAATCCTCCTGTCTTGGCCTCCTAAAGTGCTGGGACTACGGGTGTGAGCCACCATA
CCTAGCCTACTTTTAAATTTTCTAGAAGTCACATTTTAAAAAGACTTTTAAAAGCAGGTGAAATTAATTTTAATAATACATTGTATTTAACCCAATATAC
CCAAAAATATTGCCATTTAACACATAATATAAAAATTGACATATTTTACATTCTTTTTTCATAGTAAGTCTTAAAAATCCAACGTGCATTTTCATATGTA
AAGCACAACAATTCAGATAAGCCCCATTTCAAATGTCTAATAACCACATGTGGCTAGTGGCTACCATACTGGACAGCATTAAAAGAATGATCAACTAAAC
CTACAGATCTCCATATGCAGCTGCTGGTTTTGGGACCATCTCCTTGACCGGCTTGCCATTGATTTTTGACCGAATTCTGAACTATATATACTACAGTTTG
ACATTACTGGCAACTCAATAAGGCAATGTCTTCATTTTTTATGTTACATTTGTACACCACTTAGTTTTCACATACGATTTCACACCTGATCCTCATTACA
AACACGTGAATACGCAAAAGATTTCACACCTGATCCTCATTACAAACACGTGAATACGCATGTTATATCAGTTTTACAAATGAGGAAAGAACGTTCAGAG
AAAAAAAGAGACAACCATTGAGTGTTAGAACTGAGAAAAAAAAAGTAAGTCTCCTGACCTCTGGTCAAATCTATTTACGCCCCAATAATACCACCTCCTT
AATCAAAGTTGCACTTCTCTGTGCGACTGGTCTTTATTTCCTCCAGTGATTGTAAACTCCATGAAGAAAAGGACTGTTTTTCCTGACCACTGTATTCCCA
GTGCCCAGTAAGGTGTTTTACAAGGAGGCAATATTTATTGAATGAATTAATGACGTTTCTGCTTTTCTCATTTTTAGTCGGTTAAATGTAATTTACTTTT
TTAAAGCAACTGATGTGAAGAGCCAAAGTACGCCACCAAATTGGTAGGTTTTTAAAAGTTGAACTTTACTGCCAACATACTTCAAAAGAGAACGAGGGGG
AAAGGCTCGGAGCCAAGGCCTGAGTTCTAGTCCTGACCCTGCCATGAACTGGCTGTGAGCCCTCACGTAAATTTTTTTAACTTCTCTGGGCCAGAGTTCT
TATCTGTCAAAAGGGAAGAGTAGGGCTATAATCTTCACGATTCCGTGCACAGGTAGGGTTTTTGACATTAACTTGATGTGAGCCGGCTTCCTAACTCCTC
ACACCCTTCCTCCAGTCCCCTCTGCAACGGCCGACTTGGTGAGAGAGGTAACCACCGGGCCCTCTGGGTTCCCTATCCGCTTCCTAGGGGGGCCGACTCG
ACACCTAGGTGCAAGGTGGATCCCACGGGCCAGAACCGCCATCTTTCCCCATTGGCCTGACCCCAACCGCCACCCGCGGGCACTGGATGACGCGGRCCTT
ACCTCTCCTCACAGTCTTTGCATTTCACCTGCAACGGGACTAGTTGGTGGAACAGCACTTGGCTCATGTTGGCTCGCTGCCTCGGCTGGTGTGCAGAAAA
GCCCAACAGGCCCGGCCCTCGGGATTAGCCTGAGASGTCCGGGTCCTGATAAAGTTTGAGTTTGGCGCTCGGCTTCTGCGGAGGAGGCGGGGAGGGAGAA
ACGAGGGGAAGGCGTAAGAGACTTGGCCCTCGCCAGCCACCATCGGATTCTTCCGGTTCTGCGGAGGATAAAGGGAAGACGGTTGTGGTAGTTCCGGGTA
TTAACCTGTGTGGCGCGGGGGCTGAGGCAGCCATGTTTGTTAAGGGAAGGAGACCCGAAGGAAGCTTCTAACTTTTCTTCTGGTTGCCGGATGCTGGACA
CCGGAAGCGAGCCCTAGAATTATGGCGACCTCCGCGACGTCGCCGCACGCGCCTGGTTTTCCAGCTGAGGGTAGATGCGGTTACTATGTGGAAAAGAAGA
AACGGTTCTGCAGGATGGTGGTGGCCGCAGGGAAAAGATTTTGTGGTGAACACGCTGGAGCCRYGGAGGTGTGGTATCGCCCTACTCTCTCAAGAGTCGG
AAATAAGTATCCTGGTCCTGTCGGTGCTGGAACCCGGCCCCTCCCCTCTTTGACAGCTTTCTGCTTGTGTCCCCTGGATTCTCCAGCTTTCACTTTAATA
AACCCAGTTTTGCCCTCCTTGCGGAGCGATTATGAGTTCTAGTGATGAGAAATTTTTTATTTTTCTAAGTAAAGCGCCAGCAGTGACCCATTTATTTTGA
TCTATTTATCTCGATCTTAACTCATGGTAATGCTAGGTTTTAATTTTTACCCCAAGCTACCGCTCCGTCTTCCTGCTGGAAAGTGGTAGTTTAGAAAAAG
TAGTGATTGAAGTCCCAAAGGTTTCACTAGTTGTGTTCTAATTGTTATTTCATGAAAGAGAAGCACTTCTCGTGAATGCGGTTGGAAGAAACTTTCTTTT
AAAAATTTAGACTTGAGGCCCGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACTTGAGGTCAGGAGCTCGAGA
CCAGCCTGGCCAACATGATGAAACCCTCTCTCTACTAAAAATAAGAAAATCAGCCGTGGCGCGAGCTACTAAAATTAAGAAAATCGTGGTGGTGCGAGCC
TGTAACCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTGGCAATAATCCAAGATCACACCACTGCATTCCAGCCTG
GGTGACAGCCAGACTGAATCTCAAAAAAGAAAAAAAAATTTTTTTCGACTTACAGTTTTTAAGAATGCAACTTTGCTGGAATGGGAAGGAAAGATTTTTA
AATATATACGAATTGACCTTTTACAATTGAGAACAAAGCATACAATTTTGTTTGATAATTATGCATATAAATGTACTATCAAACACTTTATATTTGTATA
TATGTATATTACTTTAGGATATATATGAGATGGGAAAATAAAAACCAGAGGAGCAAAATGCTCATAGGAAGAGAGCATGTCCTTATAGTTCCACAGAACT
ATAAAGAATAAACCAAAGCGATCAGCATCAGATTTCATGCTTCTGAATGTTCAGTATTATTTGCATTATTTTATTTCTTAAGGAATTTATTCTTCTAGAC
AATATCCAGTGCAGATCAGTCCCCTGACCCCCTTCATCTGCCACTCTCCATCATAGTTGTAGTCTACTTCCTATTTTGTTTTGACTGGCATTTACCAAAA
GTGAAGCATACTGAAACAAGGACATTCTTGTTTTGGAATATGGGAGACGTGATTTGTTGTGGGAACTCTGAATTATGCCCATAGTCTATTGACTGGTTTT
GAGGGGACTGGCAAACATCCCTTGTTGAAGAATGAGAGTTATGATAGGAGAAGGATTTAGACTCCACCTTATCCAGATATATGGAAGGTGAAAACAAATA
GTGATGATAGTAGAATATGAATAAATCCTTACAAGCTGATTAGTATTCCTATAGAGGAACGACATATTGTCATTAGACACTTGAAGAGAGACCGCAAAAC
ATCAAGTGGAAACACTTTTATTGACTACTATCTCGTTTTAAATTGTGGCTATCCTCCTGAATCTGTAATTTATGATGTAACTGGATGTTGTGTTTCCATC
TTTTTTTCTAAGTGTCATATATAGCTGTGATGACACCACTCATTTTTACCCAGTGGTTCTCGACTGGGACTGATTTTGCCTCCAGTGAACACTTGGCAAA
ATGAAGACATTTTGGTTGTCAAACTGAGGAGTATCACTGACATCTAATGGATAGAGACCAGAAATGCTGCTAAACCTCCTACAAATCACAGGACAGCCCC
CTGCACTCACCCCCTCAAAAGAATTACCTGCCCAAAACGTCAATAGTGCCAAGATTGAGAATTCCTGTTTCTAAATTCAACTAATAAATTTTAAATGTGC
TTTTTTTTTCCTATGCTACAGTTAGGCTCTGGGGGTTAGAATAGTCTTTTACATGGAGGTTAGGATTTAAAGTCAGCAATAAGGAAGAAATTATATACAG
TATTTTCTTTTTCTTCTATTGAATATATAGTATTTTCAAAAAAAAAATTTCTTAGCTTTCCCATGAAATTCAGTGTGAATAGCTTCATGGACATGCTGAG
AGGCACATTCGAACAGAAATAAATTTTTAAAAGAATAATAATAGCAGACACTTAGTCACCACTTACTCTATGTACAGCACTGGGCTAGGCAGTTTTGTTT
TGTTAACTATTAGCTCACTTAATGTGTTCAAACCTTAGAAGGTAAGACATATTTTTGTTCTCATCTTTCAGATGAGGCAGTAAGCCTACCTAACTAAGGT
CATAGGGATCGTAGCTGGTAGGTAGAGCTGGGTATCATACCTAGGCAGTCTGGCTGGCCTGTGTTCTTAACTGTTATATGACCCCTATTTATACAGATTC
ATGTGGAATATTGGGTAGAATTGCCAACATTATCAATTTTCCTTTCTTTTTTCCCAGTTCATATAGTCATGTGCCACATAATGACATTTCAGTCAACAAC
AGACCGCATATATGATGGTGGTCCCATAAGGTTATAATACTGTATTTTTACTGTACCTTTTCTATGTTTAGATATGTTTAGATACACAAATACTTACATT
GTGTTACAATTGCCTACAGTATTTAGTATGGTAACATGCTGTACAGGTTTACAGCCTAGTAGCAATAGGCTATACTATATAGGCTAGATGTACAGTAGGC
TATACTATCTAGGTTTGTGTTACTATACTGTATGATGTTCTCCCAATGACAAAATCACCTAAAGATATATTTCTCAGAATGTATTCCCAGTCATTAAGTG
ATGTAACTTAGGAATGAGTAGGATGTAACTGATAGTAAAAAGTTGCAAAGCCAGTAAAATATGGCACATCCAAATGGTTAAAATGCCATGTTCCATTGTT
TCTAAGAAACTTTATTTTTACATTTTAACATTCTAAAATCAGGATACATCTTAAAATCCATATGTCAATGGGCAGCATTTTCCAAAAAATGATTAGTATG
TGAGGCAATACATGTTAATTAGCTTGATTTAGCCATTCCACAATGTATACATATTTGAAAACATTATGTTGTATTAAAACCATACATAAATAATAGTGTA
TATTATTTTTATTGCCATAAAAATCACAATTACTTTTGTACAAACCTAATATGTGATAAATATATACAACTATTTGTCAATTAACATGAAATAGGCAGCA
TTTTTTTCTTTCTTGGTTGTGCATAAAATAGTCATACATATAATAGTTGATGCTATCTTAGATTTCAGACACCATATGTAGGCCTTCTCTATACCCTGTT
TGAAGCTATAGACCCTTGTTTGTCCAAAGCAGTATTTGTTCATATGTATTTAAGCCAGTACACTGGAGAGTTTTTGTTAAACCCTTGGGACCTGATTTTG
CCAACTTTTCATTATGTCCTTGTAAGGTTTCCTTACCTTGTTTTGAGATTACAGAGACACTGAAGTTATATCTGGTATCTGTAAGCAATAAACTTGATAT
TTTATTTAAATAAATGTATCTCTTAATTTATTAGGAAGAAGATGCTCGGAAAAGAATCCTGTGTCCTTTAGATCCAAAACAGTAAGTGTGGATCAGATAC
GGGTTTTTTTTTGTGCTGGAAACAGTAATTGGCACAAGTCTCATTTGAAATAATTTTCTCTTTAAATTTAGCACAGTATATGAAGATCAACTAGCAAAGC
ATTTGAAAAAATGTAACTCAAGAGAGAAACCAAAACCTGTAAGTGTTTGATCAGTAAAATTGAATGGTGAAATGTGRTATGTAATGCCTTGGTAGATGCT
GCACATGGAATGTACTTGTTTCATAGCTGAGGAACCCAAGCTCAGGAAATATAATTTTTTTTTAAAGAGATAGGGTCTCACTCTGTCACTCAGGCTGGAG
TGCAGTGGCGTGATCGTAGCTCACTGCAGCCTTGAACTCCTGGACTCAAGCAATCCTCTCACCTCAGCCTCATGACTAGCTGGGACTATAGGCAAACGAC
ACCACACCTGGCTTATTTTTTTATTTTTTTATAGAGACGGGGTTCTCGCTGTGTTGCCCAGGCTGGTCTCGAACTGCTGGTGTCAAGCAGTACTCCTGCC
TCAGCCTCCCAAAGTGCTAGGATTATAGGCGTGAGCCACCAAATCCAGCCAGGAAATACAAATATTTTTAAATTGGGTAGTAGGCAAACCTGCCTGACTT
TTGTTCCATAAGTAGACATTTATTTATTACACTGTACAATAAGGGCTGCCATGCGATCCAGGAGGTGACACCATTTCTGTCTTCCAAGGGTGCTTGGTAT
ACAAGCTCCCTTGAAAAGGTAGTCTGGGAAAAAAGATAATCAGTGCCTTTGCTTCTAAGACTCATAGAAAATCGAGACTTATGGGAGGATGTCTTGCAAT
AGCACCGCTCAGTTACTTTGACAACAAAATACTCCCATTCATTTCCAAATGCCTCCCAGTTGAGAACCACTGGGCCAGATGGCATAAGTTTAGAAAGTAT
TTTTACATTAAGATGGTGTAGAAGAAAAATGATGACCCTCACCACCACCACCTACTTAGGACTTAGCCCCTTTAATAGAAAGAGAGAACATTGGCTTTGT
TTGCAAATATCTTCCTTACCTAAGTTCCAGGTTTCAGTTAAAGCAAGCATGTGCAATATGTGTTCAGAGAAAAGTTTGAGAGGATAGATAAATTTATTAA
AAATGGAAACCCTTGGGTGAGTTTCACTGCATACCAACACACAGTGGCAAGGAAATGGAGAAAAGCGGTGGAATGATGAGACGAAGAAAGAAATGCAAAG
CAGTATTTATCTGGTTCACTATGTAGAGTAGGACACTTGGAACCCAGGTAAAGGCATATCACTATTCTGCTTTACTTTGGGAAACTGGTGAACAATTTTT
TTAAATTTTGTATACTAAATAAAAGTTAGTTGGTTATAAATTTCTCCAGTATAAATAGTTTTCACATTTAAAAATCTAATCTACAACRTAAGTTACCTGG
AGCACTCTTGGCAACCATTTTGAACTAAGAGTACATCAAATTCTMATACTTAACAGCTAGTTTTCTATTATAGTTTTTTTCCGTTATCCAGTAAAACATT
GTAATTCCTGCAGTAAAACATTGTAATTCCTGCAGTAAAACATTGTAATTCCTGCAGTCTTCACTCATTCCACTCAMTCACCAGTTTCCATTGCAAGCAA
CACACATTCTGTCCATATAGGTAAAGCTAGCAACACACAATCAGGATGTTACCTTTCTGCCTCCATGTAACAAAAGTCCATTTACTACACATAACATAAT
GTCCCCAAGAGTTATTTTCACTTTTGAAACAGGATTTGTAGAAACAGTACTTTTTCATTCATCTAGATCCACACCGTTCAGTATGGCAGCCACTAGCCAC
ATATGACTATTTAAATTTGAATTAAAACTAAATAAAATTAAAAATCTAGTTTCTCAGTCACACTAGTCATATTTCAGTGGCTGCCATATTGGCCAGAGCA
GATGTAGAACATTTCCATCATTGCAGAAAGTTCTGTTGGACAATGGTAATGCAGATCCTTACCTAGAATCTGTATTTCTGAAGCCAGACTAGAAAGATTT
CATTATGTGTGTTTGTTTGTTTCTTTGTTTATTTTAGAGACAGGGTCTCCCTATATTGCCCAGGCTGGTCTCAAATTCCTGGGTTCAAGGGATCCTTCTG
CCTTGGCCTCCCAAAGTGCTAGGATTACAGGCCTGAGCCACTGTGCCTGGCTTCATTACGTTAATTTAAATAGTGTGACAGGACATTTATATTTTCAAGT
TTTAATTAATAKTTTAAAATAGAAGAAATCAGACTTATTGTTATAATATCTTTGTCTTATCTGTTTTTGGTCATGCTGCATGTCTGATAAGCAGCATTGT
GTAGTTAGTACTTTGCTGTTTTTACTTTAGCACTATAAGACAAAATTATTACAGTTCTCAGTGTATGCTGTCAACAGTCTAGGCTGTAGAACTTTTAATA
AGTGTTACAAATGAATTTCTTTAAACTGTAAGTGCTTATTCAGATAATCACCTCACTAGAATATAAGATCCACGAACACATATTTTTGTCACTTTTGTTA
TCTACTGTGGTGGAGTGCCCAATACCTAAAGCAAACTAGGGCCTAGAGTAAATATTCAATAGTGATTTCATGAAGAAATGAATGGAGGAAGGGAGGATGG
CAGGTACAGAGCAGGGGATAAAGGGAAGAATCAGTATTTTAGTTTAATTTTTGTGAGCTACACATTATTAACAGTTCTTTTATGGTTTTGTTTTTGTTAA
GGATTTCTATATTCAAGATATTAATGCAGGCTTAAGAGATGAAACAGAAATACCTGAACAATTAGTAAGTACATTGACTTAATATTTAATTTTAAAAKAT
ATTTATAAGCTCTCTTCATGATGTGAATAAGGCATGTTCTAATTTTTGTCTCAAGTCTGTTTTTAATTTAGAATGCATTTTCCTGTAGACTTAATATTGT
TAGTGATGGTTAGTTCCTAGACCCAGACCAGCTCATGCCCCATAACAAAAGAAGCTACAATATGGCCCTGAATCCCCTTTGATTCTTGAACCCTTCTGAG
CCTAGACTTGTTCTTGACCTTGAGGAAGTTAGGAAAATTAAAGTAGCACAGCAAAGACGGAGTAGAAATTTAGCAGTTGGACAATTCTGATGGCAGCTTA
GGGAAAAGGCTTGATAGAGAGAAGAGCCTAAGCTGTCATGGGATTTGCCCAGTTGGTAAACCTCTACTCAGTCTCTGTTATGCTACTTTAAAGCAATTTT
TGGCTACATTATTTAGTTTTATTTTTGTATATAGGTTCCAATTTCTTCTCTATCTGAAGAGCAGTTGGAAAAGTTAATTAAGAAATTGAGAAAAGCAAGT
GAAGGTAAGACTGCCTAAAGTTGCAAGTTCAATTATTTTAGAGTAATTAGGTGGTATATGAGTTGATACCATTCTGGTTTAAAATATGTTACTACTATTG
TTCAGAATCCTACAATTACATGTTTGGCTGCTTAAGCTGTTGTGCTTATATTTGGCACAGGCTTGAATTCTACACTTAAAGATCATATTATGTCCCATCC
AGCATTACACGATGCACTTAATGACCCTAAAAATGGCGATTCTGCAACCAAGCACCTGAAACAGCAGGTATGTTTAGGCTATAGTAACTACTAAACATGG
CCTTTGTTCATTTGTTAAAACTGTTTTAAATGTAATTATTAATAAGATTTTATTTTGTTTACCTTTGAGGGTACCAAATATTTCCATTTCAAAAATATAT
AGAAACATATACAAAAAATTGAGGGCATGGATGTGATTCTGAGTACCGTATATTAAATATTTAAAGGCAAGAGAGAAAAATTTTAAGTCAAATACAAATT
ATCAATGTAAGCATACTGCCTTATGCAGAAATTACCTTGCTGTTTTCCCATTTGAACCAAATGTGTTTACTCTAGTTTATAAAATAATCTTGTGAAGTTT
GCAGGCTTCTATTTTAGGTAACATTGAAAATTTAAAGTTACTTGGTCCAAGAAGATGCTTTGTTGAGTTTGGAGCGGGAAAGGGAAAATTATCTCATTGG
GTTGATATTGCCTTAAAAGATGCTGAAAAAGTTCACTTCATCCTAGTGGAAAAGGTGACCACAAGATTCAAGGTAAGTGAAACCATTGCTCTGTGTTAGT
AACCAAACTTGTTTTCATTTTTTGTATTCAGGAAAAAAGTGATAGAAACATTTCTTAAAAGAAAGGAAAGGAATTTTCTTTATCTGTTTGTTGTAGCTTT
TTATTAGTTCTAATTGTATTGATAACTCAAACTGAAGGTGAATTTTTTAATCTAAGTTTTGATAGTCCATTGATCTGAATTCTTAAAATTATTTGCAGAG
ACAGGAAAATATATAGAAAGAGCCAAGYTCAAGCTAGGAGTTAAAAGTCTTGGGCTCTACTCCTATCTTTGCCACTTGCCCTTCATTCATTAAACAATTT
TTGAGCATACTGCCAGGCCCCACCCAGGCTGAAGTACAGTGGCAGGATCGTGGCTCACTGCAGCCTTGACCTCCTGGGCTCATATAATCCTCCCATTTCA
GCCTCATGAGTAGCTGGGACTATAGTCCCACGCCACCATGCCCAGGTAATTTTTTAAAATTTTTTGTGGAGACAGGGTCTCACTTTGTCGCCCAGGCTGG
TGTCRAACTCCTGAGCTTAAGCCATCCTCCCACCTTACCCTTCCAAAGTGCTGGAATTACAAGTGTGAGCCACTGTGCCCAGCCACTTTATTACTTATAT
TTAGAAAAGAGACCCAGGCAAATACATAAATGATTGTAGTGAAGTGTTAAAATACGAGAAAGGTCTGCACAGAGTACAGCATGGTTTCAAAGAAGGGAGT
GACAAGTTCTATTGCAGGGAAGAGATGGAGAATGACTATGTAGAAAAGGTGATGCTTGAACTAAATCTTGAAAGGTGAATTGGTGTTTGTTAGAGAGTTT
GAGAAGCATTCTAGGAAGCAAGAACAGTGTAACCAAATACCTGAAATAACAGGAAAATATGGAAACATTCCTGTATAATGGGAGTACATGGTGCAAAGTA
GAGTTCAGCAATGATGGGACTGGAGAGGATGGCTAGCCTATAGAAGGTCTCATATTTTATGCTAAGGAAGGAGTTTGACTATGCTGCTGTCTGGTGGGGA
TACAATAGAAAAAAGATTTAGTTCTTGGCTTTGAGGAAGCTTACGTCTAGTGGAGTAGACATATAAATATTTGTGTTCAGTATGCTAAGTGTGTTTTGAT
AGTGGTAAGTACCCAATCCTATGGGAGCATGAAGATAGAGCACCAACCTCAGTCTAGTGTGGGTCATAGAAGTTTTTGCAGAAGTGACAGTTGAGATGAG
ATTGAAATAATATGTAAGAGTTGGTAAAGTAGAAGGAAATTTTTCAAAGTTTATCCTAGCAGCACCATTAAAACTATATTAGAAGAGTCTGATACTTAGA
GAGATTAATAATAAAGATAATTTTTGTCCAACAATCCAAGTAAGAAAGAGGCCAGAGCTAAAGCTATTGCATTGGGATGGAGAGGAGGGCAAGAGTATGA
GAAATATTAAGATGTTGGAAGCCACAAGAGTTGGTGATTTGTTAGTAATTGAATATGAGAGATAAGGAGTAATTCTCGGTAGGATTTTTATGGCTTAGGT
GACTAAGTGGTGTTCTTTCCTGAGATAAGGAATGAAGGAGGCACAAGAGGAAGGATGGTTTTGGAGACAGAAATAATGAGTTCAGTTCTGAATGTGTCCA
GTTTGCTGGTGAAGTAGAGCTTTCTAGTTCACAATTGAGTATGTGTCTGATGCCCATTGGAGAGGCCTGAGCCACAAATGTAGATCAGCCGGTCGTGGGC
ACATAGGTATAGATTAGAATGGTTGTGATCTTTCAGGAGAGCAAGAAGAGGAGCGAACCAAAAATAGTACACCAGGAGTGACAAAGATAAAGGAGCTAGT
AGACAATCTTAGATAAATCACTTAAGATCTGTGAACTTCAGTTCCTTTGTCAGTGAATTGGGAATTTTTAGGGTTAAAGGAAATAATGTCTATGTAATAA
TTGATAAACATTTTCAAATCTTTTTTAAAAAGTGTGATATTTTGAAGTTCTCATCAAAGAATGTACAATCTTAATTTTTAAATATGTTCTGTTGCTCTGA
ATTTTGAAAACCAATAAAAATCTTTTTATTTTCATAAAGCTTTTTTAAATGTAAGAAGTGATTATTACAATAATGTTCTGTTTGTGCAGGTGGATGGAAA
ACACAGAAAGAAAAATTCAGTGTTTGAAAGACTTCAAATTGATATTCAACACTTGTGTTTGAGTAAGTTGTGTAACTTTCCATTGGTCTACAAATAAATC
ATAACTGTTTTAAACTCTGAGGTTGCTTAGAAATCCAATCATGCAGAACTGTGCTTCAGGGAAAACAGTCAAATCAATTCATTGTTAATATAGAATGTTT
TATATAATGTTTTTAAATAGATGTAAATTGAATTAAGGTTGAGAATTTTAAAAATTTTCAGTATCAAGTGGAAATGAAGTGTTATATTAGGGAAGAGTTT
AAAAGTTTTATAATATGTACTTCTGTTGTTTCTTTGTCCTGTTTAAATTAATTTTGAGTCTGTTCAAACTATAAACTAGCCTTCTGCCTGCAGTTAACGT
GACTTTACCTAAACCATGAAAGAAAATGAGATATTTCTCTGCCTAGCTAATGTGTAAAAGATACTTCCTAGAATTTTAAATTGTACAAAAGAAGTCATCA
CTGTGGGATTCATATTCCATACACAAAACACACACAGACACATACACACACAAACTCCTCAATCAACCTCTGTAGTGCCCTTTTTATACCTTTTCTATTT
TTCAGATTATCCAAAGAAAATAATGCAAACATATCTTTGCAACCTCTTCCATTCACCAATTTTAATCCAGCCATGAAAAGCAACCCAGCATTTGTATAGA
AATCAATGTATTTAAAATTATTTAGCTGAATATATTAACTTTCTGATGTTATGAACCCTAAACAAGTTCTTATGTTATATGTTGGGTTCCATAAAGTGAT
AATTTTTGTTTGAGTCTCTTTCAGGCTAAAATTCAGAGACTCTAATTAGTTCYTTCTTTTGGAAGGCCACATTAATATGTACTTTATTTCACTAGACAGT
TAATTCTCATTTCCATTTCAGACAAGATTCCTGTGYTAAGAGAAGAAAAACTACCTGTGGTAGGAATTGGAAAGCATCTGTGTGGTATGGCAACAGGTAC
GTAAACATACTGATAATGTTTACATTAATGCATTAAGTTKTGGCCTAACCTGGCCCCAACCATTTCAGTGGTCTCTTTTGAATAGATATCTTATGTTTAC
AACTCAATAATCTTTATAGAGCACTGGCCCTGTGCTTTATTAGATGCATAGCTTTCCTATTTATCTGCTCATATTGGCCATTTTGCAGGATGAATTAAGA
GTTTTGTATGTAAATACTGCATCACATTAGACCTTAAAGTTCTTTGGGTTAAATTTCAACCAGAAAAGGAAAATAAGACCATTTATGGAAACTGTATGAT
TCCACCTAGAAGCTACTGATTTTTTAGAGTAGTTGCTTAGAAAGAACTCAGAAACCTCTTCTACTAAAAGACTATTGTGTTTCAGGATTCTGGGGAAAAA
GAAAAAAATAAATGTTAGACAAAAAAAAAAAATCTAAGATGTCTTGTCTTAGCACTTTGATCCATCAGATCTAGCATGGTAAAGTGGAAACAGCATGTGC
TTTAGAATCAGATAGTCTAGCCTTCAGCTTTGTTGTGTAACCTTGTCAAATTACTTAACCTTTCTGAGCTTTGGTTACCTCATCTATAAAACAGAGATAC
TAATATATTAATAATTTACCGGGTTGCATGTAAAGTGTCTGGCACATAATAGTGCTCAATAAATGTTAATTATTGTTACATCATCTTCCTAACTTTTGCT
AGTTTCATCATCTACCCATATGGATTACTTGGAGCATCCATAGATATTATTCATATTGGCTGGAAATGGCATTGAGTACTATATATTTGTGTTGGCCTTC
ATAGTTTTTAAGACTATAGTCATGTACAACATAACGATGATTTGGTCAACAATGGACTCATATATGACAGTGGTCCTATAAAATTATACCATATTTTTAC
TGTACCTTTTTTGTATTTAGATACACAAATACCATTGTGTTACAGTTGCCTACAGTATTCAGTAACATGCTGTACAGGTTTGTAGCTTAGGAGCAATAGG
CTGTGCCATACACCCTAGGTGTGTAGTAGGCTACACTACACCATCTAGGTTTGTGTAGTACACTCTGATGTTCCTACAATGATGAAATCGCCTAATGCAT
TTCCCAAAACATACACCAATAGTTAAGCAATGCATGACTGTACTTTTGCATACCTTATCTCATTTAAGCCTCATAAAAGTCTTCTAAAGTAAACCAGTTC
CATCCCGGGGGTAGGAGGGAGTACACTCTTTTGACCTACAGTGGCCATTTCTCATGTTCCACATAATTTTTTCCCTTGATTCACTGTATCTGAATCCTCC
TTTTGTCTCTGCTGCAGTTGCTTACCCTTTTTGAAATTCCATTTTCTTCTCTTTTGCGATACTCTTATTTCCTGGTTCTTCCCCTACATCTATGCCATTC
TTCTGTTTATTTCACAGTCTCCTTCCACTTCTGTCCTTAAAATACTAATATTCAGGCCAGGCACAGTGGCTTATGCCTGGAAACCCAACACTGGAGGCTG
AGGTGAGATGATTGCTTGAGGCTAGGAGTTCAGGATTAGCTTGGGCACATAGGAAGACCCCATCTCTACAGAAATTTGTTGGGCACGATAGCTTGTGCAT
GTAGTCCCAGCTATTCAGGAGGCTGAGGTGGGAGGATCACTTGAGCCTAAGAGTCTGAGTCTGCAGTCAACTGGGATAGCACCACTGCACTGCAGCCTGG
GTGACAGAGCAAGACCCTATCTCAATCGGTCAATCAATCTCAGACCCATCTGCTACACAACTAATGTGTCTTTCCCTTTAAACTCTTCGGTACTTCCTGA
TATAGTCCAAACTCTTTGACATAACGTTTTAGTCTCAATCTGGCTTCAGCCTTCCTCTCTTTACATTTCCTGTCTCCTACTTTGCTGTTCAGCAACATCA
AACCCTGTGTGCTTTTCCATAGACTGTACTATTTCTACTATATCTGGAATTTCACCCCCATTCACCTACTCACCCAAACAAAACAACTGGTCAATTTTTA
CTCATCCTTCACCTCAGTTGTCACCACTCTCAGGGAGCTCCCTTAAATAAGATATGCCTCCTTGGTGTTATCATAATACCCTCTGCATATTTTTACCTTG
TGGTATTTTAATTATCTGTTTATATATCTAATTCTTCCACCATGCTCTGAATTTTTTGAGTATATGGTATATACTTAGTACGATGCTTGCTATATAACAG
GAACACAGTGAATATTTGAATGAATGARTAATCTTGGCTACCAATTTGCTGTGTTTCCTTGTCCCTTTCTGCATATGTGGCTTTGTCTTTTAAGTTCTTT
ATAAAAGATGAATTGAGATAAATTGCTAAAGCTCCTTCTAATTCTGAAATAACTTAATTCTTTTTTTTTTTTCTTCGAGACGGAGTCTCGCTCTGTCGCC
CAGACTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAWCCTCCGCCTCCCGGCTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAATTGCTGGGACTACA
GACTCGTGCCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTCACCGTGTTAGCCAGGAAGGTCTCCATCTCCTGACCTCGTGATCTG
CCCACCTCAGCCGGCGTGAGCTACTGCGCCTGGCCTGAAATAACTTAATTCTTTTAATAATTTATCTGGTTATTCACATTTCTGAAAATCACTTACTTAA
GTCAAATATGAATAAAACAATGACTAAATGTATTTTGTCAGAAAATAATAGTTTATGAAATAATAGATTAGCTATCACTTTCTGCAAATAATGGGTTTCT
AATGTTTGTTGACTTAAATTCATATATTGAATTAAATTTACTAGTGAAATATCAGATCATTTAATAGTCATTTGTGATATCTTAGGGTAATAAAATTTTA
AAATATGTATATGTTTTTGATTGAACAGACACAACATGACAATCTAATGATTAAGAAGATATGGGTCCTACRTTTTGGGTCTTTCCAGTATTGTCAACAG
TGTAGGAGTTTTCGATGGGAAATAGCCATAGTCATCAAAAATCCATTTATTTAGTTTTAAAATATACTAAAATATTTTCATTGTAATGTGGAGTACATCT
GCCTCTTAAGTTTGTGTATATTAATAATTGTATCCTCAGTGCTTTGCACATGAAAGGCATTCAGTAAATGTTTGTTAAATAAATGAATAAATACAGTAAG
GCTACTCAGTGAGGCCTGCTTTCCAGATTCTGTTCTGACGCCCTCTTTTCAACTCTTCAGTTCATCACTATTTGCTATGAGCCTCTTCAAGACAAGCATC
TTGACCTAGCATCAACCTAAACAGATTTGTCTGCCCTTCCTCCCTCCCTTCCTTCCTTCCTTCATTTTTCCTTTCTTAAACTAGAATGTAAGTGTAGGTG
AATAAAGTTTTCCCATACAAGTCATTTCCTCAGCTAAGGTAGGAAAAGTGAGAGACAATTCAGGTAGTTGGGTAAAAGTTCTTCAAATTGTAGATCTTAA
GCTTCAGATAGCTTTATTGGGAAGTAGGCTTTATGCAGAATAAATCATTAAAGAAATTGAGAAGATAGAAGAGCAAATTTGAATGAAGTTGATAATTCAT
GATAGTATTATTACAAATATAAAGCTGAGTAGGTTTTTGCTGTTTTTATTGTTGAGTTTTTAAAAACAGTACTGCTTAATAAATGTAAAAAGTATTTATT
TTTAAAGATGATGTGGTTTGGGGGGGCCACATAATTGTGTTTGCAGATCTTGCATTACGATGTTTGGTTGAAACCTATGCTGCCAGTTTTGAGGAAAGGA
ATGAAGAACCTTTAGCCAAACGCATAAAGAATGATAAAACAGAAAAAGAAATTTACACTTTGGCCAAGGAAGGAAATGAAAAAAATGTCCCAGAGAAGTG
GAACCCTGTGGCTGGCATTGTTATTGCACTCTGTTGTCACCACAGGTGTGATTGGAGACATTATGTGGGCAAAGAATATTTCAGGGCTCTAGGCCTTGGA
GCAGTGGAATTCCATTATTTCCAGCGAATGAGTAGTTGGGCAACTTGTGGGATGCGGAAAACATCTTTGGAAACCTCAAATAGTACCACAAAGAGGCAAG
ATAATCAGAATGATGATAGTGAAGAGCATGATGATGGAGGATACAGAATCACAGATGATGGCGCTGATTGTTTGCCTGGGTAAGAGACTACTTTTGTAAT
GCATGATACTAAAGGAGAAATATTATATTGTACTGTACTTTAGATGACTATTATCAACAATTCATGAAAATGTATTTTATAATCTAATTTTAGAATAAGC
TAAAATATACACATCTTTTATTGTGGTCATAAATATAATGTGTCTTGGAAGCATGGGACAAAGTACTTAGTACATTATGGGTTAGTTAACAGTCTCTCAA
TAAATAGTGACAAAAATAATTTTTTATAAACTTTTGCAAAATTTTAACAATGTTTTRTGTGTGTTTATTCAATTTAGGCTTCTTAGTGTTGAAGAAAAGA
AGAAAATAGGGCATCTTTGTAAATTGCTGATTGACCAAGGTCGAATCCAGTATTTGCAGCAGAAGGGATTCAGTCCTGCTTTGCAGTACTATACAGACCC
TCTGGTGTCTTTGGAAAATGTTTTGTTAACTGCTTTACCAAATCATTCTTCATCACCAGAAACAACTGCTTAATGGAAAAGAAATTTGAGCATCATCTGT
CTTCCACCAAAAAAAWTTTTTTAATTATATTTTTATATCAAAAAAATATATACTTTAAATAGCAAATAATATGAACTTTAAAAAATGCTGTGGCCTCATT
AAACTTTGGTAATAGCTTTTCTTTTTACTTCAGAAATCCAAACATTAGAGAATTCACCAAAGTAATCCTCTTTAGAAGGGCATCTTGAATTATATTATCC
ATCCGTATTTATGGAGATTGGTAAAGTAGTTGAACCGTTGACTTGGTGATCTGAAACATACATAACATGTCAACACATAATTAGCGTATTTCTGTTTGTA
TTAATTTTGGAAATTTATCTTCCTTTGATTTTATTTAATATTTTTTATTTCTTAAGTTCAAGAGGTAGTGATTGATTGTAACAAGGGCCAATCTGAGAAT
TTGACTTATATGTGGACATTTTTCCCTACAGATCTGGAAAGCACAATTGTGATTTTCTCAAATGCAGACAATTCAGAGATATTCACAATTAATAAACACA
ATTAATTAATGAAGTCACCTTCAAATTTCCAGAGCCATACATGTATATATTGTCAGAATCTGTCCATGACAAACACAAAACTGAAGAGCTGTTTTCAAAG
AAAAAAGATTATTTCACTTAATTATTTTGTTGGATAATTGTCTAGTTAGAACTTCCAAAAAGATACTTACAAACATAATTCACAAATTTGAAATAATTTC
TGAAGTTGATTAGCTATCTCATATCTTTTATCAGGTCATTTTTTATATATGTAGGCACAAACAATAAGTATGTTCTCTTCTGTTTGGGAAAATAATTTGG
AATAAAATAGAAATTAGATAATGAAACCAAAAACCTTCTCAAATTTAGGCCTTATTTAACTCATGACTGGTTTCTATGCACAAGAAAATACTAAACCAAA
TATATGGTAGGACTGTTATTCTCTTCTGCATCTTATCCCTATTTTGTTTCTGCCTTTATTTGTAAAAATTGTCTTAATTGATGGTACATTTGCCAAGACA
AAGGTTCAGAATTACTAATTTTAGATATTATGATATTCTGAAATAACTATTTTTATCCTGTAGTTCTATGATTATATGATTTGTAAATAAGAAGCCTAAC
CAATTTAAAATTCCTGACTTTAGTCTCATATATCTTGTCAGACTGTCTCGGTTCAAATTCCAAACCTACCATCTTCAGTTGTGCGACCTTGGGCATGCTA
CCTAATCTCTTTGTGCCTCAATTTCCTCCTTTTAAAATGGGGATGATGATGATAACAATAATACCTACCTCACAAGGTTGTTGTGAGCATCAAATGAGAT
AACACAAGTAAAATGCATAGAACAGTTCCAAGCACAGAGTAATTCAATAAATATTAACTAGTAATAGTAGTGGTAGTAACTCGTGAATCTTTTTAATAAC
ATAATAGGCTTTGATTTTATTATCTCTTTAAGTTGTTAACTTTTTTCCCTTGTTATAAGTTTTATGTCAAGTAAGGTAGTTTGTTTAAGTTAGTTACCCA
TGTCCCCAATCAAGGGAACCTAAATGAAGATATATCATTAAATAATTAACCTTTTTTTATTGTGTCAAGCAATACTAATTTGTGTCATAAAATTTGTTTT
GCATCATTCAACAATTTATGCCCAGAAATAAACAATATTCTACAACAGGCATAATCTCATTTATGTTTGATAAAATATACATACACACCCAAGAATTATC
ATACAGAAACAGTTCTGTGGCCCATTTAGCTTAATGGTATGTTTCTGACAATGGTATCAAGTACCTTAAAGGAAGATAAGTTTGTCCTTCAACATGCCAG
CCTTAGGTCAGGATTATTGTTTTCCTAACTGTTAATTTGTCTTCACATATCATGAGAAAGTGACTGTGGGATATGCATACAGCTATTTCTTGTCCTGCAG
AATTTTCAGATTCAACAAACCTCTTCTTGAACTTCAGATTCACCTGCACAATTACCACAACTTGCATGTTCCACAGGTGCATCAAATTTACTGCTAAGGG
CCAGGTGTGGTGGCTTACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGAATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAATATGG
TGAAACCCTGTCTCTACTAAAAATACGAAATTAGTGGGGCGTGGCGTGGTGGTGCATGCCTGTAAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGA
ACCTGGGAGGCGAAATTTGCCAAGTGAGCCGAGATTGCACCATTGCACTCTAGCCTGGGCAACCAGAGAGAAACTCCTCAAAAAAAAAAAAAAAAAAAAA
AAAGACTGCCAAAATTAGAAATCATCTTCTGCCTCTACCACCTGATTCTATTCGCCAACCCATCTTCTGTACTTCATTCTCCATCTTAGCACCACCATCT
ATCCAGTTGCCCTCTAAACCAAAAACATTCATTGTAAACTCCCTTTTCTCATCTTCATTCAATTACCAATTCTGTCTCCTAATTGTCTTTATATATTCTC
TGCTTTCCAAAACTAGGTCACAATTATGACTTTTTTGCCTGTCTTCCCCCAATCTGTCTCCATGTCATTGCTTCTATGACCTTGCTGCAATAAATCTAAT
CACCATTTCCTAAACATCCTCCACTGAATGTTAGTAAAAATTATTTCCTTTAGCTGAAAAACTCTGTCATTGTCTTCTCAGTTATATTCATTTTTCAAAC
TAGTTGTTGCATTAAGTTGAACTAAAATCTACCTTTTAAGTTAAAAATTCTTAACATTTTAAAATTATAAGACTATGATTTCTGTTACTATTGTTTCATT
GTTTTTATTAACAAATAATTGTGCACTTTGTCCTCTTCCCCTGATCTTGGTTTAGCTTAAAGGCCCTCAATTAATTATCAGAGACTAAGTGATTGAAATC
TCTATATCAAAACCTCACACTTTGTTCATTAAAATCTGTGTTCTCAGCCAGACGTGGTGGCATGCACTAATAGCCCCAGTTACTTCAGAGGCTGAGGTCG
GATGATCTCTTGAGCCCAGGAGTTCAAGGCTACAGTGAGCTATGATTGTGCCTTTGAATAGCCACTGCACTCCAGCCTGGGCAACATAGTAAGACCTCAT
CTCTTTAAAACAAACAAACAAACAAACAAACAAAAAACTGTGTTCTCAATATTTTTCATCCCTAGGTAAATTTTTTTTTCTATTTATGGAATGACAGGGA
AGGTCAGTTCATGGTCAAACTGCTATGTGTGGCAAGCTGGTAGAATGAGGTAGCAAAGCTTTAAGAATCATGTCTTCACTCACTTGGTTTTACTTCAGAT
GCTTAGCCAAAGGATTTATTTCCTTCCCCCACTTGAAAGACTTTGAATATCTTTAAAACCTCTCTCTCTATTTCACTTTTTTTCTTCCCACAATATTGAC
TAAGAGAACAGAATTTGACAGAAAACTTAAGATGGAATGAGAAATATATAAAGGAATTAATCAAAAGGCAGCAGTTAGTGATATACACATTACTCTACCA
AAAAACATTTAATCTGTGTTATATACAAATCTTATACCTGCTCTTCTCCGTGACTCTTGTATGTATGTGTGCATAAACTGAAGGCCAAATAATTCCCGTT
CCTCTTCTTCATCTGTGCCTTCACTGGGAGGAAGTGATACTTTCAATTTCAGTGGGTTGTCTCTGAAGTTGACAAACCTAGAAGTTCATCAAAAAACAGT
ATTTTTATAGGTGTCATGGAAGTGTACATTTATTTCCCTGGAGAAAGGTCAAATGATAATATACTAAATTACTCGTTTTTAACTGGTTTCAATAACTGAA
CGACTTGGTGAGATGTGATATATCTCAAGAATCTTATGTTTTTTTCCTAAGAGAAAAAAAAACACTAGCTTTAGACAACTTACTTTCAAAGCTTATAAAA
GCAACTGTTAGTCTAGTTGCACAGGCTGGAGTGTAGTGGCATGATCTGGACTCATGGCACCCTCCACCTCCCGGGTTCAAGTGATTCTTGTGCTTCAGCC
TCCCAAGTAGCTGGGACTAGAGGTGCACACCATGACGCCCGGCCAATTTTTGCATTTTTAGTAGAGACAGGGTTTTGCCATATTGGCCAGGCTGGTCTCA
AACTCCTGGCCTCAAGTGATCTGCCTGCCTCAGCCTCCTAAAGTACTGGGATTACAGGTGTGAGCCACCACATCTGGCCTACAGCATATATTTAATGCAA
TACAGCTTAACTTCTAAGAGCAATTTTAACATATCTTAAATATAAAATTAGTGCTATGAACTTAGTTTCTGCATAATTTATATACCTCCATCTTACTTAT
CATTGTGTCTTCACCACCCAGTACAAGGCAGGTAGTTGCTGAACAAGTGAATAAATGAATTATTTTGTTATCGAAGTTTTGGGTTTTAGTGGGTATTCTC
TTATTCTCATTTGTCAGAAGATTAAGCTTTGGAAGAAAAATACTTGAGGGAGCGTTCAAGATGGGTTAAAACTTAAATGTCACATCTGAAACAGTAAAAA
TCCTAGAAGAAATCCTAGGAAAAACTCTTCTGGACATTGGCCTAGGCAAAGAATTTATGATGAAGACCTCAAAAGCAAACATAACAAAACCAAAAATAGA
CAAATGAGATTTAATTAGAAAAACTTCTGCACAGTAAAAGTAATAATCAACAGTTAATAGACAACCTATAGAATGGGAGAAAATATATGTAAATTATACA
TCTGACAAAGAACTAATATCCAGAATCTACAAAGAACTCAACAAGAAAAAAACCAACCCCACAAGCGGGCAAAGGACATGAACAGACATTTCCCAAAAGA
AGACATACAAGCAACCTAAAATAATCTAAAATAATTTTTAAAAAGAAAAAATGCTTGACAGAGTTTTGATAGTACTTAGTAAAAAGTTATATCTAGTGGC
TTTTTGTTTGTTTGTTTTTGTTTTGTTTTTAAGAAATAGTCTCTGTTTCCCAAGCTGGAGTACAGTGGCGCAATCTTGGCTCACTGCAACCTCGAACTCC
TGGGCTCAAGCGATCCTCCAGCCTCAGCCTCCCAAGTAGCTGTTATAGGCATGCACCACCACTCCCGACTAATATATCTGCTATCAATAACATAATTGTT
TCCCTTTGTGCTTATTTAGGAAATAAACACTTTTATGCTTTTGATTTTTATGTTGTGAGTGAAGTTTTTTTAGCTGTATAATTTTCATGAAAATGTCATC
AACAGAGGACATTTCTTTTTTTTTTTAGGTTGGTATTATAACATTTATTAAAATAATGCTATGGGTTAATACAAACAGCGAAGAACCAAAGAATTAAAAT
GCAAGCTATGTAAAATCCCAACTAAAACCCAAAAATGTCTAATGTATTCATTCATTTAGCTAACTAGAAGCCCAAAAGAGACAAGACACCCAATATAATA
AAGTACTGCAAAACAATTGGCAATTTTCAGTTATCAAAATTGTGGATTTTGCAATTTGTATCCTTTTCTCAAGAAAAAAAATTCCTTTTGAATGTTATGT
AACATACATATAAAACAAGATAGAAAAATACACTATAAACTTGTAACAATGGCTGTAAATATTTTATCTTACATGTTTCTCATAGGCAATAGGTTGGTTA
TGGTACATACATAGCATGAAACATAATAAAGAAAAGACAAAAATACTTGTCAGCTGTATGGTAACATACAAGTGACACTCCCATCTACCCATGCTAAAAA
ATTACATAATACTGTGAGAAAAAAAGTCTTAAAAACTACATATTTTAATAAGAAACAAATTCAATGAAGAATGATAATACTGAGAACCAAGGCATTCAGA
GATTTCAAGTCATGCTTTTTTTCAGTTGATTCAAAATTTTGTCAACCAAGTTTTCAAAAGTTTGTTCAGAGCCAACATTACCCATAAAGGTCACACATTT
ATTATTTCATACATTTACTTTCTTCCCCATAAAAGACCTTTGATAAACATCTAAAATGGAAGACATTTCTTAAAGCTGATAAATCCCAAACTGCTTTAGT
TTTAAGGATTCTTTCTTGAATAGACCAGTGTTATATGAATCCTATTCATCAAATTATAGAATGTCAACATTGGAAAAGATTTTTAAGATATCCATTCACA
TAAATAACAACTGAAATTTATTAATAACAATCTCTCTACAGTACTTTTTTCTGTAGCCAGAAAGAAAGCAAGGTTTTTCAGTTTTGTGCCTACAACTTTT
TACCTCAGATTTGCCATTTCTTCCATGCATACTGGAATATCTTGCAGTTTATTGTTGCTGAGAACAAGAGTACCCAGATTTTTCATATTGCTGATTGTTT
GAGGCAAGCATGTTATTTCATTTCGTTGCAGCCATAACGTATGTAGATTTTGCATTCTGAAAAATTAAGGTTTCTACAATTAATTACATATAATATGAAA
ATATTGGTTTTGGAGTTTTAACAAATAATTTTAAGAGGTAGGGGTCTTATCATGTTGTCCAGGATGGTCTCAAACTCCTGAGCTCAGGCTATTCTCCCCC
TCAGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCTTTGGTTCTTATGTTAAAAATCAAATGTCTTTTACAACATCTTTAACCAG
TATACTTATTGAGTTAACTGACATCACATTACCTGGTTATTAGAGAAACCACATCAGGAAGTTTATCTCTACAGTACAACTCTCATGTCATATGGCAATA
GAAATGAAATCAAATCAACATATTCTAGAATTCTTTCACTATTCTCATAGGATTTCTTGAAGAAGAACTACTGTAAATGTTACCTAATCTGAGACAGAGT
CTTAAGAGAACAATAAAATGATGAATATGCCCATTTATAGCAAAGCAGTATGCATAATGCGTAACATCATGAACTCTGGGGCCAGGCTGCCTAGGTTCAA
ATCCTAGCTTGCCCACTTACTAACTTGAGCGAGTTAGCTAACATCTCTGTCATTAGTTTCTTCATCCACTTGTAAAGTGCATAGAAGTGCTTGGCATATG
CTAAGCAAGGTGGTTATTGTGGCATATTCTTGTTAATTTCTCAAAGTCAGCCACTTTTGGCCAGGTGTGGTGGCTCAGGCATGTAATCCCAGAACTCTGG
GAGGCTGAGGTAGGTGGATCACTTGAAAAAAGCCAGTTTTTTCTTCTTCCCAAACCCTTTTACTTACTTGGAACAAATGAAAATATTCTGTTAAAACAGT
GTATTTCAAACTAGTTGGACCTATTGTGATTGATTATGCTTGAGATCCCATTTGTCTTGCTTGGTTATTTTTCATAAGAGGTTTCAAGACTTTTATCATT
AGCATAAAGAGTTATTTCTTTTACCTTTCTATAGTATCAGGAAGTTGTTCAAGTTTGTTGCTTCCCATGTCCAGCCACTCAAGGGCAGGCATGTTCAACA
CAGCAAGAGGGATTGTAGTAAAATCGTTCATACTCAGATCAAGGTGAGTAAGTTTTAGCAGATTGCTGAGCTGAAGAAGAAAGCAAGGTTTTTCAAAATA
AATGTCCACAATGTAAACTACTAAAAGACTCACATTGGTAAAGGAGATATTTCACATCCAGGAATATTCACATTTTACTTGGGCTTTATTTAGTCATATT
AGTCCGCAACAAATTAAAAATAAATATAAAGCTAAATGACCTCCAGGGA


SNP Information

Context             (SEQ ID NO:42504):
GTGAGCCAGGTATGTAATTTTAATTTTTTTCTTTTTCTTTTTTTTTTTTCAGAGACAGGATCTCGCTCTATCACCCAGGCTGGAGTACAGTGGCACAAAT
M
GTAGCTCACTGTAACCTCAAGCTTAGGCTCAAGCAATCCTCCTGTCTTGGCCTCCTAAAGTGCTGGGACTACGGGTGTGAGCCACCATACCTAGCCTACT
Celera SNP ID:            hCV1526697
SNP Position Genomic:     4111
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42505):
CAAACTGAAGGTGAATTTTTTAATCTAAGTTTTGATAGTCCATTGATCTGAATTCTTAAAATTATTTGCAGAGACAGGAAAATATATAGAAAGAGCCAAG
Y
TCAAGCTAGGAGTTAAAAGTCTTGGGCTCTACTCCTATCTTTGCCACTTGCCCTTCATTCATTAAACAATTTTTGAGCATACTGCCAGGCCCCACCCAGG
Celera SNP ID:            hCV16152079
SNP Position Genomic:     14128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42506):
TTTTCCGTTATCCAGTAAAACATTGTAATTCCTGCAGTAAAACATTGTAATTCCTGCAGTAAAACATTGTAATTCCTGCAGTCTTCACTCATTCCACTCA
M
TCACCAGTTTCCATTGCAAGCAACACACATTCTGTCCATATAGGTAAAGCTAGCAACACACAATCAGGATGTTACCTTTCTGCCTCCATGTAACAAAAGT
Celera SNP ID:            hCV8384362
SNP Position Genomic:     11377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42507):
TCCAGTATAAATAGTTTTCACATTTAAAAATCTAATCTACAACATAAGTTACCTGGAGCACTCTTGGCAACCATTTTGAACTAAGAGTACATCAAATTCT
M
ATACTTAACAGCTAGTTTTCTATTATAGTTTTTTTCCGTTATCCAGTAAAACATTGTAATTCCTGCAGTAAAACATTGTAATTCCTGCAGTAAAACATTG
Celera SNP ID:            hCV8384355
SNP Position Genomic:     11245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42508):
GACAAAGTACTTAGTACATTATGGGTTAGTTAACAGTCTCTCAATAAATAGTGACAAAAATAATTTTTTATAAACTTTTGCAAAATTTTAACAATGTTTT
R
TGTGTGTTTATTCAATTTAGGCTTCTTAGTGTTGAAGAAAAGAAGAAAATAGGGCATCTTTGTAAATTGCTGATTGACCAAGGTCGAATCCAGTATTTGC
Celera SNP ID:            hCV8384372
SNP Position Genomic:     21457
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:42509):
CATGAGTAGCTGGGACTATAGTCCCACGCCACCATGCCCAGGTAATTTTTTAAAATTTTTTGTGGAGACAGGGTCTCACTTTGTCGCCCAGGCTGGTGTC
R
AACTCCTGAGCTTAAGCCATCCTCCCACCTTACCCTTCCAAAGTGCTGGAATTACAAGTGTGAGCCACTGTGCCCAGCCACTTTATTACTTATATTTAGA
Celera SNP ID:            hCV26140200
SNP Position Genomic:     14405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42510):
CTAATTCTTCCACCATGCTCTGAATTTTTTGAGTATATGGTATATACTTAGTACGATGCTTGCTATATAACAGGAACACAGTGAATATTTGAATGAATGA
R
TAATCTTGGCTACCAATTTGCTGTGTTTCCTTGTCCCTTTCTGCATATGTGGCTTTGTCTTTTAAGTTCTTTATAAAAGATGAATTGAGATAAATTGCTA
Celera SNP ID:            hCV734791
SNP Position Genomic:     19228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42511):
GGGACTAGTTGGTGGAACAGCACTTGGCTCATGTTGGCTCGCTGCCTCGGCTGGTGTGCAGAAAAGCCCAACAGGCCCGGCCCTCGGGATTAGCCTGAGA
S
GTCCGGGTCCTGATAAAGTTTGAGTTTGGCGCTCGGCTTCTGCGGAGGAGGCGGGGAGGGAGAAACGAGGGGAAGGCGTAAGAGACTTGGCCCTCGCCAG
Celera SNP ID:            hCV27839720
SNP Position Genomic:     5736
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,28)   caucasian(G,38)   total(C,4|G,66)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:42512):
CAAAGTGCTAGGATTACAGGCCTGAGCCACTGTGCCTGGCTTCATTACGTTAATTTAAATAGTGTGACAGGACATTTATATTTTCAAGTTTTAATTAATA
K
TTTAAAATAGAAGAAATCAGACTTATTGTTATAATATCTTTGTCTTATCTGTTTTTGGTCATGCTGCATGTCTGATAAGCAGCATTGTGTAGTTAGTACT
Celera SNP ID:            hCV734793
SNP Position Genomic:     12012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42513):
TATATGAAGATCAACTAGCAAAGCATTTGAAAAAATGTAACTCAAGAGAGAAACCAAAACCTGTAAGTGTTTGATCAGTAAAATTGAATGGTGAAATGTG
R
TATGTAATGCCTTGGTAGATGCTGCACATGGAATGTACTTGTTTCATAGCTGAGGAACCCAAGCTCAGGAAATATAATTTTTTTTTAAAGAGATAGGGTC
Celera SNP ID:            hCV25613370
SNP Position Genomic:     9977
SNP Source:               Applera
Population(Allele,Count): african american(G,18)   caucasian(A,1|G,29)   total(A,1|G,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:42514):
TAATTCTGAAATAACTTAATTCTTTTTTTTTTTTCTTCGAGACGGAGTCTCGCTCTGTCGCCCAGACTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCA
W
CCTCCGCCTCCCGGCTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAATTGCTGGGACTACAGACTCGTGCCACCACGCCCGGCTAATTTTTGTATTTTTA
Celera SNP ID:            hCV29003934
SNP Position Genomic:     19439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42515):
GTGAACAATTTTTTTAAATTTTGTATACTAAATAAAAGTTAGTTGGTTATAAATTTCTCCAGTATAAATAGTTTTCACATTTAAAAATCTAATCTACAAC
R
TAAGTTACCTGGAGCACTCTTGGCAACCATTTTGAACTAAGAGTACATCAAATTCTCATACTTAACAGCTAGTTTTCTATTATAGTTTTTTTCCGTTATC
Celera SNP ID:            hCV734794
SNP Position Genomic:     11188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42516):
GCTGAGGGTAGATGCGGTTACTATGTGGAAAAGAAGAAACGGTTCTGCAGGATGGTGGTGGCCGCAGGGAAAAGATTTTGTGGTGAACACGCTGGAGCCA
Y
GGAGGTGTGGTATCGCCCTACTCTCTCAAGAGTCGGAAATAAGTATCCTGGTCCTGTCGGTGCTGGAACCCGGCCCCTCCCCTCTTTGACAGCTTTCTGC
Celera SNP ID:            hCV734795
SNP Position Genomic:     6164
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,6)   caucasian(C,6|T,18)   total(C,8|T,24)
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:42517):
AAATGTTTTGTTAACTGCTTTACCAAATCATTCTTCATCACCAGAAACAACTGCTTAATGGAAAAGAAATTTGAGCATCATCTGTCTTCCACCAAAAAAA
W
TTTTTTAATTATATTTTTATATCAAAAAAATATATACTTTAAATAGCAAATAATATGAACTTTAAAAAATGCTGTGGCCTCATTAAACTTTGGTAATAGC
Celera SNP ID:            hCV25613347
SNP Position Genomic:     21716
SNP Source:               Applera
Population(Allele,Count): african american(A,28|T,4)   caucasian(A,34|T,6)   total(A,62|T,10)
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(A,34|T,4)   caucasian(A,34|T,6)   total(A,68|T,10)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:42518):
AGCTGAGGGTAGATGCGGTTACTATGTGGAAAAGAAGAAACGGTTCTGCAGGATGGTGGTGGCCGCAGGGAAAAGATTTTGTGGTGAACACGCTGGAGCC
R
TGGAGGTGTGGTATCGCCCTACTCTCTCAAGAGTCGGAAATAAGTATCCTGGTCCTGTCGGTGCTGGAACCCGGCCCCTCCCCTCTTTGACAGCTTTCTG
Celera SNP ID:            hCV734796
SNP Position Genomic:     6163
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,1)   caucasian(A,26|G,4)   total(A,33|G,5)
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:42519):
GAGACTCTAATTAGTTCTTTCTTTTGGAAGGCCACATTAATATGTACTTTATTTCACTAGACAGTTAATTCTCATTTCCATTTCAGACAAGATTCCTGTG
Y
TAAGAGAAGAAAAACTACCTGTGGTAGGAATTGGAAAGCATCTGTGTGGTATGGCAACAGGTACGTAAACATACTGATAATGTTTACATTAATGCATTAA
Celera SNP ID:            hCV25613357
SNP Position Genomic:     16936
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,37|T,3)   total(C,71|T,5)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42520):
GAGAAGAAAAACTACCTGTGGTAGGAATTGGAAAGCATCTGTGTGGTATGGCAACAGGTACGTAAACATACTGATAATGTTTACATTAATGCATTAAGTT
K
TGGCCTAACCTGGCCCCAACCATTTCAGTGGTCTCTTTTGAATAGATATCTTATGTTTACAACTCAATAATCTTTATAGAGCACTGGCCCTGTGCTTTAT
Celera SNP ID:            hCV25613358
SNP Position Genomic:     17040
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,31)   caucasian(G,2|T,38)   total(G,5|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:42521):
TAAGGATTTCTATATTCAAGATATTAATGCAGGCTTAAGAGATGAAACAGAAATACCTGAACAATTAGTAAGTACATTGACTTAATATTTAATTTTAAAA
K
ATATTTATAAGCTCTCTTCATGATGTGAATAAGGCATGTTCTAATTTTTGTCTCAAGTCTGTTTTTAATTTAGAATGCATTTTCCTGTAGACTTAATATT
Celera SNP ID:            hCV25613359
SNP Position Genomic:     12598
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,39|T,1)   total(G,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42522):
TTGTGATATCTTAGGGTAATAAAATTTTAAAATATGTATATGTTTTTGATTGAACAGACACAACATGACAATCTAATGATTAAGAAGATATGGGTCCTAC
R
TTTTGGGTCTTTCCAGTATTGTCAACAGTGTAGGAGTTTTCGATGGGAAATAGCCATAGTCATCAAAAATCCATTTATTTAGTTTTAAAATATACTAAAA
Celera SNP ID:            hCV1526692
SNP Position Genomic:     19972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42523):
GAACCCTAAACAAGTTCTTATGTTATATGTTGGGTTCCATAAAGTGATAATTTTTGTTTGAGTCTCTTTCAGGCTAAAATTCAGAGACTCTAATTAGTTC
Y
TTCTTTTGGAAGGCCACATTAATATGTACTTTATTTCACTAGACAGTTAATTCTCATTTCCATTTCAGACAAGATTCCTGTGCTAAGAGAAGAAAAACTA
Celera SNP ID:            hCV1526693
SNP Position Genomic:     16853
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42524):
ACTCGACACCTAGGTGCAAGGTGGATCCCACGGGCCAGAACCGCCATCTTTCCCCATTGGCCTGACCCCAACCGCCACCCGCGGGCACTGGATGACGCGG
R
CCTTACCTCTCCTCACAGTCTTTGCATTTCACCTGCAACGGGACTAGTTGGTGGAACAGCACTTGGCTCATGTTGGCTCGCTGCCTCGGCTGGTGTGCAG
Celera SNP ID:            hCV1526694
SNP Position Genomic:     5596
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,38|G,2)   total(A,72|G,4)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42525):
TGAGCCAGGTATGTAATTTTAATTTTTTTCTTTTTCTTTTTTTTTTTTCAGAGACAGGATCTCGCTCTATCACCCAGGCTGGAGTACAGTGGCACAAATA
R
TAGCTCACTGTAACCTCAAGCTTAGGCTCAAGCAATCCTCCTGTCTTGGCCTCCTAAAGTGCTGGGACTACGGGTGTGAGCCACCATACCTAGCCTACTT
Celera SNP ID:            hCV1526696
SNP Position Genomic:     4112
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;TFBS


Gene Number:                 209
Celera Gene:                 hCG31839 - 83000099454100
Gene Symbol:                 MGC14816
Protein Name:                hypothetical protein MGC14816
Celera Genomic Axis:         GA_x5YUV32VY6P(3432785..3474701)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12369):
AAAGGAAATAAAAAATATTTTACAATAGCTAGAAAGAAAAAAAAATACTTAGAAATAAATTCAACTAGAGGTGAAAGATCTGTCCACTGCAAACTATAAA
ACATTGATGAAAAAAATTGAAGACATAAATAAATGAAAAGATATCCCATGTTCATAGATTGGAAGAATTAATATTGTTAAAGTGTCCATACTACCCAAAG
TGATCTACAGATTCAATGAAATCTCTATCAAAATCCTAATGACTGTTTTCACAGAAATAGAATAAACAATCCTAAAGTTCCACAAAAGACTTCAAATAGC
CAAAGCAATCTTGAGCAAAAAGAACAAAGCTGGGGTGTTGACACTACCTGACTTCAAAATATACCACACCGCTACAGTAATCAAACAGCATGATAAGGCT
GGACACAGTGACCCACGCCTATAATCACAACACTTTGGGAGGCTGAGGCAGAAGGATTGCTTGAGCCCAGGAATTCAAGACCAGCCTGGGCAACACAGGC
AGAACCTGTCTCTGCAAAAAATGTTTTAAATGCTGGGTATGGTGGCGTGTGCCTGTGGCCCCAGCTACTCAGGAGACTGAGGTGGGAGAATTGCTTGGGC
CTGGGAGGTCGAGGCTGCAAAGAGTTCTGATTGTACCACTGCACTCTAGCCTGGGCAACACAGTGAGATCCTGCCTCAAAAAAGGCTGCAAGAAAACAGC
ATGATAGCCAGGTGCAGAGGCACATGCCTATAGTCCCAGCTACTAGGGAGGCTAAGGCAGGAGGATTGCTGGAGCCCAGGAGTTCAATGCCAGCCTGGGC
AACATAGTGAGACCCTGTCTCTAAAAATACAAATAAGTAAAACAGTATGGTACTGGCATAAAAACAGACGCAGACCGATAGAACAGAATAGAGAGCCCAG
AAATAAATTCACACATTTATGGTCAATTGGTTTTTTGTTTGTTTTGAGACAGGGTCTCCCTTTGTCACCCAGGCTGAAGTGCAGTGATGCTATCATAGCT
TACTGCAGCCTTGAGCTCTTGGGCTCAAAGGATCCTCCTGCCTCACCCTCCTGAGTAGCTAAGATTACAGGTGTGCCCCATTATGCCCAGCTAATTAAAA
CTTTTTTTTTTTTTTGTAGAGGCAGGGGCTTGCTATGTTGCCCAGGTTGGTTTCAAACTCCTGACCTCAAGCAATCCACACATCTCAGCCTCGTAATGTG
CTTGGATTACAGGCATAAGCCAATATGCCCAGCCAACAGTCAACTGATTTTTGACAAAGGTGCCAAGAACACACAATCAGCAAACAACACTCTCTTCACT
CAATGGTGTTGGGACAACTGGATATCCATATACAGAGGAATAAAACTAATACTTCATGCTACATTAAAAAATAAACTACAAATGAATTAAAGACTTAAAT
ATAAGACCTAAAACTATAAAACTACTAGAAGAAACCATAGAAGAAAAGCTCCATGACATTCATCTGGGCAATAATTTTTTGGATACAAATCCAAAAACAC
AGGCAACAAAAACAAACATTGACAAATGGGATTACACCAAACTAAAAATCTCTTGCACGGCCAAGAACACAAACAACAAAGTGAAGAGACAACCTGTCTG
CAAATCATACATCCGATAAGGGGTTAATAAAAAAAAAAAAAAAAAAAAAGAAACTCAACTCAGCAATGAGAAAACAAAGAACTCAATTTAAAAATTGGCA
AAGGATCTGAGTAGACATTTCTCCAAAGAAGACATAAAAATATCCAACAGGTATATGAAAAAGTGCCCCAAATCAAAAATCACAGTGAGATATCACCTCA
CGCCTGTTAGAATGACTGTTATCAAAAACACAAAAGATAACACGTGTTGGTGAGGATGTGGAGAAAAGGAAACCCTTGCACATTGTTGGTGGGAATGTAA
ATTAGTACAGCCCTTGTGAAAAACAGTATGGAGATTCCTAAAAAAAATTAAAAATTAAAAAACTACTATAGGATCCATTAATCCAGTACTAAGTACGTAT
CCAAAATAAAGGAAATCAGTATGTCAAACAGATATCTGCACCCTGATGCTTATTACAATATTATTCACACTAGCCAAGATGAAATGAACCTAAGTGTTCA
TCAACAGATGAATGGATAAAGAAAATGCATATGTACACAATGGAGTGTTATTCAGCCTTGAAAAAGAAAGAAATCCTGTCACTAGCAACAACATGAATAA
ATGTGGAAGACATTATATTAAGTGAAATAAGCCAGGAACAGAAACACAAATATACCACTTAATTTCACTTATACACGGGATCTAAGAAAGTTGAACTCAT
AGAAGTAGAGAATATGGTGGTTACCAGAGACTTGGGAGAGGGGTTGGGGAAACAGACAAACAAACTACCTATTTCAAAATTTTTTTATAGCAGCCTGAGC
AGACTAAGACAGACCCTTACCCAATACCATGTATAAAAATTAACTCAAGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGC
GGGCGGATCACGAGGTCAGGAGATCGAGACCACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCAGTGGCGGGCGCCTGTAGTCC
CAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCCTGAACCCGGAAGGCGGAGCTTGCAGTGAGCGGAGATCGCGCCACAGCACTCCCGCCTGGGCGACAG
AACGAGACTCCGTCTCAAAAAAAAAAAAAAAAAATTAACTCAAAACAGATCAAAGACCTAAATGTAAGATCCAAAACTATAAAACTCTAAGAAGTAAACA
TAGGTGAAAAGCTTCACAGCATTGGATTTGGCAATGATTTATTGGATAAGACATCAAAAGCACAGGCCACAGAAGAAAAGGTGAAGTGGATCAGGCCTAT
AATCCCAGTACTTTGGGAAACAGAAGTGGGAGGATTGCTTGAGGCCGGGGGTTCAAGATTACAGTGAGCTATGATTGCGCCACTGCACTTCAGTCTGGGT
AACAGAGTGAGACCCTGTCTCTTAAAAAAAAGACAGACTGGATATCATAAAATTTTTTAAATTTGTGCATCAAAAGACACTATTAAGAGAGTAAAAAGGC
AACCCACAGAATGGGAGAAAATATTTGCAAGTATTATATCTAATAAGAGATTAATATCCAGAATATTGTCATTCACCACTTAATGATGGGGATACATTCT
GAGAAATACGTCATTTGGTGATTTTGCCATTGTGAGAACAACATAGAGTGTATTCTGTGTGATAAAATACACATAACATTAAATTTACCATCTTGATCAT
TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTAGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCG
CCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGA
GACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
CCGCGCCCGGCCGATCATTTTTAAGTGTACAGTTCAGTGGTATTAAACACATTCATAATATTGTGCAACCATCACCACCATCTATCTCCATAATTTTTTA
TTTGTCCTTTTGTAACTGGCTTACTTAGCATAATGTCCTCAAGAATCATCCATGTCGTAGCCTTTGTCAGAATTCCAGAATTACATTACAGTACTTGCCT
AGTAAGGGAGTTGCTGCTGCTGATCCCAGAACCAGCTACATCTGCTGAGGCTAGGCAACTTTTGCTGCCAAAACAAACCCCAGAACATACTGCTTTTGCT
GCTACCCATGCCAGCAAAAATGGACACCAGCGACACAAGTCACCCAACAGAGCCCTTTGTTGGTGTATATAATTAGTGGAACCTTAGTAGTGTATAAAAT
TAGTCACATACCCCATTCCAGTAGCAGGGGAGGCTGGGATTTCTTTTCCCCCTCAAATTCTACCTTGGAAAGGTAGGATTCATGATGTGGGGGATTATAA
AAATGTGGATGGTGTTCAAAATATTTTGGACAGTCGTAAATGACAGATAGATATTCATTATATAGTGCCTGTCTCTTTGCATTCACTTTCTACATCCCTC
CAAAGTCACCAAAATTCTGGCTAATTTGTGTCATAAATAGCTCAGGCATCTATTCACTTTCCCTATCCTCCCGGGCATTTCTTTAGTGTAAGTCACTCCA
TGGGGATGGGAAATAAAAGGTAGATAAGGGAAGGAGAAGAGAGATGCCTTGAAATTTGTGGGTTCTCTATAAATACTGTCAAATTAAAATTTAATTGTAC
GTAGTGCCAAAGGCAGAAAGAAATCTTAATTTTCTCCAAGGTAACAATATACTGTTCTTTTTAACTGAAACAAAACTCCCTGGATCTGTCTCTCTCTCTC
TCTCTTTTTTTTTTTTTTTCTTCAGACAAGGAAGGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACCATCACAGCTTGACCTCCCTGGCTCAAGGTATCC
TCCCACCTCAGTCTCCCAAGTAGCTGAGACTACATATACACACCACTACACCTGGCTAGTTTTATTTTATTTTATTTATTTTTATTTTTATGGAGACAGG
GCCACCATGCCTGGCTACTTTAATTTTTTTTTTTTTTTTTTTTTTTTTTTTGGTAGATACAGGGTCTCACTCTGTTGCTCAGGCTGGTCTCCAGCTCCTG
GGCTCAAGTGATCCTACCATCTTGGCCTCTCAAAGTGCTGGGATTACAGGTGTGAGATCTTGATTTTTACTTATGAACACATGCAAGCACTCTGTATGTG
TTGGGTGGTGTACACTCTCGGGACAGGGAAGTTAGAGTTTCAATTGTGGCCATGGCTTCTTTACTCTTTCTGTGATCTTGAGCAGTCCCACAACTCTTAG
AACTTAATTCATTATAGAAGTGTTGGAGAATTTCTGTGAGATAATCAGGCATAAATTTTTAAAGCATTAATATTGCTGAGATGTCCAAATGACTACATAA
ATTATGATCCACCTACACGCTAAACTGCTATGTAGCCATTAAAAAGAATGACGCTGCTCTAAATATACTAATATGAAACAGTTTCCAAGATATCCTGAGT
GAAGAAAAGACAGTATAGAACAATGTATATAGTATGCTACCATTTTTGTATGTGTGCATGCCTTCACATATGTGTGCTTTTAAGGGATATAGGCATATTT
AAGCTCGTAAATTCATAGACCATCTTTGTAAAGGTACACAAAGAACTGGCAATAGTGGTTGCCTTCAGAGAAGAGAACTTGAAGAGAACCTCCCTACTGG
AGGCAGGGATGGTGGAAGGGGTGGGGGATGGAGAGAGTGGAGATTGAGCTTTTGAATTCTGTTCCATGTGCATATATTATAAATTCAAAAAAAGATATAG
TTTATTTTTTAAGAACCTGGAATTAAGTCCTATCTATGAAAGCTGAAGAGATCAAAGTGAGAGGTAATTTAATTTGAAGCCCAGGTACAGCAGAAGTTTG
GGGCTTCTGTGTTACTCATGCTTATCCACACCTTTATTTTTTCTTTTTCTAAAGCATCTGGGTCTTTAGTTCAAATATTTGCAGATCCATGGTTTACTGG
GTAGAATTTTTGTTGTGGCATACATCAACATATTCCAAGTTTCTCTGCTTGGATGGAATAGATGCATGAAATTCTGTGAAATGATTAAGCTGTGAAAAGT
AGAAGGACTTTGAATAGGCATTATTTTTCAAGATCTTATAAATAGTTATGCCTGATAGTTTTATAATGTCTGTAGCGTATTTTGCAGTCCACAGAAYGCA
CTCACATACATTATCAGCTGATCCGTCGCAAAGAAGCCTCATGTGATTCTTTCTATTCTCAGCTTTGTCCATGAACTAAAATTAGAACTAGGCTGACATT
ACATTTCACTTGGTTACAGCTGACTGGGGATTTTAATCATTTGGAGCCACACTGAAAAAAAAATTTCCCCCTGCAATCTACTCTTAACTGATAGTCGCTA
ACTTTGGTTATGTGTGGTAAGTATTTGACAATGGTAAGTATTTTTCAAAAACATTTTTCCTTTCTTCTTCACATGTAAATAGATTGCTGCTGATACCTAT
ACTGTGTCTGTATTGGTTGGAATGTCCAAACAAACTGGAATAGAATTTAAAAGTTTTTTTGCGGGGTGTTCATGGTCACTCATATAATTGTGCTCCTCTG
GAAGATAGATTTCCCCAGAAGTAAGAAACAATTCTTCTGCAATTCTTTTCTATGCTTACCTCACTTGTCACATTATGTGCTTTTTTTCTATTATGGTACT
AATCAGAGTAGAGAGCAGTCCTGTGCTGGAGGAAGAAATATATCATTATTGACTTGTGTTTCCCTAGGGGAAGTTGGTTGTTATAGGAAAACTGATGGAT
GAGCAACATTTAATGGCAAATGAGGAAATGAATTAGCAAATGGATGAATTGTTTTACATGTCTTCTAAAATACATGTATACATGTAGATACTTGGGAATT
CAAAAATATTTTTATTCGAGTATTTAGCAAAAACTTCAAACTTTCTTAAATTAGAGACAATAAATTGTAAATTGGTTGCAATATGCTCAGGAAGTTGGAT
TACCAGTGTATGTATCCCAAGGTTTCTTCACAGCAAAGAGATCTCGCATTCTGTTCCTGAGTAAATTCGGCATGCCTTGCTTAGAGATTCTCTCAACAAT
TTCCTGCCTATGCCAATTATTTATCAATCTTGAAATTTTAAACTTTTTTCTGTAATATAGTTCTCCTCTTTCTTTGACTGTCTCACACACATATATACTG
CATAATATTAGTTTAAAAAATCAATAATTTAGAAGAGGTTAATAATGAAAAGCAATATTATCTATCCGATTCCTCTCTATCACCAGTCCTGCTCCCTAGA
AGTAATCATTTTAACCATTTTGGAATTTAGTTTTCAGTGGTTATCTCCATATTTCTCTCTTTTTTTTCTTTTTCAAAGACAATTGCATGCTATTTTTAAT
CAACTTTAAACATCTGTGGAGCTTCATTATGAGAGGTGGGGATTAAGTTCCCTTACACTGCCATAGAGTTATATCCCTATTTTTAGCTTCTCTCTTGATT
ACCTTAATAACTTTAAGCAAATACTTTAATCTTTATTTCTTGTTCCATAAGGTACAGACAGTATCTGTTGATTCCCCACTTCGAAGATGTGGATATCGGT
GTTCTTATCATTTACTTCTTTTCCTTATTTCCTTCTTCCATATTCTGTTAAAAGTACTGTCACTTTTATGTTTTCAAGATATATGGCATTTATATTCTGT
TCTGTAACCCTCAATAAGTCTTCCTTACTTTTTTATAGATTGATTTATTTCAAAAGTTTAAGACCAATACATAGACTTTACTATGTAATTTCTGTTTTCT
GCAGAGCCAACATTTCCTTCTCAGTATCAATGTCATATTCATTGTACTAAAGAAGAATGTTAAAATAGATTCTCCTTTCCTGCACTTCAATAAATGCTAA
AAAATCATGCCACATTTTGTTSGCTCTATATATGGACTGTGGCTTTCTTGTACAGTGTCTTCCTCAACACAATTTCTGACTGCCTTTCTTTTTGCTTATT
GGGAGAAGAAATTTCATCTTTTCACCATATCTCCAATGTCACACAGTTTTTTCCCCCTTAATTCTAGCTATTTTTATAATTCAATGGATGAATACTGCCA
TTCCTTTTTTTTGTTTGTTTTTGAGACAGAGTTTCATTCTTGTTGTCTGGTCTGTAGTGCAATGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCCGG
GTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCACGCCTGGCTAATTTTATGTTTTTTTAGTAGAGACGGGGT
TTCACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAAGCGATCCACCAGCCTCCCAAACTGCTGGGATTACAGGCGTGAGCCACCGTGTCCAGCT
ATTGCTTTTAAAACATTGTTTTACTTTATTTTTAATTTTTTTACTATCATGTAAAACATTGCTGGGAACAGTCTTGTTCATGTTTCCTGGTGGAGACACA
CCCTTCCTCTAGGTACATACCTTTGAATGGAATTGCTGGATCATAAGCTGTGCTTATCTTCAATATTAGTACATAAGTATTTCAAAATAGTTAATACTAA
TTTACAATTTCACCAATATACCAGGAGTCCATGAGGATTTCTGTAACTCAAATTCTCACCAACACTTGGTATAATCAGCCTTTTGAATTTTAGCCGTTCT
GACAGATGTTCATTGGTATCTTATTATGTTTTTATTAAGGTGGAGCACAACTTCATATGTTTTTGGTCATTTGGATTTTTTTTTCTCCACAGGGAAAGTT
CTACCATTTGGATTTTATTTTTTGAAAATTTCCTGTTCAATTGTATTTTCTGTTGCCTTTTTCAGCTGATTTTAAGGAGTTCGTTATATATTCTAGATGT
AATCCATTGGTGGTTATATATATTGCCAATATCTTCCCCCACTAATGTACATGGTATTCCTTTTATTTTCTAAGTGATGTCTTTCAATAGGTTCTTAATT
GTAATGTAGTCCACTTTATCAATCTGTGTTAGGCTGTTCTTGCATTGCTATAAAGAAATAACTGGCCAGGCACAGCAGCTCATGTTTGTGATCCTAGCAC
TTCTGGAGGCCAATGCAGGAGGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGGAGAATGTGGAGACATCCTGTCACTACCAAAAAAAAAAAAAAAAA
ACTGGCACACTGGTTCTTGCTGTAGTCCCAGCTATTCTGAAGGCTGAGGCAGAGGGGGCCCAGGAGATCAAGGCTACTATAAGCCATGATTGTGCCACTA
CACTCCAGCCTTGGTGGCAGAGTAAGCCTGTCTCAAAAAAACAAAAAACAAACAAACAAAAAACCACAAAACAAAGAAATACCTGAAACTGGGTAAATTA
CAAAGAAAAGAGGTTTAACTGGCTCACGGTTCTGCAGGCTTTACAGGGAGCTTTCAATCATGGTGGAAGGCAAAGGGGGAAGCCTGCGTCCCGCAAGGCC
AGAACAGGAGCAAAAGAGGGAGCAGGGGGAGGTGCCACAAACTTAAAGAACCAGATCTCCCAAGAACTCACTGTTTCAAGGACAGCACCACGCCATGAGG
GATCCTCCTCCATGATCCAATCACCTCCTACCTAGCCAACACCTCCAACGTTGGGGATTACAGTTCAACATGAGATTTGGTGGGAACATATATTCAAACT
ATATTGTGATATAGTATATCTTTTCCTTTATGGATATGCTTTGTATTCTGTTTTAAAAAGTGTTCTCTACTTTAAGGACATCAAGATAAGTCCTATATTG
TCACCTAAATGCTTTATTTTTTCTACTTTCACTTTTAGATCTACAATTCACATGGAATTAATTTTGGTAATACATAGATATTCAACTGTCCCAATATAAT
TTCTCTTAAAAAATTATTCCCATGGCCAGGTGTGGTGGCTCACACCTGTAGTCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGCCCAGGAG
TTCAAGATCAGCCTGGGCAACATGGTAAAACCCCATCTCTACAGAAAAATACATAAATTAGCCAGGTGTGGTGGTGTGCACCTGTAGTCCCAGCTACTTG
GGAGGCTGAGGTGGGAGGATGGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCTCTCCAGCCTGGGCAACAGAACCAGACCC
TGTCTAAAAAAAAAAAAAAATTTCCACAATGTTCTGCAGTGCCTATGTGTATATGAGTCTGTTTCTGGGGTTCCTTATTCAGGTACACTGGTATGTTTTT
CTATTGCACCAATAACATTATCTAGYACCATAGCTTTAAAAGAGATCTTGATGAATGCAAAATAAATCCTCCCACTCTAGTTTTCTTTGGCAAGAGTGTC
TGGGCTATTTTGTATCCTTAGAATTGTCATTAAAAATTAGAAACTGATTGTCAGGTTGCTCCTCTCCTTCTCCAAATGAATTTTGTATTGAGATTGATTA
TAGTTCAATGTGGGGATAATTGACATTTTTACAGATTGAGTCTTTCTATCAATGAATATGATGTATATCTCTTCATTTATTTAGGCCTTCTTTAATTTCA
CTCTAATTTTTAGTTTTCTGTATAGAAGTTTTACATATTCTGTTCATTGTTAAGAATTTGATTTTTATGCTATTGAAAATAGTATATTTTTCAGAACTTA
ATATATATTTTCCGCTGGAATATAGACACATAATTGATTTTTCAAAATATTGACTTGTCAGAAGTCTTGCTAAATTCTATATATTTAGTTGTAAATTCTC
CTGGATTTTCTAGTTCATAATTGTACTCATGAAAAATGTCCTTTTGTTTTTTATTCCTTTTCAAACTTTAAGCCTTTTATTTCTTTTTCTTGCTTTTATG
CAATGGGTAGAGCCATGATACAGTATTGAATGGAAGTAGTGAGAGCAGACATCTTTTACTAATTTTAAATGAAAGGCTTTCAATGTTACACTATCAAGTA
TGATTGCTGCAGGTTTTTATTAGACATACTTGGTTAGGTTAAATAAATTATCTTCTACTTAGAGTATGTTAAGACTTGTTTTTAATCACGATATTAAATT
TTAATAATTTTCTACATCTATTGGAATGATCATATTTTCTTTCTCTTCTAGTCTATTCAGAATATTACATTAATTGATTTCTCAAACAAAGGTAAGCAAA
CAAATCTTAATCTCTGGAATAAACCCAATATGGCTGTAATGTATTTTCTTTTTTTTGTTTTGTTTTGTTTTGTTTTTTTTTTGAGACAGAGTCTGGCTCT
GTCGCCCAGGCTGGAGTGCAGTGCCACCATCTCAGCTCACTGCAACCTCCGCCTCTTGGGTTCAAGCGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGG
ATTACAGGTGCATGCCACCACACCTGGCTAATTTTTGTATTTTTTATTTTTATTTATTTTATTTTTATTTTTTTTGGAGACAGATTCTCGCTGTGTCACC
CAGGCTGGCGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCTAATTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGATGGAGTGCA
GTGGCATGATCTCAGCTCACTGCAAGCTCTACTTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCTGCCACCA
CGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACTTCGTGATCCCCCCGCCTCGGCCT
CCCAAAGTGCTGGGACTACAGGTATGAGCCACCGCGCCTGGCCACAATTTTTTGGTATTTTAGTAGAGACGGGGTTTCACTGTGTTGCCTAGGCTGGTCT
CGAACTCCTGAGTTCATGCAATCTGCCCACCTCGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACCACGCCTGGCCTTTTTTGTATTTTTTTAGT
AGAGACGGGGTTTCACCATGTTGTCCAGGCTGGTCTTGAACACCTGACCTCAAGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGAATTACATGCATG
AGCCAGTGCGCCTGGCCAGTATTTTCTTTTTCCTATATTGCCAGATATGGTTTGCCAGTATATGGTTTAGGACTTTTCTCTGTTAATATATTTGTTAGTG
AGATTAGTCTGTATTTTTCTTTCTAGAATTACCATTCTTGGGGTTTGGTATCAAGCATATGCTAATCTCATAATCTGAATTGGGGAGTATTTCTTTTCTA
TTCTCAGGAAGAGTTCATTCTATGATTAGTGTTATTTTTTACCCCTCAAATGCTTGGTAGAATTTTCCACTGAAGTCATCTCTGGGACCAGCATTTTGTT
TGTGGAGAGATTTTAGATTATTATTATTGTATTCTATTGTGTCATTTTAAAATTTTATACATGTGTGTGTTTATCTATAATATTCCCTTTCTTCTGTTTT
CTTTGTGTTTGTTTTATCTAGCTTCTTGAGATGGATGTAAATTTTTTAGCCTCATTTCTTCTAAAATGTATACTTAAGACTAGAAATTTCCCTCTACTAC
ATTACCTATATTCCATACACTTTGATTTGTGGTATTTTTGTTAATTCAGTTCAAAATGCCTTCTAATTTCATGATGATAGCTTCTTTGACTACAGGTTAT
TTAGAAGTGTGTTTCATGGATGGGTGCAGTAGCTCAAGCCTGTAATCTCAGCACTTTGGGAGGCTGAGGTGGGAGCATCATTTGAGCCCAGGAGTTTGAG
ACCAGCCCAGGCAACATAGCAAGACCCCTGTCTTTACAAAAAAAAAAAAAAACAAGCCAGGCATGGTTGTACACATCTGTAGTCCCAGCTACTTGGAAGG
CTGAAGCAGGAGAATTACTTAAGTCCTGGAGTTTGAGGCTGCAGTGAGCCGAGATCACGCCTCTGCACTCCAGCCTATGGGACAGAACGAGACCATGTCT
CAAAAAAAAAAAAAAAAAGAAGAAAGAAAAAAAAAAGTGTGTTTCTTTAGCTGAAATAATATAGGCTTTTTTTCCAGGTATCTTTTCATTATTGATTTCT
AGCAAGTTTATATTTTGATTAGAATAAAAACTTCATGCTACTTTAATCCCTTGAAATTGACTGAGACTTGCTCTATGACCCCAATATGAGATTTTTTTTC
TGTGACTCTTCCATGTGTTTTTTAAAGCATTATGTATTCTGTCATTGTAGGATATAGTTCTTTATTTATCATTTAAGTAAGTTTATTCATTGTGTGGTTC
AAATTTTCAGTATTCTTCCTAAGTTTTAAACTGCTTGTGCAACCAATTGCTAAAAGAATTGTTAAAATATCCCACTTCAGTTCTGGAATCCTTGATTTTC
CCCTTTAGTTCTGTCAATTTTCCTTTGTATATTTGGAAGCCATGTTATTAGAGGCATGTAGTTTAAAGTTGTTTTATATTTCTTGTGGATTAAATCTCTT
ATTATGATATGATTGATCTTTTATATCTGTAAAGTATTTGTGCCTAAAGTCCATTTTGTCTGCTATTAATATATTGATACTAGCCTTCTTTTGCTTAGTG
TTTGCATAGTATATCTTCCTCAGTTCTCAAAAAATTTAATTGATTAGCCAGACATGGTGGCACATGCCTATACTTCCAGCTACCTGAGAGGCTGAGGCAG
GAGGATCACTTGAGCCCAGAGGTCAAGGCTGCAGAGAGTCATATCCCGCCACTATATTGTAGCCTGGGTGATAGAGTGAGACCCTGTCTCAAAAGAGCAA
AGAAAGAAAGAAGAAAGGGATGGAGGGAGGGAAGGAGGAAGGAAGAAACGAAAGAAATAAAGATATAAAAAAGAAAGAAAAAATTAATTGAAATATAATT
CATATATAAATTCTCTCTTTTAGTGTACAGCTCAGTAGTTTTATTCAAGAGTTGTACAATCATTATCACTAATTCTAGAACATTTTCATCACTCAAAAAA
CTGTACAGTTAGCAGTCACTCCCTATTTCCCCCTCTACAAATCCCCTGGGTACCACAAAGCTACTTTTTGAATCTACAGATTTGCCTATTCTGGACATTT
CATATAAATGAGATCATATATGTGGTCTTTTGTGTCTGACTTCTTTCACTTAGCATAATTTTATTCAAGGTTTATTTATACTGTGGCATGTATCTATACT
TCATTCATTTTTATGGCCAAATAACATTCCATTGTATGGATATACCACATCTTGTTTATCCATTCATCAGTAGATGGCCATTTGTGTTGTTGCCACTTTT
TAGCTATTATGAATACTGTTTCTATCAACATTCATGTGCAGGATTTTGTGAGAACATATGTTTTCATTTCTGTTTCTATATACTTAGGAGTGGATCTTTT
CCTGTTCTTGTACTGTCCACTTTTCTCTACCTTTATTTTTTAGGTGTGCCTCTCATAAACAACACTCAGGATTTTGTCTTTTCTTTAACTGGACAACCTT
TGTATATTAACTTGGAACACTTAATCATCAGGGAAGTACAAATTATGACCACCCTGGGATATGGCTTTATGCAGTAATGGATGTATATCAACGGGGACCC
TTATACAGTGGTAGTAAGAGTATAAATGGGCACAATCAATTTGGAAAACAATTTGGCTCTGACTTATAAATTGGAACATTTACATACACTATGATCCAGC
AATTCTAATTCTAGATATGTACCCAGTAGAAATAATTCCACTGGAACACCAAGAAGATAAAAACATTAATTTTAGAAACATTATTGCTTATAATAGCAAA
GCTCTGGGACCCAAATATTCACATTCATTAGAATGGATAAACTGTGGGATAGTTATATATTTTGGAGATCATGGCATATGAATATATAAGATACCTTTCT
TTTCTTTTTTTTGAGCTATATAATTTCCCATGATATGGGTAGACTATAGTTTACCGATGAAATATTAGGTTGTTTACAATATTTTGCTGTTATGAAAAAC
ACTGCGAATAACTTCAAAAATATTTGAGGGATAAATTGCTAGTGTGGATGAGCATTAGTGAGTTTAGTAAGTATTACCAAGTTTCTCTCCATACAGAATA
TAATAATACCACCATTGATGAAGGAAAGTGTCTGTTTCCCTATGTTGTTGCAAATTTTATTGCTTTCTTTTCCAACTACATTACTTTCTATTTACTTTAC
TTCCTTTATGGTTTTCCTATAATGTTGAATAGAAGTGATTGTGAATGTCTTTGCATTCCTGAATTTGAAAGGAAATAATTCAAATAATTGTGAATCAAAT
TATTTTATTATTACTAATTTGATCAAAAATCAGTACGATTATTTTAAGGCCATAGGATATTCCATAAAATGTACCTACCATAATTTACATAACCATTTTC
CTATTATTGAGTATTTTCCTTTCATTTCTGAGATTCAGGTCAAAATCCTTAATACTGCGTCATCCATTTGCAATTTATTTTACACAAAAGGAAACAATCC
CAATATATTATCACTTAACTGAATTTCTACTTGTGCATATGGTGTCCTGATTAGATTGATATCTCAAGATTCCAGTCTTTTTAAAAATCTCCATTATTTA
ACCATTTTCCTATAATTGGACATGAAGACTAGTTGCAGTTTTTCATTATTATGAAATACACAGTAACAAAGGAATCATATATTAGATATGAGACCCCCAA
GAAAATTGTTCACCTTCTTTAAAGCTTAATTTTCTCATCTATACATTAGTCAATAAAAGTACCTATATTATAGTATTTTATGAGAGTTTTTAAATATGAT
ATGGCATGTAAAGTATATAAAATAGTTTTTGGAGCATGGAATGTGTTCTATAAATATTAGCTATTATGATCATTATGGTACTCAATGAACAGTCTGAAAC
ATTGCTTTTTTTCTCTGGTACATTTAGGTCCTTTCTGAAATGGTATCTATGATTCAGCTATTCAAAACCTAATGAAGTTGGTGACTATGACAATGTGGAG
AAATCATGACAGAAAATGTGGTTTGTACTGGGGCTGTCAATGCTGTWAAGGAAGTTTGGGAAAAAAGAATAAAGAAACTCAATGAAGACCTGAAGCGAGA
GAAGGAATTTCAACACAAGTATGCTAAWACATATTTATTATTTTGAATTAGTGAAAATTCATATTATCATCACCATAAAAAAGAGCATTCTAAATGCCTT
GTTATTGAATTTGATATAGAATTTTATTTACTGAAAACTCAAAATATACTTAAAGAAAACAGCTGACTCAATTAAATKTGTCTATGCGATAGGAGTCACA
AAAAATACAAATGTGAAAATGGTAGCTATCWTATACCCTCATAGGACTCTGTTTAACATTCATCAAAGTTTGATTAGTATCATATAGTCTAATTTTCAGG
ATTGTATGTTCAGCATTATATGCCCTAGGACCTAAAACAACATTTGACAGTAGAAGGTACAGTAGATTCTCATTTATTTGAATAGCCATGTGTTCTAGCC
AGAGCTGCTGGATCACTTGATTCCTTGATCTGGGCTATATTTATTTGACTCTCATTTCCTCTGCCTCCATTTTATCTTACCTACTTTCCTGATTGGATGT
CACCAAAAAGTATTCTACTAATCCTGCAAAAATAGTCCCTTTCCTCATAGATGCATATAGTTCCATACAATTCTCATTCATTGTCTCTTTCTATCATTAT
TATTATTATTATTATTATTATTATTATTATTATTATTATTATTTTTGAAATGGAGACTCACTCTGTCGCCCAGGCTGGAGTGCAATGGCATGATCTCAGC
TCACTGCAACCTCCGCCTCCCAGATTCAAGTGATTCTCCCTGCCTCAGCCTTCCAAGTAGCTAGGATTACAGGCGCATGCCACCACACTCAGCTAATTTT
TGTATTCTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTTGGCCTCCTAAAGTGCTGGG
ATTACAGGCATGAGCCACCATGCCAGGCCATTGCCTCTTTCTAAACATTAAATTAGCAAATGTTATTTGCCGATGTCAGTTAGCAAATAACAAAAAATTC
AACTAAAGATGGTTTAGGCGATAGGGAAGTGAGGCTGTTCTGAAGATAGTCAATGCAAAGCCTCAACATCTTTTAAAAGTCAGCTTTTTTTTTTAATCAC
CTTCCACTGTTAATCCCTGTGTCAGTCTGATCCTCGGATTAGCTTCCTTCAGTGTTACAAGATGACTGATGCACTTCCAGGCATCACAGCCAATGATCAT
TATGTTTTCAGAAAAGTGGAAACTATTTTTTTCTATTTCTTCTTTAAGAGTAAAGAAATCTTTCACAGAGGGTCCCTAACAAACCTCTCCTTCACTTCTC
ATTGGCCAGAATTGGATCATTTGTACACATCTAACCCAGTTACCTTCTAGGGGAATGAGACTGATTGGTTTAGATAAATTAAGATTCATCCCTGGTGTAT
TAGTCTGTTTTCATGCTGCTGATAAAGACATACCTGAGACTGGGTAATTTATAAAGGAAAGAGGCTTAATTGACTCACAGTTCCACATGGCTGGGGAGGC
CTCACAATCATGGTGGAAGATGAAGGAAGAGCAAACGGACATCTTACATGGCAGCTGGCAAAGAGAGAATGAGAACCAAGTGAAAGGGGAAACCTCTTAT
AAAACCATTGTCTTGGTGATTAACATGTGGCTCCTCATTACTTATACAAATTTCTGCAGCCAGCTTGAATTTCTCCTCAGAAAATGGGTTTTTCTTTTCT
ATCACATCCTCAGGCTGCAAATTTTCTGAATTTTTATGCTCTGTTTCCCTTTTAAAACTGAGTGCTTTTAACAGCACCCAAGTCACCTCTTGAATGCTTC
GCTGCTTAGAAATGTCTTCCCTCAGATACCCTAAATCATCTTCTTCAAGTTCAACGTTCCACAGATCTCTAGGGCAGGGGCAAAATGCTGCCATTCTCTT
TGCTAAAACATAGCAAGAGTGACCTTTACTCCAGTTCCCAACAAGTTCCTCATCTCCATCTGCGATCACCTCAGCCTGGATTTCATTGTCCATATCATTA
TCAGCATTTTGGTCAAAGCCATTGAACAAGTCTCTAGGAAGTTCCAAACTTTCCCACATTTTCTTTTCTTCTTCTGAGCCATCCAGCTGTTCCAACCTCT
GCCTGTTATCCAGTTCCAAAGTCACTTCCACATTTTTGGGTATCTTTACAGCAGTGCCCCACTCTATCGGTACCAATTTACTATTTTAGTCCGTTTTCAC
ACTGCTGATAAAGACATACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGACTCACAGTTCCACATGGCTGGGGAGGCCTCACAATCATGGT
GGAAGCCAAAGGAAGAGCAAAGGGACATCTTACATGACAGTCAGCAAAGAGAGAATGAGAACCAAATGAAAGGGGAATCCTCAGCCAGACATGGTGGCTC
ACGCCTGTAATCCCAGCTACATGGGAGCCTGAGGCAGGAGAATTGCTTGAACCCAGGAAGCAGAGGTTGCAGTAAGCCAAGATTGCACCATTGCACTCCA
GCCTGGGCAACAAGAGTGAAATTCCATCTCAAAAAAAAAAAAAAAAAAGAAAGGGGAAACCTCTCATAAAACCATCAGATCTTGGGAGAGAGAATGAGAA
CAGTATAAGGGAAACTGCCCCCATGATTCAATTGTCTCCCACTGGGACCCTCCCACAACACGTGGGAATTATGGAAGCCACAATTCAAGATGAGATTTGG
GTGGGGACATAGCAAAACCATATCACCTGGATTACTTGGTAAACACTTGGACTTGGAAGCAATTGATATTCTTCCAGTAAACGAGGGTGGGGGGCAAGAA
GCTACTGATAAGCAATGATTTGTGTTGCTAAATATCTGTAAAAACAAAAGATCTTGACAGGGAGGAATAATTTTTCCCACTTAGTTTTTAGTAAGTGTGC
AGACATAGCAAGATTCCTGTTCAAAGTGGATTCTGCAAGGACAGAGAGGGAAGCCCAAGGTCAATCCTGGTCAAGCAGAGGATGTGGAGCCTGGCTAAAG
TTTTGATAAAAGGGATCTTTGTCATTAATTAAGAATCACTTAATTTCAGAAATTTCAGAAGTTCTCTATATAGGAATAATGAGTGTGCAGTCTTGCCCTT
TCTTACTGCTTGTTCTTTTTTGGCATCATCTATTTTATGATTAGGGAGGAGGATTCTCTGTTAGCAAAATGTAATTTCCAAAAGTTAAGTTAGACCAAAA
TCAGCTTCTACTTTTAGAAACATTACATGGAATTTGTGTAATGTAGTTTTTCAAAGCACCTTTCCCTTAATCTTAAAACAATTACATTGTAAAATCATTG
TACAGTATTATAAAGCTTGGATTGTGGTTAAAATTAAGTATAAACTACTTTAAAAGTAAATTATATAGAGATCAAAGGTTAGGTTTAAAACCTGTAATAT
GACTAAATAAATAATTTTCCAGGTATGCTGGCTTGTGCCTGTAATCCCAGCACTTTGGCAGGCTGAGGTAGGAGGATTTCTTGAGCCCAACGAGCTTGAG
ACCAGACTGGGCAACATAGCGAGACCCCATCTCTAAAACAAAAAGTTAGCTGGGCGTGGTGGCATGCACCTGTAGTCCCCGTTACTTGGGAGGCAGAGGG
GTGAGGCGGGAGGATCAATTGTGCCCTGGAGGTCAAGGCTGCAGTAAGTTACAATCACACCCACTGCACACCAGCCTGGGTGTCAGAGCAAGACACTGTC
TCATTTAAAAAAAAAAGAAAAAAATTAATAAATAAACAATCATAACTGACGCAAAATGGTAAGAATCTGAGAGACCTTTTAAAGTGAGACAGAGAAGCTG
ATTACCAGAGAAAAGGCTAACTGGAAAATTCATAGAAATTTAAAACCAACCAAAGGTAACCCAAAGAAATGTCCTTACTTTTTTACTCTGCTCTGAAATA
GACCAGTGTTTCTCAAACTTGTCTGCGTAGGAATCCCATAGGGATCTTATTTAAAATAGCTTCTGGGTTAGTAAGTCTGGAGTAGGACCAAGAGTCTGGA
TCTCTAACAAGCTCCCAGGAGACAATGATGCTGCTGTTCTGCAAATCACACTGAGTGGCAAGGAAGTAGACAAAAGAAGCAGATTTGAAAGGGGTCAGTA
CACAGGCAAGGGGTAAGAAGGGTAAGAATGTAATCTAATGCTGCTTCGTTCAGCTAAATTGGCTAGAGCTTTAGCTAAAAAATGAAAGAAAAAAAGCCTA
CAGTTTAAACAGAAATTGTGTTTTCTCCCTTTTGATGCCAAGCTCCTTGAAAAAATCAAGTACTTAGGTAACGATTGGTGTGGCAATATCAGAAAAAGGC
CTTATTCTACAATAAAATTTGTAGAATCAAATTTTATTTTGTTTTTTTAGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGTATTGGCGCAATCTT
GGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCCCACAACACCATACCCAGCTAATT
TTTGTATTTTTAGTGGAGACAGGGTTTTATCATGTTGGCCAGGCTGGTCTCAAACTCCTAACCTCAAGTGATCCATCTGCTTTAGCCTCACAAATTGTTA
GGATTACAAGCGTGAGCCACCACGCCCGGCCTCAAAAGGGTTTTAGAAGAGTTATAAAATTTCGATTAGAGACCTGAAAGAATATCAAGATTAAAATAAG
CAGCTTCACACCTGTAATCCCAGTGCTTTGGGAGGCTGRGGCAGGAGGATTGCTTGAGCTTAGGAGTTCGAGACCAGACTGGGCAACATGGAGACAGCCT
TTCTCAATTTTTTTTTTTTTTTTTTTAGAAAAAGCTGTATAGGAATTATAGAATATTTAAGCTGGAAAATACATAGATATCATTTAATTATAACCTCACA
TTTTATAGGTAAGGCCCACAGATGGGGGATGTCTTGCTCAAGGTAACCAAATTAATAAATCGTATATTCTGGACTTAGATCATAAAAACACAGAACCAGA
AAGAATTTAGCGATCTTTACAGAGATGGAAATAGATTTTTCTAATAATAGCCTGACCGTGAACTCAGTAACAACAGAGCTTTTTGTATCTCCAATGTCTA
GTACTTGGCTATAATGGTTACTGGATTAATTCCTTAAGTTAAAGGTCAAGGGATAAGATTCCTAATTTACTTGTTACTAAATCTTGCTCTGAATTTCATT
TCTGTCTTAGTAATAATAACCATTAAGCCCATTGTTTGAATAGTTCTATTTTTATAATAAGTAATATAATTGAATAGCTGACATTATACATTTTTTCTTA
GTTACCCACATCTATGGGAAGCTTAGCTGTTTAGATCAGAAGGCCACACATATCCCACTGCCACAGGGCACCTGTTAGCAGATTAAATTTTAGGCAAGTG
ATAGATCAAAATACACAGATACTAAGAGAGGTATTTTACAAACCCAAATACTTAAAGACAGCAAATTCAACACTTTGTTTACTTTTGGCTTTCTGTTCAT
TAAAATAAAATCCTTATTGAAGATCAGTTAATATACAAAACTGCTAAAATTATGTATTAACTCTCAGAATGTCAAGAGATTTCTGGCAAACAAATATTCA
AATTAGTTAAACTTCATGCTTTCAGGACTGCTCATATTTATTATGTATCCTTTTAACAGCCTAAAATTTTCAAAATTTTCAATTCTAAACTTACTCTCTT
TTTCATGAGTGAAGAATTTTCTGGGATAGAAATAGCTTTTTGCAAAAGGTTTTCCAGTTTCTTTTCTTTCTTTTTTTTTTTCTGGAGACCGAGTCTTGCT
CTGTCGCCCAGGCTGGAGTAAAGTGGTGCAATCTTGGCTCACTGCAACTTTGCATCCCAGGTTCAAGCAATTCTCCTGCCTTATCCTTCCTAGTACCTGG
GACTCCAGGCACGCATCACCACACCCAGCTAATTTTTGTATGTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGAACTCCACCTGCCT
CAGCATTCCAAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCGGTTTTCCAGTTTCTAGTTTGCATTTTTCTAGTTTGAGATCATTCTTATG
TTTGCAATAGATCAAAAATCAACAGGAATGTGCTTCAAATGACAAAGATTTTATACATTTTTATATGTAAAAAGTAAAGACTAGATAAAATTAACATGTA
GTAAGATGAAATTGAATTCTGAAGTGTGAACTGTATTCTTTGCAAGCCATTACAAAGTCTATTAAATATCTATAGATTACTCACCAGGAAAACGCAAATC
AAACCCACAATCGGATACCATTCGCACCCACTAGATGGCTATAATAAAAAAGAGGGACAATAGCAAATATTGGTGAGGATGTGAATAAATCAGAACCTTG
ATATGCCACTGGTGGGAATGTAAAATGGTGCAACCATTTTGGAAACAGCATGGCAGTTTCTGAAAATGTTAAACATAGCCAGGCACAGTGGTTCACGCCT
GTAATCCCAGCACTTTGGGTGGCCAAGGCAGGCGGGTTGCTTGAGTTTAGGGGTTTGAGACCAGCCTGGGCAACATGGCAAAACCCTGTCTCCACAAACA
ATACAAAAATTAGCTGGGCGTGGTGGAGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAAGTGGGAAGATCACCTGTGCCTGGGAGGTTGAAGCTGCA
GTGAGCCGTGATGGTGCCACTGCACTCCTGCCTGGATGACAGAGCGAGACTTTGTCTCAAAAAAGAAAAATGTTAAACATAAAGTTACCATATAACTCAA
CAATTCTACTCCTATGAATATACCCAAGAAAAATGAAAACATGGTCACACAAAAATTTGTACATCAATATTCATAGCAGCATTATTCCAAATAGCCAATA
GTGGAATTAACCCAATGTCCATCAGTTGATGAATTGGTAAACAAAATGTGGTAGATCCATACAGTGGAATCATTCTGCCACAAAAAGAAATGAAGTACTA
ATACATGCTACAGCATGGATGAACTTTGAAAAAAACGATGCTAAGTGAAATAAGCAGACACAAAGGCTATATATTGTATGATCACATTTAAATAAAGTGT
CCAGGATAGGAAAATCCATATACAAAAAGTAGATTAGTGATTACCAAGAGGTATGAGAGGGAAGAATGGAGAGTGACTGCTCATGGGTATGGAGTTTCCT
TTATGAGTGATAAAATGCTTTGGTATTAGATAGTGATGATAGTTGCACAAATCTGTGAATATACCAAAATTTACTGAATTGTGTACTTAAAAAAGTAATT
TTTATAGTATGTGTATCAGACCTCAAAAAAGTTATTAATAAAATCTATAGAGTTATGATACTTTTAAAAAATTTAAAAATAGGGCATTTGTGGTACTAAT
CATATTTATAATTCTTGCAAAATAAGTTATTGTCTGATTTCCAGGTACTAATAGTCAAATGGTTTTTGATTGGTAATTAAAATATATATATATAAAAGTG
GCTGGGCGCAGTGGCTTACACGTGTAATCCCAACACTTTGGGAGGCTGAGGCTGGTGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACACGGT
GAAAACCCGTTTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGTGGACGCCTGTAATCCTGGCTACTCGGGAGTCTGAGGCAGGAGAATCACTTG
AAACTGGAAGGCAGAGGTTGCAGTGGGCCGAGATCGGGCCACTGCACTCCAGCCTGGGCAAAAGAGTGAAACTCTCTCTCTCAAAAAAAAAAAAAAGTGA
ATGCCACTTATGTAATTGTCTATGAACTAAAATGATTTCCTGGTTTCCTAGGCTAGTGCGGATCTGGGAAGAACGAGTAAGCTTAACCAAGCTAAGAGAA
AAGGTCACCAGGGAAGATGGAAGAGTCATTTTGAAGATAGAAAAAGAGGAATGGAAGGTAAGCTTTTATAGAATATTTGATTTTCCACATTTTGCATTTT
GTGAGTCAGTTGAGASAATGATTCTGAGACTGTGTAATTAAGACTAGAATAGTTAGAAACTAATTTTAATAATACACCAAATGAATTTGAGCAACATGTG
CAACTGAAAAGAAACACAACTTCACAATTATTTTGCAAAAGTTCAGTTTGCTTCAACCCTGCCTAAACCTAAATCATTTGTGATATTTCTCCTATTAATC
CTTCTTATAGCAACCTCTCATTTCCCATAAAAAAGATAACCATCTGCCTAATAAAAATAATATTGCTTTTCCAAAGAAATGCTCAGTTAAAACTTTATGG
AATGGAAATATTAGTATTTTCAGTGGGTCTACCACCTAACTCATATTCTTTCTTCCCCTTACACACAAACTCACAGTTGGTTAATTATATTAGGCATACT
CTAATTTTTACAAGAGCTTCTAACCCTTGGGTCAGTGTTTGTTTTTATGTTTTATGTCAGTGTTTGTCAGAGTTAGCTCCTTTATATTCTCTACTGGCTA
TTTTAGGCTGAAAGGGAAAAGGCACAGAGTTCAGAATAGTTGAAACTCTTAAAATTCTCAAATTAAAAAATAAATTTTTAAAAATATTCGTGTATTTCAA
AACAGAAGTGGAAAAGCAGTTTGAATTATTGATTGAAATTATTTTTTTGGATTGTCTCATTTTCAATAACATATATGTACTTTAGGAAAGCCTAATACTG
CATAACAGAATCATCAGGACATACTGGATGTGTGTACATTATTGATCAAAATATTTTTGTTTATTCTATCATGATTGGGGTTTGAAGGTTTAGCCAAAAA
AAAAAAAAAAAAAAAAGAAAAAGAAAAAAAAAAGGAAAGATCTTAAAATCCGGAAGTCACACAAAGCACTTGGAAAAGTAACCCACTAAGGAAAACAAAT
TCCAAATATTCCAAAGTGCTTGTATAAGTCAAATATCACATTTCAGGGTGGCGTGATACTAAAAAAATTTAAGTAATATACAACAACCATCATTTCTTTT
ACTGTAGACCCTCCCTTCTTCTCTGCTGAAACTGAATCAACTACAGGAATGGCAACTTCATAGAACTGGTTTGCTGAAAATTCCTGAATTCATTGGAAGA
TTCCAGAACCTCATTGTGTTAGATTTATCTCGAAACACAATTTCAGAGWTACCACCAGGGATTGGTAAGAAAGATTACTTTTATTCCTGTGCTATTTTAT
CCACCTGCAGATGTGCTTTTTATTAAGATTTTTTTGGATACATGGAATAAAGACCTCTTTATACAGCCCTCAACCTTGAGAATTTTAAACATTTAATCTA
AATTRAAGCTTCTAGGGGATTCAAGTTTGTGGATTTACTGAGGTGATTCAAGATGAGATTTCAATGAAAGAAAAGCCTCTTTGGAAAATATCCTGTGATT
CTCGGAACAATATTGTCGGCTCAGCTATTCCTCTTAGGAAACAACAGGTTGAAGGCAATAAAGCAAAACAAGAAGATTCTTCAAATGGGAAAAAAAAATC
CAAATAGAAAATTGCTGAGGATTTTGTGTAGACAAAATGAAAATAGTTTTCGATTTTTTTTTTTTTCCTATTGCACGGATAAACTTGTCCCTTGTTTGAA
GAAGGGACAGGACACAGACTGGGAAAAGGAAAGACACTAAGAACTCCGAATTTGCCAATACAAAATTGGCAAGTAAGTTATGCTGTAGGCCGGGCGCGGT
GGCTCACGCCTGTAATCCCAGCACTTTAGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAAATCGMGACCATCCTGGCTAACACGGTGAAACCCCGTCT
CTACTAAAAATACAAAAAATTACCTGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCTACCGGGAGGCTGAGGCAGGAAAATGGCGTGAACCCGGGAGGCG
GAGCTTGCAGTGAGCCGAGATAGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAGTTATGCTGTAATACCTTAATA
ACTATAAAGATTATTTTATATCCAACTCCTCTCTATTGTATATTATTTTTTATAGGACTGCTTACTAGACTTCAGGAACTGATTCTCAGCTACAACAAAA
TCAAGACTGTCCCCAAGGAACTAAGTAATTGTGCCAGCTTGGAGAAACTAGAACTGGCTGTTAACAGAGATATATGTGATCTTCCACAAGAGGTTAGAAA
GACATAAATGCCTATGATTGTATTTTCCATCTGCAGTAGTTGACCACTCAATGTGTGGTTGTTAACAATAATAAAACTAATGAGAAAATTCTATGTATTT
CAGAAAAAATATTTAGAGAAAACCATTTCCTTAAGTATAATGCAGGTTTTAACTGGAGAAAGATTTAGTGTAAAAGATACTTCTATTATTATCACAGTAC
TGACATCATTTGTTAAACTGTGATCTCCTTGAAGGCCAGGGTGAGAGTTGTATTATAGTCTCAGAATTGAGGGCAGAGCCTAGGTTGTAGTGATTACTTA
AATGCTTTTTGAATTAATAAATGGTTATCATAAAGCACAGACAATGTAGTGATAGCAATGGGACTGGAATGCCTCCAAACTTTGATTTGGTATGATGTCT
TGTTATTGGTCAAACCAAATTGATCATATAAAAATAAAGACATTTGTATTACTTTTTGAAAATATTTAATGCTCTTAGAATCAGTGAAGAAGTTTCCATG
GTGCTTTGGCTTTGAAAACAATGACTTTACAAGATAAAAGTTAAGAAAAATAATAAAATAGGCTATTCCCTTCTCCCACTTTATCTTAATTAGTGTATCA
GACTTTTCTTCCAAACAAGCAAACTTGTCACCAACAATTGTCGCTCTTGCAAATAAAACACAGTATATACATATACATTATATCTTCTAATAGTTCAATT
TAATGAAATGTATACCCTTGTGTATTAGTCTGTTCTGACACTGCTGATAAAGACATACTCAAGACTGGGTAACTAATAAAGAAAAAGAGGTTTAATGGAC
TCAGTTTCACGTGGCTGGGGAGACCTCACAATCATGGCAGAAGGCAAAAGGCAYGTCTTACATGGTGGGAAGAGAGAATGAGAACCAAGTGCAAAGGGAA
ACCCCTTATAAAACCATCAGATCTCATGAGGCTTATTCACTACCATGAGAACAGTAAGGGGGAAACCATCGCCATGATTCAATTGCCTCCCACCAGGTCC
CTCCCACAACACATGGGAATTATGGGAGGTACAATTCAAGATGAAATTTGGGTGGGGACACAGCCAAACCATATCACTTTGCATACAATAAAAATGATAA
TCATATGGATAATTTCTTACACATACAAGAGGGCCAATAAATATTTTATTTCTAACTCATGTGTTTTTGTTTCTGGGTTGGCTCCATCATTATAAAAGCT
ATGTGATTTTGTACAGTCTATTAACCAGTCTTTTTTTTTGAGACAGAGTCTCACCTTTTGCCTAGGTTGGAGTACAGTGGTGTGATTCTGGCTCACTGCA
GCCTCAACCTCCTGGGCCCAAGCAATTCTCCCACTTCAGCCTCCTAAGTAGCTGGGACTACAGTCGTGTGCCACCATGCCCAGCTAATTTTTAAAGTATT
TTGTAGAGACAGGGTCTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTGGACTGAAGTGATCCTCCTAACTACCAAATTGCCTAGCAAAATGCTAGGAT
TATAGGCATGAGCTACCCCTTTCCTCCACCACTATTATTTGGAAGTTAAATGTTGAGTTTTCCCATACAATTCTCAACTACTGGATCAAAGGAAAACATG
ATAATGGGTGCTTACTCTCAGGGAAAAAAAGGTTTTGCCAGGCACATTCTATAAACCCTGAAACCAGGTTATTATGAAAGATAAATTTTCTTCAAATAGA
TGAACTTTCTATGAGAGTTTTCCACTTCCCTGGAGGTCATTTAGCTTTATATTTATTTTTAATTTGTTGCRGACTAATATGACTAAATAAAGCCCAAGTA
AAATGTGAATATTCCTGGATGTGAAATATCTCCTTTACCAATGTGARTCTTTTAGTAGTTTACATTGTGGACATTTATTTTGAAAAACCTTGCTTTCTTC
TTCAGCTCAGCAATCTGCTAAAACTTACTCACCTTGATCTGAGTATGAACGATTTTACTACAATCCCTCTTGCTGTGTTGAACATGCCTGCCCTTGAGTG
GCTGGACATGGGAAGCAACAAACTTGAACAACTTCCTGATACTATAGAAAGGTAAAAGAAATAACTCTTTATGCTAATGATAAAAGTCTTGAAACCTCTT
ATGAAAAATAACCAAGCAAGACAAATGGGATCTCAAGCATAATCAATCACAATAGGTCCAACTAGTTTGAAATACACTGTTTTAACAGAATATTTTCATT
TGTTCCAAGTAAGTAAAAGGGTTTGGGAAGAAGAAAAAACTGGCTTTTTTCAAGTGATCCACCTACCTCAGCCTCCCAGAGTTCTGGGATTACATGCCTG
AGCCACCACACCTGGCCAAAAGTGGCTGACTTTGAGAAATTAACAAGAATATGCCACAATAACCACCTTGCTTAGCATATGCCAAGCACTTCTATGCACT
TTACAAGTGGATGAAGAAACTAATGACAGAGATGTTAGCTAACTCGCTCAAGTTAGTAAGTGGGCAAGCTAGGATTTGAACCTAGGCAGCCTGGCCCCAG
AGTTCATGATGTTACGCATTATGCATACTGCTTTGCTATAAATGGGCATATTCATCATTTTATTGTTCTCTTAAGACTCTGTCTCAGATTAGGTAACATT
TACAGTAGTTCTTCTTCAAGAAATCCTATGAGAATAGTGAAAGAATTCTAGAATATGTTGATTTGATTTCATTTCTATTGCCATATGACATGAGAGTTGT
ACTGTAGAGATAAACTTCCTGATGTGGTTTCTCTAATAACCAGGTAATGYGATGTCAGTTAACTCAATAAGTATACTGGTTAAAGATGTTGTAAAAGACA
TTTGATTTTTAACATAAGAACCAAAGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTAGGAGGCTGAGGGGGAGAATAGCCTGAGCTCAGGA
GTTTGAGACCATCCTGGACAACATGATAAGACCCCTACCTCTTAAAATTATTTKTTAAAACTCCAAAACCAATATTTTCATATTATATGTAATTAATTGT
AGAAACCTTAATTTTTCAGAATGCAAAATCTACATACGTTATGGCTGCAACGAAATGAAATAACATGCTTGCCTCAAACAATCAGCAATATGAAAAATCT
GGGTACTCTTGTTCTCAGCAACAATAAACTGCAAGATATTCCAGTATGCATGGAAGAAATGGCAAATCTGAGGTAAAAAGTTGTAGGCACAAAACTGAAA
AACCTTGCTTTCTTTCTGGCTACAGAAAAAAGTACTGTAGAGAGATTGTTATTAATAAATTTCAGTTGTTATTTATGTGAATGGATATCTTAAAAATCTT
TTCCAATGTTGACATTCTATAATTTGATGAATAGGATTCATATAACACTGGTCTATTCAAGAAAGAATCCTTAAAACTAAAGCAGTTTGGGATTTATCAG
CTTTAAGAAATGTCTTCCATTTTAGATGTTTATCAAAGGTCTTTTATGGGGAAGAAAGTAAATGTATGAAATAATAAATGTGTGACCTTTATGGGTAATG
TTGGCTCTGAACAAACTTTTGAAAACTTGGTTGACAAAATTTTGAATCAACTGAAAAAAAGCATGACTTGAAATCTCTGAATGCCTTGGTTCTCAGTATT
ATCATTCTTCATTGAATTTGTTTCTTATTAAAATATGTAGTTTTTAAGACTTTTTTTCTCACAGTATTATGTAATTTTTTAGCATGGGTAGATGGGAGTG
TCACTTGTATGTTACCATACAGCTGACAAGTATTTTTGTCTTTTCTTTATTATGTTTCATGCTATGTATGTACCATAACCAACCTATTGCCTATGAGAAA
CATGTAAGATAAAATATTTACAGCCATTGTTACAAGTTTATAGTGTATTTTTCTATCTTGTTTTATATGTATGTTACATAACATTCAAAAGGAATTTTTT
TTCTTGAGAAAAGGATACAAATTGCAAAATCCACAATTTTGATAACTGAAAATTGCCAATTGTTTTGCAGTACTTTATTATATTGGGTGTCTTGTCTCTT
TTGGGCTTCTAGTTAGCTAAATGAATGAATACATTAGACATTTTTGGGTTTTAGTTGGGATTTTACATAGCTTGCATTTTAATTCTTTGGTTCTTCGCTG
TTTGTATTAACCCATAGCATTATTTTAATAAATGTTATAATACCAACCTAAAAAAAAAAAGAAATGTCCTCTGTTGATGACATTTTCATGAAAATTATAC
AGCTAAAAAAACTTCACTCACAACATAAAAATCAAAAGCATAAAAGTGTTTATTTCCTAAATAAGCACAAAGGGAAACAATTATGTTATTGATAGCAGAT
ATATTAGTCGGGAGTGGTGGTGCATGCCTATAACAGCTACTTGGGAGGCTGAGGCTGGAGGATCGCTTGAGCCCAGGAGTTCGAGGTTGCAGTGAGCCAA
GATTGCGCCACTGTACTCCAGCTTGGGAAACAGAGACTATTTCTTAAAAACAAAACAAAAACAAACAAACAAAAAGCCACTAGATATAACTTTTTACTAA
GTACTATCAAAACTCTGTCAAGCATTTTTTCTTTTTAAAAATTATTTTAGATTATTTTAGGTTGCTTGTATGTCTTCTTTTGGGAAATGTCTGTTCATGT
CCTTTGCCCGCTTGTGGGGTTGGTTTTTTTCTTGTTGAGTTCTTTGTAGATTCTGGATATTAGTTCTTTGTCAGATGTATAATTTACATATATTTTCTCC
CATTCTATAGGTTGTCTATTAACTGTTGATTATTACTTTTACTGTGCAGAAGTTTTTCTAATTAAATCTCATTTGTCTATTTTTGGTTTTGTTATGTTTG
CTTTTGAGGTCTTCATCATAAATTCTTTGCCTAGGCCAATGTCCAGAAGAGTTTTTCCTAGGATTTCTTCTAGGATTTTTACTGTTTCAGATGTGACATT
TAAGTTTTAACCCATCTTGAACGCTCCCTCAAGTATTTTTCTTCCAAAGCTTAATCTTCTGACAAATGAGAATAAGAGAATACCCACTAAAACCCAAAAC
TTCGATAACAAAATAATTCATTTATTCACTTGTTCAGCAACTACCTGCCTTGTACTGGGTGGTGAAGACACAATGATAAGTAAGATGGAGGTATATAAAT
TATGCAGAAACTAAGTTCATAGCACTAATTTTATATTTAAGATATGTTAAAATTGCTCTTAGAAGTTAAGCTGTATTGCATTAAATATATGCTGTAGGCC
AGATGTGGTGGCTCACACCTGTAATCCCAGTACTTTAGGAGGCTGAGGCAGGCAGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAATATGGCA
AAACCCTGTCTCTACTAAAAATGCAAAAATTGGCCGGGCGTCATGGTGTGCACCTCTAGTCCCAGCTACTTGGGAGGCTGAAGCACAAGAATCACTTGAA
CCCGGGAGGTGGAGGGTGCCATGAGTCCAGATCATGCCACTACACTCCAGCCTGTGCAACTAGACTAACAGTTGCTTTTATAAGCTTTGAAAGTAAGTTG
TCTAAAGCTAGTGTTTTTTTTTCTCTTAGGAAAAAAACATAAGATTCTTGAGATATATCACATCTCACCAAGTCGTTCAGTTATTGAAACCAGTTAAAAA
CGAGTAATTTAGTATATTATCATTTGACCTTTCTCCAGGGAAATAAATGTACACTTCCATGACACCTATAAAAATACTGTTTTTTGATGAACTTCTAGGT
TTGTCAACTTCAGAGACAACCCACTGAAATTGAAAGTATCACTTCCTCCCAGTGAAGGCACAGATGAAGAAGAGGAACGGGAATTATTTGGCCTTCAGTT
TATGCACACATACATACAAGAGTCACGGAGAAGAGCAGGTRTAAGATTTGTATATAACACAGATTAAATGTTTTTTGGTAGAGTAATGTGTRTATCACTA
ACTGCTGCCTTTTGATTAATTCCTTTATATATTTCTCATTCCATCTTAAGTTTTCTGTCAAATTCTGTTCTCTTAGTCAATATTGTGGGAAGAAAAAAAG
TGAAATAGAGAGRGAGGTTTTAAAGATATTCAAAGTCTTTCAAGTGGGGGAAGGAAATAAATCCTTTGGCTAAGCATCTGAAGTAAAACCAAGTGAGTGA
AGACATGATTCTTAAAGCTTTGCTACCTCATTCTACCAGCTTGCCACACATAGCAGTTTGACCATGAACTGACCTTCCCTGTCATTCCATAAATAGAAAA
AAAAATTTACCTAGGGATGAAAAATATTGAGAACACAGTTTTTTGTTTGTTTGTTKGTTTGTTTGTTTTAAAGAGATGAGGTCTTACTATGTTGCCCAGG
CTGGAGTGCAGTGGCTATTCAAAGGCACAATCATAGCTCACTGTAGCCTTGAACTCCTGGGCTCAAGAGATCATCCGACCTCAGCCTCTGAAGTAACTGG
GGCTATYAGTGCATGCCACCACGTCTGGCTGAGAACACAGATTTTAATGAACAAAGTGTGAGGTTTTGATATAGAGATTTCAATCACTTAGTCTCTGATA
ATTAATTGAGGGCCTTTAAGCTAAACCAAGATCAGGGGAAGAGGACAAAGTGCACAATTATTTGTTAATAAAAACAATGAAACAATAGTAACAGAAATCA
TAGTCTTATAATTTTAAAATGTTAAGAATTTTTAACTTAAAAGGTAGATTTTAGTTCAACTTAATGCAACAACTAGTTTGAAAAATGAATATAACTGAGA
AGACAATGACAGAGTTTTTCAGCTAAAGGAAATAATTTTTACTAACATTCAGTGGAGGATGTTTAGGAAATGGTGATTAGATTTATTGCAGCAAGGTCAT
AGAAGCAATGACATGGAGACAGATTGGGGGAAGACAGGCAAAAAAGTCATAATTGTGACCTAGTTTTGGAAAGCAGAGAATATATAAAGACAATTAGGAG
ACAGAATTGGTAATTGAATGAAGATGAGAAAAGGGAGTTTACAATGAATGTTTTTGGTTTAGAGGGCAACTGGATAGATGGTGGTGCTAAGATGGAGAAT
GAAGTACAGAAGATGGGTTGGCGAATAGAATCAGGTGGTAGAGGCAGAAGATGATTTCTAATTTTGGCAGTCTTTTTTTTTTTTTTTTTTTTTTTTGAGG
AGTTTCTCTCTGGTTGCCCAGGCTAGAGTGCAATGGTGCAATCTCGGCTCACTTGGCAAATTTCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCT
CCTGAGTAGCTTACAGGCATGCACCACCACGCCACGCCCCACTAATTTCGTATTTTTAGTAGAGACAGGGTTTCACCATATTGGTCAGGCTGGTCTCGAA
CTCCTGACCTCAGGTGATTCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTAAGCCACCACACCTGGCCCTTAGCAGTAAATTTGATGCACC
TGTGGAACATGCAAGTTGTGGTAATTGTGCAGGTGAATCTGAAGTTCAAGAAGAGGTTTGTTGAATCTGAAAATTCTGCAGGACAAGAAATAGCTGTATG
CATATCCCACAGTCACTTTCTCATGATATGTGAAGACAAATTAACAGTTAGGAAAACAATAATCCTGACCTAAGGCTGGCATGTTGAAGGACAAACTTAT
CTTCCTTTAAGGTACTTGATACCATTGTCAGAAACATACCATTAAGCTAAATGGGCCACAGAACTGTTTCTGTATGATAATTCTTGGGTGTGTATGTATA
TTTTATCAAACATAAATGAGATTATGCCTGTTGTAGAATATTGTTTATTTCTGGGCATAAATTGTTGAATGATGCAAAACAAATTTTATGACACAAATTA
GTATTGCTTGACACAATAAAAAAAGGTTAATTATTTAATGATATATCTTCATTTAGGTTCCCTTGATTGGGGACATGGGTAACTAACTTAAACAAACTAC
CTTACTTGACATAAAACTTATAACAAGGGAAAAAAGTTAACAACTTAAAGAGATAATAAAATCAAAGCCTATTATGTTATTAAAAAGATTCACGAGTTAC
TACCACTACTATTACTAGTTAATATTTATTGAATTACTCTGTGCTTGGAACTGTTCTATGCATTTTACTTGTGTTATCTCATTTGATGCTCACAACAACC
TTGTGAGGTAGGTATTATTGTTATCATCATCATCCCCATTTTAAAAGGAGGAAATTGAGGCACAAAGAGATTAGGTAGCATGCCCAAGGTCGCACAACTG
AAGATGGTAGGTTTGGAATTTGAACCGAGACAGTCTGACAAGATATATGAGACTAAAGTCAGGAATTTTAAATTGGTTAGGCTTCTTATTTACAAATCAT
ATAATCATAGAACTACAGGATAAAAATAGTTATTTCAGAATATCATAATATCTAAAATTAGTAATTCTGAACCTTTGTCTTGGCAAATGTACCATCAATT
AAGACAATTTTTACAAATAAAGGCAGAAACAAAATAGGGATAAGATGCAGAAGAGAATAACAGTCCTACCATATATTTGGTTTAGTATTTTCTTGTGCAT
AGAAACCAGTCATGAGTTAAATAAGGCCTAAATTTGAGAAGGTTTTTGGTTTCATTATCTAATTTCTATTTTATTCCAAATTATTTTCCCAAACAGAAGA
GAACATACTTATTGTTTGTGCCTACATATATAAAAAATGACCTGATAAAAGATATGAGATAGCTAATCAACTTCAGAAATTATTTCAAATTTGTGAATTA
TGTTTGTAAGTATCTTTTTGGAAGTTCTAACTAGACAATTATCCAACAAAATAATTAAGTGAAATAATCTTTTTTCTTTGAAAACAGCTCTTCAGTTTTG
TGTTTGTCATGGACAGATTCTGACAATATATACATGTATGGCTCTGGAAATTTGAAGGTGACTTCATTAATTAATTGTGTTTATTAATTGTGAATATCTC
TGAATTGTCTGCATTTGAGAAAATCACAATTGTGCTTTCCAGATCTGTAGGGAAAAATGTCCACATATAAGTCAAATTCTCAGATTGGCCCTTGTTACAA
TCAATCACTACCTCTTGAACTTAAGAAATAAAAAATATTAAATAAAATCAAAGGAAGATAAATTTCCAAAATTAATACAAACAGAAATACGCTAATTATG
TGTTGACATGTTATGTATGTTTCAGATCACCAAGTCAACGGTTCAACTACTTTACCAATCTCCATAAATACGGATGGATAATATAATTCAAGATGCCCTT
CTAAAGAGGATTACTTTGGTGAATTCTCTAATGTTTGGATTTCTGAAGTAAAAAGAAAAGCTATTACCAAAGTTTAATGAGGCCACAGCATTTTTTAAAG
TTCATATTATTTGCTATTTAAAGTATATATTTTTTTGATATAAAAATATAATTAAAAAAWTTTTTTTGGTGGAAGACAGATGATGCTCAAATTTCTTTTC
CATTAAGCAGTTGTTTCTGGTGATGAAGAATGATTTGGTAAAGCAGTTAACAAAACATTTTCCAAAGACACCAGAGGGTCTGTATAGTACTGCAAAGCAG
GACTGAATCCCTTCTGCTGCAAATACTGGATTCGACCTTGGTCAATCAGCAATTTACAAAGATGCCCTATTTTCTTCTTTTCTTCAACACTAAGAAGCCT
AAATTGAATAAACACACAYAAAACATTGTTAAAATTTTGCAAAAGTTTATAAAAAATTATTTTTGTCACTATTTATTGAGAGACTGTTAACTAACCCATA
ATGTACTAAGTACTTTGTCCCATGCTTCCAAGACACATTATATTTATGACCACAATAAAAGATGTGTATATTTTAGCTTATTCTAAAATTAGATTATAAA
ATACATTTTCATGAATTGTTGATAATAGTCATCTAAAGTACAGTACAATATAATATTTCTCCTTTAGTATCATGCATTACAAAAGTAGTCTCTTACCCAG
GCAAACAATCAGCGCCATCATCTGTGATTCTGTATCCTCCATCATCATGCTCTTCACTATCATCATTCTGATTATCTTGCCTCTTTGTGGTACTATTTGA
GGTTTCCAAAGATGTTTTCCGCATCCCACAAGTTGCCCAACTACTCATTCGCTGGAAATAATGGAATTCCACTGCTCCAAGGCCTAGAGCCCTGAAATAT
TCTTTGCCCACATAATGTCTCCAATCACACCTGTGGTGACAACAGAGTGCAATAACAATGCCAGCCACAGGGTTCCACTTCTCTGGGACATTTTTTTCAT
TTCCTTCCTTGGCCAAAGTGTAAATTTCTTTTTCTGTTTTATCATTCTTTATGCGTTTGGCTAAAGGTTCTTCATTCCTTTCCTCAAAACTGGCAGCATA
GGTTTCAACCAAACATCGTAATGCAAGATCTGCAAACACAATTATGTGGCCCCCCCAAACCACATCATCTTTAAAAATAAATACTTTTTACATTTATTAA
GCAGTACTGTTTTTAAAAACTCAACAATAAAAACAGCAAAAACCTACTCAGCTTTATATTTGTAATAATACTATCATGAATTATCAACTTCATTCAAATT
TGCTCTTCTATCTTCTCAATTTCTTTAATGATTTATTCTGCATAAAGCCTACTTCCCAATAAAGCTATCTGAAGCTTAAGATCTACAATTTGAAGAACTT
TTACCCAACTACCTGAATTGTCTCTCACTTTTCCTACCTTAGCTGAGGAAATGACTTGTATGGGAAAACTTTATTCACCTACACTTACATTCTAGTTTAA
GAAAGGAAAAATGAAGGAAGGAAGGAAGGGAGGGAGGAAGGGCAGACAAATCTGTTTAGGTTGATGCTAGGTCAAGATGCTTGTCTTGAAGAGGCTCATA
GCAAATAGTGATGAACTGAAGAGTTGAAAAGAGGGCGTCAGAACAGAATCTGGAAAGCAGGCCTCACTGAGTAGCCTTACTGTATTTATTCATTTATTTA
ACAAACATTTACTGAATGCCTTTCATGTGCAAAGCACTGAGGATACAATTATTAATATACACAAACTTAAGAGGCAGATGTACTCCACATTACAATGAAA
ATATTTTAGTATATTTTAAAACTAAATAAATGGATTTTTGATGACTATGGCTATTTCCCATCGAAAACTCCTACACTGTTGACAATACTGGAAAGACCCA
AAATGTAGGACCCATATCTTCTTAATCATTAGATTGTCATGTTGTGTCTGTTCAATCAAAAACATATACATATTTTAAAATTTTATTACCCTAAGATATC
ACAAATGACTATTAAATGATCTGATATTTCACTAGTAAATTTAATTCAATATATGAATTTAAGTCAACAAACATTAGAAACCCATTATTTGCAGAAAGTG
ATAGCTAATCTATTATTTCATAAACTATTATTTTCTGACAAAATACATTTAGTCATTGTTTTATTCATATTTGACTTAAGTAAGTGATTTTCAGAAATGT
GAATAACCAGATAAATTATTAAAAGAATTAAGTTATTTCAGGCCAGGCGCAGTAGCTCACGCCGGCTGAGGTGGGCAGATCACGAGGTCAGGAGATGGAG
ACCTTCCTGGCTAACACGGTGAAATCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCACGAGTCTGTAGTCCCAGCAATTCGGGAGGCT
GAGGCAGGAGAATCGCTTGAAGCCGGGAGGCGGAGGATGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGTCTGGGCGACAGAGCGAGACTCCGTCTCG
AAGAAAAAAAAAAAAGAATTAAGTTATTTCAGAATTAGAAGGAGCTTTAGCAATTTATCTCAATTCATCTTTTATAAAGAACTTAAAAGACAAAGCCACA
TATGCAGAAAGGGACAAGGAAACACAGCAAATTGGTAGCCAAGATTACTCATTCATTCAAATATTCACTGTGTTCCTGTTATATAGCAAGCATCGTACTA
AGTATATACCATATACTCAAAAAATTCAGAGCATGGTGGAAGAATTAGATATATAAACAGATAATTAAAATACCACAAGGTAAAAATATGCAGAGGGTAT
TATGATAACACCAAGGAGGCATATCTTATTTAAGGGAGCTCCCTGAGAGTGGTGACAACTGAGGTGAAGGATGAGTAAAAATTGACCAGTTGTTTTGTTT
GGGTGAGTAGGTGAATGGGGGTGAAATTCCAGATATAGTAGAAATAGTACAGTCTATGGAAAAGCACACAGGGTTTGATGTTGCTGAACAGCAAAGTAGG
AGACAGGAAATGTAAAGAGAGGAAGGCTGAAGCCAGATTGAGACTAAAACGTTATGTCAAAGAGTTTGGACTATATCAGGAAGTACCGAAGAGTTTAAAG
GGAAAGACACATTAGTTGTGTAGCAGATGGGTCTGAGATTGATTGACCGATTGAGATAGGGTCTTGCTCTGTCACCCAGGCTGCAGTGCAGTGGTGCTAT
CCCAGTTGACTGCAGACTCAGACTCTTAGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAATAGCTGGGACTACATGCACAAGCTATCGTGCCCAACAA
ATTTCTGTAGAGATGGGGTCTTCCTATGTGCCCAAGCTAATCCTGAACTCCTAGCCTCAAGCAATCATCTCACCTCAGCCTCCAGTGTTGGGTTTCCAGG
CATAAGCCACTGTGCCTGGCCTGAATATTAGTATTTTAAGGACAGAAGTGGAAGGAGACTGTGAAATAAACAGAAGAATGGCATAGATGTAGGGGAAGAA
CCAGGAAATAAGAGTATCGCAAAAGAGAAGAAAATGGAATTTCAAAAAGGGTAAGCAACTGCAGCAGAGACAAAAGGAGGATTCAGATACAGTGAATCAA
GGGAAAAAATTATGTGGAACATGAGAAATGGCCACTGTAGGTCAAAAGAGTGTACTCCCTCCTACCCCCGGGATGGAACTGGTTTACTTTAGAAGACTTT
TATGAGGCTTAAATGAGATAAGGTATGCAAAAGTACAGTCATGCATTGCTTAACTATTGGTGTATGTTTTGGGAAATGCATTAGGCGATTTCATCATTGT
AGGAACATCAGAGTGTACTACACAAACCTAGATGGTGTAGTGTAGCCTACTACACACCTAGGGTGTATGGCACAGCCTATTGCTCCTAAGCTACAAACCT
GTACAGCATGTTACTGAATACTGTAGGCAACTGTAACACAATGGTATTTGTGTATCTAAATACAAAAAAGGTACAGTAAAAATATGGTATAATTTTATAG
GACCACTGTCATATATGAGTCCATTGTTGACCAAATCATCGTTATGTTGTACATGACTATAGTCTTAAAAACTATGAAGGCCAACACAAATATATAGTAC
TCAATGCCATTTCCAGCCAATATGAATAATATCTATGGATGCTCCAAGTAATCCATATGGGTAGATGATGAAACTAGCAAAAGTTAGGAAGATGATGTAA
CAATAATTAACATTTATTGAGCACTATTATGTGCCAGACACTTTACATGCAACCCGGTAAATTATTAATATATTAGTATCTCTGTTTTATAGATGAGGTA
ACCAAAGCTCAGAAAGGTTAAGTAATTTGACAAGGTTACACAACAAAGCTGAAGGCTAGACTATCTGATTCTAAAGCACATGCTGTTTCCACTTTACCAT
GCTAGATCTGATGGATCAAAGTGCTAAGACAAGACATCTTAGATTTTTTTTTTTTGTCTAACATTTATTTTTTTCTTTTTCCCCAGAATCCTGAAACACA
ATAGTCTTTTAGTAGAAGAGGTTTCTGAGTTCTTTCTAAGCAACTACTCTAAAAAATCAGTAGCTTCTAGGTGGAATCATACAGTTTCCATAAATGGTCT
TATTTTCCTTTTCTGGTTGAAATTTAACCCAAAGAACTTTAAGGTCTAATGTGATGCAGTATTTACATACAAAACTCTTAATTCATCCTGCAAAATGGCC
AATATGAGCAGATAAATAGGAAAGCTATGCATCTAATAAAGCACAGGGCCAGTGCTCTATAAAGATTATTGAGTTGTAAACATAAGATATCTATTCAAAA
GAGACCACTGAAATGGTTGGGGCCAGGTTAGGCCAAAACTTAATGCATTAATGTAAACATTATCAGTATGTTTACGTACCTGTTGCCATACCACACAGAT
GCTTTCCAATTCCTACCACAGGTAGTTTTTCTTCTCTTARCACAGGAATCTTGTCTGAAATGGAAATGAGAATTAACTGTCTAGTGAAATAAAGTACATA
TTAATGTGGCCTTCCAAAAGAAAGAACTAATTAGAGTCTCTGAATTTTAGCCTGAAAGAGACTCAAACAAAAATTATCACTTTATGGAACCCAACATATA
ACATAAGAACTTGTTTAGGGTTCATAACATCAGAAAGTTAATATATTCAGCTAAATAATTTTAAATACATTGATTTCTATACAAATGCTGGGTTGCTTTT
CATGGCTGGATTAAAATTGGTGAATGGAAGAGGTTGCAAAGATATGTTTGCATTATTTTCTTTGGATAATCTGAAAAATAGAAAAGGTATAAAAAGGGCA
CTACAGAGGTTGATTGAGGAGTTTGTGTGTGTATGTGTCTGTGTGTGTTTTGTGTATGGAATATGAATCCCACAGTGATGACTTCTTTTGTACAATTTAA
AATTCTAGGAAGTATCTTTTACACATTAGCTAGGCAGAGAAATATCTCATTTTCTTTCATGGTTTAGGTAAAGTCACGTTAACTGCAGGCAGAAGGCTAG
TTTATAGTTTGAACAGACTCAAAATTAATTTAAACAGGACAAAGAAACAACAGAAGTACATATTATAAAACTTTTAAACTCTTCCCTAATATAACACTTC
ATTTCCACTTGATACTGAAAATTTTTAAAATTCTCAACCTTAATTCAATTTACATCTATTTAAAAACATTATATAAAACATTCTATATTAACAATGAATT
GATTTGACTGTTTTCCCTGAAGCACAGTTCTGCATGATTGGATTTCTAAGCAACCTCAGAGTTTAAAACAGTTATGATTTATTTGTAGACCAATGGAAAG
TTACACAACTTACTCAAACACAAGTGTTGAATATCAATTTGAAGTCTTTCAAACACTGAATTTTTCTTTCTGTGTTTTCCATCCACCTGCACAAACAGAA
CATTATTGTAATAATCACTTCTTACATTTAAAAAAGCTTTATGAAAATAAAAAGATTTTTATTGGTTTTCAAAATTCAGAGCAACAGAACATATTTAAAA
ATTAAGATTGTACATTCTTTGATGAGAACTTCAAAATATCACACTTTTTAAAAAAGATTTGAAAATGTTTATCAATTATTACATAGACATTATTTCCTTT
AACCCTAAAAATTCCCAATTCACTGACAAAGGAACTGAAGTTCACAGATCTTAAGTGATTTATCTAAGATTGTCTACTAGCTCCTTTATCTTTGTCACTC
CTGGTGTACTATTTTTGGTTCGCTCCTCTTCTTGCTCTCCTGAAAGATCACAACCATTCTAATCTATACCTATGTGCCCACGACCGGCTGATCTACATTT
GTGGCTCAGGCCTCTCCAATGGGCATCAGACACATACTCAATTGTGAACTAGAAAGCTCTACTTCACCAGCAAACTGGACACATTCAGAACTGAACTCAT
TATTTCTGTCTCCAAAACCATCCTTCCTCTTGTGCCTCCTTCATTCCTTATCTCAGGAAAGAACACCACTTAGTCACCTAAGCCATAAAAATCCTACCGA
GAATTACTCCTTATCTCTCATATTCAATTACTAACAAATCACCAACTCTTGTGGCTTCCAACATCTTAATATTTCTCATACTCTTGCCCTCCTCTCCATC
CCAATGCAATAGCTTTAGCTCTGGCCTCTTTCTTACTTGGATTGTTGGACAAAAATTATCTTTATTATTAATCTCTCTAAGTATCAGACTCTTCTAATAT
AGTTTTAATGGTGCTG


SNP Information

Context             (SEQ ID NO:42526):
TGGCAAGTAAGTTATGCTGTAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTAGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAAATCG
M
GACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTACCTGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCTACCGGGAGGC
Celera SNP ID:            hCV26140197
SNP Position Genomic:     25567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42527):
AAGTAGAAGGACTTTGAATAGGCATTATTTTTCAAGATCTTATAAATAGTTATGCCTGATAGTTTTATAATGTCTGTAGCGTATTTTGCAGTCCACAGAA
Y
GCACTCACATACATTATCAGCTGATCCGTCGCAAAGAAGCCTCATGTGATTCTTTCTATTCTCAGCTTTGTCCATGAACTAAAATTAGAACTAGGCTGAC
Celera SNP ID:            hCV16109238
SNP Position Genomic:     5897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:42528):
CATACTCAAGACTGGGTAACTAATAAAGAAAAAGAGGTTTAATGGACTCAGTTTCACGTGGCTGGGGAGACCTCACAATCATGGCAGAAGGCAAAAGGCA
Y
GTCTTACATGGTGGGAAGAGAGAATGAGAACCAAGTGCAAAGGGAAACCCCTTATAAAACCATCAGATCTCATGAGGCTTATTCACTACCATGAGAACAG
Celera SNP ID:            hCV26140198
SNP Position Genomic:     26854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42529):
AAAAAGAGCATTCTAAATGCCTTGTTATTGAATTTGATATAGAATTTTATTTACTGAAAACTCAAAATATACTTAAAGAAAACAGCTGACTCAATTAAAT
K
TGTCTATGCGATAGGAGTCACAAAAAATACAAATGTGAAAATGGTAGCTATCTTATACCCTCATAGGACTCTGTTTAACATTCATCAAAGTTTGATTAGT
Celera SNP ID:            hCV25757905
SNP Position Genomic:     15978
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,35)   caucasian(T,40)   total(G,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:42530):
TCCCAGCACTTTAGGAGGCTGAGGGGGAGAATAGCCTGAGCTCAGGAGTTTGAGACCATCCTGGACAACATGATAAGACCCCTACCTCTTAAAATTATTT
K
TTAAAACTCCAAAACCAATATTTTCATATTATATGTAATTAATTGTAGAAACCTTAATTTTTCAGAATGCAAAATCTACATACGTTATGGCTGCAACGAA
Celera SNP ID:            hCV25613411
SNP Position Genomic:     28954
SNP Source:               Applera
Population(Allele,Count): african american(G,32|T,2)   caucasian(G,40)   total(G,72|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:42531):
CCTTCAGTTTATGCACACATACATACAAGAGTCACGGAGAAGAGCAGGTATAAGATTTGTATATAACACAGATTAAATGTTTTTTGGTAGAGTAATGTGT
R
TATCACTAACTGCTGCCTTTTGATTAATTCCTTTATATATTTCTCATTCCATCTTAAGTTTTCTGTCAAATTCTGTTCTCTTAGTCAATATTGTGGGAAG
Celera SNP ID:            hCV25613421
SNP Position Genomic:     31892
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,36|G,4)   total(A,68|G,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42532):
GCAAATACTGGATTCGACCTTGGTCAATCAGCAATTTACAAAGATGCCCTATTTTCTTCTTTTCTTCAACACTAAGAAGCCTAAATTGAATAAACACACA
Y
AAAACATTGTTAAAATTTTGCAAAAGTTTATAAAAAATTATTTTTGTCACTATTTATTGAGAGACTGTTAACTAACCCATAATGTACTAAGTACTTTGTC
Celera SNP ID:            hCV8384372
SNP Position Genomic:     35619
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:42533):
ACTTCCTCCCAGTGAAGGCACAGATGAAGAAGAGGAACGGGAATTATTTGGCCTTCAGTTTATGCACACATACATACAAGAGTCACGGAGAAGAGCAGGT
R
TAAGATTTGTATATAACACAGATTAAATGTTTTTTGGTAGAGTAATGTGTATATCACTAACTGCTGCCTTTTGATTAATTCCTTTATATATTTCTCATTC
Celera SNP ID:            hCV25613422
SNP Position Genomic:     31841
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42534):
CTGAAAACTCAAAATATACTTAAAGAAAACAGCTGACTCAATTAAATTTGTCTATGCGATAGGAGTCACAAAAAATACAAATGTGAAAATGGTAGCTATC
W
TATACCCTCATAGGACTCTGTTTAACATTCATCAAAGTTTGATTAGTATCATATAGTCTAATTTTCAGGATTGTATGTTCAGCATTATATGCCCTAGGAC
Celera SNP ID:            hCV25613423
SNP Position Genomic:     16031
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,40)   total(A,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:42535):
CTGGGGCTGTCAATGCTGTAAAGGAAGTTTGGGAAAAAAGAATAAAGAAACTCAATGAAGACCTGAAGCGAGAGAAGGAATTTCAACACAAGTATGCTAA
W
ACATATTTATTATTTTGAATTAGTGAAAATTCATATTATCATCACCATAAAAAAGAGCATTCTAAATGCCTTGTTATTGAATTTGATATAGAATTTTATT
Celera SNP ID:            hCV25613434
SNP Position Genomic:     15828
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,40)   total(A,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42536):
CTATGATTCAGCTATTCAAAACCTAATGAAGTTGGTGACTATGACAATGTGGAGAAATCATGACAGAAAATGTGGTTTGTACTGGGGCTGTCAATGCTGT
W
AAGGAAGTTTGGGAAAAAAGAATAAAGAAACTCAATGAAGACCTGAAGCGAGAGAAGGAATTTCAACACAAGTATGCTAAAACATATTTATTATTTTGAA
Celera SNP ID:            hCV25613435
SNP Position Genomic:     15747
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,40)   total(A,75|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42537):
GATGGAAGAGTCATTTTGAAGATAGAAAAAGAGGAATGGAAGGTAAGCTTTTATAGAATATTTGATTTTCCACATTTTGCATTTTGTGAGTCAGTTGAGA
S
AATGATTCTGAGACTGTGTAATTAAGACTAGAATAGTTAGAAACTAATTTTAATAATACACCAAATGAATTTGAGCAACATGTGCAACTGAAAAGAAACA
Celera SNP ID:            hCV25613436
SNP Position Genomic:     23816
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:42538):
GCTATTACCAAAGTTTAATGAGGCCACAGCATTTTTTAAAGTTCATATTATTTGCTATTTAAAGTATATATTTTTTTGATATAAAAATATAATTAAAAAA
W
TTTTTTTGGTGGAAGACAGATGATGCTCAAATTTCTTTTCCATTAAGCAGTTGTTTCTGGTGATGAAGAATGATTTGGTAAAGCAGTTAACAAAACATTT
Celera SNP ID:            hCV25613347
SNP Position Genomic:     35360
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,28)   caucasian(A,6|T,34)   total(A,10|T,62)
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,34)   caucasian(A,6|T,34)   total(A,10|T,68)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:42539):
GTTTGACCATGAACTGACCTTCCCTGTCATTCCATAAATAGAAAAAAAAATTTACCTAGGGATGAAAAATATTGAGAACACAGTTTTTTGTTTGTTTGTT
K
GTTTGTTTGTTTTAAAGAGATGAGGTCTTACTATGTTGCCCAGGCTGGAGTGCAGTGGCTATTCAAAGGCACAATCATAGCTCACTGTAGCCTTGAACTC
Celera SNP ID:            hCV734787
SNP Position Genomic:     32256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42540):
TGATTAATTCCTTTATATATTTCTCATTCCATCTTAAGTTTTCTGTCAAATTCTGTTCTCTTAGTCAATATTGTGGGAAGAAAAAAAGTGAAATAGAGAG
R
GAGGTTTTAAAGATATTCAAAGTCTTTCAAGTGGGGGAAGGAAATAAATCCTTTGGCTAAGCATCTGAAGTAAAACCAAGTGAGTGAAGACATGATTCTT
Celera SNP ID:            hCV25752827
SNP Position Genomic:     32013
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,3)   caucasian(A,40)   total(A,67|G,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42541):
TGCAGTGGCTATTCAAAGGCACAATCATAGCTCACTGTAGCCTTGAACTCCTGGGCTCAAGAGATCATCCGACCTCAGCCTCTGAAGTAACTGGGGCTAT
Y
AGTGCATGCCACCACGTCTGGCTGAGAACACAGATTTTAATGAACAAAGTGTGAGGTTTTGATATAGAGATTTCAATCACTTAGTCTCTGATAATTAATT
Celera SNP ID:            hCV734788
SNP Position Genomic:     32407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42542):
TTAATGCATTAATGTAAACATTATCAGTATGTTTACGTACCTGTTGCCATACCACACAGATGCTTTCCAATTCCTACCACAGGTAGTTTTTCTTCTCTTA
R
CACAGGAATCTTGTCTGAAATGGAAATGAGAATTAACTGTCTAGTGAAATAAAGTACATATTAATGTGGCCTTCCAAAAGAAAGAACTAATTAGAGTCTC
Celera SNP ID:            hCV25613357
SNP Position Genomic:     40140
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,3|G,37)   total(A,5|G,71)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42543):
ATGGCAACTTCATAGAACTGGTTTGCTGAAAATTCCTGAATTCATTGGAAGATTCCAGAACCTCATTGTGTTAGATTTATCTCGAAACACAATTTCAGAG
W
TACCACCAGGGATTGGTAAGAAAGATTACTTTTATTCCTGTGCTATTTTATCCACCTGCAGATGTGCTTTTTATTAAGATTTTTTTGGATACATGGAATA
Celera SNP ID:            hCV25613447
SNP Position Genomic:     24949
SNP Source:               Applera
Population(Allele,Count): african american(A,28|T,2)   caucasian(A,40)   total(A,68|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42544):
CTGCAGATGTGCTTTTTATTAAGATTTTTTTGGATACATGGAATAAAGACCTCTTTATACAGCCCTCAACCTTGAGAATTTTAAACATTTAATCTAAATT
R
AAGCTTCTAGGGGATTCAAGTTTGTGGATTTACTGAGGTGATTCAAGATGAGATTTCAATGAAAGAAAAGCCTCTTTGGAAAATATCCTGTGATTCTCGG
Celera SNP ID:            hCV25613448
SNP Position Genomic:     25105
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,19)   caucasian(G,40)   total(A,3|G,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:42545):
TTATATTTATTTTTAATTTGTTGCGGACTAATATGACTAAATAAAGCCCAAGTAAAATGTGAATATTCCTGGATGTGAAATATCTCCTTTACCAATGTGA
R
TCTTTTAGTAGTTTACATTGTGGACATTTATTTTGAAAAACCTTGCTTTCTTCTTCAGCTCAGCAATCTGCTAAAACTTACTCACCTTGATCTGAGTATG
Celera SNP ID:            hCV25613449
SNP Position Genomic:     27847
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:42546):
ATTATGAAAGATAAATTTTCTTCAAATAGATGAACTTTCTATGAGAGTTTTCCACTTCCCTGGAGGTCATTTAGCTTTATATTTATTTTTAATTTGTTGC
R
GACTAATATGACTAAATAAAGCCCAAGTAAAATGTGAATATTCCTGGATGTGAAATATCTCCTTTACCAATGTGAGTCTTTTAGTAGTTTACATTGTGGA
Celera SNP ID:            hCV25613459
SNP Position Genomic:     27771
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:42547):
ACAATGTTCTGCAGTGCCTATGTGTATATGAGTCTGTTTCTGGGGTTCCTTATTCAGGTACACTGGTATGTTTTTCTATTGCACCAATAACATTATCTAG
Y
ACCATAGCTTTAAAAGAGATCTTGATGAATGCAAAATAAATCCTCCCACTCTAGTTTTCTTTGGCAAGAGTGTCTGGGCTATTTTGTATCCTTAGAATTG
Celera SNP ID:            hCV1814751
SNP Position Genomic:     10026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42548):
GGTTTTAGAAGAGTTATAAAATTTCGATTAGAGACCTGAAAGAATATCAAGATTAAAATAAGCAGCTTCACACCTGTAATCCCAGTGCTTTGGGAGGCTG
R
GGCAGGAGGATTGCTTGAGCTTAGGAGTTCGAGACCAGACTGGGCAACATGGAGACAGCCTTTCTCAATTTTTTTTTTTTTTTTTTTAGAAAAAGCTGTA
Celera SNP ID:            hCV1814752
SNP Position Genomic:     20539
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42549):
CAGTATCAATGTCATATTCATTGTACTAAAGAAGAATGTTAAAATAGATTCTCCTTTCCTGCACTTCAATAAATGCTAAAAAATCATGCCACATTTTGTT
S
GCTCTATATATGGACTGTGGCTTTCTTGTACAGTGTCTTCCTCAACACAATTTCTGACTGCCTTTCTTTTTGCTTATTGGGAGAAGAAATTTCATCTTTT
Celera SNP ID:            hCV26140193
SNP Position Genomic:     7622
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42550):
GATGTCACCAAAAAGTATTCTACTAATCCTGCAAAAATAGTCCCTTTCCTCATAGATGCATATAGTTCCATACAATTCTCATTCATTGTCTCTTTCTATC
A
TTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTTTTGAAATGGAGACTCACTCTGTCGCCCAGGCTGGAGTGCAATGGCATGATCT
Celera SNP ID:            hCV26140194
SNP Position Genomic:     16396
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42551):
ATGTCACCAAAAAGTATTCTACTAATCCTGCAAAAATAGTCCCTTTCCTCATAGATGCATATAGTTCCATACAATTCTCATTCATTGTCTCTTTCTATCA
T
TATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTTTTGAAATGGAGACTCACTCTGTCGCCCAGGCTGGAGTGCAATGGCATGATCTC
Celera SNP ID:            hCV26140195
SNP Position Genomic:     16397
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42552):
AGAATATGTTGATTTGATTTCATTTCTATTGCCATATGACATGAGAGTTGTACTGTAGAGATAAACTTCCTGATGTGGTTTCTCTAATAACCAGGTAATG
Y
GATGTCAGTTAACTCAATAAGTATACTGGTTAAAGATGTTGTAAAAGACATTTGATTTTTAACATAAGAACCAAAGGCTGGGTGCAGTGGCTCACGCCTG
Celera SNP ID:            hCV25751318
SNP Position Genomic:     28750
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,25)   caucasian(T,34)   total(C,1|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:42553):
TGTCACCAAAAAGTATTCTACTAATCCTGCAAAAATAGTCCCTTTCCTCATAGATGCATATAGTTCCATACAATTCTCATTCATTGTCTCTTTCTATCAT
T
ATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTTTTGAAATGGAGACTCACTCTGTCGCCCAGGCTGGAGTGCAATGGCATGATCTCA
Celera SNP ID:            hCV26140196
SNP Position Genomic:     16398
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Gene Number:                 210
Celera Gene:                 hCG32470 - 84000314984590
Gene Symbol:                 PPAP2B
Protein Name:                phosphatidic acid phosphatase type 2B;Dri42;MGC15306;PAP-2b;PAP2-b;VCIP
Celera Genomic Axis:         GA_x5YUV32W802(26483118..26645680)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12370):
CCTTTTCCCCTGTTCTACATTACATCTACATTTCAGATTCAGGAACTCAAATTTTCATTAACCAGGATGAATAATTAAATATACCCATTTTTTTGGAGTT
AAATCTTTTAAAAATCGGTTTAATGATAGCATTGTAAAGGACCTCACAGATTCGCTACTCCAGTGTTATCCTTTAGGAGGGGAAGAAAACAAGGCCCAGG
GAGTTAAATTGTTCAGGGCTTCCACACTAGCACACAAGTCAAGCAAGGGACCAAAATACCACAGACATAACTTTTAGCTCCATCAATTGATGGGAGAGTT
GTGTGAAATTTGATTTATCATTTAGGACTTGATATTTACATTTCAAAATAAGGTAACACTTTTTGTTTGTTTGTTTAAGTTTTGGTTTATCCTTCCTGTT
ATCTCAAAAACAAGTGGGGAATTAGTAAAATATTTACTTAATTTCTTGAAAGCAGTCTGTAGGCCAGTCATGTAACTATTTGAAAAATGGAAAGGGTAAC
TTCTTCGTGAGACTTTGCCGACAAGAAAGAACCTAAGTATCCCTTGGTGTACAATTCCAATGAAGAATATTTATTTCATAAACCACATATGGGTAAACAT
ATTTCTGGAGTAAAATGTTGAAAAAAATTTGTTTAAATCATAAACCACATATATACTACTACTCATCTTGAAAATGCAGGCTTCTTTTTAAATAAATAAT
TAGCACTATAATTTTGTTTCTTCAATCAGTCTTTATATAACACAAACAACAGGACCATTCTTCTAGAATTTCTATCACCTTTAGAGAAGTTAGATAAGAA
ATGAACAAGTCTAATTACAAGAACTCTCTAACAGTTTTACCCTACCCAGAGTGAGAGCCTGAACAGTCAATATAGAGAAAAATTTTAAATAGATAAAAAG
CATTACTTTTAAACTCTGTCAGCCCATATAATCTGTTTCCAAAAACAGTCCCTCAGCAACCTGATAATACAATAGACTAATGAAGGACAAAATTTAAAAC
ATTTTAAATAAGGCTTTATTAACAAATACAAAGATTTCCATATACTTTTAAAAAACAAATTAAAACTACTGCTGTTAAAACTATTCCATTTTCAATTTTT
GCTTTTTGTCCCTAACTTTGGTCCATAAATTGATATATCAACAACTGAAGTTAAAATTTCTTTATTTCTTTTTTTTTTTAAGACGGAGTCTCGCTCTGTC
ACCCAGGCTGGAGTGCAGTGGCACAATCTCGGCCCACTGCAACTTCCGCCTCCCGGGTCCAAGTGATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGATT
ACAGGCGCGCACCATCACAGCTGGCTAATTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTAGCCAGGTTGTTCTCAAACTCCTGACCTCAAGTG
ATCCACCTACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCGCCGTGCCTGGCCTAAAATTTCTAAATCTATAATTAGCATAACAGTCAAAGT
TGGGCATGGTGGGACACATTTGTAATCCCAACACTGTGAGGCTGAGGCAGATAGACTGCTTAAGGCCACAAGTTTGAGAACAGCCTGGTCAACATAGTCC
CTAAAAAAAACTAATTAATAAACAAATAAGAAAAAGGAAAAAAGTCAAGAGAGAAAGCACATAAAATGTTCCTTACTTCTCCATTTCCATGTTTTTATAA
CCATTTATCTAACTATCTATCTATCTATCTATCTTTCTATCAATCAATCAATCAATCAAAGACAGGGTCTCCCTATGCTGCCCAGGCTGGTCTTGAACCC
CTGGGCTCAAGGGATCCTCCTGCCTTGGTCACCCAAAGTGCTAGGATTACAGGCATGGACCACCACACCTGGCCAAGCTTTTAAAATTACATCATCTCCT
ATTAGCTTTTTTAGTAGAAATTCATTTTGCAATGTCTAAAATCTACAACAATTAAAAATGCACCTGCATTCAACAAAAACTGCTGAGACAATTGGTTATC
CACATGGAAAAAGTTAACCTTACAACCTCATCTCACACCATACATAAGAATTAACTCAAAATAGATCACATAGTTAAACATCAGGGCTAAAATAATAAAA
TATTTACAAGAAAACATAAAAGAAAATCTTTGAGACTTGGGCTAGGCAAAGATTTCTTGCCTATGACATCAAGAGCATAGTCCATAAAATAATTTTAAAA
ACTAATAAATTGGACCTCATGAAAATTCAAAACTTTTATACTTCAAAAGACACAAGAAAATGAAAAGACACAACAAACTGGAAGAAAATATTTGCAAAAT
ATATCCATTAAAGGATCTGTATCCACAATTTACAAAGAATCCTCACAACTCAACTTATAAGATGACAAGTAACCCAATTAGAAAATAAGCAAGAGATATA
AACAGACATTCCATCAATGAAAATACATAAATGACTAGTAATTACGTGAGACAATGTTCAACATCATTAGTCCTTAGGGAAACACAAAATTAATGCCTCA
ATGAGATACTATTTCGCACCCACTAGAATGGCTATAATAAATCAGGCAGACAATAACAAATGTTGGCAAAGATACTCAGAAAAGGGAACTTTCATACATC
TTTGATGGGAATGTTATAAAATGGTGTGACCATTTTGGGAAAGTGTTGCAGTTTCTCAAAAAGTAAAACATAAAACTACGATATGACCCAGCAATTCTAC
TTCTAGTTATTTACCCAAGGTGTATGAAAACATATGTCCACACAAAGACTTACATGTGAATATTCGTAGTGCCATTATTTATAATAGCCCAAAACTTGAA
ACCATGACCATCAACTGGTTTTGTATAGACAAAATGTGGCATATCCACACAATGGAATATTATTCAACTATAAAAAGGAACAAATTAATGGCACATGCTA
TGTCATGCATGAATCTCAAAAGCATTGTTAAAGAAGCTCGACACAAAAGATGACATATTGAACGATCACGTTTATGAAGAAGAGCCTAGAAAAAGCAAAT
TTATACAGGCAGAAAACAGATTAGTGATTTCCTGGGACTGAGGGTAGAAATGAGATTAACTGTGAATGGGTATAAAGAATCTTACTGTGGTGTCCTCAAA
TGTCCTAAAACCTATCTATAATGATGGTTGCAACATTCGGCAAAATTAGTAAAAATCACTGAATTGTACACTTAGAATGGATGAATTTCATATATAAAAT
ATACCTAAATAAGTTGTTTTCTTTTCTTTTCTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGCCGCCCAAGCTGGAGTGCAGTGATGCAATCTTGGCTC
ACTGCAACCTCTGCCTCTCGGGTCCAAGTGATTCTCCTGCCTCAGACTCCTCAGTAGCTGGGATTACAGGCGCCTACCACCACGCCTGGCTAATTTTTGT
ATTTTTAGTAGACATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAATTGAACCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATT
ACAGGTGTGAGCCACAGTGCCCAACCATAAAGCTGTTTTCTAACAAAAAAAAAAAACATGACTTTTTGTTTCGCTTGTCCCTTGAAGAATTATATGAGTA
ACAATTGTACTAATCCTAATCTTGGATAGGAAACCATGGTATCACTTTTGAGAGGATCTAACACAGTGTTAGGAAAACTCCTTCAACTGGTTGTTCATTG
GACAGAGGTTCTCCAGGAAAAGAATTTCTCATAAATCAAAGTTCTTTCTGTTTATATTTTAAGAAGCCAGTGCCTGGAAACAATTCAAAAGTACATACAA
GAGATTTAAGTTGTCTTTGGCAATGGACTGATTGATCTGATGAGTATTCTACTCTACATTCAGATTACAGTATATGAACTTAAAAAGACAAGCAAAAACT
TTTAACACAATATGAAAGGACATAGGGTTAAGTTATATAACTTTGTGTGTACATGTCCAAATGTCAAAGGCGCTGTTTGCTTGAGCAACTGTATAATGTT
GTAACACAATAGTCCTTAATAATAATACTAAATGACAAGTAACATTACAGGCATTAATCCAATCCCTGGATTGTCCTGTATTCATCTTAAATACATTCTA
ACTATCCACTCTACTTATAAGGTCTTTCAAAAATAACCCAGGACTTTATAACCCTCACAGGACAGCAAAGAATTTTACAAACTTTTTAGGTCTTTGCAAA
AATACCACCTTGTCTGACCACCTTATTGAAAACTGCCAACCTCACAAGACTCTCTATCTTCCCTTCCCTGATTCGTTTTTCTCAATAAAATTAAACATAC
CTTTTACATATATATTCTGATTACTGTCTGCCTTCTCCTACTAGAAAGCTAAACAAAAAGATCTGTTTTTTCCTTGCTGTATCCTCATTGCCTAGAACAG
TGCCTACCACGTTGCAGGTGCTCAGCGTTTTTTGAACACATGAATGAGTATTAAATATGTGCAAGAAAACAGGAGCTGATTCTTACCAAAGGAATGAAAA
ATGAGTCTCTTCTACTCATTCAACAGCCTTGACTTGGGGTTAAAATATGAATTTTACAAGGAAATAGAGACCTCAGAATAAAATTTCCAGACTGCCTACC
CAGCATTTCTTCAGCAAAGAGAAAAAATAAAGGTCAATATTTCACTTATAATTCTGGATTTGCAACAAAGTATTTTTAATAAACAACTGTCTCTATTCTG
GAGAGAAGGCAGGTTAATTAAATCMCATGTGACTAATTAACAAAAAAGAAAACAAATGAAAGTTCCATACTTAACTATTCTTACTAGTTACTTAACTCGA
ATAAAGTATAACATTTCAAAAGCAGCCTGTTTTTCTACATTCAAAAGGGGATCCTATCTCCATGAAGACAGACCTTAGCAGAATATGCCTTAGCAGTCCT
GACCTCCTCAGCCTCAAATCCTCCAAACACCAAGGAAACTTTTTCTCTCCCTTACCCTAGAAGTCTTCCCATAGCCATTTTACAAACACAAACACCTTCA
GACCTCTCTGTTTTAATTAACCTCTGACCCAATCCAGCTGCATTCCAGCGTTAAACAACACCCCAGGAAGAAAGACTCACAACCTCTGGCCCCTGGAGCA
TCCCCCAAACAGTCACCCCCAACAACCGAGAGTCCTGGAACGTGAAGGAATCTGGGGATGGCAGGGACCTCCCAGCAAGACCAGAATTGGAGGACATCTT
AGACTTCACTCTGGTACTGACCATTTCTGTGTGACCTTGGGCTTGTTACTACATCTCTAGGGGTCCTAGTTTTCTCACCTTTAGGGTGAGGACAACATGT
TGACCAAGTCACTGTGAGGATTCAATGAGATTCCATGTAAAGCACCTAACAGGGCACCCGGCACGAAACGGCGCCTCAGTCCTCAGTAGCGTGGATGATC
CCCGCCCTAAGCCTACAGGCTCAGAGCTGGAAGGCGCCTCGCAGAACGAGTCCAGTTCTCCCGATTTTGCAGAGGAGGACACTGAGGTCCAGAGAACACA
GAAGTGCCTTGCTCCGACCTCCAGAAAGGCAGATGGGCGCGGAACCTGGAACCCAGGACGCCCATCCTCAGCTCACACCCCCGCCCTCTTCCCTGGACCC
TGTGGGGCCCGGGCGCCGGTGCCAGGCGAGGCGGTGCGCGCCACCCTCCCGGGGCCCCAGCTCCGCGCGACCCGGGACCGCTCCACCTGCCGCCGAGCCC
CGCGCCCGCCGGAGGCCCGGGGCTCCCGCCTCTCCCCTCGGCCTCCCGCAAGTCAGGCAGCCCCGCACAGCGGTCCGGAGCGCGTACTCAACTCTTCACT
TTGCCGAAGGTGCCGACGCCCAGCGTGTCGCCCAGCACGTAGTGTCCGATCTTCACCCGCCCGTCGTGCTTCTGCTTCTCAGCCATCTTCGGCGCGCGCG
GCCTCGCTCCACCGCCTGCCGCTCCGCGTAGCCGCCGCCGCCGCCGCCTACCCACAGTGCAGCGGGCCCTGCGGGCGAGGGGGCGGACCCCGAGCCGCGA
GGGGCGCGGGGCGGGCGCGGGGTCCCGGGAGAGGGCGCTGGGCGCTTCGGGCCCAGGTGGGAAGCAACGGGCGAGCGGCGGGCGGGGCGGGGCCGAGGGA
GGGAGCGCGAGGCGCCCGCTCCCGGGAGTGAGAGGCTCCTGCGGCGGAACCCGAAGCAGCGACAGCGGGGGCCGGGGACGCGGGGCGCTGGGCGGGAGTG
CGGGAGGGGCTGCGCCAGATGCGCGGGGTCCGAGTGAGGGGCGGAGGCGACAGGTGCTGCGAGGGGGGTAGGCGAGGGTGCCGAGGGAGGCAGGAGGCCC
TTTCTGAGGAAAACCGAAGGGGGTGAAAATAGGGGGTGAGACTGGGGCCCGATCCTAGGGAATGGAAAGACTTGGAAGTCAAACTGGAAGAAGAGACGGG
CCTCGCATGTCGGGAGCGAGGGGCTGTAAAAGGGAAGAATCGGGAGGGGAGACTGCGGGAAGGGCCCTGGCCAAAGGGGCAGTGGCAGGAGAGCCTCTAG
GAAGCTCCTCAAGTCTCGTCTGAGGCTTTTGGATACAGGTCGCGGCACAGGGAGAATGCACGCAGCTCTGTGCTCTCTTGAATTGTCCTCCTCTACTTAT
TCTGTAATTCCCAATTATTTTGTCCTATAGATGGAAGAGACCCTCTCCGCCAGAGCTCTCAATTTTAACTAATTTGCCCACAGTTTTCCAAAAAATCTCA
GTCACGGTATTTGCTCGAGTGTTTTTTAGCACATGCTTATATAAATATGTAGTTTTACCACGCGCTTATATAAACATATAGTACCGAAATGTGATACAGC
TGTACAAGAAGGAAATGGGAAAGACGTGGAAAGGGAAACAATGTTCTGCCCACAGAAAGTAAAATACGTAAGCGACAGAGGAATTGTGAAGGGCGAGGCC
AGTATAAGGTCACATATTAAAGGAAGAATAAATGTGATATAGAAGTGAAAAGAGTGGTAAGAGGAAATTAGAAGCATGATGCCTAGGCAGCGTGTTCAAA
GACTGACCTCCCCACCCTCCCCCCACAAAAAAAAAGAAAAAAGACTGGCAAAGAATTAGGTAATAAAGCGATTATCTCTGCCTCTCTTCCTTCTCTCCCG
CCCTTCCTTCCCTCCTTCCTTCCTTCCTTTAATGTTGTCTCATTCTTTAATGTTGTTCTGTCTTTCAGTGATTAAAGTTTATTTGCTTCTCACCACACAC
ACAAAAAGATTCGTATACAATATGTTTGTTAATTAGCTTGACTTATAGCCATTCCACAATCAATATATTTCAAAACATATACATACTRAATATATACAAT
TTTTATTTGCCAATGAAATAAAAAATTTTAAAACAGTAAAAAAAAATTCTGTTTGGGGATAAGTAATTAAGGATTAGTCAAACATTTATAGCACTGCATG
CCAGTAGAGTTTCAAGGTCACATTCCTCAAACATGAAGTCTCTTGAACACTGTTTATATGTAAATTGAAATGTATTGATCAAAAAGAATAGGACACAACA
AAACTTTGTTTTCTGATAAGTACTAAATATAGAAATTTCAAACATTCATTCTCATCCAAACATCAAGACAATCTGATGAGAGATGATCACAGCTTATAAA
TTATAGATATCACAGCTGTTAAACAGAGGCTATTTTTGTTCATTCTTCAGATCATCTTTCTTGCTGACAAGTATCATCTAGGAATCACTCTACCTCGCTG
GCAATTTTGAGAAAATAGCCAGTTATTTTTGTGCTGAACTTTCATCTGGTTAAGGGTCATTCCTTCAGTATTCAAGTGAGTAAGAAAAGACCTATTCTGC
TTTTGAGGTATGAGATGTATATGTCTTCTGCTCTAATATCCCGTTAAAAGATGTTGAAAAGTCTTCACTTGAAGTTAGATGATTGCTTTCTTGAAGCTAC
ATAAAGACTAACTGTAAATTGAGATTTCAAAGCATTTCGTACTGTCTTAACTATTTGTTGATAAATACTGTAAGTTAAATTATTATATACTTCATAACTA
TGATTCTTACATAGCTACTGTGGACTACCTTATAGTTTTGTTACTATGTGAAACATCTATGATACTTTGTTGATTAAGAAGTTCATTTAAACACAATTAT
TTAATTGTCATAAAAGAAAGATTATYATTCCCATTTTATAGATGATAAAACTTAGTTTTTCCCTTTCTGATTTGCCCAGGGCTAAAAAGTGGCAGAGTCA
GAACTCATATCCAGTTCTGACTTGTCCTTCAGTCTGCCTACTATACCGCAGCTGCCTATGCCAAAAGAAAGTATGGTGCTCTAAGAAAGTTAAAAATTGT
CACAGTTGTGGTTCCATTTTCATATTTTTATTATTTCTTGGGCAGTCCAATAATATATCCTATAAATTTGTAAGTATTTAAACTACTTTTTGTTGTTTTT
CTGACTTTTATTTAGAGGAAAGGTTGAATGGTAAGTGGGTAAGAAGGACAACTCTTGGTGGCAGTACTCAGCCCTCTGTTGTCCTGGACACTTCAAGATA
AGGTTCCATATTTGCCTCTTCCTAYTCAGCAGTAGAAAACTCGACAGTTAATCAGAGTAGATCTCCTTAAGGGTCATGCCTCTTGGAGGTCTCACCCCTA
AAGATGACCTGGTAAATGCAATGTTCCCATTTTATTATCTTCCAATGAAGGTTTCACGCCGCTATTGTTTAGTACCAATCTCTAAGACCAGTGCCCCAGG
GAGGTGTTCAGTTCTTAGCGCTGGTCCAACTATTGCTGCTTTACCCTCCTGCTTCTGAAACTTTGGGGTTGTTTTACCTTCAAATATTCTAAAATAAGTC
CTGAGTAGGACATTAATGCAAGACCACTAAACTAATATACTGTACTAGACACCAYTGGTATTATCAGTAACCAATTATTTCAAGTCTTTGCTCACAGTCA
CCTTCTTGGTGAACCCTACCCTGGCCACCCTATTTAAGTTGCAGTTTCTTTTTTTTTTTTTTTTTTGTAATTTTTTTTAAATTTTTTTTTTTTTTTTTTT
TTTTTTTTAGAAGCAGGGTCTCGCCATGTTACCCAGGCTGGTCTCAAACTCCTGGACTCAAGTGATTGTCCTGCCTCAGCCTCTCAAAGTACTGAGATTA
TGGGCGTGAGCCACCGCACCAGGCCTAAATTGCAGTTTTATCTCACTCATGCTCTCTGCCCTGCACTCTCATCCCCTGACCCTCCTCAACTTTTTTACAT
AGCACTAGCCATGTAACATACTATTTAATTTATGTGCTTATTATATTTTTGTCTGTTTCTCCCAATTAGAATCTAAACTTCACAAAAGAAGAGAGGCCTT
TTTTCTCTATTTTGTTCACTGATGTATCCTTAGCTCCCGGGACAATGCCTGACAAAATATAGATATCCAAGCAGATTCAGAATGTGGCACCTGAAGTTTA
TTCAGTGTGGGGGAATCTCTTTAAGGGAAAAAAAAATGCAAAATTGGGTATGAAAGTGAGAATTTGAAGTGAAAAACAACTCTCTACAAATTTATAAAAG
CTGACAAATGCCACAAACATCCCCAAATCCAGACAAATAACAATATTTTTATAAATTAATTATCTAACATACCTCTATAATACCTGTTTTCTACATTTTC
TGGCTGTATACTCTTTGATTACCTCTTTATATTTTGTAAATTTTTAAATAGAATAGAAAGATAATTCTGACATTAAGCATGATTCATTAAGTTTTTCATC
ACATGTTTCTTTTTAGGTTTTCCATTGTACATGTTTAATATAGCTAATATAGAATTTATCAATTCTATTATCATATACATTATACATACATATAGATAGA
TACATATATGTATTTATATTTACATATTATATATGCAAATGATATGTTCATACCCCACTTGCTGTTTCTGGGGCCTAGTGGAACCTGGTATATCATTCCA
AAAATATTTGCTAAATTGAATTTTAGAAAGGGTTAGTTACTAAGCTAGAGAATCAAGTAACAACAATACAGGGAAGAGTGCAGTTTTATTTTATGTATAC
ACATATTAAAGGCAAAGCATAATTTTACATCTCAGCACAGCAGTCATTAGTGAGGTTAGAGAGGCATGAGTTAGCACCTTTGAAGTCTATAGATTCATGA
TATAGGGCTTCTATGGCTGTCTCCAATTTAAAATAAAAAATTTGGACACTCAATGAATAATAAAGGATGTTTATGGTATTTTATAGGAAGTACAAGCTCA
ATAATTACATTTTTAAAATTTTGTGTGAAAAACTTCAAACATACACAAAAGTAGAGTAACATAAATAACCTTAGCATCTGTGATGATCAACAATTGTCAT
CATTTACCCATCTATCTCTGCACTTTTAAAATTTATTTTCAGGAGTATGTTAAAGTAAATAAGCAGATTATTTCACTGGCAAATACTTCAGTATATAGGT
CTAACAGATAAGCACTTCTTTTTAACACAACCATACTACTACTAACATATCTAACAAAATTAGCACTAATTCCTTACTGTTATGAAATACCCACTCTGTG
GTGAATATCCCTTGATTGTCTCAGGAATGTAGTTTTACAGTTGGTTTATGCTCATCAGGATCAAAAAAGTCACACTTACCATTTTGTCAATACATCTSTT
TTAATATGTAGTGTTTTCYCTTCCCACTCTTTTTTAAAAATGTCATCTATTAGTTGAAACATTGAATTATTTTAACTGTTGAATATCCCGATCTTGTTGG
ATTTATCTCAATAATTATTCATGATCACAAGAGGTAGTAGAGAAAGCTCAGTATTTGGAATAAAAAATCATGGCCTGGTGCAATGGCTCACACCTGAAAT
CCCAACACTTTGGGAGGCCGAGGCAGGTGGATCTCTTGAGTCCAGGAGTTCGAAACCCGCCTGAGCAACATGGTGAAAATGTGTCTGTACAAAAAAATAA
CTGGACTGGTGGAGTGCGCCTGTAGTCCCAGCTACTAGGGAGGCTGAGGTGGGAGGATCACCTGAGCCTGGGAGGCAGAGATTGCAGTAAGCCAAGATCA
CAGCACTGCATTTCAGCCTGGGCAACTGAGCAAGACCTTGTCTCAAAATTATATGTATAATTAAATATGTGTGTATACATGTATATACATATATGTATGT
ATGTATGTATATATGTACGTATATATGTGTATATATACGTACATATACTCTCTCTATATATTATCTATGTGTATATATTTGTATATGTACATGTACATAT
ATATCCTGAGTTCATGTTCCATCTTAGCCTCTTAGCAATGTGTCCTTAAACAGATCATTTCACTTCTTATTGGTAAAACTAATAGTGTTGAACTAGACTA
TAAAGTACTAAAGTACCTGTCAGGTGTTGGGACATTCAACTCCCAAACTCCACTCCCTGTTTTAGAGTTAAACAATAGAGGGAAAAAGATAGAGTAATTA
CTGTAAAGTATTGTAGGTCACCATCCAAGGTATCTCAACAAACTGATCTTGCCACATTATTTTCCCTATACACAGTTTATCTCCTAATATTTATCATCAT
TGGTTTGTAAGTTTAAGAGAATACTATTATGGGCCTAGCCCCCTTCAAAGAGATAAGTAGATACACGTGACAATACTTGAAACCCTTTAAAGGAAATGTA
ATAAATAATTTTGAGATGTTATTTTTAGCAGGTACCCTAGTAACAAATATTATACTTAATCCATTTTCATTTTGTGGCTGAGTACATTTCTAAATTGCTT
CAATATGAGTCAACATTATAATTTTCAGTGCAGCTGAGAAAAAATAAAACGTTTTGGATCAGACTTCCTTCATGAGCAAATGCATTAATTGGAATAACAA
AGGTTGTTTGCTTTGCTGTATAAACATTATGGATCTGACAGCACTTTTAGAATCTTGCTTTCATGTGTGTGTTGACAGTTTGTCTGAAAAAAAGCTCAAA
CACACTTTTAGATCAGTTAAATCAATTATTTCCCTCTTGGCATGGATTCAGTGACTATCTGTACTGAATACTTTTGAACTGGTGAAGTTGGAGTAAGGAG
ATACCAGTGTCACCTTGAGTTGATTATCATCTCTGTTATGGCTGTCCGTTGGAATTAAAACACCCCTTGACAAAACTGTGTAATATACCATTATTTGAAG
CCTTTTATAATACTCTTTTAATGACCTCAAGTGGGTGTTAATGCTTTGGCTGTTGGCACAATCCCGTTAACATTAACTATTAAGCTTTGACATGATTAAT
GCAAACTTAAGATAAATAGGTAATTTCAAGTTCTAAATGCTCTATAAATAATAAACTAATTCTCCTTTCAAGAATAAGGACCTTAAAAAAATCAGATAAT
TCAATTTCTTTTTTTAATTTGTATATAGGCTTAGACTAGGTGCCCTTTCAAGACTCTGGGGTTTCAATTCTGTAAAATTCTGTTAATAGTTTTAAAAGCA
TTAAGTAATAAACTTTTCACCTTCTACTTTTAAAATATTGAAATGTTTTTAAATTGTTACACAACTAGCTATTCCACAGACAAAAGATTTCTAGATTCTC
GGAGTATATCATTGCTTTGTTCTAAGTACATTCATTCATTGAACAAAGATATATTGAATACCTACTGAGTGGCACACTACTCTTCTAGGCACTGGGAATG
TAGCAATGAACAAAACAGATAGTATAACCTATCTTATTTACTACTTATAATGGTAGTTTTTGTTAAAGAAAATAATAATTCATGACACTTATTAAAGACA
GTAAGGCAGACTTTATTTGGGACTATTGTGAAAGGTATAGGACCTCCTGCAATGAGGTTTTACAGTAGGAGACAGAGATTGGGCTCAACTCCAAATACAA
CAAAGAAAAGTAGAGATTTATAGCCAAGGAGGAGGGACAAGATGTGTTGATGAATGGAAAATTACTAGGAGGGTGGGGTAATTATTTGCTAAACGGACCT
AACAGGATTCTTGCTGAAGGCAGGCCAGGGTGATCAGCTATTACCCAGGGAATGGTGTGGGGGTGAGAAATTTGGTTAGACRTCAAGAGTGATCAGGTAG
TGAGGGTGGGGAATTTTGGCTAAATTGGCTTAGCAGAATTCTTGCTAAAACTGGGCTCTTGAAGACATGCCCAAGGACAGGACCTAGTGGGTCAGAGGAG
TCTGACTAGAGTTAGGTCRAGAAAAAAGTGTTTTGTTGCATTCTACTGTAAGAACCAGAAAATAAGGAGTCAAATAAATATATAATGTAAGGTTAGTGTT
AAGTGCTGTGAAGGAAAAGCAGAATAAATGAATACAGAGATGAAAGTGGGGATGGGGGAGGGCAGGCATTTTATATAGGTCATCAAAAAGTCTTTCTGAG
AATGTAGCATCTAAGAATTATGTGCAGGAAGGAGCCATTGAAATAGTTGGGATAAGAGCATTCCAGGCAGAAGGAATAGCAAGTACAGCAGTCCTGAGAC
AGTGCTAAAGGCATATTGGTGGAATAACAAGAAGGTTGATGTGTCCAGAGTGGTGTGGACAAGGAGGAGGATGAAAGGGTTTGTGGTTAGAATGCCTATA
GCTAGATTATACTGGGTAAGCTGTATTAAAACCTTTAGATTTTTAAAAAAGTGTAGTCAAGTATATTCTGATAATTTTTGAACARGAGAGTGACACGATA
TGAATTATAAACTTAAAGATGGCTCTAGATGGTTGTGTGGAAGAGAGTCTAAGGGGTCAAAAGTGTAAACAAAAAAACTAATTTAGAGACTATTGAAGTA
GACCAGATGAATGCTGATAGTAGCTTATACTAGGATGGTAGCAGTGAAAATGGTGAGAGGCATTCAGATTTGGCATGAAGATTTTGAAGTTAACATCAAG
AAATTTTGGTGATGGTTAGATGAAAAGTGTGCAAAGAATCAAAAAAGAGAAATCAAAGACTTGGATTTTTGGCCCATACAATGAGATGAATAAGAGTGCC
ATAGACTGAAGTGCCAAAGACTTTATGAGAAATAAGCTGGGGGAAAAGAAGGGAGGTTGCGGGACAAAATTCTGATCTGACCATGCGAAGTTTGAGATGC
TTAATAGCAATCCCAAAGGACACACCAAATAGGTAGTTTGTGACCAGAGTGAAGAGGCCCAGACTCAAAAATGTAACTTTCAAAATCATCAGCATTCAGG
GAAGAGGCCCAAATTCAAAATGTAAGTTTCAAAATCATTAGCGTATATCCCACAGCACTGGAGATCCCTTAGGAAGTGAATGTAGACAGCAAAAGGAAGA
GACTCCAGGGCTGAACCATCCCAGACTTAGAGACCTATAAAAGGAAGAGGATTGGCCGGTCTCGGTGGCTCACTTCTGTAATCCCAGCACTTTAGGAGGC
CGAGGCGAGCGGATCATGAAGTCAGGAGATCGAGAACATCCTGGCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATCAGCCGGGCG
TGGTGGCGGGCGCCAGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTTAACCTGGGAGCTGGAGCTTGCAGTGAGCCAGGATGGCGCCAC
TGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGGCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAGAGGATCCTGAAAAGAAATATCCACTAA
GCCAAGAGGAAACTTAAGAGAATATTTTCAGCTATTGTAAGACATTATTATCAACTGTATCCAGTGCTACTCAAAGGTCAAGGAAGATGTGGGTGAAGAG
TTAACTACCGGATATGATGACTGTGACAAGTGACTTTGTAGTGGAGTGATGGAGATGAAAGTCAGAGTGAAGTGAGTTTATGAAAAAATTGAAGTGAAGA
AATAGAGAAAGTGGTTCTATACAATTCTTTTAAGTTTTGCTATGAGGGGAATAGCAGCAAATGGAGGATATGGAAACAAGGGTAGATTTTTTAAGATGGG
GAAAAGTATAGCATGTTTGTATGCTACTTGTATGATCCATAGAAAAGGACGAACTGATGTGTGAGAGAGAATGAATAACTGAAGAACATTTAGCAGTGAA
TCCAAATGACAGTCTTTCAGGACCTTTCACATCAGTTTTCCAGGAACTTGTACTCTAATGGAAAACATACACACTTCAGAAATAAATTTCAGCTGGGCAC
GGTAGCTCACGCACGTAATCCTAGAGACTTGGGAGGTTGAGGCAGGAGGACCACTTGAGGCCTGGAGTTTGAGACCAGGCTGGGCAACAAAGTGAGGCTA
GGACTATAGTCCCAGCAACTTGGGAGGCTGAGGTGGWGAGATCCCTTGAGCCCAGGAGTTCCAGGCTGCAGTGAGCTATGATTGTGCCACAGAACTCCAG
CCTGAGTGACAGAGTGAGACCCTGTTTCCAAAAAAAAAAAAATCTAATAAATTTCAAAATGGTGCAAGAAGTGATATGACAAAGTTACATATAGGATTGA
CTAAAGAGTACTGAGCAGTAAGTTAAACGCTCTTTTATTTGACAAGGGGAAAAATGATGAGGACCTGAACCACTGGTAGTCCCAGTAAAGAAGGAAGGGA
AAGGATGGATTTAAGGATTGTTTAGGAGAAAGAATAAATAGGATTTAGCAATTGCTTAGTTATTAATTAGAAGAACAATGAAGCAATTTGGGATGACTTA
CAGATTTCTGGAATGATACAGAAATCTTGTGGATGRATTGATCATTCAAAAACAGTTCGTAGCCTATCACCTCCTTCCTTAAAAGTGTTCAATAATTTAA
CATAACCTAAAGATTAGTGTTTAAAACTCTTTAGCTTAGTGTTCACAGCCCCCAAAAAGTCTGCCTTTTTGGTATGCTCTTTACCTTCTGTATTAGTCTA
CTCTCACACTGCTAATGAAGACATACCTGAGATGGGGTAATTTATAAAGGAAAGAGGTTTAATGGACTCACAGTTCCATGTGACTGGAGAGGCCTCACAA
TCATGGTGAAAGGCAAAGGAGGAGCGAAGTCATGTTTTGCATGGCGGCAGTTAAGAGAGAGAATTTGCAGGAGAACTCCCCTTTATAAAACCATCGGATT
TCATGAGACTTATTCACTATCACAAGAACAGCATGAGAAAGAGCCATTTTCATGATTCARTTACCTCCCACCAGGTCCTCCCCATGACACATAGGAATTA
TGGCAGCTACAATTTGAGCTCYCCTGTGGGGACACAGCCAAACCATATCACCTTCCTAATGTACTTCCTTGAAACTCAAGGAAGTAGTGGGTTCCAGTTT
GAAAATTACTGGTCTACAGAGAAAAATCAAAGTCCTTAAGTCTGGATTCAAGGCTCTCTATGATCTGGTCCCTACCAACCTGGTTTCTTGTCTCATCTTT
GTTATCCAAAGCTCTAGTCATATCAAGTTTCTGTCAGTCCTGTGTATACACCAAGTTGGAGCAGGCCACTGCACCTTTACTCCCACTCTTATTGTCTGGT
ACTTCCTTCATCCTTGATATTCTCCATTACAATCTGCCTAACAAATACCTCCACATCTTTAAAAACTCACCTCCTCTATGAAGCATTTCCACAACCTCCC
ACACACATTTGACCTCCGTATCTTTAATAATGCTGTGCACCTTGGGTATTTAATTAAATCCATCATTGTACTTATCTGTTTACATGTCTTGTCCACCATT
TGACTATCAATCCCTTGAGAGCAAGCACTGTGAACATAGTAGGCACTTAATGCATGTTAGTTAAATTAATGAGTAATAACTGAATGAAATCTCAGTTCAG
AAATATCTTTTTTTTCTTTTCTTTGAAAGAGTCTTGCTCTGTCACCCAGGCTGCAGTGCAGTGGTGCAATCTGGGCTCAGTTCAACCTCCGCCTCCTAGG
CTCAGGTGATTCTCCCATCTCAGCCTCCACAGTAGCTGGGACCACAGGCAAGCACCACCACACTCAGCTAATTTTTTGTATTTTTAGTAGAAACAGGGTT
TCACCATGTTGGCCATGGTTGTCTCGAACTCCTGACCTCTAGTGATCCACCCACCTCAGCCTCCCAAACTGCTGGGATTACAGATGTGAGCCACTGTGCT
CAGCCTCAGAAATAACTTTATCTTATTTTACCTATCCCTTCCCAGGTAGCACTGAAGGCTTTTTCCTATGTATTGTTCTGAGGCCCTATATCACCTCTGT
TCTAGCACTATATTGTGGTATGACATTGTATTTGTTCCATGACATTATTTTTCTTCCTTTTTTTTTTTTTTTTTTTTTGGTGTATGTGTCCCCTACCTAA
AATATTCAAGGGCATGGATTTTATCCTGTTTATCTTTATATCCCCACCACTTGGGTACCCAGTAAGTGTTTTAAGAAAGTATTATTTAATAATTAAAGAG
CCACCTTACCCTTTAAAGTCATACATCATGTAATTATGCCCAGCTTTTTCCACTTTTGTGAAGAATTTTCTAATCATTCCTGGCTTGAGTTAATCTTTCT
CTCTGGAATTCTATTACCTGTAGTTTTCTCTCTTTTGAGTAATTATCACTCTCTGGAACTGGAACAGTTCTTGATTTAGAGTGACTATAAAAGCCCAAGG
ACAAGAAAACTTTTATTCTTCGCTATATTGCTATACAGTTGTGGCTCTCAACTCTCCTTTTTTGTGTACTGCTATACTTGAGTAGCACACAGCCATACCA
ATTTCCAGGGTGCTCAGATTCATTCTACCCTTTCCTACTGGAAGAGGTAAAAAAGCAACACCCTAGAATCTGATATGATTTATTTTATCAAAATAAACAA
TAAGCTACTGCTTTTGCACCATTACTTGCTTCTATTTATAACAACCTCTTGCCCCACTGAGAATGACAACGTTATAGTCATTCTTTAAGTAGTGATGAAT
GAATTTAAAAAAGGAAGGAATGCTATTTCTATTGTCACGTCCACAGGGAAGTCAGACCATGCCTTTTATGCAAAACTGGTTTGCTCATTTAATATATTAC
TATTTATGGCCAGGCATAATTTATTTGTGTGGGCTAGAGGAACACAATATTGTCCTTCATAAACTAAATCCCAAATAAAATAATAACTTTACTTTGAAAA
ATTATGCTTTTTTTCCCAGACCATGCTAGCCTTGGCGACAAATGGAAATGTTGCAGGAACTGAATTTTTCCTGATGTTTTACAAAATTCTGCTCTCTGTT
CTCTATGGAACCCAAGTGACCCATACTCATTTCCATTTTCCAGTGTTCCTTGGCTCTGCTCATCCATCCAGCGCTCATTGCAAGTCCTAAACTTTAGGAG
AAGGGATTTTGTTTTCTCTTCACATTGCCTACAACCCTTTACCAATTGAAAAGATGATTTGGGGCCAGGCRTGATGACTCATACCTGCAATCCCAGCACT
TTGGGGGGCCGAGGCAGGTGGATGGCTTAAGGTCAGGAATTTGAGACCAGCCTGGGCAACACGGTGAAACCCCTTCTCTATGAAAAATAACAAAACATTT
TAAATAATTTAAAAAAAAAGATTATTTTATTCCTTTTTACAGCCCTTTACGAAGCAGGATCTGCAACAAATTTCTCAGGAAACGGGCTGAGCAACACATG
AGGGATATCACCCACAAACAGTGATGAGTAGTTATTGTTGCAAACCATAATTKWGTTGCCCGAGTCTAGTGTRCCTTTCTTCTTTCTTTTGCCACTTGGG
TAATTCTCACCTTCTCAGGGAACATCTTCCACTTTCCCCCAAATTGATGGCAGCTTTTTTTTCCCCCCAGTTTGGTTTTCCTCTTTGTATCATCATCCTA
GTGCCCCAGAAAGCTTCTCCTAAAGGGGGCAGGGAGAGAACAACGCATGTTTCAAGGAGGTCCCCATGCAAATTTGACACTTTGGTACCCTTGCCAGTGT
TCCAAAGTGACCATGCAGATGGCATTGCCACCATAATCCTGTTCTTTTTTTGAGACAGAGTCTTTTTTTGTTGCCCAGGCTGGAGTGTAGTGGCATGATC
TCAGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTTGTGCCTCAGCCTCCATTACAGGTATGTACCTCCATGCCCAGCTAATTTTTTGTATTT
TTACCAGAGATGAAGTTTCACCACATAGGCCTGACTAGTCTCAAACTCCTGGGCTCAAGTGATCTGCCCAGTTCAGCCTCCCAAAGTGCTGGGATTACAG
GCACAAGCCACCGCACCCAGCCCATAATCCTGTTCTTATGTTCTTTCATTATTTATTCACTTGATTACTAACATAGATTACGTAATAAATTGTGTAGAAT
TTCAGGAACACTTAGGGAAGTAATAAAAATTATAATGTATACTGAGATGCTTATCATGCCATCTCTCATGAGTTTTTCCAGGAAAAAAAAAATAGAGGTC
AAAGCTATCTTCAACTGTATTCTCATAAGTGGGGCTTTAAAATGCTCCCATGAAGAATAAAAAGAAATCATCCTATCTTCCTCTATTTTTAAAATGTATA
TTTAAAGGCTTTTCTGATATTTCTCAAATGTTTTAGGAACAATAAAAAAATAAATTGAGAGATATTCTCTTTTTTTGTACTGATTCTAAGTCACTTTATA
AAACATCTACTTCTTTTAATATGCTTTATTCAGTTAATTATAATTTGGTTTGCTATAAAGTTTACTCATTGGGGAAATATTTTTTAGTAAACTAAATGCT
AGTTTTTCAGAATGTAATTCAAGCCTCAAGAATTTTTTGGCCGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATC
ACGAGGTCAGGAGATGGAGACCATCCTGGCTAAGATGGTAAAACCTCGTCTCTACTAAAAATATGAAAAAAAAAATTAGCCAGGTGTGGTGGTGGGCGCC
TGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTG
GGCGACTCAGCAAGACTTTTTCTCAAAAAAAAAAAAAAAAAARAATTTTTTATTGTCTAACATGCTAGATACAAAAGAATTATCCTATGAACAACACCCT
CAAGGCTTTTACCTTCTCAAGGAGAAGACTTGTACCCATGAAATAATTTTAAAACAAGTTACTTACTTTTTAATTCATGAATTTAAATGGCACCTTATTA
TATTCCTTTCACCAAGCTCTCTTTGGTTATATAAGAAAGAAGTTAACTGGATTTTTGCTACCTATTTTCATTGACTATTACAAAACACTTGGAGTCATAG
ACTTATAAAATAAGAGTGTGATTATACACCCTTTATGCCCTTTTCTTTACTACCCCATTCTAAAATCTAATGGGATCTTTATGATGCCCACAGGGCAAAA
GCTAAGTCATGTGGTAATTTCTTAATGAAAACAACCTGGAAGACAAGGAGGAATTTTTTTTCTTTGAGATAGAATTAATCAAAACTGTCTTTAACAAATG
TCATGTTTCTAAGTCCCAACATTGGACTATGTTCCTTGAATCCAAACTCAGCTTCCATTCTGAATTATTGCTGGAAAGGCTCTCAGCATTGGTTGTATAG
ACACCTGTTGTTAACTCTTATCACTTGCCTCTTACTTTGCCTCTTAGTTTACTGATTAAGTCTAATCTGCATTCTTGATACTTAGCCCTGTTTTCCATTC
CTACTTTATTCAACATCTGAAAAGCTCAACAACTTCTTGATCATCTCCATCAGTCCAAAACTCATTCTATGAAATTTGGACTCACCCTAGGAAACTCTAG
GCTTTCACCTGAAGTTGGCATAATATCAGATAAACCAGGAACATACCACTCTGTCAAGTTTCTTGGTCACAACAAGTAATATCCTTAACCTGGTCATCAC
CTAGCATTTATCGACATTGAAAAGAGAGATTGCTCTTTCCTCTTTCTTGAAAGAGGGTGCCATAAACACTTATTCTTGGACTCTATTTAAAGACAAATCT
ATTGAGAGGTATCAGATGAAGATATATGTAGATTAGTTGTAGAGGGAATGAATAACTTTATGAATTGGGGAAATGAATTCCTAGTTTGGTTAAAAGCATA
TTCTATACCTTATTTCCTGTTCAATAAATGGAGCATTTTCRTGGAAAAAAGCCAAAAGTTTTATGAATAGTCCCTTACTTTTTCCCATCTGTTAGAAACA
TTTTTCAAATATAAATTAAAAATGAATCCCTACAAGAATTTGCATGTTCTCACTCCTTTGCTGTTGGGAGCTCTATATTATTTGTGTCACGAGTCTTAGC
CTAGATTGTATCTGATGGAATCCTTCCACTAAATGCAATAATCAGATAAAAAGAACTTGATCTTACTATATTCCAAGTGCTTTTCTGCACTAAACAAAAA
TTTTGAGAATTCAGATGTTAACTATTTTAAATCATTTTACTATTTCTTCCATAATATGTCTAAGATTCTAAATTTAAATTTTCTGGATATTCATTACAAA
TCTGATATTTCATGAAACAAGACAGCTTTTTTGTCAATTTTTGGATAATTCATCTAGTCTCTGTACTGTTATTCCATTTTGACCTATAAGGAAAAAAAAA
CCAACATCACTTAAACACTTCACTAAGAAATCACATCCATTTGAGTCCTCAGAAGTTTTGTCATGAACAATTAAGTTTCAAGATCTCTTTTCCTTTTGTA
TAACCACATTAAAATAATTTTTTCTACTTTTTTTTTTGGAGACAGAGTCTTGCTCTGTCGCCCAGCCTGGAGTACAGTGGCGGGATCTCTGCTCACTGCA
AGCTCTGCCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCACGACCACACCTGGCTAATTTTTTTTTTCAT
ATTTTTAGTAGAAACGAGGTTTTACCATCTTAGCCAGGATGGTCTCCATCTCCTGACCTTGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTAC
AGGCATGAACCACCGCGCCCGGCCAATATTTTCTACTTTTGACACATGCTTAGTCTATCTATAACTACAGAATTGTAAAATCTTGGTTTGGAGGAGCAAG
GGGAATTGTAGAGATGATATCACTATACTATTTCTGGATGACTGGAAAGATGCGATTTTGTATGAACTTCATCTTAAAGTACTTCATGACTTCAGTGTGA
AATTTAAATTATAAAAAATACGCAGCTAAGCCAAGTGAGTTTAGCAATAATTTTATAGAAATTGAAATGTTTATTATATGTGTTGAATGGTAATAGAAAA
CAGTTTGCATTCTACTATTTCCATTTTTTAAAAATTATCAGCTTTTTCATTCGTTTCTATTGTTATCTACTATTTACTGTGAAGGCACTGCATTATACAA
CCTAATTGAAATGTTTTTAACAGTGTTAGTATAGTAACAGTCCTCCTGACAGTCTCATAACTACAGGATGTCAATCTCTGAAGGTATTCCCAGTAAGGAA
ATCACAAAAGAAAGAAATGTAGAAAGAACAAATTCAAGAACTGATTTTCATCAGTAGTATAGTAAATGAATAGTGAGTACTCCAGTGATATTTCCTAAAC
ATATAAAAATTGTTTGCACAGATCTCTGTCTTATACACACACATACACACACAAACACACACACACACAGCTTAGCAGGAAAATACTTCAGTATGTAACA
GAGAATGTTCAACATTGTTTCTTTAAAATCAAATAATCTCACTGAGGGAAGGAAAAGTGAAAAGTCTCAGGTAGAAAAAGAAAATGGGGAGGAAAAAACC
AATACAGTATGTTAGTTCTTCCATGTTATATAATATAAATAATTTCAGCACTGAAAAAGGAATAGTAAGAACAATATATTCTGGGTTATGTATGCATGCA
TTCATGTAGTCATTCAACAAACATTCATTGAGTGCCCACTCTGTGCTAAGGATTTTACTCGGCCTTGGGTATATGAAGAAAAAAAAAAGCTTTATTTTTA
TCTCAGAAATGAAAAATCAGAAAGCATAATGACAAGTAAAATGATAGAGGTAAGCACAAGGTATGAAAGAAGCCCGGAAGAGGCATAAATACTCTTTTGT
TTTATGCTATCTTATGTTTAATTAATGTATTAGATTTCTTTCTCTAAATTTCCACTCTGGCTCCCAAGCAATCATGTTCTTTGCAAGGAGTTGTCCAAAG
AAATATTTAAAATTTCCTTAAATTTACAATGCCATTTTAGTATTTAACTCTTTTTGCAACTCAGGCACATGATTTAGCTTTTTAATCTGTAGTCATAGTA
GATTGTGTTATTTTTCAGCTAATATTTGCTCTCCTACATCCTCACCCACCCCATGGAAAGAATATATGTCACTTCATCAACAAAAGGCTTGGCCATGTGA
CTTTCTTTAGCCAATGGAATGTCAGTAGATGTAATTTACCACATCCTTGCAGAAGTTTTAGATGTGCCTGCATGAATTGGCTTGGTCTCTTGAGCTTCTG
ATCTCTACCAAAAGAAGCGCTTTCCTCAGGCAGTCCAGGACTGCAAAAACACATACAGCCCAGCAAAGCTGTAGCCAACGCAAAGGCCTGTAAGCATGAA
ATAAATCTTTATTATTGTAAGCCACTGACGTCTTGGGGTTGTTTCTTACTATAGCAAACATTGACTAATACAAGTGTTGACTTTATAAGCACACTGTAAG
AAAAGCCATAAGCAATATAAACAAAAGGCAGGATGTTTGAATTTACTTTCAAAACAAAAAGATGCTAATGTTATACACAGATTGTGGAATATGCTACAAT
TGTGTCATCCTTAACACAGCTACTTTTTCACCTTTTAGTAATAGAGTGTATGCATAAGATGCGAATATTTAGGAGCCAGACAGTAACCTATAGGTATGTC
TATGTGTCTATATATTTGTGTGATTAATAGCTGTGGATCTGTCATGATTCTTCTTACATTATAAAATTTAAAAGGACAGTGAGTCATTTTTATAATAAAA
TCTATTGCCATCATTCTAATTCAACCCAAATAACTTAGATGGGACAGAAACTCTGTTTTACCCTAATAAAATAGAACTTAAGGCTTAGTAAATGCTTCAG
ACAGTTTTCTCTATGTACCAGTGACCACAAAAAAAAAAAATAAGTATTGTATGACTACAATGTTACATAACTATATACCACGGATATGTGCGRTAATAAA
AAGAGCAAGAATACCAAACATGAGTAATTTCCCTCATTTGTAGCAAGATTCTGGTTCAAAAACTGAGAAATATTTCTWGTTCAATATTGTACATTAGTAA
TGGATCCCAAAACTTTAAAAGCATCTATGACTAACATTTATCCTGCATATGCTTCTGCTATTCTCACTAGACCATATTTGCAATATTATAGGAAGTTGGC
TATCTCAAAGTAGACTGTTCTAAAATTAATTATAATGTTGAAGATCTGTGTGTGTGAGGGCAGAAAACATGTAACTGTATAAACCAAAATGATGTTATGC
CATTCCCAGGGTGAATAGTTTTATGTACTCTAAAATCATGCAAGAAAGCCTGCTTTTATAAATTGAGAAATGTTTTATAAGCACCAGTGGGATACAAACT
TCTTTTCACAAAGACATATATTGACTCATTCCTCAAGTATCTGGTATTTGTGATCTAAATGAAAAGTATTTTTGCAGCTGATTTTTTGCAATAGCTTTTC
ATTGTACCCTGCAGATGTATTAATGTGTTTTTATCATGTTGACATCTTATTATAAACAAATCCATTTTATGTTAAACTTAGGTGTTTCTCCCATGCATGT
ATTAAGAGGAAGCTGGGGACTAATTTGCATCAAGGAAGCATCTCTAACAGTTCCTCCAGGAGTCCCTGTAGACTTTTACCAGCTTGAGACTGAATATTTG
AGGGGGAGGGGGTCAGGATACAATCATCTAAAATGCAAACAAAAAAAGTGTTTTCCTAAAGTTCTCCGAATTAAAAAGAAAAGAATATGTTTGGGATACA
ATACACAAATTTATTTGAATTCCTTTGCCAATTCCAAGTGAATCCACAGCCAAACGAATGAAACTTATGGTTGCACAGCTGGAGGCTTATTACTTCTTCA
TTTTATAAAAACAAAACCACAAGTGATTGTGAACCAGTTGGTCTGAATTTATACTTATAGCAAATAAGTATAAATTACTTCCTCTGCTTTCTCAAGGTGC
TGAATGGAAGCATTTGTCATAAATTCATCATAGACTGAATGTATGAGACTGAATATTAAGACTGAAAATACCCTTTTAAGAAGTCATTTTTGCCCATTCA
TTCTGTTTTGTTCCTTTGTCCTTCTGYTTCTTTATTTATTCAGTCATTTCGCAATAAATATTTATTGAGTTCTTCCCGTGAAGTAGGCACTGTGCTAAAT
TTTGGGGATACAGTGGTAAATAAAGACAATTTATTTTGGAGGAGCTCCAAAGACAATTCCAGATCTTTCTCAGATTTACTGATCCATTTATTCCTGTTTA
TTTCCAACACGTAATACAATGAAAACAGTCAAACAGACATGAATTTAATTTGCATTTCATCTTGGGCAAGATGTTTAAATTCTCAGAACCTTAGCTTTCA
TATCTCCCATCTACCTCAAAGAATGATGGAAAGTGAATTACAAAGATAACCTATAAAACTGCTTGACATTTTGTTCTCCACCCCCACCCCAAATATCACT
GTTCCCTACATATGTTGGGTCCTAGAGGTATAAATTGATAGGATACATTTTCTAGCACTGTGCTTAGTTGTAGCTAAGAATATAGAGAAAAAACAAATGA
TGTTCCTGCCTTCTAGAAGATTACATTTAGAATAATAATGACTAACATTTGATATATACCAATGACTGTTCTGAGCACTATAAATGGATGAACTCACATA
TCCTCACAATAATGCATGAGAAAGGAATTGTAGGCATCATGTTTTCTGAATGGGGAAGCAGAAGCACAGAAAGTTAACTTGGCCGAAGTCACACAAATAG
TGAGTAGCAAGGTAGAATTCAAACCTAGGTGCCTGTCTCTGAAACTTGTTTTCTTAATCACCATACCTCACTGCCTCTCAAGAGGAGGCTATTAAGTACA
AGAAAATTACTGTAACTGTTTTATGAGTAGTTTAAGCAGTAAGTGAATGAGAGAAGAGAAATCAGGGGATTTGGTCCAGAACCTGAAAAACTAATCACAT
TTTAATAGAAAGAAATGTAATGATGAAGAGAGATACTATAGGGCATTTTGGGAAAGTTTTATCACTTTAGAAAATGATTCTTTCATACATCTAACCCAAA
TATATTATGTTGGACCTCAAATCATTCCATTTAGTGGAGATACGGAACATGTATTTAGAAAAGTAACTAAAAAATATTATTGTTTCTGATTTATAAAAGT
AACACATGCTAATAATAGGAAACCTAACACAAATAGCAAAGTATAAAGCAAAACATTTTTAAAAACCACTCCTAGTTTCATCATCCAGAAAAGATAATAA
CTTTAATATTTAGATATTGTATCAGTCTGTTTTCACACTGCSATAAAGATACTACCCGAGACTGAGTAATTTATGAAAGAAAAAGGTATAATTGACTTAC
AGTTCCAAATGGATGGGGAGGCCTCAGGAAACTTACAATCATGGTGAAAGGCAAAGGGGAAGCAAGGCATGTCTCACATGGCAGCAGGAGAGCAAGAGAG
AGCTCAGCAGAAACTGCCAGACACTTACCAAACAATCAGATCTTGTGAGAACTCTCTCACTATTACAAGAACAGCATGGAAGAAACAGCCCCCATGATCC
AATCACCTTCCACCAGGTCTCTCCCTCAACATGTGGGGATTGATGAGATTTGGGTGGGGACACAGCCAAACCATATTATTTTGCCCCTGGCCCCTCCCAA
ATCTCATGGTTTTTTTTTCACATTTGAAAACCAATCATGCCTTCCCAACAGTCCCCCAAAGTCTTAACTCGTTCTAGCATTAACTCAAAAGTTCAAGTCC
AGCCAGGCACAGTGGCTCACACCTGTTATTCCAGCAGTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAAACCAGCCTGGCCAACAT
GGTGAAACCTCGTCTCTACTAAAGATACAAAAATTAGGCAGGCATGGTGGCAGGCGCCTGTTTTCTCAGCTACTTGGGAGGCAGAGGCAGGAGGCTCATT
TGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAWGT
TCAAGTCCAAAGTCTCATCTGAGGCAAGGCAAGTGTCTTTCACCTATGAATCTGTAAAATCAAAGGCAAATTAGTTATTCCAAGATGGGTGGTACAGGCT
TTGGGTAAATGTTCCCATTCCAAATGGGAGAAATTGGCTAAAACAAAGGGTCCACAGGGCCCATGCAAGTCCAAAGCCCACTAGGGCAGTCAGTAAAACT
TAAAGCTCCAAAATAATCTCCTTTGACTCCAWGTCTCACATCCAAGTCACACTGATGCAAGGGGTGGGCTCCCAAGGCCTTGAGCAGCTCAGCCCCTGTG
GCTTTGCAGGGTTCACGCCCTGCAGCAGCTTTCATGAGCTGGCATTGTGTGCCCGTGGCTTTTCCAGGCGCATAGTGCAAGCTGTCTGTGGATCTACCAT
CTTAGGGTCTGGAAGACAGTGGCCCTCTTCTCATAGCTCCACTAGGCACTGCCCCAGTGGGGACTCTGTGTGGGGGCTCCAAACCCACCTTTATCCTTTT
CACTGCCCTAGCAGAAGTTCTTCATGAGGAYTCTGCCTCTGTTGCAGACTTCTGCCCGGACATCCAGGTGTTTCCCTACCTCCTCTGAAATCTAGGCACA
GGTTCCCAAAGCTCAGCTCTTATCTTCTGCTCACCTGCAGGCCCAACACCACATGGAAGCCATCAAGACTTAGGGCTTGCACCCTCTGAAGCAATGGCCT
GAGATGTACCTTGGCCCCTTTTAGCCAGAGCTGGAGCTGGAGCATGAGATGCAGGGCACCAAGTCCTAAAGCTGTTCCGGTGAGAAAACCATTTTTCCCA
TGGGGCTTGTGATGGCAGGGGCTGCCATGAAGATATCTGACATGCCCTGGAGACATTTTCCCCATTGTCCAGGCTACCAACATTTGGCTAGTCATTACTT
AGGCAAATTTCTGTGGCTAGCTTGAATTTCTCCCTAGAAAATGGGTTTTTCTCTTCTGTCACATGGTCAGGATGCAAATTTTTCAAACTTTTATGCTCTG
CTTCCCTTTTAAACCTAAGTTTCTCRTCTCCATCTGAGACCACCTCAGCCTGGACTTCATTGTCCATATTTCTATCAGCATTTTGGTCAAAACCATTCCA
CAAGTCTCTGGGACTTTCTAGACTTCCAAACATCTTCCTRTCTTTTTCAGAGGCTTCCAAACTGTTCCTACCTCTGCCTGTTACCCAGTTCCAAAGCCAC
TTGCATATTTTCACGTTATCTTTATAGCAATGCCCCACTCTTTGCGGTACACATTTCCTGTATTCATCACTTTCACACTGCTATAAAGAATAACTGAGAC
TGGGTAATTTATGAAGGAAAGAKGTTTAATTGACTCACAGTTCTGCATGGCTGGGGAGGCCTCAGGAAACTTACAATCATGGTGGGAGGCAAAGGAGAAG
CAAGGCACATTTTACATGGTGGCAGGAGAGAGAGAGAGTGTGCAGGGGAAACTGCCAGACACTTATGAAACAACCAGATCTCATGAGTCTCATGAGAATG
CCCTCATTATAATGAGAACAGCATGGGGGAAACTGTCCCCATGATCCAATCACCTGCCTTGACACATGGGAATTGCAACTGGAGATGAGATTTGGGTAGG
GACACAGCCAAACCATAACAGATATATTTCCTTTAATTCTCTTTTCTGTGCATATTGTATTAAATATATTTTTAAATAAAAATTGACAAGGGACTTATAT
GTAGTTTTCAGTTCTGCTCTTTTCACCGGATTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGATGGCGTGCAGTGGCACAATCTC
AGCTCACTGCAACCTCCATCTCCCGGGTTCAAGTGATTATCCTGCCTCAGCCTCTTGAGTAGCTGGGATTACAGGCACTCGCCACCATGGCTGGCTAATT
TTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTCGTGGCGATCTCCTGACCTCAAGTGATCTGTCCGCCTCGGCCTTCCAAAGTGCTGGGATTACAG
GTGTGAGCCCCCATGACTGAACTCACCTGATGTTTTATCCAAAGCAACAAATACTACTTTTTCATTAATGTCCCAACAATCCCTATAGTCTGTTTCTGCT
TTATTTTCTAGTATGTGGTATTTAGTAGCTAATGTTTACTAACACTTATCACCACCTACATGCTGCACTTTTTAAAATCTTTGTCTATCTCCTCTCCCAC
TCCTCTATACACATACAAGAAARTAATATCCATGAAGACAAGAATATATTTATTTTGTTCTCTACTGTATCCCCAGTGCCTAAAATAGTGCGGAGCCCAT
GGCTGGTACTCTATTTGTTGCATGAACAATCTCACAGAGGAAGGTATAATGGCACCATCACAGTAGATATCTTAATTTAAAAGTAGATTAGATAATGTTA
AGTACTACATTGAATGAATGTGAATAATATTAATTACATAGTCAATCCTTTTCATGTCTTACATTAAGTACCCATTCCTAGTTATGTAAGCTAACATGTA
CAGGTAATGAAATGGACAATTCCTCAYGAATAATGAATTAGAGGCTTGCAGCTTATACATAGTTTTGTTCTCAAAATTCTCTTTTTTCCAGACGTTTCTC
TTATCTCATCCTCTTTGTCCTGTCTTTTCCTTGTGCTTCATGTATTCCCTATAATCCTGTGTTCCAGCTTCACTGTTTTTTAAAAATTTGCAGTTTGTCA
TACATACATACTTACTCTTTGAACTTGATTTCACTTTTTTTTTTTCAGACATGGTCTCGCTTTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTTGGCT
CACTGCAGTCTCCACCTCCTGGGCTTGAGGGATCCTCCTGCCTCAGCCTGCTGAGTAGCTGGGACCACAGGTTTGTGCCACCATGCCTGGCTAATTTTTT
TTGCATTTTTATAGATGCGGGGTTTCACCATGTGGCCCAAGCTGGTCTCGAAGTCCTGAGCTCAAGCAATCTGTTCTCCTTGACCTCCTAAAGTGCTGGG
ATTACAGGCATGAGCCATTGTGCCTGGCCTAAACTTGATTTCACTTTGATTGATGTTTTGTTCATTTGTTCAGCTACATCTTATAATACATACCTTCAAT
GAAATTCAGCAATTATCTACATTACCTAGATGTTAGGTAATAGGGAATGTACCTATACGAACTCCCATCTTCTATATAATTAAAACCTGGATCATTGGAA
ATATTTGTATTCAAAAATCCTGTCTCTTATCTTTATCAATAATGTTTGTATTTTCTCTATTCTTTAACATATATACATAACAAGATGCATATAAAAGTTA
CATTTTTAACTCCACTCGATGCTACAAAATTATTTAAATAAGATAATGCATACGAAAGTGCTTGGTTGTGAACCAACTGGTATAGGTCAGGAAAAAGAAA
CTTAAAAAATAGAAAAATTTTAAAAAGAAAGTGCTTGGTAAGCTTTCAAGCACTGTGCATACATTATCCCAATGCAAGCATCTCAAACTAGTATAGTATG
TCACTTATACATACCATTCCATGTGTGAAAATCCTTCATGTGCTAGAAGGCCATCCTCAAATCCTCATTCCAATTTTCAGTCTGAATAAACCTAGTTTAT
TTAAAATTTCCTCCTACAGTCTCTTTCTCAATCTCTTTTTTTAATCCCTTAATGATTTTTGTATTTTGTGACTTTTCTCTGATCTATTATTTAGCTATCT
TTGTTACTATGATGATTTCACAAGTGACCCTCACTTTATTAAATAAAGCTATGTGAAAATAGAATCTGTATAAATTGTGTCATATTACAAATCCACTAAG
AGAGCTACAGTTCCTTTTTTTTGTTCTTGAGACAGGGTCTCACTCTGTCACCTAGGCTGGAATGCCATGGTGCGATCACAGCTCACTGCAGCCTCGACCT
CCCCAGCTCAAAGAATTCTCCCACCTTAGTCTCCTGAGTAGCTGAGACCACAGGCATGCACCACCATGCCCGGTTAATTTTTAAATTTTGTTATAGGGAT
GAGTTCTCCTTATGTTACCCAGGCTTGTCTCAAACACCTGGCTCAAGCGATCCTCCTGCCTTGGCCTCCCAAACTGCTAGGAGTACAGGTGTCAGCCACT
GTGGCCAGTCCCTAGTGTTTCTTAAAGATCCTTTGTAGAGAGGAAAAGGGCATTAGAAAATAACTTATGTTTATGAGTTCGTGCTCTACTGCTGATCTGT
AATATGACCTTGTTACTGAGCTTCTAAGCCCTAGTGTCCCATCTGTAAAGTAGAGGCTGTCAACCCCTCCTGCAGTGGTTCCCAATGGTTGGGGTCATGG
GGCACACTTAAAAATGTGCAGGAGTGTTTTCAGTCCCCACAATAACTGTGAGTGGTTGTTGCTATTTAATGAGGAGACTGAGTTTAAGGGGAGTGAAGGG
CAGGGACATAAATACCCTGCAATGCCTGGAGCAGTCCCTCTTAACTAGCAATTGTCCTGCCACAAAATGTTGGTAGTGATGTTATTGATAAACAGATAAA
GCAATACCTTTGATGCCATTTCTACAGCTACCTGACCCCCGACCTCTGGAAGGAGACTGTATTTACCAAGTCTCCCGATCAGGAATTCACTGACCACCTC
GTCAAGACCCACACCAGAGTCTCCATGCAGCGGACTCAGGCTCCAGCTGTGGCTACAACATAGGGTTTTTATACAAGAAAAATAAAGTGAATTAAGCGTA
AAAAAAAAAAAAAAGAAAATTTCTCCTGATAAACTAGTGAGCACTAGATAGCAGAACGGGAGCACTTTATGATTTAAAAACAAAAAAAAAGCTGGGCATG
GTGGCTCACACTTGTAATTCCAGCACTTTGGGAGGCTGAAATGGGAGGATCACTTGAACCCAGGTGTTCAAGACCAGCTGTCTCTATAACAAAATGGAAA
AAAAATAGCTGGACCTGGTGAGGTGTGCCTGTATGTCCCAGCTACTTGGGAGGCCAAGGCAGGAGGATCGCTTGAGCCCAAGAAGTCAAGGCTGCAGTGA
GCTGTTGGGATTGCACCACTGCACTCCAGCCTTGGTGACAGAGTGAGACCCTGTCTAAAAAAAAAAAAAAAAAAAAAAACAGGGAAAAAAAGAAAGAAAA
AAAAACGAAAACCCATTCAGAATCCCTGAGACTTTTCTGCCCCGCTAAGATAATAATTTTAAAATTGTTTCCTGCATGTCTGTCCAAATAAAATTTGAAA
TTCTCCTGTTATGTAGAAAATATCTTTAAAATCTCTGATCAGCTCACCAGCCAGATAAGGAGACATCTGTTGATTACTTTAGAAATAGATGAGCTGATTT
TCATTTTGTCTGTGTTTCTAAAGTATTACTTGGCTTTAGTCAAATCAGGTAAGCCATATTCCTAGTTGTAAATTGTATCAGATGTTTCTTTGGACGTAGA
CGTTCTTTGTCTCTTTGAAGGCCTAAGTTAAAAGAACTTTTCTGCTGGCTCTTCCTTACACCTGTCTCCTCCCATCTCAGGGCTTCCTTTGCCTTGCAGC
CCCTTCTAGGCACTACTAGGGGCGGGCATCCAGACATGGGCAACCTGGAAGCCCAACAGGTGAACTTATGATGTTAGAGATCACAGCTARTGGATAACAT
CTTCCTCTTTTCTACTGCCTCCCCCACTAAGTGGGCAGTCCTGAGATACAGTGTATTCTGATTCTTAGGAGCACGGCACTTGGCAGCAACTCACACATGA
CATCCTCACTCTGACTCTTCCTCCTTCCTTCTTTCACTGTCTTTGTCCTTAACTCTTCTTCCATGGGATTGTACTCCCTAATAAAATAAAAGAATATAAA
CTCACTGCTTCAGACCTGCTTTTGGAAGATCTCAGCTAAGACATAAGTGAAGTGGAGAACTGAAACCATCATTTGGTTATTTCAGACCAATCTCTTACGG
AGATCAATTTGGATTAATTTACAACACAGGAAGTTAAGTACACAAGAACAATCATATTGCCAATTGGCAAGTAAAATGAGCTGTCAGCACTGTCCAACCA
TCATACCACATTTCTCCTATAAGCTCACTTTCCTATTCATGGAGATATCTGTTTCATAGAATATCTATCTCCATGCCTATTACTTTCAACTGACAACCTC
TCTTCAAATTAAATTGAGAAAGTAGAAACCATCAGATGGGCACAGTTTCATAATCTTATCATTAGATCCATGAACCCATCTGCATCTGCCCTCACCTCTT
CCTTCTTTCCTGTTTCATCTGATGATGGGTTCTTTCTCCTACGGTTGGCCAGTTCTTCAATATAGATCTAATTCCCTTTGCTCTCCTCAGGGGGTTAGTT
CCTTGTTGTTTTCCACTTTTTCTTCCACCCTCTCACTTCACTGAATTGTTCCCATCTGTATTCAAAATATTCTCTCATCTTTAAAAGACCTCCCTTCATC
TCACATTCTCCTCCAGCTATTTCTACACTTCTGTATTTCCTATCCCAGTTAAGCTTCTCTGAAGGAAAAGCTGTAATCCATGTTCTTACCTTCTATTTAC
TCCTCAACCCACTTTAATTAGGCTTCTGCCTCCATCACTTCAGTGAAACTGCCCTTATTGAAGTCACTAATGACTTCTCTGTTGCTCAATCTAATGATCA
TTTTTTATGGCTTCATTTTAACTCAGCCTCAAGCAGCAATCAACACAATGAAACATTCTTTCCTTTGTATAGGCCCTTTCCATGCCTTCCTTTTAACCCT
GCTCACGTGCTGTTATTTCTCCATCTCCTTTGTGTGCTCCTCCTTTTCTTTCTGTTGCTTCTGTTGTCAGTCCTGTAGGCTTGGTCTAGACCTCTCCTGT
CCTCATTACATACTTAGGCATTCTCATATACACCCATGACTCAAATTACACCATTTGCAGATGACTCACAAATGTATAGCAACAACCGAGACCTCTCCCC
TGAACTTTATTTCCATGTAGTGCTTACTAACATATCTTTGAATATCAAATGCACCTCAGTCTCAGCATGTCTAAAAAGCCAACTCAGCCCGGGCAACATA
GGGAGACCCTGTCTCTACAAAAATAAAAAAATTAGCTGGGCGTGGTGGCACGYGCCTGTAATCCTAGCTACACCAGAGGCTGAGGTGGGAGGATCGCTTG
AGCCTGGGAAGTCAGGGCTGCAGTGAGCCGTGATCACACCACTGCACTCCAGCCAGGGTGACAGAGTGAGACCCTATCTCAAAAGATTAAAAAAAACAGA
ACAACAAAACATTAAAAAGCCAACTCGGCCAGCCATGGTGGCTCATGCCTATAATCTCGGCACTTTGGGAGGCCAAGGTGGCCACATGACCTGAGGTTAG
GAGTTCTAGACCAGCCTAGCCAACATGGTGAAACCCCATCTCTCTTTTTTTTATTTTATTTATTTACTTATTTATTTATTTATTTATTTATTTATTGAGA
CAGAGTTTCTCTCTTGTTGCCTAGGCTGGAGTGCAATGGCACATTCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGTTTCTCCTGCCTCAGCC
AACAAGTAGCTGGGATTACAGGCATGCACCACCACTCCTGGCTAGTTTTGTACTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAA
CTCCCGAACTCAGGTGATCCGCCTGCCTTGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCAGTGCGCCCGGCCCGTGAAACCCCATCTCTACTAAA
AATACAAAAATTAGCAGGGCATGGTGGTGCACACCTGTTATCCCAACTATTCGAGAGGCTGAGGCAGGAGAATCACTTGAACTTGGGAGGCGGAGGTTGG
AGTGAGCCAAGATATTGCCATTGCACACCAGCCTGGGCAACAGAGTGAGACGCCGTCTCAAAAAATAAATAAATAAAAATAATAAAAAGCCAACTCACTA
TTTCCACCCCTGCCCCACACCAACTCTGCCCCAACCTGGCTGTCTTTCAGTTTTTCCTGTTTTAGTGATTGGAATCACTGTCCATCAACTCATAAAAGAA
AAAACATGATTAAGGGAAACACTCCCTTAAACAATCCATCGCTAGGTTCTATCTTTTTACATATATTAAATCTATTAAAAATATTTACTCAATCTTTCTA
CTTTGCCACAACCACTGCCACCAGAGTATGTCAGTATCTCTTGCCTGGACTACTCCAATTTTTGTTCATCCAGCAGCTAGAATGATGTTTCCAATCCCCA
AATCTCATTATTTCACCCAGTTGCTTAAACTCCTTAAATGGTTTCTATATATTTTAGAATAAAATAAGAAATCCTTAACATAGCCTATAAACCCTGCCTG
TTTGCTACCAACTGATTCTTGCTCTCCAACTGATTTTCTTTTGCTCTTTGTGTTTTCAACACATTGACTTTCTTTTATTTCCTTTCCATGCACATTCCTA
CCACAGTATCTTAGGAAATGCCTTTTCCTCTGCCTAGAATGCCTTTTCTCTAGTTAGTGCCTCTTCAGTCTTCCAATTAGTATTATATACTCTCTCCTAT
GTTTTTTGTTTTGCTTTGTTTTTGTCTTTTTCTTTGTTTGTTTTTGAGACAGGGTTTTTCTCCTGTTGCCCAGGCTGGAGTGCAATGGCACGACTTTGGC
TCACTGCAAACTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAACCTCCCAAGTAGCTGGGATTATAGGTGTGCACCACCATCCCCAGCTAATTTTG
TATTTTTAGTAGAGACGGGGTTTCACTATGTTGATCAGGCTGGTCTCTAACTCCTGACCTTCAGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGAT
TACAGGTATGAGCCACTGTGCCTGGCCTCTCCTATATTCTAAGATACAAATAATATGTGTAAGAGCATGTCCAAAGAGTTCACAGGACTTTGAATTAAAG
CAGCGGCTTCAGGGATTAAAAGTCAGAACTGAATTTGAAACATTCCTACAAGGTAAAATTACTTTAATTGTATGTCTATTTTGATGGTGGCAGGGAATAA
GAGGAAGGTTGGAGGTAATCTCCAAATGTTTGAGTTGTTTGACTTAATATCTAGAGGTTCCTTGAAGGAAGATGACAAATTAAAGAGAAGAAATAGGTTT
ACAAGAATGACTACCAGTTAATATCTAGCAAAATTATACATATATATTAGTTATTTGACTTAGCAATTACACTTCCAAGGCTCTGATATGGCTTGGCTCT
GTCCTCACTGAAATCTCATCTCGAATTCCTATATGTTGTGGGAGGGACCTGGTGGTAGGTAATTGAATCAYGGGGGCAGGTCTTTCCCATGCTGTTCTCA
TGTTAGTGAGTAAGTCTTATGAGATCTGATGGTTCCATAAGGGGGAGTTTCCCTGCCCAAGTTCACTCTTTGCCTGCTGCCATCCATGTAAGATGTGACT
TCCTCCTCCTTGCCTTCTGCTGTGATTGTGAGGCTTCCCCAGCCACTTGGAACTATGAGTTCTCCATTAAACCTCTTTCCTKTGCAAATTGCCCAGTGTT
GGGTATGTCTTTATCAGCCACGTGAAAACGGACTAATACAGTAAATTGGTACCAGTAGAGTGAGGCACTGCTGAAAAGATACTCAAAAATGTGGAAGAAA
CTTTGGAGCTGGGTAACAGGCGAGACTGGGACAGTTTGGAGGGCTCAGAAAAAGACAGGAAAATGTGGGAAAGTCTGAAACTTTCTATAGAATTATTGAA
TGACTTTGACCAAAATGCTGATAATGATATGGACAATAAAGTCCAGGCTGAGGTGGTCTCAGATGGAGATGAGGAACTTGTTGGGAACTGGAGCGAAGGT
GACTCTTGTTATGTTTTAAGCAGAGACTTGCGGCATTTTGCCCTGCCCTAGAGATTTGTGGAACTTTGAAATTGAGAGAGATAATTTAGGGTATGTTGCA
GAAGAAATTTCTTTTTAAAAATATTTTGTTATACTTTAAGTTCCAGGGTCCAGGTGCACAACGTGCAGGTTTGTTACATATGTATACATGTGCCATACTG
GTGTGCTGCACCCATTAACTCGTCATTTACATTAGGTATTTCTCCTCATGCTATCCCTCCCCCATTCCCCCACCCCATGACAGGCCCTGGTGTGTGATGC
TTTCCGCCCTGTGTCCAAGTGTTCTCATTGTTCAATTCCCACATGTGAGTGAGAACACGCAGTGTTCGGTTTTCTGTCCTTGTGATAGTTTGCTCAAATG
ATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAA
TCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAATAAACATATGTGTGCATGTGTCTTTTTAGTAGCA
TGATTTATAACACCCAGTAATGGGATCACTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTA
GTTTACACTCCCACCAACAGTATAAAAGCATTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCACCATTCTAACTGG
TGTGAAATGGTACCTCATTGTGGTTTTCATTTGCATTTCTCTGATGACCAGTGATGATGAGCATTTTTTCATCTGTCTGTTGGCTGCATAAATGTCTTCT
TGTGAGAAGTGTCTGTTCATATCCTTTGCCCACTTTTTGATGGGGTTGTTTGACTTTTTCTTGTAAATTTGTTTAACTTCTTTGTAGATTCTGGATATTA
GCCCTTTGTCAGATGGGCAGATTGCAAAAATTTTCTCCCATTCTGTAAGTTGCCTGTTCACTCTTATGGTAGTTTCTTTTGCTGTRCAGAAGCTCTTTAG
TTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGTCATGAAGTCCTTGCCCATGTCTGTGTCCTGAAGGTATTGC
CTAGGTTTTCTTCCAGGATTTTTATAGTTTTAGGTTTAATATTTAAGTCTTTAATCTATCTTGAATTAATTTTTGTATAAGATRTAAGGAAGGGATTCAG
TTTCAGCTTTCTACCTATTGCTAGACAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGAWC
AGATGGTTGTAGATGTGTGGTGTTATTTCTGAGGGCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTACCAGAACCATGCTGTTTTGGTTACTG
TAGCTTTGTAGTATAGTCTGAAGCCAGGTAGCATGATGCCTCCAGCTTTGTTCTATTTGGTTAGGATTGTCTTGGCAATGCAGGCTCTTTTTTGGTTCCA
TTTGAACTTTAAGGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGTGGATGGCATTGAATCTATAAATTTACTTGGGCAGTATGGCC
GTTTTCACGATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTCCATTCGTTTGTGTCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCT
TGAAGAGGTCCTTCACATCCCTTATAAGTTGGATTGCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGTGTTCGCTCATGATTTGGCTCGCTGT
TTATCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTACCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGG
GCTGAGATGATGGGGTTTTCTAAATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCTTTCT
CTTGCCTGACTGCCCCGGCCAGAATTTCCAAAATTATATTGAATAGGAGTGGTGAGAGAGGGAATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTC
CAGTTTTTGCTCATTCAGTATGATATTGGCTGTAAGTTTGTCATAAATAGCTCTTATTATTTTGAGATATGTTCCATCAATACCTAGTTTATTGAGAGTT
TTTAGCATGAAGGGCTATTGAATTTTGTTGAATGCCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATGTGATTATGTT
TATTGAGTTGTGTATGTTGAACCAGCCTTGCATCCCAGGGATGAAGCCAACTTGATCTTGGTGGATAAGCTTTTTGATGTGTCGCTGGATTCGGCTTGCC
AGTATTTTAAGGAGGATTTTCGCACTGATGTTCATCAGGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTTTCTGCCAGGCTTTGGTATCAGGATGA
TGCTGGCCTCATAAAATGAGCTGGGGAGGATTCCCTGTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGTACCTCTGGTA
GAATTTGGCTGTGAATCCATCTGGTCCTGGACTTTTTTTCGTTGGTAGGCTATTAATTATTGCCTCAATTTCAGAGCCTGTTATTGGTCTATTCAGGGAT
TCAACTTCTTCCTGGTTTAGTCTTGGGAGACTGTATGTGTCCAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCATAGAGGTGTTTATAGT
ATAGTTTGTATTTCTGTGGGATCAGTGGTGATATCCCTTTTATCATTTTCTATTGCGTCTATTTGATGCTTCTCTCTTTTCTTTATTAGTCTTTCTAGCA
GTCTATCAATTTTGTTGATCTTTTCAAAAAACCAGCTCCTGGATTCATTGATTTTTTGAAGGGATTTTTGTGTTTCTATCTCCTTCAGTTCTGCTCTGAT
CTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATTTGTTTGCTCTCGCTTCTCCAGTTCTTTTAATTGTGATGTTAGGATGTCAGTTTTAGATCTTTCC
CACTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGTGTCCCAGCGATTCCGGTACATTGTGTCTTTGTTCTCATTGG
TTTCAAAGAACATCTTTGTTCTGCCAGTAGTCATTCACGAGCACGTTGTTCAGTTTCCGTGTAGTTGTGTGGTGTTGAGTGAGTTTCTTAATCCTGAGTT
CTAATTTGKTTGCACTGTGGTCTGACAGACAGTTTGTTTTGATTTCTGCTGTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACTATGTGGTCAATTTT
GGAATAAGTGCAATGTGGTGCTGAGAAGAATGTATATTCTGTTGATTTGAGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGAG
TTCAAGTCCTGGATATCCTTGTTAACCTTCTGTCTCATTGATTTGTCTAATATTGACAGTAGGGTGTTAAAGTCTCCCATTATTATTGTGTGGGAGTCTA
AGTCTATTTGTAGGTCTTAAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGAT
CCCTTTRCCATAATGTAATGATCTTTTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGRCTAGGATTGCAACCCCTTGCAGAAGAA
ATTTCTAAGCAGCAAAGCATTCAAGAGGTGACTTGGGTGCYGTTAAAGGCATTCAGTTTTATAAAGAAAGCAGAGCATAAAAGTTCAGAAAATTTGCAGC
CTAACAGTGYGACAGAAAAGAAAATCCCATTTGCTGAGGAGAAATTCAAGCTGCCTGCATAAATTTGCATAAGTAACGAGGAGCCAAATGTTAATACCCA
AGACAATGGGGAAAATGTCTCCAGAGCATGTCAGAGGTCTTCACAGCAGCCCCACCCATCACATGCTTGGAAGCCTAGGAGGAAAAAGTGGTTACATGGA
CTGGACCCAGGGTCCCCGTGCTGTGTGTAGCCTAGAGACTTCTTGCCCTGCATTCCAGCCCCTCCAGCATTGGCTGAAAGGAGCCAATGTAGAGCTTGGA
CTGTAGTTTCAGCAGGAGCAAGCCCCAAGCCTTGGCAGCTTCCATGTGGTGTTGAGACTGCAAGTGCACAGAAGTCAAGAATTGGGGTTTGGGAACTTCT
GCCTGGATTTTAGAAGTTGTATGGAAATGCCTGGATGCCCAGGCAGAAGTTTGCTGCAGGGGTGGGGTCCTCATGGAGAACCTCTACTAGGGCAGTGCAG
AAGGGAAATGTGGCATCAGAGCCCCCACACAGAGTCCCTACTGGGACACTGCCTAGTGGAGCTGTGAGAAAAGGGCCACCATCCTCCAGACCCCAGAATG
GTAGATCCACTGACAGCTTGCACCATTTGCCTGGAAAAGCCGAAGACACTCAACATCAGCCCATGAAGGTAGCCAGGAGGGAGGCTGTATCCTACAAAGC
CACAGCAGTGGAGCTGCCCAAGACCATGGGAACCCACCTCTTTCATCAGCCTGACCTCGATGTGAGACATAAAGTCAAAGGAGATCATTTTGGAGCTTTA
AGATTTGACTGCCCTGCTGAATTTCAGACTTGCWTGGGGCCTGTAGCCCTTTTGTTTTGGCCAATTTCTCCCATTTGGGATGGCTGTATTTACCCAATGC
CRGTACCCCCATTGTATGTAGGAAGCAACTAACTTCCTTTTGATTTTACAAGCTCATAGGCAGAAGGGACTTGCCTTATCTTGGATGAGACTTTGGACTG
TAAACTTTTGAATTAATGCTGAAATGAGTTAAGCTTTTGGGGGACTGTCAGGGAGGCATGACTAGTTTTGAAATGTGAGGACATAATAGTTGGGTGGAGG
CAGGGGTGGAATGACATGGTTTGGTTTTGTCTCCTCTCTCAAAAAAAAAAAAAAAAAAATTTCCAGGCATGGTGGCTCACCCCTGTAATCCCAGCACTTT
GGGAGGCTGAGGCGGGCAAATCACTTGAGGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGGCAAAACTCCGTCTCTACTAAAAATACAAAAATTATCC
AGGCATGGCACATGCCTGTAATCTTAGCTACTTGGGAGGCTGAGGCATGAGAATTGCTTGAACCTGGGAGGTGGAGGCTTCAGTGGGCCAAGATCGTGCC
ACTGTACTCTAGCCTGGATGATGGAGTGAGACTGTCTCAAAATAAATAAATAAATAAAAAGTTGGTCATATCTAAAAATACTTTCACAGCAACATGTAGA
CTGGTATTTGACGAAATATCTAGGCACCATAGCCTGGCCACAAGTACKCCCCTAGTTCTATCTGGAAAATGCTAATTCTTCCTGCTCATTTAGAGCAGTG
ACCCTATCTTCCCTTCTCAGGGTCAGCATAAACCCAGCTACATTATGCTGTCACTCCACATAGCTATTGACTTTGATGTTCAGRCCCAGTAGCACTGTAG
AGGACAAGTCTCCCACAGAGAGTGCTAGCTCTTAGTAAGGAGAGGCAGGCCACTTCTGCGGTTCTAAAGGTTTAGCTAAGGCTAGGTAACACAAATCTTC
AGAGGCACTCAACCAGATTTCTCCATCCCATGTTTCAGAATCCCAGATTTTTCCCAACCAAGATTCTGACATTAGCATAACAGACTTCTTTGGTTAAGTG
TTTTTGAGCTRGGCAATTCTAACTATTCAATCTTGAATCTGGTTTTCAGCTTTTTCTGCTACTCACTACAGGAGATAAGAGCCTCTTTCTAACAAGGCTC
TCTTGCCGTCACAATTAATTTTGCCTTCAGCTTTTCATTATATATATATCCCTCTATGAAGTGTAAATATAACTTATTAACAAGCCAGTGGTCTCACATG
CATTGCCTCCTTCCCCATGCCTGAATTATTACACCAACCGAGGCACCCCCCCTTCACCAGAACATCCTCTCAAGTTACCACTGGTGACAGTTTTGGCAAC
TGGGCCACCACCTTGTATTACAGATGATCCATGATCCAATTTCTACCTTGTGTGATTTTCCTTTAGTCAGAAGAACTTCCTGTAACATTTTTTTTTTGAG
ATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTATAATGGTGCCATCTCAGCTCACTGCAACCTCTGGCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGC
CTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCATACCCAGCTAATTTTTTTGTATTTTTAGTACAGAAGGGGTTTCACCATGTTGGCCAGACGGGTC
TCAAACCCTTGACCTCAGGTGATMCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATTTGCCACCATACCCAGCTAATTTTTTTGTATTTTTA
GTACAGAAGGGGTTTCACCATGTTGGCCAGACTGGTCTCAAACCCTTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTG
TGAGCCACCAAGCCCGGCCCCTTTAACATTTCTTGTTGTGCAGKTCTATTGGCAATAAACTTTCTCAGCTTTTATTTGTCTGAATCTATATTTTACCTTA
ACTTTTATTTATTTTTATTTTTTAAATTTTATTTTATGAATATCTAATCTGCCAGCATTTTAGAAATTTGTTTCTATTTTCTAAATTTTATTTTATGATA
CTTTCACTTTTAAAGGATATTTTTTCTGGGTATATAGTTCCAGATTGACAGTTTCTGTCCCATTTCAATACTTTATGTTGTTACATTTTTTTCTGGCTTG
CATTGTTTATGAAAATGGCCCTGTGTGTAATATGTCTGTTTTTTTTCCTGCTGCATTTAGACTTTGTTTATACACTTCTGTTCGGCAATGTGTTTATTAT
GTGCCTTGGTTTGGGCCATGTGCTTGTGTGTGTGTATATATGTGTGTATTTATTGGGCTTGATATTTGTTGAACTTCTTGGATCTGTGGGTTTATAGTTT
TCAAAAAATTTTAAACTTTTCCAACCATTATTTCTCTACTCCACTGAGATTTGAATTACATGCATGTTACACTGCTTGATATTATCCACARGYCATTGTA
ATTGTTCATTATCTTTTGTTCTTTTTCCTCTCTGAGCTTCACTTTGGGTGTATTTCAGTTGACTATGTCTTCAAGTTTACCCGCCTTTCCTTCTGTAGTA
TSTAATCTGTTAAGCCCATTCAGTGAATTCTTTTATTTAGAATATTGTGTTTTAGTTTCCATTTTACTCTTTTTAGAATTTTTTTTTCTGTATTATGTTT
GTATTTCTCTTTAAATTTTTGAACTGCTTTAAAATTCCTGCCTGCACCTGTTATTTCTGGATGATTTATATTAGCTTATTTTTCTCCTGATTATGGGTCA
CCTTTATTTCTTTTCCTTTTTTTTTTTTTTTTTTTTGACAGAGTCTCGTTCTTTGTCCAAGTTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTC
CGTCTCCCGGTTCCAGTAATTCTCATGCTTCGTTCTCCTGAGTAATTGGGATTACAGGCATGYGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGA
GACAGGTTTTCACCATGTTGGCCAGGGTAGTCTTGAATTCCTGGCCCCAAGGGAGTTGCCTGCCTTGGCCTCCCACAGTGCTGGGATTACAGGTGTGAGC
CATCACACCTGGCCTATGGGTCATCTTTTCCTCCTTCCTTCTATGTCCAGACATTTTGATTGGACATTAGACATTGAGATTTTATGATCTCCAATATGTA
AATTTTGATGTCTTTTTAAAAAGAATGCTAAGCTATTTTGAGATCAGCTTGATACTTTTGAGGCTTGTTTTAAGTTTTATTGGGGTGAACCCAGTACTTT
GTAGCCTTTACTCTAGGACTAGTTGAATTCTACTACTATGGTATGAACCTTTTACTACTGTGGTATGAGCCTTCTCAGGTTTCTATCATATGCTGTAGGT
GTTCAATAATGTCTCTGTTCTTTAGTTTATTGTTACTTGAATATCTCTCTGCTCTTCTGTGGGTTTTGAGAATCATTCAGCTTGCAGGCCTTCAGTTGCT
GTTTTCCAGCCTTATGGAGTTTTACTCTACGTATTCAAAACTTAGTATTCAACAACAGACTCAGTCGGTTCCCATGCAGTTTATTGAAAATCTTTTTCTG
TGTGGCCCCCTCTGCTTTGGTACTCTACTCTGAAAATTCCAGCCATTTCAGCCTTCCTTCAATTCAGTGAGACAACTGTGCTCTTTCTCCCTGCTTCATA
TTCTGTAGAGTACCCCCAAGTAAAAGAAATGGGGCAATCATAGGGCTTTTCTCATTTGTTTCCCTTTCCTTGGGGGTCAGAGATTTGTTATGCTTAATGT
CCAAATTCTGAAAACAATTGTTTCATATATTTTGTCCATTCTTCTAAWTTTTTTTAATGGCAGTAGGGCAAGTCCAATACTAGCTATCCCATTATGATGG
AAGTGGAAGTTTTGTAGAGTAAGTGTTTTGATAGATATGGGCACATAATTAATCCAACCACATAGGTCTTAGAGCAGTCTTGCAAAAAGACTTTCTAGAG
AAAAGAATGCCTCCTCTAAAAGAGAAGCCAAAAGGAGAAGAGGTAAAGGATATTTTAGGATATTTCAGATAAGGAAGTAGCATACACAGAGGCAGAGAGG
CATCCTAGAACTATCAAAAATATAGCTGAAGCCTACAATAAGACTTGCAGAGAAGCGAGGAGAGAAATAAAGAGAGATTATTTAGGAGGACATCAATCAT
GAATATTTTCCTTTTGTATTTAATATAGCAAAGTGGACTAAAAAAGGATGCTTAATTAAGGTATAGGCAGTGATTTGAACATTGTAATTTMTTARTTACA
GTGTAATTGTAAAGTGACGGTTATGAAAACTATATAGCAGTGAGGGGGTGTTTATAATATGTTACATGAAAACATCAGAAGGTAAACATTTGTACATATA
CTAATATCATATTTTTTAAAAAAATCAGATGCATAGGAAATAACATCATAAGGAAATGTACCAAAAAAATTGTACAAATGTGGTAGAAAATGAATAATGG
TTGGCCAGGAGCAGTGGCTCATGCCTATAATCCCGGCACTTTGAGAGGCCGAGATGGATGGATTGCTTAAGCTTAGTAGTTCAAGATCAGCCTGGGCAAC
ATGTTGAAACCCTGTCTCCACCAAACAAAATACAAAAATTAGCCGGGCATGGTGGTGTGTGCCTGTGATCCTAGCTAATTGAGAGGCTGAGGAAGAAGGA
TCATTTGAACCCAGGGGGGCAGAGGTTGCTGTGAACTGAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCAGACCCTGTCTCAAAAAAATAAATA
GATAGATAAATAAATAAATAAATAAAAATAAAGAATAATAGTAGCTGGGCATGGTGGCATATGCCTGTAATCCCAGCTACTCAGGAGACTGAGGCAGGAA
AATCACTTGAACCCGGGAAGCGAAGGTTGCAGTGAGAAGAGATCGCACCACTGCACTCTAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAGGATAGTGAATATCCACTAAAATAAATAAAAATAAAGAATAGTGGATATTGGTATGATCCTTCTCAGGAAAGAGCACAGAC
AAAGCACAGAAGTTTCACTGAATTGAAGAGAGAAAGAGATCAAAAGTTAGGGAAGCTGAGCTGGCTGGAATTTTCAGAGCAGGGTACCAAAGCAGAGGGA
ACTACACAGAAAACGGTTTTCCCTCACTTTTTAATGTTTCAGATACAGACACACATTGGAGATATTGTAGATTCGGAACCAGACCACTACAATAAAACTA
GATCTCATTAACGCAAGACACACGAATTGTTTGGTTTTCAGTTATGTTTAGACTATCTGGTAGTCTATTAAGTGTGCAATAGCATTATGTCTAAAAAAGG
CTAATGATCATCTGAGGTTTCAGCAAGTTGTAATCTTTGCTTGTGGGGAGGGTCTTGCCTCAATGTTGATGGCTGCTGACTGACCAGAGTGGTGGTTGTT
GAAGGGTGGGGTGGCTGTGGCAATTTCTTTTAGGGAGACCAGAATGTTKACTGCATTGGTTGACTCTTCATTTCATGAAAGATTTCTCTGTAGCATGTTA
TATTATTTGATAGCATTTTACCCACAGAAGAACTTTTAAAAAAAATTTGGAGAGATGGCAGCTATAGCCTCATAAAATGTATTTCTTAATTAGTAAGACT
TGAAATCAAAATTATCCCTTACTCCATGGACTGCAGACTGGATGTTGTATTAGCAGACATGAAATCAGCGCTCATCTTCTTGTACATCTCCATCAGAGCT
CTGGGGTGACTACATGCATTGTCAATGAGAGTAATACTTTGAAAGAGAGTTTTTTTTTTTTCTTTCTGAGCAGTAGGTCTTAACAGTGGGCTTAAAATAT
TCAGTAACCCACGCTATAAACAGATCTGTTGTCCTTTAGGCTTTGTTTTTCCATTTATAGAGCACAGGCAGAGTAGATGTAACATAAATTTTAAGGCCTT
AGGATTTTTTGRATGATAAATGAGCATTGGCTTCAACTTAAAGATACCAGCTGCACTGGCCTCTAATAAGAGAGCCAACCTGTCCTGAGAAGCTTTGATG
CCAGACATTGACATCTCTTCTCTAGCTAGGRAAGTCCTAGATGGCATCTTTTTTCAATAGAAGACTGTTTTATCTACATTGAAAATCTGTTATTTGGTGT
AGCCACCTTTATCAATGATCTTAGCTAGATTTTCTGAGTAACTTGCTACAGCTTCTCCATTAGCATTTGCTGTTTCACCTTGTACTTTTATGTTACGGAG
ATGGCTTTTTCYTTAAAYSACATGAACCAACCTCTGCTAGTTTTGAACTTTTCTGCAGTTTTCTTACCTCTCTCAACCTTCRTAGAATTGAAGAGAGTTA
GGGCCATGTTCTAGATTAGGCTTTGGCTCAAGGGAATGTTGGAGTTGATTTCTTATTTAGATCACTAAAACGTTTCCTATATCAGCAATAAGGCTATTTT
GCTTTTGTAACATTCGTGTGTTCCCTGGAATAGCACTTCCTTCACAAGCTTTTCTTTTGCATTTACAACTTGGCTAACTGGTGCAAGAGGCCTAGCTGTC
AGCCTATCTCACTTTTTGACTTGCCTTCCTCGCTAAGCTTAATCATATCTAGCTTTTGATTTAAAGTGAGAGATGTGTGACTCTTCCTTTTACTTGAACA
CTTAGAGGCAATTGTAGGGTTATTAACCAGCCTAATTGCAATATTATTGTGTCTCAGGGAATAGGGAGGCCAGAGGAGAAGGAGAGAGGAGAAGGGAATG
GCTAGAAAGTGGAGCAGTCAGAACACACACAAAATGTGTTAAGTTTGCTATTTTATAYGGGAATGGTTTGTGGTGGTCCTGAAAGAATTACAATAGTAAC
ATCAAAGATCACTGATCACAGATCATCTTAACAGGTAATAATAATGAAAAAGTTGGAAATATTCTGAGAATATCAAAATGTGACATGAAGACACAAAGTG
GGCACATGCTGCTGGAAAAATGACATTGATAGCCTTRCTTGATACAGGGTTGTCACCAACTTTGCATTGTAAAAGTGTACTATCTGTGAAGCACAAACAA
GTGAAGTGCAATAAAATGAGGTATGCCTGTATTCTGTGCTTTGATACTAAAAAGGGTGTTGTTGAGGAAAATGTCAATGCATATACATACGTGCATACCT
ACATACATACAACTCTTCCCTTCAGTGCTTTCGTTTTCTACTCTGTAAAGTGGAAATTTTGATAGTATGTCTCTTATTTTGTGTGTGAATTAAATGGGAT
ATAATGTATTTATATAAGCATTTAGCAGCACAATCCATGATCCATATTCAGGGTGTGTATTAGTCCATTTTCACACCACTGATAAAGACATACCTGAGAC
TGGGTAATTTGTAAYGAAAAAGAGGTTTAATGGACTCACAGTTCCACGTGGCTGGGGAGGCCTCACAATCATGGCAGAAGGTGAAAGGCATGTCTTACAT
GGCGACAGACAAGAGAGAATGGGAGCCAATTGAAAGGGGAAACCCCTTATGAAACCATCAGATCTCATGAGACTTACTACCACAAGAACAGTATGGGGAA
AACTGCCCCCATGATTCAATTATCTCCCACCGGGTCCCTCCCACAACACATGGGAATTACTGGAGCTACAATTCAAGATGAGATTTGGGTTGGAACACAG
CCAACCCATATCAGTGTGTCASGTTTTTTGTTTTTTTTTTTCACCAGGACTACTGTTGCATTCATGTGGGATATTTATTATGCTGTATTATGCAATATTC
CTGGGTCCCAATCACTATGTACATGTAGTCATAGTGACTATAAAAAAATGTTATCACATACTTCCAAATATTTTTGGCTGAAAACTACATGTGAAAGAGT
TATGAATTAAAAAGTATAGGAATAGATATATGAAGGTAAGGGTTCTTTCTTGCTCTCAATTCTTTGGTAAAACAGAATCCTTCACATGAAAAACAAAACA
AAAGCAATGTGGTGTGGTGGGAGATGCACAGAACTGGGAATGAGAAGACTTGGGATCTTGGTTTTTCTCTATCGTAAGCAAATTCCTTAGTCTCTGTGGG
TTAATTTCCTTCTTGTAGAATGAGGCCGTGGTCCAAGCTACCATCAAGAGTCTTCCTAGCTCTAAGAGTGGATTATTTTTATGCATTGAAGGAATAATTT
TTCTGACATGCCTTTTTTTATACAGCAAAGGTGGACATTCAGACCAGTTTTGCAACTTGTAAGTCACAGAGGGGAGGAATTTAGATTCTATCACCCTTTC
TCAAATTTAGATGCTATCAGATAATCCAGAGGTCAGCCTCCCGAGTAGCTGAGATTACAGGCGTGTACCACCACACCAGGCTWTTTTTTTTTTTTTTTGA
GATGGACTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCTGAGTTCAAGCGATTCTCCTGCCTCAG
CCACCCGAGTAGCTGGGATTACAGGTGCCTCAGCCACCCGAGTAGCTGRGATTACAGGTGCCCGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAG
AGACGGTATTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTAGGATTACCACATCCGG
CCCAGCTAATTTTTGTGTTTTTAGTAGAGATGGGTTTTCACCATGCTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAGATGATCTGCCTGCTTTGGCCTT
CCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCCAGCCAGTCTACCTTTAATACTAATAACAGTGAAACAGTGAATTCACTAGGATCCCAAACTTC
TCATGTCCACCCTTCCTATGGGGTCCTGGATGAAGTTTCCTTCCTGCTGCTGCTACTCCAGGTGTACCTTACTGCTCTGGCACTTGCTGGGCTCATGCCA
ACACTGTTGCTTTATCCCTTACTGGTATCACTGGCCTGCCTGGGAATGGAAAAGTTGTATTTGGTTCACAAAGAACTTTAAAACGTCTTCCCTCTGGCTG
GAGTGAAATGCATTTCATAGTGATTCAGTGTCCTAGGCCAAACAACTCCTTTCAAATGATGAACTTCAGCACCACCCTGACTCATGTGTCTGAACTCTTT
CTTACCTGGGGATGATTTTACCCCATATAAAAAAGAAATGATCATTATTTCTTCCCTTCTTCTTTTCTTTTTTTTTTTGGTTTGTTCCTAGGACTGAACA
CAGACTAAATGTCTAATCAATGTTTATTTGAATAAATGGATAAATCCATGAAACATAATATTTAGGTAACATAGGAAAAGTCGTGTAGTGCAGCCTTTAT
GTATTTAAATATACCTGTGTAATACATTTGCACATGTTTTTAGACATTATGATTTATTGGGGATATGTAATTTTTAACAAAGTATAACTATACCTGTGTT
TCGAAACACTTCTTATTGAAGAATGAAATACAAATCTTTTTCTTTTTCTTTTTTTTTTTTTTTTTTTTGAGATAGGATCTCACTCTGTCACCCAAGCTGG
AGTACATTGGTGCAATCTTGGCTCACTGCAACCTCCCCATCCATCGTGATCCAGGTTCACACGATCCTCCCACCTCAAGCCTCCCAAGTAGTTGGGACCA
CAGGCATGTGCCACCACTCCCAGCTAATTTTTTTTGTGTTTTTGGTAGAGATAGAGGTTTCACCAGGTTGCCCAGGCTGGTCTCAAACTCCACCCACCTT
GGTCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAACCGAGATACAGATCTATGTTAATAAAATGACATGAAGAACCTAGGTCAAGGAGG
GATGAATCCATATCGCTCTCTCTGTATCTAGTTAGCTATACCCTCTCAACTCAATCTCTGTCTCTCAAAACTTTTTTTTTTTTTTTTGAGATGGAGTCTT
ACTCTGTTGCTCAGGCTGGAGTGCAATGGCACAGTCTCAGCTCACTGCAACCTCCGCCTGCCGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCTGAGTAG
CTGGGATTACAGGCACCCGCCAACACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCACGCTGGTCTCGAACTCCTGAC
CTCGTGATCCACCTGCCTCGGCCTCCCAAAGTGTTGCGATTACAGCCACCACGCCCGGCCTGACTCAAAACGTTTTCTTCACATTTTTAGTATTAGTAAT
GACAAGGAGGGACACACACAGTTTAATAATTTATTATAAATATATGGTATCTCTCCAAACACTCACAGAATGTATTAGGTGATCCATACTAGGTCTCTCA
ATTATTCTTGTGACTAACTGCTTGGATGACCACGAGGAACACTGTGCTGTTATTGGAGACTGTGTGAATAGAGAACCCAGAGTGGTGCAGCCACATGCAG
CAACCCTAGCATACATTTCCAAAAATTTTATGGACATATTTTTCTATCCCCTCATTTGAAAAATCATAGAGCACAACTCTCAGGTTAGATCACTATCATA
TCTTAGCATTAAACTGGGAGTCTGCTAAATTATTCTATTTAAGAATTTTGATCATTTTAACAATAAAAATAATGTACTAATAGTGTGTCTTCTCAGAAAT
TGTTTTCTTTCTTTTCTTTTTTTTTTTATTAAGAGACAGGGTCACCCTATGTTGCCTGGGCTGGTCTCGAACTCCTGGGCTCAAAACAATCCTACAATCT
CAGCCTCCCAAAGTGCTGGGACTCCAGGCATGAGCCACACTGCCTGATTCAGAAATCTTTTTGAAGATATTTTTAATAGAGTCATTTTAGTCTACAAAGA
ATTTCATTATTTCATTGTGTTTCTACATTAACCCAGTGTATAGGATCTGCAATTCTCACTTCATCAAATTGAGAACTGAGGATCAGCGAGGGATAGCAAC
TTACCCAAAGTCACACAGCTATTTGGGGATAGACCTAGGATTCCAACTGCTGCTTTTAATTGCAATAATCTTTTCATTATGCTACTTTTTATAAAAGTTA
GAAATAAGTTGCATGTGCCAGAGAGAATTTCAATGACCTCATAGGTGTGTATGAAATCATGAGCTGTTTAATGATATTACATAAAAGCTCAAAAGAGCAG
AAAACCCACCCACGGATATCAGAAGGGTCCTTCTGGGAAATTTAATTTTATTGTACTTTATAGTTTAGAAAATTTATTTTATTATTATATAATTGGTTTA
TTGACTCACTCATTAATTCACCATACATTTTTCTAGTGTTCATGATTGATAAGGCATTTACCTGAACAGTCTGTGACTGGCAAAAATGAGTCAGAGACAA
TCACTGGCATCATGAAATGAACTAACTCAGAGTCCACAAGGAACAATAATAGCAGACAGAATGTTATAAATGCCATACCAGAGGTGTGAACATAATGTTA
TGAGAAATTAGCAGAGAAACACGAGAGGCAACATAATTTGAATTATTGTCCATATTAAATGTGTATCACTCTTGTAGTAATAATAAAAGATTATTTGTTG
TTTAAAGAAGAGATATTATTAATTTCATGGTAGGAAAACAATGGTATAAAATTGGCCATGCCATATTGCCCAAAGTAATGTATAGATTCAATGCTATCCC
CATCAAGCTACCATTGACTTTCTTCACAGAATTAGAAAAAAACTACTTTAAATTTCATATGGAAGCAAAAATGAGCCCATATAGCCAAGATAATCCTAAG
CAAAAAGAACAAAGCTAGAGGAATCACACTACCTGACTTCAAACTATACTACAAGGCTACGGTAACCAAAACAGCATGGTACTTGTACCAAAACAGATAC
ATAGACCAATGGAACAGAACAGAGGCCTCAGAAATAATGCCACACATCACTATTCACAATATCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATA
GACTGGATTAAGAGAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGG
AAATCATCATTCTCAGTAAACTATCACAAGGACAAAAAATCAAACACCACATGTTCTCACTTATAGGTGGGAATTGAACAAAGAGAACACATGGGCACTG
GAAGGGGAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAGGGGGGAGGGATAGCATTAGGAGATATACCTAATGCTAAATGACGAGTTAATGGGT
GCAGCACACCAGCATGGCACATGTATACATATGTAACTAACCTGCACATTGTGCACATGTACCCTAAAACGTAAAGTATAATAATAATAAAATAAAATTT
AAAAAAATAAATAATGTCACACATCTACAACCATCTAATCTTTGACAAACCTGACAAAAACAAGCAATAGGGAAAGGATTCCCTATTTAATACATGGCGT
TGGGAAAACTGGCTAGCCATATCCAGAAAACTGAAASTGGACCCCTTCCTTACACCTTATACAAAAACTAACCCAAGATGGATTAAAGCCTTAAACGTAA
GACCTCAAATCATAAAAACCCTAGAAGAAAACCTAGGCAACACCATTCAGGACATAGGCATGGGCAAAGACTTCATGACTAAAACACCAAAAGCAATGGC
AACAAAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTATGATCAGAGTGTACAGGAAAAAAAAAAGAAAG
AAAGAAAAGAAAAAAGAAAAAAGGTTTGTATTTCATTCTTCAATAAGAAGTGTTTCAAAAAAAATGTATAGTTATACTTTGTTAAAAATTACGTATCCCT
ACAGAATGGGAGAAAATTTTTGCAATCTACCCATCTGACAAAGGACTAATATCCATAATCTACAAAGAACTTAAACAAATTTACAAAAACAAAAACAAAA
AAAACCAGCCCCACCAAAAAGTGGGTGAAGGGTATGAACAGACAATTCTCAAAAGAAATTTATGTGGCCAAAAAACGTATGAAAAAAAGCTCATCATCAC
TGGTCATTAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATACTGATCATTAAAATGTCAGGAGACAACAGATGCTGGAG
AGGATGTGGAGAAGCTTTTACACTGTTGGTGGGAGTATAAATTAGTTCAACTATTGTGGAAGACAGTGTGGCAATTCTTCAAGGATCTAGAACCAGAAAT
ACCATTTGACCCAGCAATCTCATTACTGGGTATATACCCAAAGGATTCAAAATCATTCTACTATAAAGACACATGCACATGTATGTTTATTGTGCACTGT
TCACAATAGCAAAGACTTGAAACCAACCCAACTGCCCATCAATGATAGACTGGATACAGAAAATGTGGCACATACACAGCATGGAATACTATGCAGCCAT
AAAAAAGGATGAGTTCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAACCGTCATTCTCAAGCTGACACAGGAACAGAAAACCAAACACCGCATGTTC
TCACTCATAAGTGGGAGTTGAACAATGAGAACACATGGACACAGGGAGGGGAACATCAGACACTGGGGCCTGTTGGGGGTTGGGGGGCTAGGGGAGGGAT
AGCATTAGGAGAAATACCTAATGTAGATGATGGGTTGATGAGTGCAGCAAACCACCATGGCATGTGTATACCTACGTAACAAACCTGCACATTCCGCACA
TGTATCCCAGAACTTAAAGTATTGAAAATAATAATAACAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAGTGGCCATGGAGAGACAG
GCATATATAAACACAAAGTTCTTGTTTCTTTGCCCACTGAGTTAACAGGAGAAGGAAAAGAAGCCGCCTTCTCTGGTAAAATTCCAAAAATGCTGTCACC
TTGAGAAAATCAGTTTTCAGTTAAGATAAGTAAAATGAAGAATTTTTAGGGCTGCAGGGCAGGGGGTGGGGCAGAGTGGGTCTTGGCTACTATCTTGCAC
AACTCCCCATTTTAAAGTTGAAGAGGCCAGGTGCAGTGGCTTACACCTATAATCCCGGCACTTTGGGAGGTCGAGGCAGGTGGAGCACTTGAGGTCAGGA
GTTCAAGACCAGCCTGGCCAACATAACGAAACCCCATGTCTACTAAAAACACAAAAATTAGCCGGGCTTGTGGCACACGCCTGTAATCCCAGCTACTCAG
GAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGAAGGCTGCAGTGAGCCGGGATCGCGCCACTGCACTCCAACCTGGGTGACAGAGTGAGACTCC
ATCTCAAAAAAAAAAAAAAAAAAAAAAAGTTAAAGAGACTAAGGCATAAATAAGTAAAGATACTTGCTCAAGATCACATAATCAATCAAAATAGAAAGGG
AACTCATACTTAGATCTCCAGACCCCACACTGCTCTCATTGAAATATGTAGAATACCATCTGAGGCAAAGAGTTAGGTTACCCTTATTAAATATCTACAG
TTGGCCGGCACGGTAGCTCATGCCTGTAGTCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAACCTGGCCAAAA
TGGTGAAACCCTGTCTCTACTAAAAACTACAAAAATGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGC
AGTAAGCCGAGATTCCCCCCTTGCACTCCAGCCTGGGTGACAGAGCAAAACTCCGTCTCAATAGAAAGAAAGAAAAAAAATCGACAGTTATGCCTCAAAA
TTAAATTAACAACACTGGTTACTTAATGTTACCAGGATGATATCTATTATATATACAAGAGGTGTCATATATATATGTAGGTCCTTTTGGATCCACTTTC
AAAATATATATATGTCTACCTGACATCTTGACACTTAGATATCTAATAGATATTTCAAATGTAATATGTCCAAAACTGAATTTTTGATCTTTCCTCCCCA
GACCTGCTTCACTCTCAGTCTTCCTCATTTCTTTTGATGGCAGCTCCTCCATCCTTCTAGTTATTCAGGCTAAAACCCTTGGAGTTATCTTTGATGCCTC
TCTTTTTATCCTACTGCATACCGATTTTGTCAACAAATCCTGTGGAATCTGTCTTAAGAATATATCCAGGAACTGACCATCCTTACCACCTTCTCTACTG
TGACCACCTTAATTCAATGGACAGTCATCTCTCTCTTGGATTACTGCAATAGCCTCTGAACCAAACTCCTTGCTTCTACCTTTGTCCTTTGTTTTGTTCT
CAAAACAGCCAGAATGAGCTTTTTAAAATATTAAGTCAGATCATCACTTTTCTGACTCCCATCTAAAATGGACATTCATTTTGTTTAGAGTAAAAGCTGA
AGTCCTTTCAGTGGCAAAAATATTTATAGCAGCATTACTCATAATAGCCAAGAAGTGGAAAAAGCTAAATAAACATATAAACAAAAATGTGTTGTATCCA
TACAATGGAATAATATTTAGCATTAAAAAAAGTGAAGAACTGATATGTGTTACAATTTGGATGAACCTTGAAAATATTATGAGGCTGGGCACGGTGGCTC
ATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGGGGATCACCTGAGGTCAGGAGTTCGAGACTAGCCTGGCCTAAGTGGTGAAACCCCGTCTCTA
CTAAAAATGCAAAAATTAGCTGGGCTTGGTGGTGGGTGCCTGTAATCCCATCTACTCGGGAGGCTAAGGCAGAAGAATTTCTTGAACCCAGGAGATGGAA
GTTGCAGTGAGCTAAGATCACACAACTGCACTCCAGCCTGAACAACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAGAAAGAAAAGAAAATATTATGT
TAAGTGAAAGAAGCCAGTCACAAAAGATCACACATTTTATAACACTATTTATATGAAATGATGAAATGTCCAGAATAGGCAAATCCATGGAGACATAAAG
TCAATTAGGAACTACCTAGGGCTAGAGGGGTTGGAGGAAACAGGGAGTGACTGCTAATTGCTATAGGGTTTCTTTTAGGGATGATAAAAATGTTCTAAAA
TGGATCGTGGTGATGATACGGGTCTCTGTGAATGGACTAAAACCATTGCATGGTATAGCATAAATGGGTGTATGTTATGGTATGTGAATTACATTTCTAT
ATTACATTGCTATAAATCTGTTTTGTAAAAAAGAGAGGTAATAGAAAGGAAGGAAAGAACATAATAAAAGGGGCAGTAATAATAATAATAATAGTAATAA
GGCCCCATATTAGGAAGGAACTTAATATCTATGAGTTGACAGATATCATGGTACCTATGATATTAGAGAGAAGGCCAATATCCTTAAGGTGTACGAACAA
GTTGGAAAATAAGCTGCAGTCAGATAAGGACCATAGTATGAGGATTTTAAATTTTACCAGAACCCCCAAAAGAAAGATTTAGAGGGATTTATGCAAGCAA
ATGACATAATCAGATTTCCATTTAAAAAATCATTCTGTCTGGCTGGCGTGGGGAGAATTAGAAGTGGGAAAGTGTAGAAACTGGGAGAGCAATTAAAAGT
TATTGCAGTGGACTAGGAAGAAAGGATGGTTGAAATGAAGGCAGATATAAGAGATGGACTTTGGTGTCTATTTTGGAGACAGAATCAGTGAAAGTTGGCA
AACTGAGTGGACGTACGGCATGAAGGATATGAGTAGATGGAGATCCCACTTGCTTAGATTGAGAAACCCTGGGGAAGAGTCATTTTAGGTGTAGTTCTGG
CTACACTAAATTTGAGATGCGTTTGAAAATAACCCTGTAGACACACACATCAACAGTTTGATATATGGTTTAGATTGGGTTTAAATATTGGCTCTGCCAT
TTACTAGCTACGTGACACTGAAAACCATTATTATTTTTCCGGATTCCTTCATCTGTAAGATGGAGATAACATAACCTGCAGTAGCCAACTAATAATCTAC
TGGCTTATTACAGCTTGTTGGTTTAAGGCACAGACTCTGAACCTCCAACTGCCTGCATTTGGATCCTGGCTTTGACATGACTATAGTTGTATGATCTTGG
AGAAGTTACTTAATCTCTTTAAGTCTAATTTTCTTAATCCCAAAATGGGGATAATAATAGCACCTATCTCATAGGGTTGTTAAATAAAGATACGCATTAG
ATAATATATGCAAAGTGCTTGGGGCTGGCACTTAGTAAGCAGATATAAGTGGTAGTTAATGATATTATCTCACTGGGTTGACATGAAGAGATGAGATAAT
ACATACGAAAGGAACCAGCACGTATTAGATATTCAAAGAATGTTACTAAAGTTTCCTTCCTCATTTTTCACCTGAATTTTGTCTTAATTAAACTTTCCAC
TTTTATTTGGACTAGGTTAACCTAGACATTTTCTCAGTATGGTAAAGCCCAGTAAATTGCCCACCAGTTTAAGATGGGAGATAAAGGCCAATGAACATTG
CCGCAGGAGCAGAAAATGAAGAAAAGAATGTCTAAATGGGGAGGCACAATCCAGGTTGGGGAGACAGAATGCAATCAGCAAATATGAACAGTGGACCAGA
CCATATCATTCCTGAGAAAAGTGGGATTGGTTTGGAACATTGGCTGCTATGAGATGAACCCCACAGCTGTGTGTTTTATCTAATGAATAACAAAGAAGCA
GGCCTCTTCAAATGAGGACACGACTTCAACAATATGTAAGAGCATCATGCACTCCTCCTGAGAGCTTTGTGTGTGTGCCATCCCCACTGGTCCTTCATTC
ATTCACTCACTTGCGCATTTGTTTATTTTCTAGTTTATTCAACAAATATTTACTGAGCACCAGGCATCAGGGAGACAGAAGGGGGAAAAAGGTGAATGTT
CTTAGCTCGATGGAGTGTGAAATATAGTGGGGGAAGACAGGAAAGGAACGACAAGTAGAATATACAGTGTCAGGCCGGGCGCAGTGGCTCACGCCTGAAA
TCCCAGCACTTTGGGAGGCCAAGACAGGCGGATCACCTGAGATCAGGAGTTCAAGACCAGCCTGGCTAACATGGCAAAACCCCGTCTCTACTAAAAAATG
CAAAAACATTAGCCAGGCGTTGCAGTAGGCGCCTGTAATCCCAGCTACTCCGGAGGCTGAGGCAGGAGAACCACTTGAACCAGGGAGGCGGAGGTTGCAG
TGAGCCGATATCATGCCATTGCACTCCAGCCTGGGTGATAAGAGTGAAACCCTGTCTCAAAAAAAAGAAGAAGAAGAAGGAATATACAGTGTCAGATAAA
TTCTATGGAGAAAAAGAAAGCAAGGGCATCAGGGGAGATGCAGACACGGTAGCAAAGTAAAAGTTTGAAGAAGGGGAGCACTCCAACAGAGGGAACATTT
CGTGCAAAGGCCCTGCTCATTGTATCTCTGTCATTCTGAATCCCATTTTCCCATCCTCCAAAATTTAAAGAAATAGAAAAGTTTCACCGGGCTGAGGAAG
GTAATGTTCTTAGTATTAGTTTCTAGGGCTGCTGTAACAAATTACCACAAGTTGGGTAACTTACAACAACAGAAATATGTTATCTTACAGTTCTGGAGGC
CAGCAGTCCAAAATCCAGCAGGGCCACATTCCTCCAGGGAACTTCTGGAAAGGGCTCATTCCTTGCCAATTTCAGCTTCCGGGGGTTGCATCAGCATTTC
TGGCTGCATCTCTCCAATCTCTGCCTCTGTCTTTACATGGCCTTCTTTGTGTGCCCATGTCTTCTCTTCTGTCTCTTATAAGGACACTTATCCTTGGATT
TAGGGTCCACCTGAGTAATTCAGGATGATCACATCTAAAGATCCTTAAGCCAGGCGCAGTGGCTCATGCCTATAATCCCAGTGCTTTGGGAGGCTGAGGC
GGGTGGATCACAAGGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCCCTACTTAAAATACAAAAAATTAGCTGGGCGTGGTGGCACG
CACCTGTAGTCCCAGCTACTCGGGAGGCTGAGAAAGGAGAATCGCTTGAACCCAGGAGACAAAAGTTGCAGTGAGCCAAGATCGCACCGCTGTACTCCGG
CCTGGGCGTCAGAGCTAGCCTCCGTCTCAAAAAAAAAAAAAAAAAATCCTTAATTTAATTACATCTGCAATGACTCATTTCCAAATAAGGTCATAGTCAC
AGATTCTGGCCATTAGGATATGAATAGATCATTTGGGGGGCTACCATTCAATCCACTACACTCAATAAAGGCGTTTCAGTTCTTCTTTGTCCATGTTATG
GACTTTCTCACGTTCCTCATCTTTTTTCTCTAAGTTGAAAAGTTGTCTTTGAGAAAAGTTTTTTCTTTTCTTTTCTTGTTTCTTTTCTCCCTCTCTCTCT
CTCTCCCTCCCTTCCTCCCTCTCTCTCTCTTTCTCTTTCTTGGAGTGTCTATACAGACATAAGTGAGGTAGATGACTGAGAATTATCTGAGATAGAGACT
TTCATATGGCCACAGCCATTAATATGGTTCAAGGACAAAATCATGTTGGCATCTGTTCGGGAATTGCAATGAGTAAGTACGTTAAAATTTCAGAATAATT
ATTTCTCTGTTGGCCAAACAGGAAATGGATAAATATAACCAATGTTCACAATTTGGAAAATTGAACAAATTCTTCTGTTTACCCCTTTTCCCATTCATAC
CATACATAGCTAAGTTATGTTGCCATCCTTATTCATACTTTCATTTATACTTTTTCTACTTTTTGACTGTTTAAATCTTTGTTGCAGTATAACATACGTG
CAATCGGTACAAAAGCTTTATGTTCACATATTAATCTCACACTGTTTTTACATATCTGTTTAACCATGTAATCATCATTCAAATCAAACATTCAGAAGGC
TTCTTCCCACTTAACAATCCCTTCCCCAAAGGTGACCACATAGTATGCACTCCTGTGTAAATTTCTTTTTTTTTTTTTGACATATGTCTGAAAGATGCAT
CCAAGCCCTTTTGTGTAGCAGTGGTTTACTTTTTTCAGTACTGCATAGTATTTCACTGCGTATCACTGTATGATATATATTTATTCTAATTTCTGTTGTT
TCCATTTGTGAGTTATCATGAATAAAGCTGCTATGAACCTTATTGTACAAGTCTTTTGGTAGACAAATGTCATCATTTTTGATGGCCGTATCCCTAGAAG
TGGAATTACTGGGCCATCGAATAGACATAGGTTTGGTTTTAGTAGATTTTACCCAAGAGTTTTCCAAAGTAGCTATACCAATTATCTCTCCAGTTGGTCC
ATATCTTCACCATTTGATATTGTCAAGCTTCCAAACGTTAGCCATTCTGATGGGTATATATTGGTGTGGAGTGGTATTTCATTGTGGTTTTAATTTGCAT
TTCCCTAATGACTAATGATGTTGAGCACTTTGTCATATGTGTATCGGTCACTTGTATATCCTCTTTTGTTAACTGCCTATTCAAGAATTTTGCCCCCCCC
TTTTTTTTAAAAAAAAAAAAAGACCACATCTTTGCTTGTCTGTCTTTTTCTTATCGGTTTGTAGGAGTTCTTTTACATACTCTGAATATACATCCTTTTA
GTGAATATCCTTTTTGGCCATGTATTGTTCCAATCTGCGGCTTACCTTTTCATTTTCTTAATTTTATGTTTTAGGGGTCAAACTTTTTTTGTAAAGAGCC
AAATAATAAATATTTTAGGTTTTGCAGGTCATGTGGTCTCTTTTGCAACTAGTCAGCTATGCCATTTAGTGCAAAAGCAGCTACACACAATACGTTTACT
GAATAAGCAAAAACTTTATCATTCTTCTTTTGATTGTTTTTCGGCCATGTAAAAATTTAATAATTATTCTTAGCTCACATATTGTACAAAAACACTTGAC
AGGCTGGATTAAGTTTATAGTCTGATATGGTTGGGCTATGTCCCCACCTAAATCTTATTTTGAATTGTAATTCCCATAACCCCCATGTGTCATGGGAGGT
ACCAGGTGGAGATAACTGAATCGTGGAAGCGGTTTCCTCCATCCTGTTCTCGTGATAGTGAGTTAGTTCTCACAAGATCTGATAGTTTTATAAGGAGCTT
CACCACCCCCTCCACTTGCTCTGCACTTCTCCTTGCTGCCACCATGTGAAGAAGGAYGTGTTTGCTTCCCCTTAAGCCATGATTAGAAGTTTCCTGAGGC
CTCCCCAGCCCTGTGGAACTGTGAGTCAATTAAACCTCTTTCCTTTATAAATTACTCAGTCTTGGGTATATCCTTATAGCAGCGGGAGAACAGACTAATA
CACAGTCCATAGTTTGGCAGCTCTGGTGTATTTTATAAATACAAATTATGAATTTTAATGAATTTCAGTTTATCCGTTTCTTCTTTTGTCATCAATGCTT
TTTTATTACTATTTAAGAAATGTTTGCCTATCCCAAAATCATGAATATATTATCCTTCATCTTATTCTAGAAGTTTCATTTTATTATTCATGTTTATGTC
TATGATCCATCTGGGATTAGGTGTTATGAATGATGTAAAATACAGGTTTCACACATGTGCTTCTATGTACTTAAGTTATTATACATCTTTTTCAATTTTA
TTATGCAACTATGACTTATCTGTTCGTTGAAGCTTTCCCTGATACCCTTACCTTGTGCTTGTAACTTTCCTCTAGTCATTCTTTCAACAACTACTTTTTG
AAGCCTTATTATTATGTACCATGTTAGGAACATGGTATGGTTTGTGTCTGAAGATATGTGTATTTACTTGCTCATTTAATCATTCATCAAATTTCATGAT
TTCATCAAATTTCATGAAGAAAATTATAGTTTTTTGAAGAAAACAATTTAAACTTTACAATGAAATATGATAATATTGCAAGTATTGGTTCACATGTTTT
TCTTTTTTTTTTTGAGACAGAGTCTTGCACTATCCCTGGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGAT
TCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCTGCCACCACACCCAACTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTT
GGCCATGCTGGTCTCAAACTCCTGACGTCATGATTCGCCCACCCGCTTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACACCTGGCCCTG
TTCACATGTTTTTCTAAAAATTAGTCATTTGAAGAAAGAAGCCATAAGCATTAATTTGATTATCTCCAGCACCTAGCATAAATCCTAGCATAGAAAAGGT
GATCATGAAATTTGATGAATGATTAAATGAGCAAGTAAATACACATATATATTGAATAAATATACACATATGTATACAGTGAGTGTATATATATACATAT
ATTTGAATTCGGTGAATAAATGCATAAATGTTTATATATATATGTGCACATCATGCACACAAACAACCTTCTGCTCTTTTCTCCCAGATGCACACAATTA
AAGTACCACTTCAGAAACCACTAATCTTTCTCCTGTGTGCCTTAGACTAGGCTTCCCCAACCCCCAGGCCACAGATCAGTAGTGGTGCGTGGCCTGTTAG
GAACTGGGCTGCATAGCAGGAGGTGAGCCACCAGCCAGCGAACAAAGCTTCATCTGTATTTACAGCTGCTCCCCATAGCTCGCATTACTGCCTGAGCTCT
GCCTCCTGTCAGATCATCGATGGCATCAGATCCTCATAAGAGCACAAACCCTACTGTGAACTGCGCTTGCAAGGAGGAGAATCTAATGCCTGATGATCTG
TCACTGTCTCCCATCACTCCCAAATGGGACCATCTAGTCACAGGAAAACAAACTCAGGGGTCCCACTGATTCTACATTATGGTGAGCTGTATAATTATTT
CATTATATATTACAATGTAATAATAATAGAAATAAAGTGCACAATAAATGTAATGTGCTTGAATTATCCTGAAACCATCCCCCCACTCCCCTCCCCGGTC
CACGGAAAAATTACCTTCCAAAAAACCAGTCCCTGATGCCAAAAAGGTTGGGGGCTGCTGCCTTACACAGACAAAGTTTATTCATTACAGATTAATTATT
AACATCTTAGCCTTTTCACAAGATGGCGCTGAAGATGAAGAAGGAAGCTCCTGCCCCCACCGAAGCTGATGCCAAAACAAAGGCTTTGGCCACAAAAAAA
AAAAGATCCATATGGCACCCTCTTTCTGGTGGCCCAAGGCACTGTGGTTGTGGAAGCAGCCCAAATATCCTTGGATGAGCACCCCCAGGAGAAACAAGCT
TACTCACTCTGCCTCATCAGTTCCACTGACCACTGAGTCTGCTATGAAGAAGATAGAAAACAACATGACAATCGAGATGGATTGATGGATAACAGAATGA
TAGATATGTGATAAAACAAGTAGAATAAAGTATTAATGGTGGATTCTAGGGAGTGGGCATATAAATGCTCATGGTAAATTATTTTCAACTTTTCTGTATA
TTTGAAAGTCTTCATGATAAACTATAAAGGAAGTAATGTGCAAAAACGAAAAAGGAAACAATTATACACTTGGGTTCATTGTGGATATCAAGGCCAACAA
ACAAGCACCAGATCAAACAGGCTATGAAGGAGCTCTATGACCCTGATGTGGCCAAGGTCAACACCCTGATCAGGCCTGGTGGAGAGAACACATATGTTCA
ATTGCCTCCTGATTTACGTTTCGGATGTGGCCAACAAAACTGGGATCATCTAAGCTGAGTCCAGCTGGCTAATTCTAAATATTCACCAGAAAAATAATCA
TTTAAAAGTAATAGTAATAAAGACTTGATGGCTCCTATCTCAGACTGCCTGGGTTCAAATCCAGGCTCTATCACCTGGCAGTTAAAGTTACTTAACTTTC
CTGTGCCCCAGTAGCCTCATCTGTAAAATGAAAAAACCTTCCTTACAGGGATGCTTGGAATATTAAAGGAGTTAACACGTATCGAATAATTAAAGCCTAA
AGGTTCAATGAGGACAGGAATTTTTGTTTTATTCATTGCCATATCCCTAGCTTATAGAAGAGTGTTTGGTACATAGCAGATGCTCAATAAATTTCTATTG
AATGAATAACCAATATTAGGATAGTCAAAATCGAATCGCTGTTGGCTATTATTTTATGTTTGCTATAAAAGTTCTTAATTCCCATTTCAATCATTCCCCA
TCCCCCAATTACTGCCATTTTCACTTTGGGAGCCATGGCACTTTCCTATAATGACACAAGATGGCAGCATCACTCTCCTTTTAAGTTATCAGCCAAGCTC
TAGTTGACCAGTTTTGGAAATTCTCTGAAGCATCTTTATTTGCAAGTTCCTCCATCCGTTCTAATTTTTTTTTTAATGAACAACATTAACTGTTTGAATT
ACCATAAGATTAGCTCTTAACTGCTCTAATTTCTAGCTAAGAAAAGATTACTACTTGTAAAAGGGTAAAAATGTTGACATGAATCCAAGACTGCTTTCCA
GTACCACTACGATTTTGTGTTCTTAAAGCTCCCTTTTTGTAACAAAAAAACTGCTTGACAAATTATGAAGCCAAATGTGTTTCAGAGACACAAGGTGCAA
CAATGTTGTTCCCTTCCAAGCCTGTAAGAAATTACAAACAAAATACAACTTCCCCTCTGTCTCTTTACTAAAGACATGAAGCTAATTCTTCAGTCCCTCT
AAGTTACTCTGTGAATTCACTGTTGAACAGCAGAAATTTCTGAGCACCTTTGAGTGTGAGACCTTGTGGGGTAAAGAAAAAAACCTTAGTTTAGAAATTA
AGAGACCTGGATTCCAGTGGCTCTTCAGGAATCTCCTCACCACCAACTTTAATCAAATCTCCTATCTTTCCAAGATTCAATTTCCTTATTCTAAAACAAG
GATAATAATCTCTGCCTTACCTATTCGGAAACAAGATCAGTGAATGTAAATAGCATTATAAACTGTAAGGGGTATAACTGTATTATAAATATTATAAACT
GTAAAGCATTATACACTTCACCCTGCATGAGCTAATGTTAGAATCATTTTCATTTTACCTRTGGGGAAAACCAGTTCTATCCAGTTAAGTGAGCTTGCCT
CAGTTTTCTCATCTGTAAAATGGGACTAATGATAGCAACTCCACCTACTTCAGTGAGTTGTAAAGATAAAAATAAGATAATAGATGTGAAAGTGCTTTTA
AAATGAAAGTACTTTCACTTGTACTCTCACAAGATTATTAGCTTAAGCAAATGGCTTTTCTTAGATTTCACAAACAATCCTGAAGAAAACAACATATAAG
TAAATCGTTCAAGAAAATAAGTATTTTGAATTAATACTTTCTGAAACCTCAAGAAATTGCATATTTTAAAAAGACAGGAGTTGAGAGGCTGAAGATGTTA
TTTTATTCAGGGAAGGATGACTACAATTAAATGGTTATATTCAAGGTGGTACTTGATAAATGCTTTTTAAATAGCTGTATTTAAATGAGGTATTTTGTAG
AAATAAAGTGTTCATTGAAAATATTAACATTCAACTTGCCAGACGCAGTGGTTCACGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGACCAT
TTGAGGACAGGAGTTCAAGACTAGCCTGGCCAACATGGTGAAACCCCGTCTGTACTAAAAATACAAAAATTAGCCAGGCTTGGTGGCCATGCCTGTAATC
CCAGCTGTGGCACGAGAATCGCTTGAACTCAGGAGGGCTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCCGGGTGGCAGAGCAAGACTCTATCTC
AAAGAAAAAACAAAATTAACATTCAACTAATATTTATTGATTGCCTATTGTGTACCAAGCATTTTCAAATGTATTATTTCATTTTATACTTTTAAACCCT
CCTCACAACTACAGAAAATGTCAGCCCCATTTAAAAGTTGAGGAAACTGAGGTTCAGGGAGGTTATTCAGCTTGCCTCAGGTCAAACAGCAGAAACCCTT
CTGCTAATCCCCTGCCCCTTCCTGCCTTTTCTCAGGAGTATTACGGTAGATGTTTCCATTCAGTCCTCTGGAAGCAYTCGTGATATCAAATCCAACACTT
ATAGCAGCAAGCTAGCAATTTTTGTTTAGTAAAAACCAGAGGTGGAATATGAATATAACAGTTTGGAAGAATCTGGATAAACAGACTCTTCTTAGTCAAA
ATGTCTATGTCTTCTTAAGTTAACTTCAATGGCTTAAGAAACTTAGGCTCTTACTTTTTGACCATACAATTTTATATAAAAGGGACTCAGCTACTTTCCT
CTTCAATATTTCTAGAGCCAATTCATACCTTTTCAAAACTAAAAATAATTAATTATTAAATATTGGGAGTCAAAAAGAGAGAGAAAGAAAATTATGAGGT
AACGAGAGATCTTAGAAATGAAGGCCATTTAAATGTTGGGAGGTATCAGTTATGTAAGAATGATGTGCTGTTGTTGTCACACACAATAAGTCAATCTTAA
AAAGGCATTTATCCCTGCTGATRTTATAGTTTTTATACAGACCAATTTAATGAACTGGATGTCATTTTGATGTGTGAATTTTGGTAAGTTTGTTTGCCAG
AAATTCTAATTACTTAATTACCTTGAAATGACACCATTCTAAATTATCAAGTCTGTTTTATTGCAATTTATTTGCTGGTAAGATTATTCAACTTTAGGGT
TTAAGGCAAAGAGGCCTTCAAGTTTATATGTCTGGTTAGCTGCTTTATTTCCCATTATCTAAAGAAATATGTTGACACTATATTTTATTACTTGTTCAAA
TCAGTTTTATAATAACAAGTATTTGTAGCGGTCCTTTGAAGAGTTACCCAAATATAATACCTGTTTGCATAGAACTACATACATCAATTAACACTATGAT
CTTTTAGTTATGGAAAAATAGCCCACAGAGCCTTATAAATGGAAATATAAAAGTCTTATTTAAACATCCATTTATTATCCCTTTTATCTGCTTTTGGAAT
AACAGGCTTTTTGAGACAGAGTCTCCCTCTGTTGCTCAGACTGGAGTGCAGTGGCATGATCTGGGCTCACTGCAACATCCACCTGCCCAGTTCAAGCAAT
TCTCGTGTCTCAGCCTCAGGGAGTAGCTGGGACTATGGGTCTGTACCACCACACCAGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGA
TCTTGGAGTCCTGGCCTCAAGCCATCTGCCTGTCTTGGCCTCCCAAAGAGCTACGATTATAGGCGTGAGCCACTGCGCCCAGCCAGTCTGACTTTTAAAA
ATATGTGTATTCTTAAATTAATAAAAGTCATTTCACAGATAAGGAAAAGCAGACAGGAAACATACAGGGAGGTACCTATAAAATTCATGTAGTTACTATT
TCTTTCTTTGACTTAGGATTTCACCATTATTGATTGTGGTATTAAGGTCAAGGCTCTCGCCTCATGGAGCTAACAATGTTTGAGGGACAAATTATGACCA
CTTGCAAGTAAGACAAGCCACTATATTCCACTGCACATGACCCTGTCTTATTATTTCACTTTGCAAGTAATTTCATGATTTGCAAAGTGAAGTAATCAGA
TAGGGCCGTGTCCAGTGGAATAAGACCTTGAGTATCTACTCAAGGTCTTTTAGAGCTCCAAGGAGGGAAAGATCAGAGAGGCCTGCAGTTTCAAGAAAGC
TTGCTTTTAGATTGGAATTCCAAAAGCATGGTTTGGTGACTAAGAATTTCAAAGATGACTATAATTACAAAGACAATTGAGTAGGCAAAGACCCTGGAAT
CCTGAATTCCTCTTAGAATGTCAGTAATTATGAACCTGGCCTTGTTTTGTTTCCACTCTTTTAACTTTTCAAGAGAAGGTGTTTCTCAAGAAAAAGCTAT
CTCAAGCATCTGCCTTCTGAACTACCCTGGCTTTTACCTGTGCTATTTGAATTGAGAGTGCTGTGTGTGATTTGCAGTTGGATGCTTCAGCTCCAAAACT
TCTTGGGAGAGTCAGATCTTCTTGCTTCCAGAAGATAGCAATGTTGTCTTTCTTTGCAAGCCCCACTTACTAACCGGTGCTAACTTGAGCTTAATTCAGT
ACACAGCAAATCCCGTGCTAGGTACTAGAGAGATGCCGCGGCGCTGATAACCTACACAGTTTGCTAGTCTTTACCATCTGTAACACCAAATCAGGCTGAC
ATAGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCAGGCGATCATGACGTCAGGAATTTGAGACCAGCCTGACCAACATGGTGAAGCCCCAT
CTCTACTAAAAATACAAAAATAGCCGTGTGTGGTGGCACGAGCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAAGAGAATCCTTTGAATCCGGGAGGC
GGAGATTGCAGTGAGCCAAGATTGAGGCACTGCACTCCAGCCTGGGCGATAGAGTGAGACGCCATCTCGGGGGAAAAAAAAATAGTTAGAAGCAAAGAGT
TGACAGTGAAGTTAATTCTGTGCAGGAATGAAGAAAGTACTCAGAGAGGAGGTGACATTTCAGAGGATACTAAAGCAAGAGAAGCATTTCCCTAACTAGA
GGAGGAAAGGGTATGCATTATAGGCAGAGCGTGCAGGAGAGCAGGGGTGTGGAGTGTGAAAGGATTGTACCAGAAAGGGCAATTGTACCAGAAAGGGTTG
ATGGTGGCTGCATATAAAGTTATCAAAACCCAAAACAAGTCAGTGTAAGAAAGAACATGATTCATATAATGTATCAAAAAGCTACAAATATTTCCATTTC
TGAATGCACACAAAGAACCACCTGGAAAAAACATCCATTTATTGTCCACTGTGCCCAGGTCCATGCTAGGCACTATAGAAGATACAAGGGAAGGCCCTTG
CCCTGGAAATGTTTATTCTCTATCTGGAAAAAAGATTAACTCACATAAAATAATTAAAAATAAGATGCCAGCCTCTAAGGAAAAATGTTAGATTGTCTGA
AACTCAAGCAGAGAGCATTTTGGCTGCCCTGGAATTCCCCATAGTAGTAGAATTACTCTTGGGGCCAAGAGAGGGGTTGCCTGAGACTCCTTCACCCAGA
AAAAAGGTAATTGCTAACCCTCACAGAGCACTTCCTATGTACTGGGCACTGTTCTAGGAGCTTATACGGATTAACAAATTAAGTCTTCACAACCACCCTA
TATGAAAAGGAACAGTTATCTCTAGTTACATACGGGGAAACTGAGGCACAGAGTCACAGGATTGAAATCCAGGAGATGTGGTTCCACAGTCGTGCAGTCT
TTTTCATTTTAGTATTCTCAAAATCTAGCGTAGTACCCGGTGTTGGATGTTAAGATCTTAAACAAACAAACAACTTGTTTTCCTTAAAAATTATATTTTC
AGGGTAATACAATTCAAGTCACAATAAAGACCTGAAAGCCTCAGGTTTGTAGGTGAGGAAAAATGCATTTTAGCTGTACAGCCCTAACTTTTACTTGACC
CAAGGCCAGCAAGAAAATGTTTCTTTTTATTTATATATATTTTTTCTTTGGTGACAATTTGGTGTTTCTGAACGCTAGGGGCTCCCGGTTTCTCTGGTTT
GAGAGTAACTTTTCCTTTTAGGACTTTTTTTTTTTTTTTTGAAGGGGGTGGGGGAAAATGTGGCCTTAATTATCCTACGTCTTAGGCAGCTTAAGGAAGG
GGCTGTGCTTTCGGAATCCCATCCGAGCCAAGTAAGGAGGTCCCTCTCTCTCTCTCCCCCCACGTCTTCTCTTTTTAAAGGACCTCGTGAAATAAAAGTG
CAGAAAACAAACCCAGGCGATCACAGCAGCAGCCGCCGCGGCAGCAGCACCAACAGCAGGAGGAGCAGGAGGAGCCGGAGGAGGAGGAGGAGGAGGAGGC
AAAGTTAGAGTTGGGGCTGGCGCTCCGGAGTTGCTGGGCTCAGCGCAGCTCCCATTCATTAAGGAACCAGCTGCGGAGGAAGGTGGCCGAGCGCCCGCGC
TGCCCACTCGCTCGCTCGCGCACTCAGACGCGCGCCACAACAGCGCGCCCCAAGCTGCGCAGCTCTGCAAAAGTTTCTGCTCGGGATCTGGCTCTCTTCC
CCTTGGACTTTAGAACGATTTAGGGTTGACAGAGGAAAGCAGAGGCGCGCAGGAGGAGCAGAAAACACCACCTTCTGCAGTTGGAGGCAGGCAGCCCCGG
CTGCACTCTAGCCGCCGCGCCCGGAGCCGGGGCCGACCCGCCACTATCCGCAGCAGCCTCGGCCAGGAGGCGACCCGGGCGCCTGGGTGTGTGGCTGCTG
TTGCGGGACGTCTTCGCGGGGCGGGAGGCTCGCGCCGCAGCCAGCGCCATGCAAAACTACAAGTACGACAAAGCGATCGTCCCGGAGAGCAAGAACGGCG
GCAGCCCGGCGCTCAACAACAACCCGAGGAGGAGCGGCAGCAAGCGGGTGCTGCTCATCTGCCTCGACCTCTTCTGCCTCTTCATGGGTGAGCCCAGCCC
CGCTGTCCCTCGGCCCCTCGGCCCCTCGTCCCTCGGCGCGCGTCCCAGCCCAGTCCGGGGCCGCGCAGCGCCGCGCCGCGCCGCGCCGTCAGCTCCGGGG
GGCCCCCGCAGCCTTCCTGGGGAGCCTTTGCGCCGCCCAGGCCCGAAGCCCCCGCCCTCCCCGATCCCACCGACTTCTTGGCCTGTACTTGAGTGGGTCT
GGGCGTRCTTAAGCGTTCGTGGGCAACTGTTAAACCAGCTCAGTAAAAGTCGTCTCCACGTTGGAAGCCCGGGCGGAATCCCGCGGAAGGTGTGGGTTCG
TCCTTTTAGCGTAGGGGAAGTTGGTTGAGCCGCGCTCTAGAGCCAGCGTATAGCTAGCTGGTCGCCCTCCATCCGAGTGAAATGGATCGCCCCGAGAGTC
GGGCTCCTGCCTGGAGCCGAGCTGCCTTCCCGGCGGCTGTATGTAAACATCCAGCCCTTCCGCCTTTGCTGCCCAGGCTCGCCAGACTGGCTAGCCGGCC
TTTTCACTTGCTCCTCTCCTGTAGGTGCTTTCCCCGGGCTTGGTGCTGGGCACGGCTTCAGCAATCACTTGAGTGCCTACTGTGTGCCAGGTGGTAGGCG
GCTTCAGGGGCATCAGTTTTAGCTCGCCCACTCTCTGACTCGGTGCAGCAGGGGTGATGAGCCCCATTTCCCTGATGGGCACATTGAGGCACTGGGAAAG
CCAGCTGCGATCTTGTTTGGGGACCACAAATTTAATTGCGCCCCCAGAAAGTTGAGGCGATGGTCCACTTCTGTTTTCCAAAGTCGTTGGAAGCCACAGC
TGGAAGAGCGGTGGGAGTTAAAGGAATTGGAGTGGGAGGGCGAGGAGGATTTATGAACTCGGTAGGGGAGGGAGAAAGCGCTTCACAAGAATGAACAGGA
CTTCCAAGGTTGAAGTCAGCCTAGGATTTTTTTTTTTTTAAAGCGAATCATGGTGTAATGGAAAACGCACAGTACTTGTCATCAGAACACTGCCACTCTT
GCCACTTGCTGGGTGTGCCACTTAACTGCCTCATGGGCCTCAGTTTCCTCAGCAGTTGAATGAGTGGGTTGAAGTAGATGCTCTCCAAGGCCCCTTCCCG
CATTAGGAACTCGGATTTGGTCCAGAAGCTGTTCTGCCAACTCTGCTAACTGAAGAAACATCTGTGTTCCCAATTCAGTTCCCTTAAAATACAGCTCCTG
CACAGACTTAAGTCCCCTTTGAAATGGATTTGTCCATGCAGATTTTGCAGACCAGAGACTTCTTAGGCTGGAGTTATACCTCTCTGGTATTCATGACTCT
TTCTGTAGCACTGCTCTTACTGTGCAGTGTCCTCTTGATGGTCCATAGTAAAGAAAGATAGGATTCTTAGAGTTTAAAAATAAGAACGGCCCCCTTCAGG
TAAGAAGAGACAGCTGAAGGTATAATTGTGCTCTGTGGAAGGGTGGAGGGGTGGAAAGGAAGAAAAGTCACTGTAGTTCAGGTGGCACATCCCATTTCCA
CGTCTCTCAACATTAATTCAACATTAAGATGCTATGTAAAGGAATTGTCACTGGGGGGCCTACCTTCCTGAAGGCAGCTGGCTCATTATCATGCACAGTG
GGACAGATTACTACTTAAAGTCTTGTAATCAAGCTGTTGAATTTTTAAAAGACCCTCTCTGGTCCCAGGGGAGTACAAGGAAGCACTAAACACATGGAAG
CTGTTTGCTGTAAACTTGCCTGGAACTCCCTGTGTTTACTCAGTGTGTTTTGTTGGTGGCAGGGTAAGCTCTTTCTAGAGTGCCTGTGCAGGATACCCTC
CTACCTCCTACTTTGTGATTAAGAAAGCAGAGCTAGAACATGCTTGACAGCCTTTGTACAATTTCCTTTCCACCCTTGTGATTTTAGAAGGCAGTCCCAA
GAGATGGTGTCTTATGAAAGTGAAAAGGAAAGAGATGTAAAGGAATTTGCAAAAAGACACAACCATCAGCTGTAGTTTAGCCAGGGATGTAAAAACCCAA
GCTACTCTGTTGTACATTGAAGGTGTAAAAAAGGTGTGTGTGCATGCATGCATGTGTGTGCATATGCATGTTTCAGTTCTTCATTTCCCCACTATCCCCC
GTCCCCCCAAAGCTAATATTCTAACCTGTTTATTATATTTATTCACTGTTGGTCTTATGTTTGAACAAAATGATTTTGTTTATCTCCAAAAAGCAATAAG
GCRTCAGGACCATGTATTCTGTTATAGAGGCACATAGCTACTTGTTTTCAGGGGTGCTTTGCCATTAAAACCATGGCAACATTTTCAAAGTGACTTATTG
ATCAATGTTTCCCCTGAGCACAGGCCAATTACAATATCACTAATTAAATGTCTCTCAAACACCTTTAACAGGAAAAATTCTTTGTAAGAGAAATATTTAG
GTGAGATATTTATGCAGGAGAACTCTATTTGGCTTCCAAAAGAAAAATTAATAGCACAACATGTGATTTTAATATTCCGCACACCACAGTCCTAAAAAAA
ATTGTTTCCACTTTTTGCCTAAGACCGTCAGTATAATTTAATTTTTATATAGTTTATTGATCATATGGTCTGGATTACAGGGCACTAATATATTAAGAAG
AGAGACAGTTTTCTGTTTATTCTCTCACAGGAATATATAAGAAACTTCATCTAGTATCTGGAAAAAATAAAAGCTGATGTGCTATGTCAGTGTTATGTAA
GTGGAAATATGCAAGTAGTTTAACTTGTTTCACATACCTTTTTAGAACGTTAAATTCTTGGTGAAAAAGCAGAAGTCTACTCTTGTTTGAAAGCCAAGAC
AATCTGGTGTCAAATAACACCAGTGGGAGTTTACCTTTCATTGGACAGCTATCTTTACCGATTAATTGCTTTTAAATACAGTTATGAATCTTTGCGTGAT
AGTTTTCCTGAAATTGATTTTGTTTTCCTTTTAATTAAGTAATATTTATCACCTCCTGGTTTTTGTACATTGATTGTGGTGTATGGGGTTACAGGAGAGC
RACAGACGATTCCCAGGTAAGAAGGGAGGAACAGTTATTGTCTTTCTAAGCTCTGTTAGTCTCTTTTTTATATAAATTCATATATGCATGCTTTAATGCA
ACCCCTATGAATAAATTATCTCCATTTTATAAACCAGAAACCATGTCTCAGAAAAGGGAAGGATAGACTAACACTGAAGTCGATTTGAATTGATCCCCAG
TTCTCAGTTTAGCATGAGTGGAATCCTTTCCCCACCTGAAGAATCTTGAAATTCAGGTTCTTATCAGAAAATTCTGAAGCTCGGTTTGCAGAAAGTTCTG
CCTCTCCCGATTTCCCAGTTACCCATTTGCACCAAAGCAGAAAAATAAAGTTGGTCCCAGTCTTCCAGTCAGTAATACGGAATTTGGGTGGTCAGCAACC
GTGCTATTTAATTTGGTTGCTCCACCACGTTTTTGGATGTTTTTTGATTTCCAACTAAATGGTTGAGCTAAAATTCTAGAACTGGTTCTATATATGGGAT
ACATAGAGTCATCATTTATTATTATTTACTTTAAATAGTGAGAGAGGGGCAGCATGGTATAGTGCAAAAAAGACACTTAGAGTCAGAAGCTTYAGGTTCC
ACGTTGGCCAGTGCCACTATCGAGTTGCATTGTGTGGATGAGTCGGTTTTCTGTGTGTCTCAGTTTTTTTCCACCTGCAAAATGACTGTGTGGGATTATG
TCTATTATTRCCATTAAACATGCGGTGACCGATTTCTAGTAGAGGCTTGACGTTAGAGACTTGACATATGCTGAATGTCTACCCTATGCATCTACTCTGC
TGAGCTCTTCATTATATATTAGCTCTGTGAATCATCACAAACTAGAGACAGTCATTATAGTCTTGTACTGCCACTGCACTGTACAGCTTTGGAAAAATTC
ATTTAAATTTTCTGAGTCTCAGTTTCTTTACCATTGCGAAAAAGGGAAGGAACTAGACCATCTTTCAGTGTCCTTCTAGCTGTAACAATTTTATAAGTCT
AGGCTGGTAAATATTGTGATGTAGTAACATACCCACTGCCCCTCTTAGACCATTTGTCATTAATTGAATTGTTATATATGTATGACCAAAGAATTAATGT
TGAAAATTAGCTTAAGTTGGTGTTAATTCTGGAGGGGAGGTAAGCACTGCTTTTATTAAGGTTAAGGCAATACGTTGAGAAACTGACTAGATTTTTCCTA
CGCCGGATGTGTCCTTTCACCTGCTTCCTGAAATTTACATATTTTCATTAATCAACCGGTAAATTGCCTAGCCAACCATCCTTCGTAGATTAAAATAAAG
AAAAGAGCCTCGTTGGGTGCAGTGGCTTACTCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCAGGAGGATTACTTGAGCTAAGGAGTTCGAGATCAGCT
TGGGCAATATAGTGAGACCYTGTCTCTACAAAAAAATCAAAAATTAACCGGGCGTGGTGGTGCAAGCCTGTAGCTGTAGCCCAGCTTCTTGGGAGGCTGA
GGCAGGAGGATACCTTGAGACTAGGAGTTGGAGGCTGCAGTGAGCCATGATTGTGTCACTGCACTCCAGCCTAGGATCATTTAGTAGGTAAGCCCTGTTG
ACTTTTCTAGTATGGTTAAAAGCTTTTATTCACTGTCCATAATGGTTAGGGTTTTTTTTTTTTTTTGAGACAGAGTCTTCTCTGTCACCCAGGCTAGAGT
GCAATGGCGTGATCTTGGCTCGCTGCAACCTCTGCCTCCCGGATTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACGTGCCA
CCATGCTTAGCTAATTTTTTGTATTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAAGATGGTCTCGATCTCCTGACTTTGTGATCTGCCCGCTTCAGC
CTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCAGGCCCCTTTTCTGCTTTTAACCCTTTTGATTACCTGTCAATTTTAGATTCTTCCTTTAC
CCTTTCTTGTGCAGTTGTTTGGGCTAGAAAGCCCAGTTGGTCACAGCGTGATGCTAATGAGACCATAGTCAAGGGCTTCTTCCCTGTGTAGGCAGTTATA
TTTATGGAGAAACCCTGTCCTGTGTGTCAGTTCAATCCAGTACACGTTATGTGAGGAGTAATACTTTGTTTTGGGGTTGCCTATTACACCAGTATTTCAT
AAACTCACCTAACATGGGGCCTATCTGGTATGAAATACAGATTCTCGGACTCTTCTCCAGGATATTCAGATTCAGCTGGCTTTGAGCCAGGACCTGGGAT
TCTGTGTTTTATAAACGCTGCCGGTGATTCTTATCAGGCCAATTTTAGAATCACTATGTTGTTTAACAGCTGATATCTTAAGGGCAATTTAATTATGTAG
TGGGCTTTTTGTCCCTGCACTGAATGTTCTGGCATTTTCTGCATTGTTAGGTTGTCTGTACTTTTTTTGTTTGTTTGTTTGTGACCAGTGCACCTGTCTT
TTTCAGTAAAGATAATCAAGTTTGCAAGAATTCTTCCGAATGGAAAATTACCCCTGGATGCAGACCTGAAGGTGTCCTGTGTCTTTCAGTGCAAAGACTT
GGTGTTGTTTCTAATGCCAAGAGGCTAAAATCTTTATGTATTTTCTGGTTGTAAACCGAACTCTATGTAATTGAAGTTGCCAGCCATGTGACTCTTTGGA
TAAATGAGGTGTTAATTTTAAATATTTTCTTTTGAGATATTGAAGTTTGTGCATGAGTGCAAGGTGAAGCAGGAATAAATTAGATTCCTAAATAGAGCCT
TTAGAAGATAAAATAAGCTTGGCAAAGTAGTGTAGAAACAATACAAGCTTTGGATTTCCCCAAATCTGTGTTTGAATCCTGACATAAAGCAAACAGCCAC
CTTTTGCCAGCATGTAATTTTGGGCAAAAATTATTTAACCTCCTCCAGGCTTCAGTTTCCTCATCTGTAAAATAAGCAAACCTGGTAATACTTGTTTGTT
GTGAAACCCAGGTGAGATAATGAAACTGAAAGCATTTTGAAAAGTTCAAAATCACGTTATCATTATCAGGTAGGAATGAAGTTGCTGTTGTTCTTCATAG
AGTCGAATTTTCATTTTCCTCCCAGTTTTCTTACTCCTCAATGGTTCTATAAAATCCTCTTATTTCTTGGCAGCAAAGTTGCCTGAACTATATTAAGGAA
AAAGATTCTGAGAAGAATCCCAAGAAAACACCAAGCAGAGTGGACACAAATGTTTTCCATTAGCTGAAGAAAAGCAGTGGCAGGTTTCCTGACCCTTTCT
GGGAAAGTCAAAGTGCAGGAACCTCAATAGGCTTTGGTGGTTGCATTCTTCCCCTTTGAAAGGGACAARGCCATATTATCTTGAGAGAAAGACAGATATG
CCTTAGGAAGGGTGGGAGAGAATTTAGACACGTGGTCTGTTTTAGGGTCAACTCTCACTTGGGTCATTCCTGTCATTSAACAGCCCAGAGGAAAACCAAA
CTAAAAGAACAGCAAGGCCAGGCGTGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGAATTTCGAGAC
TAGCCTGGTCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCATCGTGGTGTGTGCCTGTAATCCCAGCTACTCCGGAGGCTGA
GGCAGGAGAATTGCTGGAACCCAGTTGGCAGAGGCTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGGCTGGGTGATAGAGCGAGACTCTGTCTCAAA
AAAAAAAAAAAAAAAAAAAAACCAGAAATGATTGGAAATGATCGAAACGCTGGTCATCTAGGGGACCCTCTGTATTTGCTGAGGAAGGAAGGTACTGAGC
TAGGCTACCATATTTATTATACAGGCCAATCATGTGGTATAGAGACGATCCCTTTTATAGAAGAGGGAACTGTAGCTCAGAGATGTTAAGTAACTTGCAC
AAGGGCACCCAGCTAGAAAGCAGTCACCAACTTTTCCAGAGCTCTTGTCAGGTTACCTTGCTGCCCCACTTTTCAATTTGCAATTAATTGATTGCAATTA
ATGCAATCAAAGCAGTCTTTTTCATTTCTTTCCATTTTGTTTATTTTGGTCTTAAGGATATTATTGGGCAGTGGAGTAGACAGAGTAATATGTAAATAAT
TGCAAAACAGCTTAAAGCTTGATGAATAAGCTTCTCTGTAGACATAATAAAGAGAATACCATTGGAGCAATTCCTCATTGCCTAGATTCATGGAATCTTT
AGAATTTGGAAGTACCTTGGAGATTTCATTATCAACGATACCAAGGTCATTTTTTAATGTCAGTTAGAAAAATAGGCCTTTTTGAGCTGGGGAAGGGAGA
GAGGTGTGAGGGGAATAGCACGGGCTTTGGAGTCAGACTGGAGTCTGCTCACTATTATTGGCCATAGAAGCTTAAGCAAGTTTACTTGATCTCTGTGATG
CCTCATAAATCCTCATTTACGAAATGAGATTCTGTGTGCACTGTGACGTGGTGGGGACATGCCTAGTACAGTGCCTGGTGCATAGAGACACTCAAGAGGT
AGTTGCTGCAGTCATTATCATCACCACATCCTAGTCAATGCCCTTGGTTCACAAATGGGAACTAGAGGTCTTGGTTGGTTAGTAATTGTCCAGTGACAGT
GAAAGAGGAGGACCTAGAACCAAGGTCTTGCCTTTCTACCATTCTGCTTTTCGGATGTGGACTTGTTGGTTTGAAATTTGATATTATTCATGAGGAGAGT
TCCCTGGAGAGCTTTCTCTCTTGCGTGCGTCAGTAGAAAAAGGAACAAGACAAACAGGTTTAACTTTTAATCCATATCAGTGGATGTTAGCTGAGTGAAG
CCAAAGATACATGGGACAAATGTGAAGGACTAGGCAGTGTTTTGAAATATTACTTTTCTTCAAACTGGTATTTTTTCAGGAAAGTACTTATTACCAAGAT
CACTGCTGAATGATTTGAGCTGGAACAGGTGCCACCTTTTTCAAATGATGTATCTCAGGGGAGAAAAAAGAGACTCCATGTTTTCAAAGTTTTTGCTTTT
TATTATTTATTTATTTATTTTTGCTTTTTAAAAGCCTCTCARCAAACTCTCCTTATTCCCATGTGACTGAGGATGAAACAKTCTCAGATTAAACAGACTT
CTCAAGGTCACGCATTGTCAGTGCCAACATTCAAAAGAAGGCTAGGTCAGGTTCTTGAACATCCTTGTGAAATTATTCTTCCCTTAAGTCTGGGTTAAAT
TATAAATTATGATCTGCATTTAAATTCCCAAATTTAAAACAAACCAAACAAAACAACGCACTTCAGACTCTTTTGGAAACCTTTGAAAGGAACTTGATTT
CTGTGTGMTTTGAAAGTATATATTGCAATCAAGGTATTGGTGGTAAGTGTGTTTTTGAGGTTTGTCACAAATTAACAAAATTATATGCCTRAAGAGTTTT
GCAGAGAAATGCAAATCATTRTAAGCGCCTTGTCATAATAAGTAGTGTGCTTTGGTTCCTGTTTATGTATCCCTAAAACACATAATACACTATTACATTG
ACACGAAGGAAACCATTCTCATTGATGGTTTCTTTATATCTGGCCCCCAAATTAGTTTGTGGTATCAATCAGTATAATTTCTAGAGAGCCTATTAAGCCT
ATGTTTGTACCTGTCTTTCAGGTATAAGCCTTGTCTTCTGCAGATGATTCTTGAGCACCTACTATATGCCAGGCCCCAGGGTTTCCATGGCCTTAAGGAA
TTCCCAGGCTGGTGAAAGTGGAACAGGCTTTTGCCTAATGACAAACACTATATAAGTGATGACTTTGGAGCCTTAAGGGAGGGCCTACTCTAGCAGCACA
GTGAAGAGTGATGAAGCTTGCCTGAGGGTGTGGAGCTGGGTCTTGCAAGATAAATAATAGCTCACAAGCCAGGAAGGGGGAGAAGGTATTGCAGCAGAGT
GAAGCACAGGTGCTGAGACTTGGAAGCAGGGACCTATTTGGGAAGAGTGAGTAGCTGGAGGCTGGAATGTCAATATTGTGTGTTTGCACTGTGCGGGGGA
AGAAAGGAGGACATTGGAGATGAGGCTGGAGAGATAGGTTAGAGCTAGATTATGAAAGGGGACTGGGTATGGCAGGCAGCTAAGGAATTTGAGTTTTATT
TTGGTGAACGAGGAGAGCAAATGAAGTTTTCTTTTTGTTTTTCTTTTTATTTTTATCTTGGAAGATTTCATAGAGAAACCTACTACCTAGGAGTGAAATT
GCTGGGTCCTATGGTAACTCCACATTTACCTTTTTGAGGAACTGCCAAACTGTTTTTCATAGTGGCTGCACCATTTTAGAAATATCTAAAGGCGGCTGGG
TGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGATGAGGCAGGCAGATCACGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATAGTGAAACC
CCGTCTCTAACAAAAATACAAAAAATTAGCCAGGTGTGGTGGCAGGCGCCTGTAATCCCAGCTAATCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTG
GGAGGCAGAGGTTGCAGTGAGCTGAGAGAGCCATTGCACTCCAGCCCGGGTGACAGTGTGAGACTACATCTCAAAAAAACAAAAACAAAAAACTAAAGGC
TAGTTACAGTATGTAAGAAAAATACAATAGTTTTATAAAAGACCTTTGGAATGAACATATTCATGAAAAGATTGGAGGAGGGAATTAATTTAATCTTATT
TGGGTTTGGGAGAGATGACTGGATTTGAGGGTAGGCAAATGGGAGGCAGAGGAGCTAAAGACCAGTGGGGTGGCAAGTGCAAGCTGAACCGAGGGTACTG
TGGTGGGAGCAGAGAGGGCTGGATAAGAAAGACATGACAGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTGGGGAGGCCGAGTGGGGTGGA
TCACAAGGTCAGGAGTTCAAGACCAGCCTGGCCAAGATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCCAGGCATGGTGGTGGGCACCTG
TAGTCCCAGCCACTCGGGAGGCTGAGGCAGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTAAGCCGAGATCACGCCACTGCACTCCAGCCTGGGC
GACAGAGCGAGACTCGTCTCAAAAAGAAAAGAAAAAGAAAGATATGACAGGTACTTCCTGAACTCCAGGTTGGGAGCCTCTGAACTATGGTGAGGCCACT
CCTTCCAGAAACACTTTAAATGCAGGATTTATAGGAGATTTATGAAATCTATTAGTAAATGCTTTTTTATGTGCATAGCCTTATTATGAAGACGAGGCTG
TGAGTTATATTCTTTTGTTCTGGACTTTTTAAGTTTCTCAAATGCCCCTTAAAATAAGTGGGCTATAAATCCTCTTGGCTTAGAGAAAGGGTTTTTCCTG
GGTTGCAATGGTATTTTATTCAAAGAGCTTTATTGAGATATTCACATACTATGCAATTCATTTCTTTAAAGCACACGATTCATTGGTTTTTAGTATCTTT
TCTTTTTTTTTGGTTTTTAGTATCTTCACGGTTAGGTAAACTATCACCACAACCAATTTTAGAACATTTCATCACTGCAAAAAGAAACGATACCCACTAC
CAGTCACTCCCCATTTTTCCTCCACCTTCCCACATCTCATGGCAACCACGAATCCAATTTCTTTCTCCATAGATTTGCCTGTTCTGAATATTTCATGTAA
GTATAATCATATAATATGTGGTCTTTCGTGACTGGCTTCTTCCACTTGGCGTACGGTTTTTAAGGTTCATTCATATTGCAGCATGTATCCTTCATTTCTT
TTTATTGTCAAATAATATTCCATTATGTAGACATAACACATTTCATTTTTACCTTCACCACTTGATGAACATTTGGGTGATTTCCACTTTTTGGCCATTA
TGAATAGTGCTGCTATGAATATCCATATAAATGCTTTCAGTTCTCTTGGGTCTGTATACCTAGGAGTGGAATTCCTGGATCATATAGTAACTCCATGTTT
ACCTTTTTGAGGAACTGCCAAACTGTTTTCCGTTGAGGCTGCATCATTTTAGAAATACCTTAAGATTGGGCTGGGTGCTGTGGCTCACGCCTGTAATCCC
AGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAA
TTAGCCAGGTGTGGTGGCGGGTACCTGTAGTCCCAGCTACGTGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGA
GATCGCGCCACTGCACTCCAGCCTGGRTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGAAATACCTTAAGATTAATGCAGACATGT
AAGGGAAACAATGCCAGAATTTTCCTGAAGATTTGGAATTAACATATTCATAAAACCACTAAAGCGTCACTTTGTTTTTAGAGGGATTTTTCACAAAGAA
ACACGTTTTGAATCAGTTTAGTGGTGCCACTGGGTTTAAGATGAGTGAGCAGAGAACAATAAGCTGACTGGGAAATCGATGCTGGGTGGTCAGCTAGACC
CGCTCACCCACTGAGTAGCACTTCCACAAAGCAGGCTGTGACTGTGACGTACAGACTCTTGTCTCAGCAGAACAAAGAATGGATCTTCAGAGTACTTTGA
AAACAGTTAAACATGCAAATAGTAAAACCTATATATCCCTGGGATCTGCTTTACAATATTTTAAAGGCATGAAATAGAAACCCATCTATTTTCAGTTCCT
GATGAGGCTGATTTTTCACCCTTTTCCCCACCTCTGGATATATGGCTGTGTATGTGTAGTTGTCATCTTAGGAACTAAAATTACCATGTATCTTTTAGAC
TCATGTGCTGGATGCCAAGAAATATTAAAGAATATAAGACACAAATACAAATCCTGAATAATGAGTTGAKCTATAAATGCACTAAAAAATCAAGTTGTAA
GTATGTGAAAATTAAACCTCAAATATTACAAAAGGGTGAGGAAAAGGGATCCCCATTTATTGTTAGGTGCTTCACATGATATCTCACTTAACCTTTTTAA
TAACAGAATAAGGGAAATGTTTCAAACCTGGTTTTGCAGCTCAGAGAGGGTAAATGATTTGCCCAAGTTCTTACAGCTGATATGTATCGGGGCTGGAATT
TGGACTCAAGCTTGACTAAATAATGACGATTGCTGACATTTATTGAGTGCTAGCTAGGTACCTCTCACCAGGTTAAGCAGCGTGTATACATTCTCTTATT
TAATCCTCCCAATGAGCCTATAAAGTACTTGTTACTATTGTCTCCATTTTACAGAACGGAGGTAAGAGAGGTTAAAAATAACTTACCAAAGGTGGTGCAG
TGAGTGAGTTTGAGAGGTGGGGTCAGACGTCTGCCTGGTGAGGTCATTCTTAACTACTAGGCCCTACTGCCTATATTCTCCACGTGTTTCTGAATCCCAT
GCTTTTCTCCACTACTCCATGCTGGCTTTCGCATTGGCAACCCCTGAAGCGTCGTCCAAAATGAGTTGGACTAGTGGTTCTCTGGACCTGTGAAGGTCTG
TTAGGTCAATCATGGGGCATCCTCTGCTATTTTCAGTACTTCAGAAATATCTAGGCATACTGAACTTTCACCAGTGATTAACTTGTCAAGCCTAACTCAC
AGCATCAGCCTCTGCCTAGACTAGTCAAAGTATCAGCATGCTGTGTTTGTGATGTGAATGACTGCTGTCAGTTCACTCTGGTCTTGTTTATTTCTGCTAA
TGATGAGATGAGACACTTTTTGTGCTTGGATTAGCAAAAATAAACGATGTGAAATATAGTTTACTTGGTAAGTACAGATGTCTTCTAGATGTGTCATAGA
GGGGCAAGAATTAACTATGAGGGATTTTTGTTGCTGAAAAGGCTGGACACCCTAGAATGGACCATCAGCTCTAAATTTTGAGGTAAGGAAGACCACTGGG
TCCTGGATCCTATAGAAGGCTTTCTAAAGAAAGGAGGGGCTTTAGGCCAGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGG
CAGATCACCTGAGGTCAGGAGTTCGAGACCAACCTGGCCAACATGGTGAAACCCTGTCTCTAATAAAAATACAAAAATTAGCCGGGTGCGGTTGCGGGTG
CCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAGCCTGGGAGGCAGAGGTTGCAGTGAGCCGAGACTGTGCCACTGCACTCCAGTC
TGGGCAACAGAGGGAGACTCTGTATCATTTAAAAAAAAAAAAGAAGGGACTTTAGGCCTTTTATCATTCACATCAGGCAGTGGTAATGGGTCACTCTGTT
TGTGACCCTTTTTGTACCTTAGGCTCGAGCTACTGTCCTTGTGGTTTGGTGTAACCTTTAAGTCACATTGAAAGATTTTGAGCTTCTCTGGTTAGTGGCT
GCGGATGCAGCTCCTTCATTAAATGCAGTACATGGAACTTCTACCAGTAGCCTCTTCCCCACAAATGACCCACATTGTTGTWAAGTTAGCAACCACTGAC
AGGAAGTGGCAGAATGCGTCTCAGCCACACAGCAGATTTCATTAGACACTCTCCCAAAGTAGCTGTTTGGGTCAATTTGGCCTCAGTAGGTTTATAGAGA
AGAATGGCTTAATCCATTATTTCTCATTGTTACATTTGTCTTGCTGTCATCTTAGCCTTAATGGATGTTTTCATTAGAAGCACAGTGTCTTCCTTGGAAG
CAAGTGCACACACATATGATCAGAGAGAGGAACTTCCAGCAAGCTGAGATTTTAAAAATATTTCCAAAGTTGTTACCAACTTACTGGAGAATCTTTTGTT
TATTGGGTTTGTCATTTAAATCTGTCTGGAGAGTAGCAGCTCCAGTGACACCGCAGGAGGGATTTTGGGCTGCACTCACCTTTGTGACTGATTGCTTTGA
AAGGTCAGCTCTATAGATGTTATATGAAAGCAGAATTCCTAGGGACTGGCTGGGAAATTAAAATATACTTCTTGAGTCAAAGCATTCAAAATACAGGGCT
TTCAATTCGAGGGGAATAATAAGCTGTCTTGATTTTAGGTTTAATTTTCCTAAGGCTATTAATGGAGTTGAGGGACCTTTACTTATGATTTTGCCATAAA
TTTGTTGTTGCAGYTGTGCTTGCCCTAGCTGTGAAATCCAAGGATTTATTATTAATTAATAATCCCTTTTACTGAACAATTCTACCAAATGATAACGTTT
GCATCTGAGAGTTTGAATTTATATATTCTTTCTTGCCTCAATTAATTTTTCTCATTGTAGATCTCCAGTTACCTAGCCCCTCAAAGCAAACAAAACATCA
GTACCACCACATGCAAAATATCATTGTTCACATGTCAGTTGGAACAAAGCTGGGAAACTAACCTTTTTGAGCATTGACAGTATAGTCAGACACATCCACG
AATCTCATCAAATCATACAAGCCTGAAGGGGAGGTATTCCTCTAACTGGTTTTATAGATGAGACAGTCRTTGTGCAGAGAGATTGAGGGGCTTGCTCAGG
ATCTTGGGACTAGAAAATGGTGGAGCTTGTAGGCTATGACCCAACCAACACCTATGCTCTTTCCTCCAAGAATTAAGATTGCAATTTGAATTTTCACTAT
TAGTTTCAATAATGAGCATATGAAGAAAGCAAGCAAGTCAGAAAATTTAAAAATGAAATTATCACACCTTGTAAAGTGTTCAGATTTGACTTGAAGTTTA
AAGTCTTTTGTCCATTTCAGTATTTCCTGTTTCTTTGTAAATCCGTAGAGGATAGACGTGAACTCCAAACCTTTACACTGGAAGAGAGAGGCATGAACTT
TACTGAATACTTAATATGTGGCAGGCAGTGAGCTAGGGGCTTTTCATACGTTATTAACTCACTTGGATTTCACAACAACACTATGAAGGTGGAGGTTGAA
GTTCATTCTGTTTTTCTCAGAACTTGGTCAGCAATGTCTATAGCAATCCTCATTGATGGGTTGGTGACACACTGTTAATAATTCAGCTAATCAGTAGCAG
AGGTCATTTACTAACATTTCAGGGAAAATGCTCTGCTAGAATCTGCTTTGAGCTGGTCACTTGGGCCATCTATCCACTTTTACTGAAAATATATCAGAGA
GAATCTCAGTTCCAGTTCTGTAGAGCCTTAGAAGAAAAGGTCAGGAGCCATGGTAGGAGAATACTTGGCCAATTTTCTACAGAAATGGAATATCTTTTCT
GCAGAGAGACAGCAATATCAGATTGTATTGTTAATTCTTCTTATCAGTCTTCTCCAAAGGTGTTAAAAAGCCAGGGAAATGAAACATTTTGAGTGAAGGA
GCCTGCACTTTGGAAAACGCTCCGTGTATTTCCCAGGCTATTGTAGGGCCCCTATTCAGTTGGGATTTGAATGGTGGTGTGATTAGCATGAAAGCAAGTG
TATAAAGTAGGTCTTTTCTCCCTTTCCTAAAAGAAGTTTTGTGGCATTTCTTTTTCTGACAGAGTTGGCATGAAGCTTTGACAAACACAGACCCATGGAA
AAGTTAAATAGGACTTAGAGTAGGTCCATTTTGTACAGATCCTACACACTTAGAATGCAGAGCAGGAAAGCAGCTGGCAAGAGGCCCCTCAAACCATAGG
AATCATAGCAAGGGCTCTTCCTCCACTGTGGACCAAGGATGAATAGGAAACACCCACAAGACCAATGGGAAAGTATATCCTGGGCTGTTGATCATTTTCT
GTATTACCAGAAAATGACAGATAAGCACATGCCTGTGAGTCCACTGCCTATCTCTCCCAGTATTTGTGGAGATAAATACAAAGTGCTGAGGGAAAGTCTA
AGAAATATAAGAGGTGGAACCTGCCCTAAGGAAGAAGGTGACAAGATGAGAAGATGGACACACAGATGGAAAAAACATGGCCAGGTGTCCTGAGCTGATA
ATTAAATGAAATTTTAAAAATATWGAGTCTAAGAGATAGCTTGATGCTGTTCTTGCCTCCAGTCTCAGCTTTGCTGTATTAGCTGAGTGACCTTGGGCAA
ATGTTTTCTATTTTGTGAATGATAAAATGGGGATGATGATTTGTTCCCTGCCTACCTCACAGAGCTTTTGAGACCAAATGGTATAGTATCCCACAGGTAT
AGAAAAATATTTTGCAACTGCAAGCTCTTGTTTGTACAATGAATATTTTTTTTGTTGTGTCTGAATTTGCTCTCTTTTCTCCATTCTTCCTTTTTCGACT
GCATTTTAGGCACATGCTATCATTTACCCAGATCTGAAAAAATGTCTTTACAGATTTTATTTCTAGGTTGATAGTCTCTCCTCCCCCGTGTATTCTTTAT
GCAGTGAGTCTACAGGGTCATTTGTTACTACTACAATCCCGATCACATAGGCCTGTCTCTTCAGAACAGGACTTTCTGACCCCTTGTTGACTACAGAATC
CATTTCTCAGCATATTTGAGACTCTTCAGAATCTAACCCTAACCAAACCTTTCAATTTCTTGCTTCTCATCCCCATTACCCCACTCTCTCCCAACCCCTT
CACACCCTTCTCCCAGACATCTCCACTCTGGGGCTTTTCCAGGTCCTTTTCTACCATGCCATTCTTTCTCTTTGCTTGGTATGTGCTATTTACTTCCTTT
TTTTTTTTTTTTTTTTTTTTTTTTTTTGKGAAACGGAGTCTTGCTTTGTCACTTAGGCTGGAGTACAATGGTACGATCTTGGCTCACTGCAACCTCCGCC
TCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTTCTGAGTAGCTGGGATTACAGGCGTGTGCTACCATGCCCGGCTAATTTTTTTATTTTTAGTAAGGGC
AGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATTCACCCGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCAC
CGTGCTCAGCCAAAAAAGAAGCTACTTACCTCTTGATAGTCACTTCAAATCCTGCCTGCCTCCTCTCTGAAATCTCTTCTAAATAGATTTTGAACTCCTT
GTACATAATAGGTGCTGAAAAATTTTCATTGAAAAAAAGTATATAAAGATATTTTATAAAATATAAACAAGAAGTAAAAAGAAAAAGAAAAATTTTGTTG
CCTATAATACCACAATCCTGAGGTAGCCACTGGTACAGTTTATCTTTTCTATAAATAGCTGAATTATTATTAAGTATAATTATAAAGCTAAACACTGGGT
GCTTAAGGCCTGCTTCCTGTAAGTCAGTGTGATGAAATGGAAAAACCCTTTACTTGCTAGAGTTTGCAGCGGTCAATAATAAAGTATTAACTAACCTGAG
AGAATTGAGAATATGTAACTAACCTAAGAACAGCTAGGTATTTTACATTCAGTTTTGCATTCATGTAGTATTTTGAACTTGTTTAACAAACAAAATTTGT
GCTAACCATGATAGCTTCTATTAAAAAAAAAAAATTCTAACCTACCCTAAAAGCTAGGGCTGTATTTAGAAGGCATTACTTTTTTCATCCTCCTCTCTTG
CCTTAAAGAGGGCTCTGGGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACAAGGTCAGGAGATCAAGAC
CATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAAAAAAAAAATTACCCGGGCATGGTGGCAGGCGCCTGTAATCCCAGCTACT
CGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCTGGAGGCGGAGCTTGCAGTGGGCCGAGATCAGGCCACTGCACTCCAGCCTGGGCGACAGAGGAGGAC
TCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGGACTCTGAATGGGGAGAGGAAAACCCCCTGAAGGGAAAACATAGGCAAGGTGGGAGACAAGAAATCTG
AGTTTACATCTTAACTTTGTTACTAACTGCTATGGTCTGAATGTCTGTGTTCTGCCAAAATTCATATCCTGAAACCTAATCACCAAGGTGATGGAAGGTG
GGGGGGCTTTAAGAGGTAATTAGGTCATGAGGGCAGAGTGCTCGTGAATGGGATTAGTGCCCTTATAAAACAGGACTGAGGGAGCTTTTTAGCCCCTCTG
CCCTTCCATCATATGAGAACACAGCTAGAAGGGGCCATCTTTGAAATAGAAAGCAAGTCCTCACCAGACCCTGAATCTAGTGGCACATACTTTCAGTGAT
GCTGAGTTTATTCCATGGAGGCAGTTCTAATTGTTCAAAAGGTTATGTTGATATAAAATCAACCTTCCCATAATTTTAACCCAGCATCAGCTATGTTTGG
TACAGTTTTGGTAATTAGTAGCATTAATAATAGTATCTATCAATTTTATAATTGAAAGCACCTGAACAATTTTATAATTAAAAGCACCTGAATAAATGAT
GGTGATGAGTCATTTCCACAAATATGCATTGAGCACCTTTAATGCACCAGGTTCTGTGCTGGGTGTCGAGGTCTAATGATGAATGGGGAGAGGTTTCAGT
CCTTGAATCTTCTGGAGTAGATGTTGGGCAGGTGCAGTTCTAGAAATACAATGTATACTCTGTATAGAGGTARCCGAGTTGAAGGGATTATTAACACTAT
GTTTGAGGGGCTCTGGGGGAAGGCTTCTGAAAGTGGTAACATCACGGTTGTTTGGACAGGCAAATTAGCAGAATGCTTTTAGGCACCATTGTCAAGGAAG
GGACTGCACTGAAGAATTCCCTTTAGCAGAATGGTTTCTTTGCCTCAGCTCTGCCCAGTACCAGTGACCATCCTTTAGAATAATCTTAGAATACAGGAGA
TGAAGGGGACAAGCATCAAAAGTTCTTCCTTCCTCATCCCCATTTTCCAGATGGGAAAACCAGGCTCAGAGATATTAACTGTCTTGGAAAATGAGTAAAA
TATAGAGAAAACAAAACTCTTACCTTGTGCAGGTTCAAGTTCAAATCCAGTAAATACCATAGTTTAAAGCATCCCTTTACACAATGGATTTGGTTATTTT
GCAAAACAGATATTAGCCCCATGTGTCAGTAATCTACAGTCATTTGTACCTTAACATAAAATGCCAAAGCACAGTAATATATTCTTAGTGTAAAAAAAAA
AAAAAAAAATTCAAGGCTGGGGGTGGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGAGGATCACTTGAGCTCAGGAGTTCAAGACC
AGCCTGGGCAACATAGTGAGACCTAGTCTCTTAAAAAAAAATTAACCATATGATTATGTTTAAAAGGAATAGCCCCTTGCTTACTGTTCCTCTAAATTCC
ACTCCCCAGAGGCATCTATTGTTCACAGTTTTTGGTTCTGCTATCCTTATTTTGAATGCACAGGTATTCTCATTGATAACTACCTTTATCCATATTAGTC
TCCTTGCTTCCTGGAAGCAACACACAGAAATCTGTATTCCAGCCTTTRTTTATGCTCTTTCCTCTGCTAACGCACCCGCTCCTTCTTCTCTGCCTATACG
AAGAGTTTCCATTCTTTAAGCTGGTTTCTGCTCACCCTACCCCCTCACTACTCCAACCTGAGGTAATTTCACCTCCTAATCTCAAGCCATTCCAGCTCTG
GCACTAGTTAGTGACCTTAAACAAGTCACTTGAACTCTGTTGGTTTAAATTTTCTTCCCTAAATAATGAGGCAGTTGAATTAAATGGTCTTTCAGAACTG
CAGAGGTCATCAAGTATAAAAGACTCTAGGACAGTGCCTGATAGTTGGAGGTCTTGACTGTGTTGAATTAACCCTGTYACAAGGTACAAATAGGAGGAAA
GATGAAGAGWTTCACCACCACGAGTTACCACAATTTTAACCCAGAATCAAAGTTTTGAAGTTTAGGAGACATTGGAACACAGTGGAAASAGGATATGTCT
TAGGGCCAGACAGTTCTGGGTTCCGATCCTGGCCCCATCACTTGGTAGCTTATAACCTGGATCAAGTGTTGTAGTAAACTTSAGTTTCCTCACCTGTAAA
ATGGAGACAATGATTTCTACTTTACAGGTGTCCGGAGAGAAAAAAATACCTCACAGACAGTGGGCTCTTTGACATGAATATACCCTGACCCTTAAGTGTT
TAGAAACTGTTATCTGTCATAAATAATTGGCAAGCTTTGGAACAAATAAATGCATAAGAGAGTGCTACCTGGGTTTATAAAATGTGTAAGTACAAAGTAT
GGATTAGACATAGTTTATCTGATCTTTGAAAAGTTACCTTGGAGTCCTGCCAGAGAATCATATGGCAGCTGCACAGATGGAGCTACCTTTCCATTTGTGC
TTACTAAAGCATGTGTTTTCCAGTTGGAAAGGAAGATGCTGGAAATTTGTCTTTAATGCATTCCAGTGTTGGGAGATGAAACCTACCTGAGAGATTGAGC
AGAGCGTATTAACCAATATCATTTCAAGTTGATTAAAACTATCATCTTAATTAAATACCAGAGAACAAGAAGTTCTCAGTCTTCTGGTAGCAATGAAAGA
CCAAAGAGTCAATCTGAAGTTGTTTTTGCAACTCTTAAAATAATACTCCCTCTCCTCCCTCCCGTGAAAAGAGTTTCTTAGCTATAGACATGCCCTCACA
TTGAGGTTTCTGAAAGCTGTTAAGGACCACAAACCTGCTGGCAAAGCCTTCTGCTGCCAAGGCATCAGAGTTCTCAAAAGCAAGGGGGTTCAAGCTCAGG
ATACGCTGATTTGGAAAGAGAGCCCAAACAAAGGGCCTTTTGAGGCAAGAAACTGGGCTTTGGCTGCAGCGCAGAGCAATATGGGGTTGGAAAAGCGCCC
CGGGGACTTGCAGAGAAGAAGGACTATGAGATCGATGGAGGAAGTATAAGGTTTCTCCATACAGTGAGGGTTTAGATTTCAAAACCCTCGAAAGTTGGTT
TCAGAAGCTATCTTTCCTCTGTCAGCTTCACCAGCATGTCTATAAAATGTGGACTTGACAATGTTATATGTCTTTGAGCAGAAAAGGGAAATGATCCATG
GAGGTACATACATATAACCATTCTAGTAAAGATGTCTGACCTGAAAGCCAGTGGTTTTCTTACAAGACCCAAAGCAACTGCATTCATTAGTGCATTCATT
CACCCACTTAATTATACGTGTATCAACTGCCTACTGTATGCCAGGTTGCTATAGCTATGAAGTTAAAAGATACGATTCTATCAATTCTGATTCAGCTCAA
AGAACTCAAAATCTAGTTCATCAAAACTGGAGGATTGAAGTAAAGGAGACAATCTTTCTTTCTCTTCCTTTCCTTTCCTTTTTTTTTTGAGAAGGAGTCT
CGCTTTGTCACCAGGCTGGAGTGCAGTGGTGCGTCTTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAACCTCCCGAGTAG
CTGGGGTTACAGGTGCCTACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATTGTCTTGATCTCTTGAC
CTCATGATCCACCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCGCGCCCAGCCTCTTTCTCTCTCTCTCATTTTTTCTTTCTTTCT
TTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTCTTTCTTTCTTTTCTTTCTT
TCCTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTCTCTGTCTCTCTCTCTCTCTCTCTC
TTTCTTTCTCCCTCCACTCCCCTCCCCTCTTTTTCTTTCTTCTCTCACTATGTTGGCCAGTCTGGCCTCAAACTCTTGACCTCAAGCAATCTATCCACCT
CAGCCTCCCAAAGTGCTGGGATTACAAGTGTGAGCTACTGCACCTGCCTGCCCAGGGACAGTCCTTCTTGATAAATACTTCACACTACATTCACCTATAC
TGTCCCTCCCTGAACCACCCAGACCAGTTTTTAAATTTGGCCTTTCCTGAAGTGAAACTTTTTTTTTTCTTTTGAGGCAGGGTCYCAAAAACCCAAGTCA
TTTTTGACACTAGCATAAAAATGTTGCTTTTTTTCTAAAGGTAAATTAATTTATCATTATTGATGCTTTAAACTATACCACCTAAGATTTGGAAAAGACA
GGGAACATCACTCATAATCTACCATAAATACTATTGCCATTTTGGCATATTTCTTTTTACTCATGTTGATTTTCTTTCAGTTATTAGGTATATATACATA
TGATCTTCTATGTTCTAATAGTCTTCATAATTAAAATTATTTTATCATTACTTGATCAATGACCCTTTAACATCATTCATAATTAAGTATTCCTGTATCT
TTGTGTAATCTCACCTCTCTATATATCTCTGTGACCAAATTCCCCCATTTTATAGGGACACCAGTCATATGGGGTTACAGCCCGCCCTAATGCCCTCACT
TTAACCTCTATGAAGACCCTATCTCCAAATAACTTCATACTCTAAGGTGCTGGGGGTGACCACTTCAACATGAATTTGGTGGGAGAGGGCACAATTTACC
TTTAAACCTCTTCTCTCTACCCCTCAAATTATGTGTGAGGAAATTGAGGCCCAAGCCAAGTAGTTTGATTTGCATTTAGGCCTGACTCTAAAATGATACA
TTTTCATCACATCCTGTTTCCTACTCATGAATAGAAAATACTGTGAACCAGGGGGAAAAAAAATGTCTTCCTCGATCTGAATTTGATTAGTGTGAGACTG
TTTGATGGTTATTAACTGCTAAATTTAACTAAGTTTGGCCAGTTGAAGCCAGCATCATCATGTTATTTAAAAAGCAGGTTAAGCACACACACTAGACTTA
CCTAAAACTTTTTATTGAATTTAAAATATGTGGCTCACACCTGTAATCCCCAGCGATGTGGGAGGCTGAAGCAGGAGGATTGCTTGAGCTTAGGAGTTCA
AGATCAGCCTTGGCAACATAGCAAGACCTTGTTTCTACAAAAAATTAAGAAATTAGCCAAGCATGATGGCCCTTGTTAAGCATGTTTCACAAATTGTTCC
ATTCAGGGACACAGTGACCTAGAGGCTAACTGGCATGCCAATAATTCCCTGGTAATTGGACCACATTCCATAGTAAAAGTAGGCAGTGTTGGATACTTAT
CATCGATTTTTCTCTTGTTTCTTCATCTTGAGTTTTTGGGTGTTTTTGTTTGTTTGTTTGTTTTTTGTTTTTTTTTTKTTTTTTTTTTTTTTTTAGTGTT
TGGCCTTCCTTCTCCTGCATAAGTGATTATGGCAAATTGCACACACACACCCCAACAGGCACTAGGGAAGGCCAGAACCAGTATAACAATAACGAGATAA
TGTAACCAGCCAGCCCATGGTCCTTACGGTGTCCATGTGCAGGGGACAGATAAAAGTCCCCGGGGAAGTCACCAAGCAGGAGGGATTGGATGGGGCCGGT
TCAGCTGCTTCCATGATGGAGGAGTGGAAATGGCAACAGCATTGGTTTCAGCCCTAACTGAGATTGAAGCCTGTGAGTGGTGTTCCTCGGAGTTGTGCAG
GGCATGGCCACCTCTGTCCCTTTCCACTAAGTATCATTTGGCAAATTACAACTCCTTTTCTTAATTTCCTCACATGAATACAAAATAACATTTGAACTGT
GATCACCACATATACCCCATTGCTCCTAAGTCTGTGCTCTGTTCATCATAGGTGCTTCATAAATATTTATTGGGAAAAAAAAATGAATGAAGGGAGAGTG
AAAAATACTGTGAAACAGAGATAGGGATTGACTATGAGTGTGAAGTGAACTTGGGAAGTTCCAAGACACATTTTATTTAAACCAGTGTGGAGTGCTAAGA
AAATCCCCAGTTATTTTCCTTTAGCTGGAAATAATGGAACATTGAAAAGACATTGGTATCTTTAAAACTCTACATAGGCTGTTTCCCTTGCCTGCTTTAA
AGGGAGGGAAATACTCTCACACAGAGACAAAGAGCTACCCTAGTCATCTTTCTTTATTCTAATGTATTTTGAGAGAAGACCATGAATAATAACAATACTT
TCCATGGATTGAGTATACTTTATATATGACACTGTATTTCTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGAGGCG
TGATCTCTGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCCGCCAACACGCCCG
GCTCATTTTTTGTATTTTTAGTAGAGTCAGGGTTTCACCGTGTTAGCCAGGATGGTCTCTATCTCCTAACCTCATAATCCACCCGCCTCGGCCTCCCAAA
GCACTGGGATTACAGGCGTCAGCCACCGCGCCCGGCCATGGCACTGTATTTCTAAACTTCACAGTAACCCGTCAAGATTGATTCTAGCCTGTTTTACAGA
TGCCCTAGAGAGGTTAGCAGCCTGCTTAATGTCACAGGACTAAAAAAAAAGGTAGATCTAAGCTTTAAGCTTTAAACACAAATCTATTTGACCCCAAACC
TGTGCTTTTTCTGCTATCCATATTCTCAATCACCCACTCGAGTCTCATTAAAAAAAAAGCCAAAGTGGGGGGGAAAAGCCAAAGGCTTGATGACTTTCAT
AATACGTGGTCAGTATGTGAAATAAATAATGGATCTCTTTATGGGCCAAGACAACACTTGTCTCTTTCCTTCTTACAGAAGGCACATCATTCCATATTCA
TAAGAGTAACATTTACTGAGCATTTTCTGTGTGCCAGGCATTGTATGAACCTTCTTCGCACACTCGGTTTTATTCCTCCCACATCACTGTGAGAGGTTAG
TTGGCTTGTTTTAGGTTAAAATTAGGACCCAAGTGTATCTGACTCCAAAATCCACATACACAACTGTATACATGCTACTGTTTGCCATTGTATGTCAGTT
GCCAGTGGATAGATTGCCCTTCTCTTGCTATTTAGTTCGAATTTAGTCTTAGGTATGGTCCTGAATATATGTGTTAAGATAACCTGAGGGAGTCTATGTA
GGGAAACTCCAGCAATGAGTTTCAGAGAGGTGTTTGAAGGAAAGAAGCAACCAGCCCCAGATGCTCTTGGAGAGCAGGCAGTGTTTATTTGAGCTGTGCT
GTCCAGGACCTGGTGTGGTGTCATGGCTGTAAGAGGCCTTAATGCACCTCATTCAGGGTGGATGGGATGTGTCTCCAAGTGCAGAAGGCTTTTCCTTGGG
AAGGTGGTTGGTCACACCTGGGTTAGCAGGAGCCAGCTAACTAAAGCTCCCATACCCCAGTTTATCTTCCACATGTCTGGCTGGCAGGGTGTACTTTCTA
AAACACAGCCTTGCCGTGCCACTCCCTTCCCCAGACATAGTCATATTTTGAGTCCCTGCTGGGATATCCAGGACTGTGGAGAGGATAAATATTAAACATT
GGCCCTGCAGCTAGGAAATCAGTCTTGTTTGAAAGCCACACACATGAATCATATTTTTAGGACTGATTAGAGGTTATTTAGGCCAGCATTTCTCAGAGAA
TGCTCTGAGGAAACCAAGTTCTTCTGGGTTGCACATCTCCCAGGTAAAACTTAACAATAAACTCTGATGAAGGCCCTAGGATGAAATGTCCATGTTGAAT
TTGCTTTGGGACATGACCAGCTAGTCTAGCCTCTTCTCTCTAATACAGGCTCAGCGAAGAAAAGGGACTTTCTTCATTCGCAGAAGAATCCAACCTTGAA
CTCCTGAGACCCCCAGCCCAGGACTTTTTCTGCTGCACAGAGGGCCTCTGCATTTTACTCCCCTCTTTCAGTTTTTGTCTTTAGGCAGTCCTGAGGCACA
TATTTTCTCCTGTATCTTGAAGCCATATGTTTCTCAGGCTTTTCTCCTCTTCTAAGATAGGCTGCTAATGTTTAGCATCTGAAATCATCCTGTTTCTTTC
TTAAAGTTGTCCTGGGAAAGATACTGGAAAGCTAAGTTCCCAACTAGGCTGATGAGAAAGGGAGAGGAGAACTGCAGGTTTGAGTCCTCACAGGGTCCCT
GTAGGGGAAAGATCAATTTTTCTATGAGAACCAGGAGCTCTCTGAGGGCAGAAACCCTGTTTTACTCATCTCAGTATTTCTCACTCCTGGCACACAATAA
GGTTGTCAGTAAATATTGTATATTCAGTGTGGTTTAAAATTGTGTTGACTTGGTATATGCATATGTAAATTGCATGCTATGTAAATTATATATCAATTTT
TTTAAGCCCTTTTATTTAAAAATGAAATTTTTAAGTTTTAGAGTAGTGATTCTCAAATCACCTTGGGATAAAATCACTTGGAAGTCTTATTAAAAATCAG
AATTCTCATGCCCTTCCCCTGAAATTCGGGTCACGTAGATCTGGGCAGGGCCCGGAATCAGTCTATCTATCTATCTCTCCTTCTTTCTTTTTTTTTTTTT
TTTTTATAAGTGCCTCTGATGGTGAATGGCTAAATCTGAAAATCACTGTCCAGAGGATAATCCCCAATTTTACATTTAGGAGGCAGACATGAAAATATGC
CTTAGCCTTCAGGTCTGGAACCTTAAAACAAACAAACAAAAACCAGTGTGCATAGGAATATRGAAAGAACATATCCGGAACAGTCAGCCAGTAATACCTT
GTGTCAGATGCAAGGGGCTATGGAGAGAAATGATTTGCAAGCCTAATTAGACCTGCTCCCCAGTTCTCAAACCTGCAGCTCTAAGCCTTCTGCTAATTGG
CAGTCCCTTAATAGATTAGGACTTGGCATCAGGTTTGCATGTTATTATAAACCACACACAGAAAAACCCAGTGGCTGAGGAACTCCTGCCAAACCCCAGC
CTAGGTTTTGTGAGGCTTTTGAAGTGCACTGGTCTTTTCAGTATTTTGTATAGTCAGTGCACTGAAAGGCATCAAACCATTTCTTTGGATGGGATTTGCG
AAGGGCAAGTTTGTTGAATAATTAATTCGCCAAGACCCATTCTATCATCTTGATGGACAAGTAGGAGCTCACGTATGCCGTTTGCTCTCAGAAGTACCTG
GGGTATGATAGGAGAGATTGTTTCTCATGGATCCTGTCCCATTCCCAGGCATCTTCTCCTTCCCCTTCATGCTTTGAGTGGGGAGGGGAGGAGGAAACGT
GTGTGTGCACCTGTTCGAGGCAGGCTGCTTACCACGCCATCTCTTCTGCCATCCTCATGTCAGCCCTTCTAGACTGCAGGACCTGTCTTGAAGATGAGCA
AATGAAGGTCCTGAGAATTCACTAATCAAGTATCACACTGCCAGGACTTGGCAGAGGTGGAAGGGGAGGGACTTGTATCTAGGTCTGCTAATTGCACACC
ACCAAACCGAACCGAACCGAACCGAACCGAACCGAACCAAACCAAACCCCAAACCCAGAAAGCCATTTTTGATTTCTCTGGTGTTCGCTTGATTAACATG
GGCTGTGAAATGGTTTTCTGCAGTTCACATTGTGCGCARGGATACCTGTGTACATCTGTGGATAATATGTATATACTGTAAGTGCTTCCCTCCCCCTCAC
ATTATATTATAGAGTTTCCATTCTGAGGTGAGGCTACCCACGACAGAGTACAACATTGTGCAGTAGGACAGGGAGGGAGGGTGGAGAGTGGGGCTTTGCC
AGAGTTCGCAAAGGCCTATGGGTTCCCAAAGCCACACTCAAGTATTCCTCAGGCCTTTGAACAATTCYGGGGGCCTTGCTCTCCCCTCTTGTCCTTCCAA
TTAGATTCCAGTTGGGGATTCTTCCACTTCTTTTCAAGGCCACTTCCACAAAGGGGGAGCTGTCGTGGAAGCTGATATTTCCATGAAAACCTTCCATTTC
TCAGGCAAACATACCAGGCAGCTSTCATGGCAATACCATGGTGAAGGGGAATAATGTTATTTGGCATTTCGCCCTTTAAAAAAGTGTATGTGTGGGGGTG
GGTGGGAGGAGGAGGATGGGCAGAGAGAACAGTGGGGGCTTTGTAATTTACTGCAATAGAGGGGTCAGGTGGGCTGGGTTACAAGGGGAGGAGGGGCATA
GAGAAGGCCTGAACCCCCCTTGGGCTTCGCAACCCTCTTCCTCCCCTCTGCCTGATTCACACGTTTTGAGAGGTTGTAAAGGGGAAGCTGGGGAGTTTTT
ATGTTTTGATTTGGAAGAGGGACTCTAGACATTCTGTCCCTCTGAGAGAAGCTGGCTCCTTGCTGCTTTGCAAGGATTAAGGGCCTGGCTTCCAGAACCA
TTGAAGAAACATCCCAGGATCTACCCTTTTCTCTCAACAGCTGAAAAATGCATTACCCAGCAGTGGCTTCCTGGAGAGTTCTGGCAAAAGAGCCTCCCTC
TGGAACAATAGGGTTCCTATAACAAACCACCTAGGAGTTGTTTACTGTAGCCAGTTCTCCCAGTGTATCCGAATGCCTTACATTTTGTTATTCCCATTCT
GGTGGGGGAAGGGGCAGCGCTGCAGGAGCAACTGAGGATGGTCCCAGAGTACCTGGATTTCTGACTACAGGAAGCAGCTGCCCAGTTTGTGAGTGGCTCC
CCTCCTTAGCTCCAGTTAAAAGTACCTAAAGATAGAATATCTGGTGGCTTCACAGTTCCATGGAAAGTCAGCCRGACCCAGCGTCCCTTTCTGGCCTACT
TCTCTGTGGCCTTATCACTATTCTTCATTTCTAGTCTTTGTAAAATCAGGCTCATACTCCTTACCCGGAAAGGATTATTGGTCAGAATAAGGGAGGTGCA
GCAATAAAGTGACCAGGAAAGTGTCTAGCGGTAGCTAATGTTAATTCCCACCTCCCTCCAACCCACCGCCCATTTTTGCTGATGCCTACTAYTTCAGCAG
AGCCAAGAGCTGCCAAACATTCGTTCAATTTTTATCTGAAGGTCTGCAGATTTTGGGGTGTTTTCTGGAGCTGTTCTTTATAAATGAGCATCTTTGAAGT
CCAGAGGTCTCTACTCAGCCAGTCTGCCTTCACAAACCTAAAAGAAAGTTGAGTGCTCCTCAGTTACCCCAGCTGGGACAAAGGTAGGTAGTGAAGCCCC
TCTATCACGTAAAGATGCTATGGAAATGAAACCTTGCTTACAAAATACTCTGCAGTCCTTGGATAAAGATGAAAACTCTTAAAATAAGAAAGGTCCACAA
GACACCTGGGAAAACCAGCCCTTTCATTTTGCACATGAAGAAAATGAACCCCAGAGAGCAGATGAGGAAGTGTGATCCKGTGATCAAACTGGTAGTTGGT
GGCAGAGCTAAGACTGATGGTAATAATAACATAAAGTTATTACTTAACTCCCAGACTTGCTTGTGCAGTCTTACTGATATCAGACATTTCTTCATTGAAC
CAATGACTARTGTTGACTTACTTTCCCTGCCAGGATATTGACAGAGCTGATCCACCTTGGACCACTTGAGGCTTCCATTACCCAGTAGGCAAAAAGAACG
GCCACACAGAATAGAACGCCTCCAGTGGATTTCAATTTATTTCATTTTACAATAATCCTAGTGATGACTAAAGTAGAAACCTTTTTTCCCAAGTAAGAAA
ATTCTTCTGGATTTAACAACATTAACATCTTTCACTGCCAGTTCGCTTCCTTTTTAGCAAGCATCTTTTCAGCATCTATTGTTTTAGGAACTAGACGGGC
TCCCTCAAAGTACTTTTCTAATTTTTTTCCTTAGCATTAAAGGTTGGGAGATAATAAGAACTGAACAAAGCAGCAGTTTTGTTAACTTCTTGGGAAGAAA
ACCTTTTCAGTTCTGGATCTTTTTTTTTTTTTGGTATAGCCTTAAATTGGCTATACCAATTGGCATTCAAATGACATGGCATTCAAATGACAGCAAGGAG
TATTTCAAATTCATTTACTGGATTAGTCAGTAAATAGGTATTGCRTGCCAGCTGGCTGCCAGGTCATGTGCTGAGGGCATCCTCAGTGCTCTCACTTTAG
TAATGCCCCTGTGGAAGTTCTTGTCACATTGTTGATGGGTGGTTATTCCCAGAGTATGCATTTTTAGGGGGGCAGAGACCACATCTTATTAACTTCTGTA
GCTCATAATTCTCCCAGTGAGGAGTCTCCCCTTCAAAGGAGGAATTTTCTCCCTCATTTTCTTGCCACCCATTGCCATTTGGAAAACTCAGTGGGCCATG
GAGAAGCCTTAGATCTCTGGGAAAAGAAGTTTGCGTTGTACTTCAGTTGGGTATTTTGTAATGCCATTTACTCCCTGGATACTTCTAAAATGAAAATGTA
GCCTGTAAGGACAGCACAGAGAGAGGAAATCAACTACAAATTAAAAAGTGATTAGTGAGTGTTTAGGCAGAAGGTCAAAGGGATTAGTTTGGACTTCAAA
CTTTTCAGCTTTCAAGGTTTGTATTGAGTTACAAAATTACATCCCTGAATTATTTGTGCAGGTGGCAGCTGTCAGATTTGAAGAAAGTTTCTGTGTTTTA
CAAAAGGAACATTGACAGGACTGGGAATGGGGAGTGTGCTCCCAGGGTGAGGGTTGTCCTATCCACAGCACCCTGGAACGGCTCCAGTCTTGCTCAATGC
AAGTGACAGTCCTTGTCTGAGCTGACACGGCCCTGTCCAGGTTACTCCAACCACCTTAGTGAGGAAACCAGTCAAGCCAGTTGATTGGCATCATGTAAAC
AGCTTGATAGTAGATTTTCAGGACTGGGAAGGAAGAGAACTAATCTTTGTTAAATACCTGCCTTCTGATATTTCATCCTCACARCTTTTCAAAGTGGATA
TTGGCATCCTCTTTTTAGAGTTGAGGCTCAGAGAAATTAGGCAACTTGCTGAAGATCACATAGAGTGTCAGTGGCAAAACTGGTTTTCAAACCCAGGTCT
GAGTTGCTTTCTTGAGATCTGTGCTCTTCCTCTTACTTGGAGCTGTCTTTAGGGCAGAAATTCCCAAGAGGATCCCAGCAAATGGGTTAGGGGTGTGCTG
AAATGGATCCCTTAGCCCTTGGGCAGCTGGGCAGGGTGGGGCATGGCAGCTGAATCACTGAGCAGCAGTCTCCTCAGCTTGCCTAGGAGTGCCCTATAGT
GTATTTTCTAATAGTATCACTATGTGGAAAAGGCTGGAAACTGAAGATAAGTGTCTTATTCTTAGCCATCCGGCCTAACCACCCATCTGAGACTTGAAGC
TRGTTAGGATCCCTGTAAACAATTCCTGATGGAATTGTCTACTCTTTATTAGGGTATGGGATGTTGTGCTGTTTTGGGRGATTGCATTAAAAAACAGGAT
TTGGGATGTGGGAGAGATTAGGTTAAAATTTAGAAAGTGGGGAGAAAACGATCCACAAGTCCTAGAGTGTATTTGGTAGGGGGCCAGGTCTTCCAGATTT
TGGTTTGTTTCCTATGCATTTATTCAGTACACATTTGTTGAACTCCCACTATGTGCCAGGAATTCTTCCTTGTATCAGGGACACAGAGATAAATAACATG
AACCCTTTTCTGAGGATCTTAGCTAGTGCAGGAGATTTATGGGAAAGGAATAATTATGATGTTAGACAGAGGGGGCCCTCAACCTTCCCATCTATTAAAT
GAAAACAARTGACATTAAGATCTCTTACAGTTCTAAACTTTCATCAGGATATTACTGTTATGCACCTAACTCCATTCTGAGTAAGATTTATGATGCCAAC
AAATATCTGATGGACTTTAATTTTTAACTCCCTTCTCACCTTGCTTTTATTTTTTATTCTTTAGAATTAGTGGGCTTCTATCAGAAGATTGTTTTTGTTT
TGATTTTAGATAGCTATTGCTTTTAAAAATAAAACTCTCTGATATTCCCATTTAGTATCACATAGAGAGCTATAAGTTGGGTCCACTGTATCTTCTGAAG
CATAACCATGCAATTTATTAAGATAAGCTGTTTACCTGGCCAGTAAGGTAGATGTTCATTTTGACCTAACCACCAGCCTCATGGAGTCAATTTGGTAAGG
GCTTTCTATTTCAGCAAGGCTTTGTTTCACATCCCTGTTCATTTTACTGTGTGACCTTTGGCAAGTTACTTAGCTTCTAAGCCTCAGTTTCCCCATAACT
AAAATGCAGAAATGAACTACCTTGCCCTGGTGACTTGACATGATCTTTGGGTTTATAATTGAAAACATAGATAGGAGGCTCAGTCTTGGGTTAAGATTAA
GACATACGCATAAATCCATACACACACATAACCATATACACATATATATACATGTCTAATGTGGCCATTACTTACTATGGGAGACATTACGGCATCAAGA
GTTATTTCTATTTTCATAGGTTTACCCAAGAGTCATTAACCAAGGACTCTTACTCTCTACAGCAAGGATAAAGTCAAATGTTTACAAAGCCAGGCAATTA
ACATAAATGACTACAGTGGACCAGGTATAAGAAAATTGACAGTGCAAGCTCAATGAGAATGGCAACCCACAGACAGCCTTCATGTCAGGGAGATAGTGGG
GAGTAGGTGGCTCCTGGAGAATGTGTATATGCTCCCTGCGGGAAGGCAGCCGCTGTTATTACTGCCTGCATTGCCACACACTTTAGAGCTGGTTTAAGAA
GCTGGGAATCTGGATGTTATCTGCCTGTTATTAAATGTTAACAATTTAAAACATTTTAAACCCTGGGTAGGCCAAACGGAACATCTCTACAGGCCAGATT
TGGCCATGGGCTGCCAGCTTGTGACCTTTGAGCTAGATCGCGGGCCATGTAGCTCAGTGGCATACCTGGAGTGCCCTTGGATTGCTCACCAGGGTGATTT
TGTTCTTGCAGGGCCTCCCATAATGCTCACCTCTTCGCTTTTGGCACTGCATCTGGCTCCAGTCTTGCCTTTTGACTATCTCGATCTTTGGCTGTCCCTG
GTGTCTGGTGTCCTGCCAGTCCACGTGTTGTTTATTCTGCCACATAGACGGGGTGTTTTGTGTACACCTGGGTAGCATGGCTTGGATGGGAGTGCACATG
CTGACGAATGAATTTTTAACTGCTGGAAAAATAAAAATAAATGTATTTTTCTCAACCTTATTATAGACTTGCCTCCGATACAGCATCATGTGATCTTTTG
AGAATATATGGCAGGGTTCCCACTGTGATGTTTCTTCCCTATGTCAGGGTTCCGGGTCTTGCTAACCACTGTCAAAGCCCCATTTGTCTACCCAATCCCA
AGAAGTTCCTGGAATTATAGGACTTCATGAGCATGCTTTTCCCTGCAGATTAGATTGCGTATGGGAAGTGGCTGGTGGGCCCATGGCTACTTGCATGAGC
TTTGGACAGAAATCTGGTCACATCTTACCCCCACATAAAAGCTTTTGGTGGCTCCCTGTCACATATAAGAGCAAGAAATAACTTATTTTATCAACTACAT
CTTAGTCCTCCTAATCAACTCTGTACATTGGGAATTAATGTGCCAACTCTTATTGTACAGTGATAAAAATAAAGTTCAGAGAGTTAAGGTCATACAGCAA
GAATGACAGTTGATAGGAGTGGAATATGAAATCTTGTCTGCCTGACTCCAAAGATCATGATTAAATTGGAAAAAATAAAGAAGCAATTAATCCTGTTAGA
GTGGGTTACATGGCTAAGTAAATCCTTTGTTGGAGAGATTTAAGTCTTGAAGGATATTTAAGTCTTGAAAGATAAATAGGAGTTGTTTWAATTCAGATGT
TAAAGACATTACTTCATGGAGTTGTTAGGAAGATCAAATGTGATGATTTATGTAAGAGCTCAGAAATACTTTGCATGGATGGGACTATTGCTGTGTCTTA
ACTCTGGGTAGCCATGTTGCAAATGAATGCCTTTGGGTCATAAGGGAGACTTATGAGGCAGAGAGAGAGTGGCTGGATCTGTATGGTTCCATCTTAACAT
CTAAAGAGGAGCCTTGGTTTCTGCCCTTGTCCACTTTCAAGAGTTTCGTAGCTGACTTTCTAGGTTGCTAATATGTGAATAGACATAGTTCATGTATCCT
TAGCAATAAAGGCTAACTGGTCCCATCTCTGAATGAATTCTAGAGTCAGACAGTTCTATTACATATCTTGTTTATGCCTCTTATCCTCAGAGTGGATACT
GAAACAAATTACAACCTCTCTGACCCTTGGTCTTTTGTCTATATCCTAATAATTAATTTAGAAAATTGTTTTGAGAATTAAATCAATTGATGTATCCAAA
ACTCCTAGCACATAGTGGGTGCCCAATAAATGTATACTTACTCTCCCTTATTTAAAGAGGATTCAAAAGGAAGGAGGTCTTGGGAAGTGACTCAGCTTTA
CCTGGGATGGAAGGATTATGAGTCCTGTTGGCTCTGGTAGTTGTGTTTCACTAGAAATAAAACACCTCATTTGTGAAATATATAATGATGACAAAAGAGG
TTTGGAGTTCTTTCAATTAAAGATATGAACCATGAGTTGCTGGTCAGTTTGTTTTATTTGCAGATGAATGTGGCAACCCTTTAAAAATCCAACAGAAAGG
GCTGAAACAGCTGGAGCTGGGGATTTTAAGGAGGCTGATGTTAATTATTTTAAAAATAAAATGTTTTCACTGTAAGCACTTTCAAATAAGAAAGGACATC
CAAAGTTCTTTTTAACGCCCATGGTGAAAGTAAAACAGGTTTCTCTTTGTCATGGAAACTGAGACTTTCAGAAGGCAGGGAACTCAAAATCACTGCAGTA
TTTTACTCACCTTTGTTTTCCCCAGCACCTAACACAGTACTCAGTACTTAGGAAAGAGCCATACTTGTTTGTTGAGTTGGACTAAAGACCTTGATTTGGG
GTCAGGAAACCCAAGTACTAGGACTAGATCTGCCACTGGTTTCTCCATTTCTACCACGTAGTTGCTTTTGGTTCCAACAGTCTTCTTTTTGTGGAGAAAG
GGCCTGAACTTTCCAGTACTGAAGAATGAGCAATTGCTAAGGAAGACCTCTAGACCCAGAATATTGCGTGTTCACACCAGCCAACAGCAAGTGTTTTTCA
TGGCAGCCTGTTTCAAAGGTAGAAAAATGCCTTCATAGTAAACTTAGTTTTGTCTCATCTGGATTGTGTCCAGTCTAAAAATCTGGACAAATATCGTAAA
CCAAAGAAAGTTTGCACACTTCTAAGACCAGTAGCAATTAATTACTTTAAATAGAAGCCCTGTCACTTACAAGCAACATAAATATTTGTATTTTGAACCT
CTAAGTAATARTTGTGTTGACCATTCTGGCCTTAAGTGATTTAAAAAAATCAGTGAGTGATATTTTAACAGGGAATATGTTTATAAAGAAAGGGAGGGTC
AGGTCATAGAGTAAGAAAATATAAGCCAAAAGACAGACAGATGTGGGTTCAAAACCCAGTGACCAATTTACTCACTTGAGGACCTTGTACCAGTTATAAA
ACTTCTGGCCTCAGTTTTCTGTTGGGTATACATGAAAATAATAACCCACAACGTTTCATAGCTATCGTGGAGATTAAATTAATCAATTCCTAAAGTCTAA
ACTCCTTCAAGGTCCAGGGTCTTCAGTCTATATTTTGAATAGGTGGTCCAAATTGGGACCATTGCTAGCTCTGCATTTTAGGTGAACTGATGAACATTTC
TGATCCTCAGTTTTTCCATTTRTAAGATGGGTAGAACAGTACCTACTCATAACTCTGTACTGTAGGTAAGATGTATAAACTTTTTATCACAGAGTTCTTT
TTTTTTTTTTTTGAAACAAGATCTGGCTCTATCACCCAGACTGGAGTGCAGTGGTGCAATCTTGGCTTACTGCAACCTCCGCCTTCTGGGCTCAAGTTAT
CCTCTTACCTCCTGAGTAGCTGGGACTACAGGCATGCACCACCACACTCGGCTAATTTTTGTTTTTTTGGTAGAGACGGAGTTTCATCATGTTGCCAAGG
CTGGTCTCGGACTTATGAGCTCAAGCAATGCAACTGCCTCAGCCTCCCAAAGGGCTAGGATTACAGAAATGAGCCACCGCAAATGGCCTTGTCACAGAGT
TCTAATAGCTGCCCAATTTGAGTAATTATGCTATACCAGATGCCTATTTTTGTGCAACCAGTATTATTTTGTGGATAGATGTGTAGGCTTTCTGCAGATG
TTAGTTTAATTATTATTCTCGCAGATCCTGGACTTCACGTATTTTATAATGACTATGGATTGTTTTGAGTGGAAAATTGAACAACTCTGGAAAAGGACAT
GAAGGACCTGGTATGTAGAAGACATAAAAGTCCCCTCCTGGTGCTCTGATTTTGGTCAAAAAATGCAAAGATTCCTTCTTCACCCTTCCCATCATTCTCT
TCTTAGCCTCACCAAGGGCTTTCTAAAAAGCACTTTGTGAGAAGGAGGCTGTGTTTAATTTTGTGCAAAGGTGAACTGTGGCTGCAGGGAGCAGGGCTTT
GGGGCCAGGTCACTTGGGTAACACTTCCCACATGAGTTTATCAATGGGTGGGCCACAAAAACTTAGTCTGTGTTTTTTTACACTCCACCCCCAAACCACC
CAACCTGCCCCAGTGTTAGTTTTTCAAAGCCAGAGAAGTTTCAAAGGCCTGAACCCAACACAGGGGCCTTTCTTCATGCTTTGATTTTATGCCCATTAAG
TGTTTGTCAGTGAGTTCATATTTCACCTCCTCTGCAACCTACACATCCCAAGAAATCCCCAGAGGTATATGAAGTTAATTGATCCTTGATTAAAGGAAGG
AGAAATGCTTGGGTCTGGGTCTCGGTCTGCACTCACTAGATTCTTTTTTTTTTTTTTTTTTGGTCATGCTTTGCAAAAATTTTGTAATGCACCTTTTATT
ACGAATACATTTAAACTCCAGGCTATTGCRTTCAGAGTTTGATGAAATTAGTTACCTAGCRCATGTGTGATACACAGTGAAAGTTCAGTTAACTTGAGCC
AGTGCCATTCCCTTGATTGTTCTGAACAGTGCCTTTTTCATCAGAGGCCATGAGATTTGCTGAGCTTCAGTTAATTTACTAATACTTATAGATGCTTCCT
TCTCTGAAGAGTGACTCACTTACTTTATAGAAAGCACCCAAAATCAGAGTCAGATCATTTGAAACCTGTTCAGCTCCATAACTTACTTGCAGAGTGACTG
GTAAGTCACTTTAATCTCTTTGAACCTTAGGGTGGCTTAATGTATTAGTTTTTATGACTGTTTATCCTATTAGCCTTTGGGCCACTTGAAGGTTGGAACG
TAGCCTCTTTCATTTCAGTGGCCCAGTCAATGCCTAGACTGTGGTAGGCAGCCAGGTTTGTCAGTCTACAATAGTTTATATGGGGACCCTCAAGACAGTT
TGGGCACATACTAACTTACTAACTGTTTAGTAAATGTTACCTATTATTTATGCTTTGTGCTATTTTCGCCTTTCTTTCCTTCATTCCCTTCATCTCCTCT
AGCTCTATAGCAAACTTTAAAATTGTATTTGTTTAATAGCCATCAGTTTTGTGACTGACAATATTGAAATCCCTAAACTGCACTGATTTTTTTATGGTTG
TACTTAGCCCGTGGACTCTAGAAACCCCTCCTACTTATATAAGGGTTAACTGAAGTCTCCCACCCTCTGTTGGACACCTTGAAAGACTCTAGTAGAATAG
TCTTTGTGTCCTTGGTGTACTCTATGCATATGTCAGTCATCACACTAGAAATAATTCAGGGTTCTTGCTTTTTTGACTATCTTACAACACTGTGAACTCC
TCCGGGGCAGGTACTATGATGTATTGACTTCCAGAATTCCAGTGTCTAGCACTGGGAAATTTCTCCAAATGAAGTGATAAGGGACTATAGTAATTGGTAA
TAAAGATGGTGATGGTATTGGAACTAAAGGTTGTTGGAGAAGAACAGCCTCTTCTCTGTGTCCTGGAAGGGCAAGGCACAGTGTTATATCTCTGCCTAGT
TGCCTAGTTGGACTAGCTGCCTAGTTGGGGGGATGTTTATGCTTTTCCCATCAACTGAAGGAAATCTGTGGTTACTCTTCCTGGATCAAAATCAAGATTT
GACTGGCATCACCCTCAATAATACCACAAGTTTATAGGGGAGACAAAAAAAAGCCATCGGGTTTTGTAAATGCCATCTGCATGCCTTTCAAGAAAATAAA
CAGAACATATTCAGCTCCAATTTCTTGTCTGTTTGTGGTCTTCATCCACATAATCAGAACCGGAAACCCTCCCCAAGCCATAGGCAAAGAAAGAGGAAAA
AGGATTTGGACTGTTCTCAGTTTAAAAGTGGGCAAAGGACTGACCAGATTTTTTTCCCTTGCCTTCTCTGTGAGGCTTTTTTCCCTTCTCTTTTTAACAT
TCATTGAGTGTCCACAGTGTGTCCCGGACTCTATGCTGGCATTACTCAGTGCTATTGCCTTGACTTTCTTCTCAACTGATTTTGATGATATGTGTCTTCC
CCTGCTGGATTGTAAGCTTCTTGAGGGCAGGGTCTGGGTCATCTTTGTGTTCCTTGTAACTTAATATATATAGTTAAGCCTCAATAAATATTTGTTGAAT
GAATGCTTTAATTTTTATATAATCCCAACCACCCTAAAGTTAGATTTCATTCTTCCCATTAAACAGATGAGAAAGGGAGTTTTGGAGATGTGAAATAACT
TACTCAAGTAGTAGGGAGCAGAGTCAAGATCATTAACCCAGTTCTGTCTAACTCCAAAACTCTTTTATATGTGTTTTATTGTCCATAGAAACATATGTTT
TACAGGCCTATCATGTGAGCACTATTAAAAATAGAAGCTGGAGGTCTGAGAGTGGAGTGCAAATGTAAGGAACTTGGGGTCTGTTCCCTTCCTGAGTTTA
TTAGCAACACTTTGGCTCCTAGGCACCAGAGCAACTGCAGCTCAACTTTTAAATCTCAATATGTGGAACTTTAAAAGCAGACTATTAATAATATCATACT
GCTGGCTTCTCAGCTACTTTTCATAGCCAACTTGGTTGCATTTCAAAATGTTTAGGCAGTGGCATGAAGATGGTTCGGGACCATATGATTTCTCTCCCAG
GCTCCTAACCCCTAAAGATCATTTCTAAGCCAGAACGTTTATCCACTGCCTTTCCCTGCCCCCCTCTCCTCCATTGCAGAGACAAAGTTTTAAAACCTAA
TGGCTATTGCCTGTCATGGCCCCTCTGTGTTTACTTTGAGAAGGTCAGGCACAATACTGTGGTGTGTTGCTGTTCTTTCTTTTCAAAGCACCAGTATGAA
TTTGATAAAGTAAATTGTTGTTCTAGCAGGAAGCAGTTAGGGGTCACAAAATAAATAGCCATAGAATTCAAATAAATCCAAAGAATAAAACCAAATAAAT
CCATGTGTGTATGCACAGTGATACATAAATACACTTTTTAGAAAGTGAGCATTTTTATCACTGCTGGTCTGGACCAAAGTAATTGAAAAATTGTGGAGTT
CATGGTACTTTTTTTTAGAGGTGGTCTGGGACTTCAAGCAACATGATGTGAATTTAATTCTTTTTGAAAAACATGAAAAATGGGATTTTATCTTTTAAAC
AACTGTTTATCTTGGGATTTTTCAGCTAATGAAATTCACATTTGAATGAAATCAATTTGCAAAGTTAAATTAGGGATTTAAGCATTTGGAGGTGGACTAA
GAGACCCTGAATGAGCTCAGTATTCTCTCTGAGTCTCTGTTCCCTCCACTTGAAGATGGGTGGTAGTGCTTAAATAATACTTCAATGCAAAAATGGATAT
AAAGAACCCAACACATTGTGAGTGTGCATTCAATAGTGGCTGTATTATCCACTGTGTTTTTTTTTTTTGCAGCCCARAAGTCTTGTATTTATTTTATTTT
ATTTTTTTAACATCTACTATGCCATGAGTTCATACGTTCCAGCAGCAGGCTCCTTCCCCTTGGTTCTCACAAAGTTGCACTTCTCTTGGTAGAGCAGGCT
GGCACTTCAGTTGAACTCTTTGGCTTTCTTTTTCTGATCATTTTCCTTCATGTTTTTTAGGAAGTTATCTCAGCTCTTGGAGTGCTTAATGTGCTCAATA
TGCACATTAATTCTCTTGGCAAGAATCTTCCCCTTAACTTTTTTGTTTACAACAGTACCAACGGCATGCTGGGGAACACTGCAGACTCTTCCAGTTTAGC
CATGGTAACACTTGTGGGGCATTCTTTTTAGAGCAGTACCCATTCCCTTAGATGTCTACAGCATCACCTTTCTCATAGATTCTCATATACGTGGCCAAAT
AAACAACTCCATGTTTTCTAAMAGGCCTAGAGAACATCTATCGGGTGCCTCTYCTCTTTCCCTTTGTGTTTGTCATTTTGGTGAATTACTGGAAGATGGC
AGTTCCAGCTGAAAGGCCACTGTGTTTTTGGTGGTCTTCCCTAGTTCCAAGATTTGTAAAAGAACTGGTCCTTTTACTTTGCGAAGTGTCATTGGAGCTT
GGTATTGCAGTTGGGTAGTTGGGGAGGAAGAGGTATTTTGGTCTAAGAGAATAGCATGAATCCACAGTCTCTGTGTACTGGTTTCTTGGAGGCTTACTGA
AGAGGAGCAGCAGAGCATGAAGCTGGAGAGATGTCCAGGTCATGGGAACTCCTAAAGTCATACTTAGGGACTTTATTTCACCCTGTGTCATGGGGAGCCA
TTGAAGAGGCTTTAGCAAGGCTTTGACATGCTCATGGTCCAAGCCCTTCAGGAAGCAAACTGGTGGCTATCTGTAGAAGGGAATGGGGGCCATGAGCCTG
ATTAGGAGGCTCTTGTAGCATCCAGACAAGAGTTATCATGGGCCTTTGCTTTTTAAGTCAAGGTTGTGAGGGACTTTTCTTGGCAGGTGATGGAATCCAT
TTGCCATGACCTTTGAGAGAATAGTATCTGAGCTGGCCACTGATAACCAGCAGCAACTGCAAGAGTCACTTGGTTCTCCTGGGTGCCCTGGGCCCTCTAT
CCAGGTCTGCAGGCAGCAGGGCCAAGCTCAGCTCTGCTCACTCTTATTGGTAGTTCTTTGAACAGTGAAAGAAAAGCCTGGAAAATGGCATTCATGAAGC
AGCTACTATGTGCCAGGCACTGTGCTAGAGGTTGTGTGTGYGTTGATCTCCTTTAGTCATCACCACAACTCATTTTACTGTGGGAAAAAACTGGGACTCA
GGGAAATGGAGTGGGAACCAGAGGAAGTGCTGGATCTGGGGTTCACATCCAGATTTTTTTACTCCAAGGCCTTCACTACCCCAGGCAGCACAGCCTTAGT
GAACTTCTCAAAGGGGAAATGGTTAAGAGCTAAGAAATGAATGCCCTTGGAAGCATAAATCATGAGATTTGGGGCTATATTAGTAAATGTTGCGATTCGG
GCTTTAATTTTTAGCAGGGTATTGTAGAACAGTGGGAAAACCCCTGCTCTGGCTCTTTCACTGCCTACCTCCGAGCTCTTGGGGAAGAGAAGAGGATAAT
GCCTCTCTCCTCATGGGGGTGTGGAAAGGAGGAATGGGGTTGTGCATAGCGAAAGCTCTCTCTAGGCAGTAGATCTCTACAAATGGAAGGAACGATTATC
ACTCTCAGTGATATTTGGGATGGTCTTTTCTTGAAGTTCCTCTTTGGCACTGATGTTTTCCCCTTCCTTTTTTTCTTTTTTTTTCTGGTATATGCCATGG
TTCCACCTGGACCAGCGGGCCTCCCCTTCCTCATCATCGAGACAAGCACCATCAAGCCTTACCACCGAGGGTTTTACTGCAATGATGAGAGCATCAAGTA
CCCACTGAAAACTGGTGAGACAATAAATGACGCTGTGCTCTGTGCCGTGGGGATCGTCATTGCCATCCTCGCRGTAAGTGTCCAGAYTCTGCTATGGTGG
ATCCTGTCTGACTTCTTCCTGTATTGTCATATTATAGAATGTCTGAGCCAACAGAGACTTATACCAAGTAGAAGCCAACTTTCTCTGGCCTATATTTAGC
CAAGAAGGAAGGTAGTTAATCCTGAGAACACTAAATGTGAAGTAAGTGCTATCACCCCCATTATACAGATGGGAGAGTTAAATGACGTACTCAAAGACTA
CAGCTACAAAAAATTCAGGTTCAGCCTGTGCCTGGCTGATTTCAAACCCCCTTTCCATCTCGCARACTTACAKTTCAGGAAGKCTAACCTGTCCAAATGA
ACTGCTCAAGGGGATAGGCAGTTAGCTTATCTTGCCTACTCTGGATCAAATGTAAGCTGCTGATGTTACATGTACCACATTTCATGTAGTTTTCTTTTGA
CTTGCCCACTCTGGAGGTTGGTTGTAAACTTTGAGACCCCTCTTTGTTTTTTAATAACATCGTAAACCAGGCACACAATCAACAGCTTGAATTTGGGGAG
GGGGAAGGGAGGCTAGTAGAATTCTTTCCAACCTTTAAAAGAAAAACAGTCCATTTGSCAGTAGTTTCTTAAAGGTGGACTAAGGATCTTTGTGTTTGAA
AACTGAAAAATGAAAGGTCTAGTTTTCCTGTGTGCTCCAAATTGACAGTTGTGGGTTTGAGTTTCTAGGAAGAATGGCTTTCCCTGAAAAAGGTGTTTGT
TGTGGAAAGCAAATAATTGCACAGTATCATGTATTGAGGTTTGAACAGGTGTTTTTGAAAGTTGGAGGATCAGTTAATTGAACGCTTCAAAGGAGCCCGC
TATACCCAAGAGTGTGGTGAGATAAGAAAAGCACAGGGACAGGAATGTCACATGCTCGTCACTCTCTGTGGCATTATTCCCAGCTTGCCTAGTGGGCTGC
TCCCAGACACAGGGCAGTGGAAAGAGACACTCTTCAGAGCCTCTCGTAGCTATGTGAATTAGGTGGATCATTGATTTCTTTAACCTTCAGTTTCCTCATC
TGTAAAATGAGATTGCTGTTTGGATTCCCTCAAGAGGATTGCTGTAAGAATCAAATGAATGCCATAATGCCTGGAATTGCACTCTGCAGCAGTGGGCTCA
CTGGAACGTTGAGAGTCTTTTAGTTGGGAATGGTTCTGGTTTTCTGACCTGGCCCCAGGATGGGCAAAGGAAAATGCTAAAGTAGCTTCTTTAGAGTTCA
TGTGTCTCCTCCCATCCTTCCTTCCCCAAGCAGAGCTTCAGATCAGCAGCTCTTCGCTTGCTGCTTGCCAAGGCCAATCCCTTTCTCCTTAAGGGATGTC
AGCATTTCTTAGAAAAAAATGTGCTATTGAGAGCTTCATTGTGGCTTGCCCCTTTCCTTGTGTTATGTTGATATTTTAATTACAATGCTTCCTGACCTCC
CAGGTTTTCTTGAAGCAGTCATGTGCTGTGGCCTCATTATACAATGAGCAACAGCATTGCTTCCCCAACCCATACAATGGCAGCAAAATGGATTAGATAG
TGCTTTCCTATAGTTCCGGAGAAACACAAGCCAAGAAATTACTGCAATAATTGTTATCTCTTGTCCAGTGCTACTGTGTATGGGGATACAYGTGAAAAAT
GTGGATGCATTTCACCCTTGAAACCCCAAGAGCTAGATATTCTTAGGGTTTTCAGTTTAGCACAGGGTTAAAAGCACATGCCCTGGTTCAGACCTGAGCA
CCTCTGCTGTGGACCATGTGGCAAATTAACCTTATGGTGCCTCCGGAAATACATCTGTTACATAGAGATACTATGTCTACTTACTAAGGTTTTGAGAATT
AAATGAGCTAATGTATATAAAGTAACTCAGTGCTTGGCACATATGGTATGCCCAGTAAATGTTAACTATTTTTATTCTAAATGAGTAAACAGAGTCAAAA
AATGGTGAAGTGACAGCCAGATGTTATATCTGGTAAAAATACAGTAAGGAAAGGAACCCCAGCCTTAGCTACACCCCCCACTCTTATCTTATAGTTATTT
AATTAGAACCCAGGTCTCTTGATTCTCACTCCTCTTTGCAATAGGAATTTCTTACCTCTTGGTCCAACTGCTGTTGCATTTCAGCTGGAGACACGTGAAT
TGGGGGCTCCTAATGAAGCCTCCTAGCCTGCTTACCTGTCATAACTATCAAGGGTACTCACAGAAAAAGGTAAAAGCAAAGACCTCAGAGGTGGAGGGGA
TAATTCACTTTTGCATTCTCAGTTCTGGAAAAGCTATAGAGTTTAAATTTAACAACAACAACAACGATGACGTCGACACATTTCCCACTTTCCCAGCTGG
CCCCATCCAGAACCCGGTTCTGATTAGAGGGCAAGAGTGACAGACGTGGAGGGTGGAGGGGCCCAGAGCTGGAAATTGAACCATCATCCTGCTGCTTGCW
GTCCTGAGCCTTCTCCTGCTGAATGTCAGGTTTGTTTAAAACAGCAAGAGAGGCCTTGACTGAGTTGGATGCCCCTGCTSCCATTCAGATGGTCCCCACA
ACAAAGGAACGGAATGGCAGTGGAGGAGACCAGTGTGGTTTAGAGATGCAAATCATCACGCGTTATGGAGAAAGCAGACACCTTTCAATGGCAGGAGATA
TGGAAAAACCTAGTCATGTTGACCTCTTTTTCAGATGTATCTCAGATTCTGGAATTATAGCATAATAGGAATTCCTTCCAAATCCACAAAGCAATGGTTC
CTATCCCTGCCTTGCAAAGGCTTAATGACTCTAGCAGCAGTAAGACTAGGAGCAAACAGTAAAATATCATCTCCTATCTCTCAGTTTTGTCTTGCACTGT
ATTACAAAGAGTATCATGGGCAAAGATTTAAAATGGGCAGAAATGCTAAGTATTCATTTTAAATATACATGGGCTCAGTGCTTGCCTCGCTCAGAACCTA
AAAGGGGTTTATACAGATTCTTAATATCTAGGAATTGATGCATGGTTGAGTCACGGATGAATCTCCTTCTCTCCCTAGCCATAAAAATGCTACCTAACTT
GACTCTGACTTCTGTAATAATATTCCTAACTAGAGAAAAAGTCAAACTTAGGCATCATCTGACTTAGGTACATGTCCCAACTTGAGTGCTTACTCATTCT
GTGACTTGTCCTTCAACCTCAGAAGAGCCATTGGGCCCCTTGGAGCTATACTTTGCTTTTCTATAAATTGGTCACAACGGTTCACCAATGCCATAGGCTT
GTTTTGRTTGTCAAATCATGTGATATTGTGTGTGTGATAAGTGAGAATCATCCTTCATATGTCTGTAGTGTTGTACAGTTTACAGCGTGGCTTTTATGTG
CACGCTCTTCTTTGCACCTGGDAGTAATCCTGGGAGGTTGATTCTTACAGCTAACTCAACCGGGGCTCAAGGATATTAAGTGACTCTCTCATAACTAAGT
AGTGGCATGGCCAGACCAGGAGTCCTCTGATTCCTACTGCTGTCTTCTGCAGCCTACCCTCCTTCCACAATTACTTATCAAGGGCCTATGATGTGTCAGG
TGTTCACCACACAGTAGTGAACCTCAGCACAACCAGCTGCATGTTGTCTCTTGTCATGAAACTTAGCAGCTACCCCATCTCGAGCAGGCAAATAACACCT
TAATACAAACTGTCATAGGCCAAGGCAGGTGGATCACTTGAGGTCAGGAGTCCGAGACCAGCCTGGTCAACATGRTGAAAACCTGTCTCTACTAAAAGTA
TAAAAATAAGCTGGGCTTGGTGGCACGTGCCTGTAATTCCAGCTACTTGGGAGACTGAGGCAGGAGAATCGCTTGAATCCAGGGGGTGGATATTGCAGTG
AGCCAAGATCATGCCACTGCACTCCAGCCTGGGCGACAGGATGAGACCACGTATCAAAAAGAAAAAAAAAAAAAGCTACATAATAGGTTGCTGGAAGACG
GGGCCAGGTCTTTTCCTCTGGGCACATGGTAGGTACTTAAACACCAGGCGGACATTTCTCCAGGAAGCATTCCGTASCTGTCTCCTCCCCCACCTTCCAA
AGGTCACAGAGAACCCTGGGCCCACCTCTGTGGCTGCAGTCACTGTGCTGATTGTCATGTCTGTTTACTTGTATATTTCTTGGCTACCCTGTTAGCTGCA
CAGGGGAGAGACAGATCTGATTTGATTTGGTATTGCTAGTGTGAGACATAGACCTTGGTGCTCAATATATGTTTGTGAAAAATCACAGAAGAGGCCATAA
ACTGGGGGCAGAAAATCAAAAGCATTAGGTCAAAAGATATCAGAGGATTCACAGAGCAGGGGAAAATGTCCTGTTTTCTTCCTTAAAATCTCAACTATGC
TCCAGGAGGCACATGGGAACACACTCTGTACCACATGCAAATTTCTTGCTGGAGAGACAAGAAGAAGAGCTTAGTACCTGCAAGACTTGTTTATTCAGTA
TCATGCTTCACTTTGCCCACATCTGGACTTCATTAGTTCCTCCCCACCCCTCCATCTCCCTTTATCTACAAGAGCCCTGCCAAGAAAACAAGGTTCCTCA
ACATTGCCTCCTCATTAAAGGCTAGTCGAGTTTTCAACTCTGAAAAATGTGCAGTTGTGCTGGCCCAGTGGTGCATTAGTGGGAGACCCAGTCCCCCAGT
TTACAATCCACTACATCTGTGCAATTACCAAGACCACCAACAGAGAGAGGCCACATTAATCCTTCAACTGTGTTGTCCCCTGATCAGATGGCTACAGAGT
TCTTCTRAGACCTTCTTATCCCTGGGGGAACAGTGGGAGGGGGCATCTATTTGTGATTTAACAACACAGGCATGGAGAKTGCACTAAATTTTCATCTGTT
CCCTTTCTCCACCACCCRCACTCACTCTCATGTCCTGGAAGAAGTGAGAACAGCAGCAATTCTTCCTTAGTTAGGTACAGCTCTTAGRGATTCATGACTA
TTTGAAAAACGTATCAATACGGAGGTGATGATATGCTCCATTTGAAGTCATAATGCTTAGGAGGCCGAGAAATACTTTCTGTGAGGGGCAGTGTGTGTTG
GGGATGGGGTGGAGAGTCAGATAACATTTATGAGCTATTTAATGGACCAGAAACTCATGTCTTATCTTAAATCCTCTTCAACAGCTATGTGAGGTTGCTA
TTATTTACCACATTTGACAAATGAGGGAGGACACTGAGGCTTATAAGGTTGAAGTGACTAGCCCGAGGTTACTCTGCTTAGTGAATGGGGGAACACGAAT
TAAAACCTAGATCTGTTTGGCTTTCAAGCCTAAGTGCTTTAACAGATGCTAATGAAGGCCCACTCTGGTCGGTGCTATGTAGAGTGCTCTTTATTTAGTT
AGCTATAAAAGCTTTTAGTTACTGGGCTTGGAGAGTTAAATGTATGGAGGAAGATAAAACATCTAGACCACTGGGCAGATGACTGCCCAAGATTGACAGT
GTGCATCAATGGTTTGTAGAGATGGTGATCACCTGCTGTGTGTAGGTAGGTGCCGGGTGAWACCTCCCTTATAGMAAGCAGGCTTTGTGGTAGGCACCTT
GGCCTATAAGCTGATGTGTAAAATACAGATCTTGCCTTTGGATCTTATGGTTTAAAGGGAATTCAAGACAAGTACAAGTCTGACTATAGGATTAGACCCT
CAAGGAAAGGAAATAATTAGTCTGAGAATAAGAGGAGAGTCAGGGCAGTGCATGGTGGTGGCTGCTAGGGAGGGGAGAGCTTCAAGGACGAAACATATCA
GATGCTGCAGATTGTCTGAGGTCTAAATAAAGTGCTATGGGAGTTCAGAGGAAGAGCACTTAAGGCTAAGGCTTATGCCAAGGCTTCATCATCATCATTA
TTCACTGAGCACTCGTCTCATATAATTTTCACCACAACCCTGCTTTTGATACTGTCATCATCTTCATTTTTAGAGATAAGGAAACTGAGACTTAGAGAGC
TCAGTTGTACAAGACTCATAAGTCAAAGAGCCAAACTCTAACCCAGAACACTAGTTGGCACTTGAGCTCTACTTTAAGGCATAAGTAGGATTTTCGTCAG
AGAACCTGACCTAGGCAGAAGGAGTGGCTTCAGCCATTTTAGAGACTTCAAAACAATGAAGTGTTTTCAGGGAATGTAGAGCAGACCTGTTTGGCTGAAT
GAATGGAATATAAGGGAGTAGACAAGGTTACAGCAGGAAAAGAAGATTGTGGCAAGATCGTGAAGACCCTTGAATGCTGAGGAATTTTTACTCCAGCTAA
TTGGCTAGAGGTTGATGAGAGTATTTTAAGTGAGCTTGGTCAATTTTCTAATTAAGGTAAAGATGAGGCCTGAACCACAGTGGTGGCAATGCAAGGGAAA
TAGAAAAAGATGGATGCAAAAGACCTTGCAAAAGCCGGATGGACAATGGGATAAGGGAGAGGAAGGAGTCTAAGATTGCACATCTTTGTCAGTCATATGC
TTGGTGGCATCTTGAGCAGAACTAGAGGGAAGAGAAGTGAAGTTTGGGACAGGAGTGGGAATGGGTGTGACCTTAGACTTGGTTAATTTGAAATGGTACT
AACATCTCCAGGTGGGAGAGTTAGCAGAAGATTGGAATTGGGCCAATTAGGGGAAAGGGGTAGGCTGAAGCTAGAGAGAGACAGAGAGATGCCCTTTTGA
AGGTCATCTTCACAGAGGTAACAATTGAAGCTATTGAAGCAGCTGAGATCACAGCAGAAAGCCAGGAACACAATCCTAGGGAAGACCCACATTTATTGGG
TAGAAGTCAGATGTGGAACCACTAGAAGAAGCAGACATACATTTAGAAATAGTAACAAAAGCATGGTGGTGTGATATTAAGGAAGCCTAGGAAATTCAAG
GTAAAAAAAAAAAAAAAGAGTAAGAGGTTGCAGTAGGCAATGCTGCAGAAAGAACAGCCAGGAGATTCTTGCATGGACTGGCAGAGTTGGGCATTCAGGA
GGCCCATGACTCTGAGTCCCTGACTTTTGGGAAAACAATGATGCTTTATGCCTCAGACTCTCTTCTTCATGAGACTTGTGGGCACAGGGCAGCCACTGCT
AATTTCAACCATAAATAACTTCTGTAGCCCCTCTCTGGCCTCTTTGCTGTCTTTATTCTAGATATTGGAGTTCTGACTTACCCATAAAGCCCAGAAATTA
TACTGGTGTCTTTGGACAGATCTATGTCTTCATTACCTTTCCCAGACAGTGAGGCACTGATCTTCTGAAAAAGGCTGAAGATGATAACCAAGTGACAGAA
GAATCAGAGAATAAATTTCCAATCAACTATTTCTAGTTACTAAAGACGCTGCACTTTATTGCAGTAGATGGAGCAGTCAGTGCCAGAGAAAATACAGCCA
TACATCTGTCTCCATCCTTAGAAACAGGACCCAGTACATTATATTTTTCCTTTCCTTTGGGACTGAGAACTAAAGTGAGAAATGTGATTCTCCCTTCACG
ATTCTCCATCATCAACAGTTTGTTGAATTAATCTTTTCTGGGCAAAAGAAGTTCATCAATTCATGTAACCGAGATGTAAAAGAACAACTTGACCCTCTGT
GGCTAGCAGGAACTTAGAGGTGCAGGTGCCTTTCAAGATGGCAGGCCCTTACTGGGTGTTCTGTGAACATMTGTCTCTCTGGAGACATACATACTACTGC
CTAGTAGGACTTCTAAGAGAAAGCCAGCTCGATGCCATTGGGAACAGCACAGGAATTAGAASGAGGAAGCCCCAGCTTCAGTGATGGTCTTCTTGCTGTC
TCATTTTTATCAGAGTGATTCACTGCCCTCTCTGGCCTTCATCATACTCATTTATATAAGTGTTGGTAATAATTTAGTAATTCATATGGTGTTGTGAGAA
GCAAACAGTATAGTGGATGTGAAAGTGCTTTGAAAGCTGTAAAGTACTAAGCCAATATTATTAAAGCAGATCAGAGTATAGGAAAGTTTGTCCTTCAGAC
TCAGYGGTGGAAGATGAGTTCTCAGTCTCTGAAAGAGATTGTTAGGCTGCTGTGCAAAAATATTACTTTTCTTGGGATAATTTACAAATAGAGTGGAATG
TTAAAAATAACACAAAACAGTAGAGTAGGGTTGTCCCTTCTGCTTTGGGTTTAGACTTTGCTTCTGTCTTGATCTGCTGAAAAATACATACTAGATAAAA
TGATCAAAAGCAATGTCATCCATACATACATTTTCTGGTCCTACCCTGGAGGGGTGGTATTTCCAAACTCTTCATTTAGGTATGGTATCGTCCAAGGAGC
TCTTGGAAGAGATACTCTCTACAAAACATGTTTTTTATTTGTTTGTTTGCTTTCCTCTTCAATGGAGGGAAGAAAAAAGTTAACTTTTGGAGGGCTCTCC
TGCTAGGTGCCAGGCGATTGACATATCACCTTATCTAATTCCCTGGCAATCCTGCCACATAGATATTATTAACCTTATTTTATAGATGAGGACATCTAAG
CCCAGAGAGGTAAAGTCACATGCCTAAGGTAATAGACAAGATTCAGACAGGTTTTTCTGGCTACAACGTTGTTGCTTCTTTCACCACCTCTTGCTCTATC
TTTTCCCAAAAATCTATCCTWATTTTTCTTCATATTTCCTCTCCATAACAGTTAAATATTTGTAAATATGTGGGCAGTTGAGCTCTTTTTCACCAGAAAA
GACAGGAAGAGGAGCTGTCTTGCAGTTGGAGCCAACCTCTCTCCAAACTGCAGCCCTTCTCAGGCAAGGACTGATCCCTTTCTGTCCCCTTGTAGCTTAA
TTGCAATGCTTTCCCATTTTATTAGTTTCCAGATTCTGTGCCAAGTGCTTTAAAAGGCAGGTAGGGGAGAATTCTCTGCTTGCCTGGCAGCCTGCCATCA
CCCCCAGAATCTGTTGCTTGCTGTTTCAGAAAGGGATCAACATTGAAGGCATTTTTCTCAGCAGTGAAATTTACATATCAGAACCTTGCTGACTGAGGCA
GAAATGAGGGCTCTAGGGGCAGGAGTCTGGGAGTGGGGACAGAGTCTTTGTAGGAGGAGGGGGAGGGAAGAGCTTATTTTCTTACCCAGGAATAAAAACA
TTGTGAGTAATGAATAAAGTCCGAAAGCAGTAAATCTGGGACTCGAGAGTTAGGTGTGTAACGTGTCGGAGAACAATTTAAGCCTTCGCCTCGTCTGTAG
AGGTGAGGTATTCAGGCTGCCTTTCACAACCCAAATTTCATTAAATAGACTTTTAAGGGTTAGGATTACAAGAAGCCAAGTCCGSCTGGTTCATAATGAT
GATTTATGGCTGTGTTGTCGACTCCCTGACCCTTCTGTACAAGGGRATAGAGAAAATACATAATTTGTTGCTCATTCACTCTAAAATCTGTCAAGGCTGC
CCCAGAAGCCATGTGGTCCTGGAGTCATGTGTCTGCTAAATGGCTTCAGCCTGGCCCTCTCCTTAAAAATCTGCAATTGCTCTTCTGCAGTGGAAATTGG
TTTTAATAACAATAGAAATGATAAAATTATCTCAGTGTAGTCTGCTGTGGGTCTTTGAGCTTAAGAGTCAGAATACCTGGGCTCTACTCTTAACTCTGTC
ACTTACTGGCCTCAAATCCTTCAGAAAAGTCACTGTCTCCCAGAGCCTTAGTATCTCCATCTGTAGAATGGAATATCTTCTTCACAGAGAAGATTCAATG
AAACTACAGTACAAAATAAATGTAAGAGATGGCTGCTGTTAACATTATTATTAGGAATTTGAGGTACTGCAAAATGTTCTTTTCATCTCCTTGTTTTCCC
TTGAGTGAAGGAAACATTTTACTTTKCAATTTACTATCTTAAGACTGTGACACTAAAAATGGAAGTTTTAGAGATGGGACATTAGAGCTGAAAAGAATCC
CTGAATTGTAATCAAACCCCGTCTCCCTAAAGTAACTGGAGCAGAAAGGTGACTCATCTGAGATTAATCAGTAAATTCATAAAAGAGATGCTAATTTGCA
TTGGAAACTCACATGTTCTTTCTCAGCATCAAACAGGAAATCGTGTTGACTGATCCTCAGGCCACACCTGCTTAGAAACAGTTCCTTAATCTGTAGCAGT
GTCTGGTTCAGGGAACCAGAGAGCAATCTGAGGTCAGGGATTTTATCTGGGGCCTTGGTTCTGCTCCCTGCTTCTGGTGTCATCTCTGAGCAAGTAACTT
TCCTCTGCCATTGCTTATTACCTGTGCTTGGTTGGCAGGCTAGTGGTGGATGGTGGACGTAGCCCAGGAAAGTTGAGAATAAATGTCATTGCAGTTATGA
AGTCATAAATCAGAGTCTAGCACCCTCGTTTTGCAAATGCAGAAACCAATTTATCCCAAATTCACTAAACAAGTAGGGACTTGAACCTCGGCTACTTGAC
TCCTAGTTCAGTGCTCTTCCTCCTGCATAAAAAATCTCATATGACTTATAAATAAGGAAGAATAAAAAAGATTAAGAGAACATGATTGTGGTAATAAACA
TCTGGAACTTGTTTGCCTGTGAGGTTACATAGGGTAAATGTATAAACAGGTTCAAAAGGGGAATTAGATCATGAATGGTAGGAAAGAATGCTGGGCAGGG
AGTCAGTGCACCTGGGTTTAATCTTTAGATGGGAGCTAATTTGGACCTAAGTTTCTTCTAAATATAATGGTCCCTTTCATTAATGACTTGCCATGCTTCC
TGGAGTTTAATCTCTGCAACGTGTTATCAAAGCATTCTTGGTAATGTTGAGGGGATACTTCCAATTTTGTAATAAGGCAACTCTGAGGACTACCGTCCTG
CTCCCTTTCCTTCATTTGTTCCTTCAACTGATAGTCTTTGAGCATCTATGCAGGGTCCCATACTAGTTTTGCTCTCTCAGGAAACGGCTATGCCAAGATG
CTGGCTAGAGTGGCCTTTGCCTATGTTCCTCTAATACAGAATTGTACTCAATATGTTCTGGGAAAACAAAATGTAGCTCTTATATATAAAGCATTTATGA
ACACAGAGTCACTGTGTCAATGTTGGCAGTGATAATAGCTGTTCTCACTGCTGCACCTGTTTGTCCCTGGGCCCAGCTGGTGTTTCCTTCCTACGTGGTC
GTCCTCCCCCAGACTTTGGAGCCCTTGAGGACCTTGATCAGACCTCATGCCTTGATGCTTTCCTCCACTGTAAAAGAATATTGGGAGCCTTTGCAAAGGA
GTGTCCGGATATGCCAGACTATTGCTTCCCTTGTGGCTGTGCACATGCTCTCTTCCCTCTGAAAGGGCAAGTGTAACTCATCATCCTGCCCTGGGAGGAA
GTGTGAAGGGACTTTTGTGGTGAGTGATGAGTTGACCATCACTGTCTCTGGGCTGTGGTTACAAGCAGGAAGTGGCCATGGCTGGGCTGTGGAGTTAAGA
CAAAGRCAGCAGGGTGTGTGGTTGTGCACATCATAGGCATTTACCTTACAGAACATCAGCTGTCCCCCATCCTTAATGTAAATGATGTCACTATATCTAT
CTTGAGCATCAGGATTTCGTGACATAAAGAATATAAAAGCAATGTCTGGTATATAATAGGTAATCAGTAATTGGTGGATTATTTTCAGTAGTGATAAATC
TCCTCTAAGCATCATATCATAGATACAGTATGAAAATCAAGAAAGATTTGAGAAGGATCKTCAGGCTCAGAGAAGACAGCACAGGCTGACTGGAGGAAAT
TCACAAACACTGAAGGGCATCGTACTACAAGTTTCTTAGTTGTTAGACTGGTATTCTATTCATCACACTCTGCTTCTAAAAAGTAAAAGCATCACTTTCT
GTGATCCAGGTCATTTCCCATTCATGTTATCCTATTTGAACCAACAACTGCAAAGGTGAGCAGCCTCCTTTTATGGAGCAGAAGGCCAAAGCTTGGAGGA
TGTAGATTATTGCTGAAGGATACCAGATTGGTGGCAGAGTCTGAATTCCCCAGGACTTAACCATGGTGTGTCCAGCTCTTCTTACAGAAACTCTCACCAT
GGCCAATGTCAGCACAAGGCTGAGGCCCTTACTAGAGTCAGGTCATTGTTGGTGATCCTTTACCCCAAATCTCAGAATCTCGAGATTTGCTCAGACCCTG
TGACATCATAGCTACCCTTTACCTTGTCGTTGATTCTTCATTTAGTATTTCTTTTCTATAGTTAAGTTCTTGTCTCTCCCTTAAAAAAAAAGATACACAC
ACACACACACACACACACACATACACATATATACATATAAATATATTTGGTTGTATATTTTTGTTGTTACAAAGGGGCTTAAAACACCCAACTATATTAG
YGCTTTGATCTTTTCTTCTGTGCATATTTGTGTCTGTATATTTCATAAATAGAAAATTAGGACACTCCTTTGCAAATACTGAATATTCTCCTGTGTTGTT
GAATATCCGTTACGGCATCAGTGTTGATGATGAATCTTGATACTGCCTAATTCCCCTGTTGGATTCCTTTTAGATCATCACGGGGGAATTCTACCGGATC
TATTACCTGAAGAAGTCGCGGTCGACGATTCAGAACCCCTACGTGGCAGCACTCTATAAGCAAGTGGGCTGCTTCCTCTTTGGCTGTGCCATCAGCCAGT
CTTTCACAGACATTGCCAAAGTGTCCATAGGGCGCCTGCGTCCTCACTTCTTGAGTGTCTGCAACCCTGATTTCAGCCAGATCAACTGCTCTGAAGGCTA
CATTCAGAACTACAGATGCAGAGGTGATGACAGCAAAGTCCAGGAAGCCAGGTGAGACACCACCTCCGCATGGCCAGAGCCTGGACCCCTTTCATACAGT
GCAGTTCAGTGAGCACTTACTAGCTGGGCCCTGGTTTAGATGGGTGAATAAGGCATAGTTCCTATTCTTGAGGAACTCACAGTCAGATGATTGAGACAGA
TATGTAAATCAATACTTCCGATATAGCATGGGTAGGTACATTCATTCATTCATTCTTTTGTTTATTCATGAATTCATAGGTGCCTGCTATGTTCCAGGCA
TGGGTCCAAAGCACTACCAAGGATGCAAAAATGAACAGGGCCTAGTGCCTGCTCTCAAGGTTACAGTCTAGGGAGGGAAGACAGACAGACAAGTGTGTAT
CAGGGATGTGAATACGGCCCTTTCATGGCCCTCTCTTGCTCTTGCAGGAAGTCCTTCTTCTCTGGCCATGCCTCCTTCTCCATGTACACTATGCTGTATT
TGGTGGTAAGTACCCACCCTTTGATTTGAGCAGTGCTCAGTTCCAGCTTCGATCCCTTCTGATATGATAGCCCTCAAAATAGTTTAGGGGCATGCCATCA
CTGTGAAATCCTTGAAAAAGAGGTTAGCTAGAAAAGTTAGGTTTAATTCTGAGCGCTGCCACTGCCTTAGCAGAAGTTATTTTACTTTCTAGTTTTTTCC
CCCATTTTTCAAATAAAAATAGTATTTGCCATAGCTGCTTGATAAGCATTGTGGACACATTTTGGAATTTTAAAGTGATAMAGACACTTGTATTAGGTTG
GTGCAAGAGTAATTGAGGTTTTTGCCGTTACAAAAACCCCTGGACTACATTACTTAAATGGCAAAAACCACTTACTCTTGCACCACCCTAAATATAACAT
TTTAGGGTACAAACACTGTTTTCTGAAAATCTATGGTGGGAAAAGATTGCTAAGTAAGTCTCAGAAAATTAAAGTGAACTGCCAAAATGTACGTAACAGC
AGGACTGTTGCTCAAGCCCAAGCCTTCTGATAAATTTTTTTGCAACGTTCACCATGTCAGTCCTCTATATTCTACGGATGGAAGGGCTTTAAGGATCATC
ATTACCTAAGTATTTAGAATAATTTTGAGTTTTGCAAAATACTTCTGCTCCATGAGGACGCATGACTTCATAACAACACTGTGAAGTATAAAATCCATGC
CCCATTTCTCAAATCCACAGACCAAGGCCCAGAGAGGATAAGCAGCATGTTTGAGTTCCTTCAACCAGTAGTAGAACCATGATTTGATTCCCATGCTCTT
CTCATGGCCGTGTCTGCTCTGATTTCCTGGAGACGGTTGGGTAATGCAGGTGAAGTGCCCTGCTTGCCTCCAGCTGCTGGACAGACAGAGGGCTGGTCTG
TTTTTCTTTGTCAGTTACATGTGGGTTTCCCTGCCTTGCCTTTCCCCTTGAATGAGGTCCGTGTGTGCCAAGGCACTTCCTGCTTTCAGCCGCTTTGATA
GAATTCAGAGCGAGAAGGTGCTRAGAGGTCAGACATAGCTCAGAGGAGCACAAGCTGTTTGAAAAAAGAACATTTTGATTTCAACTTATTGAAAAAGCAC
AATTAGGAATTGGGAAAAACAGCAGAAAGTTTGTTTTATTTATTTATTTTTCCCCCCAATCCTTTCTAAGTTTAGAGGCCTCTAAACTAAGCCAACATTG
GCTTCCCATTACCGAGGATGCAGAGCTGAAAGATGAGCCCCAACTTATGACAACATTAAACATGGATTTTATGTGTTCATGAATAGCACTTCCCTCCATT
CTTCATCTTTTTTTTTGTTTTGCTCTTAGAAAGGAAAATTTAGCAAAGATATTTAGGTTCCTGCTCCCTTTGTGTATTTTACCCAGGGCTGGAAACAATT
TTAAAAATGTAATTTCGATGTTTTATAAAAGTGCTTAGAGGAACTGGGTATGTGTTCATTTTTTTCATATCCCTTCATTTTATTCCAAATGAAAAATACT
GGATTGTTTTGAAGCCAGCACTGTGCACTGTAGCCTTCACAGCTGCGCAGCAGGTGAAGATGCTGACACACTTTGGATGCCTTCTGTGTGCCAGGCACCA
TATCTACTTACTCTGTGACATTTGCTTCTCAGTGACCTGATGAGGTGCATTTTGATTATCCTATCCAATTTGAATCTAAGAAGTTCAGTAACAAAAGTTC
TACCATCAGTCAGAGGCAGAAAAGGTATTTGCAGGCCAGACTCCAGCATTGTTTTATGTTCTTTTCATTGTACTGTGCTACAAAACTCAAAACAAACAAA
AACCAGACCTCTTCAGGTTGAACTTAAGGAATATTACCTCTTAACCCTAACTTAAATTTTGCCTGAAGGAGACCTGTCTCCTTTTGCTTTGATGGTTGAG
ATGTCCCCTCCCTCCGGTCCCCAACTCCAATTACCTCCTTACCATCTAGAGATCTCTGTGGGGATGATGGGTGAGAGGTATATTTTGATTGAAGGTTTAT
TTGCATCCCTCAGAGGGAGGAAAAAGTTGTAGTGCTTCCATATTGCTGGAAGGAAGGAAGAGAAAGAGGGAAGGAAGAGAAAAGGGAGAGAGGAAAGGAA
GAGAGAGGGAGGGAGGAGAGCCTCCTTTGGCTGGATGGTGGCTTATACCTGTAATCTCGGCACTTAAGAGGCCAAGATAAGAGGATCCCTTGAGGCCAGC
AGTTTGAGACAAGTCTGGACAGCACAGGGAGACCCTGTCTCTTTAAAAAAATAAAAGAAGGAGAGCCTCCTTAATCCATCCTCTCCTCAGCATGTTATTA
TATCCCCCACCTCCCACCCCACTGTGCACATACGCTCTTCAGAACTCTTGCACAAACACACATTCAACACTCACAACTCACATATACAACATATATATAC
ACAGCTCTATTTTTAGCTCTAAGGTTATCTTGCCCTAAAACAACCTGTGAAGATAAGGGTCAAAAAGTGAGGACAGCACTCTCTGCCAGGGCATGTGTTT
ATGTGATATTACAGAGAAATCCCAGCTCTTGTAACATCTGATCTGCAAAACTTTCTTTGTTCTTCTTCTTCTTTTTTTTTTTTTTTTTTTTTTGAGACAG
AGTCTCATTCTGTCACTCAGGATGGAGCACAGTGGCACCATCTTGGCTCACTGCAACCTCTGCCTCTTGGACTCAGGTGATCCTTCCACCTCAGCCACCT
GAGTAGCTGGGACCACAGGCACATGCCACCACACCCAGCTAATTTTTGTATTTTTTTGTAGAGACGAGGCTTTGCCATGTTGGCCAGGCTGGTTTTGAAC
TCCTGGGCTCAAGCAATCCAACCACCTTGGCCTCCCAAAGTGCTGGGACTACAGATGTGAGCCTCCGTGCTAGGCCGATTTGCAAAAGTTTCTTTTTTTT
TTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCACAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCTGCCTCCCAGATTCAA
GCAATTCTCCTGCCTTAGACTCCCAAGTAGCTGGGATTACAGGTGTGTGGCACCACACCCAGCAAATTTTTGTATTTTTAATAGAGACAGGGTTTCACCA
TGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCACCCACCTCAG
CCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACTAGGTTTGGCTGATTTGCAAAACTTTCTAAAGAAAATTGAAAGGACACAATTTCGGCCCACCAGA
GGAGGTGGGAAACTCTGCAGTCAGTCCGAGAAGCCCTTAGACCCTCCCCCAGGGCTTTTATGTTGAGCTGCAGGAAGTTCTGGAGTTGGGCAARGAGACT
GGACTCCCCGGTGTACCCAGTGCTGTTTTTTTGTTCATGCAGCCTGTGATTCATAGCTTCCCTGGGGTGTTGGGGAGAATCACATTTGGGTCAGCCAGGT
TTAGCACTGACAGTTTTGTCTTTAGAATCAAGCAGATGTGGAATCAAATCTGGCTGTATCCATGACCAGCTCTGAAGCCATGAGTGGGTTACATAGCTTT
AGAGCCTCAGCATACTCATCTGGAAAGTGGAAGTGATCATGTCTATTTTGCAGAGTTGTTGCCACTTTTCCTCTCTGGACCCCACTTTCCCCATCTGTCA
GATGAAAGAGTGGGATGAGATGGCCTGTCTATTTATCTCTCAATCACAATGGCTCTATTTGAAAAAAGTTTGAACTGCCCTAAGTGCTAAAAAGGAAGAT
GGGGAGCCATCAAGACAAACTTAGGCCTACATTACCATCGAGTTCAGAGAATGGCAGACCGGAAGCACCAGCCAGCTCCACTCCAGGCTTTTCACAGCAG
CCACTTCTAGAGGCTCCATAACTTTAAGGGCACTTCATGTTAGGTCAATGAATAAATTTTGCCAAATGATGAGCTTGGAAAAACCATGCCCCAAACACCA
AATTATCCTGCACACAGAAGCTTAAGGGTGAGGTTAAGGCTTGTTAGAGATTAATGCAAGTTCTAATTAAAAAAAAAAAAACAAACCCACAGCATATATA
AGCACAAAGTATGCTTTATACCTCTGAGCCCTGGCCTGAACCCCAGAGGACCACGTCTGTATTGACCCTGCACCTCCATGGTCGGAGACTGAGGATGACA
TGCTATCTGGATAAAATGTCAACACCAGGGCAGACACCAATTCATGCAGCTGAATGTCTGCTGTGTTGTGCTGAGCCCTGCCCTTAAGGAACTCACCTGT
GCATCCAACATTGAGCATTTGGTATATGCTTAGTGAGGGACTATGATGCACCAAGCACCAGCTAGGAGTGGGAATGGGGAGATGGTTACAGCCCTTGCAT
AATTTAGTCTAGAGAAACAGTACACAATGATAATAGTCTGATACATTGTCCCTCAGGGGCAAGGGGATATGTAGGTTATATTACGGACTCTCAGAATTAT
GACCCCTAGGCTCACCTGGAGCAGAGAGTGGCAGTAGAGGTAGTTAGTCACATGAAGATAGAGGAGACTGGAAGAACTACATGTGTGAAGGTGAAAAGGA
GGAGGTGATTTGGAGAACTGCAGGTATTCAGTTCAGTACAGCTTGGATGGCTGCTAGGAACCAGGGAATGGAGGGCACGCTTGAGAGTGGAAAATACCTT
TGGGATCAGTCCCAGCTCCTCATTTTGCAGGTGCATTAGGCAGCCACTTTGTGTCAAGGCCTTTCCTTAGCTGCTGTTCTCCCCGCACCCCACCCCGAAA
TCTGCACCTTGCCCCCACCCACCTTCTTTAGAAGCCTTTCCTGACTACCCTGTTTAGAATGACAACCCCCTCCTCTGACACTGTTCTCCCTATGCCCCTT
TGCAGCCTTACGTCTCACCATCTGACATACTACATACTTACTTGCTTTTTTGTTTCTTCCAACTAAATTATAAATTCTGGCTGGGTGCAGTTGTTCATGC
CTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGAGAATTGCTTGAGCCCAGGAGTTCAGGATCAGCCTGGGCAACATAGTGAGACCCTGTCWATATATA
TATATATATATAAATGATTAAAAAAGGCTGTAAATTCCCCGGGGGAGAGATTTTTTGGTCTCTTCATTCACTACTATATCCTACTTCCCAAAATAATGCC
TGATACCTAGTAAGTGTGCAATAAATATTTGATAGATGAATGAATGAATGAATTTCAGGTCTTCTGACACTCGGGCCATCCGCCTTTCCATTCTGATCAG
AACTTTTTTTGTCTCCTCATCACGGACTTGATAGATTGCTAAGGGCCTGTGTAATGTAGGGAAAGTCTTTGCTCCCTCTTTGCTGAGCTCTCTCCCTATT
GACCCTTTACTGTGCTGTCCCAGGAGAACTGTTTGTGTGTCAGAGGGTTTGTTGGGTGCCAAGGAAATGGAAGTGGCTGTGCTCTGACAGCCCTTTCTCT
GGGCTGTGCTTGTTAGCCATTGAGGTTTTGTTCAGCATGTATGGCGCCCTGGAGCCTAGGGTCTGGTATGCCCACGAGGTGTACCCACAGATCCTGGGAG
CAGCTGTAGAAACTCCTTTGGGGAGCAAGATTGTTGTTTCCAAGGGGAATCTGTACCAGATGTTTTTCCTCTTTTTTCTCCCTATATCATTCACTCACCC
CACCACACATCCATCTATTTCTGAGTACCTCTTCTGTGACAGACCCTGTGTGAGTGCCTGGGGACACCAAAAGAGCTCATAATTTTGTGTGGAAAGCCAG
AGAAGTAAATAGTGGCCAAACAGCTGGATGCATTCTCTGCTTAGGGGTGGACTCAGGGGATGGAAGTGGCCCTCACCTCTGCTATGAGGTATAATGAGTC
AGCTCTTAGGCTCCCTTCAGCTTCAGATCAGGTCAGAGATTATTCCACTGTAACTCTTACAAAAGCTGTACGCTTGTGTTTCAAATGTGGAGGTTGATGG
AAGTGTGTGCAGGTGAATTAGAGGAGTCTGAAGTTCTAAATGTCCCCTGGAGGTTGTCCTTTGGTGTTTTGCCCTCAAACTGCCTCTTTTCTCCAAAGAC
AGAGGTCCAGTATAAAAAGACTAAGACTTTATGTGAAGCAGTAATTCCCTAAGGAAGCCAGGCGGTTCTGTGCTTAGAGCACAGACTCAGAAAGAGGCAA
ATATACTCAATGTACATCATATCTCTTGGTTACCTTGAGCAAGTACTGTGGCTTCTTTTAGCCTTGATTTCTTCATCTGTAGAATGGGCACAGTGGTATC
CACCTAACAGGATTATTGTGACAATTGCAGGTAATGTAATTTAAAGCACTACTGGCCCAGGGGCTACACCAATGCTCAGCAAAATGGTGGTTTTCTTTCC
TCCCTCTGATAGTGACAGAAGATAAGATAGGATTTTCTTCTAAAGGAAAAGTCAATCGAAAATTCTTTTGTCCTGAAAGTAGTTAAAGAACATTCCAGAG
AGATTCTACAATATGTTTGCAAGCTACCCACCAGGCACATGAACCAGAGCCCAGTGAAAGCCATAGAGGAAATTAGAGAAGGGAGAAAGTTTCTCACTGG
GTGTCAGTGGTCTGGACTGGCTTCCAGGAAGAGGGTAGGCAGGGACCTAAGGAAGGACAAAAGCCTTCTTTTCACTCTTAGCGGAGCTGTCCCAAGAGCA
ATGGAAATGAAGTGAGAGGACAGTACAGACCTGTTCCACCAGTATGCAAATCATGTAATGAAACACAAATGACTTAGCAAGAACGAATGTGACTCACACA
CTCATCTGACTCTGCTGGTTCAGACCAGAGGAACAGCCTCAAGTTCAGTCGGACCTTTCTAAGGAGGTTTTGTTGGAATTCCACAAGACCCTAGTTCTGA
AGGTAGGACAAAGAAGGAGAAGAGAACTGCACTGACAGAGTGAGTTCTACATGCCAGGGCCTTACATACATCATTTTGGGGTATGGGAAACAGACATACA
TCTTTCTTTTTCTCATATCCACAATCAGCAATTTTTTTTTTTTTTTTTAGCAACGGAAAGCGAAATCTTAATACAAGAAAAGGCCTTTAAGATTATATAC
AAGCTGTACGTAGCAGAGAAAAGGTTCCAATCTAGTTGCTGTGGCTGCAAATCACTTTCTGCGGTGTCATTGTGGGGCTTGGGAAGTAGTTTCAGAGGGC
TGATTCTCTAGCCCAGAGGCCTTCATGCAGATGAGGAAGTGAATGCAGATAAGCCAGAATGTCAGCAGTAGACTAGAAGAGGTCAAGATGATTAGACTTT
CAGSTTTTGTCCAGCTCTACTTACCCTTTCAGGGCACCTAGGACTTTACTAAAGCCCCTCTGGGTATTCTGATCTGGGAAAGTGTGTTTTGGTCTAGAAT
AGGGGGATGACATCATCTATCAGCAGGGTTTGACTTCCTTTCTTGAATAAGTTGTACCTGTCTTCTGTGGAGTGGGAATAAATGGAGCCTCCAGAGTTAC
TTGTCCCCAGGCTCCAGAATGTACTCACTGATCCTAGTGAGGCCCAAACCTGTGGCCTGGAGTGGCTTGTGTGAACTGGGTTCTACACTGGCAAAATCCA
ATCCATTTGACAGCAGTGAAATTGGAGTGGGATGGAGAAGGTCATCGTATCCTTTCATCAATCCCAAAGCCTGTTGCTACCGGCTTTTTTCTCATATCAG
ATGTAGCCACTGGATGGAAAGTCATTGTGCAATCTCATTCTCGACTCTTCTTTAAGTTTCACCAAAACTTACTTGTTTTGGTGAAATTGCCACAGTCATT
GAGTAAATGTCATTCACCAGGGCAGAAAGGTAACCTGGATTTCTGAAAAGTATCCTGAGTGCCCGTCCTGTGCCGGACAGGTTCCTTTCCATGTCATCTC
CTTTGATCCTGGCAACCCAGAGAAGGAGATAGTACTGTTCTACCTATTTTACAGAGAAGGAGACTGAGGCTTATAGAAGTAAACTGACCACCCACTTAGT
AAGTGACAGAGCCAGGACTGGAATCAGGGCTATTGTACCCCAAAATGCACTTTACTATTGCACTGCTTTCCCCAAAATCCCCTGCTGCAGACACCAGGAT
CAGTGCTGACCTTGAGGCATTCCTCCATAAATGTGTTAGTTAACTGATGGATATCAGGGAACAAGCTCTCATCTGCTTACTGTGATGTCTGACTGACTGC
TTCCCAAAGGCGTTCTTTTCCCTTGGCTCCCTACTCCTTTCTCATTCATAAGCACTCCCTTCCTTTCTGGAGCTATTCTGATGACTGGTCTCTTCCTCTC
TTCTCAAATTCTTATGGTGTATTTATTTTTTTCTTGTATTAAGCTCCAACCTTAAGTATCTGAATCAGGGGAAGGGGAGATGTGGGCTTTGTCCGGTTGG
GAAACACGCCCTTCCTCTGCCCCACCCTTGATTTCCAAGGCTTGTGATCTAAGCCTGCATGCAGGGGCAGGGGGAATGGTTGAAGGACTCGTAACAAGCA
TTTTCCGAGGACCTACAGATTTTTCAGCAAGGGAATTTAGAAAATCTTGCCACTCCAAATTAAGAAATGTGATTAAAGAATAAAATCACCTATTTGTTGA
GTAGTATTTCATGCTATCCTCTTGATCTACATTATCAACCAACCTGGACCACAGCCTCTAAGAGAGTGGTTGCTACACTTATTTTATATGTGAGAAAATG
GAGGCTCAGGGAGGTTTTCCTGATTAAAATCTGTGCTCTGTCTGTTATGCACCCCACCCTTGTCCACTGCCAAGAATAGCTGAGGGAAGGCCAAACATAC
TGAGTACACTGCAAGTGGATGATTCCTTGTTCTTGAATTTGCCATTGTCCTGAAGACTTGTGTTGAGTTGGAGCTAGACTAACACCGTCTTCATCCCCAT
TTCCAAAAGGAGGCATATTTTCATCCACTGGTAGGTCATTAAGGGAGTAGTCTTTGGCCTATATAGCTCCAATTCACTGACTTTGGTATTGCCTATAGTG
ACCCAGTCTTGCCTAGAGCTCTTGAAAAGCACTGAGAGTGTGGTACTCAGTGCTTTGCATGAAATCATTTAATTTTTCACCATTGCTTACAGTAATATTT
TCCAATTGTGATTCAAATAGGTAGATGTTCTCTGAAAATAGTGATTAAAGGTCAAATAAGTATTCTTTCCTTCAGGACTTCTCAGAGGCTTTAGTAATCT
TATAAGCATGATAATTGACAAAAATAAGGATTTAGTATAGAACATTCACCTATCTTTTTTGAAGAAACCCTTAATATTCAGTGGAATATGGTTTGGGAAA
GACTGGCCTCCAAAATAAGGTCTGGGTTGCTTAGTTTGACACTGAAAGCCCTTCGTGAACTAGGCCCTCCTTGTCTCTGCAGCCCTATTTCTCACCACTG
CTCACCCACCTTCCCCAACACCCTCTTCTCCAGCTATACTGAACTATTTGAAGTTTTGGGGAACTTCTGTGGAAGGCCTCTGAGCCACCCCTCTGCCTGG
AATATATATCCCCCACTCCTGCCCCCTTAAACCCAGCAAATACTCATTCACCTTTAGGATTCTGGTCAAGTATCCCTTCCAAATAGTAATTGACCCCAGC
CTCTAACTTCTTTCATAGCTCCTATAAAACACATTAGTATACTTATTTATTTTCTTGTATCCCTCAACTGTCTGCTCTATATGTCAGGATTTATAAATCC
TCATTTTTCTTTGTCTTTAGCACTTTTCATAGTGCCTAGCTTTTTTCTTTTTTTTTAAATTTAATTTAACGTATTTATTTATTTATTTATTTTGCCTAGT
ACCACAGATTTGGTCTTTTAGATTATCTTTAGAATAATTTTTTCCCCACATCTTTTTCGGATGTCCATGGCAATCTAATAGTATTTACATATCAACTTCT
GAATTTAAAAGTTTAGTGTTCTAAGTAAAATTCTCCCTCTCTGTCTCTTCAAATTGTCCTTTACCTCCTTTATTCCATAAAGGCTCTATGCTATCTTCTT
TTACATTTTTAACTGGTTATTATTTATATATGAGAAAACCATTGTTTTTATCCCTTGTTTAGCAGGCAACGGCCTCAGTGTGATCTTTTTTGTCAGTATT
CTTATTTTTTCCTCTTAAGTTTTTCCAATAATACATTTTTATAATTTCAAAATGATTATAMAGTAGTCTGCTGTCTTCCATGTCTGCTTATTTGAAATAG
TGTTCCACGTAGTTGAGGATTCAGTCCTAGACACTTATGGCTAAGAATGATTCTGGGATCTTCCACTCTTCTGTCTCATCAAGACTGGCCACTGGCTTGC
TCTTTTCTTGCCACCGAAGGAAGGTGTCCATCTGTCCCAGGAAGGACAAACTCATGTCTTCAGCACTGCCACAGGTCTATCTTTAGGCCATCAGCCACCT
CCCCTCCGCTCTCTTCCCTTCTCYTGCCTCTCCAAGTGCTTTGATTTGTAGTCGGAAGTTCCTCTTGTCCACTTGCCTCTTCCCCCTCATTTCCCAAGTT
CCCACAGGAACCTGGGAATAGGTTGTGCCCAGAGGTTAGAACGGAAACTGCAGCAAGATAACTCTGAGGGGACAATGCCCMGTTGACGTCATTTCAACTA
CTTTGCTTCAGCTAGAGGTGGTTTTTTTTTTAATCTTCCATTTTTCTTCAGGTTACTCTTCTACTCCACCCTGTCTAGTGTCTGTCAACTTCTATTTGAA
AATTCCCTGGCATTGTCTCGTTGGTTTATTGTTTCCTTATATTCTCATTCAATATCCATAGTTCCAAGTGGTGACTTAGAAATGTGTCCTTGATAGAGTT
GCTTTCTTCTGAAGCAGAAGCATCTCATTGGGGATATAATAACTTCCTCTTATCATTGCATATTTAATTTCCGTGCTGACACCAGGTAGTGTAGGGATTA
TATAGCCGTAATCCCCAGGGAAATACACAAATGTGTTAAGTAAGTTGTCATCAATTGTAAAAAAAGAAACCTTTACAAGCCCTGGTTACTGCTCTTTAAT
TATTAGTTTCAGTCAAGAGGAAGATAAAAGGAAACTATCATTTATTACGTTCCTACTATGTGGCAGTGTGCTAAGGCCATTTACATATATTATATTGCTC
AGCTTTCCCTGGTTTATCTCCCTAGATAAACTCTATTTTTCCTATTTTTTAGTGTGAGAACTAAGACTCAGCATTTATTTATTTATTTACTTACTTACTT
ACTTATTTATTTTTTTGAGGCAGAGTCTCACTCTGTTGCCCAGACCGAACTGCAGTGGTGCGATCTCGGCTCACTGCGACCTCCGCCTCCTGGGTTCAAG
TGATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGCACATGCCATCACACCCAGATAATTTTTGTATTTTTATTACAGATGAGGTTTCACTAT
GTTGGCCAGACTGGTCTCAAACACCTGACCTCAGGTGATCTGCCCACCTCAGCCACACGAAGTGCTGGGATTACAGACGTGAGCCACCGTGCCTAGCCAG
GCTCAGCATTTAAATAACTGGCTTGAGGTCATGTTCAAATTGCTGTATCTACAACATGCCACCCAAGGTCCAGATGATCCCTGTTCGTAGAAATGTAGTG
TGTGTCACCTGGGGTTATAGTGCATGTGAGTGGGGAGTCACTTAATGTCTGTTCCTTTTTGTCTCCTTTCTCCAGCTATAYCTGCAGGCCCGCTTCACTT
GGCGAGGAGCCCGCCTGCTCCGGCCCCTCCTGCAGTTCACCTTGATCATGATGGCCTTCTACACGGGACTGTCTCGCGTATCAGACCACAAGCACCATCC
CAGTGATGTTCTGGCAGGATTTGCTCAAGGAGCCCTGGTGGCCTGCTGCATAGTAAGTAGCATCTTGTCCTCAATATGCAAGTGGAGCCCTGGACTGTTG
CTTGTTAAATGTTTCCAGCTCAGTGACTAAAGCTAGAGAGCCCTCGTTCCTGTCCTCTGCTTGGTGTCTGAAGAGTCACCTGGCCTTAGGCCTTAGGCCT
TAGGACTCCTTCAGTAAAATGAGAATAATTCCTGCTTCTTCCCAGCCTGTGAGTTTTGATCTGATAGGGTCTGTAAATCTCTGTAAATACAGAGGTTTTG
GGCTCGTAGAATGTTGCAATTGGAAGAGAGCTGAGATATTGTCCAACTTGCTCATGTTATAGATGAGGAAATTTAGGGAAGAAACTTACCCAAGGTCATG
TGTCAGCAGGTCATGCTTAGTGTCATGCTAAGTCTGTTGACCTAGTAGCAAGATCTAAGTCTCCTGACTCGAGTGCTCACATGCTGTTTTGGTGGACACA
GTACGCAATGGGACTTCTCCGCTTCTTGGAAAATGCCTCCTCTTCCCTCTGTGACCTTGGGAGTGACTCACACAGACCCTAAACTCAGTGTTCATTGGAG
AAGAGGAGGTTATCTGAAGGCTGAGCCCTCTCTCAGCCTGAGGCCCTCGTACATCGAGTCACAGACTTCCTAGGGATAACTTGGGATGGACCACATACTG
ATTTGCCCCAAATGAATGGGTTACCTTTTCACATACTTCATCTCTGACTCCAGGTGAAGGTGGGAGAAGGCATTGCACTTCTCTGAGCCTCCATCTGTAG
GCACTGCTTTTCCTGCCTGCTAAGAGTTTTGAGGGGCTTATTCAGCGAACATGACTGAGCACCTACTTTGATATTGTGACTTCCTGGGCCCTACTGAGGG
GAGCTCACCCCAGCCCAGCAGGAATCCCAGAGTACAATAATGGCTGGATATTTAAGCACCACACATGTAGGTTGTATTGTTGTTAGTATTATCCTTGCTC
ATTCACAGTAAGAATTATGAACAATAGAGAGATCTAAACCAGCTTCTTATCCTTTCCTGGTTTCTGAGCCTGGTTGCAGGCTTATGTCTCACTATGCAGC
CTCTCCCCAGCTCCTCTGTAACAGCACTTAACACTCTGGATTGAAATTGTCGATGGGTGTCTTCTTTTAGGCTGTAAGTTCTTGGGGGCAGGGACCATGT
GTAATATATATGTTACTCTCCCTATCTTATCAAGGCCTCTCAGGGATTCTAGCTCAGACTAAGCAAATGTGTGCCTAACAAGCAAAAAGCCAGAATCAAT
GAGTTGATCTAACCTTTCTTGAGAACACTGTAGGAAGTTATTTCTTGAAGGTATAGGAATGAATAAGGCTCAGCCCTCCCAAGGAAATTCCATCCTTGCT
CCTCTCACAGCCAGGCCAAGCACAGGAGCTTAATGCTGTGGGGGCTGTCATAGTGACATGTGTAGGGGGCTTCAGCAGGCAGGGAAGCACCTGACTCCAT
GTGCAGGGGTCAAGAAGAGGGAGAAGGAGTTGCAGCAATCAGAGTGGGCACCACGAAGAAAGCAGTGTGTGAACTGCCTGCAGCCTTTGACATGGGAATC
CCAGCCTACTGGACTGGCTGTTTTAATGGCTTTCTCCCTTGCTTTCTTTTTCTTTTTTCTTTTTAAAAGTAAAGGCCAGAAGGGAGAGAACCTGGGGGAG
CAAACCGTTAATGAGAGCAGCTGTCACTGACCGGCTTGTTCTCTGGTGCCTGGCCCTTTAATGTGAGGTGACAGTGGGGGATGGGTGTTTGCACTGAAGG
GTAACCCTTTGCTGACTGTGCCCTTCTGAGCTTTGCTCTCAGCAGGAGGACAGCCCGYGGGGGCCTGCTGTTGTGGTTCCTTCTTGGCGCCACTGCCCTA
ATTGGAGTCCCCTGCACCCCCAGTTAAAAAAATTAAAAGGTTGGGGGATCCTTACTAGCCTTCCTCTCTTTTATATCCTAAAACATGGGCCATAAGCAAT
TAGACAGAGCGTTCGGGAGGACTATGGCTTATTTCCAAGAAGTGAAATGAAGGTTCTGACTTGTGTCCTGTTTGGCTCTCGCTGACTGTAGCACAGTATA
GGAATTTGATCCTAGCGTTTACAAAGCACCTACTCTCTGCTGGTACCATTCTGATACTTTACCCATTGTCTTCCTTTTTTTTTTTTTTTTTTTTTGAGAG
TCTCGCTCTCTCACCCAGGCTAGAGTGCAATGGCACGATCTCGGCTCACTGCAACCTCTGCCTCTCAGGTTGAAGATTCTTCCCCCTCAGCCTCCCAAGT
AGCTGGGATTACAGGCACCCACCGTCATGCCTGGCTAATTTTTGTATTTCTGTAGAGATGGGGTTTCACTGTGTTGGCCAGGCTGGTCTTGAACTCCTGA
CCTCAGGTGATCCGCCCGCCTCAGCCTCCAAAAGTGCTGGGTTTACAGGTGTGAGCCACTGTGCCCAGCTGCCCACTGTCTTCTTTTAGTCACATTAAGC
CATTGTACTACAGCCATTTTACAGAAGTAACTAGCTCAGAGAGGTAACTTAAGTCATCCAGGGTCAGAGAGCTAATAGACAGCTGCACCACGATTCTCAT
GGACTCAAAGCTATGCCCTCTGCACTCTGCAAGGAGAAGGGGTCCCTGAAGCTGAAGGCCCTGCAGTTAACCCGAAACAGAAGCTCCATAGTTAGCTGCT
TAAAGAGTATCATTTAATTGTGTCACGGAGTCCTTCCTAACCCTTTGGGTGGATCCAGTTATTGCTTTGAGTTTGAAAGCCTGATTTACAATGTAAAGAT
GGTTTGGAAAGGGGTGATAAATCTCTTTCCCTGCCTTTTACTCACTCACCTGTGAACATGCAAGAACAGGGACTCAATCTTACYTATCATTTTTCTCCAA
ATGCCTGACACCCAGCCTTGTGCTCAGTGGGACCTCATGGTCCAGAATGGCTTGGAATCGCAGCACTGAGAGATTCATTTCATTGAAGCCATCTGAGAGG
CCAGGACAGGGAAGTGCCTGGAAGCTGTGGCTACTGAGAATAAAAGTTTGGAAATGTTCAGCTGGGAGGAAAGAAGGTAGTGTCTTTTCCAGCCGTAAGC
TCCCAGGATTCTGTTGTCCTGGGTTTGATTGTGAGGGAGACAGAAGCAAAGCTCAGGACCCTGGATTGAGGAGAGATGGGTAGATCTGTGAGGAGGTGTG
GGGAACCAGAGACCATGTGATGAAGGCACCAGGTGCCTGGGAGAGGGAACTATGAGTAGGATGACAGGCATCTGCCTCATGGGTTTTGCAGCTTTATCAG
GGTTGTGCAATGTAGCTGTCACGTGCCAAGCAGGAGTCTGTGACCTCTGCTCTGCTTGTGCCACATGACAGAACTCTTCCCCACGAATCAGGGCCGCTGT
CCCAGGGAATGCCAGGAAGGASCAAAGTTCTCTTCTTACTCACAACTATGGCTGTATTGAATGGTTTTTGAAACACAGAGACATCACCTGAGGTTAAGAG
GATTGATAAAAAAGCAGCATGTATGGCACAAAGGCCACCACTTGAGGTGCCAAGAAACACAGAATCCATTTTCCAGTCTGCCAGATAACCTCCTGAGCCA
AGCCTTTAYGGACTCCCTGTTAATTGAGTTGTAATCTTCGCTGACATTTGCTGAGAGCCCAAGCACTCAGAGAGAAGGTAGCAAAGCTGGAGTTGACCCC
AGACAGCCTGACACAGAGCTGGCACTCCAAGACCCAGGCTTTGGCAGGTCTCCTCTCATCTCTCCACCCCTTCACCTCCCRGCATGTCAAACATTTCAAT
ATTTTCCAACACCTGAGTTTCTGTATTAGATACCTGTCCCCTTTGATGGAACACAGTTCCAGTGTCACCTCATCTCTGATGAAACCTTCTGTATTAGCTG
CCTCTGGCTGCTGTAACAAATTACCACAAATTTAGTGGCTTAAAAGAATGCAAGTTTCTTTTCTTACAGTTCTGGAAGTTGGGAGTTGGAAAAGGGTCTC
ACTGAGCTAAAATCAAGGTGGAACACATTCCATCTAGAGGATCTAAGGGGAGATCTGTTTTCTTGCTTTTTCTAGCTTTCTGGAGCTACCTGAGTTCCTT
GACTCATGGCCCCATTCTCCACTTTCAAAGCTAGCAGCATAGAATCTTCACTTCTCCCTCTCTCTCTCACACACACATATACTTTCTCTGGCCTTTGCAT
CCATTGTCACACCTTCTTCTGTGACTTTTGTCCTTTTGCCTCCCTCTTTTACAGATGCTGGGACCACCTTGATAACCCAGGATGATCTCTCCATCTCAAG
ATCTTAACTTAATCTCATTTTATCATGTAGCATCATTCATTGCTTCTGGGACTTAGGATGCGGGCATCTTTGGGGGACATTGTTCAGCTTTCCACAACTT
CCCCAGTCCCTGGAGACAGTATTGTCTCACTTCCTTCCAGTCCCCCATGGCCTTTTGCACTTTCTTCCTACCATGGCTTTAGGCCTCATCTACTCATGGC
CTGCTCATATGTCTGTCTCTTCAGCTAGATTGTGGGTGCCTTAATAGCAGAATCCATGGCTTAACCTTCTGATTATTTATTCTCGGTATGTAGTACAGCA
GCTGACACAATAGGTGCTTCATCAGCATTGGGTAAATGGTGAATGATGAATTAGCTTGTGGCTTCAGGCCAGACACTTCCCTTCTGGGCCTAGTTTCCTC
ACCTGTGAATTGAAGCTGGAGGCCTTGTAGCTCCATGACCTTTGTGCACAGACATTCTATGGCACAGCTGACTTTGTAGTAACTGACTGAGGTACAGTGC
ATTAACCCTAGAATGCTGGTTCCATAACTGCAGAGCCTTAGGCAACAGGCATGACAGCCGAGAACTTTTACCTGGGTCTGTTGAGGGTAGATCCTGTCAC
AACAGGCAGACTTGTCTAGACAAAAATCACATGTCAAATGGAAGTCTGGTTTCCTCCTCCATTGCTTACTAATTGAATGCTTTCCAGAAAAGGAAGACAA
TGGAAGCCAGCACAGACAGAAAACCTATACAGTGTCATGAACTCAACACAAAGACACAAGCACTTAGGGTCGGATAGGCCTGCCTGCACACCTTCAGAGA
TCTGGACAGAGGTACACAGGACAAAGGAGAAGGCCACAGCCCAGATAGACCATGAGGTGCATGGGCAGACCCAATCGTACTCAGAACCACAGACACACAT
AAACAGACAGACGAATAAAAAAAAAACACAGGCTCATATTGGCTCTCCCAGCCCCCTCCCGCCTACACACTCACTAAGTTACCCCTACCAAAGATGTGAG
CTTTACAGTTGGACTCACACAGGGACTAGGACGAAGGAACAGACATCGGTTCATTTCCTGTCTGGTGACAACTTGCATATCTGGTCACCTCCTCCCTGAC
CCTCTAACAGATGGCAAATTAGGGGCCCCTGGGAGGGGTCAGGGGAGGGCCCGGCTGCCATTGCTGTGGGTTCAGCAGAGGAAGCAGCTGCTCATGGATT
TCGTAAATACACAGCAGAGTCTTTCCTGGTTTTCCTCTTCCCGGGGGTGTGGCTCCGCTTGCCGTTGCTCTTTTGTGTGCTGCTATCTTCCTCCAGATGT
AGGGAAGGGCGAGGGCGTTCTTTGTCTCTGCCCCAGTGAGGTGACCTTGGGAAAAGACACCAGCAAGAATGCCAGTGTGAAGAAGAGTTCAGCGATGACA
ACCCCTGCAAAAGGAAACTGCAGTGCAGGGAGAGGCCAGGACACGCCCAAGGACACATAGTAGCAGAGTAGGAACCAAATCCCCAGTTTCTTGATTCCAT
CTAAAGGGCTAAACAGTAAATTCCAAGCATGCTTAGCCATGGATTTGCAAGGCCTCTTCCTTCTCTAACAGGAGAGAGTCCCATCTATTCCCTTCTGATT
TACTCCAGGGCTGCCTGGGCACAGGGGAATGGATGAAATGAGCTCCCAAACCTCTTCTGGCCCTGCAGAAGTCTARCTCTTTGCCCAGTAATGTGACCTT
GAGGTAATCTGATCTTGCCACTGCTGGCCCCCACTCTTAGGCAGGCAGAAACATGGATGTGGGAGAGAGAAGGAAGCAAAGAAATAAACTTTGGCCGCCA
ATAGATAACGACACTATCTTTGTAGTACTCTACAACTGTTCAAAATACAGTTGACCTTGAACAACATGGGGACTAGAGGTTCCGACCTCCAGCACAATAA
AAAGTCCAAATAGAACTTTTGACTCCCTCAAAACTTAAAACTACTAACAGCCTAATGTTGATTGGAAGCCTTACTGATAACATAAACAGTCAATTAACAT
ATGTTTTGTATGTTTTATGTATTATATACAGTATTCTTACAATAAAGTAAGCTAGAGAAAAGAAAATATTATCAAGAAAATTATAAGGAAGAGGAAATAT
ATTTACTATACATTAGGTGGAAGTGATCACCATAAAAGTCTTCATGCTGGTTGTTTCCATGTTGAGTAGGCTCACGAGGAGGAAGAAGAGGAGGGGTTGG
TCTTGCTGTCTCAGGGTTGGCAGAAGCAGAAGAAAATTTGTGTTTAAGTGGACCCATGCAGTTCAAGCTCATGTTATTCAAGGATCAACTGTACTTATAA
AACTTCCTTTCTTGTTCCCCTGCTAAGATGGATGAGCTGACGAAGCAGAGGTTCAGAGAGGAAGTTATATTCCTGCCACTTGCTAGGTAGGCTGTCAGGG
CAAGTCACTTCACCTCTCAGCCACCTTTTCCAATCCCATGAGGTTGGGATGATAATGCCTAACATGATTTTTGGATTGAGGATTCAGAGAATTAAAGATA
CATCATGCTTGGCACATGCAACATATTGATTGTGAATTGTGCGTTAAGTACTATGCTTTGTTTAAAGATTCAGAGCTAAAAGGAGTTGGTCCTTAAAGAG
CTTATCTAGTGCAGTAGCTTTCCAAGACTTGACCGCCATCTATAATAAGAAATACACTTTATATCATAACCCAATAGAGGCACCCACACGTAACTAAAAC
AAATATTTCACAAAATAAGACTTGCCCTTACTGTGTGAGAAATTCTGATATTTTCTATTAACCTTCAAAAATGCTGGTGGTAACCACCTAGTTAGTTGAT
TTTGTAGCTTGCTAATGGCTTGAGAATGATCTAGTAGGAATAGACATGTAAACAGACAAGTATGATAGAAGGGCACGGCTGCTGGGATGGGATACACTAC
TGAGGACAGTGGGGTTACAAGAGAAGGGGTGATTAATTCTTCTTGAGGGTGTTGGAAGACTAGAAAGAATTTTTAGAGTAGGTAATTATTTAAAAATGAA
TGGTCATTTGCTGTAAGATACAAAAGATAAGGAAGGGAATTCCACGCAGAAGGAATACCATGAAGACATGGCGATGGGTGAGAACATGATATGTTTTGTG
ACCCTAGAAATGCAGAACAACRAAACTTGGGGGATAATGGGGAGAGGTGACCTCAATGAATAGTAGCCTCATTCTCCCTTTCAGCTTCAAAATTGGATGG
TTTCTGGGAATGGGGTCCCCTGCCTTTGTTGAGCCTTGGTCATCTTTGGGTACTATGTTCCTAAGCTCCAGCTCCTACTGCATTTAGCACCCCATAGACA
GAGCTGTCAGTCCCCTGGGTACTCCTTACCAGACACCCTCCCTAATAGCCTATGAATATTTTCCTGGAAGGTTCCTTGGCATAGATTCCTGTTCTCCATC
AGTATTGCCCACAACTTTCTTTAAAGGGCGGGGGCGGGTCTTCCTATGTTGCCCAGGCTGGCCTTAAACTCTTGGGCTCAAGCCGTCCTCCCACTTCAAC
TTCCTGACTAGCTGGGACCACAGGCACACAGCAGCATGCTCCGCAAAATTGCTCTCAACTTTCTTTCCTCCTCTAAACCCTCTTTGTTCATTTTGTGGGA
CTACTTTTCTTCACATTCCTCAATAGCAGTGATGATGTGAATAGTCCTTCATAAGGCTGGGTGCGTAGTGGCTTACACCTGTAATCCCAGCGCTTTAGGA
GGCCAAGGTGGGTGGATCACTTGACTTCAGAAGTTCAAGACCAGGCCAGCCAACATCCCGTCTCTACTAAAAAAATACAAAAATTGGCCAGGTGCAGTGG
TGCACACCTGTAATCCCAGCTACTCGGAGGCTGAGGCACAAGAATACTTGGACTGGGGAGGTGGAGGCTGCAGTGAGTGGAGATCGTGCACTGCACTCCA
GCCTGAGCGACAGAGCAAGACTCTGTCTCAAAATAAATAACTGAATGAATGAATGAGTAGTTCTTCATAGCTACAAAGTGTTTTCACATATATTCCATGT
AAGCCTTACAGGAACCACAGGTAGGTGGATTTTTTTTGGTTTTTTTTGGAGATGGAGTTTCACTCTTGTTGCAGGCTGGAGTGCAATCACAGCTCACCAC
AACCTCCATCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGCGTGTGCAATCATGCCCAGCTAATTTTTGTATTTT
TAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCCACCTGAAGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGC
TGTGAGCCACCGCGGCCAGCCGGTGGATTTTAAAAATAACATTTCCACACAAATACAGGGCAGACCCATCATCTGCAACTATAAAACCTTTTAATCTTGT
ATAAATTCAAGACAAGTGTAACAGCTTGGATCACACACCAGTAGAAATTTTGGGACTATATTCTGCTGTCTGATTTCCAGTGTCACACTCTTTTCCACCT
CATCATTTTCCCTCTCAGTTATACTAGGAAGTCACTCAACAGAAATGCTCACAAATTCCCAGTGCCAAAAGCCGCTGAAAGCCCTTTATTGAGGTCAAAA
AATAATGATTGCAGTTGGATAATCCCATCTAGTTAAAAAAAAAAYGGCTGCCAAAGATGGCTTTTCTTTAGATAGCACTTACTGTACTTAGGGCATGAGG
GTGAGCCAGGTCCCAAGGCTTTCTCCTCCAAAGAGGGTTATTCCTTCCTTAATCCATGAGATTGTTCAGTATGGTAGACCAGAAAGCTAAAAGGAAATCC
CAGGGCCAAATCACATGGGAATGCATGCAAAAGGAGCAACAGCCATGGTCTTTACGCTCACATGGTGGAGCTCTATTAAGAGCTACAGTTTTTGAACTCT
GAAAACAGGGATGACTCAACACRATCCATGCCCTTGAGTAGCTAGCTCAGTCTAGAAGGGGAAATATGACACAGCATTTAAAGCGTCACGTATCAAAGCC
TACGGCCTAACACTAAGATGGAAGGTTATTAAAGTTCAATATGGGTACCAAAGAGAGAAGAGAAGGGTGGTTCAAGAAAGGTAATGTTGTGCCCAGTGTA
GATTGTCTAAGACACACAGCCATGCAATGGCAGATCTAGGATTTGAGCCCATCTGTTCATCTCCACAGATTGTCCACTAATGGCTCTTTTAACTGTACTC
TGGATAACAAATAACTGTAGTGTTTGCTAAAATGCAGATTCCAGATTCTCAGTAGGTCTTAGATGGGCCCAGGAATCTGCTATTTCAGGAAGCTCCCAGG
TGATTCTGAAACAGATGGTTTGAGGACAACACTTTAAGAAATACCAGAATAGATGATGCTCAATTTTCTTGAGGTTCTAAGATTCTAAAATTCTTCTGCT
TTTATAGTTATCTACCCTTTGCTAGCATTTTAGCTCAATGTGTTACGTAAGGATGGGATTCCTATTTTCAAGGAGTTCACTTACACTCAGGGACCCTAGG
AACATTTAAAGGATAATTTTATTGTCATAATCTGCCCTTAACAAAATTAACAAAATGACCCTCAAAATTTGCTGATTCAGCCATTCCTAGCAATGAAAGG
AGGAACCTGGCTACCTACCAGACTTCTTATTTCTGGTGTACTTGGTTCTTGGTGACCTCTAGGCAGGCAGCACCCCAGCAGGGCTGGACTGTGTGTGCTC
CCTGGAAGGCTGACATTTCCGGAGTGTGAATGCTGGCAGTAAGACATCGGAAGCATCTTCCTCTTTGAGTGTGCCAACTCTTGGCCAAAGATAGCTCTAG
AAATTGTAAGAACTTTGAGAGCAGATTCTGTTTGTCCTATAGAAAACTCCCATCAGCATATTGCCTCTACATCCAGCTAGAATGTGTCAGATTTCACATG
TTCATTCATAGTCTCAACCACTCTTTTTTCCCCCCTCTCTTTTTATCTTTTTCCAGTTTTTTGTTTGTTTTATCTCTTCATCACGGTGAATGGGGTTCTT
ACAGCTTAGAGTTGTCTTGTTTGTGTGTACTCATGCTCTTGAAGGAAGGGGCTACATTGTCCACAGTGCTTGGGTAAATTAGATCATATTCCACCCTGGG
ATCACAGAACAGTTTACTCCTTTTGACTCAGGAGGAGGTCAGAATCACTTCCCCACAGATAAATCCATAGAAACAGAAAGTAGATTGATGGTTACCAGGG
GCTGGGGAGAGAAGGGAATGGGACATGACTGCTTAAAGTTTATGGAGTTTTATTTTGGGGTAATGAAATGTCTTGGAATTAGATAAAAGTGATGGTGGTA
CAACACTATACAGTACTACATGCCACTGGCGTGGGGGGCAATCACTCCCCCAAGACAATGTCACAGGCATAGGAAAGCAGAGTTATATATATTTCTTTCC
TAGCATAGTTATCAAAATTTTAAGAGTTTTTATGGGAATAAGTGCAAAGATTTCTAGAGTTGAAAACAGAACTAGAAAGAAAAACATTGCCTCCCTCGCA
CACATACCCACCCCAAACATATAACCTCTATCAGCTGCAGTCCTGTCCTCAACATTTCAAAATCCATCTCTTCTTCTTTGTCTTTACTGTATAGGTGTTG
TTCAGGACTCATCCTCCCCTAGACTCTGTAATCCCTGCCTCCAGGCTCACTGCATGCTTTTTGACTCCGTCTCCATTTTAGTTACCAACATGATTTTTTT
TTTTTTTTTTTTTTGTCTGAGACAGAGTCTCGCTGTCTCGCCCAGGCTGGAGTGCAATGGCACCATCTTGGCTCACTGAAACCTCCGCCTCCCAGGTCCA
AGTGATTCTTCCACCTCAGCCTCCCGAGTAGCTGGGATTATAGGCACCCACCATCATGCCCACCTAATTTTTGTACTTTTGTAGAGAGGGGGTTTCACCA
TGTTGGCCAGGCTGGTCTCTAACTCCTGACCTCAGATGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTTTAGGCGTGAGCCACTGCACCTGACCT
CCAACATGATCTTAATGCAGGTCTTTCCAACATGTTGCTTCCCTGCTTTCACCTTGACAATGATTCCTAGGGCCAAAAGAATGAGATCTGAACTTTTAAC
ATGTCCCAAGACGCTTTTCAATATCTAGTCCTCTCCTCTCCAGCCTCTTTGACTGCTCCGCCTTAGATATACTGAGCTTCCTGCAGCTCCTGGATGTGCT
GTACTCCCTTTCTCCTGTACCTTTGCACACACTATTCCCTTTGCCTATAACATCCTAGCATTCACTGCCTGGTTAACTCCTCCTTATCCTTCAAAGCTAA
GATCAAATAGACAACCTTTAGGAGAAGCCTTCTAAGGCCTGCTTCCCACTCCCCTTCAGTCTGGGTTAAATGCCACATTCTCTGTGCTTCCTCAACACCC
TTGCTTCCCTCCATCATAATCCTTAATATGCTGTATTGTGGTCATCTGTTTACCTGGCTGTCTAACTCATTGGCCTATAAACTCCTTGAGGGTAAAAGAC
TGTCTTATATATATTCATCTTCATATTTTTGGAGTTTAACACATAGCAGGAATCCAATAAGTATTTATTGATTGCATTCATTCATTTTCCAAAAAAAGAG
TAATTTATAAAATTCAAAGAATTGGAGAAACGGAATTGAAAACAAATGTTCTGCGCATCGTAACTTAGATCTCTTCTCTGTGCTTAGGGTATAGTTTTTC
TTGTTTGTTGGAACTGTATTTATTGTCCAGTGTGTCCTTTCACACAGCAGAGATCTGTGGAGTAGGATTGTGGGCTGGCAGTGGGTTTATCCCACAGACC
TAAGACAGCTACTTAATTTGTATAGACCCTTCCCAGCCTGGGCCTCTGGGTTTTCCTTCTGGGTGGAGATCATCTTCTGTAGGAAATGGAACTGCTTCAA
GCCAAGAAGCTTTTACTTTTACTAGGTCTTTTTGTGTCCTGCTGTTCAAATATTAGGAAGACTGAACCCTGTTTCGGTCTTGACAGTATTACGTTTCGTG
ATCCCAAAAAAAAGTGTTTGTGTAACCTCAAGTCATGCTGAAAGTGAAATACAGCTTAAAGTGGGATTCTGCTGGACCTGACTCAACTTTTCACCTCACC
GCTTGGCTCCGTGCAGGCAGTATTTGAGTATGTGGTTCCCCCTCAAGTCTGTAGGAGTTGTATTGTCAATAAAGTCCAAGGCCAGAGTGCTTGCTTTCTA
GTAAGTAGAGAGAATTTTTGAAATTCAACGACAAACATTTATTAAGCCCTTATTGTGTACAGGGCTCAAAGCTAAGTGCTTTGGGTGATTCAGGGTGATT
AGGGATAGGATTCCATCTTCAAGAAGCCTCCCATCTAGGAAGAAAGGTCGATAAGCATAGTTTTGGACACACGGGAGAGCATGGCTTTCTCTGGGCCCAG
TAATTACTTTGGTATCCAGATCATTAGAGAACGGAATGCCTTCTATTGAACTATGTAACAGTCACAGGTTTAGATCTTCTCAAGTTATTATTGCCTTTAA
TCTTCATATGATTCCTATCCTGCAGTTAGGAAATGGAAACCCTAGGATATAGTGACTGTGAGCTCAGAAAATTAGGTTGGGAGATAAGCCAGTAGATTGA
GGTGGTAGATTCTTCAAGATCTTGAAGGGGGGAAGGTGGGGGGGGGGGACGGGGGAGCTGTTCCCAGCTATATTTGCCCTTGGCAGATGGGATGGATTCT
GGGAGAAAGCTCTAAGAAATTAGGCCTGTACGACTTATTTTCATGAATCTAGCTGCTAAGCTGGAATAAGTGAAGTTAAAAGTAGTGATGGGCCAGGCAC
GGTGGCTCACACCTGTAATCCCAGTTCTTTGGAAGGCTGAGGCAGGCGGATCATGAGGTCAGGAGTTCCAGACCAGCCTGGTCAGCATGGTGAAACCCCG
TCTCTACTAAAAATATAAAAATTAGCCAGGCATAGTGGCACGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCCCTTGAACCTGGGTG
GCAGGGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAATGAGACTCCGTCTTAAAAAAAAAAAAAGAAAGTAGTGATGGGGA
GGGATTGATCAAAACCTCTTCCTCTGAGACAAAGTGAAGGATAAAGGGGAGGATAATTTTGAGCTACAGATGAGGACATTGTTGTCTGCACCTCTCAGAT
GATAACATCATTTTAGTACAAAAAGAAGTAAGGCCACTGGGGGAGATAAGGGAAAATGTGGAGCTGGGGCTGGGGCTGGGCCTGGGGCGGAGAAGAGTTG
AAAAGTTTAATTATCTTCTCATTGAACTTTAATCGAGTCTGTTTCCTTATACTGGGGACACTTGAAAACAGTTTCCCAAACCAACTACAAAGAATTTTCT
GGCAGGGGAGCCTAGAGCCTACTGGCAGGTTGTGCACAGATCTTTTCTTTCCTGATCCTCAAGTTTGACTCTGACTAGGAGACAAATCTTTTGGTACCAT
GGTTTTCACTGTTCAAACCTCCTGACAAAAGAAAGGGAGAAAAGACTTAACTTTTTCCTTTGCAAAGTGGTACATCAATAGCACTCAAACTGTGAATGTA
TTAAGATGTTACACTTCTCGGCTAATATTTCATTTTCTTGTAGTAGCATAGAAATAGCCTAGCTTTTTTTTTTTAACAACAAAATAATACTTATTATATG
TTTTGGTAGGTAATATATGCAATGGGTACAAAATTCAAAAGGTACAACAGGTTTTACAGTGACCAGTAAATGTCTGTTTCACCTTTGCCTTCTAGCCACC
CAGTTCCCTTCTCTTGAGGTAACGAGCATCACCAATTTCTTGCTGTGATTTTTATAGCACTTTCTTGATTGCCGTGTTGCTACAGAAGGGACACTGTGAA
AATGAGTTTAACAAATAATTCAAGTCCCTACTGTGGCCAGGCCCTGGATCGCCAGAGCCTTAGTTTTGGTAAAATCTTATTAAGAACTTCATTTTCTTGC
CTATAATGTGGCCAGAGTGAAACCACAGTGCTGTCATTAGTAGTGAGCACATTACCATCTGCAGGACAAAGACTCATCAATTCAGAAGGCTGTTGGGTGT
AGAAACTTTGATAGTGTTTTAGTCGCTATTTTGAAATCCAGCCAAGTGTTTCCTATTAAATTACATGACTGATAGCTGCCGCTTATGGTTACTTAGTAAA
AACTCCTGTTGCTAAATGGCTCAAATGGATGTCTGTGTGTTTATTTTGCCATCTAATACAAAGCATAAATTTYTCTTACTCCAGTAGCTCATCAAACCCT
TGAATCTTTCATCATAAGCACATTGAGGCAGGAACTATGCCTGTGCCATCCTCACACCTTTGCAAGTRGCACTCAATAAATGTTTCTCAAGTATTGTTCA
GACTCAGTGAGGTCACATCCCCAGGAGGAAAAAGGACGCTGGGAATGAGTGATACGAGATTTGTCATTAACCGTTCCTCCACGTTTAGTTGCCAACTTTC
TCAGCAACGAGAACCTGGTTTCTTGACCCCCGTCAAATGGTTGATATCACTAAGTTTTCAGGAAAAAGTAGTTACCACTGCCTGACTTCAGCTCTTGCTG
ATAGGAGTTCATGTTGGCTGATCTTTTTCGGTTACACCCTGGATTCCTTTGTGAGGAAAGGGAAAGTAGTGTGAATTAATGACTATCACTAATTATGACC
TGCTTCCTTTGTTGAGGAACTTATCTTTCATTGCTATTCGTTTGCCTTGAGAAATAAGGAAGTATGGGTTGCAGATATGGGCAATGGACTGAGAGTCCTT
AGAAGTGGATTCTACTGAACCAGTGTTGTGCAACCTGGGACATGTCACTGCCTTTTCCCGGGTCTCAGTTTCCCTATCTGTACAATAAACCTTGATGATA
TGATCTCTGTTGTCCTTCCCTATTCAAAGAGTTATGATTTGGGGCCCCTTTTCCTGAAGTCTGCGCTCCTCTGACCTTCCTTTTCCCTCTGTACCCAGAC
CCCCGATGTCAGTTACTGACTTCGATCTCTGATTTGTGCTTCTAGGTTTTCTTCGTGTCTGACCTCTTCAAGACTAAGACGACGCTCTCCCTGCCTGCCC
CTGCTATCCGGAAGGAAATCCTTTCACCTGTGGACATTATTGACAGGAACAATCACCACAACATGATGTAGGTGCYACCCACCTCCTGAGCTGTTTTTGT
AAAATGACTGCTGACAGCAAGTTCTTGCTGCTCTCCAATCTCATCAGACAGTAGAATGTAGGGAAAAACTTTTGCCCGACTGATTTTTAAAAARGAAAAA
AAAAATGTTTTACTATGTGGCCTTCCAAAATAGGTAGTGTTTGCCTATGTGGAAACAACAGCAAACTAACACCAAGTGCCAGAGTCCTGGATGTGCAATT
GGTTTAAGTGTTCATGTTCTAGTGAACACAGCTTGTTCAGGAACAAACACTAAAACGATTTGAGTAGAGGCTGCTGGTCACCTTTTGTGACCTGAGGAAT
CCCAGGCCTGTGAGAAAAGCAAAAATTCACATTGCAGCACATGATGCCAGAAATAGCACTGAATCAAGAAAATAGCCATTGCGGAGCTGCCCTCTTGAGT
CTTTCTGTCCATCCCATTCTATTCTGTACTGTGACTTYAGTTCAGGAAGTTTTGTTTTGTGTTTTAAATAAAAGGAAAGAGCAAGTTTGCTCAGTCAAGT
GATCAGATCCCGAATCTAGATTCCCAGTTCTAAGGCCTTATCACCTCCCCTGCCCATAGGCCAACAACCATAGTTCCTCACATTAGTGATTAGCAGACTC
TTTGTGGACGAGTGAATTTCACAAACAGCACAATTTCAGAAGAAATCGAGGGCACAGGCCCTCACTTTTCTTCTTTTGACGCATCATCCTGTGATGTTGA
AATGTCARTTGCAGGATGCTGATGTTGTGCACGTCAATCACCGGGCACTTGCATACTCTTAGAAACAGTTCGACTTCGGTTACTGCCTTCTCCCTTGAAA
TCCTTGCTGCGTGCCCACCAGGATTTCCTGTGAGGGCCCGGGAATGAGCAAGGCATGGTCTGCCACCAGCTGACGGAAAGCAGCCTTCTGTACAACAGAT
GGGAGGGTGAAGGGGGCAGAATGAAAATCGAACCAACCTTTTAGCTGTTGCAAATCAGAAGGAGCCAGAGAAGCAGGCAGTCTCATGCATGAGAGGTTAC
CCTTCAGGATGACAGAGCTGAGGGTCTTTGTAGGAGTTGCTCTTGCTGTGTAAAGCACTATTGTCTTGGGGTTGAGCCCTAGGGCAGTTCTTGGTAGGTT
CTGCTGGGCAGAACATATGGGTTAAATCTCGGTAGAGAGTTTTCCTCATCCTCTATCCGTAAGTGTCCTTCCATGCAAGGTCCCACTCTAGGTGATAGAC
AGGGACCCCTTCTACTGAACCTTTGAGGAAAGGAGGAAGGAAGAAATGCGTTTAGATCTTGGATGCAGACCTTTCAAAGGGTTAAATGTAACCATATGGA
TCAACCACATGCACATCCTTACTACAGAATCCGTCCTTTCATTTCAACTTATAGCAAGCTATGATTTTTATATATAAATATTATATAAATAATGTATAAA
ACATTAAAAGTTAACTATGTAAGATATTATTTCTGAAACAATTTAGCTATATCCACTATGATTATAAACTGTGTCTCGACCTGTGTTATTTACATTAGCT
GCTTAAAAAAGCATTGAGTTAATTTTTTWAAATATCAACTAAAATATCATAGTTCTGTGGTAGACATTGTTTTATAATGAAATAACTGCAACTAGAGAAA
ACTGTATAAAAACATTAAATTGTCAGTATTTTTGTAAGGTTCCATTTTGTAAAGAGAATAATATTCAAAGACTTTTGTAGCATACAAAGTGAAAACTTGT
ATCTGCGAAACTATACTTGTATTAAATGTGCTTTTTAAATAAAAGCTCGTAACACAACTAATTAAGGACTTGCAAGCCTGGAGTGTTTGAGAGATGTTTG
TCTCAGGTGTGTGGGTAGGAGAAGGAAGCATCGCGGGCTGGCCTCTTTGAGTGGGCTTGCCTCATCTCAGCGCACCAACTCCTGATTTTTTTCAGTGGGA
AATGTGGTGGTCATAGGGTAGATACCGATGTCTGCCCTGCTCTTTCATCTCTGAAAGCCTGTTTGCAGAATGAGGCCCTGGCTCTACCCTCATCTCAGGC
TCTTCTAAAGAGCTTTTGTATTCTAAAGAGGATTTTTCCATCAGAGAGGTAGGAGCTGTAGGAACCCCGARGGCAGATAAGCAGCCCTCACTCTAGATAA
GGTATGCTGGGGGAGCTTACTGAGGGAATCCTGTACACAGCCCACATCAAAGGAAGGCTGAGAATGGCCTGTGGCTCCTGCTTCCCTTCCTTGTGTTTCT
CCAACCTGGAAGAAAAGGGGAAGCTAGAAATTCACATTTATTGAGCACCTGTGTGCCAGGGATTTCTGCCTATTTGTTCTGTCTGATCTTCACAGCAGTT
ATTTTGAGAAAGAAAGAATACTAAAGAATGCAAAGATGAAATGATTAGTCTAAGATCCTAGAGCATTAAATTGTAGGATAGGTCTTATATTAATTTGCTA
TAGCGGCTATAACAAATTACCACAAACGTAAAACAGCATAGATGTATTGTCTTACAATCTTGGAGGCTCTAGGCAAGAAGCTGTTTCCTTGCCTTTTCTG
TTTTTAGAGGCCACCCACTTTCCCTGGCTTGTGGCCCTCTTCATGTTCACATGGAGGAAGCAACATTGGGTAGAGTCCTCACCCTGCCATCTCTTTGGTT
CTCCTCTTCTGCCACCCCTTTCACATGTAAAGGCCCTCCTTGCTGATTACACAGACCTGCTCATAATCTAGGATAATCACCTATATTAAAGTCAGTTCAC
TGGCAAACTTAATTCAATCTGCTGCCTTAATTCCTCTTTGCCATGGAACATATATTCACAGATGCCAGGGATCTAAGACATGGCCATATTTCGGGAACCA
TTATTCAGAGTACCAGAGTTCACCCTCTGGCCCTCAAAAGATTCACATCCATCCCAAATGCAAAACAGATCACCCTATCCCCACATCCCCTAAAGACCTA
GGATATGGCAGTATCAAGTCAAAATCCTAAATCTTAACAACTTAAACACCCCAAATCTCATCATCTAAACTAACCCATTCAAATTAGGTAAAAAGGAGGC
TCCATGTTTAATCCACCCTGGAATACATTGCTCTCTATGAACCTGTGAAAATTAAGAAACAAGTTATCTGCTCCCTAAATTCACTGGTGAAACAGGCATA
GAATAACAGTTATAGACATTCCTATTTAAAAAGGGAGAGAAGCCAGGCGTGATGTTTCACTCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGA
CCACGAGTTCAGGAGATTGAGATCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGTGGGCGCCTA
TAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGGGGAGCTTGCAGTTAGCCGAGATCCCGCCACTGCACTCCAGCCTGGG
CGACAGAGTGAGACTGTCTCAAAAAAAAAAAAAAAGGAGAGAGAGAGAGAAATAGACGGAAAAAAGAAGTCATCAGTCCCCAGCAACTTCAAAATCCAGC
AGGGACCAGGCATGATGGCTCACTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGG
CCAACGTGGTGAAATCTCATCTACTAAAAATACAAAAGATTAGCTGGGTGTGGTGGCACACTCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCAGGAGA
ATCACTTGAACCCAGGAGGCAGAGGTTGCACTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGCAGTGGAGTGAGACTCTGTCTAAAAAAAAAAAAA
GGAAAGAAAAATCCAGCCAGGGATGCTCCATTTGGCTTCAAGGCCTGGAAATAGACCCAAGTGGCTCATGTCTGGTTTCTTGCCACCAAGGTCAGCCTGC
TCTTTGCTGCTGGACAATGCAGTCCCCTCCAGCCCCTGGAATAGCTCAGCAATTTCACAGCATTTTTATATAAGTGGTGATGTCCGTTTGAGCCCCAAAA
TGTAGCTAGTAAGATCCTTAAGGCCAGAGGCCAAATTTTCACTTCAAATCTGAAGAACCAGTGTCCAGAGGGGCAGAACAACTCTTGTTGGTGGGGGTAG
GAGAGGGAAGGCACCCAGGGAGTGGAGGGACTGGTGAGACCAGAGCCCAAGCCTCCTGATCCGAGTACCCCAGTCTTTCCATTTTATCTTCCAACAGTAC
TTGACAAACCAAACTTGAGAAGTAGCCCCGTTTCATGCGGACTTAAGGAAACAATGGAGCTGCGTGGTATTGTGAGGAGCAGCATGATGTGGAGAAGGAA
ACAAGGACCTGGGGACTCAGACCCAGGTTGCAGTCTTGGCTCTGACACTTCCTGGCTATGTGATGTGACTTTGGACACGTTTCTTAACCTCTCTGAGCCT
TGGGTTATTGCTCGTTAAAGATGAGATTTACAAGATCTGTTTTTATACCTCTTTGCTCATGGCAGTCTGTGAGCCTTGACTTGCTTCTTTAAATGGGGTT
CACGGACTAACAACATTTGTATCCCTGGGGAGCTTGGTAGAAATATAGACCTAGGAGAACCCCTGCCCCACCCCAACCTACAGAATCAGAATCTTCCTTT
GGGTAGGATCCCCAGGTGATCTACATGCACAATAAGGTTTGAGAAATACCCCCACTCTTTGCTCATTAAACCTGCAGACTCTGTTCAGGTGTGCTTCCCC
CAAGCCACACTCCTCCGGGGCTTGGCTSGGAGCATGCTGGGTGCAGACATCGGTAACCTCTTAGCTTAATGTACCAAAATTGCATGCATAAAGATCTGTA
TCAAGACTGTCAGATTCTCAGGGGCAGAAGCAAGTCTTATCCTCTGCAAATCCTGCATGTCTGCCTGGCACTGAATAGTTCCCGGCAATTTTGAACCAAT
TAATCATCACCCGGGTCAAAAAGTCACATGATTCTTGGTAACCATCCAATTAAACAGGCTGCAGGGACATAGAGAATTGCAAAACATTGACCCTGTCCTT
AGGAATTAATGAGGACTTAAATTTCCTCTGAGGTAGAGATGGAAAAAAACAAAAACTTTAACAGCTAGAAATCTGCATAAGATTCCTGCCAGTTAGAATA
AATTCGTACATTCATTCGTTGATTCCAAAGTATTTCCAAAGAACTGTTTATGTGCAAAATCCTGACGCAGGTACTTTCATGCAGTCTGCTTCATTTAAAT
CTTCAAAAACCACTGTTAAAGTAGATAGGATTGGGGGGAAATGAAGAGAAGTTGGTTGATAGGTAAAAAAATACAATTGATAGAAGGAGTAAGTTCTAAT
ATTGGATAGTATGTTAGAGAAATTGTAGTTAACAATAATTTATTGTGTATTTCAAAATAACTAGAAGAGAAGAATTGCAATGTTCCCAACATAAAGAAAA
GATAAATGTTTTAGATGATGGATATCCCCATTACCCTGATTTGATCATTGTATATCACACACATGTATCAAAGTATCACATGTACTCCAAATGTTTGTAC
AACTATGATATATCAATAAAAAAATACAAAATAAAAAATGTAGCTATGAATAGTCTCATTTTACTGAGTGAGAAACTGAAGCTGTTAAGAATCTTGTTTC
AGTTCACACATCTAATATGGGATAGATCTGGGATTCTGATCTAAATGACTTCAATTATCCATTGACTAATATTTATTARTCACTTCCTGTGTACCAGGCA
CTGGTAAACACCAGAAGTAAAACAGTAGATAAAATGGGATGCCAGCTTCGAGGAGCTTATAGTCTAAAGACGAATACAAACAGTCAAATTACAAATATGT
AATTAAGAAATGGGATGAGTGTTCTGAAGAAAGAATGCAGGAGGAGCTATGAGAGCTCTCAGCAGGAGGACCTGCTATTGAGGAGGGCTTCCCTGAGACC
CACCTAGAGCTAAAGTCTGGTTAGGGCACTGACCCAACAAAATGAATGAAAAGAGCCCGGCCTTTCAGGAGCCGAGAGCCTAGAATGTAGGTCTAGTAAA
TAATGAGTAAATAATCCCAGTAGTGTGATGGGGAGGAGGGGCCTTTATGAAGTGCTGTGACATGGAAGGAATCAGAAAGACCTGGACCTGGCCGGGCACA
ATGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCCAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCTCGT
CTCTACTAAAAATACAAAAAATTAGCCAGGCATGATGGCGGGCGCCTGTAGTCCCAGCTACTGGGGAGGCTGAGGTAGGAGAATGGCGTGAACCTAGGAG
GCGGAGCTTGCAGTGAGCCGAAATCGCACCACTGCACTCCAGCCTGGACAACAGAACAAGATACTGTCTCAAAAAAAAAAAAAAAGAAAAGAAAAGAAAG
ACCTGGATCTGCTCCCTACCCTGTGACCCTGTGTAAGCATCCCTTCTAGAACATCTGACTCTGACAAGAAATGTCAAGTTTGTTTGTTTGTTTTTGCATA
AACCCCTCTGATATGGTTTGGCTGTGTCCCCACCCAAATCTCATCTTGAATTCCCACGTGTTGTGGGAGGAAGCCGGTGGGAAGTGATTGAATTATAGGG
GCGGGTCTTTCCTGCACTGTTCTCGTGGTAGTGAATACGTCTCACGAGATCAGATGGTTTTAAAAAGGGGAGTTTCCCTGTACAAGCCCTGTTCTCTTGT
CTGCTGCCATGTGAGATGTTCCTTTCACCTTTCGCCATGATTGTGAGGCCTCCCCAGACATGTGGAACTGTAAGTCCCATAAACCTCTTTCTTTTATAAA
TTGTCCCATCTCAGATAGGTCTTTATCAGCAGCATGAAAATGGGCTAATACAGTAAATTGGCACCAGTAGAGTGGGGTGCTGCTGATCCAGGCCTCCTGC
TTTTTTATTTTTTTGAGACAGATTCTTGCTCTGTCACCCAGGCTGGAGTACAGTGGTGCAATCTCATCTCACTGCCACTTCCACCTCCCAGGTTCAAGCA
ATTCTCCTGCCTCAGCCTCCCTAGTAGCTGAGATTACAGGCACGTGCCACCACGCCCAGCTAATTTTTTGTATTTTAATAGAGACAGGATTTCACCATGT
TGGCCAGGCTGGTCTCGAACTCGTGACCTCAGGTGATCCACCCACCTCAGCCTCTCTAAGTCTTCTAAAAGAAAACAACAAATGAGTGAATTATCAGAGA
TAAATATTAGTATCAGGGAGGCTTTGGTGGTATTCTTTTGATTCTCAAACTGTGTAAATAATAAGAACAAGAGAGACAACCTATTTTTAAAACTTCATAA
CAGGATATACAAGTGGGAGATAAACATATAAAAGCATGCTCAACTTTTTAGTCATGGGAAAATGCAAATTAAAATTACAATGAAATATCATTGCATATCT
ATGATATTCTTGTCTAAAGTCAAAAAACAGAAAACAAAAAACAGCGAGTGGTACCAAGTGTTGGTGTGGATGTGAAACAACTGGAACTCTCATTCACTGC
TGCTGGGCATGTACACTTGTACTATCACTTCGGAAAACCTTTCCAGTATTTACTAAAGCCAATAATACACACACGCTATTCTCCAGAAATTTCACTCCTA
AAATACATATCCAACAGAAGGAAATATGTGTGCACAACAAGACATGTACATGAGTGCTCATGACAATACTGTCCCAAACTGGAAGAAACCCAAGTCCCCA
TTCACAACTGAGCACCAATTAAATAATGGAATTAAATATTCACTTGAAGAAATACTATTTAG


SNP Information

Context             (SEQ ID NO:42554):
AGAATTTGCAGGAGAACTCCCCTTTATAAAACCATCGGATTTCATGAGACTTATTCACTATCACAAGAACAGCATGAGAAAGAGCCATTTTCATGATTCA
R
TTACCTCCCACCAGGTCCTCCCCATGACACATAGGAATTATGGCAGCTACAATTTGAGCTCCCCTGTGGGGACACAGCCAAACCATATCACCTTCCTAAT
Celera SNP ID:            hCV26467843
SNP Position Genomic:     16060
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42555):
AAGCTGTTAAGAATCTTGTTTCAGTTCACACATCTAATATGGGATAGATCTGGGATTCTGATCTAAATGACTTCAATTATCCATTGACTAATATTTATTA
R
TCACTTCCTGTGTACCAGGCACTGGTAAACACCAGAAGTAAAACAGTAGATAAAATGGGATGCCAGCTTCGAGGAGCTTATAGTCTAAAGACGAATACAA
Celera SNP ID:            hCV11870796
SNP Position Genomic:     160479
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:42556):
GCGCTCATTGCAAGTCCTAAACTTTAGGAGAAGGGATTTTGTTTTCTCTTCACATTGCCTACAACCCTTTACCAATTGAAAAGATGATTTGGGGCCAGGC
R
TGATGACTCATACCTGCAATCCCAGCACTTTGGGGGGCCGAGGCAGGTGGATGGCTTAAGGTCAGGAATTTGAGACCAGCCTGGGCAACACGGTGAAACC
Celera SNP ID:            hCV26467844
SNP Position Genomic:     18271
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42557):
TTTGGGGCCAGGCGTGATGACTCATACCTGCAATCCCAGCACTTTGGGGGGCCGAGGCAGGTGGATGGCTTAAGGTCAGGAATTTGAGACCAGCCTGGGC
A
ACACGGTGAAACCCCTTCTCTATGAAAAATAACAAAACATTTTAAATAATTTAAAAAAAAAGATTATTTTATTCCTTTTTACAGCCCTTTACGAAGCAGG
Celera SNP ID:            hCV26467845
SNP Position Genomic:     18358
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42558):
GAGGCAGGTGGATGGCTTAAGGTCAGGAATTTGAGACCAGCCTGGGCAACACGGTGAAACCCCTTCTCTATGAAAAATAACAAAACATTTTAAATAATTT
A
AAAAAAAAGATTATTTTATTCCTTTTTACAGCCCTTTACGAAGCAGGATCTGCAACAAATTTCTCAGGAAACGGGCTGAGCAACACATGAGGGATATCAC
Celera SNP ID:            hCV26467846
SNP Position Genomic:     18411
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42559):
AGCAGGATCTGCAACAAATTTCTCAGGAAACGGGCTGAGCAACACATGAGGGATATCACCCACAAACAGTGATGAGTAGTTATTGTTGCAAACCATAATT
K
AGTTGCCCGAGTCTAGTGTGCCTTTCTTCTTTCTTTTGCCACTTGGGTAATTCTCACCTTCTCAGGGAACATCTTCCACTTTCCCCCAAATTGATGGCAG
Celera SNP ID:            hCV26467847
SNP Position Genomic:     18553
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42560):
GCAGGATCTGCAACAAATTTCTCAGGAAACGGGCTGAGCAACACATGAGGGATATCACCCACAAACAGTGATGAGTAGTTATTGTTGCAAACCATAATTG
W
GTTGCCCGAGTCTAGTGTGCCTTTCTTCTTTCTTTTGCCACTTGGGTAATTCTCACCTTCTCAGGGAACATCTTCCACTTTCCCCCAAATTGATGGCAGC
Celera SNP ID:            hCV26467848
SNP Position Genomic:     18554
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42561):
TTTGTAGGTCTTAAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTT
R
CCATAATGTAATGATCTTTTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTTGCAGAAGAAATTTCTA
Celera SNP ID:            hCV11873120
SNP Position Genomic:     40807
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42562):
TCTCAGGAAACGGGCTGAGCAACACATGAGGGATATCACCCACAAACAGTGATGAGTAGTTATTGTTGCAAACCATAATTGAGTTGCCCGAGTCTAGTGT
R
CCTTTCTTCTTTCTTTTGCCACTTGGGTAATTCTCACCTTCTCAGGGAACATCTTCCACTTTCCCCCAAATTGATGGCAGCTTTTTTTTCCCCCCAGTTT
Celera SNP ID:            hCV26467849
SNP Position Genomic:     18573
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42563):
GATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTGCCATAATGTAATGATCTTTTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAG
R
CTAGGATTGCAACCCCTTGCAGAAGAAATTTCTAAGCAGCAAAGCATTCAAGAGGTGACTTGGGTGCTGTTAAAGGCATTCAGTTTTATAAAGAAAGCAG
Celera SNP ID:            hCV11873122
SNP Position Genomic:     40873
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42564):
TCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTTGCAGAAGAAATTTCTAAGCAGCAAAGCATTCAAGAGGTGACTTGGGTGC
Y
GTTAAAGGCATTCAGTTTTATAAAGAAAGCAGAGCATAAAAGTTCAGAAAATTTGCAGCCTAACAGTGCGACAGAAAAGAAAATCCCATTTGCTGAGGAG
Celera SNP ID:            hCV11873123
SNP Position Genomic:     40941
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42565):
GGGACTGTCAGGGAGGCATGACTAGTTTTGAAATGTGAGGACATAATAGTTGGGTGGAGGCAGGGGTGGAATGACATGGTTTGGTTTTGTCTCCTCTCTC
A
AAAAAAAAAAAAAAAAAATTTCCAGGCATGGTGGCTCACCCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAAATCACTTGAGGGTCAGGAGTTC
Celera SNP ID:            hCV11873124
SNP Position Genomic:     42141
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42566):
CGCTATAAACAGATCTGTTGTCCTTTAGGCTTTGTTTTTCCATTTATAGAGCACAGGCAGAGTAGATGTAACATAAATTTTAAGGCCTTAGGATTTTTTG
R
ATGATAAATGAGCATTGGCTTCAACTTAAAGATACCAGCTGCACTGGCCTCTAATAAGAGAGCCAACCTGTCCTGAGAAGCTTTGATGCCAGACATTGAC
Celera SNP ID:            hCV11873125
SNP Position Genomic:     47812
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42567):
CTTCAACTTAAAGATACCAGCTGCACTGGCCTCTAATAAGAGAGCCAACCTGTCCTGAGAAGCTTTGATGCCAGACATTGACATCTCTTCTCTAGCTAGG
R
AAGTCCTAGATGGCATCTTTTTTCAATAGAAGACTGTTTTATCTACATTGAAAATCTGTTATTTGGTGTAGCCACCTTTATCAATGATCTTAGCTAGATT
Celera SNP ID:            hCV11873126
SNP Position Genomic:     47931
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42568):
AGTTTTCCTGAAATTGATTTTGTTTTCCTTTTAATTAAGTAATATTTATCACCTCCTGGTTTTTGTACATTGATTGTGGTGTATGGGGTTACAGGAGAGC
R
ACAGACGATTCCCAGGTAAGAAGGGAGGAACAGTTATTGTCTTTCTAAGCTCTGTTAGTCTCTTTTTTATATAAATTCATATATGCATGCTTTAATGCAA
Celera SNP ID:            hCV8326155
SNP Position Genomic:     75401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42569):
TCAATGATCTTAGCTAGATTTTCTGAGTAACTTGCTACAGCTTCTCCATTAGCATTTGCTGTTTCACCTTGTACTTTTATGTTACGGAGATGGCTTTTTC
Y
TTAAATGACATGAACCAACCTCTGCTAGTTTTGAACTTTTCTGCAGTTTTCTTACCTCTCTCAACCTTCATAGAATTGAAGAGAGTTAGGGCCATGTTCT
Celera SNP ID:            hCV11873127
SNP Position Genomic:     48112
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42570):
CTGTTCGTAGAAATGTAGTGTGTGTCACCTGGGGTTATAGTGCATGTGAGTGGGGAGTCACTTAATGTCTGTTCCTTTTTGTCTCCTTTCTCCAGCTATA
Y
CTGCAGGCCCGCTTCACTTGGCGAGGAGCCCGCCTGCTCCGGCCCCTCCTGCAGTTCACCTTGATCATGATGGCCTTCTACACGGGACTGTCTCGCGTAT
Celera SNP ID:            hCV27490621
SNP Position Genomic:     139181
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,107|C,1388)   total(C,1388|T,107) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42571):
GCATGCAAAAGGAGCAACAGCCATGGTCTTTACGCTCACATGGTGGAGCTCTATTAAGAGCTACAGTTTTTGAACTCTGAAAACAGGGATGACTCAACAC
R
ATCCATGCCCTTGAGTAGCTAGCTCAGTCTAGAAGGGGAAATATGACACAGCATTTAAAGCGTCACGTATCAAAGCCTACGGCCTAACACTAAGATGGAA
Celera SNP ID:            hCV28035318
SNP Position Genomic:     148523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42572):
ATCTTAGCTAGATTTTCTGAGTAACTTGCTACAGCTTCTCCATTAGCATTTGCTGTTTCACCTTGTACTTTTATGTTACGGAGATGGCTTTTTCTTTAAA
Y
GACATGAACCAACCTCTGCTAGTTTTGAACTTTTCTGCAGTTTTCTTACCTCTCTCAACCTTCATAGAATTGAAGAGAGTTAGGGCCATGTTCTAGATTA
Celera SNP ID:            hCV11873128
SNP Position Genomic:     48118
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42573):
TCTTAGCTAGATTTTCTGAGTAACTTGCTACAGCTTCTCCATTAGCATTTGCTGTTTCACCTTGTACTTTTATGTTACGGAGATGGCTTTTTCTTTAAAT
S
ACATGAACCAACCTCTGCTAGTTTTGAACTTTTCTGCAGTTTTCTTACCTCTCTCAACCTTCATAGAATTGAAGAGAGTTAGGGCCATGTTCTAGATTAG
Celera SNP ID:            hCV11873129
SNP Position Genomic:     48119
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42574):
TGCCTAAGGTAATAGACAAGATTCAGACAGGTTTTTCTGGCTACAACGTTGTTGCTTCTTTCACCACCTCTTGCTCTATCTTTTCCCAAAAATCTATCCT
W
ATTTTTCTTCATATTTCCTCTCCATAACAGTTAAATATTTGTAAATATGTGGGCAGTTGAGCTCTTTTTCACCAGAAAAGACAGGAAGAGGAGCTGTCTT
Celera SNP ID:            hCV8327172
SNP Position Genomic:     122921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42575):
CGCAGCCTTCCTGGGGAGCCTTTGCGCCGCCCAGGCCCGAAGCCCCCGCCCTCCCCGATCCCACCGACTTCTTGGCCTGTACTTGAGTGGGTCTGGGCGT
R
CTTAAGCGTTCGTGGGCAACTGTTAAACCAGCTCAGTAAAAGTCGTCTCCACGTTGGAAGCCCGGGCGGAATCCCGCGGAAGGTGTGGGTTCGTCCTTTT
Celera SNP ID:            hCV1761421
SNP Position Genomic:     72607
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,10)      total(G,10|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42576):
TAGACTTTTAAGGGTTAGGATTACAAGAAGCCAAGTCCGCCTGGTTCATAATGATGATTTATGGCTGTGTTGTCGACTCCCTGACCCTTCTGTACAAGGG
R
ATAGAGAAAATACATAATTTGTTGCTCATTCACTCTAAAATCTGTCAAGGCTGCCCCAGAAGCCATGTGGTCCTGGAGTCATGTGTCTGCTAAATGGCTT
Celera SNP ID:            hCV8327173
SNP Position Genomic:     123646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42577):
ATCTTGAGAGAAAGACAGATATGCCTTAGGAAGGGTGGGAGAGAATTTAGACACGTGGTCTGTTTTAGGGTCAACTCTCACTTGGGTCATTCCTGTCATT
S
AACAGCCCAGAGGAAAACCAAACTAAAAGAACAGCAAGGCCAGGCGTGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCAGGTGGATCA
Celera SNP ID:            hCV1761422
SNP Position Genomic:     78878
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42578):
GAGATGGCTGCTGTTAACATTATTATTAGGAATTTGAGGTACTGCAAAATGTTCTTTTCATCTCCTTGTTTTCCCTTGAGTGAAGGAAACATTTTACTTT
K
CAATTTACTATCTTAAGACTGTGACACTAAAAATGGAAGTTTTAGAGATGGGACATTAGAGCTGAAAAGAATCCCTGAATTGTAATCAAACCCCGTCTCC
Celera SNP ID:            hCV8327174
SNP Position Genomic:     124126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42579):
TGCTTCAGACAGTTTTCTCTATGTACCAGTGACCACAAAAAAAAAAAATAAGTATTGTATGACTACAATGTTACATAACTATATACCACGGATATGTGCG
R
TAATAAAAAGAGCAAGAATACCAAACATGAGTAATTTCCCTCATTTGTAGCAAGATTCTGGTTCAAAAACTGAGAAATATTTCTTGTTCAATATTGTACA
Celera SNP ID:            hCV1119976
SNP Position Genomic:     24093
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42580):
CCACGGATATGTGCGATAATAAAAAGAGCAAGAATACCAAACATGAGTAATTTCCCTCATTTGTAGCAAGATTCTGGTTCAAAAACTGAGAAATATTTCT
W
GTTCAATATTGTACATTAGTAATGGATCCCAAAACTTTAAAAGCATCTATGACTAACATTTATCCTGCATATGCTTCTGCTATTCTCACTAGACCATATT
Celera SNP ID:            hCV1119977
SNP Position Genomic:     24178
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,14)   total(A,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42581):
GTAGTCCCAGCTACGTGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGG
R
TGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGAAATACCTTAAGATTAATGCAGACATGTAAGGGAAACAATGCCAGAATTTTCCTG
Celera SNP ID:            hCV1761425
SNP Position Genomic:     83827
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42582):
TTGAGGCAGGAGGACCACTTGAGGCCTGGAGTTTGAGACCAGGCTGGGCAACAAAGTGAGGCTAGGACTATAGTCCCAGCAACTTGGGAGGCTGAGGTGG
W
GAGATCCCTTGAGCCCAGGAGTTCCAGGCTGCAGTGAGCTATGATTGTGCCACAGAACTCCAGCCTGAGTGACAGAGTGAGACCCTGTTTCCAAAAAAAA
Celera SNP ID:            hCV502998
SNP Position Genomic:     15237
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|A,8)   total(A,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42583):
GGTTAGAATGCCTATAGCTAGATTATACTGGGTAAGCTGTATTAAAACCTTTAGATTTTTAAAAAAGTGTAGTCAAGTATATTCTGATAATTTTTGAACA
R
GAGAGTGACACGATATGAATTATAAACTTAAAGATGGCTCTAGATGGTTGTGTGGAAGAGAGTCTAAGGGGTCAAAAGTGTAAACAAAAAAACTAATTTA
Celera SNP ID:            hCV502999
SNP Position Genomic:     13585
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42584):
GAATAATAAGCTGTCTTGATTTTAGGTTTAATTTTCCTAAGGCTATTAATGGAGTTGAGGGACCTTTACTTATGATTTTGCCATAAATTTGTTGTTGCAG
Y
TGTGCTTGCCCTAGCTGTGAAATCCAAGGATTTATTATTAATTAATAATCCCTTTTACTGAACAATTCTACCAAATGATAACGTTTGCATCTGAGAGTTT
Celera SNP ID:            hCV1761428
SNP Position Genomic:     86714
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42585):
GAGCATTGACAGTATAGTCAGACACATCCACGAATCTCATCAAATCATACAAGCCTGAAGGGGAGGTATTCCTCTAACTGGTTTTATAGATGAGACAGTC
R
TTGTGCAGAGAGATTGAGGGGCTTGCTCAGGATCTTGGGACTAGAAAATGGTGGAGCTTGTAGGCTATGACCCAACCAACACCTATGCTCTTTCCTCCAA
Celera SNP ID:            hCV1761429
SNP Position Genomic:     87069
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42586):
AATTGGCTAAAACAAAGGGTCCACAGGGCCCATGCAAGTCCAAAGCCCACTAGGGCAGTCAGTAAAACTTAAAGCTCCAAAATAATCTCCTTTGACTCCA
W
GTCTCACATCCAAGTCACACTGATGCAAGGGGTGGGCTCCCAAGGCCTTGAGCAGCTCAGCCCCTGTGGCTTTGCAGGGTTCACGCCCTGCAGCAGCTTT
Celera SNP ID:            hCV11862499
SNP Position Genomic:     27432
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,6)   total(A,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42587):
GTGGAAACAGGATATGTCTTAGGGCCAGACAGTTCTGGGTTCCGATCCTGGCCCCATCACTTGGTAGCTTATAACCTGGATCAAGTGTTGTAGTAAACTT
S
AGTTTCCTCACCTGTAAAATGGAGACAATGATTTCTACTTTACAGGTGTCCGGAGAGAAAAAAATACCTCACAGACAGTGGGCTCTTTGACATGAATATA
Celera SNP ID:            hCV8326593
SNP Position Genomic:     92582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42588):
TGAACCTGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGCGACTCAGCAAGACTTTTTCTCAAAAAAAAAAAAAAAAAA
R
AATTTTTTATTGTCTAACATGCTAGATACAAAAGAATTATCCTATGAACAACACCCTCAAGGCTTTTACCTTCTCAAGGAGAAGACTTGTACCCATGAAA
Celera SNP ID:            hCV26467850
SNP Position Genomic:     19943
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5|A,5)   total(G,5|A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42589):
ATTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAA
W
GTTCAAGTCCAAAGTCTCATCTGAGGCAAGGCAAGTGTCTTTCACCTATGAATCTGTAAAATCAAAGGCAAATTAGTTATTCCAAGATGGGTGGTACAGG
Celera SNP ID:            hCV26467851
SNP Position Genomic:     27198
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42590):
ATTTCTCCCTAGAAAATGGGTTTTTCTCTTCTGTCACATGGTCAGGATGCAAATTTTTCAAACTTTTATGCTCTGCTTCCCTTTTAAACCTAAGTTTCTC
R
TCTCCATCTGAGACCACCTCAGCCTGGACTTCATTGTCCATATTTCTATCAGCATTTTGGTCAAAACCATTCCACAAGTCTCTGGGACTTTCTAGACTTC
Celera SNP ID:            hCV26467852
SNP Position Genomic:     28226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42591):
AATAGGAGGAAAGATGAAGAGTTTCACCACCACGAGTTACCACAATTTTAACCCAGAATCAAAGTTTTGAAGTTTAGGAGACATTGGAACACAGTGGAAA
S
AGGATATGTCTTAGGGCCAGACAGTTCTGGGTTCCGATCCTGGCCCCATCACTTGGTAGCTTATAACCTGGATCAAGTGTTGTAGTAAACTTCAGTTTCC
Celera SNP ID:            hCV8326597
SNP Position Genomic:     92489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42592):
CCACCTCAGCCTGGACTTCATTGTCCATATTTCTATCAGCATTTTGGTCAAAACCATTCCACAAGTCTCTGGGACTTTCTAGACTTCCAAACATCTTCCT
R
TCTTTTTCAGAGGCTTCCAAACTGTTCCTACCTCTGCCTGTTACCCAGTTCCAAAGCCACTTGCATATTTTCACGTTATCTTTATAGCAATGCCCCACTC
Celera SNP ID:            hCV26467853
SNP Position Genomic:     28340
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42593):
TCAAGTATAAAAGACTCTAGGACAGTGCCTGATAGTTGGAGGTCTTGACTGTGTTGAATTAACCCTGTCACAAGGTACAAATAGGAGGAAAGATGAAGAG
W
TTCACCACCACGAGTTACCACAATTTTAACCCAGAATCAAAGTTTTGAAGTTTAGGAGACATTGGAACACAGTGGAAACAGGATATGTCTTAGGGCCAGA
Celera SNP ID:            hCV8326598
SNP Position Genomic:     92410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42594):
ACTTCCAAGGCTCTGATATGGCTTGGCTCTGTCCTCACTGAAATCTCATCTCGAATTCCTATATGTTGTGGGAGGGACCTGGTGGTAGGTAATTGAATCA
Y
GGGGGCAGGTCTTTCCCATGCTGTTCTCATGTTAGTGAGTAAGTCTTATGAGATCTGATGGTTCCATAAGGGGGAGTTTCCCTGCCCAAGTTCACTCTTT
Celera SNP ID:            hCV26467854
SNP Position Genomic:     36471
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42595):
AATTAAATGGTCTTTCAGAACTGCAGAGGTCATCAAGTATAAAAGACTCTAGGACAGTGCCTGATAGTTGGAGGTCTTGACTGTGTTGAATTAACCCTGT
Y
ACAAGGTACAAATAGGAGGAAAGATGAAGAGTTTCACCACCACGAGTTACCACAATTTTAACCCAGAATCAAAGTTTTGAAGTTTAGGAGACATTGGAAC
Celera SNP ID:            hCV8326599
SNP Position Genomic:     92378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42596):
ATCCATGTAAGATGTGACTTCCTCCTCCTTGCCTTCTGCTGTGATTGTGAGGCTTCCCCAGCCACTTGGAACTATGAGTTCTCCATTAAACCTCTTTCCT
K
TGCAAATTGCCCAGTGTTGGGTATGTCTTTATCAGCCACGTGAAAACGGACTAATACAGTAAATTGGTACCAGTAGAGTGAGGCACTGCTGAAAAGATAC
Celera SNP ID:            hCV26467855
SNP Position Genomic:     36682
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42597):
GCTAAATTGGCTTAGCAGAATTCTTGCTAAAACTGGGCTCTTGAAGACATGCCCAAGGACAGGACCTAGTGGGTCAGAGGAGTCTGACTAGAGTTAGGTC
R
AGAAAAAAGTGTTTTGTTGCATTCTACTGTAAGAACCAGAAAATAAGGAGTCAAATAAATATATAATGTAAGGTTAGTGTTAAGTGCTGTGAAGGAAAAG
Celera SNP ID:            hCV503000
SNP Position Genomic:     13119
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42598):
AGATTCTGGATATTAGCCCTTTGTCAGATGGGCAGATTGCAAAAATTTTCTCCCATTCTGTAAGTTGCCTGTTCACTCTTATGGTAGTTTCTTTTGCTGT
R
CAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGTCATGAAGTCCTTGCCCATGTCTGTGT
Celera SNP ID:            hCV26467856
SNP Position Genomic:     38086
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,7)   total(G,7|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42599):
TGTCCTGAAGGTATTGCCTAGGTTTTCTTCCAGGATTTTTATAGTTTTAGGTTTAATATTTAAGTCTTTAATCTATCTTGAATTAATTTTTGTATAAGAT
R
TAAGGAAGGGATTCAGTTTCAGCTTTCTACCTATTGCTAGACAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTTCTTGTTTTTGTC
Celera SNP ID:            hCV26467857
SNP Position Genomic:     38284
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42600):
TCTCAGGAATGTAGTTTTACAGTTGGTTTATGCTCATCAGGATCAAAAAAGTCACACTTACCATTTTGTCAATACATCTGTTTTAATATGTAGTGTTTTC
Y
CTTCCCACTCTTTTTTAAAAATGTCATCTATTAGTTGAAACATTGAATTATTTTAACTGTTGAATATCCCGATCTTGTTGGATTTATCTCAATAATTATT
Celera SNP ID:            hCV503002
SNP Position Genomic:     10619
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42601):
AGTTTCAGCTTTCTACCTATTGCTAGACAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGA
W
CAGATGGTTGTAGATGTGTGGTGTTATTTCTGAGGGCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTACCAGAACCATGCTGTTTTGGTTACT
Celera SNP ID:            hCV26467858
SNP Position Genomic:     38399
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42602):
GTACTTTTATGTTACGGAGATGGCTTTTTCTTTAAATGACATGAACCAACCTCTGCTAGTTTTGAACTTTTCTGCAGTTTTCTTACCTCTCTCAACCTTC
R
TAGAATTGAAGAGAGTTAGGGCCATGTTCTAGATTAGGCTTTGGCTCAAGGGAATGTTGGAGTTGATTTCTTATTTAGATCACTAAAACGTTTCCTATAT
Celera SNP ID:            hCV11873130
SNP Position Genomic:     48182
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42603):
GTGGTGAATATCCCTTGATTGTCTCAGGAATGTAGTTTTACAGTTGGTTTATGCTCATCAGGATCAAAAAAGTCACACTTACCATTTTGTCAATACATCT
S
TTTTAATATGTAGTGTTTTCCCTTCCCACTCTTTTTTAAAAATGTCATCTATTAGTTGAAACATTGAATTATTTTAACTGTTGAATATCCCGATCTTGTT
Celera SNP ID:            hCV503003
SNP Position Genomic:     10598
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,7)   total(G,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42604):
AACATCTTTGTTCTGCCAGTAGTCATTCACGAGCACGTTGTTCAGTTTCCGTGTAGTTGTGTGGTGTTGAGTGAGTTTCTTAATCCTGAGTTCTAATTTG
K
TTGCACTGTGGTCTGACAGACAGTTTGTTTTGATTTCTGCTGTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACTATGTGGTCAATTTTGGAATAAGT
Celera SNP ID:            hCV26467859
SNP Position Genomic:     40409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42605):
AGGAACTAAAATTACCATGTATCTTTTAGACTCATGTGCTGGATGCCAAGAAATATTAAAGAATATAAGACACAAATACAAATCCTGAATAATGAGTTGA
K
CTATAAATGCACTAAAAAATCAAGTTGTAAGTATGTGAAAATTAAACCTCAAATATTACAAAAGGGTGAGGAAAAGGGATCCCCATTTATTGTTAGGTGC
Celera SNP ID:            hCV8326308
SNP Position Genomic:     84470
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42606):
TCCCCCTCATTTCCCAAGTTCCCACAGGAACCTGGGAATAGGTTGTGCCCAGAGGTTAGAACGGAAACTGCAGCAAGATAACTCTGAGGGGACAATGCCC
M
GTTGACGTCATTTCAACTACTTTGCTTCAGCTAGAGGTGGTTTTTTTTTTAATCTTCCATTTTTCTTCAGGTTACTCTTCTACTCCACCCTGTCTAGTGT
Celera SNP ID:            hCV11870801
SNP Position Genomic:     138081
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,10)   total(A,10|C,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42607):
TTGTTCATTATCTTTTGTTCTTTTTCCTCTCTGAGCTTCACTTTGGGTGTATTTCAGTTGACTATGTCTTCAAGTTTACCCGCCTTTCCTTCTGTAGTAT
S
TAATCTGTTAAGCCCATTCAGTGAATTCTTTTATTTAGAATATTGTGTTTTAGTTTCCATTTTACTCTTTTTAGAATTTTTTTTTCTGTATTATGTTTGT
Celera SNP ID:            hCV16120259
SNP Position Genomic:     44402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42608):
TAAGCATTTAGCAGCACAATCCATGATCCATATTCAGGGTGTGTATTAGTCCATTTTCACACCACTGATAAAGACATACCTGAGACTGGGTAATTTGTAA
Y
GAAAAAGAGGTTTAATGGACTCACAGTTCCACGTGGCTGGGGAGGCCTCACAATCATGGCAGAAGGTGAAAGGCATGTCTTACATGGCGACAGACAAGAG
Celera SNP ID:            hCV11873134
SNP Position Genomic:     49215
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42609):
CACCAGAGGAGGTGGGAAACTCTGCAGTCAGTCCGAGAAGCCCTTAGACCCTCCCCCAGGGCTTTTATGTTGAGCTGCAGGAAGTTCTGGAGTTGGGCAA
R
GAGACTGGACTCCCCGGTGTACCCAGTGCTGTTTTTTTGTTCATGCAGCCTGTGATTCATAGCTTCCCTGGGGTGTTGGGGAGAATCACATTTGGGTCAG
Celera SNP ID:            hCV11870802
SNP Position Genomic:     130894
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42610):
GTGTCCATCTGTCCCAGGAAGGACAAACTCATGTCTTCAGCACTGCCACAGGTCTATCTTTAGGCCATCAGCCACCTCCCCTCCGCTCTCTTCCCTTCTC
Y
TGCCTCTCCAAGTGCTTTGATTTGTAGTCGGAAGTTCCTCTTGTCCACTTGCCTCTTCCCCCTCATTTCCCAAGTTCCCACAGGAACCTGGGAATAGGTT
Celera SNP ID:            hCV16228611
SNP Position Genomic:     137924
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42611):
AGCAGGCAACGGCCTCAGTGTGATCTTTTTTGTCAGTATTCTTATTTTTTCCTCTTAAGTTTTTCCAATAATACATTTTTATAATTTCAAAATGATTATA
M
AGTAGTCTGCTGTCTTCCATGTCTGCTTATTTGAAATAGTGTTCCACGTAGTTGAGGATTCAGTCCTAGACACTTATGGCTAAGAATGATTCTGGGATCT
Celera SNP ID:            hCV16228612
SNP Position Genomic:     137661
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42612):
CTGAAACTTTGGGGTTGTTTTACCTTCAAATATTCTAAAATAAGTCCTGAGTAGGACATTAATGCAAGACCACTAAACTAATATACTGTACTAGACACCA
Y
TGGTATTATCAGTAACCAATTATTTCAAGTCTTTGCTCACAGTCACCTTCTTGGTGAACCCTACCCTGGCCACCCTATTTAAGTTGCAGTTTCTTTTTTT
Celera SNP ID:            hCV16153468
SNP Position Genomic:     8855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42613):
TTCAGTCTATATTTTGAATAGGTGGTCCAAATTGGGACCATTGCTAGCTCTGCATTTTAGGTGAACTGATGAACATTTCTGATCCTCAGTTTTTCCATTT
R
TAAGATGGGTAGAACAGTACCTACTCATAACTCTGTACTGTAGGTAAGATGTATAAACTTTTTATCACAGAGTTCTTTTTTTTTTTTTTTGAAACAAGAT
Celera SNP ID:            hCV16228613
SNP Position Genomic:     108222
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42614):
GCAATGTCATCCATACATACATTTTCTGGTCCTACCCTGGAGGGGTGGTATTTCCAAACTCTTCATTTAGGTATGGTATCGTCCAAGGAGCTCTTGGAAG
A
GATACTCTCTACAAAACATGTTTTTTATTTGTTTGTTTGCTTTCCTCTTCAATGGAGGGAAGAAAAAAGTTAACTTTTGGAGGGCTCTCCTGCTAGGTGC
Celera SNP ID:            hCV11870805
SNP Position Genomic:     122610
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42615):
CAGTGGCTTACTCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCAGGAGGATTACTTGAGCTAAGGAGTTCGAGATCAGCTTGGGCAATATAGTGAGACC
Y
TGTCTCTACAAAAAAATCAAAAATTAACCGGGCGTGGTGGTGCAAGCCTGTAGCTGTAGCCCAGCTTCTTGGGAGGCTGAGGCAGGAGGATACCTTGAGA
Celera SNP ID:            hCV11873139
SNP Position Genomic:     76820
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42616):
GCTTCTCTGGTTAGTGGCTGCGGATGCAGCTCCTTCATTAAATGCAGTACATGGAACTTCTACCAGTAGCCTCTTCCCCACAAATGACCCACATTGTTGT
W
AAGTTAGCAACCACTGACAGGAAGTGGCAGAATGCGTCTCAGCCACACAGCAGATTTCATTAGACACTCTCCCAAAGTAGCTGTTTGGGTCAATTTGGCC
Celera SNP ID:            hCV433952
SNP Position Genomic:     86082
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,10)   total(A,10|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42617):
ACACACACACACACACACACATACACATATATACATATAAATATATTTGGTTGTATATTTTTGTTGTTACAAAGGGGCTTAAAACACCCAACTATATTAG
Y
GCTTTGATCTTTTCTTCTGTGCATATTTGTGTCTGTATATTTCATAAATAGAAAATTAGGACACTCCTTTGCAAATACTGAATATTCTCCTGTGTTGTTG
Celera SNP ID:            hCV8327184
SNP Position Genomic:     126601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42618):
CCCCCCAAAGCTAATATTCTAACCTGTTTATTATATTTATTCACTGTTGGTCTTATGTTTGAACAAAATGATTTTGTTTATCTCCAAAAAGCAATAAGGC
R
TCAGGACCATGTATTCTGTTATAGAGGCACATAGCTACTTGTTTTCAGGGGTGCTTTGCCATTAAAACCATGGCAACATTTTCAAAGTGACTTATTGATC
Celera SNP ID:            hCV1761506
SNP Position Genomic:     74603
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,8|A,9)      total(G,8|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42619):
GGGTTTCCCTGCCTTGCCTTTCCCCTTGAATGAGGTCCGTGTGTGCCAAGGCACTTCCTGCTTTCAGCCGCTTTGATAGAATTCAGAGCGAGAAGGTGCT
R
AGAGGTCAGACATAGCTCAGAGGAGCACAAGCTGTTTGAAAAAAGAACATTTTGATTTCAACTTATTGAAAAAGCACAATTAGGAATTGGGAAAAACAGC
Celera SNP ID:            hCV8327185
SNP Position Genomic:     128523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42620):
AAACCAAACCCCAAACCCAGAAAGCCATTTTTGATTTCTCTGGTGTTCGCTTGATTAACATGGGCTGTGAAATGGTTTTCTGCAGTTCACATTGTGCGCA
R
GGATACCTGTGTACATCTGTGGATAATATGTATATACTGTAAGTGCTTCCCTCCCCCTCACATTATATTATAGAGTTTCCATTCTGAGGTGAGGCTACCC
Celera SNP ID:            hCV1761436
SNP Position Genomic:     100139
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42621):
ACAGGGAGGGAGGGTGGAGAGTGGGGCTTTGCCAGAGTTCGCAAAGGCCTATGGGTTCCCAAAGCCACACTCAAGTATTCCTCAGGCCTTTGAACAATTC
Y
GGGGGCCTTGCTCTCCCCTCTTGTCCTTCCAATTAGATTCCAGTTGGGGATTCTTCCACTTCTTTTCAAGGCCACTTCCACAAAGGGGGAGCTGTCGTGG
Celera SNP ID:            hCV1761437
SNP Position Genomic:     100368
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42622):
GATTCCAGTTGGGGATTCTTCCACTTCTTTTCAAGGCCACTTCCACAAAGGGGGAGCTGTCGTGGAAGCTGATATTTCCATGAAAACCTTCCATTTCTCA
G
GCAAACATACCAGGCAGCTGTCATGGCAATACCATGGTGAAGGGGAATAATGTTATTTGGCATTTCGCCCTTTAAAAAAGTGTATGTGTGGGGGTGGGTG
Celera SNP ID:            hCV1761438
SNP Position Genomic:     100504
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,6)   total(G,1|-,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42623):
CCACTTCTTTTCAAGGCCACTTCCACAAAGGGGGAGCTGTCGTGGAAGCTGATATTTCCATGAAAACCTTCCATTTCTCAGGCAAACATACCAGGCAGCT
S
TCATGGCAATACCATGGTGAAGGGGAATAATGTTATTTGGCATTTCGCCCTTTAAAAAAGTGTATGTGTGGGGGTGGGTGGGAGGAGGAGGATGGGCAGA
Celera SNP ID:            hCV1761439
SNP Position Genomic:     100524
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42624):
AAATAGGATTTAGCAATTGCTTAGTTATTAATTAGAAGAACAATGAAGCAATTTGGGATGACTTACAGATTTCTGGAATGATACAGAAATCTTGTGGATG
R
ATTGATCATTCAAAAACAGTTCGTAGCCTATCACCTCCTTCCTTAAAAGTGTTCAATAATTTAACATAACCTAAAGATTAGTGTTTAAAACTCTTTAGCT
Celera SNP ID:            hCV27991762
SNP Position Genomic:     15636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42625):
ACAAGAACAGCATGAGAAAGAGCCATTTTCATGATTCAATTACCTCCCACCAGGTCCTCCCCATGACACATAGGAATTATGGCAGCTACAATTTGAGCTC
Y
CCTGTGGGGACACAGCCAAACCATATCACCTTCCTAATGTACTTCCTTGAAACTCAAGGAAGTAGTGGGTTCCAGTTTGAAAATTACTGGTCTACAGAGA
Celera SNP ID:            hCV27991763
SNP Position Genomic:     16122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42626):
CAGCAAAGCATTCAAGAGGTGACTTGGGTGCTGTTAAAGGCATTCAGTTTTATAAAGAAAGCAGAGCATAAAAGTTCAGAAAATTTGCAGCCTAACAGTG
Y
GACAGAAAAGAAAATCCCATTTGCTGAGGAGAAATTCAAGCTGCCTGCATAAATTTGCATAAGTAACGAGGAGCCAAATGTTAATACCCAAGACAATGGG
Celera SNP ID:            hCV26467860
SNP Position Genomic:     41010
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42627):
CCACCTCTTTCATCAGCCTGACCTCGATGTGAGACATAAAGTCAAAGGAGATCATTTTGGAGCTTTAAGATTTGACTGCCCTGCTGAATTTCAGACTTGC
W
TGGGGCCTGTAGCCCTTTTGTTTTGGCCAATTTCTCCCATTTGGGATGGCTGTATTTACCCAATGCCAGTACCCCCATTGTATGTAGGAAGCAACTAACT
Celera SNP ID:            hCV26467861
SNP Position Genomic:     41834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42628):
GATTTGACTGCCCTGCTGAATTTCAGACTTGCATGGGGCCTGTAGCCCTTTTGTTTTGGCCAATTTCTCCCATTTGGGATGGCTGTATTTACCCAATGCC
R
GTACCCCCATTGTATGTAGGAAGCAACTAACTTCCTTTTGATTTTACAAGCTCATAGGCAGAAGGGACTTGCCTTATCTTGGATGAGACTTTGGACTGTA
Celera SNP ID:            hCV26467862
SNP Position Genomic:     41902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42629):
GCATGCGCCACCATACCCAGCTAATTTTTTTGTATTTTTAGTACAGAAGGGGTTTCACCATGTTGGCCAGACGGGTCTCAAACCCTTGACCTCAGGTGAT
M
CACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATTTGCCACCATACCCAGCTAATTTTTTTGTATTTTTAGTACAGAAGGGGTTTCACCATGTT
Celera SNP ID:            hCV26467863
SNP Position Genomic:     43524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42630):
TTTTGAACTGCTTTAAAATTCCTGCCTGCACCTGTTATTTCTGGATGATTTATATTAGCTTATTTTTCTCCTGATTATGGGTCACCTTTATTTCTTTTCC
T
TTTTTTTTTTTTTTTTTTTGACAGAGTCTCGTTCTTTGTCCAAGTTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCCGTCTCCCGGTTCCAGT
Celera SNP ID:            hCV26467864
SNP Position Genomic:     44617
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,6)   total(-,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42631):
TCATAGCTCCACTAGGCACTGCCCCAGTGGGGACTCTGTGTGGGGGCTCCAAACCCACCTTTATCCTTTTCACTGCCCTAGCAGAAGTTCTTCATGAGGA
Y
TCTGCCTCTGTTGCAGACTTCTGCCCGGACATCCAGGTGTTTCCCTACCTCCTCTGAAATCTAGGCACAGGTTCCCAAAGCTCAGCTCTTATCTTCTGCT
Celera SNP ID:            hCV11862502
SNP Position Genomic:     27731
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|C,7)   total(C,7|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42632):
TGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCCGTCTCCCGGTTCCAGTAATTCTCATGCTTCGTTCTCCTGAGTAATTGGGATTACAGGCATG
Y
GCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGTTTTCACCATGTTGGCCAGGGTAGTCTTGAATTCCTGGCCCCAAGGGAGTTGCCTGC
Celera SNP ID:            hCV26467865
SNP Position Genomic:     44763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42633):
TTTACTTTCTAGTTTTTTCCCCCATTTTTCAAATAAAAATAGTATTTGCCATAGCTGCTTGATAAGCATTGTGGACACATTTTGGAATTTTAAAGTGATA
M
AGACACTTGTATTAGGTTGGTGCAAGAGTAATTGAGGTTTTTGCCGTTACAAAAACCCCTGGACTACATTACTTAAATGGCAAAAACCACTTACTCTTGC
Celera SNP ID:            hCV15811253
SNP Position Genomic:     127781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42634):
TATAGCAATGCCCCACTCTTTGCGGTACACATTTCCTGTATTCATCACTTTCACACTGCTATAAAGAATAACTGAGACTGGGTAATTTATGAAGGAAAGA
K
GTTTAATTGACTCACAGTTCTGCATGGCTGGGGAGGCCTCAGGAAACTTACAATCATGGTGGGAGGCAAAGGAGAAGCAAGGCACATTTTACATGGTGGC
Celera SNP ID:            hCV11862503
SNP Position Genomic:     28523
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,7)   total(G,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42635):
TTTCTCATTTGTTTCCCTTTCCTTGGGGGTCAGAGATTTGTTATGCTTAATGTCCAAATTCTGAAAACAATTGTTTCATATATTTTGTCCATTCTTCTAA
W
TTTTTTTAATGGCAGTAGGGCAAGTCCAATACTAGCTATCCCATTATGATGGAAGTGGAAGTTTTGTAGAGTAAGTGTTTTGATAGATATGGGCACATAA
Celera SNP ID:            hCV26467866
SNP Position Genomic:     45648
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42636):
CATCAATCATGAATATTTTCCTTTTGTATTTAATATAGCAAAGTGGACTAAAAAAGGATGCTTAATTAAGGTATAGGCAGTGATTTGAACATTGTAATTT
M
TTAATTACAGTGTAATTGTAAAGTGACGGTTATGAAAACTATATAGCAGTGAGGGGGTGTTTATAATATGTTACATGAAAACATCAGAAGGTAAACATTT
Celera SNP ID:            hCV26467867
SNP Position Genomic:     46091
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42637):
AATCATGAATATTTTCCTTTTGTATTTAATATAGCAAAGTGGACTAAAAAAGGATGCTTAATTAAGGTATAGGCAGTGATTTGAACATTGTAATTTCTTA
R
TTACAGTGTAATTGTAAAGTGACGGTTATGAAAACTATATAGCAGTGAGGGGGTGTTTATAATATGTTACATGAAAACATCAGAAGGTAAACATTTGTAC
Celera SNP ID:            hCV26467868
SNP Position Genomic:     46095
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42638):
ATATTAATTACATAGTCAATCCTTTTCATGTCTTACATTAAGTACCCATTCCTAGTTATGTAAGCTAACATGTACAGGTAATGAAATGGACAATTCCTCA
Y
GAATAATGAATTAGAGGCTTGCAGCTTATACATAGTTTTGTTCTCAAAATTCTCTTTTTTCCAGACGTTTCTCTTATCTCATCCTCTTTGTCCTGTCTTT
Celera SNP ID:            hCV11862506
SNP Position Genomic:     29727
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42639):
AGGGTCTTGCCTCAATGTTGATGGCTGCTGACTGACCAGAGTGGTGGTTGTTGAAGGGTGGGGTGGCTGTGGCAATTTCTTTTAGGGAGACCAGAATGTT
K
ACTGCATTGGTTGACTCTTCATTTCATGAAAGATTTCTCTGTAGCATGTTATATTATTTGATAGCATTTTACCCACAGAAGAACTTTTAAAAAAAATTTG
Celera SNP ID:            hCV26467869
SNP Position Genomic:     47349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42640):
TTTTCAAAGTTTTTGCTTTTTATTATTTATTTATTTATTTTTGCTTTTTAAAAGCCTCTCAACAAACTCTCCTTATTCCCATGTGACTGAGGATGAAACA
K
TCTCAGATTAAACAGACTTCTCAAGGTCACGCATTGTCAGTGCCAACATTCAAAAGAAGGCTAGGTCAGGTTCTTGAACATCCTTGTGAAATTATTCTTC
Celera SNP ID:            hCV11873142
SNP Position Genomic:     80581
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,7)   total(G,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42641):
TATGGGATACATAGAGTCATCATTTATTATTATTTACTTTAAATAGTGAGAGAGGGGCAGCATGGTATAGTGCAAAAAAGACACTTAGAGTCAGAAGCTT
Y
AGGTTCCACGTTGGCCAGTGCCACTATCGAGTTGCATTGTGTGGATGAGTCGGTTTTCTGTGTGTCTCAGTTTTTTTCCACCTGCAAAATGACTGTGTGG
Celera SNP ID:            hCV236708
SNP Position Genomic:     75993
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,15)      total(C,15|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42642):
GCTTCATGTATTCCCTATAATCCTGTGTTCCAGCTTCACTGTTTTTTAAAAATTTGCAGTTTGTCATACATACATACTTACTCTTTGAACTTGATTTCAC
T
TTTTTTTTTTCAGACATGGTCTCGCTTTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAGTCTCCACCTCCTGGGCTTGAGGGATCC
Celera SNP ID:            hCV11862507
SNP Position Genomic:     29935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,9)   total(-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42643):
CCCTAAGGAAGAAGGTGACAAGATGAGAAGATGGACACACAGATGGAAAAAACATGGCCAGGTGTCCTGAGCTGATAATTAAATGAAATTTTAAAAATAT
W
GAGTCTAAGAGATAGCTTGATGCTGTTCTTGCCTCCAGTCTCAGCTTTGCTGTATTAGCTGAGTGACCTTGGGCAAATGTTTTCTATTTTGTGAATGATA
Celera SNP ID:            hCV16228620
SNP Position Genomic:     88524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42644):
TATTTTGAATGCACAGGTATTCTCATTGATAACTACCTTTATCCATATTAGTCTCCTTGCTTCCTGGAAGCAACACACAGAAATCTGTATTCCAGCCTTT
R
TTTATGCTCTTTCCTCTGCTAACGCACCCGCTCCTTCTTCTCTGCCTATACGAAGAGTTTCCATTCTTTAAGCTGGTTTCTGCTCACCCTACCCCCTCAC
Celera SNP ID:            hCV8326603
SNP Position Genomic:     92048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42645):
CTAATGATGAATGGGGAGAGGTTTCAGTCCTTGAATCTTCTGGAGTAGATGTTGGGCAGGTGCAGTTCTAGAAATACAATGTATACTCTGTATAGAGGTA
R
CCGAGTTGAAGGGATTATTAACACTATGTTTGAGGGGCTCTGGGGGAAGGCTTCTGAAAGTGGTAACATCACGGTTGTTTGGACAGGCAAATTAGCAGAA
Celera SNP ID:            hCV8326604
SNP Position Genomic:     91173
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,10)      total(G,10|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42646):
ACAGATGGGAGAGTTAAATGACGTACTCAAAGACTACAGCTACAAAAAATTCAGGTTCAGCCTGTGCCTGGCTGATTTCAAACCCCCTTTCCATCTCGCA
R
ACTTACAGTTCAGGAAGGCTAACCTGTCCAAATGAACTGCTCAAGGGGATAGGCAGTTAGCTTATCTTGCCTACTCTGGATCAAATGTAAGCTGCTGATG
Celera SNP ID:            hCV11870815
SNP Position Genomic:     114665
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42647):
GAGAGCATCAAGTACCCACTGAAAACTGGTGAGACAATAAATGACGCTGTGCTCTGTGCCGTGGGGATCGTCATTGCCATCCTCGCGGTAAGTGTCCAGA
Y
TCTGCTATGGTGGATCCTGTCTGACTTCTTCCTGTATTGTCATATTATAGAATGTCTGAGCCAACAGAGACTTATACCAAGTAGAAGCCAACTTTCTCTG
Celera SNP ID:            hCV11870817
SNP Position Genomic:     114387
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,9)   caucasian(C,35|T,5)   total(C,60|T,14)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42648):
GCAGCTGCCCAGTTTGTGAGTGGCTCCCCTCCTTAGCTCCAGTTAAAAGTACCTAAAGATAGAATATCTGGTGGCTTCACAGTTCCATGGAAAGTCAGCC
R
GACCCAGCGTCCCTTTCTGGCCTACTTCTCTGTGGCCTTATCACTATTCTTCATTTCTAGTCTTTGTAAAATCAGGCTCATACTCCTTACCCGGAAAGGA
Celera SNP ID:            hCV1761440
SNP Position Genomic:     101274
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42649):
GGAGGTGCAGCAATAAAGTGACCAGGAAAGTGTCTAGCGGTAGCTAATGTTAATTCCCACCTCCCTCCAACCCACCGCCCATTTTTGCTGATGCCTACTA
Y
TTCAGCAGAGCCAAGAGCTGCCAAACATTCGTTCAATTTTTATCTGAAGGTCTGCAGATTTTGGGGTGTTTTCTGGAGCTGTTCTTTATAAATGAGCATC
Celera SNP ID:            hCV1761441
SNP Position Genomic:     101492
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42650):
TTAAAATAAGAAAGGTCCACAAGACACCTGGGAAAACCAGCCCTTTCATTTTGCACATGAAGAAAATGAACCCCAGAGAGCAGATGAGGAAGTGTGATCC
K
GTGATCAAACTGGTAGTTGGTGGCAGAGCTAAGACTGATGGTAATAATAACATAAAGTTATTACTTAACTCCCAGACTTGCTTGTGCAGTCTTACTGATA
Celera SNP ID:            hCV1761442
SNP Position Genomic:     101879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42651):
AAGACTGATGGTAATAATAACATAAAGTTATTACTTAACTCCCAGACTTGCTTGTGCAGTCTTACTGATATCAGACATTTCTTCATTGAACCAATGACTA
R
TGTTGACTTACTTTCCCTGCCAGGATATTGACAGAGCTGATCCACCTTGGACCACTTGAGGCTTCCATTACCCAGTAGGCAAAAAGAACGGCCACACAGA
Celera SNP ID:            hCV1761443
SNP Position Genomic:     102010
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42652):
AATTGGCTATACCAATTGGCATTCAAATGACATGGCATTCAAATGACAGCAAGGAGTATTTCAAATTCATTTACTGGATTAGTCAGTAAATAGGTATTGC
R
TGCCAGCTGGCTGCCAGGTCATGTGCTGAGGGCATCCTCAGTGCTCTCACTTTAGTAATGCCCCTGTGGAAGTTCTTGTCACATTGTTGATGGGTGGTTA
Celera SNP ID:            hCV1761444
SNP Position Genomic:     102545
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42653):
ACCTCAGTCTCAGCATGTCTAAAAAGCCAACTCAGCCCGGGCAACATAGGGAGACCCTGTCTCTACAAAAATAAAAAAATTAGCTGGGCGTGGTGGCACG
Y
GCCTGTAATCCTAGCTACACCAGAGGCTGAGGTGGGAGGATCGCTTGAGCCTGGGAAGTCAGGGCTGCAGTGAGCCGTGATCACACCACTGCACTCCAGC
Celera SNP ID:            hCV12054679
SNP Position Genomic:     34253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42654):
AATCCTGTTAGAGTGGGTTACATGGCTAAGTAAATCCTTTGTTGGAGAGATTTAAGTCTTGAAGGATATTTAAGTCTTGAAAGATAAATAGGAGTTGTTT
W
AATTCAGATGTTAAAGACATTACTTCATGGAGTTGTTAGGAAGATCAAATGTGATGATTTATGTAAGAGCTCAGAAATACTTTGCATGGATGGGACTATT
Celera SNP ID:            hCV1761445
SNP Position Genomic:     106289
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,7)   total(A,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42655):
TTTGCACACTTCTAAGACCAGTAGCAATTAATTACTTTAAATAGAAGCCCTGTCACTTACAAGCAACATAAATATTTGTATTTTGAACCTCTAAGTAATA
R
TTGTGTTGACCATTCTGGCCTTAAGTGATTTAAAAAAATCAGTGAGTGATATTTTAACAGGGAATATGTTTATAAAGAAAGGGAGGGTCAGGTCATAGAG
Celera SNP ID:            hCV1761446
SNP Position Genomic:     107811
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42656):
TACCTTATAGTTTTGTTACTATGTGAAACATCTATGATACTTTGTTGATTAAGAAGTTCATTTAAACACAATTATTTAATTGTCATAAAAGAAAGATTAT
Y
ATTCCCATTTTATAGATGATAAAACTTAGTTTTTCCCTTTCTGATTTGCCCAGGGCTAAAAAGTGGCAGAGTCAGAACTCATATCCAGTTCTGACTTGTC
Celera SNP ID:            hCV198118
SNP Position Genomic:     8126
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42657):
CACTCACTAGATTCTTTTTTTTTTTTTTTTTTGGTCATGCTTTGCAAAAATTTTGTAATGCACCTTTTATTACGAATACATTTAAACTCCAGGCTATTGC
R
TTCAGAGTTTGATGAAATTAGTTACCTAGCACATGTGTGATACACAGTGAAAGTTCAGTTAACTTGAGCCAGTGCCATTCCCTTGATTGTTCTGAACAGT
Celera SNP ID:            hCV1761448
SNP Position Genomic:     109430
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42658):
TGGTCATGCTTTGCAAAAATTTTGTAATGCACCTTTTATTACGAATACATTTAAACTCCAGGCTATTGCGTTCAGAGTTTGATGAAATTAGTTACCTAGC
R
CATGTGTGATACACAGTGAAAGTTCAGTTAACTTGAGCCAGTGCCATTCCCTTGATTGTTCTGAACAGTGCCTTTTTCATCAGAGGCCATGAGATTTGCT
Celera SNP ID:            hCV1761449
SNP Position Genomic:     109461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42659):
CACAATAAGGTTTGAGAAATACCCCCACTCTTTGCTCATTAAACCTGCAGACTCTGTTCAGGTGTGCTTCCCCCAAGCCACACTCCTCCGGGGCTTGGCT
S
GGAGCATGCTGGGTGCAGACATCGGTAACCTCTTAGCTTAATGTACCAAAATTGCATGCATAAAGATCTGTATCAAGACTGTCAGATTCTCAGGGGCAGA
Celera SNP ID:            hCV12108417
SNP Position Genomic:     159528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:42660):
AGTGAGTTAGTTCTCACAAGATCTGATAGTTTTATAAGGAGCTTCACCACCCCCTCCACTTGCTCTGCACTTCTCCTTGCTGCCACCATGTGAAGAAGGA
Y
GTGTTTGCTTCCCCTTAAGCCATGATTAGAAGTTTCCTGAGGCCTCCCCAGCCCTGTGGAACTGTGAGTCAATTAAACCTCTTTCCTTTATAAATTACTC
Celera SNP ID:            hCV27970079
SNP Position Genomic:     63057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42661):
TAGATTCTATCACCCTTTCTCAAATTTAGATGCTATCAGATAATCCAGAGGTCAGCCTCCCGAGTAGCTGAGATTACAGGCGTGTACCACCACACCAGGC
T
ATTTTTTTTTTTTTTTGAGATGGACTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCTGAGTTCAA
Celera SNP ID:            hCV26467870
SNP Position Genomic:     50182
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,7)   total(-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42662):
AATCTTTGACAAACCTGACAAAAACAAGCAATAGGGAAAGGATTCCCTATTTAATACATGGCGTTGGGAAAACTGGCTAGCCATATCCAGAAAACTGAAA
S
TGGACCCCTTCCTTACACCTTATACAAAAACTAACCCAAGATGGATTAAAGCCTTAAACGTAAGACCTCAAATCATAAAAACCCTAGAAGAAAACCTAGG
Celera SNP ID:            hCV26467872
SNP Position Genomic:     54337
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,12)   total(G,1|C,12) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42663):
ACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTATGATCAGAGTGTACAGG
A
AAAAAAAAAGAAAGAAAGAAAAGAAAAAAGAAAAAAGGTTTGTATTTCATTCTTCAATAAGAAGTGTTTCAAAAAAAATGTATAGTTATACTTTGTTAAA
Celera SNP ID:            hCV26467873
SNP Position Genomic:     54586
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,14)   total(A,2|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42664):
TTTATAGTTTTCAAAAAATTTTAAACTTTTCCAACCATTATTTCTCTACTCCACTGAGATTTGAATTACATGCATGTTACACTGCTTGATATTATCCACA
R
GTCATTGTAATTGTTCATTATCTTTTGTTCTTTTTCCTCTCTGAGCTTCACTTTGGGTGTATTTCAGTTGACTATGTCTTCAAGTTTACCCGCCTTTCCT
Celera SNP ID:            hCV15811263
SNP Position Genomic:     44291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42665):
TATAGTTTTCAAAAAATTTTAAACTTTTCCAACCATTATTTCTCTACTCCACTGAGATTTGAATTACATGCATGTTACACTGCTTGATATTATCCACAGG
Y
CATTGTAATTGTTCATTATCTTTTGTTCTTTTTCCTCTCTGAGCTTCACTTTGGGTGTATTTCAGTTGACTATGTCTTCAAGTTTACCCGCCTTTCCTTC
Celera SNP ID:            hCV15811264
SNP Position Genomic:     44293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42666):
ATTAAGTCTTCACAACCACCCTATATGAAAAGGAACAGTTATCTCTAGTTACATACGGGGAAACTGAGGCACAGAGTCACAGGATTGAAATCCAGGAGAT
G
TGGTTCCACAGTCGTGCAGTCTTTTTCATTTTAGTATTCTCAAAATCTAGCGTAGTACCCGGTGTTGGATGTTAAGATCTTAAACAAACAAACAACTTGT
Celera SNP ID:            hCV26467878
SNP Position Genomic:     71178
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42667):
TAAGTCTTCACAACCACCCTATATGAAAAGGAACAGTTATCTCTAGTTACATACGGGGAAACTGAGGCACAGAGTCACAGGATTGAAATCCAGGAGATGT
G
GTTCCACAGTCGTGCAGTCTTTTTCATTTTAGTATTCTCAAAATCTAGCGTAGTACCCGGTGTTGGATGTTAAGATCTTAAACAAACAAACAACTTGTTT
Celera SNP ID:            hCV26467879
SNP Position Genomic:     71180
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42668):
CCCCAATTTTACATTTAGGAGGCAGACATGAAAATATGCCTTAGCCTTCAGGTCTGGAACCTTAAAACAAACAAACAAAAACCAGTGTGCATAGGAATAT
R
GAAAGAACATATCCGGAACAGTCAGCCAGTAATACCTTGTGTCAGATGCAAGGGGCTATGGAGAGAAATGATTTGCAAGCCTAATTAGACCTGCTCCCCA
Celera SNP ID:            hCV8327128
SNP Position Genomic:     99262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   SG_12_A(A,9|G,9)   SG_12_AA(A,7|G,8)   total(G,17|A,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42669):
TATTTTCTAATAGTATCACTATGTGGAAAAGGCTGGAAACTGAAGATAAGTGTCTTATTCTTAGCCATCCGGCCTAACCACCCATCTGAGACTTGAAGCT
R
GTTAGGATCCCTGTAAACAATTCCTGATGGAATTGTCTACTCTTTATTAGGGTATGGGATGTTGTGCTGTTTTGGGGGATTGCATTAAAAAACAGGATTT
Celera SNP ID:            hCV8327129
SNP Position Genomic:     103802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42670):
TCTGAGGATCTTAGCTAGTGCAGGAGATTTATGGGAAAGGAATAATTATGATGTTAGACAGAGGGGGCCCTCAACCTTCCCATCTATTAAATGAAAACAA
R
TGACATTAAGATCTCTTACAGTTCTAAACTTTCATCAGGATATTACTGTTATGCACCTAACTCCATTCTGAGTAAGATTTATGATGCCAACAAATATCTG
Celera SNP ID:            hCV3080971
SNP Position Genomic:     104209
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,12)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42671):
TGTCCTTCAACCTCAGAAGAGCCATTGGGCCCCTTGGAGCTATACTTTGCTTTTCTATAAATTGGTCACAACGGTTCACCAATGCCATAGGCTTGTTTTG
R
TTGTCAAATCATGTGATATTGTGTGTGTGATAAGTGAGAATCATCCTTCATATGTCTGTAGTGTTGTACAGTTTACAGCGTGGCTTTTATGTGCACGCTC
Celera SNP ID:            hCV3080972
SNP Position Genomic:     117607
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,10)      total(G,10|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42672):
CCATCTCGAGCAGGCAAATAACACCTTAATACAAACTGTCATAGGCCAAGGCAGGTGGATCACTTGAGGTCAGGAGTCCGAGACCAGCCTGGTCAACATG
R
TGAAAACCTGTCTCTACTAAAAGTATAAAAATAAGCTGGGCTTGGTGGCACGTGCCTGTAATTCCAGCTACTTGGGAGACTGAGGCAGGAGAATCGCTTG
Celera SNP ID:            hCV3080973
SNP Position Genomic:     118075
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42673):
TCCACTACATCTGTGCAATTACCAAGACCACCAACAGAGAGAGGCCACATTAATCCTTCAACTGTGTTGTCCCCTGATCAGATGGCTACAGAGTTCTTCT
R
AGACCTTCTTATCCCTGGGGGAACAGTGGGAGGGGGCATCTATTTGTGATTTAACAACACAGGCATGGAGATTGCACTAAATTTTCATCTGTTCCCTTTC
Celera SNP ID:            hCV1761450
SNP Position Genomic:     119107
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42674):
AAATAAATAAAAAGTTGGTCATATCTAAAAATACTTTCACAGCAACATGTAGACTGGTATTTGACGAAATATCTAGGCACCATAGCCTGGCCACAAGTAC
K
CCCCTAGTTCTATCTGGAAAATGCTAATTCTTCCTGCTCATTTAGAGCAGTGACCCTATCTTCCCTTCTCAGGGTCAGCATAAACCCAGCTACATTATGC
Celera SNP ID:            hCV16229365
SNP Position Genomic:     42548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,8)      total(G,1|T,8) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42675):
ATCCCTGGGGGAACAGTGGGAGGGGGCATCTATTTGTGATTTAACAACACAGGCATGGAGATTGCACTAAATTTTCATCTGTTCCCTTTCTCCACCACCC
R
CACTCACTCTCATGTCCTGGAAGAAGTGAGAACAGCAGCAATTCTTCCTTAGTTAGGTACAGCTCTTAGGGATTCATGACTATTTGAAAAACGTATCAAT
Celera SNP ID:            hCV1761451
SNP Position Genomic:     119218
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42676):
TACATAATAGGTTGCTGGAAGACGGGGCCAGGTCTTTTCCTCTGGGCACATGGTAGGTACTTAAACACCAGGCGGACATTTCTCCAGGAAGCATTCCGTA
S
CTGTCTCCTCCCCCACCTTCCAAAGGTCACAGAGAACCCTGGGCCCACCTCTGTGGCTGCAGTCACTGTGCTGATTGTCATGTCTGTTTACTTGTATATT
Celera SNP ID:            hCV3080975
SNP Position Genomic:     118377
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42677):
TGTGAACATCTGTCTCTCTGGAGACATACATACTACTGCCTAGTAGGACTTCTAAGAGAAAGCCAGCTCGATGCCATTGGGAACAGCACAGGAATTAGAA
S
GAGGAAGCCCCAGCTTCAGTGATGGTCTTCTTGCTGTCTCATTTTTATCAGAGTGATTCACTGCCCTCTCTGGCCTTCATCATACTCATTTATATAAGTG
Celera SNP ID:            hCV1761452
SNP Position Genomic:     122062
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,3)      total(G,3|C,3) ;TSC_42_A(C,29|G,54)   TSC_42_C(G,42|C,42)   TSC_42_AA(C,33|G,50)   total(G,146|C,104)no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42678):
CACATGATGCCAGAAATAGCACTGAATCAAGAAAATAGCCATTGCGGAGCTGCCCTCTTGAGTCTTTCTGTCCATCCCATTCTATTCTGTACTGTGACTT
Y
AGTTCAGGAAGTTTTGTTTTGTGTTTTAAATAAAAGGAAAGAGCAAGTTTGCTCAGTCAAGTGATCAGATCCCGAATCTAGATTCCCAGTTCTAAGGCCT
Celera SNP ID:            hCV3080976
SNP Position Genomic:     155238
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   ;POOLE|_CEPH(T,92|C,96)   total(C,96|T,92)
SNP Type:                 UTR 3


Context             (SEQ ID NO:42679):
TAGTAGCTAATGTTTACTAACACTTATCACCACCTACATGCTGCACTTTTTAAAATCTTTGTCTATCTCCTCTCCCACTCCTCTATACACATACAAGAAA
R
TAATATCCATGAAGACAAGAATATATTTATTTTGTTCTCTACTGTATCCCCAGTGCCTAAAATAGTGCGGAGCCCATGGCTGGTACTCTATTTGTTGCAT
Celera SNP ID:            hCV163967
SNP Position Genomic:     29423
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42680):
ACGAGTGAATTTCACAAACAGCACAATTTCAGAAGAAATCGAGGGCACAGGCCCTCACTTTTCTTCTTTTGACGCATCATCCTGTGATGTTGAAATGTCA
R
TTGCAGGATGCTGATGTTGTGCACGTCAATCACCGGGCACTTGCATACTCTTAGAAACAGTTCGACTTCGGTTACTGCCTTCTCCCTTGAAATCCTTGCT
Celera SNP ID:            hCV3080977
SNP Position Genomic:     155508
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:42681):
TTCGCCTCGTCTGTAGAGGTGAGGTATTCAGGCTGCCTTTCACAACCCAAATTTCATTAAATAGACTTTTAAGGGTTAGGATTACAAGAAGCCAAGTCCG
S
CTGGTTCATAATGATGATTTATGGCTGTGTTGTCGACTCCCTGACCCTTCTGTACAAGGGGATAGAGAAAATACATAATTTGTTGCTCATTCACTCTAAA
Celera SNP ID:            hCV1761454
SNP Position Genomic:     123585
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42682):
AACTGTAAGGGGTATAACTGTATTATAAATATTATAAACTGTAAAGCATTATACACTTCACCCTGCATGAGCTAATGTTAGAATCATTTTCATTTTACCT
R
TGGGGAAAACCAGTTCTATCCAGTTAAGTGAGCTTGCCTCAGTTTTCTCATCTGTAAAATGGGACTAATGATAGCAACTCCACCTACTTCAGTGAGTTGT
Celera SNP ID:            hCV27970080
SNP Position Genomic:     66961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42683):
GTAATCAGTAATTGGTGGATTATTTTCAGTAGTGATAAATCTCCTCTAAGCATCATATCATAGATACAGTATGAAAATCAAGAAAGATTTGAGAAGGATC
K
TCAGGCTCAGAGAAGACAGCACAGGCTGACTGGAGGAAATTCACAAACACTGAAGGGCATCGTACTACAAGTTTCTTAGTTGTTAGACTGGTATTCTATT
Celera SNP ID:            hCV1761455
SNP Position Genomic:     125960
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42684):
CGTGCCAAGCAGGAGTCTGTGACCTCTGCTCTGCTTGTGCCACATGACAGAACTCTTCCCCACGAATCAGGGCCGCTGTCCCAGGGAATGCCAGGAAGGA
S
CAAAGTTCTCTTCTTACTCACAACTATGGCTGTATTGAATGGTTTTTGAAACACAGAGACATCACCTGAGGTTAAGAGGATTGATAAAAAAGCAGCATGT
Celera SNP ID:            hCV1761459
SNP Position Genomic:     142722
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42685):
ATTTTCATCTGTTCCCTTTCTCCACCACCCACACTCACTCTCATGTCCTGGAAGAAGTGAGAACAGCAGCAATTCTTCCTTAGTTAGGTACAGCTCTTAG
R
GATTCATGACTATTTGAAAAACGTATCAATACGGAGGTGATGATATGCTCCATTTGAAGTCATAATGCTTAGGAGGCCGAGAAATACTTTCTGTGAGGGG
Celera SNP ID:            hCV12108426
SNP Position Genomic:     119288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42686):
CCTGATCAGATGGCTACAGAGTTCTTCTGAGACCTTCTTATCCCTGGGGGAACAGTGGGAGGGGGCATCTATTTGTGATTTAACAACACAGGCATGGAGA
K
TGCACTAAATTTTCATCTGTTCCCTTTCTCCACCACCCACACTCACTCTCATGTCCTGGAAGAAGTGAGAACAGCAGCAATTCTTCCTTAGTTAGGTACA
Celera SNP ID:            hCV12108427
SNP Position Genomic:     119179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42687):
AGTGCCACTATCGAGTTGCATTGTGTGGATGAGTCGGTTTTCTGTGTGTCTCAGTTTTTTTCCACCTGCAAAATGACTGTGTGGGATTATGTCTATTATT
R
CCATTAAACATGCGGTGACCGATTTCTAGTAGAGGCTTGACGTTAGAGACTTGACATATGCTGAATGTCTACCCTATGCATCTACTCTGCTGAGCTCTTC
Celera SNP ID:            hCV26467880
SNP Position Genomic:     76110
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,18)   total(G,18|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42688):
TGGGGCTTTTCCAGGTCCTTTTCTACCATGCCATTCTTTCTCTTTGCTTGGTATGTGCTATTTACTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTG
K
GAAACGGAGTCTTGCTTTGTCACTTAGGCTGGAGTACAATGGTACGATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCA
Celera SNP ID:            hCV26467881
SNP Position Genomic:     89229
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42689):
CCACCCATCTGAGACTTGAAGCTGGTTAGGATCCCTGTAAACAATTCCTGATGGAATTGTCTACTCTTTATTAGGGTATGGGATGTTGTGCTGTTTTGGG
R
GATTGCATTAAAAAACAGGATTTGGGATGTGGGAGAGATTAGGTTAAAATTTAGAAAGTGGGGAGAAAACGATCCACAAGTCCTAGAGTGTATTTGGTAG
Celera SNP ID:            hCV8327130
SNP Position Genomic:     103879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42690):
TTGGTACAGTTTTGGTAATTAGTAGCATTAATAATAGTATCTATCAATTTTATAATTGAAAGCACCTGAACAATTTTATAATTAAAAGCACCTGAATAAA
T
GATGGTGATGAGTCATTTCCACAAATATGCATTGAGCACCTTTAATGCACCAGGTTCTGTGCTGGGTGTCGAGGTCTAATGATGAATGGGGAGAGGTTTC
Celera SNP ID:            hCV26467882
SNP Position Genomic:     90997
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,19)   total(T,19|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42691):
TGGTACAGTTTTGGTAATTAGTAGCATTAATAATAGTATCTATCAATTTTATAATTGAAAGCACCTGAACAATTTTATAATTAAAAGCACCTGAATAAAT
G
ATGGTGATGAGTCATTTCCACAAATATGCATTGAGCACCTTTAATGCACCAGGTTCTGTGCTGGGTGTCGAGGTCTAATGATGAATGGGGAGAGGTTTCA
Celera SNP ID:            hCV26467883
SNP Position Genomic:     90998
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,19)   total(G,19|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42692):
GTTATTTTGCAAAACAGATATTAGCCCCATGTGTCAGTAATCTACAGTCATTTGTACCTTAACATAAAATGCCAAAGCACAGTAATATATTCTTAGTGTA
A
AAAAAAAAAAAAAAAATTCAAGGCTGGGGGTGGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGAGGATCACTTGAGCTCAGGAGTT
Celera SNP ID:            hCV26467884
SNP Position Genomic:     91693
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|-,8)   total(A,6|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42693):
CTACATTCACCTATACTGTCCCTCCCTGAACCACCCAGACCAGTTTTTAAATTTGGCCTTTCCTGAAGTGAAACTTTTTTTTTTCTTTTGAGGCAGGGTC
Y
CAAAAACCCAAGTCATTTTTGACACTAGCATAAAAATGTTGCTTTTTTTCTAAAGGTAAATTAATTTATCATTATTGATGCTTTAAACTATACCACCTAA
Celera SNP ID:            hCV26467885
SNP Position Genomic:     94685
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42694):
CATAGTAAAAGTAGGCAGTGTTGGATACTTATCATCGATTTTTCTCTTGTTTCTTCATCTTGAGTTTTTGGGTGTTTTTGTTTGTTTGTTTGTTTTTTGT
T
TTTTTTTTTTTTTTTTTTTTTTTTTAGTGTTTGGCCTTCCTTCTCCTGCATAAGTGATTATGGCAAATTGCACACACACACCCCAACAGGCACTAGGGAA
Celera SNP ID:            hCV26467886
SNP Position Genomic:     95869
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42695):
ATAGTAAAAGTAGGCAGTGTTGGATACTTATCATCGATTTTTCTCTTGTTTCTTCATCTTGAGTTTTTGGGTGTTTTTGTTTGTTTGTTTGTTTTTTGTT
T
TTTTTTTTTTTTTTTTTTTTTTTTAGTGTTTGGCCTTCCTTCTCCTGCATAAGTGATTATGGCAAATTGCACACACACACCCCAACAGGCACTAGGGAAG
Celera SNP ID:            hCV26467887
SNP Position Genomic:     95870
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42696):
AGTAGGCAGTGTTGGATACTTATCATCGATTTTTCTCTTGTTTCTTCATCTTGAGTTTTTGGGTGTTTTTGTTTGTTTGTTTGTTTTTTGTTTTTTTTTT
K
TTTTTTTTTTTTTTTTAGTGTTTGGCCTTCCTTCTCCTGCATAAGTGATTATGGCAAATTGCACACACACACCCCAACAGGCACTAGGGAAGGCCAGAAC
Celera SNP ID:            hCV26467888
SNP Position Genomic:     95878
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42697):
TTCTGATCCTCAGTTTTTCCATTTGTAAGATGGGTAGAACAGTACCTACTCATAACTCTGTACTGTAGGTAAGATGTATAAACTTTTTATCACAGAGTTC
T
TTTTTTTTTTTTTTGAAACAAGATCTGGCTCTATCACCCAGACTGGAGTGCAGTGGTGCAATCTTGGCTTACTGCAACCTCCGCCTTCTGGGCTCAAGTT
Celera SNP ID:            hCV26467889
SNP Position Genomic:     108298
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42698):
AAAAGATAAGGAAGGGAATTCCACGCAGAAGGAATACCATGAAGACATGGCGATGGGTGAGAACATGATATGTTTTGTGACCCTAGAAATGCAGAACAAC
R
AAACTTGGGGGATAATGGGGAGAGGTGACCTCAATGAATAGTAGCCTCATTCTCCCTTTCAGCTTCAAAATTGGATGGTTTCTGGGAATGGGGTCCCCTG
Celera SNP ID:            hCV27948351
SNP Position Genomic:     146722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42699):
ATCATAGACTGAATGTATGAGACTGAATATTAAGACTGAAAATACCCTTTTAAGAAGTCATTTTTGCCCATTCATTCTGTTTTGTTCCTTTGTCCTTCTG
Y
TTCTTTATTTATTCAGTCATTTCGCAATAAATATTTATTGAGTTCTTCCCGTGAAGTAGGCACTGTGCTAAATTTTGGGGATACAGTGGTAAATAAAGAC
Celera SNP ID:            hCV9508669
SNP Position Genomic:     25227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42700):
TTAATGTGAGGTGACAGTGGGGGATGGGTGTTTGCACTGAAGGGTAACCCTTTGCTGACTGTGCCCTTCTGAGCTTTGCTCTCAGCAGGAGGACAGCCCG
Y
GGGGGCCTGCTGTTGTGGTTCCTTCTTGGCGCCACTGCCCTAATTGGAGTCCCCTGCACCCCCAGTTAAAAAAATTAAAAGGTTGGGGGATCCTTACTAG
Celera SNP ID:            hCV8328513
SNP Position Genomic:     141158
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   no_pop(T,-|C,-)   SC_12_TT(T,6|C,18)   SC_95_C(T,37|C,132)   total(C,150|T,43)   (C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42701):
TCAGGTCAAACAGCAGAAACCCTTCTGCTAATCCCCTGCCCCTTCCTGCCTTTTCTCAGGAGTATTACGGTAGATGTTTCCATTCAGTCCTCTGGAAGCA
Y
TCGTGATATCAAATCCAACACTTATAGCAGCAAGCTAGCAATTTTTGTTTAGTAAAAACCAGAGGTGGAATATGAATATAACAGTTTGGAAGAATCTGGA
Celera SNP ID:            hCV16229373
SNP Position Genomic:     67977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42702):
AAAAAGCAGCATGTATGGCACAAAGGCCACCACTTGAGGTGCCAAGAAACACAGAATCCATTTTCCAGTCTGCCAGATAACCTCCTGAGCCAAGCCTTTA
Y
GGACTCCCTGTTAATTGAGTTGTAATCTTCGCTGACATTTGCTGAGAGCCCAAGCACTCAGAGAGAAGGTAGCAAAGCTGGAGTTGACCCCAGACAGCCT
Celera SNP ID:            hCV8328515
SNP Position Genomic:     142909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42703):
CCTTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCAAGCCCGGCCCCTTTAACATTTCTTGTTGTGCAG
K
TCTATTGGCAATAAACTTTCTCAGCTTTTATTTGTCTGAATCTATATTTTACCTTAACTTTTATTTATTTTTATTTTTTAAATTTTATTTTATGAATATC
Celera SNP ID:            hCV12110202
SNP Position Genomic:     43744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42704):
TAGCTGCCGCTTATGGTTACTTAGTAAAAACTCCTGTTGCTAAATGGCTCAAATGGATGTCTGTGTGTTTATTTTGCCATCTAATACAAAGCATAAATTT
Y
TCTTACTCCAGTAGCTCATCAAACCCTTGAATCTTTCATCATAAGCACATTGAGGCAGGAACTATGCCTGTGCCATCCTCACACCTTTGCAAGTGGCACT
Celera SNP ID:            hCV1761461
SNP Position Genomic:     153873
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,9)   total(C,5|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42705):
AATTTTTCTTACTCCAGTAGCTCATCAAACCCTTGAATCTTTCATCATAAGCACATTGAGGCAGGAACTATGCCTGTGCCATCCTCACACCTTTGCAAGT
R
GCACTCAATAAATGTTTCTCAAGTATTGTTCAGACTCAGTGAGGTCACATCCCCAGGAGGAAAAAGGACGCTGGGAATGAGTGATACGAGATTTGTCATT
Celera SNP ID:            hCV1761462
SNP Position Genomic:     153968
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,9)   total(G,9|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42706):
TGAGGCCCTGGCTCTACCCTCATCTCAGGCTCTTCTAAAGAGCTTTTGTATTCTAAAGAGGATTTTTCCATCAGAGAGGTAGGAGCTGTAGGAACCCCGA
R
GGCAGATAAGCAGCCCTCACTCTAGATAAGGTATGCTGGGGGAGCTTACTGAGGGAATCCTGTACACAGCCCACATCAAAGGAAGGCTGAGAATGGCCTG
Celera SNP ID:            hCV1761463
SNP Position Genomic:     156871
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:42707):
ATCTCCCACCGGGTCCCTCCCACAACACATGGGAATTACTGGAGCTACAATTCAAGATGAGATTTGGGTTGGAACACAGCCAACCCATATCAGTGTGTCA
S
GTTTTTTGTTTTTTTTTTTCACCAGGACTACTGTTGCATTCATGTGGGATATTTATTATGCTGTATTATGCAATATTCCTGGGTCCCAATCACTATGTAC
Celera SNP ID:            hCV12110206
SNP Position Genomic:     49522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42708):
GCCCCATCCAGAACCCGGTTCTGATTAGAGGGCAAGAGTGACAGACGTGGAGGGTGGAGGGGCCCAGAGCTGGAAATTGAACCATCATCCTGCTGCTTGC
W
GTCCTGAGCCTTCTCCTGCTGAATGTCAGGTTTGTTTAAAACAGCAAGAGAGGCCTTGACTGAGTTGGATGCCCCTGCTCCCATTCAGATGGTCCCCACA
Celera SNP ID:            hCV12108430
SNP Position Genomic:     116800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,9)      total(A,9|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42709):
AGATTCTATCACCCTTTCTCAAATTTAGATGCTATCAGATAATCCAGAGGTCAGCCTCCCGAGTAGCTGAGATTACAGGCGTGTACCACCACACCAGGCT
W
TTTTTTTTTTTTTTTGAGATGGACTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCTGAGTTCAAG
Celera SNP ID:            hCV12110207
SNP Position Genomic:     50183
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,7)   total(A,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42710):
TCGGCTCACTGCAACCTCCACCTCCTGAGTTCAAGCGATTCTCCTGCCTCAGCCACCCGAGTAGCTGGGATTACAGGTGCCTCAGCCACCCGAGTAGCTG
R
GATTACAGGTGCCCGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGTATTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTC
Celera SNP ID:            hCV12110208
SNP Position Genomic:     50349
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42711):
TGAATGGTAAGTGGGTAAGAAGGACAACTCTTGGTGGCAGTACTCAGCCCTCTGTTGTCCTGGACACTTCAAGATAAGGTTCCATATTTGCCTCTTCCTA
Y
TCAGCAGTAGAAAACTCGACAGTTAATCAGAGTAGATCTCCTTAAGGGTCATGCCTCTTGGAGGTCTCACCCCTAAAGATGACCTGGTAAATGCAATGTT
Celera SNP ID:            hCV29130163
SNP Position Genomic:     8525
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42712):
GGAATAGGGAGGCCAGAGGAGAAGGAGAGAGGAGAAGGGAATGGCTAGAAAGTGGAGCAGTCAGAACACACACAAAATGTGTTAAGTTTGCTATTTTATA
Y
GGGAATGGTTTGTGGTGGTCCTGAAAGAATTACAATAGTAACATCAAAGATCACTGATCACAGATCATCTTAACAGGTAATAATAATGAAAAAGTTGGAA
Celera SNP ID:            hCV29130164
SNP Position Genomic:     48658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42713):
ATACTTCAATGCAAAAATGGATATAAAGAACCCAACACATTGTGAGTGTGCATTCAATAGTGGCTGTATTATCCACTGTGTTTTTTTTTTTTGCAGCCCA
R
AAGTCTTGTATTTATTTTATTTTATTTTTTTAACATCTACTATGCCATGAGTTCATACGTTCCAGCAGCAGGCTCCTTCCCCTTGGTTCTCACAAAGTTG
Celera SNP ID:            hCV26467891
SNP Position Genomic:     112377
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42714):
AATAATAATGAAAAAGTTGGAAATATTCTGAGAATATCAAAATGTGACATGAAGACACAAAGTGGGCACATGCTGCTGGAAAAATGACATTGATAGCCTT
R
CTTGATACAGGGTTGTCACCAACTTTGCATTGTAAAAGTGTACTATCTGTGAAGCACAAACAAGTGAAGTGCAATAAAATGAGGTATGCCTGTATTCTGT
Celera SNP ID:            hCV29130165
SNP Position Genomic:     48837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42715):
AAGGGACTTTTGTGGTGAGTGATGAGTTGACCATCACTGTCTCTGGGCTGTGGTTACAAGCAGGAAGTGGCCATGGCTGGGCTGTGGAGTTAAGACAAAG
R
CAGCAGGGTGTGTGGTTGTGCACATCATAGGCATTTACCTTACAGAACATCAGCTGTCCCCCATCCTTAATGTAAATGATGTCACTATATCTATCTTGAG
Celera SNP ID:            hCV29130166
SNP Position Genomic:     125706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42716):
CTCTTATTGGTAGTTCTTTGAACAGTGAAAGAAAAGCCTGGAAAATGGCATTCATGAAGCAGCTACTATGTGCCAGGCACTGTGCTAGAGGTTGTGTGTG
Y
GTTGATCTCCTTTAGTCATCACCACAACTCATTTTACTGTGGGAAAAAACTGGGACTCAGGGAAATGGAGTGGGAACCAGAGGAAGTGCTGGATCTGGGG
Celera SNP ID:            hCV8327140
SNP Position Genomic:     113641
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42717):
TTCTTTTTAGAGCAGTACCCATTCCCTTAGATGTCTACAGCATCACCTTTCTCATAGATTCTCATATACGTGGCCAAATAAACAACTCCATGTTTTCTAA
M
AGGCCTAGAGAACATCTATCGGGTGCCTCTCCTCTTTCCCTTTGTGTTTGTCATTTTGGTGAATTACTGGAAGATGGCAGTTCCAGCTGAAAGGCCACTG
Celera SNP ID:            hCV26467892
SNP Position Genomic:     112822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42718):
TGTCTACAGCATCACCTTTCTCATAGATTCTCATATACGTGGCCAAATAAACAACTCCATGTTTTCTAACAGGCCTAGAGAACATCTATCGGGTGCCTCT
Y
CTCTTTCCCTTTGTGTTTGTCATTTTGGTGAATTACTGGAAGATGGCAGTTCCAGCTGAAAGGCCACTGTGTTTTTGGTGGTCTTCCCTAGTTCCAAGAT
Celera SNP ID:            hCV26467893
SNP Position Genomic:     112853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42719):
CATCGTAAACCAGGCACACAATCAACAGCTTGAATTTGGGGAGGGGGAAGGGAGGCTAGTAGAATTCTTTCCAACCTTTAAAAGAAAAACAGTCCATTTG
S
CAGTAGTTTCTTAAAGGTGGACTAAGGATCTTTGTGTTTGAAAACTGAAAAATGAAAGGTCTAGTTTTCCTGTGTGCTCCAAATTGACAGTTGTGGGTTT
Celera SNP ID:            hCV26467894
SNP Position Genomic:     114958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42720):
GATTAGATAGTGCTTTCCTATAGTTCCGGAGAAACACAAGCCAAGAAATTACTGCAATAATTGTTATCTCTTGTCCAGTGCTACTGTGTATGGGGATACA
Y
GTGAAAAATGTGGATGCATTTCACCCTTGAAACCCCAAGAGCTAGATATTCTTAGGGTTTTCAGTTTAGCACAGGGTTAAAAGCACATGCCCTGGTTCAG
Celera SNP ID:            hCV26467895
SNP Position Genomic:     115991
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42721):
GATATTGTGTGTGTGATAAGTGAGAATCATCCTTCATATGTCTGTAGTGTTGTACAGTTTACAGCGTGGCTTTTATGTGCACGCTCTTCTTTGCACCTGG
D
AGTAATCCTGGGAGGTTGATTCTTACAGCTAACTCAACCGGGGCTCAAGGATATTAAGTGACTCTCTCATAACTAAGTAGTGGCATGGCCAGACCAGGAG
Celera SNP ID:            hCV26467896
SNP Position Genomic:     117722
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3|A,3|-,11)   total(G,3|A,3|-,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42722):
AGGAGAATCGCTTGAATCCAGGGGGTGGATATTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCGACAGGATGAGACCACGTATCAAAAAG
A
AAAAAAAAAAAAGCTACATAATAGGTTGCTGGAAGACGGGGCCAGGTCTTTTCCTCTGGGCACATGGTAGGTACTTAAACACCAGGCGGACATTTCTCCA
Celera SNP ID:            hCV26467897
SNP Position Genomic:     118262
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42723):
CTGTGACATCATAGCTACCCTTTACCTTGTCGTTGATTCTTCATTTAGTATTTCTTTTCTATAGTTAAGTTCTTGTCTCTCCCTTAAAAAAAAAGATACA
C
ACACACACACACACACACACACATACACATATATACATATAAATATATTTGGTTGTATATTTTTGTTGTTACAAAGGGGCTTAAAACACCCAACTATATT
Celera SNP ID:            hCV26467899
SNP Position Genomic:     126498
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42724):
ACCATCATCCTGCTGCTTGCAGTCCTGAGCCTTCTCCTGCTGAATGTCAGGTTTGTTTAAAACAGCAAGAGAGGCCTTGACTGAGTTGGATGCCCCTGCT
S
CCATTCAGATGGTCCCCACAACAAAGGAACGGAATGGCAGTGGAGGAGACCAGTGTGGTTTAGAGATGCAAATCATCACGCGTTATGGAGAAAGCAGACA
Celera SNP ID:            hCV8327148
SNP Position Genomic:     116880
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,11)      total(G,1|C,11) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42725):
GCAAAGCTGGAGTTGACCCCAGACAGCCTGACACAGAGCTGGCACTCCAAGACCCAGGCTTTGGCAGGTCTCCTCTCATCTCTCCACCCCTTCACCTCCC
R
GCATGTCAAACATTTCAATATTTTCCAACACCTGAGTTTCTGTATTAGATACCTGTCCCCTTTGATGGAACACAGTTCCAGTGTCACCTCATCTCTGATG
Celera SNP ID:            hCV8328522
SNP Position Genomic:     143081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42726):
GAGTCCCATCTATTCCCTTCTGATTTACTCCAGGGCTGCCTGGGCACAGGGGAATGGATGAAATGAGCTCCCAAACCTCTTCTGGCCCTGCAGAAGTCTA
R
CTCTTTGCCCAGTAATGTGACCTTGAGGTAATCTGATCTTGCCACTGCTGGCCCCCACTCTTAGGCAGGCAGAAACATGGATGTGGGAGAGAGAAGGAAG
Celera SNP ID:            hCV8328523
SNP Position Genomic:     145276
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   (A,-|G,-)   SC_12_A(G,5|A,16)   SC_12_C(G,0|A,15)   SC_12_AA(A,1|G,20)   SC_95_C(G,35|A,134)   total(G,60|A,166)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42727):
AAGACGACGCTCTCCCTGCCTGCCCCTGCTATCCGGAAGGAAATCCTTTCACCTGTGGACATTATTGACAGGAACAATCACCACAACATGATGTAGGTGC
Y
ACCCACCTCCTGAGCTGTTTTTGTAAAATGACTGCTGACAGCAAGTTCTTGCTGCTCTCCAATCTCATCAGACAGTAGAATGTAGGGAAAAACTTTTGCC
Celera SNP ID:            hCV8328524
SNP Position Genomic:     154776
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:42728):
CAAATGATGTATCTCAGGGGAGAAAAAAGAGACTCCATGTTTTCAAAGTTTTTGCTTTTTATTATTTATTTATTTATTTTTGCTTTTTAAAAGCCTCTCA
R
CAAACTCTCCTTATTCCCATGTGACTGAGGATGAAACAGTCTCAGATTAAACAGACTTCTCAAGGTCACGCATTGTCAGTGCCAACATTCAAAAGAAGGC
Celera SNP ID:            hCV12110213
SNP Position Genomic:     80542
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42729):
TATGATCTGCATTTAAATTCCCAAATTTAAAACAAACCAAACAAAACAACGCACTTCAGACTCTTTTGGAAACCTTTGAAAGGAACTTGATTTCTGTGTG
M
TTTGAAAGTATATATTGCAATCAAGGTATTGGTGGTAAGTGTGTTTTTGAGGTTTGTCACAAATTAACAAAATTATATGCCTAAAGAGTTTTGCAGAGAA
Celera SNP ID:            hCV12110214
SNP Position Genomic:     80808
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42730):
AACTTGATTTCTGTGTGCTTTGAAAGTATATATTGCAATCAAGGTATTGGTGGTAAGTGTGTTTTTGAGGTTTGTCACAAATTAACAAAATTATATGCCT
R
AAGAGTTTTGCAGAGAAATGCAAATCATTGTAAGCGCCTTGTCATAATAAGTAGTGTGCTTTGGTTCCTGTTTATGTATCCCTAAAACACATAATACACT
Celera SNP ID:            hCV12110215
SNP Position Genomic:     80891
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42731):
TGCCTTGCAGCCCCTTCTAGGCACTACTAGGGGCGGGCATCCAGACATGGGCAACCTGGAAGCCCAACAGGTGAACTTATGATGTTAGAGATCACAGCTA
R
TGGATAACATCTTCCTCTTTTCTACTGCCTCCCCCACTAAGTGGGCAGTCCTGAGATACAGTGTATTCTGATTCTTAGGAGCACGGCACTTGGCAGCAAC
Celera SNP ID:            hCV16229388
SNP Position Genomic:     32790
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42732):
TATTGCAATCAAGGTATTGGTGGTAAGTGTGTTTTTGAGGTTTGTCACAAATTAACAAAATTATATGCCTAAAGAGTTTTGCAGAGAAATGCAAATCATT
R
TAAGCGCCTTGTCATAATAAGTAGTGTGCTTTGGTTCCTGTTTATGTATCCCTAAAACACATAATACACTATTACATTGACACGAAGGAAACCATTCTCA
Celera SNP ID:            hCV12110216
SNP Position Genomic:     80921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42733):
ATTGGCATCATGTAAACAGCTTGATAGTAGATTTTCAGGACTGGGAAGGAAGAGAACTAATCTTTGTTAAATACCTGCCTTCTGATATTTCATCCTCACA
R
CTTTTCAAAGTGGATATTGGCATCCTCTTTTTAGAGTTGAGGCTCAGAGAAATTAGGCAACTTGCTGAAGATCACATAGAGTGTCAGTGGCAAAACTGGT
Celera SNP ID:            hCV12110217
SNP Position Genomic:     103384
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42734):
TATAAAGCAAAACATTTTTAAAAACCACTCCTAGTTTCATCATCCAGAAAAGATAATAACTTTAATATTTAGATATTGTATCAGTCTGTTTTCACACTGC
S
ATAAAGATACTACCCGAGACTGAGTAATTTATGAAAGAAAAAGGTATAATTGACTTACAGTTCCAAATGGATGGGGAGGCCTCAGGAAACTTACAATCAT
Celera SNP ID:            hCV32317
SNP Position Genomic:     26442
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42735):
GGCCATTTAAATGTTGGGAGGTATCAGTTATGTAAGAATGATGTGCTGTTGTTGTCACACACAATAAGTCAATCTTAAAAAGGCATTTATCCCTGCTGAT
R
TTATAGTTTTTATACAGACCAATTTAATGAACTGGATGTCATTTTGATGTGTGAATTTTGGTAAGTTTGTTTGCCAGAAATTCTAATTACTTAATTACCT
Celera SNP ID:            hCV27842110
SNP Position Genomic:     68423
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,15)   caucasian(A,2|G,32)   total(A,15|G,47)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42736):
ATCTAGACCACTGGGCAGATGACTGCCCAAGATTGACAGTGTGCATCAATGGTTTGTAGAGATGGTGATCACCTGCTGTGTGTAGGTAGGTGCCGGGTGA
W
ACCTCCCTTATAGCAAGCAGGCTTTGTGGTAGGCACCTTGGCCTATAAGCTGATGTGTAAAATACAGATCTTGCCTTTGGATCTTATGGTTTAAAGGGAA
Celera SNP ID:            hCV8327150
SNP Position Genomic:     119861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42737):
TGACGTACTCAAAGACTACAGCTACAAAAAATTCAGGTTCAGCCTGTGCCTGGCTGATTTCAAACCCCCTTTCCATCTCGCAGACTTACAGTTCAGGAAG
K
CTAACCTGTCCAAATGAACTGCTCAAGGGGATAGGCAGTTAGCTTATCTTGCCTACTCTGGATCAAATGTAAGCTGCTGATGTTACATGTACCACATTTC
Celera SNP ID:            hCV27500211
SNP Position Genomic:     114683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42738):
TGTGACATCATAGCTACCCTTTACCTTGTCGTTGATTCTTCATTTAGTATTTCTTTTCTATAGTTAAGTTCTTGTCTCTCCCTTAAAAAAAAAGATACAC
A
CACACACACACACACACACACATACACATATATACATATAAATATATTTGGTTGTATATTTTTGTTGTTACAAAGGGGCTTAAAACACCCAACTATATTA
Celera SNP ID:            hCV26467900
SNP Position Genomic:     126499
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42739):
TTTTTGTAAAATGACTGCTGACAGCAAGTTCTTGCTGCTCTCCAATCTCATCAGACAGTAGAATGTAGGGAAAAACTTTTGCCCGACTGATTTTTAAAAA
R
GAAAAAAAAAATGTTTTACTATGTGGCCTTCCAAAATAGGTAGTGTTTGCCTATGTGGAAACAACAGCAAACTAACACCAAGTGCCAGAGTCCTGGATGT
Celera SNP ID:            hCV8328531
SNP Position Genomic:     154894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:42740):
GTTCATGCCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGAGAATTGCTTGAGCCCAGGAGTTCAGGATCAGCCTGGGCAACATAGTGAGACCCTGTC
W
ATATATATATATATATATAAATGATTAAAAAAGGCTGTAAATTCCCCGGGGGAGAGATTTTTTGGTCTCTTCATTCACTACTATATCCTACTTCCCAAAA
Celera SNP ID:            hCV26467901
SNP Position Genomic:     132593
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2|-,9)   total(A,2|-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42741):
TTCTCTAGCCCAGAGGCCTTCATGCAGATGAGGAAGTGAATGCAGATAAGCCAGAATGTCAGCAGTAGACTAGAAGAGGTCAAGATGATTAGACTTTCAG
S
TTTTGTCCAGCTCTACTTACCCTTTCAGGGCACCTAGGACTTTACTAAAGCCCCTCTGGGTATTCTGATCTGGGAAAGTGTGTTTTGGTCTAGAATAGGG
Celera SNP ID:            hCV26467902
SNP Position Genomic:     134804
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42742):
CCGCTTCTTGGAAAATGCCTCCTCTTCCCTCTGTGACCTTGGGAGTGACTCACACAGACCCTAAACTCAGTGTTCATTGGAGAAGAGGAGGTTATCTGAA
G
GCTGAGCCCTCTCTCAGCCTGAGGCCCTCGTACATCGAGTCACAGACTTCCTAGGGATAACTTGGGATGGACCACATACTGATTTGCCCCAAATGAATGG
Celera SNP ID:            hCV26467903
SNP Position Genomic:     139919
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,16)   total(G,16|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42743):
ATTTACAATGTAAAGATGGTTTGGAAAGGGGTGATAAATCTCTTTCCCTGCCTTTTACTCACTCACCTGTGAACATGCAAGAACAGGGACTCAATCTTAC
Y
TATCATTTTTCTCCAAATGCCTGACACCCAGCCTTGTGCTCAGTGGGACCTCATGGTCCAGAATGGCTTGGAATCGCAGCACTGAGAGATTCATTTCATT
Celera SNP ID:            hCV26467904
SNP Position Genomic:     142184
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42744):
ATGCTCACAAATTCCCAGTGCCAAAAGCCGCTGAAAGCCCTTTATTGAGGTCAAAAAATAATGATTGCAGTTGGATAATCCCATCTAGTTAAAAAAAAAA
Y
GGCTGCCAAAGATGGCTTTTCTTTAGATAGCACTTACTGTACTTAGGGCATGAGGGTGAGCCAGGTCCCAAGGCTTTCTCCTCCAAAGAGGGTTATTCCT
Celera SNP ID:            hCV26467905
SNP Position Genomic:     148245
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42745):
GCTCATTTAGAGCAGTGACCCTATCTTCCCTTCTCAGGGTCAGCATAAACCCAGCTACATTATGCTGTCACTCCACATAGCTATTGACTTTGATGTTCAG
R
CCCAGTAGCACTGTAGAGGACAAGTCTCCCACAGAGAGTGCTAGCTCTTAGTAAGGAGAGGCAGGCCACTTCTGCGGTTCTAAAGGTTTAGCTAAGGCTA
Celera SNP ID:            hCV15811220
SNP Position Genomic:     42684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42746):
ATTTCTGAAACAATTTAGCTATATCCACTATGATTATAAACTGTGTCTCGACCTGTGTTATTTACATTAGCTGCTTAAAAAAGCATTGAGTTAATTTTTT
W
AAATATCAACTAAAATATCATAGTTCTGTGGTAGACATTGTTTTATAATGAAATAACTGCAACTAGAGAAAACTGTATAAAAACATTAAATTGTCAGTAT
Celera SNP ID:            hCV26467907
SNP Position Genomic:     156329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:42747):
TTATTTGCTAAACGGACCTAACAGGATTCTTGCTGAAGGCAGGCCAGGGTGATCAGCTATTACCCAGGGAATGGTGTGGGGGTGAGAAATTTGGTTAGAC
R
TCAAGAGTGATCAGGTAGTGAGGGTGGGGAATTTTGGCTAAATTGGCTTAGCAGAATTCTTGCTAAAACTGGGCTCTTGAAGACATGCCCAAGGACAGGA
Celera SNP ID:            hCV16229398
SNP Position Genomic:     12982
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42748):
AAATAAAGGTCAATATTTCACTTATAATTCTGGATTTGCAACAAAGTATTTTTAATAAACAACTGTCTCTATTCTGGAGAGAAGGCAGGTTAATTAAATC
M
CATGTGACTAATTAACAAAAAAGAAAACAAATGAAAGTTCCATACTTAACTATTCTTACTAGTTACTTAACTCGAATAAAGTATAACATTTCAAAAGCAG
Celera SNP ID:            hCV26467839
SNP Position Genomic:     4725
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,7)      total(A,7|C,3) ;(C,-|A,-)   Caucasian(C,39|A,39)   Asians(C,23|A,55)   total(A,94|C,62)no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42749):
TTAAGAGAATACTATTATGGGCCTAGCCCCCTTCAAAGAGATAAGTAGATACACGTGACAATACTTGAAACCCTTTAAAGGAAATGTAATAAATAATTTT
G
AGATGTTATTTTTAGCAGGTACCCTAGTAACAAATATTATACTTAATCCATTTTCATTTTGTGGCTGAGTACATTTCTAAATTGCTTCAATATGAGTCAA
Celera SNP ID:            hCV11873116
SNP Position Genomic:     11613
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,10)   total(G,1|-,10) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42750):
GAGAGTTAAATGACGTACTCAAAGACTACAGCTACAAAAAATTCAGGTTCAGCCTGTGCCTGGCTGATTTCAAACCCCCTTTCCATCTCGCAGACTTACA
K
TTCAGGAAGGCTAACCTGTCCAAATGAACTGCTCAAGGGGATAGGCAGTTAGCTTATCTTGCCTACTCTGGATCAAATGTAAGCTGCTGATGTTACATGT
Celera SNP ID:            hCV27527158
SNP Position Genomic:     114673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42751):
AGTAACAAATATTATACTTAATCCATTTTCATTTTGTGGCTGAGTACATTTCTAAATTGCTTCAATATGAGTCAACATTATAATTTTCAGTGCAGCTGAG
A
AAAAATAAAACGTTTTGGATCAGACTTCCTTCATGAGCAAATGCATTAATTGGAATAACAAAGGTTGTTTGCTTTGCTGTATAAACATTATGGATCTGAC
Celera SNP ID:            hCV11873119
SNP Position Genomic:     11739
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42752):
GCAGATGACTGCCCAAGATTGACAGTGTGCATCAATGGTTTGTAGAGATGGTGATCACCTGCTGTGTGTAGGTAGGTGCCGGGTGATACCTCCCTTATAG
M
AAGCAGGCTTTGTGGTAGGCACCTTGGCCTATAAGCTGATGTGTAAAATACAGATCTTGCCTTTGGATCTTATGGTTTAAAGGGAATTCAAGACAAGTAC
Celera SNP ID:            hCV8327160
SNP Position Genomic:     119875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42753):
GAGATGTAAAAGAACAACTTGACCCTCTGTGGCTAGCAGGAACTTAGAGGTGCAGGTGCCTTTCAAGATGGCAGGCCCTTACTGGGTGTTCTGTGAACAT
M
TGTCTCTCTGGAGACATACATACTACTGCCTAGTAGGACTTCTAAGAGAAAGCCAGCTCGATGCCATTGGGAACAGCACAGGAATTAGAAGGAGGAAGCC
Celera SNP ID:            hCV8327161
SNP Position Genomic:     121971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42754):
ACAGTATAGTGGATGTGAAAGTGCTTTGAAAGCTGTAAAGTACTAAGCCAATATTATTAAAGCAGATCAGAGTATAGGAAAGTTTGTCCTTCAGACTCAG
Y
GGTGGAAGATGAGTTCTCAGTCTCTGAAAGAGATTGTTAGGCTGCTGTGCAAAAATATTACTTTTCTTGGGATAATTTACAAATAGAGTGGAATGTTAAA
Celera SNP ID:            hCV8327162
SNP Position Genomic:     122305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42755):
TTTACTGCAATGATGAGAGCATCAAGTACCCACTGAAAACTGGTGAGACAATAAATGACGCTGTGCTCTGTGCCGTGGGGATCGTCATTGCCATCCTCGC
R
GTAAGTGTCCAGACTCTGCTATGGTGGATCCTGTCTGACTTCTTCCTGTATTGTCATATTATAGAATGTCTGAGCCAACAGAGACTTATACCAAGTAGAA
Celera SNP ID:            hCV25750954
SNP Position Genomic:     114373
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,2|G,36)   total(A,6|G,64)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42756):
AGAGGGAATGAATAACTTTATGAATTGGGGAAATGAATTCCTAGTTTGGTTAAAAGCATATTCTATACCTTATTTCCTGTTCAATAAATGGAGCATTTTC
R
TGGAAAAAAGCCAAAAGTTTTATGAATAGTCCCTTACTTTTTCCCATCTGTTAGAAACATTTTTCAAATATAAATTAAAAATGAATCCCTACAAGAATTT
Celera SNP ID:            hCV11862481
SNP Position Genomic:     21041
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42757):
AATAACTTAGATGGGACAGAAACTCTGTTTTACCCTAATAAAATAGAACTTAAGGCTTAGTAAATGCTTCAGACAGTTTTCTCTATGTACCAGTGACCAC
A
AAAAAAAAAAATAAGTATTGTATGACTACAATGTTACATAACTATATACCACGGATATGTGCGATAATAAAAAGAGCAAGAATACCAAACATGAGTAATT
Celera SNP ID:            hCV11862482
SNP Position Genomic:     24029
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,6)   total(A,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42758):
AACCAGATTTCTCCATCCCATGTTTCAGAATCCCAGATTTTTCCCAACCAAGATTCTGACATTAGCATAACAGACTTCTTTGGTTAAGTGTTTTTGAGCT
R
GGCAATTCTAACTATTCAATCTTGAATCTGGTTTTCAGCTTTTTCTGCTACTCACTACAGGAGATAAGAGCCTCTTTCTAACAAGGCTCTCTTGCCGTCA
Celera SNP ID:            hCV16153668
SNP Position Genomic:     42911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42759):
TCTCACCACACACACAAAAAGATTCGTATACAATATGTTTGTTAATTAGCTTGACTTATAGCCATTCCACAATCAATATATTTCAAAACATATACATACT
R
AATATATACAATTTTTATTTGCCAATGAAATAAAAAATTTTAAAACAGTAAAAAAAAATTCTGTTTGGGGATAAGTAATTAAGGATTAGTCAAACATTTA
Celera SNP ID:            hCV26467841
SNP Position Genomic:     7288
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42760):
ACACCATTGGTATTATCAGTAACCAATTATTTCAAGTCTTTGCTCACAGTCACCTTCTTGGTGAACCCTACCCTGGCCACCCTATTTAAGTTGCAGTTTC
T
TTTTTTTTTTTTTTTTTGTAATTTTTTTTAAATTTTTTTTTTTTTTTTTTTTTTTTTTTAGAAGCAGGGTCTCGCCATGTTACCCAGGCTGGTCTCAAAC
Celera SNP ID:            hCV26467842
SNP Position Genomic:     8949
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42761):
GAAAAGCAGTGGCAGGTTTCCTGACCCTTTCTGGGAAAGTCAAAGTGCAGGAACCTCAATAGGCTTTGGTGGTTGCATTCTTCCCCTTTGAAAGGGACAA
R
GCCATATTATCTTGAGAGAAAGACAGATATGCCTTAGGAAGGGTGGGAGAGAATTTAGACACGTGGTCTGTTTTAGGGTCAACTCTCACTTGGGTCATTC
Celera SNP ID:            hCV27529841
SNP Position Genomic:     78769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 211
Celera Gene:                 hCG32716 - 104000117829009
Gene Symbol:                 ORC1L
Protein Name:                origin recognition complex, subunit 1-like (yeast);HSORC1;ORC1;PARC1
Celera Genomic Axis:         GA_x5YUV32W802(30722102..30765735)
Chromosome:                  Chr1
OMIM number:                 601902
OMIM Information:            ORIGIN RECOGNITION COMPLEX, SUBUNIT 1, S. CEREVISIAE, HOMOLOG OF;ORC1L


Genomic Sequence (SEQ ID NO:12371):
TCTATATATATATAAAAGTATCATTAACCTCACTTTACATAGGAGAAAACTAAATTTAAGTAATTTGCGTAAGATTATACTACTAGTATATGGCAGAGCT
GAGGTGTTTTTAATAAGGAAATATTGTTTTTGGCTAGAGTTAGAAAAAAAATTTTTTTTTGAGACGGAGTCTCACTTTTGCCCAGGCTGGAGTGCAGTGG
TGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTGCTGCCTCAGCCTCCTGGGTAGCTGGGATTACAGGCAATTTATATTATATA
TAAATTATGTTATATATAAATTATGTTATATATAAATTATATATGATTATGTATATTTATATATTTGTATGTAAATATAATTATAAAATGTATATATATG
TGTGTGTATATACACATATACAAATACATATATATACATACATACATATACATATATAGCTTTTGAGAACTTCCATGGTAAACATTACCTTACTTCTGGG
GTTCTCAACCATGGGCAATTTTGCACATGCCCATCCCCCTACTTAGAAGGAGGTGTTACTTCCATCTAGTGGGTAGAGGCTAGAGATACTGCTACTCATT
CTATGATGCACAAGCCAATCCTCACACAAAAGTTATATGACCCAAAATGTCAATAGGTTCAGAAATTCTTAGTTTTACGTAATAAAATAATAAATAAATA
ACTCCATCATGGCCATGACCATGTCCATCTTGTTCACCATGGTATTTACACCACATAGCACAGTATGTGACATGTCAATGGCACTTAATATGTATTTATT
CAATGAATGAATCAATAAGTTTAAAGTATAATACCAAATTCTATTTTTTTAAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAATACAGCGGCGTGATCT
CGGCTCACTACAATCTCCGCCTCCTGGTTCAAGGGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGCACCTCCACACCCTGCTAATT
ACTGTAGTTTTAGTAGATATAGGGTTTCACCATACTGACGAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCATGTTGGCCTCCTAAAGTGCTG
GGATTAGAGGTGTGAGACACCGTGCTTGGCCCCAAATTCTTAACCTTCTACTGTTTAATGATACATGTAGGGGGAAAGGTAAATGTTCCTATCTTCTGTT
ATGACACCAAGTGAGAAAAGGTTTTGACTGCATTACCTGGAATCCCTCCTTAGCACATTAAGTAATCTCCTTGTAGAAGGTATGGAGCTGCCTCTCTTGG
ATATACTTATTTTTCAGTGGGATTCCTGTATAAAAATGAGTAGTCTTATATGCTGCAGTGTGAATTACAGTGTTAGAGGAGAGGCCAGTAGAAAGAACTG
TGAAGATGTAAAATATGGAAAACTAATTTTGTCTGAGAGGGCTGGGGAAGGTTTTTATGGAGAAGCCATTCTGCAGCTAGATCTTTTGGGATGGAGCACA
TGTAAAGGGGGCATATGATGCAAGGCAGGGATTAACATAAGATGCACTTGGAAAGGGAGACAGACAGAGGCAGGCTGGGTAAGGCCAACACGAAGCTAGT
AGTCAGACTGAAAACTCCCATGAGGGACAAGGGAAAACCTGCATAGAGACAGTAACAATGTAGATGAAAAGGAGCATTCACACTGTCTATGACAATGCAA
AGGTAGAAGTACTGGTAAAATAAAAACTGGCTTAAAAATGACAATCAGGAGACTTAGCACCATACTTACCCCCATTTCGGTTCTGGCTCTTGATTTTTCG
ATAGTCATTGTACAAAGGTTCCAAGTACTTGTAGCAATCAATTGCAGTGCCTGTCAGCCTCATGTAAAGTGCCCCCAGCATGCGGACATACCTGAGAGAC
AGATGACAGTGAAACAACAGGCCATCCTAGAAGTTCCTGAGTTTTACAACTAGCTGTTCTCATGACAGTAGTGGATAAACATGTTCTTCTCTTTGGCAGG
TAAGAAAGCTGCAATTGTGGAGGTAGAATGCAGCAGAAGAAAGACAGCTAAAATATGGAGACCTGAGTTCAAGTTCCCATGCTACCATTTATGGCTGTGG
GAACATCATACATATTGATCAACTTTCAAATATATCATCAGTAAAACTAGAATAAAACCTATTTACCTCACAGGATTACTCTAAGAATCAAAAGAAATAC
TGAATTTTATTTTATTTTTTAAGGCAGAGTCTTGCTCTGTTGCCCAGGCTGCAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGAT
CAAGCAATTCTCATGCCTCAGCCTCCATGTAGCGAGGATTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTGTATTTTTATTTATGTATTTATTTATT
TCTTGAGACAGAATCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCAATTCACTGCAGCCTCCACCTCCTGGGTTCAAGCGATTCTCCTGC
CTCAGCCTCCCAAGTAGCTGGGATTATAGGCATGTGCCAACACACCCAGCCTAATTTTTGTATTTTTAGTAGGGACCGGTTTTGCCATGTTGGCCAGGCT
AGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTTAGCAACCATGCCTGGCATATTTTTGTATTTT
TAGTAGAGACGGGGTTTCCCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGCAATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGG
TGTGAGCCACCACACCTGGCCATATATTGAATTTTAAAACAGAAAGAAGATATATTTAATAACAATACAAGAACAAGTACACATAAACATGACTGCTGGT
TTTGGAAAAAAGTAAGTCATCTGGGTTCAAATTCTGACTCCGTAATTTACTAAGTCTGTGACACTACTGGTCAAATCATGTGTTTTCTCAATCCTTGTAA
AACGGAGATAATGCTACCTAATTTATGGCTTGGTATATAAACAAGAAATGCATTGAAAGTGCTAAGTATAGCACAGAGCACACAGTAAGTGCCTAACAAA
AGTTAGGTATTTTCTAGCTGTTAATGCTTTATTAGAGTCGTTCCAGCCAGGGGCGGTGGCTCACGCCTCTAATCCCAGCACTTTGGGAGGCGAGGCAGGT
GGGTCACCGGGTCAGGAGATCGGGACCATCCTGGCTAACGCGGTGAAATGCCGTCTCTAGTAAAAATACAAAAAATTAGCCGGGTGTAGTGGTGGGCGCC
TGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGCCGAGCTTGCAGTGAGCCGAGACTGCGCCACTGCACTCCAGCCTG
GGCAACAGAGCGAGACTCTGTCTCAAACAAAAAAAAGAGTTGTTCCTCTTCCCTTTTTCCTATATCTAACTACTTAAATTTCCTCTTGGGTAACTAGGAG
GCTTTTGAAAGTCATAGTTTCTTTGTACGAGAAGCAGAATACTGTAGCAAAGAATATGAACTCTGAAGCCAGATTTGCCACTTACTAGCTGTTTGAACTT
GGGCAAAATTAATTAATCTCTGTGCCTCAGTTTCCTCTCCTGTAGAATAGGGATTAAAAGTTTAGAAGGTTGTTGTGAAAGTGAAATGAATTATTATATG
CAAAGCCCTTACAGCATGGCACATAAGAAGCTATTATGTCTGTCTCCTATACTTGTTTGTGATTTCCTCGAGAATCGGTAATACGGTAATAAGCTGACAT
TTTCTAGGTGTTTACCATGCAGCAAGTGCTGTGTTCAGAGATCTGCATGCATTACGTTCTTTCACTCTTATATTATAGTCACCATTTTACAGATAAGCAA
AGTTTAGAAAATTAAGTAACCTCTCCAATGTCATAGTTAATGGGCAACAGAATCTGGATGTGAACCCAGATCTTACACCTCTTAACCACCACCTTTTGTT
GTTTGATTTTCACCCCTGAGCGTCCAGTGCCTACCAACATATCAGGCACTCACTTTTGCTTAATATGTATTTAGTGAATCTGTGAAATCCTTTTTCAGGG
AAAAATTACCAAAACTGAGAAAGTAAAGTAGAAGATTAATACAATCAGAACAGATAAAATACAAACTTGGCAGGGTGTGGTGGCTCATGCCTGTAATCCC
AGCACTCTGGGAGGCCCGGGGGGGGAGGGGATTACCTGAAGTCTGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACA
AAAATTAGCCAGGCGTGATGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCACTTGAACCCAGGAAATGGGGGTTGCAGTGGG
CCGAGATCGCACCACTGCACTCCAGCCTGGGCAACACAGAGAGACTCTGTTTCCAAAACAAAAAACAAACAAAAAATACAAACTCAAGGGCTCAAAAGCA
AAAATCTGGAGTGGAACTCTCTAGAAATGAGATACATTGTGTACACCCCTCTTAACCAAAGCCCAATTCTAAACCGCCAAAATTAAACCTCTTATATTAG
CTAGTGAACATTGCACTCACTTGAAATCTTCATTTTTGATAAACTCTACAATGATATCCTTCTCGGGTTGAATTTGAAGCATCTTCAAGGTTAAACACAG
AAAGGGTGTTGGTTTTATGTTGCCACCATAGACRCCACCCACAAACCTTAACTCCATGGCTTTATCGACTACAAGTTCAGCTAAAAAACAAAAACAATAC
AGTAACATATTAGGGCTAAGCTCTTCCTAGTTGGAGTGGAGTTAGTTCAAGCTTTGGTTCTCCTAAATATACATCAACAGTGTAATATTAGGAGAACGAA
TGTGTATTAATAACAGTAACGACAACAGCTAATATACATTGAGAATGGATAATAAAATAGGTACCCTGCTAAGCTTTTCATATTATCTCACTTAACCTTT
TTTAACAAGTCATGAAGAAAGTTCTAGCAATGTTCTTATTTCCAGGTAAGGAAAATGAGGGCTAAGAAAGGTAAAGTGACTTGCTCAAGGTCCACAGATT
GTCACAGGACATGGATTTAAAGCCACAATTCAAATCGGAAGATTACCTGGAAGACTTCTCTGAAGCACTGATATTTATAAATACTGGAACCGGCCCAGAT
CTAAGAATAGTAAGATCATGAATTTGGTTTCAGGCATATTAACGTTAGGTCCTTAAAGACCTTCAACAGATTGTGTCAAAGTGTTATATCCGGATCCCTG
AGCTTAACACTGTTGCAACCCAGCCTGCTATCATTAAATACGGAATAACTCACAACACCCAACTGAGACAGCCTTCAGAATATGACCTTACCAGATTCAT
CTGTGCCTCTAATACTCAACACAAGACGAGGCACTTAGCAGGCACTCAAAATTTTTCTGAATGATCGACATACTCCGTTCCAGTACCACCCCCAGAGGCC
AGTCGCTAGTCCTACCCGCGCTCGGTCAGGAGAAATGGGCCACAAGGGGGCTGAGAGGCGCTCCGCGCGCTTCCACTTACCTGTAAGTCCAAAGCACTCC
TCTTTCCAGTACTTGGACTCATAGATTCGCGTTCGAATGATCTTCTCCACCAGATATTGAGGGTTGGTGCCATGGATGCTGTGCGCATCCTTCACTGTAC
GGTTAGCCATTTTAGAATGCCTTCAATTCTATTTCCGTCGGATCCTTTAATGCCTCACATCCAGGTTCAGAAAAAGCACCTAGAGGAATGGAGAAAGGTG
GAAGAAGTTTCACTAAACAGCTTAGGCGACCATCTTGAAGCCGGAAACACCGTAGTGTAAAGGGCTTCCGCTCCCCGCGTCGCCTATCGAATCAATGATG
GCGGCTGCATGTTAGCGGATGTACGTCATGCGCCCCTCTTAGGTGTACGGARTGGGCGGGGCGAGCTAGTTGGYGTCGCAACGAAGGGACGGTCTGGGGG
CGGGGCCACGCCGATTGGCGCGAAGTTTTCTTTTCTCCTTCCACCTTCTTTTCATTTCTAGTGAGACACACGCTTTGGTCCTGGCTTTCGGCCCGTAGTT
GTAGAAGGAGCCCTGCTGGTGCAGGTTAGAGGTGCCGCATCCCCCGGAGCTCTCGAAGTGGAGGCGGTAGGAAACGGAGGGCTTGCGGCTAGCCGGAGGA
AGCTTTGGAGCCGGGTGAGTGTGGCGTCCAGCGGGCTGCGAGGGACTCGGGGGAGGGCGCATCGGAACCTCTGAAACTGAGGACGTTCTCTGTAGACTCA
GTCATTGATTCTTTTAGCTGACATGTACCAAGCGCCTGTTCAGTGCCAGGCACTGTTCTGAACTGTTAAGAGCGTTCCTCTGTTCCACACTCCGATTCCT
AAAAGGCTTCCCGCGCTGCAGGGAACTGAGTTTGCAGGGGGGAAGGCGGAAGCCAACAGCCTAGAAGCAGGAGCATTCCTGCCCTCCGCACCCTGATGCT
CAGTGATGACTTTCCCTCCATCTGCATTTGTAAAGCACTCTACTTGTTTCGTTCTTTGAGCTATAGTGTAGGAACCACTACAGGGAAGGCGGAGCAGAGG
TTATTACCCCATTTTACGGACGTAAATTGCGCCCAGGGAGGGACGTGTCTTAGGTCGCTTTTCGTGACTAAGCAGTCTGGGCTCCTACCCAGATCTTTTT
TTCAGATGAGCTCCTAACTGCTGGGCTGTCTGTCATTCACCTTCTTTTCAGAAGAGAAGTCTGGTGGCCCCCTTCCTACTTCTCTTTTCTAACCCCGGAA
TTGAAGAGTCTTCTGCTGTGACAGTTGGAAAAGGCATTCTTATCCTGATCTATTTGTGAAACTGCAATGATTATATACGATTCTAGTTGTCTGTAACACA
TGAATAATAGTACCCTCGTCTCTGCTGTGTTAGGTGGGCTGGAAATGCCAAAGGAGTTTCCAATATGACAGAATGGTTTAAGTCCCTTTGCAACAGTTTT
TAACTTTAATGGAGGGCAATATGTGGACTTTAGGAGGTTTGTGAATCTGCCGAAATTGAATGCAAAATTTTGCTTGAATTATGTTAGTTCCATAGTATTC
ATCAAATGATACTTAATAAATAAAACCACTGTACCTTACAAATAAATGCAAGGGATTAAGGTAGTGGGAAAGTGGATTTACCATTTTGCATTTTTTCACT
TAATCTTCCATTATCCTAAAATAGTGCCTGGCACACGATGGGTACTTAATAAATATTGGTTGAATAAACGGAAGATTCTATTTTCTCCATTTTGTGGGTA
AGCAAATTGAGGCCCAATCCACAATGTTCAGTCAGTGGCTGGGAAGCCTGATTTATTGTAATAAGTACACCAAAAGCAAGCTCTCAGTTACATATTAACA
TTATCCAGTTTCACACAGTGTGTTGTAAGGTGAAGTAGTTAAGAGCACAGTAATTGCAGTCTGGCTTTTCCGGGTTTGAGTTAAGGCTGTGCCATCCTGT
ATAAGATAGGATAAGTTATCACCTTGAAGTGATAATAACATCTACTTTTCTTTTTTTTATTTTGAGACAGAGTTCTGCTCTGTCACCCAGACTAGAGTGC
AGTGTTGCGATCTCGGCTCACTGCAGCCTCCACCTCCCGGGTTCAAGTGATTTGCCTGCCACCATGCCCACCTGATTTTTGTATTTTTAGTAGAGACGGG
GTTTCACCATGTTGGCCAGGCTGGTCCCGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCTCAAAATGCTGGGATTACAGGCGTGAGCCACTGC
GCCCAGCCTTTGTATTTCTGTTTTATCCTTGTGTGCATTTTATAAGCGTCATGAAGACATTTACAACCCCTGTATCACTGTCTTTTAATTTCACTTTGTT
AGATRTTTTACACCTATTGTTCTGCCTTATTCCTAGTATTTCTAAATGTTACAGTTTCATTTCTTAGGAATTGACCTTTCTGTTTTCCTGGATGGAAAGA
GATACGGCATAGTACAAGATGGACACAGATGATACTAAATTGCCTGTGTGTAATCTTCGTAGACCATGACTTCAAATAAAATGTTTTCTTAGTCTAAAAT
GTATGGGAGTGTAGCAGGGGCAGAAAATAAGTCTGATCTCATTTGAAGGGAGGGACTGACTATGTCTTAGAATCCATCAGATAAATACCAAATATTTATC
ATGGTAACTCAGAGTTTGGACTCTTCCACAGAAGCCATGGCACACTACCCCACAAGGCTGAAGACCAGAAAAACTTATTCATGGGTTGGCAGSCCCTTGT
TGGATCGAAAACTGCACTACCAAACCTATAGGTGAGTGATGGGGTCCTTTGGTTGTCCTGGAAATACAGCTTCTCAAGCTAAACAGTCAACTTGTATCTA
GCCTGTTCTAATTACTACAGATTGACCATGAATGAACAGGAGATTAGAACTGATTGTAAGGAGGGTTTTGTTTGATGCAAGAAGATGGTGGGATAAATAT
AGCAGTTAGTGATGGAGCAAAATTATGGCAGGCTCATAAAATTTTGTATGTAGGATAATGTCATGTCTATTTAAGGTGAGTTCTATATAACTTTTGATGA
AAACGAGATGATAGATGTTTTTACTATGTCTTTCCCAGCCCTGGAGATCTCTGACAATTTGACATTGTTACTGGGCAGCTTGACAGCCTTGGGAAACATT
TGTTGTGGGAAGCATTTGTTGTTCTTTGTCAATAACTGAGAGGAATTAGGGTTCCTAATAAGACCTTTGGATTCATTACTCAGCTAAAACAATTCATTCA
ACCCATTTTGCCTATTCTTAAATATAACTGGGCGAATTGGTTTCCCAGTAGGAGAGTTGGTCAGCAGAAAGAAATCAGGATTGGAGAGCCCTCTCCTTTG
TGCCCAGGGGATCTGAAGAGCTTGACCCACTTTAAGTTATTTCCTAATGTGCTTCTCTGTTACTTCCTAGAGAAATGTGTGTGAAAACAGAAGGTTGTTC
CACCGAGATTCACATCCAGATTGGACAGTTTGTGTTGATTGAAGGGGATGATGATGAAAACCCGTATGTTGCTAAATTGCTTGAGTTGTTCGAAGATGGT
GAGTTTGGGACTGGAATAATAAACCATTCCTTGTCATGAATGATTGGGAGGTGGGGAGATTGTGGATTCTTTTGTTCACAGCAGTGTGCAGGGCACATTA
GACTGAGGTGGGATCACGTAAGAACTAGCTGCGTCTTCTTCCATCTAAAAAATTTCTTTACTCACCAAAGCAGTATTGAGTAAAACGGAACTGGAAGGCT
CAATAATTTAACTTTTTCATTATTTTGGGGAGTAAGCAAGGCTATTAAGGCAGAATTGGGGGGGATGGAGAGAATGGATGAATTTGGGGGAAAGGGAGAA
GGAAAAAACAGGTAATTTGTACTATCATAGAGATGTGTCCTTTAGTTTTGGCATGAAGGTTAGTAATATATTTTGCAAGTGCTACTTCGTTACAAGTGAA
GAGGTAAGTTGGATTTGGAAGGTGTAGCAATTGGGGTTTCAGTCAGGGAAAACAAAAACACTTAAGATATTTTACCCAGAGGAACTTGTGTGTTAATGTT
GGAAAGGCTAGAAGAAAAGGTGACATTTACCAGAGATGAGTAAGTGCAGGAAGCCACGGCTGCCCCTAGGCTGGAGGAACAAAAGGGAAGGTGGCATCAA
CCAGAGCCTACAAGCCCACATCGAAAGCCTTAGCTGATTTGCTGACCTTCTAACCCTCTGCAAAACAAGAGGAGAGCACAGAAATGTGGGAGTGGGGCAC
AGCTCCACAAGGAGGATTAGGAAGATAGCAATTTGAAACTATCTAAAACTGCCTCGTTCAAGAGACAGAAGAAGGGCATGGTCATTAGGTAATCCTGTGG
TAGTCTGTATGCCCAAGAGAAGGAACTGATAGACTGAGTGGATAAAGATGTTTTATATTACTATAGTCCCCCTTATCCGTGGTTTCACCTTCTGCGATTT
CAGTTACCTGACAACAACCATAGTCCAAAAATATTAAATGGAAAATTACAGAAAAAAACAAGTCATAAGCTTTAAATTGTGTGCCATTGTGAGTAATGTG
GTGAAATCTCACGCTGTCCCACCTGAAATGTGAGTCATCCCTTTGTCCAGTGTATCCGTGCTGTACAGTATGTGTGTGTAGGAAAAATCATAGCATATAC
AGGGTTAGTGGCAGCATCTGCAGGTTCAAGCATCTACTGGTCTTGGCGCGTACCCTCAGCAGATAAGGGGAGAGTACTGCACATAGATAAGGAGGATTTT
GGACATACTTTCTCTTTGACATACTTAGAAGTATGGAGAAAAACCTCATCAAACTAATGTCCAGTAGAGGCAGCACATCAGAATCATGGGCTTCGGTGTA
TAGATTCTAGAATCCTCTCTTGGTGCTCCATTGGATGACTTTAGTCTTTCTCTGAAGAAAGCTAAGCAGGGAAGAGAGGATGATGATGAGGCACTAATGA
GTGTTCTTTCGGTTGGAGCTATTGCTGGTACGGAGTGATACTAATCGTATGCTGTAATAATAAAGCTGAAGATTGCAAGCATTTGCCAGAAGTCATCTCA
GTGGTTGATGCTGTAATTCTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGACAGTGACAGAATCTTGCTGTGTCACCCAGACTGGAGTGCAGTGGC
ACAATCTCAGCTCATGCAGCCTCAACCTCCTGGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATGACAGGCACCTGCCACCATGCCCA
GCTAATTTTCTTTTTCTTTCTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTGTGTCGCCCAGTCTGGAGTGCAGTGGCGCCATCTCGGCTCACTG
CAAGCTCTGCCTCCCGGGTTCAAGCCATTCTCTTGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGCACCCGCCACCATGCCCAGCTAATTTTTTGTATT
TTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGAGCTCCTGACCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGCCGCCGCACCTGGACAATTTTTTGTATTTTTAGCAGAGATGAGGTCTCACCATGTTGGGCAGGCTGGTCTCCAACTCCTGACCTCAAGTGATCC
GCCTGCCTTGGCCTCCCAGAGTACTGTGATTACAGACGTGAGCCACTGCACCCAGCCTGATGCTATAATTCTTGCTAGGATTTTTGTTTTGCTGCTGTTT
GATGCTGTCTTTATAGTCACTGATTTTTATTTGTTCGTTGCCTGTGTTTAGAGTAGCTCCTCTCAGAGGCCTTTTTGTCATTCCTTTGCCGGCTGATAGC
ACCATTAGGAAATGGAGCAATCCCAGAAGAGCGGGTGTGTGGGCTGGAATTAGATTGCTGCAGTTGGTCATGTGACCTTTGACAAACTCTTTAAGGTCCC
CCGTCACTTGATTTCTTTGCCTGAAAAGGGGGATAGCTGTAGTACCTACCTTGTAGGGTTATTAGAAGGATTAAGGATCGGCCAGGTGTGGTGGCTCATG
CCTGTAATCCCAGCACTTTGGTAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGATTGAGACCGTCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAA
AATACAAAAAAATAATTAGCTGGGCGTGATGGCGGGCGCCTGTAATCCCAGCTAATTGGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGCGGAG
CTTGCAGTGAGCCAAGATCAAACCACTGCACTCCAGTCCAGGTGACAGAGTGAGACTCCGTCTCAAAAAAATAAAATAAAATAAAAGATAACACATGTTG
GGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGGCCAAGGCGGGCGGATCACTTGAGGTCAAGAGTTTGAGACCAGCCTGGCCAACAT
GGTGAAACCCTATCTCTACTAAAAATATAAAAATTAGCCAGGCGTGGTGGCACAGGCCTGTGGTCCCAGCTACTCGGGAGGTTGAGCCAGGAGAATCTCC
TGAACCAGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGGGACAGAGCAAGACTCCGTCACAAAAAAAAAAAAAATTTT
GGCGGGAGGTGGTGGCTCATGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGTAGGCAGATCACGTGAGGTCACGAGTTTGAGACCAGCCTGGCCAACGT
GGTGAGACCTCGTTTCTACTGAAAATACAAAAATTAGCCAGGTAGGATGGCAGGTGCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGCAGAATCACT
TTAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATGGGGCCACTGCACTCCAGCCTGGGTGACAGAGACTCTGTCTCAAAAAACAAAAAACAAAACCAC
ACATGTCAAGGGTTAAGCACAGTGTCTGGCACATAGGAATTGCTCAGTAAAGTGTCCTTGAGTTGTCTTAACCTTTCCCTTTCCACCAAATTCTTTCTAG
ACTCTGATCCTCCTCCTAAGAAACGTGCTCGAGTACAGTGGTTTGTCCGATTCTGTGAAGTCCCTGCCTGTAAACGGCATTTGTTGGGCCGGAAGCCTGG
TGCACAGGAAATATTCTGGTATGATTACCCGGCCTGTGACAGCAACATTAATGCGGAGACCATCATTGGCCTTGTTCGGGTAGGTGATGCCACCATCCTT
GGTTCTACCTTGAAGCTTATTTCTGTCTGCCTCCTGAACTTCATGACCCCAGAAATATTACCGGCTCTAATACCCCATAGGGAATGCATTATTTCCTGTC
ATCTTCTGTGCTTGCCTGTCTGTTTCATCTCAACAGATATTTATTGAGAGCACGTATCATGTGTTAGGAGCCTCCTACAAGAGGTGACATTTGGGTTGTG
ACCTGAGGGATGAGCAGGAATTAGCAGATGTATCTCAGGGGGATGTTATATTTAGCTATGACTGTGGCATGCATAAAGCATTGTGAGGCTGAATATGCTG
GCTTAAACGAGGACTGCACCTTGAGTAAATCAGTACAAAGAGTGCTAGTTGCTACAGACAAATTTGTATGACAGGATTTCTTAATAAATCAGGTGCTAAT
GAGCGGCTGGTTTGCAGGCTGAAGTAAGTCACTGGTTATGAGTTTTTCCTGAAGTGACTTCAGGCTCCCCAGCATGGGATTAGGTTGTGATGTGAGGTGT
GGTTGTATGCTGATTATGTGGTTCATTGAGCGTTAGGGTAGAGACTCTCGTCTGGCATGATTATCTTAATTTATCTTTGAGTTAAATGAGTGAAGGAGAG
AAAGCTAAAGGAGTGTGAGGCAGATGCAAAAGTTGAGGCAGCAGGATGAGTATAYGCGGAGAGGCACAGGGCTTGGAGCATCTGGGCAGGAGCACAGTGG
TGGGAATAGCAGGACTGTGACAAGACCTCTTCAAGGAGTATTGCGCACTCTGTAGGTAAAATGAGGCCAGATCTTAGAAGGCATTGAAAAATTAGTTTAA
GTAATTTGGTCTTGCTACAGTGGGAGCCATTATTGGCTGTTGAGCAGGCGAGCATGTTTAGATAAGTTTGTGGGGAAACTTGGCATAGGCGAACAGAATG
GACTGGAAAAGAAAGCAATGGTAGGGTATAAGAATATCAGCTAGGAGGAATCTGTGAAAATAACCCAGGAGTGAGAGGATGCATATTTGAACTAGGGTGA
TAATAATAGGAATTGAGAGATGAACAATAAACATTTTTAAAATGAAATGAAAGGAATAATTTATTTCACTGATGTCTTTAAAGTGATTAATGATAAAATG
AGTAAATACTCAGTAAATATTCATTATTATGTGTTTTTCTAGCAATATGCTATGCCATGTCTATGCGTCTTTAGATTGGAAAGGTAACATTTTAGGTACA
GATGTGGACTTCAATGTTTTTAATTGTAGCTCTGATGGAATACTCCTTGGCTCTCTTGGGGCTCATCTCTTCCTACTTATCTATACTTCCTAAATTCAGG
TGATACCTTTAGCCCCAAAGGATGTGGTACCGACGAATCTGAAAAATGAGAAGACACTCTTTGTGAAACTATCCTGGAATGAGAAGAAATTCAGGCCACT
TTCCTCAGAACTATTTGCGGAGTTGAATAAACCACAMGAGAGTGCAGCCAAGTGCCAGAAACCCRTGAGAGCCAAGAGTAAGAGTGCAGAGAGCCCTTCT
TGGACCCCAGCAGAACATGTGGCCAAAAGGATTGAATCAAGGCACTCCGCCTCCAAATCTCGCCAAACTCCTACCCATCCTCTTACCCCAAGAGCCAGAA
AGAGGCTGGAGCTTGGCAGTAAGTTGTGGAATGGATCACCGTGGGCAATACTGGGGCTAAAGGGTTATGTGATAAAAATGATAATTTATGGGAAAGTATT
GAGTTAGTGATCACAGTGCACTATAGCCTGGAACTCAAGTGATCATGCTCAAGCAATCCTTCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAAGGGTAC
ATCACTGCACTTGGCTCCATTTTCTGGGTTTTTTTGTTTTTGTTTTTTGAGACAGAGTCTTGCTGTGTCACCCAGGTTGGAATGCAATGGCACAATCACG
ACTTATTGTAGGCTTGACCTCTTGGGCTCAAATGATCCTCCTTCCTCAGTCTCCCAAGTAGCTGGGACTACAAGTGTGTACCACTATGCCTGGCTAATTT
TATTTTAATTTTTTGTAGCAAGAGGGTCTTGCCATGTTGCCCAGGCTGGTCTCAAAGTCCTGGGCTCAAGTGATCCACCCGCCTTGGCCTCCCAAAGTGC
TGGGATTACAGGCATGAGCCACCATGCCCAACTATCAAAGTTTGTGTTTAATTTTAGGACTTCTCCCTTTTTTTATTTAATTTTTTAAATATGTGAAACA
TTAATATAATTCGAGTCAAAACTACTTAAATGTACCCAGAAAAGCACTACTCCTTTCCTTGTCCTCCAACCCTGCTTACTCCACCTTCTATATGTTAATT
AATTGTTTCCCTTTCTGGTTTATCTTTCCTATGTTTCGTTTTGGAAAAATCAGCAGATACATATACATATATGTATACCTATATGCAGACACACATATAT
TTTTATTTTTCGTTTTCTTACCAAAAGGGTAGTATACTGGATATATTCTTTTCCAACTTGCTTTTTCCCCTTACAATGTATCTGAAACTCACCCCACAGC
CTTTCTGAGAGCTCATCCTCATCTTGTTGTAGTCATTCATCCTTTTTTGAATTTTTTGTGTAGGTGTCAACTTCAAGTATAAGTTACTTGTATTCTTGAT
AGCTCTATAGTACAGTATGTGTTTTAGGAGCTGAATATAAATGTATAAAACATTTAGAAAATGCAGCACAAATATTAACTAATCTGTAATATCACCTTCA
GAAATTAAGGGGCTGACTGGGCATGGTGGCTCACACCTGTAGTCCCAACACTTTTGGAGGCCGAGGCGGGTGGATCAACTGAGGTCAGGCATTTGAGACC
AACCTGGTCAACATGGTGAAACCCCGTCTCTACTAAAAATGCAAAAAATTAGCCAGGTGTGGCAGCACATACCTGTAATCCCAGCTACTCGGGAGGCTGA
GGCAGGAGAATCTCTTGAACCTGGGAGGCACAGGTGGCAGTGAGCTGAGATCACGCTATTGCACTCCAGTCTGAGCAACAGAGCAAGACTCTGTCTCAGA
AAAAAAGAAAGAAAGAAACAAGGGAGTTTTTCTTTTTTTTTTCTTTAGGTCCTCATATGTCCCCTCTTCTTCCTCTTTCAACTCTGTTGAAATTTTACCT
TTCTTTCAAGGTATGTCTCAAAAGCCATCTTTATGAGCACTCAGGTGCTTCTGGACACTTATTTCACTTTATGTAATATAATAGGCAGTCATGTGTATCA
TCTGTTAGACTAGAGTGTTTTTTGTGTTGGAACCAGGATTGAGCCTCATTCAGCTTTTGTTTAACCTCAGCCCCTGGCACACGCCTGCCTTTTTAACTGC
TCAGTTGGTATCTGCAAATGAGCAGCTGGGGTCCTTGGTGCTGTGGTCCTCGTGATGAGGGAGCAATTCCAGACAGTTTTGTGTATTCACAGAACCAGTG
GATTGTCCCCAGGAACCCCACTTCTCTCTATTGGCAGATATAATCTGGGTTAAGAAAAATCTTGGCCTCATTGTTACTTGATAGCATCTCTAGTATAAAT
CTCTTCAAATGTCATTGAGTTAGGGTTGAAGGCATGCGATGTCACCCCTGATTGAGACCCACTGTTCTGATAGGTTATTTCAGGGAAACCTGTTAGAGAT
GAGAAAACACTCCATTTATCTGCAAAAGCTGACTTAAAAGTTGACTTATGGTTCTAACTAGGAAAATCACTCCTAAAATTTAGGTGAGAGATGAAAAATT
ATTAGAGCTACCTGGGCTGGAGAAAGCAAGCCTGGAATGATTAAAAATATAGATAATTCCTGTTTTACATATAACTCAGTGGCTGAATTTGGCTGTGATG
AGATTGTGGGTTTGTATATTGTTAGGTAAAAAATTTRCACATTGTGATGATTTCTCTTAGACTTAGGTAACCCTCAGATGTCCCAGCAGACTTCATGTGC
CTCCTTGGATTCTCCAGGAAGAATAAAACGGAAAGTGGCCTTCTCGGAGATCACCTCACCTTCTAAGAGATCTCAGCCTGATAAACTTCAAACCTTGTCT
CCAGCTCTGAAAGCCCCAGAGAAAACCAGAGAGACTGGACTCTCTTATACTGAGGATGACAAGAAGGCTTCACCTGAACATCGCATAATCCTGAGAACCC
GAATTGCAGCTTCGAAAACCATAGACATTAGAGAGGAGAGAACACTTACCCCTATCAGTGGGGGACAGAGATCTTCAGTGGTGCCATCCGTGATTCTGAA
ACCAGAAAACATCAAAAAGAGGTGACCAGGGACATTACCCACAGAGCAAATTGAAATCCTTCACATCACGTGAAGTATGTGAGTCATAGTCAAAAAAGTT
AGAACAGTAGTTGAAAAACCTATGTCACAGAAGTAYTGGGGAGCTTTCTTAAAATACAGATTTYTAGGCCTCTTMCCACACCTAGTGAGTCAGACTCCAA
GCACTGGCCCTAGGAATCTGTATTTGGAAATGCTCTTCAGATGGTTCCAGTATACCGAGCTGTTATTTGGGGATCATTGCTATAGAAGATAACTTCCCAA
ACCTGCATTGCTATCCAGTTTGGGATTTCATTAGTTCCTGTGGCTTTTTGCCACACTTTAACAGTCATTTTTTAAAGCAGTTTTTCATTGTTGTTGTTGT
TTCATTTTATTTCAATAGTTTTTGGGGAACAGGTGGTCTTCGGTTACATGGGTAAGTTCTTAAGTGGTGATTTCTGAGGTTTTGGTGCACCTGTCACCTG
ACCAGTGTACATTGTACCCTATATGTAGTCTTTTATCCCTCACCCACCTTCCACCCTTCCCCGAGTCCCCAAAGTCCCTTATATCATTCTTATGCCTTTG
CATCCTCATAGCTTAGCTCCCACTTATAAGTGAGAACATATGATATTTGGTTTTCCATTTCCAAGTCACTTCACTTAGAATAATGGTCTCATCTCCATCC
AAGTTGCTGGAAGTGCCATTATTTCATTGTTTTATGGCTGAGTAGTATTCCATGGTAAATATGTACCACATTTTCTTTATCCACTCATTGGTTGATGGGT
ATTTAGGCTGGTTCCATATTTTTGCAATTGCAAATTGTACTGCTATAAACATGCGTGTGCATGTGTCTTTTTTTTAATATAATGACTTCTTTTCCTTTGG
GTAGATACCCAGGAGTGGGATTGCTGAATCAAATGGTGGATCTACTTTTAGTTATTTAAGGAGTCTCCACACTGTTTTCTATAGTGGTTGTACAAGTTTA
CATTCCCACCAGCAGTGTAGAAGTGTTCCCTTTTCTGGCTGGGCGCGGTGGCTCACTCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCGGGCGGATCAC
AAGGTCAGGAGATCAAGACCATCCTGGCTAACACAGTGAAACCCTATCTCTACTAAAACATAAAAAATTAGCCGGGCTTGGTGGTGGGCGCCTGTGGTCC
CAGCTACTTGGGAGGCTGAGGCAGGAGAATGCTGTGAACCTGGGAGGCGGAGTTTGCAGTGAGCGGAGGTCGCGCCACTGCACTCCAGCCTGGGCGACAG
CGAGACTCCATCTCAAAAAAAAAAAAGAAGTGTTCCCTTTTCACCACATCCACACCAACATCTATTATTTTTTGATTTTTTAAATTATGGCCATTCTAAC
AGGAATAAGGTGGTATTTCATTGTGGTTTTAATTTGCATTTCCCTGATAATTAGTGCTGTTGAATATTTTTTCATATGTTTGCTGGCTGTTTCTGTATCT
TCTTTTGTGAATTGTCTATTCATGTCCTTTGCCTACTTTTTTTTTTTACCTTTTGTTTTTTTTTTTGAGCGGGAGTCTTGCTCTGTTGCCCAGGCTAGAG
TGCAGTGGTGCGATCTTGGCTCACTACAACCTTTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAACCTCCTGAGTAGCTGGGACTATAGGCACTCACC
ACCACGCCCGACTAATTTTTGTATTTTAGTAGAGGTGGGATTTCACCATGTTGGCTAGGCTAGTCTCGAACTCCTGATCTCAAGTGATCCACCCATCTCA
GCCTCCCAGAGTGCTGGGATTATAGGCGTGAGCCACCGCACCCAGCTCTTTGCCCACTTTTTGATGGGATTATTTGTTTTTTTCTTGCTGATTTGTTTGA
GTTCCTTGTAGATTCTGGGTATTAGTCCTCTGTTGGATGCATAGTTTGCAAATATTTTCTCCCACTCTGTGGGTTGTCTGCTGATTATTTCTTTTGCTGT
GCAGAAGCTTTTTAGTATCATTAGGTCCCATTTATTTATTGTTGTTTTTGTTGCATTTGCTTTTGGGGTTCTAAGTCATGAATTCTTTGCCTAACAATGT
CTAGAAGACTTTTTCCAATGTTATCATCTAGATTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCTGACGCCCAGGCTGGAGTGCAGTGGCAT
GATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTACCAGCGCGAGCCACTACACCTGG
CTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCCACCTGCCTCAGCCTCCCAAAGT
ACTGGGATTACAGGCGTGAGCCACTGCGCCTGCCCGTTATCTTCTAGATTTTTTATGGTTTCAGGTTTTAGATTTAAGTCTCTGATCCATCTTGAGTTGA
TTTTTGTATAAGATGAGAGATGAGGATCCAGTTTCTTTCTTCTTCTTTTTTTTTTTTTTTTTCTTTTTTTGGAGACAGAGTTTTGCTGTTGTTGTCCAGG
CTGGAGTGCAATGGCACGATCTCGGATTACTGCAACCTCCRCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGATTACAGGCA
CCTGCCACCATACCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTGGCCAGGCTGATCTCAAACTCCTGACCTCAGGTGATCCAC
CCACCTCGGCTTCCCATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGATCTCAAACTCCAGACCTTAGGTGGTCCACCCACGT
CGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGGCCGGCCCCAGTTTCATTCTTCTACATGTGGCTTGCCAATTATTCCAGCACTATTTGT
TGAACAGGGTGTCCTTTTCCCACTTTATGTTTTTGTTTGCTTTGTCGAACATCAGTCGGCTATAAGTATTTGGCTTTATTTCTGGGTTCTCCGTTCTGTT
CCATTGGTCTACGTGCCTATTTTTATACCAGTACTATGCTGTTTTGGTAACTATATCCTTGAAGTTATAGTTTGAAGTCAGGTAATGTGATGCCTCCAGA
TTTTTCTTTTTGCTTAGTATTGCTTTGTCTATGCGGGCTTTCTTTTTTGGTCCATATGAATTTTAGTATTGTTTTTTCTAGTTCTGTGAAGAATGATGAT
AGTATTTTGATGGGAATTGCACTGAATATGTTGAATCTGTAGATTGCTTTTGCATTGTGGTCATTTACACAATATTGATTCTACCCATCCATGAGCATGG
GATGTGTTTCCATTTGTTTGTGTCATCTGTGATTTCTATCAGCAATGTATCAGATCTAGGACCTTTTTGGATGAGTCTTCAGGGTTTTCTAGGTATATGA
TCATATCATTGGTGCACATTAACAGTTTGACATGCTCTTTTTTAATTCGGATGCCCTTTATTTCTTTCTCTTTTCTGATTGCTCTGGCTAGGACTCATTT
TTTAACTGGAGACTATTCTCAAATACAAACTGTACAAAAAGATAAGACATTTAGAACAAACTTTGCTGTACAAATAAAAATGCAACAAGCCAGAAGTTAC
AATTTGTAGTATTTGCTACCTAGAAACTTCAGCACCTGTTCCATAATAGGTTGCTCAGTAAATGCTTTATATTGAATATATAGCTGCATTTCTGCTAACC
TTGAGCCTGTGTGGATAATAAATTCATGCATGCATCAGAAACAAAAAAGGACAAGCACCTCTCCCTGGGAGTAGCATATTTTGGTCTCTAGTTGGGGAGT
TGGTGAGTCTAATTTAAATAAGGTTAAGGCAGACTTTGAACTCTGGGTTTGAGTCAAGCTTCARTTATAACTTTTTAGTTATAATTTTTTGCCAACTTTT
TAGCAGAAAGAAAGTTTTACTCTTTTCAAAGTATATATAAAAAGACTGGGAGCCAATCAGGCCACTTGACTATCTTCTAGTGCCTTTTRTACACTCTGGT
ATCCAAAACTGCTTCYCGTGACCTCGCTGTGGTTTCTTGCAGGGATGCAAAAGAAGCAAAAGCCCAGAATGAAGYGACCTCTACTCCCCATCGTATCCGC
AGAAAGAGTTCTGTCTTGACTATGAATCGGATTAGGCAGCAGCTTCGGTAAGACTACTCCTTGGCAGGCAGAGAAAYATTGCTGCCATCTCTGATATCTA
TAATCTTATCTCCTAATGCCTCTTATACTGTTTATTTGCCAATCCATTGAAATTGACCTTTTACCTAGCATGTCTGGAATTATGTTAAGTTTCAAATAAT
TGTCTTAGTCTGAAGGGGCAAGAAATACTTCCTGGGCTTAGGTGACTCCCATCCCTAATCATCATGTCCAGCAAGACTGTTGGTGGGATGGGGTGCCTAA
GAGCATGAACTTGGATTCTGACAGATCTGGATTTGAACCTGGGCTTTGTCATTTACCATCTGTGTAACCTTGGGAAGGCAAAATTACCTTTCTAAGCCTG
AAATTCCTCATCTACAAAATATAATAATATACATGTCATAAAGTTGTTGAGGGGTTTAATGAGATAATATAAATAATGCTCCTAACAGAGTGTCTCGGTA
GCAAGCACCCATGTCACCTGGTCACAGGAGGGACCCTGCAATACTTGTAATCCACACTAATGTTATAGAGTTCTTCTTATTTAGACTTGAACACTGAGTA
TCAAAAAATATGTCCCTACCATTCAGGTTTCTAGGTAATAGTAAAAGTGACCAAGAAGAGAAAGAGATTCTGCCAGCAGCAGAGATTTCAGACTCTAGCA
GTGACGAAGAAGAGGCTTCCACACCGCCCCTTCCAAGGAGAGCACCCAGAACTGTGTCCAKGAACCTGCGATCTTCCTTGAAGTCATCCTTACATACCCT
CACGRAGGTGCCAAAGAAGAGTGTAAGGTTCTTCTAGGTTTACTTCCCATTGAAGCATCCCTCTCTTAGTTTAAAAGTTACAAATGCTGAAGTCACAGAT
TAGTAACAGCTGGAATCTGAGGACAGATCTGTTATATTCAATGCTATTCTTTGTGGAATATTCATGGAGAAGGGGACCTAAGTGAACACTAGGACTGAAA
ATGAATCTAGTAGAGAGTGATTTTTGAGGTAAGTCCCTTTTACGGTACAGAATCAGATGGCCAAGAGCTGAACTTCCTGAGGGAAGTAAGTACAAGACCC
ACTCCTCTTTGCATTTCCCACGGAGCACTGGCAGAGTGGGTATCGCATGTACGGCCACCGAGCTGTGGTGTTAGTTTTGTTGTCCCACTTGATACACCTG
AGAAACCGGGAGTGCTACTTACATATTGGTAACAAATCATGTCACAGCAAGATGGAAGGAGGAGATCAATGAACATCTTTTCTGCTTCCTGTGGAACTTT
AGCAGAACACTGAAAAGGTATTCAGATCAGGATCTTCTCATGTTCGAATGTGCTTGAGAAATGTTTGAATTAAAGTTAAATTGACAGAGCATCTTATTCT
TTGGAACACAGTTGAGAAATCTTAATTAGAAGACTTTCTAAAGCTGATGTCCATTTTTCCGTATGAAGATGTGATTTGGCTTGGGTTGAAATCAAAGAAA
AATCTCGGCTGGGCATGGTGGCTCATGCGTGTAATCCCAGCACTTTGGAGGCCGAGGTGGGTGGATCACTTGAGGTCAGGAATTCAAGACCAGCCTGGCC
AACAATGGTGAAACCCTGTCTCTGCTTAAAATACAAAAATTAGCCAGGCATGGTGGCAGGTGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCGGGAGA
ATCACTTGAACCTGCGAGGCAGAGGTTTCAGTGAGCTGAGATCGCACCATAGCACTCTAGCCTGGGCGACAGAGTGAGACTCTATCTCAAGAAAAAAGAA
AAGTCTCTAGGGAAAGGAATCCAGTAGATCAGTAGTCCCCAGCCCCTTTGGCACCAGGGACCCCCTTCGTGGAAGACAAACTTTCTACGGATGGCAGGGG
CTGGGGGGATGGTTTCAGGATGAAATTGTTCTACCCTAGATCACCAGGCATTGGATTCTCATAAGGAGTGTGCAACCTAGATCCCTTGCACACACAGTTC
GCAATAGGATTTGCACTCCTATGAGAATCTAATGCCTCTGCTCCTCTAGCAGAAGGCAGAGCTCAGGTGGTAATGCTCACCCCACCCACCACTCACCTCC
TGCTGTGTCCTGGTTCCTAACAGGCCTCTGGTTTGATTGTGTCTCCTGGCCCCCACCCAAAAGTAGGGATATAGGGTGTAGGGTACCTTCAGCATAATAA
AAAAGGGCAGAAGCCCATCAGGTTTCTTGATACCTTCTCAGCAAGGCCTTGTCAACACTTTTCTGTTTTCTCCAAAATTAATAAATGTAAGGCCTTTTTG
TTTTTTTTTGAGACACGCTCTTGCTCTGTCTCTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCAACTCACTGTAGCCTCAACCTCCTGGGCTCAAGCGA
TCCTTCCACCTCAGCCTCCCAAGTAGCTGGGACTACAGGAGTGTGCCATCATGCCTAGCTAATTTAGAGGGGGCTTTCACCTCTGTGTTGCCCAGGCTGT
CCTCAAACTCCTGAGTTTAAGCAGTCCTCCCTTCTTGGCCTTTCTAAGTTTTGGGATTACAGGCGTGAGTCACCGCACCAGCCTGTAAAGCCTTTTAAAC
AGTTTAAGTGCTTTCTGCCTCGGGAGGAAATGGAGAGATTGTTCTCTCTCTAGCCAGGCTGAAAACAGAGGGTGGGTGGAGTGAAATGCCCCATAGAAGG
GAATGCTTTGTAGAAACGCCATGAAGATGAGGGAAGCAGCAGCAGGCTTGTTCTAGCAAGCCATGAGCAAGGAAGAAGATAGAGGGCTGTTAGACTACAC
TAAGCGGTGACCTGGGGGTTTGGAGTGGAAAAATCTGCCAAGGTTTCTCCAGGTCCCGCACCGTGGGCCATGGAAGTCCTGGGCTGATGCTTGGCCATAT
CTTCAAATAAGCCCAGGGAAAGATCTAATGAATCAAACCTAGTTTATGCCTCCTCTTCTCTTCTGTATTTGGGCAGAGTAGTTAGGGTGTCTTAAACATT
TCTTGTCTTTCAAGATAATATTTTACTTTTAAATAGTATTTCATCCAAACTTAATTCTTTCCTCAGACTGATATTGTTATAAATCCTGATACTATACATA
CATTAGAAAAAAGAAACCATATTTGGACGATGAACAAAGTTTATGCAATGTGAGGTGAGAGAGGGAGAGTCATGGTCCTTTATCCAGGAAGGAACTAAGA
GGAATTCACCACCTCTCTTCCTTTTATCAGATCAGCACAAATCACATTTGCTGGTGTGTCCTGGATGGTGTTTTGCTTTTTCCTTGTGAAATATGTTCTT
TGTTTTCAATACAGCTCAAGCCTAGAAYGCCACGTTRTGCCGCTCCTCAGATCCGTAGTCGAAGCCTGGCTGCCCAGGAGCCAGCCAGTGTGCTGGAGGA
AGCCCGACTGAGGTACTGCTGCTGTTGATTCCCCTTCAGAGAGGCAGGAACCATGGGGCCTCTGCTTTCATTCACATAAAATTAGCAGTCACTGGTCTAC
CTAATAAAGGTAGATACACTGTGTGTCTATACTTTTACCTATCTAGGTAAAGTGAGTGTATGTTTAGAAAAAAGAAACCTCTCAGGCAGCATCTGGGTTA
GCCAGTGTGGACAGGCCCTGGGAGGACTGGCCTTCCCGTCTACTGCCATCATTTCCGCAGGGATGGAAGATGATTAGTCAGGACAGTGCCTCTTTGTTTT
GATGCCCTTTAGAACCATATGGAGACTTTCATATAAGTCTGGATCCTGTCAGAAATCAAGCAAAATCTGAATCTCCTGTGGGATGAGGTCCACCCATGTG
ATTTGGGTGGAGAAACGGAGGCCAAGGATTATGAGGCCAAATGGAGGGATTTGAGAATGAAGGGATTCTCTAGCATTTGAAATTGAGTTTTCAGGTAGAA
ACATAGACAAGAAACCATAATCATTTTCCATTGATTAATGAGTAGATGGTTGGGGAATGTTCSTAAAGTCTTSCTTTTCTCCCGTTTACCACCAATGGTA
GGCTGCATGTTTCTGCTGTACCTGAGTCTCTTCCCTGTCGGGAACAGGAATTCCAAGACATCTACAATTTTGTGGAAAGCAAACTCCTTGACCATACCGG
AGGGTGAGTCATGTGAGGCAGGCAGGGTAGTTTGGGGAATAAGGCCCYTGCTAGYGGAATGCCTTGGGTGTTACAGTTCAGCCATACAGGCTTTCTCCAG
TATCAGCAGACTAGACCAAATCGTTGCTGAAGCCCAAAGCTTCTGAAACATTTGTTGCCAAAGTAATCCTATAGTAACAGAAATTTTGCCTTTCAGAAAG
AATGAAACTGGCCTTCATTGAGTAGGCAGTTTGCATATAGCATTATGCAAACTGTGGAATGAATGATTCTATATAAGCAGGTCCTACTCTGACCAGCTTC
CAAGGATGGTCCCTACTGCCCCCACCTCCACATTTCAAGGGTCTCGGYCCTTCCCTCAGTATACATTCCCACACTCCTAACTGATTATARCKTGTAGTGG
CTGGCTGAGACCTACCCCACGGGTTTTCCTCTCTTGCTCTAGGTGCATGTACATCTCCGGTGTCCCTGGGACAGGGAAGACTGCCACTGTTCATGAAGTG
ATACGCTGCCTGCAGCAGGCAGCCCAAGCCAATGATGTTCSTCCCTTTCARTACATTGAGGTCAATGGCATGAAGCTGACGGAGCCCCACCAAGTCTATG
TGCAAATCTTGCAGGTAAGCAGAGCTGTTTAGGCTTTTTGGAAAATGCTGTTTCTTCGTGACACATGAAAAAGGAAAGAGTTACTTAATTTTGCGTGTAT
TGCATGTTCATGATATACCAGGCATTGTCCTTTCTGTAGAGGTAGCAAGGGCAAGGAAGACAGAATTCTTACCCTAAGAGACTTCAAAGTCTAGGAGCTG
GATAATGATTACAAGCCAGGAAGCCAGTACTTACCCACATGGTGAAAACTGTGAGCTYACAGGTAGCAGTGTGGCAACATGGAAAAGGGGTCCGTGGCAG
GCCAGAGGTTAAGCCTTGCTCTTTGTCCATGGGCTGTTATTTTGGAGCAGGTAACATCCAGTTATAGAATTCTGTAATAGTGATTTTAAGGGGGCTTCTG
GCCCAGCCTGTGACTCATTTGCATTTCAAACTCATATACCTTCTTTATCTTCTCTTTCGGTGCCTTCTCTTGTCCTTCCAAGTAAAGGTTAAGACTAGAT
TGGGAGGCAGAATATAGGATACCGAAGTCCTCAGGTTAAATGCCTCCCTCCATTTGCAGATTTAACTTTAAGCCCAAGGGAGTAAGACCCTTACAGTTCC
TCACAACTGTGTTTCTCCTAATGCAGAAGCTAACAGGCCAAAAAGCAACAGCCAACCATGCGGCAGAACTGCTGGCAAAGCAATTCTGCACCCGAGGGTC
ACCTCAGGAAACCACCGTCCTGCTTGTGGATGAGGTGAGGTGCCCATGGGCGGACAGGAGAAGAAACAGGGCTGTACYTCAGGAGCAAGTGCTGGATGGG
AGGGAGGAAAGTCCTGGCTCCCTTCTCCATTCATATGAGCCCATTTTCTGGTGCTGAGAGGCGTGTGTCAATGGATTGTTTTGGTGCTATGACTTGGGAA
ACATGCAGCTAAAGCAGTGGTTATAGGTCTTCATTTTGAAGCACCAGCTCAGTCTCTGTGATTGACTCTGCACCTCTCTCCTTTGCCCTGGCAGCTCGAC
CTTCTGTGGACTCACAAACAAGACATAATGTACAATCTCTTTGACTGGCCCACTCATAAGGAGGCCCGGCTTGTGGTCCTGGCAATTGCCAACACAATGG
ACCTGCCAGAGCGAATCATGATGAACCGGGTGTCCAGCCGACTGGTAGGTTCTAGGGCAGTTCCCATGCTGTTCTTGCAGATCTGTAAGCTTGGCCAAGA
AGTTCTGCAAAAATGGTCCAGGTGTGGTGGCTCACGCCTGTAAACCCCGCACTTTGGGAGGCCAAGGCGGGCGGATCACTTGAGGTCAGGAGTTCAAGAC
CAGCCTGGCCAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCTAATTTTTACTTAGGAAGCTGAGGCAGGAGAATTGCTTGAAC
TCCGGAGGCAGAGTTTGCATTGAGTTGAGATYGTGCCACTGCACTCCAGTCTGGCAACGAAGCAAGAGTCCATCCCAAAAAAAAAAAAGTTCTGCAAAAA
TGAATACTAAAATAAATTGGGATGTTAAGAAATGTGATTTCTGCAATGCTTGTAGTTTCTATGTTGGAATATGTAACCATTGCATGATTTTCTGCAAACA
TCATATCTTGGTGTTCTGCTGCTCGTGGACTTTTAAACTGCACCAAACCATGGAGGTTTAATTATTTAAAAAAAAAATGTTTTAGGCTGGGCACAGTGGC
TCACGCCTGTAATCCCAGCACTTTGGGAKGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCATCTC
TACTAAACAGACAAAAATTAGCCAGGTGTGGTGACGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCTCTTGAACCCGGGAGGCGG
AGGTTGCGGTGAGCCAGGATCACGCCACTGCACTCCAGCCTGGGCAACAAGTGTGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGTTTTAGCA
CTTATAACCTGCCAGGCAGTGTTAGGTGCTTGGAATAATGCAATAAACCAGGCAGATGCAATGTCTGCCCTCACAGGCCTTGCAGTTCAGCAGGAAGCGC
AATGAGAAATCATGAAGAGCCTGGTAAGTGAAGCCAAGTGCAGTGACAATGTATAGCATAGATCTGAAGATCCTCTCACCCACTTCAATTAAAGCACCTC
AGCTTTTATCTACTTCCAAATGATTCTGATAGAATCAAAGGTCCTTAGGCCGGGCGTGGTGGCTCATGCCTATAATCCCAGTTTAGGCCGGGCGTGGTTG
CTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCCCRAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACTCTGTCCCT
ACTAAAAATACAAAAAAATTAGCTGGGCGTGGTGGTGGGCACCAGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGACGTGAACCCAGGAGGCG
GAGCTTGCAGTGAGCCGAGATCATGCCACTGCACGGTAGCCTGGGCAACAGAGCAAGACTCCGTCTCAAAGAAAAAAAAAGAATCAAAGGTCCTTAAATG
AAATGAAAAAATAGTTCAAAAACTACTGCCCTACAGGACACCACTGGTCATTGTCAGTAAAGGCAGTGGTAGTCTAGGTATGAAATGTGTAATTTGTTAT
ATGGGACCTGGGAATTGGGTTTGGGGGCCCAAGGGTGACTTTCCACCTGGATAATCACTGGGCARTCAACCAACTTATTCCTCTGTCATTTTGGCTCCCC
AGGGTCTTACCAGGATGTGCTTCCAGCCCTATACATATAGCCAGCTGCAGCAGATCCTAAGGTCCCGGCTCAAGCATCTAAAGGCCTTTGAAGATGATGC
CATCCAGCTGGTAGCCAGGAAGGTAAGTCACCAGCTGCACCCATAAATCAGTCAGCACATCTTTGCTGAGTACCTGCTSGGTATGAGGCCCTATGCTGGT
GCTCTGAGGTTGGAGAGAAATTTAGAAAGTCGTGTAAAAATATCAAAAAAGACAAGATTATGAGAAATTCCTTAGCCTTGTTATTTTATGATTAGAGGGC
CCTAAATATTGTGGGTTTATATGCAAACTAATATGAATTCATTCAGGGAGCAAGCAGTTTTGCATGATGAAAGGGACAATATAGTCAGGTAGACAAACCT
GGTTTGAATTCTGGCTTTAACGCTTAGTAGGCATGCAGAAAGTTATAGGAAAGTTACTTAAAAATTTCCTGAGCCTCAGTTTTCTTCTCTGAAGAAGAAT
GAGAGCACTTCCCTCATAGGGTCATTGTGAAAATATAACAATATCATGTCTATTACATGCCCAGCAAGGCACACTCTCCAGGCTAGATATGAGGTATTAG
ATGCCCCTCTCCTCCAAGTCTAATAGGAGAATGCTCCCTGAGAGTTCACCACAGACTAGTCTCCCCGGCTGCTGAGGAACAAAGTGGGTTAAATGTCTGC
CTCAAGCAGAAAGAAAGAAAGAAAAACCGTACATCCACAAGTATTTCAGCATGTAAAATAATTATAAACTTATTTCTAGTTTCCTCTTGCCGACACACTC
TTCACCCTGAATGGCTGTAGCAGCAGCACATGACTGTGACTCCTGCTTGGAACTAGCTACTGTATTAGGGACTGGGGTAAGAGGTGAGCCAATTGTGTGC
CTGTCTCCAGGCTTTGCTTTCCAGGAGAGAGATCCTCAAAGTTATCATCTAGGCATTTTATGGGTAGAGTTTTTCACTTTTGCTATTATGCTATCTATCT
AGACTATCTAAGAGGCTTTTTCTTTTCTTTGAATGATCCTTTTTTTATGCCACCCTTTTTTTTTTTTTTGAAACAGCATCTCACTCGGTCGCCCAGGCTG
GAGTGCAGTGGYGTGATCTCAGCTCACTGCAACCTCCGCCTTCTAGGTTCAAGAGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGT
GCCACCATGCCCAGCTAATTTTTGTATTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACC
TTGGCCTCCCAAAGTGCTGGGATTACAGGAGCAAGCCACTGCGCTCGGCCAATGCCATCCTATTTATTTGAAATTGTCCTTTCCCGTTTTCCTCCAAGAT
GCTTCTGTCAGTTGATTTTGGTCTCTATCTTGCATCGTTAGAGACTTTCCACAGTTGTCTTGGTTGTCCTCTCAGGTGTAAGGGTGGAGATTAAACAGCT
GGCTCTGAACATGTGAGTGGGGCTTATTCACTATGAGATTTGCTGTGGGATGATCTGAGTGGGCCAGTATCACTGTCTTTCCTCCTTTCCCATGGGAATA
GTCAGATTTCTCAGTATGCTTCCCCTGTCCTGTCTGGAGGGCAGTGTTCTGGGAATGAGGGGCTGGTGTCAGGTACAGAAGAGGTCTTCCAGTTTGGCAT
GCATATAGTAATCATCTATTTTTGGTAAGGGACACCTCTTCTACAATAATGCCTAGCATTCCTAGGACCAGAGACTTTTTGCTAAACTTTGCTTGAGAAT
AAATTTCCTTTGTTTTTTTTGTTTTTTGTTTTGAGACGGAGTCTCACTCTGTCGCCAGGCTGGAGTGCGATGGTGCAATTTCGGCTTACCGCAACCTCCA
CCTCCCTTGTTCAAGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTATAGGTGCACACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAG
ACAGGGTTTAACCATGTTGGCCAGGCTGGTCTCAATCTCTTGACCTCCTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGCCAATAAAACT
TTTATTTATAAAAACAGATGGTGAGCCACACTTTGTTGTTTCCTGATCTAAGGCATCTTTAGTTTCTTAACGTCCTCAACTTTTTTTAACTTTCAACCAC
AACCAAATATTCTCTACTTTTGGCTGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACAAGGTCAAGAGATCG
AGACCATCCTGGCTAACAGGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCACGAGCCTGTATTCCCAGCTACTAGGGAG
GCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCTGAGGTTGCAGTGAGCCGAGATCGCACCGCTGCACTCCAGCCTGGGAGACAGAGCGAGACTCCGTT
TCAGAAAAAAAAAAAAAAAAAATACCCTACTTTAGCTAAACAACCCCCCTTTACCTCTTTCCAGCACCACTAACTCCTGAGCATTTTGAGGATTTTTAAT
GTAACTTAGATTTGTTCTTGGATTCCTCAATATAGGTTTAGGATTTGGCTTTCTCCAGTCCACTACACTAACCGCTACTCTTCCATGTCTTTCTAACTTG
CAGAATTATTATTATTATAATTTTTTTTTTTGAGACGGTTTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCA
CCTCTTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCAACATGCCCAGCTAATTTTTTGTATTTTCAGTAGA
TACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCTGCTTGCCTTGGTCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
CCGCGCCTGGCACTAACTTGCAAAATTATATTTTTAAATCTTCTCCTGATGCTTCCCTTCCTTTTAGAGTCTTGGGGTGGGTTGTTGTTGTCATTGTTTT
TTGAGACAGTCTTGCTCTGTGACCCAGGCTGGAGTGCAGCAGCACAATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCA
GCCTCCTGAGTAGCTGGGACTACAGGCAGGCACCCGCCACCATGCCCAGCTAAGTTTTGTATTTTTAGTAGAGGCGGAGTTTTACCATGTTGTCCAGGCT
GGTCTTGAACTCCTGACCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTTAAAGGATTACAGGTGTGAGCCACTGCACCTGGCCAGAGTTTTGGTGTT
TTGTTTGTTTTTTTTTTTTGAGAGGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCGTGGGTTC
AAGCAATTCTCCTGCCTCAGTCTCCTGAGTAGCAGGACTACAGGCATGTGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCAC
CATGTTAGCCAGGATGGTCTCTATCTCCTGACCTCGTGATCTGCCTGCTGCAGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCCGCCC
CAGCCCGGTTTTTTTAACAAAGATTCAGAAGACATCCAATTTGGATGCTGCTCTTCCTCAAATCTCTTGCCCATAGTTTCAAAGCCCTCTCTATTTCTTT
ACATATGACGAAGCGAATCTGTTTTATATTCTATATCCTATAGTTATGATACCTGAAGTCTTTAGGGGTCTGATTCTGATAACCATTGATTCTGCTGGTT
CCCATGCATATGTGGCTTGGTTTTCTTATTTTTTTGTCTTGATTTTTATTTTATTTTACTATATGCATGGAATTCAGCATGCTCCTTTATTTGAGAGTTA
ATTGGGGCCTGGGTTGAAGTTGAATTCATTTAGAATTTGTTTTTTTTTTTTTTTTTTTTTGCTTCTAGGGGCACTACCAACTGTTACCATTTTTAAAATA
AAATTCTCCACTTGAGAATTGTAGGAAATACAACATAAATTTGGGCTCCAAATCCAAGCAAGGGCTTATGGTTGTAAAAACTCGAGAGTGTCTGGGTAGG
GTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGAGAGGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATATTAAAACCCC
GTCTCTACAAAAAATTTAAAAATTAGCCCAATGCGATGGCATGTGCCTGTAGTCCCAGCTACTTGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCGAGGA
GGTGGAGGCTGCAGTGAGTCATGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTCTCTCAAACAAAAAAACCAACAAAAAGTCGGCTG
GGCGCAGTGGGTCACACCTGTAATCCCAGCACTTTGGGAGGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCAGATGCCT
TTAATCTCAGCTATTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCCACAGGTGGAGGTTGCAGTAAGCTGAGATCCCACCACTGCACTCCAGCCTGG
GCATCAAGAGTGAAACTCTGTCTCAAAAATAAATAAATAAATAAAACCCAAGTTTTTTGTGTGTGCCCACATCCACCTAGCACCAAGGTCAAGTAGGCCG
TTTTTCCTGCCATCCGTTCTGCGTGATGGGTCTCACTCACCCTGTACTGAGGCTGAAGTGGAGGTCAAGTTTCAGGTGCCTGCAGGATGTCCTGTTAGGT
TCCATGTTGGCTGGGCCTTAGCTTCTTCTTGTGTCTCCCTTGTCCCAGCAGCAGCCCGAAGGGATGCATAGGGTTGCCAAGTGTCACTGATACCCTTGGG
GTCAGACTGGTTTAGGTGTTTCCTTACCCCCCAGAGTTCCCCTTTCACTTTGTCTTGAGGCCCTTGAGTCCCTGCTATTCACCACACAAAGTGCCTCTTC
ACCAGGCTGTACAGGTGGTAATGGGAGGGGAGGAGAACTGACGAAGCAGGAAGGGCTACAGGACAYCCTTACCAGTTCAATACTGGGGATTAGAGGAAGG
GAAAAATGTAAGCCGATAGTCATGTTTGTGTCCTGGGTTACTTGGAAAGTGATTTTTTTTTTTAGATGGACTCTAGACTGGAGTGCAGTGGCGTGATCTT
GGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGACTCTCCTGCCTCAGCCTCCCCAGTAGCTGAGATTACAGGCATGTGCCACCATGCCCGGCTGATT
TTTGTATTTTTAGTAGAGATAGGGTTTCACCATGTTGGTCAGGCTGGTCTTAAACTTCTGACCTCAAGTGATCCACCTGCCTGGGCCTCCCAAAGTGCTA
GGATTACAGGTGTGACCCACCGCGCCCCAGACCCTGGCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTC
CTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAAAGTTCTGGGATTATAGGTGTGAGCCACCGCGTCCAGCCCCTTCCTACATTCTTGATTCTGGTCC
TCTTAGCCATTGACCAAGCCGACCCCAAATTCACCACGTGCTGTAAGGGGTGCCTGGCTATGGCTTTATCTCCAGATAGGCTCCACCTCACCCTCTTGTC
TTTGGCTGGCTGCTTCTGGGGGCACACGTCTGTCTCTATGCAAGGAGTGAGAACTCTGTTTGCAGATGCTTCAATAGTGATCTTGAACCAAGCGTCTCTG
ATTTTAGACTTCATTTCCTGAATAGTAAAGCTGAGAATTTCTGTGTTGTCCACTGTGGAGTTAACTGTAAAACCAAGACAGAGGTTTGGACTAGAGGATT
AGAGTCCCATGCACAATGTAATAATTCATTTCTATTCTTCCTCCAGGTTCCCTGCCAGGGCTAAGTACTTAACTTTACGCTTATGTCCATTGCCAGCACT
ACCAAGAATCTCTTGGTTCTTCTGGGCTAAGGTGGCCTCAGGAATAAAATATTCCCTCTTGTAGGTAGCAGCACTGTCTGGAGATGCACGACGGTGCCTG
GACATCTGCAGGCGTGCCACAGAGATCTGTGAGTTCTCCCAGCAGAAGCCTGACTCMCCTGGCCTGGTCACCATAGCCCACTCAATGGAAGCTGTGGATG
AGATGTTTTCATCATCATACATCACGGCCATCAAGTAAGATGCTCCACTTCCTGAGCCTTCCTGGAAGGCTGTAGAAACATGTTTCCCTTTCTAAGCTTT
TACTCATTCAACCTGCACTTATTAATAACACAGTTATGTTTCATAGGGACATTATCTAGTCAGGGAAACAGAAATATAACCCTAGGATAATAGAATATTT
GCCACTTATTGAGCTATATTATAGGTGTTTAGGGCATAAAAGTGCTATGATAGGAACAAAAAAAAAAGGAAGCAGCTGCTTCTCTCACACTGATTGATGT
GCTCAGCTCATGAAATGAGGGCACAGGTATTTATGAGTGACCAGTGTATTTCCGGATGTAGTTGCTATGTTTCCTCACTTCCACAGTGACATTTTCTGTA
TCAGTTTGAGAGTTTGGGGGTCAGGGAGATCCTTGCCACATAATATAGGAGAAATTATTTCCCGGGTTTTCTCTTTTCTAAAGACACAGAAAAGTTTTCT
TTGGCTTTCCTCTGGGCTGGGGTTACAGCCACTGACAAAAACTYACATCCCCTCGTTTCCTTTAAGAAATTCCTCTGTTCTGGAACAGAGCTTCCTGAGA
GCCATCCTCGCAGAGTTCCGTCGATCAGGACTGGAGGAAGCCACGTTTCAACAGGTGATCTCCTCCTCTTTTCAAATCCTTCTAGATTTTGGACTTACGC
TTTTAAAATACATGGAAATTTCCATGAATGTGTGACACTCTATTTTGTGCCACCTAGAGTATGTGAAAGAATACCAGACCGGCACCTATTTTAATGTGAC
ATTTTGTAGAGCTGCATGAGAAGAGACCTTTAGCGACTGGTTTCTGCATGTTAGATTGAAGGCCTGTGTGCCAGACACTGTTCAAAGAATGAGGAACAAG
ACAAAGTTACTCCCTGATTACAGCTTATGTTGTAGTGGAGTCAAGGCTTTCAGAATGAGGCCATATTTGAGAACAAATCACAGATCAATCCAATCCCTGC
ATGGGCATAGTTCAATTAGATCAAGTGAGAGGGATCAGTAGGGCATGTGCTTTGTTAGTTTACTTAAGACTCTAGTAATTGGCTGCCTTGGAAGATGAAT
TGTTAAAGGTGTTTATGAGTGTGTACCTGAGAGTGTGTATGTTTGTGTATGTATGTTTTAGACATCTTTATTTAACTAAAATAAGTCAGGAAAACATTTT
CCTTTCAGCTACTTATTTATTGGGTTGGTTGTAAATTCTTGTTTAAAATTTTAGCTACTCGTCATGTTTTGCCCATTACTGTTCTCCTCCTAGAGTCTGA
GATAGCTCTTCTGCAGAGAGTGACTTTCATTTTAGTTTGTAAACATTTCCTGAACATCTGCAGTGTGCCATTAACTGTGATGAATCCTTGAACCCCAAGC
TGATTTGGTTAACATCCCTGTTCCTGACAAACTCCCAGTCTTGGGGCTGGGACGGGGATAGACTCATAGATATTTAGAATGGAAAGTGACCAGAAATGCT
CCAGATTTAGCTGACCCAGTAGAGAACGTTAGGGTAGGAATCTATGTTTCCAGCTATCCTCCTGCCTCCCTTTATTTCTTTATTCAATTTTCTCTCTAGG
CCTTTGTGCTTTTCCAAGGGTCATGCCTTGGCATTTGCTCACTGTACCTGATAAGGAAAGTGGCCTTGTAGCAAAATTTGACTTGAATTTTGACAGTCTC
AATTATGAAACTCTCAGCCCCTGGAGACAAGACTATTTGTATCACCAGTGAGAGTTACTAGTCATTTTATATCCATTAACTCACAAGGGATGTACAGTGT
ATTTTATAGATAAAATTGAAGCTCAAAAGAGTGCAGTAACTTGGCCAGGTCTACATATTTAGGTAAATGGTAGCACCAGGATTCGGGCCTGCTGTTTTCT
GATTCCAAGGCTAGCATTCCATTCTGCCTCTGCATTTTGTGTACCACTGGGGCACCAACTGATGCCTTCTGGAGTGTTTGATATCCTGGGGGCCATGTGT
CTGATTTTCCCAAATGAAGAAAGAAAGGAACAGAAAAAGCCCCAGGATTGTATTTCCTCTTAACCTTTGCCTTGCTATTTGTGTCTAGATATATAGTCAA
CATGTGGCACTGTGCAGAATGGAGGGACTGCCGTACCCCACCAYGTCAGAGACCATGGCCGTGTGTTCTCACCTGGGCTCCTGTCGCCTCCTGCTTGTGG
AGCCCAGCAGGAACGATCTGCTCCTTCGGGTGCGGCTCAACGTCAGCCAGGATGATGTGCTGTATGCGCTGAAAGACGAGTAAAGGGGCTTCACAAGTTA
AAAGACTGGGGTCTTGCTGGGTTTTGTTTTTTGAGACAGGGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCATGGCTCACTGCAGCCTTG
ACTTCTCAGGCTTAGGTGACCCCCCAACCTCATCCTCCCAGGTGGCTGAAACTACAGGCACRTGCCACCRTGCCCRGCTGATTTTTTGTAGAGACAGGGC
TTCACCRTGTTGCYAAGCTAGTCTACAAAGCATCTGATTTTGGAAGTACATGGAATTGTTGTAACAAAGTATATTGAATGGAAATGGCTCTCATGTATTT
TGGAATTTTCCATTAAATAATTTGCTTTTTCCTGAGTGTTTGTGAAGTTATTACATTATAATCATTACAAACATCTGATTATGAAACCAAACTGTCCTTC
CTACAATAGTCCTTCCATGTGACTTTTATTTCTGTTACTAGGCCTGCCATTTATTTAATGCTAACATATATAAAATATAAGTACACGATTTACTTGTATC
TATATAAAATAGTTCTGGGAGAGTATGCAAAAAACTGGTTACACTGATTACCTCTGGAAAGAATCAGATGGAAAGAATCAGATGGCCAGGGTTAGGGGTT
AGAGGAGGACTTTTCACTGTATGTCATTATCTGTCTTAAGTTTCAAATAATATAAATAAAATTTAGGCCAGGGGCGGTGGCTCACACCTGTAATCCCAGC
ACTTTGGGAGGCCGAGGCAGGTGGATCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCAGTT
GTGGTGGCGGGCGCCTGTAGTCCAGCTACTCGGGAGGCTGAGGCAGGAGAGTGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAGCTGAGATCGCGCCAC
TGCACTCCAGCCTGAGCGACAGAGTGAAACTCCGTCTCAAAAATAAATAAATAAATAAATAAATAAAATATAGTTTATAAAAAAGGAACTACTGGAAATA
ATATAAATCATAAGTAATCTCTAGCCACAAATAGCTAGAAAGTGTAATTTTTACAAAGGTACCATTTACCATAAAAACAAAACAAACCTTTAAATACAAA
AGATTTATATGTCACAGAAAATATAAGGTACTTAGAAATAAATTGATTTAAATATTTATTTATTTATTTATTTTTTCCCTCTGTCACCAAGGCTGGAATG
CAGTAATGGATCATAGCTCACTCCAGCCTTAACCTCCTGGGTTCAAGTAATCCTGCCTCAGCCTCCTAAGTAGCTGGGATTCCAGGTGTGGGCCACCATG
TCCGTCTCCTAGGAATAAGTCTAATAAAGAGATGCAAGTAATCTCTAGATAGAAATCAATTCCAATCAAAATCTTGGCAAGGTTTCTTGTATGACTTTGC
AGTTAATTCTAATATTTATATGGAAACCAACAACAGGCAATGAACATCTAAAACCTCATGAAGTACTGAGGCTGGGCGTGGGTGGCTCATGCCGGTAATC
CCAACACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGATCAATATGGTGAAATCTCGTTTCTACTAAAAATGCAA
AAATTAGTCTGGCGTGGTGGTGTCACCTGTAGTCCCAGCTACTTGGGAGTCAGGAGAATTGCTTGAACCCACCCAGGAGGCAGAGGTTGCAGTGAGCTGA
GATCACACCATTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTGAAAAAAATAAATAAAACCTAATATGAGGTACTGAAAAAAAACAGCCCCACC
CGTGTACTAGTCCTGTCAGAAATGCTTGTCCTAAATTTACTGATGAGAAAATTATCAGACAAATCTAAATTTAGGGAGAAACTCTGCAAAGCAGCTGTTC
AACTCATTGAAAATACTAATATCACAAGAAAAAAAACACAAAACATGGAGGAACTATTCTACACCAAAGGAGAATAGAGACATGAGAGCTAAATGCACTA
TATAAACCTTGACTGGGTCCTGGATTTAGGAAATATAAACAATTATAAACATTATTAACTATGTATTAGACAGAAGTATTTTGTAAGTGTTAAATTCCCC
GAGCGTGATAAATTTGTGATTATGTAGGAGAATGCTGTTCTTAGGAGATTCATAATGAAATATTTATAAGTGATGTATTATGTCTGCAACTCATTCTCAA
ATCATTTAGCAAAAATATGTATTTCTATATTCACATATGTATTTATAATTACATATAATGGATTGAGGATCAATATCAATATTTTTAAAACTGCAATGAA
AAAGAAAAAATGAGCCAGGCACAGTGGTTCATACCTGTAATCCCAGCATTTTGGGAGGCCAAGGCAGGTAGATCACCTGAGGTCAGGAATTCGAGACCAG
CTCGGCCAACATGGTGAAGCCCCATCTCTACTAAAAATACAAAAATTAGCCAGGGGTGATGGTGTGCACCTGTAATCTCAGCTACAGGGGTGCTGAGGCA
AAAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCATTCCAGCCTGGGCAACAGAGCAAGACTGTCTCAGAAAAAAA
AAAGAAGGAAAAAGAAAAAAATGGGTAAATAACAAATAAGTCATCCAAAGAAGAAACACGAATGACCAAGAAAATGGAAACAGTAAAAGAGGCATGCAAA
CCAAAACCATTTCACATCTATTAGAAAACCTTTCTATGGTTACACAGAACAACTGGGACCCCAATACCCTGCTGATGGAGGTGGAATGACTTTTGAAGAT
TATTTGGTGAATCTTAGCCTAGGAAATGCAAGAAATTGTATGAGCCAGTGTATTAGTCTGTCCTCGCGCTATGAAGAAATACCTGAGACTGCGTAATTTA
TAAAGAAAAGAGGTTTAATTGACTCACAGTTCCACATGGCTGGGGAGCCCTCAGGAAACTTAAAATCATGGTGAAAGGCACCTCTTCACAGGGCAGCAGG
AGAGAGAATGAGTGCCAGCAGGGGAAATGCCAGATGCTTATAAAACCATCAGATCTCGTGAGAACTCACTCCTATCACAAGAACAGCATGAAGGAAACCA
TGATTCAATTACCTCCCACAAGATGCCTCCCAGGACACATGGGGATTATGGGATTACTATTCAAGATGAGATTTGGGTGGGAACACAGAGCCAAACCATA
TCAGCCAGTGTGATGGTTAATAGAGCATGCAGACAGCCTATTGTGGGACTATATATATATATACACATATATATATATACACACATATATATACACACAC
ACACACATATATATATACACACACACACACACATATATATATATATATATCCTATTAGTTCTGTTCCTCTAGAGAAACCTGACTAATGCAGCCAGCAATT
CCATTCCTAAGTATATGCTCTAGAGAAATTCACATACGTACACCAAGAGTCATATACAAAAAGTTCATAGCACTCTATAATGGTAAGCCATTGGGAAAGT
GACTTATTTTCATGCTATGGAATCATAACAGAAATGAAAATCAGCTAACTAGATACAGTATACATGTCAATTTGAGTGAAGCTTACAAACAGGGTTGAGT
AGAAAAAGGTTGAAGAATTACACTGTATGTAACCAATGATATAATTTTTAAAAGCTGGCAAAAAAAATACTATGTATTGCTTAAGGATACCTACACAGAA
ATAGAAATGCTCAGGAATAATAAACACTAAATTTAGGATAATGGGTACATCTTTGGGAAAGGGAGGTGTTGCAATATGGGAGATGTACAGGTAGCTCCAA
CTATGTTTGTTTTTCTTTTTTCACAAAAATCAGATAGTTTTATGTTGTAAAAACATTAGTTATTTGTCAAAGGTTATGTTCTTCCGTCTTCATCTGTCAC
CAGCTGTCAGCATCTCCTTTAAATATCGGTTTTTTCTTCATAATGACACCTGCATGTGGCTCGTTGGCTGTCCAGATATGGTTTACAACCTAAATGTATA
ACACTGTCAAACAAGAGCTCCATTGTTGTTTCACATGCCTGAACATGCTAAGTTAGTCCTAGTGTTTTCTGTACTTCTCGGCAGATCTTGGAGAGGCAAT
ACTGGAATTTCTCATCACAGTCATTCTTGCTTTTGCCACAGTTCTCATAGCACCTGTCGTGTTAGTTGCAACACTTTGTCAGGGAAGGGATACCAATGTT
AAGATGAACGCCAAACAGTGGAGAGCCACATCCATTCGGTGGGGAGGGTTTATAACCATAACGTGGGAAAGGCTTAGATCCGTCACTGCATTTATACTGG
CAGAGACCGTCCTCGCCTCCCAGGAGGTCCAAGGCGGCGTTCAGGTACGTGTCTATCTTATGAACGCCGTTCCGGATGGTCTTCAGGGTGGCCCTCCAGT
CGGTGGTCTAGGCCTGCTCCAGGCACCTGATAACAGCGGCCATGAGGAGGAGCAGGAGGGTGAGCGCGGGGCGCGGGAGAAGGGCCAACCGCGCAGCGCC
GGGCTCTACGGGTCCCCGAGCCGCGGCGGGGGGCGCGTCCCCAAAGAGCCCCCGGGAAGCGCTAGGCAGCGGCGCGGGCCCCGGGGTTGCAGCCGCCAGC
TCCATAACCACGCCTCCTTCCCGGCTGGCAGGCAGGGCCTCGCTGGCTTTACGTGAACCGCCTCGGGGAGGCAGCGCGGTCGCGGGGACGCGCCCGCTCA
CCTGCTTTTTTTTTTCCCTTAAACTGGTAATAGATGTCCATGTAGTTAATTCACACAACAAGGAACTATTGAGTGCCTACTATGTACCATGCACTGCTGT
AGACACGAGACACTTGGAGAAGCAATAAAAAAATTTCTCCTTCTGGAGCTTGCATTCTAGTAAATGTTAAATATTGTGTATCTTTGTTTATATCTTAAAT
GTTTCATTATAAAAATTTTTAAATAATTTTAAAAGGAATGAGAAATATGGATGTGAAATCTCAATTTAAATATGGTAATGGGCAGGGCATGGTGGCTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCTGATGTGGGTTGATCCCCTGAGCTCAGGAGTTTGAGATCAGCCTGGGCACATAGCAAAAACATGTTTCTACAA
AAAAAAAAAAAAAAATGCTGGGCATGGTGGCACGTGCCTGTGGTCCCAGCTACTCAAGAGGCTGAGGTGAGAGGATTGCTTGAGCCTGGGAGGTGCAGGT
TGCAGTGAGTGGAGATCGCACCACTGCACTCTAGCCTGGGTGACAGAATGAGATCCTGTCTCAAAAAAAAAAAAAAGAAAAAAAGTAAGCAATCAGGAGA
TGGAAAAGCCCTTTGTCCAAGTAAACTGGGAGATCGCTAACTAGAAAACATAATTTAAAAGTTCAAGGCATAGGCAGGAGAGGAGATGGCAATGTTTTAG
ACAGAAGAAACTAATCCAGCAGTTTAACTTTAAAATACATTTTAAAACTTTTTTTCCTTTCTCTTGGGTTTCAAGATACAACCTTGAAGCAAACTGCAAA
AGCCTTTTCCCTTAGCTGTAAAATAGACCCCATATCCCTCCCTTTCTCACTGTATATACTCCCTTCACATTTATCTTACTGTATGCTAGTATTTAATTAT
CTGCCTTCTGAGAAGTTCCAAGGGCTAATCTTGAGACAGACAAACCAAGCCTGGAGACACAGCTGCAAAATTCCAAAGATTACTTCAAGGTGGCTAGTCA
ACAGCGGGGCCATTGTGGAGATGAGACCAGCCCACGCTCCAGGTAGGCTGGGACCCAAGATAGCCACCAGAACAAGACACACAGACGTTGTACTCTGTAC
AATTCTTGCATGCTTCCCATATCAAATTTTCCTTTTAAGCCGTTCTCTTTCCCCCCAAAATCGAAGTGGTTACTTTAGATGGGAATCTGGCCACTTCCCC
ATTACTCCGCTCTCGGTTTTTTTGTTTGTTTTAGTTTGAGACAGGGTCTCACCTTGTCACCCGGGTTGGAGTGCAGTTGACAGCTCATTGCAGCTTGGAC
CTCCGGGGCCACAGCGATTCTCCTGCCTCGGCCTCTCAGTAGGTAGGACTACAGGCACGCACCACCACACCCGGCTAATATTTGTAATTTTTTGTAGAGA
CAGGGTTTCGCCATGTTGCCCAGGCTGGTCTCGGACTCCTGAGCTCAATCTCTTGTTAACTGGACTCTGCAAGCCGCAGGGAGAAACGTGCTTTCCTTAG
AAAACTAGACTAGAGCATATTTACTGATGCTAAAGAGGTTGGTTTTGTATTTCCCTGGGCAAATAATTCTCTCTGAGCCTCCGTTTCTTCTAGAGATGAT
GTCCATCTTGCAGGATTGAGAACTGGTATAAGC


SNP Information

Context             (SEQ ID NO:42762):
TATAGGAGAAATTATTTCCCGGGTTTTCTCTTTTCTAAAGACACAGAAAAGTTTTCTTTGGCTTTCCTCTGGGCTGGGGTTACAGCCACTGACAAAAACT
Y
ACATCCCCTCGTTTCCTTTAAGAAATTCCTCTGTTCTGGAACAGAGCTTCCTGAGAGCCATCCTCGCAGAGTTCCGTCGATCAGGACTGGAGGAAGCCAC
Celera SNP ID:            hCV15793825
SNP Position Genomic:     35544
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42763):
TATTTATCATGGTAACTCAGAGTTTGGACTCTTCCACAGAAGCCATGGCACACTACCCCACAAGGCTGAAGACCAGAAAAACTTATTCATGGGTTGGCAG
S
CCCTTGTTGGATCGAAAACTGCACTACCAAACCTATAGGTGAGTGATGGGGTCCTTTGGTTGTCCTGGAAATACAGCTTCTCAAGCTAAACAGTCAACTT
Celera SNP ID:            hCV15793826
SNP Position Genomic:     8293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42764):
CCCGCGTCGCCTATCGAATCAATGATGGCGGCTGCATGTTAGCGGATGTACGTCATGCGCCCCTCTTAGGTGTACGGAGTGGGCGGGGCGAGCTAGTTGG
Y
GTCGCAACGAAGGGACGGTCTGGGGGCGGGGCCACGCCGATTGGCGCGAAGTTTTCTTTTCTCCTTCCACCTTCTTTTCATTTCTAGTGAGACACACGCT
Celera SNP ID:            hCV27486362
SNP Position Genomic:     5974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:42765):
ATCTGAAAAATGAGAAGACACTCTTTGTGAAACTATCCTGGAATGAGAAGAAATTCAGGCCACTTTCCTCAGAACTATTTGCGGAGTTGAATAAACCACA
M
GAGAGTGCAGCCAAGTGCCAGAAACCCGTGAGAGCCAAGAGTAAGAGTGCAGAGAGCCCTTCTTGGACCCCAGCAGAACATGTGGCCAAAAGGATTGAAT
Celera SNP ID:            hCV15793862
SNP Position Genomic:     14237
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,2)   caucasian(A,4)   total(A,30|C,2)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42766):
GAGTCCCTGCTATTCACCACACAAAGTGCCTCTTCACCAGGCTGTACAGGTGGTAATGGGAGGGGAGGAGAACTGACGAAGCAGGAAGGGCTACAGGACA
Y
CCTTACCAGTTCAATACTGGGGATTAGAGGAAGGGAAAAATGTAAGCCGATAGTCATGTTTGTGTCCTGGGTTACTTGGAAAGTGATTTTTTTTTTTAGA
Celera SNP ID:            hCV1914944
SNP Position Genomic:     33866
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42767):
TCTTCTTTTTTTTTTTTTTTTTCTTTTTTTGGAGACAGAGTTTTGCTGTTGTTGTCCAGGCTGGAGTGCAATGGCACGATCTCGGATTACTGCAACCTCC
R
CCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGATTACAGGCACCTGCCACCATACCCAGCTAATTTTTTGTATTTTTAGTAGA
Celera SNP ID:            hCV15899073
SNP Position Genomic:     19641
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42768):
AGGTGCATGTACATCTCCGGTGTCCCTGGGACAGGGAAGACTGCCACTGTTCATGAAGTGATACGCTGCCTGCAGCAGGCAGCCCAAGCCAATGATGTTC
S
TCCCTTTCAATACATTGAGGTCAATGGCATGAAGCTGACGGAGCCCCACCAAGTCTATGTGCAAATCTTGCAGGTAAGCAGAGCTGTTTAGGCTTTTTGG
Celera SNP ID:            hCV25614434
SNP Position Genomic:     25841
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,1)   caucasian(C,2)   total(C,31|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42769):
TGACCAGCTTCCAAGGATGGTCCCTACTGCCCCCACCTCCACATTTCAAGGGTCTCGGTCCTTCCCTCAGTATACATTCCCACACTCCTAACTGATTATA
R
CGTGTAGTGGCTGGCTGAGACCTACCCCACGGGTTTTCCTCTCTTGCTCTAGGTGCATGTACATCTCCGGTGTCCCTGGGACAGGGAAGACTGCCACTGT
Celera SNP ID:            hCV25614435
SNP Position Genomic:     25690
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,10)   caucasian(A,2)   total(A,20|G,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42770):
ACTTTTAAACTGCACCAAACCATGGAGGTTTAATTATTTAAAAAAAAAATGTTTTAGGCTGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGA
K
GCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAACAGACAAAAATTAGCCAGGTGT
Celera SNP ID:            hCV27483514
SNP Position Genomic:     27629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42771):
CCGGGCGTGGTGGCTCATGCCTATAATCCCAGTTTAGGCCGGGCGTGGTTGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCCC
R
AGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACTCTGTCCCTACTAAAAATACAAAAAAATTAGCTGGGCGTGGTGGTGGGCACCAGTAGTC
Celera SNP ID:            hCV27483515
SNP Position Genomic:     28250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42772):
AAGCAATTCTGCACCCGAGGGTCACCTCAGGAAACCACCGTCCTGCTTGTGGATGAGGTGAGGTGCCCATGGGCGGACAGGAGAAGAAACAGGGCTGTAC
Y
TCAGGAGCAAGTGCTGGATGGGAGGGAGGAAAGTCCTGGCTCCCTTCTCCATTCATATGAGCCCATTTTCTGGTGCTGAGAGGCGTGTGTCAATGGATTG
Celera SNP ID:            hCV25614436
SNP Position Genomic:     26678
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,1)   caucasian(C,38)   total(C,53|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42773):
AGGATTGTATTTCCTCTTAACCTTTGCCTTGCTATTTGTGTCTAGATATATAGTCAACATGTGGCACTGTGCAGAATGGAGGGACTGCCGTACCCCACCA
Y
GTCAGAGACCATGGCCGTGTGTTCTCACCTGGGCTCCTGTCGCCTCCTGCTTGTGGAGCCCAGCAGGAACGATCTGCTCCTTCGGGTGCGGCTCAACGTC
Celera SNP ID:            hCV25614454
SNP Position Genomic:     37144
SNP Source:               Applera
Population(Allele,Count): african american(T,10)   caucasian(C,2|T,28)   total(C,2|T,38)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42774):
ACGATCATGGCTCACTGCAGCCTTGACTTCTCAGGCTTAGGTGACCCCCCAACCTCATCCTCCCAGGTGGCTGAAACTACAGGCACATGCCACCATGCCC
R
GCTGATTTTTTGTAGAGACAGGGCTTCACCATGTTGCCAAGCTAGTCTACAAAGCATCTGATTTTGGAAGTACATGGAATTGTTGTAACAAAGTATATTG
Celera SNP ID:            hCV25614455
SNP Position Genomic:     37476
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,32|G,2)   total(A,69|G,3)
SNP Type:                 UTR 3


Context             (SEQ ID NO:42775):
AGTGGCACGATCATGGCTCACTGCAGCCTTGACTTCTCAGGCTTAGGTGACCCCCCAACCTCATCCTCCCAGGTGGCTGAAACTACAGGCACATGCCACC
R
TGCCCAGCTGATTTTTTGTAGAGACAGGGCTTCACCATGTTGCCAAGCTAGTCTACAAAGCATCTGATTTTGGAAGTACATGGAATTGTTGTAACAAAGT
Celera SNP ID:            hCV25614456
SNP Position Genomic:     37470
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,34|G,2)   total(A,71|G,3)
SNP Type:                 UTR 3


Context             (SEQ ID NO:42776):
TTCTAGTGCCTTTTGTACACTCTGGTATCCAAAACTGCTTCCCGTGACCTCGCTGTGGTTTCTTGCAGGGATGCAAAAGAAGCAAAAGCCCAGAATGAAG
Y
GACCTCTACTCCCCATCGTATCCGCAGAAAGAGTTCTGTCTTGACTATGAATCGGATTAGGCAGCAGCTTCGGTAAGACTACTCCTTGGCAGGCAGAGAA
Celera SNP ID:            hCV15793814
SNP Position Genomic:     21175
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,37|T,1)   total(C,66|T,2)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,4)   total(C,31|T,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:42777):
TTTTGATAAACTCTACAATGATATCCTTCTCGGGTTGAATTTGAAGCATCTTCAAGGTTAAACACAGAAAGGGTGTTGGTTTTATGTTGCCACCATAGAC
R
CCACCCACAAACCTTAACTCCATGGCTTTATCGACTACAAGTTCAGCTAAAAAACAAAAACAATACAGTAACATATTAGGGCTAAGCTCTTCCTAGTTGG
Celera SNP ID:            hCV25922244
SNP Position Genomic:     4734
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:42778):
AGTGGTAGTCTAGGTATGAAATGTGTAATTTGTTATATGGGACCTGGGAATTGGGTTTGGGGGCCCAAGGGTGACTTTCCACCTGGATAATCACTGGGCA
R
TCAACCAACTTATTCCTCTGTCATTTTGGCTCCCCAGGGTCTTACCAGGATGTGCTTCCAGCCCTATACATATAGCCAGCTGCAGCAGATCCTAAGGTCC
Celera SNP ID:            hCV15793815
SNP Position Genomic:     28665
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,11)   caucasian(A,1|G,35)   total(A,16|G,46)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,168|G,1307)   total(G,1307|A,168)   (A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42779):
AAGACATCTACAATTTTGTGGAAAGCAAACTCCTTGACCATACCGGAGGGTGAGTCATGTGAGGCAGGCAGGGTAGTTTGGGGAATAAGGCCCCTGCTAG
Y
GGAATGCCTTGGGTGTTACAGTTCAGCCATACAGGCTTTCTCCAGTATCAGCAGACTAGACCAAATCGTTGCTGAAGCCCAAAGCTTCTGAAACATTTGT
Celera SNP ID:            hCV25614568
SNP Position Genomic:     25355
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(C,1|T,39)   total(C,6|T,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:42780):
GGATTCTCTAGCATTTGAAATTGAGTTTTCAGGTAGAAACATAGACAAGAAACCATAATCATTTTCCATTGATTAATGAGTAGATGGTTGGGGAATGTTC
S
TAAAGTCTTCCTTTTCTCCCGTTTACCACCAATGGTAGGCTGCATGTTTCTGCTGTACCTGAGTCTCTTCCCTGTCGGGAACAGGAATTCCAAGACATCT
Celera SNP ID:            hCV27494461
SNP Position Genomic:     25163
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42781):
GAATTCCAAGACATCTACAATTTTGTGGAAAGCAAACTCCTTGACCATACCGGAGGGTGAGTCATGTGAGGCAGGCAGGGTAGTTTGGGGAATAAGGCCC
Y
TGCTAGTGGAATGCCTTGGGTGTTACAGTTCAGCCATACAGGCTTTCTCCAGTATCAGCAGACTAGACCAAATCGTTGCTGAAGCCCAAAGCTTCTGAAA
Celera SNP ID:            hCV25614569
SNP Position Genomic:     25348
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42782):
AGCCTTTGTATTTCTGTTTTATCCTTGTGTGCATTTTATAAGCGTCATGAAGACATTTACAACCCCTGTATCACTGTCTTTTAATTTCACTTTGTTAGAT
R
TTTTACACCTATTGTTCTGCCTTATTCCTAGTATTTCTAAATGTTACAGTTTCATTTCTTAGGAATTGACCTTTCTGTTTTCCTGGATGGAAAGAGATAC
Celera SNP ID:            hCV27838226
SNP Position Genomic:     7905
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,28)   caucasian(G,40)   total(A,8|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:42783):
TACCCACAGAGCAAATTGAAATCCTTCACATCACGTGAAGTATGTGAGTCATAGTCAAAAAAGTTAGAACAGTAGTTGAAAAACCTATGTCACAGAAGTA
Y
TGGGGAGCTTTCTTAAAATACAGATTTCTAGGCCTCTTCCCACACCTAGTGAGTCAGACTCCAAGCACTGGCCCTAGGAATCTGTATTTGGAAATGCTCT
Celera SNP ID:            hCV15793850
SNP Position Genomic:     17136
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,12)   total(C,1|T,47)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42784):
ACATCTCCGGTGTCCCTGGGACAGGGAAGACTGCCACTGTTCATGAAGTGATACGCTGCCTGCAGCAGGCAGCCCAAGCCAATGATGTTCCTCCCTTTCA
R
TACATTGAGGTCAATGGCATGAAGCTGACGGAGCCCCACCAAGTCTATGTGCAAATCTTGCAGGTAAGCAGAGCTGTTTAGGCTTTTTGGAAAATGCTGT
Celera SNP ID:            hCV15793851
SNP Position Genomic:     25851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42785):
CATCACGTGAAGTATGTGAGTCATAGTCAAAAAAGTTAGAACAGTAGTTGAAAAACCTATGTCACAGAAGTATTGGGGAGCTTTCTTAAAATACAGATTT
Y
TAGGCCTCTTCCCACACCTAGTGAGTCAGACTCCAAGCACTGGCCCTAGGAATCTGTATTTGGAAATGCTCTTCAGATGGTTCCAGTATACCGAGCTGTT
Celera SNP ID:            hCV26412920
SNP Position Genomic:     17164
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42786):
TTTACTCTTTTCAAAGTATATATAAAAAGACTGGGAGCCAATCAGGCCACTTGACTATCTTCTAGTGCCTTTTGTACACTCTGGTATCCAAAACTGCTTC
Y
CGTGACCTCGCTGTGGTTTCTTGCAGGGATGCAAAAGAAGCAAAAGCCCAGAATGAAGCGACCTCTACTCCCCATCGTATCCGCAGAAAGAGTTCTGTCT
Celera SNP ID:            hCV26412921
SNP Position Genomic:     21116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42787):
AAAGAGATTCTGCCAGCAGCAGAGATTTCAGACTCTAGCAGTGACGAAGAAGAGGCTTCCACACCGCCCCTTCCAAGGAGAGCACCCAGAACTGTGTCCA
K
GAACCTGCGATCTTCCTTGAAGTCATCCTTACATACCCTCACGAAGGTGCCAAAGAAGAGTGTAAGGTTCTTCTAGGTTTACTTCCCATTGAAGCATCCC
Celera SNP ID:            hCV26412922
SNP Position Genomic:     21961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:42788):
TACTAAAAATACAAAAATTAGCCAGGCTAATTTTTACTTAGGAAGCTGAGGCAGGAGAATTGCTTGAACTCCGGAGGCAGAGTTTGCATTGAGTTGAGAT
Y
GTGCCACTGCACTCCAGTCTGGCAACGAAGCAAGAGTCCATCCCAAAAAAAAAAAAGTTCTGCAAAAATGAATACTAAAATAAATTGGGATGTTAAGAAA
Celera SNP ID:            hCV25614440
SNP Position Genomic:     27332
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,1)   caucasian(C,12)   total(C,13|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:42789):
CGAAGAAGAGGCTTCCACACCGCCCCTTCCAAGGAGAGCACCCAGAACTGTGTCCAGGAACCTGCGATCTTCCTTGAAGTCATCCTTACATACCCTCACG
R
AGGTGCCAAAGAAGAGTGTAAGGTTCTTCTAGGTTTACTTCCCATTGAAGCATCCCTCTCTTAGTTTAAAAGTTACAAATGCTGAAGTCACAGATTAGTA
Celera SNP ID:            hCV26412923
SNP Position Genomic:     22005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:42790):
TAAAGGCCTTTGAAGATGATGCCATCCAGCTGGTAGCCAGGAAGGTAAGTCACCAGCTGCACCCATAAATCAGTCAGCACATCTTTGCTGAGTACCTGCT
S
GGTATGAGGCCCTATGCTGGTGCTCTGAGGTTGGAGAGAAATTTAGAAAGTCGTGTAAAAATATCAAAAAAGACAAGATTATGAGAAATTCCTTAGCCTT
Celera SNP ID:            hCV25614441
SNP Position Genomic:     28879
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,32)   caucasian(G,40)   total(C,2|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:42791):
CAGATCAGCACAAATCACATTTGCTGGTGTGTCCTGGATGGTGTTTTGCTTTTTCCTTGTGAAATATGTTCTTTGTTTTCAATACAGCTCAAGCCTAGAA
Y
GCCACGTTGTGCCGCTCCTCAGATCCGTAGTCGAAGCCTGGCTGCCCAGGAGCCAGCCAGTGTGCTGGAGGAAGCCCGACTGAGGTACTGCTGCTGTTGA
Celera SNP ID:            hCV26412924
SNP Position Genomic:     24528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42792):
TCTTGTAGGTAGCAGCACTGTCTGGAGATGCACGACGGTGCCTGGACATCTGCAGGCGTGCCACAGAGATCTGTGAGTTCTCCCAGCAGAAGCCTGACTC
M
CCTGGCCTGGTCACCATAGCCCACTCAATGGAAGCTGTGGATGAGATGTTTTCATCATCATACATCACGGCCATCAAGTAAGATGCTCCACTTCCTGAGC
Celera SNP ID:            hCV25614442
SNP Position Genomic:     34957
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(A,1|C,39)   total(A,1|C,75)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42793):
ACCAGCTTCCAAGGATGGTCCCTACTGCCCCCACCTCCACATTTCAAGGGTCTCGGTCCTTCCCTCAGTATACATTCCCACACTCCTAACTGATTATAAC
K
TGTAGTGGCTGGCTGAGACCTACCCCACGGGTTTTCCTCTCTTGCTCTAGGTGCATGTACATCTCCGGTGTCCCTGGGACAGGGAAGACTGCCACTGTTC
Celera SNP ID:            hCV25762466
SNP Position Genomic:     25692
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,1)   caucasian(G,2)   total(G,31|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42794):
GTAGTGTAAAGGGCTTCCGCTCCCCGCGTCGCCTATCGAATCAATGATGGCGGCTGCATGTTAGCGGATGTACGTCATGCGCCCCTCTTAGGTGTACGGA
R
TGGGCGGGGCGAGCTAGTTGGTGTCGCAACGAAGGGACGGTCTGGGGGCGGGGCCACGCCGATTGGCGCGAAGTTTTCTTTTCTCCTTCCACCTTCTTTT
Celera SNP ID:            hCV27843994
SNP Position Genomic:     5952
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,29)   caucasian(G,40)   total(A,9|G,69)
SNP Type:                 TFBS


Context             (SEQ ID NO:42795):
ACAAATCACATTTGCTGGTGTGTCCTGGATGGTGTTTTGCTTTTTCCTTGTGAAATATGTTCTTTGTTTTCAATACAGCTCAAGCCTAGAACGCCACGTT
R
TGCCGCTCCTCAGATCCGTAGTCGAAGCCTGGCTGCCCAGGAGCCAGCCAGTGTGCTGGAGGAAGCCCGACTGAGGTACTGCTGCTGTTGATTCCCCTTC
Celera SNP ID:            hCV26412925
SNP Position Genomic:     24537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42796):
GCATTTGAAATTGAGTTTTCAGGTAGAAACATAGACAAGAAACCATAATCATTTTCCATTGATTAATGAGTAGATGGTTGGGGAATGTTCCTAAAGTCTT
S
CTTTTCTCCCGTTTACCACCAATGGTAGGCTGCATGTTTCTGCTGTACCTGAGTCTCTTCCCTGTCGGGAACAGGAATTCCAAGACATCTACAATTTTGT
Celera SNP ID:            hCV26412926
SNP Position Genomic:     25173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42797):
AGACAGAATTCTTACCCTAAGAGACTTCAAAGTCTAGGAGCTGGATAATGATTACAAGCCAGGAAGCCAGTACTTACCCACATGGTGAAAACTGTGAGCT
Y
ACAGGTAGCAGTGTGGCAACATGGAAAAGGGGTCCGTGGCAGGCCAGAGGTTAAGCCTTGCTCTTTGTCCATGGGCTGTTATTTTGGAGCAGGTAACATC
Celera SNP ID:            hCV25614429
SNP Position Genomic:     26158
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,8)   total(C,4|T,8)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,12)   caucasian(T,12)   total(C,2|T,24)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42798):
ATGATTAAAAATATAGATAATTCCTGTTTTACATATAACTCAGTGGCTGAATTTGGCTGTGATGAGATTGTGGGTTTGTATATTGTTAGGTAAAAAATTT
R
CACATTGTGATGATTTCTCTTAGACTTAGGTAACCCTCAGATGTCCCAGCAGACTTCATGTGCCTCCTTGGATTCTCCAGGAAGAATAAAACGGAAAGTG
Celera SNP ID:            hCV476766
SNP Position Genomic:     16637
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42799):
GAGGCTTTTTCTTTTCTTTGAATGATCCTTTTTTTATGCCACCCTTTTTTTTTTTTTTGAAACAGCATCTCACTCGGTCGCCCAGGCTGGAGTGCAGTGG
Y
GTGATCTCAGCTCACTGCAACCTCCGCCTTCTAGGTTCAAGAGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGTGCCACCATGCCC
Celera SNP ID:            hCV26412929
SNP Position Genomic:     29812
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42800):
CCTGGGAGTAGCATATTTTGGTCTCTAGTTGGGGAGTTGGTGAGTCTAATTTAAATAAGGTTAAGGCAGACTTTGAACTCTGGGTTTGAGTCAAGCTTCA
R
TTATAACTTTTTAGTTATAATTTTTTGCCAACTTTTTAGCAGAAAGAAAGTTTTACTCTTTTCAAAGTATATATAAAAAGACTGGGAGCCAATCAGGCCA
Celera SNP ID:            hCV16180776
SNP Position Genomic:     20964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42801):
TGGAGTGCAGTGGCACGATCATGGCTCACTGCAGCCTTGACTTCTCAGGCTTAGGTGACCCCCCAACCTCATCCTCCCAGGTGGCTGAAACTACAGGCAC
R
TGCCACCATGCCCAGCTGATTTTTTGTAGAGACAGGGCTTCACCATGTTGCCAAGCTAGTCTACAAAGCATCTGATTTTGGAAGTACATGGAATTGTTGT
Celera SNP ID:            hCV25614466
SNP Position Genomic:     37462
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,35|G,1)   total(A,72|G,2)
SNP Type:                 UTR 3


Context             (SEQ ID NO:42802):
GAAACTATCCTGGAATGAGAAGAAATTCAGGCCACTTTCCTCAGAACTATTTGCGGAGTTGAATAAACCACAAGAGAGTGCAGCCAAGTGCCAGAAACCC
R
TGAGAGCCAAGAGTAAGAGTGCAGAGAGCCCTTCTTGGACCCCAGCAGAACATGTGGCCAAAAGGATTGAATCAAGGCACTCCGCCTCCAAATCTCGCCA
Celera SNP ID:            hCV25614555
SNP Position Genomic:     14265
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,4)   total(A,1|G,31)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42803):
AGGTGACCCCCCAACCTCATCCTCCCAGGTGGCTGAAACTACAGGCACATGCCACCATGCCCAGCTGATTTTTTGTAGAGACAGGGCTTCACCATGTTGC
Y
AAGCTAGTCTACAAAGCATCTGATTTTGGAAGTACATGGAATTGTTGTAACAAAGTATATTGAATGGAAATGGCTCTCATGTATTTTGGAATTTTCCATT
Celera SNP ID:            hCV25614467
SNP Position Genomic:     37514
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,2)   caucasian(C,2)   total(C,18|T,2)
SNP Type:                 UTR 3;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,35|T,1)   total(C,65|T,5)   
SNP Type:                 UTR 3;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:42804):
GTATGTGAGTCATAGTCAAAAAAGTTAGAACAGTAGTTGAAAAACCTATGTCACAGAAGTATTGGGGAGCTTTCTTAAAATACAGATTTCTAGGCCTCTT
M
CCACACCTAGTGAGTCAGACTCCAAGCACTGGCCCTAGGAATCTGTATTTGGAAATGCTCTTCAGATGGTTCCAGTATACCGAGCTGTTATTTGGGGATC
Celera SNP ID:            hCV25614556
SNP Position Genomic:     17175
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,40)   total(A,2|C,76)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,10)   total(A,1|C,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:42805):
GCATGATTATCTTAATTTATCTTTGAGTTAAATGAGTGAAGGAGAGAAAGCTAAAGGAGTGTGAGGCAGATGCAAAAGTTGAGGCAGCAGGATGAGTATA
Y
GCGGAGAGGCACAGGGCTTGGAGCATCTGGGCAGGAGCACAGTGGTGGGAATAGCAGGACTGTGACAAGACCTCTTCAAGGAGTATTGCGCACTCTGTAG
Celera SNP ID:            hCV29103785
SNP Position Genomic:     13455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42806):
CAGGCTTAGGTGACCCCCCAACCTCATCCTCCCAGGTGGCTGAAACTACAGGCACATGCCACCATGCCCAGCTGATTTTTTGTAGAGACAGGGCTTCACC
R
TGTTGCCAAGCTAGTCTACAAAGCATCTGATTTTGGAAGTACATGGAATTGTTGTAACAAAGTATATTGAATGGAAATGGCTCTCATGTATTTTGGAATT
Celera SNP ID:            hCV25614468
SNP Position Genomic:     37507
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,35|G,1)   total(A,71|G,1)
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:42807):
ACCTCTACTCCCCATCGTATCCGCAGAAAGAGTTCTGTCTTGACTATGAATCGGATTAGGCAGCAGCTTCGGTAAGACTACTCCTTGGCAGGCAGAGAAA
Y
ATTGCTGCCATCTCTGATATCTATAATCTTATCTCCTAATGCCTCTTATACTGTTTATTTGCCAATCCATTGAAATTGACCTTTTACCTAGCATGTCTGG
Celera SNP ID:            hCV25614557
SNP Position Genomic:     21277
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,4)   total(C,30|T,2)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,38)   total(C,72|T,2)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42808):
TTGCCAACTTTTTAGCAGAAAGAAAGTTTTACTCTTTTCAAAGTATATATAAAAAGACTGGGAGCCAATCAGGCCACTTGACTATCTTCTAGTGCCTTTT
R
TACACTCTGGTATCCAAAACTGCTTCCCGTGACCTCGCTGTGGTTTCTTGCAGGGATGCAAAAGAAGCAAAAGCCCAGAATGAAGCGACCTCTACTCCCC
Celera SNP ID:            hCV29103786
SNP Position Genomic:     21089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42809):
CAAACTGTGGAATGAATGATTCTATATAAGCAGGTCCTACTCTGACCAGCTTCCAAGGATGGTCCCTACTGCCCCCACCTCCACATTTCAAGGGTCTCGG
Y
CCTTCCCTCAGTATACATTCCCACACTCCTAACTGATTATAACGTGTAGTGGCTGGCTGAGACCTACCCCACGGGTTTTCCTCTCTTGCTCTAGGTGCAT
Celera SNP ID:            hCV29103787
SNP Position Genomic:     25648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 212
Celera Gene:                 hCG33054 - 84000314084470
Gene Symbol:                 MGC61716
Protein Name:                hypothetical protein MGC61716
Celera Genomic Axis:         GA_x5YUV32VWPT(46605761..46631966)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12372):
TGCCTCCTCCTCCTCACAGCTACAGAGGGCCGGAGCTGGAGATGTGGTCTCTGGGAGTCACTCTGTACACGCTGGTCTTTGAGGAGAACCCCTTCTGTGA
GCTGGAGGAGACCRTGGAGGCTGCCATACACCCGCCATACCTGGTGTCCAAAGGTGAGCGTGAGCTGCAAGTGGTAGACAGTCGACACTGTCCTTAGAGA
CCAGCCACTTTTTTTTCCCATTTCCTCATTCCTCAGTGTATCTCTGTCCATATCAACAGTCTCATTTGTTTCTTTTCTATTCATCAAATAATTTGCATAT
GACTTTAAAACATCTTGATAATTTAGTTTTTGTTAATGTTCCTCTTTGGATCTTAGAGGCCCTCTTGTGAGAAACACACTTGCAGTCAGGACAGGGAGGC
TCCAAGTGGCCCTGTTGACTTGGTGCCTACATGGTTAAAGGAACTGGGGCCCGAATCCAGATGCAAGGCTGGGGGCTTCTCTCAGCTTGTGCTGGCATCC
CCTCACCTGTCATGTTAACCCTGCGTTATTCACAGCTCTGCATTGCCAGAGCCCCTGAGAATAGAGCAGTTAGGAACCTCTGCACCACCTGGATTTTGGT
TGAGTGGGATGGCATCTTGAACTCCAAGCTTTCATTTCAGAGGCAATGAATGTTTCCTGCAGCTTCTGTCCAAGCACAGCTGGGCCCTGCACTAGAGGTT
CCTGGGCCGCCACCTGCYCAGTCAGAGGCTCTGCGGGGGGGTGGTGAGCACCCAGGAATCTGAGATGTGCTCCACTTCATCCCAATCTGGACCTACCATC
TGTGTTCTTTGTGTCCCCAGAACTCATGAGCCTTGTGTCTGGGCTGCTGCAGCCAGTCCCTGAGAGACGCACCACCTTGGAGAAGCTGGTGACAGACCCG
TGGGTAACACAGCCTGTGAATCTTGCTGACTATACATGGGAAGAGGTGTKTCGAGTAAACAAGCCAGGTGAGGCTTCTCAGCATCCCTCCACCCCACATG
ACTTCACTTGGAATAACGAGGTCCCCAGGCTGCCTTCCTAGGTCAAAAGGAGGAAAAGGAGGCTCTCTCCCCCATGCTGTCTTGGACACAAATGTCAGGG
CCTATAGCTGACCTGTCACCTGTGAGAGGGGGTTTGATTCTGTCCCGAGGCCTCTGGACACCACTGGGGTTCAGGGTGTGGCTTTGGACCTTGGAGGGTG
GGCAGGTGTCATGGGAGCTCCTGGCAGAAGGGGTCGGAACCCTCAAAGATGGTTTGAGGAATGCAGCTGGTGATGGTCTGACTGGGCCGAAGGGGAGGAT
GAGGCCACAGATGCTGAGAGTGATTCTCTAGCAGCCGGCGGGGCCGAGGGCTCTTCAGACAAGGCTCTGGCCACAGAGCCAAAACCACTGCTCAGAGCAT
TTGGACCAAGCTGCGGTTGATGGCCCTGGGCTTAGATCCCCACCTTGGCAGGATCTGTACTTCCGGGACATTGCCAGTTGGATTTCTGAGGGCCTCACCT
TAGGCTTTTGTTCTAGGACTTCTTCAAGTGAGAAGCAAAGTATTTTAGAACCTTAAGTTGTTAGCACGTGATACAGTTACCTTCTTGTTTCTTCAGAAAG
TGGAGTTCTGTCCGCTGCGAGCCTGGAGATGGGGAACAGGAGCCTGAGTGATGTGGCCCAGGCTCAGGAGCTTTGTGGGGGCCCCGTTCCAGGCGAGGCT
CCTAATGGCCAAGGCTGTTTGCATCCCGGGGATCCCCGTCTGCTGACCAGCTAAACACCAATTTCTTCCTGCTTTTCTCCACTTGGTTTGGAAAATCACA
CAGTTTTCAGGCTCCATCTGTTTGGAGAAAATACATTCTGAAGCATCCCCAATTCACCTTCTAAAAACTCATGTGCAGGTTTGATAAACACCAGAACAGA
AGACAGTGATGCTGTATTATTTTAGATTTATTACATAGATTTGGAATTCACTTTTTTCATGACCTAGAAAAAAACATTCCAGTGTTCAACTGTTTTATAT
TATTAAAGGGCTTTTAATTTGTGAACTTCTGAAGGCATGAGTGTTTTCTCTTTCTACTTTTGTATATGTGCATGTTTTGTTTCCTCTGACTTGGTATATG
CTCATCTGAGTGACGGATATGTGAAATTTGTAGAACTGGTTAGTCAAATGGCCAGACTATTTCATTAATTTATTTCCTCAAATGCTTTTCAAATTAAAGC
ACCTTTGTTAGTAAACAGTTATCCTGACTTGGATGTTGTGAACTGTTCCCGTGTGCTAAGTGTGAGAAATACCTGGTTTCCTCATTTTTCCATGTGTGCA
CCCCACTTGCCACAGTTGGAGAGAAGTCTAGCCTTGGCCATTCTGGGGTTCCTTTTACAAGCAGGCCCTGCCAGGGGTGGGCCTAGGGCTCTGAAGCTTG
CTCCATCTGGTAAGACGGGGGAGGGTGGCTTCCTCAGGGACCTCCCTTCTGTCTGTAGCAAGACTCTGCTGTCAAACACGTGGCTGGCTCACTGCCAGCA
GTCCCCAAATATCCCATGGCCAGCCAGCTCCCACCTCTGTCCACATGAGGGGCTTCCTGGCCCAGCCCCCACCTCTGGTCTGTGTGAGGGGCTCCAGCCC
TGTATTCCTCCGAGCTGCTCAGGTTCCAGGGTGTTTGTCAGATACTCAACTGGCTGCTTCCCTCCCTTAGACTCCAGTCCATCCCCCTCAGACAGACTTG
GCTAGGTCAAGTACTTAGGATTGTTTTATTTCATGTCTGTGTTAGAGAGGAGGGAATAGCTAGAGGTGAGAGCAGAACCTTTCATTTTTTTCCCCTGCTG
AGACAGTAGGAAAAAAACCAAAAACCTAAACCCCTACCCTTTTCCCACATGTCATCACTTGCAGACGGTTTTTCCACATTCTGAGACTCCTGCCCAGAAC
CCTCTGGAAGCTGCCTGGGAGCCAGGCTGCCTCCTGCGTGGTTCTGAGCTATTTCTAGTGGTTATTTAGGAGGCACTCAACTGTTTTGGGATGATCAGAG
TTAATTTTAGTCCCATCTAGTAGGATATGGGCTATTGCCATCCCTTTCTTCAGAAAGTGCTGCCTGAGCCTCGCTGCCACCACAAGTGACTGATGGAGTT
GGTGGGGGAGGACCCTCCTCTATCAGGGACATTCAAGGTACAAGGGTTTTACAGGTGTGTATTAAAGTCAGTGATGTTCACTCTTCAGAATTCAAAGAGT
TTTCTGATGTTTTAAGAACCCCTACCTTGTAGTGTTTATGGTGCTTATAACACAGAGGATGTTATAGAATGGKGTTTGTTTGTTTGTTTATTTATTTAGA
GACAGAGTCTTATACTGTCGCCTGGGCTGGAGTGCAATGGTGCGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTGCCTCAGCCTC
CCAAGTAGCTGGGATTACAGGTGCCCACCACCACGCCTGGCTAAATTTTTGTATTTTTAGTAGAGACGAGGTTTCACTATGTTGGCCAGGCTGGTCTCAA
ACTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAATGTTGGGATTACAGGCATGAGCCACTGCGTTCGGCCACAATGGTGTTTGCAGACAGGTGT
TTAATGGGTTGAGAATGCATAGTCTGAGCTTTCTAAGAACTGTTACTTCTTTATAAGAAAAAATAATTAAAGCTCATCTGACTTCATGGCAGTGGAAGGT
CTGGTATTTTGCAAACGTTCTTTGCAGAAAGAACCCAGAGAGGAAAGTTCTGAGGCTGAGGCTGACAATTTTTCCACTCCATTTTTTTTTTTTTTTTTAA
GATGGAATCTTGCTCTGTCACCCAGGCTGGAGTGCAATGGTGCAATCTCGGCTCACTGCAACCTCCGTTCCCTGGGTTCAAGCAATTCTCCTGCCTCAGC
CTCCCGAGTAGCTGGGATTACAAGTGTGCGTTATCACGTTACCTGGCTAATTTTTGTATTTTTAGTAGAGGCAGGGTTTCACTATATTGGCCAGGCTGGT
CTCGAACTCCTGACCTCAGGTGATCCACCCATCTCAGCCTCTCAAAGTGCTGGGATTACAAGCATGAGCCACCGTGCCCAACCCACTGCATATTTTTAAA
GTATGGTTCGAGAGAGCAAAGTTTTCACACAAGACTGAAGGTGATGTCAAATTTTTTTTTTTTTTTTTTGAGAAGTACTTTCGCTTTTGTTGCCCAGGCT
GCAGTACAATGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGACACTACAGGTGCC
CACCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTTTCCAGGCTGGTCTCAAACCCCTGACCTCAGGTGATCTGCCCA
CCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCGGGCTCATGTCAATTTTTCATAGTAATCCCCATGTCCCAGCTGTCATTTTAT
TTCTAGAGCTAGACAAACTGTTCAGGTTCCTTGATTCTTTCCAGGGAGTTGGGGTGGCTCATGGGATTTTCTTAGGCTTTTGGTGTAGCATTAACACAAT
TTATTGTGAGATGTTGACAGTTGAGTATTTTGAGAAGAAAATTACATTATAAAAAACAACAAAGGCAACCAATTTTTTTTTTCCTTTTGTTTTTTGAGAC
AAGGTCTTGCTCTGTTACGCAGGCTGGAGTGCAGTGGTGCAATCATGGCTCACTGCAGCCTCAACCTCCTGGACTCAAGTGATCCTCCCACTTCAGGCTC
CTGAGTAGCTGGGACTACAGGTGCACGCCACTACTCCCGGCTAATTTTTTATTTTTTGTAGAGACAGGATTTTCCTATGTTGCTCAGGTTGGTCTTGAAC
TCCTGAGCCCAGGCAATCCCCCCCACCTCAGCCTCTCACAGTGCTGGGATTACAGGCGTGGGCCACTGCACTCTGCCAAAGCAACCAATTCTTTAGTTCT
ACACGGATTAGAACCTTCCTTTTCTTTGACATAATCCTTTTGTCAAAAGACAGTTTTACATAAATTGTTTGGCACCCCACTCCATGCCTGGCGCAAAGCA
GATATGTAAATGTGTGCCCATGCAAGAATCAAATCCTTTATGTCAGTCCAGAATGAAGTAGATAAAACAAGAAATGCTTATAAATTAAGGCTTTGGTGGC
AGGATTTAGGCAGCTGAGAAAGCACACCTTTTTATTCTTCACAAGCATCACCTTGTGAAAGATGCCTACGCTCTTAGGTCGAGAGAGGAAATTTAAGAAT
GAATACACATTGGGCTAAAACTTTACTATATTTCATCCTAAGAGGGAACCAGACCTCGAAGTTGGGAAGGCTCTTGCTTATAAAGGGAAATGTGCCGTAA
TTCCTGTCATTTTACTTGGGTCTTTTAAAAACGGCAAATTCTCATCTTCCACTGGCTGAGAGTAAAAAGAAAGAAAAGCGGTAAAGACTTCTTTTTGTGC
GTAGGTGGCCCCGGTGTTCACGCTGAATACAGATTTTTACACAATAAAATCTTAAATATCTCTACATGGAACGGAATCCATTTTTCCTGCCTCGGGAAGG
ATTTCTGCGCTCTCGGGTGAAGTTCCCGAAGCAAGGAACCAGTTCCCCTCTACCTGTACTCTTGAGAGGAATTCTCAGGTCATCTGAAACACAAGTATGG
GCCAGGACGACCCATTCGTTCACGCGGCCCAGAGCTCTGCGAAACGGGACACGGCAGTGCAACGGGAACAACCGGACACCGAGGCCCCCGAAGGCTGAGG
CCGCGGCAGAGGCGGCGGCACGGTGACGGGCGCGACTCCGGCCTTCCGGCTTTCTAAGGGGCGGCCCCGGGACACCTGAGCCCCGCGGGGCCGTGAACGC
TCAGCACAGCTCCGGGCCGGAATCACGATCCACCACACCGCGCTGGCGCTGGGAACGGCGTCGGTGACGGACCGGGGGCCGGAAGTGAAGGACGGGGGAG
GACCGYTGCTTCCGGCGCCGTAWCTGCTGCCATCTTCTCCGCGCTATGGCTGCGTTCGGCCGTCAGGTAAGCTCGAGCTGGGCGCGCGGGCTTCTCCGGG
TCGCAGGCGGGCGGGCAGCGACGCAGAGGAACCGCGGCCGCCGAGTGTTTCACGGCCAGGTCGTGGAGCCCTCCCGGAGGTCCGTGCACGCTGACCTGGT
TTTGGCATCCTGGACCCGTGGCTCTGCTCAATTATTGTGGGATATAGAGTTGACATTTTTTTTTTTTTGAGACAAAGTCTCGCTCTGTCTCCAGGCTGGA
GTGCAATGGCGCGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTACTGCTTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCGC
CACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTGGCCAGTCTGGTCTGTAACTTCTGGCCTCAGGTGATCCACCCGCCT
CGAACTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTGAGTTGACTGTTGAACAAGAGTTTGAACTTCACAAGGAAGATAACATGTA
CTTTTCATTAAGAGGAAGCGGAATCAGCATAGAGGTCTTTAGGCTTGAGCCCAGTTCCACGGGCCGCGCCCGCTGACCCCAGCGACTGCCAGGTGTTCCT
GGCGGAGGGAGCATCTGGACAGGGGAGGCTGGAGAGCAGCCAGAGCTTGGGCTTGGCAGGGTGGCCCCAGGGCGACAATCGATGACGCTGGAGAAGGGGT
TGGGACCGATGTGAAGGTTTTAGAGCAGGGGTTCCCCAACCCCCGGTACCGTCCCTTGCCTATTAGGAACCAGGCTGCACAGCAGGAGGTGAGCGGCAAG
TGAGCCAGCCAGACTGTATTTACAGCCGCTCCCTTCGCTGGCATTACCGCCTGAGCTCCGCCTCCTGTCAGACCAGCCGCCTTAGATTCTCACTGGAGCG
CGAACCCTATTGTGAACTGCGCCTTTGAGGGGTCCAGGTTGCGCTCCTTATGAGAATCTGATGCCCGATGATCTGTCACTGTTTCCCATCAACCCCAGAT
GGCACCTCCTGGTTGTAGGAAAACAAGCTCAGGGCTCCCAGTGATTCTACATTATGGTGAGTTGTATAATTATTTCATCTTATATTACAACGTGAAAATA
ACAGAAATAAAGTGCACAACAAATGTAATATGCTTGAATCATCCTGAAACCCCTCACCAGTCTGTGGAAAAATTGTCTTCCATGAAGCCAGTCCCTGGTG
CCAAAAACGTTGAAGACTGCTGGCTTAGAGTGCCTGGATGATTTGTGCATAGTTTGTTAAGCACCAGCCTGAACCACTGAAGACTTTTGAGGTCAACTGG
AATTGTGTATGCAAGTTGACTAATTACTGTGACCCTTGAACAACACAGGGGTTAGGGGCACCAGACCGCCCCCACACCAGTTGAAAATCAGTGTATAACG
TTTGACTCCTCCAAAACTCAACTACTAATAGCCTACTCATGACTGGAAGCCTTACCGACAACATAAACAGTTAACACATATCTTGTATATATATATATTG
CATTCTGTATTCTTAAAGTAAGCTAGAGAAAAGAAAACGTTATTCAGAAAATCATAAGGGCAAAACCCCGTCTCTACAAAAAATACAAAAATTAGCAGGG
TGTAGTGTGCACCTGTAGTCCCAGCTACTCAGAAGGCTGAGGTGGGAGGATTACCTCAGCCTGGGGAAGTCAAGGCTGCAGTGAGCCATGATTGCACCAC
TGCACTCCAGCCTGGGCAACAGAGTGAGACCCCCGTCTCAAAAAACAAAAAGAAAATCCTAAGAGAAAATGTATTTACTATTCATTAAGAGGAAGTAGAT
CCTCATAAGGTCTTTAGGCTGAAGAGGAGGTGAAGGAGAGTTTGGTCTTGGTGTCTCAAGGGTGGCAGAGGCGGAAGAAAATCCACATATAAGTGGATCC
AAGCAGTTCAAACCCTTGTTGTTCAAGGGCCAACTCTGTATCCCACAAGATTCTTCTCGTGGAATGAATTTAAGAACATGAATCTGGAAAGTAGTCTGAG
GTCCAGACTTTTCTGGCACACATGACCAGGTGGCCTAGAAATAGTTTTTCCCTCTTCCTCCATGTCCCYGCTCCCATCCTTAAAGCTGCAAAAGCTAACA
ATATTGTACCTGCTTGACTCCCATCTCTGTGGCCTTGAAATACCCTGTTCTTTGTGAGCTTCCTTCTCTGTAGGCTTAAGTTCAGATAGGATTTTGCAGA
TTGCTTATAAAAATTGTATGTTTGTGTGGAACCAAGGCAGTAAGTACTCTGGCTCAGAAGTCTTATGGTGTCCATTACACTGGAATAGTGAGGAATTAAT
TGTCTTTTGGTCCTGTGTCTTACAGGTCCTTGATTGGCACCGCCTGATCCCCCTCACCTGGGCCTGTATGGCTAGGCAGACTCCTCATCTTGGAGAACAG
AGAAGGACGACAGCTTCTTTGTTGCGCAAACTGACTRCAGCCTCCAATGGAGGGGTCATTGAGGAGTTATCTTGTGTTAGATCCAATAACTATGTGCAGG
AACCAGAGTGCAGGAGGAATCTTGTTCAGTGCCTCCTTGAGAAGCAGGGGACTCCTGTGGTACAAGGGTCCTTGGAGCTAGAGAGGGTCATGAGTTCCCT
CCTGGACATGGGTTTCAGCAATGCCCATATTAATGAATTGCTCAGTGTAYGGCGAGGTGCCAGTCTTCAACAGTTGCTGGACATCATTTCAGAATTTATT
CTCTTGGGTCTGAATCCAGAGCCTGTGTGTGTGGTCTTGAAGAAAAGTCCCCAGTTATTGAAACTGCCTATTATGCAAATGAGGAAGCGCTCCAGTTACC
TGCAAAAGCTTGGGCTTGGAGAAGGTACAAGAAGTTGCAGATTTTGGCTGGGTGCGGTGGCTCATGCCTGTAATCCCAGATCTTTGGGAGGCCGAGGCAG
GCAGATCACTTGAGGTCAGGGGTTCAAGATCAGCCTGGCCAACATGGTGAAACCCTGACTCAACTAAAAATAGAAAAATTAGCTGGGCTTGGTGGCACGC
ACCTGTAATTCCAGCTACTTGGGAGGCTGAGRCATGAAAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGC
CTGGGTGACAGCAAGGCTGTCTCAAAAAAAAAAAAAAAGATTTTATATAGTGTGACAGGAGCCAGAGGTGGGGAAAGAGCAGCCTAAGGTGAGATGGATT
AGGGGAGGTTTCTGAGTATGTCAGTGTTCCTGGAGAGGACTGTATAATTTGGCTTGGAGGTGAGGAATAGGAGTGGCTTTCTGTGCAGAATACATTTTGA
GAGGGAAGGAGGAGGAGTTAAGACTAGAAGAAAAAATTGAGTGCCAGGGCAGAGACTCTTGTCTGCCTTGTTCACCGTGGGATCTTCAGCACCTAGTGCA
GTGGTGGGCATATGGTATGTGTTCAGTGGGTTGATGCTGATAATGTGATGTTGATAAATATGTGTACATATAGCATTTGATGTTTAAATCAACATGAAAT
GGTCTTAGTGCTCTGTCTCTGTGATGTGATGTCAAACCAACATCTCTTGTAAAGACTTAGATTCTAGTCGAGTGTTTAGATTTACTCTGGAACATGAGAG
ATCTGGCCAGGTTCCTGGGATACTCGTGGAGTGGCCTTCCCTTCTATTTATCCCCCACTCCTGCCCCCAACAATATTCACATCTCAAGGATGCTCAAAGT
TCCTTGAATCTCTTTAAGGGCCTTCTGGAGGAGTTGGGGGTCTCCAAGGACCCTTACCCACTTTGACCAGAGGAGTTCCACTAYTATTTCTTTGCATTAT
TGACTCTTCCTGGTAAGATGTTTTTTGAGGCAGTGGTAGAAGGTTTAGGATCCACCATTTCACAGCATCTCTACAGGCCTCCTTCTCTAGAAGATAAGAA
AAAGGTAGCCTTGTATATTTTTCTTAACAGATTCTTACMGTGTAATCTAAAAGTCTAAATATATTATGTGTGGTGGTGATTAATTAGCAAACTCAGCACA
GCCTTAAGAAATGAAGATAAACCTAAACTGAAATTCCTCACATATTAAGATAATCACTAACTCAAATGTTAGGAAAATTTTAATTAACAGTTTAAATAGT
TGACTTTAAGTTTCCCATTACTGAATTTTGCTCAGCTATCCCTAGGAAGGCCTGGAATAGTCCCAGTTTACACCAGTTAGTGCGGTTTTAATAGGGCCTC
TTTCACTCAAGGTGCCCTGGCTTGGAGAAGATATATGGTGACCCTGGTAACCAGGACGTCAGCATTGGTGTTGTGTGTCCTCATGATTACTATTATTGTT
ATTACTGTTATGATGACGATGGTGATGGAACTCCTTTTCATTGAGTTCAGCTTGAGAATGTTAGTTGTGAATGCTTCAATGACTATTTTATTATAGAAGG
AAACATCAACCCAAACCAGCAATATGGAGGAAACTACTCTCCCATATTACTCTCTGATCTTTCCAGTAAATGCCTGGGAAATTCTTTTCCAAGTGAGGAG
GGCAAGAGGAGACCCAAAATACAAAGTTGGCACCTTTCAGGTGGGAGGCCAGAATAAAGCAGGAATATAGGGAGGGAAGGATGGTGAGTCTGAGGAGTGT
CAGGAAGTCAGTGGGGAGATGTATCATTTCCATGGTGCTTCTGGGAAGATAGATCTGAAATTGCCACTTGCTCTGTGGAAGGAGAGGATCCTTGTTTGTT
TTTAAATGTGGACTTAAATTGGGTGCAGCTAGCTCCTTGAGTTTCTGGAGTATCCTGAAATTATATGCTTGCCTTTTTTGAATGTTCTGCAGGGAAATTA
AAGAGGGTGCTTTACTGTTGCCCTGAAATTTTCACCAYGCGCCAGCAGGACATTAACGACACTGTYAGGCTTCTCAAGGAGAAGTGCCTTTTCACGGTAC
AGCAAGTCACCAAGATTTTGCACAGTTGCCCCTCTGTTCTTCGAGAGGACCTGGGTCAACTGGAATACAAGTTTCAGGTGAGAATGACTGATAGCGTGAT
TAGCGTAGTTTCAGGTGAGAATGACTGGTAATGGGATTAGCGTAGTTTCAGGTGAGAATGACTGGTACCGTGATTAGTGTAGTAACAGCAAGTTTCTCAG
GTTTTTCAAATGTAGTGAAGGTCAGTTATATGGATAAGAAGCCTCGGACACCTCATATTTGAGTGGAGGAAGTGAAAGACTAGATTCTCTGCATACATCA
GCCAAAGAGAAATCTTTAATTTCTTTACTACAGATCAAACCTATTCTTCAACTTTTCTGCCATTAATAATGAATGATCCAGTCCTATTCTTAGAGTCTAA
GTGGGGACTCTGAAATAGCTAATTTTAAAATAGCTGAAACCTTCCTGTCCTTAGAATCTATTTTGCATGTTGATTTTGAAAATGTAATTTTAACAGTTGT
CCGATTTTTTGGTAATAATTATGACAACTTAGGTCGAATTTCTAGATGTTTTCTGAATGTTTTGCCTATTCTTTCCATATTCATCCTTTTCCTTCCCCAT
TTAAAGAAAAATACCACCTCTTCCTTCTGCCCCTTCTCCCTCCTGCCCCTTTTCCCTCCCACCCCTTTATTTCCTGCTCCATGTTTCTCAGGATGAATTT
GAAAGTGTTTTGAAACTGCTGGCTGTCACACAAATGTCAGTATCCTAGACTGGGTATTCGCTGTTGTCAATTAGGCAATTCTTTTTGAATCCTTTTGTAC
AACTTAAGTTTTTATGGTTTATAGAATGATAGGTTTCAATACTCTGTATCTGGGACTCCTAAGTGTGTTTGTGTCTTCCAGTATGCATACTTCAGGATGG
GAATTAAGCATCCAGACATTGTAAAGAGTGAGTACTTGCAGTATTCACTAACCAAGATTAAGCAGAGACACATTTACCTGGAGCGCCTGGGACGGTACCA
AACCCCTGATAAGAAGGGGCAGACACAGATCCCTAACCCATTGCTCAAGGACATTCTCAGAGTTTCAGAAGCTGAGTTTTTGGCCAGGACAGCCTGTACT
TCTGTTGAGGAGTTTCAAGTTTTTAAGAAGCTCCTGGCTCGGGAGGAGGAGGAGTCTGAGAGCAGCACATCTGATGACAAAAGGGCAAGTSTGGATGAGG
ATGAGGATGACGATGATGAGGAGGACAATGATGAGGATGACAATGATGAGGATGACGATGATGAGGACGACGACGAGGCGGAGGACAATGATGAGGATGA
GGACGACGACGAGGAGGAATAGCTGTGATGGAAGGACTAGAGCGAAAGGGCCCAGAGATATCAAGGAAGCTTTTCATTCTCTTAAAGCTTTTGGGTCCTT
TACTTGAATCTTCTCAAGTTATTTTTTATTCTAAAACTGGTCTCTTGATGAAAAAAATTATAAGTCACCTGAGAGGCAGACAGATCAAACCAAACAGGAA
ACAGGAAATGCATGTTTGATCTGTTGTCACGTGTCTGTGGGGAGGGCCCTGTCCCATCCTGAATAAGATACTTATGTTGAGCTATTCAMATCAAGGGGAC
TCAATATATCAACAATTGKTTTTATTTTTTTCTCTTTTGAATATGTTGGTGATAATTCCGTGACAGTTGGAAGATGGGGTTCATTCTTCCGGTTCAGGAA
TCACTATGTATTTCCTTCTTGTGATAAAAATAAAATTACGAGAAGGCAATGTGAGGTTTTAGTACATCATAGCACTTTATTTTATGAAAACATGTAGCAG
ATTTTCCACAAAAATGCTTATTTTTAATCCAAAAGTATATTGCTTCATAATGGTATTCAGTGCACAGCAGAGTAAAAGAAGTTAATTCATGATGTACTGG
TTAATTTTGCATGGCTTCTTAAGGCCAGCAAAATGCTGGCAGTTTTCTTTATCTTTGTGAAGAACAGGCCCTTCCTGTTTGGGGAAGTTGGCTTTTATGT
CAGCTCTTGGCCAGTGGTCACTTCCAAGCCTGGTGTCTCCGGCCCTGTAGTCTGTAGTGCCAGACTGTGCTGGCCTGGAGAGTGCTGGGGCAGGTGGAGG
CCAGGGAATGGTCCCATACAGTTATCTCCCCTGCCCTGGTTACAGACAGCTTCGAGAACCAGAGGAGAAGAGCATAGGGTCATGGAGCAGGTGGGCTGAA
GCCAGGGCCACAGGGAGCAATCCGTGACCCCCCAAGGTGGGTGTGGGGGGGGGGGGGGGCGTGTCACCTTAGGGAACTCAATGAGTCCGAAGAACAATTT
GAAATGTTGGGAAAAGAGAAGAGGAATTTGATGTCAGCCGGGGTGATCCCTGAGATAGAGGCCTGTCTCTGATGGCATGAGCTCTAAGAGGGTCCTGGAG
GATTGGTACATCCTAGAACATTCCAGTTAGCCCTCTTTTAGGGGAAACTGGCATAGGATTGATGCAGAAGGCATTTTTGATGATGGGACCAAAATTCAAG
TCTCCTTGGTAGCATTCTAGGATCAACTAGATCCTAGGATCTGGTAGATTGTAGGATTCTAGTGGGTAGAGGCCAGGGGTGCTGTRAAACATCCTGCAGT
GCACAGGATGGTCCCACAAGAGAGGATGATCCGGCCCAGAATGTCAGTGCTGAGCCTGAGAAACTCATCTAAGGCCTGGTCCACAACAGTAATGTGACTG
TTCACTCGTGACAACTTCAGATGGTAAATGGACTTAGGATCGTATTATTTTATTTAAAAGAAAAATAAGGAGCTGGTTTTTCAGCCGGGTTCCTTTCCCC
TATGCACTGGAATACCCCTGGTAGGTGTGAGCTGCATGCAATTGTGGGGATTCAGCACTGAAATCTAGGTGCTTTTGTTTTCTCCAGCAGCCTCGTCTTA
CAGCGTGACTGCAAAGAAAAAGACTTTTGTTTTGCAAAAGAAAAGCAGCTCGGTGACTCCGTCCWCATCGCCACAGTTGAGTCAGATGGCAGTGGCAGTC
CTTTGCCAGTGGAAGGAGTTCCTGCTAAGGGGAGGTGCRGGAGGTGAGCTGATACCTGAGTGGGGCCCTTGCCTGTTGGGTTCTCTACTGGAGGACAGTG
GGCACAGCAAAGATTCCCTTACTTGTACCTGGCAGCCCACAYGCAATGGGGAAAAGGGAGAGTTTGTCTTTATTGCCTTGCTTGGCCATAGGCAAAACTG
TTTGGAAATGAGACATTTCACTGTGCCAGTGTTTTCATTTTCTCTTCCATTGTGGCATCCCGGTCACTGCCACCCTCCCTAGAACCTAGGCTGTTGTTGT
ACCCAGTCGGAGGACTAAGTAGAATCCTCAGTCTGCACTTGGTTAGATGATCAGTCCATCCCGGTTTCATTAGCAGATGGGTAATTCAGCAACTCAGGAT
TGCTTCTTTCATTTTGATACAGAAATCTTTATGCTCCTGACAGTTTTCTGATTCTATTATTACTAATTTCCTTGGGTGGACTTTGAGTATTTTCAAGGAA
GCCATTTGAGTTTTTAAAAGAAGCCACATGGGAAAAGCTGTGGTGGCCTCTTTGGAATGTTTCAAGAACGAACTGTAATTCCTGAGCACCAGGAAGTCTT
TTTACTTGATATTTAATGTGGAAAACATCCCAATGGGCAAGTCCTGTGACAGCACTTGGGACTCAGGAGCCAGTTCTTGTTGACACAAGGCTTCTAAGCT
AACACTGGAGCATATTAGCATTTGCTGTGTGGCACCAAGCTTGGGACTCAGGAGCCAGTTCTTGTTGACACAAGGCTTCTAAGCTAACACTGGAGCATAT
TAGCATTTGCTGTGTGGCACCAAGCTTGGGACTCAGGAGCCAGTTCTTGTTGACACAAGGCTTCTAAGCTAACACTGGAGCATATTAGCATTTGCTGTGT
GGCTGAGGGGCTTGAGGTCCTAGTAGGGAGTAGAAAGTTTCCTAGTAGGATTCACCTACTTTTCCAGTGATAYCACTCGATCTTAGCATCTGCTAGTAAT
GCTGTAGCTTACATGGACAAACAGTGACAGGTCCCAGGGCGGCAGGAAGTCCGCAGTACGCGTTTGTGAACGTGGTTTCTCTCAGTTCACCCAGTGACCC
TTYGCTGAGCTCGAGACCCTTCATTGAGCTCCACCTTCTGCTCTCAAGTGGGTCTGGAGCCTGGGGAACAGCTCGGGAGTACAGGTGAAACTTCKCGAAT
TGCCTGTTCCTTCTTTCTGAAAATGACAAATTGCAGAATACACAGACACATGCACATGAAATTTTAATAAAGATAAAAAGCCTAAAATATACTCTAACTC
TTCAAAAAACAYTTTTATGAAAGAGGAAAGGAAGGAGGCCCTCTTTGTGGCTGGAATGCTGGCTCTGAGCAGAGTCAGGGTGACGCGGCAGGGCGCTGGC
TTTCCAGCTGGGTCAGYGGTCGTGAGGCTCAACACGAGAGGAGGTGGGGTGGCTGCTTTGGTTGTAACATTAGCAGGGGGAAGACAGCTGCTTAGAAGCA
TGGTGGGAAGCAGATGTGGTGAAGTGCCGTACTGTTCTGCTTACAAAGATGGGGATGTCTAAGATCGTGTTTACTACCTGATAGCCTAAAACAGTATCAC
TTGAGTCATGGACTAAAAGGAACCTTAAACATTGTCCAGCCCAGCCCAGGTGTCCATCTCTGTTGCACTGAGACTTGTAAGGCGTCCTTGCTGCTTCGTG
GCAGTGTGCCTTAGCTTTCCAAGCAGGGGTCTGAATAGCTTTTTCCATGAAAATTCAGGGGTCTTTCTTTGATACCCTTGTGACTTGTCATTCAGGGGAT
GGCTTCCACTGTTTAAGGCTGAAGCCTAGGTGATCTCATAGAACAGGGTTCACCAAATAAGGCCCATGGGCCAATTTGGCCACCACCTGTTATTGTAAAT
AAGTTTTTATTGGAACATAGCCGCAGCCATTCAATGACATGCCTGTGGCTGTGTCTGCGCTACTGTAGCCACAGGGACCTCTGGTCTGCAAAGCTGAAAA
CGTTTACCGTCTGACCCTTGATAGAGAAAGGCTGCCAGTCGCGCCGTTGTCTAAAAAAGTCTGAACTCCACCTTAGTGTTAACTAGTCCATAGGATGGCT
CGTCGACCTGCACGAGCGTCATAAACACGCTGGAGGACCAGAGCAGGGGCGGCTGTGTCTGCAACCCGGCTTTCCTTCTGACATCACCTGGTCTCTGCCC
TTCAGCCCCTGCCCCCGTCTCTGTTTTGGAAGTGGTCCATCACAGTTCCTTCTCAATTTGTTGGGCCTCGAAGGGAGAATTCTTTCTCTGGCTTTGGAGT
CTAAGAACAGGTTTCTGCATACTGCAGAAGCGTGGCTGACTGACAGCCTCACTGATTCCGGGGAATGGCGAGCTGTCATCTCATCCGCAGAGACACAGAC
TACACCTTCAGGAACTGCAGCTTGGGTGAGGGCACAGGCTGCTTAAACGCATCGCAGGACTCACAGGTGGTTGGTCCCAGAGGGGTCTCTCAGGGTGGGC
TGGTGTGTGCACAGGCCTGGCCATCTGTCCTCTAGAGGCCTGAGGAGAGAGGTCACAGAGGGGACTGACTCCAGCTAGGACCTTTTCTCAGGGTGTCCTT
TTTCATCCAGTTTTTAGACCTCATCTTCCTGGGTGTTAGAAACTCGTGAGGTTGGTGGAGTGTAACAAGAACGTCTTAAATCCTTTGAAGAAAAAACAAA
GTGAAGCATGAGGAGAATGACAGGCATTCCCACTCCTCTTTAAATGGGCTGCTTCCTGCTTCTCTTAGTGGCCCTCAGGGCCTCTGTCACCCAGAGGACC
CCACGTTCTTAGAGCACCAGGATTCTACCATATGGCAGTGCACACGGGGAGGACCCCGCGTTCTTAGAGCACCAGGATTCTACCATATGGCAGTGCACAC
GGGGAGGGGCAGCCTCCACCGACTACATCCCCATCTTTAGGAACATGTGGGCTCAGCATTGCAACTTTTAAATGTGAAATCACAGCCTGTTCCTCTTCCC
TGCCCTCCTCCTTCCGGTAACGACTCTGGGTCTTTTCTCCAAGGGCACAGCTGTGTCAGGTTGCTCTGGGTTGAAATGAATTCTCGTGTTGTTCTTGGAT
GGGTGTCTGGGTGCGTGTGTTTCTGTTTCCTGCTTTTTTGTGTGTTGTCTCCATTATTTCAAGAATAGGTATTCWATAAGTCAGTATTTGATAATTAGTT
GGGGGTTTCTGATTTGTTTTTATGGGAGTGGATGTGCTAGGCAAGCATTTAAAAAGATACATTAATATTTCAGGTGACTTACCACCGTATAAATATCTCA
AACCCAAATTATGTTTGTGGATTCTTAATCCTAGTACAGTTAGGCACTGCACGATGAAGGACCGCGCGCATGACAGTGGTCCCATGAGATTACAGTGGAG
CTGAGGTCATAGCCATCGTACAGAATTCTTTTTTCTTTTTTTTTTTTTTTTGAGACAGAGGGTCTTGCTCAGTTGCCTAAGCTGTAGTATAGTGGCGCAA
TCTCAGCCCACTGCAACCTCTGCCTTCCAAGTTCAAGTGATTTTCCTGACTCAGCCTCTTCAGTAGCTGAGATTACAGGTGCCCACCACCATGTCTGACT
AATTTTTGTATTTTTAGTAGAGACAGGGTTTCATCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCGCCGGCCTCGGCCTCCCAAAGT
GCTAGAATAATTCTTTTTGTGTTTGTGGTGATGCTGGTGTATACAAACCTACTGCACTGCCCTGTGTATAGAAGTCTAGCACATACAATTATGTAGAGTA
CATAATACTTGATGATAATTTGTGATGTTACTGGTTTACGTATTTACTATACTCTTCATCATTATTTTAGAGTGTACTCCTTCTACTTATGAAAAAAAGT
TAACTATAAAATGGCCTCAGGCAGGTCCTTCAGGAGGTTTCCAGAAGAAGGCATCATTGTCACAGGAGGTGGCAGCTCCATGTGTGTTACTGGGACACGA
TGTGGAAGTGGAAGAAGGTGACATGGATGATCCTGCCCCTGTGTAGGCATAAGCCAATGTGTGTGTTTGTGTCTTAGTTTTTAACAAAAGTTAAATAGTA
AAAAACAATTAAAAATTTTAAAAACAGAGAAAAGCACTAAGGACAGAAAACAATTTTGAACATCCGTACAGTGTGTTTGTATTTTAAGCTGTTATTAAAA
AGAGTTAAAAAGTAAAAATTAAAAATGTATAAAGTAAAAAAGTTACAGTAAGCTAAGGTTAATTTCTTATTGCAGGACTAATTTATTATTGTGCAACTGC
CAGTCCTGCGCATTCCAGCTACGCTAAGCGCCCTGCCCAGGTATACCATTTTTTATCTTTTATATCTATTTTTACTGTAGGTTTTCTACGTTTAGATACA
CACACACTTGGCACTGTGTTACGACCGCCTACAGTATTCAGTAACACGCTGTGGTGTGTAGCCCGGGAGCATGGGCTCTGCCACACAGCCTAGGTGCGCA
GTACGCGGTGCCATCTAGGTTTGTTCTAAGTATGCGCTATGATGTTCGCCCAGATGAAATTGCCTCACAAAGCATTTCTCAGAATGCATCTCCATTGTTA
AGTGATGCTCGGCTGTAGGAAATTGCTTACAAGCCTGGAGTGTGCTTAGTGTGTGTGTCTTTGGAGGGTGAGGTGGGAGCGGGAAGTGATTCCCTCGAGT
CAACAGGAAGTGAATGCTGCCGGCTACTCTCTTATGGAGAGACTTTCCACATCCGAAGAGGCAGATGCATGCACTCTGTCATGGCCAACTCAGAGCTCAA
GTTCCTGCCATGTGCGGAGCTCCGGCCCAGACCTTTCCCCCAAGGGGGTGTGGACACTCTTCCTTTGGTGTGTGTGAGCCTATATCTGAAAAGCTGTTTT
GCTTCTGTTTGTTTTTAAAGGTTCCTGAATGACATTTCTCCTTTATTTTTTTAGGCACGTAACAAAACATAGRCCTGTTTTGAAGTGGCTTGTYACCCAA
GGGTGCCTCACTCATCTGCGCCACCAGGAAGATGAACTGTGAGGGCTCCTATAAGGGGCAGGAAGAGCAAAGCTGTCCTAGGCCAACCAGAGATTCATCT
TTCATGCAGTGACATGTTGATAAAAAATGATGGTCAGTATGAAACTGGTAACAGGTTGTAGATGGCTTTCTATGGTATATCCCAGTCTCTTGCAAACGAT
TGTGAAGAATGCCAGTGTTGTTTAAGATTCGGCAGTTTGTGTGGGGAGGTGGGGGCAGGATGGGGTTTGGTTGCCAAAAGAGTTTGGGAAATGCTGGCTT
AAACAAAGGCGAGAGGAAGTTCCTTTCACGTCAGGATTTATGAATGCCTATGAGCCCAGTGTCAGTGACGACTTTCTAGCGGCGGTCTTCAACACTTTCT
AAATATTAAGCGATCAAGGCCCCTGCCCCACTTTTAGTTCCAACAGAATGCCGTTCACAAGATCTGGGAGGCACTCTCTCAGCCCTCTCCTGGAGCCCCC
GGAATTTCTCAGCAGCCCAGGCCCTCCCGCTGCCCGTGGCCCCTCCTCCCAGGTGCCAGGTGGTCTTCCAGCCTCTCCAAGGGCCCACCCCCCTGCCTCT
TCCTCCCACTGCAGCTGATCTAGGGGTTTCTTGGCCACATTTCCCTTGAGAGAGAGTGGGATTTGCCCTATCCACAGAGAGCCTCATTTCCACCTGAAGG
TGTATTTGTCAGTGGCTAGACCAGGTTCATGTCTGTTTCCCCTTGGGGACTTCTGAACCTTCCTGCCCGGGAGTCTGTAACACAGCAGCACAGGACCGCG
CTTCCTTTWGCAGTGCTGAGTAAGCAGGCAGCGGCACTCTGAGATCCCGGGGCTGGGCAGTCGCCCCCCACTTCCCAGCAGCTCTGTGGTAGTGGGGCGG
GAGCAGCAGGGACGTACCTTAAGATTTCTCCAGTGTCTGACTCTTACTTTGTTTCCTGAAATAATTAGAGAAAAGTCGTTTAATGAAAAAGAGACTGTGT
ACCTTGAATTCTACAGCTACCTCAGTCCAGGCTGCCTGCTGAGATCCTGTCTTTAGCTCACATACATTCCACGGTGGGGGACACCATTAGTCCAGACACC
GCTGTGGAGATTAGCATTTTAGTTTGTGTGCGCCCGCCTGGCTTGAGGCAGTAGTTTAGGAATGACAAGGCTAGAAACCTGGCTGGCTGTGAGTCAGAGA
GAGAGAGGATGGACGTGGGAGAAAGCAAGCAAAAGCTACCCTAGGGAAGAGCCGGTGACGTGCACAGGCCGAGCAGCACGGCTGGTGAGCTGCAGGCTGC
GGCCTTGCCCGGACACTTGGTAATGCCAAACAAGTACGTGTGGCTACTCATTGGTCTATGAGGACGATGACAGGCTTCGACTCTGTGGTTTCTAAAGCAT
ATAATATTCTCACGTACTTCTTTCAGCAAACGCCAAACAGTAGTAATTCTTGTAACTACCTTGAACCCTTTGTGGAAAGAACCTGGGTGTGAGTGAATAA
AAAGTAAAGAGCGACGCGCTATATCGGCCATTAAATACTCGGGGCTGTCCGTAACACCCTGTGCTTCCCAATTGTAGCACCATGTTCTGTGTGAATATGC
ATAACCAGAGTGACCCCCCCCAGCACCCAGCATGCCCGGCTGTGCCCCTCTGGGTATGCTCACATGCACATATATGGACATACAGTTTCGTAGCAGAACG
TGGCTGCCCAGGGGCTGCCTATCTGGGCGAGTAGACCGCCTGGCTCAGCCCACAGGCCTGCAGCATCCCATAGCACCCCGCCCTTGCCCCATCACCCTGT
GGGCTACATGCAGGACACGGCATGGGCCTGCTCCCCAGAGGCACCTGTTTGGGGTCTTCTTGAGGCTTGTGCTTTCACAGCTCTCTTTGAAGCAGATGTC
TTGGTGAACTCGGTAGACTCTTTTATACCTGTTGTCACAAGAAAGCTTTGTAAAACCAGACAGTGAAGCAAAATGTTGCCAACTGCTTAACCTAGGCTAT
GTGAACCCACAGTAAACCTGAAGGTGTTTGAGGGAAAAACTGCTATTTTCTGAATGAAACGTGACCTCCTATTGATGTATTAAAATGTCTAACATAAAGG
TCATGTGATTTGTAATAAATTTATTGTGGTACAGTAATATGCATAAAATAAACCCATTTTAATGTGCATTCTGATGAGCACTGACAAAGGATATGGTACT
AAAAATAAAATGTGAAATGTCAAAGACATGTCAGTGCTAGAGGCAGCCACCTGGCCGGAGGCCTGGGGAAGGTATGGCCTCGCTTTTCTGTTTTTCTGGG
TATTTCACAGAGAAGTTTGAGGAGTGTTGGGGATTCGGGATTCGGATGTAGGCATTGTAGAACAGGAGACCCGATTTCATCTCCTGCCTCTTCCATTTAT
TAACCAGGCTACTTTGAGCAAGTCTCTTCAAGTTTTAAGCCTCGGTTGCAGGTAAAAATGGGACCTACTCATACCATCTCTCTTACAAGTTTGTAGATAA
TAATGGATGGGAAGGCGTTTTGTCTTTTGTTAAAGTTCTCAAATGTCAGAGCTGTTTAAAAGGGAAATCCAAGGAGTTCAGCAGGCAAAGCTCCAACTCA
TATGCTAAGTCTCATAGAACCTTTAGGATCGAAAACCTGTGGTAAGACTTCCATTTCTGGACATGAAAGAGTAACAGAATCTGGAATTAACCTCCCAATG
TGAACAACCAGAGAACTGGACAAAATATAGTAAGTAACTGTATGTCAGATGTTAGAAAACAGACAACACGAGACTGTAATCCCTGAGAGAGGAGAAACAG
ATGAGATGAGTCCTGTGGTCAGCCTGGAATTCAGCCTAGAGAAGTTTTTGGATGGCATCACAGAGAAAGGGGATCCAAGCAGTGGTCACACTGAGTTGAG
GAAACAGAGATTGAAGTTGGGGAGACAGAGGCAGCTGGAATTTGTGGGGCAGAGTACTGAAGAGGAGGGAACTATGCAGAGGAGGAACTCCAGAATCTGT
GTAGGGTCCCCTTGGGCCTGTGGTTGGAAATAAAGCTGTGCATGCATAGGGTGAATCCCCACAAGGCAAAGAAGAACTACTGAGGAGTTGAACGATTTCC
AGAGCCAGAGTAGAGAGATCTTGTTTATTAGGCCATCCATAGAAACCCCAGACAGGGCCAGGTGCGGTGGCTCACTCCTGTAATACCAGCACTTTGGGAG
GCCAAGGCGGGCCGATCACTTGAGGTCAGGAGTTTGAGGCCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAATACAAAAATTAGCTGGGCATG
GTGGTGAGTGCCTGTAATCCCAGCTACTTGGGAGTCTGAGGCAGGAGAATAGCTTGAACCCAGGAGGGCGGAGGTTGTAGTGAGCTGAGATCGCTCCACT
GCACTCCAGCCTGGGCGACAGAGCAAGACACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAAACCGCAGAAAGGCCATGCCATAGAACTAGGGCAAAA
TTAACCCCAGAATAAAGGCTACTCCAAAGCCACCTAAAACAAGCCTCAGAAGGATCAAACTATACTCAGATAATGCCTTGCAGAGAAAAAACATTCTTGA
AAAGAAAACAAACAAACAAACAAATCCAGCGTCAGTAACATAAAACTTACAATGCCCAGCATCCAATAAAAAACTATAAGACATTCAAGAATCATTTGAA
TAATCAAAAAAGTGACCCATAACCTAGAGAAAAATAATCAAATAGAATAAGACCCAGACATGAGAGTGATGACAGAAATAGCAGATGAGGACCTTAAAAT
ATCTATTATAAATTTGTTCCACATGTTCAGTGAGCTAAAGGAAAATATAAAGATAATGAAGATAGAAATTGGAGCATCTAAGAAACAACTAAATGAAACT
TCTGGAGATGATAAAACACAGTATTAATAAAACTTTTGTTGAACAGGATTAATGGTAGATGCTGCAGAAGAAAAGATCAATGACCTTGAGTGCATAGCAA
TAGAATCTGTCCAAAATGAAAAGACTGAAAAAGTTGAGAAGAGCTGCAGTGACCTGTGGGACAATATCAGTCTAATACACGCATAACTGGAGTCCCAGAA
GTAGAAGAAATGGAGGGACAGGAAAAATATATGAAGAAATAATGGCAAAAATTTTACGAAGTTTGACAAAATTAAAACCCAGAAATACAAGAAGCTTAAA
CTCCAGAGAATCAAAACGTAGCCATACCGAGAAGCACATCATAATTAAATTGTCCAAAAACAGTCATAAAGGGAAAACATAAAAGGGGCAGGAAGACACA
TTCCATACAGTGTAACACAGGTAAGAATGACTGCAGTCTTCTTGTCTGGAACTATGCAAGCCAGAAGACAAAGCCATGACAACTTTTAAGTCATGAAAGA
AAAAAATATAACTGTCAATCAAGAAGTCTATATTCAGCAAATATATTCTTCAAAAATGAAGGTGAAAAAAAAATAGTTTCAGACAAAAGCAGAGAGAATT
CATCTCCTGCAGACCTGTGCTATAGGAGATGTTAGAGTTAAGTTCTTATGGCAAAGAGAAATGATACCAGATGGAATCCTAGATCTACAAAAAGGAATGA
AGAGTGCTGGAGTCGGCAGGCAGATGTACAATAAATACAAAATACTTTACTTTCAATATCTAAAACAAGATAATTTTTGAGTGCAAAAATAACGTATAGT
GCAGTTCACAGCATATGTGGAAGGAAAAAGTCTGATAATAATTCAAAGGATGGGAGGGAAGTGGAAGCTTGATGTCAGCCGCTGCCATGGATACTGAAGT
TGTCTACTAGTGATTAAAGGTATGCGGCGTGAAGTTGAAGATGTGTATGGTAAATCCTAGACACTGCTGGCCGGGCACAGTCACTCACGCCTGTAATCCC
AGCACTTTGGGAGGGCAAGGTGGGTGGATCACCTGAGGTCATGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACGTAAACTTTGTCT
CTACTAAAAATACAAAAATTAGCAGGGTGTGGTGGCAGGCGCCTGTAATCCCAGCTACTCGGGGGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCA
GAGGTTGCGATGAGCCAAGATCGCACCATCGCACTCCAGCCTGGGGGACAAGAGGGAGACTTTGTCTCAAAAAAAAAAAAAAAAAAATCCTAGACGCTGC
CATCATATTGAACTCGTACAATAGTAATTAAGGGTACATTGTGTTAAGGTGAAGATGTGTATGGCAAATCCCAGAGCAACCTCTAAACAATAAACCTAAG
AAGTATAACCAGTAAGCCCATAGTGGAGACAAAATGGAATCCTAAAAAGTAATCCAAAATTAGGCAGGAAAAAAGAAAAAAGGAACAAAAAGCAGGTGGG
AAAAATAGAAAACAAATAGTAATATGGCAGTTTAAATCCAACCACATCAGCCATTATGTGGAAGGTAGTAAATGGTCTAAATACTCCAATAAAAACCAGA
CTGTCAGACTAGATATCCAGCAAGACCCACCTCTATGTTAAATACTAGAAAGTCACTTGAAATATGCAGATAGGTTAAAAGTGAAAGGATAGAATGCTTT
CAGGAAGTGAAGGGTCTTCTTGTTGGATACTTGGTGGTCACCAGCAGGCACTGGTGTAACTAAGCACAGCGGGAAGATGGCAGATACTGTGGATTCGGAC
TCTCACTGCATAGAATCCGAATTCAGTGGGCTGTCAACACGGCTTCCCAAATCCCAACACAGATTAGTATCTCATATGTGTTCCTGCTACATATTACACC
TGGCTTCATGTCCAAGCTCTAATGAAGCTTCTACCCTTGCCCGTCTACATCCCATTCTCCACAGAGCATCCAAAGTAGTGTAATCGAACATGTCACTCTT
CTGCTCAGAACCCTTCAGTAGCTCCTCCCCATTTCATGCCGGACAAACACCAGAGTCCTTCTGTGGGTCTCCATGGCCCCGAGGGTTCCCTGTCCCTCAC
CTCTCACCACTCTCCACTTCTCCCCCAACATGCCAGGGACACTCCTGACTTGGGGCCCTGGTAACTGTCCTCTGGCTCTGGAATGTCCATCCCTCCTCCA
TGTCTGTTCAGCATCGCCCTCCCCAGGAGGCTGCCCTCTTGCTGCACCAGCCCTGCCCATCCCCAGCAGGCTCTCCTGGTCTCGTCCTGTCATCTCGTCC
TTTTTCCCTTTGCACTCACCACCTGCCACACCACACACCACACTCTCACTGCTGTCTGTTGTCTGTCCCCTCATCTGCAATGAACGGGTCCTGAAGGCAG
GGCTTTGGTCTGCTCTGTTCTGATGTGTGCTGAGTATCTAGAACAGTGCCCGGCACACAGCAGGTACTCAGTAAGTCATCTGTTGACTAAATGGACAGTG
CCCGGCACACAGCAGGTGCTCAGTAAGTCATCTGTTGACTAAATGGACTGTGTGACCGACAGAGTCATAGAGTGTTAGCAAGAAAGGACCTAAGAGATGG
GCTGGGCATCTCTCCCTCCACAGCCCATTTTGGAGATGGGGGGCCTAAGGCCACATCATGAGTTAATGGCAGAACTGGGGCCGGCATTCTCATGAGCTGT
TTGTTTTTCCAGGGGGCTCTGAGGAAGAGAAGAGAGGAAGGTCACATCAGTTGGCTCTGCCATCCAGTGGGGACTGGGCTGATGTGTGGGAAGGAAGGYC
TGGGGGCCTGGGGACCAGGAGCCTGCGTTCTTCTCAGCCCCTGCTCCTGAGCTGCATGGACTTGGGGCAGTTATTCGGTTTTTCTGCCTCAGCTGCCTAA
TTTGTGACATGGAGGGAATCGATGGTCAAAGCAAGTCCCTTCTGTGACTGCAGCCATCRTCCCTCCTCAGGGTTAGCTGGGTAGCTTTGAGACAGCACTT
TGAGGAGTCAAGAACACACGACAAATGCGGTAAGGCGGAGGACAGAAACCAACTTACACGTGGTGACAGACGCCTCCCTCCCAGACTGGAAAGGMCTTTG
TCTCGGAGAACAGCCTTGTGCAGGGGCGGGACACCTTTATACAGGCTGCGACAAAGAAGGGCAGTGGCTCACCAGGTGCTCCTGACGGCTCCTCCTGCCC
CTCTTGAGAGGCCTTGCCCAAGGGAGAGGGCCCGGGGGTCCTTAGGCTGGCTTCCTCCAAGGCGGGATGGTGGGAGAGGGCCCGGGGGTCTGCAGCTGGC
TTCCT


SNP Information

Context             (SEQ ID NO:42810):
GCACCGCCTGATCCCCCTCACCTGGGCCTGTATGGCTAGGCAGACTCCTCATCTTGGAGAACAGAGAAGGACGACAGCTTCTTTGTTGCGCAAACTGACT
R
CAGCCTCCAATGGAGGGGTCATTGAGGAGTTATCTTGTGTTAGATCCAATAACTATGTGCAGGAACCAGAGTGCAGGAGGAATCTTGTTCAGTGCCTCCT
Celera SNP ID:            hCV25758097
SNP Position Genomic:     8537
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,5)   caucasian(A,36|G,2)   total(A,69|G,7)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,172|A,1317)   total(G,172|A,1317) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42811):
TGCTTGCCTTTTTTGAATGTTCTGCAGGGAAATTAAAGAGGGTGCTTTACTGTTGCCCTGAAATTTTCACCATGCGCCAGCAGGACATTAACGACACTGT
Y
AGGCTTCTCAAGGAGAAGTGCCTTTTCACGGTACAGCAAGTCACCAAGATTTTGCACAGTTGCCCCTCTGTTCTTCGAGAGGACCTGGGTCAACTGGAAT
Celera SNP ID:            hCV25954660
SNP Position Genomic:     10966
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,2)   total(C,29|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42812):
GATGTTCACTCTTCAGAATTCAAAGAGTTTTCTGATGTTTTAAGAACCCCTACCTTGTAGTGTTTATGGTGCTTATAACACAGAGGATGTTATAGAATGG
K
GTTTGTTTGTTTGTTTATTTATTTAGAGACAGAGTCTTATACTGTCGCCTGGGCTGGAGTGCAATGGTGCGATCTCAGCTCACTGCAACCTCCGCCTCCC
Celera SNP ID:            hCV26232166
SNP Position Genomic:     3273
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,10)   total(G,1|-,10|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:42813):
GAAGGTTTAGGATCCACCATTTCACAGCATCTCTACAGGCCTCCTTCTCTAGAAGATAAGAAAAAGGTAGCCTTGTATATTTTTCTTAACAGATTCTTAC
M
GTGTAATCTAAAAGTCTAAATATATTATGTGTGGTGGTGATTAATTAGCAAACTCAGCACAGCCTTAAGAAATGAAGATAAACCTAAACTGAAATTCCTC
Celera SNP ID:            hCV29041221
SNP Position Genomic:     10039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42814):
GGACCAAAATTCAAGTCTCCTTGGTAGCATTCTAGGATCAACTAGATCCTAGGATCTGGTAGATTGTAGGATTCTAGTGGGTAGAGGCCAGGGGTGCTGT
R
AAACATCCTGCAGTGCACAGGATGGTCCCACAAGAGAGGATGATCCGGCCCAGAATGTCAGTGCTGAGCCTGAGAAACTCATCTAAGGCCTGGTCCACAA
Celera SNP ID:            hCV29041222
SNP Position Genomic:     13586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:42815):
TGTGAGCCTATATCTGAAAAGCTGTTTTGCTTCTGTTTGTTTTTAAAGGTTCCTGAATGACATTTCTCCTTTATTTTTTTAGGCACGTAACAAAACATAG
R
CCTGTTTTGAAGTGGCTTGTTACCCAAGGGTGCCTCACTCATCTGCGCCACCAGGAAGATGAACTGTGAGGGCTCCTATAAGGGGCAGGAAGAGCAAAGC
Celera SNP ID:            hCV16179343
SNP Position Genomic:     18973
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:42816):
TCACGATCCACCACACCGCGCTGGCGCTGGGAACGGCGTCGGTGACGGACCGGGGGCCGGAAGTGAAGGACGGGGGAGGACCGCTGCTTCCGGCGCCGTA
W
CTGCTGCCATCTTCTCCGCGCTATGGCTGCGTTCGGCCGTCAGGTAAGCTCGAGCTGGGCGCGCGGGCTTCTCCGGGTCGCAGGCGGGCGGGCAGCGACG
Celera SNP ID:            hCV25753082
SNP Position Genomic:     6023
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,34)   total(A,69|T,1)
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:42817):
ATGAAAGAGGAAAGGAAGGAGGCCCTCTTTGTGGCTGGAATGCTGGCTCTGAGCAGAGTCAGGGTGACGCGGCAGGGCGCTGGCTTTCCAGCTGGGTCAG
Y
GGTCGTGAGGCTCAACACGAGAGGAGGTGGGGTGGCTGCTTTGGTTGTAACATTAGCAGGGGGAAGACAGCTGCTTAGAAGCATGGTGGGAAGCAGATGT
Celera SNP ID:            hCV2780354
SNP Position Genomic:     15417
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:42818):
ACCAAACAGGAAACAGGAAATGCATGTTTGATCTGTTGTCACGTGTCTGTGGGGAGGGCCCTGTCCCATCCTGAATAAGATACTTATGTTGAGCTATTCA
M
ATCAAGGGGACTCAATATATCAACAATTGGTTTTATTTTTTTCTCTTTTGAATATGTTGGTGATAATTCCGTGACAGTTGGAAGATGGGGTTCATTCTTC
Celera SNP ID:            hCV11526854
SNP Position Genomic:     12589
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,2)      total(A,2|C,2) ;JBIC-allele(C,637|A,852)   total(A,852|C,637)   no_pop(C,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:42819):
GACTTGGGGCAGTTATTCGGTTTTTCTGCCTCAGCTGCCTAATTTGTGACATGGAGGGAATCGATGGTCAAAGCAAGTCCCTTCTGTGACTGCAGCCATC
R
TCCCTCCTCAGGGTTAGCTGGGTAGCTTTGAGACAGCACTTTGAGGAGTCAAGAACACACGACAAATGCGGTAAGGCGGAGGACAGAAACCAACTTACAC
Celera SNP ID:            hCV29041225
SNP Position Genomic:     25859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42820):
GACTCCTGTGGTACAAGGGTCCTTGGAGCTAGAGAGGGTCATGAGTTCCCTCCTGGACATGGGTTTCAGCAATGCCCATATTAATGAATTGCTCAGTGTA
Y
GGCGAGGTGCCAGTCTTCAACAGTTGCTGGACATCATTTCAGAATTTATTCTCTTGGGTCTGAATCCAGAGCCTGTGTGTGTGGTCTTGAAGAAAAGTCC
Celera SNP ID:            hCV25759641
SNP Position Genomic:     8750
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42821):
ATCTGTTGTCACGTGTCTGTGGGGAGGGCCCTGTCCCATCCTGAATAAGATACTTATGTTGAGCTATTCACATCAAGGGGACTCAATATATCAACAATTG
K
TTTTATTTTTTTCTCTTTTGAATATGTTGGTGATAATTCCGTGACAGTTGGAAGATGGGGTTCATTCTTCCGGTTCAGGAATCACTATGTATTTCCTTCT
Celera SNP ID:            hCV2780355
SNP Position Genomic:     12619
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:42822):
CAGCCAGTCCCTGAGAGACGCACCACCTTGGAGAAGCTGGTGACAGACCCGTGGGTAACACAGCCTGTGAATCTTGCTGACTATACATGGGAAGAGGTGT
K
TCGAGTAAACAAGCCAGGTGAGGCTTCTCAGCATCCCTCCACCCCACATGACTTCACTTGGAATAACGAGGTCCCCAGGCTGCCTTCCTAGGTCAAAAGG
Celera SNP ID:            hCV2780364
SNP Position Genomic:     950
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,24)   caucasian(G,4|T,32)   total(G,16|T,56)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42823):
TCAAGGATGCTCAAAGTTCCTTGAATCTCTTTAAGGGCCTTCTGGAGGAGTTGGGGGTCTCCAAGGACCCTTACCCACTTTGACCAGAGGAGTTCCACTA
Y
TATTTCTTTGCATTATTGACTCTTCCTGGTAAGATGTTTTTTGAGGCAGTGGTAGAAGGTTTAGGATCCACCATTTCACAGCATCTCTACAGGCCTCCTT
Celera SNP ID:            hCV2780356
SNP Position Genomic:     9884
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42824):
TCAGTGGCTAGACCAGGTTCATGTCTGTTTCCCCTTGGGGACTTCTGAACCTTCCTGCCCGGGAGTCTGTAACACAGCAGCACAGGACCGCGCTTCCTTT
W
GCAGTGCTGAGTAAGCAGGCAGCGGCACTCTGAGATCCCGGGGCTGGGCAGTCGCCCCCCACTTCCCAGCAGCTCTGTGGTAGTGGGGCGGGAGCAGCAG
Celera SNP ID:            hCV15860911
SNP Position Genomic:     19809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:42825):
TGAACTCCAAGCTTTCATTTCAGAGGCAATGAATGTTTCCTGCAGCTTCTGTCCAAGCACAGCTGGGCCCTGCACTAGAGGTTCCTGGGCCGCCACCTGC
Y
CAGTCAGAGGCTCTGCGGGGGGGTGGTGAGCACCCAGGAATCTGAGATGTGCTCCACTTCATCCCAATCTGGACCTACCATCTGTGTTCTTTGTGTCCCC
Celera SNP ID:            hCV2780366
SNP Position Genomic:     718
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42826):
CACTGGAGCATATTAGCATTTGCTGTGTGGCTGAGGGGCTTGAGGTCCTAGTAGGGAGTAGAAAGTTTCCTAGTAGGATTCACCTACTTTTCCAGTGATA
Y
CACTCGATCTTAGCATCTGCTAGTAATGCTGTAGCTTACATGGACAAACAGTGACAGGTCCCAGGGCGGCAGGAAGTCCGCAGTACGCGTTTGTGAACGT
Celera SNP ID:            hCV27488618
SNP Position Genomic:     14973
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,145|T,1160)   total(C,145|T,1160) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:42827):
CTAGGTGCTTTTGTTTTCTCCAGCAGCCTCGTCTTACAGCGTGACTGCAAAGAAAAAGACTTTTGTTTTGCAAAAGAAAAGCAGCTCGGTGACTCCGTCC
W
CATCGCCACAGTTGAGTCAGATGGCAGTGGCAGTCCTTTGCCAGTGGAAGGAGTTCCTGCTAAGGGGAGGTGCAGGAGGTGAGCTGATACCTGAGTGGGG
Celera SNP ID:            hCV15757091
SNP Position Genomic:     13965
SNP Source:               Applera
Population(Allele,Count): african american(A,26|T,4)   caucasian(A,1|T,1)   total(A,27|T,5)
SNP Type:                 UTR 3;MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,141|A,1350)   total(A,1350|T,141) 
SNP Type:                 UTR 3;MISSENSE MUTATION


Context             (SEQ ID NO:42828):
GCACTTTGAGGAGTCAAGAACACACGACAAATGCGGTAAGGCGGAGGACAGAAACCAACTTACACGTGGTGACAGACGCCTCCCTCCCAGACTGGAAAGG
M
CTTTGTCTCGGAGAACAGCCTTGTGCAGGGGCGGGACACCTTTATACAGGCTGCGACAAAGAAGGGCAGTGGCTCACCAGGTGCTCCTGACGGCTCCTCC
Celera SNP ID:            hCV15757092
SNP Position Genomic:     25995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,2)      total(A,1|C,2) ;no_pop(C,-|A,-)   JBIC-allele(C,396|A,505)   total(A,505|C,396)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42829):
AATGAATTCTCGTGTTGTTCTTGGATGGGTGTCTGGGTGCGTGTGTTTCTGTTTCCTGCTTTTTTGTGTGTTGTCTCCATTATTTCAAGAATAGGTATTC
W
ATAAGTCAGTATTTGATAATTAGTTGGGGGTTTCTGATTTGTTTTTATGGGAGTGGATGTGCTAGGCAAGCATTTAAAAAGATACATTAATATTTCAGGT
Celera SNP ID:            hCV9034827
SNP Position Genomic:     17175
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,6)   total(A,1|-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42830):
ACAGCTCCGGGCCGGAATCACGATCCACCACACCGCGCTGGCGCTGGGAACGGCGTCGGTGACGGACCGGGGGCCGGAAGTGAAGGACGGGGGAGGACCG
Y
TGCTTCCGGCGCCGTAACTGCTGCCATCTTCTCCGCGCTATGGCTGCGTTCGGCCGTCAGGTAAGCTCGAGCTGGGCGCGCGGGCTTCTCCGGGTCGCAG
Celera SNP ID:            hCV16179388
SNP Position Genomic:     6006
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,33|T,1)   total(C,66|T,4)
SNP Type:                 UTR 5;TFBS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,367|C,1102)   total(C,1102|T,367) 
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:42831):
AGAAAAGCAGCTCGGTGACTCCGTCCACATCGCCACAGTTGAGTCAGATGGCAGTGGCAGTCCTTTGCCAGTGGAAGGAGTTCCTGCTAAGGGGAGGTGC
R
GGAGGTGAGCTGATACCTGAGTGGGGCCCTTGCCTGTTGGGTTCTCTACTGGAGGACAGTGGGCACAGCAAAGATTCCCTTACTTGTACCTGGCAGCCCA
Celera SNP ID:            hCV25954225
SNP Position Genomic:     14039
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,9)   caucasian(A,2)   total(A,21|G,9)
SNP Type:                 UTR 3;SILENT MUTATION


Context             (SEQ ID NO:42832):
TGAGTTTCTGGAGTATCCTGAAATTATATGCTTGCCTTTTTTGAATGTTCTGCAGGGAAATTAAAGAGGGTGCTTTACTGTTGCCCTGAAATTTTCACCA
Y
GCGCCAGCAGGACATTAACGACACTGTCAGGCTTCTCAAGGAGAAGTGCCTTTTCACGGTACAGCAAGTCACCAAGATTTTGCACAGTTGCCCCTCTGTT
Celera SNP ID:            hCV16179389
SNP Position Genomic:     10938
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,25)   caucasian(T,2)   total(C,3|T,27)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,379|T,1100)   total(C,379|T,1100) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42833):
TCACAGCTACAGAGGGCCGGAGCTGGAGATGTGGTCTCTGGGAGTCACTCTGTACACGCTGGTCTTTGAGGAGAACCCCTTCTGTGAGCTGGAGGAGACC
R
TGGAGGCTGCCATACACCCGCCATACCTGGTGTCCAAAGGTGAGCGTGAGCTGCAAGTGGTAGACAGTCGACACTGTCCTTAGAGACCAGCCACTTTTTT
Celera SNP ID:            hCV25983669
SNP Position Genomic:     114
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(G,36)   total(A,4|G,66)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42834):
AGCCTGGCCAACATGGTGAAACCCTGACTCAACTAAAAATAGAAAAATTAGCTGGGCTTGGTGGCACGCACCTGTAATTCCAGCTACTTGGGAGGCTGAG
R
CATGAAAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGGTGACAGCAAGGCTGTCTCAAAAAAAAA
Celera SNP ID:            hCV25752955
SNP Position Genomic:     9132
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(A,1|G,21)   total(A,6|G,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:42835):
AGCCTGTACTTCTGTTGAGGAGTTTCAAGTTTTTAAGAAGCTCCTGGCTCGGGAGGAGGAGGAGTCTGAGAGCAGCACATCTGATGACAAAAGGGCAAGT
S
TGGATGAGGATGAGGATGACGATGATGAGGAGGACAATGATGAGGATGACAATGATGAGGATGACGATGATGAGGACGACGACGAGGCGGAGGACAATGA
Celera SNP ID:            hCV16177084
SNP Position Genomic:     12191
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,171|C,1314)   total(G,171|C,1314) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42836):
TCTTTCTGAAAATGACAAATTGCAGAATACACAGACACATGCACATGAAATTTTAATAAAGATAAAAAGCCTAAAATATACTCTAACTCTTCAAAAAACA
Y
TTTTATGAAAGAGGAAAGGAAGGAGGCCCTCTTTGTGGCTGGAATGCTGGCTCTGAGCAGAGTCAGGGTGACGCGGCAGGGCGCTGGCTTTCCAGCTGGG
Celera SNP ID:            hCV25642185
SNP Position Genomic:     15312
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(T,40)   total(C,4|T,74)
SNP Type:                 UTR 3;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:42837):
TGACCCTTCGCTGAGCTCGAGACCCTTCATTGAGCTCCACCTTCTGCTCTCAAGTGGGTCTGGAGCCTGGGGAACAGCTCGGGAGTACAGGTGAAACTTC
K
CGAATTGCCTGTTCCTTCTTTCTGAAAATGACAAATTGCAGAATACACAGACACATGCACATGAAATTTTAATAAAGATAAAAAGCCTAAAATATACTCT
Celera SNP ID:            hCV25642195
SNP Position Genomic:     15195
SNP Source:               Applera
Population(Allele,Count): african american(G,17|T,21)   caucasian(G,17|T,23)   total(G,34|T,44)
SNP Type:                 UTR 3;INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,294|T,587)   total(G,294|T,587) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:42838):
GTTTGTTTTTCCAGGGGGCTCTGAGGAAGAGAAGAGAGGAAGGTCACATCAGTTGGCTCTGCCATCCAGTGGGGACTGGGCTGATGTGTGGGAAGGAAGG
Y
CTGGGGGCCTGGGGACCAGGAGCCTGCGTTCTTCTCAGCCCCTGCTCCTGAGCTGCATGGACTTGGGGCAGTTATTCGGTTTTTCTGCCTCAGCTGCCTA
Celera SNP ID:            hCV11935578
SNP Position Genomic:     25699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42839):
TGTAGCTTACATGGACAAACAGTGACAGGTCCCAGGGCGGCAGGAAGTCCGCAGTACGCGTTTGTGAACGTGGTTTCTCTCAGTTCACCCAGTGACCCTT
Y
GCTGAGCTCGAGACCCTTCATTGAGCTCCACCTTCTGCTCTCAAGTGGGTCTGGAGCCTGGGGAACAGCTCGGGAGTACAGGTGAAACTTCGCGAATTGC
Celera SNP ID:            hCV25642196
SNP Position Genomic:     15103
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,38)   total(C,71|T,3)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:42840):
CTGTTTTGCTTCTGTTTGTTTTTAAAGGTTCCTGAATGACATTTCTCCTTTATTTTTTTAGGCACGTAACAAAACATAGACCTGTTTTGAAGTGGCTTGT
Y
ACCCAAGGGTGCCTCACTCATCTGCGCCACCAGGAAGATGAACTGTGAGGGCTCCTATAAGGGGCAGGAAGAGCAAAGCTGTCCTAGGCCAACCAGAGAT
Celera SNP ID:            hCV9651994
SNP Position Genomic:     18994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:42841):
TTTAAGAACATGAATCTGGAAAGTAGTCTGAGGTCCAGACTTTTCTGGCACACATGACCAGGTGGCCTAGAAATAGTTTTTCCCTCTTCCTCCATGTCCC
Y
GCTCCCATCCTTAAAGCTGCAAAAGCTAACAATATTGTACCTGCTTGACTCCCATCTCTGTGGCCTTGAAATACCCTGTTCTTTGTGAGCTTCCTTCTCT
Celera SNP ID:            hCV26232171
SNP Position Genomic:     8169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42842):
AGGTGAGCTGATACCTGAGTGGGGCCCTTGCCTGTTGGGTTCTCTACTGGAGGACAGTGGGCACAGCAAAGATTCCCTTACTTGTACCTGGCAGCCCACA
Y
GCAATGGGGAAAAGGGAGAGTTTGTCTTTATTGCCTTGCTTGGCCATAGGCAAAACTGTTTGGAAATGAGACATTTCACTGTGCCAGTGTTTTCATTTTC
Celera SNP ID:            hCV25954634
SNP Position Genomic:     14142
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,3)   caucasian(C,2)   total(C,27|T,3)
SNP Type:                 UTR 3;INTRON


Gene Number:                 213
Celera Gene:                 hCG33411 - 146000220004976
Gene Symbol:                 PTPRZ1
Protein Name:                protein tyrosine phosphatase, receptor-type, Z polypeptide 1;HPTPZ;PTP18;PTPRZ;PTPZ;RPTPB
Celera Genomic Axis:         GA_x5YUV32W188(19075031..19276068)
Chromosome:                  Chr7
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12373):
GTACGGCCACTTAAAAAATGGCAGTTTCTTATAATACTAAACAGATTCTTATAATATGATCCAGCAATCAAGCTCCTTCGTATTTCCCCAATGAGCTGAA
AATTTATGCTCACACAAAAACCTGAATACAGATGTTTATAACAGTTTTATTTATCACAGCCAAAATTAGAAGCAACCAACATGTCCTTCAGTAGGTGAAT
AGACAAATAAACTGTACTACATCTAGACAATGGAATATTATTCAGCATTGAAAAGAAATGAACTATCAAGCCATAAAAAGACATGGAGGAACCATAACTT
CTTATTAAGAAAGAAGCTGATTTTAGCCGGGCGTGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAAGTCAGGAGA
TCGGACCATCCTGGCTAAGGCGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCAGGCGTCTGTAGTCCCAGCTACTCGGG
AGGCTGAGGCAGGAGAATGGTGTGAAGCCGGGAGGCGGAGCTTGCAGTGAGCCGCGACTGCGCCACTGCGCTCCAGCCTGGGCGACAGAGCGAGACTCCG
TCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCTGATTTTGAAGGGCTGTATATTGTATGATTCTGACTATATAACATTCCAGAAAAGGCAA
AACTATGAAGATGGTAAGAAGATCAGTAGTTGTCAGGTAGGAGGGCAGGATGAATAGGCAAAGCACAGAGGATTTTTAGGACACTATTCTGTGATAATAT
AGTGGTGGATACATGTCATGTTACTTTTGTTAAAACTCATAGAATGCACAACACCAAGGTTGAATCCTAATGTGAACTATACATTTGGGGTAACAATGAT
GTGTCCACGTAGCTTCATCCGTGGTAACAAATGTACCACTTTGATGTGGGATATTGATGATTGAGGGGAGGCCATGCATGTTATGCATGTCTTGGGGCAG
GAGGTACAGGAATAGTCTGTACTTTCCATTCAATTTTGCTGTGAACCAAAAACTGCTCTAAAAAATAAGTCTATTGAAAAGAATCAAAATATTTAAAAAT
GAGTCAATCAATTAAACAGTTTAGTTCAATATAGAGCCTCAAAAAAACCTTAATATCCTTAATTTTAAGAAATACACAAATGAGCTTATCCATACAACAA
ATGAAAATTTTCAATTCAAGATAGGATTTTAACAAATCCTGTGTTTGGGAGGGCTTCTACAGGCTGAATATTTGTCCTTCCTCCAAAATTCATATGTTGA
AACCTAATCCCCATTGCAGTGGTATTTGGAGGTGGGCCCTTTGGGAGATAATTAGGTCATGAGGGTGGAGCCCTCGTGAATAGGATTAATGTCTCATACA
AGGGGCTCCAGAGAACTGCCTTGCCGCTTGAACACATGAGATTCTTGCAAGAAGATGGCCATCCATGATCCAGGAATTTGGCCCTCATCAGACACCAAAT
CTAACAATTTCTTGATCTTGTACTTCTCAGCCTCCAGAACAGTGAGAAATAGATTCCTAATTATAAGCCACTCAGACTAGTATTTTGTTTTAGCTGCCTG
AGTGAACTTAGAATAAACCCAAGATCTTTGCCATGATGACATGTTTTCTTTTTAAGGGAGAAAAAACTGAAATCTAAGTAATATTCATCCAGAAGTAATT
TTCAAAGTTTATGATTATCTTTTATAACCACTGTTTCATTGAAAATATACAAAATACAGAATAATATTATTCTACTGATACGATGAGAAAGAATTATCTT
GAATCTTGTACTGTATCAAATATTCCTGAAATGGAAAAAATGATTCCTACCTTTTTGTGTTTTTTAATATAATGTTCTCACTGAATTCTTGAATATAACA
GGTTTAAATTACTTTACAGTCAATCCTGACAAGATACTAAAAGGCTAAGAATGTAACATGCTGTGGTTTTCCTATCAAACATAATTATGCCTCCTTCAGA
TGGACTCAGGGTGCCACATCACTCTTAGCTCTGGAGCTATCAGTGAGGACCCTCCTACTTGTTTTATGCCTGATACTGGAAAAATGCAATAACAGGCCAT
CTGGGCCACTAGGAACAAAGATGCAAAGCTCAGGCAGGTAGGAATGAACTGCTTTTTAAGCAGAAAGTTCTAGTAGGACAAATCCAAATAAAAGATTTGT
CTATGCTACAGGAAGTAAAATTAGTCTTTAATGTTTTCAGAAATTTCACATTACAAGAATACTAAGTAGATGTCATTGTGTCAATCAGATGTGAACAAAA
TTTTTAAGGTGTAAAACACAAGATAAATCTAGCCTCATAGTCTAAAATACATTGTTCCATGTAAAATGAGATCTATTTCTGACAAACACCTTATAATTAC
CAAAGCTGTATTTTACTTCAAAAGAAATAACTATGACTTTCTCAGTTTGTAAACATTTGATTCAATTCAGTGACTTCTGTTCGTATTTAACATCTGTTCA
AATAGATTTTTCAATGACAATGGATAAAAATGAGCAAAAATGTATGTGAGCCTAACATAAACAATTTATTGTTATAAGAAAAACAGATATTTCACTTCCC
ATTTAATTTCATAGTTTATTCAGTGACTATACAATATTCTATAGTCACTGTGTTATAACATGGAAGTGTTGTAAGAAGCACTTCCACCAAATTTAAGTCA
AACAGATTCTGCAAAGTTAACATCTCCTTTTCCCCATTTCCATCTACCTATATTTATGTTAGGGACACTTTGGAAATAATTTGTAGAGTAAGGAAACTTA
TGGAAAACTATGGACATTTTATAATCACAAGTGACCAACCCTGATATTAGAAAATTCTCAGACACAACAAAATAGATTGCCAGATTTTGCTAATAAAAAT
ACAGAGCAACTAGTTAAACTTGGGTTTCAGATAAACATTAATTTTTTTAAATATAAGAATGTCCCAAATATTGCATGAGAGTATATAAAAATTATTTATT
GTGTGTCTGAAATTCAAATTTCACTGGGCATCCTCTCTTTTATCAGGCAATACTATGCAGAGACATTTTAGTAGTGATGCTTTTCTCTCCTATTAGAATG
TGAGTCCCTTTATGGCAGAGATGAAATAATTCGTTATGCATCAGTGTGTGATACATAATGAACACACACAACAGAATTGTATTAAATGAAAAACTGAATG
TAAAGAACAAATTTTAAAGACCCTCAAATTTGTTCTCTTTTAGAAAACTCTTGAGTTTTGAAATTTTTGTCAAATCTTCCATTATGCAACCGCTATCTAC
CTCCAGAAATATTCCTTTTCCTTGTAGGTTCAACTAATATAATCTCTTCTCATCTCTTTGTTTAAACTGTTCATATGAAACAGTATATTATATTTATTGA
GAGTGATAAGACTCCCAGAGCTTTGGCTTATACATGAGTTTGGATTTACAAAATGCTCCAGGATGGTATGTAGGTGAGGATAAAATGTACCTAGTTTACC
AAGCTAATGTTTTAGATATAGGTTCTGTTTGTCTCTGTCTCTGCCTCTTTCTGTTCTGTCTCTGTTTTTCTACATATATTCTCTCTGAATACATGTATAC
ATAAATTTATATATATATGTATACTCTGAATGAAGGTGTGTGGTTTTGCAAGTTCATAACTTTAACTCACAATGGCTAATGCACATTAATCAGGTACCAT
GTCTCAGAAATGACTATGACCCCAGTAACACTGTGAACTGTGAGATACAGTACATTTTTGATGTTTCTGCTCTGCTGATGCCTTCTCTTCTCCCATGCCT
TGGCTGTTACAGTGACCTATATTCCAAGGACCTCAACCTCCTACTCCATCATCCCTCCCAGAGATCATCAGAACCACATTCACTGGTCCTCCAGTCAGTT
TCCCACAGCTGTCATTCAGTCTCACAGAATTGGCCTCTATCCTGAATCCCATACAAACCTCAATAGCAACATGACTACTCCCTCCAGGTGGCTTTTGTGC
CTTCCCAGGGAATGACAGTAATATTAACTATGAGAACAAAATTAGCAGAAATCACATATTCCCCTTCCCTTTTTACTAGGGAAATTTATTTCAACAGTGT
TGTTGTTTGGTGATCTAATTCAAAAGATTGACAAGTGATGTGATTTTTTTGTCCAGTAAGAGAAAACTCAGGGTTATGGTGGTTGTTGGATTATTCTTGC
AGGCTACTGGGGTATCCTTGATAATTGGAACCTACTGGAACACCATAATTCCCCTAAGCAAACCAAGCTTCCCCTAAATAGCAGAAGTTCTTAGGAGTTT
CTTTTGTGGTCCCTCCTGTGTTGTATTTCACATATAAGCTGCTCCACTGGGAAATCAATGTTTGTCACAGTCTGACCCCACTCAATCTGCTCAAATGTAA
TTCACACTGTTTTTTTAATGGCATATGACATCTGCTTCTTTCCTTCCTGTCCTCACTGCCTTTGACATGGTTTTTTTCCCTGCTAGTCCTTCTTGTTTAA
CTACACATCTCTAGGAAAGCTTTCCTGCCTACTCCAGTCAATATTAAATAAAACTTTCTCTGAACTCTCAGTGCACAGTCAGTTTATACACCTGCATACT
TCTTGTAATGCTAGCAAAAAAAAATGGCCCCCAAATTTTCTTCCTATATGGAAACTCACATGAGCAGCCATCAATCCCCATCATAATTCTTGTAAAAGTT
GTAGCATTTCTATTTCTGTTCATGGAAAGAATAAGATCAAGGATCAACTTCTTAATATTGATATGTGTTTCTGAATAAACACTAAATGGTTTCAAAATCT
GTTATTACATGACTATAATCTATTCCTGAAGCAACAGCAAACTGCCATTAGCTTGCACATTTAGCCAAATGTTCACAGGCTGGGATATTAGCAAGAACTC
GTAGTAACACTTGAAATACATTCAGAACCCAATTTTATGTGCAGGAAGTTTTCTTTAAAATTTTTAAAGCTAGAATACTATTTTTGAGACAAGAACAGGA
CACAAGAGTATACACTGTACAGATACCTACWTCAAATTGTTACTAAGAATACATGGGATAATTCCACAACTTGGCTTTCTGTGCCTTAGATGGGACTCCT
AAAAGGCTCTAAAGTGGGTCTCATATACGAAAAACATGTACTAATAGTTAAAGGATATCATATAAATGAAAATCTCATAAATTTTCAGTGTAGAGACTAC
CACCAATTACCTTCTCATTATTTCCTTTTGGCTTCAAATTAATTCAACAAATATTCAGGGAACACCTATTGATTTTTTTTAAGGCCATTTTGCTAGGATC
TGGGGTTATAGTAATAAAGGTAAACTCCCTGCCATCAAGGCGCTCACAGTCTAATTCTGAACACCACCAAAGAAAAGAGCACATGAGGGTGACATTTCCA
GCTCTAAGGCAGCAGAAGGTATGCATTATACATTTTTTGCATACCCTTCAATCAAGCAATAAAAAATCTTCCCGTTCGACCCTGTGGGAGGAGGCACTTG
TGTGGTTCGGTCTGGCAGGACCACCGCCGTGTTGAAAGTCCCCCCAGACAGCTGTGCCCAGCACGGCAGTTTCGTTGGGGTCTAGGGAAAGGGCAGGGTC
AGACTGGTCACAATCAGGGCTGGAGATTTTTTGGAGTCAACTCTCCCAAAGGCAATGGGGTCTACTGCTTTATTAGGAAAATGGAAAGAAAAAAGGGAGG
GAAACAATGTACCCAGGCGCCCCCACCGCATTCTGATTGGACCCACTTAAGCATCTGCAGAAAACAATAAAATGAAAAAAACTCTTAGAGGTGAAACTCA
AAGGTCAACCTCTGGCTGTGCGGGACAATGGGTGTCCGGCCTTCCCTTCCCTTCCCTTCCGAAGTGATGAAGGAGTTCCAATGTTCTGCGAACACTGGAA
ACCCCAGCGGATCCCTCTAACTCCAGGGCAGCGAAACCACTGGCAGCGGACAGAGGGAGGATTGTCGGTGTGTGAATTGCTACCCTGGGATCCGGACCCA
GAGCGGCAGCCGCGCCCCTCCGCCCCCCGCGCGACCCCGGGTCCGAGGCACGCTCCCAGCGGAGCGGTCCTGCGCCCCCGCCCCCTCCAGGMGCCGCGGC
GCGCACAGCCGGGCTGGAGCGCGCACCCGGCACTGAGGCTTCGCTGCTCTCGGAGCGCTCAGACCGCGGCCGCCGCAGCCGGCGAAAGAGGCAAAGTCCC
GCACGCCGGAGGACATGCGCCTCGGCTAGCGGCCCCGGGCCCCACCACCGTGCGGCTTTCTCSAGATTATTCCTCTCTCGCTGTCTCTGACTGTCTCTCT
CTGTCTCTGTCTCTSTCTCTCTCTCTCTCWCACACACACACACACACACAAACACACATACGCACGCACGATCTCACTTCGATCTATACACTGGAGGATT
AAAACAAACAAACAAAAAAAACATTTCYTTCGCTCCCCCTCCCTCTCCACTCTGAGAAGCAGAGGAGCCGCACGGCGAGGGGCCGCAGACCGTCTGGAAA
TGCGAAKCCTAAAGCKTTTCCTCGCTTGCATTCAGCTCCTCTGTGTTTGCCGCCTGGGTGAGTGAGAAGAGCTCGGTGGGGTTTCAGCTCCGGGATCGGT
GGGATGAGGGTGGGAGCATTTCAGCGTGTCCGCGACTTGCCGCCGCCGCCGCCATCTAGCCAGGAGGAAAAAGGGACAGCCAACTGGGCTCCCACGGAGC
GGGCGGCCGCGCGGTGCAGGCAGCTGCGTGGGATTTGCGCGCCCCCTCCCCGCCCCGCGCCCTCGCCCCTTCCATCGGCCCGCGGGCATTCGTGCCCCGG
GCCCCAGGAGACGGAGCTACTGGAGACGGAGGGCTACTCGGATCCCTGCCGCCACCGTTCTTCTCTCCTCTTTTGCAAAGTGTAGAAATCGCCTTTTAGA
TATACATAGGAAGATAAATGACCAGAAATACAGCTGTGGTGCGGGGCTGTGTACTGTACTGTCTTTTTTGCTGTTCATTTTTATGCTATAGGTATGATGG
GCTTAAATGGAAAGTACACGTGTCTGGTGTGAATTGCAGMCACACACACACACACACACACACACCTGAAAGGTAGTAACAGGCACAAGCACCAACCTGA
CTTTTCAGGGTTTTTTTTATTACTTTCAATTTAGTCATATTCAAGTCTGCGCAATTACTTACAAAAAAAAAAGTTCCATCTAAATCTCTAGGTTTGGTCA
GTGCTGCCAAAGTCAGAGGAGAGCTGCAGGTTGATATACTTATTCACAGATTTCATTTTTCATCTGCACCCTCCAGGTTACATTTAAAACTGAAATTGCA
TTCAGCAATAGCCAGTTTAAGCATTCCCTTTACCTGCGATGCAGACTCAAGTTTTCCAGTCATTTTCGAGAAGTGCAAGATTGGACTTTTGCGTTTTATT
AAAGAAATGCTTTTTTTCCTTCATGATTTTCCATCGCGATAGAATATAATGGGTTTACGCATTAACCTGAAAGTTACAAAGTGTTGTACTTCGCTTTGTG
AGTACACATATTTAATTCTTTTCAGAGGCTCCCAATTTTTCAATTTTAGATGGTTCATAGTAGAGTAGATATTAAGCGTACATTTTCATCCAATAGATGG
TGCTGCTYTTGGCACAGTAACCTTTACAAACAGAAACTATTTTTAAGTTCTAATAAATGAAAATTACATTGCAAATACGGTGATAATTGCCCATAGACCC
CCACACACGGACATAATTTAAATTTCAAAGGCTTTATGAAAGTGCTTGGGGTGGTGTGATGCATAGTTGACACATAAGACATGCAAGGGAATCTCTGGTC
TCCATTGATTCTAAAACCTTATRGTCAGTTCTGGAGAGGGGAAGACAGCTTTAAAAAGTACGTGGTCATCAAACATCTGTTGAATTCACATTTCTATTGT
AGATCTATTTTAACAAAGAAGGCAGGTCCTCTTAGTAATTAAATTATGTAAGTAAATATCACAGTAGCAAGGAAATAAACCAGAGAGTATTGCTTTGTAT
GTCTTCAAAACCACATGCCCAGAGCATGTTGCGGATCTCTTTGAAAAAAAAAAAAAGATAAAATTCACACATTATACAATTCATCTTTTTAAAATGGTCC
AGTGGTTTTTAATATATTCGTGAAGTTGTGCAGCCATCACCACTAATTCCAGAATGTTTTAATGACCCCAAAAAGAAACCCCATGTTCCTTAGCAGCCAT
TCCCCATTCTCCATGACCCCAGCTCCTAGCAACCACTAATCTACTTTCTGTCTCTATAAATTTGCCTATCCTGGACATTTCATATAAATAGAATCATGCA
ACTTGTGGCCTTTTCTGTCTGTCTTTGTTCACTTGGCATAATGTTTTCAGTTTCATCCATGTTATAGTATGTATAAGTACTTCATTCCTTTTTGTGGCTG
AGTAATATTCCATTATGCCAATATACTAAATATATCACATTTGCAAAGGTTTTTCTCTGTAAAGCATTATTTGTAGCCTATTTTTGGTTGTATAGTTTTC
AGTTTGTTGGACATTTTCTTTAAGTCTTTGGTGATGTAAAATTTAAGTGTAAAGAATTTAATTAACTTTTAAAGACTATCACAAGCTTATGTAATGCTAC
TGAATGTAAGCTTGCATTGGAACTCCAAGTGAGTTTTGTTGAGACTGGAAGGTGACTACTTTWGTATTCCTCACCATTTTAACAAAGTTGGCCTTTTACA
CAGTTGCCAACAGGCTGACCTGGAGGCATTGGCAACATCAAGTAACATAAATATCTTGATCTTGGGGCAGCATGTTTTGAAAAAGTGAGGCACATTATCT
TCAAATGAAAAAGTTAGGCTCCATTTCAATTATTTTTCACTCAGCACCTACTTCAGTGTTTGTGGATGCGTTTACCCCTCATCTTCAGTGTTCTTAGAGC
CAATGAGGTAGCCTGACATATGTATTAAGTGCTCAGTAAGGGTCTGTCAACTGACTAAAACTTGCTGYACAGGAGAAGAGCTCAATACAATTTGAACATT
AGGCTGTCATTCTTACCATTATCCAGGAACAAGTTGTAGAGTTCACTAAGATATTGATTATTGGCAATTAAGAATGTCTTAGTGATCAGATCAGATCATT
TTGTATCTAAAATGTCCTGATGTTTTGAACTGGACATAATAGACCAACTGCTTCTTTCAAATAACTTTCCAGACAAAAAATTTATCAGAATACATGAACC
AAAACAAATTTTTCTTGACCCACTGAACAGGTGTATCTTATGGGAAAAACTACAGTGGCTTTCCTGTAAGGAGGCTTAACTATGAGTCATAGAGGAGAGG
TAGATATTTTAAGAGCTTTTAAGGAATAATTTCTTCCAATTAATGAAGGAATTCAGGATCTTTGAATTAAGTGAATTATAGTGCTGCAAGGTACACTAAG
TTCAAATGTTTAAGTATTATTATTAAATATGTAATGAATCAGATTCTGWACTTCTCAGTCACATCTTACTGCTTTAAGAGCCACATTAACAATAAATTAT
ACCCAACTCCTCTGGAAGAATTAACTTCTTAATTTATGCTGGTTATAGAGTCTGTGAAATTCAATATGTTGTGACTCTCAGTTTGATCTATTTATCCTCT
GAAAACAAATTGTAACCACATATAAAAAATATTCATGCCTTTTTCCCAAATARTAACTAGCCTCTATTCAGAAAATTAATTCCTTTTCATTGCAGAGTTG
CAATTTTCTTTATTTCATTTCTCTCTCCTTTTTACGTATACTGTGGTTGCTTCCAGTCAGGGAAGTTTGCCAGGAGAAATCATTTCATTGATGAATTCAT
TTCTACTCTCATGTCTGCACTAGAGATTCAAGATCTTGCTTAAAATTTTATGTTGTGGGAATTTTGCTTCTGGCAAAAATTCAGGTTTTTCTGGAAGCAT
AAGCTGCGTTTTCTCATTCCCTTTAACTCCGAAAAGATTTGAGTACTGTCTAAAGTGAGAGATTTGCTTGACCACCCATTTGCTGACCGTTCAGACTGTT
GCATGGAAATGGAACCCCCTCAGTCAGGACCAGAAGATCTCAAAGGAAGGCATAATTAAGAAGATGAGCCTGTGTTTCATTTTCAGTTACCATCTGCTCA
AGTGTCTACTAGGTGCAGTTTCAGCACTGAGCATTTTATGTACATTTTCTCATTTCATTCTCCTCAAAACCCTTTGATATTGGTGTTTTCATCTTAYACC
TTTTACAAATGAGGGAACCCGGCACAGAGAACTCAGATAAGTTGCCTAACATCACAAATCCTGATTCAGCCTGTGTATTCCTTCCCAATCCAGAGCCTGA
GGCTTTTCCTCTTTTCATTCCCAGGATCAATTTGCTGTTTGGCATTCACTAGCTTGCTTTCATGTGATGTGATGGTACATTTCACAGTCCCATTTGCTTT
TCTGAGGATCCCTTTCATGATTTTGCCCATGTACTCTTGTATTACTTTTTTATCCTTTTTTGAAAATTAAGGCATAATTTACATTTTTACCATCTTGAAA
GTTTTCACCGATGCATATGGTCATGTAGCAATCACTGTGATCCAGATACAGAATCGTTCCAGCCATGCTACTTTAACTACTCATTCACTAGATGTTCACT
AAGTGCCCGACATCTGCAAGGCACCATGCTAGGCGCTGATAATTCAGCTATGCATCAACATACAGAGACTTAAACTCATGATGCTCACAACCCAGTTAAT
CTGATTCAATCCCACAATGAAAACTTTCTTTAAATCTTGTTTTAAAGATACTTTTTCTGTTCACAACTAGTCGAAAATAAGTCTTTTCCAAATATCTCTT
AATGTGTTGAATATGTTAACTCTCAAATACTTTAAAATGCTTCCTGCTCCATTAAGAATTCCAATGGTAAAAGTCAGAGCCAATTTAAACAAGAGAGAGA
TATGTGTGTATATACATATATAAATGTATATATATGCATATACATAAAAGTGTATATATATATATGTGTTTGTGTATATATATATAAAATATATACATTT
AAATTGTATTTCAACTTTTAGTGTCTTATTGAGATTAATTCCTAGAAGTAACTTCAGRTTACAAAAGGAAACCAATTTTTCTCTGTGTTTAAAGAAATTA
AAGAAATTAAAGAAAGAAAAAATATCATATAGCACAATCTTAAAACACTTGTATTTTAGAAATGTCCTGTTTAATACCATAGCCACTAGGCAGATGTAGC
TATGTAATTTAAAATTTATTAAAATAAAACAATTCAGTTCCCTAATCACACCATCCACATTTCAAGTGCTCAGTAATCTGTGTGGCTAGTGGCAATCACA
TGGGACAGTGCAGACATGGAACATCTCCATCTGGCAGTGTTGTTTTGGAACAACAACAAAAAACGCTGGTAAAATAATGATTGATAGAACTCATGAGGAG
TCATCAACTCAACTAGAAAAATTTCTAAAGTCATTGAAATTGTTTGAAGTGTTCGTGCATGTGAGTTAGTTATGGTTTGTGTTGTGTTAGCCTGCAAACA
TCCTAGAAACATGATGGGGCCTTTGGTAGAGCAGTAATAGGTGAAAAGAGTTCAGTGGCCACTTTGTAGCCTTTATGGACTGAGGTTGAACAGAAGAGAT
TAACTGCTGGTTCGGGAGTGAGTGCTCTGCTCCCATAGTACATTTTCCATAATTTGTTCTGTTATCCACTGTATTGTTTTTCAATTTATCTGTCTCCTTG
ACTCGACCACATTATTTGAGGGTAAAGAATCCATTCTTACATTCATCATTCATTCATTGTTAAATTCATTCATTGAAGAATTCAATGAAAAATTCAGTCA
ACATTGCATTCTTGAACTTAGCACTTACAGTAGGTGCCAATAAATCTTTAATGTATAAGGTTATAGAAAGATTGTACCATGAAGCTTCTTAGAAAAAAAA
ATAGTTGTTTGTTGTTGAGACTGGCCAATTTTCACTGGTCTTTCCCTCTTTTGATTATGATCTCAGTCCGGGAGTAAGGTCAGCATTCACCTTGACCTGT
CCATCTTTAATGTCAYTTCTGGTACGCGAACTTCACTTTCACTGATTCTCCCAGAAATACACGTAAGCATATAGGCATCCTCTATGAGGTTGGAGCTGTC
ATGAATGTGATTAATGCCTGTACAAGCATTACATAGATCCAGACACTATCTGTGCATGGAAAATAAAGTTCCTGTGATTGATACTGAGTGTGTACTTACA
GAAGCAGTCTTGAGTGAGCTTTTAATTCTAGAGGAGTTGGCACCAATGAGTTTTGGATACATCCCAGGGGGCCAGAACATCAAGTCAGCTAGTGTGCCAC
TTTGTATGTGTACAAGTGCATGCGCCTGTGCTGCTCTGGTGTTGGGGAGGAGAGGGCAATGAGGGATGCAGGATGGTCAGTAATGAGTAAATAAAGTATC
TTGAGCCCATGAACACTGTATTTTCAGTCAGCCAAAAGCTATCATATTGGTTTAAGTCTTCTCTAGTCAAGAAGGCCGTAAGAGATAGTGACACAAAACA
GTTTTGAAAACCAGGCAAATGATGGGAAGTGCAGTTTTATCATGTGGATGTACGTGCTTTTGGAGTTTGTCAATAGTTTTATCATTAATCCTAGAGAGGA
TGTGCTACACAAGTTTAACTCTGCACATAGCAAATATTTGAACTGAGTTGAATTCAAATGGAATGGGAYATGGGATCAGTTAAAAATCTTCATAGGAGTC
AAAAGCAGAAAAAAAGGAGATGATCTTTTGTTAGGATATTTGCTTTATTTTCTTCTCAACTACCTTCCTCCCTTCCTTTTTTCTTTCCCTCCTTCCTTCT
ATTTTTCCTTCCTTCCCCTTTCCTCCCTTCTTCCCTCCCTTCCTCCTTTTATCCTTCATTCCTTTAATCCTTCCTTCTTTTCTTTTTCTTTTTTTGTTGC
TATTTCCTCTTCAGCTTCACTTTCTTTTAGCATGAGTTTAAGATAATTAAATAAACTTAAGTTTGCTCAGCACCTTGATGAAAAGTTTGATAGGGAAGAG
ATTAATGCTATTTGAAACCATTAGTTAAAAATATTTTTACTGTGTTAATATCATTTGGGGGTCTTTGTAGTTAACAAAATTTTTAAAGTATGAGTTGGCA
GATGTTTTTGCCTAAATATTCCAGTGTGGTAAAATGGGCTGATTGTCTTTGTTTTCCCCTTCTGATATTTGCCCACAGATATTAAAGTAAACTCAGTTAT
TTTGGGTACTGGTTAATGTGAAGTTTTTGGCCTTATTCAATAAGTACAAGTCAATTTATGTGCATGCTAACAGGGGATAGTTTTTTTTACAAGTTTCCTT
GGAAATGTAGTACTTGGGTACTTGGAAATAATTTATTCATTAGTAAGAAAGAAGGATTTTCTGTTAGAATATCCATAACTATGATGAGAATACAGATATT
TTCCTGCTCTTGGAGAAACATTCTACCCTCTCTCTCTGCCTTCCCCTTTAGCACTTACTGGATAAATTTTCTACTTTTTCACTGTTACTGACTGAACTGC
CTATTTCTTGAATCCTAAAGCTCTAATGTATTTACCTAAGGATGGGTCTCACTATGAGCTCTTTTCTCTGAACTGATTAACTCAGTACCTTGAGTAGGAA
TAAAATAAAACATTGATTTTTAAAATGACTCCTTTAAGCAGAGATCATGGTAATAAACAGAGTCTTGATTACATGCTTAGAACATGCTGGCCAGATATAA
GGAAGTTTTTAGATTTTCTAATGGTTTTTATTCATATTGTCATCAGATTGAAAATTATTTCTATTATTAAATTTTTACCCACTTGCATTCTGACACATTT
TCTTGAATAGGATATGTCAAGGTGGTATTGTCTCAGCTGCTACACAGAGTTGTGCAAAATCATGATCTGCCCAAAGGAGCATAAGGATACCCTTGAGGAG
CATGTGGGATATTATTGTCATGTGTGTTTTAGTGCACAAAAACGCTGACAACCATTTATCTAGGTTGATAATTCTCAATCCTGGCTGCATTTTGAACTTA
CTTGGTGTTATGGACTGAATGTTTGTGTCCTCTCCAAAATTCATGTTGAAGCCCTAACCTGCCATTGTGATCGTATTTGGGGACAGGGCCTTTGCAGGGT
AATTAGGTCATGAGGGTGAAGCTGTCATTGATGGGTTTAGTGTCTGTATAAGAAGAGAAAAAGACCAGAATCCTCTCTCTATTCACCATGTAAAGACACA
GCAAGAAGGCAGCCATCTGCAATCCAGAAAGAGAGCCCTCGCCAGGAATCAAATCTGCTGGCCTTTTGATCTTAAACTTCCCAGCCTCCATATCTGTGAG
AAATAAATGTCTGTTATGTTAGCCACCCAGTAAATGGTATTTTGTTATAGTAGCCCAAGCTGACTATGCACCTGGGAGACTTTTAAATCATACTGATGCC
TGGGCATCAAATCAAGTACTTCATAATGTATGGGTGCTGAGCCCAGACATGGACATTTTCTTAAAACTCTCCAGGTGATTATAGAGCACAGCCTGGGACT
GAAACCACAGATCTAGGCCAACTTCATGACACTACTAATCTTAGTTCATTTTTCTTAAGGTGGAGATATTTGCAGGTCTTATGCTGTCCTAAAACAAAGC
TAGTGCCACAAGACAAAGGTCCTGGAAATTTTCCCTTCTCTCTCTCTTCTTAAGGCAGTTTCAGCTTCAGAGTAACCCTAGAAGGAGGAGTATGCTCTAT
GGTGATTGACCTCATAGTCTTTTAAAGCCAGGGAAACTTTAGGAGGCCAGGCAGTCTTGGAGTGGGTCCAAAGATTCAAGTCTATCAGCTGGTAGGAGGG
TAAATGAACCAGCTTCCGAGATGGGGACTCCAAGTGACATTTATCCAGACACAAGCACATAATATCGTTCATTTCATCAATGATACATATTCTTGTTCTC
TGTTATTTATTTTCTTTCTCCATGCATAATTTGTTAGAACTTGGCTTTTTGTTTACTGTTATGAAATAAATATTAAGATTTAGCTATTGCTTTTTCATTT
TAGCAATTTGTGTGTTTTATGAAATTATTAATCAGGTATAGGCTATTTCTTTTTACTGTATTTGAAAAGCACCAATAACTCCATTTAAAAATTAACAATG
AACTTTTCTAGGTGTTTCAAATAACTCCTTTAATATACTTATTAGTGATGATGCAAGTACAAATTAATTTAATGAATCATTTTTGAGCATCTTCCTTGGG
ATAAATATTCCTCCAGAGAGACTATTCTTCTCATGGCCAGCTGAACTTTTACAAGATAGAAAGATGCATACGTAAGTAGGTCTCATACATGATGGAGTTT
CTGGCATATGAGACTGTGAGCTGTGTGGAGATATATTTAGTCTTAAATTCACCTCTTAGAAGGTTTCTAGTAGGAGATGGGATTGGATATAGACCATTCA
GGATAAATGGATAGAGCTTCAGGGGTCACCATGGGAGCAGAAGGCATCAGAGGGATTAAGGTTGGCATGCAGAGAAACATGGACTGAAAGTGAGAACGTG
GTAATTGGAGGGAGGGGACAGTGGGGAGAGGAGTATAACAGTAAAAGGTCTCAAATGGTAGGTAGGATTTACAATGGCCAATTGAAGAGTTTTGTGTTTG
AAATCTACTCATTGTACAATGGGAAATTACTAAAGGGTTTTGAGCAGTGAAATGACTGGAATAGATCTCTTTATTTCAGGAAGATAACTCAGGTATCAGA
GCATAGGATGGATTGAAGCCGAGGGAGACAGGGAATCAGGAAGCTTGGTTAAAAGCCTCTTACACGGTGGCAGTCACAGTGGAAATTTATAGATCATTTG
GGATATAATAATATCATCCTCTTTATAGAATTCTTTAATGTTTAACAAGCACTTTCAGATACATTATCTCACTTGATATGAATGTAATTGGTATAATTGG
TAGGACATTGTGCCATTCTCTGGAGTGAGTCACTGGTGATCCTTAAGGGAGTGTCTTCTCTGGGAAGGTGAAGATGTAGCATGGAACACAGGGAATCAGA
GAAATATCCAGGAAGGAAAAGAGAAGGTAGCAAATACATACAAGTCCACAGAAGTTGATAACTTGGAGGGAAGAAAGAAGAGAGAGAAACAGAGGATGAT
CGCTTGAAACCTGATTATTTATTGAATGGTGAAACTCTTAAATTTGTTAAGACAAGGCAGTAATTGACTCTAGACATTTTCTCTGAACAGATTAACTCAG
TGCCTTGAGTAGAAATAAGAGGAAATAGTGCTGCTAAAAATGATTATTTTTTTTAGAGATTAGAGTCACAACTTAACTAAAACAAGCAAACTTTTTTAAA
GGAGGATTTTAGTATATTTATAGTTTCAGGTTAATCTTATCAAATGCCAATATGAAAACTACTTACTTCATTCACCTTTCAAAGCCTTGTATTTGTCATT
TTTACAGTGAACACATGTACTATTGGGACATTTCAGCCAGCATTCTGCCAGTACACAGGCTTTCTTAACCACAAGTTCAGATTACTTGAAGGCCATCATA
TTTATGTCCATAAACTAGCATCTTTGTAAATTGCTTACAACTTGTATTTTATATAAAAATAGTGTAATGGAAAATAATGCATAGATTAGGCTTCTCAGAA
TTTGTTTAAAAATTGACTTTGGCAGTTTTCGTTGTTGCTGTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTTGGC
TCACTGCAACCTCCACCTCCTGGGTTCAAGTGAGTCTCCTGCCTCAGCCTCCCAAGTATCTGGGATTACAGGCATGTGCCACCATGCCCAGCTAATTTTG
TATTTTTAGTAGAGATGGGGTTTCTCCATATTGGTCAGGGTGGCCTCTAACTCCCAACCTCAGGTGGTCCACCCTCCTCGGCCTCCCAAAGTGCTGGGAT
TACAGGTGTGAGCCACTGTGCCTGGCTAGCTTTTTCTTTAATTCATGAAAAATACATAGGATTGTTTACTCTATGTCTCTTAAGATACATTAAGATACAT
GAATTGGTAAATTAATCAATTACTAAGTTTAGGAAAGAGAGAAGGCAGCAGCTGTCAAGACTGAAATGTAAGCATATTTTTTCCTTATGTAATGAAAAAA
TATAGACAGTTGTGCTATATATGAGTTGAATGCCAAACTTTTGTCTATTTTAAAAGTATGACTGAATCGATTTTCAATAGAAGTATTTGGTTACTGTAAA
GTTTCCTTTGATGGCTTTCAGGTGGGGAAATGACATGTAATGGTTTATATATATAAATACATTTATATAAGTATGTTATATGGAAACATATATGTATATG
TGCATATATGCATCTATATACACACCTAAATAAGGACACATATAAATGCATATATGTAAGTGCATATATATACACAAATGCACGTGTATATTTCATATAT
ATGCATTTTTTTTCCTGCTGCTAAAAACTGATACTGCTTTATTTTGAATGTTAAAAGATTACATCCTTTGGAAACATCATTATGTTTAATTGTAGCMTAT
ATTCTGGGTATTTTGAGCCTGACATTTTCCTGCCTCCAACATAAAGGRCAGAAAGAATGCCGCTTCTTCCTGTGACCTGAATACACTGTCAGCCCTCTCC
AAAGGGTTTGGGCCCAGTTAGAGCAGTGAAACTCAGTTCAGCACATGTTTGTTGAACATTTACTGTGTGCTCCACACTCTCCTTGGTCTTTTTTAATAAA
TTCTTTTTGTCTTTGAAGAGTTAATCTGGTTACAGATATGAATTGTACCCTGGTGGGAGCATACCAGAAAAGAGAATAATAATGTAAATGCTAGACTATT
TGGATGAGATTTTAAGTCTGTGGAAATTCAGAACAAGGAAACACAAAGACATGAATTCATTTTTTTAAAAAAGTCTCTGAGCATGTGAGCAGCACTTCTT
CCTTTTGAACATGGATGGACCATTTGCAGTTGCATTCAGTATTACGAGCCTCCTTTGTGTCCCTCCCCGTCATTTTTACTACATTCAAGAAACATAACAA
TAAATAACAATAAGCCTGTATTACTCACTTTAGGTTATTTGGTTAAGGAGAAGCTTGAATATGGAAGTTTGTTGGTTTTTGTCTCCAAAATGCATTTAGG
GTTCCCCAGCATTCCACTTTATCACATTCAAAATAATTGGGTAAGTAGGAAAAGATATAAGCAAAATGTGTATGTTAAAACACTCTTCTTATATGTTCTG
TTCAACACCAACCACTAGAAAAATGTCACATAATTTCCACAGTTAAGTCTATCCCAACTTGAGCCTTAATTTTTGGTGGTAGCAGCTGCTATTTTGCGAC
AAAGGTAAACTCTTGGTGCCAAAATTTCCAAGAATGTTTAGGATGCATATGATTTTTGGCCACTCTGGAGAATTTTGAACGTAGATGGCAATGCTGTCTG
AAAAATGGATCCCTGTGAAAGAAGCATAAAGYGTGAAATCACRTTTAATTAGCCAAGAGTGGCTAGTGTATGTTGCCATTAAATCCTTTAAATTACAGCA
CATCTGGGCACCGTCCATCCCACAAGAATGTATCCAATGATGCCTCTGTCTTACCTGTGAGTCCAGCTTATTTTCTCCTAACTTCTCATTACTTTTTAAC
TATTCAGTATTCTTGGCATAAGAAATCAAGAAAACACAAGATGCTTCCATGTTTCTCAATAAATTATTCAAAATGTTATACCAACCCTTCCCCACCCCCA
AAATGGCAAAATGCCCATAAGAAAGTATTTCAATTCCCTATTTGGAAGGAGCTTTTCAAGACATCCTCTTTTACTTCACATTTTAAAATTAGAATTCTAT
AGCATCTGTCAATTTGGAGAGGGAAGAAAACACTTATAATTTTTACAAACATCACAAGAGTCTAAGTTGTATTAGACTTGATGGCATTCAGGCAAGCAAA
GATCAAATATTCAGCCAAATAGTCTCTCTGCTAATGATAATGACATATAAACCCTTTTATGGTGACATGGGTTGGGTCTTCTACTGGCAGAGGAAGTGTA
TCTTTATGCGATGAGTTCTCACTCTTAAATACAAGGGGAGTGCTGGTTTTTAAAACATGAGGCTTTGAGACTGTAGTACACAGTTTGCTGGAGATGTGTT
TGGGTGATTGCGCTACTGGGGAAAATGCACTGAAAATAGGTCATCAAGAAAAGATTGATATAGACTTTTTTGTGTGGAAGTAATTATGCTTGATTATTGC
AGTCTGTTACAATTCAATATGCCAGACTATGAAGTTTCAGTGAGAAAATATTAATATGTGCACATATAATCCTACCTGGGATCTGTAGACTGGAGTTTAA
ATTCCTACTGATTAATCCTCACAGGKTCTTTATCTGGTATTCAGTAATAAAGAATGGAAAGTTTTTTATATATCATATATGTTCTTGTTCATTCACTTAA
AAATCCCAAACACATACGTTAGTTCATCAAAAACACAGCTGAAACATTCCACTCTATTAAATGTAACACACACACACACACACACACACACACACAGCCG
TAAAAATAACAACAAACCCATCTACTATCAGAGTAGGAAATCTTCACCAGCCTACTTTCTTGCCAAGATATATACTGTTCAATAAACACTTTATAATTAT
TACTTATTTGACATAAATTATTGCCTAAGGCCAATGTTAAGAGACTTTTTGCAAGTTTATAGCAATGACTGTTGAAATGATTTAAGGAATCGGATTCTTA
GGACTTTCCTTTTACATAATGTATTTCTGTAATTCTCAGAAGGCAATTCTACAACTGACTTTAATAACAAAACACAATACAGGTATGCCAGGGTCCCCAT
CCATGGAAACCTTTGAGAAAATAATGAACAAAATTTTATGTTTTTTCTACTCATCAGGGGAAAGGACCTATAGGTTCTTTTGAGTTTTGATGTCATGTGA
TACTCTTACCAGGGCATGCAAAGTGCTTCAAAACCTGAACTCAAGCTACCTGTCCAGCTTTACTTGAATCTCCACACGTGTGCTCCTTCCCTTTGGCTCA
ATCTTTTCCTCGTCTTGGGGTGGATTTGGGCCCCATGCATTCCTGTTGTCTTTTACTTTGTCTGTGCTAACACATCATTGTCCCCTTCCACAGGAAGGGA
AACATCATCTCACCCATGATGGCACAGCACTCACATTGCGTGTCTGTTGTTTCCATGACTGTATCTTCAAGGAGTCTGGTCTCCTCATGGGATATAGCCA
CTGGGCTCTAAAGACTTCTTGCTCATATAGTAGGTGCTCAGTAAATATTTGTGGCATAAATGAGTGAGTGAAATTACTTCAAAAGTGATCACTTGAAAAA
TAGAAAATACAATCATTTCTGCCTAATCAAATGTTAAACGTTGCTACCACCTCAACTAATTCTGTACCCCCATTTGGCAGAGTAAGCAACTCGAGATCAC
ATTTGCAGCATTTGGAATTAGAATTCARTTCACCCTCAAATTCACTCAATCTCTCTTAATTTTTTTATTTTAAAAAAAGGTAAACAGAAAGTAGGTCAAT
CAAATCACATTCTCATTTTAACAGGTCCAAGAGTCTATATAGATTTTGAACTGAATTGGCACACAATCATGGACAACTTCCTAAGGGCTTTTACTCATGG
CATTCAGAGTTTTAAGAAAGAAAATTAAGTGATTGGAATAGAGTACAATAGTGAATGCAGAAAAAGGGAAGAAAGATGACTGTAGCCAGAAACACGAGAG
AAAGAGAACTATAAGTTTCTTTATTCTAAGTAGCGGTGGGAGAATCTACTTTTTGGCCTGCACAGCGGATGCACCATTTCTATGGGTAAGTTTTCCCTGT
GTTTCCTGTCAAGCCGGGGTTTTAATGAAACAAAAAGATACCGGATCCCTCTCGCTAACACCTCTTCATCCCCCCAACACCCCAGCTAGTGCCAGCCAAG
AGCATTTCTCTCAGTTCCTTTTATCCCTTTCTACCAAGAACAAGATCTGAGATATGTGAGATCCTGTTTGATTCAAGCTTGGAGAAAGCACTGTATATTT
TACAGCCATTGGTTACCTGTTGCTGTCAATAGCTGTATTGTCAGCATTTTATCATGGATTGAATGCTTTAAAATTTTTGAGCAGCATAAAAGATTTGTAG
RGGAAAACCTATTTTCCTTAGAAACRAGAGACAGTGTTTTTTGATGCTTCAAAGTCTTAAAAAATGTAGGAATATTAGAGTTATGCCTTGCCCTGCTTGG
TGGGTTTTGAGTGACATTCTGAGACCATACATTTTGTGTCAAGAATCGAATCAATTTCTCTTCTTTGGGCTGCTGACATTGTTTAGAGTATAGATGAAGA
CTCCCCAGTAAGACATGTAAAACAGTAAGGGACTGTGAAAAAAATAGATTGTGAAAAATAAAAGTCTATCAAGATGGGGCAAACGTTTAGGGGAATACTA
TCAAAGGTAGTGTTATGTTCAATAAAAGATGGCTGAAATASTTATGAGACTAATAGACAAATGGAAATTATTTACACAAACTTCTGTAACTGCCCAGTTC
TGTGAAAAACAATAGGAAAATCGAATTCAGAAAACACTTATCCCTGTCAGAATTAGAATTAGGATAATGGATCCACCAAAATATGTGATTGCTTACACTG
AAAGAATAGCCATTATTTTTAACTTAGGGTGAATTTGACTAATATTGAATAATAGGTGATTTAAGAAATTATTTTGAAATGTTTGTTTTAATATGCCAGG
ACAAAATGTAATTGTTATAATTTAAGAAATACATAATTAAGAGAAAACAACACATCTGAGGAAAGTAATTACAGTGCTCAGAYGTTAATTAAGAGACACT
AAAAAACAGACTACTTGTTGAAATAGTGATGTTTGATAGAATATTAGCTATGTTATTAAAAGCTTAAAATCCATTATTTTATTACATAATAGCTAAAAGC
AGCAATATTTGGTCTAATGAAGAATTGGCAAATAGCTATAAGGAATGATTAAGGCTTCTGCAGGACTTAATTTGGATAAATCAGGTTTTAAAACACAATT
ATATAGGGAATGAATTAAATTATTGAAGTTTTAAAATTATGAGCACAGAAAGGAATTATATAGGTTTAAAATTAATTTTTAAGAATGAATACTTTCATCC
CACTTTCAAAAGGCTTTATTTTTTAAAAAAAGTATTTAAAATGAGGCCTGAGTCAAACATTTCAGTATGAGAAGCCTTGCACAAAATTTAGCTATTGTAG
TTATGGTCCTTTGGAGACGGTATTAGTCATAAAACTATGTATGGTCTTTGTATTAGGATAAATTTACTTTGGCTTCTGAAGTTTTTGATAAGGATATATC
TTCTGTRCAAAAGCAGAAAGGGCTGTAAAATACTAGAGAATGTAGACAAAGGTACCATAAATTACTTTGGAAGGACTTCTTGCCATCCTGAAGCAAGGTT
TTSTGTGAATGTTTACAGCTGACTGTCACATCTTTAGTTACAAAATTCAATTTTGTTGCATTATATCCATTCATAATTGAAACATTGGTGTTTTATTTCA
AATTACTAGCTTAGCATATGATAAGTTAATCAGCAAATGTGGTTAAAATAATAGGTGTTTCTTAACATGCTATTATTTCTACCATTAGAGAAAAATAAAA
CAAAACCAAAAACTCCTCTCTTGACTTCTTCCACATTTCTCCCCTTCCATTGCCTGCTAAACTTTTGGGAAGAGTTTTCTATAGTCACTATCTATTTTCT
CTCCTGTCCTTTGCTCCTGAACTCAGTTTAAAAAGGGTTCTGCTCCCACCATTCCAAAACAAAAAAAAATACCTTATCAGTCTCACCAGTGCCTTTGACG
TTGGTACATCCAATATTCAGTGTTCTTGGTCCTCACTTTATGGACCTACCAAGAGCTTTCAATTGTTATCATTGTGTCATTCTGGAGATGCTTTGTTCAC
CTGACTTCCGGGATGCCATACTTGTCTGGCTTTCCTGCCATCTCACTAGCCACATACATTGTACTCCACTGTCTTCCTCAATCTCTTTTTCTAGTTCCTT
CTCATCCCCCCAACTTCTAAACATTGTAGTCCTKAGAGTTCTTCCTTGGGCTACTTCTGTTTTGCATCTACACTATTTGCATGACTATCTCATCCCTGTA
TTCTCTACATTGATAACTCCCAAATTTGTCTTTCTAGACCAGAAGTTGTACCTGAACCCCAGTGTCATATATTCAACTATCCATTTAGATATGTAACACA
GTTCTCAAACTTGACATGTTCAAACTTGATCTCCTGATCTTCCTCCCATCCCAACTCCTACTTCCACTGTCTTCTTTATCCCAATAAATAACAACTGCAC
TCAGTTGTTTAGGACAAAAACCTTGGAGCCACTTTTAATTCTTCCATCTCTCTTACAGCCTACACATAATCTTCCATTGCAAATGTCAGTATTGCTCCTG
GGTTACATTTTTTCATGATCTCCATCCAYTGCTACCACCTATCCACACTTGCATCATGTCTTCTTGGGTTATTTCACTGGCTTCCCAGCTGGTCTCCCTA
CTTYACCATACAAATCAGCCAGGGTGATTTTGTTCAAATGTAAGTCAGATTATGTCACTCTCCAATTTCTTGTTTAACTCAGAATAAAAGCCAAAATCTC
TACTCATGAAGTGTCCATCAAGCCCCAAATGCTCTGGCCTCCTATTATTTCTCTTTTTATTTTTTTAAAAAATTACTTTATTATTATTTAGAGACAGGTC
TCCCTCTGTCACCCAGGCTGGAGTGCAGTGGTATGATCAGAGCTCACTGTAGCCCTGACCTTCTAAGCTGAAGCAATCCTCCTACCTCRGCCTCCTGAGT
AACTGGGACTACAGGCATGTGCTACCATGCCTGGCTATTTTTTTTTTCTTCAAATTTATTGTAGAGACGGAATTTATCTATGTTGTCTGGGCTAGTCTTG
ACTTCCTGGACTCAAGTGAACCTCCTGCCTCAGCCTCCCAAAGTTTTGGGATTAAAAACTTGAGCCACCATGCTTAGCTCTCCTGTTACTTCTTCAGTGA
CCTCCCACTCCACTCTCCCCTCACTCCCCTCTTCTGGCCTCACTGTCCTCCTAGCCTTTCTGGATCACCAAGGCACATTCTTTTCAACGCCTTTGTTGTT
GCTGTTCTCTCCATTTGGAATGCCTTTCTTTTATAATTATTTATGATCCACTTCCTCACTTCCTTTGGTTTTTGTTCAATGATACTTTTTCATTTGAGGA
CTTCCCTGGACACACTGCAGTGATATTGCAACCACCTCTCTTCTCAAATGTCCTCTGTCTTCCCCTCTTTATTTTTCTCCTTAGTTCTTATCACTCATGC
ATTTTTCTAAATTATTTTATTCTCTATCTCTTCCCATTGGAATGTAAGCCCCTTGAAGGTTTTTGTGTTTGTTCACCATGGAGCCCCAGACCCTAGCATA
ATGCCTGGTATATGATAGGTGCTTAGTAAATATTTGTTGAATAAAACAACCTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAGTTTGATTTTGCTTGA
ATCCTATTTTGGCTGATATCACTGCTTCTTTTTTTAGCTTGTATTGCCATATATAACTTGCATTGTCATTTTATTTTTGACATTTTATGCAACTTTTTAT
TAATGTTAAATGAACCTTGCAAACATCATATAATCACATTTTTTGACCTTGTCTGAAATCTTAGTTTACTTTTTCAACATTCTTTCTTCATCTTGTTTGA
TTTTTCATATTTATCCATACTAATTGTGTTACATACTCTCCAGTTTTTGCTTTCTGCACTGTCTGGTCTTTGCATTTATCGTTTCTAGGTCACATTTTTA
ATTATTCTAGACATTAACTAGTAAAATGCCTTAAGTTTTTTTTCTGTCATTGTCAAAAGTGAAGCTGTTTTCTGAGTCCTGCACTACAGCAGAGAAGAAA
TGCATTACCACCCACCACCAGCAGCTTTCTTCCAGCTCCCTCTAACTTCTCTGTCACTGTCATTTAGTAATGTAAATACAAATTTGTTATTTTAAATAAA
GAATGTTCTTAAGTTTTTTTGTTTTTTACATTTTCTTTGGATAGTCATACAGCAGCCAGCCTAACAAAAATTATTTGTATTTTTTATGTCTTAGCGCTTA
TAGTTTGTTGCTTTATACCATAATTTTAGCATTTGGGGTTGGGCTGTTCCTTGAAGCAATTGTTTGAAGTGTTGTTAGATAACTTGTTTTCTGTGTAAGA
CATATATGTTATGTCTTTTTTCTCTTCACATGTGCAAGACAACCTGGATGCAAATAAAATTATTTGGTTACAACSTTTTTTCTTACAAAACATATGGTCC
CTGCTTTTTTATGTTATGGCATTTAGTGTTACTGAGAAAAGAACGGAAAGTTCCACCTCAAGGTCACTTCTTTTATGCCAGATTTGGCATATTTGATGGC
TGCAAGAGGAGGTGGGGTGGTGGGATAGGAAATCTTCAAAACTTAGTACCTGCCTGGTAAAAGGAAGAGACACAGAACTCTGACTAGTTGAGGTATTAGA
CCATAAGAGTATTTTAATTTTCTCTCCATCAACAAAATAATTAAATATATTAAAATTTATGTATTTGAATCTTTAATATTTAACAAGATTATTCACAAGT
ATTAAATTTGGCTTTTCAGTTTCACCATTTAAAGGGCAAAATCATTCTGCCTGATATATCTTAGAGTTCTTCAAGCATCTCATATATATATATATATATA
TATATATATGTAATGTTTATATAAATGTCTTGCAGTGACTCTTAAGAAAATAATCAGTTCTCCATAATAAGGCAGTTAGGATTTACCTGAAAATAAAGAT
AATATATCAAGACTTAGCAATATGCTAGCTTTTCAACCAAATATATCATTTTCTGCATGGTAGTGGGTATCTTTGTTTTTTTGAAAAATATTTTTGTGAT
TAGAAAATTATACACAATCATTGCAAATATTCAGAAATAACAAAATATATAAAATAAAATTTATCCACAATTCCATCAGAGATACAAATTTTTAACATTT
TATTTAACTTCTTTCCTGGCATTTTTCTACATGCACATATATACACACAGAGAGGCAGGAAGGAGGGAGGGGGAGAGAGAGGAAGAGAGAGGTGTACATT
TTTAACAATGATTGCCCTATACAAATGGCTTGGTGATCTGCCTTTTGAATCTAAAATATACTGAAACTTTGTCATGTCGTTAAACATCATTTTTAGTCAC
TGTATCAGTTAGAATATAGTTTGATTGCATGCCCAAAAAAACCCCAAATGGCTGTGTGGTTCAAACAAGAATAGATTTGTTTCTCTTTTCTTTTCCTTGT
CAGTCCAGACTGGTGGACCTCTCTTTTACAAAGTCAGTCAAGATGGTTTGCACCGTGGTGTCGACATCCAATGTTCTTTTATCTTGCTCCACTGTCTTGG
AAGTATTACTCTCTTCCATATTTCCTGGTTAGTTCACAATCCTGTCAGTATTCTGTCAAATGAAATGGAGAAATGGAGAAATGGCAAAGCCTGTGTATTC
CCTTTACAGATACAATGCAGAAATTGCACTCTTCAGTTTGCCAGAACTTAGCCGCAAGTCCACAAAGAAGACTGGAAAATTTAGCATTTATTCTGGATGG
CCAGGTGCTCAGGTAAACAATTTGTGACTGTAGAAAAAGGGGGAAATGGTTATTGGGGAGCAATTGGCAATCACTGTCAAACTAGTATTTCATTAAAATA
TGTTTTGACAGGTTTTTTTCTGTTATTCACCATGCATTCATGAATATTCTTACATTTGGTTCCCCTGTAACAACTTCTTAATGATAGCCAAGATTTCCTA
AATATTTATAGGGTTCCAGATAGTATTTTAATTATCTTGTATGTATTTTTTCAACTGAATATAATGATATTATTAGGTAGCTACACTTCTTTATCCTCCT
TCAGGGATATGACTGAGGAAGTCTAGACTTATAATAGGTTAAATGAGAAAGTGTTGAACAACCCGATCGTGTGCACAGGRCTAGTAAATGGTTGATTGAC
ATGAGACTCAGATCTATGTCTGAATTCCAAGTCCTTAACTCCTACTATCTAATCATTTTTTAGAAAAAATTTTTCGAAGGATAAGTTCTGCCACAAAGTT
AGGCATATTTCTAAGACTGTTGATTCACATTGTCAAACTGCACTCTGAAAAGCAGGTGCCAGTTGGTGCTCCTGTCAGCAGTATACGGAAGGACCCCTTT
GCCAAAACCCTTCCCAGCATTAAATGCTTAACATACCAAAAGAACAGAAACACCACTCTAATACAYCACTAACTAATACATTAGTTGACATTTATTTGAT
GAATAATATGGTTGAACATTTACATTGGTATTTATTATTGTTTCCATTTCTTTTGTGAACTGCTTTTTGTACAAATCTTTTGTTTAAATTGTGCTTTTTT
TTATTATTTGAGAAGGGATCTGCCTCTGTCACTCAGGCTGGAGTGCAGTGGCATAATCTTGGCTCACCACAACCTCCACCTCCCGGGCTCAAGTGATCCT
CCCACCTCAGCCTCCTGTTTAGCTGGGACTACAGGCACGCACTTCCATGCCCGGCTAATTTTTGTATTTTTTGTAGAGACACGATTTTGCTATGTTGCGT
AGGCTCACCTCAAACTCCTGAGATCAAGCAATCTGCCCACTTGGGCCTCCCAAAATGTTGGCATTGCAGGTGTGAGCCACCACACCTGGTCCTAAATTGC
CTTTTATCCCATTCAATCATTGCTCTTTTGCTTATAGATTATTAGAATTCTTTGTCTTAAGGATATGTAGTTTGGATTCCCCCTGACATTTCCTTGGATT
TTGATAGACTTTATTGGATTTGGGGGAAGGTGTATTATGTTCATTGTCTTTGTCATATATAATTTTTTAGATAATTTTGGGATTTATAACTATGGAAGTG
GATAGATTTTAAAAGTGAAAGATACGCTAAATGTCATCATAGTTAGTTCTTACTTGAGAGTATCACCTTAATTTTAAAAATGATAATCCCTCTCTTAGAA
GAGAAGACAGAAGGAAAATGTGTCCTCTGAAGGCTTTTATTTGCATAAATTGTTTATATCTTTTGATCAACAATCTTTAGCTATTTTGATATCCAAATGC
TTTAAAAGGGTATATTATTTCTTTCTCTTCTAAAACAGAGGATGTGCCCCTGGTTTTTGGAGCCCATAAAAATAGGCATTGGCCTGAAAGTCTGGCTGTG
ACCCTAATGAGAAAAATAGCTATGACCTGTCTCTCCTGTCTGTTCTCTTCTAGTACTGTTTCCCCTACCCTCTTTAAGTCTTGCAGGTGTAGGATAATCA
TACTTATTTCTCTTTTTTGGGAGCTAGATTATTGAATTGTAGGCTTTTAAGAAATAAGGGGACTTCCAGGAAGTTGATASTGTTGGGTAGAATTGATCTC
ATAAGCTAATTAGAATTTTTGCAGCCCATTTGCAACAAAAATAGCAATGCCCTTTTTCTTAGATTTTTATTAAGAGAGATGTAAAATAATATTTTAAAGG
AAATGTGAACTACAGGAGAAAGTAAAGATTTTGTTTATTACAAGTTGTAAAGGCTTAGTTTATAAATTATTTTATTGTAAACATTGCTACAATTTTATGA
ATCTTCTAGTGTTACACACTAGAAATAAAGATCTCTCATTCGTAAAGGATCATATGAGAGTCTTCAAGACGACTCAGATTGGCCTTATGAGGAAAGGATA
TAAAAGGCGTTGGCAGCCTACAGTCTGTACACTAAACCGGTTAGGAAAATAATTGTCAGTGAAATGCAAAAGACCAGATCCTTCAGATATTAGGCAGTTC
TCAAAGAAATAAAAGTTTGGCTTAGCATCTTCCCTCTTCCTTGATGTATTCTTCTCCTATCCTCCCCAGATACATATTATTTYGTTGCACTTGGAAGGTT
AGAATCCCCCTTTCTGCCCCTTGTCTGGGTCCTCCTTCTCGCCAAGTGTTACCAGGCTCCCTAGTCATTCTGCCTATTTTCCCAATCAAATATCCATTTC
TATGAGTATTCATTTATAGATATATTCACTGATTATCTGATCAACGTAATTTATGCTGGACTTTGAATTTCCAACCTTCATAAGGACATATGTACATTTT
TAAAAAGGAACRCATTAACAGCAATGATTCTGTAATTGATATAGWGTAGATGTTTTAAAATTTTATTGTGATAAAAACACATAACTTGAAATCTACCTTC
TTAAATTTTTAAGTGTACAGTATAGAATTGTTAATTATATGCACGTTGTACAGGATCTAACTAGAATGTCTTAATCTTGTATAACTGAAACTCTATATCC
ATTGAACAACTTCTCATTTTTCCCTCTCCACCAGCCTTGGAAGCTACCATTCTATTTTCTGTGTCTAAGAGTTTGCCTACTTTAGATACTACAGCATTAT
TCACAATAGCTGAGAGATGGAAACAACCTAAATGTCCATTAATGGATGAATGGACACAGAAAATTTGGTATATGTATCAATAAAATATTAATCACCCTTG
AAAAACGGAAGAAAACCCGTCATATGCTACAACATAGATGAACCTTAAGAACAGTATGCCCATCCTGGCTAACATGGTGAAACCCCGCCTCTACTAAAAA
TACAAAAAATTAGCCGGGTGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCA
ATGAGCCAAGATCGCGCCACTGCACTCTAGCCTGGGTGACAGGGTGAGACTCTGCCTCAAATAAAAAAAAAAAAAGAAACAAGAACATTATGCTAAGTAA
AATAAGCCAGTCACAGAAAAATAAATACTGTATGATTCCACTTGTATAGATTAGATGTTTTTGAGGGCTTGGGGTGAGATATTTCTGGGGTGAGATATTT
TTCATTGCTCCGTGCTTATGGCTTTAATCTATTTTTCCCTCAATTGGCAATTTGCCTTAATCTCTAAATTGTCAGTGGGTGTATTTGATAATGAACATTT
CTTGTACAAAGAAAGAGACTAGCTTGGTTTGTATTGTCCTTATTAATAATAACCATTTCTCAAGACAATCATAGTACCAGACACTTTGTATTTGTGTTCT
CATATAATCTTTATAATGCAATGATAGACACTATTGTTGTTTTTCTTGTTATTATTGGTCTTTTAGCTTCCTTAAAGTCATAAGTGGAAGGTAACAGAAC
TTGGACTTGAACCCAGGTCTACTGATTTCAAAGCCTCTGCTTTTAACCTCATACCCTTCAGTGATAACGGGCTTTACTCATAATAATGGTGGAGATACAG
TTTGAAATAGGTTTGACATAGATTTAGCGTACACATTCCTAAGAACTAGTCTCTATGGAAAAAAAAATGTAACATGACTTCTTCAAAGCCAGAATCTCAA
GTTTTTTACATTGATACTGTGGGTTCGAGGCTTTCTGCTGCCATGGTGCTTTCAGAGTATGGACATTTGTTCTTGTTTTTCTACCTTGTTTTATACATTC
CTCTATCCCCACAGCCCAGCAATGCACGATGCTATCTGGTTGGTTAGTCTGCACTCTCTGTCACTGCCCATCTTAATATACATATTTCACCAAAATCCCT
CCTTCTGCTAGCTAGAAGATCTTGTTCACTTTCTCCACTAAGAGGGAAACCTGACCCGTGGTCTTCCTGCCAATCTCACAGCATTACTCTACCCAAAACT
ATGCACAGCAGCTTTCTCTCCCTCCTTTCCAAGGTTGCATGTAGTGAATATATTTACGGCTCCATGGGCAGAGTGAGTGATCAAGAAACACTAAGTGATT
GTGGTGGCCAGAAATGCAGAGGACATCATGGTATATATAAGGCAAAATTATCCATTGATGACTTATTACTTATTTGGCCATTCAACTAGAGTTTTTAAGC
ACTGATTCTTTTCCCTAAAACCTTATTATATCATAATGGATCCGTTAGATAATCTAGTTTAAATTAAAAGAAGGAAAAAAGAACTTTGCCCTCAGGAAGG
AGGAAAATAACATCCTACCAAATGTAGAATGTACCACTTCGGTGGTACATTTAAATACTACAGTAGCAGAAAATGATACCTGATAATGTATATAGAGAGC
TATCAGTCCTCTCGGTGCAAAAACAAAACAGTAAACCATGTAAGTACTTAGAGACATTCAGGAATATGTGCAGCTCTCATAAGTTTCATCCTACTCACTG
AATTCACTTCAGAGAAGATTTCTTTTAATTGTAGAATAATGTGATGGGTTTTTTTTTTTCATGTTCTATGAATGATTCTATGCTGTGGAACAGCCTTCAA
TGGAGAAATTCAGAAGAAGCAGGATGTGATGTTTTCACAATCCAAAAATGCTGTTGTTGCATACACTCCAGAAAGCGGCTCTGCTGTTAAAGGAATTTCT
TGGAAATCTTTTATCTGCTGTTTTGAATAGCTGTAATATAAATGTAATAGATATTGTCTCCATTGTATTCAAATTGTATTTTCTAGAGAATGAGAAGATG
GAGTCTGATGTCAGCCTTCATTTTTTTTAATATACTGTTTTTCTTCCCTGCCAGAATAATGCCAACTTCATGTATGTTGTCTACACTTCCTTCACGTAGA
TGAGGGAATTATCTTGAATATGTTTCTTTTGAGGAAATTGAGAAGTCTGCTCAGGGAGTACTACTGAATGCTTTGCTTGCTAACCTATACATCAGAACAA
GGTGGTATATCTGCTGCTCTAAGAATAAGTACATTTTGCTACAAAGAGAAGTATTTCATATACTTACTTAAAATCTACCAAAAAGTTCAGGGAAGCTCTT
AGTAAGTAGCTGAGGTTACTTAGCTTCAGGGGAAAAAAGCTAGAACAGAGTGTGTGTTCAAGAAGTAAAATAGGGCATGGAATCACTAATGGTGGCAGTG
CATGAGGAATTGATATGAGATGAGACTACAGAAATAACTCAGCAAGTCCAGTGTAAACTTTTATTTATTCATATATAAAGCCTGATATTATTGCTGTAAT
TTAAAGTATATTGCTATAATTTAGATAAAATTTTTCCATCACTGCTTTCTTTTCCATCTCTCAGCTGGTCTTATTATTCAAGTCCCAGGACAGTAAACAT
TTTGTAGTTTCAAAAGCCCTTCAGTACTAATGGATTTTTTTTTAAAACTAGTTGTTTTAAATGAAACTGTAATTATGAGAACATATCTCTCTTTTCTTCC
TTTTGGCAAATTCCACTAGGCATTAAAGCTTATTACCCAGTTCAAATCGATTATATTTATTTTCATTCATGACTCACAACGTTTCTACCTTCTAATACTT
GCAAGTATATTCATATGTGATTTCAAGATCTCTCAAGTACATTTTCTGTATCTTTCCTGCTTTGTCATATTTGTAATATTTTATATGTAACATAAAATAT
ATGGAAGATAAATTCTGCTAACTATAAAAGTTCATATTTTTTTAAGTTATCAGAAGTTTTGTTCTATATATCTTTGAAGTTACTGAAAGCTCAGATTTCA
TTTGAACAGAATGGTATTGTAGGGACATTATCTAGTTTCTTTCAGGCTATCTCTCTCCTGAGAAAGCTTGAGTCCTGGAGCTCTTTGGAATTACAGCTGA
GCACAGAGAAGATGGGAACTTGGGACAGGTGAATACCCATGCCCTAGACCTGGGGAAAGGACCAGATCTGATTGGAAGACCCTATAGCTCTGTGCAAGTC
AGACTGGGGCTATGGAGCAGCCTTCAACTGGAGGTTGACAGATCCCTTGAGAGAGTATTACATGGTGTTCACGTATTCAGAGTTCCTTTTATGGACTATT
GGAGACCAAGCTTGAGGCCTTGGACAAGAGAGAGTTTTTAAAGTACAGGGAAACTCTAGCAATAGTATTTATGCTTAGGAACTAGTTCTCTAATAGCAGT
GACCACTGTTTCCAGTGGCTAAACCTAGGGGCCTGCAAAGCTATTGGAAYGGACACAGATCAGTTTTCTGAAGAAAATTCTGGCCCAGTCAATAGATACT
CTCATGGCTGAAGCCTGAGCAGATGTGAGAGGGTCAATTACTGAGACAGAACAGGGCACGAGAATAGGTATTGAAACCTGAGAGACAGGTTGAGAGCCTG
TATTTGGATTTCAGAGTGCAGAGGTCAAGTTTGGGAGCTGGAAGAAGGAAGAAACATGACCAGGGAGAAGGTAAGCAGAAGGGGTGAACTGAAACTAGAT
GCTGAAGACACRAGGTCATAAACGTGAACAAGGATCAAAGCCCTGGCAACTCAAGAAAACTGCTCAACCCAGGAGAGGCCGCTCACCCTTTACAACAGAA
TACAAACTTTGCCTTGTCTCTGATACCTTTCTGTCTGTCCCAGGAAGGTCACTCCTTTTGTGAAATCACGCTGTTTTGATGTGCCTCTTCTATTTATTGG
ATTGGATCCCATTGATGGTTTAGAACCCATTCTATGGTAATTGTTTATACATTTCTCTTCCCATTCTACTCCATGAAGTCCTCAGCACCAGAGACTAACT
TACCACATGAYATGTAAATGATGTACAATTGGCAAAGAGATCTTGAGAGTCTCTGTATCTGTTTGTAGGGGGAACCCACCAACAAACAGCTTTGATATAG
TGGTTCATCTCTAGGATATAGATAAGGGTAAGTCATGCTGCCCAATTTATTCAGACGCCTCTTCCTGCCTGGCTCTAAATCTTTGCAGTAGGAGAATGAC
ATAGGACCATAAGGACGTACCTGAAGCCAGAATATGTTTATGTATTCTTTTAATAGGCACTGTAAAAGGCACTGTGATCAGTGTTTGGGATGCAAAATAA
AACAATGAAATCTCTACCTTCAAAGTCTAATAATAAGTATGATGACCACTGTTTCTTGTACATGAACGATGTGCCAATCACTGCTGTTTTCCATTTATCA
TGTAGTTCAACATAACAACCCTGTAAGACTTATTATATCCATTTTACAAATGAAATAAGGCATAGGGAGGTCATATAACTTGTTCAATATCATGTAGCTG
CTAAGTAGGTGAGCTTGGATTAGTGTGTCTGAATTCAAAGAAAAAGAATTTTAGTAGTATATGTCCTGATCTATGTACCCCRTTTTCTGTTTCTGATATT
TAACACCATGAATGCCCTTAGATTCTGAGTGATTCTTTGTTGAGAATGAAAGTAGTAACAGAGAGCAATGTTATAAAAAGCCCCTTCCATAATTCAAGCA
AAAACATTATGCATGCCAGTAATTTCATTTTCGTCTTCACAACCTACTCAAAGTGAGAAAACAGAGCTAAAAATAGGGATGAGGCAATGTTATGTAAAGT
TCAGGAAAAATGTAATAAAAGCCAGATTTAGGTAAATATTATTGCAGAAAAGATGTATTTTGTTAAAATGGCCTTAAAATCTTTTCTGTATGTTTGTTTC
AAGATATAAAATATAGATCACTTTTTAAAGAAATGATTCAGTGACTATTACACAATTACAGAGTTACCAAAAATGTCTTCACTGTTAGTATATTCTAAAA
TTTGATGAAGTATTACACAAGTCAAATCAGAATTTATTTATAATTAATCTCTTGATATTTTATTACAGATTAGTGTTTTTAGAATGTAACAATTACTTGG
CCTTTGATGCTATTTACTGAAATAATTTTTCTAGGAGTTATTTCATAAACGCCTATCAGAGTGTAGAAGATTATTTTATTATCCTGAATAAAGTTTTATT
TTGTTTTTAAATGACACATAACAATTGTACATATTTATGGGCTACAATATGATGTTTCAATACGTATATACGTTGTATAATGATCATATCAGGGTACTTA
GCATACCCACCACCTCAAACACTTTTCATTCCTTTGTGGCAAAAACATTAAAAATTCCCTATTCTAGCTAATTTGAAGAATACAATACATTATTGTTGGC
TATAGTCACCCTACTGTGCAGTAGAACACCAGGATTTATTTGTCCTATCTGACTGTAACTTTGTACCTGTTGGCCAATCCCTCTCCATTCCCGACTGTCC
CCGCTACTCTCACSAGCAGGTAGTCACTCTTCTACTCTCTACTTCTATGAGATCAATGTTTTTAGGTTCCAACATGTAAGTGAGAGCATGTGGCATTTGT
CTTTCTGTGCCTGGCTTATTTCACTTAACATAATATCCTCTAGGTTTATCCATGTTGTCACAATCACAGTATTTCATTCTTTTATGGTTGATGTTCTGTG
ATGTATATATACCACATTTTAAAATTCATTTATCCATTGATGGACACTTAGATTGATTCCATATCTAGGCAACTGTGAATAGTGCTGCAATAATAGGAGT
GCAGATATATCTTTGACATATTGATTACATTTCCTTTGGATTACATTTCCTTTGGATATATACCCAGCAGTGCAATGGTTGACACATGTGGTAGTTCTAA
TTTTAATTTTTTGAGGAACATCATGCTTTCTTCCAAAATGGCTATACTAGTTTACATTCCCATTGACAGGGAATAAGAGTTCTCCTTTCTTTATATCCTC
ACCAGCATTTGTTATTTTTTGTCTTTTTGATAATAGCCATCCTAACTGAGATGAGATGAAATCTCATTGTGGTTTTGATTTGTATTTCTCTGATAAGTAG
TCATGTTAGCATTTTTTTCACTTACCTATCTGCCATTTGTATGTCTTCTTTTGAGAAATATCTATTCAGATCTTTGTCTGTTTTTTAATCAAATGATTAT
TATTACTATTATTTTTACTGCTGAGTTGTTTGAGTTCCTGAACTTTCTTTTACCTATTACAATCCAGTGTCAAGAAGATAGTGTATTAATTTCTTTGTTT
ASTTTATTGATCAATGTTTATTGATAATATCTGCCTTCATGCCTACAATGAAGCAAAACCTTATAATACTGCTTTCTGTATTTCTTCAAGATTCCATAGC
CATGCAGTGTAATGTTGAAAAATCAGCAGATTTACTTTTTGATGTAGGAGAAAGAAAAAAAAAATAAACAGAGATAACAGCTGTCTACCACAAATTTCCT
ATTTTGAAAGTTCTATATATTTGTTTAATATGGAACATTTACATGTCATGCACTGGGCTGACTGCTGGGAATATAGAGGAGAACAAGRCTGTCCAGTCCG
TTGCTTGCATAGAATACTGCTGTTGCACTTAGTACTAGAGCAATACCAATTATGATAGCATCACTTAATTAAGGTTGGGCAACTGTGTTATTATAGTTAG
GTACCATGTAACATTGTGATTTTTAAAATGAATTTATCTCATTTGATAAAAATGCATATTTTTTTCTGGCAGGTATGAATTTGCTAGAAATTCTCTAGTT
AGACTGTATCAACTACAGTATCATTTATTCACTTAAAAAGCTGTTGTCATGTTCATTATTTGTACAATGAAAAAATGGGAGAGATGCATTTTATTGCAGG
CTTCTACTGTTGKTAAAGCACTAGATTTTTCCACTTTGAATTGTTCAAAATTATTAGTTTATCAAACAAATTGAAAGAAAAGCCAGGGTTCTGTTGCTAA
CTTTTGAATGAAATTTTAAGCATTAAGGCACATCAAATCAATGGAATATAAATATGAAGATTTTTATTTTTTACCCAGCCATTGTATCCAACCAGGCTAG
GGTGAATTCTACTTTTCTATCCTGCAATGGCATTCTTTGTGCTTTCGGCTCACTTTGGTTTTTAAAAGTCCATTTCTTTCTAAAAGATTAATCTCCAGGT
CAATTCAAACTTCACCTTTTACTCATCCCTTAGCTCGAGTCCTAAAGCAAGAAGAAGAGAGTTAATCCTAGTAAGCCTCTTATTGTTGCTCATTTTTTGG
TTGAGAAATGAAGAAAGATATGGCACATAGTATACATTCTCTAAATATCAAATGAAAGCATGAATGAACAAAATAGCAGAATAAATTAAATTCAGTGATT
TGCTAAAAGTTAATCTGAAATGTATGCAGGATTCTGTTCCAGTCTTTAAATCTCACACACACACACACACACACACACACACACACAATAGTAGGTGTTT
AGACGATAATAAAATTTGAACAAAAAGTTCAAATTACAGTGGAAGACTGCCTTTGAATATAAGTTACTTTTTTTCTGTGTTAGTCTGTGAAATAAGTAAG
TATTGAAACCTTCCCTGATAGATCTCCAAATAATTTCCCATTCTGGTTGGTTGGACATGTGCTTAGCAAGAGTGCATGCACCTCCAGTTCCTCCAAGTAG
GGGAAAACAGAATGGGGAGACAAGGGAGATTGAGCCGTTTTTCAAGTATCTCACTCAGGAGGCTGGCTGCCAATCAAGGACACCCCAGAAGGAAGACAGT
GAAGGGCACATCACTGGTGAGGAGGACTAAGATGGATCGCAGATGGCAGCCTGGAACCAGGCCTCCCATATCAGGGAGCTGTGCAGTGGGGGTGCTCACA
GCCTCACTCAAAGAAAGCAGACATAGGCCCCCAAAGATATTCACCTTGTGGACCAGAATCTTCCTGTTCTGGTTTCATGTTCTTAAATGATCATAATTAC
TATAACAATTATTTTGAGTTTTTAATTTTTGATCTTTTTTGTTTTAACACAGTAAGTAATCTCAACATTTTTTGCCATATTCATGAAGCAGGAAATGTAC
TTTAATTCCTTATTTATAAAAATGTTATGGACCTTATAATCAGAAGAGACTCAGATGGTCTTATTTAGTAAGATTTGAAAGGATAGATTCCGGGGTTTCT
AGAATTTAAATAATAACTTCTGTTGTTACTTCTGTAGTTTCCAGAGTTTTATTGTTTGGTTCCAAAAAATAAGGAGAACTTGACTTAGCATAGAAAACAT
AACCTTTCATGTCAGCTCTACTTTAATAAATGCAAGCACAATTTTGTTCAGCTACCTAGAAAAATAATGATATTAGGTAATCTACAATCTTTTAGCTTTT
ACATGAACCTAAGAATTAAAGCTGGGTCTTTAACTTGAGTTTGGTAGATTTAAAGTAATTACGTTTTTGCTGTCTACGAAAGTTGTTTAGTTAAAGATAT
TGTAAATGAACTATAATTATGTAGATTTACGTCTGCTTTTAAAACACTTGTGCTCTTTCACTGATTTGAACCTTCRTATATGCTTTCATATTTATTTTGC
CAAAGAAACTATAGATAATTTGATTCCATAGCAGGATGTTGAGGAAGACTTTTTCTCTTGCCTTGGAATCACTGCTATTGGTCCTTGGGAGAACACAATG
ATGTCTAAGAATTCCATGTTTTATAGCAAACCACCAACCATAGTAAAAGGTAGCACCTTTTCCAGGTCTTACTAAAAGAACAGATCCTACTACTGTCAAC
TTTTACCCCAGCATCCCTCACACCTCTCCCTAGGCCTTATGAGAAGAGTCGTGGACAAAGGAGACGAGGAGAGTCATCAAGGACAGCTGCTTCACACAAT
GCTTTGGTAAAGGGTCTTGTCCCCAGTTTCCCACTTCAGCTTCAACAAGGCCATGCAGATATGAAATTGGAGCATGAGCATGAGAATCATTCAGAAAGAT
CTAAAATATCTGCAACAAGTGGAAATTGACATCTATAGGGAGATTCAAATCTAAGATTTTGTTGAAAGTTAATCTGAAGTACATGTAACACTTAACAGTG
ATTTCTGCACCCGGCCGAATTCTGGGTTCTATTCTTTACACACACACACACACACACACACACAAATGGTGGGCATCTGTGCTTTAAAGGTGAAAGAAAA
AGAAGGGTCTGTGATATAAATTCAAATTTAGACCTGCTGTAAAAATACAGTATCTTTTCTGTATGGTTGGGCCGCAAGTAAATCTGGAAGCATTTTTTTG
ATAGATCACCTGGTCATTTTACCACTTGCTCTTTCTTTTACAGTTTTGCTCAATCACCCTGTTGGTATCCCTTTCCTGGGTTTTTGGCATAATTTACAAG
AGGCACTGATGATAGTGAGTACAAGTAGGTTTATTTCTATTTCAACTGCCTCCACTAAACAAAGGGCAAAAAAACCTTGACTGCATGAGAGATTGCTTCT
CAAATAAAAGCTGTGGTTTTCTGTGTATATGGTAATACTCTTACCTTCCCTGTAATGTTTCAGTGGTACTTTTTTTCTAGGAAACTGGAGAACTTAATTT
TATACAGGAATCTCTGGTCTTAGAACTTAGCCTAGTGGTAACAGTTTTAAAAGGTCTCTACCTCCATTTAAAGGAAGCAATTATTCCAAAAGCACAGGAT
CTCTGGTTGACTAAAGACTGTATCAAGGATGAAAGATTATGTCTGGAATATTTCCTGCCTTATGAACTTTTGTGTTCAAAATATAAATTTTAGATTTAAG
GAGGCATGTGGGTGTGTATTGCTCACTCTCTGATATACAACATGGTTATTTTATGTTTGGTAGTAGTAGTTAAAATAAAACTATATTARTTGCCTTCTTA
CTAATGTACTAAAGGCTAAATGAAAGAAATTTTTCATCAAATGTTATAAATTTTGTTTGATTGTATCAATTTGAGATACGGTTCAGTATTTTAGAACCAA
TGTCTTAAGGTAGGCTTCCATAGTTSCAATTAAGCTTCATAAGAAATATAATTAAGTTGAAGCTTGGCATTGTTTGGTAGGTGTCTGGCTGGCACCACGT
TTTCCAAAAATAAGATTTGTTTGAAGGGGCTTGGGTTTTTCCCTTAATTTCAAGGTTATGTCTTGGATGGGGCTTGGGAAAGGGCAGTGGGTTCTGACTA
CACGTCAAAGATGTTAAAGACATTCACTGGCTTGACATCATGTGGACAGTGGCTTGCTTATTCTTCGTTTCCTAGTATCAATTAAAATAATAAATGGTCA
GGTTTTGCTCACACTATTTTTAAAATGAAGTTTATGATCCATAATTTTGTGAAATAAACTTGAGTTGTATTCAGTACACATATGGAATAGTAAGTTATTA
CATTTTAAAGATGACAGTGATGTAATGGTATACTTATATATTATRTTTGCAGATAGATTTTTCACAGAACAAGATTCCTCGGTTTTAATTCTACAATGTG
ATATTGGAATTAAAAACAAGTCTCTTATGTGTGAATATTTTATCTCTATTTGTTATTATCAAAATAAACACTATTCATAGAGTTCAATTTCATCAATAAT
TAATAATGTGACTAATGCATGATAAAAAGAATAAGTTAAATTATGTTTTTTGCTTACAAATATCACATTAATTGAATAACTGGAGTAATATTATGCTGCT
TTTATTAAATATGTAGTGACAAGTCTAGAAAATAAACTGATTGGCACATTTGTTAAAATCCATGTTAGTTTTCCTGAAGAACTACACACCCTAATAAATA
ACTTACTTATGTTCAAAATGARTTAAATGTGGCAAATAATTCCAAGACATTTATTTTACCTAATTATATGTGGTTGAACAACTAGGAACAAATATTTTAC
AAGTGAAAACCATAAGACACATTTTTTTAGGACATATGTATATACTAATGCTTTTTACCATTTATTATTTGCTGATAGTCCAGGACCATATATTAAAGAG
TGATTTCAGTATCCATCTAAATTTTCATATGGTTTCATTTAATCATAGGATTAAGAGAATATTTTAAATGATTAGAAAATATCCTCAATTTTTTCAAGGT
TTAGAGTATTTATATTTATACGTTAAAATCTTTGGAAAGGCCTAAACTCAGGGTGTTTTGAAATTATGTAAATTAATATATTTAGGATCTAATTTATTTT
ATATCTACATTAGCTTTTCCATGTATAAGTTTCACAAATAAATAAACTTCACAAATAAAATTAATAAAAGCTAATTAAAAATATCAAACACCTTTCTTTT
TCAAATGTGTAATTTAATGAGATTCTGAATTACCTTGATTATTTCTAAAAGTTACTATTTTTTCAAATGAAAATAAAACTTAGCCACCATTTGAAGGCTA
TATGCTCTTAGCTTAAACTGATACACTTGCAAATATAGCTATCCAACTGCAAAATAATAATCAAATTTAGATATTCAGACTCTGAGTAGAGAATGGAAGA
AGTTGTTTGGCTGATGTGAAAATTGAACCAATGATTTTAATTTTGAACATACTAAGCTCTAACCAAATGTGTCAAGTGTTGCCAAATAAATATAGAGGAA
GAGGATACCATGTTTTATATTAAGAAGGGTTAATCATTTGTCTGTAGAATAATTTCTCTTCAAGGTGCCAGTGAAATGTATTAGTGATGGTTAGTTAACT
ATAACCTGACCACATAGTTACCTTATATGGTCAGGTTATACAACAGGTCACCTGTTGTCAACTCCATATCTTTCTAGTTCCACCACTCCTGTAGCAGCTA
TATGCATTGTAAGTAGCAGATTTTATAAAATGTGTAGATCAATCCCTTTGGAAAAGAATATCAACTATACATCATCTGTATTTCTTAATTTTATCCTATT
TTTTCTCTTTCTTTTAAGAATACTAATGTATCCAACTTTTATATTCCTTTTTGTTTGTGTTATATTTTAGTTTCTGCATAAGATTTGTTTTTTACCTAGC
CTTTCTAATGGGGTTTCAGATGTTCATACTCCAGTCTTACAGGTCCTCTCCTCTAGAATGGTATCTTTTACGTCTGTAATGTTCTCTTTATTTCCATTAC
CCTTTAATTACAAGTAACCATACTTCAAGTAAGCAGCTTTTAAAAATTAAAAACTTGAATAAATTGCTATTCAAAATGGGTTATTGAATAATTTTAATCT
AAAAATGTTTTCAATAAGTACATTTCAGGCTAGAATAACATTACTAATGACACTTTATTAATAGTGCTACTCATCTTTCTGGGATAAATGTGAGATACTC
TTGGATAAGGAATGGGAAAGTCCAAATATAGTTTTGTATATGGAAATATATATAAAATATATAGTGTGGAATTTTTTATTGAATATTCATTGGTGCCTGA
ATATCTCATGGGAATTCATTTAGGATTTGCAGAATATTTAGCAGACATGTTAGACTTTAGTATTGTCACATTTTGGATTATTTCTGATTATTCGATGTAT
TAGATATATGTGCTAATGTAATTTTGGAATCAATTTGCTTGCTCTCTTCTACCTTCAAATTAAACTTAAAATTAGAGTATAATGGCACAACACAATACAT
GCCTTAAAAAACTGGAGGACAAAGTTATTTTTAGCCTAGAATTGTGAAGATAGAACAAGACAATCTAAAAACTTTTATCTTGTGACTCTTTTTTCAGAAG
CTGCTGGAGTATATGCTCCAGTGCTCACCAAAATAAGGGAATAAACCAATAAAGGGGATTCATGGGATTCAGGAAACCAGAGTTGCAGCCAGTGAAACAG
CAATCARAATGACCTGAGCACACAAGCTAGGCAGAGCCTGCTGCCCTCAGTCCAACTGGAACGAGTTCCAGTCCAACTGGAATGAGAGGATTTCGGGGAG
GAAAGTGGAAATTCTATATTACTTATTCATTGACTGCATCAGACAATATATTAATCCATATGTGTTTTGAAAATCTAGAAGTGTTTTACAGATTTGGAGA
AAATTAGCAATTGGTCCTGAGAAAATAATCAAATTTAAAAGACCTTAATTAACTGCAAGAAAAAGTCGAGTAGAAAGTATAATCATAATACACTACTTTG
CTCAACAGTCATGAATATTTACATAATGATAACGTTGAATACCTCTAAAATATGATATTTATACTCTAGGTTTGGAGAGAATAGAACTATTTAAGTTAGC
ATAAATACTTATACATGAAAGTAAAAAGGTAATATATAGTATCTAAAATTTAGAAGTCAARAATTACAATAAGAGTATGTTATCTGAAAATATGGAGTTA
AATTACAGAAGAGATAGCTGAAAGAATTGAAAATGTGACCTGTGGGACACTGGACTGGAGAGGTGGAGTGAAATGAAGCAGGGTACAGCTGCTTTCCATT
ATGAGTCTGGCAGTAGTCCTTGAAGTTTTAAACTACATGCATGTCTAACAAAAAAGTAAATATTTTTAAAAGGGCAAAAAATACTGTGATAACTCTTGAC
AGTTTGCAATGTAGAAAAGAATGGAAGAGGCTGTCTTCATCTTTTGAAGCTCATTTCCTGGTAATCTCCCCTGCCTGCTCTCAGCTTCAGCCATTCTGGC
CTTTTTGCTGTTTTTCCAACACRTGGGGCTTGGTCTTGTCTTAGGAACTCTGCGCCTGTGCCAGCACTGCTCTTCCCTCAGGTGTCTGCAGACTTCTTCG
CTGATCTCTTTCAAGGCTTTGCTTGAATGTCACTTCTCAGCAAGGTTCCCCTTGACCACTCAGTCTAAAATTGCACCTGCTCATGCATCTGCCTTATTCC
GCTCTAATGCTTTTCTCCATAGTGTTTATCACCTTCTTAAATACTGCATGATTAAGTCATTTATTATGGTTTTTGTTAACTTTCTATCTCCCCTTGCTAC
AATGTGAACTACACAAGGACAACATGTTTGTGGTTTGGATGGCTGGGGGGTCCACCAGTGCATCTCAAGTGCCTATATATATATATGAAACATATATATG
GAACACTTTTTATTTTAATGAGCTATTCAGTATTTCAGTAAGCTATTAAATGGTGCTTGGCATACAGTATGTAATCAGTATATATTAGTTGAAGGTATCA
ATTAACTAAATGAAGAAAGAAAAGACTAAAAAAGGAAGGGAAGAAAAAAGAGAAGGTGGGACAAAACAAGGGACACAAGTTAGGAGGCAAATGCATTATT
TCATAAGATGGTGGTGGTTTGAGTTTGGGTAGAGGCACGATAAATGGAGAGAAGTGAATGAATTTGAAATAGGCTTGAACATAAATTTGGCATTATAATG
AAAAATATGATTATTTCTAAAACCAATGTTTCATCTGTTTTATAAGCAGGAAATACCTGAAAATAAGGAATGTCAAGATTCTAGTATATGTTATTAGAAG
TGAATGGCATTCATAGTCATGGAAAATAAWGTTAAATTATTAAATGCTATTTAAAGCCACAGAAGTTCTAGACATCGAATAAAAATAAGAATGATACAAT
AACTTAGCTAATGACAACAATAAAAGCTTTTGTAGAGTTTTCCTACAAGTTTTACAGTTTAGCTTGCCTGTAAGTTACAAATACGAGGATTTTTGTGCTT
TGAACTATAAAAGCTCATACCTAAGAGTAATGAAAGGTTTAATATTGTACTTATTTAATAGTGCTTTCTTCTATTAAAAACATAGTATTCTATTCTTATT
TATAATTTTATGGAAACCAATTTCACTAACATTTATAAAGTTTGATTTGAAAATAAATTATATTTCTTAATAATTATATGCACAGTTATGACCTGCATGG
ATTTAAGCTTTCGCATAATTTAAAAATCCATATCTTCATTTTGACTGTATATTTGAAAATACTGATGACAGAGTAATCTGATTGCACTGTAACTGGCCAT
TTTTGTGAAATAAAGTCCTTTTTTCTTGTCTCAGTAGTCATAACTAGTTACGTGTATATTGTGGTTTTCTTCCATATAAATGTTTCTAGATTGCGTACAT
TTAAAATAACTTTTCATGTCTAATTCTGATGCACATCTTTAGCAAATATGAACAGCAACCTTGCCACTGTCTCTGATTSTTAACTTCTTCCTTCTCTTAT
CCTTTCCTTATCTTATCTTCTTTCCTTTTCTTATCCTTTCAGAGCCTCTTCCTTTTCTGAAACTTAGATGGGAGATAGGAAGGTATGGTTGTAAAAGCAT
TACATCTGTCATATGATCTATCACATATCATATAAGAAAATGCATTATATTTTGGAAACTTTAATTTTATACACATATATATGAAATATGTTCATATGAA
ATACATTTCACTTTATTAAGCTATTCAATATCTCAATAAGCTATTCAATATTACAGGCACCTAGATAACTAAAGGTCAGTCATTACATTTATTTCAGTGT
AAGAACTTAACGGGGAAAAATTTAAGTTCTGTTAATGAGTTTCTAATAAAAGTAGACCTGTTTTGAAAACAGAAGTGTCTGTTTCCTTGTTATATTTGAA
ATAAAAAATTATGATGAAGCATTTTCCAGTGTATGAAACTAAGATTCTTTTATCCATAAGGGACTAATGTGTAGTTGAAGATGTCCGTAATTGAACAGCA
GGAAGTATTAGATAAATTCAAGAAAGCCCAGTAAATCCTAGAGGGAATTAGAAATAAAGTTCATATATTTATTGTTAACTGCAACCATTTTATATGAAAA
TTATAACAAGGCAAAGCTTACATTTCATTATCAATATAGTGTCCCTATCCACTGTTCTTTGATAGCAGTCAAGTATGGGAAACAATATAAGAGATGGTTA
TGAAGTTGATAACGTGTTTAGCACTGSTTTGTACTCATTCTGTATCCAGGAATCTCTTTTTATTCATTGTGTTAAATATTCATGAGCACTTAYTCTGTGT
CTGATACTATGATGTAGAGGATCGAAGAGTGTACTAGTTTCTGCTCTTAAAGTAATCCATAGGCAGAAGAGAGACATACAGGTGTATGTTCATTGAAATA
TGACAGCTACCATTTGAAAAATGYATGGAAATATAGATGCTTAGTGCATTTGGTAAAGAAGCRGGTGAGACTAAGGGAAGGGGAATTTTTAGGGTAGCAG
TGCTTAAGTATGTTACAGGGGCTTAAAAGAACAGTTCAGTGAAGGAGAGATTGAAGTCCAGAAAATCCTGGAGAAGGTAGGAGGATGGGAAAAGAGTGGT
GGCATCTGTCTCTATGAGATACAATGAGAAAGACGATGATGAAAATAGAACTTAGTTAAAAGGTGAAGAGGAGGGAACTTGCAAAATTTCCCGTTTTCTG
TTTTCTTGGTGAGAACAGAATGTTCAGTCTGCTCCTGATCATAAAAGGAAGGATTTAGCAGTCACTGATCTGAAAAAGGTTGGGGAACAGAGACGGGTAA
ATGAATTATGGGTGTCAGGGAACATTCCTCTAAGATTATAAATCCTAAATTTGTCATTTATTCATGTAATGAATATTTACAGAGCACGTTTGCCTAGGTT
AGGTGTTGAATATGCAGCAGGGAGCAAGATAGGCACATTTTGAATTCTTAAGCAGTTCATGCCTTCATGACACAGTAAACAAATATTAAAAAATTATTAC
TCAATTATAATTGTGAGAAAGACCGTAAAAGTTAAAGAAATGGTATTAAGATACCATATGATGCATGAGAAGGCTTGGGATTGGGTGAGGAGGCAGAGAA
AGGAGAAAGTAGAGATACCCAGTTGGAGAAATGGCTGAGCAAAGGCCCTGAGACCAGGTGCTTGAGGGAGGCAAGGCTTCCCACTCAGTGTGCTCTGGTG
CCACTCGTGAATTACACGTGTGTCAAATATTCATCCGCTCAGCTCTTATGTGTTATTCCAAGGCACAAAGAACATTATCACTTTCTAACTGAGCCATAAT
ATGAAATAGTTTGAGAAGCTTTGCATTAGGGGAAGTGACCTCAGAAAGKTTTCATCTGTAGCACCAGCAAGGTGCATGGAATAAATAAAATATCTGGATG
TTTTATTAATTTGGCCCTTCTTGTGTGTTTATAGTCATTGAATTAATTGGTTTATTCAGCAAATAGGTAGTTGATAAAATGACACTGCATTTAACCTGGC
TAGTTTTATAAATATTACAAATTGACACAGAGACGGTCCACAATATGGAAGTTTATCTTGGGGTTTTTTATGAAAAGATTTAAAAAATTATCTTACCTTA
GCAGGTATGGGGGAAAGTTTTCTCTCATTTCTTTTCCATTGAGTATTGTCAGTAAAATAGAATAAGATTGAGTGAAATTTCAAATTATTTAATGTTCAAC
CAAAAGAATTCTCAACTTATTCACACATATATATTAAGTAAAGAATTCAGAAAATCATTAATAAAGTTCAGACAAAAACCGTCTAACCTAATTCCCGGGA
AAAAAACTGGAACTCTGCCTAGAATTATCCAGCTACACAGTCTGTATTCATTTTTTAATTGCATACCTTATCCTTTTTATCTCTGTGTATAGCACCTATT
TAAAAGAAACAGAAACCTGGCCTGGTGTGGTGGCTCATGCCTCTGATCCCAGCACTTTTGGAGGCCGAGGCGAGCAGATCCCTTGAACCCAGGAGTTCAA
GAGCAGCCTGGGCAACATGGTGAAACCCTGTCTCTAAATAAATAYGTAAAAGAAAGAAACAGAAACCAGACATTTCTGTTTTTAGCTGTGGGTTGCTACA
CCTCTGTGAAATCATAGGTGTTTACCACTGTCTTAAATCACTGGTTTATGATTACTTGATATTTTCTGGATTTTTAAAACATTACTTCTTTTTTTAAGTG
GTGTAGAAGTAACGTTTTAGCATACTATAAATTTCTGGTAATAATTTGTATTACAAAGGTGCATATTGTTTAAGGTCCCAAGTAAGCTTTATGTATAGAA
AAGGTTCCTCTGCTCTTTCTTTTTGTCCTCAAACGTAAACTTCTGGAGACCTGGAGAGAATGAAAGGCGTCCGAGTGTGTGTCCATGGCAATCCGCTAGC
TGTGTGGAGGAAGTTACAGTGGCATTAAGCCATGAAAAGGATCAATTGTTTTTGTGAAAAATCCTTGGGACGTGCCTTGAATTTAAAGAATCAAGTTCAT
TAAAATCATAAATCATCTATTAATCTTATTTTGTTGAAATATCCTTGGTGGTCCATGGTATTTTAAAGACCAAAATTGTAAAAAATGTAGTTAAAGTAAC
AACATAATGGGATTGTTGAGGACYGTGAAATAATATCCTCAATGCCTTTTCTTCTTGAGGGTTTTTACTGGATACTTGCTCTACCTATACCTCTCCTAAC
TACAGAACTGAACATGATGTGAGATGTGTAACTTTCATTTATTCACTCATGTGCCAGGCACCATGCTGACATTACATGTGAAAAGTTTCCAAGGTTTTCT
TGTTACGTCTACAATTACTGCTAAGTTTCCCGTAAGTAATTTGGGGGACTGGAAACGAGGGCAAAATTACATGAAGGGCTTAGAAAACTGCATCAATTCT
TTTTGGATGTGTCAGGGAGATGGGGGTAGTCTTTCTCCCTGCTAATCAAGACCCACTAGAGCACCGCCGTATACTGCACACATACTTCTGAATGACAGGA
GCTTTGTGTGAGATGAGAAAGCTGTGTCAGGCTGATGGTATTATCATGATTCCTTGGAATGGATCACCATCCCAAATCACCAGACACTCCCTGATCAGSA
GGGAACAGCACATTCTCCAGCTACTGTATTATTTGGGAGGTTCAGGTAGGAAGTGAGTGCATAGCCTCAAGGGGTCTGGTGGAGGTCCTCTTGGGAAATG
CAGAACTTCTTTGCCTACTAATGCCCCTTGCTCTGAGACCGGAGAGGCTTCTGGGAATTTTATCCTCACAAGAAACATTCATTTCATTTAAATAGTATGT
GAAGCAAGACATTTAAGTTAGTTAGARGTGCATATCATTTAAAATGGCAGGAGATGACAGTTTCTGCAAGCCATTTCTGAAGTTAAAAAACAAGGTAGTT
TAAAATAAATTGTATTTCAGCAGTCACTATTTTCTTAATTTRCCAATGAACTTGAATGACATATTAAAGAACTTTAGGCATTATACTCTGGTTTGTGATC
CGCTTGAACACAAAATGCATATTATGTGATCTTATTTCCAAGGTTAAATCAGTGTATCCTTGGCTAGATCTATAATAGCTTATCAGATAAACATCTTCTG
TCAAAATAATATTTGCCATTAATGAAATTAATGGCAGAAGTATAAACTTCAGAAAGATATGATCACTTAGATGCTAAAAAATCTATTAAGGAAAACAGGT
TACATTTCAATATCTTTGTCTTTGTGTTCTATGATATGTAAATTCCAAGGTGTAAATCCTTTCATAAAAACATTTTTTTCTTTTTCCTAGACTTAGAGAG
AAACATTGACTTGCCCACAGAGCTAGCTCCTTTGATGTGCAATAATGCTACCTGTGGTCTGTTTTAAGATGCTCTTTTTTGGCCAGGCGCAGTGGCTCAT
GCCTGTAATCCCAGCACTTTGGGAGGCCRAGGCGGGCAGATCATGAAGTCAAGAGATTGAGACCATCCTGGCCAACATGGTAAAACCCCGTCTCTACTAA
AAATACAAAAATTAACTGGGCGTCATGGTGTGCGCCTATAATCCCAGCTACTTGGAAATCCGAGGCAGGAGAATCACTTGAACCTGGGAGCCGGAGGTTG
CAGTGAGCCGAGATCGTGCCACTGCACTCCTGACTGGCGACAGAGTGGGACTCCATCTCAAAAAAAAAAAAAAAAAAGTTCATTTTTATTTAACCGTTAC
CATTATCACATTAGACAGTGCAGGAGTATGTTAATTATCTCTAGGTGTCCCAGTGGCCTAGTAAGTCCAGGGCAAAATGCCAGCAGAGTCCTGGCCAAAA
ACACTACATTAACTTGTTCAGTCTCTTGACATCCTCACAAACAGAACAGTAAACCTGGAGAGAAAACATGTTTGTTCCAAATGAGTTAACTATTCCAAAA
TAAATAATATCTAACCCCTGGCCAAGAATTTGTAATTGTGTATAAAAAGTAACTAATGGGATGTATTCTCCAAGACTATTAATTATGTACTGAACAGGAA
TGCTTTTTAAATGTTGTTCCTCTGAGTGCAATAAACCTGTGTAATCTAGGCTACCTAATGAGCATCTTTGAGCATCTGCCACTGCAGAGTRCATTCAAAT
TTCAGGCAAAATTTGGGAAATGCTGTTGCAGCAGTGGCCCAGTAAGACCCAGTGCTGTCATTGGTCAAGATAGGTCACCAATTACAAGACTTGAAGATAA
GCATGTTGTGATTGGTGGTTGAAGTGAATCCCCTCTCCTTAAGGCCTCACTTTGGGGATTCACAGAATGGGCATTGTGGAGGCCCCAAGTTCCATGGAGA
ATGCAACTATTAAATTGAGAAAGAAAAGAAAGTACAAGTGAGATGTTAGGCAAAGAGTAGAGGCATGAGATGGGGACTAAAAGTATCCAGCAGAGGAATG
TGAAGCCACTAAAATGATTCTGCTAGCCAGCTAGACCGTACTTAAGCTGTACTAATTGAGACAATAGGATTTGCACAGTTTCCGCTCACTTCAAATAAAC
TGTACAATACAAGGAAATAAAATGATAACTAGTAATTATCACTTCATAGTCTACTGGCAATGAAAGATTTTTATGTACCGATAAAGCAGTAGATGTAATC
TTTTTTGTACAGTTATGAGCAAAATCAGTGATGAATATAGCTAGGTGCTCGTTAACAATGAAAAGCCTACTAATTAGAGATGTCATCAAAGTGTTTAATT
TTTTTAAATTGCTAGTGGGGAAATGGTTCACCCTTGAATATCAGGATTTGTATTTTCAATGTGCAGTGAGTGTCCATACTTACCCTTAAAACTAAAGAGC
ACTTCAGACTAAGAATCAGATAGCATCAGAAAACAAGTGAATAATTTATGACCAAAAAAACATGCAGGGCACATTAGATAAATGTCACATTGCTGTTGCA
TTTAAAACGAAATTGCTTCACTATTGAAAGAAAAAACCCAAATGCCTGAAAAATAAAATTCAGGAAATGATAATTGTCGTTATAAGCACATTTTTTACAA
AGAGTTCAAAATGGTTTTACACATGCCCTATCTCTTGTTACGGTATTATTGTAAGTAAACAGGAGTTTACTTACAGTAAAAATATATATCCCTATTTTTA
AATTGTGGAAATACAAGCAAAGAGATGTGACTTGTCCAAGGTCATCACTTAAAGGCAGAATGTAAGATTCCGATCTTAAAAATAAAGTGAAAAGAGGCAT
AAAAAAATATGTGTTTATAGTTAAAATTAGTCAGATCTCCCTTGCTCATCCTGGTTTCTTTTTGTAATATTGCCCAAGCTTAAGTAGTTTTAATGAGCAA
TAGCAAGTGGCTTATAAAAGATACTGGCAAATTGAAAATGTCTTAAATCATTGAAGATCCATTGAAAAATTATSAATTTATTATAGTAAATRTGCTTCTT
GGGAATAAAGGTTTCTTATTTCTAGACCGGCTAAAAAAAAMAAAAAAAGGAATTCATGCCAAAAATGAATTTTCAGTCAATATACTGGGAAAGGAGTCAA
GAAACTCTGCCTTGTCCAGACATAAGTGCACAGTGAATCAGTCAGCATCCTGACAGCAACTTAACATGACCCGCACCTATTTTAGAACAGGTTGTTAACA
CATAAAGCTGCCAGATTGTCCTGCTTAATGGATAGACAGTGACATTTGGGTTTAATTTTATCTAAGCAAAATGTGCTGTTTTAGAAATAAGATAAAAATT
AAAATAAGACTATTTCAAGGTTTACCCACAAAATGCAGACCCAGTGCATCTGATCATCATGGCCAATAAGATGATCTGTGAGTTTGTTGCGTTTCCTGTT
TTGCTATGGTTCTTGTTTTTCATTATCTTGGTAGCTGAAGTACTTAACTTGCCTACTATGTGTCAACTTGGCTATTATTTCATAAGCTTAACTTTAAAAT
GCTGTTAATGCTGCATCTATCATGCAGTCTCTTGGAAGAAGATTTTAAAATGGATTTCAAATGTTTCTTTACAGTCTTAAAACATATTTACAATCTATCT
TTAATTTATCTAGTTGTAGAATCAGATACATTCTTTCAGACATTCTTTAAAGTGCATAGACACTTTAAATTTTTTGAATATTTAACAAAAACTCATCAAA
TATTTGGAAAACCTGAAAACATATGAAAAAATAAAAATCACTCCCAATGGCACCACATAAATTTACATTTCTGTATATATGTACTATTTATAAAATAGTA
TCATAACTGTTGATATTTTATATCATGTATATTTCAAAAAAAAATCAATAAATATATTTGAAAATATACTTATAATGGCTTCACGTCATTTCATATTAGG
AACCTTATATAATTTATTTAAACTTCCCCACTTTTTGTATATTAACATATTTTATAGTTATTCAACATTTTTTCAATGTTGTAAACATCTTGGTACATCA
TGTTAATCTCTGTTAATCTTTTAAAATATGTTCTTTGGAATAGAATTATTGTGTCCAAGATATGAAGAGTTTTAAGGATCTTGATAACCCTTGTCAACTC
ACTTCCCAGAAAGTTTATAGTAGTTCATTCTTCTACCTGTATATAAAGAAACATATCAAGATTTCTGGATCATCATTGAATATTTAAAAAGTAATAATAA
ACCTTTGACAACTGGTTAGCTGGAAAACTGCTATCTTCACATTATTTTAGTTTCTGTTTCTTTGACACCAGTAAAGTCTCACAGTTCTTTATAAATTTAT
TAATTGTATTTGCATTCTTAAAACTTCTGTGCTCATATTTTGCCCTTATTGATTTGTGATAATTTTGTATGTGTGGAATATATTGTAATATTTGTTTAAT
GTATTTTAACATTTATCAATAGCTTAATTTTACAATTTGTATTTCATTATACATTTCTCTATACAAGTTTTAAATGCTATATAATCAAAGCTATAAATGT
TTCTTCATAATATCCTTTTCTTCATACATAGAAATGCATCCCCCATCTTATGATTAATTTAATGTTCACTTTGTAAATAGTTTTTATGCATCTTTTTAAA
AACATTCTTTATTCCACTTGTAATTTATTTTTATGTATGTGTCAAGTACAATTTAATTTTTTTCACAAATAGTGTTCCCAACCTTTGAACCTTCATACTT
TTCCTTATCTAATTGTGATGTTTCCTTTAACATATATTAAATTTGCATCTATAGTARGTTCTATGTTAGTGCTGTTTGCTTTTTTCTATTGATCTGTCTA
TCAATTCATTTTTTTAGTAATTGATTAACCAAGCCTTTATTAATTCACACTTCTTCTAAATGTTCTAGTCAATTTTTACTCTCCATTTATTATTCTATAT
AAATTTTCAAAAAAATTCTCCAGTTAGAAACATCCCAGTGAGATYTGACCTATTCATTAATATGGAAAAAAAAATCACAACTTCCCCAAATTCACTGTTT
CCATTGAAGAATGTAGTAGATCTCTTCATTTATTCACATTTTCTTTTATATTAAAAATAGTTCATATCTTTGTTCCTTTATGAACTTGCTTGGTGTTTTG
TGCTTTTCACGGTAAATGTGAATGGAATCCCATTGTATCCTCTAATTGGTTATTTGAGTGTGCCAGTTGTCCAGAACTTCCTGAGTGACCCCAATCAGAA
AGGGGCACAGCAGATGTTCTTGCTCTGCGTCAGCTTTCAGTGAAAGTACGTGGGCATAAGATTTCAAAACAGCAATCTTATCATTGCTAAATAATACTAT
TATGGTAAGATAAGTTAGTAGCATATAATAACATAATACATAAATATAATAACACATTATTTTTGTCATTTGATGAATTGTGTTTKCTACTCCCTTTTAT
ATACTTTTTCTTACACAGATTGGGTTTTCTTCTCACTTCTAATATTATTTTTAGCTCGTTCCTTTAATTGTTATTTGTATATACGTTGATATTTTTGTCT
CTGTTCCTATTATCACTGAGCAGTCAACATTGGGTTTTTCTCTTATGATGGAACAAATTCACTGTTATAGACATAAAACTAGGTAACTATAATGATTGTA
GTACAATAACAATGAGTTTGTGCTTAGTGTTTTGTTGAAATTATAGAAGGTTGACAGGAAAAAAATGTGGTACTTCATCCACAGATTTTATTTTATACCT
GAAGCTCAAGTAAAGCTAGTTTAATAGAAGCTATCCTCATGCATATYGTTTAAGCTCAAGAAATAAATCTTCTGACATTGTCAACTTTTAATTTTAGCAC
CCAAAAAGTAGAGAATGCTTTAAGTGAACTGTTATGATGCTGTAAAATAATATTTATTAAATTGAGAATATGTCAGTGATTCATTATCATGTAAAGAAAT
AGGTTACCAAACAGTGTCATTGAATTTAAGTAAAGTCCAAATTTATTATATATAAATATATAACATCTAGAGAAACATACATGCATGGGCAAAACTGTTA
ATAGCAGTTATTTGTAGGGCATAGGATTACAAGTGATTTTTAAAGTATTTTTGCCTACCTGTATTTTTTCTAATTTATTTGAAATAGGCATGCATTATTA
TGTCATAAAGATCAAAATTATTAATATGTTTTAACAAAAAATAACTCAACTTTAGAAAGATAGATAAATTACATTAGCTTAAATGCATCTAAGTATAGGA
AAATATACTAACTACTTATCAAGATTAGCCTGTGAATATTTTGAGCTTTCATTGAAAAGTTTGAATAGTAAACAAATTACCAACATAGAAATTCTCTCTC
TGAAAGCATGTCCAGTGTCTAAGAAACATAAAATCTAATTGCTCACCTTTGAGACTCTCCTTGGTCCTGTGAGACATATGCATTTAATTGGATGTCTCAC
TACCAAAATAAGCATATGTAAGAAATGACTCCCTTTGTTCTTTTCCATTATCCTTATGTTCAAACTTTCCATCTCCTTGAATGATTTTACCATTTTGATT
ATATAGTGCCTCAGGCATCTACTTTTTATCTCTTTAAACTTATTCTTAAATAAAGAGGTTACCTGGACTCTTATAACTCATATTTTTCCAGAATTACCTC
TTTTTAATGATATGAATTAAAATATCCTCTTATTTTGCATAAAGTTTCTATTTAAGTTTTGAGACATTCAAAAGTACTTTTATTTTGAAGCCTTTGAAGA
GAGGAGGAAACCAAAACTCTGCTTCCTAACACTGGAAGGTAGTTGAAATTGGAAAACAAATGGCTTGATATATATACTATAAAAAGTGGTATTTTTTAGG
TCTTTTGGTTACACCTGAAGTGGTTAACAGTAAGTGCAATGTTTGAGCTAGTATTATAGCCTAAACAAACCATACTATCTGAATTACCATAATTAGCTAA
ATTAGGTTTCATAAATGTCGTTGCATGTATACTGAATAAAAGTTTAAATTCCAGATGGGTAAAGATAGGCTGTATGATAATTTAACTTCACAGCAAGCCA
ATCCTTAACATTGAATGACAGGAAGATCCACAGAGAAAATTTGCCATGTATAATTTTGTAGACTCTGTACTCGTGGGCAAATTTAATTTTACTTGGAAAG
TTTGTCTTAGCAAATCAAGGTTTTGGGTTAGATCATTTGGRTCATAAACTCAGCTTTCTTATCAAATGGAGAAAGACAACAAAAATAGAACATCTGAAGA
TACAAAGTATTTAATAACCAGGTGATGTGTTCATAGGTGTTCTTTAATCAAAAGTTGATTCTGGCTGGGCACGGTGGCTCATGCCTGTAATCCCAACATT
TTGGGATGCCAAGGCGGGCAGATCACTTGAGGTCAGATATTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATAAAAAAATTAGC
TGGGCATGGTAGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGGATTGCTTGAACCCAGGGCGTAGGCGTGGGGTGAGGTGCAGAGGT
TGCAGTAAGCCAAGATCATGCCACTGCATTCCAGCCTGGGTGACAGAGCGGGACTCCGCCTCAAAAAAAAAAGTTGATTCTTTTCTTAAAGGAATTCCTA
TTTTTTATTTTATTCTCAGAGAAAAGACTTATTTTGTTTCCAGTGACAGATGATTGTGACTGCTGTCACTATCAACCGTTGTTTATCAATGCCACTTCAG
TCTTAAGCATGTCTTGCTTCAAATTCTTTGGTGGATGATAACCACTCTGATGACAGTATACTATCTCCAGAGGGTTCTAAGTCCTTCTTCAAGCCTTCAC
AAACTACCTATATTTCTTCACAAGCACACATCCAACCCTTTCATTTCAGTTAAAATATTTTTTGGATTATTTCATACTCTTCTTTGAAATTTTTCCTCAA
AATATATGCAACATATGAAATACATTCAATGCCATTCAGTCAACTCAGTAGACTACCTCCTCACTTTTAAAAGAAATCTAGGTAAGAAGAGAGAGTAGGA
TGAAAGTTAAAAGTGTGAAGATGGATAGTGATCTGTCACCAAAAATAAGTTCCTAGTSATCTATGAAGATCCTACATGAGCGCTCCCTGGACTGTCAAAT
CTTGAGTTCTGTGATTTCTCACCTCTTGATCCTCATGCCTTTTCTTCTACCTGGAACATTCAGTCCCTTTTCTCAGGTCTCTTCTTTGTCAGTCTTCTTC
AAGGTCTTTAATGGTTCATCTCTAATTCTATCATTTCTTTGCCACATTTCTAGACTTCTGCTATCAACTGATCTCCTTTTTATGTCCTCGGATATTCTTT
AGTAACTTCTTTAAAGGACGTGAAATATGCAAGAAGTATCATCTACCTTGAACAAATTCACTTTAAGAGATATGGAATCCTAGAATTCAAACTTAGATCT
GTGGTTATTTTCTATCTGAAAGTTATTTTTCTTAGGAGCACTGTATTTCTCCCTATTACAGTAATATTTTGGCCACTTATGGCAATAACGTGTGTATGTG
TTTGTGTGTGTATTTTGTCAGAGCACTGCTGCTAGAATTTTTAGTAGAATGCAGTTGATAAATTGTTAATCAATATGAAACAGAGACTTTCTTTAGGGTA
AGRCCACAATCAGAAGCATTTTTAGAATTCAAAATATTTATAATGATTTTTTTTAGTAGAAAATCAGCACCCTGATTTTAACTTGGTGGGGGGGTGGTAA
AAATTTTGAGAAAAATTGGTTTCCTTGATAGGGAGTTATCAAGGAAAACAAAACTTTGATTTCCTTTACATAAGTGTAAACAGAAATGAAGAAATATGTC
TTTATAATACATATACTAAATAAATATATGTATTTTTATATATGCTTGTATACATACCTGTTTGCATATTTGTAAGTGCTYGAGGTAAGTTCAAGGTGGA
ATGGGTTGAAAGGAGAATGTTTAGGTTATCTGAAATAATATAAACCAAATTCCTCTCAATTTAGTTAGGAGGTTAGAAAGCTACTTCATGAAGAATATTT
TTGGGACAAATTTTAAGGTAACCTTAAAAAAGATTTGCTAATATGTATTTTCTTGTATATCATGTGAACAATCACTTCCTGAAATTTCTTAGTTTTATCA
CTACAAAATAGTCACACCATAACCGCCTTGTCAAAGATTTTAAATGGAAAGAAACAAAATATAAAAACTACAAAGAAACTGAAATCCACAGAAACAGAAA
AAAAATTCTATATTTCATTATTTTAATGGATCCTAAAATGCGTAAGCACTTTGATAGATTCTTTTTTATATAGGATTTCCTGGTTTTCAAAGTATATAAT
GCAACAAAAAAGTGAACCCAGCTTCTTTTTTTCTTGTTCATTGGAGCTATCACATCTCATCTATCAGACCTCTAAGTAGAATTTTTAAAGTGGGGTACTC
TCTCACGCCCAAGCACTATGTAATTAGCATATGAATGTGTAACGGATTGTTTGAAGTAACAATTAAGGGAACAATACATAAAGGAACTGAAGAGAGCTAC
CAACACCTGGGAATCTTGTATTGAAAAAGCTTTCTTAATGTAAGTAATTAAAAACCAAGGATAAATGTTCATTGTGTAGGGATAAAACTCTACAAGGAAA
GCTAAAATTCTGCTGATGTTTTGCTGTTATCCTTTAGAAGGAATCATTAAAACAAGAGCTTACTTTTTTATTTATTTCAATAAAATGCTTGTTAAATACA
GGTTTTGCATGGTATCTGATCTCCTGAAGTCACCACAATGCATAACAAAAATGTCTTACATTTCTAAAATATTCATATTTAAAATGTATATAAAATGTCA
AGGAATCTTCTTCCTATGGCCAGTGCAGTTTCAGAGAAAATTTCAATTGATTGCCAGGTTAAATCACGTATATAGTCAATTCTTTATAATTTATTTGTCC
AAGTAATTCCTGCTAATGAATCTGTAGCSCGCTCTRTTGTTTTGCACTATTTTGTGTCTCTTGAAGGCAAGCATGCTATAGAGGCTCCTGCTGAGGCGGA
GCACCTTAGGAGAGTAACCAGTAGCTCAGGATTCTTAGGAATCGTTGATATTGAGGGAGGATAAATGAAGTGGAAGGCAGGGACCCCGCATTATGGTTTC
CATTTTTTATCACTTGCTGCCTGTACAAACCACTTATGTTTTTTGGCATAAATCTTCTTATCTCTAAAATAAGAATTACTTTTTTCTAGACTGTTAAGTC
TCAGTCAGTAACCTTTTATGGCCCTTTCTAATATCCAGTTGTATATATTCATTTGTAATAAAGAAACTCTTAACCCCGGAATTTAACTTAAATCAGTTTA
GTCTTAAATAACTAGCATTTTATGGAACAACCATATTTGAAAAATAAATTGTGAGCCTAAGATTTCATTTGTAAGTAGAAAGTGAAACAAAAATGTATGA
ATATTCATAACAGCATTGTTCATAATAGCCAAAAATTAGAAACAACACAAGTGTCTATTACTTGATGAATGGATGAATAAAATATGGTATATTCAATTGT
CAAAACAAAAATTGCACCAAAGTTAAACAGGAAGGAAATACTTTACTCAAGGCTGTTGCAGTAGGGGAGAGAAGCTGGATCCGAGTCTGAACTCAACACA
CATGAAGCAAACTGGGTCAGGTTTTTAAGTGCTGGAGTGAGCTTGTGGAAAAGAACTGCAGGACATTCAGGGCCATAAGCTATCTGTATTTGCTGATTGG
CTTTATCTAAACTACCTCTTGTCATAAAGATATGAGTTTATCTAAATAAATTTAAGTTTATCTAAATAAATCTAAATAAATTCATATCTTTATGACAAGA
AGTAGCTTTTACAACTTGGAGCAAGGTGCCCCACTGAAGTTAGGCTCCTACCCTCCCACCTAAACTGGAAGATAAAGGTGCTGTCTCTCTTGTTGATTAC
TTTTCAAAGAGGTAGTTCCCAGGTCCTTGAGAGGTACATTTCTGGATTATAAAGTTACCAAGTGGCTAYTAAAAAGATTTACGCCTCACAGGAGTAGAGA
AAGAATTACAAGCCGGGCACAGTGGCTCACGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTCTGGAGTTCGAGACCAGCCTG
ACCAACATAGTGAAACCCCGTCTCTACTAAAAATTCAAAAAAATTAGCCAGGCGTGGTGGCATGCKCCTGTAATCGCAGTTACTCAGGAGGCTGAGGCAG
AAGAATCGCTTGAACCGGAGAGGTGGAGGTTGCAGTGAGCTGAGATCATGCCATTGCACTCCAGCCTGGGCTACAGAGCAAGATTCTGTCAAAAAAAAAA
AAAAAAGGATTACAATTACAATATTCTTAAAGTAAATTCTATAATAAAGGGAAATCAAGGGCCTATGGTCAAGAACAACCCTTTCTAAAGTTTAGTCAAA
CCAAGGGGAACTTTCAGGCTGTCCTGGTCACCATATGATAGAATATTCTTGGACAGTGAAGGAGGATGATGTATTGATACATGCTATGCCATGTATAAAC
CTCAAAAGCATTATGTGACGTGAAAGAAGGTGGTCGCAAAAGGCCATGTATTGTATCATTCTGTTTATATGGAAATGTCTAGAATAGTCAAATCTATATA
GTCAAAAATATTAGTGTTTTCCTAGGGCTGGGGGATGGGCGTGGGTGTGGGGTGGCAGCTAAGGGTATGGAATTTCTTTTTAGAGTGATGAAAATGTTCT
AAAATTGTTTGCAGGAATGATTACAAAACTTCGTAAATATTCTAAAAGCCATTGACTTGTACACTTTAATGGATGAATTGTGTGATACGTAGATTATATT
TTAATAAAACTATTGTAAAATATAGATTTATGTTGAAATGTCTTATATAGCCAATAGAATATTTACTTAATATATAGATTTTTACAAATTTAAACACAAC
CAAAACCTTTATTTTTCCAAAGTACGTTTTGGCTTTGGATAACCTGTGAATTTTAAGTGTGCATTTCTGATAGCTGGCCTGCCTTTTAGTTTTTATAAAA
TAGTAACTTATTACCATGTTGTAATAATCAGATAGTATATAACATGAAAGAAAGAAAAATAAATTCTGAAATGTCCTTGAGATATTTGCATCCAATAGAG
AAAACAAATGTATAAAGAGAATAAGAAGTAATTTCATACTATATAAACAGAGTGCCAATGTATGAATGAATAATGTTCTACAAGTACATTTGTAAACTAG
CTATTTGTAGCTTTCTCTRCAGAAACAGTTCTGCCATCCGCAATCAGGTTCCAAACCTATCCTGCAAAGATTTATTTTACCCACARTGTAGCTGAAATGA
AGTATTAATGTTAGTACAGTCAGGGATTAAGGGACAATCATACAGGAAGGAGGAGAATGAATCTGAACACTCCCATTTATTGGAAGCAGGCATGGCTCCT
GGCAAAATTTTGAATTATGCAGAGTGAGACTGGTTTTCACCCATCTTCTTTTGTCTATCCCTTGCCCCATGTTCTAGATCTAGAGACTCTCTCTGGGTCA
TGGGGCATTGACTATTTTTATGGCCCTAAGTTTCCCATTGCATTACCTAACTCAAGCATCTCTGTTCCTCCAAGTGACAAATTCACTCACGCTATCTGAC
GTAACATTTCTCCGAAACAACATATGAACATTTAAATTCTACTTTCTGACCGCAGCTAATTTTGTTTTGCATTAGGAAGGAAGCAAATTTTGAAAGCGTG
ATAAACTCTGGGTACACTAGAAGCATTTTCAGATAAAACTTGGATTGTAAACATAAAGGTATCTTTAATTAATAAGATTTCAGGCATTAGACTTAGGGAA
TGGTAACAAAAATTTGGAGGCATGACAAGCTGTCCTTTCTGACTCCAGTCCCTCTTTGGGGCTGAACCCCTCTAAGCTGCTCTTTCATTACCTAAATATG
TACTTTGTTTCTGCCTGAATGTCAGCATCCTTTAAACACACCCTCTAAAATTTGCACTAGCTACCAGAACTAGGGCATTGGAGTGTATAATATAATGGTG
GTGGTTGAGGTTGAGAGAACACATTGAGAAGATGACATGGAAAGGAGTAATCAAGAACTATTTATGGTATGAATAATTTGGGCATCTTTTATTTTTGGAC
ATATATTTTTCTACATACTGATTACTTGGTTTTTCTTTTTTATAGATTGGGCTAATGGATACTACAGACAACAGAGAAAACTTGTTGAAGAGATTGGCTG
GTCCTATACAGGTAAACATATTACTTATATAATGAGATTTAGCAGAAACTTTTATTGTTTTGTATCTATTTTTATATATAAAAGGAAGCTTTGTAGCACA
ACACATCATGTCAACTTAGCTAAATGGATAGTTAGATTAATTAATAGATATATAAAATATAAAACGATATCTTATGGGCTTTCCATAAACAAATTTGGTA
ATGTAGGGCTTATTGACATCCACCCAAACTGTATTTGAAGCTCAGGCCCAAGCTGTCTATATACCTTCAAGAAATAACATAACCTGGGGCTCTGTTTTTT
TCAACGGTGAAATRGGGGGCTGTTCTGAGCATTAAATGAGATAAATAAAGTGTGAAGCACTTGTCACAGAGCCTGCTTCTAAACAGAAAGCTCTCAACAA
ATGTTAGCTGCTGGAGTTGTTATGATCATGCTAATGATTATTTTTGTTCATTTAACAAATATTGATGGGATTCTTGCTCTCAGAAGGGGCATTCTTCTGA
ATTACTGTTGTTAATTTATTGGTGTTAGAGTAAAAAATGATTTTGTCACATTACTAGACTTTGCCTAGAACATTATGAACATCTGAAGTTGGCTTGAAAT
AGTTACAACCAAAAATCATCAGCAGAAACTCTGGGAGAGAAAGTTCTAGCCCTGAGTGGAAGAATATGAGTGGAATTTGGGTGAACCATGACATGCCTAG
TAACCATGTGGGATGGAGTTGAGCATTAGAGTTGGGTACTCATTAGCAGTAAACTTGGGTTGATAAGATAAAGTCAGATTACAAGGGCTTTACCATGAGC
CTGGCCAATTTTACTTAATAGATGAAGTGCAGAAGCATGCTGAATTTTGTAGATAAGGATGTATTTTCTTTCTTCTTTTTAATTGCTATTTTAAAAGTAG
TAAATATTCATTGTAGAAAATTTAGAAATAGGTTCAAGTACAAAGAAAAACATAAAATCATTATTTTATTTCCCTCAGGAATAGCCACTTAAAAAACTGC
TATAGTCCTTTTAGACAGTTTTTATTATCCAAAATTTATATATTTTATTTATAGAGTTATGCATGCAGTTTACTCTTAAAATTATATTTATTTCCTCATT
TTAATATTCCTGCTGATCATGATAGTTAATCTGCTTACTAATCCATTGAATAATTTTTTTATTATGTAACCACTTCCTTATTTTTGTATATTTAAGCTTC
TATAAGCAATGACAGATGAATTGACAGATAGATGTGTTTTTATTTTTATTACTTCTGTGCTATAGAATTATTGATATGCAATTACCGAGTAGGAAAAAAA
AAAAAAAACTTTCAAGCCAGGTGTGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTAGATCACAAGGTCAGGAGTTCGAGATCAG
CCTGGCCAACATGGTGAAAACCCATCTCTACTAAAAATACAAAAAAATTAGCCAGGCATGTTGGCGCATGCTTCTAATCCCAGCTACTTAGGAGGCTGAG
GCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAA
AAAAAATAAAAATAAAAAATAAATAAATAAATAAATAAATAAATAGATTTGTGATGCACACTGCCTAAATGCTTCCTAGATGGGTTACACTCATCTGTCA
TATAAATGRCTACCCCACTGTATACTACCCAAGATTGATGATTGTCATATTGAAAATCTTTATGAATTCAACAGATTTTTAAAAATCATGTTTTGTTACT
TTAATTTGCTTTTTTTTTATTACCACTGAAGTCATGATTTTAATTTTTTATTAGCCATTTGCACTATACCTCTTCAGTGCAATAAGTTAAATTAGAACCT
GGAAAACAATCAAGATGTTTATCAGAGCAGGAAGAGTGAACAAATTAAGGCACATCTCGACTGTGGAGTACTCTGCAGATGGGTATGAGGTAGACCTCTG
TAATATTGTACAGAAAGACCTACTATTAATTTACTCATTTATAATAAGGACCCATACATCTATAAAATACTACTTTTGATATTTTAAATCCTAAAAAATA
CATAAAAGCAAAAATTATTCATAATTTGACTCCATTTTGAATTAAATGGAATTTTCTTTTTTATTTTTCTATGTAAACAAATTATACCCAATTTAATAAA
CATCAGCAAACTCTATTTACTTGAGGAATTTCTTTTTTCAGAAAACATGAAGTTTAATCAAAAAGGTTGTTGGACCAAAGGGCCTACCTATTTATAATAT
TAACAGATATGTTCAAATTAATTTCAGAAAATTGTGTTAAAATTATCTATTTCCCCACATTTTCACTAACACTGACTCTAAAAATCTAGTCAATTTGATT
AGTCAAAAATGGAGTCTAAATTTTAATTTGTATTTCCCTGATTACCTACAAATTTTTCTATTATGTTTTTGTATGTACTACCAATTGGGTATATGTTTAT
TAAATAATGTAGTATTGTCTTTTAAAAAACTTTATAATTTTATATACTTTATAACTTTACATCTGACAATTGTAACTCATTTTGTCTTCTTTTCCTACGA
AAGAGAAATCCTAGTATTTTATAAAAATCATGACTGTTTTTTAATGCCCCTAATAATTATGAGAAACATGTCAGGAGGGACTAAGAATGCTTAGAGTGCA
TCCCTAACCATGGAAGATGACATTACAAGGTGAAATCCTTAGTTTTCCTGGAAAATATCTGCCAGTGTCACCATCTGGGCAATATTTAATGCAGGACATC
TTTTTAAATGATTCATTTAAATATTGCTAGTTGTGGTTTCGGAATGCTACTTCCAGGATAAGCTTTTCCCCAAGAGGTTCTTTATGAGTATTAAAGTTCT
ACATGTTTGGGCCTTTTATGTTTATATTTTTATTTTTAATTCCTAAGAATATCACAAGCCATCTTTTAAAAATTCACTATTGTGTTGTTTTTAAGATAAT
GTTTGCTCCATTAAGAGTAATATATAACTGCTTTAAAAACGTGATACATAGAGATGTTATCACAGAATAAAAGTCAGCCTGGTTTAGTTTTGTYAACAGC
TAACTTTCTAGTTTCAGAAGTGAAACTAGAAGGAGGTWATTTTCCTCTAACCAATCAATTTTCAAACAGAGAACTCAGATATTTACCAAGTATGTATGAG
TAAAATGAAAAACAAACTTTAATGCACCCTCCACTCTCCCTAAACCCAGAGTTAGAAAACAGAGGACCTACTGCCTAGGGAATAAGAAAATTATAGTTCT
CAGCTCCAAGCAAGGGTGGATGTATGTTGACTAATGGAGTGATGGTGGTGTGTGTTTCCCAGCAGCCCAGGGACCCTATGCATCTTSGGTGTGCCTCMTA
AGGTCAGGAGAAGACAACAGTTTTACCAGGGTTTCAGCAGATATGATAGCAACAGCACATACCATTGTGCAATATCTTATTATCTTAGGAGGCAACCACA
GAGCTGCTCCTTTTAATGGGCTGAGTATAGACACAGCACCTATAGAGTGGCTAGGCTTTGACAGATGGGTCTTTGAAGAAACAATGTGTAGTTCTTTGCT
TTAAAATCAAGTTGAATCATCTTGCTCATAACCTAAGGCCTATTGGCTTTAGCTTCTTTCAGGAAAGTCTAGTGATCAAAGGGATAGACTCATTAAAGCG
TGGTATTTGTTGTAGGGGGGTGGGGTGGCAGATCTCAAAAAGGGATGTTCCAGAGTCAGGGTGAGGATGGAAGCTTACCAAAGTTTTTTAAAGAGTGAAT
TGCTTTATTTATATTAGTGCTTCCCATTGGTTTGGAAAATTATTCCTAGAATATTTGAGGATCCTAGGAAGAAACTAAAGATGAGTACATTTTACAACCC
TTCGTTTAGCTCAAAACTGAGATGACATAATTATTTTGTCTGAATTACTAGACTATCAAAGAGAAAACAAATAAATGAAATTCTTTATCCAAATAAATGT
ATTTCACCCAAGCAAATTACATTAAAACCAAACCTTTAACGTGGATTATTCACTATAAAGTGAATTATCACTTTTTATTTTTAATACAAATATTTAAAGT
TTGGTAGTATTTTTTAATTTCTATGCTATTTTTCCATTTAGAAAATGAACGACTATGCTAACTGCTTGAAATAACTGTATGAAAATAATGAAATGTTAGT
CTTATCATTCTTAAATGTAACTAATTTTGTGAATGGCTTGAGGAAATTGGACTTGACCACATTCAGTTCTAGTTTCACCTTAACAGTTTATCTTGTTGAG
CTGTATGTTTGTATTCCTTCCCATATTGTCTCATCATTTAAATTTATCAAATTAGTGGCAATCACGGAAGAAATGGCTTGCCCTTGAGTGTCTGAACATA
TAGGATTCTATTAATAAAAATTACTAAGTACATTATAAGGCTTGTCTGYAAAAGAACTAATAAGCCATTTAGAAATATTACATTACACATCAAACATTAT
TTAAATGCAATCACTTGAGCTAAAGTAATTATGAAAAAAATTACACAATTATGATATATGAAGTAACAATGTAAATCCCCGCTGGCTACCAGATGGGTGG
AGAAAGGGAGGAGAGGTAATACTCTTTTAGTTGTGTTTTATGCATAGGTTAAGAAAAACTTTCTATTCAGGATGTATGCTACAATTATGCTAAGAAATGA
CAGGGTTGGTAAATACAGTTGACAGTCCCATTTTTAAAAGTTAATATAGGAGGTTGAGCAAGGCTTGCTTGTCACTTTGTGATGAAAGAGTGAATTGTAA
ATCTGGGAATGTCAGCACTAAGAATCTGACTCTTTCTGTAACAACTTCATTTCATTTAAGGGTTTCAGAAAATAAATGTCACTCTTCCTAGTAACCTTAA
GTTTTCTATGACAATTCCTAAACAAAGACAGTTCAGTGAAAAAAAAAAAAAAAGATAAAGTGAAGTCATTTTATTTTTTTTAATCTCATGAACACATAGC
CCAAGATTATCCTAGGAGATGTTAAAAATCTTCTTTTCGAGTTGTTAGATCTTTGATTGCAACCTCAAGCAATGATAAGATCATCAGAAATGGGAGTACT
TTAACTGCTTTATTCTTAGAAGTAGTACGACAGAAATATAATCTTTATTTTCTGGACTTTAAAAATATTATATTATTTCTTTTTCACCAATCTTTAAAGC
AGCTTGAAATTGAAAATTTTATATTGATATGTTCTCAGGTATTCTTAAAACCTTAACACCTTTAAAATTTTAGTTAAAGAATGCATTCGATTCAAATAAG
AAAGTATGGCTGTTCTGGTCACACACAAGTCTGTTATACCTCGCTGGATATGCTAGAATGAGAGAGTCTTTAAATAYCGAATTGATTCTATTTCTGTAAA
TAGAATATCCTGTCTAAATAGTCTTTCCATTTTGATAACTGTATGTAGAAAATGCTACTTATAGAAAACAAAAAGGCCATAATTTAAGGTTGTGTATAGT
ATAGTTTGGTGTTTGGCTTTTATTTTTGGTTTAGTGTTTTATTTCTTTTGGCCCAGGAGAAAGTAAGCCAAATTTTACTCAGAAAGAAAATTTGAATCCA
TGTAGAATAATGACGGATTTTTGGCCTTTCTTTAACTTCTATAATCTAGAATATCCTTTTAACATATTATATTTTCCTCTTTGATTCACCACTTCTTATA
TAAACAGACTGTTCCTTTCTAATTTCCAATTGAGCAGTAGAAAAGAGAGTTCCAGAACTCTAACTATAGAATTATCTCATTTCTGTTAAAAAATATGTAT
TTATATGGACATAGATGAAAGGCTGGAATGATATATACTCTACCCTGTTGACCATGGTTACCCCTGGAGAGTGAGTCTCTAGATGTGGATGAAACCATAG
GAGGCAGGAGCTTCACTTCTCACTGTATACTATTCATACTGGAGGAAAAAATAATTTTTGACAAATATGTTGACACAAAATATTTTCAACTTAACGTGAA
YTAATTTTAGCAAGAAGGGCAAAGGTAGTTGGACAAGAACCGTAGCTTCGTGTAGTCACCTGTCAAAATGTAGGGCCTCTGCTTGGCTGAATCTCAGTGA
GAGGATATCACAGACCCTAACAAGAGCATGGACAGTGCTCAGTGCAGGTTTTCTGATCATCATTAACCTACAGACTGACTAGGCTGCTTAAGAGCTCTGC
ATTTCGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCTAGCCTGGGCAACAAAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGCT
CTGCATTTCGATTTTCCCGTTTGTAAAATACTTCTTAATAATGCCCAACTTAATTGTGTGCAGATCAAATAGATGCTTCACATTGTTGCAGAAAAGCTCT
TTGAGCAAGTACATTATGAATCCAAGTAATTATTATTGAACAGTGTCTTAACTTGATSCCAAACAGATTGAACAAGCCTGGGCCCATCCRATAATCTCAC
AAGAGGATTTAGAAGTGGTTGATTTGCTTGAATGGATATTATAGACAGATATTTCCTATCATCTGTAGATTTTTTTTAAAGYTTAGCTAAGATTTATATT
CTGGTCAAACTTTTTCTATGCTAGATAATGGTGACTAAAGCAAGCCTCGTTGTGGAGGCTGAACAGGGTTCAGTTAAGTGATCTGAAACTCAGAACCTAT
GTGTATTGACTCTATTCATGAAAATTGCTAAGAGTAGATTTTAGGTGTTCTCACCACACACACACAAAACAGATAAGGATGTGAGGTAACGTATATTTGA
ATTAGCTCAATTTAGTCATTCCACCGTGTATCCATATTTCACAACCACATGTGTATACAATAAATATATACAATGTGTGTTTGTTGATCAAAAGATAAAT
AAATATGCTTAACAATTTTATTTGGTCGCAACTCTTATGTAGTATGGACTTAAAAAAATTAAGATGTGGCTACAGAATAGCATCGCAATTAGATAATCAT
TGTTTATTTTCTCTGCTAGTAAAACTAAATGCTAATGTGTCTCCCCTATTAAAAAAAAAGTTAAAATTGCATAGATTCTTTMCTGAGTCCAGCTTCACAA
GTATCATTGCTGGTAGCATCTAGTAGAAGCTTCAATGGGATGGGCAAGTCCTAGCAGCTCAGAATGAGGAAACTTGGCCCCTTCTTCTTCTGTCTGAGCT
GGAACTGTCTGGGCTTTGTGTRGGACGCATTGTGCTTCTTCCCCTTGCTGGGCCTCCTTTACTTCAATCTCTGTGGTTTTTGTTTGTTYGTTTGTTCGTT
TGTTTTTGTTTTTGYTTTTTGGGGTTTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGAGAAGGAGTGTCTCACTCAGTCGCCCAGGCTGGA
GTGCAGTGGYGCAATCTCGGCTTGCTGCTGCAATCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCC
CGCCACCACATCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCTGCCCA
CCTCAGCCTCCCCAAGTGCTGGGATTACAGGTATGAGCCACCTCGCAGAGCCTACTCTCTGTGTTCTTTACTCAGTAGGGCTCTAGTTCGTGAAATAGAC
ACATTTCATAAAAGAAAAAGGGAAGAGAAAATTACATGGCTAATTAAAAGAAATCTAAGTCTAGGCTGCAGTTTGYATTGTCACACAAAATTCACTTAAA
TGTGTTACACTTTTAGGCAAAATGCCATTATAATAATTTTATGTTGACCTGTGTTGCCCTCCAATTTCATGYATCAGTAAGGGCCTAGTGGAAGGCTTAT
TTAGTTTCAATTTCCTTTGTTTTCTGTATGGTAATTCTGACTCTTTAAACCAAGAATTTTCAAGGAGCAAAAAGATAAAAAATCATTATCAAGGAGCAAA
AAGATAGAAAAATCATTTCTATTATTCAGACAAATTTTTATTAAGTGAAGCATATTTTAATGACTGAGGCACAGAMTCACAAAAATTATTTTGAAATATA
GTGAGACACATTTTGACTTAGGGATTTTATTTCCTTTATCCCTTAGGAGGAATGTRTATATGGCTGTTTATCCTGTTATCTGTGAATACCATGTGACAAC
TAAAGAATAAAAATATCAAACTWTTAAAGAATTAAAGTTAGTTTTATTCCRAAGCCTGACTGAGGACTATAGACTGAGGCCTATAGCCGGGAGCRCTGCT
GCTGCACACTGTTGCAGCCACGGCTTTTACACAGGTTGTGGAGGTTCAGTATGTGCAAAATCACATCAGATTCACTYAAAAGTTACGTTAAAGTAGAAAC
ACATCGAGGTTTGGGTGTGAGAGTCTATCTAACTACAGATGACTAAAGTACATTGGTTATAGATTACAGAAGCATAAACACTAACCCCATCAGATGTTAT
CTTATCTGTAAGAAAAGGCAAAGATTGGGGTCATTTGTCTTCTAGGGAATACAGTGACTTAGGCAAGAGACGTGGGGGCTTTGTGCTGTATCCTCTTTTG
TCTTCAAAGCCTCCCTCCAGAGAGTTGCACATTGTCGCAGAGTCAGGAGCTTGTGAAATTACAGTGGCAAACAGAAACGAGCAAACATGCCTTCCTACAT
TTACCACTTTGTCTCATACCTTTTTCTGCTTAAGCCACATAGTGTTTTGTTCAGATGAGATAACCGCTTGACTGAACCAGAGCTGGGCCTTCTCTTGGCT
GGATGCAGAGGATCTTGGAGATCGTCTGTGGCCCTTACTACACCAGCATCCAAACTGTTATAGACTGTTATAGAGCTTCTAACTACCACAGAATATTCTG
GTATGCTTACAACAGCTGCACGTATTCATTCTTCAATTGCATAATTGTGCAATTGCACAATTGCACAAGTTTCTTTGGAAGAGAGGGAAACTTGAACCCT
ATTGAGAGGTAGGGTCCAGACCAGAAGAGCCGTGTTTGATAACCTCAGGACAGTGGGCCTGTTGGAAGCCAGAATCAAGGGAGAGGCAAGGAGGAGCCCC
TGAGAGACAGGAGACAGTTGGGGGACTGAGGAAGAAATATGGCAGCAGAGACTGAGGGCAGAGTGGAGCCTGGCACCAGGAGGAGCAGGTTCCCAGTTCA
TTGTGATGCACCTGGYGGCTCCCCTGGGGCCTTCCCCACCCAGAGTGTTCCTCTTTCTCAAATGCCTACATGCTTTGTCCTGGAAACAACAGAGCCCCAG
CAACTCCATAGTGGGGCTCCYTCTGAAAGAGGCAGAAATGAGAAGAGGAAGATGCTGGGGGTTCAGCAGCCGAGGTGCATGTGGTGCAGGCATTCAGTCC
AATTAAACAGGCACCCAGAGTCAGGGTGGAGACTGATGGTCTGGAGGAAGAAGCAGCAACCTTCAACAAAATCAGATTCTGGTCCATGCAAGCTAAACTT
CATTCCCTTAGGGGATGCTATTCAGCTCCCTAATTTAGTAGAATAACTTCTGATGACCAATAAAAAGGAGCCTATATACACACAGGCTGAGGAGACTTAG
TGTGATAAGATGGTAGATGCCTTCTGATCGGATTCCATTAATGCCGAGATCCTTAAAGTGTAGAGATCTGAGCCATTATCTTCACAAGTATTGTAAGTGC
CAATCTGATATTTTTTTCCCACAAGGAAAACACTTTTTTATTTATCATTATAAAAGTGTGTTCATCTAAGAAAATCATGTATGTATCATATATTTCATAT
TACATATGTTTATATATATTTATCTACCTATCTATTAATATCTATCTATTTATCTATATAATTTCACCTTCCAGAGATAACTACTCTTAATGTCTTCTGT
TGGGGAAATATAATTAAAAACAAAATCTCCCACCTCAGAAATCCTCTCCATAAATGTAATAACAACAACAACAAAAAGCAGTTTTATTATCAAACAAGCA
TTAAACCAGAATGTAATACACATCATAGGCAATCACTGAAAGATTGCGAAGATAGGAAGAAATCTCACCCCCCCATATAGCCAAATAGGTACAACCCATT
GCATGTTTTCAAGATAAACAATAACTTGTCTTTAAGTAGAAGGACTTGGCAGCAACTTTGTCACACATGGTTCAGCTAAACTTTAACTGGTAATTGGAGT
GACTATTTGTGTTACCCTATTGGCTTCATCCAGAGGGAAAATAAACTTCATATTTTTGAGACAAGAGGTAGCTTTACAAGTTGGAGCCAGAGGCTCATGG
AAGTTAAGCTCCTGCCTTCCCATAGAAATTGGGAGAGTGGAGCACCATCTTCCTCGATGTTTGCATTTCATAAGGATGGCCCCCGGGTCCTTGAGAAAAA
CATCCTGGATCATAAAGCTGACAAAGGGCCTATCTAGCTTTCAAAAGGATTGATATACATTGCAAAACAAGGAGAAAGTATTTACAACGATCTCTTTTCT
AAAGCAAATGCTCTTTAAAAAAGGACGGGGTGGGGGTGGAGAGAAAAGTGTCTTCCTGGTTTTCAATGGGGAGAATTAAGCCTCTTACTTTTACTTTTTA
TTTGTCCTTACACTTCCTAATTATGCATCCTGAATTCTGATGGCCTCTTACTAGATGTACTGCTTTTATCTCAATAGTAGTACCTGCTTTTATCTCAATA
GTAGTTTGTGAATATCTTTCTAAGTAAATGTAACTAAATCAGTGTGAGGGCAACAGAAAAAATAAGCTTCTACCAGGGCAAAACTTTGACTATCCATGTG
TCTGAGGCAGAGACTCACACATAGTAGGAGCCCAATATATATTTGATAGTTGTTACTTTATTTCCAGTCTCATGGGGAACAGAAATAATTTTGCCTGAGA
GGAATTGTGACTAGTAATAACATAATTTCAGGGGATCATCCCAAATCCTTCTTGCAACAAATAGATTATACAAAAGATAAACACTGTGGAGTGAGTTCAG
AGCAAGGCTTAGCATATAAGAAGTAGCTAAAAATCGTAATGAATTGGAAAACAGGGAAGGCTGCATTTTATAGTGCTTTGCCACCTGGAAATTGAAACAA
AGGCAGAGCCACCTAGAACCAGTGCCAAAGCAAATCCAAAACTTGGCATATGCCAAAATATATTACCTCTAAACTCTGTAGTTTCCATTCTTTCATACTT
CATTAGCATATCTAGGAAGTAAGATCTAYTTGCAGCACTTTGAAAAAAATAAATAAATGACATGTAGTTTTTCTTTTCCAAGACCCTAAAAGTTTGTTCT
TGAAGATCAGTTGTATTTATGCATATAACATACTCATATATCATTCAGATTTTTATGTTCAGTCAACTTGTGTTAGAATATGAAGGAGTAAACTTCTCAT
CAACTCCCTRGCTTGCCTTCTACCTTAATGATATTTTAAACTTACTGACAAAGGAAAATTTAAAGTGTGGATATTATTAGTTTAATCAATACTCATTGGA
TTGTACARCGTAAGCCAGACACTGTACTAGGCATCAGAGATGCAGTGATGAGTGTAAGTAATCACAAGTATGCAAACAATAGTGATTAAGCGTGATTTTT
TTTTTAAAGCATGGTAAATACCTCATGGAGATGGTGTTAATGTAAGGTACRGAACCCTAATTGGCCTAAGAGTTTCAGGGAAGGCTTACCAGAGAAAGCG
ACTTTAGATTCAGATAAAGCATAAATAGGAGTTAAATCAACATGGGTGAAAAATTGTGCCAGGCAAAGGGAGCAGCTATCCTAAGATCTGTAGGTGAAGG
AGAAATCACTGTGCTCCAGCCTCTACCGCATTCTTCCTGCTTTTGGACAGAAAATTAGGAATGTGATGAGACAAGCTTCTTGGGGCCCACTGAATTAATT
CCCATACACTTACCCTATTGAAAATTCTGGATAACAAGATTTATGCCATAGTTTGATTGGCAATGGCTTACATTTTAACTGTTGACTTCTTTGCATTTAA
GAGATGTTAGGCATGATTTTACATCAGCACACTAGTTAGGAAACGAAAGGAAAAGGGACTAGTAAAAGAGTCCAAAAGAGAGGGGTATGAGAAAAGGAGC
TTTACCTACTCCAAGAGGGGTACAGCTTCAAGTTGATAGGATTAATCAACATTGTCACACATAGTTCTGGGGAGTTCATAGTGAGATAAAGACTATGGAC
TTGGATGTATTTTAATGAAGCAGGTTGTAGTGGGGATTCTTTTGTTAGTTTGTCTGATGGGAATACAAGCTCCAGAGACAGTCCTACTCTTTCCTTCTAA
TCTGGGCTCCATCTTACATGTCATCTTTTTTGTCCCAAAGTTTTTCACCTGTAAAAAGAACTAATGTTAGTACCAAGCTCAGCAGGTGCTGCAATGATTA
CATGTGTAAGTATATACAAAGCAGTTAGAATAGTGTCTGGTGCATATAAAGTGCTCAATAAAATTATTATTTAAAGTCAGATAAATCTTCTGTCATATTC
AGGACTTCTGACAGGTTTATGTCCATCACGCAATTATCTTTCAATAGTACAGATATAATTATATGATTCTCCCCATCACCTGCCAAATGAAAAAAAAAAA
AGGGCTCTTTAGCTTGGCATATAATGGCTTTAATGAGCTGGCCCACCTATCCTGTTTCATTCCTCATSATTACCTTCCCCCTGCCTGCTGCTATACCAGC
CTTTTCAAAAGCAGGTCTCTCYGATTCTGTTTATAATCCTGCCTGAATAGCAGACTATGCACCTTCTTCAAGTGAAGCCTTCTTTCCTGACTCTTCTTTT
CTGCAGGCCAGAGCACATCCCTTGCTTTCATACACTGTCCCTGTCCCTCTCTCTTTGTTGCAGTGCAGCAGCATAACAGGTTGCATGTCTCACTCATCTT
CCCTTGTTCAGAATGTAGTACCTCATGTGTGCTCAGGAAGTGTGTATGGCATGAATGGACAAAGCTACGTGGATTGAGCTTTTGTTTTACAAATGGAGAA
ATAAAGAGACGTAGTCATTTGCCTAGAGTCACAAAGTAAGCAGAAGACTGGAAACTTGGACCTGGGTTTTGACTCCTAGGGCCCTGGCCAGAGAATTTCT
GTGGCCACATCTGATTTTTTGTTTGTTTGTTTTTGTGTTGTTTAAGTGATGTGGGAAATAATATAAGATATAAAGCTGTTAGGCTTTGAGTTCTTGTGTA
AATATAAAAACTTCTGGTTCCAAAGCCTTGTGTATGGTCTTCTTAGCCTTTATGCATGTCTTCTTAGGAAATTTGTAAGAGCAGTCATTTCTGGAAAGTG
GAATTGCAAGTGCCCTTTATTTTCATCTGTTTGCTTGTCCAGCATCTTCTAGTTTTTCTAGACTAAACATATATTTGTTTTATAATCAGGTGTGGGAAAA
GGGAGCTTAAATGTCTAAATTAATTTTTATTCCAGGATTATTAAGAGATTGTTTTTGCATCATGGAATGTCTTCTGCCTTTTGATATTTCCTCATTTTAT
AATGGTCCTTTTATGTATCTGAGGGGCCTGTGTCTGGGCCTATTTCTACTTCACTGTACCAGGTGAACTTCTTTACCAAGCAATAAAGTCAGAAATGGTA
TATTAATCACCTATGTCCTTAAGGAGTGATAATAAATAGTAATTAGTGTGAAAATATATTCTCTTAGGAAAACGGTCATATTATACATTTGCATTTTATC
TGGACTTCATCTAGCCAGGATTCCACTGAGGGCACTTAAAGGATCACACAACTTGATTTTCTTCTCTGCTGTGACACAATAGCCTCACTTTGCATTCGTT
TCACAATCTGGGATCATTATCCAAGCTCAGTRAGAATCAATTTCTCATAGATGATTGCCTGAATCACTGCCAGCTCAGCCACATTTTTTACATCATTTAC
CAGGAAGTATAGTTTTTAAAAAGTCAGAACAATTGTGCAGGTAACCCAGAACCTGAATATGCCCTCAAAATATTCTTCAGAGGGGTCACCCACCCCTGAA
ACTCAAAGTCTTCTGCAAATTGATTGACAATGTTACTGACCTGTAAATCAAAGGATTCCCCATTTCAATTCACCATTTTCTAAGTGAGTCTCTATTGACA
TGAAAGAGTTCATTCTCTTTTGAAAGAAAAGTTCATCTTTAGAGAGCAGCCTCAATTGTTTGCTTTTTAGCAGAATAATTACATCTTTAATTTCTGTGGA
GATAATGAAGAAAGCCAGTTTAGGATATATTTATGAGGTTTCAGAGTATATTTGGGGAGAAAATTCTATAACTTTTAAATATGATTCTTTAGCTTCAAAA
CGTACATGTTTAGGTAAATTGCAATAACTGTTTTACTTTCATTTATGGTGATTGCTTGTTCATGCTTGAGCACAAGAGAGAAAGCTTGATTTAAAACGTA
AGTCTCATTGATGAGTTTTTATGCCACCATCATTTTAAAAAGTAAATTTAGTAGAAAGCTAATTTTGGCATATAATGCAAATTCCTCTACTTTATCTGGC
CTTCATTTAATGATTTTGGAGTTATCACTGCAAGGTGTTTATATAGATTAGATACCACAGAGATCTAAGGAACTATATTTATTTGATCCTAATTAATATT
TGGCCTTAAATAGATAGTCACACCACTTTCCAATTTCCTAATTTTAAGCAATTAAACAGCTAGCAGCTGTTGGCCAGATAAATATTAAACTTTGCCAAGT
AGATATATGCAAGTTTTTTAACCATATTTGGACTATATTAGAATAGATTACAAAATGTGTTGACATCATATACTTTAGAAGATTGTATGTTACAGGTTCA
TACTGAACAATTATTTATTATCTGTTTGGTATTGTTAAAACTCATGCTAAAATATCATGGATAGTTGTATACTATCTATGCATGCCGGCTCATAGTATGT
GAAGACACATCAAATAAAAACTCCTATGASTATCTTTACAAGCGTGCTTTGTATTTAAATAACATTAAAGATAATTAAATATTGTGTTAGTGAGGAACTT
TATTTCCTTATTTGGAATATTCTTAAACTTTTACAGTATGTTCTTTTTTTGACAGTGAAATTGTCAAATGAGCAATCACAATGATAAAGAATGAAACCAT
AAGTAGTGTAGAATGTATTTATGTATTTATTTATTTTTTTGAGATGGAGTCTCTATCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTRCAAG
CTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCCGCCACCATGCCCGGCTAATTTTTTTTTGTATTT
TTAGTAGAGATGGGGCTTTACCGTGTTAGCCAGGATGGTCTCGATYTCCTGACCTCGTGATCCTCCCGCCTCGGCCTCCCAACGTGCTGGGATTACAGGC
GTGAGCCACTGCGCCCGGCCAATAATGGAGAATTTAAAGCAGTGGTTCCTAAATTTTAGAGACCATCAGAATTACCTGGAGGGCTTACTGAAAAAAGATT
ACTGGTCCTGATTTTCAGAGTTTCTGATTCAGTAAATCTGAGATAGAAGCCACAAATTTAATGTCTAACAAATTCTCAGGTGTTCCTGATACTGCAGATC
TGAGGAGCCAAACGTTGCAGTGTCTAGACTCTAGGTCAATCTCAGCTTATGTTATCTTAATTTGGGGAATGAATGAATGATGGAGTGAAGAAGAGAAAGC
ACATGCATGAATATATTTATTTGTGTAAAAGTGCTTCAGCTCTCTGGATGAGGTATATTGACATTTAAAAAGTAGCAGTATTGCCTCAGTGTAACATGTA
ACAACATTGAAAATGCTATTTTCAAAAGCTGCTATCTGCATCAATAGAGATGAGTTAAGTTTTTGGACAATTTTTAATGCAACTTGCATTAATTTCCCCA
TCTGGATGGGGCCTCTTTACCTACATAGGGAAATTCCTGGCCTAGGTGGATCCAGCAAATCCTTCATTACTGAATCTGGCTGYAAGTTATCTTTACCTTA
CACTACTCTTGACACATTTATCCCTAGCAATTTCCAAGGAAATTTCCTTTTTTATAATCTTTGTATTTACCTGACTCCAGAAGATCCTGGGTCCTGAAAA
TATTAAGATTGTGTTTTTCATTCTTATATATATATTTTTAAGTTTTTAAAGCCTGGTAGTAGAGTCCTTTTAAATTGTGTTGTTAATAATCCTAATAATA
ATAATTTCCTTCTAATATTTTTGGCTGTTGGTAATGTAATTTATGGGTATATCCAAAATTTTTAAAATAGGATCTGAATATTTCTGGATTTCTATTCAGT
AAAAGTTGTTATTCATTCTTTGCTTCAGTAGCTGTTTGGAGTTAAACAACTCATGTAATTGTCACTTTTCAAGTCAATAATGTAAACCCCACAGGACAAA
TTATTTTAGTGCCATACTTACAGATTACATTTTTTTTTTTAAAGACAGTCTTGTCTTGCTCTGTCTCCCAGGCTGGAGTGCAGTGGGGTGATCTCAGCTC
ACTGCAACCTCTGCCTTTCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCAGGCACCACCATGTCCAGCTAATTTTTAT
ATTTTTAGTAGAGACGGGGTTTCAACATGTTGGCCAGGCTGGTTTCTCACTCCTGACCTCAGGTAATCCACCTGATTYGGCCTCCTTTAGCGCTGGAATT
ACAGCGCAAGCCACCATACCCGGCCCAGATTACATTTTTTGTCATTGGGCTCCATTTTKCTTGAAATTTAGTCTGTAACCCTGGGGAGTATGTTTGAAAG
TTTTAATAGTTGTCCAAAAAAATGTTATCTGTCAGTTCCCATTACTCTAGCAGAGGATTTATTTGAAAATCTCATAATGAATGGTAGAGCCTGCATTTGT
TGTGTAATAATTTCATTCACTTATTCATATATTCAACACATCTTAATTAAGCACTCCTATCTGCCAGCAGAAAATAAAAAAGACTAAGTGCCCCAGATGG
AGCTTGAATTCTAAAATAACAGAGAACAAATATCTATAGGTAAAGGAAATGACTCACAGTGACACATTAAACTATACTGTGTAAGATGCAGTCTCATTCA
TGAATATTGAGTACAGTCATTTTAGACTATTATTCTCTGGAGATATTCTAGAATTATAGAGATTAAAACCATTGATACATGTAGATCAACAGCTACTAAA
TTTTGAAGATCAAGCCATTGTCTTTTTTTAAGTAGGTAATTTTTTTGGTACATTTTCAAAGTTGTAAGTTTTGCAAATTCATTTTTTTATTTTTCATTTC
CTCAGACTCAATATTCCCCCTTGGCTTAGGAGGATTCACAGTATACCTCCAGGTTACATGAGTAGCTCCAATCAAGCCATGCCTAATAATGAGCTAGTTC
ATGTGGGGAACTCCTGAAAAATGACTGAGCTCATCCCAGTTCTCACAGATATTTGCAACCAGTCATACCTACTTCTCCTTTAAATTCTGTACCTCTTCTT
ATACACACCCTAGAGACAGTGTGCCAAGCATAACATCTTAATCTATGCCCAATGCAAGAAGGAATTCTCTCTCTTTTTAAAGCCATGGAAAACTCCTCGT
AGTTTAAAGACAGCCTCTTCTCCACCTCCCTAGGAAGAATGTTAGACTTAGTGATGGGGTAATTTTCTCAAAAGTTTGTAAAAAAGCAGCTTGTCATTTT
GGTCATATTATTACCATTAAGTACAGGAAGTTACCTTCAGAGTAGAATTCAGTAGGCACCATTCCCTAAGTGTAAATCTCCTTCACTCATTAAAAGTTCT
GCACCACACCCACACTGTATATAGTATTGGAAGTTGCTCAGGAGTCTTGGCTGCTAGTAAGAGAAGCCTGAGAAGTACTCATGCTCTGATCTGAGTGGGA
AATAGTTGTTCAGTGCTCTTGAAATTGAAACAAGAATTTTCTTTCAACCAGAGAAATGGGAAAGGAYTTAGTGATTGCCTGTAAAAACCTAAGGAACTGT
TCAACTATATAGAGCCACTGTTTGGCCGCATGGAGGATCTTAACACATCCCTAGGTATTCCTGTATGTGGTAATAACCACAGACATGGGAACAGCTTTTG
AATCCTAAGACCTGTACCCCAGTGAATATAATGAGAGAGAATATAAGTCARAGAGGGAATTCAAATTGTTCCTCTGGGAGCCTGAGAAATGTAAAAAACT
GGTTTACTCCCTATACTAATCCTAAAAACAGTTGTCATCACTCTTAATTCATTTCCTGGAAAAGAGACAACTGACAACAAAGTAGCGAGAAGGTCCCATA
GAGCTCCAATAAACAGTGGTAGTAATATTTTGTATCCTGTTGAACAAAATAGGAAACCTTGAGTTCAAATTAATATAAATTGAGAATTGAAAAAAATAAA
TTTAATGAAGAATGAGATATTGCTATAACTTCAAAATACCTCCCCTCAAAATACTTTCTAATTACAAGACAGAGAATAATATTGCAGTGGAAAGCCTGAC
AGATRCTTTAATCAAGTGATCAAAGTAAACGTCAGCAAAAATTACCTTTACAGAGATCCTGTACCACTGACTAAGATACAGTGAGAAGAAAAGAGCATAT
TTTTTGTGACGTTTCTAATAAAAATGSATAACCTGAAGAGACATCAGACAAACTCAAATTGAGGGACATTCTATAAAATAACTGTAGTCTTCAAAAGGAT
TGAGATTACGAAAGTCGAGAAGAGATGGAGGAACTGTGTCAGATTGAACGAGAGAGGACAAGTAAAGGCAACATGTGTTACTGAATGGAAACTTATTCCC
TAAAGGTTATTATATTGGCAATATCTGAACGAAGCATAAGGACTCCATGGTACTAATGTTATCAATGTTAATTTCCTTATTTTGAAGAGTATATTGTGAT
TATATAGGAAAATATTCTTGTCCTTAAGAAGCTCAGGCTGAAGTACTCAGTGTCAGTGGGATGTTGGCACTATTCACTCCAGTGGTTCAAGAAAAAAAAG
TCTGTTCTGTACTTGAACCTTTTCTCTAAGTTTAAAATTATAAAAAAAAAAAGATATACAACAATTACTTAATAGGACTTGCATTTTAAAAGAGAAGTAC
AAGTTGAAGAAGGTTAAAATGAAGCCTTTTAATATTTAACTCCATAGTCCTATGTGTTGCTCTGCTATGCTGACGATGCATGAAAATTTTAATTGCTTAA
TAAGAAAGAAAGGGAAAGATAATATCATAGAGCTCACAAATATGAGCCTACCAAAGCAGAAATTAGATTATACTAGTTTCAACTATTGAATTACCCTGTA
GTTTAAATTGAAAAACAAAGATAAATCAATTAGTAATTCTATATCCAGTTTAATGATTTTTCCATAAAAATTATTTGGCTTATAAAACAATACAAAAGTC
TAAGAAATATATCATTTAATATGGGCTTCCCTTTATTCATGTCTGCCAGCGGTTCTAACTAAAATAAATGGAAGCRGGATGTTGCACTGAGGATTTGCTT
TGTAGCTCTTTACCAGTTTATTAGCCTCTATTTGAAGATTTTTTTTTTATGAGGCCAAATCCAGACTAAATTAAATAGATCTGGCATGGTAACATATCAT
TTTGGGTTCTAAATAAGTGATTCCTTTTAATGTGCATACTGAAATTTTCTCACATGACAAACTGGGACACATGAAATGGAATTTCACGCACTATTGAACT
GAATTCTCRGTAGCTGCTGTGAAATGTTTGGGGAGTTTTAGTGGATTTATCCATTTTAGTGACCATATTTCCCCTCACATTTGTGAAATGCATTTTGCTG
TTATTTTAGTTATTCTGAAAATGTGAATTCATTTACCTGCCTGTTCARAGAACAGGCATGAGAGCTAAGGGAAATGATGATAAGCACAATAACAACAACA
AATACAGGTGATATTCACTAATTTATTCATTCAATACTAACTACAGGGACTAATATTGAATGAATAAATTGGTGAGTATCACCTGTCTGTTAACAGAACA
GGTAAGTAAGTACCTGCTCTAATTAAGCTTACATTCTATTAGAAAGAAAAAGACCAAAAAAAGCAAATAAATAAATAATTGCAGAGTATGATAGCTATTG
TGAAAAGAATAAACCTGGCCAAACATGGTGGCTCATGCCTGTTATCCTAGCGCTCTGGGAGGCTGAGGCAGCGGGATCTCTTGAGCCCAGTAGTTCAAGA
CTAGCCTGGGCAATGCAGTGAAACCCCATGTCTATTTTAGAAATATAAATAAATAAGAATAAACATGTTGATATGATAGACAATAGCTTAGCAAAGGTGG
GGAGGACCTTTCCAAATGGGAGACATTTCATCTGAGGTATGAAGAAAGAAAAGTAGCCATCTGGTGACAAGTAGAGGATGAATGTTTCAGGCAAGGGCAG
GGAAAGTGCGAAGGCACTGAGATAAGAAAAGTGGCTGCTTATGGAAGAGAAAGCAGAGTGTGATAAAATGGAGAGTCCAGCAGCCATTATTTTGTTATTT
AAACCTCACAGTGATGCTGTGAGGTTGGTCCTCATACAATCCATTTTTTTTTTTTTTTAGGTAATATTCCTGAGGAATAGAGAAGTGAAGAGACTTACTC
AAGGTTATTTGTTGATAAATGGTAGAGACAGTGTTTTCACCCAGAAAGTGTGACTTCAGAACCCATGCATTCTGAACATTATATAGTGTTACTTCCTGTG
AACCCTAAAAATGTGAGACAGGTCTCAGTTAATTTAAAAAGTTTATCTTGCCAGGGTTGAGGATGCAAGCCCATAACACAGCCTCAGGAGGTCCCGATGT
GCCCAAGGTGGTCAGAGCACAGTCTGGCTTTATACATTCTAGGGAGACATAGGACATCAGTCAACACACACAAGATGAACATTGGTTCTGTCTGGAAAGG
TGGGACAACTCGAAGCAAAGGTGGGAAGACTGGAAGCAAGGAGGGGGCTTCTAGGTCATAGGTAGAAAAGAGACAAATGGCTGCATTATTGTGAGTTTCT
TATTAGCCTCCCCAAAGGAGACAATCAGATATGCATTTATCTCAGTGAGCAGAGGGGTGACTTTAATTAGAAGGGGAGGTAGGTTGGCCCTAAGCAGTTC
CCAGCTTGACTTTTCCCTTTAGTTTAGTGATTTGGGGGCCCCAAGTTTTTTTTCCTTTCACATTTCCCAAAGAAAGTACCACGCACATATGAATTACTGT
TGTTATAATGATAAAGTTGAAGGCATGTTTTATAGCCTAGAAAACTCATCTATATTATCATATTTTGCTCCATTCAAAATACTGTGCCCAACTCTAGGTG
CTAAACTTTAAAAAGATTATGGACAAATCGGAGAGTATTTGGCAGAAGGCCCCTTGATTGGTAGAATCTTGACATATGAGGAGCAGTTTTGACTGTATCA
TGAAAAAGATAAGGCTCAGGAAACTACAAGGTGGTCAGAGCACAGTTTGGCTTTATACATTCTAGGGAGACATGGGACATCAATGCCAGTATTGATATAT
TTATGGGGCCTTCATATGGAAAAATAACTAAGCATTTTGGATGGCCCCCAGTAGGTACAATTTGGAGAGAAATATAAAAGCTACAGAAACCTACTTTGAT
AGAGGAAATATTTTTTTTCACATTGAAAAATCCAAAATTGGAATAAAGTATTCTGGGAGAGATAGAGACTCCAATATCAAAGGTATTTAAATATAAGTAG
AAAAACCTGTTATTGAGAGTGTCCTATAGTGAATTCAAGCAATAATGGGTAATTGAACTGTATTAGCCCATTTTCATGCTGCTGATAAAGACATACCCGM
GACTAAGCAATTTACAAACGAAAGAGGTTTAATTGGACTTACAGTTCCACATGGCTGGGGAAGCCTCACAATTATGGCGGAAGGCAAGGATGACCAAGTC
ACATCTTACATGGATGGTGGCAGGCAAAAAATGAGAGAGCTTGTGCAGGAGAATGCCTGCTTTTAAAACCATCAGGTCTCATGAGACTTATTCACTATCA
CTAGAACAGCATAGGAAAGACTTGCCCCCATGATTAAATTACCTGCCACCAGGTCTCTTCCACAACACATGGGAATTCAAGATGAGACTTGGGTGGGGAC
ACAGACAAACCATGTCAGGAACTAATGTGGTTTTTCCCAATCCTGAAATTCTTTGATGGACAAGTTATCATCAGAAGACAGGATAATCAGAAYTCAACAT
ACTTGATTTGACAGAGCATGGAATAGAAACCTGATGCCAGATAGTGATAAAGAAGCAAAGTAAAATCCAAGATAGTAGGCTTGCAATGAAATACAGAAAC
TGCCATGTCTTCTCTAGTTATCAAGGGGACTGGTGATCTGGCTCAGACTAGAAAGCGGGAGTAGCCCTGCCCTGCCTTAGTAAGTATGTATGCAAATTTC
TACACTGAATATTATCTCCTCTTCAAAACCTATACTGAGACCCCAGGGAAGTGATCATGTGCACAATCCTTATTAGATTACCTGTAATTCTCGTTGCATT
GATTTGTTTATCTGTATGTCTTCTTCTTTTAGCCCTTAGTCTCACTGAAAGAAAATTCATATTTGTATTTTCAGACTTAGGAGTGTTACTAGAAAATATG
TAATAACTAATACAACAAGTAGCAGACTGTTGAATATCCAGGGAATAAGAGAAGTTCAAACAAAGTCAAATTTAGAAACAGAACGTATTTGTGGCCATAA
TTTATTTTCTAATTACCCATCAAAGTTATAGATATGTATGCTTTGAATATGGTATCAGAAGACTAAGTCATAAAATATAATTTTGATTTAGAAGATTATA
AGATCCAAATGAGTCAATACAAGGCATGAGGAATTATGATCAAATTAGATTTTAGATCTGGAAGATTTCTTCCATTTTATGTTCTAGAGTTCTACCAAGT
GAAATCACAATGAATTAATTGAGAATAAATGTTTTATTCCAAATCAGTTTGTCAGTTTTTATAGAGATATGATCTAGAATCAACTTATTTGAAACTTCCA
AAATTTTAGTTCAATTTCTTAAACAAAGGATACTGCTGTCTTCTTGGAGCTGAGAGAGATACAACCTCATTGCTACTAGCATTACCTTTACCACAGAAGA
AAAAATACTTTGTAATAATTTTTGATATTACTAGTATCACTTTTAAAAGTTTTATTTTGAGTAGTGAAAAAGAGTGATTTATTTGAAGAAATGTCCTAAT
ATGACTCTGATGTGAACACCTTTCAGAAGTGTGGTGTTTATTATTTGGTAGTGGCAAATGTGAAAACATAGGCATTGCATTCACTAAACTATAGCGAACA
GAGAATTTGCTGACCTGTAAGTGCATTGTTGACTTTTACCTTGTCCTTAACTTTGACCCTTCCTCAGTATTAATGAGTTAAAAATGTCTCAAACAGGTGT
CAGCTGGGGTTCTCAACCTTTCAAAGATGTGAGTTATGCTCAAAAGCCAGCCTGCCTCTTCATCTCCTCAAATTCCACTACCTGTAGAAGTCCTAAGCCC
TCCTTAGAATTTCTGTGACTTCTCAGGGGTTTTCACTTCTTAGTGCCTGCTTCACTTCCTTTGCCCCAGCTTCCTGATAAACCTTCTCTGTCCAGTTAAA
CAAAGGCAAGGAACCTSCTCATCCAAAAAGAGAAACTACTTAAATATACTGTTACTGAATAGACTGTTAGAGAATCTTCCCCTGGGCTGAAAAAGTAGAC
ACAAGTTTAGATACCTTTAAATCCATGCGAGTGTATTTWTTTATTTATTTTWTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGT
GACGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCATG
CCTGGCTAATYTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCGAGCATGGTCTGTATCTCCTGACCTCGTGATTGGCCGGCCTCGGCCTCC
CAAAGTGCTGGGATTACAGGCGTGAGTCACCGCGCCCGGTGAGTGTTTTTTTTGTTTGTTTGTTTTTGGTTTTTTTTAGCATAATAAAGACTTGAAGGTA
GCTGGCACCTGTAATTCCAGTGCTTTGGGAGACCAAGACAGGAAGATTGCTTGAGGCCAGAAGTAGAAGACCATCCTGGGCAACAYAGAGAGACTCTATA
TCTACAAAAGAATTTTAAAAATTAGCTAGGCGTGGTGGCACATGCCTGTAGTCTCAGCTACTTGGGAGACTGAGGCAGTAGAATCACTTGAGCCCAGGAG
TTCAAGGCTTCAGTGAGCTACAGTCACTCCACTGCATTCCAGCCTGTGTGACAGAATGAGCACTGTCTCAAAAAAAAGAAAAGAAAAGAAAAGAAAAGTT
TTGAAGAATCAATTTATTAAAAATCAAATATAGTTGGCTTTCATAATGAGTTTAATAATTTACTTTGAGATTAATAATCCCTTGGCAATGACTCCTAACA
TTTTAGTTTAAAGCTTTTCTCTTAGCCTTTTTATGTATACATTTAAAGAGCAGAGGCACATGCTAATATAATGAACTATTGCAATGAGTCTATTTGCAAT
GTAAGCTGATGATCAGCTTGTTTTAGCTGATTTATAAATTGCCAYGTACCAGAATTACTTATACTAAAACACATAATTTAAACATCATCCTTAAGAAATG
AGATAGAAAAAAGGAAAAGGGTCAGTATTCAGGCTTCTGCCCTGCTTATGAGTCTCTTGATTGACACTAATTAAAAAAAAAATAAGTGGAAATTCAGGAA
AGAGGTTAGAGGCAGCAATAGGCAAGCTGTTTAATGTCACATTTGAAAAAATTATCTCTAATTCTTGAAGTCACTTTTAAGATTTTAAAAAGTCAAGCCA
TAAATTTGCTATCTTTAAATAGSAGTTTGGTTTAATTATCACTTAAGCACTTTTTTACTTTCTCATTTTAGGTCTTTAATTTGGGTATTAATTTTTCATC
TATTTTATATTTCACAGGTTGTATTGCTCTCATTAGACTGTTTGTTACAAATTGCTTGTGAAGAAATACATTTTAGGTGTCATAATTTTCCTCAAATGAT
ATCTGTATGAGTGTCTATCAAACTTTCACTTGGTTTGAAAAGACAATGATGCAATAGTCAGACTGGGAAAAGGTAGATGAATGGAAAAGGCAAACAGGTC
TTTATGAAAAACAATGCAGATGATCTCTGGTGTCACATAATGTTTATTATTATTCAGCTATGTACATACTTGAAAAGATCCATTGTCATTAAATTATTTT
TTATGTCAGCCTTTATTATCACTTTGCAATACAAAGAAAGCAAGGTGAAGACTAACTTTTCTCTTGTACAGAATCATCAGGCTAAATTTTTGGCATTATT
TCAGTCCTTGGAGACATCTGAGAGATTCCGGGATGCCAGTGGTGCCTCTCTGKCCACACTGACAACAAATAATTCACCTRAGGAATAGTTCACTTCAGCT
ATTTTTTGCTACTCATTGGTTGTCAGTGCCATTGAGGAGAGCTCAGTGTAGATCAAAGAAAACGGTGTAGATCAAAGAAAACRGTGATTCGGTGATTGTT
CCCCTTCTTCCCAGCCACCCACCATCTGAACCTAATGCATCATTGTACAATGGCCGTAAAGGATGACAAGGGACTCAGCAATCAGTTCCTGGAGGAAATG
ATGCTGTGGCTTTTGGCTGGTGGCACCATCATCCTCAGTCATCAGTCAGAGTCATCAAAGTGATCATTCATCCATTCACTCCCTCCTCTGTCTCCACCCC
ACAGCTAATCAACTAACCAGTTCTGAATTTTTTCTCAAATATTAAATCTTAACTTTTAAATCTTTCTCAAATCTATCTTTCTTCTTATCTCTGCCCTAGT
TTAGATCCGTAATAATCTTCACCTTACCAATTGGTAGAACCTTCTAACTGACCTATCTCCTTCAGTTTTGTCTTCCTTAACTCTGTAACCACAGTTACTT
CCATAAAATTTAAATATGACCGTGACACTTGCATCTTAAACACCTTCAATAGCTTACTGGAAAAATTTTAAAGCCCTTGTTCTGGCATGCAAAGCCCCCA
AATTTTTCCATTTATTCTTACAGCCCCTCCACTCACTGCCTTGCATTCCATGTCTGAGCACATAGAACCTCCTACTATTCTTCCCAAACAGCCATGCACT
CTGTCTTCCTAGATGCCTTCAGCCATGAATTTCTTCCTTACCTTCAGTTGGATACCTGTTTATTGAGACTTATTTCAAGTACCTTTTTTATCTAGAAAGC
CTTACTTGTCTCATATCCCATCTGGGTTAGGTATCTCTCTTTGGTGTCCCTGGAATACCCTATGCATATTTCTGCTATTATATTCATTAGATTATATTAT
AATTGACAGTTTTTATATCTTTGGTTCTCACTAGAACATGAGTTCTTTGATGATGGCACTTTTATTCATCTTTGAATCTTTTGTACCAGGTAGATATTCT
GTCTCACACTAGACACATCATAAATATTTGATAAATTAGTAAACAAATGAACAAATAAAAGCTGCAATCAGCAGCGTTAAGTTTTCATGGGATCTGTGGA
TAATATAAAATACAGAATTCCCAGCTGTGGCAGCAGATTTATTGCTATCATAATGGATCCACAGCTTCTTTCTTGTTCCTTGAATGTGACCAGTAACAAT
GCACCTAGGAGATCTGATGTAAGAGTATTCTGTGATAAGTGTATACAGAAAGGAGGAACCGATGACTCAAATAGGAATCAAGCCAGAAGCTTCTGCCATA
TGGGCAGCATGGACTTCAACCAAAACAATGAAACAKTGCTGTGGTTTAGCAGAGGTCCTACCATGAATAGAAGGATACCAGGTTGCCACTGTGTCTCAGA
CTGCAWCTCTGTGTCRTTGACCCTTTTACCAAAGGTAGGAAACAGAGCTGTAGTCATGCCCCATATCTATAATAAGTATGTGGATAATAAGCATCGAGTA
CAGCCCTGATGGTAGTGTCACTGTCAGAGACTTGTGTTGTTTTCCATTGCACTGCTATTTCTGTGCTATGAGAACTTAGCTCATCAGTTATTGAAGAAGG
GGGAAAGTTAATGACCACAAGAGGGCTTATGATGACCCTAAGGCAACTTTCAGAGCTATTCTGCAAGAAGAGAGATTTTTATTTCCCAAACCAGGGGGTA
ATTTCCACCAGGGCKTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGTTCTGCATTTGCCGTCTCATTGGTAATAACAAGACTGCAGCAACAAAGG
AAAGAAATCTCACYCCATTTCTCTCATAATTCCATAAATAGTTTGCCTGCCTTTCATTGAGGGCAGTTAGTTAACATTGAGGRCAGCTAGTTAACAGCAA
GAGCTACAGAAAAGTCCTGTAATTAATCAACCTGCATTGCCTTCAGTCTGAATCTGAGTATTAAAATTCAGTAGGTGCAATTAGACAGAATCAGGCAAAT
ATAAAGGTCATAACATTAGTCACAGTGTCACCTTATTTCTGAGCCTTTTCTTTCTTCTGAAGTRGTGTCTTGTCAGTGGGGTGATAGAGCAACAAGAACT
CTCTGTTGTTATGGGAGTTTGTTAAATTTTATCTGCGATTTTTCCAATTTTAATTAAATACTTGATACCAGGCTGCAGCAACAGAAACACTGCTGTATTG
GGTTTCAGCACTATCACTCTATCATCTTATAATTTAAAGTGAAAGATAGGAGGACTTTGGGGTTCTGACGGTTTGATAGCTTTTTAAAAATTACCTTTCT
TTCCCCATACCAGATTAGAGATGGGGGTGGTGGGGAGAGAGCTTCASCATCCTCTCGCCAGAACTTCCGGTTCTCTAGCTTTTTATACATCCTACTCACA
CTCGTCCTACTGATTTCCACTTAGGACTGCAACTACCCGTCCTCTCTGCTTGTCCATCAGGAATATTGACTTTCCCAAACATTTCTTAAAAATTGAAAAG
TTAAACCAAAAATACACACTTTTATTTTCTTATTTTTATTTTTTCTAAGCCAAACTGTATCCAGCTTTATTAAAGACACTTTCCATAAACAATCCTGGAA
TTTCAGTCAGGACATGGGCAGACAATTATTAACAGTATACAACAACTTTCAAAAATCCTTCTCTAATGGACTACCAAAAATCAGAAAGCCACTATAAAAC
TCAATGAAGTCTTCATCTGATGCACTGAGCAGGGAAAGTTTTGAGTGAGGGTTGACATTTCACATTTAGCATGTTTTTAACAACTTTTCACAACCGACCC
TGACTTTCAGAAATGAAATGAAARTGGCAGAATTTATTTGAAGATTCACAATCTAGAAACATAACCACTGCTCTTTTGAGGCACGCCATCTCAGTGGCAC
CACTGGAAAGTCCAGATTGCCTGATGCATTGGTGACCAATTAATGGGATTCCGGTCCCAACAGATGTCTGGGTTTAAGGGAGTTAAGTCTATGCTGGAAG
GTGGAAAGGGAGAAGAAAACATAAGAACTAATTTGTTTTCCATACCACAAGGCTTTTGCACCAAGGTGGCCATGTATGTCAAAGTCAGGAAATCTTTCCT
CCTGGGAACCAAGAGGAAGTCTCTCAAAACTAGAAGGGAAAGGTGTTTCACACATCAATCCAGATTTGGAGACATTTATTAGTGACATATGCTCCTTCCC
CCCCAAAAAACAATAATGAAATGTTGTGTCTTAACAACATAGCTTAAAAAAAAAGTAAAACAAAATTCTGCATTTTTATAAAACTTGATAAAAATATTTC
AAACTGTACGGTCACCAGTGCACAGTTATCAAAAATGCRCACACTTCGCTTGGCATTTCCAGCACCTTCAGCTTTCTGTGCCTGGTCTCCATTTCTGCAG
GGTTATTCCCCTCCTTGCCAGTATCATCTTTTCCCTTTTTCCCTCTGGGTACCTTCTGTCCCTTCTTTGCAGGGCCTTTTTAGGCCTGGGCTCTGGCTTT
GGAGGAGCAGGTTTAGCAGACAATCTCGCGGATCTTCTCTGTGGTTCATCCTTCACTTTGGCTGTATCTCCTTTCGCATCCCCTTCAGCCTTTCTCTTGG
GCATGGTGGCGGCGATGGTGGTGGGATGTAGGTGCTGGGTGTGGGATGCAGCTGGGCACGGAATGCAGCGTTGCACGAGCTTTGGTCTGTCCWGGGGTCA
TTCTCACCACTGCTTCTTCCAATACACACTTTTAAATGGTGCTTCTATGGTCTCCCACATCAGGAGAGCCCTCAGTGCTTTCCCTCAGCCTAAAAGTCCA
CGATTTTATTCTTCACTATTTCCTCAAGCCTATTCTCACACCTGCTCCTCCCTTGCAGTGAATGATACTGATTCCAGTTTTTCTGAGAAAATAGGGAAAG
GCGCTGAAAAGATTGTACTGTCTGCCTGCCCATTTACATATATTATCTGATTTAATTTGCACAGTCTGAGATGTGGAGATTATTCTTTCTTTTACAGATA
AGGTAACTGAGGCTCATGTAAGTGGTGGTGCTGAGACTGAGCTCATGTTAGTTCAACTGCCAAACTTCTCCTCCCATGTGATGGGATGCAGCTGTAAAAC
AGAAATACTAGGGCATGAACATCAGATTTCTCACTTCCCTATTCTAAATATAGCTAAATCCATATGAATACATATTCCATGACTCTCTTGTGCTTCTTTC
CTCCGTTAGGCTAATAATAGTCTATTCATGCTTTGTTTTTTCTCTTTTGGGATATTTGATCATCAACTTTCCATAACTTCAAACTCTTTCTTTTAATAAT
TCTTTCCTCTCAATATATACACATACTTATGTTTCCCTCTGTCTTAAAAAAATCCATTTCTCATCCTTGCGTCTGTCTCTGTGTGCCACCTTATCATCCT
TCTTTCGTTCACAGCAAACTGTTTTTAAAAAGTGCTTTAATTCTACTGGTTCCCTCTAATTCACTCTGTAGTCYGAATTGCAAGTCTATCATTTCACGGA
AATTGATTTATTCTATGAATGTGGGGTTTGGAGTTGGGAAATAACCAAATCCAAACTCATTCTTCACTCATGACACTTAGACGGTCTCTGCTGTGTATGA
TACCCACTTTGGGATACTCATTGTTGAAACCATGTTTCTATGACTTTCATGATACCATTTTCTCCTGGGTTTGCAATTCCCTTTCAGGCCACTCATTCTT
AAGTCCATTTGGTGCCACTGCTCCCCTTTATGCTGCCTAAATGTTAGTGCTTTCCACCATCTTATCACTGATCCTCTTCTTGCTTGTCAACTTTGATTGA
AGTATTTCACCCATATCTGTGGTTATAAATGTATGCTATCTGTACACTGATGTTCCCCAGACCAGTGCCTCCCAGACCCATATTTTTTGTTGTTTAATGA
ACTTCCATTGAAATTTCCAAGTCTGCAGGTTCAAAACGAAATTCAAAGTCTTTCTATTCATAATCTCTACCAACGTGACTGGTACCATGATACACTCAGG
TATGTCCCCGTCGGGATTTTAGAAGTCATCCTTTGCCATTCTCCCTTCCTCACTCCCAAATAAGAATCCTCTGRAACATTCCTAACCTTCAAAATGACAT
CTTTTGTTGTTGTTGTTGTTGTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCGCCTCC
CAGGTTCAAGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCACCACCATGGCTGGCTAATTTTTTGTATTTTTAGTAGAGGCGG
GGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCGTCTCGGCCTCCCAAAGTGCTSGGATTACAGGCATGAGCCACCACG
CCCGGCCCCTAGTTAATGACTTTCTTAAATATCATAATGCTAAAAGGAATTTGTGCTAGAATTTTCCTAAATAAATTGATAACTACCTTCTCTGACCTGT
AACCCCCTGCCAATWGCATATATCAGCCAGACTTGAAAAGATTTTTTGCTGTCCTGATGTGATTGTCCCATTAGTACAGAAAACAAAGGAAAATGTAGTT
TGACGAAACAGGTTCTCATTCTGAAATTGTTTGCATTTGATCTGCCTTTATTTCAGTTTTAATAGCAGCTATAATCAACGTTGGGCAACTGCTTTGCTCT
TTCTAGCTGCAGAAACCTCTGGCCAAAAACACAAAAAGGCACACTGATTTGTGCATGGAAACACATCCTCATTCTTATTTTCAACATGAGAAGTTGTCAC
AGACATCCCTCTTCCTTTGCTTTGAGTCAGTTTATGTGATGGCATTTATCATTAAGACATATAATCTGTTAGTGATTGTTATTCAGCAGCTTTTGGTTTT
AGTTTCTTATCTTTGAGGAAGCCCCTTTTTTCAAACAGCTAACTCTTGCATCTAAAAAGTGTCTTCTTAAGTATATCATCTTTCCATTTTGCTGGAATTC
TAAATTTTATGCTACTTATCATTGAAAAAATACTGAATTACTTCRTTTTTGTATTTTATTAAACTAAAATTTGAATCCAAGTCACTCACCACTGATAGCT
TTATACTGTTTAAATGACTTTTTAATTTTGGTGTTTGGGTATGTTTGTTAGCATGTAGAAAGCAAGCCCARGGTAATTTATAAAGCTATGACTTACAGTG
TATGGAGCACTAAGTAGAGTTTATTCAAGGCAACTGGTGCTAGATGCTATGAAGATTACTGTAGTCTTCACTTCAATATTACACTTATTTTGCCTTTTCA
GAATATTTTTATATGTGAATATGTGGAGACACATTCTTTTTGAGGCGGTGTCTTGCTCTGTCACCCAGGCTGGGGTACAGTGGCATGCTCTCGGCTCACT
GCAACCTCCGCCTCCCAGGTTCCAGGGATTCTCCTGCCTCAGCCTCCCGATTAGCTGTAATTACSGGCGTGCGCCAACACGCCTGGCTAATTTTTTTGTA
TTTTTAGTACAGATGGGGTTTCACTATGTTGGCCAGGCTCGTCTCAAACTCCTGACCTCAGGTGATCTGCCCATCTTGGCCTCCCAAAGTGCTGGGATTA
CAGGTGTGAGCCACCCACGCCTAGCTGAGACACAAACATTTTCTTACCTCAAAACCTGGACTACACAAGAAATTCATTAAGAATGAAAGTAATATATATT
TTTTCTTAACAATATCTTGATCTTTAAAGAATCAGTTCTATGTATACTGTTATTAAAATCTGATTAAATAGCAATTTATAGGAATCTTTAAAAGAAATCA
ACATTGAGATTTTTATTATATATCTATTAATTTTCAGTGGATCTCTGCTGAATAACTTACAAACAATTATAATTATTTTTCCATTAATCTGATATTTGAA
GGTAAGACTCAACAAGAACAATGCAAAAATGAGAGAAAATAAGAGGGAAACATTAATTTTTTTCTTTGACTTTTATTTCATCTGCATAATTTAATCATTT
TTTCCTTCAAATATTCAAAAACCTGCATTGGTATTTTTTTCTGACACATTTCCCCTGTTAGACTTTAGTTTTTCTTAGTTCATATTCTTGTGTTAATGGC
TGGTGGAGTAACGTTTCCTCACACACAATGTTTTTTAAGGTATGTTTCTATCTGGAACACTAATTGGTCAAATATGTATAGCACATGAACATTAAAGGGT
GCTAACTACGGTTATCTCACTGAAGCATTTTTTTTTTTTGTCGTTCAGCAAACGTTGATTTAATTCTTAAGTGCCAGGCTCTAAGAAAGGTACTGAAACA
TTTTCTTCCATTAAAGAAACATAAATAAGAGACAGACATATTGTAGTTTAAATAAGTACAGTGATGCTGTAAAAATCAAATTAAGACAAATAGGAGATGT
CTATGAAAATGGTCATTACGCAGCCTCTCCCTTCCTGCCTATCCTGCATTCCTGCCTGCTTAGTTTCTCTGATGAGACATCTATGAGCTCCTTCCTCTTC
CAAAGCCTCCCTGCCTCTCACTGGTCTCCCCAGGCACATGGATCATAATCTGCCTTTCTGTCTCCCTCTGTAGAATACCCCTGCATTCACTCTGCTCATT
GGACTAAGCTGGCCTGCTCACTGCTGTCAGCATTGCCTGAACTTTTCTGCCACCATGAGTTTGCTCAGGCTCATCATTCAGCAAGATATGTGCTTGGTTT
CTCCTCTGCCTGTCATAATTCTGTCCATCCTTCAAGGCCTGCATTAGTGTGTCTTGTTATCCATGTTTACTTTCCTTCATTGCATCTACTCCTTTTTAGC
ATTTGTCTATTTATTTAACAGACCCCCACCCTTCTGGAATGTAATAATAAACACACAGGCAAGCTAACAAACTTGAACTCATGCGTATCCCCTGCGGAGC
CTAGAATTGCTTTCCATTCCGCTTGGAATAGAGGATGCATACGTATGCAAATATTGAAGACATTCATTTGATGCACAAAGTCTATTTCACAAGCATTTAA
TTTCTAACATATGCCAGACTCAGAGTTTGGCAATGGCATGTAGATGAAATAGGCMAGTTAACAGACAAAATACAGTATGTTAAGTGCTTCAGTGGAGGTA
AGCATGGGAAATTTATAGGAGTGTTACTAATTCAGGTRAGTCAATGAGTGGATGAAAGCATGGATAAATATGTAAATGAATAACTTAGGTTAATTCTCTG
GAGCTCCTATTTAGTATTCTGCTGTCCTCTTTATGTGTTAATCAGCCTGATAATCTGCTGCAACTACAGGCAGTGTCCTAATTTCTTCCTTCACAATAGT
TCCTAATAACACTCAGGTGGCTACAATATAGTGAATTCTGTATACCTGCTTTCTCAGATGCATCATCCTGGCCTTTAACCACTATATGAACTGATGTCTC
CAGTTGCCACATTAAACATATTAATTTGGGAATTCAAAAAAGTAATGTTTAAGGCCAGGCACAGTGGTTCACACCTGTAATCCCAGCATTTGGGAGGCTG
AGGCGGGAGGATCACAAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTTTCTACTAAAAATACAAAAAGTTAGCTGGGCGTGGTGG
CACTTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTAGAGTGAGCAGAGATTGCACCACTGCACT
CCAGCCTGGGCAATAGAGAGATGCTCTGTCTCAAAATAATAATAATAATAATAATAATAATAATAATGTTTTAGAATAAGATTAGTCTAATGTTTCATTA
TTAAAGCAGATAAAATGTATTTAATGGTTCTTTTGTCTTTGTTTTATTCCTGTGCACAATTTTTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGGCTGGA
GTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCACCTCTCAGGTTCAAGCAATTCTTCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACGCAT
CACCATACCCAGCTAATTTTTGTATTTTTTAGTAGAGATGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCGCCCACCTC
GGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACCACACCCAGCTCCTGTGCACAATATTAACACTTCACTAGTTTATTTCCTTTGTTTTTCTACTC
GTGGTGATTTGAAACAGTCTTTCTTTTAGAGTGCTTTGCATGAAGAATCTCAAGTTCTTATTTTTTCAACTTCTGTTTATTTTTCTGTTTGTTGGTTTTT
CCACTAAAAAAAAAATCATTTTTTAAGTTTTATTTTGGCCTCTTTTATTTTGCTTTTTAATCATGAAAATTAAGAAAGCATGTTGAGCCCACAAGGTACT
AAGTACTATTGTTGACAGCTGAAGTGATACCTCAGTTCTTCTTGGTTTAAAATAGTTTAAACAAGAGCTACACAGCAAAGGAGGTGTAGCATAGAGTART
TTATTACAATGGATAAAGATATTTTGAAAGTTAGGTGCAGAATAAACAGTATACCCTGAGAGAGAAAGAAGTCAGGACAGGCTGCTTGTAAGGGTGAGAC
AGCAAAAACTGGCACTAGGGAGACACCCTTTTAGGGAGTTTTAGGTGGGGACACAGCCAAACCATATCAGACACCTACTATGTGTCATTCGTTTTTTCTT
CAGTGCTTGGATGTTGAAATAATGAATAAGCATAAGACTCCCTTTTTGGGAGTTTTAAAAGATGATTCATAAGGAGGTGGGAAGAGGTGTTACTAGTAAG
CATGTTCTGGGTGGTCTTCTGGTGCACATGTGCAGTAACTGTACATGCTTGTTCATATGTTGCATGTYTCATTAGCATCTTAAAACTCCACCCAGGGGTG
TGGTTTTTACTATTATAATGAGCATAGGGTCAGTTTGGGGACAGGTAAAATCAAAATATGCATGCTCTCTAGAAGGGAAAGGCCCTATTGAAGATAGCTT
TGCTTGAATGAGCTCAATTACAATGCAAATACTGAGGTTTATTGTGCTGACTGTATGATCACCATGGTTGCCCCATCCCAAGAACATGGTCACTTCCTTG
ACTGCCTATCCTGCCTCACTATGATCTAGTAGGTGATTTAAATTTGGTCCACACTCAGTGTAATCATTCCATGCACTTTAAACATAATCTAGTTACCTGG
TGTCATTGCGCTATATGTTGTCCTAACCTCGTGTAGTTCAGACTTCAGGTATCTCTGATACCTAGCCATAAAAGTTTAGTAGGGACTACTCAACTAAATT
ATCATGTAACAATCAAATGAGACCTACAGCTGAGTAAAGAAATGCTTCTCTTATTGATCAAATTTTTTTGGTTATTTTTTCATTTTCATGCCATGTTATA
TTTGATCCTTACGAGCTCAAACTCATAAAACAAAAGGCCACCACTTCTTGTTGGTTTGATTCAGTTATTCAACAAATGTTTATTGAACACTGTATAAGTT
CATTCTCATGCTGCTATAAGGACATACCTGAGACTGGGTAATTTATAAAGGAAAGAAGTTTAATTGACTCACAATTCCGCAGGGCTGGGGAGGCCTCGGG
AAACTTACAATCATGGTATAAAGGGAAGCAAATATGTCTTTCTTCACAAGACAGCAGGAGAGAGAAGAATCAGAGTCAAGCGAAGGGGGAAGCCCCTTAT
AAAACCAGAAGATCTCATGAGAACTAACTCACTGTCATGAGTACAGGATGGGGGAAACCGCCTCAATGATTCAATTGTCTCCACGTGGTCCCTCCCATGA
CATGTGGGGATTATGGGGACTACAATTCAAGATGAGATTTGGGTGGGGACACAGCCAAACCATATCAAACACCGACTATGTGCTAGTCTTTTTTTTTTCT
GAAGTACTGGGATGTAGAAACAATGAATRAGCATAATTAATATGTTAARAGAAGAAAAATGAAGCAGGGAGAGGGCAAGGAGAGTTACCAAGGGAGGAAG
TATACTATTTAACAGGGTGGTTCAGCGAAAGTCTCTCCTGTARATGCTTTTGAGGAGAGATTTGATTGAAGTTAGAAAGCAAGTCATTTGAGCCTTACAG
ACATCTGTGGAGAGTATTGCGGGAATAGGTGATAGCCAGTGTCAAGCTTTTGCATGCTCAAGGGACAGAATGGAAGCCAGTGTGGCTGGAGCAGAGTGAT
CAAAGCAGAATGGTAGAGAACCGGAGCAGAGAGGACATGAGCGGGGACATCATATAGGATCTGTTGGCCATAACAAGGAGCTCATGTTTTATTTTGAGTG
AGATGAAATAGCATTGTAGCCAAGGAGTAATGTGATCTGGCATATATTTTTAAAGTGTACTTTAGTTACTGAGTTGAATTGGTTTTCTTTTGCTGCATAA
CAAATTACTACAAATTTACCACCTTATAATACTGCATATGTGTTATCACACAGTTTCTGTGGGTCAGGAGCTGAGGAGGAAGGGCTGCTTAGCTGGCTTT
TCTGCTTAGGGTCTCACAAATCTGAAATTAAGGTGTCTCATTTGAAGCCTGGGGTCCTCTTCCAAATTCACTTAGGTTGTTGGCAGAATTCACTTCCTGG
AAGTTGTAGGACTAAAGTCCCTGATTTTTGTTGTTGTGTGTTTGTTTGTTTGTTTGTTTGTTTCACTGGTTGGGTGTTTTTTGTTTTTTGTTTTTGTGAT
TATAAGCCTGGTTATGCTCTCAGCTCCCAGAGGCAGGTCTCAGTTCTTAGCCACACGCCAGCTCACAACCTGGTAGGTCACTTCTCCAAAACTAGCAAGG
AAATCTCCTACATTTTGAGTCTTTCTCCAATTTGCTGAAATGGAGCTTTCTATAACATAATGTAATCAATCACAGCAGTAATCCACCATCCTCTTTGCCA
ACAAATTTAACCTAATCAAGGAAGCGACTCTCTCTTCATATTCATAAGTCCTGYTCATGCCCAATTGGAGGGAATTGTACAGGATGATTACATCATAGGG
TGGAAATTTTGGGAGCCAAGTCATAATTCCACTTACTACATAGGTGGTACTACTACAGAATTGTGAAAGGAGCAAGAGAAGATTCTGAAAACCAGATAGA
AGGCACTAGTGGAGTCTAAGCCAGTGTTTCCCCAAGTTTAATGTGTATATCAATATCCTAGGCATTTTGTTAAAATGTAGATTCAGACTTCATAAGGCTA
TAATAGTGGCCTGAATCTCCCAACAAACTCCTAGGTGATGGCGATATTGCTTGCAGAGTAGCAAGGTACAGGCAAATGATGACAGTGACTTGGGTTAGGG
TGGTAATAGTAGAGATAAGAAGAGGTCTGATTAGGGAAATATTTTGAAGGCAGACCCTAAAGAGCTTGCTGAAGGAGAAACAAAGGCATCAGGATAACTT
CTTACTTCAGGGGATGTCAAAGACTGTGTGGAAGGAGCTTATTTCAGAGCAGAAAAGAGTTCAGTTTGTGATATGCTAAGTATAAGATGCCTTTTAGGTT
CCCAGTAGAGAGAATCACAAAATGCGATGGAAAATAGCAGGTTTATACATTATATTCAGTGTTATTGAAGATTTAAAATTTTGTTTCTGTGCACCACAAC
TATGTAACTCTTTCTAAGTGTGCTTAGAATTTATTATATTGTATTAAAAATGTGAGCAATGAAGAGGACCTAACTGATTTGTGCTGCAGATTCTCTTTCA
TTCTCTTGCACTGACATTAGTAAAATAAGCAGTGTTTTCTTGTCCCTATGCCAGAGTTCCTTACAGTGAAATAAACATCATTACTCAAATCATTAAAACT
GTTCCTAGAATCCAAAATACACATCACTGTGCATATTTAAAACACAATGTATTCAAACACTCTTTGGGTACAGACCTAGACTTTAAGATGATTTTCAGTA
CCTATTGATTCTGGTTGATGCCTCAYTATGAGATGTATTACCAGATTTTCCATGACTGTATAGACGGCTTCATGGTGTGACTAATTATTATTTATTTTCA
GGGCAAAATTATGCAATGTTATTTTCATCACATTGTGAGAGGTGGCCATTAGATAGAGCTTGCATAAAAGTTAGTTCTCACTGACTCACTTATCACAAAA
GAAGACAGTGTAGACTAGGATTTTATCAAAGATAAATTTACTTATAATCCCCTAAACCTCAATCATGTAAAATCTTGGCCTTACCCGTTCTCATTTTCAG
AAAGAAAAGCATTCAGAAGAATATAAAATGAAAACTACRCTGCCACTCCTTTCTTCCTTGTGATGGCCATGGAAATGCTAGCGTTTAACCAGAGACTTGG
ACTCTCAATATTTCAAATGTTTTAAAAGAACTTTAAGTAGAATATACCTGTGCTTAGCACTGCTTGGGTGCTAAGTTAACATGCAGTGAAATAAGATTAC
GGGAGGTGATTCATGGTTTCAGGTAGGGGTGAAATAAAGGCAACAAAGGGCAGTTTGGGTTTAGAGGACGCTTCATACTGTGGAACATGTGAAAATTTAG
TTTATTTTAAGCAAAAATCTTTATAGAAATCCCTGTTTTGCTTTTCTTATTGTTAAACAATAAAATGTGCTAGGCTTTACGACCAGAGAAAAATGGGAAG
GAGATATTTTAAGGACAGCCTGATGATTATGTTTTTGTAAATAAGATCCCAAACAGATGGAAATTAAACCAAATCTTTCAATGACAGAGGGTGACAGTAG
GTCTGAAGGCAGCTACTTTTATGGAGAGTGTTGAGGAAGTCAGAACTTTACTCCTATATCTGGATTCCTTTCAATCTGGAATCCTGGGCTAGGACTAACT
ACCTTACAGGACAATTAAGCTTTTTGTTGATTTGAAAGAATTGTGATGACTGGACAAAGCCATTGCTGAACCCTGAACTTGTCACATTATGAGAGGTGGC
CATTAGATCAAGCTTGCATAAAAGTTAGTTCTCATTGACTCCCTGATCACAAAAAGAAGATGTTGTAGACTAAAGTTGTACCAAACCTTGGTTGTTGTTC
TATAGACTTGTTTTTTTATAGTGGCATGGTTGTTCTACAGACCTTTTGTAGTGTTTCGTATTGAAATCCAGAATCTAAATACAGGCATAATTATTTCATG
CATTAGTTCAAAGATGTCAAACATTTTTCTACTATTGCATCTATTTTTATGTAATGTATTAACTATAATGTAAAGTTTAATTTTTGCATGGTAATTTAAG
AAACTAAATTTCTTACTCCTYCTTTTCCCTAGGAGCACTGAATCAAAAAAATTGGGGAAAGAAATATCCAACATGTAATAGCCCAAAACAATCTCCTATC
AATATTGATGAAGATCTTACACAAGTAAATGTGAATCTTAAGAAACTTAAATTTCAGGGTTGGGATAAAACATCATTGGAAAACACATTCATTCATAACA
CTGGGAAAACAGGTAAAATATTTGCATTCTGTTTGCCTTTAATATATTTTTCAGACCTGGAGTATGTTTAGACTAGTTTCATCTCATTTTCCTTTGAATA
GTGTACTATGAACTAGATAGAAGTTACATGTAGAAGAAACCAAATGGAGCAGAGAAAATGGGAAATTTAGACAATATTTTGACAATTTGTACAAAAAAAA
AATGACCAATGTCATCATGTCATGTTTTCCTACAAGGTAACAATAATGATGCTGCCTCTAGAAGATGTGATAATGTRATTTACAGCTAATATAATTTAGT
CAATTACTTAGTCAATCAGGATTTCTTTTTCTTGAGCATTATAGTTTGATCTTTTCTGCCTAGCCTCATGTTATAGTCAGTATTTGGATATGAAAAAAGC
AATTGGCTATAATTGAAATTTAAGAAAATAAATTCCTAGCTCTTCTATATAGAAGGTTTAAAGTTGTATCCCATCCTTAGGAAACCCTCTCTAAGTGTCT
TTTTATTGAGCCTATCTTTTTTTTTTTTWAAAAAAAAGCAAAATATAATACATTAAAATTTAAGTACAAATTCTAATAAGCTATACATAGATAAATAATT
TCCAAAAAGTGACACCTTTTCTTTTTTGATATTCTAGTTTTTTTAAAAATTGTATTTTGGGAAATTATGTAAAGGCAAATATACACGTAAGACAAAGAYT
AGAAAAATATTCAAAATTATAATAGTAGCTCTATGGGGATAAGCTTTATCATTGGTGAATTTTTTTTATATTTTCTATATTTAGGTAATGTAATTATTTG
AACATAATAATTTAATTTCAAAACTCAAGAGAGTAGTAGTCAGGCACTGTGGCTCACGCCTGTGATCCCAGCACTTCGGGAGGCCGAAGTGGCTGGATCA
CTTGAGGTCAAGAGTACCAGACTAGCCTGGCCAATATGGCAAAAACCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACACTCCTGTAA
TTCCAGATACTCAGGAGGCTGAGACACAAGAATCACTTGAACTCAAGAGTTGGAGGCTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGACAA
CAGAGTGAGATCCTATCCAAAAAATCAAATCAAAACAAACAAACAAACAAAAAACAACTCCTGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCATTT
TGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCTTGGTCAACATGGCAAAACCCCACCTCTACTAAAAATAAAAAAATTAGCC
AGGCATGGTGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGATTGAACCCAGGAGTCGGAGGTTGAGTGAGCTGAGATTGTG
CCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAATCTCATGAAAGTAGAGATTTTTCTACATCAGTGCCTGA
TATGTAATAAACACTAAGTATTTCTTGAATGAATAATTTTTAAAATTATTATGTTACATGTAATAATTACCTAAAAGTATATTGTCCCAAATCTTGACAT
TATTATTTTCAGTTTTGAAGGGTGTTAGAAAGCAGTAGGGCATGGAACCTCTGCTTTGGTTTTTTTATTTTTATTCTTTTTATATATATATTTTTATTAT
ACTTTAAGTTCTAGGGTACATGTGCACAACATGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTTGTCATTTACAT
TAGGCATATCTCCTAATGCTATCCCTCCCCCCTCCCCCCACCCCGCAACAGGCCCAGGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTGTT
CAAATCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGCGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAA
AGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATGTGTGCCACATTTTCTTAATCCAGTCTATTGTTGTTGGACATTTGGATTG
GTTCCAAGTCTTTGCTATTGTGAGTAGTGCCACAATAAACATGCATGTGCATGTGTTTTTATAGCAGCATGATTTATATTCCTTTGGGTATATACCCAGT
AATGGGATGGCTGGGTCAAATGGTATTTCCAGTTCTAGATCTCTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAAC
AGTGTAAAAGTGTTTCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCGCCATTCTAACTGGTGTGAGATGATATCTCAT
TGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTT
ATATCCTTTGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTAAGTTCTTTCTAGATTCTGGATATTAGCCCTTTGTCAGATGAGT
AGATTGCAAAAATTTTCTCCTATTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTT
GTCAATTTTGGCTTTTGTTACCATTGCTTTTGGTGTTTTAGACATCAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGG
GTTTTTATGGTTTTAGGTCTAACATTTTAATATTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGCTCCAGTTTCAGCTTTCTACATA
TGGCTAGCCAGTTTTCCCAGCACCATTTCTTAAATAGGGAATCGTTTCCCCATTTCTTGTTTTTTTCAGGTTTGTCAAAGATCAGATAGCTGTAGATGTG
TGGTATTATTTCTGAGGGCTCTGTTCTGTTCCATTGGTCTCTACCTCTGTTTTGGTACCAGTACCATACTGTTTTGGGAACCTCTGCTTTATTATATATT
GTAAGCAAAAATCTTTATAGAAATCCCTGTTTTCCTTTTCTTATTGTTAAACAATAAAATGTGCTAGGCTTTATAACCAGAGAAAAATGGGAAGGAGGTA
TTTCAAGGATAGCCTGATGATTATGTTTTTATAAATAAGATCCCAAACAGATGGAAATTAAACCAAATCATTCAATGACAGAGGGTGACAGTAGGTCTGA
AGGCGGCTATTTTTATGGGGAGTGTTGAGGGTTTTGTTTTTCTTAGGGGAGAGTGGTTATTAGATTATTGAGCTAATAGAGCCACATTACTTGGGTTCAC
CACTGGCTCTTGAAATGACAGTGGGGAACCTTTGAGCAACSTACTTAGCCTTTCTGTGAYTCAATTTCCTCATCTGTAAAATAAGGTTTATACAGTATCT
ACTTACCAAGGTTGTGCGAAGATCAAATGGATAATATATGTAAAGTAACTAGTATAGTTCATGGTACATCGTAAGTGATATGTAAATGTTGGCTGTCGTT
GTTATTGTGCTTGTTATTATTATTATTAGCTGGAGTTTGTATCCCTAGCTGGCTGGCCARTATGTTGTATTCAGTCCCTGATGCCAAAGTGATTTATCCC
TAATGGAACAGAGACTATTTAAACTTTATTGAGGGACATCCAAATCTTTCACTGGGCTCTCAAGAGAGCTCTCCAGAAGACTGTTAAAATATAGTCAGAT
AATATCTGCTGTGGAACTCATACAGGGGAGTTTAAGCTTCTGCCACTCAGGGTTCAAACATGAGATGGCCAAAACTCCTCCATAAGAATGAGTTTCCTGC
CTTTCCTGCCACAGCCAGGGACCCAGGTTCTGGACCTTGCTAATGAAGCCTGGGTGATACATGGAGGGATAAGCAGCAGCCTGATAAGGAGTAGAAATGG
GCTGAAAATAGGAAGGTGAGAGAACTCTGAGGAGAAGACTTATTTTTTTTTTTCTTTTAACCCTTCAGTTCCTTCCCCCTTTGCTCTGTCTTCTTATTAC
CATCTGACATCTTAGGGAAGCAGAGCTTTCAAGTAACAGCTATCTTAGGACACCAAACAAACAGAGCAGGTGGACTGGCTGTCTTCTGCCCTTGAAGTCA
TACACTAGTCAATATCTTCAGCTTAGTTTGCATTTGTGGCAATAAGATVTAAGTATATTGTGCAGACCTACAAAGTTTGGCTTCCAAAATGGCGACTTCA
TATTTTGTAAATTTATCAAATAAATGATTTTTCTTAATGTACCTTAAGTAGATGGAAATTKAGTTGAAATTTAAAATTTTGATTTTCAGAAGCTTAGGTG
CAATTGTATTTCTTTTTTTAGTGGAAATTAATCTCACTAATGACTACCGTGTCAGCGGAGGAGTTTCAGAAATGGTGTTTAAAGCAAGCAAGATAACTTT
TCACTGGGGAAAATGCAATATGTCATCTGATGGATCAGAGCATAGTTTAGAAGGACAAAAATTTCCACTTGAGGTAAGTCAGGAGATCTGCTGTGTACTA
TTTTATTTTCTAAATAATTGATGTTTTTATTTAGCATATAATTTGATTAATTTTAAAATCCAATATTAAAATTTATAAAGTGATATTTTGATTACTTGAT
TAATATACTAGACTAAGCTAAATTAATGTAAGACTTATCTTTGATTTGCCACTTGCTGGTAAGTAGCAACCCAAAGTGCCACAAAATGGTAATCAATAAA
TGCTGATGAATTAATGAATGAAGGAAGGAAAAGGGGGACAATTTCATTAACATACTGGAGAATCCTTTGATTTAAATCTTTTGATTAAAATGAGAAAAAT
TTTCAGCTTTAAAATTGGCAAAGTAAATAATTATAAAAAATGAGTGTGTAGTGAAATGTTTTCTTACATGTCTAGAGAAAGTCTAAATTGGTAGACTTTC
TGGGAAGCAGTTTGCTTGTTTTTATTAAGAATTTTAAATGATTTACACTAAATACCCWACATTTAAATTTAAAGCCATTTAGTCTAAAAATTTAAAAATT
GCAAAAATTTATTTAAAATATAATATTGAACCAAAAGGCAATGATTATTTAAATACATTATGATGGATATTATAGATTTCACAAAARTCATGTTTTTGAA
TGATATATATACATATAAAAGGCTCATGATAAGGTATTAATGGTTTTAAAAAGAAACATGTTAAGTGGTATAACCAGTATTATTTTTGCAATTTTTTAAT
ACATTAAAATTAATTAAATATTGACTGAGAGTGGAGTCTGAATCAAATGGACTAGGTTTGAATCTTGACTCCACCATTTGGTTATTGGTTACATGACATA
CAATATATAAATTATTTAACTTACCAATGCTTCCATTTTTCTTCCRTGAAATTGACATAGTAGCTGCACCTGCCTTATAACATTACTATGGAAATTAAAT
GAGGGATTGACTTATTACTCATAAAAGTAATTGAGGAGCCAGGCGCRGTGGCTCATGCCTGTAATCCCAGCACTTCGGGAGGCCGAGATGGGCAGATCAC
TAGAGGTCAGGAGTTCCAGACCAGCCTGGCCAACATGGTGAAATGCCACCTCTACTAAAAACACAAAAATTAGCTGGTCATGGTAGCACTCACCTGTAAT
TTCACCTACTCAGGAGGCTGAGGCATGGGAATCACTTGAACTCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCACACCACTGCACTCCAGACTGGGTAAT
GGAGTGAGACGCTGTCTCAAAAAAGAAAAAAAAAAAAAAAAAAAAAAAGCAATTGATGGAATTCAAGAAAATGCTAGTAATGATTTTCTCTGGGTGATGG
CATTATAGGTGCCTCTTATTTTCTCCTTTCAAGTTCCCATGTTTTCTAAAATACCTAGAATGAAACTATTCATTTTATAATTCAAAAGTTATTAATAATA
AAAATAAGATAGGGTGAATTACCTCTTAAAAGACTAAAAAGCTTTTTTTAAAAGATGGATATCGACATTCATTTACAGCTTATACTATGGATTTTTTCTT
TATTCAATATTTTTAAAGAAAAGCACATTTATCAAATTTGCTTTGTCAAAGTAGTCRAAGTCAATTCATTAAGCAACATATCACTTCTGAGAGTTTAGCT
TACTCACAATATTACCTATTTAGAACAAAGATGAAGTTCAAGAAAAATTCTATCAACAAGAGCCCTGAGCAATCAAAATACATGGTACAGAATCCATGCA
CTAAACCTAATACAATTATTTTAATGCRAAAGCCTCTCAAATTGTCTCTCAGTGGTATTGGGGTTTTGTTGTTGTTGTTGTTGTTGCTTTGAGACAGAGT
CTCGCCCTGTCGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCCACCTCCTGTGTTCAAGCAATTCTCCTGCCTCAGCCTCTCGAG
TTGCTGGGATTACAGGTGCATGCCACCATGCCCAGCTAATTTTTTCTATCTTTAAGTAGAGACGGAGTTTCACTATGTTGGCCAGGCTGGTCTTGAACTC
CTGACCTCGTGATCCACCCACCTCAGTCTCCCAAAGTGCTGGGATTACAGGCATCAGCCACCATGCCCAGTCTTSTTTGTTGTTTTAAAACACTCTCTAT
GTAATTGTGTAAGCAGGAAACCCAAGGATCATCCCTGGCTTGCTCCGTATTTCTTATCTCCTACATCTCACAATCAAGTCTTCTCAATTCACCAGGCATG
GTGGCTCAAACTGTCATCCCAGCACTTTAGGAGGCTGAGGCTGGAGGATCACTTAAGCCCAGGAGTTTGAGACTAGTCTGGGCAACATAGTGAGATCCCA
TTTCTACAAAAAATAAGAGAAAATAGCTGAAGACGGTGGCATGCACCTGTTGTCCCAACTACTCCAGAGGCTGAGGTAGGAGGATCACTTAAGCCCATGA
GGTCAACGCTGCAATGAGCCATGATCATGCCACTGCATTCCAGCCTGAGTGACAGAGTGAGACCCCCTCTCAAAACAAACAAACAAAAGCCTTATCAGTT
TTTCTCCTAAATACCATATGGGAGGTCAGAAAAAAGTTTGCTTACTTGGATTATTAAATTAATAATTATTAAGTTTTAAATCATATTTCTTTCGATTTCC
CATGCTTGTCATACTGTCTTGCCTAATAGGCCTTTGCCAGGTGGTACTTCTGACTTGAACACATGCCCTTCTCTTCTGCCTTTCACCTGGCTAAAAGCTG
CTCATTCTTGAAGGGTCAGTTTAGAAATCCTGTCTCTGAAAAGGTTTTGGTGACTCGCCCAAAGCAGGAGCCACTGCTATCCTCTGTTGCACACCCTCTG
TTTCTCCCATCAGAGCACTGACTATGCTTTAYGCTCTCAGAGGCTTCCTACTCTTACCTTAAGTCTACTTCTATCTAGCCTGAGACACCTGATTTCCAAA
CCCAGACAGGAGAAGCACCAAATTATATAGAGGCTGTTACAGAGAGATACATATATGGACTGAAGCAGAAATTAACAAGGGATAGCCTCACAGCTGGAAA
GGAGAATCAAAATATGAAACTTAAAACTCTTTTGGTATTTTTTAGGTAGAAGCTGAGAGTCCTTGAGAGTTTCAATATTAATAGACCACAATATGGGAAT
ATCAAAGAATGGTAACTCTGGACTCTCAAGAAAGGCATGCACTCTTGAGAAAGACAGAAAATTATATTTAAAATAATTCCATAAAGCAGTTAAAGTAATA
TATGATTATTTATTTTATGTAATTGTTCTAATAAATTTTACGGCACAGTCCCCTGGTAATCTCAAAATGGTCATTTTGGTTTTAGATATGTCTAACTTTC
TATTCCCTTCCTTATTGAAGGATGGTAAATGATAGCAAATGTAGTTGTATACATGTAATTTATAAAAGATTTTGGAAATACTTAGAATGTAGAATTCTCT
TTGCTGATTTTTATGAAGTCTTTGTGTATCATAAAACTATCATTGTTACTTTTATAGATGCAAATCTACTGCTTTGATGCRGACCGATTTTCAAGTTTTG
AGGAAGCAGTCAAAGGAAAAGGGAAGTTAAGAGCTTTATCCATTTTGTTTGAGGTAATATATAKACACTTTACACTAATGTAATTCCTTTTTAAGTCACA
TTAAATATTGACGTGAAATATCAAGACATAKTTTCTAACAAAGAGAGGAGCTCACAAGTAAAATTAAAACTGGTGGTCATTTTCAAAAAAAGATGACCCT
TGCCTGGTATTTTTAAAAGGAGACTCTTGTGTTTGTTAATTGGGTGAATCTTTTCTAGCTGGGGCAAAGTGTTCTATTAAGTACACAGATTTGCTTATAG
TACATAAAAGCATCATATTAATAATTATGTATTATTATCAGTAACTATGAATCATAAAATTTTAAAATTTACTTTTCTTAGTGAAATATGTAAGTTACCT
GGTTTTTGTTTGCTTTATTTGTTTTCACCTAGCTATAAAAAAAGTGTTTTTGGAACTTACTATTTTTTAATGCACATATTTAAAATGRAATTCATTAATC
TTCACATTTTTATTGAATAGTTATCCAAATGTTTTATTCTTTTTTTAGAATGTGATTCTTTTTTAACAGGTTGGGACAGAAGAAAATTTGGATTTCAAAG
CGATTATTGATGGAGTCGAAAGTGTTAGTCGTTTTGGTAAGCTACTTGGGGAACTATCTTTCTTCAGGATTCTGCTTTGGATGGATAAGAATGTTGACAA
TACGACAAAAGTCACTTGTTCCAAAAGGTGGAAAGTACTACATTTTTRAAGAGGAGCAATCTCTCACTTTCCACACTTGATAATTTATACATTTCTCACC
AAATAAATAACAATTTATCAGAAAATTTTGTTACATCAAAAGCATGAAACATTAATGTAAGTAGGAAATTGAAGTTTTTAAAATTCTTGAAAATAATCTA
ATTATATCATGCAATTAAAGCCTATTTATCTATTATGTCTCTGCATTATACATCCGTTAAAGACTAATTCCTAATCTGAAACCAGCTAATTTTATAAATA
TCATATTTTAAAGTAGAAAAGGAATTGTTACTCAAGTTAAAATTTATTCCCTGGTGGTTTCCTTGATAAATCCTTTGCTTTATCAACATGAGGAGATGAG
ATTTTTGGAAGAAGGTCAACACTTACATAGAAGAAGATGCAATATGCTTTGACATTGTTCTGCCTGCTATCTCATGGATCTTGTAATTTGTCACAACAAA
TGCTTTTAACAACATGGGCAGAGGAGTGTAAGCCTATTAATTTTACTATTTTATTTTTATTAAGCACTCACACACAGGATCTTAATGCTGCCCTGAGTTA
CCAATAAAATGAGGATTATTCCTCTCTGGAAGCTGCAAAATTTGAAATCAGAAACAAAACTCATGTAGATCCTTTTCTTGAAAGCAGAAGCCTGGCCTAG
GATTGATTTATCATTGTCAATTACATGTGAGGATCTGAATTGACCCAACTTTTCAGAAGTCAGGAATATGTGAACTCCTGCAGGGTAGCTTTTATTTTTT
TTTTTTTTTTAGAGACACAGCACAAGATGAAGCTGTTACCTCCCTCCATCAACCCAGATTGCAAAATTCTACATTGAATGCGATAAGTCACATTTAATTT
TCCCCACTTGAGTCACAAAGTAGATTCTATCCAGACTGAAATAAAACAACTTGTTTGAATTCCTATACTTAAAAAAATGTGTAAGATATGAATTCTGAAT
GTTCCAGACCTTGCACCAGCCTGTGGGGACAATGAAAGAGATGTTAACACTGGGTTGTTAACCCTGACTTGTGCAACTATGGGACCTTTGAGACTTTCTC
TTAAGGCCTCTTTACTTTCCCAGGTACTTTACTTTTTGGGGGTGCCTTGGAAGGCACTCATACGAGCTTGAGAATAAACTTGCTCATGTTCTTTAAAATT
TCCTTTCTAATATCTACTGTCTGAAAGCCATTCAGGAAGATACTTTGTCAGATACACTGTGACTACATATTCTCTCCCTTTCTGAGAATATGGATTCCCT
AACAGCATTATTCTGCCTATATTCTGGCTCTTAATTTGAAAGCAGAACAGTTCTTGGATTAGCTGAGGACGGATTCTAGTCCTTTACCCCCTCTCTCTCT
GTCTCTCTACCTCACTTGTATTAGTCCATTTTCACACTGAGAGTAAGTGATGTGTAAAAGAAAGAGATTGAATTGACTCACAGTTCTGCATAGGTGGAGA
GGCCTCAGGAATCTTACAATCATAGTGGAAAGCAAAGGGTAAGCAAGGCATGTATTACATGGCAGCATGAGAGAGAGAATGAGAGTGTGAGCAAAGGAGA
AACTGCGGAACACTTATAAAGCCATCAAATCTCGTGAGAACTCACTCACTATCATGAGAACAGCATGGGGGAAACTGCCCCCATGATCCAATCACTTCCC
ACTTGGTCCCTCCTCAACACATGGGGATTACAATTTGGATTACAATTCAAGATGAGATTTGGGCAGGGACACAGAGCTAAACCATATCACCACTATTTGT
GCACCAACTTCCTCATTTACCAAAAACCAAAATCCTTCATGCCTATCCACTCATTCATCTGGATACTTAGTATTTCAATATACTCAGCAAGGACAACTAC
CCAAACCAAATAAGTTAAGTCTTTCTAAAGTCAAACGTTTCCATTTTGAGAGTTCTTGAATTAAATCCAGTCTATTTCTGACTCTAGAAAATCCCCTACT
GCCCAATAAACTGAAGGCTCCCCCATATTGGCAATCAGACATTGCTGCTGGCAACCTTGAGGATCAAAGGTGGGACTTGTCTTTAGGCAGTGATTCTGGA
ACCACAGCTAAAYCCCCAAATTTGGCTCTGTATTCACCATATAATGTAAGTTATTAAAAAAAAAACACCTTTTCAACCATTATTCAGATTATAAGATCTA
TCTTACTATGCTGTGGGCTGGTTGCTCATTTCCTGTTTCCTCTCTAAAGGACAAAGCCCATTTCTCATTCCTCCCCTCAACCCCTCTTTCTTTCTTTCCC
TCCCATCCACCATACCTACTCTATGTTAGGCATTATCCTATCCATGGAGTGGAGAGAGAGAGAGCATGATGTTGCAGCAATACTGAGATAATGAATTAAT
ATTTTCCAAGCAGAGCCCACAAAAGACRTTAGTTGCAATCTTTCGAGTTGCAGGGAAGAGACACATCCCAGGTAACATCATCAGTGATTATCTGATGGAA
ATTCTCATCAGACTGATTTATAGTGCTTTCTTAATCACAATTTCAGCCCAGAAATTTCTGTACTGAAAAGTCCTCATAGGCATTGGTGTGACCCCATGCT
AAATATCATTGTCCTAAGTAATAGGAGCTGGTTTTATGTAGTTACCAGCCTTTCTCTAGTGCTTGGCCCTATTGTGGTTTCTTCATCTTTGTTCCTCCCC
ATCTTTTTTCTTCCACCATTAGCCTTCTCATGGACGGATCTGATTAGTTGGTTGGTTGATCATCATTACATGTTCAAGCAAATAATGATTGCAAAAATGA
ATGACTGACCCCAAATAGAGCAGCACTGGCTCTGCTGTGCTTCTCTCTTGTGTTAACAATAGTGAGGTTACTTGGATGAAGCAGGTGTTTTTTTCTCAAG
CCAACAAAACAAAATGAAAACCACAAACACAAACAAAGGAAAACACTGTAGTGAAATTTTGTTAGAAGAAAATGTAACTGAAAAGCACTTCTGTAATTTA
AAAATCTTGTGATATCTAGTTACCACATCCGTAAGAGAGACCAGGTGACTGCTATTGAGGTCCAGAGGCAGAAGAATGGATTCCACATTGGGGATAGGGA
GAGGAAAATGAAAAAAAAAAAATCTTCTTCTGATTCTTTTGCTTCTTTTTAAATTTTTTCCCCTTTAATTTCTTTCCCAATAATAGGAAAATTCTCTGTC
TCACTCTCCTTACTCAGGTCTCACCTCTGCTTTCCCTTCCGGGCCCCTGGCTCTCCTGGGGTCAATTCATTTCCACCTAACTTAGCAGCGAGTCAATTTC
TGGCTCTTTACCTAATTAGTATTCTCAACACACACATTTTTCATGAAATATTTGTAAGATAAATTTAGTCTTCAGTGGGAAAAGGAACAATTACAGTCCA
CTTGTCAGTTAAGGAGGTAATTTAACTACAACACTTTTCTAGTATTGAAAACATAAATCTAAAAAACATTCACAGATTAAAAAAAAATATTCTTCTTAGT
TCCTGAGAACTTGAATCTAATCTGAATTCTGATCATGTTATCTTGGCATTGGAGAAGAGGAGGACATACTTTTAGAAGTTACTAATGAATCCGTTAAATC
AAAGAAAACTTGAACTTTCTAATGGATTAAAACTACATGTAGGACATATTGACGTGACTATCAATTCAGTTAAGAAAAGGTTTTTATTTCTAAGATTCAG
TTGTTAATTCAGACTGAAGCAGTTGTCTGTAACTTTAGTTAATAACAGTACTCCTTTTCCCTTCAGAAGTTTCTGTTACAGAAAAGTTAACATTTACTAA
TTTAACTTTTAAATAACTTATTTTTCTTTGAGGCTTTCTGAGTATGTTCAGTCTTCATAGAGTTTACAGCTGGAATAGACTTTTAAGATCAGATAGTCTA
GTCATTTCGTATTCTAATGTGGAAAGTGTGGTTAAGAAAGACTAGGCCGGGCGTGGTGKCTCACGCCTGTGATCCCAGCACTTTGGGAGGCCGAGGCGGG
CGGATCACGAGGTCAGGAGATCGAGACCATCTTGGCTAACACRGTGAAACCCCGTCTCTACTAAAAACACAAAAAATTAGCCAGGCGTGGTGGCAGGCGC
CTATAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCTGGGGGGCGGAGCCTGCAGTGAGCCGAGATAGCGCCACTGCACTCCAGCC
TGGGCGGCAGCGAGACTCCGTCTCAAAAAAAAAAAAAAGAAAGAAAAGAAAGACTAAAACCTTGAAAAGGCTTCACTTTACTTGGGATTTTCTACACTAG
CCTACTACCCTGCATGTTTGCATCACCTGGGGATGCTTTTTAAAAATCTAGATGMCCAGGCCTGACCACTAGAGATCTTAATGCAAATGGTCTAGCGTGG
GGCCTGAGGCATTGGTATTTTTCTAAAACTCCCTGGATTATTCACATAAGGATTAACACCACTGCTCTACACTCCGCCACCTCACTTAGACTACACGGAT
TGGCTTCAGGGACTATTTCTTAATGGCCTTAATCTCATAGAGAGGGCAGAGGACTTGCACTGGGCTGGGTAGTTCAGGAGATAGGAAAACAAATTAGACA
CAGATCTCACTGGTAAGTAGATTGCTGCCTACATGAGTGAGGGCTGGTTCACAAATAGCTAAATGACCAAGGTATTGCTATTGGTAAGTGCTATTGGACA
GATACAAATGAGACTATTCAAGGAGACAGATATATTTGGATTGTTTCAGGGTTTGAAGGCCAGATGGCCCACCTAAGAAAACTCTACCAGTTTTTGGATA
GAAATTCTATAATCTGTATACAAGTTTATATATAAGAATARACCCATATTTATTGGTGTGTGTGTGTGTGTGTGTGTGYRCACACACAAACACATCTGTG
TATATTGTATCAAAAATATTTTTTTCCACTCTTTGGCTTTCCTTTTAACTCTCTTAATGACTATTGATGAATAGATCTTGATTGTCATATACTAAATTTT
ATCATTTTTCCTTTTATAAGTAATATTTTTTGTGTGCCATTTCAGAAACCTCAACCTACCATTAGGTTATGATGATAATTTTTTAATGTTTTCATTTAAA
AGCATTATGAATATGTTCATTTAAATCTGCAATCAGTTTAGAACTGATTTGTGCTTATGATGTGAAGTAGGGAATCAAGATTCACTTTTTTCCATGAGGA
TATTCAATTGATATAGCACTGTTTATTGAAAAGACCATCCATTCCACATTCCATAATAATTTTTTCTATCATAGATCAAATGATCATATTTTTCTCTTTT
ATTTTCTCTTCCATTGTTCTCTTCATCGATCTTTGCACAAATACCTCACTATCATAATTTCTACAGCTTTATATGTAACAGTATGACAGCTCTTCCTATC
TGGTAGTGAAAGTTTTCCAGCTTTATTATTTTTCAAGATTGTCTTAACTTTTCTTTGGATTTTTATTGAGATTTTAGAATCAATATGTCAATTACACACA
CAACCTTCTGGGATTTTAATTAGGATTTCATTGAATCTATGAATCAATTTGGGGAAAATCAACACCTTCACAATACTGACTCTTCCAACCCATGAACATA
ATCTTTCTGCCATTTTAATATTTATTTAATTCTCTCCAGAATGTTTTGTAATTTTCAGTGTAGATATTCTACACATTATTTGTTAGATTTATTTGTATTT
GATAATGTTTTCCTATTTTAAATCATATTGCTTTAAATTTTATTTTCTGTTGTTTGATGCTGGTACACAGAAATACAATTGATTTTTGTATATTGATCTA
CGTGCAGTGACTTTGCTAATTTCACTTATTATTTCTCATTCTCTGTAGATGATTTTCTTTCTTTCTTTTTTTTTTGAGATGCAGTCTCGCTCTGTCACCC
AGGCTGGAGTGCGGTGGCGCCATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGACTCACTCTCCTGCCTCAGACTCTTGAGTAGCTGGAACT
ACAGACACGTGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGCAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGAACTCCTGACTTCGTGA
TCCACCCACCTTGGCTTCTTTACAGGCGTGAGCCACCACGCCCGGCCTGTAAATAATTTTCAATGTTTTACATGCACAATCATGTTATTTGCACAYTGTG
ATGGTATTATTTTTTCCTATACAATCTTAAGATTTTCGTTTCTTTTTTCTTTATTGCACTGGCTCAGTCTTCCAATTCAATGTTAAATAGAAGTGGTGAT
GGCAGGAAATCCTGGTGTCATTCTTGATCTCTAGGGGAAACACTTTCAATAAGTCATTCTTAAATATGATGACTAGTACAGGCTTTGATGATCATCTTCA
CCAGAATAAGGTTGTGTTTTTATTTTCCATGAACTGGTATTGAGTCTTATGAAATGATATAACTATATCTATTGAGATGATCATCTGATTTCTGAGTATT
TTTATATGTAAAATATTCTGTTCACCATCTTGATGTAAAGATAAGTCATCTAACACTGTATAGTGACATGTGTAATACAATTTGGGGCATGCCAGCTTTA
TTACCATTTAAAAATATATCTAAAATGTTTCAAAATCTCAGTTTTGATTAAATACATAACAAAGCATGTGTCTCTGTTTCATAGAAGTTTTGAACAGCTA
AGTTCCAGTGTTGAGATTCCAGCTGAGATGTATATTATTCCTTTTTAGGGAAGCAGGCTGCTTTAGATCCATTCATACTGTTGAACCTTCTGCCAAACTC
AACTGACAAGTATTACATTTACAATGGCTCATTGACATCTCCTCCCTGCACAGACACAGTTGACTGGATTGTTTTTAAAGATACAGTTAGCATCTCTGAA
AGCCAGGTAATCTTAGAAATTCAAACAAATCAAGTAATTCAAAGCCATTTAAAAAACATTATGTTCTAAGTTTGCTATAAAATATCCATTTTAAAGCATT
TACCAATGCCTTTGAAGCAGATATGTTAAATTATTTGATCTTTTTTTCAGTTGGCTGTTTTTTGTGAAGTTCTTACAATGCAACAATCTGGTTATGTCAT
GCTGATGGACTACTTACAAAACAATTTTCGAGAGCAACAGTACAAGTTCTCTAGACAGGTGTTTTCCTCATACACTGGAAAGGAAGAGATTCATGAAGCA
GGTATGTATTTAAATATAATCTTCTACAACTCTCATAGATGCAGTGTTATAGGAGGTAATTTTGGTAAACTGACAAATATAGAGGACTTAGAGCTTTAGA
AATGTTTTAATTATTAATTTTGTAGCTTTAGATAAGCTGTCTAATTTTCTGAATATCAGATACCACATCTATAAAATGGCAACTAAAAAAATCTATTCTT
CCCATAAGAATAACCCCATTTTACAGATGAGAAAAACTGAGATTTAATAAGGAAAATCATTTTTCCAGAATACACAGTAATAAGTAGCAAAGCAAAGTAC
ACACCTCCAAGTTCACTTTCTGGTATTTGCCTGGGCTGAGAGGTATGAGAAAGGAATGAATAAGAGGCTGAGGTGTTCAGAGCTTGGGAGATCATTTCTG
GTTGGGATAATAAGGAAAACTTTATGGGAGAACCGCCTTTGAACTGAGTCTTGACACAGTATTTGGGTTTTAAAGTGCTCATCTTTGTGTTGGCAGCCCC
CAAGAAGGAGCCTAGCACCTTATCAGTACTGAAAATAAATGCACTGAGTTATTAATGAATAAGAAGTGAATCTTCTTCCCAGTTTCCTTCTTTGGAGGAA
AAGAAATTTGCTCTTTTTAGGTACAGCCAAGGGAAATGACACCAGAGGGGTGTCTCTAGAATGCCGTCTGTTTTTTGAAGCTGACACAGTAGTTAAAAGC
ATTTTTAAATGTCCAGAGAACACAATCAGATACATCTGCTGACTTGTCCTTTTCAGTTTTTACTGAGGTTGTCACTTGTTCATTAAAGAAGTCGTTGAAG
TGACCTTTGCACTGGAAAGGACTTCTAACCTTTCCAAGTAGATGGACCTCTTTGATATCAGTCCTGCAATGAATTCAATGATTTTTTTTTGCCATGTATA
ATATTAATTTAATAATCATCTGCTTTTGAAGATTAGGCATTAAAACAACAAGCTTTTATTGTTTTAATGTGATATTTCCAAGAATCGTTTATCCTTTAAC
AAAAAAATAGAATTCAAGACAACAGTGATGAATAGCTATATTTACTATGACACTAAATTTTAAACTAAATTGCCCCAAAGTGAGGAAATTTAATTACATT
TCTATCAGTAGTACTAAATACTATAGCATACTGTCCAGTAAATAATAGACAATCGATTAGAAAAAAGAAAGTGGATTTAACCATCCCCTCTTCTTAAATA
TAATAGACCAAATTACTAATTAAATAAATATGATTTTTTTGTCACACAGTTTTATCAATTCTGTTTTATTAAAACCCTTCACTGGTTCTGCATCACTTTT
GGAATAAAGTTCAAACTGCTTGTTATTGCATGGCAGGCTCTGTGTAGGTTTACTAGTCTTAGTGCTTAAGCCTCCCCAACTAGCATCCTTCCCTTACATT
GAACTCCATGAAGTCCCCTGAAGATGCAAGACCACATTCTTCCAGGTTGCATTTGTACATTTGGCTTCCCCATTGATGGCATATTCCTCTCCACTGTCTT
CATTTCCCTGCCTCCTCATTCTTCAAGACTCAAGTTGAGCATTGCATCCACTAGGAGGCCATCTCTGACTCTGCTTCTGTCCCCCTAAGTCTGGCCCTGG
CAATGGCCACAGGACTGCACACTCAAGGAGACACCATACCCATAGATGGTAAATGGTGCTCCTCTGGAGGTTGTACGATGTGCTCAGCTTCTCCAGACTT
CATAGCAGTTACCACATTATGGTAATTGTCTATTTACTTTTGTGTCTCTGCCAGCAATCTCTGAGCCCCATAATGGAAGTAAATAAGTCTTTTATCTCTT
TATCTCCATGGCCAAACTAAAGTAAAGCTCTCTTTCACTAAATATTCACTGCATGGCTGAAAGACTCCATTTCCACATAATAAAAACATAGCAAGTTATA
CTTAATGGGTGCTTCCTGCACTGTTTAATGTGTAGATCTGTATATAATTCTGATTTAATGTAGAACATTGCTTTCACAGTTAAGTGTTAAAGGCCCAAAG
TAATAATCCATAATAACAAAAACAGTAATAGCTACTGTGTATTGTGTGACTCTACCAGGCATTGGAACCAGACAATATTTGACGTAGACCTCACTTCACT
CTTATGAAGTTGGCCTCATTGTCTTCATTTTACAGTTTGGGAAGCTGATATTAAATGGCTTGCCCAAGTTTACACAACTAGAAAGGAATGGAGTCAGTAT
TTGAACCCAAGTCTCCCTGAATCTAAAGCTTTGCAAACTTCTGTCCACTGTACTTGACATTTATACAGGAACATAATTTCTGCTTACATAAAAAACTGAT
GACTTTAAAGACATGAAGCTTCAAAAAAATAGTAATGGATTTTGAGTGTTTTGTTTATCCTAAGGTCAAACACAGAAACAACACTTTCTTAACTACTTGG
TGTTTTGGGTTCTAGAAATACATGATAGGACCTATAAAGTAAGGAAAATAATTTTCTTGAATGGAGCTTGTAGGAATYGATTTTATTCCCTTAGACTATG
TGTGTATATTGTCACAGAATTTCACATCCCTGCTGCAATACTATTATGACTGCCATAGTAATAATAATTTATTTATCACCTATTTGTCTGTGGTTTGGTT
CCAAAATAAATGGCAGAACTAACTAGAAAAACAGCAACTCAAAATAGACTCACTCATTTAAATTGAAGGGACTTAAATATGCAATACTTAAGGAAAAACT
AGAAAGTTTAACAATAAAAATGCACATTTACAGGCTGTTTTTGTTGTCTACTTATCCTATATGTGTGCCTTCCCCAGCTTCCTCAAGAAAATCCAGTCAC
ACCAACTACTTTGTTATGTTTGTATTTTTGACTAAATATTTATGGAGTGATGGGGAGAGGCTACAAAACTCAGCATCTCATCAAAATATCTGCCTACAGC
TTAGACAATATTGCTTATATAGTGTTATCCGCTTATATTGTATATCCTTAGGATAAATAAAAGTGCTCAAAAGACAATCCTAGTTTTTATTAGTGTTTTG
TATCTTTATGGCCATCAGTTTTTATTCTAAAATTATGTTAGCAGAAACACATCTCTTCTGCAGTCTCCCTTGCTGGGCCTTAGAGTCTTTGCCTTCAGAT
TGTTTGACCCTCCTCTTTGGTCAGTTCCCCTCACAGAGTCTCAGCTGCTACCCTCATCCCACCCAAGTCTTCACGTCTTCTTAAGGCAGGAAAATTAGCT
TTGTCCCAGGTCCTTCAAACTTGCCTGCCCGTGCTCATCCTAATGAGCTCAGCAATCAAAAAAGGCCCTTTTTGGTAGAATGATTTATTTTCTTTTGGGT
GTATACCCAGTAATGGGATTGCTGGGTCAAACGGTAGCTCTGTTTTAAGTTCTTGAGAAATCTCCAGATTGCTTTCCACAATGGCTGGACTAATTTATAT
TCCCACCAACAGTGTATAAGCATTCCCTTTTCCCTGCAGCCTCACTAGATGCAATGTTTGTTGGCTTTTTAATAATAGCCATTCTGAATGGTATGAGATG
GTATCTCATTGTGGTTTTGGTTTGTATTTCTCCGATGATTAGTGATGGTGAGTAGTTTTTCATATGTTTCTTAGCAGTTGTATGCCTTCTTCTAAGAAGT
GACATATGCACTTATATGTTCATTGCTGTGCTAGTCACAATAGCAAAGATATGGAATCAACCCATGTGCTCAGTGGTAGATTAAAAAAATGTAGTACATA
TACACTATGGAACACTACACAGTCATAAAAAATGAAATCATGTTTTTTTGCAGCAAGATGGATGGAGCTGCAGGTCATAATCCTAAGTGAACTAATGCAG
GGACAGAAAACCAAGTACCTCATGTTCTCACTTATAAGTGGGAGSTAAACATTAATTACACATAGACATAAACATGGGAACAGTAGACACTGTGGTGTAC
GAGAGAGTGGAGAGGTGGGTGAGTTAAAAAGTCTCCCTATCAAATATAATGCTCACTAGCTGAGTGATGGGATTTGTACTCTAAACCTCAGCATCTTTTA
GTATTCTCATGTAACAAACCTGCATATGTGCTCTTCTATCTAAAATAAAAGTTGAAGTAAAAATAAATAAATACATAAATATTTTTTAAAAGGGGCCCTT
CGTTTGCCAAAACATATCCCCTTCTAGGGGGGATCAGAGATGATACAGAACTTTTTTTTTCTGGTTACATAGACTAATATGCACATTTATGATTTTAAAG
TTTCAATCATTGTCAAAATATATCATTTTGAGACAGCAATGAAATAGAAAAGTCAGGTCATGTTGGTTGGATGAGTCTCATCCATACAGTTACATATTCA
GTCGATTCTTTTTTGGATTTAATACAAACCACTGTCAAATAATTAATATGCCCTTATGCGTATAGGGCCTTTCTGATTCCTCTTTCTTCTGAACCATCAT
AATCCCTGACCTGCAGCTGTGGCACTTTGCCTTTCTTGCCTTGCTTCAGGGGTGTTTATGTGCATGCCTTAGTTTCTTAGTAGATCCCTGTCTAATTGAT
CTCAGTGTTACCTGTAACATCTGATAAAGTACCTGGCAGGTAGTAAGAGCCCTTTGATTCCTTGATGAATGGTGAATAAGTGAATGAATTAAAACATTGG
CCAAAGCTTACTCATGTCTAAGCCTCTGGGGTTAAAAAGAGCATATGTGTTATTGGCAACAAACACAGAAGRAATGACTGGCTTTAGATTTCCAGACAGG
TTGGAGCCAAGTTCTTCTTGCTGAACATCCTTTAAATAATTTAAAATTTGCAAAGCCTTCAGAAGAATACAGTACAGTAGGATTAGCATGTGTGTACAGT
TCATGTTCAAAATTAAAGATCATTCCAGGAAAAGAAAGATTCTAATTTTAAAAAGATAGTATCAGTATTATGACAGAATTGTTATGAAATAGTTTCCTCT
GTGACTGAAAAAAATAGCAAATAATTTACATTCTTCATTTTGACTCTGTTGATCCTCTGTAAAATTATTGTACTTAACAATAATGAACACCTAGCATATC
AAGATTTATTATRTAATAATTTTTATAGATGTCCATTGTATAACAGTCTGCATTTACTGAAATCATTATAAAGAAGTGAGCTACTTGCTTTTATTTTTGC
AGTTAAAAAAGAGGAGAAATGAATCTGATTAGACCCACAGAAATTAGTTGTTTCTTTCTTCACAAACTAGGACTTGCTGTTTCCATCACGAGTCTTTACA
CTCAATAAGCATTTATTATCATTTGTCCTGTGCATAGAAATACTGTGTTCCTATGAAAGTTTTTTTTTTTTTTTTTGAGTTGGAGTTTCACTCTTGTTGC
CCAGGCTGGAGTGCAATGGCACGATATCGGCTCACCGCAACCTCCGCCTCCTGGGTTCGAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTAC
TGGCATGCGCCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTAGTCAGGCTGGTCTYGAACTCCCGAACTCAGGTGATC
CGCCCACCTCGGCCTCCCAAAGTGCTGGGACTACAGGCATGAGCCACCACGCTCCACCGAAAGTTTTTTCTTAATGGATATACTATCTCCTTCGGAACTG
AATTTGAGAATAAGAATTGAGGATTGTATTTATATTCAGTTTTGATTTTTATTAAATTCAATCTGAAAATTTTTATTACATGAAMTTATAAAGCGTAGAA
AATATAGATAAGCACACAGAAGAAAATAAAAATACCCTGTAATTACACTACCCAGAGATAACTATTATGAAGATTTTGGTAAATATCCATCCAGATCTTT
CTCTGAAATTTTTTAAAAATGTTATTATACTTCACAAAAAATGAGAGTATACCACATGTCTGTTTACTGATTTTTTTTACTTCATATTATACCTTTAATA
CATCATTCTTAATTTTATGTTGTATTCCATCATATAGTTATAACTGTATATTAAACCTTAACCAGTTCCTCAATTTTGGACCTTCAGTTCATATATTTTT
TGCCATTATAAATATCTAACATCCTCATTTTGACCAAGAGGAGAAGTAAAAGCTAGCATAAAAATTGTCAAAATCTTGCTCTCAATAAATGCATTGTAGG
AAAATGTATTTTTAGAAATACATTATAAATAATCGCAAAAACCATGTGAGATTTATATATTCATATAAACTCTGTAAGGTTAGAGACCAGGCCTTATTCA
TTTTTTGCATTCAYAGCAGGCGCTCAATAGATTATTTGTGAATTAATGCATATTTTATCTGTATTTCCATTTGTATGGAGAGTGCCATTTATTAGGAAGG
CATTTCTTTTTGGCATCATGGAATGGACACTGGYTCTTCTAAGGATCACAGAATTTAATAGAACCATCTGSTCCTGAAAGAGTTAGTGAAAACTGTCTTT
TTTTTTTTTTTTTTTTTTTTTTTTGACAGAGTCTCTCTTTGTCACCCAGGCTTGAGCACAGTGTATCGATCTCTGCTTACTGCAGCCTCTACCTCCTGGG
TTCAAGCGATTCTCCTGCGTCAGCCTCCCTAGTAGCTGGGACTACAGGCGCATGCTACCACGCCCGACTAATTTTTGTATTTTYAGCAGAGACGGGGTTT
CACCATGTTGGCCAGACTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCCTCACCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCATCGTGCTT
GGCCAATAAAAACTGTTTGTTTGTTTGTTTTTTAAATAATGAGTACTACATGTGAATAACAGTACAAACATAGCAAAAGTATGAAGTAGATTAAGTTCAA
CTGTATSCACGCCTTCCAGGCATCAGATGCTTTCATGCTGCCTTCTTACCACCTTACAAGGTTTTTCTGCTAAGAAGCRGGGACCTGCTAAAGCACAGGG
GGGAAAAWCAGACCTTAAAGTTCAGTAGACTTGATTTTAAACTCCAGCACCAATACTTATTAGTCATATAAAAATTGTCAACTTACTTAAACTCCCCAAG
CTTCAGTTTCTTCACCTATAGAATGGAAAAGTTAAAAATGGTCACCCTATAGGGTTGTGGTGAGGTTTAAATGACCTAAAATTTGCAAAGCAGTACAGTC
CCTTGAATGTAACGTGCTACTGACTCATAACTAGTATCATTGTCATGTGTATATATGGACAGCCAAGATATCACAGTGAGTATGGTATACTATTCAAGTT
TTTCATGATTAARGTGTTCTTAAATAATTGTTGAATAGAATTATGGATGCACTTCAAATCTCATTTGCTAGCATTGTAATATATTTAATACAAACTTAAA
AAAACMAAAACAATAAAAGATAAAATAGTTGTCAGGACAGAGTAGCATAAAGGGAGTGTCTTTGTAGCATAATATTTTGACCTATGAGAAATTTTGTACA
ATTTCCTGAAAAAACGTCATAATGAATTATACATTAGTAGACTTACCTTCTTGAAGGTCAGTGGGTTGTTACTAGCATTTGTTAARGTCACATGTATGTA
AACACTGTACTGCACCTATGTTTTAAAAAGTGAAATGAATATTATTTACTTCTTGGAAGATTATATACTACAAATTGAACTGTTGATGAAGTCACTCTGG
GTCCCTAAAGACTGAGTGAAAGAGGTAGAATTAGAAAGACTTCTTTTGGCTATTAATCTAAAGTGAATATGTAATCATTCAGAAGTACAAAACAGGGATA
GATCTTTTCCAATTACATTCAGCATTTGTGTCAATGTTTACATTAGTTGTTTTAGGATCTGCTACTGCCTGAGGAGAAGTCACAACCTCATTGGTTACCT
TCTGGGTCTGTAAGTCATTCAGCTTTTCTCTCAGCAGTCATTGTCTTACTACTTTTAAAAATGAGGCTCATAAACTTCAAATAAGGAAGTGGTGGACTTA
TTAGCATGTATTTACGAAGCACTTTTGGCATGAGCTGTGTTATACTGTACAGAACTTCAAATTAGTGGGAAATAACTGAGTGAGACCTAGTGTAGTCTCA
GGTAATTATGACATTTTCTCTGCCACTCCCTAAGAATCACCTCCCTGCCATTTCGTATCAATCCATATTTTACTCAGAATACCTGAAGCTAAGACTGCGC
CTTTTCCCTCAGGGCAGATTGTGCTTCTTCCAAGGCAGGCTAGAGAGGAACAGAAGTGGAAAGAATCTCCTATCTCCCCTTGGTCATCTGCATCAACTTT
CTTGATTAACAAAGATTTGTCACAGCCAAGGAATGCATTTGCATTTCTCTGTCTCTTTTCTTTTTTTCTTCATCATTCAGTGCTTTGCTTATTAATATTT
TAGCACCGGTTCCACAGATCACATCCATTCCTACGTACTAGGTGTTCACTCTTCATTTAAGTAATGAGAGGATGAATGATAAAGCACAGGACTTTGTGTC
AGCTAAAAGTTTAAGAAGCTTATACCATTTTTAGTAGGAAATGTGTATAAATTTGAAAAGAATTTGGCCTAAATGGCAGAATTTTTCATAAGTTTTTTAT
ACATTCCTCTATCAATGGAGTGCAGAATTTAGAATCTAAAACCACTCGTTACATCTGAGAGCTTACTAAATCTAAGTGTTTGAAAGCTATCACAGGAATG
AGCATCCTAAAGGCTGAGACACTATCTTCTTCTTCTGTATGTCTAGAGTGCCTAGAACCAAGCAGATGAGAGTGGAATGCCAAAAATAAGTTTTTAAAGC
AAGAACATGTATAGCTCCCTGATAAAGGAGACTACATTCTCATTCTTTATAGTGAGGATTCTTTGCTCACTGCTCATGTATGGTGCAGTGCCATTTACTT
GTACTCTACGTGACTTGACGTGGGCCCCAGACTCACAGCCAGAAGCCTGCACTAACCAGTAACTAGGTTCTCCTTCTTAGCCAGTGTGCCCTGAAGAATC
AGTAACTATGACCCAGATCACATGTAGACATGGAAAGGAATCAGTATGTGAGATATAGGCCTGAGGGAGAGAATGAAGCTTCAACAGTTTCGAACTCCTC
ATGATCAGGAAAATTATATTTTTGTTACTATTTTACTTTATAGTAGCTTGTATTTGATGTCTGAGTACATATTGATCTGGAAAAATGTTATTGATTTTCA
ATCCAGAAAATGTACTTTACAGAGTAGGTATGCTTCTAATAAGATAATTGGGCTGGCCGGGTGCGGTGACTCATGCCTGTAATCCCAGCACTTGGGGAGG
CTGAGGTGAGAGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGACCATCCCGGCTAACACAGTGAAACCTCATCTCTACTAAAAATA
CAAAAAAAAAACAGCCGGGCATGGTGGTGGACACCTGTAATCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATGGTGTGAAMCCAGGAGGCGGAGTTTGC
AGTAAGGCGAGATTGTGGCACTGCACTCCAACCTGGATGACAGAGCGAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAACACAAAACAAAAAACAAAGAT
AATTGGGCTGATTTCAATAGGAAATATATGCAAAACCTGGGAAATTTAGTGTCTATTAATCACTTCTTCTATGGTCATTCCATGGTTTGAACACCAAATA
GTGTGTATGGAATTAACTAAATTGTTATTTAAAAGATTCAGCTCTATCTTATAGAAAGGAAACCCTTTGGCAAGATCATAAACTACATATAGAAATATAG
GCTTTTCTGTTAATAACATTCTAAAGTATGYATGTTTTTTTCACCATAAGAGCCTGTGTCTCCACATCTAAAATAAAAGATTTACCTGAAGCTTGATAGC
ATACAACTATATTGTTGATTAACAATAAACACAGGTATTTAAAAAGTAAATTTCTAATTAAAATATAAACTCAAGCTATTAAACAAATAACTAACAAACT
CTTACAGATTTACAAGGAGGAGAACAAAGAAGTGAAAACTTATGGGCAAGAAAATATAACTTTCTTTTTGGAGCTCTACTTTATATTAATGTTGATTCAT
AAATTTTGACACGTCTACTGATTGCTACTACTAAGGCGAGACAAACATAGACATCCAACCAAAGTCGTTTCTGCTGCTTAGGCAGTAGTCCTTTGGATGT
TTTGCAATGAATCCTTTATTTTTTTCTTAAGAGATTGTTATGCTTTGTATGTATGCATAAAATTAATGCATTTCTTTTTTTTTTTTTTTTTTTTTTTTTT
GAGACGGAGTCTTGCTCTGTTGCCCCGGCTGGAGTGCAGTGGCGCAATCTGGGCTCACTGCAAGCTCCGCATCCCGGGTTCACGCCATTCTCCTGCCTCA
GCCTCCCGAGTAGCTGGGATTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTACAGACGGGGTTTCACCGTGTTAGCCAAAATTAA
TGCATTTCCAAACAGTTTCATCTTGAAGTGTATAGTTCACTTTAAATCATTCCCATTCTGTAAAAAGTGGAATTGATTTTTGGAGGACGAAGTCTACAAA
TGATATTGTCCAGAGTCACTTCCAACTTTTCTAAAAGTGAACTTGGGATTCATTAGAAGCAAGAACGAGCTTGTTGCTCCAATGATAGAAACGTGAATAG
CTCACTTGAGACAATTTGAAGGTCTTCTGCCATCTGGTGGACATCAGTAGAAGTCTCACTCAGTAGAGTAACATCATGTAGTATACACCTAAATTAAAAT
ATATTTTCTTATTCTGAATTCATGTTTTTTGACAATGAAATAATTTYTCTTTTATTTCTAAAGGAACACCCCAACCTAAGCCCTCCCTAAACAAAAAATA
ACATCAAAGGTTTGAAGTGAAAAATAATTTCTAACTGATATAAAGCTATACATGTATTTATTTGTAAAAGGTATATATATATATTCATATTTCCTAAATA
ATTTCTGTACCACTGCTAGCATACTGTACATATGCTATGCCATTGCTATCATATTGTACATATGCTAAAATTGTGACTACTAAGTATTATATGTAAAATT
TGTTTCCATTTGTAAGACCAATTGTTAGTTGTGGGTGCCCTCCGGTGTTCATGAGGTGAACTGCAAACTAGCAGAGACAAGTCATTTTGGTCACAATCGG
CGGCAGTTGTTAACATATTTTTGAGTCCTTGTAATTGTTGTATCAGTGATGACTGATTTACCTAAGTCTACTGCATGCTCTCATTGAGTGGCTTTGTAAC
TTCAGGTGTCACCTGAAAACAAGTAAGTATATTAATTAATATTCAGCCTGAGAGATCTTTCTCTCCCTCTGCTTTGCAAATCTGGCCCATGAAGAGATAT
TTATTACTCTGCTTCGTTAGTAAWATATCATAAAATGTTATAGTTTTTCTTTTCCAAATTAGTCCAAACTATCACATTATAAGTGCATTTTGGAAAGTAC
CAGGGCACTCTCTGATGGGACTAAATTTGGGGCATGATTCCCAGCATGGGCCTGAATTCATTTTAAGAAGTCTCTGAATGATTTTTCATAATACTACTTT
TTCAGATGAGACAAACAAGTCTCTTAATTCCCTAAAATTATTTTCTTAATTTACTTATGATAACAAAATGGGATTTTTGTCAGCACGTCTGAAAAATACT
GAAATGGCAATTTTAGGTTTTCTTTGGTTTTCTCTGGTTGGGAATTTTAAATTAGTTCAAGKATTGTYTAATAACAAAATGTTCCGATAATAGTATGTCT
TTCATAATTGAAATTATCCTCATCCTGAACTGAATATATTTTCAGGTACCAAACAAGAGAAATTAAGTCATCATGAGCTTGCAGATATTCTTTGTTCATT
TATTTCTAAAAATGAATCTGTATGCCAGGTATATTCAAAACAATGTTCTAGGCAATATAGAACTACAGAGCTATGGTTCTTATGTTTATAATCCACTAGA
GGAGTCAAGATTCATTCAGGAAAAATACAATACGAAAGTATGCAAATAATGCAGTAATAATGATAAAATAGGCAATTGACAATGACAGAGATCACTTCAG
TAGAGATTAATGTGAGTAATGAAGGAGGTAGCATTTGACCAAGACCTTTCCAGAATGGAAAGCTGGGATTTGAACAGATAGAGTTAAGAGGGGTGGAAAG
AGTATTTTAGATATAGGAAATGGAATAAGCAAAAGCTCCACAGTGGGAAAGTGTAACTTTTTACTTTACATTGAAATAAAACACAATAAAATTTTTATAG
AATATGTTTTATTTATTCAAGTCCTCAAGGCTAAGTTCTATCAACAACTGTACTTTTTTCTCTCTGAAGTTTGTAGTTCAGAACCAGAAAATGTTCAGGC
TGACCCAGAGAATTATACCAGCCTTCTTGTTACATGGGAAAGACCTCGAGTCGTTTATGATACCATGATTGAGAAGTTTGCAGTTTTGTACCAGCAGTTG
GATGGAGAGGACCAAACCAAGCATGAATTTTTGACAGATGGCTATCAAGACTTGGTAACTATATGATCAGTTGTTTTACAYAGGGTAACATTATAATTTA
ATTTCCAAGGTAAGAACTTACAAATGGTTGTATATTATTTTCCTCCATTACTTTTAGACTTTATGTGAAGGTGGGGTAGGCTGAGTATTTTTAAATTTAA
AAAAAAAWTTTAAATTAGAAGCTATACTAAATTATGTTTAAAGTTACATTTAATTAAATGGATATCATAACTTTGCCAACAATAACACTATAGAGTAGAT
ACATATGACTTATGAACTGGAGATCATTTAGTGTGGCCTTTCTTAAGATTTCAGTTGTAGAATAGTGCCAGAATCTCAGTGCCCTGATACATTTTATATT
GTGTCTTCCATTACGCTATATCAGCACAGGAAAAGTAGAGTAGGGGACATACAAGTCCTCTTTGTTGCACCAAAAAATTTTCAGATAACAGCTGGGAAGT
CATGATTGGGTCAGAACTTTGGGGATGTAAGAAAACATTTCTTACAAAAAGATCCACCCCTGCCTCCCTCCACCAGCGCATGCGAATAAAGTACAGATTC
CYTTTGTGGCCTGAGCATGTCAGTATTAAACTTTGCTCTGGTAGGGAAGTGTTGGCCATAGATTAGGGTGTAGTTGACAAACCTTCATCTGGATGTAGRT
CCAGAAAGTCCCCACTGCAGGTTAAAGGACACTGGACTCTGCACTCAGGCACCTAGAGTCCTGCAAGTCCTGGGAACCTGCATTTAAATAAAAATGCACT
ATTAATTATGTTTCATATCATGTGGACAAAATGGATAAAATTTTAGTAACCTTTTAATTCAGTTGCCTGGAATATGGAGACACAATGACCTGGGAAAATC
GTGAAATAAATAGTAATAAAAATGTTTATTTCATAATTACGTGAAGAAGATAATTCTATTACTGTTCTTGCATATATATTGTCAAGAAAAAGAGATAACT
TAGTTGTTCACTTTTTCACATTGCTCCTTGTTTGCAAATGCCCCCCATTTATTTGTCTAAAATATTAATTTTTAGTTTGTAGTACTAATTTATGAATTTG
ATGAGTTCTGGCTAAAAATGAAACTTCCTGAAACTAAATCTGATTTTTAAAAAGCAAAAAAAAAAAAAAAGCCTAGCTTTCCAGTTCTTCATAATTCACA
AATACCACAAGTTTAACTAAGCAACATTGCATAAACTTTTCCTTAGGTTAATAAAATAGAAGTATTTTCCACGGACCAGGGAGAAAAAGTTTTCTAGGAA
AGATACCTAGTGTGTTGGTAGTCCTATGAGAATAACATTTGTATAATTACTAACATCTTTCTTTTAGGGTGCTATTCTCAATAATTTGCTACCCAATATG
AGTTATGTTCTTCAGATAGTAGCCATATGCACTAATGGCTTATATGGAAAATACAGCGACCAACTGATTGTCGACATGCCTACTGATAATCCTGGTAAGT
GCCACCAGATACATCTATATATTAACTCAATAAATGAGGTTAGTTTAATTACTGTATGCATTGATGCTTTCTCTCTATATTCTTTTGGCCAAAAGGCAAA
GTGATTTTCTCTTAAGTCTGGATTGCCGGGTAATTTTTTGGGGCATGGGACCCATTTCTCATTCAGCAGGTCTGGTGCCAGACAATAAGTAAACTTATCC
TTAATATTGGAGTTTACCATTTGTAAAATAAGAGTGACTAAACATATTTATAACATTGTAATAATCATTAAATGAAAATTGCTATGTAAATGTTGAGACT
GTTATTTTGGATAATTAAGAGTTGGTTTAATTTGTATTTATTTCCTCTTTTCAGCCCCCAAAGCATTATGTAGTAAGTGTATACATGATCCTAAGACCAT
GTGAGGTACTTTCAAATATCTATACAAAGCATCTCAAGAGTTTGTCTTAGATCTATTTTTCTACTTTTTATAATTTGGTTATGGGGAGTGGGGTGTTTTC
CTCTTGGTTGATTGCCCTTACTCTTCCCAAAAATAAGACAAACAAAAGTTGTTTCTACTTGTGTTTTATTTGCATGTACCTTCTCTAAATGTATGGGAAA
ATCTTTTGATCTTAGAGCATATGCAATAACTGAATCAAATGCTGACCATCATAATTTGACAATTTACAAGTTTACATAATTAAGTTAGTTTTCCTCTTGT
TAGTGTAAGCAGTTTTAAATAATAGAATAGACRTGCATATATGTATATATACATATGTATAATCACATACATCTGCATAAATACATACGTAAATATATAT
ATTCTTTGGTCATCCATATTAGGAGCCTACTCATTGAAACTTTTACAAATTTTAATGTAAGTGAGTGGTTACAAATTATATTAATTATAGCCTATTTTAG
TTTTACCTATGGCAGGAAAACTGATGTGCACGGTTTGCATTGTTGTCTAAATGCTGTAGCAGGGACTTTAATCCAACATGAGCTTAAATAAAGTACTTGC
TCATTGATCACCTTACCATAGCTGTTCTTACTAGTTGACTTTTTAAGTTAAAGATTATATGTGAGAGCATCAGATATTATAGTATGCATCATTCCAAACT
ACAGGCTACAAAACTTGCCAAGGTATCTCCCAACTTGATATTAACGACTAATGAATATTACTACTACCATGATGGCAATATCATTATTTAGTATTTCTTA
TGACCTGCCTCATGGCCTGGGTATAATCATCTTTCTTATTGCCTTTATTTAGCATTGTTTTTCAAAATCAGGTTATTTTTTAATGGAATGTGAGCTCTAA
GTCTTATAGAAAGGCGAGTATCAAAGTAACTGACCATGATTTTAACTATGCCATATCACGCTACACCATTGCATGGCAACCATCACCAAAGTTCCTCACA
ATGAGCTACCCAGAAAATGACACCTTTAGCCATACAACATTGATCATGTTGGCCAACACCATATGTGAATTGATTGAAATATGGCATATAAAAAAATCTC
TTCTACCTTTATTTATGCATTTTGAGTATGAAGTATATTGAACACATTCACTTAATTTTGTTACCTTGGTTTAATTATGCTACTCTAATTTCGTACCTAA
AACAATTTCTCAGGAGTTTGCAAAAAATTATTACTTTTACCCATTTATTTTTACACTGTTTCCTATTTTATTCGCTATGCCAAAGCTTTAAACTTTCTGA
ATTTTTTTGTTCTTTTTTATTTTGSAGAAACTTATTGCATATGAAAGAAACAGATTAAATATGTATTTTCTCCATAAGTGATTTCTGAGTGATCCTGTTA
GACTGACTCTATATTGGCACAAAGTATAATATTCTTCTATCATTTGTTGTATTTTCACATTTGTACTAAATAATAAATATTATTAAAACTTAAAATTTCT
ATTTATTTAAAGGACCGGGACACTATTGAACGTTGTAATAATGAGATGCTTGTTTGGATACACCATTAAATCTCCATGGATGCCTCAGTCTCTTAAGGCA
TTTTGTATAGTAATGATGTGTTAGTAAAAGATGGTATTTGATTTGATGTTTTGATATGCTATGCCTCTTAAAAACTAAGGGTTACAAACTTAGGTAGATT
ATTCCCTATTATTTCTACCAAAAATTCCTGCATCAAAAACCTGTTCCTCCAAAGTTTGGGATTATCCTATTTTTTATAAAGAAAAGATTGGTTCTCTTAG
GAGTTACTCTTTCTGATCTGAAAGGCTGCAATGGCATTTTTATCCACAGATTTACAATTTAGTATTGAAATTACATTGTCTTAAATATTGTTTCTTTGGT
AAATATATCCCAATGAAAGTCTTGACAATAATACTATCTTGTGGCTTGGTAAAACAGATTTGGTGCCTACAAGATTAGTGAATTTTATTATTTGTGTGAC
TAATATAGATGTAAGTGGCTTTTGAGTTTGCTGCTTATTTCATGGTTTTTATTAATACCACTTCATTCTGTTAATCATGTTATTTTATTAGCTTGGTAAC
TGTAATGTAGCCTATTTAATAATTCTATTATTATTTAGGATAAACTGTTTACTAAATATTGTATTGCTTTTTGCTTTTGTTAAAAAGAAATGAAAAAGAT
AATTTATAATTGCTGTCATTCTTTGATAGATTTCATATATATATATATATATATATATATATATATATATATATATATATATATATATATTTGAGGTGGA
GTCTTGCTCTGTCACCCAGGCTGGAATGCAGTGGTGCAATCTTGGCCTGCTGCACCCTCCACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTG
AGTAGCTGAGATTACAGGCATGCGCCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTGGGCCAGGCTGGTCTCGAACTCC
TGACCTCGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATCACAGGCGTGAGCCACCGCACCTGGCCAGATTTCAAATATTTAAATCAGTTTCCCT
GAAGAAAAACTCAGTCTTCCAAATAGTGCCTTTAACTTCCTAAATGTGATAAAACTATGCATTTAAATTAATAATTTGCTTACATTATTCTTTGTACCTT
TTAATTACACTTGTGTACAAAAGTATCACCATAAACTATGCTCATTAAGTATTATTTCAAATTGTCGTTTAAAAAAATGTGTAAGTTTGCGTTCAGAAAT
TAATTTAAATTTATCAAGGAGCCTTTTTAATGTTAAAAAGGAATGTATATTCTTTTAAAAGACTTCTTAGTTACATTTATGAATAAATAATTTCATAAAT
ATATTTATCTTATTGTTACTAAGATAATTATGTTTATTTCTCATATAAAGATAAAGCTAATTAACATACAGCTCTGGAGGGATTATTTAAGTACATGTTT
TAGGGCCTTGATAATTATATGTGTTAGATTTAAATGCATGATGAATTAAATCCACAGTTTTCTTGTTACTGTGTGCTTTCAGTTGTATAACAATTGTCTT
AAGTCACCATACATCTGTCCTCACTCTACCTGTACCATCCTTCCTATTAGTGTTATTACATTATTATATGCAGAATTATAGTTTGAAGCAGTTGCGGTCT
ACATTGCTTTTATTTCGTGCACTGTGAAACTTGGCTTATCTTCAAACAATTAAATAAGCCTTGCTTGCTCACCTACATCAGTGTTGCTTTTTTGTGTTAT
AGAAAATTAATGTGTTCCTAATGTGTTTTTTTTAATTTAACATTACATGTGTCCCAAAACAAAACCAGAATGAGTCAACAGTTTTTGTTCAGTTATTACA
AAAATGTGAATTCTAAGTGTTCACTCAAAACAAAAAATACTGATAGTTCTTCACTATCTGACTTTTTTCTAGCCTTTATGGAGTCTATTTTGATGAAGGG
AGATGATTCTATAAGCCAGTATAATTTTTGAACTATTTAATATATTGGTAGTGCCTGACTCAAACCAGTGGTTACTAAAATATCAGTTATTACTTGTGAG
AAAGCAGCAGGTTTAGGGGTACCCAATATGAGAGCTTGTGCCCATCAGCAGAGCTAAACTTTGAGTTCAGGATGTTGAATTCACAGTTCCAGAATTATGG
CTTCAAAATCTTTAGGAAGATAGAAACAATCTTCCAAATTATTTTATTTCAAAATTGTTATGAAGAGACTCAGCAAAAGACTTCTGGATTCTAAGAAATA
GAGGTATTGAAGTATTCCTGGGAATTTCAGTCAGTTCAAATGATCTCAGTCCAGTTGGAAACCAGAATAAAGAGCCTTCAAGGTGGTTTTATAYGCAGTA
ATATGAATGTGCTAACACTTGGGGGTGCTCACCCATGAGAGTGCCAAGGAGACGTGCCTAGGCCTACACATGTTTTCCCAGAGCCAAGGAGGCCCAAAGA
AAAAGTCTTGCTTTTATTACAGTAAACAGCAATCCAATTATAAGTCATTAATATTCTTTAGGGGATGTGATTGGATTAAAACCCTGTATTGTAATTTACT
AGAATAGAAACCATAATCCCTATAGTTAGTTGATGCTCTGGTAAAATGATAAAAATAAGTCTAATGCAATACACACTAAAAATATTAAAGAAAAAGGGAA
ATAAATCCTCAATGTGATAGTTATACATACCCTTCCCCAACCCTTATTACGATTAAATAAGAAAATTATATTTGCCCATTAAAAGTATGAAGTTAGGTGG
AGTTAGACCATTTTTTAAAAATTTTGAACACCTTCTTAGGCATGTTGAAACAAATGGAAAATACTTGATATTTTTGTATAGCCTCTTGGCAGAGGAAAAG
CCTACAGTATGTGTACCACTAATAAGTATTTGATTATGATTTGCCATTATGAGCATTAAATATTTCAACAGTCTATGAAAAAGAGTGGCTACACTTCAAA
TTATTTTCAATAAAACTAGGTATTGTCTAATGGGCTTAATTTGAAGATTTTTTATATGCATGAACTTCTTTAGTCATAGCTTTTAGAAAATCATAAGGAA
GGTCATTTGTCTGTCACAGTTTAGTTGCATCTCATTTTTAAATTCAAATGTATTAATTTGCATGGCGATTACAAAGACACAAGTGTTTGAGATGATTGAA
ATCACTTTAGTTTGGAAACGTAAAGAATAAAGAGCATGAAGAACAGACAGTGAGGAAAGGATTTCATAGGAAGAGAAATAGAACTGGGAGACCACTAATG
ATCAAAATAAAATTTCCAAAGTCCTTCATGGTTAGTTTTAACGAGAAAAAAAGTGAGAATTAAAAGTAAGATTGTGATTGTTTCTAGTGAGTACTTTCCT
TTTTAAATTACAGGAGTTGTTTAGGGTAAGTAATTTTGAAACAGCTAAGTTGTCAAGAGTATGAACTTTATCTGAATCTTCTTGGAAGCTAGGCATGCTT
AATAGATTTTACATAAATTCTCATTTTATGGTTTTCAATATATTAATACCCAGCAGTCTTGGTAAAAAATAAACGCAAGAAACTTTGTATTGGAAAACAG
ACCTGGGTATGATCAACATTTAATGTTGGTTCAGTTATACCTTGAAATTTCTATAGAGTATGCATTTCCTTTGAGGACATAAAACATAGAACATAAGCAG
CATTAGGATAGTGCAGAGCATAAATTTTGGCGATAGCCTGAGATTCCATAAAGGCATGGGAGTTTGAAGAACATCATTATAATAATGCTCAAACCTCACA
GTTACTTTGTCTACCATTTTCCTAATGACCCAGGCAGCTCAGACCAAGACTAAAGAAAAATTCTCTGGCCGCTCAGTAACGTGGTAGAGTGGCTAGATTC
CTTCTTAGGAGAGAAAGAACCAGCTTAGTCTTTCCTGACATTCCCTGACAGGTCCTGTTTTAGAACTGAGATATATGTTGATTCTGATTTGTTGGGACAA
ACAGACGTGAATGATTGTGGTCATCAGATTCTTTAAGTAGACAGCATTAGCTGAGTTTCCCTGGGGAGAATGCACAAGATTCACTCTGTTAGTTCTTCTT
GCTGACAGCAAGGCTGGAACCTGCTGGAAAACACTCTTCATTTTACCTGGTGCAGCACCCAGTATAGAAATAGGTATGAGGCCAGATTTGAGGAGTAAAG
ATAATTATTTGTCCCTCAGTCAAAATAGAAACTTAAGGAAGAGGTTGCTAAATAAGAAAATAAATTCTACCAATTCTCCAGAAAATCCCTGGCATTTCCC
YAACCATGCTTTTATCAGCCCTGCTAAGGATGAAATAACTCTGTACTGATGAAAAATTATTTGCGTTTCTTTACACTCAGTTTTATCAGTTTCACTGACC
TCCTCTCCGTTCTTAGCTTCAATCAGACTTAGGGGCAGGGGAAATGGGGAAGGGAGTGGAGTGGGAGGTAGAGATCAAGATTTGGGTAGAGTTACATATA
AGCTCATGTAGTGTTGTGTTGTAGTGTTCAGTAATGTTGAAAACTAAAATTTGGAATTTTTATTGTGAGAAAGTCTGTATTTTCAAAGCTGACATTAACT
TTTTTATTCTTTTTAATTTTTTCTCTTTCACCCAAAGGTAAATCCACAAAGGCCGAAATAGTTGAATAAAAACTTTAATAATTTTGTTTTTAATTTTGTA
GAACTTGATCTTTTCCCTGAATTAATTGGAACTGAAGAAATAATCAAGGTATCATAGCCATTTTTATATTCAAATGTTTTAATATTAAATGGTCTATTTT
GAATTGTTGCTTGGGTGTTAGGTATTGCCACATGAATAGAAGTTGTGTGTATGATTCACTGTTTGTGGGGTTAGTTGCTAAGCTTTATATATAGATAGTC
ACATAATTTATATACATGATTCTCTTATGAAGAAGTTGAAAGATGTTTTGATTGGTATAGTACTAAAAAACAAGAAATATAAATGGTGATGAAGAAAAAA
ACAATGAACTTTAAAAATAATTATAGCTATGCACTACAGCTATAAACTGGAATTTTTTTAGTCTCCAAATTTTTCTGAAAAACTAAAATTATATTTAACC
AGTTCTTAACATTCTACAGTTTATATATAAATAACCAACGATTGATAGATTAACGCTAAATGTGGCCCAAAATATAAATTGTATATATATTTTTTGCCCA
TTTAAATTGTTTATTATTTAAGTTGATAAATATTAATTTACTCAAAGAACATTGTGCTGACAACAGGCACTTATACTACGAGTAGTCTATACTTTTTAAA
GATAAAATGTATAGGTATTTGAGACTATAAATTTTAACATTATTTTATTTTTTTAAATAGAGAGAAAATGATTGTTTAATATCTTTTATATTTCATCATA
TGCCCTAATGTGCTGTTCATCATAACTGAAATTATATATTCAGTTCAGGTGCTATTGTTGATGATAATACGAATGTGTACATGTGTATAGATTGTGTAGG
AGCTGATAAAAGTGTGACAACTAGTGCTGTTATCTAGCAATAAATAACAATTAGGTCTTTCATAGGTATAAACTATCTTGATATTTTATGTATCTTATGG
CTAGTCTCTCTTACAAGGGACTATTTTACCAAAATGACCAGTCTACTTTGTAACAGGAGTTTATAGATTTCAGCTAAGAATAACTTTATTTGTATATGTA
CATACATGCTCACATGCATATGGAGATATATATATATATGTATATATACACACACATACAAGCGATCAACAGAATTAAGTCAAAAAAGAAATTATATTTG
TGCTGAGTTGTTAATTCAAATAATGGGTCTGACATACTGATGTAAGCCCTTTTTTCAGTAATTGGTGCCATGTATTAAATGATATTCTGTTTAAGTTCTG
TCTTTTATATAAGTATTACACATCACAGACTTTTTAGAAAGGACCAAGGAACAATCAATTATTTTTCATAGTAATTCCCATTACCATGATTCACGATCCA
TGCTTAGTTACTTTAGTTACAAGATCCATGTTTAGTTATTTTTCTTCTCTATTGCCATTAACCCTAAGGCAACTTTTACCATAAGCCTACAAAAGTTATT
TAAAATCTTCCAATGTTAATTACTAGTAAATTTCTACATAAAACTATAATATTGTATTTAGTATAATATTTAGCTGTGTGAATAGGCTACACATGTGACT
TTATATGCATTTTAAAATATTTTCCATTTTTTAATGGACATATAATACTTCTACATATTTATGAGGTATATAGTGATCAAATCAGAGTAGTTTGCATATC
CATTATCTCAAACATTTACCATTTTTCTGTGTTGGAAACATTTGAGATCCTTTTTTCTACCTATCTGAAAATATATATTATTGCTAACTGTAGTCATCCT
ATAGTGCTATCAAACACTAGAACTTATTATTCCTATCTAGCTGTAATTTTGTATCATTTAACCAATCTCTGCCTGTCGCCCCCTCGCCACTACATTTCTC
AGCCTCTAATAACCACTATTCTACACTCTACTTCTATTAGATCAACTTTTTTAGCTTCCACATAAGAGTGAGAACATGCAGTATTTATCTTTCTGTTCCT
GGCTTATTCCACTTACATAATGGAGGTATATCTTTATTTTTGTCATACACTCTACAATAGAGATACCTAAAGCTATTCCTGTCATGGTGCCTCTGGTCTT
GCCATGTACATATATGACAAACACAAGCAGATCTTCCTGTTAGAGAAGAATGTGAAGATATGTGAGCAGGCTGGCTTGTTGTAGTCAGAGAAAAGTTCCT
AGATAGGAGGAAAAAAAAAGCCTCAGTGCATCAGCCCAGGTCTCAACAGGAAACAGATGCCACACTCAAGTGGAGTCATGGAGGTTAATTTAATCAAAAA
GGATGATTCACAGGTGTGGGAAGTCTTAATGCAAACAAACAAGGGGTGGCATTGTACATTTGGTATGAATTATATCAGGGACTCGTTGTTACATCTAAAC
TGAAAGGCAAGAGGGCAAGGAGAAGGTGCAGAGAGAATGGCACAGCAGATGCTGTGGCCTCTGTAATGAGACAGCACCATCCTGTGGTGACCAGTTAGGT
AAGGAACCTCCCAAGGAATAACCACATTATCTGGCCACCCRCCTAGAATGAATGGAGACAGGTGGAGAGAGGCTGTGGAAAGCAAAATGAGAATATACAA
CACACTGAGGAAGGAGTCACCTGAGAAAGCAGAGTAGAATTAAAAATCAATGTCATTACTTGTTGGTAGAAGGCTATGATCTAGAGGAAAATGAGGAGGA
GAAAGAATTCTTATGACATTAGGCTTATTTGGTTTGTGGGGCTTTACCCATGGTGGTAGTACCCAAAGAAACAGCAGCTCTAATTCTTTGAGCTGGAAGA
ATCCTTGGCACTGCCAAGGGGGAGGGAACCAGCTACCACCACACAGATGGGGATTTAAAATAAAGGATACAGGAGCAGTGATTGGTAAGCTTGGCTTGGT
AAATTGGTAGTAGTTCTTGCTATTGAAATTAACTATTGTATTAATAATATATTGTCAAATCGAAAGAGACCCATGTCACAATATGTCTTCCTGGAGCATG
ATTATGAGATGGGATGAAAACACTTCTTAACCAATCCACTATTCACTTCCTTTGCTTCATGCAGGAATGAATGACAGGCTGGAAAATGCATGGAATATAT
TCATAATGACTTTTAATCCCTGAATATAGAAATAAAGAGTTTGAAGGATATTTCTTAGATCCTCTCCAAACAGAAATGTATGACTTTGCAAGACAAAGTA
TCTGTAGCATGATCATGGCTTTACACTAACTTTTAAAAATGAAGTTGTGAAGGATAACATATGACACAGATCAAAACTACAGTGGAAGAGTCACAATAAC
TCTATAAAGAAATTGTAGGAAAGAGTATTTGTTAAAATATTTGTAGTCAGATATGAATAAAGTAATCATAGGGTATGAATGATATGTTCTTCTTAAAATG
TTGACATAGCCAATGTGACCTTACAGCGATCAACAAGATATGGTAGGGTAGGATTAATGAAGGTCTAATCACCCTCACTGGGTTCTGAGAGGTTCTGAAC
CTCATAAAGTTTATAGAACGCATATGTATCTGATGTGTGCATAGTTTTTTCCCAACTATGTAATAAGAAGAGGTGTGTAGCATTATGTTACAATAAAAAT
TTTATGAAAATTTACATTGCTTATAGGAGGATATGATAAAGGATGTTTATGTGGAAATATAAGCAAAGAGAAAGAAATGTAATATTATTGTGGAAGTCAA
TAGACATTGTTAGATCATATAGAGAAAATGGATGACATATCTTTGGGGAACTTTTGCTGTGAAGGAGAGACGAGAAGTAGAATGATAACTAGAAGGTGAA
TTAGAGGTTTTCCTTTGTGTTTCCTTTAAATAAGAGAGATCAGAGTTGATTTAAGCTGATGAGAATTATCTGTTTGAGAATTTGAGAAAACAAATCAGAA
ACACAAAATAGACTGAACTACTCAATTATGTTCAATTCCCAGGTTCATGATAGGGACTAGATCTAAAACACAGAAGTGCGAATTAGCTTTAGAAAGGAAG
GAAAACAACTCTTTAGTTATAACAGGACAGGAGGGGCAGAGATAACTTGGTTGGTCCCTGTTTTTATGTTAAGAAGAAGTGTGTCTTTGGTGGCTTCTAT
TTTCCCTGAAAACAGGAAGGCCATCTGCTGAGAATGGGAGGAAAGGATAGGAAAATGAAGGTTTGACAGAGTTTTGGTAGAGAGAAGGAGTGTGGAGTGA
TACCAGAAAACTAGGCAAATATTTAGGTTTGCAAAAACAAGGAAGAGTTTAGAAACTCCACACTGCCAAGCTTAACATTGATCCCCAGCAAAACTCTGCA
TCACATTATAAAACAAATATTTATGAGAACTTCTAAGGAAAGAAGAGATAATTGGCACCAACCAATTTTCCCTAAAAGCAAGTCAAGRCAAATTATTCTC
ATTTCCTTTTGCATTAAGTTTTTAGGTTTGTAGATTATAGGAATATTTTATTTAGGAAATTATTTGGGAAAATCTCTCAGGTGGTCCTTGTGAACAAGGT
ATCACACAGAATGTAAAACTTCATAAAGAATACTGACTACTTGTAAGGAAATTTTTCAAGGGAATCTGAGAGAGTAGCCATTTTTAGCACTCAATATAAT
TCAGATCAAGTGCACTAACTTCCTAAAGTTGTCACTTATGCTTCAGAAGATACTCAYGACCAGCCAAATAATTAAGCTGTAAATAATGAGGCAGCCATTA
AGCTTGGAATCGTGTGTTTCATACAGTGCAGATTTCCGTGTGTATGACACATGCTCATGAGCACACACAGCTTAAGATTCAGATTCTTTCTACTGATACT
GGTCAAGTTCTCAATGGCTGTACTCAGTAATTTTTTTCTTTTAAGGAACATGGCCTTAAAATATCTAATAGATGATCAAATAAATGACAATTCTAACAAG
CTGTTGGGTACAAAGATACTGACAAAATCATGTCCCACATGAACTAAAAAAAAAAAAAAACTTGATAACTTTGGCAATTGAGTTTTCTAAGTATATAATT
AGATATAATATACCCAGTTTTATGTATATATACGTATATGTATATATATACATATATTGAATCTTCCATGCAATGAAGATTATGCTTAAAGCATAGGTCT
TGGTTAACTTCTAGCTAGAAGACTAGACGTCTCCTCCTGGGTCATTGCATGGAAGATTCAGCCTCCTGAATGGTGATTCTAAGGGAAACACAAAATTAAA
AAACTAGGAGTAGAATCATATATTGACAAGTTGCCTTTGAAATATCTGCCTAAGTCTTAAGTGGAAAATATTAAAAAACAAAAGGAAAAGAAAACCAAAC
ACCTCTTTTAGTTCTAAATCTTCCCCTTATTATGACCTTAAAATTATGATTTGCTCTAAATAGATATAATTAAATATTCTGAATGTTCAACTACTTTGGT
CTTTAAAATAGTTTCATCGCCAATTCTTATTACAATAAGCTAATGGCTATTTACCTTGATGCCTGATGAACAAAGAAATATAAAAACAATAAAATAAATG
CCATGTTAAATAACACTGTCAATAAATAACTACAGTGTGTCTTCCTTTTAAATATGTGGTATCTATTCATTTAACCACTTCTTTCCATAGCATTAAAATA
AAGGCGGCCATAAATTAGGTGTTTTCATTACGTTTAATTACTCCCCTGTAGAGCGGATGGTAAAGGTTGTAGGTTAGAGGTATGCATTGTACAGAATGGT
GTTTTATGAGGATGAGAAGTTCCCAAGATACCACAAGTGATGATTGGCAGTGTAAGATATGAAGATTTTCTTTTTCTCTTATTTCCTTATGACTCATTAA
ATCTTGTTTGCTTTTCAAAGGAGGAGGAAGAGGGAAAAGACATTGAAGAAGGCGCTATTGTGAATCCTGGTAGAGACAGTGCTACAAACCAAATCAGGAA
AAAGGAACCCCAGATTTCTACCACAACACACTACAATCGCATAGGGACGAAATACAATGAAGCCAAGACTAACCGATCCCCAACAAGAGGAAGTGAATTC
TCTGGAAAGGGTGATGTTCCCAATACATCTTTAAATTCCACTTCCCAACCAGTCACTAAATTAGCCACAGAAAAAGATATTTCCTTGACTTCTCAGACTG
TGACTGAACTGCCACCTCACACTGTGGAAGGTACTTCAGCCTCTTTAAATGATGGCTCTAAAACTGTTCTTAGATCTCCACATATGAACTTGTCGGGGAC
TGCAGAATCCTTAAATACAGTTTCTATAACAGAATATGAGGAGGAGAGTTTATTGACCAGTTTCAAGCTTGATACTGGAGCTGAAGATTCTTCAGGCTCC
AGTCCCGCAACTTCTGCTATCCCATTCATCTCTGAGAACATATCCCAAGGGTATATATTTTCCTCCGAAAACCCAGAGACAATAACATATGATGTCCTTA
TACCAGAATCTGCTAGAAATGCTTCCGAAGATTCAACTTCATCAGGTTCAGAAGAATCACTAAAGGATCCTTCTATGGAGGGAAATGTGTGGTTTCCTAG
CTCTACAGACATAACAGCACAGCCCGATGTTGGATCAGGCAGAGAGAGCTTTCTCCAGACTAATTACACTGAGATACGTGTTGATGAATCTGAGAAGACA
ACCAAGTCCTTTTCTGCAGGCCCAGTGATGTCACAGGGTCCCTCAGTTACAGAYCTGGAAATGCCACATTATTCTACCTTTGCCTACTTCCCAACTGAGG
TAACACCTCATGCTTTTACCCCATCCTCCAGACAACAGGATTTGGTCTCCACGGTCAACGTGGTATACTCGCAGACAACCCAACCGGTATACAATGGTGA
GACACCTCTTCAACCTTCCTACAGTAGTGAAGTCTTTCCTCTAGTCACCCCTTTGTTGCTTGACAATCAGATCCTCAACACTACCCCTGCTGCTTCAAGT
AGTGATTCGGCCTTGCATGCTACGCCTGTATTTCCCAGTGTCGATGTGTCATTTGAATCCATCCTGTCTTCCTATGATGGTGCACCTTTGCTTCCATTTT
CCTCTGCTTCCTTCAGTAGTGAATTGTTTCGCCATCTGCATACAGTTTCTCAAATCCTTCCACAAGTTACTTCAGCTACCGAGAGTGATAAGGTGCCCTT
GCATGCTTCTCTGCCAGTGSCTGGGGGTGATTTGCTATTAGAGCCCAGCCTTGCTCAGTATTCTGATGWGCTGWCCACTACTCATGCTGCTTCAGAGACG
CTGGAATTTGGTAGTGAATCTGGTGTTCTTTATAAAACGCTTATGTTTTCTCAAGTTGAACCACCCAGCAGTGATGCCATGATGCATGCACGTTCTTCAG
GGCCTGAACCTTCTTATGCCTTGTCTGATAATGAGGGCTCCCAACACATCTTCACTGTTTCTTACAGTTCTGCAATACCTGTGCATGATTCTGTGGGTGT
AACTTATCAGGGTTCCTTATTTAGCGGCCCTAGCCATATACCAATACCTAAGTCTTCGTTAATAACCCCAACTGCATCATTACTGCAGCCTACTCATGCC
CTCTCTGGTGATGGGGAATGGTCTGGAGCCTCTTCTGATAGTGAATTTCTTTTACCTGACACAGATGGGCTGACAGCCCTTAACATTTCTTCACCTGTTT
CTGTAGCTGAATTTACATATACAACATCTGTGTTTGGTGATGATAATAAGGCGCTTTCTAAAAGTGAAATAATATATGGAAATGAGACTGAACTGCAAAT
TCCTTCTTTCAATGAGATGGTTTACCCTTCTGAAAGCACAGTCATGCCCAACATGTATGATAATGTAAATAAGTTGAATGCGTCTTTACAAGAAACCTCT
GTTTCCATTTCTAGCACCAAGGGCATGTTTCCAGGGTCCCTTGCTCATACCACCACTAAGGTTTTTGATCATGAGATTAGTCAAGTTCCAGAAAATAACT
TTTCAGTTCAACCTACACATACTGTCTCTCAAGCATCTGGTGACACTTCGCTTAAACCTGTGCTTAGTGCAAACTCAGAGCCAGCATCCTCTGACCCTGC
TTCTAGTGAAATGTTATCTCCTTCAACTCARCTCTTATTTTATGAGACCTCAGCTTCTTTTAGTACTGAAGTATTGCTACAACCTTCCTTTCAGGCTTCT
GATGTTGACACCTTGCTTAAAACTGTTCTTCCAGCTGTGCCCAGTGATCCAATATTGGTTGAAACCCCCAAAGTTGATAAAATTAGTTCTACAATGTTGC
ATCTCATTGTATCAAATTCTGCTTCAAGTGAAAACATGCTGCACTCTACATCTGTACCAGTTTTTGATGTGTCGCCTACTTCTCATATGCACTCTGCTTC
ACTTCAAGGTTTGACCATTTCCTATGCAAGTGAGAAATATGAACCAGTTTTGTTAAAAAGTGAAAGTTCCCACCAAGTGGTACCTTCTTTGTACAGTAAT
GATGAGTTGTTCCAAACGGCCAATTTGGAGATTAACCAGGCCCATCCCCCAAAAGGAAGGCATGTATTTGCTACACCTGTTTTATCAATTGATGAACCAT
TAAATACACTAATAAATAAGCTTATACATTCCGATGAAATTTTAACCTCCACCAAAAGTTCTGTTACTGRTAAGGTATTTGCTGGTATTCCAACAGTTGC
TTCTGATACRTTTGTATCTACTGATCATTCTGTTCCTATAGGAAATGGGCATGTTGCCRTTACAGCTGTTTCTCCCCACAGARATGGTTCTGTAACCTCA
ACAAAGTTGCTGTTTCCTTCTAAGGCAACTTCTGAGCTGAGTCATAGTGCCAAATCTGATGCCGGTTTAGTGGGTGGTGGTGAAGATGGTGACACTGATG
ATGATGRDGATGATGATGATGACAGAGRTAGTGATGGCTTATCCATTCATAAGTGTATGTCATGCTCATCCTATAGAGAATCACAGGAAAAGGTAATGAA
TGATTCAGACACCCACGAAAACAGTCTTATGGATCAGAATAATCCAATCTCATACTCACTATCTGAGAATTCTGAAGAAGATAATAGAGTCACAAGTGTA
TCCTCAGACAGTCAAACTGGTATGGACAGAAGTCCTGGTAAATCACCATCAGCAAATGGGCTATCCCAAAAGCACAATGATGGAAAAGAGGAAAATGACA
TTCAGACTGGTAGTGCTCTGCTTCCTCTCAGCCCTGAATCTAAAGCATGGGCAGTTCTGACAAGTGATGAAGAAAGTGGATCAGGGCAAGGTACCTCAGA
TAGCCTTAATGAGAATGAGACTTCCACAGATTTCAGTTTTGCAGACACTAATGAAAAAGATGCTGATGGGATCCTGGCAGCAGGTGACTCAGAAATAACT
CCTGGATTCCCACAGTCCCCAACATCATCTGTTACTAGCGAGAACKCAGAAGTGTTCCACGTTTCAGAGGCAGGTTAGTTACGGATCAGAAGGACAGATT
GAGGTGTGGTGGTTTGCTTGCTCTAAAAGTAAAATGAAAATTATAGAAAGATAGAAATTTGGTAAAATGGTACATCATCATTTTTAAAATCAAAACATTC
AACAAATCAGTCTCCAGTTTCTGAAGTATAATTTTATTTATTATTTCAAACAATTATTTAACACATTTTGGTTTTTAATTTAATTCTCTCCAAAATAGAC
AAAACAATTTTTATTTATTGTCAATATTTCATACTCTACAGGATGTCTTTTATGGGTGGGGGCAATTCTGTTTGCATAATACATTTTTAGTACACTGCTT
TTAAAGCAAGATCAGAGTATGCTATTTTAGATGATTTTAATTTTCATACTTTTGTTCTAAAATAAGTTGTAAACTAATTCTATTTAATTATAAAATGAAT
TATTAAATCTGAGAGTAATGTGACATAAGCACTTCTCTCTGACACACCCCTGTAGAAAGGAATTAGTTAATTTCCACATTCATATCAGCTTGGGGAGCTT
TATTTATTATTATTATTTAATTAATTAATTAATTAATTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTTACTA
CAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGCGCCCACCACCACGCCAGGCTAATTTTGTGTATT
TTTAGTAAAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAATGTTGGGATTACAGG
CGTGAGCCACTGCACCAGGCCAGGGAGGTATTTATGTATTTATTTATTTATTTAGTTTTATTACTAAGTTTTGAGAGTTAATAATGAAGTTAAAAAAAAT
TTTAATTTTTTTGTCTTTCTTTATCTTAATGTTGCCTAAAGAGGGCAGTGTAAACCATCAAAATACATTTTACTTTATGCCTGCTGTTACACACTTTTTT
AAGTTAAATAATGGGCATTAATATGTACAGTATGTATAGGTATTGTATCACAAGATGTAAAACACTAAACATTTTTCTGTAGAAATGAATTTCATTTGTG
AATGTATTTTATGCAAATTAGCTTACTGACCAGATGTTTCTTAGAGCAGATTATGTGCAGTGTTTATAATACAGATGTCTGCTTTAAATGCCAATGGAAA
GAAGAGGGAAGTTCAATCCTATTAAGTATAGAAAAGTAATACTTTCATTGAATTGGTCATAAGAATTTTATAATTTGCTTTTATTAAATGTGAACGTATC
TTAAAGTTTAATAATGAAACTATTTAAATCTTAACATCAAGTTAAATGATAGGCTAATGTAACAAAATGCACTCATTGTATAAAAGTGAATATTTGTAAT
CCAGAACATAGACATCAGTCTCATTAGAATATTTTTCCTCTTTGCGATTTCATCTTTTTAATTAGTTGTATATTTTTTCTTCAGTGCAGCAGCAATTAAA
AGTTTGTACATTTTGATAGAAAACTTTTTCTGTATTCTGAATTGATACCTATTTAACATTGCATTTTAAACACTTAAATGCTGATATGTGAGAATGAATA
ATGAATCCATAGGTCACTATAGTCATTAGTGCTGTCATATATATGAACTGTTATCTGTTCTCAATTATAGTAGCTGCTTTTTAGTTTTCATTAGATTTAT
GTTAAAAGAAAATATCAGGAATCCATCTATCTGTCTTACCAGGTAGTGACATTGATACGTTCTTGCTAGACTATGCTATTATAGAAGGATATATATAATG
AGATGCTAAACCTAAAATTRTTGACTAAAGCTTAGCAARTTTCTCTTCAGTGCACTAATTAGTTTTATTTAATTATCAAGAGTGTGTTCTCCCACTAATT
AGGATAAAACAATATGAATATGACATCCAACATTATCAAGTAACATAATTAGTGAAGTAAATAAGATCAAACAAGATTAGGGGAAAATTCTGGCCTATTT
TTAAAACTGTATCTATAAAATCATATGTAATCTGTCTTATCCAATAATTGAATATATCCCTTTATCAAATGCATGCAGACTAGCTCTGAAACTTAAGATT
TTATGGTGTATTTCTAGAATGCAGAACAATTTACAGGATGTGTTCTTTAAAATACTATAGATAAGGCAAATATTAGTATCCACAATTTATAAATGAGTAC
ACTGACACCCAAAGATACTAGATTATTTGATCCAGGTCACATGAGTAAATACAAAACTGAGCCTGGAAATGTCTATCTCTTAAAGATTATGCTTTCATGT
TAGGGGCCAATTAAATAAATGTAATGCTTAAATTGTAATACCAAAATTATACTATCTTATTCTCAAAACATCTTTTAAAATGTTAATCTTAGTTTTTTAT
TTCTTAATTACCTATTAATTAAATATTTTAATTTAGGTAACTCATATATACTACTGAGCCATCTCAAGGAGATATTTTAGTCTCAAATAAATAAAAATAA
AATCAGTAAAATTAATTCCTCATTATAGTACACAAAGCAACCAACTGATTGTCTGTGCTTTCATAAGATATCCTATTTTGTGTAAAAGAGCTAGGTTTCA
TGCCATAGTTTGATCATTCTGACTCCTTAATTAAAGGATTTAAGATCAAATATCCCAGAGCACTTTTGAGAAAAGTTTATACACAAGACTATATGTGTGT
GCATGTGTGTATACAGTGTCTGTATATAAATATGTGTATATGGTATATTTACATATATAATGCATTATATATCTTACATATATGACATATATGATAGGAC
ATATCTCATATATATGTATGCTATACATATATAAATGAAATATGTAATTATATATATATATACCCATATACATGTTGCTTTGAAAATTTGTGGCTATTGA
AGACCTGCATAATTATATAAGCTTACTTCGTACATATATTAATCTACATCACTGGTTCTCAAACTTTAACATAGATCAAAATCAACTGGAGGACTCGTCA
AAACACAAATTGCTGACCCTTACACACAGAGTTTCTGGTTCAGAAGATTTTGTATGGTTTGAGCGAAGCCTAAAATTTGCATTTCTAAGTTATGATGATG
TTGATGCTGCTATTCTGGGGATCAAACGTCAAGAAAATCTGATATAGATAATAATATTAACCACCATTTGTACTAAATGAGGTACCAAGGACTTTGCTAA
GTGAATGTTTTCATTTATTACTGACACACTTACTTTCCATCTAGGTAACAATAGTTACAATAGAAAAAACTGTGAAGACAACCATGTATAAAATAAGATG
TTTTTCTAAATTTTATAAGGAAATGCTCATTGCATTCACCATCAGGTTATTTAGGTGACTAGATGATTCTAAATGAGTCTCCACAAAATAATGGCCAGAG
CTTAGGATTAACATTTTAAAAAATGGAGTCTTGGGCTTTTCTCACAAGAATATTAGCTACWACTCAGGGCTGAGTTGGCTTAGAACATTTTCACTTTTTA
TACAGTTTTATGATTTTTAATCACACCTTTGAATTCCATTTTTCCTAGTAAATGCATTTATAGTTATAAGACCAAACATCTTGGGAAGTGTGTGTGCCAT
TTATATTCCTGTGATACATTACATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGATAGAGTCTCACTCTGTTGCCC
AGGCTGTAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCTACTTCCYGGGTTCAGGCCATTCTCCTGACTCAGCTTCCCAAGTAGCTGGGATTACAA
GTGTGCACCACCACGCCTGGCTAATTTTTKTATTTTTTATTTTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCT
CAAGTGATCCGCCTGCCTCAGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCAGCCTGATACATTCCCTTTATTAATGGATTAAATTCC
TGTCCCTTTCTGCTATCACCCTTGATCAACAGAAGAAAGCTATTATTTTAAATCTTAAGTTCTCTCCAATTAGATATATTTTAATGCTATATATGTGCAC
TTATATTAGTCTCAATTTTCTTAAATACATATTTAAGTTAAGTGAAGTTTCTCTGTCTCCTATTACTTAAGCATCAGAAGTGCCAAGTGCATAAGAAGGC
ATGTAGATTTTGATGGGAAACTCAAATGTGGTTCTTTCAGAATGTCTGCAGGTAGATATAAGGGCTTTTTGTAGCACTGTCAGCATGCTGTAATGTTAGA
AACCGTTCTCATGCTCAGTCATCTTGGTTTCCCACTGAACACACCTCAAAGCAAAGAGGAAGGATTGTTATTGGCCACAAACACTCACTGTTCTGAAACT
CTTTTTTTAACAACTTGGAAGGTAATCTCTAGTTAAAGTGATTTTCAAAGTGCTAGTACAGTAATGTACCTGACTGGCCCCCAAAATAATCATGTGTCAT
CTTTTAAAATTAACTCAAGGACCAAATTCGGATTTTTAATTATTTACACTTGCATATTTCAGAAGAATTTCTTAGATCTACATATTCCTCCAATTCACCT
GAAATTGCATTTTTTTTTTTTTGTAGAATAAAACAAYGGGTAAGAAGAACATTCAAAATAACATTTAAAACCAATCTATATTTAAAATTGAAATCGATTA
CTGGATTGAAAGGTTATCCTAATATAAGAAGAGTTATCCCAAGATTTTTTTCTTCATGAAATTATTAATTGCTTCTAACTATTTACCTAATGCAGGGTTA
AAAATAATCCTATTTAAATTTATTTTAGAAAATTAATATATATGGTGATTCAGTAAGTAGCGCTGTTTTTCCTGACCATTCTATTTTAAATCAGTAGTGA
TTTTTAAATTACACTACTTTGATTTTTCTTATTTAGCAAGGCTTTTCAAGGCAATATTATGCTTACCTGTTGCCAAGGCACCCCTATCTGGGTGCCAATC
TCTGCTGGGATGTTGTAGTTCTTCTTGTCTAATAGCCTGCCTTACATTTTAAACTTTGTTTTAATTAAATTGGCTTATAATTGTAGACATTCTTTGCATC
AAAGAGTCAAAATTTTAAAGGTAAGTAACAGCAATGAAGGTTGCAATTAATCAGTTGAAAAATGCTGTGACTTTTCCTTCACCTTAAATATCAATTCTCT
CAATTTTCTCTGACTACAGAGGCCAGTAATAGTAGCCATGAGTCTCGTATTGGTCTAGCTGAGGGGTTGGAATCCGAGAAGAAGGCAGTTATACCCCTTG
TGATCGTGTCAGCCCTGACTTTTATCTGTCTAGTGGTTCTTGTGGGTATTCTCATCTACTGGAGGTAAGTTGAGTATTTGTTTTGGAAAATTTAATTCAT
AAAACTCAGATTTTGCCCATATTTCATCTGAAAGGTCTTCAAAGCATATTCAAAATGTATTTTACCTGAGAGCTGCCATTAATTTATTCAAGGTAAATTT
GTGAATCCAAAGGCACAATAATGAAGGAGTTAATTGTTCTTCATACATCAATTAAAGATAAAATGGAGAAACTTTTACCCGTTACTATTTAACACAGTAT
TTTGACAGTTGTACTTTCATGTTAATCTAATTAATAGATATCATCATAGCATTTAACATAAGTCTAAGCTTCTCGTTAGTTGTTATAATTCCAAAAATTA
AGAAAACATTTTTTATATAATAACAAGTATTGTTTTTCAATGACAGAAGAGTTTGTACAAGATGTGTATTAACTGCACATACTGATAAAAATGATAACCT
GTGCATAAAAGTAAAATCAAGCAATTAAACTATAAATATAATTAGAGACTACAGCTAATGACTATCTTAAGATGCACAGGCATTTAAGATACATATAATT
TGCTTTGGGGATGAAATATAGCTTCGCTGTCAATAATCTATTAAGTCCCTAAAGACAAGAATAATTGTACCCATCATAAAATTTCCATCCTGTGGAAAGC
AGAACACACAGCAAATTAGTGTATTTATGAGGAACATAGGTCAGTATAACTGTGTCTGTTAGAAAACAAAGGCTTTATGATGATATAAGGAATCATATGT
GTAAACCAAGAAAGGGCATAGCATAGTACTTTTATAAAGTATAGCATACTTTTATTTTAAAAAAGAATTTTGTTCAGAAGATACATAATTTTTTTGTTTA
GCAACATCATTCTGTAACTTTGTATCAGCACTCTTTATGTGTTCTCTCAAAATATATTCTCGTGTTTTTTTCTGAAATATTTACCATTGTTATTGATTGT
TTCCCACATACCTAGTACTGTGTTAACCATCAGGAAATATCAAAAATGAACAAATGAATGAAAAAAGAGTCAGTGATTTGAAGAAATATATGCTTATTGA
GGGGGAAGAATTTGTTATAAAAATGTATAAAATATTACACAAAAGTGTATGCGTAGCAGTTGAAATCTAGTGCTAAAAGTAGTCAGAGAACAAAGAAGCT
TGGTAGGCCAGAATGCTCAGGGCAAGTGTAAACTAAAATGTAGGACTCAAGCTCTGTGGGAGTCAGAAAGGAAAGGAAAAGGGCATTCCAGGCAGGGACA
CAGCAGGTGCAAAGATCGGSAAGTAGAAATGAGCTGTCTTTTGAGTAAAAGCTATTGGATGTTTCGGACACAGTGAGGTCTGGAGCATGTATTAATAGTT
GCATGTAGTTGGACATTGGTTGGCTAGGGTAGAATGTCTTCATGATCAACTGTATTTCATATCTGACTTCCTTTACTAGAACAGAGTAGACTGCACACTA
TGGAGAACAGATCATGCTTTTGTTACCCCACATGGGTCAGGAGTCTATTTTGTTATAATAAGAAACAAACAAACCTGGTTTCTTTAGTCTGTATCCCGGT
GATTCCAATAATTGCCAAAGATTCTTTTTCYTTTTTTGCTAAAGGGTTCATGCTTAGCAGAGTGCTTTGAACMTAATCCATAATCCATAAATGTGTGTTC
AACAAAAATAAATATTGCTTTTCTCCCCGTTCCCCACTGAACTTGTTGACCAAATTTTTTACCACATTGATATGTGTATTCAGATTACAGGTTTCTATCT
AATCTGATTTTCCCTACCAAACTACCTTTTTAATTAATGGGAGTCAGTGTTAAGAATTGAAAATAAGATGGAGAATATGACCAATTCTGCTTCATAGTAA
ATAGTGCTAGTACAAAGTTCCAATAAAGATGTCAGATGGTTTATAATTATAAGATTGAAATTCGTTTCTTAATCTGTGTTACTTTTCAAGTATATTTTCT
GAAAATTTGGAAATCAGTATCTTATTTAATACAATTTGATATTTCATGGAAAATTAAAATTTAGAGAGGTTTCTATCTTCTATTAATAATGTGTCATTTC
ATCTGCATTATATGGGGAAAAGATAAAATTACCAGTCAAAAATATATTAATTTGACCTTCAATAAGATATTTCTTTTTTCTTCACAAATAACACTTTAGG
TACCTTGAATGCAGAGTGTCATAGTGTAAAATATATATGAGTATTTTGGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCAATTTGCAAAGGTGAAGT
AAGTAGATCACTTGAGGCCGTGAGTTTGAGACCAGCCCAGGAAACATAGTGAGACCTCCATCTCTACAAAAACAATAAAAATAAACAATTTAGCTGGGCA
TGGTAGGGCATGTCATACTCCCAGCTTCCCAGGAGGCTGAGGCTGGAGGATCACTTGAGCCCAGGAGTCAAGGTTACAGTGAGCTGTGATTATGCCACTG
CACTCCAGCCTGGGCGACAAAGTAAGACACTGTCTCAAAAAAAAAATCACTTTGATGGTTTTATGTATATGTTTTATATCTATTAAATGTTCTGATAAAA
ATTGTCAATCTTTACTTATTTTGAAATGTTAAGTAGTGTTAGATATCTGACCTACTAACATCTGTTTGAAGTTAATTCACTAAAAAATATAAATTTTCAT
ATCATCATATGCTAGGGGTATTATGTGCTGAATCACAAGATGATAGTTTTAGTTAATTCTTCAAGGTTTATGTGAATTATTCAAATTCCAGTGAAGCTAC
ATTTGTAAACAATATGATTTCACTAGCCAATATATAAACATTTTAGACCTTTGTAAAAGCTACAGCTTGAGAAAAGGTTTAAAAATCTAATGTCGTACCA
ATAACAGTCCTAATGGTAATGAAGTCCTTAAGAATTTTTCCAAGTTTATATATTTAAACTTTTTTAAACAGCTTAATTAGGTAATATTGAAATATCATAA
AACTCACCTTTTTAAAGTGTATGATTCAATGGTTTTTAAAGTGTTCTACTATTTCCATAATGACTAATGATGTTAAGTGTTTTTTCATGTGCTTGTTGGA
CAGTTGTATATCTTTTTTTGATAAATGTGTATTCAAATCCTTTGCTGCCTATTTTTTAATTGGGTTATTTGTCTTTCTATTATTGAGTTGTGGTTTTGTT
TGTTTGTTTTGTTTTAAGGAGCAGAGAGTTTAATAGGTAAGAAAGATGGGAGAAGGCAGAAGGAAGAAGCTCCCCGTACAGAGACAGAGGGAGGGGGCCT
CCAAAGCTGAAAGAGSAGAACCTGAGTTGTGTGTTTTTATATATTCTAGATACAAGTCCCTTATCAGATATCTGATTTGCAATTATTTTTTCCCATTCTG
TGAGTTATCTTCTCACTTTCATGATGGTATCTTTTTTAAAGTAGAAAAGTTTTTAATTTTGATGAGGCCAAATTCATCTATTTTTTCTCTTATTGCTTGC
ACCTTCAGTATCATATCTAAGAAGGCATTGCCTAACCCAGCACCACATGGATTTACTCCTAGATTTTTGTCTAAGAATTTAACAAAATTAAAGGACTCAT
GCTTCCCAGTTGCAAAACTTTAATTGAAAGCTACAGGAATCAAGAGAGTCTGGTACTGCCATAAGAATAGACATATAGATCAATGGAATCGAACTGAGAA
CCCAGAAATCTTATGTTTACGATCAGTGGATTTTAGACAAGGATCCAAAGACTTTTCAATGGGCAAAGAATAGTCCTTCCAACAGATGGTGCTAGGACAA
TTGAATATTCACATACAAAAAGTCAAATTAAACCTTTTTCTAACACTATACACAAAAATGAACTCATAGGGACCATAGACATCAGTGTAAGAACTATAAA
ATTCTTAGAAGAAAATATTTAAGTATGTTTCTAACCTATTTTAATGAGAAATTAATCTCAAAGTTTTATAATAAATCTGCTATTTCACCTAATTTACCTA
ACTCAAGATATTCCCCTTATTTTTTGTATAAACTTTCAGAGGAAGCAGATTTTAGCCAAAAGACAGAACAAATTCAAAGTGAGAAAATCCAGATCTCTTT
CCTAGTTCTGCCCGGCATTTGCTATATGGCCTTGGGCATGTCAATTACCCACCTAGGACTTGGTTTCTCCTGTTTACCATTTGGGTAGGTTCACTAGATC
ATCTTTAAGATTGTAGCCAGCGAGGCATGGTGGCTCATGCCTGTAATCCCAAAACTTTGGGATTTATATATATATATAATTWTATATATAATTATATATA
TGTATAATTTTATATATAATTATATATATATAATTTTATATATAATTATATATATTATATGTATAATTTTATATATAATTATATATATTATATGTATAAT
TTTATATATAATTATATATATTATATGTATAATTTTATATATAATTATATATATTATATGTATAATTTTATATATAATTTTATATATTATATGTATAATT
TTATATATAATTATATATATTATATGTATAATTTTATATATAATTATATATATAATGTATAATTTTATATATAATATATATTATATGTATAATTTTATAT
ATAATTATATATTATATGTATAATTTTATATATAATTATATATATATAAAAAAAAAAAAGATTGTAGCCAGACCCAGGAATAGAATAATACACATTTCTA
GGTTTTCATTATAAATACTGTGATGAAAAGGCGTAAACCAAATAATCAGATTACCATTGATTGATAGGACCTATGTCTACAAGTTTAAGACAGTCATCAC
TTTTTTCATCATGCCTGATGGATAATTAGCAGGTGACGTAGTTATSAACACTTAGCACATAGACGTGAAGACATTCACTGCTTATACTGAACAGATGGAC
TACAGATACTGAATCTTGTCATACATTAAATAATATGCCTTGAAATCATTTTCCAGATGTTTTATGGTATAATTTACATGGGCCATACCATAAGTTTCTA
AGATGCAAAAATGACTTCAACAGGGAAGATTTTCAAAAGTTTTTTTTTTTTTAAGGCAAATTTTTGAAAGCTTTTTTAAGAGTTGGAACCTAAAAAGTAC
CAAAGGTATACCCAACCAAATGGCACACTATCAAAAGCAATATAGAAAAGGACTTCACATAAACACAATTGTTTTGGCTGGGGGTAGGGAGATGAAAAGC
AATATGAATTCTCTCTTGATCTTAAACTTGAATTTGTGGATCATTGAAGATGTCTACTAACCCAGAATGGAGGTCTTCTGGTACCAGATTGCCTTTTAAG
TGTAGTGTCACTTGCTATATAAAACTGCACTACAAAGTATACCTAACCAATATGCAAATGACCTTCATCCATAATTTAGCCTATACTATTTTAATTTTTT
TTTTTTACTTACAAGCTTTTTGGTATTATTTATAAGGTCTTTTAGGGAAATTAATGCCAAATAGGGTTATTGGGCTACTTATTTTCTAGAACCAACAAAG
ATTTGATTACAGATTTGTTTATTTGTTTGTGACAAGAGTAGAATTGGTGTTTACCCACACTACTGTGAACACTAGCAACATATTCAACCTCAATGCCAAC
ATGTTTTAATTTACCATTTTATATTCTATGAGATGCTGCCTTCTTCCCATTCAGTCRTAGTTATTGGTACATCCTCTATCGATCCATCTGCCCATCCAGC
CACCCATTCRTCCATCCTTCTCTACCTATATATCTTATCTCTCCTTCCAAAATGTTTTGAGATTTCAAGTTATCCCAATTGAGGCTAAGGTAGGTAAGGG
AATCCAGGATGCAGCTGAACAACATATGATTGGTGGGATTTACTTGCTATTAGAAATCCATCTAATCATTCAACAAATATTGAACACCTATTCTACTCCT
GGCACAGTATTAAGAGTTGGGTTTACATAAAATCAAGAGATACGGCCCCATCTTTTAAAAATGTAATAAAGATATAAGCACAAAACAAATATAATACAAA
ACAATTACACTAACCACCAATTAAGAAAAATACTTAAAATAAATAATGTAGAATAATGTCCAGGAAATGAAGATTACTCTTAGATTGATTAGGTGTATTT
TTCAAAACAGTCTTTTCTTTTTTTTTCTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTGCTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTC
ACCGCAACCTCCACCTCCCTGGTTCAAGCAATTCTTCTGCCTCAGCCTCTTGAGTAGCTTGGATTACAGGCATGTGCCACCATGCCCGGCTAATTTTTTG
TATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGACTGGTCTTGAACTCCCGACCTCTGGTGATCTGCCTGCCTAGGCCTCCCAAAGTGCTGGGAT
TACAGGCATGAGCCACCACGCCCAGCCAAAACAGTCTTTATGTAGGCTTTTGTGAATAGAAATTTGGGTTAGGTGCAGTGGAAAAGGAGAAGCTGTGGTG
CTAAAGGCTGATTAGGAAATGAAAGGCCATTTCACAGAGAAGATACCTCTGAGCTGTCTTGAAAGAAGGCAGTGTTTGTCTGGCATATTGGCCAGTGAGA
TATTTTGGTTAGAAGTAGAGGAATGTTTAAAGCAGAATAGATAAATACTGAGTCAGGAGAGAAAAGGCAGGTTTATTTATCTACAATGTGATTATATTGT
TAGAGTATAAACTTCAATAAGAAAAGTCTAACAGGGTGTGGACCACAGACAGGTAGGGTTTAAGTATTGAAAAGCCTTGGATATTATAATCTAAATATCT
GTAAAATATATAACTAGAATATATGGGCAAAAGTAAAAGGGGGATAGATATGAACCCGTTAGAGCTGTTAACAGTGGATCAAGAAGACCTATTCTTTGAG
TACCATTTGTAAATACTTAGAAGGGAATGAGTTTTGAGTTAGTAGAAGAAAAAATAAAATCTAGGAAATAAGGAGGATTCAAAAGGAGTGATCTCCTTCT
CACTGAAGGTATTCAAACTGGACCTTCTTAACCATAGGTTAGAGATGCTGTTGAAGGGATTCTTGTATCAGCTGTGATACTGCACTAGCTTTTTAAAGGC
ATTTTACAACGTTAAGATTCGTTGAAATATTTTTTAAAACATTTCACCAGCTTGTATAACTGTATTTTGGAGAAATCAAAGGGATTTTAATTCTGTGACC
TTAAAAGCATGTATCAAGTCCAGTGTTTCCATATCAATATGTCAGAATATGCTCCATTCATAGTTGCACAGATAAGCCAAACTTTCTGTATAGTTTCTGC
CACAATCTGGTTTCATTTCTGCTCATGTGGGCCTTCTGTAGGATAGTTTCTGTGGCCCTCATGTCTCTCATTCCTCATCAGTCTRCCATACTCTCCATTT
TCCAGGATATTAACCTAGTTAGGAGGGTCCCTTTGACACTTGTTTCTGTATCCACTCACCTTTCTCTTATTCGACCTGCTCTCTCTTGAAGATATTTCTG
TGTTCTCTCAATATATCTTCTCTCAGGTGTGATTATCAAAGGCTTATACTACCACAGTAGATGACTAATTTTGCTATGTACGTCATTGCTTTAAGTTTTT
TGTTTATTTGCTTGTGACATCAAGGTTATAAGTAAACTATATAATTTTACACCACTCCTACTTATAGAAGTTCATTCATCAGAGAAATGCTTCGGGGTTA
CCTCCAACATGACACACATGCTCCCGAGCACTAAAGACTAACACTGCAATGATTGAGACAAAGTAGTTTGCCTTGTGGGGCTTATATTCTGATAAGAAGA
GACCAATTATAAACATATAAAACAAATAAAAACATAATAGTATTTCAAATAGTGATGTGCCACAGAGCAAACAAAAAGGCAAAGAGTAGTGACTTAGTGA
GATAGCCTGACACTTAGCTGTCATGATCAGGGGAAAACTCAGAGGGAGCGGCATTTGGGCCAATGCAAAAGTGATGGGAAGGAGGCAGGAAGCCAGGGGG
AATGGCAAGAGTCAAGGCCCTGAAAAGCTACTGACAGGGCTTCTTCAGAGGTGAAGGAGAGGACCAGTGTGGGCTGGATCCTGGTGGGTGAGGGAGAGAG
TTGCAGGAAAGGAAGCTACTGAAGTAGGTTGGGGGCCAGGTCAGGGATTAAAAAGGTCTTAAAGCCCTTGCTAACATAACTGAATGTAATTCTAATTGCA
GCGAGAAGCCATTCAAGAATTTTATCTAAAGGAACTAATTTACTAGAAAAAAATAAAGATTTAGGTGTGTCACTATRTAAGAACAAATGTTACATTAAAA
CTCATTAGGATAAATGCCTTGTAGCTTGAAGGTTTAGATGGAAAGTGAGATTGTCGTTTTCAGTCAAACAGAATTCAAGTGTTTCAATTTAACCACTCAT
GAATATTGCTCCAAATAAATTAAATGACCTACATCAAAGAGTGTCATTAGCAGTTTTAAKTATTCAATTTTTAAAATTAAAGATGGTTGGCTTTACTTTA
TAGCAGTAGTTGGTTCTTTGCTCTTGTCGATAGTTTGTGGTGTGCTCTTACCAGATGCTACTCTTATTATCCGAATGAAAATAGATTCAGGTGATATTGT
AGATCATAGTTGTCACTGAATCTGAATATATTCATTCTCGAAACCCTCATCAACAAGACTAGCATCTGTTGGGAAGAAAATCGCCCCTATTTTTGGTTGT
ATGCTCATTATTTTCTCATTTAAGTTCTGTCACTCCTGCATTATTACAGCATGAAGCCACTTTCTTTTTTCATCAAAATGTTACCACGGTGTAGTTTCAT
TTCTACGTAGTTCATAGTTCATTTCTATGTACTATGGACTGTGTAGGTAATTTCTACATAGTTCATTTCTACATAGCTTGCTGCTTTTTGCTAGCAGCTG
TATATGCTAAGAAGAACATGGTCATTTGAGTGAATGTTGAGTGAAAATGGCTTTGGACATTATTTCTTTTCTTCTCTGGCTCTATCCAAGATGGCAGGAC
ATTTTGGGTATTATAGCCACAGTGGAAGAATATGTAGGGCATTGAGGTTTCCTATATTAACAMAGTATCACTTTGAACCCAGCTACAACTTCAAATTCTG
TCTGTGCTTTTAGCATGCCTGATATCTACTTGCTCTTCTGCATCTGCTACAGGTAAAACTGAGATAAATTTTATAATTTAACATCTTGTGACTTGTTAAA
ATGGATGTAGATCCAGCAATCCCTCTTCTGGGTATATACCTGCTTTTGTTTTAATTCTGGAGATTTCTATCAAAATTTTCAAGCAGCTCAGAAATTGTCT
TATTTTCCATAGCAACTAGTAGTATAAATTGTGTTCTTTTATTTCCAGGAAATGCTTCCAGACTGCACACTTTTACTTAGAGGACAGTACATCCCCTAGA
GTTATATCCACACCTCCAACACCTATCTTTCCAATTTCAGGTAATGGCTTAAAGTGTGACCATGAGTAGCTGGTAGATGTTGAACAAAAAGCACAATGTT
GAAAGGTTTGTTTTTATCGGGACACTATGCAAATTGCTATAATGTAGATTAGTAAATTTTTGTGTTGCCCCAAATATTTATTACATTATGTTCCAGGTAC
TCAGGTTTATATTCTGTCCTCATTAATTTTAAACGTTCTTAATCATACAGATGATATTGCAAAAATAGTTTATAATTGTTCAGGTGTATTATGTTAAAAA
CATAAACATTTATAGCAATAAAATATTAGTTAAGAATAATGGTGACTTTTACTTATTCCTATTATGTTAATGGAAACCCAAGCAACAAAAGTCAGATTAA
GTCAATGCAGAAAATGTGGATGGGAAAAAAATGACAAAAATAAGGATAAAGTCTTGTTCCTTTCTGATTACTTGAGTTTATGTGAGAAAAGGKTTTTTTT
TTTTTAACCTACATTAGAAGAAAAGATCTATAAAATTGTGGTGGTAATAGCAGGAAAAGCCATGAACACAAACAATATATGGTTGCTTGAAATAATCTCT
CAAAATGTTGAACAGTTGAATATTTGGGAAGACTTTAGCTATTTTTATCATAATTTATCTGAATAACAGTATTCAAAGGTAGCCAGGGTCATTTTGATAG
AGACATCCATTAATCCTAGAGTTTACACTATAAGTAAAATCATAACCACTCATTTTTAATATAAATTCAAGGGGTGCATGTGCAGGTTTGCTACATGGAC
ATGTTGCATATTCAAGCCACTTATTTAATTAACATTTTATAACATCTTGGATTGAAAAGTGGCAACAAAAAATAGTGGTCTAGAATTGTGTGATCTGGGA
AATAGAGGACAATAAAAGGAAAGAGAAGTTAAGAAAGTAGGGATACAAAAGGAGAAAGTCATCTATGGGATCATTTCACAGATGGCACTTTTTAAATTCT
CTGACTGATGCTCCATATTCCATTGCTAGAGGCTCAAGTTCTACAGGATGTTATCTTCTGAAATCTCATGACTTAAAAAACAGAAAAAAAGTCAAACATT
TTATTTATATTTTACATTTATATGTTGATGTTTGTTATATGTTTATGTCATATGTTATATATATTATTTATATATATTTAACTATGATATTTTCTTTTTG
TGCCTTATAAACTTAGGAATTGTGTTTGCTATTTTTCCTCTTTTGTCAAGTCTGTGTCTTTAAGCACCACTGTTTTATTTGTTTTTCTAGTTTACATTAA
AATACTATTATTTTAGTACCACAGTGTCTCATTGCCATATTCAGAATTTTTAGACCAACAGCTCTCAGTTATCTGTTACATTTTGATTCCCTTCACTTCC
AAACATGTCTCTTCTGCATACCCCATCAGCATGGGTATGCAGATTAACTAAAATTTTATCCAAAGTCCAACATGGTTTATTTTTAACAAATAAAATAATA
CAAAATCAGACCTAGTCCAGGAGATCCAAACTCCCCTGTTTTGAGTGTCAAAAGAGTGGTGATTCAAGGGCATCTCCTTATTTCACTTGTTCAGTTCTCA
AAGATTCCCTCTTGATCACCTGAATATGCATGTTTTCGTGTAAAAATCAGAAAGCAAAATGAATGTTAGTCTCACTTACTTGCAGACCAATTAATAAAAG
AAATTACCAAAATACCTGACTGTCAATAAAAGGTACTAGTCTACTTATGAAAGGAGGTTGGCTGTGCAGGATAACATCAAGGGGTTTGAAGGACATTTAC
TAGGACTAATGACTTACATGTGACAAATCATTTCTGTTTTCTTATCTAATTATAAAAGCTTCTAMGCAAGATCCTTCTATAAGTGTGAAGGTAGAATTAC
ACCTTTGTCTAGTGTTTCTTAAGCTTGACTGACTAATTCAATTTTAGTATTCAGATCCACTCATCTAAGAGAGAGAACAGATGGATTCCAGTTTTTTTTT
ATCAGCAAATTCTTGGTAACTGAAGCTTTAAAATATTAGATGGCCTAAATGCTGAACATCTGTTGCTATAAATAACTGTTTCTAGTGAAATGTGTTTGAT
GTTTCCTTGTCAGAGAAATCACTTGTAAAATTGCATACTGTGAACTAGTAATATATTCAGTCTAAGAAAGTCTTTCCAGGAAAAGAAAAAAAAATCAGAA
CCAGTTAAAATAATTTGGCCCCTTCACAATTAATTAACAGATCCAATGACTTTGTTTACATAGCATATTTTCAAGTTAGAATTCTTGAAATTTTACAGAT
TAAAAGTCCCAAAGGCTTTTGACATTATCCTTAATGAAATTCTCCATATAAATGTTTTCTATTATTTACAGAGAGAAGGAAAAAATGTTTTCAAATGTAA
ACATCTATTTGACTGTAAGACATTAMATTGTACAGTTTTACAAAACCGAAATTACACTATTTATTATGCKTGGTCCACACTAAAATTGAAACTATATTAT
TTCTACATTTTTTCTCAGAATTTACATGCAACATCCAGGCATGTTAAAGAAAGTTGTCCATCAAAAGATGCAGTCCACTGATAAGGAGTGGGGCTATGGT
GGTATTTATAAATTAACATTGAAAATAAGTGATTTTATCTTTAGGTATAGATGGAAAAGAGATTGCTGAACAAATCAGATTTCTGAAATACAGGTTTTGA
TTGATAATAAATGTAGAGAAAATTGGTAATTGTTGCTTAACAATTGAATGCTGAGATTTAGTTAGAAKTATACAAATAATTGAAGTTGTTTCAGAAGCTA
CTTTATAAGTGATAGGTACGTTTATTTCTGTTAAATTATGCTCTCTAACACAATTTTTTTATTCACRTAGATGATGTCGGAGCAATTCCAATAAAGCACT
TTCCAAAGCATGTTGCAGATTTACATGCAAGTAGTGGGTTTACTGAAGAATTTGAGGTATGATTTTAATATGTCTATTTTAAATAATATAGAAAATAGTA
AAATTTAAAAGATTCAGCAATAGGCTATTTCTTGACCTAAAGACAGTGCAACCATTTGCACTTCTAGTAAAAATATGAGTTCCATAATTACATATGTGTT
TAGGAGATGTGTTATAGTTACTATATAATTTAGACAATTGGTTTTCTATTTTAAAAGCCAAGTTGTACTGGTGGAAACATAAAAAACATTGTTCATTTTC
TTCCATAAAGTACAAATCTTTAATATTCTTTTTTAAAATCTGAATTAATAACAATGATTCTTTTTAATTTTCTAAATTMTATAAATTATACTAAACTACT
AAATTTCATGATTTCCAGCCAAATTACATAAAAATTCTTAACTGTGATTTGTACACCAGTGTTAATGCAAAAGCATTTAGATAACACTTACATTATACCA
GGTAAAAATGTATCTTCTTTTCAAGAAAATATGCATTTCTAAAAAAAATTTGAACTTCAAAATCAGTAAGTTTTTTCCAATGATATTCTGTTAAAATACT
CTTAGACAGAAGGGCAGAGAAATTTACTGCAAATTTATCATGGCCCACTGAACTATCAGCTAAGTAGATTTTTCAAAATAGAGAGCTGTAAGCACAAAGG
TAACAATAAAAACCACAAAAAATAAAAGCTACCCTTTGTGAACACCTTCTTACATGTCAGTGGACTACATGCTTTCACATTCAACTTTCACCCATCTCTG
GGAATTACTTGTTATTATTTCTATTCATATTATTGATGAAATCAAACTTCATAGAATTTAATTAACAACTGATAAATAACAGAGTTCCATTCAAACCTAA
GTCTGTGATTTAAAAACTCATGTCCTTTCCACTGTAGCTGTAAGCAGGAAGGCTGTCTTCAGCCTCCCCGCTGGCCATTCCCCACTAGAGAGCTTCATAT
TGCATTTTTGCTTCTCTCTCCCCTAACCCCAGTGGCTCTGCGGACCTCCCTCTTTGAAGTACTTTGAGCTGTAAGCCTAATCACAAAATCCACTCTCTCC
TGATTTTCTTTCCCCACTGCACCCAGCAGTTGCTTCCCAGGACTCACACCCATCATTATTTATTTAGGGAGGCAAAATGTTATAGATTAGAAAGCTTTAA
GAAATCAAAAGAAAGAGAGGTATGATATGTTTTTACTAATTTAAAAATAATAGAAGCCAATTTATTTAATTCTAAAAGAAATCTAAATCATAGCTACATT
GAATAAGAAAGCAGTGTGAGGCAGTACTAAGTAGGGTGGAATAATATAAATAATTACATGTCTAAAACATCAAATTATTTTTTATTATTTTGACAGGCTA
GAGGTTACGCATGCTATAGTGTTAACTCAATGTTAATTTTAGTGTTAACTGATAGAAATTATCAGGCTAACATCTAACAAAATAAGAAAAAATAGACAAT
TTATAATATAAATTACTGACAACATATACAAATTCATGGTTTTCATAACTATAAAATCATTTTGAATATTATTAAGCAGTCCAAAATAATTAAATTAATA
AAATAACTYCATGTTTTCACTTTTAAAGTTTTTTCTTAATTCTATCTCTTTTAACTCACTGCCTGATTCAAGAAAATTTTACATTAACTGAATAATTAGC
TTAGTAACTAATAGCGTTATACCTTTTAAGTGGTTCTTACATCAAATTGCTTTTAATTGTTCAGAATGACTTGCTGCAAAAGAAGCCTTAAAAGGTTATG
TGGAGGGAGATTGGGCCATTTGCTGATGAATCAGATTTTTATTTTGGTTATCTACTTTCTCAGAAATTATAAGGCTTTTATTTTATTATATAATACTAAA
TAATTATAAATTCTAAACAGATAGAAAATATTTCTGAAAGCATATTAACTCATTTTTAATAAAAAAATGGGCAGAAATAAATTTTCTTTACTTACTGAAG
TTTAAACAAAAAGAGGTCTGCTAATTAAATATTTAGAGTGTTATGCTATCTAAATTTTGTTTCAAAATGATGTAATGTGTATGATTTTTAAAATTTTTAG
GAAATGATTAATGTTTTGATAGCCTTAAATCTGTTACAAACCACCTAATAGGAAGCTGTTTACTTTTTAAAGTAACCCCCCAAAAAATAAAAACAAAAAA
GCACATCACTAATTCAGAGTTTCAAATAGTGCTACTATGGTCAAATAAAATAAAATTTGGATATTAGCCAATCTGACTAATATGACAAAATGTATCATGG
AATATGTGGTTCCTCTCATCTGCATTTTTAAAATCATCATATTATGACATCACTATCTCCTTTTAAAAGTGTTATGTTTTCTTTTACATAATTTTAAAGT
TCCAAATTATTAGACATTYTGATTTGCATGCAACTGTTTGAAACATTCTGTTGTGTTAGTATTTGACAAATGTATTTATTGCATGATCATAGTTTTCCAT
TGTAAACCTAATATGAACGCTTTTTTTTCTCATTTGTCGTGTGCTGWGGAATTTGATTTCTTTACTTTTTTGGCATTCATTCCCTCATTAGACACTGAAA
GAGTTTTACCAGGTAAGGCATTATTTCACTGCATTTTCTTTTAGCCAAGAAGTAGTTGTAACTTTTAAAAAATTTCATTTGATAGATTATTTTGTTTGTT
TTGTCTTCGTTATTATATTTTAAGGCACGTTGTTTGAAAGAATGTGTGTTAAAATGATTTACATATAATTTTTTACAGGAAGTGCAGAGCTGTACTGTTG
ACTTAGGTATTACAGCAGACAGCTCCAACCACCCAGACAACAAGCACAAGAATCGATACATAAATATCGTTGCCTGTAAGTATATTCTTAAATCAGCTCT
GACTTCAATATCATTGCCATTTTGGTGCCTTTTAAAAGTGTCCTGAAGTCATCTGAGAGCTGACCTTAGTGTGGCTGTTTGGGGCCTTTTTATCAGGGAA
TAATAAGACTTGTGTTAGATAATATGTAGCATTATATCACTCTGACTTAAATACCTTCTGCAATTAATAACATCTGTTTTATTTAAACAAAACAAACTTA
GAATTTTAATCCAATTCTTTCTTTTGTTCTTTCTTTCATAGACTGTTCATCTCCCTTGGTGGTTTTTGTCATTATTTATATGACTTGGTCCTATTTTCAC
CTAGGATTTGCTTACTCTTATGTGAATTTACCAACCGAATTACATTTTCTTTAAACTTTCTCTTTTTTCTTCTACCTTTACCTGTTTCCTCCCTTTCTTG
GCATTCTTCCTGGGGTCTTATAAAGAATTAGTTGGATTCTTTCTTTTAATTCTTTCTTTCTCTTTGTTTTCTTAGCCTTTCTCTCTCCCTTTCTCCTCAA
TGAGCAGCTATCTGGCTTTTTTCATTAGTGCAATTTTACGTAATATTTCTCTATGAAATTATTGTCTTTCTTCTGTCTTCTTATAGCACTTCTGGTTGCA
TTTGTTCCCTCTTATTTTTGTTTATATTCCCCTTCATCTCCTAAAATTCATCTTCGTGCTCCCTCCCCACTCCAAAAACAAACAAACAAACAAATAAACA
TTCTACTTATACCCTTTCTATATATTCAGTGGYGTGGCCCTTCCTGGCTTCATAGGACCATGGTATTACCAACGAGGTTATTTAAATTCTGGTTTCATTC
TAGTTCTGAAAGCCAATGGAGCTGCACTCTTCTCCCTGTTACTATCATGATCTCTTATATAGTTTGTATAGATGTTGCCATTCTTTCCACAGAGTTTACA
CTAATTTTTATTTTTTAGTAGAGGGCTTTATGTTTGTCTTCCTGAACTGCGTCTATCCTGGCTACACATAAAACTCACTTGCTTCTTGAGATAAAATTAT
TAGACTTTCCTCTACAAGCTAAATAGAACATACGCATCAGGTAATTAAGAAGGAGACAGAGATTAACATTTGATGAACACCTACCTACTATGTGGCTGGC
ACTGTAAATAAGTTATTTCATTTAATCCCTGAAACAACCAGGCAAGATAGGAAATTGTCCAATTTTAGAGATAAAGAAAAACAATCCAGAAATTCTAAAA
CTATTAAAACCAAACTACAAAAATAGGTCACCCTGACATTGAGACCCATCTGTCAGTTGCCATACTTCCATTTGCACATACATTCCTGTATCAGTGTGAC
CTGTTACCATCACAGAAGTATTCATATCCCAGAGTATCTCTTTAACTTGTTTTGGTTTGGTCTGTATTCACTTCTTCATCCTTGAAAAGAATAATCTTCT
CAGTGAAACTGCCATGTTTCCTTCAAGTAATACTTTATTTCTCATATGTATTTTCTCCAAATAAATAGTTTTTCTGTAGAACTGAATTTAATCTCAAACT
CCTGTAATCATACTTTGAATTACCATAGTTATACCTTATATCATTTACCAGATTTTGCATCCATCCTGTTTTCACTGGCAGTGTGCTATCTACCTCCTCT
GTGCTTGAGCAGCTGTTCTCCTGCCTCCTTTTGAAGCAGTTTCTCTTTGAGGCTCCTCCTGAAAGAGCTGTTTGCTGTAACCATTCACAGAAACTTCCTA
GGGAACCTTTGGCTTTCTTCTCTATCTCTTCTTCCTTCATCAGCCTCCTGTTCATCCTTACCTAGCTTTGTGAGCCTCCCCACCCATCACATTTTTATCT
CTTCGAGAAGCTCTCCACTGTTCACAGCCCTTGTAACCAACCTTAAAATTCCATTTAAAAGACCAACTTCAGATGTCAACCTCTATAGAAACTTTTATCT
CAAACYAAAACAATTTCTGTTTTCATATCCCTCCACTACATTGCACCTCTCACTTGACACCTGTGTATATACCCTAGTTTCACCTATTACCTTAGAAATG
TTCCTGAGGGTGGAGATTCTTTTTATATTTGTCTTTGTTTTCTTTGCTGTCTCTGTATCCCCAAAAAGCCTATGAAAGTAAATGATTGCTTGTGTTGATT
TTAATTGAATGAAATAAATTATTATGCAAATATGAATTATCTTTGTGCTGAAAAGTAGTCTGTGCTACAATGAAATATATTCTCTTTATATTACAGATGA
TCATAGCAGGGTTAAGCTAGCACAGCTTGCTGAAAAGGATGGCAAACTGACTGATTATATCAATGCCAATTATGTTGATGTAAGCATGTTTTAATTGAAA
ATTTTATAGAAATCATATTAGACTGAATTATTATACCATAATGCCATACATGCATACATATACTAGTGCTTAATGTCATGTTATTCGATAGAGAATAAAA
ATGGTAAAGTAACAGTAAATAATTTTTAAGAGAGCCTATGACTAAAAATTTTCATATTAAATGACAYTCAAGCTATTTTACTTGGTTTATCTCCTGAGTG
AGGAAAGGAATTCATGATGGGAGTGTACCTTCAGGGTGGAATRGGTAGATTCAGATAGGTTTCTAACTCTTTAGATGTGAAGGGCAGGGCTGGGCGCGGT
GGCTCACGCCTGTAATCCCAGAACTTTGGGAGGCTGAGGCAGGCGGATCACGAGGTCAGAAGATCGAGACCATCCTAGCTAACACGGTGAAACCCCATCT
CTACTAAAAATACAAAAAAAAATTAGCTGGGCGTTGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGA
GGCAGAGTTTGCAGTGAGCCGAGATCGCACTTCTGCACTCCAGCCTGGGCAACAGAGYGAGACTCCGTCTCAGAAAAAAAAAAAATGTGAAGGGCAGGGC
CAAGGCTTATTTTAAGTTTCCCATAGCTCCTGGCACAAGGATGTGCATTTAGCTGATGAACAAAAAATTTCCATAGTAGTACTGATTAAAAGGCAAACAT
GATTATTAATCCAGTTATCAACCTTTATAATTTTGGGTATTCCTCAGGATACCCAGCTTTGTGGAACTTACTGGGACTCTCCAGAGACTGTAGACCGCTC
ACTAACTAAATTGGTTTTTCACTGTGATCACCTGAATGTCAGCAGAACTCAATTACTTCCCTAAGATGCACCTCTCAGTCTAGCTGGCTTCAGGTTAATA
CTGTGTGGAATACTGAATTCAAATAAATGAGTACATAAGTATAAAGTGGGTTTGTTACAGGCAACTGTTTCATGCTTCCTGAGGAGGAAATATGCATGTC
AGAATGAACATGAGATCTGGAGTTAGAACTGATTTTGAATCCCATCTCTGCCACTGGCTAGCTGTGGGACTTTGGAAAGCCACTTAACTCCTCTGAGCTT
TAGGTTCCTCATCTCCACATCAGGGTTGATGCTTCCATTTTGCATAGATGAAAGATTAAGGTTCACGTTCTGTATTAGTCTATGAAGGACACTGCTATGA
AGGAATACCCAAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTTTCTCATAGTTCTGCATGGCTAGGGAGGTCTCGGGAAACTTACAGTCATGGTGA
AAGGCACCTCTTCACAGAATGGCAGGAGAGAGAATGAGTGCCCAGTAAGGAGGAAAGCCCTTTTTATAACCATCAGATCTCATGAGAACTCACTCACTCT
CACGAGAACAGCGTGGGGGAAATCACCCTCATGATTCCATTATTTCCACCTGGTTCCTCCCACAACACACAGGAATTATGGAAACTACAATTTAAGATGA
GATTTGGGTGGGAAAACAGCCAATCCATATTATGCCCATAAAACATCTTGTACAAAATGGGACACAGTGACGAATTGCTAATAATGATTAGCACTTCTCA
KCACRTTGAAGTAGAGTAAGGAGGTTACACTCCAGATGCTTTTTTAAGCTGTTGTAGACATCTGAGCCCAGTGCCTAAAATACATTTCAAAGCAGTGCTA
TTAAAGACTTGATTTTAAGCATAGCAAGTAGACCGCAAATGGATTAAATACACTTGGAATACAAATGCACAGAATTATAGTTGTGTCAAAGCAAAGAGAG
CTATTCTTTTTTTTTTTTTTTTTTTTTTTACAAAAATGATAGGGATCCTTCTGCTTCCTAACCAAGAGTATTTTCTAACCAAGAGTAGCTATCTTAGTTG
GTACCATCAAATTTCTCCAACTTTGCAAGTTTATTTTTTATGGTTTTCTTTTACGAAAAATTATGCTGACCTTAAAAACTTAGGCATTGTACAGTTAAAG
ATGACATATAAATCAGTTAGTAGGAAACATTTGTCATTTAATTCTTCAGGGCTACAACAGACCAAAAGCTTATATTGCTGCCCAAGGCCCACTGAAATCC
ACAGCTGAAGATTTCTGGAGAATGATATGGGAACATAATGTGGAAGTTATTGTCATGATAACAAACCTCGTGGAGAAAGGAAGGGTATGTAGATAATCTG
TTATGTCACCCCCAAAAAAGTAATTAGAGGTACTTTAAATTAGTTTTAATAGAGTCAGCATTAGGAAGGAGCCAAAGTTTTGAGAGTTATTTGGGATTCT
TTTTTAGTAAATATGACAGCTAAAGGGAAACTGTTAATACTGTTAGTCAAAAAGTTTCATTATGAATCATGCTRTCTGCCTTTTAAACGCATTCTTCATA
CTGTGGGAGAAGTAAATGGGACTCATTGAAAAGCAATGTAGAGTGAAATCGATTTTAATTCACAGGACATGGATTTTAGTCTTGGCTCTGTAACCTGAAT
CTTCTGACTCACTTGCCTTATCTGAAAGGGGAAATTTTAGGGTACCTCATCTCAGTCTCGTTCAGCTCTCAGATTCTATCCCTAGCCTCCTCCACAACTA
ATTTCAGTCACTTATAAAGAAAATAAAACATTTAGAAGAGTGAAGGAGTCCATTCCTGTCACCATCTCAGACCTTTACTGATTTCAGGGAATGACTTTTA
CATGGAGCATTTGAAATACAGAAGTAACATCTACATTTTCTTTTGCAGAGAAAATGTGATCAGTACTGGCCTGCCGATGGGAGTGAGGAGTACGGGAACT
TTCTGGTCACTCAGAAGAGTGTGCAAGTGCTTGCCTATTATACTGTGAGGAATTTTACTCTAAGAAACACAAAAATAAAAAAGGTGAGTCAACAAAATGA
TGGGCATAATCAAGTGAACAATGCATTTGGTCATTTTTTAAGTGAATAAGCGATAGAACCAAGAAAGGGTAAAAAGCATATAACTAAAGGCATTAAAAAT
TCTTGTAACCAGGCCAGGTGCATGGCTTATGCCTGTAATCCCAGGACATTGGGAGGCCAAGGTGGGTGAATTACTTGAGGTCAGGAGGTCGAGACTAGCC
TGGCCAACATGGTGAAACCCCATATCTACTAAAAATGCAAAAATTTGCTGAGTGTGGTGGTGCACACTTGGGAGGCTGAAGCACAGGAATCACATGTACC
CAGGAGGCAGAGGTTGCAGTGAGCTAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCTGTCAAAAAAAAAAGAAAAGAAAAAAAAAA
AGAATTCTTATCACAGCTGCCGTCAGTCCTAAAGGTTTCTTTCAGGTCTCTAGATGCCTGTTGTGGCTTTGGAGCCAGACTGGTTTTGTTGCTGATGTTT
AAAGTGAATGTGATACATGAACAGAAATTCCTACCTTGTGTGGCAACTGCATAGGATGGCCCTGACACAATCCCAATATTCAACTAAAAAGAGTGGAGAG
TGAAACAAGAAAAAGAAAGGAAACACGAAGAATAACGTATTACTCAGGTTCTTCAAAGAAACAGAACCAACAGAATAGAGAGATAGAGAGGTTTACATTT
TTAAGAATTGACTCACATGATCATGGGGATTAGCAAATCTTAAACCTGTAGGACAGGCTGGCAGCCTAGAAATTCTGGTAGGATCTTTACGTTGCACTGT
TGAGAAGAATTCTTTATTCTTCAGGTAACCTATCCTATCAGTCTTTGTTCTTACAGCCTTCAAGTGGTTGAATGGAGCTCACCCACATTATGGACTATGA
TTTGCTTTACTCAAAGTCTGCTGACTTACATGTTAATCACATCTAAACAAAATACCTTTACAGCAACATTTTGTGTGATTAGTGTTGACCAAACAATGGG
CCACCATAGTATAGCCAAGTGGACACAAAATTAACCATCACAAATGACACTCTACTTTCTTTCATTCATTATGGACCCTCAACATCAAATCAAGCTATGA
TTCCTGACTTGCTGTTGAAGAACCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGACTGTTATTAACTGTCTGAACTTTT
CCAGGGCTCCCAGAAAGGAAGACCCAGTGGACGTGTGGTCACACAGTATCACTACACGCAGTGGCCTGACATGGGAGTACCAGAGTACTCCCTGCCAGTG
CTGACCTTTGTGAGAAAGGCAGCCTATGCCAAGCGCCATGCAGTGGGGCCTGTTGTCGTCCACTGCAGGTGAGTCTCAGAGATGTGCCTCTAAACCCATA
GAATTGCTTATACTTGCAAAAAGGAAATCAATGGAACAAAGCTTTTGCCCAAATGGGAATGATTTCTTGAAATGAGGGTGATGAAATTATATGTTCATTT
TCATAAGTATTGATCACTAGGAAATGAACATGCCAGACTCAGAATTGGATTGCTGAATATTTCTAAGCACCACATATTTTTTGATGTTGATTATTTTATT
TGATTGTTCAACTGCATTTCAGCTTATTAACTATTTGAGGCAGGTGGAACAATGTTTTTGTTGTTAAACAAATATTTACCTCAACATATAATACCATGGG
ATAAAAATGCTTGAGCTACAACCCCTGTCCCTAGGAGTTAAAATTMTGTTTTAGAATTATTATGCCAGGCTTGTATCACAGAAGCCAAAGCACACAGATT
GTGAGAAATTTGGCAAAATATATTTAAGTTGTTTTTAAACATTTTGGGACCAGAATCCCTTTTTCATTTTCTTGAGTTTTAATACATTACATTGAATGTA
TTGTCAATTCATTGTTGCCAAGATTTTTTAATTTCCAAGACTAGGTTGATAAATAGAAATAATGATGTTTCAATGAAAGAGGAAAAATGTTGAAAATCCT
TATTTAATGTTTTCAGTTAAAATAATAATAGCAGTTAATATTTATTGAGTGCTGACTGTGTGCCAAGCCTTAGATCACAAAAATCAAATTTGTTTCTATG
TGAAGTATTGTTATCAAAGCAGTGTGTTTTTAGAGAATCAAGTGTTTGCCTTTGATATATAGCTTATCTAACACATTCTAATTACCATCTCAGGAGTTAA
ATTTGAGAGACCCATCTTGAGGCTTTTTAATCTGTTAGCCTGATTATAAACTGAGGAAAACAGGAAGATGCAAGAAAAATAGTGCTGAAGGTCAGGGATT
GTTTCCTAGCAAACGGAGAAGGACCAGGCTATTGTGCAGAGCAGGTGCTAATTTTCCACTCTAGCACTTCCTACTTGTCGGAACATTTGAAAAGAATCCC
TGTCCGTGAATTCTGTCCCTCTGCTAGAGGCTTTGAAGAAGTCGATAGATAATGGCCCTTTAGAAATAACTGAAGTCATGCTTTATTCCTCACAATCTCA
CTGAAATGATATTTTCAGCAGAAAGCTTTATCAAATTCTTTTTCCCATTAACGCAGAAATCTTTACAAACATGTCTACCTGGAAACATAGACCTAGGGAC
TTTTTCTTTTCAGAATTTGGTGAAGTTAAAGCTTTCACTTTTGTCAGATTAAATGTCTATTTGCCACACTCTGATACATAATATTTTCATTGTACAATAT
ACAATGAATAATAAATATGGTTTTTGAAAGTTTTAAAATCTCCAACAGATATAGTGAGGTTGTTTTGCAATTAGACACATGACAAAACATTAGAAAGGGT
ACTTCTAAATTTGTTGTGTAAAGCATTACGCTTAATTACTAAACTGTTTACAATATTGAATTGCCAAATGTATTGTGTGGCTCACTCGCTTGAAGAAGGA
AGTTATTTTAATCAACATGACAACCAGTAGTGATCTATTTTTCAAATTTATTTTATGCTTAACATTGAAATATTTATTTCTTGGTCTTCTCTTCAGTGCT
GGAGTTGGAAGAACAGGCACATATATTGTGCTAGACAGTATGTTGCAGCAGATTCAACACGAAGGAACTGTCAACATATTTGGCTTCTTAAAACACATCC
GTTCACAAAGAAATTATTTGGTACAAACTGAGGTATGATTTTTAAAAAGATGATTTTATTCATCTAAGGTATGGAAATGTCACTAAAATGTAGGTGTATT
CATCTCCTAGGACTGCAAAACAAAGTAATACAAACTGGGTGGGTTAGAACAACAGAAGTTTATTGTCTCATAGTTCTGATGTCTGTAGGCCCATGCCCTT
CCAGAAGCCTCTAGAAGATTCTTCCTTGCCTCTTTCATCTCCTGGTAGCCCCATGCATTGCGTGGCTTGTGGCAGCACAATTCCAGTCTCAGTCTTCACT
TGGCTGTTTCCCTCTGTGTCTGTGTCTGTATCCAAATTTTCCTCCTCTTATAAGCATACCAGTTATCCTCCTCCTCCAGTTGATCTCATCTTAACTGATT
ACATCTGTAACAAACTTTTATGCAAATAAAATCACACTCTGAGTTATCAGGCGGTTAGAGCTTTAATATATCTTTGTGGGGGGACACCATTCAACCCATG
ACACCAGTAACTGCAGCTATGTCATGAATGAGCCAGATAAATTTTATCTGTTTTGTGACCCCAAATAGGGAATATCCTTTRAAATGACACTGGTCACAGA
GAAGATACAGCAAAAGTCTAAGTAGAGTGGTCCACACACATCCTTGCTAGCAAAAATCTCAAGTTCTTCATATACATAGTGGATGAATCAATTCATTTTT
TAAAAAAATATGAATTATGCTTAAATTATATCCATTTTAAGCCCATATAGTTTACCCGTAAGTGACAGAACAGTGTCAGCAAATCTGCATTTTATCTTCA
CTGTTTCTAAATAAAAATGAACTTAAATGGAAACCTATGAATGGCAGCTTGAAAGCAATCAGAAACACATGGCTGAGTGGGCTTCAAAACGAAACCACAC
CAAACATCCTTCCATCCATTATCCTAAGCAAACTTACACAGGAACAGAAAACCAAATACCACATGTTCTCACTTATAAGTGGGAGCTAAATGATGAGAAC
ACATGGAGACATAGAGGGGAACAAYACACACTGGGGCCTTTCAGAGGGTGGAGGATGGCAGGAGGGAGAGAATCAGGAAAAATAACTAATGGACTAATGG
GTATGAGCCTTAATACCTGGGTGATGAAATAGTCTATACAACAAACCCCCATGACACAAGTTGACCTGTGTAACAAACCTGCACATGTACCCCTGAACTT
AAAATAAACATTAAAAAATAACATTCTGGTCATATAAGACCAAGAAAGAGTCCCGTATGTGAAATATCAGAGAACTATTAACTATATATAAAATTGAGTT
AAATTGTATATGACAAGCGAAAAGGAGAGTTGGCGTTGCCAGAAGGGGTAGGCCCACCAGAAGTGTAGAAGTCAAGAAAGCCCTCTCATGAAGTATAGAG
GTGTCAAGTTTGAAGGATAGGCAGAGAGGACATTCCTTTGCCTTGCCAACTCTTCCTGCCTCCTAACCTATTGTGTATTGCCAACAATACATAATAAATG
AAGAGGTAAKGAATGAGAAGAGGTTCTTTCTTCTGTGACCACTTCCTTTCCTCTGTCTGACTTCCTTCCAGGTTTTGTAAGCAATCTTGTGTGGGTCTTC
CCCCATTCTGTAAAACTCTCCTTGTCTGTCAATGGAAGGTACTATGTTTGTAGGTAGATACATATGAGGAAAACTTGAACTAATGTTGCTTATTGTCATT
GTTTTGCCAGGAGCAATATGTCTTCATTCATGATACACTGGTTGAGGCCATACTTAGTAAAGAAACTGAGGTGCTGGACAGTCATATTCATGCCTATGTT
AATGCACTCCTCATTCCTGGACCAGCAGGCAAAACAAAGCTAGAGAAACAATTCCAGGTGAGTCCTCTTGGAAGCCTCTTGGATGTCACTACAGAACTGA
ATGTCCCTGCRTCTTCTCATTTGAGTTGACAGGGTCACGTTGAGTGGGCAGTRTGGGTACAATGACTTTGTATTTGAGCCATCGTTGTTCCTTACTGTGG
GCTACAGTGCCACATGGTAAATTTCAAGGAGAAACATAATTCTGAGCAGCAAGAGGAAAAGTTCTCAGAAACCTTAAACTAACTTTTATAAATGCAAACT
TGGTCGAGAAAARAAGGGCACAGAGCATAACAGAATGAACAGAAAGAACTTGTAAAACATACTATATAAGTGCTCTTTTTACTTTGAAAAAAAAAAACAG
ACCACTTAAACATGAGTGCGGTGGCTCAGGCTGTTCCTGATACTCTTTGGAAAAAATCTGTGTCTCACTTGAAACCCCTGGACCAAAGTAGTACACACTG
GAATAATAGCTTCTTCAACCCCAGTTTCTCCCCCTCACCCTGTCTCAAGGCCATAAGCCAGAGACAAGAGCATGTTTTGTCCATATTGTACTTCCCACAA
TACCAGCTCTCTGACTTTCAGAAATCAGTAGGCAAAGAATTCAGAAAGCAGGTGTTACCGGACCTGCCAGCTGAGACCAAAGCATGTGCAGAATCGTAGC
TTTCCACAGGAATGGGGGCTATATTATTTCACTCCACATTGTTCCTGTGCTATCTGCTTGCTTCTCAGAGTTCCTGGAGAAATAGGGCCAAATTTTGAAG
AATGAATATCTGGGAAGAATTTGGAAGACCTTAGAAAAACCCAGGAGAGTTAACAAATGTTGAGATTTCACTTATTTCTCCTGCTTTGCTCCCCAGTCTA
CAGCATAGGATGTTAGCCACCATGAATTCCTTTGGGCCATTTGCCTTTTAAATTACTGCACGGTGTGCCTTTGGAGGTGTAAGAGAAAGATTGGGATCAA
TACTGAGTTTAGAACCTGTTGTCAGAAAGTCATACATGTTTTACTCATCCAAGCTTATCTCAGTCATAAAGGAATGCCTTAGGGGGGAAAAGAGTATGCA
GTTGGTTTTCAGATAATAAAGAAATGTTAAAATGTAATTAAGTTGTAAAGATATCTTTTCCCTAAATAAATTACACACACACACACACACACACACACAC
ACACACACACACAATATTACCCATTTCAAAAAAACTCTCATTTAAATATGATTTGCCCCTGTGTAGTTGCATAAAAACATTGATATGGTAAGCTAAATAA
TCCAGGATCAAAATGAAAATATTAACTATAAGGTCAGAATTCAATTGAAAAGAGAGATATTTTACTCTCTTTCCTGTTAACATCATAAATAGGGAAATGT
ATTTGTGTGTATGTGTGTGTACCATCCCATAAAAAGATATCTATTCGAGTTTGTCTGTAGAAAATTTCCTTGAAATAAGTTGAATATCTGTGTATTCAGC
AAGTACTTATCAGACACCTGCCAGATGCCAGGCTTTTGTGTTATTAGGGCGCAAACAAGAATTTGTAAAATAAATAAATAAAGCACACCCAGCTCCTAGT
CTTATGGTGCCTGCAGTCTATTAGAAGATACAGGTAAGAAAACACAAACAGGCCAGGTGCAGTGGGTCACACCTGTAATTCCTCTGTTTTGGGGGACCAT
GGTCAAGAATTTGAGACCAGCTTGGGCAACAGAGCAAGACCCTGTCTCTATAAAAAAATTAGCTGGGTGGGTGGCATGAGCCTGTAGTCCTAGCTACTTC
AGAGGCTGAGGTGAGAGAATTGCCTGAGCTCAGAAGTTCAAGATTACAGTGAGCTATGATTGTGCCACTGCACTCCAGTCTGGGAGATAGAGTGAGACCT
TGTCTCTAAAAAAATAAAAAAGAAAGAAAGAAACAGATAAACAAAATAGTGTGAAAAATGCCATTATAGAGGTAAAACAGGATGCTGTAGGAGTACAGGT
AAGGATGCAACTTACCAGAGGAGAATTGCGTAAGATATATTTAAGAGTTGAACACAGGATTTGGTGATTCATTGGACATTGCAGAGAGAGAGGAGAGAAA
AGACACAAGCATAACTACTCAGATTCTGTTTGGGCACTGGGAAAGTAGTGATGTCATTCACCATGATCGAGAATTCAGGAAGAGGAGGTGGTACATGCTT
GAGAGGTGTGGTGAGGGAGAAGACGTGAGATATTTCCAAATCTACCTTATTTTTAGGTTAYTGGGAGATGTCCCAATAAACATGTATATTTGGCAGTTGG
ATACTGGTTCTGAAGCATAAGAGAGGTCTGGCCTGAAGAAATGGATTTGGGAGTGATCAGCGTAGAGATGGTTCCTTGAAGCCTCGGAATTGGATAAAAT
AGCCAATTAAAAATGAAATGTCTAAGAAAGGTTAGAAAGGATTACTTAAGAAAACATTTTAATTAACCTATGAATGGCCAGCCCACAAAGGAAAGGGGGG
AAAGTGGCATCAGAAGGTAGGAGAAAATTCGGGACAGCGGAATATACTAGGATCCAAAGTAAATAATGTTTCTTGAAAGAGGAAGTGAACAGAGATGGCA
AGTGCTAATGACAAATCAAGTATGTTGGGAATGGAGGAGGCCGTTGGATTTAGACAGAAGTCATTGATGACCTTTGTCTAAGAGCTATTTGAAAAGTATA
GCATTGACACCAGATTACAGGGAGTTAAGGAGTAAATGGATTTGAGGAATTAAAGACAATTATATAACTCTTAAAAATTGTTTACTCTGGATAGAATGAT
TAAGATAACTATAAGAAAACTTTGAGTTAGTAAGATTTGGGGGKTGTTTATTTGGGGTTTCTTTGCTTATGTTTTAATATGAGACATGAGAGCTTCTTTA
AAAACTAATGGGAAGGGAGATAATTGGAGWGTACAGAGACCCTGGGTGGTACAAAGAGGCGGGATTCAGGACACAGGTAAAGGAATTAGTGTTCAAAATC
AGTAAAACCTATGTGCATGTTTACAGTAGTACACATATAGGCTCTAAGGCTGGAGGCTGAGGAAGTACTCTACGGTTTCTATTATCTGTGAAGAGAAGGT
GGGTGTGTGTGAGTGTGTGTGTGTGGTGTGTTGCTACATATATTCCTTTTTTTTTTTTTTTCCTCTGAGACAGGGTCTCACTCTGTCACCCAGGCTGGAG
TGCAGAGGCACAATCTCGGCTCACTGCAACCTTCCTCTCCCTGGCTTAACTGATCCTCCTACCTCAGCCTCCCGAGTGGCTAGGACTATAGTAAGTGTAC
ACAACCACGCCTGGTTAATTTTTTAAATGTTTTTTGTAGAGATGGGGTTTCGCCATGTTGCCCAGATGGTTTCGAACTCCTGAGCTCAATCGATCTGCCT
GCTGTGGCCTCACAAAGTGCTGGAATTATAGCCATGAGCCACTGCRCCTGGCCCATTGCACACATACTCTAAAATAAAACTGTTAATAGATGCAGAGGGA
AAAGGGAGATAATTTTAAGGAATCTRTATCATATCAGTCATTTTCTCAGAGTATAAYACAGTAAAAATTGGAAATTGACAGTGAAAGGTTTCCATAAAAA
TTTTGATATTTGGGCATTAAAAATACCCTTTTAAATAATATACATATTTAAGAGGAAATTATAAAATCTTTAGAATTAAAGGTCAAAAGAAGCACTACAT
AACATTTTTAAAGTTTTTAAAATTAAATAGAAAATTAAAATGATTAAATAAAGATTTAACAAAACCTAATGCAGGTTCTATCAAAAGACTATTAAAATAG
ACAAACCTGKGTCCAGATTGATGAAGGGAGGAAAGAATGTGAGTAAATAATATTGAGATTAAAAAAAGAGATATAATTTAGAAACATTTTTAAACACAAA
AGCATACTTTGAATATATTTGTGACAATACATTTGAAAACCTATATGAAATGAATAATTTATTGTATGTTCTAAAATAACTAAAAGCATATCATTGGATT
GTTTGTAACACAAAGAAAGGTTAAATGCTTGAGGTGATGGATGCCCCATTTACCCTCCTGTGATTATTATGCATTGTATGCCTGCATCAGATAGCTCATG
TTTTCCATAAATATTACACCTTTTATGTACCCAAAGAAATGAAAACTAAAAAGAATTTTTAAAGGAAAAATATAATGAAAATACACTAAAAATATATAGA
AAATTTAACTAGGCCAATAGCCATTAAGGAAATCAAATCAGCTGCCTAAAATCCCACCTTCAAAATATAACCAGGCCCAAAATAATTTAATGTCACATTT
TACCAATTTTTAAGGCACAGAAAATTCCAAATGTTAGCATAAAAAATCCAGGTGGAAAACTAACCCAGCTATTTTATTGGACAAATATAACTTTGATACC
AAAACTGAACAAAGACAGAATAAGACACTTATAGGCCAGTATCAATAATCTTATTTAAAATATCAGCAACTCAAATCCAGCAGTGTATTTCTTTAATATC
ATGAGCAAGTAGAGTTTATAGGGTTTATTCCAAAAATGAAATGATGGTTTAACACTGGAAAATATGAATAGATTTACATAAAGAAACATTATGACCCTGT
CAATTAATACAGGAAAAGTAGTCAATCAAATTCTATATTGTTCATTTAAAAAAAGAACTCTTAGTAAACCAGAAATAGAAGAAAGCTTTCTTAGCCTTCT
AGAAAGTATCTGTCATAAAACTACAATAAACATCATACATAAAAATTAAAATTGGAAATGCTCATAGTAGATTCCAGAAAAGATAAGGAATGTCAATTAT
TGGCCCTGCTATTCAACATTATTCTGGAAATAGAATTAAACTAGATAGATGTATAAAGGTAGAAAAGGATTTGCAGATAGATAATATAACTACCTGCAAA
GAATATCAAGAGAAGCAAAAGAGAAAATAATTTTCTTTAGTTAGAGTTTAATAAACATACATAAAAATCAATAGCATTGTTATTTGTTAGCTTTGAGTGA
TTAGAAAATGTTTTAGAACAAAAAAGAACCCAATCATTAACAAAAACAATAACAAAACAGTAGCAAAAACTTCATCATCTCAAAAAAGACACTTAACAAA
ATGTGCAGTAAATATAGAGAAATTTATAAAAGTGAATTGAAGAGCATAAAATTAGGCCCAAATAAAATATAATGTTGATACATGGAAATATTAAGATATT
GCTTCTCCTTACATTGACTATAGAAGTCAATGCAGTATCAATCGAATTTATGGCAGGATTTTTCATGGAAAATGTAGAACAGATTTTAATTTAGCATGGA
AAATTAAACAGCCAAAATATCTCACCTATACTGAAAAGGAAATAATAATAGAAGAATTCTGTTGTACTGTATATGGAAGACTTATGATGTGATATAATAG
TATTGGAAAACGGAGGAATCTAGCAGAGGAATGATGCATTTGAGGAAATCTGTTATGTGGTAGAGWTAACATTACGTATCAGTGAAGAAACAGCAGATTA
ATCTATAAATAACATTGGGAAAATTTTCATGTCAAAAAAAGTAACATTGTATCTCTACCACTCCTCAAACACTAAAATGTATTCAAGATGGATTAACTAC
CTAAAGGTGAAAGCAAACCTTTATAACTATTGTAAGATCATTTTAGAAAAGAAAATATTGGGTTGGGCACAGTAGCTCACACCAGTAATCCCAATACTTT
GGGAGGCCAAGGCAGGGGGATTGCTTGAGCCCAGGAGTTCGAGACCAGCCTGGGTAATATGGTGAAACCCCTTCTCTATAAAAAATACCAAAATTAGCCA
GGTGTGGTGGTGCATGCCTGTAGTGCCAGCCACTCGGGAGGCTGAGGCAGGAGGAACTCATGAGCACAGGAGATTGAAGCTGCATGCACTCCAGCCTGGG
TGACAGAGTGGACACCTGTCTCAAAAAAGAATTGAAGGGGAGGAGAGGGGAGGGAAAAGGAGAGGAGGGGAGGGGAGGAAAATGCACAGCAGGGCATATA
TTGGAAAGTATTTCTTAATAACTTCAGGATAGAGAAGGACTTCTTACGTAAAATGATAATTTGCAGAAAACTTAAATAAGAAAAATAAATTGGCTGTAAA
TCTCTGTGTGATTAAAGAAACTGAAGATGTTTCCAACTTTTTACACACTATAGATTTACATTCAAGACAGCAAGAACCCCCTACAAATTAATAAGTGGAA
ATGAAGTAAAAATATGAAAAGGCAATCATCAAAGAAGATATCTTAATGACTAATGAGCACCAAAATTCACAATTTCACAGAAATTAAGACGATGCAAATC
AAAACCATGATATACTATTTTTCATTTAYCCGACTGTCAAAAATAAAACACTGAATAACTGAATACTCCTAATGCTCTATGGAAACCGTCACACATGTGC
ACATTAAGAGACATACAGGAGATGCTCATATCTATAAAGCTATACAATTGCAAAACACTGCAAATACCCAAATATTCACTAGCTGAGGAGTAGATAAACA
GAATGTAGATTATTCATGTAATGGAGTAGTAACAGAAGGAATAAATAAAATTGAATTATATACATATATATGTATATACACACACACGATGTAATTTACC
TCCAAACGTCTGTGTGAGATTTAAATAGAGGAAATGGAGGTTGCACATCTATAGTGGAAGCCGTGAGGAAGATTATCTCAATGCTAAAAGAATTACTAGA
GATTTCTTTGCTTCTTGTAACTCCCCTGGTGTAAAACAYAGAAGCTCCAGGAAGTTCACTAAAACAAGGTTAAATTCAAGGAATTGTTGGAAAACATTTC
ATATATATTTTTAGTCAGTATCTTATCTTGATTGGTGTGTGTGTGTGTGTCTGTATGTATGTGTGTGTGTGTGTATTTGGGGGACTTAAATGAAATAACC
TATATATTTTTTTACTTTCTTGCCCAGCTCCTGAGCCAGTCAAATATACAGCAGAGTGACTATTCTGCAGCCCTAAAGCAATGCAACAGGGAAAAGAATC
GAACTTCTTCTATCATCCCTGGTAAGTTGTGTTGATCCTTGAAAAAACAACTTTTTTAAAATAATAAAAGCCTTGTAGGAAATTTGGCAATATTTGTATA
CCTTTGGAGCAAATGGAGCACATTCAAATATTTTTAATTTTGTCCAATATGTAACTGTTCCAAAGGACTCATAAATCCTTGAAGTCTTATCTAAATATGC
AAAATGTATAGAAAAATTAGCTTACAGATCAGAGACACTTCAACTTGAAAAATGTAGCTATATTTTACATCTGGCATGGGGAAAAGATGGTACAGTGCTG
TGAGCATGAGTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTACAATGAATGTTCTGTGTTCCAGTGGAAAGATCAAGGGTTGGCATTTCATCCCTGAGT
GGAGAAGGCACAGACTACATCAATGCCTCCTATATCATGGTAAGTCAGAGAAGTCACTGAGGAGACTGCCAGCTTGTGTTACAGGGATCAAAACCAGAAT
GGGCTGCCAGAAGCAAAGACTACAGGCATGGGCAAATGAGTGGTAAATTTAAGTTAAATCTGTTGACTGCAAGCCCACAGTCCACAGCAACAGTTGTAAT
AATGGCATGCTTTTATGTGTGCTGGGACTGAAGAAACCTCAAGCAAGACCAATTAGCAGATGCAGGAACACAAACTCACCATTTAGGGCTGATGAGTAGA
TATAAAACTTATACCTGCTTATCTAAAAGGCTTTATTTCCTTCACTAAGGCAGAACCCCTGAGCAAACCCGGGATTCACTGGCTTCAGCAAAGCCTAACC
TCACTGACATCACTACTTCAGGTTTGCAGCATGATTTTTAGCCTGCAAACTGGGCTCATTTTAGGACCTGGATTTCTAAAGATACAATGCTTTTCTTCTG
CATTTACATCTTTTGTGTGAGGGATGAGTGTTTTAGTAGCTGTTGTGTGACCTTCATTAACATTTAAGGTCAATCAATCACGGAGCTTGGCTTCTGATGA
AAACCTAATTCTTATTCCAAAACCTCTGTTCTATTTATCCAGCAAAGAAAATATTAAGGAATATCTATGCAGGAAACACAGGGATGTGTGGTAGTGGCAT
CTAAATACATTCACATTTCAAATGAGCCACTGGGTGATAGGAATGGGATCTGAAAGCAGAAGGGGCTAGAAGAGCCAGGACTTTAGTAACAGTATAAATA
TCACAGTTAATACAATAGCTCTAGCTTCTAGGTATCTGTAGCAAAATATGCAAGATGTCTCCCTGGTTCCTCTCTTGTAGAGGCAACCAAGGTGTCTGGA
CACCAAAGTGGGAAATGTAAACTCTCCTGTAGATTTCCCACTCTCTGTGGAGTAAGAGACAGTATCCACAAAGCAGTTTGGTAAGTCTACAGCTAGAGGT
GTGTTTTTAATGAAACTGTTCAAGTTTCTCTATCAGCTTAGCTGATAGCTACCATTCTCAGTGACCACCAGATGCCCAGATGAAAGAGCACCAATAAGGG
ATTCACCTGCATGGGTTCCATTGAGCAGTCTCACCTAAAGTCTTCAATGAAAAACCACAGTGTGAAAATTCAGAGTTTTTAGTATTTATGGACCCTGAAG
GGTTCATGGCACTGGAGGCCACATGCATAGAGCTTAGGCAGAGCAAGCAGGGAAAGAGAGAAAAGGACCCATGGACCAATGCCCCCACTGAGTCCAGGGC
ATTATCCAAGTAGGTTTTCCATGGGGAGTTTTACTTGATGAGTTTAAAGCAAGCAGGCACAAGTCCCAGGAGGTTATGTAGTGACTGAGAGGTATTTACT
ATGGCATATCTGCAAAGTCCATGTAGGTGTGAGGGTCAGCGAGGCCAGCCAAGCAGGCTGTTCTGTAGTGAAATGGTCACTATGGAGCAGTTTTGTAAGT
TAGACAACTGGATCGATCACTTTAAGGAACTGGTGGATGGGACGATGTAGAACTGGAAACTGTATCAAGGTGACTGAACCCTGCTTCTGGCATGACAAAG
TCCAACTTATATTTAAAAGGAATGCCAAGGCAACATAAAAATCATAAACATTCACTACAAGATGATAGGTAACCTTGAATACTACATCTGACTTCTTAAG
GCAAACTTGGGCACAATGCTTAATTTCTAAAGCCTCAGTTTAATCATCTGTAAAATGGGGGTCACAGTTCCTATCTCACAGTATTGCTGTGAGGAACAAA
CGATTTAAGAGAAAAAAAAACACATAGTGTCACACCTAACATACAAAGTGCCCAGTAAGCATTGGCTATAATAATCATATTACTACATATAGACACAATC
TGCAATTCAAAAGACTATTTTGACTTAAGGTCCATTGATGTATAAATGCTTATCTGAATGTTTAAAGGCATACGCCAGTGCTGTTTTTGTCTTCTCTTTG
GTTTTGTAGGGCTATTACCAGAGCAATGAATTCATCATTACCCAGCACCCTCTCCTTCATACCATCAAGGATTTCTGGAGGATGATATGGGACCATAATG
CCCAACTGGTGGTTATGATTCCTGATGGCCAAAACATGGTAAGTCCCTTAGACCACTTTTGGGACTTCCTTTACAGAGGAATATCAGGTTACAAACAGCA
AAAAGTCCAGCATACAAACAAGCAAAGTAATTTTGTTTTCAACTAATAAACTAATGTCATTGAAGGCATACTCTTCTGCTGTTGGGCTTGGTTTCATTAT
ACAATCTCCTAGGTCAAAGTGATGAATAAAAGTTTTAAATGAAAGTAGATATAAATGAACTTAAATGTATGTGTTTTGTGACATTGCTTAAGAAAATTAG
AATCACAGCCATGAAAGAAATCAGTCTATATGCTTCTATTTACATTTTTAAAATAAAATGTGTTAGAATATTTAGAGATTCCCTGAGTTTAAGGAGGTCT
CTAATTTTTTCTTTAAAAAAAAGACCTAGTTAGAATTAAGTGATTTCCTAGTATAGGAAGGACTTTTTTAGTATAAGAAAAGCAGCGATATCCCATCCCC
CTCTTTATATATGTTTGGAGAACCCAACAAGTAAAATAAATATTTCATTTAGGCTTTACATGTTTACTTAGCTTTGATATTCAGTTCTTATCTATAAAGT
TATTGTGTGACCATTACACATGAGGCTGGAAATTTCTGAGCTCTTAAAATCACTTGAATCTTCTGTACTCAGTTGTCAATTACAGAAGCAATAAGCTTAT
CATTGTTGATAAGCTAAGAGCATAAAATAATAAAGCAATAGTTTGGGTTCCTAAGTGTGATATTTTATTCAGCACATCAATCTAGTTGAAGGCACGAGAA
AGATGTTAAGAGTAAATATTCAGATTCAAAGAAAAATTGGAGTTGAAATTTCTGTGCCAACCAATTAACTTTATTTCACAATCTGACTTATTGGTCATTT
TATTAAAATCTAGACTCTTCTTTCATTTGCAATTCTGCAGGCAGAAGATGAATTTGTTTACTGGCCAAATAAAGATGAGCCTATAAATTGTGAGAGCTTT
AAGGTCACTCTTATGGCTGAAGAACACAAATGTCTATCTAATGAGGAAAAACTTATAATTCAGGACTTTATCTTAGAAGCTACACAGGTAAGGATATAAG
TTAAATGACAAACTTTTTATCTTAAACACATGTTAAACATATTCTGACCTAAGGATCTGTCCTAGAAATGAAAAGCATGATTCTGATTTTTTCCCCATTG
AGACAAATACACAAATAATCAAATTACCTTGTCACTTTCATTTTCAAAATGATATAGAATCATTAAACAATTAGTCATCACTACGTCATTCCTGAATTTT
ACACACACAGGAAATCAAAGCTCATTTACTCCAGATTAGTGGTTGACAGAACTTAGGTGAAAAATAAACACAGTAAAAGAATAAATTTATTAATTTTAAT
TCTCATGTTTTAATGTAATCCCTTACCTTGTAAGTAAAATGGGAAAAATACTACCTACCTAAACTCTCCTAAGTAAAATGGGAAAAATRCTACCTACCGA
AACTTACTATTCTCTACCAATGTAGAAAGTTGATGAGTGATAGTGATGTAGTAAGTTGATAAATGAAGTGCTTTGAAAACACACAGGACAATAAACTAAG
AATATTTTACTAAAGTCTTGGTTATCTATTACACAAGATACTGTTGTTATCTACAAGATAATACATTGTTTTACTAAACTTAATTATATGCAAATATCTA
TTATTGAATTATTTGTCAATGATTATTTACATAGAACTATAGTAAAATACTAAAAGATACTAACAATGATGTCTAAGGAATGTGAGATTCAGAGTACCTT
CTCAATATGACAAAGATTAAATCATGTTCCAAATAATTTGAATGTTTCACTTTTCTCTAGTTCTGAAAACTAGTACATATATGGTATACAAGAAGATTCT
CTATCCTCTAGAATATTTAAATGACCAATACATATAAACTTGATAATACAAATAACTAATAGTGTAAACAGCATAGCAGTGGAATAGTATCCTATCTCAT
TAAAACAAAAAAGACTTAGGTCTTTATTTGTAAAATGAAGGGCAGAAACTAGAAGGCTCGTAAGGTCCCTGAGAGCTCTTAATGTTCCATGCTAATTTCT
ATCTCTGATTACTCCCTGATCACTTTAGTAGCATCCATTTAGATCTGCCATCTCTCATGCCTTCTCATTATTCCTAGTTAGTAAGAAASCCTATTACAAG
AGTAATAATCATTATATACCTATTATCTTGTCACACCCATTATCCTGATCACTGATCATGTTTAATATCTTGCTCAGCACTGGGAAATTAGCACTGTTTT
TCTCCTAGTATTATTCAGAAAATAAACTAGATAATACAGGTTCCTGATTGATCCTAATTCAGTATGTCTCATCTATGTAAATCAGCTATTATGGACAACT
TGATAATCCAGGAGCCCAACCCAGGGATAAACAGTATTTCTATAACAAAGATCAAAAAAGAAGGAAAGACTAAACTGGACAGTTTCATTAACTTCAGACA
TTTTTAGGCACTTTAACCAAATATCACATTTGAGGTTAGTAGACAAGTGAAGGTCTATGCTACTGAGCTCAAAAGCTAGGGGCCTTTTATTTATGTATTT
GTTATGAGGACTATTTTTAAGAATTTATTAAATATTGAATATATTTAAGATGTTTATATTATATGTGCAAGGTTTGACAATTATGTTAAATTACTTTTAC
CCACCATTGACTTTAAGAAATAGAACATGGCCTTGACCATCAAGTCTTTCATTTGCTCCCTATCCCCTTCATCCTCTCCTCACTTCAGAAGTAGCCTCTT
CCTGAATTAGTGTTTATTGTTCTCTTGACTTATTTTATCAGTTAACCCTTGTCTTTGTTTTCCTTCACACGCGTGCTGCTTACTTTTAAATATCTGTGAA
CTTTATATAAATTATGTGTATTATGCTACTCAGATTTATCTATGTATTTGGGTATAGTTCAAATTCATTTACTGCTGCTGCTTAGCATTCCAGATAATAC
ATATCCTTTTTTCTATTTTACATGCAAATTATTACTTGTTTGTTGTGTTTTGTCTTGGTTTGATGTTGCTATTACGAACAGTGCTGATATGAATATTTTT
AGTCACATGCAAAATTTCCTCTTGGGGATATCCTGGGAATTCCCCTGCTGTGTTATTGTGTTGGATCATCTTCAACTTTCTTTAACTTTACTAAATGAAT
TCAATTGTTTTCCAAAGTCATCCTACAAAGGTATCCTCTCATCAGGAATGTATGAGTGCACTACATCCTCATCAGTGCTTGTGCTGGGAATGAAACGGCA
TCTCTTGTTGGTTTTAATTTGCATTTCTCTTGTTGAAAATGAAGTTTTCAACATAACTTTACATTTTTACATAATTATTTACATAAATAATATTTTTACA
TACAATATGTTTTATACATATTATTTTTACATAAACATATTTTTATATAAATTAATTGACCATTCAGATTTTATCTTTTGTACTGTGTCTGTTCATGATT
TTTGCCCATTTTTCTGTTAGGTTATTTATCATTTACTGATTTATCAGAGGTCTCGTATTGTGGATACTAATCCTTTGTCAGCTGCATATATTGCAAATAC
TTTCTCCCAGTTTGGGATTTGAATTTTTTACTTTCTTTGTGATTCTTTTTTTTTTTTTGTCTTTTTTTTTGTGAAAGAAAAGTTTTGAAGTTTAATCTAT
ATGAATGTATTGATCTTTTTATTCCTGGCCTTTAAAAGGAAACCATCATTTAGTATCTTAAAAAAATACCTTTTACCCTGAAATCATGAAGATGCTCTCT
TACACTGTTTTCCAAACGTACCACCTGAAATTGACTTTTTGTATTATATTTTGTGAGACAAGGGTTCGGTTTCATTATTTTCCATGTGATACCCATTGTC
CCACCATTATTTATGAATTAGCAATATCAGTTCAGTCATTCATATAGTGTGTGTGTGTGTGTGTGTATATATACATATATATATACATATATATATGTGT
GCTTGTTCTAGGACATTTATTTTATTCCATTGGTCACTTTGTTCATCCCTCAGCCACAATGGCAGTGTTTTACTTCTTATAGCTTAGAGTAATTCTTGAT
ATCTGATGAGTTAATTTCCTCTATTGTTTTTCTTATTTACCAGTATCTTGGCTATTTTGGCCCTTTGCACTTTTATGTAAAATTTAGGTTCTGCTACTTG
TTTTTAAAAAAGGTATCATTTTTTTAAAAAAGTACACTTTTGGAAGCTGGAGGCGAGAAGTTTAAGGGATTTATCAAGTCACAGTCTTGTTGGTCACTTA
AGTAAGAATCAGAATTGGGATCCGAGTTGAACCTAGATCTCTACCTCCTTGTCGGCGTTTTCTCCACTGTGTCATGCAATCTTTTACTTAAGCCTGAGGA
TTACTGATAAGTGAAGAAAGTGTATGCTATTTTCAAAACAGATTTTAACACCAATGATTTCCTTTTATAAATTTGAATTTAGCCGTGCAAATACATCTTT
GATACATAGTTTCATGGTTTGTAAGCATTGGCATATTTCACCCACAGATAGAGTTTATTTTTAGAATAAAAAAAGAAATTATGTTTTTTGATTCTACTAG
TAAATCTATGCATGTTAAATGTGGCATCACAACTGTTTCTTCCTTCTATGATGAAGAATGTGCTGCAACTACTGCTGCTCACTCATGCCTGCCATTGGGT
TTTATTACCTTACTGTAATTCCTGATTTTCCTCAATGATTCCACTCCTGGTAAACTGTCACTAACTAMCATTACTTTGTGTTTTCTTGTTATAGGATGAT
TATGTACTTGAAGTGAGGCACTTTCAGTGTCCTAAATGGCCAAATCCAGATAGCCCCATTAGTAAAACTTTTGAACTTATAAGTGTTATAAAAGAAGAAG
CTGCCAATAGGGATGGGCCTATGATTGTTCATGATGAGTAAGTTCCATGTGTTAGATGGTTTCACACCTGCACATTTTCTGGGCATATGTATATTTCTGT
TGTCTTCAGACAAACCTAATGCTTTGGACCCACTGTGATGATTCAGCCATGGTGGATTATCTGCATCTTATCAATAAAGTTAACACAGAACATTTTTTTT
TTTTTACTTCACTTGAAGTCCCTGTTGAAGACAGAGAATGGGGTCATGATCACAAATATCTTCTCTTGCATTTGATGCTGAGAACACTTTGTATACTAAG
TCGGTGTTTTAGCAGTGAAATTTTCAGGAGCCAACCAGAGAGGCATTTTCAGTCATTGATTTCCTGGCATAGAAGTGAAATTGATATGATTTTTATTTTT
CAGGAACAAGAAACCATCCAATAAATCTTCCTAGGATTCCATCATAGACAAATAAAAAATGCATATGCTGAACTTATGTTATAAATATATAAAATACAGT
TTGTTATATATGTATTTATACATTATATTATATGTGTATTATACATGTCTTTATATGATACTCTCAGGTTTTTTTTTATTATTGCCAACTCCTTTCATAG
TATACAAATAATAAACCATAAGCAAATACTAAACTTCTGTAAAGTATTCCACTATTGATATCATGAACACTTGGCAATATTTCAGATTAAATCATAGTTC
TTTGTGCAAAAAGCGAAGAGAGACAATTCATTAAAAGTTTCAGTGTTTTCACTGCAAAGTTGTCAAGGCTATATGCTTTGTGAGTTCTAAATGTGAGTGG
TGCATCTCAATGGAGTCTTTGTTCCTTTTCTTTTTTTTTTTTACAAGGCATGGAGGAGTGACGGCAGGAACTTTCTGTGCTCTGACAACCCTTATGCACC
AACTAGAAAAAGAAAATTCCGTGGATGTTTACCAGGKAGCCAAGATGATCAATCTGATGAGGCCAGGAGTCTTTGCTGACATTGTAAGTAACAAGGCAGT
GAACGAAATTTTTCACTGATAGAGTACAACTAACTTCCTAGAGGCTGCTGAAATCTTATGTATCAAGAAAGATCTTATTAACTGATAACATTAGTATGTA
GTTTTCAAGCTGAATTACAAGTCCACAAWCCATAGAACAACAACATTTAAAATTTATACTTCAGAAAATTTATGGATAAAAACTTTTAAATCTCATGTTT
GCCTTTGTGCACAATAGTAAACAATGCAAATAAGCTTAGGTGAATGTAGAAGTCATAGGCTCACCTTCAGCTCTTTGGTCTGTTTAAGGGCCTTATAAAG
GGACCTTCTTCAAAGCTCCAGCCTAGACCAGTTGGCAGGAGGTCAAAGTTATCTTCATGCACATGCACTGCAGAGGAGCCCCTAATAAGTCTTATTCGGG
GCCGCTGAGTTGTATCAAGCTTGTGCTGCATGAAACTCCTTTCTGGAGATGCACAGTTCGCGAAAGCATTTAATTATGCACTGCGTCACATGTAGGCCTC
ATGGTTTTCGGCTATGATGCTGCTCACTGGTTCAGGTTCTCTGTAGCTACCTCTCCCCAAACTGCCTGAGATGGCATCTGTAAGAGAAAAACTGTTTCAT
GCTTCTATGTGCCACTGCTCTGAGACCACAGCAGAGAAGGTACTTACCTTTGCTCATAGCAGGGCATAGGACCAGTTGGGCTGATAGAATGTGAAATTCT
TCTTATTGGTGAACAGTGAAGGATTGCATTCTACATGGGTTCCTGGGCTAACAGTACAGTCATTCCTGAGATCTTTCCGTAAAGAGGCAGACCCAATGGA
TTTTCTAACAAGTAGAGAAAGAAGAAACTTGTTTCTGAGTGAGTTACAGATGTCCAGTGCCAAACGGTTTCGCCCACAAGTTAACAGAACCCTGTCTCAT
CACCTTCTGATTTCATGAATAAGAATTAAGTACTTATTGGCAAATGTATGTAGGTTAATTTTCTAGGTCAGTGAATGGTCTGCCGATTGCAACGTTAATT
TAATCAGAAGAGACATCAGTATAGGTTGTGTGCATCTGCTGAGTATAACAGTGCCCTTAACACATTGCCCTTTCATGAACAGTGCTGAAGTGTGTCTAAA
AATATTTCTTCTTTTTACAAATGTATGTCTTCACTGAGCTTCGCATTTATTACCTCCCATCTTCTGTTCTCTAGGAGCAGTATCAGTTTCTCTACAAAGT
GATCCTCAGCCTTGTGAGCACAAGGCAGGAAGAGAATCCATCCACCTCTCTGGACAGTAATGGTGCAGCATTGCCTGATGGAAATATAGCTGAGAGCTTA
GAGTCTTTAGTTTAACACAGAAAGGGGTGGGGGRACTCACATCTGAGCATTGTTTTCCTCTTCCTAAAATTAGGCAGGAAAATCAGTCTAGTTCTGTTAT
CTGTTGATTTCCCATCACCTGACAGTAACTTTCATGACATAGGATTCTGCCGCCAAATTTATATCATTAACAATGTGTGCCTTTTTGCAAGACTTGTAAT
TTACTTATTATGTTTGAACTAAAATGATTGAATTTTACAGTATTTCTAAGAATGGAATTGTGGTATTTTTTTCTGTATTGATTTTAACAGAAAATTTCAA
TTTATAGAGGTTAGGAATTCCAAACTACAGAAAATGTTTGTTTTTAGTGTCAAATTTTTAGCTGTATTTGTAGCAATTATCAGGTTTGCTAGAAATATAA
CTTTTAATACAGTAGCCTGTAAATAAAACACTCTTCCATATGATATTCAACATTTTACAACTGCAGTATTCACCTAAAGTAGAAATAATCTGTTACTTAT
TGTAAATACTGCCCTAGTGTCTCCATGGACCAAATTTATATTTATAATTGTAGATTTTTATATTTTACTACTGAGTCAAGTTTTCTAGTTCTGTGTAATT
GTTTAGTTTAATGACGTAGTTCATTAGCTGGTCTTACTCTACCAGTTTTCTGACATTGTATTGTGTTACCTAAGTCATTAACTTTGTTTCAGCATGTAAT
TTTAACTTTTGTGGAAAATAGAAATACCTTCATTTTGAAAGAAGTTTTTATGAGAATAACACCTTACCAAACATTGTTCAAATGGTTTTTATCCAAGGAA
TTGCAAAAATAAATATAAATATTGCCATTAATTTGTGTTTGCTTGTGGAGCATTGTGCTGAAGCGTGTGTGGCAGAAAATTGTGGATGTGGGTCCCCCTA
TGATGATGGCACACACACACAAAAAAAACAGCTAGTAGGATGGGACAGGATTTAGAGTGGTGGGTCCCAAACTGTGCATTGAGGTGCACAGGGAAGTACA
AAACTTTCCATTTGTGAGGAAAACACAGCAACATGTGCAGACACTGCACAAACTTTTACTATTAAATTATTTGAACTTTACTACTTAATGAACAGAACAA
TTATGTATTTCTTTTGGCTTGGGGAGTGCTATGATCTGAATGTTTATGTCTCCCGACAATTTATCCCCTCACCCTCAAGGTGATAATATTAGGAAGTAGG
ACCTTTGGGAGGTGATTAGTTCATAAGGGCAGAGCTCTCATAAATGAGATTAGTGTCCTTATAAAAGAGGCCTGAGCGAGACCCCTCACCCCTTTCGATG
TGTGAGATTATGATGAGAAGACAGCTGTCTATAAGAAAGCAAGCCTTCACCAGACATCGAATCTGCGGGCACCTTGATCTCGGAACTTAGCCTCCAGAAG
TGTGAGAAATAAATCTATGTTTGTTTATAAGCCACCATATTTATGGTATTTTGTTACAGCAGTCTGAATGGACCAAGACACAGAATTCTGAAAATGTTAC
TGATGAATTAAGAGCATCATGTACCAAGAAATGTTGGGAACTTCCGATTTAGAAACTAGCTGGAAGTTAGAAGTAGGCAGATTTGCTAGTCAGAGACTCC
AATATAAGCAAAGGTCAAGGAGGGGATTGGAAAAGGCATAGACAGACAAGGACTACGAGGTAAAAAAAAATTCCAGAATGGAAAAAGAGAAGAGGTCCCA
TGTTGAGCAAATCATCAAGATCCAAGAGCCACATGGAACTGAAATTCAGGAAAATGGAATCATTAGTATCAAGCAGACTTTGATGCTTGCAGCAGTCCCC
TGCCTCTGCCAGGAGTGTTTTATAATACTACCTACAAAGGAGCTCACTGTTCCCTAAGAATGCTCAGCTCAGGGCCCAGAACAGGAAGCTAGAGAAGTTT
TGTTTAAACCAGTGGCTCTCAAAATATGATTCCCAGATTTGTAGCATGGACAAAATCAGGGAACTTGTTAGAAATGGAATTCTCAGATTCCCATCTGTCA
GAAACTCTGGGGGCTAGGGCCCAACAATCTAATGAATGCTAAAGTTTCAGAACCATTGCTCTATAGCAACAACACTTCAGGGAGCCTCCAGTTACCTCAA
GCAATATCAAGAAATTTTCACAATGTCTTTAAAATAGAGCTAAAATTAATTAGCTTTCCTTTTTATGGGAGCTTTTCTTTTAAAGCAATAGTCATGGGAG
ATATGAAATAGAAATAGGCACACACAAAAAAATCTCATAAATAGTAGTGTGACAAATCCCCAAATGGTGATAAGCACCACTCTACAAGGTACAAAAAGAA
TTAATGTACTTCTTATTTCTCCTCCCAGAGAGGAAGGACACAAGGTTAATTTTGAATTCCTTTGTTGCTTTTCTAACCTTATCTCCTTGTCCTCTTGTTT
TACAGTTTTGTTTTATCACCACCCACAATGTCTAATCATGAGCTGATCTGAATCAGTAATACATATCACCTCAATTATTTTGTCTATTTTTCCCTTAGCC
TTTGTCCCAGGAACAAGCAGCCTTTGAGGAGATACAGAATTTTTTTACCCTTTAAGGTTATTTATTTAGTAATGTGACTTACAGAGTCTTGTCCAACAGA
AAATAATTATGCAGTAACATGTATATCATATCAGTTATGCATTCTTATATAAATGTTAATAAATATATTCTGAAACAGATTAAAAAGAAAATTCCTGTCA
GATACAGCAACATTTTCTCTTTCCTTGATCCTTAACTCTGAGGCAATAATCAGCTATGAGACAAATGAAAATAAATGAAGCCAGGTAAGTCGGTCAGGTA
AGTATCACTCGATTTTTCCATCCAACACCAAAATTTCATTCCTTGTGTTTAACACACTCACAGCTTTTTTCCATATATTGTTTTATTTTTATAATTGTGT
TCTCATTGTGAATATGTTTTTATGCTTCTTTTTATAGTGATATAGGCATTTTTTATTACACATAATCTATAAGCCTACCTTTGCCAAGGCTATATAATAT
TTCATTCAGTATAGCAGTTTCAAAGAAGGGGACATTTGACACTGTCTGGCAATGTCTGGAGATATTTTTGATGATTACAACTGGCCAGAGGGTGAGGGGT
GCTACTGGCAACTACTGGGTAGAAGCCAGAGATGCCACCAAACATTCAACAATGCATAGGACAGTCCTCACAACAAAGAATCACCCAGAACACAATGTCA
ATAGTGCCAAGACAGAGAAACCCTGTTCTTACACTATGGGTCTTATAATCATTTTCCTAATATTGGTTTTTTGTTGTTGTTTGTTTTTTTGTTGTTGTTG
TTTTTTGTTTTGTTTTGTTGTTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTGGGGAGACGGAGTTTCACTGTGTTGCCAGGCTGGAGTGCAGTTGTGCA
ATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACAACAGGTGCGCGGGCCACCATGCCCG
GCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTTGATCTCTTGATATCGTGATCTGCCTGCCTCAGCCTCCCAAAG
TGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCCCTAATATTGGCTCTTTCGAATCCTTCCTATTACAATACAATGATAAACATTTATTTGTGCAGA
AAAGCTTTTCATCAGGTTTAGGATTATTCCTCAGGACCAATTGTTGTGTTATTTGGGGGAGCAGATAGTATGAACATTTTTACCTTACTACTCTTTCACT
TTCCAAAAGAGTTAGGCTGTTGAGACCTCCACTGGCAGGGTATTAGAGTCCTATTGTTCCACTCATGGGTTCAGGTCTCTGCTCAAATATCTCCTCAGAG
AAGCATTCTCTGATCAGCCTGTCTGAAGTGGCATTCCCTCCTCTCACGAAGGAGATTCAAAATATTTAGCAGTAACCATCAGAAGAGACTGAGTCATCCG
CACCAGCAGAATGTCAGCCTGTCTCTCCGCCACTCCCATCAGGCCCTCTTTGTCTCTTTATCATGCTTTATCTTTATCCATAACACTCCTTGTTTTCTGA
CATTATATTTGTTTGTTATTTTTCCCTTTCATTCGTATATAAGCTCCATGAGAAGAGGAGTCTTGATTCTTTTGTTAACCTCATATCCCCACATGTAGAA
CGGTGCCTGGCACACTAACAGCAGTCACAGTATTTTAGGTGAATGAAAAAAAGAATGCATTGATTTTTACCTAAAAGGAAAATACTCTTTTTAATAGTCC
TTTCCTTGTAAACCTGACACTTTATAGGCGATGTTACTTAACATAATAAATTTACTAGTTTTGGCAAAATATCTGTTCTTAGTTTTTTTCTTTGGTAACA
CCTTTGTAAATTACTCCAGTTGAAAAAGGAAGTTCTAATGCATCTCCAGTTTTAAATCATGGAGAGCAGTTTTGAAACCTCAAAAGTAGTATTAATCAGG
AGCATAATCCATCCCTTTAGCTACCTCCATAAGGACTACAGAGTCCATCATAGTTCCAATATGATACTTCTTGAGATACTGTGACAGCAGCTTCTTCATG
TAAAATCAATGCAAACATTTAACAGATGCATGTTCTGCTCAAATTATACAGTGAAAATCTTACTGAATTTTAGTATTTCTTATCTGAAAGCCTCAAATCT
CTTAGTACCTATTATGACAGGCTATTTCTCTAATACACAAAACTTGGAAACTATAATCTCTTTACTAGCAGATAAATTTAAAAATGTGATATTAGAATTG
AATTCTGCTTACAAATAGCGCATCAGAAATATTAAGCATTTATTGAATTGAACTTAACTCTTTAGGGAAAATGGAAAATCTGCACATTTGTCAAGATAAA
CAAAACATGCTTTTTAATATTATAAACCATGATTGATTATTATCATTCATTTGCTAATTGCAACATATTCTGGTACATTAGAGATCTCTTCCTCATTAGT
ATGATATGGGTGTGTTAGGGTGGCATTAAATGTTAAGACATATAAATGTAAGACACTGCACCAGTTTTAAGAATCTAAACATCCTTGACATTAAATTGTA
GTTACCAAGGGTTTTTTGTTTTTTTTTTTAAGAAAAACATTTTTAAAAAAATAAGATTTGGAAGTGGGAGTAAGAAAAACTGTAGGTGTTAAATTGAAAC
TTCTTGTTACATACAGAAAATTATCAGTCCATCAGCTGTGACACATTCTAAGCAGGCCACAAGAAGCACAGACTGACCTTAGAGAACTGCTCCAAATACG
CTAATTTGAAATATTTTACTTTTGCATGAGCCATTCCCAGTATCTCTCAGATTTCTATTATCTTGCTTCAATCCTAGGAGAGTTGCTTTAGTTCTGAATT
ATCCATACAAAGAGATGAACTGATGCAAGTAATTGTTATCCTCATTGCTAATTTATTTAATAAAGCCTTGTAGTGAAAACTATCAGCATTAAAGTTCTTT
ATGAAAAATATTAAAATAGCAAAGTCTGTTATAGCACCTTCAAGGAAGTAACTTAAGAGACTTAGGAAGTTAAAACTGTATGTTTCCTGGGCTTTTTAAA
GAATGTTAAATGAAAAAAGTTCCACATTTTGTCTACATGGCATTCTAGTTTTATGTCCAAGGGGATACATAAAAAGAATCAATAAAACACCTAGAGAAGA
AAATGAACTGTTAAAATAATTATTAAGGCCGTTGAGGAAATATTGACAAGGCCAATGAGAAAGATTAACTAGGGTAAATCTCTGTGTATTCACAGCCACT
CACCCTCTAGGGAACCTTTCTGCAGCAAATTATATTTTCCAAAAACAGCCAGACAGTATCTATCTTCTGTCCTGTATGTGACTCTTTGAAACTCATCCCA
TTGAGAAGCAGGGTCTATGGTCCCTCCTCTTGGATCTATGGTGAAAGTGATGCTATGTGACTTCCAAKCCCAAGTCACAAAAGAATCAGTTTCTGCCTGA
TTCTCTTGGAATGTTTGCTCCTGGAGCAGCCCCACCATGCTGTGTCAAAGCTGCATAGCCATGGAAAGACCTACATCAAAGAAACCAAGGCCCTGGCCCA
CGGCTCCAGATGAGCTTCCAGGCAGAACCATTTTGTCAGCTATGTAGGCAAGCTGTCATGAAATGGATTCTCCAACTTTGTATCAACACATCTCAAGTGA
CACTACATGGACCAGAGACCAGCTGTTTGCACTGAGTCATGCCCAAATTATAGGTTGATGAGCAAAATAAGTGACTACTGTTTTAAGACACTACATTTTG
GGGTAGTGTGTTACACAGCAATAGTAACTAGAACACTTCCTACACTTCAAAGCCTAAAATGCTAGCAACTCTTATTTCCCAGACTGCTTCGCAGCTAGGG
TCCTGGATGAAGTATGTTCCACCACATACAGGGAGTCACAGGTCTGGAAACACAATGTTATTTTACCATGCATTATAATGTAATATTAAATGATTTATCA
TATATTTATTCATGCTTTCTGACTTGCTGGCTACCCTGGAAATGCCCTTACACAGATTTAGAAGACAGAAATTCACAGAAGCCCTCTTCCTGCCCTCTTG
GACCCTGCTGGTAAGAAGATTATAAAGATATAATTTTTCTGCAACAGGGTTCTAGTACCTAATTTTGGAACCATGGCAGCAAGGGCAGTAGCTTCTGATT
CTAGCTTCCCAATCCTGGGACCCTAGCTATGTGTATACACTCTTGGTCTTCGTGCCTTGTATGAAGTTTTCTTTAAAATACCTAGAGTGGTTTCTGCTCC
CTGCTCCAAATTCAGCAAACTGGAAAAGAATGGTCTA


SNP Information

Context             (SEQ ID NO:42843):
ACACAGCCAAACCATATCAAACACCGACTATGTGCTAGTCTTTTTTTTTTCTGAAGTACTGGGATGTAGAAACAATGAATAAGCATAATTAATATGTTAA
R
AGAAGAAAAATGAAGCAGGGAGAGGGCAAGGAGAGTTACCAAGGGAGGAAGTATACTATTTAACAGGGTGGTTCAGCGAAAGTCTCTCCTGTAGATGCTT
Celera SNP ID:            hCV11435132
SNP Position Genomic:     97649
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42844):
ACTAACTTCCTAGAGGCTGCTGAAATCTTATGTATCAAGAAAGATCTTATTAACTGATAACATTAGTATGTAGTTTTCAAGCTGAATTACAAGTCCACAA
W
CCATAGAACAACAACATTTAAAATTTATACTTCAGAAAATTTATGGATAAAAACTTTTAAATCTCATGTTTGCCTTTGTGCACAATAGTAAACAATGCAA
Celera SNP ID:            hCV15855370
SNP Position Genomic:     193029
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,11)      total(A,3|T,11) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42845):
TCTGTTGTGTTAGTATTTGACAAATGTATTTATTGCATGATCATAGTTTTCCATTGTAAACCTAATATGAACGCTTTTTTTTCTCATTTGTCGTGTGCTG
W
GGAATTTGATTTCTTTACTTTTTTGGCATTCATTCCCTCATTAGACACTGAAAGAGTTTTACCAGGTAAGGCATTATTTCACTGCATTTTCTTTTAGCCA
Celera SNP ID:            hCV25755612
SNP Position Genomic:     167047
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,20)   caucasian(T,38)   total(A,2|T,58)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42846):
AAGCATCTGGTGACACTTCGCTTAAACCTGTGCTTAGTGCAAACTCAGAGCCAGCATCCTCTGACCCTGCTTCTAGTGAAATGTTATCTCCTTCAACTCA
R
CTCTTATTTTATGAGACCTCAGCTTCTTTTAGTACTGAAGTATTGCTACAACCTTCCTTTCAGGCTTCTGATGTTGACACCTTGCTTAAAACTGTTCTTC
Celera SNP ID:            hCV25620942
SNP Position Genomic:     145531
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,36)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:42847):
TTTTTTACAAGGCATGGAGGAGTGACGGCAGGAACTTTCTGTGCTCTGACAACCCTTATGCACCAACTAGAAAAAGAAAATTCCGTGGATGTTTACCAGG
K
AGCCAAGATGATCAATCTGATGAGGCCAGGAGTCTTTGCTGACATTGTAAGTAACAAGGCAGTGAACGAAATTTTTCACTGATAGAGTACAACTAACTTC
Celera SNP ID:            hCV25620943
SNP Position Genomic:     192837
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,35)   caucasian(T,36)   total(G,1|T,71)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:42848):
TGCAGACCTACAAAGTTTGGCTTCCAAAATGGCGACTTCATATTTTGTAAATTTATCAAATAAATGATTTTTCTTAATGTACCTTAAGTAGATGGAAATT
K
AGTTGAAATTTAAAATTTTGATTTTCAGAAGCTTAGGTGCAATTGTATTTCTTTTTTTAGTGGAAATTAATCTCACTAATGACTACCGTGTCAGCGGAGG
Celera SNP ID:            hCV25620944
SNP Position Genomic:     105461
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,35)   caucasian(T,26)   total(G,1|T,61)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42849):
AAATTATTACTTTTACCCATTTATTTTTACACTGTTTCCTATTTTATTCGCTATGCCAAAGCTTTAAACTTTCTGAATTTTTTTGTTCTTTTTTATTTTG
S
AGAAACTTATTGCATATGAAAGAAACAGATTAAATATGTATTTTCTCCATAAGTGATTTCTGAGTGATCCTGTTAGACTGACTCTATATTGGCACAAAGT
Celera SNP ID:            hCV16011064
SNP Position Genomic:     132725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42850):
TAACTTTTAAAGACTATCACAAGCTTATGTAATGCTACTGAATGTAAGCTTGCATTGGAACTCCAAGTGAGTTTTGTTGAGACTGGAAGGTGACTACTTT
W
GTATTCCTCACCATTTTAACAAAGTTGGCCTTTTACACAGTTGCCAACAGGCTGACCTGGAGGCATTGGCAACATCAAGTAACATAAATATCTTGATCTT
Celera SNP ID:            hCV16011065
SNP Position Genomic:     8663
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42851):
GAAGAGTGTACTAGTTTCTGCTCTTAAAGTAATCCATAGGCAGAAGAGAGACATACAGGTGTATGTTCATTGAAATATGACAGCTACCATTTGAAAAATG
Y
ATGGAAATATAGATGCTTAGTGCATTTGGTAAAGAAGCGGGTGAGACTAAGGGAAGGGGAATTTTTAGGGTAGCAGTGCTTAAGTATGTTACAGGGGCTT
Celera SNP ID:            hCV8951200
SNP Position Genomic:     45524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42852):
GTGAATAAGTGAATGAATTAAAACATTGGCCAAAGCTTACTCATGTCTAAGCCTCTGGGGTTAAAAAGAGCATATGTGTTATTGGCAACAAACACAGAAG
R
AATGACTGGCTTTAGATTTCCAGACAGGTTGGAGCCAAGTTCTTCTTGCTGAACATCCTTTAAATAATTTAAAATTTGCAAAGCCTTCAGAAGAATACAG
Celera SNP ID:            hCV8335918
SNP Position Genomic:     121772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42853):
GCAGAAGAGAGACATACAGGTGTATGTTCATTGAAATATGACAGCTACCATTTGAAAAATGCATGGAAATATAGATGCTTAGTGCATTTGGTAAAGAAGC
R
GGTGAGACTAAGGGAAGGGGAATTTTTAGGGTAGCAGTGCTTAAGTATGTTACAGGGGCTTAAAAGAACAGTTCAGTGAAGGAGAGATTGAAGTCCAGAA
Celera SNP ID:            hCV8951201
SNP Position Genomic:     45563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42854):
ATCTCCTTCGGAACTGAATTTGAGAATAAGAATTGAGGATTGTATTTATATTCAGTTTTGATTTTTATTAAATTCAATCTGAAAATTTTTATTACATGAA
M
TTATAAAGCGTAGAAAATATAGATAAGCACACAGAAGAAAATAAAAATACCCTGTAATTACACTACCCAGAGATAACTATTATGAAGATTTTGGTAAATA
Celera SNP ID:            hCV8335919
SNP Position Genomic:     122785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42855):
GAGCTTTGTGTGAGATGAGAAAGCTGTGTCAGGCTGATGGTATTATCATGATTCCTTGGAATGGATCACCATCCCAAATCACCAGACACTCCCTGATCAG
S
AGGGAACAGCACATTCTCCAGCTACTGTATTATTTGGGAGGTTCAGGTAGGAAGTGAGTGCATAGCCTCAAGGGGTCTGGTGGAGGTCCTCTTGGGAAAT
Celera SNP ID:            hCV8951202
SNP Position Genomic:     48199
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(C,0|G,84)   TSC_42_C(C,0|G,84)   TSC_42_AA(C,26|G,57)   total(G,225|C,26) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42856):
TTTCCAAAAAGTGACACCTTTTCTTTTTTGATATTCTAGTTTTTTTAAAAATTGTATTTTGGGAAATTATGTAAAGGCAAATATACACGTAAGACAAAGA
Y
TAGAAAAATATTCAAAATTATAATAGTAGCTCTATGGGGATAAGCTTTATCATTGGTGAATTTTTTTTATATTTTCTATATTTAGGTAATGTAATTATTT
Celera SNP ID:            hCV33218
SNP Position Genomic:     101799
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42857):
TGAACAGGAATGCTTTTTAAATGTTGTTCCTCTGAGTGCAATAAACCTGTGTAATCTAGGCTACCTAATGAGCATCTTTGAGCATCTGCCACTGCAGAGT
R
CATTCAAATTTCAGGCAAAATTTGGGAAATGCTGTTGCAGCAGTGGCCCAGTAAGACCCAGTGCTGTCATTGGTCAAGATAGGTCACCAATTACAAGACT
Celera SNP ID:            hCV8951205
SNP Position Genomic:     49691
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42858):
CCAAGCTTAAGTAGTTTTAATGAGCAATAGCAAGTGGCTTATAAAAGATACTGGCAAATTGAAAATGTCTTAAATCATTGAAGATCCATTGAAAAATTAT
S
AATTTATTATAGTAAATATGCTTCTTGGGAATAAAGGTTTCTTATTTCTAGACCGGCTAAAAAAAACAAAAAAAGGAATTCATGCCAAAAATGAATTTTC
Celera SNP ID:            hCV8951206
SNP Position Genomic:     50974
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   Caucasian(C,36|G,42)   African-American(C,26|G,56)   Asians(C,32|G,48)   total(G,146|C,94) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42859):
AGACTGCAGCAACAAAGGAAAGAAATCTCACTCCATTTCTCTCATAATTCCATAAATAGTTTGCCTGCCTTTCATTGAGGGCAGTTAGTTAACATTGAGG
R
CAGCTAGTTAACAGCAAGAGCTACAGAAAAGTCCTGTAATTAATCAACCTGCATTGCCTTCAGTCTGAATCTGAGTATTAAAATTCAGTAGGTGCAATTA
Celera SNP ID:            hCV11435142
SNP Position Genomic:     88583
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42860):
AAAGAGCAGAGGCACATGCTAATATAATGAACTATTGCAATGAGTCTATTTGCAATGTAAGCTGATGATCAGCTTGTTTTAGCTGATTTATAAATTGCCA
Y
GTACCAGAATTACTTATACTAAAACACATAATTTAAACATCATCCTTAAGAAATGAGATAGAAAAAAGGAAAAGGGTCAGTATTCAGGCTTCTGCCCTGC
Celera SNP ID:            hCV11435146
SNP Position Genomic:     85845
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,9)   total(C,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42861):
ATTTATTTGAAGAAATGTCCTAATATGACTCTGATGTGAACACCTTTCAGAAGTGTGGTGTTTATTATTTGGTAGTGGCAAATGTGAAAACATAGGCATT
G
CATTCACTAAACTATAGCGAACAGAGAATTTGCTGACCTGTAAGTGCATTGTTGACTTTTACCTTGTCCTTAACTTTGACCCTTCCTCAGTATTAATGAG
Celera SNP ID:            hCV11435148
SNP Position Genomic:     84477
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,18)   total(G,1|-,18) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42862):
ACATTTTTCTACTATTGCATCTATTTTTATGTAATGTATTAACTATAATGTAAAGTTTAATTTTTGCATGGTAATTTAAGAAACTAAATTTCTTACTCCT
Y
CTTTTCCCTAGGAGCACTGAATCAAAAAAATTGGGGAAAGAAATATCCAACATGTAATAGCCCAAAACAATCTCCTATCAATATTGATGAAGATCTTACA
Celera SNP ID:            hCV25620955
SNP Position Genomic:     100921
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42863):
CGGCCCCGGGCCCCACCACCGTGCGGCTTTCTCCAGATTATTCCTCTCTCGCTGTCTCTGACTGTCTCTCTCTGTCTCTGTCTCTGTCTCTCTCTCTCTC
W
CACACACACACACACACACAAACACACATACGCACGCACGATCTCACTTCGATCTATACACTGGAGGATTAAAACAAACAAACAAAAAAAACATTTCCTT
Celera SNP ID:            hCV25620956
SNP Position Genomic:     6330
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,24)   caucasian(A,36|T,4)   total(A,42|T,28)
SNP Type:                 UTR 5


Context             (SEQ ID NO:42864):
ATGCGCCTCGGCTAGCGGCCCCGGGCCCCACCACCGTGCGGCTTTCTCCAGATTATTCCTCTCTCGCTGTCTCTGACTGTCTCTCTCTGTCTCTGTCTCT
S
TCTCTCTCTCTCTCACACACACACACACACACACAAACACACATACGCACGCACGATCTCACTTCGATCTATACACTGGAGGATTAAAACAAACAAACAA
Celera SNP ID:            hCV25620957
SNP Position Genomic:     6315
SNP Source:               Applera
Population(Allele,Count): african american(C,12)   caucasian(C,8|G,6)   total(C,20|G,6)
SNP Type:                 UTR 5


Context             (SEQ ID NO:42865):
GTTCAATATCATGTAGCTGCTAAGTAGGTGAGCTTGGATTAGTGTGTCTGAATTCAAAGAAAAAGAATTTTAGTAGTATATGTCCTGATCTATGTACCCC
R
TTTTCTGTTTCTGATATTTAACACCATGAATGCCCTTAGATTCTGAGTGATTCTTTGTTGAGAATGAAAGTAGTAACAGAGAGCAATGTTATAAAAAGCC
Celera SNP ID:            hCV11435155
SNP Position Genomic:     34082
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42866):
TTGTTTTAATATGCCAGGACAAAATGTAATTGTTATAATTTAAGAAATACATAATTAAGAGAAAACAACACATCTGAGGAAAGTAATTACAGTGCTCAGA
Y
GTTAATTAAGAGACACTAAAAAACAGACTACTTGTTGAAATAGTGATGTTTGATAGAATATTAGCTATGTTATTAAAAGCTTAAAATCCATTATTTTATT
Celera SNP ID:            hCV11435157
SNP Position Genomic:     21783
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42867):
AATTTTATGTGCAGGAAGTTTTCTTTAAAATTTTTAAAGCTAGAATACTATTTTTGAGACAAGAACAGGACACAAGAGTATACACTGTACAGATACCTAC
W
TCAAATTGTTACTAAGAATACATGGGATAATTCCACAACTTGGCTTTCTGTGCCTTAGATGGGACTCCTAAAAGGCTCTAAAGTGGGTCTCATATACGAA
Celera SNP ID:            hCV8556705
SNP Position Genomic:     5031
SNP Source:               Applera
Population(Allele,Count): african american(A,31|T,5)   caucasian(A,13|T,23)   total(A,44|T,28)
SNP Type:                 hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,5)      total(A,5|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:42868):
AAAAAACATTTCCTTCGCTCCCCCTCCCTCTCCACTCTGAGAAGCAGAGGAGCCGCACGGCGAGGGGCCGCAGACCGTCTGGAAATGCGAATCCTAAAGC
K
TTTCCTCGCTTGCATTCAGCTCCTCTGTGTTTGCCGCCTGGGTGAGTGAGAAGAGCTCGGTGGGGTTTCAGCTCCGGGATCGGTGGGATGAGGGTGGGAG
Celera SNP ID:            hCV11435159
SNP Position Genomic:     6516
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,4)   caucasian(G,40)   total(G,74|T,4)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,13)   total(G,13|T,1) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:42869):
AATAGCAAATAATTTACATTCTTCATTTTGACTCTGTTGATCCTCTGTAAAATTATTGTACTTAACAATAATGAACACCTAGCATATCAAGATTTATTAT
R
TAATAATTTTTATAGATGTCCATTGTATAACAGTCTGCATTTACTGAAATCATTATAAAGAAGTGAGCTACTTGCTTTTATTTTTGCAGTTAAAAAAGAG
Celera SNP ID:            hCV467757
SNP Position Genomic:     122113
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42870):
TTTTTGCAGCAAGATGGATGGAGCTGCAGGTCATAATCCTAAGTGAACTAATGCAGGGACAGAAAACCAAGTACCTCATGTTCTCACTTATAAGTGGGAG
S
TAAACATTAATTACACATAGACATAAACATGGGAACAGTAGACACTGTGGTGTACGAGAGAGTGGAGAGGTGGGTGAGTTAAAAAGTCTCCCTATCAAAT
Celera SNP ID:            hCV467758
SNP Position Genomic:     120945
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42871):
CTAGGTATTCCTGTATGTGGTAATAACCACAGACATGGGAACAGCTTTTGAATCCTAAGACCTGTACCCCAGTGAATATAATGAGAGAGAATATAAGTCA
R
AGAGGGAATTCAAATTGTTCCTCTGGGAGCCTGAGAAATGTAAAAAACTGGTTTACTCCCTATACTAATCCTAAAAACAGTTGTCATCACTCTTAATTCA
Celera SNP ID:            hCV27535783
SNP Position Genomic:     79351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42872):
ACCGCGGCCGCCGCAGCCGGCGAAAGAGGCAAAGTCCCGCACGCCGGAGGACATGCGCCTCGGCTAGCGGCCCCGGGCCCCACCACCGTGCGGCTTTCTC
S
AGATTATTCCTCTCTCGCTGTCTCTGACTGTCTCTCTCTGTCTCTGTCTCTGTCTCTCTCTCTCTCACACACACACACACACACACAAACACACATACGC
Celera SNP ID:            hCV25620967
SNP Position Genomic:     6263
SNP Source:               Applera
Population(Allele,Count): african american(C,16|G,12)   caucasian(C,26)   total(C,42|G,12)
SNP Type:                 UTR 5


Context             (SEQ ID NO:42873):
TCATTCCTGGACCAGCAGGCAAAACAAAGCTAGAGAAACAATTCCAGGTGAGTCCTCTTGGAAGCCTCTTGGATGTCACTACAGAACTGAATGTCCCTGC
R
TCTTCTCATTTGAGTTGACAGGGTCACGTTGAGTGGGCAGTGTGGGTACAATGACTTTGTATTTGAGCCATCGTTGTTCCTTACTGTGGGCTACAGTGCC
Celera SNP ID:            hCV25620968
SNP Position Genomic:     177611
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,26|G,2)   total(A,61|G,3)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42874):
GAAAATTTCAATTGATTGCCAGGTTAAATCACGTATATAGTCAATTCTTTATAATTTATTTGTCCAAGTAATTCCTGCTAATGAATCTGTAGCCCGCTCT
R
TTGTTTTGCACTATTTTGTGTCTCTTGAAGGCAAGCATGCTATAGAGGCTCCTGCTGAGGCGGAGCACCTTAGGAGAGTAACCAGTAGCTCAGGATTCTT
Celera SNP ID:            hCV27996352
SNP Position Genomic:     57936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42875):
GAATGTTTAGGATGCATATGATTTTTGGCCACTCTGGAGAATTTTGAACGTAGATGGCAATGCTGTCTGAAAAATGGATCCCTGTGAAAGAAGCATAAAG
Y
GTGAAATCACATTTAATTAGCCAAGAGTGGCTAGTGTATGTTGCCATTAAATCCTTTAAATTACAGCACATCTGGGCACCGTCCATCCCACAAGAATGTA
Celera SNP ID:            hCV16154421
SNP Position Genomic:     18432
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,14)      total(C,14|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42876):
TAAGCAAACTTACACAGGAACAGAAAACCAAATACCACATGTTCTCACTTATAAGTGGGAGCTAAATGATGAGAACACATGGAGACATAGAGGGGAACAA
Y
ACACACTGGGGCCTTTCAGAGGGTGGAGGATGGCAGGAGGGAGAGAATCAGGAAAAATAACTAATGGACTAATGGGTATGAGCCTTAATACCTGGGTGAT
Celera SNP ID:            hCV27483214
SNP Position Genomic:     176725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42877):
CCGGACCCAGAGCGGCAGCCGCGCCCCTCCGCCCCCCGCGCGACCCCGGGTCCGAGGCACGCTCCCAGCGGAGCGGTCCTGCGCCCCCGCCCCCTCCAGG
M
GCCGCGGCGCGCACAGCCGGGCTGGAGCGCGCACCCGGCACTGAGGCTTCGCTGCTCTCGGAGCGCTCAGACCGCGGCCGCCGCAGCCGGCGAAAGAGGC
Celera SNP ID:            hCV8556712
SNP Position Genomic:     6092
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,8)      total(A,8|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:42878):
CTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGTTCTGCATTTGCCGTCTCATTGGTAATAACAAGACTGCAGCAACAAAGGAAAGAAATCTCAC
Y
CCATTTCTCTCATAATTCCATAAATAGTTTGCCTGCCTTTCATTGAGGGCAGTTAGTTAACATTGAGGGCAGCTAGTTAACAGCAAGAGCTACAGAAAAG
Celera SNP ID:            hCV7869026
SNP Position Genomic:     88514
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42879):
GAGGCAGGAGCTTCACTTCTCACTGTATACTATTCATACTGGAGGAAAAAATAATTTTTGACAAATATGTTGACACAAAATATTTTCAACTTAACGTGAA
Y
TAATTTTAGCAAGAAGGGCAAAGGTAGTTGGACAAGAACCGTAGCTTCGTGTAGTCACCTGTCAAAATGTAGGGCCTCTGCTTGGCTGAATCTCAGTGAG
Celera SNP ID:            hCV342355
SNP Position Genomic:     67201
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42880):
AGGCATTATCCTATCCATGGAGTGGAGAGAGAGAGAGCATGATGTTGCAGCAATACTGAGATAATGAATTAATATTTTCCAAGCAGAGCCCACAAAAGAC
R
TTAGTTGCAATCTTTCGAGTTGCAGGGAAGAGACACATCCCAGGTAACATCATCAGTGATTATCTGATGGAAATTCTCATCAGACTGATTTATAGTGCTT
Celera SNP ID:            hCV27477815
SNP Position Genomic:     112328
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,67|G,1428)   total(G,1428|A,67) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42881):
TCCAGACTAATTACACTGAGATACGTGTTGATGAATCTGAGAAGACAACCAAGTCCTTTTCTGCAGGCCCAGTGATGTCACAGGGTCCCTCAGTTACAGA
Y
CTGGAAATGCCACATTATTCTACCTTTGCCTACTTCCCAACTGAGGTAACACCTCATGCTTTTACCCCATCCTCCAGACAACAGGATTTGGTCTCCACGG
Celera SNP ID:            hCV25754343
SNP Position Genomic:     144154
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,32)   total(C,1|T,67)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:42882):
CATAAGGAGGTGGGAAGAGGTGTTACTAGTAAGCATGTTCTGGGTGGTCTTCTGGTGCACATGTGCAGTAACTGTACATGCTTGTTCATATGTTGCATGT
Y
TCATTAGCATCTTAAAACTCCACCCAGGGGTGTGGTTTTTACTATTATAATGAGCATAGGGTCAGTTTGGGGACAGGTAAAATCAAAATATGCATGCTCT
Celera SNP ID:            hCV143141
SNP Position Genomic:     96568
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42883):
AACAAACAAAAAAAACATTTCCTTCGCTCCCCCTCCCTCTCCACTCTGAGAAGCAGAGGAGCCGCACGGCGAGGGGCCGCAGACCGTCTGGAAATGCGAA
K
CCTAAAGCGTTTCCTCGCTTGCATTCAGCTCCTCTGTGTTTGCCGCCTGGGTGAGTGAGAAGAGCTCGGTGGGGTTTCAGCTCCGGGATCGGTGGGATGA
Celera SNP ID:            hCV8951165
SNP Position Genomic:     6507
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,33)   caucasian(G,3|T,37)   total(G,6|T,70)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,13)      total(G,1|T,13) ;JBIG-allele(G,356|T,741)   total(T,741|G,356)   (G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:42884):
GAATTCAGGATCTTTGAATTAAGTGAATTATAGTGCTGCAAGGTACACTAAGTTCAAATGTTTAAGTATTATTATTAAATATGTAATGAATCAGATTCTG
W
ACTTCTCAGTCACATCTTACTGCTTTAAGAGCCACATTAACAATAAATTATACCCAACTCCTCTGGAAGAATTAACTTCTTAATTTATGCTGGTTATAGA
Celera SNP ID:            hCV8951166
SNP Position Genomic:     9449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42885):
TGTGAAATTCAATATGTTGTGACTCTCAGTTTGATCTATTTATCCTCTGAAAACAAATTGTAACCACATATAAAAAATATTCATGCCTTTTTCCCAAATA
R
TAACTAGCCTCTATTCAGAAAATTAATTCCTTTTCATTGCAGAGTTGCAATTTTCTTTATTTCATTTCTCTCTCCTTTTTACGTATACTGTGGTTGCTTC
Celera SNP ID:            hCV8951167
SNP Position Genomic:     9653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42886):
TCAGATATTAGGCAGTTCTCAAAGAAATAAAAGTTTGGCTTAGCATCTTCCCTCTTCCTTGATGTATTCTTCTCCTATCCTCCCCAGATACATATTATTT
Y
GTTGCACTTGGAAGGTTAGAATCCCCCTTTCTGCCCCTTGTCTGGGTCCTCCTTCTCGCCAAGTGTTACCAGGCTCCCTAGTCATTCTGCCTATTTTCCC
Celera SNP ID:            hCV27518457
SNP Position Genomic:     28883
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,13|C,1486)   total(C,1486|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42887):
ATATTTAATTCTTTTCAGAGGCTCCCAATTTTTCAATTTTAGATGGTTCATAGTAGAGTAGATATTAAGCGTACATTTTCATCCAATAGATGGTGCTGCT
Y
TTGGCACAGTAACCTTTACAAACAGAAACTATTTTTAAGTTCTAATAAATGAAAATTACATTGCAAATACGGTGATAATTGCCCATAGACCCCCACACAC
Celera SNP ID:            hCV27518458
SNP Position Genomic:     7608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42888):
ATGGGATTTTTGTCAGCACGTCTGAAAAATACTGAAATGGCAATTTTAGGTTTTCTTTGGTTTTCTCTGGTTGGGAATTTTAAATTAGTTCAAGGATTGT
Y
TAATAACAAAATGTTCCGATAATAGTATGTCTTTCATAATTGAAATTATCCTCATCCTGAACTGAATATATTTTCAGGTACCAAACAAGAGAAATTAAGT
Celera SNP ID:            hCV11611302
SNP Position Genomic:     128768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42889):
AACAAAATGGGATTTTTGTCAGCACGTCTGAAAAATACTGAAATGGCAATTTTAGGTTTTCTTTGGTTTTCTCTGGTTGGGAATTTTAAATTAGTTCAAG
K
ATTGTCTAATAACAAAATGTTCCGATAATAGTATGTCTTTCATAATTGAAATTATCCTCATCCTGAACTGAATATATTTTCAGGTACCAAACAAGAGAAA
Celera SNP ID:            hCV11611303
SNP Position Genomic:     128762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42890):
ATATATGCATTTTTTTTCCTGCTGCTAAAAACTGATACTGCTTTATTTTGAATGTTAAAAGATTACATCCTTTGGAAACATCATTATGTTTAATTGTAGC
M
TATATTCTGGGTATTTTGAGCCTGACATTTTCCTGCCTCCAACATAAAGGACAGAAAGAATGCCGCTTCTTCCTGTGACCTGAATACACTGTCAGCCCTC
Celera SNP ID:            hCV8951170
SNP Position Genomic:     17497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42891):
ACTATGAAGTTTCAGTGAGAAAATATTAATATGTGCACATATAATCCTACCTGGGATCTGTAGACTGGAGTTTAAATTCCTACTGATTAATCCTCACAGG
K
TCTTTATCTGGTATTCAGTAATAAAGAATGGAAAGTTTTTTATATATCATATATGTTCTTGTTCATTCACTTAAAAATCCCAAACACATACGTTAGTTCA
Celera SNP ID:            hCV8951171
SNP Position Genomic:     19326
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,8)      total(G,3|T,8) ;(G,-|T,-)   Caucasian(G,37|T,45)   African-American(T,16|G,66)   Asians(T,26|G,56)   total(G,159|T,87)
SNP Type:                 INTRON


Context             (SEQ ID NO:42892):
TTAGATAACTTGTTTTCTGTGTAAGACATATATGTTATGTCTTTTTTCTCTTCACATGTGCAAGACAACCTGGATGCAAATAAAATTATTTGGTTACAAC
S
TTTTTTCTTACAAAACATATGGTCCCTGCTTTTTTATGTTATGGCATTTAGTGTTACTGAGAAAAGAACGGAAAGTTCCACCTCAAGGTCACTTCTTTTA
Celera SNP ID:            hCV27503251
SNP Position Genomic:     25275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42893):
TTTCAAAGGCTTTATGAAAGTGCTTGGGGTGGTGTGATGCATAGTTGACACATAAGACATGCAAGGGAATCTCTGGTCTCCATTGATTCTAAAACCTTAT
R
GTCAGTTCTGGAGAGGGGAAGACAGCTTTAAAAAGTACGTGGTCATCAAACATCTGTTGAATTCACATTTCTATTGTAGATCTATTTTAACAAAGAAGGC
Celera SNP ID:            hCV27503252
SNP Position Genomic:     7823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42894):
ACGAAAGTTGTTTAGTTAAAGATATTGTAAATGAACTATAATTATGTAGATTTACGTCTGCTTTTAAAACACTTGTGCTCTTTCACTGATTTGAACCTTC
R
TATATGCTTTCATATTTATTTTGCCAAAGAAACTATAGATAATTTGATTCCATAGCAGGATGTTGAGGAAGACTTTTTCTCTTGCCTTGGAATCACTGCT
Celera SNP ID:            hCV8556800
SNP Position Genomic:     38076
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42895):
CAAATGTTAAACGTTGCTACCACCTCAACTAATTCTGTACCCCCATTTGGCAGAGTAAGCAACTCGAGATCACATTTGCAGCATTTGGAATTAGAATTCA
R
TTCACCCTCAAATTCACTCAATCTCTCTTAATTTTTTTATTTTAAAAAAAGGTAAACAGAAAGTAGGTCAATCAAATCACATTCTCATTTTAACAGGTCC
Celera SNP ID:            hCV8951175
SNP Position Genomic:     20428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42896):
AAAATAGATTGTGAAAAATAAAAGTCTATCAAGATGGGGCAAACGTTTAGGGGAATACTATCAAAGGTAGTGTTATGTTCAATAAAAGATGGCTGAAATA
S
TTATGAGACTAATAGACAAATGGAAATTATTTACACAAACTTCTGTAACTGCCCAGTTCTGTGAAAAACAATAGGAAAATCGAATTCAGAAAACACTTAT
Celera SNP ID:            hCV8951176
SNP Position Genomic:     21441
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42897):
CTCAAGTGTCTACTAGGTGCAGTTTCAGCACTGAGCATTTTATGTACATTTTCTCATTTCATTCTCCTCAAAACCCTTTGATATTGGTGTTTTCATCTTA
Y
ACCTTTTACAAATGAGGGAACCCGGCACAGAGAACTCAGATAAGTTGCCTAACATCACAAATCCTGATTCAGCCTGTGTATTCCTTCCCAATCCAGAGCC
Celera SNP ID:            hCV8556732
SNP Position Genomic:     10197
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42898):
GTGCTCCTGTCAGCAGTATACGGAAGGACCCCTTTGCCAAAACCCTTCCCAGCATTAAATGCTTAACATACCAAAAGAACAGAAACACCACTCTAATACA
Y
CACTAACTAATACATTAGTTGACATTTATTTGATGAATAATATGGTTGAACATTTACATTGGTATTTATTATTGTTTCCATTTCTTTTGTGAACTGCTTT
Celera SNP ID:            hCV8951179
SNP Position Genomic:     27266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42899):
AAACGTCAGCAAAAATTACCTTTACAGAGATCCTGTACCACTGACTAAGATACAGTGAGAAGAAAAGAGCATATTTTTTGTGACGTTTCTAATAAAAATG
S
ATAACCTGAAGAGACATCAGACAAACTCAAATTGAGGGACATTCTATAAAATAACTGTAGTCTTCAAAAGGATTGAGATTACGAAAGTCGAGAAGAGATG
Celera SNP ID:            hCV219031
SNP Position Genomic:     79827
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42900):
TGGCTTATAAAACAATACAAAAGTCTAAGAAATATATCATTTAATATGGGCTTCCCTTTATTCATGTCTGCCAGCGGTTCTAACTAAAATAAATGGAAGC
R
GGATGTTGCACTGAGGATTTGCTTTGTAGCTCTTTACCAGTTTATTAGCCTCTATTTGAAGATTTTTTTTTTATGAGGCCAAATCCAGACTAAATTAAAT
Celera SNP ID:            hCV219032
SNP Position Genomic:     80676
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42901):
CTAAATAAGTGATTCCTTTTAATGTGCATACTGAAATTTTCTCACATGACAAACTGGGACACATGAAATGGAATTTCACGCACTATTGAACTGAATTCTC
R
GTAGCTGCTGTGAAATGTTTGGGGAGTTTTAGTGGATTTATCCATTTTAGTGACCATATTTCCCCTCACATTTGTGAAATGCATTTTGCTGTTATTTTAG
Celera SNP ID:            hCV219033
SNP Position Genomic:     80909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42902):
ATATATATGTGTTTGTGTATATATATATAAAATATATACATTTAAATTGTATTTCAACTTTTAGTGTCTTATTGAGATTAATTCCTAGAAGTAACTTCAG
R
TTACAAAAGGAAACCAATTTTTCTCTGTGTTTAAAGAAATTAAAGAAATTAAAGAAAGAAAAAATATCATATAGCACAATCTTAAAACACTTGTATTTTA
Celera SNP ID:            hCV8556739
SNP Position Genomic:     11058
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42903):
TCTGCATTTTTAAAATCATCATATTATGACATCACTATCTCCTTTTAAAAGTGTTATGTTTTCTTTTACATAATTTTAAAGTTCCAAATTATTAGACATT
Y
TGATTTGCATGCAACTGTTTGAAACATTCTGTTGTGTTAGTATTTGACAAATGTATTTATTGCATGATCATAGTTTTCCATTGTAAACCTAATATGAACG
Celera SNP ID:            hCV25756464
SNP Position Genomic:     166919
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,38)   total(C,1|T,71)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:42904):
TAGGAGGACTTTGGGGTTCTGACGGTTTGATAGCTTTTTAAAAATTACCTTTCTTTCCCCATACCAGATTAGAGATGGGGGTGGTGGGGAGAGAGCTTCA
S
CATCCTCTCGCCAGAACTTCCGGTTCTCTAGCTTTTTATACATCCTACTCACACTCGTCCTACTGATTTCCACTTAGGACTGCAACTACCCGTCCTCTCT
Celera SNP ID:            hCV203894
SNP Position Genomic:     89047
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42905):
ACTGAGCAGGGAAAGTTTTGAGTGAGGGTTGACATTTCACATTTAGCATGTTTTTAACAACTTTTCACAACCGACCCTGACTTTCAGAAATGAAATGAAA
R
TGGCAGAATTTATTTGAAGATTCACAATCTAGAAACATAACCACTGCTCTTTTGAGGCACGCCATCTCAGTGGCACCACTGGAAAGTCCAGATTGCCTGA
Celera SNP ID:            hCV203895
SNP Position Genomic:     89524
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42906):
TAACTTTTCTCTTGTACAGAATCATCAGGCTAAATTTTTGGCATTATTTCAGTCCTTGGAGACATCTGAGAGATTCCGGGATGCCAGTGGTGCCTCTCTG
K
CCACACTGACAACAAATAATTCACCTAAGGAATAGTTCACTTCAGCTATTTTTTGCTACTCATTGGTTGTCAGTGCCATTGAGGAGAGCTCAGTGTAGAT
Celera SNP ID:            hCV203898
SNP Position Genomic:     86653
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,10)      total(G,10|T,4) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42907):
GAAACTCTAGCAATAGTATTTATGCTTAGGAACTAGTTCTCTAATAGCAGTGACCACTGTTTCCAGTGGCTAAACCTAGGGGCCTGCAAAGCTATTGGAA
Y
GGACACAGATCAGTTTTCTGAAGAAAATTCTGGCCCAGTCAATAGATACTCTCATGGCTGAAGCCTGAGCAGATGTGAGAGGGTCAATTACTGAGACAGA
Celera SNP ID:            hCV8951180
SNP Position Genomic:     32950
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42908):
CAGAGTGCAGAGGTCAAGTTTGGGAGCTGGAAGAAGGAAGAAACATGACCAGGGAGAAGGTAAGCAGAAGGGGTGAACTGAAACTAGATGCTGAAGACAC
R
AGGTCATAAACGTGAACAAGGATCAAAGCCCTGGCAACTCAAGAAAACTGCTCAACCCAGGAGAGGCCGCTCACCCTTTACAACAGAATACAAACTTTGC
Celera SNP ID:            hCV8951181
SNP Position Genomic:     33212
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42909):
GAAGGCTCCCCCATATTGGCAATCAGACATTGCTGCTGGCAACCTTGAGGATCAAAGGTGGGACTTGTCTTTAGGCAGTGATTCTGGAACCACAGCTAAA
Y
CCCCAAATTTGGCTCTGTATTCACCATATAATGTAAGTTATTAAAAAAAAAACACCTTTTCAACCATTATTCAGATTATAAGATCTATCTTACTATGCTG
Celera SNP ID:            hCV16147238
SNP Position Genomic:     112013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42910):
AGTCTAGAAAATAAACTGATTGGCACATTTGTTAAAATCCATGTTAGTTTTCCTGAAGAACTACACACCCTAATAAATAACTTACTTATGTTCAAAATGA
R
TTAAATGTGGCAAATAATTCCAAGACATTTATTTTACCTAATTATATGTGGTTGAACAACTAGGAACAAATATTTTACAAGTGAAAACCATAAGACACAT
Celera SNP ID:            hCV8556811
SNP Position Genomic:     40322
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42911):
GAAATTTTTCATCAAATGTTATAAATTTTGTTTGATTGTATCAATTTGAGATACGGTTCAGTATTTTAGAACCAATGTCTTAAGGTAGGCTTCCATAGTT
S
CAATTAAGCTTCATAAGAAATATAATTAAGTTGAAGCTTGGCATTGTTTGGTAGGTGTCTGGCTGGCACCACGTTTTCCAAAAATAAGATTTGTTTGAAG
Celera SNP ID:            hCV8951184
SNP Position Genomic:     39526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   JBIC-allele(C,478|G,975)   total(G,975|C,478) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42912):
GAGTATATGCTCCAGTGCTCACCAAAATAAGGGAATAAACCAATAAAGGGGATTCATGGGATTCAGGAAACCAGAGTTGCAGCCAGTGAAACAGCAATCA
R
AATGACCTGAGCACACAAGCTAGGCAGAGCCTGCTGCCCTCAGTCCAACTGGAACGAGTTCCAGTCCAACTGGAATGAGAGGATTTCGGGGAGGAAAGTG
Celera SNP ID:            hCV8556812
SNP Position Genomic:     42307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42913):
TTTTGTGAAATAAACTTGAGTTGTATTCAGTACACATATGGAATAGTAAGTTATTACATTTTAAAGATGACAGTGATGTAATGGTATACTTATATATTAT
R
TTTGCAGATAGATTTTTCACAGAACAAGATTCCTCGGTTTTAATTCTACAATGTGATATTGGAATTAAAAACAAGTCTCTTATGTGTGAATATTTTATCT
Celera SNP ID:            hCV8951185
SNP Position Genomic:     39945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42914):
GTCAATAGTTTTATCATTAATCCTAGAGAGGATGTGCTACACAAGTTTAACTCTGCACATAGCAAATATTTGAACTGAGTTGAATTCAAATGGAATGGGA
Y
ATGGGATCAGTTAAAAATCTTCATAGGAGTCAAAAGCAGAAAAAAAGGAGATGATCTTTTGTTAGGATATTTGCTTTATTTTCTTCTCAACTACCTTCCT
Celera SNP ID:            hCV8556740
SNP Position Genomic:     12669
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42915):
ATGTTAAAAGATTACATCCTTTGGAAACATCATTATGTTTAATTGTAGCATATATTCTGGGTATTTTGAGCCTGACATTTTCCTGCCTCCAACATAAAGG
R
CAGAAAGAATGCCGCTTCTTCCTGTGACCTGAATACACTGTCAGCCCTCTCCAAAGGGTTTGGGCCCAGTTAGAGCAGTGAAACTCAGTTCAGCACATGT
Celera SNP ID:            hCV8556741
SNP Position Genomic:     17548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIG-allele(G,444|A,1019)   total(G,444|A,1019) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42916):
AACATAATGTAATCAATCACAGCAGTAATCCACCATCCTCTTTGCCAACAAATTTAACCTAATCAAGGAAGCGACTCTCTCTTCATATTCATAAGTCCTG
Y
TCATGCCCAATTGGAGGGAATTGTACAGGATGATTACATCATAGGGTGGAAATTTTGGGAGCCAAGTCATAATTCCACTTACTACATAGGTGGTACTACT
Celera SNP ID:            hCV15914207
SNP Position Genomic:     98654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42917):
ATACTCTAGGTTTGGAGAGAATAGAACTATTTAAGTTAGCATAAATACTTATACATGAAAGTAAAAAGGTAATATATAGTATCTAAAATTTAGAAGTCAA
R
AATTACAATAAGAGTATGTTATCTGAAAATATGGAGTTAAATTACAGAAGAGATAGCTGAAAGAATTGAAAATGTGACCTGTGGGACACTGGACTGGAGA
Celera SNP ID:            hCV8951189
SNP Position Genomic:     42761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42918):
TTTAGATTTAAGGAGGCATGTGGGTGTGTATTGCTCACTCTCTGATATACAACATGGTTATTTTATGTTTGGTAGTAGTAGTTAAAATAAAACTATATTA
R
TTGCCTTCTTACTAATGTACTAAAGGCTAAATGAAAGAAATTTTTCATCAAATGTTATAAATTTTGTTTGATTGTATCAATTTGAGATACGGTTCAGTAT
Celera SNP ID:            hCV27475085
SNP Position Genomic:     39389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42919):
GAGAAATTTTGTACAATTTCCTGAAAAAACGTCATAATGAATTATACATTAGTAGACTTACCTTCTTGAAGGTCAGTGGGTTGTTACTAGCATTTGTTAA
R
GTCACATGTATGTAAACACTGTACTGCACCTATGTTTTAAAAAGTGAAATGAATATTATTTACTTCTTGGAAGATTATATACTACAAATTGAACTGTTGA
Celera SNP ID:            hCV16160510
SNP Position Genomic:     124586
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42920):
GTCTCTGAAAAGGTTTTGGTGACTCGCCCAAAGCAGGAGCCACTGCTATCCTCTGTTGCACACCCTCTGTTTCTCCCATCAGAGCACTGACTATGCTTTA
Y
GCTCTCAGAGGCTTCCTACTCTTACCTTAAGTCTACTTCTATCTAGCCTGAGACACCTGATTTCCAAACCCAGACAGGAGAAGCACCAAATTATATAGAG
Celera SNP ID:            hCV8335971
SNP Position Genomic:     108532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42921):
TAATTATTTACACTTGCATATTTCAGAAGAATTTCTTAGATCTACATATTCCTCCAATTCACCTGAAATTGCATTTTTTTTTTTTTGTAGAATAAAACAA
Y
GGGTAAGAAGAACATTCAAAATAACATTTAAAACCAATCTATATTTAAAATTGAAATCGATTACTGGATTGAAAGGTTATCCTAATATAAGAAGAGTTAT
Celera SNP ID:            hCV343258
SNP Position Genomic:     151537
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42922):
TTTTGACAATTTGTACAAAAAAAAAATGACCAATGTCATCATGTCATGTTTTCCTACAAGGTAACAATAATGATGCTGCCTCTAGAAGATGTGATAATGT
R
ATTTACAGCTAATATAATTTAGTCAATTACTTAGTCAATCAGGATTTCTTTTTCTTGAGCATTATAGTTTGATCTTTTCTGCCTAGCCTCATGTTATAGT
Celera SNP ID:            hCV8335972
SNP Position Genomic:     101377
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42923):
AAGATGAGATTTGGGTGGGGACACAGCCAAACCATATCAAACACCGACTATGTGCTAGTCTTTTTTTTTTCTGAAGTACTGGGATGTAGAAACAATGAAT
R
AGCATAATTAATATGTTAAAAGAAGAAAAATGAAGCAGGGAGAGGGCAAGGAGAGTTACCAAGGGAGGAAGTATACTATTTAACAGGGTGGTTCAGCGAA
Celera SNP ID:            hCV8335973
SNP Position Genomic:     97629
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42924):
TGAATTGTTTCGCCATCTGCATACAGTTTCTCAAATCCTTCCACAAGTTACTTCAGCTACCGAGAGTGATAAGGTGCCCTTGCATGCTTCTCTGCCAGTG
S
CTGGGGGTGATTTGCTATTAGAGCCCAGCCTTGCTCAGTATTCTGATGTGCTGTCCACTACTCATGCTGCTTCAGAGACGCTGGAATTTGGTAGTGAATC
Celera SNP ID:            hCV8951402
SNP Position Genomic:     144620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:42925):
ACTTCTGAGCTGAGTCATAGTGCCAAATCTGATGCCGGTTTAGTGGGTGGTGGTGAAGATGGTGACACTGATGATGATGGTGATGATGATGATGACAGAG
R
TAGTGATGGCTTATCCATTCATAAGTGTATGTCATGCTCATCCTATAGAGAATCACAGGAAAAGGTAATGAATGATTCAGACACCCACGAAAACAGTCTT
Celera SNP ID:            hCV8951403
SNP Position Genomic:     146328
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,15|G,17)   total(A,47|G,21)   
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,5)   caucasian(A,19|G,21)   total(A,52|G,26)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:42926):
AGAAAAGCTCTTTGAGCAAGTACATTATGAATCCAAGTAATTATTATTGAACAGTGTCTTAACTTGATCCCAAACAGATTGAACAAGCCTGGGCCCATCC
R
ATAATCTCACAAGAGGATTTAGAAGTGGTTGATTTGCTTGAATGGATATTATAGACAGATATTTCCTATCATCTGTAGATTTTTTTTAAAGTTTAGCTAA
Celera SNP ID:            hCV27480419
SNP Position Genomic:     67690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42927):
CCAGGTAGTGACATTGATACGTTCTTGCTAGACTATGCTATTATAGAAGGATATATATAATGAGATGCTAAACCTAAAATTATTGACTAAAGCTTAGCAA
R
TTTCTCTTCAGTGCACTAATTAGTTTTATTTAATTATCAAGAGTGTGTTCTCCCACTAATTAGGATAAAACAATATGAATATGACATCCAACATTATCAA
Celera SNP ID:            hCV8951404
SNP Position Genomic:     148739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42928):
ATAATTATTTGTCCCTCAGTCAAAATAGAAACTTAAGGAAGAGGTTGCTAAATAAGAAAATAAATTCTACCAATTCTCCAGAAAATCCCTGGCATTTCCC
Y
AACCATGCTTTTATCAGCCCTGCTAAGGATGAAATAACTCTGTACTGATGAAAAATTATTTGCGTTTCTTTACACTCAGTTTTATCAGTTTCACTGACCT
Celera SNP ID:            hCV15970605
SNP Position Genomic:     137201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42929):
GGAAGAGGCTGTCTTCATCTTTTGAAGCTCATTTCCTGGTAATCTCCCCTGCCTGCTCTCAGCTTCAGCCATTCTGGCCTTTTTGCTGTTTTTCCAACAC
R
TGGGGCTTGGTCTTGTCTTAGGAACTCTGCGCCTGTGCCAGCACTGCTCTTCCCTCAGGTGTCTGCAGACTTCTTCGCTGATCTCTTTCAAGGCTTTGCT
Celera SNP ID:            hCV8951190
SNP Position Genomic:     43123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42930):
TTCATCTGTTTTATAAGCAGGAAATACCTGAAAATAAGGAATGTCAAGATTCTAGTATATGTTATTAGAAGTGAATGGCATTCATAGTCATGGAAAATAA
W
GTTAAATTATTAAATGCTATTTAAAGCCACAGAAGTTCTAGACATCGAATAAAAATAAGAATGATACAATAACTTAGCTAATGACAACAATAAAAGCTTT
Celera SNP ID:            hCV8951194
SNP Position Genomic:     43930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42931):
AATGTTTCTAGATTGCGTACATTTAAAATAACTTTTCATGTCTAATTCTGATGCACATCTTTAGCAAATATGAACAGCAACCTTGCCACTGTCTCTGATT
S
TTAACTTCTTCCTTCTCTTATCCTTTCCTTATCTTATCTTCTTTCCTTTTCTTATCCTTTCAGAGCCTCTTCCTTTTCTGAAACTTAGATGGGAGATAGG
Celera SNP ID:            hCV8951195
SNP Position Genomic:     44579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42932):
GATGGTTATGAAGTTGATAACGTGTTTAGCACTGGTTTGTACTCATTCTGTATCCAGGAATCTCTTTTTATTCATTGTGTTAAATATTCATGAGCACTTA
Y
TCTGTGTCTGATACTATGATGTAGAGGATCGAAGAGTGTACTAGTTTCTGCTCTTAAAGTAATCCATAGGCAGAAGAGAGACATACAGGTGTATGTTCAT
Celera SNP ID:            hCV8951196
SNP Position Genomic:     45393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42933):
GATCCCAGCACTTTTGGAGGCCGAGGCGAGCAGATCCCTTGAACCCAGGAGTTCAAGAGCAGCCTGGGCAACATGGTGAAACCCTGTCTCTAAATAAATA
Y
GTAAAAGAAAGAAACAGAAACCAGACATTTCTGTTTTTAGCTGTGGGTTGCTACACCTCTGTGAAATCATAGGTGTTTACCACTGTCTTAAATCACTGGT
Celera SNP ID:            hCV336476
SNP Position Genomic:     47145
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42934):
ATTATCAATATAGTGTCCCTATCCACTGTTCTTTGATAGCAGTCAAGTATGGGAAACAATATAAGAGATGGTTATGAAGTTGATAACGTGTTTAGCACTG
S
TTTGTACTCATTCTGTATCCAGGAATCTCTTTTTATTCATTGTGTTAAATATTCATGAGCACTTACTCTGTGTCTGATACTATGATGTAGAGGATCGAAG
Celera SNP ID:            hCV8556824
SNP Position Genomic:     45327
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42935):
TGTCCTGTATGTGACTCTTTGAAACTCATCCCATTGAGAAGCAGGGTCTATGGTCCCTCCTCTTGGATCTATGGTGAAAGTGATGCTATGTGACTTCCAA
K
CCCAAGTCACAAAAGAATCAGTTTCTGCCTGATTCTCTTGGAATGTTTGCTCCTGGAGCAGCCCCACCATGCTGTGTCAAAGCTGCATAGCCATGGAAAG
Celera SNP ID:            hCV2296792
SNP Position Genomic:     200168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:42936):
GACTTCTCAGGGGTTTTCACTTCTTAGTGCCTGCTTCACTTCCTTTGCCCCAGCTTCCTGATAAACCTTCTCTGTCCAGTTAAACAAAGGCAAGGAACCT
S
CTCATCCAAAAAGAGAAACTACTTAAATATACTGTTACTGAATAGACTGTTAGAGAATCTTCCCCTGGGCTGAAAAAGTAGACACAAGTTTAGATACCTT
Celera SNP ID:            hCV8335544
SNP Position Genomic:     84817
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,7)      total(G,6|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42937):
AGTTGGGGGACTGAGGAAGAAATATGGCAGCAGAGACTGAGGGCAGAGTGGAGCCTGGCACCAGGAGGAGCAGGTTCCCAGTTCATTGTGATGCACCTGG
Y
GGCTCCCCTGGGGCCTTCCCCACCCAGAGTGTTCCTCTTTCTCAAATGCCTACATGCTTTGTCCTGGAAACAACAGAGCCCCAGCAACTCCATAGTGGGG
Celera SNP ID:            hCV11611402
SNP Position Genomic:     70416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42938):
TAAAAAATCATTATCAAGGAGCAAAAAGATAGAAAAATCATTTCTATTATTCAGACAAATTTTTATTAAGTGAAGCATATTTTAATGACTGAGGCACAGA
M
TCACAAAAATTATTTTGAAATATAGTGAGACACATTTTGACTTAGGGATTTTATTTCCTTTATCCCTTAGGAGGAATGTGTATATGGCTGTTTATCCTGT
Celera SNP ID:            hCV11611403
SNP Position Genomic:     69276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42939):
GTTGTATTTATGCATATAACATACTCATATATCATTCAGATTTTTATGTTCAGTCAACTTGTGTTAGAATATGAAGGAGTAAACTTCTCATCAACTCCCT
R
GCTTGCCTTCTACCTTAATGATATTTTAAACTTACTGACAAAGGAAAATTTAAAGTGTGGATATTATTAGTTTAATCAATACTCATTGGATTGTACAGCG
Celera SNP ID:            hCV344132
SNP Position Genomic:     72610
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42940):
TGACATCCACCCAAACTGTATTTGAAGCTCAGGCCCAAGCTGTCTATATACCTTCAAGAAATAACATAACCTGGGGCTCTGTTTTTTTCAACGGTGAAAT
R
GGGGGCTGTTCTGAGCATTAAATGAGATAAATAAAGTGTGAAGCACTTGTCACAGAGCCTGCTTCTAAACAGAAAGCTCTCAACAAATGTTAGCTGCTGG
Celera SNP ID:            hCV53744
SNP Position Genomic:     61514
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42941):
GTGCAGATCAAATAGATGCTTCACATTGTTGCAGAAAAGCTCTTTGAGCAAGTACATTATGAATCCAAGTAATTATTATTGAACAGTGTCTTAACTTGAT
S
CCAAACAGATTGAACAAGCCTGGGCCCATCCGATAATCTCACAAGAGGATTTAGAAGTGGTTGATTTGCTTGAATGGATATTATAGACAGATATTTCCTA
Celera SNP ID:            hCV27480420
SNP Position Genomic:     67658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42942):
TGGGTGGGAAAACAGCCAATCCATATTATGCCCATAAAACATCTTGTACAAAATGGGACACAGTGACGAATTGCTAATAATGATTAGCACTTCTCAGCAC
R
TTGAAGTAGAGTAAGGAGGTTACACTCCAGATGCTTTTTTAAGCTGTTGTAGACATCTGAGCCCAGTGCCTAAAATACATTTCAAAGCAGTGCTATTAAA
Celera SNP ID:            hCV11611265
SNP Position Genomic:     171305
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;no_pop(A,-|G,-)   JBIC-allele(A,247|G,1238)   total(G,1238|A,247) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42943):
GCCTCCCAAGTAGCTGAGATTACTGGCATGCGCCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTAGTCAGGCTGGTCT
Y
GAACTCCCGAACTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGACTACAGGCATGAGCCACCACGCTCCACCGAAAGTTTTTTCTTAATGGA
Celera SNP ID:            hCV26499600
SNP Position Genomic:     122578
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,11)      total(C,11|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42944):
AGCCTCTACCTCCTGGGTTCAAGCGATTCTCCTGCGTCAGCCTCCCTAGTAGCTGGGACTACAGGCGCATGCTACCACGCCCGACTAATTTTTGTATTTT
Y
AGCAGAGACGGGGTTTCACCATGTTGGCCAGACTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCCTCACCTCCCAAAGTGCTGAGATTACAGGC
Celera SNP ID:            hCV26499601
SNP Position Genomic:     123684
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42945):
CTCATCTCTACTAAAAATACAAAAAAAAAACAGCCGGGCATGGTGGTGGACACCTGTAATCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATGGTGTGAA
M
CCAGGAGGCGGAGTTTGCAGTAAGGCGAGATTGTGGCACTGCACTCCAACCTGGATGACAGAGCGAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAACAC
Celera SNP ID:            hCV26499602
SNP Position Genomic:     126482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42946):
AATCAAATGCTGACCATCATAATTTGACAATTTACAAGTTTACATAATTAAGTTAGTTTTCCTCTTGTTAGTGTAAGCAGTTTTAAATAATAGAATAGAC
R
TGCATATATGTATATATACATATGTATAATCACATACATCTGCATAAATACATACGTAAATATATATATTCTTTGGTCATCCATATTAGGAGCCTACTCA
Celera SNP ID:            hCV26499603
SNP Position Genomic:     131733
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42947):
TGCTGTTTCCTTCTAAGGCAACTTCTGAGCTGAGTCATAGTGCCAAATCTGATGCCGGTTTAGTGGGTGGTGGTGAAGATGGTGACACTGATGATGATGG
D
GATGATGATGATGACAGAGATAGTGATGGCTTATCCATTCATAAGTGTATGTCATGCTCATCCTATAGAGAATCACAGGAAAAGGTAATGAATGATTCAG
Celera SNP ID:            hCV26499604
SNP Position Genomic:     146308
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3|T,3|-,5)   total(G,3|A,3|-,5|T,3) 
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:42948):
GGGCAAGTGTAAACTAAAATGTAGGACTCAAGCTCTGTGGGAGTCAGAAAGGAAAGGAAAAGGGCATTCCAGGCAGGGACACAGCAGGTGCAAAGATCGG
S
AAGTAGAAATGAGCTGTCTTTTGAGTAAAAGCTATTGGATGTTTCGGACACAGTGAGGTCTGGAGCATGTATTAATAGTTGCATGTAGTTGGACATTGGT
Celera SNP ID:            hCV8951413
SNP Position Genomic:     153520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42949):
CATGGGTCAGGAGTCTATTTTGTTATAATAAGAAACAAACAAACCTGGTTTCTTTAGTCTGTATCCCGGTGATTCCAATAATTGCCAAAGATTCTTTTTC
Y
TTTTTTGCTAAAGGGTTCATGCTTAGCAGAGTGCTTTGAACATAATCCATAATCCATAAATGTGTGTTCAACAAAAATAAATATTGCTTTTCTCCCCGTT
Celera SNP ID:            hCV8951414
SNP Position Genomic:     153831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42950):
GAATTCCATTTTTCCTAGTAAATGCATTTATAGTTATAAGACCAAACATCTTGGGAAGTGTGTGTGCCATTTATATTCCTGTGATACATTACATTTATTT
A
TTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGATAGAGTCTCACTCTGTTGCCCAGGCTGTAGTGCAGTGGCGTGATCTCAGCTC
Celera SNP ID:            hCV26499605
SNP Position Genomic:     150531
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42951):
ACCTGGTTTCTTTAGTCTGTATCCCGGTGATTCCAATAATTGCCAAAGATTCTTTTTCTTTTTTTGCTAAAGGGTTCATGCTTAGCAGAGTGCTTTGAAC
M
TAATCCATAATCCATAAATGTGTGTTCAACAAAAATAAATATTGCTTTTCTCCCCGTTCCCCACTGAACTTGTTGACCAAATTTTTTACCACATTGATAT
Celera SNP ID:            hCV8951415
SNP Position Genomic:     153873
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,7)   total(A,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42952):
AATTCCATTTTTCCTAGTAAATGCATTTATAGTTATAAGACCAAACATCTTGGGAAGTGTGTGTGCCATTTATATTCCTGTGATACATTACATTTATTTA
T
TTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGATAGAGTCTCACTCTGTTGCCCAGGCTGTAGTGCAGTGGCGTGATCTCAGCTCA
Celera SNP ID:            hCV26499606
SNP Position Genomic:     150532
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42953):
ATTCCATTTTTCCTAGTAAATGCATTTATAGTTATAAGACCAAACATCTTGGGAAGTGTGTGTGCCATTTATATTCCTGTGATACATTACATTTATTTAT
T
TATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGATAGAGTCTCACTCTGTTGCCCAGGCTGTAGTGCAGTGGCGTGATCTCAGCTCAC
Celera SNP ID:            hCV26499607
SNP Position Genomic:     150533
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42954):
TTCCATTTTTCCTAGTAAATGCATTTATAGTTATAAGACCAAACATCTTGGGAAGTGTGTGTGCCATTTATATTCCTGTGATACATTACATTTATTTATT
T
ATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGATAGAGTCTCACTCTGTTGCCCAGGCTGTAGTGCAGTGGCGTGATCTCAGCTCACT
Celera SNP ID:            hCV26499608
SNP Position Genomic:     150534
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42955):
TCAGATTACCATTGATTGATAGGACCTATGTCTACAAGTTTAAGACAGTCATCACTTTTTTCATCATGCCTGATGGATAATTAGCAGGTGACGTAGTTAT
S
AACACTTAGCACATAGACGTGAAGACATTCACTGCTTATACTGAACAGATGGACTACAGATACTGAATCTTGTCATACATTAAATAATATGCCTTGAAAT
Celera SNP ID:            hCV8951418
SNP Position Genomic:     157046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42956):
TATTTATTTATTTATTTATTTATTTTGAGATAGAGTCTCACTCTGTTGCCCAGGCTGTAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCTACTTCC
Y
GGGTTCAGGCCATTCTCCTGACTCAGCTTCCCAAGTAGCTGGGATTACAAGTGTGCACCACCACGCCTGGCTAATTTTTTTATTTTTTATTTTTTTTAGT
Celera SNP ID:            hCV26499609
SNP Position Genomic:     150650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42957):
ACACTACTGTGAACACTAGCAACATATTCAACCTCAATGCCAACATGTTTTAATTTACCATTTTATATTCTATGAGATGCTGCCTTCTTCCCATTCAGTC
R
TAGTTATTGGTACATCCTCTATCGATCCATCTGCCCATCCAGCCACCCATTCATCCATCCTTCTCTACCTATATATCTTATCTCTCCTTCCAAAATGTTT
Celera SNP ID:            hCV8951419
SNP Position Genomic:     157857
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   TSC_42_A(G,15|A,68)   TSC_42_C(G,3|A,80)   TSC_42_AA(G,17|A,66)   total(G,35|A,214)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42958):
AAGAATGCATTCGATTCAAATAAGAAAGTATGGCTGTTCTGGTCACACACAAGTCTGTTATACCTCGCTGGATATGCTAGAATGAGAGAGTCTTTAAATA
Y
CGAATTGATTCTATTTCTGTAAATAGAATATCCTGTCTAAATAGTCTTTCCATTTTGATAACTGTATGTAGAAAATGCTACTTATAGAAAACAAAAAGGC
Celera SNP ID:            hCV8556906
SNP Position Genomic:     66577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42959):
TGTTAAAAGAAGAAAAATGAAGCAGGGAGAGGGCAAGGAGAGTTACCAAGGGAGGAAGTATACTATTTAACAGGGTGGTTCAGCGAAAGTCTCTCCTGTA
R
ATGCTTTTGAGGAGAGATTTGATTGAAGTTAGAAAGCAAGTCATTTGAGCCTTACAGACATCTGTGGAGAGTATTGCGGGAATAGGTGATAGCCAGTGTC
Celera SNP ID:            hCV126270
SNP Position Genomic:     97743
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42960):
TGTGTTATTCCAAGGCACAAAGAACATTATCACTTTCTAACTGAGCCATAATATGAAATAGTTTGAGAAGCTTTGCATTAGGGGAAGTGACCTCAGAAAG
K
TTTCATCTGTAGCACCAGCAAGGTGCATGGAATAAATAAAATATCTGGATGTTTTATTAATTTGGCCCTTCTTGTGTGTTTATAGTCATTGAATTAATTG
Celera SNP ID:            hCV341164
SNP Position Genomic:     46449
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42961):
ACTGTGCATATTTAAAACACAATGTATTCAAACACTCTTTGGGTACAGACCTAGACTTTAAGATGATTTTCAGTACCTATTGATTCTGGTTGATGCCTCA
Y
TATGAGATGTATTACCAGATTTTCCATGACTGTATAGACGGCTTCATGGTGTGACTAATTATTATTTATTTTCAGGGCAAAATTATGCAATGTTATTTTC
Celera SNP ID:            hCV126271
SNP Position Genomic:     99626
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42962):
TAGAGACAGGTCTCCCTCTGTCACCCAGGCTGGAGTGCAGTGGTATGATCAGAGCTCACTGTAGCCCTGACCTTCTAAGCTGAAGCAATCCTCCTACCTC
R
GCCTCCTGAGTAACTGGGACTACAGGCATGTGCTACCATGCCTGGCTATTTTTTTTTTCTTCAAATTTATTGTAGAGACGGAATTTATCTATGTTGTCTG
Celera SNP ID:            hCV8556763
SNP Position Genomic:     23789
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42963):
CTTGCTCTGAGACCGGAGAGGCTTCTGGGAATTTTATCCTCACAAGAAACATTCATTTCATTTAAATAGTATGTGAAGCAAGACATTTAAGTTAGTTAGA
R
GTGCATATCATTTAAAATGGCAGGAGATGACAGTTTCTGCAAGCCATTTCTGAAGTTAAAAAACAAGGTAGTTTAAAATAAATTGTATTTCAGCAGTCAC
Celera SNP ID:            hCV8556836
SNP Position Genomic:     48427
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42964):
TACTTATAATCCCCTAAACCTCAATCATGTAAAATCTTGGCCTTACCCGTTCTCATTTTCAGAAAGAAAAGCATTCAGAAGAATATAAAATGAAAACTAC
R
CTGCCACTCCTTTCTTCCTTGTGATGGCCATGGAAATGCTAGCGTTTAACCAGAGACTTGGACTCTCAATATTTCAAATGTTTTAAAAGAACTTTAAGTA
Celera SNP ID:            hCV126272
SNP Position Genomic:     99939
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42965):
AAATGGCAGGAGATGACAGTTTCTGCAAGCCATTTCTGAAGTTAAAAAACAAGGTAGTTTAAAATAAATTGTATTTCAGCAGTCACTATTTTCTTAATTT
R
CCAATGAACTTGAATGACATATTAAAGAACTTTAGGCATTATACTCTGGTTTGTGATCCGCTTGAACACAAAATGCATATTATGTGATCTTATTTCCAAG
Celera SNP ID:            hCV8556837
SNP Position Genomic:     48542
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42966):
CTTGCAGGTGTAGGATAATCATACTTATTTCTCTTTTTTGGGAGCTAGATTATTGAATTGTAGGCTTTTAAGAAATAAGGGGACTTCCAGGAAGTTGATA
S
TGTTGGGTAGAATTGATCTCATAAGCTAATTAGAATTTTTGCAGCCCATTTGCAACAAAAATAGCAATGCCCTTTTTCTTAGATTTTTATTAAGAGAGAT
Celera SNP ID:            hCV8556765
SNP Position Genomic:     28380
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42967):
CATGGTAAATTTCAAGGAGAAACATAATTCTGAGCAGCAAGAGGAAAAGTTCTCAGAAACCTTAAACTAACTTTTATAAATGCAAACTTGGTCGAGAAAA
R
AAGGGCACAGAGCATAACAGAATGAACAGAAAGAACTTGTAAAACATACTATATAAGTGCTCTTTTTACTTTGAAAAAAAAAAACAGACCACTTAAACAT
Celera SNP ID:            hCV16123660
SNP Position Genomic:     177813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42968):
CCACAAATTTCCTATTTTGAAAGTTCTATATATTTGTTTAATATGGAACATTTACATGTCATGCACTGGGCTGACTGCTGGGAATATAGAGGAGAACAAG
R
CTGTCCAGTCCGTTGCTTGCATAGAATACTGCTGTTGCACTTAGTACTAGAGCAATACCAATTATGATAGCATCACTTAATTAAGGTTGGGCAACTGTGT
Celera SNP ID:            hCV11611417
SNP Position Genomic:     36088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42969):
ATTGATGGTTTAGAACCCATTCTATGGTAATTGTTTATACATTTCTCTTCCCATTCTACTCCATGAAGTCCTCAGCACCAGAGACTAACTTACCACATGA
Y
ATGTAAATGATGTACAATTGGCAAAGAGATCTTGAGAGTCTCTGTATCTGTTTGTAGGGGGAACCCACCAACAAACAGCTTTGATATAGTGGTTCATCTC
Celera SNP ID:            hCV11611418
SNP Position Genomic:     33511
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42970):
CGTAATTTATGCTGGACTTTGAATTTCCAACCTTCATAAGGACATATGTACATTTTTAAAAAGGAACACATTAACAGCAATGATTCTGTAATTGATATAG
W
GTAGATGTTTTAAAATTTTATTGTGATAAAAACACATAACTTGAAATCTACCTTCTTAAATTTTTAAGTGTACAGTATAGAATTGTTAATTATATGCACG
Celera SNP ID:            hCV11611419
SNP Position Genomic:     29145
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42971):
TGGGTAGGTTCACTAGATCATCTTTAAGATTGTAGCCAGCGAGGCATGGTGGCTCATGCCTGTAATCCCAAAACTTTGGGATTTATATATATATATAATT
W
TATATATAATTATATATATGTATAATTTTATATATAATTATATATATATAATTTTATATATAATTATATATATTATATGTATAATTTTATATATAATTAT
Celera SNP ID:            hCV11611277
SNP Position Genomic:     156482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42972):
TCACTGCAACCTCTACTTCCCGGGTTCAGGCCATTCTCCTGACTCAGCTTCCCAAGTAGCTGGGATTACAAGTGTGCACCACCACGCCTGGCTAATTTTT
K
TATTTTTTATTTTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCGCCTGCCTCAGCCTCTCAAA
Celera SNP ID:            hCV26499610
SNP Position Genomic:     150730
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42973):
TTTACCATTTTATATTCTATGAGATGCTGCCTTCTTCCCATTCAGTCATAGTTATTGGTACATCCTCTATCGATCCATCTGCCCATCCAGCCACCCATTC
R
TCCATCCTTCTCTACCTATATATCTTATCTCTCCTTCCAAAATGTTTTGAGATTTCAAGTTATCCCAATTGAGGCTAAGGTAGGTAAGGGAATCCAGGAT
Celera SNP ID:            hCV8951420
SNP Position Genomic:     157910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42974):
ACATGGGTCAGGAGTCTATTTTGTTATAATAAGAAACAAACAAACCTGGTTTCTTTAGTCTGTATCCCGGTGATTCCAATAATTGCCAAAGATTCTTTTT
C
TTTTTTTGCTAAAGGGTTCATGCTTAGCAGAGTGCTTTGAACATAATCCATAATCCATAAATGTGTGTTCAACAAAAATAAATATTGCTTTTCTCCCCGT
Celera SNP ID:            hCV26499611
SNP Position Genomic:     153830
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,7)   total(C,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42975):
GCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGTTTGCAGTGAGCCGAGATCGCACTTCTGCACTCCAGCCTGGGCAACAGAG
Y
GAGACTCCGTCTCAGAAAAAAAAAAAATGTGAAGGGCAGGGCCAAGGCTTATTTTAAGTTTCCCATAGCTCCTGGCACAAGGATGTGCATTTAGCTGATG
Celera SNP ID:            hCV26499612
SNP Position Genomic:     170258
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42976):
TCTGTATAGTTTCTGCCACAATCTGGTTTCATTTCTGCTCATGTGGGCCTTCTGTAGGATAGTTTCTGTGGCCCTCATGTCTCTCATTCCTCATCAGTCT
R
CCATACTCTCCATTTTCCAGGATATTAACCTAGTTAGGAGGGTCCCTTTGACACTTGTTTCTGTATCCACTCACCTTTCTCTTATTCGACCTGCTCTCTC
Celera SNP ID:            hCV8951421
SNP Position Genomic:     159585
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(A,0|G,84)   TSC_42_C(A,0|G,84)   TSC_42_AA(A,0|G,84)   total(G,252)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42977):
TAACTGAATGTAATTCTAATTGCAGCGAGAAGCCATTCAAGAATTTTATCTAAAGGAACTAATTTACTAGAAAAAAATAAAGATTTAGGTGTGTCACTAT
R
TAAGAACAAATGTTACATTAAAACTCATTAGGATAAATGCCTTGTAGCTTGAAGGTTTAGATGGAAAGTGAGATTGTCGTTTTCAGTCAAACAGAATTCA
Celera SNP ID:            hCV8951422
SNP Position Genomic:     160477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42978):
TTTCTTTTCTTCTCTGGCTCTATCCAAGATGGCAGGACATTTTGGGTATTATAGCCACAGTGGAAGAATATGTAGGGCATTGAGGTTTCCTATATTAACA
M
AGTATCACTTTGAACCCAGCTACAACTTCAAATTCTGTCTGTGCTTTTAGCATGCCTGATATCTACTTGCTCTTCTGCATCTGCTACAGGTAAAACTGAG
Celera SNP ID:            hCV8951423
SNP Position Genomic:     161263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42979):
CAGATTAAGTCAATGCAGAAAATGTGGATGGGAAAAAAATGACAAAAATAAGGATAAAGTCTTGTTCCTTTCTGATTACTTGAGTTTATGTGAGAAAAGG
K
TTTTTTTTTTTTAACCTACATTAGAAGAAAAGATCTATAAAATTGTGGTGGTAATAGCAGGAAAAGCCATGAACACAAACAATATATGGTTGCTTGAAAT
Celera SNP ID:            hCV8951424
SNP Position Genomic:     162093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42980):
TGCAGGATAACATCAAGGGGTTTGAAGGACATTTACTAGGACTAATGACTTACATGTGACAAATCATTTCTGTTTTCTTATCTAATTATAAAAGCTTCTA
M
GCAAGATCCTTCTATAAGTGTGAAGGTAGAATTACACCTTTGTCTAGTGTTTCTTAAGCTTGACTGACTAATTCAATTTTAGTATTCAGATCCACTCATC
Celera SNP ID:            hCV8951425
SNP Position Genomic:     163465
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:42981):
TCCTTTTGTGGCCTGAGCATGTCAGTATTAAACTTTGCTCTGGTAGGGAAGTGTTGGCCATAGATTAGGGTGTAGTTGACAAACCTTCATCTGGATGTAG
R
TCCAGAAAGTCCCCACTGCAGGTTAAAGGACACTGGACTCTGCACTCAGGCACCTAGAGTCCTGCAAGTCCTGGGAACCTGCATTTAAATAAAAATGCAC
Celera SNP ID:            hCV236484
SNP Position Genomic:     130199
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42982):
TATCCTTAATGAAATTCTCCATATAAATGTTTTCTATTATTTACAGAGAGAAGGAAAAAATGTTTTCAAATGTAAACATCTATTTGACTGTAAGACATTA
M
ATTGTACAGTTTTACAAAACCGAAATTACACTATTTATTATGCGTGGTCCACACTAAAATTGAAACTATATTATTTCTACATTTTTTCTCAGAATTTACA
Celera SNP ID:            hCV8951426
SNP Position Genomic:     164026
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(C,0|A,84)   TSC_42_C(C,0|A,84)   total(A,168) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42983):
TAAGTATATTAATTAATATTCAGCCTGAGAGATCTTTCTCTCCCTCTGCTTTGCAAATCTGGCCCATGAAGAGATATTTATTACTCTGCTTCGTTAGTAA
W
ATATCATAAAATGTTATAGTTTTTCTTTTCCAAATTAGTCCAAACTATCACATTATAAGTGCATTTTGGAAAGTACCAGGGCACTCTCTGATGGGACTAA
Celera SNP ID:            hCV236485
SNP Position Genomic:     128424
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,5)      total(A,5|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42984):
AGAGAGAAGGAAAAAATGTTTTCAAATGTAAACATCTATTTGACTGTAAGACATTAAATTGTACAGTTTTACAAAACCGAAATTACACTATTTATTATGC
K
TGGTCCACACTAAAATTGAAACTATATTATTTCTACATTTTTTCTCAGAATTTACATGCAACATCCAGGCATGTTAAAGAAAGTTGTCCATCAAAAGATG
Celera SNP ID:            hCV8951427
SNP Position Genomic:     164070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42985):
CATGGTACATCGTAAGTGATATGTAAATGTTGGCTGTCGTTGTTATTGTGCTTGTTATTATTATTATTAGCTGGAGTTTGTATCCCTAGCTGGCTGGCCA
R
TATGTTGTATTCAGTCCCTGATGCCAAAGTGATTTATCCCTAATGGAACAGAGACTATTTAAACTTTATTGAGGGACATCCAAATCTTTCACTGGGCTCT
Celera SNP ID:            hCV8335700
SNP Position Genomic:     104760
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42986):
GTAGAAGTCTCACTCAGTAGAGTAACATCATGTAGTATACACCTAAATTAAAATATATTTTCTTATTCTGAATTCATGTTTTTTGACAATGAAATAATTT
Y
TCTTTTATTTCTAAAGGAACACCCCAACCTAAGCCCTCCCTAAACAAAAAATAACATCAAAGGTTTGAAGTGAAAAATAATTTCTAACTGATATAAAGCT
Celera SNP ID:            hCV236486
SNP Position Genomic:     127847
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42987):
GAACAAATCAGATTTCTGAAATACAGGTTTTGATTGATAATAAATGTAGAGAAAATTGGTAATTGTTGCTTAACAATTGAATGCTGAGATTTAGTTAGAA
K
TATACAAATAATTGAAGTTGTTTCAGAAGCTACTTTATAAGTGATAGGTACGTTTATTTCTGTTAAATTATGCTCTCTAACACAATTTTTTTATTCACGT
Celera SNP ID:            hCV8951428
SNP Position Genomic:     164368
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(G,2|T,36)   total(G,3|T,73)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42988):
TAAATTACTGACAACATATACAAATTCATGGTTTTCATAACTATAAAATCATTTTGAATATTATTAAGCAGTCCAAAATAATTAAATTAATAAAATAACT
Y
CATGTTTTCACTTTTAAAGTTTTTTCTTAATTCTATCTCTTTTAACTCACTGCCTGATTCAAGAAAATTTTACATTAACTGAATAATTAGCTTAGTAACT
Celera SNP ID:            hCV8951429
SNP Position Genomic:     166109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   JBIC-allele(C,443|T,1016)   total(C,443|T,1016)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42989):
ATCGCAATTAGATAATCATTGTTTATTTTCTCTGCTAGTAAAACTAAATGCTAATGTGTCTCCCCTATTAAAAAAAAAGTTAAAATTGCATAGATTCTTT
M
CTGAGTCCAGCTTCACAAGTATCATTGCTGGTAGCATCTAGTAGAAGCTTCAATGGGATGGGCAAGTCCTAGCAGCTCAGAATGAGGAAACTTGGCCCCT
Celera SNP ID:            hCV8556917
SNP Position Genomic:     68282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42990):
AGTAGAAGCTTCAATGGGATGGGCAAGTCCTAGCAGCTCAGAATGAGGAAACTTGGCCCCTTCTTCTTCTGTCTGAGCTGGAACTGTCTGGGCTTTGTGT
R
GGACGCATTGTGCTTCTTCCCCTTGCTGGGCCTCCTTTACTTCAATCTCTGTGGTTTTTGTTTGTTCGTTTGTTCGTTTGTTTTTGTTTTTGTTTTTTGG
Celera SNP ID:            hCV8556918
SNP Position Genomic:     68422
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42991):
GCTAAATAATACTATTATGGTAAGATAAGTTAGTAGCATATAATAACATAATACATAAATATAATAACACATTATTTTTGTCATTTGATGAATTGTGTTT
K
CTACTCCCTTTTATATACTTTTTCTTACACAGATTGGGTTTTCTTCTCACTTCTAATATTATTTTTAGCTCGTTCCTTTAATTGTTATTTGTATATACGT
Celera SNP ID:            hCV8556846
SNP Position Genomic:     53386
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42992):
TCCTCACTTTTAAAAGAAATCTAGGTAAGAAGAGAGAGTAGGATGAAAGTTAAAAGTGTGAAGATGGATAGTGATCTGTCACCAAAAATAAGTTCCTAGT
S
ATCTATGAAGATCCTACATGAGCGCTCCCTGGACTGTCAAATCTTGAGTTCTGTGATTTCTCACCTCTTGATCCTCATGCCTTTTCTTCTACCTGGAACA
Celera SNP ID:            hCV8556847
SNP Position Genomic:     56058
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:42993):
ATTTATAGATATATTCACTGATTATCTGATCAACGTAATTTATGCTGGACTTTGAATTTCCAACCTTCATAAGGACATATGTACATTTTTAAAAAGGAAC
R
CATTAACAGCAATGATTCTGTAATTGATATAGAGTAGATGTTTTAAAATTTTATTGTGATAAAAACACATAACTTGAAATCTACCTTCTTAAATTTTTAA
Celera SNP ID:            hCV11611421
SNP Position Genomic:     29112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42994):
TGTGTGTGTATTTTGTCAGAGCACTGCTGCTAGAATTTTTAGTAGAATGCAGTTGATAAATTGTTAATCAATATGAAACAGAGACTTTCTTTAGGGTAAG
R
CCACAATCAGAAGCATTTTTAGAATTCAAAATATTTATAATGATTTTTTTTAGTAGAAAATCAGCACCCTGATTTTAACTTGGTGGGGGGGTGGTAAAAA
Celera SNP ID:            hCV8556848
SNP Position Genomic:     56603
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42995):
ATTACTATTATTTTTACTGCTGAGTTGTTTGAGTTCCTGAACTTTCTTTTACCTATTACAATCCAGTGTCAAGAAGATAGTGTATTAATTTCTTTGTTTA
S
TTTATTGATCAATGTTTATTGATAATATCTGCCTTCATGCCTACAATGAAGCAAAACCTTATAATACTGCTTTCTGTATTTCTTCAAGATTCCATAGCCA
Celera SNP ID:            hCV8556776
SNP Position Genomic:     35802
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:42996):
TACATTTTTTCATGATCTCCATCCACTGCTACCACCTATCCACACTTGCATCATGTCTTCTTGGGTTATTTCACTGGCTTCCCAGCTGGTCTCCCTACTT
Y
ACCATACAAATCAGCCAGGGTGATTTTGTTCAAATGTAAGTCAGATTATGTCACTCTCCAATTTCTTGTTTAACTCAGAATAAAAGCCAAAATCTCTACT
Celera SNP ID:            hCV11611423
SNP Position Genomic:     23504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42997):
CCACTTTTAATTCTTCCATCTCTCTTACAGCCTACACATAATCTTCCATTGCAAATGTCAGTATTGCTCCTGGGTTACATTTTTTCATGATCTCCATCCA
Y
TGCTACCACCTATCCACACTTGCATCATGTCTTCTTGGGTTATTTCACTGGCTTCCCAGCTGGTCTCCCTACTTCACCATACAAATCAGCCAGGGTGATT
Celera SNP ID:            hCV11611424
SNP Position Genomic:     23429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:42998):
ATGATTGGGTCAGAACTTTGGGGATGTAAGAAAACATTTCTTACAAAAAGATCCACCCCTGCCTCCCTCCACCAGCGCATGCGAATAAAGTACAGATTCC
Y
TTTGTGGCCTGAGCATGTCAGTATTAAACTTTGCTCTGGTAGGGAAGTGTTGGCCATAGATTAGGGTGTAGTTGACAAACCTTCATCTGGATGTAGATCC
Celera SNP ID:            hCV8335497
SNP Position Genomic:     130102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:42999):
CCTGCCATCTCACTAGCCACATACATTGTACTCCACTGTCTTCCTCAATCTCTTTTTCTAGTTCCTTCTCATCCCCCCAACTTCTAAACATTGTAGTCCT
K
AGAGTTCTTCCTTGGGCTACTTCTGTTTTGCATCTACACTATTTGCATGACTATCTCATCCCTGTATTCTCTACATTGATAACTCCCAAATTTGTCTTTC
Celera SNP ID:            hCV11611425
SNP Position Genomic:     23034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43000):
AAAAGATTCAGCTCTATCTTATAGAAAGGAAACCCTTTGGCAAGATCATAAACTACATATAGAAATATAGGCTTTTCTGTTAATAACATTCTAAAGTATG
Y
ATGTTTTTTTCACCATAAGAGCCTGTGTCTCCACATCTAAAATAAAAGATTTACCTGAAGCTTGATAGCATACAACTATATTGTTGATTAACAATAAACA
Celera SNP ID:            hCV8335498
SNP Position Genomic:     126831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43001):
TCCTTTGGAGACGGTATTAGTCATAAAACTATGTATGGTCTTTGTATTAGGATAAATTTACTTTGGCTTCTGAAGTTTTTGATAAGGATATATCTTCTGT
R
CAAAAGCAGAAAGGGCTGTAAAATACTAGAGAATGTAGACAAAGGTACCATAAATTACTTTGGAAGGACTTCTTGCCATCCTGAAGCAAGGTTTTGTGTG
Celera SNP ID:            hCV11611426
SNP Position Genomic:     22307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43002):
TACAGCCATTGGTTACCTGTTGCTGTCAATAGCTGTATTGTCAGCATTTTATCATGGATTGAATGCTTTAAAATTTTTGAGCAGCATAAAAGATTTGTAG
R
GGAAAACCTATTTTCCTTAGAAACGAGAGACAGTGTTTTTTGATGCTTCAAAGTCTTAAAAAATGTAGGAATATTAGAGTTATGCCTTGCCCTGCTTGGT
Celera SNP ID:            hCV11611427
SNP Position Genomic:     21101
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;(A,-|G,-)   Caucasian(G,8|A,76)   African-American(G,13|A,71)   Asians(A,84)   total(G,21|A,231)
SNP Type:                 INTRON


Context             (SEQ ID NO:43003):
CTACAGTATCATTTATTCACTTAAAAAGCTGTTGTCATGTTCATTATTTGTACAATGAAAAAATGGGAGAGATGCATTTTATTGCAGGCTTCTACTGTTG
K
TAAAGCACTAGATTTTTCCACTTTGAATTGTTCAAAATTATTAGTTTATCAAACAAATTGAAAGAAAAGCCAGGGTTCTGTTGCTAACTTTTGAATGAAA
Celera SNP ID:            hCV35117
SNP Position Genomic:     36413
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43004):
TGATTAAGGTGTTCTTAAATAATTGTTGAATAGAATTATGGATGCACTTCAAATCTCATTTGCTAGCATTGTAATATATTTAATACAAACTTAAAAAAAC
M
AAAACAATAAAAGATAAAATAGTTGTCAGGACAGAGTAGCATAAAGGGAGTGTCTTTGTAGCATAATATTTTGACCTATGAGAAATTTTGTACAATTTCC
Celera SNP ID:            hCV11611359
SNP Position Genomic:     124406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43005):
TTCATCTCCTAAAATTCATCTTCGTGCTCCCTCCCCACTCCAAAAACAAACAAACAAACAAATAAACATTCTACTTATACCCTTTCTATATATTCAGTGG
Y
GTGGCCCTTCCTGGCTTCATAGGACCATGGTATTACCAACGAGGTTATTTAAATTCTGGTTTCATTCTAGTTCTGAAAGCCAATGGAGCTGCACTCTTCT
Celera SNP ID:            hCV8951430
SNP Position Genomic:     168133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43006):
AGAAGCTCTCCACTGTTCACAGCCCTTGTAACCAACCTTAAAATTCCATTTAAAAGACCAACTTCAGATGTCAACCTCTATAGAAACTTTTATCTCAAAC
Y
AAAACAATTTCTGTTTTCATATCCCTCCACTACATTGCACCTCTCACTTGACACCTGTGTATATACCCTAGTTTCACCTATTACCTTAGAAATGTTCCTG
Celera SNP ID:            hCV8951431
SNP Position Genomic:     169306
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   TSC_42_A(T,30|C,53)   TSC_42_C(T,36|C,47)   TSC_42_AA(T,37|C,46)   total(C,146|T,103)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43007):
TGCTTAATGTCATGTTATTCGATAGAGAATAAAAATGGTAAAGTAACAGTAAATAATTTTTAAGAGAGCCTATGACTAAAAATTTTCATATTAAATGACA
Y
TCAAGCTATTTTACTTGGTTTATCTCCTGAGTGAGGAAAGGAATTCATGATGGGAGTGTACCTTCAGGGTGGAATAGGTAGATTCAGATAGGTTTCTAAC
Celera SNP ID:            hCV8951432
SNP Position Genomic:     169867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,11)      total(C,11|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43008):
TAAAAATTTTCATATTAAATGACACTCAAGCTATTTTACTTGGTTTATCTCCTGAGTGAGGAAAGGAATTCATGATGGGAGTGTACCTTCAGGGTGGAAT
R
GGTAGATTCAGATAGGTTTCTAACTCTTTAGATGTGAAGGGCAGGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGAACTTTGGGAGGCTGAGGCAGG
Celera SNP ID:            hCV8951433
SNP Position Genomic:     169943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43009):
GGGACACCATTCAACCCATGACACCAGTAACTGCAGCTATGTCATGAATGAGCCAGATAAATTTTATCTGTTTTGTGACCCCAAATAGGGAATATCCTTT
R
AAATGACACTGGTCACAGAGAAGATACAGCAAAAGTCTAAGTAGAGTGGTCCACACACATCCTTGCTAGCAAAAATCTCAAGTTCTTCATATACATAGTG
Celera SNP ID:            hCV8951435
SNP Position Genomic:     176281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   TSC_42_A(G,11|A,72)   TSC_42_C(G,0|A,84)   TSC_42_AA(G,9|A,74)   total(G,20|A,230)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43010):
TCCAGGTGAGTCCTCTTGGAAGCCTCTTGGATGTCACTACAGAACTGAATGTCCCTGCATCTTCTCATTTGAGTTGACAGGGTCACGTTGAGTGGGCAGT
R
TGGGTACAATGACTTTGTATTTGAGCCATCGTTGTTCCTTACTGTGGGCTACAGTGCCACATGGTAAATTTCAAGGAGAAACATAATTCTGAGCAGCAAG
Celera SNP ID:            hCV8951437
SNP Position Genomic:     177653
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43011):
TAAAACCTTGAAAAGGCTTCACTTTACTTGGGATTTTCTACACTAGCCTACTACCCTGCATGTTTGCATCACCTGGGGATGCTTTTTAAAAATCTAGATG
M
CCAGGCCTGACCACTAGAGATCTTAATGCAAATGGTCTAGCGTGGGGCCTGAGGCATTGGTATTTTTCTAAAACTCCCTGGATTATTCACATAAGGATTA
Celera SNP ID:            hCV8335710
SNP Position Genomic:     114255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43012):
CCATGATCGAGAATTCAGGAAGAGGAGGTGGTACATGCTTGAGAGGTGTGGTGAGGGAGAAGACGTGAGATATTTCCAAATCTACCTTATTTTTAGGTTA
Y
TGGGAGATGTCCCAATAAACATGTATATTTGGCAGTTGGATACTGGTTCTGAAGCATAAGAGAGGTCTGGCCTGAAGAAATGGATTTGGGAGTGATCAGC
Celera SNP ID:            hCV8951438
SNP Position Genomic:     179761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43013):
TGCGGGGCTGTGTACTGTACTGTCTTTTTTGCTGTTCATTTTTATGCTATAGGTATGATGGGCTTAAATGGAAAGTACACGTGTCTGGTGTGAATTGCAG
M
CACACACACACACACACACACACACCTGAAAGGTAGTAACAGGCACAAGCACCAACCTGACTTTTCAGGGTTTTTTTTATTACTTTCAATTTAGTCATAT
Celera SNP ID:            hCV26499556
SNP Position Genomic:     7040
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4|-,5)   total(A,4|C,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43014):
GAGGAATTAAAGACAATTATATAACTCTTAAAAATTGTTTACTCTGGATAGAATGATTAAGATAACTATAAGAAAACTTTGAGTTAGTAAGATTTGGGGG
K
TGTTTATTTGGGGTTTCTTTGCTTATGTTTTAATATGAGACATGAGAGCTTCTTTAAAAACTAATGGGAAGGGAGATAATTGGAGTGTACAGAGACCCTG
Celera SNP ID:            hCV8951439
SNP Position Genomic:     180344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43015):
CACCTGAAAGGTAGTAACAGGCACAAGCACCAACCTGACTTTTCAGGGTTTTTTTTATTACTTTCAATTTAGTCATATTCAAGTCTGCGCAATTACTTAC
A
AAAAAAAAAGTTCCATCTAAATCTCTAGGTTTGGTCAGTGCTGCCAAAGTCAGAGGAGAGCTGCAGGTTGATATACTTATTCACAGATTTCATTTTTCAT
Celera SNP ID:            hCV26499557
SNP Position Genomic:     7163
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43016):
CTGTGCAGTAGAACACCAGGATTTATTTGTCCTATCTGACTGTAACTTTGTACCTGTTGGCCAATCCCTCTCCATTCCCGACTGTCCCCGCTACTCTCAC
S
AGCAGGTAGTCACTCTTCTACTCTCTACTTCTATGAGATCAATGTTTTTAGGTTCCAACATGTAAGTGAGAGCATGTGGCATTTGTCTTTCTGTGCCTGG
Celera SNP ID:            hCV29144117
SNP Position Genomic:     35014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43017):
TCTTATTTTGTTGAAATATCCTTGGTGGTCCATGGTATTTTAAAGACCAAAATTGTAAAAAATGTAGTTAAAGTAACAACATAATGGGATTGTTGAGGAC
Y
GTGAAATAATATCCTCAATGCCTTTTCTTCTTGAGGGTTTTTACTGGATACTTGCTCTACCTATACCTCTCCTAACTACAGAACTGAACATGATGTGAGA
Celera SNP ID:            hCV29144118
SNP Position Genomic:     47724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43018):
TTATGTAAGTAAATATCACAGTAGCAAGGAAATAAACCAGAGAGTATTGCTTTGTATGTCTTCAAAACCACATGCCCAGAGCATGTTGCGGATCTCTTTG
A
AAAAAAAAAAAAGATAAAATTCACACATTATACAATTCATCTTTTTAAAATGGTCCAGTGGTTTTTAATATATTCGTGAAGTTGTGCAGCCATCACCACT
Celera SNP ID:            hCV26499559
SNP Position Genomic:     8044
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43019):
TTTCAGAGAAAATTTCAATTGATTGCCAGGTTAAATCACGTATATAGTCAATTCTTTATAATTTATTTGTCCAAGTAATTCCTGCTAATGAATCTGTAGC
S
CGCTCTATTGTTTTGCACTATTTTGTGTCTCTTGAAGGCAAGCATGCTATAGAGGCTCCTGCTGAGGCGGAGCACCTTAGGAGAGTAACCAGTAGCTCAG
Celera SNP ID:            hCV29144119
SNP Position Genomic:     57929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43020):
TAGGGCTCTAGTTCGTGAAATAGACACATTTCATAAAAGAAAAAGGGAAGAGAAAATTACATGGCTAATTAAAAGAAATCTAAGTCTAGGCTGCAGTTTG
Y
ATTGTCACACAAAATTCACTTAAATGTGTTACACTTTTAGGCAAAATGCCATTATAATAATTTTATGTTGACCTGTGTTGCCCTCCAATTTCATGCATCA
Celera SNP ID:            hCV8556928
SNP Position Genomic:     68976
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43021):
GATTTTATTTCCTTTATCCCTTAGGAGGAATGTGTATATGGCTGTTTATCCTGTTATCTGTGAATACCATGTGACAACTAAAGAATAAAAATATCAAACT
W
TTAAAGAATTAAAGTTAGTTTTATTCCGAAGCCTGACTGAGGACTATAGACTGAGGCCTATAGCCGGGAGCACTGCTGCTGCACACTGTTGCAGCCACGG
Celera SNP ID:            hCV8556929
SNP Position Genomic:     69423
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,7)      total(A,4|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43022):
GTGGGGACACAGACAAACCATGTCAGGAACTAATGTGGTTTTTCCCAATCCTGAAATTCTTTGATGGACAAGTTATCATCAGAAGACAGGATAATCAGAA
Y
TCAACATACTTGATTTGACAGAGCATGGAATAGAAACCTGATGCCAGATAGTGATAAAGAAGCAAAGTAAAATCCAAGATAGTAGGCTTGCAATGAAATA
Celera SNP ID:            hCV32144
SNP Position Genomic:     83393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43023):
TCACACACACACACACACACACAAACACACATACGCACGCACGATCTCACTTCGATCTATACACTGGAGGATTAAAACAAACAAACAAAAAAAACATTTC
Y
TTCGCTCCCCCTCCCTCTCCACTCTGAGAAGCAGAGGAGCCGCACGGCGAGGGGCCGCAGACCGTCTGGAAATGCGAATCCTAAAGCGTTTCCTCGCTTG
Celera SNP ID:            hCV11611432
SNP Position Genomic:     6428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:43024):
CAGAAATGAAGAAATATGTCTTTATAATACATATACTAAATAAATATATGTATTTTTATATATGCTTGTATACATACCTGTTTGCATATTTGTAAGTGCT
Y
GAGGTAAGTTCAAGGTGGAATGGGTTGAAAGGAGAATGTTTAGGTTATCTGAAATAATATAAACCAAATTCCTCTCAATTTAGTTAGGAGGTTAGAAAGC
Celera SNP ID:            hCV8556859
SNP Position Genomic:     56881
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43025):
CACGCCTTCCAGGCATCAGATGCTTTCATGCTGCCTTCTTACCACCTTACAAGGTTTTTCTGCTAAGAAGCAGGGACCTGCTAAAGCACAGGGGGGAAAA
W
CAGACCTTAAAGTTCAGTAGACTTGATTTTAAACTCCAGCACCAATACTTATTAGTCATATAAAAATTGTCAACTTACTTAAACTCCCCAAGCTTCAGTT
Celera SNP ID:            hCV11611363
SNP Position Genomic:     124008
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43026):
AGATGATTCTAAATGAGTCTCCACAAAATAATGGCCAGAGCTTAGGATTAACATTTTAAAAAATGGAGTCTTGGGCTTTTCTCACAAGAATATTAGCTAC
W
ACTCAGGGCTGAGTTGGCTTAGAACATTTTCACTTTTTATACAGTTTTATGATTTTTAATCACACCTTTGAATTCCATTTTTCCTAGTAAATGCATTTAT
Celera SNP ID:            hCV11611290
SNP Position Genomic:     150361
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43027):
AATGGACTAGGTTTGAATCTTGACTCCACCATTTGGTTATTGGTTACATGACATACAATATATAAATTATTTAACTTACCAATGCTTCCATTTTTCTTCC
R
TGAAATTGACATAGTAGCTGCACCTGCCTTATAACATTACTATGGAAATTAAATGAGGGATTGACTTATTACTCATAAAAGTAATTGAGGAGCCAGGCGC
Celera SNP ID:            hCV504618
SNP Position Genomic:     106546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,11)      total(G,11|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:43028):
GTATGAAGTAGATTAAGTTCAACTGTATCCACGCCTTCCAGGCATCAGATGCTTTCATGCTGCCTTCTTACCACCTTACAAGGTTTTTCTGCTAAGAAGC
R
GGGACCTGCTAAAGCACAGGGGGGAAAAACAGACCTTAAAGTTCAGTAGACTTGATTTTAAACTCCAGCACCAATACTTATTAGTCATATAAAAATTGTC
Celera SNP ID:            hCV11611364
SNP Position Genomic:     123979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43029):
AAAATTTAAAAATTGCAAAAATTTATTTAAAATATAATATTGAACCAAAAGGCAATGATTATTTAAATACATTATGATGGATATTATAGATTTCACAAAA
R
TCATGTTTTTGAATGATATATATACATATAAAAGGCTCATGATAAGGTATTAATGGTTTTAAAAAGAAACATGTTAAGTGGTATAACCAGTATTATTTTT
Celera SNP ID:            hCV504619
SNP Position Genomic:     106287
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:43030):
TAAAAACTGTTTGTTTGTTTGTTTTTTAAATAATGAGTACTACATGTGAATAACAGTACAAACATAGCAAAAGTATGAAGTAGATTAAGTTCAACTGTAT
S
CACGCCTTCCAGGCATCAGATGCTTTCATGCTGCCTTCTTACCACCTTACAAGGTTTTTCTGCTAAGAAGCAGGGACCTGCTAAAGCACAGGGGGGAAAA
Celera SNP ID:            hCV11611365
SNP Position Genomic:     123907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43031):
AATCCATCTATCTGTCTTACCAGGTAGTGACATTGATACGTTCTTGCTAGACTATGCTATTATAGAAGGATATATATAATGAGATGCTAAACCTAAAATT
R
TTGACTAAAGCTTAGCAAGTTTCTCTTCAGTGCACTAATTAGTTTTATTTAATTATCAAGAGTGTGTTCTCCCACTAATTAGGATAAAACAATATGAATA
Celera SNP ID:            hCV11611294
SNP Position Genomic:     148720
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43032):
AACTCTACCAGTTTTTGGATAGAAATTCTATAATCTGTATACAAGTTTATATATAAGAATAGACCCATATTTATTGGTGTGTGTGTGTGTGTGTGTGTGT
R
CACACACAAACACATCTGTGTATATTGTATCAAAAATATTTTTTTCCACTCTTTGGCTTTCCTTTTAACTCTCTTAATGACTATTGATGAATAGATCTTG
Celera SNP ID:            hCV11611368
SNP Position Genomic:     114780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43033):
AGAAATAGAGGTATTGAAGTATTCCTGGGAATTTCAGTCAGTTCAAATGATCTCAGTCCAGTTGGAAACCAGAATAAAGAGCCTTCAAGGTGGTTTTATA
Y
GCAGTAATATGAATGTGCTAACACTTGGGGGTGCTCACCCATGAGAGTGCCAAGGAGACGTGCCTAGGCCTACACATGTTTTCCCAGAGCCAAGGAGGCC
Celera SNP ID:            hCV11611298
SNP Position Genomic:     135294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43034):
TAAGTGTATACAGAAAGGAGGAACCGATGACTCAAATAGGAATCAAGCCAGAAGCTTCTGCCATATGGGCAGCATGGACTTCAACCAAAACAATGAAACA
K
TGCTGTGGTTTAGCAGAGGTCCTACCATGAATAGAAGGATACCAGGTTGCCACTGTGTCTCAGACTGCATCTCTGTGTCGTTGACCCTTTTACCAAAGGT
Celera SNP ID:            hCV8336887
SNP Position Genomic:     88036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43035):
TATGTAAGTAAATATCACAGTAGCAAGGAAATAAACCAGAGAGTATTGCTTTGTATGTCTTCAAAACCACATGCCCAGAGCATGTTGCGGATCTCTTTGA
A
AAAAAAAAAAAGATAAAATTCACACATTATACAATTCATCTTTTTAAAATGGTCCAGTGGTTTTTAATATATTCGTGAAGTTGTGCAGCCATCACCACTA
Celera SNP ID:            hCV26499560
SNP Position Genomic:     8045
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43036):
AGCATGGACTTCAACCAAAACAATGAAACAGTGCTGTGGTTTAGCAGAGGTCCTACCATGAATAGAAGGATACCAGGTTGCCACTGTGTCTCAGACTGCA
W
CTCTGTGTCGTTGACCCTTTTACCAAAGGTAGGAAACAGAGCTGTAGTCATGCCCCATATCTATAATAAGTATGTGGATAATAAGCATCGAGTACAGCCC
Celera SNP ID:            hCV8336888
SNP Position Genomic:     88106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,8)      total(A,4|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43037):
AAAATTATAGTTCTCAGCTCCAAGCAAGGGTGGATGTATGTTGACTAATGGAGTGATGGTGGTGTGTGTTTCCCAGCAGCCCAGGGACCCTATGCATCTT
S
GGTGTGCCTCATAAGGTCAGGAGAAGACAACAGTTTTACCAGGGTTTCAGCAGATATGATAGCAACAGCACATACCATTGTGCAATATCTTATTATCTTA
Celera SNP ID:            hCV29144120
SNP Position Genomic:     64587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43038):
GGGGAACTATCTTTCTTCAGGATTCTGCTTTGGATGGATAAGAATGTTGACAATACGACAAAAGTCACTTGTTCCAAAAGGTGGAAAGTACTACATTTTT
R
AAGAGGAGCAATCTCTCACTTTCCACACTTGATAATTTATACATTTCTCACCAAATAAATAACAATTTATCAGAAAATTTTGTTACATCAAAAGCATGAA
Celera SNP ID:            hCV27493990
SNP Position Genomic:     109948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43039):
GTAAGATTTGGGGGGTGTTTATTTGGGGTTTCTTTGCTTATGTTTTAATATGAGACATGAGAGCTTCTTTAAAAACTAATGGGAAGGGAGATAATTGGAG
W
GTACAGAGACCCTGGGTGGTACAAAGAGGCGGGATTCAGGACACAGGTAAAGGAATTAGTGTTCAAAATCAGTAAAACCTATGTGCATGTTTACAGTAGT
Celera SNP ID:            hCV8951443
SNP Position Genomic:     180430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43040):
TATGAGCACAGAAAGGAATTATATAGGTTTAAAATTAATTTTTAAGAATGAATACTTTCATCCCACTTTCAAAAGGCTTTATTTTTTAAAAAAAGTATTT
A
AAATGAGGCCTGAGTCAAACATTTCAGTATGAGAAGCCTTGCACAAAATTTAGCTATTGTAGTTATGGTCCTTTGGAGACGGTATTAGTCATAAAACTAT
Celera SNP ID:            hCV26499561
SNP Position Genomic:     22138
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43041):
CTAGCTTGCCTTCTACCTTAATGATATTTTAAACTTACTGACAAAGGAAAATTTAAAGTGTGGATATTATTAGTTTAATCAATACTCATTGGATTGTACA
R
CGTAAGCCAGACACTGTACTAGGCATCAGAGATGCAGTGATGAGTGTAAGTAATCACAAGTATGCAAACAATAGTGATTAAGCGTGATTTTTTTTTTAAA
Celera SNP ID:            hCV29144121
SNP Position Genomic:     72708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43042):
GGTTTCGCCATGTTGCCCAGATGGTTTCGAACTCCTGAGCTCAATCGATCTGCCTGCTGTGGCCTCACAAAGTGCTGGAATTATAGCCATGAGCCACTGC
R
CCTGGCCCATTGCACACATACTCTAAAATAAAACTGTTAATAGATGCAGAGGGAAAAGGGAGATAATTTTAAGGAATCTGTATCATATCAGTCATTTTCT
Celera SNP ID:            hCV8951444
SNP Position Genomic:     180946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43043):
ACTTTTGGGAAGAGTTTTCTATAGTCACTATCTATTTTCTCTCCTGTCCTTTGCTCCTGAACTCAGTTTAAAAAGGGTTCTGCTCCCACCATTCCAAAAC
A
AAAAAAAATACCTTATCAGTCTCACCAGTGCCTTTGACGTTGGTACATCCAATATTCAGTGTTCTTGGTCCTCACTTTATGGACCTACCAAGAGCTTTCA
Celera SNP ID:            hCV26499562
SNP Position Genomic:     22761
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43044):
AATGAGCAATAGCAAGTGGCTTATAAAAGATACTGGCAAATTGAAAATGTCTTAAATCATTGAAGATCCATTGAAAAATTATCAATTTATTATAGTAAAT
R
TGCTTCTTGGGAATAAAGGTTTCTTATTTCTAGACCGGCTAAAAAAAACAAAAAAAGGAATTCATGCCAAAAATGAATTTTCAGTCAATATACTGGGAAA
Celera SNP ID:            hCV8951371
SNP Position Genomic:     50992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43045):
CTTGCATTAATTTCCCCATCTGGATGGGGCCTCTTTACCTACATAGGGAAATTCCTGGCCTAGGTGGATCCAGCAAATCCTTCATTACTGAATCTGGCTG
Y
AAGTTATCTTTACCTTACACTACTCTTGACACATTTATCCCTAGCAATTTCCAAGGAAATTTCCTTTTTTATAATCTTTGTATTTACCTGACTCCAGAAG
Celera SNP ID:            hCV29144122
SNP Position Genomic:     77183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43046):
TTATAGCCATGAGCCACTGCGCCTGGCCCATTGCACACATACTCTAAAATAAAACTGTTAATAGATGCAGAGGGAAAAGGGAGATAATTTTAAGGAATCT
R
TATCATATCAGTCATTTTCTCAGAGTATAACACAGTAAAAATTGGAAATTGACAGTGAAAGGTTTCCATAAAAATTTTGATATTTGGGCATTAAAAATAC
Celera SNP ID:            hCV8951445
SNP Position Genomic:     181026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43047):
TAGAGACATTCAGGAATATGTGCAGCTCTCATAAGTTTCATCCTACTCACTGAATTCACTTCAGAGAAGATTTCTTTTAATTGTAGAATAATGTGATGGG
T
TTTTTTTTTTCATGTTCTATGAATGATTCTATGCTGTGGAACAGCCTTCAATGGAGAAATTCAGAAGAAGCAGGATGTGATGTTTTCACAATCCAAAAAT
Celera SNP ID:            hCV26499563
SNP Position Genomic:     31249
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43048):
CAAGGGAATCTGAGAGAGTAGCCATTTTTAGCACTCAATATAATTCAGATCAAGTGCACTAACTTCCTAAAGTTGTCACTTATGCTTCAGAAGATACTCA
Y
GACCAGCCAAATAATTAAGCTGTAAATAATGAGGCAGCCATTAAGCTTGGAATCGTGTGTTTCATACAGTGCAGATTTCCGTGTGTATGACACATGCTCA
Celera SNP ID:            hCV287781
SNP Position Genomic:     142157
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43049):
TATCCATTTTAGTGACCATATTTCCCCTCACATTTGTGAAATGCATTTTGCTGTTATTTTAGTTATTCTGAAAATGTGAATTCATTTACCTGCCTGTTCA
R
AGAACAGGCATGAGAGCTAAGGGAAATGATGATAAGCACAATAACAACAACAAATACAGGTGATATTCACTAATTTATTCATTCAATACTAACTACAGGG
Celera SNP ID:            hCV29144123
SNP Position Genomic:     81048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43050):
CTTATGTGTGAATATTTTATCTCTATTTGTTATTATCAAAATAAACACTATTCATAGAGTTCAATTTCATCAATAATTAATAATGTGACTAATGCATGAT
A
AAAAGAATAAGTTAAATTATGTTTTTTGCTTACAAATATCACATTAATTGAATAACTGGAGTAATATTATGCTGCTTTTATTAAATATGTAGTGACAAGT
Celera SNP ID:            hCV26499564
SNP Position Genomic:     40124
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43051):
TCTTAAATCATTGAAGATCCATTGAAAAATTATCAATTTATTATAGTAAATATGCTTCTTGGGAATAAAGGTTTCTTATTTCTAGACCGGCTAAAAAAAA
M
AAAAAAAGGAATTCATGCCAAAAATGAATTTTCAGTCAATATACTGGGAAAGGAGTCAAGAAACTCTGCCTTGTCCAGACATAAGTGCACAGTGAATCAG
Celera SNP ID:            hCV8951373
SNP Position Genomic:     51041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43052):
CAAGCTGTTTAATGTCACATTTGAAAAAATTATCTCTAATTCTTGAAGTCACTTTTAAGATTTTAAAAAGTCAAGCCATAAATTTGCTATCTTTAAATAG
S
AGTTTGGTTTAATTATCACTTAAGCACTTTTTTACTTTCTCATTTTAGGTCTTTAATTTGGGTATTAATTTTTCATCTATTTTATATTTCACAGGTTGTA
Celera SNP ID:            hCV29144124
SNP Position Genomic:     86123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43053):
AAACTTAGATGGGAGATAGGAAGGTATGGTTGTAAAAGCATTACATCTGTCATATGATCTATCACATATCATATAAGAAAATGCATTATATTTTGGAAAC
T
TTAATTTTATACACATATATATGAAATATGTTCATATGAAATACATTTCACTTTATTAAGCTATTCAATATCTCAATAAGCTATTCAATATTACAGGCAC
Celera SNP ID:            hCV26499565
SNP Position Genomic:     44760
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43054):
GGCTAAATTTTTGGCATTATTTCAGTCCTTGGAGACATCTGAGAGATTCCGGGATGCCAGTGGTGCCTCTCTGGCCACACTGACAACAAATAATTCACCT
R
AGGAATAGTTCACTTCAGCTATTTTTTGCTACTCATTGGTTGTCAGTGCCATTGAGGAGAGCTCAGTGTAGATCAAAGAAAACGGTGTAGATCAAAGAAA
Celera SNP ID:            hCV29144125
SNP Position Genomic:     86680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43055):
TGCACACATACTCTAAAATAAAACTGTTAATAGATGCAGAGGGAAAAGGGAGATAATTTTAAGGAATCTGTATCATATCAGTCATTTTCTCAGAGTATAA
Y
ACAGTAAAAATTGGAAATTGACAGTGAAAGGTTTCCATAAAAATTTTGATATTTGGGCATTAAAAATACCCTTTTAAATAATATACATATTTAAGAGGAA
Celera SNP ID:            hCV8951448
SNP Position Genomic:     181057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43056):
CCTTTGATGTGCAATAATGCTACCTGTGGTCTGTTTTAAGATGCTCTTTTTTGGCCAGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCC
R
AGGCGGGCAGATCATGAAGTCAAGAGATTGAGACCATCCTGGCCAACATGGTAAAACCCCGTCTCTACTAAAAATACAAAAATTAACTGGGCGTCATGGT
Celera SNP ID:            hCV26499566
SNP Position Genomic:     49029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43057):
GAATAGTTCACTTCAGCTATTTTTTGCTACTCATTGGTTGTCAGTGCCATTGAGGAGAGCTCAGTGTAGATCAAAGAAAACGGTGTAGATCAAAGAAAAC
R
GTGATTCGGTGATTGTTCCCCTTCTTCCCAGCCACCCACCATCTGAACCTAATGCATCATTGTACAATGGCCGTAAAGGATGACAAGGGACTCAGCAATC
Celera SNP ID:            hCV29144126
SNP Position Genomic:     86783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43058):
AAAGTTTTTAAAATTAAATAGAAAATTAAAATGATTAAATAAAGATTTAACAAAACCTAATGCAGGTTCTATCAAAAGACTATTAAAATAGACAAACCTG
K
GTCCAGATTGATGAAGGGAGGAAAGAATGTGAGTAAATAATATTGAGATTAAAAAAAGAGATATAATTTAGAAACATTTTTAAACACAAAAGCATACTTT
Celera SNP ID:            hCV8951449
SNP Position Genomic:     181310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43059):
TATAGTAGGTTCTATGTTAGTGCTGTTTGCTTTTTTCTATTGATCTGTCTATCAATTCATTTTTTTAGTAATTGATTAACCAAGCCTTTATTAATTCACA
C
TTCTTCTAAATGTTCTAGTCAATTTTTACTCTCCATTTATTATTCTATATAAATTTTCAAAAAAATTCTCCAGTTAGAAACATCCCAGTGAGATTTGACC
Celera SNP ID:            hCV26499567
SNP Position Genomic:     52850
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43060):
AATGTGTATATGGCTGTTTATCCTGTTATCTGTGAATACCATGTGACAACTAAAGAATAAAAATATCAAACTTTTAAAGAATTAAAGTTAGTTTTATTCC
R
AAGCCTGACTGAGGACTATAGACTGAGGCCTATAGCCGGGAGCACTGCTGCTGCACACTGTTGCAGCCACGGCTTTTACACAGGTTGTGGAGGTTCAGTA
Celera SNP ID:            hCV8556930
SNP Position Genomic:     69451
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43061):
CCAGGCTGGGGTACAGTGGCATGCTCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCCAGGGATTCTCCTGCCTCAGCCTCCCGATTAGCTGTAATTAC
S
GGCGTGCGCCAACACGCCTGGCTAATTTTTTTGTATTTTTAGTACAGATGGGGTTTCACTATGTTGGCCAGGCTCGTCTCAAACTCCTGACCTCAGGTGA
Celera SNP ID:            hCV29144127
SNP Position Genomic:     93165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43062):
TTTTTTTCACAAATAGTGTTCCCAACCTTTGAACCTTCATACTTTTCCTTATCTAATTGTGATGTTTCCTTTAACATATATTAAATTTGCATCTATAGTA
R
GTTCTATGTTAGTGCTGTTTGCTTTTTTCTATTGATCTGTCTATCAATTCATTTTTTTAGTAATTGATTAACCAAGCCTTTATTAATTCACACTTCTTCT
Celera SNP ID:            hCV8951377
SNP Position Genomic:     52757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43063):
ATAGTAGGTTCTATGTTAGTGCTGTTTGCTTTTTTCTATTGATCTGTCTATCAATTCATTTTTTTAGTAATTGATTAACCAAGCCTTTATTAATTCACAC
T
TCTTCTAAATGTTCTAGTCAATTTTTACTCTCCATTTATTATTCTATATAAATTTTCAAAAAAATTCTCCAGTTAGAAACATCCCAGTGAGATTTGACCT
Celera SNP ID:            hCV26499568
SNP Position Genomic:     52851
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43064):
TGAAGACATTCATTTGATGCACAAAGTCTATTTCACAAGCATTTAATTTCTAACATATGCCAGACTCAGAGTTTGGCAATGGCATGTAGATGAAATAGGC
M
AGTTAACAGACAAAATACAGTATGTTAAGTGCTTCAGTGGAGGTAAGCATGGGAAATTTATAGGAGTGTTACTAATTCAGGTAAGTCAATGAGTGGATGA
Celera SNP ID:            hCV27512277
SNP Position Genomic:     94755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43065):
TAGTAGGTTCTATGTTAGTGCTGTTTGCTTTTTTCTATTGATCTGTCTATCAATTCATTTTTTTAGTAATTGATTAACCAAGCCTTTATTAATTCACACT
T
CTTCTAAATGTTCTAGTCAATTTTTACTCTCCATTTATTATTCTATATAAATTTTCAAAAAAATTCTCCAGTTAGAAACATCCCAGTGAGATTTGACCTA
Celera SNP ID:            hCV26499569
SNP Position Genomic:     52852
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43066):
TCACACTTCTTCTAAATGTTCTAGTCAATTTTTACTCTCCATTTATTATTCTATATAAATTTTCAAAAAAATTCTCCAGTTAGAAACATCCCAGTGAGAT
Y
TGACCTATTCATTAATATGGAAAAAAAAATCACAACTTCCCCAAATTCACTGTTTCCATTGAAGAATGTAGTAGATCTCTTCATTTATTCACATTTTCTT
Celera SNP ID:            hCV8951378
SNP Position Genomic:     52945
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43067):
ATGTAGATGAAATAGGCAAGTTAACAGACAAAATACAGTATGTTAAGTGCTTCAGTGGAGGTAAGCATGGGAAATTTATAGGAGTGTTACTAATTCAGGT
R
AGTCAATGAGTGGATGAAAGCATGGATAAATATGTAAATGAATAACTTAGGTTAATTCTCTGGAGCTCCTATTTAGTATTCTGCTGTCCTCTTTATGTGT
Celera SNP ID:            hCV29144128
SNP Position Genomic:     94838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43068):
AAGGTTGACAGGAAAAAAATGTGGTACTTCATCCACAGATTTTATTTTATACCTGAAGCTCAAGTAAAGCTAGTTTAATAGAAGCTATCCTCATGCATAT
Y
GTTTAAGCTCAAGAAATAAATCTTCTGACATTGTCAACTTTTAATTTTAGCACCCAAAAAGTAGAGAATGCTTTAAGTGAACTGTTATGATGCTGTAAAA
Celera SNP ID:            hCV8951379
SNP Position Genomic:     53747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43069):
GAATAAGAAGTAATTTCATACTATATAAACAGAGTGCCAATGTATGAATGAATAATGTTCTACAAGTACATTTGTAAACTAGCTATTTGTAGCTTTCTCT
R
CAGAAACAGTTCTGCCATCCGCAATCAGGTTCCAAACCTATCCTGCAAAGATTTATTTTACCCACAATGTAGCTGAAATGAAGTATTAATGTTAGTACAG
Celera SNP ID:            hCV8556860
SNP Position Genomic:     60219
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43070):
TTAGATTATTGAGCTAATAGAGCCACATTACTTGGGTTCACCACTGGCTCTTGAAATGACAGTGGGGAACCTTTGAGCAACCTACTTAGCCTTTCTGTGA
Y
TCAATTTCCTCATCTGTAAAATAAGGTTTATACAGTATCTACTTACCAAGGTTGTGCGAAGATCAAATGGATAATATATGTAAAGTAACTAGTATAGTTC
Celera SNP ID:            hCV29144129
SNP Position Genomic:     104560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43071):
TCTCTTGGGCATGGTGGCGGCGATGGTGGTGGGATGTAGGTGCTGGGTGTGGGATGCAGCTGGGCACGGAATGCAGCGTTGCACGAGCTTTGGTCTGTCC
W
GGGGTCATTCTCACCACTGCTTCTTCCAATACACACTTTTAAATGGTGCTTCTATGGTCTCCCACATCAGGAGAGCCCTCAGTGCTTTCCCTCAGCCTAA
Celera SNP ID:            hCV254500
SNP Position Genomic:     90393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,5)      total(A,5|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43072):
GTTTTCTTACATGTCTAGAGAAAGTCTAAATTGGTAGACTTTCTGGGAAGCAGTTTGCTTGTTTTTATTAAGAATTTTAAATGATTTACACTAAATACCC
W
ACATTTAAATTTAAAGCCATTTAGTCTAAAAATTTAAAAATTGCAAAAATTTATTTAAAATATAATATTGAACCAAAAGGCAATGATTATTTAAATACAT
Celera SNP ID:            hCV504620
SNP Position Genomic:     106158
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:43073):
CGTGACTGGTACCATGATACACTCAGGTATGTCCCCGTCGGGATTTTAGAAGTCATCCTTTGCCATTCTCCCTTCCTCACTCCCAAATAAGAATCCTCTG
R
AACATTCCTAACCTTCAAAATGACATCTTTTGTTGTTGTTGTTGTTGTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAAT
Celera SNP ID:            hCV254501
SNP Position Genomic:     91774
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43074):
GACACCAAACAAACAGAGCAGGTGGACTGGCTGTCTTCTGCCCTTGAAGTCATACACTAGTCAATATCTTCAGCTTAGTTTGCATTTGTGGCAATAAGAT
V
TAAGTATATTGTGCAGACCTACAAAGTTTGGCTTCCAAAATGGCGACTTCATATTTTGTAAATTTATCAAATAAATGATTTTTCTTAATGTACCTTAAGT
Celera SNP ID:            hCV504621
SNP Position Genomic:     105349
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43075):
TCTTAGGGGAGAGTGGTTATTAGATTATTGAGCTAATAGAGCCACATTACTTGGGTTCACCACTGGCTCTTGAAATGACAGTGGGGAACCTTTGAGCAAC
S
TACTTAGCCTTTCTGTGACTCAATTTCCTCATCTGTAAAATAAGGTTTATACAGTATCTACTTACCAAGGTTGTGCGAAGATCAAATGGATAATATATGT
Celera SNP ID:            hCV504623
SNP Position Genomic:     104541
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,5)      total(G,4|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43076):
AAACTCTACCAGTTTTTGGATAGAAATTCTATAATCTGTATACAAGTTTATATATAAGAATAGACCCATATTTATTGGTGTGTGTGTGTGTGTGTGTGTG
Y
ACACACACAAACACATCTGTGTATATTGTATCAAAAATATTTTTTTCCACTCTTTGGCTTTCCTTTTAACTCTCTTAATGACTATTGATGAATAGATCTT
Celera SNP ID:            hCV11611372
SNP Position Genomic:     114779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43077):
ATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCACCTCAGTCTCCCAAAGTGCTGGGATTACAGGCATCAGCCACCATGCCCAGTCTT
S
TTTGTTGTTTTAAAACACTCTCTATGTAATTGTGTAAGCAGGAAACCCAAGGATCATCCCTGGCTTGCTCCGTATTTCTTATCTCCTACATCTCACAATC
Celera SNP ID:            hCV11611375
SNP Position Genomic:     107775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43078):
GGATATCGACATTCATTTACAGCTTATACTATGGATTTTTTCTTTATTCAATATTTTTAAAGAAAAGCACATTTATCAAATTTGCTTTGTCAAAGTAGTC
R
AAGTCAATTCATTAAGCAACATATCACTTCTGAGAGTTTAGCTTACTCACAATATTACCTATTTAGAACAAAGATGAAGTTCAAGAAAAATTCTATCAAC
Celera SNP ID:            hCV11611376
SNP Position Genomic:     107257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43079):
CTAAGTACTATTGTTGACAGCTGAAGTGATACCTCAGTTCTTCTTGGTTTAAAATAGTTTAAACAAGAGCTACACAGCAAAGGAGGTGTAGCATAGAGTA
R
TTTATTACAATGGATAAAGATATTTTGAAAGTTAGGTGCAGAATAAACAGTATACCCTGAGAGAGAAAGAAGTCAGGACAGGCTGCTTGTAAGGGTGAGA
Celera SNP ID:            hCV11611379
SNP Position Genomic:     96199
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43080):
CGTGCTACTGACTCATAACTAGTATCATTGTCATGTGTATATATGGACAGCCAAGATATCACAGTGAGTATGGTATACTATTCAAGTTTTTCATGATTAA
R
GTGTTCTTAAATAATTGTTGAATAGAATTATGGATGCACTTCAAATCTCATTTGCTAGCATTGTAATATATTTAATACAAACTTAAAAAAACCAAAACAA
Celera SNP ID:            hCV16160498
SNP Position Genomic:     124313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43081):
ACTGTATATGGAAGACTTATGATGTGATATAATAGTATTGGAAAACGGAGGAATCTAGCAGAGGAATGATGCATTTGAGGAAATCTGTTATGTGGTAGAG
W
TAACATTACGTATCAGTGAAGAAACAGCAGATTAATCTATAAATAACATTGGGAAAATTTTCATGTCAAAAAAAGTAACATTGTATCTCTACCACTCCTC
Celera SNP ID:            hCV8951450
SNP Position Genomic:     182966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43082):
TCAACCAAAACAATGAAACAGTGCTGTGGTTTAGCAGAGGTCCTACCATGAATAGAAGGATACCAGGTTGCCACTGTGTCTCAGACTGCATCTCTGTGTC
R
TTGACCCTTTTACCAAAGGTAGGAAACAGAGCTGTAGTCATGCCCCATATCTATAATAAGTATGTGGATAATAAGCATCGAGTACAGCCCTGATGGTAGT
Celera SNP ID:            hCV8336896
SNP Position Genomic:     88116
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43083):
TCAAAGAAGATATCTTAATGACTAATGAGCACCAAAATTCACAATTTCACAGAAATTAAGACGATGCAAATCAAAACCATGATATACTATTTTTCATTTA
Y
CCGACTGTCAAAAATAAAACACTGAATAACTGAATACTCCTAATGCTCTATGGAAACCGTCACACATGTGCACATTAAGAGACATACAGGAGATGCTCAT
Celera SNP ID:            hCV8951451
SNP Position Genomic:     183829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43084):
AAATTCAGTAGGTGCAATTAGACAGAATCAGGCAAATATAAAGGTCATAACATTAGTCACAGTGTCACCTTATTTCTGAGCCTTTTCTTTCTTCTGAAGT
R
GTGTCTTGTCAGTGGGGTGATAGAGCAACAAGAACTCTCTGTTGTTATGGGAGTTTGTTAAATTTTATCTGCGATTTTTCCAATTTTAATTAAATACTTG
Celera SNP ID:            hCV8336897
SNP Position Genomic:     88764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43085):
GGTTGCACATCTATAGTGGAAGCCGTGAGGAAGATTATCTCAATGCTAAAAGAATTACTAGAGATTTCTTTGCTTCTTGTAACTCCCCTGGTGTAAAACA
Y
AGAAGCTCCAGGAAGTTCACTAAAACAAGGTTAAATTCAAGGAATTGTTGGAAAACATTTCATATATATTTTTAGTCAGTATCTTATCTTGATTGGTGTG
Celera SNP ID:            hCV8951452
SNP Position Genomic:     184239
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,32)   caucasian(C,15|T,9)   total(C,21|T,41)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(C,12|T,71)   TSC_42_C(C,33|T,50)   TSC_42_AA(T,36|C,47)   total(C,92|T,157)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43086):
TTTCTTTAGGGTAAGACCACAATCAGAAGCATTTTTAGAATTCAAAATATTTATAATGATTTTTTTTAGTAGAAAATCAGCACCCTGATTTTAACTTGGT
G
GGGGGGTGGTAAAAATTTTGAGAAAAATTGGTTTCCTTGATAGGGAGTTATCAAGGAAAACAAAACTTTGATTTCCTTTACATAAGTGTAAACAGAAATG
Celera SNP ID:            hCV26499570
SNP Position Genomic:     56688
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,6)   total(G,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43087):
ATGTAAGTTACCTGGTTTTTGTTTGCTTTATTTGTTTTCACCTAGCTATAAAAAAAGTGTTTTTGGAACTTACTATTTTTTAATGCACATATTTAAAATG
R
AATTCATTAATCTTCACATTTTTATTGAATAGTTATCCAAATGTTTTATTCTTTTTTTAGAATGTGATTCTTTTTTAACAGGTTGGGACAGAAGAAAATT
Celera SNP ID:            hCV29144130
SNP Position Genomic:     109688
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43088):
AGGTAAGAACTTACAAATGGTTGTATATTATTTTCCTCCATTACTTTTAGACTTTATGTGAAGGTGGGGTAGGCTGAGTATTTTTAAATTTAAAAAAAAA
W
TTTAAATTAGAAGCTATACTAAATTATGTTTAAAGTTACATTTAATTAAATGGATATCATAACTTTGCCAACAATAACACTATAGAGTAGATACATATGA
Celera SNP ID:            hCV25758778
SNP Position Genomic:     129708
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,31)   caucasian(T,40)   total(A,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:43089):
ATTAATTTTAATTCTCATGTTTTAATGTAATCCCTTACCTTGTAAGTAAAATGGGAAAAATACTACCTACCTAAACTCTCCTAAGTAAAATGGGAAAAAT
R
CTACCTACCGAAACTTACTATTCTCTACCAATGTAGAAAGTTGATGAGTGATAGTGATGTAGTAAGTTGATAAATGAAGTGCTTTGAAAACACACAGGAC
Celera SNP ID:            hCV8951453
SNP Position Genomic:     188489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43090):
GCGGATCACGAGGTCTGGAGTTCGAGACCAGCCTGACCAACATAGTGAAACCCCGTCTCTACTAAAAATTCAAAAAAATTAGCCAGGCGTGGTGGCATGC
K
CCTGTAATCGCAGTTACTCAGGAGGCTGAGGCAGAAGAATCGCTTGAACCGGAGAGGTGGAGGTTGCAGTGAGCTGAGATCATGCCATTGCACTCCAGCC
Celera SNP ID:            hCV26499571
SNP Position Genomic:     59166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43091):
ATGCTAATTTCTATCTCTGATTACTCCCTGATCACTTTAGTAGCATCCATTTAGATCTGCCATCTCTCATGCCTTCTCATTATTCCTAGTTAGTAAGAAA
S
CCTATTACAAGAGTAATAATCATTATATACCTATTATCTTGTCACACCCATTATCCTGATCACTGATCATGTTTAATATCTTGCTCAGCACTGGGAAATT
Celera SNP ID:            hCV8951454
SNP Position Genomic:     189189
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43092):
GCTGAGGCAGAAGAATCGCTTGAACCGGAGAGGTGGAGGTTGCAGTGAGCTGAGATCATGCCATTGCACTCCAGCCTGGGCTACAGAGCAAGATTCTGTC
A
AAAAAAAAAAAAAAAGGATTACAATTACAATATTCTTAAAGTAAATTCTATAATAAAGGGAAATCAAGGGCCTATGGTCAAGAACAACCCTTTCTAAAGT
Celera SNP ID:            hCV26499572
SNP Position Genomic:     59291
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43093):
ACTTCAGCTACCGAGAGTGATAAGGTGCCCTTGCATGCTTCTCTGCCAGTGGCTGGGGGTGATTTGCTATTAGAGCCCAGCCTTGCTCAGTATTCTGATG
W
GCTGTCCACTACTCATGCTGCTTCAGAGACGCTGGAATTTGGTAGTGAATCTGGTGTTCTTTATAAAACGCTTATGTTTTCTCAAGTTGAACCACCCAGC
Celera SNP ID:            hCV29144131
SNP Position Genomic:     144669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:43094):
ACTACTGCTGCTCACTCATGCCTGCCATTGGGTTTTATTACCTTACTGTAATTCCTGATTTTCCTCAATGATTCCACTCCTGGTAAACTGTCACTAACTA
M
CATTACTTTGTGTTTTCTTGTTATAGGATGATTATGTACTTGAAGTGAGGCACTTTCAGTGTCCTAAATGGCCAAATCCAGATAGCCCCATTAGTAAAAC
Celera SNP ID:            hCV8951455
SNP Position Genomic:     191768
SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,25)   caucasian(A,21|C,19)   total(A,34|C,44)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,502|A,997)   total(A,997|C,502)no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43095):
CTGAGGCAGAAGAATCGCTTGAACCGGAGAGGTGGAGGTTGCAGTGAGCTGAGATCATGCCATTGCACTCCAGCCTGGGCTACAGAGCAAGATTCTGTCA
A
AAAAAAAAAAAAAAGGATTACAATTACAATATTCTTAAAGTAAATTCTATAATAAAGGGAAATCAAGGGCCTATGGTCAAGAACAACCCTTTCTAAAGTT
Celera SNP ID:            hCV26499573
SNP Position Genomic:     59292
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43096):
AGCTACCGAGAGTGATAAGGTGCCCTTGCATGCTTCTCTGCCAGTGGCTGGGGGTGATTTGCTATTAGAGCCCAGCCTTGCTCAGTATTCTGATGTGCTG
W
CCACTACTCATGCTGCTTCAGAGACGCTGGAATTTGGTAGTGAATCTGGTGTTCTTTATAAAACGCTTATGTTTTCTCAAGTTGAACCACCCAGCAGTGA
Celera SNP ID:            hCV29144132
SNP Position Genomic:     144674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:43097):
GGAACAATGTTTTTGTTGTTAAACAAATATTTACCTCAACATATAATACCATGGGATAAAAATGCTTGAGCTACAACCCCTGTCCCTAGGAGTTAAAATT
M
TGTTTTAGAATTATTATGCCAGGCTTGTATCACAGAAGCCAAAGCACACAGATTGTGAGAAATTTGGCAAAATATATTTAAGTTGTTTTTAAACATTTTG
Celera SNP ID:            hCV29144133
SNP Position Genomic:     174346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43098):
AAGCTTCTATAAGCAATGACAGATGAATTGACAGATAGATGTGTTTTTATTTTTATTACTTCTGTGCTATAGAATTATTGATATGCAATTACCGAGTAGG
A
AAAAAAAAAAAAAACTTTCAAGCCAGGTGTGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTAGATCACAAGGTCAGGAGTTCGA
Celera SNP ID:            hCV26499574
SNP Position Genomic:     62494
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,7)   total(A,4|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43099):
TTGCCATGTATAATTTTGTAGACTCTGTACTCGTGGGCAAATTTAATTTTACTTGGAAAGTTTGTCTTAGCAAATCAAGGTTTTGGGTTAGATCATTTGG
R
TCATAAACTCAGCTTTCTTATCAAATGGAGAAAGACAACAAAAATAGAACATCTGAAGATACAAAGTATTTAATAACCAGGTGATGTGTTCATAGGTGTT
Celera SNP ID:            hCV8951383
SNP Position Genomic:     55141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43100):
GAATCCATCCACCTCTCTGGACAGTAATGGTGCAGCATTGCCTGATGGAAATATAGCTGAGAGCTTAGAGTCTTTAGTTTAACACAGAAAGGGGTGGGGG
R
ACTCACATCTGAGCATTGTTTTCCTCTTCCTAAAATTAGGCAGGAAAATCAGTCTAGTTCTGTTATCTGTTGATTTCCCATCACCTGACAGTAACTTTCA
Celera SNP ID:            hCV8951456
SNP Position Genomic:     194234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:43101):
AAGATAAAGGTGCTGTCTCTCTTGTTGATTACTTTTCAAAGAGGTAGTTCCCAGGTCCTTGAGAGGTACATTTCTGGATTATAAAGTTACCAAGTGGCTA
Y
TAAAAAGATTTACGCCTCACAGGAGTAGAGAAAGAATTACAAGCCGGGCACAGTGGCTCACGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGCGGGCGG
Celera SNP ID:            hCV8951384
SNP Position Genomic:     58969
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43102):
AAAATAAAAAATAAATAAATAAATAAATAAATAAATAGATTTGTGATGCACACTGCCTAAATGCTTCCTAGATGGGTTACACTCATCTGTCATATAAATG
R
CTACCCCACTGTATACTACCCAAGATTGATGATTGTCATATTGAAAATCTTTATGAATTCAACAGATTTTTAAAAATCATGTTTTGTTACTTTAATTTGC
Celera SNP ID:            hCV26499575
SNP Position Genomic:     62909
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43103):
TTGAAGGATAGGCAGAGAGGACATTCCTTTGCCTTGCCAACTCTTCCTGCCTCCTAACCTATTGTGTATTGCCAACAATACATAATAAATGAAGAGGTAA
K
GAATGAGAAGAGGTTCTTTCTTCTGTGACCACTTCCTTTCCTCTGTCTGACTTCCTTCCAGGTTTTGTAAGCAATCTTGTGTGGGTCTTCCCCCATTCTG
Celera SNP ID:            hCV29144134
SNP Position Genomic:     177210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43104):
TAACAACTTCATTTCATTTAAGGGTTTCAGAAAATAAATGTCACTCTTCCTAGTAACCTTAAGTTTTCTATGACAATTCCTAAACAAAGACAGTTCAGTG
A
AAAAAAAAAAAAAAGATAAAGTGAAGTCATTTTATTTTTTTTAATCTCATGAACACATAGCCCAAGATTATCCTAGGAGATGTTAAAAATCTTCTTTTCG
Celera SNP ID:            hCV26499576
SNP Position Genomic:     66139
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43105):
GACAACTAAAGAATAAAAATATCAAACTTTTAAAGAATTAAAGTTAGTTTTATTCCGAAGCCTGACTGAGGACTATAGACTGAGGCCTATAGCCGGGAGC
R
CTGCTGCTGCACACTGTTGCAGCCACGGCTTTTACACAGGTTGTGGAGGTTCAGTATGTGCAAAATCACATCAGATTCACTCAAAAGTTACGTTAAAGTA
Celera SNP ID:            hCV8556940
SNP Position Genomic:     69495
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43106):
AACGTGATACATAGAGATGTTATCACAGAATAAAAGTCAGCCTGGTTTAGTTTTGTTAACAGCTAACTTTCTAGTTTCAGAAGTGAAACTAGAAGGAGGT
W
ATTTTCCTCTAACCAATCAATTTTCAAACAGAGAACTCAGATATTTACCAAGTATGTATGAGTAAAATGAAAAACAAACTTTAATGCACCCTCCACTCTC
Celera SNP ID:            hCV8951386
SNP Position Genomic:     64338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43107):
TCTGTCTGAGCTGGAACTGTCTGGGCTTTGTGTAGGACGCATTGTGCTTCTTCCCCTTGCTGGGCCTCCTTTACTTCAATCTCTGTGGTTTTTGTTTGTT
Y
GTTTGTTCGTTTGTTTTTGTTTTTGTTTTTTGGGGTTTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGAGAAGGAGTGTCTCACTCAGTCG
Celera SNP ID:            hCV26499577
SNP Position Genomic:     68489
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43108):
AGGCCTATAGCCGGGAGCACTGCTGCTGCACACTGTTGCAGCCACGGCTTTTACACAGGTTGTGGAGGTTCAGTATGTGCAAAATCACATCAGATTCACT
Y
AAAAGTTACGTTAAAGTAGAAACACATCGAGGTTTGGGTGTGAGAGTCTATCTAACTACAGATGACTAAAGTACATTGGTTATAGATTACAGAAGCATAA
Celera SNP ID:            hCV8556941
SNP Position Genomic:     69577
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43109):
TCTCAGCTCCAAGCAAGGGTGGATGTATGTTGACTAATGGAGTGATGGTGGTGTGTGTTTCCCAGCAGCCCAGGGACCCTATGCATCTTGGGTGTGCCTC
M
TAAGGTCAGGAGAAGACAACAGTTTTACCAGGGTTTCAGCAGATATGATAGCAACAGCACATACCATTGTGCAATATCTTATTATCTTAGGAGGCAACCA
Celera SNP ID:            hCV8951387
SNP Position Genomic:     64598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43110):
TTTGTGTAGGACGCATTGTGCTTCTTCCCCTTGCTGGGCCTCCTTTACTTCAATCTCTGTGGTTTTTGTTTGTTCGTTTGTTCGTTTGTTTTTGTTTTTG
Y
TTTTTGGGGTTTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGAGAAGGAGTGTCTCACTCAGTCGCCCAGGCTGGAGTGCAGTGGCGCAAT
Celera SNP ID:            hCV26499578
SNP Position Genomic:     68515
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43111):
GCCCATCCGATAATCTCACAAGAGGATTTAGAAGTGGTTGATTTGCTTGAATGGATATTATAGACAGATATTTCCTATCATCTGTAGATTTTTTTTAAAG
Y
TTAGCTAAGATTTATATTCTGGTCAAACTTTTTCTATGCTAGATAATGGTGACTAAAGCAAGCCTCGTTGTGGAGGCTGAACAGGGTTCAGTTAAGTGAT
Celera SNP ID:            hCV8951388
SNP Position Genomic:     67782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43112):
TTTTGTTTTTTGGGGTTTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGAGAAGGAGTGTCTCACTCAGTCGCCCAGGCTGGAGTGCAGTGG
Y
GCAATCTCGGCTTGCTGCTGCAATCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACA
Celera SNP ID:            hCV26499579
SNP Position Genomic:     68610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43113):
ACATTTGTAAACTAGCTATTTGTAGCTTTCTCTACAGAAACAGTTCTGCCATCCGCAATCAGGTTCCAAACCTATCCTGCAAAGATTTATTTTACCCACA
R
TGTAGCTGAAATGAAGTATTAATGTTAGTACAGTCAGGGATTAAGGGACAATCATACAGGAAGGAGGAGAATGAATCTGAACACTCCCATTTATTGGAAG
Celera SNP ID:            hCV8556870
SNP Position Genomic:     60286
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;TSC_42_A(A,-|G,-)   TSC_42_C(A,-|G,-)   TSC_42_AA(A,-|G,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43114):
TGTCTCTGTGTGCCACCTTATCATCCTTCTTTCGTTCACAGCAAACTGTTTTTAAAAAGTGCTTTAATTCTACTGGTTCCCTCTAATTCACTCTGTAGTC
Y
GAATTGCAAGTCTATCATTTCACGGAAATTGATTTATTCTATGAATGTGGGGTTTGGAGTTGGGAAATAACCAAATCCAAACTCATTCTTCACTCATGAC
Celera SNP ID:            hCV8335666
SNP Position Genomic:     91174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43115):
TTGAATCCAAGTCACTCACCACTGATAGCTTTATACTGTTTAAATGACTTTTTAATTTTGGTGTTTGGGTATGTTTGTTAGCATGTAGAAAGCAAGCCCA
R
GGTAATTTATAAAGCTATGACTTACAGTGTATGGAGCACTAAGTAGAGTTTATTCAAGGCAACTGGTGCTAGATGCTATGAAGATTACTGTAGTCTTCAC
Celera SNP ID:            hCV27486
SNP Position Genomic:     92871
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,10)      total(G,10|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43116):
CTTGCATCTAAAAAGTGTCTTCTTAAGTATATCATCTTTCCATTTTGCTGGAATTCTAAATTTTATGCTACTTATCATTGAAAAAATACTGAATTACTTC
R
TTTTTGTATTTTATTAAACTAAAATTTGAATCCAAGTCACTCACCACTGATAGCTTTATACTGTTTAAATGACTTTTTAATTTTGGTGTTTGGGTATGTT
Celera SNP ID:            hCV27488
SNP Position Genomic:     92745
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43117):
TCAATAGCTGTATTGTCAGCATTTTATCATGGATTGAATGCTTTAAAATTTTTGAGCAGCATAAAAGATTTGTAGAGGAAAACCTATTTTCCTTAGAAAC
R
AGAGACAGTGTTTTTTGATGCTTCAAAGTCTTAAAAAATGTAGGAATATTAGAGTTATGCCTTGCCCTGCTTGGTGGGTTTTGAGTGACATTCTGAGACC
Celera SNP ID:            hCV27485485
SNP Position Genomic:     21126
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,485|G,1012)   total(G,1012|A,485) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43118):
GCGTTTACCCCTCATCTTCAGTGTTCTTAGAGCCAATGAGGTAGCCTGACATATGTATTAAGTGCTCAGTAAGGGTCTGTCAACTGACTAAAACTTGCTG
Y
ACAGGAGAAGAGCTCAATACAATTTGAACATTAGGCTGTCATTCTTACCATTATCCAGGAACAAGTTGTAGAGTTCACTAAGATATTGATTATTGGCAAT
Celera SNP ID:            hCV27485486
SNP Position Genomic:     8968
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43119):
ATAGCTTAAAAAAAAAGTAAAACAAAATTCTGCATTTTTATAAAACTTGATAAAAATATTTCAAACTGTACGGTCACCAGTGCACAGTTATCAAAAATGC
R
CACACTTCGCTTGGCATTTCCAGCACCTTCAGCTTTCTGTGCCTGGTCTCCATTTCTGCAGGGTTATTCCCCTCCTTGCCAGTATCATCTTTTCCCTTTT
Celera SNP ID:            hCV11611384
SNP Position Genomic:     90039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43120):
ATGCATATGATTTTTGGCCACTCTGGAGAATTTTGAACGTAGATGGCAATGCTGTCTGAAAAATGGATCCCTGTGAAAGAAGCATAAAGCGTGAAATCAC
R
TTTAATTAGCCAAGAGTGGCTAGTGTATGTTGCCATTAAATCCTTTAAATTACAGCACATCTGGGCACCGTCCATCCCACAAGAATGTATCCAATGATGC
Celera SNP ID:            hCV10311
SNP Position Genomic:     18443
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,14)      total(G,1|A,14) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:43121):
CGTGATCCACCCACCTTGGCTTCTTTACAGGCGTGAGCCACCACGCCCGGCCTGTAAATAATTTTCAATGTTTTACATGCACAATCATGTTATTTGCACA
Y
TGTGATGGTATTATTTTTTCCTATACAATCTTAAGATTTTCGTTTCTTTTTTCTTTATTGCACTGGCTCAGTCTTCCAATTCAATGTTAAATAGAAGTGG
Celera SNP ID:            hCV225304
SNP Position Genomic:     116096
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43122):
CCCCTGGGGCCTTCCCCACCCAGAGTGTTCCTCTTTCTCAAATGCCTACATGCTTTGTCCTGGAAACAACAGAGCCCCAGCAACTCCATAGTGGGGCTCC
Y
TCTGAAAGAGGCAGAAATGAGAAGAGGAAGATGCTGGGGGTTCAGCAGCCGAGGTGCATGTGGTGCAGGCATTCAGTCCAATTAAACAGGCACCCAGAGT
Celera SNP ID:            hCV26499580
SNP Position Genomic:     70521
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4|-,6)   total(C,4|-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43123):
ACCATAAGTAGTGTAGAATGTATTTATGTATTTATTTATTTTTTTGAGATGGAGTCTCTATCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACT
R
CAAGCTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCCGCCACCATGCCCGGCTAATTTTTTTTTGT
Celera SNP ID:            hCV26499581
SNP Position Genomic:     76396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43124):
AGCTGTTTGGAGTTAAACAACTCATGTAATTGTCACTTTTCAAGTCAATAATGTAAACCCCACAGGACAAATTATTTTAGTGCCATACTTACAGATTACA
T
TTTTTTTTTTAAAGACAGTCTTGTCTTGCTCTGTCTCCCAGGCTGGAGTGCAGTGGGGTGATCTCAGCTCACTGCAACCTCTGCCTTTCAGGTTCAAGCA
Celera SNP ID:            hCV26499582
SNP Position Genomic:     77630
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43125):
CACCATGTCCAGCTAATTTTTATATTTTTAGTAGAGACGGGGTTTCAACATGTTGGCCAGGCTGGTTTCTCACTCCTGACCTCAGGTAATCCACCTGATT
Y
GGCCTCCTTTAGCGCTGGAATTACAGCGCAAGCCACCATACCCGGCCCAGATTACATTTTTTGTCATTGGGCTCCATTTTTCTTGAAATTTAGTCTGTAA
Celera SNP ID:            hCV26499583
SNP Position Genomic:     77878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43126):
TTTGCATTGTCACACAAAATTCACTTAAATGTGTTACACTTTTAGGCAAAATGCCATTATAATAATTTTATGTTGACCTGTGTTGCCCTCCAATTTCATG
Y
ATCAGTAAGGGCCTAGTGGAAGGCTTATTTAGTTTCAATTTCCTTTGTTTTCTGTATGGTAATTCTGACTCTTTAAACCAAGAATTTTCAAGGAGCAAAA
Celera SNP ID:            hCV8951392
SNP Position Genomic:     69072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43127):
GAAAAACCTGTTATTGAGAGTGTCCTATAGTGAATTCAAGCAATAATGGGTAATTGAACTGTATTAGCCCATTTTCATGCTGCTGATAAAGACATACCCG
M
GACTAAGCAATTTACAAACGAAAGAGGTTTAATTGGACTTACAGTTCCACATGGCTGGGGAAGCCTCACAATTATGGCGGAAGGCAAGGATGACCAAGTC
Celera SNP ID:            hCV26499584
SNP Position Genomic:     83000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43128):
TTTAATGACTGAGGCACAGAATCACAAAAATTATTTTGAAATATAGTGAGACACATTTTGACTTAGGGATTTTATTTCCTTTATCCCTTAGGAGGAATGT
R
TATATGGCTGTTTATCCTGTTATCTGTGAATACCATGTGACAACTAAAGAATAAAAATATCAAACTTTTAAAGAATTAAAGTTAGTTTTATTCCGAAGCC
Celera SNP ID:            hCV8951393
SNP Position Genomic:     69356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43129):
CTTAAATATACTGTTACTGAATAGACTGTTAGAGAATCTTCCCCTGGGCTGAAAAAGTAGACACAAGTTTAGATACCTTTAAATCCATGCGAGTGTATTT
W
TTTATTTATTTTATTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGACGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGT
Celera SNP ID:            hCV26499585
SNP Position Genomic:     84939
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,9)   total(A,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43130):
ATTATACAAATAATTGAAGTTGTTTCAGAAGCTACTTTATAAGTGATAGGTACGTTTATTTCTGTTAAATTATGCTCTCTAACACAATTTTTTTATTCAC
R
TAGATGATGTCGGAGCAATTCCAATAAAGCACTTTCCAAAGCATGTTGCAGATTTACATGCAAGTAGTGGGTTTACTGAAGAATTTGAGGTATGATTTTA
Celera SNP ID:            hCV25620919
SNP Position Genomic:     164467
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43131):
TACTGTTACTGAATAGACTGTTAGAGAATCTTCCCCTGGGCTGAAAAAGTAGACACAAGTTTAGATACCTTTAAATCCATGCGAGTGTATTTTTTTATTT
A
TTTTATTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGACGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCA
Celera SNP ID:            hCV26499586
SNP Position Genomic:     84947
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,8)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43132):
GCTACACTTCTTTATCCTCCTTCAGGGATATGACTGAGGAAGTCTAGACTTATAATAGGTTAAATGAGAAAGTGTTGAACAACCCGATCGTGTGCACAGG
R
CTAGTAAATGGTTGATTGACATGAGACTCAGATCTATGTCTGAATTCCAAGTCCTTAACTCCTACTATCTAATCATTTTTTAGAAAAAATTTTTCGAAGG
Celera SNP ID:            hCV328656
SNP Position Genomic:     26980
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43133):
TTACTGAATAGACTGTTAGAGAATCTTCCCCTGGGCTGAAAAAGTAGACACAAGTTTAGATACCTTTAAATCCATGCGAGTGTATTTTTTTATTTATTTT
W
TTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGACGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTC
Celera SNP ID:            hCV26499587
SNP Position Genomic:     84952
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,7)   total(A,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43134):
GCACTTAAAGGATCACACAACTTGATTTTCTTCTCTGCTGTGACACAATAGCCTCACTTTGCATTCGTTTCACAATCTGGGATCATTATCCAAGCTCAGT
R
AGAATCAATTTCTCATAGATGATTGCCTGAATCACTGCCAGCTCAGCCACATTTTTTACATCATTTACCAGGAAGTATAGTTTTTAAAAAGTCAGAACAA
Celera SNP ID:            hCV8951396
SNP Position Genomic:     75032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43135):
CACAGCAGATGCTGTGGCCTCTGTAATGAGACAGCACCATCCTGTGGTGACCAGTTAGGTAAGGAACCTCCCAAGGAATAACCACATTATCTGGCCACCC
R
CCTAGAATGAATGGAGACAGGTGGAGAGAGGCTGTGGAAAGCAAAATGAGAATATACAACACACTGAGGAAGGAGTCACCTGAGAAAGCAGAGTAGAATT
Celera SNP ID:            hCV8951397
SNP Position Genomic:     140041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43136):
CGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCATGCCTGGCTAAT
Y
TTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCGAGCATGGTCTGTATCTCCTGACCTCGTGATTGGCCGGCCTCGGCCTCCCAAAGTGCTGG
Celera SNP ID:            hCV26499588
SNP Position Genomic:     85111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43137):
GCAAAACTCTGCATCACATTATAAAACAAATATTTATGAGAACTTCTAAGGAAAGAAGAGATAATTGGCACCAACCAATTTTCCCTAAAAGCAAGTCAAG
R
CAAATTATTCTCATTTCCTTTTGCATTAAGTTTTTAGGTTTGTAGATTATAGGAATATTTTATTTAGGAAATTATTTGGGAAAATCTCTCAGGTGGTCCT
Celera SNP ID:            hCV8951398
SNP Position Genomic:     141888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43138):
AATGACTTTCTTAAATATCATAATGCTAAAAGGAATTTGTGCTAGAATTTTCCTAAATAAATTGATAACTACCTTCTCTGACCTGTAACCCCCTGCCAAT
W
GCATATATCAGCCAGACTTGAAAAGATTTTTTGCTGTCCTGATGTGATTGTCCCATTAGTACAGAAAACAAAGGAAAATGTAGTTTGACGAAACAGGTTC
Celera SNP ID:            hCV8335671
SNP Position Genomic:     92215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43139):
AAAGACTTGAAGGTAGCTGGCACCTGTAATTCCAGTGCTTTGGGAGACCAAGACAGGAAGATTGCTTGAGGCCAGAAGTAGAAGACCATCCTGGGCAACA
Y
AGAGAGACTCTATATCTACAAAAGAATTTTAAAAATTAGCTAGGCGTGGTGGCACATGCCTGTAGTCTCAGCTACTTGGGAGACTGAGGCAGTAGAATCA
Celera SNP ID:            hCV26499589
SNP Position Genomic:     85386
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43140):
AGCAAATCCAAAACTTGGCATATGCCAAAATATATTACCTCTAAACTCTGTAGTTTCCATTCTTTCATACTTCATTAGCATATCTAGGAAGTAAGATCTA
Y
TTGCAGCACTTTGAAAAAAATAAATAAATGACATGTAGTTTTTCTTTTCCAAGACCCTAAAAGTTTGTTCTTGAAGATCAGTTGTATTTATGCATATAAC
Celera SNP ID:            hCV8556953
SNP Position Genomic:     72429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43141):
TTGTATGGAGAGTGCCATTTATTAGGAAGGCATTTCTTTTTGGCATCATGGAATGGACACTGGCTCTTCTAAGGATCACAGAATTTAATAGAACCATCTG
S
TCCTGAAAGAGTTAGTGAAAACTGTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGACAGAGTCTCTCTTTGTCACCCAGGCTTGAGCACAGTGTATCGATC
Celera SNP ID:            hCV11435111
SNP Position Genomic:     123471
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43142):
AGATAATGTTTGCTCCATTAAGAGTAATATATAACTGCTTTAAAAACGTGATACATAGAGATGTTATCACAGAATAAAAGTCAGCCTGGTTTAGTTTTGT
Y
AACAGCTAACTTTCTAGTTTCAGAAGTGAAACTAGAAGGAGGTTATTTTCCTCTAACCAATCAATTTTCAAACAGAGAACTCAGATATTTACCAAGTATG
Celera SNP ID:            hCV8556883
SNP Position Genomic:     64294
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;TSC_42_A(C,-|T,-)   TSC_42_C(C,-|T,-)   TSC_42_AA(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43143):
ATTTGTGAATTAATGCATATTTTATCTGTATTTCCATTTGTATGGAGAGTGCCATTTATTAGGAAGGCATTTCTTTTTGGCATCATGGAATGGACACTGG
Y
TCTTCTAAGGATCACAGAATTTAATAGAACCATCTGGTCCTGAAAGAGTTAGTGAAAACTGTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGACAGAGTCT
Celera SNP ID:            hCV11435112
SNP Position Genomic:     123434
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43144):
AGAAATACATTATAAATAATCGCAAAAACCATGTGAGATTTATATATTCATATAAACTCTGTAAGGTTAGAGACCAGGCCTTATTCATTTTTTGCATTCA
Y
AGCAGGCGCTCAATAGATTATTTGTGAATTAATGCATATTTTATCTGTATTTCCATTTGTATGGAGAGTGCCATTTATTAGGAAGGCATTTCTTTTTGGC
Celera SNP ID:            hCV11435113
SNP Position Genomic:     123314
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43145):
ACAACACTTTCTTAACTACTTGGTGTTTTGGGTTCTAGAAATACATGATAGGACCTATAAAGTAAGGAAAATAATTTTCTTGAATGGAGCTTGTAGGAAT
Y
GATTTTATTCCCTTAGACTATGTGTGTATATTGTCACAGAATTTCACATCCCTGCTGCAATACTATTATGACTGCCATAGTAATAATAATTTATTTATCA
Celera SNP ID:            hCV11435116
SNP Position Genomic:     119578
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43146):
TTCGAGAGCAACAGTACAAGTTCTCTAGACAGGTGTTTTCCTCATACACTGGAAAGGAAGAGATTCATGAAGCAGGTATGTATTTAAATATAATCTTCTA
C
AACTCTCATAGATGCAGTGTTATAGGAGGTAATTTTGGTAAACTGACAAATATAGAGGACTTAGAGCTTTAGAAATGTTTTAATTATTAATTTTGTAGCT
Celera SNP ID:            hCV11435117
SNP Position Genomic:     117127
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,9)   total(C,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43147):
TTGTTTCAGGGTTTGAAGGCCAGATGGCCCACCTAAGAAAACTCTACCAGTTTTTGGATAGAAATTCTATAATCTGTATACAAGTTTATATATAAGAATA
R
ACCCATATTTATTGGTGTGTGTGTGTGTGTGTGTGTGTACACACACAAACACATCTGTGTATATTGTATCAAAAATATTTTTTTCCACTCTTTGGCTTTC
Celera SNP ID:            hCV11435119
SNP Position Genomic:     114741
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43148):
TGAGACTGGCCAATTTTCACTGGTCTTTCCCTCTTTTGATTATGATCTCAGTCCGGGAGTAAGGTCAGCATTCACCTTGACCTGTCCATCTTTAATGTCA
Y
TTCTGGTACGCGAACTTCACTTTCACTGATTCTCCCAGAAATACACGTAAGCATATAGGCATCCTCTATGAGGTTGGAGCTGTCATGAATGTGATTAATG
Celera SNP ID:            hCV27495903
SNP Position Genomic:     12016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43149):
TCAGGTAATCCACCTGATTCGGCCTCCTTTAGCGCTGGAATTACAGCGCAAGCCACCATACCCGGCCCAGATTACATTTTTTGTCATTGGGCTCCATTTT
K
CTTGAAATTTAGTCTGTAACCCTGGGGAGTATGTTTGAAAGTTTTAATAGTTGTCCAAAAAAATGTTATCTGTCAGTTCCCATTACTCTAGCAGAGGATT
Celera SNP ID:            hCV11611398
SNP Position Genomic:     77959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43150):
AAGGAGCAGAGAGTTTAATAGGTAAGAAAGATGGGAGAAGGCAGAAGGAAGAAGCTCCCCGTACAGAGACAGAGGGAGGGGGCCTCCAAAGCTGAAAGAG
S
AGAACCTGAGTTGTGTGTTTTTATATATTCTAGATACAAGTCCCTTATCAGATATCTGATTTGCAATTATTTTTTCCCATTCTGTGAGTTATCTTCTCAC
Celera SNP ID:            hCV2641177
SNP Position Genomic:     155516
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,6)   total(G,6|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43151):
TCAGTCAAACAGAATTCAAGTGTTTCAATTTAACCACTCATGAATATTGCTCCAAATAAATTAAATGACCTACATCAAAGAGTGTCATTAGCAGTTTTAA
K
TATTCAATTTTTAAAATTAAAGATGGTTGGCTTTACTTTATAGCAGTAGTTGGTTCTTTGCTCTTGTCGATAGTTTGTGGTGTGCTCTTACCAGATGCTA
Celera SNP ID:            hCV2641178
SNP Position Genomic:     160660
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43152):
ATAAAAAACATTGTTCATTTTCTTCCATAAAGTACAAATCTTTAATATTCTTTTTTAAAATCTGAATTAATAACAATGATTCTTTTTAATTTTCTAAATT
M
TATAAATTATACTAAACTACTAAATTTCATGATTTCCAGCCAAATTACATAAAAATTCTTAACTGTGATTTGTACACCAGTGTTAATGCAAAAGCATTTA
Celera SNP ID:            hCV2641179
SNP Position Genomic:     164879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,12)      total(A,12|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43153):
CCACAAGAGGGCTTATGATGACCCTAAGGCAACTTTCAGAGCTATTCTGCAAGAAGAGAGATTTTTATTTCCCAAACCAGGGGGTAATTTCCACCAGGGC
K
TTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGTTCTGCATTTGCCGTCTCATTGGTAATAACAAGACTGCAGCAACAAAGGAAAGAAATCTCACTC
Celera SNP ID:            hCV26499590
SNP Position Genomic:     88415
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3|-,6)   total(G,3|-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43154):
TATTGTTAAAACTCATGCTAAAATATCATGGATAGTTGTATACTATCTATGCATGCCGGCTCATAGTATGTGAAGACACATCAAATAAAAACTCCTATGA
S
TATCTTTACAAGCGTGCTTTGTATTTAAATAACATTAAAGATAATTAAATATTGTGTTAGTGAGGAACTTTATTTCCTTATTTGGAATATTCTTAAACTT
Celera SNP ID:            hCV321543
SNP Position Genomic:     76130
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,8)      total(G,3|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43155):
TTTTTTGTATTTTTAGTAGAGGCGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCGTCTCGGCCTCCCAAAGTGCT
S
GGATTACAGGCATGAGCCACCACGCCCGGCCCCTAGTTAATGACTTTCTTAAATATCATAATGCTAAAAGGAATTTGTGCTAGAATTTTCCTAAATAAAT
Celera SNP ID:            hCV26499591
SNP Position Genomic:     92076
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43156):
TAAATTCCTAGCTCTTCTATATAGAAGGTTTAAAGTTGTATCCCATCCTTAGGAAACCCTCTCTAAGTGTCTTTTTATTGAGCCTATCTTTTTTTTTTTT
W
AAAAAAAAGCAAAATATAATACATTAAAATTTAAGTACAAATTCTAATAAGCTATACATAGATAAATAATTTCCAAAAAGTGACACCTTTTCTTTTTTGA
Celera SNP ID:            hCV26499592
SNP Position Genomic:     101629
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43157):
GTAGCTGGGACTACAGGTGCCCGCCACCATGCCCGGCTAATTTTTTTTTGTATTTTTAGTAGAGATGGGGCTTTACCGTGTTAGCCAGGATGGTCTCGAT
Y
TCCTGACCTCGTGATCCTCCCGCCTCGGCCTCCCAACGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCAATAATGGAGAATTTAAAGCAGTGGT
Celera SNP ID:            hCV321545
SNP Position Genomic:     76546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43158):
CACTAATGAAAAAGATGCTGATGGGATCCTGGCAGCAGGTGACTCAGAAATAACTCCTGGATTCCCACAGTCCCCAACATCATCTGTTACTAGCGAGAAC
K
CAGAAGTGTTCCACGTTTCAGAGGCAGGTTAGTTACGGATCAGAAGGACAGATTGAGGTGTGGTGGTTTGCTTGCTCTAAAAGTAAAATGAAAATTATAG
Celera SNP ID:            hCV25620926
SNP Position Genomic:     146846
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,36)   total(G,1|T,73)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:43159):
AAATTCCTAGCTCTTCTATATAGAAGGTTTAAAGTTGTATCCCATCCTTAGGAAACCCTCTCTAAGTGTCTTTTTATTGAGCCTATCTTTTTTTTTTTTT
A
AAAAAAAGCAAAATATAATACATTAAAATTTAAGTACAAATTCTAATAAGCTATACATAGATAAATAATTTCCAAAAAGTGACACCTTTTCTTTTTTGAT
Celera SNP ID:            hCV26499593
SNP Position Genomic:     101630
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43160):
TGGTATTCCAACAGTTGCTTCTGATACATTTGTATCTACTGATCATTCTGTTCCTATAGGAAATGGGCATGTTGCCATTACAGCTGTTTCTCCCCACAGA
R
ATGGTTCTGTAACCTCAACAAAGTTGCTGTTTCCTTCTAAGGCAACTTCTGAGCTGAGTCATAGTGCCAAATCTGATGCCGGTTTAGTGGGTGGTGGTGA
Celera SNP ID:            hCV25620927
SNP Position Genomic:     146183
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(A,1|G,31)   total(A,2|G,62)   
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,2|G,32)   total(A,3|G,65)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:43161):
ATGAAGCCTGGGTGATACATGGAGGGATAAGCAGCAGCCTGATAAGGAGTAGAAATGGGCTGAAAATAGGAAGGTGAGAGAACTCTGAGGAGAAGACTTA
T
TTTTTTTTTTCTTTTAACCCTTCAGTTCCTTCCCCCTTTGCTCTGTCTTCTTATTACCATCTGACATCTTAGGGAAGCAGAGCTTTCAAGTAACAGCTAT
Celera SNP ID:            hCV26499594
SNP Position Genomic:     105143
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43162):
TAATAAATAAGCTTATACATTCCGATGAAATTTTAACCTCCACCAAAAGTTCTGTTACTGGTAAGGTATTTGCTGGTATTCCAACAGTTGCTTCTGATAC
R
TTTGTATCTACTGATCATTCTGTTCCTATAGGAAATGGGCATGTTGCCATTACAGCTGTTTCTCCCCACAGAGATGGTTCTGTAACCTCAACAAAGTTGC
Celera SNP ID:            hCV25620928
SNP Position Genomic:     146110
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,38|G,2)   total(A,74|G,4)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:43163):
TGAAATTGACATAGTAGCTGCACCTGCCTTATAACATTACTATGGAAATTAAATGAGGGATTGACTTATTACTCATAAAAGTAATTGAGGAGCCAGGCGC
R
GTGGCTCATGCCTGTAATCCCAGCACTTCGGGAGGCCGAGATGGGCAGATCACTAGAGGTCAGGAGTTCCAGACCAGCCTGGCCAACATGGTGAAATGCC
Celera SNP ID:            hCV26499595
SNP Position Genomic:     106647
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|G,9)   total(G,9|A,7) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:43164):
GAGCTTTATCCATTTTGTTTGAGGTAATATATATACACTTTACACTAATGTAATTCCTTTTTAAGTCACATTAAATATTGACGTGAAATATCAAGACATA
K
TTTCTAACAAAGAGAGGAGCTCACAAGTAAAATTAAAACTGGTGGTCATTTTCAAAAAAAGATGACCCTTGCCTGGTATTTTTAAAAGGAGACTCTTGTG
Celera SNP ID:            hCV26499596
SNP Position Genomic:     109331
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,15)   total(G,15|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43165):
AGAGTTTACAGCTGGAATAGACTTTTAAGATCAGATAGTCTAGTCATTTCGTATTCTAATGTGGAAAGTGTGGTTAAGAAAGACTAGGCCGGGCGTGGTG
K
CTCACGCCTGTGATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCTTGGCTAACACAGTGAAACCCCGTCTCT
Celera SNP ID:            hCV26499597
SNP Position Genomic:     113859
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43166):
ATCTACTGCTTTGATGCGGACCGATTTTCAAGTTTTGAGGAAGCAGTCAAAGGAAAAGGGAAGTTAAGAGCTTTATCCATTTTGTTTGAGGTAATATATA
K
ACACTTTACACTAATGTAATTCCTTTTTAAGTCACATTAAATATTGACGTGAAATATCAAGACATAGTTTCTAACAAAGAGAGGAGCTCACAAGTAAAAT
Celera SNP ID:            hCV25758433
SNP Position Genomic:     109264
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(G,1|T,39)   total(G,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:43167):
TAGGCCGGGCGTGGTGGCTCACGCCTGTGATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCTTGGCTAACAC
R
GTGAAACCCCGTCTCTACTAAAAACACAAAAAATTAGCCAGGCGTGGTGGCAGGCGCCTATAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCG
Celera SNP ID:            hCV26499598
SNP Position Genomic:     113943
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43168):
CTGAGGCAGGAGAATGGCGTGAACCCTGGGGGGCGGAGCCTGCAGTGAGCCGAGATAGCGCCACTGCACTCCAGCCTGGGCGGCAGCGAGACTCCGTCTC
A
AAAAAAAAAAAAAGAAAGAAAAGAAAGACTAAAACCTTGAAAAGGCTTCACTTTACTTGGGATTTTCTACACTAGCCTACTACCCTGCATGTTTGCATCA
Celera SNP ID:            hCV26499599
SNP Position Genomic:     114125
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,8)   total(A,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43169):
AGTGTAAGTAATCACAAGTATGCAAACAATAGTGATTAAGCGTGATTTTTTTTTTAAAGCATGGTAAATACCTCATGGAGATGGTGTTAATGTAAGGTAC
R
GAACCCTAATTGGCCTAAGAGTTTCAGGGAAGGCTTACCAGAGAAAGCGACTTTAGATTCAGATAAAGCATAAATAGGAGTTAAATCAACATGGGTGAAA
Celera SNP ID:            hCV8556964
SNP Position Genomic:     72851
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43170):
TCTCCCCATCACCTGCCAAATGAAAAAAAAAAAAGGGCTCTTTAGCTTGGCATATAATGGCTTTAATGAGCTGGCCCACCTATCCTGTTTCATTCCTCAT
S
ATTACCTTCCCCCTGCCTGCTGCTATACCAGCCTTTTCAAAAGCAGGTCTCTCCGATTCTGTTTATAATCCTGCCTGAATAGCAGACTATGCACCTTCTT
Celera SNP ID:            hCV8556965
SNP Position Genomic:     73868
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,6)   total(G,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43171):
TAATGGCTTTAATGAGCTGGCCCACCTATCCTGTTTCATTCCTCATGATTACCTTCCCCCTGCCTGCTGCTATACCAGCCTTTTCAAAAGCAGGTCTCTC
Y
GATTCTGTTTATAATCCTGCCTGAATAGCAGACTATGCACCTTCTTCAAGTGAAGCCTTCTTTCCTGACTCTTCTTTTCTGCAGGCCAGAGCACATCCCT
Celera SNP ID:            hCV8556966
SNP Position Genomic:     73922
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43172):
AAATTAGTGGCAATCACGGAAGAAATGGCTTGCCCTTGAGTGTCTGAACATATAGGATTCTATTAATAAAAATTACTAAGTACATTATAAGGCTTGTCTG
Y
AAAAGAACTAATAAGCCATTTAGAAATATTACATTACACATCAAACATTATTTAAATGCAATCACTTGAGCTAAAGTAATTATGAAAAAAATTACACAAT
Celera SNP ID:            hCV8556893
SNP Position Genomic:     65649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43173):
AAGATGAAGTTCAAGAAAAATTCTATCAACAAGAGCCCTGAGCAATCAAAATACATGGTACAGAATCCATGCACTAAACCTAATACAATTATTTTAATGC
R
AAAGCCTCTCAAATTGTCTCTCAGTGGTATTGGGGTTTTGTTGTTGTTGTTGTTGTTGCTTTGAGACAGAGTCTCGCCCTGTCGCCCAGGCTGGAGTGCA
Celera SNP ID:            hCV11435123
SNP Position Genomic:     107428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43174):
CTTAGAATGTAGAATTCTCTTTGCTGATTTTTATGAAGTCTTTGTGTATCATAAAACTATCATTGTTACTTTTATAGATGCAAATCTACTGCTTTGATGC
R
GACCGATTTTCAAGTTTTGAGGAAGCAGTCAAAGGAAAAGGGAAGTTAAGAGCTTTATCCATTTTGTTTGAGGTAATATATATACACTTTACACTAATGT
Celera SNP ID:            hCV386804
SNP Position Genomic:     109181
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,19|G,21)   total(A,24|G,54)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,12)      total(G,12|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:43175):
GATTTGGGTGGGAAAACAGCCAATCCATATTATGCCCATAAAACATCTTGTACAAAATGGGACACAGTGACGAATTGCTAATAATGATTAGCACTTCTCA
K
CACGTTGAAGTAGAGTAAGGAGGTTACACTCCAGATGCTTTTTTAAGCTGTTGTAGACATCTGAGCCCAGTGCCTAAAATACATTTCAAAGCAGTGCTAT
Celera SNP ID:            hCV2641180
SNP Position Genomic:     171301
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,12)   total(G,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43176):
AAAGTTTTGAGAGTTATTTGGGATTCTTTTTTAGTAAATATGACAGCTAAAGGGAAACTGTTAATACTGTTAGTCAAAAAGTTTCATTATGAATCATGCT
R
TCTGCCTTTTAAACGCATTCTTCATACTGTGGGAGAAGTAAATGGGACTCATTGAAAAGCAATGTAGAGTGAAATCGATTTTAATTCACAGGACATGGAT
Celera SNP ID:            hCV2641181
SNP Position Genomic:     172074
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)   JBIC-allele(G,225|A,1082)   total(G,225|A,1082) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43177):
CAGTTTTGTACCAGCAGTTGGATGGAGAGGACCAAACCAAGCATGAATTTTTGACAGATGGCTATCAAGACTTGGTAACTATATGATCAGTTGTTTTACA
Y
AGGGTAACATTATAATTTAATTTCCAAGGTAAGAACTTACAAATGGTTGTATATTATTTTCCTCCATTACTTTTAGACTTTATGTGAAGGTGGGGTAGGC
Celera SNP ID:            hCV25758006
SNP Position Genomic:     129581
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,32)   caucasian(C,6|T,34)   total(C,12|T,66)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43178):
GCTACACCTGTTTTATCAATTGATGAACCATTAAATACACTAATAAATAAGCTTATACATTCCGATGAAATTTTAACCTCCACCAAAAGTTCTGTTACTG
R
TAAGGTATTTGCTGGTATTCCAACAGTTGCTTCTGATACATTTGTATCTACTGATCATTCTGTTCCTATAGGAAATGGGCATGTTGCCATTACAGCTGTT
Celera SNP ID:            hCV25620933
SNP Position Genomic:     146070
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:43179):
TTCTGTTACTGGTAAGGTATTTGCTGGTATTCCAACAGTTGCTTCTGATACATTTGTATCTACTGATCATTCTGTTCCTATAGGAAATGGGCATGTTGCC
R
TTACAGCTGTTTCTCCCCACAGAGATGGTTCTGTAACCTCAACAAAGTTGCTGTTTCCTTCTAAGGCAACTTCTGAGCTGAGTCATAGTGCCAAATCTGA
Celera SNP ID:            hCV25620935
SNP Position Genomic:     146159
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|G,1)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:43180):
CCTGAGAAGTACTCATGCTCTGATCTGAGTGGGAAATAGTTGTTCAGTGCTCTTGAAATTGAAACAAGAATTTTCTTTCAACCAGAGAAATGGGAAAGGA
Y
TTAGTGATTGCCTGTAAAAACCTAAGGAACTGTTCAACTATATAGAGCCACTGTTTGGCCGCATGGAGGATCTTAACACATCCCTAGGTATTCCTGTATG
Celera SNP ID:            hCV8335908
SNP Position Genomic:     79167
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;(C,-|T,-)   no_pop(C,-|T,-)   TSC_42_C(C,11|T,65)   TSC_42_AA(C,11|T,59)   total(C,22|T,124)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43181):
CTGTGCAAAAGCAGAAAGGGCTGTAAAATACTAGAGAATGTAGACAAAGGTACCATAAATTACTTTGGAAGGACTTCTTGCCATCCTGAAGCAAGGTTTT
S
TGTGAATGTTTACAGCTGACTGTCACATCTTTAGTTACAAAATTCAATTTTGTTGCATTATATCCATTCATAATTGAAACATTGGTGTTTTATTTCAAAT
Celera SNP ID:            hCV340643
SNP Position Genomic:     22403
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43182):
TTGCTGTTTCCTTCTAAGGCAACTTCTGAGCTGAGTCATAGTGCCAAATCTGATGCCGGTTTAGTGGGTGGTGGTGAAGATGGTGACACTGATGATGATG
R
TGATGATGATGATGACAGAGATAGTGATGGCTTATCCATTCATAAGTGTATGTCATGCTCATCCTATAGAGAATCACAGGAAAAGGTAATGAATGATTCA
Celera SNP ID:            hCV25754669
SNP Position Genomic:     146307
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,12|G,20)   total(A,20|G,50)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:43183):
ATGAAGAATGAGATATTGCTATAACTTCAAAATACCTCCCCTCAAAATACTTTCTAATTACAAGACAGAGAATAATATTGCAGTGGAAAGCCTGACAGAT
R
CTTTAATCAAGTGATCAAAGTAAACGTCAGCAAAAATTACCTTTACAGAGATCCTGTACCACTGACTAAGATACAGTGAGAAGAAAAGAGCATATTTTTT
Celera SNP ID:            hCV8335909
SNP Position Genomic:     79705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 214
Celera Gene:                 hCG34338 - 146000219973357
Gene Symbol:                 ITM2C
Protein Name:                integral membrane protein 2C;BRI3;BRICD2C;E25;E25C;HRPC.1050_D_4;ITM3;hRPC.1050_D_4
Celera Genomic Axis:         GA_x5YUV32VWPT(36414552..36440911)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12374):
GATAGTGTGAAATTGGCATAAGGATAGAAAAAAATAAACTAATGTAACAGCACAAAGAGTCTAGAAATAAATCCATTAAACGTTGTCAATTGGTCTTTGA
CAAAGATGCCAAAACAATTAAATGAGAAAAACAAAATTTCTTAAACAAATACTGCTGGGACACCTGTATAACCATATGGAAAAGAAATAAACCTCAATCC
CTACCTCATACCTTACATTAAAAAATCAATTAAAAGTGGATCACAGACCTATATGTGAAACCTAAAACTATAAAGCTTCTGAAAGAAAGAATATGAGAAT
ATCTTCAAAATTTGAACATGGGTGTTTAAAGAATTTTTAGACAGGACATTAAAAGCACTAACAATAAAATTAAAATTTATACATTGAGCTTGATCAAAAT
TATAAATTTCTACTCATGAAAAGACAAAATTTTAAAAGTGAAATACCACAGTCTGAAAGGAAATATTCACAATGAATATACATGACAAAAGACTTGTATC
CACAATATAAAACGAATTCCTACAAATCAATAATTAAAAGACAGTCTAAATGACCAAAAGACTTAAGCAGACACTTCACAAAAGAAGATATACAAATGGC
CAATACCACATAAAAAGATGTTCAGCATCATTAGTCATCAGAAAAATACAAATTAAAACCACAATAACATAAAATTTTACTAAATACAATTGCTAAAATT
AAAATAACTGACAGCACCAAATATTGGTAAAGTTGTGGAGCAACTGAAACTCTCATACATTGCTGGTGGGAGTGTAAAATAGCACAGATATGTTGGCAGG
GCTGTGCTGAAATGGGGAGAGAGTCATGTGAATGGTCTGTCCAGATCAGGCAATAAGGGAGTGCAATTTCTGCACAGAATTTAAAAATTATAATAAAATT
AACTAAAAATTGATCTACTTTACATCATCACAATGCATTCGCATTTCTAAACAATGTCAGTGATAAAATATGTCTGTCTTGTAGGGTGGGCCATTTCTAC
CTCATCCTCACTGATGCTATTTACTCAAGAGAAATTAAAACAAAAATACATGTAAAGAAATGTCCATAGCAATTTTATGGTGGAAGACTGAAGGCAACCC
AAATGTCCATGTCAGGAGAATGGATAAACAAGTTGTAGTGTATTTAAAAAATGGAATATTACTCAGCAAGTAAAAAGAACAAACTATTGTGGATGAACCT
CATAAACATATTGAGTGAAACTAGACACAAAAGAATACATGTTGTACAGTATATGAAATTCAAGAACATGGCCAGGCATGGTGGCTAACACCTGTAATCC
CAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGGGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAACCTCCT
TTAAAAAAATGAGCCAGGTGTAGTGGCACACACCTGTAGTCTCAGCTACTCGGGAGACTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCA
GTGAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGTGACAGAACAAGACTCTGTCTCAAAAAAAAAAAAACAAAAAAAGAAAGAAAGAAAGAAAAAGAA
AAAGAAAATAAAATAAATTAAAGAACAGATAAAACTTAATCTATAGTGATGGAAACCAGAACAGTGGTTGCCAGTGGTGGTGGGGATTTACTGGAAAAGA
ATGGGAAGAAATTTTCTGGAATTATGGAAATGTTCTGTATCTTGATTGGTTTGTTGGATACATGAATATATATCTTTGTAAAATAGTTTTTCATTTTACC
TAAAATTTTTTTTTAATTACCTTCAACACTTAGCTTTCAGCTAGCTCCTCAGTGGAAAAGAGGGGCCTCTGAAGGGGGCAGGTGGAGGTAGGGGAGGTGG
AGCTGAAGATAGCTGCTGCTCTTGTCAGAAGAACAGGATCTCAAACTCACCCACTCCCTTACTCAGAGCATGTGATTGATGGAGCACACTTCTCCTTGAG
AAGAACTCTGAGGACAATGGGCACACCCTTGTCTGAGCCCGTTACATTTCCAGAAAGCTAATCTACTGACCCTCTATGGATTTGTTACAACCATAAGTCT
TACATAACCAGTGCTTTAAATTGTAATAAACTAGATATCTTTGCAAACAACATTCAACTTCTAAATTTTGAGAAACAGGCAAATACATGTAAAAGTTCTC
ATTTCTGATTTTATTTTAACTAGAGACGGGGATCTCGCTATGTTGCCCAGGTTGATCTTGAACTCCTGGGCTCAAGCAATCCGCCCACCTTGGCCTCCCA
AAGTGCTAGGATTACAGGCAGGAGCCACCGTGCACAGCCTGAGATTTTATTTTCAAAGTGAACTGTTGCAGGATTGATTCCAACAGCCCTTCCCACTGGA
GCCAATCACACCAGAGTTGATGAGGGAAGGGAAGAGTTAGTGGAGAGGCCTCAGCCAAGAGGCTCAAAATCAACGCAAGGAAGATGAGGACTGAAAAGCA
GCTTGGAGATTTCAGCCAGGTGGAGGTGGAGGAATAGAAGCCAGATTGAGGTAGGATGAGTGTAGGGAGTGATAAGGAAATGGAGACTGAATTTTCAAGA
GGTTTGGCTAAGAAGAARAWAAGATAAACAGGGTATCAAGTGGAGGAGGACGTGGGGTCAAAGAAGGGGTTTGTTTTTGTTTTAAGGCTAATACGAGCAT
GTTTCAGAGCTGACAGGAAGAGCTGAAAGGTTAGGAGGCGGGGGCTGATGGATGTCTCAGGTGTCTGATAGGAGGGGAGGGGTGGAATCCTCATCTAGAG
AGTGGCTGGAGAGAAAAGACAGACGCCTCTTCCGCGGCGAGTGGCAGGAGGAGCAGTGGGCAGAAGGGCAGCTGTGGATGGGGGCGGATGTGCTGGCAGG
CAGGAGGGCGTTCTTATGTTGATAGACATAAGCCACCTAAAGCCATGGCTTCCAGATCCTCAGCAGCTGAGCTGCTGAGAGGTGTGCAGCAGTCTGGAGA
GGGCAGGATGTGGCCGTTGAGAGTGTGGACAGAGTGACAGAGCAGCAGTTCCCAAACCCGAGTGTGCATCAGAATCACTAAGGGCTTGGTGGGCACAGAA
CACACCCTGAGTTTCGGAATAGACATAGAAAGGGTTTGCCTTCCTAACAAGTTCCCAGGTGCTGCTGGGGCTGCTGGCCGAGGTCCTTGCTTGGAGAATG
ACTGGTTAAAGAAGCCACAGCTGTCCCACCCTGCAGCTCCAAGGGGACCGCTTTGCATGGCTGCCACCATGCCCCTCCAAGAGGAGGTAGCATGCTGGTC
CCAAGGGGCATGATGGTATCACTTTCACCAACAGAACTTAGCAGTCCCTGAGCAGAACCTGGAACCAGAAAGGGGGACAGGAGAAGCTCTGCCACTTGGG
TAAGATGCAAGAACAGAACAAAGAGGATTCAGGTGCTGGCAGGAATGGCTGTTGGACTGAGCTGAGGGCTCCTGGCCCAGAGTCACTCTCCTCACTCCCA
GTGCGGACTCTCATTTCCCTGTCACTTGTCCACACCCTGTGTCTTTCCAGTTCCCACCCAAATCTCCTGTCTTGCATGGAGCCTGGGCTGCACCACGACC
GCATTCACCCTGCTGTCCTTCCCTGAGTCCACAAAACTCAGTATGCGACATGGACCTCCCGCAGCCTCCTGGCTCCCCTTGGATTATTGACTGGCTATAC
TGTACTCCATCAAATATAAGATGCTATCACTTGTGAAAGACATTACTTAATCACTGCCAATTATAATTGTAAAAGATATCTTGATTCTCAAGATGTTAAA
ATGTGAAGAAATGTGTTTCTTAGAATCCATGGAATATGGATTCTTGAGCATCTGAACAGGTGATCTGCAGAGCATGGTGCCCCCCAAGACCCATTCAGGG
GGGTCTCCAAGGTCAAAACTATTTTTTGCAACAATATAAGTCATTATTTGCCCTTTTCACTCTCATTCTCTCATTAGCGTGCAGTGGGGTTTTCCAGAGA
CTACATGTGTGATGACATCGCTTTGATGCCCAATGGAATATATGTATTCTTGTGTCTTAAAACTTTCTGAGTTTTAGTTTCTAATATGGTAAATGTTGAT
AGACATAAGCCACCTAAACAAAAGCTCTTGGGGTCCTGAAACCAAAAAATTTAGGAATCACTGCACTAGGTTGTACGCCCAGCACTTGGCCGGCATTGAG
YCCATGGTCAAGSGTAAGGAGAGGCCCGAGGGGGATGTGCACAGTGCTGAAGGTGCACAGGAAAGGGACTTATCCCAGCCGGTCTGGGAAGGCCTTCCAG
GGGAAGTGGGGTGCTCGCCTGCCAATCTCAGGCATGTGGATGCTTCACCCAGGTGGCCCTGTCTTGCTGACCAGAGATTTGTGCCAAACCAGCTCTGCGA
CCCTGGGTTTAGTCATGCTACCTTCTATCACTATTAACATGAGGCTAATGTGTAGGTCACAGAGGCTGTGATGAAAATTAAATAATTGAATGCACGTGAA
AGAATGCCACTCATAGAAGGTTTCACATGACCACATCCTTGGTGGCTGGGTTGTGTCTTGGGCATCTCTGTTTTCTGCCACAGAGCTTAACACAATGCTT
GGCACACAGGGGTGCTTGGAAAACACTGAGTGAAGGAATGCATGTTGGGGGTGTGGCCTAAGCAAGACGTGGAGCTTGCCTTCTCCAGACACCAGGTTTC
CCATGGGATCTGGAGCAGGTGATGAGCGGTAGTCCATAACACCTTCCTCTCTGGCTCTGTGCCAAACCAGATTCCTCCTCGTCTCCTCCAAACCATCTGT
CTTCTTCCACCTCCCCATTCCCTCCCCCCAGTTCCCCAGGCTGGTGGCCTTAGCATCAGTTAGACTTTCTTCTTTCCCCACCTGTCTGTCCTCAAGGTTG
CTAGGTTCATCCAAGATCTGAGCCAAGAGGTCCGGGTCTGGGACGTGGGCGCTAAGGGCCCAAGGCAGCTGCAAAAGACCTGAAAGGTGAGAAGAGAGAT
CAGTGGAGGACCCCGGACTGTCCTCAAGAAGCGGACGGACTCCCCTGCCCTCCACTGGCAGCCCAACAGCAGAACCAAAGCGGACCACTCAGCACAACCT
GTGTGTGTTGCTGGGCGCTGTCCCTGGCCCAGTCTGGACCAGGAGCAAAGAGGAAAGATTCAGGGCGTTAGTGCCAAGAGCAGCCATCCCAGCAACAGAA
GCCCCTGCTTCCCCAGTACCCGTGATACTTGGGAGGAGCAGAGTCTTGAGTGGAACCCGAGCCTCTGACACCCGCCCTGGGGGTCTTCCCTCCACTCTCG
CCAGGGTCCTCCTGGATGAGTGAGACAAGGGCAGTTCAGGAGGTCACCCAATAACTGAGGTCGCAGCAACACGAAGGAGCCAGGGAGCAGGGGCGGCCTT
CCCTTCTCCACTCCAGGCGGCTCCAGCGTGCACCCCAGGACCCCCCAGGAAGGTTTTGCAGGAATAAAGAATGAAGGCAGAAGCAAGATGGAGGATGAAG
GAGGCGTGGATGGCTTCAGAAGGCAAGACRGAGGCAGCAGTTTGGCGCCTGTCTCAAAGCCTCCTCCCCGCGCCAAGGACAGGTCGGAGGAGGGGGGCGT
GGGGACAGGTAGAGCGGAGGCTCCAGCGTTTCTAAAGGGGAAGACCTGAAGTGGGGCAGGAGAGACGGGTGAGTTGTCTGGAAGCTGCATTTGCCTGGCA
AACACTGGGTTAACAAAGACTTGCGTTGCGGGGATGCTGGCCTTGGACAGGGAATGCGAAGGGATTATGCTACGGAGAACGGATCCGAGCGTGACGGCTG
AATGAATGAGTGAGCGAGTGAGTGAGTGAGTGAGTGAGCGAGCGAGTGAGTGACTGTGCGAGCGAGCGGCAGAAGGAACTCCGACCCGCCCCAGGTGCGG
AGCGGCGCGCCCGGCAGGGGTCACTGCGGGCCCCGCGGGCGGGAAGGGGGCGCAGGCGCGGCGGGCGCCGGGGCCCTCCCGCGGGGACGGGGCGGGGAGG
GCTGGGGGTGGGGTTAGAGAGAGGGACGCGAGCGGGATCCAAACTTCCGGTGCCTGCAGAGCTCGGAGCGGCGGAGGCAGAGACCGAGGCTGCACCGGCA
GAGGCTGCGGGGCGGACGCGCGGGCCGGCGCAGCCATGGTGAAGATTAGCTTCCAGCCCGCCGTGGCTGGCATCAAGGGCGACAAGGCTGACAAGGCGTC
GGCGTCGGCCCCTGCGCCGGCCTCGGCCACCGAGATCCTGCTGACGCCGGCTAGGGTGAGAGGGTCTGGGGCTCAGGCGGTGGGGCGGGGGACCCAGGCT
CACGACCCAGGCGCGCCCCGTCGGCCCTGGGGACTGCCCGAGGCGCGTCAGGGCCCCAGAGCCCGGGGTGGAGCAGGGTTGGGAAGTCTCGAATGGTTGC
TTATCCCAGAATGAGGAGGGGGCTTAAGTCCCGTACTAAAGCGGCAGCCAAAAGCTGAAGTCCGAAGAGTGGGAGGCGTCTGGTTCTGGTCTTCAGGTGG
AGAAGTGCTCGAGGTCTCTTCCAAAAGTGGGGGCCCCCTCGCCGCCTTATAGGGGGAGGGGGCTGGTCCGAAGAAGTTCGAGGAATGTTGGTGGGGGGGT
ACGCGTCTGGTTCCAATCAACTGGGAAAGCCGCGAGTCGAGTCCCCAGGTGGGGGATGGGAGGAGGGTTAGACGTAGTTTTTCCAAAGTAGGGCGGTGGG
ACCTGATTGGCTGGGGAATTGGGGGTGGGGGGGTCTGGTACCAACGAAGAGGGTGGGGCCGTTGATTTCCTCCGAAATTGGGGGCTGCGAGGGACAGAGG
ATGTGCTGCTGGCCTGCACCGGAATTGACAGACCAGAAAGTGATGAAATGGAAATCAGCCAGAACCGACGGCGCTGCGGCCTCTGGACGTCGGGGGTCCG
AGGCCGGGTGCCCCCTTCCCACCCCACGCCCTGCCGTCTGGGCCTCCCTGCTCCCCTCTCTTTTCTCCATTCCCAGCCYCTCGCTGGGCTGTCCCCCGAC
CCCACGGGGAGGGCTCCCAACTGCCCCAGTGCCCTTGCATCCTGGGTCCCCGGGCTCTGTGCGCGTTCCCCCACCCCTGTCATCCCCCTCCCCTACCCCG
GCTTCCTCCACTTTCCCTCTGGCCGGGGGGGAGAGAAGGCATTTCCGCCGTGGAAAACTGTCTGAGCTGCGTGCCTTGTGTCCGGGAAGGGCCCGCAGGG
GGCAGAACGCGTGGCGGGCAGGGACAGGGAGGGAGGGAGAGCTGGCCCAGCCAGGTTTTATTGTGCCTGGCAAAGGTGTCTACGTGGGCGCCGCCCCCAG
CGGTCTTGTGGCTTACCAAGCCCATGTCCTCCCCGCCTCCCCACCCCGCATTGAGGCAGGACTGAGAAAGTCTTTGTCCACTGCTTCCCCACTTCCAGAT
GCAGGCTTCTGAAGAGTCTTCCTGAACGCCTAGCCCCCTCCCCAGGTTTTGTGGCTCAGGTTCAGTCTTGCCTGGGGCATTAAGGGGCCTGCAGAGGATG
ACCTGGACCCTGGAGGAGGGGGCGCCGGAGAGGGCCGTCAGAGTTGGGTGTCAGCCTGGGCAGAGACCCTGAGTGAGGAATGCCAGGAGACTGAGAACCC
CCTGCCCTTTTATGGTGGTCACTGCAGCAACCAGTGGCTCAGAGCCACAAGAGTTCAACAACCACCTAGGCGAGGTTGGGGGTTGCTGTGCACCCCATGA
GAGCAGCTCCCCCCTTTTCATCTGAAGCTTAGGTGGAGGGGGCGCTCCATATTTGAAGAAGATGGTTCTGCAGCTTTAAAAGTTTGCAAGGGGTTCTTCA
AGACTCCTTTTCTTTGGAAGGGAAGCTGCCCTCCACTCAGCCTGGGGAGGGGCAGGGATGGGGGCAGGAGGCAGCACGCTTGCCCATCTCTTTTCCTAGC
CACCTCTTCCTGGAGATATTTGAGGAGGGAGGACCAGGTCAGACAGTGGGAGGGTGTTATTCCAACTCCATCAGAAGGTCCCCCAGATTTTGCAGGAGCG
GCACATTCTCCAGCCGCAGCCTGCTGATGGCATGGGTTTGGGCAGTCTGACAGAGACCTGCATCTCGGGGCATAACTGACATCCTAGCTTCTGGCTTCTC
ATCAGGCTCTGAAATTGAGCGTCCTTTCTTCCCCCTCACCCAGCATGAAATGGAAATATCAACATCTTCCTGCGTGCTGTTTGTAATGGCCTTGAGCCTG
CTGAGTACCTCCTCCCTCAAACTTTGTCAGTTGGGCAGGGTCCCCTCCCTCTCTAATTGGCAAGGGGGAGCTTAGGACTATGCGATCTGGGGAAAGAATT
AGAATCCTGGCATCTTTAGGACAGAACTGCATGTTAGTAAACTTTCACAGCTTCCCAAGGCCCTGGCGTRGTGCAGAGGGACTTTAGGTGTTGCAAGTTG
GCTCTGCCCATCACCTGCTAGATTTGGAGSCTTGGAAACAGTTCACTTCTGCGGGCCTCCTGTTGCCCCACTTGGCCAACCCGCACATTTCCTCCTTACC
CAGTTTCTGGCAAGGAGCCAGGCCTCSTCTCCTGCCCCCAGCAGTGAGCAGGCAGGAGGCCCATTTCTCAGCTGTAGCTCWGTGAGCCGAGRGATGGCAG
CCAGGAGGCTGCTTTCTCAGGGCAGGGCGTGTAGATTTTGTCCCGTACTGTTGGGAATGCCCAGGAAAGCTTATTAAAACGTTTCTTCTGGCTGGCAGTG
ACCCCAGAACCCTCCTTGGTGTCTGAACTGGACTCCAAAACAAGATTTATTTTATTTTATCTATTTTATTTTATTTTWTTTTTTTTTTTGAGACAGAGTC
TCACTTTTACCCAGGCTAGAGTTCCGTGGCACGATCTTGGCTCATTGCAACCTTCACTTCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGC
TGGGAWTAMAGGCACCTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGACTGGTCTCAAATTCCTGACC
TCAGGTGATCTTCCCACCTCAGCCTCCCAAATTGTTGGGATTACAGGTGTCAGCCACCACACCCGGCCCAAAACAAGATGTAAAAAGTGATCCGCAGGAG
GAGCACTCGGTGAACAGATGATTGTGCGTTGGGGCAGTTCTTGACCTGTGTCCAGGCCCAGAGTGAGGGCGGGGTGGGGGCAGGGTGAGGCGGCAGGAGC
ACCCTCTCGGTGGGCACTGCCCCTGCTTCTGAGCAAAAACTGCAACACAAGGAGGATTTTGTCTGTGGACCTGAGACTGGAAGGAAGTGCCTCAGTGGGC
CAGGGAGGGATGGGGGTGGGGGCCAGCTGGGCTTCCAGCTGCCCGGCCTCCCCCCCTGGTGTTTTGAGTCTGAGATAATGAGGAGCTGGGACACTGCCAG
CTTGGGAAGTGGGCTGGACCGGAAGCACCCCCTGGGACAGCAAAGCACTCCCTCCCAGCGCCAACTGGATCCCTCCTCCCCTTTGGGGGCCCAYTGGCTG
GCCATGCCCCTCTTAGCCTGCCCCTTCTCCCCACACCCTGCCTGTGCCTGCATTCACACACACACACACACACACACACACACTTATGCACACACATGCA
CGCACAGATGTGGGCATGTAGAGGCTCACGAGCTGGGGCTGTAAGGGGAGAAAAACAAGTTAAATACAATCATCTTCTTACCTCTGTAATTTTCTCCTTG
GCATTTGCCTTTGATTAATGGTCCTGTGTCACCCCCTCCCCAGCCTGCATACCTGGGGATCAGATTTCAGTTTCCTAGTGTGTCCTGGTCTCAGGCCCTC
GRCAGGAGGAGCTGGGTCTCCTGGAGCGGTTGGGGGAGGGTCCCGTGCCAGCCAGGAGGGCAAATCTGGCCAGCTTAGCCCTACCCCAGTGTCCTGATGC
CCACTGGCCAAGAGGGCCTGGCCCGAAAGCACTTTGTGGAGCAGCGGCCCTGCTCCATCCAGGTCCTTCCCTGTGGCAGCGTGGGGACTTTCATGGCTGT
CGTCCATTCCTGGGATTTGGCGCCCCGGCAGGCCCCACGGTGGCTTCTCTGCTTTCCTGCCGCTTCTCTCTCCATTCCCTCATTTCYGCTCTCTTCTCTC
AGCAGTCCTTGCATGTTTCAAGACCGTCAGCAGATTGCCAGTGAGGATGAGTTTCTCTTAGTGTGGAGAAAAAATGTTTATGGTGAAATCACAGAGGCAC
AACCTGGCCAGCCCCTCTGTCCACCGCCCCACTCTCTCCAAGTTCCCTCTCCCCATGAGGGCTCTTCCAGCAGTGAGCTTTTGTTGTCTGGAGATGCCTT
GACTATCAGGGATGGAAGAGAAGAGGGAATTCGCCTGGCCCAGCCAAGCCGAGAGCGCATCTGCACAGATGCTGCCCGTGGGGCCTGCAGTCTGGAAGGG
AGGACAGGAGAGTGATGGGGACCCCTGACCCTGTTGGCAGATGGCATCTGTGCCTCTGGACCACTGGGCTCTGTGTGCTCAGGTGGACAGTGTTTGCCCA
CTCTCCTCTCCCCCAGCTAGGCTCTGTCTTGAACACATACAAGACACACACACTCGGTGGGTGCCCTGGCCTCTGTGGTCTGGAGCCTGGGAAAGAAAGC
TGCTGAGGACCAGGAGAGATGTGGGGGAGGTGAGATGAGACTGCCTCCCCAACCCCCATCTTCCCTGTTCTCAGCCTGGGCCTCAGGAGTGCGTTTCTGG
CTGCCGAACCCCTCCAGGCAGGCTGCAATCTGCAATCATCGTTAAATCGGCTTGCAGTTAATTTGGACATTGTTACTGGGGGATGGGGCCCGGGAGCRCT
CCCTTCCAGCTGTGGGGGTCTGCCGAGTTAATGCTACAGTTGGCTGGTTTCCCCCTGACCATTTTGGCCCTGGCTTTGGTAAATCATTTAATGAGTGCCC
CTGTGGGTCTCAGTTTAAGCCTGCAGGGAGAGGCCCAGGCCTCTCTCGGGTCCCTGGACTTCCGGCTCATGCGCCCTTCGCTCAGAGAGCTCTGTTGCCT
TGGAAACAATATGCAATATTTTTCTACTATCTAAATGGGAGCCCCCCTCCTCAGATACCTCACTGTCAGTAACTGCTTCCTATGGGGAGCAACATTTTTC
TGGGTCCCCAGCATGATAGGTGGTGCGGCTGGGGTCTCAGGAAGGTGGGCCATTCGGCCATCTTTCTAGTGAGCTGGGCACCRGGGATCCCAAGGGGCCA
GGGCTCTGGGTTGAGCCCAGGCTCCCTGATGCCCCACTGTCCCCAGACAGGTGTAAATACCCCGAGATCACAGGCTGCTTTGAGGGCCAAAGGGACAGTG
AGGGTTCCAGGGCTTTGGTGTTTGAGCCTTGGTGTTGATTGGGCACAGTAGGCAGAGGCAGCGCTGGGGCGGGATTTAGGRGTTCTGCCTCTGTGTGGGG
CTTTATGGAGGAAATGCCTTCGCCTCCAAGCAGGGACATCTGCGCTTTCCTGTCTACTTTCTGGTAGCCTGTAATGCTGCCTTCTGCACTTCTGCTCATA
ATGGTGCCTCTGAGGGTTTGGCTCTGCAGGCTGGAGCGGAGCTGGGAGGGTGGCAGCGTGGCTGAGCCCGGGTGTGTGCTGGGGGACATCAGCAGGGCCA
TGAGAGAGAAGTGCCCACCCGCAGTCTAGGTAAGGTGGGGGATCCCCAGCCTTCACAGTGAGGGGTCTTGGCAGGAACCCCTGCCCTTCTCWGCCACACC
TGCCACTGCTGCTCTTCAGCTGGGGCCGTGGAAGCCTCACCTTCTCSCTGCTCTGTCTTCTCTAACCTCCCTCGGTGGGGCCTCCGAGCCCAGCCCCTCC
CCCAGGACAGGGAGACACGGGACCCAGCTCAAGTTCTGCAGACCAGCATTAAGGCGGAAAGGCGGAAAGGCGAGGCTGCCCTTTGCCATAAAGCTAGCAG
GCCTCACCTTGTCGGTGAATTTGATTTGTGGAGCAGGCCCTCGGGCTCTCCCACGTAGCGCTTTGACTTTTTTTTTTTTYCCTTTTCTGTCTTTCTGGTT
GTTAGCAATCTCACAAGCTAGTTTCCCTGGTTTTCCAGAATGCAGAAGCAAAAGTCTGGCCACAATGCAGCCTCAACAGCTGTCCACAGAGTCAGCCCTA
AAAAGGAAAGGCTCGGCTGATAAAGATCTGCTATTTTTATCTAGCACTTGATCCTTTACAAAGGGCTTTTAGGTTCTTTGTCTCGTTTAATCCCAGCAAA
ACCCCTGTCACGCAGAGTCTGTCCACATTTTGCATGGGAGACCCGAGAAGGGGGAGGTTGCAGGGCCCCGCTGGGCCTGTAGCCCCACTTGACCCCTAAA
TACAATCTGAGCCCTGGTGTTTGTTGTGTCCCGAGGGCAGATTTCCCAGCTGCTGTAGGCAGCCTGGCCTGTGTCAGGGTCAGCCACCTTTCCTTAAGAC
CTGCTCAGGAGCGCCAGAGGGGCAGGAGGGCATCCCTGGTGCCTGGTTTGCAAGAGCTCCTGGGTGGTTCGATCCCTGGGAGATGCCAACRGAAGGTGTC
ACCCCCGTCTCTTGCTGCTCCCGGGAGTCCATTGGAAAAYCAAAGCCATTTAGTCCCAACCCCCTGTGGCCAGCAGCTGTTCCTGAGGGCCCTGKGCACT
GTGGCCATGCCCGTCACTTGCTGGTGACCTTGGTTAGTGCCCCTGSCTGCTGAGGAGATGACAGTGGGCAGGTGGTCCATATGATCACGGGACCCCTAAA
GCAGGGCAAGGTGGGGAGAGGCCCCGGCCTCCTCATGGGCCAGGCAGTGCGGGCAGTGGTTTGACCTCCCACACCCACCCAGCAGGCTCCCTTGCGGGCA
GACTTGAGTGTGAGGGTGCAGGACAGGCAGGGGCACCCCATGGTGAGGATGCTGGGGGCCTGCTGACCTGCTCACGCATGTCCGCAGTGAAGGGGGGGTC
CTCCAGACATTTTCTGTCCTTTTCCTAAGCAGGGCGGGTCAGACCCTCAGCTCCCCAGGGCCCAGGCCCCACACTCCCCTGTGCTCTAAAAGGRTGGGAG
GTGAAACCTGAGGAGCGAAGCAGGYGCCCCCAGGGCAGGACCCCTGTGCTGTGCTGAGAGATAGGGCCTGTCCTGAGTCACTTAGGCCTGAACCACCCCC
CTCCAGGGGGAAGGGAGAAAGGAAATCTGTTCCCATCCCAGAACGCCTGGCCGGAAAGGGCCTGAGAGGTCACTTGGTCTGACCTGCTCATTTTGCAGAT
GGGGAAGCCGAGGCCCAGAAAGTGCTAAGCAGGCAGGTAGTGGCAGAGCCAGAATGAGAAGCTTCAGGCTCTGGGGCTGGATCCCCTCCTCTCCCCAATA
CTGCGGCAGTCCGCAGGGACTGACCTCTAACCTCACTCTTGGCCGTATGTGGACACCACGGAGGAAGGATTAAATGGTGAACATTGGAGGCAGAGACTGG
CCCCGGGGCTTTTGCATTATCTCCAAGGGTGAGCAAGGGCCCGGGGGAAGGCATAGGAGGTAGGGAGGAGAAGAGACAGGAAATTGACCAAGCTCACCTG
GCTGGCTCTCGTCAGTGCTCTGGGTAAAGCAGTTTTGTTGAATTTTATACTCACACACCTACGTCCACCACCCCACACATGTGTGGCCTGGAGATGGGTT
AGGTTGGCTTCTTGGCAGCCCTGCAGCTATGATCTTGAGCCCAATTCTGGCTCCCAGAGCAGATTTTTCCAGGATCCTTCTAGCCTGGCCTTCCGGACAG
CCACATTTCTCTCCTGGCAGGAGCTCCCTGGTGGATGGAAGCTTCCGGGCTTCATCCTGTAGCTGTTACACCACTTGTAACAGCCTGCTTGACTGCCGGT
CGGTGCCTGTGGGGGGCCAGTGTGGATCRCAGGCCTAGAGCTCCCTGGCTGGGGACAAGCACCCATGCCCAGACCCCATGGGGCTCCTGGAGCCCCTGCC
CCCATCAGTCACAGCCTCCTTGGTGGAGTTGAGCAGCCTTTACACAGCCTGCCCACCTCCTATTGTCCTCATTTTAGTCTACCCTCTGCACCTTGGTTTT
AGAGTGGATCTTGTCACTCCCCAGCTCAAAAGCCTTCCCGGGCTCCCCATCGTCCAGAGCAGCAGCTCCCAGCCTGCCTGGTGTGTCTCAATTCCTACAG
AGATTTCTAAGTCCCTAAAGTCACCGAGGCCAGGTCGGCACATCCCCTATCTTCTGTTTGAAAGAATATACCACGGTCACGRCTGGTATAAGCAAGAGGC
CTAAGAGCTCAGATAACTCAAAATGCACCTGCTGAACCCACTGCATCTCTTTCGGTGGCTTCCAGGTGTGTCTTGGTTTCTCTTTCGAGGTGTGTCTCCT
TTTCTCTTTYGAGGTTTGTCTCGGTTTCTCTTTAGCCAGGACGAGTCCGGGTGACCCTGGTGGGCCTTCCTTTCCCTTCTAGGTGTCATCTCCTTCCCTC
CCTTTCCCCCAAGACTCCCTCYGGGCCCAGCCAGCAGGTGAAGCCTGACTTAGGGAAGGGGGGATTTCCAGGGGAGGGGCCCTGGCCCCCACTGACCCAG
CATTGCTATCCACAGGAGGAGCAGCCCCCACAACATCGATCCAAGAGGGGGRGCTCAGTGGGCGGCGTGTGCTACCTGTCGATGGGCATGGTCGTGCTGC
TCATGGGCCTCGTGTTCGCCTCTGTCTACATCTACAGATACTTCTTYCTTGCRCAGGTGAGGGGCYGGGCCAGGTAGGGGCAAGGCCTCGAGAAAGGGTC
AYGTCTAGAGAGGCATGGAGGGAAGTGTCTGCAAGGGGGCAGCAGGAAGCCCCAGACATGCCCTCAGGTGGGAGCGAGTGCCCGGCCAGCCCACAAGACT
GGGGTGCCCCCTCCTCCTTGGGGCCTCCTTGGATGCAGGCCAGTCCCACVTTTAGCCCCTTGTCCTGGGGAGCCAAGCATGAATCCGGGTGASAGCACTG
GGCCCGCCCCACAGGGTCACCCTGGGGAATTCTCACCAGAAACTCAGATCTGGCAGAAACTGGAACTGTGATCCCCCTCCACAGCTCAGACCCTGCACCT
GCAGGTCACGCTTTAAGGCTGACCTAACTGTGCTTGTGCATGGACATTTGGGTTACCAAACAAGAGAGGGAGAGGGGTGGGTACAGAGAGTCTCCACCAC
CTCCTTCCAGAAGCAGGAGTGTGTCCTTGCTGCCAACTATCATCCCCCTCCCCGGGGGACCTGGGCACAAAGCTGGGCCAACCCAGACCTGGGAGGGAGG
GAGTGTCGCTGTGTGCTTGGAAATGAAAGTAGGTAAATTAAAAGGATAAACCTACGTACAACTCACAGAGAACCTCAGGGTGACAAAGAGGTGGGACTTG
CCAGTCATTTATGACCCAAGTGACCTCCCACTCCTAAGCGTTTAACTTTGTTGTCCCCCAGTTTTTCCACGATGGAAATTGCTGAAGAGTTTGCATTCAC
GGGGCTTTCCCCTTGAAAGCTCAGCTCACATACACCCATCACCTTCCTTTCTGTGCAGCATCCCCCTGCCCCGCCCCACTCCCTCCATGGCCTGCGTCCC
CCTCGTTCCAGGGTCCTGTGTGGGACCTTCCCACAGGCCTCTTCCTGTTGTGGCCCTACCCTAGGACCTGGGCCAGCATTTCCTGGTCCCCTCTGTTCCA
CCCTCGACTCACACCCTTCTCCCCACACCCCAATTCGTTGTGTGGACACCTCCCAGCAGCCCCTGGGTCTGTGCCCTGGGACAGTATTCGGGGTGTCCAG
CCACTGTGGGATGCAGCCCYGGAGCCTCACCTTCCCTGGGCTCTCATCCCCGCACAGCCCACAGGAGCCCCCCATGCTGCGATGACGCATCCTCCCTGGA
GAACTTGCACTGAATCAAACAGACGGTGGAATCCTGCCGATCCCAGGCCAGGCAGTCCCAAGCATGTATCTACAGGCCCCTCCAGGAGCCCCCTCCAGAA
GTAAGAGTGGGCAGACTGGCCCGCCCGGCCATTCAGTTGATGGGATCRCACCAGGCTGCCTGGCCTCCCTTACTGATGGAGTGACTGGACTGGCCCACCA
GACACAGTGTCTGTCAAGGTTTCTCCAAGACAGGGGTCAGGGATATCCAGGAAGGGCGATGGCACTTGTCCGAGGCTGGATGTGGAGGTAACCGTGATAG
GGGCACAAGACTCTTAACAGTGTTGCCTCCAGCTCCACCTCCCCACCCGCCGTGTTAGGCCCCTCCAGGTCTGCAGGCCAGGACAGCAGGTGACAGGAAA
GGCAGTCGTGCACAGGCGTAGGTGCCCAACTCTTAGGTTCGTCCTTGACCCCCTGCCAACCCCAGGCTCTTTCTCTGGTGTCTGCACCTCTGTGGAGGGC
ACGGAGGTGGCCAGGTCCTAGTCCTGCTGGGCCACCCCTTTTCCCAGTCACCGACTCAAGGACTTGGAGGCCAGAAGGGACCTTAGGGATCATCATGCTT
TACTGATGGGGAAACTGAGGCCCAGAGAGGTCTGCCACCTAGAACCTGGCAGACCCAGCTCATCCTCCCTTCCGTTTGTGAAGCTGGGAAGCGCCTTGCC
CAAGAATCAGCTCATCTCCTCACTGGCAGCCCCAGACCCTGACCTGATGCCCCACCGTCTCAGTTTCTCCATCTGCGAAATGGGTCTCACAGTCCCTGCT
CTTCTTGCTTCCGCAGGCTTTTGGGGCAYGTAGCGGACGGGTAGGCAAGAGGGGGCCTTRCGGAGTGCGTGTATGACCAGCCTCTCTGACTGTCTGTCTG
TCTCTCCGCCTTGCTCAGCTGGCCCGAGATAACTTCTTCCGCTGTGGTGTGCTGTATGAGGACTCCCTGTCCTCCCAGGTCCGGACTCAGATGGAGCTGG
AAGAGGATGTGAAAATCTACCTCGACGAGAACTACGAGCGCATCAACGTGCCTGTGCCCCAGTTTGGCGGCGGTGACCCTGCAGACATCATCCATGACTT
CCAGCGGGTGAGGCTGGCCAGGGCCTGGGGGTGGGGGGTGGGAGGGTGTCCCGGGGACTCAGGGCAAGGGGAGCAGGGATGAAAGGAGACTCCTCGGAGT
ACAGCAGGTGTCTACGGTTAGGCTTACCAGGGTCTTCAAGACACTGCTTTTCTCCTGTTAGCAACAATGGTTCTTGCTGAGTATGAAGCAGCCGAGGCTG
ATTTTCTCCTCAGCCTCCTGCCAGCTGCACGCTGGCTGTCATGGCAGGRCCAGTGCGTTGTATCGAGGGGTAGTACATTCACCATCGAGTGCATTGCGTG
TACAGCTCAGCGGGTCTCTGCAGAGTGGGTCTCATGCGTATTCATGTAACCCCCATGGGTCCTGAGACAGGGCATCTCTCGCTGGGGTCCAGGCTGTCCC
AGGAATGGCTGGCCCTCACAGGTTTCATAAATGCACAGCTGGGATGTTACCATGTTCCCCAAACCTCAGCTCTGTAAACATGAGAAGAAGCTTTATAACA
ACAGAGGCGTTTAGCAATCAGCTGCTATTTTCCTCTATCATGTGGCACCTTCTACAACAGGCTAAGAGAAGACCAGGAAAAGGGAGTGCCCGCCCAGGTA
TTGAGGAGTCTGGAGAGGACTCTGCTCCTGAAGGCCCAGGGTCCCAGGAAGGCATGGTGGGACTCCTGCCCCTGCTGGCCAAGCTGCTTTTTTTTTTGGA
GACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCCGCCTCAGC
CCCCCGAGTAGCTGGGACTACAGGTGCCCRCCACCACGCCTGGCAAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGTCAGGATGGTCK
CGATCTCCTGACCTTTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCRTGAGCCACCGCGCCTGGCTGGCCAAAGCTTCTTGCAGCCCT
GCCTGGGTCAGCTGTCACCTCCTGCAGAGACTGACCCAACCCCTTCTCCTGCCAGGGTCTGACTGCGTACCATGATATCTCCCTGGACAAGTGCTATGTC
ATCGAACTCAACACCACCATTGTGCTGCCCCCTCGCAACTTCTGGGAGCTCCTCATGAACGTGAAGGTGCGCAGGGGGTTGGGGGGATGTCTGCAGCATC
CTGTCCCTCCCTTGCCCCCTGTCTCATGGAGGCTAGGTCTGAGGTACAGGAAGTTCCTGTGTCAGGGGTTGGGGGAGCAAGAGACATTGCTGGCACCTGG
GCCCTGTACCCAGATTGGTCTCGCCTCTGCTATCCCCCTGCTTCCACATCTCCAGAGTCAATGCCCCGAGACCGGCTTCCTTAGTGTTCAAGGTTGTACC
CTGGGTACGGACTCGTGCGCATGCCATTGCTCCTGGCAGCACAGGTGCAGGCACCGGGCACAGGCAGGAAGTGCCTGAGGACATCAGAAGGGCCAGCCCA
GGGGCCTCTGGAGGAGGGAGGTGGGCTGGCATTTCGGGCGAGGGGTTGGACGAAAGCCTGAGGGGCCGACTCACTGTGGCGGCCACCTTGTTTTGCAGAG
GGGGACCTACCTGCCGCAGACRTACATCATCCAGGAGGAGATGGTGGTCACGGAGCATGTCAGTGACAAGGAGGCCCTGGGKTCCTTCATCTACCACYTG
TGCAACGGGAAAGACACCTACCGGCTCCGGCGCCGGGCAACGCGGAGGCGTGAGTGGCTGGCTTCACCCACAGTAGCCCCTGTCCCGTGCCCCAGACCAC
AGTTATCTTCACGCCTAGCCCAGCTGTCAGAGAGCTCAGATAGCAGCAGCAATAACAGCTAGCATTAGCAGAGCACTTCCGTGTGCCGGGCAATGCTGTG
TGCTCTTTATGACCTCTTAAGAGTGTAAGTCATTCTCATCCTCATTATTATTTTTGCTGCCCATTTTAAAGATGAGGAAACAGGTGCAGAGAGGTTAACA
CCCTGGAGGTCACACAGCAGGGAGGTGGCAGACATGGGCAGGCTGACTCCAGCTTTCGAGCTCTCCCCATTTCTCACTGTGCTCTTTGGGTGAATCTGGG
TGAATGGTGTCACTTCCTGGCCCTCCTGTGGCTCAGGCTGAGGCTGGTGGTCTTTGTGACTCAGCCAGGATGCAGGGCTCACTGGGGTTTTTCTKTTTCC
TCCCAGGGATCAACAAGCGTGGGGCCAAGAACTGCAATGCCATCCGCCACTTCGAGAACACCTTCGTGGTGGAGACGCTCATCTGCGGGGTGGTGTGAGG
CCCTCCTCCCCCAGAACCCCCTGCCGTGTTCCTCTTTTCTTCTTTCCRGCTGCTCTCTGGCCCTCCTCCTTCCCCCTGCTTAGCTTGTACTTTGGACGCG
TTTCTATAGAGGTGACATGTCTCTCCATTCCTCTCCAACCCTGCCCACCTCCCTGTACCAGAGCTGTGATCTCTCGGTGGGGGGCCCATCTCTGCTGACC
TGGGTGTGGCGGAGGGAGAGGCGATGCTGCAAAGTGTTTTCTGTGTCCCACTGTCTTGAAGCTGGGCCTGCCAAAGCCTGGGCCCACAGCTGCACCGGCA
GCCCAAGGGGAAGGACCGGTTGGGGGAGCCGGGCATGTGAGGCCCTGGGCAAGGGGATGGGGCTGTGGGGGCGGGGCGGCATGGGCTTCAGAAGTATCTG
CACAATTAGAAAAGTCCTCAGAAGCTTTTTCTTGGAGGGTACACTTTCTTCACTGTCCCTATTCCTAGACCTGGGGCTTGAGCTGAGGATGGGACGATGT
GCCCAGGGAGGGACCCACCAGAGCACAAGAGAAGGTGGCTACCTGGGGGTGTCCCAGGGACTCTGTCAGTGCCTTCAGCCCACCAGCAGGAGCTTGGAGT
TTGGGGAGTGGGGATGAGTCCGTCAAGCACAACTGTTCTCTGAGTGGAACCAAAGAAGCAAGGAGCTAGGACCCCCAGTCCTGCCCCCCAGGAGCACAAG
CAGGGTCCCCTCAGTCAAGGCAGTGGGATGGGCGGCTGAGGAACGGGGCAGGCAAGGTCACTGCTCAGTCACGTCCACGGGGGACGASCCGTGGGTTCTG
CTGAGTAGGTGGAGCTCATTGCTTTCTCCAAGCTTGGAACTGTTTTGAAAGATAACACAGAGGGAAAGGGAGAGCCACCTGGTACTTGTCCACCCTGCCT
CCTCTGTTYTGAAATTCCATCCCCCTCAGCTTAGGGGAATGCACCTTTTTCCCTTTCCTTCTCACTTTTGCATGTTTTTACTGATCATTCGATATGCTAA
CCGTTCTCAGCCCTGAGCCTTGGAGAGGAGGGCTGTAACGCCTTCAGTCAGTCTCTGGGGATGAAACTCTTAAATGCTTTGTATATTTTCTCAATTAGAT
CTCTTTTCAGAAGTGTCTATAGAACAATAAAAATCTTTTACTTCTGACCTTGACTTGAGTGTGGCTGGAGGGGAGATGGGTGTAGGAGGGGTGCTCCGGG
CAGGGTCGAGGAGCTGGACCTCGGGAGCAGCAGGCAGGGAGAAGCCTGCAGACCTTGACATCTGGCCCCTAAAGAGCTGGGCATCCTGGATTCAGCCAAG
GAGTGTAGGATATCCCCTTCGTAGCACCCTGGATCTGAGCCAGGTAGAGTTCACACTTTCCGGGTGAGGAGGGGAACAGGGCTGGGAGAGCTTACCGACT
CGCCCAAGGTCGTGCTGCTTTAAGTGCCTGTAAACCACCCTGTAATGTTCTACCTGGCAGATGACATCATTATTGCATGTCCTTAAGCACAAGGGCGGTG
TCCTATTCTCCACCACGTCTGGACAATTTGTAACCATTCCTGGAGGATCTGAAGTGAGGTTTGGTGTGATAATCACAGGGTCACATTCTCCAGAGAATTC
TGGAAGCGGCAGGAGAGCTGGCCAGAGCCATGTCTAGGTGGACCCCAGAGGTGGGACCTATATCCTGCCCTGGGGACCAGGATGGGTGCCCACCTGCTTG
GTGCTGTTAAGCCTCAGTACCCAGTGAGGGCCATAAAATACTCAAATTAGTGCAGACACACCTTGTTCCCAGATCCAAAGGCAATCATGCAAAGACATCA
GTTTTTTTTTTTTTCACATTTGCTGATTGAAATGCATTGCAATCACAATTAAAATGCCAACTGAATTTATTTTTTAACTTGACACAAATAATTCTTTCAG
GAAAGTAAACAGGGAATAGTCAGGTAGATCCTATAAACGGTAAAGAACTCCCAAAGTGCTGGGATTACAGGCTGAGCCACCGCGCACCTGCCCAAGAGAT
ATGTTTTTACAGGTCAAGTTAGGGTTGAATGTTTGTGAAGCATTTTTTTTTTTTGAGACGGAGTTTCGCTCTTGTCGCCCAGGCTCCGATATAAAGCGTT
ATACACCACAATAATTAAGGAGTTCAGTGTAGCAAAGACAGAGCCCAGTGCAACCCAACAGAGGCCCAGACATTGACTTAAATTACACGGAAATTTAATA
TATGATTATGGCGGCATTTCCAGTTAGTGGGAGACATGTGGGTTTGCCTTTTTTTTGTTGTTGGTTTTTTTTTTCTTCTTTTTTTGAGATGGAGTCTTGC
TCCTGTCACCCAGGCTGGAGTACAGTGGGGCGATGTTGTCTCACTGCAATCTCCCCCTCCCGGGTTCAAGCAATTTTCCTGCCTCAGCCTCCCGAGCAGC
TGGGATTACAGGCGTGTGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCGTGTTGGCCAGGTTGGTCTCAAACTCCTGACC
TCAGGTGATCCTCCCGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCATTGCGCCTGGCCCATGTGGGTTATTTTTAATGGAACAGCGGGCT
AGCCATTTTGACAAAAAATTAACCTGGATTCTACTTCCCTAGAACAACATTAATGCTGGATGGATCAGAGATTTTAATTATGAAATGAAACTATGAAAGT
ACTTGAAGAGATTATTTAAAAGGTAATCTTGGAGGAGGAAAGGCCTTTCTAAGCATGATATCTACCAGGAAAAAATTGGTTACGAAAAGTTAGAATTTAT
ATACAGCAATGTATACCACAAAGCCAAGAGGTTTATAAGCAGTAAACGGAAATGTCTTTTCAAACACAGGCATAAAAAGGGCTATTTTTTTTTAATATGC
AAAGTTCTTATAAACCATTGTGAAAAAGGAACAACCCAATAGAGAAATGAGCAAATAATATAAACAGTTCTAGAAATCAAAACTAGGGAGATACTTTATT
TTATTTTATTTTATTTTATTTTTGAGATGGAGTCTCGCTTTGTCACCCAGGCTGGAGTGCAGTGGCACCATCTCGGCTCACTGCATCCTCCACCTCTTGG
GTTCAAGTGATTCTTGTGCCTCAGCTTCCCGAGTAGCTGGGAGTACAGGCGCACACCACCATGCCGGCTAATTTTTGTATTTTCAGTAGAGATGGGGTTT
CACCATGTTGCCCAGGCCAGTCTCAAACTCCTGACCTCAGGTGATCCAGCTGCGTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCAC
CTGCCCAAGAGATATGTTTTTACAGGTCAAGTTAGGGTTGGATGTTTGTGAAGCATTTTTTTTTTCGAGACGGAGTTTCGCTCTTGCCGCCCAGGCTGGA
GTGCAATGGTGCGATCCCGGCCCACCGCAACCTCTGCCTCCCAAGTTCAAGCGATTCTCCCACCTCAGCCTCCCGAGCAGCTGGGACTACAGGCATGTGT
CACCATGCCCAGCTAATTTTTGCATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCAACCTCAGGTAATTCTCCCACCT
CAGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACTGTGCCCGGCCATGAAGCATGTACTGTATACAAAACACTACGTGTAAGTCAGTGTGTAAGTT
ATAAAATGTATTAATCAACGTATCTCTGGAAACCCACCAGCCAACTTATGAAACAAAAGACTACCAAATACCACTGAGAGTCTCTGCATGCTCTTCTCCT
CTTCCTGTTGCATAACAAACCATCCCAAAACTTAGTGGCCTGACACAGTGGTTTATTATTTTTCCCGAGTCTGTGAGTTGCCTGAGTTCAGCTGGATGAC
CGAGGGGTCCCCGTGGGATAACCGCACCCTCTGCTGTATGTTCATCTGGGAGCTCAGCTGCGGYCCAAGCAACCAAGATGGCCTCTCACCCTCCAAGGGC
CTCGCTCCACGTGGCCTCTAACCATTAATGGTCTAGCCCAGCCCTCCTTACAGCTTGTCAATTGAGCTCCAAAAGAGGGGAAGCAGAGGCTGACCATCCT
TTAAGACCTGGCACCACAAATCCCAGAATGTTACTTCATTGCATTCTGTTGGTCAAAGCAAGTCACAAAACCAGTTCCGATTCAAGGGGAGGGAAAGACC
CTGCAGATGGGGAGCAGCTTGCATGCTCAGGGATGCCAAGAACTGTTGGAAACTCAGACATCATCCGAGCACTCCCCGCCATCCCTCTCCCCTCAGTATT
TCATGGGGGACATTAAATGCCTGAATTAGTGCAAAGACACACCTATTCTTAGAACCAAAGACAATCTTGAAAATATGTCAATTTTCCATAAATTAGCCAA
TCTTAAACTCTACTAATTAGCCAATCCAGGTAATTCCTATCTTGGGTTTCTCTGTTCTGCTTTCTAATTGTACCATATATCCAAGAATCCCTGAGGAAGT
TTTGCTTGGATCTGAACACTGTGAAAGTGGTAACAAAATACACATATTATTCTCTGACTTGCTTCCCCACCCTCCAAACCTTTTAAGCCGTGTCCATGTT
GAAGCCTATGGTAATATTTCATTCATTTTTACTGTTGTATATTAGTTCATTGTATGAATATACAGCTTAATACCTATGAAACAATGACTAACCATGGCTC
TTTGGATTTTTTTCTGATTTTTTTTTTTTTTTTTTACTATCAGAACGCTTTCATGAACATTTCTTTGATGGGGTTCCTGGGGCACCTCAGCACTGGGTCA
CACAGTGTGCAAATATTCAACTCATAAAATTCTAGCAGATTGTTTTTTGTAAGACATTGAACCAATTTACACTTCCAGCTGCACCGCATAGACATTCTAC
TCGTTCCACATCCTTGTCAACACTTCATGTTAGCAATACGTTTTTTGCCAATGGATAGGAAATAAAATGGTATTTCATTATGGTTTTAGTTGTGTCTCCT
CGATTACTAGAAAAGTGGGGCCGGTTTCACATGTTTATTGAACCCTCAAATTTCCTTTCCTGTAAAATGCCGACTTGCTTTCTTTGGCCTATTTTTCTAT
TGGTTGCTTTGTTTTCTTACTAATTTGTAGGAGTTATTTATATATTTATACATTTTATATTTTACATATTTTCATTGATGGGTGGTAAGTATCTTACCCA
AGTTAGTTCATGGCTTGCCTTCTCACCTTTTTTTTTTTTTTACAAACAGCATCACGTGTACATAGCTTTCTCACTTTCTTTGTGGTCACTTTGATGAACA
GAAATTATTGATTTTAATGCAGTCAAATTTATTCATCTTTTTCCTTGTGGTTAGGGCCTTTTATATCATTTCAGAAATCTTTCCCATCCTAAGGTTGAAG
AGGCATTATTCTACAATTTCTTCTATTCATTTTAGAGTTTTGTATTTTACATTTTTGAATCCCCAGGAATTTAATCCCTGGTCTGATGTGAGGTAGGAAT
AACGATTTGTTCTGTTTTTGTTTTTCCTTCCCCACTGAGTTACAGTATATGTCTGCAAGGATCAAGTTTCTCTATATGTAAGGTCTACTTCTGGGCTTTC
TGTTTTGTTCATCAGGTCTATCCGTTGGACCATAACCACACTTAAAGTAAGTCTTGCTACCTGGTACTAAAAGTTTCCTACCTTGATTCTCTCCAGCAGT
GCCATGCCTATTCTTGGCCCTTTTTGTTCATATGCATTTTAGAAACAACTGCCAAGTTTCATGGAAAATTCTGTTGAGGTTCTTTTTTTTTTTTTTTTTT
TTTTGTGACGGAGTCTCGCTCTGTCACTCATGCTGGAGTGCAGTGGCGTGATCTCTGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGT
GTCAGCCTCCCAAGTAGCTGAGACTACAGGCACCTGCCACCGTGCTCAGTTAATTTTTTGTATTTTTAGTAGGGATGGGGTTTCACCATGTTAGCCAGGA
TGGTCTCAATGCCCTCATGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCTGGCCTTCTGTTGAGGTTCTTAATG
GACTTATATGAAATCTATAGATCCACTTGGGGAGAATTGAAATCAGGATATTGAGTGCTCTCACCCATGAACATGGTATTTTTAAAATCTGCATTGTTAA
TGTCTTCCAACATAGTTTTATACTTTCCTCAGTAGGGGTCTTACAAATCTTTCATTACATTGATTCCTATGTCCCTTATATTTGTTGTTATGATGTTTAA
TAATTATACCTTTGTTGCCAATGTGTAGAAGTATAATTTATTTTTGAGTATTGATCCAGCAAACTTGCCGGGCTGTCTTTCTTATTCCACAAAGTTCTCT
GAGGAAATTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTATCACCCAGGCTGGAGTACAATGGTACAATCTAGGCTCACTGCAACCTCCGC
CTCTAGGGTTCAAGCGATTCTCCTGCTTCAGCCTCCCGAGTAGCTGGAATTACAGGCCCATGCCACTACACCTGGCTAATTTTTGTCTTTTTAGTACAGA
CGGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAAGCGGGAGCTA
CAGTGCCCAGCCTTGTGCTTTGTAGACAAGCAATTCTGGTAACTGATTATGAGTAAATTTTGTTTCTTCCATTCAAATAATTAAAACTTTTATTTATTTT
TCTTGTGCTATCTTACTGGGTAGGAGCTCTGGCACCATGGTGATAGCCACAAATCTTGTTTTGTTCTTGATTTAAAAGGAAATTCACCTTGAATATAGTT
TAGCTGTAAATATTAGAAGAATACTCTTTGAGATTTAAGAAGTTCTCTATTCTTAGTTTTCAAAGTGTTTTTATTTTTAATCAAGGATTGATATTAAATT
GTTTTATCAAATGTTTTTTCTGCATCTATTCATATGTTTGCATATCTGTTAATGTGGCGAATATTGCTAACTGATTTAGTCATGAGGTATTTTCTTATAT
CTATGCTACTGGATTCCATTTGCTAACATTTTGTTTAGGAATTTTAGATATATGTTTTT


SNP Information

Context             (SEQ ID NO:43184):
TGCCTGGTTTGCAAGAGCTCCTGGGTGGTTCGATCCCTGGGAGATGCCAACGGAAGGTGTCACCCCCGTCTCTTGCTGCTCCCGGGAGTCCATTGGAAAA
Y
CAAAGCCATTTAGTCCCAACCCCCTGTGGCCAGCAGCTGTTCCTGAGGGCCCTGTGCACTGTGGCCATGCCCGTCACTTGCTGGTGACCTTGGTTAGTGC
Celera SNP ID:            hCV2106498
SNP Position Genomic:     12540
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43185):
TCAGTTTCTCCATCTGCGAAATGGGTCTCACAGTCCCTGCTCTTCTTGCTTCCGCAGGCTTTTGGGGCATGTAGCGGACGGGTAGGCAAGAGGGGGCCTT
R
CGGAGTGCGTGTATGACCAGCCTCTCTGACTGTCTGTCTGTCTCTCCGCCTTGCTCAGCTGGCCCGAGATAACTTCTTCCGCTGTGGTGTGCTGTATGAG
Celera SNP ID:            hCV15880876
SNP Position Genomic:     16660
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;(G,-|A,-)   (A,-|G,-)   JBIC-allele(A,294|G,1135)   total(G,1135|A,294)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43186):
CAGCCTTCACAGTGAGGGGTCTTGGCAGGAACCCCTGCCCTTCTCTGCCACACCTGCCACTGCTGCTCTTCAGCTGGGGCCGTGGAAGCCTCACCTTCTC
S
CTGCTCTGTCTTCTCTAACCTCCCTCGGTGGGGCCTCCGAGCCCAGCCCCTCCCCCAGGACAGGGAGACACGGGACCCAGCTCAAGTTCTGCAGACCAGC
Celera SNP ID:            hCV29072085
SNP Position Genomic:     11747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43187):
GGTGTCACCCCCGTCTCTTGCTGCTCCCGGGAGTCCATTGGAAAACCAAAGCCATTTAGTCCCAACCCCCTGTGGCCAGCAGCTGTTCCTGAGGGCCCTG
K
GCACTGTGGCCATGCCCGTCACTTGCTGGTGACCTTGGTTAGTGCCCCTGGCTGCTGAGGAGATGACAGTGGGCAGGTGGTCCATATGATCACGGGACCC
Celera SNP ID:            hCV2106499
SNP Position Genomic:     12595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,8)      total(G,2|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43188):
GAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCCGCCTCAGCCCCCCGAGTAGCTGGGACTACAGGTGCCC
R
CCACCACGCCTGGCAAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGTCAGGATGGTCTCGATCTCCTGACCTTTGATCCGCCCGCCTC
Celera SNP ID:            hCV29072086
SNP Position Genomic:     17730
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43189):
CTCCTTACCCAGTTTCTGGCAAGGAGCCAGGCCTCGTCTCCTGCCCCCAGCAGTGAGCAGGCAGGAGGCCCATTTCTCAGCTGTAGCTCTGTGAGCCGAG
R
GATGGCAGCCAGGAGGCTGCTTTCTCAGGGCAGGGCGTGTAGATTTTGTCCCGTACTGTTGGGAATGCCCAGGAAAGCTTATTAAAACGTTTCTTCTGGC
Celera SNP ID:            hCV11741841
SNP Position Genomic:     8592
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43190):
TGGCTGCCGAACCCCTCCAGGCAGGCTGCAATCTGCAATCATCGTTAAATCGGCTTGCAGTTAATTTGGACATTGTTACTGGGGGATGGGGCCCGGGAGC
R
CTCCCTTCCAGCTGTGGGGGTCTGCCGAGTTAATGCTACAGTTGGCTGGTTTCCCCCTGACCATTTTGGCCCTGGCTTTGGTAAATCATTTAATGAGTGC
Celera SNP ID:            hCV11741842
SNP Position Genomic:     10798
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,9)      total(G,9|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43191):
TGGGGAGCAACATTTTTCTGGGTCCCCAGCATGATAGGTGGTGCGGCTGGGGTCTCAGGAAGGTGGGCCATTCGGCCATCTTTCTAGTGAGCTGGGCACC
R
GGGATCCCAAGGGGCCAGGGCTCTGGGTTGAGCCCAGGCTCCCTGATGCCCCACTGTCCCCAGACAGGTGTAAATACCCCGAGATCACAGGCTGCTTTGA
Celera SNP ID:            hCV11741843
SNP Position Genomic:     11183
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,8)      total(G,6|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43192):
CCCGAGTCTGTGAGTTGCCTGAGTTCAGCTGGATGACCGAGGGGTCCCCGTGGGATAACCGCACCCTCTGCTGTATGTTCATCTGGGAGCTCAGCTGCGG
Y
CCAAGCAACCAAGATGGCCTCTCACCCTCCAAGGGCCTCGCTCCACGTGGCCTCTAACCATTAATGGTCTAGCCCAGCCCTCCTTACAGCTTGTCAATTG
Celera SNP ID:            hCV29072089
SNP Position Genomic:     23164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:43193):
TGGGCTGGCATTTCGGGCGAGGGGTTGGACGAAAGCCTGAGGGGCCGACTCACTGTGGCGGCCACCTTGTTTTGCAGAGGGGGACCTACCTGCCGCAGAC
R
TACATCATCCAGGAGGAGATGGTGGTCACGGAGCATGTCAGTGACAAGGAGGCCCTGGGGTCCTTCATCTACCACCTGTGCAACGGGAAAGACACCTACC
Celera SNP ID:            hCV25973570
SNP Position Genomic:     18522
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,1|G,39)   total(A,2|G,74)
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:43194):
TGAGGGCCAAAGGGACAGTGAGGGTTCCAGGGCTTTGGTGTTTGAGCCTTGGTGTTGATTGGGCACAGTAGGCAGAGGCAGCGCTGGGGCGGGATTTAGG
R
GTTCTGCCTCTGTGTGGGGCTTTATGGAGGAAATGCCTTCGCCTCCAAGCAGGGACATCTGCGCTTTCCTGTCTACTTTCTGGTAGCCTGTAATGCTGCC
Celera SNP ID:            hCV11741845
SNP Position Genomic:     11381
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43195):
GCAGGGCCATGAGAGAGAAGTGCCCACCCGCAGTCTAGGTAAGGTGGGGGATCCCCAGCCTTCACAGTGAGGGGTCTTGGCAGGAACCCCTGCCCTTCTC
W
GCCACACCTGCCACTGCTGCTCTTCAGCTGGGGCCGTGGAAGCCTCACCTTCTCCCTGCTCTGTCTTCTCTAACCTCCCTCGGTGGGGCCTCCGAGCCCA
Celera SNP ID:            hCV11741846
SNP Position Genomic:     11692
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,5)      total(A,4|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43196):
CATGTTAGTAAACTTTCACAGCTTCCCAAGGCCCTGGCGTGGTGCAGAGGGACTTTAGGTGTTGCAAGTTGGCTCTGCCCATCACCTGCTAGATTTGGAG
S
CTTGGAAACAGTTCACTTCTGCGGGCCTCCTGTTGCCCCACTTGGCCAACCCGCACATTTCCTCCTTACCCAGTTTCTGGCAAGGAGCCAGGCCTCGTCT
Celera SNP ID:            hCV8698181
SNP Position Genomic:     8430
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|G,8)      total(G,8|C,4) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43197):
ACTTTCATGGCTGTCGTCCATTCCTGGGATTTGGCGCCCCGGCAGGCCCCACGGTGGCTTCTCTGCTTTCCTGCCGCTTCTCTCTCCATTCCCTCATTTC
Y
GCTCTCTTCTCTCAGCAGTCCTTGCATGTTTCAAGACCGTCAGCAGATTGCCAGTGAGGATGAGTTTCTCTTAGTGTGGAGAAAAAATGTTTATGGTGAA
Celera SNP ID:            hCV27457222
SNP Position Genomic:     10087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43198):
GCTTAGGACTATGCGATCTGGGGAAAGAATTAGAATCCTGGCATCTTTAGGACAGAACTGCATGTTAGTAAACTTTCACAGCTTCCCAAGGCCCTGGCGT
R
GTGCAGAGGGACTTTAGGTGTTGCAAGTTGGCTCTGCCCATCACCTGCTAGATTTGGAGGCTTGGAAACAGTTCACTTCTGCGGGCCTCCTGTTGCCCCA
Celera SNP ID:            hCV8698182
SNP Position Genomic:     8370
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,11)      total(G,11|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43199):
AGGTGGAGGTGGAGGAATAGAAGCCAGATTGAGGTAGGATGAGTGTAGGGAGTGATAAGGAAATGGAGACTGAATTTTCAAGAGGTTTGGCTAAGAAGAA
R
AAAAGATAAACAGGGTATCAAGTGGAGGAGGACGTGGGGTCAAAGAAGGGGTTTGTTTTTGTTTTAAGGCTAATACGAGCATGTTTCAGAGCTGACAGGA
Celera SNP ID:            hCV26333183
SNP Position Genomic:     2618
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:43200):
AACGTTTCTTCTGGCTGGCAGTGACCCCAGAACCCTCCTTGGTGTCTGAACTGGACTCCAAAACAAGATTTATTTTATTTTATCTATTTTATTTTATTTT
W
TTTTTTTTTTTGAGACAGAGTCTCACTTTTACCCAGGCTAGAGTTCCGTGGCACGATCTTGGCTCATTGCAACCTTCACTTCCAGGTTCAAGTGATTCTC
Celera SNP ID:            hCV26333184
SNP Position Genomic:     8778
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43201):
CCAGGAGCACAAGCAGGGTCCCCTCAGTCAAGGCAGTGGGATGGGCGGCTGAGGAACGGGGCAGGCAAGGTCACTGCTCAGTCACGTCCACGGGGGACGA
S
CCGTGGGTTCTGCTGAGTAGGTGGAGCTCATTGCTTTCTCCAAGCTTGGAACTGTTTTGAAAGATAACACAGAGGGAAAGGGAGAGCCACCTGGTACTTG
Celera SNP ID:            hCV27501447
SNP Position Genomic:     19988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:43202):
ACGTTTCTTCTGGCTGGCAGTGACCCCAGAACCCTCCTTGGTGTCTGAACTGGACTCCAAAACAAGATTTATTTTATTTTATCTATTTTATTTTATTTTA
T
TTTTTTTTTTGAGACAGAGTCTCACTTTTACCCAGGCTAGAGTTCCGTGGCACGATCTTGGCTCATTGCAACCTTCACTTCCAGGTTCAAGTGATTCTCC
Celera SNP ID:            hCV26333185
SNP Position Genomic:     8779
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43203):
GAGGGGGACCTACCTGCCGCAGACGTACATCATCCAGGAGGAGATGGTGGTCACGGAGCATGTCAGTGACAAGGAGGCCCTGGGGTCCTTCATCTACCAC
Y
TGTGCAACGGGAAAGACACCTACCGGCTCCGGCGCCGGGCAACGCGGAGGCGTGAGTGGCTGGCTTCACCCACAGTAGCCCCTGTCCCGTGCCCCAGACC
Celera SNP ID:            hCV25973016
SNP Position Genomic:     18598
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:43204):
CCTTTGCCATAAAGCTAGCAGGCCTCACCTTGTCGGTGAATTTGATTTGTGGAGCAGGCCCTCGGGCTCTCCCACGTAGCGCTTTGACTTTTTTTTTTTT
Y
CCTTTTCTGTCTTTCTGGTTGTTAGCAATCTCACAAGCTAGTTTCCCTGGTTTTCCAGAATGCAGAAGCAAAAGTCTGGCCACAATGCAGCCTCAACAGC
Celera SNP ID:            hCV26333186
SNP Position Genomic:     11980
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43205):
CAGATAACTCAAAATGCACCTGCTGAACCCACTGCATCTCTTTCGGTGGCTTCCAGGTGTGTCTTGGTTTCTCTTTCGAGGTGTGTCTCCTTTTCTCTTT
Y
GAGGTTTGTCTCGGTTTCTCTTTAGCCAGGACGAGTCCGGGTGACCCTGGTGGGCCTTCCTTTCCCTTCTAGGTGTCATCTCCTTCCCTCCCTTTCCCCC
Celera SNP ID:            hCV25995390
SNP Position Genomic:     14310
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,26)   total(C,56|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:43206):
GCACCCCAGGACCCCCCAGGAAGGTTTTGCAGGAATAAAGAATGAAGGCAGAAGCAAGATGGAGGATGAAGGAGGCGTGGATGGCTTCAGAAGGCAAGAC
R
GAGGCAGCAGTTTGGCGCCTGTCTCAAAGCCTCCTCCCCGCGCCAAGGACAGGTCGGAGGAGGGGGGCGTGGGGACAGGTAGAGCGGAGGCTCCAGCGTT
Celera SNP ID:            hCV27486400
SNP Position Genomic:     5530
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,23)   caucasian(A,4|G,18)   total(A,5|G,41)
SNP Type:                 hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:43207):
CATTTGCCTTTGATTAATGGTCCTGTGTCACCCCCTCCCCAGCCTGCATACCTGGGGATCAGATTTCAGTTTCCTAGTGTGTCCTGGTCTCAGGCCCTCG
R
CAGGAGGAGCTGGGTCTCCTGGAGCGGTTGGGGGAGGGTCCCGTGCCAGCCAGGAGGGCAAATCTGGCCAGCTTAGCCCTACCCCAGTGTCCTGATGCCC
Celera SNP ID:            hCV27454845
SNP Position Genomic:     9802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43208):
CGGTTTCTCTTTAGCCAGGACGAGTCCGGGTGACCCTGGTGGGCCTTCCTTTCCCTTCTAGGTGTCATCTCCTTCCCTCCCTTTCCCCCAAGACTCCCTC
Y
GGGCCCAGCCAGCAGGTGAAGCCTGACTTAGGGAAGGGGGGATTTCCAGGGGAGGGGCCCTGGCCCCCACTGACCCAGCATTGCTATCCACAGGAGGAGC
Celera SNP ID:            hCV25994647
SNP Position Genomic:     14422
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,22|T,4)   total(C,54|T,4)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43209):
GCCACCTTGTTTTGCAGAGGGGGACCTACCTGCCGCAGACGTACATCATCCAGGAGGAGATGGTGGTCACGGAGCATGTCAGTGACAAGGAGGCCCTGGG
K
TCCTTCATCTACCACCTGTGCAACGGGAAAGACACCTACCGGCTCCGGCGCCGGGCAACGCGGAGGCGTGAGTGGCTGGCTTCACCCACAGTAGCCCCTG
Celera SNP ID:            hCV25973056
SNP Position Genomic:     18582
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:43210):
ACCCAGGCTAGAGTTCCGTGGCACGATCTTGGCTCATTGCAACCTTCACTTCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAATA
M
AGGCACCTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGACTGGTCTCAAATTCCTGACCTCAGGTGAT
Celera SNP ID:            hCV9169104
SNP Position Genomic:     8909
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43211):
CCGCACATTTCCTCCTTACCCAGTTTCTGGCAAGGAGCCAGGCCTCGTCTCCTGCCCCCAGCAGTGAGCAGGCAGGAGGCCCATTTCTCAGCTGTAGCTC
W
GTGAGCCGAGGGATGGCAGCCAGGAGGCTGCTTTCTCAGGGCAGGGCGTGTAGATTTTGTCCCGTACTGTTGGGAATGCCCAGGAAAGCTTATTAAAACG
Celera SNP ID:            hCV9169121
SNP Position Genomic:     8581
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,5)      total(A,1|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43212):
TTTACCCAGGCTAGAGTTCCGTGGCACGATCTTGGCTCATTGCAACCTTCACTTCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGA
W
TAAAGGCACCTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGACTGGTCTCAAATTCCTGACCTCAGGT
Celera SNP ID:            hCV9169105
SNP Position Genomic:     8906
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43213):
GAGGCTTGGAAACAGTTCACTTCTGCGGGCCTCCTGTTGCCCCACTTGGCCAACCCGCACATTTCCTCCTTACCCAGTTTCTGGCAAGGAGCCAGGCCTC
S
TCTCCTGCCCCCAGCAGTGAGCAGGCAGGAGGCCCATTTCTCAGCTGTAGCTCTGTGAGCCGAGGGATGGCAGCCAGGAGGCTGCTTTCTCAGGGCAGGG
Celera SNP ID:            hCV9169122
SNP Position Genomic:     8527
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|G,8)      total(G,8|C,6) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43214):
GTGGAGGTGGAGGAATAGAAGCCAGATTGAGGTAGGATGAGTGTAGGGAGTGATAAGGAAATGGAGACTGAATTTTCAAGAGGTTTGGCTAAGAAGAAGA
W
AAGATAAACAGGGTATCAAGTGGAGGAGGACGTGGGGTCAAAGAAGGGGTTTGTTTTTGTTTTAAGGCTAATACGAGCATGTTTCAGAGCTGACAGGAAG
Celera SNP ID:            hCV2106488
SNP Position Genomic:     2620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,8)      total(A,8|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:43215):
TGTGTCTCAATTCCTACAGAGATTTCTAAGTCCCTAAAGTCACCGAGGCCAGGTCGGCACATCCCCTATCTTCTGTTTGAAAGAATATACCACGGTCACG
R
CTGGTATAAGCAAGAGGCCTAAGAGCTCAGATAACTCAAAATGCACCTGCTGAACCCACTGCATCTCTTTCGGTGGCTTCCAGGTGTGTCTTGGTTTCTC
Celera SNP ID:            hCV27969370
SNP Position Genomic:     14182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43216):
CCTAAACAAAAGCTCTTGGGGTCCTGAAACCAAAAAATTTAGGAATCACTGCACTAGGTTGTACGCCCAGCACTTGGCCGGCATTGAGCCCATGGTCAAG
S
GTAAGGAGAGGCCCGAGGGGGATGTGCACAGTGCTGAAGGTGCACAGGAAAGGGACTTATCCCAGCCGGTCTGGGAAGGCCTTCCAGGGGAAGTGGGGTG
Celera SNP ID:            hCV9169127
SNP Position Genomic:     4213
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,10)      total(G,10|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:43217):
TCTGGGTGAATGGTGTCACTTCCTGGCCCTCCTGTGGCTCAGGCTGAGGCTGGTGGTCTTTGTGACTCAGCCAGGATGCAGGGCTCACTGGGGTTTTTCT
K
TTTCCTCCCAGGGATCAACAAGCGTGGGGCCAAGAACTGCAATGCCATCCGCCACTTCGAGAACACCTTCGTGGTGGAGACGCTCATCTGCGGGGTGGTG
Celera SNP ID:            hCV25974167
SNP Position Genomic:     19095
SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,13)   caucasian(T,2)   total(G,5|T,15)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43218):
AGACATAAGCCACCTAAACAAAAGCTCTTGGGGTCCTGAAACCAAAAAATTTAGGAATCACTGCACTAGGTTGTACGCCCAGCACTTGGCCGGCATTGAG
Y
CCATGGTCAAGGGTAAGGAGAGGCCCGAGGGGGATGTGCACAGTGCTGAAGGTGCACAGGAAAGGGACTTATCCCAGCCGGTCTGGGAAGGCCTTCCAGG
Celera SNP ID:            hCV9169128
SNP Position Genomic:     4201
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,11)      total(C,11|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:43219):
TTTAGTAGAGACGGGGTTTCACCATGTTAGTCAGGATGGTCTCGATCTCCTGACCTTTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGC
R
TGAGCCACCGCGCCTGGCTGGCCAAAGCTTCTTGCAGCCCTGCCTGGGTCAGCTGTCACCTCCTGCAGAGACTGACCCAACCCCTTCTCCTGCCAGGGTC
Celera SNP ID:            hCV11741853
SNP Position Genomic:     17859
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43220):
GGGGGTCCTCCAGACATTTTCTGTCCTTTTCCTAAGCAGGGCGGGTCAGACCCTCAGCTCCCCAGGGCCCAGGCCCCACACTCCCCTGTGCTCTAAAAGG
R
TGGGAGGTGAAACCTGAGGAGCGAAGCAGGCGCCCCCAGGGCAGGACCCCTGTGCTGTGCTGAGAGATAGGGCCTGTCCTGAGTCACTTAGGCCTGAACC
Celera SNP ID:            hCV2106500
SNP Position Genomic:     12994
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43221):
CTAAGCAGGGCGGGTCAGACCCTCAGCTCCCCAGGGCCCAGGCCCCACACTCCCCTGTGCTCTAAAAGGGTGGGAGGTGAAACCTGAGGAGCGAAGCAGG
Y
GCCCCCAGGGCAGGACCCCTGTGCTGTGCTGAGAGATAGGGCCTGTCCTGAGTCACTTAGGCCTGAACCACCCCCCTCCAGGGGGAAGGGAGAAAGGAAA
Celera SNP ID:            hCV2106501
SNP Position Genomic:     13025
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43222):
AGGGAAGGGGGGATTTCCAGGGGAGGGGCCCTGGCCCCCACTGACCCAGCATTGCTATCCACAGGAGGAGCAGCCCCCACAACATCGATCCAAGAGGGGG
R
GCTCAGTGGGCGGCGTGTGCTACCTGTCGATGGGCATGGTCGTGCTGCTCATGGGCCTCGTGTTCGCCTCTGTCTACATCTACAGATACTTCTTCCTTGC
Celera SNP ID:            hCV2106502
SNP Position Genomic:     14552
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,24)   caucasian(A,18|G,12)   total(A,28|G,36)
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;JBIC-allele(G,405|A,1084)   total(G,405|A,1084)
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:43223):
GGGGGGGCTCAGTGGGCGGCGTGTGCTACCTGTCGATGGGCATGGTCGTGCTGCTCATGGGCCTCGTGTTCGCCTCTGTCTACATCTACAGATACTTCTT
Y
CTTGCGCAGGTGAGGGGCCGGGCCAGGTAGGGGCAAGGCCTCGAGAAAGGGTCATGTCTAGAGAGGCATGGAGGGAAGTGTCTGCAAGGGGGCAGCAGGA
Celera SNP ID:            hCV2106503
SNP Position Genomic:     14647
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,8)   caucasian(C,11|T,17)   total(C,33|T,25)
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:43224):
GTGGAGCTCATTGCTTTCTCCAAGCTTGGAACTGTTTTGAAAGATAACACAGAGGGAAAGGGAGAGCCACCTGGTACTTGTCCACCCTGCCTCCTCTGTT
Y
TGAAATTCCATCCCCCTCAGCTTAGGGGAATGCACCTTTTTCCCTTTCCTTCTCACTTTTGCATGTTTTTACTGATCATTCGATATGCTAACCGTTCTCA
Celera SNP ID:            hCV8698174
SNP Position Genomic:     20109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:43225):
TGGTGGATGGAAGCTTCCGGGCTTCATCCTGTAGCTGTTACACCACTTGTAACAGCCTGCTTGACTGCCGGTCGGTGCCTGTGGGGGGCCAGTGTGGATC
R
CAGGCCTAGAGCTCCCTGGCTGGGGACAAGCACCCATGCCCAGACCCCATGGGGCTCCTGGAGCCCCTGCCCCCATCAGTCACAGCCTCCTTGGTGGAGT
Celera SNP ID:            hCV8698175
SNP Position Genomic:     13829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43226):
GCTCAGTGGGCGGCGTGTGCTACCTGTCGATGGGCATGGTCGTGCTGCTCATGGGCCTCGTGTTCGCCTCTGTCTACATCTACAGATACTTCTTCCTTGC
R
CAGGTGAGGGGCCGGGCCAGGTAGGGGCAAGGCCTCGAGAAAGGGTCATGTCTAGAGAGGCATGGAGGGAAGTGTCTGCAAGGGGGCAGCAGGAAGCCCC
Celera SNP ID:            hCV2106504
SNP Position Genomic:     14653
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,22)   caucasian(A,18|G,10)   total(A,28|G,32)
SNP Type:                 SILENT MUTATION;DONOR SPLICE SITE;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;DONOR SPLICE SITE;TFBS;hmCS


Context             (SEQ ID NO:43227):
CATGGGCCTCGTGTTCGCCTCTGTCTACATCTACAGATACTTCTTCCTTGCGCAGGTGAGGGGCCGGGCCAGGTAGGGGCAAGGCCTCGAGAAAGGGTCA
Y
GTCTAGAGAGGCATGGAGGGAAGTGTCTGCAAGGGGGCAGCAGGAAGCCCCAGACATGCCCTCAGGTGGGAGCGAGTGCCCGGCCAGCCCACAAGACTGG
Celera SNP ID:            hCV2106505
SNP Position Genomic:     14702
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,24)   caucasian(C,11|T,11)   total(C,21|T,35)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;JBIC-allele(T,404|C,1087)   total(C,1087|T,404)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43228):
CTGCCAGCTTGGGAAGTGGGCTGGACCGGAAGCACCCCCTGGGACAGCAAAGCACTCCCTCCCAGCGCCAACTGGATCCCTCCTCCCCTTTGGGGGCCCA
Y
TGGCTGGCCATGCCCCTCTTAGCCTGCCCCTTCTCCCCACACCCTGCCTGTGCCTGCATTCACACACACACACACACACACACACACACTTATGCACACA
Celera SNP ID:            hCV8698176
SNP Position Genomic:     9494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43229):
CACTTCGAGAACACCTTCGTGGTGGAGACGCTCATCTGCGGGGTGGTGTGAGGCCCTCCTCCCCCAGAACCCCCTGCCGTGTTCCTCTTTTCTTCTTTCC
R
GCTGCTCTCTGGCCCTCCTCCTTCCCCCTGCTTAGCTTGTACTTTGGACGCGTTTCTATAGAGGTGACATGTCTCTCCATTCCTCTCCAACCCTGCCCAC
Celera SNP ID:            hCV25969414
SNP Position Genomic:     19248
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(G,12)   total(A,4|G,40)
SNP Type:                 UTR 3;UTR 5;hmCS


Context             (SEQ ID NO:43230):
ACAAGACTGGGGTGCCCCCTCCTCCTTGGGGCCTCCTTGGATGCAGGCCAGTCCCACATTTAGCCCCTTGTCCTGGGGAGCCAAGCATGAATCCGGGTGA
S
AGCACTGGGCCCGCCCCACAGGGTCACCCTGGGGAATTCTCACCAGAAACTCAGATCTGGCAGAAACTGGAACTGTGATCCCCCTCCACAGCTCAGACCC
Celera SNP ID:            hCV27453637
SNP Position Genomic:     14893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43231):
CCCCAGACATGCCCTCAGGTGGGAGCGAGTGCCCGGCCAGCCCACAAGACTGGGGTGCCCCCTCCTCCTTGGGGCCTCCTTGGATGCAGGCCAGTCCCAC
V
TTTAGCCCCTTGTCCTGGGGAGCCAAGCATGAATCCGGGTGACAGCACTGGGCCCGCCCCACAGGGTCACCCTGGGGAATTCTCACCAGAAACTCAGATC
Celera SNP ID:            hCV2106506
SNP Position Genomic:     14850
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(A,-|C,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43232):
GCCCCAGACCCTGACCTGATGCCCCACCGTCTCAGTTTCTCCATCTGCGAAATGGGTCTCACAGTCCCTGCTCTTCTTGCTTCCGCAGGCTTTTGGGGCA
Y
GTAGCGGACGGGTAGGCAAGAGGGGGCCTTGCGGAGTGCGTGTATGACCAGCCTCTCTGACTGTCTGTCTGTCTCTCCGCCTTGCTCAGCTGGCCCGAGA
Celera SNP ID:            hCV27453638
SNP Position Genomic:     16629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43233):
TCCCCACACCCCAATTCGTTGTGTGGACACCTCCCAGCAGCCCCTGGGTCTGTGCCCTGGGACAGTATTCGGGGTGTCCAGCCACTGTGGGATGCAGCCC
Y
GGAGCCTCACCTTCCCTGGGCTCTCATCCCCGCACAGCCCACAGGAGCCCCCCATGCTGCGATGACGCATCCTCCCTGGAGAACTTGCACTGAATCAAAC
Celera SNP ID:            hCV2106507
SNP Position Genomic:     15720
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43234):
CCAGGCAGTCCCAAGCATGTATCTACAGGCCCCTCCAGGAGCCCCCTCCAGAAGTAAGAGTGGGCAGACTGGCCCGCCCGGCCATTCAGTTGATGGGATC
R
CACCAGGCTGCCTGGCCTCCCTTACTGATGGAGTGACTGGACTGGCCCACCAGACACAGTGTCTGTCAAGGTTTCTCCAAGACAGGGGTCAGGGATATCC
Celera SNP ID:            hCV2106508
SNP Position Genomic:     15948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,10)      total(G,10|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43235):
TTTCTCCTGTTAGCAACAATGGTTCTTGCTGAGTATGAAGCAGCCGAGGCTGATTTTCTCCTCAGCCTCCTGCCAGCTGCACGCTGGCTGTCATGGCAGG
R
CCAGTGCGTTGTATCGAGGGGTAGTACATTCACCATCGAGTGCATTGCGTGTACAGCTCAGCGGGTCTCTGCAGAGTGGGTCTCATGCGTATTCATGTAA
Celera SNP ID:            hCV2106509
SNP Position Genomic:     17149
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43236):
CCATTTAGTCCCAACCCCCTGTGGCCAGCAGCTGTTCCTGAGGGCCCTGTGCACTGTGGCCATGCCCGTCACTTGCTGGTGACCTTGGTTAGTGCCCCTG
S
CTGCTGAGGAGATGACAGTGGGCAGGTGGTCCATATGATCACGGGACCCCTAAAGCAGGGCAAGGTGGGGAGAGGCCCCGGCCTCCTCATGGGCCAGGCA
Celera SNP ID:            hCV11473070
SNP Position Genomic:     12646
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,13)      total(G,13|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43237):
GCCTCTGGACGTCGGGGGTCCGAGGCCGGGTGCCCCCTTCCCACCCCACGCCCTGCCGTCTGGGCCTCCCTGCTCCCCTCTCTTTTCTCCATTCCCAGCC
Y
CTCGCTGGGCTGTCCCCCGACCCCACGGGGAGGGCTCCCAACTGCCCCAGTGCCCTTGCATCCTGGGTCCCCGGGCTCTGTGCGCGTTCCCCCACCCCTG
Celera SNP ID:            hCV2106491
SNP Position Genomic:     6979
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43238):
CCCCCCGAGTAGCTGGGACTACAGGTGCCCACCACCACGCCTGGCAAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGTCAGGATGGTC
K
CGATCTCCTGACCTTTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCTGGCTGGCCAAAGCTTCTTGCAGCCCT
Celera SNP ID:            hCV27459327
SNP Position Genomic:     17800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43239):
CGTGTGCTACCTGTCGATGGGCATGGTCGTGCTGCTCATGGGCCTCGTGTTCGCCTCTGTCTACATCTACAGATACTTCTTCCTTGCGCAGGTGAGGGGC
Y
GGGCCAGGTAGGGGCAAGGCCTCGAGAAAGGGTCATGTCTAGAGAGGCATGGAGGGAAGTGTCTGCAAGGGGGCAGCAGGAAGCCCCAGACATGCCCTCA
Celera SNP ID:            hCV15880875
SNP Position Genomic:     14666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43240):
TCCTTAAGACCTGCTCAGGAGCGCCAGAGGGGCAGGAGGGCATCCCTGGTGCCTGGTTTGCAAGAGCTCCTGGGTGGTTCGATCCCTGGGAGATGCCAAC
R
GAAGGTGTCACCCCCGTCTCTTGCTGCTCCCGGGAGTCCATTGGAAAACCAAAGCCATTTAGTCCCAACCCCCTGTGGCCAGCAGCTGTTCCTGAGGGCC
Celera SNP ID:            hCV2106497
SNP Position Genomic:     12491
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Gene Number:                 215
Celera Gene:                 hCG34446 - 117000147037289
Gene Symbol:                 SPON2
Protein Name:                spondin 2, extracellular matrix protein;DIL-1;DIL1
Celera Genomic Axis:         GA_x5YUV32W0YB(7940041..7957944)
Chromosome:                  Chr4
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12375):
GGTCACCCTTGGACACTCAGTCCACAGTCTCTCTTCAACCCTCCTCACAATTCTATAAGCCACTTAGCCCCCATAGTAAATCCCTGTCTGCTCACACTGG
TTATGGTAGGCTTAGTTCTCTGTAGGAGCTCTGATTGAAAAAAAAACCCTGGCATGACAGAGTATGACCAGGCACTCCTCTGGGGGTGGGGGGTGGGGCC
TGCAGCTGTTCTCCCTGAGGCCTGTATGGCAGGAAGAAGGCAGCACAGGAAGAATCCTTTAGGTAGGGAGAGCTGCACGTGCAAAGGCCCTGAGGTGTGA
GCAGCCAGGGGTGTCTTGGCCAGGGAGGAAGTCAGCGGGTGCTGAAGAGGAGGGACAGAGGAGAGTGGGGCGGGAAGAGCCACTGGACCATGTGGCCCCA
TCCCTTCGAGTCTGAAGATGAGGGAGGGGGAGGGGGCCAGGAGAACCACTGGACCATGTGGCCCCATCCCTGCGAGTCTGAAGTCTCAAGGGCTAAAGTA
GCCTTTAGAAAGCAGATATGTGCAGAGCCCATGGTGCCTGGCCGGAGCAAAGCCCTTGGTGTGTGCAGAGCCCATGGTGCCTGGCCGGAGGGAGGCCCTC
GGTGTGTGCAGAGCCCGTGGTGCCTGGCCGGAGGGAGGCCCTCGGTGTGTGCAGAGCCCGTGGTGCCTGGCCGGAGGGAGGCCCTCGGTGTGTGCAGAGC
CCGTGGTGTCTGGCCGGAGGGAGGCCCTCGGTGTGTGCAGAGCCCGTGGTGTCTGGCCAGAGGGAGGCCCTCAGTGTGTGCAGAGCCCGTGGTGCCTGGC
CGGAGCGAGGCCCTTGGTACATGTCCGTGAGTGGACAAGCAAGTGTGATGTGTCTGGGTGGGCTGGCAAACACAGGACTTTTCAGGTGGGTTTTCAAATG
CGCAGCAGGGTCCCTTGGGGGAGCCAGAAACTGATCCTGGAGTCTGGGTGCTCTGGAGGAGACGGCCGCTCCCGTGGGTGGGTACTCCGCGTCTGAGTCA
GCTGGTGTGGTGTCAGCAGATGTGGCCAGGAGCTCCATGCTGCTGGGCCAGGCCTGGGTGCCTGTGCCGCGCCCCAGGGAGGGGCTGTGGGCAAGCCCTG
AAAGAGCCGTTGACATGCCAGACCCTGAGGGCCCCCATGCCAGAACCCATGCAGAAAGGTAAAGAAGGCCTCTCCCTTCTCAGCTGGGACCCCTGCCCCC
TGAAGGGATCTTGGGTTCTGGGGCCCGGGGCAGGGCCACAGCCTGAGGCGAAACAGAGCAGGGTGGCAGTTAGGGGAGGCTCGCCAGGCATTCCTGTATG
CCGTCTGCTCCACGCGGCTCACAAACAAACCCATGGAAACCCCACACCCGCCTGCTCAGATCCAATTTAAGCAGCACAGACTCCACCCCCGATGCCTGAC
TGGGAAAGGAGCTTCACAGCACCTGCGGTTGTCCAAAAGTCCAACCTTAGCAACACATTTTGGTTAAGACAACTTTTAAACATTGCCAACACCCTGGGAG
TGTGGGCGCCGATTACTCACACTGTGGTCTACACTTACCCAACCACAGCAGGCACTAAGGGGGTGTCAAAGACAAGGGGGTGCCTGCTGGGGCCGTGGCA
GGGCAGCCAGGTGGAGCTGGATGTGGACACAGGGGCTGCTCTGCCCAGCTGCAGACAGGCAGCAGCCACTGGCTCCAGCCACAGCCTTGAGCCACACTCT
CCTGAAAACCACCTTGGGGCAAGTGGCTCAAGTGACCTCCAGGAAGGCCCTGTCCTCAGAGGACCCTGGCATTGCTGTCAACCAATTCACTAAACACTTT
ACTGAATAAGAGAATCCAATCTACAAAATGTATCCACTCCACCCCAGCCCCCTGCAACCTTGGGCCTAGTGGGGTCACTCCTTTGTCCCCATCTCTGAGA
TGCAAGGAATACTCACCTTGTGGTTAATGAATGAATGAATGGTGTGAATGAATGAATGAAGTGTGTGAATGAATGAATGAAGTGTGTGAATGAACTGTGT
GAATGAATGAATGAACTGTGGATGATTGCATGAATGTACTGTATGAATGGATGATTGAATGAATGTACTGTGTGAGTGAATTAGTGCATGAATGTACTGT
GTGAATCAATGTACTGTGTGGATGATTGCATGAATGTACTGTGTGAATGGATGATTGAATGAATGTACTGTGTGAGTGAATTAGTGAATGAATGTACTGT
GTGGATGACTGCATGAATGTACTGTGTGAATGGATGATTGAATGTACTGTGTGAATGGATGCTTGAATGAATGTACTGTGTGAGTGAATTAGTGAATGAA
TGTACTGTGTGAATCAATGTACTGTGTGGATGATTGCATGAATGTACTGTGTGAATGGATGAATGAATGTACTGTGTGAGTGAGTGAATGAATGAATGTA
CTATTTGAATGGGTGGATGAATGAAAGTACTGTGTGAGTGAATGAATGAATGTACTGTGTGTGTATGTGGGGGGCTGCTCCTGCCTGCGGGCACAGAGGA
ACTCTTCTGTGTGGGTGGGGGGACACCTTGCAAAGTGCTGGTGTGTGAGTTACACCTATGGATACTTATCCTGTGACCCTCAGCAGAAGGCAGGATAGAG
ACTTCTGGTTCACAGAAGAGGGTCTGAGAGCCAGGGGGGTTTCCAGCAAGACTCTGAGAGCATGGAGTCACACAAGATCACTCCGTCACTGGCCTGCAGT
CCCTGCCTCAGTGCAGAAACAGCTCTGCCTGAGACCCCAGCCCGATCCAACCCAAGGGGCCACAGGATCCAGAAAATTAAGCCCACCTGGCCCCAGTTCT
CCCATGTCCCCCTCTCTGAGCACAGCAAAGAATGCTCCCATGTCCCCTGGTGCCCTAGGGCCTTCGCAGGCGTGCTTTTGGAGGGGCCTCCCACTACCAA
AGGAAGTTCCTCCTGGCTGCTGTCTACTCCAGCCCTCCAAACAAGCCCCCTCCCTTCCCAGACAAATCAGCTGTGGCCCTGCCTGGAGCACCTCCAAGGC
CTCGGTCTACCACCACCCCACATCCTAGCTAGAGACCCCCAGGCCTAGGCCCACCACTGCCCTACATCCTAGCTGAAGCCCCCGAGGCCTGGGCCCACCA
CTACCCTACATCCTAGCTGGAGATCCCCAGGCCTGGGCCTACCACCACCCACATCCTAGCTGAAGCCCCCGAGGCCTGGGCCTACTACCACCCACATCCT
AGCTGGAGAACCCCCACCCAGGCCAGGGCCCACCACCACCCTATATCTTAGCTGGAGACTCCCCCCACACAGCCTGGGCCCACCACCACCCACATCCTAG
CTGGAGACCCCCCAGCCTGGGCCCACCACCGCCCTACATCCTAGCTGGAGACCCCCCAGCCTGGGCCCACCGCCAAGTGGGGGCCCCAGGTCGCAGAGCT
CACTGAGACGGCATGAGGGCCGGGCTGGGAGAACAGCTCCTGCTGCCCCTGGGCTGTTCCGCAGCCTCCTTGGCCTCCTGTGAGACTGGGTGAGCCTGGA
AGCCGCTGCCACGGCCAGAGCTGGACTGAGATGGGGACTGTGCCTCAGCGAGTCTCTGGAGCGGCACCCTGGCTTCCTACACAGGAACATGCCCCAGACC
CGGCGCCTCCTTCCTCTCCTCAGACCCAGAGCCAGTAGCTTTGCCATGGAGCCTGTGCTCCTTTCAGCCGAGGAAGCTGTCCAGAAAGCGAGGATTGTCC
AGGGATGCAGAGTAGCTGCAGTACAGCCGCCCCATGCCGCTCTGGGAAAAAGGCCTGTGGATTCGAGTCCAGCCTCTGAGCAGCGGCTGCCAGTCCTGCT
CTGGGGACTCGTGGAGGGCCTGAGATCCTTCCAGGCAGATGATGAGATCGAAGCCCATTGCATGAGGGCACCTTTTGCTCCCATGCTCTGATGGGCACAC
GGCGGCTTTCGAGGGCTGCAGGCCAGAGCAGGCACCTGACAAGGCTGGTAACATACGCAGCCAAGGCTGGATTTTCTTCATAGACTTCAACCAACAGCAC
ATCTCAGCAGATGAAGTGCTGGAGCCGATATGGGAATCCAGCTTCCACTAAGCCGGACAATACAAAGATTCGCACCAACGTAGAACCACGCCACTTTTCT
CAGGCGGGTTTTTCATTTTTAAAAGTATGATTGCTTTTCATAAAACATTATGCTATTTATGTTAATGTGTAATAGCAATATTTTCTTATTTTTAAGTGAA
TTGGCAAGTATTCTGAACATTTCTGTTATGATTTAGAAAATGATAAGTATCCATAGGTATAACCCATACAAACAAAAAAGTTCTTCAGTGTCCTCAATTA
GTTTTTTTTGTTTTTGTTTTTTGTTTTTTTGTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGACTGCAGTGGCGCGATCTTGGC
TCACTACAACCCCTGCCCCCTGGGTTCAAGAAATTCTCCTGCCTCAGCCTTCTGAGTGGCTGGGATTACTGGCGTGCACCACCACATCCAGCTAGTTTTT
GTATTTTTAGTACAGATGGGGCTTCACCATGTTGGCCAGGCTGGTCTCGAGTTCCTGACCTCAAGTGATCCGCCCGCCCTGGCCTCCCAAAGTGCTGGGA
TTACAGGCATGAGTCTCACTCTGTCGCCCAGGCTGGAGGGCAGTGGCACACACAGTTCACTGCAGGCTTGACCTCCCCTGGCTCAGGTGATCCTCCCACC
TCAGTCTCCTGAGTAGCCGGGACCACAGACACAGTCTCCTGACTAGTTGAGACCACAGGCGCACTCCACCACACCCAGCTAATTTTTGTATGTTTTGTAG
AGATGAGGTCTCCCTGTGTTGCCAAGGCTGGTATCAAACTCTGGGCTCAAGTGATCCTCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGC
CACTGCGCCTGGCCCTCAGTGACCTTTAAGAGTATGAAGGAGTCCTCAGATAAAAACATTTGAGAAGCACGGAGGTGGAAATTTGTCTTTGGCCTGGGGG
CCTGGAGTCTAAATACTGCATTGAGTGGCTGATCTGTGGTTTTCGCTTAAAATACAGGTTAGATCATTTGTTTCTGTTTGCATTCTGTCCTAGTTGCTTC
TATTTATTTTTTCTCTCTTTTTGAATCTGTGAAACATTAACAGGGTTCCAAACATCAGAGTGTTTTGTCTAAGCTTAAAAGCCCTCTGGGTGATTCCGAT
GAGCAGAGGCCGGGAAGGATTGAGCAAGACCATCCCCGAGCTCCTTCCTCCGCTCTGTTTCCAGATCCCATGACTGGGGACCTATAAATATTTTCCTGAC
ATGGAGCAGGATCAACTTCAGCATCTGTTAGCTTCATCCCAAAGGCAGGGAAGCCTAGAGCCCCTGGGAGGGCTCTGCACCGCACACACCGCCGGCCTGC
AGCCCCAGCCCTGTGCGGGGTCCTGGGGAGGGGGGCCCCCTTTCTGTGGCTCTTCCTGACTCCCTGCGCGTTCCACCCCAGACCCTCAGCCCACTCTGAC
CTCCCTCCAGGAGGGATGGCTTGCAAATGCCCTCTGGCCACAGTGCAGACCGCTAGGCTGTTCTGTGCAGCTTTAGGCCATGCCAGGAAAGAGACTTAAA
GCCAGGGCCCCAAAGGCCAGGGATGCCTGCGCCGGGAGCCAGGAGCTTCCCCAGCCACTTCCAGCATGTAGACTGAAGTCAGGCCACGCACAGGGCTCTC
CAGGTCACACCCTGCGCAAGAAGGTGTAGCACGCTGGCTCTAATTTCGAGAAGGTGAAAACAAGAGCCCCTCTGCCCCCACGCCCTGAGCTTTCCCGAAA
GGCTTGGGGCAAAGAACTCCCCTCAGTGGCACCTAGGGAGGCACCAGGAAGGCGCTTGTTGGAACGGGAGAGAAACGGGGAGAGGGAGGAGGACAGGGGG
GAGGGGAGGAGGGGAGGGGAGGAGGGGAGGGGATGAGGGGAGGGGAGGGGAAGGGAGGGGACAGGGAGGGGAGGGGAGGGATAGGACAGACAGACAAAGA
AAGGGGTGCGGCAGCACTGCCAGGGGAAGAGGGTGATCCGACCCGGGGAAGGTCGCTGGGCAGGGCGAGTTGGGAAAGCGGCAGCCCCCGCCGCCCCCGC
AGCCCCTTCTCCTCCTTTCTCCCACGTCCTATCTGCCTCTCGCTGGAGGCCAGGCCGTGCAGCATCGAAGACAGGAGGAACTGGAGCCTCATTGGCCGGC
CCGGGGCGCCGGCCTCGGGCTTAAATAGGAGCTCCGGGCTCTGGCTGGGACCCGACCGCTGCCGGCCGCGCTCCCGCTGCTCCTGCCGGGTGAGTACTGC
GTGCCCCCGGGACACCCAGAGAGGGCCCGGGCCTCCTGCACTTTCCCCGCGGCCCAGAACCTTGTGGCACCTCCAGAGGGACCCYCAGGACTGGCTGCGA
CCGAGCTTTAAGGGTCTAGTCCCGGGGGCAGCCAGTCGGCCAAGGCCCCRGGTCCCTGCGACGGCGAAGGCATCCCGGAGGCCGCACCCAGACCGGCCCG
GCAAGCTGCAGGGACTCGGACTGAAAACCTGCCCGTTACCCCTGGTCGCTCGCAGGCGCACGGGCGATCTAACCCYGCGCCGTCCATTCCGCTGATGGGG
GTCTCGGAAGCRCCGCAGGAGAGCTTTGCGGAGCAGGGAGGGGGTCGCGGGTGCTCGGGGCCGTCCTCAGAGCCCAAAGTGCCGCAGCCCTCTCGGCTTT
CCACCCCGAGGCTGCCACGACGGTGCCAGCGCGCGGCTGCTCCCCTCTGTGCTCCCAGGTGATGGAAAACCCCAGCCCGGCCGCCGCCCTGGGCAAGGCC
CTCTGCGCTCTCCTCCTGGCCACTCTCGGCGCCGCCGGCCAGCCTCTTGGGGGAGARTCCATCTGTTCCGCCRGAGCCCYGGCCAAATACAGCATCACCT
TCACGGGCAAGTGGAGCCAGACGGCCTTCCCCAAGCAGTACCCCCTGTTCCGCCCCCCTGCGCAGTGGTCTTCGCTGCTGGGTAAGTACAGCCCCCTCCT
CGCCTCCTGCTCCACCAGGAGGRCTGCGGCGCCSGAGCCCCCCGCACAGCTGCACGGCGGCGCTTCCCAGTCTGGGGCGTGCTGACGTCGGGAGACTCTA
ACACYAGAATGTTTGCCGAGCGCCTGCGGTGTGCGGTTCCGGGGATGCGGTGGGGGCAGGGGGCGCTCACGGGGAGGGCGCAGGTGGGTCGCGGCAGGGG
CAGCCACAGGGTGTCACGGTCCGACGTGACTGGGGGCCATGGTTCCCTGCGGGCGGCGGGGAGGGATTTCCTGGGGCGCCCCCTGGAATCCAAGCCCGAC
CGCAGTGTCTGACCATGGTCCGCGGCGCGGCCGGGTGGTCCTGCAGGGGCCGCGCATAGCTCCGACTACAGCATGTGGAGGAAGAACCAGTACGTCAGTA
ACGGGCTGCGCGACTTTGCGGAGCGCGGCGAGGCCTGGGCGCTGATGAAGGAGATCGAGGCGGCGGGGGAGGCGCTGCAGAGCGTGCACGMGGTGTTTTC
GGCGCCCGCCGTCCCCAGCGGCACCGGGCAGACGTCGGCGGAGCTGGAGGTGCAGCGCAGGCACTCGCTGGTGAGCGCGGGGCCGGCCGGGGGCGGGGTC
CGGGGGGCCGGGGCCAGGCGCGCTGAGCCGCTGTCGCCGCAGGTCTCGTTTGTGGTGCGCATCGTGCCCAGCCCCGACTGGTTCGTGGGCGTGGACAGCC
TGGACCTGTGCGACGGGGACCGTTGGCGGGAACAGGCGGCGCTGGACCTGTACCCCTACGACGCCGGGACGGACAGCGGCTTCACCTTCTCCTCCCCCAA
CTTCGCCACCATCCCGCAGGACACGGTGACCGAGGTGAGTGGGCACCCCGCGTGCGCAAGGGCCGCTATGGCCCCCGCGGTGGGGACGGGGCTGGGGCCT
GGCTGCACCCTCGCCTCCCAGCCCAGGACAGCCGCTTGCGGCTTTTGTGTGGAAGAGGCTCTGCTTCTAGCGCCAGCAGTGAGCAAGGGGGTGCAGCCCT
CCCATACTCTCCCAACCCGGGGTCACAGCACCGCAGGGAGGACAGCGGGACGCGCGTCCCGAGGAGGCCGCCCCTTCCTGGCCTCGGTTTCCAGCCCGTG
TTCCGTGGGATGRCTGAGAGGAGTACATGGGACCCTGTCCCCAACAGTGGTGCAGAGGGCACGCTGGACGCTGGGCAGTGGCCCCAGTGAGGCCATACGC
ATACCAGAAGGTGGGCTTCTCGGACCCCAGGCCAACCTCCTCTTCTTCCTCCCCAGATAACGTCCTCCTCTCCCAGCCACCCGGCCAACTCCTTCTACTA
CCCGCGGCTGAARGCCCTGCCTCCCATCGCCAGGGTGACACTGSTGCGGCTGCGACAGAGCCCCAGGGCCTTCATCCCTCCCGCCCCAGTCCTGCCCAGC
AGGGACAATGAGATTGTAGACAGCGCCTCAGGTAACGGACATACAGGTCACATGGGACACACAGCAGCCCCGAACCCTGCCACAGGGCGACCACCAAACC
CGAACCTAAGGCTCTGAGAAATTCCAAGTAGGGATTCGTAGTGCGTACTGCAAGATGGTGCCTAGAAGATTTAGGATTCTGTTGATTCACACACTGAAGA
TGTGACTCTTGCACATTATTTGCAGTTGAAAGCATCTTACAGGGCCACAGCCCAGAGGAAAGAATGAAAGGAGGCTCCAGACAGTACCTGAGAGACTCTG
TCCTGTCAGACACGCACCCACAGGTGACCTGTGTGTCACAGCTGACAAGGAAGCTTGCTAGGATGGCCCTGTRTGGCCACCGGGTGACAGCTATGCTGCA
GGGCACCTGTGGGGGTCTCGGGACCCAGCCACCACACAGCTCGGGGCTCTGCTCACAGGCGCCTTGGCCTGGGGCGGGGCAGGTGCTGRTGAGCATTCTC
CTAGCTCTTCCAGGCACCTGCTGGACAGGGCAGGCTGGGAACGCTGGGGCCRAGTGGCAGTTCCCTCCCTRCTCAGCTGGGTGGCAGCCACTGGCCTCAC
GGAGCGCCTGTGGTCTGGAGCGCATTGCTGGGTCGTGGGTCAGGGCCTGTTGGCTCTGGGTCTCTGGGTCTCACCTGATATGGGTGTGGGACAGTCAGTG
TAGGCCCCAGACAACAGCGGACTTCAGACTTTCCCGAGGAGGAACTGGAGCCCACCAACCTGGCCATGGGCCCCGTCGTCCTCCACCCTCCATGTTGCTG
GCTGGAGTTGAGGCAGGTACGGGGCCGCCCCACACCTGCCCCCCAAGCCATGTGGTAGGGACAGATGTCGTCTTGAGGAGCAGCAGTAATTACAAGCTTA
CTGTCAGCCGTCCCTGGAAGCAAGGGCCAGGTCAGGTCAGACAGGAGGCCGCCTGGCTGGCGGGAACCACTCCCCAGACAGAGACTGTGCCCAGTCCTGG
GTCCCTCCTCATTTGGGATGAACTGGGCCTCCCTGTGCCAGCCTCGGTGCTGCCCCTGCCCAGTGCAGGCTTGGGCTCCTCACTCATTTGTCCACGCGGA
TGCCCCATTCCAAGCAGATGTCCCCGAGCCACTTACCCAACAGGCAGACGTGCCAGCACTGTYCGTGGTGTGCAACTGGTCTGGCGGGAAGAGCCCCTCG
TGGGCAGAGGGTCCAGAGAGGTGCGGTTTGCCCCACATTTGGGGGCACTGGGCCACAGTGGGCAGGGGAGCACRTGGCCAGTGCCCTGGGCTAGGAGAGG
GATAAAGTCAGCTGTGGCCAAGCAGAAGCAGTATTGCAGGGGAAGGGTGGGGAGAGACTGTGCTATGAGCTCTGAGCAGGAGGCAGGACATGGAGAGAAG
GGTGGGAGACGGACAGAGCCAGCTGTGCCAGCCGAGGGACCAGAGTGGGCAGTGGGGACGGAGCACAGACCACCGCCCACAAGGGTCTCTCCTGTGACTT
CTGGCTTCCCGAGGGCAGAGGCTGGGMTGGGCATGTGGCGGCTGGCACCCAGGAGGCTCCGCCAGGTCCACGCCAAGCCAGCCTGGCTCAGCTCTGGCTT
CCTGCTCACACGCTGGATGCCTGTCCCCAGGCCTCCTGACAGGGCTCTGCAGCATTGGAGAGGCTTGTGGTGGGGCCCTCGCTGTAGAACAGGCACTGCC
AGTGCTCACTGACTCCTCATTGCAGCCAGGGCAGGGGCGCTCCCACCACCTCGGTTTCAGTCAGGAAGCTGGGGGGTGCTGGGATCTGCCAGCAGCTCTG
TGTGCTCCCCAGGTGGGCTGCCCGGGGCCCTGGCTCTCTGGCTTCTACACCAGTGCCCCTGCGAAGCCTCAGCGCCCAAGGTCTTTGCAAGCCCTGTTCC
TGCATCTCTGGAGAGGGCTGCTCCAGGTGTGGGCCTGGCCAGGGCTTCCAGACCAGTCCAGGCACTGCACCTGCACATTGACCCCCTTCTCCACTCTCTC
TCATCCTTCAGTAGCCACAAAGCTGGCAGCAGGGTACTCGCAGATTTGTGAGGAGAGCCGAGCCCTTGCTGACTGTCCTCCCGTGCACGGCAGAGTGAGG
CGGGGCTCCTGGCCTCCTTAGGGGCTGCCCGCTCTGGGCCACACAGCCAGAGAAACACTGTCCATCTGGCTGGCTTGGCCTGTGGGGTGCAAAAGAGGYG
TTTTCACTTTGCTTTGGAAACATGGAAATTACCAAGTGACTTAACCATAACACCAAATGATGATTTTTAAATTTATGAAAATTATGGAACCAGATGGGAC
ACAGGGAAACGAGAACGATACTGAAAAGGTCTGAGTCCTGTGGGGGGTCCAGGTCCCGCAAGACAGCTAATCAGGTGCCCCTGTCTGTTATTCGGGTAAA
TGTAGCAGCTGGGTCCAGGCTCGGGCAGAGCAGCTTTCTACAGCAGGGGTGTCCGCCCTCTCCCGGGGTTCCCACGGGGTTCCCAGGGGCCYCTTACTCT
GCCACGATGTGGGAGTTCCACCACCACAGGGACTTGAGCGGCAGCTCCGGCTCTTACGTAGAAACGCGCAACTCCAGTCCCTAGGTTGTGTCCGAGGTTG
CTATGGTGCCATCCCATCTTGCCGCTCACTCTGCGACTGTGCGGAGAAACGCAAGTGCCCCCGAAGGGTGGGCGTGGCCTCTGATGAATGCACACGTTGG
TGGGAGGTGGCTTCCGTTTGTACGAAGCGCCTCTTCACGCRAGCGTTCACCTCGGTCTCCCCTTTGCTTGGTYCAGTTCCAGAAACGCCGCTGGACTGCG
AGGTCTCCCTGTGGTCGTCCTGGGGACTGTGCGGAGGCCACTGTGGGAGGCTCGGGACCAAGAGCAGGACTCGCTACGTCCGGGTCCAGCCCGCCAACAA
CGGGAGCCCCTGCCCCGAGCTCGAAGAAGAGGCTGAGTGCGTCCCTGATAACTGCGTCTAAGACCAGAGCCCCGCAGCCCCTRGGGCCCCCCGGAGCCAT
GGGGTGTCGGGGGCTCCTGTGCAGGCTCATRCTGCAGGCGGCCGAGGGCACAGGGGGTTTCGCGCTGCTCCTGACCGCGGTGAGGCCGCGCCGACCATCT
CTGCACTGAAGGGCCCTCTGGTGGCCGGCACGGGCATTGGGAAACAGCCTCCTCCTTTCCCAACCTTGCTTCTTAGGGGCCCCCGTGTCCCGTCTGCTCT
CAGCCTCCTCCTCCTGCAGGATAAAGTCATCCCCAAGGCTCCAGCTACTCTAAATTATGTCTCCTTATAAGTTATTGCTGCTCCAGGAGATTGTCCTTCA
TCGTCCAGGGGCCTGGCTCCCACGTGGTTGCAGATACCTCAGACCTGGTGCTYTAGGCTGTGCTGAGCCCACTCTCCCGAGGGCGCATCCAAGCGGGGGC
CACTTGAGAAGTGAATAAATGGGGCGGTTTCGGAAGCGTCAGTGTTTCCATGTTATGGATCTCTCTGCGTTTGAATAAAGACTATCTCTGTTGCTCACAA
ATGTCCCTGGCTGTCCCCACACTTGTTCTGGGCCCCGTGCAGTGCAGGGACCCGTGGTGTGCGCTAATTGGGGACACACATTCAGAAGGCGCCTGGTGCT
GCCGTCAGGGCCATGAGGCACGTGCTCTGTGTGTGTGTGGGAGGCAGGCCTGAGACCTACAGATCTCCCCACAACAGACGCCACCCCTGGCCCATACAGG
ATTTCAGAAGACACAGCAAATGGCATGTCAGATGCATCCACAAACCCGGCAGGCACGCGCCTGCCCACAGGACGATCAGAAGCTCAGACAAGGGGCACCT
TGAGATCCGGACGAGGCCCCAGAAGCCCTCACTCTGCCCCCTCCTCTGTGGGAGCAGCTTGCATTGCTGCTGTTCATGGGGGGGCCACTGACCACCAAGA
CCCTCGCAGCCCATCAGGCCACCAGCAGACACCTCCTGAGACCTGAGCTCAGAGGCCCCAACCTCAAAGATGTCCTCAGGGGCTCACTGTAATCTGTCGT
GGCCCTTTCTGCAGCAGGGGTCCCCAGGCCTCCCCACCAGTGCCACTCACCTGGTGGAACCCCAGGGCCCTCTCAGTGCCTGGGCGGGAGCTCTGTGTGG
TTTGAGGATGGAGATGCTTGGGGGATGGCTGCTTCTTCAGTCCTCTCCCAGTGACTGGAAGGTGGGGGCTCACTTCTCTCACCGAGGCCTGGTAGACGAC
CCTTCCTCGTAACTGTCTAAGGCCCTCCAGCCCTGATGCTTCTAGAACCAGACCCCAGGCCCAGCTCCCACCACCCTGCACGCCATCCCCGCCCACCATC
CTTGAAAACAATGAACTAAGCCCAAGCTCACGGGCGCATGAGCTCTGAGGTGACGTGGAGATCTGAAAAACCCCTGGCTTAAAGTTTTCTTAAGGTTCCT
GGGACTGACAATGCCAGGAGGCCCCTGAAAGAATGGCCGTAAATCCTGTGTAGAGATCACACTGTGTACTTGGAACTCAAGAGGATCCCCAGGAACATGA
ACCCACAATCAGAACCCATAAAACGCACAGAACACCAGCCTTGATGCTCCTGAGTCAGAGCACATGGCAAACTCCACGGTCAGAGCCACCGGGCCGCTGG
GGCTGGCATGACCAGGAGAAGATGCTGACCGAGTTAACCTCGCCAGGAGCTCTAAACTCAAAGACACCAGAGCAGCACAATGGGGTGGTGCATTGAAGCC
TCGACAGACGGACACAACACTCCAGTCAAAGGGCAGAGACTGCAAGAGCAGACTCACAGAACCATGCGCTACTGTGGAGCCTGTGAAGTCCTGTAGGATC
ACTGAAAGGCTGGGGAAGGGGTTGTGGTGCAGACTCCTGCAGACACCTGGATCCACCTGCCCTCCCTCCTGGAGCATGGAGCTGGGGGTCCCTGGGGTAG
GACAGGCGTCACTTTGGGGCCAGAACATTTACTGCCCAGGTGAGAGGCTATTGTGCTTTCCTGGCCTCAGGGACCCCAGGGCATGTGTTGACGTGGGTGC
CATCACTGAAGTCTCTGGGGCCCCAGGGCATGTGTTGATGTGGGTGCCATCACAGAAGTCTCCAGGGCCCCAGGGCATGTGTTGACGTGGGTGCCATCAC
AGAAGTCTCTGGGGCCCCAGGGCATGTGTTGACGTGGGTGCCATCACAGAAGTCTCTGGGGCCCCCACGCCACTAGGACGGCCACTGTTGTGCTGAGGCA
TTGAGATTTGAAGGAGACCAATGGGGAACKCCATCCGGTAATGGAATGCTGTGTGAGGAATCCCACAGGGGCCGCCTGGCCGGAGGGTGGATCAGACAGG
ACCTATGTGGCTGCCCTCTCCTGAATGAGGTGGGGAGCACGGGAAGGCGCAGAGTGCAGAAACAGCACTGCATCAGTGGCCGCCATCTTGACAGCAGTGA
GTAGTGGGTATAGACAGGAAAATGGAGAGGAGAAGCCCCTGCAATAGTCCCAAAAGAGAGAGGTTTGGGCCTCAGAGACACCCGTGGACATGGGAAGAAA
TGGATGAGTCTGGGTTTGTTTTGATGAAAACGCAACGTGAATACTTACAGACCTGCGTTTAACATGCCTCCCAGAGATACCCAAGCAGTTGACCCCATCC
CAGTTTCAGGAAGGCCTTGTCCCAACTGGGTCAGCATGGGGAGCCAGGGGGGCAGTGAGCAAGTGAGGGCAAGTTCACACCTGAGGGACCCATTCGTGGT
CTGTAGCCCCCTGCACACTGTGCTGCCACAGGTGGACGGGGGGCACCTGGGCCAGAAGGAGGGGCTCCACAACTACACTGAGACTGCATGCCCCTCATAT
TAGTGGGATGTGGATACGCTGGGCTCCAGGGTGCTGCTGGGCCTACAGGGTGAGGGTTGGTCCAGCCCACTGTGCTGAGAAGTGGTCGGCAGTCCACAGT
GTCCGAGCCATAGGAGGATAATCATGGAATGGCCCACTGTGCTCAGCAACAACACACAGGCCATGGGGACTGGGGCTGAGGGGTCTGTGGCACTGGGGGA
GGAAGACAAAGGGTAGAACATGGAGAAGCGATGGGCAGGGAGTTCCTGGCAAAGATGGTAGGCTGAGGAACTGAGCACTGACACCTAACTCCACTCCCAC
CATACTCCATTGGAGCTGTAGAAGAGGGTGTGTGGATGGCACAATCCAGACGCCTACCTTGGCACTCTCAGGGGACACCCTCCACCCACAGAATGGCGAA
ACGGGATGGATACAGCTCTGAGACACTGCCCCTTTCATAAGATGCAGGGAGGACTCCACTTTCTACCCCCACTTCTAAAAATAAGTAAACACACACATTG
AGGCTGGAGCAAGGAGGTGGTGTCAGGCCAAAGAAACAAGCTCATGAGCAGCTGGGAGAGACAGGGCTCCTGAGGGCTGCTGTGAGCTTGGCTAGCAGCA
GAGTGAAAAGGTGAACCCAGCACCCCACATGGAGAGGGACCCTCGAGGCCAGCAATGCCCTGTGATATAGGAAAGGACAGGAGCAATTCTCTCCTCAGGA
GCTTTCCCAGTCCCTAGTGTGAGCCCCAACAATCAAAATCAGGCAACGAGCACAACACAAAGATTAAATAAACAAGAAAACAAGTCGCTATAATTGAAAG
CCAGAAAAAAAAAACCAACAGATTCAGACACCCAAGATCTCAGATAATTAACTTGTCAGAAATGTAATATAAAACAAATAGAACAAAAATGACCAACCAA
CAAGGGAAATTAGAAACAAACAGATACATTTGGAAAGGAAAAATTATAAAATGAGGAAGCCTGAGTGAGTTGGAGAGCTAATTAGCATAGCTGAACAAAG
AATTAGTGAACTGGAAGATCTAGCTGAAGATATCAGGCAGAATGCAGCACAGAGAGACAGGAAATGGGAAATTTCACAAAGATATGGAAGACAAGATGGA
AAGTTCTAAAATGTTTTAAATCAGAGACTCTAAAGGAGATAATAGGGAGAGTGGAGAAGAGATAATATTTAAAGAGAAAATAGTGCAAATTTACAGCACT
GGTTAAAATTAGAAGCTGTCTCCAGAAACAGAAAGCATAATGTATTCCAAAGAGGAGAAGTGAAAGCAGTCCACGCCCACRCACAGTATATTGAAACTGG
TGAACACTAAACACAAAGAACGAACCTTCAGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTC
AGGAGATCGAGACCATCCTGGCTAACACGACGAAACCCTGTCTCTACTAAAAATACAAAAAAAATTAGCTGGGCGCGGTGGCGGGCACCTGTAGTCCCAG
CTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCCCAGAGGCAGAGCTTGCAGTGAGCCAAGATTGCGCCATTGCACTCCAGCCTGGGAGACAGTGA
GACTCCATCTCAAAAAAAAAAAAACAAAAAACAAAAAAAAAAAACAAGAAAAAACCTTCAAAGGACCCAGAGGAATGTACAGATTGCTTATGAAGGAACA
TCTATTGAATGACAGCTACTTCCTAACAGCCCAAAGGGAGTCAGAAGGCAGTCAGATAATAACTTTTGAAATGTTGAGAGAAATTAACTGTCAACCCACA
GCTGGGAACTCAGCAACACCTTTTAAGAATGAGAGCAAAATGCAGACATTTTCAGATTAACAGAAACTGAAGAATCTTAATACCAAGATAATTACCCTGA
AAAACTTCTAAAGGATGTTGTTCAGGGTGGAGGAAAATTATCCCAAAAGGATGGTCTGAGATTTGAGGAATGGTAATACAAATTATTTTAAATCTCTCCA
ATAACAAAAGTATAAATTCCCCAAAGATGGAGAAAAAAATAACAGCAAAATTAGAGAAGCTGAAAAGCAGCGGTAAAGTGAGAGCTGATCAGCAGGGCCG
AGGAAAACAAATCCTAAGCTGGAAGTTCAGGTTCACAAATTCAAATAACTGGCCGGCCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGA
GATGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTGTACTAAAAATACAAAATTAGCCGGGAGTGGTGGC
AGATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAAGCAGAGGTTGCAGTGAGCCGAGATTGCACCATTGCACTC
CACCCTGGGCGATACAGACTCCTTCTCAAAAAAACAAAAACCCCCAAAAAACAAACACCCAAATTCAAATAACTGGGCAAATTTTTAACCACAGAATGTT
TAAAAGCACAGGGAATTGTCAGTTCCAAATACATTTATTACTAGATTCTATAATGTCATAGTATAATTTTGGTATAGGATAATGCTGACCTCATAAAATG
AATCCAAGTGCTCTCTTCTCTGACTTTGTGAAAAATGGATATTAACTTTTTCATAAACGTTTTATAGAATATTTCACAGAATTCACCAGTGAGGCCATTG
GGCCTAGAATTTTCTTTGTGGGAGGAGTTTTTAATTACAAATAAAATTTATTTATTCGATTCTTTATTAGATTGATTAGGCTATTAAAAATATTTTTTCT
TGTGAAAGTTTTTGTAATTTGTGCTTTTGAAGAATTTGTCAATTTCATCTAAATTGTCAAATGTATTGGCACAACTCATTCACAAAATTCTTTTAGACAG
GGTATCCCTCTGTCGTCAGGCTGGAGTGCAGTGACACAGTCACTGCTTACTGCAGTCTCAGCCTTCTAGGTTCAAGCCATCCTCCCACCTTAGCCTCCTG
AGTAGCTGGGACTACAGGTACCCCCCCACCACACCCAGCTGATTTTTATTGTTTTGTAGCAACAAGGTCTCACTATGATGTCCAGGCTGGTCTTAAACTC
CTCAAGTCATATCCATCTTCCTTAGTCTCCCGAAATGCTGGGATTACAGACATGAGCTACCACACTGGCCCATAAAATTTCTTTATTACCCTCTTATTAT
CTGTAGAATTTATAACGATATCCCCTTTCATTCTGATATTGGTAACTTGTGGTTTTTCTCCTTCTCCCCTGATCAGACTTACCAATTTTATTGATCTTTC
AAAGAACGAGTTTTAGTTTCATTAGCTTTCTCTAGTGTTTGTTCATTTTGTTTCAATGATTTCCACACTTTACTTTTACTTTTTCTTCCATCAATCTTTA
ATGTTTCCTTCCTTCTTACTTTAGGTTTAATTTGCTTTTCTTTTTGTAGTTTATTAAGGTAGAAGTTTAGGTCATGGATTTTAAACTTTTCTTCTTTTCT
AATACAAGCATTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGTTGGAGTGCGGTGGCGTGATCTCAGCTCACTGCAACCTCCGCCT
CCTGGGTTCAAGCAATTCTCCTATCTCAGCCTCCCAAGTAACTGGGACTACAGGCACATGTCATCATGCCTGGCTAATTTTTAAATTTTTAAAATAGAGA
TAT


SNP Information

Context             (SEQ ID NO:43241):
GGGCTTCTCGGACCCCAGGCCAACCTCCTCTTCTTCCTCCCCAGATAACGTCCTCCTCTCCCAGCCACCCGGCCAACTCCTTCTACTACCCGCGGCTGAA
R
GCCCTGCCTCCCATCGCCAGGGTGACACTGCTGCGGCTGCGACAGAGCCCCAGGGCCTTCATCCCTCCCGCCCCAGTCCTGCCCAGCAGGGACAATGAGA
Celera SNP ID:            hCV25615573
SNP Position Genomic:     8313
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,26)   caucasian(G,38)   total(A,2|G,64)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:43242):
GGCCTTCCCCAAGCAGTACCCCCTGTTCCGCCCCCCTGCGCAGTGGTCTTCGCTGCTGGGTAAGTACAGCCCCCTCCTCGCCTCCTGCTCCACCAGGAGG
R
CTGCGGCGCCGGAGCCCCCCGCACAGCTGCACGGCGGCGCTTCCCAGTCTGGGGCGTGCTGACGTCGGGAGACTCTAACACCAGAATGTTTGCCGAGCGC
Celera SNP ID:            hCV25615567
SNP Position Genomic:     7023
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:43243):
TCTTCCTCCCCAGATAACGTCCTCCTCTCCCAGCCACCCGGCCAACTCCTTCTACTACCCGCGGCTGAAGGCCCTGCCTCCCATCGCCAGGGTGACACTG
S
TGCGGCTGCGACAGAGCCCCAGGGCCTTCATCCCTCCCGCCCCAGTCCTGCCCAGCAGGGACAATGAGATTGTAGACAGCGCCTCAGGTAACGGACATAC
Celera SNP ID:            hCV22273366
SNP Position Genomic:     8344
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,18)   caucasian(C,24|G,14)   total(C,34|G,32)
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   JBIC-allele(G,428|C,1055)   total(G,428|C,1055) 
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:43244):
GGCTCCAGACAGTACCTGAGAGACTCTGTCCTGTCAGACACGCACCCACAGGTGACCTGTGTGTCACAGCTGACAAGGAAGCTTGCTAGGATGGCCCTGT
R
TGGCCACCGGGTGACAGCTATGCTGCAGGGCACCTGTGGGGGTCTCGGGACCCAGCCACCACACAGCTCGGGGCTCTGCTCACAGGCGCCTTGGCCTGGG
Celera SNP ID:            hCV15967445
SNP Position Genomic:     8773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43245):
TGACGTGGGTGCCATCACAGAAGTCTCTGGGGCCCCCACGCCACTAGGACGGCCACTGTTGTGCTGAGGCATTGAGATTTGAAGGAGACCAATGGGGAAC
K
CCATCCGGTAATGGAATGCTGTGTGAGGAATCCCACAGGGGCCGCCTGGCCGGAGGGTGGATCAGACAGGACCTATGTGGCTGCCCTCTCCTGAATGAGG
Celera SNP ID:            hCV26934855
SNP Position Genomic:     13630
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:43246):
GCCAGCCGAGGGACCAGAGTGGGCAGTGGGGACGGAGCACAGACCACCGCCCACAAGGGTCTCTCCTGTGACTTCTGGCTTCCCGAGGGCAGAGGCTGGG
M
TGGGCATGTGGCGGCTGGCACCCAGGAGGCTCCGCCAGGTCCACGCCAAGCCAGCCTGGCTCAGCTCTGGCTTCCTGCTCACACGCTGGATGCCTGTCCC
Celera SNP ID:            hCV27512125
SNP Position Genomic:     9927
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,262|A,1227)   total(A,1227|C,262) 
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:43247):
GTGCAGGCTTGGGCTCCTCACTCATTTGTCCACGCGGATGCCCCATTCCAAGCAGATGTCCCCGAGCCACTTACCCAACAGGCAGACGTGCCAGCACTGT
Y
CGTGGTGTGCAACTGGTCTGGCGGGAAGAGCCCCTCGTGGGCAGAGGGTCCAGAGAGGTGCGGTTTGCCCCACATTTGGGGGCACTGGGCCACAGTGGGC
Celera SNP ID:            hCV27514763
SNP Position Genomic:     9563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43248):
CAGCCCGGCCGCCGCCCTGGGCAAGGCCCTCTGCGCTCTCCTCCTGGCCACTCTCGGCGCCGCCGGCCAGCCTCTTGGGGGAGAGTCCATCTGTTCCGCC
R
GAGCCCCGGCCAAATACAGCATCACCTTCACGGGCAAGTGGAGCCAGACGGCCTTCCCCAAGCAGTACCCCCTGTTCCGCCCCCCTGCGCAGTGGTCTTC
Celera SNP ID:            hCV22275550
SNP Position Genomic:     6873
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,5)   caucasian(A,32|G,6)   total(A,59|G,11)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:43249):
TCGGGTAAATGTAGCAGCTGGGTCCAGGCTCGGGCAGAGCAGCTTTCTACAGCAGGGGTGTCCGCCCTCTCCCGGGGTTCCCACGGGGTTCCCAGGGGCC
Y
CTTACTCTGCCACGATGTGGGAGTTCCACCACCACAGGGACTTGAGCGGCAGCTCCGGCTCTTACGTAGAAACGCGCAACTCCAGTCCCTAGGTTGTGTC
Celera SNP ID:            hCV11357020
SNP Position Genomic:     10892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43250):
GCGGAGAAACGCAAGTGCCCCCGAAGGGTGGGCGTGGCCTCTGATGAATGCACACGTTGGTGGGAGGTGGCTTCCGTTTGTACGAAGCGCCTCTTCACGC
R
AGCGTTCACCTCGGTCTCCCCTTTGCTTGGTCCAGTTCCAGAAACGCCGCTGGACTGCGAGGTCTCCCTGTGGTCGTCCTGGGGACTGTGCGGAGGCCAC
Celera SNP ID:            hCV22273485
SNP Position Genomic:     11141
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,15)   caucasian(A,9|G,27)   total(A,14|G,42)
SNP Type:                 INTRON


Context             (SEQ ID NO:43251):
CGTGGCCTCTGATGAATGCACACGTTGGTGGGAGGTGGCTTCCGTTTGTACGAAGCGCCTCTTCACGCGAGCGTTCACCTCGGTCTCCCCTTTGCTTGGT
Y
CAGTTCCAGAAACGCCGCTGGACTGCGAGGTCTCCCTGTGGTCGTCCTGGGGACTGTGCGGAGGCCACTGTGGGAGGCTCGGGACCAAGAGCAGGACTCG
Celera SNP ID:            hCV22273486
SNP Position Genomic:     11173
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,1)   caucasian(C,36)   total(C,53|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43252):
AATTATGTCTCCTTATAAGTTATTGCTGCTCCAGGAGATTGTCCTTCATCGTCCAGGGGCCTGGCTCCCACGTGGTTGCAGATACCTCAGACCTGGTGCT
Y
TAGGCTGTGCTGAGCCCACTCTCCCGAGGGCGCATCCAAGCGGGGGCCACTTGAGAAGTGAATAAATGGGGCGGTTTCGGAAGCGTCAGTGTTTCCATGT
Celera SNP ID:            hCV9657774
SNP Position Genomic:     11753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:43253):
GCCGCCGCCCTGGGCAAGGCCCTCTGCGCTCTCCTCCTGGCCACTCTCGGCGCCGCCGGCCAGCCTCTTGGGGGAGAGTCCATCTGTTCCGCCAGAGCCC
Y
GGCCAAATACAGCATCACCTTCACGGGCAAGTGGAGCCAGACGGCCTTCCCCAAGCAGTACCCCCTGTTCCGCCCCCCTGCGCAGTGGTCTTCGCTGCTG
Celera SNP ID:            hCV9657775
SNP Position Genomic:     6880
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,38)   total(C,68|T,4)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): SC_12_C(T,0|C,23)   SC_12_AA(T,1|C,19)   SC_95_C(T,5|C,178)   total(C,220|T,6)no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:43254):
CTCACAGGCGCCTTGGCCTGGGGCGGGGCAGGTGCTGATGAGCATTCTCCTAGCTCTTCCAGGCACCTGCTGGACAGGGCAGGCTGGGAACGCTGGGGCC
R
AGTGGCAGTTCCCTCCCTACTCAGCTGGGTGGCAGCCACTGGCCTCACGGAGCGCCTGTGGTCTGGAGCGCATTGCTGGGTCGTGGGTCAGGGCCTGTTG
Celera SNP ID:            hCV1161340
SNP Position Genomic:     8952
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43255):
GGGGCGGGGCAGGTGCTGATGAGCATTCTCCTAGCTCTTCCAGGCACCTGCTGGACAGGGCAGGCTGGGAACGCTGGGGCCGAGTGGCAGTTCCCTCCCT
R
CTCAGCTGGGTGGCAGCCACTGGCCTCACGGAGCGCCTGTGGTCTGGAGCGCATTGCTGGGTCGTGGGTCAGGGCCTGTTGGCTCTGGGTCTCTGGGTCT
Celera SNP ID:            hCV1161341
SNP Position Genomic:     8971
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43256):
GGCTGAGTGCGTCCCTGATAACTGCGTCTAAGACCAGAGCCCCGCAGCCCCTGGGGCCCCCCGGAGCCATGGGGTGTCGGGGGCTCCTGTGCAGGCTCAT
R
CTGCAGGCGGCCGAGGGCACAGGGGGTTTCGCGCTGCTCCTGACCGCGGTGAGGCCGCGCCGACCATCTCTGCACTGAAGGGCCCTCTGGTGGCCGGCAC
Celera SNP ID:            hCV1161342
SNP Position Genomic:     11431
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:43257):
TCCTGCTCCACCAGGAGGGCTGCGGCGCCGGAGCCCCCCGCACAGCTGCACGGCGGCGCTTCCCAGTCTGGGGCGTGCTGACGTCGGGAGACTCTAACAC
Y
AGAATGTTTGCCGAGCGCCTGCGGTGTGCGGTTCCGGGGATGCGGTGGGGGCAGGGGGCGCTCACGGGGAGGGCGCAGGTGGGTCGCGGCAGGGGCAGCC
Celera SNP ID:            hCV22274819
SNP Position Genomic:     7105
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,4)   caucasian(C,19|T,5)   total(C,41|T,9)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43258):
CGGCCCAGAACCTTGTGGCACCTCCAGAGGGACCCCCAGGACTGGCTGCGACCGAGCTTTAAGGGTCTAGTCCCGGGGGCAGCCAGTCGGCCAAGGCCCC
R
GGTCCCTGCGACGGCGAAGGCATCCCGGAGGCCGCACCCAGACCGGCCCGGCAAGCTGCAGGGACTCGGACTGAAAACCTGCCCGTTACCCCTGGTCGCT
Celera SNP ID:            hCV1161335
SNP Position Genomic:     6450
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,24)   caucasian(A,6|G,30)   total(A,16|G,54)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43259):
AGCAGTACCCCCTGTTCCGCCCCCCTGCGCAGTGGTCTTCGCTGCTGGGTAAGTACAGCCCCCTCCTCGCCTCCTGCTCCACCAGGAGGGCTGCGGCGCC
S
GAGCCCCCCGCACAGCTGCACGGCGGCGCTTCCCAGTCTGGGGCGTGCTGACGTCGGGAGACTCTAACACCAGAATGTTTGCCGAGCGCCTGCGGTGTGC
Celera SNP ID:            hCV1161336
SNP Position Genomic:     7034
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,29)   caucasian(C,9|G,25)   total(C,14|G,54)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43260):
GCCGGGTGAGTACTGCGTGCCCCCGGGACACCCAGAGAGGGCCCGGGCCTCCTGCACTTTCCCCGCGGCCCAGAACCTTGTGGCACCTCCAGAGGGACCC
Y
CAGGACTGGCTGCGACCGAGCTTTAAGGGTCTAGTCCCGGGGGCAGCCAGTCGGCCAAGGCCCCGGGTCCCTGCGACGGCGAAGGCATCCCGGAGGCCGC
Celera SNP ID:            hCV27848715
SNP Position Genomic:     6385
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,32)   total(C,64|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:43261):
GGTCCAGCCCGCCAACAACGGGAGCCCCTGCCCCGAGCTCGAAGAAGAGGCTGAGTGCGTCCCTGATAACTGCGTCTAAGACCAGAGCCCCGCAGCCCCT
R
GGGCCCCCCGGAGCCATGGGGTGTCGGGGGCTCCTGTGCAGGCTCATGCTGCAGGCGGCCGAGGGCACAGGGGGTTTCGCGCTGCTCCTGACCGCGGTGA
Celera SNP ID:            hCV25922008
SNP Position Genomic:     11383
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,36)   total(A,1|G,65)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:43262):
TACGTCAGTAACGGGCTGCGCGACTTTGCGGAGCGCGGCGAGGCCTGGGCGCTGATGAAGGAGATCGAGGCGGCGGGGGAGGCGCTGCAGAGCGTGCACG
M
GGTGTTTTCGGCGCCCGCCGTCCCCAGCGGCACCGGGCAGACGTCGGCGGAGCTGGAGGTGCAGCGCAGGCACTCGCTGGTGAGCGCGGGGCCGGCCGGG
Celera SNP ID:            hCV1161337
SNP Position Genomic:     7491
SNP Source:               Celera
Population(Allele,Count): Caucasian(C,121|A,191)   Chinese(C,22|A,30)   Japanese(C,6|A,14)   African(A,29|C,69)   total(A,264|C,218)no_pop(C,2|A,3)   total(A,3|C,2)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:43263):
TAGTGCAAATTTACAGCACTGGTTAAAATTAGAAGCTGTCTCCAGAAACAGAAAGCATAATGTATTCCAAAGAGGAGAAGTGAAAGCAGTCCACGCCCAC
R
CACAGTATATTGAAACTGGTGAACACTAAACACAAAGAACGAACCTTCAGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAG
Celera SNP ID:            hCV1161345
SNP Position Genomic:     15481
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:43264):
CAACCCGGGGTCACAGCACCGCAGGGAGGACAGCGGGACGCGCGTCCCGAGGAGGCCGCCCCTTCCTGGCCTCGGTTTCCAGCCCGTGTTCCGTGGGATG
R
CTGAGAGGAGTACATGGGACCCTGTCCCCAACAGTGGTGCAGAGGGCACGCTGGACGCTGGGCAGTGGCCCCAGTGAGGCCATACGCATACCAGAAGGTG
Celera SNP ID:            hCV1161338
SNP Position Genomic:     8113
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON;NONSENSE MUTATION


Context             (SEQ ID NO:43265):
AGCTATGCTGCAGGGCACCTGTGGGGGTCTCGGGACCCAGCCACCACACAGCTCGGGGCTCTGCTCACAGGCGCCTTGGCCTGGGGCGGGGCAGGTGCTG
R
TGAGCATTCTCCTAGCTCTTCCAGGCACCTGCTGGACAGGGCAGGCTGGGAACGCTGGGGCCGAGTGGCAGTTCCCTCCCTACTCAGCTGGGTGGCAGCC
Celera SNP ID:            hCV1161339
SNP Position Genomic:     8889
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43266):
GGCGGGGCTCCTGGCCTCCTTAGGGGCTGCCCGCTCTGGGCCACACAGCCAGAGAAACACTGTCCATCTGGCTGGCTTGGCCTGTGGGGTGCAAAAGAGG
Y
GTTTTCACTTTGCTTTGGAAACATGGAAATTACCAAGTGACTTAACCATAACACCAAATGATGATTTTTAAATTTATGAAAATTATGGAACCAGATGGGA
Celera SNP ID:            hCV27482743
SNP Position Genomic:     10599
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,148|T,1331)   total(C,148|T,1331) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43267):
GGACTCGGACTGAAAACCTGCCCGTTACCCCTGGTCGCTCGCAGGCGCACGGGCGATCTAACCCCGCGCCGTCCATTCCGCTGATGGGGGTCTCGGAAGC
R
CCGCAGGAGAGCTTTGCGGAGCAGGGAGGGGGTCGCGGGTGCTCGGGGCCGTCCTCAGAGCCCAAAGTGCCGCAGCCCTCTCGGCTTTCCACCCCGAGGC
Celera SNP ID:            hCV29285078
SNP Position Genomic:     6612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43268):
AGGTGATGGAAAACCCCAGCCCGGCCGCCGCCCTGGGCAAGGCCCTCTGCGCTCTCCTCCTGGCCACTCTCGGCGCCGCCGGCCAGCCTCTTGGGGGAGA
R
TCCATCTGTTCCGCCAGAGCCCCGGCCAAATACAGCATCACCTTCACGGGCAAGTGGAGCCAGACGGCCTTCCCCAAGCAGTACCCCCTGTTCCGCCCCC
Celera SNP ID:            hCV25615571
SNP Position Genomic:     6857
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(A,3|G,33)   total(A,8|G,64)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:43269):
CGGAGGCCGCACCCAGACCGGCCCGGCAAGCTGCAGGGACTCGGACTGAAAACCTGCCCGTTACCCCTGGTCGCTCGCAGGCGCACGGGCGATCTAACCC
Y
GCGCCGTCCATTCCGCTGATGGGGGTCTCGGAAGCGCCGCAGGAGAGCTTTGCGGAGCAGGGAGGGGGTCGCGGGTGCTCGGGGCCGTCCTCAGAGCCCA
Celera SNP ID:            hCV27840865
SNP Position Genomic:     6576
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:43270):
AACTGGTCTGGCGGGAAGAGCCCCTCGTGGGCAGAGGGTCCAGAGAGGTGCGGTTTGCCCCACATTTGGGGGCACTGGGCCACAGTGGGCAGGGGAGCAC
R
TGGCCAGTGCCCTGGGCTAGGAGAGGGATAAAGTCAGCTGTGGCCAAGCAGAAGCAGTATTGCAGGGGAAGGGTGGGGAGAGACTGTGCTATGAGCTCTG
Celera SNP ID:            hCV29285079
SNP Position Genomic:     9674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 5;TFBS


Gene Number:                 216
Celera Gene:                 hCG34603 - 84000313574957
Gene Symbol:                 CAPG
Protein Name:                capping protein (actin filament), gelsolin-like;AFCP;MCP
Celera Genomic Axis:         GA_x5YUV32W5TR(1409651..1445906)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12376):
ATAGATAGAAAGAAAGAAAAAGAAGGGAGGAAGGGAAAGAGGGAGGGAGATGTGACCTGGACTTCAAATATAAGGAAGCACAGGAAGACAGAGGCACTAG
GGGAAGGCAGGGCCAGGGAGCGGGAGGCCAGGCCAACAGGAGGTTATGTGGGGGCCACCATGGGAAAGCCAGGTTTCCCTTCTTGAGGGGAGTGGAAGAG
AGGTACTGATGACACAAGGATTCCTCTCCCAGCAGAGTGGGAACCCACAAAGGCAAGTGAAGTTTAGGTGGGGTAGAAAGGAAAGAACTTTCTGAACATG
AGGTTAGGGCCAAGTGCGTGGGGAGAGGTCTGTCCCTGAGGAAATAGGGGGACAGGAGCTGGGGAGCTCAGAAGCTCAAGACCAGCCTGGAAACAGGGGG
ACAGGGCAGGGAGCTGCATGTGGAGAAGAAGGTCCCACAAGGGTAAGGGGCCTTGAGTCCTCAGGACATTTTTGCCAGAGCAGGTGCTCAGGTTAGAGGC
CCAAGACGTTCCTGGTGGAAGGGCCTACAGCCAACGGAACTCTGTGGTTGGGTTCAAGTTAAAGCCAGGGGCAATCCCGGGGGACAGCAGTTTGCAGTAG
GGAGGGAAGGGGCTGTCCTGGGCCAATGGATGATGGGGCTGGCTTCACACAAGCTAGCAGAGGCCCCTCTTCCTCCCTCGCCTGCTGCTGTCACAGGTCT
GCTGACTCAGCTGACTCGGGACAGCTGTGATGGGTGATGAAGGGCTGACAGAGCGAGGGACAGATGGCTCCCTAGGAGAGGCCTCTGCCCCATCCCTCCC
TGGTGCACAATCATTTCTTGCCACAGTTTCAGAGCTTTGTGAGAGACCATCCCTCTGTCTCCCCTGGCAGTGGGTAGAAAGTCTGGTGTGTAGTTTGTTG
GCCAGGTGCAGTGGCTCACACCTCTAACCCCAGCACTTTGGGAGGTCAAGGCAGGTGGATCTGTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATG
GTAAAACCCCATCTCTACTAAAAATACAAAAAATTAACCGGGTGTGATAGCACACGCCTATAATCCCACTTACACGGGAGGCTGAGACAGGAGAATCACT
TGAACCTGGGAGGTGGGAGTTGCAGTGAGCCGAAATTGTGCCATTGCACTCCAGCCTGGGCGACAGAGTGAGCAGAGTGAGACTTCGTCTCAAAAAACAA
AACAAAACAAAACAAAAACAACAACAACAACAACAAAAAAAACAGGCCGGGTGCAGGGGCTCACGCCTGTAGTCCCATCACTTTGGGAGGCCAAGGCAGG
CGGATTACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGACGTGGTGGCACGCG
CCTGTAATCCTAGCTACTAGGGAGGCTGAGGCAGGAGAACTGCTTGAACCTAGGAGGTGCAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCC
TGGGTGACAAGAGTGAAACACCATCTCAAAACAAAACAAAACAAACAAACAAAAGTCTGGTGTGTAGTTTGTCTCTGTTTTTCCGGAAGGCATTCCACTA
GTTCTTCTCAGGTTCTCCTAGGGTTAGGCTGGGAGCTGAAAGTTGAGGTTGGTTTTCCCCAGCCTCTAGGGCACAGTGTCCCAGACAGCAGCATCCTCTT
CCCTCTGTCCCACCCAGGTGGTGTGCCTCTGTCCCACTCACCTGTCCTGCCCTGCCCTGTTCCGGAACCTTTGCTCGTAGTATCTCTGGTTGTGTCACGG
CTCTGCCTAAAACCCTTGAGTGACTCCTCATGGCTCCTTGAACAGAAACCAAATGCTTCTTGATGCCTGGAAAGATCAGGCCCCTCCTACCTCCCCATCC
CCAGTCCCTCCATTGTTTCCCAGGGACTCCCTCACACTCACCTTCTCTCTCTGCTCCTCCAATGTGACTGAGGCCCAGGCAGACCATTCTGTGTCCTGTT
GACTTAAGGAAATTTTAGTGGAATTTCTAGATATTTACTCAATCTTTACAGAATATGACAAAGAGAGAGAGCATTCTTTTTAATTTTTTTAATTTAAAAA
CAGATATGGGGTCTCACTATGTTGTCCAGGCTGGTCTTGAACTTCTGGGCTCAAGCAATCCTCCTGCCTCAGCCTCCCAAAGTGTTGGGATCACAGGTGT
GAGCCACTGCACTCGACCAAGAGGGCATTCTTAATATGCAGCACAACAGTAAAAAGAAAAAAAAAAGAAAGAAAGAAAAAAGGACTCTTCTATATGTATA
TCATACTTCAAAAAATGTTACCCCCAAAATGGCAATATCCTCTTCACAGATGTCCCCGTCTCCCAGAGCCCAGCCCTCTCCCTTCCACCTTGGCTCTTTA
TCCTGCACTCAGCCACAGTCTCTTTAGCTGTCTTTCAGCTTGATCCATTCCCCCGCTGCCCAGATTCTGCCCCCAAGAGAGCCCAGGAGGTGACCAAGTA
CACAGGATACACAGGTGAGGTTGGGTGTGGGGGAGAGTGGTTGCAAACACAGTGTGACATGGCTTCTTTCCACCCTTTCTAATCTCCACCAGGCCCTTCT
TATCTGGAGTGTACATTTGCTATTCCTCCTCTGGAACATCCTGGCCCCTTTCCTCCCTCCTCCTGCAGGCCCCAGCTTAGGTGACCCTTCCTCAGCAGTG
GAGGTCCCAGACCAGGACAGTCTCCTACCCCGCTCTCTGAGCTCCCACCATAATTAAACCTACAGGTTTATTTCACAGCTAGACTGTAAACTCCCACACT
CGACTGCACGCTATGTAAATGGGCAGCCACTGTGTCTGCTAGGTTCACGGCCAAATTCCAAGTGCCGGGCCCACAGTCTGGCACACAGCAGGCTCTCAAT
CAATATTTGTTGTAGCTGCTATTCAAACCTTACTCATTCTTTACAGGTTGCGCAAAGCCTGCCTCTCTGCAAACATCTTTGGTCTCTCTTCTCTGAAAGG
CCCGTGTCTTGCCCATTTCCTGTCCATATGTCTTCGACTACCGGGCCTAGGCTGAGGCACAATCCCCCGAGGTCCCGGCTGTTTATCTGCTGAAAACCTT
TTTCCCCAGCGCAGATGGATCACCAAGGACTCCCTCACACTCACTTTCTCTGGTTCTCTGGATACCTCTGGCCGACCTTCCCCACCCCACTGGGTCCTTT
CCTCAATTTGCCTTCCTTAGCGGGAGCGGCCGGCGTCTGTTCCTCCCCTACACTCTCCCTCCTCCACCAAATGTAACATGGCCCTGCTTAGGCTTCCTTC
TTCAGCACAGAGCCTGGGAGCCAAGCTTCTCCTGTTCCCAGCTGGTCTTCTACCCTCCCCGTTAGGAGAGACTGGACACAGTGGCTCCCCGACGTCTCCA
ACCCCACCTCCTTCCTTGATGGGCCTGGAGGGCCCTGAGATCACCCTCCCTCCCTTTTACCAACAGAAAAGCCGAGGCCAGAGAAGAATGGATGCTGGCC
AAGGCCATATGATGTACACAGAGCCAAAGCCACAGTCCCCTCACCCCGTCCCGGGCCACTGTGGGGACCTAAGCAGTCGTTCCACGGGAGAGGGCGACCC
CTGGTGGTGAGGAGGGGCATGGCAGCCTGTCGCTCATTTCCTGGGCCCGGAGGCTGACGGTGGAAGGGGCGTGGCCTGGAGGACCACCGACCCAGGCTTT
AGTTATCAGGAAGGTAAATGAAGGCAAGGCCCGCAGAGCGAAAGAACGTGGGAAGTTAGGACAAGTTTTGCTGGGCTTTGCCCTTCCTTAGCCACATTCC
CTGTAATGACCTAACAACACTGCTCTGTGACTTTAACTGCACCCTGCTGATTGCTGGTTGGATCTTCAGGGAGCAGGAATGGGCATTCAACAGCTTTTGG
CACACTGCATGTCCCAAGGGTCATTACTGACTTGAGGGTCTGGTGCGAAGCCCTGGAATGCAGAAACTCACATTCTGATAATAAGATTTCTAATAATAAG
AGAATGGGCTCAGTCCGGGCACGGTGGCTCATGCCTGTAATCCCGGCACTTTGGGAGGCCAAGGTGGGCTGATCACCTGAGGTCAGGAGTTCGAGACCAG
CCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACGAAAATTAGCCAGGCGTGGTAGTGTGCGCCTGTGATCCCATAATCCCAGCTACTGAGGCT
GAGGCAGGCTGAGGCAGGAGAACCGCTTAAGCCCGGGAGGCAGAGGTTGCAGTGGACCGAGATTGCGCCACTGCACTCCAGCCTGGGAGACAGAGCGAGA
CTCTGTCTCAGGAAACAAACAAACAAACAAACAAACAAAACAGAACGGGCTCTTATTAAAGAGTCCAGGGACTGAGTCAATAGCTGTCTCCAAGTTTCTA
TGGTACCTATCTCTCCTCTCTAGGGGCAAAAGGGCTACTCAACAAAAGGCTGATTGTTTTAACAGAAACACTCAGAAAACCAAACCTTTGAGAACTTCCC
AGGCAGAAATAGGCATGCTTAGAGACCACGCGACCAGTTAATATGAACCCCACATCTGCTATCAAGAGAATCTGGGCAATCTACTTTGAATATCCCTTTT
GGAGCTGTTTCTAGGTGTTTAGAGATCAAATGAAATATTTCTAGGAAGTAGCTCGCCTCGAACTAACCACACAAGAATGAAATCTCACTGACTTACAAGG
TCATGGCTAAACCTTCATTGACTAGGTATTTTCCTCCTTCCTTGATGATCCAGTATGTAGCAGTATATGCCCAGATCAGGAAGTGTAAAAGCTGAAAATG
GAGTTGGAGACAGAAAGTCCAATGTGTTGCTGGCCACTGTGGTGTCACTGCTCCCGATACAGGTGTAACCTGAGTCTCCCGCTTGGGAGCCAGAAATCAG
CTGAGAAGAGGCCTCTGGAAAGAGGCTGCCCTGGCCCAGAAGGGTGGATGAAGTAGGGCCTCAGCACAGCTCATCCTACCGAGCAGGCCGGACCCTGAGT
TCCTGGCTTGCACTGAAGGGTCTGGGTAAGTCCCTTCTGTAGCGCCTCAGAAGCTCCTTGGGCAACCTGGGAAGTTAGGACAAGAGCTCTGACATTTGAC
CCTGAGGTGTGAGGAGAGTGCTTTGAGAGAGAGGATGCTGAATGCGAGCGCCCTGGTTATTACCTCCTGGCAGCCTCCTAACCTCACCTTGACTCTGCCA
TGTAAAATTGATGCCTGGGCGCAGGGCGCCGACGATGGTCAGATACCGCGGCCTGCACACCCTGGGACCTACATCCCTGACCTGGAGGACCCAGGCCTTC
CCCGGGCTTCACCACGAGTCCTGCCGGCCACACAGGGACCCTAACAGACCTAGTCCAGTCTCAGGGTCTGGGCTGCTCCTCCTTCCAGGAATGGGAGTTT
GCTCTAGGCGATGGAGGAAGGGTTCAGGAGGCCACTCTGCCTGCTTAGCAGGCTGTGGGCCCAACCCCCCACCCACCATCTTCATCTCCCACGGCCCCAA
CCTCGTAGGGAGGGCAGGGCGGGGCTCAGGTTCGCAGAGAAGGAGGGCTCGGACCAGCGACTCCAGGGCAGAGGGGCGCGTGCAGGGGTGGGGAGCTGGG
TTTGCGAGGAGAGAAGGCCATCTCTTCCCCAGCAGGGTAGCCCCCACCTAGCTACCGGGATCCCACCCTGGCTGGCGCAATCTTTGCGTCCGGATCAGCA
CCCAAGGCCCCGCCCAACGGCCCGCTGCCTGCCGGGATTTGTAGTTTGTAGGGGAGGGGCCAAAAGGCGCGCGCGCGCGCGTGTGTGTGTGTGCGTGTGT
GACTGTGTGTTTGTGAGACTGTGTGTGTAAGTGTGTCCGGGGGTCTGTTGTGGTGCTCCCGTCCCCGAGGGCCCTCCGGACCTGGGCTCAGCAAAGGCAC
CACAGGCCGCAGCTTCCGAGACCCCGCCCCGCGGCCCACTGCCTGCTGGGATTTGTAGTTCTTAGGGGTCTAGGGCCCAGGCTGGGGCCGGGTTGGGGCC
TTACACGCGTCCTGGCGTGTGGCTCTCCTGCGTCCTCGTTTTTCTCGTGAGCCCTGGATCTGGACAGTGGGCCCGGCGCGAGGCCCTCAACTCCGGCTGG
GCTCCCGGTGGCACTTTCTGCCGACCCTGAGATGTACCCGCCACGCCTGCGGGACTGACCTCTAGGTGGGCAAACCGAGGCACAAAGAGGGGCGCGCTCT
GGCCGGAGTCGGCCCTCTTGTGAGAATTTGGGCTGGGAGACCCAGCCCAGGCCTGGCAGGCAAGGCTGGGTCAGGCGAGGGTCCTGGGCCCTTTCGGTGT
AAGAGTGTGCAAAATAATGAACAGGCCTGCCCAGGACTGGCTCTGCACATTAGCGCTAGTTACCTTACAGGCTTGACTGATCAGATTTTTATTTGGCACC
ACTACAGAGGGGAGCCCAGGGAGGGAGGAAGTCTCTCGTGACCAAGAAAACCTATGGTCCACCCTGGCCTACAACTCTGCTTTAACGACAAAAATAAACC
GAGTTTGGGAGGGGGTGAGGAGGAGGGGTGTTTTGTAAACTGTGAAGTCCAGGTTATGAGTGAGGTGTTATTATCATCAGGATCAGACCTCAAAGCACTG
GAGGAAAGGTCTGGGCCTTCAAGAGCCTCACCTCAAAAGGGAGGGTATGGCCGGGCGCAGTGGCTCACGCCTGTAATCCTAGCATTTTGGGAGGCTGAGG
CAAGCAGATCACCTGAGGTCAGGGGTTCAAGACCAGCCTGGCCAACATGTCGAAACCCCATCTCTACTAAAAATAGAAAAAATTACCCGGGCGTGGTGGC
ACGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACTCAGGAGGCGGAGTTTGCAGTGAGCCGAGATGGTGCCACTGCACTC
CAGCCTGGGCAACAGAGCCAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAGCTGAGATAGCTGTTTGCATGTGAAAGGACTCACAACTGGCACT
AGCATGCGGTGATAGTGGGGAGGGCATGGACTCCCACTACATGGCTCCCATCTATCCTCTGCCGCTTACTAAGTGGGACCTAGAACAAGTGATTTTGACC
TACTTTATCTCTCTTTATCTCTGTTTCCTCATCTGTCAAAGGAGGATAATAAGAGGATCCATGTTAGAGAGTAAATGCAAGGATTAAATGAGAAAATCAT
ATCAAGGATAGCACCTGGCATATAGTGGCAGCACACAATAGTGTTAGCTGTTATGGTGTTGAGTACCCAGTGTGACGCTGGCTGTACAGGGGTAAACTTG
TCTTCTGGGGGACTAGTCCCCCCATCCCAGGCACCTGGTGCCCTCCCCAGGCCACTCATGCTGTACTGGACAGTCCCACTTTCCCAAGAAGTCACAAGGA
ATTCCAGCATGTCACTGTTCTGGTTGCCCCTGAGCACCTAGCAGTGATTTAAGAAAAGGCAAAACCAAAGTTTTGGTTTTGAGCTTTATTCGGAAAATAT
GGCCACCCAGACCCCTGGCCATTCCCCAGGGCCTGTGAGGTGATCCAGAAAAATTCATTTGCAAATCAAATTTAATGGCTAGAAGCATCCTGAATCAATG
TCTTCAAATAAATATTTGGGGCCGGTGAGGTGGCTCACACCTGTAATCCCAACACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGA
GACTAGCCTGGCCGAAATGATGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCTGGCATAGTGGCGTGCGCCTGTAGTCCCAGATATTCGGGAGG
CTGAGGCAGGAGAATCACTTGAACCGGCGGGGGGGAAGGTTGCAGTGAGCTGAGATTGTGCCATTGCACTCCAGCTTGGGCGACAAGAGTGAGACTCTGT
CTCGAAAAAAGAAAAAAAAAGGAATATTTGGGGGAATTTTGATGTTAGAATTGAGCATTGCAAAAGATCCCTGTCAGTCCCCCGTGATGAGGAAATGCAA
CTGCTCAGCCTGAGCTGTGCCTCTCGGTTGGAGTTAGAGGAGCCAGAAGGGACCCTTCGAGTCTAGTGCTTTCATTCACAGATGGGAAACTGAGGCCCAG
AGAGGGCCACATGGCAGGGTAGTTAGAAGACAGGTCGAGAACTTGCTAGGAAGAATCTTTTGCAATTTCAGAACTTCTCAGCACTGGAAATGAGTCCATA
CCCCGAGTTTATGGGCACAGAAGCAGAAAGCTGATTGTCCTGGACATCCCCAGACCTTGGCCAGAGTCCAAGCAGCTAAGCCCAGAAGCCAGTGTCCAGT
GCTTCTCTCTCCTGGGTTTCTTCAGCCAGGTGTTCATCCTAGAAGTAGGAGTTTATTAATAATGGTGATGGTATCTTGCATTGTCCAGGCCTTCATTCTT
TTTGCGGATCCTCCCGGCTGGGCACAGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCGAGGAAGGAGGATCACTTGAGCTCAGGAGTTCAAGGC
TGCAGGGAGCTATGATCATGCCACTGCACTCCAGAGCCTAGGTGACAGAGTGAGACCCTGTCTCTTAAAAAAAAAGAAAAAAGAAAAAAAGCAGCCTTTC
ATTGAATCCTCACAACCTTCCAAGGTAGGAGGACTGGGGCTTCTGTTCTCGTTTCACAGATGAGGAATCTGTGGCTAGGAAGTCTTAAGGGATTATCCCG
AGGCAACAGAATCTGGGCAGTATTAGAATGTGGGGGTTTTGCTGTCTAATCTGTTAATGCATTCAGTAAAAATTTTTTTGAGTGCCTATTACCTGCTGGG
CGCTATGCAGGGTGCTGGGATTGCAAGGATGACTTGACACGGTCCCTGGCTAGAGGTGCTAACATTATGGTGGAGGAAGCACATGGTGGGGAGGGAACTT
TCTGGTGTGATAGAAGTGTTTTATATCTTGGTAGGGATGTGGGTTACATGGGTGTTGCATCTGTCAAAACTGATTTAAATGTACACATGATTTGTGCATT
TCACTATAAATTTGACCTAAGCAAAACAAAACAAAAACTGAATGCTCTGGAAGGACTATGCCTGGGCACAACCTTGGAGAGGCCTAGTTGTCTGGAAGCA
GGCCAGGTTGCCCATGGATCCAAATCCACTTTTGCTATCGGGTGTGCCTGAGAAGTGTTCCCATGGGCGTGTAGATGCAGGTGGCCCAGTGGCTTGATGT
CCAGAATACCTGGGGAGCACTGCAGAGGGAGTTTCAGAGGAGGGATATTTAAGCTGAGTCTGCAGAGTGAGCAGAGTTGGTCAAAGGAAGGCAGATAGTA
GGCAGCGGGAGGTGGTTTCCGAGGACTCCTTGCTGGAGTGTGCTTGTCTGAGGTCACCCAGATAGAAAGATTGTTTCCTTACCCCAGGCCCCACCCATGG
ACTTCAGAGAAACTCATTCTGGTTGGGATTTTCGAAGCTGCCTCCCACAAAAGGATCTTACCACTGTGTCACAAGGCCATGGCCTGATCCTCATGCTCTT
TGTCAACTGACATCTCTCATGGGTTGGCTATGCCACATTCAGGAGCCAAGGCGGAAGTGTGGACCCATCGCTGTCCAACACATTTCCAGAAGGCCTGGCC
TCCTGGTGCAGATGCTTGCTGGCCTGTTTTCCTCTGAATAAAGAAGAGAAGGGTCAGGTGTTGCAGGTCAGATCAGCCTGGGTTAGAATCCTGGTTCAGC
AGTTGGGTGCGGTGGCTCATGCCTATAATGCCAGCACTTTGGGAGGCCAAAGCAGGAGGATCACTTGAGCCCAGGAGTTTGAGACCAACCTGGGCAATAG
AGTGAGACACAGTCTCTCCAAAAAAAAAAAAAAGTTTAGCTGGGCGTGGTGGCATATGCCTGCAGTCCCAGCTACTCAGGAGGCTGAGGCTGGAGGATTG
CTTGAGCCTGGGAGGTTGAGGCTGTAGTGAGCTGTGATCACAGCACCGCACTCCAGGTGCCGCGACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAA
TCTTAGTTCTGCTACTGAACTAGCAATGTGACACTCTGGACAAGTTAGTTACCCTCTCTGAGCCTCCCAAAGACTTCATGTTTCCAGCAGGAATAATGAT
AGTAGATGTGAGGACGCACCAAGCACATAGTAGGCTCTCACAGAACAGTAGCTGTTCACAGGGTGATTGAGGCCGGGGGCCTAACGATTGAATGGAAGTG
AACACTGCAATTCTCTCGCAAAGTTTACAGCACAGTAAGCTTGTCCTTAGCTTCCCCTATACCCTCCTTCCCACGCCCAATTCTAGGACCCTTTCGGGCG
CCCCAGCCTCCCAYAGGGGCTCCCCGCCAGCTCAGACCGGCCGGGCCCCTCCCTCTGACTCACCGGRGGCGGCTCCTGGCCGCGCACCTCCAGGGGGCGG
GGGGCGGCTGAGACAGCGCCCAGGGCCTCGGAGCAAGGCGTTGGCAGGCAAGTAGTGCGCTTCGGGGTCCGGTCGCCGGGGACCTGGGCTCCCCATGTAG
GGGTCGAACGGGCTTAGCCGGTTCGGGGGCGCCCCGCTCCCTCCTCTTCTCCCACAGCCGGGGTCCTCTCTTAGGGGCGCGCCGTCTCCTGGCTTCCTGT
AAGAAAAGGCGGGAGAGGGTGGGTCCGTGCTAAAGAAATACTTTATTTTACTTCATTTGGGACAAACTAAGCAGTAGTGCTCAGGGGAGACCACAAGGGT
AGGAACACTGTGCGTCTGGTAAAAAAACTAGTTCTAGAGCGTCGTTACCAGATAACTCATTAGCATGTGCATTGAGTTCCTAGCCGCTCCCGAGAGTCCT
AGGCTGAGCGACCGGCCCTTTTGTTTCGCTGTTGTTGTTGTTTGTTTTTTGAGACGGAGTTTTGTTTTTATTGCCCAGGCTGGAGTGCAGTGGCGAGATC
TCGGCTCACCGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGAGATTATAGGCGCCCGCCACCACGCCCAGCTAA
TTTTTGTATTATTAGTAGAGATGGGGTTTCGCCACGTTGGTCAGGCTGGTCTCGAACTTCTGACCTCAGGTGATCCGCCCGCCACGGCCTCCCAGAGTGT
TGGGATTACAGGCGTGAGCCACTGCGCCCAGCCAGTTGTTTCGCTGTTAATGTGTAAACCTCTCCCCTTTTTTCCTGTGGTGATAGGAGAGGCTTTAGCC
TAGACAGCTGAGTGTGAGGAACAGTGATTCCCATTGATCCTTGTTCCCTCCGTGGGTCACAGAGTCCAGAACTTAAGAGCCACCCAAGGTATGCGCTGTT
GTGACCAAAATCTATGAAGCTTTCCAGCGCTGGGGCTGGGGATGGAAATAGGAGAGTGCTCTGTGGTTTAACTTTCTTTCCTCCTGTGGAGAAACCGGGA
GCTAGGGGAGTGGCCAGGCACATTTCTACCTCAGGTGCTGATGGCACATTGCAAACTAAAGGGAAGAGAAAGAAGTCTGGGTTTATCGAGCATGTATTAT
TTGCTCATTAATCATAGGATCTCATTTCATCTTCACATTTAACTGTATGCACGTGTTACAGATTGGGGCACAGGGAGGCTCCAGGAGGTTAAGTCACTTG
CACAGCTAGTAAGGAGCCAAATTGTCTAGCTCTTATCACTCTACCAGGTTAACCGCCCAGCCTGTGGTTTTGTGGGGACTAGGCCCTACTGGGATTCTCA
CCCAGACTATCCTTTTTTTTCTTTTTTAAACTTTTAAGTTCAGGGGTACATGTGCATGTTTGTTATATAGGTAAACTCGTGTCATGGGGCTTTGTTGTAC
AGATTATTTTGTCTCCCCGGTATTAAGCCTAGTACCCATTAGTTATTTTCCTGAATCTCTCCCTCCTCCCACCCTCCACCAAACTACCCTATTATTATTG
TTATTATTATTATTTTTTGAGACTGAGTCTTGCCCAGTCACCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCA
AGCGATTCTCCTGCCTCAGCCTCCTGAATAGCTGAGATTACAGGCATGCGCCACCACCCCCGGCTAATTTTTTGTGTCTTTAGTAGAGATGGCGGTTTAA
CCATGCTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCC
CATATTACCCTATTTTTAAGCCTGGCAGTTTGGCCATGGAGACACTTGGATGCTAGCTACAGGCCATGTTCTTTGGGGAGAAGATTTAACTTCCCGTCTT
GCTCTAGTGAAATTTTATCAATTTCGTTTCAATGAGAAACATTCATCCAGTATTGCTTTTTTTTTTTTTGAGATGGAGTCTTGCTTTGTCTCCCAGGCTG
GAGTGCAGTGGCGCCATCTCGGCTCTCTGCAGCCTCCGCCTCCTGGGTTCAAGTGATTCTTCTGCCTCAGTCGCTCCAGTAGCTAGGATTACAGGCACCC
ATGACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTAATCTGCCTGC
CTCAGTCTCCCAAAGTGCTGGGATTACCGGAGACAGCCACCATGCCCAGCCTATCCAGTACTGTATTTTCTCCAGACTTTTCCCACGCAGTCAAATAATG
AGGTTTTGTTTGAAGGTCTGCTAATTAGGAAGATTTGTTCCAGATTTTGCTCCAGGGTCCCCAGGCCTTGACCCTGAACCTGGAGCCTTGTCTCAAGCCA
GCCTGCTGACCAATACCTTTCCAGGACAGGCCGGCTAGGTTCTGGGCAGAGGAACTACGCTTGTGTGGCTGCATAACTGGGTGCTCACTTTCTCCTGGAG
CCTCATACTGAGTCCGCTCATCCTTCCCCCAGGGATTCAGAAGGGAATGGGAGCCTCCCTTGCAGGGGCTTCCACTCCCTGTGTGTTTGTGGGCAGTCTC
TTGTGCTCTCAGGACCTCGGTGTCCTCCAGAAAGCCAGCGAGTTGGAGGAGACAAGCTCTAGGGTCTAGTGACTGTGATGTAGGCAGGATAGTTGCCCTG
GGTCAACCCAGGATGGGCTGTCTCTCAGAGGGCCCAGGGCCCAGAAGTCATGATGATAAACATCTGGTGAATGAGAAGCAGACCAAAGGGTAGAGACCTG
AGAGGCATCAGCATGGCATGCGGAAGATGGYGAAGAATGTTTTATGGCCTCAGCCATTCCCTGAGAACTGAGCTTAGCCAGGTGCAGTAGCCCACGCCTG
TAATCCCAGCACTTTGGGAGGCCAAAGTGGGAGGATTGCTTCAGTTCAGGAGTTCTAGACCAGCCTGAGTAGCAAGACTCTGTCTCCAGAAAAAATAAAA
AAATTAGTCGGGCATGTTGGTGCAGGCCTGTGGTGTCAGCTGCTCAGGAGGCTGAGGCAGGAGGATCGCTTGAGCCCAGGAGTTCAAGGCTGCGGTTAGC
GGTGATAATGCCACGGCACTCCAGCTTGCGTGACAGTGAACCCTGTCTCAGGAAAAAAAAAAAAACAAAAAAAACCAAAAAACTGATCTTAAAAAAAATC
AAATACTTGCATTCAGGGCAAGGAGAAAGACAAACTGAGGGAGGAGGAAAAAGTAATGTGAAGCCAGTGACCCTGCCCAGAAAATGTGACTAACCCAGCA
GCGGTGGGGGCTGTGCMGCGCCTGCCCCAGGCCCTGAATGGAGAACATGGCTTTCCTTGCTGGTCTCAGACTCAGAGATGCCCTCCCTGATTTGCCTTGG
CTGTGACCTGCAGCGGGCTGAGGCCACTGTGGTGGGGCTGTGTGGACCTCCAGCCTCCCTGTGTGCCCCTCTGAGGAGACGGCCTGGCATACCCACTGCC
CACCCCAGTGACTGCTCTTCTGCTTCAGGCCTGCTGGCCTCCCAGCACTGCCTGCCCCTCCCTGTCGGGGGACATCGCCTCCACACCGGCTGGGGAAGGA
GCCCAGGGGTGGGGCTGGTGGGTGGGGCTGGTGGTTGGGGCAGCCAGAGAAGTAAGAGGGAAGTGAGAAGCCGGGTGGGGCAGGCTGGAAGGAAGACGAA
CCTACGAAGCAGAGGTAGGAGGAAGAAAGGAAAGTAGGAGTGTTGAAAGGTGAAGGTGGCAGGGTGGCTGCCAGCGCGGCTGGCTGGTACCCTCCTGGGT
GGGCAGGCGAGGGCTGGCTGTGGTGGCCTGGGAACAGAGACCCACATTTCTGGATACCACATTGTGCCAGGGTGGAGTTCCCCCAGCCTGCTGTCCTGCC
AGCCTTATGCCAGGCTCCAGGCACCTGATCTGATGGCAGCTGTGAAGCTGCCCGGGAGGATGGGTGGGCTGTGCCCATGCTGCACATGGAGGAACTCTTG
GGTCAGGGCTTGTCCCAGCTGTGCCAGACCTCCTGACGGAGGCCACCACACTGCTCCTGAAGGCCCTCAGCCAGACTGGAGGTGAAATCAGATTAGAAGC
TGCCTGTCCCCAAGACAGGACTGTGGTGTGATGCTATTTGGGTGGGAGTGGCTTGGGGAGGGGGCAGGGCAGTCCTAGCCATTTGAATTCAAATGCAAGT
GGCACATTTGATTATTTTGCAAACTCTGGAAGACCTTGGCTGAGGGTCTAGGTGGACTGTCTGAGGTAGGAGGTGGGGAGGGAGGAAGTGGTTGACCCTG
GGGAAGGGTAGGAGACCTATTTGGTATCAGGGGAAAAACCATTTGGAATCCCCAAATGAGGCCTCTGGACCTAGATTCTGAGAATGCCATGTCCCAGGCT
GGGAGATTCAGTTTGGTTTCGAGGGTGGGCACCTACCTCCACCAGGAGAAGTGGAGGTGCTGTTTCATTTCACACCTAGGGGCAAGCAGGGACTGTGAAG
GGAAGAGACCTATTGGGGGTCAGTGGAATCAGGGTCTGAGGAAGGCAAAGGTACCACTGGACCCCGGCAGGATTTTTGTCCCTCTGATGGCTGTCAAGTC
TTTCCTTAAAGGTGTGTGTAACGGTGACCTCCTCTCCGAGGTCCCCCAGTGTGTCCTCAAAGACAGCCTAAGTCAGGACCATGGGACAGCCAGCAGGACT
TGCGTCCTCCCCTCCCCCAGCCCCATGGCAGTCTGGGACCCCTAGCCCCTGCTCTCTGCCTCCTGGGGCTGCTCCAGCCTGTCCCAGCCTTTTGAAATCC
TGGGCTATCCCTTAGGTGCCACCCCAGTCTAATAATCAGAGCCCAGCAGGTCCAGTTAATCAAATGCATTCTTTGAGCACCTGCATGAGGTTCCAGCTAG
ATCCAGAGGCAAAATACACTTCCTGCCCTAAAGGACCCTACAGTGTAGTAGTGGAGGTRGGYGGGTCCATAACTCACCACACTATGGCAGAGTGGGGAAA
AGTAAAGGCTTTAAGAGGTGTAGAAGAGGCTGTTTGGTAAGGTGGTGAGTTTCCCATCACTGGAAGCCTTCAAGAAGAGGATGGTAAGGGATGCTATAGA
AGAGATTTCTGCACTATGCGTGTATGGGTATGTGTAGGGCGGTGCAGGCAGAGCAGGACTAGATAAGAACTTTAGCGCTTTCTTTTTTTTGTTTTATTCC
TCCCCCCCGGCCCCAGCTCCCCTCTTCAACTTTAGCACTTTCTAATGCTGACATCTGTGATTCTGTGACATTCCCCACTTAGAGGAAGTTCGTCTGCGGT
TTCACTGGGTATGGTGGCTCCCTTGTTCACTGCACCCTGCAGCTAAACCATAAAACATGGGCTATTCTTTGTCTCTGTGCATGTCACCCCCAGTGCCAAG
CCCCCAGCACAGACGTTGAGTGGAATGGAATAGACTCTTTGCTGGGCTGCTTGAGGAACAGAGGCATCAGGTGTGTCCTTGCTCCAGTTGAGATGTGAAG
CAGCCAGTTTATGCTATAAAACAGGCTAAAGTATGTGCTCCCAGGGGAGAGGGCTGGGAGAACTCCCAGAGAAGGCGGAGGCCACTTAATGTCCTGGAAG
TTTCCTTGGACAGCTGGGGCTTGATACGGGCCTGGAAGGATAAGGGGGCTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGACAGATTC
TTCCTCTGTTGCCCAGGCTAGAGTGCAGTAGTGCCATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCCAGCAATTCTCCTGCCTCAGCCTCCTAAGT
AGCTGGGACTACAGGCACGCACCACCATGCCTGGCTAATTTTGTATTTTTAGCAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTAA
TCTCAAGTGATCCACCCGCCTCAGCCTTCCAAAGTTCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCTAGGATGAGGGGGCTTTAATGGATGTAAGG
GTGAACATGGACACTGAGGAAGCTCAAGGAGCTGTGGGCTTGGACAGAGGGCTGGGATAGGGGAAAGAATGAAAGGCCAGAGGTCAGGGTGGACCCTTCC
CCAGGAGAGACTGGAACAAAAGGTCTCGGGACAGAGATCTAATGAGGCAGCAGGAGTTTCAACCCTGACCAAGCATTAGAGTCATCTGGAGCTTCTCAAA
CACTGACATCCAGGCTCCACCTAGAGAGTCTGGTTTTAATGAGTCCAATATGGAAGCTAGTCACTGGGGTTTTTCTTTCTTATTTTTCTGTAAATTACTT
TTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTTACTGCAACCTCCACCTCCCAGGTTCAA
GCAATTCTTGTGCTGCAGCCTCCCAAGTAGCTAGGATGACAGGTGTGCGCCACCACGCCCAGCTAATTTTTGTATATTTTGTAGAGACAGGATTTCACCA
TGTTGCCCAGGCTGGTCTTGAACTCCTAAGCTCAAGCATTCCACCTACCTCAGTCTCCCAGTGTGCTGGGATTACAGGCATGAGCCACCATGCCTGGCTG
GCACTGGGGTTTTTCAAAAGCCCCCAAATGATTCTAATGTGCAGGTGAGCATTTGACACTGTTCTGGACAGAATTCACTGGCACTACTACCATCACTTTG
AACATATGTTCAAAATATGGGTGATCAAGCCCCATTCCAGACCTGTGGAATCAGAATCCCCAGACCAGGGGCTTGGGCACTGTTAAAGAAAAAAAATATG
GCCCAGGCGCAGTGCCTCACGCCTGTAATCCTAGCACTTTGGGAAGCCAAGGTGGGCAATCACTGGAGGTCAGGAGTTCAAGACCAGCCTGACTGACATG
GTGAAACCTCACCTCTACTAAAAGTACAAAAAATTAGCCAGATGTGGTGGTGCACGCCTCTAATCCCACTACACAGGAGGCTGAGGCAGGAGAATTGCTT
CAACTCAGGAGGCAGAGGTTGCAATGAGCTGAGACTGTGCCACTGCGCTCCAGCCTGGGCAGCAGAGTGAAACTCTGTCTCAAAAAAAAAAAAAAGAAAA
TTTCTAAGTAGGAAACATCANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAACAGGATTCCTTTTTTTTTTTGAGACGGAGTTTCGCTCTTGTTGCCCAGGTTGGAGTGCAA
TGGCATGATCTCAGCTCACTGCAACCTCTGCCTTCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAATAGCTGGGATTACAGGCATGAGCCACGAA
GCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCCGCCTTGGCCTC
CCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCGGCCCCTAACAGGATTCTTGCTGAATACAGGCCAGAGTGATCAGACATCACTGGGGCGGCGG
GGGCAGGGTGTTGAGGAACCCAATCAGATATCCACGATTATCAGATCGACCAGATATCAAGGGTAGGGGGTTCTAGGTAAATGGCCTTAGCAGGGTTCTT
TTGCTAAAACCGGATTTTACAAGCACACAGATGGGCCTACGGGGTGGTTCAGAAGCCTAGTTAAAGTTTGGCCAAGCAAAGAATCTTTGTCAGTACCGAC
ATTTTAATAAGGTCCCAAGGTCATTCTAATGAGCAGCCAAACTCCTTTCTTTTCTTTTTTTTTTTTTGAAACCGAGTCTCACTCCATTGCCCAGGCTGGA
GTGCAGTGGCATGGATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTTCCGGATAATTTTTGTGCTTTTAGTAGAGACGGGGTTTCACCA
TGTTGGCCAGGCTGGTTTCGAACTCCTGACCTCAAGTGAACTGCTCACCACGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGCACCCGGCCT
GCCAAACCCCTTTCATCCAAACCCTGATGTGGCTCTCTGGCATGTAGGCTGCCTGATTTTGAGTTAAACACAGAATGAAAAATAGTAAAGGTGACAATTG
GCGCACTCCGTGTCTCATTCTTGAGCGCTCCCTGATGGCTTGAGCTTGGGGCAGCCACTTCACCAGCTCAGGCCTGAGTCACAGGCTGGGCTGCCTGTTS
CAGGGGATGTGGGCACAGCATGTGATCCTCTGTGGGATGGAGAAACGTTAAAGTTTCCCTCCGCAAACCTCTGCTCTCTGCATGTCCTCTTCCGGAATCG
TGGTGCCAAAATATGCCTTCCACTATTTTGTAGGTTGGGAAAGGAAAAGGAAAGTCATAATTCACACAGCATTTCACATCCATTATCACTGCCCTTGACC
TGTCCCTCTTTGTTTCCTACTCAGACTTAATACCTTCTGCTCTGTCATCTGCCTTCCCCCTACCCCTGACTTCCCTGGCCCCTGCGAAATATTGCACTTC
CTGATCCTGCTGCCCCAGCCCCCAAGAATCTCCTAATGGTGCCAGCTTGCATTTTTACCCTCCAATTCCCCAAGCCCTTACCCTGTGCCACTGGGGCTCA
TCTTACACAAACTCTGTCCAAATGGATGCACAGCATGAATTGTATTATGTACGAAGTGCATGCTGGCTCTGTGATCTCTGCATTTTGAGCCAAAAAAAGA
AATCCTCTAGTGATGGGAACCTATGAAAGCGACAGTGAGTGGAGCCGTAGCTGTTGCATTTTCTGAATTTTTTAAAAAGATAATATCTTTTTAAAAAATA
CTTGCGTTTAGCATTTTTTCCCTTGAATGACTTTTGTCCAGAAAAAGTGTTCATCATTCTGGCATTTGAGGGAAGCTGGGCATACAGAATTGATAGCTGA
TGCCTGGGAGTGGGTGAAATTTCTCAGGGAGGGAGTTTAGAATTAGAGCAGCCATTAAATATAATGTTAGGTGAAGGGTTTTTGTTTGTTTGTTGTATTT
TAATAGATGCCTTTTTAACAGGTTAAGGAAATTTCTTTCTATTCCTAGTTTGTGGGTAAAAAAAAAATTTTTTTTTTTTTTTTGAGAGGGGGTTTTACTC
TGTCATCCAGGTTGCAGTTCAGTGGCATGATCTTGGCTTACTGCAGCCTCTATCTCCTGGGCTCAAGCGATACTCACTCCTCAGCCTCCTGAGTAGCTGG
GATCTGGAATTACAGGCTTGCACTACCACATTTGGCTGATTTTTATTTATTTTATTTTATTTTATTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGC
TGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGACGC
ATGCCACCATGCCCAGCTAATTTTTGTATTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCACCCACC
TCGGCCTCCCAAAGTGCTGGAATTACAGGTGTGAGCCACTGCACCTGGCCTTGGCTGATTTTTAAAATTTTTGTAGGGTTGTGGTCTCCTTATATTGCCC
AGGCTTGAAAAAATTTTAAACTAGGAATGAATGTAGAATTTTGCTAAATGCTGTTTCTGCATCTATTGAGGTGATTACACATACATGTTTGTTAATAGGG
TGTATAGCATTGATTTTCAAATTTTGGCCTGTTTTTTTTTTTTTKGCGTTGTGAGCGGCTTTATTTATTTATTTTAAATTTATAATTGACAGATAATAAT
TGCACATACTTAGCAGGAGCAGTGTGATGTTTCATTGTACATATGCAATGTATGTGTATATATTGTATAATGATCAAATCAAGGTAATTAGCATATCCAT
CACTTTAAACATTTATCATTTCTTTGTGATGATAACATTCAAATCCTCTCTTCTGGCTATCTTGAAATATACACTGCATTATTATTAGCTATCATCACCC
TGATTTTCAGATATTAAACCAACCTTGCATTCCTGGGATAAACCTCATTTGGTCATCATGGTTTATTTTTTATATATTATTTGATTTCATTTGCTAAAAT
TTTGTTAATTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTACAATGGCATGGGCTTAGCTCACTGCAGCCTCT
GCCTCTTGGGTTCAAGCAATTTTCCCGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGCACGTGCCACCACACCCAGCAAATTTTTGTATTTTTAGTAGA
GATAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
CYGTGTCCAGCCAAATTGTGTTAATTTTTGTATGTGTATGTTCATGAGAGATACTGATCTGTAATTTTCTTTTTGCATAATATATTTATCTGGTTTTGTT
ATCAGGAGAATGTTGGCAGCATAGGATGAATTGAGAAGTGTTCTGTCATCTCTTTTTTTGAAGATTTTGTGTACAATTGGTATTATGTCCTTTTTAAATT
TTTGGTAGAAATTACCAGGGAAGCCATCTGGGCTTGGGTTTTTTGGCGGGGGAACGAGTTTTTTACTACAAATTTATTTTCTTTAATAGATATGGCCACT
GTTCAGATAATCTGTGTCTTCTTGAATGAGCTTTCATAATTTGTGTCTTTGAAGGAATTTGCCCATTTTATATAAGTGGTTGAATATATTGGCATAAAGT
TTTTATAATATTCCCTTTATCCTTTTAATATCTGTAAAATCTATGGTGATCTCACATCTCTCATTTCTGTATTGATATTTGTGTTTTCTCTTTCTGTTAA
TCAGTTTGTCTAAAGATTTATCAATTTTATCGGTTTAAAAAAACAACTTGCCAGGCACGGTGGCTCACGCCTGTAATACCAACACTTTGGGAGGCTGAGG
CGCGTGAATCACCTGAGGTCAGGAGTTTAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGTG
TGGGCCTGTAATCCCAGCTACTTGGGAAGCTGAGGCACAAGAATCACTTGAACTCATGAGGCAGAGGTCGCAGTGAGCTGAGATCACGCCACTGCACTCC
AGCCTGAGTGACAGAGTGAGACTCTGTCTCCAAAAAAAAAAAAGCCAACTTGAGGCCAGGCATGGTGGCTCATGCCTATACTCTCGGCACTTTGGGAGGC
TGAGATGGGCAAATCACTTGAGGTCAGGAGTTCAACACCAGCCTGGGCAACATGGCAAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGA
TGGTGTTGCCTGTAATCCCAGCTGCTTGGGTGGCTGAGACCGGAGGATTACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGGCGAGATCGCACCACTGCA
CTCCAGCCTGGGCAACAGAGTGAGACTCAGTCTCAAAAAAAAAATTCATTGCTCTTCTCTCTTGTTTCTGTTTTCTGTTAATTTCTGCTTTTATTTTAAT
TTCTGTGAGATCTCAGCAGAYGGAAGACCCTGGCCCAGGGGTCAGAGACCTTATTTCCATGAACCACTCACTAGCTGTGTGGCCTTGGACTCATTTCTGA
GACTCATTTTCTTTGTCTGCATAATGGAACTAGGGCTCCTAGAGGTGGAGTAGTTGATGAATATGAAAGTACTTGGCCACTGGAAAGGGCCTCTCCAGCC
CCACGTGAGAGKTCCTTTTTGTGGCATTTGTAATAATAATGGCTTCTTCTTTCTTTCCAGATCTGAAGACAGCATRTACACAGCCATTCCCCAGAGGTAA
GCTGCATGCCCCATCTCCTTTCACAACTTCCCCTTCTTTACCTCCAAGGGCTGCCCCTCCCCACTGCTCTCCTCATCCCCAGACTGCAGTCGCCAGGCCT
GCCCAGGGCTGTGCTTGGGCAAGTGGGTCCAGGCTGCTGTCAACCCTCTCTCTTCTCGCAGTGGCTCTCCATTCCCAGGCTCAGTGCAGGATCCAGGCCT
GCATGTGTGGCGGGTGGAGAAGCTGAAGCCGGTGCCTGTGGCGCAAGAGAACCAGGGCRTCTTCTTCTCGGGGGACTCCTACCTAGTGCTGCACAATGGC
CCAGAAGAGGTTTCCCATCTGCACCTGTGGATAGGTAAGGGGATCTGGATGGGGGAAGGTTGGGCCCAGGAAGGGGAGGGAGGGGGCTGGTATGGATCAC
AAGGGCCTTGCCCTGCCCTCTCCCACTTGTCCCAGGCCAGCAGTCATCCCGGGATGAGCAGGGGGCCTGTGCCGTGCTGGCTGTGCACCTCAACACRCTG
CTGGGAGAGCGGCCTGTGCAGCACCGCGAGGTGCAGGRCAATGAGTCTGACCTCTTCATGAGCTACTTCCCACGGGGCCTCAAGTACCAGGTCAGAGCCC
ACCTCTAGGCACCCCCACCCTGCAGCTTCCCTCAGAGCCAGCCCTGCTTCTGGCTGGTTCTCACCCTGCAGAAGACCCGGGTGCCYTTGGAGCCGGGTCC
CCACCTTTCTGCCCGTCTTCCAGTGGGATGGGGTGCAGAGGGCTCTGGGTCTCCTGTCAGTCCACTCAGATGGGCCGTCTGGGCTGCAGGAAGGTGGTGT
GGAGTCAGCATTTCACAAGACCTCCACAGGAGCCCCAGCTGCCATCAAGAAACTCTACCAGGTGAAGGGGAAGAAGAACATCCGTGCCACCGAGCGGGCA
CTGAACTGGGACAGCTTCAACACTGGGGACTGCTTCATCCTGGACCTGGGCCAGGTGGGTAGGCTGGCCAGACTGAGCACTCCGTATTGGCACCATCCTT
TATAAGGACGGAGGGGCAGGAGGCCAGGAAAGAGGGAGAGAAGCTGAGAAGCCGTAAACCCATTCCAARTGAGATCACTCTGACCATTGGAGAATGTCCC
TATATTTGTAAGGACTGATGCCAGCCTCCTTCTGCCATCTAGACATTGCCTCTGATGCTCTGGAGCTTTTTCCCTCCTCTTGGAAGCCTCTGAGTTCACT
GCCTGCCAGACCATTCATTAATTCAGTCATTTATCTCTTCGTTCAGTGAATCTATGATGCTCTCTCTGAGCCAGCACAGGGACCATAAAAGCTCGCTCTG
GGGAGGCAGCCAAGATGGGCCAGTCACTTGCCATAACCTGAGGCAGGATGTGATGAGGGCTTTAAGGGGGACAGCTGCCATGTGCTGGGGGGGTCTTGGG
GCAGGGAGGGGCCCTCTAGCCTGAGCCGAAGCCAGTTGTCCCAGGAAGGTGACATTGGACTAGACCTATAGGAGGGGAGATGCCACTCCAGGCAAAGGGA
GAAGGTGAGCTGAGCCACCAAGGTGGGKAAGGGTGCAGACATGCACACACCAGGGGTCTAGTGAGACTGGGACCCGGGCTGGGGGACAGGAGCAGGGGGA
GGGAAATTCCTAAGCAAGGTGGAAGGTGAGCCCTAGGTCATGAGGAGATTGGCTGGCTGAGGAGTATGGGCTGCGTCTTGTGGCGCTGAAGATTTGGGGC
AGGGAGATCAATCCAGGAGCTCTTGGTGAGGACTACACGTGCTGAGACAAGGAAGGGGACAGGTGAACAGACCTCGCCATTACCAGAAAAGGAGAGGTGA
CAGGGGCTCTGCCTGGCAGGGCGGTGGGTAGAAGTGTGAGATGCTGCGCTCAAGGAGCCATTCAGCCATTCACCCATCCAGTCCTTCACTCAGTCAGTCA
ATATTTATTTTGCGCCTAAATCCATGCCGGGCTCTGTTTTAGCAGTGGGCCCACAGTGGTGAGCAAAGCCAAACAAAACCTTCATGTCCTAATGAAGCTC
ACTTTCTAGTAGGTGGAGATAGGTGGTTAAGAGACGTTTAAACATAGGAGATATGTGATGGGAAGAAAAATAAAGAGGTGCTGGGCGTGGCTGCTCACGC
CTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAA
AAATATAAAATTAGCCGGGCCTGGTGGCACATGCCTGTAATCCCAGCTACTCGGCAGGCTGATGCAGGAGGATCTCTTGAACCCAGGAGGTGGAGGTTGC
GGTGAGCTGAGATTGTACCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAAAAAAGAAAAAGAAAGAGGCTTGAGCC
CAGCGGTTTGTAACCAGCCTGGGCAACATAGTGGGACCCCATTTCTACAAAAAATTAAGAAATTAGCCAGGCATGGTGGCAAGTGCTTATAGTCTCAGCT
GCTTAGAAGCTAAGGTGCAACGATTGCTTGAGCCCATGACGTCAAGGCTGCAGTGAGCCATGATCACGTCTTTGCACTCCAGCCTGGATGACAGAGTGAG
ACCCTGTCTCGAAAAAAAGAAAGGAAGACAGATGGCAGGTGGGCAGAGAAACAGTTGCAGTGGGTGGTCGTGGGCATTTTCAGAGAGCCCTCTGTGCTGT
GCTCTGCCTTCCTGGTTGTCCTGCCTCAGGGACAGTTCAGAGAGGAGAGAGGGAGAGCTGTGSGCCCTTCTCTGAGCTGGGGAGCAGGACACAGGCATCT
GGCTCTGACCCGGACTTTCCTGCTTCCTTGCAGAACATCTTCGCCTGGTGTGGTGGAAAGTCCAACATCCTGGAACGCAACAAGGCGAGGGACCTGGCCC
TGGCCATCCGGGACAGTGAGCGACAGGGCAAGGCCCAGGTGGAGATTGTCACTGATGGGGAGGAGCCTGCTGAGATGATCCAGGTTGGGGGACATTGGAG
TGGGTGGCTGGGAGCCTCTGCTTGAAAGTGGCCAAGAGAGGTGGTGATGAGCTGAGGGCTGAGAGTGGCCGGTGGAGGGTGGCAGGGGCCATCTGGTGTA
CTGCCTAGGGCTGTGGCCAGCTCACAGGGTGCCCCTCTGGGTAGATGCTCGTCCTCGAGGCTGAGCAGCCTGGCTGGTGGGGTGGGCTGGACTCAGCCCT
CACTCACCTCACCTCTGCTGGGTGCCCTAGTGCAGGGCGCAGTTTGCCCCACCAGAAGCAGTGGCYCTGGGCATGATGGGCTGGGAAGTTCCAGGGCAGG
GGTCCCTATAAACCTGGCCTGCCCTGGCCCCTGCAGGTCCTGGGCCCCAAGCCTGCTCTGAAGGAGGGCAACCCTGAGGAAGACCTCACAGCTGACAAGG
CAAATGCCCAGGCCGCAGCTCTGTATAAGGTGGGCCCCCCAAGCCTGCCCTGGGACCCGGCAGCAGGGAGGGTGGGAGCCTGCACAGCACAGCTGCATGC
AAGCAGGGTGGAGGGGAGAAGGCAGGGGGAAGGTGGGGCTGGAACCGAGGTGGGAGGTGGGGAGTTATACAGGGCTGGGAGTGAGACAAGGATGGGGAGT
GGGCGGAAGGCAGGCCCTCCTGAGGAGATGAGTGCACCTCACTTCCAGCCTATGCTTGGTGAAGGCTTGAAGCCAATGCTGAGCTTTTCTTTCTTGAATT
CTGTGCATTTCTTTGTAATTTGGAATCCWCCTAATTTCCAAATGGGTTCRGGGCCCCTGTGCTGCAGGGATTGGGGTGATGAGAGGGAGTGGGGCTGCCT
GGMATTTGCTTTTCAGGTCTTCACTCTCTTGTCTGCTCCTGGGACCTGGGCAGTGGGCAGCGAGGCACAGTGGGAGGGACCTAGGGAGGACCAGCCTCCC
CCTCCTCAGGCTGAGGTGAGGGCTGGTGTGTGGGGGGTGAGATCAGGCACTGTCCCTCCTCCCCAGGTCTCTGATGCCACTGGACAGATGAACCTGACCA
AGGTGGCTGACTCCAGCCCMTTTGCCCTTGAACTGCTGATATCTGATGACTGCTTTGTGCTGGACAACGGGCTCTGTGGCAAGATCTATATCTGGAAGGG
TACGTGGCTCCTCTGTAACAGCCTGAGATGCCTGTAGCTGCTCTGACCCGGGCAGGCTTCCCTTTGCAGGACTCAGCCTGTCTAGCTGCTTGTAAAAGAC
AGCCTCAGGAAGCCTGCATGCTTCTGGCTGACCATTTTCTCTCTTTAAAAATTTTTTTTAAAAGATAGAGATGGGTTCTTTCTATGTTGCCCAGGATGGT
ATCAAACTCTCAGCCTCCAGTGATCTTCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATGGCATAGGCCTTGCTATTTTCTTTCTTTCT
TTCTTTCTTTCTTTTTGAGAAGGAATCTTGCTCTGTTACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAG
CAATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGAGTACAGGTGCGTGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTAC
CAGGCTGGTCTCGAACTTCTGACCTCAAGTGATGCACCGGCCTCGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACTGCCTCGCCATTTTCTCTT
TGCTGTTCCCACCTCCTAAATTCTAGACAATGGCTCTGAAACTACAGCAAGCCTCAGAATCACCCCACGGCCTGTTTAGATGGCTGGGCTCCACCCCCAT
AGATTCTGATTCACTAGGTCTGGAGTGGGGCAGAACATGCATCTCTAACAAGGTTATGGGTTATGTCTGTGCTGCTGGTTCCAGGGATCACACTTTGAGA
ACCACTGCCCTAGCCCAGCTCTAGACCTTTGGGGCTTCTGGGACCCCTGATCCTGGGATTCTGTCTCAAGGTTTGACAGAAATGAATTTTAGACAAATTA
AACATCATTTTATGCAGTGAGTGGTGAACCTGTAGAACTTGTTTTTCCAAAAGATTCTATCTTCTGGAAATAGAAACACTGTTGGGCAGAGCCTGTTCTG
CTTGGTTTGACTGAAAATGAAACAAACTTGTTCTCAGTCTCTGCCTGGGGTCTGAGAATTTTCAGCAATAGCATTTGCTCAACACCCAGTTGTGGGGTCA
ACCAAGGTGGAGAAAATGCCAGCCCCTAGCCTGGTCAGGAAGGCAGACAAGTAGGTGGGTATCTACAGATAGCTGCTACCAGGCATTTCATAGTATTGCT
TCTGAAACTCAGCAGGGATAGAAGTGAAAGGGAGGAGCTGGGAGCAGCAAAAGAGTGGAAAGCGAGAGGCGTGTGCTGCAGGGCTGCCTTTTCTCTCCTG
CCAGAGGGCACATATCCCATGGAACCAATGCCAAGCAGAGGGGGGTTCACAGAGGCCCACAGAAGCATGTATAAACCGGAGCAAGGAACCCAACAACTAT
GGAAAGAGAAATCAGAGGAAAAACAGGAAACTTGGGAGGCCAGGAAGAGAAGGATCTCATGGGTAGGGGGGCAGCTGGTCAGTTGACAGAGGAAGGAATC
CAGCATATTAATTTCAGATACATTGTAGTTCATGGCATTTTATAGCCTGCCTAGAGAGCCAACCACATCACGGCATCGTTTCGGTATCATTTCCTTGGAA
AAATGTCTGGCAGCCTGGGCAACATGGCGAAATATCACTTCTCTACAAAAAAAAAACCCCCCAAAATTAGCTGAGTGTGGTGGCGTGCACCTGTGGTCCC
AGCTACACGAGAGGCTGAGGTGGGCAGATTGCTTGAGCCTGGGAGGTTGAGGCTGTAGTGAGCCGTGTTGGTGCCGCTGCACTCCAGCCCGGGCGACAGA
ACGAGACTGCGTCTCAGAAAAAATAAAAATAAAAAAGCCTGGAATGAGCAGTTTGAGTTCTCAGGACTGCTAGCAGAAATGACTGGATTACGTGGGGTCT
TCATTTTTGTAAGTGCTTAGTTAGCATAACTGTTAGGCCAGTGTAGCCCTGCTGGCATTATGGGAGTAAATCACCTCTATAATAAATTGTACCCTTTGTC
TTATTTAGTTTTTCAGAAAAGGCTTGATGAATTCAAGAGGTGAGGGGTCCTAGAGGAAAAGGAGACCTGCGGCCTCACAGTCTGATGCTAGGGTGAACAC
CTGTTCCCCTCCCTGAAATATTCCAGGGGCCCAGGTCAGAGCAGAGTTTTGCATGATCAGACCCGGGCAGACGAGGGGTTTTCATCTACCTTGGTGCTGC
CRGTTTGGGAAAATTCTTAAGGGAYTGACTCCACATCTCCAAAGAGCCCCTSGGCATTCTTGGGACCCCTGSTCCATTTATTGTAAAAATTGCTGGCTCT
TCTGTGGACTCCCTTAAATTTCCTCAAGAAAAATGGGATGGCAGCTAAAGAGGGTCCCTGCTCTTTTTAAAAATCTCCTTCCTATGATCTAGGGCGAAAA
GCGAATGAGAAGGAGCGGCAGGCAGCCCTGCAGGTGGCCGAGGGCTTCATCTCGCGCATGCAGTACGCCCCGAACACTCAGGTGAGGAGATGCGCACAAC
CACAGCCCTCTTCCTAGGGCTCTTCCTGTGGCCCCTGACCCCTCAAATTGGCCAGGAAGGGCAGGAGAGCCTTGGGCACTGTCAGGAACAACCAGGCCTC
CCTCTTAGACCCATCCAGTGGGAAAGCCCATCTCAATCCTTCAAAATGTCAAAATACTTATTATTTTCAAAGAGGATGTTGGGCAGCACTCTCCTGGGTG
CCCAGAGAACTGGGTACTCCTCCTCTGGGCCGTTGTCCCTGGCTGGTGCCACCCCTCCTGCCGCAGCACAGTGTCCACAAGTCATCCCGTGGGGAGCTGA
CAGGGCTCAGCTACCGTTGGTGGCRTTTATTAAACTGTGCACCCACGCCCTTGAAGCAGTCTGTTGCCTCTGTCTGTGTCCCTGAAATCTTGGTTCTCAT
CTCATGGCTCATCCAGGGGAGCTTTCCCAGCCTGGACTGCACATGGATTCAGGCCAGGCGCCCACACCCTCCTCCCTGGCTCTGGCCCCCTCCTGTCCTC
CTGGGCAGAGGCAGAGGTGGCAACTTTGTGAACCAGACTTCTCCCCCGCTGTCCCTGCAGGTGGAGATTCTGCCTCAGGGCCRTGAGAGTCCCATCTTCA
AGCAATTTTTCAAGGACTGGAWATGAGGGTGGGCGTCTTCCTGCCCCATGCTCCCCTGCCCCCCACCACCTGCCTGCTTGCTTYTCTGGCTGCCTGRTCA
GTGCAGAGGTGCCCCCTGCAGATGTTCAATAAAGGAGACAAGTGCTTTCCCAGCTCTTTTCCTGCACCACCTGCCCTGGGCTGATTCTCACTGTCACCCA
CCTATTCACCTGGGTTCATCCCCATGCTGGGGGTGGAGTAGCACACAGATGACAATTGGACAGCCTTGGAGGGGCCAGAGCTGCTTTGCATGACAGAGGA
GTCCCAGCCAGGCTTGCAGGGACTGCCATGAACCCAATAGGGAGGTGGCACAGTGCCAGGCCTCAGGATCAGTTGCATCCGGGTGTTCAGTTCAGTCTCA
CATTCCCAACAGGGAGAAGGTTGTGGCAATGGGCTTGGGATGCAGTTCCATTTAAGGCAGTATTTCTTCGGATGCCCTAATAAAGCACTGCCAGGCAGCT
TCAAGTGACATATGCCCACTGAGCAAGAGAGGACAGCCTTTCACAATTGTACCAAGCCTGGCTTATTACTTCGTAGGCACATTGCCCAGCATGTTTGGCT
GGTGAGCCCAGGGCCACTGCAGGGCTGTGCGAAAAGCACCAGGCTAGCATGGACAGTCTTCAGTCTGGTTCTTACCCTGCCTCTGTGATCCTAGGCAAGT
TACTTTCCTTTGCTAGACCTTAGTTCATTCTCTTGGGTAATGAAGTGGTGGTGGGATGTCAGAGGCTAGAGAGCTAAATAGCAGGGAGAATGCAGTAGCC
AAGAAGAGGTCCCATCTGAGAAGGCATGCCCAGGGGCCAAGAGCAGGGTGTGAGTGAGCCTGTGTCAGCTTGGACCAGAGGCCGTGAGGCCTGGCAAGGC
TGCAACCACCCTGACTCATCCTCACCCCCAGGTCCTCTGGACTATGTGGCTTCTGAGCTCCAGAAATTGGATTCTTTCATCCCAAAACAAAAATTCTGAT
CAATTGGCAAGTTGAACTTGCTGATTTGTGCCAAGAACCATACCATAGATACCCCAGCCGGGTGCGGTGGTTCACGCCTATAACCCCAGCACTTTGGGAG
GGCAAGACGGGCGGATCATTTGTGATCAGGAGTTTGAGACCAGTCTGGCCAACATGGAAACCCTTTCTCTACTAAAAATACAAAAAATTAGCCGGGCATG
GTTGCGCATGCCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTAAACCCGGGAGGTAGAGGTTGCAGTGAGCCGAGATTGCACCACTG
CACTCCAGCCTGGGTGACAGAGACTCCGACTCAAAAAATAAAAATAAAAAAGAAATGAGCTCCTCTGTGGATCTGCCTCCATGTCTTCTCCATAGACTTC
TTAGCCCTACTTGACAGCCTACACAAAGAGCAGGTGCCAGGGATGGTTTTTTAAAGGGGAGAGAATAAAGGTTGCACTACATTAGTGGTTCTGACAACCT
TTGTAGAGACGGGGAGTATTTTAAGTCTCCTATGAAAGGCCTAGCCCCTTTCCCTATAAATATACACAGATTAAGATTTTTGTGGCTGGGCACGGTGGCT
CATGCCTATAATCCCAGCATTTTGGGAGGCAGAGGCAGGCGGACTCCTTAAGCTCTGGGGTTTGAGACCAGCCTGGGGACCATGGTGAAACCCCATCTCT
ACCAAAAATACAAAACTTAGCTGGGCATGGTGGCACAAACCTGTAGTCCCAGCTACTCAGGAGGCTGAAGTGGGAGGATGGCTTGAGCCCGGGAGGTGGA
GATTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGATCCCATTTCAAAAAAAAAAAAAGATTTTTGCATCTGCTTTCAGA
GGGTTCAGGTACCCCTCACAACCAGTTCATTAACAGAACTGTAAATTTAAAATTGCCAGACTACATTATTGCTAATGTTCCAGGGTCTGAAGCTGTGAGT
ACTCTGTCATCTGGGGGGCACTAAACAGGTGGATGGTGGGCAGAAAGGACCCTGCAGAGGGAAGAATCACCCAACCTGATACTCCAAAGTGGAGGCCGAG
CTGCAGCTTTTCTCCCCTGCAATTCAACTCCTGCCATGCCATGCCCAGCAATCTCCCTGCTATCTCTGTTGGTTAGCTGAGGACCAGACTGGAGGAAGTA
TTGTGAATGAAGGGGTTAGTTCAGGTCAGGCAGACAACACAAGGCAAACTATGGGGTTTGTTACCAGCCCCACCCTTGAGGCATCCTGCTGACAGCAGTC
AGGAGTTCCCCTCCACGCCTGGGTGGCCACCTCTCTTCCCTACCTCTGTGATGTTTCCCCCTGCAGTGGGTCAGACTTAAAGAGGCCTGCAGGGCCAGAT
AGTGGTCTTCCATAGCATTCCACTTGAGGGGGTCCGGAGGACAGAAGGTAGCATAGTGGGGCTCTCACCTGCCCCCCACTCCCCAGCTCAGGTACCCTGG
CCTGGAGGCTCTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGCTGCCCAGGCCGGAGTGCAATGGCACAGTCTCGACTCACTGCAAACTCCGCC
TCCCGGGTTCACACCATTTTCCTGCCTCAGCCTCTTGAGTAGCTGGGACTACAGGCATCCGCCACCACGCCCGGCTAATTTTTTGCATTTTCAGTAGAGA
CGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACT
GCGCCCAGTCTGGAGGCTCTTTTGGGAAGGAACCAACAGTGCTGGCCTTCGCCAGAAGCAAATGCAGGAAAAACGTGGTGTGGATGCCTTATACCAGTCA
ATCTTAACAAGAGCTGGGCTACCTCGTCCACTGGCTAGAGCTTGCAAGGAGTCTCTGGGCTTGTAAGTATAGCAGAGGATGGACATCCTATGAATTCAGC
AAGGTTTGGCTGCAGCACAGGCAACCTTCTGTCTCCTGGAGCCCATGACCAGGCTGGAACCCACCTATGCCTTCACCYTTAGGTGTGCCTGGCTCTAACC
AGGTTCCGGAATGACAGGACCACAGGATGGTGCAAGACTTGTCTTGGAAAAAAACACCTGAGACGCTTAATTAGAACAATTCTTTTATTTGAAAACTGCT
GGTATGAATTTCCTCCTTCCCTCAATTAGGCCAGAAACTCATCATGGGGCATGCACAGCATCTACAGGAGGAAGCCCCAGCTTGTGGGGGCTAGGATGGA
GCAGCCGTGAGAGACACCTAGCCAAATGTCCGTTTTTCCATCATAAACAATGGAGCGGGGGTCAGGGGGAGAAGAGAGTGGGTAAGTGAATGGCCAGAAA
CTCCAGAGGGGGCCTCACACCCACCTGTGAGGTACCTCCTTGCCCTACCCCCACTGAGGCCTCAGGCCCCTTGCTTGGGTCATGCTGCCCCCTGTCGGCT
GCTGCCCCTGCCTCTTCCTCTGAGTTCTAACAACACAGACACTGGTGCCTGAAAGCCCTGCTGCTGCCAGGGAGTCAGAATTCTGGCTGCCTCTACTTGG
GAATCTCCTCCCATGTGGGGATCTGCAGAACATCCAGATGGGGCCATCCCACCTCATGATCCATTCACTCCCAGTGGGATACACTGGAATTCAACCCGGA
GACTGGAGCCCAACAGATTAAGGCAGAATTCTCCTTGCTCTGGAGGCAGGTCTGCGGGAAGGGGGTGAAGTCTAGCTGCCCCTCATGTCCCATGCCGGTG
AGGGTACTTGGCTTCCCACAGCTAAGCCCAGGAGCTTCCTATATCCCATCTGCTGAGACAGCAAGGGGTGCGGCCTGGCCAGGCTCCTGACATGGCTCCA
CTGACCCCCTGAAAGCCCCTGCAGCTCAGCCTTTAAGCCTCCATTCATCTCGGAGGTCAGATCAGCCATACGCCTTCGGATGAGTGAGACTGCAGGTCAC
TCTCACCTGTGAAGGTGAGATCCTTGAAGGGAGGGGCTTCTGGCCCATAGCACTTCTGTGCTCCCAACAAGGAGGCCTGTCCCTTTGACACCCTGGCCAA
GTACAGCTCCAGGGTCTTGAGCAGCCGCCGTGGGCTCTTCTTGGCCAATACTTCCAACTCTGCAACAGAGAGAATTGGGGAGCAGAAGGCTTGAGGGGGC
TCTGGGTGACACAACAGTCAAGGCCTCAAGCCTAGCAGCTCTAGGGAGTACCCCCAACCCCTATCCCATGGAGAGAAAGTGAAGGAGCCTCAGATGGAGA
GATCACCAGAGAGGTAGGCTAGGGAGCCAGCTACAGCCACAGGGACCACACACTCTACCTTGTCTGCACAATTGCAACTTTGAATAGTCCAACTATTGGA
CCCTGGCTCCCAATTTTTGATCAGAATATATGCTTGTCATAAGTATAAGACCAGAAAAGGGCGACAGTCAGGGCAGAGAAAGGAGAACTAGCAGACTCCA
GGGGGTGGGTGATGGAGATTTTGGTAAGCTGGAATTTGAGAAAGTGTGGATGGGGAAGAACTGCAGCCAAAACCAGTCTAGCAACCACCTTGGGCTCTCT
GGACCTGGGACACTGTGCATTCAGCCTAGGCCTCCCCAGAAGAAAGAGCACACCTTTGAGGACAAAGCCCGAGTCTGAGATGGTCTTCCGCTGTGTCCTC
CAGACATGTGCGAGGTGGAGGAATGTGGCGGCATAGAAGCTGTTCACCACGGGGATGACCTTCTGCTGCCGATTACACTCTCTGCAGGAAAAAGGCAAGG
TGACCTGCTCAGCGGTGGATGAAGGCTGAGACCTAGGTTCCCTCCCGCCTTCCTTCCCCATTTCCCSAGGGGAGCCAGCCCAAACCCAGGATGCCCCCAC
CATTCCCCAGGAGCCTGACATCTAAGGCCAGGGGTGGGAGAAGGGATGTCCTGGGGAGACCGGTGCATGGGGACTTTGTCCAGGCCCTCCAGGAGCCAGC
AGGTGGAGTAGAGCTGGGGAAAATTAAGCCAGAGTGGGGACGAACAAGGCTTTGCTGGGTCACTCTAACCAGCTGGTGTTTGGGGACTCACCTGGAGAGA
CACTCCTCTCTCAAGGCCTGGATGGCAATGTGGGTGATGTTCACGGACATCAAACAGAAAGGGAATTGCTGGAATGGAGGGGCACCCAGTCAGCAGCAAC
TCCAGCTCTCACTGTGTTTCCTGTCATCTGCAGCCTGGTGTGGCTCGCAGGCAAGCACAGCCCCAGAGGCAACAGCTGATATTATTATTGCTTCCACTTA
ATTTTCCTAATAATCTTCTTCCCATCTTACAGATGAGGAACTAAGGCTCAGTGACCTTTAGTAACTTTCCTAAGGCATGGGAACCAGGATACCAACTGAG
GTTATTTGCTCCAGAGCTGATGTGCATAACCCCCGTGCTAGCTCTCCAGCCTCTTCATCATCCTGACCCGTCAGCTCTCCTTGGCCTGCAGCAGACCCAA
CCCCTGGGCCCACATCATCTCCTGGTGTCAGGATGAAGACAGAAGTGAGAGGCTCGGTGCTCTAACTAGCCCTACGGGTTCTTAAAGTCTCCTCTCCCCT
TCTTTGGGCTTCTGGTTGTCTGGCTGATCGTGAGCACCTCATCCTAAGACAGAGAAGACGCACGTGGGTAGAAGGTCATCCTGACTTGGGGGGACACCCC
ATCTCACGATAACACAGAGGCCTGAGAGCCAGCTGTGCGGGTCAGACCCCAAGAGGAGGCAGCCTGAGTCTGGCAGGGGAGCTTCACCAGGAAGGGCCTC
AGAATCCCCTACAGGGACAGCTTTAATGCTCTATGTTTAGTCAGGCAAGCTCCTTTCTTTAATAACAATGAAACCAAGCTTGCAAAATCCCTGAATGGAA
AGGGCCTTTTTTTCAGGGAACTTGCAGACATGACATGTTATTTTCCCCTGTTGCACATACACAAGGACACCCAGTGAGAGGAACACATAGACCAGTGCAT
TCCTTAGTACAGAACAAGAACCAAGGTCTATTTATCCCACCTGCTTCCCAGTTGAAGAAAAATCCATTACATTATAGTATAGAACTGTACTGCCCAGTAT
GGTGGCAACCAGCTGCATGTAGCTATTTAAATGAGTTAAAGATGAAAAACAAATATAAATTCAGCTCCTTAGTGGTACTAGCCACATTTCCAGTGCTCAG
TAGTCACGTGTGCTTAGTGGCTGCTGTACTGGATGGTGCATTTCCAATATCTAGACCACTTCTGTCACTGCAGAAAGTTCTGGACAGTGCTGAACTGCAG
AAGGTCTTCTGGCTCCACAGAGATTTTTCTCAGGGTCTTCCATGATACCTGAATTCCAGATCTTGGCCTGGCTACCTGGTAGCTGTGTGTCCTTGAGAAG
GTCACCCAACCTCTGTGAAACTCAGTCTTCCCATCTCTCAAAATCAAAAAGGACATAAACTTTGAGTGCTGTGCAGAAAAAAGTTAACACAGCAGGCCTG
AGACTCCTTAGAGCCTGAGCCTTAGAAAATTCTTAGATCAGGCCATGGCTGACAGCTGAGAACTTGGATTTTGAGATGGTTCCCATCATTCCCTAACATT
GTTCCTCAACTGCTCATGCAAACAAGATAGTTTTTGCTGGCTGGGCCCAGGGCTC


SNP Information

Context             (SEQ ID NO:43271):
TGGCCCCCTCCTGTCCTCCTGGGCAGAGGCAGAGGTGGCAACTTTGTGAACCAGACTTCTCCCCCGCTGTCCCTGCAGGTGGAGATTCTGCCTCAGGGCC
R
TGAGAGTCCCATCTTCAAGCAATTTTTCAAGGACTGGAAATGAGGGTGGGCGTCTTCCTGCCCCATGCTCCCCTGCCCCCCACCACCTGCCTGCTTGCTT
Celera SNP ID:            hCV8695563
SNP Position Genomic:     29583
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,17)   caucasian(A,1|G,3)   total(A,12|G,20)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;JBIC-allele(A,512|G,551)   total(G,551|A,512)no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:43272):
AACTTTGTGAACCAGACTTCTCCCCCGCTGTCCCTGCAGGTGGAGATTCTGCCTCAGGGCCGTGAGAGTCCCATCTTCAAGCAATTTTTCAAGGACTGGA
W
ATGAGGGTGGGCGTCTTCCTGCCCCATGCTCCCCTGCCCCCCACCACCTGCCTGCTTGCTTCTCTGGCTGCCTGGTCAGTGCAGAGGTGCCCCCTGCAGA
Celera SNP ID:            hCV8695564
SNP Position Genomic:     29622
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:43273):
GATGGACATCCTATGAATTCAGCAAGGTTTGGCTGCAGCACAGGCAACCTTCTGTCTCCTGGAGCCCATGACCAGGCTGGAACCCACCTATGCCTTCACC
Y
TTAGGTGTGCCTGGCTCTAACCAGGTTCCGGAATGACAGGACCACAGGATGGTGCAAGACTTGTCTTGGAAAAAAACACCTGAGACGCTTAATTAGAACA
Celera SNP ID:            hCV7934266
SNP Position Genomic:     32678
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:43274):
ACCAGGTCAGAGCCCACCTCTAGGCACCCCCACCCTGCAGCTTCCCTCAGAGCCAGCCCTGCTTCTGGCTGGTTCTCACCCTGCAGAAGACCCGGGTGCC
Y
TTGGAGCCGGGTCCCCACCTTTCTGCCCGTCTTCCAGTGGGATGGGGTGCAGAGGGCTCTGGGTCTCCTGTCAGTCCACTCAGATGGGCCGTCTGGGCTG
Celera SNP ID:            hCV11938962
SNP Position Genomic:     23086
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43275):
TAAATGCTGTTTCTGCATCTATTGAGGTGATTACACATACATGTTTGTTAATAGGGTGTATAGCATTGATTTTCAAATTTTGGCCTGTTTTTTTTTTTTT
K
GCGTTGTGAGCGGCTTTATTTATTTATTTTAAATTTATAATTGACAGATAATAATTGCACATACTTAGCAGGAGCAGTGTGATGTTTCATTGTACATATG
Celera SNP ID:            hCV26995976
SNP Position Genomic:     20245
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43276):
AGTCATCTGGAGCTTCTCAAACACTGACATCCAGGCTCCACCTAGAGAGTCTGGTTTTAATGAGTCCAATATGGAAGCTAGTCACTGGGGTTTTTCTTTC
T
TATTTTTCTGTAAATTACTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTTACTGCAA
Celera SNP ID:            hCV2763590
SNP Position Genomic:     16680
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43277):
AGATATTAAACCAACCTTGCATTCCTGGGATAAACCTCATTTGGTCATCATGGTTTATTTTTTATATATTATTTGATTTCATTTGCTAAAATTTTGTTAA
T
TTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTACAATGGCATGGGCTTAGCTCACTGCAGCCTCTGCCTCTTGG
Celera SNP ID:            hCV26995977
SNP Position Genomic:     20609
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43278):
GGCGCACTCCGTGTCTCATTCTTGAGCGCTCCCTGATGGCTTGAGCTTGGGGCAGCCACTTCACCAGCTCAGGCCTGAGTCACAGGCTGGGCTGCCTGTT
S
CAGGGGATGTGGGCACAGCATGTGATCCTCTGTGGGATGGAGAAACGTTAAAGTTTCCCTCCGCAAACCTCTGCTCTCTGCATGTCCTCTTCCGGAATCG
Celera SNP ID:            hCV2763591
SNP Position Genomic:     18700
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,6)   total(G,6|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43279):
GATATTAAACCAACCTTGCATTCCTGGGATAAACCTCATTTGGTCATCATGGTTTATTTTTTATATATTATTTGATTTCATTTGCTAAAATTTTGTTAAT
T
TTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTACAATGGCATGGGCTTAGCTCACTGCAGCCTCTGCCTCTTGGG
Celera SNP ID:            hCV26995978
SNP Position Genomic:     20610
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43280):
CTGGGAGAACTCCCAGAGAAGGCGGAGGCCACTTAATGTCCTGGAAGTTTCCTTGGACAGCTGGGGCTTGATACGGGCCTGGAAGGATAAGGGGGCTTGT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGACAGATTCTTCCTCTGTTGCCCAGGCTAGAGTGCAGTAGTGCCATCTCGGCTCACTGCAACC
Celera SNP ID:            hCV11538862
SNP Position Genomic:     16054
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43281):
ATATTAAACCAACCTTGCATTCCTGGGATAAACCTCATTTGGTCATCATGGTTTATTTTTTATATATTATTTGATTTCATTTGCTAAAATTTTGTTAATT
T
TTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTACAATGGCATGGGCTTAGCTCACTGCAGCCTCTGCCTCTTGGGT
Celera SNP ID:            hCV26995979
SNP Position Genomic:     20611
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43282):
TGCCGATTACACTCTCTGCAGGAAAAAGGCAAGGTGACCTGCTCAGCGGTGGATGAAGGCTGAGACCTAGGTTCCCTCCCGCCTTCCTTCCCCATTTCCC
S
AGGGGAGCCAGCCCAAACCCAGGATGCCCCCACCATTCCCCAGGAGCCTGACATCTAAGGCCAGGGGTGGGAGAAGGGATGTCCTGGGGAGACCGGTGCA
Celera SNP ID:            hCV25752870
SNP Position Genomic:     34467
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43283):
ATAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
Y
GTGTCCAGCCAAATTGTGTTAATTTTTGTATGTGTATGTTCATGAGAGATACTGATCTGTAATTTTCTTTTTGCATAATATATTTATCTGGTTTTGTTAT
Celera SNP ID:            hCV2763594
SNP Position Genomic:     20902
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43284):
AACACTGACATCCAGGCTCCACCTAGAGAGTCTGGTTTTAATGAGTCCAATATGGAAGCTAGTCACTGGGGTTTTTCTTTCTTATTTTTCTGTAAATTAC
T
TTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTTACTGCAACCTCCACCTCCCAGGTTCA
Celera SNP ID:            hCV11538865
SNP Position Genomic:     16699
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43285):
TGAGTGCACCTCACTTCCAGCCTATGCTTGGTGAAGGCTTGAAGCCAATGCTGAGCTTTTCTTTCTTGAATTCTGTGCATTTCTTTGTAATTTGGAATCC
W
CCTAATTTCCAAATGGGTTCGGGGCCCCTGTGCTGCAGGGATTGGGGTGATGAGAGGGAGTGGGGCTGCCTGGAATTTGCTTTTCAGGTCTTCACTCTCT
Celera SNP ID:            hCV2763596
SNP Position Genomic:     26129
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|A,6)      total(A,6|T,6) ;(T,-|A,-)   JBIC-allele(T,593|A,908)   total(A,908|T,593)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43286):
GTGCATTTCTTTGTAATTTGGAATCCTCCTAATTTCCAAATGGGTTCGGGGCCCCTGTGCTGCAGGGATTGGGGTGATGAGAGGGAGTGGGGCTGCCTGG
M
ATTTGCTTTTCAGGTCTTCACTCTCTTGTCTGCTCCTGGGACCTGGGCAGTGGGCAGCGAGGCACAGTGGGAGGGACCTAGGGAGGACCAGCCTCCCCCT
Celera SNP ID:            hCV2763597
SNP Position Genomic:     26203
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,11)   total(A,11|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43287):
CTGGGCCGTTGTCCCTGGCTGGTGCCACCCCTCCTGCCGCAGCACAGTGTCCACAAGTCATCCCGTGGGGAGCTGACAGGGCTCAGCTACCGTTGGTGGC
R
TTTATTAAACTGTGCACCCACGCCCTTGAAGCAGTCTGTTGCCTCTGTCTGTGTCCCTGAAATCTTGGTTCTCATCTCATGGCTCATCCAGGGGAGCTTT
Celera SNP ID:            hCV2763598
SNP Position Genomic:     29325
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43288):
TTCAAGCAATTTTTCAAGGACTGGAAATGAGGGTGGGCGTCTTCCTGCCCCATGCTCCCCTGCCCCCCACCACCTGCCTGCTTGCTTCTCTGGCTGCCTG
R
TCAGTGCAGAGGTGCCCCCTGCAGATGTTCAATAAAGGAGACAAGTGCTTTCCCAGCTCTTTTCCTGCACCACCTGCCCTGGGCTGATTCTCACTGTCAC
Celera SNP ID:            hCV25615618
SNP Position Genomic:     29697
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,1|G,1)   total(A,1|G,29)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:43289):
CAGCAGTCATCCCGGGATGAGCAGGGGGCCTGTGCCGTGCTGGCTGTGCACCTCAACACGCTGCTGGGAGAGCGGCCTGTGCAGCACCGCGAGGTGCAGG
R
CAATGAGTCTGACCTCTTCATGAGCTACTTCCCACGGGGCCTCAAGTACCAGGTCAGAGCCCACCTCTAGGCACCCCCACCCTGCAGCTTCCCTCAGAGC
Celera SNP ID:            hCV25615619
SNP Position Genomic:     22938
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,2)   total(A,1|G,27)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:43290):
TCACAAGGGCCTTGCCCTGCCCTCTCCCACTTGTCCCAGGCCAGCAGTCATCCCGGGATGAGCAGGGGGCCTGTGCCGTGCTGGCTGTGCACCTCAACAC
R
CTGCTGGGAGAGCGGCCTGTGCAGCACCGCGAGGTGCAGGGCAATGAGTCTGACCTCTTCATGAGCTACTTCCCACGGGGCCTCAAGTACCAGGTCAGAG
Celera SNP ID:            hCV15851291
SNP Position Genomic:     22897
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,21)   caucasian(G,2)   total(A,3|G,23)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:43291):
CTATGCTTGGTGAAGGCTTGAAGCCAATGCTGAGCTTTTCTTTCTTGAATTCTGTGCATTTCTTTGTAATTTGGAATCCTCCTAATTTCCAAATGGGTTC
R
GGGCCCCTGTGCTGCAGGGATTGGGGTGATGAGAGGGAGTGGGGCTGCCTGGAATTTGCTTTTCAGGTCTTCACTCTCTTGTCTGCTCCTGGGACCTGGG
Celera SNP ID:            hCV15960601
SNP Position Genomic:     26150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43292):
GCCACTGGAAAGGGCCTCTCCAGCCCCACGTGAGAGGTCCTTTTTGTGGCATTTGTAATAATAATGGCTTCTTCTTTCTTTCCAGATCTGAAGACAGCAT
R
TACACAGCCATTCCCCAGAGGTAAGCTGCATGCCCCATCTCCTTTCACAACTTCCCCTTCTTTACCTCCAAGGGCTGCCCCTCCCCACTGCTCTCCTCAT
Celera SNP ID:            hCV27842845
SNP Position Genomic:     22376
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:43293):
CAGTGGCTCTCCATTCCCAGGCTCAGTGCAGGATCCAGGCCTGCATGTGTGGCGGGTGGAGAAGCTGAAGCCGGTGCCTGTGGCGCAAGAGAACCAGGGC
R
TCTTCTTCTCGGGGGACTCCTACCTAGTGCTGCACAATGGCCCAGAAGAGGTTTCCCATCTGCACCTGTGGATAGGTAAGGGGATCTGGATGGGGGAAGG
Celera SNP ID:            hCV15851292
SNP Position Genomic:     22659
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,22)   caucasian(A,1|G,5)   total(A,5|G,27)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:43294):
TGAGACTCAGTCTCAAAAAAAAAATTCATTGCTCTTCTCTCTTGTTTCTGTTTTCTGTTAATTTCTGCTTTTATTTTAATTTCTGTGAGATCTCAGCAGA
Y
GGAAGACCCTGGCCCAGGGGTCAGAGACCTTATTTCCATGAACCACTCACTAGCTGTGTGGCCTTGGACTCATTTCTGAGACTCATTTTCTTTGTCTGCA
Celera SNP ID:            hCV27844829
SNP Position Genomic:     22121
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:43295):
GGGCTGGTGTGTGGGGGGTGAGATCAGGCACTGTCCCTCCTCCCCAGGTCTCTGATGCCACTGGACAGATGAACCTGACCAAGGTGGCTGACTCCAGCCC
M
TTTGCCCTTGAACTGCTGATATCTGATGACTGCTTTGTGCTGGACAACGGGCTCTGTGGCAAGATCTATATCTGGAAGGGTACGTGGCTCCTCTGTAACA
Celera SNP ID:            hCV8695558
SNP Position Genomic:     26420
SNP Source:               Applera
Population(Allele,Count): african american(A,19|C,13)   caucasian(A,25|C,9)   total(A,44|C,22)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:43296):
GGCAAGGAGAAAGACAAACTGAGGGAGGAGGAAAAAGTAATGTGAAGCCAGTGACCCTGCCCAGAAAATGTGACTAACCCAGCAGCGGTGGGGGCTGTGC
M
GCGCCTGCCCCAGGCCCTGAATGGAGAACATGGCTTTCCTTGCTGGTCTCAGACTCAGAGATGCCCTCCCTGATTTGCCTTGGCTGTGACCTGCAGCGGG
Celera SNP ID:            hCV27514105
SNP Position Genomic:     13717
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,163|C,1312)   total(A,163|C,1312) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43297):
CAGACTGAGCACTCCGTATTGGCACCATCCTTTATAAGGACGGAGGGGCAGGAGGCCAGGAAAGAGGGAGAGAAGCTGAGAAGCCGTAAACCCATTCCAA
R
TGAGATCACTCTGACCATTGGAGAATGTCCCTATATTTGTAAGGACTGATGCCAGCCTCCTTCTGCCATCTAGACATTGCCTCTGATGCTCTGGAGCTTT
Celera SNP ID:            hCV27514106
SNP Position Genomic:     23469
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,31|G,1460)   total(G,1460|A,31) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43298):
TGAGAGTCCCATCTTCAAGCAATTTTTCAAGGACTGGAAATGAGGGTGGGCGTCTTCCTGCCCCATGCTCCCCTGCCCCCCACCACCTGCCTGCTTGCTT
Y
TCTGGCTGCCTGGTCAGTGCAGAGGTGCCCCCTGCAGATGTTCAATAAAGGAGACAAGTGCTTTCCCAGCTCTTTTCCTGCACCACCTGCCCTGGGCTGA
Celera SNP ID:            hCV27508644
SNP Position Genomic:     29684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:43299):
TGCCTATAATGCCAGCACTTTGGGAGGCCAAAGCAGGAGGATCACTTGAGCCCAGGAGTTTGAGACCAACCTGGGCAATAGAGTGAGACACAGTCTCTCC
A
AAAAAAAAAAAAAGTTTAGCTGGGCGTGGTGGCATATGCCTGCAGTCCCAGCTACTCAGGAGGCTGAGGCTGGAGGATTGCTTGAGCCTGGGAGGTTGAG
Celera SNP ID:            hCV2763584
SNP Position Genomic:     9820
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43300):
TCTCGCAAAGTTTACAGCACAGTAAGCTTGTCCTTAGCTTCCCCTATACCCTCCTTCCCACGCCCAATTCTAGGACCCTTTCGGGCGCCCCAGCCTCCCA
Y
AGGGGCTCCCCGCCAGCTCAGACCGGCCGGGCCCCTCCCTCTGACTCACCGGGGGCGGCTCCTGGCCGCGCACCTCCAGGGGGCGGGGGGCGGCTGAGAC
Celera SNP ID:            hCV2763585
SNP Position Genomic:     10314
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43301):
CTTCCCACGCCCAATTCTAGGACCCTTTCGGGCGCCCCAGCCTCCCATAGGGGCTCCCCGCCAGCTCAGACCGGCCGGGCCCCTCCCTCTGACTCACCGG
R
GGCGGCTCCTGGCCGCGCACCTCCAGGGGGCGGGGGGCGGCTGAGACAGCGCCCAGGGCCTCGGAGCAAGGCGTTGGCAGGCAAGTAGTGCGCTTCGGGG
Celera SNP ID:            hCV2763586
SNP Position Genomic:     10367
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43302):
CGAGGGGTTTTCATCTACCTTGGTGCTGCCGGTTTGGGAAAATTCTTAAGGGACTGACTCCACATCTCCAAAGAGCCCCTCGGCATTCTTGGGACCCCTG
S
TCCATTTATTGTAAAAATTGCTGGCTCTTCTGTGGACTCCCTTAAATTTCCTCAAGAAAAATGGGATGGCAGCTAAAGAGGGTCCCTGCTCTTTTTAAAA
Celera SNP ID:            hCV25615620
SNP Position Genomic:     28772
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,2|G,24)   total(C,2|G,58)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43303):
GGCCCAGGGCCCAGAAGTCATGATGATAAACATCTGGTGAATGAGAAGCAGACCAAAGGGTAGAGACCTGAGAGGCATCAGCATGGCATGCGGAAGATGG
Y
GAAGAATGTTTTATGGCCTCAGCCATTCCCTGAGAACTGAGCTTAGCCAGGTGCAGTAGCCCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAAGTGGG
Celera SNP ID:            hCV2763587
SNP Position Genomic:     13231
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43304):
CATGATCAGACCCGGGCAGACGAGGGGTTTTCATCTACCTTGGTGCTGCCGGTTTGGGAAAATTCTTAAGGGACTGACTCCACATCTCCAAAGAGCCCCT
S
GGCATTCTTGGGACCCCTGGTCCATTTATTGTAAAAATTGCTGGCTCTTCTGTGGACTCCCTTAAATTTCCTCAAGAAAAATGGGATGGCAGCTAAAGAG
Celera SNP ID:            hCV25615621
SNP Position Genomic:     28752
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,5)   caucasian(C,26)   total(C,55|G,5)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43305):
ATCAAATGCATTCTTTGAGCACCTGCATGAGGTTCCAGCTAGATCCAGAGGCAAAATACACTTCCTGCCCTAAAGGACCCTACAGTGTAGTAGTGGAGGT
R
GGTGGGTCCATAACTCACCACACTATGGCAGAGTGGGGAAAAGTAAAGGCTTTAAGAGGTGTAGAAGAGGCTGTTTGGTAAGGTGGTGAGTTTCCCATCA
Celera SNP ID:            hCV2763588
SNP Position Genomic:     15359
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43306):
TTTGTCTGCATAATGGAACTAGGGCTCCTAGAGGTGGAGTAGTTGATGAATATGAAAGTACTTGGCCACTGGAAAGGGCCTCTCCAGCCCCACGTGAGAG
K
TCCTTTTTGTGGCATTTGTAATAATAATGGCTTCTTCTTTCTTTCCAGATCTGAAGACAGCATGTACACAGCCATTCCCCAGAGGTAAGCTGCATGCCCC
Celera SNP ID:            hCV27858554
SNP Position Genomic:     22312
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,37|T,3)   total(G,75|T,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43307):
AGGGGCCCAGGTCAGAGCAGAGTTTTGCATGATCAGACCCGGGCAGACGAGGGGTTTTCATCTACCTTGGTGCTGCCGGTTTGGGAAAATTCTTAAGGGA
Y
TGACTCCACATCTCCAAAGAGCCCCTCGGCATTCTTGGGACCCCTGGTCCATTTATTGTAAAAATTGCTGGCTCTTCTGTGGACTCCCTTAAATTTCCTC
Celera SNP ID:            hCV25615622
SNP Position Genomic:     28725
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,24)   total(C,56|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:43308):
AAATGCATTCTTTGAGCACCTGCATGAGGTTCCAGCTAGATCCAGAGGCAAAATACACTTCCTGCCCTAAAGGACCCTACAGTGTAGTAGTGGAGGTAGG
Y
GGGTCCATAACTCACCACACTATGGCAGAGTGGGGAAAAGTAAAGGCTTTAAGAGGTGTAGAAGAGGCTGTTTGGTAAGGTGGTGAGTTTCCCATCACTG
Celera SNP ID:            hCV2763589
SNP Position Genomic:     15362
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43309):
GAAGCCAGTTGTCCCAGGAAGGTGACATTGGACTAGACCTATAGGAGGGGAGATGCCACTCCAGGCAAAGGGAGAAGGTGAGCTGAGCCACCAAGGTGGG
K
AAGGGTGCAGACATGCACACACCAGGGGTCTAGTGAGACTGGGACCCGGGCTGGGGGACAGGAGCAGGGGGAGGGAAATTCCTAAGCAAGGTGGAAGGTG
Celera SNP ID:            hCV11537879
SNP Position Genomic:     23928
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,14)   total(G,14|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43310):
TGTTCCCCTCCCTGAAATATTCCAGGGGCCCAGGTCAGAGCAGAGTTTTGCATGATCAGACCCGGGCAGACGAGGGGTTTTCATCTACCTTGGTGCTGCC
R
GTTTGGGAAAATTCTTAAGGGACTGACTCCACATCTCCAAAGAGCCCCTCGGCATTCTTGGGACCCCTGGTCCATTTATTGTAAAAATTGCTGGCTCTTC
Celera SNP ID:            hCV25615623
SNP Position Genomic:     28702
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,24)   total(A,1|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:43311):
CAGCCTGGCTGGTGGGGTGGGCTGGACTCAGCCCTCACTCACCTCACCTCTGCTGGGTGCCCTAGTGCAGGGCGCAGTTTGCCCCACCAGAAGCAGTGGC
Y
CTGGGCATGATGGGCTGGGAAGTTCCAGGGCAGGGGTCCCTATAAACCTGGCCTGCCCTGGCCCCTGCAGGTCCTGGGCCCCAAGCCTGCTCTGAAGGAG
Celera SNP ID:            hCV25615624
SNP Position Genomic:     25666
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,12)   total(C,41|T,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43312):
GGTGGTCGTGGGCATTTTCAGAGAGCCCTCTGTGCTGTGCTCTGCCTTCCTGGTTGTCCTGCCTCAGGGACAGTTCAGAGAGGAGAGAGGGAGAGCTGTG
S
GCCCTTCTCTGAGCTGGGGAGCAGGACACAGGCATCTGGCTCTGACCCGGACTTTCCTGCTTCCTTGCAGAACATCTTCGCCTGGTGTGGTGGAAAGTCC
Celera SNP ID:            hCV25615625
SNP Position Genomic:     25163
SNP Source:               Applera
Population(Allele,Count): african american(C,23|G,11)   caucasian(C,4)   total(C,27|G,11)
SNP Type:                 INTRON


Gene Number:                 217
Celera Gene:                 hCG36855 - 113000145190658
Gene Symbol:                 SLC1A3
Protein Name:                solute carrier family 1 (glial high affinity glutamate transporter), member 3;EAAT1;GLAST;GLAST1
Celera Genomic Axis:         GA_x5YUV32VTD9(2198149..2291871)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12377):
AAGGAGGCTTGCATTTGCTTCTTCTATGACTCAAAAATGAACTGCCTCATAAGGCAATGGGAATTCCCTGCCTGGCCAAGGAAAAGGGGATTGTTAAGCA
TTCTGAAGGCTTTCTTCCCTGGTCTTTCAGCTTAGAATCAATCCATAGGCACGACATTCACAGAAGATAGAATTTGACTCAGGAGCACAGCCCAAATCTT
GAATGTAKGTTTTAACGCTTAAACTAACTTTATTCTAACCTTACCCCCAGATTACTATGATTGCATCCAATGTCCAAAAGTTATTTCAGCCACTAAGGTT
GATTTGTGCTCAAGGCCCAGTTTCCACCGTTCACCCTGTTTTCTCAACCCAAAACTGCATTTTCTGTTGCTTTAAAAATTTGCATATTTTCTCAGTGCCT
GTTTCTGACTTACAATAAACAATACCCAGACCTCCTGCCAAAAAAATGTCCAAATGCGAAATAGTTGCTATAATAGTCGTTTCTGTGATGGCAACTTTGA
GCTGTGTGCTTTTAAATTATAATTACTTTTTTCCTTACAAAAGATGTGTATCTGTCTTGATTGCTGTAATTATGATTCTATACCAGCAAACAGTTATAAA
AGATTCATGTCATCACTGTGCTTCATAAAACCCATGCCCCTCAATAAGCTTCCTTTGGTACTGTATTATGTTTGTGTTTAATTTGTGGCAGGGAAATCCT
AATGAGAAGCCATTAATCACTGAGTGTATATAAAAATTTGTGTCCTTAACTAAACAGACCAAAGTGGATATGGCAAGCCCGTTATTGGCATGACATGATT
TAGAATCAGGAAAGCGATTTGAGAAAAACAATCTAGTCTAACCTAGTTTTACGGATGACATTCAGAACTGGGAAAGGAGAGCATGTGGCTTAGTGACTGC
ACACATAATGGGACCAGGAGCCCAGAGATCCAGGTTTGAAACCTGAACTTGGCACTAAGGAATTATGGCACAAACTGACTTGACTTCCTCATTCATCCTC
GCTTCCCAACTGTGATGTGTAGAATCCACACATTAAGGAGGTGCCTCACCCAGGGAGCTACCTGGGGGCAAGAAAAGGGGGACACTGAGGTAGGCTCTGA
ATCCCACCCACCCCCCATTCAATTAGAGCAGCCACACTTGGATCTATTTTACATTGTAATGATTGAAGAAGGAACTCATTGGCTTTTTTTTTTCCTTTTA
AGTTTGATGTTTACTGACTTCCTTTCTCCAAGTCTTAGAATTGGAAATGGACTGATGAACCCTCTTGTGTTTGTGACTGTGTTGCATCTGTTTATTGGTG
CAGCAACTCTTTTCTGAGCACCTTCCGTTCTGGTTCCTAAGTATGCAGTAGTTATCCATACAGGCCCTGCCCTCAAAGACCCTGCAGTCTAGACAGGGAG
AATTGCAGCACAAAGTGGTAATGACTCTGGAGATTTAAACCCAGGGGGCCTTGGGAGCACATAGGAAAGGCAACCAAGCCCGTTGGATTTGGGGAGTGGA
AGGAGATTAGAGTTGACTCCCCAGAAGAAATAACAGATTGTAGGCCTTCCTTTTAATGTTCTTTCCTTTCTTTTCTATCTGTCTTTAAAAAAACTCCTGG
GGGCTTCTTTTGGGAAAAGATGAGAAATCAACATGAAGAACTCTTGTCTTAGCGCTGACTATGATCCCCAGCATATTACTCAATCCCTACTGATCTCCAA
CATCTGGGTCTACAGGACCAGTAATAATAGAGTAGAATAGACCTCAAAGTATTATCACGAAGATTAAATTAGATAATGTGTGTAGAAGTACTTAAAAAAC
TATAAAGCCCTGTAAACATGTCTGCTGAAGGCTTCAATTCCAATCAACCTACATAATCTTTTCCAGCTAAACGGATATTCTTGGTTCTACAAAGTCTTGA
CTCATGTTGAGCAACTGGGGAAAATGTCACTTTTCAATATAAATAATAATTGATAACAATAACATGTGTGAAGCCTTCATTAAAAAGCAGACCCTCTTTA
GCTTTAGAATGGAGAAAACATGTTGTTTTTTAAGGCATCATTATGTCCACCTGTTGGCTCACTTGTGAGAAAAATAACAGTTGGTGTAATTTCTTGCCAC
GTGGGAATCTATTTGGGGGGGTTCCTCTTGCTGGTCTTCACCTTTGTGTTGGTGTTCCCTAGGCTTCTGCCCTTGCTCAGTCCTCTTCTGAAACCCCATC
AGAGGTCAAAACAGAAGAACTTGCTAGAGCCACATGCTGATAACTAACTTGAGTGAAGTGAGCAGGACAAGTGGGCTGGAGAGTGCACACTCCACCTACA
GGAGGCAGCCTTGGCTCAGTGTCAGCCGACCCCTTCAAGGGCCTTGATATTCTCAAATGGTCAGTATTTTTCAGTGTGAATGTGAACTCACCTAGTTTGT
AAATGCTCCTCCTGCCCCTTGACTTCCTAACCCAAGTCTTAGTCACTTCAAGGCTTTGCATTTTACCTAAAACGAAAATTACTTCCCTGCTTAAATCCTG
TGGCTGGCTCCCCATTGACTAGGAGTGGAGTTCAAGTTGTAAATTCGGCCCCTACTGGCCTGTTCTCCAGCAGGAACCACTACTGGCTCCCTGCCATGCC
ACACGATGGCTGCTATGGGCAGGCACCTGCTAGAAACAGTGTACACAATGTGGATCCAGGCACAGCCCCTTCCCTTAAGTTGCTACCAGTCTTTTTGACA
TACTAACTGGTAAATAGGCCTCAGCACACAGCGATCTCATAACCTTCTGTTGGGCCCTGTCCTGGCCCACTGCTTAATAATTACGATGCGTTTATGGACT
CCTTGAGGAAAGAAACTGGTATTTGGAACACAGTGGTTGCTCAATGTTTGTTGAAAGAATAAATGAATGTGATAAAGTTAATTTTAGTTCACCTCTCTGT
AGTTGGATGTTTTTAGGCTTCATATGACTATAACTTTAAAATAAAACCTAGTTATTTAAAAATTCAACTAACCAGACTTCACCACAGGTTTTTTTGTTGT
TCTGCTTTTTACATTCATATTTAAGAAGAAAAAAAAATCAAGACAAAATGGAAGACAACTACCACAAGTTCTTCTACACCTACTGCCTCTAACACATCCA
CTGTTACACTCTGGGGTTAAGTCAGGTCCTGTTCATTGTCTTAGCATTCTACAATTTCCAAATTCTAGGAGGAGAATTGACATTCATGATGATCCTAAAA
TGCAAGCTATTTAAACAAGGAATGATTTTAAAACCATCATTAAATTAAAAATCAACTTGGAAAATATTGAAAAAAGATTAAAAGGTTTTCTAATCCATTT
TGTTGCTCAAAAAAAAATCCAATTAACCAAAATTTCCTAATTTTGAATGGTGAAGTTTGACTGGCCTGTACCATGCTAAGATCAGCACGTGCTTATTACC
GTAATCTCTTGTTCTTCAAACCAATAAATGCTCCCTTTAAGGACAGGTTGGATTTGGTTATTTCTTGTTATACTGACATTTTTTCCCAAAGAAAGAATTT
ACYGATAACATACTTCATCACACAATGTTCACAGAAAGATCTTGACAGATTTTTTCAGCAGGAACAGCATTTGCTGCTGGTGTTTGTGTTTTTTTCATTT
GATAATACTAACATTAATATGATCCCCCAGCTTCTGTGTCTCCCACCCTGAGTAGCTTTAAATGAAATACAGCATACAGAGACTTGTTCATAATTTCTTG
ATCTTTCATTTATTTAGTGTTTCTAGAAGGAAAAAAAAAAAAAGATGTTTTAAAGCTCAAGGGACTTAACTATAAAGTAGAGGGGAAAAGGTAGAAATAC
GCGTTGAGGAAACCCAGGAGGCCCCCAGGCATGACTTTTGCTATAGCTTTCCAGAAAGAGAAAGTGGTGCTTAAAGAAGTAATTCCCAATGTTTCCCTCC
AGACTAAAATTGGATGAACTCTGAACTGAGACTCTTTGCATCTCATTTTCTCATTAGGTTTTATTACAGCCAACAAAACTTTCAGTGGTGAATTACTTCC
CTTCTCAACAGAATACCAGACTCCCATAATGTCTACACAAACTGAAATAATGAAATGGTTTTTAACCAAGCTTTAGGGATTAGAGAGGAAAAAAAAAGTG
AAAAAGAAAGGGCACCAGGGTCTTCCCATCTCTATGCTAACCAAAGTGTGGTTTTCCAGCCCTTTTTCTTGCCTATTAACAAAAATAAAAACAAAAAATG
GAAATGCCACTGGGCTTGAAACCCCATTTAAAATCAGATTTCTCTTTCGAGTTCCCTTGCAATACAAGTCAAAGTCATTTCCACCAAAAAAAAAAAGCGG
TGGGGGGGGGGGGTGTGCAAATTAATCCTAAACTCATGGCTCAGATAGGACCTGGTATAGTAAATAAATGCTTTTAAAAGTAGTCATGGCATTGAGAAAT
GGCTCCATGCACCTAAACCAGAGGCACCAATGTAAAAACTAGTAATTGTGTTTTAACACAAAAGATTGAAAAGCGTTTTGTTTCACATCCTAATATTATT
CCACCCACTTAAAAAGAGTTACTTAATATTGACTCTGTATTAGGTATAAGACAAGTTCTTGCCCTCAAAGAACTTATAATTTAGTTGAGAAACCAAAACT
TAACATGAGCTTAAAAAGAAGGATGCAGTACAAAACATGGTATAATTAAGTGTTAAACAATGTAGTATAGATGCTCAGTGACCTAGGAGATCAGAGGAAG
GGAAGGGTCACTGAGGGCTGGGAATGTCAAAAGCATGTACTTTCAGTAAGTTCTTAAAATGATAGCATGTTAGAAAGCTGTTATAATTGCTGCTGATTTG
TAATTTTAAAGCATTGACATGATTCACCATTGCTTTCCAACCAGTAGCTGTTTAAAAGGACATACAGTTGAGGGTGAAAGGAGATATTTCTTTATGATCT
CCAGAGATTTGTATTGAGGGGAAAAAAGACATACTTTCTTGTTGAATAATAGACCAAGAATTGAGCATATTTTGCATGGGGAATATTAAATTCAGTGAAC
AAGAATCCAAACCTCAGGCTGTGATTCTGGTATAAATTTTTGTTTCTAATGAACCATTTTCTTCCTTCTAAAGAAGATTTAAGTTTTGGGAATAAGTCAC
CTCAAAAAAATTTTTTTTTATTTTCTAATATCTATTTTCACAATTTATTTTTCTTTTAAGAAAAGTGGACTAGAAGCGCAAGTTACCTTCTCAAGGCAAT
GAGAATTTTTTAGCTCTAAAAAAGTTGTGTGTGGTAGGGAGAACATTTAGCATCCTTTAAAATGGAGACATCTGAACAGCAACCTATCTTTTGAATCACC
AAATCTCAAGTGTACTTTGCACTCTTGGTCTTAAAATGCTTTTCATTTTCTAGTTTGGCAAAAATTCCAGTCTCTTTACATTTGCTACCTTTTCCGTCTT
TGCAACACAGGCAGTGTGAGCTAAATTAGGTTTGTTAAAATGAAGTTTTGAAGTTTAAACTGCTGAAATAGAGGCATGTCCCTAACTTTAGACAAATTTA
GAGAATCGTAGTAAGCATTATTTTTTTTCTACATACTTGTCTGCATTCAGTGTCTTCCCAAGAAACGTCAGTTAATTCCCCGATTCGAAAAAGGAACTTT
CTCGTAACAGTTGTACAACCAGGCTAAAGAGCACACCCTCGTCTTCCCTGAAAGGGAGGAAACATGCAATAATGTGAGGTAATTAAATTTAGCCTTAGAA
AAGTCTTTGAAACGTTCTAATCAAGACTTTCAGCTTTCCGATTGTGTGCGCTTTATTTTTCAATTCTTCCTAGTCCCGGTTTTGCATTTCTAATGACAGT
GAACTGACAAAGCGTGAAAGTGGTCTAAGGAGCAAAACAAAGCCAGCAAGCCTGCTTCTGGTGTGCCAAGATTAATCAATATTCCAGAAACCTCGGGGTT
TCCCCCTCCTCCCTGTGCGGTTTCCATTCCCCACTCCTCCTTTCCCGGGCACAGACTCCTCCCCTTTTCTTAAGTTGCCCTGATAGTAACTTGCAGTTTC
AGAGCACATGCACACTGTCAGGGCTAGCCTGCCTGCTTACGCGCGCTGCGGATTGTTGCTCCGTTGTACCTGCTGGGGAATTCACCTCGTTACTGCTTGA
TATCTTCCACCCCTTACAAAATCAGAAAAGGTAAGTGTCACATTCTGTGTTCCTGCTGGGTTTAATTTCTCCTTTCACTTCTCTGCCGATGTATTTTGCC
TTCCAAGCAGAGGAGTAGCCTGAATCAAGGCTAGCCATTTTGGTAGATAAAGTCCTTGTTAGTCATCTCACGTCGTGAGAGTGTGGTGTCTGTTTATGCC
GGGTCCGCTGTTAATTCGGAGTTGAGTCATTCGGGGTGGATTGGGGGCAGATTGTGGCGCGAGATCTAGAAAAGGATCAAGGTTGAGCGGATCTGCTTAA
AAGTGACTGGTAAGAGGAATCAGAGCTATTAGTTTAAAAAAAAAAAAAATCTGGTCTCTCCTATTTCCCGGTCTTCACTTCTCCCTAAGCATTTAATCCA
GTGTGAAGTCTTAAACAAATTAGAAGTCTTAGTATCACTGACCCCAACTTGCAATTTTATTTAAAAGGCAAACTGTTAAGACAAGTCTTTTTTTTTCCTG
CACTGGGATTGCGAGAAGTCATTTGCGAGGAGTCCTTTGGTTTCCAGTTACCTCCCCCACAGGCGCACACGCTGGCTGCTTGCGTTGGCAGCGACACACA
TCCATGGTACGGCTGGTTTTCACTCGGATTGATTATGGGAAGGGCTATGGATTAGAGCTCCTGTAAAGCACCAGGAGGAATCCCTTGATTTTTCAGAACA
GCTGATTTCCACCAGGAAAGAGATTTACTGAAATGTAGTTAAATAGCGTGAGTGCTTTAAAGAAACCAGAAACCACAAGCTGTAATGTTTGGAATGAAAA
TTGGTTTCATCTCATCTGTTCTAGAAATCCTAAATTTTAAAATGCTAAAAAGTCAGCGATAGTTTCCTCGGAAGATTCCAGCATGTGTGTCACAAAGAAA
AACACTACTTCATACTTCTACTTGTGATAAACGAAGCTGAATTGTGATTTCAGATGATTTATAGATGTGCCCAGAGCACTTTGYTTATTTCATGGAAAAA
AAATGAAAAAATTACCCTGTAAAATAGTCACATGTATTTCCCATGTACTGTGGGCACCTGTGTTCTTTTTATGACCATATTTACTAGTAGATATTATTAT
ATTTTTTTCTTAATGAAGAAAATAGCTGGTTACTTTACTGCATGTAACAGAGACAACTCCCACCTATCAGTATCTTAATTATTTTTATTGACCTGGTTAT
GCTTTCAACCATGTATACAGCATAATTTGTCAAGTAATGATTGAATACTTTCTGTGCATTCAGTTCAATTGGACATTTACTGATTGTGTACGTTGTGCAA
GGCATCAGCTGGGTTCTGCGGGGGAGGGTGGGAATAGGGGTTCTCAGTCAGATCTAGYTCTGAAGAACCCTTTTATAGCCTCATTGGAAGGGGAAGGACG
GATTTTTAAAAAGAAAATAGAATATATTCCGAATTTATGCACATTTCTCACACGTGGTCCACTAAAATATGCACACTGCAACCTTGAGGTCTGGTATTGT
GGCTCTCCAGTCCTTGATTCCTGCTGAGATTATGCAATTTGCCAAGAGCTTGCCTGGTGTGGAGCAGCACTGATTTCTCACCCCTGGAGGCTATAACTCA
TGTCTCTTTTTCTCCCATTCTAGTTGTGTTTTCTAATACCAAAGAGGAGGTTTGGCTTTCTGTGGGTGATTCCCAGACACTGAAGTGCAAAGAAGAGACC
CTCCTAGAAAAGTAAAATATGACTAAAAGCAATGGAGAAGAGCCCAAGATGGGGGGCAGGATGGAGAGATTCCAGCAGGGAGTCCGTAAACGCACACTTT
TGGCCAAGAAGAAAGTGCAGAACATTACAAAGGAGGATGTTAAAAGTTACCTGTTTCGGAATGCTTTTGTGCTGCTCACAGTCACCGCTGTCATTGTGGG
TGAGTCATTTGATTAAAAACAAAAAAACCTGTATCTTGTTTCTCTGGGGCATCTGGCTGCCCGGGGAATATTATCAGATGAACTAGTTGTAGGTATCAAA
ATGGTAGCCTAGGCTTTCCTCTGAACTTGATGATTTTTCTCCATAAAAATGACTGTTTTGGCTTGTTTGGAGCAATATATAGTAAACACATCATTAGGCA
TCATTAGGCATTATGCAAATCAATTGTGTGAGGAAGAAAAATAAATAAAATATTTTCCCATTTCATGTAAGGATAAGGAAGTGATCATTTAATCATTAGG
CATGACAAAGCAAGCAYGCTAGATTTGGCCAAAATGTAATTATATACAATGTCAGTTGCACTTAAAACTAATTTATACAATTAGTACACCTAAAATGACA
TGTTGGTTCCAAATAGTAATTATATTCTAACTGGTGCTGACTTGAAGCTGAGTWTCAACGCTTAGGCACAGAGACCGAATATTTTATGTGTTTGCACTCT
CTCACCCAGCAACTGGGAAAGGTAGATTGGGGAAAATGTTAACACAGATCTCTTTCATTCATTGCTTTGCAGAGCCTGCCATAACCAGCTATACCTTTTT
TTGAATCATTTCCATCTCTTACTAATTTAGCAGGGTTGACAGCAATCTGTACTAATAAAATATTATTGTTTTGTTTTGTTTATTGATCTTAAAAGTTATA
GTTTATTACTTATGGGTGGCATTGATCCTACTTTAAAATATAGCTGAAAAAACCTACTTATTTGGAATTTTTGACCAAACCAATACAGAAATCCTTAGAY
TGACAAACATATACGCCAATGCCAGGTTGTAAAAATATTCCAACTTAACCTACCAATTTGCCACCAAAAAAGAGGCATTCAGTACCGTTTTAATCTCTAC
TTTGGAGTTTGCCAAGATTTCCATCAACTTTAAAGAGGTAATGATTTAATAAAGATTAAGAAAATTCTGTAGTGTGTAAATATAACTTTTTTCAAGAAAA
TTGAATTCTTAAATTGTAGACAAATGAAGTATAGCAGGAGAGTTTGTCACAAGATTTTAGATACATCCCATTTTAACATCATTGTCTTCCATTAGTAATC
ACTGGTGATTAATGATGGTTCAATTAATTTAGAGATATTCAAAGAGAACATGTCCTAACTGACCCAGAGAAGTAATGGCTTTCCACAGTAGGTTTCCAGG
CTTGAATATATTCCTGGGTGAAATATTTCAGTCCCACATCATTGTCCTGGAAGTCAATGCAAAATACAGTCTGCTTGCCTCATTTGTCACTCTGAATCAA
AGTCATTGCCAAGCCAAGCAATAGCTGCATAATAATAATTGCAAACATTTATATAGTACTATTCCAGCTACTCTGTAGGAGTTTTGTTTATATTAGCTCA
CTTAATCCTCAAACAAGCCTATGAAGCGAGTGAGAAGGTATGATTACTATGATCTTCCTCATTTTGTAGATGAAACTGACTGTGGAGAGATCAAGCAATT
TGCCCAAAGTGACAACACTAGTAAACTCTAGAGCTGGAAGTCAAATTCAGTCTAGCACCGGAGGCCATTCTCTTAACCACTCTATTCTTCCTCTGCTCTG
CTGCTAGTTGACATCTTTTAAGAGATGCCAGGAAGAGAAATACCCTCATGAGTTGATGAAGGCCAGTTAGCTAGCAGTGCATTCACACAGCATTGTCATT
TAACTGCAWGATTTACCCGGTTACCTCAAAAGAAAACTTACAGTTCTCCTATAGACCATTAAGCCACTTCCTTCTCATTCATTTAACACATACTCATTTA
TAATTCATGATCCTATACGTATAATAAATAGAGCTCAGTAATACTGGAGTATATTTGAAAAAGATGGAGAAACACCATTCAAAATGGTGTTGTAAACACC
AGAAGAGTGGAATTTCTAAGACAGAAATGTTTCCATTCAAGAATACAGGAATGGAAATTCATAAAACTTGAACATGGAAGACAGATTGATGGAGAAGGAA
GTTCCTAAGTCATTAGTACAAAGCAATAACATCTCTAATAAAAAGAAGATAATGCCAGGATTTAAAAGTCTGTTTTTCTCTAGGAGTTCTGGGATCATCC
CTAGTCTATTTTTCTCTAGGAGTTCTGGGATCATTCCTCACCCAGTGAGGGCTTTCCTAAGATTTGTGAGAATTGCAATAAGAGTTGGCTGAGCTAGGGT
AGATAAGTTGGCCGGGTGCCCTCATGGTTGGCTTTACTAATGGAAACTGAGGAGGCAGAAGCAGCAAGAAGAAGGCACTAACAAAGAAACACATAAAAAG
AGCTCATTGACAGTCAAAGAGACCACTGAGTCTACATCAAAGACTTGGAATAGCAAATAGACAACTTAGGAGCAAACAGATTTAGGAGAGAAGGAAGAAC
CCTTCAGTTATCTGTTAGTGTGTCTTCCATCAAGAACCCAGTGAATATAAAGGCTCTATTTAGCTTGTCACTGGGTTCCATGTCTACCAGTCCTAAGAGA
TAGGAAAAGAATGTGTCTGTACACCAACTCTTAATTTATTTGCTGTAGCATAAGAAAAAACAAGAAAGATGCTAGCAAGGAAGAAGGAGATAATTATTTT
CCCCCAAGATGAGAGATGAGAAGAGCTATAGTTATTACCTAGTTTTCAAATTCCTAGGTTTTTATTGCTTTTAGTAAAAAAAAAAAAAAAAAAATCACTG
GGAAAACCTATGTACTGGGTTGAATCTTTTGTTTAGACTGTTTTTTTTTTTTGCCTTTTTGAAATAAAATGTATATGATTTAATGTGTAGAAGTGGAAAC
TAGAAAAATATTATGATAAAGACATGTGAATCCATATATTCAAAATAAAGCAGAAAATTATAAATATTTTGATATAAATTCATCTACAAGCATAAGCATA
GAACCATTTGTACAATTTTATGTCATTTCTACTGTCATTTCTAAGCAATGTCAAAGTCTGAATGTGCCATGCCATGACAAAAGCTCATGTAACAAGAGCG
GTTAGCAATCCGAGAGAACACAGTGCCAAGCTCCACATCCCTTAGAGGGCCCGTCATGAAAGCATTAGATAATGGTCTGCCAGGGCTGTTGTGGACATCC
GTCTGACAAAAACCACACTGGGAAGAGTGGTTATTGTCTTTCTTCCTCCAGAAAGAAATTTCTCCCTTTGGACTGTGGTAAGTTGTGTTAGAGTGACCTC
AGACATCTAGCTGAAAGAAAGGAAAAGTCCTTTGTCATGTTCAAGTCACAGAACACTGACTCTTTCCATGGCTAGGGAATGAATTGCACAATAAAAATGA
AATCTCAGGCCAAACAATATAAAGAAATGGGTCATAAGATCAGCTGCAAGGTTGGGGGATATGTATAAATAGGAATGCATAGAATTGAGTGGTAGTTTTA
CCTGAAGGCATTCACAAACACAGTAAACTAGCAGCTTTCTCTGATGTTGGTCTTGGCGCACGCGCACACACACACACACGCACACACACACACACAGAGT
TTGCATTTGAGTTCTCCTTTTTCTGATGGTCTCCTTGCACAGTTCACATTTGAGTTCTCCTTTCTCTGATATTGATCTCTCACACACACACACATACACA
CACACTCACAGAGTTTACATTTGAGTTCTCCTTTATATGGATTTGAAAGAAATCGGTGAATCATCCTGGCTAAATTTTTATAAAGCATTTCCCTCTGTTC
TCTAATACTCTGGCAATGAATTTAAATTGCACTAAAATTCAGTGGAGGGAGGATCACTTGAGCCAGGAGTTCAAGATCAATCTGGGTAACATAGTAAGTT
CTCATCTCTCCAAAAACATTTTTTAAAAAAGTATCCGGGTGTAGTGGTACATGTCTGTAGTCCCAGCTACTTGGGGGGGCTGAAGTGGGAGGAGGATCAC
TTAAGCCCAGGAGGTTGAGGCTGCAGTGAGCCATGTTCATGCCATTGCACTCCAGCCTGGATGACAGAGCGAGACCCTGTCTCCAAATAAGAAAAAAAWA
ATAATAATAATAATAATAATAATGGTAATAGCTAACACTCACAATGTATGGAAAGCACTATTGTGTTTAAGTGTATTAACTTTATTTAATTCTCACAACA
ACCCAGAGAGGGAGGTAATTTTATTACTCTCATTGTACAGATGAAAAAACTGAAGCCCAAATCCTTACCACACAGCTGATGAATACTGAGTGGGATTCAA
ATCCACCATTCCGGCTCCAGGTGCTCATTCACCACACTGTTCTGGGTGCTATAACACCCATTCTGGCTTTACTCCAGCAATTTGCTGAGGGTCTGCCTGA
GGTAGCAACGGAAGAGATGGAAAAGAGAGGTCGAACTGAAAGCCCRCTGGTGAGACTTGGCAATTGATTCAATGAGAGAAGGTGGACTGCAGACCAATGG
CCCGCTTTCTGGTTTAGGTGGCAGAGTGGCTGATGATGCCACATTTGAAGGTAGGATACAGGAGAAAGACTGGGGCCTTGGGGGTGCACGAGGRTAAGTT
CAGTTTGGACCTGTTGAGTTTGTRGGGCGGGATGCCACCGAGGTGCATATACAATGGAAGAAGCTTGCTGCAAATCAAGATTTAGAAGGTATTCCTACAA
CCTCCAAACTGAACGAAGACAGTTCTGTCTTTGGATTTCAAGTGAATAAGGATCAGTGAATCGGGCTATCCTACTGCATAAATGAGTCTACTCTGTAAGT
GAGTCTATTCTCAGAACAGTTTCCGTAACTCTAGGGCCCTCTCCTTCATGCTTAAAAGCACTAATCTTTCAGAAATGCTGTAGTGGTGTTCTGTGCCTGG
ACGTAACTGACCAAGCCAGTTAGGTCAGCCAAGCAGGTTAATCAATGTGGTTTGCTATCAGCTGCTGGACTGAACTGACCTGGTAGTGGGACCACAATAG
CCAACTGCTTGAGTTCGTGGAGCAGGCACAGTCGGGCGCCCACACCTCTCAACTTCCTGAACCCCTGATAGCGGGGCATTTTCACACTGATTGAACAACA
GCAATCCAAACAACGATGGACAGATAACTGGGTTCAGACTTACGGTTTCTTCAACACTTCTTGGAAATGAGCAGGGAGAGAGGAGCTTCAAGAAGCTGGG
GGTAGGGGGATCCTGAGTCCCCTGGTGTTACCAGAGCTCAGCTGTGCTTTCACTCAGCAGAGGCTGGGAGAGGAGGAGGAGGAAGCTATGGATTTGCAGA
GTTTTTCTCTGGAGAAGCCACACTGGGTTAGGTTATAAGAACTAGGGTCTGATTTCTCTGTGCTTTATCTTCTCCCCTGGGGGAAAAAAAATACAGAAAA
ATTGTCAGGGCTAGTGATAACACATGTACCCACAGCACACATGCCTCCCAGCCCTCTCCCACCTTCTCCAAAAGCACTCCAGGCGCTGCCTCCTACTGTG
ACGGTGTAGCCCAGTAAGGTATAGTGGAGATCAGAGCTATGTGCTCTGGAGTCAGACAGCCTAGGTTTATGTCCAGTTCTGGAACTGAGCCTCTGTTTCT
TCATGTATAAAACAGAATAATTATAAAAACTGTCTGCCAAGATTTATATCCCAGTTCTGCTATGCACAAGCCATATCACCTTAAATGATTTCCCTAAGTG
CTTGCCAGGTAAAGTGTCCATAGACATTGTAAACCCCACATCTTTTATTTACATCTCTGATATGGCTTCAAGCTGTCATATGCACTGATTTGATGATGCT
GATCTTCCAGAGAGCTATAAGACCCTGGCATTTGGGGAGGCTGGGGGGCAGAAGATACTCACCTGGTTTTGGTTTAGAAGTGGCTTCTATTTCCTTAGCT
AGAGAAGAGAGCCAAGAGAGTTGTAGGAAGAGCCTTAATAGTTGTAACGGGCTTTTAGATGCAGAAATGAAAGCCTCAGAGTAAGTGATACCATCATTAT
CTGTCCCTTACCGATCTGGCCTCCTGAGCAGAACCAGAAAGTAATCCCCAGGCAGCCGTTATCACAGCAGACTACTTAGTGGAGGGGGCGCCTGACAGTA
GACGCCTCTCTCAGGAAAACAGGGAGGTGCTAAGAAATGTTTTAGTAAGTGTTGTAATACACTCAATAGTGAATTTTTTGTTCATACCTCTCAGGGCCAA
TCTGAGTGTTCACCACCTCCCTGGTTTCTTCTTTCCTCCAGCCCTTTGGTGCCTACTGCCCATTAACTGCCACTCTGGTCAGAGTGGGGGCTGGCTGGAA
CCCTGAGAGAAATGTGGCTGGTTTCCAAGAGAGTTGGGAAAGGTTGTTTTGAAGCAGTGGGTAGAAGTCTTAATGTTGTTCTAAGTGTATCTCTGGATTC
TATTTTGCTCTTTTTCTTCTTGTCATTTCAGATATTGAGGAAACAGAGCAGGCAATTTCAAATTTCTCTTTCAAGTAGGTAATCAAATAAGCAAGTGTGT
TCAGAACAATTAACCTTCAGTAATAATACCTTTCATTTTTGTGGTGGTACAGTTTACAAAGCACTTTCTGTTGCACTCTCTGTAGCACGTAAGCTATGAC
CAGGCCACCCTCCTTCTGATTTGTATCTGCAAATGTCTGGGACGCAGCTAAGAAAGCATTGAGAGTCTAAAGATCCTGGGTACAGGCCCGGCTCCATCAA
CTAACTCGATTTTTATGGTGTAAGACAAATCTCTGGGTCTCATTTTCTCATCAGCAAAGTAAGTTTGGACTAATGTCTGCTTCCAACTCCAAAATTCTAT
CATTTTAAGTCTAGTTTATCTTCCTCTAAAATATCTGAATATATAGAATAATAAACAGAGGTGTTTTGCTTTGTTTTATTTTGTTTTGCTTTGTTTTGTT
TCCAGGGCATGACACTGTACCATTGCTAGAATCTTTTTCCTAGATAACCCATTCTGGCTGGTCTCTCCAGTCTAACAAATAGCCCCCTTCTCTCCCTTTG
ACCTCTTGAGGGCCCCTGGCTCTGGGTCTGATAATCAGTGTTTCCTAGCCAGTGTTTGAGAACACAGTGAGGACACACTTTGCAGAAGCCCCTTCTGCCC
TTCAGTCTCTGCCCATCTCTCATAAATTAGGGGAAGAAAACCACAGGCTTTTGTTTTTGCTATGGAATAAATAAGATTGTGAAGAGCCTAACCTGTTTAG
AGGAGGCAACCAGAGTTTGAGCACTGTCTTTTCCAAGCTGTACATTCCAGGTACTTGATATTTATGGAACACTAGGATACTATCATTCATCAAGTATTTG
CTGGCAGCTAGGTGAGCTGCATCATTGCTGGGAGCTGAGAAAACACACAGAGCACTTCAGTGCACAGAGTTTAGCGACTATACTCACTGAGTATAAAAAT
GATGAATTTTGTCTGCGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATTACTACGTCAGGAGTTCAAGACCAGCCTG
GCCAAGATGGTGAAACCCGGTCTCTACTAAAAATACAAAAATTAGCCAGGCGCGGTGGCGGCTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAG
AATTGCTTGAACCGGGAAGGAGGAGGTTGCAGTGAACTGAGATCGTGCCACTGCACTCCAGCCTAGGTGACAGATAGAGACTCCATCTAAAAAAAAAAGA
TGAGTTTTATGTCAAGCTTCAGTGCTATCAAGATTGCCTAGAGCTTATTCCCTAGGCCAAGAATATTCACATCACTATGCCCTATCAAGAGATATGCTCA
AGAGAGTTTGAAACCAAAAAGAGAAAGATAAAAGGCCCAAAAAGGTTTAGATAAAGGAAGATATACCCTGGATAAGTTAAGGGAGGGCGCTCCCTTTTTC
CCTTTGTATAACTTATCAAAGATTGGCRGGTAAATTTAGGCGCAGCAAATTGAAAGGCACAACCAAGGTTTGAATTTCAAGACGGGGTTTCTGTCTCCAG
AGAGGGCAACTCCATTCTTCTTGTCCTCAGACTTCTCCAGTTCTCCAACAATGTTTCCAGGCTACAAACTGCTGCTGCTTCACACAGAGAAGACAGCCGG
CTGTTAGCGAGAGACTTCTTATTCAGAACCTTGTATGATGAGGCTCGTTTATCCCTAATGAGAGTAGGGAGAAAAATATACCCTGCAAAGATGGTCCCTT
CTTTTATACACATCGCATTACTTGAAATATCATCTTTCAAGCAAATAAAACAAAAGCCCGGGTTTCTTGTGCTTGTCTAGAAGCTTGCTGGTATCTTCAG
CTACTTGATGAATGTGAAGAGAAACATCAAGAAGGAAATTATGAGTCTATGGAGAAACTCCCTGTGAAAAAAGTAGTCATGCTTTTATTTAGTTATTTAT
TTATTTTTGTTTTCTTAGATTTGCCCTTTTAGGGCAAATGAAGTAGTTTGTAAGCAAACCTGAGATTCAACAAACTTTTCAGGGCCTTGTAAGTTCTGAC
TTTGCAGTGCTTTCCACGAGACGATGGGTGACGAGGAGCTTGTCATCTTTGCAGAGCGGTTTCAGTTTTCTCATACTTGTAACTCCAAGGGCTAATTGAT
TGAAGTTGCACATGAGCCTATAATGATTGAGTTCAAAGTTTTTTCAGATTCGCTTCCTTGTCTCCAAAAAAAAAGAAAGCGGTTTGGTCAGAAAGTGATC
TACTCACTATAAATCTGAACACAATTAGTGACTTTCCTCTCCATGGCCTAAACTAAGTAAACTCCTCGTTAAAGCAAATTAAAGCAGGATTGAGGAGAAA
TCAACCCAGACTCAAAGCGACATTTTAGAAAGATGCAGGCATCCAGCAAAAATATTGCAGAAAAGAATCCAATAAGATTAAAAAAGAAAGAGGGAGAAAA
GGTTGCGGGCTTTTTTTTTTTTTTTTTTTTTTGGCCTATTTTATTTTACTTATGTAGTAAATAAATTAACATAGTCCAAAATAAAAAAATAGAAAAGCTT
ATAAAAAGAAAGTATCTYATTGACCCCTGTCCCCCAAGGTTCCCGTTTATCTTGTTATTCATTTCTCGTATGCCTTTGGAGAAATGTTATGACTATAAAA
ATAAATATGTATTTATTCCTTTTTTGACTCTTTGTATACAAATAATAGCATAGTATACATAGCCCACTTTTCACCTTGCTTTTTTCACTTTACAATATAC
CTGGGATATTATTCCTTAGCACGTAGAAAGGCCCCTCATTCTTAGGGCTACATTGTATGGGCATAATATAACTTATTTAAGCAATTACCAATTGATGGAC
ACTTCGGTTGTTTCCAGTCTTTAGACATTTTTATTTAAAAACGTTGTAATGAATGATCTTTCACCCATGTATCTGGATATACCTAGAAGTGAAATTGCTG
GGTCTAAAGGTATACTCATTCATAATGTTGATAAGTATTGCTAATTTGTACYCCATAGAATTTGTAGTCATTTGCTACAAATGTGGGATTTAAAAAAGAG
TTAGCCTCGGTACTGTACTGCCTCTGCCAAAGGTAAGCATGAGTGGACTTTGCAGTTTGTGCGGGTTCCGCAGACAGACTGAGGAAACTAAGGAAATCAG
TGCATTGGAAAACTGCAATTTCAGGATAGAATCAGGTAGATGCAGGTATCTCCCTGCTTCTAAAGCCCAAATTTAATCCATATACAACACCCAAAGCTTT
AATTTGTATGTTACATTCAACTTTTGAAGCCCTTTCACATCTCTTACCATCTATCATCTTCACAATAAACTGTGAAAGAGATGAACCAGGGTTTCRGTTT
TTATCCCTCCCTCTAAGCCTTCACCCCCTACCACCAATTTAGCAGAAGTTTAGAAAGTGAAACATTGAGTGATGTGTCAAAGGCGCTTAGAAATAAGAGA
CTGCCAGAAATAAGTCTATAGAAGCTAGGATCACCCCGCTCCCAGGCCAGCCCTGGCTGCTTTAGTTACAGTCTTAGGGGATGCAACCTGTCCACAAATA
ATTCCCCAGAATACTGGTGCTAACAGTCTGAGCACAGATGGGTCTCGGCTGGGCTCTAGAGCAGAACATAAAATCAGGAAACTAGAGCAAACTTTACTCT
TCATACTGCACAGAGACATATCAGTTAGTAGAACAGAGGCTCTGAAAGAACAGAAAAGGGAATAGATGGAAATGGGAACACCTTTGCTGTGCACCAGCAT
ATAACACACAAAAGGCACCAGGGGAACTTGGGAAATTTTAAACATATTTCATTCCCAGTTTCTACTTGTTCATAATAATTTCCTTTTTCCAGAAAGGAAG
GCAACAAGTCCTGCTTTTAATTGCTATTTCTGGAATAGAAGATTTTTAAAAATAACAATGGATTGGACATTTAGAATACCTGTAGGATTATTTGTAAATT
AAATTACCACTTCACATAGCCTTTTTTGGTGCAGTTTTTGGAAGAAAGCACCAGGCCTTTCTTAAAACTCCAAGGTTCTTCTGATGCAGTTGTCTCTAAG
AGTCACACACCGTGTGCACATAAGTCCGTGTCTCCACTCTACTTGGTCATCAGTCACCCAGGGCTCTCTCATTTGGGCACCCCTGGTGGAACAAGGCTGG
GGCAGGTATTTCCCACCTTCAACAGGAAATACCAAAGGACAAAAGAATGAGCCAGGCCAAGGCCCAAATCTCCCAAGGATGTGGAAACAGAGGAGTGGGG
GAGGGTTAAGAGGTTGCCTCCAACACTGAGTAGCTTCTCACCAGGAAACGCCTGAAAGTTTGACAGAAACAAAAGACCAGGGACCAGCAGAACTCTTACC
CAGGTAGATTCACCATTATGGCTTTGCTTTCTTTGTAAAAATAAGCCAATACAGCCTGGCACAGTGACTCACTGCTGTAATACCAGCAACTCAGGGGGTT
AAGGCAGGAGGATCCCTTGAGACCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACCCTGTCTCTAAAAAAATTTCTAAAATTAGCCAGGCGTTGT
GGTGCGCACCTGTAGTCCTTGCTACTCAGAAGGCTGAGGCGGGAGGATCACTTGAGGCCAGAAGTTCGAGACCAGCCTGGGCAACAGAGTAAGACCCTAG
CTCTAAAAATAATGAAAATAAGCRAATGGAAATTTATGTCCAACAGCTTCATCAAACTGTAGTTTGTAAGCAAACATAAAAATCATAAGTGTGAGACAGG
CTTATGATTTCTCCAAATTGGGCCAATTCCTGAAATAGAAATTTTTATTTGATTTCTCATATAATTATTGCATGCCTGCCATAATAATTGTAATGGCTAA
ATTGCTAAAAYATTTTTTGACTCATTAAATGCTCTCATATGCATTATCAAGGAGTTTAGAATTCATTAACAGAAACAAGATGAATTAGTATAAAGCAGCT
AAGATTTATAATGCTTTTGATGAACATGGTTCTTTTAAACTCAGAACTTAAAGTTCAGGAGGATCTTAGACACCACCCATTCCAATTGATCTCTCTCATT
TTGCAGATTTTTTTAAAAAAGAAAAAAGAGGCCTGAAGAGATTGTGTGATTTGAAGATATGGAAACAGGCAGACCTAAGTTTGCCATCCCATCCTCTCAT
ATCACTTACCGCAATGTGCCTTGGGCAAGTGGCTTATTCTTTCTAGGCCTCAATCTTTTCATTAATGAGATACTGATATTAAACGCTACAGGTTTGATGT
GAAAATTAAATCATTTAGATAAAGCATCGCCTACCCTAAGTTACTGACAGGATCAGGCCCAGAACTGTCTTTCTACARCATCACACTTGCTCTCCCTTCT
ACTCAAAAAAACCTACCTTAGGAGCAAATTCGGGATCCATAGCTGTCATTCCTCATTTGTGAATTTAGAAAGCTAAGCCTATGAGAAATCATAATTCAGT
CAAGATCCAGTCCCACAGACCATGAGAGCAAAATCACATGGTTTTGTACAGAGGGGACATTCCTTAGGGTAGGCTACTATGTTCAGGGATTGCAGTAGGG
AATCAGATTTACTGGGGAGCACAGAACAGAGAGATTCCTGCATTCAGAAAGTGTGCTCAGCACCAGCTGGGGCCCAGGCACTGTTGGATCCTGCTCATCT
GAAAGAAAATAAGACATGTTTGTTCATTCGTTCAACAATATATTAAGCACCTACTGTGTGCCAGGAACTGTTTGAGGGGCTTGATATAGGTCAGTGAACA
AAACTGTCCAAAAAAACCAAAAAAAGTTCTAACCTTGTGGAGCTTACATTTAGCAGGCAGAGAAAATAATAAACAACAAGCATAATAAATAGAAAATTAT
ATTGTATTTTGGAAGGTGATAGGAACTATTAAAACAAATAAAACCAGCTAAGGGATAGGAAAGTTCAAGGTAGACCTCATTCAGAAAGTGACATTTGAGC
TAGGTCTTTTTTTTTTTTTAGGCAGGGTCTCTCTCTGTCACCTAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTACAACCTCCACCTCCCAGGTTCA
AGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACAAYAGGYGTGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGAGGGGGTTTCACC
ATCTTGGCCTGGCAGGTCTCCAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGAGTTACAGGCGTGAGCCACCACGCCTGGCC
GAACTAAATCTTAAAGGAGGTAAGTGTTGTGGATATGTGGGAATGATGTTTTAGGCAGAAGGAAGAGCCAGTGCAAGGACCATAAAGGGGGATCCTGTCT
AAGATGATGGAGAAATGACAAGGAGGGAAGTGTGGAAACAGGTGAGAGGGAGCAGAGTAGGAGATGGGTTCTGAGGCAAGGTGGATCTAGGGGGRCTTGC
CAGGAGCACCCATTGATTGCATGGTCTTGGGCTTTGACTACATGAGAGGAGGAGTCAGTGGAGGGAGTAGGGGAGAGAGATCCTGACCTAGGTCTCAGTG
TTCTTTTGGGAATAGGCTGGAGAGAGGTGAAGTAGAGGCAGAGAAACCAGTTAGAAGACTACTGCAATAGTCCAGCCAATAAGGAGGGTGACTTTTTAAT
CTTGGAGCCTTCTTCATTTACAAATTAGAAAAAAAATTTGAAGCATAGAAGGCAATAGAGTTATCCAGGATCACACGGGGAGTTAAGGGCTAGGACTAGA
ATCTCGACATCATTAATTCCTTAAACATTTGTAGAGCATCTTCTCTATGAAGATAGAAGCAGCCTGGTAAGGAGGCCCAGAGACCTCTGCATGTTAGATT
GACCTCTAACTGCCGTGTATAGCTCAATTGTCAAGTGTGGGTGGGACTTGTGACTTCTAACCAACAGAATATGGCAGAGGTGATGGGATGACACTCCTGT
GATTATATTACAATTATACGGCAAATTCTTGTAACCTTGAGACAAATTAGTGCTAGTTTGGTTTTGGTTTTGCTACCTAAATGGAAATATCCTAACTGTG
AAATGGCAGCATTTGTGTCACGTAAAACCAGTGAGTGGTGTGCTATCAACACTGTGATTTTCCTTGAGCCACGAAAATGGACATCCTGGTCCCCTTTCTG
GCTAGATATGCAGGCTGAGGTTTTTCTGGGCAATGGGTATGAATGCCTCCTGGCATTCCTGTAGCACTAATGCTCAAACAGCTGGCTGGCTCATCTTGGT
CAGGCACTTAGTTTTCTCGTGGTTGGCCTCAGAATGCGAGGTCTTTCTGTCAAGATCATTGTCTCTATTGCTTTGAGATTTCCTTTTGACATCTGAGCTC
CTTTGGGGCACTACCTCGTTTTCTGGAAGATTTGGCGTAGTAATAACTCTTAGAAGACTTTGGTCTGCCAAATTGTTCATGACAAAGTTCGCAGATAGAG
GAGGTACTTTAGTAAAATTTTACTATTTCAAACTCCAACATTTACCAAAAGTTAAGTAGTATGATTTGGTCTGAAGTTTACTTCAAATCATGCCTCATTC
TTTTACTCTTAAATATTTTCTGGCATCTTAATATTTTCAATAGTTTTATCATATTAAATGTGGACCAAATTCTTAAAGTTGGTCTTTAGCTTGTAACTTA
TTGTGTGTGTTTGGCCTTAAAGAGTAAACCTATGATATCTTCTTTCTGAGGCTCCAGTGTGCACGTTGTGTCTTAGTTTAGAAAATGAGACGATATTTAA
TTTTCCAAAGAAGTATTTGTTGTTGGCCGGGCGCATTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGA
TCGAGACCATCTTGTCTAACACTGTGAAACCCCGTCACTAAAAAAAAATACAAAAAAATTAGCCGGGTGTGGTGGCAGGCGCATGTAGTCCCAGCTACTC
GGGAGGCTGAGGCAGGAGAATGGCTTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCACCACTGCACTGCAGCCTGGGCTACAGAGGGAGACT
CCATCATCTCAAAAAAAAAAAAAAAAAAAAAGAAGTGTTTGTTGTTAGGAAAACAAGGAACCTCTGAAGGACTCCTTTCTTGAACTTTCTGCATTAGCAA
AGAGAAACTATTTAAGCAAAAATGCAACTTTGTTTATAGCATTCATCCAGCACAGTTATTTTGATCACTTTAAACATTCTAGTCAATATATTTTCTAGAT
TCTAGAAATCTTGTTAAAATACTAACACTGGAGTAAAACAGAAATCTTAACTAATATTGATAACCAAGGGTGCATGATCTGAATATTGCTCATGACATCC
ATATATTGTATAACATCACCTAGATGCAAACTTTGCAAAATTTGTTTCAGCTCTAACAAATTCTGCTAGGAAGTTATTTTGATTTTCATTGCTATTTTTG
CAGAGTAATCTATAATAAAGGATTCGTTCTTTTGCACTGAGGATCTGGTGGCCATAAAGCTTTTTGTCAGCTTTGGGACTATCAATCAATGTGTTTCAAA
TAAGTGACCACTAATGAAGCTCAGTTTTGCAAAGGGTGAGCTGCTTTACCACAGAGAAAGACTGGTTGTGGCCGGGAGAGGTGGTTCAYGCCTGTAATCC
CAAAACTTTGGGAGGCTGAGGTGGGTGGATCACRAGGTCAGAAGATTGAGACTACCGTGACCAACAATGTGAAATACCGTCTCTACTAAAAATACAAAAA
AAAAAAAAAATTAGCCATGCATGGTGGCGCATGCCTGTAATCCCAGCTACTTGTGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGAGGCAGAGGTTGCA
GTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACACCGTCTCAAAAAAAAAAAAAAAAGAAAAGAAAAAGAAAGACTGGTCATG
CTACGTCTCCTTGGTCGGAAAGACAGAGCAAAGAGGGCTCTGAGAAGTCTGTGTATCAGGCTGTGTTTCCATGAAGGCTTTTTTCATTGCTGGGSTAGAA
TGTAATAGGAAACTAGAACTGCCTACCAAGATAAGCAGCCTTCGTATTCACCGCATTTCCTCTTGATTTGATGCTGATAGCTGGCCGACCCTACCTCTGG
CTTCAGCTCTAACGTGGCTTGTAGGAGCAGAAAGCTGATGAAAAATGACTTTTGTTGATTCATTCAGCAGTGAGTTGAGAAAAGCTAGCTGTTGACTTCG
TTAAGTAAAATCAACAAAACTTTTCCTCAGCTTAAGCTCTAGATTTAGTTAATGTCATTCAAAATAGATGARAAAGTAGGCAAAATATTGTGTACCCATT
TAGACTCCTTCAGTCAGTACCATGGCTGTTGAGAGGCTGCGAGGACAGTAGAGTGGGTGAGTCTGGACCCTGGAGCTGGACAGTGTGGGTATCAGGTCCA
CCTCAGCCACTCCATGGACTTAGGTGAGCACGTAACCCCTCTTTAAGCCTACTGTGGCGCCAGCCTGCCAGCTGTGTGGTTTTGGCAATTTACCYGCCCT
CTCAATGACTCTGATTCCTCATCTGTGAGATGTGGATAACAATAATAGTCCTGGCCTCGATACAATGCGTGAGGCAATGTGCTTGTGAGGACTTGGTATC
TGCCACGTGGTCAATGACTAGGAGCTGTTGCTGTTAAGGATGCAAACGTTGACACACGTCTTCATTAAATTCTTAATTAAATGTCCTTCTCACGTTACTA
CCGATGGTTTCTAGTGACTGAAAATGTGTGCAGTGGAGGGAAAGGCAGACTATTTTAATTAATAAGCTTTATATAAGTTTTATTAAATCATGAAAAAGGA
TTTGGTATAGCCATTTTTGAAAGTGGCTATACCACCTTTGAGATCTTCAGCAAGTAAGAAGACCTGTAAAGGGTTCCAAGATGTGCTGGTGCTTACAGGA
CATGTGTAGGAGATCCAAGGTTATTTCTCCAGGGCGTTCACCATGTAGGAGTTCAAGATGCTAAAGACCCAGGAACCAGGCTCTTTTGAGACCTATACTC
AGGCCTAGGCTACAAGAGCATGTTTGTGTTTGAGAGGCATTAAAAGAGTAACGGAAAGAGCACTGGGCTTTGTGTAGAATCCCTCCACTCAACCACTTAT
GAGATCTATAAGCCTGAGCAAGTTAACTGACTTCTGAGCATCAGTTTATTAATATTTAAAATAGACACAAGGCCTGGTACAGTGGCTCACGCCTGTAATC
CTAGCACTTCGGGAAGCCGAGGCAGGCGGATCACGTGAYGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCAGAACCCCATCTCTACTAAAAATACAA
AAATTAGCTGGGCCTGTTGGTTCATGYCTGTAATCACAGCTACTCAGGAGGCTGAGGCATGAGAATTGCTTGAACCAGGAGGCGGAGGTTGCAGTGAGCC
GAGATTGTGCCACTGCACTCCAGCTTGGGTGACGGAGTAAGACTCTATCTCAAAAAAATAAAAAGAAAATAAAATAGATACAATAATATCTACCTCATAA
AGTTGTGATGAGTGTTAAACACCATCGTTAACACATAGTAAGGGCTCAATAAATTTTCCCCTTTCCCAGTGTAATCTCATCTTTTTCAAGAGTAGAAATA
GCTCACCTGGTAAACCCAGAAATAGTAAACCAACCAAAGCATAGTCAGGGATAAAAATGATTCAAAATGTGTCTGAATCTACTATCACTCTAAACAACAC
CTCTCTTCAAAACTTTTGACCTAAAACTATCCCTTATAAATAAATGATGTCTCCTCTCTATAGAGAAGAGATGTCCTACTTTAGAGAAATGAYGTCCTCC
TACTATAGAGAAGAACTTTTAGACAATGTAGGTGTTGTCTTAAGGAATGTAAAGAAATAGAGACACATCCTAGAGTAGGACTGCACTTCCCAGCAAGACC
AGCTTGCTGACTATAAGGAGAGACACACACAAAATATCACCACCTCTTGAGACTTTGCTTCCCTTACTGTCTTGCATTGTTCTGTTAGATATCTGTTTGG
CAGGTAAGAGACTGTGTCATTCACACATTACCCAGAATTCATTCATGGAGCTGGCTTACTTTCCCTCCTAATACCTAAATAAAAATTGGTTGCACTGAGT
AAGTGCAGGGCTTGAGTGGGGAAGAGGAGAGAAGGTAGTAGAACACCCAAGGAGAGGAAGAGGCTGTATACACAACCAGTGTTGTTGTATCAATGGGAGT
AGAGTTAGTGTAGGCTCAGATGAGACTCTGGAAGATGAGATCAAGTGCACCTAGTATTTAGAATAATCGCTTCCTTCATCAGCCCTTGTTTGACTTTTGC
TTCTAGAACCTATATCATTAGCAGAACAGCTATTCTATCAATTACTTATAAATAAGATAAATTTTATGGACTAGATAGTATCCTGCCTACCCTTGGAAAT
ATTACTGTATGTAAGTAAGTGTATTTCTAATAACAAACAGCCAACTTGGATATGAATTTGTAAAACCAAGTCTGGTCTTCAACTGTTGTTTGCAGAATAT
CTAAAACTCGTGACAGCTTGATACGTTCAAATTCCAGATGACCAAAATGAGCCCCTTGTGTTTATCATGCACATGTTTTGTTATAATTGAATGTCAAGTG
TTTAAATCCATTTAAATGAAGATCAGAAAGACACATCATCAATTCCAGTAAAATTAATTTGATTGGAAGTAAAGCAAAATGTTTGTTTATTTATATGTGA
TAAAGCACTTATCTTTGTGTGACTTGGCTTTTATGTGAGCAAGCAGGAAAAAGACAGATATAACCAAAGTATTTTATTAATTCCTATAAGTTATGGATAC
TGCTGTGTTAAATAATGCACATTGTAAATCAGAATTAAATGCCTTACACCAGATTGGGTTCCAGGAAGATTGAAAGTTAAATATTTTAAAACAAAACAAG
TAAACAAAGAAAGAAACATGAATTTAAGATCTATCAAACTTGTGAGGGGGGAGGGAAATTAAAATGTATAAACTCAAGAAGAAATCACCTAATAAAAAAG
GTGTGCAGACATTGTTATAAAAATGCAAAACACCTGTACATGTTTAATATAATGTAAGGCAAACAAACCAGAAAAACAGTTATAGCAAGTATTTTATACA
TAGGCAAAGGGTAATTATCTTTATTATATAAAAATAATCTACCCAACATATACACACACACACACGTACGTACCTAGACTCTTAAACGATTAGGATTGAA
TAGATGCTTGGAGAAAATACAATTAGGAAAAATAGTCAACATCATTAGATGTTAAGTAAATACAAAATAAAACAAAGTATATAATATTTACTCATCACAT
TATCAAATTTTGCTTGTTTTAACAATCTTTTTATGATAATACTCTGCTCCTGGGGGTAGAGGAAATAAAGCCTCATTCACTAATAGAGCATTAAGCTACC
CAGCCAACCCACGCAGAAAGCAATTTCGTAACATGGATTCAGGTAGTCGTATCCTCTGAGGTAGCAGTTCCCTTTCTCTAAAACTACACTAAAAAAAAAA
AATCCCAGATGTAAAATAGCCTTCATATATTCATCATGATATGCTTCATAAAAGTGAAAAATGCCAAACAACCTAAATGTTCAACAATAGAGTGAGGACA
AAGTAAAGCCTGATACAGTGAACGAATCTGATATCAGGAGACCTAAAAGTGAYGTTTATGGKGACCGTATATGGAAAAGTATATTCTGTATGATTTCCAT
GTGTTTAACTATGTATTGGAACATTCTGCAAAAGAGACACACAAAGTGGTTGCCTTTGCTCTACAGGAGAAGAGGAAACACATAAAGGGGTTAAGAACCT
GGGATCTGAGTCCAAATTGTCTGTTTTTAAATCCTAGCTCTGCCACTTGAGTATATTTGACTTTAAGCAAGTTTTAAGTTCATCGTGATTAGGTTTCTCC
CTCAGTAAGTTAGTGGTAAAATAGTACCCTCCTCCTGGGGTTGTTGCAAGGATTAAATTTGCTGCTAACCTAGGCAACACCCAGCATATAGCAAGAGCTC
AGTAAGCATTAGTTATTTACTATTTATTTCAGTGATACAAMCAATATGGGCAGGATTTTGCCCCACCTTTCTGCGTTTTCCAATTCAACTTTTCTCCTTG
ACCATATTACTGTTACATTGGAAAAAAGCAATAAATATTTACCTGAAGGCCCTGAGAGCTGGGTCAGCTGGATTTTTTTTAGCCACGTAGATTAAGATTC
TTATTAGAATATCACAGTTTAGAGACAAAGAATGGATACTTTATGGTTGCTAAGACCCAAGAATTGAAATTGGAGTTGCAGTGACAATTCAAATGAACTT
TGTGTCCCATTTCATAAGAAGTTAAGACAGTTCAGTTTCCGTAAAAGACTGCTTGCCTCCTCTAGAAAAGCTTGTGCCAACCCGGTATCATTCCCGCTTC
TCCCCACCAACCCACCACCCCCAGCCTTTAGCTCCTAGTTAACTCAGTGCTGGGCATGCTGCTTTCTCTATAACTTACATGGACTTTTTWAAAAAATGGA
ATCACATGTTTCAGTAATAATAGCAAGGCAAAAACTTTAAAAACATTTACAACACTGGCATAAGTAAATTTTCTTTGGCAAGGAAAGTAAATTAGGTAAA
GGGGAGAGGGAGTAAATTTACACTTTTATTGACACCAATACCTTTATTAATTTCTGAACATTTCAGTAGTTATCATGCATAATTTGATTTAAATGCAAAT
TTCTCATTCTAAAAAGATTTTAAAGTTTCAGTTGTAGAGGGAAAATTAAGGGGAAAATTGCGTTCTCTTTCCCCTATATTCTCCCACGTTTTCAGGGAAA
ATTTTGGGGAGAAAATCTCTGCTCATTTTGGAGTCTTCTCTTGCCAGCAACTAACAAGTCTGTACAATACAGTTACCAAGGCAATGTCAAGACCATGTAG
ACAGAGGGAGAAAATGTGGTGTGAAGACAGGGAGATGATGAAAATGGATTAACAATGTGAACATGAGGGGTTTTTCTAACTGGAAAAAAAAATAAAATCA
CACTATCCTTTAAAAGTGGTTATGTTAGCAATTCTAACATCTGTTGTTATAAAGGAACTTAATTAAAATAAAGCCTTTTTTTTCTATATCACCTGTTCGT
GAATGCTTATTTGTTTCCTAATTATGCCCCAATCTTTGTAACTCTGTATTRAGCCAGGTCAGAATGAGTTCCACTGCATTCAAGTTAGACAAAGGGATTT
TTTTACTTGTTGAAACTAGAAAGAGTTTTTTTCTATAAGTTCTATTGAACCACGGATTCAGCCAGACCCTCACAGATAATGACTGCAAAGATAGATACAT
CTCTTGCTCCCAAAGCAGCACAGATATTTGCTGCTTAAATAAATACAACCACCAGCCAAATACTTACTCATTTTGCTAGGGCTGTTCCTTCTGTTTCAAA
AAAGACTCAATTTTTCTTTTTCTTTTTTTTTTTTTTTCCTTCAGGTACAATCCTTGGATTTACCCTCCGACCATACAGAATGAGCTACCGGGAAGTCAAG
TACTTCTCCTTTCCTGGGGAACTTCTGATGAGGATGTTACAGATGCTGGTCTTACCACTTATCATCTCCAGTCTTGTCACAGGTACCATAAGCAGTTGTT
GGTTTGTTTGGTTTTTTTTAAGTGTGTTTATTGCAAAAGATTGCTTAGAAAAGCCAGTGCTTTAGGTTTCTGCTGGATGCATGCTCTGTTCTAGAAAAAA
AAAAAAAGTCCCTTCAAAATGATGGAAAGGAGGCTTTAGTAATGCATGAATGATTATAACTCTCGTATTTTACCAATCACAAGAGGAAACGAATTTAAAC
AGCCACGTAATCTGGTTCGCCTCACAGTGAACGAGGTGCCCTGCTAAACACCACACCATCAGCCTTCTCTGACCACAGTGATGTAGTTGACAACAGCGTA
CAACAGGTCTGTTTTCTCACCCTCTTATCCCACCCAGATAACATCTGGTTGGACAGCCTATTAGCTATTGATGCAAGAATGCTTGTTCTCAGAACCACCA
GGACTTGAGCGGGAGCCTTCTTGGAAGCCTCATCAAGAGGTAATGCCCACAACACTCACCAACTCTGCTGCCACCAACACTTATCTTTTCCTGGTGTACC
CGCATGATTTCATTTCCTTCTCCAGTTGCCTCCCACCCYCGTTACCTTTTATGCTRGTGGGAGAAGGGGGAGGGGGCGGGAGATTTTCCCATCTGAATAT
TTTATCAGTGGACACTTGGATTTTTAACAAGTGGAAGCTTTGCAGGATAGGATTCTATGTTCTATGACAATGAGATAACCATTTATTCCTGCATGGGAAA
AGGTGAAAGAGTCATTTGTCTATGTGATTGGTGAATCAGATGGAGCCAAGAAGTTGCAGAAAAATGTTACTGTACATTCCTTCCTGCCCACTCTTCTCTT
TCCCCACAGCACATCTCTGACTTGGAGAAGGAATTTCCATAGACACTGCCCGAGCAGGATGATTTCTGGGTTTGTAGGTAAAGCTCAGAACTCAGGTATT
ACTGACCCTATTCTCTTTTCCACCCTTGGCTCACTGTTCCCCTGTTGGGCATATACCACTCTACCTCTATGTGAGCTGGCACTGAGAATCCTTCCCATCC
CAGGGAGTTCTCAAGGATATTTATACTATCCTTCAAGATCTCTGTGTAATGAGAACTTCATAGTACAACTCAAAAGTCATGGAGGAACATTCTATTACAT
GCCTTGGAGGGCTGGCTATTACTTAGACAGGAACTATGTCAGATTTTCCCTCAATGCCTTGCAGATCTCTGCTGGTTTCCACTTGTCCAGGGCCTTAAAC
AAGTGATTGCATGTACATATGCTTTCACTGGAGAATGAATTGCCCATAAAACAGTCCTGGAGTTGATTTGATGTACTTGTTTGTGAAGCTGGGATGGTCC
ATTGCTGACCAGGGGTAATCACAGCAGCTACAGTTCTTACCACAAAAGCTATATTCATGCTGACATGAGGGCACATGCTTATTTTATTATCCATATGCTG
ATATTTTTCTGGGAAACAAATTATTCACAGAAAGCACTTGTAAGACAGAACCCACATCTGACATTTTCTGTGGTAGAGCAGAGTCTCTCCTCACCATCCC
TGCTGGCAGGGCATCTGGATTAAGTGCCTGCAGTTTTCCTATACACAAACCGAGGGGTTCTGGATCTTTTATACTTTCTCTTCAAGGGTGGAACCAATGT
TTAGAGGTATCTGCTTTCTCTTAACTGTGCTGAAAATCCAATGTGTTACTCTTTAAAAGAGAAAAGCCCTTATATGATACAATTAGAGAAGTGTTACTTC
CCCTTAGCAGCAGTCCCAGTTGATCACCACCTTGAAGTGGAATTTCCTGATTTTTCTTAATACCTAATAACAAACAACTTTATYGAAGAAATAAGAACTT
TGGTTGTGTAATTTTTCAGAAAAAAAAATACTATGATGCAATCCCTTTGCATGGCTAAAGAGAAATTTTTGGTCAAAACTTGGAAAAATTGTTAACATTT
ATAATATTGTTAAAGAGAAAAGAATTATAAGCTGCAAACAACTAAYATAAAATGAACTTTTAAAACTGTAACCTAATTGCAAGTTGGGAGTGTTGCCAAA
TTGGACCATTAAGAGAGTTTTAGCTYTTGTCCAGGACTGTGCTAAGGCAAGGAGTCTGAGGGGCAGAATTTAGTTCGCCAAAGATCTTTTTAAGGTGTTA
GTCTGAAGTGAGTAATTTCCAAACTACACAGTAATTTAGATATTTATGATCAAATGGAATGAATGATGGATTCAGTAAGAATGTCCTTTATGGTTTTGAA
TACAATAATTCTAACCCAAATGAGGGTATGACCCAGCTATAATGGGAAGGGAGGAACTTCTACAAATTACACAGACCCCTGGAGGATCCCTGTGTATACT
GGGAAATGTTACTGGAGAATGTGTTGCCTAGGGAAGAAACAAAGGCAGGCTCCATTGCTTTAGAGTGGAAAGGCAACCTCAAATGCCTCCAGTGGCCACG
TGGGTGATGCATGTACATGAAGCTGCCCTTTCAGGCTATTTTTTGTTTTCCTATTTTGATAGAGTCATGGATACAGAGAAATATTTCTCTTCAACAAGAG
AACTAAGAGGGACAAGTATGATGATAAACGGAGAGGGACCCAACTACAGAATAATATGGCAAAAGGCAGGCAAAGAGACTATTGAGACAAGGGCCAGATC
TTCCTGTTTTTCAAGAGTATCCAGAAATCTCAAATTTTTTAAGAACCTGCAGATTCTTTGATACAATTCACGAAACAAACCAGTGCAAAGCAAACRCAGT
ACACCCATTCCAATGTAATTCCAATGGCAGGCCCATTCCAACCCTCAGACTACCAATATTTGAACTCMGGTTTGAATGTCAGAATCCAATCATTGGCAGT
CCTGTGCCAAAGCTTAACTGATAATGTGGAATTCACTACTGAACATCATGTTTACTGCTGACTAAACAAATTGCTATTGGAAAGCCTCTTCTCTCCATCT
TCTSGGTATAACTGCATTGTGTAGTAGCCATTCTGGTCTTTTCTGCACCAGAAGGAACACTGGAGTAAGAACTCAGAGGTCATGCTCCCATAGGAAATAT
TTCCCAGTGGGGAAATACTTTATAGACTTGTTTCTCCTAAGTTCAGTTGTCCCAGGGTCTGTAGACAGAAACTGAAATGCATAAAACTATTATTGTGTTT
CTTGGACTAAGCTTTTTATTGTGGAAGATTCTAGAAAACATGCTATAAGTTTAATTGTACTAAAGCCACATTTAAATTCTGAGACATCTAAGTTATATTT
TTTACTTGAAACATCCGTGTTTATGAGTTGTGGCTCTATAGCCCTTGTAAGCCATGTTCCCTTTTCCCTGAATTTGAAACTCCAATCTTTCCAAACATCC
CTGGTGTGTATTAGCATTCCAGAGGCTGCCAGAAAGAAGCTGGGAGGAAGCCTAATGGCTAGATTTGTACTCAAGTACCTATTTTTTGGACAAGAAGACT
ATGTCTGTGCCAACACACCACACAATAAAATAGGGGTTTGGTGCCAGTTTCTATCGATTTGGTCAGGATGGGCAGCCAAACTAGAAATTTCATGCCAGAA
ATATGAGTTGGTTTGGCTGACTTAGCCTGATTAAATTCACTGGATAATAATTAAATGTCACATCTGGTTGTGCAGGGTAGACATAACTATTACCTCCTCA
CTTCTGAATCTTTTCAGAAACTAGTGCTTTCTTCTTTTCTCATTCTAAGTGTGCATTCCCCCTCAATCACTTACCTCAGAAGAAATCTTTGGTGTCACCC
CAGTTTTCTGGAAGTGGGGAGCACAACTTTTGACATGCAATCTCTGTGGTGTTGGGCATGATGTAAGTAAAAGAGGTGAGAGAGGAGTGTCAACACGAGT
AAAAGCAACAGTGTCTGGGACGTATGGTAGGGCACCCTCGAGGCAGGATTATCAAGTAGATGAAATTTCTCATTTAACATTCATTCATTCTTTAACAGCT
GTTTATTGCGCTTCTACTATGTCAGACACTGGGGATACATGAACACAAAGATACAGTCCCCAAGAAGATGTATGTTGGGTGCTGAGGAGAGAGCTTCCCT
GCATCCCTTAATTCACATAATATTCCAGTTCCAACTAAAAGGAGATAAGACTCGTTCTCTGTACTCCCAACAAGAAAGTGACAAGCTGATTTTTAAGAAC
ATGATTTCAAATCTGATTTTCATGACACAGCATCTCCATCCTAAAGTCAACTAGCCCAGAATTTTCCATCATAGGTACCATCTCAGTCTCATTTACTTAA
TATTTTCTTTAAACCAACATACTCTTCTTCCACAGCCTACAATCATTACCCAAAATGGAAACCTCCTATTACTTGTCATGTGAAGGAGATAAGTAACAAT
GTTATGAAATTGTAAATTGATGCAATTGCCTAACAAAGGCTCTGGGAGCCTGAGACCCGACTCCCCCGCTCTTGTAGTATTTTTAAATGGCTGGGCGTCG
TGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACTAAAGCTGGCAGATCACTTGAGGTCACATGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCA
TCTCTACTAAAAATACAAAAATTAGCCAGGAGTGGTGGCRTGTGCCTGTAATCCCAGCTACTCGGGAGTCTGAGGCAGGAGAATCACTTGAACCCAGGAG
GCTGAGGTTACAGTGAGCCAAGATYGCGCCACTGTAGTCCAGCMTGGGTAACGGAGTGAGGCTCTGTCTCAAAAAAAGAAATATAAATAAATAAATAAAT
AAATAAATAGAGGGGATTAGCAAATGTTAACAAGGTGTTAAACACACATTAGTACCAAAATAAGACTTTGCCTTTCCTGTAATCCAAAGAATCAAAAGAG
AATTGAAAAGAATGACTTTCTCACTGTGATTTAATATTAATTAAGGTAGGRTTTCCACACCACCAGAACACCTATCCCACTTTGGAAAGCACTGATCTGG
TGGTCCAGACATTCCTGCAGTGTCCCTTCCAAATGACTGTCCAGCTTCTTCCTGAACATWTCTAAAGACAAGAGCTCTTTGGAACCCATTTGTCCTTAGA
AAACTCTAACAATACTTTTTTTTTTATCCAAAATAAAACAAATAAATTTAAAAACCAGAAAAACAAAACACAACACCTGCCTCTCTGGTCCTCTCCTCTC
CATGTGACAAGCTCTATGATGTGTCACATATTATTTGGGCAGCTTCTTTTCAAATCTATAGACCAACAACTTCAGTCAAATGTGGGACTCAATGACTGTT
GAAGGCAGTGAGCTAGAATCACCAGCAAAGGGCTTTCTTAATTAAAAATAATAAATGTTGTACCTCAAAGTACGGTCCTTTGGCTTCAGAGAGATGACAG
TTACAGTAAGAGTGAACTAAAGTTTTGTCATTTCGTGTAACACAAAAGGGCTAGACAATTCTTAAATCTTCGCATCTGAAGGGTTTGTCAAGGGCTTGCA
AAATGAGTCGAAATCACTTAAGAGAAATTTAATATCTTAAACTATGCATTGCCATGGCTCTGGTGTATGTCTGAGGCCTGTTTGAATACTCTGAGCATTT
ATGGACAAGAAAAGGAGCTGTAGATTTCACCACCTGCCCCCCTCAACACCTACCCGTACGTTGTATTGAAAAAAAAAAAAAACAGTATCTAACGCAGGGA
GGAATTTCTTTAGGCTTCCCTTTCATTCTCTATAAAATGTAAGTGATAAGATACCTGTGTCACAAGGTTGTTGTGAGGATTTATGCCTGGCACATAGTGT
GTGCTCAATTAATGGTAGCTGTTGGCGGTAAGAGTAGCAGCAAGAGCTGTCTTCTGGCGGTTCCCATTGTATAAATGAAAATTCTAGAGCAAGAAGACAG
AGCTTCAAGTCAGGGACACGGAACTAAGGCTCCAGATTTCACAAGTCTCATTTGTCTKTGATCCCTGAAGCAACCACTTTCCTATTAAGGTAAATTGAAG
AAACCATAAAATTAATCCGGTAACAACATGGGAGCCAGCGAGAATTCCTACCTCATTACTGGAAGGGATAGGTTTCTGCCCTGCKGCATGGAATTCGATT
ACCTTATCACAGCTGCATAATTGTAAATATTTTCATTGGTTATACAACTGCTGTGTCTTTTCTGAGAAACTCAGCCCCAATGTGTAACACCCTGGATTCC
ACGGGGCAGCAAATTCCACACACTGCACCCATGTTGTGAGCGGAGATTTTCGGGCTGACCAAAACTTGAGGCGAACTGAGTCTCCATCTTAACACTCAAA
CACACTTCATGGCGGCCTGGAAACAAGGCAATCATTRTGAAGCTTCAGCCCAGTTCTTCTGAAACCAACGTATTGGGCCTGCTTCATTGTCTCTCTAGGG
GCTAATCACAAACATGTGGGAAGGGAAGCTAAGGAATGCCTGTCTAGAAAGGGAGGTTGTATAATGTAGTGGGAAGAACCTATCTGTGGGGTAAACTTTT
TTTGCATCATGTAGAAAGCAAATCTGGGTAATTAAATGTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTAGGTTTTGGTGAGGTATAAAGCC
ATTTAAGTCTAGCTATACCAAAAAGAATTTACCTTTCCATTACAGATGATTCATTCAGTAAGCATTTGTTGAGGATCTTTATATGCCAGGTGCTTCTCTA
GGAGCTGAGGATACCAAAATGGAGAAGACAAGATTTCTGCCCTCAAGGCGTTCAACGTCTGGTTGGGAGATGGACTCATGATTGCAGTATTCATGGTATC
AGTGACATGGGTAGTATCATCTCAATGAAGGAACAACTTAGGGAAGGAACGATGCACCCGTCTCTTGCCCTGCCTCTCCAGTATTCGRGCTTCCTTGCTG
GGAAATAACTCTATTAGCAGAGAAGAAGGGGGTCTTTTCTTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTCTTTCTCTTTC
TTTCTTTCTTTCTCTCTCTTTCCTTTTCTCTCTCTCTTTCCTTTCTTTCTTTCTCCCCTTCCTTCCTTTCTTTTTCTTCCTTTCTTCTTTCTTTTTTTTT
TTTTTTTGCCCTGAATTGTTTTCCTCTCACCTGAGTCTTTCACCATTAAATGCAGAAAGAACCAGAGGTGGGGCCCTGTGAAATTCCCAAGAAAAGTCAA
CCTGAGGAACATGGCCTCACAAATGGGWAGTAAAGGAGAAAAGGTGCTTGACAGGCTTTCAACGACAGAAACCTTCCCTTTCGAAGGGAGCTTGCAGGAA
GGGAGCCAGGAGACCTGAGGATCTCTGGGCTCATGCAACCTTGYTACCAGAGCAGGAATCCCCTCTCCAGCCCCTGGAAAGTGGCCATGGAGCTCCCCTA
AATGGTCCATTCTTAGGTGGTCTCAACTACGAAGTCTGTCTTCTGTGAGGTCCACCTATTGGTCCTAATTGTGTTATTTGGCACAATTAGGATGGCAGTC
TTTCAGATGGTCTCAGGGGAGCACCTAGCAGTCTCTTGGGCACCTAAGCATAAGCAAAGTGTCCCAGTGCTTCTTCTGTGCCTGTTCTCCAGGACTTCCA
CCATCYTGATTGCCTCTCCACCATCCACTGTGCTCCCAGAGCTGATCCTGGTGCTCCAGATGTCATGTGACTGGGTAGGGACAGTGGTCTAGATCCAATC
CTCTATTAATGCAGGCCAAGGTTGGGTCCGCTGCTTTACCAGCCACGACAAACCATTGGCTTAGAGGAGTTAAGCTTGTGGTCAACTAAATCCTGCAGAA
CTGAGTGTGGAAAGATTTTTGTGGCAAAAATGGAATTGTTCTTCAATTAAAAGATCAGTAATAAAAGGCATACGGCTTTGTTGTGAGATGCTGCTTTCCA
GAAGGCTTGAGCCTGTGTGAGTTAGAAATTCTTATTTGCTAATTTCAGCAGCTTCAAGTGAGCCAGAGATTTTGATCAGTTCTCGTTTGGAAGAAATTTT
TGAAAAATTTAAAGAAAAGGTAAATAAGAAAGGAAAATTTAAAGCTTCCTTTATCTCTAGGAAAAATAAGATTTTCCACCCTTAAATTATCAACTTAATA
AATCTCCTTCAGAATGCTGTGGAACTGCAGGTTTCTTCTGCTGATATCATGGTTTCCAAGAGAGTGAGTTACCTGGTTAATTCTGACTTGGAGGTTTGTG
CCTAAGGATTGGAGGTGGCAGGTTGGGGTTGGAGGTGGGGAATACTTCCGAAGTGAGACACTGTCTTAGGCTCTTCTAATTTCTAGAGCTCACATTCTGA
GAGGATGCACTGTCCCATCAGATTAATTGCACTACATAGAGGTAGTGCCCAGCTTCCAATCCCTGCCCCCCACCCCAGAGTTCTTTAATTAATTGATCTG
AAATGGAGCTTGGGAGTTGACATTTATTTGTAGTTCTCTAGATGATTCTATTGTGCACCCATGGTTGAAAACTRCCACTTTACAGTTTTTCTAGAATTGT
TGTTTTCTGGCGCCACAGTCCCCCACTGTTACTACTTTAGTTGATACCTTTATTAGTTCAGATACCCCCTCTTCTAGGAAGCCTTCCCTGGCTTTCCCCT
GCTAATACAGGGTCKCAGAGGTGTAGATACGTTTCCACCTTATCACAGTTACTGCATCACAATGGAATGCACTGTTAACATGTCTATCTTCCTCATAGAG
GCTTCTTGAAGGTACTGTGTCTTTATCTGGCACATTCTTTGCATTGCCTAGAGGACAGAGTCTGCATTCTTGGCAGGACAAATAAGAGCCTTAGCAGCCT
TCGCAAGCCCCTCTACCAGCTTTATTGCCTGCTGCTCTCCTGGCAGAAACCCTGTCCCTCTCTCAACGTCCTAATGCCCTCAGCACTTCATCCTTAGTAT
GCTTCCCTCTTCCCTAGCTCCATCAGAATTCTTTACCTACTTCAAAGTAAATTGAAAGCTTAGCTTTCAATCTTTCCGTAAAGTTAGCCCTATTGATCCC
TCCCTGGAGTACCTGTCACTGTCACTCATACATTACCAGCACATGCTGTCATGCTCCAAACTAAACTGGAGGGTTCCACTAGGACCATGTTTGATGTATT
TTTGTGGCATCTGGAGCAAAGTTCATCCTGCCTGAGAAGTGTACCATTTTTAATGGTTTTTTGTTTGTTTGTTTTTGAGATGGAGTCTCGCTCTGTCGCC
CAGGCTGGAGTGCAGTGACGCGACCTCAGCTCACTGCAACCTCTGCATCCCGTGTTCAAGGGATTCTCCTGCCTCAACCTCCTGAGTAGCTGGGACTACA
GGGGCCCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCCA
CCCGYCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGTCACCGCGCCTGGCTAGTTATTTTTAATCACAAAAGCAATGCATTCTCTATTAGAAATG
ACACATACAAATATTGATGAGCATAAAGTAAAAAGTGAAATGCTACTCTGCAAAGGTAACAACCGTTAACAGTGCTAGACCTGTTGCTGGAGAAGCAGTG
TGTGGTAGGGAATAAGTGTTCAGGCTAGAAGGACTGAGTTGGAAGCCCAGCGTGGCCACTTCCCAGCTCAGTGACCTTCGATGGGCTACTTTATCTCTCT
CTGCCTCAGTTTCTTTATCTACACGATGGGGATAATAGTAGTATCTACCTCATTGGATTGTTGTGAATATGCAAGTTAATACACATTAAACATACTGCCT
GACACACAATCGCTGCTAAAACATCGGCACTATTAATCTTTCACACRCTTTGTTAAAAGCTTACACACAAATATACCATTGTTTTTATGAAAACGGAATC
ATATGTATTGTTCTGTAATATGCTTTATTTGGATAGTATTCTCCTATGCAGATATGTCTTATCACTGAATGATTAGGGTATCTCTAATATTCTGCTCTTT
CAAATAATTCTGCAGTAAACTTCAGCATGTATGTATCTTTGTAGTCTATTTCTGAATGATTGATGACTAAAAGCAGAGCTGTTAGAGCACCAAGCATGTG
CATGTAAAATCCAGAGAGATGTTGCTAAATTACCTCCCAAAATTATTCTCCCAAAAGGATGCTGTTTTCTCCTACTCCTTCAGAAGATATTCTCCACTAT
AAATTCCATACAGTTTTATTTAAAGTCATTTTTATTACTCGGGTGGTGCATGAATGCTTACTATTTGTGTAAGTAAAATAGAAAATGCTATATATAAGGG
AAAACATGAAAGTACGCTGCGCATGCACGCACGCACACACACTCACAAACATGAAGACCCCCACTACATTCACTCTAATTTGAATAGACTTCTAAACTGA
TTACCCTGGAAATGACTGGGAACCCGCATTCCGTTATAAAAAGACTCTGTGCACCATAAAGCCAAGTAAAAAGATGCTGGAGTTTCTGCTAGCAGAAATA
GACAGAGAGAGAGAGGAAGAGGTGGGGGCGGCTGGGGGAAGGGTCTATATCCAGATAAGGATTTCTGTGGCCATGTCATGAATTGTATGCCTCCAGAGGA
CAGTTCTGTTTTTTCCCTCTGTTTGGTATTTGGTGGTCATTTCATGATAAGCAGAAAGAAAACTTTGGGATAGTGCTATTCTCTGCTGAAGGACGGATTT
ACCTGAATGATCTTCCAATTTTGAGTCTGGGTAGAATCTAGGGTCCTAAGTCTTAAGTGTCTGCAAATTCATTTTACCAGRCAAGATAGACTTCTTTTTG
CTTCTTCATGGTGAAGATCCTTGCAATAATCTCAGATCCTCAGGCTGGAAGCCGGTGCATTACCCCATGATGTACTTCTTTCACTAACCCATCAACTTCT
ATACTACCAGTGTAACACTCTTCTCAACCGGACTGCCTCATATGGGGATATAGGCTTGCCATCTTTGTGTTTATTTTTTAAAACAATTGTTTGAGTTTCC
ATCCAGGTTTTCTTCAAAGGGAAGAAATTTCCCCTAAATTACCAAGCCAGTTTCCTCTCATAAGGCATTGGATTAAGAGTGGCCAGTAGCTGAGTTTTGT
GATTCTGAGGATAAGTAATAAGTCAAAAAGAGCTGTTGGCTAATCCTTTAGAAGGATACTAAAAGAAGAGTAAGATGATCGTAAGCTTCCTAGATCCAGG
CTGTTAAAATGACCTCCATATTACCAAGACTTGTCAGTACTGTTAAGGGAAAAAAGAGGGGAACCCCTATATATAAAACCACAATCTTGTTTCATCTATA
ATACCCCTGGTCCCCCTCCTTCATCTACACTGCCACCCCCMCCTACACCCACCACTTGATCATTTTATAGCAGATATTTTATTACATTTTTGAAARCAAA
GGAAACATAAGACAGGTGTACTATTTTAAGATTATATTAACATATTTCATGTTTCTTTAATGCCCCAACACACACACACATACACACACACACACACATA
CACACACACCAAGAGCTGATCACTTGAACAAATCATTAACCAATTGACTTGCTTCCCATTTCTGGTATAAGCTTCTGTACCAGTGCTTTATATTAATTAC
CAAAACCCTCCTGCAGACAGAGCATGATACATCTTTAGTATAGGATGATGCAATAAAATGTTTATGCTGTGAAATTTGGGGACAAAATTTTTCATCATGG
CATAATGTGCATGTATGGGCACACATAGCTTTGTTTGTTTATTCTTTTTTCAGAAGTCCTTCCAATTCTAAAATGTATTGTAGTCTGACAGTGCCTCTAA
TATTGGTAATTCTTTTTAAGTTTATAACTTTTCCCGAGTTTGTTTCTGCACTTTAAGGTTTCTTAACTAGGTTATTTCTAGTTGAGCTGTAATTTCAGTG
TATAGTTCTCCAGAGTGTTTGTGCTAAGTGCTGAAGTTTCATTATTTTAAAGCTACCTCCCTGAAAGTATATTACAAATGTTCTACAATTGTAATATAGT
GATTCACACACAAAAAAATCCCTATTATCAGCATACCTAAACTACACACTAAATATTTAAGAAAAAAAAAGTGGAAACATTAGTAGCTTTTATACTGGAA
TCTTGCCATTTCTTTTTCAATTTAGAATAGAATTTGGTTGTCTTATCTTGGTACTCTATGCTTCATGACATATCTGAAAGCATTCTTTTGGCATGGATCT
GGAAGATAGTTTTAGAGCCAGACATCAGTGTAGTAGTTCTCAAGATACTGAAAATTCATAACATTCTTATGGGTATAATAAAAAATGTTTACATATTGAA
TTCTATGAATTCTATAATATAAAGTAGGAGCACACTTACTATGTGAAATATAACTCCTATGCAATATAAAAGTAAAATTATAAGCATATTTCCATAAACA
GTAAAAGCTATTAAATCTAAGCATGATTGACAATTTCAAATGTTCCAATATCATTTAGGCATAATACTTCAAAGATTTCAAGCCCTTTTTCTGCTAGCAT
TCAGAAAAGTAGAGGACAAGAAAGGATGAAGAAAAGCTTACAGTGAAAAAATCTTAAAATTGAGAGAATTCAATCTATTAACTTTAATCTATAAACCTTT
TTTCTCCGAACTGGGTACATTGGCATCATTATTTGATTTTAGCAGCAAACATTTGGGTTTAGCTTATGGAAGGCAGATGTCCTGTGGGAACGTGACTTGA
AGTCACCATATAACTTCCCGCTAAATAAACATCTGAACTGTAACTTGACAGCTACCAAGTGAGGTCAAGTGTCTGAAAGTGCTGTGTACACCACATAAGC
ACGTTTTCCTTATGTGAAGGATGCATTTCTAGCAATGTGTATCAGACTTTCAAGTACTCAAAACATACTTGCTGCCAAACTTTGCCACCCACCACTAACC
TCCATTTGATCCTTAGAAGGTAGAAACTTATTTTACAATAGAAAAAGAGATTATTTTATTTGTATGATGTCCCTAAAATTATTTCTTGGTATTGATAGAC
CTAGGTTTATCTTATTTCAAGTTTGCCTTATTTTTTAAGAGGTTTATTGAGATATAACTCACATACATGCAATTTACCCATTTAAAGTGTACAATTTAAT
GGCTTCTAGTATATTTACAGAGTTGTGCATCCATCATCACAATCAATTTTAGGAYATTTTTATCACCCCAGAAATAAAGCCTGCATTCGTTGGCCATCAC
CCCCCRATTCCCCCAAGCCCTCAGCCCCAGGCAAACTCTAGTCTACTTTCTTTCTCTATAGATCTACCTATTATGAACATGTCATGTAAGTGATATCATT
CAATATATGGTCCTTTGTGACTGGCTTTTTTCACTCAGCACAATGTTTTCAAGATTCATCCATGGTGTTGTATATATCAGTACTTCGTTCCTTTTTATAG
CTGAATAATAATATGATACATACATATTGCATATACATGGACATGTGATATGTCCATATAATGGAATAYTACCCATTCATATAATGAACATATCACATGT
CCATATTCCATATATGACATGTCCATATAATGGAATATTATCCATTCATTAGTTAGATATTTGGGTTTTTCCTATTTTTTGGTTTGGTTTGGTTTTTGCT
ATTATAAATAAGGCTGCTTTGAACATTCATGGACATACATTTTCATTTCTCTTGTGTATTTACTTAGGAATAGAATTGCTGGGTCATATGATAACTCTTC
TTAGCCTTTTGAAGAATTACCATGCCATTTTCCAAAGTGGCTGCACTATTTTACATCCCCAGCAGCAGTGTATGAGTGTTCTAATTTCTCCACTTTCTTA
CCAACACTTCTTATTATCTGTCTTTTAGTTATTATTCATCTTTTTATCAGGGTGGGTATTAAATGCTGTCTCACTGTGGTTTGATTTGCACTTCTCTGAA
GGCTAATAATGTCAAGTATATTTTTATGTGCCTATTAGTCATTCATACATCTTCTTTAGAGAAATGTCTATTCAGATCCTTTGCCCATTTTTTAATGGGG
GTGGCTTTTTGTTATTGAATTGTAATCGTTCTTTATATATTAAACTTACACCTTGTAAAAACGCTGGGCACTAGACTATACAGGGATTACTGTACCACTT
GTCATAAATCATAGCTATGGTCCTCCTTGAGAAGAATTCCTTACTGTAGTTAACACCTGCTCTAAATAAGCACTCTGAAGTGCTTCTTACAAAGGGTAAC
GTGGGCCAGGCACRGTGGCTCACACCTGTAATCCCACCACTTTGGGTGGCCGAGGCGGGTGGATCATGAGGTCAAGAGTTCGAGACCAGCCTGGCCAACA
TGGTAAAACCRAGTCTCTACTAAAGATACCAAAAAATAGCCAGGCGTGGTGGCATGAGCCTGTAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATTG
CTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATTGGGCCATTGCATTCTGTTAAGCCATTGCACTCCAGCCTGGGCAACAGGGCAAGACTCCGTC
TCAAWAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATTGCAATGTGAATAATGAAACATCAGTGAAAATAAGTAGTTTTATATTATTAT
GTACTTTTGAAGTAAAACGTCTCCCCCCACCCCCCATAGCAAAGAGATATAATAGCCAAAACCAAAAAGGAAATACAGTGGGATGTCRTTAGTAATACCT
TTTGTTTGTCTTAGGTGTGAGAGGATTCTTGCTCTTATCCGTGTGATACATGTTTTGGCTAAAGCTTTGAAGTCATAAGATATGTAGTCTAGGTATTGTA
ATTGTGCATTTCATATTTCAAAAATTGTAAAATTCAAATGTTAAGTCTTTGGCKACACTAAAATAATTGTTGAAATCCCTTAAAATGTAGATGGTAAACT
CATCAGTTATAACTTTTTGTTGCACTAAAATATGASTTTATTTCTTTAGTTGTAGTGAATAAAAATAAAGTTAATTACAAAAGTAAAGCAGGTAACACAA
CTATTTGAATATGCTTAACACTATTGAACTGTACCTCTAAAAATAGTTAAGATGGCACATTTTATTATGTGTTTTATACCATAATTAAAATTTTCAAAAA
TAAGGCAGATATAAATATTTTAATGTCAATTCTTTTGAGTGGACTATTCTAAATGATTATTTGCTTATCAGTCTAACTTAAGCACAGTTAATCACTTTTA
CACTGCTTTGAGTTAGATAGCTGCTCCCTATCCTAAATTTTACTTTCTAAGATGAGTAATACAGATACTCAAGTTAACCAGGATGTTAGTCTGTGGGTCA
GTGATCAGGTATCTCCAAGTCAAGACATTCCTCAGCCGCCCCTGTGGTTGTCCTGTGAGGTGGTTGGTGGTGAGGGTGGGCCTGGGGGGAGACAACTGCA
ACAGGAGGACCTCTGGATTACATACCCAAGTTCCCTCTCAGGAATGTGGATGCTAAAAGTGAAGTGCTGATAACAAATCTCACTGGTATGAAGTAGATTT
TACAAGCTGCTTCAGTCTCAGGCTATATCTCAATTTATGGGGCGGCGTCATTGCTGAAAGTTCTGTGTAGGTCTTTTACCATAGTATTGAATTTTACATT
CATTATAATGCTTTTTATTATGAGCTCTAATTCCAAGTTAGTTAYTTTTAATTCAGAAAGAAAGTAAATATTTGCTTTCTGGAGGTAACTGCACTTGAGT
ATCTGCAAGGAGAGCCCCTCAAGTTCTGTTTTTGGGGATCCTCCCCTTTTGAAARCACTAATCGGACCTCAAAACCAGATTTTATCTTTGAGGACTGACT
TCCRCTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGATAGAGTCTCACTCTCACCCAGGCCAGAGTGCAGTGGCGTGTTCTCGGCTCACTGTAACCTC
CGCCTCCCAGGTTCAAGCAATTCTCTTCCCCAGCTGCCCAAGTAGCTGGAATTACAGGTGCCTACCACCACGCCCAGTTAATTTTTACATTTTTAGTATA
GACAGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTGATCTACCCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCC
ACCGCGCCCGGCCCTCCATTGCCTTTTGACCATCAACAAAAAAGGCCAAAGTGAAGCTTGCTGGAAAGGCTTTGTAAGCCAACCATTCTCAGTAATTTTG
GGGTTGTTTCATTCGTCTTTATTTGGACGAGGTTAAAATCAGTTGCACATTTGTACTGAGCATTTTGGAGTCCTGTTATTTGAATTATCCATTATTTCCT
ATATAATTGGAGAGTTAGGGTTAATGTTTTCTTCTATCTCATGTCTTGAATTCCCAGCAGAGGCTACACAAAATTTACTTCTACTTCATATACCAGTTTA
TCATGGTACAGATTATTGSTCATTTTTATTCTTGAATAGAGCTACAGGCCAAGCAACTTCTTGCATTGATATTGATGTCTTCTTTCACATATGTAAGTAA
TATATGTAGTGATTACAAGACATTCCTTTTGTTCATTAAAGAAAACCCCCAGGAGACTCTTTGGAGTAAGCTATGGGTAASCCACTGAATACTCTTTAAA
GAAGCAAACCTATATCATTAAGGGAAAGCTAAAGATACGTAAGTTTTTTGAAGTTGACATCAAGGAGGGCAGCATTGCTTGGCTGGTGCAACTGCCAAAG
ACAGGACAGATTATTGGTCTGACGAAGGACAATCTGGAATTGTAAAGAACGCTGATAGAATATTGCATGGACAAGTTTAGATAACAAGGGCTGGTATTTT
TCACTAACACTTGGTTTCCTCTGTGTGTTTTGCTTTTTCAGATTTATCTTTTCTGTGTTGAAATCCACACAAGGGACATAAAATAACCCTCAAAAAAATA
TAAACACAATATCCAAACCTTTTGGAAATTTAAATGTTAWGTATTATTCAGTAATGTCTGCCCACTGTAGTTGGACAAAACCACATTCAGGTCTATGTGT
CAGCTTTGTCCCTCAGCCCTGTGATTTGCTTTTGGTGGCTCAGGGCCAGCTCTCCAAGGGCAAGCTCCATGAAGGCAGACAGTGCGTCTCCATTTTGATG
AAGGCTTGCAGTCAAGGTCCTCAGTGTGTGTTAGAGAGGCATAGAGCTCTGCAAGGGTAAGTTCATGTCTATAACAATAATTGACCTCCCTAGTGGAAAG
ACAGGATTTTCCCAAGGAAAATAGTTTGCGGTGTCATATTTGTGGTCTCTCTAGAGAGACAATTCCGTAAGTGGTTCCTAAGCCTTGGAAAATTCTCTTT
TRCAATAGTACCCACAAATAATGTTCAAAGAGYTATTTTTGAGGAAAGGATTCCTCACATTTTTGCAGGTGTAAGTCATTCCTGCCTCAGTGGAGTACAA
AGAGTGATGTGAGGGAAGCAGAGCTGCTGGCAGGAATTTTAAAAGTATACTATATTTGTCCCACATTAACTGTGCTTCTGGGGTATAAAGGTCAGGGATA
GAACTGGTCCTGTGGGATGTTTCTCATCGAAACCACCTCTATTCCAAAGCCTTGGTGTCACTAGCCAAGATGTATCTATTCTAATAAAATATAGGTCTCA
TATGACACCACATTACAAAATACAAATTTTCATTTGTTTTTGTTTATCTAGTCTATTGGAAATGTGTGGTTCTTTTGTAGTTTCAGTTAAGAGTCTAATT
TGGTCATTTGCCTCTTAAAATACTCTTCAAGTCCTGTGAGTACTCAACAAACACTCACTGTTGACCAATTTCTATTTCCAGCCACATACTGTTCATAATG
AAACCTACTTAGAGGATTTGAATGAAATAATTTAATTATTTTCAATGTACAAGAGGCAAAATTATCTGCCATGAATTTCTCTGGAGTAAAGCATCCTCAG
TCCATCCAAGTAAATGTTTCCATTTTTGATGTTCAATCAAGAAACATTCAAATTCAACTGTATTTTTTGTTAAGAAGAATATTTCCTTTGGCATTCAAAA
TGATCCCAAACATTGCTTGGAAGAGAGAAGTGGGGAGAGAGACCACATGTATTAAAGCACATTTAACCAATTTTACTTTGGCACATTTTGTTTTGCCATT
CCACCTATCAGTCTTCTCACAACCGAAGAGCACTTATAAACATTAAGATAGAATTTTAATCTTTCATGGAAGGAGCTTTTTGTCAGCATTGGAAAAAGGG
AGATTTGGGTCAAATTTTGACTGAAGGGCCATTTCCTTAGCAAACATCCAGACTCCAGGGATCCATTTTGTTTTATTTTTGCCATTGAAAACTGTTTTTG
AGAAAAGGCAAAAGTCAAAATTATTAGGCTTTAAAAGACAGCAGTTTCTTTTATCACAATTTGCCACACTAACTTCGTGGCTTCTTGTTTGTTTGTTTGT
TTATTGTTTTTAATTTATTCCAATATTTATTGGGAGGAGACTAAAATCAGCTGTAAGTGTATGGTGAACATTTTGGAGTTAGGGTTAATGTGTAAGCCAT
TCTGCATTTCTTTCATCACTGAGATTTTTATTTAATTAACGCATTAATTATCATGAAGCTTACTATTTGGTGTCTGCTTATCTCTTTTTTTGAGGACCAA
GCATATAAATATGCGAGGAATAGTGTTTTATTATTCTAAATACCTTGCCATTATTAAGAGTTTTTTTATGATTATACTGTCTCAATGTTGAAAGAAAAAT
TTTTAAAGATTTGCRTTTCAATTTTTTTACCTATAGGCAAGACTGTACCACTCTGGGCAACAAACTTAAGTTTCAGAAATTTAACTTAGGAACTTTTCAA
GGAAATTTGAGATTTGTGTCAAGAAACCYTTTTATTAACGATTAATGTAAAATTTGGAATACGGTTCTTAAGTTAATGTGAACCTGCAAAATCTACCATT
TTTGCCTCCATAATAAGTCAGACCTTGTACAACTTAAAAATGCATTCTGTCCCACGTTTCATGCTGTCCCTTCCTCAGAATAGTCTGGGAGTTCAGCTTT
TATAACCTTTGGTTGCCCTTGGAAGGTATTTATGGCTTGGATGGGCTTTGTTCATAATCACTGTGTTCTTGTAGGATAACCCCCCTGGCCTTCTTGTGAC
ACTGAGCTACTGATAACAACTTCTCACGTGTACAGATAATCCAAATCCACATTCAAAAAGTGCAGCGTCATCAAGACAGACTTGAAAAGGCTTTTTTAGG
CATCAACAGGTCATTAAAGATAGCACATCTCACCATTTTTCCCTTCAACTACATACATTGTGAAGACTTAATGGGGGAAGGTGTAAGATTTTGATCTCTC
ATGATCCTGTGTTAATGGCCTGTGGTTCAAGGGTTACTAAGATTGCAATAGAAGAAAAAAAATATAAAAGCAAAAAAATTTCCCAAGAAACTACCACAAA
TACATACTTTTATACTGCACATAATGAACATTCCCRACTRTACAGTGCTATAATTATAGTCCTTATGTATGTTTAATTGTAAAAGTCACACATCTACCCT
ACTTGAATGAATGTATCTGATTGACTCATTGGTAAAAGATTATTTATCTTGACGAGGCCTGGTGGCTCATGCCTGTAATCCCAGTACTTTGGGAGGCCAA
GGTGGGTGGATCACCTGAGATTGGGAGTTCGAGACCAGCTGGACCAACATGGAGAAACCCCATCTCTACTAAAAAAAAAATACAAAATTAGCCAGGTTTG
GTGGCCCATGCTTGTAATCCCAGCTACTCCAGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAACTGAGATTGTGCCATTG
CACTCCAGCCTGGGCAACAAAAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAAAAGATTCTCTATCTCTATTCCGTATCTCTATCCACACACACAAAAA
GGGACAATTGGCATAAATTCCTATTTTTAGGCTTCCCAAAGAAAAACACAATCCTATGTTCTGTTGGCTGACAAGACTAAGATTAAAAAGTGACATAAAG
CGTAGGACTGCAGMCTTTCTATAGTTTATTATTTGTCTCCTGAAAAGGAAGATATTTGTATTTCTTTTAGGAACTTCACTCCAACAGATTTATTCTAAAA
CAATTCCTGACTGTGTTGAAATAATGAGGTACAGTTCACTTTGAGAAAATACCCTAAAGAAAAGTCCTGATCAATGATTCTCAAAATTTTTCCGGTCTCA
ATATACTTATGGGATAAAAAGTCATTCTTCTCAGTAATTAATAGTAGCTAATATAACCCTTTGCTTTTGTGTTTATTGTTGGTGTAGAGAGAGCAGAAGG
AGCTATGTTAATTTGTATGGCTTTTAAAAACTAAAGATTATTCTGATATCCCAATATTCATTTCCCCCAGTCCTCAACCCTTGAGTGAGATGGGCCTTCC
CCATTGAAAATCACTGTGTGAGTTTTCCAAAAACAATTAATTATAATACGTTCCATCATGGATTACTTTAGTGCACTTAAAATTTGACTCAAAATTTTAC
AAGCATTGATTTTACTTTCAGAAATACGTTTGTGGGCAGATGTGAAATTTTCCTATGGGAATATCAGTCTACCTTACTGTTTTGGGGACATCCAAGTCTT
AGTGTAGAGGCGGGTGGGGAAACTAGATTAAATGTTGAGTGAACTTGTCTACTGTTTCTACCTTGACCTCTAACTCTCAGGTGAGGGTGGAAGTCCTCTC
TCCTGAATACAGGATAGGGATTGTCTATAGTCTGAGGGAAAGGCTGCTTTCCACTGGGGTCATTTATCCATCTGTAAAAGAGGATTTTTCTCCCCTTAAA
TATAATCATAATACCCATTATCACTTGTTAAAACATAAATAATAATCCTTTAATAATGCCATTAGTCAGTTTTCAAAAATCCCCATTTCTTTTCTTTCTC
TTTTCACAGTTTGTTTGAATCAAGCCATATTCATACATTGAATTTGTTTGACAGAGTCTCTGAATCTGTTAAGTTTGAAGGCTAGCTCTCACATTCTCTA
TCACCAGCTTTATCTCTGTCTTCCTTTCCCACCCTTCTTATTTGTAATTTGTTTGTTAAAGAGATCAGGTTGTCAGGTAAAATTAGTCTTCCRCAATCTG
GATTTTGATGATTATGTCACCATGGTATTGTTTAACATCTTTCTCTTTCCCCCAAACCATTGGTTTTCAGTCATGAGAGATAGATATAAGCATTAAAACT
CTATAGCTGAAATGGCCTTGAAGATCCTTTGTAACCCATAGCTTTTAAAAGCTGGTACAAGTCAATTGGCCAAAGGATATTGAGTTAGGCAGGGCCAGCC
TTTGGCAATGCAATTGCTGCTTCCTCAGACTCAACAAAAATTATTTGTTTTCTTTGAAAATGGGAAAAAGCTACAGGATAAGTCATAAGGCATAAGCATA
ACTAGAATTGTCTGCAAAATAAGCTTATACACATGGTAAAGGCCTCATGATTCTAAGCCTGTGTCCCAGGTTCCCTTTCAAGTTACCAAGAYTTGCAGAG
TTACTTCATTATTATGAAGATGGTGAGTGCATGCAGAACAAATGTATTCCTGGTAAAAGAACATTAACATGATGGGGAATGCAGCTATTCTAGATGTGAT
ATATAAGAGTAGGGAAACTAAGTTTTTTTTAAAAAAAAAAAAAAAAAAAAAAGGAAATATAGAAACTAGGGGCTAAACTAGTAACTTGGCCCCTCCTTGG
GTTCCTTCCCCACACCAGGCTTGCTGACTCTTCCTCCCTAACTCCACTGCCCTCTACTATGGCCACCATCTGCACCCTAGTCTGGGCAACACCATATTGA
TCCTAATCTACACTAACTTCCTTTCTAGTCTCCCTGCCATCCGCCTACCCCACAATCCAGGGTCTTGCTCTTTTCTTACCTACTTTTTTTGCACAAAGGT
AGCATGTTCTTCCTAAAACTCAACTCTGGGCTCATTCCCCACATTGCTTTTGGAATAAAGATCAAACTTCTCACATGGCTCCAGCTTGTGCCTTTCTGTC
TTATTTCTCACTCCTCCTCCCCACCCTCCCACCCCCAGCCCAACCCCACTCCCACCCTAGTGTCTGCCTGGACTCTTTTCCCCAGCTTCTTCACCTGAAA
CCCCTCCTTACCCTCAGGTCTTACCTTGCATGTCACTTTCTCCAGGAAACATCTCCTACACACACAGTACAGTTAGGCAGCCCCATTGCCAGCCTCCACC
TCCTCCAGCCAACTGTGTCATGAAAACAGGGACCATTTTGTTCAGCTCTCCATCCCTGGGGACAGACAGAAATCATCTTTCGAGATTCCAGAGAGTCTTA
AGTTATTTTATAAAGTGTTGTGAAAGTCTCCACTTTCATGTTAAAAAGTACTATATGCTGCATAACATTYTTCAGAAAGGGTTATTATGGAAGGGCCGAG
GGTCAAAGTTCCAAGGTCCTGAAAGTATTACACTGCTTCCCTGAGCAGTGTCAGACCAGAAAAACCAACACCGGACTCTTGACTCAGGGAAATATTGCAC
CCTACTGCCAATTTATGTGGTTGGCTTTTTTATCTTTTTAAACAGGCAAAGAGAGCTTTGCCATGCTTTTCCTGGAAAGATTCACTGATTCAATCCTTCA
GCTAATATTTGGTGGAATGCCTACTAAAGCCATGGCATGCAATTCTGCCGTAGGACATGAAGTCGTGTGTGCCTGCTGTTGAAAGCAGTGAGTGTTACAT
GAGAGTTTTCTGATTGCCAGCTAGTTTGCTTCCCTGACAGGCATTTCCAGATGTGAGGAAAGATTTATTTTGGCACTCCCAGCTCCAAGTGGMGTGAGCG
CACACACACATACACACACACACACACACACAACATTCACTCTCCTTCAGTGCTTAGGATCATCATCCTCTGCCTTCAAAGTTGGTAAATTGAGTTTGCG
CTACAGCAGAATAGCTGGCTGTTGGTAACTTTCAAGGGGAGAAAGGGCATCTCTCCCTCCCCTGCAGCTGAGTACAACAGCTTAAAAATAGAACAATGTG
TGTTTGGTGTGTTCTTTTCATCCTCTGCATCAATAACAGGTGTACAGTTACAGACACAAAGAGCTAGATTCACGTCTTCTGAAGCCTCCAGAGAATTCCC
AGAGTTACCCATGGAGCAAGAACTGGGCCTAAAATATTTAGTAAAAAGAAAGTAACCCAATATATCTATGTATTACTAACACTGCTGTCTCACATGGCTT
TATTCTTCTCCTCCCATAGTGATCCCCAGATGTAAATGCACAGCGGAAGAAAATTTTACCAAGAACAATTCTTAGCGACATTACATACCCACACTTTCCC
CAAAACAAAATAAAGTTAATACCTCTAAAAATTGAACTACAGAAATTGGCGTGACTGCTGTGAATAGCAAACTTGGAAATGCTTTGGGTGAGGGTACAAT
ACTGAACATTCAAATGCTTCCACTGGATAATGCAGGTCTAGCTTCATAAACCCAGTGTGAGAAGTCAGATTGATTTGCTAGTTTGCTTTTTATGCATTTT
CTAAGATGTTTCTTCTTGTTTTATGACCTCTTAGAAGCACTGACCTCATATTTGCCTTGAGATTGAATGCTTTGCCCATCTTGCTGCACATCTGTGATCA
TTAATGGTATTACTTAATGAATAAGTTAGCATGTAAATTTGCAATGTGGAAACTGCATCCCCTGCCATCACACTTCTCAGCAGCTGCTTACAATTCTTTC
ACGTTCCCTCCCCAAGGAAATGGTTCATAACAGAATTGAACAGATGCTAGGTGTTTGGCAGCATTGTGAGCGACACTGGTTTTCAAAATTTAGGTTATTT
CATGTCAGATAATTACAATTTCAACAGCTTTTAGGCCTTTAATGTGTGGCGGTGTTCACATAAATACTTAACCTCTGACTCCACATTTACCCCTCCCAAG
TTCCCCTAACTTATTTATTGGTTCTGACAACACCACTACTAAATTCTTGGCTCTCAAAGTCGAATCTGGTAAACACGCATGGGCAGATCTGACTTGGCAC
TAAAATTGCTCCTTCTTTCTAGATGAGCTTTTACAGTTGTTCCTGACAGCAGTCAAGTGTTGCCAGAACTCCAATGTATAGTTTAGTAGAGTTTCCCAAG
TGCCTCTCTCCTGGGCCCCTCRCTTCTGACACACACAGATCTCTTCTTTCTCAACCTGATGCACTGTTCTGTCTCATGGAATGCTGTGATGCCCTGGACT
TGTGAGCTTTGAGAGCAAACACTAGGTCTTTCTAGAGCTCCTGAGAGTGGCATACAATAAGTGCTCAATAAATGCATCCCACATGAGCTGAGGATAATTA
GCTAAAAATAAGGAAAATATTGATGCTTTTGTTTGYTTGTTTTGTTTTTGAGAGAGCCTCGCTCTGTCGCCCAGACTGGAGTGCAGTGGTGCGATCTTGG
CTCACTGCAACCTTCGCCTCCTGAGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGTTGGGATTACAGGCATGTGCCACCACATCCAGCTAATTTT
TGTATTTTTCGTAGAGACAGGGTTTTGCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCACCCTCCTCAGCCTCCAAAAGTGCTGGGAT
TACAGGTGTGAGCCACCACGCCCAGCCTAATGTTTTCTTCCTAATCAGCTTTAATGTCAGAAGACTCAAAATCCACATCTGAGGGGTTCTTACACCCCTC
CAGGGGCTGTTAGGAAACACAGTGAAAATGGTTTGGGCATACAGAAAACACTCTGTGAGTGGGATGAGCCAATGGAAATGTTCTCGTGCTGCAGAACACT
CAGTGGTAGATGAAGGGTGGTTTGTGTATCTTAATGACTGAGTCCCTGCTCATCGATATCCCAATCACTTGACTTCKTAACACAGTTTATCTCCCTACTT
GAAATGTTTTACCTTTCCCCCCATTCGAAAGTTATTCCACACACATTCATGAAGCATTTTACAAATGCTGCAGCCTCCCTAAGACTGGATGCTGATAACA
CTTCTAAAGGGGCACAGACTCCATAAGACTGTGGATGCCGATACACTTCTCAAGAGGCACCATTTCCTTTCCCCTAGCAAGCCTTGTATAGCTCTGTCCC
CTCACTGGATACACAGAAAACAGTCTTGACCGAGCATCTGCCATATGTCTTCATGCTACCTTCCCTTCCTTGTCCCCATTGCATGTGTGCTCTGCGTCAT
GCAGGGCTGCTATTGTCTAGCTGAGGTTGTTAATTCATTCAGTATTGAGGCCCTCCAGTTAGCTGTGCTAGGTGCCTAAGAAGGAAGTCACAGCACTGTT
AACCATAGACTCCAGGTCCTACATCTCCTTCCTCTGCAGAGTGAGGAGATGTTTGCATCTGAAAAGGTAAACAGGGGCCAGCTGAGTGGTGCAGGGGACA
TTCGCTCTGGCTGCATTTATTTGTAGTAATTCCTGTTTGGTTCTTAARAACACAAACTTCTGGAGCTACCAGTTGCAGCATTGACTAGCTGTGGGAGAAG
TCACTTTGGCATTCAGGGCTTGTTTATGGAGTGGAAATAATAGTAGTGACAGTAATAAACATGTTTGTTGTATGTGCCTCCTGGGGGACCTGGAGGTGAG
CTCACGGGGAATCATGGCTGTGAGTGTGGTCTATGTGAATCTATAGGCATTGGCTAATGTCAGTGACTACTACACTCTGAGATTCTGCTTTAATATTATA
AACACCAACTTCAAAAGCCCTTTTGGCTTCTTTGCCRGAGAGTATCAGGTGTAAGGTCTCTCTTTGCACTTGCATCTAGTGTCTGCCTAGAGAGGATCAT
TTCCTCAGCCTCGGCTTGGTCAAATGATGGCATTCTCACTGGCTGTGCCCTGGCTTTGTCACTAATTGTTAGGCAGTTTCAGAGATCGTGTTGCATGTTA
CTTCACCCCGTTTCTGCTGACTGGCTGCCTCCTGAGTGCTGCTTACTGCAGTTCATAGATGTTTCTGAAAACTGCTTATGGGTGACCCTGAGTAAACAAT
TAAAAGTCACTGTATTTTCTATGTTAGAATTAAAAAATCTACCTTGCCAAGAAAGCTTGTGACCTTGTAAAGATTGGGAAAACTCCACTTGTCATAAACT
TAACCAGTTTCCAACTCATGCACTAAAGCAAAGCTTTAAGCCACTTTGCCTTATCAAAAGGCCATGAAACTTTCATTCTGTCCTAGCCTCACCACTAACT
AGTGGTGTCATTTTATACATCATCAAGCCTTTTGGGTTCCTTGACCTCACTCACCAGACCTGGAGGGCCCCGGCCAGTTTTAGGCATTTAATTTTGACTT
TTTGATGACAGAATGGTTTCCAAGGGTGTTTGAGATTCCCTGTGGAATTATGTTCACTACAATCAAGTTTCCATTGCATTAAGATGAGTGCAAGTTAGAG
GAAACACATCACAGGGTTTACTTAGCCTGGAACAGAGCTGGACGCATGATTGCTCCTCAGTAATCAGATAAATAAGATGTGATTTACATCAGAAGCTGTA
AATGACTGAGAACATTGGTGTTGCAGTAAAGATTATACTTATTCTACCTTAAAGTACTAAAATCCTAATCTTGATTAAAGGTTAATTCTATAATTGGTCA
GTGACTTTTTAATTTTACCTGCCATAATAATTGCTAGCAACTACTGGGTAAAAAAAATATGCTGGTTATTAAACATATGTACTTGTTATTCCTTCTGAAA
GGTCATTGTTATTATTCCCATTTTATAGATCAAGAAACTAGGTCTCAGAGAGGTTGCATAATGTCTCAGGGTCTCCCTGCTAGCAAGGGGCTGAGCTTGA
ATTCAAACTCAAATCTACGTGTCACTAAAGCCCCCTCTCTCTAGAGCCATGTAACCCCTGATGTGGTATGTGGCCTCTAGATTAGTACTGGATCAGTTTA
TAATTTTAAAGTGCATTTGTTCCCTTAAGTCTTTTCTCCACATGAGCTAAATATTTTTCATAATTTTTCTGTACTCGTGTACTTAGCCCTTTACATCATG
TGTGGTTGAACATTCTATTATTTGGTGAGACTATGACTGTCTAATTGGTCAGTGAGAATCTGACTTGTCTAGCAACAAAAGAACTCCTTGAGAAGAGGAG
CKACTATTTGTACATTTGCATTGCAGCCCTGGTTGCAGTGATGAACTCTTGCTATAGTATGTTACAAAATTATGTCATTGATTTGTAGATTGAGTATAGT
TGCTTAATTATTCTCACCTGCTGAATTTGCAGAATTTGTCATTCATCATTCATTCAACAAAGCTATACTGAGTTCCTGCAGTGTTAGTCACTGGGCATAT
AGTAATCAATGTAAACCATCGTGTATTACTATACTTSAAGGGCTGTGACCTGGAAAATCACTGATATGTTATTCCAGAATGAATAAAAGTGAAGTTGAAC
TTAAGGCATATACTTTAAAAGAATGGACTTTTTAATAATCATTGTAGCACAACCAGAAATTTTTGCTAATGAATTATCCAATTAACTTTTCTGAAGCCTA
AAATAATTATGCTGTTATTTCTTTTGCATATGAATAACTTCTGTTTGTATTGATCCTTGATGCATTTACATCTCTGCCCAAATGATATGACATTCCTATC
TAGAGGGGAAGGATATTTATTAGCTTATACTTCTCTAGATTGATACTACTGATTCTTTTAGGAAAACAGTAATTCCTGAAGTTACAAAGTCAGGCTAACA
GTATTCCCACAAAACATCTTGTAATAGCTTCATGTGCTATAGGGAATTTTTTTGTTTAAAAAGTGCTCCCTTTCTATAATCACTTTTTGGTTGTGGAATT
CCTGAAACAATTTGTTTTGGTTATTCTGAAAAATTCTGAATCTTCCCTAATACCTTTAGTAATAAAATAGGACCTGATAAAAATCACGAAGTGTCTTTGA
ATCTGGCTGAATATCTAGACTTAATGAGTGTTTAAGGCTCCATGTCAACCTGCAAAGATACCTGGTGAAGCACCCTTATGTAYTTTTCTAAAAAAACCCT
GCCCTGTTCCATACTTTAATCAACGACTCAACAACATAGAAGTCATCTACATAGTGTTTTCATACGACATAAGCCCAAAAAGGATGGCTTCCACTGCATA
TGCCTGTGATCATGATTCATAATGATTTCAATAGGCTGCAATGCTGGATGGAAACCAACATGATGAAGTTGAGCAAGGAATAAGTGTACATTTCTGCTTT
TAGATTCAAAAGGCAATTGCGCAATTACAGGATGGGGAACAACTGAGCTTGGCAGCAGTTCATGTGACTAAAGGCTTAATGTGAACCAACAGTAGGAAGT
GGTGGCTAAAAAAGAATGAATGTAGCCGTGTGCTTCCTCAGTAGAAATATTAATAGTCACTGTACTCTGCGCTGACCGCACTGCATTGGGAATAATTTGT
TTGGTTCTGAGCACATTCAGGAGAGGCTTTGACAAAGCAGAGTAGCTACTAAGAGGGTGTTGAATCCAATCCAAGACACATTTATTAGACTCCTGTTTTG
GGCAGGCAATGTGCTAACCAGGGCAGGCAATAAAGACACAAAGAGACTTTGCCAGTCTCTAGGCTCAAGGAGTTGAAAATTTAAATAGAGAGTCAGACAG
GTACACGCATGACTATAAAACAAAGCGCCCCACGAAACCAAGAAGCACAAAGAAAGGGTTGTGGGAATTCAGGGGCTGGGCTAGTGGTCAGATTTCCACA
GGAAATGAGGACGAGAGCAGAAGAAGCCTTAAGAGCAAAGAGACAGAGACAGGAAAACCCAAGGCATGTCTAGGGAATGCTGAGAAGTCTGGGTTGCCTG
GCAGAATAGGGTAGGCCTGCGTAGGAAATGAAGCTGAAAAAAGAAGGTTTGGGCCAGAGCGTGAGGACATTGACTGGTAGGCAGTGGGAGGCATTACAGG
TTGGTGAGCATCTGAAAAAAAATAATGATATATGAGGATCTGTTGGAGAAATGATGCATATTGAGTCTATAGAAAAGAAGACCGAAGTCCCCTGGTAAAC
GTATCTCAGACTTGCTTTGGGTTCCTCCAGAAGCAAAAATTTATCTCAAAGGGAAAGGGTTAAAAGGAATGAGATTTTAGATTTCTAAGCAGTTTTTTTT
GTTTGTTTGTTTAATCAAAGCTGCCCATGGTGAAGACTTACCTTAGAAGATTGTGAGCACCATTGTGGTGGGACTCAGAGAAAGTTTGGTAACTGACACT
CTAAACAGAGTTGGGGGAGAAATGCTGCAGCTTCACCAASTGGCCTGGGCATTCTAGGGATTACCCATGGCCTTTGCAATGTGTAATTATCCATGGTTGA
GGTTTTTTTCTTTCTTCTTTGACTTAAGACATCCATTAGTATGTCATTTTCTGAATAAAGCCACTATGTTATGACTCTCCAGTTCAACGAGAGATGTCAA
ACTAACTCCAGTGCAGGTCCCAGGGCTGTGACAGTAGCCACTCACCATGACTGTGGCACTTTACAACTTACCCATTTTTTTTTTTTACTGTGATATATGG
CTTCCTTTCAAACATGACTTTAAGCAGATTACTATCACAATTCCACATTGGATAGATCAAATGCACATCAATGATTGATACCAGTCTAGTGTGAAGAAGA
ATTTATTTTACAGAAAATCTCCAAGACAGTAGGCATAATGATCAAACAGTGGGCACTGGAGTTGGAGAGACTTCAGATGCCAGCAATGCCACTTATTAGC
TGTGTGATCCTGAGTGAGGGACTTAACCTCCCTGTTTCCTAATCCATAAATGCAGAGTGACCATTGTTAGCCTCCACCTTGAAGGGTTGTTAGGAGGATA
AAGGAGGTGAAGCACTCAGCACAGTGCCTGGCAGTAGGCTCTAATTTGACTGAGTTCTTATGGTTTACAATGGTGTTCCAAGGAGCCCTTCAGAGCTAAA
AATCCTTTTTTAAAAGCAAAAATAAAAACATCACTGTCATCATGCCACATATTATTAAGGCATCACGTATGTTAATTTATTGAATTCTCAAAAACATCCA
TTTGCCAAGAGAGTGAGGGATTACATACCTTGACCAGTCACAAGCTGATAARTGGGGGGAGCCAGGATTCAAGCCAAGCAGCCCTGGAGTTCATGTTGAT
GACAACCATTTCCTTCCAGTTCGTACCAACACGTTTCTGTTTTCCTCCAATTCCATTCCAAATCACCCCGCTAGATAATTTGATGTGTTTTATTTGTTTA
GGCCAGTTTCACAATATTTTTTTAAGTCCTGTTGACTGTAATAAATACATCAAAGGCTTAATGTTTATGTCCTTTGCCAGAGTATCAAGAAGGTCCTTAA
TAAATGTTGAAAGAGTGCACGAATAAGTGAAAAATTTTAATTGTAGGAGTAATTTATAGTCACTTTTAGAAGAAGCATGTTATCCTGAATGTAACTTCAC
TACCTTACCAATTCATTCCATTATTTGTGATGAGCCATAGTCCTTTGAATCCTTCATTTAAAAATCATTGTTTTGTACCTGGCTTCTCTTTACCTTATGT
ATAGTTCTTCTATTCCATACTTCTCTTTAACAACAATGTCCCCAGTTCTATCACTCGCTGTCTTTTTAAATCATTTAGTGTGACTATATTTTACTCAAAT
ATATCCATCTACCAATTGTGTTTGTTCCAAACCCTGGTGACTGTATCTTCATCACTCACTCTATTCCTAAATTCCAGATTAAAGAATTATTTTACCAACC
CGTCTCATGCAACTCAAGTCAACCAAATGTTACTTCCACATCCTTTCTCTATACGCCTTCCTAGACCCCTGAAATCTATTCAGGATAAGTGAAGTTTGCT
ATAAGGGACTGTCCACAATTTTCTTGTATAATTTTTGGGATTCCTAAATACTCCTTGAAAAAAAACATTGGAATATGAAGCTGAGAAGAAACTATGCACG
TAAGTATTACAAAACTAAAGTAGAATGTGCAGAAACAACTCCCTCCTAGAGAAGGAAGAAAGCTACAAAAGTGTTATGCCACTACTTGTGGAATATATCA
GCAATTATTCAATTCCATTGCTGCCCTTGGACCTGGGGGCAAAAATGTAGCTTTTCCTGTTCCAAGGGAAGAATGTTCTGTTACAATGGTAACCAGAAAC
AGGGAAGCCGACCAATTCTAGAGTTTACTCCGACAGTGTTTTCACTCTATGCAGTAACACTGCTTTATTGTTTGGCTCTGGTAGCTGAGAGAACAATCTC
CCACTCCCTAGGTGAGACTATTCTTTTATAGGAACTATTCTTTTAGATAAAACAACCAATGAGCTTTTAAATGCTGAGAAAACTAATCAGAACTGAAAGG
GGGTGCCGTTGGCCACAGCTCAAGAAATATGCTGACTAAGATAAAAGCCCCTTCTGAATTTTTCTCCATCCCATCTTCCTTTGCTTTCTCATCTCCCTTC
CTTTTCTCTACGTTTTCTCTTTTCTCTTTCTCCTCTTGTCATTCTCTCAGCTCTATCTCCACAATCTTCCCTTTCTCCTCTCCTCAGCCCCAGCTCTATC
ACCAAAGATTTCATTTTGCACACTCTTTTTACTGGCCAAAGTGTGGACCTGAATTTTTTAAATGTATTTTCTTATATAGTAGATAAGATTCACATCTCTG
GATTTAATTTAAAAAATAGACAAAGTGGTGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGTCCAGGCGGGCGGATCACCTGAGGTCAGGAGTGCGAGA
CCAGACAGGCCAACGTGGCGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAAGCGTGGTGGTGGGCACCTGTAATCCCAGCTACTTGGGAGGCTG
AGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTAAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCRTCTCAA
AGAAAAAGAAAAGAAAAGAAACAAGGTGAACATGTTTTATTCACTAGTTGCTTTTTTTTCTTTAAAGAAATACATCTGTTTGAAAAATCTTAATTTCAGT
TTCAAGCAACAAACAACTTCAGTCCATTTCAGAGTGCTAACGTTGGAATCTGGTTCCAGAATCTTTGCAGAGTGTGGGTGGGCACAGGTKCATGTGGCTC
CTTTGGCCATAAGAATCTGCTGCTTCCCAGCCTCATGACTGGGCCTGGAGTCACACTCCTGCTTCAGCTGTTCTTTGGCAAAGCAGGGCCAGAATGAACT
GGTCTTTAACATTCATATATTGCTTTCAACTTCTATGAGGCTTTCATTTCAATTCCTTTTCTTCTGTGAGGGACAGGCCTTCCTTGGGAAGAAAGGTCAC
CCCTTGAGTCTGACATGCTCTGCAGTCARTTTGAGAAGCCTTTTGGTTAATTTTGGACAAGTCAAGCCTGGTGGTGGAATTCGGTCCCATTTAGCATTCT
GCCAGCTAGGAAGCGTGCTATCTCGATCATCTTCCCAAGACAGTCATGCGGGAAGGTCTTTTCGCTAACAAGAAACACAATCCAAAGTAAAGACAGCTTT
TGTGGAAATTGCAAACTACTCATCCAGTGGTCAGTTGTAAATCATGATTCTTTTGGAAAGAAAGGGAGACAGGCTGGGGCTCTGGCCCTCAAAGAACTTC
CTCTCATTAAACCAAAGCAATTTGCTGCTCTCCCCAGGCTCTTTCTGTGCGTAAATTCACCTACTTTTCCCGCCACCATCAGTGGTCCTGGTGCTGCTGG
TGAATGGGCATCATGGGGAGACAGGGCTTTCCACGTGATAGARGTTTCTTTCCAAACCCAGGCTTTACAGGTAGATCCAAGGGTGGCTTTCGTCAGCCTG
TTGCCCCCACTGCCCAACACACACTTTGCTTTTTGCTGCTATTTTCTGCGGTCCTGGGTTTCTAAATCTTGGCAAGAGGACAGTCATTCCTTTGTGCTCG
GCTGTTACAATGAGGTAGCCAGAGAAAGGGTCTTGGTCTGAGGCTGTCAGCTGTTACTAATCACGACTCCCCGGCCCATGGTGGGTCCCGCTCGCCTCTC
CCTCTTGCTCTGCTTAGCACACATAAAGAAGATGAATTACTCTCTGGTTCCTCTTCAAAAAAGCATATTGTGCGGCACATTCCAATACAGTGAGCGAAGG
ATGGGCTCATGTGAAGGGTAAATGGGTATCCAAATCACCTCGCAGCGGGGCTCGCGCCGGCAGCTGTGGGCCTCTGAGAAGTGAATTTCGGAGCTGCCCC
TTCTGAGAGTTTCCGGCGACCTCGCTGAGAGTGAGAGGAAGTCCCTGCGGTGGGCCCTCTGGCAAACCACATAYTGGGAAGATCGCGGGACTGTGTTAAG
CTGTCATGAGAGTCAATTGAATGGTCAAGACCAGCGTAGACAGAAATAAAGCTTGACCACTCAGAGGCCGCCATGGGCTGCTTACCCGGGAGAGGCAGTC
TCCACCCCAAAGGTTAAGCCAAAGGGCGCTAGAAGTTCTTTGATGTTAGAAGTAGCAGTGGTGGAAGTTGTGCCTCAGTTTCCTCTCATTGCTTCCGAAT
TAAAGTTCATCCTCAAAGGACGACTGTAGCCAGAGAAAAGGGATTGTCTGCTTAGTCCTATCAGACCGAGGATACAGTGATTTAGTTGACTTTTTCTGCC
ACTAATAATACTGTCTTCGCCACTGATTTTTTTCTACTTAACAATCTTTCAAAAGAGAATGTTTCTCTTTTGCTTTTCTACACTTCATTTTCTTTTCTTG
TTTGTTTGTTTTTGTTTTTAGAGACGGAGTCTCGCTCTGTCCCCCAGGCTGGAGTGCAGTAGCGTGATCTCTGCTCCCTGCAACCTCCGCTTCCCAGGTT
CGAGCAATTCTCCTGCCTCAGCCTCTCGGGTAGCTGGGATTACAGGCATGCTCCACCACGCCCGGCATTTTTTTTTTTTTTTTTTTTTTTTTGTATTTTT
TGTATTTTTAGTAGAGACGGGGTCCCCATGTTGGCCAGGCTGGTCCCGAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTACTGGGAT
TATAGGCGTGAGCCACCGCGCCCGGCCCTGCACTTKGTTTTCTTAAGGAACACTAGAGCTTGAAGAAAAAGACGTGTTGACAAGTTTTAAGGGTCAAATT
TAAAAATCAGTTTCCCTGATAAAGTATGTGCCATCACACGTGGCAAATCTGTAAGGAACACTTGGTGTTTTCATGTAATGTAATCTTATAAGGCTAAGCT
GTGTTATAGGCTAATAAAATGTCATTTGTGATATTATAAACAGCCATAATGAGAAGGAACCTTTGACCAGGGTGAAAACCCGTGTGAAAATGCTTGTGAC
TGTGAATTCTGCAAAATCGTTCTCCGCTCTTCATGGAGATGGTTTCATTCTCTTCACCAAGAATCACTGATAAAAGTAAATTGCCTTCTTTGCTCAAAAT
TCCGTGAAGTGAACCTTTCTAAAATGTATTCCCTTGTTACAATGTCCATAAAATTTCTGTTCAAGTGAAATGACCCAATACCCAAGGTCACTATCCTCAT
TCTGTGGTCTCCACTAGTGAGATGAAGCAAGTTCTTGGGTATGGTGGACAGCCCAAGATCATAGGAAACAAAGATGGTAGGAAGGGAAGACAATAAATAG
TTCATGGTTCCTTTTTGTTGCTGTTGTTGTTGTTTTTAGACAGAGTTTCGCTCTTTTTTGCCCAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTGCA
ACCTCTGCCTCCCAGGTTCGAGGGATTCTCCTGCCTCAGCCTCCCAACTAGCTGGGATTACAGGCGTGCACCACCACACCTAGCTAATTTTGTATTTTTA
GTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCCAGTGATCCACCCTCCTCGGCCTCCCAAAGTGCTGGAATTACAGGTT
TGAGCCACCATGCCCGGCCCATGGCTCCTTTTTAAAGCCTCTACTATTAACCAAATGGGGGTTTATGCCAGTGTTTACAAACATTTTTTTTTTTACCAGA
AACTACAATAATAAATATATTTTGTATTGCAACCTGGCACTCACACACATACACACAGAGAGCTGAAAAAAAATTCTCACAAAACAATACTTACCTTTAC
CACATGTGACACACTGTGATATTTTCTATTCACTTTGATTAATTGATGAAAATACTAGTTATGACCTACTAAATTGACTTCATGAAGGCACACATTTAGA
CCACAGGCCTCTCTTTCATTCCCTTCTCTGCATTTCTATTTTAATTTACTCATTCATTCACCTGTTAACATATGGACAGATAGAGCTATAGCAGTTACTT
CTATAGGCTCATCTGCAAGAGGGAAATATGTTAGCAAAACAGGGAAAATAATACAGGTGTGCCAGAGAGAAGGCAAAGGAAGGGAAAGCAATAGGGTGCC
CATTCCATGGTGGTGAGTAATAAGTGGAAGTTTTCCAGCCTCCTGGCCTTCCTGAGCAGCTTAGGGCCACCTTGCCGGGAACTCATTCCCAGCTCTGGAA
ATGAAACTCCGGGTGCCGCTGGGTTTGCATTGACACTCTTTCCCCACAAGGTTTGTCTCTTGTTGTTCCAGACAGAATGAACCTCATTATTTTGGATTAA
TTGGGGGAAGATCAACCAAAATTAGTGAGTCAGAAYTAAAGAGTGTTTTAAACAAAAGCAACTTTAGAATTTGTAATTCATATAGTAACCCAATCTAAGT
GTTAGAAAAAAAAAAAAAGCATGTGGCCTCTATCCAGCATAGCAACAAAAACACTAATAAGAATGGCTGGTTATTCAAAAAAATGATTATTGAGCCCCTC
TATGTGCAGACACTATGCTAGGCACTGAGGCCACTGCAATGAATAAAACAGATGGTCCCGCTCTCTTGGCACTAAAATTCTGGTAGCAGGAGACACAGAA
TGAACAAAACTGTCCTTTATCAAGGACCTACTTTGTACCCTGTAAATATGTTTTCTCTAATCTTGCAATGTAGATATTGTTAGTGTATTTTCTACATCAG
AAGTAAGGCTTAGAGGTGAAATAATGCTTTGTGAACAGCTTGTTTATTATGTACCTGTTTAATAAGTAATAATAACACCTAACATTTGTTGAATGCTTAC
CACGTGCTGAACACTACTTTAAGTGCTTTCTATATGGAAGCCCCTTTAATGCCAGTGAAAACCCTATGAGGGAGCTTCTATTTTTCACATTCCACAGAGG
AGGAAASTGAGGCTTGGAGAAGCCACATGGTACCAGAGCCAAAAGTAGAATCCAGGTATTCTAACGTCAGAGTCTGAACTCTTAACCACTGTGCCACTGT
CTCTTAGATTACATTCCGAGGCTATCACTGGCTTACTAACTGTGATGCAAAATTGTGACATAATCATTCTTTACCAACAATTTGGAATCTAACTTTTAAT
GATTTGTCTTCGGTTCCAGAACCCTTAGAATCATAGCACTTTGCAGTGTTTTTAYAAGCTAGTCTATAAAGGGGCCAGAAGAAAATATTTTTGCACAGAA
AAACAATATAGTTCTAGAGAGAGATTTGAAGTGACTTTCTTTGTGCTCCCTCCCCACCCCTCACTGCCTTTCCTGGGTGAGTTTTTTCACCCTCCTCCTC
ACTCTCTTCCTAGGATGGCAGTGTACCCTGGACTCAGCAGTGGGCAGCTGCCTAGGACACACGGCCCCATTTTTCAATCTGTAATTATGAAGTATATTGT
ATTTTTAGAGTTTGATTTTCTTATTAAAAAAACTTATATTCACATGAATATGGTACATATTAGCACTCATCCTTGCTTTCCTTGTAAGTTTGCCCATCTT
GAAATTCTAGGAGGGTTGAGAACAGGCGTCTTTCATTAGATGCGTGTATGAGAAACTCATTGTGGAGAAGGGGTACATCTAAAATAAAATAAAAACTGAA
ACAGAACAATCTTCTTGAATCAGCAGTTGCCATCACTCTTTTCTTTCCTTCTGGACCTGTTCCAGTGGCCCTGGAAGAACAATGAAACATCATGGGGATA
AGTGGGAAGACAATTCAAAACAGAAGACTACTTCTCTAGATTTTGTGTTTCAAAACCAGAGATGGGAATTGTTGAGGGGAGTACACTGATACATGTTAAT
GTCCAAGTCACAGATTTTCAGCAGACAGGAGAATAAAATCCATGCCAATGATGGAAACTTGGGAACTTGGCACATTTTATGTTGTCCTTTAATACTTGAC
TGAATGTATATTTTATTTATCCAAGAAGTCATATTAATTATTATACCATAAGAGATCTAATTTACCATATAGACTTACAGAGTACCACATACACATTTCC
AAAACATTCCCTCTCTGCCCCCTAAAATCCCATGAATTTGGTGCATATTTGTTGTGACAAATCAATTGCCAAAAGACTGTCTTTATAATTACCTATTTGC
TCAAGAAACTCCCTTCCTTTCCTCTCTCTTCCATGTGATTACTGCCTAAAATACTCAGGTGTTTGAAGCAAAGTTTTAATCTTTTACTTTCTAGAAAGCA
TCTTATTCAGTCTCCTTCTGATGCTTAACTCATTGTTGAACAGAAATAGGTTTGGAGAAATGATTGCTTGCTTGATAAGTGGTTATTTATGGGTAGACTT
GTAGAAAAGAAAATAAGACTCAAGTGCTCACAGCAGCCAGCAAATATCCACGGCTCTCCACCCTCCATTAAACATGCTCTGGGCTGTTTTTCTAGGAATG
GTGAAGAATTTGCACTGATATTATCAGCTCTCTAGCTAGTCCTTCTGGTGACCAGTGTTAATCAGCTTGATCTTAAAGTAGGTTTAGGGAATACTGAGTA
ATGGGACAGAGATTTTTCACAATTATATTCCTCCACAGAATTATCTTCAAGCCAAGTGGCTCATCTTAGCAATTAACTCAAATGCAAGAAAGTTAGAGAA
AGTCAGCATGGATAACAAGCAAATGAAACATGGGTGACTCCTGGCTTGTCCATAAAAAGAGACGTATAGCAGTAAGAATACTCTCTTGGAAATGTGGGTT
CAAATCCTGCCACTGTCATTTATTAGCTGTGCAATGCCGGGCAAGTTATTTAACTTCTCTGGTCTCTTGTTTCTTCACCTATAATATAGTATCAACAATA
TCTGCATTATACAATTGTCATGGAATTAAATGACCATTACCATCAATCAAAGATAGGACTTAGCGAGTGAGTCTTTGGACCACATAAAAGTTAACTCAAA
ATGTACAAAACACACACACAAATGTGTCATTGTAAGTGAAAGAGCCATCATGGTACTTATAACAATAGTACAATACAGTATTTCTTTGGATTTCAGGGGG
GTCTTGATTCTGAAGGCAGGTTGTTTTCATAATAAAGATGTCATGATGTCTTGAATTGGGCTAGTTTAGCTAAGCCCAGATCAAATGAAGAAAAAGAAAC
TAGTCRAGATCATTATCTTTACCACTTGCTCTGGAATGTGTTTCTCAAATATGTATTTAGATGAATGCATGGCTGTCGYAACACACTCCCACAATTACCT
ACATACCAAAGTAACTTCCCGTCTCCCCATCACCCCAGTGCCCTTTTCTCCCATATATTTTAAAGTGATAAGGCTCAATGTAAACTTCCTCCTTCCCAAA
CGTTTAGGGCAGTTCCTGCCAAAGTGCCCCATTCTACAAAGTGATTTAGTACTTTAACCTTGCTCCAGACACTCTGACATCTCTGTTTAGTCTCTGGTGT
AAAAAGGTTCGTCTCTCATATTTCTTGAGGTTGGGGAAAGGAAATGGTCACAGAGTTTAGGTGAGSGTGGGAAAGTGATGCCCTGCTCATTTGGGGTTTT
GTCTTCCAGAGTTCTTCCTCCATTTTCCTGATGCCACCAGTATTAAGGCCATTGTGTGTGAACAGATTGCACACATCTGTCCTGCTGTTGCCCTGATGAC
AGTGTACTGCCTTGTTCCTGGTGGTCTCATTTGTTTTACAAGCTAGGGTACCTGGAACAGAGGTGGTCAAGTAACTCTGTGTGGGACTTCGATCCTCCTT
TAAGGGAAGGACCTACATGGAGATGTGATTAATGAATATACCTCCCTTACCTTTCTTGGCTGAAAGAATAGCAGCTGTTACTTTATTCTCTTTCAAAGGA
TAAGGGCCAATATGCAGAGGTGAGTGAGGCCTCTCATTTGATGATTGAATCTCCTTCTGTGCTTTTTGGGAAAAAATGCCTTGATGGTTGTCTTCAGCTA
TTTAGAATTAGAAAGTATGAAGAAAATGTTTTCATATTGGTTTTTACTTTAAACATTTTTTAAAAACCTATGAACTTTATTTTCTAGAGTCGACAGCCCT
GTAGCCGTGGGTATTGGGATAACTTTCCCTATCCCTCTCCCTATGGTGTGAGAAGGGACATTAAACCTCATCCTTTGTTTGCCACTTTGGTTTCCAGTGC
TCTGCCTTGACCACTTAGCACTCTCTCCGAATAGCTGTAGGTCGAGAATAGTGGGCAGGAGCATCAGAGAAGAGTTGGCGTGAGAACGGAACAGCACCAC
AAAATAGAAGGCGAGAGGGAAAAAAGCATCTCGGAGGAAGAAAATACTGCCGCCTGGTACTCCCTGGTACCCAGAGATATCCGGCGTATTGTGCTTACAC
TACTCGCCGGTTCCACAGGGAGAGAGCCGGAAGAATTGCAGGCTTTGGTGGTGACAAGTTCAGGCACTCATGGGAAAGAGAGTGGGCCCCTTTCTGAGAG
AAATCATTTTGAGCACAGCCAAGCCAAGATATTTTGAGATGTGATTCAGACCTGAGAATGAAACTGCGGGGGGATGGGATACTTCGGTTGGGAACAGATT
AGCCCATTTTTAACATAGTTGAAATGTTGAAGTGGTGCCATCCTAACAAATGAATACTTAGCCCCGGGTTTCGAGAAAGTGGCCAAGGATAAAAGAGGCT
AAGTGCATGGCATCAAAGCCAAAGCTGGCCTCCTTATCTGTGGGAGCTGCAGYTGGTTTTCTCAGAGGCAGAAAGTACACTGAACCTAGTTACATAAGAC
CCGAGTTCAAGTTCCCACTCCATTCCACTTGGTGTTAAGTCCTTTAAACTGTTACTTAACTGCTTTATAATCTGCATTATAGGTTGTTAAAAATAAGAAC
ATATGAAATACTAAGGGCTTATAATGAAAATTATAAGTGATACGATTCAAATACGAATGAAATTATAAATTGAAGGTCATGGCTTCAATTTCCACTTAAG
CTAATTACCTTTGTATTAAGATTTTTGAGCAAACCCARCCAGTTATCTGGCAATCGTAGACACCATTTTAATCAGTACTTTACCTTCTAAATATGCAAAT
ATTTAGAGTTCACACAAACTCTAAATATGTTCATGTGAACAGGGCCACTACCTGAATATTAAACCACCATTAGAATCTGATACTCGTCATTGAAATACAG
CATAACCTTTTAATACATTTGTGGAAACACCATTTTAAATTGTTAAAAAAAAAAAAAACTCAATTAACTGTAATTGGATTACACTATAATTGGATTTTAG
TGGGATTGGGGAGGATAAAGAATGAAGAAAAGTGAAGATACAGCTAATAAAACAGAAGAGCTCATATTAATATAGATAATTTAATCTTTTGAGAGTTTTT
TGTCTTTTCCAATAGTTTTTCAGCCCAAAAAGCATGGAACTGTGTTCCATTAGCTACAGCCTTTAGGAAAACCTTAAAAGTCATGCCTCCTTTTTTCTCT
AGGATGACACCTTGCCTGAGGCAGACTTTGAAGATGTTCTGAAAATGAGGGAAAGAGGGATATTTAGCATGAGATGAGGCATCTCAGACCTGTGGGACAA
AGTAGAGGAAGACAGGGTACAAGAATGAGAACTGTGCCATGATAATTTTTAAAAATTCTTTGATTGGATGAGATGAAATAATAGCAGAGAAACTATTTGA
GAACCTTATAAGCCAATGTCTACTTTAAATGCAAATTGAAGATAGATCACCAGGTGATCAGAATAATAGCTTAAATTGTACATTAAAACATCAAAAAAGA
ATCCCAAATACATATATAAAATAATTCTTTTGAAAGAATTTAAYGGCAGTTAATCTGTGTGTGAATCACCAGAGTGCTTGAACTTGAGGTAAACTTAGAT
TATCCTGCCAGAAAAATGTTTTAAGTATTTATTTACACACACATGCACACAGGCACACTCACACACGCACTACTCACACTCATAGCTTCCCCAACTAACA
GTAACCTAGGAAACAATCTGATTGCACTTTTGGACCATTAGAGAACAGTATTGATTTGGCCATGTGAAATCAACTCTTGGGGCAGAAAATGAGTGACTGC
ATGTTCACTGACACTGCTGATGCCTCACCATTCTAGCCTCGGCCTTTTCCCTTCACCTTGTGAGATTTGGGGCCAGGTTCTCACAACAYGTACGAAATCC
CATGGCTGGGTGGGATAAGGGTAGGGGAGTATAAAGGAAATGCTGTTCCCATTGTTTTCCACTGGAGAATTCCCTGGACTGACTTCCTGAAAATCTTCTG
TTTGCCTCCACCAGGAATGGCGGCGCTAGATAGTAARGCATCAGGGAAGATGGGAATGCGAGCTGTAGTCTATTATATGACTACCACCATCATTGCTGTG
GTGATTGGCATAATCATTGTCATCATCATCCATCCTGGGAAGGGCACAAAGGAAAACATGCACAGAGAAGGCAAAATTGTACGAGTGACAGCTGCAGATG
CCTTCCTGGACTTGATCAGGTATGTCCTTGCAAGCCCGTCCTTTGGGGTGTATTTTCGCCATCCAGACCCTCTTACTGGTTACTATTCAAACCCTGGAAG
GGGTGTGTGACTGAACCAGCCTTGCCAGGCTTGAAATGAAGGTCATATATCTTTACCTCTTTCTTATAGAAATTGAAGAAAGGATCCATTTTCTGATCTT
GTATGAGAGAGGCGAAAAGAGCAAGGAGAGGATATGGATTTTGAGAGCCTTGCTTTTCGGATTCAGAATCTGGTCACTGACCTCTCTCAACTATGCAGCT
CACCTTGGAATTTTAATAATTCTTAACCTATTTTTCTTAACTGCTGTTCTTTAAGGCTAATTTTTATTCAAGTATGCCCTATTCTTTGGACCCTTCTGAT
TTTGAACTTGTGATCAGTATCATTGCCCACTATGCACAACGCATTATACACAGTTTGGTTCCAGAGGGACTTTAGAGATCATCTTGTCAAACCTGTCCCA
AGGTTTTCCTTTCATRATGTTTATGGAGAAAGAATTTGGCAGGTCTGTAATAAAAGAATAAAGGATGGCTTCTTTAGCATTGTTTTACATACAAACCATA
CGTTGATTACAAATGAGTTTTATCTACTACTTGAAGCAGACTTGGTAATAGAGTCAGCCTTATGTAGAACTGTGAAGTAAGCCAAAATCCAATCCCAGCA
CCTTCCTGCTTCCTCTCCCCTACACACCTGCCCTTGCTCAGTCAGGTCCTGGCAGGAAGCATACCACATACTCTAAAGGAACCTTGAAGAAGGTTTGCCA
AGGTGCGGGCAGCCTTAAAGGAACCTACAAACGATGGTAAGGCCTCAAAGCCCTAACAGTAAGAAACTATTTTGTTAACACCCTTAGCTATGAAGGAGCA
AAGGGAACCCAGAAAGAGCTATAGCCTYGGGAGGGAAGGGCCTCAGGAGCCCTAAATGGAGGAAGGGAGCTGCCACAAAATCTGTCAAAGAGAGCTCTGG
GAGAATATAGACTCCCTCTGCCCTGTGATCTGTCAGTGCATGTCACTAGACAAACCTAATAGGAGTAGGAAGCCAGAGGGCAAGAGAACCCATGTGTTGT
GGTCCATAGAGGCCTGGATCCCAGGGCATAGACAGAGTGGAGAGTGAATCTAGAATGACAAAGGAAAGATATCTCAGCATAGGCTCTAGATGCCCCATCT
GCTCAGCATTCCCCCACTGTTTAGTCCCTCCCAGCCTGTCTTCCCAAAGACTAGCTCTTTCCTCCCAGCTTTTCAGCTAACTTACCTGCAGAGTGATTGG
GCTGCCAATTATAGATACCTGTCTAAAGGGCCCATTCCCCATTGATCTTCTGAAGGAAATTCCTCTATGCCATCTYAAGGAATGGGGCTGTGGCAGGTAA
AGCCAAGAGAGATTTGGGGAGCAGAGGGTACCTTCAGCAGCACCTCTCAATTCCCACCATGGGTGACTTTGCACCATCTCTATGTATGTAAACACTACCC
AAGGGGCCTCTTCTTGAAAGTCCTTTTTCAGGGAGTTAATCACAATGATCTGCAGGTATCAAGCCACCCTATAACATTATTTCATACCAAGTTGACATTC
AATAGCTATGTTTTTATTTAGTTCATACARTTAATTAAGGCTTTTCACCATTTCTGCATGAACTTTACCCTCAGATAGTTTAGATTAGAAGTATTTTATT
ATATTACATTTTCTTTCCCTGTAATTTTTATTCCTTGTTTGAAGAATTGGAATCTTGTCATCCCCAGTCTGGTTGATCCATCAGAAGACTGTGTTTCTGC
CCTGCCTTGCTGCAGTGAAAAATGTATCCTGCCTACAACCAATCACTTGGTTTGAACATTTATCCTGGAATCTCCTGAATGCATATTTCTATCAAGGTTG
ATAGCAACAACCTCATAGAGYRTAGATAGGAAGGAAAAGAAAACAGGATGATCTAGTAGGAAGAAAGGGACAAGCATTTATAATACTAAAATATAACTTT
GATAACGTGCAACTGCTGGATTCTTGAGCCTGTGATAACTGCTGGATCATTTCTCCTTCTCCCATAGTCTTTCATCTTGGAGCTCTAATGATAGTTTAAT
CCAATCTCCTCTTTAAGAGATGAGTCAAATGAGACATAAATGGGTGCCATGACTTGGCCAGTGTCACACAGCTGATGACAGACTTCCCAGCCAGAGTGTT
GTCCCTCACTCTACCCCCTACAAACACAAACAGTGCTTTGACAAAGTCTCTGAAGAAGTAACAAGTCCTGCCACATGGGCTTCAAGTTCAAATTTTGCAG
GTCATCTCTCCATTGGCTACCAAAGAGTTGCAGAAGCTTTAGCAATTCAGTGCCAAAACCCCATTCCCCAGAACGCCTTTGGGAGGCTTTTCTGGAGAAC
AAAATTCCATAGGCTGACCATGGCTTTTGATTCAGAACATTTGGTTCCTAGACACATGGCACAATAACCAAAATGACCACTGCTAAACAATACCTTAGTT
AGCCAGAAAGCTAATGATAAAAGTCATTTCCAGTCTTACTTTGATTATTCCTAGTAGCAGGGTTTTTAATAATATAATGGCTGAGTGAAGAACCCYATTG
GCTGACAAGAGGATAAATGAGTCAAGTTTGGACTCCCCTGAAAATATGAACTACATGGGCCACACTTAGGGAGGACCATATATTCTTTTCAAGCTGTAAA
ATCCACTAACATTTTTGTTTTTCCATTTGTTGCTTGGTTCAATGCAATCTTTACCTTACACAYAATGAAACAGAATTTAAGGAGCAAACTTATTACTTGG
AAAATTTTGCAAGTGACTATTACTTTCTTTGCAGGAACATGTTCCCTCCAAATCTGGTAGAAGCCTGCTTTAAACAGGTAAACACTCTACAGACATTAAC
TTGCCTTTTAAATTCCTCTTTTCTATACCAAACCAAGTGGGACCCTCTTTTCCCTGCTCATTTCTCTGCTATAAGAAACACTTCTCTTGTCAACCAGATT
AAAAACACTAGCRTTTTCTAGGAATTTTGGGGGGAAAGGATGGTTCTTACCTTGTATTGAAAGCTTAGTAGTTGTCAGACACAGTGTGTCTTGCATACAA
ATATCTCATTGAGTCTGCTATTGTTAAGAAGGCTAATCACAAGACCCCCCCTTCCTATCACCCAACTCCCCACTGGCAAAAGCCCACCAACCAAACAAAC
ATCAATATAAAATATATTTATAACTTGCCTTAAAGAAGATTAGAGAGATTATTTAGATTTCTGGGTTTGATTTAAATATCAATGGACTGTTTTTTTTTTC
AAGTCTACCAAGCACCTAATGGACTCTAAAGGAGAGCCAAAGCAGAAAGGAATGGCATCATCATTCATGGAAATCCTGCTATATGCCAAGCACTAACATT
ATTTTTAGTCCTCACATAAATACTATAAATATCATTGTCTTCATTTCACTGATGGGGCAGCTCATCTATAAGACTCAAAGCAATTATGTATCGTGCACAA
ATTCTCACAAGTAGTAAGTGGGAAGACTCGGAATTCAAATTCATTGTGTTGACTCCAAATTCTATCTGCTTTCTGCTACTCCATTCTGCTTCCATGAAAG
GAATATTCAGGGCGATGAGACACCGACCTGGAGGCTATACTGAGGTCCAGCTCCTTTTAGCTCATATACAAGCAACTCTTGGCTCTGTGTTGCAGATACA
AATACCTTTTACCATTAGAAGATAAAAGCTCACTTTAACCTCACTTGAATATAAGAGCTTTGTTGCCTAAAATATTAAAAGGRAAACAGACACTCTTGGT
TAAATAATATTTCCCAAACATTTCTCCAGATGGTGTCAATTCACTCCTGTTGTAATTCCCTAACGCTTCTGCTTAGGATCTGTAAAACAAACCAAACAAA
ACCCCAACCTAGTAGAAGACTGGATTTTACACATATAAGTCTCCCTTTGTTTTTTTTCCCCTTGTAATAATTTTTAAGACTATTTTTAATATGTAATGCA
TGCACACATTGAAACATTCAAACCAAATTCTTTCTTTAAAAAAAAAAAATAAGCCTGAGGCCAAAATCTAACTTTCTTTGTTCAAAAACAACTATAACTA
TAAATAATAAGCGCCTTTCAATCCAACCAGCCAACTCTAGCACCATGGGGCTGACGATTCCAGTAAGTCAGCTGGCCCTGTGTGATATCAAAAATGCTGA
TTTCCAGATCCTTCAGATGGAAAAAGTGCTGACTTGTACAGATTGATTGTGTTTGATTTGGATTTGCATTCACAGGATTTTGAAGGGAAAGAAAATGTTT
CTCCCCAGGTCTAGTTGGCTTAGACCAGGATGCAAACAAGGTTGCAGTTTCTGTGCATGCTGCAAACAGAGTCTAAGGGGAAYGAGTTAGAGGCATAAGA
AAGCCTGATCAGGATTGAAAATCTGCCCTGGACAATCCATAAAATGCATAAGGACCCAACGGAATAAAGAAATTTGAGAGTTGGTTGGAATAGATGAATG
GGGCCAATTTTTTTGTTGCTTGAAATTACCAGTGCTACTAACTGTTCATGAATGTGTCCATAGTATTGACAGCTGGCCATGGCTTTGTTTGGGAGTAGTT
GTTTCCCAGTGGATAAGAAACTTTTCCATTAACCCTTGGTAAAGAAATGACCAAGCACTTCATATACAGCAGCACTTTCTTCCCCTAGACTCTAGATTCA
CTCACCATCACTCACCATTATTACTCTCACTGGTGCTTTCCCTACAATCACCATCAAGATCAGGAATTCTATTCTCATTAAAATCACAGAGGGATGAGTT
TACTTGTTTCATGTGGCCAGCATCTCCTGACTGGGGCATCTATGYAGAAACTGAATAGATGATGGGAAAAAGACCATCTCTTGAGTTAGAAGAGAAACCC
CACTATAGACTTGGAGAAGATGAGCTGTCATCACCAACTATTAATCAGGCACCTATTCTTAAGAACTAATAACATCAAGAATGGCTTGGAAACAGCTTGT
TTAGGGATTTTTAATTTGTAATACCCACTGAAATCTCTAAACAGGTCTAATCCCTRAAGGGCTTTTTCATTGAGCACCATTAGCAGAAATTAGTACAATA
CTTTAAAATTTGCAAGATGTTCTCCTATATTCTGTTTAATTTGATTATCACAACAACACTGTGAGGTAGAACCAGCACAACTGTTCTTGTTTCACAGCTG
TAGAATRTGAGAGAAAGGATACCAGGTGATTTATCTATTATACCATAGCAYGATCCCCACAGAAAAGAAAAGGACTATTGTGAATATTTGGGTTTATGGT
TTTAAAAAAATCCCATTATAGTCATTTTATTAGGGTTTCAGAAGAAAGCAAAAGCACATGCATGTGTTTAGTCCAGCATCTTTAGCTGGATATCTCTTTC
CTGTTATCATTTGTTATGTATTTGAGTGTGTGTATGTGTGTGTGTGTGTGTGTCATGATTTGTATGTATTTCAGTATGTGTTTCTGTCTGTCTGTGTTGA
GAAACTAGTAGGGGTTTGCCACAGATTAAAGAGAGAGAGAGACTTTCTATAACACTCATCTCTGAATACAAAGTAACAGAGTAACAGTAATCATTTTAGA
AAATTTGACAATAGGAAAATATAAAGAAAAAAATAAAAATCACYTTTAATCCTCGTTGTGCTTTTTATTTTTAAGTTTAAAACCAACTATGAGAAGAGAA
GCTTTAAAGTGCCCATCCAGGCCAACGAAACGCTTGTGGGTGCTGTGATAAACAATGTGTCTGASGCCATGGAGACTCTTACCCGAATCACAGAGGAGCT
GGTCCCAGTTCCAGGATCTGTGAATGGAGTCAATGCCCTGGGTCTAGTTGTCTTCTCCATGTGCTTCGGTTTTGTGATTGGAAACATGAAGGAACAGGGG
CAGGCCCTGAGAGAGTTCTTTGATTCTCTTAACGAAGCCATCATGAGACTGGTAGCAGTAATAATGTGGTATGTATTTCCATTTTCTATATATGTTATAT
ACGAGATGGTTATTGCCATCAACATGTGTTCTGTACTGAGGAAGGTGCCACGAGGCAGGATGGCCAATTGCAGTTATCTCACTCTGGTAAGCCCAGGAAA
ATCAATGAATCTCTGGGCCTCTAGAGGCCTTGAACCTATCTGCAAGCCTCTTCTAATAAGTTTGCTTCCTTGTTTTCAAAAGCTGTCACCTCCTTTTACC
CCAGTGCTGATGGAATCTCATTCCTCATTTCTCCATTTTTTATCTAGTTTTTCATTCAAGACATAATTATTGAGTGTCTACTATATGCTAAGCATATAGT
GCCAGGCACTGTGGATATAGCAATAAAGAAAACATACAAGGATATTCCAGATCTTACACTCTTTTAAGGGAGACAGACAATAAACAAACAAATCAATCAA
CCATATGCTTTAGTCACAGGTGCTGTGGAAAAATAAAATAAAATTGCAGGTAACTAGGAGAAGGCACAAAGTTTGCCTTGGATGGTGCAGAAAGGCCTCT
GAGGAGGTGACGTACTTTGTTAAGACCTGAATGAACAGAGGAAGCAGTCATACCAAAGTGCCAGAAGAAGGGTGTTTCCAGTAAAGGGAAAAGCAAACGG
AGAGGCCCCCTAGGCCATCAGGAAAACTGAGGGCTCCTCATCTGTTTCAGCCCTAAGAAAGAAATGTAAATGGCAGTTCTGCTGCAATATCTAAAAGATT
CACAGGAAGTATTACAAAATGCCAAGCCACAATTTATAACAAAATTTGCTTTAATAAAGTTGACAGCAGGAGACAAAGGAAGAGACTATAAATGCAAGAG
GAACATTGACCTTGGAAAGTAAACTTTACCCAACGGGGAGAGAACGCTTTGATTGACCTARGCTTTGTGTGGAGGTTGCTTCTCTTTCATTCTTTATTTT
TAATCCAGTCTCCTCTGTGGTACCTGAGGCAGGAAAGCATCCATTGCTAAGAAAAGYACTCAGTCACCAACATGATTAAAAATGCCCTTGTCTTTAATGC
CAACAAAGCCCAGAGAAATCCATTTTTCAGGAATTTGTACAAGATGGATATGAACTTGGGCACAAAGACAGATCAGAATGTGGTCTCCACAGGAGCCCCC
ACTTGGAAGGCTCCTTTGAAACCCTGGCAGGAATRAAAGTGGACATTTATCTTCATATTATTAAATGCCTCCACCTTTCACCTCTTTTATGAAAGAAGCC
CATTCAAGGCCACTGAATGAAYCTCACATGCAGCTTGTCTAGCTGTACATTCGCCTGCACATTCAACGCTGAGTTATTATATTTCTGAAAACAGGTATTC
CTATGATTTCCTGGCCTGGGTTCTTAAAGGACTTTTGAAAGAAGCATTGTATTTTTCGATTTGAAACAAGTCCTCCATAGTTCCCAGGAGACCCTTCTTC
TTAAGTGTGATTGGCTTCTCTGTGTTTGGTAATGTGAGTTTGGTTGTAGTTTGCTGCACATATGAAACAAACAGAAGGGAAATCCAGGCAGCGAGGCCTT
TAAGCAAACTCTAGGTTATTTCAACATGTAGAAATCATTTTGAGTCTCAGTTTATTGTCTGCAGAAGGAAAGCTCATAAATGGCAGTAGCAGCCTGTGGG
GAATAATGACTTCATTAGAACACCTATAACCTGATTGCAGTAGTACATACATGCACATTATTAAGTTTAATAATGAATTTATTTTATGGACATCTTCTAW
TTATGGCAAGTGGTACTAGATTTCCATTTGTACTATAACATAGAATTTTCTCTTAAAGTAAATTTACTTAAGTAAAAAAGGTGATCTGAAGAATAATACT
AAGTAATCTTGTAAGTGGTATGAAGATATGGAAAGGCAATAATAAAAGTGGCCCTTGAATAAGAGAACTGACTGCAAACCTGAGACACTGGTGTAGCATC
GTGTGCCTCTTGCTTTAACTTGGGAATCAGGCTCTGATGTGGAAAATGCTTCCAAAAGTCTGGATATTGGTACAGTGGATTCCGGCTGTTCAGGACACTT
AGCAAGGGAGCAGGAGGCAGAGGGAGTGAGTGGCATCTGAGGACCAGAAAAGTGACCCCCATGTAGTGAAAGGAGGGCTGGCTAGGAAGACAGAGGTGGG
TATCAAAAGCTCTGTATCTGCCTTTTCCCCCAGGTCTAAGAGAAAAAYATTGTGTCCTAGAGCAATTCTCAGTGAGGGGAAAGCCCGATTCTGCAAGAAT
CAGGGGAAATTTATATTTACAAAAGAAAAAAAAGAAGTCCACAGTTTCTGTAAGAAAAGAAGTCCACAGTTTCTGTAAGTCCTAATGGTATCCTGGGCAG
GAAAGTTTGGCAGTCAACTCTCTTTTCCCTTTTTCTTATCACTTGGAAATTTCTGTGGACTAGCTTGGTGGAAACCAGACTCCAACCGTGCTGGTGTTGC
TTCTCCCCAGGTATGCCCCCGTGGGTATTCTCTTCCTGATTGCTGGGAAGATTGTGGAGATGGAAGACATGGGTGTGATTGGGGGGCAGCTTGCCATGTA
CACCGTGACTGTCATTGTTGGCTTACTCATTCACGCAGTCATCGTCTTGCCACTCCTCTACTTCTTGGTAACACGGAAAAACCCTTGGGTTTTTATTGGA
GGGTTGCTGCAAGCACTCATCACCGCTCTGGGGACCTCTTCAAGGTATGTATGTATGTGTGGAAAATGAGTCTGAAATGTTACCTTGAACCAGGGCCCCT
CAAGTAGGGTGTAGGAGAAGCCATTTTATTCTGAGTTTTAAACTTCCAAGAATGATGAGTTAGCTTTCTCATTTCTGATGTCAATCACACCTGTTTGGGA
TTCAGGRAATGCCTGGCTACATATCTTTTGTGGGGACAAATTGGAAATCAACTATCCTTTCCCGTCCACTTCATCTCTCTTTAGTTGACATTTGCCTGAG
GGAGAAGAGGCAGAGTGACTTGGCACAGGCTGTCGTGATGAGGGCATGATCACAAGTGATGCCTCACAGAGGAACCCAGAAGCAGGAGAGCTGCCAAATG
ACCCCGTGAGGGGACCACACTGTTCTTAACCTGCTCCCCTAYTTATACAATTGCTGACTTAGTTCCCTTTAAGTTAGAACATGGGAGAGGAAGGAACTGT
CTGTCCCAAAGACCAAACGCACAGACAGTCAGAACTACCAGGACACTCAGCTGATGTGCCCTATTTCACTGTTCTCAGTTCTGCCACCCTACCCATCACC
TTCAAGTGCCTGGAAGAGAACAATGGCGTGGACAAGCGCGTCACCAGATTCGTGCTCCCCGTAGGAGCCACCATTAACATGGATGGGACTGCCCTCTATG
AGGCTTTGGCTGCCATTTTCATTGCTCAAGTTAACAACTTTGAACTGAACTTCGGACAAATTATTACAATCAGGTACAAGGAAAGAGTTCTATAYACCCT
TTCTTAAGAATGYCTTTAAGGCTGGGCGTGGTGGCTCACGCCTGTAATCCTAACACTTTGGGAGGCCAAGGCGGGTGGATCTCCTGAGGCCAGGAGTTCA
AGACTAGCCTGGCAACATAGTGAAACCCTGTCTCCACTAAAAATACAAAAATTAGCCAGGCCTGGTGGCACGGGCCTGTGGTCCCAGCTACTTGGGAGGC
TGAAGCAGGAGAATTGCTTGAACCCGGAGGCAGAGATTGCAGGGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGGGACACAGCAAGACTCCATCTSA
AAAAAAAAAAAAAAAGAATGCCTTTAAAAGACAAGAGGATGACCAGGGTTGGGAAGGGGATCCCACATAATCAAGAGGTGGGGATTTGGGGTAATCATTC
TATATTTAGGTATTTTAATTGGTTTTTTTAGATTATAGATGTATACACTCATTAATAACAAGGTTCAAAAAATATAAATATGTATAAAGTAAAAAGGGAA
ACTTGCCTGCCATCACATCGCTCCACAWCCTTCTGTAAGTGACCATTGTTCATGTTTGGTTTGGAAAGACTTTTCCTATGCATAGACATGCACACACTTC
TTTTTTGTAGTTAGTGAAATCATACTATACATACATGTTTGCCTTTGATTGGTTTGCTTATTAATAGACCAATAAATATGTCTACTTCATCATTCTTTTT
AATGTCTGTAAAATACATAGTATGGATATTTCTCCTTTTTAAAAGTGTTAGATTATACTTCAATTTTTAAAAGCATTAAAATATGTTAGCTTGTATAGAT
ACYACTAGAAAATAAAAAGTTAGATGAACTTTTTCTCTTGGGTGAATTTTTAGACAGTGTAAGATAGATGACAGACCACACTGACAAGTAGTTCAAGAAT
CTGATTTTTGTGGAGAATTTTTTTTAACTATTATATTTGAGGTGTTCAGTGAAAAGTTATTTTCCTTTCCATACCTTCCCCCCATCTCTTAGTTTCCTTC
TGCAGAGGCAACCAGTGTTACCTGCAAGTTTCTTCTGCATCCTTCCAGAGATACGCCAGGCATACGCATGTGCATGTGCAAATATAATCCCTCCTTTTTG
CTTATTAAAAGTTATTTTGCACAAGGGACCCATGAGTCTAATGGCAATGGGACACTTTAAGCCTCACTATCCAGATCAGCCTCTGCTCTTCATTGTTGTG
GGGTTTTTTTTWAATTGTTATTAAAAGTACATTTTGGAGAGCAAACTAAGTCAGATTTGGGGGGATTTTTATCACTCAACATTTTGTTGTGAAATGCCCT
ACATATAGGGAAGTTGAAACAATATTATACCAACCATCCTCTACCAGATGGAAAAATTGCAAACGTTTTGCCATTTTTGCTTCTTCTTTCTCTTTCTCTG
CCATTATGACATTTCACCTGTACAAAATTCAGCATGCATCTCCTAAGAATAAGGATATTTTTCTACATAACCACAATAGTAAGAATCTTAAACATACTTC
CAGAATATCCAATCTATATTCAAATTTCCACAGTTGTCCCCCAAAACATGTCTTTTACAGATTTTACTTCCAGACCAAGTTCAAATCCACATTTATGGCC
TACATTTGGTGTCTTAGTTTCTTTTCATCTAATCAGTCACCACACATTTGTTGTTATGTTTATTTAGAAATAAGTTGTTAGACTCTGTGTATATGTTTTG
TGTTAGTAGAAAATGATAATAGTTGTAGTAGGATGCATCGGAGTAAAAAGGAAAAGGCTGATCAGGGCCAGAGGTCAATGACTGACCTGGGGGTTCTGGG
AACCTCAGGCCCAAAGTAGTTATAATGGGACTTAGGAGATCATTATCTCAGCTCACCTGTAACCTATACTTTGGCATATTGATTGAAAGGCTCTGGGTTA
TTAAAAAAAAAAGGTGACAGAGTTAAAAATAACAGTAACAGTGACAAGCAAGATAGAAATATATTTCTCTTTCATGCAGCACAGCTCTGCTCCACAAAGC
CTTCAAGGCTGATTGATAGGTGYTCTGTGGTATAAGAGACTAAGTCTCTAGGGTATTATCATTATCCAGGTGGTCCGGGATGACTCACCACCCCCAGATT
TTAGTCAGTCGGAAGTGGGGAGATGGTATACCCTGCAAGTTGCTCAGTACCTCCATGCATGTCTGACTGGCCAGAACTTAATCTAAGCTTCAAGGGAGGT
TGGGAAGTGTAGTCTTCATTCTGGGGAGCCATATACCAGCTAAAAGTCCCAGTATCTTAGAAGGGGACCAGTATGGGGACCATGAATACTTTCTGTGACA
GACTTAATACTTTATTAATACCACTTATAACCAGATAATACTTTACTATTTATAAAACATTTGCTTTGCAAGCCAGGTCTACACTGCCTTCATAAAAAGT
ATTTCTAATACTATAAAACTTTGTTCATAAATCATTTTGCTTTTGAATTAACTAAGCAAACCAAACTAAGAAACCAAATTTGATTCTTTTGACAACATTA
ATCATGAATGTTCAGTAACTTTACAACCCTCCACTTGGAYAGGGGAATTAYTAGAAACAAATTATTATTGTAACTCTACAGCATTTTAGACTTTGCCTTA
CAAAATACTTTCAGGGATGTTTAAAAGTGTATAGCTGCCAGTTTATTTAAAAACGACTAGAATAATAGGTCCAACTTCACAAGGGTCATTGTACGAGGAC
CAAATTAGATAAACCATGCTTAGTATATCAGAAGACACATAGTAAGCACATGATAAATATTAGTTAGCATGATGATTAGTTCAATTTTTTTTTTTTTAAT
CTCATTTACGGGCCAGGCATGATGGCTCATGCCGGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGGTCAAGAGTTCGAGACTAACC
TGGCTAACATGGTGAAATCCTGCTCTACTAAAAACACGAATATTAGTCGAGTGTGGGGGCATGAASCTGTATTCCCAGCTACTCAGGGGACTGAGGCACG
AGAATCACTTGAACCCAGGAGGAAGAGGTTTCAGTGAGCCTAGTTTGCACCACTGCACTCCAGCCTGGGCAACAGAGTGAGATACTGTTTCAAAAAAAAA
AAAAATCTCATTTACGTTTTTTCTGAAGCGCGTCCTCTTGTGTTACATGGCAAGTCAGGCATCGGCACCGTGCGTATTTTGCAGYGTATATGCTCTACGT
GSGGAGCTTTGTAAAAGTGTTTTCTGTTCTGGTACTTCTGTTAACAGCATCACAGCCACAGCTGCCAGTATTGGGGCAGCTGGAATTCCTCAGGCGGGCC
TGGTCACTATGGTCATTGTGCTGACATCTGTCGGCCTGCCCACTGACGACATCACGCTCATCATCGCGGTGGACTGGTTCCTGTGAGTATGCTTGGCCTG
CATTCCAGCTCACTGTCACAGGGTCCCCCTCTGTCACTCTAGGGCACCAGGCAGCCTGGCACATCTACAGAAAGAACTCTGAGGAGAGGGGCCTCTCGGC
CCATAGTTAAATTGTCCTTATTGTCTGACCCCTGGTCCTTATCTGGAGACCGAGCCCCAGATGCCATGTGCACTCACTCCCCTGTCAGCCTAAGGGGCAC
ATCTGGCTGCCACACATCTCACTCCATAAAGCCATTCAGGAATTGGGAAACCCGCTGTCTGCAAAGGCAACATAAATCAGCAAGGCTGTTTCTGAGTTGC
ACAACATGACACCACAGCAGCTGGAACAAAGCTGCAGGCCCCACATGCCAGCTTAGGCCCTGCCTCTGTGTGCTTCCCATTCCAGTGGGAATGATTTTCC
CATCCTAGCCCAATAGGGTGAGGCTGAGCTAYGCCGACACTGGGAAGAGAGCTAGTGTCATTAAGTGGAATTGAGTTTCRGATCTAGGGAAAGTTACAAG
AAATGTGCCCTCCACATTCTCAAACTCTAACCTCTACAGGCCCATCCCTTCGCCCCCTTCCCTCGCTCTTCCAGCTGGCATTCTCTGTGCCTTTTCTCTT
AAAAATTTCCTTCCACTTTTGAAAATCTTTCCCCAGGATGCCCAAAGCAAAGCCTAGAACAGAGTACGTGTTGGAGTTAACACAACATATGTTCACTAGA
ACTGCAACATGAAAAGAGCTTGACAGTGTGCGTGAAACCCCAGACTGGGCGAGAGGATTCACTCCCCAGTTACTTGGACCTGTGTTTGTGTCCTGACCTT
GTGTGAGACCGGGCAGATTACCCAACCACCCTAGTTTCTACCTCTGTAAAATGAGGGTGCCCGTGTCCTCTACCTCCTAGGGGTACTGCAAGATTCAGTG
CAATGATGCCTAGAAAGCATGCAGCCTACTGTCTGGCCCACAGTCAGCATCAGTTAACATGAGCACTCTCATATAAAGCTACAGTTCTCCACAGTCTTTG
ATCTTTACACTTCAAAATTATTGAGAACTGAAACAGCATTTGATCTATATGGGTTGTATCTATTCATATTTATCATATTAGACACACTTATAAATTTCCA
CTTGTTAATTTATTACATGTTTTATTTAAAGGTGATAATAATTCATAAAATAAAWTAATGGAATGAATTTATTATCATCTTTAAACAAAAAGGTTATATA
TGCTAACATAAATAGCATTTTTTTGCAAAAAACAACCATTTCGACCCCAAAATTTATTTTATTTATTTACTTGTTTTGAGATGGAGTTCCATTCCTGTTG
CCCAGGCTAGAGTGCAATGGCACAGTCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTA
GAGGCGCCCGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGAA
CCACCTGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACGGTGCCCGGCCTCGACCCCAATATTTAGTGAAAAGAATGGTACTATTTTATG
TTTTGCAAGTTTTCTTAATGTCTGGCTTAATACAAGACAGTTGGAGTTTCCTGTTTCTGCAGTTTCACAACTGCTTCAGKGAGTTGTGACATCACACATC
ATGTAGTCTTTGCAAAACTCCACTATACATTCATGAGAAAATGAGACTGAGAGGGACAAATGACATCTTAGTATTATTATGAGAATGGCTTAAAGAGAAG
GCTCGTTCCCCACTGTTGGGWCTCTCACTTCAGTCAAACTAATAACTGAACATTCATCATCTATATGGCCTTATAACCTTTAATAGCTACTATTATGAAT
ATTATGTGTCTATTACGTAATCTTGCAGTTGGTAGATACGGCGAACTGAATGTTAAGAGGTGCTTCGCTGGCCAGTTCCTAACGTAAGTTGAAAACTTGT
GATGCTCACGGGAGCCTCGTTTTTCCCTCCTCCCCACCCTGCCTGCAGGGATCGCCTCCGGACCACCACCAACGTACTGGGAGACTCCCTGGGAGCTGGG
ATTGTGGAGCACTTGTCACGACATGAACTGAAGAACAGAGATGTTGAAATGGGTAACTCAGTGATTGAAGAGAATGAAATGAAGAAACCATATCAACTGA
TTGCACAGGACAATGAAACTGAGAAACCCATCGACAGTGAAACCAAGATGTAGACTAACATAAAGAAACACTTTCTTGAGCACCARGTGTTAAAAACCAT
TATAAAATCTTTCCATCTCATTACAGCTCATTCGCTCCAGCAAGCCCGTCATCTTCCCTTTCCTCCCTTCTGATAAGACTGGAAARTAGTCCTCCAAAAC
ACAAGGGAGGATTTTGGGTGGCCAAAGTGTACAATTTTCATCCCACAATTGAAATTTTTAAATCATTTCATGTTAGTCTTACCGAATAAGGTACCAAGAT
CACAAATAGTGTTGATCAGATCTTACAAGTTTATGTGGCACACAATCCTATAAATGTGATTTTTTWATATAAGTTAAAGAGACAAATAGTAGGCTAAAAA
CATTTTAAAATCAACTTTTGAAATTTAAAAATCTTTCAGAATACAATTCAGTTTTAGTTTCAAAATGTTAACAACTTGAATTACAACCGGTTATCAGTTG
GACAGTAAGATTTTATCCCTYTCTCTTCTGACTGGTATACCTATTTCATTAGTAGCTAGGTGCACATMTACATCTAGCACAGCTGTGAGGACAGACAGAA
GGCAAAGTTTCCATGTGGCCTTGAGCAAGTCCCATCTCACCTCTAGGCCTCAGTGTCCTCATCTATAAAATGAGGGACTTCCCTAGAAGTCTTCATGGTC
TCTTCCAGCCCAGACATCCTGTGATGTCATGAAAGCACCTGCCCTCTGTTTCCCCTCAGAACACCCTGTACCATCCATGGAGCACGAGGCCTTCAGAAAA
GACACTTCAATGGGAGTGAACATTTCTAACTAAGGACAGGATGGCTGTGTGTGGTGGTCACCAGGTCCTGTGAGCAAAGTGCAGGTTATGCAAGTCGCCA
GGCAGGAGGCCATTCCAGGAGTGGGATTATTCATCAAACTCTTTGCCCAGTTCATCCCAATGGGGGAAGTATTCCCTTCTTTCCTACTCTGGGAAGAATG
TCTCCTGCCACTCCTCAACTGATGATAGACTTCRAAAACAGATGAGAAGACTAGCAGCTAGCAAGGGTGCTTGTRGTCACACTGTGGAACACTAAAGAGC
TAGGAAAGAGTTGAGCACAGGCAACATTACAAAYAAAGGATTTGAAAACACCAAGAGTACAGGTCTTCTTTAAGGAAGAATAAAAAAGAAGAGGTTCATT
TTTCTGGCTTTTTTTTTCACCTGAAACACTTTTTCTCGAGTCCAAAATCATTCCCCCCGTGAAGTCTGCTTACCAAAACATAAGACGACTTATATATTTG
AAAGAAGTCAAATGAATGAGCTCTCTAATAGAAGTCCATGAGTTGAGTGGGTATTTCTTATTTGAAAGTGTTTTTCTTTAATCAAAAGTCCTTAGAATGA
GGGAAACAAAATATTTATTTGTTTTGGAATCCCRCTTATCAAATCATTCAAAACTTTCAGCTGGAGTGGGGTTTGCTTTTGTTTTGTTTGTGTCCATAAG
AGAAATGGTAGAAGATGAATCAGTATGAAGACACTGTYAATGAGGTTATGAGAAAAAAACAGCAGGGGCATTAGTTTCAGGCAAGGCAGCTCCCAGGTTT
AGAGATTAATTTTTACCCCCTAAGGAATATCCAGTCAAAGACGCTGAGTGGGAGCTGTCAGGCAGTAGCAGCTGTGTTTGAGTTTCTGGCTGAAAATGGT
GAAGAATGGACTTAATTATGCTAACAAACTGAAAAATCTAGACATAGATCCTCTGATATACAATTAGAGATATTTTTATRTAGACCCCAAGCATTCTGTR
CATAAAAGTTAACATTAGGCTGTGGTGCAGTAACCATTTAATGTCGAGGCTCTATTTCGGAAATACACTACAAATGTTAAAGTACGTGGCTGTCCTCTTA
AGACACTAGTAGAGCAAAGACTTAATCATATCAACTTAATTCTGTTACACAATATGTGTTTTTTAATATACTAACCATTTCTTATGGAAAGGTCCTGTGG
GGAGCCCATCCTCTCGCCAAGCCATCACAGGCTCTGCATACACATGCACTCAGTGTGGACTGGGAAGCATTACTTTGTAGATGTATTTTCAATAAAGAAA
AAAATAGTTTTACATTAACATCTTTGCACGTTGTTGTTATTCTTCTCCTCAAAGAAAAATACATTTTCCATTCATGGAAATATTACAATAAGCTCAGGGC
AGTCTCTGGAAGGATCCCATGCAGCAAGGTAAAATCTTGGCAGAGCCAGCCACAAGAAAATAAGTAAGGACATGCTCTCCTGCTCAACTCCAAGAACTGG
AGCTGGAAACAGGAGGAGGTGAGCGGAGCACTTTGCTGTAGCAGGCCATACTTCCTTGTCCATGTCAGATTCAAATTTCTCAGATGAATTGAATCATTTC
CATGTCGGGATTAGAAAAGTGTGATACCACCATGGGCCCTTCCGAAAAAGTAACTTCCTGTCTGACCTCCAAATTAGGTAGATTTATCTCTGTGATTATT
ACCACCATTTGTGAAAAGAGCTAACTAAGATCTCAAGGGATTTCCAGAAACAGCCATTGTGCTGGTGCTCTATTCATTAAGAACAGCTTACGGATGACTA
CTTTTCATCATGCTTTTTAGTAAAGAATTCGCAGGCAATATCATGAAATCTCCAGATTGAAGTAGTGTCTGGAGCCTATAATCTGACCCTCTCTACCAGC
AGGTGGCAGCCACCTAGAGGAAAGGCTCTTAAGTTGGATCCATGGACCCCTAGGTCATCCACATGAGAGTTCAATAGGTTCATCGCCCTTGAAGTTGTGG
GGAAAGTTTTGTGCATTTGCCTTTTTCTGGGGGTAAAATTCTTAATTTCAATCGGTTTCTCTMACAGATCTTACGACTAAAAAAAAAAAAAAATTTACAA
ATCGCTATGTTTGAACCATACACCCTAACTTTTGTGAAGGCATATGTGGTATTTACATGACCAGTTTGGGAAAAGAAAGGCTGCTCACAAACTGAGGGAA
CCAAGCCTGGCCACCCTGAGCAGATCAATATTTGCCCCCTGTGARACGTTCTGGGAAGTGCCGCATAAAATCAATCCACTGCTAGGAAGTGCTCCCTTCT
GCCGGGACCATTTTCTTCCCTTCTGCAGCCCACGCTGGGTTTTGGCCACCTCCACAATGCAGACATAAGAAGCAGGTCATCTGCCTGTGGGAGGTCTGTG
GAAAGCCCCTTATGGTTAAGGGAAGTGCCTCTCAGCCAGAGTATGACAAAGAGGGTGGAGAAGCAGGCCTTAGATCCCAACATGTGGTAGTCACACATGT
GCTCACAAATGGAACTATGAAAAATATGCAGGTTCACAGCTTTTTTTTTTTTTTTTAAGATACAGGGTCTCACTCTGTGATTATGGCTCACTGCAGCCTC
GAACTCCTGGGCTCAAGCGATCCTCAGCCTCCCGAGTATCTAGGACCATAGGCTCACACCACCACGCCCAGGCTAATTTTTATTTTTATTTTTTGTAGAG
ACAGGATCTCGCTATGTTGCTCAGGCTGGTCTCAAACTCCTGGCCTCAAGCCATCCTTCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCC
GCTGCACCCAGCCTCTGGCTGACATTTTTTAAAATGTTTCTTATAAGTTATTACATTTAACAAAATATTTAAATCCTACCCTCAGAAGTTAGGAGTCTAT
GTCCTCCTGTATCCACATTCATCCTGGTACCACCACTGTCCCTTCCCACCCAAGCAAAATTCTCCTTTTCAAGAGAAAAAATCTCACTTTACCTCACTAT
ACCTATAAGTAAAGGCATAGAAAAAAAAGTAAAATCCTTGACTCATCTACACAGTGTTGAAAACAGAAGTGTGAGTTCTGTTAGCTGAACGGGCCTGGAG
GAAGCGTGGCGGGAAGGCTGGATCCCCGCCGCAGGGGCTGCGGGGCTGTGGCTGCCTGCGGGCTGGGCAGGGCCGGGCGCACGCCCTCCTTCCGGGTGGC
CGCGGGCCCCGACCCCAGGCTGCCGTCAGTCGAGCGGCCTCCGCAGCGGCCGCGCTTCCCCTTCTCCCACCCGGGTGGTCCCAGAACTGGAGCAACAATG
GCCGGCTCTGTGTGGCCGCGTCCTGGGGCCAAAGCAGTCGGGACGTGTCACGCCGAGGGAGGGCTCCGAATGAATACGCTGACAATAAGAAGGAAGGGAG
AGCGAGGGAGGTGATGGGCAGCGTCCTAGAGGGAAAGCGGGAGATGAGAAATCTACGAGATCCGCGAGGCGGCGTCCGGGGAGCGAGCCTCATAGTGGCC
ACCAGGGGGAATGCGGAGCTCACCTTGGGCCGCTTCCGCGGGGAGCTCTAAAGGGAGCTGGGGCACTTCCTCTTAGAGATCTCACTTGGGTAACATCGAA
TTCCAAGTCTGCAGTGCCGAGAGGGAGCAATCTGTGAAAGCCATCAAGTCAGGTTTAAAATTCCTCAGTGCCCCCATGTCACTTTTCCCTCTGTTCACCC
TGCTTCTTCAATAGCCTCCCCAGAGGACCCCCTTCCTTTCTGGGTATCCTGTTTTGTCTCCCTTGTGCCTCATCTCCCTTCTCTCCCATCTCCTCTTCCG
GATTCTCATCTCCCTCTTCTGTCACTTACATGTTTTGCAGCTACAGACAGGTACTCAGAAGGTGGCATGGTAACGKTTTCCTGCAGGTCATGTCTCATCG
TGCCCACAAAACTGCTGTCTCAACCTTCAATTTTGAAACATTCACAGCATGCTGAATTCCACATATAAGTAGGGTTGTCAGATAAAATACAAGACACACA
GTTAAATTTGAATTTCGGGTAAATAACAATGTTTTAGTATGAGTATTAAATAACAATGTGGTGGTGTAAGTATGCAAAATACTGCATGGGGCATCCTGTA
ATTTTATGTGTTAATCTGGCAACCCTCTAGACACTTGAAATGTGGAACTCAGAACAATTTGTATTTGCTTCAATGAAGCTGATATTATAGGTGAAAGAGG
TTGCTTGGAGTGGGGGGATCTTCATTATAAAATAATCACCCCCATTTTGAATTTTTCTCTGAAAGCAAAAACATGCTTTAAAAAGCAATTTAGATCTAAC
ATCTCCTACTATTAATTGTTCTGGTGACATTATCACTTATTATGTGCTTGTAAATCTTGTGGCCATAGTTAAAAAGCTTGATGAATCACCTTTAGGATTT
CACAAAACTGTCTTGAATAAATTAAGCAATACCTCAGTTATCCATAGTTGAGATATTTAAGACTGACATCTGCTTTTGTTTTCTTCCCTCTCCTATTTTC
TTCTTTCCTTCTCTCACTCCTTACTTCTACCCTCCCCACTGCCCCAACATAAAATATTTTCTGTAATCCATTACAGGGCTGAAAATTTTGGCATTCACAT
ATTGTTCTCCAAAGACGGACACATTTTTTTCATTTGGGGAGCACCTATTAGAAAAGCACCCATTTTTTTTCATATTGTGCTATTCAAAGTTGATTATTTT
CCAGTCTCTGTAAAGTTGAGAATGAGGCATTTTTCAGTCTCTTCAGGGAACTCCAGCCTCCATGAATGGGAATCATTCCCAAAAAAAACCCCTTTTTAAG
CCAAGTCTGAAGGATATGAAAAAACAGGACCCAACTGACACCGCACAAGGGGAACAAAATCAAATCATAAACTCTTTCCAATAATGACATATGCAAAATC
ATGTAAAGATGGTAGTGAGTGTCCTAGAAGATGGTGTCAGATGACAACTTTTTTATTTCTTTTCCAACTCTTAGCTTCAGAGGATCATAAGTCCTGGAAG
CAGCCAGCCAGGAGCTTCCAGACATAGCTGTCACAGGGGAAAATAAAGACCATTTGGAAGTCAGCTCAGCCCTGCACAATGAACTGATGACTGGCCTGCC
CTGGGGAGAACTCAGCACGCAAAGATTTTTGTCGGCAACACAAACCTCTGAATGCTATAACCAAATTCCCCTGCCCTTGGCACTCCAGTGCCTCAGTGAG
GCCTTCTTTCATTTAAGCCCATGAGGAGCTGTTAGCTAAAGAAGTGGAAAACAAACATGAGAAAGTCAGCAGGCATGTTAGAAAACTCACATGGCTAGAC
TAAAAATAGCTTTACGCTTCCTAAAACTTAAAGGCCTTCCGCTTCAGAGTGGTGGTTGAACTCAAACTTCTACACGGGGATGGGTTGAATCCACACTTGT
TATACCTGAATTCTTAAGCAGTTCAGAGACCCTGGCTGGTCCATTCCCTGCACCTCAGCATCCTCATCTGTAGATGTGGGGATTGCATGAAACCTACCGT
CTCCAAATCAACTTTCATATCAAGTGTCTGTGTATTGGAGGGGATGCTAGAGTTAAAACGCTTAGTTAAATGGTCAACTGCCCTTAGCATATGATAGGTT
AAACTTCAACTTCCCTATCGTAAATGGGTATCATAATACCTTCTTTATTATGGTGTAATGAGAATTAAATAGATAATAACTAGATATAAGATTCTCAGCA
CAGTTCCTGGCACTCAGGGAGATTCTTAAGATGTTCAGAACAACACTGGCTCAGTAGGGAGGAAGAGGCACGGGGTGACGCTGGAGGAAGGGAGAGTGGC
TCCCGGTGCCATCTGGACCTGCTGTGAGCTGGAAGGAACTCCCCGAGGAGGCCACAGACCTACATTGCCCGGGGGGGACGCTTTGCGGAGGTCGTCACCC
CTGGAAACCGGCATCATGAGACACTGCCAGGCTTCTTCACGGAGGGGCCCGGGCCTCTGCGCCCGGGGCGGCCCAGCAACCCCTGCTCGCCTCCGCAGAG
GCCTTTTGTCCCGCGGGCTCTCCCAGCGGCCCCGCGCTGCGTGGCCGTTTTGTGAAGGGCACAATCCGATGTTCTGAGGAGACCACCCAGCTTCCTCTCC
CAGAGTCTACCAGAGAACAAAACCGCCCCTTCGTGTGCCAGCGACCTCCCCTTCTGCCAGACCCCCTCCCACTGGCCTCCTCCCTGCCCTGCCAAGCGGG
GACGGAGAGCCAGCCGGCCCTGGCCCGGTGGGAACCCAGTTGATGGTGCGCTTATTAGCTGTCCTGAGCGCGGGGACAAACTTTCTGTACCTGGGCCGCT
GCTGCCACCCTGCGGCCAAGACCTTTCTCTAGGCCCCGATGACCCAGAGCAGCCCGGACCAGACAACGTGCAAAGAGGAGCGCTTACAGCAAACTCCTCC
CTGAGGGGCTCAAGGAAGGCTGGAGAGCCAGGAAACAGTTCCGATGGCTGAAGGAAAAAGGAACTCATGCTCTGTGGCCACAGCACTGATTCTCAAAGTG
TGGTCCCACAACCAGTATCAGCATTCCCTGGGAACTTAGAAATACAAATTCTCAGACACCACCCTAGACCTACTGAATCATAAACTCAGAGGGTAGACCC
CAGCAATCTGTTTTTTGGTTTGGGGGAGTTTTTTAGAGATGGATCTTGCTGTGCTGCCCTGGCTGAAGTGCAGTAGTTATTCGCGGGCACAATCATAGCG
CACTGCAGCCTGGAAGTCCTGGGGCTCAAGTGATCGTCCTGCTAAAGCCTCCCAAGTAGCTGGGACTACAGGTGCATGCCACCTTGCCCTGCCCAGCCAT
CTGTCTTAAGAAGCTGACCAGGGGATTCTGATGCACACCCAAGTTTGAGAACCACTGGTCTAGACTCTAAAAAGAAACAGACCTCAGAGGTGACAGAGCA
GGATGCTAATCCTGGCTTTGCCTATGAGCTGTGTGACCTTGGGCAAGTTTCTTAACCTCTCCTTGCCTCCTCTGATTCCTATCATGATGAAAATCATTCC
TAATTTCCAGGATTGTTGAGGATTAGATCAGAAAGAAAGGTGAAGTCACTGACATATATTCGTGCTTGATAAAAGGTGCTTGCTTCCGGTGTTATTATAA
TGGGGTCATAAATGTGCCCGCATTAACACTAGAATGTACAGAGAAAACACAATTCCTCTTTTCATTTATTTAGCAGGTATTTATGGGATGCCTACTGTAA
TGGGCAATGTTGATAAAGCCCCTCCCTCCAGGGAGGTACATTTTAATATCTGTGTAATATAGGGTGCTATGGACTGAATTGTGTTCTCCCACCCTTCACC
AACATTCATATGTCAAAGCCCT


SNP Information

Context             (SEQ ID NO:43313):
AGATCTTCCTGTTTTTCAAGAGTATCCAGAAATCTCAAATTTTTTAAGAACCTGCAGATTCTTTGATACAATTCACGAAACAAACCAGTGCAAAGCAAAC
R
CAGTACACCCATTCCAATGTAATTCCAATGGCAGGCCCATTCCAACCCTCAGACTACCAATATTTGAACTCAGGTTTGAATGTCAGAATCCAATCATTGG
Celera SNP ID:            hCV1393654
SNP Position Genomic:     31696
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43314):
AGTACCAAAATAAGACTTTGCCTTTCCTGTAATCCAAAGAATCAAAAGAGAATTGAAAAGAATGACTTTCTCACTGTGATTTAATATTAATTAAGGTAGG
R
TTTCCACACCACCAGAACACCTATCCCACTTTGGAAAGCACTGATCTGGTGGTCCAGACATTCCTGCAGTGTCCCTTCCAAATGACTGTCCAGCTTCTTC
Celera SNP ID:            hCV1393658
SNP Position Genomic:     33851
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43315):
CCACCAGAACACCTATCCCACTTTGGAAAGCACTGATCTGGTGGTCCAGACATTCCTGCAGTGTCCCTTCCAAATGACTGTCCAGCTTCTTCCTGAACAT
W
TCTAAAGACAAGAGCTCTTTGGAACCCATTTGTCCTTAGAAAACTCTAACAATACTTTTTTTTTTATCCAAAATAAAACAAATAAATTTAAAAACCAGAA
Celera SNP ID:            hCV1393659
SNP Position Genomic:     33960
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,5)      total(A,5|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43316):
GTGACATAATCATTCTTTACCAACAATTTGGAATCTAACTTTTAATGATTTGTCTTCGGTTCCAGAACCCTTAGAATCATAGCACTTTGCAGTGTTTTTA
Y
AAGCTAGTCTATAAAGGGGCCAGAAGAAAATATTTTTGCACAGAAAAACAATATAGTTCTAGAGAGAGATTTGAAGTGACTTTCTTTGTGCTCCCTCCCC
Celera SNP ID:            hCV2935153
SNP Position Genomic:     65355
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43317):
GATTCTGAAGGCAGGTTGTTTTCATAATAAAGATGTCATGATGTCTTGAATTGGGCTAGTTTAGCTAAGCCCAGATCAAATGAAGAAAAAGAAACTAGTC
R
AGATCATTATCTTTACCACTTGCTCTGGAATGTGTTTCTCAAATATGTATTTAGATGAATGCATGGCTGTCGTAACACACTCCCACAATTACCTACATAC
Celera SNP ID:            hCV2935154
SNP Position Genomic:     67306
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43318):
GATCAAATGAAGAAAAAGAAACTAGTCAAGATCATTATCTTTACCACTTGCTCTGGAATGTGTTTCTCAAATATGTATTTAGATGAATGCATGGCTGTCG
Y
AACACACTCCCACAATTACCTACATACCAAAGTAACTTCCCGTCTCCCCATCACCCCAGTGCCCTTTTCTCCCATATATTTTAAAGTGATAAGGCTCAAT
Celera SNP ID:            hCV2935155
SNP Position Genomic:     67379
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43319):
CAGACACTCTGACATCTCTGTTTAGTCTCTGGTGTAAAAAGGTTCGTCTCTCATATTTCTTGAGGTTGGGGAAAGGAAATGGTCACAGAGTTTAGGTGAG
S
GTGGGAAAGTGATGCCCTGCTCATTTGGGGTTTTGTCTTCCAGAGTTCTTCCTCCATTTTCCTGATGCCACCAGTATTAAGGCCATTGTGTGTGAACAGA
Celera SNP ID:            hCV2935156
SNP Position Genomic:     67666
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43320):
AACAACACCTCTCTTCAAAACTTTTGACCTAAAACTATCCCTTATAAATAAATGATGTCTCCTCTCTATAGAGAAGAGATGTCCTACTTTAGAGAAATGA
Y
GTCCTCCTACTATAGAGAAGAACTTTTAGACAATGTAGGTGTTGTCTTAAGGAATGTAAAGAAATAGAGACACATCCTAGAGTAGGACTGCACTTCCCAG
Celera SNP ID:            hCV16014251
SNP Position Genomic:     25193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43321):
CAAACGATGGTAAGGCCTCAAAGCCCTAACAGTAAGAAACTATTTTGTTAACACCCTTAGCTATGAAGGAGCAAAGGGAACCCAGAAAGAGCTATAGCCT
Y
GGGAGGGAAGGGCCTCAGGAGCCCTAAATGGAGGAAGGGAGCTGCCACAAAATCTGTCAAAGAGAGCTCTGGGAGAATATAGACTCCCTCTGCCCTGTGA
Celera SNP ID:            hCV2935158
SNP Position Genomic:     71528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;JBIC-allele(T,552|C,931)   total(C,931|T,552)
SNP Type:                 INTRON


Context             (SEQ ID NO:43322):
TAGTTAGCCAGAAAGCTAATGATAAAAGTCATTTCCAGTCTTACTTTGATTATTCCTAGTAGCAGGGTTTTTAATAATATAATGGCTGAGTGAAGAACCC
Y
ATTGGCTGACAAGAGGATAAATGAGTCAAGTTTGGACTCCCCTGAAAATATGAACTACATGGGCCACACTTAGGGAGGACCATATATTCTTTTCAAGCTG
Celera SNP ID:            hCV2935159
SNP Position Genomic:     73196
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;JBIC-allele(T,177|C,1286)   total(C,1286|T,177)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43323):
AATCCCAAAACTTTGGGAGGCTGAGGTGGGTGGATCACGAGGTCAGAAGATTGAGACTACCGTGACCAACAATGTGAAATACCGTCTCTACTAAAAATAC
A
AAAAAAAAAAAAAATTAGCCATGCATGGTGGCGCATGCCTGTAATCCCAGCTACTTGTGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGAGGCAGAGGT
Celera SNP ID:            hCV11357489
SNP Position Genomic:     23096
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43324):
ATTCCCGCTTCTCCCCACCAACCCACCACCCCCAGCCTTTAGCTCCTAGTTAACTCAGTGCTGGGCATGCTGCTTTCTCTATAACTTACATGGACTTTTT
W
AAAAAATGGAATCACATGTTTCAGTAATAATAGCAAGGCAAAAACTTTAAAAACATTTACAACACTGGCATAAGTAAATTTTCTTTGGCAAGGAAAGTAA
Celera SNP ID:            hCV11471420
SNP Position Genomic:     27890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43325):
CAATCACCATCAAGATCAGGAATTCTATTCTCATTAAAATCACAGAGGGATGAGTTTACTTGTTTCATGTGGCCAGCATCTCCTGACTGGGGCATCTATG
Y
AGAAACTGAATAGATGATGGGAAAAAGACCATCTCTTGAGTTAGAAGAGAAACCCCACTATAGACTTGGAGAAGATGAGCTGTCATCACCAACTATTAAT
Celera SNP ID:            hCV7583554
SNP Position Genomic:     75445
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   no_pop(C,-|T,-)   JBIC-allele(T,503|C,804)   total(C,804|T,503)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43326):
AATTTGCAAGATGTTCTCCTATATTCTGTTTAATTTGATTATCACAACAACACTGTGAGGTAGAACCAGCACAACTGTTCTTGTTTCACAGCTGTAGAAT
R
TGAGAGAAAGGATACCAGGTGATTTATCTATTATACCATAGCACGATCCCCACAGAAAAGAAAAGGACTATTGTGAATATTTGGGTTTATGGTTTTAAAA
Celera SNP ID:            hCV7583555
SNP Position Genomic:     75807
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43327):
CTGAGAAGTGAATTTCGGAGCTGCCCCTTCTGAGAGTTTCCGGCGACCTCGCTGAGAGTGAGAGGAAGTCCCTGCGGTGGGCCCTCTGGCAAACCACATA
Y
TGGGAAGATCGCGGGACTGTGTTAAGCTGTCATGAGAGTCAATTGAATGGTCAAGACCAGCGTAGACAGAAATAAAGCTTGACCACTCAGAGGCCGCCAT
Celera SNP ID:            hCV27512172
SNP Position Genomic:     62174
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,121|C,1364)   total(C,1364|T,121) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43328):
AAATTTAAAAATCTTTCAGAATACAATTCAGTTTTAGTTTCAAAATGTTAACAACTTGAATTACAACCGGTTATCAGTTGGACAGTAAGATTTTATCCCT
Y
TCTCTTCTGACTGGTATACCTATTTCATTAGTAGCTAGGTGCACATATACATCTAGCACAGCTGTGAGGACAGACAGAAGGCAAAGTTTCCATGTGGCCT
Celera SNP ID:            hCV7583556
SNP Position Genomic:     86121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:43329):
CGGTTCCCATTGTATAAATGAAAATTCTAGAGCAAGAAGACAGAGCTTCAAGTCAGGGACACGGAACTAAGGCTCCAGATTTCACAAGTCTCATTTGTCT
K
TGATCCCTGAAGCAACCACTTTCCTATTAAGGTAAATTGAAGAAACCATAAAATTAATCCGGTAACAACATGGGAGCCAGCGAGAATTCCTACCTCATTA
Celera SNP ID:            hCV1393660
SNP Position Genomic:     34858
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43330):
CACCTGAGTCTTTCACCATTAAATGCAGAAAGAACCAGAGGTGGGGCCCTGTGAAATTCCCAAGAAAAGTCAACCTGAGGAACATGGCCTCACAAATGGG
W
AGTAAAGGAGAAAAGGTGCTTGACAGGCTTTCAACGACAGAAACCTTCCCTTTCGAAGGGAGCTTGCAGGAAGGGAGCCAGGAGACCTGAGGATCTCTGG
Celera SNP ID:            hCV1393662
SNP Position Genomic:     36128
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43331):
CCCAGAGTTCTTTAATTAATTGATCTGAAATGGAGCTTGGGAGTTGACATTTATTTGTAGTTCTCTAGATGATTCTATTGTGCACCCATGGTTGAAAACT
R
CCACTTTACAGTTTTTCTAGAATTGTTGTTTTCTGGCGCCACAGTCCCCCACTGTTACTACTTTAGTTGATACCTTTATTAGTTCAGATACCCCCTCTTC
Celera SNP ID:            hCV1393663
SNP Position Genomic:     37374
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43332):
CCCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCCACCCG
Y
CTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGTCACCGCGCCTGGCTAGTTATTTTTAATCACAAAAGCAATGCATTCTCTATTAGAAATGACACA
Celera SNP ID:            hCV1393664
SNP Position Genomic:     38305
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43333):
ACCTCATTGGATTGTTGTGAATATGCAAGTTAATACACATTAAACATACTGCCTGACACACAATCGCTGCTAAAACATCGGCACTATTAATCTTTCACAC
R
CTTTGTTAAAAGCTTACACACAAATATACCATTGTTTTTATGAAAACGGAATCATATGTATTGTTCTGTAATATGCTTTATTTGGATAGTATTCTCCTAT
Celera SNP ID:            hCV1393665
SNP Position Genomic:     38747
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43334):
TGACAGCAGGAGACAAAGGAAGAGACTATAAATGCAAGAGGAACATTGACCTTGGAAAGTAAACTTTACCCAACGGGGAGAGAACGCTTTGATTGACCTA
R
GCTTTGTGTGGAGGTTGCTTCTCTTTCATTCTTTATTTTTAATCCAGTCTCCTCTGTGGTACCTGAGGCAGGAAAGCATCCATTGCTAAGAAAAGCACTC
Celera SNP ID:            hCV2935160
SNP Position Genomic:     77461
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43335):
TGTTAAGGGAAAAAAGAGGGGAACCCCTATATATAAAACCACAATCTTGTTTCATCTATAATACCCCTGGTCCCCCTCCTTCATCTACACTGCCACCCCC
M
CCTACACCCACCACTTGATCATTTTATAGCAGATATTTTATTACATTTTTGAAAACAAAGGAAACATAAGACAGGTGTACTATTTTAAGATTATATTAAC
Celera SNP ID:            hCV1393666
SNP Position Genomic:     40241
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43336):
CATCAGTTTATTAATATTTAAAATAGACACAAGGCCTGGTACAGTGGCTCACGCCTGTAATCCTAGCACTTCGGGAAGCCGAGGCAGGCGGATCACGTGA
Y
GTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCAGAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCCTGTTGGTTCATGCCTGTAATCACAG
Celera SNP ID:            hCV11357490
SNP Position Genomic:     24639
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,8)   total(C,8|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43337):
CCCTGGCAGGAATAAAAGTGGACATTTATCTTCATATTATTAAATGCCTCCACCTTTCACCTCTTTTATGAAAGAAGCCCATTCAAGGCCACTGAATGAA
Y
CTCACATGCAGCTTGTCTAGCTGTACATTCGCCTGCACATTCAACGCTGAGTTATTATATTTCTGAAAACAGGTATTCCTATGATTTCCTGGCCTGGGTT
Celera SNP ID:            hCV2935161
SNP Position Genomic:     77822
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;JBIC-allele(T,415|C,874)   total(C,874|T,415)no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:43338):
CTATAATACCCCTGGTCCCCCTCCTTCATCTACACTGCCACCCCCCCCTACACCCACCACTTGATCATTTTATAGCAGATATTTTATTACATTTTTGAAA
R
CAAAGGAAACATAAGACAGGTGTACTATTTTAAGATTATATTAACATATTTCATGTTTCTTTAATGCCCCAACACACACACACATACACACACACACACA
Celera SNP ID:            hCV1393667
SNP Position Genomic:     40296
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43339):
GGGTGTAGGAGAAGCCATTTTATTCTGAGTTTTAAACTTCCAAGAATGATGAGTTAGCTTTCTCATTTCTGATGTCAATCACACCTGTTTGGGATTCAGG
R
AATGCCTGGCTACATATCTTTTGTGGGGACAAATTGGAAATCAACTATCCTTTCCCGTCCACTTCATCTCTCTTTAGTTGACATTTGCCTGAGGGAGAAG
Celera SNP ID:            hCV2935162
SNP Position Genomic:     79407
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;JBIC-allele(G,468|A,1032)   total(G,468|A,1032)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43340):
TTTATATTATTATGTACTTTTGAAGTAAAACGTCTCCCCCCACCCCCCATAGCAAAGAGATATAATAGCCAAAACCAAAAAGGAAATACAGTGGGATGTC
R
TTAGTAATACCTTTTGTTTGTCTTAGGTGTGAGAGGATTCTTGCTCTTATCCGTGTGATACATGTTTTGGCTAAAGCTTTGAAGTCATAAGATATGTAGT
Celera SNP ID:            hCV1393668
SNP Position Genomic:     43588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43341):
CGGATCACGTGACGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCAGAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCCTGTTGGTTCATG
Y
CTGTAATCACAGCTACTCAGGAGGCTGAGGCATGAGAATTGCTTGAACCAGGAGGCGGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCTTG
Celera SNP ID:            hCV11357491
SNP Position Genomic:     24727
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,10)   total(C,10|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43342):
TCTATGAGGCTTTGGCTGCCATTTTCATTGCTCAAGTTAACAACTTTGAACTGAACTTCGGACAAATTATTACAATCAGGTACAAGGAAAGAGTTCTATA
Y
ACCCTTTCTTAAGAATGCCTTTAAGGCTGGGCGTGGTGGCTCACGCCTGTAATCCTAACACTTTGGGAGGCCAAGGCGGGTGGATCTCCTGAGGCCAGGA
Celera SNP ID:            hCV2935163
SNP Position Genomic:     79995
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,1)   caucasian(C,8|T,2)   total(C,19|T,3)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,31|T,7)   total(C,68|T,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43343):
GCGTCATTGCTGAAAGTTCTGTGTAGGTCTTTTACCATAGTATTGAATTTTACATTCATTATAATGCTTTTTATTATGAGCTCTAATTCCAAGTTAGTTA
Y
TTTTAATTCAGAAAGAAAGTAAATATTTGCTTTCTGGAGGTAACTGCACTTGAGTATCTGCAAGGAGAGCCCCTCAAGTTCTGTTTTTGGGGATCCTCCC
Celera SNP ID:            hCV1393669
SNP Position Genomic:     44545
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43344):
GCCAGGAGTGGTGGCGTGTGCCTGTAATCCCAGCTACTCGGGAGTCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCTGAGGTTACAGTGAGCCAAGAT
Y
GCGCCACTGTAGTCCAGCATGGGTAACGGAGTGAGGCTCTGTCTCAAAAAAAGAAATATAAATAAATAAATAAATAAATAAATAGAGGGGATTAGCAAAT
Celera SNP ID:            hCV11357492
SNP Position Genomic:     33625
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43345):
GCTGAAGCAGGAGAATTGCTTGAACCCGGAGGCAGAGATTGCAGGGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGGGACACAGCAAGACTCCATCT
S
AAAAAAAAAAAAAAAAGAATGCCTTTAAAAGACAAGAGGATGACCAGGGTTGGGAAGGGGATCCCACATAATCAAGAGGTGGGGATTTGGGGTAATCATT
Celera SNP ID:            hCV2935164
SNP Position Genomic:     80299
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,3)   caucasian(C,20|G,2)   total(C,29|G,5)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43346):
GCCTGTAATCCCAGCTACTCGGGAGTCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCTGAGGTTACAGTGAGCCAAGATTGCGCCACTGTAGTCCAGC
M
TGGGTAACGGAGTGAGGCTCTGTCTCAAAAAAAGAAATATAAATAAATAAATAAATAAATAAATAGAGGGGATTAGCAAATGTTAACAAGGTGTTAAACA
Celera SNP ID:            hCV11357496
SNP Position Genomic:     33644
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43347):
GTGGATCACTTGAGGTCAAGAGTTCGAGACTAACCTGGCTAACATGGTGAAATCCTGCTCTACTAAAAACACGAATATTAGTCGAGTGTGGGGGCATGAA
S
CTGTATTCCCAGCTACTCAGGGGACTGAGGCACGAGAATCACTTGAACCCAGGAGGAAGAGGTTTCAGTGAGCCTAGTTTGCACCACTGCACTCCAGCCT
Celera SNP ID:            hCV2935168
SNP Position Genomic:     82966
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43348):
CTGCAGGCCCCACATGCCAGCTTAGGCCCTGCCTCTGTGTGCTTCCCATTCCAGTGGGAATGATTTTCCCATCCTAGCCCAATAGGGTGAGGCTGAGCTA
Y
GCCGACACTGGGAAGAGAGCTAGTGTCATTAAGTGGAATTGAGTTTCGGATCTAGGGAAAGTTACAAGAAATGTGCCCTCCACATTCTCAAACTCTAACC
Celera SNP ID:            hCV2935169
SNP Position Genomic:     83832
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;JBIC-allele(C,371|T,1110)   total(C,371|T,1110)
SNP Type:                 INTRON


Context             (SEQ ID NO:43349):
TCAAACTCTTTGCCCAGTTCATCCCAATGGGGGAAGTATTCCCTTCTTTCCTACTCTGGGAAGAATGTCTCCTGCCACTCCTCAACTGATGATAGACTTC
R
AAAACAGATGAGAAGACTAGCAGCTAGCAAGGGTGCTTGTGGTCACACTGTGGAACACTAAAGAGCTAGGAAAGAGTTGAGCACAGGCAACATTACAAAC
Celera SNP ID:            hCV7583563
SNP Position Genomic:     86634
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(G,82)   African-American(A,10|G,60)   Asians(G,84)   total(G,226|A,10) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:43350):
CCTTCTTTCCTACTCTGGGAAGAATGTCTCCTGCCACTCCTCAACTGATGATAGACTTCGAAAACAGATGAGAAGACTAGCAGCTAGCAAGGGTGCTTGT
R
GTCACACTGTGGAACACTAAAGAGCTAGGAAAGAGTTGAGCACAGGCAACATTACAAACAAAGGATTTGAAAACACCAAGAGTACAGGTCTTCTTTAAGG
Celera SNP ID:            hCV7583564
SNP Position Genomic:     86675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:43351):
GTCCATGAGTTGAGTGGGTATTTCTTATTTGAAAGTGTTTTTCTTTAATCAAAAGTCCTTAGAATGAGGGAAACAAAATATTTATTTGTTTTGGAATCCC
R
CTTATCAAATCATTCAAAACTTTCAGCTGGAGTGGGGTTTGCTTTTGTTTTGTTTGTGTCCATAAGAGAAATGGTAGAAGATGAATCAGTATGAAGACAC
Celera SNP ID:            hCV7583565
SNP Position Genomic:     87034
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:43352):
AGTTTATTACTTATGGGTGGCATTGATCCTACTTTAAAATATAGCTGAAAAAACCTACTTATTTGGAATTTTTGACCAAACCAATACAGAAATCCTTAGA
Y
TGACAAACATATACGCCAATGCCAGGTTGTAAAAATATTCCAACTTAACCTACCAATTTGCCACCAAAAAAGAGGCATTCAGTACCGTTTTAATCTCTAC
Celera SNP ID:            hCV7583496
SNP Position Genomic:     8800
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43353):
GGAAGATCAACCAAAATTAGTGAGTCAGAATTAAAGAGTGTTTTAAACAAAAGCAACTTTAGAATTTGTAATTCATATAGTAACCCAATCTAAGTGTTAG
A
AAAAAAAAAAAAGCATGTGGCCTCTATCCAGCATAGCAACAAAAACACTAATAAGAATGGCTGGTTATTCAAAAAAATGATTATTGAGCCCCTCTATGTG
Celera SNP ID:            hCV9887270
SNP Position Genomic:     64606
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43354):
ATAAAAGGCCCAAAAAGGTTTAGATAAAGGAAGATATACCCTGGATAAGTTAAGGGAGGGCGCTCCCTTTTTCCCTTTGTATAACTTATCAAAGATTGGC
R
GGTAAATTTAGGCGCAGCAAATTGAAAGGCACAACCAAGGTTTGAATTTCAAGACGGGGTTTCTGTCTCCAGAGAGGGCAACTCCATTCTTCTTGTCCTC
Celera SNP ID:            hCV7583497
SNP Position Genomic:     15828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43355):
GGTAATGCCCACAACACTCACCAACTCTGCTGCCACCAACACTTATCTTTTCCTGGTGTACCCGCATGATTTCATTTCCTTCTCCAGTTGCCTCCCACCC
Y
CGTTACCTTTTATGCTAGTGGGAGAAGGGGGAGGGGGCGGGAGATTTTCCCATCTGAATATTTTATCAGTGGACACTTGGATTTTTAACAAGTGGAAGCT
Celera SNP ID:            hCV27482902
SNP Position Genomic:     29539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43356):
GAGTTGAGAAAAGCTAGCTGTTGACTTCGTTAAGTAAAATCAACAAAACTTTTCCTCAGCTTAAGCTCTAGATTTAGTTAATGTCATTCAAAATAGATGA
R
AAAGTAGGCAAAATATTGTGTACCCATTTAGACTCCTTCAGTCAGTACCATGGCTGTTGAGAGGCTGCGAGGACAGTAGAGTGGGTGAGTCTGGACCCTG
Celera SNP ID:            hCV7583499
SNP Position Genomic:     23672
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43357):
CACTTAGGGAGGACCATATATTCTTTTCAAGCTGTAAAATCCACTAACATTTTTGTTTTTCCATTTGTTGCTTGGTTCAATGCAATCTTTACCTTACACA
Y
AATGAAACAGAATTTAAGGAGCAAACTTATTACTTGGAAAATTTTGCAAGTGACTATTACTTTCTTTGCAGGAACATGTTCCCTCCAAATCTGGTAGAAG
Celera SNP ID:            hCV11471438
SNP Position Genomic:     73363
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,37|T,1)   total(C,72|T,2)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43358):
GTGCCAAAGCTTAACTGATAATGTGGAATTCACTACTGAACATCATGTTTACTGCTGACTAAACAAATTGCTATTGGAAAGCCTCTTCTCTCCATCTTCT
S
GGTATAACTGCATTGTGTAGTAGCCATTCTGGTCTTTTCTGCACCAGAAGGAACACTGGAGTAAGAACTCAGAGGTCATGCTCCCATAGGAAATATTTCC
Celera SNP ID:            hCV27482903
SNP Position Genomic:     31904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43359):
CTCTGCTGAAGGACGGATTTACCTGAATGATCTTCCAATTTTGAGTCTGGGTAGAATCTAGGGTCCTAAGTCTTAAGTGTCTGCAAATTCATTTTACCAG
R
CAAGATAGACTTCTTTTTGCTTCTTCATGGTGAAGATCCTTGCAATAATCTCAGATCCTCAGGCTGGAAGCCGGTGCATTACCCCATGATGTACTTCTTT
Celera SNP ID:            hCV27482904
SNP Position Genomic:     39681
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,45|G,1426)   total(G,1426|A,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43360):
GATGTTTGCATCTGAAAAGGTAAACAGGGGCCAGCTGAGTGGTGCAGGGGACATTCGCTCTGGCTGCATTTATTTGTAGTAATTCCTGTTTGGTTCTTAA
R
AACACAAACTTCTGGAGCTACCAGTTGCAGCATTGACTAGCTGTGGGAGAAGTCACTTTGGCATTCAGGGCTTGTTTATGGAGTGGAAATAATAGTAGTG
Celera SNP ID:            hCV27482905
SNP Position Genomic:     54348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43361):
CAGGCTGGTCCCGAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTACTGGGATTATAGGCGTGAGCCACCGCGCCCGGCCCTGCACTT
K
GTTTTCTTAAGGAACACTAGAGCTTGAAGAAAAAGACGTGTTGACAAGTTTTAAGGGTCAAATTTAAAAATCAGTTTCCCTGATAAAGTATGTGCCATCA
Celera SNP ID:            hCV27482906
SNP Position Genomic:     62936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43362):
AGAAAGAAAGTAAATATTTGCTTTCTGGAGGTAACTGCACTTGAGTATCTGCAAGGAGAGCCCCTCAAGTTCTGTTTTTGGGGATCCTCCCCTTTTGAAA
R
CACTAATCGGACCTCAAAACCAGATTTTATCTTTGAGGACTGACTTCCACTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGATAGAGTCTCACTCTCA
Celera SNP ID:            hCV1393670
SNP Position Genomic:     44655
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43363):
GGTTAATGTTTTCTTCTATCTCATGTCTTGAATTCCCAGCAGAGGCTACACAAAATTTACTTCTACTTCATATACCAGTTTATCATGGTACAGATTATTG
S
TCATTTTTATTCTTGAATAGAGCTACAGGCCAAGCAACTTCTTGCATTGATATTGATGTCTTCTTTCACATATGTAAGTAATATATGTAGTGATTACAAG
Celera SNP ID:            hCV1393671
SNP Position Genomic:     45319
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   JBIC-allele(C,597|G,852)   total(G,852|C,597) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43364):
TCTTTCACATATGTAAGTAATATATGTAGTGATTACAAGACATTCCTTTTGTTCATTAAAGAAAACCCCCAGGAGACTCTTTGGAGTAAGCTATGGGTAA
S
CCACTGAATACTCTTTAAAGAAGCAAACCTATATCATTAAGGGAAAGCTAAAGATACGTAAGTTTTTTGAAGTTGACATCAAGGAGGGCAGCATTGCTTG
Celera SNP ID:            hCV1393672
SNP Position Genomic:     45481
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43365):
AGATTTATCTTTTCTGTGTTGAAATCCACACAAGGGACATAAAATAACCCTCAAAAAAATATAAACACAATATCCAAACCTTTTGGAAATTTAAATGTTA
W
GTATTATTCAGTAATGTCTGCCCACTGTAGTTGGACAAAACCACATTCAGGTCTATGTGTCAGCTTTGTCCCTCAGCCCTGTGATTTGCTTTTGGTGGCT
Celera SNP ID:            hCV1393673
SNP Position Genomic:     45840
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4)   total(A,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43366):
CAGGATTTTCCCAAGGAAAATAGTTTGCGGTGTCATATTTGTGGTCTCTCTAGAGAGACAATTCCGTAAGTGGTTCCTAAGCCTTGGAAAATTCTCTTTT
R
CAATAGTACCCACAAATAATGTTCAAAGAGCTATTTTTGAGGAAAGGATTCCTCACATTTTTGCAGGTGTAAGTCATTCCTGCCTCAGTGGAGTACAAAG
Celera SNP ID:            hCV1393674
SNP Position Genomic:     46202
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43367):
CACTATACATTCATGAGAAAATGAGACTGAGAGGGACAAATGACATCTTAGTATTATTATGAGAATGGCTTAAAGAGAAGGCTCGTTCCCCACTGTTGGG
W
CTCTCACTTCAGTCAAACTAATAACTGAACATTCATCATCTATATGGCCTTATAACCTTTAATAGCTACTATTATGAATATTATGTGTCTATTACGTAAT
Celera SNP ID:            hCV16082318
SNP Position Genomic:     85221
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43368):
GAGGAATAGTGTTTTATTATTCTAAATACCTTGCCATTATTAAGAGTTTTTTTATGATTATACTGTCTCAATGTTGAAAGAAAAATTTTTAAAGATTTGC
R
TTTCAATTTTTTTACCTATAGGCAAGACTGTACCACTCTGGGCAACAAACTTAAGTTTCAGAAATTTAACTTAGGAACTTTTCAAGGAAATTTGAGATTT
Celera SNP ID:            hCV1393675
SNP Position Genomic:     47615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43369):
AAAGAATGGTACTATTTTATGTTTTGCAAGTTTTCTTAATGTCTGGCTTAATACAAGACAGTTGGAGTTTCCTGTTTCTGCAGTTTCACAACTGCTTCAG
K
GAGTTGTGACATCACACATCATGTAGTCTTTGCAAAACTCCACTATACATTCATGAGAAAATGAGACTGAGAGGGACAAATGACATCTTAGTATTATTAT
Celera SNP ID:            hCV2935170
SNP Position Genomic:     85080
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43370):
ACCTATAGGCAAGACTGTACCACTCTGGGCAACAAACTTAAGTTTCAGAAATTTAACTTAGGAACTTTTCAAGGAAATTTGAGATTTGTGTCAAGAAACC
Y
TTTTATTAACGATTAATGTAAAATTTGGAATACGGTTCTTAAGTTAATGTGAACCTGCAAAATCTACCATTTTTGCCTCCATAATAAGTCAGACCTTGTA
Celera SNP ID:            hCV1393676
SNP Position Genomic:     47729
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(C,38|T,42)   African-American(C,17|T,57)   Asians(C,40|T,42)   total(C,95|T,141)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43371):
TGTTACATGAGAGTTTTCTGATTGCCAGCTAGTTTGCTTCCCTGACAGGCATTTCCAGATGTGAGGAAAGATTTATTTTGGCACTCCCAGCTCCAAGTGG
M
GTGAGCGCACACACACATACACACACACACACACACACAACATTCACTCTCCTTCAGTGCTTAGGATCATCATCCTCTGCCTTCAAAGTTGGTAAATTGA
Celera SNP ID:            hCV1393677
SNP Position Genomic:     51693
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43372):
AACCATATCAACTGATTGCACAGGACAATGAAACTGAGAAACCCATCGACAGTGAAACCAAGATGTAGACTAACATAAAGAAACACTTTCTTGAGCACCA
R
GTGTTAAAAACCATTATAAAATCTTTCCATCTCATTACAGCTCATTCGCTCCAGCAAGCCCGTCATCTTCCCTTTCCTCCCTTCTGATAAGACTGGAAAA
Celera SNP ID:            hCV2935171
SNP Position Genomic:     85686
SNP Source:               Applera
Population(Allele,Count): african american(G,4)   caucasian(A,2|G,6)   total(A,2|G,10)   
SNP Type:                 UTR 3;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,9|G,29)   total(A,12|G,62)
SNP Type:                 UTR 3;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:43373):
TTAACAACTTGAATTACAACCGGTTATCAGTTGGACAGTAAGATTTTATCCCTTTCTCTTCTGACTGGTATACCTATTTCATTAGTAGCTAGGTGCACAT
M
TACATCTAGCACAGCTGTGAGGACAGACAGAAGGCAAAGTTTCCATGTGGCCTTGAGCAAGTCCCATCTCACCTCTAGGCCTCAGTGTCCTCATCTATAA
Celera SNP ID:            hCV2935172
SNP Position Genomic:     86168
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:43374):
GAATCTATAGGCATTGGCTAATGTCAGTGACTACTACACTCTGAGATTCTGCTTTAATATTATAAACACCAACTTCAAAAGCCCTTTTGGCTTCTTTGCC
R
GAGAGTATCAGGTGTAAGGTCTCTCTTTGCACTTGCATCTAGTGTCTGCCTAGAGAGGATCATTTCCTCAGCCTCGGCTTGGTCAAATGATGGCATTCTC
Celera SNP ID:            hCV1393679
SNP Position Genomic:     54637
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43375):
ATCAAATCATTCAAAACTTTCAGCTGGAGTGGGGTTTGCTTTTGTTTTGTTTGTGTCCATAAGAGAAATGGTAGAAGATGAATCAGTATGAAGACACTGT
Y
AATGAGGTTATGAGAAAAAAACAGCAGGGGCATTAGTTTCAGGCAAGGCAGCTCCCAGGTTTAGAGATTAATTTTTACCCCCTAAGGAATATCCAGTCAA
Celera SNP ID:            hCV2935173
SNP Position Genomic:     87138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;JBIC-allele(T,367|C,1134)   total(C,1134|T,367)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:43376):
TGTGGTATTTACATGACCAGTTTGGGAAAAGAAAGGCTGCTCACAAACTGAGGGAACCAAGCCTGGCCACCCTGAGCAGATCAATATTTGCCCCCTGTGA
R
ACGTTCTGGGAAGTGCCGCATAAAATCAATCCACTGCTAGGAAGTGCTCCCTTCTGCCGGGACCATTTTCTTCCCTTCTGCAGCCCACGCTGGGTTTTGG
Celera SNP ID:            hCV2935174
SNP Position Genomic:     88645
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:43377):
TTATTTTTAAGTTTAAAACCAACTATGAGAAGAGAAGCTTTAAAGTGCCCATCCAGGCCAACGAAACGCTTGTGGGTGCTGTGATAAACAATGTGTCTGA
S
GCCATGGAGACTCTTACCCGAATCACAGAGGAGCTGGTCCCAGTTCCAGGATCTGTGAATGGAGTCAATGCCCTGGGTCTAGTTGTCTTCTCCATGTGCT
Celera SNP ID:            hCV11471442
SNP Position Genomic:     76365
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(C,1|G,35)   total(C,2|G,72)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:43378):
CACGGTGGCTCACACCTGTAATCCCACCACTTTGGGTGGCCGAGGCGGGTGGATCATGAGGTCAAGAGTTCGAGACCAGCCTGGCCAACATGGTAAAACC
R
AGTCTCTACTAAAGATACCAAAAAATAGCCAGGCGTGGTGGCATGAGCCTGTAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATTGCTTGAACCTGG
Celera SNP ID:            hCV28014937
SNP Position Genomic:     43211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43379):
TAAATTCCTATTTTTAGGCTTCCCAAAGAAAAACACAATCCTATGTTCTGTTGGCTGACAAGACTAAGATTAAAAAGTGACATAAAGCGTAGGACTGCAG
M
CTTTCTATAGTTTATTATTTGTCTCCTGAAAAGGAAGATATTTGTATTTCTTTTAGGAACTTCACTCCAACAGATTTATTCTAAAACAATTCCTGACTGT
Celera SNP ID:            hCV27499657
SNP Position Genomic:     48914
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,148|C,1329)   total(A,148|C,1329) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43380):
ATAAGCATAACTAGAATTGTCTGCAAAATAAGCTTATACACATGGTAAAGGCCTCATGATTCTAAGCCTGTGTCCCAGGTTCCCTTTCAAGTTACCAAGA
Y
TTGCAGAGTTACTTCATTATTATGAAGATGGTGAGTGCATGCAGAACAAATGTATTCCTGGTAAAAGAACATTAACATGATGGGGAATGCAGCTATTCTA
Celera SNP ID:            hCV27499658
SNP Position Genomic:     50392
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,94|T,831)   total(C,94|T,831) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43381):
AAAGGAACTTAATTAAAATAAAGCCTTTTTTTTCTATATCACCTGTTCGTGAATGCTTATTTGTTTCCTAATTATGCCCCAATCTTTGTAACTCTGTATT
R
AGCCAGGTCAGAATGAGTTCCACTGCATTCAAGTTAGACAAAGGGATTTTTTTACTTGTTGAAACTAGAAAGAGTTTTTTTCTATAAGTTCTATTGAACC
Celera SNP ID:            hCV7583500
SNP Position Genomic:     28551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43382):
AAATCATCTTTCGAGATTCCAGAGAGTCTTAAGTTATTTTATAAAGTGTTGTGAAAGTCTCCACTTTCATGTTAAAAAGTACTATATGCTGCATAACATT
Y
TTCAGAAAGGGTTATTATGGAAGGGCCGAGGGTCAAAGTTCCAAGGTCCTGAAAGTATTACACTGCTTCCCTGAGCAGTGTCAGACCAGAAAAACCAACA
Celera SNP ID:            hCV27499659
SNP Position Genomic:     51270
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,150|T,1341)   total(C,150|T,1341)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43383):
TGTCTGTAAAATACATAGTATGGATATTTCTCCTTTTTAAAAGTGTTAGATTATACTTCAATTTTTAAAAGCATTAAAATATGTTAGCTTGTATAGATAC
Y
ACTAGAAAATAAAAAGTTAGATGAACTTTTTCTCTTGGGTGAATTTTTAGACAGTGTAAGATAGATGACAGACCACACTGACAAGTAGTTCAAGAATCTG
Celera SNP ID:            hCV27509402
SNP Position Genomic:     80803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43384):
ATCACGAAGTGTCTTTGAATCTGGCTGAATATCTAGACTTAATGAGTGTTTAAGGCTCCATGTCAACCTGCAAAGATACCTGGTGAAGCACCCTTATGTA
Y
TTTTCTAAAAAAACCCTGCCCTGTTCCATACTTTAATCAACGACTCAACAACATAGAAGTCATCTACATAGTGTTTTCATACGACATAAGCCCAAAAAGG
Celera SNP ID:            hCV1393680
SNP Position Genomic:     56883
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43385):
TGAGCGGAGATTTTCGGGCTGACCAAAACTTGAGGCGAACTGAGTCTCCATCTTAACACTCAAACACACTTCATGGCGGCCTGGAAACAAGGCAATCATT
R
TGAAGCTTCAGCCCAGTTCTTCTGAAACCAACGTATTGGGCCTGCTTCATTGTCTCTCTAGGGGCTAATCACAAACATGTGGGAAGGGAAGCTAAGGAAT
Celera SNP ID:            hCV7583503
SNP Position Genomic:     35237
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43386):
TTATTAAGGCATCACGTATGTTAATTTATTGAATTCTCAAAAACATCCATTTGCCAAGAGAGTGAGGGATTACATACCTTGACCAGTCACAAGCTGATAA
R
TGGGGGGAGCCAGGATTCAAGCCAAGCAGCCCTGGAGTTCATGTTGATGACAACCATTTCCTTCCAGTTCGTACCAACACGTTTCTGTTTTCCTCCAATT
Celera SNP ID:            hCV1393681
SNP Position Genomic:     58952
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43387):
TTTGCATGGCTAAAGAGAAATTTTTGGTCAAAACTTGGAAAAATTGTTAACATTTATAATATTGTTAAAGAGAAAAGAATTATAAGCTGCAAACAACTAA
Y
ATAAAATGAACTTTTAAAACTGTAACCTAATTGCAAGTTGGGAGTGTTGCCAAATTGGACCATTAAGAGAGTTTTAGCTCTTGTCCAGGACTGTGCTAAG
Celera SNP ID:            hCV27479987
SNP Position Genomic:     30946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43388):
TATAAGCTGCAAACAACTAATATAAAATGAACTTTTAAAACTGTAACCTAATTGCAAGTTGGGAGTGTTGCCAAATTGGACCATTAAGAGAGTTTTAGCT
Y
TTGTCCAGGACTGTGCTAAGGCAAGGAGTCTGAGGGGCAGAATTTAGTTCGCCAAAGATCTTTTTAAGGTGTTAGTCTGAAGTGAGTAATTTCCAAACTA
Celera SNP ID:            hCV27479988
SNP Position Genomic:     31026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43389):
TTAATTTCAGTTTCAAGCAACAAACAACTTCAGTCCATTTCAGAGTGCTAACGTTGGAATCTGGTTCCAGAATCTTTGCAGAGTGTGGGTGGGCACAGGT
K
CATGTGGCTCCTTTGGCCATAAGAATCTGCTGCTTCCCAGCCTCATGACTGGGCCTGGAGTCACACTCCTGCTTCAGCTGTTCTTTGGCAAAGCAGGGCC
Celera SNP ID:            hCV1393683
SNP Position Genomic:     60990
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43390):
TCACGAAACAAACCAGTGCAAAGCAAACACAGTACACCCATTCCAATGTAATTCCAATGGCAGGCCCATTCCAACCCTCAGACTACCAATATTTGAACTC
M
GGTTTGAATGTCAGAATCCAATCATTGGCAGTCCTGTGCCAAAGCTTAACTGATAATGTGGAATTCACTACTGAACATCATGTTTACTGCTGACTAAACA
Celera SNP ID:            hCV27479989
SNP Position Genomic:     31768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43391):
TTCTGTGCGTAAATTCACCTACTTTTCCCGCCACCATCAGTGGTCCTGGTGCTGCTGGTGAATGGGCATCATGGGGAGACAGGGCTTTCCACGTGATAGA
R
GTTTCTTTCCAAACCCAGGCTTTACAGGTAGATCCAAGGGTGGCTTTCGTCAGCCTGTTGCCCCCACTGCCCAACACACACTTTGCTTTTTGCTGCTATT
Celera SNP ID:            hCV1393684
SNP Position Genomic:     61643
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43392):
TAACTCACATACATGCAATTTACCCATTTAAAGTGTACAATTTAATGGCTTCTAGTATATTTACAGAGTTGTGCATCCATCATCACAATCAATTTTAGGA
Y
ATTTTTATCACCCCAGAAATAAAGCCTGCATTCGTTGGCCATCACCCCCCGATTCCCCCAAGCCCTCAGCCCCAGGCAAACTCTAGTCTACTTTCTTTCT
Celera SNP ID:            hCV7583509
SNP Position Genomic:     42055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43393):
GAAATGCTGTTCCCATTGTTTTCCACTGGAGAATTCCCTGGACTGACTTCCTGAAAATCTTCTGTTTGCCTCCACCAGGAATGGCGGCGCTAGATAGTAA
R
GCATCAGGGAAGATGGGAATGCGAGCTGTAGTCTATTATATGACTACCACCATCATTGCTGTGGTGATTGGCATAATCATTGTCATCATCATCCATCCTG
Celera SNP ID:            hCV25762713
SNP Position Genomic:     70437
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:43394):
GGCTTTCTTCCCTGGTCTTTCAGCTTAGAATCAATCCATAGGCACGACATTCACAGAAGATAGAATTTGACTCAGGAGCACAGCCCAAATCTTGAATGTA
K
GTTTTAACGCTTAAACTAACTTTATTCTAACCTTACCCCCAGATTACTATGATTGCATCCAATGTCCAAAAGTTATTTCAGCCACTAAGGTTGATTTGTG
Celera SNP ID:            hCV28036723
SNP Position Genomic:     208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:43395):
CCACTACCTGAATATTAAACCACCATTAGAATCTGATACTCGTCATTGAAATACAGCATAACCTTTTAATACATTTGTGGAAACACCATTTTAAATTGTT
A
AAAAAAAAAAAAACTCAATTAACTGTAATTGGATTACACTATAATTGGATTTTAGTGGGATTGGGGAGGATAAAGAATGAAGAAAAGTGAAGATACAGCT
Celera SNP ID:            hCV11357516
SNP Position Genomic:     69345
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,11)   total(A,3|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43396):
ATTCAGTTCAATTGGACATTTACTGATTGTGTACGTTGTGCAAGGCATCAGCTGGGTTCTGCGGGGGAGGGTGGGAATAGGGGTTCTCAGTCAGATCTAG
Y
TCTGAAGAACCCTTTTATAGCCTCATTGGAAGGGGAAGGACGGATTTTTAAAAAGAAAATAGAATATATTCCGAATTTATGCACATTTCTCACACGTGGT
Celera SNP ID:            hCV28036724
SNP Position Genomic:     7458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43397):
ACTTCTATGAGGCTTTCATTTCAATTCCTTTTCTTCTGTGAGGGACAGGCCTTCCTTGGGAAGAAAGGTCACCCCTTGAGTCTGACATGCTCTGCAGTCA
R
TTTGAGAAGCCTTTTGGTTAATTTTGGACAAGTCAAGCCTGGTGGTGGAATTCGGTCCCATTTAGCATTCTGCCAGCTAGGAAGCGTGCTATCTCGATCA
Celera SNP ID:            hCV27479990
SNP Position Genomic:     61229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43398):
CTCTTTCCCCACAAGGTTTGTCTCTTGTTGTTCCAGACAGAATGAACCTCATTATTTTGGATTAATTGGGGGAAGATCAACCAAAATTAGTGAGTCAGAA
Y
TAAAGAGTGTTTTAAACAAAAGCAACTTTAGAATTTGTAATTCATATAGTAACCCAATCTAAGTGTTAGAAAAAAAAAAAAAGCATGTGGCCTCTATCCA
Celera SNP ID:            hCV27479991
SNP Position Genomic:     64536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43399):
CTAGTATATTTACAGAGTTGTGCATCCATCATCACAATCAATTTTAGGACATTTTTATCACCCCAGAAATAAAGCCTGCATTCGTTGGCCATCACCCCCC
R
ATTCCCCCAAGCCCTCAGCCCCAGGCAAACTCTAGTCTACTTTCTTTCTCTATAGATCTACCTATTATGAACATGTCATGTAAGTGATATCATTCAATAT
Celera SNP ID:            hCV7583510
SNP Position Genomic:     42106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43400):
TGTATATATCAGTACTTCGTTCCTTTTTATAGCTGAATAATAATATGATACATACATATTGCATATACATGGACATGTGATATGTCCATATAATGGAATA
Y
TACCCATTCATATAATGAACATATCACATGTCCATATTCCATATATGACATGTCCATATAATGGAATATTATCCATTCATTAGTTAGATATTTGGGTTTT
Celera SNP ID:            hCV7583511
SNP Position Genomic:     42369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43401):
AGTTGCACTTAAAACTAATTTATACAATTAGTACACCTAAAATGACATGTTGGTTCCAAATAGTAATTATATTCTAACTGGTGCTGACTTGAAGCTGAGT
W
TCAACGCTTAGGCACAGAGACCGAATATTTTATGTGTTTGCACTCTCTCACCCAGCAACTGGGAAAGGTAGATTGGGGAAAATGTTAACACAGATCTCTT
Celera SNP ID:            hCV29246892
SNP Position Genomic:     8454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43402):
CCAATGGCCCGCTTTCTGGTTTAGGTGGCAGAGTGGCTGATGATGCCACATTTGAAGGTAGGATACAGGAGAAAGACTGGGGCCTTGGGGGTGCACGAGG
R
TAAGTTCAGTTTGGACCTGTTGAGTTTGTGGGGCGGGATGCCACCGAGGTGCATATACAATGGAAGAAGCTTGCTGCAAATCAAGATTTAGAAGGTATTC
Celera SNP ID:            hCV29246893
SNP Position Genomic:     12494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43403):
GAGTGGCTGATGATGCCACATTTGAAGGTAGGATACAGGAGAAAGACTGGGGCCTTGGGGGTGCACGAGGATAAGTTCAGTTTGGACCTGTTGAGTTTGT
R
GGGCGGGATGCCACCGAGGTGCATATACAATGGAAGAAGCTTGCTGCAAATCAAGATTTAGAAGGTATTCCTACAACCTCCAAACTGAACGAAGACAGTT
Celera SNP ID:            hCV29246894
SNP Position Genomic:     12524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43404):
TATTCATGGTATCAGTGACATGGGTAGTATCATCTCAATGAAGGAACAACTTAGGGAAGGAACGATGCACCCGTCTCTTGCCCTGCCTCTCCAGTATTCG
R
GCTTCCTTGCTGGGAAATAACTCTATTAGCAGAGAAGAAGGGGGTCTTTTCTTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTTTT
Celera SNP ID:            hCV27495383
SNP Position Genomic:     35788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43405):
GCTTTAATTTGTATGTTACATTCAACTTTTGAAGCCCTTTCACATCTCTTACCATCTATCATCTTCACAATAAACTGTGAAAGAGATGAACCAGGGTTTC
R
GTTTTTATCCCTCCCTCTAAGCCTTCACCCCCTACCACCAATTTAGCAGAAGTTTAGAAAGTGAAACATTGAGTGATGTGTCAAAGGCGCTTAGAAATAA
Celera SNP ID:            hCV29246896
SNP Position Genomic:     17696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43406):
ACTCAGAAGGCTGAGGCGGGAGGATCACTTGAGGCCAGAAGTTCGAGACCAGCCTGGGCAACAGAGTAAGACCCTAGCTCTAAAAATAATGAAAATAAGC
R
AATGGAAATTTATGTCCAACAGCTTCATCAAACTGTAGTTTGTAAGCAAACATAAAAATCATAAGTGTGAGACAGGCTTATGATTTCTCCAAATTGGGCC
Celera SNP ID:            hCV29246897
SNP Position Genomic:     19024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43407):
TTAAGGTAAATTGAAGAAACCATAAAATTAATCCGGTAACAACATGGGAGCCAGCGAGAATTCCTACCTCATTACTGGAAGGGATAGGTTTCTGCCCTGC
K
GCATGGAATTCGATTACCTTATCACAGCTGCATAATTGTAAATATTTTCATTGGTTATACAACTGCTGTGTCTTTTCTGAGAAACTCAGCCCCAATGTGT
Celera SNP ID:            hCV646733
SNP Position Genomic:     34985
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:43408):
AAATGTTAAGTCTTTGGCTACACTAAAATAATTGTTGAAATCCCTTAAAATGTAGATGGTAAACTCATCAGTTATAACTTTTTGTTGCACTAAAATATGA
S
TTTATTTCTTTAGTTGTAGTGAATAAAAATAAAGTTAATTACAAAAGTAAAGCAGGTAACACAACTATTTGAATATGCTTAACACTATTGAACTGTACCT
Celera SNP ID:            hCV7583518
SNP Position Genomic:     43836
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43409):
GGAATAATGACTTCATTAGAACACCTATAACCTGATTGCAGTAGTACATACATGCACATTATTAAGTTTAATAATGAATTTATTTTATGGACATCTTCTA
W
TTATGGCAAGTGGTACTAGATTTCCATTTGTACTATAACATAGAATTTTCTCTTAAAGTAAATTTACTTAAGTAAAAAAGGTGATCTGAAGAATAATACT
Celera SNP ID:            hCV27933792
SNP Position Genomic:     78300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43410):
AAAATCTCATTTACGTTTTTTCTGAAGCGCGTCCTCTTGTGTTACATGGCAAGTCAGGCATCGGCACCGTGCGTATTTTGCAGCGTATATGCTCTACGTG
S
GGAGCTTTGTAAAAGTGTTTTCTGTTCTGGTACTTCTGTTAACAGCATCACAGCCACAGCTGCCAGTATTGGGGCAGCTGGAATTCCTCAGGCGGGCCTG
Celera SNP ID:            hCV25617104
SNP Position Genomic:     83202
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,3|G,25)   total(C,3|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:43411):
GTGCTTGACAGGCTTTCAACGACAGAAACCTTCCCTTTCGAAGGGAGCTTGCAGGAAGGGAGCCAGGAGACCTGAGGATCTCTGGGCTCATGCAACCTTG
Y
TACCAGAGCAGGAATCCCCTCTCCAGCCCCTGGAAAGTGGCCATGGAGCTCCCCTAAATGGTCCATTCTTAGGTGGTCTCAACTACGAAGTCTGTCTTCT
Celera SNP ID:            hCV646738
SNP Position Genomic:     36244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43412):
CTGTTTCAAAAAAAAAAAAAATCTCATTTACGTTTTTTCTGAAGCGCGTCCTCTTGTGTTACATGGCAAGTCAGGCATCGGCACCGTGCGTATTTTGCAG
Y
GTATATGCTCTACGTGGGGAGCTTTGTAAAAGTGTTTTCTGTTCTGGTACTTCTGTTAACAGCATCACAGCCACAGCTGCCAGTATTGGGGCAGCTGGAA
Celera SNP ID:            hCV25617105
SNP Position Genomic:     83185
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,6)   caucasian(C,9|T,19)   total(C,39|T,25)
SNP Type:                 INTRON


Context             (SEQ ID NO:43413):
GATGGTCTCAGGGGAGCACCTAGCAGTCTCTTGGGCACCTAAGCATAAGCAAAGTGTCCCAGTGCTTCTTCTGTGCCTGTTCTCCAGGACTTCCACCATC
Y
TGATTGCCTCTCCACCATCCACTGTGCTCCCAGAGCTGATCCTGGTGCTCCAGATGTCATGTGACTGGGTAGGGACAGTGGTCTAGATCCAATCCTCTAT
Celera SNP ID:            hCV646739
SNP Position Genomic:     36506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43414):
TTGTTGCAAGGATTAAATTTGCTGCTAACCTAGGCAACACCCAGCATATAGCAAGAGCTCAGTAAGCATTAGTTATTTACTATTTATTTCAGTGATACAA
M
CAATATGGGCAGGATTTTGCCCCACCTTTCTGCGTTTTCCAATTCAACTTTTCTCCTTGACCATATTACTGTTACATTGGAAAAAAGCAATAAATATTTA
Celera SNP ID:            hCV1400755
SNP Position Genomic:     27441
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43415):
TGCCAAACAACCTAAATGTTCAACAATAGAGTGAGGACAAAGTAAAGCCTGATACAGTGAACGAATCTGATATCAGGAGACCTAAAAGTGATGTTTATGG
K
GACCGTATATGGAAAAGTATATTCTGTATGATTTCCATGTGTTTAACTATGTATTGGAACATTCTGCAAAAGAGACACACAAAGTGGTTGCCTTTGCTCT
Celera SNP ID:            hCV1400756
SNP Position Genomic:     27062
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43416):
GGTCCACCTCAGCCACTCCATGGACTTAGGTGAGCACGTAACCCCTCTTTAAGCCTACTGTGGCGCCAGCCTGCCAGCTGTGTGGTTTTGGCAATTTACC
Y
GCCCTCTCAATGACTCTGATTCCTCATCTGTGAGATGTGGATAACAATAATAGTCCTGGCCTCGATACAATGCGTGAGGCAATGTGCTTGTGAGGACTTG
Celera SNP ID:            hCV1400759
SNP Position Genomic:     23895
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43417):
CTCTGTGTTGCAGATACAAATACCTTTTACCATTAGAAGATAAAAGCTCACTTTAACCTCACTTGAATATAAGAGCTTTGTTGCCTAAAATATTAAAAGG
R
AAACAGACACTCTTGGTTAAATAATATTTCCCAAACATTTCTCCAGATGGTGTCAATTCACTCCTGTTGTAATTCCCTAACGCTTCTGCTTAGGATCTGT
Celera SNP ID:            hCV15755835
SNP Position Genomic:     74383
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIC-allele(G,566|A,893)   total(G,566|A,893) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43418):
TCACCAACTCTGCTGCCACCAACACTTATCTTTTCCTGGTGTACCCGCATGATTTCATTTCCTTCTCCAGTTGCCTCCCACCCCCGTTACCTTTTATGCT
R
GTGGGAGAAGGGGGAGGGGGCGGGAGATTTTCCCATCTGAATATTTTATCAGTGGACACTTGGATTTTTAACAAGTGGAAGCTTTGCAGGATAGGATTCT
Celera SNP ID:            hCV27514898
SNP Position Genomic:     29556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43419):
AAGGGAAAGAAAATGTTTCTCCCCAGGTCTAGTTGGCTTAGACCAGGATGCAAACAAGGTTGCAGTTTCTGTGCATGCTGCAAACAGAGTCTAAGGGGAA
Y
GAGTTAGAGGCATAAGAAAGCCTGATCAGGATTGAAAATCTGCCCTGGACAATCCATAAAATGCATAAGGACCCAACGGAATAAAGAAATTTGAGAGTTG
Celera SNP ID:            hCV15755836
SNP Position Genomic:     74983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(C,74|T,1401)   total(C,74|T,1401) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43420):
AATGTTCTCGTGCTGCAGAACACTCAGTGGTAGATGAAGGGTGGTTTGTGTATCTTAATGACTGAGTCCCTGCTCATCGATATCCCAATCACTTGACTTC
K
TAACACAGTTTATCTCCCTACTTGAAATGTTTTACCTTTCCCCCCATTCGAAAGTTATTCCACACACATTCATGAAGCATTTTACAAATGCTGCAGCCTC
Celera SNP ID:            hCV27514899
SNP Position Genomic:     53777
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,155|T,1306)   total(G,155|T,1306) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43421):
CAACAACACTGTGAGGTAGAACCAGCACAACTGTTCTTGTTTCACAGCTGTAGAATGTGAGAGAAAGGATACCAGGTGATTTATCTATTATACCATAGCA
Y
GATCCCCACAGAAAAGAAAAGGACTATTGTGAATATTTGGGTTTATGGTTTTAAAAAAATCCCATTATAGTCATTTTATTAGGGTTTCAGAAGAAAGCAA
Celera SNP ID:            hCV15755837
SNP Position Genomic:     75851
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,10)      total(C,10|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43422):
GTGGATTGGGGGCAGATTGTGGCGCGAGATCTAGAAAAGGATCAAGGTTGAGCGGATCTGCTTAAAAGTGACTGGTAAGAGGAATCAGAGCTATTAGTTT
A
AAAAAAAAAAAAATCTGGTCTCTCCTATTTCCCGGTCTTCACTTCTCCCTAAGCATTTAATCCAGTGTGAAGTCTTAAACAAATTAGAAGTCTTAGTATC
Celera SNP ID:            hCV26821530
SNP Position Genomic:     6436
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,6)   total(A,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43423):
TGTGTGTCACAAAGAAAAACACTACTTCATACTTCTACTTGTGATAAACGAAGCTGAATTGTGATTTCAGATGATTTATAGATGTGCCCAGAGCACTTTG
Y
TTATTTCATGGAAAAAAAATGAAAAAATTACCCTGTAAAATAGTCACATGTATTTCCCATGTACTGTGGGCACCTGTGTTCTTTTTATGACCATATTTAC
Celera SNP ID:            hCV26821531
SNP Position Genomic:     7084
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43424):
AACATTACAAAGGAGGATGTTAAAAGTTACCTGTTTCGGAATGCTTTTGTGCTGCTCACAGTCACCGCTGTCATTGTGGGTGAGTCATTTGATTAAAAAC
A
AAAAAACCTGTATCTTGTTTCTCTGGGGCATCTGGCTGCCCGGGGAATATTATCAGATGAACTAGTTGTAGGTATCAAAATGGTAGCCTAGGCTTTCCTC
Celera SNP ID:            hCV26821532
SNP Position Genomic:     8021
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43425):
CTTTTGAATTAACTAAGCAAACCAAACTAAGAAACCAAATTTGATTCTTTTGACAACATTAATCATGAATGTTCAGTAACTTTACAACCCTCCACTTGGA
Y
AGGGGAATTATTAGAAACAAATTATTATTGTAACTCTACAGCATTTTAGACTTTGCCTTACAAAATACTTTCAGGGATGTTTAAAAGTGTATAGCTGCCA
Celera SNP ID:            hCV11357526
SNP Position Genomic:     82540
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43426):
TGACATCTTTTAAGAGATGCCAGGAAGAGAAATACCCTCATGAGTTGATGAAGGCCAGTTAGCTAGCAGTGCATTCACACAGCATTGTCATTTAACTGCA
W
GATTTACCCGGTTACCTCAAAAGAAAACTTACAGTTCTCCTATAGACCATTAAGCCACTTCCTTCTCATTCATTTAACACATACTCATTTATAATTCATG
Celera SNP ID:            hCV26821533
SNP Position Genomic:     9709
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43427):
AGTTTTCAAATTCCTAGGTTTTTATTGCTTTTAGTAAAAAAAAAAAAAAAAAAATCACTGGGAAAACCTATGTACTGGGTTGAATCTTTTGTTTAGACTG
T
TTTTTTTTTTTGCCTTTTTGAAATAAAATGTATATGATTTAATGTGTAGAAGTGGAAACTAGAAAAATATTATGATAAAGACATGTGAATCCATATATTC
Celera SNP ID:            hCV26821534
SNP Position Genomic:     10741
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43428):
AGGGAGTTAATCACAATGATCTGCAGGTATCAAGCCACCCTATAACATTATTTCATACCAAGTTGACATTCAATAGCTATGTTTTTATTTAGTTCATACA
R
TTAATTAAGGCTTTTCACCATTTCTGCATGAACTTTACCCTCAGATAGTTTAGATTAGAAGTATTTTATTATATTACATTTTCTTTCCCTGTAATTTTTA
Celera SNP ID:            hCV27477178
SNP Position Genomic:     72230
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43429):
ACTTAAGCCCAGGAGGTTGAGGCTGCAGTGAGCCATGTTCATGCCATTGCACTCCAGCCTGGATGACAGAGCGAGACCCTGTCTCCAAATAAGAAAAAAA
W
AATAATAATAATAATAATAATAATGGTAATAGCTAACACTCACAATGTATGGAAAGCACTATTGTGTTTAAGTGTATTAACTTTATTTAATTCTCACAAC
Celera SNP ID:            hCV26821535
SNP Position Genomic:     11999
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43430):
GGGTGAGCTGCTTTACCACAGAGAAAGACTGGTTGTGGCCGGGAGAGGTGGTTCACGCCTGTAATCCCAAAACTTTGGGAGGCTGAGGTGGGTGGATCAC
R
AGGTCAGAAGATTGAGACTACCGTGACCAACAATGTGAAATACCGTCTCTACTAAAAATACAAAAAAAAAAAAAAATTAGCCATGCATGGTGGCGCATGC
Celera SNP ID:            hCV26821536
SNP Position Genomic:     23034
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43431):
GTCATGCTACGTCTCCTTGGTCGGAAAGACAGAGCAAAGAGGGCTCTGAGAAGTCTGTGTATCAGGCTGTGTTTCCATGAAGGCTTTTTTCATTGCTGGG
S
TAGAATGTAATAGGAAACTAGAACTGCCTACCAAGATAAGCAGCCTTCGTATTCACCGCATTTCCTCTTGATTTGATGCTGATAGCTGGCCGACCCTACC
Celera SNP ID:            hCV26821537
SNP Position Genomic:     23395
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|G,7)   total(G,7|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43432):
GTGGTTGAACATTCTATTATTTGGTGAGACTATGACTGTCTAATTGGTCAGTGAGAATCTGACTTGTCTAGCAACAAAAGAACTCCTTGAGAAGAGGAGC
K
ACTATTTGTACATTTGCATTGCAGCCCTGGTTGCAGTGATGAACTCTTGCTATAGTATGTTACAAAATTATGTCATTGATTTGTAGATTGAGTATAGTTG
Celera SNP ID:            hCV27924909
SNP Position Genomic:     56002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43433):
TTCTACAAATTACACAGACCCCTGGAGGATCCCTGTGTATACTGGGAAATGTTACTGGAGAATGTGTTGCCTAGGGAAGAAACAAAGGCAGGCTCCATTG
C
TTTAGAGTGGAAAGGCAACCTCAAATGCCTCCAGTGGCCACGTGGGTGATGCATGTACATGAAGCTGCCCTTTCAGGCTATTTTTTGTTTTCCTATTTTG
Celera SNP ID:            hCV26821538
SNP Position Genomic:     31358
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,11)   total(C,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43434):
GCTGGCAGATCACTTGAGGTCACATGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGAGTGGTGGC
R
TGTGCCTGTAATCCCAGCTACTCGGGAGTCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCTGAGGTTACAGTGAGCCAAGATTGCGCCACTGTAGTCC
Celera SNP ID:            hCV26821539
SNP Position Genomic:     33540
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43435):
GTCATATTTGTGGTCTCTCTAGAGAGACAATTCCGTAAGTGGTTCCTAAGCCTTGGAAAATTCTCTTTTACAATAGTACCCACAAATAATGTTCAAAGAG
Y
TATTTTTGAGGAAAGGATTCCTCACATTTTTGCAGGTGTAAGTCATTCCTGCCTCAGTGGAGTACAAAGAGTGATGTGAGGGAAGCAGAGCTGCTGGCAG
Celera SNP ID:            hCV7583524
SNP Position Genomic:     46233
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(T,153|C,1314)   total(C,1314|T,153)
SNP Type:                 INTRON


Context             (SEQ ID NO:43436):
TTTGGCTAAAGCTTTGAAGTCATAAGATATGTAGTCTAGGTATTGTAATTGTGCATTTCATATTTCAAAAATTGTAAAATTCAAATGTTAAGTCTTTGGC
K
ACACTAAAATAATTGTTGAAATCCCTTAAAATGTAGATGGTAAACTCATCAGTTATAACTTTTTGTTGCACTAAAATATGAGTTTATTTCTTTAGTTGTA
Celera SNP ID:            hCV646741
SNP Position Genomic:     43754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43437):
TGCAAGGAGAGCCCCTCAAGTTCTGTTTTTGGGGATCCTCCCCTTTTGAAAACACTAATCGGACCTCAAAACCAGATTTTATCTTTGAGGACTGACTTCC
R
CTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGATAGAGTCTCACTCTCACCCAGGCCAGAGTGCAGTGGCGTGTTCTCGGCTCACTGTAACCTCCGCC
Celera SNP ID:            hCV646742
SNP Position Genomic:     44704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43438):
TGTCATTCATCATTCATTCAACAAAGCTATACTGAGTTCCTGCAGTGTTAGTCACTGGGCATATAGTAATCAATGTAAACCATCGTGTATTACTATACTT
S
AAGGGCTGTGACCTGGAAAATCACTGATATGTTATTCCAGAATGAATAAAAGTGAAGTTGAACTTAAGGCATATACTTTAAAAGAATGGACTTTTTAATA
Celera SNP ID:            hCV27876406
SNP Position Genomic:     56237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43439):
ATGTGTTTCAAATAAGTGACCACTAATGAAGCTCAGTTTTGCAAAGGGTGAGCTGCTTTACCACAGAGAAAGACTGGTTGTGGCCGGGAGAGGTGGTTCA
Y
GCCTGTAATCCCAAAACTTTGGGAGGCTGAGGTGGGTGGATCACGAGGTCAGAAGATTGAGACTACCGTGACCAACAATGTGAAATACCGTCTCTACTAA
Celera SNP ID:            hCV1400761
SNP Position Genomic:     22989
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43440):
CTGTCTAAGATGATGGAGAAATGACAAGGAGGGAAGTGTGGAAACAGGTGAGAGGGAGCAGAGTAGGAGATGGGTTCTGAGGCAAGGTGGATCTAGGGGG
R
CTTGCCAGGAGCACCCATTGATTGCATGGTCTTGGGCTTTGACTACATGAGAGGAGGAGTCAGTGGAGGGAGTAGGGGAGAGAGATCCTGACCTAGGTCT
Celera SNP ID:            hCV1400762
SNP Position Genomic:     20795
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43441):
GGGCATGATCACAAGTGATGCCTCACAGAGGAACCCAGAAGCAGGAGAGCTGCCAAATGACCCCGTGAGGGGACCACACTGTTCTTAACCTGCTCCCCTA
Y
TTATACAATTGCTGACTTAGTTCCCTTTAAGTTAGAACATGGGAGAGGAAGGAACTGTCTGTCCCAAAGACCAAACGCACAGACAGTCAGAACTACCAGG
Celera SNP ID:            hCV25617114
SNP Position Genomic:     79642
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43442):
GGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTACAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACAACAGG
Y
GTGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGAGGGGGTTTCACCATCTTGGCCTGGCAGGTCTCCAACTCCTGACCTCAGGTGATCCAC
Celera SNP ID:            hCV1400763
SNP Position Genomic:     20445
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43443):
CCTAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTACAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACAA
Y
AGGTGTGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGAGGGGGTTTCACCATCTTGGCCTGGCAGGTCTCCAACTCCTGACCTCAGGTGAT
Celera SNP ID:            hCV1400764
SNP Position Genomic:     20441
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43444):
TTTCTATAACACTCATCTCTGAATACAAAGTAACAGAGTAACAGTAATCATTTTAGAAAATTTGACAATAGGAAAATATAAAGAAAAAAATAAAAATCAC
Y
TTTAATCCTCGTTGTGCTTTTTATTTTTAAGTTTAAAACCAACTATGAGAAGAGAAGCTTTAAAGTGCCCATCCAGGCCAACGAAACGCTTGTGGGTGCT
Celera SNP ID:            hCV25617115
SNP Position Genomic:     76244
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,1)   caucasian(C,2)   total(C,5|T,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,38)   total(C,68|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:43445):
ATTAAACGCTACAGGTTTGATGTGAAAATTAAATCATTTAGATAAAGCATCGCCTACCCTAAGTTACTGACAGGATCAGGCCCAGAACTGTCTTTCTACA
R
CATCACACTTGCTCTCCCTTCTACTCAAAAAAACCTACCTTAGGAGCAAATTCGGGATCCATAGCTGTCATTCCTCATTTGTGAATTTAGAAAGCTAAGC
Celera SNP ID:            hCV1400765
SNP Position Genomic:     19678
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43446):
TTCCTCTTTTCTATACCAAACCAAGTGGGACCCTCTTTTCCCTGCTCATTTCTCTGCTATAAGAAACACTTCTCTTGTCAACCAGATTAAAAACACTAGC
R
TTTTCTAGGAATTTTGGGGGGAAAGGATGGTTCTTACCTTGTATTGAAAGCTTAGTAGTTGTCAGACACAGTGTGTCTTGCATACAAATATCTCATTGAG
Celera SNP ID:            hCV25617116
SNP Position Genomic:     73613
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43447):
CTCCAAATTGGGCCAATTCCTGAAATAGAAATTTTTATTTGATTTCTCATATAATTATTGCATGCCTGCCATAATAATTGTAATGGCTAAATTGCTAAAA
Y
ATTTTTTGACTCATTAAATGCTCTCATATGCATTATCAAGGAGTTTAGAATTCATTAACAGAAACAAGATGAATTAGTATAAAGCAGCTAAGATTTATAA
Celera SNP ID:            hCV1400766
SNP Position Genomic:     19211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43448):
TAGAGAAGTGTTACTTCCCCTTAGCAGCAGTCCCAGTTGATCACCACCTTGAAGTGGAATTTCCTGATTTTTCTTAATACCTAATAACAAACAACTTTAT
Y
GAAGAAATAAGAACTTTGGTTGTGTAATTTTTCAGAAAAAAAAATACTATGATGCAATCCCTTTGCATGGCTAAAGAGAAATTTTTGGTCAAAACTTGGA
Celera SNP ID:            hCV29246901
SNP Position Genomic:     30784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43449):
AATGATCTTTCACCCATGTATCTGGATATACCTAGAAGTGAAATTGCTGGGTCTAAAGGTATACTCATTCATAATGTTGATAAGTATTGCTAATTTGTAC
Y
CCATAGAATTTGTAGTCATTTGCTACAAATGTGGGATTTAAAAAAGAGTTAGCCTCGGTACTGTACTGCCTCTGCCAAAGGTAAGCATGAGTGGACTTTG
Celera SNP ID:            hCV1400767
SNP Position Genomic:     17352
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43450):
ACAGTCCCCCACTGTTACTACTTTAGTTGATACCTTTATTAGTTCAGATACCCCCTCTTCTAGGAAGCCTTCCCTGGCTTTCCCCTGCTAATACAGGGTC
K
CAGAGGTGTAGATACGTTTCCACCTTATCACAGTTACTGCATCACAATGGAATGCACTGTTAACATGTCTATCTTCCTCATAGAGGCTTCTTGAAGGTAC
Celera SNP ID:            hCV29246902
SNP Position Genomic:     37515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43451):
AATCTCTTGTTCTTCAAACCAATAAATGCTCCCTTTAAGGACAGGTTGGATTTGGTTATTTCTTGTTATACTGACATTTTTTCCCAAAGAAAGAATTTAC
Y
GATAACATACTTCATCACACAATGTTCACAGAAAGATCTTGACAGATTTTTTCAGCAGGAACAGCATTTGCTGCTGGTGTTTGTGTTTTTTTCATTTGAT
Celera SNP ID:            hCV16065581
SNP Position Genomic:     3503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:43452):
TTTTTTTTTTTTTTTGGCCTATTTTATTTTACTTATGTAGTAAATAAATTAACATAGTCCAAAATAAAAAAATAGAAAAGCTTATAAAAAGAAAGTATCT
Y
ATTGACCCCTGTCCCCCAAGGTTCCCGTTTATCTTGTTATTCATTTCTCGTATGCCTTTGGAGAAATGTTATGACTATAAAAATAAATATGTATTTATTC
Celera SNP ID:            hCV1400768
SNP Position Genomic:     16918
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43453):
CCTAGGCTTTGTGTGGAGGTTGCTTCTCTTTCATTCTTTATTTTTAATCCAGTCTCCTCTGTGGTACCTGAGGCAGGAAAGCATCCATTGCTAAGAAAAG
Y
ACTCAGTCACCAACATGATTAAAAATGCCCTTGTCTTTAATGCCAACAAAGCCCAGAGAAATCCATTTTTCAGGAATTTGTACAAGATGGATATGAACTT
Celera SNP ID:            hCV15755844
SNP Position Genomic:     77557
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,553|C,918)   total(C,918|T,553) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:43454):
GTGCTATAACACCCATTCTGGCTTTACTCCAGCAATTTGCTGAGGGTCTGCCTGAGGTAGCAACGGAAGAGATGGAAAAGAGAGGTCGAACTGAAAGCCC
R
CTGGTGAGACTTGGCAATTGATTCAATGAGAGAAGGTGGACTGCAGACCAATGGCCCGCTTTCTGGTTTAGGTGGCAGAGTGGCTGATGATGCCACATTT
Celera SNP ID:            hCV1400769
SNP Position Genomic:     12346
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43455):
TTGTACAAGATGGATATGAACTTGGGCACAAAGACAGATCAGAATGTGGTCTCCACAGGAGCCCCCACTTGGAAGGCTCCTTTGAAACCCTGGCAGGAAT
R
AAAGTGGACATTTATCTTCATATTATTAAATGCCTCCACCTTTCACCTCTTTTATGAAAGAAGCCCATTCAAGGCCACTGAATGAACCTCACATGCAGCT
Celera SNP ID:            hCV15755845
SNP Position Genomic:     77735
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,477|A,800)   total(G,477|A,800) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:43456):
AGCTCCTGAGAGTGGCATACAATAAGTGCTCAATAAATGCATCCCACATGAGCTGAGGATAATTAGCTAAAAATAAGGAAAATATTGATGCTTTTGTTTG
Y
TTGTTTTGTTTTTGAGAGAGCCTCGCTCTGTCGCCCAGACTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTTCGCCTCCTGAGTTCAAGTGATT
Celera SNP ID:            hCV29246905
SNP Position Genomic:     53236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43457):
ACCTTAGAAGATTGTGAGCACCATTGTGGTGGGACTCAGAGAAAGTTTGGTAACTGACACTCTAAACAGAGTTGGGGGAGAAATGCTGCAGCTTCACCAA
S
TGGCCTGGGCATTCTAGGGATTACCCATGGCCTTTGCAATGTGTAATTATCCATGGTTGAGGTTTTTTTCTTTCTTCTTTGACTTAAGACATCCATTAGT
Celera SNP ID:            hCV29246907
SNP Position Genomic:     58140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43458):
ACTAAGCAAACCAAACTAAGAAACCAAATTTGATTCTTTTGACAACATTAATCATGAATGTTCAGTAACTTTACAACCCTCCACTTGGATAGGGGAATTA
Y
TAGAAACAAATTATTATTGTAACTCTACAGCATTTTAGACTTTGCCTTACAAAATACTTTCAGGGATGTTTAAAAGTGTATAGCTGCCAGTTTATTTAAA
Celera SNP ID:            hCV11357530
SNP Position Genomic:     82551
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43459):
AATACTTAGCCCCGGGTTTCGAGAAAGTGGCCAAGGATAAAAGAGGCTAAGTGCATGGCATCAAAGCCAAAGCTGGCCTCCTTATCTGTGGGAGCTGCAG
Y
TGGTTTTCTCAGAGGCAGAAAGTACACTGAACCTAGTTACATAAGACCCGAGTTCAAGTTCCCACTCCATTCCACTTGGTGTTAAGTCCTTTAAACTGTT
Celera SNP ID:            hCV29246908
SNP Position Genomic:     68853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43460):
GTCATTGTACGAGGACCAAATTAGATAAACCATGCTTAGTATATCAGAAGACACATAGTAAGCACATGATAAATATTAGTTAGCATGATGATTAGTTCAA
T
TTTTTTTTTTTTAATCTCATTTACGGGCCAGGCATGATGGCTCATGCCGGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGGTCAAG
Celera SNP ID:            hCV11357531
SNP Position Genomic:     82785
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43461):
AGATTGCAATAGAAGAAAAAAAATATAAAAGCAAAAAAATTTCCCAAGAAACTACCACAAATACATACTTTTATACTGCACATAATGAACATTCCCGACT
R
TACAGTGCTATAATTATAGTCCTTATGTATGTTTAATTGTAAAAGTCACACATCTACCCTACTTGAATGAATGTATCTGATTGACTCATTGGTAAAAGAT
Celera SNP ID:            hCV654988
SNP Position Genomic:     48340
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43462):
TGATACGATTCAAATACGAATGAAATTATAAATTGAAGGTCATGGCTTCAATTTCCACTTAAGCTAATTACCTTTGTATTAAGATTTTTGAGCAAACCCA
R
CCAGTTATCTGGCAATCGTAGACACCATTTTAATCAGTACTTTACCTTCTAAATATGCAAATATTTAGAGTTCACACAAACTCTAAATATGTTCATGTGA
Celera SNP ID:            hCV29246909
SNP Position Genomic:     69138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43463):
ACTAAGATTGCAATAGAAGAAAAAAAATATAAAAGCAAAAAAATTTCCCAAGAAACTACCACAAATACATACTTTTATACTGCACATAATGAACATTCCC
R
ACTGTACAGTGCTATAATTATAGTCCTTATGTATGTTTAATTGTAAAAGTCACACATCTACCCTACTTGAATGAATGTATCTGATTGACTCATTGGTAAA
Celera SNP ID:            hCV654989
SNP Position Genomic:     48336
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43464):
TTCCAGTGGGAATGATTTTCCCATCCTAGCCCAATAGGGTGAGGCTGAGCTATGCCGACACTGGGAAGAGAGCTAGTGTCATTAAGTGGAATTGAGTTTC
R
GATCTAGGGAAAGTTACAAGAAATGTGCCCTCCACATTCTCAAACTCTAACCTCTACAGGCCCATCCCTTCGCCCCCTTCCCTCGCTCTTCCAGCTGGCA
Celera SNP ID:            hCV27514900
SNP Position Genomic:     83880
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,88|G,1187)   total(G,1187|A,88) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43465):
AACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATTGGGCCATTGCATTCTGTTAAGCCATTGCACTCCAGCCTGGGCAACAGGGCAAGACTCCGTCTCAA
W
AATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATTGCAATGTGAATAATGAAACATCAGTGAAAATAAGTAGTTTTATATTATTATGTACT
Celera SNP ID:            hCV26821541
SNP Position Genomic:     43405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43466):
CACTTGAACCTGGGAGGTGGAGGTTGCAGTGAACTGAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAAAGCAAAACTCCATCTCAAAAAAAAAAAAA
A
AAAAAGATTCTCTATCTCTATTCCGTATCTCTATCCACACACACAAAAAGGGACAATTGGCATAAATTCCTATTTTTAGGCTTCCCAAAGAAAAACACAA
Celera SNP ID:            hCV26821544
SNP Position Genomic:     48751
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43467):
GATTGCCAGCTAGTTTGCTTCCCTGACAGGCATTTCCAGATGTGAGGAAAGATTTATTTTGGCACTCCCAGCTCCAAGTGGCGTGAGCGCACACACACAT
A
CACACACACACACACACACAACATTCACTCTCCTTCAGTGCTTAGGATCATCATCCTCTGCCTTCAAAGTTGGTAAATTGAGTTTGCGCTACAGCAGAAT
Celera SNP ID:            hCV26821545
SNP Position Genomic:     51712
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43468):
ATTGCCAGCTAGTTTGCTTCCCTGACAGGCATTTCCAGATGTGAGGAAAGATTTATTTTGGCACTCCCAGCTCCAAGTGGCGTGAGCGCACACACACATA
C
ACACACACACACACACACAACATTCACTCTCCTTCAGTGCTTAGGATCATCATCCTCTGCCTTCAAAGTTGGTAAATTGAGTTTGCGCTACAGCAGAATA
Celera SNP ID:            hCV26821546
SNP Position Genomic:     51713
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,3)   total(C,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43469):
GAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTAAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCC
R
TCTCAAAGAAAAAGAAAAGAAAAGAAACAAGGTGAACATGTTTTATTCACTAGTTGCTTTTTTTTCTTTAAAGAAATACATCTGTTTGAAAAATCTTAAT
Celera SNP ID:            hCV26821547
SNP Position Genomic:     60794
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43470):
ATTCTCTATCACCAGCTTTATCTCTGTCTTCCTTTCCCACCCTTCTTATTTGTAATTTGTTTGTTAAAGAGATCAGGTTGTCAGGTAAAATTAGTCTTCC
R
CAATCTGGATTTTGATGATTATGTCACCATGGTATTGTTTAACATCTTTCTCTTTCCCCCAAACCATTGGTTTTCAGTCATGAGAGATAGATATAAGCAT
Celera SNP ID:            hCV7583531
SNP Position Genomic:     49993
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(G,2|A,18)   SC_95_C(G,5|A,168)   total(G,7|A,186) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43471):
CTGAACACTACTTTAAGTGCTTTCTATATGGAAGCCCCTTTAATGCCAGTGAAAACCCTATGAGGGAGCTTCTATTTTTCACATTCCACAGAGGAGGAAA
S
TGAGGCTTGGAGAAGCCACATGGTACCAGAGCCAAAAGTAGAATCCAGGTATTCTAACGTCAGAGTCTGAACTCTTAACCACTGTGCCACTGTCTCTTAG
Celera SNP ID:            hCV7583538
SNP Position Genomic:     65107
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43472):
AGATCACCAGGTGATCAGAATAATAGCTTAAATTGTACATTAAAACATCAAAAAAGAATCCCAAATACATATATAAAATAATTCTTTTGAAAGAATTTAA
Y
GGCAGTTAATCTGTGTGTGAATCACCAGAGTGCTTGAACTTGAGGTAAACTTAGATTATCCTGCCAGAAAAATGTTTTAAGTATTTATTTACACACACAT
Celera SNP ID:            hCV7583539
SNP Position Genomic:     69944
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43473):
GCTAACTTACCTGCAGAGTGATTGGGCTGCCAATTATAGATACCTGTCTAAAGGGCCCATTCCCCATTGATCTTCTGAAGGAAATTCCTCTATGCCATCT
Y
AAGGAATGGGGCTGTGGCAGGTAAAGCCAAGAGAGATTTGGGGAGCAGAGGGTACCTTCAGCAGCACCTCTCAATTCCCACCATGGGTGACTTTGCACCA
Celera SNP ID:            hCV29246910
SNP Position Genomic:     71976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43474):
TTCTTAAGAACTAATAACATCAAGAATGGCTTGGAAACAGCTTGTTTAGGGATTTTTAATTTGTAATACCCACTGAAATCTCTAAACAGGTCTAATCCCT
R
AAGGGCTTTTTCATTGAGCACCATTAGCAGAAATTAGTACAATACTTTAAAATTTGCAAGATGTTCTCCTATATTCTGTTTAATTTGATTATCACAACAA
Celera SNP ID:            hCV29246911
SNP Position Genomic:     75656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43475):
AAAAGTGACCCCCATGTAGTGAAAGGAGGGCTGGCTAGGAAGACAGAGGTGGGTATCAAAAGCTCTGTATCTGCCTTTTCCCCCAGGTCTAAGAGAAAAA
Y
ATTGTGTCCTAGAGCAATTCTCAGTGAGGGGAAAGCCCGATTCTGCAAGAATCAGGGGAAATTTATATTTACAAAAGAAAAAAAAGAAGTCCACAGTTTC
Celera SNP ID:            hCV29246912
SNP Position Genomic:     78748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43476):
TTATTTTGCACAAGGGACCCATGAGTCTAATGGCAATGGGACACTTTAAGCCTCACTATCCAGATCAGCCTCTGCTCTTCATTGTTGTGGGGTTTTTTTT
W
AATTGTTATTAAAAGTACATTTTGGAGAGCAAACTAAGTCAGATTTGGGGGGATTTTTATCACTCAACATTTTGTTGTGAAATGCCCTACATATAGGGAA
Celera SNP ID:            hCV29246913
SNP Position Genomic:     81212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43477):
GAGTTTCTGGCTGAAAATGGTGAAGAATGGACTTAATTATGCTAACAAACTGAAAAATCTAGACATAGATCCTCTGATATACAATTAGAGATATTTTTAT
R
TAGACCCCAAGCATTCTGTGCATAAAAGTTAACATTAGGCTGTGGTGCAGTAACCATTTAATGTCGAGGCTCTATTTCGGAAATACACTACAAATGTTAA
Celera SNP ID:            hCV15876333
SNP Position Genomic:     87380
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,13|A,728)   total(G,13|A,728) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:43478):
TTAAAAATAACAGTAACAGTGACAAGCAAGATAGAAATATATTTCTCTTTCATGCAGCACAGCTCTGCTCCACAAAGCCTTCAAGGCTGATTGATAGGTG
Y
TCTGTGGTATAAGAGACTAAGTCTCTAGGGTATTATCATTATCCAGGTGGTCCGGGATGACTCACCACCCCCAGATTTTAGTCAGTCGGAAGTGGGGAGA
Celera SNP ID:            hCV29246914
SNP Position Genomic:     82023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43479):
TGTATCTATTCATATTTATCATATTAGACACACTTATAAATTTCCACTTGTTAATTTATTACATGTTTTATTTAAAGGTGATAATAATTCATAAAATAAA
W
TAATGGAATGAATTTATTATCATCTTTAAACAAAAAGGTTATATATGCTAACATAAATAGCATTTTTTTGCAAAAAACAACCATTTCGACCCCAAAATTT
Celera SNP ID:            hCV29246915
SNP Position Genomic:     84555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43480):
GGTGTTAAAAACCATTATAAAATCTTTCCATCTCATTACAGCTCATTCGCTCCAGCAAGCCCGTCATCTTCCCTTTCCTCCCTTCTGATAAGACTGGAAA
R
TAGTCCTCCAAAACACAAGGGAGGATTTTGGGTGGCCAAAGTGTACAATTTTCATCCCACAATTGAAATTTTTAAATCATTTCATGTTAGTCTTACCGAA
Celera SNP ID:            hCV29246916
SNP Position Genomic:     85786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:43481):
TTTCATGTTAGTCTTACCGAATAAGGTACCAAGATCACAAATAGTGTTGATCAGATCTTACAAGTTTATGTGGCACACAATCCTATAAATGTGATTTTTT
W
ATATAAGTTAAAGAGACAAATAGTAGGCTAAAAACATTTTAAAATCAACTTTTGAAATTTAAAAATCTTTCAGAATACAATTCAGTTTTAGTTTCAAAAT
Celera SNP ID:            hCV29246917
SNP Position Genomic:     85966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:43482):
GAAAACAGATGAGAAGACTAGCAGCTAGCAAGGGTGCTTGTGGTCACACTGTGGAACACTAAAGAGCTAGGAAAGAGTTGAGCACAGGCAACATTACAAA
Y
AAAGGATTTGAAAACACCAAGAGTACAGGTCTTCTTTAAGGAAGAATAAAAAAGAAGAGGTTCATTTTTCTGGCTTTTTTTTTCACCTGAAACACTTTTT
Celera SNP ID:            hCV29246918
SNP Position Genomic:     86734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:43483):
TGAAGAATGGACTTAATTATGCTAACAAACTGAAAAATCTAGACATAGATCCTCTGATATACAATTAGAGATATTTTTATATAGACCCCAAGCATTCTGT
R
CATAAAAGTTAACATTAGGCTGTGGTGCAGTAACCATTTAATGTCGAGGCTCTATTTCGGAAATACACTACAAATGTTAAAGTACGTGGCTGTCCTCTTA
Celera SNP ID:            hCV29246919
SNP Position Genomic:     87400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:43484):
TTAGATTATAGATGTATACACTCATTAATAACAAGGTTCAAAAAATATAAATATGTATAAAGTAAAAAGGGAAACTTGCCTGCCATCACATCGCTCCACA
W
CCTTCTGTAAGTGACCATTGTTCATGTTTGGTTTGGAAAGACTTTTCCTATGCATAGACATGCACACACTTCTTTTTTGTAGTTAGTGAAATCATACTAT
Celera SNP ID:            hCV26821551
SNP Position Genomic:     80528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,4)      total(A,1|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43485):
GCTATGGTCCTCCTTGAGAAGAATTCCTTACTGTAGTTAACACCTGCTCTAAATAAGCACTCTGAAGTGCTTCTTACAAAGGGTAACGTGGGCCAGGCAC
R
GTGGCTCACACCTGTAATCCCACCACTTTGGGTGGCCGAGGCGGGTGGATCATGAGGTCAAGAGTTCGAGACCAGCCTGGCCAACATGGTAAAACCGAGT
Celera SNP ID:            hCV27949828
SNP Position Genomic:     43114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43486):
ATGAGAGTTCAATAGGTTCATCGCCCTTGAAGTTGTGGGGAAAGTTTTGTGCATTTGCCTTTTTCTGGGGGTAAAATTCTTAATTTCAATCGGTTTCTCT
M
ACAGATCTTACGACTAAAAAAAAAAAAAAATTTACAAATCGCTATGTTTGAACCATACACCCTAACTTTTGTGAAGGCATATGTGGTATTTACATGACCA
Celera SNP ID:            hCV26821552
SNP Position Genomic:     88463
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   (A,-|C,-)   Caucasian(A,32|C,42)   African-American(C,9|A,73)   Asians(A,39|C,39)   total(A,144|C,90)    
SNP Type:                 TFBS


Context             (SEQ ID NO:43487):
GATGAGCTTTTACAGTTGTTCCTGACAGCAGTCAAGTGTTGCCAGAACTCCAATGTATAGTTTAGTAGAGTTTCCCAAGTGCCTCTCTCCTGGGCCCCTC
R
CTTCTGACACACACAGATCTCTTCTTTCTCAACCTGATGCACTGTTCTGTCTCATGGAATGCTGTGATGCCCTGGACTTGTGAGCTTTGAGAGCAAACAC
Celera SNP ID:            hCV27949829
SNP Position Genomic:     53022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43488):
ATGAGTGACTGCATGTTCACTGACACTGCTGATGCCTCACCATTCTAGCCTCGGCCTTTTCCCTTCACCTTGTGAGATTTGGGGCCAGGTTCTCACAACA
Y
GTACGAAATCCCATGGCTGGGTGGGATAAGGGTAGGGGAGTATAAAGGAAATGCTGTTCCCATTGTTTTCCACTGGAGAATTCCCTGGACTGACTTCCTG
Celera SNP ID:            hCV7583540
SNP Position Genomic:     70289
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43489):
AAATCAATTGTGTGAGGAAGAAAAATAAATAAAATATTTTCCCATTTCATGTAAGGATAAGGAAGTGATCATTTAATCATTAGGCATGACAAAGCAAGCA
Y
GCTAGATTTGGCCAAAATGTAATTATATACAATGTCAGTTGCACTTAAAACTAATTTATACAATTAGTACACCTAAAATGACATGTTGGTTCCAAATAGT
Celera SNP ID:            hCV11357479
SNP Position Genomic:     8317
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43490):
AGTATCATTGCCCACTATGCACAACGCATTATACACAGTTTGGTTCCAGAGGGACTTTAGAGATCATCTTGTCAAACCTGTCCCAAGGTTTTCCTTTCAT
R
ATGTTTATGGAGAAAGAATTTGGCAGGTCTGTAATAAAAGAATAAAGGATGGCTTCTTTAGCATTGTTTTACATACAAACCATACGTTGATTACAAATGA
Celera SNP ID:            hCV7583547
SNP Position Genomic:     71116
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   JBIC-allele(G,81|A,1388)   total(G,81|A,1388) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43491):
AATGTATCCTGCCTACAACCAATCACTTGGTTTGAACATTTATCCTGGAATCTCCTGAATGCATATTTCTATCAAGGTTGATAGCAACAACCTCATAGAG
Y
GTAGATAGGAAGGAAAAGAAAACAGGATGATCTAGTAGGAAGAAAGGGACAAGCATTTATAATACTAAAATATAACTTTGATAACGTGCAACTGCTGGAT
Celera SNP ID:            hCV7583548
SNP Position Genomic:     72521
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43492):
ATGTATCCTGCCTACAACCAATCACTTGGTTTGAACATTTATCCTGGAATCTCCTGAATGCATATTTCTATCAAGGTTGATAGCAACAACCTCATAGAGT
R
TAGATAGGAAGGAAAAGAAAACAGGATGATCTAGTAGGAAGAAAGGGACAAGCATTTATAATACTAAAATATAACTTTGATAACGTGCAACTGCTGGATT
Celera SNP ID:            hCV7583549
SNP Position Genomic:     72522
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43493):
CCATTTTCATTGCTCAAGTTAACAACTTTGAACTGAACTTCGGACAAATTATTACAATCAGGTACAAGGAAAGAGTTCTATACACCCTTTCTTAAGAATG
Y
CTTTAAGGCTGGGCGTGGTGGCTCACGCCTGTAATCCTAACACTTTGGGAGGCCAAGGCGGGTGGATCTCCTGAGGCCAGGAGTTCAAGACTAGCCTGGC
Celera SNP ID:            hCV25762467
SNP Position Genomic:     80013
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:43494):
AGTGAAAAATGCCAAACAACCTAAATGTTCAACAATAGAGTGAGGACAAAGTAAAGCCTGATACAGTGAACGAATCTGATATCAGGAGACCTAAAAGTGA
Y
GTTTATGGTGACCGTATATGGAAAAGTATATTCTGTATGATTTCCATGTGTTTAACTATGTATTGGAACATTCTGCAAAAGAGACACACAAAGTGGTTGC
Celera SNP ID:            hCV11471418
SNP Position Genomic:     27053
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43495):
CCCTTCTCTCCCATCTCCTCTTCCGGATTCTCATCTCCCTCTTCTGTCACTTACATGTTTTGCAGCTACAGACAGGTACTCAGAAGGTGGCATGGTAACG
K
TTTCCTGCAGGTCATGTCTCATCGTGCCCACAAAACTGCTGTCTCAACCTTCAATTTTGAAACATTCACAGCATGCTGAATTCCACATATAAGTAGGGTT
Celera SNP ID:            hCV29246920
SNP Position Genomic:     90276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 TFBS


Gene Number:                 218
Celera Gene:                 hCG37123 - 145000147245512
Gene Symbol:                 MSH3
Protein Name:                mutS homolog 3 (E. coli)
Celera Genomic Axis:         GA_x5YUV32W40L(9248446..9482755)
Chromosome:                  Chr5
OMIM number:                 126060
OMIM Information:            DIHYDROFOLATE REDUCTASE;DHFR


Genomic Sequence (SEQ ID NO:12378):
TTCATTTAGAAGTTTGGTGATGTTTTTGTGACCAGCAATATGCCCTAGGAACTTAACTCTTGTGTACATCCAGTAGCCTATGGTAAAATTGGTTTTGCTC
TACATTGTTTCACTTAAAGTCACAGTTTCCAAGAACTCACAGATGACATTGAGGACTTATCTATGTGCATAGATATGATGGACATCCTGACATTTAGTGG
ATCTCCTTTAAAAAACTGAACTTAAAAGTCTCTTCACGGGCAGGTCAATTTCACTGGTTGAAAGTAAGAGACAGGGGAACCCTCGTGGAGCCATTCATAC
AGTCCCTATTTAAGGAACAAGTGATTATGCTACCTTTGCACGGTTAGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTGAGG
AAGTAAGCTACATAAACCATATGGGGTGTCTTTGGGGTTTGGTTGGTTCGGGGTATGGGGCTAGCAGCGGTGTATATGTTGAGTAAGGTGGGCAGGGAGT
TGCATTGATGGGGTTAGTAGAATGGGAGTTGAGGGAGGATGATGTGTTAGTTGAGGGGTGACTGTTAAAAATGCATACCGCCAAAAGATGAAATTTGAAA
TCTGGTTAGGCTGATGTTAGGGCTCTTTGTTTTTGGGGTTTGGCAGAGATCTCCTTTAAAAAACTGAACTTAAAAGTCTTACCAAAATTCATACTTATCA
CTCATTACCTAAATCTAACTATTTTTCCCTTTGGCATTATCCAATTTATATCCAATATTTAGTTTTAATCATTTGCAATTGTGTATGACATAGTAAAGAT
TCTGGGGAGGCCAAGATGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAG
CCAGGTGTGGTGGCAGGCGTCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATGGTGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCGGAGATC
GCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCCTCTTAAAAAAAAAAAAAAAAAAAGATTCTGAGTCAAAGTGCTCAAGTTGAATGCATTTT
GTCAYCCACAAGACAAAACGTGTTAACCCCTTGTGGTTTACTTTATCTATAAAATAGAGATAACAATAGTTCCTGCTTCTAGGGTTGTTGTGGGAATTAA
AGACTTAGAATAATGTTCAGCCTCTAATCAGTGCTGTCACAACTGTCTGATACAATTGTATTATATTTGTGTACTTTGTAGATTGATATTAAATCATACT
TTTAAAAATAGGTGCTTAATGTTCCACTCAATTACCTTAAAACATGTTTAATTATGTCTCTATCCTACTCTTATAACACTTCTATAAAAACTTTTTACAT
ATAGCGTCCACTTTTGGTTCAGTTTCTTAGGAAAATAACTTTGAGAGTCAGCTATCTGAACCAAAGAAACATTAACATTACCAGACTATATTGGGATTTT
TGAGACTGGCTTTTATCAATTCTTTAGCTACGGGCTCTTGTCATCATCTCTACCAGTGACCTAAGTGTCAAACCCAAATGCCTTGTATCTGTCCCATTAA
AGAGATGCAGCATCTGCTCCTTTCTTACTGTTTCCATTTCCTCTGCCATGCCTCCTCTTACAACCATAAATATCCAGGTCTCTTAGGTTTTAAACGGGGC
ATCTCTCAACCCCCACATTCTTTTCCTTGGTTATTCCCTTCCCTCCAACAGTTCAATTCACCTAGATCCCCACGCCTGAAATTATCCTAGATGTCCTAGA
GGCGCCTCATCATTACAATGGTACATTATTCTCCACTCCTTTACATGTCACGCCAGCTTTCAAACTGAAAATCTGAGCGTTCATCCCTGGTGCATCACCT
TTAAATTCGAGATCTCCAAAATCCAGGGTCATGTAACCTTAAAAAATTTTTACCCTCTCTTCTCCACTGCCCTTGTTCAGGCCTTATCTCTTCCAGCAGC
TGTTCCAAAGGCCTACTCTGTTTTCCTTTCGGAGTGCTCACCTCCACCGAAGCCTCCACCCAGYTGCCAATTCTGCCCCATGCCTGATAATTTGCTCGTG
CGTTGACATACATAAAATTTCTAAGACAAAAATTTTTTAATAATGGTAAATGAACCTTGGGAACTGCATACAGATCATACAGATCCATAATAAGAGAAAA
GGTCCCAGATTAACACGGAAAACTTTCCATTTAACTAACATTTGCACTGGTAAACTTCATCAAGCAAGACCCTACTTAATCCCACATTACCTTCTACTGA
AGAGGTTGTGGTCATTCTCTGGAAATATCTGAATTCATTCCTACAAGTTAGAGAAACAGCGTTACTCGAAACATTATCCCTTGGGCTCGAGCTCTAAGGC
ACCTGACAAACGGAGCGCTGTGGGTAGGGGTGAGGTGTTTTCTCCAGGGCTGGGACTTTGCCCTGGGCGAGGGCGCCGCAGGGCAAAGACCTCACCGGGC
AGCAGAATCCGGGCAGAAATCAGCAACTGGGCCTCCCGCGCAGCAGAAAAGGGGAATCCAGTCGGGCCCACCCTTCCTGCCAGCGCAGACCGCAAGTCTG
GCCCCATCCTCTCGCCGGGAGTCGGCCTGGCGCGTCCCGCCCAGGTACCCCGACCGTGGGCAGCCTGCGCCCGTTTGGGTCCCATCGCCCCGGCCCGGCA
GATACCTGAGCGGTGGCCAGGGCAGGTCCCCGTTCTTGCCGATGCCCATGTTCTGGGACACAGCGACGATGCAGTTTAGCGAACCAACCATGACAGCAGC
GGGAGGACCTCCGAGCCCGCTCGTTACAGCAGAACGCGCGGTCAAGTTTGGCGCGAAATTGTGGCCGCCCCGCCCCCTCGTCCCTATTTGTGCAGGCGAG
GCCCCGCCCCCCCGCCCCGGCGCACGCAGGGTCGCGGCGTGCTCGCGCCCGCAGACGCCTGGGAACTGCGGCCGCGGGYTCGCGCTCCTCGCCGGGCCCT
GCCGCCGGGCTGCCATCCTTGCCCTGCCATGTCTCGCCGGAAGCCTGCGTCGGGCGGCCTCGCTGCCTCCAGCTCAGCCCCTGCGAGGCAAGCGGTTTTG
AGCCGATTCTTCCAGTCTACGGGAAGCCTGAAATCCACCTCCTCCTCCACAGGTGCAGCCGACCAGGTGGACCCTGGCGCTGCAGCGGCYGCAGCGSCCS
CAGCGSCCGCCTTCCCGCCCCAGCTGCCGCCGCACRTAGTAGGTTCTGTCTGGGACTGGGCAGGGCCATCGGGGCTGGGGGGGCGGGGCTTGTGGGTAAG
GCGGGCGGAGGCGKGGACCCTCCGCCCGATGATAGGGCTGGAGGAGGAAGGGGCGGGCTGAAGAAGGGGAAGGTGGGAAGAGCCCAGCCGGGGCTACAAA
TTGGGTGAAGCGCTGAGGTTTTAGTACTTCCGTTTGAGGAGATAGGCAAAGGTTATGCAGGTTTTTAATGGCAGGCCTGAGACAGGAACTCAGGTCTCCT
GACTCCCATTCTGATGAGGGGGCTTGTGGGCAAGGGGTGCGTCTTTTAACCTCCATCCTTTTTTTTTTTCCTTGGTGGTCGAAGAGTYTTACTGATTTTT
TAAAAAAGTGCTGGATTGGGTGACTAGAAGAAAGCTGCCCTTAGGTCTCCAGTTTTTAAGACTGCAACAGCATGGCTCAATATTTGAAATCACTACGGTT
AAAAGCAGTCATATTGTGCAGTTCCCCAGTGAACWCTTTTTGTAGTTTAGATTATAAAGTCTGAAATACAGTTTGGGTGGATAAAGTTTCTTAGGATGGT
ATAGATGTGACTAATCATGGAGTCCTTCCTGTTGCCRTCCTTCAACGCAATAAGTACGTTTGTTTGTTTTTAAACCAGAGATACTGCCACAGGAAAAGCC
CAAGGGTGACCCCTCACTTGGGTCACCTGCACAGTATTTTTCAGAYTGAGKCTGTGGAAGGGCATTGAAGACTGGTGTTTAGCCACCTACCGTGTTTTAA
TGTAGGTGGCAGCTTGGGTGCTTCAAAATCTTGTTCCTTTCGTATATATTTCTCCCTTAAAATGATTACTCCTCTTCTGTTTTTTTTGAGGACGAGCTAC
GTTTTCATGAATTCACCAAAATTTTGCACCCACCATTTAAAGGGTAGCTGGTGAAGGACTTATGTATGCTTTTGGCAAGTTTTCTGCCAAGAAAAAATTC
ATAATCTTGTCACATCTTTAGTGATGAACATAAACCTTTTAAACAGGAAACACTTAAATTGCARTGAACATGTCAAAAATGATACTGTTCTTTTATTACC
TATCTTTTCCCCTCTGTGCCTTTGCTACATAACTGTTTATTTCTTAGAGGTATTTTATTTAGCATATGTAAGTAGGGTGATTCAAGTTTTATAATTAGAG
AAAGCTGAAGGCTCATTGAATCAAGACCGGTAGCAGCCTTGGTTTCAATTAATTCTAAACACGGCTTGAGTTGCTGAGGCTCCTGACTRTCAGACTCTAC
CTTGTCTTTTATGGTGTTAAAAACAGTTCACCCATAGGGTTTTCCAGAGCTAAAAGTAGAGGATTCTTTGAAGAGTGGATGGCAAGGAACCTTGTCATTC
AGTTGTAARGTTTAAATTGSTTCACATACGTCAGGCCTTCTCAGAGTAGAGATAACACATCATTTTCTAACCTTCCCGATATAGGCTACAGAAATTGACA
GAAGAAAGAAGAGACCATTGGAAAATGATGGGCCTGTTAAAAAGAAAGTAAAGAAAGTCCAACAAAAGGAAGGAGGAAGTGATCTGGGAATGTCTGGCAA
CTCTGGTGAGTTGTGGGGGATTCTTTTTTCTCCTCAGTCATGGCYCTGGTATTCTGGAATTCTCCAGAGGGCAGAAGAGCSTATTAGAATTGTGTCTTTT
TTCTTTGTGGAGAAAGGTCCCTTTTGTTCCTGAGCAGAGTGGCCCCCTATAGGTGATGGTGATGTGTATAGGAGGTTAAGGGGATGGTAGAGCTASAATT
CTGCAATTTAGCTGTAGTTCTCCCAACTTTCTCCTTTATTCCTTCTAGCTATTTTTGTCCTGGTTATAAAATTAAAACATTCTTGCTACAGAAATTTCAA
ACAGTACAGAAATGTGGAAGGTAGGCAGTGATAGACCCCATAATCCCTCCCTTTGAGTGAGGCCCACTGCTATTGGTGTTCTGTATATACTTCCAGATTT
TAAAAATTTGTACATGTGTATATGTGCATAGTCATAAGCTCAAAAATTAGTTTAAATATATTTTACAGATTATATTATATTYTATACTAATTTGCTACTA
TCTTTTTCTACTATTAATAGAATTTAGAAAATTTTGAACAATTTTCAGTATCAGGACCTGCAGATCTACTCTCCCCGCTTTTTTTTGCTTAGAGCTGCTC
TTTGTGTATGTAAAAGGCATTGAATAAAAACAGCATGCCTAGGCTGGGCGCAGGGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGTGG
ATCACCTGAGGTCAGGAGTTTAAGACCAGCCTGGCCAACATGGTGAAATCCCATCTCCACTAAAAATACAAAAATTAGTTGGGCGTGCTGGTAGTTGCCT
GTAATCCCAGCTACTTGGGAGGTTGAGGCAGGAGAATCACTTGAGCCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCACCCTGG
GCAACAAAGCGAGACTCTGTCTCAAAACAAAAAACAAACAAAAAACAGCACAAAAATAAATAAAAACCCAGCCTGCCTGAGTGCCTGAGTTCCTGGATTT
CTAGAGGTGGTGTTGCATATAGACAGTTGAGCAGATTTTTCTCTAGTTTTATGGTAYCAGAGAATTTGTGATAAGGGAAGACAGGAAATCCATCTTTATT
CATTATCCTCAGGAAATTAGGTAAAGAGAATGAGAAAAAAAAAAAGTYCCAATTCAGATAGAGGTATCTGTCCAATGGAGATATATGTAAAATATTAATC
CTTCCATAAAAGGTAAAATTTGAATTTTAGGGTCAACATGAAAGYGTTAGTATGAAATAACTACAGGAATGGAGATGTGTGGCTAAGGAGAAAAGTAAAT
CTAAAACTTCACCTTTCTGGAGGGGTCATGCAAGGAGGCGTGACTTGAGAGAATTTGCCACGGTTAATGTTACAATTCTGGGGCAGCCTACCTTTCATTG
CTTGATTATTCTGCATAGACCCATTTTTTAGGTCTACAARCACTGAATGAGCACCTMTGATTTTTATTCTAGAGGCTTTTTGTAGCTCATTTATTTTTCC
TAAGAATGCTTTTTGCCCCTTTTYTTTTTTTTTTTTTGAGATAGGGTCTCTCGCTCTGTCACCCAGGCTGGAGTGCACTTGTGCAATCTCAGCTCACTGT
AACCTCCTGGGTTCAATCTCTGCTCACTGTAACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAATAGCTGGGATTACAGGTGCGTGCCACC
ACACCTGGCTAATTTTTGTATTTTTAGTAGAGTCAGAGTTTTGCATGTTGGCTAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCTGCCCGCCTTGGCC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTGTTGTTCTCTTTTTATAGAGGAAGAAGTGGGTGATAGATGAAGAGAATTGATGAT
TATCACAGTTAAGTAACTTAACTAAGACCACATGGGGACAGTTGAGATGGAATGTTGTTGAAATAAGACAACACACTTGGCATATTTTAAAATAGGACCT
TTGCCACTTGTTAAAAATGGCACTAAGGAAGAAGGGGGAGGATCATTCACTAGTCAGAAGCTGGGTGACTGTTCCACTTCAGTTTATTTTATTTTTTAGA
GACAGGTCTTACTCTGTCATCCAGGCTGGAGTGTAGTGGCAGGGTCATTGCTCATGTAGCCTCAAACTCCTGGGCTCAAGCCATCCTCCTGCCTTAGCTT
CCTAGTAGCAAGGACCACAGGTGCATGCCACCATGCCTGGCTAATTAAAAATATATATATTTTTTTAGAGACAGGGTTTTGCTGTGTTGACCAGATTGGT
CTTGAATTCCTGGTCCCAAGCCATCCTCCTGCCTCAGCCCTTCAGTAGCTGGGACTGTGCTCCTGAGCCATCATACCTGGCAAGTTTTTTGTTTTTGTTT
TTTTCTAATAACAGAATTATTAAGATATAGTTCTTGGGGCCAGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGTATCA
CCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCCACATGGTGAAACCCTGTCTCTGCTAAAAATACAAAAATTAGCCGGATGTGGTGGCGGGCGCCAGTGG
TCCCAGCTACTCAGGAGGCTGAGGCGGGAGAATCCCTTGAGTCTGGAAGGTGGAGGTTGTAGTGAGCCGAGATCGTGCCACTGCACTCCAAGCTGGGTGA
CRGAGTGAGATTCTGTCTCAAAAAAAAAAAAAAAGATACAGTTATRCAATATGATTCACCCATTTAGCATGCACAATTCGGTGGCTTTTAGGATATTCCC
AGAGTTGTGCAACCATCATCAAAGTCAATTTTAGAACATTTTCATCACCCCAAAAGAAACCCTGTGCCCATTAACAGCCACCTCCTGTTCTGCCCCAGCA
CTCCCCAGCCCTAGGTAACCACTAATCTACTTTCTGTGTATAGATTTGCCTATTCTGAACATTTCATATAAATGGAATCATACAATATGTGGCCTTTGGT
GTCTGGTTTCTTGCAGTTACTGTAATGTTTTCAAGGCTCATCCGTGTTGTAGCATGTATCAGTACTTCATTCCCTTTTCTAAAAATATTCATTTTCTTTA
TTGTGGTAAAATATACATAACATAAAATTTATCATCCTAGACATTTTTAAGTATACAGCCCAGGGGTATTTAGTACATTTATATTGTTATGCACCCACCA
CCACCATCCATCTCCAGAACTCATTTTATCTTGCATTCCTATAACTCTGTACCCATTAAACACTGACTCACTGTAACCCCCTTCCCCCAGCCCCTGGCGC
CTACCATTCAGCTTTCTGTCTCTATCATTTTGGCTACTCTATAATGCATTCATTCCTTTTTATTTCCAGGCAGTATTCCATTGTATATATCCACCTCAGT
TCTTAACTCTTCAATTAACAAGTTATTTTTTATACCTGGGATCCACGGGGGAAGGAAACTTTTATACTCACAAGCAAACTTAGATACATTTGAAAAGCCA
GTTAAGTACGTATTTTTGAAAACCAAGGGAATAATAATAAAGTAAGAGATGCATAGTCCATTTTCACACTGCTGATAAAGACATACCAGAKACTGGGAAG
AAAAAGAGGTTTAATTGGACTTACAGTTCCACATGGCTGGGGAGGCCTCAGAAACATKGTGGGAGKTGAAAGGCACTTCTTTTTTTTTTTTTTCTTAATT
TAAGTTCTGGGATACATGTGTAGAACATGCAGGTTTGTTGAAAGGCACTTCTTACATGGCGGTGGCAAGAGAAAATGAGGAAGAAGGAAAGGTGGRAACC
CCTGATAAACCCATCAGATTTCATGAGACTTATTCACTATCATGGGAMTAGCAYGGGAAAGACTGGCTCCCATGATTCCTCCCACTGGGTCCTCCCACTG
GGTTACCTCTCACTGGGTCCCTACCACAACACGTGGGAATTCTGGGAGATAAAATTCAAGTTGATATTTGGGTCGGGGCACAGTCAAACTATATCACATT
GGAAAAGATTCAAAAATATATTTTTAGCATAAAGGAAGTCATGGTAAACAAGGTAACTGTATAYTGGAAAAGTCATATTTAGAAGAAAAGAGTCACTGTA
TTTCTTCGGAGATTCTTAGCCTTTAGCATATAAGACATCAAAGGTTTTTTATTTTTAATTATAGAGGGTTGTCTTTTTCTCTGGTTGCTTTTAAGATTTT
CTCTTAATCACTGATTTTCATGTTTGATTTTCTTTCTGCCCCATATAATCTGCAGGAACMCATATTTGATTTTGGTGGACCTTGTCTCTTTCCCCCACAC
CCGAGACAGCCTGTGCTGTCTAGCACAGGCTGGAGTGCAGTGGCACAATCTCAGCTGACTGCAACCTCTGCCCCGCCAAGTTTAAGCAATTCTCCTGCCT
CAGCCTCTGGAGTAGCTGGGATTACAGGCACTCGCCACCACGCCTGGTTAATTTTTGTATTTTTARTAGAGATGGGGTTTCACCATGTTGGCCAKGTTGG
TCTTGAACTCCTGACCTCGTGATCTACCCGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACCGTGCCCAGCTGCCTTTGTCTGGTTTTTA
ATTTTTATTTCTTCATTTATTTTTATCCTGTTTAGAGCTCATTTAAAGCTTCTCGAGTCTGTGGGTTTATAGGTCTTATTAAATGTGGGAAACTTTTTTG
GTTGTTATTGTTTCACATTTTTTCTGTCTTCCTGTCTCTTGTGTCTCCTTCTGAGAGTTTATTACRGGGATGTTAACTAYTTGRTGTTATCKGTTAAGTC
ATTGAGGCTCTTTYCATTTGTTTTCCAGGCTTATTTCTCTTTGTACTTCATTGTGGATAGATTCTACTGCTCTGTTTTCAAGTTCAGTGGTCTTTTTTTC
TGCTATGTCTAATCTGCTGTAAATCTCGTTTAATAAAATGTTCGTTTTCCATATTGTATGTTTCATCTCCAGAAGTTCCATTTTGTTCTTTTAAAATATT
TTCCAGTTCTCTATATGAATTATATCTCAGTAAAGCTAAAAAAAATTCCTTTTGCTCCYTTTTGCTCATGTTTTCCTTTACATTCTTAATTATATGGAGC
ATATTTATAAATTGTATTTTCTTGTTCTTATATGCTAATTGCATCATMTCTGTCATTTCTGGGGCTGCATCCCTTGACAGATTTTTCCTATTTTTTGCAT
GTCTAGTAACTAATTATTTGGATCATGGATATGTTGAATCTGTGTTGTCTCCTGCTGGAGTTTGTATTTCTTTAGAGTGTTGGACTCTGTTCTGGCAAGC
AATTAAATTCCTTTGGATCACTTTGGTCTTTTTAAGGATTGTTTTTAAACTTCGGTAGAGAATAATAGCCCTTACTCTAGAGCAACTTTAGTCACATTCT
AYGGCTTGACCTTTTTAGAGTTAGAAAGGGGTGCATAGTAGCAGTAGCACACCATTATATCGTATTTCCACAATACAGAGACAGTAGACATTAGTAACAT
TAAGAATGTAAACACAGCCATATGCTACCTAATGACAGTCAGTGAGGGACCACCTATACAACATTAATCTCATAAGATTATAATAGGTATTTTTRCTGTA
CCATTTCTATGTTTAAATATGTTTAGATACACAGATACTTACCATTGTGTTACAGTTGTCTCTAGTATTCAGTACAGTAACATGCTATACAGGTTTATAA
CCYGGGAGCAATAAACTATACCATATAGCCTAGGTGTGTAGGAGGCTATACCATCATCTAGGTTTGTGTAAGTACACTCTCTGATGTGCACACAATGATG
AAATCACCTAATGACACATTCTTCATAACATATCCCCATCATTAAATGATGCAAGACTGTCAACACCTGTAGTAAGTTTTAGGCAGTGAGTAAGTATTTA
TTATTCATCTAGTAGCATCTGCCAGMCATAAGAGTCCCTGATTATTTCATCTCTGTTTTTAACACTTTGGTTTTAAATACTGTCAAAGTCAAATAAAATA
TAGAGACAAATCTCTAAAACATTTTATTTGGGGYGGGGCACGGTGGCTCACGCCTTTAATCACAGCACTTTGGGAGGCGGAGGCAGGCGGATCACCTGAG
TGCAGGAGTTCGAGACCAGCCTGGCCAACATGATGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGATATGGTGGCACACACCTGTAATCCCAG
CTATTCAGGAGGCTGAAGTAGGAGAATTACTTGAATCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCGCCATTGCACTCCAGCCTGGGTGACAGAGT
GAGACTCTGTCTCAAAAAAAAAAAAAAAATTTTTTATTTGGGAAGCAAGAATTGCAATTTGGGACATACACRCAGACCAGGTSGTCTTTGGTATGTTTGA
AGCACAAAGAGAAAATTGGAGGTTTTATTAAAAAGGAGAAATAAGCCAGGAGCAGTGGCTCACATCTGTATTCCTAACGCTTTGAGAGGCCAAAGCAGGA
AGATTATTTGAGCCCAGGAGTCAGAGACCAGCCTAGGCAACATAGGGAGACCCTGTCTATACAAAAAATTAAAAAAAAATTAGTTGGCCATGGTGGCACT
TGCCTGTAGTTCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCTCTTGAGCCTGGGAGGTCAAGGTTGGAAAAAGAAAATGTATYGTTTTGAACGAAGGT
TCATTGGTACTTGGAAAATTTGGAGTAACTGGCAAGCTCTGATTAGTGAATGACTGCAATGGGTAAAACTAGCCWTAGAGTCACAGCAGGTTGTTTTAGC
AGCTATCAGGTAAAATTGGTTTCAGGTTACAGTAGGCAGTTTCAGCAGCTAGGCTTGCAGAGAATTACATTTTTGGAGCAATGATATGTGCTCTCAGTGC
TTTTTCCCCTGGCCTCTCTACTCCRTTTCAATTGAGTATGACAAGAATGACCCAATTTATATGATCAACTTTCACAATACTTTTTTTTTTTTTCCCAGCA
AATACAACTCCAAGATCTTCATCCCACTTTCATTCCAGGCAGTTTTTTTTTATGTCTATAGGAGGGAAAMTCTTTGTATAACATACACACTTATAGTATA
TTTTTGAAGAGCGATACAAATATACATTTCAAAAAAGAGAGTAATAGTAAACAAGGTGAATATACATTTGAGAAAAGAGTCAAATTTAAATTTTTRTGGC
TAGAAAATTCACAGGAGATCTAATGAAAGCCTGTGAAGAGGTTTAAATATAAATAGGGAAAATTTTAAACTATTTTTTTTGAAGCAACAAAAGCAGAGAT
TTATTGGAAACAAAAAGTACACTCCACAGGGTGGGAGTGGGCCCTAGCAAGCAGYTTGGGAGCAATTTTAAACTTTTAGAAATGAACAAAACACAACTCT
TGCCYKCAGAGTGTTTTTGCTTTAATAGGGAAGGTAAGAGGTGATAAATGTGTGCAGTCCCAGTTCCTTTACATTTAATAGCACCAACCTAATAGTAGTG
CTCTAAACGGTGAAATACTGTGTTCTAGTACATGGTAGGGATCCAGAAAATGATAGTTTCCCTTCTTTTATGGATTGCTTGTTTATGAAAAACTGCCAAT
TGGCAGACTGTGATGAGTGCCACAGGGAGATGTGATCTTGTTAGAGGAACACAGAGAAAGAAAAGATGATTTTAAGCTGTGAAAATTAGCAGAAGGTTTT
ATGGGAAAGGTAGATTTGAGATGGGTCTTGAAGAATGAATACAATTTTGACATGCAGAAAGCATATCATGGGCAAAGTGATGGTGTTTCTGAGTATGGTG
ATTTGGTTTTCTTGGTAAACCCCTGATGTCAATATCAAGTCTTTCCGCTTGAGCTAGTAAGATTTCCCAGTCAAGAGTCCTCCCAGCTTCTGCCTGGAGG
GGAGTAGGAGTGCTCTGGCTTCCTGGGTTCTGGAGAGGCYGTGGATCTCAGCATACATTGTGTCTGTGTTCCTAATCGTCCTTCTGGGTTAGGTACAGTA
CTCCATCAACTGTGCTTGTTTTGCCTTTCCAGGGAAGAAATCTCCAGTTGGCTGCTGATGTGGAGGAAGGACAGTTGTCTTTGAGCTTGGAGTATGGTAG
GGGTTTAGGGAACAAATTGYTTTGAACCAATCCTCTTTATTTTAGAACCTCCCTTTATTCCTTTCCAGAGCTACTGGTACTCTAATTCCTGAGTCTTTTG
AGCATTTTGTGTTGTAATTAGAGTTGGCTCTTGGTTTTCCTAATTACTGACTTAGTATTTAGCTCTCAGGTGTGCTGAATTGGTTACTGTTCATTTGTTT
TCCTTTCTAGCTTTAGATATCTCATTTGCAGTTGTTACCTCTCCTCTCTGTCCTTATGGGCTTATGTCTTCAAAAAAAAACAAAAACAAAAAAGAAAAAA
AACCTCTACTATAGTAATGAGGTTTCAGGAATGAGTGAAATTGCATCTGTGTTTAATATGCCATCTTTACCCTGAACCCAGTGTTTCTTTCTTTTTTTAA
AAAAATCACATTATAGTTAGRTTCATTGCTTTATTGGGAATCTACCTCTTTAAAAAATTCTATGCTGGTTATGAATTGACATAATGAGACCAAAATTACT
ATTGTTCTGTTTTCTTCTTATTTGCTRCCTAAGAGCCAAAGAAATGTCTGAGGACYAGGAATGTTTCAAAGTCTCTGGAAAAATTGAAAGAATTCTGCTG
CGATTCTGCCCTTCCTCAAAGTAGAGTCCAGACAGAATCTCTGCAGGAGAGATTTGCAGTTCTGCCAAAATGTACTGATTTTGATGATATCAGTCTTCTA
CACGCAAAGAATGCAGTTTCTTCTGAAGATTCGAAACGTCAAATTAATCAAAAGGTATGTAACTGCTATAGATGAGTATCCAGTTACCTAGAATAGTGGG
TTCTGAAGTACTRTCAGGTTCTCTGAGGTCATTCATGGCAATGGTTCCTAAACTTGGATGGTCTTCTGAATCATCTGAGGGAGMTTTTGTGTTTTAGTTT
AGTTTTCTTACATCCCTGGAGATTCGATTTACTRTGTTTTGGGAGGGATTAATTGGTTTGTATGGGAACAAAACAAAAGCCTTCCAGGTAATTCTGAGGT
ATTTCCTGGATCAGGAGCCCTTGACTTGGAGGGATTCTTTATTGAGAATTAATACAAGCACAGTTTCTTACAGTCTTCCTTAGAGTTTCCATGATTACCG
TGGAAAATCATGATGGGCAACTTAGATATTTTGAGGTTTCAGTTGAAAGCTTGATAGATAGAAAGTAAATTCAAATGTAAGCCAAATGAACATGGGCTTT
TTACTTTATCCACTATTTGTTTTGAGACTTTTAATGGTTTTCATAACTGCAGAATCAGGGAATTTAACTCATGCTCCATCATTGAAATCTGTAATTCAGA
ATAGTGATTGGTTYGCAACCTTAGCTTTACATTGGAATCACCTGGAGAACTTMAAACAAAAATTGCCATTAAGAACCTTCCCTCAGAATCTTATCTAATT
GGTTTTCACTGASAAATGGGCATGGATATTTTTTAAAAGTTTACATTTTATTTTGTATTTTATTTTTATTGATGGAGTCTTGCTCTGTTGTCCAGGCTAG
AGTACAGTTGTGCGATTATAGTTCACWGTAGTCTCAAACTTCTGGTCTCAAGCAATCCTCCCACCTTAGCCTGCAGATGAGGTGAGACTAAAGGAAAAGC
AGTCATTTTAATCTGTAGCTGTGATTGACAACCATTGAATTAGAGAAATGGTTCTATATATGTATATGTATGTGTGTATGTATATATATGAGTCATTGAA
ATTCTAATGAAAGCTGTTGGCCTTTTTCTTCAGAAAAATKCTCAAGCCAACAAAATTTTGCCTATAATTTTCAAGATTTCACACCTTTCCCACAAAGYCC
AGATCCATGAACTCCTCCCTCAGCCAGGCTAATATTGATTGACTTATCTTAGATCATCAAGAAAAAAAAGGTGTTTTTGTTTTTAGTCTCTTTTAATACT
TAGAAGCAGTTCACSTAAGTATAGTGGTTATTAAGCATAGAAGTCATAAAGTTTATCCATTAAAGCTCACTTTATTGATAGGAGCATTTACTCCAAGGTC
TCAGAAGAGCRTATACATTATTGCTTTATACATAGAATGACCAACTTGGCATGTCCACATCACAGGAAATTAGAAGTAAGTAGACAGAGGGGGCACGTAG
AAGCAGTGCCATTATTRCARGTGATAAGCTGTTTGATGGCATGGATAGAYGTGGATGAATGGCAAAAAGCTACTGAGTGAACATAAATGCCCCATGGTCC
AGGACCATTAGGGTGGGGTCAGCAATGCCATAACTCTCAATAGGTTTYGAAATATATTCTGATCACTCTGAATTGTCCAGACAAGGTTAAATTGAGTTCA
GCATACTGTCTCTGGGAATATGAAATAGAATGTAATGTATCTGATGAGTATTTCTATCCAAATCATTTTTTTTAAAGTTGCTTATTTTGTTACCCAGGTA
TTAATATGTACAACAAACCCTCATGACACAAGTTTWCCTATATAACAAACCTGCACATGTACCCCTGAACTTAAAATGAAAGTTAAAAAAWAGTTGCTTA
ATATTCAAGTATTTAGATTGATTTAATTGTTAGCATCCCATAAGGATAAAACTTTTTTTTCCTGGAAGCTTATCTCATTTCCTAAAAGAATAAARTATAA
AGTAAGAATAAGTTTTTACAATGTAAGAAATATATTTTCTGTGTTGATTAACTTTTATACTACATAGTATATACCTGCATTTAATATAGAATACATACTA
TATTCCATGACATAAAAGTCATGGAAACAAAATAGGAAACTCATCAAAATTAAAAGCAAAGGCATTCTYAGGTATAGGAAAATTGTTATGCAATCCTTGG
GGTGTTGCTTCGCCAGCTGTAAACCTCTGTGGCTGGTGGTGCCTTTGCCCGAGTTTTTMCTTGGGCCTGCTGGRCTCATTCCTCCCACTYGGCCTGGCAG
GCTGTGCTTGGCTTTTGCTTTTGGCCTGAATCTCRCAGCTGCCAAGGGTGAGCCAGGAGTGGAGTGGTGAGGGTGAGGGGTGTGTGAGCAGGTGACCATG
GGGTCTGGCCCCTGTGCACTGCCAGGCATGCTGGYTTCGGCAGGGTGGGCAGCTCCAGGTGCCAGCGTGAGTGAGGGCTGGACCAGGCGTACCACAAACA
GCTTCCACRGCTGGCACCAGGGAACACAGTGGCGCCCAGAAGCTTGGAGATTCCAGGAACTGCAGAGCCCCAGAGAGGGTGTCATAGACCTGGCTTAGGA
GCCCCTAGGTCTGAGCTCCCCARAGGTCCACAGCTCTTCTCTCCTGTCTTCTCTCCTTCTTGTTGCTGCAATGTGGCAAGCAAGAGATGGGTTTCAGGCC
TGTTTGTGTTACAGCTCTTTTAGCCCTGCCATTCGGTGGGTCCCAGGTTCTTGTCCTGCTTCCAGGAAGAATGAAGTATGTGGACGAGTGGAGGGTGAGC
AAGGCAAAGAGGGGCTTCCTTGAGTGACAGAACATTGAGGGGAGACCCGCAGTGGGTGCTTCTTTCTGCAGGCAGGGCATCCCATCAAGTGAGAAGTGAT
GAGCCTTCAGCMGAGAGGGGACCCTGGAGTGGGTAGCTCCTCTCCGCMGGCAGGTTGTCTGCTTGTCTCTTCAAGTTTGGCCGAGTCTGGGGATTTGTAT
GGGCTTGAGAGGAGGAAGTGTGTGCTGATTGGTTCATGGGCTGCCATGGGCGGGCTCAGAAAACACCGTAAGTTCTAATTCTGGTTCGTCAGCCTGGCCC
CCAGGCTTCAGGCTGTTCCTGGCTTGAAGGTGGGGCTTCACCCGGACCTGACCCTTTCTGCTCAGGAGCCTGTCTGCCTCCTGCCGTCATCCATGGCACC
CAGGCTGTTTGTGCCATGGGRCACCTGCAGGACAGCTCTGAGCTGCCCTCAGCCCTCTCCTTGGCCTCCTTCCCATGTTCATCAGTGTCCAAAGTCCAGA
GGGGGCCGAGGCAGCAGGGGKCTGGCATGTTAGCACTGCCCTGAGCATGTGCACACCCAGCCAGGTTGCAACAGTTCCTAGGCTTGGCCTYAACTTTGAG
ATCAGAGTGGGTGCTGGGAGCTGGGAGAGGCCAGGCAGTCGGAGCAGGTACTTCTGAGCCTGCAGAGGGAGGGGGAATTCCCTTTCTGGGCCCTTGAGAT
TGCAGAGATGCCCGGGTCCACAGCCACAGCTTGGGTGGCTGTGGCTGCAGCTGCACCCAGGAGGGYGGGGCTCCTGCCTGCTCCCAGCCCCCAAGAGCAC
AGGGATGCCCAGGTTTGCAGCCACAACTGGGCAGCCACAGCTGTGCCCAGGGAGCGTGAGGCTCTCACCCTGCCAACTCAGAAGGGGGCGAGGCTTCTTC
CACCCATTTCTGGCTCCTGTCGGTTCTGTGGAGCATGCAGCCCTGGCTGCGCCTCTCCTACTGCAGCTGGCRTTACGGCWGTGGCTGYTCCAGATGGGCT
GCCATTGCCATCATAATGACCTGGATTTCTCTTGCCAACCTCTCCATGCCTCACCGTCTTCTTATTGCTGATCTTTGGAGGTTTGCTGGACTGCACTGTT
CAAATAAATTGAGTTTTTTTTGAAAAGTTAGTATCTTTACCTGATGTCCCGGTGAAGCTGAATTGTTTTAAACATTTGGGAACTACAAAGTRTACATGTT
TCTGGGTTTTCTTTTGGATTGGGGTTCCCATTTCTGGGCCATTTTGCTTCTCTCTCACTCTCSCCTCTTCTTTTTGGTCACTAGATTTTTAGGCCATATT
TTTCATTGTAGGGGGAGCTGGGTAAATTTTTAGAAGTTGGCAGTGACAGAGTGGCAATTAATTAGAAGTTGGATTTAGCCAACTATAAATTTGTCTCATT
TACATTTTTCTAAATTAAGTCTAATAAGYGAGGAATTTTCCCTAAGCTGTGAATTGGAATTAATTATGGTTCCTCACAGAAAGGTAASAATAGTAGGAGT
ACTAATGTTGAAAATGTGGCCTTGTGCTGTAAATTTYTTAACAGCTCTTTCTCATGTTTCTTTACCAAGAGAATCATGGTTCTTTCTTTCTATAAGAATT
TATAGAATGTGCTGTCTTTTACAGTGTGCTTGGAAGTATAAAACATTAAGTGCAGCTTTATCTGTTGGCATGCTTTGCTCAAAGTGGTTTTGCCCTACTC
CTGAGAGAGAGCCAGATTTGTCCCCATTGGCCTTTTGTGCATTACACACCTKAGAATAAATAATAAAAAGAAAATAAGTGTTAATAATAATAGATTTAAT
GAAATCAAATTTAAAAACAAGTATGTAAAACATTAAGATATTTAGACTTTCAAAATTTGCATAAAAATTCTATGATAGYTTACTTGGTTCATAATTTTTT
TTAACCYTCTACTTTGAAAATATTTGTAACCTATGGATAGTTTGCCKGAATGCTACAATGTGCTTCTATAAACTTTTCATCTAGATTCACTAAGTGTTAG
CTTTTTGCCAGATTTGCATTTTCCGTCTCTGGGAACTTATTATTGTGGTTAATATTTTTAAAACTTTATACATCTTTTGGTTGCCAGGACACAACACTTT
TTGATCTCAGTCAGTTTGGATCATCAAATACAAGTCATGAAAATTTACAGAAAACTGCTTCCAAATCAGCTAACAAACGGTCCAAAAGCATCTATACGCC
RCTAGAATTACAATACATAGAAATGAARCAGCAGCACAAAGATGCAGTTTTGTGTGTGGAATGTGGATATAAGTATAGATTCTTTGGGGAAGATGCAGAG
GTAAGTCGTCTTTTCAGGCACTATTTTATATTTTTCTTGTCTAGCCTTARATATTTTTCAGTATTTTTRTTTCATTTTCTGACCTTATATAAAAGCTGAT
TTGATCAATCACCTTTTAAAAAATACTGTTATGTAAAGTAAAAACTAAAAATGAACACAAGAAACTTGGTGGGAACCAGACTTGGTGGGAAAAAGTGAGG
GGTCTCTATTGGAATGTTAGCGCTTATTCTCCGTGGTACTAGGCCAGTACTTTTTATCCATCCAAAGTTWATTGGATGAGTCAATTAGTGAATAAACCGT
AATCATGTAAATATGTTTTCTAATGAAGACTCAAGCAAGAAAACATTTTTGAGATGTATAGAAGTTCCTCTGTTTACTCTTAATTTATGAATTTTCATAG
CCAGGAACAAAGTTAAGTCTCAATGGAAGAACACGTGAACTTTACCAGCTACCACCAGAAGTTGTTTGAAGTTTTACAGATCTCTTTGGGTGTCAGTCAA
CTTGGTGTCTTAGTCTAAATTGGGATTGTGCCAGGTGTGGTGGCTCATGCCTATAATCCCAGCACTTCGGGAAGCTGAGGTGGGTGGATCACTTGAGGTC
AGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCGCATCTCTACTAAAAATATAAAAAAAATTAGCCCGGTGTGGTGGTGCATGCCTTTAGTCCCAG
CTCCTCAGGAGGCTGAGGCAGGAGAGTCGCTTGAACCCGGGAGATGGAGGTTGCAGTGAGCCGAGATCCTGCCATTGCACTCTAGCCTGGGCGGCACAGC
AAGACTCTGTCTCAAAAAAAAAAAAATTGGGATTGTATTTAATGTTGAAATATTTATTATAGGCCCTAGTCAAGAAGGTTGAAAGTGAAATTTGAACATT
TCATAGGCAAACTTAGGGAAAGTATTGCAGATGACACCTTTGTTGGAAGTCATGAATGCTTGTGATGATTCTATAGTTTGGGACCTGGTTGGATTGTACA
CTAGAGAGTGATGAGGTAGCATGTCTGTGCTTCYTGGATGGGAAGTAAAGACTTGGCCAACTTTTTTTCTTCAAGTTTCCTAAATCCTCTGTGGCAGGCA
AGCAGCGTTCTCAAAGTCAGATGCATTATGCWATGTTCTGTGATATTAAATTAGGCTCTGAGATAATGTCACCATGTTTTCTGAGGGCAGGAACAAATAT
GTAGTTGTCATCCCCTAGGCGAAGGAGAGAAACTGTCTAGGTTAAACGGTAAATTCAGACCTGACCACGGTAAAGGCTGATGTTTTTCTGCCCTTCTGTG
AGGGACTAATAGAGTTCAGAGAAGGGGTGAGGTTGGGGAGCGAGAGTGTTAGAATTAGAGTTCCATGGCTTCAGTGGGCAATATCTAAGCCATGGTGCTT
TCTAGAGGAAATCAGGGAATCACATGGTGCTTCATGGTTCTATATTTCTATCAGTCGTGCATCATTAATTAGTTAGCCAGCCTGGGGYTTCTCTTTTTAC
TTTTTCAATGATTTCTCTGTCYGGATGGGTTCATCATTTCTGCATACTCTGTAGTGTCTTCTAAATGTCAGTCATTTGCACATGCCATGTAGCAAATTCT
TACTCTTTTACAGTCTCATGATCTCTGTATTGGATAGTCTTTGTGTAGGGAAAGCTCTAAGGATGTAGAAGACCTGTCATATTTTTCTGAGTCTTTTATA
GATACAGATGTTGATACTGAAGTTAGGTCACTGGAACTGCCCAAAATACATTAAACCATAGGCTTCTATACAGGGAACATTTTTTTAAACTTTTTATTGA
CATAGTACACATTTAGATTAAGTSTACAAATCCTAAATGTATACCTTGATTAATTTTTAATAAAGTGAACCAACATCACATAGGGAATCTTAAAATATAA
ATTTATTGATATTTTCTTTTTTCATTTTTTAGATTGCAGCCCGAGAGCTCAATATTTATTGCCATTTAGATCACAACTTTATGACAGCAAGTATACCTAC
TCACAGACTGTTTGTTCATGTACGCCGCCTGGTGGCAAAAGGATATAAGGTCAGCTTTGGCTTTAACTTGTGGGGAAAGGAAATTGGGATTCTCCTCCAG
AGAGTGCAAACGTGTTTTGTAAGGTGGWAGGTAGGCTTCARTTGGTTTAGAATTTTGCATTTTACAGAACTGAAAGTGTTTCATAATTATTAGTATTATR
TATTTATGAGTTTTTAACATATTGTTAGATATTTAGGGTAAATTTTTAAACTCTATGATAGTGTTTCTTAGCAAATTATCCACCCTTGTCAACTCCTTTA
AACCCTACATCTGAACGTTGTGGACTGATTATTTTAACCATTTCAGAATTGACGTTTAAACATTTYGAAATGAGTTTTTACAAGTCATTTTTTATCCTTT
GATAGCAATATTTCTTATTTTTGTTGAAGGTGGGAGTTGTGAAGCAAACTGAAACTGCAGCATTAAAGGCCATTGGAGACAACAGAAGTTCACTCTTTTC
CCGGAAATTGACTGCCCTTTATACAAAATCTACACTTATTGGAGAAGATATCCTTTTTGGACGGGAGTTTTTCTCTTAAATGATACAAGGGCTTTGTTGG
CAGGTTTTGTTTGTTTGTTTGTTTGTTTTTTAGTTGCTCTTTGGGAACTTTTTAGATGAGCTGAGAGGCATTAAGGTGAACCCTTGATTAGGTGTGCTAT
TCAAGAGGGAAGTAGTGGCTGGAAACAAGCATCTTTTCACATGTCATAGTAGAAGGCAAGTTCATCATACTTCAAGAGCAAGAAAAAAAGCAACCCTAAT
AAAAGACGATGTCAGGTTAGTATCTGATTTGAAATTATATCTTCCTTAGCCCATTTGTGGGAAGTAGTTAGGTGCTTAGGGCCTACAAGCTCCTCAGGGT
CTTTCCAAAGTGAGACCTAAAAAGTAACTTATTGAAGCCAGGCGCTGTGGCTCATGCCTTTAATCCCAGCACTTTGGGAGACTGAAGTGGGCAGATTGCT
TGAGCCCAGGAGTTTGAGACCAGCCTGGACAACATGGCAAAACCCCATCTCCACAAAAATACAAAAAATTAGCTGGGCATGTTGGCACTTGCCCGTAGTC
CCAGCTACTTGGGTGGCTGAGGTGGGACAATCACGTCAGCCTAGGAAGTAGAGGCTGCAGTGAGCCGTGATCATGCCACTGCATTCCAGCCTGGGTGACA
GGAGTGAGACCCTGTCTCAAACAAACAAACAAACAAACAAACCAAAAATTCAAAATGTGAAAAGAGAACTGGCTGAAGTCAGAATTAAGACAGAGTTAAA
TGCCTATAAAATATAGTGGTAGCCCGTCTTCATTAATTGTTAACTTTATAAAAATTTTATTACTTTTGAAAATGGGCTGTGGGTGAAGTTTTCTCACTTG
GTAAGAATTTTCAATGTGCATAATGATTGCCCCTAAATTTACGGTCATTTATAAATGCAGTGTGTTATTTGATGCCAAATAATTTCAAAAGCAAAATTGT
CAGTTTCAAAAGCCAAATAATTATATGTAAAATTAGACCAGGGTGCATTTAAAAAAAATTACTATGGGGGTGGAATCAGTTCTCTGATAATGGAAGAATG
GAGAGATAAGAAGGCCTTAAATGATACTGTGTGAAAGTATTATTTCTGTTATGGTTTATTACAGATCTGCTTATTTCTCAGCTCATCTAATTCTAAGGAC
TGTTTTGTTCCATGAATACTATAAATAGGGAACAGCTATCACTCAAAATGGGCTCCAAACTATTAACAGCCTTGTGTTGTTCTAAGCTGATCAGGCTGTA
AGAACCTGGTATTTTTATTTTTTCTTTTGCTAAAGCTTGAGTCTGTTATTTGAAGCCCATTTCTAGTACAGTCCCCCTCCCTGCTTTTCCTTTGCTGCTT
TTATGGGTCCTATGTCCTGATGTCCAAAGATATGTCCAGACTTTGCCCCAAATCAGCTTTCATCCCTGAGATTTAGTTAATGGACTCATTTTATACACAC
ATACACAGACATACATGCACATATAATGTATATATGTTTCTGTTTTCTCATGTCTTTAAAAAATTGTCTTGCTATATCTGGGAGCTTTTAGGTACATTAA
AAAAGGAAAATAATTTACACCCTTTTAGTGTATTTATACTTTGAATTGTGGAATTAAACATTATGGGATTGTTAAGGATTCAAGTCTCAGCATCATCCAA
GTGATGAAGTGGGTTGATATTTGGGCCTCCATGGGGTCTGGTGTACTCCACTAAGCCCTTTGGAAGTAAGATACTGGTTATCTGTCTTTATGMTCTTTAT
ATCTTAGGAAAGATAAGGCATGCAACTATGATCCAAATAAATCAGAAGAATGAATACTGGGCAGAAGATTTTTGCAAAGGGCAGAAGTACTGTGTGAAAT
GAACCATCATTTTATTATTTTTTTCTTTATTTTTATTTTTTTATTTTGTAGAGACAGCATCTTGCTTTGTTGCCCAGGGTGGTCTCTCAAACTCCTAGCC
TTAAGTAATCCTACYACCTTGGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCTGTGAACCATTATTTTAAAGGAGAAAATAGTTA
ATATTATTGGAAATTTAGCATATTAGGATTTAGAATTTAGCATATAATTATTTTTCTTTAATTATTATTAAATGTGAATCCCCTAATCAAGCTGGATGAT
GCTGTAAATGTTGATGAGATAATGACTGATACTTCTACCAGCTATCTTCTGTGCATCTCTGAAAATAAGGAAAATGTTAGGGACAAAAAAAAGGGCAACA
TTTTTATTGGCATTGTGGTAAGTACTTTGCAGGTGAGGAACAAATGTTAGATGTTCATGGTATCTCTAAATATGATCTATCATGTATGGTTTATAATAAG
GATATCTGATGAAGTGTACCTTCAGATAATTATACAAGAAAAACATTTTTCTCACAATATTATATGTTAAATCGCTAGTTACAATTTTCTCATGGCTACT
TGGTACTTGTAGCAGTCCATTCTCACGTTGCTATAAAGAACCACTTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGGCTCATGGTTCCACAGG
CTGTACAGGAAGCATGGCTGAGGAGGCCTCAGGAAACTTACAATCATGGCGAAAGGCGAAGGGGAAGCAGTGACATCTTCACAAGCACAAGGCTAGCAGG
AGAGAGAGTGAAGGGGGAAGTGCTACACACTTTTAAACAACCAGATATTGTGAGAACTGTCATGAGAACAGCAAGGAGGAAATCTGGCCTCACAATCTAA
TCACCTCCCACCAGGTCTCCCCCTCAGCATTGGGGATTACAATTCAACATGAGGTTTGGGTGGGGACACAGCCAAACCATATYAATACTCTATGCTATGG
AGAGATCCAGATGGTCTTGGTCCATGTGCCCTGAGATTTTAAGGTTGAAGATAGACACAATGGCAGACATATGTGTGGACARTGTACAGATAGCAGAATA
AAACACTAAGCCAACACAAGCATGGTGGCAAAGTGTTCTATAAATTTCCTCTAGGGATTTGAAATTAAACATGAATGACTATGGTATTATATCTAGATTT
GGAGGAGGGGATAGTTAAAGAGAAATGATAATTGGCTGATATAAAATACCATACTAAATTAATATTAGGATTATTTACARTCAGTTTTCTAGATAAATGT
AATTTGTGAATTATAGTTTTATTTATTTATTTCTTTGAGACGGAGTTTCACYCTTGTCACCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAA
CCTCTGCCTCCTAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGTCACCCACCATCATACCAGGCTAATTTTTGTATTTTTA
GTAGAAATGGGGTTTCACCACGTTGGACAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCAGCCCACCTCGGCCTCCCAAAATGTTAGGATTACAGGCG
TGAGCCACCACGCCTGGCCAACTCATAGTTTTATTGATTTTCTGGCAGTTTATGAATAAATTTGCTCATTTRCAGACTTACSTGGACTCTGCTAAAGGTC
TTAGACTTTTTAAGGCCCTTCAGAACAATCAGACACCCCTTTTCTGTTGTAAGTTAAGCACAAATGGAACTCTGTCCAAGTGAAAACTAATTCTCTTTGC
TTTTTCTAATTTCTACGGTCAGTGGCAATATCAACAAAAATTCTTACCATCTGAATGTCTCCAATGTGCCTTTTAATACCTTATTTTGACTGCATAACTC
TGTGTTAACTTGACATTTGCTTAACCAATAAGCCCTTCTTTCAGAGAGTTAGCATTCCTGTTGGTGTTAGACAGCTCTAAATGATATTTTTATCCTTGAG
AAGCACGTTTTATCTAGCTACAGGCATTTGGACCTATATACAAATAGTAAAGTTATTTACTTTTAAGCTTTAACATATGTAATGTGCTATTTTATATTTA
CCTAAAACTCCTTCTAAAGAACAGAGTTGATAGTATATAATTCCTACTTAGTGCATTTAGAAATACCATCTGGCTTACCGCCAGAGTTAACCATGTGTGC
GAACTGGGACTCGGAAAAATGAAAACAGCYGTTTGCCCTTCAAGCATTTTCTTTGGGGCTGTCCTTTACTTCAGCAACCACTTTTGGGCTGATGACATCC
TGAGCTCTGGGTCCAGGCTGCACCTCTCTCGAGCTCCAGGCTCCTGCATCCAAATTTTTATTGAACAGAGATACTTAGAATTTACTCTGGCTCCTCAAAC
TCAGTGTGGCCAAAATTGATCTTATCTTCTTTTACCCTCGACACTGTTTTCCCTGTCACAATGGGTGTCACTCATTGCCTGGTCAGTACCTGGGAGTCAC
CTTTTGAGTATTGGTAATTAGTCTGAAATTCAAAGGGCTTTGCTGTTGTAGTATCACTGCAGTCAGGCTCTGTGCCTTCAGTCTGGGCAGTGCAGTTTTA
TACACACTGATTTTAGGTTTCTCAGTGTGATACATATCACACAGGGTGATAGATATTGTGGGTAYTACAGTGTAGACCATTTCTCTGATTAAAGAAAAAG
GGAATTTGGCTGACTGAAAAATTTGTTACTTTAACATCTGTACCTGGTTTTTGTAAATGCTTGGTTTGTAGATTGGTATATAAATTTACATGTGTATCCT
TATGTACTGATAGTCCATCTCTCTAGGCTCTAGAGAAAGCCTCTGGGCTAGAATTAAGGATGTTCCTTAATTACAGTTAGAGGAGCTATAACACTGCCTC
CAACCCATAAGATCCCTGGGTGTCCATTCCCTCCAGAGGTGTCTGTAATCCAGACTTTGAAGATGATAATTTCCTTGCTTTTAGTTGGAGCTTCTAGTTC
CAGCCTTGCCACCTTAAACGTTATATACAAATGTAAATATAGTGTGTGTATTCTTTTGGGTTTTGCTCCTTTTGTTTACCATTTTGTATGTGAGATTTAT
TTACATGTGTCGCTGTAGTTCTCTCATTGCCTTTTCCTATTTCATTTTATGATCTACAGTTTATTCATTCCTGTTGATGGACATGTGCATTCTTTCTAGT
TTACAGTTGTACAGAGAATGCTGCTGTAAATATTTTTGTATGTCTTGTATCGTATACAAATGCCTGAGTTTCTCCAGAGTATATCCTTGGGGGAGGAATT
GCTGAATTATAGGGTGTGGATACTTCAACATTCCTAGATAATGCCTTGCTGTTGTCAGAAGTGGCTTTCCATCAGTAGTATATGAACATAGGGATTGGTG
ATTTTTCCTCTTTTTAGCTAATGCAGCCTGTAACTAGCCCCCATGGCTTTCATAAGCATCCGTAGTGGCTAACAGTGTGGATTGGGGAGTAGTCAGATTT
CCTGGGTTTGAATCTTGACTCTACTCCATTGTCACTCTGGGACCTTGGCTAGAAACTTCCTATCACTTCTCCAAACCATGATCTTTTCCAGTTTATCTTT
GCTATTATTGGCTTAGGATGTTAGGGAGCAGGTTCAAGTTGGCATGATTATTCTACTGGATAGACTGTCTACTTGGGCTTCATTCAGAGTTTGATAAAGT
ATACATTTTATGTGTTACTTTGATGTATGAAGTAGTAATTTACTACAGTACTGGTGGTCTGGTTACTAGGACCATGTCACTTGTTACTTTGAGTGATAAC
TACTATTTGTACAGTGCTTTATAGTTTACAAATAATTCCTGTTTATTTTATAATTTGATCCTTACAATAACCTTATGAGAGAAGTAGGCTGGTTTGGTTC
CATTTACAGAGGAAGAAACTGAGGCCTGGCAGTGTTTGGTAACTTGCCATAGTCACTCCGTTAGGTATATTAACTCCAGGCCTTGTATTCAGGGCGGCTC
TCGGAAATCTGATTTATAGTATCATTTAGATATCTGTGARTCTGACTCTTCGTGTAAGAGTCCTGAAAAGCAGACAGGTTTCTAACACTTTAGAAATAGA
GTACATACATACTCCYGAGTGTATCATCTTTACTTTTTCCATGTTTATGCTGTGTTATAGCCATAACTGGGGAAATACATTTTTTCTGTAACATTATATT
TGTATTTGTTTTTAGGGAGTGCAGCCTGCCACAGGCGAGGTTGTGTTTGATAGTTTCCAGGACTCTGCTTCTCGTTCAGAGCTAGAAACCCGGATGTCAA
GCCTGCAGCCAGTAGAGCTGCTGCTTCCTTCGGCCTTGTCCGAGCAAACAGAGGCGCTCATCCACAGAGCCACATCTGTTAGGTAAGTTGGCACATCACT
GGAATATAATACCGATTCTGAAACTTAGGTTTAGTTCCAAAACTGATACTTAYTAAAGTTGCTAAAAATAGTTTTTACTTACAAAAATTATATTTCCACT
GTAGTASTGGAAATTTAAAAAAAAAAGTAAAACAACAAAGCTGGGCATGGTGGCACATGCATGTAATCTCAGCCACTTGGGAGGCTGAGGAGGAAGGATT
GCTTGAGCCCCGGAATCTGAGACCAGCCTGGGCAACTAAGGTGAGATCTCATATCTAAAAAACAAATAGAAGAAACACCACCTACCCCTACTATCACCTT
AATGTAGAACTTTAGAAGGCAGTCTTTTTGAAGAGGTTTCTGATATTTAATGATATTATTTGATAATTATGGGGTTTATGATATTTAATTATTGGTAATC
TTCAGTTTCTAGAGATAATTTAGAGTTCACTTCTTACAAAGTTTATGTAACTTTGGAGATGCTTTGTCTGTGCTGCAAGTTTCAATTCATGGCTGTGTCC
AGTGGTTTTGTTTACTGGATCTAAGATCAGACCACTTACGTATGAAGCAGTGKGCTAGGCRCTGTGCGTACAGAGGAAGAAGATGTGGTTATGATATATG
TCTGGCAGAGTTTACAACCTCACATGAGAGTCAGATGTGTGCATACCTAACTGGACTTAAAGGCATGATGTATTAAGTGCTAAACGTGAAGGTGCCTTGT
TGGAAAGACTCCGTACTGCCACCTGGAGTGTGGTGGGAAAGAGACCAGAAAGGTGTGCTGGGGCTTCAGCGAAGTAGACTGTATATTGACGAATTTGGAC
TTTGGACTAGGCAGAGAAGCCCATGAGGATTTTCATGTAGTAGGTAGACAAATCATTTAGAAAATCGAGGCCAGGCACGGTGGCTCACGCCTGTAATCCT
AGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGCAGTTCAAGACAGCTTGGCCAAAACCCCGTTTCTACTAAAAAAAAAAAATACAAAAAT
TAGCTGGGTGTGGTGGCAGACACCTGTATTCCCAGCTACCCCGGAGGCTGRGGCAGGATAATCGCTTGAACTTGGGAAGCAGAGGTTGCAATGAGCCAAG
ATCACACCACTTCACTCCAGCCTGGGCGAAAGAGCAAGACTCTTATCTCAAAAAAAAAAAAAGAAAATCAAACTGATTGATTAAGTGAAGTTCCATATGT
TTCTTTGTCCTTAGTGTTGTGTTCATTTTCATTTGAATTTAATTTCTTTCGAAGTAGCTTTCATAATTTGTTTTTCTGATTATAAAACTAATATATGTTC
ATTCAGAAGACAAAAAAAAAAGGATAAATTCATAAGTTGAATTCTGTAACCCAGAGAAAATGACTGTTAAACATTTTGGCACATTATTTCCRTGTGTGTA
TATCACTTTTTTCCATTTGTGAACTTGCATTCCTGCTGCAAAATCACTTTTSTATTCYGTGGTTTTTTTTTTTTTAACTTTACAATTCCCCATTTTTAAA
AACTTTATTGCAGAAMATTTCAAACATACACAAAATTATACAGAATAGTGTCATGAACTCCTGTCACTCTATTAGCCAGCTTCAGCATTTCTCAGGACCA
TTCTCATTTTTCTACACTCCCTCCCCTTTTCTCTCTCCCTTGATTATTGGCTTTGAAGCAAATCCTAGGGAGCATCAGTTTATCCTCTAATATTTCAGTA
GGTACCCTTAAAAACAAAATAAGTACATGACRTTGTCATATAAGTGTATCATAATTTATCCATTCCATTTTTATTATATTCATTTTTCCAGTATTATAAA
TACTGTTATGATGAATATCCATATACAGAAATACTCATGTGCGTTTCTGATGATTTCCTTAAGATAAATTCCTGAAAATGGAATTAACTGGATCAGAAGG
TATGAATGTTTATAAAGCTCTTGATTGCTTGCTAGAAATGGTAATATCAATTTATACTTCTACCAGTATAGTCTAGGAGGGTTCTTTGAACCTTTGCTCA
CATTGAGGGTGATCATTTAAATAATCTTTGCCAGTCACATAGATGAAAAATTTTGCATCAAATCTCTTCATTTTGATCTTAATCCTTTTCTGACCATGTG
TTCAAACTTGAATAATTAAAAGTCAAACAGTAAACTTGTAAGGAGAGCTGCTTTTACAGAACTAAAAAAATTAATAAAATCTGGAAAAAAATTTTTAAAG
GTAGGCTTCTATATTGTATTTTCAATATTTCCTATCATTTCCTTGCTAGAAATGGTAATATGAGAAATGGTGATCAAGAGCTTTATAAACATTCATACCC
TCTGATCCAGTTAATTCCATTTTCAGGAATTTATCTTAAGGAAATCATCAGAAATGCACATGAATATTTCTATATATGGATATTCATCATAACAGTATTT
GTAATACTGAAAAAATGAATATAGAAATGGAATGGATAAATTATGATAAATTATGATAAATGRATAAATTATGATTTCCTGTCTTTGATTTAGTTCATTT
TTCTTTATATTTTATTAACTTAGTATATATTTTATTAACTTAGTATATATTTTATTAATTTAGATTGAGTAAAGTCAATCAATTTTATCAACACATTCAT
TTTTTTGTTTTCTGCTTAATTTTATAAAATAACAATGGYGAAATTCAATAAAATATCAAAATATTTCATAATGACATTGTCAAAAGTGAATTTTTGTTTG
TCAAGCAGCATTCATTGACTGGTGATATTCCTAAATGTTTSTTCATCACATGAGATTTAAAAGCTTGAATTTGGCATATCAAAGATAATTTAGSTGTCTT
ATGTGGGTTTTACCAAATTTAATGCCTGCTTTTGTCTTATTTTAATTTGAATTTCTCTAGTTAGCATTGTAAATAATTTTCTCTATGTTTACTGACCGTG
TGTAATTTTTCAATCTTTGCACTTTTTTTTGTATCCTTTGATCATTTTCACTTTATTTGCATATTGGACTAAGCGAAGTCAAAAGTTAAATCTGCATTTC
TGTGGAGTTCCTACAGCTAATTTATATCTATGGACAGAATGAAGTAGAGGAAATTCAAAAGTTAGCAGGGGTCAAACAGTGTGGACTCTTGTGACTCAGG
GTTTGAGTTGGAAAACTAGCTCTTCCCTTTAGTGACTTTGAGTAAGTTATCTACTGTATTGTCCTTCAGTGTCCTTTATATTGGGGGTATTAAGAGTGCT
TACCTCATGGGGTTGTTGTGAGGATTAAATAAGTTAATATAGGTAAAGCGCCTGAAATAGTACCTGCTGTAGAAGGCTCTCTGTAAGAGGAAGTTTTTTT
TTTTATATTTTAATTAAATTTTCTGTGGCTGGGCGCAGTGGCTTATGCTTGTAATCCCAGCAGTTTGGGAGGCCAAGTCAGGCGGATCACAAGATCAGGA
GTTCGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGCTAAAGTTTTTTGTAGGTACATAATAGAT
GTATATATTTATGGGTTACATGAGATAYTTTCATACAGGCATACAATGCATAATAATTACATCAGGGTAAATGGGGTATCCATCTCCTCAAGCATTTATC
CTTTGTGTTACAAACAACCCAATTATACTCTTTTAGTTATTTTAAAATGTACAATTAAATGATTTTTGACTGTAGTCATTCTGTTGCACTATCAAATGCT
AGGTCTTATTCTTTCTATTTTTTTTGTACCCATTAACCATCCCCAGTTCCCTTCTCAGCCTCTGGTAGCCATCTTTCTACTCTCTATCTCCATGAGTTCA
GTTGTTTTAATTTTTAGCTCCCACAAGTAGGTGAGAACATGCAAAGTTTATCTTTCTGTGCCTGGCTTATTTCATGTAAAATAATGACCTCCAGTTCCAT
CCATGTTGTTGCAAATGACAGGATCTCATTCCTTTTCATGGCAGAATGCTACTCCATTGTATATATGTACTACATTTTCTTTACCCATTTGTCTGCTGAC
AGACACCTGGGTGCTCGCAAATCTTAGCTCTTGTGAATAGTGCTGTAGTAAACATGGGAGTGCACATATCTCTTCTATATACTGATTTCCCTTCTTTTGA
GTATATATCTAGCAGTGGGATTGCTGGATCATGTGGTAGTTCTATTTTTAGTTTTTTGGTAGTTTTTTTTCAAACTACTCTCCATAGTGGTTGTACTAAT
TTACATTCCCACCAACAGTCTRTGAGGGTTCCCTTTTCTCCACATCCTCACCAGCATTTATTATTGCATGTCTTTGGATAAAAGCCATTTTAACTGAGGT
GAGATGGTATCTCATTGTAGTTTTGATTTGGATTTCTGTAATGAACGATGGTGTTGAGAGCTTTTCACATACCAGGCTGCCATTGTATGTCTTCTTTTGA
GAAATGTCTATTCAATTTGTCTATTTTTAAATTGGATAATTAGATTTTTCCTGTAGAGTTGTTTGAGCTCCTTATATATTGTGGTTATTAATCCCTTGTC
ACATGGGTGGTCTACATACATTTTCTTCCATTCCATGGGTTGTCTCTTCACTKTGTTGATTGTTTCTGTTGCTGTGCAGAAGCTTTTTAACTTCATGTGA
TCCCATTTGTCCATCTTTGCTTTGGTTGCCCTATTAAGAAATCTTTGCCCAGTTCAGTGTTCTGGAGAGTTTCCCCAATGTTTTATTTTAGTCATTTCAT
AGTGTGACATTTTAGATTTAAGTCTTTAATCCATTTTTGATTTGATTTTTGTATATGGTGAGAGATAGGGTCTAGTTTCATTGTTCTGCATATGGATGTC
CAGTTTTCCCAGCACCATTTGTTGAAAAGATTCTTTCCTCAGTGTATGTTCTTGGCACCATTGTCAAAAATGAGTTCACTGTAGATGTATGGATTTATTT
CTGGGTTTTCTGTTCTGTTCCAGTGGTCTGTGTGTCTGTTTTTATGCCAGTACCATGCCATTTTGGTTACTATAGCTCTGTAGTATAATTTGAAGTCAGG
TAATGTGATACCTCCAATTTTGTCCTTTTTGCTTAGGATATATTTGGCTATTCTGAGTCTTTCGTTGCTCATATACATTTTAGGCTAATTTTTTCCATTT
CTGTGAAAAATGTCACTGATATTTTGATAGGGATTGCGTTGAATCTGTAGATTGCTTTGGGTAGTATGGATGTTTGAACTATTCTTCCAATTCATGAACA
TGTAATATCTTTCCCTTTTTTGTGTGTTCTCTTCAATGTTTTACATCAGTGTTTTATAGTTTTCATTGTAGAGATCTTTCACTTCTTTGGTTAACTCCTA
GATATTTTATTTTATTTGTAGCTATTGTAAATGGGATTACTTTTTTGATTTCTTTTTCATATTGTTCACTGTTAGCATATAGAAATGCTGCTGGTTTTTT
GTATGTTGATTTTGTGTCCTGCAACTTTACTGAATTTGTTTGATCAGTTCTGACAGTTTTTTGGTAGTCTTTAGGTTTTTCCAAATGTAAGTTCATCTCA
TCTGCAAACAAGAATAATTAGACGTCCTCCTTTCCAATTTGGATGCCCTTTATTTCTTTGTCTTGTCTGATTGCCCTAGTTAGGACTATTATGTTGAATA
GCAGTGGTGGTAGTGGGCATCATTATCGTACTTAGAGGAAAGGCTTGCAATATTTCTCAATTCAGTATGATAATAGCTGTGGGTCTGTTTTATATGTTGC
TTTTGTTATGTTGAGGTATGTTCCTTCTATACCCAGTTGTTTGAGAGTTTTTATTATGAAGCGTTGTTGAATTTTATCAAATCCTTTTTCAGCATCAAWT
GAAATGATTATGTGTTTTTTTTTCTTCATTCTGTTAATATGATGTATCATAGTGACTGATTTGCATATGTTGAACCGTCTTTGCATCTCTGTGATAAATT
CTACTTGGTCATGATAAATGATATTTTTAATGTGTTGTTGAATTCAGTTTGCTAGTATTTTGCTGAGGATTTTCGCATCAATATTCATCAAGAGATATTG
GCCTCTAATTTTCTTTATTTGATATGAATTTGTCTCATTCTGGTATCAGGGTAATACTGGCCTCGTAGAATGAGTTTGGAAGTATTCTCCTTTTTTTTTT
TTTTTTTTTTTCCCARAATAGTTTGAGGAAAATGGGTCTAGTTCTTTAAATGTTTGGTAGGATTCAGCAGTGAAGCTATTGGGTCCTGGGCTTTTCTTTG
CTGGGAGACTTTATTATGGCTTCAATCTCGTTACTTGTTATTGGTCTGTTCAGGTTTTGGATTTCTTCGTGGTTCAATCTTGGTGGATTGYGTGTGTTTA
GGAATTTATCCATTTCTTCTARATTTTCGGATTTATTGGCATATGGTTGCTCATAGTAACCACTAATGATCCTTTGAATTCCTGTAGTATCAGTAGTAAT
GTCTTCTTTCTCATCTCTAATTTTGTTTATTTGGGGTTTCTCTCTTTTTTCACAGTCTGGGAAAGTCTTACCAATTTTATCTTTTCAAAAAACTAACTTT
TGGTTTGTTGATCTTTTGTATTTTCTTTGTTTCAGTTTCATTTATTTCTGCTCTGATTTTTATTTTTATTTTATATTAATTTTGGGTTTGGTTTGCTCTT
GCTTTTCTAGTTYTTCAAGGTTTATCATTTGGTTATTTATTTGAAATKTTTCCTCTTTTTTSATGTAGGTGCTTTTAGCTATAAACTTCCCTCTTAGTAC
AGCCGTCACTGTATCACATAGGTTTTGGTATGTGTTTTCATTATCATTTGTTTCAAGAAATTTTTAAATTTCCTTGTTGATCTCTTCATTGACCCACTGG
CCATTCAGGAGCATATTGTTTAATTTCCATGTGTTTGTATAGTTTCCAAAATTATTCTTGTTTTCGATTTCTAGTTTTATTTCATTGTGGTCAGAGAAGA
TTCTTGATATTATTTCAGTTTTTTGAATGTTTTAAGACTTGTTTTGTGACCTAACATATGATCTAATCTCGAGAATGTTTAGATCATTCATGCTATAATG
ATCAGATCCTCTACATGCTGAGGAAAAGAAAGTGTATTCTGCAACCATTGAATGAAATGTTCTCTAAATATCTATTGGGATCATTTGGTCTGTAGTAAAG
ATTAAGTCTGACGTTTCTTTATTGATTTTCTGTCTGGAAGATCTGTCCAATGATGAAAGTGGGGTGTTGAAGTATCCAGCTGCTATTTTTTTTCTCTCTC
TTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGGGGGAGTGCAGTGGCATGATCTCAGTACACTGCAACCTCTGCCTCCCGGGTTTAAGCGATTCTC
GTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGTGCACCACCACGCCTGGCTAATTTTTTTTGTATTTTAGTAGAGACAGGATACGGGGTTTCACCA
TGTTGTCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCGCCTGCCTCAGGCATGTATATTTACAATTATCGTATCCTTTTGCTGAATTGACCCCTT
TGTCATTATATAATGACCTTCTTTGTTTCCATATTTACAACCAGTAAACAATACAGTATTAAATTTGCAAGTACAAAATTTGTTTTGTTTTTGGTGATAT
CTTCTTGTCTGTTTTAAACACTGGTAAGTAGTTTCTTGTATCTCAGACTAAGTACCCCATTTTTTTCTTATGCTATATACCTAAAGGTAAAAACAGCAGT
TTTTGTCAGTTACTGGTTAATAATATTTTATTAATTTTGAAGACATAATATGTTAAAGCTGTGTGAGGAAAGGCAAAAGAATGGCTTGGAATTGTGGAGT
GTCTATCTTAAAATATTAGGGTTTTTGGTATTCTTAACTTTAACCACAAGAGGTCTCCAAAGGATTTGATATTTTGTGAATTACTGTTTARTGGTTACTA
AAATCTTCACATTTCTTTTTATATCTGAAAGTACAGGTTTATTTACTTTGTATCATATTGTGACTTAGAACAAATATTAGAGATGATAGTAATCTAAAAT
TATTACTCCTAAATAATGATACACTATCAATTTTTCTTAGATTATTTATTTTTATTTATGTAAAGTATGTTTGTAAGATTTCAGCCTGTGTCTTAGGGAA
TCAGTCTTACTATCTTGTTACACTTTCTTTTGTTGTAAAAATGTAGAGAAAGAAACAAATGGAAAGCAATAGTCTCRAGCCCTTTATCAATTGCAGTTAA
GGTTGCTTTAGCTTAGAAATGTTGTATGTTTATAGAAATGGTTGAGAGGAAAGCTTTAGAAAGCGATAAACAAATAATATTTACTAGTTCTCAAGGAAAC
TGACTTTTCAGGTGAATCAGGTGAACATCACAAATGACACTCAATTTTGCGTTCAAAGAAATGAGAGCTTCCTGAGCACTGGCATAGCCAAGGAAGGCTG
TATGAAGGAGGTGGGGTAGGCTGGTACATTTGCAGAATAGAAGGCTTTGAGTTGGTAATGGGGAGGGGGGAAGGGTATGTTGTGTGTGTATGGAAATGAT
ATGAGGTCTGAGGCACACAGGCTGGAAATATTAGAGAAGTGTGAAGACAGAAGGGAGATTTCTCTGATTAGAGGGAACTTTCATGTTGAGAATTGAGAAA
GAAAGGGTGAAGGCCTATGAAATCCAGCAAACTGGTATGGATTCCTGTAGAAGGCAGTAAGGTTTCTGGGAAAAGGAATGGCATGATAGAAGGGAAGAGA
TGAGTGTACTGCCTAGATGGGACAGTTGAATTTKAAAAATAAATATTTCCCTAAAGGAAAAAGCGGATACAGAGAAAAGAATCAGATCAAGGAGCTTAGA
GAATGCCAATAGTTGGGAATAGGAGCAAGAATACAAACAGAAGGGGAGGAATTAAAGAGCTAGGTGGASAACCAGGACAAGGTAGGGATGTGTAGTTATA
ATTTGTCACACGTGGTATAACCAATGATGTGAGCTAATTTTTTACATTATTGACTCTGTTATAGTTTACTGAAACTGTATGACATTCAGAAAGATACTTG
GTTAAAAACTAGCCTTAGCTCATTGATATCATTTGAAAAAGACATGTGGAAGAATGTCCTGTGGTACCACAGTGACTTTAGCTATCTGACCTTTGAAATA
AATGCTTGAACACATAAGTGCTTCCTCAAAGATAGATGTGTATGCTGCAGATTTAAAGAAAACATTGAAATCTTAATGTTGGGGAATAAGAATAACCTCT
ACTATGTTTACTTTCAGTGTTAGAAATACCTTATTATTATGTCTTTTTGGCCACAGAGAGCCTTACATCATCTGAGGTTTAACCAAAAGTATTATCTAAC
ATGATTCTTTATGCGGAGGCATAGTACCACCTGAATGTCACTTATGGTGACACGTGTTTGAAATTACCATAGTAGCATTTTCATTTTGTGTTCATCTCTT
ATTAAATTAATTTATATAGTAGAAATCACTTATTACTTTATGTTATTGTACTTTGACTTTCAAGTTTTTAATGGAAAATATTTAGCAGAGTTTTGGTGCC
AAAATGAAGTGATAACTGTGAGACTATATAATTATCAGAGGAATTGTTATGCAAATTAGGTATCTGTGTTATGACTGAAGTCCAACTTCTTTCTAATGTC
ATTTGAATTAAACATTAGTATAAAGGTTTCAATTTTTTTTTTTTTTAAAGAATGAGAGTAAAAGAAACAACAGGTCTTACTCATTAATTTGGTTAAGAGG
AAGTGCTTCACACATACGAAATGTTATTAAGTGGTCGGTACTTGATGGTACCAATTTCGTGATTGCAGTGTTACAGTTCTATCRAAGTTTAATAAGCTCA
ATTCTGTGGGTTCATATGAAGTCATTTCAATATAATTCTTAGATATTTAGAGCCAAGTAAATGTGGAATGGCATACCAAACAGTGGGTAGCATATAGATA
TGAATAACATGGTGCCTAAATTAGGTGGGAAGGTGGGACTGGGTAGAAAGAGGGCATTCCAGGAAGTGTGGTCACAGGATGAGAAAAGGGAATTGGGAAC
ATCGAGTTGACTGGAGTGTTAGGAAWATATGGGTCAAGAGTAKCCTGCAACAGAATGTAGTGCAGAAGAGCTGTTCAGTGAGTATTTGCTGAATGATTAT
GTTTAAGGCCAGAGAGGAAGACTGGAGCTGTTTCATTGAGGATGCTGGCTGGGCACTAGTGGGAGGAGCTTATACTTTATTTAGATGTTTCTCAAATTTG
GCCTACCAACCTTTTAATTTACTACTTTGTGTTAGAATTTTCTTATTTAAATTTGTTAAATTATAATTTTAAAATTTACAAAGTTAATACATGTTTGTTG
TAAAAGTGAAAAAAGTCTATTTTAAAGGAAAAAATAATTCTTGCTAACCTCCTCACCCATTTCACTTAAATTARTTTTATTATAATGTGACTTAAATAYT
TATAAACTGAAAACTTAGTGCTCTAGGTTTTATACCTATTTTAACAGGAATAAAGTCCAAGCAAAATTTGAGATTAAAGTAAATGTATGAAACAAATAAA
ATATAAATGAATGATTGTTTGGTATGAAGGGTGATGTTCTGCTGCTAAAAATAAACTGTTCCTACCAGTTCAAGGGGATATATCCCCAACGGAAGACCGA
GTTCTTTTTTTTTTTTTTTGATCTTTATTTTATTTTATTTTATTTTGAGCAGTTTGAGGCTCACAGCAAAGTTGAGAGTAAGGTACAGAATAAAAGTGTC
ATATCATCAGTATTCTCCACCAGATCCTGTGCTATGATATTGCTGTAATATGCTGTGTAAAGGCTCAAACCYTTCCTGCATGATTTTTTTAAAGAGTAGG
GGTCTCGCTCTGCTGTCCAAGCTGGATTGCAGTGGTGYGGTCATAGCTCATTGCAGCCTTGAACTCCTGGGCTCAAGAGATCCTCTCACTTCAGCCTCCT
GAGCAGCATACTAATCAGGCACATACCTGTAGTCCTGGCTACTCAGGCATGCACCACCCCTTACAGCTAATTTTTTWAAAAAAATTTTGTAGAGATGGGT
TCTGGCTATTTTGCCCMGGCTGGTCTCGAACTYCTGGCCTGAAGTGATGCTCTCACCTCAGCCTTGCGAGTTCTTGGAATTATAGGCATGAGCGACTGCA
TTTAGCATCTTCCAGTCTTTTTCTTTCTTCAAACCACAGTATGACTTAAGTGGTTTGCCCTCCGTTGGGTACCAGTGTACCAGTTCCATTTTTGTTGTTG
TTGTTGTTGTTTTTGAGAGGAAGTCTTGCTCTGTCACCCAGACTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCG
ATTCTTCTGCCTCAGACTCCCCAGTAGCTGGGATTACAGGCGCCCGCCACCACACCCGGCTAATTTTTGTATTTTTGTAGAGACGTATTTTCGTAGGGGT
TTCGCTGTGTAGGTCAAACTGGTCTCGAACTCCTGACCTCAAATGATCCGTCCGCCTTGGCCTCCAAATTGCTGGGATTACAGACGTGAGCCACTGCACC
TAGCCATCCAGTTCAATTTTAAAACTACTGTTTTATTTTTCTCATTAAACTTTAACCGTTAAGTGCTCCTTATTACTAATGTGATCTTAAACATAAACAG
AAATGCAGAAACTGAAGCACGTAGCAATATTCATTTTAAAAGCTGATAATCCAGTTGATCTAAGACCTTAACCTAAGATCATGAAATCAGTTCGGTAGGT
TGTGACTAACATTTTAAAAAAATACAGTAGAAGTTACCAGAGTATATCACGTGTAGTAAGGGTAAGTATTTCATGAAATTCCTTTTTTTCAGTTTTATCT
GTTTATAGATAATCTGTCTGTATATGCCTTCTAATCCTCTCTCCAATTCCTATCATGTTTGTAATTGTCCATGAAAATAATTAAACTCATAATTTAATAT
ATTAATATGATTAATAAATGTTATTCATAGATTATTTTATATATACATTCTTATTACCTGAAACTGATCAGATACTGCCCAGAAATATATTTTTGAATAG
CACAACTGAAAAGTAGTTAATATTTAGACTACGTATTTAAAATCCTAAAGCTGACATGATTCACAGACCAGATATTGCCTACATAGAAAATCTAGAAGTG
ACAAATTATCAGAAGTAATAAGAATTCAGCAATGCCATTAAATATAAGATCAGTTTATAAAAATGAATAGTGTTTCAGTACAGCAGCAACAAATAGAAAA
TGAAAAAAATTTTAAAAGATACTATTTAAAATAGCAACCACAATAATATTATCTAAGACTCTATTTACCAAAAAGAAAATAAGGTCTTAACGAAAATTTG
GAAACTTTACTGAAAGATATTAAAGAACTAAATAAATACTGGAAAGATGCAACACGTTCATGAATGGAAAGATTCAGCATAAAGATATCAGTTCTCCTTA
ATATAAATTCAATGCAATTCTTTTTTTTTTTTAAATAACAATTTTGTGAGTACATAGTAGGGTACAAGAGATGTTTTTCAGTGCAATTCTAATCAAAAGG
GCAATGAGGTTTTTCACAGAAACTGACAAGCTGCTTTTAAAAAGATAGATCAAAGGGCCAATAATAAGTAAGACAGCACTGAAAGACTTAGAGCTATTTG
CCCTATCAAAACTCAAAACTTACATATATATGTGTGTGTATATATATATTTATATATGTACATATATATGTTTATATATTTATATAAATATATCTAAATA
ATAATATAGTATAGTATTATATAAGATAGAATAAACATGTAATAATATTATATAATAGCTAAACATGTATGTTTATATAGATAAACGTGTATATGTTTAT
ATAGATAAACATGTATATGGTTTATAATAGATAAACATGTAATATGTTTATATAGATAAACATGTATATGTTTAGATAGATAACATGTATATGTTTAGAT
AGATAAACATGTATATGTTTAGATAGATAAACATGTATATGTTTAGATAGATAGATAAACATGTATATGTTAGATAGATAGATAAACATGTATATGTTAG
ATAGATAGATAAACATGTATATGTTTAGATAGATAGATAAACATGTATATGTTTAGATAGATAAACATGTATATGTTTAGATAGATAAACATGTATATGT
TTAGATAGATAAACATGTATATGTTTAGATAGATAAACATGTATATGTTTAGATAGATAAACATGTATATGTTTAGATAGATAAACATGTATATGTTTAG
ATAGATAAACATGTATATGTTTAGATAGATAAACATGTATATGTTTATATAGAGAGATAAACATGTATATGTTTATATAGAGAGATAAACATGTATATGT
TTATATAGATGAATATATATAAACATGTATATGTTTATATATGTTTATATAGATATATATATACACATGTATATGTTTATGTTTATATAGATAAATATAC
ATACACATGTATATGTTTATATAGATAAATATACATACACATGTATATGTTTGATAAATATACATACACATGTATATGTTTGATAAATATACATACACAT
GTATATGTTTAGATAAATATACATACACTGTATATGTTTAGATAAATATACATGCACATGTATATGTTTAGATAAATATACATGCACATGTATATGTTTA
GATAAATATACATGCACATGTATATGTTTAGATAAATATACATGCACATGTATATGTTTAGATAAATATACATGCACATGTATATGTTTAGATAGATATA
CATGCACATGTATATGTTTATATAGATATACATGCACATGTATATGTTTATATAGATATACATGCACATGTATATGTTTATATAGATAAATATACATGCA
CATGTATATGTTTATATAAATATGCACATGTATATGTTTATATAAATATGCACATGTATATGTTTATATAAATATATATGCACATGTATGTGTTTATATA
AATATATATGCACATGTATATAAATATATATAAACATACATATATACACACACACATATACACACACACACACACACACACACAAACACATATATATATA
TGTTTTTTGGAGATGGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTAGCACAATCTTGGCCCACTGCAACCTCCATCTCCTGGGTTCAAGTAATTC
TCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGTGTCACCACGCCTGGCTAATTTTTGCATATTTTTAGTAGAGATGGGGTTTCACCATAGTG
TCCAGGCTGATCTCGAACTCCTGACCTCAAATGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTGCAGGCATGAGCCACCATGCCTGGCCAAAACT
CGAAACTTATAAAGCAATGGTAAGTTAGTATGGAATTGGCATATGGAGAGAGTAGCAAATGAAGCAATGGAGCAGAAGAAAGATGGAGAAAACAAATTCA
TGCATACATAGGAAGTTCATATGGCAGAGATGGCATTAGACATCCTGGGAGGGAGGGATTATTCAACTGATGCTGCAGGGACAAACAGCTTTCCATACTG
TAAAATTAAACCCTACTTCAGACCATACAGAAAATTTCAGTTGGAAAATATATATGTATTCATTACCTCAGGATCTGAAAAGATATCCTATAAATGACAT
ACACAAAAAGCACAAATCAAAGGAAGTAATTAGTAAGTCATGTAGCTTTTTTACAGGTTGCTCTAGGTATTACATTATATATACATAACTTATCACAGTG
TACTTGTGTCATTGTTTTACCAGTTTGAGTGAAATATAAAAACTTTACCTCTGTCTATGCTTCTTTATCCTCCCCCATTTATAATATAATTACCTTAAAT
ATTATAATTGTCTTAAATATTTAGAAAGCGTTATAATTTTTCCTTGAACCATCACACATAATTTAGGAAACTCAGGAGGGGTTCCTATTGCTTACCTTGC
TGTTTCTTTCCTGATGTTCTAAGGTTTCTTTTTTTTTATTTTTTCCTTTTTGTTTAGAGAACTTCCTTTAACCATTCTTTTAGAGTAGCTCTGCTTGTGT
CAGAGTCTGTTAGTTTTTCATCATCTGAGAATGCCTTGATTTGCCTTTCATTTTTTGGAAGATATTTTTTGCCAGGCATGGGATTCTGGGTTGACAATTA
TTTTTTCAGCACTTGAAAAATATTTTGCCACTTCCTTCTAACCTTTATGGTTTCAGATGAGAAATCTACTATCATTCAAATTGTTTTACCCTATAGCTAA
GGTATGATTTCTTTCTTGCTGCTGTCAAGAATTTTTTTTTTTTTTTTTTTAGTTTTTAGAAGTTTAATTATGTGTCATGGAACATATATCTTTGGCTTTA
TCCTTTTTGGGGTTCACTCAGCTTCTTGAATCTGAAAGTTGATGTCTCTTGCCAAATTTGTGAATATTTCATCTATTATTTCTTCAAGGTTTTTGTTGKT
GGTGGTGGTGTTTTTTTTGTTGTTTTTTTTTTTTTTTGCCTTTCTTTTCTCCTCTTGGGACTTTGATCACAAGAATGTTAGATCTTTTGTTATAGTCCCT
GGGGCTCTATTCATTTTATTTTTATTGCAGTCTGTATCCTCTCTGCTTTCCAGATTTGGTAATTTCTATTGTTCTGTTTTTCATTTCACTGATTGTTTCA
TCTGTTTCCTCTATTGTGCTGTTGAGTGCATCCACTGTTATTATATTTTTCACTTCTAAAATTTTTGTTCATTTTTTCTTTTTTTTTGAGACAGAGTTTT
GCTTTTGTGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCGCCCCCCGGGTTCAAGCAGTTTTCCTGCCTTAGCCTCCCTAGTAG
CTGGTATTATAGGCGCMTGCCACCACGCCCAGCTAATTTTTGTATTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCACGCTGGTCTCAAGCTCCTGACC
TCAGGAGATCCACCCATCCTAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGTCCGGCCCATTTTTTTGTTTATGCCTTCTATTACGTTGC
AGAGAATTTTTCCTTGCCTTGACTTTCTATTTTTCCATTTGTTTCAAGCATGTGTGTAATTGCTGTTAAAACATTTAGCATGGCTGCTCTGAAAGCTTTG
CCAGTTAATTCTGACATCTCTGTTATCTTGGTGTTGGCATCTATCGATTGTCTTTTTTCATTCAGTTGGAGGTTTGGAGGTTTTCCTGTTATTTGGTATG
ATGAGTGATTTTTGGTTGGAACCAGTGCTTTTTTGTATTATGTTGTGAGATTCTGGGTCTCATTTAAGCCTTCTGTTCTAGCTGGCTTTCCCTGACACTG
CTTCAGCAGGGTAGGGGTGTGCTGCCTCCTTATTGCCAGGTGGAGGTAGAAACCCAGGTTGCTTGGTTTCCGTTGAAACCCGAGGGAGATGGGTGCTTCT
TGTTACTGCTGGGTCCCTGGAGGAGTTCCAGCTTCCCATGTGGCCTCCACTGGGCCTTCTCTGACACCATCCCCGTAAGGAGTGAGAAGGGAGTCTCAGT
ACTGCCTAGTGGGTGTGGAAGTCCAGTCTCTGTCTGGTGTTTCGCCTGATACCATGGGGGTTAAAGCCTCAGTATTGGCCAGCAAGGATGAACCTCTTGT
TTGCTACTGTATGGCTGACACTGACACAATCCCAACTGGAGTTTGGAGTGCCTTCTTTCACCAGTGAGAATGGAAATCTGGGGTCCCAGCCTTTGCTAGC
ATGGGTGGGACCACAGGTTTTTCTCTGATGCTTGGCTAGAGTAGAGCGGTTATTGGCTAAAAGTTTTCTGTCTTGCTAGGCTTCCTCTTCTCTGGGGGTT
TGTTGAGGCTTTTTTGTCTGTGCCTGTTGGTCTTTCCGGGTTGTCAGCTTTTTCAGCTCCAAGTCTGGGTTTTATGCTACAAAAAGTAAACCTGGGGAAC
TCACCGTCATACTGTTCCTCACATCCCAAGTTCMCTAGCTGGTCTGCTTTCTGCTCACCTTTCAGAGTCGTCTTATGTTTGTTTGACATGTAATATGCAG
GGAGTGGTACTTAGAGTAGGAGTGGGGAAACATATCTCCATTCCTTCTTCCCAGAAGCAGAAGTTCTTCAATCAAGATCTTATTTTAGAGATTGCTCTAT
GTATAAATGAACTTTGCTTCCTTGGTGTTATTTTGATCTAATTATAATAAAATTTGGACTTAGATTATATTGATAATGCCAGTGTGCAAATTTTAACTGC
AATAGAATTGAATTTTGCACATGGGTGAATCTGATTGAGAAAAAGAAAATCCTATTTTTTATAATTAAAAAACTGCTTTTAATATTTTTAGTGCTGTTTA
CAGTTTAAGAATGTTAGTATATTTTTAAAAGCACAACCAGTGGGGAAAATTCTATCCCTTTTCTTGGCAAATTAACAATCTAAGCATACAAAAATTTRTA
GGAAAATTTTGCCAGCTCTCCATCAGAGTGCTGTCATGATGATTAGTTCATATTTCCTTCTTACGAAGCTTGCCCTTTCTTGTTTATCACCCACAGAAAA
GCATCAAAGTTAAAAATTAAAAGTATTTGAAGGAACCTCCATACCAAGTGGATTCAGAGAGCCCAGAGGTCAGAAATCGTGCAGAGTCTTATGTTGACAG
AGGAATGGCCCTGCCATAAGAAAGGTGCCTGAGTTRTACAAGGTGTTGGCAGYTGGAGCCAAGTTACACCTGGTTTACTTACCTGATATAATTTTAAGTG
CTTCACAAATAACGTTTTTTACCTTCATAGTTAAATATTTACTTAAGGTATATTAAAAACATATAATCAGTGAATCAAACCTGTGATTTCATAAATGTGT
TGCAAAGAAAGATTCTTAAGTTGGTATTTGAGTTAAAAATGTGAGTTAACTTAACAAGAACTATCAGGTTATAGTAGTGATGTCCTTACAAATATGTCAG
TATTATTGAAGGTAAAGGGGAATGACTGAAGTTAAGGAAACATGTTGGAGCAATTGTAAAGGCAATGTGTGTCACATTTTCTGCCACTTGTCATTTAGAT
TGTGTAAGCTAAATCTARTATAAGTGGGACCATTGTTTGAATGAAAAAAAATCCAAACTTGAGATGTAGAGAAATATAGATGAATTTGAAGCCCAGAAAG
GACATTTAAGCTCTCTTAAGATGAGTTACTCCATTTTTTATAGTAGCTCACCTTTTTAAAGGTATTTTATCCTGCTGTCAAGTTTATTTTATTAAATTGG
ATACCAGGAAATTCTAATTGATTTTTTTATATCAAACAAATCGATGTTATTTATTTATTTTTGAGACGGGGTCTCACTCTTCCTCAGGCTGGAGTATGGT
GGCACCATCGTGGTTCACTGTAGCCTTGACCCCCCAGGCTCAAGCAATCCTCCCACCTCAACCTCCTGAGTAGCTGGGACTGCAGGTGTGCTCAACCACA
CCCAGCTAATTTTTTTTGTAGAGATGAGGCCTCTCTATGTCTTCTATACTGGTTTTAAACTCCTGGGCTCAAGCAATCCACCCACCTTGGCCTCCCCAAA
ATGTTGGAATTACAAGCGTGGACCATTGCGCCTGGCCAAAATCTGCATTTTGATGGATGTTTCCAGTAGATTCTCAAGTTGTTGATACATCTTCTAAGTT
GAACATTATTATACAGTCATTCATTTATTCATCCTTAAACACAGTTATTGAGTGGCTGCTGTGCGCCAGCTTTGTTACTAGGTGGCAAGGATACAGAAAT
GAGAAAGATCCCTCCTTTCCAAGTTCTTATAGTCTAGAGGGGAGGTAGTCATGGAAATAATTGTAATGAAAGCGCTGGTTGAAAATATCTTAGAGTTACT
GGCAGCCCTTGAGCATCATGCTAGTTTGCTAGAGGGGTGTGTTAGAATTGAGACTGGAAGAATGAATGCCAGTCAGGTGGAGGTGTGAGAGAGCGTGCTT
TTCTTAGGAAGCAGAAACTAGTTTGGCTGGGTTACTCTGCCAGCATGAGCAGGCAACCTGAGGCAGGACAGACGTGTTTTGGAGAGAAAGGGTGTATAAA
GCTGGAAACCATCATTCTCAGCAAACTGTCGCAAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACACTTGGA
CACAGGAAGGGGAACCTCACACACCGGGGGGCCTGTTRTGGGGTGGTGGGGGGGACGGATAGCATTAGGAGATATACCTAATGTAAATGACAAGTTAATG
GGTGCAGCATACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATAAAAATATACAAATA
AATAAAAAATAAAAAGAGAATCAAGAGTGAAACGGTGGAGTGAGAAAGCGGCATTACACAGGGCCTGGATAAAGAGTTTCCTGTGACAGAGACTGAGCTG
AGATGGCTGGTGATGGGGACCGTAGCCTAGTGACCCTTTGTGTACCCAGCACCTATCAAAGTAGCTCACACATAATAGGTGCTTAATAAATGCTTGGTAA
ATGAATGATTAAATAAGTGATGTTTAGAATAAAGAGAATAATGGGTATCTCCTATTTGTTTTTCTTAACAAAACTGATTTGGGTTTTTTAAACATAGAAG
GGTTGTTGTAAGGCTGGGCGTGGTGGCTCATRCCTGTAATCCCAGCACTATGGGAGGACGAGATGGGTGGATCACCTGAGGTCAGGAGTTCCAGACCAGC
CTGGCCAACATGGTGAAACCCCACCTCTACTAAAGGTACAAAAATTAGTTGGGTGTGGTGTCAGCACCTGTAATCCTAGCTACTTGGGAGGCTGAGGCAG
GAGAATGGCTTGAACCCGGGAGGTGGAGGTTGCAGTGATTCAAGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGTACAACACTGTCTCCAAAAAAA
AAAAAAAAAAAAAAAAGGTTGTTGGAGTAGCTGGAAATCTATACATTAACATATATGGTAATCAATGTCTATTTACATTATATAGATTTACATTATACAG
ATGTAGCCAATTCATTTACTCTTTTGGAAAGATCATATTGATTTCTTATCGTTTTTTCCCCATTATGTTTATTTCTTTAAAAAATKTTTTAATATCACTG
TAAATTGATTGAAGCATCCTGACATTTCCATAGATATTCCTTTACAGCAAATATTAATGGGATCTACATGGCTAAGTTACTGTTTAAAGATTGATATTGA
TGATAACTAGGCACTAGCCTCCCCTCTGGCGCTTGAAACCTTTTCTGTTGTGGTATTCGTAGGAAATCTCTTTTTTTCTTTATATTTTGTCTTCCCCATT
TTCCTCATTCCTCTTTTCGAGAGCAGAAGATAAATATAAAGTTGACTACTTTGTCATTCTGTTTCATTATGTTTATTAGACGGTAGTTTCACTTAACTAT
TTAGATAATCTAGAATTAGAAAATAAATTGTGGGCCTGGCAGGGTGGCTCATGCCTAAAATCCSAGCACTTTGGGAGGCTGAGGCGGGTGGATCACTTGA
GGTCCGGAGTTCAAGGTCAGCCTGGCCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAAAATTAGCTGGGCATGATGGCACGTGCCTGTAATCCC
ACCTTCTCAGGAGGCTGAGGCAGGAGAATTGTTCGAACCTGGGAGGCAGAGGTTGCAGTGAGTCGAGATCTCCCCACTGCACTCCAGTCTGGGCGACAGA
ACAAATCAATTCTGGTAGTAGAGATGGTAGTGACTAAATGGAAGAAATAAATCTCATATGCTGTAGGAAAATGTTTGCCACTGGGAAACCATTTAAAGAG
GAAGTGTTATTAGTATTAAAAAATCTGTCATTTTGAAATTTCTTTTTAAAAATTACATTAATTTCTTCCCTGGTGGTAATGCCATTGTATTTTCAGTAGG
TTTTTTTTTTAGTCCTGATACTTTTTGTATATCTAGCTAGCAATTTTAATGGATGTGCTTAACTCATGAAAATCCAGATTTTAAAACATGATAAGTTAAT
AGGTGATAGTTATTTTATAAGAACATTTGCCATGAGTTTATTTAAAGAATGAGAGCTTCTTTGTGCATTTTCATCAAGTGCATTCTCCTCAGGAATATAT
CTCCTTGAAAAGAAAAAATGGGGTGTATTTGCAGTAGGTTTATTGATRGTCGAATAGGAAGAAACAGCATTTGAGAAGTGTGGAGAAAAGATCTTCCTGA
TTACTACAGAGACCTCCTAAAGTGGGGCCAGACTGCTTGAACAGAAAGTTTGGAAGCAATTGTGTGAGGTGTGCTGCATTTGTTTTACTAATTCGACTTG
ATTTTTGTAAATACACCTGTTCATTTGGGTTTGAGGATTTAATTGCATAAAGACTCTTTATTTAGCTAAAGCGTCTTGTCCTCATGGCTTTTCCCAGAAG
TTTGTGTTATAAATGTTAATATATTAAAAGTGCTTTTAAATGATTTATTATTAGCATCTTAAAAAAATCCTACACTAAATATTAAAGTAGTCTTTATTAT
TTCAGGTGAAGGCAAAGGGAAACAGTACGAGTTGCAAGGTAGGGGGTAAATGGAAAGGAAGAAAAAGGAAAGACAGGAGATGAAGGGAAAGATTGAGTCC
CATCATTCTTGAAGACACATTGTTCATGGCTTCAATAACCCTGGCACAGCCCTCTGAAGAAAGTGTAGTTATCCTCTTCTTTCTGCAAGGAGGCAGAGAT
GCTGTGAACCTCTCTTGAAGTTACAGGATCACTTAGGTAGTAAGTGGCAAAGCCCACTAGAGCCCTAACCCTGTTTGATACTGGTGAGTTCACCTGCTAT
CATTAAGGTGTAACCTGACAGCAATGTAAAAGACAAAAATCCCCCTTCACTGAACTCCAAATACAGTTACTGTCTGTCCTCAGGATCTCTTTATTTTTTT
CTTCTCCTTTTCATGGTTCAAGGAGAGATCCCTTTTAATCTCTTCCCTTCCAGCAAAGCTTCCTTTCACTTTCTACCTGAAGTCAAAAACTTGAGGCCAG
CTTAGTTCAGAGCTCCTCTGGGCTTGCTTATCTCCCAGCCTTTGTGGACTCCTTCTTGTCCATTTGTCTTTGTAATGACTTCTTCCTGTCGAACCTCCCT
GCTGAAGGGAGACTTCTTACTAATTTCTCTTATTTTCCCTGCTTGCTTGCTTTGAGATTATTTTCTTATCTCTTGTTTTCAGGCCAGGAATTTCTTCCTC
CTGCCAGCTTTTTTGTGAATCCTTTTTAACCTCTGGCCCAAGTCTTGATCCCTAAAGCAGTAAAAGCCTATGGAGGCCTGGTATGGTTTTTCTGTACAGT
TTTTCCTCCCTCCCTTCTTTTTCTACCCTTCTTTCTGAAAAAACAACAGAAACAAAAAAAACCCAAAAACCCTCTGATACTTGATTTTGTATCAATAATC
AATATACATTAATATAAAATTTATTAATATAAATTGACTTAATATACACAATACTGAGTTTTTTCCAGGCTTTTGTGGAAGCTCCCCACTGCAGTCCAGA
ATGCTCCGTGACCAGGTCCTAGGATTCTTTCCCTTGGTGCCATTGTGACTGCTCCCTTATTTTATACCTTCAGCTCTGTCCAGTTCTCTTCTTGGCCTGG
CTGAGCTGGGCTCTGCACCTCATGGGAGTGGACATGAATCCTGAACACACCATGTGGGTGTACTGGGTTGTCCCCAACCTTAATGTGAAGGCAAGTTTAG
AGAAGAATGCATGATGAGTGGGCTTGCATGCCTCCCTGATGGCCATATGGGAGCATGACCACACCACAGGGTTAGTCCTTACCTGGTGGGAGCCACTGGG
AGCAGAGGAGTGCTAGGTATCGCATGGCATATTTAAGATAGTTTGTGTCCAGCCATGACATTTCAAGTGCTCATTAACTGCATGTGGTTAGTAGCTACTG
TATAAGGCAATGTAGTTTTATAGACAGTAGCACAGCTGTATGCAAGAGATGGGCCTAGAAAGACAGGTAACACTTAACTAGACAGATTTGGGGGAAAATA
CATTCCTCAATGAAAGCAAAGTTTAAACAAGGTTGAAATAATTTATTTAAAAAAAAAAATAGCTGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGTA
CTTTGGGAGGCTGAGGAAGGTGGATCGCTTGAGCTCAGGAGTTTGAGACCAGCCTGGGCATCATGGTAAATCCCTGTCTTTACTAAACATACAAAAATTA
GCTGCGCATGATGGCAAGCAGCTGTAGTCCCAGCTAATTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGTGGCTGAGGTGGCAGTGAGCCGAGAT
CATGCCACTGCACTCCTCCCTGGGCGACAGAGCGAGACAAGCAACAGCAACAAAACAAAAATAAAAACAGCTAATGAAGTTCTTATTATGTACCTGGTAC
ATTCTGCCATTACTGAAATTAACTGATGTCATCTTCACAACAATCCTTTGAGGTGATTACAATTATTATTTAATATGTCCATAATAAATGACAGGTTTAG
GAATGTACATTTGAATTGTGGTTCTGACTGAAACATTGGGCAGTTGAGGAAGTACTTGATAAAGTGATTAGTGCCCTTTTTAAGTGTGAGCAATTTCTAG
TTGCTAAGTCAGGGTATCATTTATGTATGAATTACCTTATAGGTAAGTATACTTTACATTCTTTTATGTAACTCCTAACTATCAACCTCCAGATATCACA
AAGTTTACTTGTGGGTGATTAAATTGCTTAAGACAAGAGATTGCCCACCCATACAGAATTTCTATTGCTTCTGCCTTCCAGAGAACAGTGGGAGCAGCCT
GGCCTGCAGGTTGATTGTCAGATTCTGCCTCCCTCCCACCTACTTATTCCTCCAGAGAGACACATAGCTTAGCCTCCTGTCACACTCTGTCATTTTCCTG
GGGCTGCAGAGCAAAGGGCTCCCTCAGGTTAATTCTGAAGTCCTGTGTATGCTGAAGTCTGCTTGAAGAAGGAGAGAAGCTTCCATCTTGCATATTTCCT
AATACTTTATCTTTCCTTCTGTAACAACAGTGCACAGATTTTACTTCAGGAATGTGTTTTTATTCACTCCTGCTGTTATCCTGTATACTAAAGTAGTCCT
TTGTCAATGTGCTGATGTGCTCTAGAAACATATAAAGAGTTTTTTTTTTAATTGGTTTGTTGACTGGACGTAAACACTAGTATAACACTAAATCTAAGTG
CAGAGAGTGGGCAGCCTGATTTTGTTCATAATCTCAGGGGAATCTTTTATAATGGGCCAGGAAGCACRTGTCTGTGGTTTCTGCATAGGGCGTGTTCTGT
GGTGCCCAGCCAGCTGTAGTATGTCCTGCGAGATTTGGCCTGCAGGCCACAATGGTGGGCTTCTGGGAGGAAGAATCTTCCTTAGAAGTCCTGCCCTTTG
ACACTCCTTCTGCTGAAGTGTCCTGATCTCAGTGGGGCTCCCTGATTTTCTGTTCCGGGGTCTATCAGCACTGGGTCTATCAGTGCTACCCACGCCGCCG
TGACTGTGGGTCACTGAGGGTGACCTGCGTGGGTCCCATGGGCTCAGCCTGGCCTTCCCAGGTCCTACAAGGTCCTCCTTACTGTCCGTCCCTGCTCAGT
CACCAAAGAATGACTTTTTTGAAAGTACAATTCCAGAGTTAAATACTGGCTAAGTGTAGAAAACAATRCTGGAATTCAGTCTTCACCTCCACCAGTCCTC
ATGGTGAGATGAAGTGTTTATGGGTTTCTTTGTTGTAACCTCAAAAGTGGAATGCATTTCCTGGTTGGTGCTGCTTGCCCTCCAGGTGCTTAGTGAGTGA
AGCTTCATCTTCCAGATTTCTCTTTGTGGCTTAGGGTATCTGTATGATTTTCCTGCTTTTGTTTTCAGAGGTGCTAGGCTGTGCTGATCTCTCTGGAGTG
ATTATGGTGCTTTTTGCCTGGTAAGCCCATCCTTATGTGTAAAAATCAGGATTTAGATGTGAGGCAAATAAGGTGGTGGTGATTTTGTTTTACAGAGAGA
TTTTCACTTTGCAAACTTTTAGACCTTTTCAAATTCTAATTTGATTTGATGTATTTAAATAACAAGTTATGTAAAAACATTGAAATGACCCATTTTACAG
AAGTTTGGTTTACAAACCCATTGTTTGTGTAAGGTAACATACCTGAGGCCAGGAGCATGATACCTTTCCTCTAGTCTTGCCCTTGTCCCTCGCTTTGGGC
TCCAGCTACATCAGAGTAATTGCCATGCTCACAACCCCATACAGTGAGAGCACAGAATAATGGTCTGGGTACAGTCTGGGGCCAGACAGCCTGTGTTTGG
ACTCTATTTTTCTTACTACCTGTGAATCTTAACCTCTCCATGGCTCAGTTTCCCCATTCAAAAACAAGTATATGTTGATAGAACGTTTTATAGAGTAGCA
AGCATTAAATGAGTTAATACAGTGCATGAAACATAGTGCTCATTAAATATTACCTCCTGTTATTCATTCAGCATTTATTTCTCTACCATTCTTAAGCTAT
TCTCACATTGTGCAATGCATTTTTGTCACATCTGTCTTTTTAAATATTCTGTATACTAACAGTCTTATTGCTTTCATGAAGCTGCCCTACAATTTCCAGT
TGAGGTTCTAATCTTAGCTGTACATTGGGATTACATGTGGATTTTAAAAAATGCCGATGCCTGAGTTTTTGGCCTGTGCTAGAGCYGCTTGTAGCTGCTT
GTAAGAATTGACTGTTATAGTTCCAGGACTTTGTACCAGACGGTGAAAGCATTGGTAACTTGAAATCAACTATGTTGGGAATATTTGCACTCGTAATTGG
CAAATACTACCACAGCTCTCTCTTCAATCTGTTTGATGTTCTAGTGATTTGTTTATAAGCCTGTCTCTCTCAATAGGTGTTGACCATTTTGGTGGAATGT
ATTAGTTTGCCAGGGCTGCTGTAACAAAGTGCCACCAACTGAGGGCTTAAGCAACAGAAATTCATTATTTCATAGTTCTGGAGGATAGAAGTAAAAATAT
CAAAGTATGAACAGTATTGGCTCCTTCTTGAGGACTGTGAAGGAAGGATCTGTTCCAGGCCTCTCCTTGACTTGTAGACGGCCACCTCCTTCTTACGTCT
CTTCATATCGTCTTTCCTCCATGCATGTCTCTGTGTCCATGTTTTCCCTTTTTACGTGGACACCGGTCATATTGGATTAGGGCCCACCCTGATGGCCTCA
CTTTAACTCTCTGCAAAGACCCTATCTTCAAATAAAGTCACATTATATACTGAGGGTGTGGACTTCCACATTTGAATGTTATAGGGACATAATTCAACTC
RTAACATAGGGCGAGGACATTCTTTTCCACCTCCCTCCTCAGTCCGTTTGTGCCTGTGGTAGTTGCACAGTAAAGATTTGTAGATTTGAAAAGGAAATAC
CTTTTGGCTGATGTTATTTGTATATACTTTTTTATTCATTGAGCTATGAACTCCAGAGTTAGTATGGTTTAAAAAAACTTTTTTTGTTGTTTTGTTTTGG
AAACAKCTCCTTCTTGGGAAAATAAGAGTTAGTATTTCTAGAGAAAAATGTTAGTTTAGAAAGAGTAGTTATTTTAGGCTAAGGCAGACCTGAGCTTGTT
AATGAACTTGTGGACTCAAAAGGCGTATGATTGAGTGAAGTGGTCTTGATTTTGTGTCAGTGGCTGACAAAAAGCTTTTAATCATGCATGAAAAAAATGT
TTGTGATGAATTTCCACTGATTTGAAAATGTCTTAATGTTGCTAGTCCTCTTCAGGATTATGTAAGACTGTAGAGTTCTTAGAAGAGTATGGCCTTTCTT
GCTTTTTCTCAAAGGCAAATATAATGTCAGGTAATTTTGCTGTTATGCTATTGAAAAAATACCTCYTGAGTCACAGGAAGCATAAATTATTTTTTAAAGA
TTTACCATGTGTTAGGATGATTGTGTCATATATTAAATATRTAATGGATGACATTTAGACTATTATCATCTCGAAGCATGTAAATATAGAATATACTTTT
TGAAGTTAGTTTTCTTCAAAACGAGAGATATTTCTCACCATTGCTTTTTGCTGAGTAAATACCAGAATTAGAATCTTATGCCAAAAATATATTTGGAGTA
CACATTTGCACAGGAATTTGTTTTTTTCCAGACTTTTTAATAGAAAATCTTTAGGTATAAATTACATACGGCAAATATAAAAAGTTTTATTTTTAATCAA
TTTTAATCAGGTGTAATTTATATGCAATAAAATTTATACATTTTAAGTGTATGARTCAATCAATTTTGACAGATACACACATCAATATAACTACCACCCA
AATTAAGATCTAGAACATTTCATCTTCCCAAAACGTTCTCTTTGCCTTTTTGCAGTGGTTTTCTCCCCACCTCCACCTCCCACTCCAAGCAACTACTGTT
CTGATTTCTGTCACTATAGGATAGTTTAGACTGTTTTAGAATTTCACATAAGTGGAGTCAGTACAGTGCATACTTTTTTGTGTCCAGCTCGTTTTACTCA
GCATAATGCCTATGCAATTCACCCATGTTGTTGAGTGTATCAGTAGTTCATTCCTTTTTCTCACTCAGTTGTATTGCATCATATGCATATACCAACATTT
GTTTATTTACTTGCTGAACATTTGGGTTTCCAGCTTTTGGCTATTTTCATTAAAGTTACTAACATTTGTGTACTAGTCTTCTCACAGATCTATATTTTCA
TTTTCTTCACATAATTAGGAGTGGAATTGCTGGATTATGTGGGTAAGTATATGTTCACTGTATAAGAAACAGCCAGGCCAGGCACAGTGGTTCACACCTA
TAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGGACTGCTTGAGCCCAGAAGCTTGAGACCAGCCTGGGCAACATAGTGAGACCCTGGCTCTAAAAAAAA
AAACAAAAAAACCCCAAAAAGCCAGATGTGGTGGCACAAGCCTGTAGGCCTAGCTACTCAGAAGGCTGAGGTGAAAGGATGGCTTGAGCCCCCGAGGTTG
AGGCTTCAGTGAGCCATAATTGTGCCCCTGCACTCCAGCCTGGGTGACAGAACAAGACCCTGTCTCAAAAAAACAAAACAAAAAAGTAACAGCTGAAGTA
GGTTTTGGAGTAGTAGTTAATTTACCCTCCTCTCAGCAGTGTGTGAGAGCTGTAGTTGCTCCACATTCTTGCTGACTCTTGTCAGTCTTTTAAACTTTAG
CTATTATAGTTAGTGTATGGTGTCATGTTTTATTTTTAACTTGCTTTTTCTTGATGACTAGTGATGTTTTCATGTGCCTATTGGTTATTCATTTATGTAT
CTCTTTTGCCCATTTTGAGACTTGGATTACTTGTATTTTTTAGTTATAAGAATTCTTTATACATTCTGAATAAAAATCCTTTGTCAGTTATAGGTATTGT
GAATATTTACTCCCAGTGTATGGCCTGCCTTTTAATTTTCCTGATTATGACCTTGGAACAACAGAAGGTTTTAATTTGGTGAAGTCAGATGCATTAGTGT
CTTCTTTTATGGTTACTAGTGCTTTTTGTATCTTAAGAAATCTTTGCCTACTCCAACATCATGAACATTTTCTCATATTTTATTTTAGTTCTATAGTTTT
AGCTTTTAATTTTAATATATTAAATAGTTGGATTTAACTTTGGGGCATCATGATATGAGGCAGGGATTGAGGTTCCTTTTTCTTTGTACGTTTACCAGTT
GTTTCCACACTGTTTATAGAAAAGACTTTTATATGCATTGAATTATGTTGATGCCAAAGGCTTCATTTTGTCTTTGTTTTTAATTAATATTTATTTATTT
ATTTTTTTTAGAGACAGGGTCTCGCTTTTTCGCCCAGGCTGGAGTGCATTGGCACGATCATAGCTCTCTGCATCCTTGAACTCCTGGGCCCAAGTGATCC
TCTCAGCCCTGCAAGTAGTTGGGGTACAGATTTTCTTGTGGAGATGGAGTCTCACTTATGTTGCCCAAGCTGGTCTCAAACTCCTGGACTTGATCAAAGG
TTTTGTTTTGAATTTGACTTTGAAAAATGACCTAGATTTTTATGTTCTTATATTAGATATKTTAGACTTTGACTTTCTAGGATGTCATTTAAAAATGTTT
TTAGGTCTCCCTTTTTCTTTTTTYGAGACACAGTCTCTGTCACCCAGGCTGGAGTGTGGTGGCAGGATCTTGATTCACTTCAACCTCCGCCTCCTGGGTT
CTAGCGATTTTCCTGCCTCACCGTCTCGAATAGCTGGGATTACAGGCGCCCACTACCATGTCTGGCTAATTTTTGTATTTTCAGTAGAGACAGGGTTTCA
CCATGTTGGCCAGGCTGGTCTCAAACTCCTGACTTCAACTGATCTACCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATGGCACTGGA
CCCTCTTTTTCTTTTTTTTCAGAAGTTATTGTATTTATCACATAATAGAAATAAAGGGTGGGATGGGAGCTCTAGAAATCTACCATTTCAGCTTCTTCCT
TAGTAGACCCACATTAGCGATGAATATAAAATAGATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTACCCTGAGCTAATGGAATTTGTGGAACA
TTTGGTAAAGCTCATAAATATTGCACAACTGGTACAATCTTAAGTAATCAATTCTAAGTTTTTAGGGCCGGGTGCGGTGGTGGCTTACGCCTGTAATCCC
AGCACTTTGGGAGGCCAAGGTGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAAAA
TTAGCCTAGCGCAGTGGCGGGTGCCTGTAGTCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCTGA
GATCACGTGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAAACTCCGTCTCAAAAAAAGAAAAAAAGAGTTTTTAACAACTTTTGTTAATTT
TTCTTATGTTTAATAATAATTATAGATAAGCTTTTCTTTACCTTTGGTTTTCTCATATTTGAGGACTGCAATTTAAATGATCTTCAGGAACTTCTTTTCT
TCTTGTATTTTGTGAAATGAAATGCTTTTAAAGGCATTTCAGGCATCAGAGGTAGATGAGGTGGTATTTTGGGCAGTGGCAGTTGTTTCTGAAATCACAC
ATTAGTAGCTTTTCCTATCCTTTATCTTCTGTTCCCCTGGAGTGAAAAAGGTGCTGTTGGAGGCAAAATTTGTGGCTACTGAAAATATTCCTTAATGCTG
GTAGCTTCTTGACTTCGTGCCTTTCTTACCCAATTACATCTATTCTAAAGCTGTCCCACTTCTTTTCCTTTGAGCAYATGACTACTGCTATCTATCTCCT
ATTCTTAACCAGCATTAATWACACTGTGTATTAGATACTGTTTTAAAGGCTTTATGTTTGTTGACCGACTTAATCCTCATAAACACCCTTGTGAGGTTGC
TGCTGTTATTTTATTACGGGTTTTATAGATGAGGAGACTGAGGCTCAGAGATGTTAAGTAGCTTGTCTAGGTTATACAATTACTAAGTGGCAAAACTGGA
AGTTGATACAGACTTCCTGGCTCTAAAGCACACTATGTCATACAGCCTCTCAGGAAAAACACAGAAGGGAGCAGCTATTCCCTTCCTTCACCTTTACTTT
TGACTGCAAAAGGGGTAATATTTTATAGCACAATTAAAATTATTTTGGTTAATATTTTATGAAATTTCTTTCCCTTATAATGCATATTACAGTCTGAATT
TCTCTCTGGTGGTAAAGTTTCTGACAAAGCATCTGTGCTTAAAACAAAGCAGCTTTATTTATGAAGGTATTTCTTTACAAACCACAGCCCTGGTATCCAG
CAGAAAGCATGGGTTGTCTTTACATGTGGTTATTCTTCTGGGAAAGCATCTTAGAGGAGGTGAGCCTTGACCTGCTTGTTAACTGAGAATATGTGCACAG
GTCTGGGGTATAGTATGTGTAGATTCGTGGTAAAAAGACTTGGGATTGTGAGGGGCTGAAAGATTAYGAAAGGATAGGGGTTTTAAAATATTATTACTAA
GGAGTTCTGTCCTTAGAAAAGATTTCTAGGATCAAGAACCAAGAGCTGGACGATGATGACAACAGGCAGAAATGAGTGGCTTCTCTCAGCCCTTGACTTC
TCTGCCATTCCCTCCCCCTTCGAGTGTTCCCCTTTCCTTTGGTTTCCAAGTTGCACGCTGATCCTCTTAGTGTTTTTAACCTCATTGCAGACAGAAGTAC
TTTCCCATCAGGTTTGCCAAGACAGACTAGAATTTTTTTGTTAGAATTTTACCTTTAAAAACAAAACCAAAACCAACCATTACAAAAGAAGCAAAGGTAT
AATCAAAAGTGTAGAAAAAACTAGAAAAAAAGTTTTAGAACAACACGAGTTTACCTAGTATAGACTTTCTGCCTTATGGTAATACCTCCTRTCTCTCTTA
GCCTTTTGAACAGCCCAGCTCTCATTGTGCTAGCCTTGAGTCTGAGGCCCCATGGAGTTCCCATAGTGGGGAAATTCTCAATCCTCCCTTGCTCCCAAAC
AGGCCTCTCCTTTGCGGATAGGTCCTGGTGTGTTTCTTCACCTCAGGCCTCTTTAAGCCTGAAGAAGCGTGGGCCCTACATCTGCTTTTAGTTTTCAGTC
CCTTGTGGTAAGTTGGCTAAGGCCCTTTCGCCTCTGTTGGTAAGGAGGGGTTTTTTGGGCCTCCAGAACCTCCCACAGGTGCTGTGTCTTCCTGTTGGCT
CATTCCGAGGAGGACTCACCAGCTGACTGTCAAACTGGGTCTTCCTCACCTTGGTTCACTGTTGGCCATGTGGACTTCAGTAGGGGCTGCCATCCTTCTA
AGAAGCTATGCGATTGTGTCTATTTCCTTCTCTGGACAGCAGGAGACCCCTTTTTGAAGACAGCACATTTTCTTTTTTTCTTCTTTTTTTTCTTTTTTTT
GACATGGTGTCTCATTCTGTTGCCCAGGCTGGAGTACAATGGTGTCATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCCTTA
GCCCCCTGAGTGGCTGGGACTACAGGCCTGCACCACCATACCCAGCTATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTGGSCCAGGCTCRTGT
TGAACTCCTGACCTCAAGTGATCCACCTGYCTCGGSCTCCCACAKTGCTGGGATTACAGKWRTGAGCCACCACGCCCGGCCAGCACTACACTTTCTAATG
AGTTTTTATTGAAAAAAATTTTAGTTGAAAATGAAGCTGTTGGCTCGTAAGTGAAAAGCTTGAAGGCAGGCTGGAATCAGGCATGGCTGGAATTGGGCAT
GGCTGGTTGTAGGGGCTCTGCTCTTTCCTCTCCTCCTGTGATGGCTGCCTCCTGGTGTTCCACAAGGTGGCAGGATGCTCCAGTGCTCTGTCCTGACTCC
CAGCCTCCAGGGTTCTAGTCCAGGGAAGAGGACCAGCATCTCCTTCTGGGAGCTCCTGTATAAATCCTGTAATCCATTTTTTCTCTTCTTTCTCTTTTCT
AATATGCCATTTTATTTTTTAATAAGTTGTATATTTTAGTTCAAAAAATGGAAAGTATTTTAAAAAGATTATGAGGTAAAGAGTTTCTTCCATCCTGTCC
CTTTTACTATTATAAAAACACCCTTCATTGTCCTGTTTTAATGGTTTTTATTCGAATTTTATTTTTCCTGGTAATAAGATTTGATCTCATACTTTCTTTT
TATTTGTATTCACCTAATATATACCTCTAGGCAGTTGTTGTTTTTCAGCCATCTTTTTAATTTGTAACCTTTCTGAATTACTTTGTTTTGGATTGCACTC
CTATTTGTAGCATAGAATTTTGGGGTTTTTTTCCCCTCTGTGATCCAATCTGAATTTAATTTTCTTTTAATAGGTGAATTTAGCCCTTTAATATGTCAGA
TATATTTGATTTAGTTTATACTATTTTGTGTTATATTTTCTATTTTTATATCTTTTAAATAATCTTTCACGATGTGATCTGTTTTCTTTGCATCTTTTTT
TTTTGTTGGTTTTGTCCTGGTGGTTGGTTTTAGAATTATAATTTCAAATAATGCCCTTAGTCTTCTAAGAAAGTGGTGGTTGTTCCCTACTGTGAGCACT
GATAAAATTAAYGAGTTTCATAGTAATTCTAATATGGAGATATTAAAGCCAGGTTACCTTGTCTGTCCTACTCAGTCAAGAACCCTGTTTCATTCTGTCT
TCAGAGGAGAGAATGAATTACTCGGCTTGGAACTCATCAGTGCTATTATTACCAATGAGTTCACTGTCAGAGGGGGCCTTGTAAGTTTTCCCAGAGGATA
CTGTCCACCTTTAACAAGGCTCTTTTTGTCTATGAGTTTCTAAAGTCGGTATAGATCATGCAATTGGTAAGCTGACATTTGTTTGTTCACAGTTGAACAT
TAGTTCAGAGTCTCTGTTGGTGGTCTGTTATTTGATGCCAGAGAGTCACCAGTTTTATTTCCAAGCAGACATTAAAAGATATTATTGGTTCTGAAGTTCC
CTTGTTTTAATGTGGGCTCAACACTTGCTGAGAGAGCATTTAGTTTTTCAAAAGCAATATGGTAGGCAACAGAGAGGCATGTTACATGTGAAAAGGATTT
CTTTTTTTTAAAATTAGAAGCTTTAATTTAACCGTCTAGCTTGGCATGCCCTGTGTAATGACTGAGAGACCGAGATGACTGTCTTGTTGTGAGTCCCACC
AACAAGGACAGAAGGGAGGTTGCCACCTTGGGAGGAGCACATCTTCTGTTCATGCTCCTCTCCATTCAGGAGGCTTCAGCCCCACAGCACAAATAGCCTC
TGTAGCGGTCAAGGGAATGTGGTTTTATAATTTTTTAGATCTGGGTCAATTATATAATCATAGATAACTTAATTTTTTTGATGCAGTGGTATTTACTGTC
CACCTCTAATAAAGCAGGTGAATCATAGACTACCATTGKATACATGTCTTTGGAGCAGATTTCCATCCATTTTTACTCCAGTCCTATGGTGGCTACCGGT
ATTGTTCTTGTCGCCTGCTATTCTTAGTCTGCAGTTTGCCTGTGACTCACCCCAGGAAACCTGTTGAAAATGCTCGCTCTCCTCTAACTTCCTGCTGAAT
TCAGATTTAGCACCTTTCGGGTGGGAATCTGTACTTCTTTGCAGGTGACTCTGATGCCGGTGTCCCACAGACTACAGTTTGAGGAAATCAAGACTGACAG
TTCTGCAAGGTTTATTACCCTTTAATTTTTCAAAAAATACCTTCAGCAACAGAGAGGCATGTTACATATGAAAAGGTTAAAGTAGAAATTTTCCTAAAAT
CTATGTGACAGAATTCTGGTAGGATGCTAGGCATGTGTGCAGAATTTCAAATAGACTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGT
CACCCAGGCTAGAGTGTGGTGGTGCAATCTTGGCTCACTGTAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGAT
TATAGGTGCCCACCATCACACTCGGCTCATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGTAGGTCTGGAACTCCTGACCTCAGGT
GATCCGCCCTCCTGAGCCTCCCAAAGTGCTGAGATTACAGGTATGAGCCACCACGTCTGGCCCAAATAGACTTTTGTTTCAGAGATACAGTGATTTGAAT
TTATCATAACGTTCTTTAATTAAGAAATCCAGGAAAATAGAGATAGGAGATTTTATAACTTTAACCAGTTTGAAAAAATATTTATGTGAAGATGGTTTAA
TATACAGATTGCAGAACGATGAATTTAACATTCTTGTAAAGCTTCCAGGAAAGCCTCAAGGATAAGTGACAAGTCCATTTTTATCAAACTTAATGGGTTT
CTAAATCCTTATCTGCTTATCAAACAAAATTTTAATTAGAACTGTAATTGAGTAACCAGCTGCCTCTTGTGTTCACTCTAGGAACTTGTCTAAAAACATT
GTGGAGCTCATGTAAGGTCATTCGTTTTTGAGTTGCTAAATAAACTTTATTGCAGACTTCTAAAAATCCAGGTATTGAGGAAGTCTACAGGAAGATAAAA
ATTGATAAGAACTTTGCAGTAGTTAGTCCGATACTCTCTCTCTCTAGTGGATTAAGGTAGAAAAATCCTTCTTCAGCACCACAGATGGGAGAATATCCTC
CCTCTTAGGTTTCTTCCTGAATCAGCTTATGCCTGCCTAGGCTTGTAGTAGAACAGATAAAGCCTTTGGACCTAGCTACTCTTGGTTTGAATATCTGTTA
ATCTGTTATCTCTTCATTACTTTGGACATTGTACTTAATGTCTCAAGTTCAATTTACTCATTTTTAAAATGGGAATAATGCCGCCCACAGCAAGGAGAGC
CGTAGTTCTGGAACTTGTACTCATTCATTCCTTTATTCAGCACTACTTTATAGGTTGAGTACCTGTTTTATACTAGGCACTGTTCCAGGCATTGAATACA
GCAGAAATAACACTGACAAAAGTTCCCATCCTCATGGATCCTAGTGAGCAGAGCCATTTCACACCAGGTGATCGGGGAAAGTTTCACTGAGATGATGACT
TGAATGGAGACCTGAGGAAGGTGAGGGAGTCAGATCACCATAAAAAATTACTTTTTAACATTATTATTATTTTTCTTTACTATTTTCTGCTTAATCCTAC
TAGAAAGTAAGCTCTATGACAGTGGTGGGTGGGGGGTGGTATTTGTTTTGTTAGAGAATTTTAGATGTGCTCTGTTGTATTAGTTTGTTCTTGCACTGCT
ATAAAGAACTACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGGTTCAGGGTTCCATAGGCTGCACAGGAAGCATGGCTGGGGAGGCCTCAG
GAAACTTACARTCGTGGCAGAAGGTGAAGGGGAAGCAGGCAAGTCCTACATGGCTGGAGCAGGAGGAAGAGAGAGGGGGAGGTGCCATACACTTTCAAAC
AACCAGATCTCATGAGAACTCACTCACTATCACAAGAACAGCAAGGGGGAAGTCCACTCCCATGATCCAGTCACCTCCCACCAGGTCCCTGCTCCAGCAC
TGGGGATTACAATTTGATACGAGATTTGGGCAGGGACACAAATTCCAACCATATCATATATGGAAGCACTTTTCCTGATCACAGAAATGGGGAGCTATTG
AAGGAGTCAGAGGGCAAGTGCAATGTCTTCATCTTTAGTGCTCTCTCTGGCAGCAGTGTGGTACAAGGGCTTGAGGGGTAACGTGCAGTAGGCACTCCAT
AAATGTCTGCTAAGCATTTTTAAAAGTGATCATTCTGCCATTCACTATGAGCCATAAGAGTAGCTGGTAGAAATGCCTGTGAATGTTTAAAAGCATTATA
TAGACTCTATTTCAGAATTGTGTTGACTAATAAAAAATGCTAGTTTTCCCTACCCCACACCTATCTTTCAACTGCTTTRTATTTATTTCTTTATTAGATA
GAAAATTCCTCAGTAAACTTTTATTTAGAGTAATTCCTCTTTATGATTTTTTTGTTCTAAAGGTCGATTCTTAAAAGAAAACTTGTTGAAGTGCTCTAAA
TGGAAGTCTTTTTTTTTATTTCTCTCCTGTGTCTTTTATGATAGTATCTGACAACTATMTTTTTTTTGTTTTTGCAGAGATTGGGTTTTGCTCTGTTGCC
AGGCTTGTCTCAAACTCCTGGCCTCAAGCGATCCTCCTGCCACAGCCTCCTGAGTAGCTGTGATTACGGGTGTGAGCCACTGTGCCTAACACCTTTTTTG
AGAAACTTATATTTTTTTACATATTTATTCTTGATTCATAATATTTATACATATTTATGGGGTACATGTGATATTTTCATATGTGTATACAATGTATAAT
TATAAAATCAGGTGTTTAGGATACCTGTCACCTCAGACACAACATTTCTTTATGTCAGACATTTAATATCTTCTAGCTATTTTGAAATATATGATAAACT
ATTGATAACTGTAGTCCTACCCTACTGTGCTATCAAACACTAGAACTTATTCCTTCTATCTAACTGTATGCTTGTACCCATTAACCAGCTTCTCATTACC
TCCCTCCCCAAAGCTCTGGTAACCATTATTCTACCTCTATGAGATCAACTTTTTTAGCTCCCACATTTGAGTGAGAACATGTGATATTCGTCTTTTGGTA
CCTGGCTTATTTTACCTAACATAATGACCTCAGTTCCRTCCATGTTACTGCAAAGGACAGGGTTTCATTTTTTGGGGGGSGCTGAATAGTATTCCATTGT
GTGTATATTCCACATTTTCATTATCTGTTCATCCATTGATGGACACTTAGGCTGAGTCCATAACTTGGCTGTTGAGAATAGTGCTGCAGTAAATGTAAGA
ATGCAGATATCTTTTTGACATACTGAGTTTGTTTCCTTTGAATGTATACCCAGTAGTGAGATTGCTGGATCATGTAATAGTTCTATTTTTATTATAAAAA
ATTCTTTTAAGAGAGGGTGTCTTGCCCTGTCACCCAGGCTGGAATGCGATGGCATAATCATAGCTCGTTGCAGCCTGGAACTGCTTGGTTCAAGAGATCC
TTCCCACCTCAGCCGCCTGAGTAGCTGGGACTACAAGTGCACTCCACCATGCCCAGCTAATTTATATTATTTTTTTTAGAGACAGGCTATGTTGCCTAGG
CTGGTCTCAAACTCCTGGCCTCAAGCTTTAGCTTCCCAAGTAGTTGGGTCTATAGGTGTGAGCCATCCTGCCCAGCTAGTAGGTCTATTTTAAGTTTTTT
AAGGAACCTCCATACTATTTTCTATAAGGGCTGTCTCAGTTTACATTCCCACCAACAGTTATGTAAGAGTTCACGCCTCTCTGTGTCCTGACCAACACTT
TTTGTCTTTGTGACAATAGCCATTCTAACAGGAATGAGGTAAATATGTCATTGTGGTTTTGATTTGTATTTTCCTGATGATTAATGAGAGCATTTTTTTT
TTCATATATTGGCCATTCTTTCAGGGCCTTTGCCCATTTTTAAATTTGGTTATTTGTGTTTTTGGTATTGGGTTGTTTGAGTTTCCTATATCAAAATACT
TCTAAATTCAGCGTGATGATGGAACATTGGTAGTTGCTTATGAGATAAAACAGACTCTTGGATTAAAGTAAAAAGTAAAAGTTTCAGAAGTAATTTAATT
TTCGGAGAAGCCAGTAAAATTGGAATCATTTGTGTTTTATTTGAAAAAATTAAAATRTGGTACAAATATAAGAATATAATACAGATATAGAAGAAGGCTG
CTGAAACCACCATCTAGTCCAGGATATAGAGTTTTGGCAGTCACTCTAGAAGCTCTCTCTGCCTCCTCACTGTCATAGCCCTCAGAGGAATCATGATCCT
GACTTTGTCATTGTTATCACCTTCTTAATTTCCTTTGCAGTTTTGTCACCCAAGTATGTATCCTTATGGTTTAATTTTGCCAGTTTATTTTTTAAATGTC
TTCAAAATTTTTAAAATTTATATTTTTAGAGACAAAGGTCTTGCTATGTTGCGCAGGTGAGTTGGGAACTCCTGGGCTCAAGTGATCCCCCTTCTCAGCT
CCCTGAGTAGCTGGGACTACAGGTGCATACCACTGTGTCTGACTTTTTATAAAAATACGTTTTAAACCTCTTTATCTACAGGTTCCCTCTCCATCTCTTT
TTATTCCTATCCTCACCTTTGGTTTTTTTTTTTTTTTTTTGAAGAAACTCAGTTGTTTTTCTTGTGGAGTTTTCCAAAGTCTGGATTTTGCTGATTACAT
ATCCATAGAGTTTAAGATATTCCTCTGTATTTTCTGTAAATTGGTAGTTGAATTGAGAGGCTTAATAAAATTCAGGTTTTTTTTTTTTCATAGAAGAGGA
AGAGAACTTTGTAGATTCTATTTTTTCATTGGGAGGCATATAATTATCTCTCTTTTTGTGAATTGAGTAGCCATTGATACTCAGTAGTGATGAACAAGTC
TTGCTTTTTAAAGTATCATTATGAACCCAAGGGCCTAATGTATTTTGGCTTCATTGCAGTTGTTATTCTTCCCAGTGCTCAAAATGGCCCATTATTGGGC
AAAGAGAGTCTCTCCAAGTTGACCTCTGTGCCATTTTGCCATGATGCTAGTAATCTTTAGTAGCTTTTTTGTGTAACAAGTTAGTCTAGGATCATCTTAA
ACATTTTCAGTCCCAGACCTGGAATTAGTCATTTCTCCAGTAATCCTTCCCTAGTTTCTTTTAGTAGGAAATGGTATTTTTTTTTTTTTTTCTGAGACGG
AGTCTTACTCTGTCGCCAGGCTGGAGTACAGTGGTGCGATCTCGGCTCAGTGCAACCCCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCGCCTG
AATAGCTGGGACTACAGGCGCGTGCCACCACACCCAGCTAATTTTTATATTTTTAGTAGAGATGGGGTTTCATCGTGTTGGCCAGGAAGGTCTCAATCTC
TTGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTACCCGGCCAGGAAATGGTATTTCTAAACCACATTCT
GTGCAACTAGGGAGGCTATTTATTGGATAGGTCAAACTATATTAAGAACTCATTAAAAAATACTTCTGATTCAAATTCAGGGCTAAAGAGTTTTTATTTA
ACTTTTTCAGTCTGACATCTATATCTCCTTTTCCCCACCATGTCGACAATCCTGGTTCTTATGTAAGTACTCTGATTTTATCATTCAAATATCAGGTATT
TAATTTGCTTTATCCCACATTACTGAATCTATGTTATTAAAATTATATATTATAAAATGCCATTGCATTTAAAGGTCTTACGTTTCTTCCCCATTTATTT
CACAGTTGTAATATATCTGCATCATCAGAGCATATAGCCATTAGGTACTATACCTTCTTTCTTATAGCCTCCATTGAGAGTCTTAGTTCTCCAAACAAAT
ATGTATTACATGCTCACCACCAATTCTTATATCCATGTCTTTCTAGTCATTTTGGTTGTCTGAAATTTATTCTGTAGTATGGTTGTTCTTACACCTTAGT
GTGCATCAGAATTACCTGGCAGGCTTGTTAAAGCGCCGAGTACTGGGCCTCACTGGCAGGTTCTCTGGCTCAGTACATGTGGGATGGGGCCTGAGAATCT
GTGTTTCTAACAAGTCCCCAGGTGGTGGTGATGCTACTGGTCTGGTGACCATACTTTGGGTATAGCTCTCTGTGGCCTTTATACATGGAAGATTGGCTAA
GCTTAAAATTCCTGGCTTACAGTTTATTTCTTTGAGTATCTTAAATACATTACTCTATTGTCTGTAGGGTAAAACATTGCGGTTAAAGTTTGGCAACTCT
GTTTTTCTTTCTTTTATAAACAACTTGTCATTTTGGCTGGAAATAATTTTACTAGATTACTTACTGTGATGGTCATTATGGGTTGATTTCCCCAGGTATG
TGATGTGTTTTTTAAATATACAGTGTCAAGTGATTTTTCTGTTTCTTTGCTTTGCCCTCTTTGCCAACTTTGTACCTTGGGGGCACCTTTTATACACGTT
TTAGGTCTTCTTTGCCAACCTTTTGTATTTGTTACTTTCTTTCAATCTTTCAAATCTCCTCTTTCATTTCTTTTTGACTTTGAAAAAAATTTCCCCCTTT
CATTTCCTGCTTCTTATCTTTATTATCTGTAGTATTKATTCAGTTGTGTGCCTTCTAGACTATCGTTCATTCTGAGAAGTTTTCCTTTTGTCTCTAATTC
CTGAGTTCTGCCCGTTGATTTCTGAGTTTTTCTAAATCCAATTTGTTTTCTTAATAATTTTTTTAACTTGTTAGGGTTTTCATGTTTTATGGAGATATCT
AACATGATTCTGTTGTCTGTAGAGATGTTATTATGTTTTTTCTTTTTTTTTCTTATCATAACTTTGGACAGGATTTGAGTTGGGTCCTTTTCTATTACTC
ATTTTTATGCAAATTCATTTTCCCAAACTTTTAGAAGAGGCATGGGTTCAAAATAGCTTTTCTGACTTCACAGTTCTGGTAGTGTTTTTTAACTCCAAGT
ATTATTTATAAACAGTTCATTTTTAAGTGTACAGTTTACACAACTGTAAGTGTAAGTGGTAGTTTTACACAATTTTGTAACCACTATCACAGTCGAGATG
TGGAAGAATACTTTTACCCTAAAACTTTCCATGTGCTTTTGCAGTTGGTCCCCTCCCTTCACATCTGGCCCTAGGCAATTAYTAATTTTCCACCAGTATA
TTTTACCTTTTACAGAATTTCAAATACAGGATATCTTACAATATATATTAAAATTTTTTGGCTTGATTTCTTTCACAAAATATGATTTTTTGAGGTTCAT
TTTGCTGCATATTGTCAAAGTATTTGAAAATGTGACAGCTCATTTTCTCCTGGCTCTGTTCTGTAGTACTTTTGTCTTTTTAACAATTACCCTGTTATCC
TTTTCTCCCCATTTTAGATTCTGTTCATAGGAGTTTTTCCTCAGGGTAAGATTTGTCCTAAAAAAGTGCTTTGCATCACTGGTTTTGTGAATTCATAGGG
CCTAGAGTTCTCAAGCCCCTTCAGGCTTTACTGTGGACTCCTTGTAGTCACTATTATCAAATATACAAACTGCACTCCCAATTTCAGCTCCTCAAAATGT
CCTACTGTGCTTTCCAGTGAGTACCTCGTTGCTGTTTTGTGTTGTTTCTGTTTTCCGATTGTTAGAGTTCTGTTGCTTTTGTCTGCTTCTTCTCACATGG
TTGCTGATAGCATTTGTATCTTATTGTTCATCCCACCTGCTTGCATTTTGGGGTTCTTAATATCTTGAGATGCAGTTATAGTGTAGTACATGTTATCTGT
GGGTTTTAGTTTGGTTATTAAAGTCTCTTTTTATGGCAGGATTTAGGGAGACTGAAAAACTATGCTTGAATCTAACAAAAAACAACAATTATTTCAATAA
AATATTATATCAAGGAAAATAGCAAAAAATTACAAATGTGTGTTACATTGATAAAATGATACATTTATTTCTACTTTTCATAATATTGAGGGAGGGAGTG
TTCTGCTTTTGTGACGAGGTATAGCCATTTGTGTTTCTGTGTTTTCTGTATCTTTTACATATGTCTACCACATTACTGTCTGTTGTCTTAGATTGTAAAC
TAAGAAACAGTGATTGTTGTGTGGCATATGCCCATGAGAATTTGTTTAACTGTTTTTGTGAAGAAAAAAAATATATAAACTATAGATTTTCTGTCATAAA
TCCTTCTTTCTGAATTTTAACCTAATTGTAAAGCAAAATAGGTAATAAAGTTTCACTATTGTTTATTTATTACAAGGCATTGTAATTGAACTTTTAAATC
AACTCATACGATCTCCTTGCTCAGGAAGGAAAATCATAAAAATAGAAAAAAGCTTGCTTTATTTTGGTGCTGGGGATGGTTTCAAGTCTTTTTTCAGTTT
TATGTAGAGACCAAGAAAGTGTTCTGCATAGGGAGCCAAAGAAAAAAATATTGAGAAACTTTCTAAAGTATCTTAACTCAGTTGTTTATAGTATAGCTTT
ACTTTACAGATAACTTTTGATGTTCTTAGATCATTAGATATACCTACATCARTATACATAAGATAAGCTTCCAAAGGAAATACTCTTTGCTTTGGGAATA
CTCTTTCCTATCATCTACTAATTTTCATTATAGCAGCAGTCTTTTATTTGTATAGGTCAGTGGTTCTTTAACTTTAATGTGCAGTAGAGTCCCCTGATGC
TGGGCCGGGCCCCACCCAACACCTGTTCCTGTTTCAGATAAAGACCAGAGAGAGGTATGTGTACGTATCTAAGAGTGAGCACAACCAAAGCTGTATAAAA
CCTTCATGGAGGAAATTACAGAACATTACTGTTGGATATAATAGACATGAATAGAAGAATATACCAGCTTTGATAATGTGATACCTCTATTTAAGATGTT
ATTTCTCTCTAAATTAATTCATTACATATCAAATTAAAATACCAATAAGGGCTGGGCGCAATGGCTCACGCCCATAATCCCAGCACTTTGGGAGGCCGAG
GTGGGCAGATCGCTTGAGTCCAGGAGTTTGACACCAGCCTGGGCAACATGGCGAAACCCTGTATCTACTAAAAATACAAAAAAATTAGCTGGGCGTGGTA
ATGCCTATCTGTAGTCCTAGCTACTTGGGGCTGATGAAGGAGGATTGCTTCAGCCTGGGAGGTCGATGATGCTGCAATGAGCCCTGGTCCAGCCTAGGCG
ACGGAGTGAAACTCTGTCTAAAAATAAATAAATAAATAAATAAATAAATAAAGTAATCCCAGTAAGTTTCTTGTGAAGACCGAAGGTAAGTGAACCTAAA
ATTCACAAAGAAAATCAAAGGGCCAGGAGTAGCCAAGACAATCTTGAAGAGCAAGGTAGGGACCTTGCCACTTTAGATATAGATGCCAAGCCCTAGAAAT
TAAGAGACTGTGGTCGTGATACAGAGATAGACAAAAAGACCAGTGGAACAGCATGGAGAATCCAAAAACATRTATAGAAATGCAATATGCAGTGAAAGTA
ACATTATAAATCATCAGGGACGTATGGAATGCTAATTGCTGCTTTGATCATTAATTATATGGAAAATGAAATTGTATTTATAACTTCACACTATCCACAA
AGATAAATTCTGGTGAATAAATTCAGAAAGCAGATCTTAAATTTATTAGAAAATATAAGAAATAATAAAATACTTAGCTGCTGTTAAAATGTAAAAAGCA
CATGTATCTTCATGTATAAATCTTAGAAATAGTGTAACATTGAGGATAAAATCAATTTGTATGGTTATGATAAAGTACCACTCATACAAAATGAAAAGCA
TGAAATGATACAGTTTTTTATAAAACATGAAAACATGCATGGTAATATACATCACATTCAAGATAATGTTTGCTTCTTTTATTAATTTTTTTTTTAATTT
GAGACGATGTTTCACTCTTGCTCAGGCTGGAGTGCAGTGGTGTGATCACAGCTCATTGCAGCCTTGACTCCCTGGGCTCAAGTGATCCTCCCACCTCAGC
CTTCCAAGTAGCTGGGACTACAGGCATGTGCTACCGTGCCTGGCTAATTTTTGTATTTTTTGTAGAGAGAGCCATGTTGCCCAGGCTGGTCTTAAACTCC
TGAGCTCAGGCAGTCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATTAAGCCACCGTGCCCGGCCAGCGTTTCCTTCTGGAAATCGTAGAG
GGATGTGATTAGTGAGGGATATGTGCAGGCTACAACTGTAACTAAAGTTTTATATTTTTAAATAAAAATGTTTTAAAGCAACATGTGACAAAACATTAAC
ACCAAATGAATATCAAACAACAAAGAAATAGTTGAAGAAATTGTGGCATCTATATACTATGAAATATTTTTCAGCCATTAAAAAGAAGGAGTTGTAGCTA
GGTCATTTTTATGGAGGGACTTTCAAGAATTATTAAGTGAAGAGAACAAGACACAGAAATATGTTTATAAAATCATCTCAGTTTTATAATGTAGTAATAT
AATATATAATGAGCATATATTATATATGCTTGTGTATGACCAAAATATGAACATGAAAAAATATGGAAAGATTCATTCTAGGCTGTTAACATGAGAGATA
ACAGTCATGGGAGTGAGATGATAAAGAAAGAAGAGAAGGAGGACAGAATAGGGAGTCAAAAAACATAGAAAAAGAAAATGCATTACCCAGCATGCATGCT
ATGATTTTGTTTATGTACTTAGGCAAATTTTTATACATATTTTTAGGAGGACTGTAGAATCACTTTAAAGAGTGAGAGTTAACCTAATTTACTATATTTG
ACTGGAGACTGTGATAGAAACAGATTTAGCAGAAAGTCCCTCAAAGAAAGAGTTACTCAGTGCTGTATTCTGTTGCTAGATTATTTAAACAAATAACGTA
ATCAAATCAAAATGATGCTTTTCAGTTTTTCTCTCTTCATATTTAGTAACATAATGGACCCTAATTTCAATGAGTTTTTCTTTTTAAATAATGATAGATA
TAAAATACTCACAATGTGCTAGGTGATATAAAATAGCAGTTAATAAAAAGTACTTGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAG
GCCGAGGTGGGCGGATCACAATGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCCTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTG
ATGGCGGGCACCTGTAGCTTCAGCTACTCGGGAGGCTGAGGCAGGAGAATGATGTGAACCCAGGAGGTGGAGCTTGCAGTGAGCTGAGATTGCTGCCACT
GCACTCCAGCCTGGGCAACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAGATAATAAAAAAATTAAAAAGTACTCATTTTAATATTTTATGAAA
TAGAGCATTTTGGCAGAGAAACTTTAGCTCTTTCTTTCTCTCTCTTTCTTCAACTTGGGAAAGAATAAGGMATAAATCTTTATCTTTTTTTTTTCYTCTT
CTGGCCAAGACCTAAATACCAGCATTTCATGATAATGGATAAGTTATCTTTGAAATTTTCCTTTTTTCTTTCAGTGTGCAGGATGACAGAATTCGAGTCG
AAAGGATGGATAACATTTATTTTGAATRCAGCCATGCTTTCCAGGCAGTTACAGAGTTTTATGCAAAAGATACAGTTGACATCAAAGGTAAATATTTTCC
CYGTATGTCCTCAAGTTGAACTGATTTGAAATTTGGATAAAGGTATTMGTATGATTCTCAATTTAATGATGACTAGGTAGTTATTATAAATATGTGGGAG
AAGAAGAGCTCACTGTTGTTGTGCTCATCAGAAACACTATTGTACTGCAGTCCCAGCTACTGGTTAGACTGAGGTAGGGGAGGATCGCCTGAGCCCAGGA
GTTMGAGGCAGCAATGAGCTATTATCATGCCATTGCAGTCCAGCCGGGGCAACAAAGCGAGATCCTGTCTGTTAAAAAACAAAAAGAACCATTGCAGCCT
CTTTTGAAATTATGACCAGCTAGTAAGTTGATGGTTTTGACATATTCATCAGAGTGGAAGGAGTTTTGACCATCTTTCCTTTTTGCTTATCTTTAAAGAT
GGCTCATTAGTATCTTTGTATTTTATAGACTGTTTGGATGATAAATATTCTGATGAAGACTAGCATTTTGAAAGGTTGGTTGCCAAAATTAAAACACCAG
AATCTAGTGACAGGTCGAAATATTTTAGGTAATCATTATTTGTCTAATTCACATGTCCACAATCAGGCATTAATGTTTACTTTCATTTGTACCTCACATT
CCTGCCAGTCCAGCTTATGTTAGGGTCCATTTTGTGGATGGTGAGGTGAATAGACATTTTCCCTCTTGGCATAAACTTGGCTTCACTCTAATCTTCATCC
TACTCCATATGGAGGAAATTTATCTCTGTCACATGCTAGAGAGTGTTCATCATCAGCTCCCCATCACTGCTCCATTTAAGCATCAGTGTCTAGTTAGCAT
TTCCTTGCATCTAGGCATCAGTGTCTTGTTAGCATGTCTCTTTAATTTCATGATGCCTTGGTCAAATAAAGTGTCTGAGCGTGTATCCCACTTCTTTTTA
TTTTTTTCTRTAAGGTCTCACTCTGTCACCCAGGCCGGAGTACAGTGGTGCAATCTTAGCCCACTGCAACCTCTGTCTCTTGGACTCAAGCAGTCCTCCC
ACGTCAGCCTCCCAAGTAGCTGAGACTACAGGCGTGCGCCACCACACCCAGCTAATTTTTGTATTTTTTTTGTAGAGGTGGGGTTTTGCCATGTTGCCTA
GGCTGGTCTTGAACTCCTGGGCTCAAACGATCCTCCCACCTCAGTCTGCCAAAGTTGCTGGGATTACAGGCATGAGCCACTGCGCCCAGCCAAGTGTATC
CCACTTCTAACACCAGTGTTCAGTATTACCGAGAGGTCATCTTATGTTCAACTAAAGACCTGATAAATCTTAAGACTACCATGACCTATCCGTGGTACCA
GATTTACTTAAAAGATATGGGCCAGAAAACACACCTTACAAGCAGAGCATGTGTTGCTCTTAGTGGGATAGTCCTCACAGCAGACTTTGTGGCAGTGCCC
GGGAGAGTGTATGAAGGAAGGAGACTCACATCAAGTGAGCGTAAGCGCCACCCTGGCTTAGAAGCTCCAGGCCCTTGAGGAGCCTGTATTTCTTGCTGCA
GTCTCTACAAAAGACACGCCAGTTGACAAAAGTCAACGCACTAAGGGAAGGCCAAAACTCTGTAGTCAGGTATTTATAATTCTTCTCAGTCCAGATGTAA
TTTACTGATATTTGGTCATTTTTACCACAGGCAGTGCTACTTCTAACACATTGATACACCATCTTTGTCATGTTTTCTGGGGAAGAAAGCTAGAAAGTTA
AAAGAAAATCAATTTCTCAGTGGAACGGAAAGGTGTTGTTAGCACTTCATTTACACTCTGGTTTTATAAACACCTATAGTTAAAATTAATAAGATATTTT
ACTGATTTGTAGAGAACATCTTGTAATATATGTTTTTTTACTTCTAAAAGTAATTAATGCTTATTGCAAGAAAGTCAAACAGTGTAGTCGTATATAAGGA
AAAAAGTAAAGTGCCTGCCCTCAAACTTGTCCTCTGCCCTTGCAGCTTATATGTCGGAGGGGTTATCATTAACAATTTGGCATATATCCTTGTGTAAAAC
TCCACACATACACACATAAACATACACATATAGTWCTCTGTATTTGTTTAACATAACTGGGATTTATTCGTTCAGCTAATTTTTTGAATGCCTATTATAT
GCCAGGCATTGGGCATACAATAAGGAATAAAACAGACAAAAATTCCTGCTCTTTTGGAGTTTACATTCTAATGGTGAGAGATGTACAATAAAGTAAACTA
GTGTGTTAGAAGGTGATAAGTGCTATGAAAAAAATAAGGCAGGGGAGTGGGTTGAACTTTTAAATAGGATGGTAAAGGAAGGCCTCACTGAGAAACAGCA
CTTGAACGAAGATTTGAATAGAGACTGAAGGAGTTAAGGAAAAGAGCCATATAGACATATGAAGGAACAGTATTTCAAGCAGAGACAACAGTAAGTACAA
AATATCTTAAGTAGGAGAGTGCTTGGCATGTTTAAGGAATAGCAAGTAGTCTGTGTGCTGGAACAGAGTAACTGATGGGGAGAACATTAGGTGAGCTCAG
AAATAAAGAGGAGATGGCAGGCAGTATAGGGTCACTTTAAGGGCTTTGACCTCTACTCTTAATGAGTTGGGGGATGTTGGAGGACTTTTGAGCAAAATAG
TCTAATGATCTGATATACATTTTAAAAAGAATTCCTCTGGCTGCTCTGTTAAGAATACCCTGTAGGGTGCAAGGATGAARCAGTGAGACCAGATGGAAAG
CTGTTGCAGTGTTTGTGGTGAGACATGAAATTGATCAGACAACTTTTTTCCCTCACTTAGCAACATGTTATAGATGGCCTTCCATATCAGTGCAGATAAT
TGGAAGTCATTCCATTTAGTTGGTACATAATAACCAGGATTTACCCAACTTTATTTAAGTACTACGCTGTTAATGTTTATTTAGGTGGTCTCTAGTTTTT
TTTTAATACTCCAAAAGATGTTTTAAGTCACCTTCTGGTACACACATCCTTGACATGCAGTTTGGAGTATTTCTAGACAAAGGGGATGGGCATTTTACAT
TTTGAAAAAACAACCTGTTCTTCAAAAAAGGTTCATYCCACCATCAGAAAAATGCCCTTTTTTTCCATGCCCTGGGTATTAGTAATGATTTACATTTTTC
CAAAGGTCAATTTTAGGAGATATTGTCCAAATTATTATTTTGGTAACCATTAAGTTTTACTTAAAATTTGTGTTTAATAATGCTAACAAGTTAATGGTTC
TGTTTATTACRTTTTTTAATTTGATTAATTTAAAAGAATTTTTATAACAAGTTAATATATTCTGTTTTCTAGGTTCTCAAATTATTTCTGGCATTGTTAA
CTTAGAGAAGCCTGTGATTTGCTCTTTGGCTGCCATCATAAAATACCTCAAAGAATTCAACTTGGAAAAGATGCTCTCCAAACCTRAGTAAGTGATTCCT
CCAAAATTAAAAAAAGGGGGAGCTTATATTATGAACATTTCTTAAATTGAATTTGGTAGTACTATACTTAGAGAAGCTTGCCTGCTATTGATAGAATACT
AGGGTGCAAGGATGAGCTGTTTGGTATTGTTGCTGAAGAATATTAAAAATATATTGGCTGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAG
GCCGAGGCGGGCAGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTG
GTGGTGGGCGCCTGTAGTCCCAGCTACTAGGGAGGCTGAGACAGGAGAATGGCGTGAACCCAGGGAGGTGGAGCCTGCAGTCAGCCCAGATCCCACCACT
GCACTCCAGCCTGGGCGACAGCGAGACTCCGTCCCAAAAAAAAAAAAAAAAATGTGTGTGTGTKTGTGTGTGTGTGTGTGTGTATATATATATATATATA
TAAAGAATTCTGTCAAATAAATTGTATTCATGATAGCTATTTGATATATTATAGTTTTGACTACAAAACTGTGCTTTATACTAACTGGACCCAGAAATAG
TATTAAAAAGCATTCATAAAAATTTACCACCTTTCTTATTCTTGGTTTCAGTTCTTATTTCATAGACCATGAAGTTAGAGATAAAAGGGCCAGCTGCTAA
CACAGCTTTTTACAAGAGTGATTAACTGTGGATTTTGGAAATTTAAAAGCTCACAATTGACATTCTAGGAAAATACTAGTTTGATAACCATTGGAATAGA
AAAAAGTAGTAGGGTACTTTCCTTGTCTTTTTATATTCCGCCTTCACCAGCCCCTTGTCTTTGGGTCTGTCAAGAATCACCCTCCATTATATTGATCCAG
GGTGCATCAGCTCTGTCCCATTCTGCACAAGTGGGAGGGGAGATAGGTGCTATCTCAGCAAAATGACAGAATAGAAATTAACTAGGAAACAAGGAGGTGG
TGCTGGTTCAAGGTTGCTGGAGAGAGTCAAAGAAAGGCAGGTTCCTTGGGGTTCTTTTTGTAATGTCTTTGATGTGCGTTCTCCCGTGTGGTACTAGAAC
AGAGTATCATTTCTCTGGAAGCAACTTTATCCTATTTAAAAGCAATCTAAATGCCCATCAGGGATCCTTGTGCTATATTCATGCAATGTAATGTTATATA
GCAGTGAAAATGAATGAACTAGAGCTATTAATATATGACCAATGCTTAAAATTTCATGAACAGTATATTAAGCCAAAAATAAAGTTGCTGAAGGCCACGT
AGTACATACCATTATATGAAGTTAGAAACATGTGAAATCGTACTCTGTACTGCTTAAGAATATATATGTAGTTAGAGAATAAGTGAAGACATGCAGGGGA
GTGATAGAAAATTCAGAAGCAGGGTTTCTTCCAGGGGGAAGAAGGGAAAGTAGTAAAGGTTGGGGATGGAYGTGGCATAGTGGAGTTCTAACTGATGTTT
CATTTCTGAATGTGGGTATTGTATTAATCTATACATTTTTTAGTGTGGCCAAAATGTTTTATTTTAAAAAGTGTCAGCCYGGCATTATACCCTCATTGGA
TTCTACTTTAAGCTCCAAAAATAAACTTATTAAAGAGATCAATCTGTATGGTTGGTTGTGTTGGGGCTTTGTAAAAAAAGGGGTGACAAGATACCTACCA
GTTTGACTTGTTCATGATAGGGACCCTGTAAGTGAGGTACAATTAGTGATAAATAGCTTGCCCATTAAGACTTGTGTTTGTGTTCCTGTATCACCAAGCA
AAGAAGTATTAATGTTGGGATAAGGAAACTAACTTAGAAATCAGGCCCTGATGTGTTTAGAAGCAAATGAATTTGGACCTGGAAAGATGTGTCCTCCTCA
TATATATATATATATATATATTTTTTTTTTTTCTTTTTTTTTTTTTAGATGGAGTCTTGTTCTGTTGCCCAGGCTGGAGTATAGTGGTGCGATCTCAGCT
CACTGCAACTTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCCACCTCCCAAGTAGCTGGGATTACAGGTGCACGCCACCGCGCCCAGCTAATTTTTT
GTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTAAACTCCTGGCCTCAAGTGATCTGCCCRCTTGGCCTCCCAAAGTGCTGGGAT
TACAGGTGTGAGCCACCGTGTCCGGCCTGTCTTCCTCATATTTAATTCGAAATAAGAATAATACCAAACAATAAAACAAGATGTCTATATATACTGAAAT
TAAAATAGATTCTTTTCAAATTACCTGAAGTAACCTCTTGATAAACTGAAGCTGAACTTTTTGCATCTCATAATTGATGGTGGAGGATGGTCAGGAAACT
GGCTCTGCTAGTGACTTAGTGTATCATCTAATCTACCTGTTGGGTACTTCCATGGAGCCAAAGCCAAAAGACATAAAGTGCTCTGCTTTGTATATATTCC
CAGCATCCAGCATAAGCCCAGCACCTAGTAGGCTTTTATTATATATTATTATATATAGTATTAATATAGGATTAATGAAAGAAGGAAGGAATTCTTCATT
CTGTGAGGGTATATTTCATTGGAAATTGCCAAAAGGTCATTGGAAACCAAGATTAATAAAGATAGTGATCAAACTGGTACTCTAGTTTTGCTTAAAAACG
AAATGTGGTGTTCATGAGTGGCATGTAATTTGAAGATCATTCTAAAAGAGTAATTCTGTAGTGCTTATATTTTGCAAAAATAATGTTGCTTCTTAAGGTG
ATTACTTTGGAAAAATGAATATTCTCCTTGTAGATGAAAAATTCAGTTGCATTATTTTATAAACATACTTTATGCTGCTGAAGTTTTGGACTTTTATTTA
CAAAGCTATGTTATCAAGGGGAAAATAAATTTCACTTGAGTTGACTTGTTTAGTAAATGCTTTCACAAACGTTGCTGCATATTTCATAAAAATCATGATA
TACGTTTATTTAAAGGTCCTTGTGCCATTAGAATAKAATTTTAGATAGTTTGAGAAAATATACCATTTCAGAAATTATTCTTAAGGATGATTTAAGTGAA
GTTTTGTTAAGACACACTTGAGGTTCTAAAGTTATTTTGAGAGTTTAAGTTTGTTTCAAAGAAAAATAGTGTAACAAAATAAATAGAATGTGAGGGATAT
TATTTATTATAACAGAATTAACCTGATGCCTAAATTTATGAAATTCAGAGGAATCCACTTTTTGTTGTTAGAAATGAATGCTTTTGTCATTTTGGATGGT
TTTTATTAAGATTGGAGTGGTCACAACTTCAAAAAGATATTGGAAATTTTAGGAAAGAGTGAGAAAATCCACCCAAGATAAACTGTAAAACCTTTTTTTT
AAAAGAAAACTTCTTATGATAACAGAATGATAACATGTGGTGATTACCTTTACTTACTAGTGAAAGAAATAGCTTAATATATAAGCTACTCTCATGACAT
CTAATGKCTAGCAGCCAGGGATGCTGCTAAACATCCTAAAATGCACAGGATATTTCCCTAAAAAACACATTATTTGGCTCCAAATTTCAACACTCCAAAA
CCAAACAAATATATTACAGGAAAAGAAACTACAGACCAGTATCTTTTGATTATAGGCACAAAAATCCTCAATGAAATATAAGTACATGGAATCAGGAATA
TAAAAACGATTGTACTCCATGACTATTGGATTTATTTCGGGTATACTGGCTTGGTTTAAAAATCTGGAAGCCAATCAATGTAATCTACCTTATCAAAAAC
TACATGATAGTCTCAATAGACAGGAAAAACTCTGCATAAGATTCAACACCCCTTCATGATAAAAAACGCTCAAAAAACTACAACTAACGTGGAACTTTCT
TGACCTGACAAAGGACATTTATGAAAACCTCACAGACATTAAACCTGTCTGTTGTTGTTAAGATGCAGTATTGCTCAGATCAGTCTCTAAGTTCAGTGCA
ATTTGTATCAAATCCCAGCTGGCTTCCTTGGAGAAATTGACAAGCTGATCCTAAAATTCATAGGATTCATATCTCTGTTTCAAAACTTACTACAAAGTGA
GTAATCAAGACAGTGTGGAGGGTGGGATTAAAAAAAGACAGTGTGGAATTGGCATAAGCACAGACATGTGATCAATGTGATAGAATTCAGAGTCTGGAAA
TAAACTTATGGTCATTTGATTACTGACAGGGGTGTTAAGACAATTCAGTGGAGAAAGAATAGATTTTTTTCAAACAAATGGTGCCAAGATAACTGTCTGT
GCAAGAGAATGAAGTTGGACCCTTACTTCATGTCATATTTGAGTTTGGAAGATAAAATGGACCAAAGACCTGATATGAGTTAACACTGTTATACTCTTAG
AAGAAAACATAGGTGTAAATCTTTGTAACCTTGAATGAGGCAATGATTTCTTAACTATGACATCAAAARCACAAGTGAGAAAAGCAAAAATAGATACATT
GGACTTCATCAAAGTAAAAGCTTTTATTCTTCAAAGAACACCATCAAGAAAGTGAAAAGACAATCCACTGAATAGAAGAATTTTTGTAAATCATATATCC
AGTAAGGGACTTGYATCTAGAATATATATATATATATAAACTCTTACAAGTCAATGGTAAAAAGATAACTCAGAAAATGGACAAATGATCCATACAGGTT
TTTCTCCAAAGGATATATGCAAACAACCAAGAAGCACGTGAAAATATGCTCAACATCATTAAGCATCAGGTAAATTCAAATCAATGCCACAGTTAGATAA
CACTTCATACTCACTAGGATGGCTATAACTAGGAAAAAAAAAGGTGTTGGCTGGGATGCAGACAACTTGAAATCCTCATACATTGCCAATAGGACTATAA
AATGGTACAGCCATTTTGGAAAACAGTCTGGTAGTACCTCATGACATTCACTGTGTGATCCAGCAATTCCACTAGATGTTACTTAAGACAAGGAAAATAT
GATGTCCACATAAAAACTTATACAAATGTTCATAAGAGCATTAGTCACAATAGCCAAAAAGTAGAAACAACTCTAATGTCCATCAACTGAAGAATGGATA
CCTAAAATGTGTTATATGCATACAATAGAAGATTTTTCAACCATAAAAAGGAATGAAGTACAGATACATGTTGCAACATGATGAACCTTGAAAATATTAT
GGTAGTTGAAAGACATCAGTCACAAAAAGTCTCGTTTTGTCTGATTCCATTTATATGAAATGTCCAGAATAGGCAAATCCATAGAGAGAAAGTAGATTAG
TGGTTGCCTAGGGCTCTTGGGTTGTTGGGGGGAATGGAGAGTGATTGCTAATGAGTATAGAGTTTCTTTTTGGAGTGATAGTATCTAGAATTACATGGTG
GTGATGGTTGGCCAATTTTAATATACTAAATACCACTTAATTGCACACTCCAAGTGGGTGAATTGCATAGTGTGTGAATTATATCAATAAAGTTGATAGA
CACATACACACTTATCTTTTAAATGTCAGTAGTGCTGAGATTGAAAAATCTTTGTCTCTGTCTATTTTAATTCTGTTCTTAAGGCAATATCCTTCTGAGG
CTTATAACCAATGCCTCATGTATTTTGAGGTATTTCTACTCTGGTTGGAGAGTGTTCCAAGCCCTTTGTGAACTCTGGTCACTGTTCACTACTATTTTCT
GGTAGTTATTTCCATGGTCCCACAGAGGTCCCTAAACGCCTTTGAGGACTGGTACTTGGCCAAGAGTTGAGGTGACCCTTCAGCAGATCTCTGGAGCTGT
ATGTGCAGCTCTGTTATCTGGCATTCTGTCTCACAAATTCTAGTTTCCCTGCGCCCACCAAAGAGGCAGTCATGTTGTTTACCTCATTTGTTTTTCCTCT
CTCAGGGTCACGGTTCTGCACCAAGTGTTGTCCAATACCTGAGAAGTTTTCCCCCTCATGTGTTTTGTCCAGTTTTCTTATTGTTTATGATTGGAGGACA
TTTCTCATGCAGTTACTTTTTTATGAATGAAAGCAGAGGTCAGGTGGCACAATTGAACACTGCACAGAAAGAAGAGAAGAGGGAGGCTGGAGAAAAACAT
TCTATGAAGTTTAAAACATGATTACCGGCCAGGTGTGGTGGCTTATGCCTGTAATCTCAGCACTTTGGGAGGGTGAGGTGGGCAGATCACCTGAGGTCAG
GAATTCGAGACCAGCCTTGCCAACATGGCGAAACCCCGTCTCTACTGAAAATACAAAAATTAGCCGGGCATGGTGGCAGGTGCCTGTAATCCTAGCTACT
TGGGAGGCTGAGGCAGGAGAATGGCATGAACCTAGGAGGCGGAGGTTCCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTCGGTGACAGTGAGACTT
CATCTCAAAAAAAAAAAAAAAAAAAAAAGTTGAGCACAGTGGCTCAACGCCTGTAATCCCAGCGCTTTGGGAGGTCAAGGCCTTCGGATTGCCTGAGATC
AGGAGTCCGAGACCAGCCTGGGTAACACGATGAAACCCCATCTCTACTAAAATACAAAAAAAGCAGCCACACTGGTGGCGGGCACCTGTAGTCCCAGCCA
CTCACTCTGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGACATCGTACCACTGCACTCAAGCCTGGGCGACAGAG
CGAGACTCCATCTCCAAAAAACAAAACCAAAAAAGAACAGAAGAGCGAGATGTATGAAGTTAGAAAAACTGTCCTAAAAATTGCCCGTGTTCTAAAACTT
CAGGAAAATTAATCTTCACTTAAAAATTAGCAATGGGAAAAGAACCAAATTCAAATTTCTTACAAAATTATTATGAGAAAAAAGAGAATAAGGAGTAGGA
TGTCATTACAGATAATGTATACATGCCAGAAAATCATGGTCACAGATTAAATAAAAATGACAATCTGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAA
CACTTGTGGGAGGCTGAGGTGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAATTCCATCTTTCCAAAAATACAAAAAA
TTAGCTGGGCATGATGGCGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCGGGAGAATTGCTTGAAACTGGGAGGCGGAGGTTGCAGTGAGCCGA
GATCGCRCCATTGCACTCCARCCTGGGTGACTGAGCGAGACTCCGTCCCTCACCCACCCACCCCCCTAAAAAAGAAAAACTACTGTTTTAAAATGAGCTA
AAAGACACTAAGAAAATGATACTAGATGTGAAAGAACATAACTAAGAAGTATGAAAGATTGGAAATGAGGTGATAGGATTTAAGACAGAAGTATAAAGAA
AAAGATCAATTTAGGACTGAAGCGTAAACTTGAAAGAACATAATAGCGAATAAATGTAATACATATAGTTTTAGAGTAGAATTTAAAAAGAGGGATGTGC
AAAAAATTAACATAGCAGGCCTAATCACAAAGCTTTCCTTAGAAAGGCCTTCCTGCAAGCTTGGCCCTTGACTGGAGTCTGGGACCTTGAATTTCGGGAG
AGTTTTCACCATTTCGTGATGAGAGTGGCTCACTGTGCCTTAACTGTTTGTGCACACAGTGTGGTTTATGCTGATCACCTACCTTCTTGGAGCTGGAATT
TTGGTACATGGTAGGGAGATGGTGCCTATGGGACCAGTCCGGCATAGAAACCATGGGTGCTGAGTCTCTAATGAGTTCCCTGGTGGACAGCATTTCACAC
GTGTTGTTACAATTCATTGCTGGGGAAATTTAAGTGCATCCTGTGTGACTCCGCCTGGAGAGGATTCTTGGATGCCCGGTTCCCCCTGGACTTTGCCTCA
GGCACCTTTTCCTTTGCCTGATTTTGCTTTGCATTCTTTCACTGTAGTAAGTCATAGCTGTTAGTATTACTCTATGTCGAGTCCTGTGTATATACCATGA
GTCATTGAACCTGGCAGTGGTCTTGTAGACTCAACATACACCTTTCCCATTATTTGCCTTTCTAATGGGCTTATTGGCAGGATTTAGAAATGCAAAGTTA
GTCATGTTGTTTAATTACAGATCAATTATAAGTGAATCTACAACCCTGAAGTTTTGTAATATAGTACAATTTATATTTTATAAATCAAATTAACTGCCAA
AAAGTTAGACAAGTGATGAATTTATGAACTCTGAAAGCTGTACACACAGAAATGTTTTCAGCAATAGATTTCATGTGTTATATGGTAGTTTTTGTCATTG
TTTCCATTTTAAAATGATATTTAAATAAGTTCTGTACCCTTGTTGCCTTTGTCTGTCTTTTTTTTAAGCAGGGTTAGAGTAATATGGAGTTGATTTCTCT
GTCCAGCTTTTGACAAAGATGTTTCCCTCCCACTATTGAGGGAAAAAAAGCATCTATTGTATTTTTGGTGTCTGAAATATTGATAAAACTATTTTCCCAT
GTTATATATAAGATTTCTATGCAGGTTCACAAAGCATGAATTCTAGCCAGATGTTGTTGGTGAGTTTCATTTCAAAGCACATAGAATTTGTCTTCTTCTA
CAATGGTAAATAATTTAGAATTGCTTGAGTGTTTCAGGTCAGTGATCGGATACTATTGGATACCTTAGGATGCTGGTAGATATAACCCTTAGTTCAAAAA
TATATATAATTCTAATGGAAATAGGTGCTAACAGAAGGAAATTGCATTTCTATTGGGAAGGAAGACTCCAACTCCAGAATACGTATAAATTTATACTTAT
AAATACTTACGAAATATATGGGAACTCCAGAAGCATGGTTAGTCCTTGTAGTTGCTTGATAATTATTCTAGATGGGAATCAATCTGATTTAAGATTGCCC
AGTGGTTGATCTTTTATTAAAATCAATGTAGATATCAGTTTAAAAAAACTCTTAGTGCATCTGATTTGAACTTTAGATTACTTGTTTAGTAAGGACAAAA
AGAAAAAACAAAAACACACACAGCAAAAAGAAAAGACAARAACACCCATAACCAACCAAATAAAAAACCACACACACAACACATTAATACTTACGTTAAT
AYCATTGATTAAAATAACCTATACCTTTGCTCTCTAAAGGTCTGGGGTTGTGAGCTAACTTAAAAACCAGCTTGGTTGTTCACAGTTACTGGTTTCCTTT
TGATATTGCAGATATTTGGTAATTATATGTAGATGAAGGCTGTAAGCCTTCTACCCCACCCCCTGTATACCAGGTAGTGGGTTAATTCAAACTGAATTCT
GCCACTCATTTAGATACTTTTTAGCAAGCAGGCACAAAAACAGTCATGTAAACTCTTCTCTAGCTCTATGAAATTACAATTCTGTCTTTTTGGTATTCCG
ACAGTACCTTGTTTCAGTGGTTCACTTGAGGCATGTGCAACATTATAATAGGGACAGTTCACTTTTAGTTGGAGTCAGGGAACAAACCCTGAGATAATTG
GTAGAACAGGGGATGCTTTCAGAATCCGAAGCCTAAAACACCATCCCTTAGGGTATGGACTGTTGGATTTATAGGATTATTATACCCTGTTCATATGAGG
GAGGAGGCAACTGGGCAGTATTTCTGGACAGCCCACAAACTGCCATACCACCGTGAAAAATTATGTCTTACACATCTGTTGTTGACAGAAGATAAAGGCA
GTGAGCTGAGATGCTTTTAGGAAAGGCTGCTAGATTGTGGTTTCTTGATTAGTCTCATGCCAACTGTTATGGCCTGGATGTTTGTGCCCTTCAAAATTCA
CATGTTGAAACCTAATGACTACTGTGGATATATTAAGAAGGGGCCTTTTACTAAGTGATTAGGTTATGAGGGCAGATCGTTTGTAAATGGGATTAATGCC
CTTATATTAATAGAAAAGACTTAAAGGAACTGTTTGTCCCTCCTCCATGTGAAGACACACAGAAGGTGCCATCTATGGGGACTGAGCCCTCACTAGACAC
CAAATCTGCTGGCACCTTGATTTTGGACTTGACAGCCTCCAGAACTCTGAGCAATAAACTTCTGTTTACAAACTGCCCATTCTGAGGTATTCTGTTATAA
CCCAAATAAACAAAGATGCCAGCTAAGCACCGTTCTAGAGTCGAYGTCTGATTAGGGCACTAACATGTTAACTAGTCACCCCTAGGATGGACTTAGTTAA
ACCTAATTGTCAGAACAGCGGAAGTAAGGACTCATATCTAAACACATAGGTAACTGGTTAGATACCAACTCAGAGCCCAGGCTATCAGCCAAACTTCCAA
CTTAGATCTTTGACCATGAATTCATGTGAACTCTTGTCAGCTACATAGCCAATCACTGCCTAATTGTTTCTTCCTGTAAATAATGTTTTACATTTTATAA
CTGTCTGGCTATTTCACAGACATTTCTGGAGCTTTGTGATTCAAAGGGAAAAATATAAACCCAACCTGGTTTTCCCTAGGAAGATGGCAGATATTTGTAG
ACCCTCTACTGTCTGCTAAGCTGTACAGGTGGTACAAAATGATTGCCTTCAGGGAGCTTAGATCTATTAAGGAGGGTAGAGGCACAACATAAATTGCTGT
AATTCAAGACAAATTAAGTTAACTGCTACCAGAGGGAGAGAAAGGGCTGAACACTTGCTATCCTTTCAGTTTTGGAGTTGCTTCCCGCTGAAAATCATTA
ACAGATTATCGTTCTTTGGAAGCTAGATCAAACCTGTCACAGATACATTACACTACCAAAGGACAGCATTGAGTTACTAGGCAACGTTCCTAATTTGAGG
TAAAGTATTTCTCTTTTCCAGGGCTTTGGGGCCTTAGTCAAAGGAGTCATCTAGAAGTGAAGGAATCTCTTTTTGGGTACTGGTTTTTCGGGCTCTGATA
TTAGGTTCTCTAAAGTTCTGGGTGAGGGCTTGTTTTCTTAACTCGGGAAACTGGWTGTTACCTAAATTTCATTATAGCTATGAGAAGGGTGGTTAGGTTT
ATAGCACAAACACTTATGCCTTTCTTTTGTTAAATAATTTAGTGACCTGCTGTTATTTTCCTTGCCTTTAAAAATAAGCTCTCAAGCCTGTAAGGGCTGT
TGACAGAAACATCTAAGGACTGGCTGATAAAGGATATTGAATTACTGCATTAGTACTGCATTGATTAGTACTTCTTAACACGAATTGGAATTGTACATAC
ATTTATTAGTCATGCTGTAGCTCATTCTCAAATCTTTTTGAAATTTATTGAACTTCTAATTTTGTTTTGGATAGATACTGAGACAATAAGGAGAGTGTGA
ATGCTTTAACTCAGTTTAAGGAAATAACAGTGTTTTATACCCACTAAATTTGGCCATGGTAATGTGTGTTTTTTTTCTTTTCTCTTTTTTTTTTTTTTGG
AGACGGAGTCACACTCTGTCACCCGGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAG
CCTCCTGAGTTGCTGGGACTACAGGCGTGCGCCACTACACCCATCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATGTTGGTTGGCCAGGATG
GTCTCCATCTCTTGACCTCGTGATCCACCCACCTTGGCCTCCCAAAGTGGTGGGATTACAGGCGTGAGCCACTRTGCCTGGCCGCATGTGTGTTGTTAAT
TACAGAGTAAATAACACTTGTTGCATATGTTAGAATCTTTTTTTTTTTTTTTTGCCGAGGCGTAGTCTCACTCTGTTGCCCAGGTTGGAGTGCAGTGGCG
TGATCTCAGCTCACTGCAATCTCCGCCTCCCTGGTTCAAGTGATTCTTGTGCTTCAGCCTCCCGAGTACCTGRGACTACAGGTTCGTGCCACCATGCCTG
GCTAATTTTTATGTTTTTTAGTAGAGACGAGGTTTTGCCGTGTTGGCCAGGCTGGTTTCGAACTCCTCACCTCAGGTGATCCGCCTGCCTCAGCCTCCCA
AAGTGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCCTAGAATCTTGATTAAAAGTATTTATCAAGATGATCTCATGCTAAAGAATAAGGAGGACAGT
TTTAAGTATCTTGACATATTTTTCTAGCTGATTACACAGCTTTTCATGAAGATGTGGCTACTGTGCTTGGCTAATGATAAAAGACCATGTTTGGTTCTAT
TCCTAGAGCAAAACCAAAACAAAATGTTGTTACCATTACTTCCCTTTCCTGTTCTTGTTTTTTTTTTGTTAGAGTAACTATCTTTGTCTTGCATCAATCT
ACTTAACAGCACCAGCGTTAATGGACTACAACAGCCTGATGAATTTTCATTTTGCTCCTTTTGTTTGATTTTCTATCAGAATGCTAATTTTTGCCATAAT
GTAGCTGGCATGTTTCTAGTTCCTGAATTAGTTTTTTATTTCTTTATGCACTTACATCTAGGCTAATTATATTTGATTCTTTTACAGGAATTTTAAACAG
CTATCAAGTAAAATGGAATTTATGACAATTAATGGAACAACATTAAGGAATCTGGAAATCCTACAGAATCAGGTCAGGCAAATACAAGGGCTAGTTGATT
ATAAATCGTTTTGGGAAAAACTTCTGAGTAAGGCAGCAGTCTGTTTTTAGAGGTACAGGTGAAAATATAGTGTCYTTAGCTGACTGCAGTATTAATTGAT
AACTGTAGCTCTTTTTGGAGAATGAACTGTACATAATATTTCTCTGGGTTTTTTGGGGGGAATGATGGAGCTGCCCTTTTTAATGACTGAGGGGCATGCT
TATCCTGACAATTTCTGTAACATCATTTCTATATCATGTAGTTTTTTGGAAAGGCATCATCACTGAAAATATGAAGCGGATTTTTTTTGTCTACTTGGTT
ATATTTTTCTATACACCTTTAGCTTTTTCTTGAAATGTTTGCAGTCTTATTTAATTATTCAGGTTATAAAACAGGTTTCTGGGATATTCAGTTTGACTGT
AAGATGCATAACATTTCAGTTTGCAAACTTTCTTTTTTTTTTTTTCTTCTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGCTGGGTTGAGTGAAGTGATG
CGATATTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCACCTGCCACCACGCCTG
GCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATATTGGCCAGGCTGGTCTCGAACTGTTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAA
AATCCTAGGATTACAGGCGTAAGCAAACGCACCTGGCCTCAGTTCACAAACTTTCATTGTTTATTTGTCCTTTGTTGATGAATTAGGAAGATAACGGGGA
GATTAAACTTATTGCTTTCATTTATTAAATTATCACTTGGGAAGATGAGACATTATATTATAAAATTAATGTTATCCTAACAAAGTAATAGAGATAAAAA
GCAACCCCACGTCATTTGATTAAGTACTGGAGAATCATCTGAACCATCTGAGTCAAAGGAGTTAAAACTCTTCAGAAATATTTATTACTATTGCAAATTA
AAGTAAACACTGAATTTATTCTCCTGACTCCTGAATCTGCATATTRTTAASTAGTTTCTCTCAGTTTCTTCCTGTTCCAGTCTGTTCTAGTATGCTGAAT
TCAGATGTATTTTTGTTCAGTAACATTTTTATCTTGTCATCATCCAAAAGCTGAGAATCTGTCCTGCCGGTCTGTCTCRTCAACTCTGTAGCCATCTCCA
TGATAGGAAATAAGTAGTAGGAATAAAGAGACATTTCTCGGCTGAAGGAGTGCTGATAGCCTGCAGCCAGCCCTGGCATTGTAAGCGTTCCCTGCTTCTG
CCGCATCTTCCCTGTTCAAATCCTACTACAACAGAGTCAGTTCTGAAATCAAATTCCTAAGGCAGAAATCATCTGGAATCAAAATACCCTTCAAAATTCC
TTCCTTTATTGGACCTTGCACCATTTTAGAAGCCGAAGCTGAGATTAACATCTTCTGCTTGTCTTTGTACTTCAACTTCACCCCCACCGCCCCYCGCCCA
CCTTTCCAAGGAGCAATGGAAAGAGGTGCAGGGTAGGAGTTGGGTGTCAGCAAGAACAAGGATATAATAGGACAYGTATCTGTCCCTCCTCTCTTGTCTG
AGCCTGCTTCTCCAGGGGTGTCAGGGAATTGGCCTCCTCACGGGACCCTTTACCCCAGTCAGGCCAGTCAAGCTGTGGTCTCAGGAGCAGTGCTGCTGCT
GATCTGAACTGCCCTCCTTAGCCTGTCCAGCCATCCTCAGAGGAACCTTTGTGACCTTGTACCTTCTCTGTGCTCTCTCCATTGAACTCCTGAGGCCTGA
GAGCTTATGTCACACCTTTTCTAGTTGATTCCTGGCAGGTGGCATTGTATCCTAATTACGAGTCTTTTTCCAACTTGGCTATAAGCACCCTGAGGGTGGG
ACCATGTCCTTGCTATGTTCAGCACATAGGAGGTACTCTGGAAGTAGCTACTTACAGAGGAGAAGGAAAAAAGAAAGGATTAAAAAAACCCAACTCAAGT
GGAAACAGCCATTTTAGGTCTCAAGATTTAAATGTCTCAGTGGGCTTTGTACTACTGTGAAACCTTGGTTAAAATTAATTATGTCTAGTTAATTGTGATT
TTTTTTTAAGGACCCAAATTTTAAGTGGCAAAAGCAAACTTTTCTAAGGATTTAGTAAAACAAACTAAAATAAAATCCTTCCTGGGTAAATACCTAGAGT
GCAGTGCAAGTTCATGTCTATCTCCAGCACCTTGTTCAGTGTTGTCATGAGAGCATTGGTTTATAAAATGGTAACTGTGAAATACCAAAGGAAAATTAAG
TCATCTTCCTATGTTGTATTTCCCAAGGTAGGAAAGTATGCAATTATATTTTAAAGATGCTTAGATAAAGCATCTTTATCATTTCAAAAGAATTTCTGAA
TAATTTATTCTTTGGTAACNNNNNNNNNNNNNNNNNNNNCAGTGCTGCTGCTGATCTGAACTGCCCTCCTTAGCCTGTCCAGCCATCCTCAGAGGAACCT
TTGTGACCTTGTACCTTCTCTGTGCTCTCTCCATTGAACTCCTGAGGCCTGAGAGCTTATGTCACACCTTTTCTAGTTGATTCCTGGCAGGTGGCATTGT
ATCCTAATTACGAGTCTTTTTCCAACTTGGCTATAAGCACCCTGAGGGTGGGACCATGTCCTTGCTATGTTCAGCACATAGGAGGTACTCTGGAAGTAGC
TACTTACAGAGGAGAAGGAAAAAAGAAAGGATTAAAAAAACCCGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGC
GGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCC
TGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTG
GGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAACCCAACTCAAGTGGAAACAGCCATTTTAGGTCTCAAGATTTAAATGTCTCA
GTGGGCTTTGTACTACTGTGAAACCTTGGTTAAAATTAATTATGTCTAGTTAATTGTGATTTTTTTTTAAGGACCCAAATTTTAAGTGGCAAAAGCAAAC
TTTTCTAAGGATTTAGTAAAACAAACTAAAATAAAATCCTTCCTGGGTAAATACCTAGAGTGCAGTGCAAGTTCATGTCTATCTCCAGCACCTTGTTCAG
TGTTGTCATGAGAGCATTGGTTTATAAAATGGTAACTGTGAAATACCAAAGGAAAATTAAGTCATCTTCCTATGTTGTATTTCCCAAGGTAGGAAAGTAT
GCAATTATATTTTAAAGATGCTTAGATAAAGCATCTTTATCATTTCAAAAGAATTTCTGAATAATTTATTCTTTGGTAACCAAAAACTATAAACGATCCC
TTTTCTGTGTAAAATGTCAGTACTTCATTCTGTATGTATGKATTCATCTGTCAAACATTAAATGAACACCTGTTATGAGCCACATTGTGCTAGGTATATA
TGACATTTAGAATCGGGGTATATGAAATAACAATTTGGCACAAATAATTGTCTAGTTAATAAAACTTGTTTTCTGGTCTTTCTTAGACTGATATGAAAAC
CAAAGGAAGTTTGCTGTGGGTTTTAGACCACACTAAAACTTCATTTGGGAGACGGAAGTTAAAGAAGTGGGTGACCCAGCCACTCCTTAAATTAAGGTAA
AAGGAATTCTTTTTGGGGTGTTTAATCTGAAATTATAAAATTTTGAAATTAAAGGCATTTTAAAACCAAGGTTACCATTGTTTTTAAGAACACRGTTTTA
AATTGGAGAACATTTTATTTTAGAACTGAGCAATAGACTGGCTCTCTAGTATTACAAGGATTTTTTTCCTCATTCTCGTGAATGAGCCTGCCTGCAGATT
GGCAGACATAGGGCGTTGTCCCAGGAAAGTGAGGAKAGATGCCTTTTGTGGAGGGYTTTGAAGGCTAGACTGAGGAGTTGATAGCCAGAGGGAGTTCATT
CAGTGATTCTGAGCATGGGGCTGATATCATCAGAGCTGGGCTTGTGTGTAGGAGGGGACTAAGTGGTAGTAGTGGTGGGATCAAGTTAGCAAGTTCATGG
AGAGGTGCCCAGGACCTGAGCTACAGCAGTAATAGCAAGGAGTCCAAAAGAGGGGTTAGGTGTGAAATGCTTAGAAGAGTAGAGTGAGTAAAGTTGGAGC
TCCCTAAGGGAAGATACTTGAATCCAGTGCCTAACATACAGTGATTTCCAAGGTTGTCTGCACATCGGAATCACCTGGGATGCTTCACAAAATACTCATG
CCTGTGTCCAGCCCCCATAGATTGTGATTTAATTGGTCTCCAGCATGACCAGGGAGTTGAGATTTAAATTTTACCCAGATGATTCTGATATGCAGATAAA
TTTGGAGATTCTGACCTAGAACAGTGCCTGGCACTTAGTAGAAGCCCAGTTAATGTTTATTGAATGAAAATTGTTATTTATTGCACACTTTCTATTTACT
GGTGTTTAATACTCAAAATCACCTTCTGAGATAGGTTCTTGAAATGAGGAAACAGATTCAGAGAGCTTCACTAACTTGCTTAGTGTTTCATAGCTGGTAG
AGATAAATATAAGATTTAAAACCAGCATTGACTCCAGAGACCTTAGCAGGAACAAGCCATTATCCTGAATAGTTATACCTCTGGCTAGACCAGAGTGAAT
ATGGTGTGATGGTGAAGAGAACCGCTATGTGTTGGCTCTGTCAGCTGAGTGAGTCACTCCCACTAATCCTCAGTGTTCTCACCTTTGACATGGTGGAACA
CCTCATCACAGCATTGCTGTAAGGAATAAAATTTTGAGCTCTTTATCTCACACCACACAGTATGCTAGGAGCTTTATGAGCATTGTCTCTTTTAAACTGC
ACAGCAGCCTCACTAAGCAGATGCTGTTATTAGCCCTGTGTTACTCTGTGATTAATAAATAGTCACTATTTTCAATAATGGATTGCAGATGTTAATGTTG
GTCATAGGCTTGAAGACACTGTTATGGGTTTTGCTGTTGTTTTCTTCTTTTTCTTTTGCAAGTTTTTTTTTTTACAATGCCAACTTTAAAAGGTCACTAA
AGTTAACTGGACAATAATCTAGGCAGACATCACTTTACAAAAAAGAGGGAAAGCCCAAAATGCCACCTTCTATAGAAAAYGCACAGTACAGTTTTATTCA
GAGCAAAGAAAAAAGAAACTTGATCATACTATGAGAAACTCAGCCATAGGTTTGGAATCCGTATTCACACCACACATTCACTGAGGACAATATTCTGCTC
ATACGATTGATTTGCTRCTGCATTTCACTGCTGTTTGTCTGATATTAACAATTTTAAACAGAGCAGGGCAGCTAGTATTTGGAACAATCCTTACAGTGTG
ACGGCGTCAAGGACGTTTCACTTCTGTTCACACCGCTGGTTCGCTTGGCATACCTGGGTTTCCTCTTCTTCAGTAAAGTCATTTTTGATATTGGAAGTCT
TGCGAATCTTCTCAGGACTTTTCTCCTTGATTGTATKGGCAACAGTCTTGTGTGTAACATCAAGCAAACCTTTGATGTCTAAGTAGTTTGCAGGCAGAAG
TAGTACAAAAAGTATTCCTTGATCGACTTTCAGGAATTGTTGGTCCTAAGGAGGGATCTCCTCTGTTCGTTTTCTTTGTTCGCATCATCCTCGGGAGGAG
GACGGCCATTTTTGTGGTGGGTACACCACCAAATGACCTTTTAAAAATATTGCTGCATTAACTTTGGTAGAGGAGCTGGGTCGTTATCTCCATCRTCCAT
TCTCATATCTTCCAACATGGTCTTGATAGTCACAGATTGTTTGGCAATTTCCACATCAAATATCTCCGCATCAAAACTCAGCATCTTAATTGACGGCATG
GTGTTTGAGCTTAAGGAGACCACTGGCCAGAGGCTCATGAGAGYAGGGCGACATCAGCAAAGAAGAGGAAGGCAGAGGACAAGGACACTCAAGACATGGT
TTGGATGATGATAATTACCAAATCTTTTCAGATTTAGTGGGTCACTCCGATTTCTTTTCTTAGCCATAAAGACCTTAAGACATGGGAAACTGATGAGGTA
AAGAAGAAATCCTGAAAATGGAAATATCTTCTTTAGTTCAGCATTCTAATGAAATAAGCAGACCTTGTAGAGCAGACGCAGACAAGATGGCTTTCTGTGG
ACAACAGTGTAAGGGATGCAGCATTGTGGCTGCTGGAAAGGCTGCCTAAACATCTACTACAATTCTTACTGTGTTTTTGCTTACATGTTACAGCAGAAAC
AGACTCACTAGCAGACTTTTCCATGTAAATTAAAATTYTTCATTTCCAATGTTAAATTTCCTTTTTTTTTGTGTACCCAGGATTAATTTGAGATAAATCT
AGTAGACCATGTTGTCTGTTGTTAGGCGCCGAATCATGTATCTCTGGGGATCCTACCTTCCCAGAAAGGCAGAGAGAAAATATGCCAGGCATTCAACACT
GATGTTTTCAAGTATGAACTTTTCACTGACCTAACACTGATGTTAGCCAAAAACAAACACACGAACCTTTTCTTTGCCCTTTTATTTTAGGTCATGGTTT
TTAAACTTTTATACTCCTAATCTATTAAAATCTATTTCAAAAGAATTCCAGTTTAATTTTAATGGCACTTGCAACGTATTCCAAACAAATACCTGGAGAG
AATCTGCTGATTAGTCAGTGGCTCAGCTATATAATTAGTCATGTACCACATGACAACATTTTGGTCCTTGGGGATTGCATATACAGAGGTGTTTTCTATG
TTTAGAAATGTTTAGACACACAAATACTTACCATTGTGTTACAGTAGCCTACAGTATTTAGTAGAGTAACATGCTGTCTGGGTTTTAGCGTAGGAGCAGT
ATACTGTACCATATAGCCTAGGTGTGCAGTGGGCTGTACTATCTAATTTTATGTAACTATATGCTCTGTAATGTCCACAGAATGACAAAATTGTCTAACG
ATGCATTTTCCAGAATGTATCCCCATCATTAAGTGAGGCATGATGGTGTTGTTGTTTATACTGACATAAGTGCCTTACTGATCACATCAGTGGCTCATCC
AGACAAATATTCTGTCTCTGACATTGACTGCCAAAGGTTAGTTTAGGGTCTGGTTTTCTTCTACAGTGAGATCGTAGAACAAATAATGGATGACGAGGGG
ATTTAGCAAAATAATGCAGATCTCCCCAGGTTCTGCAAGATCCCATTGTTTGTCAGTCATCCATGAATTCTCCTAAATCCCTTAAGCTCCTCTTTGTATT
TTTATCTTGTTCTAGCTCTTAAGGGCAAACACACAGTTCATAAGTCTAGGACCAGGCATTCAAGTTTCAGAAGACTTTCCACTCCCGTCACCTTTTATTC
TATAAAATGGTCTCTTTGGTGCAAAATTTTAATAGTGACTTTTAGAAAGTAAAAATGATTTTTACTTTACTTATTGACTGATTCAAAGAGTTCACTTAGA
TTATTGAGGCTGGATTTTACTGTACTGATATCACATTAGCTTTTATAAATAGATTATTTTTTCTTATGTGTTCTCACCTGTAGTTTTTATCAGTTCTGCT
AATTTTAGGCAAGAAGATTCTTCAGTGTAGTTGTTTTTTAAATAAATGCATGTCACATTGGCATGCCATTATTCTTAAGGCCTTTTAAAATTAGATTATA
TCGAATTAATTTTTTTTGAGGTTCTGTCTTTGGACTTCTTTCAGTTGATATAGTCTTGTCAATTTTTTATTTACACACACACACACACACACACACACAC
ACACCCATATGTATGTCATTGGTTTTGTCAAAAAGCCTGAAAATGCAAATTCTGCTTGTAAATATTGGTAGAGGAGAAAAAAAGAAAACCGTGAGATGAG
TCTGTGTTCCAGACTCATTGGTGGGTTATGTGGGATGAGTCTCTAAAATGGTGAGTTAAGCAAAATAATTAATTTCCAAGGCAGATTTGTTTATCTTAGA
GGTATTCCACTTTCAGTAGCATACTATATACTTTAAAAATTAAAAGAAATTTAGTTTCTTTCATGAGTACCTCTTTCTTCTACCTGTACTTTACATTTTT
TAATTAAAAAAATTTGTAAAGTTTTATCTTTAATTGACAAATAATTGTATATATTTGTATTAGGGTTCTGTAGAGGGAGAGAACTAATAGGATAGATGTA
TATAAGRAGTATTGACTTACATGATCACAAGGTGAAGTCCCACTGTAGGCTGTCTGCACGCTGAGGGGCAAGGAAGCCAGTCTGAATCCCAAAACCTCAA
AAGTAGGGAAGCCAACAGTGCAGCCTTCAGTTTGTCGCCAAAGGGCAGAGAGTCCCTGGCAAACCACTGGTGAAGGTCCAAGAGTCCAAAAGTTGAAGAA
CTGAGAGTCTGATGTTCAAGGGCAGGAAGCATCCAGCACAGGAGAAAGATGGAGGCCTCAAGACTCAGCCAGTCTAGTCCTTCCATGTTTCTCTGCCTGC
TTTTATCATAGCCACACTGGCAGCTGATTAGATGGTGCCCACCAGATTGAGTGTGAGTCTGCCTCTCCTAGCCCACTGACTAAATGTTAATCTCCTTTGG
CAATACCCTCACAGATACACCCAGGAACAATACTTTGCATCCTTCCACCCAATCAAGTTGACATTCAGTATTAACCATCACAATATTCATGGGGTACAAT
GTGATATTTCATTACATATATACATTATAGAATGATCAAATCAAGCTAATTAATATATCTATCACCTCAAACATTTATCATTTTTTTTTGTTGAGAACAT
TTAAAACCCTCTTTTAGCTATTTTGACACACATACAATGCATTAACTATAGTCACCGTACTATGCAATAGATCACCAGAACTTGTTCTTGTCTAACCAAA
ACTTTGCACCAGTTGACCAGCATCTCTCTTTTCCCCATCTACCCTCTCCCCTAGCCTCTGATGACCACCAATCTGATCTCTACTTCTATGAGTTTGACTT
TATTTGATTTTACATATAAGTGAGATGATGTGGTATTTCTCTGTCTGTGCCTGGCTTATTTCACTTTGCATTATGTCCTCTAGGTTCATCCATATTGTCA
AATGATAGAATTTACTGCTTTTTTTTTTAAGGCTGAATAGTATTCCAGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCACATTTAAAAAATCTA
TTCATCTATTGGTGGACACTTTGGTTGTTTCCATATCTTGATAATTGTGAATAATGTGGCAGTGAACATAGGGAGTACAGATATTTCTTCAACATACTGA
TTTCAATTCCTTTGGATATATACCCAGAAATGGAATTGCTGGATCATATGGTAATTCTATTTTTAGTTTTTTGAGGAACTAGCATACTGTTTTACAAAGT
GACTGTACTGATTTATAATACCACCAACAGTGGACAAGGGTTCCCTTTTCTCCACATCTTTACTTGTTATCTTTCATCTTTTTTAATAAAAACTAATCTG
AAAGGAGTGAGGTGACCTATTGTGGTTTTAATTTGCGTTTCTCTGATTAGAGATGTTGAGCATTGTTTCATTTATCTATTGGCCATTTGTATATCTTTTG
GGAATCGTCTATTCAGACCTTTTGCMCATTTTTAAATAGGGTTATTTGTTTTCTTGTTATTGAGTAGTTTGAGTTCCCTGTATATTTGGTATATTAGCCC
CTTATCCAGTGTTTGATTTGCAGATATTTTCTCCTAGTCCCTGGGTTGTCTGTTTACTCTGTTCATTGTTTCCTTTGCTGTGCAGATTTTTAGTTTGATG
CAATCCCATTCGTCTGTTCTTGCTTTTGTTGTCTATAGTTTGGTTCCTGAGCATCCCAAGGCTTTTTCTCAAGTCTTTGCACTTGTTAGTCTTTGTACTT
CGTGGTCTCTCTACGTAGAATATTCTTCTGTTTCTCTTTAATCTTTACAGGGTTAACTGCTTGTACTTGAGGTCTCAACTTAAAACGTTGTGTTAATATC
TTCGGAGAGGTTTTATTTGACCTCCTAATCTAAATTATGTTCCTTGTATCACTCATTGATAGCATATAGGGTTTAATCATGATTGTTACCTATGTTTATT
TAATATGCATGGGGCTCTTACATTATCTGTACAAGGGGTCTTCAGAAAGTTCATGKAAAATGCATATTATGAAAAAACTTTGCATAGATTTCAAAAAATT
TTGGCACCAAAATAAACTCATACTAACTTGTTAGAGCATGTCTCAATAGGATGTAGTTTGAGGCATTAACAGGGATAAGATATCAGTTTGAAAAGAGCTT
CTATCAGAACAACATGAATTCTGCTAAMAATTAAAGCGAGAACAAACACCATATTTATGGTGAAGCTTGGGTGGAAGAGTGGTGACATCATTAATGCTTT
ATGAAAAGTTTCATGAGACCTCGGAATAAACACCACACATCTACAACTATCTGATTTTCGACAAACCCGATACAAACAAGCAATGGGGAAAGGATTCTCT
ATGTGATAAATTTTGCTGGGAAAACTAGCTAGCTGGAGACTAAAAGTCCAAGATCAAGGAATCCTTCTGAGGCCTATCAGGGAGAATCTGTTCTGGTCCT
CTCTCCTACCTGCTGGTGGTGTGCTGGCACCCTTTGGCGTTCCTTGGCTTGTAGATGTAGCTCCTTGATCTCTGCCTTCATGGTTACATGGTATGCTTGC
TGTATGTATGTCCCTTCACACAGTGTTTTTTAATAAGGACATGGTCATATTGGATTAGGGGTCTACCCTTACTGCAGAATGACCTCATCTTAATAATTCC
ATCTACAATAACCTTATTTCCAAATAAGATAACATTTTGAGGTAGAGGGATAAGGACTTCAGCATATCTTTTTAGGGGTACACAATTCAACCCAAAACAA
ATAGGCCCATTATTTCCAGATTTTCTTCCTTTTGGCACACATAGACTGATTATACCCATCTCTTTACTAGAAACAAGTGTTTTGATTATTATTTAAATGT
TTTGCTCATYTATTCAACGTCTGATGTGAGGTTGTAAATAACCATTGAATTTTGTAAAATTGCCAATCTTGTGCAATTTTGTGTTTGTAGTACAGTTCTC
TGAAAAGTTATTCTCTTATCTTTGACAAATATCCTGGACAGTATCTGTCCAGGTGAAGGTATGTATGCAAAGTGTTACATTAATTTTAGAGATGAAAAAG
AAACATTTATATATATATTTAAAAATAAAGGAAAATGCCTAGGAAGAAAGAAGCAGAGGTCTGAATCTGAGATTCGAAGAAAGAAAAGTAGCCAAGGTGG
AATGGGAGAAGAGCTGAGGTCTAAGAGGTAAGGTGTGTTACTCTGGGAACATGTCTTTGTATAGGACAAGCAGAGGACTTAAAGCTCTGAGGGATCAAGG
GAGTAGAAAGAAAATGTCAGTCTAGTGAACTAATCTCTAACTGTGCTTTATTTTTTATCTGTRTTTTTTTCAGCTATCTTTAGAGATAGTTATTCTGTTT
TAGAGATAAGAATAACTAAGTCTCAGTTTTTCCAAGGTCATCCAGCCAAGCACATAGGGGACCTTTTGAAAGCATAGTTTTGGAGTTAATGATACTTCAG
CTTGAGTTCTGATTCCCTTTTGTCACTTTGGAGAAGTTATGAATTTGTATATACCTCAGTTTCTTCACCTGTAAAATGGGAATTAACTACCTACCTCATT
GTGGTGTTGTGAGGACCAAATGAGACAGTATATGTAAAAGGATTAGTGTGGTTCCTCATAGCAATTTTTTGGTCAAGAAGGTAGCCATGGTCTTTAGAAT
ACCAAAAAATTGGAAGCAGTGTAATTATTAGTAGGGAAAGGGAAAATAAATTGTCTGGTTATATATTGGAATATTATACAGCAGTTAAAATGAATGACTT
AAGTCTATGTGTATCAACATGGATAAATCTCAGAAAAGCAATGTTATAAAAGAACACATAAATGATATCACTAATTTAAATTTTGTCACACACAATATCC
TGTTTAGGGGTTCAAACAGAAGTGGTGTTTTCTTGTCACATAGGCAGTCAAGACAATAATAACTTCTGGGAAATGAGAAAAGGGTTAGAGATACAGGTAG
GCTGGTGTTTTACATGTATTTGCAATATTTAATTTTTAAAAAATTATACAGAAAATACACACACATGAATTTTTTATAATGTRCTGCTATTTGACCTTCA
CTACCATCAYAATCAGGTGAAAATGAGACCCATGCACATCTGTCTAGAAAGCCCATGTTGAACTTGAGAGCATCTGTTTTCCAGCACATCTTGCATTAGA
AAGACAGAAGACAGCCATCAGATGACCAAGGCTTCCAGGGATGGCAGGGGGAAGGCTGGGTGCTTGCACTGTCAGTTTCTAGGATCTGCCCAGGTCATTT
CTTTTCCTGAATCTGGTACTTGCCTGTGTTTTCTTTTGCCTGTAGCTACCGTCAGGAATGTAGGGAGACTTTAGGAGGATTACTGGTGAGTAGGTAGAGT
CTTTTATGGGGGCCTACTCTCAAAATAATATAACCATGAACAATTGAGGAATGTTTTTTTGTGGTCCCTTTTATTTATGCTCTAAACTTGACTAGTTCTG
GGAATTGAGGAATCTCAACCTCACGTTCTGATTGACTAAGTAAATGCTAATGTGTTCGTTAACACAAAAGGCAATGCATTGGTTAGGGAAGCTAGCTGTT
AACACAAAGACCCCAAAAAGTCTAATGGCTCTAATGTTGTGAAAGTTAATTTCTTCTTTTTTTTTCTTTGCRTAAACAATCCATGGCCTTTCCACATTGG
GGGGTGGGGTGAGACTCTCATCACATAGGCAGTTAGGAACCCCAGAGGCTCTTCAGTTTTAAACGTGTAGCTTCCAAYGTCATCTTGAGAACTGATATTC
AGCAGTGGAAGGAGAAAGAACAGGGAGGATATACATTTATGGCTTTTATGTGAGGCAGGCCTTGCATTGGCACATACCCTTCTGCCTAAATCTGATTATA
AGCAGAATGCATTCCGATGGTCACAGCTTACTGCGGGGGCTAGCAAATGTCTGCTTGTTTTTCAAGGAATAGGAAGAAATGTTTAGTGAATACCTAGCAG
TCTGTTGCCAGAGATGGTTTTTGTTGTTTCAATTCCATTGTACRTTCTTCTTAGCATTTAAAAAATTATTTGAACTTTTGAACAGGCAATATCTTCACAT
ACTTTAAAAGTTTGAAAATCTGAAAAGTTACACAGTAAAATGTTTGCTTATCATTCCTGCCCCACATCTACTCAGATCCCACTAGGTAATCATGGTTATT
ACTTTATCATGTATACTTCCAGAAACCTTTTGTTTAAAAAAGCAAATATGAATTWTATATATATATATATGAAATCTCTTCCTCCCTTATTACATAGATG
GAGCCATAATATACCCAGTACTTTGTACTTGGCTGTTTTCCCTTAGTAGTATAAGATAGTTATTTTAAATTTTGTATTATTCAGTCTCAGTGACAAGGTG
GCGTTCCCAGCGTCAGGGAATTTCTAATCTAATCTGGTCAAGGTATAATCTACTAGTAAGGAGGAAGAGATACAAGTAGTGGAAGCTTTTGTACTAAAAT
CAAATACTTACCTGTTACTCACTCTATAACTCAATACCACATTTAGAGCAAATGAGTAATACCTTTATAAGTCAAATTAGATTTTTAGAAAACTGCTTTA
GGAAATTAGGCATGCTAAGATAATTCTTGGCATTTAAATCACATAATTAAGGGAATAGAAAATGGTTTGTGTTAGGAAATAGATCTTTGACTACATTTTT
GCATGACTTTCTGATGTACTAAGTACATTTTAGTGGTCAATGTTCTCTACATTAAATGGCTTTTGTTTTGGTAAACCCATATGTTTGGAGTATTAATGGT
TGTATTTCTAATTTGTTACCCTGGCCCAAATGATGAAGTAATAGAATGTTGCATATTTCCTTCCACTTAACATTTAATTTGTGTTAATGAAACCAAATGT
CACTTTTAACTCTGGAACTTCTAAAATGAACTACACCGGGAAGCCCTCTGTATTCTTTGTGGTTTCCCATGTTCCATGAGCCAGCAACCGGGTGTTCACT
TGCAGTGACTCTGGTTTACTCAGCCCCTGGGGATGCATTACTGCTCGGAAATGGGAAGGGAGAGTAGCAGGTGGTGCGTAATTGAGAGCTGTGTTTGATT
GGGACTGACCTGGTGCCCCTTTCCTCTGCCGGKTTGAATGAGAGTTTAAAGGAGGAACTGCTGCTGCTAAGAACAAAATGAACCCGAGTGCCTCTTACTG
TTTGTCCCGACTGTCAGTKCATAGGGATTAACTAACATCCAGGAACTTTTAGCTGGCCTCTGCTTTGTTCTTCAACATTCGGACCTTCAGTGAGCTCTAG
ACCTGCACAAACGACCTGCAGCAAATGGCAGCTTTCATTTGGGCTGAGGAAGAGGAATATTGGAGAGAATGAGGAGAAGGAAATAAATATCTTTCCTTTT
TGGCCCTTCCTGCTTTATCTTTCTCCATCTTTATGCCTTTATTAATGAGGATTTTCCAAATATCGGTCTTCAAAAATGCCATAAGAAGACTTCATTTTCT
GTGGTTTTAATGTCATAAAATATCTCCTTATGTGAAATAACTAGATATGCTGGATCAAGCATAACAAACATCCCTTTAGGACATTGCTGAATCTGTATTT
AAAACATAAGGGAARAACTGAGGGAACAGATGGAAAAAGGAACTGGAAATGGAAGTGAATTGACTGCTGCAGCTGCCCTCTGGGCTCCTGCAGATCTTGG
TAATCAAAAGGATTGGGGTTCAACTGCCTTGTGGGAGACAGGAGACAGGGTCTTGGGTCCATTTAAGTTAGAGATACCATAGTAACGTGAGACACTCAAA
GGACTGTGGTCTCAGTAGAGAGGTGACAAATACGTCTTGACCTGTTCTTGCCTGAGGAAAACGTTTCTAAGAATTCTTAACCACAGGCCCTCCCTCATAG
ATTTTCAGTTTCAATTTATACTCTGTGTGGTCTGGCAATTTCCAAGCTGTGAAACTTATTTAAAACAGTCTGATGGTACTCACATAAATCACCAAGTTAA
AAAAATACAAAATAGAATAAAAAATATGAGCATGGAAAATAAATACTATCAAAAGGGCTCAGATTGATTTAAAAAGGAAACACAGACAATTCTTTAAGAC
TGAATGGACTAAAGAACTCATTCATGTAACCAAAAACCATTTCTGCCACAAAAACTATTGAAATTAAAAAAAGAATGACTTAAATAAGAATGGATCTTAT
ACTCCAAAAAGAAAGAAAGAAAAGAAAACAACAACAACAAAGCAGGATATGGGTTAAACAAGAATAGAGGAAATAACTGAAATGCAAGATAATACCTGAA
GAAATTACCTAGAATGCAGCACAGGGTGGCAATGTCAGGCCTTCAGTGTTTCTTCTCTGGATTTTTGAAACAGCTTTCTAACTGGTATTCCTGACACTGY
TCTTATGTGCATCCAGACTATTAGCCTTGGATCCCAGCTCCTGTGATCACATTTTCAAACCTTCACCCTCCATTTTCCACTAATCTTTTATAGACAATAG
CTAATCTTTTACTCAATAGCTACCCCCAGGAAATCCTCCCTGATCCTAAAACTGCATTTGTTCGTTAGGTRCTCCTGGCCTGTGTTCCCATTGTACCTAG
ATCATAACCCAGTTATAATYTTATTACATTGTTATCATTAATGCTTTTTAAAAAGTTTTACTATTCATCACTAGAGTGTAAATTGTTTGTAGACTAGCAA
AGCTCTGTTAACAATTATAGCCCTAATGTCTACCACTTTGTACAATTAGTACTTTGTAAGCACTCAGTAATTGTTCATTGAATGTAAGAATGAATGGTGT
ATGTGAAAGGTGAAGCTATATAGGTCTAATGATGCTTAGATCCTAGGAAAGGGCCTATGGTTCATGTTTCTGACAGGAGATTATTTAGGTAGTTCATTTA
GCCATTTCACATGACCARTGTGTTAATGTCTGAATTTAATCTACTCGTTCTGTGYTGTCTTAAAAGTCAAACTTTTCAGTAAAACGAAACCAAACAAAAA
ATACACCCCTAGCAGTTTGTATTTCAGCTCCCCACCCCCACCAGACAACTTTTTTTAAACATTTTATGTTGGTAGGTACATAGTAGGTCTATATATTAAG
GGTATATGAGATATTTGTTGCAGGCATACAATGTATAATAATCATATCAGGGTAAATGGGGTATCCATCACCCCAAGCATTTATCATTTCTTTGTGTTAC
AGATATTCCCATTATACTCTTCTAGTTATTTTTAAATGTACAATAAATTGTTGGCTGTAGTCACCCTGTTGCACTCTCAAATACTAGATCTTATTCAATA
TATCTAACTATACAAAATTATCTTAAGTTTGAATTATAGAGGCATTTTCACAGTAGCAACCAGTAGGTACTGACTCCATCACTGACAATAGCTATAGGTC
ACACTCYGTGTTTCTGAGTGACAGCCACACATGGTAGATACTCATGTCACCACCTAGTTTATCTTCAAATGTGAAGGACTCCAGTGACACTCACATTTAG
TCCTTTCATCTTTGGTAGTAAAGATGAATCTTTGTCATCCCCAGGACCTCTTCTTTTTGTTTGTTTGGTATATGGAATGAAATGACTCAGGTGCCTTCTT
TCAGTTAATTTAAGTTGTATAGTAAGATCAACCGTAGAATACTATCAGTCATCTTGGAATAATATCTTTATCATCATCCAATTGATGATGCTTCTTCCAG
TTTTGTTTCCTGTTGCTATCACTCCATCTGTCATTAATTGCACTAAGATAATAATTCTCTATTGTGTGGCCTGACATACTGTTTTATTACAATTATTTGG
AAGGTCTTGTTACTACTGCACATTAAAAAACAATTCTAAGGTATGTGAATTGTTTAATATTTAAAAATGTAGTCATTCTTGCTTATTTCCATTCTGATCT
TCGTACAGGAGTTGAAGATGGAATTATACCTAACCGCAGTGATGAGAAATTTGTGGTGAACAGTGTCACATACCCTTTCACTCTCTCCCTGCCCATTTAG
ACCTCCATAATTATTAATAGTTACATTGTGCTTTCTCAATGCAACCTACTGTCCAGTCTCAGCACAGCGAGTACTTCAGATCATTACTACTTGTCAGGTT
TAGCACTCAAGATCCCAGGACTAGCTTTTCTTGTATAATTCCCACTTGTTGTTCACTTTGCACAAAATACCTGTTTACATATCTATGCCCTAAGGTTTGT
CCATACATAGTTATTTCTGAGCTCATATTTTGGATGCTATTTATCCCTCTTCCATGCTGTTCTTTGTAGTGTCTACTACACAAAATTTGTAACGATGTGG
TAACAGTAAACATTTATGAGTGGTTGTCATGATGTAGCAGGTACTGTGTTAAGTACCTGACATTTATTATTTCATTGAATTCTTGTACTAACACCAAGAG
TTAGGGCTCATTGCTCTTCTCATTTTATAGGTGGAGAAACTAGGACAAGGCTAAATAATTGGTAAATGGCAGAGCCTGGGTTTGAATCAAGGCCACCTGA
CTTCTGAGCCCAAGTTGGTAACCTCTGAGGTAGTCCTTAAAGAAGGTTGGGTTAAAACCAAACTGATTGATAGTGAACATACTGCTTTTGCCTGTGTTGG
CACTAGACTAAAATAAAAACCTTTTCCTTTATGTTTTCCCAGATTCCAAACCAACTTGGCCTAACCTTTCAAGTCTCTAAGAAATTTATAGTTTTATATC
TATTAAAAAAATCTTCTGGTAGACTTCATAAATATGACTTAGATTTTTATTAAACTTTTTTGCTCGTATCTTTCTGTATCTCAGAAAACCTTTAATTTTT
GAGACAGTAGCTATTTGTGTAGGCTGTCTTATATGTTCACAGATGGCATTATTTTATCAGTCCTCAAACCATCTGTAGCATCAACTTAGTCTATTCCAAT
TGGTGTCATCTTTCATTTATGCAGGAGTGAGTTATTAAAGTAAAACTTTATATTTGTATAACATTTTGGGTAAATGTTAGAGTAAAACATTGGTTTATTT
TATCACAACAATCCTTTGCAAAGAAAATTTATTTTTTCCAGCTCATCTTGATTTACTTTATATGTAGTCTTCAGAATGAAATTGAATCGAATAACTGTTT
ATTGAGCACAAATTGTTATCCTGAAATGTAGGGATAAGAAATGACCCCTGTGTTCACTGAATTTATAGTCTTGTAGGAAAGACAGTGAAGTAGTAAATTC
CCATTGAAGAAGAAATACAATTATGATTACCATTATGAGAAGGGAAAAGACGGTAGTATGGGAAATGATAGTAAAGGGATTAAGTCTGGTCTRGTGAATC
TAGAAAGGCCTTTCAGAGGAAGAGAGGGTAGGAGTTCGCCAGACGAAGTGTAGCTGATGGGTGGTAGGGAAGAGGAAAATAACCTTCTAGGCAAAGTAAG
CAGCAAATGAGAAAGCCTCCATGTCAGAGAGCTTGGAGTAACTAAGTCATTGAAAGATATGCAGTCTGACTGGAACTTAGAGTAGGAGGAAGAGAGTGAC
ACATGATCTCAGGGGAGACCCAAGAGCTAAACAGGCATCAGTTGTTTTTTAGGACAATTAAAGATTCTGGATTTGAACCTAAGATTAATAGCAAGTCACA
GATGAGTTTAAAGCAGAGGTGTGACATGAACAGATTTGGGCTTTAGGAAAACCACTCAGGCTGCAGTGTGGAGAAYGAGTTGGAAAAAGGAATGGAAGTG
GGGAGGAAAGTTAGGAGGCTGTTTCAATATAATTTGGACTTAGACTATAGTAGTGGCTGTAGAGGTGGAGAGTGGTGGATGGATTACAGAGTCCACCCTG
CTGAGAATGGAAGAGCCAGCCCGTGTGTGTACAAAGCTCTGTCTTGCTCTCCTGCATCGTACTAACAAATGGTCCTTCTGCATGCAAGAGTATGAGCCAG
AGAAAAATGGAACAAAAATGAGGCCTGAAGTTAGTATAGAAGCTCTGTATTATGAAAAGGCATGATCTCACAGGTAGTTAAGGATAATAAAGACAAAAGC
ACTCACTAAATCGAAAGTCCTCAGTCTGATTGTAATCTAGCCAGGATCCTGATCTAAGATTTGCTTTTCATATCAGTGTGTATGATGTCAACAGAATTTT
GAGAGACACCAAGTTTATTCAGTGGCTGATGCCTCCTTTCCCCCAAAACATCAGTTCATTCTTTCATCCACTTGTTTATTTATTCATTCATTCATTTACA
AACACTTTAAATCCTTACTGAGGACTTACTACTCACCAGACATGTTTACTTATCTTAGTTTTTAATACTACAGATGGTCATTATACCTAGTGTGGGCCTT
TGATGTTTATAGGTACTTCATGGACCACATCTCATTGATGATACATTTAGTCCATCAGATTTCCGTTTTAAGTTGAGTCATCACTTAAGGTGTAGCCGTT
GGTAAAATCCCGCAGCACTGATCTCCTATGTATCTGAATGTCATATCCTCTGCACTTTCTATTGCTACTCCCCAATCTTTGGTCAGGGTCAATATGTTTA
ATTTAATTCATTCAAACAGTTGGTCAGTTCAGCCATCACCACCACCACTAGGTCGTCTTGTTGGTCATTGTTTAACTATTATATTAGCCAAGGTAATGCA
AGCTATCAGCAAACAAATTCTCCGTCTAAGTGGCTTAAATACATTAGAAGTTTATTTCTTGCTAATATAAGTTCAATTGGTAACAGATCCGGGAATGGTG
GATTTTCTGCTCCACTGTGGGCTCAGGCTGATGGAGTTACCATGAGGCTCACAAGCTTGCCTAGCTGGCAAAGGGGATTAGGAGAATGTGAAAGCTTATT
CAGGAAGTTTTTATGGGCCAGGGCTAGAGGTGGCTTACATCATTCCCACCCATGCTTCAGAACTGAGGTACATGGCCATACCTAACTACAGGGGAGACTG
GGAAATGTAGTCTTTGTGTTTGCTTGGTGAGCCTGTCTTTGTCAAACCCAGCTAGTGAATTTCCTTGTATGATACCTGCTCTTTGATTCAGATAATAATA
AGAGGCATGGAAGGACCAGATATATTGTTGTAGGACTTTTTCCTTAGTTCAGTTAAAGACAGCGAGGTTGGGGGAGGGTGGTCCTCATCACACAGCCATG
TAAAATTAGGCCCGCAGACAATTCGAAGGAGGAGAAAAATGGAATTTATTGGGCAAAGAGCAATAAAAAGGGAAACAAAGACTCTCCAACAAGACAGAAC
GAGAATCTTGCTAGTATGCTTCCCGCCTCACAGACTGTAATCCCAGGTTCCACCCAGGAGGAGGAGGGGCCAGGCTCCTCCCTGCTGCCAAAGGCGTGAA
CTTCTGTGTCTCCACCCCAGTGCACCCTCCTCTCAATGCATACGCCCATTGGAGTTTTGTCAGGGAGTCCTTCCCACATGACTATCTCAGTATGAAGGAG
GAGTTTCCTTTGTGCCTAATAAGTGGCTGTGTCACATTCCTGGGCATTAGAGTGGGAAATGTCTATATTCTGAATTCCTAACATATCTGATTATTGCTAT
TACTCTTTTCTCACAGGGAAATAAATGCCCGGCTTGATGCTGTATCGGAAGTTCTCCATTCAGAATCTAGTGTGTTTGGTCAGATAGAAAATCATCTACG
TAAATTGCCCGACATAGAGAGGGGACTCTGTAGCATTTATCACAAAAAAGTAAGTGTGATAGAAATCTATTAAAGCTGACAGTGTTCTTCAGCTTGAGGA
CACTATATATTAAAAGAAAACTTTTGAGAGCTCTATTATTATTTTATTTTGTAAAATCTTACAAATAGCATGCGAGAGTAGCTGAATCCTCAGAAATTTT
AATAGTACAAATTAGAGTTATTCCAATTTTTCCATTGTAGAAAATAAAGTTTTCTCATGTGCCTTAACTACAGCAACATAGAGGCCCTTCTGTTATAATA
TAGGGTATTCTCCTGTTTCATCCTGAAAGTACAGACTATTATCAAAATAGGAAATTTATGTAGACTTGTTATTTTAGAAAAAAAAAACCTTATTTCTTTT
GATCTTAGAACAACTTATTGTTTCTTAAACTATGGAAAAATCTGCTAGTATAACATCTGTGGTGGTAGTTAGTATGCAAACAAGCTTGGATATTGAAGGT
GAGTAAAGGATTATTTTGATTTTTATCACTTAAGCTTTACAGTTTGAGTCATAGCAAAAATGAGTCATTTTCCACGGTTAGGGAAATAATTTAGGTTATC
TTCAAAATATGCCTAAAATTAAAAAAATTATTAATATTTTTAAATGATAAAACACTATAAACTATGGTGTTTTACTTTTTGCAGAAGTCATTCACATACC
TTATACTCTTTGTTCCTTATCAAAACTTTATGACATTGAGAAGTTACTATTTTTATTACCTTCTTACTAATAAGAAATTATATCTAATGCTATATATGTG
TGTGTATATATATATGTATATATATAAAATGCTGCAACCACTTGAATTACCTTGGCTAATATGATGATGCTCAGAGGTTTAGTAACTTGCTAGTAACAGA
ATCTGTATTTAGACCCAGGATTCTTGACTGTGTTTTCATTGGCTGTGTCTTTTGGATGCTATCATGTTTGATGTAGTTATCTTGACTGCCATTTTTTTTT
TCTGGTTGCCACTTTTCATAAGCAAATTTTATTTTTCCTCCAAATGTAACTCCTTGCCAATTTAATAATTTTACTGTGTAACCATTTTTATGTGCCTAAA
TTTTTATTTTATTTTGTTTTATTTTGTTTTATTTTATTTTATTTTAATTTTTTATTTTATTTTATTTTATGTTATGTTATGTTATGTTATGTTATGTTAT
GTTATGTTATGTTATTTTATGTTATTTTATGTTATTTTATTTTATTTTATTTTTGAGACAGACTTTTACTCTCGTCACCCAGGCTGGAGTGCAATGGCGT
GATCTCGGCTCACTGCAACCTCTACCTCCCAGGTTTAATCGATTCTTCTGTCTCAGCCTCCTGAGTAGCTGGGGTTACAGGCACCCGCCACTATGCCTGG
CTAATTTTTGTATTTTTAGCAGAGATGGGGTTTCACCACATTGGCCAGGCTGGTATCGAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAA
GTGCTGGGATTACAGGCATGAGCCACTGCGCCCAGCCAATATGCCTAAATTTTAGTTGTGACCAATTTTTCATTAGTGTTTCTATATTTTTCATCCCCTT
TTACCCCCACAGAGTTTTACTAGAATGATAAGTACTGCTTCTAAGAATACTTGAGGTGCCCAAGAGGACTTACGTAACTGTTTTACATGCCTCAGCTAAA
TTTGAAAACAATGCACAAGCCAGAACTGGAAATACTGATCCTGGGGAGAAAGATATATGAGTTGGTTATGGGGCYGGGGAGCCTATTGCATCATTATTGG
GTACACCATGTTATTGTTTTGCTGGCAATAGCAGAAGCTGTGCTGATAGTCGCAAGTTTYATGGTAGACCTTTTTGAAGTTGCAATGTGGGTGCCAAACC
ATTTGTTGTTTTTATCCTTGGCTCAGAGCCTGAAAATTGATGCATATTAACCTTCTTTAAACAACAGATCTCCAGGCACCTTGCCTTAACTACTTCAAAG
GATTCACTGACAGATGTCAGAGATTTGAAAACAGAAGCAAAGCTGAAAATCTTTCAGTGGCTACTCAAATGCACAAAGTCAAAGTGTCCATGGCATCAAG
ATGGCAGCATCAGTTCATGGGGCTGTGATTTCTATTCCACCTTCCTGCCTTTTTGTAAACTTTACTTTGATGTTTGTATTGCACAGGGTTTGTGTATTTA
TAAAAGTTTCAAAACTCTAGTAAAGTCAGAATCTAATTCATTTAAAAAGTGGCCGGTATGCAGTGCAAGAATGACTTATTTTGGAATTTCAAAATATAGT
TTACTAACGGAACTTATAACTCACTTGGAAGCCATTCCTTGTTGCTGTTTTAGTGTTTGTTTACACAAGAATGTACCTAAAGATTAGTTTGAAGGGTGAA
GAGTAGAAATGATCTGGTAACAAACCAACTTCAGGAAAGCTGAATGCTTTAAACCAATGTTTTATAGATTAGTTGGCTGGCTCTGTGTACACACCATCAA
ACATATGTCTGTTCTTTATTATTAGATTACTCTAAATAAGCTTCTACTGTGTACACCACATAGTGGGTGATGTCCTGGGTACAGATTRTGCCAATTATGT
GAAATTCATAAAATGAGAAGGAACACTGGATGTTGTGGGAAGTGGTTAGCATAGGCTGTATGGTTTTGTGGAACGTGCCCTGGAATATGTACCAATAGGT
GTTTTTATGGTGATAATGATAGAGGATCTCAAGTGAGCTGATTCTGGTATAAAATAGACATTTCTTCTTCTTCTTTTTTTTTTTGAAACAAGATCTCACT
GTGTCACCCATGCTGGAATGCAGTGGTGCGACCACAGCTCACTACAGCTTCAGCCTCCAGCCTTCTGAGTAGTTGGGACAACAGGCACGTGCCACCATGC
CCAGCTATTTTTTTTTTTTTTTTTGCATTTTTTTGTAGAGACAAGGTGTTGCCATGTTGCCCAGGCTGGTCTCCAGCTCCTGGGTTCAAGAGATCCTCCC
ACCTTGGACTCCCAGTGTGTTGGGATTACGGGTGTGAGCCACTGTGCTTAGCCTAAAATAAACATTTCTTTTGATGGCAAAATGTTAAATTCAAATCCTG
TAAATAGTGCTAGTCACAGGAACCCATAATAACTTTGCTCAAGAACTGTTTTGTAAGAAATTCTTAAGTAACTGCCGAGGTTGGTGAATACATTTAAAGG
ATAATCGCACTTAGCAAATGTTGAGGAGAGTGTTTTCAGAATTTCCTAGGTGAAAATCTTTTTTTAGCTAAGCAGGAATAAGCCCACAGCTGCATGTTCA
GTGTGGCACTTAAGCTGGGGTCCTTCCCATCCTGTGTCCAGTGAGGCCCTGCCACCATACTTGTGGGTCTGTGCTCAAGCTCTCCCAGTGAGACAGCTGC
TGCCAGAAGTAGGGCTGAACTCCTGGAGAGTGACTTCAGGAGCAGCCACTTACCCATCCTCAGCTTTCTTGTAGCTTCTTTTGAGTTCTTTTGCTTAAGA
AACTTGAGAACAACCTGCTGCCTCTGGCTTTCAACATGATTGTAAAGCACTACTGGTTTTCACCTTGCTTCTGTTGCTGACTTAACTTTACATTGTGTCT
CAGCTTGGAAAATTAATCATTTTCTTGGGATTACAATAATCATAAGAGGTTAATATTCAAAATTATATTGAAAATGTTTGTGTTTGTTTCTTTACTTTTG
TTAAAAGGTATCATTAATTGACTAGTGGCCAAAAAGCTTCCAGGTTTCACATTTATTTAAACAGTCCAGCTTCCTGTATAGGGTGGGGAGGGGGTCTTTC
TGGAGAAAAGTTGCCTCATGATACACTTAGAATTCAACATTTGCTCAGTTGGACCTAACTTCTTATTTTTTTTGCATAATTCACCCTTTGTGGTTAGTAA
TTACCTTTTTGAATACGTTCTTAGCCTTAATCTATTTCATATATACTATCTATTATGTGCCTTATTACTTTACCCCTAAATTGTTTTCTCATCTCAAGAC
AGTTCTTTTCAGCCAACATTTTGTCAGTTTTATTTTCCTGAGCTGTCTTCTAGAGCCTTCTAACTTGATCCAGTCTGGACTGGTTGTCCCCATATCTGTT
GTATAGTACTATCTTAGATTCCCTTTACTTCCCTTGAGTTGAATCTTTTATTTTCTATATTCCATGTCTTCCTCTTCGTTTATTTCTTCATTTTGGTGGA
GTATATATCCTCTAGAACCTTCCTGAGAAAGCACGTTGGAAGTAAATCTTTTGAAACATTSATGTCTGAAAGTGGTTTTTTTGTTGTTGTTATTATTGTT
ACTACCTTCACATTTGATTGGTAGTTTGGATTGGTATAAAATTCTAGGTTTTAGATGACTTCATTATCTTTACTTCCTCTTCTGTTGAATTTTTCATTTC
TACTATTATGCTTTAATTTCCAAGAATTTTTGTTTTCTTGTCCTCCAAATGTTTTTTCTTTTTAAAAGTAGCATCTTGTTTCATGGTTGTAGTATCTTCT
GTTTCATGGAAGATATTATTAATATTTTTAGAAGTTCCCTAACAGGGCAGAATCCATATTGGTACACAAGTCTTTTTGGATTCTTGATGTAAATTGTGTC
TCCGTTTTCCTTAAGGACAGTTTAAAATTCAGATACCTTGAGTCTTTTAAGTCAATTACTGTTTATTTGTTTACTTTATAGCTTCTAACATATTATTGCT
GTTGTCTTCTTTTCTAGTGTGTTTTTTTCCTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAATCTTGCTCTGTTGCCCAGGCAGGAGTGCAGTGGCACG
ATCTCGGCTCACTGCAGTCTCCGCCTTCCAGGCTCAAGCGATTCTCCTGCCTCGCCACCTGAGTCACTGGGATCACAGGCGAGCGCCACCACACCCAGCT
AATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTAGGGCTGGTCTCGAACTCCTGACCTTGTGATCTGCCCGCCTCAGCCTCCCAAAGTGC
TGGGATTACAGGCGTGAGTCACTGCGTCTGGCTGGTTTTATGCCGTTTTAAACAATCTCTTAACTGTCGTTTCAAGATGGAGAGAAATTAGATGCATGTG
TTTAACTCACTGTTTACCAGAAGCTATGATATAAAAATTATTCATGTTCATGTTAAAAAAAAAACTACAGTAGTATGCAGGGGTATGCAGTAAAGGGTAA
AAAGTCTCCCTCTGCCACCCTTCCATACCTACTACCCAGAGGTAACCAGAGTAAGTCACATGTGTTACCTCCTAAAATTTTTATTGATATTTAGATTTTT
TATTTATATAGAATAATGTATATCATTTAAAGAATACAAAGAAAGTGTTACCATGTAAATACATAAAAATATATACATATATGGTATATGATATAAACAT
ACTGTATATATTCAATGTATGTTGAAATTATGGAGTTCTATACTGATGCAAACAGATCTTAATTTTCTTTTAGCTGTTTCGTAGTACTACACTGCATGAG
TTTTTCCCAATAAGATCCCAATTGATGGACATTTATTTCTTATTCATCTTTTTAAATTATAAGCAGCGCTACTATGAATATTCAGACACACATATTTTTC
ACTATTTGTTAGTCTATTTTTAGATAAATTATTTAAAGTGGTGCTTATTCAAAGGGTTATGTGCACTTTTTTATTACGAAGACATGCCAAGTTGTTTTTC
AAAAAGGTTAGTCCTCTGCTAAGAGTATATAAAAGTGTCTTTTTTTTCTTTTACATCCTGTTACATGGTTATTGTGAAGCTTTTAAATCTTTGGCGTTCC
GATAAGTGAAAAATGCTATCCTATATTTCTAATTTGCTTGTCTTTAATTATATATGAAGATAATCGTATACATACTTGCTGTTCTCTTTCTATGAGCTGC
ATATTCAGTTTGTTTAGCCATTGTTCTTTGGATTATTCATCTTTTTCTTGTCAATTTGTAAGAGCCTATTATGTTTGGGAGAATTTTGCCTTGTGTCTGT
TATGCCTTACAGATATTATCCTTCACATTTTTTAACTTGTTTAACCTATTTTTGCTATATGGTTTATGTTATTTTAAAAATGAAAAAATACTAAACAAGT
ATTGGCTTTGTTTTCCTTGSCTAAAATTATTTCCTTTATACCTTTAAAATATTACATAGTATTTAACCTCATTTAGAAAATATCAGTGATATTTTATTTC
AACTAACTAGTTAATAGAAAATTTAAACTTTCCTCAATTCTGATTCTAACTTTTAAAAGTCACTAATTAAACTTCATTTTCATGTATCTTATGCTATTTC
ATAAAAAATATTTCTRTTTTCAGTGTTCTACCCAAGAGTTCTTCTTGATTGTCAAAACTTTATATCACCTAAAGTCAGAATTTCAAGCAATAATACCTGC
TGTTAATTCCCACATTCAGTCAGACTTGCTCYGGACCGTTATTTTAGAAATTCCTGAACTCCTCAGTCCAGTGGAGCATTACTTAAAGATACTCAATGAA
CAAGCTGCCAAGTAAGTACCAGACCCTGAATTCTTCCTTTTCACCAGTCAGTATAATTCAGTGCATTTGCCATTTATTTGTGGATTCTTAATCTTTACTA
GAATAATAATAGAAGTTGCATGAGTACATATATAATTAGAAATGTGATTGGACCCTAAAAGTGTTACATTACAGCTGGAATACTTGCTACCTAAAATTTA
GGCAGTTTACCATCTAGGACAGATATAGTACTCCCCCACATATCAGATGATGGAAAGGTAAAACACAGGCAAAGCCAAGCATTAGTAGTTTATTAACCCC
AAAATGAGTGTCAGATATCTTGTACTCATTTCCTATATTTCCAGAGATGTCTTTATATTTAGAATCTGTAAAAGCAAAGTTATCCTTTAAAAGGTAGTTA
TAACATATTGCACAAAACATTCTATGTAAATGAAATAGGATTTGACATTTACGTTTGTCTTTGTTTTCTGCATAGGCAAACAACAAATAATTTATCTCTT
GGTTTTACCATGGGAATCATGAAGTTAAAAAGCAGAAATGATTTTAGGGTAATTTTGACCATCCTCAGAGAAGTTAAAAAACAAATCCATAAGTGCTTAG
TGACAATTGGAACCACATTTTTCTGACTTCCAGTGCTTTCCTCTTTTATCACACTATGAAAAATAAGCGATAACTGCTGTAATTAATAAACTTCGAATAT
GTATTTGCATGTTTTGATTTTTTAGAGTTGGGGATAAAACTGAATTATTTAAAGACCTTTCTGACYTCCCTTTAATAAAAAAGAGGAAGGATGAAATTCA
AGGTGTTATTGACGAGATCCGAATGCATTTGCAAGAAATACGAAAAATACTAAAAAATCCTTCTGCACAATATGTGACAGTATCAGGACAGGAGGTAATG
TCAAGCTTACTTTTATTTTCTATTAGTTTTACTCTAGTAGAAAAGCTATTTTAAAATGTAAATAGAAATCTGAGGATAGGATATGTATTATCTTTTCAAA
TTTTCTGTTTTATTCCTTGGAAATATGTTGTAATAACTTGTTTTGATAAGAGTTATTTTAATGATAGTGTTTTATTAGTCTCTTGTTAAAGTAATGCAAC
TTAATGTTATATGTATATTAGCGTTATCTGTTGAAATTATATTATAGAAAATCTCAATTACTATGAATAACAACTTATAGAATTCATTTGTTCTAAATCC
AGGAAAGAGAAGTTAGTCTTTGATCCCTACCTTGCAGATGATGAAATGATACAAAGCCTGTGTTGATTGGCTCATACAGTGATTAAACGGTGGGGCTTCC
TCCTAAAGTTAAGAGTATAGCTGCTAAAAAAAACAAGTCTAGAGTGAAAAACTACAGTTAGTGAGTCTTCCATAAAATTATGGTACTGTTTAGAATATGT
TTCTTGGGGGTGTGTACTTCTGTTTAAAGTTTGATAGTAATGTCTGAATGAGAACCAGAAAAGGAAGAAGTATGCCTTTTAAATATGGTTGTGCTTTTCW
GTCCTATTCTGGGTCTTGAGGCATGCTACTCCTATATCTTATGTTTAATAAAATATGAAGATTCAAACTGAGGGAGTTTGAGAAATTCTGTTTTATTAAA
ATACCAAATTAGGAAACTTATGGTTAACTTCTATAGAATGAGCATTTTATTCAGGATTTTCAAAAAATAGATATTTTTCCGGTGGGGAAGAACTTAATTT
CAAATCAAATTTTTAAACATTTACATTGTTTTGTGTGTTTTGCCAAAAGATTGTTGAATGTATAGTTATTTGAAATAAGAAGCTCTACATTAATTGAGAA
TGTTCATTAAAGTGTTTATTAGTCTTGTGTTATTTCATAGATTTACCCATTAAGTCAACCTGTCTTCTGAACTAAAATTATTAAGATATTATACTCAGCA
GACATTCACAATGCCACATAGAGCTCTATATAACAGAAAAATGATTTGACAATATTTATACTTATGTTTATTGTCTGAACAGACAAATACCAAATATTTA
ATTGTAACTCTTGTTTTTGCTATGCAGTCATGACCTTGCAAAGTGAAAACTGGCCTAAAGGCCACTATTCTGGCTATTGGTTTAAAATCAGATGATCAAC
ACTGCTTTAGTTACTTTAATAAAAGATATGTAGTAGAAAAGTGGCTGCCTTTTCTACTACATTTTTTTTTTTTTTTTTACAGTGGAGAAAGTAAGTGTAA
GTGCCARTTCTACCATTTACATGCTATACGACCATGGAAGAGTTACCTCTGTTGTAAGACTATTATGGAGACCAATTAAGTTAAAATACATGAAAGTGCT
TTTTAATCATAAAGTGCTATGCTTATACTACTCATATAATAACAATAATAGTAATACAGTTACCATTTATCAAGTACTTGTTAAAGTCTAGAATGGTGGT
AGGTGCCTACATATATTATTTAATTCTTATAACAATGCCCAAAAGGGTCATTCCAGTTTGTTGGAAAGAAAACCAAGGTTTGGAGTAGTTAGATAAGTTA
CCCAAGGTCCGAAGCACAAATCCAGCCCACTTCTGCCAGACTCTAGTCTTTCTATTATATTAATATCAGTATTTCATTCCATTTATTAATTCCAAATATT
AACACAAAGATTCTCAACACCATGGATTTTATCTGACAAAATCTAGATATTTTAGAGCTCATAGTATTCAAAATAAAATAAAGTTTAAGTCTTGGAAAGA
CGGTCCTGGATTCATTTGGCAGTTTTTGAGTAAAAATGAGAGAAAATTATCAGGAATTCATAAGAGATAGTAGACTGGTTATTCATTATGAGTGTGGCAT
TGAGGTTTAAAAAGTACAGCATGGAGATCAACTAATTGTATTARAAATTATTAGGAAGATCAGTTATCTTTTATCTTTACTAGGTTAAGTTGATGAATTT
GAGGAACAAAGTTTCTTCGTTATTGATAGTAGGATGGATTCTTGTTGGTTTTTAATAATCTTCTCTAGGATTTTAGTAGAATGTTAATACAAAATTGCTT
TCATAGAACCTTTTGAAAAAAATAATTCTATTCATTGGAACACCAAAGGAATTCTAAATATTCAAAATTGTTTTAATCAAATTCTGTTTTAAAAACGACT
ACAGTGGCTCACACCTGTAATCCCAACACTTTGGGAAGCCAAGGCAGGAGGATCGCTTGAGCTCCGGAGTTCAAGACCTGCTTGGGCAACATAGCGAGAC
ACCATCCCTAAAATATAAAATTAGCCAGGCATAGTGGAATGTGTCTATGCTCCCTGCTACTCGGGAGACTAAGGTAGAGAATCACTTGAGCCTGACAGGC
TGAAGTTGCTGTGACCTGTGATCATGCCACTGTACTCCAGCCTGGGCAACAGAGAGAAACCCTGTCTCAAAAAAAAAAAAAAAGGACTAATGCTATTCTC
AAATTATTTAGAGGTACTTAAAGGACTAGGAACAGACTCCATCAAATATGATTATCTCTGAGAAGTGAGGGAGGCAGGGTGGAAAACCCTTATTTTACAT
TTATTGGTGCTTTTTTATGCCTTTCTGTTCTGACATTTTATTTCTATACATATGTCTTTTGTAATAACCTTAAAAGACCCATTATAGCAGCCCCATGTGA
GCCACGTGATGGTATGTGGATCTTGTTATTTTTACTAAAATTAGATAAATGTGCCAGTCTGTAAATCCAGTGTTATTTTGACAACATTCATTTTTCACCT
CTGTTCCCAGCTTTTATATACTCATTAGAATACTAAAGCCTTATTGTATGATTCCTTATTGTCTCTATGTAAATATTGGCTTAGAAGAAATTAATGAAAG
CAGAAACTTTATATTTTTATGTAATAATGTACATACATTATTATGTATTATGTAATGAACGTATGTATGAATGTWTGTGTGTATGTATGAAAGTATGTAT
GTATGTAATGAAAGCAGAAGTTTACATAGTTTACTGCTTCTGTTGCAGTCTCTATCATATTTTATGAATATATACCAATTATCTCTTAACCTTGAATGAA
ATGTGGAATGGAAATGGGGCAATGTTTACATTGGGGGCAGTACTGATAAGTATTATTATTATTACTAAGGGAAAAAGAAAAATATTGGAAAAAATCTTTA
GAAAGGGTTTTATTAATTGACAGCATGCAGCATATCCAAATACCTGTTTACTGGTTTAAAATGTGGAAAATAATCTGTTACATCTGAGTACTTTTTACTT
RGATTTAAAATATAGTAAAACATCCTTAAATTATTAAGAGAATGAAATTGGGGGATTGGAGGAATGGGTTAAGTGTGGTGCTGGAGAAAACAGCAGTTTC
TGGAGTGAGTAAGAGTTTCGGCAAGCCTAGCAACGTTGCCAGCCCAGTGATACCACAGGCTATATAGATTGAATAACAATATCTGGCATTTAACTAAGAC
AGAATTGGGTCCCAGGAGAAGAATATGAGAGATTGCTTATAATGAATCAAGGCAGACTACTCACATCAACACCTAATAAACAAAGTCAGGAACTGTAGAC
CAGGAAAAGTTGCTATGAGAGCTTTCTAAGATTRCTGGAATGTATGCTATTTTTCTATGTTAGTTTTCTTTTCTTTAGTAATAAAATTCTTAAACCAAAG
GCCTACCTGTTCATTCTTAGAATGTTTGAAAAAAAGAATAGCTAGAGAAAAATGTTGTATCTTATTGTCAGTATAGAAGAGAAGAAAAGCTAGCAGAAGA
CAACTCTGAGGAGGAACCCAGGCTGAAACTCTGAGGATTGCTGAGTGAGGAAAAGGGACCCTCAGGATCAGTCCAAGGACCAGACCCTGTCTGAGGATGT
GACCAGAGGGGTTTAACTTGTGCCTTCCTGACTCTCGCTGTTTTCCCCCCTGCAGTGGCACTGTATTGGCTCTGTGTATGGTAGCCCGCTGTAGTGATTG
TGCTCCTAGAGTAGAACTTTTGATACTTACAGATTGAATAGTTGTGGTCCAAACTGTTCCCAAGGTGCTCCTTGTTCAAAATGTCCACCATCCCTTAGCC
AGTAACTCCTGTGGAGCTCTGTGTTAGTCATTATGCATCTGGATGTGTCCTTCCCAAATATCAGTGATCCAATCAGTCTGTTCCTGAATTTTGCTGTTTG
CCTTTAGCATAGCTCTTTCCAGAATTATTTTATAAAAAGGCCAACATTTCTTTTAGTAGAACACTCTAAAACAGCAGAATTATTTAGCACAGTTTAAAAG
TGATTTTATCTTTCCCATTAGTGATATTTTTTGTGGTTTTTCAAAAGTTACTTTTTGTAGCCAAAGGAGGCTTGTTAGACTCTTCACTCTTAACTATTTA
AGTGGGTGTGGCAGATTTGAAACTGTAGTAATTCTCTATAAATGAGGGCATCACTAGTTCAAAACWGTTTTCTAATGATGAAATTTTTTAGATTAGCCAC
TAATTCTTAATATAATTAATGTAAAAGCTACAGTGTTTCTATTAATGGGAAAAATAAACTCAAGAACCATGTTGATACTGTTATTAATATGAACATTATA
AATACCTGAAGGTACGTGCATATAATAAAACTGATAAATGTGAAAAAGTTCTCATAGCTCTCTCAAGATGACAACCACACAGTTTCTGGGTTCCATTCTG
CTCAAAATGGGTTTTTATAAATTTATTTAAATGAATCATTGAATTAGTTCTTTTGTTTTTCTTTTTGTTTTTTATTAAGACAGATTCTTGCTCTGTCGTC
CAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCACCTCCTGGATTCAAGTGATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGATTACA
AGTGCCTGCCACCACGCCTGGCTAATTTTTGTATTATTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTAAACTCCTGACCTCAGGTAATC
TGTCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATCGCGCCCGGCCTGAATTTGGTTGCAATAATACAGAAATGCAAGCACACTGAGA
ARAGATAATACATAACTAAGGCTAAAAATGAATGGTGTGATAGAACTTCACTTGCTTCCTGGCTGATTTCAGAGAACCTTATTTGCAGAGCACAGTTGGA
TCTATAAATATATTATGAATGTAAATTAAAATGACAGGAGATATTATCTCACCCCAGTTAAAATGGCTTTTATCCAAAAGACAGGCAATAACAAATGTTG
ATGAGGATGTGGAGAAAAGGGAACTCTTGTACACTGTTGGTGGGAATGTAAATTAATACTACCACTACCACTGTGGAGAACAGTTTGGAGGTCCCTCAAA
AAAAAAAAAAAAATAGAGCTACCATATGATCCAGCAATCCCACTGCTAGGTATATATCCCAAAGAAAGGTAATTAGTATATTAAGGAGATATCTGCACTG
CAGTGTTTATTGCAGCACTATTCACAACAGCTAAGATTTGGAAACAAACTAAGTGTCCATCAACAGACAAATGGGTAAAGAAGCTGTAGTATGTAATCAC
AACAGAGTACTATACAGCCATAAAAAAGAATGAGATCCTGTAATTTGCAACAACATGGATGGATTATGGAGGTCATTATGTTAAGGGAAATAAGCCAGGT
GCAGAAAGACAAACTTKGCGTGTTGTCACTTACTTGTGGGAGCTAAAAATTAAAACAGTTGAACTCACGGAGATACAGAATAGAATGATGGTTACCAGAA
ACTGGTAGTGGTAGTGGGGGTGGAGGGGATGAGGGGATGGTTAATGGATACAAAAAAACCAGAAAGAATGAATAAAACCTAGTATTGATAACATGGTAAT
TATAATCAATAATAATTTAATTGTACATTTTTAAATAAAAGAGTATAACTGGATTATTTGTAGCACAAAAGATAAATGCTTGAGGAGATGGATACCCCAT
TTACCCTGATGTGATTATTACGCATTGTATGTCTGTATCAAACTATCTCATGTAACCAATAAATATATACAACTACCATGTACCCACAAAAATAAAAAAA
AGATACTATGGTTCATATAAGTGAAAACTTGAAGAAAACTCTCATATGGGAAGAAACACTTTCTTCTCTTTATAGTTAGGGAAGTCAGTGCTTTCCTGTG
AAGAGACTTTTACAGGATTTCAGTTCCTTGGATAAAAACTATSTAAAAATCCTCTCTGTTCAGAATAGGGGAGGATCATATCTCAGACTGGTGTAACATC
TAGTAATTGAATATTTTAAAATTTTATATACTTAGAAATTCAATCTTTTATGAGTAGTAGAATTCTTAAGATAAGTGAGTATTAATAAATGAAAGAGGTG
GTTAATGAAAAAGCCATCAGAGTATACATATAACAATATTAGAAACATGAAAGCCCAAGTATTACAAATGTTTTATGCAATACAAATTGTACTTTGTCCC
AAGTAGTGAACCCTTAATTAATAATATTTGTCTGTATTGACATATATACAGTCTGAAAAACAATACTGGACTTATCTTGAGTGTTTAACAATATATAATA
AATTGTTATACCACAATTTGGGGAAAGCTTTAAAATATATAATGGTTACTTATCTAAATCTCTGTTTATTTGTATTTGTTTTAGTTTATGATAGAAATAA
AGAACTCTGCTGTATCTTGTATACCAACTGATTGGGTAAAGGTTGGAAGGTAGGTTTAAAATAAATTTTTTTCTTACAATGCATTATGATGACATCTGTA
TATCTATGTGCTACTGGGCTCATCGTAGCCACATTCTTGAAATTAAAAGCAATTCTTTTTACTTATTTTTTCTGATGGAACTTTTTTTTTTTTTGGAGGG
GATGTAGTCTTGCTCTGTCACCCAGGCTGGAGTGTAGTGGTATGATCTCAGCTCACTGCAACCTCCGCCTCCCTGATTCAAGGGATTCTTGTGCCTCAGC
CTCCCGAGTAGCTGGGACCACAGGAGTACACTACAACCCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCCTGTTGGCCAGGCTGGTCTC
AAACTCCTGACCTCAGGTGATTCACCCACTTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCTGCCCTTTCTTATGGAACTTTTAA
CCAAGGAGATCATTACTTTTAACTCTTTATCATTGATTTTAAAACATTTTTCAAAAAGGTATCTTATTTTTACACATTTATTTTCTTGTTTTGTAAATTA
TTGCTTTATTTTTATAGCACAGGGTACACATGGAAGAAAAGTTGAGGAACCTTCAATTGTAAGATTAATTTAGTTGCTTTTACTTCATGGTGAATGCTAT
GCCTGACATTTCTTTTAAGAAGCTGCAATTTCATTTTCTACCTCACTGAGCTCCACATTTCTTTATTCTTAATGCCTTCCTTGGCACATAATTATTATAA
TTCTTTACATCTTTTTTTTTGTAACCCAGATCATGAATTGATGAAAATAAATTAATCAAAAACAAATTTAGAGAACCACATTGGGACTCTGCCTTTTCTC
CTTGGTTAGATACTAATCTCCARGAGAGGACTCATTTAAAGACAAGGTATTAGGGAAGTATATACAGCTGTGAATAGTATCTTTTGTGGAATATTTATTA
GTACTGTTATCAATAAGTTGCACAAACATGAGATGAAAATGGTACATTTGCCTCAGATGGTAGAAGAGGGACCGTAGCTGGTAATAGTGTACAGACATTC
TGTTTTAAGGATGAAGGGAAATTTTGACATAATGTGTGAATGATTGTTACTTTATTACATATATAATATATATAATACATATATACAAAAAATATAATAC
AAATATATATATATATATATATWTWTTTTTTTTCTTTTTTTTAAGACAGAGTCTCTTTTCGTCAGCCAGGCTGGAGTGTAGTGGCGCAATCCCGGTCTAC
TGCAACCTCCGCCTCCCGGGTTCAAATGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCTGCCACCACAGACGGCTTTTTTTTGTAT
TTTAGTAGAGATGGCGTTTCGCCATTTGGCCAGGCTGGTCTCGAACTCAAGTGATCCACCTGCCTTGGCCTCCCAGTAATTTATTATTTTAACTTAAAAA
GAGAATGTTTATTATCCATTGCCACATCATCAGATGTTGAAGGCACAGGCATGGATTTCTTTCATTCTAATACCATCTTTTTTTTTTTAATGCTACCAGA
AGCTGTACTTTAGATTTGAGTATTGTTGATTCTAGGGGATGTTTTCTCTTTTTGCAGGCATTCTTTCCTTTATCTGTTTTTGTCCTGTACCACAGCTAAT
GAATGAAATATGCATTATGAAGAGAAATTACCAAAAACCATGTTAGTCTATCTACAACAATAACTGAAATATCTCCCTAAATGAGTTTTTCCAGAAGATA
AAGCTTTGATAAATATGTTGGCCTAGAAGTCTAGATGATATAATTTTAAAGCAACAAGCAAGGCATAAATCAGTGACACCATCTTTCACATGTTCAGTAA
TGTAAATTGAATCAACAGATAAGATAGTTAGGGAAAGGTTCATTGCAGTTTATCTGTTTGGCCATAGGGTTTTGACAGAGATGAGTTAGAACATCAGGAG
TCAGATTTTGAATGCAAAAGGCCCACCCCTAATCCAGCAACTTGGCAAATTAAAGTGCAACAGTGTATTACAAGAGTTGGGGAGCAAAAAAAGACCAGAC
ACCTTGACCTTTTCTTCTTGAAGATTTATCATCATAATGACAGCATTAACAGCAGTGGCAACCGCCACCACCACCACCACCACAACCACAATACTTACAG
GCGCTCTCCTAAGTTTTATTTGTTTGATCCTGTCAACAGTACCTATGAGGTAGATATTATTATCCCCGTTTCATAGATGAGAAAAGTGATATTTAGAGAA
GGTCTGTTTCATTTGCCCCAAATCACATAGCTAGTAAGTAAGTGGCAGGACTGGAGCCTCGACCTGGCTTCTCTGACTGGGGACCCATGGCATCCCCTGT
TGTGCTCTAGCTACTGAACAGAGAGCAGAGATGATACTCAAGCCCAGATGGGGAGCATGTGGTATTTCTTCCTATCCAGAGCCACTGTGAATCTGCACAG
ATCACAGTATCCTGAAGATCTTTCTTAATTGCCTCCTGACTTAATGCATTGCTTTCTTTGTAATGCTTTTTTATTTTTCTTTTTTCACTGAAATACTTCA
ATCATACAGAAAAGCCCATAAAACAAAGAATAATACAACCTTCACCAATGTATCTACCTCCCAGCTTTGTCTTATTTTCTTTTACCATATATGCTTCTGA
TCTTTTTTAAAGAGCATTTTCACTTAGTATAATTTAAAGAAAAAAGCTTTCTGCCTATGAAATAAAAGTTCTAAACTCTGACTTTGCTATATGGGTATAA
TTTGAAATGCATTTTAAAAGGCTTCCTGAGCAAAGTCATATTCTTTGGAATCAGTAGAGTTCAGGACCATAATTAAAGAATGTTCTTCTGTTTACAGCTG
TTTACTTTCAAGGTTCATCAGAGAATAATAAATAACTAATTTTCTAAAGTGATGGCATTTCGGATTTTTTACTAACCTTGATTTCCTATTTGTGTTCTTT
CCCCTCTTCTAGCACAAAAGCTGTGAGCCGCTTTCACTCTCCTTTTATTGTAGAAAATTACAGACATCTGAATCAGCTCCGGGAGCAGCTAGTCCTTGAC
TGCAGTGCTGAATGGCTTGATTTTCTAGAGTGAGTTTACAATGAAAAAATATAATCTGACTTTTTGCTATCAGAAACAGACTGGAAAAATCTTTCCATCA
AAAAGAAAATAGAGATTACAGCTCATGACCCACCATAAAATAGTTGAGTACATGTGTTCTCTGATTTTATTTCTTTTTTTTTTTTTTTACTTTTTTTTTT
TTGATACTGAGTCTTGCTTTGTCACCGAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCATCCTCCACCTCTCAGGTTCAAGCAATTCTTTGTGCC
TCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCACCACTACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTCGCCATGTTGGCCAGGCTG
ATGTTGTACTCCTGACCTCAAGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCTTGAACCACTGCACCCAGCCCGAAAGAAATTCTTA
AAATCTACTGAAAGTTAAGATGACCCKCTATACACCCTTCACCTAGGTTCATCACATGTTAGCATTTGCCACATTTGCTTTTTATCTCTCATGTATTTTT
TTTCCTGAAACATTTGGAAGTAAGTTTTAGGCATTGTAACACTTTACCCCTAAATACTTAAGCCTACGTCTTTAAAAATAAGGACATTCTACTATATAAT
CTTAACACCATTTATTATTACATCTAAAAAAAATTAACATTAATTTTTTTTTTTTTTTTTTGAGGTGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAG
TGGCGCAATCTTGGCTCACTGCAAGCTCTGCCTCCCGAGTTCTCCCACCTCAGTCATTCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCAC
ACCGCCACGCCCTGCTAATTTTTTTTTTTTGTATTTTTAATAGAGACGGGGTTTCACCGTGTTAGCCAAGATTATCTCAATCTCCTGACCTTGTGATGCG
CCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGYGCCGGCCAAAAAATTAACATTAATTTATGAATATATTTGAATTTCTTGAATT
TTCCCAATGTCCCCCCGCCACCGGCTTTAGATTTTAAAATGAAAGACCTAATCAACTTTTACATGTTGCATTTGGTAATTATGCTTCTTTAGTCTGTTTG
AACCTAGAATTATCTGCCACGTTTTTTGTTATTTTACCATGGTATTTTTTGAAGAGTCCTTGCCATTGTCTCAAAGAATGCCTTATATTCTGGATTTATT
GATAGTCATGTGTTCATATTGGCAGTTTTAAGTCATGGCATGCTGGCCAATGTTTAACAGCCAGCTCTTTGGAAGGACAGTCATGTTTGTAGAGTTTGCT
GATTTCTGTAGTGTAAACACTCCCACCAGGGCTGATGTCAAGCTACCACTGGACTGGAGTTGGGAAGAGATGTACACAGTTGATTTTCATGAGTCCATAG
GAACCAGCTCTAGACCACCACTGGTCTGAGTACTTTATATATAAACTCAGTATTTTTCACGTGACCCCTGTAAGGCTAAGTATCATACCCAACTTACAAA
TGAATAAAGTGAGATGCAGAAATAAGAAGTTAATCTTCCAAGGGTAAGGGTTGGAGCCCAGATTCAGCCCCAGCCATCCGGCAGCCAGATGTCTGGCCTT
TGCCAGCCTGCCCATGGTGAGCCTGCAGGCATCAGTCTAAATACATCTGTTAGTCTCTCACTTTAAAACCATAAACAGGCCAGGCGCAGTGGCTCACACC
TGTAATCCCAGCAGTTTGGGAGGCTGAGGTGGGCAGATCACTTGAGGCCAAGAATTCAAGACCAGCCTGGCCAAGATGGTGAAACCCTGTTTCTACTAAA
AATACAAAAATTAGCCGGGTGTGGTGGCATGTACCTGTAATCCCACGTAACTCAGTAAGCTAATGCACGAGAATCACTTGAACCGGGGAGGCGGAGGTTG
CAGTGAGCCGAGATTGCGCCTCTGCACTCCAGCCTGGGCAACAGAGCGTGACTGTCTCAAATAAATAAATAAAACCTTAAACAGTAAAAATTCAGTGACG
TCCTTCAGGGAGCTTTATTGTATTTCAAGTAATCAACCCGACAAATGAAAAAAACTAAAAACAAAAAAGATATGTGAGAATTTTTACAAGCTAGTAAGTT
GGTATCAGTCTTTTGCCCTGAGGAGTCTTGAATTGTAAGACCAGGAAGAGATTCCAATTTACTTAAATCTTTTGAGACTAGCTTGACTCAGAGTCTTGAA
TGGAGGGATGGAAATTTTGTCTATTCAGTTTCTTTTCTATTTCACTTTTAATTTTCTATTTTAAGGGTTTTCAGGGCCTTTGAGTGTTTCAGTTGTCCTG
GCTTTTTCCTTAGTATTACCACTGAGAATGTGAAAACTGAACTAAAATTACACCTTTCAGTCTTCAAGGACTCACATTCTAGAAGGGTCCTGGGATTTGG
TKAGGTAATTTCATGTTCATTCTATTCAGACCTTACATAATTTCATAGATCTGGCTTCTATTCTCTTGTCATTATTCCAGACTAAAGAAAGTTGAGGTCT
CCCAGGCTAATCATCCTGGTGTTATTCTTGATTCTTTCTTCCTTTTGGTCCCTTTATCTGTTACCAAGTTCTTTTTTTTTTTYTTTTCCTCGCTCTGCCA
CCCAGGCTGGAGTGCAGTGATACAATCATGACTCATTGCAATCTCTACCTCCCCAGCTCAAGCAATCCTTCCACCTCAGCCCCCTAGTAGCTGGGACCAC
AGGCATGCAGTGCCACACCTGGCTAATTTTTAAGTGTTTTTGTAGAGACAGGGTTTCTCTATGTTCCCCAGCATAATCTTGAACTCCTGGGCTATGTCCA
ACCTGTTATCAAATTTCTGATTGTCTTTTTCCCCCTTTGAGGTGTTTCTTTGATTTGTCCCTTCTTCTGTTGTCTTCTAACAGCCCATTATTACCTCAAA
CCATTCTTACTGTATTGGCCTTCTGACTGGGCCTTCTACTAGGTTGACCCAGGAGTTTTTATTATATTATCCCTAGGCTGTAATTGAGAGTTGCGAAGAG
TGAGCTAACAGTAAATATAACATCATAGAAGCATATGATACTCTAATTACTAAGTGAAGAAAATCATGTAAAGTAAAAGTATGATACAGTTTTATATGTG
TATATTTACATAATGCACAGCATACAGACTTTTATATTTTTAAAGATTATATATGCTTATTATTGTATTACTAATATGCTTATTGGCCATGTGTATATCT
TTGGAGAAATATCTATTCCTATATACATATGAACATACATACATATATATATGTATATGTAGACTCAAAATGTTAACTGATTATTTCTGGATGGTGAGGT
TACTGGTGATTTTAATTTCTTTACTTTGCAAATGCAGTTGGCTCTTGATATCTGTGGGTTCTGCATCCATGGATTTAACCAACTGCAGATTGAAAATATT
CAAGGAATGAAAAGGATGGTAGCATCTATACTGAACACATACAGGCTTTTTTTTCCCCTTGTTATTATTTCTGAAACAGTACAGTATAACTGCTATTTAT
TTATAGCATTTACATTGTATTATGTGTTATAAGTAATCTAGAGATATTTAAAGTCTATGGGAGGATGTACATAGGTTATATACAAGTACTTTACCATTTT
ATGTAAGGGATTTGAGCATGTTGGATTTTAGCATCTGCAGGGGGTCCTAGAACCAATCCCCTATGGATACTGAGGGATGACTGAGCATGATTTCAGAAGT
TCCTATAATGTACATATATTACTTTCAGAATAAGAAAAGTGTATTAAAGTTTTTATCCAGAAAAAGAATATTGGCTGAAATTTAGCTAGAGCATTTTGCA
ACTAGAGCCCCCACTTGAGAGCAGCATTGATTGTTATGTACACTATTTATTGASGTACCAGATGGTGTGACTATGATATCATTAAAAAAATGATTAACCT
CAATGAACCTGACATCAGAGGATTGAATACCAGCATTACAAATGTATTTGTCACTTACTGAGGTACTAACTGTTGTGCATTAGTCACATTACTTTTGATC
AAAATGTTGTCAGAAATTAAGGCTGTAGACACTGCTGTGGATTAAATCCTCCCTTGAAACATGTCTCTCTTTTTTTTGTTCTAGARGATGGACTGTGTAT
ATTCAGTAATCTTCTCAATTGCAAATTATTTAAAAATTGAATTATATCATAAAAAATTATAGAAATTCATTTGCAAATATTTTCAATTTTTATTAACTTC
AGATATCATTGAGCAACACTTCATGGTAAACTTCTCTAGTCATCATAACACTATAACAGCTTTAGAACCAAAGTGTCTTCATCTGCTTCCTATGGACCCA
GCAATATCTTTTGGCCAGAGGTTAAATCATAGTGCCTTGACTTCATCCTTAAGTTGGTTGGTAGCATAGTGATAAAATTGCTTGTTGTTATGCTATAAAC
CCAGTCTACCAGATTGTTATCTGCATTGACCATTTTTCAGCTTACCATTTTTCTAAGTATGGATAATCTCTTTGAAGTTTGGCAAAGTGTATCAAATGGA
CAAAGACCAAGATGTCAAACAAGCCTTCTTTAAGAGTTATGATGTTATAGGTTTATGATAGTTTTTCATTTTATTCATGTCTTATTTATACCATTGACAT
CAGAAAGAGCATTGTTGTTCATATCAAAATAATTACTTATCCCTTCTTGCTTTTTTGTTGTTTTAACTGAAATGGGACCCACTAAGAGCTGTGTTAACTC
ATTTCCATCTTAAGAATTAGATCATCAGAGATAGCTACCCTCAAGTCAAGCTGCTGAGTAGTAGCAAATTAGAGTCTTGAGGACCTGGGCAGGACCTGAG
AAGGAAGGAAAGAGTGAGAAAAAAATTGACCATTTGTTACTGCTAAAGCTTTGATACTCATGTCCAGAGAGGCAAGGGCAGAAATACCAAATATGGCTGC
TTTCTGGCAAAAGAGAGGGTGCCTAGATAGGAGGACCGGATGGGTCAGTAATTAGAACAAAGACAGCATACGCCACAGTGCAAGAGGGCAACAAGTGGTC
AGATCTAAAGTCAGAGCCATGGCTGACGCAGTGGCTCATGCCTGTAATCCCAGCACTTTCGGAGACTGAGACAGGTGGACTGCTTGAGGCCAGGAATTCG
AGACTAGCCTGGCCAACATGGGGAAACCCCGTCTCTACTAAAAGTACAAAAATTTGCTGGGTGTGGTGGTGCATGCCTATAATCCCAGCTACTCTGGAGG
CTGAGGCAGGAGAATCGCTGGAATCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCATGCCACTACACTCCAGCCTCGGCGAAAGAGCGAGACTACTACG
TCGCAAAAAAAAAAAAAAAAAAAAAAAAAARGGAAAWAAATAAATAAATAAATAAAGTCGAAGCCAGAGCAGGAATAACAAGGCAAAGTCAGTGGGCACC
CACTCGGGTTTAGGGTGACTCTTAACTCTAAACACCCAGGGCAGTTAGGTCAATGCAACATGTGGCATCTTCAAAACTAGAGAGCATTTTATTTTGTTTT
ATTTTATTAAATGTTTGTGGGTATATAGTAGGTGTATATATTTATGGGGTACGTGAGATATTTTGATACAGGCATGCAATGTGAAATAAGCATATCACGG
AGAATGGGGTATCCATGCCCTCAAGCAGTTATCCTTAGAGTTACAAACAATCCAATTACACTCTTTAAGCCACTCCAAAATACACAATTAAGCTATTGAC
TATAGTAATCCTATTGTGCTATCAAATAGTAGGTCTTATTCATTCTTTCTATTTTTTTGGACCCATTAGCCATCCCCACTTCCCTCCACATTTTAAAGTG
GTGACTGAGGGCTGCCTGTCTGATGCTAGGGGCCTGTCCGTTTTGTGTTTGTGGTTTTGCACAGATTCTAACACTGTTGGTGGGAATCGTATTATTTGTT
TTGATGAACTTTAATTCAGTGAGAARTAGATAAGTTATATTCATTATGTTCTRTCTACTCAGTAAATAAGTATACAGTATACTGTGAATATATTTTTCGG
TTCACAAAAAACAGAAATAAAGCTGGATAGTTAAAATGTTGTTTCTAGTATCTGGAAAAAGTCATTTATGTACAATACCTTATTCTAATAATACTAGAAA
TATCAGAAGTTACAGTTTTAAAAAGTCATAATGATTATATAGGAATAGTCCATCATTCTAGTAGTGTAATCTGGATATCTTTTTCAAGCTAGGAAGCACT
GTAGAAATCTTTGGATTTCAGTAGTAAACAGACTGTCTCAACATTTCTGAAACCCACACTACAATAGAGAAATGTTTTTAAAGAGAGGCATTTATTGTCC
GTTTGTTGTCTTTTTCACGTTTTTGGATCATCTTTAAAAGGTCGTACAGAATATCTGAGCTACACTATTTTTTAAATGTAGAAAGTAGGCACCTTCTGAT
CCGTGGTCAGACGCGTTACCCATTGCGCTACTGGCCACATGAAAAAATGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATA
CCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGG
GACTGTAACCTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTA
TATACCCATGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGACTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCAT
TATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAAGAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGC
CATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCCTTCTCAGTAAACTATCACAAGAACAAAAAACCAAACACCAC
ATGTTCTTACTCACAGGTGGGAATTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAAGGGGG
GAGGGATAACATTGGGAGATATACCTAACGCTAGATGACGAGTTAGTGGGTGCAGCRCACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAT
TGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATTAATTAATTAATTAAAAAATAAATTAAAAAAAAGTAGGCACCTTATTTCTATTTTATTTCT
ATGTATGCACAAAAATAAGGCAAGATGCTAGTAGGAGTCTGTAAAATTGCACTGTGAAGTAGGGTGATAGGAAGAGCACAGTTTGAGTCTAGGCTCAATT
GCTTTAGGCTAACTGCTTTTTCTCTCTGAACTTCATTTGTAAAACTTAGGTAATGAAGACCTACCTTTATGGTTGTTGTAAAGAATATGTAGTGGCTTCT
TCGTAGTCTTTGATTAGTAAATGTTTGTTTTCCTTTCAGCTTTCCTTTTGGACCTATTTACAGTTAGTTTATTACATTTTCTCATTTTCCAGTCTTTGAA
GAATTTGTGACTTATCACCACCTACTTAAACATTTTTTGTGCCTCTTAATCTCTCTTGGAGGCAGAGTAGTTACTATAAAGATTTAAGCTCAGCTATATA
TTTCCTGTTACTTAAAAAGATACTTTATACTTGGCCATTCTTAAAAATTAAGTTTTGGGTCCTTTTTGTAGTTTAATTATGTACACTTCACACATCCACA
ATTGATCACTACATACAGATGTCCACAATTTATACGACACTACACACATTGACATAAAATACTATGATATGAGATAATGGGATAATTTAAGAAAAAAGAA
AAAAGTATTCATGTATGTTTTCTGAATAAGTTTTTCATTAAAAGCCATTTAGGCTTTTAGATCAATAAATATTATAGTTTTAAGTAGCCAGAGACTTGAG
GCAATGACCATTATCTTTTAAAAAACAAATCTGAAATTTAGTTTTTATATGCATTATTAATAAGATAACTGAAGATAAGTGAAAAAAGTACCTTTTCCCC
TTGTCTTCAATAAATATTTATTACAGTGTTTATTTTATGCCAACATTATAAACTAGATGTTAGGTCTACAATGGGGTTAATGAGATGAGATAGACAACCT
GCTTTCAAGAAGCTTCCAGTTTAGTGTGAGAGAAAGGTGTTGAAACTGTTATTCCGGATTTGGAGGATGCTGTGAAGGAGAAGCACAAGGGAAGCTGATC
CACATGAATATTTCATGATGTTATTGAAGCAAAATGAAAATGACTGCTATATTTATGTTATATCTTAAGTTCAAATGTCAGGGTCAGATGAAATCTGTGA
TATATTCTTAATGGTTGATATCTTTACATAGAAGTTGTTTTAAATTTATATACAAAACAGAAGCCTCAATAATTTAGTTATTATATTAAAAAGTAAAGCT
GTTTGGTGTAATCTCCATCTCTCTTAACTGTTAGGAATGCCTGCTGATCATCTGTATGCTTACACTAGCTGATAAAGTGATTGCTTGTTGTAGAGCTATT
ATAGGTTTAAGATATCAGTTTGCTCACCTTTTTGTTGTTGCTGCTGCTTCCGTAGGAAATTCAGTGAACATTATCACTCCTTGTGTAAAGCAGTGCATCA
CCTAGCAACTGTTGACTGCATTTTCTCCCTGGCCAAGGTCGCTAAGCAAGGAGATTACTGCAGGTAAGATATTTTTCATTTTCCTCTTTATCAGTGCTTT
AGATAAGATGACATTATTCAATTAATTATAGTGTCTTTATTATAAAATATTACAGTTACTCAAATGTGTTAGACTCTTGGGAAAGCTGAATGTCATACAT
ATRTAGCTTGATTTGAAAATTAAATTCATTTCTTGCTTCCTCTGTCACTGAGTACAATGAAAGCAGATGTTAAAGTTTATGTGGGTGACATTTTTATAAA
GTTTCAGCACTCTTTTCATTTGTTAGCTTTTACTTGAACACTTTTATAATTATAAAAGTTTGATTAGGCAAGAAAAGACTGAGAAGATAGGGACTGAGGG
GCATTTTAGTGATCTGTTCCTTTTGTTAAGAGCCCATATTCATCCCACTATTCTTTATTGACCTCTAAACATCCCAACATGGAATATTTATTCTCTTTTT
CATAAAGGATGTTAGCACAAACAAATCTAACTTTAAAATTCAGATGGCTGGGCGCATGGCTCACGCCTCTAATCCCAGCACTTTGGGAGGCTGAGGCAGG
CAGATCACGAGGTTAAGGCATCGAGACCATCCTGGCTAACACAGTGAAATCCCATCTCTACTAAAAATACAAAAAAAATTAGCCGGGTGTGGTATCACGT
GCCTGTAATCCCAGCTACTCAGAAAGCTGAGGTGGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCRTGCCACTGCACTCCATC
CAGCCTGGGCAAGAGAGTGAGACTCTGTCTCAAAAAAAAAAATTTTTTTTCAGACAAAACTTTCATACAAGTTGTATGTCTTCCAAAGCTTGATTTTATA
TATACTTAAGAAAAAGTAAGACTAGGCTTGGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCAGGAACATCTCTTGAAACCAGGATTTTG
AGACCAGCCTGGGCAACATATTGAGACCCTATCTCTACAAAAATTAAAAAATTAGCTGGGCGTGGTGGTGCACACCTGTAGTTCCAGCTGCTTGGGACAC
TGAGGATTGCTTGAGCTCAGAAGTTTGAGGCTGCAGTGAGCCATGATAGTGCCCATGCACTCCAGCCTGGGTGACAGAGCAAGAGCCTGTCTCAAAAAAA
AAAAAAAAGAGAGATAGAATTTAAAAAATACAAAATTAAATAAAGTTGTTCAAGTTCAAATGTTTTATTCTTTCCAGGAGGCATCTAGATTATTCCCTTC
ACTGCCATAGGTGTCATCAGTATGCTTTCTTGCTATGCGTGTTCTATCCTAGTGTATCCTCCCAGCTCTGTGAGTTATCCTTTGCATCCTATTCTGCCAG
GAAGCGTTTTGTCATTATATAATTTTGATAGCAACAGAATAAGTCGATGTAAATTTTAGTGCAGAAAAAATCACTTAAAATTTTGTTCCAAAGTGAAAAT
CTTCCTGGTAAATCATATCAGTGTCATGAATATTATATAATGATTTCACTTGGCAGAGCACCTAGGATTTTATTTTAAAATTAATGTCACAAATACTTTC
ATTTTTTTCTTTTACAATGAATTTGTAACCCACCTAGACAAAAAATCTTGTCTTCAGAATTACACTCTAAAATCCAAAAACTATCCTTTTTTCATAATTT
TAAGTGTCTCTCTCCAACAGATGATTTCAAAGTATTTACTCAGAAGACACTGTAGTCACTTTTTTTTTTTTTTTTTCCTGAGACAGAGTCTCACTCTGTG
GCCCAGGCTGGAGTGCAATGGTGCGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGGGATTCTCCTGCCTCAGCCCCCTGAGTAGCTGAGATT
ACAGGCGTGTGCCACCACGCCTGGCTAATTTTCATATTTTTGGTAGAGATGGGGTTTTACCATGTTGGCCAGGCTGGTCTTGAACTCCTGGCTTCAAGCA
ATCCACCTGCCTTGGCCTTCCAAAGTGCTGGAATTATAGACGTGAGCCATAGCGCCTGTCCTGTAGTCACTTTCTTTGCAAAATGTGAGAGCATCTGGGA
TTTTATTAGCCAGATATATTTAAGAAGAATAATTTAGGAAAGTAGTATTTATTGGTGTTATGAGTAAGTTCAGAAATGTGGTTACACATGAAAGTTCTGA
GTCAAAGAACTATAGGAGGTCATTGGTAGGATATTATGCTTTTGAAAAAAGACCAATGAATCACCAAGAAACTGATGAAAAGATGTTCAATCTTAGTAAT
CAGTGAGTGCAAATTAAAACAATGGGATAACGCTGTTTACCTGTTATGTTGACAAACATTAGAAAGTTTAATAATACCAACTTTAAGTGAGGGTATGAGA
AAACAAGTTAACTTTCATATCCTGCTTGTAGGAAAGTAGATTGGTATATCTACTCTTGTCTATTAAAATAAAAAATAAGCATACTCTGTGACTTAGGAAT
CCCACTTTAAAAATTTACTCTAGCTTTGGGAAACACTTGGACTTGTACACGTGGAGATGTGTATAGGATTGTTCATTGCATCATCGTTTATAAGTAAGAA
TTTGGATGCAATCTAAATGTTTAACAGTGGAAAATGTGTAGCAGCTTTGAAAATCTGACAAGAAGTGATCTTCAGTATACTCTACTGTAAGGGCCTATTG
AACCTAATTTCAGTTTCTTAAAGGCCATCTAAAGAACAAAGACGAAGTTTACTTTTTTTCCTTTAAAAAGGAGAGTAAAACTTACTCTGTCTTACACTTA
CCATGTGGGTTTATTGGATTGTTTTATAAATGTAAGATGCATTTTGGGATCTTTAGTGATCTTATTTTTTCTGTATCTTGGAACATTTTGTTATTTCTTC
ATCCTGAGTATTGTTTTAACATTGTTTATCATTTGTTTCAACTATAATATAAAAGTCTAAAATGAAAAGAAAATGAGAGAATGATGATGCAGAAGTGAGG
GGAGAAATCACTATCACGTCATCCTTCTGTTTTCTTCTTGTATTGCCCGCATTACATCATCTTCCAAGAAGGTATAAAAGAAGAGTGCAGATGCCACAGT
TGGAGTCTGCTTCTAATTTTCATTGAACACAGTTGAAAATTCAGAATTTTTCGTTGTTCACCCGTAAAGGCAAAGAGAACAAAATTGACAGAAGGCCTTT
CATAATTATTAGCTTAATCAGATGATGAATGTGAAGAGAAAAAAACCAGTGCCCTGCATATTCATGGTGATGGTGAAATTTCATGTATCAGCAAAATCTG
AGATTCTGAATGCTCAGAAAATATCCTAGGTGAATTTTCTCAAACTCAAAAGTTGGTATGTGAATAATATATTTGTAAGGGCAAAATGAACTCTGTTATT
CTCGTCCAGTTAGTCATTCAATAGGAAACATTCATCATGTAATATTTGGTGACAAGAACCTGGACTGTCCTGTTTTGCTGAAAGATGTGATAGTATTCTT
CTATCTTTTATAATATTTATTCACTAAAATTTACTTGATACAATTTATAGGTTACAATTTATAGACAGACAGGAGATTGAAAGGATATAGATGATGTAGA
AATAAAGGTACTCATTTGATTATTCTAATTGGTGTTGATAAGTCAAAAAATGAAAATATTTTGCAATTATGGAGCAAAGATGACCATCTCTTTAAGAAAA
TTATGAGCTTTAAAAGATTTCAAAAACTTCTTCAAGTATTTGCATTTTTGTTGATACAAATGTGAAAAGAATCAGAAATAATCAGCTCTAGAACCTATTA
GAAATGTATTGAAATTTGGAATTTARTATTTATGAATGAATATGTTCYAGATGCATGCTTGACGGCTGATGAGCAATGACATTCAGAATGTCTTACCCAT
TTCAGATATATATGCCTTGAAAACCAGGAGAATATGGAATAAAACTTTTGAGATTTGCTGTGTTTAAATTCTTATTAAAATTTGTCATGAGGTTGATTTT
TTTTACTATCCCCTTATTCTCATTTCTGTAAAATTATTTGTGAAATGACTTTAAAGGAATATATTAAATCCAGATAGTAAATGGTGAAATCTATTTTTTG
TGTGTGTACTGAGAGTTAAAATAAACTTTGAATTTTTTAAGTTACAGAATGATAGATTACAGTATGACTTTTCCAAAGAAATCACAACGAGTGTGATGCA
TACATAAACATAAATGCACAGAAGAAGGTTGGAAAGGGTAGACACCAAGCTGGTCTCAGTAGTAACATCTGGGAAGGAGAGCTGAGAGTAGGGCAGGGCT
CAGAGGTGCTTGAATACACAGCTAAAGCTGTAGATAAAACAGATATAGAGGTCTTTAAAAAGCATAAAGAACATCAAGGTCAAAAAATGATTCTTGTATC
AAAGTAAAAGATACAAAAGACCGTAGAAAGATGTTTTAATTGAACAGYGTATGAAAATTTTAGGTCATTTCATTTCCAAGTCCAACACATAGTTTATATT
AATAATTACATCTAGAAATAATTTTATGTGATTTACTTTATTGTATTCATTAATGAAAATAAGTAGCAATAATCTGAACTGTTATCTTTACTAATGAAAA
TATTGGTTTGATCTCAGACAACAATAGAAAAATGAAGAATAAAGCCCAGCATGGTGACATGCACCTATAGTCCCAGCCTCCTCAAGAAGCTGAGGCAAGA
GGATCACTTGAGCCTAGGAGCTTGAGGCTGTAGTGTGCTATGATTGTGTCTGTGAATAGTCACTGCACTGCAGCCTGGGCAGCACACTGAGACCCTATCT
CTTAAAAAAAAAAAAAGAAAGAAAAGAAAAAAAAGATCTTGTAAAGGTAAACTACAAGGGTGAAGCCATTTATAAGACTCTTCTAAAGTATGTGCTTCAG
TGCACTATTATAATAATAAATGTTTTCCCAATTTTGATCTTATAGTTCAAATTTAACTTTTATACTCAAGGTTTTATTCTGGACATATGTTCTTAAAATC
TRTGTTTAAAGTTTTGTTTTCTGTCGTACAAACAGAGTACTGAAATTTTTCATGCTATCTTAGAGTTTTTTTTTTAAGGCTATTTCCATGCCTAGTAAAT
TGAAACATATTTCTTTTTTGCAGACCAACTGTACAAGAAGAAAGAAAAATTGTAATAAAAAATGGAAGGCWCCCTGTGATTGATGTGTTGCTGGGAGAAC
AGGATCAATATGTCCCAAATAATACAGATTTATCAGTAAGTACCTTATGCCAAAAAATAAGTCGATGATAACATCCCAAACTTTTACATACCAAAGAAAC
ATTTTTATAATTAAAAGTTACCCAAATTTCAACTTTGGCTTTAAATGGGCTAAGCCTGGACATAGTTTTATATTTACCACGAAATGTGGAATTGGTGCTA
TTTCCAATGCAAGATTATCAATAGGTTTAGTAACTAAAAGTTTAGTTCTAATTAGTTATCCTAGGTAACCCAATAAAAATATTTTACATTTGTAAATACC
CAATATGCAAATAGAGTTGGAATTATACCATAGTTTTGCAAATTCATGTTAGCATGTAGTGTTCCATCCTTTGTACTGTGACTATTTTCAGATRTTCTAT
GCAAGAATCAGAGATGCCTTTGCAGATTCCAGTGATGAGAATTTTCATTATAGGGGCTGGATTTCTCTTACATAACACAAATGATCCTGAATACTTAATT
TACTTAACACATACTTACTGAGTGCCTGTGTCTCAGGTAATGAAGTATTAGGAACAGAGACTAGTAAGCAAGACAGAACTCTTCCCTGCCCTCACAGAGC
TTGTTGTATAGCAGAGAAGATAGGCTAGTGCAATACAGCTTAGTGCATGGCATGATAGAGGAGACCAGGATGGCCTGGGGATAGGTAGCAGGTTGGCCTA
ACCCAAGGGCAGGGAAGCATTGAGGAATGTTCCCCAGGGAGGAGATACCAACTGAAGAATGAGTCAGTGCAGGCCAAGGTATTGAAGGGGAGTATTCCAG
GTAGAAGAACCAGCATGGCAGATATTGGAAGTGAAGCATAGCAGGAGGAATTCGAGGAACTGAAAGATGATGAGTAAGGTTGGAGTGCAGAGTGTGAACA
AAGAAGTGTTCAGAGATAAGGAAGAGGCCAGTTCACTCATATCAAGAAATTTGCATTTTTACCCCTAAAAGATTAAGAATACTAGCAAGAGAGTGATAGA
AGCTGGGTAAAAATAGTGAAGTTATGGCAGGGTGTTTGAGTTCCATTGTCAAAGCTAAATGGAGCTGGGCACTGAAGTGGTAAGGATTGATCTTATTCAG
TAATACTCCTGCATAGGGAAGAGTCCAGTGTGAACTGAACTTGACTTCATTTTGGCATAGATGACTGGGTGTTTTAAAGGGAATACGAGGGAACAGGGAA
AGGGAATGAGCTGGGGGAGGAGAGAGAGTGAGGTGTGGTTATTTGAAACCTATCTGGGTTTACTAATTGTTTGCTTATACCACATTTCAAAGAGTCAGCT
CTCTGGTCCTTAAGAAGACAATTCTGGGTGATAGATTTACATCACAAAGGGGCAGAAAAAGTATTTATAATTGCAAGCTTTCTAAGGTAACTGTTCTAAG
AAGGGCTTCAGCATCTGGCTGCCTGTCACCAAATTTTGGCTGGAATGGCGAATCCTGGCAGCACTGAGTTTTCTCAGGCAGATACTTTTAGTGGGGCTGG
GGTCATCCTAAGGATGCAGCCTTGAGCTGTTAGAAACTATGCTAGTGGGGTAACTTCTAAGTAGGGAGGGTGGACAAAATCATTTTTACTCAAAGTCTCT
AGGTTTTTATAGGTCAAAGTTGAGAACTAGTCCAGAAGAGGGCTCAGAGAAAAAACCTGATGAGAATTTGGTCAAGGACATGGGGTAAAACGGTATGGTG
ATGGGTCAAAAAATGAATATGTAGGGAGTAGTTATGTGAGAGAGAASGTATCAGAGAATAAAATGCCTGACTTTCAGATATCAAATGTGCTGTTTTTCTG
GTTGATGGCAAGATCTTATGTATGGCTATGGAAGGTGGGTAGCAGAAGGGAGAAGGTCTTTGGAGATGAAGAGATCAAGGAACAGAGTTTGGGAAAAAGT
TGTCCATGTGAATGTTGAAATCTAAGATAACAGCAAGATATGCCATAGAGGAAAACAGGGATCCAGGTGTCTGAGATTGCGAGAAATGGCGATTGGGAAT
CCTGAAGTTTATAGATAGCTTAGATTGAGGACAGACAGTGGTAAAGCCCTAAAGAAGAGCTTCTGAACCCTGAACCCTGAGGTACATGGTCCATGGTYGG
ATGTGGCAGAAAGGTCAGCGCCCAAATGAGAGAGCTGCAGGGGAATAACAAACAGCCAGCCAGTTTTCATTTTAGTGTATGAAGGAAATGTTAAGCAAGG
TGGTTAGAAACAGAAGTACTAAGGAACTCTTCTGAGGACAGTGAAAGAATTGAGATGTAGGGGAGCATTTGGAATGTAGATCAGAGAAAGCTCAGAGTAG
TAGCGAGCTGGGACTGTAACAGAGTATTCTACCTYGGGCTGTGAGCAGAGGTGGCAGAGATGTGTGGCATGGTGCATTTGGCTGGCCATGAGAGGGGGAT
GTGAAGGGAAATACTTTGAATGACATCTAGTTTAATTTATAATATGGATTTTCATATCATAACAAGACTTGTTGGTAGTATATAATGCATGTCTTAGTCT
GTTCAGGCTGCTGTAACAAAATATCATAGACTGAGTAGCTCATAAACAACAGAAATTTATTCCTCAGAGTTCTAGAGGCTGGAAAGTCCAAGATCAAGGT
ACCAGCAGATTCARTTTCTGGTGAGGGCCTGTTTCCTGGTTCCTAGATGACACCTCACATGGTGGAATGGGTAAAGGGTCTCTTACTCATGTATTCACAC
AGTGGAAGGGATAAGGGGTCTCTCTCAGGCCCTCATGAACTTGTCATCTCCTGAAGGCCCCATCTTCTAATACCATTGCCTTGAGGGTTAGGATTTCAAC
ATACAAATTTGGGAGAGAGACAAATATTCATACCATAGCAACCTAAGACCCAATGTCTATAAACTTGTTCATTCTTTTTTAGGAAATTTTTATATGTGGT
AGTCAAACAAGTTAATAAGTACCAATCTTTTTATTGTCTTTAAAAAGAAGACTATGTCTTTGAGAGGCCGAGGCAGGAGGATTAGTTGAAGTCAGGAGGT
CGAGACCAACCTGGCCAACATGGCAAAACCCTGTCTCTACTAAACATAAAAATTAGCTGGGCATGGTGGCGCCTCCCTATGATTCCAGCTACTCAGGAGG
CTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCCGCTGCACTCCAGCCTGAGCAACAGAGTGAGACTGTCTCAAAAAAAAAAAAAAGAAGACTATGTCAA
CATAAGAATTTTTTTTTTCAGTTCTCATAATACCAGTAGGATATAGCTTTTCTTGAGAAAGTAATATAAGTTAAATATAAACTAAGCAACTAAATATTAG
AACTATAAGTTTCTTAAAATAATTTCCTGTTACTGTTTCCCTGCCCATCTACTTGACCTCAAGAATATTACCCTTGGGATTGACTTATTTCTTTTTTTCT
TTCCTTTTTCATTCTTTTTCTTTCAAAACGTATGTTACACTTTAATAAAGCAAGATTTGAAGAACTAAAATAGCCTTCTGTCTAATTACAATAATGTTTT
AAAGAAACATTGAACTCTTACATTTAAATCTTTACAAAGTAAATGGAGTAATTTTTTTTTCAAGCAGGCACCTCAGAATATTCCAGAATATTCGTTTCTA
TTACATATGCTTTTTCTAACTTGAGTAGGAGTTGATATAGAACTGTTGCTATGGTGAAGTGCATTCTATTTTTCAGGGTAAAAATTTATATATAGGGATA
GTGTTGAGAAAGAACTTACGTAAAATTCAATTTAAAATATTTTATGGATGTTAATTATAAAATATACCCTGAAAATAATTTCAAAGTTAAATGACATTGT
TGTTTTTGATAATCATGTGGTTTTAAGAACTGGTGCTTTGTACATGTAACTATAAGTATACTTTTCTGTATTCTGTATTACATGAACTTATTATAGTGCT
TCTGAATAAGCCAACTTTCTGCCCGCTTTTCCTCTCCCAGTTTTAAGAATACTTTTTAAAATACTCTTTCTTTTTGTCCCCTTCCTTGATTCACTATATA
ATCCAAGCATTTATACATGTGGTCACCGCTGGAGCTCCCTCCTCCACCCTGCCCACCTCCATGGATTCTCTACTCTGCAGCCACAGGGCTTCTGGAACGT
GCCATGCCACTCTCCCTTTTGAATTCATACTTCACACTCCAGCCAGATTGGACTTCATGCCGTTCCCAAGTCACTGTGCCTCTGGGACTTGGCAGATGGT
TTTCCCTCTGCTTAGAATGTCATCTTTCCCCACCCCACCCACTCCCGCCTCACACACTCCAACATCCACCCACCCAACACCCACCCGACTCCCCAGCTCT
GGCTTGTTCAAGTCTTGCCTTGGATGTCAGCTCTTGCACTCAGCCTTCCTTTGCCCAGCTGGGATGGGTAACCCTCTCACATACCCTCGCCACTCTATTT
CTCCACATCTCAGTACTTATTCCACCAAATTATAATCATTCTTTTTTTATCTGCCTTTCCCAGTGGACTGTAAGCATGAAGAGAACAGGGACTACATCTC
TGTCACCTATGTGTAATCCCAGGATCAGTCACAGTTCTCTGGCACATAGCTGGCACCTAATCAGATTTAATAAATCAGTAAGGATTAGCTAGAAGCCTTC
AGCAGTCTCCAAGTCTCACTTGAAATTTTTGCCTTTTATTTTCTACACAAAATGTTTTTTTTCAGGATATTATATGGGGATTGCCCCAATTTACAGAATA
ATTTTACTGTCAAACTAAAAGGGAAATTTGGGATCTTTTAGTGTAACCACGTCTTCATACTTCTGAGTAAACTATGGTTCAGAAAGGGGAAATGATCTGC
CAGAGGTTGCTCAGGTTGGGTCGTCTTGAACTGTTTCCCAAAACATAAACATATTTTAAGGCAAGCCAGTGCTTTCCAACCTTTTTCACTTTGCATCACA
CAGAAAATGATAGTATTTTAATGGAACACTGGATTAAAAGGAGAAGGAAGAGGTTGCTCAGAGGCCAAGGAGGCTGGCCCAGGGACTGTGGCCGCCCCAG
CCCCACCCACCACCTGTGGGTTAAGGGGTCAGTATCTTGGCACCCCTGTCACCTTGTGAGGCAGCCCAGGACTGCTGCTTAGGGAAACCCCAGCGAACCC
ACTGCAATCTCAACTCTCCCAGGATTGTTTGTTAAACCAAATGACTCTTTTTTTTTTAGTGGATGGATTTTSAACAGCAGTTAAAGTCGGGGTTTTCAGT
TCATTTGTAGGGTTTTTGTTTTTAGTATAAAAAATATAAATTTCAACTAATGGAGGGGAGGGGAAAGAGTGGTTGACAGCTTCTCAGTTTGTTGGGTGGG
AAGAAAATGAGTCAAACGTGCACAACAGGAAGATTCCCAGGAAGCACTCGAACCCTGTAGCTCTCTAGCCCAAGCAGAATTCACAGCCCAGGTGTTTTAT
TGCTGGGGCAGGGTAGACATTGAGATGCTAGTCACAGTCCCTTCTTGTGAGATCAAGATGGGCCTAGGGTGCTTCAGTCATTAGCTCCGCATGTGGTATG
GAATGGGTGCTCACACATTTGTTACATGAACAAGTGCTTGAAGCTGGTAAAGATGAACAGATTTCCCAATTCCTTCCCTTATCTCAGTACAAATAATGTC
TAGCTGGCCCAGAAATACTTGCTTTGGCTGTATAAAAGTTTAAAAGACTAGTTACAGTAATATTCATAAGCTGTTGACAATTTGTGCCTAATTACCAAGT
GGAACAGTAATAATACATACCATAAAATATGTCTGAGCTTTAAGCTTAATTTAATTCCATGGCTAAATTATATTCTCACAGATTCTGCTGTAAAGGTGTT
TTTCACATAGCATGATCTTTGAATCATGAGCCCATGGATTAAAATTCTAGGAAACATTAATGGCAATTGAATATTGTTTTCTTGTCAGTCCTTTCCTCTG
GTTCTCCTCTCTCCTGCTTCTGAAACAATGGATAGAGAAGGACATTTGTCTGATAAAGTGTTCTGACCTGCACTGCTGTCTCTGCCCAGAATGGCCCTCC
CCTCTCTTCTTATCTCTTACCTGTCTGCATTGATTGGACTCACACTGTTCCTGCAGGACCCAACAAAACACTGCCTCTTCCTGAGAGCCTTCACCATCCT
CTGGCCAGAAAAAATCCCTTTCTATTCAAGCACTTTCTTTGCTCTGTTTTTAAAGCTCTCACATACTACTTTTGTTACACAAGTGTAGTGGGAAAGTGGC
TCACAATGGTAGGAGATTTAAATTAAAATCCTGCTCTGCTGTCATTTCACTCTCATTTTGGATAGACCACGATTACTTGCTGGGCCTTAGTTTCCTCATC
TGTAAAAGGAGGTGGTTAAGCTGGGTCACAGCCAGCCCTCACACCCAGGGGAATGTAAATTGGGCAGGATCCAGGTGTTGGAGGGATTTAAGTCCTGACT
TTGGCATCTCAACATGCAGCTGGTGCCGCTCTCCAGCTTCATTTTCCCTCTTTCTGTTTCTAGTTCACCTTGGGTTAAAAGTGCAAAGATTTGGCTGAGA
GCTCGTCTGGAGGAGGCTTTGACTCAAGAGTCTCTTACCATAACCTGCTGTTGATTGACATTTTCGAGGAATAAAACACTTTGAAACTACCAAACTTTTT
CAGCAGTCTGCAGCTGTTATAAAAATAGTTCTCCCATAATTCTTCTTTAAAGACAGTTGTCAATATTTATACCTGTCAAGGAAGATAGCACTTTTTTTTT
TTTTTTTTTTTTTTTTTTTACAGAAAATTAGCTTTTCAGGTCTTARAAATTAACATGTGACAGTTTTATTTTATTTTTTTTCTGCTGTACATCTGCTGAC
TTCAGGGATATTATGACTGTCCATTATTCTAGTGTACTCAATGATGAACACATGGAGTGAAAGCATGTCTTCTCCTATTTAGTAGTGACTATGATTCCCT
GTCATTGAGCAAGCGTCCCCATTGAGACATGTCAGAGGATGAACTTCACTTAACATTCCAGTTCTGCGACTTAGTTGCTGGGAAAGATATTTAGCTTTAG
GCCTCTGTTTCCTCACCTGTATAATGGGAATCCAGTAATATTAGTATTACCCTGTGACATTGTTGTAAGAACTAAATGAAGTGATACATAGAAAATCATT
AGCACAGTGCCTGGCACTTGTTATCTGTGATTTTCTTAAGATATCTTGAAGTTTGTCTTTTATTTTTAGATCTTCTCTTCCCCCACAGAAGTTGACATTC
TATGTGGAAGTTGCTTAGTTATCACAAGTTTTGACTCACTGTTTAGATACTGGATAAACAATACTAAGATCTTATTGATTGATGCTATTCAGACAGATAT
TGCCAATACTAAAGGGAACACTTAATAGAATGTACTTCTAGTCTCTTCATAGGTTTGCCAAGGCAGTCCTCTCTAGTTGTTATCCAGCAACATAGTCCCT
TCAGCGCAATACTTCCAGCTTTTGTTTGCTATCATTAATTAATTCATTCATCCCCCTTTAGTTTCTTGAGAACTTGCTCTGTGTGTGGCCTCCTTAGGCT
TGGTGCTAGCCCAGCTTTGGGCACTGTCTAGGCCAGTCTGGTATTCCCAGTAGGCTCCAGAGTGTGTGGAGAGGTGGTTATTGCCAACTTTCAGATTCTG
GCTATTTGGTTAGAACATTCACTCATGCTAACTGGTCCTGCCGATAGATTTTATGTGTCTTTTATATCTGGGAACCCTTGATGTGTGCTGCCTCAAATAC
GCACGATCTTTCTAAAAGAGATTAGCACATTAGATGAGTGAAATTTCTTGACCATTTCCTTACTTATTGTGTCATCTTGGGAACCGTGGAAACAAGGGGG
TCATATATTCTTGACAGATTTTTATAGAGAAAGCAAATGATTGTTTTTGAAATGTAAACATGGTGGAAATCTCTGCTGTAATGCCTTTTGTGTATTACAT
TCATCTCTTTGATCTATTTATTGGGTGCCTTCTTTGTGCCAAGCCTTGTTCTAGGCAACGGGGATGAACTAGAAGACACAATTCCTGCTCTCATGAGAAC
TTACTTTCTAGAAGTGAGATTGGTAATAAATAAGCAAGAAAATTCAGGTAATTTCAGAGAAGGTTGAAAACAAAATAAAATGGGCTGATGTGATAGAGAA
TSACAGAGCAGAGGGGCTTCTGTAGATTGGGTGGTCAAGGAAGGTGTGTCCTGGGAGTTGATGTTTGAGTGTAGACCTGTAGAAAGGCCTTAAGGCAGGA
ATGAGCATGTTGTATTCTGGCAGGTGGAAGGAGAGCAGAAATCAAGTCTGGCTAGCACCAAGTGAACATGGTGGAGGGTGGTAGAAGAATGGATCGGAGG
CAGACATGGCCTTTAGACTGTGACCTTTAGACACTTAGAAGTGCTCTGAGGATCTGGATGAGGGCTTTTAGCAAAAAACAAGTTCTGTTTTACTTTTTAT
GACAGTCACTCTGGCTGCCCTATGGAGAGTGGATTGTGGGCAGAGGAGAAGCAGGAAGACCCAGCAGGAGCCACTGCAGTCACCTGCCTGGGCAGTGGCA
CTGGGCATGGAGACAGGAGGTTTTATTTACCTAGAGGACCTCCTGATTCTTCAGTCTTGTGTCTTTTTTCCTGCTGGTGTTTACTAGAGTGCCTGATGTA
CAACTTATCTCGTGCTGGCAGTCTCTTAGGGCTTACTAAGAAAGCCACCATGTTGTCACCTACAAATATTTGAGTTTAGTGGGTTGAACACATTTAACTT
CTAAAGCCTTGAAGTTAGTTCTTCTTTGACATCCTCAAATCCTGGGGCAGGGGTGGTGGGGGCTGGAAAAAATCTGTCTCTACAACAGTATCCCCAAGTC
TGCCCAGGTTCACCATGCACCACTTTTCCCAGGTACTTCATGCAAACGAATTCCACAACTTCTCATCTTCCAAGCAAATCTGGCACAGAGCTCTGGTGCC
AATTTAATTCCTGCTCTTTCATTCCACCCAGGGCCACATATTCAAGCAATGTACCTGAATTTAGGATGAGAGATCTTATTTAATTCAACTCCCTGATTTT
AGAGGGGAGGAAACTGAAGCCTAGAGAGGTGTATTGGCTTGTCCAGAGTCCACASTAGAAACCACCTTTCTTTTGTGGGCCAATTCTTTATTCATGTTTA
TACTTTTATTTTCACACTCTGTTATTTTCTTGCTTATCAAGGCTCTCATAGAAATTGACGCCACAGTGAAAATTTTTGTATAATACTTGACATAGTATGC
ATTCAATGAACAAATGGTTGTTAGTACTCTCATTGCTGTAGAATCCATTTACAAATAAGTGTTAGATTAAGATTTGAAATATAAAGAAAGGGAGGAAATT
GCTCCTTAATTCCAAAGATAGCCACTGTTAACATTTTGGAATGTTTCCTTTGTCTTTCTTTGTAATTTTTTTTAAGAAATAGCCATTTTTTATATAAAAA
TTTTTATATCCTGCTCTTTTAGTTAATATTATAACATGAATATTTTCCTATATTCTTAAAAAGTCTTAAGATAACTTTTAATGGCTTCATGGTTTTCAAC
AATATGGATATACCATAATTGCCTTAATATTTTCTCTGTTGTATCTACTCTTTGCTGTCATGAATAATCCTGCCATGGTACCTCACAGAATTGATTCTTT
AAAAAAAMAAAACAAAAATTGGGGGCACATAGTAGGTGTGTATATTTATGGATTACATGAGATATTTTGATACAGACACCGAATGTGTAATAATGTTACC
CTCACATGAGGGTAACTGGGGTATCCATCACCTCAGGCATTTATCCTTTCTTTATGTTACAAACAATCCAGTTATACTCTTAGTTATTTTTAAATGTACA
ATAAATTTTGTTGACTATAGTGACCATGTTGTCCTATCAAATACTAGATCTTATTCATTGTATGTAACTATATGTTTGTACCCAAGGACCATTCACCTTC
TTCACCCCTACTACCCTTCCCAGCCTCTGGTAACCATCCTTCTGCTCTTTATCTCCATGAGTTTAATTGTTTTAATTTTCAGTTCCCACAAAGAAGTGAG
AACATGCAAAGTTTATCACTTTGTGGCTGGCTTATTTCACTTAACATAATATCCTCCAGTTCCATCCATGTTGTTGCAAATGACAGGATCTTATTCTTTT
TTTATGGCTGAATAGTACTCCATTGTGTAGTGTACCACATTTTCTTTGTCCATTCATCTGTTGATGGACACTTAGTTTGCTTCCAGATCTTGGCTATTGT
GAATAGTGCTGCAATAAACATGGGAGTGCAGCTGTCTCTTCAATATACTGATTTCCTTTCTTTTGGGCWTATATATATACCTAGCAGTGGGATTGCTAGA
TCATGTGTTAGTTCTATTTTTASTTTTCTGAGGACCTTTAACTCTTATCCATAACAGTTGTACTAACTTACGTTCCTACCAGTAGTGTACAAGAGTTACC
TTTTCKCCACATCCTCACCARCATTTGTTATYGCATGTCTTTTGAATATGTCATTTTGACTGGGGTGAGATGATATCTCATTGTAATTTCGATTTGCATT
TCTCTGATGATCAATCATGTTGCACCTGTTCATATGCCTGTTGTTTGTATGCCTTCGTTTGAGAAATGTCTATTAAGATCTTTTGCCCATTTTTAAATTT
TTTTTCAGTTTTTTTCCTGTTGAGTTCTTTGAGCTCCTTGTATAGTCTGGTTAGCGTTCCTTTATCAGATGGATGGTTTGCAAATATTTTCTCCCATTCT
GTGGGTTGTCTCTTCACTTTGTTGATTGTTTCTTTTGCTGTGCAGATTTTTATTTAATAACTTGATGTGATCCCATTTGTCCATTTTTGCTTTCGTTGCC
TGTGTTTGTGGGGTATTTCTCAAGAAGTTATTGCCCAGACCAGTGTTCTGAAGATTTTCCCCAATGTTTTCTTCTAGTAGTTTCATAGTTTGAGGTTTTA
GATTTAAGTCTCTAATCCATTTTGATTTGATTTTTTTACAAGGTGAGAGGTAGGAGTCCAGTTTCATTCTTCTGCATATGGGGGTATTGAAGAGACTGTC
TTTTCCCCAGCATATGTTCTTGGCACCTTTGTCAAAAATGAGTGCACTGTAGGTGTGTGAATTTGTTTCTGGGTTCTCTATTCTGTTTCATTGGTCTCTG
TGTCTGTTTTTATGCCAGTACCATGCTGTTTTGGTTATATAGCTCTGTAGTATAACTTGAAGTCAGATAATGTGATTCCACCAGTTTTGTTCTTTTTGCT
TAAGATGGCTTTGGCTATTCAGATCCTTTTGTGTTTCCATATAAATTTTAGGATTATTTTTTCTATTTCTGTGAAGAACGTCATTGGTCTTTTAATAGGG
ATTGCATTGAATCTACAGATTGCTTTAGTTACTATGGACACTTAAACAATATTTATTCTTCCAGTCCATGCATGTGGAATATCTTTCCCTTTTTGTGTGT
CCTCTTTAATTTTTTGCATTAGTTTATGTAGAGCCCTGGGACCTTGAATGAACATAGGTTGTAGTCAGACAGTGGTCACCATGGGCCTTGGGTGAGACCC
AGTGTTGTGATGGCTTCAGGTCTGACCCAGTGAGCATTGAAGAATTAGGTATTTATTGTAGCCTTCACAGTCTAGCTTGTTTGTACTTGTTCTTGGGAAG
GCTTTCCAAGTATTCAAAGGGACTTGAGTGTTCTGATCTAAATCTGTGGTCACTGCAGCTATGTCTGCATTAGGGGGCACCCCAAGTCCAGTAATACTGT
AGCTCTTGTAGACTCTTWGAGTTACCACCTTGGTGGTCTTGCATAATATTCTGGAAAATTCCCTGGATTTCTAGGCAGAGACTCTTGTTGTCCTCCTTTA
CTTTCCCCCAAACAAACGGAGCCTGTCTCTGCTGAGCCACCTAGAGCTGAGGGAGGGGTGACTCAAGCACCTCTGTGACCACCACCACTGGGACTGCACT
GGGTCTGACCTGAAGCCAGCAGAATACTGGGTCTTACCCAAGGCCCGTGGTAACCACTGTCTGACTACCATCTATGTTCACTCAAGGTCCTAGGGTCTAC
AGTCAGCAGGTGGCAAATCCAGCCTGAAGGGCTATCATTGTTTATACCACCATGCCTGGCAATAGTGAATGATACTCTGGGAGGGAAGTAATTAATTTGA
CCTTAATGATATGTATATGATTAGGCAGCCTTGTTCTTTGTTAGCCTTCAACAATAGGGATCTTTTTGGTCACTGTCACAGGAGTGAAGACAGAATGACT
TACCTTGTAATGTTTGTTTTCTGATACATTGGGCCAAAAGACCCACAGGAATCCACCCGTCATCTCCAGAAAGTGAAGTTTTTATTTGAAGTTTGTTCTA
GTGTAACAACTTTCATCACATTTCATGTTTCAATAGATGCCAAAGCAAAGCACTGAGTGTGTTGGTATTTCTGTTGCCTGCTTCAGCAGTGTCTGGCTCT
CAAAGTTGTAGCCTTGCTACCTAACCTGAGACCAAAATAGCCAAGAGCGTTAAAACTGGTATGTGGGTTGGGAAACAAACATAGTGATCAGGCAAGCCAT
TTTAGAAGGGGTGGTGGAAAAAACTTCTCCATACACTTAAGTCTTCTTAATATTATTTTTTACTTTTCAAGCATCTAAATTTCCCCTAATGCACACAATT
AAATACTGAAATATACATTAGAATTTATTCATTAGAAAATTTGAGATACTCTACACTTTAAATTGAACTTGTACCGTAGAACTTTTAAATGATTAGGAAT
GTATGTTTTATAGTTAAAAGAGATTACTTAGAGTAATTTTTTGTCTTCACTTTCAATATGATGCCCCCCCCCCCTACCTTTTTTTTTTTTTTTTTTTGAG
ATGGAGTCTTACTCTATTGCCCAGGCTGGAGTACAGTGTCTCAATCTTGGCTCARTGCAACCTCTGCCTCCAGGGTTCAGGCGATTCTCCTGCCTCAGCC
TCCTGAGTAGCTGGAACTACAGGCATGCGCCACCACGAGCTCATTATTGTATTTTTAATAGAGATGGGGTTTCACCATGTTGCCCTGGCTGGTCTCAAAC
TCCTCAAGTAATCTGCCCACCTTGGCCTCCCAAACTGCTGGGATTACAGGCGTGGGACACCGCACCCGGCCCCAATATGATGCCTTTTGATGACAAAAAA
AGCCTTAACTTTAATGAAGTTGAAGGTATCAGTCCTTCYTTTTATGGGTGAATGCTTTTGTGCCTTAAATAGGAAATTATTTCAATCCCTGAGGTCTTAA
ACATATTCTCCTATRATTTTTTATAAACATTTTAAAGTTTAATTTTCAAATTTCAGTCATTAATCAATCTACTCAGAATTTATTTATTTACTTATCTTTT
GAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACAGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTC
AGCCTCCCAAGTAGCTGGGATTACTGGCATGTGCCACCACACCTGGCTAATTTTGTATTTTTGGTAGAGACGGGGTTTCTCCATGTTGATAGGCTGCTCT
CGAACTCCTGACCTCAGATGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAKGCGTGAGCCACTGTGCCTGGCCCAGAATTTATTTTTATACA
TGATATGAGTTAGGAATCTAATTTCATATCTTTCTATATGGATAATCAATTGTTTTGTACCAGTTTTCAAATCATCCTTTTCCCATCAGTTTATGGAATT
ATTTATCATATATTAAGTTTCCACATTTTTATGGGGCTGTTCTGAACTCTTATTTTTCACTGGTCAGTGTTTGTGTGCAAGCCAGAATCACACAAGCTTA
TTTGCTATAGCATYATAATAACTTTTTACATCTGTAGGGAAAGTTCTCCCCTCCTATTCTCCTAATAGAATTCCTAATTTCTATTTAGCTTTTGCTCCTC
TCTCTATTTTAGAGTCAACTTACTCAGTTAATTGGGGGAAAAAAATTGAGATTTGTATTGGAATTGCATTGACCCTATAGATCAATTTGGGGAGGAGTTG
ACATCTTTATGATACATATGTGAACATATGAATATGTCCCTCCATGAAACCAGTAGATACAGTCAGTCCTCACTTGACATTATCAATACGTTCTTGGAAA
CTGCTGGCTGGGTATGGAGGCTTACATCTGTAATCCCAGGACATTGGGAGGCTGAAGTGAGAGGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGGGA
TGGGGAGACCTCATCTCTACAAAAAAATTACCTGGATGTGATGGCACCCACCCATGGTCCCAACTACTCTGGAGACTGTGGCAGGAAGATCTCTTGAGCC
CAGAAGGTTGAGGCACAGTGAGTCATGTTTGCACCACTGCACTCTAGCCCAGGTGACAGAGCAATACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAGGAA
AAGGAAATAACTGCAACTTTAAGTGAAATGACATATAATGAAACCAATTTTACCATAGGCTAATGGATATAAACAAAGTTAAATTCCTATGTCATATTTC
TGGCCACAGAAAACATCATCAAACTTCTAAATAAAGACCCAACACACTTCTAATATTAAACATTGAAAAAAGTATGAACTATGTGTTTAAGAAAGATTAA
TAAAAACAAATAAGATTATTGGATACACAATTTTTGGTAAATCAGGGAGTGACAGAGGTCATAGTGATGGTGGGTTAAATCAAGGAATAAATGTTTCCAT
AGTGAAAATTGTGAGAAGTACCTCCTACTACCATGCAGCTCAAAAACGAGTAATACGTGCGGCAGAYTTGTTTATCACTTTTGTGTTACATCMGTTTATT
GTCATGCATTTGTATGATTATCACCTGCCTTATGAATTTTTACTTGACAATCATTTGTATTCACTCATTTTCCAACCCACTTATTCCATTTTGGAGTCAT
GGGTAGCCAGAGCCTATCCTGGCAGTGCAGGGCACCAGGCAGGAACCAGCCCTGGACAGGATGCCATCCCATCACAGGGCACACTAACAGATACCCACCT
CAGACCGGGGCTATTACACCAATGAACCTAACTTGTACATCTTTGGCATGTGGGAGGAAACTGGAATACCCAGAGAAAATCCACACAGGCATAGGGAGAA
TGTGCAAACACAGTGGCCAGGCTGGGAATTTTTTTTCCCTTATCAATTTTGTAATGAAATGACATTATTTGAGGACCTGCTGTATTTTTATTTTGGTTTT
AAGTCCTTTCAATAAATTTTAAAAGTGTTCTCTATAAAGGGTTTTRACATCTTTTATTAGATTAATTACTAAGTACTTTTTGTTAGTATATAGGTCATAT
CTTTTTTACAATAGTCTTCTAATTATTTGTTGCTCTTACAGAAAAATGCAACTGAGTTTGCATCTTGATCTTAAATCTAGCCATTTTGCTAGAGATCCTC
TCATTAATKATAATACTTTGTATAGAGATTCCTTTTGGTTTTCCTTGTGGACAGCTATGTGATCTGCCAATGACAGTTTTGTTTTGTCCTTTCTCATCCT
AATGCCTTTTTATTGTTATGTTTTTCTATCTGGGACCTCCAGGAAAATGTGGATATCGTGTCTTGATTGACCTAAGGAAAGGCTTCTACCATTTCACCAT
TAAGCCTGTGTTTGCTGCAGGATTTTGGTAGCTAGCCTTGACCTGGTTGAAGAAGTTGTCTAAGGGTCATTTTGTTCTCTCACTCACTCACCACTTAGTR
GTGGATGGTGTCGGGAAGAAACCTGTTTCCCAGYTAAATAAACATGGTTTAAATATTAGAGCTGTGAAGTCTAAATTTTTATATGATATTTTTTCTATAT
ATACAAAGAATTGATTTTTGTATATCAATTACCTCTGAAATCCTGAAGTTCAAATAAACTAAAAACTTCATCATTCCCTATTAAATTCAGGAGAAATGAA
ATGCTCAAAGAACATATACATGATTGTATAGTTTTAAAAGCCAGCAGTTTCTGTGTAGTTCAATATAAAAAATGTTATTCCTTTTGAAAATATTGGAAAG
GGAAAGTGTCAGACTTACTTACTTTGGGTAATATATCTTCTTCATATATATATATATATATATATATATRTATATATATAYACAATCTAAATTCGAAGAG
AGYAATATTTCTATTCATGTAAATGCCATACACATTTTACTCATCAAGGCCTTCAAATAAGTTTCACATCTGACTTTTACATTAGGCCTAAGCCAAATGT
ATTTTCATTTGTTTTAGTTCATTTCTTCTGTTTCAGTTAATTAGTTTATAGGGCATTGGGACTTCATGTGGCTGCTTTGGGCATCTTTTATTTTTAAGAA
TTTATGATTTATAAAAATTATAGCATTTATAGTTTCAAAGGAATTTCATATATATTTTCTTAATTGTTTTAAACTTTACAAAATGCACGTAAGGCTAGGA
TTTCTGTTATTTTTAAATTTTACAGATGAGAAAATGAAATGTATTTAGCCAATGGCTAAGCCAGAAATGGAACCTCAGTCTTCTAACTCTAAATGGTATT
ATAATATGCTTTACCACTACAAATCTTATTAAATTATTTTAGTTTACCAAGTTAATACTTTTAAAGAATACACTGTCAAATTATTGATTCTTATTGTGTG
AAAAAGCCAAATTGAACAATAAGTATAAATACTCTTATCTTTCAAGGTATTGGAAGGCATAGGTTTCTACAAAATAAAAAGTGTATATTTTTTCTTTTTT
TCTCATATCTTTCTAAACTACCGATTTAAAAACATTTCTATTTCTGCATTTCCATTGGTCCCTCTCATGTGCTTGTTGAATTTGGTAATCCCATTTGAGA
CAGCTCCTTTAACAATGCTGTCACAGTTCAGGGAGCCTTGGCATGACACACGTAACCCTTCTGTGCGGTATTCTCTCTGGCATTRCATTCTTACATTACA
TTCTCTCTGGCATTACATTCTTTCACTTTCCATTTTGTACTTTTCTCTATTGCTTTATTTGTATGTAATGTTCTGAAGTCCAAATAACAAAATGTCATTT
GGAAGTTATGTGAATTATTCCTAAATTACATAAATGTGTTTGTAAGGAGTTATTGAATTGTTTGTGATGGTGATCCATGAAATAACTAAGAAAATTTATT
TGATTTTTTATGATTTCAGCCAATGAAAAAGTATATAAAACAGTATAACAGACACCTATTTACCCATCACACAAATGTCGTAGAGATTGACGTTTTGTAA
TATTTAGGAGTTTTTTAAGTAAATAAAAAATTGCAGATACAGCTAAGGTCATACGTAATTAACTGCTATTCCTTTTTCTCCATCTTCATCTCCTAACCTA
CATGGTAACCATTATCCTGATGTTATTTATTATCCTTATGCATGGTTTTTATTCTTTTGTTTGACATACATATATATATATATATATATATATAAACTAG
TAGCATATAATCATGTTTTGTGTATTTTAAAAAAGGTACATTAATGTCTCACTGAGCTTATCTTAGTATTCTGCATTGTAAATAATTGTTTTAACAATTG
TACAAGTAGATCTATTTATTTTCCTCACATTAGACAATTAGATTATCTCTATTTTTGTCAGTTATGAATACATACAAACAATAWWWCAGTGAACAGTTTT
ATACATGCCTTTTTGAGCACTTGTATGTTTCTTGGGTAGATGCTTAAAAGAGGAATTGCTGGGTCATCTAGACCAATATACACAATCTTTAACTTTGCTA
GGCGTTTCCATATTGCTCTCCATATCTTGACAGCATACTGTGTTGAAAAGACTGTCCTTTGTCTACTGTGCTGCAGTGTCACCTTTGTCATAAATCAAGG
AACTGTATACATGTCAATCTGTTTCTGTGCTTTCCATTCCACTGGTTAGATATGTATGTCATTGTGCCAAATCACACTACTGTAATTACTGTAGCATTAT
AATACTGAGTCATCCAGTTCATGAACATGGTATATTCCTTCATTTAATTAGGTCTTCTTTAATTTCTTTCAATAATGTTGTGTAGTTTTCTGTGTAGAGA
CTTGCTCATTTTGTTAGATTTATTCCTAGGTATTTGATTTCTTTTGATACTATGGTAAATTGTATCATTAACAATGTTTTATTTTGAATTACAGGTTGGG
CATTCCTAATCTGAAAATCTAAAATCTGAAATGCTCCAATGAGCRTTTCTTTTGAGCATCATATTGTTGCTCAAAAAGCTTTGGATTTCAGAGCATTTTA
GATTTTATTTGTAATGCAAATATTTCAAGATTAAAAAAAAATTGAAATTGGAAATACTTCTGTCCCCAAGCGTTTTGGATAAGTGATACTCAACCTGTAT
TTGTTGCTAAAATATAGGGGAAAAGTTGATTTTTGAATACTGAAGTTGTATCCAAAATTCAATTTTTATAGATTTCCTTGGATTTTCTGGGAGCACAATC
ATGACATATAGGAATAATGAGTTTTATTATTTACTTTCTAGCCCTTATACCTTTTATTTTTATTTCCCTCTCCTGCCCATTTGTTTCACAAGTGAATGTT
GAATTTTATCAAATACTTTCTCTGTGTTATTGGAGATAATTGTATGGTTTCTTTATTCTGTTAATGTGGTGAATTACATTGATTGGCTTTTGATTATTAA
ACCAACTTTGTATTCCTCAAAAGCTCTAAATGGTTTRTATAACCTTGGATTGACTTATTAATAGTTTATTAAGAAGTTTTGCATGTATATTTATGGGTGA
AATTGGTCTGTAATTTTTCTTGTAATGTTCTTTTCAGGTTTGATAAGATATCCAAATCTGAAATTATTTGGGAAAAATTCTTGTTTTGTTCTCTGGAAGA
ATTTTTGTAATATTCGTGCTATTTCTTTCTTAAATGTTTGCAAGAATTCAGTAGGGATGTTCTCTGCATTTAGAGTTTTTCTTGTGGAAGGGCTTTTACA
AATGTAATAAATATAGGATTGTTAGATTTTCTATTTCTTGTGTCGTTTTGTGATTTTTAAAAAAGGAGATAGACATATTAAAAAAGAGATTAAAAAGAGA
TTAAAGAGATTAAAAAGAGATATAAAATATTTGATCATGCCAATATTTGATTGTTTTATGACAGGCTTATTTTTTAATCTCTGTAGAATTCATTTTATTT
TTATCATTATTTTTATCATTGTTTTATGACACGCTTATTTTTTACTCTCTGTAAAATTCATTTTATTTTTATCATTAGTTTTATCATTCTGCTTATACCA
AACTACTTTCCAGGTTCTTATTGTGTTAAGCTCTTTCTGTCACAAGAAACACAGGTATACTCAAGTTCCTTCAAGTAATGGAGATATATTAGGTGCAATA
TAAAGCCATATGGAGCCTTAAGAGAAAGGAATTACACAGGAAGAGCAGGATCTCTAGCACAGTTTGGCATTAGGGAGACTGGAAATGTGTGGCTAATTAG
AATATGATACAGCTTTAGGGATGGAACAGGTTTTCTTTTTATCCCCCATTAGTAACATGTTATAAGGCTTTACTTTGATACCCAGTTGTTTGTGTGAAGT
TTCTCACTTCCTTTTGGCTTTTGTCTATCTTTTCTTCCTTTCATTACTAATTACCCTCTTTACCCCTGGTCTAAATAATTTTTCATCATACCTTTTATTT
TCTCATAACTACTTACTTATGATCCCCAGTGCCTTGTGGCCTGGTTCTGTGATTCTTTTTAGCCTCTCTTCAAGTTACCAAGTAATTGAACCTCACTGGT
TCTCAGTTAACTCCCAAAAGATTATTTGATTGGCCTAGTTTGAGAAGCTTTTATGCTAGCTAGGCCCATTGGCTGGTTCTGGCTTTTTTTTTTTTTTTTT
GAGATGGAGTCTCACTCTCACCCATGCTGGAATGCAGTGGTGCTGTCTTGGCTCACTGCAACCTCCACCTGCTGGATTCAAGTGATTCTCATGTCTCAGC
CTCCCGAGAACTGGCATCATCACACCCAGCTAATTTTTGTATAGTTGGGGTTTTGCCATGTTGGCCAGCCTGGTCTTGAACTCCTGGCCTCAAGCGATCC
ACCTCCTTGGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACCGCGCCTGGCCAGCTTGGCTACTCTTGACCAGGGAGCTATTGCCAAAATGTGGGA
TTCACATAGCCCAGAGCATGGATGCCCTGGGCTAACTCCTCTGCCAAGGGCTGTAGTTGGACAGTTTCCCTTAGCAGGGGTGTGTACCTGGAAAATACTA
TAATTGATCAGTACAGATAAGTCCTAGAAAATTAAGTTGTTGCAAGAGTTACAATTCTGCCTCGTTCACATGCTGTGGTGAATGCTAGTAAATAATTAAA
TGCTGGTAAACCAATGTCTAGAATTTGATGTTATATCTTTTAGTAGTCATCTACCTATAACTGAAAAATTGCTGCCAAAAATTACATGTGCTGCCAACCC
CAAATAGGGCCATGGGCAAATAGATATGTAATACCTGTTGTTTTAAGATGGACAAATGGAAATTGATAGTCTTTAAACATAAGCAATAGGGAGAATATGC
ACATAGGCAGATTAAAAAATGCTTAATGAGAAAGCCATAGCAGTTATCCACTTCTGGTCTTATTTCCTTTTTAATACCCAGGAATAGCTGTGTGTACTGC
TAAGAATTCACTTTTCTGCAGTATCACACAGTTCAGGYTGAAGACAGAGGACCGCTTTCCTTTTGTGATATTTATGCTACAAAGTAATGTTTTGCCTAAT
GCATTTCCACTTATGAGATAAATTGTGGATATTATCAAAAACTTTTCTGGTACAATAAGTGAAATTCCTTTCTAATTTTCAGGAGGACTCAGAGAGAGTA
ATGATAATTACCGGACCAAACATGGGTGGAAAGAGCTCCTACATAAAACAAGTTGCATTGATTACCATCATGGCTCAGATTGGCTCCTATGTTCCTGCAG
AAGAAGCGACAATTGGGATTGTGGATGGCATTTTCACAAGGTAAGTACGTTAATTCAGCTTGCATATATTCTTGAAAATAAGTCAAGCCCACATTATCGC
ATGAATTTTCCTTTTGTGTACATATTTAGATGCTCTTAAAGCACTCAACATTTAGGAGCTTAAATAAATTATTTCAAGGCCGGGCACGGTGGCTCACACC
TGTGATCCCAGCACTTTGGGAGACCAAGGCAGGAGGATCACTTGAGTCTAGGAGTTTGAGAGCAGCCTGGGCAACATGGCAAAACCCCATCTTGACAAAA
AATGAAAAAATTAGCCAGGAACCTGAGGTGGGAGGATCACCTGAGCCTGGGGAGGTTAAGGCAACAGTGAGCCGAGGTCACACCATTGCACTCCAGCCTG
GGCAACAAAGTGAGACCCTGTCTCAAAGAAAAAAMAAAAACAAAAACAAAAACAGAAAAAAAACCCACGTTATTTTTATTATGACTGTTAATACTAGAAA
AGACTTAAGAGTTAATTTTGTCCAATAGCTTCCAAATTATTTTTAATTATTGAGTTATTTTATTTTATTTATTATTATTATTATTTGAGATGGAGTTTTG
CTCTCGTTTCCTAGGCCAGAGTGCAATGGCACTATCTCAGCTCACTGCAACCTTTGCCTCCCCAGTTCAAGCTATTCTCCTGCCTCAGCCTCCTGAATAG
CTGGGATTACAGGTGCCTGCCACCACGCCCAGCTGATTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTAGTCTTGAACTCCTGAC
CCCAAGTGAGCCGCCCGCCTTGGCCTCTCCAAGTGCTGGGATTATAGGCGTGAGCCACCACACCCAGCTGAGTTCTTATTTTGAAGAAAATCTTTTGTAG
AAAATCAATATTTAAGCAGATAAAAACAGATCTGCTCTGTCTTCTGGGGTAGAAGGCTTGGAGACTTGGCTGTTAGGCTCTGTAGAGCACAGTCTGAAAA
CTTGTCCATCCTCCCCATTTTAGGTGCAGACCTGAAACAAACTGCAAAAGGCATTGGACCAAGATCATTTTGTTGATATCCCTTTTTACTCTATGAACAT
TACATGCAACTGACTAAGTCTTACCCTCAATGTGTAAACCTAAATTTTATGCCGTGTTAGGAATATGAGTGAAATATCCTGGCTTCACTAAGGAGAATTC
GTAGTTTAATCTGTTTAACACCTTCTGATTTATCAGTTCTTAAAGCATCGTGTATATTTCTTACATGTACATTTCTAAAAAGTAAATACAGTCTCTGTGC
ATAGTCAAGCTTTGTGTATAGAGTGTCTTGAGTTGTTGTCCAGCTACGTATTTATATAATATTTGACTGTGGAATCACATCAGAATATATCACATGCTAA
TATTGATATTCTTGAGTAGACACTAAAATGCTTTAAAGCTTCATTTTTCATCTGAGAATGAACAAAGTACCCTGAATTCTGTTTGATGCCATGTCACCAA
ATAGGTGTTATTCTGATCCCCATATATGTTTAAATTAACTCAAAATAAGAAATTTAAAGAGTCTTTCTTTAGTTCTTAAGACTTAATTGATTTTCTATTT
TATAAGAAAAACAAACCAGGTATTTTATTTTGGTTACAGTATTAAGGAAAGTAGCAGAGATATTTAGTAAAGAAAAAAAAAAGAGAAAAAAGAAAAAAAT
TATTGGTCAATATAAGGGGATTTGCCTGGAAGGAAATCTTGTTACTGAGCCGAATAGCAAGAATGTTTGTAGATACAAGTAAAATAAAAGAAGGGTTTAT
TTTTGTCATATAAGGAGAAGGCTGGAGGTGGGTAGCTACTTCTGGTGTTTCAGTGGCTCTGCCATTTCACTGGCCTTTCCCTCAGAGTTGTAAGATTGCT
GCTGCAGCTCCAGGCATCACATTCCTATTCACATGAGGTAAAAAGGAGAAGGGACTGCCATAGCTCCCCCACACCCTTTTTTTAAAAAATTTTTTTAGGA
CATAGTAGGTTTTTAGGATCCTCCCAGAAAACTTACCTTTCACTGACCAGAACTGTGTCTCATGGCCATAGTTGCAAGGAAAACAGAAAATAAGAAGGTA
GTTTTTGTCCAGCTTTTAAATAGAGTTAAGCACAGTAATTGGGARTACAATCAGTGGTAATCAGAAAATAGTTTCTGTCACAGGGTGTGGAATCAGTAAT
AATAGTAACAGCCAACCTYTATGATATATTTACAATATTAGTGTAATATTCTTATCAAGGTACAGGCACTGTTATGTGCACCTTATATAGAGTACTTTAT
GTAAGTACATTCAATGAGTACATGTCTAAGCCTTCTAAACCATGCTGATTTCAAGAAATTGGAGTATTTATCCATTCATTTTCATTTATTCATTCATCCA
ACATGTACTAAGTGAATACCTAACATATGGCAGGCACTGAGAATACAAAGGAACCACAGTTTTTGATTTCATGAAAGCTAYRTAGTGGAGAAAATCAGCA
TTAACCAAATAATCACATACAGAAATGTGAAACTGCAGCTATGACAAGTCAATGAAGGCTATATGCAAGATGTTAGGACAGGCTGTGATCCTGATATGAT
CTGGTCAGGAAGGTCAGGGGAAGGCTTCCCTTAGCAAGTAACTTTTGAGTGCCTATCTGAAGGATGAGTGTAAGAAGGAAGGAAGTATATTTCAGAGAGA
GCATGTGCAAAAGTCCTTTAGCATAAAAAACATAGACAATGAGTGAAGGGTGGTCCTCCAGGAGAGCAAGATTCTAGGTGAAGCATAGCCATGTCATTTT
AGGAGTTTATCCTAAGAGCCATGGTAAACTATTGAAGAATTTTAACCAGGGTTTGGCATGATTATGTCTGCATTGGTTACACTGTAAAGAATGTCTGGAG
AAAAAACCAAGTAGATCAGAGGAACCCAAAGAGCAGGCTCTTTTGGTGGTCTTGGTGAAAGGATCAGTAAGTAGCTTGGATTAAGTTTGTAGTGCTAGTT
TAAGTGGAAAGGAGTCATATTTGAAATATATTTGGGAAATAAATCACCAGGACTTGGCGATAGATAGGGGTATGGCAGCTGAGATAAATGGAGTTGTCAG
AGATGACATTGAGTTTGTGCATCTGAATGGTGAATGGTGACATTTACTAGAAGAGGATGTTTTTTCATAGATTCCGACGTTATCTTTGTGTATAATAAGT
AGAATTATTCTGAGACATTCAAAGGGAGCTATCATATAGTAGGCAGTGGATATAAAGTTTAGATTTCAGACAGAGAGATCAAAGGTAAAGATGTAAATTT
GTTGTGAGACATTTTTGTGTACGTGATTGGGTGTGGATGAGATCATCTTGACAGACAGTATGGTGRAGAAGATTAATGTTCTGAGACTGAACCTTAAAAC
TGCCAAGATTTCATAGTTGAGTAAGAAGTTAAGGTTGAAAACCAACAAAGGAGGTGTAGCCAGAGAGGCAGGAGAGAAAAACAGKACATTACAGTGTCAT
GGGAGCGAGGGGAAAGAGTGCTTCAAGAAGAAAAGTAGTGGTCAACAGTGCTGAAAGGTCAGGTGAGTTGAAGCCTGAAAAGTCACCTTTGGTCTTAGCA
AAATAGCTGTCACTAATGACCTTAGCAGGAGCTGCTTTCGTGGAGTGGTGGGGCCACACTGCAGTTAAAAGAGGGCTAAAGAGTGAGTTAGAGGTCAGGA
AGTAGAGGGGGTTAGTACAGGTGATACTGCAAAGGTTGGCCAGGAAGAAGACAGGAGAGATCCAGTGAGGGACTTGTTTTTTGTTTTTAAATGGTAGACT
TGAACGTACTTCAATGGGATATCCAGTGGGATATGTTATTTCCAAGAATTTATTATTCTAAAAATAAATAAATWAATTAATTAATCACCTTTGGAGGATC
CTAGAATGAATCCTAATGATACTTAAAATCAAAATATCATTAGTCACWTGGAGGTTGAAAACTGAAAAATAAAGATCCAAGCAGGTATCCTATCTTTTCA
AATAGGTAACGGGGAAGTTTCTCTTTATAGAAATGTTCCAGCCAATAAACCAAGCAGGAATGACAAGAATTAGAGTATCACCCTTTTTGCAACCCCTGAT
GTAATAACAGATTTAAGTAATAATCAGAAATGGCTGCTAATGTCACCAAAGCAGAGACAACCAGACATTAGGTAAAAGTTTGTGACAACTTATGATGTCT
TCTGGCCAAAAAAAATCAAACTGAATAGTCGGGCATGGTGGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAG
GAGTTCAAGACCAGCCTGGCCAACAATGGCCAACGTGGTGAAACCCGTCTCTACTAAAAATATAAAAAATAGCCAGGTGTGGTGGCAAGCACCTGTAATC
CCAGCTACTTCAGAGGCTGAGGCAGGAGAATTGCTTGAACTGGGGAGGTGGAGGTTGTAGTGAGACAAGATCACGCCACTGCACTCCAGCCTGGGCAACA
GAGGAAGACTCCATCTAAAAAGAAAATCAAACTGAAACTGTTCAGACCTCTAGATCTAGATRCCAATTTACAAGAGAAAAAGAGAATAGAGGAACATGTT
AAACACCACCRTAGGGGTACTGTCAGCAAAATCTAGACTGTGGGAAACTATAGGACAAATGACTGGTGTTTTTTTTTTTYTAACAAATAAATAGCAATGA
CAAAAAAAAAAAAAAAAAAAAAGGTGGGGGAGAGAGGGAAGAGAACCTGCATATTAAAAGAGAGTTAAAGACCAGTCACCCAGTTCCAACATACAGATCT
TAATTCAATCCTGACTCAAACACATAAACCTTTTTTTTTAAAGCACTAGTGAAACATTTAAAAATTTTTGAGCACTGACAGGGTATCTAATGATACTGAA
GAATTACTTAAAAAAAYGTTTAAGTGAGATAAACAGTGCAATGCAATGGTTATGATTTAATAGAAAAATCCTTACTTTAGTGATACATGCTAAAATGTTT
ACATATTAAATGATTTGCTACCCAAGATATACATCACAATAATCAAGGATGGATAGGGAAATTTGGTAGGATAGAGATGAAATGAGATTGGCCATGAATT
GATCATTGTTTGAGCTTGATAATGGCTACATTGGAGTTGCATTATGCATTTTTCTTTATTGTACATCTTTGGATTTTTTTATAAGTTTTTTTGTTATTGT
TCTGGGATTTAGCCATTTGAGAAAGAGATAAGATCCCTCGTGTAGGATAGGCATTGTTTCAAACTGTGCGTATGAAATCAGTGCATTGAATTGCAATTAG
CATTTTGGGGTARTACTTCCTAGATAGTGCTTTGTGTTCCACATCATGGCATATCAGGGTGCAACCAATGTCCAGTTGACCCAAATAAGCTTTTTTTTTT
TAATGCAGTAGAATGGAGTAGAAGAAAAAGTATCAAAATCATTAATTTATAGCATGTGGCACAGAGGTGGAGTTATGCAATAAGAAGGCCATTACATTTC
TGTGTCATCAGTAATGACATAGAAATTATAATGTTATTAGGAGATGTTAACATTGGCCCAATAATGAGATTTAAACTCTGTTGTGCTAAAAACATATGTA
TATATAGGACAAGTCACCCAGTTCCCCATATATGTGTGTGTGTGTATATATATGTATATATATGTGTGTATATATATGTGTATATATGTATATATGTGTA
TATATGTGTGTATATATGTATATATGTGTGTGTATATATATGTATATGTGTGTGTGTGTGTGTGTGTGTRTATATATATATATAATTTTTTTTTTTTTTG
AGACGGAGTTTCGCTCCTGTCGCCCAAGCTGGAGTGCAATGACACGATCCCAGGATCCCAGCTCACTGCAACCTCCGCCTCCTGGATTCAAGCTATTTTC
CTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGAGGGGGTTTCGCCATGTTGGCCA
GGCTGGTTTCAAACTCCTGACCTCAGGTGATCCGCCCGCCTTGACCTCCCAAAGCACTGGGATTACAGGTGTGAGCCACTGCGCCCGGCCAAAAACATAT
TTTTATTAAAACCTTAGTGCACTGTAGTTTTATGCTAGACGTTAGGGATACAAACCTGAATAAGATAATTTACCTGTCTTTAAGGCCATAGGGCCTGTGT
CCCTGCATATTCTTACTGAGTATGCCAAGAAAGCCCCTGTCTTTAAGGAGCTCAAGTGCAGTAAGGGAGATGGAGAAGCAAATCTTTACAATTCGGTAAG
ACCATGCAATGCTAGAGAAGTGTATGTGTATACGTGTTTATTTGCTTGCTCATTCCTTCATTCATGTTTTTCCTGTCATCTTCCAGAAAGGAATGAGACA
GCTTGCAGAAAATTCAAAATAGCTTAAGTGAATAAATAAGGATGAGGGCTTAAAATGGAGCCATGACTGAGGCTTAAAACATCAATGCCCAATACTGCTG
TGGATAAGCCATAAATCTGGTTCAAAGGTTTCCACAAAGCTAAATTTGTTCAGTTAAATAGTTCACAGTGCCCARAAAGCCAAATGAATTAATTAGTTAA
GARGGCAACTTAAAACAAATTTTTATTGTGTTTGACAGCAATCTTTTAGTAATAAAATCAGCTAGAAGAATATATTGGGTAGTATCACACAGACTAGGTT
TTATTGGGTCCCATTGGTTACAGTTTAGGAAACAAATGTTTGMTTATATTATTCTTGGATCACAGGCTCCACTGAGACAGAAATTGTGCTTGTTCTGCAC
ACCTTTTATCCCCTATTCCTAGTACTAAGTAGATGTGCAGTAAATATTTGTTTAAAAACTGACAATAAAAACTGTAATATAAATAAGATGTGTTGACATA
ACTCTGTTTCTTAGTCCAAATTTCTGGAATCTGAAGGAAACATCCCCTTGTGATTCAAACACCATCTAAAATAGTATATTGGAGCTTAACTAAGTTTTGC
CACAGGACTCAAAAAGTCATCAAATTTCTATGTAAGTTTCGGTCTTATAAAGAAAACACTTAAGTTTAGGTATGTGGCAGGATAAATTATTAATACACAG
GAAAGAGCAAAAGTTCCAGTGTCATGGAGATTAGTCTGTCCTGACAACACTCTGTGTACCAGTGCACCTTTGTGATGCTGAGTAAGAGGAGATTTGCACT
TCACGAAGGTCCAGGTTAAGCTTAGTTGCTCAGTCTGGACTCTGGTCCCTAAAGTGGGAAGTCTCAGGCAAATCTGAGTATCAGACCATGCCGGCAATTC
AGCTCTCTTCACCTGCTTCTYTCTCTGCAAGATGGGATAATCATGATACTTATATTTCAGGGTGTTGTCATGTAGTTTAAATAATGCATATAAAACAATC
TAGTACCTGACATATAGTAGTTCCTTGGTAATATTAGTTACAATTTTAAGTCCCATCTCTATGACACTTTGACCATTTCATTCCACAATGATCTGTTCAC
GGTAAACTCCTAATGCCCTATTTATTTGGACTCAGTTATTTCAGTGTCTTATTTCAGTATCTATCTTAGTTCATAACTGGTTATCCTATGCCATCATGCT
ATTTGTTCACTATTTGAGGGAAAGAACTCTACTCCATTGTRTATTCCCTGCCCCAYTCAGGATGGCAGTAAGTACAGCTACTAATATAAATTAAAGTCAT
TCAGAAATGAAATTATTTTCACATTTATATTACATTGTTTTCACTTCATCCTGGAAGTTATCATTAGTCTGAAACAAACCCAGAGATACTGATCCCATAT
TTCAAAATTGACCACAACTTTAAAGCATTAATTAATTAATAAAGAATTACACGTGCCAGTTTAAAAAGAAATATGCAGATTATAGAGATTTAAATACTGA
AATATGGGACATTTTCCTGTGCTCTGCCATTTGAGTAGCTGTTAGTTTATCAACCTTCAGGTCATGTTTATAGAAGCACTCTGCCACAGGGCCTGTGTCC
CTGCATRTTCTTACTGAGTATGCCAAGAAAGCCCCTGATTGCTTTTTACATGGGCCACTTATTTGTCAAAGTTGTGCTTGCAGCAAACAACCTGGAGGGA
TAAGTTAATTCTCCCCTTAAAGAGGAAGCTTGCTTCCCTTGTTGTATGCACAGCATCCATGGTACATCACCCTCACAGGACTTGGGGGCTAATGTAAACC
AACATGAGTAATAAAGTCCTTTGTCTCTGACCCAGTGGCCTTGTGTCTTCTGCCGTTATCTGTGAAACCAGTGGTATTAGGGTAACCTGTTAGCTTTTAA
GCAGAGTAAAATCCTAGACTTCACACAGTTTTTGATAGGTCAATAGGATTCTCAGATCTCTTGCTAATATTAATTACCTGCAAAATGTGAGTAAACCGGC
TGYGTATGGGAAAGAATAGGGGCTTTAGATCTAGAAAACTCAAGATTCTGTACAAGTTCTCCAGCATCCTGGCCATGTGCAAGTTACTTCATCCTTCTAG
ARCCCTGAGAGAAGTACTGTGCCATAGTCAAGAGAATCAGACATGTTATACTTGAGCACAAATCTTGCTTTTCCCTTTTAACAACTATGTGACCTTTTTC
AAATTACTACTTCTCAGTGTCTCAGTTCTTTTCCTGTAAAATGGAGTTGATACTGCTAACCCTCATATATTATTGTGGGAATTAAATAAAGTACATGAAA
ATGCCAGACACATTGTAGGTACCTAGTAAATTTTAGTTTTTTTTCTTCCAGATTCTATGCCATTAGTATTTTAGATTTAAAAGTCTGTCTTCATATATGT
GTGAGTATAGTGCTCACTTTTCTAAACTTAGCATCGGTTTTTGCACCTATAAAACAAAAAGTTCGATAATACCGACTTCACAAGGTTGATTTGAGAATAA
GTTTTGAAAGGATGTGAAATCACTATGAAGTGCTTCTCTTAGTTGTTCTCATTGAAAGAAGTTGACCAAATCTAATCTCCCTGACACTTTCCCTCTTGGA
GCACTGTGGCCATAATAGAATTGAGAATCCAGGAACCTAGAGGCACCACCCACACAGAATGGGATAATGGCAGTGCCTTTCCTTCTGTTCCTCAGGAAGT
GGCTGGCATGGAAGGTGGTCTCATGGAAGATGCACATCCTCCTCCATGCTGAGACATGCCTTTATCTCATGACTCAGGAACAGCCTTAAGGAACTGGCCC
AATTGCCAATCACTGTGTGAAAGAACAACCACCAAATTTGTTGTTTCAGCATAGTAGGATTCATTCTCAATTTATTCCRTCAAACATACTAGTTTTTTAG
CTACTTCGGGATATATTTTGCAGTGACTTGGTCCTGGTGGGTAGTGTTATGTGGAAAGATACGCTTGTTACAATATGTGAAAAAGAGCCAGTTACAAAGC
CTGGCATTCATTTCACTTTTGTATGAGTAATTGTATGTATAAATATATGYGGAGAAAACCRTCTAGATAGAAGGCTTATTCCAAAATACCATGGGGGATA
TGGCTTTATGGTCATTTTTCTTTTACTTATGTAAATTTTTAAATTTCTAAAATAAATGTGTGAAAAAAGTAAAACCTCCTCACCCTCACAAACTACCAGT
ATTGGTCAAAATGAGATGTTTTATAGGAATCTGGTGAAATGCTTACATGGTCACTGTCTGACAACTCTTTTTTTCTGGGGCAAATATCTCTTTCCTACTC
AGGGACRTGGAATTTGGGGTTTTAAGCTTTAGACCATCCTGGGCACTTCAATATATCAGACCTTACTTGTCCACAAAGTTTTTCCCAGACTATAAGTAAC
CCTAGTTCTTCTTCCTTTAGGAGTTGATGGCATTCTGTCTGGGAGAGAATACAAGATTCATGTATTTAATTTTCATAATAAAAACACTGCTCATATGGCA
CTCTTAATCTTCAGTGCACATTAAATTTTTTTTTTCCATGGAGCTTTAAAAAAAATACTGATGCCTGAACCCTACCTCCAGAAATCTTTTTTTGTTTTGT
TTTGTTTTGTTTTGTTTTTATTGATCATTCTTGGGTGTTTCTYGCAGAGGGGGATTTGGCAGGGTCATAGGACAATAGTGGAGGGAAGGTCAGCAGATAA
ACAAGTGAACAAAGGTCTCTGGTTTTCCTAGGCAGAGGACCCTGCGGCCTTCSGCAGTGTTTGTGTCCCTGGGTACTTGAGATTAGGGAGTGGTAATGAC
TCTTAAYGAGCATGCTGCCTTCAAGCATCTGTTTAACAAAGCACATCTTGCACCGCCCTTAATCCATTTAACCCTGAGTGGACACAGCACATGTTTCAGA
GAGCACAGGGTTGGGGGCAAGGTCATAGATCAACAGCATCCCAAGGCAGAAGAATCTTTCTTAGTACAGAGCAAAATGGAGTCTCCTATGTCTACTTCTT
TCTACACAGACACAGCAACAATCTGATTTCTCTGTCTTTTCCCCACATTTCCCCCTTTTCTATTCCACAAAACCGCCATCGTCATCATGGCCCATTCTCA
ATGAGCTGTTGGGTACACCTCCCAGACGGGGTGGCGGCCGGGCAGAGGGGCTCCTCACTTCCCAGAGGGGCGGCCGGGCAGAGGCGCCCCTCACCTCCCG
GACGGGGTGGCGGCTGGGCGGAGGCGCCCCCCACCTCCCTCCCGGACGGGGCGGCTGGCCGGGTGGGGGCTGCCCCCCACCTCCCTCCAGGACGGGGGCT
GCCCCCCACCTCCCTCCCAGACGGGGCGGCTGGCCGGGCGGGGGCTGCCCCCCACCTCCCTCCCAGAAATCTTAAGTTGGACTGGGGCATGGTCTGGAAG
TCACATTTTAAAAGTGTCCCAGATGATTTCAAAGTGAAGCCAAGAYGTGGAAGCACTTCCTCAAGCCCTCGCTGGAGAAATCATGTGTTGAATTATAAAA
ATAATAGGTGCTTATTATGAAATGTAACAGGTGTACTAGGGTATGAAGTGAAACAAAAACACCCCATTCTCCCCAGGTCTACCATGTTTCTTTAGGTAAC
ATTTCACAAGTCTASAAGTATACATCTTTTCTTTTCTAAAATGGTATCATACTAAGCATTACTATTGTATAACTTGCTTTTGTTTCCTAATATGTGGGAG
ACATATTTCTCTATCAGTTTATACAGATTAGTCGTGCTCTTTTTAATGACTGCAGTGTATCTGGAGTACAGATACTCCTTGATTTCTTTAACCTCTGAGA
GCTCCGTCTGGGACAGACTGCCCTTTAGTATATGGGACATGTTCCCTATCCATTCCACTGTGCTCCCACATCTTCCTGTTGTTACCACTGGAAAGGAATC
TACATGGACTACATTAAATTTTATCCCTAGGATATAATTATATCCCATTAAATTATATCCCTAGGATATAGTTTAATATTACGCCCTTGTAGCTTTCATT
GATTTTTTATGAAATAAWTCAGACGTATAATAATCCTCCATGCACCTTCTACCCTACTAAAGAAATAAAACACTACAATACAATCGAACCTCTAATCCTC
CCTAATCCCATTGCCCTCTACCCTATCCATAGTAACTAACTGGTTGTCCTTGACTTTGGTATCCATCCCATGCATTTCTCTACATTTTTACTCACTGATG
TTTTTTGAAACAATGCATGGAAGTATTTGGTATGCTTTTAAACTTTACACACAGTGTATCACACTATATTCTTCTGTAAGTGGCTTTTTCCCCCCTCAGT
GTTATATATTTATAAAATTCATATGGGTACATATACTTTGAGTTCATTAATTTTTCCCTAATTATGATAGTTTATTTTATGAATATATTACTATTCCCTC
ATTTTTCTTGATATGATGCCAATTTTTTGCAAATATAAACAGTCATATTTGTGACTTGTCTCATACTCAACTCCTAGTGCACACAAGGGAGTTTTTCTCA
ATCTAGGAGTGGAGTTGTTGGATTGTAAGGAACATGTGTCTTTCATGATCTCCAAGGAGGCTGTACCAGCTTAGAATCCCACCACCAGTGTTTAAAAGTT
TGTTCTCATGCTTAAAATAGATTAGAATAAGAAATGTTCATTTGATGATATTTCTATATATTCTCCAAAATTGCTCATAAGAACATTTTCATTTTTATTA
CTTAATGTCCTTCACATGAAGTGCCATCTGTTAAATTATTTTTTTGTTAATGCTAGGGACATTTTTTCTCTCCATGTGCATACTGTGCCTGTTTACAAAA
AGATTTGAAGCAATTTATTGGCCTTTTCTGACAAACTGCCAGGCTTCCTGCTATCAGCCAGTGGCTGCTTCCTCTTTAATTCCTTTTTGTCTTGGCTGCC
AAGACAGCAAGAGCTAAACTCAAGGCTCAGGTGTGGAAACAAATTTGGCTTAGTTTTCCCCTTCGCTTCTTTTATGGGAGTATTTCTCTAGTGTCATTCT
TAGAACAGCTGCATCAGAATCTTGGCGGTGCTAGTTAAAAATGCTACTTACTAAGCCCTTTCACACATCTTTTTAATTGGAATCTCCAAGGTGGTACACA
AGAATTAGCATTTTAAAAGCTCATGCTAAGCTTAAATGTAAGAATCTACTGTATGGCTTGTAATCTTAGTTTCATGTAATTGTTTCATTAGAATATGTTA
TTGTAARTCACTTCAAATGCTTTTTGTACTCAATGGAAAAAATATTAAAATCTAGCAGAATGAGATATTTGCATAAGATTTAGCTCCAAGCTGTATCTGT
AAATAGATTCTATTATCAATTGGCCATTTAGAACACTAGGTTTAAATCTGTGGATTCCATAAATATTCATTGAGTGCCCACTATGTGCTATACAGTGTGC
AAGAAGAAGAAGTAAATGGATGAAACGCTATAAACAGACAGGAGGTTAGGAATTTTTTTTTTTTTTTTTTTGAGATGGAGTTTTACTCTTGTTGCCCAGG
CTGGAGTGCAGTGGCATAATCTTGGCTCACTGCAACCTCTACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCRAGTAGTTGGGATTACAGGCA
TGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCACRTTGGTCAAGCTGGTCTCGAACTCCTAACCTCAGGTAATCCACC
TGCCTCGGCCTCCAGAAGTGCTAGGATTACAGGTGTGAGCCACCGSGCCCGCCTCCAGAATCTTTTATCTGAATACTATAACCTCACAYGAATCTTTTCC
TGAATAAGAAGCAGATTTTTTTAAAAAGTAGAGTTTTGGCAAACACATACATTTGTTTCTAATGGATATATCTGTGCATTATGATATGTGTACTCATCGA
TGAAATATTTCTAGACCCATATTTCCAAGGATCATTAACATCCTTGAATGCATCACTGAGATAAGATCTGTTTATTATCTTGATGAATATAAACTTAAAT
CTCATCTAGCCTTTTAGACTCAGTAATTAAGTTTTAGAAAAGCAATGAATTATTAAGTCTCATTAGAAAACAGTTTGAAAAAAGCAAAACAATTGGCCTC
TTCTCTCAGCATAATTTATTTCTATTAAACGTTGGTGATTAAGCGTTGATGAAAAGAGATATTTACTCGATGTGGCCCATAGCTAACAATTTTCATGCCA
TGCTACTTACACAAACTCCCTCTTCTGACACCCAGCTTCAGGGAATTCTGTGTACTCAGAGTGGCACGAGTGTGTTTTTCTTGAAAGAGAATTGGAAGAT
AATAGACATTCAAGTACTTAGTAACTTATTTGTTTGCCCAACTTAGTGTAATTCAGAAAATATTGAGCACTGACTGTGGAGTATTTGTACTCTATAYAAA
ATATATTCTTTATGGACAGAAAGAAAACATCTTGAATCAGTCCACACCTTCTAATTAGTTGTAAATACCAGTACTAAAATCCACATGATAAGTGAGCACT
AAATGAGTAAGTTGTTATGATTTTATTGGCATTAAAAATGTCATCTTATCAATATCTCTGTGCTTTCTTTAACTGTGTCTAGCAAACACTAGTTATCTTA
TTTCATCTTTTTCATGGGAAATTATTTTATGAATTTAAGGCTTGTTCCTTTAATTAGCTTCCTCAAAGTCACCTGAAGGTTTGGTTTGATTTGGTTTTAA
ATGCAAATCCCAGGCAAATCTTCTGATTGAAGATCCCCTGGAGATAGATACTGTTGTAGTAGGTATGATGAAGGAGGCCTTTAGACACTATTTTTTTAAA
AAAGACTTTAATTTTTCAGAGCAGTTTTAGGCTTACACCAAAACTGAGAGGAAGGTATAGAGAGTGTCCATCTACACTTACCACTGCCCCTGCACAGCCT
CCCCCATTTTCAGCATCCCCCACCAGAGTACTCCCTTTCTTACAATTGATGAACCTACATTGGCACATCATTACCACCCAAAGTCCATAGTTTACATGAG
GGCTCATTGGGTAATTGATAAACAAAGTAAATTTATTACAGTTCTGTAGACTGGGAAGTCCGAGGTCAAGGGGCTACATCTGGTATGGGCCTTCTTACTG
CCTCATAAAATGGCAGAAGGCATCACATGGCAAGGGGGCTTACTAGAGAAAACCAAACTGGCTTTTACAACAGACCCACTCTAGTGAAAGTAACCCACTC
CTATGATAACCCATTGATTCATTACCCCTTAATCCATTAATCCCCAAATGGATTAATCCATTCATAAGGGCAGAGCCCTGATGACCCAGTCACCTCTTAA
AGGCCCCACTTAATACTGTTACATTGGGAATTCAATTTCAATGTGAGTTTTAGAGGGGACAAACATTCAAACCACAGCATTCTGCCCCTGGCCCCCACAA
ATTCTATGTCCTTCTCATATACAAATACATTCATTCCATGTTTATAGCCCCAAAGTCTAGAGTCTCATCGAATCAGATGTGAGTAATGCTCAAAGGACAA
TTCATCTTGAGGTAAATTTCTTACAGCTGTGAGCCTGTGAAATGAACGTGTTACCTACTTCCAAAATAAATGGTGGGACAGGTGTAAGACATTCTCATTT
CATAAGGGAGAGATAGGCAAGAAGAAAGGGGTAACAGGTCCCAAATAAGTCCAACACCCAAAGGAAAAACTAAGCCTTGAGGCTCCAGAGTAATCTTCCT
TGGTTCCATGTCTTGCTTCCTAGATACACCAGTGTGAGGATTGGATCCCAGGGCCTCAGGCAGCCCCACCACCTAGGCTTTCCTGGGCTCTCCCAGGCTT
CAGTTCTCACAAGTAACAGTCAAGTGCCTGCAGCTTTCCCAGGCTGGAGCTGAATGCTGGCAGTTCTACAGTTCTGAGATCTCAGCRAGGTTCTGTTCTC
TCTGCTCCACTAGACATTACCCCACTTGGGGTTGTCTGTCCTGGCTCTGGCTCTGACCCCACATTTTTGCTTGGCATTAATCCACGAATGGATTAATTCA
TTTATGAGGGCAGAGCCCTCATCACCCAATCACCTCTTAAATGCCCCACCTCTTAGTACTGTTACATTGGAGATTAAGTTTCAACTTGAATTTCAGAAGG
GTCAAAATTTGAACCAAAGTACTGTTTATTTCCTTTTCCTGTCTTATTGCATTAACTAGTACTTCCACTGCAGTGTTGAAAAGGAGTGGTAAGAGGTGAC
AGCTTCCTATTTTGGCTGATCCTAGTTGGAAAAGCTTCAAGTTTCTCACCATTAAGTATGATGTTAGCTATAGGTTTTTTTGTGAATATTCCTTATCAAG
TTGAGGAAGTTCTCCTCTATTCTTAATTTACTGAGAGTTTTTATCATGAATGGGTGTCGGATTTTATCAAATGCTTTCTATGCGTCTGTTGATATGATCA
TGTGATTTTTCTTCTTTAGCCAGTTGATGTGATGGATTATGTTAACTGGTGATCAAATGTTCACCCAGTCTTGCACACTTAGGATGAGTCCTACTTAGTT
ATGGTCTGTTTTTCTTTTTATACATTGTTGGATTCATTTTGCTAATATTTTATTGAGGATTTTTGCATCTATGTTCATGAGAGATATTGGCCTGTAGTTT
TCTTATAATGCCTTTGTCCGGTTTTGGTATTAAGGTAATGCTGGCCTTATAGAATGTGTCAGGAAGTATTCCCTCTGCTTCTATTGTCTGAAACAGATTA
TAGAGAATTGGTCTAATTTCTTCCTTAAATGTTTGATAGAATTCACCAGTGAAGCCATTTGTGCCTGGTGTTTTCTATTTTAGAAGGTTAATACTTATTG
ATTCAATTTCTTTAATAGATACAGGCCTATTCAGATTGTCCCTGTCTTTTTGTGGGAGTTTTGACAGATTGTATCTTTCAAGGAATCAGTCTGTTTTATC
TAGGATATGAAATTTATGGCCATAACACTTTACAGTATTCCTTTATTATCTTTTTAATGCCCATGAGATCTGTGGTGATGTCTCCTCTTCTATTTTTAAT
ATTAGTAATTTGTATCCTCTCTCTTTTTTTCTTAGCCAAGCTAGAAATTATTAATTTTCTTGATCTTTTCAAAGAATTAGCTTTTGGTGTTGTTGATTTT
TCTCTATTRATTTTCTATTTCCAATTTCACTGATTTCTGCTGTAATCTCATCATTTATTGTCTTCTGCCTACTTCAGATTTAATTTACTTTCCTGTTTCT
GGTTTGCCCTTGAACTCTTATTTTTAAGAATCTCTACARGTGACTCTGATGCACAAATTTAGGAGCCATTGTTTGCATTTTAATTTCTAACATTTTATAG
GAAGAAAAACAGGATCAGAGAGAGATTTTGTTTTGCATGAGGTTATAATGTGTGCAGTTTATAAGGATGCAGCCTCTGGTTATATTGGGTTCCCCTGTAT
TCATCTTATTGATTTATCTGATTAATTTTATCCATGATGACAGATTAATCTTCCTTTGACAACCTTAATTATGTGTAGTTTTCCTAGCTATAGTTAACAT
TGAGTGAAATCATTTGCTCTGTTAATTATTTTTCTTTGCAGTTCTTGGGACTTTCCCACAAAGTGGACTACTAGCTATGTTAGAGGATGAGTTGCCCAGT
CAGCACAGTGTGGATTTTCTTTGAAGGAAAATACCTGTGTCCTTCGTAAGTGTCCTACACATGCTTTATAGACAGGGCYAGGGAACACTGTCATGTGAGC
CTGTAGAAATTTAGAATTTTTCTGGATTGTTCTCTTGATTCTCATCAGTGTTTCCACGGAAATTGAAAGATTGCTACAGTGGGTTTTGCTTGATTATATG
TGCAGTTTAGTATTATAACTTTTATAAATAAACTTTAAATACTGTAGTGTGATCTTATTGCAATCATTAGAAGGAAGGATTATATGAGAGAAACTTWTTT
TTCTATTATAATACACATGCTTCTCAAGTTAAAATGGGACTATGCCCTGATAAACCCATCATAAGTCAGAAACATCATAAATCAAAAATGCACTTAATAC
TCCAGTAAGCTCGTTATAAAATTTTAAAATAATAAGTCAGGGATTGTCTGTAATTTTACTTATGCTAATAAATGTTTTTCATATTGCTAGAAGAAGGCTA
GTTATTTCTGCCTTGTCTTAACAGAATGATACGATATAATTCTTAAATGTATCATTTGTGATTTTTAAAAMTAACATTTGTTTTTCTAATTACACAAGTA
ATGCATGTTCATTATGCAAAATTTTAAACTCAAAATTTTTTAATCACTTGTAATTCCACCACCTGGAGATCATTGTTGTTTAGGTAGATGGCTTTCCAGG
CTTTTTTAAAGTGCACATATGTAGTGGTAAATCATTTGTAATTTCATTCCATTTCTGAGTTATTGTTTATGTTTAATTAAATACAAGACAGATTTACTAA
TTCACGCTTTTTATGCCTTTTAAATACCATATGGTGCCTACATATCTTTTAGTAATTGGTATTCTCTTACAGTCTTTCCTCTACTTGGACTTTAGTTTTT
TGGGGTGTTTTTCTTCCTTATACCATCCTTCTTAAAAGTTAGAGTACTTTGTTAGTTAGGAGATTAGCTATCTTTTGTAAAATGTATGTAATATCCAAAA
AAAAAAAAAACAAGCTTTGACTTAGACATCCATTTTGGACAGAGTTCAAAGTTTTTAGCAACCTGAAGTGAATGGGAACATCTTCAGTTTCAGAAAGCAC
ACAAAATAAACTAACTCTTAAAACCTCTCCAGGTTGGGCGTGGTGGCTGAMTCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGT
CAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCGGGTGTGGTGGCGGGGCGCCTATAGTCCCA
GCTACYCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAAGG
CGAGACTCCTTCTCAAAAAACAAAAAAACAAAAAAACAAAAAAAACTCTCCCATACAAAGCACTTAGAGGATAAATCTATATTCCACTTATATGAGATGC
CTAGAATAAGCACATTCATAGAGACAGAAAATATGGGGAAAGGGGAGAGTTTTCCAGGATGGGGAAAGGGGAGAGTAAAGAGTTACTCTTAATGGATACA
GAGTTTCTCTTTCTGTTTCTGATGAAAAAGTTCTGCAAATGGAGGCCTGGCATGGTGGCTCACGCCATAATCCCAGCACTTTAGGAGGCTGAGGTGGGCA
GATAACCTGAGGTCAGGAGTTAAAGACCAGGCTGGCCAACATGGTGAAACTCTGTCTCTAGTAAAAATACAAAACTTATACAGGGTGGTGGTGCAAGCCT
GCAATCCTAGCTACTCAGGAGGCTGTGGCAGGAGAATCTCTTGAACCTGGGAGGCAGAGGTTGTGGTAAGCTGAGATTGTCCCACTGCACTCCAGCCTCG
GTGACAGAGTAAGACTCCATTAAAAAAAAAAAAAAATTCTGTAAATGGAAAGTAGTGATGGCTACACAACATTGTGGATGTTAATACCACTGAGCTGTGT
ACCTAAGAAATGCTAAAATGGTAAATTTTATTATTTTTATATATATATATCATAATTTTTAAAAGCACTTGAAGTATGTCCAATAATACTRTTGTAATAG
GAATAATCATTGCCTCTACTTAACAATTTTAATATTTAAGCTCTAGTTATCATTCAATATGAAAAGTCCTCTTTTCCTAATTGCAGTATTTCTCCSTTAT
ACTAGCATTTTCCTTGCAAAAGGCCCAGAGATTGTGATTTGAAGGGACAGAAGCCCACTCCATTTGCCTGAGAGACATCTAGAATATTATCTCAAAATAG
TAAGATCTCATAAAAACAAACTGTTTTTCAAATTTCCATGAAAGTGTTTTTTAYTTTAGAAACTGACCCAAAAAAGTACTAATTTCTTTTTTCCACAATG
CTTTATTAAGCTTTGTTGACCTATATAAGGGTTATAGGCGAGGAGGGGAGTAGGGGGATTAGAAAGATTAGTCAGCTGCCACTCCTAAAAATATCAGAGT
GATTTTTTTTTTCCTTAATCACATAACTGTAACCTTCTGTCTACTCAGGGCAAACTAACTTTAAGATGAAACCTAAAGAATGGATTTTTCATTTTTTACT
ACATTTGACTGTAAATACAGACAGCTTGATAATAATAACATATGCTGTGGAATTCCCTAAATCTCTAACATATTTTAACATCATTGTCTAGTATAGTATG
TCTTATAAATGATTGTTGATTTAATAAAAACTATAAACTTTATTTATTTTTTTGTTTTTTTGTTTTGAGATGGAGTCTCGCTCTGTCGCCAGGCTGGAGT
GCAGTGGCACCATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGAGTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGAGCGTGCCA
CCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCACTTGACCTCRTGATCCGCCCACGTCAGC
CTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCTCGCACAGCCAAACTTTCTTGTTAATGTATATCTTGTCTTGCTTCTAAAACTGATTTTTAGGCGT
GAGCCACTGCGCCCAGCCATCTTAGGCACTTTACTGAGATATTTACAACATAGCAGAATAATAAGAGAAGAGAATGGTATCCAAAGACTCTGGATCAGAG
AGAAAATAAGAATTGAATTATGATATAAAGCCAGGTATAAGATGTTATTCAGTTGTTTTCTAGTAATCAAGCTAGAATAAATAAACTATACATTTCTTAA
AGGAAATTAACAGGARATACGTTTATCAATAAACAGTTCCCACAATTATAAATGCATACTTCCCCAGTAGCCTTGATGACTGGTTCATGAGCCAGTATTT
CTTCAGTGTGTATTCAGCATTGCTACTTCCATTGGTACTRCATCCRTACCATCAGGTGCTATGGAAAAATAGAATTGTAATAGAAAATGTGTTGGCTCCT
AATGCAGTGGCCTTCAAACTACCCTCCAGGGTGTGAGTCCCACAGAGCCGCCTCAGAATAACAGGCCTAATAGTCCTGGGTTCTTAACCAGAGCAAACAT
CATTCATTGTATCTAATCTGCAGAGTGAATTTTCTTATAAAATATTAAATATTTTATATTAAAATATATTTTAAATATTTAAAAAGTTCTACAAATGGAA
AGCAGTGATGGCTACACAACCTTGTGGATGTTAATACCACTGAACTGTGTACCTAAGAAATGCTAAAATGGTAAATTTTATGTTATATATATTTATCATA
ATTTTTAAAAGCACTTGAAGTAAGTCAAAGAATCCTMCTGTAATAGAAATAATCATTGCCTCTACTTAACAATTTTARTATTTAAACTCTAGTTATTACA
TTTTAAATATAATTAAAATATATTTTTAGTTTAAATACTTAATAAAAATACTTAAAATATATATAAATATAAAATAATAATACTTAAAAATAATAAAGTA
AAAATATTATTTGAACAAAGGATTTAACAGCTAAAAAGATATTTTGAAACCTCTGACCTAGTACTAGAGTCAAGACCATTGCCTAATAAAAGTATGTCCA
AGATCTCCTGAACAYTGGCCTGCCCTCCTTAAGAAAGAAACCCTATAATACCATGAGGCATGTAGGGGTGACTCAAAAAACTCCAGGCCAGAAACYAGAA
CACCTAATAAGTATTTGTCTCTTGTCTGCCACAGATTAGCCCTGTCACCTTGAGGAAGTGGCTTGACCTCTGAAATGTCTTATCTCATCTATAAAATAGG
AGTATAAAATGATTACTAAGAACTTGTCCAGCACCAAGACTTTTTCAAAATTCTTTCTCTTGCCTCAAAGATGGCAAAGAATGTGCCATCAGACAAGCTC
TTCCCTTCTGTCAAAAGAGAAGAACCATTGGAGAAAGAAATGACCAAATTCTATGTAGAGAGCTTGAGCAAGAAGAAAAAATGTAGGGGAAGGGTAAATA
GCTCTGTCTAGAGCAATTGGCTTTTGTTGTTTACAGCTTGTCTATGTCAGACCATCCCGTAGGAAAAGTTTGGTAAGAACAAAGACCTTTGATAAAAGAT
GACTGAGAGACTGTCTGGGGTTTGATGCAAAGATCATCAGAGGCATCTACAAATGAGTAGTCACCAGTGACAAAATCTCAAAGCGAGGCAGGCTGGAGAA
TGGGCGATCTGTTAGTCTTGCCAGAGAGGARGGTATTAGCAAAGGCAGATTGAATAAGCGGAAGGTAAAAAAATAAAAAGCAGCAATAGCATTTTTTTTT
TACATATACTTCATTAGCACAGGTTTGGCTTTACCAATATAGGAAAGGCATTTTTACACTAATTAGGTCATTGTGAAAAAGAAAAATTGGAGTTATTTTT
TAAATGCAGTGTTTTTAACTAAGAAGAAAATATGAGACCGGGTATGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGCCTGAGGTGGGTGGATGACT
TGAGGTCAGGAGTTCRAGACCAGCCTAGCCAACAGGGTGAAACCCTGTCTCTACTAAAAATACAAAAACTAGCTGGGCATGGTGGCACATTCCTATAGTC
CCAGCTACTCGKGAGGCTGAGGCACGAGAATTACTTGAACCCTGGAGGTAGAGGTTACAGTGAGCTGAGATTGCACCACCGTACTCCAGCCTGGGCAACA
GAGAGACTGTCTCAAAAAAAAAAGAAAGAAAATATTAATACTGTGGAGGTTATGTGACAGTCTTTAATAACAACAACCAGTTATATTACTATAATAAGCT
TTCCATGAAAACACCAAAAAGTACTTTTTGATATCTTATTAAAAATTAAGATTCTGTCATATTTCTTAGAATTATATACATTATAATTTTATGTTTTTTA
GAATAAACTCAGCAATACTGTACAAGGATATCGTAATCTATATGGAAGCACAAAGGAACATATAAATTTAAATCCTTTTGCTCCATGATCAGTCACTTCT
TTTCATTTTAAACTTTRATTTTGGACATTCACAAAATTGTTAACTCTTGAGTGATGTGGATTGAGTAAGTTGTATTACAATTGTAAAAACAAATGATTCA
TTTCAACTTGTATTGAACATCTTATGTGCAAGACACTCTGCTTAACACTTGAGGGGACTACAGAGATAAATCAGTGAGGTCAGTTCTATGGGAGGGGAAT
CAGGGACAGCTACACAGAAGCAGCTTAAGGATGATAAGGCTTCCAGTCCACAGAAAGAGAGGGGTGAAGATGATTCCAGTATAATGGAACCATGAGAACA
CACAGAGGAATAAAGGTGTGTCACATCASCTCTTTGAATATGCCAMAAAAAAAAAAAAAAAAAAAARGCTCTGAATTAGTTTTCCCTCAGTATCTGCTGG
GGACTGGTTTCAGGACCCCCCAGTATGAAAATCTGCAGATGATCACATCCCTGATATAAAGTGGGATATTTGCATATAACCTGTGCACATCCTCCTCGAT
ACTTTAAATCATCTCCAGGTTACTTAGAATACCTAGTGTAATGTAAATGCTATGTAAAGAGTTCCTATACTGTATTATTTTTAACATTTATATTATTTTG
TATTGTTTTTTATTTTTATTGAATATTTTCGATCCACAGTTGATTGAATCTGCGGTTGCAGATACGGAGAGCTGATTGTATACCCTCTAAAAGGATGAAT
TTTATGCTATGTCACTTATATCTTAATAAAGCTATTATTTTTCAAAAGTACATGCCGTGTGTTAGRGATGGCAAGGATAAATTGTTGTCATGGTGACATG
GGATCCTGTGTTGTGCAGAAGGAGAGGAGACTGGAGAGAGGTGTAGGATCAGACCACACAGAGGGTCTTGAAAACCATGCTAGGAATTTTGAATTTTATT
TTCCAGGCATTAGTAAAACATTGTAAGTTTTTAAGCATAGGAATCAAAATGACTCCATTGATTTTAAAATACGGAGCTAAAAGATAAATTAGCTGTTAGT
AAAAGTGAAGGTGGAGAGGAAAAACTAGGCTATTGGAACAGCTTCGACCAAAGAGTGTAAATTAGTGAAACTAGTTTGCAAGAATACTAGRGACAGGGGT
CAGGCACGGTGGCTCACGCCTATYATCTCAGCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGCTCACAAGTTCGAGACCAGCCTAGGCAATGTGGC
AAAACCCCATCTCTACCAAAAATACAAAAATTAGCCAGGCATGGTGGTGCACGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGTTCGCTTGAA
CCTGGGAGGTTGAGGCTGCAGTGAGCCAAGATCGTACCATTGTACTCCAGCCTGCGTAACAGAGCCAGACCTTGTCTAAAAAAATAAAATAAAAATGCTG
GGGACTGGATATTGCATCTTAAAGGGGCAAGGAAAATGAAAGAAAATGCTGAATTCTCATTTTCATATTTATAGAACAAAGATACTGTATTATTTTTCTG
AACTGTGTAACCAACTATCACAAATTTAGCAGCTTGAGCAACACACATTTATTATATCAACATTTCTGTGGTTCATGACCCCAGACACAGCTTAGCTAGG
GTTGTGTGAGGCTGTGGTTAAGGTATTGGCCAGGGTGGGATTCTCACCTTGAGTCAGGACTAGAGATGCATCCACTTTCAGAATTACCCAGGTTGCTGGC
AGAATTCATTTCCTTGAGGTTGTGAGTCTGAGGTCCTCAGCTTCTTGCCAGCTGTAGGCTGGGGACTGCTCTCAGCTCCTAGAGGATGCTTGCAGATCAC
ATGGCCCTCTCAACATGACAGTGAACTTCTTCAAAGCCAGCTGGGGAGAAAGTCTCTAGCACTAGTTGACTGGCAAAACATACAACATCATATAATCGTG
AAATTAATATCTCATCACCTTTGCCATAGTCTGATGGTTCAAAGCAAGTTACAGGTCCCACTCACAATAAGAGGAGGAAATTATCCAAGGGGGTGAACAC
CAGAAAGTGGAGATGGTTGGGGTCACTATAGAGCATGTCCACCACAGGTACTTTTCAGCCTCTTAAAGTACAGTAGAGTGTCCTCTAAAGCCGAGTGAGC
AGAGTGTAGACTCTGGCGTCAGACCGAGCCAGGTTTGAATCCTGACTCCATGACTGACTATCCTTTTGAGCACTAAACCTCAGTCTCCTCATTTGTACAT
AGGGATAAAGATCTACGTCTCATGATGTGGTGTCAGGACAAAATGAGATAATGCCGGTAAAACACTTCAGTGAGTGCCCAAGACAGGAAAATTGCTCACA
TATGTTATCACATTTGAGTCTCAGCTACCATGAGAAGTAATTGAAAAGTTTTCCATTAAATGATTTACCTATATTAAATCAGTTTTTGCTCTTGAGTAAA
CTTAATCTAATGGACTTTTTGCTATATCATTGTGAGCATGGATTAATACATTCATGAAAAATCACTAGACTTGAGTAGAGGATTTTTTTTTTAATCAACC
TCTTCTTTTTACAGACAAGGAAGCTACAACCACATAGAAAAGTTATCCGACTTGCCTAAGATCTCACAGTACTTAGTGGCTAAGCCAGGACTAGAGTGAT
GGCCTATTTATGCAAGTTACTGCTGTTTCTACCATGTTTAGCTGTGTGACATAAATTTTTAATTACGACATTTATACATTTTTTCACTCAATCTTGTAGA
CTAGAAGCTCCTTTTTCAATGAGACAGCTAATTTTTTAATGCCAAGAAATAGATACATAGAAAAGTTCAAGGCCTTAGCCCTAAAATAAGAATTTGCAAA
CTTCTAGTGACAGTACTCAATCTCTCTGAATGTCTCTATTGTTTAAGACGTGATCTGATGTTTTAACTTTAAATTAAACTAAATTGGCTGGGTGCGGTGG
CTCAAACTTGTAATCCCAACACTTTGAGAGGCTGAGGCAGGCGGATCACTTGAGGCRAGGAGTTTGAGACCAGCATGGCCAACATACCGAAACCMCATCT
CTACTAAAAATACAAAATATTAGCCAGGTGTGGTGGCGTGCACCTATAGTCCCAGCTGCTTGGGAGGCTGAGGCGTGAGAATCACTTGAACCCTGGAGGT
GAAGGTTACAGTGAGCTGAAATTGTGCCACTGCAATCCAACCTGGACAACAGAGTGAGACTCTGTCTCAATAAAATAAAATAAATTTGCTACTTATATGT
GTATGTGTCTTCACACTGTATATCTGGGCACGCTCTATATTTTTTGAACCGATTCTTAAGGGTATCCCAATGATAGTAATGAAAATAAGCAGCATGAAAT
TTTATAGCCATCCTAGAACAATATTTCCTGTGTATTTTAATCCACTGGAATTGGGAAAGAAGGATTGATTATGTTGTTTTCATTTAATGTCCATTTATCA
ATCTCCATCTTTGTGTCAGATGTTTGCTAGGTGCTTGGGGGATGAGAAAGGGTCACCACATGACCATAATCCTCCTACCCAGAGATAACTACTCTAAACA
TGTTGATAGCCTTCTATATATATTTTTTGCACATGTAGTTTTTAATATAAAAAGTGACACAATAAAATACTTTCAAAAATTATAATTACAGAAGCAGTGG
CTGTCATGGTAGGAGGAAACTAAAGCAAATCAGAGGGCACAAAACTGAAAACTAGGAGGATTCCCATTTCCTCCCAACCCCCTGCTACCCTCCCCAGCCC
TACTCACTAGAGGCAACCACTGAGTGGTCCCTGATTTTCTTCTGGTAGTTAACATTATATTCATATAAAATATTTTAACTCTGGTTTTAGATTTATTAGC
TTTAGACAGTATCTGTTAACCTTTTGCTATAAAATATGAAGAAATTTTTTATCAATTCAAGCTTGAGCCGTTCTTCTTCTCAGCTTCCAGTTTCTAAAAC
TGTTTTTACCTTGAAAAGGTCTCTGACATTTATTATTACTGGTGTATTATCTCTTGTGCTTTTTCATAGGCTAGTTTAAAAATGGAATGCATTATTGTGA
TCACATGTTACATGTGTATTCTCTTTAGAGCTAAATATATATGTATATCATTCTAAGGTACTAAACTTTGTTGTTTGACAAACCTGACAAAACAAGCAAT
GGGGAAAGGAAAGGGGAATCTTCTAGGCATCCCAGTCTAAAACTCTTCATTTCTATCCAGCTTTTTTCACTTCTTCCATTTCGACTGCTACTCTTCCTTG
TATCTCATGTTATTATCTTCCTTGAATATTCTTTTTTTTTTCTTTGCTCTGTTGCCCAGGCTGGAGGGCAGTGGCATMATCTCAGCTCACTGCAAACTCC
GCCTCCCAGGTTCAAGCAATTCTCGTGCCTCAACCTCCCGAGTAGCTGGGATTATAGGCACTTGCCACCACACCCGGCTAATTTTTGGGTTTTTGTTGTT
GTTGTTTTTATTATACTTTAAGTTCTAGGGTACATGTGCACAACGTACAGGTTTGTTACATAGGTATACATATGCCATGTTGGTTTGCTGCACCCATCAA
CTCGTCATTTACGTTAGGTATTTCACCTAATACTATCCCTCCCCCAGCCCCCTACCCCTAACAGGCCCCGGTGTGTGATGTTCCCCGCCCTGTGCCAATG
TGTTCTCATTGTTCAACACCCACCTATGAGTGAGAACATGCAGTATTTGGCTGCATAGTATTCCATGGTGTATGTGTGCCACATTTTTTTTTAAATTTTA
AGAAATGCTCTTTTTTTTTAATATACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTG
CACCCATTATCTTGTCATTTACATTAGGTATATATCCTAATGCTATCCCTCCCCACTCCCCCCACCCCACGACAGACCCCGGTGTGTGATGTTCCCCTTC
CTGTGTCCAAGTGTTCTCATTGTTCAGTTCCCACCTATGAGTGAGAACATGCAGTGTTTGATTTTCTGTCCTTGCAATAGTTTGTGAGAATGATGGTTTC
CAGCTTCATCCATGTYCCTACAAAGTACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCATATTTTCTTAATSCAGTCT
ATCATTGATGGACATTTGGGTTGGTTCCAAGCCTTTGCTATTGTGAATAGTGCCACAATGAACGTACGTGTGCATGTGTCTTTATAGCAGCATGATTTAT
AATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATCTCTAGTTCTARATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTG
AACTAGTTTACASTCCCACCAACAGTGTAAAAGCGTTTCTGTTTCTTCACATCCTCTCCAGCATCTGTTGTTTCCTGTCTTYTTAATGATCATTGTTCTA
ACTGGAATGAGATGGTATGTCATTGTGGTTTTGATTTGCATTTCTCTGGTGACCAGTGATGATGAGCATTTTTTCATATGTCTGTTGGCTGCATGAATGT
TTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGATTCTGGA
TATTAGCCCTTTGTCAGATGGGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGACAGTTTCTTTTGCTATGCAGAAACTT
TTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGTCATGAAGTCCTTGCCCATGCCTATGTCCTGAATGG
TATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTTACATGTAAGTATTTAATCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGG
ATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAGTAGGGAATCCTTTCCCCATTGCTTGTTTTGTCAGGTTTGTCAA
AGATCAGATGGTTGTAGATGTGTGATGTTATTTCTGAGGCCTCTGTTCTATTCCATTGGTCTATATATCTGTTTTGGTACCAGTACCATGCTGTTTTGGT
TACTGTAGCCTTGTAATAAAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTTGCTTAGGATTGTCTTGGCAATGCAGGCTCTTTTTTGG
TTCCATATGAAGTTTAAAGTACTTTTTTCCAATTCTGTGAAGAAAATCAGTGGTAGCTTGATGTGGGAGATAGCACTGAATCTATAAATTACCTTGGGCA
GTATGGCCATTTTCACAATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTTTATTTCGTTGAGCAGYGGTTTGTA
GTTCTCCTTGAAGAGGTCTTTCACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGTAATTGTGAATGGGARTACACTCATGATTTGG
CTATTTGTCTATTATTGGTGTATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATT
TTGGGCTGAGACGATGGGGTTTTCTAAATATGCAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAACTGAATACCCTTTATTTCT
TTCTCTTGCCTGATTGCCCTAGCCAGAACTTCCCATACTATGTTGAGTAGGAGGGGTGAGAGAGAGCATCCTTGTCATGTGCCGGTTTTCAAAAGGAATG
CTTCCAGTTTTTCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCTCTTATTATTTTGAGATACATTCCATCAATATCTAGTTTATTGAGA
GTTTTTAGCTTGAGGGGCTATTGAATTTTGTTGAAGGCCTTTTCTACATCTATTGAGATAATCATGTGGTTTTTGTCATTGGTTCTGTTTATGTTTCGGA
TTACACTTACTGATTTGTGTATGTTGAAGCAGCCTTGCATCCCRTAGATGAAGCTGACTTGATCGTGGTGGATAAGCTTTTTGATGTGCTGCTGGATTTG
GTTTGCCAGTATTTTATTGAGGATTTTCGCATTGATGTTCATCAGGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTCTCTGCCAGGTTTTGGTATC
AGGATGAGGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTCTCTGTTGATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGTACC
TCTGGTAGAATTCGGCTGTGAATCCGTCTGTTCCTGGACWTTTTTTGGTTGGTRGGCYATTAAKTATTGCCTCAATTTCAGAACCTGTTACTGGTTTATT
CAGAGTTTCAACTTCTTCCTGGTTTAGTCTTGGCATGGAGTATATGTCCTGGAATTTATCCATTTCTTCTAGATTTTCTAGTGTATTTGCATAGAGGTGT
TTATAATATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTAATGTCCCCTTTATCATTTTTTATTGCGTCTATCTGATTCTTCTCTCTTTTGT
TCGTTATTARTCTTGCTAGCAGTCTATCAATTTTGTTGATCTTTTCAAAAAACTAGCTCCTGGATTCATTGACTTTTTGAAGGATTTTTTCTATCTCCTT
CAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTTGCTTTTGAATTTGTTTGCTCTTGCTTCTCTAGTTCTTTTAATTGTGATGTTAAGGTRTCG
ATTTTAGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTAAATGTGTCCCAGAGATTCTGGTATGTTGTGT
CTTTGTTCTCATAGGTTTCAAAGAACACTTTTATTTCTGCCTTCATTTCATTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGT
TGTGCAGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAATTCGATTGTAGTATGGTCTGAGAGACAGTTTGTTGTGATTTCTGTTCTTTTATATTTGCTG
TGGAGTGTTTTACTTCCAGTTATGTGGTCAATTTTAGAATAATTGTGATGTGGTGCTGAGAAGAATGTATTTTCTGTTGATTTGGGGTGTGGAGTTCCGT
AGATGTCTTTTAGGTCCGTTTGGTCCAGAGCTGAGTTCAGGTCCTGGATATCCTTGTTAACCTTCTGTCTCATTGATCTGTCTAATATTGATAGTGGGAT
GTTAAAATCTCCCATTATTATTGTGTGGGAGTCTTAGTCTCTTTGTAGGTGTCTAAGGACTTGCTTTATGAATCTGGATGCTCCTGTATTGGGTGCATAT
ATATTTAGGATAGTTAAGYCTTCCTGTTGAATTGATCCCTTTACCACTGTGTAATGCCCTTCTTTGTCTCTTTTGATCTTTGTTGCTGTAAAGTCTGTTT
TATCAGAGACTAGGATTGCAACCCCTGCTTTTTTTTTTGCTTTCCATTTGTTTGGTAGATCTGCCTCCTTCCCTTTATTTTGAGCCTATGTGTGTTTTTG
CACGTGAGATGGGTCTCCTGAATACAGCACACTGATGGGTGTTGACTCTTTCTCCAATTTGCCAGTCTGTGTCTTTTAATTGTGGCATTTAGCCCATTTA
CATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTTTGCTGTTAGCTGGTTATTTTGCCTGTTAACTGATGCAGTTTCTTCATAGCGTCAA
TGGTCTTTACAATTTGGCATGTTTTTGCAGTGGCTGGTACTGATTGTTCCTTTCCATGTTTAGTGCTTCCTTTAGGAGCTCTTGTAAGGCAGACCTGGTG
GTGACAAAATCTCTCAGCATTTGGTTGTCTGTGAAGGATTTTACTTCTCCCCCACATATGAAGCTTAGTTTGGCTGGATATGAGATTCTGGGTTGAAAAT
TCTTTTCTTTAAGAGTGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTGTGGTTTCTGCCAAGAGATCCACTGTTAGTCTGATGGGCTTCCCTTTGTG
GGTAACCGGACCTTTCTCTCTGACTGCCCTTAACATTTTTTCTTTCATTTCAACCTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTYGAG
GAGTATCTTTGTGGTGTTCTCTGTATTTCCTGAATTTGAATGTTGGCCTGCCTTGCTAGGTTAGGGAACTTCTCCTAGATAATATCCTGAAGAGTGTTTT
CTAACTTAGTTCCATTCTCCCCGTCACTTTCCAGTACACCAATCAAATGTATATTTGGTCTTTTCACATAGTCCCATATTTCATGGAGGCTTTGTTGATT
TCTTTTCACTCTTTTTTCTCTAATCTTGTCTTCTCACTTTATTTCATTAATTTGATCTTCGGTCGCTGATATCCTTTCTTCCACTTGGTCAAATCGGCTA
TTGAAGATTGTGCATGCATCATGAAGTTCTCATGCCGTGGTTTTCAGCTCCATCAGGTCATTTAAGGTCTTCTCGACACTGTTTATTCTAGTTAGCCATT
CATCTAACCTTTTTTCAAGGTTTTCAGCTTCCATGTGATGGGTTAGAACATGCTCCTTTTGCTTGGAGAAGTTTGTTATTACCGACCTTCTGAAGCCTAC
TTCTGTCAACTCATCAAACTCATTCTCTGCCCAGTTTTGTTCCATTGCTGCTGAGGAGCTGCAATCCTTTGGAGGAGAAGAGGCGCTCTGGTTTTCGGAA
GTTTCTGCTTTTCTGCTGTGGTTTCTCCCTGTCTTTGTGGTTTTATCTACCTTTGTTCTTTGATGTTGGTGACCTACAGGTGGCATTTTGGTGTGGATGT
CCTTTTTGTTGATGTTGATGCTATTTCTTTCTGTTTGTTAATTTTCCTTCTAACAGGCCCCTTAACTGCAGGTCTGTTGGGGTTTGCTGGAGGTCCACTC
CAGACCCTCTTTGCCTGGGCATCACCAGCAGAGGCTGCAGAACAGTAAATATTGCTGCCTGATCCTTCATCTGGAAGTTTCATCCCAGAGGGGCACCCGC
CTGTTTGAGGTGTCTGTCGGTCCCTACTGGGAGGTGTCTCCCAGTCAGGCTACACGGGGTTTTGGGACCCGCTTGAGGAGGTAGTCTGTCCCTTCTCGGA
GGTCGAATGCCATGCTGAGAGAACCGCTGCTGTCTTCATAGTTGTCAGACAGGGACGTTTAAGTCTGCAGATGCTGTCTGCTGCCTTTCATTCTGCTATG
CCCTGCCCCCAGAGGTGGAATCTAGAGAGGCAGTAGGCCTTGCTGAACTGTGGTGGGCTCTGCCCAGTTTGAGCTTCCAGGCCACTTTGTTTACACTGTG
AGCTACTCAAGCCTCAGCAATGGCAGATGCCCCTCCCCCTGTCAAGCCACAACGTCGCAGGTTGATCTCAGACTGCTGCGCTAGCAGTGAGCAAGGCTCY
GTGGGCGTGAGACCTGGTGAGCCAGGCATGGGAGGGTATCTCCTGGTCTGCCGGTTGCAAAGACCATGGGAAAAGTGCAGTATTTGGTCAGGAGTGTACT
GTTTCTTCAGGTACAGTCTCTCATGGCTTCCCTCGGCTAGGAAAAGGAAATCCCCCGTCCCCTTGCACTTCCCAGGTGAGGCAACGCCCTGCCCTGTTTC
AGCTCACCGTCCATAGGCTGCACCCACTGTCCAACCAGTCCCAATGAGATRAAGCAGGTACCTCAGTTGGAAATGCAGAAATCACATATCTTCTGCATCC
ATCTCGGTGGGAGCTACAGACTGGAGCTGTTCCTATTTAGCCATCTTGGAAGCGACCCTTAATTTTTGGATTTTTTTCTGAGACAGATTCTCGCTCTCTT
GCCCAGTCTGGAGTGCAGTGGTGCAACCTCAGCTCACTGTAACCTCTGCCTCCCGGGCTMAAGCRATTTTCCTGCCTTAGCCTCCTGAGTAGCTGGGATT
ACAGGCATGCACCACTACCCTTGCATAATTTCTGTATTTTTAGTAGATATGTGGTTTTGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTG
ATCTGCCTGCCTCAGCCTCCCAGAGTGCTGAGATTATAGGCCACTGCACCTGGCTGAATATTTTTTTTTTTTTTGAGCCTGTCTCTGAGTACTTTTTTCA
TGTAGGGCTCTTGGTGGCAAATTTTTTTAGTTTTAGAAAGCCTCAAATAGCTTTATCTTCATATTTGCTTTGAAAGTTTAGATGAATATAAATATCCAGA
TTTTAAATTTAAAGAAATTGCTCCCRTTATCTTCCAGTATTACATTCAATGTAGATAAAGTCAGTAAGAGTCTGATTCTCATCCCTTGYTTAATGATGAA
TTTTTTCTTTCTCTGAGGCATTTAGAATTTTTTAATCCTTATTATAAAATTTTCAGCAGAATGTTTAGATGTAAATCTTTTCTTACTAATCTTACTCAGC
ATTTCATGAAACCTTCCCATATGAAGGTGCATGTCTTATTTCAGCGTAGGGGCATTTTCTTAAGTTATTTTATGTCATTACCTTTGTTGTTTGTATCTTT
TGCACTTCCTATTTGAGCAGCTTTCAACTGTTAGGACATGGYCTCCGTGTTTTAAATCTATTTGTTTGTACTTTACATTTCTTGGTCTTTCTCATTGCTG
TTCTCAGAGATTTCTTTGAATTTATCTTCCAGGTTTAAAAACTTGGTCTAGGGCAGGGCACAGTGGCTCACGCYTGTAATCCAAGTGCTTTGGGAGGCTG
AGGCTGGTGGATCACTTGAGCCCAGGTGTTGTGACCAGCCTGGGCAACATGGTGGAACCCCATCTCTACTAAAGATACAAAAAATAAAAAATTAGCCAGG
CATGCCTGTAGTCCCAGCTTCCCAGCAGGCTGAGGTGGGAGGATCATCTGAGCACAGGAAGGTTGAGGCTGCAGTGAGCTGTGTTCATGCCACTGTACTG
CAGCCTGGGCGACAGAGTTAGAAYCTTTCTCAAATAAACAATAATAAAATAAAAGCTTGGTCCTATACAGCATCGAATTTTAATTTCACCCATACAGTAA
ATTTTTCAGTGATCATATTTTTAATTTTCAAGATTTCTTGTTCTCCAGTTGTTTATTTCTTCATAGACTTTTCTTGTTTTAAGTCTGTCATATTCTTAAT
CTTCCTGAGGATACCAAATCGAGATTTTGCTTGTTTTAATTCTTTCCAGTTCTATTAGTCCATTTTCACACTGCTGATAAAGACATACCCGAGACTGGGC
AATTTACAAAAGAAAGAAGTTTATTGGACTTACAGTTCCACATGGCTGGGAAGGCCTCACAATCATGGCAGAAGGCAAGGGAGAGCAAGTCACATCTTAT
GTGGATGGCAGCAGGTAAAGATATTGTGCAGGGAAATGCGCGTTTTTAAAACTATCAGATCTCATGAGACCCATTCACTGTCATGAGAACAGCACAGGAA
AGACATGCCCCCATAATCCAGTCATTTCCCACTGGGTCCCTCCCACAACACGTGGGAATTATGGGAGCTAGAAGATGAGATTTGTGTGGGGACACAGAGT
CAAACCATGTTATTCCACCCCTGGCCCCTCCCAAATCTCGTATCTTCACATTCAGAACCAATCATGCCTTCCCAACAGTCCCCTGGGGTGTTAATTTATT
TCAGCATTAACTTAAAAGTCCACAGTCCAAAGTCTCATCCAGGACAAGGCAAGTCCCTTCTGCCTATGAGCCTGTAAAATCAAAAGCTAGTTAGTTACTT
CCTAAATACAATGGGGGTACAGGCATTGGGCAAATACAGCCATTCCAAATGGGAGAAATTGGCCAAAACAAAGGGGCTACAGGCCCTATGCAAGTCTGAA
ATTCAGCGGGGAAGTCAAATCTTAAAGCTCCAAAATGGTATCTTTTGACTCCATGCCTCACATCCAGGTCACACTGATGCAAGAGGTGGGTTCCCATGGT
CTTGGGCACCTCCTCCCCTGTGCTTTGCAGGGTACAGCCTCCCTCCCAGCTTCTTTCACAGGCTGACATTGAGTGTCTGTGGCATTTCCAGGCATATGGT
GCAAGCTCTAGGTGGATCTACCATTCTGGGGTCTGGAGGACTGTGGCCTTCTTCTCACAGTTCCACTAGATGGTGCCCCAGTAGGGACTCTGTGTGGGGG
CTGTGACCCCACATTTCCCTTCTGTACTGCCCTAGCAGAGGTTCTCCATGAGAGCTCTGCCCTGTAGCAAATTTCTGCCTGGACATCCAGTTATTTCCAT
ACATCTCTGCAATCTAAGCGGAGGTTCSCAAACCTCAGTTCTTGACTTTTGTGTACCTGCAGGCTCAATACCACATGGAAGCTGCCAAGGCTTGGGGCTT
GCATCCTCTGAAGCCACAACCTGAGCTGTACCTTGGCCCCTTTTAGTCATGGCTAGAGCTGCTGGGACACAGGGCACCAAGTCCCTATGCTACACACAGC
GGGGGTCTACAGGCCTGGCCCATGAAACCACTTTTTCCTCCTTGGCCTCCCGGGGTGTGTTGGGAGGGGCTGCCATGAAGACCTCTGACATGCCTGGAGA
CATTTTCCCCATTGTCTTGGGGATTAACATTCAGCTCCTCGTTTTTAATGCAAATTTCTGCACCTGGCTTGAATTTCTCCTCAGAAAATGGGATTTTCTT
TTCTATCACACTGTCAGGCTGCAAATTTTCCAAACTTTTATACTCTGTTTCCATTATAAAACTGAGTGCCTTTAACAGCACCCAAGTCACCTCTTGAATT
ATTTTCTGCTTAGAAATTTCTTCTCCCAGATCATCCTCTGCCTAAATCACCTCTCTCTAGTTCAAAGTTCCACAAATCTCTAGGGTGGGGCAAAATGCTG
CCAGTTTATTTGCTAAAACAAAGCAAGAGTCACCTTTGCTCCAGTTTCCAACAAGTTCCTCATTTCCATCTGAGACCACCTCAGCCTGGACCTTATTGTT
CATATCACTATCAGCATTTTTGTCAAAGCCATTCAACATGTCTGTAGGAAGTTCCAGACTTTCTCACATTTTCCTGTCTTCTGAGCCCTCCAAACTGTTG
CAACCTCTGTCTGTTTCCCAGTTCCAAAGTTGCCTCCACTTTTTCAAGTATCTTTCCAGCAACACCCCACTCCTGGTACCAATTTACTGTATTAGTCCAT
TTTCACACTGCTGATAATGACATACCCGAGGCTGGGCAGTTTACAAAAGAAAGAGGTTTACTGGACTTACAGCTCCACATGGCTGGGGAGGCCTCACAAT
CATGGCAGAAGGCAAGGAGGAGCAAGTCACATCTTATGGGGATGGCAGCAGGCAAAGACAGAGATTGTGSTGGGAAACTCCCGTTTTTAAAACCATCAGA
TTTCATGAGACTCATTCACTATCATGAGAACAGCACAGGAAAGACCTGCCCCCATAATTCAGTCATCTCYCACCAGGTCCCTCCCACAACATGTGGGAAT
TACGGGAGCTACAAGAAAAGATGTGGCTGGGGACACAGAGCCAAATCATATCACCAGTGAATTGTATTTTTATCCACTTCCTCTATGGTACTTGTTCTGT
TGGTTTTCTCAGTCTTCTCTTTCATACTGTCATTTTTCCTTATGTGTCCTCAAATTTTTCTTTAATGTGTTTGCTACTCATATATCTGACTGGAACATTA
CTCGAGTTATTATAATAGCAAGGATGAATTTCCAGTAGCTCAATAGGTCCTTTTTCTAGCAGACTCCTCCACTGAAGTTAAAAAATTTCTGGTGACCTCA
TTTTTTAACATTCACTATGTTATTAATATAACCATTTTCCGATGCCAAAAATTCTAACATACTAATTTTATTGGTTGCATAGTTTTTCATCATAGTACTG
TTTACTCTTTCTCTTATTATTGGATATTTGATTTTTTCCAGCTTTTCATTAAATAACATCAAGAACACATTTGTACATGTATTTCTTCATGTATCTCTGA
TGGTTTTCTAGTGTTAATTCCTAGAGTGAAATTTATAGGTCATGAAAGATTTCTAATAGACATTGCTAAATTGTCTTTTGGAAGATTGTAACAAGTCTCT
GTCTCATAAAAATACCCTTTCCCCGCAGCACTCTTGATAATGGCAGATCATGTTCTTTTTAATCTCTGCTAACTTAGCAATATACATATTACAATATATA
TATAGAATGTGAATATTTTCCTGTTTGAATTTACATATTTGGGTGTTTTCATGAGTTTCTTTTGTGAATTGACTCTTTATGTTCTTTGCCTGTTTTTCTG
TTCACCATTTTGTTTCGCTTTGTCAGACTTTATTTTGGGAATGTTAAGTGCTCATTATAATTACTGTAAGTTTTTTCTCAGTTTGTGGTTTGCCTTTAAC
TTTTTTATTATGTGTCTTTTGCTAAATATATGTTTTGATGACATATATGTAAAGCCACCCACTCACCTGTCCAGAGATTAAATTTCATCTATATAGCTTG
GTATGTTTATGATTTCTAGTTTTACATTAAACTTTTAAATCCATGTACATTTATGTTGGAATATGGCTTATATAGGGACACATCTTTGTTTTTTCTGAAA
TAACTAATTAGCTAGCATCTTTTTCATTGACTGGTAGTTCATCCTTTCCCTATTAATTTGAAATCTCACCTCTGTCATATACAAAATGTTTTTTATAAAT
ATGTGTGTGTATCTGCCTAGAAATAACTTGTCCAGGCACATCTTACAATTCTTGACATTTCTAACAAGACCACTCTGTTACTTTACTGTTTTAGAAAGCA
CTTAAGTATAATGCTTAATCTACTGTATTAAAACTGTATACAACAGCCAGGCATGGTGGCTCWTGCCTGTAATCTCAGCATTTTGGGAGGCTAAGGCAGG
AGGATCATTTGAACCCAGGAGTTCAACAACAGCCCAGGCAACATAGTGAGACCTTGACTCTACAAAAAATTTAAAAATTAGCTTGGTGTGGTGGCATGCG
CCAGTGGTCCCAGATATTCAGGAGTCTGAGGTGGGCACTCGCTTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTGTTATCACTGCCACTGCACTCCAGCC
TGGGTGACAGATCAAGAGCCTGTCTCAAAAACAAAAAACAAAACAAAAAACTGTATCCAGKGCTTGTGTATTATCCTAATTTCTAAAAATCAATGACCCC
CCAAAATATTTCCCTCATCAGAATGTTCTGTTATCAGCCAAAGATTTCTTTCTGTCAGCTCACATCCTGCCACAATAAAGGCAAACAGTGGTAGACAGGG
TGAACCATTGTGATTCTGAAGCATTCTAAGTGGTTTCAGGGATATGAAAGTTTCATCATCCTGTTTTGTGGTAGGGGAAAAGGAAATATTGTTAAAGTAA
ACATTGAAATTTGAGGTAAATACCAGTATTCGAACTTTGAAAAAGTAGCCAGAATGTTCCTAAGGTGGCAACATTTCAGAAATTATACAATTTCTCAATG
CCGCTAGTTATTGGAACAGTTCTAAGGCTCTGCCCATGTGTTGACATCACATTCCATCTCCCTTGTTCTTATAGGGCTTCAGCCACACAGCTGGTTAAGG
TGCAATTTGACCATGACTTTCTTAAGAAATGAAAGGTACATTATGGTGCTGTAGGTCAAATGTGAAGTATGTGTCCTATTTTGTGAACTATTGTAGCAAA
ACTAAATCAATGAAGGGATTTTGCTGAGAAAGTAGTTACCAGCATTCACAAAGCTGGCTACTGGGTGAAAAACCTGAATTCTGAGTTTTGCAATTAACTG
CATAACACTGAGTATTACCTAATAATGATTCCTTTGTTTTTTTCAGTTCCTTTTGCATTATATAGGTGTTTTCCCAAATGTGTTCTGAAAGACATTATTG
CTGCAAGGTGCTCTGGAAGACATTTCAGGGACCATGGTTAAATCAGTTAAAGAAAAGCTGTGTACTAGATCCTTCTCTAAGAAATGCACTGGCTGGGCAC
GGTGGCTCATGCCTGTAATCCCAGCACTTAGGGAGGCCAAGGCAGGCAGATCACTTGAGGTTTAGAGTTCAAGATCAGCCTAGCCAAAATGGTGAAACCC
TGCCTCTACTAAAAATACAAAAAATGTTAGCCAGGTGTGGTGGCATGCACCTGTAGTCCCAGTTACTTGGGAGGCTGAGGCTATAGAATCACTTGAGCCC
AGGAGGCAGAGGTTGTAGTGAGCCGAGAGCATGCCACTGCACTCCAGCCTGGGCAATGGGAATGAAACCCTGTCCAAAAAAAAAAAAGCACAATATGTAG
TCTCATACTAAAGGCTTTAAGAAGTCTTACAGAAAAGAAATTTAAATCTTTTGGATCTATTTCTTGACATCTGTAGGAACTGTTTCATAAAATCTACTTT
AGGAACCTGTATTAGCTGCTGTCCAAGGTATCAAACGTCTATAATTCTAGTTCCAGTAAAAAGTTGTATATAAATAACTTACTTTATATGTAGTACTTTA
ATTTGTAATATCAGTATGGAATCTTCTTAAGGAAACACTGAAAAAAACCTTTAATTGTACAAGATCTTTGTACAGTATCATGGACTTTTAAACACAGAAA
CACAGAGAAGTATTGTTTTGTCCTGTGAATACCAAAACTTTGATTTGGATTTATTAGTGAGAAAAAAGCAGGATCAAACGTTTYCCTACTTTTTAGGAGT
TCTGTGCAATACCTCAAATTCTATCCAGAATGTTCCTACAAAGTACAGTATGATGTTAGACACTCTTTACATCCAACATGTTTTCTTTTGTTTAATTTAA
TTTGAGCTATTATTGGCTCAAAATATATAGATTCTTAGTGATCTTTTATATTTATTGTTCATAAAATAATGTTCGGCTTCCTAATAAGAAAGTGAAGAGG
AAAATCAAGGTGTTTTCATCTTGCTTGTAGGATGGGTGCTGCAGACAATATATATAAAGGACRGAGTACATTTATGGAAGAACTGACTGACACAGCAGAA
ATAATCAGAAAAGCAACATCACAGTCCTTGGTTATCTTGGATGAACTAGGAAGAGGGACGAGCACTCATGATGGAATTGCCATTGCCTATGCTACACTTG
AGTATTTCATCAGAGATGTAAGTATCCGGTAAACTGTATTTAAAAAGAAATTAATTTGTAAATTATTATTTTTAAATGACAGTCATAATTGTGCCATATT
TATGGGGTACAATGTGATGTTTTGAAACATATAAACAATATGGAGTGATTAAATTAACCTAATTAACACATTCCTCACCTCATTTAAATATCATTTTTTG
TGGTGAGACATTTGAAATTTCTCTTAGTTATTTTGAAATATATATTATTACTGCTGTAGTCATAATACCGTTATGCAATCCCTGCATACCCTTTTGTACA
TGGATGATACATATTATACACATTATTTTCCTGATCTCAGTCTCCAAATACTCAAAATTATCTTTTTTATAATTGACTGCAGTCCTGCAAGTGATCATTA
GAATGCTACACACTGAATTCAGACAGATTGACCCTAAATAATGTTTGTAGTTTTTTGATATATGTTCCTTTTTTTGCTGACTCAACATAAATCTGGTTGT
ACGAAAAAGGCCTTCCTGGCAATATTTTCACTCAGAATTATATCTTATTATCCTTGGTGAACCCTAAATCAAGAACAGGTACCATCCATCTACAGCCAAA
TTCCTCGAGGGAAAAACAAGGAAATAGTGCCATTTCCACTTTGTGAAATCCTTTTTTTCACCAACATCCTGAAGGATCTCACTGTGAGATCTTTGATCTC
ATCTCTTTGTGTTTCTATCTGATTCAGTAACATCATTCCTTCAATACATGTCTCCTTTTTTTCAGGGTGCATTTCTAAGCTTCAGTGTAAAATTTTGTTT
GTGTCAAACTTTCTATCCCTGTCATTTCCATCTAACTCTCTCCTTTAGTTTACTTTCTCTATCTTGTTCATTTTGGTCTCTGCTTTTCAAATCTCCCCTT
CATGGCACCTCTCCTTAGGTCTTTCCCTTCTCTGGTCTTTCTTTCTGTTTTCCCCCCCATTTTCTTGCTCCTTTGTCATTGTGTCTTCCCTCATTTTCAT
TTCTTTCTCTCTTCCTTAAATAGCCAATAAAATCATATTTTTAATATTTCTTTTCAAAAAGCAACACAAAAATAAAATGTATTTTTCTTTAACCTTTTGT
TGCCATTGGTGTTTTGGGGTTTAGTTTTGTTTTTAAAGCTTAATTTCCATTTAATTTTTTTCCAGAAGATAGTTTTTCTTCAGTCTTTAGAGACTCAGCT
CCATGAACAGGCTTTGATGGAGATCATGGGGCAGCATCCTCAGATCTAAATTGGAGCAGAGTTGTTTGGTCCTCTAGGCTTCATGAGAATGATTCCTGAC
TACCTTGCTGTGAGCGGCAGAACTTGTGCAGTAATACAGTTTCATACACTGTTTGGGAAGCACAGAGACATCAACGACACTCAATTTGGAAATGTCCCTG
ACAGCTGTACCTTCTACTATATTTCAAATGACAAACTTCTAAATAGCCTTGTCCTTAGGTGTGCATCCAACACAGTTTGTGCAGCAAATAGGTTGTACCT
AGCTATGGCCCTTTTTGGCACAACCGTTGTTGTTGTTCCTCCTCCTCCTCTTCTTTCTCTTCCTCCTCCTCCTCTTTTTTTTTTTTTTTTTTTTCTTTTT
TGAAATGGGTTCACTCTGTCACTCAGGCTGCAGTGCAGTGGCATGATCATGGCTCACTGCAGCCTCGACCTACCTGGGCCCAGGTGATCCTTCCWCTTCG
GCCTCCCGAGTAGCTGGGACTACAGGCACACACCAACCATACCCAGCTAATTTTTGTATTCTTTTAGGAATGGAGTTTCACCGTGTTGCYCAGGCTAGTC
TTGAACTTTCAGGCTCCAGTGATCCACCTGCCTTGGCTTCCCAAAGTTCTGGGATTATAGGCATGAGTTACCATGCCCAGCCTCCCTTCTTTTCTTTGTT
ATTTTGGCAGTGAAGACCCAAGAGTGACTCAGGTTTTGTTTAAACATTTATTTAGATTACATAGGTAATTATAACATTTTGTTTTTTTTAAGGAATTTTT
TGTTTTGCTTTAAAAAATTTATTTGCAAAAAGATGTAACTCAGAAACTTTAATCATTATAGAAACTACGTAGGAAATGATGAGTTCATGTCCTTTATAGG
GACATGGATGAAGCTGGAAACGATCATTYTCAGCAAACTATCGCAAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGGTGGGAGTTGAACAATG
AGAACACATGGGCACAGGAAGGGGAACATCACAAACTGGGGCCTGTTGTGGGGTGGGGGGAGGGGGGAGGGATAGCATTAGGAGATATACCTAATGTTAA
ATGACGAGTTAATGGGTGCAACACACCAACATGGCACATGTATACAAATGTAACTGACCTGCACATTGTGCACATGTACCCTAAAACTTAAAGTATAATA
ATAATAAAAAAAAGAAACTACATAGGAAAGCAATTGACTTTTGTACATTAACCTTGGATCCTGCAACCTTGCTGTAATCACTTACTAATTCCAGTCTGTG
TGTATGTTTGCCAATTCTTTTGAATTTCCTACATAGGCAGTCATGTCAGATACAAACAGACAGTTTCACTTCTTTCTTCCCCATCTATTTTTTTTTCTTG
TCTTATTGCAGTAACTAGGACTTTCAGTACAGTGTTGAAAAAGCAGTAAGAAAGGATATCGTTGCCTTGTTTCTGATCTTAGTGGGAAAGCTTTGAGTTT
CTCACCGTTAAGTATGATGTTAGCTAGAGGTTGTTTGTGGATATTCCTTACCAAATTGAGGAAGTTCTCCTCTATTCCTAGTTTACTGAGAGTTTTTATT
GAATGGGTGTTAGATTTTGTCAAATGCTTTCTGTGCATCTATTGATATGGTCATGTGATTTTTCTTCTTTAGCCTGTTGATGTGATGGATTACGTTAACT
GGTGTTCAAATGTTGAATGAGTCTTACACACTTGGGATGAGTCCTACTTGGTTATGGTCTGTTTTTCTTTTTATACATTGTTGGATTCATTTTGCTAATA
TTTTATTGAGGATTTTTGCATCTATGTTTATGAGAGATACTGGTTTATAGTTTTCTTATAATGTCTTTGGTTTTAGTATTAAGGTAATGCTGGCCTCATA
GAATGAGTTAGAAAGTATTTACTCCACTCCTGTCCTCTGAAAAAGACTATAGAGAATTGGTAAAATATCTTCCTTAAACATTTGGTGGAGTTCACCAGTG
AAGCCATCTGGGCCTATGATTTTGGTTTTAGAAGGCCATTGACTCAAGTTCTTCAATAGATATAGACCTATTCAGAATTTCTGTTTTTTTTCTTGTGTGA
GTTTTGGCTCATTGTGTCTTTTAAGGAATTGTTTTTCAAGAAATTTTCACCAARGTTACCARATTTGTGGACATAGAGTTGGTCATAGTATTCCTTTATT
ATCCTTTTATTTGTCCACRGCATCCGTAGTGTTGTCCTTTTCATTTCTGATATTAGCCATTTGTGTCTTTTCTCTTTTGTTCTTAGTTAGCTTGACTAGA
AGCTTATCAGTTTTCTTTTCAAAGAACCAGCTTTTGGTTCTATTGATTATTTTCCCCATTGCTTTCTTGTTTTAATTTCATTGATTTCTGCTCTAATTTT
TATTATCTCTTTTCTTTTGCTTATTTTTGCTCTTCTCTTTCTGGTGTCCTAAGATAGAAGCTTAGATTGTTTATTTTAAATTGTTCTTTTTTTCTAATGT
GTTCAGTGCTATAAATTTTCTTTTTTTATTCTTTCTTTTCTTTCCATTTTTTCTTTTTTGAGACAGGGTCTTGCTCTGTTACCCAGGCTGGACTGCAGTG
GCATGAACATAGCCCACTGCAACCTCGACTCCCTGGGCTCAAGTGATCCTTCTGCCTCAGCCTCCCATGTAGCTGGGACTACAGGCACATGCCACAACAC
CCAGCTAATTTCACTTTTATTTTTTATAGAGATTGGGGTCTCACTATGTTGCCCAGGCTGGTCTCGTATTCTTGGACTCCAGTGATCCTCTTGCCTTGGC
CTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCTCCTGRCCTATAAATTTTCTTCTATGCACTGCTTTTGGTGCGGTTCCACAAATTTTGATAAGG
TGTGCTTCCTGTTTTTACTTAGTTCCAAATATTTTAAATTTCTCTTTATTTCTTTTTTGACCCATATGTTTTTTAAGAATGTGTTGTTTAGTCTCCATGT
ATTTGGGGATTTTCCAGTTACCTTTTTGTTATGATTCCTAGTTTAATTCCATTGTGGTATGAGATCAAATATTGTATGATTTTTATTATATTAAATTTGT
CAACATGTGTTTTATGGCCCAAAATGTGGTCTTTCTTGGTGAATGTTCCATGTTAGCTTGAGATGAATGTGTATTCAGCTGTTGGTTGAAGTATCTATAG
ATATAAATGATGTCTAGTTGATTGATGGTGTTGTTGAGTTCAGCTGTGTCCTTACTGATTTTCTGCCTGCTGGATCTGTCTGTTTCAGATGGAGGAATTT
TGATATCTCTAACTATAGTAGTATGTTCATCTGTTTCTCTTTGTAGTTCTATCAGCTTTTGCCTCATGTAGTTTGACATTCTCTTGTTAAATGCATACAT
GTTAAGGATATTATGTCTTCTTGGACATAAGACATAATATCCTTTATCATTTTATCATTATCCCTTTATCATTATATAATATCCTTCTTTATCCCTGACA
AATTTACTTGATCTGAAGTCTGCTCTGTCTCAAATTAATATAGCTACTCTAACTTCCTTTAGAAATTAATATAGCTGCTTCAGCTTTCTTTAATGTTAAC
ATGATGTATCTTCCTCCATATATATATATATATTTTAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTACAATCTCAGCTCACTGCAACC
TCTGCCTCCCAGATTCAAGTGATTCTTGTGCCTCAGCCTCCCGAGTAGCTGGGATTACAAGTGTGTGCCACCACGCCTGGCTAATTTTTGTATTCTTTTT
AAATTAAAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCATCTGCCTYGGCCTCCCAAAGCGCTGGGATTGCAA
GTGTGAGCCACCTCACCTAGCCCCTCCATATATTTTTAATATGTAGTTATTTTTATATTTAAGGTGAGTTTCTTGTAGACAACATACAGTTAGGTCTTAT
TTTTTGATCCACTCTGATAATCTGTCTTTTAACTGGTGCATTTAGATCATCAGCATTCAAAGTGATTATTGATAGAGTTGGATTAATATTTACCATTTTT
TACTTTTTTCTATTTGTTGTTCTTGTTCATTGTTCCTACATGTGTCTTCCACTGTTTTTCTGTCTTATGTGGTTTTAACTGAGTATTTTATATTATTTCA
TTTTCTCTCTTTTTTTTTTTTTTTGTTTTTTGKTTTTTGGTTTCTTGGGGTGTTTTTTGAGGTGGGATCTTAYTGTGTTGCCTAGGCTGGCCTCAAACTC
CCGGGCTGAAGTGACCTTCCCACCTCAGCCTCCCAGGTAGCTGGGAGTACAGGTGCATGGCACTGTGCCCAGCTATTTTCTCTCCTTTCTTAGCGTATCA
GTTATATTTCTTGTTTTACTTTTTCTAGTGGTTGTCCTGGAGTTTGCAATATACGTTTGCAACTAATCCAAGTCTACTTTCAAATAACACTATATTGCTT
TATGAGTAATGCACGTATTTTTTAATAACAAAATAATCCTGATTACTTTCTTCYATCCTTTGCACCATCACTGTCATTTATTTCACTTATACTTAAGTGT
ACATAAGCATATATATATATAAACATACATAATCGCATACACTGTTGCTATTATTATTGTGAACAAAATGTTATGCTAGATCCACTAAAAATAAGAAAAA
TAAAAGTTTTTCGCCTTCACTGGTTCCTTCTTCARTGCTGCACTTTTCTTTATGTAGATACAAGTTTCTGACCCCTGTCATTTTCCTTCCTTCTAAAGAA
CTTTCCTTAAACATTTCAGGATAGATCTGCTGGCTACAAATCCTCAATTTTTGTTTGTCTGAGAATGTCTTTATTTCTCCTTCAGTTTTGAAGGATTATT
TTGCAAGGTACAGAATTCTAGGTTGGAGAGGTTTGTTGTTTTTTTTTTTTTTTCCTCTCAAAACTTTAGATATTTTACTMCACTCTTTTCTTGCTTTTGT
GGTTTCTGAGAAGTCARATGTAATTTTTATCTTTGAGCTTGTGTGGATAAGGTGTTTCTTCCCTCTGGCTTACTTCAGTATTTTTTTTTTCTTTATCTTT
GGTTTTCTGTAGTTTGAATATGATTTGTCTAGGTGTGGTTTTGGGGACATTTATCCCGTTTGGTGTTCCCTAAGCTTCCCAGATCTGTGGTTTTGTGTCT
GACATTACTTTGGGGAAATTCTCAGTCATTATTGTTTTAAGTATTTCTTCTGTTTCTTTCTCTCTTTATTTTCTCTCTGGTATTCTCATTAGCTGCATGT
TATATCTTTTGTAGTTGTCTCAAACTTTTTGGATATTCTGAGGTTTTTTTCTAGTCTTTTTCTGTTTGCATTTCCATTTTGGAGATTTCTATTAAGATGT
CCTCAAGCTCAGAGATTCTTCCCTCAGCTGTGTCCAGTCTACCAGTAAGCTCATCAAACACATTCTTCATTTCCATCACAGTGTTTTTGATCTCTCGTTT
CCTTTTGGTTTTTTCTTAGAATATGCATCTCTGTGCTTACATTGCCCATCTGTTATTGCATGCTGTCTGTGTTAACCATAGAGCCCTTAGCATACTAATC
AGTTGCTTCCAATTCCCAGTCTGATAATTCCAACATTCCTGCCATAGCTATGTCTGGTTCTGATGCTTGCTCTGTCTCTTCATATTTGTGGGTTTTTACT
TTTAGTATGTCTTGCGACTTTTTCTTGACAGCTGGCTATGATGTATTGGGTAAAAGGAACTGCTGTAAGTTAGGTTTTAGTAATGTGCTGGTAAGGGTCT
AGGGGAGGAGTCCTATGATTAAGTCTCAGTCTTACCTCCCTCCCACCCCTCAGGTGGGATAGGAAGGCTAGAGTGGGCTGGAGTTGGGTATTTCCTTTCT
CTCATATGGAAGGCTAGAGGAGACTGGAGTTGAGTCTTTCCCTTCCCCCAGGTAGGTGAGGCTTTGATAAAACCCCAGCAGGTTAGGCTCCACTTAAGTA
GTTTCTTCTGAGGGCAGACCTTGTTAAGAACAGAGTGCCCTGGTGCATTTCAAAATAGTTCTTTCTTTCTTCCCCTTGCCTGAAGCATAAGGGGAATTTA
CTCCAGTGTTTATTGTGAGAACCAAGTGGAACTCCTGGGAGTAAAACTCACAAAAGTGTGCCCCCTTCCCCCATGACTCGGTTCCCCTGYACTTTTTGAC
TCTCAGACTTGTTGACACTGAGCCTCCAGCAATTGATCAGTTCCAGTTCCAGTTTTCCTACCCTGATACTGGTTCCTTCAGAGGTTTCTGCCTCCATTTC
AGCTCAGGAAAGTTGTGATTCTTTGTATCTGCTTGTCTGTCTCTAACTTGGGGGACAGTGGTTTGCCTGTGACTTCATTTTTCTTACAGATCTAAAGAGT
TGATTTTTCAGTTGGTTCTACTTTTTCCTTGTGATGGAGAGGYAACCTCCAACCTTCTTATATGCTAAACTGGAAACCAGAAACTTCCCTGACCTTTTTR
TGGATGAAAATCTTTATTTTCATGGTTCCTTCTGATCTCTGGATAGGGAAGAGAGATCAGAAAGGAGCAATAAGGGAGGTCATGTGTTGCTGCTGCAGGC
CGAGAACAGCCTTGAGGAGCACAGTGTCGGATCCCAGACCCTTAGGTCTTCCGGCTAMAAGTGCCTATCAGCTTGGAGAAGGAGCACCATGGAGATAGGT
GGTCCTAAGATCCCTCRGGGCAGATTTTAAGCACAGCTTTTTAAAGAAATCCTGCCTTAATACGTTTATTTGTTATTGTTATCAGAAAGAAGGCACACAT
TCAGACTTTTAATAAGGTGAATGGCAGGTGAATCAAAACTGGAGTTCTTTGATTTAATTACCTCCTTCTGCCAATATTTAGGCTAAGATTGGTGTTAACT
TTCCTCCAGATAGAGGTTTCCAGAATATATAAAATATGCCTTAAAATAATGCTTATTAAAGAATCCATGAGACTGGGTGCAGTGGCTGATGCCTGTAATC
CCAGCACTTTGGGAGGCCAAAGCAGGAGGACCCCTTGAGCCCAGGTTCAAGACCAGCCTGGGTAACATAGTGAGACCCCTCTCTACAAAAAATAAAAACA
AAAAATTAGCCAGGCATAGTGGTGCACACCTGTAGTCCTAGCTACTTGGGAAGTTGAGGTGGGAGGATCCCTTGAGCCCAGGAGTTTGAGGTTATAGTAA
ACTATGATTGTGCCATTGCAATCTAGCCTGGATGATAGATTGAGACCCYGTCTCTAAAAAAAAAAAATTTGTTAATTCATACTGACACTAACAAAAATAA
ACTTTAAAATGGTGGAGGTGAGTGGGGAAAAGTGAAACCTCTGCTTTACAGAATACCAACGAATAAATGTAGGAAGAATTTTTTAATCAACATTTAATAA
CGACTATAATAATAACTGATTCAGACAGCAATGATCAATAGATTATAAAACCTTTGGATGAAAGATTGTTGGAGAAAAGGATATTCATATATCTCAAAGT
GTCATGCCACAGGTTATTTATTAATTACAAAGGGAAAAGGTATAGTGAAGAAATCTAGTGGGTACCCTCTTCAACCAGATAATCAAATTTGGCATCCCCA
GTTATGTAAAACTGATATCACGTCCCACCTGATGTGATGCACTGGGAAGGACCCATCACCTACATATACATGGAATATTCCTGGTATCGACGAAAAGAGT
CAAACTCTGTAAAATATTTGAAGAGATTTATTCTGAGTCAAATATGAGTGACCATGGCCCGTGACACAGCCCTCAGGAGGTCCTGAGAACATGCGCCCAA
GGTGGTCAGGGTACAGTTTGGTTTTATATATTTTAGGGAGGCATGAGACATAAATCAAATACATTTAAGAAATACATTGGTTTGGCCGGGTGCAGTGGCT
CACACCTGTAATCCCAGCACTCTGGGAGGCCAAGGTGGGTGGATCACGAGGTCAGGAGATTGTGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTAC
TAAAAAATAGAAAAAATTAGCCAGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCAGGAGGCTAAGGTAGGAGAATGGCGTAAACCCGGGAGGCGGA
GCTTGCAGTGAGCCAAGATCGTGCCACTGGGCAACAGAGTGACACTCCGTCTCAAAAAAAAAAAAAAGAAAAGAAATACATTGGTTTGGTTCAGAAAGGT
GGGACAACTCCAAGCAGGGGCTTCCAGGCTACAGGTAAATTTAAACATTTTCTGGTTGACAATTGGTTGAGTTTATGTGAAGACCTGGGATTAATGGAAA
GGAATGTTCAGGTTAAGATAAAGGATTGTGGGACCAAGTTTTATTGTGCAGAGGAATCTCTCAGCAGACTTCACAGAGAGAGAAGAGGTTGTAAAATGTT
TCTTATCAGACCTAAAAGGGTGCCTGGCTCTTAGTTGATTATCTCGTGGATCTGGAAAGGAAGGAAAACAAAGGGTGAAGGGGATACTCTATAGAATGTG
GATTTTTCTCACAAGAGACTTTGCAGGGCAATTTAAGGCGTGGCAAGGAAATATACTCCTTGGGGTTAAATATTTTTTCCTTGTCTCATAATGTTGTGCC
GGAGTCATATTGAAAAGCAAGTCACAATATACAGGGTCAAATAAAACCCATCTGATGAGAATCCATGATATGTAGGGCATGACTCCCTGGACCCCTTAGG
TAGGAATTTGGGTAAGATAAAAAAATCAGAGTTTAGTCCTCACTGGCAATGATGTTTGGAGGAAATAGCAAAGTCCAAATTGAAAGACATTATGCAAAAC
AGCATAAGTGCCCCCTCCACCCACACTCTATTCCTGTACGAAAGGATACTTGATACTTCAAAAATGTCCATGTCATAAAAGACAAAAAAGGAAAGAGACA
AAAAGAAACATTGTTGGGAGAATTAGGGAGATTTAGGAACTGTATATGTTATATAATAATAATATATTTATTGAGTGTAATAATTGTATTCTAGTTATAT
AGGAGGATGTTTTGTTCTTAGAAGATAGAATCTTAAATCTTTAGTGATGAAGTGTCATGATGTCTGCARCTAATTCTCAGATGGTTCAGGAAAAAATGTC
TGTGTCTGTGGAGGAGGAAGAAGAAGGGAAATATGGTAAAATATTAACAATTGATTATCTAGGTAAACAGTATATAATAATTGGTCGTTGTACTTTTCTT
GTGACTTTTAGGAAGATTTAAAATTTTTCAAAAGAAAGTGGAAGACAGATTTTAATTACAATAAAATTTAAAAATRAAATAACATWTATTCTGTCTTATT
GCTTTAGGTGAAATCCTTAACCCTGTTTGTCACCCATTATCCGCCAGTTTGTGAACTAGAAAAAAATTACTCACACCAGGTGGGGAATTACCACATGGGA
TTCTTGGTCAGTGAGGATGAAAGCAAACTGGATCCAGGTATGAAATATTCCTGCAGTTGGTACAAATATTGGTTTTCATGTTTGATAACTCAAAGTTTGT
TGGAACATGAACTTACTGCTTATTAATAATGAAAGCTGTGAATGTGAGCTATAAATAACATTTGTCAGGATTCATTTTTGCTAAGCTTTAGGTCAAGTAG
AATTTAGATTTATCCTTGCTATCTCTGAGTCCTTCTCTGGTCTTCCTTGTSTCATTTGTCGTGGCAACCCTTTTCTCTTTTTTTACAGGAATAGGGTGTG
GGTGGAGGGGGCACTTAGGTTTTCCTCTTAGTGCCTTGTACTCTTACATGATTCATCTCAGTACAGATGACAGTCACCTGCAGAGTATAATTAGTCATCT
TTTAAAAACGCCCAATATTTTCCCCAAAATATCATTTAACTTACTAAGRGCCATATACTGTACTGGACATAGGTTTTTATTTTAATATTATAAGGAAACT
GAATCTCAGACAGGTAAAGTGGTTTGACCATGTCAACCACTTAGATGGGGGCTAAAATGAGCCTAGAATTCACTTCTTCTGCTTCTGGGTTCTCTTCTGT
TCCCCTCTGCTAGAGCTGCTATGGAGGAAATCTACAATATTTTTCCTAGTCTTTCCAGTTACTGGTGTCACAGAAATGAGACATTTTATGAAAAAGAACA
CCGTTAGCCAATAGCAATACATTTAAGTGCCATAAGTAATACAGTAGACTTTAGCATTTTTTTTTCTGTTCAGTAKTAATTGTTTTAAGCCACCAGCCTG
TAGTCCTGTGGTGGTTTGCGCAATTGGTATGCTGCAATGGAAAATCCATCATGCAAGATACCCCAGAGTCCAGATTTTATTTTGGAAAAGTAATAGGGAT
GGACCTGAAAAAGAAATCAGGCAGCTGGCCCAAATAAAACAAAGCACTGGGCCTAAGATAAATGTAATGTTAGGCAGTTCCTGCTTTTCACCACCATGCA
ATCTTGAAAAACACATCATAAATTCTCTTATGGAAGTAGTTTTGTATCTATTAATCTGCATCCAGGTTGACAAGAGGAGACTTWAGCTAAAACCCTTGGG
ACAAAGAGAATAGAGTTCACCAACAGGGAAGAAGAGGAGTCAGTGCCGCTAATACGCATTTGATGTGAACTGAAAACTAACCCAGAGCATTGTACCTTTC
CCTTAAATGTTCTGKGCATTTTATTTTATTGATTTTAATTTTTGTGTTTTGTTGAGATGGGGTGTCACTGTCATCCAGGCTGGAGTGCAGTGGCACGATC
ATAGCTCACTGCAGACACAACCTCCCAGGCCCAGGTGATCCTCCCATGTCAGCCTCCCCGGTAGCTGGGACTACAGGTGCACACCACCATGCCTGGCTGA
TTTTTGTATGTTCTGTAGAGACAGGCTCTCACTATGTTGCCCAGGCTGGTCTCAAACTGTTGAATTCAYGTGATCCTCCTGCCTTGGCCTCCCAAAGTGC
TGGGATTACAGGGATGAGCTACCTTGCCTRGCTGATTTTAATTTTTATCAATGAACATAATTTTTAAAATTCAATGGTGCTAAAAGGCTCCTGCTGACAA
GCTTSCATCCCTTCAGTTCACGTCCTTCCCCATCCTAGTCCCAAGGCAACTACTTTCAACACTTCCCCTTTCTGTTGTATTTCTAAGTAATATCCGTATT
TTCATGTCTCTTGCTTCATCAAGTTGACACATTATTGATGGACCTCTCATTGTGTTAATTGAGAATCTTCAATTTTCCCTTCCTCTGTCCTTCCAGTATA
GTCATTTCACATGTATTGTATGTCATTCATACTTGTTGTTTTCATTATTATTGCCATGCTAAATATTGCTTACTGATGAGCCAAGTTTGGAGACAAGTAC
ATTTCTTTCTTTTACAACGTTTTCTATTTTCTCAAAAATAAGAATTGACTGTCCTCATTTTTTCCATTTTGTTTTGTTTTGTTTTTGAGTCTATAGCTGA
ATCTTCCTGTACCCTCAGATAGCTTCGTAAAATGCCTCTCTAGATGTTTTTCCACACAACTGAACCTACTGGTTCCCATTTGTCCACTGGGGCCCTTCCT
CCTGGAGCCCTTTGTCCTCCTGCTCATCTGAACTGGCTGCTGTCTGGGCCTGCGGCACAGCTGTCATCCTAAGCCTGCCTTGCTGGCATCCTAGGAGTTC
CCTTACCCCTCTTCTAAGCATGTGATTGCAAGGAACAAAACACTCGGTCTCACACTGGCTCAGACAAAAGGATGCAGTATATATAATCCCATGTTCCATG
ACTTCCAGAGGAAGAGTGGGCTTCAGCTCCTCCTTTTTGTAATTCCCAGGCTCTGTCTTCCTGCCTGGCCAGCTTTATTATCAGGCTAGTGACAATGACT
GCAGCTCTTCCTGGCATCATGTCCAGAATGTCCAAAGGAAGAAGAGACAAGCATTKCCTGTTCACTCTTTCTTAGAACAAGGGAACTTTTTCTCAGATGC
CTTCCAGTATCTCATGATTGCCTCATTGCATTTTCAGAATTGAGTAACAGGCTCCTTCTTAAACCACTCCTTAGCAGAGGATGGCAGGGGTGACTTTGAT
GGGCCTAGATGAATCAGGATCAACTTCTGGAGCTGGCTTTGAAGACCCAGTCCCCTGAGTTAAATGATTAGGGAGTTAATTCCTTATAAAATCAAGGTTT
TCTTAGGGGTGGAATAAATGTTGAATTAGGCTACTACTAATATCAACTAAAGGAGGTAAAAGTTTTGAGATTTTTCATGAATGAAAATGTTTCACATGCT
TGTTGGCCATGTRTATGTTGTCTTTTGAAAAGTATCTGTTCATGTCCTTTGCCTATTTTTTAATGGGTTTGGTTTTTTCTTATAAATGTAAGTTCCTTAT
AGATGGTGGATATTAGACCTTTGTCAGATGCATAGTTTGCAAACATTTTCTCCCATTCTGTACGTTGCCTGTTTACCCTGTTCATAGTTTCTTTTGCTGT
GCAAAAGCTTTATAGTTTAATTAGGTCCCCTGTGTCAGTTTTTGCTTCTGTTGCAATTGCTTTTGGCCTCTTAGTCATGAAATCTTTGCCCGTTCCTATG
TACAGAATGATAAAAGCAAAACATCACTGACCATTAGAGAAATGCAAATCAAAACCACAGTGAGATACCTTCTCACACCAGTCAGAATAGGTATTATTAA
AAAGTCAAAAAATAACAGGTGCTGGTGAGGTTGTGGAGAAAAAGGAATGCTTATATGCTGGGTGAGAGTGTAAATTAGTTCAACTGTTGTGTAAGGCAGT
GTGGTGATTCCTCAAAGACCTRAAGACAGAATTACCATTCAACCCAGCAATCCTGTTACTGGGTATATACCCAGAGAAATATAAATTGTTGTGTCATAAA
GACGCATGCACACGTATGTTCATTGCAGCACTATTCACAGTAGCAAGRCATGGAATCTACCTAAATGCTTATCAACGGTAGACTGGTTAAAGAAAATGTG
GTACAAATACACTGTGGAATACTATCCAGCCATAAAAAACAATAAGATCATGTCCTTTGCCGGAATATGGATGAAGCTGGAGGCCATTTTCCTTAGCAAA
CTAATGCAGGAACAGAAAACCAAGTGTTGCATGTTTCACTTATAAGTGGGAGTTAAATGATGAGAACACATGGAGACATAGCGGGGAACAACATACACTG
GGGCCTACTAGATGGGGGAGGGTGGGAGGAGGGAGAGGATCAGGAAGAATAACTAATGGATACAAGGCTTAATACCTGGGCGATTAAATAATCAGTACAG
CAAACCTCCGTGACACAAGTTTACCTCTATAGCAAACCTGCACATGTACCCCTGAACTTAAAAGTTTAAAAAAAAAAACAACAACTCTATAGCTTCCATG
TTCGAATTTATAGTTCAGCCAGGATTAGAATTTTAGATTGAAAACCATTTCACTCAGAATTTTGAAGCAGTGCTCCACTGCCTGCTGCCTTCCAATATTG
TTCCTGGCTATATCTGTGCTTCATCCATTACCTCTTCCCCAACTTCTCCTCTTCTGTATGAGGTAGAGGCCATTGCGTAGGTCATCAGTAAAATGCCCCA
CAGGTCTTTTGGATGGCTTCTATAATACTCTATTTCCTATGATGTGATAGGTAAAACAATGGACAAACAGTTAAGAAACCTGTGTTTTAGTCTATTCCAA
TCTGTATGATCTTGAACARGTCACCTAACTTCACTCACCCCTAAATTTTTATGAATCTGTTCTAAAAGCAACTTCAGAAATTATTTGTCAGTACACATCT
CTTTAATAACTGCTTAGAGAAGTTTGGCTTAAATATAAATCTTGCTATGTTTCCCCATAATAAGCAGAAACATGAATTATTACTTCCACTGACTCAAAGC
AGTGCCAGGTAAACATTTTAATAATGTCCATTTAAGAAATGGCCATAGCTTGTAAGTAGTTACATCCTCATCAAGAACTTTTGCTGTGAGCCTGTAAAGA
AAYAGAGTTTTTCTCATAAAACAAGTTTTATTCTCTCCCATGTGGCTTTTTCTGACTCCATATTTCCATCCTACCAGCACCCCCAACCCCTCTCGCACAC
AGAGGTTAAAGGAGTACATAATTACAGAAAGAGATCCCCCAGGCGATTATAGAWGAGTGGTTGCGTTCTTTACCTTGAAGATATGAGAACTACCATAATT
TAAAGTGGAGACCAGCATATAATGATACACTCAGCAACTGTTTGTATGTTAACAAGGTATTCAGAGCAGTGAAATATTTTATGTAAGTTAGCTATATTTT
GTAGCTATATTATACATTATATATATAATTATATAAGAACATTGTTACAACTATCTCTTGTGCACTCTTTATATATGTATACATATATACATATATATAC
ATATATACATATATATATACATATATACATATATATACACACACACACACACACACTATATAAAAAAATTAAAAGTCATTAATAGGCTGGGCATGGTGGC
TCACGCCTGTAATCTCAGCACTTTGGGAGGCCAAAGTGGGCAGATCACCTGAGGTCGGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACCCTGTCTC
TACTAAAAATACAAAAAGTAGCCGGGCATGGTGGTGCATACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTAAACCCGGGAGGTGG
AGGTTGTGGTAAGTCGAGATCATGCCATTGTACTCCAGCTTGGGCAACAAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAATTCATTAACAAAT
TTTTGGATAGGGGGATTTTGTGGCATTTATCAGGCTCCCAGAAAATACTGATGGCTGGATGGATGGATAGATGGACAGACAGACAGATGAATGAATCTTG
TTTAGAAAGGTCAGCATGGGATCTAGATTATATTGGAGAGCTGGAGACAGGGAGATCAGTTAGGACTAACACAGTTGAAGTGATAAACTATTTTTCTGTC
TTAAAGTTAAGAAATGGCTTTTTTTGATTGCCTATTGCCTTTCACTTCACTCTTAGTCTTGTGAACTTTGAAGAGTTACAAAAAATTATCCAGGTTTGCA
GGCACTGGCTTCTAGCTGCATCTTCCCTAATCTGTTCCCACCTACTTCCGCACCTGTGTTTCTCAACTTTCATTTGGGGGCAAAAGGTACTGTSAGTGCC
TTGCAACGGAAGTTTAGGTCTGTGTTTCTGAGTGAGTTGGCATTCTTTCCACCTCCCACTTCAGCACCCACCCTTGGAAAGCTCTTATCTGTCTGCTGCC
GAATTCTTAGAGGAGGGCCAGGAAAAATCCATTGTCCTTTTTCTCTGTCATGTTCAGTCTTTGGCTTTTTAAATTTTCACTGATAAAAGAAGAAAAGCAT
ACACATCTATCAAATGAAATAATGATTGAGAAAAAGCTTTTAATAAACTCATAAGTATACTGGGATTGTAGAAATCTTTGTAACTCTTGTCCACCTTGGA
CATTTCTGCAGCACAGTGCACATTTTGCAGCACAATTATATTGAATTTCATAATAAAAGTTACATAATATCCTGAGCTGCTTTAGCTTAAACTACATGCA
GTGGTTTATGATAATTATTGTACTTCATTATATCCCAGTTCTTTTAAAGTTTTAAGTTCATGTGTATGTATATATATGACAGGCTGGGTCCTCTAGGAGG
CAGATTCTGAGATTTGCATTCAGGAGGTTCATTSGGAGTGCTGGGCTGTGTTATGGTCAAAAGGCTTCAGCCAGCCCTGCAGAGAACTCTGAGGCTAGAG
TGGTCCTTCAGAGTTACCTCAACTTGGGGTGAGGGGGATAGACCTCTATACCTTTATTAGTTATCTCTATTAGTTTGGGGTAATTTGCAAACAGTGTGCA
ACAGATTACCCCCCAAAACATAGCGGCTTAGAACAACAAACATTTATTACCTCATAATTTCTGTGAGTCAGGAGTCCAGGTGCAACTTAGCTGAACACCT
CTAAGGCTGAAAACTGTAGCCCTGTAAGAGACCCTCTAGTTCGGTTCCTCACAGGGCTACAGTCAGTCACTAATCAGGGCAGCAGCCATGTCAAGGCTTC
CCAGCCCACACATGGCTCTTGCCAAGCCTCCCAATATCTGCTTCCAAGCCCACTCATGTGGCTGTTGGCATGCCTTAGGCTCTCACCAACTGTTGGTGGG
AGACATCAGTTTCTTTCCATGTGAGCATCTCCACAGACAGCCCACAACATGGCGGCTGGCTTCCCTCAGAGCAGGCAGGCAACAAAATGAGAGTACCCAA
GTCAGAAGCCACAACCTTTCTGTAACCTAATCTCTGAAGTGACATCTCATCACTTTTGCCGTATTCTGTTTGTTAGAAGTGAGTCACTGGTTAGGAATGA
TACAGAGAGGGAATGACACAAGCACGTGAACACCAGCAGGCAGAGGTCTTTGGTGGCCATCTTAGAGGCTGCCTACAACAACCAGTCACTGGCTGTAGGC
TGCCCCAAAGCGGGATGTGGTCTTGGGTGAAGCCCCTCCCTTCAGCTGCAACAATTTCCAAAGAAGGCAAACAGTCGAGGGTTGCAGGCCAGCAATCTTT
CTGACAGCTGAGGGAATAAACTCTTTAGTCCTAAGTGGGATCTGGGTGGTACTGAACAGAATCCGGTATGTATAGCTCTTAGTTAACCTGAATATTTAAT
AAACCAGACCATCTTAATCCTGTTATTTAAACTGGCCAACATGTAATATTTTCTTTTCTGTTTTTAAGGGAGAAATTATAGGCCTGGTATGGTGGTTCAT
GCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGACCACTTGTGCCCAGAAGTTCGAGAGCAGCCTGGGCAACATGGCCAAAACCCCATCTCTAC
AAAAAAAAAATTAGCTAGGYGTGGTAGTATGCACCTGTAGTTTCAGCTACTCGGGAGGCTGAGATGGGATAATCACCTTGAACCTGGAAGATTGAGACTG
CCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCATGGATGACAGAGTCAGACCCTGTCTCAGAAACATAAAAAGGAGAAATTATATTGTATCAACCACG
TACTAAGATCATTCTCATCCTGGCGCAGTGGCTCACGCCTGTAATCCCAACACTTTGAGAGGCCAAGGAGGGAGGATTGTTTAAAGCCAGGAGTTCGAGA
CCAGCCTGAGCAACATAGCAAGACCTGATCTCTACAAAAAATATTAAAAAATTAGCTGAGTGTGGWGGCATGAACCTGTAGTCCTAGCTACTTAGGAGGC
TAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTGATGTTACAGTAAGGTATGATTGTGCCACTGCACTCCAGCCTAGGTAATAGAACAAGACCCTATCTCT
AAAAAAGTAAATAAATAAAAACATTCTCTTTTTAATATAGACGTTCAGTTCAAATTTGCAATGAATCATTGTTAAAAACTATTTTAAGTGAACTAAAAGA
TAGATCCTATATGCACACAGCAGTTTCAAAACAGTATTTACCCTTTTCTAGACATATCAAATTGATAAATGGATCTAACAGGCAAGTAGGAACAGTGATT
TCAGATTGTACGATTTAATAAAGTTATGAGAACTTACATGTCCTTTTTAATCCTCTAATTTATTTCAGCTTTCAGGCACAGTTTTGATCTCCTTTCTTTA
TTTCACAGGCRCAGCAGAACAAGTCCCTGATTTTGTCRCCTTCCTTTACCAAATAACTAGAGGAATTGCAGCAAGGAGTTATGGATTAAATGTGGCTAAA
CTAGCAGATGTTCCTGGAGAAATTTTGAAGAAAGCAGCTCACAAGTCAAAAGAGCTGGAAGGATTAATAAATACGAAAAGGTCAGAGTGATTATGCTGCA
TTTTTTCATTTGTAATGAAACCTTCTAAGTTGTCCAAGAAAGAGAGGAGCGTCCTAWAAATGAACATCAGGTCTACTTTTAAGCACCTCTTCAAATATTC
TGAACCATTTAATTATGATGAAGTGAAAACAGCTCTTGCAAAGCTCAGGTGAATTCAGTCCATCTTCATTAGATCATTATTAAGTTGCTAAATTGGTTTT
TCGGTCATTTTTATAAAGAATTAAGTTAACTCCTTAATATGTGCCACATTCATTACTTTAAAGATTCAGTATGCCAAAGGTTACTGAAGATATTGAGAAC
CTACAGAAGATTTCTTTTATTCATAGATTTTATTCAGATATGCAACGATTRCATCCAGAAATTCTATCAGAGCATTAATGAAAATAATAGTATTACATAA
CAGGCAATCACAGTCARTATCCACATGTCACTTATTTTGTAGATTGTGACAAATTTTTCATTCTAAACAGGCTGCTGTCACTTTAAATGCTTATGGGAAT
ACTTTCCACCTTTACGCTTGCTATCCAGCTAGTATGTAGTCAGTAYATAAATTAATCTTAATGTAAACCTGAGATACACTTTGAAAGAAAGATATTCCTA
GAAAAATATCATATTAGTAAATTATACCCTTTTGTTTCCCAAATATAAAATTCTAAAACAACATAAGCTCCCCATCCACCTACTGCCCCACCCCTGCCGT
ACTTGGGGAGCCTGGTGTGCTGGGTACATTAGTACCCTGGTTGATAATCATATGACCATGATGAACAGATTGTTGATCGAATAGAAAATCTTGGCTGGCT
ACTGGTGGTCCCTGTGTTATACTCCAATAATATTCTTTAATATTTGGTTATAATTCTGGGAATTATTACCAAATTTCAATATTGAAATAGTAATGCCTAT
CATACTAGCTAAAGAAACAGTTGCTAACTTGTTTACCAAAGTACAGTAGTGCAGTTAACTTCTCTTTCTCTACCTCCTTCTCCTGTGCTTCCGCCTTGYA
CTCCTCCACTTCGGTATACTGTAGTTCACCAAGTCCAGAGTGCTGGACTCTACAAATGGCACACAGCCTCCTCTAGTGACACTCTTTTCTGGCTCATTTC
CAAATTGCAATGCCAAAACAGAAGCAAAGTGGCATAATCAGTTTCAGCCTATTTCTGTTACAAGCCAGATTAATATAAAATTTTTCCTGAGGGAAAAGTA
TCTATGAGAATTTAAAAATAAACTTAGCCCTCTTCCTCTGCAAAGTCCAGAGACAAATTAAACTCTTTAGTTGCCATATTATTATTGKTCTTTTTCTCTG
AAAAAAACCTAGAATAAAACTTTACTACAAAGGATATATATACAAGATAGTAATAAAATATGTCAATTTCTAAATTTGCTGTAGAAATATATGCAAGATA
GCAATAAAATATGGCAATTTCTATATTTTCATATATTCTTGTTTCTGCTATATAGCCTATAAAGCAAGAGCAAAAAAACTCTCAGATTACTCATAAATAT
TTTAACTCTTCCAACTAGTAAGTGACATTTTGAACTCTATGAAGTTATCTTGACAAGATGAGAGAATTATTAGAAGACATTGCATTGGGATGGAATCTGA
TCATTTATCAAGATACTGTATTTGTTATTTTACCTTTTTTCTAAAAGTGCTTATCACATCAATTCCTTTGGCCAGATCAAAGAAATCAAACTGCATCTTG
GGCCTTACTGTGGATTTGTTATAATAGTTGCTATTTGTTGGATGGTTACTGTGTGTAGAAACCATTCTGAGCAGTCATTTGCAGCAGCCTACACACTGTG
CCAGCTACTCTTCTCATCACTTTACATACATTATCTCATTTCATCCTTATGGCAGCCTTATCCTCATGGTATAGTTGGGGAAAGTGAGACCAGCAAGGAC
AGGACACTGACCCAGAGTCACACAGCTACTTGATGGTGGAGCAGTAATTGGAACTCAGGTACTCTAGCTCCATACCCTAAATAGTCAATTGGGTTGCTAT
TCTGCAGRAAAAAAAAAAAAGTAAGTCTGTGTTATGCTGGCGTTTTACTCTTTAATTAGCTTCATTGTTTTCGGTTGGTGTTACTTTTCATCCTGGGAAC
ACTTCATAGGAGTTTCTTTTCTCCAGGTACAAATAAGCACACACCACCAGCCTCTAGCAGAGTTTGAAGGAGGAGGAGGTCAGGTTCTCCCCTCTGGGGC
TGGCAGGGGTAAGGATTTTAGGAGAAGGCACAAAGGTAATAGTGGCAATTGGTAACCTGGGTCCCTTGATTATAGTAGCAGCTCTGAAAGCTCCTTTCAC
TGGAAGGGTGACACTGACACAGCTTCCTAACTATAGAGCCTGCCCGGTATTCAAGTGTTATAGACTTTTCATAGCTTCTGATGAGACGTATTGTCTCCCA
GCAATTTCATTTATTAAATAAGTAGTATTTGATTTTTCCCCAGAAAGAGACTCAAGTATTTTGCAAAGTTATGGACGATGCATAATGCACAAGACCTGCA
GAAGTGGACAGAGGAGTTCAACATGGAAGAAACACAGACTTCTCTTCTTCATTAAAATGAAGACTACATTTGTGAACAAAAAATGGAGAATTAAAAATAC
CAACTGTACAAAATAACTCTCCAGTAACAGCCTATCTTTGTGTGACATGTGAGCATAAAATTATGACCATGGTATATTCCTATTGGAAACAGAGAGGTTT
TTCTGAAGACAGTCTTTTTCAAGTTTCTGTCTTCCTAACTTTTCTACGTATAAACACTCTTGAATAGACTTCCACTTTGTAATTAGAAAATTTTATGGAC
AGTAAGTCCAGTAAAGCCTTAAGTGGCAGAATATAATTCCCAAGCTTTTGGAGGGTGATATAAAAATTTACTTGATATTTTTATTTGTTTCAGTTCAGAT
AATTGGCAACTGGGTGAATCTGGCAGGAATCTATCCATTGAACTAAAATAATTTTATTATGCAACCAGTTTATCCACCAAGAACATAAGAATTTTTTATA
AGTAGAAAGAATTGGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTAGGCAGATCACCTGAGGTCAGGAGTTCAAGACCA
GCCTGGCCAACATGGCAAAACCCCATCTTTACTAAAAATATAAAGTACATCTCTACTAAAAATACGAAAAAATTAGCTGGGCATGGTGGCRCACACCTGT
AGTCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATCTCTTGAACCTGGGAGGCGGAGGTTGCAATGAGCCGAGATCACGTCACTGCACTCCAGCTTGGGC
AACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAGAAAAAAGAAAAGAAATAGAATTATCAAGCTTTTAAAAACTAGAGCACAGAAGGAATAAGGTCATG
AAATTTAAAAGGTTAAATATTGTCATAGGATTAAGCAGTTTAAAGATTGTTGGATGAAATTATTTGTCATTCATTCAAGTAATAAATATTTAATGAATAC
TTGCTATAGATGATGGTATGTCCCATTGAATTTTGGTGTTTCCAAGTGTTTGGAAATTGTCATTTTTTAAGGTGTAATTATGAAATTAAGGTTACTGCTT
TGACCAGCGCAATACACAGAAGTGAACTTGTTCATTTGGGACCTTTCTGTTCATTAACATATCAGGTGTATCATCTTCCCAGTAATGAGCCTTATAGCTT
AGTTGATTCATAACAGTGCTCCCTTCCTGCAAATTTAGGGTAACACGTGCTCAACTGTGTCCCTGGGTTTTTTACAGCACTTACAATCTGGCTTCCCAGA
TCCATGTGTTCTTTTTGTTTCTAAATATATGATCTTGCACAAAAGCTCTCCATCCTATTTTCCTCTCTTTTATTATTTCTGCTCAGTTAAATGTCTTCCC
CACATTTGATGGACATATTTTTAATTCCTTCTTCTGGATTATTATCTTCAGTGATCCCAGCAATGACCCCAGCCAGACACAGGAGTCAATACAGTGTCCC
CAAGTTGTGGCTTCACTTTTGAGTCAGTCACTCTTTAGCTATCTGACTCTCAACCTTATTGGAGTTAGAGTGTGATGTAATTTGATTGATTCTACCACCC
CTCCAGAAATATGAACGTATAGTCAGATTCTCAAAACTGTCAAAATAGTTAGTTGGAATGTACGCTTTAAATTTTAAAAAGAACAAAATTGTTCCAATAC
TCTATATAACTGTAAATGTCTTATATTTTTTCTAACAAGATTTCAAAGATAGTGCTGTAACCTCACCTCACAGGGAGAAAAGGAGATAACTCCAGGAATT
TCATGCCCATGCCAGAGGGAGCTGCAGGGACCAGCAATCACTGGTAATGTCCAGGTGGACATCTGGAGCCACCTCTCCCTCTTGCTTGGTCCAGGCCAGC
ATCAACACTGAAGCAGGTAGGGGTTCCAGGAGCATTGTGTCCTGGCAGTGGCAGCACACAGTGTCTGGCAGCTGACAACGTGGAACTTTACAGGGTAGAT
TGTCCAGCATGATCAGGAAGCCAGCCAGGCGGCCAGCTTGAGGGAAGGCAGGCCTCCTCCAAGCTGGGGAAGAGATCAGCACAGCTGAACTGCATTTCCA
AGTGAGACTCATCCCCAGCTGGGTTACTGAGATATTGGAGGAAACGTTGAGGCCAAATCCCAGTCATAAAGACTGCACAAATGCCATGGGGAGGTAGGCA
GAAAGTTGCAAACAAGTGGGTTTGTATTTCAGATAACCATCTTGGGGCTGCAATTCTAAAGTTAGATATAATCACACAGGTGAGAATAGGGCTGCTGGTG
CATGGCAAGCGCCCTCCACATTCCCTCTGGTACTGCATAGGCATGAGCCTGCAGGCTAAATGTCTTCCATACTTCAGACAGAGGCTAGGGGAGACAGGGC
TGACTGGTGGCCAAATGTCAAGGAAAGTAACTTTTTAATACGATATATTCCTTTAAGTGACTTGTCCGTTTTTAGCCATCAAATTACAAATTAAGAGCTA
GTGATTCTGCAGTAACACACACCAATTCCTCGAAAACCTTCTAAAGTCACACCAGTTTAATAATTCCAACCTTAGGGAAACAAAGCCAAACATATTTTAA
CAAGTTTGAACTTTGACCTTTCTATTGCTTCATCTCTCCTCAGTGCTGTTTATTCTATATAGTTTTTAAAATAGTGTTATTATATAACTAGTATAAAATA
TTTGAAAATCCATGGGACTATATAATTTAAAAAGAGAAAAAAGGAAAAATGAATTTTTAAAATTAAATTTTGTAAGGTAAAAATAAATTTAAAGGCTGGG
CGTGGTTGCTCACACCTGTAATCCTAGCACTTTGGGAGGCCGAGGTGGGCAGATTGCCTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACTCGGTGAAA
CCCCGTCTCTACTAAAATACAAAAAATTAGCCAGGTGTGGTGGCATGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGACAGAAGAATTGCTTGAACCC
AGGAGGTGGAGGTTGCAGTGAGCCAAGATCACACCACTGCACTCCACCCTGGGCAAGAGAGCAAGACTCTGTCTCAAAAAAACATTTAAAGGAAAAAAAA
TATAAAAACCTCAGCATTTGAGTTACTTAATTTATCTCAATGTTTCTCAGTGCTGAATATGAAAATCAAATGATTCCCATTTGAATCATAGACTTTTGGA
CTGAGATCCAAGCTTAGTATTCTTTTATCAGCTTTATTGACATAGTTTACATACTGCACAATTTATTTAGAGTGAATAATTCAGTGGGTTTTTGTGTATT
CACAAGCTTGTACAACTGTCACTACAATCAATTTTGGAACATTCTTAATCACCCTAAAAAGAAATGCTGTACCTATTAACTGCCAGTCTGCATTCCTCCC
CAAGATCGTCAGCCCTAGACAACCCCTAATCTTCATTCTGTCTCTATAGATTTGCCTATTTTGGACATTTCATATGAATGGAACCATAGAATATGTGGTC
TTTTGTGTCTGGTTTCTTTCACTTAGATGCAAGATTCATCTGTGTGTCAGAACTTCATTCTCTTTAACTGGTAAAAAGTATTCCATTTTATGTATACCTT
ACATTTTAATTTATCCATTCATTAGTTGATGCACATTTGGATTGTTTCTATTTCTAGCTATTATGAGTAATTCTACCATGAATATTTGTGTATAGGTTTT
TATGTGACGAGGCATAATATTTTTTAAAAAGCTCCCCTAGTAATTCTGATGTGCAGTCAGGTTTGTGAACCATTAGTCTCAAAGATGACAGATGACTAAA
CAGTATTTTTAATTGAGTTGACAATCATTTGGTCTGTTTGTCCACTGCTTTATCTGTCACTTAGGGCAGAGTGTAGCATACTGTAGACCCTAATTAATAT
TTGTTAAAGTGGAAAAGAAAAACCAAACTCCTTCAGCTTAGAAACCCAATGAAAAGATGTTTCTTTTCATAATGAAGGCACCATTTCACTAGGGATTCAA
GATCCATACAGAAGTGTGCTATATCTTTAGAAAAAAAAACTTTTTCAGACAATTTTTCCAAGTTTGTGCCTGTCGTCATCATGGTGATGGTGTTGGGGCT
GGTGAAACACTGCCCACTGCATCAATTCCAGAGTAAAAACTAGATTGAATCCAAAATTTTCTATAAATTARTGTTGACCTTTACTGAGTTCTGAGATCAA
TATTAATTACTGCTGTGCTTTGTAATTATAAAAGGGCTATTTGATGTTTCACACCAAGGATATGGGTGGAGAGAGAAAAGAACTTGTATTAACACCATCT
GTGGTTTCTAACTTTGTAATTAAGGCCAATTCCTCTGTGGAACATTTTAGTTATTATATATCATGATTATTCGGTCTATTAATATCCAGGGAAGTACCAC
AGTTTGAGAGCCATTCATTCTGGTTTACTTGGGGAGTCCTATTCTATACCTGTTTTGCTGGCATAATTATTAAAAGCCTCTTTAACTCAAAAGTGTCCTG
TTTTGGATAATAACTCATACAGTTACCCCAATTATAGGTGCTATTCCATGAGCACAGTTACTGACTTGCTACATTTTAAATGTCATCTAAAAAATTTTTC
ATTTTTTTCTTACCCATTGGATGAACCAGTTTTTCCCCTAAAGACCTGCCAGTTGTTTTTGCCTGTTCTTGATAAGTGCTTTGTATTGTGGCATTTAGAA
GCTACAGCTCTGCTAATTGGTGTGTTAGAGCTTTACTACTTAATCTGTTGTTGAGGCTAAATCCCCAAAGATAACATGTCATCTGCCTCTTCTCCACGAA
ATCATGGTGAGGAATGTGCACCTACATGACTTTGTGAGACACGCAGCAAGACTGTCTTCTTGCAGAAATAATTATTCCTCAGGAGGAGGAATTGCCTCTG
GTTCTTTTGTCCTTTGCTCAGATCCTCTCTTCATTGCCTTTGGCTATCTTTTTTTTATTTTTTTGACAAAACAGTATTTTATTTTCACATCAGAAAAGAA
ATATTGTCTGCCATTTTCACCTCTTTTTCAACCTCAAGCCCCTTTTTCTTAATCCTACTTCCAGAAAGCTCCCATTTGGAGGTAGGAATGTCTTGCCCTC
TTATCAGAAGCACCAAAGGAGTTTCTTAAATGTGGATTTCTAGGCCCCGCCTTAAAGCTACTGAACCTGAATCTCTGAAGTTGGGACACAGAAATACCAG
TGTTAGTTTCTGTCATCCCTTCATCACGTTCTCTCACCTTTTCCTTCCTCATATGGCCAATGATCTGGCCTCCAAAGAAATTTGTTAAAAATCATATTCC
TTGGTTCATGACTGCTCTTTACGATTCTGTCTGATTTACTGCATCTGGTGTGGGGTCTAGGGAACTTCATTATTATTTTTAAAATAGACTATTTCTTAGA
GCACTTTTAGATTCATCACAAAATTGAATGGAAAGCTCAGAGAGGTCCCACATACCCTCTGCTCAAACACACCACCTCCCTCACTATTGACATCCTGCAC
CGTGGTGGCATGTTTGTTACGGTTGATGAACCTACATTGTCACAACACTATCACCCAGAGTTCGTAATTTACATTGGGGCTCACTCTTGATGTTGTACCT
TCTATGGGTTTGGACAGATTTCTAATGACATGTAATCACCATTATAGTATCACACAGAATAGTTTTACTGCCCTAAAAGTCCTCTGTGCTCTGCCTATGC
ATCCCACTCACCCCAAACCACTGGCAACCACTGATCCTTTCACTGTCTCCATAGTTTTGCCTTTTCCAGAATCATACAGTAGGTAGTCTTTTCAGACTAG
CTTATTATTCACTTAATAACATGTACTCAAGCTTACTCCACGTCTGTTCATAGCTTGACAGCTCATTTCTTCTTAGCACTGAATAATATTCCATCATCTG
GATGTACCACAGTTTATCCATTCACCTACTGAAGGACATCTTGGTTGCCTCCAAGTTTGACAATTATGAATAAAGCTCTGTAAACATCTGTGTGTAGCTT
TTTACGTGGACATACGTTTTCATCTCATTTGGATAAGTACCAAGGAGTGTGATTGCTGGTAAATGTTGTTTTGTAAGAAACCACCATACTGTCTTCCATA
GTGACACTACCATTTCACATTCCCATCAGCAATGAATCAGAGTTCCTGTGGCTCCACATCCTTGCTAGCATTTGGTGGTATCAGTGTTATGGATTTTGCC
ATTCTAATAGTATGTTGTGGTATTCCATTATTTTATCTTGCATTTCTTGGATGACACGTGATGTGGAACATCTTTTTATATGCTTATTGGTCATCTATAT
CTTATTCGGTGAGGTGTCAAGATCTTTGGCTCATTTTTTGATCTGGTTATTCATTTTCTTATTGTTGAACTTCAAGTATTCTTTGCATATTTTGGATAAC
AGTCCTTTATCAGCTATGTTTTTTGTCATCTGTGGCTTGTCTTCTCATTCTCTTGACAGCGCCTTTCATGGAGCAGAAGTTTTTTATTTTAATGAGGTCC
AGCTTATCAGTTCTTTCTTTATGGATCATGCCTTTGGAGTTGTATCTAAAAAGTCATTGCTATGGCCAGGATCATCTAGATTTTCTCCTCTTCTATCTGC
TAGGAATTTTGTAGTTTGCATTTTACAATCGTCTATTTGATTTTTTTGTGAAGGGTGTAAGGTCTATATCTAGTTCTTTTTTAATAGACTTTATTTTTTA
CAGCAATTTTAGGCTCACAGCAAAATTGAATGGAAATATAAAGAGGACACTTGATTTTTAAACTGAGTATCCTAAGTGATTCCTTTGCAAATAAAGACTC
AAGTTTTAAAAAGCACAGCCATATTGCCTTCAAAATGTTATTCATCAGAAGAGGTCACTTCTGCAAATAACAGTGGGCCTTTAATTTCTCCAAGCTTTTT
AGATTACTTTTTAATGGAATATCAGGCAAAAGCAAACATTTAAATTGCATTTTTGTGTTATGAGATTTAAAGGAGTGTCTATGAAGAGGAGGCATAATAC
TTCAATCTT


SNP Information

Context             (SEQ ID NO:43496):
AGCCATGGTGCTTTCTAGAGGAAATCAGGGAATCACATGGTGCTTCATGGTTCTATATTTCTATCAGTCGTGCATCATTAATTAGTTAGCCAGCCTGGGG
Y
TTCTCTTTTTACTTTTTCAATGATTTCTCTGTCCGGATGGGTTCATCATTTCTGCATACTCTGTAGTGTCTTCTAAATGTCAGTCATTTGCACATGCCAT
Celera SNP ID:            hCV3103290
SNP Position Genomic:     23088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43497):
ACATGGTGCTTCATGGTTCTATATTTCTATCAGTCGTGCATCATTAATTAGTTAGCCAGCCTGGGGTTTCTCTTTTTACTTTTTCAATGATTTCTCTGTC
Y
GGATGGGTTCATCATTTCTGCATACTCTGTAGTGTCTTCTAAATGTCAGTCATTTGCACATGCCATGTAGCAAATTCTTACTCTTTTACAGTCTCATGAT
Celera SNP ID:            hCV3103291
SNP Position Genomic:     23122
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43498):
TTAATACTCTATGCTATGGAGAGATCCAGATGGTCTTGGTCCATGTGCCCTGAGATTTTAAGGTTGAAGATAGACACAATGGCAGACATATGTGTGGACA
R
TGTACAGATAGCAGAATAAAACACTAAGCCAACACAAGCATGGTGGCAAAGTGTTCTATAAATTTCCTCTAGGGATTTGAAATTAAACATGAATGACTAT
Celera SNP ID:            hCV29226396
SNP Position Genomic:     27082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43499):
TAGGTCACTGGAACTGCCCAAAATACATTAAACCATAGGCTTCTATACAGGGAACATTTTTTTAAACTTTTTATTGACATAGTACACATTTAGATTAAGT
S
TACAAATCCTAAATGTATACCTTGATTAATTTTTAATAAAGTGAACCAACATCACATAGGGAATCTTAAAATATAAATTTATTGATATTTTCTTTTTTCA
Celera SNP ID:            hCV3103292
SNP Position Genomic:     23424
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,34)   caucasian(C,2|G,36)   total(C,6|G,70)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43500):
AGGCTCTGTGCCTTCAGTCTGGGCAGTGCAGTTTTATACACACTGATTTTAGGTTTCTCAGTGTGATACATATCACACAGGGTGATAGATATTGTGGGTA
Y
TACAGTGTAGACCATTTCTCTGATTAAAGAAAAAGGGAATTTGGCTGACTGAAAAATTTGTTACTTTAACATCTGTACCTGGTTTTTGTAAATGCTTGGT
Celera SNP ID:            hCV29226397
SNP Position Genomic:     28665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43501):
CCTGGTGGCAAAAGGATATAAGGTCAGCTTTGGCTTTAACTTGTGGGGAAAGGAAATTGGGATTCTCCTCCAGAGAGTGCAAACGTGTTTTGTAAGGTGG
W
AGGTAGGCTTCAATTGGTTTAGAATTTTGCATTTTACAGAACTGAAAGTGTTTCATAATTATTAGTATTATGTATTTATGAGTTTTTAACATATTGTTAG
Celera SNP ID:            hCV3103293
SNP Position Genomic:     23728
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,3)      total(A,3|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43502):
GGTATGGATTCCTGTAGAAGGCAGTAAGGTTTCTGGGAAAAGGAATGGCATGATAGAAGGGAAGAGATGAGTGTACTGCCTAGATGGGACAGTTGAATTT
K
AAAAATAAATATTTCCCTAAAGGAAAAAGCGGATACAGAGAAAAGAATCAGATCAAGGAGCTTAGAGAATGCCAATAGTTGGGAATAGGAGCAAGAATAC
Celera SNP ID:            hCV29226398
SNP Position Genomic:     39134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43503):
GGATATAAGGTCAGCTTTGGCTTTAACTTGTGGGGAAAGGAAATTGGGATTCTCCTCCAGAGAGTGCAAACGTGTTTTGTAAGGTGGTAGGTAGGCTTCA
R
TTGGTTTAGAATTTTGCATTTTACAGAACTGAAAGTGTTTCATAATTATTAGTATTATGTATTTATGAGTTTTTAACATATTGTTAGATATTTAGGGTAA
Celera SNP ID:            hCV3103294
SNP Position Genomic:     23741
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43504):
GTAGAAAGAGGGCATTCCAGGAAGTGTGGTCACAGGATGAGAAAAGGGAATTGGGAACATCGAGTTGACTGGAGTGTTAGGAAAATATGGGTCAAGAGTA
K
CCTGCAACAGAATGTAGTGCAGAAGAGCTGTTCAGTGAGTATTTGCTGAATGATTATGTTTAAGGCCAGAGAGGAAGACTGGAGCTGTTTCATTGAGGAT
Celera SNP ID:            hCV29226399
SNP Position Genomic:     40443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43505):
GAGAGTGCAAACGTGTTTTGTAAGGTGGTAGGTAGGCTTCAATTGGTTTAGAATTTTGCATTTTACAGAACTGAAAGTGTTTCATAATTATTAGTATTAT
R
TATTTATGAGTTTTTAACATATTGTTAGATATTTAGGGTAAATTTTTAAACTCTATGATAGTGTTTCTTAGCAAATTATCCACCCTTGTCAACTCCTTTA
Celera SNP ID:            hCV3103295
SNP Position Genomic:     23800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43506):
TCTTAGCAAATTATCCACCCTTGTCAACTCCTTTAAACCCTACATCTGAACGTTGTGGACTGATTATTTTAACCATTTCAGAATTGACGTTTAAACATTT
Y
GAAATGAGTTTTTACAAGTCATTTTTTATCCTTTGATAGCAATATTTCTTATTTTTGTTGAAGGTGGGAGTTGTGAAGCAAACTGAAACTGCAGCATTAA
Celera SNP ID:            hCV3103296
SNP Position Genomic:     23966
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,4)   caucasian(C,22|T,10)   total(C,42|T,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43507):
TGGTTCGCTTGGCATACCTGGGTTTCCTCTTCTTCAGTAAAGTCATTTTTGATATTGGAAGTCTTGCGAATCTTCTCAGGACTTTTCTCCTTGATTGTAT
K
GGCAACAGTCTTGTGTGTAACATCAAGCAAACCTTTGATGTCTAAGTAGTTTGCAGGCAGAAGTAGTACAAAAAGTATTCCTTGATCGACTTTCAGGAAT
Celera SNP ID:            hCV3103297
SNP Position Genomic:     97937
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,8)      total(G,2|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43508):
TCATCCAAGTGATGAAGTGGGTTGATATTTGGGCCTCCATGGGGTCTGGTGTACTCCACTAAGCCCTTTGGAAGTAAGATACTGGTTATCTGTCTTTATG
M
TCTTTATATCTTAGGAAAGATAAGGCATGCAACTATGATCCAAATAAATCAGAAGAATGAATACTGGGCAGAAGATTTTTGCAAAGGGCAGAAGTACTGT
Celera SNP ID:            hCV3103298
SNP Position Genomic:     25893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43509):
TCTGGCCTCACAATCTAATCACCTCCCACCAGGTCTCCCCCTCAGCATTGGGGATTACAATTCAACATGAGGTTTGGGTGGGGACACAGCCAAACCATAT
Y
AATACTCTATGCTATGGAGAGATCCAGATGGTCTTGGTCCATGTGCCCTGAGATTTTAAGGTTGAAGATAGACACAATGGCAGACATATGTGTGGACAAT
Celera SNP ID:            hCV3103299
SNP Position Genomic:     26983
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43510):
CGTCCCTATTTGTGCAGGCGAGGCCCCGCCCCCCCGCCCCGGCGCACGCAGGGTCGCGGCGTGCTCGCGCCCGCAGACGCCTGGGAACTGCGGCCGCGGG
Y
TCGCGCTCCTCGCCGGGCCCTGCCGCCGGGCTGCCATCCTTGCCCTGCCATGTCTCGCCGGAAGCCTGCGTCGGGCGGCCTCGCTGCCTCCAGCTCAGCC
Celera SNP ID:            hCV15800898
SNP Position Genomic:     5979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:43511):
AGGACAGTGAAAGAATTGAGATGTAGGGGAGCATTTGGAATGTAGATCAGAGAAAGCTCAGAGTAGTAGCGAGCTGGGACTGTAACAGAGTATTCTACCT
Y
GGGCTGTGAGCAGAGGTGGCAGAGATGTGTGGCATGGTGCATTTGGCTGGCCATGAGAGGGGGATGTGAAGGGAAATACTTTGAATGACATCTAGTTTAA
Celera SNP ID:            hCV29226473
SNP Position Genomic:     146635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43512):
AAGGTAAAAGGAATTCTTTTTGGGGTGTTTAATCTGAAATTATAAAATTTTGAAATTAAAGGCATTTTAAAACCAAGGTTACCATTGTTTTTAAGAACAC
R
GTTTTAAATTGGAGAACATTTTATTTTAGAACTGAGCAATAGACTGGCTCTCTAGTATTACAAGGATTTTTTTCCTCATTCTCGTGAATGAGCCTGCCTG
Celera SNP ID:            hCV27505320
SNP Position Genomic:     96194
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(G,265|A,456)   total(G,265|A,456)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43513):
GTTAGAGGATGAGTTGCCCAGTCAGCACAGTGTGGATTTTCTTTGAAGGAAAATACCTGTGTCCTTCGTAAGTGTCCTACACATGCTTTATAGACAGGGC
Y
AGGGAACACTGTCATGTGAGCCTGTAGAAATTTAGAATTTTTCTGGATTGTTCTCTTGATTCTCATCAGTGTTTCCACGGAAATTGAAAGATTGCTACAG
Celera SNP ID:            hCV29226479
SNP Position Genomic:     182279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43514):
ATTTTGACATAATGTGTGAATGATTGTTACTTTATTACATATATAATATATATAATACATATATACAAAAAATATAATACAAATATATATATATATATAT
A
TATTTTTTTTTTCTTTTTTTTAAGACAGAGTCTCTTTTCGTCAGCCAGGCTGGAGTGTAGTGGCGCAATCCCGGTCTACTGCAACCTCCGCCTCCCGGGT
Celera SNP ID:            hCV26764258
SNP Position Genomic:     128421
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43515):
TTTTGACATAATGTGTGAATGATTGTTACTTTATTACATATATAATATATATAATACATATATACAAAAAATATAATACAAATATATATATATATATATA
T
ATTTTTTTTTTCTTTTTTTTAAGACAGAGTCTCTTTTCGTCAGCCAGGCTGGAGTGTAGTGGCGCAATCCCGGTCTACTGCAACCTCCGCCTCCCGGGTT
Celera SNP ID:            hCV26764259
SNP Position Genomic:     128422
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43516):
TCTAGGTTGGAGAGGTTTGTTGTTTTTTTTTTTTTTTCCTCTCAAAACTTTAGATATTTTACTCCACTCTTTTCTTGCTTTTGTGGTTTCTGAGAAGTCA
R
ATGTAATTTTTATCTTTGAGCTTGTGTGGATAAGGTGTTTCTTCCCTCTGGCTTACTTCAGTATTTTTTTTTTCTTTATCTTTGGTTTTCTGTAGTTTGA
Celera SNP ID:            hCV16081514
SNP Position Genomic:     212017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43517):
GTAAAAGCTTTTATTCTTCAAAGAACACCATCAAGAAAGTGAAAAGACAATCCACTGAATAGAAGAATTTTTGTAAATCATATATCCAGTAAGGGACTTG
Y
ATCTAGAATATATATATATATATAAACTCTTACAAGTCAATGGTAAAAAGATAACTCAGAAAATGGACAAATGATCCATACAGGTTTTTCTCCAAAGGAT
Celera SNP ID:            hCV907901
SNP Position Genomic:     84314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43518):
AAACTTCTTATGATAACAGAATGATAACATGTGGTGATTACCTTTACTTACTAGTGAAAGAAATAGCTTAATATATAAGCTACTCTCATGACATCTAATG
K
CTAGCAGCCAGGGATGCTGCTAAACATCCTAAAATGCACAGGATATTTCCCTAAAAAACACATTATTTGGCTCCAAATTTCAACACTCCAAAACCAAACA
Celera SNP ID:            hCV907902
SNP Position Genomic:     83207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43519):
TTTTAGGAGATATTGTCCAAATTATTATTTTGGTAACCATTAAGTTTTACTTAAAATTTGTGTTTAATAATGCTAACAAGTTAATGGTTCTGTTTATTAC
R
TTTTTTAATTTGATTAATTTAAAAGAATTTTTATAACAAGTTAATATATTCTGTTTTCTAGGTTCTCAAATTATTTCTGGCATTGTTAACTTAGAGAAGC
Celera SNP ID:            hCV907905
SNP Position Genomic:     79511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43520):
TTGATAGCATATAGGGTTTAATCATGATTGTTACCTATGTTTATTTAATATGCATGGGGCTCTTACATTATCTGTACAAGGGGTCTTCAGAAAGTTCATG
K
AAAATGCATATTATGAAAAAACTTTGCATAGATTTCAAAAAATTTTGGCACCAAAATAAACTCATACTAACTTGTTAGAGCATGTCTCAATAGGATGTAG
Celera SNP ID:            hCV26764400
SNP Position Genomic:     102556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43521):
TGGGAGAGAATACAAGATTCATGTATTTAATTTTCATAATAAAAACACTGCTCATATGGCACTCTTAATCTTCAGTGCACATTAAATTTTTTTTTTCCAT
G
GAGCTTTAAAAAAAATACTGATGCCTGAACCCTACCTCCAGAAATCTTTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTATTGATCATTCTTGGGTGTTT
Celera SNP ID:            hCV26764401
SNP Position Genomic:     175140
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,11)   total(G,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43522):
GGTACACACATCCTTGACATGCAGTTTGGAGTATTTCTAGACAAAGGGGATGGGCATTTTACATTTTGAAAAAACAACCTGTTCTTCAAAAAAGGTTCAT
Y
CCACCATCAGAAAAATGCCCTTTTTTTCCATGCCCTGGGTATTAGTAATGATTTACATTTTTCCAAAGGTCAATTTTAGGAGATATTGTCCAAATTATTA
Celera SNP ID:            hCV907906
SNP Position Genomic:     79337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43523):
GCTTTAAAAAAAATACTGATGCCTGAACCCTACCTCCAGAAATCTTTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTATTGATCATTCTTGGGTGTTTCT
Y
GCAGAGGGGGATTTGGCAGGGTCATAGGACAATAGTGGAGGGAAGGTCAGCAGATAAACAAGTGAACAAAGGTCTCTGGTTTTCCTAGGCAGAGGACCCT
Celera SNP ID:            hCV26764402
SNP Position Genomic:     175243
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43524):
TTTAGTTTTAGAAAGCCTCAAATAGCTTTATCTTCATATTTGCTTTGAAAGTTTAGATGAATATAAATATCCAGATTTTAAATTTAAAGAAATTGCTCCC
R
TTATCTTCCAGTATTACATTCAATGTAGATAAAGTCAGTAAGAGTCTGATTCTCATCCCTTGCTTAATGATGAATTTTTTCTTTCTCTGAGGCATTTAGA
Celera SNP ID:            hCV907835
SNP Position Genomic:     199026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43525):
TCTAGGCATCAGTGTCTTGTTAGCATGTCTCTTTAATTTCATGATGCCTTGGTCAAATAAAGTGTCTGAGCGTGTATCCCACTTCTTTTTATTTTTTTCT
R
TAAGGTCTCACTCTGTCACCCAGGCCGGAGTACAGTGGTGCAATCTTAGCCCACTGCAACCTCTGTCTCTTGGACTCAAGCAGTCCTCCCACGTCAGCCT
Celera SNP ID:            hCV907908
SNP Position Genomic:     77210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43526):
AGCTGTTAGTAAAAGTGAAGGTGGAGAGGAAAAACTAGGCTATTGGAACAGCTTCGACCAAAGAGTGTAAATTAGTGAAACTAGTTTGCAAGAATACTAG
R
GACAGGGGTCAGGCACGGTGGCTCACGCCTATTATCTCAGCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGCTCACAAGTTCGAGACCAGCCTAGG
Celera SNP ID:            hCV907836
SNP Position Genomic:     188791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43527):
GATTTGGCAGGGTCATAGGACAATAGTGGAGGGAAGGTCAGCAGATAAACAAGTGAACAAAGGTCTCTGGTTTTCCTAGGCAGAGGACCCTGCGGCCTTC
S
GCAGTGTTTGTGTCCCTGGGTACTTGAGATTAGGGAGTGGTAATGACTCTTAATGAGCATGCTGCCTTCAAGCATCTGTTTAACAAAGCACATCTTGCAC
Celera SNP ID:            hCV26764403
SNP Position Genomic:     175353
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43528):
AAGAGCTCACTGTTGTTGTGCTCATCAGAAACACTATTGTACTGCAGTCCCAGCTACTGGTTAGACTGAGGTAGGGGAGGATCGCCTGAGCCCAGGAGTT
M
GAGGCAGCAATGAGCTATTATCATGCCATTGCAGTCCAGCCGGGGCAACAAAGCGAGATCCTGTCTGTTAAAAAACAAAAAGAACCATTGCAGCCTCTTT
Celera SNP ID:            hCV907909
SNP Position Genomic:     76504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43529):
GGATGATAAGGCTTCCAGTCCACAGAAAGAGAGGGGTGAAGATGATTCCAGTATAATGGAACCATGAGAACACACAGAGGAATAAAGGTGTGTCACATCA
S
CTCTTTGAATATGCCACAAAAAAAAAAAAAAAAAAAAGGCTCTGAATTAGTTTTCCCTCAGTATCTGCTGGGGACTGGTTTCAGGACCCCCCAGTATGAA
Celera SNP ID:            hCV907837
SNP Position Genomic:     188029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43530):
GAACAAAGGTCTCTGGTTTTCCTAGGCAGAGGACCCTGCGGCCTTCCGCAGTGTTTGTGTCCCTGGGTACTTGAGATTAGGGAGTGGTAATGACTCTTAA
Y
GAGCATGCTGCCTTCAAGCATCTGTTTAACAAAGCACATCTTGCACCGCCCTTAATCCATTTAACCCTGAGTGGACACAGCACATGTTTCAGAGAGCACA
Celera SNP ID:            hCV26764404
SNP Position Genomic:     175407
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43531):
TTGATCTTATAGTTCAAATTTAACTTTTATACTCAAGGTTTTATTCTGGACATATGTTCTTAAAATCTATGTTTAAAGTTTTGTTTTCTGTCGTACAAAC
A
GAGTACTGAAATTTTTCATGCTATCTTAGAGTTTTTTTTTTAAGGCTATTTCCATGCCTAGTAAATTGAAACATATTTCTTTTTTGCAGACCAACTGTAC
Celera SNP ID:            hCV26764331
SNP Position Genomic:     144134
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43532):
ATTACTATTCCCTCATTTTTCTTGATATGATGCCAATTTTTTGCAAATATAAACAGTCATATTTGTGACTTGTCTCATACTCAACTCCTAGTGCACACAA
G
GGAGTTTTTCTCAATCTAGGAGTGGAGTTGTTGGATTGTAAGGAACATGTGTCTTTCATGATCTCCAAGGAGGCTGTACCAGCTTAGAATCCCACCACCA
Celera SNP ID:            hCV26764405
SNP Position Genomic:     177087
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,6)   total(G,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43533):
TGATCTTATAGTTCAAATTTAACTTTTATACTCAAGGTTTTATTCTGGACATATGTTCTTAAAATCTATGTTTAAAGTTTTGTTTTCTGTCGTACAAACA
G
AGTACTGAAATTTTTCATGCTATCTTAGAGTTTTTTTTTTAAGGCTATTTCCATGCCTAGTAAATTGAAACATATTTCTTTTTTGCAGACCAACTGTACA
Celera SNP ID:            hCV26764332
SNP Position Genomic:     144135
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43534):
GTTTTACTCTTGTTGCCCAGGCTGGAGTGCAGTGGCATAATCTTGGCTCACTGCAACCTCTACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCC
R
AGTAGTTGGGATTACAGGCATGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCACGTTGGTCAAGCTGGTCTCGAACTC
Celera SNP ID:            hCV26764406
SNP Position Genomic:     178180
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43535):
TCCATTGCCACATCATCAGATGTTGAAGGCACAGGCATGGATTTCTTTCATTCTAATACCATCTTTTTTTTTTTAATGCTACCAGAAGCTGTACTTTAGA
T
TTGAGTATTGTTGATTCTAGGGGATGTTTTCTCTTTTTGCAGGCATTCTTTCCTTTATCTGTTTTTGTCCTGTACCACAGCTAATGAATGAAATATGCAT
Celera SNP ID:            hCV26764260
SNP Position Genomic:     128815
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43536):
AGTTTCACCACGTTGGTCAAGCTGGTCTCGAACTCCTAACCTCAGGTAATCCACCTGCCTCGGCCTCCAGAAGTGCTAGGATTACAGGTGTGAGCCACCG
S
GCCCGCCTCCAGAATCTTTTATCTGAATACTATAACCTCACACGAATCTTTTCCTGAATAAGAAGCAGATTTTTTTAAAAAGTAGAGTTTTGGCAAACAC
Celera SNP ID:            hCV26764407
SNP Position Genomic:     178346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43537):
CACTGACTGTGGAGTATTTGTACTCTATACAAAATATATTCTTTATGGACAGAAAGAAAACATCTTGAATCAGTCCACACCTTCTAATTAGTTGTAAATA
C
CAGTACTAAAATCCACATGATAAGTGAGCACTAAATGAGTAAGTTGTTATGATTTTATTGGCATTAAAAATGTCATCTTATCAATATCTCTGTGCTTTCT
Celera SNP ID:            hCV26764408
SNP Position Genomic:     179068
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43538):
TATTCTTTATGGACAGAAAGAAAACATCTTGAATCAGTCCACACCTTCTAATTAGTTGTAAATACCAGTACTAAAATCCACATGATAAGTGAGCACTAAA
T
GAGTAAGTTGTTATGATTTTATTGGCATTAAAAATGTCATCTTATCAATATCTCTGTGCTTTCTTTAACTGTGTCTAGCAAACACTAGTTATCTTATTTC
Celera SNP ID:            hCV26764409
SNP Position Genomic:     179104
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43539):
GTTACAGAGTTTTATGCAAAAGATACAGTTGACATCAAAGGTAAATATTTTCCCTGTATGTCCTCAAGTTGAACTGATTTGAAATTTGGATAAAGGTATT
M
GTATGATTCTCAATTTAATGATGACTAGGTAGTTATTATAAATATGTGGGAGAAGAAGAGCTCACTGTTGTTGTGCTCATCAGAAACACTATTGTACTGC
Celera SNP ID:            hCV907910
SNP Position Genomic:     76348
SNP Source:               Applera
Population(Allele,Count): african american(A,16|C,4)   caucasian(A,25|C,11)   total(A,41|C,15)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43540):
AATTATGATATAAAGCCAGGTATAAGATGTTATTCAGTTGTTTTCTAGTAATCAAGCTAGAATAAATAAACTATACATTTCTTAAAGGAAATTAACAGGA
R
ATACGTTTATCAATAAACAGTTCCCACAATTATAAATGCATACTTCCCCAGTAGCCTTGATGACTGGTTCATGAGCCAGTATTTCTTCAGTGTGTATTCA
Celera SNP ID:            hCV11899212
SNP Position Genomic:     185516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43541):
AAAAAGTACTCATTTTAATATTTTATGAAATAGAGCATTTTGGCAGAGAAACTTTAGCTCTTTCTTTCTCTCTCTTTCTTCAACTTGGGAAAGAATAAGG
M
ATAAATCTTTATCTTTTTTTTTTCTTCTTCTGGCCAAGACCTAAATACCAGCATTTCATGATAATGGATAAGTTATCTTTGAAATTTTCCTTTTTTCTTT
Celera SNP ID:            hCV907911
SNP Position Genomic:     76071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43542):
ATTCTTCCAGTCTACGGGAAGCCTGAAATCCACCTCCTCCTCCACAGGTGCAGCCGACCAGGTGGACCCTGGCGCTGCAGCGGCCGCAGCGCCCCCAGCG
S
CCGCCTTCCCGCCCCAGCTGCCGCCGCACGTAGTAGGTTCTGTCTGGGACTGGGCAGGGCCATCGGGGCTGGGGGGGCGGGGCTTGTGGGTAAGGCGGGC
Celera SNP ID:            hCV16231132
SNP Position Genomic:     6206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION


Context             (SEQ ID NO:43543):
AGATCATCAGAGGCATCTACAAATGAGTAGTCACCAGTGACAAAATCTCAAAGCGAGGCAGGCTGGAGAATGGGCGATCTGTTAGTCTTGCCAGAGAGGA
R
GGTATTAGCAAAGGCAGATTGAATAAGCGGAAGGTAAAAAAATAAAAAGCAGCAATAGCATTTTTTTTTTACATATACTTCATTAGCACAGGTTTGGCTT
Celera SNP ID:            hCV907840
SNP Position Genomic:     186931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43544):
TTCTTTCAATCTTTCAAATCTCCTCTTTCATTTCTTTTTGACTTTGAAAAAAATTTCCCCCTTTCATTTCCTGCTTCTTATCTTTATTATCTGTAGTATT
K
ATTCAGTTGTGTGCCTTCTAGACTATCGTTCATTCTGAGAAGTTTTCCTTTTGTCTCTAATTCCTGAGTTCTGCCCGTTGATTTCTGAGTTTTTCTAAAT
Celera SNP ID:            hCV907913
SNP Position Genomic:     71237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43545):
TTTGAGCCGATTCTTCCAGTCTACGGGAAGCCTGAAATCCACCTCCTCCTCCACAGGTGCAGCCGACCAGGTGGACCCTGGCGCTGCAGCGGCCGCAGCG
S
CCCCAGCGCCCGCCTTCCCGCCCCAGCTGCCGCCGCACGTAGTAGGTTCTGTCTGGGACTGGGCAGGGCCATCGGGGCTGGGGGGGCGGGGCTTGTGGGT
Celera SNP ID:            hCV16231133
SNP Position Genomic:     6197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION


Context             (SEQ ID NO:43546):
TTATAAATGCATACTTCCCCAGTAGCCTTGATGACTGGTTCATGAGCCAGTATTTCTTCAGTGTGTATTCAGCATTGCTACTTCCATTGGTACTGCATCC
R
TACCATCAGGTGCTATGGAAAAATAGAATTGTAATAGAAAATGTGTTGGCTCCTAATGCAGTGGCCTTCAAACTACCCTCCAGGGTGTGAGTCCCACAGA
Celera SNP ID:            hCV907841
SNP Position Genomic:     185646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43547):
AAGCGGTTTTGAGCCGATTCTTCCAGTCTACGGGAAGCCTGAAATCCACCTCCTCCTCCACAGGTGCAGCCGACCAGGTGGACCCTGGCGCTGCAGCGGC
Y
GCAGCGCCCCCAGCGCCCGCCTTCCCGCCCCAGCTGCCGCCGCACGTAGTAGGTTCTGTCTGGGACTGGGCAGGGCCATCGGGGCTGGGGGGGCGGGGCT
Celera SNP ID:            hCV16231134
SNP Position Genomic:     6190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;SILENT MUTATION


Context             (SEQ ID NO:43548):
AAAATAATGTTCGGCTTCCTAATAAGAAAGTGAAGAGGAAAATCAAGGTGTTTTCATCTTGCTTGTAGGATGGGTGCTGCAGACAATATATATAAAGGAC
R
GAGTACATTTATGGAAGAACTGACTGACACAGCAGAAATAATCAGAAAAGCAACATCACAGTCCTTGGTTATCTTGGATGAACTAGGAAGAGGGACGAGC
Celera SNP ID:            hCV907914
SNP Position Genomic:     205663
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,10)   caucasian(A,8|G,30)   total(A,10|G,40)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;NIH Coriel panel(A,4|G,77)      total(G,77|A,4);(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:43549):
AATTTGTCTCATTTACATTTTTCTAAATTAAGTCTAATAAGCGAGGAATTTTCCCTAAGCTGTGAATTGGAATTAATTATGGTTCCTCACAGAAAGGTAA
S
AATAGTAGGAGTACTAATGTTGAAAATGTGGCCTTGTGCTGTAAATTTTTTAACAGCTCTTTCTCATGTTTCTTTACCAAGAGAATCATGGTTCTTTCTT
Celera SNP ID:            hCV27506210
SNP Position Genomic:     20788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43550):
CCACAATTATAAATGCATACTTCCCCAGTAGCCTTGATGACTGGTTCATGAGCCAGTATTTCTTCAGTGTGTATTCAGCATTGCTACTTCCATTGGTACT
R
CATCCATACCATCAGGTGCTATGGAAAAATAGAATTGTAATAGAAAATGTGTTGGCTCCTAATGCAGTGGCCTTCAAACTACCCTCCAGGGTGTGAGTCC
Celera SNP ID:            hCV907842
SNP Position Genomic:     185640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43551):
ATTCTTTATGGACAGAAAGAAAACATCTTGAATCAGTCCACACCTTCTAATTAGTTGTAAATACCAGTACTAAAATCCACATGATAAGTGAGCACTAAAT
G
AGTAAGTTGTTATGATTTTATTGGCATTAAAAATGTCATCTTATCAATATCTCTGTGCTTTCTTTAACTGTGTCTAGCAAACACTAGTTATCTTATTTCA
Celera SNP ID:            hCV26764410
SNP Position Genomic:     179105
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43552):
ATAGACCTATTCAGAATTTCTGTTTTTTTTCTTGTGTGAGTTTTGGCTCATTGTGTCTTTTAAGGAATTGTTTTTCAAGAAATTTTCACCAAGGTTACCA
R
ATTTGTGGACATAGAGTTGGTCATAGTATTCCTTTATTATCCTTTTATTTGTCCACAGCATCCGTAGTGTTGTCCTTTTCATTTCTGATATTAGCCATTT
Celera SNP ID:            hCV907915
SNP Position Genomic:     209162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43553):
TTTTAAGGAATTGTTTTTCAAGAAATTTTCACCAAGGTTACCAAATTTGTGGACATAGAGTTGGTCATAGTATTCCTTTATTATCCTTTTATTTGTCCAC
R
GCATCCGTAGTGTTGTCCTTTTCATTTCTGATATTAGCCATTTGTGTCTTTTCTCTTTTGTTCTTAGTTAGCTTGACTAGAAGCTTATCAGTTTTCTTTT
Celera SNP ID:            hCV907916
SNP Position Genomic:     209219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43554):
TTCTTTATGGACAGAAAGAAAACATCTTGAATCAGTCCACACCTTCTAATTAGTTGTAAATACCAGTACTAAAATCCACATGATAAGTGAGCACTAAATG
A
GTAAGTTGTTATGATTTTATTGGCATTAAAAATGTCATCTTATCAATATCTCTGTGCTTTCTTTAACTGTGTCTAGCAAACACTAGTTATCTTATTTCAT
Celera SNP ID:            hCV26764411
SNP Position Genomic:     179106
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43555):
TCTTTATGGACAGAAAGAAAACATCTTGAATCAGTCCACACCTTCTAATTAGTTGTAAATACCAGTACTAAAATCCACATGATAAGTGAGCACTAAATGA
G
TAAGTTGTTATGATTTTATTGGCATTAAAAATGTCATCTTATCAATATCTCTGTGCTTTCTTTAACTGTGTCTAGCAAACACTAGTTATCTTATTTCATC
Celera SNP ID:            hCV26764412
SNP Position Genomic:     179107
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43556):
TTCCTACATGTGTCTTCCACTGTTTTTCTGTCTTATGTGGTTTTAACTGAGTATTTTATATTATTTCATTTTCTCTCTTTTTTTTTTTTTTTGTTTTTTG
K
TTTTTGGTTTCTTGGGGTGTTTTTTGAGGTGGGATCTTACTGTGTTGCCTAGGCTGGCCTCAAACTCCCGGGCTGAAGTGACCTTCCCACCTCAGCCTCC
Celera SNP ID:            hCV907918
SNP Position Genomic:     211233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43557):
AAATGACTGTTAAACATTTTGGCACATTATTTCCATGTGTGTATATCACTTTTTTCCATTTGTGAACTTGCATTCCTGCTGCAAAATCACTTTTGTATTC
Y
GTGGTTTTTTTTTTTTTAACTTTACAATTCCCCATTTTTAAAAACTTTATTGCAGAAAATTTCAAACATACACAAAATTATACAGAATAGTGTCATGAAC
Celera SNP ID:            hCV11649800
SNP Position Genomic:     31858
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43558):
GTTTTTAGCAACCTGAAGTGAATGGGAACATCTTCAGTTTCAGAAAGCACACAAAATAAACTAACTCTTAAAACCTCTCCAGGTTGGGCGTGGTGGCTGA
M
TCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAA
Celera SNP ID:            hCV26764413
SNP Position Genomic:     183351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43559):
AATGTTTTTCATATTGCTAGAAGAAGGCTAGTTATTTCTGCCTTGTCTTAACAGAATGATACGATATAATTCTTAAATGTATCATTTGTGATTTTTAAAA
M
TAACATTTGTTTTTCTAATTACACAAGTAATGCATGTTCATTATGCAAAATTTTAAACTCAAAATTTTTTAATCACTTGTAATTCCACCACCTGGAGATC
Celera SNP ID:            hCV907846
SNP Position Genomic:     182771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43560):
TTTTAACTGAGTATTTTATATTATTTCATTTTCTCTCTTTTTTTTTTTTTTTGTTTTTTGTTTTTTGGTTTCTTGGGGTGTTTTTTGAGGTGGGATCTTA
Y
TGTGTTGCCTAGGCTGGCCTCAAACTCCCGGGCTGAAGTGACCTTCCCACCTCAGCCTCCCAGGTAGCTGGGAGTACAGGTGCATGGCACTGTGCCCAGC
Celera SNP ID:            hCV907919
SNP Position Genomic:     211273
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43561):
GCTGTAATCTCATCATTTATTGTCTTCTGCCTACTTCAGATTTAATTTACTTTCCTGTTTCTGGTTTGCCCTTGAACTCTTATTTTTAAGAATCTCTACA
R
GTGACTCTGATGCACAAATTTAGGAGCCATTGTTTGCATTTTAATTTCTAACATTTTATAGGAAGAAAAACAGGATCAGAGAGAGATTTTGTTTTGCATG
Celera SNP ID:            hCV907847
SNP Position Genomic:     181839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43562):
GCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCGGGTGTGGTGGC
G
GGGCGCCTATAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCTGAGATCGCGCCACTGCACTC
Celera SNP ID:            hCV26764414
SNP Position Genomic:     183483
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43563):
AGCATTTTAAAAGCTCATGCTAAGCTTAAATGTAAGAATCTACTGTATGGCTTGTAATCTTAGTTTCATGTAATTGTTTCATTAGAATATGTTATTGTAA
R
TCACTTCAAATGCTTTTTGTACTCAATGGAAAAAATATTAAAATCTAGCAGAATGAGATATTTGCATAAGATTTAGCTCCAAGCTGTATCTGTAAATAGA
Celera SNP ID:            hCV907848
SNP Position Genomic:     177807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43564):
GATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCGGGTGTGGTGGCGGGGCGCCTATAGTCCCAGCTAC
Y
CGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAAGGCGAGAC
Celera SNP ID:            hCV26764415
SNP Position Genomic:     183506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43565):
ATTTTATCCCTAGGATATAATTATATCCCATTAAATTATATCCCTAGGATATAGTTTAATATTACGCCCTTGTAGCTTTCATTGATTTTTTATGAAATAA
W
TCAGACGTATAATAATCCTCCATGCACCTTCTACCCTACTAAAGAAATAAAACACTACAATACAATCGAACCTCTAATCCTCCCTAATCCCATTGCCCTC
Celera SNP ID:            hCV907849
SNP Position Genomic:     176618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43566):
TGAGCTGTGTACCTAAGAAATGCTAAAATGGTAAATTTTATTATTTTTATATATATATATCATAATTTTTAAAAGCACTTGAAGTATGTCCAATAATACT
R
TTGTAATAGGAATAATCATTGCCTCTACTTAACAATTTTAATATTTAAGCTCTAGTTATCATTCAATATGAAAAGTCCTCTTTTCCTAATTGCAGTATTT
Celera SNP ID:            hCV26764416
SNP Position Genomic:     184291
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43567):
GGACTACAGGAGCGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCACTTGACCTC
R
TGATCCGCCCACGTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCTCGCACAGCCAAACTTTCTTGTTAATGTATATCTTGTCTTGCTTCTA
Celera SNP ID:            hCV26764417
SNP Position Genomic:     185182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43568):
GGGGTTTCACCGTGTTAGCCAAGATTATCTCAATCTCCTGACCTTGTGATGCGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTG
Y
GCCGGCCAAAAAATTAACATTAATTTATGAATATATTTGAATTTCTTGAATTTTCCCAATGTCCCCCCGCCACCGGCTTTAGATTTTAAAATGAAAGACC
Celera SNP ID:            hCV26764272
SNP Position Genomic:     131348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43569):
TAACTAAGAAGAAAATATGAGACCGGGTATGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGCCTGAGGTGGGTGGATGACTTGAGGTCAGGAGTTC
R
AGACCAGCCTAGCCAACAGGGTGAAACCCTGTCTCTACTAAAAATACAAAAACTAGCTGGGCATGGTGGCACATTCCTATAGTCCCAGCTACTCGGGAGG
Celera SNP ID:            hCV26764418
SNP Position Genomic:     187216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43570):
GTTCGAGACCAGCCTAGCCAACAGGGTGAAACCCTGTCTCTACTAAAAATACAAAAACTAGCTGGGCATGGTGGCACATTCCTATAGTCCCAGCTACTCG
K
GAGGCTGAGGCACGAGAATTACTTGAACCCTGGAGGTAGAGGTTACAGTGAGCTGAGATTGCACCACCGTACTCCAGCCTGGGCAACAGAGAGACTGTCT
Celera SNP ID:            hCV26764419
SNP Position Genomic:     187312
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43571):
TGTGATATTCGTCTTTTGGTACCTGGCTTATTTTACCTAACATAATGACCTCAGTTCCATCCATGTTACTGCAAAGGACAGGGTTTCATTTTTTGGGGGG
S
GCTGAATAGTATTCCATTGTGTGTATATTCCACATTTTCATTATCTGTTCATCCATTGATGGACACTTAGGCTGAGTCCATAACTTGGCTGTTGAGAATA
Celera SNP ID:            hCV11649738
SNP Position Genomic:     67780
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43572):
TAAAGAAAGTTGAGGTCTCCCAGGCTAATCATCCTGGTGTTATTCTTGATTCTTTCTTCCTTTTGGTCCCTTTATCTGTTACCAAGTTCTTTTTTTTTTT
Y
TTTTCCTCGCTCTGCCACCCAGGCTGGAGTGCAGTGATACAATCATGACTCATTGCAATCTCTACCTCCCCAGCTCAAGCAATCCTTCCACCTCAGCCCC
Celera SNP ID:            hCV26764278
SNP Position Genomic:     132983
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43573):
TATGAGATCAACTTTTTTAGCTCCCACATTTGAGTGAGAACATGTGATATTCGTCTTTTGGTACCTGGCTTATTTTACCTAACATAATGACCTCAGTTCC
R
TCCATGTTACTGCAAAGGACAGGGTTTCATTTTTTGGGGGGGGCTGAATAGTATTCCATTGTGTGTATATTCCACATTTTCATTATCTGTTCATCCATTG
Celera SNP ID:            hCV11649739
SNP Position Genomic:     67738
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43574):
CGTTTGCAACTAATCCAAGTCTACTTTCAAATAACACTATATTGCTTTATGAGTAATGCACGTATTTTTTAATAACAAAATAATCCTGATTACTTTCTTC
Y
ATCCTTTGCACCATCACTGTCATTTATTTCACTTATACTTAAGTGTACATAAGCATATATATATATAAACATACATAATCGCATACACTGTTGCTATTAT
Celera SNP ID:            hCV907920
SNP Position Genomic:     211554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43575):
CTTCAGTTTTGAAGGATTATTTTGCAAGGTACAGAATTCTAGGTTGGAGAGGTTTGTTGTTTTTTTTTTTTTTTCCTCTCAAAACTTTAGATATTTTACT
M
CACTCTTTTCTTGCTTTTGTGGTTTCTGAGAAGTCAGATGTAATTTTTATCTTTGAGCTTGTGTGGATAAGGTGTTTCTTCCCTCTGGCTTACTTCAGTA
Celera SNP ID:            hCV907922
SNP Position Genomic:     211980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43576):
CTAACTTGGGGGACAGTGGTTTGCCTGTGACTTCATTTTTCTTACAGATCTAAAGAGTTGATTTTTCAGTTGGTTCTACTTTTTCCTTGTGATGGAGAGG
Y
AACCTCCAACCTTCTTATATGCTAAACTGGAAACCAGAAACTTCCCTGACCTTTTTATGGATGAAAATCTTTATTTTCATGGTTCCTTCTGATCTCTGGA
Celera SNP ID:            hCV907923
SNP Position Genomic:     213443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43577):
AACAGCCTTAAGGAACTGGCCCAATTGCCAATCACTGTGTGAAAGAACAACCACCAAATTTGTTGTTTCAGCATAGTAGGATTCATTCTCAATTTATTCC
R
TCAAACATACTAGTTTTTTAGCTACTTCGGGATATATTTTGCAGTGACTTGGTCCTGGTGGGTAGTGTTATGTGGAAAGATACGCTTGTTACAATATGTG
Celera SNP ID:            hCV907852
SNP Position Genomic:     174479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43578):
GTCCACAGAAAGAGAGGGGTGAAGATGATTCCAGTATAATGGAACCATGAGAACACACAGAGGAATAAAGGTGTGTCACATCAGCTCTTTGAATATGCCA
M
AAAAAAAAAAAAAAAAAAAAGGCTCTGAATTAGTTTTCCCTCAGTATCTGCTGGGGACTGGTTTCAGGACCCCCCAGTATGAAAATCTGCAGATGATCAC
Celera SNP ID:            hCV26764420
SNP Position Genomic:     188046
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43579):
AGAGTAAAATCCTAGACTTCACACAGTTTTTGATAGGTCAATAGGATTCTCAGATCTCTTGCTAATATTAATTACCTGCAAAATGTGAGTAAACCGGCTG
Y
GTATGGGAAAGAATAGGGGCTTTAGATCTAGAAAACTCAAGATTCTGTACAAGTTCTCCAGCATCCTGGCCATGTGCAAGTTACTTCATCCTTCTAGAAC
Celera SNP ID:            hCV907853
SNP Position Genomic:     173603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43580):
TATTGAGTGTAATAATTGTATTCTAGTTATATAGGAGGATGTTTTGTTCTTAGAAGATAGAATCTTAAATCTTTAGTGATGAAGTGTCATGATGTCTGCA
R
CTAATTCTCAGATGGTTCAGGAAAAAATGTCTGTGTCTGTGGAGGAGGAAGAAGAAGGGAAATATGGTAAAATATTAACAATTGATTATCTAGGTAAACA
Celera SNP ID:            hCV907926
SNP Position Genomic:     216069
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43581):
CAGCGTAGGGGCATTTTCTTAAGTTATTTTATGTCATTACCTTTGTTGTTTGTATCTTTTGCACTTCCTATTTGAGCAGCTTTCAACTGTTAGGACATGG
Y
CTCCGTGTTTTAAATCTATTTGTTTGTACTTTACATTTCTTGGTCTTTCTCATTGCTGTTCTCAGAGATTTCTTTGAATTTATCTTCCAGGTTTAAAAAC
Celera SNP ID:            hCV1853017
SNP Position Genomic:     199342
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43582):
CAGAAAGAGAGGGGTGAAGATGATTCCAGTATAATGGAACCATGAGAACACACAGAGGAATAAAGGTGTGTCACATCAGCTCTTTGAATATGCCACAAAA
A
AAAAAAAAAAAAAAAGGCTCTGAATTAGTTTTCCCTCAGTATCTGCTGGGGACTGGTTTCAGGACCCCCCAGTATGAAAATCTGCAGATGATCACATCCC
Celera SNP ID:            hCV26764421
SNP Position Genomic:     188051
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43583):
AGTATCTATCTTAGTTCATAACTGGTTATCCTATGCCATCATGCTATTTGTTCACTATTTGAGGGAAAGAACTCTACTCCATTGTGTATTCCCTGCCCCA
Y
TCAGGATGGCAGTAAGTACAGCTACTAATATAAATTAAAGTCATTCAGAAATGAAATTATTTTCACATTTATATTACATTGTTTTCACTTCATCCTGGAA
Celera SNP ID:            hCV907854
SNP Position Genomic:     172856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43584):
GTTCACCAACAGGGAAGAAGAGGAGTCAGTGCCGCTAATACGCATTTGATGTGAACTGAAAACTAACCCAGAGCATTGTACCTTTCCCTTAAATGTTCTG
K
GCATTTTATTTTATTGATTTTAATTTTTGTGTTTTGTTGAGATGGGGTGTCACTGTCATCCAGGCTGGAGTGCAGTGGCACGATCATAGCTCACTGCAGA
Celera SNP ID:            hCV907928
SNP Position Genomic:     217615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43585):
GCTGAGGTGGGAGTTCGCTTGAACCTGGGAGGTTGAGGCTGCAGTGAGCCAAGATCGTACCATTGTACTCCAGCCTGCGTAACAGAGCCAGACCTTGTCT
A
AAAAAATAAAATAAAAATGCTGGGGACTGGATATTGCATCTTAAAGGGGCAAGGAAAATGAAAGAAAATGCTGAATTCTCATTTTCATATTTATAGAACA
Celera SNP ID:            hCV26764423
SNP Position Genomic:     189078
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|-,7)   total(A,6|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43586):
GACTACAGGTGCACACCACCATGCCTGGCTGATTTTTGTATGTTCTGTAGAGACAGGCTCTCACTATGTTGCCCAGGCTGGTCTCAAACTGTTGAATTCA
Y
GTGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGGATGAGCTACCTTGCCTGGCTGATTTTAATTTTTATCAATGAACATAATTTTTAAAA
Celera SNP ID:            hCV907929
SNP Position Genomic:     217869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43587):
CTCATTGTTCAGTTCCCACCTATGAGTGAGAACATGCAGTGTTTGATTTTCTGTCCTTGCAATAGTTTGTGAGAATGATGGTTTCCAGCTTCATCCATGT
Y
CCTACAAAGTACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCATATTTTCTTAATCCAGTCTATCATTGATGGACATT
Celera SNP ID:            hCV26764424
SNP Position Genomic:     192716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43588):
TGGTTTCCAGCTTCATCCATGTTCCTACAAAGTACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCATATTTTCTTAAT
S
CAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGCCTTTGCTATTGTGAATAGTGCCACAATGAACGTACGTGTGCATGTGTCTTTATAGCAGCATG
Celera SNP ID:            hCV26764425
SNP Position Genomic:     192794
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43589):
CCATTTGAGAAAGAGATAAGATCCCTCGTGTAGGATAGGCATTGTTTCAAACTGTGCGTATGAAATCAGTGCATTGAATTGCAATTAGCATTTTGGGGTA
R
TACTTCCTAGATAGTGCTTTGTGTTCCACATCATGGCATATCAGGGTGCAACCAATGTCCAGTTGACCCAAATAAGCTTTTTTTTTTTAATGCAGTAGAA
Celera SNP ID:            hCV907858
SNP Position Genomic:     170513
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43590):
AACGTACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATCTCTAGTTCTA
R
ATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACACTCCCACCAACAGTGTAAAAGCGTTTCTGTTTCTTCACATCCTCTCCAG
Celera SNP ID:            hCV26764426
SNP Position Genomic:     192961
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43591):
ATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATCTCTAGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACA
S
TCCCACCAACAGTGTAAAAGCGTTTCTGTTTCTTCACATCCTCTCCAGCATCTGTTGTTTCCTGTCTTTTTAATGATCATTGTTCTAACTGGAATGAGAT
Celera SNP ID:            hCV26764427
SNP Position Genomic:     193013
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43592):
GCACCTGCAGGACAGCTCTGAGCTGCCCTCAGCCCTCTCCTTGGCCTCCTTCCCATGTTCATCAGTGTCCAAAGTCCAGAGGGGGCCGAGGCAGCAGGGG
K
CTGGCATGTTAGCACTGCCCTGAGCATGTGCACACCCAGCCAGGTTGCAACAGTTCCTAGGCTTGGCCTTAACTTTGAGATCAGAGTGGGTGCTGGGAGC
Celera SNP ID:            hCV16117065
SNP Position Genomic:     19821
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,7)      total(G,7|T,5) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43593):
CTGTCTTCCACAATGGTTGAACTAGTTTACACTCCCACCAACAGTGTAAAAGCGTTTCTGTTTCTTCACATCCTCTCCAGCATCTGTTGTTTCCTGTCTT
Y
TTAATGATCATTGTTCTAACTGGAATGAGATGGTATGTCATTGTGGTTTTGATTTGCATTTCTCTGGTGACCAGTGATGATGAGCATTTTTTCATATGTC
Celera SNP ID:            hCV26764428
SNP Position Genomic:     193082
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43594):
TCTTAAGGCCTTTTAAAATTAGATTATATCGAATTAATTTTTTTTGAGGTTCTGTCTTTGGACTTCTTTCAGTTGATATAGTCTTGTCAATTTTTTATTT
A
CACACACACACACACACACACACACACACACCCATATGTATGTCATTGGTTTTGTCAAAAAGCCTGAAAATGCAAATTCTGCTTGTAAATATTGGTAGAG
Celera SNP ID:            hCV26764358
SNP Position Genomic:     100173
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43595):
CTTAAGGCCTTTTAAAATTAGATTATATCGAATTAATTTTTTTTGAGGTTCTGTCTTTGGACTTCTTTCAGTTGATATAGTCTTGTCAATTTTTTATTTA
C
ACACACACACACACACACACACACACACACCCATATGTATGTCATTGGTTTTGTCAAAAAGCCTGAAAATGCAAATTCTGCTTGTAAATATTGGTAGAGG
Celera SNP ID:            hCV26764359
SNP Position Genomic:     100174
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43596):
AATGAGAGCTTCTTTGTGCATTTTCATCAAGTGCATTCTCCTCAGGAATATATCTCCTTGAAAAGAAAAAATGGGGTGTATTTGCAGTAGGTTTATTGAT
R
GTCGAATAGGAAGAAACAGCATTTGAGAAGTGTGGAGAAAAGATCTTCCTGATTACTACAGAGACCTCCTAAAGTGGGGCCAGACTGCTTGAACAGAAAG
Celera SNP ID:            hCV11649747
SNP Position Genomic:     51548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43597):
GAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAAGGGGGGAGGGATAACATTGGGAGATATACCTAACGCTAGATGACGAGTTAGTGGGTGCAGC
R
CACCAGCATGGCACATGTATACATATGTAACTAACCTGCACATTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATTAATTAATTAATTAAAAA
Celera SNP ID:            hCV26764288
SNP Position Genomic:     137557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43598):
CTTAGCCCCCTGAGTGGCTGGGACTACAGGCCTGCACCACCATACCCAGCTATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTGGGCCAGGCTC
R
TGTTGAACTCCTGACCTCAAGTGATCCACCTGTCTCGGCCTCCCACAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCAGCACTACACTTTCTA
Celera SNP ID:            hCV27482939
SNP Position Genomic:     62597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43599):
CAATCCTGTTACTGGGTATATACCCAGAGAAATATAAATTGTTGTGTCATAAAGACGCATGCACACGTATGTTCATTGCAGCACTATTCACAGTAGCAAG
R
CATGGAATCTACCTAAATGCTTATCAACGGTAGACTGGTTAAAGAAAATGTGGTACAAATACACTGTGGAATACTATCCAGCCATAAAAAACAATAAGAT
Celera SNP ID:            hCV907930
SNP Position Genomic:     219848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43600):
TCTATAATACTCTATTTCCTATGATGTGATAGGTAAAACAATGGACAAACAGTTAAGAAACCTGTGTTTTAGTCTATTCCAATCTGTATGATCTTGAACA
R
GTCACCTAACTTCACTCACCCCTAAATTTTTATGAATCTGTTCTAAAAGCAACTTCAGAAATTATTTGTCAGTACACATCTCTTTAATAACTGCTTAGAG
Celera SNP ID:            hCV907931
SNP Position Genomic:     220619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43601):
ACTAGGCTATTGGAACAGCTTCGACCAAAGAGTGTAAATTAGTGAAACTAGTTTGCAAGAATACTAGGGACAGGGGTCAGGCACGGTGGCTCACGCCTAT
Y
ATCTCAGCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGCTCACAAGTTCGAGACCAGCCTAGGCAATGTGGCAAAACCCCATCTCTACCAAAAATA
Celera SNP ID:            hCV1853022
SNP Position Genomic:     188824
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43602):
TGCCAGGTAAACATTTTAATAATGTCCATTTAAGAAATGGCCATAGCTTGTAAGTAGTTACATCCTCATCAAGAACTTTTGCTGTGAGCCTGTAAAGAAA
Y
AGAGTTTTTCTCATAAAACAAGTTTTATTCTCTCCCATGTGGCTTTTTCTGACTCCATATTTCCATCCTACCAGCACCCCCAACCCCTCTCGCACACAGA
Celera SNP ID:            hCV907932
SNP Position Genomic:     220903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43603):
AAGAGAATAGAGGAACATGTTAAACACCACCATAGGGGTACTGTCAGCAAAATCTAGACTGTGGGAAACTATAGGACAAATGACTGGTGTTTTTTTTTTT
Y
TAACAAATAAATAGCAATGACAAAAAAAAAAAAAAAAAAAAAGGTGGGGGAGAGAGGGAAGAGAACCTGCATATTAAAAGAGAGTTAAAGACCAGTCACC
Celera SNP ID:            hCV907860
SNP Position Genomic:     169880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43604):
GACTCCATATTTCCATCCTACCAGCACCCCCAACCCCTCTCGCACACAGAGGTTAAAGGAGTACATAATTACAGAAAGAGATCCCCCAGGCGATTATAGA
W
GAGTGGTTGCGTTCTTTACCTTGAAGATATGAGAACTACCATAATTTAAAGTGGAGACCAGCATATAATGATACACTCAGCAACTGTTTGTATGTTAACA
Celera SNP ID:            hCV907933
SNP Position Genomic:     221054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43605):
GTCCAAGATCTCCTGAACACTGGCCTGCCCTCCTTAAGAAAGAAACCCTATAATACCATGAGGCATGTAGGGGTGACTCAAAAAACTCCAGGCCAGAAAC
Y
AGAACACCTAATAAGTATTTGTCTCTTGTCTGCCACAGATTAGCCCTGTCACCTTGAGGAAGTGGCTTGACCTCTGAAATGTCTTATCTCATCTATAAAA
Celera SNP ID:            hCV1853025
SNP Position Genomic:     186396
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43606):
CCATCTAAAAAGAAAATCAAACTGAAACTGTTCAGACCTCTAGATCTAGATACCAATTTACAAGAGAAAAAGAGAATAGAGGAACATGTTAAACACCACC
R
TAGGGGTACTGTCAGCAAAATCTAGACTGTGGGAAACTATAGGACAAATGACTGGTGTTTTTTTTTTTTTAACAAATAAATAGCAATGACAAAAAAAAAA
Celera SNP ID:            hCV907861
SNP Position Genomic:     169811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43607):
CTTTTTCCTTAGTATTACCACTGAGAATGTGAAAACTGAACTAAAATTACACCTTTCAGTCTTCAAGGACTCACATTCTAGAAGGGTCCTGGGATTTGGT
K
AGGTAATTTCATGTTCATTCTATTCAGACCTTACATAATTTCATAGATCTGGCTTCTATTCTCTTGTCATTATTCCAGACTAAAGAAAGTTGAGGTCTCC
Celera SNP ID:            hCV11899309
SNP Position Genomic:     132802
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43608):
ACAAAGGATTTAACAGCTAAAAAGATATTTTGAAACCTCTGACCTAGTACTAGAGTCAAGACCATTGCCTAATAAAAGTATGTCCAAGATCTCCTGAACA
Y
TGGCCTGCCCTCCTTAAGAAAGAAACCCTATAATACCATGAGGCATGTAGGGGTGACTCAAAAAACTCCAGGCCAGAAACCAGAACACCTAATAAGTATT
Celera SNP ID:            hCV1853026
SNP Position Genomic:     186315
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43609):
GTGACAAATTTTTCATTCTAAACAGGCTGCTGTCACTTTAAATGCTTATGGGAATACTTTCCACCTTTACGCTTGCTATCCAGCTAGTATGTAGTCAGTA
Y
ATAAATTAATCTTAATGTAAACCTGAGATACACTTTGAAAGAAAGATATTCCTAGAAAAATATCATATTAGTAAATTATACCCTTTTGTTTCCCAAATAT
Celera SNP ID:            hCV907935
SNP Position Genomic:     225346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43610):
CCTTGGGCAGTATGGCCATTTTCACAATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTTTATTTCGTTGAGCAG
Y
GGTTTGTAGTTCTCCTTGAAGAGGTCTTTCACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGTAATTGTGAATGGGAGTACACTCA
Celera SNP ID:            hCV26764430
SNP Position Genomic:     194092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43611):
TTATGTTATATATATTTATCATAATTTTTAAAAGCACTTGAAGTAAGTCAAAGAATCCTACTGTAATAGAAATAATCATTGCCTCTACTTAACAATTTTA
R
TATTTAAACTCTAGTTATTACATTTTAAATATAATTAAAATATATTTTTAGTTTAAATACTTAATAAAAATACTTAAAATATATATAAATATAAAATAAT
Celera SNP ID:            hCV1853027
SNP Position Genomic:     186078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43612):
AGGTAATCCACCTGCCTCGGCCTCCAGAAGTGCTAGGATTACAGGTGTGAGCCACCGGGCCCGCCTCCAGAATCTTTTATCTGAATACTATAACCTCACA
Y
GAATCTTTTCCTGAATAAGAAGCAGATTTTTTTAAAAAGTAGAGTTTTGGCAAACACATACATTTGTTTCTAATGGATATATCTGTGCATTATGATATGT
Celera SNP ID:            hCV11899238
SNP Position Genomic:     178389
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43613):
TTGTTTTTTGTTTTTAAATGGTAGACTTGAACGTACTTCAATGGGATATCCAGTGGGATATGTTATTTCCAAGAATTTATTATTCTAAAAATAAATAAAT
W
AATTAATTAATCACCTTTGGAGGATCCTAGAATGAATCCTAATGATACTTAAAATCAAAATATCATTAGTCACTTGGAGGTTGAAAACTGAAAAATAAAG
Celera SNP ID:            hCV907863
SNP Position Genomic:     169074
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43614):
TGTCGTCATCATGGTGATGGTGTTGGGGCTGGTGAAACACTGCCCACTGCATCAATTCCAGAGTAAAAACTAGATTGAATCCAAAATTTTCTATAAATTA
R
TGTTGACCTTTACTGAGTTCTGAGATCAATATTAATTACTGCTGTGCTTTGTAATTATAAAAGGGCTATTTGATGTTTCACACCAAGGATATGGGTGGAG
Celera SNP ID:            hCV907937
SNP Position Genomic:     231471
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:43615):
TTGAGCAGCGGTTTGTAGTTCTCCTTGAAGAGGTCTTTCACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTCTCTTTGTAGTAATTGTGAATGGGA
R
TACACTCATGATTTGGCTATTTGTCTATTATTGGTGTATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTA
Celera SNP ID:            hCV26764431
SNP Position Genomic:     194184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43616):
CACCACGTTGGTCAAGCTGGTCTCGAACTCCTAACCTCAGGTAATCCACCTGCCTCGGCCTCCAGAAGTGCTAGGATTACAGGTGTGAGCCACCGGGCCC
G
CCTCCAGAATCTTTTATCTGAATACTATAACCTCACACGAATCTTTTCCTGAATAAGAAGCAGATTTTTTTAAAAAGTAGAGTTTTGGCAAACACATACA
Celera SNP ID:            hCV11899239
SNP Position Genomic:     178351
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,4)   total(G,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43617):
GACTGAACCTTAAAACTGCCAAGATTTCATAGTTGAGTAAGAAGTTAAGGTTGAAAACCAACAAAGGAGGTGTAGCCAGAGAGGCAGGAGAGAAAAACAG
K
ACATTACAGTGTCATGGGAGCGAGGGGAAAGAGTGCTTCAAGAAGAAAAGTAGTGGTCAACAGTGCTGAAAGGTCAGGTGAGTTGAAGCCTGAAAAGTCA
Celera SNP ID:            hCV907864
SNP Position Genomic:     168685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43618):
TTTGTATCCTCTCTCTTTTTTTCTTAGCCAAGCTAGAAATTATTAATTTTCTTGATCTTTTCAAAGAATTAGCTTTTGGTGTTGTTGATTTTTCTCTATT
R
ATTTTCTATTTCCAATTTCACTGATTTCTGCTGTAATCTCATCATTTATTGTCTTCTGCCTACTTCAGATTTAATTTACTTTCCTGTTTCTGGTTTGCCC
Celera SNP ID:            hCV1853029
SNP Position Genomic:     181709
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43619):
ATAATAATTGGTCGTTGTACTTTTCTTGTGACTTTTAGGAAGATTTAAAATTTTTCAAAAGAAAGTGGAAGACAGATTTTAATTACAATAAAATTTAAAA
A
TGAAATAACATTTATTCTGTCTTATTGCTTTAGGTGAAATCCTTAACCCTGTTTGTCACCCATTATCCGCCAGTTTGTGAACTAGAAAAAAATTACTCAC
Celera SNP ID:            hCV11899167
SNP Position Genomic:     216274
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,6)   total(A,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43620):
TGATACTATGGTAAATTGTATCATTAACAATGTTTTATTTTGAATTACAGGTTGGGCATTCCTAATCTGAAAATCTAAAATCTGAAATGCTCCAATGAGC
R
TTTCTTTTGAGCATCATATTGTTGCTCAAAAAGCTTTGGATTTCAGAGCATTTTAGATTTTATTTGTAATGCAAATATTTCAAGATTAAAAAAAAATTGA
Celera SNP ID:            hCV907866
SNP Position Genomic:     162445
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43621):
AAAGTGTCAGACTTACTTACTTTGGGTAATATATCTTCTTCATATATATATATATATATATATATATATATATATATATACAATCTAAATTCGAAGAGAG
Y
AATATTTCTATTCATGTAAATGCCATACACATTTTACTCATCAAGGCCTTCAAATAAGTTTCACATCTGACTTTTACATTAGGCCTAAGCCAAATGTATT
Celera SNP ID:            hCV907867
SNP Position Genomic:     160403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43622):
AAACTTTTTCAGCAGTCTGCAGCTGTTATAAAAATAGTTCTCCCATAATTCTTCTTTAAAGACAGTTGTCAATATTTATACCTGTCAAGGAAGATAGCAC
T
TTTTTTTTTTTTTTTTTTTTTTTTTTTACAGAAAATTAGCTTTTCAGGTCTTAGAAATTAACATGTGACAGTTTTATTTTATTTTTTTTCTGCTGTACAT
Celera SNP ID:            hCV26764363
SNP Position Genomic:     150992
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43623):
AACTTTTTCAGCAGTCTGCAGCTGTTATAAAAATAGTTCTCCCATAATTCTTCTTTAAAGACAGTTGTCAATATTTATACCTGTCAAGGAAGATAGCACT
T
TTTTTTTTTTTTTTTTTTTTTTTTTTACAGAAAATTAGCTTTTCAGGTCTTAGAAATTAACATGTGACAGTTTTATTTTATTTTTTTTCTGCTGTACATC
Celera SNP ID:            hCV26764364
SNP Position Genomic:     150993
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43624):
TTAGTAGAGACAGGGTTTCACCATGTGGGCCAGGCTCGTGTTGAACTCCTGACCTCAAGTGATCCACCTGTCTCGGCCTCCCACAGTGCTGGGATTACAG
K
TGTGAGCCACCACGCCCGGCCAGCACTACACTTTCTAATGAGTTTTTATTGAAAAAAATTTTAGTTGAAAATGAAGCTGTTGGCTCGTAAGTGAAAAGCT
Celera SNP ID:            hCV27482940
SNP Position Genomic:     62660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43625):
TATGTGCAGTTTAGTATTATAACTTTTATAAATAAACTTTAAATACTGTAGTGTGATCTTATTGCAATCATTAGAAGGAAGGATTATATGAGAGAAACTT
W
TTTTTCTATTATAATACACATGCTTCTCAAGTTAAAATGGGACTATGCCCTGATAAACCCATCATAAGTCAGAAACATCATAAATCAAAAATGCACTTAA
Celera SNP ID:            hCV27482941
SNP Position Genomic:     182497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43626):
TCCCCCGTCCCCTTGCACTTCCCAGGTGAGGCAACGCCCTGCCCTGTTTCAGCTCACCGTCCATAGGCTGCACCCACTGTCCAACCAGTCCCAATGAGAT
R
AAGCAGGTACCTCAGTTGGAAATGCAGAAATCACATATCTTCTGCATCCATCTCGGTGGGAGCTACAGACTGGAGCTGTTCCTATTTAGCCATCTTGGAA
Celera SNP ID:            hCV3062347
SNP Position Genomic:     198451
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43627):
TGAAAAAAGTACCTTTTCCCCTTGTCTTCAATAAATATTTATTACAGTGTTTATTTTATGCCAACATTATAAACTAGATGTTAGGTCTACAATGGGGTTA
A
TGAGATGAGATAGACAACCTGCTTTCAAGAAGCTTCCAGTTTAGTGTGAGAGAAAGGTGTTGAAACTGTTATTCCGGATTTGGAGGATGCTGTGAAGGAG
Celera SNP ID:            hCV26764297
SNP Position Genomic:     138580
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5)   total(A,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43628):
GAAAAAAGTACCTTTTCCCCTTGTCTTCAATAAATATTTATTACAGTGTTTATTTTATGCCAACATTATAAACTAGATGTTAGGTCTACAATGGGGTTAA
T
GAGATGAGATAGACAACCTGCTTTCAAGAAGCTTCCAGTTTAGTGTGAGAGAAAGGTGTTGAAACTGTTATTCCGGATTTGGAGGATGCTGTGAAGGAGA
Celera SNP ID:            hCV26764298
SNP Position Genomic:     138581
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43629):
AAAAAAGTACCTTTTCCCCTTGTCTTCAATAAATATTTATTACAGTGTTTATTTTATGCCAACATTATAAACTAGATGTTAGGTCTACAATGGGGTTAAT
G
AGATGAGATAGACAACCTGCTTTCAAGAAGCTTCCAGTTTAGTGTGAGAGAAAGGTGTTGAAACTGTTATTCCGGATTTGGAGGATGCTGTGAAGGAGAA
Celera SNP ID:            hCV26764299
SNP Position Genomic:     138582
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,5)   total(G,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43630):
CGATTCTCCTGCCTCAGCCTCCCGAGTAGTTGGGATTACAGGCATGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCAC
R
TTGGTCAAGCTGGTCTCGAACTCCTAACCTCAGGTAATCCACCTGCCTCGGCCTCCAGAAGTGCTAGGATTACAGGTGTGAGCCACCGGGCCCGCCTCCA
Celera SNP ID:            hCV11899243
SNP Position Genomic:     178257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43631):
TAACTGTTTTACATGCCTCAGCTAAATTTGAAAACAATGCACAAGCCAGAACTGGAAATACTGATCCTGGGGAGAAAGATATATGAGTTGGTTATGGGGC
Y
GGGGAGCCTATTGCATCATTATTGGGTACACCATGTTATTGTTTTGCTGGCAATAGCAGAAGCTGTGCTGATAGTCGCAAGTTTTATGGTAGACCTTTTT
Celera SNP ID:            hCV11899318
SNP Position Genomic:     114875
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;A(T,24|C,36)   B(T,18|C,42)   C(C,30|T,30)   total(C,108|T,72)   no_pop(C,-|T,-)   (T,-|C,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43632):
CAATAGTCTTCTAATTATTTGTTGCTCTTACAGAAAAATGCAACTGAGTTTGCATCTTGATCTTAAATCTAGCCATTTTGCTAGAGATCCTCTCATTAAT
K
ATAATACTTTGTATAGAGATTCCTTTTGGTTTTCCTTGTGGACAGCTATGTGATCTGCCAATGACAGTTTTGTTTTGTCCTTTCTCATCCTAATGCCTTT
Celera SNP ID:            hCV907871
SNP Position Genomic:     159709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43633):
ATTTTGTAATGAAATGACATTATTTGAGGACCTGCTGTATTTTTATTTTGGTTTTAAGTCCTTTCAATAAATTTTAAAAGTGTTCTCTATAAAGGGTTTT
R
ACATCTTTTATTAGATTAATTACTAAGTACTTTTTGTTAGTATATAGGTCATATCTTTTTTACAATAGTCTTCTAATTATTTGTTGCTCTTACAGAAAAA
Celera SNP ID:            hCV907872
SNP Position Genomic:     159546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43634):
AAATACCCAATATGCAAATAGAGTTGGAATTATACCATAGTTTTGCAAATTCATGTTAGCATGTAGTGTTCCATCCTTTGTACTGTGACTATTTTCAGAT
R
TTCTATGCAAGAATCAGAGATGCCTTTGCAGATTCCAGTGATGAGAATTTTCATTATAGGGGCTGGATTTCTCTTACATAACACAAATGATCCTGAATAC
Celera SNP ID:            hCV907873
SNP Position Genomic:     144694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43635):
TTGTTGATACAAATGTGAAAAGAATCAGAAATAATCAGCTCTAGAACCTATTAGAAATGTATTGAAATTTGGAATTTAGTATTTATGAATGAATATGTTC
Y
AGATGCATGCTTGACGGCTGATGAGCAATGACATTCAGAATGTCTTACCCATTTCAGATATATATGCCTTGAAAACCAGGAGAATATGGAATAAAACTTT
Celera SNP ID:            hCV907874
SNP Position Genomic:     142948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43636):
ATGGTGGGTTAAATCAAGGAATAAATGTTTCCATAGTGAAAATTGTGAGAAGTACCTCCTACTACCATGCAGCTCAAAAACGAGTAATACGTGCGGCAGA
Y
TTGTTTATCACTTTTGTGTTACATCAGTTTATTGTCATGCATTTGTATGATTATCACCTGCCTTATGAATTTTTACTTGACAATCATTTGTATTCACTCA
Celera SNP ID:            hCV981544
SNP Position Genomic:     159067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43637):
TATCCAGAAAAAGAATATTGGCTGAAATTTAGCTAGAGCATTTTGCAACTAGAGCCCCCACTTGAGAGCAGCATTGATTGTTATGTACACTATTTATTGA
S
GTACCAGATGGTGTGACTATGATATCATTAAAAAAATGATTAACCTCAATGAACCTGACATCAGAGGATTGAATACCAGCATTACAAATGTATTTGTCAC
Celera SNP ID:            hCV907876
SNP Position Genomic:     134254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43638):
GTTTCCATAGTGAAAATTGTGAGAAGTACCTCCTACTACCATGCAGCTCAAAAACGAGTAATACGTGCGGCAGATTTGTTTATCACTTTTGTGTTACATC
M
GTTTATTGTCATGCATTTGTATGATTATCACCTGCCTTATGAATTTTTACTTGACAATCATTTGTATTCACTCATTTTCCAACCCACTTATTCCATTTTG
Celera SNP ID:            hCV981545
SNP Position Genomic:     159093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43639):
GGCTGCAGTGAGCTGTTATCACTGCCACTGCACTCCAGCCTGGGTGACAGATCAAGAGCCTGTCTCAAAAACAAAAAACAAAACAAAAAACTGTATCCAG
K
GCTTGTGTATTATCCTAATTTCTAAAAATCAATGACCCCCCAAAATATTTCCCTCATCAGAATGTTCTGTTATCAGCCAAAGATTTCTTTCTGTCAGCTC
Celera SNP ID:            hCV11899179
SNP Position Genomic:     203861
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43640):
AACCCAGATCATGAATTGATGAAAATAAATTAATCAAAAACAAATTTAGAGAACCACATTGGGACTCTGCCTTTTCTCCTTGGTTAGATACTAATCTCCA
R
GAGAGGACTCATTTAAAGACAAGGTATTAGGGAAGTATATACAGCTGTGAATAGTATCTTTTGTGGAATATTTATTAGTACTGTTATCAATAAGTTGCAC
Celera SNP ID:            hCV907878
SNP Position Genomic:     128123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43641):
CATATGGGAAGAAACACTTTCTTCTCTTTATAGTTAGGGAAGTCAGTGCTTTCCTGTGAAGAGACTTTTACAGGATTTCAGTTCCTTGGATAAAAACTAT
S
TAAAAATCCTCTCTGTTCAGAATAGGGGAGGATCATATCTCAGACTGGTGTAACATCTAGTAATTGAATATTTTAAAATTTTATATACTTAGAAATTCAA
Celera SNP ID:            hCV907879
SNP Position Genomic:     126743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43642):
GAGGTCTTTAAAAAGCATAAAGAACATCAAGGTCAAAAAATGATTCTTGTATCAAAGTAAAAGATACAAAAGACCGTAGAAAGATGTTTTAATTGAACAG
Y
GTATGAAAATTTTAGGTCATTTCATTTCCAAGTCCAACACATAGTTTATATTAATAATTACATCTAGAAATAATTTTATGTGATTTACTTTATTGTATTC
Celera SNP ID:            hCV3062351
SNP Position Genomic:     143548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43643):
AAAAAATTTGTAAAGTTTTATCTTTAATTGACAAATAATTGTATATATTTGTATTAGGGTTCTGTAGAGGGAGAGAACTAATAGGATAGATGTATATAAG
R
AGTATTGACTTACATGATCACAAGGTGAAGTCCCACTGTAGGCTGTCTGCACGCTGAGGGGCAAGGAAGCCAGTCTGAATCCCAAAACCTCAAAAGTAGG
Celera SNP ID:            hCV26764378
SNP Position Genomic:     100607
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43644):
CACTTAGTTTGCTTCCAGATCTTGGCTATTGTGAATAGTGCTGCAATAAACATGGGAGTGCAGCTGTCTCTTCAATATACTGATTTCCTTTCTTTTGGGC
W
TATATATATACCTAGCAGTGGGATTGCTAGATCATGTGTTAGTTCTATTTTTAGTTTTCTGAGGACCTTTAACTCTTATCCATAACAGTTGTACTAACTT
Celera SNP ID:            hCV26764379
SNP Position Genomic:     154569
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,6)   total(A,2|-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43645):
CAAAATGAGATGTTTTATAGGAATCTGGTGAAATGCTTACATGGTCACTGTCTGACAACTCTTTTTTTCTGGGGCAAATATCTCTTTCCTACTCAGGGAC
R
TGGAATTTGGGGTTTTAAGCTTTAGACCATCCTGGGCACTTCAATATATCAGACCTTACTTGTCCACAAAGTTTTTCCCAGACTATAAGTAACCCTAGTT
Celera SNP ID:            hCV1853042
SNP Position Genomic:     174907
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43646):
TCAGTGTCTTATTTCAGTATCTATCTTAGTTCATAACTGGTTATCCTATGCCATCATGCTATTTGTTCACTATTTGAGGGAAAGAACTCTACTCCATTGT
R
TATTCCCTGCCCCACTCAGGATGGCAGTAAGTACAGCTACTAATATAAATTAAAGTCATTCAGAAATGAAATTATTTTCACATTTATATTACATTGTTTT
Celera SNP ID:            hCV1853043
SNP Position Genomic:     172841
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43647):
ATTGGCTTAGAAGAAATTAATGAAAGCAGAAACTTTATATTTTTATGTAATAATGTACATACATTATTATGTATTATGTAATGAACGTATGTATGAATGT
W
TGTGTGTATGTATGAAAGTATGTATGTATGTAATGAAAGCAGAAGTTTACATAGTTTACTGCTTCTGTTGCAGTCTCTATCATATTTTATGAATATATAC
Celera SNP ID:            hCV907880
SNP Position Genomic:     123475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43648):
CTTTTAGTAATAAAATCAGCTAGAAGAATATATTGGGTAGTATCACACAGACTAGGTTTTATTGGGTCCCATTGGTTACAGTTTAGGAAACAAATGTTTG
M
TTATATTATTCTTGGATCACAGGCTCCACTGAGACAGAAATTGTGCTTGTTCTGCACACCTTTTATCCCCTATTCCTAGTACTAAGTAGATGTGCAGTAA
Celera SNP ID:            hCV1853044
SNP Position Genomic:     171943
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43649):
TTAGTTACTTTAATAAAAGATATGTAGTAGAAAAGTGGCTGCCTTTTCTACTACATTTTTTTTTTTTTTTTTACAGTGGAGAAAGTAAGTGTAAGTGCCA
R
TTCTACCATTTACATGCTATACGACCATGGAAGAGTTACCTCTGTTGTAAGACTATTATGGAGACCAATTAAGTTAAAATACATGAAAGTGCTTTTTAAT
Celera SNP ID:            hCV907881
SNP Position Genomic:     121807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43650):
CCTTCACATTTTTTAACTTGTTTAACCTATTTTTGCTATATGGTTTATGTTATTTTAAAAATGAAAAAATACTAAACAAGTATTGGCTTTGTTTTCCTTG
S
CTAAAATTATTTCCTTTATACCTTTAAAATATTACATAGTATTTAACCTCATTTAGAAAATATCAGTGATATTTTATTTCAACTAACTAGTTAATAGAAA
Celera SNP ID:            hCV907882
SNP Position Genomic:     119220
SNP Source:               Applera
Population(Allele,Count): african american(C,18|G,16)   caucasian(C,22|G,6)   total(C,40|G,22)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43651):
ATTTATTATTCTAAAAATAAATAAATTAATTAATTAATCACCTTTGGAGGATCCTAGAATGAATCCTAATGATACTTAAAATCAAAATATCATTAGTCAC
W
TGGAGGTTGAAAACTGAAAAATAAAGATCCAAGCAGGTATCCTATCTTTTCAAATAGGTAACGGGGAAGTTTCTCTTTATAGAAATGTTCCAGCCAATAA
Celera SNP ID:            hCV1853046
SNP Position Genomic:     169148
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43652):
TACACACCATCAAACATATGTCTGTTCTTTATTATTAGATTACTCTAAATAAGCTTCTACTGTGTACACCACATAGTGGGTGATGTCCTGGGTACAGATT
R
TGCCAATTATGTGAAATTCATAAAATGAGAAGGAACACTGGATGTTGTGGGAAGTGGTTAGCATAGGCTGTATGGTTTTGTGGAACGTGCCCTGGAATAT
Celera SNP ID:            hCV907883
SNP Position Genomic:     115688
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   no_pop(A,-|G,-)   JBIC-allele(G,648|A,845)   total(G,648|A,845)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43653):
TCAGACAGAGAGATCAAAGGTAAAGATGTAAATTTGTTGTGAGACATTTTTGTGTACGTGATTGGGTGTGGATGAGATCATCTTGACAGACAGTATGGTG
R
AGAAGATTAATGTTCTGAGACTGAACCTTAAAACTGCCAAGATTTCATAGTTGAGTAAGAAGTTAAGGTTGAAAACCAACAAAGGAGGTGTAGCCAGAGA
Celera SNP ID:            hCV1853047
SNP Position Genomic:     168566
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43654):
AATCAGCATTAACCAAATAATCACATACAGAAATGTGAAACTGCAGCTATGACAAGTCAATGAAGGCTATATGCAAGATGTTAGGACAGGCTGTGATCCT
G
ATATGATCTGGTCAGGAAGGTCAGGGGAAGGCTTCCCTTAGCAAGTAACTTTTGAGTGCCTATCTGAAGGATGAGTGTAAGAAGGAAGGAAGTATATTTC
Celera SNP ID:            hCV1853048
SNP Position Genomic:     167793
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|-,5)   total(G,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43655):
TAAATATCCAGATTTTAAATTTAAAGAAATTGCTCCCATTATCTTCCAGTATTACATTCAATGTAGATAAAGTCAGTAAGAGTCTGATTCTCATCCCTTG
Y
TTAATGATGAATTTTTTCTTTCTCTGAGGCATTTAGAATTTTTTAATCCTTATTATAAAATTTTCAGCAGAATGTTTAGATGTAAATCTTTTCTTACTAA
Celera SNP ID:            hCV11899187
SNP Position Genomic:     199089
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43656):
ACTATACAAAATTATCTTAAGTTTGAATTATAGAGGCATTTTCACAGTAGCAACCAGTAGGTACTGACTCCATCACTGACAATAGCTATAGGTCACACTC
Y
GTGTTTCTGAGTGACAGCCACACATGGTAGATACTCATGTCACCACCTAGTTTATCTTCAAATGTGAAGGACTCCAGTGACACTCACATTTAGTCCTTTC
Celera SNP ID:            hCV907885
SNP Position Genomic:     108907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43657):
TCATTTATTCATTCATCCAACATGTACTAAGTGAATACCTAACATATGGCAGGCACTGAGAATACAAAGGAACCACAGTTTTTGATTTCATGAAAGCTAT
R
TAGTGGAGAAAATCAGCATTAACCAAATAATCACATACAGAAATGTGAAACTGCAGCTATGACAAGTCAATGAAGGCTATATGCAAGATGTTAGGACAGG
Celera SNP ID:            hCV1853049
SNP Position Genomic:     167682
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43658):
ATATAGGTCTAATGATGCTTAGATCCTAGGAAAGGGCCTATGGTTCATGTTTCTGACAGGAGATTATTTAGGTAGTTCATTTAGCCATTTCACATGACCA
R
TGTGTTAATGTCTGAATTTAATCTACTCGTTCTGTGTTGTCTTAAAAGTCAAACTTTTCAGTAAAACGAAACCAAACAAAAAATACACCCCTAGCAGTTT
Celera SNP ID:            hCV907886
SNP Position Genomic:     108418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43659):
TTTTGGTAGAGACGGGGTTTCTCCATGTTGATAGGCTGCTCTCGAACTCCTGACCTCAGATGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACA
K
GCGTGAGCCACTGTGCCTGGCCCAGAATTTATTTTTATACATGATATGAGTTAGGAATCTAATTTCATATCTTTCTATATGGATAATCAATTGTTTTGTA
Celera SNP ID:            hCV26764380
SNP Position Genomic:     157859
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,6)      total(G,4|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43660):
CATTTTCCACTAATCTTTTATAGACAATAGCTAATCTTTTACTCAATAGCTACCCCCAGGAAATCCTCCCTGATCCTAAAACTGCATTTGTTCGTTAGGT
R
CTCCTGGCCTGTGTTCCCATTGTACCTAGATCATAACCCAGTTATAATCTTATTACATTGTTATCATTAATGCTTTTTAAAAAGTTTTACTATTCATCAC
Celera SNP ID:            hCV907887
SNP Position Genomic:     108071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43661):
GTAGTTCAATATAAAAAATGTTATTCCTTTTGAAAATATTGGAAAGGGAAAGTGTCAGACTTACTTACTTTGGGTAATATATCTTCTTCATATATATATA
T
ATATATATATATATATATATATATATACAATCTAAATTCGAAGAGAGTAATATTTCTATTCATGTAAATGCCATACACATTTTACTCATCAAGGCCTTCA
Celera SNP ID:            hCV26764381
SNP Position Genomic:     160355
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43662):
ATAAAATATCTCCTTATGTGAAATAACTAGATATGCTGGATCAAGCATAACAAACATCCCTTTAGGACATTGCTGAATCTGTATTTAAAACATAAGGGAA
R
AACTGAGGGAACAGATGGAAAAAGGAACTGGAAATGGAAGTGAATTGACTGCTGCAGCTGCCCTCTGGGCTCCTGCAGATCTTGGTAATCAAAAGGATTG
Celera SNP ID:            hCV907888
SNP Position Genomic:     107115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43663):
TAGTTCAATATAAAAAATGTTATTCCTTTTGAAAATATTGGAAAGGGAAAGTGTCAGACTTACTTACTTTGGGTAATATATCTTCTTCATATATATATAT
A
TATATATATATATATATATATATATACAATCTAAATTCGAAGAGAGTAATATTTCTATTCATGTAAATGCCATACACATTTTACTCATCAAGGCCTTCAA
Celera SNP ID:            hCV26764382
SNP Position Genomic:     160356
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43664):
AGTTCAATATAAAAAATGTTATTCCTTTTGAAAATATTGGAAAGGGAAAGTGTCAGACTTACTTACTTTGGGTAATATATCTTCTTCATATATATATATA
T
ATATATATATATATATATATATATACAATCTAAATTCGAAGAGAGTAATATTTCTATTCATGTAAATGCCATACACATTTTACTCATCAAGGCCTTCAAA
Celera SNP ID:            hCV26764383
SNP Position Genomic:     160357
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43665):
TTGTTAGAGCATGTCTCAATAGGATGTAGTTTGAGGCATTAACAGGGATAAGATATCAGTTTGAAAAGAGCTTCTATCAGAACAACATGAATTCTGCTAA
M
AATTAAAGCGAGAACAAACACCATATTTATGGTGAAGCTTGGGTGGAAGAGTGGTGACATCATTAATGCTTTATGAAAAGTTTCATGAGACCTCGGAATA
Celera SNP ID:            hCV907889
SNP Position Genomic:     102728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43666):
GTTCAATATAAAAAATGTTATTCCTTTTGAAAATATTGGAAAGGGAAAGTGTCAGACTTACTTACTTTGGGTAATATATCTTCTTCATATATATATATAT
A
TATATATATATATATATATATATACAATCTAAATTCGAAGAGAGTAATATTTCTATTCATGTAAATGCCATACACATTTTACTCATCAAGGCCTTCAAAT
Celera SNP ID:            hCV26764384
SNP Position Genomic:     160358
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43667):
AAATGTTATTCCTTTTGAAAATATTGGAAAGGGAAAGTGTCAGACTTACTTACTTTGGGTAATATATCTTCTTCATATATATATATATATATATATATAT
R
TATATATATATACAATCTAAATTCGAAGAGAGTAATATTTCTATTCATGTAAATGCCATACACATTTTACTCATCAAGGCCTTCAAATAAGTTTCACATC
Celera SNP ID:            hCV26764385
SNP Position Genomic:     160370
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43668):
CTTCTAACTCTAAATGGTATTATAATATGCTTTACCACTACAAATCTTATTAAATTATTTTAGTTTACCAAGTTAATACTTTTAAAGAATACACTGTCAA
A
TTATTGATTCTTATTGTGTGAAAAAGCCAAATTGAACAATAAGTATAAATACTCTTATCTTTCAAGGTATTGGAAGGCATAGGTTTCTACAAAATAAAAA
Celera SNP ID:            hCV26764386
SNP Position Genomic:     160880
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43669):
TTCTAACTCTAAATGGTATTATAATATGCTTTACCACTACAAATCTTATTAAATTATTTTAGTTTACCAAGTTAATACTTTTAAAGAATACACTGTCAAA
T
TATTGATTCTTATTGTGTGAAAAAGCCAAATTGAACAATAAGTATAAATACTCTTATCTTTCAAGGTATTGGAAGGCATAGGTTTCTACAAAATAAAAAG
Celera SNP ID:            hCV26764387
SNP Position Genomic:     160881
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43670):
TCTAACTCTAAATGGTATTATAATATGCTTTACCACTACAAATCTTATTAAATTATTTTAGTTTACCAAGTTAATACTTTTAAAGAATACACTGTCAAAT
T
ATTGATTCTTATTGTGTGAAAAAGCCAAATTGAACAATAAGTATAAATACTCTTATCTTTCAAGGTATTGGAAGGCATAGGTTTCTACAAAATAAAAAGT
Celera SNP ID:            hCV26764388
SNP Position Genomic:     160882
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43671):
AATTGTTTTAACAATTGTACAAGTAGATCTATTTATTTTCCTCACATTAGACAATTAGATTATCTCTATTTTTGTCAGTTATGAATACATACAAACAATA
W
TACAGTGAACAGTTTTATACATGCCTTTTTGAGCACTTGTATGTTTCTTGGGTAGATGCTTAAAAGAGGAATTGCTGGGTCATCTAGACCAATATACACA
Celera SNP ID:            hCV26764389
SNP Position Genomic:     161884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43672):
GAGCTACTCAAGCCTCAGCAATGGCAGATGCCCCTCCCCCTGTCAAGCCACAACGTCGCAGGTTGATCTCAGACTGCTGCGCTAGCAGTGAGCAAGGCTC
Y
GTGGGCGTGAGACCTGGTGAGCCAGGCATGGGAGGGTATCTCCTGGTCTGCCGGTTGCAAAGACCATGGGAAAAGTGCAGTATTTGGTCAGGAGTGTACT
Celera SNP ID:            hCV9965707
SNP Position Genomic:     198200
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43673):
TTCATTTATTCATTCATCCAACATGTACTAAGTGAATACCTAACATATGGCAGGCACTGAGAATACAAAGGAACCACAGTTTTTGATTTCATGAAAGCTA
Y
GTAGTGGAGAAAATCAGCATTAACCAAATAATCACATACAGAAATGTGAAACTGCAGCTATGACAAGTCAATGAAGGCTATATGCAAGATGTTAGGACAG
Celera SNP ID:            hCV1853050
SNP Position Genomic:     167681
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43674):
GAGACAAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGGAAGACTCCATCTAAAAAGAAAATCAAACTGAAACTGTTCAGACCTCTAGATCTAGAT
R
CCAATTTACAAGAGAAAAAGAGAATAGAGGAACATGTTAAACACCACCATAGGGGTACTGTCAGCAAAATCTAGACTGTGGGAAACTATAGGACAAATGA
Celera SNP ID:            hCV11899263
SNP Position Genomic:     169762
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43675):
TAATTGTATGGTTTCTTTATTCTGTTAATGTGGTGAATTACATTGATTGGCTTTTGATTATTAAACCAACTTTGTATTCCTCAAAAGCTCTAAATGGTTT
R
TATAACCTTGGATTGACTTATTAATAGTTTATTAAGAAGTTTTGCATGTATATTTATGGGTGAAATTGGTCTGTAATTTTTCTTGTAATGTTCTTTTCAG
Celera SNP ID:            hCV1853052
SNP Position Genomic:     162937
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43676):
GTAATCCCATTTGAGACAGCTCCTTTAACAATGCTGTCACAGTTCAGGGAGCCTTGGCATGACACACGTAACCCTTCTGTGCGGTATTCTCTCTGGCATT
R
CATTCTTACATTACATTCTCTCTGGCATTACATTCTTTCACTTTCCATTTTGTACTTTTCTCTATTGCTTTATTTGTATGTAATGTTCTGAAGTCCAAAT
Celera SNP ID:            hCV1853053
SNP Position Genomic:     161185
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43677):
TGGGATTACAGGCGTGGGACACCGCACCCGGCCCCAATATGATGCCTTTTGATGACAAAAAAAGCCTTAACTTTAATGAAGTTGAAGGTATCAGTCCTTC
Y
TTTTATGGGTGAATGCTTTTGTGCCTTAAATAGGAAATTATTTCAATCCCTGAGGTCTTAAACATATTCTCCTATAATTTTTTATAAACATTTTAAAGTT
Celera SNP ID:            hCV1853054
SNP Position Genomic:     157439
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43678):
GGACCTTTAACTCTTATCCATAACAGTTGTACTAACTTACGTTCCTACCAGTAGTGTACAAGAGTTACCTTTTCTCCACATCCTCACCAGCATTTGTTAT
Y
GCATGTCTTTTGAATATGTCATTTTGACTGGGGTGAGATGATATCTCATTGTAATTTCGATTTGCATTTCTCTGATGATCAATCATGTTGCACCTGTTCA
Celera SNP ID:            hCV1853056
SNP Position Genomic:     154732
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43679):
AAGGCTGCCTAAACATCTACTACAATTCTTACTGTGTTTTTGCTTACATGTTACAGCAGAAACAGACTCACTAGCAGACTTTTCCATGTAAATTAAAATT
Y
TTCATTTCCAATGTTAAATTTCCTTTTTTTTTGTGTACCCAGGATTAATTTGAGATAAATCTAGTAGACCATGTTGTCTGTTGTTAGGCGCCGAATCATG
Celera SNP ID:            hCV907892
SNP Position Genomic:     98738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43680):
TGTTAGTATGAAATAACTACAGGAATGGAGATGTGTGGCTAAGGAGAAAAGTAAATCTAAAACTTCACCTTTCTGGAGGGGTCATGCAAGGAGGCGTGAC
T
TGAGAGAATTTGCCACGGTTAATGTTACAATTCTGGGGCAGCCTACCTTTCATTGCTTGATTATTCTGCATAGACCCATTTTTTAGGTCTACAAACACTG
Celera SNP ID:            hCV15987860
SNP Position Genomic:     9145
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43681):
ACTTCACCCCCACCGCCCCCCGCCCACCTTTCCAAGGAGCAATGGAAAGAGGTGCAGGGTAGGAGTTGGGTGTCAGCAAGAACAAGGATATAATAGGACA
Y
GTATCTGTCCCTCCTCTCTTGTCTGAGCCTGCTTCTCCAGGGGTGTCAGGGAATTGGCCTCCTCACGGGACCCTTTACCCCAGTCAGGCCAGTCAAGCTG
Celera SNP ID:            hCV907894
SNP Position Genomic:     93875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43682):
AAATTCCTTCCTTTATTGGACCTTGCACCATTTTAGAAGCCGAAGCTGAGATTAACATCTTCTGCTTGTCTTTGTACTTCAACTTCACCCCCACCGCCCC
Y
CGCCCACCTTTCCAAGGAGCAATGGAAAGAGGTGCAGGGTAGGAGTTGGGTGTCAGCAAGAACAAGGATATAATAGGACACGTATCTGTCCCTCCTCTCT
Celera SNP ID:            hCV907895
SNP Position Genomic:     93794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43683):
ATTGTTTTAACAATTGTACAAGTAGATCTATTTATTTTCCTCACATTAGACAATTAGATTATCTCTATTTTTGTCAGTTATGAATACATACAAACAATAT
W
ACAGTGAACAGTTTTATACATGCCTTTTTGAGCACTTGTATGTTTCTTGGGTAGATGCTTAAAAGAGGAATTGCTGGGTCATCTAGACCAATATACACAA
Celera SNP ID:            hCV26764390
SNP Position Genomic:     161885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43684):
AAGTGAAGGAATCTCTTTTTGGGTACTGGTTTTTCGGGCTCTGATATTAGGTTCTCTAAAGTTCTGGGTGAGGGCTTGTTTTCTTAACTCGGGAAACTGG
W
TGTTACCTAAATTTCATTATAGCTATGAGAAGGGTGGTTAGGTTTATAGCACAAACACTTATGCCTTTCTTTTGTTAAATAATTTAGTGACCTGCTGTTA
Celera SNP ID:            hCV907896
SNP Position Genomic:     90655
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   no_pop(A,-|T,-)   JBIC-allele(A,631|T,850)   total(A,631|T,850)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43685):
TTGTTTTAACAATTGTACAAGTAGATCTATTTATTTTCCTCACATTAGACAATTAGATTATCTCTATTTTTGTCAGTTATGAATACATACAAACAATATT
W
CAGTGAACAGTTTTATACATGCCTTTTTGAGCACTTGTATGTTTCTTGGGTAGATGCTTAAAAGAGGAATTGCTGGGTCATCTAGACCAATATACACAAT
Celera SNP ID:            hCV26764391
SNP Position Genomic:     161886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43686):
TTAAAAAAACTCTTAGTGCATCTGATTTGAACTTTAGATTACTTGTTTAGTAAGGACAAAAAGAAAAAACAAAAACACACACAGCAAAAAGAAAAGACAA
R
AACACCCATAACCAACCAAATAAAAAACCACACACACAACACATTAATACTTACGTTAATACCATTGATTAAAATAACCTATACCTTTGCTCTCTAAAGG
Celera SNP ID:            hCV907897
SNP Position Genomic:     88740
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43687):
ATTGTGGAGTGTCTATCTTAAAATATTAGGGTTTTTGGTATTCTTAACTTTAACCACAAGAGGTCTCCAAAGGATTTGATATTTTGTGAATTACTGTTTA
R
TGGTTACTAAAATCTTCACATTTCTTTTTATATCTGAAAGTACAGGTTTATTTACTTTGTATCATATTGTGACTTAGAACAAATATTAGAGATGATAGTA
Celera SNP ID:            hCV27484717
SNP Position Genomic:     38291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43688):
TTTACAAATGTAATAAATATAGGATTGTTAGATTTTCTATTTCTTGTGTCGTTTTGTGATTTTTAAAAAAGGAGATAGACATATTAAAAAAGAGATTAAA
A
AGAGATTAAAGAGATTAAAAAGAGATATAAAATATTTGATCATGCCAATATTTGATTGTTTTATGACAGGCTTATTTTTTAATCTCTGTAGAATTCATTT
Celera SNP ID:            hCV26764392
SNP Position Genomic:     163295
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43689):
CCTCCATACCAAGTGGATTCAGAGAGCCCAGAGGTCAGAAATCGTGCAGAGTCTTATGTTGACAGAGGAATGGCCCTGCCATAAGAAAGGTGCCTGAGTT
R
TACAAGGTGTTGGCAGCTGGAGCCAAGTTACACCTGGTTTACTTACCTGATATAATTTTAAGTGCTTCACAAATAACGTTTTTTACCTTCATAGTTAAAT
Celera SNP ID:            hCV27484718
SNP Position Genomic:     48036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43690):
TTACAAATGTAATAAATATAGGATTGTTAGATTTTCTATTTCTTGTGTCGTTTTGTGATTTTTAAAAAAGGAGATAGACATATTAAAAAAGAGATTAAAA
A
GAGATTAAAGAGATTAAAAAGAGATATAAAATATTTGATCATGCCAATATTTGATTGTTTTATGACAGGCTTATTTTTTAATCTCTGTAGAATTCATTTT
Celera SNP ID:            hCV26764393
SNP Position Genomic:     163296
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43691):
ACAGAGAAAAGAATCAGATCAAGGAGCTTAGAGAATGCCAATAGTTGGGAATAGGAGCAAGAATACAAACAGAAGGGGAGGAATTAAAGAGCTAGGTGGA
S
AACCAGGACAAGGTAGGGATGTGTAGTTATAATTTGTCACACGTGGTATAACCAATGATGTGAGCTAATTTTTTACATTATTGACTCTGTTATAGTTTAC
Celera SNP ID:            hCV11649780
SNP Position Genomic:     39269
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43692):
TTCAGAGAGCCCAGAGGTCAGAAATCGTGCAGAGTCTTATGTTGACAGAGGAATGGCCCTGCCATAAGAAAGGTGCCTGAGTTATACAAGGTGTTGGCAG
Y
TGGAGCCAAGTTACACCTGGTTTACTTACCTGATATAATTTTAAGTGCTTCACAAATAACGTTTTTTACCTTCATAGTTAAATATTTACTTAAGGTATAT
Celera SNP ID:            hCV27484719
SNP Position Genomic:     48053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43693):
TACAAATGTAATAAATATAGGATTGTTAGATTTTCTATTTCTTGTGTCGTTTTGTGATTTTTAAAAAAGGAGATAGACATATTAAAAAAGAGATTAAAAA
G
AGATTAAAGAGATTAAAAAGAGATATAAAATATTTGATCATGCCAATATTTGATTGTTTTATGACAGGCTTATTTTTTAATCTCTGTAGAATTCATTTTA
Celera SNP ID:            hCV26764394
SNP Position Genomic:     163297
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43694):
AATTGAACCTCACTGGTTCTCAGTTAACTCCCAAAAGATTATTTGATTGGCCTAGTTTGAGAAGCTTTTATGCTAGCTAGGCCCATTGGCTGGTTCTGGC
T
TTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTCACCCATGCTGGAATGCAGTGGTGCTGTCTTGGCTCACTGCAACCTCCACCTGCTGGATTCAAGTG
Celera SNP ID:            hCV26764395
SNP Position Genomic:     164084
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43695):
GATCACCTGAGCCTGGGGAGGTTAAGGCAACAGTGAGCCGAGGTCACACCATTGCACTCCAGCCTGGGCAACAAAGTGAGACCCTGTCTCAAAGAAAAAA
M
AAAAACAAAAACAAAAACAGAAAAAAAACCCACGTTATTTTTATTATGACTGTTAATACTAGAAAAGACTTAAGAGTTAATTTTGTCCAATAGCTTCCAA
Celera SNP ID:            hCV26764396
SNP Position Genomic:     165635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43696):
TTTTAATTTGCGTTTCTCTGATTAGAGATGTTGAGCATTGTTTCATTTATCTATTGGCCATTTGTATATCTTTTGGGAATCGTCTATTCAGACCTTTTGC
M
CATTTTTAAATAGGGTTATTTGTTTTCTTGTTATTGAGTAGTTTGAGTTCCCTGTATATTTGGTATATTAGCCCCTTATCCAGTGTTTGATTTGCAGATA
Celera SNP ID:            hCV26764397
SNP Position Genomic:     102026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43697):
ATATATATGTGTATATATGTATATATGTGTATATATGTGTGTATATATGTATATATGTGTGTGTATATATATGTATATGTGTGTGTGTGTGTGTGTGTGT
R
TATATATATATATAATTTTTTTTTTTTTTGAGACGGAGTTTCGCTCCTGTCGCCCAAGCTGGAGTGCAATGACACGATCCCAGGATCCCAGCTCACTGCA
Celera SNP ID:            hCV26764399
SNP Position Genomic:     170970
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43698):
ATATACCATAATTGCCTTAATATTTTCTCTGTTGTATCTACTCTTTGCTGTCATGAATAATCCTGCCATGGTACCTCACAGAATTGATTCTTTAAAAAAA
M
AAAACAAAAATTGGGGGCACATAGTAGGTGTGTATATTTATGGATTACATGAGATATTTTGATACAGACACCGAATGTGTAATAATGTTACCCTCACATG
Celera SNP ID:            hCV1853061
SNP Position Genomic:     153908
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43699):
TTTAAAGACAGTTGTCAATATTTATACCTGTCAAGGAAGATAGCACTTTTTTTTTTTTTTTTTTTTTTTTTTTTACAGAAAATTAGCTTTTCAGGTCTTA
R
AAATTAACATGTGACAGTTTTATTTTATTTTTTTTCTGCTGTACATCTGCTGACTTCAGGGATATTATGACTGTCCATTATTCTAGTGTACTCAATGATG
Celera SNP ID:            hCV1853062
SNP Position Genomic:     151046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43700):
CTGCTGCTTAGGGAAACCCCAGCGAACCCACTGCAATCTCAACTCTCCCAGGATTGTTTGTTAAACCAAATGACTCTTTTTTTTTTAGTGGATGGATTTT
S
AACAGCAGTTAAAGTCGGGGTTTTCAGTTCATTTGTAGGGTTTTTGTTTTTAGTATAAAAAATATAAATTTCAACTAATGGAGGGGAGGGGAAAGAGTGG
Celera SNP ID:            hCV1853063
SNP Position Genomic:     149472
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43701):
GAGAAAAAACCTGATGAGAATTTGGTCAAGGACATGGGGTAAAACGGTATGGTGATGGGTCAAAAAATGAATATGTAGGGAGTAGTTATGTGAGAGAGAA
S
GTATCAGAGAATAAAATGCCTGACTTTCAGATATCAAATGTGCTGTTTTTCTGGTTGATGGCAAGATCTTATGTATGGCTATGGAAGGTGGGTAGCAGAA
Celera SNP ID:            hCV1853064
SNP Position Genomic:     146047
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43702):
AGTCTGTTCTAGTATGCTGAATTCAGATGTATTTTTGTTCAGTAACATTTTTATCTTGTCATCATCCAAAAGCTGAGAATCTGTCCTGCCGGTCTGTCTC
R
TCAACTCTGTAGCCATCTCCATGATAGGAAATAAGTAGTAGGAATAAAGAGACATTTCTCGGCTGAAGGAGTGCTGATAGCCTGCAGCCAGCCCTGGCAT
Celera SNP ID:            hCV27484720
SNP Position Genomic:     93479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43703):
CTTTCCTCTGCCGGGTTGAATGAGAGTTTAAAGGAGGAACTGCTGCTGCTAAGAACAAAATGAACCCGAGTGCCTCTTACTGTTTGTCCCGACTGTCAGT
K
CATAGGGATTAACTAACATCCAGGAACTTTTAGCTGGCCTCTGCTTTGTTCTTCAACATTCGGACCTTCAGTGAGCTCTAGACCTGCACAAACGACCTGC
Celera SNP ID:            hCV27484721
SNP Position Genomic:     106719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43704):
ATAAGATGACATTATTCAATTAATTATAGTGTCTTTATTATAAAATATTACAGTTACTCAAATGTGTTAGACTCTTGGGAAAGCTGAATGTCATACATAT
R
TAGCTTGATTTGAAAATTAAATTCATTTCTTGCTTCCTCTGTCACTGAGTACAATGAAAGCAGATGTTAAAGTTTATGTGGGTGACATTTTTATAAAGTT
Celera SNP ID:            hCV1853066
SNP Position Genomic:     139303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43705):
GAAAGGGTTTTATTAATTGACAGCATGCAGCATATCCAAATACCTGTTTACTGGTTTAAAATGTGGAAAATAATCTGTTACATCTGAGTACTTTTTACTT
R
GATTTAAAATATAGTAAAACATCCTTAAATTATTAAGAGAATGAAATTGGGGGATTGGAGGAATGGGTTAAGTGTGGTGCTGGAGAAAACAGCAGTTTCT
Celera SNP ID:            hCV27484722
SNP Position Genomic:     123801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43706):
TTGAGTTGACTTGTTTAGTAAATGCTTTCACAAACGTTGCTGCATATTTCATAAAAATCATGATATACGTTTATTTAAAGGTCCTTGTGCCATTAGAATA
K
AATTTTAGATAGTTTGAGAAAATATACCATTTCAGAAATTATTCTTAAGGATGATTTAAGTGAAGTTTTGTTAAGACACACTTGAGGTTCTAAAGTTATT
Celera SNP ID:            hCV27501331
SNP Position Genomic:     82736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43707):
CCACTGAACTGTGTACCTAAGAAATGCTAAAATGGTAAATTTTATGTTATATATATTTATCATAATTTTTAAAAGCACTTGAAGTAAGTCAAAGAATCCT
M
CTGTAATAGAAATAATCATTGCCTCTACTTAACAATTTTAGTATTTAAACTCTAGTTATTACATTTTAAATATAATTAAAATATATTTTTAGTTTAAATA
Celera SNP ID:            hCV981578
SNP Position Genomic:     186037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43708):
TCTCTCCCTTGATTATTGGCTTTGAAGCAAATCCTAGGGAGCATCAGTTTATCCTCTAATATTTCAGTAGGTACCCTTAAAAACAAAATAAGTACATGAC
R
TTGTCATATAAGTGTATCATAATTTATCCATTCCATTTTTATTATATTCATTTTTCCAGTATTATAAATACTGTTATGATGAATATCCATATACAGAAAT
Celera SNP ID:            hCV11649799
SNP Position Genomic:     32132
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43709):
AATATGATGCCCCCCCCCCCTACCTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTACTCTATTGCCCAGGCTGGAGTACAGTGTCTCAATCTTGGCTCA
R
TGCAACCTCTGCCTCCAGGGTTCAGGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAACTACAGGCATGCGCCACCACGAGCTCATTATTGTATTTT
Celera SNP ID:            hCV11899281
SNP Position Genomic:     157155
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43710):
TAGTTTTCTGAGGACCTTTAACTCTTATCCATAACAGTTGTACTAACTTACGTTCCTACCAGTAGTGTACAAGAGTTACCTTTTCTCCACATCCTCACCA
R
CATTTGTTATCGCATGTCTTTTGAATATGTCATTTTGACTGGGGTGAGATGATATCTCATTGTAATTTCGATTTGCATTTCTCTGATGATCAATCATGTT
Celera SNP ID:            hCV11899282
SNP Position Genomic:     154721
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43711):
TCAATCTCGTTACTTGTTATTGGTCTGTTCAGGTTTTGGATTTCTTCGTGGTTCAATCTTGGTGGATTGTGTGTGTTTAGGAATTTATCCATTTCTTCTA
R
ATTTTCGGATTTATTGGCATATGGTTGCTCATAGTAACCACTAATGATCCTTTGAATTCCTGTAGTATCAGTAGTAATGTCTTCTTTCTCATCTCTAATT
Celera SNP ID:            hCV27949642
SNP Position Genomic:     36722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43712):
ACTCAGGTCTCCTGACTCCCATTCTGATGAGGGGGCTTGTGGGCAAGGGGTGCGTCTTTTAACCTCCATCCTTTTTTTTTTTCCTTGGTGGTCGAAGAGT
Y
TTACTGATTTTTTAAAAAAGTGCTGGATTGGGTGACTAGAAGAAAGCTGCCCTTAGGTCTCCAGTTTTTAAGACTGCAACAGCATGGCTCAATATTTGAA
Celera SNP ID:            hCV921481
SNP Position Genomic:     6588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43713):
ACTATGTTGCCCAGGCTGGTCTCGTATTCTTGGACTCCAGTGATCCTCTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCTCCTG
R
CCTATAAATTTTCTTCTATGCACTGCTTTTGGTGCGGTTCCACAAATTTTGATAAGGTGTGCTTCCTGTTTTTACTTAGTTCCAAATATTTTAAATTTCT
Celera SNP ID:            hCV1853075
SNP Position Genomic:     209843
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43714):
TAAGTACGTTTGTTTGTTTTTAAACCAGAGATACTGCCACAGGAAAAGCCCAAGGGTGACCCCTCACTTGGGTCACCTGCACAGTATTTTTCAGATTGAG
K
CTGTGGAAGGGCATTGAAGACTGGTGTTTAGCCACCTACCGTGTTTTAATGTAGGTGGCAGCTTGGGTGCTTCAAAATCTTGTTCCTTTCGTATATATTT
Celera SNP ID:            hCV921482
SNP Position Genomic:     6951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43715):
GGAGTGCAGCTGTCTCTTCAATATACTGATTTCCTTTCTTTTGGGCATATATATATACCTAGCAGTGGGATTGCTAGATCATGTGTTAGTTCTATTTTTA
S
TTTTCTGAGGACCTTTAACTCTTATCCATAACAGTTGTACTAACTTACGTTCCTACCAGTAGTGTACAAGAGTTACCTTTTCTCCACATCCTCACCAGCA
Celera SNP ID:            hCV11899287
SNP Position Genomic:     154623
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43716):
CGCCTGGCTAATTTTTGTATTCTTTTTAAATTAAAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCATCTGCCT
Y
GGCCTCCCAAAGCGCTGGGATTGCAAGTGTGAGCCACCTCACCTAGCCCCTCCATATATTTTTAATATGTAGTTATTTTTATATTTAAGGTGAGTTTCTT
Celera SNP ID:            hCV1853076
SNP Position Genomic:     210874
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43717):
GTATGCTTTTGGCAAGTTTTCTGCCAAGAAAAAATTCATAATCTTGTCACATCTTTAGTGATGAACATAAACCTTTTAAACAGGAAACACTTAAATTGCA
R
TGAACATGTCAAAAATGATACTGTTCTTTTATTACCTATCTTTTCCCCTCTGTGCCTTTGCTACATAACTGTTTATTTCTTAGAGGTATTTTATTTAGCA
Celera SNP ID:            hCV921483
SNP Position Genomic:     7264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43718):
TTGATTTTTCAGTTGGTTCTACTTTTTCCTTGTGATGGAGAGGCAACCTCCAACCTTCTTATATGCTAAACTGGAAACCAGAAACTTCCCTGACCTTTTT
R
TGGATGAAAATCTTTATTTTCATGGTTCCTTCTGATCTCTGGATAGGGAAGAGAGATCAGAAAGGAGCAATAAGGGAGGTCATGTGTTGCTGCTGCAGGC
Celera SNP ID:            hCV1853077
SNP Position Genomic:     213500
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43719):
TAAGTTTCCACATTTTTATGGGGCTGTTCTGAACTCTTATTTTTCACTGGTCAGTGTTTGTGTGCAAGCCAGAATCACACAAGCTTATTTGCTATAGCAT
Y
ATAATAACTTTTTACATCTGTAGGGAAAGTTCTCCCCTCCTATTCTCCTAATAGAATTCCTAATTTCTATTTAGCTTTTGCTCCTCTCTCTATTTTAGAG
Celera SNP ID:            hCV2946753
SNP Position Genomic:     158114
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43720):
CAGAAAGGAGCAATAAGGGAGGTCATGTGTTGCTGCTGCAGGCCGAGAACAGCCTTGAGGAGCACAGTGTCGGATCCCAGACCCTTAGGTCTTCCGGCTA
M
AAGTGCCTATCAGCTTGGAGAAGGAGCACCATGGAGATAGGTGGTCCTAAGATCCCTCGGGGCAGATTTTAAGCACAGCTTTTTAAAGAAATCCTGCCTT
Celera SNP ID:            hCV1853078
SNP Position Genomic:     213658
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43721):
GAGCACAGTGTCGGATCCCAGACCCTTAGGTCTTCCGGCTAAAAGTGCCTATCAGCTTGGAGAAGGAGCACCATGGAGATAGGTGGTCCTAAGATCCCTC
R
GGGCAGATTTTAAGCACAGCTTTTTAAAGAAATCCTGCCTTAATACGTTTATTTGTTATTGTTATCAGAAAGAAGGCACACATTCAGACTTTTAATAAGG
Celera SNP ID:            hCV1853079
SNP Position Genomic:     213717
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43722):
GGGCTTCCTTGAGTGACAGAACATTGAGGGGAGACCCGCAGTGGGTGCTTCTTTCTGCAGGCAGGGCATCCCATCAAGTGAGAAGTGATGAGCCTTCAGC
M
GAGAGGGGACCCTGGAGTGGGTAGCTCCTCTCCGCAGGCAGGTTGTCTGCTTGTCTCTTCAAGTTTGGCCGAGTCTGGGGATTTGTATGGGCTTGAGAGG
Celera SNP ID:            hCV1884032
SNP Position Genomic:     19412
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43723):
CGCAGTGGGTGCTTCTTTCTGCAGGCAGGGCATCCCATCAAGTGAGAAGTGATGAGCCTTCAGCCGAGAGGGGACCCTGGAGTGGGTAGCTCCTCTCCGC
M
GGCAGGTTGTCTGCTTGTCTCTTCAAGTTTGGCCGAGTCTGGGGATTTGTATGGGCTTGAGAGGAGGAAGTGTGTGCTGATTGGTTCATGGGCTGCCATG
Celera SNP ID:            hCV1884033
SNP Position Genomic:     19448
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43724):
GGCTTGAAGGTGGGGCTTCACCCGGACCTGACCCTTTCTGCTCAGGAGCCTGTCTGCCTCCTGCCGTCATCCATGGCACCCAGGCTGTTTGTGCCATGGG
R
CACCTGCAGGACAGCTCTGAGCTGCCCTCAGCCCTCTCCTTGGCCTCCTTCCCATGTTCATCAGTGTCCAAAGTCCAGAGGGGGCCGAGGCAGCAGGGGG
Celera SNP ID:            hCV1884034
SNP Position Genomic:     19721
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43725):
AAAGTCCAGAGGGGGCCGAGGCAGCAGGGGGCTGGCATGTTAGCACTGCCCTGAGCATGTGCACACCCAGCCAGGTTGCAACAGTTCCTAGGCTTGGCCT
Y
AACTTTGAGATCAGAGTGGGTGCTGGGAGCTGGGAGAGGCCAGGCAGTCGGAGCAGGTACTTCTGAGCCTGCAGAGGGAGGGGGAATTCCCTTTCTGGGC
Celera SNP ID:            hCV1884035
SNP Position Genomic:     19891
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43726):
AGGGAGGGGGAATTCCCTTTCTGGGCCCTTGAGATTGCAGAGATGCCCGGGTCCACAGCCACAGCTTGGGTGGCTGTGGCTGCAGCTGCACCCAGGAGGG
Y
GGGGCTCCTGCCTGCTCCCAGCCCCCAAGAGCACAGGGATGCCCAGGTTTGCAGCCACAACTGGGCAGCCACAGCTGTGCCCAGGGAGCGTGAGGCTCTC
Celera SNP ID:            hCV1884036
SNP Position Genomic:     20066
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43727):
GCCAACTCAGAAGGGGGCGAGGCTTCTTCCACCCATTTCTGGCTCCTGTCGGTTCTGTGGAGCATGCAGCCCTGGCTGCGCCTCTCCTACTGCAGCTGGC
R
TTACGGCTGTGGCTGTTCCAGATGGGCTGCCATTGCCATCATAATGACCTGGATTTCTCTTGCCAACCTCTCCATGCCTCACCGTCTTCTTATTGCTGAT
Celera SNP ID:            hCV1884037
SNP Position Genomic:     20272
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43728):
AGAAGGGGGCGAGGCTTCTTCCACCCATTTCTGGCTCCTGTCGGTTCTGTGGAGCATGCAGCCCTGGCTGCGCCTCTCCTACTGCAGCTGGCATTACGGC
W
GTGGCTGTTCCAGATGGGCTGCCATTGCCATCATAATGACCTGGATTTCTCTTGCCAACCTCTCCATGCCTCACCGTCTTCTTATTGCTGATCTTTGGAG
Celera SNP ID:            hCV1884038
SNP Position Genomic:     20280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,5)      total(A,3|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43729):
GCGAGGCTTCTTCCACCCATTTCTGGCTCCTGTCGGTTCTGTGGAGCATGCAGCCCTGGCTGCGCCTCTCCTACTGCAGCTGGCATTACGGCTGTGGCTG
Y
TCCAGATGGGCTGCCATTGCCATCATAATGACCTGGATTTCTCTTGCCAACCTCTCCATGCCTCACCGTCTTCTTATTGCTGATCTTTGGAGGTTTGCTG
Celera SNP ID:            hCV1884039
SNP Position Genomic:     20288
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43730):
ACTTTTAAACACAGAAACACAGAGAAGTATTGTTTTGTCCTGTGAATACCAAAACTTTGATTTGGATTTATTAGTGAGAAAAAAGCAGGATCAAACGTTT
Y
CCTACTTTTTAGGAGTTCTGTGCAATACCTCAAATTCTATCCAGAATGTTCCTACAAAGTACAGTATGATGTTAGACACTCTTTACATCCAACATGTTTT
Celera SNP ID:            hCV11954077
SNP Position Genomic:     205384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43731):
CTGAATTTAGGATGAGAGATCTTATTTAATTCAACTCCCTGATTTTAGAGGGGAGGAAACTGAAGCCTAGAGAGGTGTATTGGCTTGTCCAGAGTCCACA
S
TAGAAACCACCTTTCTTTTGTGGGCCAATTCTTTATTCATGTTTATACTTTTATTTTCACACTCTGTTATTTTCTTGCTTATCAAGGCTCTCATAGAAAT
Celera SNP ID:            hCV11899291
SNP Position Genomic:     153355
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43732):
ATAAATAACATTTGTCAGGATTCATTTTTGCTAAGCTTTAGGTCAAGTAGAATTTAGATTTATCCTTGCTATCTCTGAGTCCTTCTCTGGTCTTCCTTGT
S
TCATTTGTCGTGGCAACCCTTTTCTCTTTTTTTACAGGAATAGGGTGTGGGTGGAGGGGGCACTTAGGTTTTCCTCTTAGTGCCTTGTACTCTTACATGA
Celera SNP ID:            hCV1853081
SNP Position Genomic:     216651
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43733):
CTGGTGAGGTTGTGGAGAAAAAGGAATGCTTATATGCTGGGTGAGAGTGTAAATTAGTTCAACTGTTGTGTAAGGCAGTGTGGTGATTCCTCAAAGACCT
R
AAGACAGAATTACCATTCAACCCAGCAATCCTGTTACTGGGTATATACCCAGAGAAATATAAATTGTTGTGTCATAAAGACGCATGCACACGTATGTTCA
Celera SNP ID:            hCV1853082
SNP Position Genomic:     219722
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43734):
TAACAAAATATCATAGACTGAGTAGCTCATAAACAACAGAAATTTATTCCTCAGAGTTCTAGAGGCTGGAAAGTCCAAGATCAAGGTACCAGCAGATTCA
R
TTTCTGGTGAGGGCCTGTTTCCTGGTTCCTAGATGACACCTCACATGGTGGAATGGGTAAAGGGTCTCTTACTCATGTATTCACACAGTGGAAGGGATAA
Celera SNP ID:            hCV11899294
SNP Position Genomic:     146914
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43735):
GTTTGCAGGCACTGGCTTCTAGCTGCATCTTCCCTAATCTGTTCCCACCTACTTCCGCACCTGTGTTTCTCAACTTTCATTTGGGGGCAAAAGGTACTGT
S
AGTGCCTTGCAACGGAAGTTTAGGTCTGTGTTTCTGAGTGAGTTGGCATTCTTTCCACCTCCCACTTCAGCACCCACCCTTGGAAAGCTCTTATCTGTCT
Celera SNP ID:            hCV1853083
SNP Position Genomic:     222094
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43736):
CCCAGTTCTTTTAAAGTTTTAAGTTCATGTGTATGTATATATATGACAGGCTGGGTCCTCTAGGAGGCAGATTCTGAGATTTGCATTCAGGAGGTTCATT
S
GGAGTGCTGGGCTGTGTTATGGTCAAAAGGCTTCAGCCAGCCCTGCAGAGAACTCTGAGGCTAGAGTGGTCCTTCAGAGTTACCTCAACTTGGGGTGAGG
Celera SNP ID:            hCV1853084
SNP Position Genomic:     222634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43737):
TGGGAGGCCAAGGTGGGTGGACCACTTGTGCCCAGAAGTTCGAGAGCAGCCTGGGCAACATGGCCAAAACCCCATCTCTACAAAAAAAAAATTAGCTAGG
Y
GTGGTAGTATGCACCTGTAGTTTCAGCTACTCGGGAGGCTGAGATGGGATAATCACCTTGAACCTGGAAGATTGAGACTGCCAGTGAGCTGAGATTGCGC
Celera SNP ID:            hCV1853086
SNP Position Genomic:     223820
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43738):
CATTACTTTAAAGATTCAGTATGCCAAAGGTTACTGAAGATATTGAGAACCTACAGAAGATTTCTTTTATTCATAGATTTTATTCAGATATGCAACGATT
R
CATCCAGAAATTCTATCAGAGCATTAATGAAAATAATAGTATTACATAACAGGCAATCACAGTCAGTATCCACATGTCACTTATTTTGTAGATTGTGACA
Celera SNP ID:            hCV1853087
SNP Position Genomic:     225151
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43739):
TTATTCATAGATTTTATTCAGATATGCAACGATTGCATCCAGAAATTCTATCAGAGCATTAATGAAAATAATAGTATTACATAACAGGCAATCACAGTCA
R
TATCCACATGTCACTTATTTTGTAGATTGTGACAAATTTTTCATTCTAAACAGGCTGCTGTCACTTTAAATGCTTATGGGAATACTTTCCACCTTTACGC
Celera SNP ID:            hCV1853088
SNP Position Genomic:     225217
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43740):
TGAGGGAAAAGTATCTATGAGAATTTAAAAATAAACTTAGCCCTCTTCCTCTGCAAAGTCCAGAGACAAATTAAACTCTTTAGTTGCCATATTATTATTG
K
TCTTTTTCTCTGAAAAAAACCTAGAATAAAACTTTACTACAAAGGATATATATACAAGATAGTAATAAAATATGTCAATTTCTAAATTTGCTGTAGAAAT
Celera SNP ID:            hCV1853089
SNP Position Genomic:     226088
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,9)   total(G,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43741):
CGATTTAATAAAGTTATGAGAACTTACATGTCCTTTTTAATCCTCTAATTTATTTCAGCTTTCAGGCACAGTTTTGATCTCCTTTCTTTATTTCACAGGC
R
CAGCAGAACAAGTCCCTGATTTTGTCACCTTCCTTTACCAAATAACTAGAGGAATTGCAGCAAGGAGTTATGGATTAAATGTGGCTAAACTAGCAGATGT
Celera SNP ID:            hCV800002
SNP Position Genomic:     224611
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,13)   caucasian(A,27|G,11)   total(A,48|G,24)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)   JBIG-allele(G,389|A,1112)   total(G,389|A,1112)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:43742):
TTAAGCCTGTGTTTGCTGCAGGATTTTGGTAGCTAGCCTTGACCTGGTTGAAGAAGTTGTCTAAGGGTCATTTTGTTCTCTCACTCACTCACCACTTAGT
R
GTGGATGGTGTCGGGAAGAAACCTGTTTCCCAGCTAAATAAACATGGTTTAAATATTAGAGCTGTGAAGTCTAAATTTTTATATGATATTTTTTCTATAT
Celera SNP ID:            hCV800003
SNP Position Genomic:     160000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43743):
AGCCTTGACCTGGTTGAAGAAGTTGTCTAAGGGTCATTTTGTTCTCTCACTCACTCACCACTTAGTGGTGGATGGTGTCGGGAAGAAACCTGTTTCCCAG
Y
TAAATAAACATGGTTTAAATATTAGAGCTGTGAAGTCTAAATTTTTATATGATATTTTTTCTATATATACAAAGAATTGATTTTTGTATATCAATTACCT
Celera SNP ID:            hCV800004
SNP Position Genomic:     160034
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43744):
CTTTTGAAAATATTGGAAAGGGAAAGTGTCAGACTTACTTACTTTGGGTAATATATCTTCTTCATATATATATATATATATATATATATATATATATATA
Y
ACAATCTAAATTCGAAGAGAGTAATATTTCTATTCATGTAAATGCCATACACATTTTACTCATCAAGGCCTTCAAATAAGTTTCACATCTGACTTTTACA
Celera SNP ID:            hCV800005
SNP Position Genomic:     160381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43745):
TGACCCAGAGTCACACAGCTACTTGATGGTGGAGCAGTAATTGGAACTCAGGTACTCTAGCTCCATACCCTAAATAGTCAATTGGGTTGCTATTCTGCAG
R
AAAAAAAAAAAAGTAAGTCTGTGTTATGCTGGCGTTTTACTCTTTAATTAGCTTCATTGTTTTCGGTTGGTGTTACTTTTCATCCTGGGAACACTTCATA
Celera SNP ID:            hCV1853090
SNP Position Genomic:     226808
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43746):
ACTTCTTCAAGTATTTGCATTTTTGTTGATACAAATGTGAAAAGAATCAGAAATAATCAGCTCTAGAACCTATTAGAAATGTATTGAAATTTGGAATTTA
R
TATTTATGAATGAATATGTTCCAGATGCATGCTTGACGGCTGATGAGCAATGACATTCAGAATGTCTTACCCATTTCAGATATATATGCCTTGAAAACCA
Celera SNP ID:            hCV1612717
SNP Position Genomic:     142926
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43747):
TTATAATTAGAGAAAGCTGAAGGCTCATTGAATCAAGACCGGTAGCAGCCTTGGTTTCAATTAATTCTAAACACGGCTTGAGTTGCTGAGGCTCCTGACT
R
TCAGACTCTACCTTGTCTTTTATGGTGTTAAAAACAGTTCACCCATAGGGTTTTCCAGAGCTAAAAGTAGAGGATTCTTTGAAGAGTGGATGGCAAGGAA
Celera SNP ID:            hCV652007
SNP Position Genomic:     7489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43748):
GATAAGCCATAAATCTGGTTCAAAGGTTTCCACAAAGCTAAATTTGTTCAGTTAAATAGTTCACAGTGCCCAGAAAGCCAAATGAATTAATTAGTTAAGA
R
GGCAACTTAAAACAAATTTTTATTGTGTTTGACAGCAATCTTTTAGTAATAAAATCAGCTAGAAGAATATATTGGGTAGTATCACACAGACTAGGTTTTA
Celera SNP ID:            hCV800011
SNP Position Genomic:     171803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43749):
TAAAACATCAATGCCCAATACTGCTGTGGATAAGCCATAAATCTGGTTCAAAGGTTTCCACAAAGCTAAATTTGTTCAGTTAAATAGTTCACAGTGCCCA
R
AAAGCCAAATGAATTAATTAGTTAAGAAGGCAACTTAAAACAAATTTTTATTGTGTTTGACAGCAATCTTTTAGTAATAAAATCAGCTAGAAGAATATAT
Celera SNP ID:            hCV800012
SNP Position Genomic:     171775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43750):
ATGAGACATTTTATGAAAAAGAACACCGTTAGCCAATAGCAATACATTTAAGTGCCATAAGTAATACAGTAGACTTTAGCATTTTTTTTTCTGTTCAGTA
K
TAATTGTTTTAAGCCACCAGCCTGTAGTCCTGTGGTGGTTTGCGCAATTGGTATGCTGCAATGGAAAATCCATCATGCAAGATACCCCAGAGTCCAGATT
Celera SNP ID:            hCV800013
SNP Position Genomic:     217176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43751):
ATAGGAAAATTGTTATGCAATCCTTGGGGTGTTGCTTCGCCAGCTGTAAACCTCTGTGGCTGGTGGTGCCTTTGCCCGAGTTTTTACTTGGGCCTGCTGG
R
CTCATTCCTCCCACTCGGCCTGGCAGGCTGTGCTTGGCTTTTGCTTTTGGCCTGAATCTCGCAGCTGCCAAGGGTGAGCCAGGAGTGGAGTGGTGAGGGT
Celera SNP ID:            hCV27924331
SNP Position Genomic:     18774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43752):
ATCATACTAGCTAAAGAAACAGTTGCTAACTTGTTTACCAAAGTACAGTAGTGCAGTTAACTTCTCTTTCTCTACCTCCTTCTCCTGTGCTTCCGCCTTG
Y
ACTCCTCCACTTCGGTATACTGTAGTTCACCAAGTCCAGAGTGCTGGACTCTACAAATGGCACACAGCCTCCTCTAGTGACACTCTTTTCTGGCTCATTT
Celera SNP ID:            hCV27924332
SNP Position Genomic:     225799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43753):
GAAAAAACAAAAACACACACAGCAAAAAGAAAAGACAAAAACACCCATAACCAACCAAATAAAAAACCACACACACAACACATTAATACTTACGTTAATA
Y
CATTGATTAAAATAACCTATACCTTTGCTCTCTAAAGGTCTGGGGTTGTGAGCTAACTTAAAAACCAGCTTGGTTGTTCACAGTTACTGGTTTCCTTTTG
Celera SNP ID:            hCV3166273
SNP Position Genomic:     88802
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43754):
AATCCTGAAGTTTATAGATAGCTTAGATTGAGGACAGACAGTGGTAAAGCCCTAAAGAAGAGCTTCTGAACCCTGAACCCTGAGGTACATGGTCCATGGT
Y
GGATGTGGCAGAAAGGTCAGCGCCCAAATGAGAGAGCTGCAGGGGAATAACAAACAGCCAGCCAGTTTTCATTTTAGTGTATGAAGGAAATGTTAAGCAA
Celera SNP ID:            hCV27998346
SNP Position Genomic:     146398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43755):
AGCGATAACTGCTGTAATTAATAAACTTCGAATATGTATTTGCATGTTTTGATTTTTTAGAGTTGGGGATAAAACTGAATTATTTAAAGACCTTTCTGAC
Y
TCCCTTTAATAAAAAAGAGGAAGGATGAAATTCAAGGTGTTATTGACGAGATCCGAATGCATTTGCAAGAAATACGAAAAATACTAAAAAATCCTTCTGC
Celera SNP ID:            hCV11954176
SNP Position Genomic:     120366
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): NIH Coriel panel(T,83|C,-)      total(T,83) ;(C,-|T,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:43756):
CAAACACATAAACCTTTTTTTTTAAAGCACTAGTGAAACATTTAAAAATTTTTGAGCACTGACAGGGTATCTAATGATACTGAAGAATTACTTAAAAAAA
Y
GTTTAAGTGAGATAAACAGTGCAATGCAATGGTTATGATTTAATAGAAAAATCCTTACTTTAGTGATACATGCTAAAATGTTTACATATTAAATGATTTG
Celera SNP ID:            hCV15797596
SNP Position Genomic:     170117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43757):
TAAATGTGGGAAACTTTTTTGGTTGTTATTGTTTCACATTTTTTCTGTCTTCCTGTCTCTTGTGTCTCCTTCTGAGAGTTTATTACAGGGATGTTAACTA
Y
TTGATGTTATCTGTTAAGTCATTGAGGCTCTTTTCATTTGTTTTCCAGGCTTATTTCTCTTTGTACTTCATTGTGGATAGATTCTACTGCTCTGTTTTCA
Celera SNP ID:            hCV2948460
SNP Position Genomic:     12580
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43758):
GCATACACTGTTGCTATTATTATTGTGAACAAAATGTTATGCTAGATCCACTAAAAATAAGAAAAATAAAAGTTTTTCGCCTTCACTGGTTCCTTCTTCA
R
TGCTGCACTTTTCTTTATGTAGATACAAGTTTCTGACCCCTGTCATTTTCCTTCCTTCTAAAGAACTTTCCTTAAACATTTCAGGATAGATCTGCTGGCT
Celera SNP ID:            hCV9965694
SNP Position Genomic:     211735
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43759):
ACTTTTTTGGTTGTTATTGTTTCACATTTTTTCTGTCTTCCTGTCTCTTGTGTCTCCTTCTGAGAGTTTATTACAGGGATGTTAACTACTTGATGTTATC
K
GTTAAGTCATTGAGGCTCTTTTCATTTGTTTTCCAGGCTTATTTCTCTTTGTACTTCATTGTGGATAGATTCTACTGCTCTGTTTTCAAGTTCAGTGGTC
Celera SNP ID:            hCV2948461
SNP Position Genomic:     12592
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43760):
TAATACCGATTCTGAAACTTAGGTTTAGTTCCAAAACTGATACTTATTAAAGTTGCTAAAAATAGTTTTTACTTACAAAAATTATATTTCCACTGTAGTA
S
TGGAAATTTAAAAAAAAAAGTAAAACAACAAAGCTGGGCATGGTGGCACATGCATGTAATCTCAGCCACTTGGGAGGCTGAGGAGGAAGGATTGCTTGAG
Celera SNP ID:            hCV11434404
SNP Position Genomic:     30507
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): NIH Coriel panel(C,1|G,86)      total(G,86|C,1) ;(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43761):
TTGATCTCAGTCAGTTTGGATCATCAAATACAAGTCATGAAAATTTACAGAAAACTGCTTCCAAATCAGCTAACAAACGGTCCAAAAGCATCTATACGCC
R
CTAGAATTACAATACATAGAAATGAAGCAGCAGCACAAAGATGCAGTTTTGTGTGTGGAATGTGGATATAAGTATAGATTCTTTGGGGAAGATGCAGAGG
Celera SNP ID:            hCV11434406
SNP Position Genomic:     21501
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,6)   caucasian(A,2|G,36)   total(A,4|G,42)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,24)   caucasian(A,1|G,37)   total(A,9|G,61)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): NIH Coriel panel(A,25|G,60)      total(G,60|A,25) ;(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:43762):
GGAGGCTTGTTAGACTCTTCACTCTTAACTATTTAAGTGGGTGTGGCAGATTTGAAACTGTAGTAATTCTCTATAAATGAGGGCATCACTAGTTCAAAAC
W
GTTTTCTAATGATGAAATTTTTTAGATTAGCCACTAATTCTTAATATAATTAATGTAAAAGCTACAGTGTTTCTATTAATGGGAAAAATAAACTCAAGAA
Celera SNP ID:            hCV27477638
SNP Position Genomic:     124966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43763):
CCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCTTGAACCACTGCACCCAGCCCGAAAGAAATTCTTAAAATCTACTGAAAGTTAAGATGACCC
K
CTATACACCCTTCACCTAGGTTCATCACATGTTAGCATTTGCCACATTTGCTTTTTATCTCTCATGTATTTTTTTTCCTGAAACATTTGGAAGTAAGTTT
Celera SNP ID:            hCV1667236
SNP Position Genomic:     130827
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43764):
CATGGCAATGGTTCCTAAACTTGGATGGTCTTCTGAATCATCTGAGGGAGCTTTTGTGTTTTAGTTTAGTTTTCTTACATCCCTGGAGATTCGATTTACT
R
TGTTTTGGGAGGGATTAATTGGTTTGTATGGGAACAAAACAAAAGCCTTCCAGGTAATTCTGAGGTATTTCCTGGATCAGGAGCCCTTGACTTGGAGGGA
Celera SNP ID:            hCV11434413
SNP Position Genomic:     16834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43765):
TTACCTAGAATAGTGGGTTCTGAAGTACTGTCAGGTTCTCTGAGGTCATTCATGGCAATGGTTCCTAAACTTGGATGGTCTTCTGAATCATCTGAGGGAG
M
TTTTGTGTTTTAGTTTAGTTTTCTTACATCCCTGGAGATTCGATTTACTGTGTTTTGGGAGGGATTAATTGGTTTGTATGGGAACAAAACAAAAGCCTTC
Celera SNP ID:            hCV11434414
SNP Position Genomic:     16784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43766):
TAGCAGTTATCCACTTCTGGTCTTATTTCCTTTTTAATACCCAGGAATAGCTGTGTGTACTGCTAAGAATTCACTTTTCTGCAGTATCACACAGTTCAGG
Y
TGAAGACAGAGGACCGCTTTCCTTTTGTGATATTTATGCTACAAAGTAATGTTTTGCCTAATGCATTTCCACTTATGAGATAAATTGTGGATATTATCAA
Celera SNP ID:            hCV1667239
SNP Position Genomic:     164938
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,8)   caucasian(C,2|T,34)   total(C,6|T,42)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;JBIC-allele(C,378|T,1103)   total(C,378|T,1103)
SNP Type:                 INTRON


Context             (SEQ ID NO:43767):
GCAGTTTCTTCTGAAGATTCGAAACGTCAAATTAATCAAAAGGTATGTAACTGCTATAGATGAGTATCCAGTTACCTAGAATAGTGGGTTCTGAAGTACT
R
TCAGGTTCTCTGAGGTCATTCATGGCAATGGTTCCTAAACTTGGATGGTCTTCTGAATCATCTGAGGGAGCTTTTGTGTTTTAGTTTAGTTTTCTTACAT
Celera SNP ID:            hCV11434415
SNP Position Genomic:     16713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43768):
GGCTGATGTTATTTGTATATACTTTTTTATTCATTGAGCTATGAACTCCAGAGTTAGTATGGTTTAAAAAAACTTTTTTTGTTGTTTTGTTTTGGAAACA
K
CTCCTTCTTGGGAAAATAAGAGTTAGTATTTCTAGAGAAAAATGTTAGTTTAGAAAGAGTAGTTATTTTAGGCTAAGGCAGACCTGAGCTTGTTAATGAA
Celera SNP ID:            hCV7602200
SNP Position Genomic:     56906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43769):
CTTTAACTCTCTGCAAAGACCCTATCTTCAAATAAAGTCACATTATATACTGAGGGTGTGGACTTCCACATTTGAATGTTATAGGGACATAATTCAACTC
R
TAACATAGGGCGAGGACATTCTTTTCCACCTCCCTCCTCAGTCCGTTTGTGCCTGTGGTAGTTGCACAGTAAAGATTTGTAGATTTGAAAAGGAAATACC
Celera SNP ID:            hCV7602201
SNP Position Genomic:     56701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43770):
TATCCTTTTTGGGGTTCACTCAGCTTCTTGAATCTGAAAGTTGATGTCTCTTGCCAAATTTGTGAATATTTCATCTATTATTTCTTCAAGGTTTTTGTTG
K
TGGTGGTGGTGTTTTTTTTGTTGTTTTTTTTTTTTTTTGCCTTTCTTTTCTCCTCTTGGGACTTTGATCACAAGAATGTTAGATCTTTTGTTATAGTCCC
Celera SNP ID:            hCV7602203
SNP Position Genomic:     45799
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,2)      total(G,2|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43771):
TGTAAAAGTGAAAAAAGTCTATTTTAAAGGAAAAAATAATTCTTGCTAACCTCCTCACCCATTTCACTTAAATTAGTTTTATTATAATGTGACTTAAATA
Y
TTATAAACTGAAAACTTAGTGCTCTAGGTTTTATACCTATTTTAACAGGAATAAAGTCCAAGCAAAATTTGAGATTAAAGTAAATGTATGAAACAAATAA
Celera SNP ID:            hCV7602204
SNP Position Genomic:     40799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43772):
TGGGAAGGTGGGACTGGGTAGAAAGAGGGCATTCCAGGAAGTGTGGTCACAGGATGAGAAAAGGGAATTGGGAACATCGAGTTGACTGGAGTGTTAGGAA
W
ATATGGGTCAAGAGTAGCCTGCAACAGAATGTAGTGCAGAAGAGCTGTTCAGTGAGTATTTGCTGAATGATTATGTTTAAGGCCAGAGAGGAAGACTGGA
Celera SNP ID:            hCV7602205
SNP Position Genomic:     40426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43773):
TTTGTGAACTTGCATTCCTGCTGCAAAATCACTTTTGTATTCTGTGGTTTTTTTTTTTTTAACTTTACAATTCCCCATTTTTAAAAACTTTATTGCAGAA
M
ATTTCAAACATACACAAAATTATACAGAATAGTGTCATGAACTCCTGTCACTCTATTAGCCAGCTTCAGCATTTCTCAGGACCATTCTCATTTTTCTACA
Celera SNP ID:            hCV7602206
SNP Position Genomic:     31916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43774):
CAGAGAAAATGACTGTTAAACATTTTGGCACATTATTTCCATGTGTGTATATCACTTTTTTCCATTTGTGAACTTGCATTCCTGCTGCAAAATCACTTTT
S
TATTCTGTGGTTTTTTTTTTTTTAACTTTACAATTCCCCATTTTTAAAAACTTTATTGCAGAAAATTTCAAACATACACAAAATTATACAGAATAGTGTC
Celera SNP ID:            hCV7602207
SNP Position Genomic:     31852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43775):
TATATGTTCATTCAGAAGACAAAAAAAAAAGGATAAATTCATAAGTTGAATTCTGTAACCCAGAGAAAATGACTGTTAAACATTTTGGCACATTATTTCC
R
TGTGTGTATATCACTTTTTTCCATTTGTGAACTTGCATTCCTGCTGCAAAATCACTTTTGTATTCTGTGGTTTTTTTTTTTTTAACTTTACAATTCCCCA
Celera SNP ID:            hCV7602208
SNP Position Genomic:     31792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43776):
ATAGTATCATTTAGATATCTGTGAGTCTGACTCTTCGTGTAAGAGTCCTGAAAAGCAGACAGGTTTCTAACACTTTAGAAATAGAGTACATACATACTCC
Y
GAGTGTATCATCTTTACTTTTTCCATGTTTATGCTGTGTTATAGCCATAACTGGGGAAATACATTTTTTCTGTAACATTATATTTGTATTTGTTTTTAGG
Celera SNP ID:            hCV7602209
SNP Position Genomic:     30116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43777):
CACTATGTTGCCCAGGCTGGTCTCAAACTGTTGAATTCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGGATGAGCTACCTTGCCT
R
GCTGATTTTAATTTTTATCAATGAACATAATTTTTAAAATTCAATGGTGCTAAAAGGCTCCTGCTGACAAGCTTCCATCCCTTCAGTTCACGTCCTTCCC
Celera SNP ID:            hCV1667243
SNP Position Genomic:     217930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43778):
CCACTGCCCTTGTTCAGGCCTTATCTCTTCCAGCAGCTGTTCCAAAGGCCTACTCTGTTTTCCTTTCGGAGTGCTCACCTCCACCGAAGCCTCCACCCAG
Y
TGCCAATTCTGCCCCATGCCTGATAATTTGCTCGTGCGTTGACATACATAAAATTTCTAAGACAAAAATTTTTTAATAATGGTAAATGAACCTTGGGAAC
Celera SNP ID:            hCV7439903
SNP Position Genomic:     5064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43779):
TAAATAAAAACCCAGCCTGCCTGAGTGCCTGAGTTCCTGGATTTCTAGAGGTGGTGTTGCATATAGACAGTTGAGCAGATTTTTCTCTAGTTTTATGGTA
Y
CAGAGAATTTGTGATAAGGGAAGACAGGAAATCCATCTTTATTCATTATCCTCAGGAAATTAGGTAAAGAGAATGAGAAAAAAAAAAAGTTCCAATTCAG
Celera SNP ID:            hCV11434425
SNP Position Genomic:     8857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43780):
TTATTTTTTTCTTTATTTTTATTTTTTTATTTTGTAGAGACAGCATCTTGCTTTGTTGCCCAGGGTGGTCTCTCAAACTCCTAGCCTTAAGTAATCCTAC
Y
ACCTTGGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCTGTGAACCATTATTTTAAAGGAGAAAATAGTTAATATTATTGGAAATT
Celera SNP ID:            hCV7602210
SNP Position Genomic:     26115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43781):
ATAAGTATAGATTCTTTGGGGAAGATGCAGAGGTAAGTCGTCTTTTCAGGCACTATTTTATATTTTTCTTGTCTAGCCTTAGATATTTTTCAGTATTTTT
R
TTTCATTTTCTGACCTTATATAAAAGCTGATTTGATCAATCACCTTTTAAAAAATACTGTTATGTAAAGTAAAAACTAAAAATGAACACAAGAAACTTGG
Celera SNP ID:            hCV7602211
SNP Position Genomic:     21669
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,14|G,26)   total(A,24|G,54)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): NIH Coriel panel(A,16|G,65)      total(G,65|A,16) ;(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43782):
ATACAAGTCATGAAAATTTACAGAAAACTGCTTCCAAATCAGCTAACAAACGGTCCAAAAGCATCTATACGCCGCTAGAATTACAATACATAGAAATGAA
R
CAGCAGCACAAAGATGCAGTTTTGTGTGTGGAATGTGGATATAAGTATAGATTCTTTGGGGAAGATGCAGAGGTAAGTCGTCTTTTCAGGCACTATTTTA
Celera SNP ID:            hCV7602212
SNP Position Genomic:     21528
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Japanese(A,77|G,102)      total(G,102|A,77) ;(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:43783):
GGTGGTGCCTTTGCCCGAGTTTTTACTTGGGCCTGCTGGGCTCATTCCTCCCACTCGGCCTGGCAGGCTGTGCTTGGCTTTTGCTTTTGGCCTGAATCTC
R
CAGCTGCCAAGGGTGAGCCAGGAGTGGAGTGGTGAGGGTGAGGGGTGTGTGAGCAGGTGACCATGGGGTCTGGCCCCTGTGCACTGCCAGGCATGCTGGC
Celera SNP ID:            hCV7602213
SNP Position Genomic:     18835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43784):
ATATACCTGCATTTAATATAGAATACATACTATATTCCATGACATAAAAGTCATGGAAACAAAATAGGAAACTCATCAAAATTAAAAGCAAAGGCATTCT
Y
AGGTATAGGAAAATTGTTATGCAATCCTTGGGGTGTTGCTTCGCCAGCTGTAAACCTCTGTGGCTGGTGGTGCCTTTGCCCGAGTTTTTACTTGGGCCTG
Celera SNP ID:            hCV7602214
SNP Position Genomic:     18669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43785):
TGCTTAATATTCAAGTATTTAGATTGATTTAATTGTTAGCATCCCATAAGGATAAAACTTTTTTTTCCTGGAAGCTTATCTCATTTCCTAAAAGAATAAA
R
TATAAAGTAAGAATAAGTTTTTACAATGTAAGAAATATATTTTCTGTGTTGATTAACTTTTATACTACATAGTATATACCTGCATTTAATATAGAATACA
Celera SNP ID:            hCV7602215
SNP Position Genomic:     18495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43786):
CATGTCCACATCACAGGAAATTAGAAGTAAGTAGACAGAGGGGGCACGTAGAAGCAGTGCCATTATTACAAGTGATAAGCTGTTTGATGGCATGGATAGA
Y
GTGGATGAATGGCAAAAAGCTACTGAGTGAACATAAATGCCCCATGGTCCAGGACCATTAGGGTGGGGTCAGCAATGCCATAACTCTCAATAGGTTTTGA
Celera SNP ID:            hCV7602218
SNP Position Genomic:     18050
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43787):
ATTGCTTTATACATAGAATGACCAACTTGGCATGTCCACATCACAGGAAATTAGAAGTAAGTAGACAGAGGGGGCACGTAGAAGCAGTGCCATTATTACA
R
GTGATAAGCTGTTTGATGGCATGGATAGACGTGGATGAATGGCAAAAAGCTACTGAGTGAACATAAATGCCCCATGGTCCAGGACCATTAGGGTGGGGTC
Celera SNP ID:            hCV7602219
SNP Position Genomic:     18020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43788):
CACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCCTCTTAAAAAAAAAAAAAAAAAAAGATTCTGAGTCAAAGTGCTCAAGTTGAATGCATTTTGTCA
Y
CCACAAGACAAAACGTGTTAACCCCTTGTGGTTTACTTTATCTATAAAATAGAGATAACAATAGTTCCTGCTTCTAGGGTTGTTGTGGGAATTAAAGACT
Celera SNP ID:            hCV7439913
SNP Position Genomic:     4105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43789):
ATTATTGCTTTATACATAGAATGACCAACTTGGCATGTCCACATCACAGGAAATTAGAAGTAAGTAGACAGAGGGGGCACGTAGAAGCAGTGCCATTATT
R
CAAGTGATAAGCTGTTTGATGGCATGGATAGACGTGGATGAATGGCAAAAAGCTACTGAGTGAACATAAATGCCCCATGGTCCAGGACCATTAGGGTGGG
Celera SNP ID:            hCV7602220
SNP Position Genomic:     18017
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43790):
TCACCTAAGTATAGTGGTTATTAAGCATAGAAGTCATAAAGTTTATCCATTAAAGCTCACTTTATTGATAGGAGCATTTACTCCAAGGTCTCAGAAGAGC
R
TATACATTATTGCTTTATACATAGAATGACCAACTTGGCATGTCCACATCACAGGAAATTAGAAGTAAGTAGACAGAGGGGGCACGTAGAAGCAGTGCCA
Celera SNP ID:            hCV7602221
SNP Position Genomic:     17911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43791):
GAAATTCTAATGAAAGCTGTTGGCCTTTTTCTTCAGAAAAATTCTCAAGCCAACAAAATTTTGCCTATAATTTTCAAGATTTCACACCTTTCCCACAAAG
Y
CCAGATCCATGAACTCCTCCCTCAGCCAGGCTAATATTGATTGACTTATCTTAGATCATCAAGAAAAAAAAGGTGTTTTTGTTTTTAGTCTCTTTTAATA
Celera SNP ID:            hCV7602222
SNP Position Genomic:     17698
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43792):
TTAGAGAAATGGTTCTATATATGTATATGTATGTGTGTATGTATATATATGAGTCATTGAAATTCTAATGAAAGCTGTTGGCCTTTTTCTTCAGAAAAAT
K
CTCAAGCCAACAAAATTTTGCCTATAATTTTCAAGATTTCACACCTTTCCCACAAAGCCCAGATCCATGAACTCCTCCCTCAGCCAGGCTAATATTGATT
Celera SNP ID:            hCV7602223
SNP Position Genomic:     17640
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43793):
TATTTTTTAAAAGTTTACATTTTATTTTGTATTTTATTTTTATTGATGGAGTCTTGCTCTGTTGTCCAGGCTAGAGTACAGTTGTGCGATTATAGTTCAC
W
GTAGTCTCAAACTTCTGGTCTCAAGCAATCCTCCCACCTTAGCCTGCAGATGAGGTGAGACTAAAGGAAAAGCAGTCATTTTAATCTGTAGCTGTGATTG
Celera SNP ID:            hCV7602224
SNP Position Genomic:     17427
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43794):
TCGCAACCTTAGCTTTACATTGGAATCACCTGGAGAACTTCAAACAAAAATTGCCATTAAGAACCTTCCCTCAGAATCTTATCTAATTGGTTTTCACTGA
S
AAATGGGCATGGATATTTTTTAAAAGTTTACATTTTATTTTGTATTTTATTTTTATTGATGGAGTCTTGCTCTGTTGTCCAGGCTAGAGTACAGTTGTGC
Celera SNP ID:            hCV7602225
SNP Position Genomic:     17313
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43795):
AATCAGGGAATTTAACTCATGCTCCATCATTGAAATCTGTAATTCAGAATAGTGATTGGTTCGCAACCTTAGCTTTACATTGGAATCACCTGGAGAACTT
M
AAACAAAAATTGCCATTAAGAACCTTCCCTCAGAATCTTATCTAATTGGTTTTCACTGACAAATGGGCATGGATATTTTTTAAAAGTTTACATTTTATTT
Celera SNP ID:            hCV7602226
SNP Position Genomic:     17253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,3)      total(A,3|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43796):
TGCTTTATTGGGAATCTACCTCTTTAAAAAATTCTATGCTGGTTATGAATTGACATAATGAGACCAAAATTACTATTGTTCTGTTTTCTTCTTATTTGCT
R
CCTAAGAGCCAAAGAAATGTCTGAGGACCAGGAATGTTTCAAAGTCTCTGGAAAAATTGAAAGAATTCTGCTGCGATTCTGCCCTTCCTCAAAGTAGAGT
Celera SNP ID:            hCV7602228
SNP Position Genomic:     16427
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,2|G,38)   total(A,8|G,70)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43797):
TGTATATACTTCCAGATTTTAAAAATTTGTACATGTGTATATGTGCATAGTCATAAGCTCAAAAATTAGTTTAAATATATTTTACAGATTATATTATATT
Y
TATACTAATTTGCTACTATCTTTTTCTACTATTAATAGAATTTAGAAAATTTTGAACAATTTTCAGTATCAGGACCTGCAGATCTACTCTCCCCGCTTTT
Celera SNP ID:            hCV8685435
SNP Position Genomic:     8282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43798):
GGTTTCAGGAATGAGTGAAATTGCATCTGTGTTTAATATGCCATCTTTACCCTGAACCCAGTGTTTCTTTCTTTTTTTAAAAAAATCACATTATAGTTAG
R
TTCATTGCTTTATTGGGAATCTACCTCTTTAAAAAATTCTATGCTGGTTATGAATTGACATAATGAGACCAAAATTACTATTGTTCTGTTTTCTTCTTAT
Celera SNP ID:            hCV7602229
SNP Position Genomic:     16321
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,4)   caucasian(A,32|G,2)   total(A,52|G,6)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43799):
TTTGCCTTTCCAGGGAAGAAATCTCCAGTTGGCTGCTGATGTGGAGGAAGGACAGTTGTCTTTGAGCTTGGAGTATGGTAGGGGTTTAGGGAACAAATTG
Y
TTTGAACCAATCCTCTTTATTTTAGAACCTCCCTTTATTCCTTTCCAGAGCTACTGGTACTCTAATTCCTGAGTCTTTTGAGCATTTTGTGTTGTAATTA
Celera SNP ID:            hCV7602230
SNP Position Genomic:     15920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43800):
TCTTTCCGCTTGAGCTAGTAAGATTTCCCAGTCAAGAGTCCTCCCAGCTTCTGCCTGGAGGGGAGTAGGAGTGCTCTGGCTTCCTGGGTTCTGGAGAGGC
Y
GTGGATCTCAGCATACATTGTGTCTGTGTTCCTAATCGTCCTTCTGGGTTAGGTACAGTACTCCATCAACTGTGCTTGTTTTGCCTTTCCAGGGAAGAAA
Celera SNP ID:            hCV7602231
SNP Position Genomic:     15740
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43801):
GGAAACAAAAAGTACACTCCACAGGGTGGGAGTGGGCCCTAGCAAGCAGCTTGGGAGCAATTTTAAACTTTTAGAAATGAACAAAACACAACTCTTGCCC
K
CAGAGTGTTTTTGCTTTAATAGGGAAGGTAAGAGGTGATAAATGTGTGCAGTCCCAGTTCCTTTACATTTAATAGCACCAACCTAATAGTAGTGCTCTAA
Celera SNP ID:            hCV7602232
SNP Position Genomic:     15206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43802):
TGGAAACAAAAAGTACACTCCACAGGGTGGGAGTGGGCCCTAGCAAGCAGCTTGGGAGCAATTTTAAACTTTTAGAAATGAACAAAACACAACTCTTGCC
Y
TCAGAGTGTTTTTGCTTTAATAGGGAAGGTAAGAGGTGATAAATGTGTGCAGTCCCAGTTCCTTTACATTTAATAGCACCAACCTAATAGTAGTGCTCTA
Celera SNP ID:            hCV7602233
SNP Position Genomic:     15205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43803):
AGGGAAAATTTTAAACTATTTTTTTTGAAGCAACAAAAGCAGAGATTTATTGGAAACAAAAAGTACACTCCACAGGGTGGGAGTGGGCCCTAGCAAGCAG
Y
TTGGGAGCAATTTTAAACTTTTAGAAATGAACAAAACACAACTCTTGCCCTCAGAGTGTTTTTGCTTTAATAGGGAAGGTAAGAGGTGATAAATGTGTGC
Celera SNP ID:            hCV7602234
SNP Position Genomic:     15155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43804):
GTATATTTTTGAAGAGCGATACAAATATACATTTCAAAAAAGAGAGTAATAGTAAACAAGGTGAATATACATTTGAGAAAAGAGTCAAATTTAAATTTTT
R
TGGCTAGAAAATTCACAGGAGATCTAATGAAAGCCTGTGAAGAGGTTTAAATATAAATAGGGAAAATTTTAAACTATTTTTTTTGAAGCAACAAAAGCAG
Celera SNP ID:            hCV7602235
SNP Position Genomic:     14996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43805):
ATGTCCTTTTTAATCCTCTAATTTATTTCAGCTTTCAGGCACAGTTTTGATCTCCTTTCTTTATTTCACAGGCGCAGCAGAACAAGTCCCTGATTTTGTC
R
CCTTCCTTTACCAAATAACTAGAGGAATTGCAGCAAGGAGTTATGGATTAAATGTGGCTAAACTAGCAGATGTTCCTGGAGAAATTTTGAAGAAAGCAGC
Celera SNP ID:            hCV7602162
SNP Position Genomic:     224638
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Japanese(G,39|A,140)      total(G,39|A,140) ;(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:43806):
TTTCACAATACTTTTTTTTTTTTTCCCAGCAAATACAACTCCAAGATCTTCATCCCACTTTCATTCCAGGCAGTTTTTTTTTATGTCTATAGGAGGGAAA
M
TCTTTGTATAACATACACACTTATAGTATATTTTTGAAGAGCGATACAAATATACATTTCAAAAAAGAGAGTAATAGTAAACAAGGTGAATATACATTTG
Celera SNP ID:            hCV7602236
SNP Position Genomic:     14870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43807):
TGCCCTAGCAGAGGTTCTCCATGAGAGCTCTGCCCTGTAGCAAATTTCTGCCTGGACATCCAGTTATTTCCATACATCTCTGCAATCTAAGCGGAGGTTC
S
CAAACCTCAGTTCTTGACTTTTGTGTACCTGCAGGCTCAATACCACATGGAAGCTGCCAAGGCTTGGGGCTTGCATCCTCTGAAGCCACAACCTGAGCTG
Celera SNP ID:            hCV7602164
SNP Position Genomic:     201028
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,9)      total(G,4|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43808):
TAACATATCCCCATCATTAAATGATGCAAGACTGTCAACACCTGTAGTAAGTTTTAGGCAGTGAGTAAGTATTTATTATTCATCTAGTAGCATCTGCCAG
M
CATAAGAGTCCCTGATTATTTCATCTCTGTTTTTAACACTTTGGTTTTAAATACTGTCAAAGTCAAATAAAATATAGAGACAAATCTCTAAAACATTTTA
Celera SNP ID:            hCV7602239
SNP Position Genomic:     13726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43809):
TATTGTGTGGGAGTCTTAGTCTCTTTGTAGGTGTCTAAGGACTTGCTTTATGAATCTGGATGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAAG
Y
CTTCCTGTTGAATTGATCCCTTTACCACTGTGTAATGCCCTTCTTTGTCTCTTTTGATCTTTGTTGCTGTAAAGTCTGTTTTATCAGAGACTAGGATTGC
Celera SNP ID:            hCV7602167
SNP Position Genomic:     196119
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43810):
ATATTTGGGTCGGGGCACAGTCAAACTATATCACATTGGAAAAGATTCAAAAATATATTTTTAGCATAAAGGAAGTCATGGTAAACAAGGTAACTGTATA
Y
TGGAAAAGTCATATTTAGAAGAAAAGAGTCACTGTATTTCTTCGGAGATTCTTAGCCTTTAGCATATAAGACATCAAAGGTTTTTTATTTTTAATTATAG
Celera SNP ID:            hCV7602241
SNP Position Genomic:     11864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43811):
ATTTCGACTGCTACTCTTCCTTGTATCTCATGTTATTATCTTCCTTGAATATTCTTTTTTTTTTCTTTGCTCTGTTGCCCAGGCTGGAGGGCAGTGGCAT
M
ATCTCAGCTCACTGCAAACTCCGCCTCCCAGGTTCAAGCAATTCTCGTGCCTCAACCTCCCGAGTAGCTGGGATTATAGGCACTTGCCACCACACCCGGC
Celera SNP ID:            hCV7602172
SNP Position Genomic:     191978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43812):
GGAGAGCTGATTGTATACCCTCTAAAAGGATGAATTTTATGCTATGTCACTTATATCTTAATAAAGCTATTATTTTTCAAAAGTACATGCCGTGTGTTAG
R
GATGGCAAGGATAAATTGTTGTCATGGTGACATGGGATCCTGTGTTGTGCAGAAGGAGAGGAGACTGGAGAGAGGTGTAGGATCAGACCACACAGAGGGT
Celera SNP ID:            hCV7602173
SNP Position Genomic:     188466
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43813):
GTTAGTATGAAATAACTACAGGAATGGAGATGTGTGGCTAAGGAGAAAAGTAAATCTAAAACTTCACCTTTCTGGAGGGGTCATGCAAGGAGGCGTGACT
T
GAGAGAATTTGCCACGGTTAATGTTACAATTCTGGGGCAGCCTACCTTTCATTGCTTGATTATTCTGCATAGACCCATTTTTTAGGTCTACAAACACTGA
Celera SNP ID:            hCV7602247
SNP Position Genomic:     9146
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43814):
AAGATGATTCCAGTATAATGGAACCATGAGAACACACAGAGGAATAAAGGTGTGTCACATCAGCTCTTTGAATATGCCACAAAAAAAAAAAAAAAAAAAA
R
GCTCTGAATTAGTTTTCCCTCAGTATCTGCTGGGGACTGGTTTCAGGACCCCCCAGTATGAAAATCTGCAGATGATCACATCCCTGATATAAAGTGGGAT
Celera SNP ID:            hCV7602174
SNP Position Genomic:     188067
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43815):
CGCAATAAGTACGTTTGTTTGTTTTTAAACCAGAGATACTGCCACAGGAAAAGCCCAAGGGTGACCCCTCACTTGGGTCACCTGCACAGTATTTTTCAGA
Y
TGAGGCTGTGGAAGGGCATTGAAGACTGGTGTTTAGCCACCTACCGTGTTTTAATGTAGGTGGCAGCTTGGGTGCTTCAAAATCTTGTTCCTTTCGTATA
Celera SNP ID:            hCV7602248
SNP Position Genomic:     6946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43816):
ACTGTACAAGGATATCGTAATCTATATGGAAGCACAAAGGAACATATAAATTTAAATCCTTTTGCTCCATGATCAGTCACTTCTTTTCATTTTAAACTTT
R
ATTTTGGACATTCACAAAATTGTTAACTCTTGAGTGATGTGGATTGAGTAAGTTGTATTACAATTGTAAAAACAAATGATTCATTTCAACTTGTATTGAA
Celera SNP ID:            hCV7602175
SNP Position Genomic:     187717
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43817):
TTTTTGTAGTTTAGATTATAAAGTCTGAAATACAGTTTGGGTGGATAAAGTTTCTTAGGATGGTATAGATGTGACTAATCATGGAGTCCTTCCTGTTGCC
R
TCCTTCAACGCAATAAGTACGTTTGTTTGTTTTTAAACCAGAGATACTGCCACAGGAAAAGCCCAAGGGTGACCCCTCACTTGGGTCACCTGCACAGTAT
Celera SNP ID:            hCV7602249
SNP Position Genomic:     6837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43818):
TGCCCCCCACCTCCCTCCCAGAAATCTTAAGTTGGACTGGGGCATGGTCTGGAAGTCACATTTTAAAAGTGTCCCAGATGATTTCAAAGTGAAGCCAAGA
Y
GTGGAAGCACTTCCTCAAGCCCTCGCTGGAGAAATCATGTGTTGAATTATAAAAATAATAGGTGCTTATTATGAAATGTAACAGGTGTACTAGGGTATGA
Celera SNP ID:            hCV7602179
SNP Position Genomic:     176046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43819):
GGGAATGACTGAAGTTAAGGAAACATGTTGGAGCAATTGTAAAGGCAATGTGTGTCACATTTTCTGCCACTTGTCATTTAGATTGTGTAAGCTAAATCTA
R
TATAAGTGGGACCATTGTTTGAATGAAAAAAAATCCAAACTTGAGATGTAGAGAAATATAGATGAATTTGAAGCCCAGAAAGGACATTTAAGCTCTCTTA
Celera SNP ID:            hCV3103200
SNP Position Genomic:     48418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43820):
CTGCCCTTAGGTCTCCAGTTTTTAAGACTGCAACAGCATGGCTCAATATTTGAAATCACTACGGTTAAAAGCAGTCATATTGTGCAGTTCCCCAGTGAAC
W
CTTTTTGTAGTTTAGATTATAAAGTCTGAAATACAGTTTGGGTGGATAAAGTTTCTTAGGATGGTATAGATGTGACTAATCATGGAGTCCTTCCTGTTGC
Celera SNP ID:            hCV7602250
SNP Position Genomic:     6735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43821):
CTTAGTTGCTCAGTCTGGACTCTGGTCCCTAAAGTGGGAAGTCTCAGGCAAATCTGAGTATCAGACCATGCCGGCAATTCAGCTCTCTTCACCTGCTTCT
Y
TCTCTGCAAGATGGGATAATCATGATACTTATATTTCAGGGTGTTGTCATGTAGTTTAAATAATGCATATAAAACAATCTAGTACCTGACATATAGTAGT
Celera SNP ID:            hCV7602180
SNP Position Genomic:     172521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43822):
AGGGACTTGAGTGTTCTGATCTAAATCTGTGGTCACTGCAGCTATGTCTGCATTAGGGGGCACCCCAAGTCCAGTAATACTGTAGCTCTTGTAGACTCTT
W
GAGTTACCACCTTGGTGGTCTTGCATAATATTCTGGAAAATTCCCTGGATTTCTAGGCAGAGACTCTTGTTGTCCTCCTTTACTTTCCCCCAAACAAACG
Celera SNP ID:            hCV7602181
SNP Position Genomic:     156018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43823):
TGTTAGTTCTATTTTTAGTTTTCTGAGGACCTTTAACTCTTATCCATAACAGTTGTACTAACTTACGTTCCTACCAGTAGTGTACAAGAGTTACCTTTTC
K
CCACATCCTCACCAGCATTTGTTATCGCATGTCTTTTGAATATGTCATTTTGACTGGGGTGAGATGATATCTCATTGTAATTTCGATTTGCATTTCTCTG
Celera SNP ID:            hCV7602182
SNP Position Genomic:     154706
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43824):
GGTTGCAGTGAGCTGAGATCATGCCACTACACTCCAGCCTCGGCGAAAGAGCGAGACTACTACGTCGCAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAA
W
AAATAAATAAATAAATAAAGTCGAAGCCAGAGCAGGAATAACAAGGCAAAGTCAGTGGGCACCCACTCGGGTTTAGGGTGACTCTTAACTCTAAACACCC
Celera SNP ID:            hCV7602184
SNP Position Genomic:     135737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43825):
GGCGGAGGTTGCAGTGAGCTGAGATCATGCCACTACACTCCAGCCTCGGCGAAAGAGCGAGACTACTACGTCGCAAAAAAAAAAAAAAAAAAAAAAAAAA
R
GGAAAAAAATAAATAAATAAATAAAGTCGAAGCCAGAGCAGGAATAACAAGGCAAAGTCAGTGGGCACCCACTCGGGTTTAGGGTGACTCTTAACTCTAA
Celera SNP ID:            hCV7602185
SNP Position Genomic:     135731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43826):
TGACATAATGTGTGAATGATTGTTACTTTATTACATATATAATATATATAATACATATATACAAAAAATATAATACAAATATATATATATATATATATAT
W
TTTTTTTTCTTTTTTTTAAGACAGAGTCTCTTTTCGTCAGCCAGGCTGGAGTGTAGTGGCGCAATCCCGGTCTACTGCAACCTCCGCCTCCCGGGTTCAA
Celera SNP ID:            hCV7602186
SNP Position Genomic:     128425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43827):
TTTGACATAATGTGTGAATGATTGTTACTTTATTACATATATAATATATATAATACATATATACAAAAAATATAATACAAATATATATATATATATATAT
W
TTTTTTTTTTCTTTTTTTTAAGACAGAGTCTCTTTTCGTCAGCCAGGCTGGAGTGTAGTGGCGCAATCCCGGTCTACTGCAACCTCCGCCTCCCGGGTTC
Celera SNP ID:            hCV7602187
SNP Position Genomic:     128423
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,4)      total(A,4|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43828):
CCTTTCTTACCCAATTACATCTATTCTAAAGCTGTCCCACTTCTTTTCCTTTGAGCACATGACTACTGCTATCTATCTCCTATTCTTAACCAGCATTAAT
W
ACACTGTGTATTAGATACTGTTTTAAAGGCTTTATGTTTGTTGACCGACTTAATCCTCATAAACACCCTTGTGAGGTTGCTGCTGTTATTTTATTACGGG
Celera SNP ID:            hCV1398803
SNP Position Genomic:     60820
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,5)      total(A,5|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43829):
AACAAGACCACTCTGTTACTTTACTGTTTTAGAAAGCACTTAAGTATAATGCTTAATCTACTGTATTAAAACTGTATACAACAGCCAGGCATGGTGGCTC
W
TGCCTGTAATCTCAGCATTTTGGGAGGCTAAGGCAGGAGGATCATTTGAACCCAGGAGTTCAACAACAGCCCAGGCAACATAGTGAGACCTTGACTCTAC
Celera SNP ID:            hCV776350
SNP Position Genomic:     203563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43830):
TGCCCTTGCAGCTTATATGTCGGAGGGGTTATCATTAACAATTTGGCATATATCCTTGTGTAAAACTCCACACATACACACATAAACATACACATATAGT
W
CTCTGTATTTGTTTAACATAACTGGGATTTATTCGTTCAGCTAATTTTTTGAATGCCTATTATATGCCAGGCATTGGGCATACAATAAGGAATAAAACAG
Celera SNP ID:            hCV28036540
SNP Position Genomic:     78335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43831):
CGGTGGCTCAAACTTGTAATCCCAACACTTTGAGAGGCTGAGGCAGGCGGATCACTTGAGGCGAGGAGTTTGAGACCAGCATGGCCAACATACCGAAACC
M
CATCTCTACTAAAAATACAAAATATTAGCCAGGTGTGGTGGCGTGCACCTATAGTCCCAGCTGCTTGGGAGGCTGAGGCGTGAGAATCACTTGAACCCTG
Celera SNP ID:            hCV3088205
SNP Position Genomic:     190695
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,6)   total(A,5|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43832):
GATGTTTTAACTTTAAATTAAACTAAATTGGCTGGGTGCGGTGGCTCAAACTTGTAATCCCAACACTTTGAGAGGCTGAGGCAGGCGGATCACTTGAGGC
R
AGGAGTTTGAGACCAGCATGGCCAACATACCGAAACCCCATCTCTACTAAAAATACAAAATATTAGCCAGGTGTGGTGGCGTGCACCTATAGTCCCAGCT
Celera SNP ID:            hCV3088206
SNP Position Genomic:     190657
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,8)   total(G,8|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43833):
CCCACTCCATTTGCCTGAGAGACATCTAGAATATTATCTCAAAATAGTAAGATCTCATAAAAACAAACTGTTTTTCAAATTTCCATGAAAGTGTTTTTTA
Y
TTTAGAAACTGACCCAAAAAAGTACTAATTTCTTTTTTCCACAATGCTTTATTAAGCTTTGTTGACCTATATAAGGGTTATAGGCGAGGAGGGGAGTAGG
Celera SNP ID:            hCV3088208
SNP Position Genomic:     184554
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,14)      total(C,1|T,14) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43834):
AATAGGAATAATCATTGCCTCTACTTAACAATTTTAATATTTAAGCTCTAGTTATCATTCAATATGAAAAGTCCTCTTTTCCTAATTGCAGTATTTCTCC
S
TTATACTAGCATTTTCCTTGCAAAAGGCCCAGAGATTGTGATTTGAAGGGACAGAAGCCCACTCCATTTGCCTGAGAGACATCTAGAATATTATCTCAAA
Celera SNP ID:            hCV3088209
SNP Position Genomic:     184396
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|G,8)   total(G,8|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43835):
CAAGGTCCTCCTTACTGTCCGTCCCTGCTCAGTCACCAAAGAATGACTTTTTTGAAAGTACAATTCCAGAGTTAAATACTGGCTAAGTGTAGAAAACAAT
R
CTGGAATTCAGTCTTCACCTCCACCAGTCCTCATGGTGAGATGAAGTGTTTATGGGTTTCTTTGTTGTAACCTCAAAAGTGGAATGCATTTCCTGGTTGG
Celera SNP ID:            hCV3103210
SNP Position Genomic:     55068
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43836):
ATTTACAAAGTTAATACATGTTTGTTGTAAAAGTGAAAAAAGTCTATTTTAAAGGAAAAAATAATTCTTGCTAACCTCCTCACCCATTTCACTTAAATTA
R
TTTTATTATAATGTGACTTAAATATTTATAAACTGAAAACTTAGTGCTCTAGGTTTTATACCTATTTTAACAGGAATAAAGTCCAAGCAAAATTTGAGAT
Celera SNP ID:            hCV27489212
SNP Position Genomic:     40774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43837):
CTCTGAGCAATAAACTTCTGTTTACAAACTGCCCATTCTGAGGTATTCTGTTATAACCCAAATAAACAAAGATGCCAGCTAAGCACCGTTCTAGAGTCGA
Y
GTCTGATTAGGGCACTAACATGTTAACTAGTCACCCCTAGGATGGACTTAGTTAAACCTAATTGTCAGAACAGCGGAAGTAAGGACTCATATCTAAACAC
Celera SNP ID:            hCV7602190
SNP Position Genomic:     89845
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43838):
TTACAGTTTAAGAATGTTAGTATATTTTTAAAAGCACAACCAGTGGGGAAAATTCTATCCCTTTTCTTGGCAAATTAACAATCTAAGCATACAAAAATTT
R
TAGGAAAATTTTGCCAGCTCTCCATCAGAGTGCTGTCATGATGATTAGTTCATATTTCCTTCTTACGAAGCTTGCCCTTTCTTGTTTATCACCCACAGAA
Celera SNP ID:            hCV27489213
SNP Position Genomic:     47798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43839):
GAGGAGGACGGCCATTTTTGTGGTGGGTACACCACCAAATGACCTTTTAAAAATATTGCTGCATTAACTTTGGTAGAGGAGCTGGGTCGTTATCTCCATC
R
TCCATTCTCATATCTTCCAACATGGTCTTGATAGTCACAGATTGTTTGGCAATTTCCACATCAAATATCTCCGCATCAAAACTCAGCATCTTAATTGACG
Celera SNP ID:            hCV27489214
SNP Position Genomic:     98195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43840):
GGAGGTGGAGCCTGCAGTCAGCCCAGATCCCACCACTGCACTCCAGCCTGGGCGACAGCGAGACTCCGTCCCAAAAAAAAAAAAAAAAATGTGTGTGTGT
K
TGTGTGTGTGTGTGTGTGTATATATATATATATATATAAAGAATTCTGTCAAATAAATTGTATTCATGATAGCTATTTGATATATTATAGTTTTGACTAC
Celera SNP ID:            hCV7602192
SNP Position Genomic:     80164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43841):
AGTTGGTTATGGGGCCGGGGAGCCTATTGCATCATTATTGGGTACACCATGTTATTGTTTTGCTGGCAATAGCAGAAGCTGTGCTGATAGTCGCAAGTTT
Y
ATGGTAGACCTTTTTGAAGTTGCAATGTGGGTGCCAAACCATTTGTTGTTTTTATCCTTGGCTCAGAGCCTGAAAATTGATGCATATTAACCTTCTTTAA
Celera SNP ID:            hCV27489215
SNP Position Genomic:     114960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43842):
GAGGACTTTTGAGCAAAATAGTCTAATGATCTGATATACATTTTAAAAAGAATTCCTCTGGCTGCTCTGTTAAGAATACCCTGTAGGGTGCAAGGATGAA
R
CAGTGAGACCAGATGGAAAGCTGTTGCAGTGTTTGTGGTGAGACATGAAATTGATCAGACAACTTTTTTCCCTCACTTAGCAACATGTTATAGATGGCCT
Celera SNP ID:            hCV7602193
SNP Position Genomic:     78980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43843):
GACTGTAGAGTTCTTAGAAGAGTATGGCCTTTCTTGCTTTTTCTCAAAGGCAAATATAATGTCAGGTAATTTTGCTGTTATGCTATTGAAAAAATACCTC
Y
TGAGTCACAGGAAGCATAAATTATTTTTTAAAGATTTACCATGTGTTAGGATGATTGTGTCATATATTAAATATATAATGGATGACATTTAGACTATTAT
Celera SNP ID:            hCV3103216
SNP Position Genomic:     57266
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;JBIC-allele(T,400|C,1081)   total(C,1081|T,400)
SNP Type:                 INTRON


Context             (SEQ ID NO:43844):
TTTCTTGGGGGTGTGTACTTCTGTTTAAAGTTTGATAGTAATGTCTGAATGAGAACCAGAAAAGGAAGAAGTATGCCTTTTAAATATGGTTGTGCTTTTC
W
GTCCTATTCTGGGTCTTGAGGCATGCTACTCCTATATCTTATGTTTAATAAAATATGAAGATTCAAACTGAGGGAGTTTGAGAAATTCTGTTTTATTAAA
Celera SNP ID:            hCV27489216
SNP Position Genomic:     121100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43845):
TTTAGATATAGATGCCAAGCCCTAGAAATTAAGAGACTGTGGTCGTGATACAGAGATAGACAAAAAGACCAGTGGAACAGCATGGAGAATCCAAAAACAT
R
TATAGAAATGCAATATGCAGTGAAAGTAACATTATAAATCATCAGGGACGTATGGAATGCTAATTGCTGCTTTGATCATTAATTATATGGAAAATGAAAT
Celera SNP ID:            hCV7602194
SNP Position Genomic:     74072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43846):
TGTTATGCTATTGAAAAAATACCTCCTGAGTCACAGGAAGCATAAATTATTTTTTAAAGATTTACCATGTGTTAGGATGATTGTGTCATATATTAAATAT
R
TAATGGATGACATTTAGACTATTATCATCTCGAAGCATGTAAATATAGAATATACTTTTTGAAGTTAGTTTTCTTCAAAACGAGAGATATTTCTCACCAT
Celera SNP ID:            hCV3103217
SNP Position Genomic:     57341
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43847):
CTTGGATTAAAGTAAAAAGTAAAAGTTTCAGAAGTAATTTAATTTTCGGAGAAGCCAGTAAAATTGGAATCATTTGTGTTTTATTTGAAAAAATTAAAAT
R
TGGTACAAATATAAGAATATAATACAGATATAGAAGAAGGCTGCTGAAACCACCATCTAGTCCAGGATATAGAGTTTTGGCAGTCACTCTAGAAGCTCTC
Celera SNP ID:            hCV7602195
SNP Position Genomic:     68757
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43848):
GTATAAATTACATACGGCAAATATAAAAAGTTTTATTTTTAATCAATTTTAATCAGGTGTAATTTATATGCAATAAAATTTATACATTTTAAGTGTATGA
R
TCAATCAATTTTGACAGATACACACATCAATATAACTACCACCCAAATTAAGATCTAGAACATTTCATCTTCCCAAAACGTTCTCTTTGCCTTTTTGCAG
Celera SNP ID:            hCV3103218
SNP Position Genomic:     57655
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43849):
AAAGGTCGATTCTTAAAAGAAAACTTGTTGAAGTGCTCTAAATGGAAGTCTTTTTTTTTATTTCTCTCCTGTGTCTTTTATGATAGTATCTGACAACTAT
M
TTTTTTTTGTTTTTGCAGAGATTGGGTTTTGCTCTGTTGCCAGGCTTGTCTCAAACTCCTGGCCTCAAGCGATCCTCCTGCCACAGCCTCCTGAGTAGCT
Celera SNP ID:            hCV7602196
SNP Position Genomic:     67159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43850):
TAACATTAAGAATGTAAACACAGCCATATGCTACCTAATGACAGTCAGTGAGGGACCACCTATACAACATTAATCTCATAAGATTATAATAGGTATTTTT
R
CTGTACCATTTCTATGTTTAAATATGTTTAGATACACAGATACTTACCATTGTGTTACAGTTGTCTCTAGTATTCAGTACAGTAACATGCTATACAGGTT
Celera SNP ID:            hCV26764020
SNP Position Genomic:     13395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43851):
ATTTCTATGTTTAAATATGTTTAGATACACAGATACTTACCATTGTGTTACAGTTGTCTCTAGTATTCAGTACAGTAACATGCTATACAGGTTTATAACC
Y
GGGAGCAATAAACTATACCATATAGCCTAGGTGTGTAGGAGGCTATACCATCATCTAGGTTTGTGTAAGTACACTCTCTGATGTGCACACAATGATGAAA
Celera SNP ID:            hCV26764021
SNP Position Genomic:     13503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43852):
GTCCCTGATTATTTCATCTCTGTTTTTAACACTTTGGTTTTAAATACTGTCAAAGTCAAATAAAATATAGAGACAAATCTCTAAAACATTTTATTTGGGG
Y
GGGGCACGGTGGCTCACGCCTTTAATCACAGCACTTTGGGAGGCGGAGGCAGGCGGATCACCTGAGTGCAGGAGTTCGAGACCAGCCTGGCCAACATGAT
Celera SNP ID:            hCV26764022
SNP Position Genomic:     13834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43853):
TGAAGTAGGAGAATTACTTGAATCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTC
A
AAAAAAAAAAAAAAATTTTTTATTTGGGAAGCAAGAATTGCAATTTGGGACATACACACAGACCAGGTCGTCTTTGGTATGTTTGAAGCACAAAGAGAAA
Celera SNP ID:            hCV26764023
SNP Position Genomic:     14114
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43854):
GAAGTAGGAGAATTACTTGAATCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCA
A
AAAAAAAAAAAAAATTTTTTATTTGGGAAGCAAGAATTGCAATTTGGGACATACACACAGACCAGGTCGTCTTTGGTATGTTTGAAGCACAAAGAGAAAA
Celera SNP ID:            hCV26764024
SNP Position Genomic:     14115
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43855):
CTTGAATCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAA
T
TTTTTATTTGGGAAGCAAGAATTGCAATTTGGGACATACACACAGACCAGGTCGTCTTTGGTATGTTTGAAGCACAAAGAGAAAATTGGAGGTTTTATTA
Celera SNP ID:            hCV26764025
SNP Position Genomic:     14130
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43856):
TTGAATCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAT
T
TTTTATTTGGGAAGCAAGAATTGCAATTTGGGACATACACACAGACCAGGTCGTCTTTGGTATGTTTGAAGCACAAAGAGAAAATTGGAGGTTTTATTAA
Celera SNP ID:            hCV26764026
SNP Position Genomic:     14131
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43857):
AATTCTATGCTGGTTATGAATTGACATAATGAGACCAAAATTACTATTGTTCTGTTTTCTTCTTATTTGCTGCCTAAGAGCCAAAGAAATGTCTGAGGAC
Y
AGGAATGTTTCAAAGTCTCTGGAAAAATTGAAAGAATTCTGCTGCGATTCTGCCCTTCCTCAAAGTAGAGTCCAGACAGAATCTCTGCAGGAGAGATTTG
Celera SNP ID:            hCV26764027
SNP Position Genomic:     16456
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:43858):
TATTTGTTTTGAGACTTTTAATGGTTTTCATAACTGCAGAATCAGGGAATTTAACTCATGCTCCATCATTGAAATCTGTAATTCAGAATAGTGATTGGTT
Y
GCAACCTTAGCTTTACATTGGAATCACCTGGAGAACTTCAAACAAAAATTGCCATTAAGAACCTTCCCTCAGAATCTTATCTAATTGGTTTTCACTGACA
Celera SNP ID:            hCV26764028
SNP Position Genomic:     17214
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43859):
ACATTGGAATCACCTGGAGAACTTCAAACAAAAATTGCCATTAAGAACCTTCCCTCAGAATCTTATCTAATTGGTTTTCACTGACAAATGGGCATGGATA
T
TTTTTAAAAGTTTACATTTTATTTTGTATTTTATTTTTATTGATGGAGTCTTGCTCTGTTGTCCAGGCTAGAGTACAGTTGTGCGATTATAGTTCACTGT
Celera SNP ID:            hCV26764029
SNP Position Genomic:     17329
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43860):
GCTCTCCCAGGCTTCAGTTCTCACAAGTAACAGTCAAGTGCCTGCAGCTTTCCCAGGCTGGAGCTGAATGCTGGCAGTTCTACAGTTCTGAGATCTCAGC
R
AGGTTCTGTTCTCTCTGCTCCACTAGACATTACCCCACTTGGGGTTGTCTGTCCTGGCTCTGGCTCTGACCCCACATTTTTGCTTGGCATTAATCCACGA
Celera SNP ID:            hCV3088211
SNP Position Genomic:     180487
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43861):
AGATAATAGACATTCAAGTACTTAGTAACTTATTTGTTTGCCCAACTTAGTGTAATTCAGAAAATATTGAGCACTGACTGTGGAGTATTTGTACTCTATA
Y
AAAATATATTCTTTATGGACAGAAAGAAAACATCTTGAATCAGTCCACACCTTCTAATTAGTTGTAAATACCAGTACTAAAATCCACATGATAAGTGAGC
Celera SNP ID:            hCV3088212
SNP Position Genomic:     178997
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43862):
ACGCTTGTTACAATATGTGAAAAAGAGCCAGTTACAAAGCCTGGCATTCATTTCACTTTTGTATGAGTAATTGTATGTATAAATATATGCGGAGAAAACC
R
TCTAGATAGAAGGCTTATTCCAAAATACCATGGGGGATATGGCTTTATGGTCATTTTTCTTTTACTTATGTAAATTTTTAAATTTCTAAAATAAATGTGT
Celera SNP ID:            hCV3088213
SNP Position Genomic:     174661
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43863):
TGTGGAAAGATACGCTTGTTACAATATGTGAAAAAGAGCCAGTTACAAAGCCTGGCATTCATTTCACTTTTGTATGAGTAATTGTATGTATAAATATATG
Y
GGAGAAAACCATCTAGATAGAAGGCTTATTCCAAAATACCATGGGGGATATGGCTTTATGGTCATTTTTCTTTTACTTATGTAAATTTTTAAATTTCTAA
Celera SNP ID:            hCV3088214
SNP Position Genomic:     174650
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43864):
GTGTATGGGAAAGAATAGGGGCTTTAGATCTAGAAAACTCAAGATTCTGTACAAGTTCTCCAGCATCCTGGCCATGTGCAAGTTACTTCATCCTTCTAGA
R
CCCTGAGAGAAGTACTGTGCCATAGTCAAGAGAATCAGACATGTTATACTTGAGCACAAATCTTGCTTTTCCCTTTTAACAACTATGTGACCTTTTTCAA
Celera SNP ID:            hCV3088215
SNP Position Genomic:     173702
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43865):
TGAAGTTGAAGGTATCAGTCCTTCCTTTTATGGGTGAATGCTTTTGTGCCTTAAATAGGAAATTATTTCAATCCCTGAGGTCTTAAACATATTCTCCTAT
R
ATTTTTTATAAACATTTTAAAGTTTAATTTTCAAATTTCAGTCATTAATCAATCTACTCAGAATTTATTTATTTACTTATCTTTTGAGACGGAGTTTCAC
Celera SNP ID:            hCV3088217
SNP Position Genomic:     157515
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43866):
GGTTTTGCACAGATTCTAACACTGTTGGTGGGAATCGTATTATTTGTTTTGATGAACTTTAATTCAGTGAGAAATAGATAAGTTATATTCATTATGTTCT
R
TCTACTCAGTAAATAAGTATACAGTATACTGTGAATATATTTTTCGGTTCACAAAAAACAGAAATAAAGCTGGATAGTTAAAATGTTGTTTCTAGTATCT
Celera SNP ID:            hCV3088218
SNP Position Genomic:     136353
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43867):
CTAGGGGCCTGTCCGTTTTGTGTTTGTGGTTTTGCACAGATTCTAACACTGTTGGTGGGAATCGTATTATTTGTTTTGATGAACTTTAATTCAGTGAGAA
R
TAGATAAGTTATATTCATTATGTTCTATCTACTCAGTAAATAAGTATACAGTATACTGTGAATATATTTTTCGGTTCACAAAAAACAGAAATAAAGCTGG
Celera SNP ID:            hCV3088219
SNP Position Genomic:     136326
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43868):
TTGCCCAAGCTGGTCTCAAACTCCTGGACTTGATCAAAGGTTTTGTTTTGAATTTGACTTTGAAAAATGACCTAGATTTTTATGTTCTTATATTAGATAT
K
TTAGACTTTGACTTTCTAGGATGTCATTTAAAAATGTTTTTAGGTCTCCCTTTTTCTTTTTTCGAGACACAGTCTCTGTCACCCAGGCTGGAGTGTGGTG
Celera SNP ID:            hCV3103224
SNP Position Genomic:     59461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:43869):
TTGACCTGCTTGTTAACTGAGAATATGTGCACAGGTCTGGGGTATAGTATGTGTAGATTCGTGGTAAAAAGACTTGGGATTGTGAGGGGCTGAAAGATTA
Y
GAAAGGATAGGGGTTTTAAAATATTATTACTAAGGAGTTCTGTCCTTAGAAAAGATTTCTAGGATCAAGAACCAAGAGCTGGACGATGATGACAACAGGC
Celera SNP ID:            hCV3103225
SNP Position Genomic:     61467
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43870):
GCAAAGGTATAATCAAAAGTGTAGAAAAAACTAGAAAAAAAGTTTTAGAACAACACGAGTTTACCTAGTATAGACTTTCTGCCTTATGGTAATACCTCCT
R
TCTCTCTTAGCCTTTTGAACAGCCCAGCTCTCATTGTGCTAGCCTTGAGTCTGAGGCCCCATGGAGTTCCCATAGTGGGGAAATTCTCAATCCTCCCTTG
Celera SNP ID:            hCV3103226
SNP Position Genomic:     61891
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;JBIC-allele(A,543|G,944)   total(G,944|A,543)
SNP Type:                 INTRON


Context             (SEQ ID NO:43871):
AGCAGGCTGAGGTGGGAGGATCATCTGAGCACAGGAAGGTTGAGGCTGCAGTGAGCTGTGTTCATGCCACTGTACTGCAGCCTGGGCGACAGAGTTAGAA
Y
CTTTCTCAAATAAACAATAATAAAATAAAAGCTTGGTCCTATACAGCATCGAATTTTAATTTCACCCATACAGTAAATTTTTCAGTGATCATATTTTTAA
Celera SNP ID:            hCV26764100
SNP Position Genomic:     199724
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43872):
TTGTCCTGGTGGTTGGTTTTAGAATTATAATTTCAAATAATGCCCTTAGTCTTCTAAGAAAGTGGTGGTTGTTCCCTACTGTGAGCACTGATAAAATTAA
Y
GAGTTTCATAGTAATTCTAATATGGAGATATTAAAGCCAGGTTACCTTGTCTGTCCTACTCAGTCAAGAACCCTGTTTCATTCTGTCTTCAGAGGAGAGA
Celera SNP ID:            hCV3103227
SNP Position Genomic:     63612
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43873):
CAGCTCCACATGGCTGGGGAGGCCTCACAATCATGGCAGAAGGCAAGGAGGAGCAAGTCACATCTTATGGGGATGGCAGCAGGCAAAGACAGAGATTGTG
S
TGGGAAACTCCCGTTTTTAAAACCATCAGATTTCATGAGACTCATTCACTATCATGAGAACAGCACAGGAAAGACCTGCCCCCATAATTCAGTCATCTCC
Celera SNP ID:            hCV26764101
SNP Position Genomic:     202070
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43874):
CTGGGAAACTCCCGTTTTTAAAACCATCAGATTTCATGAGACTCATTCACTATCATGAGAACAGCACAGGAAAGACCTGCCCCCATAATTCAGTCATCTC
Y
CACCAGGTCCCTCCCACAACATGTGGGAATTACGGGAGCTACAAGAAAAGATGTGGCTGGGGACACAGAGCCAAATCATATCACCAGTGAATTGTATTTT
Celera SNP ID:            hCV26764102
SNP Position Genomic:     202170
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43875):
CTCCCTCAGCCAGGCTAATATTGATTGACTTATCTTAGATCATCAAGAAAAAAAAGGTGTTTTTGTTTTTAGTCTCTTTTAATACTTAGAAGCAGTTCAC
S
TAAGTATAGTGGTTATTAAGCATAGAAGTCATAAAGTTTATCCATTAAAGCTCACTTTATTGATAGGAGCATTTACTCCAAGGTCTCAGAAGAGCGTATA
Celera SNP ID:            hCV26764030
SNP Position Genomic:     17815
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43876):
GTTTGTGCAGCAAATAGGTTGTACCTAGCTATGGCCCTTTTTGGCACAACCGTTGTTGTTGTTCCTCCTCCTCCTCTTCTTTCTCTTCCTCCTCCTCCTC
T
TTTTTTTTTTTTTTTTTTTCTTTTTTGAAATGGGTTCACTCTGTCACTCAGGCTGCAGTGCAGTGGCATGATCATGGCTCACTGCAGCCTCGACCTACCT
Celera SNP ID:            hCV26764103
SNP Position Genomic:     207375
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43877):
GACGTGGATGAATGGCAAAAAGCTACTGAGTGAACATAAATGCCCCATGGTCCAGGACCATTAGGGTGGGGTCAGCAATGCCATAACTCTCAATAGGTTT
Y
GAAATATATTCTGATCACTCTGAATTGTCCAGACAAGGTTAAATTGAGTTCAGCATACTGTCTCTGGGAATATGAAATAGAATGTAATGTATCTGATGAG
Celera SNP ID:            hCV26764031
SNP Position Genomic:     18148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43878):
CTTCCACTTCGGCCTCCCGAGTAGCTGGGACTACAGGCACACACCAACCATACCCAGCTAATTTTTGTATTCTTTTAGGAATGGAGTTTCACCGTGTTGC
Y
CAGGCTAGTCTTGAACTTTCAGGCTCCAGTGATCCACCTGCCTTGGCTTCCCAAAGTTCTGGGATTATAGGCATGAGTTACCATGCCCAGCCTCCCTTCT
Celera SNP ID:            hCV26764104
SNP Position Genomic:     207590
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43879):
TGTATCTGATGAGTATTTCTATCCAAATCATTTTTTTTAAAGTTGCTTATTTTGTTACCCAGGTATTAATATGTACAACAAACCCTCATGACACAAGTTT
W
CCTATATAACAAACCTGCACATGTACCCCTGAACTTAAAATGAAAGTTAAAAAATAGTTGCTTAATATTCAAGTATTTAGATTGATTTAATTGTTAGCAT
Celera SNP ID:            hCV26764032
SNP Position Genomic:     18336
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43880):
ATTCCAGTCTGTGTGTATGTTTGCCAATTCTTTTGAATTTCCTACATAGGCAGTCATGTCAGATACAAACAGACAGTTTCACTTCTTTCTTCCCCATCTA
T
TTTTTTTTCTTGTCTTATTGCAGTAACTAGGACTTTCAGTACAGTGTTGAAAAAGCAGTAAGAAAGGATATCGTTGCCTTGTTTCTGATCTTAGTGGGAA
Celera SNP ID:            hCV26764105
SNP Position Genomic:     208388
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43881):
TTGTGTGTGGAATGTGGATATAAGTATAGATTCTTTGGGGAAGATGCAGAGGTAAGTCGTCTTTTCAGGCACTATTTTATATTTTTCTTGTCTAGCCTTA
R
ATATTTTTCAGTATTTTTGTTTCATTTTCTGACCTTATATAAAAGCTGATTTGATCAATCACCTTTTAAAAAATACTGTTATGTAAAGTAAAAACTAAAA
Celera SNP ID:            hCV25619900
SNP Position Genomic:     21650
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:43882):
TACCCAGGTATTAATATGTACAACAAACCCTCATGACACAAGTTTACCTATATAACAAACCTGCACATGTACCCCTGAACTTAAAATGAAAGTTAAAAAA
W
AGTTGCTTAATATTCAAGTATTTAGATTGATTTAATTGTTAGCATCCCATAAGGATAAAACTTTTTTTTCCTGGAAGCTTATCTCATTTCCTAAAAGAAT
Celera SNP ID:            hCV26764033
SNP Position Genomic:     18391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43883):
CAATAGATATAGACCTATTCAGAATTTCTGTTTTTTTTCTTGTGTGAGTTTTGGCTCATTGTGTCTTTTAAGGAATTGTTTTTCAAGAAATTTTCACCAA
R
GTTACCAAATTTGTGGACATAGAGTTGGTCATAGTATTCCTTTATTATCCTTTTATTTGTCCACAGCATCCGTAGTGTTGTCCTTTTCATTTCTGATATT
Celera SNP ID:            hCV26764106
SNP Position Genomic:     209154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43884):
AAATTTAAAAACAAGTATGTAAAACATTAAGATATTTAGACTTTCAAAATTTGCATAAAAATTCTATGATAGCTTACTTGGTTCATAATTTTTTTTAACC
Y
TCTACTTTGAAAATATTTGTAACCTATGGATAGTTTGCCGGAATGCTACAATGTGCTTCTATAAACTTTTCATCTAGATTCACTAAGTGTTAGCTTTTTG
Celera SNP ID:            hCV25619901
SNP Position Genomic:     21207
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,8|T,32)   total(C,12|T,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:43885):
GACCAGAACTGTGTCTCATGGCCATAGTTGCAAGGAAAACAGAAAATAAGAAGGTAGTTTTTGTCCAGCTTTTAAATAGAGTTAAGCACAGTAATTGGGA
R
TACAATCAGTGGTAATCAGAAAATAGTTTCTGTCACAGGGTGTGGAATCAGTAATAATAGTAACAGCCAACCTTTATGATATATTTACAATATTAGTGTA
Celera SNP ID:            hCV27514937
SNP Position Genomic:     167345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43886):
ACGGTCATTTATAAATGCAGTGTGTTATTTGATGCCAAATAATTTCAAAAGCAAAATTGTCAGTTTCAAAAGCCAAATAATTATATGTAAAATTAGACCA
G
GGTGCATTTAAAAAAAATTACTATGGGGGTGGAATCAGTTCTCTGATAATGGAAGAATGGAGAGATAAGAAGGCCTTAAATGATACTGTGTGAAAGTATT
Celera SNP ID:            hCV26764034
SNP Position Genomic:     25141
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,8)   total(G,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43887):
TGTTAATAATAATAGATTTAATGAAATCAAATTTAAAAACAAGTATGTAAAACATTAAGATATTTAGACTTTCAAAATTTGCATAAAAATTCTATGATAG
Y
TTACTTGGTTCATAATTTTTTTTAACCTTCTACTTTGAAAATATTTGTAACCTATGGATAGTTTGCCGGAATGCTACAATGTGCTTCTATAAACTTTTCA
Celera SNP ID:            hCV25619902
SNP Position Genomic:     21179
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,38|T,2)   total(C,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:43888):
AATAGAGTTAAGCACAGTAATTGGGAATACAATCAGTGGTAATCAGAAAATAGTTTCTGTCACAGGGTGTGGAATCAGTAATAATAGTAACAGCCAACCT
Y
TATGATATATTTACAATATTAGTGTAATATTCTTATCAAGGTACAGGCACTGTTATGTGCACCTTATATAGAGTACTTTATGTAAGTACATTCAATGAGT
Celera SNP ID:            hCV27514938
SNP Position Genomic:     167419
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,384|T,1111)   total(C,384|T,1111) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43889):
TACTAAATTAATATTAGGATTATTTACAATCAGTTTTCTAGATAAATGTAATTTGTGAATTATAGTTTTATTTATTTATTTCTTTGAGACGGAGTTTCAC
Y
CTTGTCACCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCTGCCTCCTAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCT
Celera SNP ID:            hCV26764035
SNP Position Genomic:     27352
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43890):
GGAAGTTGAGGTGGGAGGATCCCTTGAGCCCAGGAGTTTGAGGTTATAGTAAACTATGATTGTGCCATTGCAATCTAGCCTGGATGATAGATTGAGACCC
Y
GTCTCTAAAAAAAAAAAATTTGTTAATTCATACTGACACTAACAAAAATAAACTTTAAAATGGTGGAGGTGAGTGGGGAAAAGTGAAACCTCTGCTTTAC
Celera SNP ID:            hCV26764108
SNP Position Genomic:     214249
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43891):
GCACTATTATAATAATAAATGTTTTCCCAATTTTGATCTTATAGTTCAAATTTAACTTTTATACTCAAGGTTTTATTCTGGACATATGTTCTTAAAATCT
R
TGTTTAAAGTTTTGTTTTCTGTCGTACAAACAGAGTACTGAAATTTTTCATGCTATCTTAGAGTTTTTTTTTTAAGGCTATTTCCATGCCTAGTAAATTG
Celera SNP ID:            hCV25619903
SNP Position Genomic:     144102
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,24)   total(A,53|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:43892):
GAGCCGATTCTTCCAGTCTACGGGAAGCCTGAAATCCACCTCCTCCTCCACAGGTGCAGCCGACCAGGTGGACCCTGGCGCTGCAGCGGCCGCAGCGCCC
S
CAGCGCCCGCCTTCCCGCCCCAGCTGCCGCCGCACGTAGTAGGTTCTGTCTGGGACTGGGCAGGGCCATCGGGGCTGGGGGGGCGGGGCTTGTGGGTAAG
Celera SNP ID:            hCV26764037
SNP Position Genomic:     6200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION


Context             (SEQ ID NO:43893):
AATATTTCTATATATGGATATTCATCATAACAGTATTTGTAATACTGAAAAAATGAATATAGAAATGGAATGGATAAATTATGATAAATTATGATAAATG
R
ATAAATTATGATTTCCTGTCTTTGATTTAGTTCATTTTTCTTTATATTTTATTAACTTAGTATATATTTTATTAACTTAGTATATATTTTATTAATTTAG
Celera SNP ID:            hCV26764038
SNP Position Genomic:     32863
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43894):
GAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGCTAAAGTTTTTTGTAGGTACATAATAGATGTATATATTTATGGGTTACATGAGATA
Y
TTTCATACAGGCATACAATGCATAATAATTACATCAGGGTAAATGGGGTATCCATCTCCTCAAGCATTTATCCTTTGTGTTACAAACAACCCAATTATAC
Celera SNP ID:            hCV26764039
SNP Position Genomic:     33928
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43895):
GCCATAAAAAAGAATGAGATCCTGTAATTTGCAACAACATGGATGGATTATGGAGGTCATTATGTTAAGGGAAATAAGCCAGGTGCAGAAAGACAAACTT
K
GCGTGTTGTCACTTACTTGTGGGAGCTAAAAATTAAAACAGTTGAACTCACGGAGATACAGAATAGAATGATGGTTACCAGAAACTGGTAGTGGTAGTGG
Celera SNP ID:            hCV3088220
SNP Position Genomic:     126217
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43896):
GTCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATCGCGCCCGGCCTGAATTTGGTTGCAATAATACAGAAATGCAAGCACACTGAGAA
R
AGATAATACATAACTAAGGCTAAAAATGAATGGTGTGATAGAACTTCACTTGCTTCCTGGCTGATTTCAGAGAACCTTATTTGCAGAGCACAGTTGGATC
Celera SNP ID:            hCV3088221
SNP Position Genomic:     125602
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43897):
TCCATGTCTTCCTCTTCGTTTATTTCTTCATTTTGGTGGAGTATATATCCTCTAGAACCTTCCTGAGAAAGCACGTTGGAAGTAAATCTTTTGAAACATT
S
ATGTCTGAAAGTGGTTTTTTTGTTGTTGTTATTATTGTTACTACCTTCACATTTGATTGGTAGTTTGGATTGGTATAAAATTCTAGGTTTTAGATGACTT
Celera SNP ID:            hCV3088222
SNP Position Genomic:     117361
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,5)      total(G,5|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43898):
ACGTAAACACTAGTATAACACTAAATCTAAGTGCAGAGAGTGGGCAGCCTGATTTTGTTCATAATCTCAGGGGAATCTTTTATAATGGGCCAGGAAGCAC
R
TGTCTGTGGTTTCTGCATAGGGCGTGTTCTGTGGTGCCCAGCCAGCTGTAGTATGTCCTGCGAGATTTGGCCTGCAGGCCACAATGGTGGGCTTCTGGGA
Celera SNP ID:            hCV29226400
SNP Position Genomic:     54668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43899):
CCTACAATTTCCAGTTGAGGTTCTAATCTTAGCTGTACATTGGGATTACATGTGGATTTTAAAAAATGCCGATGCCTGAGTTTTTGGCCTGTGCTAGAGC
Y
GCTTGTAGCTGCTTGTAAGAATTGACTGTTATAGTTCCAGGACTTTGTACCAGACGGTGAAAGCATTGGTAACTTGAAATCAACTATGTTGGGAATATTT
Celera SNP ID:            hCV29226401
SNP Position Genomic:     56086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43900):
AACCTAAGATTAATAGCAAGTCACAGATGAGTTTAAAGCAGAGGTGTGACATGAACAGATTTGGGCTTTAGGAAAACCACTCAGGCTGCAGTGTGGAGAA
Y
GAGTTGGAAAAAGGAATGGAAGTGGGGAGGAAAGTTAGGAGGCTGTTTCAATATAATTTGGACTTAGACTATAGTAGTGGCTGTAGAGGTGGAGAGTGGT
Celera SNP ID:            hCV3088225
SNP Position Genomic:     111176
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43901):
CAGGCAAATACAAGGGCTAGTTGATTATAAATCGTTTTGGGAAAAACTTCTGAGTAAGGCAGCAGTCTGTTTTTAGAGGTACAGGTGAAAATATAGTGTC
Y
TTAGCTGACTGCAGTATTAATTGATAACTGTAGCTCTTTTTGGAGAATGAACTGTACATAATATTTCTCTGGGTTTTTTGGGGGGAATGATGGAGCTGCC
Celera SNP ID:            hCV29226402
SNP Position Genomic:     92375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43902):
GTAAATTCCCATTGAAGAAGAAATACAATTATGATTACCATTATGAGAAGGGAAAAGACGGTAGTATGGGAAATGATAGTAAAGGGATTAAGTCTGGTCT
R
GTGAATCTAGAAAGGCCTTTCAGAGGAAGAGAGGGTAGGAGTTCGCCAGACGAAGTGTAGCTGATGGGTGGTAGGGAAGAGGAAAATAACCTTCTAGGCA
Celera SNP ID:            hCV3088226
SNP Position Genomic:     110793
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43903):
CATTTCAAAAGAATTTCTGAATAATTTATTCTTTGGTAACCAAAAACTATAAACGATCCCTTTTCTGTGTAAAATGTCAGTACTTCATTCTGTATGTATG
K
ATTCATCTGTCAAACATTAAATGAACACCTGTTATGAGCCACATTGTGCTAGGTATATATGACATTTAGAATCGGGGTATATGAAATAACAATTTGGCAC
Celera SNP ID:            hCV29226403
SNP Position Genomic:     95841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43904):
CTATGGTTCATGTTTCTGACAGGAGATTATTTAGGTAGTTCATTTAGCCATTTCACATGACCAATGTGTTAATGTCTGAATTTAATCTACTCGTTCTGTG
Y
TGTCTTAAAAGTCAAACTTTTCAGTAAAACGAAACCAAACAAAAAATACACCCCTAGCAGTTTGTATTTCAGCTCCCCACCCCCACCAGACAACTTTTTT
Celera SNP ID:            hCV3088227
SNP Position Genomic:     108455
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43905):
GGAAGGATTAATAAATACGAAAAGGTCAGAGTGATTATGCTGCATTTTTTCATTTGTAATGAAACCTTCTAAGTTGTCCAAGAAAGAGAGGAGCGTCCTA
W
AAATGAACATCAGGTCTACTTTTAAGCACCTCTTCAAATATTCTGAACCATTTAATTATGATGAAGTGAAAACAGCTCTTGCAAAGCTCAGGTGAATTCA
Celera SNP ID:            hCV29226404
SNP Position Genomic:     224857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43906):
TATGGTATTATATCTAGATTTGGAGGAGGGGATAGTTAAAGAGAAATGATAATTGGCTGATATAAAATACCATACTAAATTAATATTAGGATTATTTACA
R
TCAGTTTTCTAGATAAATGTAATTTGTGAATTATAGTTTTATTTATTTATTTCTTTGAGACGGAGTTTCACTCTTGTCACCCAGGCTGGAGTGCAATGGC
Celera SNP ID:            hCV3103300
SNP Position Genomic:     27280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43907):
AGAAATTACCTAGAATGCAGCACAGGGTGGCAATGTCAGGCCTTCAGTGTTTCTTCTCTGGATTTTTGAAACAGCTTTCTAACTGGTATTCCTGACACTG
Y
TCTTATGTGCATCCAGACTATTAGCCTTGGATCCCAGCTCCTGTGATCACATTTTCAAACCTTCACCCTCCATTTTCCACTAATCTTTTATAGACAATAG
Celera SNP ID:            hCV3088228
SNP Position Genomic:     107900
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43908):
CTACCCCCAGGAAATCCTCCCTGATCCTAAAACTGCATTTGTTCGTTAGGTGCTCCTGGCCTGTGTTCCCATTGTACCTAGATCATAACCCAGTTATAAT
Y
TTATTACATTGTTATCATTAATGCTTTTTAAAAAGTTTTACTATTCATCACTAGAGTGTAAATTGTTTGTAGACTAGCAAAGCTCTGTTAACAATTATAG
Celera SNP ID:            hCV29226405
SNP Position Genomic:     108120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43909):
ATGCATTACTGCTCGGAAATGGGAAGGGAGAGTAGCAGGTGGTGCGTAATTGAGAGCTGTGTTTGATTGGGACTGACCTGGTGCCCCTTTCCTCTGCCGG
K
TTGAATGAGAGTTTAAAGGAGGAACTGCTGCTGCTAAGAACAAAATGAACCCGAGTGCCTCTTACTGTTTGTCCCGACTGTCAGTGCATAGGGATTAACT
Celera SNP ID:            hCV3088229
SNP Position Genomic:     106633
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   A(T,3|G,57)   B(T,6|G,54)   C(T,6|G,54)   total(G,165|T,15)no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43910):
GGCCTCCCAAAATGTTAGGATTACAGGCGTGAGCCACCACGCCTGGCCAACTCATAGTTTTATTGATTTTCTGGCAGTTTATGAATAAATTTGCTCATTT
R
CAGACTTACGTGGACTCTGCTAAAGGTCTTAGACTTTTTAAGGCCCTTCAGAACAATCAGACACCCCTTTTCTGTTGTAAGTTAAGCACAAATGGAACTC
Celera SNP ID:            hCV3103302
SNP Position Genomic:     27672
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43911):
AATGTTAGGATTACAGGCGTGAGCCACCACGCCTGGCCAACTCATAGTTTTATTGATTTTCTGGCAGTTTATGAATAAATTTGCTCATTTACAGACTTAC
S
TGGACTCTGCTAAAGGTCTTAGACTTTTTAAGGCCCTTCAGAACAATCAGACACCCCTTTTCTGTTGTAAGTTAAGCACAAATGGAACTCTGTCCAAGTG
Celera SNP ID:            hCV3103303
SNP Position Genomic:     27682
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43912):
ATAGTATATAATTCCTACTTAGTGCATTTAGAAATACCATCTGGCTTACCGCCAGAGTTAACCATGTGTGCGAACTGGGACTCGGAAAAATGAAAACAGC
Y
GTTTGCCCTTCAAGCATTTTCTTTGGGGCTGTCCTTTACTTCAGCAACCACTTTTGGGCTGATGACATCCTGAGCTCTGGGTCCAGGCTGCACCTCTCTC
Celera SNP ID:            hCV3103304
SNP Position Genomic:     28230
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43913):
TAACTTGCCATAGTCACTCCGTTAGGTATATTAACTCCAGGCCTTGTATTCAGGGCGGCTCTCGGAAATCTGATTTATAGTATCATTTAGATATCTGTGA
R
TCTGACTCTTCGTGTAAGAGTCCTGAAAAGCAGACAGGTTTCTAACACTTTAGAAATAGAGTACATACATACTCCCGAGTGTATCATCTTTACTTTTTCC
Celera SNP ID:            hCV3103305
SNP Position Genomic:     30040
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,13|G,25)   total(A,17|G,53)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,24)   caucasian(A,10|G,24)   total(A,14|G,48)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,1)      total(G,1|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43914):
GGCGCTCATCCACAGAGCCACATCTGTTAGGTAAGTTGGCACATCACTGGAATATAATACCGATTCTGAAACTTAGGTTTAGTTCCAAAACTGATACTTA
Y
TAAAGTTGCTAAAAATAGTTTTTACTTACAAAAATTATATTTCCACTGTAGTAGTGGAAATTTAAAAAAAAAAGTAAAACAACAAAGCTGGGCATGGTGG
Celera SNP ID:            hCV3103306
SNP Position Genomic:     30453
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;NIH Coriel panel(C,15|T,72)      total(C,15|T,72);(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43915):
TTGGAGATGCTTTGTCTGTGCTGCAAGTTTCAATTCATGGCTGTGTCCAGTGGTTTTGTTTACTGGATCTAAGATCAGACCACTTACGTATGAAGCAGTG
K
GCTAGGCACTGTGCGTACAGAGGAAGAAGATGTGGTTATGATATATGTCTGGCAGAGTTTACAACCTCACATGAGAGTCAGATGTGTGCATACCTAACTG
Celera SNP ID:            hCV3103307
SNP Position Genomic:     30953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43916):
GCTTTGTCTGTGCTGCAAGTTTCAATTCATGGCTGTGTCCAGTGGTTTTGTTTACTGGATCTAAGATCAGACCACTTACGTATGAAGCAGTGTGCTAGGC
R
CTGTGCGTACAGAGGAAGAAGATGTGGTTATGATATATGTCTGGCAGAGTTTACAACCTCACATGAGAGTCAGATGTGTGCATACCTAACTGGACTTAAA
Celera SNP ID:            hCV3103308
SNP Position Genomic:     30961
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43917):
GACAGCTTGGCCAAAACCCCGTTTCTACTAAAAAAAAAAAATACAAAAATTAGCTGGGTGTGGTGGCAGACACCTGTATTCCCAGCTACCCCGGAGGCTG
R
GGCAGGATAATCGCTTGAACTTGGGAAGCAGAGGTTGCAATGAGCCAAGATCACACCACTTCACTCCAGCCTGGGCGAAAGAGCAAGACTCTTATCTCAA
Celera SNP ID:            hCV3103309
SNP Position Genomic:     31451
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43918):
TATAATAATTGGTCGTTGTACTTTTCTTGTGACTTTTAGGAAGATTTAAAATTTTTCAAAAGAAAGTGGAAGACAGATTTTAATTACAATAAAATTTAAA
A
ATGAAATAACATTTATTCTGTCTTATTGCTTTAGGTGAAATCCTTAACCCTGTTTGTCACCCATTATCCGCCAGTTTGTGAACTAGAAAAAAATTACTCA
Celera SNP ID:            hCV26764110
SNP Position Genomic:     216273
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,6)   total(A,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43919):
TAATAATTGGTCGTTGTACTTTTCTTGTGACTTTTAGGAAGATTTAAAATTTTTCAAAAGAAAGTGGAAGACAGATTTTAATTACAATAAAATTTAAAAA
T
GAAATAACATTTATTCTGTCTTATTGCTTTAGGTGAAATCCTTAACCCTGTTTGTCACCCATTATCCGCCAGTTTGTGAACTAGAAAAAAATTACTCACA
Celera SNP ID:            hCV26764111
SNP Position Genomic:     216275
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,6)   total(T,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43920):
AATAATTGGTCGTTGTACTTTTCTTGTGACTTTTAGGAAGATTTAAAATTTTTCAAAAGAAAGTGGAAGACAGATTTTAATTACAATAAAATTTAAAAAT
R
AAATAACATTTATTCTGTCTTATTGCTTTAGGTGAAATCCTTAACCCTGTTTGTCACCCATTATCCGCCAGTTTGTGAACTAGAAAAAAATTACTCACAC
Celera SNP ID:            hCV26764112
SNP Position Genomic:     216276
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,6|G,6)      total(G,6|-,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43921):
GCTTTTGTTATGTTGAGGTATGTTCCTTCTATACCCAGTTGTTTGAGAGTTTTTATTATGAAGCGTTGTTGAATTTTATCAAATCCTTTTTCAGCATCAA
W
TGAAATGATTATGTGTTTTTTTTTCTTCATTCTGTTAATATGATGTATCATAGTGACTGATTTGCATATGTTGAACCGTCTTTGCATCTCTGTGATAAAT
Celera SNP ID:            hCV26764040
SNP Position Genomic:     36199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43922):
CGTTGTACTTTTCTTGTGACTTTTAGGAAGATTTAAAATTTTTCAAAAGAAAGTGGAAGACAGATTTTAATTACAATAAAATTTAAAAATGAAATAACAT
W
TATTCTGTCTTATTGCTTTAGGTGAAATCCTTAACCCTGTTTGTCACCCATTATCCGCCAGTTTGTGAACTAGAAAAAAATTACTCACACCAGGTGGGGA
Celera SNP ID:            hCV26764113
SNP Position Genomic:     216286
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): NIH Coriel panel(A,14|T,63)      total(A,14|T,63) ;(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43923):
TATTTGATATGAATTTGTCTCATTCTGGTATCAGGGTAATACTGGCCTCGTAGAATGAGTTTGGAAGTATTCTCCTTTTTTTTTTTTTTTTTTTTTCCCA
R
AATAGTTTGAGGAAAATGGGTCTAGTTCTTTAAATGTTTGGTAGGATTCAGCAGTGAAGCTATTGGGTCCTGGGCTTTTCTTTGCTGGGAGACTTTATTA
Celera SNP ID:            hCV26764041
SNP Position Genomic:     36516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43924):
AATAAATGTTGAATTAGGCTACTACTAATATCAACTAAAGGAGGTAAAAGTTTTGAGATTTTTCATGAATGAAAATGTTTCACATGCTTGTTGGCCATGT
R
TATGTTGTCTTTTGAAAAGTATCTGTTCATGTCCTTTGCCTATTTTTTAATGGGTTTGGTTTTTTCTTATAAATGTAAGTTCCTTATAGATGGTGGATAT
Celera SNP ID:            hCV26764114
SNP Position Genomic:     219213
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43925):
CTTTTCTTTGCTGGGAGACTTTATTATGGCTTCAATCTCGTTACTTGTTATTGGTCTGTTCAGGTTTTGGATTTCTTCGTGGTTCAATCTTGGTGGATTG
Y
GTGTGTTTAGGAATTTATCCATTTCTTCTAGATTTTCGGATTTATTGGCATATGGTTGCTCATAGTAACCACTAATGATCCTTTGAATTCCTGTAGTATC
Celera SNP ID:            hCV26764042
SNP Position Genomic:     36691
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43926):
TGTTGGCATGCCTTAGGCTCTCACCAACTGTTGGTGGGAGACATCAGTTTCTTTCCATGTGAGCATCTCCACAGACAGCCCACAACATGGCGGCTGGCTT
C
CCTCAGAGCAGGCAGGCAACAAAATGAGAGTACCCAAGTCAGAAGCCACAACCTTTCTGTAACCTAATCTCTGAAGTGACATCTCATCACTTTTGCCGTA
Celera SNP ID:            hCV26764115
SNP Position Genomic:     223163
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43927):
CTTTTGTATTTTCTTTGTTTCAGTTTCATTTATTTCTGCTCTGATTTTTATTTTTATTTTATATTAATTTTGGGTTTGGTTTGCTCTTGCTTTTCTAGTT
Y
TTCAAGGTTTATCATTTGGTTATTTATTTGAAATGTTTCCTCTTTTTTCATGTAGGTGCTTTTAGCTATAAACTTCCCTCTTAGTACAGCCGTCACTGTA
Celera SNP ID:            hCV26764043
SNP Position Genomic:     37013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43928):
TTTTTAAGGCTATTTCCATGCCTAGTAAATTGAAACATATTTCTTTTTTGCAGACCAACTGTACAAGAAGAAAGAAAAATTGTAATAAAAAATGGAAGGC
W
CCCTGTGATTGATGTGTTGCTGGGAGAACAGGATCAATATGTCCCAAATAATACAGATTTATCAGTAAGTACCTTATGCCAAAAAATAAGTCGATGATAA
Celera SNP ID:            hCV25619910
SNP Position Genomic:     144271
SNP Source:               Applera
Population(Allele,Count): african american(A,17|T,1)   caucasian(A,40)   total(A,57|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:43929):
TTCAAGACCAGCCTGGCCAACATGGCAAAACCCCATCTTTACTAAAAATATAAAGTACATCTCTACTAAAAATACGAAAAAATTAGCTGGGCATGGTGGC
R
CACACCTGTAGTCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATCTCTTGAACCTGGGAGGCGGAGGTTGCAATGAGCCGAGATCACGTCACTGCACTCC
Celera SNP ID:            hCV26764116
SNP Position Genomic:     227991
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:43930):
CTGCTCTGATTTTTATTTTTATTTTATATTAATTTTGGGTTTGGTTTGCTCTTGCTTTTCTAGTTCTTCAAGGTTTATCATTTGGTTATTTATTTGAAAT
K
TTTCCTCTTTTTTCATGTAGGTGCTTTTAGCTATAAACTTCCCTCTTAGTACAGCCGTCACTGTATCACATAGGTTTTGGTATGTGTTTTCATTATCATT
Celera SNP ID:            hCV26764044
SNP Position Genomic:     37048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43931):
ATTTTTATTTTATATTAATTTTGGGTTTGGTTTGCTCTTGCTTTTCTAGTTCTTCAAGGTTTATCATTTGGTTATTTATTTGAAATGTTTCCTCTTTTTT
S
ATGTAGGTGCTTTTAGCTATAAACTTCCCTCTTAGTACAGCCGTCACTGTATCACATAGGTTTTGGTATGTGTTTTCATTATCATTTGTTTCAAGAAATT
Celera SNP ID:            hCV26764045
SNP Position Genomic:     37062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43932):
GAGAAAGAAAGGGTGAAGGCCTATGAAATCCAGCAAACTGGTATGGATTCCTGTAGAAGGCAGTAAGGTTTCTGGGAAAAGGAATGGCATGATAGAAGGG
A
AGAGATGAGTGTACTGCCTAGATGGGACAGTTGAATTTTAAAAATAAATATTTCCCTAAAGGAAAAAGCGGATACAGAGAAAAGAATCAGATCAAGGAGC
Celera SNP ID:            hCV26764046
SNP Position Genomic:     39095
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43933):
GAAAGAAAGGGTGAAGGCCTATGAAATCCAGCAAACTGGTATGGATTCCTGTAGAAGGCAGTAAGGTTTCTGGGAAAAGGAATGGCATGATAGAAGGGAA
G
AGATGAGTGTACTGCCTAGATGGGACAGTTGAATTTTAAAAATAAATATTTCCCTAAAGGAAAAAGCGGATACAGAGAAAAGAATCAGATCAAGGAGCTT
Celera SNP ID:            hCV26764047
SNP Position Genomic:     39097
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43934):
TATCAGAGGAATTGTTATGCAAATTAGGTATCTGTGTTATGACTGAAGTCCAACTTCTTTCTAATGTCATTTGAATTAAACATTAGTATAAAGGTTTCAA
T
TTTTTTTTTTTTTAAAGAATGAGAGTAAAAGAAACAACAGGTCTTACTCATTAATTTGGTTAAGAGGAAGTGCTTCACACATACGAAATGTTATTAAGTG
Celera SNP ID:            hCV26764048
SNP Position Genomic:     40033
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43935):
CAAAAAACCAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACACTTGGACACAGGAAGGGGAACCTCACACACCGGGGGGCCTGTT
R
TGGGGTGGTGGGGGGGACGGATAGCATTAGGAGATATACCTAATGTAAATGACAAGTTAATGGGTGCAGCATACCAACATGGCACATGTATACATATGTA
Celera SNP ID:            hCV26764049
SNP Position Genomic:     49538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43936):
TCCTGCCCCACATCTACTCAGATCCCACTAGGTAATCATGGTTATTACTTTATCATGTATACTTCCAGAAACCTTTTGTTTAAAAAAGCAAATATGAATT
W
TATATATATATATATGAAATCTCTTCCTCCCTTATTACATAGATGGAGCCATAATATACCCAGTACTTTGTACTTGGCTGTTTTCCCTTAGTAGTATAAG
Celera SNP ID:            hCV3088230
SNP Position Genomic:     105755
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,6)      total(A,2|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43937):
CAAATGTCTGCTTGTTTTTCAAGGAATAGGAAGAAATGTTTAGTGAATACCTAGCAGTCTGTTGCCAGAGATGGTTTTTGTTGTTTCAATTCCATTGTAC
R
TTCTTCTTAGCATTTAAAAAATTATTTGAACTTTTGAACAGGCAATATCTTCACATACTTTAAAAGTTTGAAAATCTGAAAAGTTACACAGTAAAATGTT
Celera SNP ID:            hCV3088231
SNP Position Genomic:     105544
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43938):
AATCCATGGCCTTTCCACATTGGGGGGTGGGGTGAGACTCTCATCACATAGGCAGTTAGGAACCCCAGAGGCTCTTCAGTTTTAAACGTGTAGCTTCCAA
Y
GTCATCTTGAGAACTGATATTCAGCAGTGGAAGGAGAAAGAACAGGGAGGATATACATTTATGGCTTTTATGTGAGGCAGGCCTTGCATTGGCACATACC
Celera SNP ID:            hCV3088232
SNP Position Genomic:     105278
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43939):
CAATGCATTGGTTAGGGAAGCTAGCTGTTAACACAAAGACCCCAAAAAGTCTAATGGCTCTAATGTTGTGAAAGTTAATTTCTTCTTTTTTTTTCTTTGC
R
TAAACAATCCATGGCCTTTCCACATTGGGGGGTGGGGTGAGACTCTCATCACATAGGCAGTTAGGAACCCCAGAGGCTCTTCAGTTTTAAACGTGTAGCT
Celera SNP ID:            hCV3088233
SNP Position Genomic:     105172
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43940):
GGTTAGAGATACAGGTAGGCTGGTGTTTTACATGTATTTGCAATATTTAATTTTTAAAAAATTATACAGAAAATACACACACATGAATTTTTTATAATGT
R
CTGCTATTTGACCTTCACTACCATCATAATCAGGTGAAAATGAGACCCATGCACATCTGTCTAGAAAGCCCATGTTGAACTTGAGAGCATCTGTTTTCCA
Celera SNP ID:            hCV3088234
SNP Position Genomic:     104583
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43941):
AGGACAAGCAGAGGACTTAAAGCTCTGAGGGATCAAGGGAGTAGAAAGAAAATGTCAGTCTAGTGAACTAATCTCTAACTGTGCTTTATTTTTTATCTGT
R
TTTTTTTCAGCTATCTTTAGAGATAGTTATTCTGTTTTAGAGATAAGAATAACTAAGTCTCAGTTTTTCCAAGGTCATCCAGCCAAGCACATAGGGGACC
Celera SNP ID:            hCV3088235
SNP Position Genomic:     103863
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43942):
TTATTTCCAGATTTTCTTCCTTTTGGCACACATAGACTGATTATACCCATCTCTTTACTAGAAACAAGTGTTTTGATTATTATTTAAATGTTTTGCTCAT
Y
TATTCAACGTCTGATGTGAGGTTGTAAATAACCATTGAATTTTGTAAAATTGCCAATCTTGTGCAATTTTGTGTTTGTAGTACAGTTCTCTGAAAAGTTA
Celera SNP ID:            hCV3088236
SNP Position Genomic:     103410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43943):
CTTAGTATATATTTTATTAATTTAGATTGAGTAAAGTCAATCAATTTTATCAACACATTCATTTTTTTGTTTTCTGCTTAATTTTATAAAATAACAATGG
Y
GAAATTCAATAAAATATCAAAATATTTCATAATGACATTGTCAAAAGTGAATTTTTGTTTGTCAAGCAGCATTCATTGACTGGTGATATTCCTAAATGTT
Celera SNP ID:            hCV3103311
SNP Position Genomic:     33039
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43944):
AACTTGATCATACTATGAGAAACTCAGCCATAGGTTTGGAATCCGTATTCACACCACACATTCACTGAGGACAATATTCTGCTCATACGATTGATTTGCT
R
CTGCATTTCACTGCTGTTTGTCTGATATTAACAATTTTAAACAGAGCAGGGCAGCTAGTATTTGGAACAATCCTTACAGTGTGACGGCGTCAAGGACGTT
Celera SNP ID:            hCV3088239
SNP Position Genomic:     97717
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43945):
AAATTCAATAAAATATCAAAATATTTCATAATGACATTGTCAAAAGTGAATTTTTGTTTGTCAAGCAGCATTCATTGACTGGTGATATTCCTAAATGTTT
S
TTCATCACATGAGATTTAAAAGCTTGAATTTGGCATATCAAAGATAATTTAGGTGTCTTATGTGGGTTTTACCAAATTTAATGCCTGCTTTTGTCTTATT
Celera SNP ID:            hCV3103312
SNP Position Genomic:     33141
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43946):
TTGTTTGTCAAGCAGCATTCATTGACTGGTGATATTCCTAAATGTTTGTTCATCACATGAGATTTAAAAGCTTGAATTTGGCATATCAAAGATAATTTAG
S
TGTCTTATGTGGGTTTTACCAAATTTAATGCCTGCTTTTGTCTTATTTTAATTTGAATTTCTCTAGTTAGCATTGTAAATAATTTTCTCTATGTTTACTG
Celera SNP ID:            hCV3103313
SNP Position Genomic:     33194
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43947):
AAGAGAATAATGGGTATCTCCTATTTGTTTTTCTTAACAAAACTGATTTGGGTTTTTTAAACATAGAAGGGTTGTTGTAAGGCTGGGCGTGGTGGCTCAT
R
CCTGTAATCCCAGCACTATGGGAGGACGAGATGGGTGGATCACCTGAGGTCAGGAGTTCCAGACCAGCCTGGCCAACATGGTGAAACCCCACCTCTACTA
Celera SNP ID:            hCV26764050
SNP Position Genomic:     50032
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43948):
ATTTACATTATACAGATGTAGCCAATTCATTTACTCTTTTGGAAAGATCATATTGATTTCTTATCGTTTTTTCCCCATTATGTTTATTTCTTTAAAAAAT
K
TTTTAATATCACTGTAAATTGATTGAAGCATCCTGACATTTCCATAGATATTCCTTTACAGCAAATATTAATGGGATCTACATGGCTAAGTTACTGTTTA
Celera SNP ID:            hCV26764051
SNP Position Genomic:     50486
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43949):
TCATTATGTTTATTAGACGGTAGTTTCACTTAACTATTTAGATAATCTAGAATTAGAAAATAAATTGTGGGCCTGGCAGGGTGGCTCATGCCTAAAATCC
S
AGCACTTTGGGAGGCTGAGGCGGGTGGATCACTTGAGGTCCGGAGTTCAAGGTCAGCCTGGCCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAA
Celera SNP ID:            hCV26764052
SNP Position Genomic:     50864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43950):
ATGGGCCTAGAAAGACAGGTAACACTTAACTAGACAGATTTGGGGGAAAATACATTCCTCAATGAAAGCAAAGTTTAAACAAGGTTGAAATAATTTATTT
A
AAAAAAAAAATAGCTGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGTACTTTGGGAGGCTGAGGAAGGTGGATCGCTTGAGCTCAGGAGTTTGAGAC
Celera SNP ID:            hCV26764053
SNP Position Genomic:     53449
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43951):
TTTCCACACTGTTTATAGAAAAGACTTTTATATGCATTGAATTATGTTGATGCCAAAGGCTTCATTTTGTCTTTGTTTTTAATTAATATTTATTTATTTA
T
TTTTTTTAGAGACAGGGTCTCGCTTTTTCGCCCAGGCTGGAGTGCATTGGCACGATCATAGCTCTCTGCATCCTTGAACTCCTGGGCCCAAGTGATCCTC
Celera SNP ID:            hCV26764054
SNP Position Genomic:     59202
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43952):
AAAATGACCTAGATTTTTATGTTCTTATATTAGATATTTTAGACTTTGACTTTCTAGGATGTCATTTAAAAATGTTTTTAGGTCTCCCTTTTTCTTTTTT
Y
GAGACACAGTCTCTGTCACCCAGGCTGGAGTGTGGTGGCAGGATCTTGATTCACTTCAACCTCCGCCTCCTGGGTTCTAGCGATTTTCCTGCCTCACCGT
Celera SNP ID:            hCV26764055
SNP Position Genomic:     59524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43953):
TTCTCCTGCCTTAGCCCCCTGAGTGGCTGGGACTACAGGCCTGCACCACCATACCCAGCTATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTGG
S
CCAGGCTCGTGTTGAACTCCTGACCTCAAGTGATCCACCTGTCTCGGCCTCCCACAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCAGCACTA
Celera SNP ID:            hCV26764056
SNP Position Genomic:     62588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43954):
AAAAAACCAGAAAGAATGAATAAAACCTAGTATTGATAACATGGTAATTATAATCAATAATAATTTAATTGTACATTTTTAAATAAAAGAGTATAACTGG
A
TTATTTGTAGCACAAAAGATAAATGCTTGAGGAGATGGATACCCCATTTACCCTGATGTGATTATTACGCATTGTATGTCTGTATCAAACTATCTCATGT
Celera SNP ID:            hCV3039570
SNP Position Genomic:     126453
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43955):
GCACCACCATACCCAGCTATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTGGGCCAGGCTCGTGTTGAACTCCTGACCTCAAGTGATCCACCTG
Y
CTCGGCCTCCCACAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCAGCACTACACTTTCTAATGAGTTTTTATTGAAAAAAATTTTAGTTGAAA
Celera SNP ID:            hCV26764057
SNP Position Genomic:     62630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43956):
CCATACCCAGCTATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTGGGCCAGGCTCGTGTTGAACTCCTGACCTCAAGTGATCCACCTGTCTCGG
S
CTCCCACAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCAGCACTACACTTTCTAATGAGTTTTTATTGAAAAAAATTTTAGTTGAAAATGAAG
Celera SNP ID:            hCV26764058
SNP Position Genomic:     62636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43957):
TAGTAGAGACAGGGTTTCACCATGTGGGCCAGGCTCGTGTTGAACTCCTGACCTCAAGTGATCCACCTGTCTCGGCCTCCCACAGTGCTGGGATTACAGG
W
GTGAGCCACCACGCCCGGCCAGCACTACACTTTCTAATGAGTTTTTATTGAAAAAAATTTTAGTTGAAAATGAAGCTGTTGGCTCGTAAGTGAAAAGCTT
Celera SNP ID:            hCV26764059
SNP Position Genomic:     62661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43958):
AAGGATTTTTTTCCTCATTCTCGTGAATGAGCCTGCCTGCAGATTGGCAGACATAGGGCGTTGTCCCAGGAAAGTGAGGATAGATGCCTTTTGTGGAGGG
Y
TTTGAAGGCTAGACTGAGGAGTTGATAGCCAGAGGGAGTTCATTCAGTGATTCTGAGCATGGGGCTGATATCATCAGAGCTGGGCTTGTGTGTAGGAGGG
Celera SNP ID:            hCV3088240
SNP Position Genomic:     96356
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43959):
GACTGGCTCTCTAGTATTACAAGGATTTTTTTCCTCATTCTCGTGAATGAGCCTGCCTGCAGATTGGCAGACATAGGGCGTTGTCCCAGGAAAGTGAGGA
K
AGATGCCTTTTGTGGAGGGTTTTGAAGGCTAGACTGAGGAGTTGATAGCCAGAGGGAGTTCATTCAGTGATTCTGAGCATGGGGCTGATATCATCAGAGC
Celera SNP ID:            hCV3088241
SNP Position Genomic:     96336
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,7)      total(G,5|T,7) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43960):
AGTCAAAGGAGTTAAAACTCTTCAGAAATATTTATTACTATTGCAAATTAAAGTAAACACTGAATTTATTCTCCTGACTCCTGAATCTGCATATTATTAA
S
TAGTTTCTCTCAGTTTCTTCCTGTTCCAGTCTGTTCTAGTATGCTGAATTCAGATGTATTTTTGTTCAGTAACATTTTTATCTTGTCATCATCCAAAAGC
Celera SNP ID:            hCV3088242
SNP Position Genomic:     93351
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43961):
ATCTGAGTCAAAGGAGTTAAAACTCTTCAGAAATATTTATTACTATTGCAAATTAAAGTAAACACTGAATTTATTCTCCTGACTCCTGAATCTGCATATT
R
TTAACTAGTTTCTCTCAGTTTCTTCCTGTTCCAGTCTGTTCTAGTATGCTGAATTCAGATGTATTTTTGTTCAGTAACATTTTTATCTTGTCATCATCCA
Celera SNP ID:            hCV3088243
SNP Position Genomic:     93346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43962):
CCTGATATGAGTTAACACTGTTATACTCTTAGAAGAAAACATAGGTGTAAATCTTTGTAACCTTGAATGAGGCAATGATTTCTTAACTATGACATCAAAA
R
CACAAGTGAGAAAAGCAAAAATAGATACATTGGACTTCATCAAAGTAAAAGCTTTTATTCTTCAAAGAACACCATCAAGAAAGTGAAAAGACAATCCACT
Celera SNP ID:            hCV3088247
SNP Position Genomic:     84169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43963):
GTGGAGTTCTAACTGATGTTTCATTTCTGAATGTGGGTATTGTATTAATCTATACATTTTTTAGTGTGGCCAAAATGTTTTATTTTAAAAAGTGTCAGCC
Y
GGCATTATACCCTCATTGGATTCTACTTTAAGCTCCAAAAATAAACTTATTAAAGAGATCAATCTGTATGGTTGGTTGTGTTGGGGCTTTGTAAAAAAAG
Celera SNP ID:            hCV3088248
SNP Position Genomic:     81280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43964):
GTTAGAGAATAAGTGAAGACATGCAGGGGAGTGATAGAAAATTCAGAAGCAGGGTTTCTTCCAGGGGGAAGAAGGGAAAGTAGTAAAGGTTGGGGATGGA
Y
GTGGCATAGTGGAGTTCTAACTGATGTTTCATTTCTGAATGTGGGTATTGTATTAATCTATACATTTTTTAGTGTGGCCAAAATGTTTTATTTTAAAAAG
Celera SNP ID:            hCV3088249
SNP Position Genomic:     81171
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43965):
CCCGCCCCAGCTGCCGCCGCACGTAGTAGGTTCTGTCTGGGACTGGGCAGGGCCATCGGGGCTGGGGGGGCGGGGCTTGTGGGTAAGGCGGGCGGAGGCG
K
GGACCCTCCGCCCGATGATAGGGCTGGAGGAGGAAGGGGCGGGCTGAAGAAGGGGAAGGTGGGAAGAGCCCAGCCGGGGCTACAAATTGGGTGAAGCGCT
Celera SNP ID:            hCV3103251
SNP Position Genomic:     6314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43966):
TTTATGGTACCAGAGAATTTGTGATAAGGGAAGACAGGAAATCCATCTTTATTCATTATCCTCAGGAAATTAGGTAAAGAGAATGAGAAAAAAAAAAAGT
Y
CCAATTCAGATAGAGGTATCTGTCCAATGGAGATATATGTAAAATATTAATCCTTCCATAAAAGGTAAAATTTGAATTTTAGGGTCAACATGAAAGTGTT
Celera SNP ID:            hCV3103252
SNP Position Genomic:     8948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43967):
AGTTCCAATTCAGATAGAGGTATCTGTCCAATGGAGATATATGTAAAATATTAATCCTTCCATAAAAGGTAAAATTTGAATTTTAGGGTCAACATGAAAG
Y
GTTAGTATGAAATAACTACAGGAATGGAGATGTGTGGCTAAGGAGAAAAGTAAATCTAAAACTTCACCTTTCTGGAGGGGTCATGCAAGGAGGCGTGACT
Celera SNP ID:            hCV3103253
SNP Position Genomic:     9045
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43968):
GTGACTTGAGAGAATTTGCCACGGTTAATGTTACAATTCTGGGGCAGCCTACCTTTCATTGCTTGATTATTCTGCATAGACCCATTTTTTAGGTCTACAA
R
CACTGAATGAGCACCTATGATTTTTATTCTAGAGGCTTTTTGTAGCTCATTTATTTTTCCTAAGAATGCTTTTTGCCCCTTTTTTTTTTTTTTTTTTGAG
Celera SNP ID:            hCV3103254
SNP Position Genomic:     9240
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43969):
ATTACAGGGATGAGCTACCTTGCCTGGCTGATTTTAATTTTTATCAATGAACATAATTTTTAAAATTCAATGGTGCTAAAAGGCTCCTGCTGACAAGCTT
S
CATCCCTTCAGTTCACGTCCTTCCCCATCCTAGTCCCAAGGCAACTACTTTCAACACTTCCCCTTTCTGTTGTATTTCTAAGTAATATCCGTATTTTCAT
Celera SNP ID:            hCV15942811
SNP Position Genomic:     218005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43970):
GCCACGGTTAATGTTACAATTCTGGGGCAGCCTACCTTTCATTGCTTGATTATTCTGCATAGACCCATTTTTTAGGTCTACAAACACTGAATGAGCACCT
M
TGATTTTTATTCTAGAGGCTTTTTGTAGCTCATTTATTTTTCCTAAGAATGCTTTTTGCCCCTTTTTTTTTTTTTTTTTTGAGATAGGGTCTCTCGCTCT
Celera SNP ID:            hCV3103255
SNP Position Genomic:     9257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,9)      total(A,9|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43971):
TCCTGGCTACTCAGGCATGCACCACCCCTTACAGCTAATTTTTTAAAAAAAATTTTGTAGAGATGGGTTCTGGCTATTTTGCCCAGGCTGGTCTCGAACT
Y
CTGGCCTGAAGTGATGCTCTCACCTCAGCCTTGCGAGTTCTTGGAATTATAGGCATGAGCGACTGCATTTAGCATCTTCCAGTCTTTTTCTTTCTTCAAA
Celera SNP ID:            hCV3103183
SNP Position Genomic:     41433
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43972):
TAATTTTTGGATTTTTTTCTGAGACAGATTCTCGCTCTCTTGCCCAGTCTGGAGTGCAGTGGTGCAACCTCAGCTCACTGTAACCTCTGCCTCCCGGGCT
M
AAGCGATTTTCCTGCCTTAGCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACTACCCTTGCATAATTTCTGTATTTTTAGTAGATATGTGGTTTTGC
Celera SNP ID:            hCV2948005
SNP Position Genomic:     198660
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43973):
AGGCACATACCTGTAGTCCTGGCTACTCAGGCATGCACCACCCCTTACAGCTAATTTTTTAAAAAAAATTTTGTAGAGATGGGTTCTGGCTATTTTGCCC
M
GGCTGGTCTCGAACTTCTGGCCTGAAGTGATGCTCTCACCTCAGCCTTGCGAGTTCTTGGAATTATAGGCATGAGCGACTGCATTTAGCATCTTCCAGTC
Celera SNP ID:            hCV3103184
SNP Position Genomic:     41417
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43974):
GGACATTTTCCTGTGCTCTGCCATTTGAGTAGCTGTTAGTTTATCAACCTTCAGGTCATGTTTATAGAAGCACTCTGCCACAGGGCCTGTGTCCCTGCAT
R
TTCTTACTGAGTATGCCAAGAAAGCCCCTGATTGCTTTTTACATGGGCCACTTATTTGTCAAAGTTGTGCTTGCAGCAAACAACCTGGAGGGATAAGTTA
Celera SNP ID:            hCV2948006
SNP Position Genomic:     173207
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43975):
TACTGAAAATATTCCTTAATGCTGGTAGCTTCTTGACTTCGTGCCTTTCTTACCCAATTACATCTATTCTAAAGCTGTCCCACTTCTTTTCCTTTGAGCA
Y
ATGACTACTGCTATCTATCTCCTATTCTTAACCAGCATTAATTACACTGTGTATTAGATACTGTTTTAAAGGCTTTATGTTTGTTGACCGACTTAATCCT
Celera SNP ID:            hCV3103258
SNP Position Genomic:     60777
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43976):
GAGATCCTCTCACTTCAGCCTCCTGAGCAGCATACTAATCAGGCACATACCTGTAGTCCTGGCTACTCAGGCATGCACCACCCCTTACAGCTAATTTTTT
W
AAAAAAATTTTGTAGAGATGGGTTCTGGCTATTTTGCCCAGGCTGGTCTCGAACTTCTGGCCTGAAGTGATGCTCTCACCTCAGCCTTGCGAGTTCTTGG
Celera SNP ID:            hCV3103185
SNP Position Genomic:     41377
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,4)      total(A,4|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43977):
TACTTTCTAGAAGTGAGATTGGTAATAAATAAGCAAGAAAATTCAGGTAATTTCAGAGAAGGTTGAAAACAAAATAAAATGGGCTGATGTGATAGAGAAT
S
ACAGAGCAGAGGGGCTTCTGTAGATTGGGTGGTCAAGGAAGGTGTGTCCTGGGAGTTGATGTTTGAGTGTAGACCTGTAGAAAGGCCTTAAGGCAGGAAT
Celera SNP ID:            hCV2948007
SNP Position Genomic:     152402
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)      total(G,6|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43978):
TTTATAGGTCTTATTAAATGTGGGAAACTTTTTTGGTTGTTATTGTTTCACATTTTTTCTGTCTTCCTGTCTCTTGTGTCTCCTTCTGAGAGTTTATTAC
R
GGGATGTTAACTACTTGATGTTATCTGTTAAGTCATTGAGGCTCTTTTCATTTGTTTTCCAGGCTTATTTCTCTTTGTACTTCATTGTGGATAGATTCTA
Celera SNP ID:            hCV3103259
SNP Position Genomic:     12566
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43979):
TATTGCTGTAATATGCTGTGTAAAGGCTCAAACCTTTCCTGCATGATTTTTTTAAAGAGTAGGGGTCTCGCTCTGCTGTCCAAGCTGGATTGCAGTGGTG
Y
GGTCATAGCTCATTGCAGCCTTGAACTCCTGGGCTCAAGAGATCCTCTCACTTCAGCCTCCTGAGCAGCATACTAATCAGGCACATACCTGTAGTCCTGG
Celera SNP ID:            hCV3103186
SNP Position Genomic:     41238
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43980):
AGTAGAGACAGGGTTTCACCATGTGGGCCAGGCTCGTGTTGAACTCCTGACCTCAAGTGATCCACCTGTCTCGGCCTCCCACAGTGCTGGGATTACAGGT
R
TGAGCCACCACGCCCGGCCAGCACTACACTTTCTAATGAGTTTTTATTGAAAAAAATTTTAGTTGAAAATGAAGCTGTTGGCTCGTAAGTGAAAAGCTTG
Celera SNP ID:            hCV26764060
SNP Position Genomic:     62662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43981):
TTGAGAGTAAGGTACAGAATAAAAGTGTCATATCATCAGTATTCTCCACCAGATCCTGTGCTATGATATTGCTGTAATATGCTGTGTAAAGGCTCAAACC
Y
TTCCTGCATGATTTTTTTAAAGAGTAGGGGTCTCGCTCTGCTGTCCAAGCTGGATTGCAGTGGTGCGGTCATAGCTCATTGCAGCCTTGAACTCCTGGGC
Celera SNP ID:            hCV3103187
SNP Position Genomic:     41172
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43982):
TTTTTTAGGTCTACAAACACTGAATGAGCACCTATGATTTTTATTCTAGAGGCTTTTTGTAGCTCATTTATTTTTCCTAAGAATGCTTTTTGCCCCTTTT
Y
TTTTTTTTTTTTTGAGATAGGGTCTCTCGCTCTGTCACCCAGGCTGGAGTGCACTTGTGCAATCTCAGCTCACTGTAACCTCCTGGGTTCAATCTCTGCT
Celera SNP ID:            hCV26764061
SNP Position Genomic:     9324
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43983):
TTAATTTGGTTAAGAGGAAGTGCTTCACACATACGAAATGTTATTAAGTGGTCGGTACTTGATGGTACCAATTTCGTGATTGCAGTGTTACAGTTCTATC
R
AAGTTTAATAAGCTCAATTCTGTGGGTTCATATGAAGTCATTTCAATATAATTCTTAGATATTTAGAGCCAAGTAAATGTGGAATGGCATACCAAACAGT
Celera SNP ID:            hCV3103188
SNP Position Genomic:     40184
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43984):
ACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGGTTCAGGGTTCCATAGGCTGCACAGGAAGCATGGCTGGGGAGGCCTCAGGAAACTTACA
R
TCGTGGCAGAAGGTGAAGGGGAAGCAGGCAAGTCCTACATGGCTGGAGCAGGAGGAAGAGAGAGGGGGAGGTGCCATACACTTTCAAACAACCAGATCTC
Celera SNP ID:            hCV26764062
SNP Position Genomic:     66411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43985):
GTGCATACCACTGTGTCTGACTTTTTATAAAAATACGTTTTAAACCTCTTTATCTACAGGTTCCCTCTCCATCTCTTTTTATTCCTATCCTCACCTTTGG
T
TTTTTTTTTTTTTTTTTGAAGAAACTCAGTTGTTTTTCTTGTGGAGTTTTCCAAAGTCTGGATTTTGCTGATTACATATCCATAGAGTTTAAGATATTCC
Celera SNP ID:            hCV26764063
SNP Position Genomic:     69223
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43986):
ACAAAATGAAAAGCATGAAATGATACAGTTTTTTATAAAACATGAAAACATGCATGGTAATATACATCACATTCAAGATAATGTTTGCTTCTTTTATTAA
T
TTTTTTTTTAATTTGAGACGATGTTTCACTCTTGCTCAGGCTGGAGTGCAGTGGTGTGATCACAGCTCATTGCAGCCTTGACTCCCTGGGCTCAAGTGAT
Celera SNP ID:            hCV26764064
SNP Position Genomic:     74486
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43987):
TGAGGCGGGAGAATCCCTTGAGTCTGGAAGGTGGAGGTTGTAGTGAGCCGAGATCGTGCCACTGCACTCCAAGCTGGGTGACAGAGTGAGATTCTGTCTC
A
AAAAAAAAAAAAAAGATACAGTTATGCAATATGATTCACCCATTTAGCATGCACAATTCGGTGGCTTTTAGGATATTCCCAGAGTTGTGCAACCATCATC
Celera SNP ID:            hCV26764065
SNP Position Genomic:     10520
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43988):
TAGCTAGGTCATTTTTATGGAGGGACTTTCAAGAATTATTAAGTGAAGAGAACAAGACACAGAAATATGTTTATAAAATCATCTCAGTTTTATAATGTAG
T
AATATAATATATAATGAGCATATATTATATATGCTTGTGTATGACCAAAATATGAACATGAAAAAATATGGAAAGATTCATTCTAGGCTGTTAACATGAG
Celera SNP ID:            hCV26764066
SNP Position Genomic:     75095
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,10)   total(T,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43989):
AGCTAGGTCATTTTTATGGAGGGACTTTCAAGAATTATTAAGTGAAGAGAACAAGACACAGAAATATGTTTATAAAATCATCTCAGTTTTATAATGTAGT
A
ATATAATATATAATGAGCATATATTATATATGCTTGTGTATGACCAAAATATGAACATGAAAAAATATGGAAAGATTCATTCTAGGCTGTTAACATGAGA
Celera SNP ID:            hCV26764067
SNP Position Genomic:     75096
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,10)   total(A,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43990):
GCTAGGTCATTTTTATGGAGGGACTTTCAAGAATTATTAAGTGAAGAGAACAAGACACAGAAATATGTTTATAAAATCATCTCAGTTTTATAATGTAGTA
A
TATAATATATAATGAGCATATATTATATATGCTTGTGTATGACCAAAATATGAACATGAAAAAATATGGAAAGATTCATTCTAGGCTGTTAACATGAGAG
Celera SNP ID:            hCV26764068
SNP Position Genomic:     75097
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,10)   total(A,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43991):
CTAGGTCATTTTTATGGAGGGACTTTCAAGAATTATTAAGTGAAGAGAACAAGACACAGAAATATGTTTATAAAATCATCTCAGTTTTATAATGTAGTAA
T
ATAATATATAATGAGCATATATTATATATGCTTGTGTATGACCAAAATATGAACATGAAAAAATATGGAAAGATTCATTCTAGGCTGTTAACATGAGAGA
Celera SNP ID:            hCV26764069
SNP Position Genomic:     75098
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,10)   total(T,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43992):
GCTATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTGGGCCAGGCTCGTGTTGAACTCCTGACCTCAAGTGATCCACCTGTCTCGGCCTCCCACA
K
TGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCAGCACTACACTTTCTAATGAGTTTTTATTGAAAAAAATTTTAGTTGAAAATGAAGCTGTTGGCT
Celera SNP ID:            hCV27480033
SNP Position Genomic:     62645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:43993):
TGAAATAGAGCATTTTGGCAGAGAAACTTTAGCTCTTTCTTTCTCTCTCTTTCTTCAACTTGGGAAAGAATAAGGAATAAATCTTTATCTTTTTTTTTTC
Y
TCTTCTGGCCAAGACCTAAATACCAGCATTTCATGATAATGGATAAGTTATCTTTGAAATTTTCCTTTTTTCTTTCAGTGTGCAGGATGACAGAATTCGA
Celera SNP ID:            hCV3088250
SNP Position Genomic:     76096
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43994):
TGAGAAACTTTCTAAAGTATCTTAACTCAGTTGTTTATAGTATAGCTTTACTTTACAGATAACTTTTGATGTTCTTAGATCATTAGATATACCTACATCA
R
TATACATAAGATAAGCTTCCAAAGGAAATACTCTTTGCTTTGGGAATACTCTTTCCTATCATCTACTAATTTTCATTATAGCAGCAGTCTTTTATTTGTA
Celera SNP ID:            hCV3088251
SNP Position Genomic:     73152
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43995):
CACTATCACAGTCGAGATGTGGAAGAATACTTTTACCCTAAAACTTTCCATGTGCTTTTGCAGTTGGTCCCCTCCCTTCACATCTGGCCCTAGGCAATTA
Y
TAATTTTCCACCAGTATATTTTACCTTTTACAGAATTTCAAATACAGGATATCTTACAATATATATTAAAATTTTTTGGCTTGATTTCTTTCACAAAATA
Celera SNP ID:            hCV3088252
SNP Position Genomic:     71782
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:43996):
CTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGCACTCGCCACCACGCCTGGTTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCA
K
GTTGGTCTTGAACTCCTGACCTCGTGATCTACCCGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACCGTGCCCAGCTGCCTTTGTCTGGT
Celera SNP ID:            hCV1398787
SNP Position Genomic:     12295
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43997):
GTGAATGTTTAAAAGCATTATATAGACTCTATTTCAGAATTGTGTTGACTAATAAAAAATGCTAGTTTTCCCTACCCCACACCTATCTTTCAACTGCTTT
R
TATTTATTTCTTTATTAGATAGAAAATTCCTCAGTAAACTTTTATTTAGAGTAATTCCTCTTTATGATTTTTTTGTTCTAAAGGTCGATTCTTAAAAGAA
Celera SNP ID:            hCV3088255
SNP Position Genomic:     66979
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:43998):
ATCTGGGTCAATTATATAATCATAGATAACTTAATTTTTTTGATGCAGTGGTATTTACTGTCCACCTCTAATAAAGCAGGTGAATCATAGACTACCATTG
K
ATACATGTCTTTGGAGCAGATTTCCATCCATTTTTACTCCAGTCCTATGGTGGCTACCGGTATTGTTCTTGTCGCCTGCTATTCTTAGTCTGCAGTTTGC
Celera SNP ID:            hCV3088257
SNP Position Genomic:     64439
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:43999):
GAAAATGTATTGTTTTGAACGAAGGTTCATTGGTACTTGGAAAATTTGGAGTAACTGGCAAGCTCTGATTAGTGAATGACTGCAATGGGTAAAACTAGCC
W
TAGAGTCACAGCAGGTTGTTTTAGCAGCTATCAGGTAAAATTGGTTTCAGGTTACAGTAGGCAGTTTCAGCAGCTAGGCTTGCAGAGAATTACATTTTTG
Celera SNP ID:            hCV1398789
SNP Position Genomic:     14575
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44000):
AAATTATCAGGAATTCATAAGAGATAGTAGACTGGTTATTCATTATGAGTGTGGCATTGAGGTTTAAAAAGTACAGCATGGAGATCAACTAATTGTATTA
R
AAATTATTAGGAAGATCAGTTATCTTTTATCTTTACTAGGTTAAGTTGATGAATTTGAGGAACAAAGTTTCTTCGTTATTGATAGTAGGATGGATTCTTG
Celera SNP ID:            hCV29226433
SNP Position Genomic:     122444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44001):
CTTTTTTGAAATGGGTTCACTCTGTCACTCAGGCTGCAGTGCAGTGGCATGATCATGGCTCACTGCAGCCTCGACCTACCTGGGCCCAGGTGATCCTTCC
W
CTTCGGCCTCCCGAGTAGCTGGGACTACAGGCACACACCAACCATACCCAGCTAATTTTTGTATTCTTTTAGGAATGGAGTTTCACCGTGTTGCCCAGGC
Celera SNP ID:            hCV3088258
SNP Position Genomic:     207495
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44002):
CACCTCCTCCTCCACAGGTGCAGCCGACCAGGTGGACCCTGGCGCTGCAGCGGCCGCAGCGCCCCCAGCGCCCGCCTTCCCGCCCCAGCTGCCGCCGCAC
R
TAGTAGGTTCTGTCTGGGACTGGGCAGGGCCATCGGGGCTGGGGGGGCGGGGCTTGTGGGTAAGGCGGGCGGAGGCGTGGACCCTCCGCCCGATGATAGG
Celera SNP ID:            hCV27863089
SNP Position Genomic:     6236
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:44003):
TGTGGGAAACTTTTTTGGTTGTTATTGTTTCACATTTTTTCTGTCTTCCTGTCTCTTGTGTCTCCTTCTGAGAGTTTATTACAGGGATGTTAACTACTTG
R
TGTTATCTGTTAAGTCATTGAGGCTCTTTTCATTTGTTTTCCAGGCTTATTTCTCTTTGTACTTCATTGTGGATAGATTCTACTGCTCTGTTTTCAAGTT
Celera SNP ID:            hCV3103260
SNP Position Genomic:     12584
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44004):
CACATTTTTTCTGTCTTCCTGTCTCTTGTGTCTCCTTCTGAGAGTTTATTACAGGGATGTTAACTACTTGATGTTATCTGTTAAGTCATTGAGGCTCTTT
Y
CATTTGTTTTCCAGGCTTATTTCTCTTTGTACTTCATTGTGGATAGATTCTACTGCTCTGTTTTCAAGTTCAGTGGTCTTTTTTTCTGCTATGTCTAATC
Celera SNP ID:            hCV3103261
SNP Position Genomic:     12614
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44005):
CCTTTTGCTCCTTTTTGCTCATGTTTTCCTTTACATTCTTAATTATATGGAGCATATTTATAAATTGTATTTTCTTGTTCTTATATGCTAATTGCATCAT
M
TCTGTCATTTCTGGGGCTGCATCCCTTGACAGATTTTTCCTATTTTTTGCATGTCTAGTAACTAATTATTTGGATCATGGATATGTTGAATCTGTGTTGT
Celera SNP ID:            hCV3103263
SNP Position Genomic:     12948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44006):
ATTAAATTCCTTTGGATCACTTTGGTCTTTTTAAGGATTGTTTTTAAACTTCGGTAGAGAATAATAGCCCTTACTCTAGAGCAACTTTAGTCACATTCTA
Y
GGCTTGACCTTTTTAGAGTTAGAAAGGGGTGCATAGTAGCAGTAGCACACCATTATATCGTATTTCCACAATACAGAGACAGTAGACATTAGTAACATTA
Celera SNP ID:            hCV3103264
SNP Position Genomic:     13202
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44007):
CCAACTTTAAAAGGTCACTAAAGTTAACTGGACAATAATCTAGGCAGACATCACTTTACAAAAAAGAGGGAAAGCCCAAAATGCCACCTTCTATAGAAAA
Y
GCACAGTACAGTTTTATTCAGAGCAAAGAAAAAAGAAACTTGATCATACTATGAGAAACTCAGCCATAGGTTTGGAATCCGTATTCACACCACACATTCA
Celera SNP ID:            hCV26764212
SNP Position Genomic:     97580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44008):
GATTTCAGCCTGTGTCTTAGGGAATCAGTCTTACTATCTTGTTACACTTTCTTTTGTTGTAAAAATGTAGAGAAAGAAACAAATGGAAAGCAATAGTCTC
R
AGCCCTTTATCAATTGCAGTTAAGGTTGCTTTAGCTTAGAAATGTTGTATGTTTATAGAAATGGTTGAGAGGAAAGCTTTAGAAAGCGATAAACAAATAA
Celera SNP ID:            hCV3103193
SNP Position Genomic:     38577
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44009):
CCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAATTTTTTATTTGGGAAGCAAGAATTGCAATTTGGGACATACAC
R
CAGACCAGGTCGTCTTTGGTATGTTTGAAGCACAAAGAGAAAATTGGAGGTTTTATTAAAAAGGAGAAATAAGCCAGGAGCAGTGGCTCACATCTGTATT
Celera SNP ID:            hCV3103269
SNP Position Genomic:     14172
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44010):
GTAGAGTTGTTTGAGCTCCTTATATATTGTGGTTATTAATCCCTTGTCACATGGGTGGTCTACATACATTTTCTTCCATTCCATGGGTTGTCTCTTCACT
K
TGTTGATTGTTTCTGTTGCTGTGCAGAAGCTTTTTAACTTCATGTGATCCCATTTGTCCATCTTTGCTTTGGTTGCCCTATTAAGAAATCTTTGCCCAGT
Celera SNP ID:            hCV3103197
SNP Position Genomic:     34953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44011):
TAGGTCATTTTTATGGAGGGACTTTCAAGAATTATTAAGTGAAGAGAACAAGACACAGAAATATGTTTATAAAATCATCTCAGTTTTATAATGTAGTAAT
A
TAATATATAATGAGCATATATTATATATGCTTGTGTATGACCAAAATATGAACATGAAAAAATATGGAAAGATTCATTCTAGGCTGTTAACATGAGAGAT
Celera SNP ID:            hCV26764070
SNP Position Genomic:     75099
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,10)   total(A,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44012):
TGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCGCCCCCCGGGTTCAAGCAGTTTTCCTGCCTTAGCCTCCCTAGTAGCTGGTATTATAGGCGC
M
TGCCACCACGCCCAGCTAATTTTTGTATTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCACGCTGGTCTCAAGCTCCTGACCTCAGGAGATCCACCCAT
Celera SNP ID:            hCV3103198
SNP Position Genomic:     46217
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44013):
GAGGCAGGAGAATGATGTGAACCCAGGAGGTGGAGCTTGCAGTGAGCTGAGATTGCTGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCATCTC
A
AAAAAAAAAAAAAAAAAGATAATAAAAAAATTAAAAAGTACTCATTTTAATATTTTATGAAATAGAGCATTTTGGCAGAGAAACTTTAGCTCTTTCTTTC
Celera SNP ID:            hCV26764071
SNP Position Genomic:     75938
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44014):
TTATGGTGTTAAAAACAGTTCACCCATAGGGTTTTCCAGAGCTAAAAGTAGAGGATTCTTTGAAGAGTGGATGGCAAGGAACCTTGTCATTCAGTTGTAA
R
GTTTAAATTGCTTCACATACGTCAGGCCTTCTCAGAGTAGAGATAACACATCATTTTCTAACCTTCCCGATATAGGCTACAGAAATTGACAGAAGAAAGA
Celera SNP ID:            hCV3020749
SNP Position Genomic:     7609
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44015):
TTCCGGGTTGTCAGCTTTTTCAGCTCCAAGTCTGGGTTTTATGCTACAAAAAGTAAACCTGGGGAACTCACCGTCATACTGTTCCTCACATCCCAAGTTC
M
CTAGCTGGTCTGCTTTCTGCTCACCTTTCAGAGTCGTCTTATGTTTGTTTGACATGTAATATGCAGGGAGTGGTACTTAGAGTAGGAGTGGGGAAACATA
Celera SNP ID:            hCV3103199
SNP Position Genomic:     47334
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44016):
AAAGAAGTATTAATGTTGGGATAAGGAAACTAACTTAGAAATCAGGCCCTGATGTGTTTAGAAGCAAATGAATTTGGACCTGGAAAGATGTGTCCTCCTC
A
TATATATATATATATATATATTTTTTTTTTTTCTTTTTTTTTTTTTAGATGGAGTCTTGTTCTGTTGCCCAGGCTGGAGTATAGTGGTGCGATCTCAGCT
Celera SNP ID:            hCV26764072
SNP Position Genomic:     81600
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44017):
AAGAAGTATTAATGTTGGGATAAGGAAACTAACTTAGAAATCAGGCCCTGATGTGTTTAGAAGCAAATGAATTTGGACCTGGAAAGATGTGTCCTCCTCA
T
ATATATATATATATATATATTTTTTTTTTTTCTTTTTTTTTTTTTAGATGGAGTCTTGTTCTGTTGCCCAGGCTGGAGTATAGTGGTGCGATCTCAGCTC
Celera SNP ID:            hCV26764073
SNP Position Genomic:     81601
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44018):
ATAAGGAAACTAACTTAGAAATCAGGCCCTGATGTGTTTAGAAGCAAATGAATTTGGACCTGGAAAGATGTGTCCTCCTCATATATATATATATATATAT
A
TTTTTTTTTTTTCTTTTTTTTTTTTTAGATGGAGTCTTGTTCTGTTGCCCAGGCTGGAGTATAGTGGTGCGATCTCAGCTCACTGCAACTTCCGCCTCCT
Celera SNP ID:            hCV26764074
SNP Position Genomic:     81620
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44019):
CGCCACCGCGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTAAACTCCTGGCCTCAAGTGATCTGCCC
R
CTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGTCCGGCCTGTCTTCCTCATATTTAATTCGAAATAAGAATAATACCAAACAATAAAA
Celera SNP ID:            hCV26764075
SNP Position Genomic:     81876
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44020):
TGAAAAGCCAGTTAAGTACGTATTTTTGAAAACCAAGGGAATAATAATAAAGTAAGAGATGCATAGTCCATTTTCACACTGCTGATAAAGACATACCAGA
K
ACTGGGAAGAAAAAGAGGTTTAATTGGACTTACAGTTCCACATGGCTGGGGAGGCCTCAGAAACATTGTGGGAGTTGAAAGGCACTTCTTTTTTTTTTTT
Celera SNP ID:            hCV26764076
SNP Position Genomic:     11391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44021):
CCATTTTCACACTGCTGATAAAGACATACCAGAGACTGGGAAGAAAAAGAGGTTTAATTGGACTTACAGTTCCACATGGCTGGGGAGGCCTCAGAAACAT
K
GTGGGAGTTGAAAGGCACTTCTTTTTTTTTTTTTTCTTAATTTAAGTTCTGGGATACATGTGTAGAACATGCAGGTTTGTTGAAAGGCACTTCTTACATG
Celera SNP ID:            hCV26764077
SNP Position Genomic:     11458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44022):
ACACTGCTGATAAAGACATACCAGAGACTGGGAAGAAAAAGAGGTTTAATTGGACTTACAGTTCCACATGGCTGGGGAGGCCTCAGAAACATTGTGGGAG
K
TGAAAGGCACTTCTTTTTTTTTTTTTTCTTAATTTAAGTTCTGGGATACATGTGTAGAACATGCAGGTTTGTTGAAAGGCACTTCTTACATGGCGGTGGC
Celera SNP ID:            hCV26764078
SNP Position Genomic:     11466
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,3)      total(G,3|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44023):
TAATTTAAGTTCTGGGATACATGTGTAGAACATGCAGGTTTGTTGAAAGGCACTTCTTACATGGCGGTGGCAAGAGAAAATGAGGAAGAAGGAAAGGTGG
R
AACCCCTGATAAACCCATCAGATTTCATGAGACTTATTCACTATCATGGGAATAGCATGGGAAAGACTGGCTCCCATGATTCCTCCCACTGGGTCCTCCC
Celera SNP ID:            hCV26764079
SNP Position Genomic:     11596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44024):
GGTTACAGTAGGCAGTTTCAGCAGCTAGGCTTGCAGAGAATTACATTTTTGGAGCAATGATATGTGCTCTCAGTGCTTTTTCCCCTGGCCTCTCTACTCC
R
TTTCAATTGAGTATGACAAGAATGACCCAATTTATATGATCAACTTTCACAATACTTTTTTTTTTTTTCCCAGCAAATACAACTCCAAGATCTTCATCCC
Celera SNP ID:            hCV1398790
SNP Position Genomic:     14725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44025):
AACACAGTGGCGCCCAGAAGCTTGGAGATTCCAGGAACTGCAGAGCCCCAGAGAGGGTGTCATAGACCTGGCTTAGGAGCCCCTAGGTCTGAGCTCCCCA
R
AGGTCCACAGCTCTTCTCTCCTGTCTTCTCTCCTTCTTGTTGCTGCAATGTGGCAAGCAAGAGATGGGTTTCAGGCCTGTTTGTGTTACAGCTCTTTTAG
Celera SNP ID:            hCV1398791
SNP Position Genomic:     19123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44026):
AAAGATGTAACTCAGAAACTTTAATCATTATAGAAACTACGTAGGAAATGATGAGTTCATGTCCTTTATAGGGACATGGATGAAGCTGGAAACGATCATT
Y
TCAGCAAACTATCGCAAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGGTGGGAGTTGAACAATGAGAACACATGGGCACAGGAAGGGGAACAT
Celera SNP ID:            hCV3088260
SNP Position Genomic:     207929
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44027):
AGGGGAATTTACTCCAGTGTTTATTGTGAGAACCAAGTGGAACTCCTGGGAGTAAAACTCACAAAAGTGTGCCCCCTTCCCCCATGACTCGGTTCCCCTG
Y
ACTTTTTGACTCTCAGACTTGTTGACACTGAGCCTCCAGCAATTGATCAGTTCCAGTTCCAGTTTTCCTACCCTGATACTGGTTCCTTCAGAGGTTTCTG
Celera SNP ID:            hCV3088262
SNP Position Genomic:     213190
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44028):
TGCTGGATCATGTGGTAGTTCTATTTTTAGTTTTTTGGTAGTTTTTTTTCAAACTACTCTCCATAGTGGTTGTACTAATTTACATTCCCACCAACAGTCT
R
TGAGGGTTCCCTTTTCTCCACATCCTCACCAGCATTTATTATTGCATGTCTTTGGATAAAAGCCATTTTAACTGAGGTGAGATGGTATCTCATTGTAGTT
Celera SNP ID:            hCV1398794
SNP Position Genomic:     34622
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44029):
TTACATGTATTTGCAATATTTAATTTTTAAAAAATTATACAGAAAATACACACACATGAATTTTTTATAATGTACTGCTATTTGACCTTCACTACCATCA
Y
AATCAGGTGAAAATGAGACCCATGCACATCTGTCTAGAAAGCCCATGTTGAACTTGAGAGCATCTGTTTTCCAGCACATCTTGCATTAGAAAGACAGAAG
Celera SNP ID:            hCV27502677
SNP Position Genomic:     104610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44030):
TGATTCATCTCAGTACAGATGACAGTCACCTGCAGAGTATAATTAGTCATCTTTTAAAAACGCCCAATATTTTCCCCAAAATATCATTTAACTTACTAAG
R
GCCATATACTGTACTGGACATAGGTTTTTATTTTAATATTATAAGGAAACTGAATCTCAGACAGGTAAAGTGGTTTGACCATGTCAACCACTTAGATGGG
Celera SNP ID:            hCV3088263
SNP Position Genomic:     216849
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44031):
TGCTTATAATGAATCAAGGCAGACTACTCACATCAACACCTAATAAACAAAGTCAGGAACTGTAGACCAGGAAAAGTTGCTATGAGAGCTTTCTAAGATT
R
CTGGAATGTATGCTATTTTTCTATGTTAGTTTTCTTTTCTTTAGTAATAAAATTCTTAAACCAAAGGCCTACCTGTTCATTCTTAGAATGTTTGAAAAAA
Celera SNP ID:            hCV27502678
SNP Position Genomic:     124134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44032):
CTTTTCACCACCATGCAATCTTGAAAAACACATCATAAATTCTCTTATGGAAGTAGTTTTGTATCTATTAATCTGCATCCAGGTTGACAAGAGGAGACTT
W
AGCTAAAACCCTTGGGACAAAGAGAATAGAGTTCACCAACAGGGAAGAAGAGGAGTCAGTGCCGCTAATACGCATTTGATGTGAACTGAAAACTAACCCA
Celera SNP ID:            hCV3088264
SNP Position Genomic:     217484
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,8)   total(A,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44033):
TTATGAAATGTAACAGGTGTACTAGGGTATGAAGTGAAACAAAAACACCCCATTCTCCCCAGGTCTACCATGTTTCTTTAGGTAACATTTCACAAGTCTA
S
AAGTATACATCTTTTCTTTTCTAAAATGGTATCATACTAAGCATTACTATTGTATAACTTGCTTTTGTTTCCTAATATGTGGGAGACATATTTCTCTATC
Celera SNP ID:            hCV27502679
SNP Position Genomic:     176215
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,528|C,959)   total(G,528|C,959) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44034):
TCTTCCTGCCTGGCCAGCTTTATTATCAGGCTAGTGACAATGACTGCAGCTCTTCCTGGCATCATGTCCAGAATGTCCAAAGGAAGAAGAGACAAGCATT
K
CCTGTTCACTCTTTCTTAGAACAAGGGAACTTTTTCTCAGATGCCTTCCAGTATCTCATGATTGCCTCATTGCATTTTCAGAATTGAGTAACAGGCTCCT
Celera SNP ID:            hCV3088265
SNP Position Genomic:     218856
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,5)   total(G,5|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44035):
ACATTACTTTTGATCAAAATGTTGTCAGAAATTAAGGCTGTAGACACTGCTGTGGATTAAATCCTCCCTTGAAACATGTCTCTCTTTTTTTTGTTCTAGA
R
GATGGACTGTGTATATTCAGTAATCTTCTCAATTGCAAATTATTTAAAAATTGAATTATATCATAAAAAATTATAGAAATTCATTTGCAAATATTTTCAA
Celera SNP ID:            hCV15792212
SNP Position Genomic:     134486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44036):
AGGAGGGAGGATTGTTTAAAGCCAGGAGTTCGAGACCAGCCTGAGCAACATAGCAAGACCTGATCTCTACAAAAAATATTAAAAAATTAGCTGAGTGTGG
W
GGCATGAACCTGTAGTCCTAGCTACTTAGGAGGCTAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTGATGTTACAGTAAGGTATGATTGTGCCACTGCAC
Celera SNP ID:            hCV3088267
SNP Position Genomic:     224166
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44037):
CAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAATTTTTTATTTGGGAAGCAAGAATTGCAATTTGGGACATACACACAGACCAGGT
S
GTCTTTGGTATGTTTGAAGCACAAAGAGAAAATTGGAGGTTTTATTAAAAAGGAGAAATAAGCCAGGAGCAGTGGCTCACATCTGTATTCCTAACGCTTT
Celera SNP ID:            hCV3103270
SNP Position Genomic:     14183
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,2)      total(G,1|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44038):
GCAATTTCCACATCAAATATCTCCGCATCAAAACTCAGCATCTTAATTGACGGCATGGTGTTTGAGCTTAAGGAGACCACTGGCCAGAGGCTCATGAGAG
Y
AGGGCGACATCAGCAAAGAAGAGGAAGGCAGAGGACAAGGACACTCAAGACATGGTTTGGATGATGATAATTACCAAATCTTTTCAGATTTAGTGGGTCA
Celera SNP ID:            hCV29226447
SNP Position Genomic:     98344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44039):
TGGCCATGGTGGCACTTGCCTGTAGTTCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCTCTTGAGCCTGGGAGGTCAAGGTTGGAAAAAGAAAATGTAT
Y
GTTTTGAACGAAGGTTCATTGGTACTTGGAAAATTTGGAGTAACTGGCAAGCTCTGATTAGTGAATGACTGCAATGGGTAAAACTAGCCATAGAGTCACA
Celera SNP ID:            hCV3103271
SNP Position Genomic:     14485
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44040):
AAAACAGTTCACCCATAGGGTTTTCCAGAGCTAAAAGTAGAGGATTCTTTGAAGAGTGGATGGCAAGGAACCTTGTCATTCAGTTGTAAGGTTTAAATTG
S
TTCACATACGTCAGGCCTTCTCAGAGTAGAGATAACACATCATTTTCTAACCTTCCCGATATAGGCTACAGAAATTGACAGAAGAAAGAAGAGACCATTG
Celera SNP ID:            hCV3020750
SNP Position Genomic:     7620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44041):
AAAGTAAAGAAAGTCCAACAAAAGGAAGGAGGAAGTGATCTGGGAATGTCTGGCAACTCTGGTGAGTTGTGGGGGATTCTTTTTTCTCCTCAGTCATGGC
Y
CTGGTATTCTGGAATTCTCCAGAGGGCAGAAGAGCGTATTAGAATTGTGTCTTTTTTCTTTGTGGAGAAAGGTCCCTTTTGTTCCTGAGCAGAGTGGCCC
Celera SNP ID:            hCV3020751
SNP Position Genomic:     7845
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44042):
GATCTGGGAATGTCTGGCAACTCTGGTGAGTTGTGGGGGATTCTTTTTTCTCCTCAGTCATGGCTCTGGTATTCTGGAATTCTCCAGAGGGCAGAAGAGC
S
TATTAGAATTGTGTCTTTTTTCTTTGTGGAGAAAGGTCCCTTTTGTTCCTGAGCAGAGTGGCCCCCTATAGGTGATGGTGATGTGTATAGGAGGTTAAGG
Celera SNP ID:            hCV3020752
SNP Position Genomic:     7881
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44043):
CTTTTTTCTTTGTGGAGAAAGGTCCCTTTTGTTCCTGAGCAGAGTGGCCCCCTATAGGTGATGGTGATGTGTATAGGAGGTTAAGGGGATGGTAGAGCTA
S
AATTCTGCAATTTAGCTGTAGTTCTCCCAACTTTCTCCTTTATTCCTTCTAGCTATTTTTGTCCTGGTTATAAAATTAAAACATTCTTGCTACAGAAATT
Celera SNP ID:            hCV3020753
SNP Position Genomic:     7996
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44044):
GCAGCTGCCAAGGGTGAGCCAGGAGTGGAGTGGTGAGGGTGAGGGGTGTGTGAGCAGGTGACCATGGGGTCTGGCCCCTGTGCACTGCCAGGCATGCTGG
Y
TTCGGCAGGGTGGGCAGCTCCAGGTGCCAGCGTGAGTGAGGGCTGGACCAGGCGTACCACAAACAGCTTCCACAGCTGGCACCAGGGAACACAGTGGCGC
Celera SNP ID:            hCV3103278
SNP Position Genomic:     18935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44045):
CCCAGCTACTCAGGAGGCTGAGGCGGGAGAATCCCTTGAGTCTGGAAGGTGGAGGTTGTAGTGAGCCGAGATCGTGCCACTGCACTCCAAGCTGGGTGAC
R
GAGTGAGATTCTGTCTCAAAAAAAAAAAAAAAGATACAGTTATGCAATATGATTCACCCATTTAGCATGCACAATTCGGTGGCTTTTAGGATATTCCCAG
Celera SNP ID:            hCV3020755
SNP Position Genomic:     10502
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44046):
CCCCTGTGCACTGCCAGGCATGCTGGCTTCGGCAGGGTGGGCAGCTCCAGGTGCCAGCGTGAGTGAGGGCTGGACCAGGCGTACCACAAACAGCTTCCAC
R
GCTGGCACCAGGGAACACAGTGGCGCCCAGAAGCTTGGAGATTCCAGGAACTGCAGAGCCCCAGAGAGGGTGTCATAGACCTGGCTTAGGAGCCCCTAGG
Celera SNP ID:            hCV3103279
SNP Position Genomic:     19009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44047):
GAAGGTGGAGGTTGTAGTGAGCCGAGATCGTGCCACTGCACTCCAAGCTGGGTGACAGAGTGAGATTCTGTCTCAAAAAAAAAAAAAAAGATACAGTTAT
R
CAATATGATTCACCCATTTAGCATGCACAATTCGGTGGCTTTTAGGATATTCCCAGAGTTGTGCAACCATCATCAAAGTCAATTTTAGAACATTTTCATC
Celera SNP ID:            hCV3020756
SNP Position Genomic:     10546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44048):
CTTCTTACATGGCGGTGGCAAGAGAAAATGAGGAAGAAGGAAAGGTGGGAACCCCTGATAAACCCATCAGATTTCATGAGACTTATTCACTATCATGGGA
M
TAGCATGGGAAAGACTGGCTCCCATGATTCCTCCCACTGGGTCCTCCCACTGGGTTACCTCTCACTGGGTCCCTACCACAACACGTGGGAATTCTGGGAG
Celera SNP ID:            hCV3020757
SNP Position Genomic:     11648
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44049):
ACATGGCGGTGGCAAGAGAAAATGAGGAAGAAGGAAAGGTGGGAACCCCTGATAAACCCATCAGATTTCATGAGACTTATTCACTATCATGGGAATAGCA
Y
GGGAAAGACTGGCTCCCATGATTCCTCCCACTGGGTCCTCCCACTGGGTTACCTCTCACTGGGTCCCTACCACAACACGTGGGAATTCTGGGAGATAAAA
Celera SNP ID:            hCV26764081
SNP Position Genomic:     11654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44050):
TATAGAGGGTTGTCTTTTTCTCTGGTTGCTTTTAAGATTTTCTCTTAATCACTGATTTTCATGTTTGATTTTCTTTCTGCCCCATATAATCTGCAGGAAC
M
CATATTTGATTTTGGTGGACCTTGTCTCTTTCCCCCACACCCGAGACAGCCTGTGCTGTCTAGCACAGGCTGGAGTGCAGTGGCACAATCTCAGCTGACT
Celera SNP ID:            hCV3020759
SNP Position Genomic:     12060
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,8)      total(A,5|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44051):
GGGCATGATGGCGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCGGGAGAATTGCTTGAAACTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGC
R
CCATTGCACTCCAGCCTGGGTGACTGAGCGAGACTCCGTCCCTCACCCACCCACCCCCCTAAAAAAGAAAAACTACTGTTTTAAAATGAGCTAAAAGACA
Celera SNP ID:            hCV26764083
SNP Position Genomic:     86907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44052):
GTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCGGGAGAATTGCTTGAAACTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCATTGCACTCCA
R
CCTGGGTGACTGAGCGAGACTCCGTCCCTCACCCACCCACCCCCCTAAAAAAGAAAAACTACTGTTTTAAAATGAGCTAAAAGACACTAAGAAAATGATA
Celera SNP ID:            hCV26764084
SNP Position Genomic:     86921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44053):
GTTTCATCATGTTGGTTGGCCAGGATGGTCTCCATCTCTTGACCTCGTGATCCACCCACCTTGGCCTCCCAAAGTGGTGGGATTACAGGCGTGAGCCACT
R
TGCCTGGCCGCATGTGTGTTGTTAATTACAGAGTAAATAACACTTGTTGCATATGTTAGAATCTTTTTTTTTTTTTTTTGCCGAGGCGTAGTCTCACTCT
Celera SNP ID:            hCV26764085
SNP Position Genomic:     91374
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44054):
CCTCCCAAAGTGGTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCGCATGTGTGTTGTTAATTACAGAGTAAATAACACTTGTTGCATATGTTAGAATC
T
TTTTTTTTTTTTTTTGCCGAGGCGTAGTCTCACTCTGTTGCCCAGGTTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAATCTCCGCCTCCCTGGTTCA
Celera SNP ID:            hCV26764086
SNP Position Genomic:     91438
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44055):
CTGTTGCCCAGGTTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAATCTCCGCCTCCCTGGTTCAAGTGATTCTTGTGCTTCAGCCTCCCGAGTACCTG
R
GACTACAGGTTCGTGCCACCATGCCTGGCTAATTTTTATGTTTTTTAGTAGAGACGAGGTTTTGCCGTGTTGGCCAGGCTGGTTTCGAACTCCTCACCTC
Celera SNP ID:            hCV26764087
SNP Position Genomic:     91573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44056):
CCAAGAGTTCTTCTTGATTGTCAAAACTTTATATCACCTAAAGTCAGAATTTCAAGCAATAATACCTGCTGTTAATTCCCACATTCAGTCAGACTTGCTC
Y
GGACCGTTATTTTAGAAATTCCTGAACTCCTCAGTCCAGTGGAGCATTACTTAAAGATACTCAATGAACAAGCTGCCAAGTAAGTACCAGACCCTGAATT
Celera SNP ID:            hCV25619882
SNP Position Genomic:     119532
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44057):
CTCTGCCCCGCCAAGTTTAAGCAATTCTCCTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGCACTCGCCACCACGCCTGGTTAATTTTTGTATTTTTA
R
TAGAGATGGGGTTTCACCATGTTGGCCATGTTGGTCTTGAACTCCTGACCTCGTGATCTACCCGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCATGA
Celera SNP ID:            hCV26764088
SNP Position Genomic:     12266
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44058):
TGTTTCATCTCCAGAAGTTCCATTTTGTTCTTTTAAAATATTTTCCAGTTCTCTATATGAATTATATCTCAGTAAAGCTAAAAAAAATTCCTTTTGCTCC
Y
TTTTGCTCATGTTTTCCTTTACATTCTTAATTATATGGAGCATATTTATAAATTGTATTTTCTTGTTCTTATATGCTAATTGCATCATCTCTGTCATTTC
Celera SNP ID:            hCV26764089
SNP Position Genomic:     12859
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2|-,5)   total(C,2|-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44059):
AGAAAATTTAAACTTTCCTCAATTCTGATTCTAACTTTTAAAAGTCACTAATTAAACTTCATTTTCATGTATCTTATGCTATTTCATAAAAAATATTTCT
R
TTTTCAGTGTTCTACCCAAGAGTTCTTCTTGATTGTCAAAACTTTATATCACCTAAAGTCAGAATTTCAAGCAATAATACCTGCTGTTAATTCCCACATT
Celera SNP ID:            hCV25619883
SNP Position Genomic:     119416
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,6)   caucasian(A,38)   total(A,52|G,6)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44060):
GCAATCCTTGGGGTGTTGCTTCGCCAGCTGTAAACCTCTGTGGCTGGTGGTGCCTTTGCCCGAGTTTTTACTTGGGCCTGCTGGGCTCATTCCTCCCACT
Y
GGCCTGGCAGGCTGTGCTTGGCTTTTGCTTTTGGCCTGAATCTCGCAGCTGCCAAGGGTGAGCCAGGAGTGGAGTGGTGAGGGTGAGGGGTGTGTGAGCA
Celera SNP ID:            hCV9966130
SNP Position Genomic:     18790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44061):
AAGGCATTCTCAGGTATAGGAAAATTGTTATGCAATCCTTGGGGTGTTGCTTCGCCAGCTGTAAACCTCTGTGGCTGGTGGTGCCTTTGCCCGAGTTTTT
M
CTTGGGCCTGCTGGGCTCATTCCTCCCACTCGGCCTGGCAGGCTGTGCTTGGCTTTTGCTTTTGGCCTGAATCTCGCAGCTGCCAAGGGTGAGCCAGGAG
Celera SNP ID:            hCV9966131
SNP Position Genomic:     18759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44062):
AAAAAGTACCTTTTCCCCTTGTCTTCAATAAATATTTATTACAGTGTTTATTTTATGCCAACATTATAAACTAGATGTTAGGTCTACAATGGGGTTAATG
A
GATGAGATAGACAACCTGCTTTCAAGAAGCTTCCAGTTTAGTGTGAGAGAAAGGTGTTGAAACTGTTATTCCGGATTTGGAGGATGCTGTGAAGGAGAAG
Celera SNP ID:            hCV26764300
SNP Position Genomic:     138583
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5)   total(A,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44063):
TGCACTGTTCAAATAAATTGAGTTTTTTTTGAAAAGTTAGTATCTTTACCTGATGTCCCGGTGAAGCTGAATTGTTTTAAACATTTGGGAACTACAAAGT
R
TACATGTTTCTGGGTTTTCTTTTGGATTGGGGTTCCCATTTCTGGGCCATTTTGCTTCTCTCTCACTCTCCCCTCTTCTTTTTGGTCACTAGATTTTTAG
Celera SNP ID:            hCV3103280
SNP Position Genomic:     20492
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44064):
AAAAGTACCTTTTCCCCTTGTCTTCAATAAATATTTATTACAGTGTTTATTTTATGCCAACATTATAAACTAGATGTTAGGTCTACAATGGGGTTAATGA
G
ATGAGATAGACAACCTGCTTTCAAGAAGCTTCCAGTTTAGTGTGAGAGAAAGGTGTTGAAACTGTTATTCCGGATTTGGAGGATGCTGTGAAGGAGAAGC
Celera SNP ID:            hCV26764301
SNP Position Genomic:     138584
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,5)   total(G,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44065):
TTGTTTTAAACATTTGGGAACTACAAAGTATACATGTTTCTGGGTTTTCTTTTGGATTGGGGTTCCCATTTCTGGGCCATTTTGCTTCTCTCTCACTCTC
S
CCTCTTCTTTTTGGTCACTAGATTTTTAGGCCATATTTTTCATTGTAGGGGGAGCTGGGTAAATTTTTAGAAGTTGGCAGTGACAGAGTGGCAATTAATT
Celera SNP ID:            hCV3103281
SNP Position Genomic:     20563
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44066):
TTTAGAAGTTGGCAGTGACAGAGTGGCAATTAATTAGAAGTTGGATTTAGCCAACTATAAATTTGTCTCATTTACATTTTTCTAAATTAAGTCTAATAAG
Y
GAGGAATTTTCCCTAAGCTGTGAATTGGAATTAATTATGGTTCCTCACAGAAAGGTAAGAATAGTAGGAGTACTAATGTTGAAAATGTGGCCTTGTGCTG
Celera SNP ID:            hCV3103282
SNP Position Genomic:     20729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44067):
TTTCCCTAAGCTGTGAATTGGAATTAATTATGGTTCCTCACAGAAAGGTAAGAATAGTAGGAGTACTAATGTTGAAAATGTGGCCTTGTGCTGTAAATTT
Y
TTAACAGCTCTTTCTCATGTTTCTTTACCAAGAGAATCATGGTTCTTTCTTTCTATAAGAATTTATAGAATGTGCTGTCTTTTACAGTGTGCTTGGAAGT
Celera SNP ID:            hCV3103283
SNP Position Genomic:     20837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44068):
GCAGCTTTATCTGTTGGCATGCTTTGCTCAAAGTGGTTTTGCCCTACTCCTGAGAGAGAGCCAGATTTGTCCCCATTGGCCTTTTGTGCATTACACACCT
K
AGAATAAATAATAAAAAGAAAATAAGTGTTAATAATAATAGATTTAATGAAATCAAATTTAAAAACAAGTATGTAAAACATTAAGATATTTAGACTTTCA
Celera SNP ID:            hCV3103284
SNP Position Genomic:     21052
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,5)   caucasian(G,7|T,19)   total(G,10|T,24)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44069):
CTTTCAAAATTTGCATAAAAATTCTATGATAGCTTACTTGGTTCATAATTTTTTTTAACCTTCTACTTTGAAAATATTTGTAACCTATGGATAGTTTGCC
K
GAATGCTACAATGTGCTTCTATAAACTTTTCATCTAGATTCACTAAGTGTTAGCTTTTTGCCAGATTTGCATTTTCCGTCTCTGGGAACTTATTATTGTG
Celera SNP ID:            hCV3103285
SNP Position Genomic:     21247
SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,9)   caucasian(G,25|T,13)   total(G,52|T,22)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44070):
TGGGAACCAGACTTGGTGGGAAAAAGTGAGGGGTCTCTATTGGAATGTTAGCGCTTATTCTCCGTGGTACTAGGCCAGTACTTTTTATCCATCCAAAGTT
W
ATTGGATGAGTCAATTAGTGAATAAACCGTAATCATGTAAATATGTTTTCTAATGAAGACTCAAGCAAGAAAACATTTTTGAGATGTATAGAAGTTCCTC
Celera SNP ID:            hCV3103286
SNP Position Genomic:     21870
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,5)      total(A,2|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44071):
CCGGGTGTGGTATCACGTGCCTGTAATCCCAGCTACTCAGAAAGCTGAGGTGGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATC
R
TGCCACTGCACTCCATCCAGCCTGGGCAAGAGAGTGAGACTCTGTCTCAAAAAAAAAAATTTTTTTTCAGACAAAACTTTCATACAAGTTGTATGTCTTC
Celera SNP ID:            hCV26764307
SNP Position Genomic:     139883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44072):
ACACCTTTGTTGGAAGTCATGAATGCTTGTGATGATTCTATAGTTTGGGACCTGGTTGGATTGTACACTAGAGAGTGATGAGGTAGCATGTCTGTGCTTC
Y
TGGATGGGAAGTAAAGACTTGGCCAACTTTTTTTCTTCAAGTTTCCTAAATCCTCTGTGGCAGGCAAGCAGCGTTCTCAAAGTCAGATGCATTATGCTAT
Celera SNP ID:            hCV3103288
SNP Position Genomic:     22634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44073):
TCCTGGATGGGAAGTAAAGACTTGGCCAACTTTTTTTCTTCAAGTTTCCTAAATCCTCTGTGGCAGGCAAGCAGCGTTCTCAAAGTCAGATGCATTATGC
W
ATGTTCTGTGATATTAAATTAGGCTCTGAGATAATGTCACCATGTTTTCTGAGGGCAGGAACAAATATGTAGTTGTCATCCCCTAGGCGAAGGAGAGAAA
Celera SNP ID:            hCV3103289
SNP Position Genomic:     22732
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,6)      total(A,2|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44074):
CTACATCTATTGAGATAATCATGTGGTTTTTGTCATTGGTTCTGTTTATGTTTCGGATTACACTTACTGATTTGTGTATGTTGAAGCAGCCTTGCATCCC
R
TAGATGAAGCTGACTTGATCGTGGTGGATAAGCTTTTTGATGTGCTGCTGGATTTGGTTTGCCAGTATTTTATTGAGGATTTTCGCATTGATGTTCATCA
Celera SNP ID:            hCV26764090
SNP Position Genomic:     194744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44075):
CCCTCTTTCTCTGTTGATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGTACCTCTGGTAGAATTCGGCTGTGAATCCGTCTGTTCCTGGAC
W
TTTTTTGGTTGGTAGGCCATTAAGTATTGCCTCAATTTCAGAACCTGTTACTGGTTTATTCAGAGTTTCAACTTCTTCCTGGTTTAGTCTTGGCATGGAG
Celera SNP ID:            hCV26764091
SNP Position Genomic:     195040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,5)      total(A,5|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44076):
TGATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGTACCTCTGGTAGAATTCGGCTGTGAATCCGTCTGTTCCTGGACATTTTTTGGTTGGT
R
GGCCATTAAGTATTGCCTCAATTTCAGAACCTGTTACTGGTTTATTCAGAGTTTCAACTTCTTCCTGGTTTAGTCTTGGCATGGAGTATATGTCCTGGAA
Celera SNP ID:            hCV26764092
SNP Position Genomic:     195054
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44077):
TGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGTACCTCTGGTAGAATTCGGCTGTGAATCCGTCTGTTCCTGGACATTTTTTGGTTGGTAGGC
Y
ATTAAGTATTGCCTCAATTTCAGAACCTGTTACTGGTTTATTCAGAGTTTCAACTTCTTCCTGGTTTAGTCTTGGCATGGAGTATATGTCCTGGAATTTA
Celera SNP ID:            hCV26764093
SNP Position Genomic:     195058
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44078):
AGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGTACCTCTGGTAGAATTCGGCTGTGAATCCGTCTGTTCCTGGACATTTTTTGGTTGGTAGGCCATTAA
K
TATTGCCTCAATTTCAGAACCTGTTACTGGTTTATTCAGAGTTTCAACTTCTTCCTGGTTTAGTCTTGGCATGGAGTATATGTCCTGGAATTTATCCATT
Celera SNP ID:            hCV26764094
SNP Position Genomic:     195064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44079):
TCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTAATGTCCCCTTTATCATTTTTTATTGCGTCTATCTGATTCTTCTCTCTTTTGTTCGTTATTA
R
TCTTGCTAGCAGTCTATCAATTTTGTTGATCTTTTCAAAAAACTAGCTCCTGGATTCATTGACTTTTTGAAGGATTTTTTCTATCTCCTTCAGTTCTGCT
Celera SNP ID:            hCV26764095
SNP Position Genomic:     195310
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44080):
CCTTCAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTTGCTTTTGAATTTGTTTGCTCTTGCTTCTCTAGTTCTTTTAATTGTGATGTTAAGGT
R
TCGATTTTAGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTAAATGTGTCCCAGAGATTCTGGTATGTTG
Celera SNP ID:            hCV26764096
SNP Position Genomic:     195497
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44081):
TTCTGGCATTGTTAACTTAGAGAAGCCTGTGATTTGCTCTTTGGCTGCCATCATAAAATACCTCAAAGAATTCAACTTGGAAAAGATGCTCTCCAAACCT
R
AGTAAGTGATTCCTCCAAAATTAAAAAAAGGGGGAGCTTATATTATGAACATTTCTTAAATTGAATTTGGTAGTACTATACTTAGAGAAGCTTGCCTGCT
Celera SNP ID:            hCV25619890
SNP Position Genomic:     79686
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,40)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44082):
TGTGGGTAACCGGACCTTTCTCTCTGACTGCCCTTAACATTTTTTCTTTCATTTCAACCTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCT
Y
GAGGAGTATCTTTGTGGTGTTCTCTGTATTTCCTGAATTTGAATGTTGGCCTGCCTTGCTAGGTTAGGGAACTTCTCCTAGATAATATCCTGAAGAGTGT
Celera SNP ID:            hCV26764097
SNP Position Genomic:     196897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44083):
CATGATAATGGATAAGTTATCTTTGAAATTTTCCTTTTTTCTTTCAGTGTGCAGGATGACAGAATTCGAGTCGAAAGGATGGATAACATTTATTTTGAAT
R
CAGCCATGCTTTCCAGGCAGTTACAGAGTTTTATGCAAAAGATACAGTTGACATCAAAGGTAAATATTTTCCCTGTATGTCCTCAAGTTGAACTGATTTG
Celera SNP ID:            hCV25619891
SNP Position Genomic:     76228
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44084):
TTTGGATTTTTTTCTGAGACAGATTCTCGCTCTCTTGCCCAGTCTGGAGTGCAGTGGTGCAACCTCAGCTCACTGTAACCTCTGCCTCCCGGGCTCAAGC
R
ATTTTCCTGCCTTAGCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACTACCCTTGCATAATTTCTGTATTTTTAGTAGATATGTGGTTTTGCCATGT
Celera SNP ID:            hCV26764098
SNP Position Genomic:     198665
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44085):
AAGGATGGATAACATTTATTTTGAATACAGCCATGCTTTCCAGGCAGTTACAGAGTTTTATGCAAAAGATACAGTTGACATCAAAGGTAAATATTTTCCC
Y
GTATGTCCTCAAGTTGAACTGATTTGAAATTTGGATAAAGGTATTAGTATGATTCTCAATTTAATGATGACTAGGTAGTTATTATAAATATGTGGGAGAA
Celera SNP ID:            hCV25619892
SNP Position Genomic:     76302
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,39)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:44086):
TACATTTCTTGGTCTTTCTCATTGCTGTTCTCAGAGATTTCTTTGAATTTATCTTCCAGGTTTAAAAACTTGGTCTAGGGCAGGGCACAGTGGCTCACGC
Y
TGTAATCCAAGTGCTTTGGGAGGCTGAGGCTGGTGGATCACTTGAGCCCAGGTGTTGTGACCAGCCTGGGCAACATGGTGGAACCCCATCTCTACTAAAG
Celera SNP ID:            hCV26764099
SNP Position Genomic:     199474
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 219
Celera Gene:                 hCG37187 - 146000220350063
Gene Symbol:                 NPC1
Protein Name:                Niemann-Pick disease, type C1;NPC
Celera Genomic Axis:         GA_x5YUV32W66L(2589859..2656985)
Chromosome:                  Chr18
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12379):
AAGGCAGGTGGATCACTTGAGTCCAGGAGTTTGAGACCACCCTGGGCAACATGGCGAAACCCCGTCTTTACTAAAAATACACAAATTAGCCAGGCATGGT
GGAGTGTGCCTATGATCCCAGCTACTTGGGATGCTGAAGCACAAGAATCACTTGAACCCAGGAGGCAGAGTTTACAGTGAGCCAAGATCACACCACTGCA
CTCTAGCCTGGGTGACACAGTGAGACTCAGTCTCAAAAAAAAAAAGTAGAAAACTCATCAAGCTGTACAGCTAAGTTCTGTATACCTCATATATGAATAT
TATATCTTAATTAAAAGGAAAAGTCTATTAACAAAAAGAGTTCTCAAAAATGCTCAACCTGAACCTCCTTAGGGGGTTGGCAGAAGCATTAACTAAAGCT
CTCCTATATTTCACCAAAATGTGTTGGCAATTCGTAGCCTGCTGGAGGAAGGGAGGTGTGAGCTGTTCCCTGTGTTCAGCTGGACAGCCTCCCACTCTCT
ATAGGCGCTTCTTTTAGAGCCAGCTCCACTGCTGGTCCTGGAGGTTTTTTGGGGAAGGCGATCAAAAAATTTACAATGTCCATGACTACTATAGGGAATA
GTTCTACGATGCTGGCTGCGAAAACCAGATCAACTTATTAGGCACAGTAGACACAGTGATAATTTTACTGTCCCATGAAAATGTTTTAATTTTAATTTCT
TTTGAAATCAGAACAAAAATAAGAATACTGTAATAATGAGCATATAATAATGAATTCAGCCAGCGTTATATGTGTCTTTATAATGCAATTGGAAACTCTC
ATTTTAAATTTTTTTTTTTGAAGGAAAAAGGGGTCCTTAAAGGCAAAGGTGCCTGGGGCCCACACAAGTCATAATGCAGCCCTGAGTAAAAGGAAAGGTG
CTAGGGACTGAATTGTGCTCCCCCAAATGTCTTGTGTTGAAGCCCTAACCCCCCAAGGTGACTGTATTTGAAGATAAGGCTTTTAGGAGGTAATTAAGGT
TAAATAAAGTCATAAGGGAGGGGCCTTAATTCAATAGGATTGTTGAAGAAGAGGAAGAGAGAGAGAAATCTTTCTCCCTGAAAGCACACACTTAAGGAAA
CACCATCTGGGGACACAGGGAGAAGGTGCTGTCTACAAGCCAGGAAGAGAGCCCTCACCAGGAACCAAATAAGCTCCCCATGCTGAWCTTGAACTCTCTA
ACCTCTAGAACTGTAACAGATAAATTCCTATTGTTTAAGTCACACCAGTCTTTGGTATTTTGTGCAATGGCCTCAGAYGTCACTAAATGACATTGATTAC
ATTCTATTACCCCAAAACCCTAGTTCTATCTTCATTTTCTGTTATTGAACTTTAGGCTTCAGGTTAGGAACTAGGCAAGCTTGCAATTTGTTAGGTAGGT
AGGCATTCTTTTTTTCTCTGCCTATTTGAAGGACTACCTACTTTGAAGGTTGCAGATCAGCAGCAGAAAAAAATTTTTTAAAAAGCTTTTTAAAAAAATT
TTAGAAGAAATCAAAGGTTTTTTTGGTAATAAAATTTTATTGGCTTGGCATGGTGGTTCATACCTATTATCCAGCACTTTGGAGGCTGAGGCAGGAGGAT
CACTTTAGCCAGGGAGGTCAAGGCTGCAGTGAGCTGTGATCATGCCACTAGACTACAACCTGGGTGACACAGTGAGACTCTGTCTCAAAAGAAAAAAGAA
AAAAGCACAGAAAAATAAATAAAATTACTTATAAATGTGTGAAAAGATTTTTAATCTCACTTATAATTAAAGAAATACAAATCAAAGCATCCTAATTTTA
TTTTATTTATTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAATGGCGTGATCTCGGCCACTGAAACCTCCACCTCCCGGGTTC
AAACAATTCTCCTGCCTCAGCCTCTTGAGTAGCTAGGATTACAGGTGTGTGCCACCACGCCCAGCTAATTTTTTTTTTTTTTTTTTGAGACGGAGTCTCG
CTCTGTAGCCAGGCTGCAGTGCGGTGGGGCGACCTCGGCTCACTGCAACCTCCAACTCCCTGGTTCAAGTGATTATCTCACCTCAGCCTCCCGACTAGCT
GGGATTACAGGCATGCACCACCACCCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCTAGGATGGTCTCGATCTCCTGACCT
CATGATCCACCCACCTCAGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCATCACGCCCAGCCTAATTTCTTGTTGCCCAGACTGCAGTGCAATGGCG
CAATCTCAGCTCCCTGCAACCTCCGCCTCCCAGGTTCAAGAGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAATTACAGGCATCCACCACCATGCCTG
GCTAATTTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACTTGCCTCGGCTCCCAG
AGTGCTGGAATTGCAGGCATGAACCACCGCGCCTGGCCAATTTTTGTATTTTTAATTGAGACGGAGTTTCAGCATGTTGGCCAGGCTGGTCTCGAACTCC
TGACCTCAGGTGATCCACCTGCCCCGGCTTCCCAAACTGCTGAAATAATAGGCGTGAGCCACCGTGCCCAGCCCCAATATTTTTTAAAATAAGAAACAAA
ATAAATAAAATCACAGATTGCATTTAGGTACTTCCATACATTGCTGGCTGCAATTTCTTTGGAGGGCAATTTGACAACAATCAAAACTTAAATACSCATT
TCCTTTGATCCAACAATATAAAAGTATTTCCAACAGTTCTATTTGCGCATGATTGCAAAGATTTACATCCAAGAATGGGCCAGGAGTGSTGGCTCACGCC
TGTAATCCCAGCACTTTAGGAGGCTGAGGCAGGCAGATTGCTTGAGCCCAGCAGTTCAAGACCAATCTGGGCAACATGGTGAAACCCCGTCTCTACAAAA
AATACAAAAATTAGCCAGGAGTGGTGGTGCACAGGTGGGAGGATCGCTTGAGCCCAGGAGGTAGAGGCTGCAGCGAGCCATGATCATGCCACTGCACGCC
AGACTTGGCAACAGAGTGAGACTCTGTCCCAGAAAAAAACATTTTTAAAAGATACAAGGATGTTCATTGCATCATTTCCAGTAACAAGTGACAAGCTAAA
TGCCCAAGAAGAGACTGATTAAATAAGTTACATAGTGGATCAAAAATTATTAACGTAAGTATTTCTAGCCTTCCCCTACCATCTGCCAGCTACAGATAAT
TTAGTCTTGGGTCAACTTTCTCCTCTCCCTCTACAAGGGAAATGTTCAAAAGTGTTTAGACTTTGGTGATGCAGCATGATTGGGAAAGYAGAGGGCACAG
AAAGATGCCAGGCTTTGTGGTCTCCAGGCAAGCTCAGGAATGTGACAAAGCATACCGAAAAGAAAAGCGGGCTGGGAGCAGTGGCTCACGCCTGTAATCC
CAGCGCTTCAGGAGTCTGAGGCTGGTGGATTGCTGGAGGCCAAGAGTTAAAGACCAGCCAGGCCAACATGGTGAAACCCCATCTCTAATGAAATCCAAAA
AAAAATTAGCTGGGCGTGGTAGCGCACACCTGTAATCCCAGCTACTCGGGAAGCTGAGGCATGAGAATCTTTGGAGCCGGGGATGTGGAGGTTGCAGTGA
GCTGAGATCATGTCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAGAAAAAAGGAAAAGGAAAGATAAATTTATAAT
GTATTGCCAGGACCACACAAACCCTTCATATGTACCAGGAATGCAAGTAGAGGAATTGAGTTATTTTGAAATACTTGTTGGCTGGTGATTTATATTTCAT
TGATTTAGACACTGCTCTGAGTATGGCTTCAGAAGTGTTACATACGCATAATAAAATCCTTTACAGCTATTAAAAGGAGTGAGGTAGGAAAGCATACTGC
TAAAAGCAAAGAAGCCAGATGAGAACTGTGTACTGTACATCCCCACTTGTTTAAAACGTTTGTATATTATATTCACATATGTATGCTTTCCACTACATAG
AAGTTTTCTGGAAGGTATTTCTGCACATTTATAAAGATGCACATCTAATAATTTCATTTCCCCCCATTTTCTACTTATTGCTCTGAGGTCAACACTGAAT
AGTCCTTATGAAGATGGTATTGAATATTCTTTCAACAAAAAAGTCTCCGGATCTCAACTACTGGAGCTCAGAAAACGATACCCCAAAGTAGGAGGCTTTG
GCATGCTAAGTACTTTGAACTAAAGGAGATTAGGTCTCAGTAGCAGCCTCAGAAACAAAGTCTACCCATGACTTTCTCCTGCCCTCCTGTCTCCAGCGGT
CTTGCACCCCTGAAGTAAGTCACAGGAACCAGAATTCTTCTTCCCCAAGGAGGGTTATGGAAACTTAGAACCTTCAAAGTAATTTATAAACTTGGAAATC
TTACTGTAACATTTTCTTCTACCTCTCTCTGTCTTTGAGACAGGGTCTTGCTCTATCACCCAGGCTGGAGTGCAGCAGCATGATCATAGACAACTGTAGC
CTCCTGGGCTCAAGCAATCCTCCTGCCTCAGCCTCCTTAGTAGCTGAGACTACAGGTGTGTGCCACTATGCCCAGCTAACTTAAAAAAAATTTTTTTTTT
GTATAGAGGGAGTCTTGCTACATTGCCCTGGCTGAGAATTTACATTTCTAACAAGTTCCAAGGAGATGCTCCTGCTGCTGGTCTGGGGATGGCCGTTTGA
GGATCCCTGCATGAAGGCATACACAGGACTTGATCCTCAGTGGGGGCACCAGGAGCTGGAGCCTGGGGAGTGGGAAGCGAGAGCACAGAGCTGACTGAGG
ACCACGAGGTCGTCGTGGAGGACCTAGGCTGAAGGTCCTGAAGAAATCCCCATAGTTTCACTGCCAGGCCAGCCAGGTGGACATCTCAGGGCTGAGGAGG
TGAGAAGGCAAGACAGAAAGTGAAACAGCACTTTATAGGATAGGGATGGGAAGGTCATCTGCATCATGGGACTCCTTGGGGAGGGGTTCGGTCATTGCTC
CAGATGAAGGTTTAGTCTTTTCATCGTAAATTTGCTTTCACTGTTGGGAAAGAGATCTTCACCTCCATTTTCTTAACTTCAAAATGGAAATGACAGATGC
TTTTGAGTGGTCTGAATACTTGAAATTTGAGGGAAAACGTTACCAGAAACACATACAACTAGAGTTAAAGATAAATACATATATCAAACGCATGGCTCAA
AAATGACAACGCGTCTTCTTTATCTGCCTTCACGTAGAACTTAAAACAGACCCTGGTCCCCACCTCGGGRTTTCCTCGCGCCCACGGGCTGCGCTGCGCA
GCTGGGCCAGCAGGTGGCGAGGCTCCCGCACTTTTTTTCCCGGGCCTGGCCGCACCGCCACCGCCCACCCCGCGCTCCGCCCCGCCCCGCCCCGCCGCAC
TCGCGGATCGTCACACGGTCAGGCCACCGCGCGTCACCGCCCCGGGCTCTGCTAGAAAGTGCCGGGGTCCAGATTCCTTTCAGGTGACTGGGTTGGGAGG
AGAAGTCGCTCAGCGTAATTGTCGGAGCCGAAATAAACAGAGACTCCGCGGCCGGGCGGGACCTTACCCGGAAGTCCCCCAGAACAGCACTACCCTTCGC
TGAAACCTCGCCCGCCCCCTCCAACCCAGAGACGAAAAGGGAAAGCATCACGGCCAGAAACCGTTGGCACAACTCCACAGATACTCTCCCGGGCCGAGCC
AGACTCCATAAGTCCCGCGCCTGGCCCCCGGGGATTGCAGGGGCTGAGGAGAAGGGCAACACGGGGACCTTGAAGCGGGGTCGCGGSGGCGCCCCAGCCC
GGGCCAGGGAGTCCCGGCAGCGGCACCTCCCAGAAAGGGCGGAGCCGACGACGCCTTCTTCCTTCCTGACCGGCGCGCGCAGCCTGCTGCCGCGGTCAGC
GCCTGCTCCTGCTCCTCCGCTCCTCCTGCGCGGGGTGCTGAAACAGCCCGGGGAAGTAGAGCCGCCTCCGGGGAGCCCAACCAGCCGAACGCCGCCGGCG
TCMGCAGCCTTGCGCGGCCACAGCATGACCGCTCGCGGCCTGGCCCTTGGCCTCCTCCTGCTGCTACTGTGTCCAGCGCAGGTGAGCGGTCGCCGGCCAC
CGGGACGCCCTGTGGGGACGTGGCGGGGCCGAGAGCCGGGGAAGGCGACGGGCCCAGCGACGGCTCAGGCCCGGGTCCTGGGGAAGTTGGTCTGGCGATG
GAGAGCTCGGAGGTTCCTCACTTGTCCTGTTTCTGTCTCCGGCCACGCTCTCTTTCCTGTGGTCTGGAAGAGGGTGGCAGTGGGGGCTTGGGTGACCTGT
TCTGAGCTTGTTCCATCTGTGGTCACCTAATTTCTCTGTGTAGGATGTGGCACCAGAAGAAGGGAGGAAAGTGGGTAGAGTGGGATAGGGACACTACTTG
CTTTTTAAAAAATTCTGCTACATGCGCACGAACTCCAAAATTTAGGAGCTCTAACCACTTTATTTCCTCTTCTCATCACCTGAGGATGGAGGTGGAAGCA
GAGGTAAAGAGACACAAACTTCCTCAAGCACCCGGTGAAACTGCCTTGAGTACTTGACATAAGTCAGCTTGGTCTTCTAAAGAGGGCAGGTTACTTTTCA
TCAACTCCTTTTTACACCTCAGGACACTGAGACTCACAGGGCGGTATTGAATTTCCCCTTGTCACTATTAGCCAGCGACAGGATGGGGCCTGGAACTCGG
TGTCCTGCTGACTCCTTCTGGGGGCTTTTGCTTGGTTTAATAGCTTTGGGAAAGAGCACCTCAGTATTTGTGTGTCTGTAGTTTCCTCTTTTAAAACTGG
AGTGGGGCAGTGTCACGCTGTGACTCGTTAAACCAAATCAGGATGAGAGTGCCTCCGGGGAATTGTGTCCTTGTGCACATTAACGCCCCTCACATAGGTG
TGGCGTCAATAGGAAGTGGTGARTCAGGGGAGAGGGGGTTCCGTGGACTAGAAAAAACTCTCCTTCGACTTCTATTTAGTTCTCAGAAGGGGATAGGTGA
TGTTGATCCAATAATGGACTAAGAGCCAGGAGAAGGGCTCCGCGGGAGGATCTCTTGAGCTCAGCAGTTCAAGACCAGCCGGGGCAACATGGTGAAACAC
CGTCTTAAAAACATTTTGTTTTTCTTTTCATTGTTGAGGTTGAGGCTGCTGTGAGCTGTGATCACGCCRGTGTACTCCAGCCTGGGCAACAGAGCAAGAC
CCTGTGTCAAAACAAAAAAGAGAGAGAAATAAATAATAGCAATTATGTGCCKTAGAGAAAATGTGGCTATTCTGTTTCCCTAGAGTTTTTTAAAATTTAT
TTTTAAAATTTATTTATTTTAGAGACAGGTTCTTGCTSTGTTGCCCAGGCGTGGGGGCAGTGTCGCCATCATAGCTCACTGCAGCCTGGAACTCCTGGCC
TCAAGCAGTCCTTCCACCTTGGCCTCCCAAAGCACTGGGATTATTGTGAGCACCACTCCTGGCCCCTCCTAGAGTTTTAGATCAGGACCTTAAATAGGCT
TCCCTTTTTTTTGGAGACAGAGTCTCTGTTGCCCAGTCTGGAGTGTAGTGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCTGGATTCAAGCAATTCT
GGTGCCTCAGCCTCCCAGGTAGCTAGGATTACAGGTGCCCACCACCACGCCCAGCTAATTTTTGTATTTTCCGTGGAGATGGGGTTTCACCGTGTTGGTC
AGGCTGGTCTCGAAATCCTGACCTCTAGCGATCCGCCCTCCTCTTTTGGGGATTACAGGTGTGAGCCACCTCGCCCAGCCAGGCTTCACATTATTAAGTA
GCCATCTCTTAAGTATTTTTTAAATCTCAAGTACCCAAGGCTGATGGCCAATGAGTGCTTCTTTTATGACATTTGGGATAGGTCAGAGGTTTGTTGTAAG
TCTCTTGCAAAAATGCCTGGAGGCCTTTTCAAGGTCTGTAAACCTTAACTGGAAATAATCCTATTATTATTTTAAAAATTCCTCATGTCTGAAAGCTTTC
AGTGCACCTGAACAGATTGGGGTGGAGCCATGAAGCCAAACAGATTGGGAGAGAGAGTGTGTCTGCTTTTAGAATTCGTACCGATGATAGCAGCTCATTA
GCTTCAGTCTGAGCGCTAGTAGAGTTCTATCATGGAATTATGGACTAGTTGTCCTGTGTAAGATCTGAAATACATGTTGGGGGGATTTTTGCTTTTTCTT
AATGTTCAATATGTACAGATGATGTAATAACATTACTAGACTGCCTTGTTTTTAAAACCCTGTAGTCATCTAAAAACTATATGCAGTTTTGAGACATAGC
CTTTATTTTTCCCGGCTGTAATTTTGGTAAGCTTTATCTTGAGGGACTTGGAACATAGAGAAGCCTGGGTAGAAATTAAGCATTAAAATGGCTTTTCCTC
AGAAGACTGGGAATGGTTAATCTTTTGACCTGTGAGTGATTAAGAACAACCATCTGAAATTGGAATGACTGTGGGAAATCTTTCCCCATCTTTCCCACTC
CTTGACTGATGCTGTGATCAGAAATTTTACTAACATAAGTAATCAAGGGGAAAATGAGATTTTTTTAAATTTGAGCCAGTGGGCAGAGGGAAAAGGACTC
GCTGAATAGGCCTTTGTATTCCTCCAGTGTTTGTTATATTACCCAGAACAAAGAATCACTCTGGTCATGAAGACAGTGTGCTCTCTCTTTCCTGGGTAAC
CCTCCACTCCTAAAAGGGATGCAGTATTCTAAGCATGGCAGATTACCTACAGCGGAAGCCTGGATCAGTCATCTCTGATCTCGGGTGCCCCTTTCTGSCC
TTTGACCTCCAGCTCTGTGAAGGGCATCAGCTCTCCAGTCAAATTGAACTGCTTGCTAGCAAAATCCTGCCCATCTTCCAGGGCCCCATTTCACATGCTA
MATTATCTACGACATYCTTGTCCTGTTSCCCTAACTAGAATGCCTTCCCTCTGAAGTTCTGAATCTTTATTTAAACTGCTGCAACAGCATTTGCTGCCTC
ATTAAAAGACCTTGGTGTGGGTCTTGACTCTTCTCTGTTCCCAAGAGTGATCTTGGGTAAGCCAGTTATCCTCTGGAGCCTCAGTTTCCTCCTCTGTAAA
ATTGGATTAACTGTGCCAACTATGCTTGTGAAAGACAAATATTTCCTAATTGAACTACCGAATTGCAGGCTCCTTAAGAGCAATAACTGTTGCTCTCCAA
TATCATCTACAAATGTGGCCAGGACACTTGACTTGGGACTCTTTTTTTTTTTTTTTTTTTTTGAAACAGGGTCTTGCACTGTCCCCCAGGCTGAAGTGTA
GTGGTTTGATTGTGGCTCACTGAAGTGTTGACCCTGGGCTCAAGCTATCCTTCCACCTCAGCCTCCCACGTAGCTGGGRCTGCAGGTGCATGCCACCATG
CCCAACTAATTTTTAAATTTTTTGTAGACACAAGGTCTTGCTGTGTTGCCCAAGGTGGTCTTGAATTCCTGGGCTGGAGATCCTCCCACCTTGGCCTCCC
AAAGTGCTGGGATTACAAGCATGAGCCACCGTGCTGGCCCTGGAATCTTTTTTTTTTTTTTCAAGACCAGGTCTTACTTTGGTTGCCCAGGCTGGAGCGC
AGTGGCACGATCTTGGCTCACTACAGCCTCGACCTCCCGGGCTCAGGTGATTCTCCCACATCAAGCCTCCCGAGTAGCTGGGACTATAGGTGTGCACCAT
CATGCCCTGCTAATTTTTTGTATTTTTAGTAGAGAAGGGGTTTTGCCAGCTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAAGTGATACCATCCACCTC
CGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCTGGCCCACTGGGATTCTTTGATCATAAGATATTTGGGCCTTGAAATGGATTTTGGGG
AGAGACTTAGAAACTAGTGGCAATCAAAATTGGATTTGCAGTTGGTTTCTAGGTGATGGCAGTGATCAGCTGCGGCCAGCCAGGTTTTTCTTCATCTGGA
CTGTGCCTCTCACTTTCAAATTTTTGGAACATTTGCTTTGGCARCAAAACTTTYAAAAAACCAACTCTCTCTGGTGCAGGTGTTCTGTTGGAGGATTTGA
GAGAAGCTTTAAAATTTTATCTTATTACTGTCCCTTGCTTAGGTCACAAGAGGAGCTCAAAATAATTTCATAAACATGAATTGGCTTCCCTAGACACAAC
AAAGGATAAGATCAAAAGAATTAACCCATTTAAAAAAATCAGTCTAGGCTGGTCCTAAGGTAGTGTGTTATCAATTGATCAAAGTCAGTTACAGATCGAA
CTCCTTGATCTACTCTTTCCTCCTGCTCACTACTGCACTTGACTAGTCCAAAACAATAAGTAAGTAGTAAAAAAAAGAAAAAAAGTCCGTCTATACACTG
TAAAGTGCTGTGTAAATGTTCATAATTACTATCACTGTCTTCTTCATAGTTGATGGRGGGAAGGCTGGATACATAAAAAAATGGTAATACAGTAAGAAGT
GCTCAGATAAGAATAAAGATAAAATGTTATGGAGAGTCCATTTTTGAGCTGAGCTATGGAGGATGAATTAATGTATCAGGTGGACAAGAGGAAAACTAGA
GAAAATAGTCGGGAGAGTTGCCTAATTGTTGCCCTAAACTATTGAACTGTTCACTTGAAAAGGGTGAATTTTATGGTATGTAAATTACATGAGTAAAGCT
CTTAAAAAAATTTGCAGGGTGCTATATACTAGATTACATAAGACTAGAGACAAAAGCTACCCAAATTTTGCATAGTACTCCATTGCTATCACATCCGATC
TTGTTTTATCCTCACAGAGCCCCTTTAAGGTAGGTGTAATGCTGTTTTTCCTATTTTATAGATGCAGACATCAAGGGTCAAATTTGTCCCAAGGTCACAT
AGCTAGTAGATGGCACATTGGGTGCTTCAACTGCCATCTTCTGACTTCTGTGCCCTAGTTTTTTGAAATTCAAGGCTAGATTATTGGTGTTTAGCAAGCT
TAATTGAATGGGTGTTCAGCAGATATTCCACTTGGTTAGTAGAGCAGTCTCATTCAAGGCCTGGTTCCGTCCCCAGTGTGGCTCTTCCAGTAGTCCGTAA
TAGATCAGGAATGGGTTTAGCCTGCTGGCCTGACCCCTGATTCAGTCACCACACTGTGAACATTCCATAGGGAAAAAACTGCAGACAGTGTATACTGRCA
CCCACTTTCATAGTTTTGTTTTAGTTTTGTGGCTCCTAAATGTCTAAGACTAACTAGTAATATGACCTTGGGTGAGTCACATAAAAAACCAGAAGCTAAA
GGGGTTATCTGTAAAACGAAGAGTTGGACTAGCTGAGCACACCTAGCACTCAAAATATATGACTTAAACACCCACATGCAGGCAGGCCTGGTGCACACAC
AAATTATCCTTTGTTATGTAGATACGTTCATGCCAGGTTGGCTATAAAACACTTCCAGAGATTTCCGTCAATAGAAGTCAGACCAGCCCGGCAGCCTCCA
CCCTAAATGCCCTGCCATATTTGTTTGGTCTGCCTCCCTGACTCCAAAGAAGCAGCAGGCAGCTTAATCTCTGGACAGGATTCTTCATGCCACTCCCTCC
ACTCCAGCCTGTGTTGTCCTGACTGGCCAGGCCAGCCTCTGCTCTCTGGAGAAGCAATGAGGTAGGGAAGTTAACCAGCAAGCCCCTCTCCTCCATCGCC
TCACTGGAGCTTGAGCTGGGTATCTCTCCATGTTTTGCCATTAGCTTTACCCATCCAGGACAGGGGCACAAGTGTTGGTGCCAAGCCCTGCACTCCCAGC
TCTGGTGGATGGCCAAGTCCTACCCTGGGGTTGAGGACTGTCAGTGATACTGAGTAAGGGAGTCATTGCTTGACAACTGCCTAGAGAGATACTTTAAAAG
ATAGGAATGGGAGGCATTATTTCTACAAGTGAACAAGTTTATATTGAAGGAACACTTGTATAGGATCATCATGGATGGGACAGTTCATCTCCAGTGCATT
CTCCAATTCTGAGGATACATCACTGCACAAACTGGACTAGAGTTTAAATGGTACAGAAGCTGGGGGTAGGGGAGGCAGGAGGACAAGGGGGATGGGTGGA
GAATGCTTAACTTGGTGTTCAAAATCATGTTATTTATGAGCCATGTGACCTCAGAGTATCTTTGAGCCTGAGTTCACTTACCTGTAAAATTCTGCTGTGC
TACTGCATAGAGTATCTGAGAAAATGAGGCATGCAGTCGATGTTTGGTATTTTTGTTTCATTTATTTATTTTACTGCCATGCCTCGAGAACAATAGATGT
TCAKTAAGTATTTGAATATGTTAGTTAATGCTTTAGGATTTCCTAAAGGCAGTGGAATAGAATTCTCACTGAGTTCAGAGCTTTTCTGATAATAATGTGT
GCTTATGGAGCTCCTGAATGGGGTCCAATTTAGCAGTTGCTATAGTTGCTGAGATATAGCACAAGGGGCATTTTTTTTTTTTTTTAGATGGAGTCTCTCT
CTGTTACCCAGGCTGGAGTGCAGCGGTGCGATCTCAGCTTACTGCAACCTCCGCCTCCCGGGTTCACGCCATTCTCCTGTCTCAGCCTGTAGCTGGGACT
ACAGGCACCTGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGGCAGGATGGTCTCGATCTCCTGACCTCGTGA
TCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCTGGCCTAGAAGGGGCTTTTTTTTAACCTTTCCTGAACTGTTCCTR
TCGTTGAAAGAAGCTTCCCTATCCAGTCATTTTCTTAGTAATTAAACTCTAGAGCATGTTGTGAAATATCCATATGATCTAACCTTTAAAAATAGAAACT
CTTTAGCTGTGTAACTACTAAATTCTGGGTAGAAGCCAAAACAATCAGCACTTCTCATTTCTGAACTTAGATAATCCARTTGTACTCCCTCAGCTCATTG
TGAGTTTTGACAAGTTCTGCATCCATGAACACCAGATGTAATACAATAGGGAATTTCAAAGGAAGGATTACACACCTAGGCTCTGCCCTCTAGGATTTTA
CCGTCTTACAAGGGAGTTGAGACAAAAGTGAGAAAATACTCTGGCAACTTCTCCCAACATCACAACTTTGCAATTCTCATAAATTTTGCTTGATCCTAGG
GCATGACCAAGGCAGAGGCAGGCAGGTCCTACTTCATGTGGGAGAGAAGGAAGGAAGGGTAGGCAGTTAGAGTGATAGGTTTGGAATACTGTAGAAAGGA
GAGTGGGCAGAGCCAGAGTGAGGTGTCTGAAGCTTGTCGCACAGGCAGTGGGAAGGGTGGGTTGGAGGTTTCTGAGCACCAGAAAACTTTGAGCATTGTT
CCGGAAGAGGCAAGCGGCAGGCATCTGCACCAGAGACACTGCCGGGTCCGAGTGAGGGCAGGAGGCTGCACGAGGGAGCCTCCCTGGGAGTGAGCGATAG
GTTCGCTATGGGAGGTGGGTTYGAAAGGTGCCTGAGATTTTCATTTGAAACTCTGTTGAAGAGGAATTGGCAATAGAGGAGGAAATACAAATAGAGGAAA
GATTGGTTTCGTCTTAAGCACTGAGGCTGTTGGGCAGCTAGTGGAAAGTGCTGCTGGAGAGAAGCTGGAGATCACTGAAGCTGAGAGAGGGGTTTGTGGA
TATAATTAGAGCAGTGTTTCTAGGGAGGTGCAGGTGAAGGGACTGAGAGAGAGATGAGGTTAAAAACACAGAAGAGAAAGAGATGGAGGTGTGGAGGCCC
CTGAGGTGGAGCAGCTGCAGAGGCAGGCCTGGGGGCCAGGAGGCTGGCTCTCCACTTTCAGCTGTTGGTGAGAAGGGAGTGAAGGCTGAGCAGCTCCCAT
TGTGCAGCTGTTGAGTGCACAGGTGCTCGTGCTCTTGCACACGGTGGGGTTTGGGGAGGGTGTGATGCTACAGGGAGGACTTTCATGATGCAGCTGATTC
TCTTTTATTGAGAGTCTGTTTCTGGAGTCACCTGCTCTGTTTTGAATCCTGGCTTTGCCACTGTGACCTTGGACAAGTTGTTTAGCCTCAGTGCCTTCGT
TTCTGCATCTGTAAAAGGGGTATAATAACGCCTCCCTCATCAAACTGTTGTAGGATTAATTGGGTTAACATATTGAGAGGTGACAGCGTGCTGGCAGTCC
TCAGAGCCCTTGCTTGCTCTCGGCACCTCCCCTGCCTGGGCTCCCACTTTGGTGGCATTTGAGGAGCCCTTCAGTCCCCCACTGCACTGTGGGAGCCCCT
TTCTGGGCTGGCCAAGGCCGGAGCCCACTCCCTCAGCTTGCAGGGAGGTGTGGAGGGAGAGACACGAGCAGGAACCGGGGCTGTGTGCGGCACTTGCGGG
CCAGCTGGAGTTCCGGGTGGGCGTGGGCTTGGTGGGCCCCACACTCGGAGCAGCCAGCCAGCCCTGCTGGCCCCGGGCAATGGGGGACTTAGCACCCGGG
CCAGTGGCTGCAGAGGGTGTACTGGGTCCCCCCAGCAGTGCCGGCCCACCGGCGCTGCGCTCGATTTCTCGCTGGGCCTTGGCTGCCTTCCCACGGGGCA
GGGCTCGGGACCTGCAGCCCGCCATGCCAGAGCCTCCCACCCCCTCCGTGGCCTCCTGTGCAGCCTGAGCCTCCCCGACGAGCGCCACCCCCTGCTCCAC
GGCGCCCAGTCCCATCGACCACCCAAGGGCTGAGGAATGCAGGCGCACGGCGCAGGACTGGCAGGCAGCTCCACCTGCAGCCCCGGTGCGGGATCCACTA
GGTGAAGCCAGCTGGGCTTCTGAGTCTGGTGGGGACGTGGAGAGTCTTTATATCTAGCTCAGGGATTGTAAATACACCAATCAGCACCCTGTGTTTAGCT
CAAGGTTTGTGAGTGCACCAATCAACACTCTGTATCTAGCTGCTCTGGTGAGGACGTGGAGAACCTTTATGTCTAGCTCAAGGATTGTAAATACACCAAT
CGGCAGTCTATCTAGCTCAAGGTTTGTAAACACACCAATCAGCACCCTGTGTTTAGCTCAAGGTTTGTGAGTGCTCCAATCGACACTCTGTATCTAGCTG
CTCTGGTGAGGACGTGGAGAACCTTTATGTCTAGCTCAAGGTTTGTAAACACACCAATCAGCACCCTGTGTTTAGCTCAAGGTTTGTGAGTGCACCAATC
GACACTCTAGCTGCTCTGGTGAGGACGTGGAGAACCTTTATGTCTAGCTCAAGGATTGTAAATACACCAATCGGCACTCTGTATCTAGCTCAAGGTTTGT
AAACACACCAATCAGCACCCTGTGTTTAGCTCAAGGTTTGTGAGTGCACCARTCGACACTCTGTATCTAGCTGCTCTGGTGGGGCCTTGGAGAACCTGTG
TGTGGAAACTCTGTATCTAACTAATCTGATGGGGACGTGGAGAACCTTTGTATCTAGCTCAGGGATTATAAACGCACCAATCAGCACCCTGACAAAACAG
GCCACTCGGCTCTACCAATCAGCAGGATGTGGGTGGGGCCAGATAAAAGAATAAAAGCAGGCTGCCCAAGCCAGCATTAGCAACCCGCCCGGGTCCTCTT
CCATGCTGTGGAAGCGTTGTTCTTTCGCTCTTTGCAATAAATCTTGCTACTGCTCACTCTTTGGGTCCACACTGCTTTTATGAGCTGTAACACTCACCGC
GAAGATCTGCAGCTTCACTCCTGAGCCCAGCGAGACCACGAGCCCACTGGGAGGAACGAACAACTCCAGACRCGCTGCCTTAAGAGCTGTAACACTCACC
GCGAAGGTCTGCAGCTTCACTCCTGAGCCAGCGAGATCACGAACCCACCAGAAGGAAGAAACTCCGAAAACATCTGAACATCAGAAGGGACAGATTCYAG
ACGCGCCACCTTAAGAGCTGTAACGCTCACCGCCAGGGTCCGCGGCTTCATTCTTGAAGTCAGTGAGACCAAGAACCCACCAATTCCGGACACAATGTGA
AGAGCATTTAAAATAGTGCCTAAGCCTAGGACACCGCCAGTGCTTTGTAAGTCTTTGGGTCCTGCTGGCTTAGGTTGCTTCTTTCGGCAGGATGACTTTT
TTTTTGAGACCAGTTTTCACTTTGTTGTCCAGGCTGGAGTGCAGAGGTGCTATCTCAGCTCACTGCAGCCTCAACCTCCTGGGTTCAAGCTGATCTTCCC
AGCTCAGCCTCCGGAGTAGCTGGGACTATGGGCATGTGCCACTAGGCTCGGCTAATTTTTGGCTGTTGTTGTTTTTGTTTGTTTTGTTTTTTTGTTTGTT
TTTTGAGACAGTTTAGCTCTTGTTGCCCAGGCTGGAGTGTAATGGCACAATCTTGGCTCACCACAACCTCCGCCTCTCGGGTTCAAGCAATTCTCTTGCC
TCAGCCTCCTAAGTAGCTGGGATTACAGGCATGCACCCCCCACACCTGGCTAATTTTGTATTTTCAGTAGAGACAGGGTTTCTCCATGTCGGTCAGGCTG
GTCTCGAACTCCTGACCTCAGGTGATTCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCCGGCCTGTTGTTGTTGTTGT
TTTTAAGAGACAGGGTTTCACTGTGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCGACCCACCTGCCTTGGCTTCCCAAAGTGCTGGGATTATAG
GCGTGAGCCACCACTTCCAGCCAGGATGACTTTTTTTTTTTTTTTTTTTTTTTTTTGGTCTTCTCWGCTGTGTCTCTAGAAGATGACCTTTTGAGAAGCA
AACCTGAATGTTGATTCAAGCCCAAATTTCCTGGGCTCAGGTGTTAATTTTTTAAGTCTTTGGAACCTCTTTGCCGAGGTCTCAAGCAGGTAGAAGACAT
TAATAATAATTCCTTATATTTGATTGCGTGGTGCTCTGTAGTTTACTGAGTACTTACTATATATGTACAGATAGGCCCTTATTTGATCTTCACAGGAACC
TGTGAGGTAGGCAGAGCTTATGAGCTTCATTTCCCAGGTAGGAAAACTCCTACGTGGTTACGTAACCTGCTCCAGGTGTGATCCCAGGTGCAATCCAGCT
CAACAAGCACACTGAGCCTCAGGAGCTCTTGGGATCAGAACCCAGGACTCGATCCCACTCCGTGCYGCCTTCTCACCCACCCCTCTTCCACCAAGTGGGT
GGAAATAGCACTTGCTTTGAAATAAGTAACGAATGATCTTTGTGAAAAGGAACCTAAACAGCAGTGGGCCATCTTTATTCACATCTATAGTACCAAGTGC
TGAGTAAGGGGATTTTAGACTCCAGACACCCGTCCTGTTTGTCAGGCCAGAGCTGCAGTGTGTTGACTGCACATCTGTCTCTTGTCACTCCTGCTCCTGT
GGGTAACCAGCCAGAGTGCCCCTGAGGCAGAGACAGGCCAATCCCTGGAGAGTTCTGCGAGGTCTAGGGAAGAGTTCTTTGTATTTAAAATTTCATGTGA
ACTTCAGCAGTTTCCTCTGCCTCTGTAGTCAGCTTTTGCCTTTTCAAACTTTAGTTAGATGGATAATGACTTTTACTCATTAGGACTTTTTTCCATTAGT
TGGAAACCCAGAGTTGCAATACGTTTCTTTTTTCCTTAGAATCACCGGGTTTATGGGAATAACAATTGGGATTCTCTTTATATAAAAATAGTGGTGGAAT
CTTGGCACAGGGTTCATATGTGGCTTTGTTGAAGGCTTGTTGTCACTTCCTTATTTGTATAATTTCCCTCCTTTGTGGCCTAAACATGACTTTCAAAGAG
TCAAGAGGAGTTAAGTCCTAATTTTTATTTTAGAACATCTGAAAAATGAATTCAGAGAAAAGTGATATTGATGCCTTGGATTTCCCCACACATACAAATC
CCAATCTCCTGCTGACTTTTTCTCATGTTTTTGGGCTTCAGGGACTGTTGTGGGATTTGTATTTTGATACTGAAGGACCAACACAGACTGACTTAGCTTC
TTGCCTGTGTGCAGGTCATGTGCCACTGTCACTGGAGAGAATTTCATGTTGTGACTTCTGTTCAGATTTGTTTTTTTTTTATGGCTTTCCCATCAGGGTT
CTTGGGAGCCATGGCTGCTTCTTGATATCTTCTGTTTCCCTGTAGAACAGACGATTGCAGGCCCGGGGCCCTGGCAAGCTGGGCCCTCTGTGGCTTTCTG
AGTCCATTGTGAGGCAGAGGATCAGGTGCGTTTTGGGCAGCAGCCTTCAGAGCAAGGCACTGACCTGATGATTCACACTGACCCCTCCCCTCCGCTGAAT
TTTCTGACAACCTTGTGACTCTCACATGGGAAATGTGAGTGGTTTTTGAGAAATCTTTACATAAGAGGTTTTAAAATTTTCTTTTGAGATTGCCTCGGTG
TTTTTCCTTAAAGTTAGCACATTCTTTGCTTTCTACTTCAGCCTCAAGGACAGGAAGTTCATTCTYGCTCTTTACATTGGGGTGTTGATGTTTGTGGTTT
TGTTGTTTTGTTCTTCATGTTACTCATGATGTATTGATATTAATTAAMCTAAATACATATGGAAATATTCTTTCATTACTTAGAGCTTATATAGTTCCTG
GTGCAGATGTGCAAAAATAGTGCTTTAGTAATTGCTAAGTCACTATCTTGCTTTTCTCTCTACTGTGATTGAGTATTTCTTACATGGAACTATAGCTTCC
TCTTATCAACAAATAAGCAGGAAATAGAAATTATGTAAATAAGCAATTTCCATTACCTACTTCACTGACTTGACAAATAGGCATTTGGTCTGCTTTAATT
AATATTTTTCAAAATGTTAAGTGCCTGTTGCTGTTACTTAATTTTGCAGGTAGCATTGGAAGTTTCTGTGATTGTACTTGAGTGGGCACTTCTTGTTGAA
ATTTACCATTGAGACCCTGGTAACACTGAAGTTTGTGTTGACTTTCTGTAGGTGTTTTCACAGTCCTGTGTTTGGTATGGAGAGTGTGGAATTGCATATG
GGGACAAGAGGTACAATTGCGAATATTCTGGCCCACCAAAACCATTGCCAAAGGATGGATATGACTTAGTGCAGGTAAGTTCATTATCTTAGGCACTGGG
AACACAAAATGCTGATCACAAGATCCTCTGTAATTATTCCTTAAATGTTATTGCAGGGTGGAGGTGGAGATGAGACTAACAGGCTTAAGTCTTATCCCGG
ACTCTCAAACTCTAACCTGTRGCATACAGTGCAGAGAAAGAACACCGTAACTCCAAAGGCTTAATTTTTCAGGGGCTGACTTTATACCTCTCATAAAGTT
TCCCAATAGCAGGTTGCTATTTAGAGACTGACCTTGGTACTTCGTATGTTGCCCTTGCAGCATCTGCAAAATATATTAGAAGTTAGCTGGTTTTGATTCC
TAGATTTCAGGACTCAAATGGACTCTGTTGCTAAGTGGCTTTGACGTCCTTGTCCCCTGGTCATTTCAGTGTTTTCTCTGTGTTCCACTGAGAGCCTGTG
AATTTTGGCTGCTACCAGGATTCTGATTCCTGTTCTTTTTTTACCATCCTGTGATACACAGGGATATTAGAACTGGAAAAATCATGTGAAAAGCCTGGTT
TTAGAGGCTTAAAGTAATCAAAAGTCAAGTCGACATGATAACAGAGTTCCTAGGCTCACTTGTTCGTTTCTTTTCTGTTTTTGAGACAGAAGGAGCCTTG
CTCTTTTATCCTGGCTGAAGGCTAGAGTGCAGTGGCACAATCACGGCTCACTGTGTCCTCGACCTCCTGAGCTCAAGCAATCTCTCAACTCAGCGTCCCA
AGTAGCTGGGACTACAGGCACATGCCACAACCCCTGGCTAATTTTTTAAAAATTTGTTTGGGGAGATGGGGCTTCACCATGTTGCCTAGCCTGGTCTCAA
ACTCCTAGGCTCAAGCAATCCACCCTCCTCAGCCTTCCTAAGTACTGGGAGTACAGGCATGAGCCACRGTACCTGTCCTCACTTGCTGCTTTCATCATAA
TTATTAAAGGTTTCAACTTTCCCTGGAATTACTAATAGAAATAGTAAGTAGCACTCTGGTTGAATTGAATCAAACAAACAAAAAACCCTAAGAAGACATA
AAATGATTGTCAGGAGAGGAGAGAAAGCTTCCAAATAAAAAGAAAATTAGAAACATCTCTACTTGTGAATAAATAGTAAATGTGTAGCCTTTTAAAATAA
TTCTATAATAACTTTGCAAATACAGGATGTGTCTTACCCTTTTGTACTTCAAAAGGATTACRTGAATGAATGTGTCTTAGTTCACTGAGGAATGTTGACC
TTACTCTAACTGTTGCCTACTCCCGTGTCTGTGCTCTTTCACCTGAAAGGAACTCTGTCCAGGATTCTTCTTTGGCAATGTCAGTCTCTGTTGTGATGTT
CGGCAGCTTCAGACACTAAAAGACAACCTGCAGCTGCCTCTACRGTTTCTGTCCAGGTAGGTTCTGCTGGGGAAACAGAACAACTGGGCTGTAGATACTT
GTGAACTGGTAATGCTCAGCTTTCCATTTATTCTTTGTTTACATATTTTTATTTATTATATGTCTATATTATATGTATATTATATATTTATACATATATG
TATACATGTAAAGTAGGTGAATATATATTTATGTATTAAAAATACATGTATGTATAATGTGTATGCATGCGTGTGTGTATAATAGAGACAGAGTCTCACT
CTGCTGCCCAGGCTAGAGTGCAGTGGTTTGTGGTGTGATCACAGCTCACTGCAGCTTAAACTTCCTAGGCTCCAGTGATTGTTCTACCTTAGCCTCCTGA
GTAGCTAGGACTACAGGCATGCACTACCATGTCTAGCTAATTTTATTTATGTTTTTCTTTATTTTTTTTTTTTTGAGACAGACTCTTGCTCTGTCACCGA
GGCTGGAGTACAGTGGCATGATCTCAGCTTACTGCAACCTCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTSCCCAGTAGCTGGGACTGCAGGCAC
ATGCCACCACACCTAGCTAAGTTTTATATTTTTAGTAGAGGTGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTCATCTACCC
GCCTCAGCCTGGTTATTACAGGCTGGGATTACAGGCATGAGCCACTGCACCTAGCCTAATTTTTATTTTTTTCTAGAGATGAGGGTCTCACTATGTTGGC
CAGGCCTGGTCTCAAATGATCCTCCCACCTTAGCCTCCCAGAGTGCTGGATTATAGGTGTGAACCACAGTTCCCAGCCAGTTTTTTTTTTTTTTAAAGTC
AGTTTTTGTTTTGTTTTAAGAAAGCACTCTTACAATTTGTCAGAAATAAAGAGAAAAACAATAATTACCAGACTTGGTTCACTTCCCAGTTGCATTCAGA
GTTGATGCTTGGTTTCCTCTGCGATGTTCTCACCCTGCAGGGTGTCTGCACTGCGGCCAGGCTCCTTTCAAACTTGAGCTGTGCACTGTGGGGAAGAGAG
GTTCCTAGGGGTCCTGCTCAGGTGCCTGGCCTGAGACTCTCATCATGCAGTCCTTCCTCTCCCCCCATGCTTTGCTTTGCACATCATTCTTGTCCCTCCC
TCTGGTGAAGGGTTGTGATAGAGTCAGGTCCTCAGTAGAGCYGGCCTCGGGGAGCTGTTAAAAATTTTGTTCTGCTGTAGCTGGCTGGTTTTGTCAAACT
TAGTTTTTTATCTGTTCTGTTGGCTATGACCCTGAGCAGTGAAAAAGGGCTTGGTAATAGATGTTCTTCTCTAGGCCTAGCCAGCAATTCTCAAATATGC
AAAAGAGCAAGCTGGTAGTGGTCTTTAGAACAGCAGATTGTGGTATCTTTCTAAATTTTTCAGACTTCAGCACACTGATAAAGATGTTTGGGAAGCAAAT
ATTAAAAAGGGAAAATGCTTCTCTGCACAAATATCACTGCAGGTGGTGATAGGGCACAAGTTGGCTTCCAGTGAAGAAATTCTGCTTCTTACCAAAAGTT
AACAATAGAGAATGGAAAACCACCACTAAATTGTTTTTTCAGAACAACAAAAGTTGAGGCTGTAATTGGGCCAGCATATCCTATGAAAGGCTTGTGAACA
TTGATGGAACCAAATTGGAGCCTTGTACACTCAGTCAAAACACATTTATTTAGGATCCACCGTAGGTGAGGCATTATGGACATACGGACATAAACATAAA
AAGATAGCCAACCTTTCTCCATATTATCAGAGGTACCAAAGCTTGATTTATAATAGCAAACAGGAGAAACAACCTGATATTTGGAAAAATATACAGCTGT
CAAAATTAGTGATTGTGGGCATTAAATGTAGTAACATGGAAAAGGTTTGAAAACTGTGTACCCCAAGAGTGATTCCTATTAGAATAATACAATTGTGGTT
TCTGGCTTTGTTGCAGTAAAGCAGTGGGGCTCCTGAAAGAAAGAGAGTCTGTGCTTCTCTGTCTCCTTCACTAGAACAGAGACTCTTGAAGGCCAGGACA
CACTTTTTTCATTCTTTGTCTTACATGGTCACTGGGACTGAATCGGAGTCTAAAGTAATCTTGATTGCAAGAATGCAAGTCTAATGAAACAGCTTTTGCA
AGTAACAGTGGACCAAAGGGAAAAGAGAGCTCTTTTATCATGTAACAAGTCAACATTAGGAGCTTAAACTTTGAACCTGAAGGATAGCAGGCAGCTTATG
GTTCTTGTGCAGTTGTGTGCTCCTGAAGTGCATGCAGCCAGAGAACAACATTGCTGTTCTCTATCTTTACAAACCATGGGGATTTCTCCTTGTGTTTCAG
GAGGGCCTAGTGATTTTCCGGGGCTTGAAAGAAAACCTTTCAATAGGTTATAAGATGAAGATTCTCATAATTCTCATTATTTTATTTTCTTCTTAATCAA
AACTGTCAGCTGGTGCAGCGCTCATGTCGATAATCCCAGCACTTTGGAAGGCCAAGGCAGGAGGGTTGCTTGAGTTTAGGAGTTTGAGACCATCCTGGGC
AACACAGACCCACATCTCTACAAAAACATTTTAAAAATTAGCCAGGTGTGGTGGTGTGCACCTGTAGTCCTAGCTACTTGGGAGGCTGAGGTGGGAGGAT
TGCTTGAGCCTAGGAGCTCAAGGTTACAGTGAGCTGTGATCACACCACTGCACTCAGCCTGGGCGACAAAGTGAGACCCTTTCTCAAAAAATAATAATAA
TTGTCTTCCTGATGCTCCAAAGTCCCTTTACTCTAGGTCAGAGAATGTATGTCTCTAAATTATAAAGTGCAGAATTCAGAGAAGCATCTCTCTCTTTTTG
AAATTATAATTGGACACAATAAATGCAGAAAGTAATTAGGGCATTTTTTAAAGGTGTGCCTTTATTTTAACATGAAGTTTTAAGTTTAGAATTGCTGGTT
TTTAATATGTTCTCTTGGTAATTTGTCACTTTACAGTAAGTTTAAAATATTCTTTGTCTATTTAAAATCGTTCTTGCTGGCCCTATTATGTGTGAGATCA
TGCAGAATATAATTTACTTTTCCTTTAGATGTCCATCCTGTTTTTATAACCTACTGAACCTGTTTTGTGAGCTGACAYGTAGCCCTYGACAGAGTCAGTT
TTTGAATGTTACAGCTACTGAAGATTAYGTTGATCCTGTTACAAACCAGACGAAAACAAATGTGAAAGAGTTACAATACTACGTCGGACAGAGTTTTGCC
AATGGTAAGTAAACTTTTAATTATTCCTCTTTTACAGCTGGCATCAGGACAGCAGAGCAAATTGTTCCTTTTAGTTGTCCTGTCAACTCTGGAAAATCAC
AATTTTCAGTTCCATTGGCCAGGAAATAAGAGTTGTTGCTTTGCTTGTATCCTAGGACTTGAACTGCAACGAATATAAAAATCTCCTTAAAGCGCTTGCT
TTAACTCCCCCTAACTTTAACTTCCCACATGGAAAATTTTAGTATGTGCAAGTTTGCATCCATACACTTCAGTAACCATTGGATCTTTGACTCTAACAGA
CATGAGTTGTGTAATGTCATAAATTACTGCAAGACTGAGAAGATAGAACTGTTAATAGTTGGCAGAGAAGAGGTCATGACTTGCAAGAATCAGATCACCA
TAAAGGAAAGTCAGCAGGTCTAACAGATAGCAGAAATGATCCCCCAGCATTGACCAACATACAACATTTAATTATAATGACAAAGTAAAAAGGTAACAAA
AAAATTCCATAGAAAAAAGGTCTCATTCACAAAAGCAACAAAAAATAAGGCACTTAGGAATCCAAAAGATGTGACATACAAGGCAACCTGACTGAATGGA
GAGAGGTCATTTTGTCCAGAAACAGAAGCCTGCATGTATGGAAAGTGGATGTGTAACACGTGTGTCATTACAAATCATTGAGAGAAAAGGTGGGCTAGTT
GATAAATGAGATGAGAAAATAGATTATATTTATCTAATTTTAATTTTTACAGAAAATAAAAAAATCAATTGTGTAGATTAAAAATCCCAATTGGAAAGTT
TTAGAAGTAAATATGGAAAGATTTCTAGACAGGAGAGGAAAAGCAGAAACCATAAGAAAAATATTTATGAATATAAACAACTGTTATCTAGAGCAGACAG
CGAAATGCAAATTTGAACAGTAAACTACCATTTCACACCTCATCAGCTTGGCACAAATTAAAAAGTTGGTCAATTTCAACTGTGGGTGAAAATGTGAAGC
AATAGGAATACTAATGTACTCCACCACTTACAACCATAATTTGGTACAATCGTTTCAAAACTACTTGAAAAACAACTTTGCAGTACGTAGTAAGTTGAAG
CTAACCCTCCTCCCAGAAATTTSACTTATAGATGCCTGCCTTAGAGAAACTCTAAATGCATATAAACCTGGAGACCCATATAAGAACACCCACTGTAACA
CTATTGTGATTGTGAAAAATTGAAGACCTCAAGAACGAGAAGACAAGACACAGACTGGGAGAAAGTATTTGCAAAAGACATRTTAGTAAGGACTGTTATT
CAAAATATACAAATAACTCCTAAAACTCAATAAGAAAGCAAACAGCCCAATTGAAAAATGGACAAAACAACCTGAACAGATACCTCACCAAAGAAGGCAT
ACAGTGGTAAATAAGTACATGAGAAGAGATGCTCAACATTATGTCATTAGAGAATTACAAATTAAAACAACGAGATACCACTACACATCTATTAGAATGG
CAAAAATTCAAGACGCTTTCAACACCAAATGCTGGCAATGAGCTCTCATTCATTGATGGTGGGAGTACAAAACGGTACAGCCACCTTGGAAGATAATTTA
GCGGTTTCTTACAAAACTAATCATACTCCTTGGTATTTACCCAAATGAGTTAAAAATGTGTCTACCCCAAAACCTGCACGTGGATATTTGTAGCAGCTTT
GTCCATAAGTGCCAAAACTTGTAAGCCACCAAGATTTCTCTCAGTAGGTGAATGGGTAAATAAACTGCTACATCCACACAGTGGAATATTATTTGGTGCT
AAAAAGCCATGAAAATTCAGTGCTATCAAGCCATGAAAGTACATGGATGAACCTTAAATCCTATTACTAAGCAAAGCCAATCTGAAAAGACTACTCACTA
TGATTCCACTATATGACGTTCTACAAAAGGCAAAACCGTGGAGACAGTAAAAAGTCAGTGATTGCCATGGGTTAGGAGAGAGGAAGGCATAAGTAGAGCA
CAGAAGATTTTTAGGTGGTGAAAATACTCTATATGATACTATAATGGTGGTTACATGTTTATATGACATTTTGAAACAAAAGTACTACATACTTAAAACA
AGTACACAAACATGCATGGGAAGGATAAACATCAAATTCAGGATTGTGTTTACCTTAGGGAAGGGGCTACTGTCAGGGAGGGGTAATTGGGGAGCTTCAA
CTGAATCTATAGAGTGTGTGTGTGTGTGTAAGTATTTTTTTAWTTTTTKGAAGAGACGGGCCTCACTGTGTTGGTGAGGCTGGTCTTGAACTCCTGGCCT
TAAGTGATCCTCCTGCCTYGGCCTGCCAAAGTGTTGGGACTGTAGGTGTGAGCCACCACACCTGGCCTATAGTGSATTATTATTTTTATTTAGTTTTTAA
ATTATGCCATAGCCAGTTGTTYTGAATAGTGCAGTACTACAAAACAGAGTCAAGGTCTCATGCTGTCACCCAGGCTGGAATACAGTGATGCAATCATGGC
TCACTGCAGCCTCAACCTCCTAGGTTCAAGTAGTCCCCCTGGGTAGTTGGAACCACAGGCATATGCTACCACACCTAGCTAATTAAAAACAAATTTTTTT
TTGTAGAGATAGGGTCTTGCTTTTTTGCCCAGGCTGGCCTCAAACTCCTGGCCTCAGGAGATCTTCCCACAGTGCTGGGATTACAGGTGTGAGTCACTGC
ACCTGGCCRAGTCCATTATTTTTTTAATGTTGAGGCAAATGTTGTGAAATGGTATGACTGATAGTTAACTGGGTAATGAGGAAATGAGAATTGTATTATT
CTCCATGTGTTTTGTATGCTTGAAACATAAAATAAAACCTGAAAACCAAATGGTGAGCTGGAAGATACGAGGGAATTACTCAGAAAACAGCATACAGATA
CAAAGACCTATAAATCATTAAAGAAATGACATATAACATGAGAAGCTCCAGAGAGTTGGGGAGAGACAATAATAATCAAAGGGATAATGAGGATTTTCCA
GAGTGGATAAGGGATGAACCCTGAGAACTTAGAGAAAATTCAGCATACAAAAATCAGTTGTATTTCTGTACACTTGCAATGGACAATCTCAAAGTGAAAA
TAAAACAATTCCATTTACTTTAGTATGGGAAATACTTAGGAGTAACTATAACAGAAGGCAAAACACTTTAAAGAACAGCCGGGTGCAGTGGCTCACACCT
GTAATCCAAGCACTTTGGAAGGCCGAGGCAGGCAGATCACAAGGTCAAGAGATTGAGATCATCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAAT
ATAAAAATTAGCTGGGCGTGGTGGCGCTCGCTTGTAATGCCAGCTACTTGGGAGGCTGAGGCATGAGAATCACTTGAACCTGGGACGCGGTGGTTGCAGG
AGCTGAAATTGTGCCACTGCACTCCAGCCTGGCTGACAGAGCGAGACTCCATCTCAAAAAAAGAAAAACAGAAAAAACACACTAAAGAACATTATTCAGC
GAAATTAACGAGGATCTAAATAAATGGAAAGACATTCCATGTTTATCAATCAAAAGACTTAATATTGTTTAGATATCAGTATTCTCCAAATTGTTTTATA
GATTCAGGGCAATCTCTGTTATAATCCCAACTGACTTCTTTGTGGAAATTGACAAGCTGATTCTGAAATTCACATAGAAGTTTGAGGGACTTAGAATAGT
AAAACAACCCTGAAAAAAGAACAAAATAGGAAGACTCACACTTCTCAGTTTCAAAACTAAGCAATGGAAATCAAGACAGTGGTACTGGAATAAAGATAGA
CATATAGATCAATGGAATATAACTGAGAATAAATAATATATCTATGGTCAACTGATTTTTGACAAGGGTGCCAGGGCCATTCAATGAGAAAAGAATACTC
TTCATCAAATGGTGCTGCAATAACTGGATACACACATGCAAAAATAAATAAATAATAATGAAATTGGGCCCTACTTCACACCATATGTTAAAGAAATTAA
CTCAAAGTGGATCGAAGACCTAAATGTAAGAGCTAAAAACTATAAAACAATAAAACATAGGGATTAATTTGCATGGCCTCATATTTGGCACTTGATTCTT
AAATATGACACCAAAAACAAGAGCAATAACAGAAGAAAAGATTAATTGGACTTCATTAAAATAAAAAAGTTTGTATTTCAGAGGACGCCATCAAGAAAAG
ACAAGAAGGCCGGGCACAGTGACTCACACCTGTTATCCCAGCAGTTCGGGTGGCTGAGGCAGGAGGATTGCTTGAGCCCGGGAGTTCAAGACCAGCCTGG
GTGACAAAGTGAGACCCTGTGTCTACAAAAAATAATTAGCCAGGCATGGTGGCATGTACCTGTGGTCCCAGCCACATGGTTATCTGAGGCAGGAAGATTG
CTTGAGCCTAAGGAGGCTGCACTAAGTACCTCGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAGGACAAGAATATATTTGCAAATT
GTATATTTGATAAGGGACTTGTATCTAGAATACATAAAGAACTCTTGGCCGGGCGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGGGGCCAAGGCG
GGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAATAGAAAAATTAGCCAGGTGTGGTGATGTGC
GCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTCAGCCTGGGAAGTGGAGGTTGCAGTGAGCTGAGATCACACCATTGGACTCCAGC
CTGAGGGACAGAGACTCCATCTCCAAAAAAAAAAAAAAAAAAAAAACTCTTACTACTCAATGATARATAAATAACCCAATTTAAAATGGCAAAAGATCTG
AATAGAGTAGACATTTCTCTAAGGAAGATATACAAATGACCAACAAGCACATGAGAGATGCTCAATACTATGAGTCATCAGGGAAATACAAATCAAAACC
ACAATGAGATACCACTTCACACCCACCAGGATGGCTAGAATCAAAGTCACATAACAAGMAGTGTTGACAAGGCTGTGGAAAATAGGAACCTTTATTAAAA
AGAAATCCAAAAACCAAAAACAGCTGGGCACAGTGGCTCATGCCTATAATCCAGCACTTCGGACGGCCAAGGCAGGTGGATCACCTTAGCTCAGGAGTTT
GAGACCAGCCTGGGCAGCATGGTGAAACTCCATCTCTACAAAAACTTAGCTGGGTATGGTGGTGCACATCTGTAGTCCCAGCTACTTGAGAGGCTGAAGT
GGGAGGATCACTTGAGCCTGAGGGGCAGAGGTTGCCAGTGAGCTGAGATCACACCACTGCACTCCAATCTGTGTGACAGAGTGAGACCCCACTTTGGAAA
ACAGTTTGGCAGTTCCTGAAACAAACATAGAACTACCATATGACCCATCAGTTCCACTCACAAGACGAAAGTATAGGTCAACACAAAAACTTATACACAA
ATGCTTCTAGCAGCATTACTGATAATAGCCAAACTGTGGAAACAACTCAGATATTTATCACCTGATATATGGATAAACAAAACATATGTCCTTGCAATGA
AATGTTGTTCGGCCRTAAAAAGAAATGAAGTATTGATACATGCCACAATATGCATGAACCTTGAGAACATTATGCTAAATGAAAGAAGCCGGTCATGAAA
GACCACATATTATATGATTGGATTTATGTGAACTGTCTGAAATAGTCAGATAAATAGAGACAGTTCAGTGGTTGCTTAGGGCTTAGGGAAGTAGGGAGGT
AGTTGWGCATAGCTAGAATACAGGATTTCTTTTGAGGTGATGAAAATGTTATAAAATTGACTATGGTGATAGTTGCATATATCTATGAATATGCTAAACT
CCATTAAATTATATAGTTTAAGGGGGTAAATTGTAAATTACATGTAATTATATTGTAAATTATATAGCGCCACCACACCTGGCTAATTTTTTTTTATTTT
TTTATTTTTTGTAGAGACGGGGTTTTGCCATATTGCCCAGGCTGGTCTGGACCTCCTGAGCTCWGGCAGTCCACCCACCAGGGCCTCCCAAATTACTGGG
ATTAAAGGTGTGCATAACCACCCCTGGCCCAAAGACAAATATCTTAAAAGCAAATAGAGACAAGACACAAATCACCTTAAGACAATGATAATTGGAGATT
TTCTTACCAGCCATGATAGAGCCTGGAAGGCAATGGAATAATCTGTTGAGAATTCTGAGGGAGATGACTGTCACCCTAGTTAACCTGTCTTTCCAGAACA
AGGGTAAAACAAAATGAATGTGTAAGCATCTCCTTGAAGATTAGGGAAAGAAGATCCTGSGAAGTTTCTAGCAAGCAGAGACTGGTAAATGAGAATCGAC
AGTACAGGACCCATTCCAGCTATTTTCTTAGGTGTAATACACTGATACTATCCTTATRTAATGTGTTGTGTGTATGTGTAAGAAAATAAAATCCAAAAAG
ATAACAGTATTAGGGGTTTTTTTTGTTTTTTTTTTTTGTTTTTTTGTGATGGAGTCTTGCTCTGTCACCCACGCTGGAGTGCAGTGGCGCAATCTTGGCT
CACTTCAAGCTCTGCCTCCCGGGTTCATGCCATTCTCCCGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTCCGCCACCACGCCCGGCTAATTTTTT
GTATTTTCAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGTTGGTCTCCATCTCCTGACCTGGTGGTCCGCCCACCTCGGCCTCCCAGAGTGCTGGAATT
ACAGGTGTGAGCCACCGTGCCCGGCCAACAGTATTAGGTTTATTGACACGTGACCTCTGCTCTAAAACCAGTTTTCCAAGTAAGTTCCATAATTCTCTGG
CTGTGTAGCTTCCTGCGGCAGAGGTTTTCTGGAACCAGCTTTGTTAACTGAAGAAGTACTGAGGCTCTTAGCTGCGTCTTCCTGGGCCTTGGTATACTCT
TCTATATAGTGGGGATTTGACTTCTCCAAGCTGTTGTGAGAGCTATGAGATAACGTGTGCCTTTCCCTTTCCTGTCTGTTTTTTACTTTTAAGTTACTTG
GAATCGGGCCTCCATATTATTTGCAGGGTGATAAGCCAATTTAAAGGGAATCTCTGTTCGTGCCCTTAGTTAGTGTTTGCTGTCCAGCATTCCAGCATGG
TGCATATGGAGTTCGTGTTTCCCTTCAAGAGGCCTTTTGTAAGATCTTGCCTCGTGAATTACAGCAAGCATCTTGTCTCCTTTTTCCTTTGGGTTTCCTC
TTCTAGCAATGTACAATGCCTGCCGGGATGTGGAGGCCCCCTCAAGTAATGACAAGGCCCTGGGACTCCTGKRTGGGAAGGACGCTGACGCCTGTAATGC
CACCAACTGGATTGAATACATGTTCAATAAGGACAATGGACAGGCACCTTTTACCATCACTCCTGTGTTTTMAGGTAGGTATAAAGATTCCAAGTTTGGT
GTGTTTATGATATTGTTTTAAAGCCAAGGAACTGGCTGGGCACAGTGGCTCACCAGTGCTTGGGGAGACTGAGGCAAGAGAATTGCTTAAGACCAGGAGT
TCCAGACCAGCCTGGGCAATGTAGTGAGGCCCCATCTCTATGAAAGAATTAAACATTAGCCAGGTGTGGTGGCATGCATCTGTAGTCCCAGCTACTTGGG
AGGCTGAGGCAGGAGGATTGCGTGGGTCCAGGAGTTCAAGGCTGCAGTGAGTTACGATCATCCCATTGTACTCCAACCTTGGTGAGGGCAAAGCCCTGTC
TCTCCATGAATGAATGAATGAATCTTAGTTGAGGAAGCATAATCTACAATAGGAAGATAAACACATTCAGGTAACTAGTTCATAGTTTCTCCCAGTAAGA
GAGGTAACTGGTACATTTATCCTGCTGTGGCTAATTTAGGGGGTGCTGGGAGTGGGAATGGAGGAGSAAATGAATTGCCTTCAGGCATTGCTGTCATAAT
TGAAAGAATAAGCAGTTAAAAAGGGGGTGGGAGGCAGCTTTTCTAGAGCTCTGCTATAGTATTAGCTCCTGAGAATGGAGATGGGACATGATTGAAGGGT
TGCCTTGGTATGTGGTGTACTTGGAGGATTCCTCTATCAGTGACAAACCCCTACGCGCAAGTTTATTGAGGTAACTTAAAATTCCATAGGACGAAGCAGC
AAAACATAATTTAATTAAACTAAAACCTCCAATTCTTTTTCTTCTTTCAGTTGTTTTATGTATTTCAGTGGGCTTTTCTTTGAGTTTAAGTATAATACAA
AATTTTGGATGTTTTTAATTGAGATTTGTACTCAACACAATTCCTTTCTGTAGATTTTCCAGTCCRTGGGATGGAGCCCATGAACAATGCCACCAAAGGC
TGTGACGAGTCTGKGGATGAGGTCACAGCAYCATGTAGCTGCCAASACTGCTCTATTGTCTGTGGCCCCAAGCCCCAGCCCCCACCTCCTCCTGCTCCCT
GGACGATCCTTGGCTTGGACGCCATGTATGTCATCAKGTGGATCACCTACATGGCGTTTTTGCTTGTGTTTTTTGGAGCATTTTTTGCAGTGTGGTGCTA
CAGGTAAGCAGTTTTGTTTGTCATCCAGGGCAAAAAGAGSAAAATTGCCCACTGGCACTTTGAGCTTTCATTTGTCAGAGCTTGGTTACTTAGGACAAGA
AACAAATACCTCCATGAATACCATTGCATGGATTATTGTGTCCTACAGCTATTCTATAGTAAACCATCAAAGTTCTGTTTAACACTGCAACATCTGAAAT
GAATTTTACTGATTTATTCAAAATGATGTGTGATTTAAAGCACTGTGCATTAGCCACTGATTCTTTTTTTTTTTGGAGACTGAGTCTCACTCTTGTCGCC
CAGGCTGAAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTTAAGCAATTCCCCTGCATCAGCCTCCTGAGTAGCTGGGATTACA
GGCATCCGCCACCATGCCTGCATGCCTGACTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTGGCCAGGCTGATCTCCAACTCCTGACCTC
AGGTGATCTGMCCGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGAGTAAGCCACCGTGCCCAGCCGGCCACTCATTCTTTAGAAAGTCAGAGTCAAGGC
CAGGCTCAGTGGCTCACACCTGTAATCCCAGCACTTTAGGAGGCCAAGGCAGGAGAATCATGAGGTCAGGAGTCCATTGCAAACAGCCCTGGCGACAGTG
CGAGACTGTGTCTCACCAAAAAAAAAAAAAAAAAAAAAAAAGTCAGAGTCAAATGAGCGAAATCAGATTCAAATCTAATTAAATGGAGTACTATAGTCCT
TTTAGATATTTGCATCTTAATTTAGGACAGTACTTTTTTTACTTTTTATTTTGAAATAATTGTAGACTTAACCAAAAAGTTGCAAAATGGTAGAATTTAT
GTGTATCCTTAACCCAGTTTCCCCGATGATACAACTTACATAACTCATAGTACATCTAGAACTAGAAATACCATTTGACCCAKCCATCCCATTACTGGGT
ATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATAGCGGCACTATTCACAATAGYAAAGACTTGGAACCAACCTA
AATGTCCAACAACGATAGACTGGATTAAGAAAATGTGGCACATACACACCATGGAATACTCTGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGG
GACTTGGATGAAACTGGAAACCATCATTCTCAGCAAAATATCGCAAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATG
AGAACACATGGACACAGGAAGGGGAACGTCACRCACCGGGGACTGTTGTGGGGTGGGGGCCTGGGGGAGGGATAGCATTAGGAGATATACCTAATGCTAA
ATGACGAGTTAATGGGTACAACACATCAACATGGCACACGTACACATACGTAACAAACCTGCACGTTGTGCACATGCACCCTAAAACTTAAAGTATAATA
ATAATTAAAAAAAAAACTCATAGTACAATGATCAAAACCACGACCATGCCATTATTATTACATTATTATTAGCTAAACCAGAGATCTTAATCAGATTTCA
CCAGCTTTTTCTCTAATGCCCTTCCCTGTTTCAAGGYCCCATATTACATTTTTGTGTTTTATGAGTCCCCTCTAATCTGTGACAGAAAGTTCCTCAGTCT
TTCCTTTTCTGGCCTTAACACTCTTGATGATACTGGTCAGGTATTTTGTAGCATGTCCTTCCATTTGGCTTTATCTGGTATTTTCTCATGATGAGATTGA
AATAAGGTGTTTTGACAAGTACATCACAGAAGYCATGTTATGTCTTTCTCGGTGCATCATGTCAGGGATCCCTGATGTTGATGCGTCTCTTTCCTGGTGA
TGTTAACCTTGATCACTTGCTCAAGGTGATGTCTGCTGGCTATCTCCACTGTGAAGTTACTGCTTTTCCCTTCGTAATTGATAAATATCTTGGGGGAAGA
TGCTTTGAGACTATACTAATATTTTGTTCCTCCTGAAACTCAACCACTGATTTTAGCATTCATTGTTGGGTCTTGTCTGCAACMGTTATAACTAAGGTGT
TTGCCTGATAGTGATTTTYTTCTCTTTCCCTCTCTTCCTCTGCATTTACTAACYGGACTTCTGTACAGAAAGCTATCCCTTCTCCCTCATTTATTTACTC
AGTTATTTACATCATGGACTTTTAATTCTGTGGGTTGTATCCAACACTGTCATTTATCTTGTTACTCAAAGTTTTCCACTTTGGGCCATTGGGAGTGCCT
TCTGGCTGGCTTCTGTGTTCTTACATACACCTCCCATCCCCAGCTTTATCTTACATATTCCCTGTCCCTGCCCTGCAAGGAGCTCTGGTTCCTTTTATTG
GAGAATGGTATGTAGAAACGAAGATCTGGGCACTAGGTAYGCTCATTGCTGCTGGAAAGAGTAGCATGTTTTTGTTTGTTTGTTTGTTTTTTTGAGATGG
AGTCTTGCTCTGTCACCAGGCTGGAATGCAGTGGCGCGATCTCAGCTCACTGCAACCACCGCCTCCCTGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCCA
AGGCACGTGCCACCACACCCAGCTAACCTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGTTGGTCTCGATCTCTTGACCTCGTGAT
CCCGCCCACCTTGGCCTCCCAAAGTGCTGGGTTTACAGGCGTGAGCCACCGCGCCYAGCCCAGTAGTGTGTTTTTAAAGGACCTAAAAGTTTTAAATAAA
ATGAGGGCCACAAGGTGAAATTATCCTTTATTAATTGTTCTCTTAACATCTTCTTAAATTTTCTCCTGAGACTGGTGAGCAGAGGGACCCAGAGCAAGGG
GACTTAGGGGAAAGAAGGCAGTAATTAGGGAGGAGGAGGCCAGGAGGAGGAAGAAAGCATTTCATGGGATTACAGGAATGTCCCAAAAACAACCTCACTG
TGATGAAGTCCACTAATGCTATTTCTTCACTTCTGTTTTTCAGAAAACGGTATTTTGTCTCCGAGTACACTCCCATCGATAGCAATATAGCTTTTTCTGT
TAATGCAAGTGACAAAGGTAGGCATATTTGTCCATGAATAAAAGGGTTCAGATGATGCTGTCTGTCATGAGAGCATTCGTTTCCTCAGTGGGGTTGCAGC
AGTGGGTGAGGTGGTGTGCCAGTGCCGAGGACACGGCTGCGACCAAGGCAGACATGGTCCTTGCCTTTGTGGCCCYACCATCTAGTCAGGGTGGCACAGC
AGAACCAAGTAATTAATCATAGCTGGGGAGGCGCGAAAGCAGCAGGACAAGAGTGGGAATAGCAGGGCAGGGTTGAACCTCACCCTTCAGAGGCTCCTGT
GTCGGCATCTCCTCTGTGGGGTGGGAATAGCGCTCATTGAGGGCAGCCAACAAAGGTGGCTTYGCTGAGCAGATAGGTAGCTGAGGGCAGGGGTCTCATA
TGTGTCCCCAGGTGGGCTTGATTCCTGCCATGAGATAGCAACTAATGCTTTCCCTGTTCYGACTTTCAGGAACGGCTTGGCTCTTAACCTCCACCTTCCC
TTCCTCTCCCGTTCTTCCAGGAGAGGCGTCYTGCTGTGACCCTGTCAGCGCAGCATTTGAGGGCTGCTTGAGGCGGCTGTTCACACGCTGGGGGTCTTTC
TGCGTCCGAAACCCTGGCTGTGTCATTTTCTTCTCRCTGGTCTTCATTACTGCGTGTTCGTCAGGCCTGGTGTTTGTCCGGGTCACAACCAATCCAGYTG
ACCTCTGGTCAGCCCCCAGCAGCCAGGCTCGCCTGGAAAAAGAGTACTTTGACCAGCACTTTGGGCCTTTCTTCCRGACGGAGCAGCTCATCATCCGGGC
CCCTCTCACTGACAAACACATTTACCAGCCATACCCTTCGGGAGCTGATGTACCCTTTGGACCTYCGCTTGACATACAGATACTGCACCAGGTAACCTGC
TGTTTGAAGAAATAAGTCACTCTAGATGACCTTGTGGTTTGCTGGCTTTTACATGTTKACTACTGCTAGATGGGGATTTGGGGCTGAATGTCATGGTATA
TCTTGAAAATCTTAGCGTATAATGGCAAAGCTGCCTTTAAGTTAGGTTTCAAGAAAGTGAATGATGTTGAACTTAATGGAATATTTATTGTTGCTCACTT
TTGTATTTACTTCAGATAGTAGACCTTGCCTTTTTCTTGAAATTGAGATGAGCAGAGAAAGAAGACTTCAGTGGCGTTTCTCTATTGAGGCAGGATATAT
TTATTAGGAAGTCACCTTAGGAATTTGTGAAATGTTTTCTGTTGGTAACTGAAAGTAATATGCAAGGACCCAGAGGCATGAAGCCCTTACTGCTGTCCTG
GGGGCTGAGGAAGGAGCTGCCAGATTACCATCCCTGATCCAACCTGTAGGAATGAACTTATCACTCACTGCCTGAACATGGGCACCCAGCCTGTTTTTGG
TGAGAGGCGCATTTGGGGCAAGATCCATCCCATTGCTCCTAGAAAGGCATGTAAACCTTCCCATTGTCCCTGTCACACTTGCCTTGGAGAACTGTACCTG
TGCATAAACTGTACCGGCTTCTTTTTTAATGAATGTATAATCACATGGTTTTTCCTTTAAACATTGCTCATGTCTACAAGAAAGTCTGCAATCTTGAAAA
GCATTAAAATGGTCCCAAGACTTGAATCTTTTCTCTACCCAGTGACTGTCTGTTGCTTTTTCCAGCTTGTTGCTGAAGGTGAACAGCATAGTCATTTACC
TCCAAGATCATCTTCTCTGTTAGGAAATAAGGGGACATATATAAATGGCTGTAGTGCAGAGCAAGGCAGGAGGTTATGTGTTACTATTGAGAGGAGGGTC
AGGGAGACCAGGAGTCCCCCTCCACTCTCCCCTCTGGCCTGCTGGCCACCACTGGAGAACGGTGGAGGGGAGATGGTTGTGTGTCCTATGTTGATAGCTG
TTCTGGTCATGGTGTTCCCCCTACCCCTCGCCGCCTCTGTGGACGCCTCTAACTAGTTTGCTGTTAGAGTGGGCCTGTGGCCTGACCAGTTTTCTTACTG
TATTGCATCTTAATTCTCTCCCTCATCTTAGGAAGTATTTTCCCCAAATACTCTTTGTCTTCTGACCCTCAGGGCAATGCTGATTAATCAAGATCTGAGA
GAAATGTGACGTGTTTCTGGGTTTGCTTATTTTTAAAATCTTCTTTCAGGTTCTTGACTTACAAATAGCCATCGAAAACATTACTGCCTCTTATGACAAT
GAGACTGTGACACTTCAAGACATCTGCTTGGCCCCTCTTYCACCGTATAACACGAACTGCACCATTTTGAGTGTGTTAAATTACTTCCAGAACAGCCATT
CCGTGCTGGACCACAAGAAAGGGGACGACTTCTTTGTGTATGCCGATTACCACACGCRCTTTCTGTACTGCGTAYGGTAAGTGGCAAGAGACAATCATTG
GTAGACACCATTCTTGGGTCTGACTTAGGGTACATGGGCAAAAGCTTGTTTTATGAGCATAACCCAGAGGTGAGCAAACAACAAGACCTTGCCCTGTGAA
GTTTACATCATCTTTTTTTTTTTTTTTGAGACAGGGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGTAACCTCCGGCTC
CCAAGTTCAAGCGATTCTCATACCTCAGCCTCCTGAGTAGCTAGGACTACAGGTGTGTGCCACCACGCCCAGCTAATTTTTGTATTTTCAGTAGAGATGG
GGTTTCGCCATGTTGGCCAGGCTGGTCTCAATCTCCTGACCTCAGGCGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTTCCA
TGCCCAGCTGGAAGCTTACATCTTAATGGAGGGAGACGGTTGATGAACACATAACATRTGCTATCGTGCCAGCTAGAGATTAGTGCTATGAGGAGAAAAA
TAAGGCTGGACAGAGTGGGGGGTGCATTGCTTAAGCGTGRAGATGTGCACAAAGGGAGAGGAAAGGACAGCTGGGCACATCACAGGGATGAGAGTTCCCG
GCAGAACCAGCAGCAAGTGCAGAGCCCTGGCAGGAAGCTCTCGTGGTGTGTGATTGAGGAGTGCAGCTGCCTCTCACCCTTTACCTCGTGCCTGGGTCGC
TAACACAGTGTCATGTATCACACCCCCCACAAGATTTAAAGATAGAAGAGCCTTTGGTGYCTTTTGTTCTGTCTCAGATATATAGCCCAGTCCCCTGTAG
TGCCCCAGCTATTTGGGAGGCAGCCTCCCTCTGAGGAGTTGAGGCAGTATAGGTCTGCAGCTCCGCAGCTTTAGATTGGAGGGCCCTGCAGCTGCTTCCC
TTAGGAGGCATGTCTAGCTGGGCAGGGTGCGTTTATAATTGGGAATAGTCACCCCAGGAAGCGGTGCTTTGGTGACCTGTAGGGGAATCTTAAGGCTTCT
CCCAGTAGGGGAAGAGTAGCATGATGCCGGATGGGCCTACTCTCCCTGAATGCTAGGGACCTGGCCTAGGGACATTTGTTCAGCCAGTTGAGCAACCACA
GTGGCTATTTCTTCAGCATGGGAACAGAGAAATTATTCCTTTTTGCCYTTAAGGACACTGCTCAGCCGACTACTTCTCAAGAGCTAAGGACTCTCACTTC
TGGTTCTAAAGAACTTTGACCTTGAGTTCTGTTTGTTTGTTACTGGAGTAAGACTTTTTATGCAGTTGGGCTATATTTACTCTGTTTCAAGAATATCACC
CCTAAAAACATGAGTTATACTCATGAAAACACAATAGCTTATGCTCCATACCCTAAACCGGCATTCTCCACAGGGTAGACGGTGCAGACGAGCCATGGGT
AATTTGAAGAAACAAAAAACATTTAATGTTACATAATTTTTATAATTGGACAACCATTTAATGTTACATAAATTTTATAGTTTACTCTCTGTGGCACAAG
ATAAAAGTCAACAAAAATGATGGGGGACAGAGGTGCGTGAGCCTTGTGTTTCCTCAAAGCGGACGTGGTTCCCACCAGTGTGGAAGCGGTACAGGGAGTG
GCAGGCTCCTGGYGGCAGGGACCTGAATTGGTTTGTAGTTATGCTTGTGCGCGTCCTCATAACCCCAGTCTCGCCCTAGCGCTGTCCCCTTTCCTCTCCC
TCCAGCTTTTCCTGGACTTTTTCACCTGAGGGTCCTGCAGTAATGGCAGGTGGCCTGCCCAGAACCATGCCCTTACCTGCTKCTTCTCCCCATTTTGTTT
AAAGGCAGTGACAGCTACCAGTTACTCAGGCTTGAGGCTTTATCCCTGAATTCTGCCTCGCCCTCGCCTTCCTCATGGGGTTCTTACGGGTCTGAGCCTC
TGGATGCTCTCTCAGATTTCTGCTGTGGATGAAGGGACTCAGCTGCTCGCTGCAGGTCACCTGACCTCCCTCATGCCGTCACCCATCCACTCTGACGGGT
GGGTCATATGCAGAAGCTTCTCAGCACCTGGCCAAGTTGTAGCTGATGGTCTGTCCGAAAATGCTGGTTCACTCTCCACTGGCCAACTGTCTGTCTGCAC
TGCACTGCCAGTTGCCTCTTGCCTGSGCCATTGCGCTAACATCTCCACTTACTGTTCCACCTGCTTCCTGTTTCTTTGCCGTTTCCAGACCTTCCACTTT
GCCACGCAAGCTATCTTTGTAAAACAGCTCATGACATTTCTTTCCCGGAAATCTCTAATTGTTCCCCAGTGCCTCCAGAATAAAAATCCAAACTACTTAA
CTGGCACTGAGTCCTTTTATTTTGCATTTGTCTGTCCATTACTCTTCCCAGACTGGCCCCCTCCTTCAGGAGCCCCCTTGGTGGGCACCCCATGCTCTAG
GACAGGACATCTTTTCYTTGAATTATTATTATTTTTTTTTTAGAGATGGGATCTTGCTATGTTGTCCAGGCTGGACTCAAACTCCTGGGTTATAGCCATC
CTTCTGCCTCAGCTTCCTGAGTACTTGAGATTAGGYGTGCCACCATACCYGGCATACAGGACTTGCCAAACCACCATCTTGCTCTCATTCCCTCTCACTG
TTCTCTCTCCCTCCCTTTTTCCTCCCACAGTTGTAATTGTGTGAGACACCCTTTTGTCCTCCCTCTTTGGTGAAATCCCCCTCATCCTCGGAGCTCTGGG
TCTGTACAGTCTCTTCCTCTTGGCTATAATTTTGCCTTTTAGTGTTTGCTCCCTCCTCTGTGCCTGCRTAGCGCCATGCACCATGTGCCATTGATGGCAC
TGGGCTGTATTTGCCTGCCTCTTGCCCAGTGATTCTGAGCTCCCAAAGGTGAGTGCTGAGCTGTATTACTCAACTGAGAAACCTCAGGGCCCATGTTGTC
CTTAGAATACAGCCAGCCTCATCAAATGTTCACTGTGTAAATGTTTAGGTCCCTGATGTCTTGAGGCCCTTCTAACTGGGAGGTGTTTTCTAAACTTTTT
GGCAGGGCTCCTGCCTCTCTGAATGATACAAGTTTGCTCCATGACCCTTGTCTGGGTACGTTTGGTGGACCAGTGTTCCCGTGGCTTGTGTTGGGAGGCT
ATGATGGTAAGTAAGAGAAGCTTTGACTTTTCCTTTTAGATAAAGTCATCTCGGTTTTGTCATYAGCATCAAGTGGTAATTATGAAGATTTCATAAATTG
GGCAGTTTTGTTAATTTCTTACCTCTTGAATCCCAGAATAGTATCTCCTTTGGCTTTGGGTTTGGGTTTCATTCCAGATTTAAAAGAAGTGGATTGGGTT
AGCCATTTTTAGGTCACACATGCCTTTGAGAAGCTGTCGAAGGCTAAGTACCTTTYCCCAGAATAATGCAATTGCAAACCTCTGCATTGTTGTTCAGCTT
GAAGGTCATGGGCCTCCGAAGTTCATTTATAGACCCTCTAGGGAGCTCATGGACCTCAGGTAAGAGCCTCTGTGATAGAGAAAAGATAGTATGTGAGGTA
TGTGGAAAAAGAAACAAAGTTGATGGATTTTTTTTCTTCTAAGCCAGTCAGTTGAGTATTTGGACACTCTTACAGTGTGAAGAGCAGCTGGTTTGCTCTT
TCCTGGTTCCTGTAGCACTTTAGAACCAATTGTACTTGACAAAATGAGGTGATTATTCATGTGACACCTTTGGCATCTTAAGCCAAATTACAGGCTCAAC
AGGTTTTGCCCAACCAGTTAAGAATCCAGATAGGTTTTCTTCTCCTCACTTGGTGGCAGGGGAGAAGTTGCAATCTGTATTTAAAATTTACTGTGCATCA
GAGAGGAAAATGCCATTTCTAATTGTTGGAGAAGGGATGGTGTCAGCAACTGACTAGCCATAGGGGAAACAATTGACTTTGATCTCTGACTTGTTCATTT
CACCAAAATAAATTCCAGATGGATAAAAGATTGAAATGTAAGAACTGGGCCAGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTCGGAGGCCGAGGC
GGGTGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCTATCTCTACTAAAAATATTCTTTAAAAAATTAGCTGGGTGTGGTG
GCAGGTGCCTGTGGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAGTGGTGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGATCAAGTCACTGCAC
TCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAGAAATGTAAGAACTGGAAGAAAATTCAGGAGGCATTTTTAAAAATAATTTTTAAG
TGGAAAAGATATTTCTAAGCAAGACACAAAACTCAGAAGCCCGAAAAGGAAAGACTGATGAAGTTGAGTACATGTTCATTTGTGGAGAACAAACATACAG
TTAAAAAAACAAAACTGGGCCGAGAGTTATTCATGCCTGTAATCCCAGCAATTTGGGAGGCAGAGGCGAGCACATYACTTGAGCTAGGAGTTTGAGACCA
GCCTGAGCAACATGGAGAAACCCCGTCTCTGCAAAAAATACAAAAATTAGCTGGGCATGGTGGTGCATGCTTGTAGTCCCAGCTACTCGGGAGGCTGAGG
TGGGAGGATCACTTGAGCCCAGGAGGTTGAGGCTGCAGTAAGCGAGATTGCACCACATTCCAGCCTGGGTGACAGAGCGAGACCTTGCCAGAAAAAAAAA
AAAACTGGACAAAAATATTAGTATGCATGGCAGTCAGCATTTTCTTAATAAATAAAGATCTCATCTCAGCCTGGCCAAAATGTGAAACCCTGTCTCTACT
GAAAATACAAAAAAWATTAGCCACACGTGGTGGTGTGTGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAATCACTTGAATCCTGGAGGTGGA
GTTTGCAGTGAGCCAAGATCATTCCATTGCACTCCAGCCTGGGCGACAAGAGCAAGACTCCGTCTTAAAAAAAAAAAAAAAAAGTTGTGAAAAAAAGATC
AACAACCTGAAAGAAAAGTGGGTGAGGTCATGTGAAAGATAACAAAAGAAGAAATACAAAAAAAAAAGGTTTTTATTTTATTTTTCAGAGACAGAGTCTT
GCTCTGTTGTCCAGGCTGGAGTGCGGTGGTGTGATCTCGGCTCACTGCAACCCCTGCCTCCCAGGTTCGAGCAATTCTTCTGCCTCCACCTCCTGAGTAG
CTGGGATTACAGGCATGTATCACCAGGCCCAGCTAATTTCTTGTATTTTTAGTAGAGACACGGTTTTGCCTTGTTGCCCAGACTGGTCTTGAACTCCTGA
CCTAAGGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATCATAGGCATGAGCCACCACGCCCAGCCTCAGTAAATATTTTCTTGACTAAAGTAATG
AAAAGGGAGGCCAAGGCAGGAGGATTGCTTGAGCCTGAGAAGTCAAGGCTTCAGTAAACCATGATTGTGCCACTGCACTCCAGCCAGGGCAACAGAGTGA
GATCCTGTCTCTAAAAAAGAAGAAAAAAAGGAATGAAAAATAGTTAAGCTTCTTTGGAAGGCAGTTTGGGAGAATTTATCAAAATTGGAAATATACATAG
TTTTTGATTCATTGATTATGCTTTAAGAATTGATTCTAGCCAGGTGCAGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGGCAAAGCAGGAGGATTG
CTTGAGCCCAGTAGTTCAAGTCCAGCCTGGGCAACATGACAAAATCCCATCTCTACATAAATACAAAAATTAGCCAGCAATGGTGGTGCACACCTTTAGT
CCCAGCTACTGGGAGGCTGAGGCAGGAGGATTAATTGAGTTCGGGTGGTCAAGGCCACAAAAAGCCGCGATTGCACCACTGTACTTCAGCCTGGGCAACA
GAACAAGACACTGTCCCCCTGTCAGGCCCCCACCCCAAAAAAAGAAAAAAGATTTATTTCTACAAGTATGTGTTTTACACATTAAAATATTTATAGGCTA
TTTATAGTAACTTTGTAATAGAAAAAATTGCAAAACTACTCATCAGTTGGGGGGGATTGGCTAAAGTATACCAGAAAATACTGTAGGAAAAGAATAAGGA
AACTCTTTATGGAGCAGTCTCCAAGATACAAAATTTTAAAATGTAATGTGCAGAATAGTATTTTACTGTTTGTGTGGTTAAGAGGGAAAGGGGAAGAATC
TGTGTGTTTGCTTGTGTGTGTGYGGAGTGGCTCTGGAAAGATTCGCAGATGGTCACAGTATGGGGAGGAGAACTAAGACAATGAAACAGATGTTGGAGAA
GGAGAGAATTTTCGATAAACACTTTTCTGTTCTGTTTGAAATTGTTAACATGCATGTACTGTATCCTTTAAAAAAAAAAAAAAAAAGAGTTACTCTTCCT
GAATGATAACCATGCCTACCTCAGATAAAAAATCCTTTTTATTCATTAACTGAAGTACATAAAGACTATTTCAGCAAACTCTTGTTTAATTCTTAGAGCC
CAGAGATACAGTCCATAGCTCCAGTGAGAAATCTGTGTTGTGATTTTTCCCCTGGTATGTGTCTAATTTTCTGCATGCTTGTAATCTGCTTTTTGATGTC
ACATTTTTCCTTTCTAGATCAAAACTACAATAACGCCACTGCCCTTGTGATTACCTTCCCTGTCAATAATTACTATAATGATACAGAGAAGCTCCAGAGG
GCCCAGGCCTGGGAAAAAGAGTGAGTCACTCATGGGTGTGAGCAGACTGTCCTTGCATTGTGGGAAGCTAGACACTTGCRGCAAGCACTTAAACTTCATT
TTCTAAATTAACCAATGGCAGATCTGAGTTACGTAGTTTTGTTCACTTGGTACTAATGATGCTAAGAAGAAACTGTAAACACATTTACCTTTGAGCAGGT
GCTTTAAACAGCTCTCCCTCCACAGGAATGCAAAAGTGTGCAAAAAAAGGTTCCTTGCATTGTTTTTACTTATTTCATTTATTTTTTGAGACTGGGTTCA
CTTTTGCCCAGGCTGGGGTGCAGTGACTGAATCTCAGCTCACTGCAGCCTCAACCTCCTAGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTG
AGACTACACGTGCATGCCATCACACCCAGCTAATTTTTGTATTTGTTTGTAGAAACAGGGTTTTGCCATGGTGCCCAGGCTGGTCTTGACCTACTAACCT
CAGGTGATTCACCCTCCTCGGCCTCCCAAAGTGCCGGGATTACAGGTGTGAGCCACTGCACCCAGCCACCTGCATTGTTTTCTAACAGCAAAACTTGGGA
GCATGCTGAATGTATTTAATAAGGAATGAATACAATAGAATATTGTGCTGTCATAAAAGACAGTGAAGTAAATGGTCCATGATGTATATTTGTATAAATA
TATATTGTTTATGCTGCTGTCCATGCTTAGAAAAAAATATCAAGCAAATGACCTCAGAAATTAACTGTGTTTGTGACCTCTAGAGAATGGGAAGAGAGGA
CTTAGGAGGCCAGGTTGCACTTTATGCCCTCCAGTACTTTTAAAAAATTGTTTTACTGAGATATGGTATATGTATCATGCAGTTCACCCACTTAAAGTAT
ACAGTTCAGGCTGGGAATGGTGGTTCACACTTGTAGTCCCAGCACTTTGGGAGGCCCAGACGAGAGGCTCACTTGAGGCCGGGAGTTCAAGACCAGCCTA
GGCAATGTTTGCATGTCTCTAAAAAAAAGAAAAAAGARAATTTAAAAAGAAAAAAAAGCGTACAATTCAGTAGCTTTACTATATTCACGTGTATGTGCAG
CCATCACCACAGTCAATTTTAGGAACATTTTCATTACTCCACAATAAAACTCTGTACCCTTTAACTAACACCCTCCATCTTTTCATCCTCCTATCCACAG
CCCTAGGCAACCACTAAAATACTGTCTCTGGAGATTTTCCTATTCTGGACTTTTATGTGCATAGAATAATATGTGGACTTTTTTGTCTGGCTATCATTGA
ACATAATATTCTCAAGGTTCATTCATGTTGTGGCATGTATCAGTACTCCATTCCTTTTCATTCCATTGTATGGATATACCACATTGTGTGCATTTATCAA
CTGACAAACACTTGGGCTGTTTCCATTTTGGCTATTATGAATAATGCTGCTATGAACACTTGAGTACAAGTTCTTGTGGATGTGAGTTTTCATTTCTTTT
GGGTACATACCTAGTAGTAGAATTGCTGAGTCATAGGGTAAGTCCACCTTGAATAGTTTGAAGAACTGCCAGACTGTTTTCCAAAGTGGCTATAGCGCTT
TACGTCACCACCAGCAGTCCATGAAACTTCCAATTCGTTCGCATCCTCGTCAGCACTTTTTATTATCTGACTTTGTGATTCTAGCTATCTTCATGGGTGT
GAAGTGGTATCTCATTGTGGTTTTGATTTAGTAGACTGAATGCATTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTGTGTCATC
CAGGCTGGAGTGCAGTGGCATGATCTCAGCTCGCTGCAGCCTCTGCCTTCCAGGTTCAAGTGATTCTCGTGCCTCAGCCTCCCAAGTAGCTGGGATTACA
GGCACCTKCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGCTTTCACCATGTTGGCCAGGCTAGTCTCGAACTCTTGACCTCAGGTGATC
TGCCAGCCTCAGCCTCCCAAAGTGCTGGAATTACAGGCATAAGCCAYTGAGCCCAGCCCTAAACTTACTTTAATTCAGCATGTATGGAACCTTAGCTGTA
ATCTGATAGTCTCCAGTGTGGAAGACCCTAATGCAGTGGCTGGGCATGGTGCCTGTCATCCCAGCACTTAGGGATGTGGAGGCAGGAGGAATGCCTTGAG
GCCAGGAGTTTGAGACCAGCTTGCACAACATGGCAAAGACCCCATCTCTACAAAAAATTTTTAAAATTAGCCAGGCATGGGGATACGTCTCTGTAGTACC
AGCTACTCAAGAGGCTAAGGCAGGAGGATCCCTTAAGCTGAGGAGTTCGAGGCTGCAGTGAGCTGTAATAGTGCCACTGTACTCCAGCCGAGGCAACAGA
GAGAGACTCTATTTCAAAACAGGAACAAAAGCAAACAAAGGATCCTAATGCAGGATAAAGGTTAAGAAAACATGGCCTTTGAGCCGGGCACAGTGGCTCA
CGCCTGTAATCCCAGCGCTTTGGGGAGGCTGAGGCAGGTGGATCACTTGAGGTCAGGAGTTTGAGACTAGCCTGGCCAACATGGTGAAACCCTGTCTCTA
CTAAAAATACCAAAATTAGCCGGGCCTGGTGGCGCACGCCTGGAGTCCCAGCTACTCAGGAGGCTGGGGCAGGAGAAGCACTCAAACCCGGGAGGTGGAG
CTTGGAGTGAGCTGAGATTGCGCCATTGCACTTCAGCCTGGGCGACAGAGCGAGAATCAGTCTCAAAACCAAAAAAAAGAAAACGTGGCCTTTGTATCGT
GAAAGTTAGGGAGAAGTTTCTTACTTAGCTGTCAGTTAGTTTAACTAAAAATATAACATTTTGCTTACCTTTTAGGTTTATTAATTTTGTGAAAAACTAC
AAGAATCCCAATCTGACCATTTCCTTCACTGYTGAAYGAAGTATTGAAGATGAACTAAATCGTGAAAGTGACAGTGATGTCTTCACCGTTGTAATTAGCT
ATGCCATCAKGTTTCTATATATTTCCCTAGCCTTGGGGCACATSAAAAGCTGTCGCAGGCTTCTGGTAAGCCGGGGGGGGGGTGGTGTATGTTCTAGAGG
TTAACAGCAGTGCACAGTGTAACGTCATATTTTTGCCTCTTTATTCTTATTCCATYATGTTTAAAACTGCCATAAATTCCCCCATGTTKTAATTGTATGT
AACGTTTCTGTTGCCTACATCTATTTTCTTCATTCCAACTTTTTGKTTTATCTTAAAGTTTATTTCACATAATCCAGTTTTTTCTTATTTGTCCAGTCCA
TCACCTAAGAATGCAAACTCATAACATGTGTTGCCSGAGCAGACCTAGAAATGTTTACAAGTCCTCTCTGAAACACAGAATTGTACATTCAACTCTAGGT
TTAATACAGCCCTGTAAAGTAAAAAGGAGGACCTTTTAGTAACAAGTGGGACAGACAACCCTGTAACTAATTGGTGATTGTGTCTGTCGCCTCTCTCAGG
TGGATTCGAAGGTCTCACTAGGCATCGCGGGCATCTTGATCGTGCTGAGCTCGGTGGCTTGSTCCTTGGGTGTCTTCAGCTACATTGGGTTGCCCTTGAC
CCTCATTGTGATTGAAGTCATCCCGTTCCTGGTGCTGGCTGTTGGAGTGGACAAYATCTYCATTCTGGTGCAGGCCTACCAGGTATACTTCCATATTCTC
ACAGGGCTCAGCATCTGTTCAAGTTTCAGGGACTGTGAATGGCTCCTGGGCTCCGCATTCGTGAGTGTGACCTGTGAGGGTGTTTTGTTTCCTTTCCCTG
TGTGGCTCATCGGTCGTCTTGACTTGCTGTGGACATCTTAGGACCAAGAATTTCACCCCTCTTTTTGGTTGTTGAAATAGTAGATATAAAGTAAGAATTG
TGTTTTAAATTGTATCTTTAAATAGTGTCTTTTAATAGTATCTTTTCATTTTAAATAGTATCATGTGTACAAGAAGGGCTAACACACTTTTGGAAAAGAT
TTTGGGTACGACTGCTGTTAAAATGATGTTCAGCATAGTATAGAATGTTAGATTCATTTTGCCCAAAGGTGCCACTAAAAAGGCAAAAGGTCAACACGTG
TCCCGCTGCTGTAGAAGGTGGTCTCAGTCGTCCTGTAGACCCGACGTGGGYGGAGACTCAGTGCACGTGAGAGTGATGTTCACTGGTCCAGTCCCCTGCC
GCCTGTGTTCCGAGTGTTTTCCTGATAATGTGGCTGGCTCAGCTTTCCCTTTAGTTTCTCACTTGGTACCTAGCTCTGTAGTGCAGAAATACTCTGAGAA
CATTGGAGTCCCCCACCGAAGTTTATATGCTTAGAAGACACTGCTAATCGTCTACTAATCATTTATTTTTACCCTTGAGTTAACACAAGGCAGCAAGAAA
TGGCGTTGTTATTGAGAAATTTTAATGTCGCATAATTTTTTTTTTTTTTTTTAAGAGAGATGAACGTCTTCAAGGGGAAACCCTGGATCAGCAGCYGGGC
AGGGTCCTAGGAGAAGTGGCTCCCAGTATGTTCCTGTCATCCTTTTCTGAGACTGTAGCATTTTTYTTAGGTAATTATGCTTTCAATCCTACCAGTCCTG
TAGTCTGCTGAGCCTGGAGAAAGAAGGAGCTGGCTACCTGAACATGTCCCTTTGTGTTGCTTCCTTTTTTTTTTTTTCTTTTTTTTTTTTTTCTCTGAGA
CGGAGTCTCACTCTGCCACCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAGCCTCCGCCTCCCGGGTTCAAGCGATTTTCCTGCCTCAGCCT
CCCAAATAGCTGGGATTAAAGGCACGTACCACCATGCCCAGTTAATTTTTTGCATTTTTAATAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCG
AACTCCTGACCTCAGGTGATGTACCTGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCCCCGTGCCCAGCCCGTGTTGTCTCCTTTTTTTAA
GCTTTGTTCTGCACTGGGAAAGTATCACTGGACCACAGAAAAATTGGCAGCAGTAACTTAGGTGTGATTTTGCAAGTGGCTTCCTTCTCATTTAACTGTC
AGGACAGCATTGATGTTGGGGTTCAGGGTGAAAGAGACCTAGAGTTCGTCTTGCCACTTTCCCCTTTTAGTAGCCACTGGGAATGTTGATAGTTGAAAAT
GGCATCCTTGAGTAGCCACTGAATCCTTCTCCACATGACACTCTAAGCAGCAGCTCCCAAATCCACAGGCACTCGCTTACAARATGTTTGCCGTTGTTTT
CAAAGGCAGTCTTTCTCTTCTGTGCACACAACTCATTGGGGAAGCAGCCTTGTTAATGACCAGAAGCTCTTGACTCACCACATTACAAGGAGCCAGAATA
AGCTGGAACAAAGTCAGCACTTCTGTGTTTCTTTCACATAGAGAATCATCAAATAGACCCACTAGTGGGGCKGTCTGCCCCATGTCTGAAGTGTAGTAAG
AGCAAAGTGACTCTGTCCACTATAGGGGAGGCTGGACTGGAATCACTCAGTCCAAAGAAGACCATCCACGGGCCACAAACTGCAATGCCTACATGGCTGG
GAGGTCAGCTTAATCAGGGCCATTGTAAGGTCATTGTAGGTGGTAGTCTTTCACCACAGATACACTGCTAGCTTGTTATTCTTCATCTCCACAAAGCCAT
GTGCTTTTGAAACCTGTAGCCCTGTAGTTCCTTTTGACAAACACAGGTGCAGAAAAAAAAAAAAAAAAGAAAAAACTTTCTTTTTTTCACTACTATTATA
AGAAAACCAGTGCAAGTGTGATGATAATAGCAGCAGAGACTGTGCCTCAAGGTTGGAGTGACCTTGGGACAGTAGGAGTGAGTAGGGATTGTGGCACCCC
AACTGCACGTGTCCTATCTAAAAAGACAGTTATGTGTGTGGCCAACCCAGTGCTACAAGGTCTGTGTTGTTGTTGTTGTTTTTCTTCCAAGCAAAGCTGT
GAATCTAGATTTTTGTGTAAAATGCCATTGTTAAATATTGGCAACTTATAAAAAAAAGTTTTTTAATCTTAAGATGGGTTGATACAGTGTGGGCTAAACA
GGAACCATCTGATTCATGGGCTGCCAGTTTGCAGTTTCCAAGTCTTACCCTCATGCCTTTGATCCTCACTCGATTGTAGATTACCTCTTAACTAAACTGG
GAGGCTAGTAGTGTTGATGTAATAAATGGAAAATACTGTCCATTTCTTACAGTGAAGCACAGAAAGTACTATAAGAAATGGCCTGTATTAGTGGTTCTCA
AATTTTAATGTGTGTGAATTTGCTGTGAACCTGAGTATAGTAGAATTGGGGTTGAATTCCTGTCATAACTAGGATGGGGCTTCCCAAATGGTCTGGTGCT
GAGTGTGCTTTGAAAAGCACTGGCTTATCACCTCCTGTCCCACTTCTGGTGTAATGTCCAGCCGCAGCATGCCTTCTCATGCGTTTGGCCTGTGCTGGCT
CCTTGTATCTGTACATGCACATGAACATAAGACCTGCAGAGAGCCCCCGGCTGTAAACAGAAGTGACGCAGAGCCCTTCTCTCCCCGACAGGAGCATTGT
CCGTGATGCCAGCCGTGCACACCTTCTCTCTCTTTGCGGGATTGGCAGTCTTCATTGACTTTCTTCTGCMGATTACCTGTTTCGTGAGTCTCTTGGGGTT
AGACATTAAACGTCAAGAGGTAAGTTGGTGCCAGGATTATAGTCTATTTAATTTGAGTCTAGAATCTAGAGGAAGCAGCTAGCGGGTATAACCTTTGTTT
CCCTCTGTCCCCTCAGAAAAATCGGCTAGACATCTTTTGCTGTGTCAGAGGTGCTGAAGATGGAACAAGCGTCCAGGCCTSAGAGAGCTGTTTGTTTCGC
TTCTTCAAAAACTCCTRTTCTCCACTTCTGCTAAAGGACTGGATGAGACCAATTGTGGTATGCGCTTATCTGTGGTTTTTCTCTTTCCTCTCACTGAAAC
AGATTATCACATGCCTTCTAAGAAGCCAGACAGCCTGGGAAGGAGATTCTTAAAGCTGTTAAAATGTATCTAAAAAAAAAGCAAAAGCAAATGTGGAACA
GTAGATAAAATGTTTTTCCYGTGAGCTTTTATCAGTCCATATAAACAAGAGTTTTMAGTTTTTTATTTTGAAATAGTTTCAGATTCACAGAAAGTTGCAA
AGAAACTTTTATTTTTCCTCTTAATAATGAGGAAATAGAAGCCAAGAGAGGTGAAGTGGTTTGCCCCAAGTCACTCAGCCCGTAAGTGGCAGAGTCAGGA
TTTGCACCCAGGAATTTGGACTCCTGGTGCTGTGGTCTCACCCACTGCCCTGTACTCCCTATTAGCCTGTCATTTAAGCTTTTCCATTTTAAAAAATCCT
GCTTTTTGTGTGTGCTTAAGATTTTATTTCTGGTCGTAAGCTTATTTACTAAGCAGTCTCTGTCTTATGATTCATTTGTTGTTCCAGATAGCAATATTTG
TGGGTGTTCTGTCATTCAGCATCGCAGTCCTGAACAAAGTAGATRTTGGATTGGATCAGTCTCTTTCGATGCCAGATGTAAGATGACTTCCTTTTTTTTT
TTTTTTTAACTTCTTTAGCTGATGATGAATACATTTTTCAAAACATGCACGTAGGTGTTTCAAGCAAGTGCCTGCTTCTAACTGCAAATGGTGACAGGGT
TTCCAGGGTTAGGAGAACTGTCGCAGTGCACTGCTGGTGTGGGCTGTCTGGCATTCTGACTGAGCCCCTCTGGGCACAGCTGCAGAACACGAATAACTAG
TCTTATGAGGTTACTTTATGAGATGCTCTCCTGAYTGTGGGKCTAGCAGGAGGAGCACCCTGGGGCCCTGGGGGGAAGACTGGTGGTGTTAGGAATCATG
AGTCCAGCTGGAGGCATCTCAGCCAGGAACCTCCTGGCACCCTCTTATTCTCCRTGATCCTCGCCTTGCTTAGTTACTATCAGAGTGTTCACACTCTCTC
CTATTCTTTTATCTTTCTTTCAGGACTCCTACATGGTGGWTTATTTCAAATCCATCAGTCAGTACCTGCATGCGGGTCCRCCTRTGTACTTTGTCCTGGA
GGAAGGGCACGACTACACTTCTTCCAAGGGGCAGAACATGGTGTGCGGCRGCATGGGCTGCAACAATGATTCCCTGGTGCAGCAGATATTTAACGCGGCG
CMGCTGGACAAYTAGTCAGTACCACCTTGTCTYGTACTTCAGAAGCAGCGGAGGAGGCTCTCAGCCAGGCAGTCAGCTCAGGCCTGAAATGTCTCACTGA
AAATAGACTTTCTTGGAAAAGTTGTTTTTATGCAAAATGTATGTTAAATCTGGCTTTACCTTAAAAAACCTTTGAAAGGACTAATTTACCACCTAATACT
TTGAAGGCTTTTTTCATTAAGTGCTCATGTAGTTTTTCTTTTGACTGTTAGCAGTATAAAACGTAGAAAAGGAAGTTAGGTTTTAAGAAAAAGTACTGAA
ACTAAAGACTTCCTCCCTGTGGAGCAGGTCAGTAACCCTGTCTGTCCTCTCTAGTACCCRAATAGGCTTCGCCCCCTCGTCCTGGATCGACGATTATTTC
RACTGGRTGAAGCCACAGTYGTCTTRCTGTCGAGTGGACARTATCACTGACCAGTTCTGCAATGCTTCAGGTACCTTCTCCTTTACCAAATCTTTCCYGT
TTTGCTGAAAAATTTTCAAATTATCATTTAAAAATCATTTGCATCGTGCCTCAGTTTATACCTATTTGTATATCAAAGCTGGGTCTCCCTGTGTCATCAT
TCCTTTCCTCAGTCATTCATTCTGAAATTGTCATGTTGTTCCTGGCTCAGACAGCCACCCTCGGGGCTGCAAGCTGAACAAGGTCCACATGTTCGGAGTG
TGGTTTCCACATAAGGTTTCTCATCCTGTTCTAACTCCAGCGATTGCCTCTCAGGATTGGTATCTGGCCTTAGCTTCTCAGAGGAGGGCTTTTCTTTATC
ACTTTACCYTGTGGTTTTGTAGGAGCGTCGAGGTTGCCCTGGAATTTTCTTAATAAAAACATAGAAGCCCCGGGCTCTGACCAGTCAAGGCCATACTTGA
AGGAGGAGATCTACTTCAGGGCAGAAAATGATGCATAGTATGCCTAAGATGAAAATGGTATTTCAGATTCATTAAACTGTGAAAGTGACATGTGGCTGAA
GCTTTTAGATAAGGGGAAAGATTATCCCTCACTAGTRAGGAAAGTAATCGATAGAGAAGAAAGTAATRCCCCTCACTGTCAGTATTTTAAAATGTTTTAC
AAAAAATCTGGAGACCTATTCTTCTAACAGTCCTCCCTGCATGTCTCCGCCAGTGGTTGACCCTGCCTGCGTTYGCTGCAGGCCTCTGACTCCGGAARGC
AAACAGAGGCCTCAGKGGGGAGACTTCAKGAGATTCCTGCCCATGTTCCTTTCGGATAACCCTAACCCCAAGTGTGGCAAAGGGTAAGTGCTGCTGCCAT
TGCAGATAAGCATCCACTGCAACTTTAATTTGCAGTAGAAAACTAGGAGAGGACTGGGCTAAGACAGTTGCATGGGAACGTCTCTTCTCCGCCCCACCCT
GTCCTGGTCCTTTGGTGGAAGCAGGAAAACCGAAAACACCTTTTTAAGAAAATGCCTCATAGTGTTCAACTGATTCTGTCTTAGCGTGGGCATTCACATC
TCATGCTCTCTCTGTGTCCTGGCCCCCTGGGCATGAGAATGAACGCAGATTCCTGTGCACATTCCAAGCGGGGCTGAGGGAGAGGACGGCCTGCTGGTAA
TCCAGGCCTGAAGGAACTTGGCCTRTTCACTTGTACTGATGGCAGCTGGGGCGTGATCTTAGCTTTAGTAACATTATCCCACATTAAGGTTGCGATTCTT
TTAGCCTCGTCATGCTCCTTGCCAGCCCATCCATGTATAGGGTTATGGGCTATCTCACTCCCCCATCCAGCCAGGCAGCCAGTTACCCACGGAAGCCAGA
TATATGGCCCAAAAATAGTGATGATGACCGGAAGTCTCTGGCCTTGATTTGGAAGCTTTKGGAGGTGGAAGATGAGTATCCCCATGTATGTTAGGTAAAC
CCTGAACTTAGGTTTTTCATAAGAACATACATCTGACCAGAGTCATATCAGTGAATCATTTATATCATGCATGTGCTTTGAGACCTATTCGAGGTATCAT
GGGATGACTCCTCCTAAAAGTTAAGTAGAAATGAATCTTGCAGCTTGATTTACTCACTGACTGGATGCTTTGGCCTACGTAAAATAAGTTGAAGTAGATT
CAGTTTTTCTGAAGGCAGTAGCCACCGTTCCTGGGGAGCCTCCAGGGTGCCAGCGTCATGCCAGGCACTCCCTGACATTATTCCATTTCTCATCACGCAG
CCTATGAGTAGGTGGTGKTATACCCATTTACAGAAGAGGAGACTGGGGCTCAGAGGTGGTCATTTTGCTCGGGGTTACATGACCAGTAAGTGGCAGGGCT
GAGGTTGTTCCCAGGGCCCTTGCCCTTTCCTGCTTCCTATTACACAACAGGACTGAGTAAACCCTGTACMTTTGATTATACATGAAACCAGGTGGAGAAA
CAGCAGCTATGTACCAAAGAACCCAGAGCAATCGAGAAAAGCCCATCTGGCCAGGCGAAGTGGCTCACACCTGTAATCCCAGTACTTTTGGAGGCCGAGG
TGGGCGGATCACCTGAGATCACCTCAGGAGTTCAAGACTAGCCAGGCCAACATGGCAAAACCCTGTCTCTACTAAAAAAATACAAAAGTTAGTTGAGCGT
GGTGGCAGGTGCCTGTAATCCCAGCTATTCGGGAGGCTGAGGCAGGGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCACGCCAC
TGCACTCCAGCCTGGGCTACAGAGCAAGACTCTGTCTCAAAATAAAAAAAAAAAGAAGCCAGTCTGGGAGAGAACAAGCTAAACCTTTGSYGTTCCCTTA
TCTGGGGGCCTTCTTCATCCCTGAAATGTACAGCTGGGTCTGACCTCTGAGTCCAGGGTCAGGTGATTTTGCTTAGCCTCAAGTGCTCAGATTCTGCTGA
TATTTTGCAAGACCTGGACTCTCTTGACACCCAGGATTCTTTCCTCAGGGGACATGCTGCCTATAGTTCTGCAGTTAACATCCTCCTTGGCCATGGCACC
AGGGTCGGAGYCAYGTACTTCATGACCTACCACACCGTGCTGCAGACCTCTGCTGACTTTATTGACRCTCTGAAGAAAGCCCGACTTAYAGCCAGTAATG
TCACCGAAACCATGGGCATTAACGGCAGTGCCTACCGAGTATTTCCTTACAGGTAAAGCCTGCCCTTTTTCAATGGGGTTTACCCAGCAAAGGGCCTACA
CTGGGTGGGAGTGGGGAGGGTTCCCTTGGCAAGATGCTGATTTTCAGGTTGGGTTCTGGCCCCTGCTCCATTCTGAGCACAGGGCAGTATATCAAAGGAA
ATGGGTGCTGGGCAAAGGAGTTCAGAATCTAAAGTCTCTGTGAAGGCCTGAGGGCTAGAGACGCAAAACTTGATCTCTGCGCCACTGCACAGCTGCAAGA
GACACACACTGGAAAATGGCTTAAGGCAGGGGGCGCTTGGAGAGCAGGCGGCTCAGAGCAGGGCCCGGCCCACATTCTTGGCCAACAATGAACCAGAATC
CCTAACTGCTGGTTATTTGGGATGCTGCCTGTATGTAGACTTTTTATATTGTTAGGGGTTTTTTTTCCCAGGAAGAAAAGTATTATGTATGAACTACTGA
ATTTAGAAACTGTAGAAAGGTAGGAGAAACAAGTGATTTATTTTTCCTGCCTCCCCATGATCTCGCTTAAAGCAGGAAGGCCTGGATTTGTTTGGAAGAA
GTTAAGAGCCGGTTAGCTCTGGCAGAAAATAAATGAAAGCATGTTTTCCTCAGGCCTTGCACGGACCCCGCTGAGCCTGAGGTAGTGTCTCAGGATAGAT
CAGGATTCTTTGTTTTTTTGTGTTTTTTCAGAATGCTGTGGAATGCTCTCTGTAAATGTCTATAAAATAGCATAGATTGGGCTTATAAACAGAAACTTTA
TCAAAAATATACATTTTGCATCACTGCTGGGCCCTTCTCTGGGTGGTCAGTGGCCATGAGAGGTCAAGTGAGTTGCTTTCGGTGAGTCTTGTAGACAGCC
AGCAAGGTTTTCTGCAAGGGATGTTTCCCAAAGGAGTYTGACCACTTGGCAGTGGTGACAGGATGAACACGCAGTGTTYGGGAGTGAGAGCGAGCTTTAA
TGAGRCCTCCCCTCTCCCCTCCAGTGTGTTTTATGTCTTCTRCGAACAGTACCTGACCATCATTGACGACACTATCTTCAACCTCGGTGTGTCCCTGGGC
GCGATATTTCTGGTGACCATGKTCCTCCTGGGCTGTGAGCTCTGGTCTGCAGTCATCATGTGTGCCACCATCGCCATGGTCTTGGTCAACATGTTTGGAG
TTAYGTRGCTCTGGGGCATCAGTCTGAAYGCTGTATCCTTGGTCARCCTGGTGATGGTGAGTCCTCATACAGTCTCAGTTTGTCCCTAGCTCCTGTTTCA
CTTGGGGGAATTGGCTGTCTTAGATTCCATGTAAACCCTAAAGATGGAGTAAGATACCAAGTCTGGCGCTTGCTCTTGGCACACATGGAGAGGCAGGATG
AGTGCTGGAGGAGTGCTGGATGGTGGTGGGACAGGGCATAGAGGGAGCGAGCATTGAGTTGGACATCTGGGAGCATAGGCACATTACAGGCAATTTCTGT
TCAATTTTTTCTCTTGTCCCATTCCTTGCGGCTATACTAGTATACCTGATGGTGCCTCTGACCATGGAAATGTGATTTCCTGGCCTAGTTCTGGGCTAGT
CTGCCTGTAATTTGTTATTCTTTAGAGAYTGCACAAGCCTGTAGCCTGATGACAGCAGGATGTTCACTTTTTACTTAGAAAATTGCACCCCRCCCCAGGA
GCTCTCCGACCAGTGCCTTTTGCCTCCTATGTGGTTATCAGGTACTTTTAATCATTAAAGATGAGAGCACTRGAGAAGGTATTCATGGAAAATAGAACAG
TGTATCCGTACTCTCAGATATGAGCCCTGCTTCAGATAGGGGAGCACTGAGGTCCAAGAAAAGAAGTTGTGACAATGCGCCAGCTCGGTGCGGGTGGGGT
GACCTTAACGGGTTCCAGCAATTTCTCCTGGTCAACACAAACGTGCCACAGAAAACCAGGCTTTTGGCTGTGTGTAGAGAGGGCCCCARAAAGTTCCTGG
TACAGTAAGATTGGTGTGATGGAGGCCTTGTAAGTCCAATGGGATGCTTGGCCTCCTCTAGCACCCAGGGTGCCCTGGGTAATTAGCACCCATCCTCAGA
ACGGGGTGGCTGCCTAGGGTCTTCAACAGGAAGAGAGCCATCCTAAAGGAAGTGCTTTATTTCAGAGCTGTGGCATCTCCGTGGAGTTCTGCAGCCACAT
AACCAGAGCGTTCACGGTGAGCRTGAAAGGCAGCCGCGTGGAGCGCGCGGAAGAGGCACTTGCCCACATGGGCAGCTCCGTGAGTACCCTGAGCAGGGCC
ACGCCGGCAGAGTCGCACCACAAAGTAATCCTCCTCAGTGRCTGAAGAGTCTGGATCCTGTACTTACAAAGCAGCTTCTAAGGATTGCAAGCTTTCAGGC
AATTCATGAATTAGCTGCCACATCGTGGACAGAACGGACGTTCTGTGGAACTGTACCTGTTGGTACGGCTCCTTTTTAGGTGGCAGTGTGCTGAAGCAGG
AAAATAACAGACAAGTTAAACATGAGACAGCTGGCAGTCTTTCYCATTTAAAATGCAGGGGAGCCCGGGCCAGAACCCAGCGTGTGATGTGCGGTTGGTG
CCTGGAGAGTCGTCTTGGTTCAACTCTACACCCTGGCTTAGCCTATCTCTTTACCACTGTAGAAAATACCTGGTAAAGAGTAAAAACTAAAACTTTGTTT
CGTAACACTTTTAAATATTTAAGTTTTCACCTGAGAATATAAAGAAAGATAATCAATTGGGAGACACGATGCAGTGTCTGTGCAGAATACACAGCTTTTA
ACTTGGTCATACCTCTCCCCCAGGATCATAAGGCAGCAAATAGTGTTAGGTAGTAGATGATGCTACCTGGGTTCAGTTCCCATTGCTTTGAACCTTGAAT
ATTAAGAAATCCCCATAAGGGCTGGCCACGGTGGCTCATGCCTATAACCCCAGCACTTTGGGAGGCCAAGGCTGGCGGACCACTTGCGGCCAGGGGTTCG
AGACCATGGCCAACATGGTGAAACCCCATCTCTACTAAAAACACAAAAATTAGCCAGGCATGGTGGCGTGCACCTGTTTAATCCCAGCTACTCAGGAGGC
TGGGGCAGGAGAATCACTTGAACCTGGGAGAAATCCTYGTAAGGAAGTGTTTTTGTTCAATTACAGGTTGGTAAAAGTGGTTTCTAACACAGTATCTCTT
CTTTTAGGTGTTCRGTGGAATCACACTTASAAAATTTGGAGGGATTGTGGTGKTSGCTTTTGCCAAATCTCAAATTTTCCAGATATTCTACTTCAGGATG
TATTTGGCCATGGTCTTACTGGRAGCCACTCAYGGATTAATATTTCTYCCTGTCTTACTCAGTTACATAGGTAAGAGTTCTCATCTTAAAAGGGTGGCAC
AATRGAAGGACATTACTGAAAGGGAATTCTATCCTGAGGCATTCTTTTCAAGTATTTGAACTCATACTAATGGTCATTTGATAATGATAAATGATACTGA
GTAAAAAAATTTCTTCTAAAAGAAAAAACCCATCCAGGGGATTCATGATGGTGCAGACTACTTTATTAGGAAGTTGTCGATGTTTTTTCTGGAGGCCTGA
TCTGTCTGCTTCACAAAGGCCTGGAGCCAGTCCTTGAATGGATCTGAGTGTCAGCAGGCAGGGCAGCTCCTCCCTGCCACTGAGATGAAGGAGTCCATCT
GGCAGCCAGCTCTCACACCAGCAGTGCTGCAGAACAGCTTTTTATGTCCCTCATGGATTTCCCGTTTCTTAGCAAAGTGCTTGCTGCCTTTCTTCATCTC
GAGACTGTCCTTGATCCTTTTACTTCTATGGCCACTTCACCTTGCACAAAAATGACCCACGGTTGAAAGARCAATACTGATTTGCTTCATTTATAGCTTT
GTCACTAAATTGAAGCACTGAAGTAGAAGATTAAGAAAATGAGGGGCTTTTTATCATCTCCGGGGGATAGAAAGTAGTTCTATTACAATCTAATATACTA
GTTCCTTTTAAGAAAAAAAAAAAAAAAAAAGAGATGAGCACTTTGGAAGGCTGAGACAGGAGAATCGTTTGAGACCAGCCTAGGCAACATAGTGAGGCCT
CCATCTCTACAAAAATAAAATTAGCCAGGTGAAGTGGTGTGCGTCTGCAGTCCCACCTACTTGTTAGGCTGAGGCAGGAAGCTTGCTTGAGCCCAGAAGG
GTGGGCTTAGGATGCAGTGAGTCGTGTTCATACCACTGCACTGCAGCCTGAGGAAGAAAGCAAAGAGCCCATCTCCAAAAGAGAGGGAGAGAGATGTGGT
CTCACTCTGTTGTCCAGGCTGGTCTCAAGCAATTCTCCTGCCTCAGTCTTCCAAAGTGGGATTACAGGCGTGAGCCACTATGCCCAGCCAACTAGCTCCC
TTTCTCCTGCAGAAATAAGAAAAAGTCTCTCTCTCTCATAGGGCCATCAGTAAATAAAGCCAAAAGTTGTGCCACTGAAGAGCRATACAAAGGAACAGAG
CGCGAACGGCTTCTAAATTTCTAGCCCTCTCGCAGGGCATCCTGACTGAACTGTGTCTAAGGGTCGGTCGGTTTACCACTGGACGGGTGCTGCATCGGCA
AGGCCAAGTTGAACACCGGATGGTGCCAACCATCGGTTGTTTGGCAGCAGCTTTGAACGTAGCGCCTGTGAACTCAGGAATGCACAGYTGACTTGGGAAG
CAGTATTACTAGATCTGGAGGCAACCACAGGACACTAAACTTCTCCCAGCCTCTTCAGGAAAGAAACCTCATTCTTTGGCAAGCAGGAGGTGACACTAGA
TGGCTGTGAATGTGATCCGCTCACTGACACTCTGTAAAGGCCAATCAATGCACTGTCTGTCTCTCCTTTTAGGAGTAAGCCATCCCACAAGTTCTATACC
ATATTTTTAGTGACAGTTGAGGTTGTAGATACACTTTATAACATTTTATAGTTTAAAGAGCTTTATTAATGCAATAAATTAACTTTGTACACATTTTTAT
ATAAAAAAACAGCAAGTGATTTCAGAATGTTGTAGGCCTCATTAGAGCTTGGTCTCCAAAAATCTGTTTGAAAAAAGCAACATGTTCTTCACAGTGTTCC
CCTAGAAAGGAAGAGATTTAATTGCCAGTTAGATGTGGCATGAAATGAGGGACAAAGAAAGCATCTCGTAGGTGTGTCTACTGGGTTTTAACTTATTTTT
CTTTAATAAAATACATTGTTTTCCTAAGTTTTGGGGTTACCCTATCTGCTTTGAGAGACAAATACAAAAGCTAAATGGAAGAGATTCTATCTAACCTGTC
CTTATGGTAACTAAATGCCGTCTTACATTGAGCTAGAAATAGACCTAGAAGTTTCATTAGACAGCCCTGATCCTTCCCTATCCTAAAGATGATGTCTTAG
GTTGTATAACTATTTGGAGATGAGAATGATCAACCAGGGCCAGGTGCGGTGGCTCAAACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCA
TGAGGTCAGGAGTTTGAGACCAGCCTGGACAATATAGTAAAACCCCATCTCTACTAAAAATACAAAAATCAGCCGGGTGTGGTGGCACGCACCTGTAGTC
CCAACTACTCAGGAGGCTGAGGCAGAAGAATCGCTTGAACCCAGCGGAGGTTGCAGTGAACCGAGATCACACCACTGCACTCCAGCCTGGGCAACGGAGC
GAGACTCTGTCTCAAAAAAAAAATGAGAATGATCAACCAATGTATACTTCATAAAACTGAAACCTTAATAAGCCCCAGACCCTTTAAAACCCTTAGCCAC
CATTTGCCGTCTTATTCCTGGCTTTAAGAGATATTCCAAGATCTGCTATAAGAGATGGGCTGTGCCTGATCTGGGTCCTAAATGTGTCTTGACTCAAAAC
ACACCTCCTCGGTGAGTTCCAGAGCATAATTCAGATTCTGTCAGTATACTGAATTCACTCTACTACAAATAATGGGCCAAGGGCTAGGTGGGCTGTTATC
AAATTGTGTTGTTTACAAAAATGCTAACCCAGGGTCCTCGCCCACCAGCTGCCAGTGCCCTCTGCTACTCTTTGAGGCTATGGTTACCCCAAGTCTTTTC
ATTGCATTCTCACCTGGTGTGAAATTGGGGCTCCCTCGCAAACGCTGGTTTCGCTGTTCAAAAAAGCGGAATATTGTATAGAAAAGCATGTTGTCTTCAG
TCTGCTTTGCAGCATCTAAAAATTTTCGTGCAGAAATGTTGTCATGGCCACCAATGCCCCGGATAAACCTTAAGGCAGCTAACACTTGGTGTTTGGAAAG
GAGAACTTCTACTATTTCATCATTTGCTGTTGAAAGTCGCTAGCAGTAAGGGAGAGAAGTCCAGGTCAGTGCAAACAACAGGAACAGAGTTAGTTTCCAT
AGTCTAAAACCTCACACATCAGAGTTACCTTCAGCATGTCCAGAGATAGCTGATGAGCAGGAGGATAGAAACTCTCTAGGGATAACAGCAGACAAGCCTG
AAAGACATTTTTAGACCCACTTCAGTTGGAAAGATAACGGTTAAAATTTTCCATTTTTAACCACAATGGAAGTAAAAATCTGGCAATGCATACCAAAGGT
TTGGAGTCGCTGAGGACGTGGTACTGCAGGAACTGATGCAGCATATAAAAGAGGTTGTGCTGGACAAGGGTTTTGATAACAAGTTCATGTAGRTAATGCT
GAGGACAAAAGTAAAAAGTGAAAGAACACTTCCAAATCATTCAGCTACAACAGACTAGAGGCTCCCCAAGGACTGGCTATTCTAACCAACACAGTAAAAG
TCTGTCATTACAAGAAGTGGTTTCGTCATGCAGGTAAAGACCCCAACTTGACCTTACACTTCCCATTCCAACTAATAATGTCAGGAGTCACTCAGCATTC
TGAGTCAGGGAGGCAGACCTGTCTTAGCATATGAGTCATCTTCTAAGACAGTGACTGTGTTTTTTTTTTAAATTCCTTCTGTTTTAACTTGGGCCCAGAT
GATTTGAAGGTACCTGTACTGCAATCTGAAACTGGTTAAGAGAACGAATGTATTCCATCAGCACGGCTATCACAAATTTATGAGGCATCTCCTAGGGAGA
AAAAAATGTGGTCTTACAAATACCAACGAGGTGCAAAAGAGGCTGCATATAACTCTCTATCCAACCCCCACCTTGTTTCCATCTTAAAATGGCCCAGTGT
TCATCTTTCACTGGTTTTGCACACATCGCTCCAGAACCACCCGTCAACAATTATGCTTTAGGCCTCAGCATTAGAAGCCAAACTACCAGCTCTAGGGCCT
CACCCAAGGAAACTCCAGTGATTCTAATCACTTCAAGTGACTCTAATCACATGAAGTCTCCTCGTTTTCAGCAACTTCCTTGTTTTGAGCATTCTCAGTC
CAGAAGAGGCGGAAAGCTGCGGCCCACCTTCTTTTCCACNAAGGCTGACAGGACATGGGTGTACACATCTGACTGGTCCAGCACCGCCTGGGTCCGCACC
GGCCTCTTGAGGAGCGGGCTGCTTCGGYTCTGCCCTGCTTCCACYGCCTGAAAGAAAAAAACCACAAACTATGATCTTCGGCATCTTAGAGGAAGGGTGC
TGTTTACAGTTCATCCACAAGGACTGAATTCTTCGATGTGGACCCAGGATATGAGCGGAAAACACTTTCTCTACTTAGATACAACTTTTTCCTGTGCGCA
TGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCCCTTGAACCCAGGAGGCAGAGGTTGCGGTGAGCCAAGATCTCACCATTGCACTCCAG
CCTGGGCAATAAGAACAAAACTCCGTCTCAAAAAAAAAAAAGCAGTTCAGATCCGTGCAGATTATGCAATAGCTGTGGGGTGTAGCCTGAGAACTTGCAT
TTCCAAGAAACTCCAGATGCTGCTCATGTGGCTGGTCAGTGGCCCACACTGCTGAGTCATGACGGTTTATGGAGCCCAGCAGACCGTGTGGGACGGCACA
GAAACTGCCATTTGGGATCAGACCTACTGATTCCCACAGCCCAGAACACCCACAGCAATAGAGTCCAAAAGGACTCAGCCATCCCTCACGTCTGGCAGCG
TAGGAATGGACACTGTCCCAGCAACTGGCCCTCTTCAGTGCCTGTCTCAGACCTCTTACCCTTCCATGAACAGCTAAAGGGGAGTGGAGTTCTGGGGCTT
TTGTTGGTTTAAAACCATTTTCAGCCTAGGACTAATCAGATCCTGGAATTGAAATAATTCATTCTCCTTGTCCTAAACTTTTCTTCTGGCTTCAGAAGAT
ATGATGTACAAGTAATACAGCGGGAATTGGTGGCGATAAGCCATGGTTATTACCTTGACTACAAACACGCCTGCTAAGTGCTAACACTGAATCGTCACTA
TCTCAACAGGATTCTTTCCCAAAAGGGAAGAAAGGTGTGGCAAATATAAATATTTCTAATTTAATTTTCTAAGTCCTCACTCTGGCATAACAGAAAAATA
TACAAAATATTGCAAAGCAGAGACTGATTTTTCTCATCTATAACAGTAGACCAAGGATCTACAGGCAAGATCAAACACAGATGGGAAAAACAAAAACAGT
GAAGGTATGAAGTGAGATGCAGCCGCCAGCTCGTGGGATGCAGGGACCCTGAATTTACTACTCCTCCACTATCCCCCACTACTGCCACCTTGCCCTATGG
CAGGCGGCAAATCTCAGCGACCTTATTCTAATATATAGGAAACAATTTTGCATCATAATTACTTAGAAAATACCCGGGAGGGGGTGGGGGAGGAGGACCC
TTTGTCATACTCCATGTAACTCACCATCGCATAACTCTGSTCGGCATCCAGGTACTTTTTATACTCATGGTTGAGTTTATCAAAAACAGTGGCTATCACG
GGCAGCGATGCTCTGTCTGACTCACTTAACACTGGAAAGGCACAATGTTCACACACGGATCAAACCAACTTCATGTCAGCTTCAGAATTTCCACACGTTG
CTATGATAAAAACTAATCTCAAAAGGTTACCAATGCAAAAGTACCTTTAAAGGACACTCTAAGAAATACAATACTTTAAAGACCTGACAGCTAGATGTCA
TTCGCAACCCCTTTCTGGTTACGGTTAAAAAAAAAAAAAAAAAAAAAAGCTATAGCAGGCCAGGCTCAGTGGCACATGCCTATAATCCCAGCACTTTGGG
TAGGCCGAGGCAGAAGGATCACTTAACGCTGGGAGTTTGAGACCAGCCTGGGCAACAAGGCAAGACCCCATCTATACCAAAACAAAAACAAACACCAACA
GCACATATTGGTAGGGGATTATTATTATTATTTTTTTTTGGATACAGGGTCTTGCTCTGTCGCCCAGGCTGGAGGTACACTGACACAAACGGCTCGCTGC
AGCCTCGTCCTCCCGGGCTCAAGGAATCCTCCCTCGGCAGCCTCTGGAGTAGCTGGGGCCACAGGTGTATACCACCAAACTCAGCTAATTTTTTTTTTTT
TTTTTTTTTTTTTTGTAGAGACAGGGTTTTGCCATGTTGTCGTCCAGGCTGGTCTCGAACTCCTAGGCTCAGGCAATCCTCCTGCTTCAGCCTCCCAGAG
TGCTGGGATTATAAGCATGAGCCACCATGCCTGGCCTCAGTAGGGGATTCTTAAAGAAGACACATATGCAGTGAGTGGCTTGGATTTTGAAAGAGGTGTG
TGTGAAGGCCAGGGGTGGTGGCCCACTCCCCTCCTGTGTGCCCACTTTCATTCAGAACCATCCCATTTATTGTTCTTTTCTACCAGTATCTCTACAAATC
ATCTTTCCATTTAGCAGCCTTTCCTAGGGGGTCACATAGCCACCCCTCACATAAAGAATGAGGCTGTGGGTCACAGACAAGACACAACAATGTAGCCCAC
ATCCCGATAAAAAGTGTTGGGCAGCACAGGCCTCACACTGGAATCAGAGCAAGGGGGAAGGATTCAACTTACTCTGTGAACAGACAGACAGGATGACCAT
CTTGCATTCCTTTCTCTGGAGGAGAAAGTCCATGAGTCTTCCTTTGTCTGGTAAGAGATTTACTATGGGCTCAAGTTTCACTTGGAGGTTCCAGAGGTAA
CCTGGATTTTAAGAGGCAGCAAATAAAACAGTATGATGCAAACCGTAACAAAAGCCCAAAAGTGGTTCCCCTAAACATCTGCGGGGCGGGTGGCAGGTGG
TGATAAAAAGCCGCAAAGTACAGTCAGTGTAGCTTTTCCTTCCTAACCAAAGCAGAGCTGAGCCATTCAGGAGCAATTCAGGAGCGTGTCTACCACAGGA
GGATGACAGCCCAACCACCGCACACCTGGCTGACTCTTTTCCAAGTAACCTCTGCATTCAGGGGCACATCAAAGGTGTAGCTCCTAGTCCTTCATTCCAA
ACGGGGACTTCCCTAGACCTAGCCCCTCTTTTAACGTTTAAAATAGAAAAAGATGTCAACACGTGGCATCAACTTCAGTCCTGTGCTTTGGTTTCTCCTA
CAACAGCTCATTAGTTTAAAAGGTAACTCCAGAGGCTCTCAATGGAACATCATAACTCATCCATTCATCGACCCATAAATGTACTGATCACCCACACTGC
CAGCATCTGGTGTGGCCTTTCCCAATTGGGATGCCACAGGAGAATGAAGTGCCACATAAAAAATCATCTGGGTGACCCCCTTTTCAGTTGGCCCAAGGCA
GGTACAGAGCAGCTGTACAGGAAAACACCAGCGAGATGCACAGGAGAGAAATGACTTCATTACATACATACAGTGGATGTCACATGAGGCTATGGGTTAC
AGACAAGGCACAACAATGCATTACATACAGTGGATGCCTACAGCATCAGGGCTAATTCTCTCCTCAAGAGTTCTTAGGAATTCCAGAGGAAAGGCAGGAA
AATACACAGAGGATTAAAGAGTAACATAGGAGATTCTCTAATAACCAGCCTGGCGAGGTATTAGAGACACAGGGGCAACATGGCAAGACCCTGTCTCTAC
AAAAAAAAAATTATAGGCCGGCTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACGAGGTCAGGAGATCGAGACCA
TCCTGGCCAACATGGTGAAACCCCGTATCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCGCATGCCTGTAATCCCAGCTACTGGGGAGGCTGAGG
CAGGAGAATCGCTTAAACCCAGGAGT


SNP Information

Context             (SEQ ID NO:44087):
GAAATCCTTGTAAGGAAGTGTTTTTGTTCAATTACAGGTTGGTAAAAGTGGTTTCTAACACAGTATCTCTTCTTTTAGGTGTTCAGTGGAATCACACTTA
S
AAAATTTGGAGGGATTGTGGTGTTGGCTTTTGCCAAATCTCAAATTTTCCAGATATTCTACTTCAGGATGTATTTGGCCATGGTCTTACTGGGAGCCACT
Celera SNP ID:            hCV27863254
SNP Position Genomic:     59130
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44088):
ACCTGGCCAAGTTGTAGCTGATGGTCTGTCCGAAAATGCTGGTTCACTCTCCACTGGCCAACTGTCTGTCTGCACTGCACTGCCAGTTGCCTCTTGCCTG
S
GCCATTGCGCTAACATCTCCACTTACTGTTCCACCTGCTTCCTGTTTCTTTGCCGTTTCCAGACCTTCCACTTTGCCACGCAAGCTATCTTTGTAAAACA
Celera SNP ID:            hCV3204020
SNP Position Genomic:     40026
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44089):
TTTCTGGTGACCATGGTCCTCCTGGGCTGTGAGCTCTGGTCTGCAGTCATCATGTGTGCCACCATCGCCATGGTCTTGGTCAACATGTTTGGAGTTATGT
R
GCTCTGGGGCATCAGTCTGAACGCTGTATCCTTGGTCAACCTGGTGATGGTGAGTCCTCATACAGTCTCAGTTTGTCCCTAGCTCCTGTTTCACTTGGGG
Celera SNP ID:            hCV27004477
SNP Position Genomic:     57107
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:44090):
AGTGCAGCTGCCTCTCACCCTTTACCTCGTGCCTGGGTCGCTAACACAGTGTCATGTATCACACCCCCCACAAGATTTAAAGATAGAAGAGCCTTTGGTG
Y
CTTTTGTTCTGTCTCAGATATATAGCCCAGTCCCCTGTAGTGCCCCAGCTATTTGGGAGGCAGCCTCCCTCTGAGGAGTTGAGGCAGTATAGGTCTGCAG
Celera SNP ID:            hCV3204021
SNP Position Genomic:     38660
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44091):
ATATTTCTGGTGACCATGGTCCTCCTGGGCTGTGAGCTCTGGTCTGCAGTCATCATGTGTGCCACCATCGCCATGGTCTTGGTCAACATGTTTGGAGTTA
Y
GTGGCTCTGGGGCATCAGTCTGAACGCTGTATCCTTGGTCAACCTGGTGATGGTGAGTCCTCATACAGTCTCAGTTTGTCCCTAGCTCCTGTTTCACTTG
Celera SNP ID:            hCV27004478
SNP Position Genomic:     57104
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44092):
TTCTGCAGTTAACATCCTCCTTGGCCATGGCACCAGGGTCGGAGCCACGTACTTCATGACCTACCACACCGTGCTGCAGACCTCTGCTGACTTTATTGAC
R
CTCTGAAGAAAGCCCGACTTATAGCCAGTAATGTCACCGAAACCATGGGCATTAACGGCAGTGCCTACCGAGTATTTCCTTACAGGTAAAGCCTGCCCTT
Celera SNP ID:            hCV27004479
SNP Position Genomic:     55867
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44093):
CCAGCCATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATAGCGGCACTATTCACAATAG
Y
AAAGACTTGGAACCAACCTAAATGTCCAACAACGATAGACTGGATTAAGAAAATGTGGCACATACACACCATGGAATACTCTGCAGCCATAAAAAATGAT
Celera SNP ID:            hCV3204024
SNP Position Genomic:     33480
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44094):
CAAAATGGTAGAATTTATGTGTATCCTTAACCCAGTTTCCCCGATGATACAACTTACATAACTCATAGTACATCTAGAACTAGAAATACCATTTGACCCA
K
CCATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATAGCGGCACTATTCACAATAGCAAA
Celera SNP ID:            hCV3204025
SNP Position Genomic:     33383
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,9)   total(G,9|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44095):
TCAGGTAACTAGTTCATAGTTTCTCCCAGTAAGAGAGGTAACTGGTACATTTATCCTGCTGTGGCTAATTTAGGGGGTGCTGGGAGTGGGAATGGAGGAG
S
AAATGAATTGCCTTCAGGCATTGCTGTCATAATTGAAAGAATAAGCAGTTAAAAAGGGGGTGGGAGGCAGCTTTTCTAGAGCTCTGCTATAGTATTAGCT
Celera SNP ID:            hCV3204026
SNP Position Genomic:     31767
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44096):
ATTACTGATAATAGCCAAACTGTGGAAACAACTCAGATATTTATCACCTGATATATGGATAAACAAAACATATGTCCTTGCAATGAAATGTTGTTCGGCC
R
TAAAAAGAAATGAAGTATTGATACATGCCACAATATGCATGAACCTTGAGAACATTATGCTAAATGAAAGAAGCCGGTCATGAAAGACCACATATTATAT
Celera SNP ID:            hCV3204027
SNP Position Genomic:     29415
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44097):
TGCAGTGAGCTGAGATCACACCATTGGACTCCAGCCTGAGGGACAGAGACTCCATCTCCAAAAAAAAAAAAAAAAAAAAAACTCTTACTACTCAATGATA
R
ATAAATAACCCAATTTAAAATGGCAAAAGATCTGAATAGAGTAGACATTTCTCTAAGGAAGATATACAAATGACCAACAAGCACATGAGAGATGCTCAAT
Celera SNP ID:            hCV3204028
SNP Position Genomic:     28666
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44098):
AAGAACACCCACTGTAACACTATTGTGATTGTGAAAAATTGAAGACCTCAAGAACGAGAAGACAAGACACAGACTGGGAGAAAGTATTTGCAAAAGACAT
R
TTAGTAAGGACTGTTATTCAAAATATACAAATAACTCCTAAAACTCAATAAGAAAGCAAACAGCCCAATTGAAAAATGGACAAAACAACCTGAACAGATA
Celera SNP ID:            hCV3204029
SNP Position Genomic:     25082
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44099):
TGGGCTGTGAGCTCTGGTCTGCAGTCATCATGTGTGCCACCATCGCCATGGTCTTGGTCAACATGTTTGGAGTTATGTGGCTCTGGGGCATCAGTCTGAA
Y
GCTGTATCCTTGGTCAACCTGGTGATGGTGAGTCCTCATACAGTCTCAGTTTGTCCCTAGCTCCTGTTTCACTTGGGGGAATTGGCTGTCTTAGATTCCA
Celera SNP ID:            hCV25620725
SNP Position Genomic:     57129
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:44100):
CAGTGTGTTTTATGTCTTCTACGAACAGTACCTGACCATCATTGACGACACTATCTTCAACCTCGGTGTGTCCCTGGGCGCGATATTTCTGGTGACCATG
K
TCCTCCTGGGCTGTGAGCTCTGGTCTGCAGTCATCATGTGTGCCACCATCGCCATGGTCTTGGTCAACATGTTTGGAGTTATGTGGCTCTGGGGCATCAG
Celera SNP ID:            hCV25620726
SNP Position Genomic:     57022
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44101):
TCGGTGAGTCTTGTAGACAGCCAGCAAGGTTTTCTGCAAGGGATGTTTCCCAAAGGAGTCTGACCACTTGGCAGTGGTGACAGGATGAACACGCAGTGTT
Y
GGGAGTGAGAGCGAGCTTTAATGAGGCCTCCCCTCTCCCCTCCAGTGTGTTTTATGTCTTCTACGAACAGTACCTGACCATCATTGACGACACTATCTTC
Celera SNP ID:            hCV25620727
SNP Position Genomic:     56879
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,39|T,1)   total(C,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:44102):
TTGAAGATGAACTAAATCGTGAAAGTGACAGTGATGTCTTCACCGTTGTAATTAGCTATGCCATCATGTTTCTATATATTTCCCTAGCCTTGGGGCACAT
S
AAAAGCTGTCGCAGGCTTCTGGTAAGCCGGGGGGGGGGTGGTGTATGTTCTAGAGGTTAACAGCAGTGCACAGTGTAACGTCATATTTTTGCCTCTTTAT
Celera SNP ID:            hCV7490119
SNP Position Genomic:     47644
SNP Source:               Applera
Population(Allele,Count): african american(C,26|G,6)   caucasian(C,11|G,7)   total(C,37|G,13)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGMD;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44103):
GACCTGGACTCTCTTGACACCCAGGATTCTTTCCTCAGGGGACATGCTGCCTATAGTTCTGCAGTTAACATCCTCCTTGGCCATGGCACCAGGGTCGGAG
Y
CACGTACTTCATGACCTACCACACCGTGCTGCAGACCTCTGCTGACTTTATTGACGCTCTGAAGAAAGCCCGACTTATAGCCAGTAATGTCACCGAAACC
Celera SNP ID:            hCV27004480
SNP Position Genomic:     55811
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44104):
CTATTCTTCTAACAGTCCTCCCTGCATGTCTCCGCCAGTGGTTGACCCTGCCTGCGTTCGCTGCAGGCCTCTGACTCCGGAAGGCAAACAGAGGCCTCAG
K
GGGGAGACTTCATGAGATTCCTGCCCATGTTCCTTTCGGATAACCCTAACCCCAAGTGTGGCAAAGGGTAAGTGCTGCTGCCATTGCAGATAAGCATCCA
Celera SNP ID:            hCV27004481
SNP Position Genomic:     54016
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(G,-|C,-)   no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44105):
TACAAAAAATCTGGAGACCTATTCTTCTAACAGTCCTCCCTGCATGTCTCCGCCAGTGGTTGACCCTGCCTGCGTTCGCTGCAGGCCTCTGACTCCGGAA
R
GCAAACAGAGGCCTCAGGGGGGAGACTTCATGAGATTCCTGCCCATGTTCCTTTCGGATAACCCTAACCCCAAGTGTGGCAAAGGGTAAGTGCTGCTGCC
Celera SNP ID:            hCV27004482
SNP Position Genomic:     53998
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44106):
TGTGAAGGGCATCAGCTCTCCAGTCAAATTGAACTGCTTGCTAGCAAAATCCTGCCCATCTTCCAGGGCCCCATTTCACATGCTACATTATCTACGACAT
Y
CTTGTCCTGTTCCCCTAACTAGAATGCCTTCCCTCTGAAGTTCTGAATCTTTATTTAAACTGCTGCAACAGCATTTGCTGCCTCATTAAAAGACCTTGGT
Celera SNP ID:            hCV16017383
SNP Position Genomic:     9016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44107):
TTCGTTTCCTCAGTGGGGTTGCAGCAGTGGGTGAGGTGGTGTGCCAGTGCCGAGGACACGGCTGCGACCAAGGCAGACATGGTCCTTGCCTTTGTGGCCC
Y
ACCATCTAGTCAGGGTGGCACAGCAGAACCAAGTAATTAATCATAGCTGGGGAGGCGCGAAAGCAGCAGGACAAGAGTGGGAATAGCAGGGCAGGGTTGA
Celera SNP ID:            hCV16017384
SNP Position Genomic:     35676
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44108):
GACTTCCTCCCTGTGGAGCAGGTCAGTAACCCTGTCTGTCCTCTCTAGTACCCGAATAGGCTTCGCCCCCTCGTCCTGGATCGACGATTATTTCGACTGG
R
TGAAGCCACAGTCGTCTTGCTGTCGAGTGGACAATATCACTGACCAGTTCTGCAATGCTTCAGGTACCTTCTCCTTTACCAAATCTTTCCTGTTTTGCTG
Celera SNP ID:            hCV27004483
SNP Position Genomic:     53207
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44109):
AAAAATCGGCTAGACATCTTTTGCTGTGTCAGAGGTGCTGAAGATGGAACAAGCGTCCAGGCCTCAGAGAGCTGTTTGTTTCGCTTCTTCAAAAACTCCT
R
TTCTCCACTTCTGCTAAAGGACTGGATGAGACCAATTGTGGTATGCGCTTATCTGTGGTTTTTCTCTTTCCTCTCACTGAAACAGATTATCACATGCCTT
Celera SNP ID:            hCV27004484
SNP Position Genomic:     51517
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44110):
AGAGCCCTTCTCTCCCCGACAGGAGCATTGTCCGTGATGCCAGCCGTGCACACCTTCTCTCTCTTTGCGGGATTGGCAGTCTTCATTGACTTTCTTCTGC
M
GATTACCTGTTTCGTGAGTCTCTTGGGGTTAGACATTAAACGTCAAGAGGTAAGTTGGTGCCAGGATTATAGTCTATTTAATTTGAGTCTAGAATCTAGA
Celera SNP ID:            hCV27004485
SNP Position Genomic:     51270
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44111):
GATGTCCATCCTGTTTTTATAACCTACTGAACCTGTTTTGTGAGCTGACATGTAGCCCTCGACAGAGTCAGTTTTTGAATGTTACAGCTACTGAAGATTA
Y
GTTGATCCTGTTACAAACCAGACGAAAACAAATGTGAAAGAGTTACAATACTACGTCGGACAGAGTTTTGCCAATGGTAAGTAAACTTTTAATTATTCCT
Celera SNP ID:            hCV3204030
SNP Position Genomic:     23728
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(C,5|T,35)   total(C,9|T,67)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(C,5|T,33)   total(C,10|T,64)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44112):
AGAAATGGCGTTGTTATTGAGAAATTTTAATGTCGCATAATTTTTTTTTTTTTTTTTAAGAGAGATGAACGTCTTCAAGGGGAAACCCTGGATCAGCAGC
Y
GGGCAGGGTCCTAGGAGAAGTGGCTCCCAGTATGTTCCTGTCATCCTTTTCTGAGACTGTAGCATTTTTCTTAGGTAATTATGCTTTCAATCCTACCAGT
Celera SNP ID:            hCV27004486
SNP Position Genomic:     49096
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44113):
ATCATGCAGTCCTTCCTCTCCCCCCATGCTTTGCTTTGCACATCATTCTTGTCCCTCCCTCTGGTGAAGGGTTGTGATAGAGTCAGGTCCTCAGTAGAGC
Y
GGCCTCGGGGAGCTGTTAAAAATTTTGTTCTGCTGTAGCTGGCTGGTTTTGTCAAACTTAGTTTTTTATCTGTTCTGTTGGCTATGACCCTGAGCAGTGA
Celera SNP ID:            hCV3204031
SNP Position Genomic:     21742
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44114):
TGTAACTAATTGGTGATTGTGTCTGTCGCCTCTCTCAGGTGGATTCGAAGGTCTCACTAGGCATCGCGGGCATCTTGATCGTGCTGAGCTCGGTGGCTTG
S
TCCTTGGGTGTCTTCAGCTACATTGGGTTGCCCTTGACCCTCATTGTGATTGAAGTCATCCCGTTCCTGGTGCTGGCTGTTGGAGTGGACAACATCTTCA
Celera SNP ID:            hCV27004487
SNP Position Genomic:     48162
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44115):
TAAGTAAGTAGTAAAAAAAAGAAAAAAAGTCCGTCTATACACTGTAAAGTGCTGTGTAAATGTTCATAATTACTATCACTGTCTTCTTCATAGTTGATGG
R
GGGAAGGCTGGATACATAAAAAAATGGTAATACAGTAAGAAGTGCTCAGATAAGAATAAAGATAAAATGTTATGGAGAGTCCATTTTTGAGCTGAGCTAT
Celera SNP ID:            hCV11779514
SNP Position Genomic:     10557
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44116):
AGACAGACTCTTGCTCTGTCACCGAGGCTGGAGTACAGTGGCATGATCTCAGCTTACTGCAACCTCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCT
S
CCCAGTAGCTGGGACTGCAGGCACATGCCACCACACCTAGCTAAGTTTTATATTTTTAGTAGAGGTGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAA
Celera SNP ID:            hCV3204032
SNP Position Genomic:     21076
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44117):
AATCTGACCATTTCCTTCACTGCTGAACGAAGTATTGAAGATGAACTAAATCGTGAAAGTGACAGTGATGTCTTCACCGTTGTAATTAGCTATGCCATCA
K
GTTTCTATATATTTCCCTAGCCTTGGGGCACATCAAAAGCTGTCGCAGGCTTCTGGTAAGCCGGGGGGGGGGTGGTGTATGTTCTAGAGGTTAACAGCAG
Celera SNP ID:            hCV27004488
SNP Position Genomic:     47610
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44118):
TAGTTTAACTAAAAATATAACATTTTGCTTACCTTTTAGGTTTATTAATTTTGTGAAAAACTACAAGAATCCCAATCTGACCATTTCCTTCACTGCTGAA
Y
GAAGTATTGAAGATGAACTAAATCGTGAAAGTGACAGTGATGTCTTCACCGTTGTAATTAGCTATGCCATCATGTTTCTATATATTTCCCTAGCCTTGGG
Celera SNP ID:            hCV27004489
SNP Position Genomic:     47537
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:44119):
ACACTTACAAAATTTGGAGGGATTGTGGTGTTGGCTTTTGCCAAATCTCAAATTTTCCAGATATTCTACTTCAGGATGTATTTGGCCATGGTCTTACTGG
R
AGCCACTCACGGATTAATATTTCTCCCTGTCTTACTCAGTTACATAGGTAAGAGTTCTCATCTTAAAAGGGTGGCACAATAGAAGGACATTACTGAAAGG
Celera SNP ID:            hCV27528119
SNP Position Genomic:     59223
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44120):
ATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCTGGCCTAGAAGGGGCTTTTTTTTAACCTTTCCTGAACTGTTCCT
R
TCGTTGAAAGAAGCTTCCCTATCCAGTCATTTTCTTAGTAATTAAACTCTAGAGCATGTTGTGAAATATCCATATGATCTAACCTTTAAAAATAGAAACT
Celera SNP ID:            hCV11779517
SNP Position Genomic:     12900
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44121):
AGGTTTTAAAATTTTCTTTTGAGATTGCCTCGGTGTTTTTCCTTAAAGTTAGCACATTCTTTGCTTTCTACTTCAGCCTCAAGGACAGGAAGTTCATTCT
Y
GCTCTTTACATTGGGGTGTTGATGTTTGTGGTTTTGTTGTTTTGTTCTTCATGTTACTCATGATGTATTGATATTAATTAACCTAAATACATATGGAAAT
Celera SNP ID:            hCV3204034
SNP Position Genomic:     18566
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   SC_12_C(C,9|T,15)   SC_12_TT(C,4|T,19)   SC_95_C(C,50|T,117)   total(C,63|T,151) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44122):
CATCTGCACCAGAGACACTGCCGGGTCCGAGTGAGGGCAGGAGGCTGCACGAGGGAGCCTCCCTGGGAGTGAGCGATAGGTTCGCTATGGGAGGTGGGTT
Y
GAAAGGTGCCTGAGATTTTCATTTGAAACTCTGTTGAAGAGGAATTGGCAATAGAGGAGGAAATACAAATAGAGGAAAGATTGGTTTCGTCTTAAGCACT
Celera SNP ID:            hCV3204037
SNP Position Genomic:     13622
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44123):
TAATAGATCAGGAATGGGTTTAGCCTGCTGGCCTGACCCCTGATTCAGTCACCACACTGTGAACATTCCATAGGGAAAAAACTGCAGACAGTGTATACTG
R
CACCCACTTTCATAGTTTTGTTTTAGTTTTGTGGCTCCTAAATGTCTAAGACTAACTAGTAATATGACCTTGGGTGAGTCACATAAAAAACCAGAAGCTA
Celera SNP ID:            hCV3204038
SNP Position Genomic:     11298
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;SG_12_G(A,10|G,13)   SG_12_AA(A,3|G,14)   SG_95_G(A,90|G,90)   total(G,117|A,103)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44124):
AGCAATTATGTGCCGTAGAGAAAATGTGGCTATTCTGTTTCCCTAGAGTTTTTTAAAATTTATTTTTAAAATTTATTTATTTTAGAGACAGGTTCTTGCT
S
TGTTGCCCAGGCGTGGGGGCAGTGTCGCCATCATAGCTCACTGCAGCCTGGAACTCCTGGCCTCAAGCAGTCCTTCCACCTTGGCCTCCCAAAGCACTGG
Celera SNP ID:            hCV3204039
SNP Position Genomic:     7438
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,7)      total(G,2|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44125):
CAACTTTTTGGTTTATCTTAAAGTTTATTTCACATAATCCAGTTTTTTCTTATTTGTCCAGTCCATCACCTAAGAATGCAAACTCATAACATGTGTTGCC
S
GAGCAGACCTAGAAATGTTTACAAGTCCTCTCTGAAACACAGAATTGTACATTCAACTCTAGGTTTAATACAGCCCTGTAAAGTAAAAAGGAGGACCTTT
Celera SNP ID:            hCV7490126
SNP Position Genomic:     47936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44126):
AAGAAGCCAGACAGCCTGGGAAGGAGATTCTTAAAGCTGTTAAAATGTATCTAAAAAAAAAGCAAAAGCAAATGTGGAACAGTAGATAAAATGTTTTTCC
Y
GTGAGCTTTTATCAGTCCATATAAACAAGAGTTTTAAGTTTTTTATTTTGAAATAGTTTCAGATTCACAGAAAGTTGCAAAGAAACTTTTATTTTTCCTC
Celera SNP ID:            hCV7490127
SNP Position Genomic:     51720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44127):
ATGTTCTAGAGGTTAACAGCAGTGCACAGTGTAACGTCATATTTTTGCCTCTTTATTCTTATTCCATTATGTTTAAAACTGCCATAAATTCCCCCATGTT
K
TAATTGTATGTAACGTTTCTGTTGCCTACATCTATTTTCTTCATTCCAACTTTTTGGTTTATCTTAAAGTTTATTTCACATAATCCAGTTTTTTCTTATT
Celera SNP ID:            hCV25620663
SNP Position Genomic:     47789
SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,29)   caucasian(G,2|T,12)   total(G,7|T,41)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44128):
CTGTTAAAATGTATCTAAAAAAAAAGCAAAAGCAAATGTGGAACAGTAGATAAAATGTTTTTCCCGTGAGCTTTTATCAGTCCATATAAACAAGAGTTTT
M
AGTTTTTTATTTTGAAATAGTTTCAGATTCACAGAAAGTTGCAAAGAAACTTTTATTTTTCCTCTTAATAATGAGGAAATAGAAGCCAAGAGAGGTGAAG
Celera SNP ID:            hCV7490128
SNP Position Genomic:     51756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44129):
CTTATTCCATTATGTTTAAAACTGCCATAAATTCCCCCATGTTTTAATTGTATGTAACGTTTCTGTTGCCTACATCTATTTTCTTCATTCCAACTTTTTG
K
TTTATCTTAAAGTTTATTTCACATAATCCAGTTTTTTCTTATTTGTCCAGTCCATCACCTAAGAATGCAAACTCATAACATGTGTTGCCCGAGCAGACCT
Celera SNP ID:            hCV25620664
SNP Position Genomic:     47846
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,14)   total(G,47|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44130):
GGACAGGAAGTTCATTCTTGCTCTTTACATTGGGGTGTTGATGTTTGTGGTTTTGTTGTTTTGTTCTTCATGTTACTCATGATGTATTGATATTAATTAA
M
CTAAATACATATGGAAATATTCTTTCATTACTTAGAGCTTATATAGTTCCTGGTGCAGATGTGCAAAAATAGTGCTTTAGTAATTGCTAAGTCACTATCT
Celera SNP ID:            hCV29312077
SNP Position Genomic:     18648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44131):
CACACTTAAGGAAACACCATCTGGGGACACAGGGAGAAGGTGCTGTCTACAAGCCAGGAAGAGAGCCCTCACCAGGAACCAAATAAGCTCCCCATGCTGA
W
CTTGAACTCTCTAACCTCTAGAACTGTAACAGATAAATTCCTATTGTTTAAGTCACACCAGTCTTTGGTATTTTGTGCAATGGCCTCAGACGTCACTAAA
Celera SNP ID:            hCV7490056
SNP Position Genomic:     1187
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:44132):
TGCATAGAGTATCTGAGAAAATGAGGCATGCAGTCGATGTTTGGTATTTTTGTTTCATTTATTTATTTTACTGCCATGCCTCGAGAACAATAGATGTTCA
K
TAAGTATTTGAATATGTTAGTTAATGCTTTAGGATTTCCTAAAGGCAGTGGAATAGAATTCTCACTGAGTTCAGAGCTTTTCTGATAATAATGTGTGCTT
Celera SNP ID:            hCV16235835
SNP Position Genomic:     12404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44133):
TTCATTAAACTGTGAAAGTGACATGTGGCTGAAGCTTTTAGATAAGGGGAAAGATTATCCCTCACTAGTAAGGAAAGTAATCGATAGAGAAGAAAGTAAT
R
CCCCTCACTGTCAGTATTTTAAAATGTTTTACAAAAAATCTGGAGACCTATTCTTCTAACAGTCCTCCCTGCATGTCTCCGCCAGTGGTTGACCCTGCCT
Celera SNP ID:            hCV25620738
SNP Position Genomic:     53868
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,2)   total(A,1|G,29)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:44134):
CCTGCTCCAGGTGTGATCCCAGGTGCAATCCAGCTCAACAAGCACACTGAGCCTCAGGAGCTCTTGGGATCAGAACCCAGGACTCGATCCCACTCCGTGC
Y
GCCTTCTCACCCACCCCTCTTCCACCAAGTGGGTGGAAATAGCACTTGCTTTGAAATAAGTAACGAATGATCTTTGTGAAAAGGAACCTAAACAGCAGTG
Celera SNP ID:            hCV29312078
SNP Position Genomic:     17266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44135):
ACAAAATAAATAAAATCACAGATTGCATTTAGGTACTTCCATACATTGCTGGCTGCAATTTCTTTGGAGGGCAATTTGACAACAATCAAAACTTAAATAC
S
CATTTCCTTTGATCCAACAATATAAAAGTATTTCCAACAGTTCTATTTGCGCATGATTGCAAAGATTTACATCCAAGAATGGGCCAGGAGTGGTGGCTCA
Celera SNP ID:            hCV7490057
SNP Position Genomic:     2796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:44136):
TCTGTCCTCTCTAGTACCCGAATAGGCTTCGCCCCCTCGTCCTGGATCGACGATTATTTCGACTGGGTGAAGCCACAGTCGTCTTGCTGTCGAGTGGACA
R
TATCACTGACCAGTTCTGCAATGCTTCAGGTACCTTCTCCTTTACCAAATCTTTCCTGTTTTGCTGAAAAATTTTCAAATTATCATTTAAAAATCATTTG
Celera SNP ID:            hCV25620739
SNP Position Genomic:     53241
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44137):
TCTGGGTGGTCAGTGGCCATGAGAGGTCAAGTGAGTTGCTTTCGGTGAGTCTTGTAGACAGCCAGCAAGGTTTTCTGCAAGGGATGTTTCCCAAAGGAGT
Y
TGACCACTTGGCAGTGGTGACAGGATGAACACGCAGTGTTCGGGAGTGAGAGCGAGCTTTAATGAGGCCTCCCCTCTCCCCTCCAGTGTGTTTTATGTCT
Celera SNP ID:            hCV16235836
SNP Position Genomic:     56838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44138):
CTAACCTTTAAAAATAGAAACTCTTTAGCTGTGTAACTACTAAATTCTGGGTAGAAGCCAAAACAATCAGCACTTCTCATTTCTGAACTTAGATAATCCA
R
TTGTACTCCCTCAGCTCATTGTGAGTTTTGACAAGTTCTGCATCCATGAACACCAGATGTAATACAATAGGGAATTTCAAAGGAAGGATTACACACCTAG
Celera SNP ID:            hCV29312079
SNP Position Genomic:     13079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44139):
AGCGGGTATAACCTTTGTTTCCCTCTGTCCCCTCAGAAAAATCGGCTAGACATCTTTTGCTGTGTCAGAGGTGCTGAAGATGGAACAAGCGTCCAGGCCT
S
AGAGAGCTGTTTGTTTCGCTTCTTCAAAAACTCCTATTCTCCACTTCTGCTAAAGGACTGGATGAGACCAATTGTGGTATGCGCTTATCTGTGGTTTTTC
Celera SNP ID:            hCV27530903
SNP Position Genomic:     51481
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:44140):
CTGTCCCCTTTCCTCTCCCTCCAGCTTTTCCTGGACTTTTTCACCTGAGGGTCCTGCAGTAATGGCAGGTGGCCTGCCCAGAACCATGCCCTTACCTGCT
K
CTTCTCCCCATTTTGTTTAAAGGCAGTGACAGCTACCAGTTACTCAGGCTTGAGGCTTTATCCCTGAATTCTGCCTCGCCCTCGCCTTCCTCATGGGGTT
Celera SNP ID:            hCV27500892
SNP Position Genomic:     39682
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,4|T,1487)   total(G,4|T,1487) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44141):
TCAGTTAGTTTAACTAAAAATATAACATTTTGCTTACCTTTTAGGTTTATTAATTTTGTGAAAAACTACAAGAATCCCAATCTGACCATTTCCTTCACTG
Y
TGAACGAAGTATTGAAGATGAACTAAATCGTGAAAGTGACAGTGATGTCTTCACCGTTGTAATTAGCTATGCCATCATGTTTCTATATATTTCCCTAGCC
Celera SNP ID:            hCV27004490
SNP Position Genomic:     47532
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44142):
TCATTTGTGGAGAACAAACATACAGTTAAAAAAACAAAACTGGGCCGAGAGTTATTCATGCCTGTAATCCCAGCAATTTGGGAGGCAGAGGCGAGCACAT
Y
ACTTGAGCTAGGAGTTTGAGACCAGCCTGAGCAACATGGAGAAACCCCGTCTCTGCAAAAAATACAAAAATTAGCTGGGCATGGTGGTGCATGCTTGTAG
Celera SNP ID:            hCV27004491
SNP Position Genomic:     42376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44143):
GTCCGGGTCACAACCAATCCAGTTGACCTCTGGTCAGCCCCCAGCAGCCAGGCTCGCCTGGAAAAAGAGTACTTTGACCAGCACTTTGGGCCTTTCTTCC
R
GACGGAGCAGCTCATCATCCGGGCCCCTCTCACTGACAAACACATTTACCAGCCATACCCTTCGGGAGCTGATGTACCCTTTGGACCTCCGCTTGACATA
Celera SNP ID:            hCV27004493
SNP Position Genomic:     36276
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44144):
TTCTGCGTCCGAAACCCTGGCTGTGTCATTTTCTTCTCGCTGGTCTTCATTACTGCGTGTTCGTCAGGCCTGGTGTTTGTCCGGGTCACAACCAATCCAG
Y
TGACCTCTGGTCAGCCCCCAGCAGCCAGGCTCGCCTGGAAAAAGAGTACTTTGACCAGCACTTTGGGCCTTTCTTCCGGACGGAGCAGCTCATCATCCGG
Celera SNP ID:            hCV27004494
SNP Position Genomic:     36198
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44145):
TTCACCATGTTGGCCAGGTTGGTCTCGATCTCTTGACCTCGTGATCCCGCCCACCTTGGCCTCCCAAAGTGCTGGGTTTACAGGCGTGAGCCACCGCGCC
Y
AGCCCAGTAGTGTGTTTTTAAAGGACCTAAAAGTTTTAAATAAAATGAGGGCCACAAGGTGAAATTATCCTTTATTAATTGTTCTCTTAACATCTTCTTA
Celera SNP ID:            hCV27004495
SNP Position Genomic:     35156
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44146):
TTCCTTTTATTGGAGAATGGTATGTAGAAACGAAGATCTGGGCACTAGGTATGCTCATTGCTGCTGGAAAGAGTAGCATGTTTTTGTTTGTTTGTTTGTT
T
TTTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAATGCAGTGGCGCGATCTCAGCTCACTGCAACCACCGCCTCCCTGGTTCAAGCAGTTCTCCTGCC
Celera SNP ID:            hCV27004496
SNP Position Genomic:     34889
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44147):
ATGTTGATAGTTGAAAATGGCATCCTTGAGTAGCCACTGAATCCTTCTCCACATGACACTCTAAGCAGCAGCTCCCAAATCCACAGGCACTCGCTTACAA
R
ATGTTTGCCGTTGTTTTCAAAGGCAGTCTTTCTCTTCTGTGCACACAACTCATTGGGGAAGCAGCCTTGTTAATGACCAGAAGCTCTTGACTCACCACAT
Celera SNP ID:            hCV16017397
SNP Position Genomic:     49883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44148):
CCATGCTGATCTTGAACTCTCTAACCTCTAGAACTGTAACAGATAAATTCCTATTGTTTAAGTCACACCAGTCTTTGGTATTTTGTGCAATGGCCTCAGA
Y
GTCACTAAATGACATTGATTACATTCTATTACCCCAAAACCCTAGTTCTATCTTCATTTTCTGTTATTGAACTTTAGGCTTCAGGTTAGGAACTAGGCAA
Celera SNP ID:            hCV3204041
SNP Position Genomic:     1278
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:44149):
GTTCCTTTTATTGGAGAATGGTATGTAGAAACGAAGATCTGGGCACTAGGTATGCTCATTGCTGCTGGAAAGAGTAGCATGTTTTTGTTTGTTTGTTTGT
T
TTTTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAATGCAGTGGCGCGATCTCAGCTCACTGCAACCACCGCCTCCCTGGTTCAAGCAGTTCTCCTGC
Celera SNP ID:            hCV27004497
SNP Position Genomic:     34888
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44150):
GGTTCCTTTTATTGGAGAATGGTATGTAGAAACGAAGATCTGGGCACTAGGTATGCTCATTGCTGCTGGAAAGAGTAGCATGTTTTTGTTTGTTTGTTTG
T
TTTTTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAATGCAGTGGCGCGATCTCAGCTCACTGCAACCACCGCCTCCCTGGTTCAAGCAGTTCTCCTG
Celera SNP ID:            hCV27004498
SNP Position Genomic:     34887
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44151):
TGGTTCCTTTTATTGGAGAATGGTATGTAGAAACGAAGATCTGGGCACTAGGTATGCTCATTGCTGCTGGAAAGAGTAGCATGTTTTTGTTTGTTTGTTT
G
TTTTTTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAATGCAGTGGCGCGATCTCAGCTCACTGCAACCACCGCCTCCCTGGTTCAAGCAGTTCTCCT
Celera SNP ID:            hCV27004499
SNP Position Genomic:     34886
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44152):
AGTCCTCCCTGCATGTCTCCGCCAGTGGTTGACCCTGCCTGCGTTCGCTGCAGGCCTCTGACTCCGGAAGGCAAACAGAGGCCTCAGGGGGGAGACTTCA
K
GAGATTCCTGCCCATGTTCCTTTCGGATAACCCTAACCCCAAGTGTGGCAAAGGGTAAGTGCTGCTGCCATTGCAGATAAGCATCCACTGCAACTTTAAT
Celera SNP ID:            hCV27535999
SNP Position Genomic:     54029
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44153):
ATATTAGTATGCATGGCAGTCAGCATTTTCTTAATAAATAAAGATCTCATCTCAGCCTGGCCAAAATGTGAAACCCTGTCTCTACTGAAAATACAAAAAA
W
ATTAGCCACACGTGGTGGTGTGTGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAATCACTTGAATCCTGGAGGTGGAGTTTGCAGTGAGCCA
Celera SNP ID:            hCV11779529
SNP Position Genomic:     42715
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44154):
GATAAATACATATATCAAACGCATGGCTCAAAAATGACAACGCGTCTTCTTTATCTGCCTTCACGTAGAACTTAAAACAGACCCTGGTCCCCACCTCGGG
R
TTTCCTCGCGCCCACGGGCTGCGCTGCGCAGCTGGGCCAGCAGGTGGCGAGGCTCCCGCACTTTTTTTCCCGGGCCTGGCCGCACCGCCACCGCCCACCC
Celera SNP ID:            hCV27478387
SNP Position Genomic:     5370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:44155):
TTTACTAAGCAGTCTCTGTCTTATGATTCATTTGTTGTTCCAGATAGCAATATTTGTGGGTGTTCTGTCATTCAGCATCGCAGTCCTGAACAAAGTAGAT
R
TTGGATTGGATCAGTCTCTTTCGATGCCAGATGTAAGATGACTTCCTTTTTTTTTTTTTTTTAACTTCTTTAGCTGATGATGAATACATTTTTCAAAACA
Celera SNP ID:            hCV7490135
SNP Position Genomic:     52145
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44156):
ACTACACTTCTTCCAAGGGGCAGAACATGGTGTGCGGCGGCATGGGCTGCAACAATGATTCCCTGGTGCAGCAGATATTTAACGCGGCGCAGCTGGACAA
Y
TAGTCAGTACCACCTTGTCTTGTACTTCAGAAGCAGCGGAGGAGGCTCTCAGCCAGGCAGTCAGCTCAGGCCTGAAATGTCTCACTGAAAATAGACTTTC
Celera SNP ID:            hCV7490136
SNP Position Genomic:     52812
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,12)   caucasian(C,19|T,19)   total(C,45|T,31)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44157):
GATCACGCCACTGCACTCCAGCCTGGGCTACAGAGCAAGACTCTGTCTCAAAATAAAAAAAAAAAGAAGCCAGTCTGGGAGAGAACAAGCTAAACCTTTG
S
TGTTCCCTTATCTGGGGGCCTTCTTCATCCCTGAAATGTACAGCTGGGTCTGACCTCTGAGTCCAGGGTCAGGTGATTTTGCTTAGCCTCAAGTGCTCAG
Celera SNP ID:            hCV7490137
SNP Position Genomic:     55590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44158):
GCTACAGATAATTTAGTCTTGGGTCAACTTTCTCCTCTCCCTCTACAAGGGAAATGTTCAAAAGTGTTTAGACTTTGGTGATGCAGCATGATTGGGAAAG
Y
AGAGGGCACAGAAAGATGCCAGGCTTTGTGGTCTCCAGGCAAGCTCAGGAATGTGACAAAGCATACCGAAAAGAAAAGCGGGCTGGGAGCAGTGGCTCAC
Celera SNP ID:            hCV7490066
SNP Position Genomic:     3389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:44159):
TGGACCTCCGCTTGACATACAGATACTGCACCAGGTAACCTGCTGTTTGAAGAAATAAGTCACTCTAGATGACCTTGTGGTTTGCTGGCTTTTACATGTT
K
ACTACTGCTAGATGGGGATTTGGGGCTGAATGTCATGGTATATCTTGAAAATCTTAGCGTATAATGGCAAAGCTGCCTTTAAGTTAGGTTTCAAGAAAGT
Celera SNP ID:            hCV25620675
SNP Position Genomic:     36458
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44160):
GCCTTTCTTCCGGACGGAGCAGCTCATCATCCGGGCCCCTCTCACTGACAAACACATTTACCAGCCATACCCTTCGGGAGCTGATGTACCCTTTGGACCT
Y
CGCTTGACATACAGATACTGCACCAGGTAACCTGCTGTTTGAAGAAATAAGTCACTCTAGATGACCTTGTGGTTTGCTGGCTTTTACATGTTGACTACTG
Celera SNP ID:            hCV25620676
SNP Position Genomic:     36365
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44161):
GTTCAATTACAGGTTGGTAAAAGTGGTTTCTAACACAGTATCTCTTCTTTTAGGTGTTCAGTGGAATCACACTTACAAAATTTGGAGGGATTGTGGTGTT
S
GCTTTTGCCAAATCTCAAATTTTCCAGATATTCTACTTCAGGATGTATTTGGCCATGGTCTTACTGGGAGCCACTCACGGATTAATATTTCTCCCTGTCT
Celera SNP ID:            hCV1016937
SNP Position Genomic:     59155
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44162):
CAGTGGGCTTTTCTTTGAGTTTAAGTATAATACAAAATTTTGGATGTTTTTAATTGAGATTTGTACTCAACACAATTCCTTTCTGTAGATTTTCCAGTCC
R
TGGGATGGAGCCCATGAACAATGCCACCAAAGGCTGTGACGAGTCTGTGGATGAGGTCACAGCACCATGTAGCTGCCAAGACTGCTCTATTGTCTGTGGC
Celera SNP ID:            hCV25472673
SNP Position Genomic:     32166
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,21|G,17)   total(A,56|G,20)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44163):
TATGTGTGAGATCATGCAGAATATAATTTACTTTTCCTTTAGATGTCCATCCTGTTTTTATAACCTACTGAACCTGTTTTGTGAGCTGACATGTAGCCCT
Y
GACAGAGTCAGTTTTTGAATGTTACAGCTACTGAAGATTATGTTGATCCTGTTACAAACCAGACGAAAACAAATGTGAAAGAGTTACAATACTACGTCGG
Celera SNP ID:            hCV27860302
SNP Position Genomic:     23687
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:44164):
TTTAATTGAGATTTGTACTCAACACAATTCCTTTCTGTAGATTTTCCAGTCCATGGGATGGAGCCCATGAACAATGCCACCAAAGGCTGTGACGAGTCTG
K
GGATGAGGTCACAGCACCATGTAGCTGCCAAGACTGCTCTATTGTCTGTGGCCCCAAGCCCCAGCCCCCACCTCCTCCTGCTCCCTGGACGATCCTTGGC
Celera SNP ID:            hCV27860303
SNP Position Genomic:     32214
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44165):
ATCCATCAGTCAGTACCTGCATGCGGGTCCGCCTGTGTACTTTGTCCTGGAGGAAGGGCACGACTACACTTCTTCCAAGGGGCAGAACATGGTGTGCGGC
R
GCATGGGCTGCAACAATGATTCCCTGGTGCAGCAGATATTTAACGCGGCGCAGCTGGACAACTAGTCAGTACCACCTTGTCTTGTACTTCAGAAGCAGCG
Celera SNP ID:            hCV25620750
SNP Position Genomic:     52750
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44166):
CCAGCTTTATCTTACATATTCCCTGTCCCTGCCCTGCAAGGAGCTCTGGTTCCTTTTATTGGAGAATGGTATGTAGAAACGAAGATCTGGGCACTAGGTA
Y
GCTCATTGCTGCTGGAAAGAGTAGCATGTTTTTGTTTGTTTGTTTGTTTTTTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAATGCAGTGGCGCGAT
Celera SNP ID:            hCV27004500
SNP Position Genomic:     34840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44167):
TCAGAGTGTTCACACTCTCTCCTATTCTTTTATCTTTCTTTCAGGACTCCTACATGGTGGATTATTTCAAATCCATCAGTCAGTACCTGCATGCGGGTCC
R
CCTGTGTACTTTGTCCTGGAGGAAGGGCACGACTACACTTCTTCCAAGGGGCAGAACATGGTGTGCGGCGGCATGGGCTGCAACAATGATTCCCTGGTGC
Celera SNP ID:            hCV25620751
SNP Position Genomic:     52680
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44168):
ATATTTTGTTCCTCCTGAAACTCAACCACTGATTTTAGCATTCATTGTTGGGTCTTGTCTGCAACAGTTATAACTAAGGTGTTTGCCTGATAGTGATTTT
Y
TTCTCTTTCCCTCTCTTCCTCTGCATTTACTAACTGGACTTCTGTACAGAAAGCTATCCCTTCTCCCTCATTTATTTACTCAGTTATTTACATCATGGAC
Celera SNP ID:            hCV27004501
SNP Position Genomic:     34519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44169):
AATATCTTGGGGGAAGATGCTTTGAGACTATACTAATATTTTGTTCCTCCTGAAACTCAACCACTGATTTTAGCATTCATTGTTGGGTCTTGTCTGCAAC
M
GTTATAACTAAGGTGTTTGCCTGATAGTGATTTTTTTCTCTTTCCCTCTCTTCCTCTGCATTTACTAACTGGACTTCTGTACAGAAAGCTATCCCTTCTC
Celera SNP ID:            hCV27004502
SNP Position Genomic:     34484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44170):
AGCACCCTGGGGCCCTGGGGGGAAGACTGGTGGTGTTAGGAATCATGAGTCCAGCTGGAGGCATCTCAGCCAGGAACCTCCTGGCACCCTCTTATTCTCC
R
TGATCCTCGCCTTGCTTAGTTACTATCAGAGTGTTCACACTCTCTCCTATTCTTTTATCTTTCTTTCAGGACTCCTACATGGTGGATTATTTCAAATCCA
Celera SNP ID:            hCV25620752
SNP Position Genomic:     52554
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,22)   caucasian(A,20|G,20)   total(A,34|G,42)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44171):
TACTTAGAAAATTGCACCCCGCCCCAGGAGCTCTCCGACCAGTGCCTTTTGCCTCCTATGTGGTTATCAGGTACTTTTAATCATTAAAGATGAGAGCACT
R
GAGAAGGTATTCATGGAAAATAGAACAGTGTATCCGTACTCTCAGATATGAGCCCTGCTTCAGATAGGGGAGCACTGAGGTCCAAGAAAAGAAGTTGTGA
Celera SNP ID:            hCV7490144
SNP Position Genomic:     57672
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   SC_12_C(A,9|G,15)   SC_12_AA(A,8|G,12)   SC_95_C(A,51|G,114)   total(G,141|A,68)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44172):
GCAAAATATCGCAAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACACATGGACACAGGAAGGGGAACGTCAC
R
CACCGGGGACTGTTGTGGGGTGGGGGCCTGGGGGAGGGATAGCATTAGGAGATATACCTAATGCTAAATGACGAGTTAATGGGTACAACACATCAACATG
Celera SNP ID:            hCV27004503
SNP Position Genomic:     33733
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44173):
TGGTGTTGGCTTTTGCCAAATCTCAAATTTTCCAGATATTCTACTTCAGGATGTATTTGGCCATGGTCTTACTGGGAGCCACTCACGGATTAATATTTCT
Y
CCTGTCTTACTCAGTTACATAGGTAAGAGTTCTCATCTTAAAAGGGTGGCACAATAGAAGGACATTACTGAAAGGGAATTCTATCCTGAGGCATTCTTTT
Celera SNP ID:            hCV7490145
SNP Position Genomic:     59248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:44174):
ACCATGCCTGCATGCCTGACTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTGGCCAGGCTGATCTCCAACTCCTGACCTCAGGTGATCTG
M
CCGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGAGTAAGCCACCGTGCCCAGCCGGCCACTCATTCTTTAGAAAGTCAGAGTCAAGGCCAGGCTCAGTG
Celera SNP ID:            hCV27004504
SNP Position Genomic:     32911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44175):
AGCTGCCAAGACTGCTCTATTGTCTGTGGCCCCAAGCCCCAGCCCCCACCTCCTCCTGCTCCCTGGACGATCCTTGGCTTGGACGCCATGTATGTCATCA
K
GTGGATCACCTACATGGCGTTTTTGCTTGTGTTTTTTGGAGCATTTTTTGCAGTGTGGTGCTACAGGTAAGCAGTTTTGTTTGTCATCCAGGGCAAAAAG
Celera SNP ID:            hCV27004505
SNP Position Genomic:     32337
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44176):
CCAGCCAACTAGCTCCCTTTCTCCTGCAGAAATAAGAAAAAGTCTCTCTCTCTCATAGGGCCATCAGTAAATAAAGCCAAAAGTTGTGCCACTGAAGAGC
R
ATACAAAGGAACAGAGCGCGAACGGCTTCTAAATTTCTAGCCCTCTCGCAGGGCATCCTGACTGAACTGTGTCTAAGGGTCGGTCGGTTTACCACTGGAC
Celera SNP ID:            hCV7490146
SNP Position Genomic:     60384
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44177):
GACTCACCACATTACAAGGAGCCAGAATAAGCTGGAACAAAGTCAGCACTTCTGTGTTTCTTTCACATAGAGAATCATCAAATAGACCCACTAGTGGGGC
K
GTCTGCCCCATGTCTGAAGTGTAGTAAGAGCAAAGTGACTCTGTCCACTATAGGGGAGGCTGGACTGGAATCACTCAGTCCAAAGAAGACCATCCACGGG
Celera SNP ID:            hCV16017406
SNP Position Genomic:     50072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44178):
TTCTGTAGATTTTCCAGTCCATGGGATGGAGCCCATGAACAATGCCACCAAAGGCTGTGACGAGTCTGTGGATGAGGTCACAGCACCATGTAGCTGCCAA
S
ACTGCTCTATTGTCTGTGGCCCCAAGCCCCAGCCCCCACCTCCTCCTGCTCCCTGGACGATCCTTGGCTTGGACGCCATGTATGTCATCATGTGGATCAC
Celera SNP ID:            hCV27004506
SNP Position Genomic:     32246
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44179):
AGTGATTGTTCTACCTTAGCCTCCTGAGTAGCTAGGACTACAGGCATGCACTACCATGTCTAGCTAATTTTATTTATGTTTTTCTTTATTTTTTTTTTTT
T
GAGACAGACTCTTGCTCTGTCACCGAGGCTGGAGTACAGTGGCATGATCTCAGCTTACTGCAACCTCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCC
Celera SNP ID:            hCV27004360
SNP Position Genomic:     20974
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44180):
AGCAAAGTGCTTGCTGCCTTTCTTCATCTCGAGACTGTCCTTGATCCTTTTACTTCTATGGCCACTTCACCTTGCACAAAAATGACCCACGGTTGAAAGA
R
CAATACTGATTTGCTTCATTTATAGCTTTGTCACTAAATTGAAGCACTGAAGTAGAAGATTAAGAAAATGAGGGGCTTTTTATCATCTCCGGGGGATAGA
Celera SNP ID:            hCV16017407
SNP Position Genomic:     59771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44181):
TTGTCTCCTTTTTCCTTTGGGTTTCCTCTTCTAGCAATGTACAATGCCTGCCGGGATGTGGAGGCCCCCTCAAGTAATGACAAGGCCCTGGGACTCCTGT
R
TGGGAAGGACGCTGACGCCTGTAATGCCACCAACTGGATTGAATACATGTTCAATAAGGACAATGGACAGGCACCTTTTACCATCACTCCTGTGTTTTCA
Celera SNP ID:            hCV27004507
SNP Position Genomic:     31173
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44182):
CGACCTCCTGAGCTCAAGCAATCTCTCAACTCAGCGTCCCAAGTAGCTGGGACTACAGGCACATGCCACAACCCCTGGCTAATTTTTTAAAAATTTGTTT
G
GGGAGATGGGGCTTCACCATGTTGCCTAGCCTGGTCTCAAACTCCTAGGCTCAAGCAATCCACCCTCCTCAGCCTTCCTAAGTACTGGGAGTACAGGCAT
Celera SNP ID:            hCV27004361
SNP Position Genomic:     19960
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44183):
ACCTGCCTTGGCTTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCACTTCCAGCCAGGATGACTTTTTTTTTTTTTTTTTTTTTTTTTTGGTCTTCTC
W
GCTGTGTCTCTAGAAGATGACCTTTTGAGAAGCAAACCTGAATGTTGATTCAAGCCCAAATTTCCTGGGCTCAGGTGTTAATTTTTTAAGTCTTTGGAAC
Celera SNP ID:            hCV16235780
SNP Position Genomic:     16866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44184):
GGCCATGGCACCAGGGTCGGAGCCACGTACTTCATGACCTACCACACCGTGCTGCAGACCTCTGCTGACTTTATTGACGCTCTGAAGAAAGCCCGACTTA
Y
AGCCAGTAATGTCACCGAAACCATGGGCATTAACGGCAGTGCCTACCGAGTATTTCCTTACAGGTAAAGCCTGCCCTTTTTCAATGGGGTTTACCCAGCA
Celera SNP ID:            hCV1016943
SNP Position Genomic:     55889
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44185):
TCGACCTCCTGAGCTCAAGCAATCTCTCAACTCAGCGTCCCAAGTAGCTGGGACTACAGGCACATGCCACAACCCCTGGCTAATTTTTTAAAAATTTGTT
T
GGGGAGATGGGGCTTCACCATGTTGCCTAGCCTGGTCTCAAACTCCTAGGCTCAAGCAATCCACCCTCCTCAGCCTTCCTAAGTACTGGGAGTACAGGCA
Celera SNP ID:            hCV27004362
SNP Position Genomic:     19959
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44186):
CTGGTCAGGTATTTTGTAGCATGTCCTTCCATTTGGCTTTATCTGGTATTTTCTCATGATGAGATTGAAATAAGGTGTTTTGACAAGTACATCACAGAAG
Y
CATGTTATGTCTTTCTCGGTGCATCATGTCAGGGATCCCTGATGTTGATGCGTCTCTTTCCTGGTGATGTTAACCTTGATCACTTGCTCAAGGTGATGTC
Celera SNP ID:            hCV16017336
SNP Position Genomic:     34233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44187):
TGCTCAATACTATGAGTCATCAGGGAAATACAAATCAAAACCACAATGAGATACCACTTCACACCCACCAGGATGGCTAGAATCAAAGTCACATAACAAG
M
AGTGTTGACAAGGCTGTGGAAAATAGGAACCTTTATTAAAAAGAAATCCAAAAACCAAAAACAGCTGGGCACAGTGGCTCATGCCTATAATCCAGCACTT
Celera SNP ID:            hCV27004508
SNP Position Genomic:     28859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44188):
ACCACTTACAACCATAATTTGGTACAATCGTTTCAAAACTACTTGAAAAACAACTTTGCAGTACGTAGTAAGTTGAAGCTAACCCTCCTCCCAGAAATTT
S
ACTTATAGATGCCTGCCTTAGAGAAACTCTAAATGCATATAAACCTGGAGACCCATATAAGAACACCCACTGTAACACTATTGTGATTGTGAAAAATTGA
Celera SNP ID:            hCV16235781
SNP Position Genomic:     24923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44189):
CTCGACCTCCTGAGCTCAAGCAATCTCTCAACTCAGCGTCCCAAGTAGCTGGGACTACAGGCACATGCCACAACCCCTGGCTAATTTTTTAAAAATTTGT
T
TGGGGAGATGGGGCTTCACCATGTTGCCTAGCCTGGTCTCAAACTCCTAGGCTCAAGCAATCCACCCTCCTCAGCCTTCCTAAGTACTGGGAGTACAGGC
Celera SNP ID:            hCV27004363
SNP Position Genomic:     19958
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44190):
GAGCGCGCGGAAGAGGCACTTGCCCACATGGGCAGCTCCGTGAGTACCCTGAGCAGGGCCACGCCGGCAGAGTCGCACCACAAAGTAATCCTCCTCAGTG
R
CTGAAGAGTCTGGATCCTGTACTTACAAAGCAGCTTCTAAGGATTGCAAGCTTTCAGGCAATTCATGAATTAGCTGCCACATCGTGGACAGAACGGACGT
Celera SNP ID:            hCV16017337
SNP Position Genomic:     58241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44191):
TCAGCCTGGGAAGTGGAGGTTGCAGTGAGCTGAGATCACACCATTGGACTCCAGCCTGAGGGACAGAGACTCCATCTCCAAAAAAAAAAAAAAAAAAAAA
A
CTCTTACTACTCAATGATAAATAAATAACCCAATTTAAAATGGCAAAAGATCTGAATAGAGTAGACATTTCTCTAAGGAAGATATACAAATGACCAACAA
Celera SNP ID:            hCV27004509
SNP Position Genomic:     28646
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44192):
TGTGTGTGTGTAAGTATTTTTTTATTTTTTGGAAGAGACGGGCCTCACTGTGTTGGTGAGGCTGGTCTTGAACTCCTGGCCTTAAGTGATCCTCCTGCCT
Y
GGCCTGCCAAAGTGTTGGGACTGTAGGTGTGAGCCACCACACCTGGCCTATAGTGCATTATTATTTTTATTTAGTTTTTAAATTATGCCATAGCCAGTTG
Celera SNP ID:            hCV16235782
SNP Position Genomic:     26119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44193):
GTGACCCTGTCAGCGCAGCATTTGAGGGCTGCTTGAGGCGGCTGTTCACACGCTGGGGGTCTTTCTGCGTCCGAAACCCTGGCTGTGTCATTTTCTTCTC
R
CTGGTCTTCATTACTGCGTGTTCGTCAGGCCTGGTGTTTGTCCGGGTCACAACCAATCCAGTTGACCTCTGGTCAGCCCCCAGCAGCCAGGCTCGCCTGG
Celera SNP ID:            hCV25620686
SNP Position Genomic:     36136
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:44194):
CCTCGACCTCCTGAGCTCAAGCAATCTCTCAACTCAGCGTCCCAAGTAGCTGGGACTACAGGCACATGCCACAACCCCTGGCTAATTTTTTAAAAATTTG
T
TTGGGGAGATGGGGCTTCACCATGTTGCCTAGCCTGGTCTCAAACTCCTAGGCTCAAGCAATCCACCCTCCTCAGCCTTCCTAAGTACTGGGAGTACAGG
Celera SNP ID:            hCV27004364
SNP Position Genomic:     19957
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44195):
TGAGATAGCAACTAATGCTTTCCCTGTTCCGACTTTCAGGAACGGCTTGGCTCTTAACCTCCACCTTCCCTTCCTCTCCCGTTCTTCCAGGAGAGGCGTC
Y
TGCTGTGACCCTGTCAGCGCAGCATTTGAGGGCTGCTTGAGGCGGCTGTTCACACGCTGGGGGTCTTTCTGCGTCCGAAACCCTGGCTGTGTCATTTTCT
Celera SNP ID:            hCV25620687
SNP Position Genomic:     36031
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,40)   total(C,75|T,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44196):
ACCGCGAAGGTCTGCAGCTTCACTCCTGAGCCAGCGAGATCACGAACCCACCAGAAGGAAGAAACTCCGAAAACATCTGAACATCAGAAGGGACAGATTC
Y
AGACGCGCCACCTTAAGAGCTGTAACGCTCACCGCCAGGGTCCGCGGCTTCATTCTTGAAGTCAGTGAGACCAAGAACCCACCAATTCCGGACACAATGT
Celera SNP ID:            hCV27004365
SNP Position Genomic:     15998
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44197):
AGGTCAGTAACCCTGTCTGTCCTCTCTAGTACCCGAATAGGCTTCGCCCCCTCGTCCTGGATCGACGATTATTTCGACTGGGTGAAGCCACAGTCGTCTT
R
CTGTCGAGTGGACAATATCACTGACCAGTTCTGCAATGCTTCAGGTACCTTCTCCTTTACCAAATCTTTCCTGTTTTGCTGAAAAATTTTCAAATTATCA
Celera SNP ID:            hCV1016947
SNP Position Genomic:     53226
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44198):
CTGCTTTTATGAGCTGTAACACTCACCGCGAAGATCTGCAGCTTCACTCCTGAGCCCAGCGAGACCACGAGCCCACTGGGAGGAACGAACAACTCCAGAC
R
CGCTGCCTTAAGAGCTGTAACACTCACCGCGAAGGTCTGCAGCTTCACTCCTGAGCCAGCGAGATCACGAACCCACCAGAAGGAAGAAACTCCGAAAACA
Celera SNP ID:            hCV27004366
SNP Position Genomic:     15872
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44199):
CTTTGCTGAGCAGATAGGTAGCTGAGGGCAGGGGTCTCATATGTGTCCCCAGGTGGGCTTGATTCCTGCCATGAGATAGCAACTAATGCTTTCCCTGTTC
Y
GACTTTCAGGAACGGCTTGGCTCTTAACCTCCACCTTCCCTTCCTCTCCCGTTCTTCCAGGAGAGGCGTCCTGCTGTGACCCTGTCAGCGCAGCATTTGA
Celera SNP ID:            hCV25620688
SNP Position Genomic:     35960
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:44200):
AGGATTGTAAATACACCAATCGGCACTCTGTATCTAGCTCAAGGTTTGTAAACACACCAATCAGCACCCTGTGTTTAGCTCAAGGTTTGTGAGTGCACCA
R
TCGACACTCTGTATCTAGCTGCTCTGGTGGGGCCTTGGAGAACCTGTGTGTGGAAACTCTGTATCTAACTAATCTGATGGGGACGTGGAGAACCTTTGTA
Celera SNP ID:            hCV27004367
SNP Position Genomic:     15452
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44201):
CTTGTGAATAAATAGTAAATGTGTAGCCTTTTAAAATAATTCTATAATAACTTTGCAAATACAGGATGTGTCTTACCCTTTTGTACTTCAAAAGGATTAC
R
TGAATGAATGTGTCTTAGTTCACTGAGGAATGTTGACCTTACTCTAACTGTTGCCTACTCCCGTGTCTGTGCTCTTTCACCTGAAAGGAACTCTGTCCAG
Celera SNP ID:            hCV25620689
SNP Position Genomic:     20362
SNP Source:               Applera
Population(Allele,Count): african american(A,32)   caucasian(A,35|G,1)   total(A,67|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44202):
AAATACACCAATCGGCAGTCTATCTAGCTCAAGGTTTGTAAACACACCAATCAGCACCCTGTGTTTAGCTCAAGGTTTGTGAGTGCTCCAATCGACACTC
T
GTATCTAGCTGCTCTGGTGAGGACGTGGAGAACCTTTATGTCTAGCTCAAGGTTTGTAAACACACCAATCAGCACCCTGTGTTTAGCTCAAGGTTTGTGA
Celera SNP ID:            hCV27004368
SNP Position Genomic:     15189
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44203):
TGATGGCAGTGATCAGCTGCGGCCAGCCAGGTTTTTCTTCATCTGGACTGTGCCTCTCACTTTCAAATTTTTGGAACATTTGCTTTGGCAACAAAACTTT
Y
AAAAAACCAACTCTCTCTGGTGCAGGTGTTCTGTTGGAGGATTTGAGAGAAGCTTTAAAATTTTATCTTATTACTGTCCCTTGCTTAGGTCACAAGAGGA
Celera SNP ID:            hCV16026446
SNP Position Genomic:     10154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44204):
ACTCGTTAAACCAAATCAGGATGAGAGTGCCTCCGGGGAATTGTGTCCTTGTGCACATTAACGCCCCTCACATAGGTGTGGCGTCAATAGGAAGTGGTGA
R
TCAGGGGAGAGGGGGTTCCGTGGACTAGAAAAAACTCTCCTTCGACTTCTATTTAGTTCTCAGAAGGGGATAGGTGATGTTGATCCAATAATGGACTAAG
Celera SNP ID:            hCV27881072
SNP Position Genomic:     7023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44205):
CCTGCCAAAGTGTTGGGACTGTAGGTGTGAGCCACCACACCTGGCCTATAGTGCATTATTATTTTTATTTAGTTTTTAAATTATGCCATAGCCAGTTGTT
Y
TGAATAGTGCAGTACTACAAAACAGAGTCAAGGTCTCATGCTGTCACCCAGGCTGGAATACAGTGATGCAATCATGGCTCACTGCAGCCTCAACCTCCTA
Celera SNP ID:            hCV16235789
SNP Position Genomic:     26222
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44206):
TAAATACACCAATCGGCAGTCTATCTAGCTCAAGGTTTGTAAACACACCAATCAGCACCCTGTGTTTAGCTCAAGGTTTGTGAGTGCTCCAATCGACACT
C
TGTATCTAGCTGCTCTGGTGAGGACGTGGAGAACCTTTATGTCTAGCTCAAGGTTTGTAAACACACCAATCAGCACCCTGTGTTTAGCTCAAGGTTTGTG
Celera SNP ID:            hCV27004369
SNP Position Genomic:     15188
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44207):
AAACAATTTTGCATCATAATTACTTAGAAAATACCCGGGAGGGGGTGGGGGAGGAGGACCCTTTGTCATACTCCATGTAACTCACCATCGCATAACTCTG
S
TCGGCATCCAGGTACTTTTTATACTCATGGTTGAGTTTATCAAAAACAGTGGCTATCACGGGCAGCGATGCTCTGTCTGACTCACTTAACACTGGAAAGG
Celera SNP ID:            hCV11779541
SNP Position Genomic:     64740
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44208):
ACATAAGGTTTCTCATCCTGTTCTAACTCCAGCGATTGCCTCTCAGGATTGGTATCTGGCCTTAGCTTCTCAGAGGAGGGCTTTTCTTTATCACTTTACC
Y
TGTGGTTTTGTAGGAGCGTCGAGGTTGCCCTGGAATTTTCTTAATAAAAACATAGAAGCCCCGGGCTCTGACCAGTCAAGGCCATACTTGAAGGAGGAGA
Celera SNP ID:            hCV15956866
SNP Position Genomic:     53609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44209):
ATTGTGTTTACCTTAGGGAAGGGGCTACTGTCAGGGAGGGGTAATTGGGGAGCTTCAACTGAATCTATAGAGTGTGTGTGTGTGTGTAAGTATTTTTTTA
W
TTTTTGGAAGAGACGGGCCTCACTGTGTTGGTGAGGCTGGTCTTGAACTCCTGGCCTTAAGTGATCCTCCTGCCTCGGCCTGCCAAAGTGTTGGGACTGT
Celera SNP ID:            hCV27004510
SNP Position Genomic:     26043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44210):
GGATTGTGTTTACCTTAGGGAAGGGGCTACTGTCAGGGAGGGGTAATTGGGGAGCTTCAACTGAATCTATAGAGTGTGTGTGTGTGTGTAAGTATTTTTT
T
ATTTTTTGGAAGAGACGGGCCTCACTGTGTTGGTGAGGCTGGTCTTGAACTCCTGGCCTTAAGTGATCCTCCTGCCTCGGCCTGCCAAAGTGTTGGGACT
Celera SNP ID:            hCV27004511
SNP Position Genomic:     26041
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44211):
GGCTGTCTGGCATTCTGACTGAGCCCCTCTGGGCACAGCTGCAGAACACGAATAACTAGTCTTATGAGGTTACTTTATGAGATGCTCTCCTGATTGTGGG
K
CTAGCAGGAGGAGCACCCTGGGGCCCTGGGGGGAAGACTGGTGGTGTTAGGAATCATGAGTCCAGCTGGAGGCATCTCAGCCAGGAACCTCCTGGCACCC
Celera SNP ID:            hCV25620762
SNP Position Genomic:     52442
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,40)   total(G,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:44212):
AGGATTGTGTTTACCTTAGGGAAGGGGCTACTGTCAGGGAGGGGTAATTGGGGAGCTTCAACTGAATCTATAGAGTGTGTGTGTGTGTGTAAGTATTTTT
T
TATTTTTTGGAAGAGACGGGCCTCACTGTGTTGGTGAGGCTGGTCTTGAACTCCTGGCCTTAAGTGATCCTCCTGCCTCGGCCTGCCAAAGTGTTGGGAC
Celera SNP ID:            hCV27004512
SNP Position Genomic:     26040
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44213):
TGCGGGTGGGGTGACCTTAACGGGTTCCAGCAATTTCTCCTGGTCAACACAAACGTGCCACAGAAAACCAGGCTTTTGGCTGTGTGTAGAGAGGGCCCCA
R
AAAGTTCCTGGTACAGTAAGATTGGTGTGATGGAGGCCTTGTAAGTCCAATGGGATGCTTGGCCTCCTCTAGCACCCAGGGTGCCCTGGGTAATTAGCAC
Celera SNP ID:            hCV2950792
SNP Position Genomic:     57889
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44214):
TGGTGAAATCCCCCTCATCCTCGGAGCTCTGGGTCTGTACAGTCTCTTCCTCTTGGCTATAATTTTGCCTTTTAGTGTTTGCTCCCTCCTCTGTGCCTGC
R
TAGCGCCATGCACCATGTGCCATTGATGGCACTGGGCTGTATTTGCCTGCCTCTTGCCCAGTGATTCTGAGCTCCCAAAGGTGAGTGCTGAGCTGTATTA
Celera SNP ID:            hCV2950793
SNP Position Genomic:     40668
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44215):
CAGGATTGTGTTTACCTTAGGGAAGGGGCTACTGTCAGGGAGGGGTAATTGGGGAGCTTCAACTGAATCTATAGAGTGTGTGTGTGTGTGTAAGTATTTT
T
TTATTTTTTGGAAGAGACGGGCCTCACTGTGTTGGTGAGGCTGGTCTTGAACTCCTGGCCTTAAGTGATCCTCCTGCCTCGGCCTGCCAAAGTGTTGGGA
Celera SNP ID:            hCV27004513
SNP Position Genomic:     26039
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44216):
TCAAGACCAGCCGGGGCAACATGGTGAAACACCGTCTTAAAAACATTTTGTTTTTCTTTTCATTGTTGAGGTTGAGGCTGCTGTGAGCTGTGATCACGCC
R
GTGTACTCCAGCCTGGGCAACAGAGCAAGACCCTGTGTCAAAACAAAAAAGAGAGAGAAATAAATAATAGCAATTATGTGCCGTAGAGAAAATGTGGCTA
Celera SNP ID:            hCV7490082
SNP Position Genomic:     7269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44217):
TTTTTTAGAGATGGGATCTTGCTATGTTGTCCAGGCTGGACTCAAACTCCTGGGTTATAGCCATCCTTCTGCCTCAGCTTCCTGAGTACTTGAGATTAGG
Y
GTGCCACCATACCCGGCATACAGGACTTGCCAAACCACCATCTTGCTCTCATTCCCTCTCACTGTTCTCTCTCCCTCCCTTTTTCCTCCCACAGTTGTAA
Celera SNP ID:            hCV2950794
SNP Position Genomic:     40436
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44218):
TCAGGATTGTGTTTACCTTAGGGAAGGGGCTACTGTCAGGGAGGGGTAATTGGGGAGCTTCAACTGAATCTATAGAGTGTGTGTGTGTGTGTAAGTATTT
T
TTTATTTTTTGGAAGAGACGGGCCTCACTGTGTTGGTGAGGCTGGTCTTGAACTCCTGGCCTTAAGTGATCCTCCTGCCTCGGCCTGCCAAAGTGTTGGG
Celera SNP ID:            hCV27004514
SNP Position Genomic:     26038
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44219):
TGGTGTGGGCTGTCTGGCATTCTGACTGAGCCCCTCTGGGCACAGCTGCAGAACACGAATAACTAGTCTTATGAGGTTACTTTATGAGATGCTCTCCTGA
Y
TGTGGGGCTAGCAGGAGGAGCACCCTGGGGCCCTGGGGGGAAGACTGGTGGTGTTAGGAATCATGAGTCCAGCTGGAGGCATCTCAGCCAGGAACCTCCT
Celera SNP ID:            hCV25620763
SNP Position Genomic:     52435
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:44220):
TGAGCTGTGATCACGCCAGTGTACTCCAGCCTGGGCAACAGAGCAAGACCCTGTGTCAAAACAAAAAAGAGAGAGAAATAAATAATAGCAATTATGTGCC
K
TAGAGAAAATGTGGCTATTCTGTTTCCCTAGAGTTTTTTAAAATTTATTTTTAAAATTTATTTATTTTAGAGACAGGTTCTTGCTCTGTTGCCCAGGCGT
Celera SNP ID:            hCV7490083
SNP Position Genomic:     7352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44221):
AAAAATGATGGGGGACAGAGGTGCGTGAGCCTTGTGTTTCCTCAAAGCGGACGTGGTTCCCACCAGTGTGGAAGCGGTACAGGGAGTGGCAGGCTCCTGG
Y
GGCAGGGACCTGAATTGGTTTGTAGTTATGCTTGTGCGCGTCCTCATAACCCCAGTCTCGCCCTAGCGCTGTCCCCTTTCCTCTCCCTCCAGCTTTTCCT
Celera SNP ID:            hCV2950795
SNP Position Genomic:     39513
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44222):
AGAACATGGTGTGCGGCGGCATGGGCTGCAACAATGATTCCCTGGTGCAGCAGATATTTAACGCGGCGCAGCTGGACAACTAGTCAGTACCACCTTGTCT
Y
GTACTTCAGAAGCAGCGGAGGAGGCTCTCAGCCAGGCAGTCAGCTCAGGCCTGAAATGTCTCACTGAAAATAGACTTTCTTGGAAAAGTTGTTTTTATGC
Celera SNP ID:            hCV25620764
SNP Position Genomic:     52833
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,39)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:44223):
CAGCTCTCCAGTCAAATTGAACTGCTTGCTAGCAAAATCCTGCCCATCTTCCAGGGCCCCATTTCACATGCTACATTATCTACGACATTCTTGTCCTGTT
S
CCCTAACTAGAATGCCTTCCCTCTGAAGTTCTGAATCTTTATTTAAACTGCTGCAACAGCATTTGCTGCCTCATTAAAAGACCTTGGTGTGGGTCTTGAC
Celera SNP ID:            hCV7490084
SNP Position Genomic:     9028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44224):
ACTCTAATCACATGAAGTCTCCTCGTTTTCAGCAACTTCCTTGTTTTGAGCATTCTCAGTCCAGAAGAGGCGGAAAGCTGCGGCCCACCTTCTTTTCCAC
N
AAGGCTGACAGGACATGGGTGTACACATCTGACTGGTCCAGCACCGCCTGGGTCCGCACCGGCCTCTTGAGGAGCGGGCTGCTTCGGCTCTGCCCTGCTT
Celera SNP ID:            hCV7490157
SNP Position Genomic:     63340
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,27)   caucasian(A,13|G,25)   total(A,20|G,52)
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44225):
CTGTCCCCCAGGCTGAAGTGTAGTGGTTTGATTGTGGCTCACTGAAGTGTTGACCCTGGGCTCAAGCTATCCTTCCACCTCAGCCTCCCACGTAGCTGGG
R
CTGCAGGTGCATGCCACCATGCCCAACTAATTTTTAAATTTTTTGTAGACACAAGGTCTTGCTGTGTTGCCCAAGGTGGTCTTGAATTCCTGGGCTGGAG
Celera SNP ID:            hCV27004371
SNP Position Genomic:     9479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44226):
AGTGTTCACACTCTCTCCTATTCTTTTATCTTTCTTTCAGGACTCCTACATGGTGGATTATTTCAAATCCATCAGTCAGTACCTGCATGCGGGTCCGCCT
R
TGTACTTTGTCCTGGAGGAAGGGCACGACTACACTTCTTCCAAGGGGCAGAACATGGTGTGCGGCGGCATGGGCTGCAACAATGATTCCCTGGTGCAGCA
Celera SNP ID:            hCV1016953
SNP Position Genomic:     52684
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44227):
TGTGGAACTGTACCTGTTGGTACGGCTCCTTTTTAGGTGGCAGTGTGCTGAAGCAGGAAAATAACAGACAAGTTAAACATGAGACAGCTGGCAGTCTTTC
Y
CATTTAAAATGCAGGGGAGCCCGGGCCAGAACCCAGCGTGTGATGTGCGGTTGGTGCCTGGAGAGTCGTCTTGGTTCAACTCTACACCCTGGCTTAGCCT
Celera SNP ID:            hCV25974320
SNP Position Genomic:     58444
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,1)   total(C,75|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44228):
GGTGGACCAGTGTTCCCGTGGCTTGTGTTGGGAGGCTATGATGGTAAGTAAGAGAAGCTTTGACTTTTCCTTTTAGATAAAGTCATCTCGGTTTTGTCAT
Y
AGCATCAAGTGGTAATTATGAAGATTTCATAAATTGGGCAGTTTTGTTAATTTCTTACCTCTTGAATCCCAGAATAGTATCTCCTTTGGCTTTGGGTTTG
Celera SNP ID:            hCV22274054
SNP Position Genomic:     41064
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(T,40)   total(C,4|T,74)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,26)   caucasian(T,2)   total(C,4|T,28)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44229):
TAAATACCCATTTCCTTTGATCCAACAATATAAAAGTATTTCCAACAGTTCTATTTGCGCATGATTGCAAAGATTTACATCCAAGAATGGGCCAGGAGTG
S
TGGCTCACGCCTGTAATCCCAGCACTTTAGGAGGCTGAGGCAGGCAGATTGCTTGAGCCCAGCAGTTCAAGACCAATCTGGGCAACATGGTGAAACCCCG
Celera SNP ID:            hCV27004373
SNP Position Genomic:     2889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:44230):
CTTCTTTCAGGTTCTTGACTTACAAATAGCCATCGAAAACATTACTGCCTCTTATGACAATGAGACTGTGACACTTCAAGACATCTGCTTGGCCCCTCTT
Y
CACCGTATAACACGAACTGCACCATTTTGAGTGTGTTAAATTACTTCCAGAACAGCCATTCCGTGCTGGACCACAAGAAAGGGGACGACTTCTTTGTGTA
Celera SNP ID:            hCV1016955
SNP Position Genomic:     37740
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44231):
CTCAACACAATTCCTTTCTGTAGATTTTCCAGTCCATGGGATGGAGCCCATGAACAATGCCACCAAAGGCTGTGACGAGTCTGTGGATGAGGTCACAGCA
Y
CATGTAGCTGCCAAGACTGCTCTATTGTCTGTGGCCCCAAGCCCCAGCCCCCACCTCCTCCTGCTCCCTGGACGATCCTTGGCTTGGACGCCATGTATGT
Celera SNP ID:            hCV1016956
SNP Position Genomic:     32231
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44232):
CTGCTCCTGCTCCTCCGCTCCTCCTGCGCGGGGTGCTGAAACAGCCCGGGGAAGTAGAGCCGCCTCCGGGGAGCCCAACCAGCCGAACGCCGCCGGCGTC
M
GCAGCCTTGCGCGGCCACAGCATGACCGCTCGCGGCCTGGCCCTTGGCCTCCTCCTGCTGCTACTGTGTCCAGCGCAGGTGAGCGGTCGCCGGCCACCGG
Celera SNP ID:            hCV15972833
SNP Position Genomic:     6103
SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,2)   caucasian(A,4)   total(A,16|C,2)
SNP Type:                 UTR 5;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:44233):
CTTGTCTCCTTTTTCCTTTGGGTTTCCTCTTCTAGCAATGTACAATGCCTGCCGGGATGTGGAGGCCCCCTCAAGTAATGACAAGGCCCTGGGACTCCTG
K
GTGGGAAGGACGCTGACGCCTGTAATGCCACCAACTGGATTGAATACATGTTCAATAAGGACAATGGACAGGCACCTTTTACCATCACTCCTGTGTTTTC
Celera SNP ID:            hCV1016958
SNP Position Genomic:     31172
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44234):
GGATCACCTACATGGCGTTTTTGCTTGTGTTTTTTGGAGCATTTTTTGCAGTGTGGTGCTACAGGTAAGCAGTTTTGTTTGTCATCCAGGGCAAAAAGAG
S
AAAATTGCCCACTGGCACTTTGAGCTTTCATTTGTCAGAGCTTGGTTACTTAGGACAAGAAACAAATACCTCCATGAATACCATTGCATGGATTATTGTG
Celera SNP ID:            hCV25922318
SNP Position Genomic:     32440
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44235):
CTGGACTCTCTTGACACCCAGGATTCTTTCCTCAGGGGACATGCTGCCTATAGTTCTGCAGTTAACATCCTCCTTGGCCATGGCACCAGGGTCGGAGCCA
Y
GTACTTCATGACCTACCACACCGTGCTGCAGACCTCTGCTGACTTTATTGACGCTCTGAAGAAAGCCCGACTTATAGCCAGTAATGTCACCGAAACCATG
Celera SNP ID:            hCV27536890
SNP Position Genomic:     55814
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44236):
GATACAGAGAAGCTCCAGAGGGCCCAGGCCTGGGAAAAAGAGTGAGTCACTCATGGGTGTGAGCAGACTGTCCTTGCATTGTGGGAAGCTAGACACTTGC
R
GCAAGCACTTAAACTTCATTTTCTAAATTAACCAATGGCAGATCTGAGTTACGTAGTTTTGTTCACTTGGTACTAATGATGCTAAGAAGAAACTGTAAAC
Celera SNP ID:            hCV25472110
SNP Position Genomic:     44680
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(A,20|G,20)   total(A,33|G,45)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44237):
CGGGCTTTCACCATGTTGGCCAGGCTAGTCTCGAACTCTTGACCTCAGGTGATCTGCCAGCCTCAGCCTCCCAAAGTGCTGGAATTACAGGCATAAGCCA
Y
TGAGCCCAGCCCTAAACTTACTTTAATTCAGCATGTATGGAACCTTAGCTGTAATCTGATAGTCTCCAGTGTGGAAGACCCTAATGCAGTGGCTGGGCAT
Celera SNP ID:            hCV27978662
SNP Position Genomic:     46647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44238):
TTTACCTTAGGGAAGGGGCTACTGTCAGGGAGGGGTAATTGGGGAGCTTCAACTGAATCTATAGAGTGTGTGTGTGTGTGTAAGTATTTTTTTATTTTTT
K
GAAGAGACGGGCCTCACTGTGTTGGTGAGGCTGGTCTTGAACTCCTGGCCTTAAGTGATCCTCCTGCCTCGGCCTGCCAAAGTGTTGGGACTGTAGGTGT
Celera SNP ID:            hCV16023264
SNP Position Genomic:     26049
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44239):
AGTATGCCTAAGATGAAAATGGTATTTCAGATTCATTAAACTGTGAAAGTGACATGTGGCTGAAGCTTTTAGATAAGGGGAAAGATTATCCCTCACTAGT
R
AGGAAAGTAATCGATAGAGAAGAAAGTAATGCCCCTCACTGTCAGTATTTTAAAATGTTTTACAAAAAATCTGGAGACCTATTCTTCTAACAGTCCTCCC
Celera SNP ID:            hCV15956876
SNP Position Genomic:     53837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44240):
TGAGGCTGGTCTTGAACTCCTGGCCTTAAGTGATCCTCCTGCCTCGGCCTGCCAAAGTGTTGGGACTGTAGGTGTGAGCCACCACACCTGGCCTATAGTG
S
ATTATTATTTTTATTTAGTTTTTAAATTATGCCATAGCCAGTTGTTCTGAATAGTGCAGTACTACAAAACAGAGTCAAGGTCTCATGCTGTCACCCAGGC
Celera SNP ID:            hCV16023265
SNP Position Genomic:     26175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44241):
ACCACGACCATGCCATTATTATTACATTATTATTAGCTAAACCAGAGATCTTAATCAGATTTCACCAGCTTTTTCTCTAATGCCCTTCCCTGTTTCAAGG
Y
CCCATATTACATTTTTGTGTTTTATGAGTCCCCTCTAATCTGTGACAGAAAGTTCCTCAGTCTTTCCTTTTCTGGCCTTAACACTCTTGATGATACTGGT
Celera SNP ID:            hCV16023266
SNP Position Genomic:     34037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44242):
CCAAAGGTTTGGAGTCGCTGAGGACGTGGTACTGCAGGAACTGATGCAGCATATAAAAGAGGTTGTGCTGGACAAGGGTTTTGATAACAAGTTCATGTAG
R
TAATGCTGAGGACAAAAGTAAAAAGTGAAAGAACACTTCCAAATCATTCAGCTACAACAGACTAGAGGCTCCCCAAGGACTGGCTATTCTAACCAACACA
Celera SNP ID:            hCV25749890
SNP Position Genomic:     62593
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,2|G,38)   total(A,2|G,74)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:44243):
TAGCATTCATTGTTGGGTCTTGTCTGCAACAGTTATAACTAAGGTGTTTGCCTGATAGTGATTTTTTTCTCTTTCCCTCTCTTCCTCTGCATTTACTAAC
Y
GGACTTCTGTACAGAAAGCTATCCCTTCTCCCTCATTTATTTACTCAGTTATTTACATCATGGACTTTTAATTCTGTGGGTTGTATCCAACACTGTCATT
Celera SNP ID:            hCV16023267
SNP Position Genomic:     34554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44244):
CAGGGCAGGGTTGAACCTCACCCTTCAGAGGCTCCTGTGTCGGCATCTCCTCTGTGGGGTGGGAATAGCGCTCATTGAGGGCAGCCAACAAAGGTGGCTT
Y
GCTGAGCAGATAGGTAGCTGAGGGCAGGGGTCTCATATGTGTCCCCAGGTGGGCTTGATTCCTGCCATGAGATAGCAACTAATGCTTTCCCTGTTCCGAC
Celera SNP ID:            hCV16023268
SNP Position Genomic:     35863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44245):
TTGATGAACACATAACATGTGCTATCGTGCCAGCTAGAGATTAGTGCTATGAGGAGAAAAATAAGGCTGGACAGAGTGGGGGGTGCATTGCTTAAGCGTG
R
AGATGTGCACAAAGGGAGAGGAAAGGACAGCTGGGCACATCACAGGGATGAGAGTTCCCGGCAGAACCAGCAGCAAGTGCAGAGCCCTGGCAGGAAGCTC
Celera SNP ID:            hCV16023269
SNP Position Genomic:     38440
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44246):
TGGCCCTATTATGTGTGAGATCATGCAGAATATAATTTACTTTTCCTTTAGATGTCCATCCTGTTTTTATAACCTACTGAACCTGTTTTGTGAGCTGACA
Y
GTAGCCCTCGACAGAGTCAGTTTTTGAATGTTACAGCTACTGAAGATTATGTTGATCCTGTTACAAACCAGACGAAAACAAATGTGAAAGAGTTACAATA
Celera SNP ID:            hCV28016636
SNP Position Genomic:     23678
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44247):
CTTCTTTTCCACGAAGGCTGACAGGACATGGGTGTACACATCTGACTGGTCCAGCACCGCCTGGGTCCGCACCGGCCTCTTGAGGAGCGGGCTGCTTCGG
Y
TCTGCCCTGCTTCCACCGCCTGAAAGAAAAAAACCACAAACTATGATCTTCGGCATCTTAGAGGAAGGGTGCTGTTTACAGTTCATCCACAAGGACTGAA
Celera SNP ID:            hCV7490164
SNP Position Genomic:     63428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44248):
GGTTTCTAGGTGATGGCAGTGATCAGCTGCGGCCAGCCAGGTTTTTCTTCATCTGGACTGTGCCTCTCACTTTCAAATTTTTGGAACATTTGCTTTGGCA
R
CAAAACTTTTAAAAAACCAACTCTCTCTGGTGCAGGTGTTCTGTTGGAGGATTTGAGAGAAGCTTTAAAATTTTATCTTATTACTGTCCCTTGCTTAGGT
Celera SNP ID:            hCV7490092
SNP Position Genomic:     10144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44249):
ACTAAAGACTTCCTCCCTGTGGAGCAGGTCAGTAACCCTGTCTGTCCTCTCTAGTACCCGAATAGGCTTCGCCCCCTCGTCCTGGATCGACGATTATTTC
R
ACTGGGTGAAGCCACAGTCGTCTTGCTGTCGAGTGGACAATATCACTGACCAGTTCTGCAATGCTTCAGGTACCTTCTCCTTTACCAAATCTTTCCTGTT
Celera SNP ID:            hCV27532182
SNP Position Genomic:     53201
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44250):
GGGGCTTCACCATGTTGCCTAGCCTGGTCTCAAACTCCTAGGCTCAAGCAATCCACCCTCCTCAGCCTTCCTAAGTACTGGGAGTACAGGCATGAGCCAC
R
GTACCTGTCCTCACTTGCTGCTTTCATCATAATTATTAAAGGTTTCAACTTTCCCTGGAATTACTAATAGAAATAGTAAGTAGCACTCTGGTTGAATTGA
Celera SNP ID:            hCV7490099
SNP Position Genomic:     20068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44251):
TTGGCCATGGTCTTACTGGGAGCCACTCACGGATTAATATTTCTCCCTGTCTTACTCAGTTACATAGGTAAGAGTTCTCATCTTAAAAGGGTGGCACAAT
R
GAAGGACATTACTGAAAGGGAATTCTATCCTGAGGCATTCTTTTCAAGTATTTGAACTCATACTAATGGTCATTTGATAATGATAAATGATACTGAGTAA
Celera SNP ID:            hCV3204007
SNP Position Genomic:     59304
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,15)   caucasian(A,20|G,20)   total(A,41|G,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44252):
AGATCCTCTGTAATTATTCCTTAAATGTTATTGCAGGGTGGAGGTGGAGATGAGACTAACAGGCTTAAGTCTTATCCCGGACTCTCAAACTCTAACCTGT
R
GCATACAGTGCAGAGAAAGAACACCGTAACTCCAAAGGCTTAATTTTTCAGGGGCTGACTTTATACCTCTCATAAAGTTTCCCAATAGCAGGTTGCTATT
Celera SNP ID:            hCV25620700
SNP Position Genomic:     19321
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:44253):
AAAACACAAAAATTAGCCAGGCATGGTGGCGTGCACCTGTTTAATCCCAGCTACTCAGGAGGCTGGGGCAGGAGAATCACTTGAACCTGGGAGAAATCCT
Y
GTAAGGAAGTGTTTTTGTTCAATTACAGGTTGGTAAAAGTGGTTTCTAACACAGTATCTCTTCTTTTAGGTGTTCAGTGGAATCACACTTACAAAATTTG
Celera SNP ID:            hCV3204008
SNP Position Genomic:     59038
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,29)   caucasian(T,40)   total(C,3|T,69)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44254):
TGGGCTAGTCTGCCTGTAATTTGTTATTCTTTAGAGATTGCACAAGCCTGTAGCCTGATGACAGCAGGATGTTCACTTTTTACTTAGAAAATTGCACCCC
R
CCCCAGGAGCTCTCCGACCAGTGCCTTTTGCCTCCTATGTGGTTATCAGGTACTTTTAATCATTAAAGATGAGAGCACTCGAGAAGGTATTCATGGAAAA
Celera SNP ID:            hCV3204009
SNP Position Genomic:     57592
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44255):
TCCCGGGCCGAGCCAGACTCCATAAGTCCCGCGCCTGGCCCCCGGGGATTGCAGGGGCTGAGGAGAAGGGCAACACGGGGACCTTGAAGCGGGGTCGCGG
S
GGCGCCCCAGCCCGGGCCAGGGAGTCCCGGCAGCGGCACCTCCCAGAAAGGGCGGAGCCGACGACGCCTTCTTCCTTCCTGACCGGCGCGCGCAGCCTGC
Celera SNP ID:            hCV25620702
SNP Position Genomic:     5887
SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,2)   caucasian(C,4)   total(C,18|G,2)   
SNP Type:                 TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,3)   caucasian(C,15|G,5)   total(C,44|G,8)
SNP Type:                 TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:44256):
CTGACAGGACATGGGTGTACACATCTGACTGGTCCAGCACCGCCTGGGTCCGCACCGGCCTCTTGAGGAGCGGGCTGCTTCGGCTCTGCCCTGCTTCCAC
Y
GCCTGAAAGAAAAAAACCACAAACTATGATCTTCGGCATCTTAGAGGAAGGGTGCTGTTTACAGTTCATCCACAAGGACTGAATTCTTCGATGTGGACCC
Celera SNP ID:            hCV25616030
SNP Position Genomic:     63445
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,38)   total(C,73|T,3)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:44257):
TGCTGCATCGGCAAGGCCAAGTTGAACACCGGATGGTGCCAACCATCGGTTGTTTGGCAGCAGCTTTGAACGTAGCGCCTGTGAACTCAGGAATGCACAG
Y
TGACTTGGGAAGCAGTATTACTAGATCTGGAGGCAACCACAGGACACTAAACTTCTCCCAGCCTCTTCAGGAAAGAAACCTCATTCTTTGGCAAGCAGGA
Celera SNP ID:            hCV29312118
SNP Position Genomic:     60588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:44258):
GAATGCTAGGGACCTGGCCTAGGGACATTTGTTCAGCCAGTTGAGCAACCACAGTGGCTATTTCTTCAGCATGGGAACAGAGAAATTATTCCTTTTTGCC
Y
TTAAGGACACTGCTCAGCCGACTACTTCTCAAGAGCTAAGGACTCTCACTTCTGGTTCTAAAGAACTTTGACCTTGAGTTCTGTTTGTTTGTTACTGGAG
Celera SNP ID:            hCV16023270
SNP Position Genomic:     39048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44259):
AGGTTTTCTGCAAGGGATGTTTCCCAAAGGAGTCTGACCACTTGGCAGTGGTGACAGGATGAACACGCAGTGTTCGGGAGTGAGAGCGAGCTTTAATGAG
R
CCTCCCCTCTCCCCTCCAGTGTGTTTTATGTCTTCTACGAACAGTACCTGACCATCATTGACGACACTATCTTCAACCTCGGTGTGTCCCTGGGCGCGAT
Celera SNP ID:            hCV29312119
SNP Position Genomic:     56905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44260):
TTATTTTGCATTTGTCTGTCCATTACTCTTCCCAGACTGGCCCCCTCCTTCAGGAGCCCCCTTGGTGGGCACCCCATGCTCTAGGACAGGACATCTTTTC
Y
TTGAATTATTATTATTTTTTTTTTAGAGATGGGATCTTGCTATGTTGTCCAGGCTGGACTCAAACTCCTGGGTTATAGCCATCCTTCTGCCTCAGCTTCC
Celera SNP ID:            hCV16023271
SNP Position Genomic:     40317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44261):
AACCCTCCACTCCTAAAAGGGATGCAGTATTCTAAGCATGGCAGATTACCTACAGCGGAAGCCTGGATCAGTCATCTCTGATCTCGGGTGCCCCTTTCTG
S
CCTTTGACCTCCAGCTCTGTGAAGGGCATCAGCTCTCCAGTCAAATTGAACTGCTTGCTAGCAAAATCCTGCCCATCTTCCAGGGCCCCATTTCACATGC
Celera SNP ID:            hCV16023274
SNP Position Genomic:     8898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44262):
TTTGACCTCCAGCTCTGTGAAGGGCATCAGCTCTCCAGTCAAATTGAACTGCTTGCTAGCAAAATCCTGCCCATCTTCCAGGGCCCCATTTCACATGCTA
M
ATTATCTACGACATTCTTGTCCTGTTCCCCTAACTAGAATGCCTTCCCTCTGAAGTTCTGAATCTTTATTTAAACTGCTGCAACAGCATTTGCTGCCTCA
Celera SNP ID:            hCV16023275
SNP Position Genomic:     9001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44263):
GGAGATGACTGTCACCCTAGTTAACCTGTCTTTCCAGAACAAGGGTAAAACAAAATGAATGTGTAAGCATCTCCTTGAAGATTAGGGAAAGAAGATCCTG
S
GAAGTTTCTAGCAAGCAGAGACTGGTAAATGAGAATCGACAGTACAGGACCCATTCCAGCTATTTTCTTAGGTGTAATACACTGATACTATCCTTATGTA
Celera SNP ID:            hCV16023276
SNP Position Genomic:     30160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44264):
AAGATACAAAATTTTAAAATGTAATGTGCAGAATAGTATTTTACTGTTTGTGTGGTTAAGAGGGAAAGGGGAAGAATCTGTGTGTTTGCTTGTGTGTGTG
Y
GGAGTGGCTCTGGAAAGATTCGCAGATGGTCACAGTATGGGGAGGAGAACTAAGACAATGAAACAGATGTTGGAGAAGGAGAGAATTTTCGATAAACACT
Celera SNP ID:            hCV16023278
SNP Position Genomic:     44123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44265):
GATTCATTTTGCCCAAAGGTGCCACTAAAAAGGCAAAAGGTCAACACGTGTCCCGCTGCTGTAGAAGGTGGTCTCAGTCGTCCTGTAGACCCGACGTGGG
Y
GGAGACTCAGTGCACGTGAGAGTGATGTTCACTGGTCCAGTCCCCTGCCGCCTGTGTTCCGAGTGTTTTCCTGATAATGTGGCTGGCTCAGCTTTCCCTT
Celera SNP ID:            hCV16023279
SNP Position Genomic:     48751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44266):
ATAGGGTCTTGCTTTTTTGCCCAGGCTGGCCTCAAACTCCTGGCCTCAGGAGATCTTCCCACAGTGCTGGGATTACAGGTGTGAGTCACTGCACCTGGCC
R
AGTCCATTATTTTTTTAATGTTGAGGCAAATGTTGTGAAATGGTATGACTGATAGTTAACTGGGTAATGAGGAAATGAGAATTGTATTATTCTCCATGTG
Celera SNP ID:            hCV1546373
SNP Position Genomic:     26509
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44267):
TGAAAGGAACTCTGTCCAGGATTCTTCTTTGGCAATGTCAGTCTCTGTTGTGATGTTCGGCAGCTTCAGACACTAAAAGACAACCTGCAGCTGCCTCTAC
R
GTTTCTGTCCAGGTAGGTTCTGCTGGGGAAACAGAACAACTGGGCTGTAGATACTTGTGAACTGGTAATGCTCAGCTTTCCATTTATTCTTTGTTTACAT
Celera SNP ID:            hCV27863243
SNP Position Genomic:     20544
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44268):
CAGGCTTCTGGTAAGCCGGGGGGGGGGTGGTGTATGTTCTAGAGGTTAACAGCAGTGCACAGTGTAACGTCATATTTTTGCCTCTTTATTCTTATTCCAT
Y
ATGTTTAAAACTGCCATAAATTCCCCCATGTTTTAATTGTATGTAACGTTTCTGTTGCCTACATCTATTTTCTTCATTCCAACTTTTTGGTTTATCTTAA
Celera SNP ID:            hCV1546378
SNP Position Genomic:     47756
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,29)   caucasian(C,3|T,11)   total(C,8|T,40)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44269):
TGTGGGAAGGACGCTGACGCCTGTAATGCCACCAACTGGATTGAATACATGTTCAATAAGGACAATGGACAGGCACCTTTTACCATCACTCCTGTGTTTT
M
AGGTAGGTATAAAGATTCCAAGTTTGGTGTGTTTATGATATTGTTTTAAAGCCAAGGAACTGGCTGGGCACAGTGGCTCACCAGTGCTTGGGGAGACTGA
Celera SNP ID:            hCV27863244
SNP Position Genomic:     31272
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44270):
TGCACCATTTTGAGTGTGTTAAATTACTTCCAGAACAGCCATTCCGTGCTGGACCACAAGAAAGGGGACGACTTCTTTGTGTATGCCGATTACCACACGC
R
CTTTCTGTACTGCGTACGGTAAGTGGCAAGAGACAATCATTGGTAGACACCATTCTTGGGTCTGACTTAGGGTACATGGGCAAAAGCTTGTTTTATGAGC
Celera SNP ID:            hCV27863245
SNP Position Genomic:     37858
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44271):
CGGCTATACTAGTATACCTGATGGTGCCTCTGACCATGGAAATGTGATTTCCTGGCCTAGTTCTGGGCTAGTCTGCCTGTAATTTGTTATTCTTTAGAGA
Y
TGCACAAGCCTGTAGCCTGATGACAGCAGGATGTTCACTTTTTACTTAGAAAATTGCACCCCGCCCCAGGAGCTCTCCGACCAGTGCCTTTTGCCTCCTA
Celera SNP ID:            hCV3204010
SNP Position Genomic:     57529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44272):
GTTAAATTACTTCCAGAACAGCCATTCCGTGCTGGACCACAAGAAAGGGGACGACTTCTTTGTGTATGCCGATTACCACACGCACTTTCTGTACTGCGTA
Y
GGTAAGTGGCAAGAGACAATCATTGGTAGACACCATTCTTGGGTCTGACTTAGGGTACATGGGCAAAAGCTTGTTTTATGAGCATAACCCAGAGGTGAGC
Celera SNP ID:            hCV27863246
SNP Position Genomic:     37875
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44273):
ATCACGCCACTGCACTCCAGCCTGGGCTACAGAGCAAGACTCTGTCTCAAAATAAAAAAAAAAAGAAGCCAGTCTGGGAGAGAACAAGCTAAACCTTTGG
Y
GTTCCCTTATCTGGGGGCCTTCTTCATCCCTGAAATGTACAGCTGGGTCTGACCTCTGAGTCCAGGGTCAGGTGATTTTGCTTAGCCTCAAGTGCTCAGA
Celera SNP ID:            hCV3204011
SNP Position Genomic:     55591
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44274):
TGCTCCTTGGGTGTCTTCAGCTACATTGGGTTGCCCTTGACCCTCATTGTGATTGAAGTCATCCCGTTCCTGGTGCTGGCTGTTGGAGTGGACAACATCT
Y
CATTCTGGTGCAGGCCTACCAGGTATACTTCCATATTCTCACAGGGCTCAGCATCTGTTCAAGTTTCAGGGACTGTGAATGGCTCCTGGGCTCCGCATTC
Celera SNP ID:            hCV27863247
SNP Position Genomic:     48260
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44275):
CGGGGTTACATGACCAGTAAGTGGCAGGGCTGAGGTTGTTCCCAGGGCCCTTGCCCTTTCCTGCTTCCTATTACACAACAGGACTGAGTAAACCCTGTAC
M
TTTGATTATACATGAAACCAGGTGGAGAAACAGCAGCTATGTACCAAAGAACCCAGAGCAATCGAGAAAAGCCCATCTGGCCAGGCGAAGTGGCTCACAC
Celera SNP ID:            hCV3204012
SNP Position Genomic:     55170
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44276):
CCCTCTTATTCTCCATGATCCTCGCCTTGCTTAGTTACTATCAGAGTGTTCACACTCTCTCCTATTCTTTTATCTTTCTTTCAGGACTCCTACATGGTGG
W
TTATTTCAAATCCATCAGTCAGTACCTGCATGCGGGTCCGCCTGTGTACTTTGTCCTGGAGGAAGGGCACGACTACACTTCTTCCAAGGGGCAGAACATG
Celera SNP ID:            hCV27863248
SNP Position Genomic:     52640
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44277):
GTAGCCACCGTTCCTGGGGAGCCTCCAGGGTGCCAGCGTCATGCCAGGCACTCCCTGACATTATTCCATTTCTCATCACGCAGCCTATGAGTAGGTGGTG
K
TATACCCATTTACAGAAGAGGAGACTGGGGCTCAGAGGTGGTCATTTTGCTCGGGGTTACATGACCAGTAAGTGGCAGGGCTGAGGTTGTTCCCAGGGCC
Celera SNP ID:            hCV3204013
SNP Position Genomic:     55018
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,7)      total(G,7|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44278):
GAAGGGCACGACTACACTTCTTCCAAGGGGCAGAACATGGTGTGCGGCGGCATGGGCTGCAACAATGATTCCCTGGTGCAGCAGATATTTAACGCGGCGC
M
GCTGGACAACTAGTCAGTACCACCTTGTCTTGTACTTCAGAAGCAGCGGAGGAGGCTCTCAGCCAGGCAGTCAGCTCAGGCCTGAAATGTCTCACTGAAA
Celera SNP ID:            hCV27863249
SNP Position Genomic:     52802
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44279):
CCCTGGGCATGAGAATGAACGCAGATTCCTGTGCACATTCCAAGCGGGGCTGAGGGAGAGGACGGCCTGCTGGTAATCCAGGCCTGAAGGAACTTGGCCT
R
TTCACTTGTACTGATGGCAGCTGGGGCGTGATCTTAGCTTTAGTAACATTATCCCACATTAAGGTTGCGATTCTTTTAGCCTCGTCATGCTCCTTGCCAG
Celera SNP ID:            hCV3204014
SNP Position Genomic:     54425
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44280):
CCCCCATCCAGCCAGGCAGCCAGTTACCCACGGAAGCCAGATATATGGCCCAAAAATAGTGATGATGACCGGAAGTCTCTGGCCTTGATTTGGAAGCTTT
K
GGAGGTGGAAGATGAGTATCCCCATGTATGTTAGGTAAACCCTGAACTTAGGTTTTTCATAAGAACATACATCTGACCAGAGTCATATCAGTGAATCATT
Celera SNP ID:            hCV29312120
SNP Position Genomic:     54660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44281):
TTCGACTGGGTGAAGCCACAGTCGTCTTGCTGTCGAGTGGACAATATCACTGACCAGTTCTGCAATGCTTCAGGTACCTTCTCCTTTACCAAATCTTTCC
Y
GTTTTGCTGAAAAATTTTCAAATTATCATTTAAAAATCATTTGCATCGTGCCTCAGTTTATACCTATTTGTATATCAAAGCTGGGTCTCCCTGTGTCATC
Celera SNP ID:            hCV3204015
SNP Position Genomic:     53298
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,14)   caucasian(C,18|T,18)   total(C,40|T,32)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44282):
TGGCTTGCTCCTTGGGTGTCTTCAGCTACATTGGGTTGCCCTTGACCCTCATTGTGATTGAAGTCATCCCGTTCCTGGTGCTGGCTGTTGGAGTGGACAA
Y
ATCTTCATTCTGGTGCAGGCCTACCAGGTATACTTCCATATTCTCACAGGGCTCAGCATCTGTTCAAGTTTCAGGGACTGTGAATGGCTCCTGGGCTCCG
Celera SNP ID:            hCV29312121
SNP Position Genomic:     48255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:44283):
GAGTGCAGTGGCATGATCTCAGCTCGCTGCAGCCTCTGCCTTCCAGGTTCAAGTGATTCTCGTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCT
K
CCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGCTTTCACCATGTTGGCCAGGCTAGTCTCGAACTCTTGACCTCAGGTGATCTGCCAGCC
Celera SNP ID:            hCV3204016
SNP Position Genomic:     46508
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,7)   total(G,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44284):
CATATTATATGATTGGATTTATGTGAACTGTCTGAAATAGTCAGATAAATAGAGACAGTTCAGTGGTTGCTTAGGGCTTAGGGAAGTAGGGAGGTAGTTG
W
GCATAGCTAGAATACAGGATTTCTTTTGAGGTGATGAAAATGTTATAAAATTGACTATGGTGATAGTTGCATATATCTATGAATATGCTAAACTCCATTA
Celera SNP ID:            hCV7490100
SNP Position Genomic:     29606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44285):
TTGGGTTTGGGTTTCATTCCAGATTTAAAAGAAGTGGATTGGGTTAGCCATTTTTAGGTCACACATGCCTTTGAGAAGCTGTCGAAGGCTAAGTACCTTT
Y
CCCAGAATAATGCAATTGCAAACCTCTGCATTGTTGTTCAGCTTGAAGGTCATGGGCCTCCGAAGTTCATTTATAGACCCTCTAGGGAGCTCATGGACCT
Celera SNP ID:            hCV29312122
SNP Position Genomic:     41256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44286):
CCCAGCACTTTGGGAGGCCCAGACGAGAGGCTCACTTGAGGCCGGGAGTTCAAGACCAGCCTAGGCAATGTTTGCATGTCTCTAAAAAAAAGAAAAAAGA
R
AATTTAAAAAGAAAAAAAAGCGTACAATTCAGTAGCTTTACTATATTCACGTGTATGTGCAGCCATCACCACAGTCAATTTTAGGAACATTTTCATTACT
Celera SNP ID:            hCV3204017
SNP Position Genomic:     45638
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44287):
ATAGCGCCACCACACCTGGCTAATTTTTTTTTATTTTTTTATTTTTTGTAGAGACGGGGTTTTGCCATATTGCCCAGGCTGGTCTGGACCTCCTGAGCTC
W
GGCAGTCCACCCACCAGGGCCTCCCAAATTACTGGGATTAAAGGTGTGCATAACCACCCCTGGCCCAAAGACAAATATCTTAAAAGCAAATAGAGACAAG
Celera SNP ID:            hCV7490101
SNP Position Genomic:     29864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44288):
TGGAGCAGGTCAGTAACCCTGTCTGTCCTCTCTAGTACCCGAATAGGCTTCGCCCCCTCGTCCTGGATCGACGATTATTTCGACTGGGTGAAGCCACAGT
Y
GTCTTGCTGTCGAGTGGACAATATCACTGACCAGTTCTGCAATGCTTCAGGTACCTTCTCCTTTACCAAATCTTTCCTGTTTTGCTGAAAAATTTTCAAA
Celera SNP ID:            hCV27529698
SNP Position Genomic:     53220
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44289):
GATCTTGCTATGTTGTCCAGGCTGGACTCAAACTCCTGGGTTATAGCCATCCTTCTGCCTCAGCTTCCTGAGTACTTGAGATTAGGCGTGCCACCATACC
Y
GGCATACAGGACTTGCCAAACCACCATCTTGCTCTCATTCCCTCTCACTGTTCTCTCTCCCTCCCTTTTTCCTCCCACAGTTGTAATTGTGTGAGACACC
Celera SNP ID:            hCV3204019
SNP Position Genomic:     40450
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44290):
TTGTTCAATTACAGGTTGGTAAAAGTGGTTTCTAACACAGTATCTCTTCTTTTAGGTGTTCAGTGGAATCACACTTACAAAATTTGGAGGGATTGTGGTG
K
TGGCTTTTGCCAAATCTCAAATTTTCCAGATATTCTACTTCAGGATGTATTTGGCCATGGTCTTACTGGGAGCCACTCACGGATTAATATTTCTCCCTGT
Celera SNP ID:            hCV27529699
SNP Position Genomic:     59153
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44291):
TCACTTGAACCTGGGAGAAATCCTTGTAAGGAAGTGTTTTTGTTCAATTACAGGTTGGTAAAAGTGGTTTCTAACACAGTATCTCTTCTTTTAGGTGTTC
R
GTGGAATCACACTTACAAAATTTGGAGGGATTGTGGTGTTGGCTTTTGCCAAATCTCAAATTTTCCAGATATTCTACTTCAGGATGTATTTGGCCATGGT
Celera SNP ID:            hCV25620713
SNP Position Genomic:     59114
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44292):
AATTTGGAGGGATTGTGGTGTTGGCTTTTGCCAAATCTCAAATTTTCCAGATATTCTACTTCAGGATGTATTTGGCCATGGTCTTACTGGGAGCCACTCA
Y
GGATTAATATTTCTCCCTGTCTTACTCAGTTACATAGGTAAGAGTTCTCATCTTAAAAGGGTGGCACAATAGAAGGACATTACTGAAAGGGAATTCTATC
Celera SNP ID:            hCV25620714
SNP Position Genomic:     59233
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44293):
TCAACAGGAAGAGAGCCATCCTAAAGGAAGTGCTTTATTTCAGAGCTGTGGCATCTCCGTGGAGTTCTGCAGCCACATAACCAGAGCGTTCACGGTGAGC
R
TGAAAGGCAGCCGCGTGGAGCGCGCGGAAGAGGCACTTGCCCACATGGGCAGCTCCGTGAGTACCCTGAGCAGGGCCACGCCGGCAGAGTCGCACCACAA
Celera SNP ID:            hCV25620715
SNP Position Genomic:     58123
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,2)   total(A,31|G,1)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44294):
GTCTTCAAGGGGAAACCCTGGATCAGCAGCTGGGCAGGGTCCTAGGAGAAGTGGCTCCCAGTATGTTCCTGTCATCCTTTTCTGAGACTGTAGCATTTTT
Y
TTAGGTAATTATGCTTTCAATCCTACCAGTCCTGTAGTCTGCTGAGCCTGGAGAAAGAAGGAGCTGGCTACCTGAACATGTCCCTTTGTGTTGCTTCCTT
Celera SNP ID:            hCV16023280
SNP Position Genomic:     49166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44295):
TGGGAAGTTTCTAGCAAGCAGAGACTGGTAAATGAGAATCGACAGTACAGGACCCATTCCAGCTATTTTCTTAGGTGTAATACACTGATACTATCCTTAT
R
TAATGTGTTGTGTGTATGTGTAAGAAAATAAAATCCAAAAAGATAACAGTATTAGGGGTTTTTTTTGTTTTTTTTTTTTGTTTTTTTGTGATGGAGTCTT
Celera SNP ID:            hCV7490107
SNP Position Genomic:     30258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44296):
CCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTTCCATGCCCAGCTGGAAGCTTACATCTTAATGGAGGGAGACGGTTGATGAACACATAACAT
R
TGCTATCGTGCCAGCTAGAGATTAGTGCTATGAGGAGAAAAATAAGGCTGGACAGAGTGGGGGGTGCATTGCTTAAGCGTGGAGATGTGCACAAAGGGAG
Celera SNP ID:            hCV7490108
SNP Position Genomic:     38358
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44297):
AACGTAGAAAAGGAAGTTAGGTTTTAAGAAAAAGTACTGAAACTAAAGACTTCCTCCCTGTGGAGCAGGTCAGTAACCCTGTCTGTCCTCTCTAGTACCC
R
AATAGGCTTCGCCCCCTCGTCCTGGATCGACGATTATTTCGACTGGGTGAAGCCACAGTCGTCTTGCTGTCGAGTGGACAATATCACTGACCAGTTCTGC
Celera SNP ID:            hCV27863250
SNP Position Genomic:     53160
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44298):
CACTGTCAGTATTTTAAAATGTTTTACAAAAAATCTGGAGACCTATTCTTCTAACAGTCCTCCCTGCATGTCTCCGCCAGTGGTTGACCCTGCCTGCGTT
Y
GCTGCAGGCCTCTGACTCCGGAAGGCAAACAGAGGCCTCAGGGGGGAGACTTCATGAGATTCCTGCCCATGTTCCTTTCGGATAACCCTAACCCCAAGTG
Celera SNP ID:            hCV27863251
SNP Position Genomic:     53974
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44299):
CCACTTGGCAGTGGTGACAGGATGAACACGCAGTGTTCGGGAGTGAGAGCGAGCTTTAATGAGGCCTCCCCTCTCCCCTCCAGTGTGTTTTATGTCTTCT
R
CGAACAGTACCTGACCATCATTGACGACACTATCTTCAACCTCGGTGTGTCCCTGGGCGCGATATTTCTGGTGACCATGGTCCTCCTGGGCTGTGAGCTC
Celera SNP ID:            hCV27863252
SNP Position Genomic:     56942
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44300):
TCTGCAGTCATCATGTGTGCCACCATCGCCATGGTCTTGGTCAACATGTTTGGAGTTATGTGGCTCTGGGGCATCAGTCTGAACGCTGTATCCTTGGTCA
R
CCTGGTGATGGTGAGTCCTCATACAGTCTCAGTTTGTCCCTAGCTCCTGTTTCACTTGGGGGAATTGGCTGTCTTAGATTCCATGTAAACCCTAAAGATG
Celera SNP ID:            hCV27863253
SNP Position Genomic:     57146
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Gene Number:                 220
Celera Gene:                 hCG37247 - 63000132640896
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VTD9(8061597..8075007)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12380):
TCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTGTCTGTCTTTCTCTCTCTTTCTTTCTTTTTCTTTCTCTCTCTCTCTCTTTCATCTCT
CTCTCTCTTTCAGAGACTGAGTCTTGTTCTGTTGCTCAGGTTGGAGTGCTGTGGCACAATCTTGGCTCACTACTACCTCTGCCTCCTCGGTTCAAGCGAT
TCTTCTACCTCAGCCTCCCAAGTAGCTGGGATTATAGGTGTGCACCACCACATCCTGTTAATTTTTTGTGTTTTTAGTAGAGATAAGGTTTCGCCATGTT
GGCCAAGCTGGTTTTGAACTCCTGACCTCAAGTGATCCACTCACCTTGGCCTCCCAAAGTGCTAGGATTACAGGCATGAACCACCACGCCTGGCTAGACA
GACACTTTTCTTTTTTTTTTTTTTTTTGAGACAAAGTCTTGCTGTCACCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCATTGCAACCTCTGCATCCAT
GGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCATGCCACCATGCCCAGCTAATTTTTGTATTTGTAGTAGAGACGGGGT
TTCACCATGTTGGCCAGGATGGTCTCAATCTCTTGACCTCATGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGATCCACTGCGCCC
GGCCAACAGACACTTTTCAATAGACCTTTCTAATTTGCTTATCAGCTTTTCTGAGCTTTGCCTTAAGAATAAGGCCTCATTATTAAACCACATATTGCAG
TGTTCACTGCCATGAATTCACCGAGTTAGGCTGAATTCTGGTAATGTCCTGCTATATATCCAACACATACCTAGCATACAAATTATTTCTATCTATAGAG
AAAAATATTATCTTTGGGCCATTCATAACTCTCCACTTAGAAATCGGGAGGCTGAGTCAAGAGAATTGTTTGAACCTGGGAGGCGGAGGTTGCAGGGACC
CGAGATCGCGCCGTTGCACTCCAAGAGTTCCAGGGCAAAGCTCTGGTTGACAGGGTGAGACTCCGTCTCAAAAAGAAACTACTTAGAAATGATAAGGCCT
CATTGTTAAACTACATATTCTACTGATCACTGCCATGAATTCACCCAGTTAGGGTGAATTCTGGTGATGCCCTACTATACACCCAACACAGACTTATAAT
ACAAATTCTTTCTATCTACAGAGAAAAATATTATCTTTAGGTTATTCATACCTCTTTCACTTAGAAACAGTAGTTTCATTCTTAGACTCAACTGCTTCTC
TGGTAAATCTCATTCTGTCATAGCAATTCACCCAATCTTAAGGCATACACTGACTTTTAACATTATTTAGAGTAACCAACCTAAGGGAGGTGACATCCAA
GTCATGAAATCATAGAGTAACAGAATCTTGGAACACAAGGAACCTCTGGGATGACCTGGTTGTACCTCCTATCCAGCAGAAGGAGTCTAATCCCTAGAGC
TCAGGAGCTTGTTCATCTGGCCCCACCTAAACACATCTACTCACAAGAAGCTCTTTCCCTTAGAGGCCAGGCTGTTTCTTTGGAAATTGATTTTAATATC
TAGAAACTCTTCCTTATATTTGCTCTCTTATAGGCCTTAGTCACCCATCCACCACTCCTCAGCTGGAAGCAGCCAAGAATAACATCTTATTCTACCAGTG
ACAATCCTTCAAATTCTTATGGGCTATACACCATGTTCCACTTAGGCATCTAATTCTCTTTCTACTATTTGGCATAATTTCTTGCCCTGCCAGTATTCTG
GCAAATGCTTCTAATGTTCTCTAATTTGTCAATATCCCTCTTAAAACATTTCATCTAGACTTGAAGCCATTAACTGAGATGTGGTCTACTATGACTATTT
GTATATATATACTTCTTTTTTGTGCAATAGCATTTATACAATCCACAAATGAGTTAACTTCTGGGGGCAACTGTGTCAAATGCTTGGCTCAAATTAAGCT
CATGACCAATTACATATAAAACCAGAACATGAGAACATAAGCCAGATTCTCTAAGTAGAAGTAAAGCATACATCTCCAGAAGTAAAGCATCTTAAAATAA
TCATCTTCCTGTAGATGTTTAAGGGATGGAATTTTATGATAATCACCCCCCCACTGACCTGCTGCATAGTTTGTCAACTCAACATCAACAAGCTCATCAT
CAGATTTTGCAAAAGACCTCTTGTTTATCCCAGCCTAAGTGAATGTTCTTTTGCATTTTAATCACTTTCTGCACAATGTTGGTATAGTGTCAAGGCCCAA
AGTAGGCATTAGTTACTTGCTGACTAAGCCATTAGATAAATGAATGACGAGTTCCCACTCTCTCCCATCCTGTCTTTAATAATGTTGATTGTTTTTCATC
AGTGTATTTCTCCCCACATCACCCTTAAGAGCTATAGTTCTCCATTAGGGTTCTGGGCAGTGATAATATTGTTGTTCCTGCCATTAAATGATTCTGTTAC
TTTAGAAAAACTCCTAAGCTGCCTAAGACCCCTGTTTCTCCATATGAACAATACTGTCATTTTATTTATTATTTAAACAAAGACGTATAGTACTTGTTGC
AGACCAGCTACAGTTCTAGGCACTTAACAAATATAAAATCATTTAATCCTCAGGAAAACCAGACTGAGGCACAGGAAAGTTAACTAATTTAATAAAGATT
ATATAGCTAGCAAGTGATGAAGCTGGGATTCGAACTAGGCAGTCTGACTTTTCTATGTGTGTTAACCACTAGGCTATGCTACCTATCCACATGCTCTGAG
AGCATAATGTTTAGATAAGTAGGAAGGTCAACGATCACACTCCTTGCATCATAAGTGTATATGTTAGTACATCAAAAACTGCTTGATTTTCCATTAGTTC
CTCAAATAGTAGCTTCTCCTTCCAGTCCTCATATTTTTTAAAGTTACTAACCAAAGGACAAATCACTCAAAACATGGCATTTTGAACATAGAGTGGATGC
CTTGAGTTGATTTGAATTCCTTCCAGTCACAACTGTTGGAATTATTTACCTGAAACGTTAAGGACCATGAAAGCCAGTTGACCTATTGCCAGAACAAGAG
CAAATCAAAAAAGTGCTATACCAGGCACCAGGAATCTGAGGGAAAAGGAAAATGTACTTCCTCAGAAAAACATCAAAGTATAGGCTATTCCAGCTTAGTG
CTGGCCCAGCTGAAGACAGGAACAGAAAGGTACTCAGATGTTTGCATGCAGTTTACCATAGTGTAAATAGTGACTTGTACTCTCACAAATAAGAAAATTT
GGAGGACTTAATCCAAAATGTCCAGTATAATGAAAATTTTTTTCAAAATAATTACAGCCAGATCACAAAAGCTATAAAGGAATAAACTCCTCAAGGACAT
GGAGTAATAAGGAAAAATGGAAAAGCAGGTTGGAAGGCAATGCAGTCACAGAAGCAGCTCTCCTGAGTGGCATTTTTTACTCCAAATTTAGATTCAAACT
AAATTCATTAGTCCTTCAGCTGAGTAAGAAACACCTGAGCACTGCATAGAGCCAGGGGAACATTTCCATTTAACAATGGACCTCATGGAAAGCAAGATCC
TTACAGTGTAGGGCTAGGGGCTGCGGCAAACTAATCTGTAAGTTTAGAATTTTGCTCTGGAAAATTTACTATTGGAAGGATCTTGTGGTGATTAGTGCTA
ATCAACAAGAAGGCACTGATTGCTTTTTGAATGGCCAAAAGTCAAATTTCATATGAACGAAGCAAGCATTGGACACAGCAATAGAACATCTGCATAACTG
TTATTGATGAAATGATAACCCAAGATTCTGCGGGAAATCTATTGGGAATACAAATATGAATTCGGATTCTCACCTTTGGCTAACTGAAATATTCTTCAGG
TGTATTAGATGAAGGGAAGGAAGAAAAAGCAGTTAATAATTGCAAAGCATGATTCTAAGCAAACAATGCAGGATATATATGTGCGTGTGTGTGTGTATAC
ACAAATACACACCCCATATATTTACTATATAGATAATATATATTAATACATGTAATACATTATATAATGATATATAAATATATAATATATTATGTTATAG
ATATAATATAATAGTATATAATATATAATTATATCTTATATATTATAATATATAGTATATTAATGTAATAACATATATTAATATAATATTTTATTATTGA
CATATAATATAATATGTTATTTACATATTATTTATACACACATTATTAATTATATTAGTAGTATATATATATTATTTATATACACACACAAATATACACA
CATATATTTCTCCCCACTCTTACCCCATTTAGGAGGTGAGACTTAAATTACTGTGAGACTAACTCTTAACATGCCTTTCTGAAAGACAAAAGGAATACCT
GTCCCCACTCCGTTAAGTGTCCCTAGGAACTTCACAGAAAGAAACCTTTATGCTTCTAAAAATCAGTAAACAGCTAGAAAATAAAGCAACAGCCCAGGTA
AAGTCCAAACTTGAGAAACACAGCTTATGCTTTTGTTCTGGCACCAGCACCTCCATTTCCCAGTTGTCTGGGTGATATAGGTGTCACGGGAATTGAGGCC
AAGTGTCCTGGGACTCTGGGTCTAAGGAGTCTGCTCTCCTCTTCGCACTACCCCGGGTCTGGGAGACTGGCTGGTCCTGCTGTCAGGGGAATGAAGGTTC
TGAGAAGGTGCCTGAATCCTGGTCAGAGGAAGAGGTCTTGTGAGGCACTAAGACAAGGGGCTTGGACATGACTGGCAGAGACAAACTGTAGGAGCACAGC
AAGGAGAAAGCAGGTCCTCTCCCACCACAAGGACATCTCCAGGATAGGCTGAGGCAGACAGTAGACTGTTCTGTCAAAGTGGAATATTCCAGAAGTGAAA
ATGTGAAGCCTAGATCTCCTTATCTATAATTGTGAATAATTATACTGTCTCTTGTATCCCAATCTGCATGATCCACCCCACCACTACACTTCCTCCTTTA
TCAACTATTTGTATACATAAAAATATAAGAAATAATTTACTTTTCTCACTTCCCATTAGGCTTTCCTAAGTTCCCTGGACCCACCTATTCCAGTGAACAG
TGAGAGAATGCAGTTTGTTAGCAGTAAATAATAAAACAGACAATAAGGGTCTTGTCTCAAGTTTCCAAACTGTCTCTCTTTCCCAGAACAAGAGAAGCTT
CTTTCTACAATAGTATTATCTAGAACTATCTTTTAATTTGTCATAAAGTCATAATTAAACATAACTCCATTTTAGAGACTTTAAAAATTCATTTTGAAAT
TTACCTTGCCTGACATTTACAGGCGGATTTCAAAAAAATTGTTCTTCGATCTTCTGGGAAGAGCTGAAGCACGCGCTCTTGGCTCGGCGCAGCCCGCTGC
AATCCGTGGAGGAATGTGCCGCCGAGCAACCATCATGCCTGGGCAGTTACAGGAAGGCTTCAGCTGCCTGGTCACCAACCGATTCGACCAGTTATTTGAC
AACTAATCGGACCCCTTCGAGGTGCTGAAGGCAGGAGAGAACAAGAAAAAAGAAGCTGGCGGGGGCGGCGTCTCTGGGGCCAAGAGCGGCAGCTCAGGCT
GCGACCCAGACCAACTCCAAGGCGGCAGGCAAATAGCTAGCTGCGCAAGGAGTCCCAGAAAGACAGCAAGAACCCGCTGCCCTCCAGCGTTGGCGTGGTT
GACAGGAAAGAGGAGACGCAGCCGTCCATGGTGCTTAAGAAAGAAGGAATAAGGGTCATTGTTCTCGTGCCAGTAGGAGCTGAGGTCCTGGTCCCCCAGC
CTCCTGCTGCAGAGCCAGTGAACTCTGGTCGGGCCTCTCAGCTGCGCACGTAGGCAATACTCATCTTGGCCCTGGGAGGAAACTCAAGAAGAAGCTTTTG
AAACATAAAGCTTAGATGGGGTTTGACCTGTGCTGGGCAGCTCCCAGCTATAGGCGTTCCCCTGCTGAGCAGAGAAGATGACTGCAGAATTGAGAGAAGC
CATGGCCCTAGGCCCATGCCGCCCAGTGAAGGTGAAAAAGGAGGAGGAGGAAGAAGAAAACTTCCCAGATCAGGCATCCAGCCAACAAGTGCACTCTGAG
AACATCAAAGTCTGGGCCCCAGGGGAGTTTCGTCAGACAGGCCTTGATGGATCAGAAGAGGAAGAAAAGGTGCTGAAACCAAGAACCTTCAGTTACTGGT
TCCAAAAACTGAGATACGTGAGGAAGCTGAAAACCCCCGCATCATATTAGGAAGAATCCAGAAAGCTGATCCTTAAGGACCTGAGTTAAGAGAGGCTTGT
GAAAAAGAAAACATGTTAAAGAGGCAGAGAATAAGGAGGGAAAGGAAAGATTTCAGATAAGTSATAKTGAATGACTGTCACTTACCTGAAAGCTTCAAAG
AAGAGGAAGACCAGAAATGTARGAAATCTGTGGGAAAATACAGCCTTAATTCTGACACTGTTAACAATCCGAAAACCCAGCTTGGGCGAAAGTCTTTTAC
ATTGTAGCATGTGTGGGAAAGGATTTAGTCAGAGTGCAAACCTCGTTGTGCATCAGAGAATCCACACCGGGGAGAAACCTTTTGAATGTCATGAGTGTGG
GAAGGCCTTCATTCAGAGTGCAAAGCTCGATGTGCATCAGAGAATCCACACTGGACAGAAACCTTATGTTTGCTCAAAATGTGGGAAAGCCTTCAATCAG
AGTTCAAATCTGACTGTATATCAAAAAAACCTCTCCTTAGAAAAAACCTTTAGGCGTAGTAAATGTGAGAAAGCCTTTAGTTATAGCTCACAACTTGCTC
GGCACCAGAAACTCCACATTACAGAAAAATGCTGTAAATGTAATGAGTGTCGGAAAACATTTACTGGGAGCTCAAACCATATTGTCCACCAGAGGATCCA
CACTGGGGAGAAGCCCTCTGCCTGTAACGAYTCTGGCAAAGCCTTTAYGCAGATTGCAAATCTTATTGTACATCAGCGAAGCCATACTGGTGAGAAGCCA
TATGAGTGTGAGTTTGGGAAAACCTTTAGTTGTTTTTCACACCTTATTATGTACCAGATAATTCACACTGCAGAGAAACCTTATGACTGCAGTGAATGTG
GGCAAGCCTTCAGTCAGCTCTCTTGCCTTTTTGTCCACCAGARAATTCACAGTGGAGATCTTCCTTTTGTGTGTAATGAATGTGGGAAGGCCTTCACATG
TAGCTCATACCTACTTATTCATCAGAGAATCCATAATGGAGAAAAACCTTACATGTGTAATGAGTGTGGGAAGGCCTTCAGACAGAGGTTGAGCCTCACG
GTGCACCAGAGAACCCACACTGGGGAGAAGCCCTATGAATATAAGAAGTGTGGTGCAGCTTTCATTTCCAACTCACACCTCATGCGACACCACAGAACCC
ATCTTGTTGAACAACAAGTAAGGAAGAGGAAGACTTCCAGCATTGGTCATAACCTTCTGCCTCCCAAATGAGACACCTCTTTGCTGTTTTCTTCTTCCTT
TATAAAGATGAGGCCTATGTCCTTAAAAGTTACAGTTTTCAGGAATGCAGCACAAAACACAAGATAAACATTTCAGCAGTTAATTTAAAGAAAACAGAAA
GTAAGCACCTGAAGGCAACGACTTTGTTTTAACTGTACCTTAAGTGGTCATGTTTTCTGAAATGGAATGTAGCTTTCTTAGGAATGGGTCATACAAAGTA
ATGATTGTATTTGGGGAAAGGTCTTTTTTGCTTAATTTTGTTTTTAAAAACTCTGATGATTGCTTGAGCAATAGGCAGGTTATCTGCCTGGTTGAATTCT
GGTTGAACCGTGTATTCTAGTATTTCTGGTTAAGTGGTGACTAGGTAAGGAAACCACTTGGGGTAGCAATTCAACAATTCACTTATGAATGTTTATAAGC
TTTCCATTTTCTAAGTAATTTTTTAAAAGCTAGTCAAAAGAAAAAACCTTAACTGTCTACTGTACCAAAAATGGACAGAAACAGGAAATGGCCTTTTTCC
TTACTGTCTATACCCCCTGAACCTTGATATTGTAGATATTGTAAAGCTCTGGAGACCTCTGTTGAGTCTGTTCTGACCATTCCCTAGTGTGCATGGCCAA
GCCCTCAAGGATTGATGGACACCACACGCCAGCTATAGTCATTTGTTAAGATTGACAACTCCTCCTCCACACAACTCAAGCTCCCAATTCCCATTGCATT
CCATTTGGGTAAGATGCAACCAACAGCCCCCTTCCTGGATAGAGGAATCAAAGAATAAAGCTTGCCTAGAGGAAAAATAAAAAACACAAAAAGAAGAAGG
AATAAGACAAGTTGGAAGAAGACCTGCTCAACAACTTCACGGTGAAGGGAAAATAACTGATAGAAGACCAGAAAGGAGACCACCTTGTGAACGAAGACTT
GAAAAGCCACTTGATGAAAGGGGTGAAGGAGGCGAATTTTCAGTTGATAGACTGATTATTGACCGACCTATTCAAGGTCATGGTGGTCTTGGAAGAGGTC
GAGAGGGCAGTGGACGTGAAATGGGCCAAGGAGATGGATTTGATTCTCGTGGCAAACGTGAATTTGATAGGTATAGTGGAAGTGATAGATCTTTTTTTTC
ACATTACAGTGGCCTGAAGCACGAGGACCTGTAACGTGGAGGTAGCAGATCTCACAACTGGGGAATTGTCAAAGATGAATTAACAGAGTCCCCCAAATAC
ATTCAGAAACAAATATCTTATAATTGCAGTGACTTGGATCAATCAAATGTGACTGAGGAAACACCTGAAGGTGAAGAACATCATCCAGTGGCAGACACTG
AAAATAAGGAGAATGAAGTTGAAGAGGTAAAAGAGGAGGGTCCAAAAGAGATGACTTTGGATGAGTGGAAGGCTATTCAAAATAAGGACTGGGCAAAAGT
AGAAACCTCTTCAATCCCTTTATACCCTTAACCTAACTTTCTCTTACTGGTGGGTAATAACTGAAAATAAAGATTTATTTTCATGCAAAAAAAAAATCTG
TTCTTCAAGATCATCACATTCAGTATAAGAAAATCAAATTCTTTCTGTCCAAATGTACTGTTCTGGCTTTGTCAACTTGACAGCAGCCTCTGCGCCCAGC
TATTCTACTTGTCAACTCTTGACTCAGATACTTGTTCCAAACCATGGGACCCCTCTGCTTTTCATTAAAGATTATTATAACTAACTTAGACAAAAGGAAC
CGGACTTTGTCACACAGCACCAGAAATCCCAGCACTTTACAGAATAATCATTCTTTATCTTTAAGATGTTCACAGAGTTGCTCAATTGACAATAGGAAAC
AAACTTTTTCTCAAAAGAGAATCTCTTCCTTTTTTATTTCTTCATGATTTGCCCCAAAATAAATATATTCCAGTGCACCATTTAAACAGTTTAATTCATC
CATTTGTGTTACTATGCCCTAGTTACTTCTAACCTGGAAAGAGGGTCACATTCCCTTCCTTTCTTTGTAGTGGAGAAGTCAGAAGATACTCATAATGATA
GACATTAGTAAGTGCATCCTGTGTGTGTGCACACACAGCCATTCATAATTTAGATTATTAGTTCTGCCAGGGACTCTAGGGATGTCCTAGGGTTAAAGAT
GGCCTAGTTAAACTCTCTTCAATCTCTTTATACCCTTAACAAAACTAAGATAACATGGCAGAGACTTCCTTGGTTCTTTTCCTTCTTCCAGTCACTCAGC
ACACACCTGCAGAATGGATTCATGACCCTCCTACTTTTCCTCTGCTCCACACTTGCCTGTTTCTTCTCTCTTTCCTCTTGACTTGGTCCACTCTCTTTCT
GAGCTTCCTTCTTTCCCATAATCTACCATCTTCCAGAGAGCTCATTCACACCGTGCATCCATGCATTGCATGTATGTGTTTCTGATGGCATGACCCCACT
GCCAATTCTCCAAAATTTCAAAAGTAAAATAAACAAACTTACAACTTTCTGCTTCAGATAAAGCAAAARGACACTTTCATTTAGAACACAAAGAGAGAAA
ACTAATTTTTGAGTCAGAAAGTAAGCTCCCATTCACCATGGGAGCTTCGCATTGAGAGCAGTTCATGTACATCGTAAATGTTCAATAAACACATCCACTT
GCAGATAGCTGAGGAGCTCTGAGTCAGCAGCAGGTAGTAAGTAGATAATGAAAGCAAACTAAATTAGAAGTCAGAAGACTGAGCATCTAGTACCAGCTCT
GACTGAATCAAGTTATGTGACTCTGAGCACTTTTTTTTTTTTTTTTTGGTAATATCAACAAGGTAACACTAAATTATTCCTTTTTTTTTTTTTTTTTTTT
TTTTTTGGAAACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCTCGGGTTCACGCCATTCTCC
TGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCG
GGATGGTCTCGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCACTAAATTATT
TCTAAGGTATTTTCCGTTTTGAAAATCCAATGGTGATAAAACATGAATTACAGCTAAAGATTAAAAGGCCTTCAAAGAGGTTTATAGTCCAACCACTACC
ACTCCCTTTATTTCATATTTCCAGAAAGATGACTATTTGTCCCATTTGAAAATTTTCCAGGAAAACATTTGATTTTCCCATTGTCATCTGCAYGCAAATT
TTAGTACAAAAAAATAGTTCTCAGATTTAACCCAAAATCCATGTCTATGTTTATACTGCTGCTAATCAATTCAGGACTTAAATATCTAATTATAAAATTT
CACAACCCTCATAATCTTGGGATGTAATTTTATTTTCAATGCAAGTATTAAAAGATATGGCCAACAAGGCATAAAAACATTTTCCCTGAAGTCGTATCAT
TGACTAAATCATGGAGCTTGTSTATTCAGCTTCTCTCTCAATATACATTTATAGCAGGACATGATTAGTTTTCACCTAAGAAAACTCTGCTTATTAAATT
ATATTTCATTCACCAGGACTCCTTATTTATCTCAGTAATATTTAATGGAAAAGTAAATAAAACACTATTACATAGATGYTTAGAGAGATGACAGTAATCT
TATTCTAAATTAAATAAAGAAAGGTTAAGTAAATATTACAATCTTTTAGTATGAACCTTAAAATAATAAATCTACCTCCTTATTTTTTATAGCTTATTCT
GGAAATATTTATCAATGTAATACTGAAACTAACTTATCATTAATTATTTTCTGTTTTTTTTTATTTTTCAAAAGCTTAAGTTACATTGTATGCTAGTTCC
CATTCAGATCTTAATATAATTACTAATTCATTTTTAACACATCCTGATTTTCCATTTCAATAATGCATTTTAATGCATAGCTATATATCCCCATTATAAA
ACTATGCAATAGGAAGTGCTGACATTACAACCTTGTATTATAATTTTTGAATTTGAGGACCTCCCTAGATACACATATCCACACACACACACAAAAGCAC
ACGCACACACACATTTTGTTTTCAAATATCTAAAACAAAGGCTCACTCTTAACCATAATAAACCAGAAACAAAAAAAGAAAATTGCTTTCAATAATGAGT
AACCTTATGTTTATATAAGGTAATTATTTATATAATCTCATTATCTATTTGAAAACAGACCTGTGGTGAAAAAAGCAATAGTTCATTTACATATTATGAC
AAAGTGGTTTAAATCTATATTTGAATTAAGGAAATTACTCAAAGCTAAAGTTTTTGTTTTCCCCTTGCAACTCTTTTTGTGTAGAAAAGTAAATAAGGAA
TCTTAAACAAGTACTATTAAATTTTGCTTAGCTTCATTTTAATGAGGAATGACTTCATCATTCCTATGGCCATGCTGAAAAATTAAACTTATCTCTGACT
CACAGAGAGTCTGTGCTGAGAAACATGAAAATCAATCTAATGACAGAAACAGAGCTATGACCTGTATCAGATGGACAAGAGAAAACCAACATTTCAAATA
AATCCTCAACAGAGTAACTTCCACTTTCATCGTTAAATTCGGTGTCTATATGTGGGTTGGAAATGTATCTGGGTGAACATTAGATTTAATACTCATTTTT
AAGACCCTGCTTCTGAAACCTGTCCTGGAATAGTTTCATGATAACTTGCTTATGCAGCAGCTTTGGCCTCTGGGTACCATGTTTCTGACAGGACAGGAGA
CTGCATACCAGAGGGAGAACATTCACAATCTCTTTGGAATCTGTTACTTGGAGGGGTCTGCCAGAGGCAAAGTCTTAAAGAAAGTGATGCTCATTCCCTG
TGTTTTTCCATTCTCCTTACCTAGTCCCTACCAGTCTGTCCTGCTAGAAGCTGGCTTCCCTAAAGCTAGATGTTCAGGCCTCAGTGTCGCTGGATTAAAT
CTTCATGCAGTGGACTTTTTCTTTTTTCATGTCCCCTTCCATAAATACTAAGAGACATTCTGTGCTGGAGGTAGAATCAACAGCAAAACACAACTGGCTG
CCAAAGTGCTGACAGACTATTGGGAGGAAGATAAACATTTATGAAACAGCCATACAGATAAACACAGAATTCTCCTACTGGGGACTGCCACCAAGGAGAC
ATTCATGGTGCTATGAAAGCACATGATAGGGGTATATGATCCAGTTCCAGGGTTCAGGGAAGGCCTCCCCAAAGAAATGACAATCAGGCTGACAGTCATG
ATGTAAGGGGCTCCCAATGAAAAGCAAATGCTGAGCTTGGGAACCTGAAAGAAGATCAGTGTGGCCACTGCCAAAAAGGAGGATTATGATAGGAAGCTGG
AAAAAGGAAGGCAGGTGTCAGACCTTGTGACTTTTTGGGGAAATGTTAAAGATTTATTCTAAGAGCCTTGGAGAACATTAATGAATATTACGTGGATAAT
GAATGAAATAATGAGGTTAGAGTTCAGAAAAAAGGTCCACTGTGGTAAACAGATAGGGTTTAGGGTTGAGGAGGGCAAAGTACAGCCAGCCTGCCTCCTT
CCTTCCCTCCACTATTACAAGGGGCAGCTGTGTCCTCCTTTGCTAGGACCCACATTTCACTCAGTAGAACTGCTCTTATAAATCACCTCTGTCCCTTTTT
CTTCCTTATTGGGGAAGAAGAAAAATGTCCATCCTAGGAATGAAAGCATATCCCAGATATTCAGAGACAAGGAGTCTTCAATTTTTCATCTGCAAAGCAT
GATTAATGGTGGGATGTTGGGCAGCTAAGGACTCTAAGATACCTTTGGGAATATGGGATCCTCTTTGAGCCTCTCAAATGATATTACATTAGGTCCTAGA
AGACCATGTG


SNP Information

Context             (SEQ ID NO:44301):
GCTGTAAATGTAATGAGTGTCGGAAAACATTTACTGGGAGCTCAAACCATATTGTCCACCAGAGGATCCACACTGGGGAGAAGCCCTCTGCCTGTAACGA
Y
TCTGGCAAAGCCTTTATGCAGATTGCAAATCTTATTGTACATCAGCGAAGCCATACTGGTGAGAAGCCATATGAGTGTGAGTTTGGGAAAACCTTTAGTT
Celera SNP ID:            hCV29337245
SNP Position Genomic:     6931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:44302):
CTTATTATGTACCAGATAATTCACACTGCAGAGAAACCTTATGACTGCAGTGAATGTGGGCAAGCCTTCAGTCAGCTCTCTTGCCTTTTTGTCCACCAGA
R
AATTCACAGTGGAGATCTTCCTTTTGTGTGTAATGAATGTGGGAAGGCCTTCACATGTAGCTCATACCTACTTATTCATCAGAGAATCCATAATGGAGAA
Celera SNP ID:            hCV25939531
SNP Position Genomic:     7143
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:44303):
AGGCAGAGAATAAGGAGGGAAAGGAAAGATTTCAGATAAGTCATAGTGAATGACTGTCACTTACCTGAAAGCTTCAAAGAAGAGGAAGACCAGAAATGTA
R
GAAATCTGTGGGAAAATACAGCCTTAATTCTGACACTGTTAACAATCCGAAAACCCAGCTTGGGCGAAAGTCTTTTACATTGTAGCATGTGTGGGAAAGG
Celera SNP ID:            hCV25935677
SNP Position Genomic:     6422
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,39|G,1)   total(A,72|G,2)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:44304):
CCACTACCACTCCCTTTATTTCATATTTCCAGAAAGATGACTATTTGTCCCATTTGAAAATTTTCCAGGAAAACATTTGATTTTCCCATTGTCATCTGCA
Y
GCAAATTTTAGTACAAAAAAATAGTTCTCAGATTTAACCCAAAATCCATGTCTATGTTTATACTGCTGCTAATCAATTCAGGACTTAAATATCTAATTAT
Celera SNP ID:            hCV1567451
SNP Position Genomic:     10793
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:44305):
TGTCGGAAAACATTTACTGGGAGCTCAAACCATATTGTCCACCAGAGGATCCACACTGGGGAGAAGCCCTCTGCCTGTAACGATTCTGGCAAAGCCTTTA
Y
GCAGATTGCAAATCTTATTGTACATCAGCGAAGCCATACTGGTGAGAAGCCATATGAGTGTGAGTTTGGGAAAACCTTTAGTTGTTTTTCACACCTTATT
Celera SNP ID:            hCV1567445
SNP Position Genomic:     6948
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,11)   caucasian(C,21|T,5)   total(C,40|T,16)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:44306):
AGAAAACTCTGCTTATTAAATTATATTTCATTCACCAGGACTCCTTATTTATCTCAGTAATATTTAATGGAAAAGTAAATAAAACACTATTACATAGATG
Y
TTAGAGAGATGACAGTAATCTTATTCTAAATTAAATAAAGAAAGGTTAAGTAAATATTACAATCTTTTAGTATGAACCTTAAAATAATAAATCTACCTCC
Celera SNP ID:            hCV1567453
SNP Position Genomic:     11179
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:44307):
TGATCCTTAAGGACCTGAGTTAAGAGAGGCTTGTGAAAAAGAAAACATGTTAAAGAGGCAGAGAATAAGGAGGGAAAGGAAAGATTTCAGATAAGTCATA
K
TGAATGACTGTCACTTACCTGAAAGCTTCAAAGAAGAGGAAGACCAGAAATGTAAGAAATCTGTGGGAAAATACAGCCTTAATTCTGACACTGTTAACAA
Celera SNP ID:            hCV25933827
SNP Position Genomic:     6367
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(G,29|T,1)   total(G,59|T,1)
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:44308):
CATGTATGTGTTTCTGATGGCATGACCCCACTGCCAATTCTCCAAAATTTCAAAAGTAAAATAAACAAACTTACAACTTTCTGCTTCAGATAAAGCAAAA
R
GACACTTTCATTTAGAACACAAAGAGAGAAAACTAATTTTTGAGTCAGAAAGTAAGCTCCCATTCACCATGGGAGCTTCGCATTGAGAGCAGTTCATGTA
Celera SNP ID:            hCV1567449
SNP Position Genomic:     9969
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:44309):
AAGCTGATCCTTAAGGACCTGAGTTAAGAGAGGCTTGTGAAAAAGAAAACATGTTAAAGAGGCAGAGAATAAGGAGGGAAAGGAAAGATTTCAGATAAGT
S
ATAGTGAATGACTGTCACTTACCTGAAAGCTTCAAAGAAGAGGAAGACCAGAAATGTAAGAAATCTGTGGGAAAATACAGCCTTAATTCTGACACTGTTA
Celera SNP ID:            hCV15957424
SNP Position Genomic:     6363
SNP Source:               Applera
Population(Allele,Count): african american(C,17|G,7)   caucasian(C,14|G,6)   total(C,31|G,13)
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:44310):
ATGTAATTTTATTTTCAATGCAAGTATTAAAAGATATGGCCAACAAGGCATAAAAACATTTTCCCTGAAGTCGTATCATTGACTAAATCATGGAGCTTGT
S
TATTCAGCTTCTCTCTCAATATACATTTATAGCAGGACATGATTAGTTTTCACCTAAGAAAACTCTGCTTATTAAATTATATTTCATTCACCAGGACTCC
Celera SNP ID:            hCV29337244
SNP Position Genomic:     11022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 hmCS


Gene Number:                 221
Celera Gene:                 hCG37451 - 93000022561656
Gene Symbol:                 TYRO3
Protein Name:                TYRO3 protein tyrosine kinase;BYK;RSE
Celera Genomic Axis:         GA_x5YUV32W323(8895928..8928274)
Chromosome:                  Chr15
OMIM number:                 600341
OMIM Information:            TYRO3 PROTEIN TYROSINE KINASE;TYRO3


Genomic Sequence (SEQ ID NO:12381):
GCATGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCGGGAGGCCGAGGTTGCAATGAGCTGAGATAGCACCACTGCACT
CCAGCCTGGGTGACAGAGCAAGACTCAGTCTTAAAAAAAAAAAAAAAAAAAGAAAAAGAAATATTCCATAATACAAAATAATATGACTGGGTGCAGTGGC
TCATGCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGCAGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGATGAAACCCTGTCTCTG
CTAAAAATACAAAAATTAGCTGGGCATGGTGGCATGAGCCTGTAATCCTAGCTACTCAGGAGGCTGAGTCAGGAGAATCGCTTGAGCCTGGGAGGCAGAG
GTTGCAGTGAGCTGAGATCGTGCCACTGCACTCGAGCCTGGACAACAGAGCGAGAGTCTGTCTCAATAAATAAATATGTACATACATACATACACATATA
AAATAAGAAAATAGAGCCAGAAAACCCTCACTGACCAGGCTGCAGTTAAAGAGGGTCAAATAGAGAAAGACAGCCAGCCAGATACAAGGCATTAACACAC
ATGCACATACAGGCACACACACAAGCATACATACATACACGCACATGCATACACACACATATACATACAGACGCACACACGCATACACACAGGCACACAC
ACATACACACACACATACACACGTGTCCATACACACACAAAACTCTTCCACAGCCATCTTTAGGTGAAATTTTGAAGATGAAAGTTTTTCTTCCATGTTT
GGACCCATCTGCCCTTTCAGAAACCGCAACCTTATTGCTCTACTGCTTCCTAAATCTGCTTTTGGAGGGAAATCTGATCATTTGAAATATTTCCTGTGAC
TGAAAGTCAAAGTGTGGTCTTCTTAGGAATTTACATTTCTGTGTCATCTTTGATGGGGCAAGAAGTTGCATTGTTTCTGGCTTAGGAATTTCAGGCAGTG
GGTGTTTGACAGGGACAGCAACAGTCCCCAGCACATGTGGAATTACACATATAGGTAATGTTTCTACCAGTCCCAGAGGTTTCTCTAAGGTGAGGAACAT
AGTCTGTGGCCTGCCCCATCCCCCCATCCCTTGAGTGGAACTTGCCCACTCTCACCTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAAGATCTCGCTC
TGTAACCCAGGCTGGAGTGCAGTGGCACCATCTCAGCTCACTGCAGCCTCCACCTCCCGGGCTCAAGTGATCCTCCCACTTCAGTGTCCCAAGTAGCTGG
GACTACAGGCATGCGCCACCACATCTGGCTAATTTTTGTATTTTTGGTAGAGACAGGGTTTCACCGTGTTGGCCAGGCCGGTCTTGAACTCCTGACCTCA
GGTGATCTTCCCGCCTCAGCCTCCCAAAGTGCTGTGATTATAGGTGGGAGCCATCACGCCTGGGCAACTCTTATCTCTTGAGACAGTAGTTGGGAAAGAA
CAGGTCTTTGGTTATATGACCAGTGAGACTGTCATGATCCTGCAGCTCACCATGGTTTCCTCTTGTTTCCCCCACTCTAGGGGTGGGGCAGAAGGCCTTA
ACTCTGAAAAAGCTGAAACAGCTGCTTCTTCAGAGTGCCGGAAGTTGGTAGCAGAGTGCCCTGCTTCTGTGGACAATGGTTTTTATCTCCAGGTTTGTCT
TCATCTTCTCTGGATCCTTGGCCTCCTTGAACAGTTCTGGGTCATAAAAGGCTGAGAGTGGGCAGAGAGTTATTTTACTAGATTAGTGAGATGCTGTGCC
CAACCTAGTCCCATCCATAATCAGGGGCTGCCGCTGGCCCTTCCTCTCACTCAGTCTTCCTCCACCCTTGCGGCCCCTTCTTACTCCTCTGGAATAGAGT
ATAGCTGCTTCTGGTTCTGTTCTAAGGACAGGAACTCCTGGGACAGCCACTCCCGCATTAGGTCAAAAACATTTCCTGTKGATTTTATTAGTTTCCTTCC
AAACAATGCATTTATGGAAGAAGAAGAGCTTTTGCAGGCATGCATTTGCACAGGCAGCCAACCTCCTCCAGTCACACACAGACACACACACACCTCCACA
CCCACACGCACACACTTTCTTCCCATCCGCCCACAAAGCATCAGTCACATTTAGAATTTGCACAAATGCACACCCTCCCTCATACATCACAATGCACACC
CTCTCATCCACCTACATGTCTCTTCCACAAAATCACACCTGCTCACATACCCTTAGAAGCACATTCCTGTACTGTGCCCAGAGAGAGAAAGGTGGGGGAG
ATAAGCAAGGAGAATGGGTTAGAAGGGCTCAGGAGGTCAAACCTCTGTAGGAGCTGAAAAGTCAGAAGACCAGGACCCCCCACTCCTCTCTGCCCTTTTT
TTTTCTTTCTTTCTTTTTTTTTTGAGATGGAGTCATGCTCTGTCGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCCGTCTCCCAG
GTTCAAGTGGTTCTCCTGCCTCAGCCTCCTCAGTAAGTAGCTGGGATTACAGGCAGCCGCCACCACATCCAGCTAATTTTTGTATTTTTAGTAGAGATGA
GGTTTCACCATGTTGGCCAGGCTGGTATCGAACTCCTGACCTCATGATCCGCCTGCCTAGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACTTGT
TCCCGGCCTCCTCTTTGGCCCTGTAAGTAGAAATACTACGGCTGGGCAAGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCGAAGGTTGCAGTGA
GCCGAGATCACGCCATTGCACTCCAGCCTGGGTGACAAAGCGGGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGAAATACTATGAATTGAGAGAGATTT
AGAATTAGGGGTAGGGGAAGCAGGAACTCAGGGCCCCCTGTCCCACACAGAAAGTGTGCTGCCTCTGTGACAGTGATGTATCTCAGGCTGGTGGCTGAGG
TGGGAAGTTTGTCAAGGCTGTAAGTGGCATCCATCACATGTCCGAGAAGCCCATTTTGACCAGTAGAAAAGGATGGCCTTTAGGGTGGGATTCCCTATCA
GCTCAGGAAATGGTGCGGAGGGAATGAAGAGAGATAAGGAAGTAAAAGGCTGGGTTGGGCTCTGGGTCCAACATCCTCTAGAATGAATCTTACTAATGTC
AGCTGGAATCAAGAGGAGGAGGCTCCCCTTCACTGGAAACTTGAAGTCCCCCTCAGAGAAAAGGCGGGAGAGAGGGCTTGGAAAAGTGACAAGTGCCCAA
GAGCAGCCCAGGCAATTCTGCCTTCGGCCCCAGACTATTGTCTGCCTGCCCTGACTCAGCCCAAACTCAGAAACTGTGGATTCTGGAAAGTAACGAGACT
TTTCCTTTGGGAAAGGGTCCTGAAGCTGACCCACAGTGCTCAAGAAAATTGGCAGAGAGGCCAGGCACAGTGGCTCACACCTGTAATCCCAGTATTTTGG
GATGCCGAGGTGGGCGGATTACCTAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTGTACTAATAATACAAAAATGAGCCGAA
CATGGTGGTGGGCACCTGTAATCCCAGCTACTCATGAGGCTGTGGCAGGAGAATCGCTTGAACCCATGAGGTGGAGGTTGCAGTCAGCCAAGATCGCACC
ATTGCACTCCAGCCTGGACGACAAGCGTGAAACTTCATCTAAAAAAAAAAAAGAAGAAGAAGAAGAAGAAAGAGAGGAAGAGGAAGAAGCAGAGAAGAAT
AGGAGGAGGAGGAGGGGAAGGGGAAGTGGAAGGGGAAGGGGAAGAGAGGGAGAGGAAGAAGAAGAAGAAGAAGAAAGAAGGAAGAAGAAGGAAGAAGGAA
GAAGAACATAATTGCCAGAGAGCTCAGTGAAACAGAGACAGAGGAGACGGAAGTGAGCCACACACTCTGTGTCCTCGCCTCACCAGGAAACTACTAAAGT
TCCTGGGGAAGCAAAGTAGAATTTCATAAGAACAAAATGGATGGAGAGGAGAAAACCTATGGTGGCTGTGAAGGCCCTGATGCCACGTATGTCAAATTGA
TATCATCTGATGGCCATGAATTTATTGTAAAAAGAGAACATGCATTAACATCAGGCACGATAAAAGCCATGTTGAGTGGCCCAGGCGTTTTATGGGTTTG
GCTTTTAAATTTAGGTCTTTGGTCTTAAGTTAATTTTTGTTTATGCTGTGAGGTCAGTTTGCTGAGAACGAAACCAATGAGGTCAATTTTAGAGAGATAC
CTTCACATGTGCTATCGAAAGTATGCATGTATTTTACCTACAAGGTTCGCTACACTAACAGCTCCATCGAGATTCCTGAATTCCCAATTGCACCTGAAAT
TGTACTAGAACTGCTGATGGCTGCGAACTTCCTAGATTGTTAAATAAAATAAATTATAATAAACTGTTAACTCTTTTCAGTATGTAATACCTGTAGATCA
GTTAGTAACTTTTTCATATATAGCATGTTGCCTGTATGCAGTTTAACTATATAAAGTTCATTGCAAAGCAGATTATCTTGTTTTTTTCATAGCAATCAAA
GTTGAAATTTGTTTGCTACATCAACAAATTAAGAACATTTTCACAAACTGAGAAATAAACAAATATGCCAATTAAAAAAAAAAAAAGAAAGAAACAGAGA
CAGAGATATCTGGCCCCTGCCATCCATGTCTTGACAGTGCCTCATGAGTCTCTCCTCCTGCTGCCGCCTGGGGGCGCCCCCAGCTGGGTCTCAGGCTGCT
GCCAGCACTGCTGTTGTTATCATTAGGGTAATTAATAAACAAGCACTGCTGGGGCCAAGTGGAAGAAGAGGCAGGCCCCTGCTGCTCAGGAGAATCCCTG
AAAAGATCCAGTGAGCCTGCGGCAACCGGAGCTGAGTGGCTGGTCCCTCCTCTCTACCCAGGACCTCTGGAAGGGGTGTGGGGTGGGCTTCCCCCTGGAG
GGAAGGGCAAGGGGAGGAGCACACTTGGTAGGCTTGGTTTGGAACCAGCTCTGCATGTGCCTAACAGGATGTCTGTGGGCAAGGCCACCCTCGTGATTAC
TGGTTGTGGGGCAGGCTCTGAAGCAATTATTCATTCATTTAACAGGCATCTGCCTATTTATTTATGGAAAGCCTACTGTGTGCAAGGTGGTCTACTAATA
ATAGCTAATGTTTGACTGGACAGTGTGACGACACAGCCAACTTTCACACCAGGTCCTGGGAAAAGGGGTAGAAGCAGGGGAAGCAACCAGGAAAAATGAC
AGCCCAAAAAGATACGGGCAATTAGGCTTTGGCCTGTGTAGTGTAGTGGTGGGGATATATATTAGGTAAAACCTGGGGATTACCAAGATCTTGGGAAACT
CAGGACCCAAGTTGGAAAACATACGGCAATTGGGGCTGGAGAAAATGGGCATTTTTCAGGTGGGAGGGACTTGGAGATAAAGGCATGGCAATAGGACATG
AATATGGGGATTTTGGGTGAATGGCTCAATGAAAGGGAGGCACGAAGGGATGCTAGCCGATCCTGTTGGGGGAGCCCCGGGTCACGGCAGTTTCGGGGAG
CCAGATGGATGGGAGTGTCTAGGGGTTGAGGTGCTCTAAGTCCTGAGAGGGGGATGCTGGATTCTGGGATCAGAGTCCGAACAAGAGTTGGGGTGTGGTG
GGGGCTGACAGCGGGGTTTTGAGGGAAGGCTCTGGAGGGCTGGGTTAGAAAAGATGCCGGAGCGGGTTTAGGGAAAGGAGGGGCGTGGCCGGGGAGCCCA
TCCTGGAGGCCAAGCCGGATCCTCAGGTTTGGCCAGGGGGCGGCTGGGGCCGGCGTGCCGGCGGGGCGCCGGCGGGGCCGCGGGGGTTTGCGGCGCTGGC
TGGGATTCGCGCTCCGAGCCAGTCGCCGGGGCTCCGCGGGGGGGCGGTGCGAGCTCGGGCTGCGGGCGGGCCGGGAGGAGGCGGCGGCTCCGAGAAGAAC
ATGAATCAGCGGCGGCGACGGCGGCGACGGCAGTGGAAGGAGCGCGGTGGCGCGGGAGCGGCCCCGGGGACCCCGCGCTGCTGACGGCGGCGACCGCGGC
CGGAGGCGGGCGCGGGTCTCGGAGGCGGTCGCCTCAGCACCGCCCCACGGGCGGCCCCAGCCCCTCCCGCAGCCCTCCTCCCTCCCGCTCCCTTCCCGCC
GCCTCCTCCCCGCCCTCCTCCCTCCTCGCTCGCGGGCCGGGCCCGGCATGGTGCGGCGTCGCCGCCGATGGCGCTGAGGCGGAGCATGGGGCGGCCGGGG
CTCCCGCCGCTGCCGCTGCCGCCGCCACCGCGGCTCGGGCTGCTGCTGGCGGCTCTGGCTTCTCTGCTGCTCCCGGAGTCCGCCGCCGCAGGTAGGGGCT
GGCACGGGAGGCGGCGGGAAGCGGGGGGCTGCGGAGGGGCGCGGCCGGGGGTCGGAGCCCGGGGCGGGCCTGGCGGGCTGGAGTCGGGGTGGGGGTCCGG
AGCCGAAGGCCGAGGCTCGGAGCCGGGACAGGGCACGCTGCGGAGTGCTCGCCGCCAGATCTCCGGCCGGGCCCCCACCCCCAACTTTCTGGCGCTCGGG
GCTCTTCTGGCGGGGTGGAAGAGAAGGGAGCGGGGTGTGGGCTGTGTGGTCAGCGGGGAGTGTTTGGGACTGCATTTTCCCGCCTCGATGTTCCCAGCTG
TTAGCTCCCTCCTTCCCAGTACTGGGGACCCCATTCTGCCTGCCCCGCACGCGAAGGTCCGCCTCGGAAACCACACGGGCCGGGGCTGGGCACCCAAAGG
CCACYCTGATACCATTTAGGTACACAGGGGCTGTGAGGGTGCCCAGTCACAAAAAACAAATGGGCACACTCGAGTTCCTGTGCCCTCAGAGCTTCCTGAA
AGCAGAACCTTGGAGAGGATGGGCTGGTGCCAGGTTGCTGGTCTTTGGGAGGGGTTAGTCTTGTGTTCCCACATAGCCACTGAGGCATTTGCTGGTGACA
AGAGCGTTCCATGCAGCACGGTGCTCTCCAAGTTCCCACCCCGCACCTCGGGGACTGATGGGCATATAGGGAGCGGGAGGCTGGCCCCCATCCTGTGACT
GGTCCTGAGAGGGTGAAGGGAGCAGGGAAGAGCCACAGGCCAGGACAGCGGCCACCCGCTGGCATCTTCTCTTGAGACAGCATTCCTTGCCATATCAGCC
TCTCAGGGAAGGGAAGGGAAACGGGGTGACGAGTATTTACAAGCCGAAAGGTGCGGACCTGATGCTCAGGGAGCCCACGACTTTGCCTAGAGTCACACAG
CAAAGGGTGAGAAGAAGCAGGGCTGGATTTCAGTTATGTGGATACTTGACCTGCCCCTCTCTCTGCTTAAAAACATGCCAGGAGGCCAGGAGAGGTGCGT
GTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGYGYGCGCGCGCGCGCGCTCGCACGCAAGTTCCAAAGAGTGGCCCCTGTTAATGTGGCAGTG
GCTCAGGGGTCTTAGGCTCCCTGCTCAGGGCCCCAGCCCTCCCTTCTGCCTCCCACCTTCCTAGCACTCGCCCCTGCCCACATTCAGGTATTAATAGAGT
GGATGGCTGCCAGGAAGGCTGCCATGTGTTTGATCTGACGTGGTTTTGCAGCCATATGTTCTCCACTTCAGGGGAGCACCCCCTCCTTTCCTTCTTCAGC
CCTGCTCCATTTGGTAAGGTTGGGTGCAGAGGGTGCTGGCAGCAATTCAGGGTCTGGGCTGACACCTTGGGTGGAGAGCTGGCAGCCTGTTGCACTAGTT
GGGTGCAGCAGTCATTCCTAGAGCAGTGCCTGCCCCAGTAGGGTAACTCCCATCGTTTCAGCCCAGCCTGCCTTCCTTTTGCTGTCTGGGCTCAGAAGGA
GGACATGGGGAAGAGGTGCTTAGAGCCGGAGGGAACTTGGAGAGCTTGCCATGCCCCTTCCCTTCGCCCAGGTCCAGCGACCTTCCCTTCCACACTGTCC
TACCTCTGCTTCCTTGACTTTGGCTGAGAAAGAGCCCTCTGTCTGACACAGAAGCTACCTTCTAGAAGAGAATGGGAACTGTTTACAGAGACAGAGTCCC
TCTCAAGGCTGACACATGTTCCTTCCCACCCCTCAGGTCTGAAGCTCATGGGAGCCCCGGTGAAGCTGACAGTGTCTCAGGGGCAGCCGGTGAAGCTCAA
CTGCAGTGTGGAGGGGATGGAGGAGCCTGACATCCAGTGGGTGAAGGATGGGGCTGTGGTCCAGAACTTGGACCAGTTGTACATCCCAGTCAGCGAGCAG
CACTGGATCGGCTTCCTCAGGTGCAGGCCTGTGGGGGAAGGTGTGGGCTGCCAGCCAGGGGGCAGGCTATGCTCTTTCCTTGGGGATTGGGAGCTGGGGC
CCTCTCCTGATGCCCAGAGGTCTGTGGTTTTTTTATTTGGCTACCTGTGGGACCTTCCAGAAGTGGGGGCAGGCTGAACTCATCAAGTTTGCCCAGCAGA
GCTGCCGCCCTTGCCCTCGGAAGCAAGCCTCGTATCCTGTTTCCACAGCCTGAAGTCAGTGGAGCGCTCTGACGCCGGCCGGTACTGGTGCCAGGTGGAG
GATGGGGGTGAAACCGAGATCTCCCAGCCAGTGTGGCTCACGGTAGAAGGTGAGGAGGCAGAGCCATATGGGCGTGTTGGCCTGGAGCACGTGCTGTCTG
CTGGTGACTATACCTCTGCAGCGGAGAACTCAGTAGAAGCTGGGCTGCCCCACTGCTCTGTGGGGCCTGGTTGTCCAGGCTGTAGGCCCACTCCAGATGT
CGGAAGACCCTACCAGTTGGAGTTGGGTATCTGAGAACCAAGGGACCAACTGGGATCCACAACCTGTGGGGTGCAGTCTGTTTCCGTTGCTTGAGCAACA
AGCTTCAAGCATCCATCTGGGACTGGACCCTGTTCTGCCAAGTGGCCTGGCCAGCAGGGGGAGGGGAGGAAGGCTCTGCAGCTGCGGGAGCTCAGAGCTG
TTCAGCCCAGGAAAACAAAGTGACTAAGAAAGTAACAAAGGGCCCTGAATGGGAGCTGGGGCCTGGCAGCAGAACTCTGCTAAAGCTCYCACCCACTCCC
CTGAGTTTTATGCCCCTCTCCCAGCTCTCCACCCCCAGTCTCCTCTCTTACTGCAAGAAGAGCTGTCCAAATCTGCCATGCCTAAGGGGGHAGCATGGAA
GATGTGTCTAAGGTGCCAGGCATGGTGGCGTGTGCCTGTAGTCCCAGCTACTCCGGAGGCTAAGGCCAGAGGATCACTTGAGCCCCCAGGAGTTCCAGGC
CAGCCTGGGCAACATAGAGAGACCTCCCCRCGACCAATCTCAAAAAAAAAAAAAAAAAAAAAAAAATTCCTAAGGAGCCTGAAAAAGAGAAGCACCGCCT
ACCTCTCAAGCTAGATGCCTGTTCTGCTGTTGACCTAATCATAAGGGGCCTGTGGGAACCTTCTGCGTGGAGGACTTCAGATGTAAACAGACTTGTGATT
TGTACAGTAGGAAGCCAAGAGGTGGCAGGGCTCACTCCTCACTCCCCTTCTCTCCTAGGTGTGCCATTTTTCACAGTGGAGCCAAAAGATCTGGCAGTGC
CACCCAATGCCCCTTTCCAACTGTCTTGTGAGGCTGTGGGTCCCCCTGAACCTGTTACCATTGTCTGGTGGAGAGGAACTACGAAGATCGGGGGACCYGC
TCCCTCTCCATCTGTTTTAAATGTAACAGGTGAGCAGCCTCAGAAGGGGGCTGGGAGTGGAGAAGGAGCTGGGTCCTGGAGGGCACTGAAGCTGGCAGTT
TCAGCCACTGAGCTTGCGGTTGTGAGYGTCCAGAGCAAGCCCCAGTGTCTGGGGACGTGAGCTGCACCATTACTAAGCTCATTAGTCAGGTGTGCTAGGC
TGGCTGGGTGGGCTGATTAGTGGTGATCCTGCTGTGTGTGCTTAAGGAGGGTGTGGGGCCACCTTTGGTTCACAGCAGTCCAGGCCATGCACAGCTGGCC
CTCAGAGATGAATTGTATGAGACCAGGGGCACCCATCCCCCACCCCTCCCAAGGAAAGGAGCCAGAAACCAGCCCACGCAGAACTAGGGAGGAGTATCTG
GCAGACACTGAGAAGACAAGACTCTCAGGCTGCAGAGAGGGGAGAGGAGGGAGAGAGAAGGGGTAGGGGGAGGTTAGCACAAAGATACAGGGCCTCCTCC
CCTAATGGCGCTTTCCGGGAAACCTCCACACGTTTTCTCAAACAACTGTGTCTGTCCATACCTCTGCACAGTCACACCTGCACACCCACCTGGGCCCCAA
GTTTCTTGGGCACATACCCTCACATGCTTGTAAGGCTTGCTTATTTGTGAAACAAAGGCTTGCTTATTTGTTTCTGGTTGAGGCTTGAATTGGGCAAAAA
AGATGGGAGTCTGAGCTTGGTCTCATGTGCTGGAAGGTGCCAGGGAAATGGGCGCTGAGCTAGGTTCTCCAGCAATTTGAATCTTGACAAGAGGTGGACT
ATGAGACCTCTTGGAAGCAAGTGCAGGTCCTGTTCAGGAGGYGCTGAGKTGGAGCAGATTAGAGAGGAGGTTGGGTTCACTTCCTTCCAGGTGTGCGTGG
TTGGGACCCTCAGGCAGGCAGCCTGATAATAAGCACTCACTGAACTCCTACTCCACACYACACTGTGCTAGGCACCACAGGGGACAGAGGGAATACAAAG
GAAATAGAAGCTAAAGAACTGAGTATAACTGGGGAGACAAGACAYGTGCATAAAGAGCTGAGAACTACTGCAAGGCAGAGAGTCTGCAAATAACAACCCC
AAGGGGGCACAGAGCMAACAGAAGGGCTCACTCTGGTATGCGCAATAAAAGAGTGACCAGAAAAGGGGGGCAATTTGTGCTGTGTGTGGGAGATGGGATG
GAGGTGGGAGGGTGGTATAACGTTTCTCAAGGGCTTATTTAGCATGCCGTGCACTTGACACACATTACCTGATTCTCACAATTCTCCCATTTGAGAGATG
AGAAAACAGAGCCCTCTCCAGGCTCACCAGACTCTAGTGTCCCTGTTCATTTCACCGTACCTCACTGCCCAGCCCCTTCCTTTGGCAGGAGGGATTTAAG
GATGTTCAGACCAGAGCCTGAGTATTCCCCTTTCCCAGTCCCGCACTGAGTGGGGTTGCTGCTTGGGGAGCTGACTGAGGTTTTCTGGMCCCAGGGGTGA
CCCAGAGCACCATGTTTTCCTGTGAAGCTCACAACCTAAAAGGCCTGGCCTCTTCTCGCACAGCCACTGTTCACCTTCAAGGTAGGAGGGCTGGCAGGGA
GGAAGGGTGGATGAGGCCAGGGGCATTCCCAGCGAGCTGTCCAGCAGTTAGAAYCRTTCTGTGTTCCAGCTCCCCTTGTGGTCCTGCTGGGATCTAGGGA
GCAAGGGGTTAATTGGCATAGCTCCCATTCCTAGTGGGAGCACCTGAGACCCTGCGTGGCTGAGATGAGAATAGAATCCTGACGTCACAGCAGATTTCCC
ATCACGAAGCAGAGTCCTTGGGAGGGAGGGAAGGAGGGAGGGAGGCAGCAGGAGATGGTCAAGGCCCATGCCCAGCCTTGTTTCTGCCCCTCCCTTTGAG
GGGATGGGGGTGGGGAAAACAGCCTAGTACCGGATGGAGGAGACCAGAGGGCTGGTGTACAGAGAGAGGGGGAGGGAGAGGGTGTCTGCAGGAGCCAGGC
TGTGGCTGCAGGGGCAGCTGCCTGTCTCTCCCTTGTATCTCCCAAGCCTGAGGTGCTGCCCCCACATACCCTCTCATCTTATTCCTCAGTTACACAGGGC
CTTCGTGGCAGGGAGAGGCAACCTCTCTCCACAGCCCAGGCACTCTCCCAGGTGTGAGCAGCTGTGCCCTACTGGTTGCTTATTTGTGTACTRCTGTGAT
CCTGGGAGTGCTGAGTAGCCGTCTTTAGGTTGGGGATGCCCTGGACCCTCAGAGAGACTCAAGGCTTGACTCCCATGCCTCCTGCTGCCTCTGCTCATAT
CCCTACTGGGCACTGATTCTGAGTCCCCRTCCACAGCACTGCCTGCAGCCCCCTTCAACATCACCGTGACAAAGCTTTCCAGCAGCAACGCTAGTGTGGC
CTGGATGCCAGGTGCYGATGGCCGAGCTCTGCTACAGTCCTGTACAGTTCAGGTAGGCTCTCCGGGCCGGGCCATGCTCGTTCTGGCTGCATGGCCAGCA
CTTTGTTGACAGGGATATCACACTCACTAGCCAGCTCCTGGGGGCTTGGTCTGCAGCTCTTTTCAGGCTCTGCTCCTTAGCAGGAAGAACACAGGCCACT
GTCTCTTATCATGGGGTGCTCTGGCAACTAAGTGACTTTGCAGATTGGCTCAAACTCATGCATTCATAAGGTTGGAAAGCAGATCACTAGAACAGATTTG
GGGTACCTGGAAGGTTTTTCTTTCTTTCTTTTTTTTTTTGAGACAGGGTCTCACTGTTGGCCAGGCTGGAGTGCAGTGGTGCCATCTCGGCTCACTGCAA
CCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCCAGCAGCTAGGATTAGGATTACAGTCATGCACCACCACGCCCAGCTAACTTTTTTT
TTTTTTTTTTGTATTTTTAGTAGAGACTAGTAGTTCACCATATTAGCCAGCCTGATCTCAAACTCCTGACTTCAAGTGATCTACCTGCCTCAGCCTCCCA
AAGTGCTGGTATTACAGGCATGAACCAGCACACCCAGACGAGTTTTTCTTACTTAGGTGAAAGCTCAAACCTTTGCTGATACTCACCCTATCATGCTCCA
CCTTACCCCCCAACCCCCACTCAAGCCAAAGAGAACAAGATGACCAGAAGGGGCCCTAAGCCTTGGAGAGTGGAAAAACTGTGTAAGGTGATACTAAAAA
CAAGAGGCAATGCAGGCTTGCTCATTTTCATCCGTTTACTCAAAGGCCATTTAATGAGTACCTTTCAAAACTGTTCTGGGCAGTTCCCCTGGGCAGGAGG
GGCCCCTGCTCTGGGCTCCACCATTTAGAGAACCCTACTGAGGTTGGGCACAGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGTGGAGACGGGAGG
ATTGCTTGAGCCTGGGGGTTCAAGACCAGCCTGGGCAACATGGCAAAACCCTTTCTCTACAAAAAATACAAAAATTATCCAGGCACAGTGGCATGCGCCT
GTACTTCTAACTATTCAGGAGGCTAGAGTGGGAGGATGACTTGAGCCTGAGAAGTCAAGCCTGCGGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGA
GTGAGTGACAGGGCAAGATCCTGTCTCTATTAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGGATCCTACTCTGGCCCTCCTTTGGCCACACCCCTTTCCC
CGGGGCAAAGAGCCTACAGGGCCAAGAGGATATGCCCATCCAGATGGCAAGGACCCCCTCACTGCCACACTATACTATAGCTATTCAGGATCTCTTGCCC
TAATGGTTCTGAGTCTGCTTCTGGGGTCTGTGTGGGCCTTTTCCCTGTTCCATCTTCCCAAGGATGGACCGCAGTGTGATATGACCACCTCTAAGCCCAA
GGGGCAGCCATTCGTGAGGGGGATGGGAATGGAGCTTGGATATGCAGTCAGCATTGTCCACGCCTGTGCACATGAGGCCCCTCATGGTGCAGACCTTGGC
TTCAGGCCAGCTCTTCCAGTGCCTCCTCATTCTGACTCGGGACTCCAGGGATTTGGAGAGTTACAAATGCAAACCTGATCTCCCAGGTTGTTTTGAAGGT
TTATTGGTCAAAATATTAAGAGAGAAACTATTTAATAGTTTGTTAGCTGATTTATAATGTTTAAATATTTAGACATATAGTACGTGGATCTCTTTGTACT
CTTGCCCTGGGCCCCCAAAATGTAAGATGAAGGGCTGGTTCATAGTGCCCTAGGCTCCCAGTTTTCTCTGAGCTTCAGAAGCTCTAGAACTTTGGAGTGG
CATGTAAACAGGCACAGTAAGTGGTAAGTATACCCTAAGAGTTTCGTACCAAGTACAAAAGGACAAGAGTTTTCTGGAGTGGTTGAGAAAGGCTTTCACC
AAGAAAGTGATATTTGCACTGAGTCTTAAAGGATGAGTAGGCCTTTGCTAGGAAGAGCAGGTCATTCCAAGTGAAAGGAACAGCATTTGCAAAGGTATGA
AGATGTGGAACCCTGTGTATTATTGGGGTGGGGGCAGATGGGAGGGCGTGGGTTGCAAGTGTTTGCTGATAGAGGAAGCAYTCATTCAAGCACCCATAAC
TATACCCATYCCATCTTCCATCTCTCACAGGCTCTCCCCTACATCATTAGTTTTCTGCTTTTCTGTAGGTGACACAGGCCCCAGGAGGCTGGGAAGTCCT
GGCTGTTGTGGTCCCTGTGCCCCCCTTTACCTGCCTGCTCCGGGACCTGGTGCCTGCCACCAACTACAGCCTCAGGGTGCGCTGTGCCAATGCCTTGGGG
CCCTCTCCCTATGCTGACTGGGTGCCCTTTCAGACCAAGGGTCTAGGTAAGGGATGCATAGAGCAGAGCGGGTGGGCAGGGCTGGAGCCGGGAAGGGGGC
CGTGTTGGCTGGAGTTCTGAATGGTGCTGGTAGAGATGGAGGTTCAGGCATCATTCGGCAAACATTTACTGCATATAACTACATACCACCTTGTAAGTAG
TTCTTGTAGGTGGAACAGATAAGCAAACTGGAAAAGATCAGATAATGTGGTTGATAAAGAGTGTCCCCAGGTGGTTAAGGAAACCCCCCCTAAAAAGGTC
TGAAGGATAAAGATCTGAAGGATCTGGGATCTGAACGATAAAGAAGAAGCCATGTAAATATCTGGGGGAAAATCACTGCCGGARGAAGGCACAGCAAGTG
CAAAGACCCTATGACAGGAACTTGCTTGGCAATTGCAAAGAGGCTGGCATAGCTGTGAGAGGGGAGTGGTAAGGGGTGAGGCAGAAAGGCAGTAACCATG
GTGATGAAGAGCAACACTGCCGAGCTGGGGTGCTGCCTGTCCTGCCCATTGCTTACCCCTCCCCCAGCACAGTGGGTGAGAGCAGTCAGAGCTGGGAGGT
GAACCCTTCCCCAGTTTGTGCCTCTCAGAGCTGTTTAGTTCTTGGGAGTTGATTCCAAAGGTCTGCATGGAATTATGATGGTGGGAAGGGCAGGGGTCTT
AGCAATCTTCTCTCTTTGGCTRCAGCCCCAGCCAGCGCTCCCCAAAACCTCCATGCCATCCGCACAGATTCAGGCCTCATCTTGGAGTGGGAAGAAGTGA
WCCCCGAGGCCCCTTTGGAAGGCCCCCTGGGACCCTACAAACTGTCCTGGGTTCAAGACAATGGAACCCAGGTAAGACAGAACCCTCCCCTCTCTCCACT
CTCCTGGAGTATAAGCCTTCAGGGTTCTAAGGCCTTTAAGAATTTCAAAATGATTGTCTTTGGTGGGCCTGGGTCTCCCGCAGCCCCAGGGAATCCTTTC
CTCCTCACSCTCCTCTGCAAGCTCCACTTCTCAAAGGATTATGTCTCCTGTTAGGGTTGCATCCTGTGTGCACTTTGTAAATAAAGCAGGAAGCACATTC
CTGCTTGAGCTGGGGGAGGGCACAGATAAGGCTTTGTCCCCAGCTCAGTTCGCTCCCATCCCCCACCTGTGCATTCCGGGACTGAGCCTTGTTTGTGTTC
TGGAGAGGCCCCTGCAGCCGGGAACAGGAATGTGATTACTCCCAGAAGGTTGTGTTCCTGCAGCCCCTGAACCCACAGTGCCCCTATACTCCCATGTTCC
CAGCTGGACCTTTTTCTGTCCTCAGGCCCCAGCTGGAGGCCTTCTCCCCAGGCTCACTATGGGGTGGGGGCTTTTCCTGGCTGCAGGATGAGCTGACAGT
GGAGGGGACCAGGGCCAATTTGACAGGCTGGGATCCCCAAAAGGACCTGATCGTACGTGTGTGCGTCTCCAATGCAGTTGGCTGTGGACCCTGGAGTCAG
CCACTGGTGGTCTCTTCTCATGACCGTGCAGGTGAGGCTTGTAGGTGGAGAGGGGCAGAGGCTCAGGGGATCAAGGTTTTCAAGGGCAACCTAGACTGAT
GGGAGGAGCCTAGTAGCATCTCCCCTCCTAGTAGACCCACAGACAGAGTGAAGAAGTTGAGGCCAGGGCTGTTTAAACTATCTTGGCTGGGCATGGTGGC
TCATGCCTGTAATCCCAACATTTTGGGAGGTTGAGGGATCGCTTGAGGCCGGCAGTTTGAGACCAGCTCTGGCAACATAGCAAGACTCTGTCTCTACAAA
AAAATTAAAAAAAAAAAAAAAAACAATTAGCCTGGTGTAGTGACATATGCCTGTTAAGCCCAGCTGCTCCAGAGGCTGAGGCAGGAGGATTGCTTGAGCC
CAGGTGTTTGAGGCTGCAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGTGAGTCTGTTGTCTCTAAAGAAACAAACAAATAAGGCC
AGGAGTGGTGGTTCACACCTATAATCCCACAACTTTGGGAGGCTGAGGTGGAAGGATTGCTTGAGTCTAGGAGTTTGAGACCACCTTGGGCAGCAAAGTG
AGACTTTACCAAAAAAATTTAAAAATTAGTCAGGTGTGATGTTGCACACCTGTAGTCCCAGCTACTTGGGAGGCTGAAGTGGAAGGATTGCTTGAGCCCA
GGAGGTTGAGGCTGCAGTGAGCTGCAACTGTGCCCCTGCACTCTGGCCTGGGCAACAGAACAAGACTGTGTCTCAAACAAACTATATCTCATTCTCCTCT
CTCTGCCCCAGAACTGGCATAGAAATCCATGGTCACCCTCTAGGTCACAACAGCCAGGGCCTGTCTCTGACCAGGTAGGAAGGACTCTTAGGCATTCCTC
TGGAGCCCCTTTCCCTCAGGACCCTTATTGACCTAGAGGAGCCCCTTGAACCAGCTGGATGGCCATCCTGGGAAAGTTCTGAAGGGACCTCATGGTGTCA
TCCTAGCTCATGCCACTGCACCTCCCTCCCACAGGCCAGCAGGGCCCTCCTCACAGCCGCACATCCTGGGTACCTGTGGTCCTTGGTGTGCTAACGGCCC
TGGTGACGGCTGCTGCCCTGGCCCTCATCCTGCTTCGAAAGAGACGGAAAGAGACRCGGTTTGGGTAAGGGGATGGGGATGTGGAGGGAGAGGCAGGTAA
TGATGAAAGACCTTGGAGCTGACCCCAAATCCTGGGTTTTCCTTTAGGCAAGCCTTTGACAGTGTCATGGCCCGGGGAGAGCCAGCCGTTCACTTCCGGG
CAGCCCGGTCCTTCAATCGAGAAAGGCCCGAGCGCATCGAGGCCACATGTGAGTGGTGGGTGATCGTGGGAAGGACAAATGGGCTGTCTTGTGCCCCATC
TGCATTCTTTTACCAAATTATTAATTTGACTGATATGTCTGAACATCAGTGAGCCCCAGGCACACAAATCTGCCTGTGTGGAGTTCACCACCCCAGCCRT
GGGAGACCTAAGCTCATCTCTATGCTCTGAGGGCAGAGTCTGGGGTATAAGAGGCTGGGTTTTGGCTCAGGAATCAGAGATCCCTCTTTCCCACAAACCC
TTTCCCCACAGTGGACAGCTTGGGCATCAGCGATGAACTAAAGGAAAAACTGGAGGATGTGCTCATCCCAGAGCAGCAGTTCACCCTGGGCCGGATGTTG
GGCAAAGGTATGTGAGGCTGTGTGGGGATGGGCATGGCTGGTTTGCTGTAGCTGGAAGTGTTTGGTTGCCCCTGTCACTTTGAGGCTGTGGGTTTGGGTC
GGTTGCCGTAAACAAGATATGCTTGTAGACTCCTGAGTGTGGGATGTTTGTGGGGAATGGTGGCTGGAGACAGGGAGGGCTGAGGAGCTGCTCCCAGCAT
GCTCTTGCTTTGGCTACTGGCAAGGGTGCCTTCTCCACTGGCCCCAGAGTCTGCTGACTGTGTTCCCATGGAGGGTCACTTGGGAGGAAGRTTGGCAGGG
ARCAGAGAGCCAAGGAGACTCTCCCTTACTTGGATTGGTTCCTAGGAGAGTTTGGTTCAGTGCGGGAGGCCCAGCTGAAGCAAGAGGATGGCTCCTTTGK
GAAAGTGGCTGTGAAGATGCTGAAAGGTGAGTGGGGGATAGCTGTAGCCTGAGGGCATCACTTGGAAGGGTAAGAGGGGCGACTGACCCTGAAGCAGGCT
CTGCTTTGCCCCTAGATTTTCCAAGAAGAGCTGGGCAGCACTAACTGGGATGCTCTTTACCACACGAATAATTCACAAGCATAAACCCAAACATACATAT
TCATGCCCAGCCATTGCTCTCTGCCATCGGCAGTGACTGTCCTCTGAGTCCCCTCTTGGGTGATTACAGCTGTGGTTGGTTGACCTGCTGGGCTGCCCAA
ACCAAAGGGAAGGGAAGGCATTAGCAAGTGGAGAAGTTGCTAAGTATCACCACTCCTTGGGGGTTTCTCCTGCTCATGGCTGGGCTGTTTCCTGGGCTCC
CTGGGAAGCCTAGGACATCTGAAGGACAAGACCTAGGAGGCCTGGGTCAAAACTAGGGGCACATCTTGTTTTATTTCCTCCTTCCCCATCCCCTTCTCCT
AGCTGACATCATTGCCTCAAGCGACATTGAAGAGTTCCTCAGGGAAGCAGCTTGCATGAAGGAGTTTGACCATCCACACGTGGCCAAACTTGTTGGTGAG
CCCATTTTTGGGGGAGGCAGATAGAGAATAGGGCTAAAAATATGCTCTACCAATATGAGATGGCAGCCTATAGGAGAGACTTTTGGACTCATCTGGTAAA
TAAATAGATGGCAAAATAGCAAGGAGGGTCCTGGCAGAAATCTGAGGTGAGGAGTGCCAAAGGTCTGCACATGAAGACTGTGTGGCTGGATGTGGTGGCT
CATGCCTATAACCTCAGCACTTTGGGAGGCTGAGGTGGGAGAATTGCTTGAGGCCAGGGGTTTGAGACTAGCCTGGGCAGTATAGCAACAGCCCACCTCT
ATTTAAAAAAAAAAAACAAAACAAAAAACATACACACACACACACGTATACAAAAATTAGCTAGGTGTGGTGGTGTGCACCTTTGTCCAGCTACCCGGGA
GGCTGAGGTGGGAGGATCATTTGAGCCCAGAACATTGAGGCTGCAGTGAGCTGTGATTGCGCCACTGCACTCCAGCCTAGATGACAGAGCAAGATACTGT
TTCAGAAAAAACAAAGACTGCTTGTGTGGACAGAGAAGGAAAGGAAGGGGACAGAAGATGCTCCAGGGATATGGGAGCAGCCAGAGTCCCTCCTGGGTAG
TCCCCAGACCAGTGTGGAGCCTGTGAAAAAATAAAAAATAAATAGCAGAGCCAGAGCTAGAGATGGGACCCAGCAGGTGGGGACTTATGCAGACACCTGA
ACTGCCCCTTGACCCTTCTATGCTCAGCTCCTGACTCTCCCTTGTCCCAGGGGTAAGCCTCCGGAGCAGGGCTAAAGGCCGTCTCCCCATCCCCATGGTC
ATCTTGCCCTTCATGAAGCATGGGGACCTGCATGCCTTCCTGCTCGCCTCCCGGATTGGGGAGAACCCCTTTGTGAGTACCTGSTGTGGGGGTGGCCAGG
AGGAAACGGGTGGGAACACAGGGCCTGGAAAGGCATAGAGACCCTGGCAGAGAGGGGCTTGCTGGGTAGGGCTGATGGAGCTGGGTGGGAGTAGGAGGGG
TCTGAGTTTGAATCCTTTTAATCTAGCAGGCTTTCTTTTCTCTCACAAAACCCTGCTGAGAAATATAGGCTGGGCAAGGGCCCTTTCTAGAGGGAGGGAC
TTGTGGAGCCCCAGGGTGGGGGAGTCTCGTCTTCCAGGCTCCCTCTTAGGCTAGCCGAAGCTTCCTTGCCTTGGGAAGGCCCTCCATCCCCTTCCTTCCT
TCCAGTGATTCTGGGGACAGCCTTCAGGCTTTCTGGCCAGGGACCCCCATCCATCCTGCCCCAGCTGGGTGGGCAGGTTAAGCCTGAGCTTGGCCTGTCT
GTCCACTAGAACCTACCCCTCCAGACCCTGATCCGGTTCATGGTGGACATTGCCTGCGGCATGGAGTACCTGAGCTCTCGGAACTTCATCCACCGAGACC
TGGCTGCTCGGAATTGCATGTACGAATTCTGGAGGACTCGAGGGTGGGAGACAGCAGCAGGTGCCAAGAGGAGCTAGCTGATGGTCGGCTCCTGCCTGGG
ACAGTATCTGCTATGYATGGGGGTAGCTTGGGAGCAAAGATGCAAAGATGTCCTGGCTCTTGTGGGCCTGTGAGCATGGCAGAAGGCTGACTCTCTCYCT
CAATGCCCCTTGTAGGCTGGCAGAGGACATGACAGTGTGTGTGGCTGACTTCGGACTCTCCCGGAAGATCTACAGTGGGGACTACTATCGTCAAGGCTGT
GCCTCCAAACTGCCTGTCAAGTGGCTGGCCCTGGAGAGCCTGGCCGACAACCTGTATACTGTGCAGAGTGACGTGGTGAGCAGGGTGGCCCGTGAAGCTT
GGTGGGGACGAGTGTGAGAGCAGACCTTTAGGATCCTTAAGGGCCTAGCCAAGTCTGCTCTCTGGGGTTTGGTTGCCCCCTGATGAGGCCCTGAGCCCCA
GGTTGTGCTTGTCTCAGAGCCATGGCTCTCTGCCTGGCTCAGGACACCTAGTGAYAGCTTCTCCCCCAACCTCGATTCTGTCCCAGTGGGCGTTCGGGGT
GACCATGTGGGAGATCATGACACGTGGGCAGACGCCATATGCTGGCATCGAAAACGCTGAGATTTACAACTACCTCATTGGCGGGAACCGCCTGAAACAG
CCTCCGGAGTGTATGGAGGACGTGTGAGTATCCTGGGAAGGGGGCTCTGGAAGGAAAGGGGAATCTGGAGTTTTGGCTGATGGCTGCCACCACAGTTGCC
TCAACTGGACCTTTGTTTTTTGATAGAAACATCCTTGTAGTTGGAAGGCTGCACTCCACCTCATACTCACTGTTCATCTACCACCTCCCTGTTTTCTTTC
TTTCCCCCTTTCCCATCCCAGATTTCTTGCTTTAGCCTTTGTCTATCAGTCTCTTTTCTCCAGTTTGTAAGGAGAACCAGGAACCCCAAGAGCAGAAGGC
ACAGTGCTGAGTAACAGTGTGGGAGGTTTCCCTGCCATCTTCCCACCCGTCATTCCTTTTCTTTTTTTAATTTGTATTTATTTTATTTTATTTGTTCTAC
CCTAGTGAATACAACCTTTGTCCTGGAGACMCCAGCTAGTCTAAGAAAACTTCCTAGGCTGAGCTCTCTTGGGAATCTAAGATAAAGAACTGAGATCCTG
GGAAGAAGGGAACTGCCTCCTCTTCTTTCTGCAAGCCCAAAGCCCTCGGGACTGGGCAGGCAATGATACCACCCACTTTGCTACAGTGATAACAGACCCT
GTGACAAGATAATGGGAAGTGTCACTGACATTAGCTGGGCATTTAGGCATTCTTTCAGGTAATCTTCCTCTGACCTTATGAGGAAAAGACTATTATTTAT
CCCCACTTTGTAGATGAGAAAATAGGATTAGAGAGATTAAGTAACATGGCCAACGTCACAGAGCTAGTAAGTGAATAAGTTGGAATTTGAACCTAGATCC
CTGTAGTTTTAGAATATATACTCTTAACTCTTTATGACAACAACTGTGATTTGTCTGTTCTAGTCTTACACTCCCACTCCATCCAAGCCAAGGGCTCCCT
AGGCCTTCAGACAACCTTTTGTGAGTATTTTTTGTTTTGTTTTTTGAGACAGGGTCTCGCTTTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCTGCT
TACTGCAGCCTCRACCTCCTGGGCTCAAGTGATCCTCCCTCCCCAGCCTTCCAAGTAGCTGGGACTACAGGCACGTGCCACCACACTCRGCTAATTTTTG
TATTTTTGTAGAGACAGGGCTCCGCCATATTTGTCAAGCTGGTCTTGCGCTCCTGGGCTCAAGGGATCCATCTGCCTTGGCCTCCCAAAATGCTGGGATT
ACAGGTGTGAGCCACCACGCCCAGCCCAGAGGACCTTTCATGAGCCCCAGGGGGAGTGGGAGCCACTGTGACCAGAGAAAGAATCTGCTCCATTTCTTGC
TCTGGGATTGGACTTCCAGAGGGCCGAGGTCATGGACAGGCACAGGAAGGCTCAGCCTGATGGTGGGGTCCTTCCCTTGGACAGTGGGTTTGAAGTGCCC
TGAGCCTGGGCTGTGGGTAACTCACCTACACCTGAGAGGGAAATCTTGAGTASACAAGCCAGGCCCTGGCCCTCCTGTTCATTCAGCAGAGCTCAGGGCA
TGGCAAGGGGCAGGAAGCTCACATCTCCCTGTGGCTGCAGCCTGCTTCAGTTCTAATCTGGCGCTGTAGAAGCTCTGAAGGGCAGTGGGGACCAGACCCC
AGCGCAGCCTCCTCCCCAGCTGGAGCTGGTGCTGTCAATGGAGAGTGGGCAGGCACTGGCCTCACCCAGGCAGCCTGGTGGACAGGCGCCAGTTGGCTCC
TAGCACAGCCTTGAGGACGTGTCCCAGTCTGGCCATGTACCCACGGCCCCAGACCATTCCCATTCCCACGACCTGTTCAGTGTCTGGCATGWTTACTGCC
ATTACTGGTGGCCCCTGCTGGGGGTGTGCTGGTGTGTGAGGCAGTGCTTGGGGCTCTTGTCATGGGCATAGGCAAGAGAGTCAGGCATTTGCATTCATTG
GACTTGGTCTCAGCGTCTTTCCATTAGGTTTTTGGTTTGTTATTTTTCCACCTGAGCCTGAGGCATTCCTTGGGCATCCTGAGTGATAGGCTTCAGGGAA
TTTATAAGGTTCCTGAAATTGTATGTAAAAAAGCATTCCTGGCAGGGGACGGTGGCTCACGCCCGTAATCCCAGCGCTTTGGGAGGCGGATCTCCTGAGG
TCGGGAGTTCCAGACCAGCCTGACCAACATAGAGAAACCCCGCCTCTATTAAAAATACAAAATTAGCTGGGCGTGGTGGCGCATGCCTGTAATGCCAGCT
ACTTGGGAAGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTCTGGTGACCCGAGATCACACCATTGCACTCCAGCCTGGGCAACAAGAGCA
AAACTCCATCTCAAAAAAAAAAAAAAAAAAAAATTAATTCCTGTTGGCAGGAGAGCTGGAAGCTTTTTCCAGATACTCAAAAGTTATATATGAATAGTGA
GGACTTTTTCTTTTTTTTGAAATGGAGTTTTGCTCTTGTCGCCCAGGCTGGAGTGCAATGGCACAATCTTGGCTCACCACAACTTCCACCTCCTGGATTC
AAGCGATTCTCGTGCCTCAGTCTCCTGAGTAGCTGGGATTACAGGCATGCACCACCCTGCCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCC
ATGTTGATCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGGGCTGGGATGACAGGTGTGTGCCACCTTGCCCAACC
AATTTTTGTATTTTTTAGTAGACACGGGGTTTCATCATGTTGGCCAGGCTGGACTCGAACTCCTGACCTCAAGTGATCCACCTGCTTCGGCCTCCCAAAG
TGCTGGGATTACAGGCATGAGCTACTGCACCTGGCCTGATTCAGTAGGTTTCCTTTTTTTTTTTTTTTTTTTTTTTTAAAAAAAAAAAAGAGAAAGGGCC
TCGCTCTGACAGCCAGGCTGGAGTGCAGTAATGCAATCACAGCTCACTGTAGCATCAAACCCCTGGGTTCAAGAGATCTTCTGCCCAGCCTCCCTAGTAG
CTGGGATTACAGGTACTTACCACCATACCTTGCTTATTAATTTTTTTTTTAATAGAGACATGGTCTCGCTATGTTGTCCAGACTAGTCTCGAACTCCTGG
GGTCARAGGATCTTTTAGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCATACCACTGTGTCCGGCTGCACGGTGAGGAATTACTGAGTAGGTACTG
CCCACTCAGCACAGGAGGGACTTCGGAGTCAACCCCCTCGCTTCAAATCACAGCTCTGTCACTTTCCACGTGTGTGACTTTAGTCACGGTTCTTAACCTC
TTTGTGCATGTTTCCACATTTGTAAATGTGGAAATGATTTCTATTTGATCATTGCTTTCATAGGGTTGTTGTGAGAAATAATAAGCTAGGATGTGCCTGT
AATCCCAGCTACTCAGGAAGCTGTGGTGGGAGGATCACTAGAGGCCAGGAGTTTGAGACCAGCCTGAGCAACATAGCAAGACCCTGTCTCTACAAAATAT
TTTTTATTTATTTAATTTAATTAATTTATTTGTTTGTTTATTTATTTTGAGACGGAATTTCACTCTTGTTGCCCAGGCTGGAGTTCAATTGTGCAATCTC
GGCTCACCGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGAATGTGCCACCATGCTGGGCTAATT
TTTTTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTTGGCCTCCCAAGGT
GATCCCACCTCAGCCTTCCGAGTAGCTGGGACTACAGGCGTGTCTACCAAGCCTGGCTAATTTTTGTATTATTATAGAGACAGGGTTTTGCCATATTGCC
CAGGCTGGTCTCGAACTCCTGGGCTCAAATAATACCCCCCTTCGGCCTCCCAAAGTGTTGAGATTACAGATGCGAGCCGCTGTGCCCCACCAGGGAATAA
AATTTTTTAAAACCCTAGTGCCATATGATGAAGGGGCCCCTGCTTTTGAGGGAAGGGCTCCTGCCTTTTCTCACGCTTCTCTCCACCCCAGGTATGATCT
CATGTACCAGTGCTGGAGTGCTGACCCCAAGCAGCGCCCGAGCTTTACTTGTCTGCGAATGGAACTGGAGAACATCTTGGGCCAGCTGTCTGTGCTATCT
GCCAGCCAGGACCCCTTATACATCAACATCGAGAGAGCTGAGGAGCCCACTGYGGGAGGCAGCCTGGAGCTACCTGGCRGGGATCAGCCCTACAGTGGGG
CTGGGGATGGCAGTGGCATGGGGGCAGTGGGTGGCACTCCCAGTGACTGTCGGTACATACTCACCCCCGGAGGGCTGGCTGAGCAGCCAGGRCAGGCAGA
GCACCAGCCAGAGAGTCCCCTCAATGAGACACAGAGGCTTTTGCTGCTGCAGCAAGGGCTACTGCCACACAGTAGCTGTTAGCCCACAGGCAGAGGGCAT
CGGGGCCATTTGGCCGGCTCTGGTGGCCACTGAGCTGGCTGACTAAGCCCCGTCTGACCCCAGCCCAGACAGCAAGGTGTGGAGGCTCCTGTGGTAGTCC
TCCCAAGCTGTGCTGGGAAGCCCGGACTGACCAAATCACCCAATCCCAGTTCTTCCTGCAACCACTCTGTGGCCAGCCTGGCATCAGTTTAGGCCTTGGC
TTGATGGAAGTGGGCCAGTCCTGGTTGTCTGAACCCAGGCAGCTGGCAGGAGTGGGGTGGTTATGTTTCCATGGTTACCATGGGTGTGGATGGCAGTGTG
GGGAGGGCAGGTCCAGCTCTGTGGGCCCTACCCTCCTGCTGAGCTGCCCCTGCTGCTTAAGTGCATGCATTGAGCTGCCTCCAGCCTGGTGGCCCAGCTA
TTACCACACTTGGGGTTTAAATATCCAGGTGTGCCCCTCCAAGTCASAAAGAGATGTCCTTGTAATATTCCCTTTTAGGTGAGGGTTGGTAAGGGGTTGG
TATCTCAGGTCTGAATCTTCACCATCTTTCTGATTCCGCACCCTGCCTACGCCAGGAGAAGTTGAGGGGAGCATGCTTCCCTGCAGCTGACCGGGTCACA
CAAAGGCATGCTGGAGTACCCAGCCTATCAGGTGCCCCTCTTCCAAAGGCAGCGTGCCGAGCCAGCAAGAGGAAGGGGTGCTGTGAGGCTTGCCCAGGAG
CAAGTGAGGCCGGAGAGGAGTTCAGGAACCCTTCTCCATACCCACAATCTGAGCACGCTACCAAATCTCAAAATATCCTAAGACTAACAAAGGCAGCTGT
GTCTGAGCCCAACCCTTCTAAACGGTGACCTTTAGTGCCAACTTCCCCTCTAACTGGACAGCCTCTTCTGTCCCAAGTCTCCAGAGAGAAATCAGGCCTG
ATGAGGGGGAATTCCTGGAACCTGGACCCCAGCCTTGGTGGGGGAGCCTCTGGAATGCATGGGGCGGGTCCTAGCTGTTAGGGACATTTCCAAGCTGTTR
GTTGCTGTTTAAAATAGAAATAAAATTGAAGACTAAAGACCTAAGGTTTTGTCTCTTTTTTTTTTTCTTTTTTTTTGAGACAGTCTCACTGTGTTGCCCA
GGCTGGAGTGCATGGTGTGATCTTGGTTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTTGTGCCTCAGTCACCAGAGTAGCTGGGATTACAGGG
GCTCACTACCATGCCCAGGTAATTTTTGTATTTTTAGTAGAGATGTGGTTTCGCCATGTTGGCCAGGGTGGTCTTGAACTCATGACCTCAAGTGATCTGC
CTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGTCCTGAGCCACCACACCTGGCCCCAGCTTTGTCTCTTAAATGTTTACTTTTTTTGAGATCACAAAGA
TGAAAGATTTTTATAGAGAGAAAAGTCTGGAAAGACATATGCCAAAATGTTAACAGCTGTTATCTTTTTTTTTTTTTTTTTGAGACCGAGTCTCACTCTG
TCGCCCAGGCTGGAGTGCAATTGCGCGATCTGAGCTCACTGCAAGCTCTGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGA
CTACAGGTGCCTGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATAGGGTTTCACCGTATTAGCCAGGATGATCTCAATCTCCTGACCTCGT
GATCCGCCTGCCTCAGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGCACCTGGCAACAGCTGTTACCTTTAAATGATGGGGTTAAGGGGACGT
TCTTCTTTGTGCTTTCCAAGTTTTCTGCATTGAGCACAAAATGCTTTTGTAATTAGATACAGGATCCCAATGAATCTTATTATACTGAAGATAATACAGA
GTCACCGTGGGCAGTTAGAAAAATGCAAAAAATCGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGACCTGGGTGTGTGGATCACGA
GGTCAGAAGTTCAAGACTAGTCTGACCAACATGGTGACACCCCGTCTTTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGCGTGTCTGTAATCCCA
GCTACTCAGGACACTGAGGCAGGAGAATTGCTTGAACTCAGGAGGCGGAGGTTGCAGTGAGTCGAGATCCCGGCAGCCTAGGTGACAGGCGAGACTCCAT
CTCAAAAATAAAATAAAAATAAAAATGCAAAAAATAATAAAAGGTGCCAGTTACCTATACTCCCACCACCTAGAGATAATCACCATTGATCTTTTGAAAA
TGCAAATATTCAGCTGGGCACAGTGGCGTGTATTTTTTTTTTTTTTTGAGACGGAGTCTCGAGTCTCTCTCTGTCGCCCAGGCTAGAGTGCAGTGGTGTG
ATCTCGGCTCACTGTAACCTCTGTCTCCCAGGTTTAATCAAGTCTCTTGTCTTGGCTTCCCGAGTAGTTGGGACTACAGGCACGAGCCACTGTGTCCGGC
TATTTTTTGTATTTTTTTGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGATTTCAAGTGATCTGCCTGCCTTAGCCTCCCAAA
GTGCTGTGATAACAGGGGTGAGACACCATACCCAGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACTTCAGGCCGGGAGTTCGAGACC
AGCCTGGGCAACATGAAACCCCATCTCAACTAAAAATTCAAAAAAGTTTAGCCAGGCTTGGTGGCGCAGGTTTGTCATCTCAGCTACTGGGTGACTGAGG
CATGAGAATCACTTAAACCTGGGAGGAGGAGGTTGCAGTAAGCTGAGATCTTGCCACTAAACTTCGGCCTGGGTGACAGATTAAGACTGTCTCAGAAACA
AAACAAAACAACAAAAAAGCTTTTAGAGCAAGTTCATGGGAGATGCAGCAGGAGGCGCAGGAACCACACATGTGCTAGTGAGGAGTGTGGGGAGACTGGG
AGGGCCCACAGGTATTGTGCTGCTTCTGGCTGAGGGCAGGGGAATAGGGTGGCTGCTTCTGAAAGCAAATATCCTGAAAAACCTGTTGCTGGTACTCCAA
ATTCTGGTTCCCATGTAGATCATGAAACCTGAAAAACTTCCAGGCAAGTAGCTTTCAGAATCTTTCCTGCTGTGATTAGCTTTCACTGCAGGTAGTGATT
ACCTGTGAGATAACATCTGGGAATTATTGATTGAAAAGACCTTCACTATCGGTTGGGGGCGGTGGCTGATGCCTGTAATCCCAGCACTTTGTGAGGCTGA
GGCGGGTGGATCACCTGAGGTCAGGGGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAAATACAAAAACTAGCCAGGAGTGGTG
GCAGGCACCTGTAATCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATCACTTGAACCCTGGAGGCGGAGGTTGCAGTGAACTGAGATGGCACCAGTGCAC
TCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAGAGGCCAGGCATGGTGGCTCACGCCTATAATCCCAGCGCTTTGGGAT
TTTCTGTCTCAAAAAAAAAAAAGAGAGAGACTCTGGATCAAAAAGGATTTTCACAAACAGATCCAAAGAACCAGCATCCAGATTAAGAAACAGCATTAAC
AGCAACCCAGAAGCAACCCTTGGGACCTGCCTCAATCTCTGCCTCCTCCCTACTCCCCATAGGTAACCTCTATCCTGACCTCTTAACACCATGGATCAGT
GAAGCTCCTTTTAAAAGTATATAAATGGAGTCATGTAGATTTGATTACTTTGCGTTTGGCTTCTTTCCCTCAGCAACATGTTTATAAGGATCATCTAACA
ACAGCAGTTTTGAAAAGTGAGTCTCAAAGAGGCAAGAATGGCCGGGCATGGTGGCTCACACCCGTAATCCCAGCGCTTTGGGAGGCCGAGGCGGGCGGAT
CACAAGTTCAGGAGTTTGAGACCAGCCTGGCTAACAGGGTGAAACCCTGTCTTTACTAAACCCTGTCTTTACTAAAAATACACAAAATTAGCCAGGTATG
GTGGCAGGCACGTGTAATCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGGGGAGGTTGCAGTGAGCCACTACATTCCAGCTT
GGGTGAGAGAGTGAGACTCCATCTCGGAAAAAAAAAAAATTAGCTGGGCGTGCTGGTGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGTAGGAGA
ATTGCTTGAACCTGGGAGGTGGAAGTTGCTGTGAGACGAGATTGTGCCATGGCACTCCAGCCTGGACAAGAGTGAGACTCCATCTCAAAAAAGAAAATAA
TAATAATATAGTTTATTTTTCAGTATTTCATGTTGATTTATCTCAAATTTATTGTTGAATAAGAAGTGATACAGAGATTCAAAGTTATTTTTCCCAGATA
CTTTTTATTGTCCCAATACCACCATTTATTGAACAATCTATATTTTATGCACATTTCTTTTTTTTTTCTTTTTTTTGATACAGGGTCTTGCTCTGTTTCT
GCCTGGGCTGGAGTAAAGTGATAGTAAACTGATTCTCCCACCTCAGCGTCCTGAATAGCTGGGACCACAGGCACACGCCACTGCACCTGGCAAATTTTTA
AGTGTTTTTTTTTTTTTTTAATACAGAGCCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCGCCTCTCAGTTCA
AGCGAGTCTCCTCCTGCCTCACACTCCCAATTAGCTGGGACTACAGGCACGTGCCACCACAACATGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTT
CACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCTTCAGCCACCGCGCCCGG
CCCAGTTTTTAAGTGTTGTAGAGATGGAGTCTTGCTTTGTTGCCCAGGCTGGTCTTGAACTCTGGGCTGAAGCGATCTGCCCACCTTGGCCTCTCAAAGT
GCGGAGATTACAGGTGTGAGCCACCACACCCAGCCAGAATTTCTTGAATAATCTGTCTCCATTTCTCTATATAGCCTCATTGATCTATCTAAACTCCCAT
ATCTATTTTGGTTGCTAGACTGTTCATCCCAATTACATGTGCCAGTGTCACTGCTACACTAATTGAATTACTATAAATGTATAATGTTTTCCTATATGTT
CGTGGTACATTTTTTTTGCAACGTTCTCCCAAGGTCTGAGGAACACTATGTCAAGGCATGGCATGAAAGGAATACAGGTCTCCCAAGGCTTTAGAGAAGA
ATGATTTGTTCATGGTGTCACAAAGCAAGGGGTGAGGGGCACAATTGGGATGAAAACCCAGGGATCTACGTAATTCCTCCATCTTTCCACTGCCCCAGAG
TGGGAAGGTAGGGGTAGCTGAGAGGTTTTGAGGACCAGAGGATAGCGGGGAGTAGTCTGGATAGACTTTTCTGTCTCTAAGTCCTGTTAACTCCACTCTC
CTATTGCTTTTGCATGGGTCCCTCCCCAGCTATCAGCATCCTGAGGCCTCCTCTCTCACCCAGAGTATTGCAACAGCTGTGCAAACCTTCCTGACGAAGA
CCAGGTCAGCACTCCTTTGGTTATGAAGCCGCTGCCCCCAACACCTGTGGAATTTGTCTTCRGGGTTCTCCTTCCTGTTTTGTAATTATAATTATCTCGA
GAGGCCGAGGTGGGTGGATCACTTGAGGTCAGGAGTTCAAAACCAGCCTGACCAACATGGTGAAACCCCATCTCAACTAAAAATACAAAATTAGTCGGAC
ATGGTGTCATGCGCCTGTAATCCCAGCTACTCTGGAGGCTGAGACAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGGGAGCTGAGATTGTGCCA
CTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCACAAAAAAAAAAAAAAAAAAAAAAAAAAAGGCCTGGCGCGGTGGCTCACGCCTGTAATCCC
AGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATTGAGACCATCCCGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAA
TTAGCCGGGCGTGGTGGCAGGCGCCTGTAATCCCAGCTACTGGGGAGGCTGAGACAGGAGAATTGCGTGAACCCGGGAGGGGAAGCTTGCAGTGAGCTGA
GACTGAGCCGCTGCACTCCAGCCTGGCCTGCAGAGCGAGACTCCATAAAAAAAAAAAGAAAAAAAAATTATCTCTCCCCCTTCCCTTTCCTCTCCATATA
AGTTGTGTGCACACAGGGACCTGTCTTTTTTATTATGGTATCCTCAGCGCTTTCGCACTTCGTAGGCACTCAATGAATATTCATTAATTGGGTGTGGGGG
TAAGGGAAAGGAGGGGTCTAGTAAAATTTATAACTGGCGATTTGGTGGTTGGTGAGAGTATTGAGTGCGTGCCTAGGGCGCACAGGGGAAAACACTGGTA
ATATTTACTTCACGAGACCTTTTTAGAATTAACTAAAAGTATCTAAGGGCCTAGAAGAGTTCCTGACAATTGGCCAAAGTTCAGTAAATCTTAGAGAACA
CTCCTCCCCTTTTCTCCAAATTCCTCAGTTTTTCCCCAGGGTAGAGCAAGAGCAAAGGAGAGAAGCCTTTTGGGCCCTCCCTAAGCCACAGACAGGTTGG
GGAAGCCTCTGGATCATTAAAAGGCAGAAAATAATTTTACATTTGGTCCTCTAAAACCCCACAAGCCCCAAATCAGAAGGCTGTGCCTGGACTTAGCTCG
AGCGAGCCCAGAAGCACCTGGTGGGATACGCAGCTGTGCCCCAGGCATTTCTACCCACGGGCTCCGGCCAGAGAGGCTCGCGCTAGGCGGGCTGGGCCCG
CGGGACGAATCCTCACCTCTGCGGCCCACTCGAGAGCGGGGCCACA


SNP Information

Context             (SEQ ID NO:44311):
TGGGCGCTGAGCTAGGTTCTCCAGCAATTTGAATCTTGACAAGAGGTGGACTATGAGACCTCTTGGAAGCAAGTGCAGGTCCTGTTCAGGAGGCGCTGAG
K
TGGAGCAGATTAGAGAGGAGGTTGGGTTCACTTCCTTCCAGGTGTGCGTGGTTGGGACCCTCAGGCAGGCAGCCTGATAATAAGCACTCACTGAACTCCT
Celera SNP ID:            hCV8869775
SNP Position Genomic:     10549
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44312):
CTCCTACTCCACACCACACTGTGCTAGGCACCACAGGGGACAGAGGGAATACAAAGGAAATAGAAGCTAAAGAACTGAGTATAACTGGGGAGACAAGACA
Y
GTGCATAAAGAGCTGAGAACTACTGCAAGGCAGAGAGTCTGCAAATAACAACCCCAAGGGGGCACAGAGCAAACAGAAGGGCTCACTCTGGTATGCGCAA
Celera SNP ID:            hCV8869776
SNP Position Genomic:     10745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44313):
CCCCCCCTAAAAAGGTCTGAAGGATAAAGATCTGAAGGATCTGGGATCTGAACGATAAAGAAGAAGCCATGTAAATATCTGGGGGAAAATCACTGCCGGA
R
GAAGGCACAGCAAGTGCAAAGACCCTATGACAGGAACTTGCTTGGCAATTGCAAAGAGGCTGGCATAGCTGTGAGAGGGGAGTGGTAAGGGGTGAGGCAG
Celera SNP ID:            hCV8869777
SNP Position Genomic:     14884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44314):
CTCCCTCCTTCCCAGTACTGGGGACCCCATTCTGCCTGCCCCGCACGCGAAGGTCCGCCTCGGAAACCACACGGGCCGGGGCTGGGCACCCAAAGGCCAC
Y
CTGATACCATTTAGGTACACAGGGGCTGTGAGGGTGCCCAGTCACAAAAAACAAATGGGCACACTCGAGTTCCTGTGCCCTCAGAGCTTCCTGAAAGCAG
Celera SNP ID:            hCV26633722
SNP Position Genomic:     6805
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44315):
GGATACTTGACCTGCCCCTCTCTCTGCTTAAAAACATGCCAGGAGGCCAGGAGAGGTGCGTGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
Y
GCGCGCGCGCGCGCGCTCGCACGCAAGTTCCAAAGAGTGGCCCCTGTTAATGTGGCAGTGGCTCAGGGGTCTTAGGCTCCCTGCTCAGGGCCCCAGCCCT
Celera SNP ID:            hCV26633723
SNP Position Genomic:     7440
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44316):
ATACTTGACCTGCCCCTCTCTCTGCTTAAAAACATGCCAGGAGGCCAGGAGAGGTGCGTGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCG
Y
GCGCGCGCGCGCGCTCGCACGCAAGTTCCAAAGAGTGGCCCCTGTTAATGTGGCAGTGGCTCAGGGGTCTTAGGCTCCCTGCTCAGGGCCCCAGCCCTCC
Celera SNP ID:            hCV26633724
SNP Position Genomic:     7442
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44317):
ACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCCAGCAGCTAGGATTAGGATTACAGTCATGCACCACCACGCCCAGCTAAC
T
TTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACTAGTAGTTCACCATATTAGCCAGCCTGATCTCAAACTCCTGACTTCAAGTGATCTACCTGCCTCAGC
Celera SNP ID:            hCV26633726
SNP Position Genomic:     12594
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44318):
AACCTTTTGTGAGTATTTTTTGTTTTGTTTTTTGAGACAGGGTCTCGCTTTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCTGCTTACTGCAGCCTC
R
ACCTCCTGGGCTCAAGTGATCCTCCCTCCCCAGCCTTCCAAGTAGCTGGGACTACAGGCACGTGCCACCACACTCGGCTAATTTTTGTATTTTTGTAGAG
Celera SNP ID:            hCV26633727
SNP Position Genomic:     21813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44319):
CTGCGAATGGAACTGGAGAACATCTTGGGCCAGCTGTCTGTGCTATCTGCCAGCCAGGACCCCTTATACATCAACATCGAGAGAGCTGAGGAGCCCACTG
Y
GGGAGGCAGCCTGGAGCTACCTGGCAGGGATCAGCCCTACAGTGGGGCTGGGGATGGCAGTGGCATGGGGGCAGTGGGTGGCACTCCCAGTGACTGTCGG
Celera SNP ID:            hCV26633728
SNP Position Genomic:     25053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44320):
CCCCTGCTGCTTAAGTGCATGCATTGAGCTGCCTCCAGCCTGGTGGCCCAGCTATTACCACACTTGGGGTTTAAATATCCAGGTGTGCCCCTCCAAGTCA
S
AAAGAGATGTCCTTGTAATATTCCCTTTTAGGTGAGGGTTGGTAAGGGGTTGGTATCTCAGGTCTGAATCTTCACCATCTTTCTGATTCCGCACCCTGCC
Celera SNP ID:            hCV26633729
SNP Position Genomic:     25747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:44321):
CAGCCTGATGGTGGGGTCCTTCCCTTGGACAGTGGGTTTGAAGTGCCCTGAGCCTGGGCTGTGGGTAACTCACCTACACCTGAGAGGGAAATCTTGAGTA
S
ACAAGCCAGGCCCTGGCCCTCCTGTTCATTCAGCAGAGCTCAGGGCATGGCAAGGGGCAGGAAGCTCACATCTCCCTGTGGCTGCAGCCTGCTTCAGTTC
Celera SNP ID:            hCV27941070
SNP Position Genomic:     22253
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44322):
ACCCACTCCCCTGAGTTTTATGCCCCTCTCCCAGCTCTCCACCCCCAGTCTCCTCTCTTACTGCAAGAAGAGCTGTCCAAATCTGCCATGCCTAAGGGGG
H
AGCATGGAAGATGTGTCTAAGGTGCCAGGCATGGTGGCGTGTGCCTGTAGTCCCAGCTACTCCGGAGGCTAAGGCCAGAGGATCACTTGAGCCCCCAGGA
Celera SNP ID:            hCV2345635
SNP Position Genomic:     9191
SNP Source:               Celera;dbSNP
Population(Allele,Count): (A,1|C,10)      total(A,1|C,10)Caucasian(T,0|C,60)   Chinese(T,0|C,20)   Japanese(T,0|C,38)   African(A,3|C,57)    ;(A,-|C,-)   Caucasian(C,60)   African-American(A,3|C,57)   Asians(C,58)   total(A,3|C,175)
SNP Type:                 INTRON


Context             (SEQ ID NO:44323):
ATTACAGGTACTTACCACCATACCTTGCTTATTAATTTTTTTTTTAATAGAGACATGGTCTCGCTATGTTGTCCAGACTAGTCTCGAACTCCTGGGGTCA
R
AGGATCTTTTAGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCATACCACTGTGTCCGGCTGCACGGTGAGGAATTACTGAGTAGGTACTGCCCACT
Celera SNP ID:            hCV15904898
SNP Position Genomic:     23906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44324):
AGAGTATTGCAACAGCTGTGCAAACCTTCCTGACGAAGACCAGGTCAGCACTCCTTTGGTTATGAAGCCGCTGCCCCCAACACCTGTGGAATTTGTCTTC
R
GGGTTCTCCTTCCTGTTTTGTAATTATAATTATCTCGAGAGGCCGAGGTGGGTGGATCACTTGAGGTCAGGAGTTCAAAACCAGCCTGACCAACATGGTG
Celera SNP ID:            hCV2345638
SNP Position Genomic:     31062
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:44325):
GAACTGAGTATAACTGGGGAGACAAGACACGTGCATAAAGAGCTGAGAACTACTGCAAGGCAGAGAGTCTGCAAATAACAACCCCAAGGGGGCACAGAGC
M
AACAGAAGGGCTCACTCTGGTATGCGCAATAAAAGAGTGACCAGAAAAGGGGGGCAATTTGTGCTGTGTGTGGGAGATGGGATGGAGGTGGGAGGGTGGT
Celera SNP ID:            hCV27481735
SNP Position Genomic:     10816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44326):
TCTCGCACAGCCACTGTTCACCTTCAAGGTAGGAGGGCTGGCAGGGAGGAAGGGTGGATGAGGCCAGGGGCATTCCCAGCGAGCTGTCCAGCAGTTAGAA
Y
CGTTCTGTGTTCCAGCTCCCCTTGTGGTCCTGCTGGGATCTAGGGAGCAAGGGGTTAATTGGCATAGCTCCCATTCCTAGTGGGAGCACCTGAGACCCTG
Celera SNP ID:            hCV15882465
SNP Position Genomic:     11354
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,31|T,1462)   total(C,31|T,1462) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44327):
TTAGAGAGGAGGTTGGGTTCACTTCCTTCCAGGTGTGCGTGGTTGGGACCCTCAGGCAGGCAGCCTGATAATAAGCACTCACTGAACTCCTACTCCACAC
Y
ACACTGTGCTAGGCACCACAGGGGACAGAGGGAATACAAAGGAAATAGAAGCTAAAGAACTGAGTATAACTGGGGAGACAAGACACGTGCATAAAGAGCT
Celera SNP ID:            hCV29187219
SNP Position Genomic:     10659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44328):
CTCTTGCTTTGGCTACTGGCAAGGGTGCCTTCTCCACTGGCCCCAGAGTCTGCTGACTGTGTTCCCATGGAGGGTCACTTGGGAGGAAGGTTGGCAGGGA
R
CAGAGAGCCAAGGAGACTCTCCCTTACTTGGATTGGTTCCTAGGAGAGTTTGGTTCAGTGCGGGAGGCCCAGCTGAAGCAAGAGGATGGCTCCTTTGTGA
Celera SNP ID:            hCV25615349
SNP Position Genomic:     18002
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:44329):
CAGGTGAGCAGCCTCAGAAGGGGGCTGGGAGTGGAGAAGGAGCTGGGTCCTGGAGGGCACTGAAGCTGGCAGTTTCAGCCACTGAGCTTGCGGTTGTGAG
Y
GTCCAGAGCAAGCCCCAGTGTCTGGGGACGTGAGCTGCACCATTACTAAGCTCATTAGTCAGGTGTGCTAGGCTGGCTGGGTGGGCTGATTAGTGGTGAT
Celera SNP ID:            hCV2758555
SNP Position Genomic:     9827
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44330):
TCGCACAGCCACTGTTCACCTTCAAGGTAGGAGGGCTGGCAGGGAGGAAGGGTGGATGAGGCCAGGGGCATTCCCAGCGAGCTGTCCAGCAGTTAGAATC
R
TTCTGTGTTCCAGCTCCCCTTGTGGTCCTGCTGGGATCTAGGGAGCAAGGGGTTAATTGGCATAGCTCCCATTCCTAGTGGGAGCACCTGAGACCCTGCG
Celera SNP ID:            hCV2758556
SNP Position Genomic:     11356
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,11)   caucasian(A,14|G,24)   total(A,41|G,35)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44331):
TCTGCATTCTTTTACCAAATTATTAATTTGACTGATATGTCTGAACATCAGTGAGCCCCAGGCACACAAATCTGCCTGTGTGGAGTTCACCACCCCAGCC
R
TGGGAGACCTAAGCTCATCTCTATGCTCTGAGGGCAGAGTCTGGGGTATAAGAGGCTGGGTTTTGGCTCAGGAATCAGAGATCCCTCTTTCCCACAAACC
Celera SNP ID:            hCV15976340
SNP Position Genomic:     17499
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(A,3|G,25)   total(A,4|G,50)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,226|G,1065)   total(G,1065|A,226) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44332):
GTGTGCCTGTAGTCCCAGCTACTCCGGAGGCTAAGGCCAGAGGATCACTTGAGCCCCCAGGAGTTCCAGGCCAGCCTGGGCAACATAGAGAGACCTCCCC
R
CGACCAATCTCAAAAAAAAAAAAAAAAAAAAAAAAATTCCTAAGGAGCCTGAAAAAGAGAAGCACCGCCTACCTCTCAAGCTAGATGCCTGTTCTGCTGT
Celera SNP ID:            hCV8869766
SNP Position Genomic:     9330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44333):
GTTGGGGATGCCCTGGACCCTCAGAGAGACTCAAGGCTTGACTCCCATGCCTCCTGCTGCCTCTGCTCATATCCCTACTGGGCACTGATTCTGAGTCCCC
R
TCCACAGCACTGCCTGCAGCCCCCTTCAACATCACCGTGACAAAGCTTTCCAGCAGCAACGCTAGTGTGGCCTGGATGCCAGGTGCTGATGGCCGAGCTC
Celera SNP ID:            hCV2758558
SNP Position Genomic:     12029
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,11|G,27)   total(A,19|G,57)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44334):
ATTCTGAGTCCCCGTCCACAGCACTGCCTGCAGCCCCCTTCAACATCACCGTGACAAAGCTTTCCAGCAGCAACGCTAGTGTGGCCTGGATGCCAGGTGC
Y
GATGGCCGAGCTCTGCTACAGTCCTGTACAGTTCAGGTAGGCTCTCCGGGCCGGGCCATGCTCGTTCTGGCTGCATGGCCAGCACTTTGTTGACAGGGAT
Celera SNP ID:            hCV2758559
SNP Position Genomic:     12116
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(C,13|T,27)   total(C,18|T,60)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;(T,-|C,-)   JBIC-allele(C,216|T,1269)   total(C,216|T,1269)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44335):
AGGGAAATGGGCGCTGAGCTAGGTTCTCCAGCAATTTGAATCTTGACAAGAGGTGGACTATGAGACCTCTTGGAAGCAAGTGCAGGTCCTGTTCAGGAGG
Y
GCTGAGGTGGAGCAGATTAGAGAGGAGGTTGGGTTCACTTCCTTCCAGGTGTGCGTGGTTGGGACCCTCAGGCAGGCAGCCTGATAATAAGCACTCACTG
Celera SNP ID:            hCV8869767
SNP Position Genomic:     10542
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,9|C,51)   Chinese(T,0|C,18)   Japanese(T,0|C,40)   African(T,21|C,39)      total(C,148|T,30) ;(T,-|C,-)   (C,-|T,-)   Caucasian(T,9|T,15|C,51|C,67)   African-American(T,21|T,28|C,39|C,54)   Asians(C,58|C,82)   total(C,351|T,73) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44336):
AGCTCAGAGCTGTTCAGCCCAGGAAAACAAAGTGACTAAGAAAGTAACAAAGGGCCCTGAATGGGAGCTGGGGCCTGGCAGCAGAACTCTGCTAAAGCTC
Y
CACCCACTCCCCTGAGTTTTATGCCCCTCTCCCAGCTCTCCACCCCCAGTCTCCTCTCTTACTGCAAGAAGAGCTGTCCAAATCTGCCATGCCTAAGGGG
Celera SNP ID:            hCV28006431
SNP Position Genomic:     9089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44337):
GGGACAGTATCTGCTATGCATGGGGGTAGCTTGGGAGCAAAGATGCAAAGATGTCCTGGCTCTTGTGGGCCTGTGAGCATGGCAGAAGGCTGACTCTCTC
Y
CTCAATGCCCCTTGTAGGCTGGCAGAGGACATGACAGTGTGTGTGGCTGACTTCGGACTCTCCCGGAAGATCTACAGTGGGGACTACTATCGTCAAGGCT
Celera SNP ID:            hCV25474417
SNP Position Genomic:     20298
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,19)   caucasian(C,25|T,15)   total(C,44|T,34)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,269|T,1220)   total(C,269|T,1220)   (C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44338):
GATGAGGGGGAATTCCTGGAACCTGGACCCCAGCCTTGGTGGGGGAGCCTCTGGAATGCATGGGGCGGGTCCTAGCTGTTAGGGACATTTCCAAGCTGTT
R
GTTGCTGTTTAAAATAGAAATAAAATTGAAGACTAAAGACCTAAGGTTTTGTCTCTTTTTTTTTTTCTTTTTTTTTGAGACAGTCTCACTGTGTTGCCCA
Celera SNP ID:            hCV8792672
SNP Position Genomic:     26300
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:44339):
CCTGCCATCTTCCCACCCGTCATTCCTTTTCTTTTTTTAATTTGTATTTATTTTATTTTATTTGTTCTACCCTAGTGAATACAACCTTTGTCCTGGAGAC
M
CCAGCTAGTCTAAGAAAACTTCCTAGGCTGAGCTCTCTTGGGAATCTAAGATAAAGAACTGAGATCCTGGGAAGAAGGGAACTGCCTCCTCTTCTTTCTG
Celera SNP ID:            hCV12063550
SNP Position Genomic:     21231
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44340):
CTCCCAGCATGCTCTTGCTTTGGCTACTGGCAAGGGTGCCTTCTCCACTGGCCCCAGAGTCTGCTGACTGTGTTCCCATGGAGGGTCACTTGGGAGGAAG
R
TTGGCAGGGAGCAGAGAGCCAAGGAGACTCTCCCTTACTTGGATTGGTTCCTAGGAGAGTTTGGTTCAGTGCGGGAGGCCCAGCTGAAGCAAGAGGATGG
Celera SNP ID:            hCV25473742
SNP Position Genomic:     17991
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,12|G,26)   total(A,20|G,56)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44341):
ACCCTGTGTATTATTGGGGTGGGGGCAGATGGGAGGGCGTGGGTTGCAAGTGTTTGCTGATAGAGGAAGCACTCATTCAAGCACCCATAACTATACCCAT
Y
CCATCTTCCATCTCTCACAGGCTCTCCCCTACATCATTAGTTTTCTGCTTTTCTGTAGGTGACACAGGCCCCAGGAGGCTGGGAAGTCCTGGCTGTTGTG
Celera SNP ID:            hCV25473817
SNP Position Genomic:     14310
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,7)   caucasian(C,28|T,12)   total(C,55|T,19)
SNP Type:                 INTRON


Context             (SEQ ID NO:44342):
CAGCATTTGCAAAGGTATGAAGATGTGGAACCCTGTGTATTATTGGGGTGGGGGCAGATGGGAGGGCGTGGGTTGCAAGTGTTTGCTGATAGAGGAAGCA
Y
TCATTCAAGCACCCATAACTATACCCATCCCATCTTCCATCTCTCACAGGCTCTCCCCTACATCATTAGTTTTCTGCTTTTCTGTAGGTGACACAGGCCC
Celera SNP ID:            hCV25473818
SNP Position Genomic:     14281
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,18)   caucasian(C,3|T,37)   total(C,19|T,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:44343):
CTCTCAGAGCTGTTTAGTTCTTGGGAGTTGATTCCAAAGGTCTGCATGGAATTATGATGGTGGGAAGGGCAGGGGTCTTAGCAATCTTCTCTCTTTGGCT
R
CAGCCCCAGCCAGCGCTCCCCAAAACCTCCATGCCATCCGCACAGATTCAGGCCTCATCTTGGAGTGGGAAGAAGTGATCCCCGAGGCCCCTTTGGAAGG
Celera SNP ID:            hCV25473943
SNP Position Genomic:     15222
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,12)   caucasian(A,15|G,25)   total(A,41|G,37)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44344):
AGCAATCTTCTCTCTTTGGCTGCAGCCCCAGCCAGCGCTCCCCAAAACCTCCATGCCATCCGCACAGATTCAGGCCTCATCTTGGAGTGGGAAGAAGTGA
W
CCCCGAGGCCCCTTTGGAAGGCCCCCTGGGACCCTACAAACTGTCCTGGGTTCAAGACAATGGAACCCAGGTAAGACAGAACCCTCCCCTCTCTCCACTC
Celera SNP ID:            hCV25473944
SNP Position Genomic:     15301
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,35)   caucasian(A,8|T,26)   total(A,11|T,61)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44345):
TCCCCATCCCCATGGTCATCTTGCCCTTCATGAAGCATGGGGACCTGCATGCCTTCCTGCTCGCCTCCCGGATTGGGGAGAACCCCTTTGTGAGTACCTG
S
TGTGGGGGTGGCCAGGAGGAAACGGGTGGGAACACAGGGCCTGGAAAGGCATAGAGACCCTGGCAGAGAGGGGCTTGCTGGGTAGGGCTGATGGAGCTGG
Celera SNP ID:            hCV25615350
SNP Position Genomic:     19584
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,40)   total(C,1|G,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44346):
GCATGTACGAATTCTGGAGGACTCGAGGGTGGGAGACAGCAGCAGGTGCCAAGAGGAGCTAGCTGATGGTCGGCTCCTGCCTGGGACAGTATCTGCTATG
Y
ATGGGGGTAGCTTGGGAGCAAAGATGCAAAGATGTCCTGGCTCTTGTGGGCCTGTGAGCATGGCAGAAGGCTGACTCTCTCTCTCAATGCCCCTTGTAGG
Celera SNP ID:            hCV25615351
SNP Position Genomic:     20216
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44347):
CTGCTCTCTGGGGTTTGGTTGCCCCCTGATGAGGCCCTGAGCCCCAGGTTGTGCTTGTCTCAGAGCCATGGCTCTCTGCCTGGCTCAGGACACCTAGTGA
Y
AGCTTCTCCCCCAACCTCGATTCTGTCCCAGTGGGCGTTCGGGGTGACCATGTGGGAGATCATGACACGTGGGCAGACGCCATATGCTGGCATCGAAAAC
Celera SNP ID:            hCV25615352
SNP Position Genomic:     20655
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44348):
GGGCCAGCTGTCTGTGCTATCTGCCAGCCAGGACCCCTTATACATCAACATCGAGAGAGCTGAGGAGCCCACTGCGGGAGGCAGCCTGGAGCTACCTGGC
R
GGGATCAGCCCTACAGTGGGGCTGGGGATGGCAGTGGCATGGGGGCAGTGGGTGGCACTCCCAGTGACTGTCGGTACATACTCACCCCCGGAGGGCTGGC
Celera SNP ID:            hCV25615353
SNP Position Genomic:     25079
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,24|G,12)   total(A,55|G,19)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44349):
CACAGGGCCTTCGTGGCAGGGAGAGGCAACCTCTCTCCACAGCCCAGGCACTCTCCCAGGTGTGAGCAGCTGTGCCCTACTGGTTGCTTATTTGTGTACT
R
CTGTGATCCTGGGAGTGCTGAGTAGCCGTCTTTAGGTTGGGGATGCCCTGGACCCTCAGAGAGACTCAAGGCTTGACTCCCATGCCTCCTGCTGCCTCTG
Celera SNP ID:            hCV11299462
SNP Position Genomic:     11893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;JBIC-allele(A,202|G,1099)   total(G,1099|A,202)
SNP Type:                 INTRON


Context             (SEQ ID NO:44350):
ACAGTGGGGCTGGGGATGGCAGTGGCATGGGGGCAGTGGGTGGCACTCCCAGTGACTGTCGGTACATACTCACCCCCGGAGGGCTGGCTGAGCAGCCAGG
R
CAGGCAGAGCACCAGCCAGAGAGTCCCCTCAATGAGACACAGAGGCTTTTGCTGCTGCAGCAAGGGCTACTGCCACACAGTAGCTGTTAGCCCACAGGCA
Celera SNP ID:            hCV25615355
SNP Position Genomic:     25192
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:44351):
TGCCACCCAATGCCCCTTTCCAACTGTCTTGTGAGGCTGTGGGTCCCCCTGAACCTGTTACCATTGTCTGGTGGAGAGGAACTACGAAGATCGGGGGACC
Y
GCTCCCTCTCCATCTGTTTTAAATGTAACAGGTGAGCAGCCTCAGAAGGGGGCTGGGAGTGGAGAAGGAGCTGGGTCCTGGAGGGCACTGAAGCTGGCAG
Celera SNP ID:            hCV25615356
SNP Position Genomic:     9698
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44352):
GTATAAGCCTTCAGGGTTCTAAGGCCTTTAAGAATTTCAAAATGATTGTCTTTGGTGGGCCTGGGTCTCCCGCAGCCCCAGGGAATCCTTTCCTCCTCAC
S
CTCCTCTGCAAGCTCCACTTCTCAAAGGATTATGTCTCCTGTTAGGGTTGCATCCTGTGTGCACTTTGTAAATAAAGCAGGAAGCACATTCCTGCTTGAG
Celera SNP ID:            hCV15882475
SNP Position Genomic:     15509
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,215|C,1282)   total(G,215|C,1282) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44353):
GAGCAGAGAGCCAAGGAGACTCTCCCTTACTTGGATTGGTTCCTAGGAGAGTTTGGTTCAGTGCGGGAGGCCCAGCTGAAGCAAGAGGATGGCTCCTTTG
K
GAAAGTGGCTGTGAAGATGCTGAAAGGTGAGTGGGGGATAGCTGTAGCCTGAGGGCATCACTTGGAAGGGTAAGAGGGGCGACTGACCCTGAAGCAGGCT
Celera SNP ID:            hCV2758561
SNP Position Genomic:     18100
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44354):
GAGGGATTTAAGGATGTTCAGACCAGAGCCTGAGTATTCCCCTTTCCCAGTCCCGCACTGAGTGGGGTTGCTGCTTGGGGAGCTGACTGAGGTTTTCTGG
M
CCCAGGGGTGACCCAGAGCACCATGTTTTCCTGTGAAGCTCACAACCTAAAAGGCCTGGCCTCTTCTCGCACAGCCACTGTTCACCTTCAAGGTAGGAGG
Celera SNP ID:            hCV25615357
SNP Position Genomic:     11189
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,40)   total(A,1|C,77)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44355):
GTGATCTCTGCTTACTGCAGCCTCGACCTCCTGGGCTCAAGTGATCCTCCCTCCCCAGCCTTCCAAGTAGCTGGGACTACAGGCACGTGCCACCACACTC
R
GCTAATTTTTGTATTTTTGTAGAGACAGGGCTCCGCCATATTTGTCAAGCTGGTCTTGCGCTCCTGGGCTCAAGGGATCCATCTGCCTTGGCCTCCCAAA
Celera SNP ID:            hCV2758562
SNP Position Genomic:     21889
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44356):
GCCGCACATCCTGGGTACCTGTGGTCCTTGGTGTGCTAACGGCCCTGGTGACGGCTGCTGCCCTGGCCCTCATCCTGCTTCGAAAGAGACGGAAAGAGAC
R
CGGTTTGGGTAAGGGGATGGGGATGTGGAGGGAGAGGCAGGTAATGATGAAAGACCTTGGAGCTGACCCCAAATCCTGGGTTTTCCTTTAGGCAAGCCTT
Celera SNP ID:            hCV25615358
SNP Position Genomic:     17156
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:44357):
GTTGGCTCCTAGCACAGCCTTGAGGACGTGTCCCAGTCTGGCCATGTACCCACGGCCCCAGACCATTCCCATTCCCACGACCTGTTCAGTGTCTGGCATG
W
TTACTGCCATTACTGGTGGCCCCTGCTGGGGGTGTGCTGGTGTGTGAGGCAGTGCTTGGGGCTCTTGTCATGGGCATAGGCAAGAGAGTCAGGCATTTGC
Celera SNP ID:            hCV2758563
SNP Position Genomic:     22592
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|T,7)      total(A,6|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44358):
CTTACTCCTCTGGAATAGAGTATAGCTGCTTCTGGTTCTGTTCTAAGGACAGGAACTCCTGGGACAGCCACTCCCGCATTAGGTCAAAAACATTTCCTGT
K
GATTTTATTAGTTTCCTTCCAAACAATGCATTTATGGAAGAAGAAGAGCTTTTGCAGGCATGCATTTGCACAGGCAGCCAACCTCCTCCAGTCACACACA
Celera SNP ID:            hCV2758547
SNP Position Genomic:     1980
SNP Source:               Applera
Population(Allele,Count): african american(G,14|T,14)   caucasian(G,23|T,7)   total(G,37|T,21)
SNP Type:                 TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,6)   total(G,5|T,6) 
SNP Type:                 TFBS;hmCS


Gene Number:                 222
Celera Gene:                 hCG37586 - 206000043283015
Gene Symbol:                 RAP1GA1
Protein Name:                RAP1, GTPase activating protein 1;KIAA0474;KREV-1;RAP1GAP;SMGP21
Celera Genomic Axis:         GA_x5YUV32W3P1(4715877..4800963)
Chromosome:                  Chr1
OMIM number:                 600278
OMIM Information:            RAP1, GTPase-ACTIVATING PROTEIN 1;RAP1GA1


Genomic Sequence (SEQ ID NO:12382):
GTTCGACCATCCTGTCACATAAATCTTTTCTCCTGGCCCATAAGAATAATGAAGCCAATGGCCAAACTGCAAGCCTTCTCAATTCGGTGTTTTTTTTGCA
GGGTCATGTCGAAAGGTATTTGAAACACGCTTAGAATGCATGTTGAAGATTTATGTCTCCGTGATGGGCAGTTTCTGCCCCAAAGGGGCAGCTTCAGTTG
TTTTGATTGTCATTGCTAAGAACATCAGGAACAGATGTCTCGAGCTGCCGAGGCATGGCTCTGCGGGCACTGGGAAGCAAAGCCATGCGGAGGCCTGTGG
CTGGTGCTCAGAGGTCACTTCCTGGTCTGAGAATTGCGTTTTTCATTATTTACCTGGTGATACTTAGTGAATAATATCGTTCAAGGGTAGAGTACACGAA
ACAGGTATTTCTTACGTCTCCCCTCCCCCAACAAATGACAGAACCAGTTATCAAATAAATACAAGATACTAACCATGTGAGATTTCTGCATGTGGTAAGG
TTTAATATCTCTTTGAGCCTCACTAGATTTTAGGAAGGAGGAGGTTGCAGAATTGTGGCTTGCCAGGAGTTGTATGACCTCTTCAAAGTGACATTAGTTT
AACTTTGTTTTATTTTATTTTAATTTTTGAGACTGAGTCTTGTTCTCTCACCCAGGCTGGAGTACAGTGGCACAATCTCGGCTCACTGCAATCTCCGCCT
CCTAGGTCCAAGCGATTCTTGTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCACGCCCTGCTAGTTTTTTTGTTTTGTTTTGTTTTT
GTTTTTTGTTTTTTTTTTTGAGGTGAAGTCTTGCTTTGTCACCAGGCTGGATTGGCTCACTGCAACCTCCACCTCCAGGGTTCAAGCGATTCTCCTTCCT
CAACCTCCCAAGTAGCTGGGACTACAGGCATGTGCTACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTCACCATGTAGGCCAGGATGG
TGTCGATCTCTTGACCTTGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCATTTTTGTATTTTTAGTAG
AGATGGGGTTTCACCATGTTGACCAGGCTGGTCTCGAACTCCTGATCTCAAGTGATCTGCCCACCTTGGCCTCCCAATGTGCTGGGATTACAGGCATGAA
CCACCGCGCCTGGCCTGGTTTGACTTTAGAATTGGGACCTGCACCAGCTTGTAGTGGATTGGGCCTCTGCTGTGTCTCACCCAGCAGAGACCAGACCAAG
GTTGCTGCAGAAGGGGATCCTACTGCGGAATGGGCTGCATCCCACAAGCAAAACACGGGTGGCAGGCTGGTCCTTCTCATTCCATGAGCTTTCACGCTTG
TCATTCATGAGGCTGTGAATTCCCCCTCAAGTTAGCCCTAAGAGCTTGTCCAACATAATTACTGTATTGATCTCAAATAGAGGGCATCATCTGTTTCTCC
CCAACATGCTTTAAAAAAAAGGGAAAAAAACCCTGCTTTCAAGGACTTGGAGGGCCTTTGAAGTGAAATTGCTCTCGGACAGGGAGGGAGGCAGCCTTAT
AACAGCAGCTGGAATGGCTGCTTGAATTCCAAATCTGCGTTAGTGCTGCCAGGCGAGGCAGGCCCTCAGCCACAGGAAGTGGGGCACGSACTCCAGGGAG
GCCAGGAGGCCGACGCAGCCACTGCCTGGGTTGGATTGTTGCCTGCTGGCACACTGGCCTCTGCACAATTCTATCTGGGTTTTCCTTTCCCTGGTGCTCT
GGTGTTTTGTAACCAAGGGAATGCTAAGCTGCAACCAGTTCCTTTTATGATCCTGGACAAGTCTGTTCCCCTTTGAGCCTCGGCGTTCTCTCTGAAAGGA
AGTGGGATGTGTAGAAGTTGTCAAACATGAACTCCGTGGAAGTAGATAGTGGGGCCTCCTCCCACACCCACCTACTCCCTTGAGGAAGCTCCAGGCAGTA
CATTTGGAAAGCTACCAAACAGGACTACCTCTCAGGACTTCTCTTGTTTTATTAGTCTCTGAGCTGCCTCTTTGGTTGGTTTATCTGGAGTTTTTGTAGC
ATCTTCTCACTCATCCACAGCATGTCACTTGTTCTCTGGATGAAGGAGGCTCCAAGTCATGCTAGACTGTGGAGTTCTGGAACTAGAGTATACTGTTTAT
TTCCTGTACTGGAAGCCAGAGTTAGGGCCAGGCTGGATTTTATGTCTGCACCTAAAACCATTCAGTCCCCCACAAATGAATCAACCTAATTAGTGCTAGA
CTGTTGTAGCTCCCTGAGAGCAGGGCTCTGGCCATCTTACCACTGTATTCCCACAGCGGCCCGCATGATACATCCTCAGTAAGGAAAAATGAATGACTAC
TTTGGAATCTGTTAGAAGTTTTCCCGTGGCCCCTTGGGGGAGAGCTCTTTTTACTACTTTGGTTTGACCAGTACTGTCCCTACCTTCAGGCTTTTCTTCT
TTGTCCTCAAAACAGGGACTTCCTAACTATTCATGATCCAAAGTCCTCTAACCCCAGGGGTAGTCTCTGTCATGTCTGCTGCACCAGGTTGGCAGCCTCC
CACCCAGACGGGGGCCGCTGGCCCTTCCCTGATGCGTGTGCCCTGGCGCCGACTGCCACTCTTCATCCTGCCTTGCTGTGGTTAGAGTGGAACTGTCCTC
TGCTCCAAGCCGCCCCTGAAGCCCACCCTCCTTGCCGGCCTTTCCTAGACCTTACCTGTGGCTCTGTGGACAGCACACCTTGAGGACTTGCTGCTTTGGG
GTTTTCTTCCCCTACTTGCTCTGGTGGGCAGTTCCTATCTCAGTTTTTCTCCCATTTGATCTGACTGGGAAGGAGTGGGCGGGCAGAGATGGGGAGTTAT
TTCCAAGAGGCATCATTCCCATTTTAGGACTGTTCCCCCCTCCCTCACCTGCAGTCTCATGCATTATTTGGAGTTTACCGTGGTGCCACCCATGTTTTCG
TTCTCCAGCCTTTTTGGATGCCAGATTTTTAAAGCCAGCTTTCATTTCTCAGTGATCGGGAGCACAGAGATGGTGGCTGGGTCGCAATGTATTAAGTGTC
TGAGACAAGGCTTGTGCCCAGAGGCAGCCATGCGTGAGTGGTCAGTCCTGAGTGGTTTGGATTGAAATAGGACAGGGAAAGCAAAGCTCCGGGGCCTTTG
TCCAATCTTCCCCCTCAGTAGCTAGGCTGCATGCCAAGCTCTGTGCCCAGCCCCCTACGGCACGTGCTGCCTCCTCGCCAGGGGCCCTGACAGTCTCAGA
ATGGTGCCCCCCAGGACACATGGGAGATTATAAGCCTCTTGCATTGAGGGAGGTTTTCTGTAAAGGGGAAAATGCTGTAATTGAAAAGCTCCTTGATTAT
AAAGAAGAAATAGAGACGCCTGGCATAGAAGAGACTTCGTTCTTTGGTCTGCTCAGCCAGGGTCGGGGACATTCAGTACCCCCAGGCTAATAGGCTCTTG
AGCTCTTAAGGACCTTGGAGTCTGCAGGTCCAGACTCCAGAAGGTTATGGGACCATGAAGAGGTCACACAGCTGTACCCCTTGGCTTGCTGCATTTCTGC
ATCTCCAGTGCCTCCATCTGCCCCCTCCCTCCAGCTCAGGTGGGACACCTTTGTCTCCACTCAGCACTCTGGGATGTACCATCAGCAATGCCTGGCCAGA
ATTGAGGGTCTCTGTCTTAAAGCGTGGAGGAGAAAGGGGCCCTTTTGGAACAGGAGTTAGGGAAGCAAGAAGCATGAAGATTGTGCTCAGAATTGAATTC
AGGGAGCAATGCATAAAAAAGCGAGAGGATGGGTAGAGATATGGTGCTTAAAAGGATCCTGGAATCCATGTACTTCTGAGATCTGTGAGCCCCGCCCCTG
CTGAAGATGAGCCAGCCCCACCCAGTACATGCTGCCCTTGAAGGTCTATAGGCATTCTGCTGGCATTTCCTAAGTAGGATGTATTTGACCAAGCATCTCC
CAGGACCAGAGCCCTGCAGGACATACCTGTCTAGGGCAGTTGCTATGCCCCACAGTCCCTTCACCATCATCCCCAGAAGCGCCTCGGCCAGCCTCATTCA
ACTTCTTGCCTTTTTATTACAGTGTTTGAGCCAACTATATAGTCCTGGTGTATTCCTAGGCAGGAGATCAAAGGGCCCCCCGGGTTGGGTGGTCCATGAG
TGAGCATGTGATACCGCAGGAGTCTTCCTCCTGCCCTGACAACTTGCCTTGTACTACCAGTGCTGCTCAGGATGTCTGCAGCCACGAAGCTTCATTATAA
ATGCAGGAGCTCAGGCTCCAGGCCCACTGAATCTGAATCTGAGTCTACAGACCGCTCCTGCACTCTTAGAAGTTTGAGAAACCCCCCTGGGCTGGGGTCT
CTTTCCCATATACAGCTAGGGAAGCTTGCTGGAGGGAGGACTGAAAAGAACAAGTGCCTGATCTACCTTCCCCTCTGCCCTTTCACAGGTGGGTGGATGC
GTGGGAAGAGGGTGGGGCATTTCCTGCTATTCCCCCTTATTCACCTTTTCTCCACGGGGATTAGAGTCTTGACCGGAAAACATGGCTCTGGTCCCCAGCC
CCTATGGGACTGAAAACCCGGAGGCTTGCATGTCTCAGATCCTCCAGAGGCTGATGTAAGAGTTGCTGAAGACCTCGGATCTTTCCTTTTGTGAAATGCA
GCCCATGTGGCCGGGAAAATAGTGGGAGCTGGAAGTAACAGTTGTGGTTTTAAGCACACAGTAGATGCTCAAGAAATATATTGAGTACATGTCTTGGACT
TTCCCCTCCCTAAATATTATCTGTCAAGTGGGCCTATTGGACTTGTTGACCTTGGAGGGCCCTGTCGGCTTGACCCACCAATTCGAAATGGTTGAGAAAG
AGGTCTGTCTTTGTACCTTTTGCAGCCTGTTTTCCCAGTTCTTAGAACATTGGGGTGAGATCCAGAGATTTCAGAGATCCCCCTGGAACACGAGTGTTCT
GTGACGAGTTCATGACCTTGGAGCCACCAACCATACCCCTCACCCGTTGTCCCCAGTTCTGGCCTTGCCGACCCACTGCGTGTTTCTTTGCTTCATGTGG
GCTGTTCCCCGGGGAGGGAGCTCAGTGGAGAACAGAAAGAGGTGTGGGTGAGGGCTCCCCCTTGGTGGGGAGTGGGGCACAGGAGCCTCAGGCTCTGTTG
ACCATCAAAGAAGGGACTCGAGTGGGCAGGCCGCTCACTTGCTGTGGACCTTGGGCAAGTCTCTAACTCTCCCTGGGCCTTGGAAGTCAGGCCGAGGTGA
TCTCTGCCGCCCCCTCCCTGCCTGGGTTTTCACTCTTGTTCTGATCCCACTCTCTTCCGGGTGCCTCCCTTCCACTTCTCCGTAGCCTGTGGCTCCCCTC
CCCACACCCGCCCTGGGCCCGGGTTAGGCTGGGGCGGGGGCGAGCTGCCCAGTCCAGAGACAAAGTCCAAGAGCCGCGAATGGGCTGGCGAGGGTCAACC
GCGTGGCCTCTGCCAGGAAGCGCGCCGAGCGCCCGGGTGAGGAGGGCGTCAGCCAGGGCACAGCAGCTTTCTCGCCCAGCGAAGCCTGTGCGCCTTCCTC
CCGCGCCTGCAGACAAGCGGAGCCCATGGGGGCCGTGGGCCCCACCTATCCCGACGTCTCCACTTGATCCAGAAGTTGTCCCAGTCCCCTTGGAGCATGA
GCTGTTGCCTGGACAGCTGGGCTGTCGCCCAGGTTCTGCCACTGTCTAGCTGTGTAACCTTGAGCCAGTCCCTGCCCCTCTCTGGTCCTCAGTTTCCCCA
CCTGTAAAATGGGGGCACCGAGAACCCTCCTCCAGGACCTGCGGCGGGGCGGGGCGGCAGGGCGGGGGCCTCCCCGCCGCTCCCGCGCCCGCGGCTTGGG
CTCCGCAGTGAGTGGGGAGCGGCGCCGGGGAAGGAGCGCTCCGCGGTCATGTGACGTCCCCCTCCCCGAACTGCGGCGGCGGCGAGCGCCGGCCGCATCT
GAGCAGAGCTGCAGCGGCGGCCGCGGGCACCAGAGTGCCGAGCCCAGGACGCCCCCGGCCCAGGCCCTTGGGTGAGTGCGCCCCGCCAGGGCTGCGGCCC
TGGAAAGGGGAAGGGGACAGAGGTGTCCAGACTCCCGTCGGCTCGCAGCGAAGACCCCGCGCGGGCGGGCGGGGACGGAGGGTGGGGGCGAACGCGTGGG
GGACCCGGGTCTCCAGGGGCGAGGGGTGGGCGCAGCTGGGCTCGCGCAGCCCGGTCTTGACAGCAGCTGGAGAAGTGGGGGGAGGCCTGGACTGAGCCGG
CTGAACCCCCAGCCTGTTGGACTTGGTCCAGGCCGCGGCCAGGGGGCTTTGGTCCCACCCCCCTGGGTGGGTGGGGAGTCCAGTTTTCCGCCCACCTCGA
GGTGGGGGCGCCTGGGGTTTAGAGGAGGGACTGTGGGAAGTGGGCGCGTTTCCTCCATCCCTGGGGAGGGGCCCAAGCCCTAGCGCCCCCCAGAGGGTGG
CGCTCCTGTCCTCAGAGGAGGGAAGTGGGGGCCTCAGATCAAGGACCCTGAGCGGGGAGGGCGGTGATGTCCTTGCATCCCCAGAGACAGGACGCATTCC
CCTGTCCCTGACCCCCGCGGCAGAGCGGGGCACACGCGTCACGAAGTTGGGCGCCCCCTCGTCGCCTCCCCTGGCTCGGCAGGATCTGAGGACTCGGTGG
GAATTCACGGGGCGGTTTCCGTGCCCTGCAGGGTTTGGTGCCAGCTGCGGGGCGCCTGGGYTTGGGGAAGAAACCTTGTGTACGCACACCTGCACACACA
CACAGTCTCCGGAGGTGAGCGGCCCCCTCCCTACCATAACAGACCCCAGCCTGTGCATGCCCTCGGAGTCCTTGTTGGGGTCATAGCACAGGCCCGGTGG
TGGGGTCAGGAAGAACATCCACTGTTCTCAGGGCTCATTGGCCTCTGTCCCCGGGCTCCATTCCCCTCCCTGCCAAGTCAGAGGTCAGGCCCCTGGGGCG
GCAGGCAGGAAGGACACTGAGGGAAGGGGCACTGAGGCAGGAGGGGCACTGAGGGAAGCTGGCCAGGTGGAAGTAGGAGAGAAAGGCAATGGGGGTGAGA
TGGTACCACTTCCTCCCCATATGAGGCTCTCAGGAGGCTCCTGGCCCCCCCTGCACAGGTAGTGGTCCCTCCTTCCTGAGGGTGTTTGGGGGAAAACGCT
ATGGTTGGGGCACTGGGGAAGGTTGCCTCGCAGATGAAACAGAACATTGGCCAAAGGTGTCCCTGAATGGGCTTCTGGACTGGCACAGGGCCCTGAGGGC
TGTGGCTGAGTGGGGAGGCAGTGATCAGGTCCAGCTGGCCATGGGGGCCCCCCATTCCCTTCTCCATGACCTCAGCCTCACTCKGAGAGCCCCCAGCAGC
TGGAAGGTCTGGTAAGGGGTGCGTGTTCCTTGATGGCCTTGGGAAGGGTTCCAGGGTAATGATTAATCCTCAGGTGGCACGAGCAATTTCCCCCTTCACA
GCAATATTTCAGGGCAGGCGCTGAAGCCTCCATTGCACAGGTGAGGAAACTGAGGCTCGGAGAGGCTAAATGAACTGCCTGAGGTCACCTAGTCACCTTC
AGCAAGGTCTAGAATCGTGGTACTCTGACTCTTGATGGGAGAAGATCTCCACAGCGGTGGAGAGGAGGAAGGGTGAACGCCGTGGTGGAGTGGTCCATGT
GGACCTGCTCCCCTTTGCTGCCAGGAGGTGAGGGTGCCTGTGGCTGGAAGCTGGGTCAGGTTGAGGAGAGGGTCCAGAGTCCTAGGCTTGCCTTGCCACC
CCTTCCCATGGAGGGAGGGTTGTCCMGTGGAGCACCATAATGGTGCTTTCACCCTGGGACCTTCCCAGCTTGCTTGGGCAAAGCCCTCTCCTCTTCTCTT
CTTCCCAAGGTGCCTGCCTGGCAGGGGTCTCAGGAGGCCCCTCTCCTGGCTCTAACTACCTTCCACCCTTAGGAGACAAGAAGGATTCTTYCTTTGGCCT
CTTGGAGGGCAGCAGGGAGAGAGGTCTCTGCCACTTAGGCCTCAGGCTCCCACAGCAGGGCCTCCACCTCCCTCTCACCTGGCCCTGCCCCTGCCCTGCT
GTCAAATTCTGGGGCCAAGAGGCCCTTTGAGGACTCCTCGGGCAGATCTGTCCTCCATGCTGCCATCTGTCTACGGAGGCCTTTGTCCTGGCTGTCAGAG
GCTGCTGAGCAGCCGCAYGTGCTGTGCAAACAACCGAGACCTGAGCACGGCCAGACACAAACGCAAATACAGTTAGACTGACAGATACCCTGAGACCCAG
ACACAGGAACACACGGGCACACCCAGGCCAAGACCCCTGCCCCCGACTCTGCCTGACACACAAGCACTGAGAGTCACACCATCCAGATGCTGGCACGTGT
GTACACACAGAGAGACGGAGGTTGTCAGCAAGGRGAAGAGCCTTTTCAGAAGCCCTCGTCTTCTGTCGTCTGCCTCCATTATCTCCTCCAGGGTGCACAC
ATGGTACACGCRCATGCAGGAAGAACACGAGGATGCCCTACGCCCTTAAAAATGAACCTGGCAGACACGCACATGCACCCACCCACACCCAGGCCATCAT
GGGTGCACACACGCATGAATTACATCAGCTTCCTGCGTGTGGGATGTKAATGCTTCATCACCCGGGGAGGGGAGTGGAGGCCCCCGACCGTCCCCAGCAA
AGCCTCCCCTTCCTCCCTCTTTTCTGATTCATGTGGACCCAGCTTGACTGGCCCCAAGAATCCTGGGAAACTGCCTRGTGCTTCCCACTCAGTGGACCCT
CCTCTCCTGCCTCCCCTCTGTGTACATACCCAGCGGGTTGCCACGGGAGCCTCTCCCCAGGCTGCTCCWTTGCTGTCTCTGAAGGTGTTGTTCTGCAGGT
CCTTCCCAAGACAGGACAGGACCCAGTGCAGGCTCCAAGCGGCTCTGGGGTTCCCTTTCCTTTCCACTTTTGCTAGAGGCATTACCAGGCCCCAGTTTCT
GCTTTGTCCTCCCAGCAAGGCTGGGGGCCAGCTGGTGTGAAGGGAAGGGAGCCCTCAGCACTCTCTGCTCACCTCCTTGCATGCCAGGACCTCTGCCAGG
CTGGCCCTGGCACCCTGTGCCTCTGAGAGACTGGCGCTGTGGAGAGGTGCTTCTGTGGGCTTAGGTGAGGCCTCCAGGGCAGACATGCTAGATGGGGAGG
GGCTCCCAGCTCCACCAYGCTCCCTCGGCACTCACACCAAGCCTGCCAGRGTGCTGATTCCCTGTCCAAGCCTGGCCCTGCCTCTTGCTGGCTGTGTGGC
CCGGACAAGTCATTTTCCCTCTCTGGGCCCAGCTCCAGCTCTGGGAGGCAGCTCAGCCTGGCTGGGGGATGAGGAAAGTCAGAGGTGTGAGGTGGCAGCC
CTGTGCCAATAAGGAAAGGAAGTTGGGCTCTGGTGGCAGTGTGGGCCCATGGGGCCCCAGGCTGATGACTTCCTGCAGAGTGCAGCCTCTGGATCCACAC
TAGGGCCAAGCAGGGGTCGCCAGTCTCAGGGCTTCTTGGGGCGGCCACCCTGGGGTCAGCCCAGGAGGAGGGTACCCAAGGGCAGTGGGCTGCAGCTATG
TTGCTCACATTTGTGGACATTTTATGCCTCAAAATGTGCTCTATATTTAGGGCTAAAGACCAGCACTGTCAGGCAGGTGGTGACTCAGAGAGGAAGAAGG
GAAAAGAGGCAGAGGAGTGCTGGTGGGGAGACACCCCAAAACAGAAAGGTCCCACTGGGATTCCAGCCTTTCCTACTGCAAGAAAGGAAGCAAAACATGA
TACTCCTGCTTTGCACCAGCACAATGGGAGCAGCCTCGTGTGCCTRCTCACTAAGCATTTAATGAGCATGTAGTGGATCCCAGGGACTGTGACAGGCACT
GGGGCACAGAGATGAGCTGGGTCCTGTGGTCCCTGCCACAGCCCGGTGCTTTGTGTCAGATGAGGAGGTGAGGCTCAAAGAGAGAAAGTGACTTGCCCAC
TCTACAGGTTAATACCTCTGCCAACCGAGGCCACCCTCCCTCGGACCCCCATTCGGAGGAAGCAGACCCAAGTTCGAATTCTGACATTGCCACTGAGCAG
CCGTACAACTTTTGGTGAGTTCCTCTCTCCCTCTGAGTCTGTTTCTTGATCTAGGAAGTGGGAATCATAGCACTTGCCTGATGAGTATGTTTCAAGGGAT
AAGAAGGTGAATGCAAGCAAACACTGAGGGCAGTGCCCAGCTTATCCTAGGCATTCTGCTGGGTCTAAAAGGACATAGATTGGGAGTCCTCAGAATGCCA
AATCCAGTCTCTGCTGTGTGACTTTGGAAAAATCACCTGCCTTCTCTGTGCCTCATTTCTTTCTCCCTAGAACGGGGATGACGAGCTTTTATTTGCCTGC
CTCCCTGGGGATGTTGTTTGCGAGGCCAGACATACTGGCTGGGAACTGCTTTGAAAAATATAAAGCTGCACTCAGAGAAACACAGAGAGACACACTGAAG
GAAAAGCAAACACAAATCTGGAGAAAAATCTTTTCTAAAAACATCMAATACTTCTCTACAGCCAGAAAAAAAAATAATAAGSCTTTTCTTCAGTGTTTTG
AGAGTAGTGAGAATTTTTTCCGTAACTTCGCATTTCCAAAGTAGTTGGCATGGCTATCACCAGGTGAGCTGGGTAAGTTTCCTCCTTGAGGAGTCCTTGC
CTGGCACATATTAGGTGTTCAGTAAGTGATAATGTTAGTAGTAGAATTACCAGTTGCACAGCAAGAGGAGAAGTGGAGGCGCTCCTGGAGGCGAGACCAG
CTACGGCGTGGGCAAGGGCTGGGGGTGGCAATGTGGACACTGGGTTGGATTCATGGAAGGTGGGGGTAGGGACAAATCGGGGTCAGTCTATTAAGGGCCT
TGAATGGCAGGCCGAGGAGTCTGCATTTCCCCAAAATCAATGCAGGATACACGGGAGGGGCAGGCTGAGCCCACTAGCCTGGAATGAGGAACCACCTGGC
GTAGTTCTCTGCCCTGCCACTGCTGTGTAAGGATGGCCCCCTCGCCTGTTTCCCTGGGCCTCATTTTCTCCCAGTGTGCAAAGGAGAGGATTCCAGCCTC
TTCCATCCCAGGGGCAGGCAAGAGGATCAAGGCACCAAGCCACCCGGGAACTAGGTTGCTATGAGAGCTGGAGAGCCGGGGGCTGTCATTGGTTCAGGAA
GTCAGGAACCTTGTGTTCCGCTTCTGGCCCCACCCCACTAGCTGGGTGAGCTCAGGCAAGCCGCCCGGCCTCTTTGAGCCTCCCTTTCCATCTGTGGAAT
GGGAGGATGTAGTTTCTGTCTTTGCAGTACAGCTCCCATGAGTTGAAGCTGGTGACTGTGTTGTGTGAGCCTCAAGTGTGTTGTTGTATCTCTGGGGGAA
TTGCAGTATTTCTTGAAACTACAGTACCTGTTCCTCAGACTCCCCTGAGACGGTGGATCTGCTGGCAAGGCTGGGGTTTGGGGGCAGTGGGTGAGGATCA
GATGCCTGAGCCACCTCAGAGGCTGTGACCTTCTCAAGGCCACGGGAGCCATGTGTCTGCCGCAGCCAGGCTGTGGGGGCAGCAGAGGGAAGGTGGAGGT
GGGGCAGATGGGTCCAGCCCTCTGCTTGGCTCCTGAACTCTGGGCCCCAGTTCTGCGAGGGAAAGCCACCCCAGTACCCTGCTCAGAGGACAGCCCTCTC
CAAGGCCTCACTCCTTGATTCAGGGCTCGAGGGGTAGGGTGGAGGTGGCTGATGGAGGGTGACCTTGGGAACTTCTTCCTGCCTGCAAGCTCGGTGCCAG
AACTGCCAGGGCAGCCCTGATTCTTCTTGCTCAAAAGYTGGCAGCGTCAGGGACCCTCGAGAGGCTGCCAGGACAAGGCCTGAGCTGATGTCACCATCAC
CAGCCTCTTGCGTCTTCCCCTGTGTTGGAGGTCCAGAGAGAGGCCATCCACCCGCTGGCAGACTGCTGTAGGCACTGTGCCCACCCGGGCAGCAGGCTCA
GGATGCCATGGGACTGAAGACTCTAGCCTTGCCTCATTCACCACTTGCCTTTCACTTGAGGTGTGGGAGCTCTGCCAGGGATAGAGGGTTGCCCTTACAG
CCCCTCTCCCAGGGCTCCCTGCCTCTAGAAACAGGACTGGGCAGAGCCGCTGGGACAAAGACCTCACCTGTCCGAGTCCCCAAAGCCCACAGCCCTCCCT
GGCTGGAGAGGTGTGGGCTCTGTAGTCCTCCGAAGGGCAGAGAAGCCTGGGTCCTGCACAAACTCTACAATGCTGGGCCCACCCAAYGGCAGTCAGGGTG
GGAAGTGGGCAGCTAGCTCAGGAATTCTAGGAAGATTCTGGATGGGGGGAGGCATGATGGGGCCTGAGCAATTGGATGCAGGTGGGGSCATTCATTGAGC
ACTTGCAGTGTGCTGGGCCCTATGTAAGCACTTTTCATGGAYCTATCTCATTTAATCCTCTTAGCAACCCTCAAGGGCTCAGAGAGGTTAAATAGCCTGC
CCCAGGTCACCCAGCTGGTGAGTGGCTGGGGCTGAGATTTGAATTGAGGGTTGTGTGACTCTACTTTTAGCCATTTCTGTGTACTGCATGCAGAATGAGA
AGGGGTTGGGGAGGGCGCCATACAGAATCTGTGCTCTGGGTAATGGGAGCAATTCTGGGCAGGGGCAGGAGCAGGGGTGGGGCTGAGACTTGGAGGCTCA
CACCTGCAGGACGTGGCCCTGAAGCTTCCAGGCCCTAAAGCTTCCAGCTCCCCCTCCCCATGGCCTATCCCTGGGGCCCAGTGCCCCAGGCTGGCTTGGG
GGAAAAGGATGAATGGGGACAACTTTTCAGGGGTTCCTGTGGACACACAGTCCCACAGACCCTGACTTCTCCTGGCCCCCTACGTCTGTGTAAATTCCCA
GCTTGGAAACCCAAGAAATCCCCAGCTTCAGAGCTGGGAAGGAGCCCACAGAGATCAGCTGGTCCAACCCCCTYGTTTTACAGATAGTAATTATCATGAT
TATGCCTGATGGGAGCAATTCACAAAGGACTTTCACATCTGGGTTGCTGCTGAGTGTGCCGGAGCCCTTGGGGCCAGCAAGATTCATCCACATTTTGTGG
GTGAGGAAACTGAGGTTCATAGAGGCAAGGAGATGGACCTAGGGGCACACAGTTGACCTTGGTACAGGTCTCTTCCTTCTGAGACCCAGCACCTRTGTGA
CGTGGCTCTGGGGCTGCACCCTGCATTGGAGTGGGGCTGGTCCTGAGAGGTCTRTATGGGGCCAGGGCAAGTATCAGATGAGGTTCTGAGATTCCCAGTG
ATGCCTGCCTCCTCCCTGTCACGGGAACACCACGCCCTTCAGTGGCGTGGTCTGSAAGAGACAGACTGGTGGGCAGAGCTGTTTCCAAGAGACTTCTCTG
CCCACCATGCACATGGGGGCTATGCTGCCCCAGAAAATCAGATTGAGAAGGGCCCTTGGAGGGGCCTCATTATTCAGAGAAGAAAACTGGGGAGCTGCCC
ACAGTCACATTGTGAGCCATTGGTGGCACTAGGCTTAGAACACAGATTTCCTGGCTCAGCTCACAGCTGTCCTTGCACGTGTCCAGTAATAGTACTAAAG
ACAGTCTCCATTTATTGTGTGCCTACTATGTGCCAGGGGTGAGCAGTTTACACTGAATCCTAAGAACAATCCTATGCGGTAAGTACTTTTATTATCATTG
CCATCCTCTTTTACAGATGAAGAAGCTGAGGCTTTGAGAGGTTATGAAAATGGACCAAAGTCACAAGCCAGGAAGTGGCAGAGCAGGAATTTAAGCACAG
GTCCATGTGATTCCAAACCCATACTGATGCCAGGCCTTATGTATATTATGATAGGACTAAAGTTGACTTTCTGTTTCTTTATGTTCATAGTCAACGTAGG
CCATCATTCATTCATTGAACATTTATGGAGTGCTCACTAAAACAAGGAGACTATAGAGCTGATCAGGGTTGAGGGTCAGAGATTAGGTCATGAGGCAGGG
AGTCTCAGACACTGCTAAGCTCTCTGCCTCCACCAAGAATGGCTGCGTCTCCCTCCTTTTTTTTTTTTTTTGGAGACAGAGTCTTGCTCTGTTGCCCAGA
CTGGAGTGCAGTGGTGCGATCTCAGCTCAGTGCAACCTCGGCCTCCTGGATTCAAGCGATTCTTGTGCCTCAGCCTGCTGAGTAGCCAGGACTACAGGCA
TGCACCACTACGCCCAGCTAATTTTTGTATTTTTACTAGAGATGGGGTTTTGCCATATTGGCCAGGCTGTTCTCGAACTCCTGACCTCAGGCGATCCACC
TGCCTCAGTCTCTCAAAGTGCTGGGATTATTACAAGCATGAGCCACCGCGCCCCAGCCATCTCCCTCCTCCTCCTGTCCCCAGCTCAGCCCAACTACATT
TGCAGCCTCTTCCTCTGCTTCTCCTGCCCACCTGATTTACCCCTGGGGTAAATGAAGGCATGACTCAGCTAGGGCTCCTGGGCTTTGTGTATCCCAAAGA
AGACCCTACTGGCAACAGTGTTAACAGCCACCACCGTGCAAGCCGTTCGTGAGCACAAGGCACCATGCTAAGGTGTCTGTGTGCATCACCTTGTTTAACA
CGCCATCACTCTGTGAGCTAAGAGCTAGTATCATCTCCATTTTCCAGATTGGAAACTAAGGCTGACGGTCACAGCTCAAGACTGAGTCGGGGCTGGGTRC
AGTGGCTCTTGCCTGTAATCCTRGCACTTTGGGAGGCTGAGGCGGGAGGACCACTTGAGGTTGGGAGTTGAAGACCAGCCTGGCCAAAATGGTGAAACCC
CATCTCTACTAAAAATACAAAAATCAGCCGGGCATGGTGGCGGGTGCCTGTAGTCCCGGCTACTCAGGAGGCTGAAGCGAGAGAATCGCTTGAACCCTGG
AGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGTGACAGAGCGAGACTGTCTCAATAWATATATATAGCTGAGTTGGAACCCA
CTCTGTCCAGCCCTCTTGAGCCTGTGCCCTTYCTCACTGGCTCACACTGCCCTGCTCTGTATCCAGGCTGTGTAGTTATGCATTTAGAGCCCTGGTTCCT
GGAAGGCAGGGCTTCAGCCAAGCAACGGGTTATTAAGCACCTACTGTGTGTCTTGGGGAGGTGCTTTGTGAGGCTAAAGCTTGTGAGGATGGGGAGATTG
GGTTCCTCTGTGAGAGATCTTGAGGCTCCATGCCCGCATCCTATCCCAGAAGGCATTCAAGCCCGAGGATACCAGGACAGAGCAGCCAGGGCAGGGCAGT
GTGTACTGTTGGAAGGACTTTTTCCCTGGCAGGAGCGTCCCTCACAGTGACTCAGAGCAGTGTGAAGACCTCAGAGAGGTTTTGTAGCCATATCTGCATC
CACTGATCCTTAGGCAAGCCACTCAGCCTCTGGGACCTTGGCTTCCTGATCTGTGAAATGGGGAAGATGATTGTACCTAATTTACAGGGTGGGTTTAAGG
ACTGGATGAAAGCACTTGGCACAGGGCCTCGGGAACTAGAAGGGGCTGTGCCACTGAGCTGCAGCGCACGGGTGATAGGGACTGAGGTCCCGAAGAGCTC
GGAAGAGCTGGATCTGCTCTGTTTGCACACCTCAATTTCCCCCGTCAGCCATGGCAGACATGTAACTCTTGCAGGATCAGCCTCACGGGGCTGTTGTCAG
GATCACAGAGATCCCGGAACGCGTAGGTGCGGCCCCGTGATCTGCGCACCGAGAGAACGGGTCCCGCGGGAGGGGGCGGCGAGAGCACAGTGGGCGGGCG
CAGGTGCGCCCTTGTGAGCTGGGAGACGTGCGGCGGCGCCTGGCGCCGGGGAGAGGGCGAGGACGGGCGCTGGGGCCGCCTCCATGTAAGGGAGGGGTGA
GGAAGTGCGGGGGGTGGCGAGCGCGCGGCCGGTGACTGGGGGCGCTGTCCCGGCGGCTCCGGGTCCCCACCCTTCTCTGAGATGCTCCCGGGGCGCTGTC
CCTGGTCCTGGAGCCCGGGCGGCCGTCGCCTGCAGTTCTTATGACGGCCAATTGGTGGCGCCCGAGACCGCGGCGGACTCCCGGACCCATTAGAGAACAC
GTTTTAAAAAGCGTTCTTCGGCCGGGCACKGTGGYTCACGCCTGTTATCCCAACACTTTGGGAGGCTAAGGCGGGCGCATCACCTGAGGTCGGGAGTTCG
AGGCCAGCCTGACCAACATGGAAAAACCCCGACTCTACTAAAAATACAAAAATTAGCTGGGCCTGATGGTGCATGCCTGTAATCCCAGCTACTGAGGTGG
AGGTTGCGGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCGACAAGGGCAAAACTCCGTCTCAAAAAAAAAAAAAAAAGCGTTCTTCATTTTCCT
GTCATGATATTCCTAGGAAATAAGCCTGCCTACACACCTGACTTCAAAAACCAACTATATACTGGCATAAGAGATGAAAAAGGCCCTCCACCTCCCTACA
TGAATGCTGTGGCATGACCACACCACAAGAGCCAAAGAAGTAACCAGCCTTGGGCACCTATTTATTAAAAATATACCCTTAGATTTAAAAAAATTAAAAT
TATCGTAATAGAGATGGAGTCTTGCTTTGTTACCAGGCCGGTCTCGAACTTCTGGGCTTAAGCAGTCCTCTCACCTCAGCCTCTCAAGGTGCTGGGATTA
CAGGTGTGAACCACCTTGCCCAGCCTACCCTTAGATTTTTTGTTTTTGTTTTTGTTTTTTGAGACAGAGTCTCAAAAACTCCAGGCTAGAGTGTAGTGCT
GTGATCTTAGCTCACTGCAACCTCCGCCTCCTGGGTTCATGCAATTCTCCTGTCTCAGCCTCCTGAGTAGCTGAGACTACAGGCGCATGCCACCACACCT
GGCTAATTTTTGTATTTTTAGTAGAGACAAGGTTTCACCATATTGGTCAGGCTGGTCTCGAACTCCTGGCCTCAGGTGATCTACCCGCCTCAGCCTCCCA
AAGTGCTGGGATTACAGATGTGAGCCACTGAGCCCGGCCTACCCTTAGATTTAAGAGCAGAAAGTCATGTCGCTGTACCTGACCTCTAGTTCAGAATGAC
TTCAGTAGCTGCACCTTTGAAAAATGTATTATGGATTAAAGCCACACCAAAAAATATTCATTTGTAAACCAGAGTTAGGTTCTAGGATGGGTTACCCGGG
CTTTTTACCCACTTGAATATCTAGGAGGATATCTGATGAACAACAAATCTCCTGAAGTGGGACTCTCACCAGCGTAGCTTTCCTGTCCCCCACCCACTGA
ATGACAGTGGCGACCCCGTCATTTCTGAGGACTGAAACCACCCTGGCGCCCTCTGGGGGGCAGAGCCACCCTTGTTGAGAGCCACTGCCTCAATGAGGGC
CTTGTCGGGGTGGAGAGGGGCTCTCAGAGTCCCAGACTGGTTGGCCTCCTGGGAGGGTGGTATCATAAGGAACTGTTGGGAAACTCTCTCCCCCCATTAT
AGATGAACCAGCAGAGGCCAGAAGTGGGAAGGCACTTGTGATGAGAAATGGTGGGTTGCCAGCAGAGCTGGGGCCACAGGCAGGTCTCCCCAGGTCAGGA
CTCCGCCAGCCCAGCTTCCTGAGGGGAGCTCTGGGCCTCAAGCAGTCTCCCAGCTTTGTCCAACTGCCCCGAAAATGGGCTGGGAGGGCCACGCCCATAG
CAGTGGAGGTAGGAGATGGGGGCTGGCCGGCTAGACACCAGCCTGTAATACATGAGAGGTGTCTTGGCCTCCACTCTGCAATCCTGGAGATGCAGCAATT
GCACTCTTCTCTGACCCCCAAAGAGCCATTCTGTCTCCTACCTTTATTTCTTCCCAGTAGTTAGCTGGATGCTCCATGCGTGTTTGTGAGGTGTGTACAC
ATCTGTCTGTGTATATTGTATGAACATAAATAATGTGATTTGAGTAAGGATGTGTGGGCCTGAGATTCCTGTGCCTGTATGTGCTGTCATCAGTGTGTAT
TTACATGCATGTACTAACGCAGCCGGAGTCAGTAGGTGCATGTGCACTGATGGGGGACCTAAGGGTGGGAGCTGGAGTTGACCTTTGCATGTGCACGTAC
TTGTGGGTTTGCAGCATGGGGGCTGATGTTCATGTGAGCCTGTCTGCATGCATTTGATCTTGATGTGATCTCTACAGGCATGAGTTAGATGACTCTTTGC
ATGTGCRTGGCACGGTACTAGGCCAAGTGCATGTGTGACCTGGGAAAGTTTGTGTGCAGTTGTGCACACAGGTCTACCAGAGACCTTGTCTGTCTTGTTC
AGACTCTATCGCCAGTGTCTGAATAGTGTCAGCCACACAGTGGGTGCTCAATACAGTGTCAGCCACACAGTGGGTGCTCAATACTGAATGAATGGGGGAA
GGAATGAAAGACCGTACACCTGGGTGCTGCCTCCAGAAGGGCTTTGCTTYCAGGGCCTTTCAAGCCACATGATCTGCATGGAGATGAGAAACACATCCTC
AGGGGTAGGGCCTGAGTGGGGGCAGGTATTCTGGCCAGGCCAGATTTTCCTGGTCCCTGATGGRGTCCCTTTAAGTAGGCAGGGGTTTCAGAAACCCATT
GAATAGAGCAGGAGTCTCAGAGCCAGGGCAGAGGCTGGCTCAGTAACCTCACTGGCCAGCTGCCTAGGGAAGGGCTGTGAGCCAAGTCACACCCACTCTT
CCCTCCCTTCCCAGGGGCTGGGGAACCCCCAGGAGACTCTTTTTCCAGAAGCTTCCTGGGATTGGGTTGGTGTGGCTTGGCTAGAAAGGCCACAGGCAAA
GTAAGGATAATGATACTTTCAGAGCTAGCAGAATTCTCTCAAGGCAAATGTATCTTTCCGTTGTTAGGTCTTTTTTTTTTTTTTTTTTTTTTTKTTTTTT
TTTTTAGATGGAGTCTTGCTATGTCACCCAGGCTGCAGTGCAGTGGTGTGATCTTTGGTCACTGCAACTTCTGCCTCCTGGGTTCAAGCGATTCTCCTGC
CTCAGCCTCCTGAGTAGCTGGGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAATAGAGACGGGGTTTCACCATGTTGATCAGGCTGATCTCGAACTC
CTGACCTCATGATYCACCTGCCTCAGCCTCCCAAAATGCTGGGATCACAGGCGTGAGCCACCGCGCCCAGCCCACTGTTAGGTCTTTAACCCAGCAAAGT
GAGAATAGGGGTTTAACATATGAGCAAACTGAGGCCCAGCGAGGAAAACTGATTAATGCAAAGCCACACAAGAGGCTGCCTGGGCCAGGGCAGGAAGCCC
AGACGCCTCCTCTCCTGCCCAAGAGGCCTGGGGCAGATATCCTGAATGAGTATGACTCGGGGAGGGGAGGAGGCTATTGGAGGCCCTGGCAAGTGTTGGC
TCCACCAGCCCCACCTAGAGCCCAGACCTGAGATCTTCCCAGGGTTTGCTCCTCCCTCTCCCCTTCCATCTCCCTGGAAAGGGGGAGCTGGAGGTAGGTA
GGTGGAACACCCAGAGTTCAACAAGAGGTGAACTTGGAAAGGCAGCTCTGCAACCCTCCACCCGGTGCTCTTCTCTCTTCCTCTACAGTCTGGCAGCTGT
TTGAACAACTTGGGTACAAATCTAGGAGGCCCAAAGGGGAGGCTTCCTCTCAGAGGGAGGGCCTGGACCCTGGAAAGCAGCCTGGCACTGTTTTCTAGGT
AAGAGGCTGGAGGCCAAGGAAGAAGGGGGCTCAAACTCCTTCAACGATGGCAGTGACTTCCCAGTGCCAGTCAGCAAGCACCCCGTGCTGACTGCGGAGC
AGTGATGTCCCTGTCACAGTGGGCCAGTGAGGCCAGTGTCATGGGATGTTACTAATGTGTTTGACATCACACAGCTAGGAAGCATCAGAGCCTGGTCCAG
CCCTGGTCCCTGTCACACTGCCTCTGTGTGTGTGTGTCAGTCCTGGAGGCTGTTCCACATGCCCACACACAGATCTTCCCCAGTCTGTCCCATAGCTGCA
TGGCACCGCATAGCATACATGGACCATAATTTATCAAATTTCCTCTGGGTGGCCATTTAGTTTTAGAATTCTTACTAATAAATCTTTGCTAGCCCTACAA
AAATGGCAACTTCATATAGTTTAGCCTAATAAAAATGATGCTGCTACAACAATTTTTTTTCTTTTCTTCTTTTTTTTTTTTTTCAGACAGAGTCTTGCTT
TGTCACCCAGGGTGGAATGCAGTGGCCTGATGTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGTCTCAGCCTCCCAAGTAGCTGG
GACTACAGGTGCCAACCACCATGCCCGGCTGATTTTTGTGTTTTAGTAGAGATGGGGCTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACTTCAA
GTGATCTACCCGACTTGGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTAGCCTTTCTTTTTCTTTTTTCTTTTCTTTTTAAGACAGGG
TCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAGTCAGGGCTCACTGCAGCCTCAACCTCCCAGGCTTGAGCAATCCTCCCACCTCAGCCTCTCAA
ATCACTGGGACTACATATGTGCACCATCACACCTGGCTAATTTTTAGAGTTTTTGTAGAGACAGGTCTCACTATGTTGCCTAAGCTGTTCTCCAACTCCT
ACTCTCAAGTGATCCTCCCTATTCGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCGTGCTCAGTCAGCAAATGTTTTACTTAACAAACACATG
TTAAGTGACAAATACTCTACTCTTCTCAGTGCTTTATCATTAGTAACTTATGTAATCCTTGGCAAAACCCTTTGAAGTAGATACGGTTATTTTCATCATA
AATCCCATCTTGCAGATGAAAAAACTGAGGCTCAGAAAGCTTAAGTAACTTGACCAAGGTCGCACAGGTGACAAGCGGGAGAGCTGAGATTTTAGCCTTC
AACGGTGAGGATATAAGCACATGCCTCAATGTCCATTGTCCTTGCCATTCATCTACAGGCTCACAKGCTATGATGCAGAAGATAAATTCTTGGAAGTGGT
CTTGCAGGTTAACAGGATGCATTTAAATTCAGCCRTCACCAAAGGACCAGGAGCTGGTCAGGGACTGTCCTGCTGCAACCCTGGCCAAGGGAACGTGACC
CCCCACTAACCACCCCCACTCCCACCCCCACCCCCATCCCTTGCCAATGAGGCAGCTGCAGCTGGTCAGAGCAGAGAGGCTGGAGCCCACACTGGGCTCT
TTGTCTTCGGTGGGAACCCTTCAGCCCCCATGGCYCCTCTCAAGGGCCCACTGTSCCAGTACCAGTGGGGCCTCCCGGGGGCCASGCCTGGCTGGGAAAC
TTGCCACGTTGGCGGCCCCTTGGCTACTCTGYCAACTGGGCATGCAGAAACCACTCAGGAATCATTCCCACTGAAAAGACTGGCGAGGTAYAGGTCCATG
TCGAAGGGGATGCAGCAGCCCAGATGTGGCTGGAGTCCAGGCCCCAGCCCAAGCACTGTGCACATCCTCATAGCCCAGGCCTAGCTCTTCAGTCCTSTGC
CCCAACCGCCTCCCACCTCTCTGAGAGGCCCTGCTGCTGCTGCTGCTACTACTTAGGAAGGAGGGAGGGAGGAAGGGAGGGAGGAAGGTTGTTGCTGCTA
CTACTTAGGAAGGAGGGAGGGAGGGAGGAAGGAAGGAAGGARGGAAGGAAGGAAGGAAGGAAGGAAGGAAGTTCCTCCCTTCTCAGGCAAACTTCAGTGC
TCTCAGGACCCACCCCTCAGGAGYCTGCCCTGGTGTGATTCCTCCCCCCAGGACTCTAYAGCACTGCCCAGAGCAGAAGGGGCCCAGTCCAGGCTCCAGA
GCACCTTGCAAGGGGAAGCCACACCCTCCTCTGAGGACTGAAAACCAAGGGACATAGTTCTAGGAATGAGGAAATAATGTTTGCCCTGTCCAGGCTCTGA
ACCCTGCAAGGGGCTCTTGAGGGCTCCTGCACCCACCAGAATGTGCAGAGAAGAGGTCCCAGGTGGGAGCCGAGAGGGGGCTGAGGGCAGATCCCCAAGA
GAGAAGTAATTGGTGTGAGAGAGGATCTCAATTTCTTCGTGTCTAAAATGGGGAAACTGCAGCGCCACTTACCCTGCCTAGGTGAGACAAACCGTAGACC
CTGGTACCCAGACTCGTCATTTCCCAGGGGATGCTGGAGCTCACCAAGCCCAGGCCCGGGTCCCAGGTGGAACAGCTCCGGAAAGGCGTCTGCAGAATCC
CTGCTGCCCTGTCCTTGTGCCCTTGGTCATCCTTCCTCCCTCATCCCCGGCTGCATCTGTGCCCTGCAGTTTGTTTAAACAGAAAATCCCATAGCAAACC
TTGAGACTGTGGGGGCCTCCTTGGGTGCAGGGCCTGGGGGAAGGATCTCTCCCTCTATGGGGGGAAGACTGGGTGTTGGGCTGGAGGGCAGTGTGCTCTG
GGGTCAGGGCTAGTAACCCGGTGTCTGCTGACACAGCTCCACTTGGGTGGGGGAAACAGCTTACTCTGAGGAAGAGCRCTGGACTGTGAGCTCTGGGCGA
GCTGGGTGCAGAAGAGCGACTTGGAGTGTTTAGTGAGCGAATGAGTACCTGCTGCAGAACTCAGAGCCCAGTTCCCTCTAAAGGTTGGGACCTGGACTGC
ATGACTTTTCAAGAGGGGAGTGGAGGGGGGCGTCTCCACTCCTCCCCTTTGCTCTTCCTCCTCACCAGGGCAAAGGGGAAGGGGACTCCTGGGAGAAGGG
GAGACAGGTGGGCAAGGAGGGGCTATTGGAGGCTCTGTTCATTCACTCATTCGTTCGCGGGAAGGGTAGAACGCTGTCCCCCTGCGGAACTCTTGTACCC
GGCATTTATTAAGCATCTGCTGTACGCCAGGGCCTGGGCCGAGCGCTTTACGTGCGTGAACTCATTTCGTCATCCCCAGGTCCTAGGAGGCCGGCGGGAG
GAATCCCACTTTACAGATGAGAAAGTCGAGGGACAGGGAGGGGCGGGACATGCCCGCCGTGCAGACCCAGGCTTCTGGGAGGGAGCTCCCAGCTCGTGAT
GATGGGGACGGATCCGCCGAGGAGCGCGGCGGCTCGAGGGGGCGGGAGGAGGGCGTCCCTCCAACAGAGGGTCTGCGGCCTGGACGGGGGGCGGCGGCCG
GGAAGGGGGTGGGGGAGGGGCTGCCCCGGGCCCCGGGCCCCGCAATCCCCGCCCGGCTGGGCCCGGCTCGGAAAGTCCCGCGAAGCCCCCGCCCGGCCGG
CCCAGGGCGGCGCGAACAAGCGGCCCTTTCTGCGCCGGCGGCCCCCGGCAGCTGGACCGCGGCCCGCTGGGGCGCGGACGTATCCGAGCTGGGGCGGGGG
CGGGGGCGGGGCGGCCGCGTTGCCAAGGTGACCCGGGCGCGGGAAGGCGGCTCCGGCTCGCGCGGGCCGGGCCGGGCGGCGGCGGCGGCACCATGAGCGG
CCGGAAGCGCAGCTTCACCTTCGGGGCCTACGGCGGGTAGGGCGTGGCGCGGCGCGGGGCGGGGCGCGTGCGCGCGTGTGCGTGTGCACGCGTGGGGGGG
AGCCCGTGCGGGGTGTGCTCGCGTTTGGGCGGGTGGGCCTGGGCTATGACTGCTGTGGGGGCTGAGCGTTTGACCTCAGTGCGCGCATGGCTGTCGTGCT
GTGGCGCCTGTGTGTGTGTGTTTCTGTTTCTGTGTCTGTGTGTGTTCCCATTGCGTGTCCATGTGCATGTGTGGGGAGGTGAGTGCAGGGTGGACATTGC
TGTGTTTGTGTCTAAGCACATGATAGTGGCGCTTATGCATGTGACTGGGGCTGCGGGGCTACTCCGCCTGTGTGTGCGCGCGTGTGTGTGCATGCGTGTG
TGCGCAACTGCTCACATGTATAGGTATGTGGGAGTAGGGGCAGGCAGGTCAGGGGGAGGTTCTGCTGGACCTCCCACTTTGCCTCTGCAGCTGTTGGGCC
CCTCAGTGACGCTCTGGATAAAGGGACTCTAGAAGCCCTTAGCAGGTCCTGCCCACCCTGGGCACCAGGCTGCCCTCCTTCCTGCATCCTGGCTCTCAGG
AACCTCCTCCTCCCTGGGCCACTGGCTGCCTGGGCTTGGAGGCCTGGAGGAGGTCAGAGTGGCAGCAGGTTCATCTTGGGGTCAAGGGGTGCAGAGGTGG
GATGGGGATTTATGCCTGTTGCGGAGATTTGGCAAATTGGAGGGACGATGGGTTAGACAGAGTGGGCTCAGAGCCCCTGCCCAGCCAGACAAGCGGCTCC
ATGACCTTCACCAGGCCCTACCTCCCAGTGGTCATAGGGACCCATGGGACCCACCTTGGGGTGTGGAGCGCTGGGGCTTGTGTGTGGGCATGGTCAGTGT
TCTCTGAGCTATGGGGATTGTGTCCAAGCTGCCTTCCCCTTGTGGACGCTCAACTTCTGAGGTGACCCCAGCAGAGGGTGGGGTGGGGTGGGAGGCCAGA
GGCTACCCTTCCATATGGGGTCTTGCTAGCTGTCAGGTGATGAGAGGAGCCTRGGCTAGGCCCTGAGCTTCCTGGCCAGCCAACACGGGCAGCTCACAGG
CTGGGTCSTGTTCTATGACCTTGGGCAAGTCCTGGCTTCTCTGACCTCACTGTCTGCAGAGTCGGCCTTCCCCATCAGSTGTCCCTGGGAGCCCCCAGCC
CTGCCCTGCGGAGGACGTCCTCTTGCTGGCAGAGTTGGGCTGGGCTCCCTCCTCATCCCCTTCTTACCTCTGGGCAGGAGGCGAGTTGTTTGTTGTCCCA
ACAGCTGCTCAGCCCCTGCCCCCAGCGGCACCAAGGTGCCCTCAGAGGGCAGTAGGAGAATCYGGGCGGRGCGGGAGTGCTACCCACACATGCGTCCTGG
GGCTGGATCTGGGTGGATTTGGGGGAGACAAAGTCTGGGGTACCCCTGAAGTCTTAGGGAGCAGGGTACGTGTGTTGGGGTGAGGGTGGGGGRAAGCTCC
TCCTARATCTCCTCCCAGATTCGCAGACATTTGCTTCCTGGGTGGATATGAGTGAACAGCTTCAGGATTGAGGCAGGCTACGGGCCTTGGGGGTGATGTT
CTTTCTGCCCACCATAAACCATAGATATCCAGCAAACTTCCATCCTGCCTAGAAAGGCTCTAAGCTAGCCCCAGCCGCACCCCTACATCCTTGCCATGAT
CCAAGCTGCTGTAGTCACTGTCCTACTCCACCTGTCCCCCCACCCCTGCTAACACCCCACAGCCCTGCCCCCTGCCCCACTGCCCCCAGTCCTGCCTCTT
TTCCTGGCTCTTTAACCCCTATGCCTTCCCATGTCCCTAATCTGACAGTCAGGCGACTGCAGCCTAAGGGTGATAGTGACTGCATCAGGCATCCTTAGRA
ACAGGACCTTCTCCAGCCCCTCTGGGAGGGTGGTGCAGTGCAGGTGGGTGTGATATGCTGGGCCAAGCTGGTGAGAAGGGATGTCCCCTCACCTATGGCC
CCTCTTGTTGTGTTTCAGGGTGGACAAGTCCTTCACTTCTCGCCGGAGTGTGTGGTGAGTACTGGGGACTCTCAGGAGGGCCTGGGTTTCCTTGGCTGGT
CCCTGCAGATACCCCCAATCCATTCCTACCCCTGCGATGCCAGGCCAGACCTTACCAAGCTTCCAACCATCCTCTCAGGGCAAGGGGGTGGGCAGACCCT
CTTACTGTCCCCAGAGTACTTTTTTAGAGAGCCTTGGAGGCAGGCAAAGCAGGTTTACATCTTCACTCTGCCACTGCCTGTGTGAACTTCAGCAATTCCT
TAATGTCTCTGAACCTCAATTTTCTCATCTGTGAAATGGGGATTAAAATGCCTATTCATAGGGTGTAAGGTAAAAAGAACAAAAMCAAAAACTGGCCCTG
GCATATTTTAGGCCCTTTTTGCTTAAATGCTTCCTTCCTTTTTTTTCTTCTCTATTTCTTCCCACCTCAGGGTGGCCCCTCGCTGGGCTGGGGCTCCCTT
AGCCTTTACTGACCCCCAAATCCTCTAGTTACTCCCCCCGACAGCCCTCAGAACCCCTTCCTCCCATATTTCCTGTGTCTGGGGCTGCCCTCTCTTTGGA
GGAGGAGGGAACGAGGCAACTGTATGTGCAGCTTCTCAACACCAAGAGGCAATGGGTGGAGGTGCAGCCTCACCTCGGGATACATCGTGGCACCCTGATG
CCCCAGCAGGCAGGTGCCTCCGGGCTTCCCTGGCATCAGCATCACGTGGGCCTGGCTGGCTGCTCCTGCTGCTGCTTCACCTCCAGCAGGAGAGCCCCCC
GACGGCTCTGGCTGSTGCTTCSTGCCCCTGCTCAGGGCTGTCTGGGGTCCGTGGGTCCTGCAGTACCCCCCAGCTGCTGGGCGACTCCCATCTGGCACCA
TCGTCCCCGCAGAGCCCTCCTGGGAAGCCAGGCCTGGGGTGGGAGGCACACAGGGTGCCTCAGCTAAGCTCCCAGCCTGCCTTTMTATTTCCCTTTGATG
CTCTCCATGCAACCTCAGGSTGCTTCCTCTCCCTTTSTGGGCATCATCTCCTGCTGCTGTGCCTAGTCCATTTGAGCCCCTCCTTCTGCAAGATGGTGTG
CTATGCTCAGAGCAGGGGTAGACTGAGSGGGGATAAAAGCAGAGGTGAGGAAGATGCCATCCTTTCCTTCAGGGAGTTCAGTAATAACACCACTGACAAC
TGCCACTTGTTGGGCACCTGCTATGCACTGGGTACTGTAGTAGACGCCTGACGTGTTATCTCATGTAACTCTGGCCACACCTCAGAGTTAGGGACTATTA
TCTCTAATTACAGATGAGAACAATGAAGCCCGGAGTGGGGAAATGAGTTGCCCAAGGTCACACAAGCAGTTGGGATTTGAACCTTGATCTTCCAGACTCT
GTGCAGAGCCCAAAACCTCGCCTACTCTGTCCCAGGGCCACCAGGCCACAGGGAGGGTCTGAACGAAGGATGCRCTTGAGGGAAGACTCAGAGACAGGGG
CCACCCAGAAGGCCCACCCCAGGGAGCCCTAAGCCAAGAGTTAGAGACGAGGGCCCAGGACTGATTGTAACTGGCCAGCTGTGTGACTTTGGGCGAGTCC
CATCCCCTCTCTGGGCTTCAGTTGACCCGTCTATCAAGTAAAGATCGGCCATTCCCCAGGACACGCCCCATTACCCAAAATGCCTTGCCCGTGCTCGCCT
AGCTGGAGCCGCTGTCCAAGGTGCTAACCCTAGGCCCTCCCTTCCCAGCTGCCAAAGGCCATCGCTTAACTCCAGCCCATGCGTCAGTGGTGGCCATTTT
GACCATTAATCATGATCTCCTGGCATTCAAGGGCTGTCTCCACCTCCTTTTCTAGTTTGGGGCTTGCTTCTCCCGTGCTCTGTGTTTCTGATCAACGGGA
ACATGGCCCAGTCAGCATCACCTCCCCTTGATGTCCCTCCACTTCCATTTCCACAGGCCCTCGCCACACCTCCAGCCCAACTTTGTCACCATTTGTTGGG
TGTTTTCTTTCTTGATCCCCACACCCCCATTCCCTCTTTAGAATGCCTCCTCTGCTGCTACAGAGCATGCATTCGTGAATGTTCCTGGGGTAGGGGAAAR
AGCATGGCAGGTGTGGACTTGAGTCTGACAGGTGTGGACTTGAATCTGCCTCTGCCACATTCTAGTTGTGTGACTTTGGCAAGTCATTTTCCCTCTCTGG
GCTGCACTTGCTGCTCAACATGTGCTTGTTGAATAGGGCATTTCCGGGAGCTGACTTCAGGTGAGCTGCATGTGTTCACATAACCCTGCAGTGCAAAGCA
GGCTCTGAACTCCTTGAAAGGAGAGGTGCTTGGTCGCTTTTTGTTTTTTTGGAGACAGGGTCTCACTCTGTCGCCCAGGCTGTAGTGTAGTTGTGCAGTC
TCGGCTCACTGCAACCTYCACCTCCTGGGTTCAAGTGAATCTCTTGCCTCAGCCTCCTGAGTAGTTGGGACCACAGGTGCATGCCATCACTCCTGGGTAA
TTATTTTTGTATTTTTAGTAGAGACAAGGTCTCACCATGTTGGCCAGTCAGGTCTCGAACTCCTGAGCTCAAGTGATCCTCCCATCTCGGCCTCCCATTG
AGTCACATTTGAGCTCAACTTAGCCCCCACTTTCTCCCATAAAGGCCAGGCTGTACTTTTCTCATGTCTCTGTCCTCCACATGGTCTTGTGCAACTACCA
TGCCCATAAATGCTTAATGCTTGTGGAATTGAATTGAGTGTGTTCAGGGAGGGGAATAAGTAAAACCTTGTCAGTAGGCTGGGAAGGCTTCCTAGAGGAG
GTGATTTTCCCCCACCCCTTTACAAAACAGGATTAAGAGGTTAGGACTTGGATTAAAGGAGCAGTGAGTCCTGGTAGAGGCCAGATGTGATCATGGCTGA
GTTCCCCTACACATCCCTAACCCCTCTCAGCAGGTTGTCTGCAGTGGAGGACCTCAGAGTAGGTGTGCAGATGCAAGAGGAAGGAGGCCCAGTGTGAGGG
TTGGGAGCCAGTGGGACAGTGGGTGACTGATTATGCAGCCCTAAGGGACCCAGATATCCTAGAATGGGGGCTGGACATTTAAAGTGTATTCAAATGGATG
GTGGGAGGTAGAGAGGTGTCAGGGTAGAGGAATGGTCAAGTGGACTTGTGCAAGGTAGGAGCGTTCTGAAAATACCTCTGGGAAGAGGAGAGTCAACTTT
GGCCTTAAAACTAGGAGCCTGGGAGGTGGAGGCAGAACCCAGAAAGGATTAAGAGCTGACAGCATGCCAGGCATTTTACTCTGAAGGTCTCATTAAATCA
TGGCATCAGTCCTGCAATTTGGCCTGTTGTTGCCAGTTTAGAGGCCAAAACCAGGACTGAGAGTGGTGGAGGCTCTGGCTCAAAGTCACAGCTGGTGAAG
GCTGGATTTGAATCCAGCTCTTCTGCTGAGGAAGGGACCTAGGTCAGAGACAGTGAAGCTGCAGAAATGGGGAAGGTCTTGGTTATGAGTTAAGGGAGGA
GCGGGGAGTGATGTAGCCCTGAATGCCACCCAAACGGGAGTCACTGCTCAGTCCATGTGTCCTGCTGGGAAGGCCCATCTGGGTGCTGAGATGTTTCCTC
TTGACAGAATTGGTACCAGTCTCTCCCATATATGGAGCACTTCCTGTATCCCAGGCCCTGGGCCCAGCACTTCCCCTGAATCATTTCATTCCATCCTGAC
ACCAGCCTTACAGATGACTGTTTGTCCCTTACTACTGTCCATCCCCATTTTACAGATGAGGGAACTGACGCTCAGAGAGGGGAAGTGGTGGCCCAGGGGC
ATGCAGTCAGTGAGGGGTGAACCAAGAYTGACAGTAATGCCACTCTGAGCCCATGCCTTTAGCCCTCGATCTCCTGGATGCTGCTTGTGCTGAGTGGTGG
GCTGGGGTGGGTGGCCCTGTCCTCAGGTGGCTCCTTATGGCAGTCACTGAGCCAGAGGCCCTGGGGCCTGTGTGCTGCTGCAGGAAGCACAAGGCTGGCC
TCATTAGTGGCTCTGAAATGCCAAGCAGGCACAGCCCGCTGGGCCTCCTCATCTATTATGCATCTGGTGGGCAGGCCCCCGACGGGCAGCTGGCAGTGTA
TGGGATGGGGGAGCTAGCAGCTGCTTCCTGAGCCCATGGCCGCCACTATACCTCTGGGCAGGGATCTCCCAAGGCAAATGCCAAGGCCTCCTGCCTCATC
CCCTTGGCCAAGCCAGGGTGAGGGGGTTCTACTGGGGACAGGGGCATGGATGCTAGTCCCCAGCTCATTAGCCTGGCTATCCTAGCAGCCACTTCTCTTT
ATTTTATTTTATTTTTATTTTTATTTTTATTTTTTGAGACAGGGTCTCACTCTGTCACCCATGCTGGAGTGCAGTGGGGCAATCTCAGCTCACTACAGCC
TCGACCTCCTGGGCTCAAGCGATCCTCCTCCCTCAGCCTCCCAAAGTGCTAGGATTACAAGCGTGAGCCACCATGCCCAGCCCCTGGCAGCCACTTCTAA
GAGAGGCTGAGACTTCGATTGAGCTGGGGGTCATTTGGGACCAGAATGGGCAGAGGTGGGCTGAAATAGAATCTTAGATGCCCAAGCTCCTGGCTGTACA
GAGCCTCAGAGCGATAGAGCTGTGGTCATTTGTTCATCATTTATTCATCCAGCCACAGTAACCACTGAACACGTACTGTAGGCCAGGCATGGTTTTAGTT
ACTGCAGATTCAGCAGAAAATGAGACAGGCCTAGCCGCTATACTCAGAGAGCTTGGTTTGGGCAGTACTTCACCTCACTGAGCCTGGATTTCCTCAACTG
TAAAATTGGGAATGGCGGAGGCAGACTATAAGTAAATAGACAAGGAAACAACCTCTGATGGGTACACTGAATTTCTTTCTTTCTTTCTTTTCTCTYTTTT
TTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTTACCCAGGCTGGGGTGCAGTGGCGCGATCTCGGTTCACTGCAACCTCCACCTCCGTGGTTCAAGCA
ATTCTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCTGCCACCACACCCGGCTAATTTTTTTGTGTATTTTTAGTAGAGATGGGGTTTCACCA
TCTTGGCCAGGCTGGTTTCGAGCTCCTGACCTTGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTATAGACGTGAGCCACCGCGCCCGGCCAGG
TCCACTGAATTTCAAAGCAAGGTTACATGCTAACAAGAGCTGGTCCTTGCCGAGAGCTGAGCGCGTGCCAGGCTGTGTTTCAGAGCACTTTGCCCACGTT
CATGGGTTTGATCTTCACAACAGCCCTGTGAGGCAAGACCGTTATGAACCCTGGTTTAGGGCTGGGGAGGCTGAGGCAAAGAGAGGTTAAGTAACCTGTT
CAAGGTCCCTTGGCAAAGCTGAGATTGGAGCTTAAGTAGCCAGGCTCCAGTTTGCTTGTCACCCTGCGCTGTATGGCTGGAAAATGAAGGAGTCCTGGAA
AGCCTTTCTGAAGAGGGGGTGTTTGAACCAAAACCTGAAGGATGAGAGGAGCTGGCCATGGGGGAGCTGGCAGGGTGTCCAGACAGAGGGAGCAGCAGGT
GCAAAGGCTCTGAGGCAGGGATGAGCCTAGTGCCAGAGAGACGCCCTGCTTCCAGGAAGGATCCTCTATAGCTTCAGGAGACAAGAGAAAAATCCCCTCC
ACATGCGTTGTGGCTCTGGGACTGCCACTGTTTGGCTGTGTGATCTTGAGAAATGGGTCCCCATCTCACTTGTGCACAACTCTGCTATCCCACGTCTATC
CTCAGCATCATGAAGAGAGGACTCTTGCCGCCCTGAGGTCCCTGGTCTGGTTGGCCCTGTGTGCCCCTATCTCCTGGTGATGCTCAAACTCTGGTCTATT
TGTCTGAGATGCATGGGAATATTTGAGTTCTGTTAGGTAGACCTGAGTTCAAATACCCAGTTCAACTTCCACTTACTTGCTGTGTGGCCTTACCCCAACT
ACTCTGCCTCTCTGAACCCCAGATTGTCCATAACAATGGAAACAGTATTGCTTCGAATGAAATGAGTGCAGAGTGTATGCGCAGGGGGATGTTCTCCCTT
CTAACTAAGCATTTGCATTTTGAGAGGAAAGACTCATTCATCCAAAGAGAGATTCTCTAGTGATAGAATTTTAGGCACTGTCGTGGCCACAGGGGGTGAG
TAGATGGCTAAGGAGGGGATTTTCTTTTTTTCTTTTTTCTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTGTCTCGCCCAGGCTGGAGTGCAGTGG
CACGATCTTGGCTCACTGCAACCTCCACCTGCCAGGTTCAAGCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGTGCCACCATGCCC
AGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCATGATCCGCCCGTCTCGGCCTCCCAAG
GTGCTAGGATTACAGGCGTGAGCCACCACACCCAGCCTCGGAGGGGATTTTCTGATAGCCCAGATCCTGGAAAGGCCTTCTGAGTTCAGGATCTTCCCCA
AAATTCATTCATTCAGCAAACTAATTCAATAAGCATTTAGTGTGGGGACACCCTCCTAGGGCCAAACCCTGTGCTGGGCGTTGGGGACTGTGGTGGAGAA
AATAGATGAGGCCACTTCTTCTGGGTTCAGAGTCTAGAGAGGGTCATAAGGAAAGAGGTGGTTTGATGGGAATGACATGTGCTGACTAGGGAGATGTGAG
GGTTGCTGAGATCTCAGAGAAGGGACTCCTGCCCACATCTGGGAATCAAGGAGGGCTTCCTGGAGGAGGTGACTCAAAAGTTGAAGTGGGCCAAGTGGCA
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTGGGGAAGGGAGGTGCACTGTGCGAGAATGTTCCAGGGACAGGAGGTGGCAGGTCAGC
AATGTGGAGGAGAAAAGTGTGTGGTGGCACATGCTGGATTCAAGACTGAGTTGGGCCTGACAGGTGAAGGGAAGAGAGACAGCCACCAGATCATGTCCCT
GYAGGCCCTGCTGGGACTTCTGTGGGCTACGCTGGAAGGCTCTGAACCCCCCAGCCACCATGGGAAGAGGCCTGCTAGGGTGCCAGTCGCCCATCCTCCT
CCCTGCTCCAAGGAGCTGCTGTGTGAGACTGAGTCAGCCGCAGCTCAGGGAGGCCCTGACTGTGCTCTTAGTGCAGGGCTGTGGAAGCCCTGGAGCCAGA
GTCTGGGCTGGGACCGCAGATGCTGTCTCGGCCACCAGCTGGCTGGGTGACTTCTCTGGATCTCAGTTTCCTCACCTGTAACATGAGGGCAATAAAAGTA
CTACCTGGAAGATTGGTGGGGGGATTAAATGAGATAATGGGTGCCAAGGCCTGAAACCAGGGCCTGGCACAGAGCACGTACTCCGTCGATGCCAGCTATT
GCGGTTACTGCCATCATCGCGGTCATGGTTACCTGCTGCGCCYGCAGTGGGTGCGGAATTGCGCTTGGTGTGTAGACTCTGTCCTCTGGAAGCTTGCTGC
CTGCCAGGGGGTGACCTGACTGCCTACACGTGACTGTACACCCCAGCCRTGGGCACTGGCCTTAGGCACTGGCCCTGAGAACACTGGCTTTGGAGTCTGA
TGGGCCTGGTGCCAGGTCCTGGCCAGTGACCTTGAGGAGTCCGTCACCTTGCTGAGCCTTGGCTCATTCCTTTGTGCAGTGGGGGTGTTCATGGCCCCTG
CCTCACGGTGAGTGAGAGGCAGTGAGGAGGTGCTTTTAAAGGGCCGGCCGGTGTAACAATGCAGCTGTTTCTGACCCCATGCTGCAGGAGGGAAGAAACA
CATGCCTCGGACCCAAGTGACCTAGAGAAACATCACCCTCCCTCTCAGAGGCTCATTTTCATACCTATGAAATGGGAAGGTTGGCTGTGATACACTCTGA
TGTGCTGGGGTTCTAGTGGAGTTAGCTTGTCCCTAAGTTTGACCTGGTCCAGCTGTTTGCTGTGTGACATTGGGCTAGAGACTTAACCTCTCTGAACCTC
AGTTTCCATGCCTGCAAACGGGCAATGTTCACCTCCTGGGATCTTTCAGGGCTTCCATTAGCCACTCGTTAATTCAACAAATACTTACGGAGTTCCTACC
ACATGCCAGGTACTAGTCTAAGAACTGGGGATGCAGCAGTGAACCTGACAGACACGGTCCTTGCTTCACGCATGTTATCCTCCAGTGCAGGAGACAGACA
GCTAAGGTAGCTTCAGATGGGTAATGTGTAGTACGGATGGGGTGGGTGCAAGGCCTGGCTTTGYCAAGGGTATCAGGGAGGGGCCTCTCTGAGGCCTGAA
TGGGAAGGAGCTGGCTGTGGGAAGAGTAGTCCAGGCAGAGGGTAGAGAAAATGTAAAGGATTGGGGGCAGGAATAGGACTCCTTCCCCCGCCCCAAAGCT
GGAACATTCCAGATCATCTCCTGGCAACAGGTGGAGGTGGCTGAGAAGGCAGAGAGGCTGGAAGCCCACTTCTTTCAGATCAGGAACTGCTCCCCAGTCA
GGTGTGGTGGCTCATGCCTGTAATCCTAGCACTCTGGGGAGGCCGAGGTGGGTGGATCACCAGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTG
AAACCCTATCTTTACTAAAAATACAAAAAAAAAAAAAAAAATTAGCTGGGCGTAGTGGTGCATGCCTGTGATCCCAGCTACTCAGGAGACTGAGGCAGGA
GAATCGCTTGAACCCAGGAGGTGGAGATTACCATGAGCCGAGATCACACCACCGCACTCCAGCCTGGCCAACAGAGCAAGGCTCCATCCCACACACACAC
AAAAAATAACTGCTGCCCACAAGACAGGCCCGGTGGGGTGGTGGGGAGTGTGGGCAGCCATGGAAGACCAGGCTTGGCTTGAGTCTCAAGTGAGCTGGGC
TGTGCAGGCAGGAGGCTGGGCTCCAACCTGTAGGAGCAGGCAGGGGTGGAGCTCACTGCAGGGCAGAGTCAGGCCTCCAGCCTGGAGCCCACCTGACTGG
ATCTACCTGGCGCAAAGACCCTGGACCTATTTTAGTCGGGGGTAAGGGAACTGCTGCTTGTTCTCCCCTCACCCCAGCCAGCCTAGGCACTGGCCCCAGG
TTGCCTTGGCCTTTCCCAGCCCAGCTGCCTGCAGGCTGAGGAAAGGTTCTTTGAGATGACCCATTACATGTACACACACACATATTTCCCTACTCACACT
CATAGACTTGACCCTTGTAGAGACAGCTTCATCATGAACATAGAGGCACAGACATACACATTCATTCATGCAGCAGATCAGACCCAAACAGACCCAGGCA
TGACCTGAAGAAACCCCATTTCTAGCAGGAGAGACTGACAGTGGCTTAATGGTCACACYATGAAATGTGCAAACGMAACAGGTAAATCCATGAAGGCCCA
AGACAGGCTTCTGGGAAAGCTGGTCAGGTTCGGAGCAGCTTCTCCTGGTCTGGGGAGGGGGCTCTGGAAGACTGAATACAGACATAGCACCTGAAATGTG
ATCCAAGCGGACGGGAAGGGGGTAACASGCAGGGGGCACAGCGTGTGCASTGGCCTGGAGGTGGGAAGGAGCACCTCGGGTTTGAGGAGCGGAAAGGAGT
CTGGAGAAGGAGGAAAGAAGCCCTGGATGAGGCCAGAGACASTGGGCGGGTGGGAGGGGGGCCGGGGATGGGGAGCASACACGCASGGCCTCGTGGGCCA
CGTGAGGCGGGCGTCTGGATCCTGCTTGCGGCGGGAAGCCATTGGGGCCTTCTAKGCAGGTGGGTGGTGTGATCAGATCCAAACATGCGACACAAGCGCT
TTCCCTCCCACACCCATTCACGCTCCTGCCGGGGCCTCCCATCTCCATTCTCACCCACAGAGTCACACACACCCTCTCGCACCACCAGGCAGAGCTGCGG
AACACCCGGTGCCGACTCCCAGGAAAAGTGTCAGACGCTGCCCCGCCCACCGGCTGAGTCTGTGCGGCAGGGCCCTGGGGTCCAGCCAGGGTGGATCCTT
GCTCACTCCACATCCGCACAGATGTGCCTGTGCCCCCCGCCTGCCCCCACAGGAGTGAGGTCATAACTCTTCTCTACACGTGCAAGGTGGCTTCTAGCTT
AGGACGTACTTTCACGTGCATTCTCTCATTTAATGCTCTCAGCAGCCCTGCAGGGAGAAATTCTCAACACCATTTTATAGCCGAGGAAACAGAGGCTGAG
AGAGGTGAAGGGACTCTCCCTAGGCCACACAGCTAGAGCTTGGCACAGGCAGGATTTGAACTCAGTTCCGTTTGACTTTCAGGTCTTGTTCTCTGGCCCA
TCCAGACTCAGACACACTCAGGTGTGACTGTCACCTTTCCAGGCTGTCACTGAGAAGGTGACAAGTGACCTTCAATGCCAAATCCATCCACAAACAGGTT
GATCAACACAGAAAGTTATTTAGAGCTCCAGGGAAGGGCCTGGGCTGGGACGTGCCCACCTGCCTGGTGACCCTGAGGCTTCTGGGGGTAGTGCCAGGGG
TGGGGCTGGGCACCTGCCAGCCTGGGGCAGCTCAGGGCATGGAGCCCGCGCTAGGAGCAGAGCCTACATTTGCATTTACAAATGAAGTAGACAGCCCTGT
CCCCACACATGCTAACCCGGCTGGCCTGGCTTGCAGGACGTGACAGCTGAAGTCACAGGGCACATCCCTGGGCCCAGCTGCCTGGGCCACTTCTGTGCTG
CCTCTGCTCTTCCCTGACCCTCGGAGCAGGTTGTCTAATGCCTAATGTAGGGGAAAGAGTGTGGGCTTGGGAGCCAGCCAGAATGGGGGTGCAACCCAGC
TCTGTGACGCCTGGCTCAGGGACATTGGTCATGGTGTTTAGTCTCTTTTCGTGTCAGCTTCTCCCCCTTGGAATAAGGGGTGAGTCATACCTCCCTCTCA
AGGTGATGGAAAAGGGTAAAGCAGTCAGGTGCTCAGGGAGCTGAGTCATAGTGAGTGCTCAGCTCTCTAAAATCTTTAATTTTTTTCTGATTACACAAAT
ACTAAGTGTTCATTATAAACATCCAAACCGTGCAGAAAAGTATTTGCCACAGAAAGCAGAAGTTCCTAGTGGTCCTGCTTCTCAGAGATAAGCCATGTAA
ACTTTCTTTTTGTTTTTGTTTTTGTTTAAAGAGAAAGAGGACGGACAGACAGACACAGCCCAACTGGGCTTCATCCCACTCAAAATTCTGAGGGCTTTTG
GGCCTCAGGGTCCCATACGCAGCAAGCCCCTTTTCTCTCTCTCTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTG
GTGCAATCTTGGTTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCTTGAGTAGCTGGGATTACAAGCATGCGCTACCATGT
CCGGCTRATTTTGTATTTTTAATAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTGAAACTCCTGACCTCAAGTGATCCACCTGACTTGGCCTCCC
AAAGTGCTGAGATTATAGGTGTGAGCCACCATGCCCGGCCTTTTTTTCTTTTCTTTTTTTTTTTTTTAATAGGATCTTGCTCTGTTACTCAGGCTGAAGT
ACAGTGGTGCAATGTTGGCCCACTGAAGCCTCAACCTCTCAGGCTCAATCAGTYTTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGCACCA
CCATACCCGGCTAATTTTTGKGGTTTTTTTTTTTTTTTTTTTTGGTAGAGATGGGGTTTTGCTATGTTGCCCAGGATGGTCTTGAACTCCTGGCTCCAAG
AGATCCGCCTGCCTTGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAACCACCACTCCCGGCCAGCCATGTAAACTTTGACATGTAATTTTAAATTTTTA
CAAATGAGATTTTTGTTGTGTGCAGCCCGCTTTATTCACTTAACAATATGCCTCAAACCCCCTTTTCCATCAAGACTAAAGACCTTCTTTGTCATTGCTG
TATAGTATTCCATGGTTTGATATATTTAACTAATCTCCTTGTAATGGACATTGAAGTGGCGTCCAGATGTTTGCRGTTGCAAACCCTGCTTCATGACTTT
TTTGTTCATATATCTTTATGCATTGGTGTTATATTTCTGGAGAATAAATGCCTAGAAATGGGGTTGCTGGACCAAAGAATATGCACATTTTAACATCCAT
TGCCTCTGCCCTCAGTTACAGGGATCCTAGAGTCATCAAGAGGCAAAGAATTCCAGATGTGGGGCTGGATGCAGTGGCTCACTCCTGTAATCCCAGCACT
TTGGGAGGCTGAGGCAGGTGGATCACTTGGATCCAGGAGTTCAGACCAGCTTGGGCAACATGGTGAAACCCTGTCTCTACAAAAAAAAAAAATTAGCCGG
ATGTGGTGGCATGCACCTGTGGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGCTTGCTGGAGCCCAGGAGGCAGAAGTTGGAATGAGCTGAGATCTCAC
CACTGCACTCCACCCTGGGCGACAAAGTGAGACCCTGCCCCCAACCACCACCAAAAAAAAAAAAAAAAARGAAAAAAAAGAATTTCAAATGTGGGAGGCA
CCTTGAGGTCCTCCAGTCAAACCCCCCACCGCTCCTCCCGTTCCCACACCTTCAGATCTCCCTGGCTGCACCTCTGAGAAGCTCACTCTGCCTTTGCTTG
ATGCAGAGCTCGGTACCTTACATGGCAGGTTGCTCAGGTTGCTTTCCCTTCCTCCCTCCCTCCCTCCCTTCCTTCCTCCCTCCCTCCCTCCCTCCCTCCC
TTCCTTCCTTCCCTCCTTCCTTCCTTCTTTCCTTCCTTCCTTTTCCCTCCTCCTCCTCCTCCTCCTTCTTCTTCTTCTTCCTTTCTCTCTCTTTCTTTCT
TTCTATTTGAGATGGAATTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCCATCTCCCGGGTTCAAGTGATTCT
CCTGCCTCAGCCTCCCGGGTAGCTGGGATTACAGGCGTGCGCTACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCTCCACGTTGGTC
AGGCTGGTCTCAAACTCCCGACCTCAGGTGATCCGCCTGCCTCAGCCTCCCAGAGTGCTGGGATTATAGGCATGAGCCACCATGCCCTGCCTAGGTTGCT
TTACTCTTGGGCAGCTGTGTTTGTCCCATCGTTTCTACCTTCTCACAACTTCCACCTAGGAGTCTTGTCTCAGTCCTCAGGCACCTACAGAGGAAGGAAG
AAAGGAAGGAAGAGAAGGGAAGGCCAAGAAATGCTCATGGTGAATGTTAAGCACTTTACACCAATGAACTCATTTAACCCTCAGAGGTCAGCACTGCTAT
CCCCATTTTATAGATGAGGAAGCTGAGGTTCATAGTGGTTAAGTAACTTGTCCAAGGTCACACAGCTGTTATGTGGCAGAGTTAGGATTCGCACTCAAGG
ATCTGGCTCCAGAGCCCACACTGACGCTACACTGCCTCTCTAGGCAGGAGCCTGTAATTTATTGAGCACCTACTGTGTCCTCAGCTCTAGGCTAGTCAGG
TTGTCCATATAATACCTAATTTATTCCACACAACAACCCTGCAAAGTTGGTGTTACTCTCCCATTTTGTAGCTGAGGAAACTGAGGCTCAGAGAAGAGAA
GCGACTTAGAAGAGTCTAAGGTCCTCTCCACTGGGAAAGCCCTCCTTCAGGGTTCTGCTTCCAACCAATCCTTGGTGAACTCAGTTTCCAGTTTCTCATC
CTCCCATTCGTCCTCTGTAGGATGAGAGAGCCGGCCTGAGACCCAATTTTTAGTAGAGAAACTGAGGCTTGGAGAGGTTATGGTGACTTAATCCTGCACA
CACTGTGATCTGGGGGCAGAGCTAGGGCTTCCCCATGTCACSTTTGGTTAGGAGATGGTGACCTTGTCTATCCCCGTGGGGGTTTCGCCTTGGCCTGGGT
GGTCACCCCGCCTGGGGAGTTGTGAGGGGCAGGGACTTCTGCTCACCAGACTGGCCTGGAGCCTATGAGGCAGCAACCCCAGCCCCAGCTAGGGCTGGTG
CAGAGCGGGAGGAAAGGATTAAGCAAGGCCTCAGTGCTGGGGGACTCACTGTCTAGGCAGTGAAGCCAGAGGCTCCTCAGGAACAGTCCAGGCAGGTATC
TTTGGGGCTCTGCTTTGGGACTGGGGAGGCCTGGTTCACCCCACTCTGATCCCAGCACCCAGCACCATTGTCCACTCCAGAGCAGACCTCAGGACATGTG
TTYTGAATGAATGACTGAGCAGAGGAATGAAGGGCAGATGGGGGAGTGGGTAGATGACCGAGTGGGTGAGTGAGCGAAGGAATGCCTGGAGCTCAGAGAA
GGGAGACCCCCTGGGCTGCGGAGGCTGGGGAGGGACAATGAGGTCAATGTAGGGAGTGAGGAGAGACAGAAAGCATAGGCGGCTGTAATACCATGTATGG
GCTGACGGGTGCTGGGAAGGTCACCCTGGCCCAGACTTGCCCATCAGTGGGAGCTGTGTCCTGCGTGGACGTGGGCAGGGGGCAGAGCAGCTGGGGCTGA
GCTTCGGGGTGGAAGCTTGGAAGTCACCATCTCCATCCAGGCTCCAGTTTTCTTCCAGGCAGAATGGAGATTAGCATTACTGCTCTGTGTTCCTCAGGAG
GCTGTTGAGAGGGTTGATGGCAAAGGCAGTTTGTAAACTGGAAAGTGCCAGGCTAGGGAAGCAGATGATGTTGTTGCCCGGCAGGAAGAGGCCCTGCGGC
CGGGTCATCTCAGAGTCACTCCTCCTCCTTACCCCAGTGCAGGGGAGGAGTCAGTCCACACTGAAGTCCTCGGTGGGGTGGGAAGGGTCAGGTTTTGGCC
ACAGTGGGGCTCAGGCCACCTGAGCAAGGGAGACAGATGCTGGATAGACAGCAGGTAAATGGGTGGCCTGGTTCCCAGATGCTGTGCCCTGGGCAGGGAC
CGGTCCCGTGACCACCTCTCTAGGCTGCCAACCTGTTATTTGTTCAGGAGGCCTCTGCCTGGCCCAGCTCCGGGATCCGGGTGTCTCGGCATGCAGCCAG
CATGGGGCGAGGGTGGCRGCCCCATGTGCCACCTTCCTGCCCATCCCTCTGCCCAGCTTGGGGCCTGAGTCTCCCACCCACACCCCCAGGGGGACCCTGC
CAGCTCTGTCACTTGGTAGCTGTTGAGGCCCTTGGCCCATCATAAACCTCACTAAGCCTCTGCCTCCTTATCTCTGAAATGGGTGAAGATAGCATCCTGA
GGTCAGGGTTGTTGTCATAAGGATTGAATGACATCACAGTGCCCGCATGGCAAATAGTCCCCCTGCCGCTCCTCTACCCCATCGCCACGYTCCCTYTAKA
GTCCTAGGAGAGGTCAACGGTGCCCAGGGAAAGGGGACACAGGAGCCTCCCGTGCCTGTGCCTGTCTGCTTAGGCTCCCAGTGGGCTGGGGAAGAGGGGG
CCAGCCTCTCCAGACCTAGCTTTGGAAACCTGCTCAACTGGCTGCCCCGGCCACCTTCCCTGGCACTTTGGCAGGGACAGGGGCAAGCCAAGGGGAGGGC
AGTGCCGGCTGGTTGAGCTCAGAAAACAATGGGCTTCTGTGGCCCCCCCCCCCCCCCGGGAGGGGGCAGTTCTGGGGCAGCCACTTGGTTCTGGTTTCAG
GAGATTCGAGTCCCCTCAGACCCGATGCCCAGGGCTAGGAGACCCGGCTCTGGCAGCCCCCCAGCCCTCATCCAAAGGAGCCTCTCTCAGGGTTGCCCTC
CACAGCCCTCTTCTCACTGGGAGGTCTGTGCCCTTGTCCTCATCCTCCACCCCACATGGGTGGTAGAACTTGGTAGAACCAGGTTGATCTCCTGGAAACC
AGGAAGACCCCAGGGAACTGGACCCAGGCCTTCCCCTCCTGACTTCTGATGACCAGTGCTGGACTGGCCGGAACCCCTCAGGCCCCTGTTCCAGGCTGCT
GCCCCCAAAAAATTCTTCTCTGCCCTGTATTCATTGGCTCCCTGAACCCCTCCCCCGCCCTTCCAGACCACTCCCTCTTTCCGTGTCCGGTCTCCCAGCC
TGTGTGCAGTGGGTGGCTGTCCTCAGGGTGGGCTCCTCCTGCTCTTGCTCCAGGCACTGTCACCKGTCCAGATCCCYATTCCCCTGCTCCCGGTCCCAGC
CTTCTTGCCTTGATGGTCCTGTACCACCTGCCCTGGCCACCAGAGTTTCACCTGGTTGAGTTGAATTTCAAAGCATCAATGGTTCACTAGGCAGAAAAGC
AGGAGAAGGCACCCCCAGCAGAGGGGGGGTGCCTGTGAACAGTGTGGCTGGTTAGGAAAGCTGCCTGCAGCCTGGGGAGGTTAGGACAGAGCCAGGACAG
GCGGCTGGGGCAGGACAGGAAAGGGGAGGTATGAGGTTGAGGCTGGAGGGAGTCAGCAGGGGCTGGACCCACTGGGAGACCACCATCCAGGGCAGCTATC
TCCGGGGGGCCAAAGGGCCAAGCCCACCACCCAGGACAGCCCCACCACACTTCTGGTGCCCTGAAAAGGTTGGGCTCTCCAGGAGAGTGGCCAGTAATAA
TAATTACAAGCACTTTATAGCAACTCTATGAGGTGGGTACATTATCTCTCATTTTGCAGATGAGAGAAAAAGACAGGACCCTCTCACCACCCCTCCAGCT
GGTTAACAGTTGAGAATCACCCTAGGAAGGCATCTGGCCACCTGTGCTTGGTCTCCCCCTCTGCCCAACCATTCCTGAGTCTGACCCTGATGTTTTGTTG
GTCTGTTTCCATTGTATAGATGGGGTCTTGCTCTGTCGCCAGGGCTGGAATGCAGTGGTACCATCATGGCTCACTGTAGCCTGGAACTTCTGGCTCAAGT
GATCCTCCCACCTCAGCCTCCTGAGTGCCTGAGACTATAGGTSTGAGCCACTGCAGTGGGCTGGGTTTTTAATTTTTTTGTAAAGATGAGGGCTCACTTT
GCTGCCCAGGCTGGTCTCGAACCCCTGGCTTCAAGTGTTCCTCCCACCTCAGCCTACCAAAGTGCTGGGATTACAGRCATGAACCACTGAGCCTGGGCTG
ACCCTGCTGTTTTGCAGAGTATGGAACTCTCTTGAGATCTTCCCACCCTGGACTGGTGGAAGGCCTGTGTTCTTATCCCTGATCTGCTGCTCAMGGCCTT
ATTGGCTGACTTTGAGGTCGTGTTTTCACCTCTCCAAGCCTCAGTTTGCCCYGCTGGCAATTGGGGATCCTAGTGACTGCCTTATCTCCATTCCAGTTCC
GGTGAGAGTCCCAGGAGTGAGCAGATAAAGAAGGCTTTTGAAAAGTACAAAGAACTGCACTCACGATGGTGCGATTATTATTGTTACCTCGATGCAGAGA
TAAGGGAGGGGGAGGAGGTGCASTGACAGTTGCCAAGAAACCGGGGAGCTGTCAGCAGCGGCTTCCGGCCGGGCCCATCCCACTTAGGAGCTGGGCCCTT
CCCCCACACCCTTGCTTCACCCTTTCCCTGGAAAAGATGGGTGCTCTCCCCGAGAGGGAGAGATAGCTGCCACACAGACACAGGGGCTGAAGGTGACCCC
GGAATGTGCCTGGCCCAGACTCCAGGTTGGCTCCAGCTTTCCATGTGACCTTGGGCGGGTCACCTCCTCTCTGGCTGCTCCCATTTCATGTGTCAGAGGA
GGCAGCGTGCAGGTGTCCAGGCCAGACAGAGCAGAGCCGGAGCTGGGCCTAKGGAAGGCGCTTGGCGGTGGCTGCASGAGCCASGGCCGTGATGGGAGGT
CATGGGGCASGAGGCCASGTGACGGGACTGAGGGCCTGGGCTGAGGACAGTGGGATGCACGCTGTGGAAGGGACACTGGACTGGAGTCACATCTCAGCCC
TGCCCTTTCCCATTGTGCGACCTGGGGCTTGTCACTGAACCTCTCTGAGCCTCAGTTTTCTCATCTGGAAAAAAGGTTTATATCTCATCTGGATTTCTTT
TTTGTTTTTTGTTTTTGTTTTTGTTTTTTGAGACAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCCGC
CTCCYGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAGGCGCGTGGCACTACTCTCAGCTAATTTTTGTATTTTTAGCAGAGA
TGGGGTTTCGCCATGTAGGCCAGGTTGGTCACGAACTCCTGGCCTCAGGCGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCA
CCGTGCCCAGCCTCATCTGGATTTTTAATAAGTTGCTGTGGCTCTGGAATGAGACAATGCCAGTGTAAGCTCCAGGGTGCTGCACAGATGTGACCACGGT
CATGGCAGGGGGAAGGAGGAGAGGGGAGAGCGCCCCATGTCCCGGCATGCTCTGGGCTCCCSGCAGCTGCTGCCGCCCAGGAGGAATGCAAAGCATTTTA
AGCTGAGCCAGGCCAGGGGGTTGGATGGTTTTTGGAGACGTGGGGAAGGGATAGAGACCAGGGGGACATCCATGATGTGAACTGAATGGAGAAGACCAGG
AGGAGACCAGGGTGGGATAGGAGAGAGAAGGGGAGGGACAGAGAGGTTCGGGTTCGTGAAGTGGGAGGAAACGACCACATTGTGGGTGGTCTGCAGAGGC
CAGAGGAAGAAGGGGATTGGAGGGGTGCTGGGAAAGGTGGGGCAGAGATGGGCGAGCTGGTGAGGAAGGCTGAGCAGGAAAGGACGTGAAGCAGAGAAGG
GCAGAGGGCTGGTGAGGAGGGAAGAGGCTTTCATTCATTGCTTCAAAAGTATTTATTGGGGCCAGGTGCAGTGGCTTATGCCTGTAATCCTAGTGCTTTG
GGAGGCCAAGGTGGGAGGCTTATTTGAGGCCAGGAGTTCCAGACCAGCCTGGGCAACACAGCAAGACACSCATCTCAACAACAACAACAAAAAATTTATT
TTTAATTAGCCGAGCACACACCTGTAGTCCCAGCTACTAGGAGGCCGAGGGGGAAGGATCACTTGAGCCCAGCAGTTCAAGGCTGCAGTGAGCCATGATC
ATGCCACTGCACTCCAGCTTGGGTGACAGAGCAAGACCCCATTTCTTAACAACAACAAAAGGTCAGGGGCAGTGGTTCATTCCTGTGATCGCAGCACTTT
GGGAGGCTGAGGTGGGAGGATCTCTTGAGCCCGGAAGTTCCAGACCAGCCTGGGTAACATAGGGAGACCTCATCTCTACTAAAATTAGCTGGGCATGGTG
GTGCCTGTAGTCCCAGCAACTTGGGAGGCTGAGGAGGGAGGATGGCTTGAGCCTAGGAGTTTAAGGCTGCAGTGAGCTTTGATCACGCCACTGCACACCA
GCCTGGGCAGCAAGAGCAAGATCCTGTCTCAAAAAACAAAAAAAAAAAAGGGAAAAAGAAAAAAGTATTTATTGAGCAACTACTATTTACTAAGTGTCAG
TGGTATAGTGTTAAGGGCACTGCAACCAGATGTTGGGGGAGGTMAAATCTTCAGACTTTCATTTACTGTGTGTGACCTTGGACAAGTTACTTAACCTCTC
TGTGTCTTAGTTCCCTCCTTTGAAAAATGCAAATTAAATGAGTTAATACAATAAAGTAGAGCAGAGCCTGCACATAGTAAGCTCTGTATCAGCTGTGTCG
GCCGTTGCTGTTGTTACTATTACCTTTCCGACTTGACTTGAGGTGCTGGATCGTGTTCCTGAGCTGGAAGTCGTAAGGCTCTGTGGGGAGGTCCACAGGA
TTGGACGTACATGTTATAAAGTTCAGATCTTGGGCTCTGAAGTCAACAAACCTGTGTCCAAATGCCTGGCCTGCCTCATTGCCTGTGTGAGCTTGGGCAA
GTTAACGCACCTTTCTGAGCTTCGTGTGGAAAGCAGGAGGTTTCTGAACATCTGCCTCTTTGGGGAACTGTGAGGATTAAATTAGATTATGCAAGACGCC
CGGCAGGACGTGGCTTTGTCATTCCTGTCCCTCTTCTACCCCTTCAGGTCTGGGGATGGATGGACAGGCAGTGCCCAGAGCCTCCAGTTTCCTTCTCTGT
CCCCATCCTGGAGCCCCTCCCTTCCCCTGCCCCTTACGGCCTCAGCAGTGGCTTTTTASGTGGAGTTGCCTTCGGGGGACAGGACTGTGGCCAGCCAGGA
ACTGGAGAGCCAAGGGCCCTGGGATGGGGTCCCAGGTGCAAGCCAGAGCACCCTGGCCTTCAGAGGCCGCTCTGGTTCTGCACCCACATGAGCAATCCTG
AGTGAAATGGACACCTACACATGGGGAGACTGAGGCAGAGAGGGTTCTGGAAGGGGGTTTGTCAGGGACTGCTGCATGGCTATCATATGAGCCTAGGGGA
AGACAGAAGGGCACCGCTGGACTAGCCTGATCACAAGCAACAGCCGCCACTGGGCAGCCACGGCSGCACCCAGCACTCCAGCTTTACCGGGCTTCTACCC
CAGGACTTCCTGACCCCCAGGCAGCCTCTGCCCTCCACCCCACTGCAGGATCCCTACTTCCTCTAGGGCATGTACTTTAAATTCCAGCTCCATCCCCCAT
TCGCTAGGGGAAGTGGCTTCACCTCTCTGAGCTTCAGCTTCTCCATCTGTGAAAATGGAGAGAAATAACACCAACCTTCCTGCACAGTAGTTGGGGGAGA
GTATATGCTTGACGCAGTCCCAGTCACATAGTAGGTCTCACTAAAGAGTCCCCATGGGAGCCTCAGTGGAATTGCCTGGAAGCCACCCTCCCTCCCTTCC
TCCCTTCCCCCCTCCTTTTTTTTTTTCTGAGGTGGAGTCTCCCTCTGGAGCCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAAACTCTGCCT
CCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGGTTATAGGTGCCCACCACTGTGCCCAGCTAATTTTTGTATTTTTTTTATTTGAG
ATGGAGTCTCACTCTGTCGCCAGGCTGGAGTGCAGTGGCGCAATTTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCT
CCCAAGTAGCTGGGACTATAGGCGTGCACCACCATGCCCAGTTAATTTTTGCATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGTTCTCGG
GATCTCTTGACCTCATGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCAGCCTGTATTTTTTTTTTTTTTTTTT
TTTTTTTTTTTTAGTAGAGATGGGGTTTCACCATATTGGCCATGGTTGGCCAGGCTGGTCTTGAACTGCTGACCTCAGGTGATCTGCCCGCCTTGGCCTC
CCAAAGTGCTGGGATTACAGGTGTGAGCCATCACGCCCAGCCTGCCGGTAACTATTTCTATGGACCTCTCTTTAGTCCCCACCCTCCCACTCCAGACTCT
CCCCATGTCAGTGTACCCTGCAATATGCAGGAACCTGTGYGTAGGGATGTTCCTTTGCTCACAACCCTTCAGTGACTCCCAACCTTCATTCATTCATTCA
GTCATTCAACAAATAGTGAAACTTGGGGAGCCAGAGTTTACCATGAACAAATGATGTGAAAGTTTTCATTGAGTGAATTCCCATGAGCTGCCCAGGCTCT
GCGATGAATGTKTTTGGAAACTGAGGCTGAGAGAGGCTGTGTCACTAACCCAAGCTCACCTAGCCAGTCAGTGTCTGAGACTATCTCCCCCACACTGATG
CCACAGGCTTGAAATGCCACTGCCACCATATCTGTCCTTTTGGGTCAAGCATTGCCCAGCGCASACCCCTCTTGTAAGATGCCATCACTCCTGGGAGGTG
GAGAGGCCTCCRGTGCATAAGTGGGGCTGTGGATGGTTCCTCCGGGCCATTTCTCCTGCTGGAGTAGCTGGGCTGAGTGGAATTAGAAGGGAGGCTCAGA
CTGGGCGCAGTGGCTCACACCTATAATCTCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGG
AGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCAGGCATGGTGGCGCATGCCTGCAATCCTAGCTATTCAGGAGGCTGAGGCAGGAGAATCGCTCGA
ACTCGGGAGACAGAGGTTGCAGTGAGCCGAGATCAAGCCATTTGCACGCCAGCCTGGGGAATAAGAGCGAAACTCTGTCATAAAAAAAAAAAAAAAAAAA
AAAGAAGAAGGGAGGCTCACAGCTTTCTCAGTCTTCTTCCTGGGCCAGACTTTTTCGGGTCCTTCCCCTCTTGGGGTGTGGCAGCCCCGGCTCTGCCTGA
CTCAAGCCTGCTGTAGGCCACCAGCGATCATCTGAGTCACCCTCGAGGGACCAGCCTCTCTTGATGGGACCTGAGCAGAGGTGCAGCCACGTCAGGGTGG
CCCTAGGCAGCAGCGGAAGCCAGGCCTGCTTGCCCAGCCCCAGGATCCCGGGAACCACTGGGCATTTCCTCTCCCTGCCCCAGAGGTGGCCTCGGCAGGC
TTTTTAGGGTGATAGGAGCTGACTTCACCCTCGCCAGACCTGCTTTCTTTCCTCAGGGAAGGGTGTGGTGTGGGCAGAGAGTCCGGGCTTAGACTCAGGC
AGGTCTCATGCAGATGCTAGCTTTGCTGCCGGCCAGCCGTGTGACCTCTGTGCACAGCTGGGTCCTGTCYGTAAAGTGGGAATACCAGTGTGGTGAGGAG
GCCATGCCCTCGGGCCTAGAACGAGGGCTCAGCACAGGGCCTGGCATGTGGTAGGCCCAATGAGCGTCAGTTATGGTCACGGTCACTGTCATTCGTAATA
GYGGTAGCCCTGGTAGCCCCTCAATGCCAAGGCGGCTACTCCCAGAGGCTCAGGGAGGGGTCCATTGTAGAGGCGGGGGCACCCTGCTTAGTCCAGAAAG
CTCACCCTCCACAGCAACCCTCAGTGCCCCTGCCTCAGTCTACTCATCTTCAGAGTAGGTCACTGCTYGGCTGGAGGCCTAATGGAGAGCTTGGGGAGAG
ACCCTGTCCACGTCTCTGATCTCCGGGGAAGGAGAAGCCTGTGTGGYAGCCCTGCTAATGAAGCCYCTCCTCTCCCTCCTCTTGGGGAACCCATGACCCT
CTCCTCCGTGAAGTCTATCCTCCCTCACATCCCCCAGCTCTGAGAGTGACTCTCCCAGAGTTCCCAAATTTCCTGGCTTGGGGCTCTCCCTGACCTCAGA
CTCTTTCTCTTCCAGGAGGAGYGATGGGCAGAACCAGCACTTCCCTCAGGCACTAGACCTGTCACGAGTGAACTTAGTTCCCTCCTATACTCCTTCACTC
TACCMTAAGGTAAGTGTCCCCCTCCAYACCTACGGCCCCTGGTCTGCCCCCTACCTCCGACACATGCCCAGGGCTGGGAAAGGCCCAAGAATGACTTTTG
GGCAAAGGTAAAATGTTCAGGCAGATGCTGATGGGGTTTAGCTCCTAAGGGGTTGCCACTCCTGAGCCCGGGGTGAGGCTGGTGCAGTCACAAACGTTGA
ACCTAGGTCTGTAGACTGTGGCAGGGAGGGGCTTAGGGCGAATCTAAGCAAAACAGCTGGGAATAAACCAGCCCCCCAGCTATYTTCATCATCTCCACAA
TCAACGTCACCATCAGTCTCCTTATCTGTAAACCAGGTGCAATGAGAGGACCCACTTCACAGGGTCATTGTGAAGATTGCTGCAAAGTACAGACAGGGCG
GCCCAGGCACAGCATCCGGCACAGAGCAAGAGCCCTGTCAACGAGCCTCTATCATTATCGTTAAAATCAAACGTTTGCCCAGTACCTGCTTCATGCCAAG
CCTTGTGCTGGGTGCCAAGCGACCAGAAACCAATCTGATACAGATCCTGCTCTCAAGGAGCCACAGTCCAGTAAAGCAATAGATAACTGAACAATGTATG
CAGGACATCAAATAGCAGAAATAACCTCTAATATTTATTGAGACTTACTGTGTACTAAGAGAGTACTTAATGCTTTATTTGCAGTATTTCATCTCATCCT
TGGACTATGTGATAGCTACTATAATCAGTCCCATTTTGCAGATGAGAAAATTGAGGCTCAGAGAGGTTCAGTCACTTGCCCRAAGTCACTCAGGTTGGAT
GTGGTGGGGCCACGACCGGATGCAAGCTGTCTGACCAGAGGGCCTGGTGTTAGGGCCTCTCTGATGCAGGGGTGACAAGCTCTCACTTTTGCAGTACTTT
TTGCAGTTTCTAAAGCACACCCACAGACATCATGCCACCTGGTCCTTTTAGTAAACCTTGGGTAGTAGGCATTATCTAGTTGAGGATGCAGGAGATCAGA
GAAGTAAAGTGGTCTTCCCAAGGTCACACAGCCAGAAAATAGCAGAGGCAAAATCCACCAGGCTCCTCCCTGAGAGCTCTGGCCTGGAATAAAGGCCACG
TACCTTGCCTAGGCTGGGAGGGCAGATGGCCAAGGAATGGTGTCCATATGTGGGGCCASCACCTTCATGGGGGTSCCACGTGGGGCTGCTGGGAGCAGCA
GCAGGAGATTCCTGAGACTGACTCCTGTTTTCTCTGTCTGGGCAACAGCCCAAGAYTGGGGCATGTGGATCCGGGGCTTGGCAGGAAGGGAGAGACTCAA
TGGCAGCCCTCACTTGACAGCTGGGTTCATGAATGAAGCTCCCAGTCCCTCTTCCCCTGAGCATCTCAGGAGGAGCCCTGGGTTCTCACCAAGGGCTGTA
TGCCCTCGGACCACAGCTTCCCCTCCCTGGGCCTCAGTCTTCCCATCAGGAGACGAGAGAGAGAGAGAGCAGCCCATAGCCCTGGGCCCTGCGTGCTAGA
CAGCCTGGGGTTGGCCTTCTCGGATTATTGAAAAGCTGCCTCCCCTCGGGCTTCCTGGCTTCCACCCAGTCTGGCTAGAAGCCTCCGTTTGTGCCAACAC
AGCTCAGACAGCGGGCTCTGAACCTTCCCTTCCCGACAGCCCACCCCCACCTCAGAATCAAGAGTCTGTGGACCATCCTCCTTTGACAGGAGAGGAAACC
AGGGGCTAGAGAGACTGAATGATTCATCTGGGGTCTCCAGCAAGCCAGTGCTGGGCTGAGGGAACACAGGCCTGTGACATATTCTCCATTCCCCTCCCCT
GGTGCCCCTAGCTCTGTGCACATTTATAACATGGATGGCATCCATCTGAAGGGCAGGTGACCTTCCTCTGCCAGTGGGCAAATCCCTGCCCGTCTCTGGG
CCTCAGGTTCCTCATCTGTAAAACAGAGGTGACAGTTTCTTCTCTACCTGCCTTGCCAGCTTGCAATTGGGTGAAAGTACTTTGGAAAGTAGAAATTAGG
AAGCTGAGCTCTTATCAGCGTCATTACATTCCCAGGGCTGGACAGGGCACCCARAAGGGACATTCTCCTCCCTTCAGGCCCCACATTTGTACAGGCATCG
AGCTACCCAGGACCCTCCTTCCCTCCTCCCTACAGGGGTTTCTCCACTCGGGGATTCAGAAACCTGCACACACGTACATACACAGCCTACCCACACCTAC
ATATGGGGACAGAGTCACAGACACAAAACACACAGCCACAGCCACTGGTCTGTAAATATATTCAGAGACTTGCACATGCATGAGATACACATGTACAAAC
ACAAATTCCCATACCAAGGCATTCCCATACACACAGAAAGACAGTATGCCCACATACATACAGCCACATCCGGTCGTGGAGTCTCACACACACGCACACA
TGGCTGCACGCATATGTGCACACACCTTCCATGCCACCTGGCACACAGCCATCTCCAGTGCTGTGAGCAGGTCTCGCCTCCCCSGGGGGCAGTGTGGGAA
TGGATGTTTCTCTGGCTGGATTTCGATGGGTGCCCGGAAGCATTCAGGCCTGGAAGTGGCTGCATAAATCAATATTTGCTGTTGTTAATTATTAAAACCA
AAGCTACACCGTGTCTGGAACACCCATCTCCAGAGTTCCTGCTGGCTCTCCAGGCCCAAACCTGATTCAAGGCCAGGTCTAGGGGGAAAGGGAGGGCACA
GTGCTTTCCTTCCAGGAGCCCTTAGTTCTGGGGCTGGAGGGTGGTGGGCAGCCACTGGCAGCTCTTTCAGGAAGCTGAACAGAGGTATGGCTCTGAGCTG
GTGGGCAGCCCTGCCCCCGCAACATCCAAAGCAGCTGTGTCTGCTTGGCCACAGTTCAGGAAGCATTTGCTGTGTTCCCAACATCTGTCTGGAGGAAGTG
GTAGCAAGGCCCTGTCCCTGTCCCTGCTGTACAGTGGCTATACCAGGCCAGGGACACACTGCAGAGCCAGCTGGAAGGGCCTACAGAGTCCTTATATTTT
AAAGATGGGGAAACTGAGGTCCAGAGAGGAGGCAGGGACTCACTCAAGGCCACTCAGCAAGTTGTAGCTAGAATCCACATGTCCCAAAATCTACTTGGGT
CCTTTCCTCCATACCACGGGCCTGGCAGCCCCTCCCTAGGTGCTGTGGCCATCTCCCCCAGGATCTGGGGCAGCTAGGGCGGGGGAAGGGACGGAGCAGG
CCAGCCACTGTGAGGCATGGGAAGCAGGATGGAGGAGAGGAGGAGGAAAAGGGACAGACCCCAAAGAGYAGCACCAGGCCTTTCTCTGGATTCCACTTTG
ACTTCTTCCTGACTGTGTGGTCTCGGGCAAGCTATTTCACCTCYTGGAACCGGCTTCTCATCTGTATAATGGAGATGACATTTGTACCTCCTGGGCTGTG
ACGAGATTACGACACATGCGAAGGGCCCAGCATTAAGTAGGTGCTCAAGAAAAGCCCTCTGTCTGCAAGGTAACCCAACCCTGTCCTTGATGCCGAGGCG
GGGTACCCAGAGCCTGGGAAGATGGAGAAAGTGAGGTGGGGGCGCGCTGGGGAGAACCGAGTGGGGGGCCCCCTCGGGGAGCCCGACGCACCCAAAGCTT
CTAGCGCTCGGGCCGGAACGCGCAGGCGCGGTGTCCCGGGGCCGCGGGCCGGGCCGCCCGGGGGGCGTGGCTTCAGCGCCCCCGCCCCGCCCCGCCCCGC
GCCGTGCCGCCCGTACCTGGCGCCCCGCCCCCTCCGGGCCCCGCCGTGGGGCGAGCCCATCGCAGGCAGCGCCGCCGCCGGGAGCCGGGAGCGCGGAGCT
CAGCGCTGCGGGGCCCGGACCCGGGCGCGCGCGGGCCAGGAGCCGGCTGGGCCAGCTGAAGTGCCGCCCSGGCGGGGGCCGGGCCGGGCCGCGCTCAGGA
TGGCACAGCTGCGGCCCGCGGTGCCACCCGGCCGTCCGCGGAGGGGCTCGCTGCCCGCGGGGGCCAGCTGGCAGGTGAGGACCCGGGCGGGGCGGCATGG
CGGAGGGACCCCGGGGCTGGGTCACCCCGACTGCTGGGGAGCCCGGCCGGCTCTGCCCCAGCCAGGGCGGGCGGACAAGGCTCCGTCATGGTGGGCGTGT
GAGCTTCTGGGCTGACACTGGCCACGGGGCGCACCCCTACCCTGGGGTCCCGGACCCTGGGGCTCTTGCTGTGGCCTCCCGGGTGGCACTGTGGCTCTGG
GCTGCAGCGGCAGGGTGTGTGTGGGTGCGTGCTACCGTCGGGACCACTTTACCCTGCCCCTGCCCCGTTTGGGGGGCTCTGAATGCTCCAGGGCCACTTT
GTGGTGGTGCTTTCATGTGGGGCACCCCCCATCTGGACCCCATCTCTCAGAGCCCTCGCGTGTGTCAGGGCGTCTGCTGCTCCCTCTGAGGCTGTAGCTG
TGGGTGTTGCTTGTTGCTGTGTGTACACTCTGGGTGACAGGACCATGTGTCAGTGTTTATGTGACTGATTCCCAATGCAACAAGGTGTATTAGAGTGTTC
CTGGCTACGTTTGGTCACCCTGAGTGGGGTGTCTTAATGGGGGACATTAATGCACCCATCATCAGTGTGACTCTTTGGGGTCATGCCCAGCTGAGGTTGT
GTGGCTGACCTGGGCACAGAAGCCAAAGTTGCTGTCATACAGTGTGTTGTGTTGACAGGCATGTTTGTCTGCCTGGACTTCAGGTGTGTGTCTGTGGTTT
CTGCAGTAACTGCCTGCGGAATTGTCTCTTTCAAATGCAGAGGTGTTGGGTGTGACCATAGGTGACCATGGGTCAAGGTGTCCTATGGACTCCTGTGGTG
GGTTTTACAAGGTGGGCCTTGCCTCTATGGGCAGGCCTCACAGTGTGCACATTTATATGGGCTTGTGACCCTTCCCAGAGCTCTGTGTGTGTGTGCGGGT
GAGGGCTGTGTGAGGTTTAGACCGTGGCCCTCATCCTTGGGGATTAGCTACCCCKGCAGTTGCTGGATACCTTTTGAGTCTCATTTACTGTTGTTATGTG
ACCCTGCCGGGGCAGGCAGGGCTTGTAGCCATGAGTGGGGCTGCATCTGGGTCTCCCTGGACACACCTGCCCGCCTCTGTGGCTGYGTGTTGTCATGCCT
CTTGTTCTCACACGAGAGTGGTTTGTGGTGTTACCATAGCTTTGTGTGCAGTTACTGGTGTGCAGACCTGCACAGGTGTGGGTTTGCATTTGTGTGTGTA
TCTCTCCTGGTACTTGGACCTGCATGTGTTTGAGTGGGTGTGCTCCTGTGTAACTCAGAACGCCAATGTGTATATTTGTGTGTTAGTATATAGCTCTAAG
AATCACTGTGCACAGTCCCCATCATATGTGTTTGTGTGTGTTGTTTTCTTGGTACACGAAACATATACGTGGTGCAGTGGGACTTTAAATATTGGTGTGC
AGGCTTCTGTGTGTGTGAGCAGGAGGGGAGGGAGAAAGATGGAGAGAGAGAGAGAGAGAGTGTGCGTGCTTCCTGGTGTACAACTCCATAGCACATGTGT
CAGCAGGAGCCGCCTGAGCTGAGCCTTGGAGGGGCAGGGGGAGGGTCACCATCCTGGAGGCTCTGGGGGCTTCCCAGGCCCAGCCCCSARCCGGGCCAGC
CGGCAGGGATGCCGCCTTCCAGGAAGGCTCGCAGGGAGTTGGCGCTGGAGAGGCCRGGGCTGCCAAGCGCAGCTGGCAGACACCGGATTAACTCTGCGTG
TGCCCTGGCTCACCCGGGAGAGGGTAGCTCGAGTGTGCGAGGGTTCAGGTGGCTCATGCACAGGTGCTGGGCCGCTGGGCATCCCAGTGTCCTCTTCCCT
GAAGCACCCCCAGCTCACTCCCCTTGGAGAGGGGTGGGCTGTCTGAGCAGTGGGCTGTGGCCTGAGCCTGGTTGACTGAGCCTTGCCCCCTTCCGGGAGA
GGTGGGGAGAAGCATAGACCCCTCCTGGGGATCCAGGATGGGCTCATCTCTGCAGCTGGGACTTGGGGACGATCTGTCCCTCCCCAAGGGTAGCAGCCCG
TCAGGGAGCAGGACTGAGTGGGTGGGTGGCTCTGGCCCTGGGCCCTAGGCTCTGGGTTCACCTCACTTGGCAATCGGCCAGACCCTGTGGTTCTCCCACA
CAGAACCCCCTCCCACGATGCTCCCGTCACTCCCGCTTGCTACTCAGACAGGTGCCTCGGTCACTGATCAGAGCTGGTGGGACCCGGAGGGCCGGGGCGG
GTGGAGACTCCTCTGGGGCTTGGCGGGATCAGCTGACCTCSCTCTCCCCTGTCTCTGTTGCAGAACACAGATCTATTTGAGATGATTGAGAAGATGCAGG
TGAGGATGGCTCTGTGGCCTGTTCTGGGGAGCCACAGAGCTGGCTGGGCTGGGGCTGGGGGGCCCTTGCTGCATCTCCAGCCCTTCACCTCYCTGAGGAC
AGGCCACGCCRGTAGAAGATGGTGGCTATTGGTTGTCCAGGGTCCTCTGTCTGGAGGTCAGGGTAGAGGATGCCCAACCCCATCTCTGATGCCGGAGTCC
ATCTAGGCTCCCAGCTCCCATCCCTGTGTGGAACTGCAACAGGGCTGGGGTCAGTTCATCAACCCACCCCACAGACATACACTGCCTCTCACCCAGTGAG
AGACACCGCAGGCTTTGTGGTGGGGGGCCCAGGTGGAATGGAACTGGAGGAGGGGACAGATGCTSGGGGCCTGTCAGCCAGAGACTGTGCTGCAGGAGTG
GGAGGTATTACCCCTCCACCCTCCACCCCACAGCCCCGTCTGCGTTTCACATAGGTATGCATGGGAGGTGGGCCGGGGGTGCTGGGATGGGAGTGCCTTR
AATACCCTCTGATCTTYGATGCCTCCTGTTTCTCTTTCTGTCTCTCTCTCCAATGCCTCCTATTTCTCTGTCTTTCTGTCTCGTCTCTGCCTCTCCCTCC
CCCTCTCTCCCTCAACACATATCTGTGTAGATAACAGYCCCCCCACCCGCCAGCTCGCACACCGGCATGTGCACCTCCCCTGCCCCCACTCCCAGCGGCA
CGTGCGTTCCCGCAGAGTCCCCAGCCCTCCCTGAGGCTGCCAGCCTCCAGCCCCGGTCACTACCGGGACAGCCAGCCCTTCAGACAGGCCCAGGGCCCCC
AGCCAGCTAGCACCCTGCCCTGGGAGTACCCCTACCTTCGCGGGCCGCCTCCTAGGGCTTTCCCCTTGCACGCCTTGGGGAGGGGAGGCAGCRCCTGGCG
GCAGGCCTGGGAGGGTGTAACAGTGCTGCCTTCTCTTACAGGGAAGCAGGATGGATGAACAACGCTGCTCCTTCCCRCCGCCCCTCAAAGTAGGTGGGCC
TGGCAGTCTGCCTCCCTCTCTAGGGGGTGGAGGGGGTCCGGGAAGTGCTGCCACCACTGCCCATCAAGCAGGAAATCCATCCCCTTTCAGCAAGTAGTCT
TACAGTGTGCCAGGTGCGGGGGTMGGGGGGGAGGCACAGCTTCTAGCAGGGTAGACCCAGCCCCTGCCCTCTAGGAGTTCTGTGATGGGGAGAACCCCTC
TCTTGCTAGAGGGCTGGGGCCTCTATTCTAGCTCCTCCTCTCGGTCTTCACTGCTGCAGACTCCCCCTGCCTCTCCAGGCGTCCCCACCCCAAACTCAAA
GCCCTCCTCTCTCAAAGACAGCTGCTGCCAAATGTTTTCCCTGAAACCAGTGATGACCAGCAGTTGCAGGAAGACTCCAACTCAGGCCCTAGGAGACTTA
TGAGCTCCTGCTCCATAAGCTGCTGTCTGGATGGGGAGGGAGTGATAGGGAGGCAGGCCTGGGTGCCCCCCAGCCACTGGTGAGGAGACTGACCGGAGGC
AGGGGACTCAGCGAGATGAGGGGGAGGCTCTTGTTTTTGACCCACTTTTCTTAGCATATGGTTCTTGGTGAGAGATCCCAGAGACCCTAGAAGACCAGGC
CTGGTGGAGTGGGCCCAGGGCTACAGGGTGAGGGTTAGAGGAGGGTGCATGGGCAGTAAGCCTGATGCTCTCTTTGGGGCAGAGGCCCTCACACCAGCAG
CGTCGGTGCCACCTGGGAGCCTGTGAGGAATGTACATTCTCAGACCCCKCCCAGACCGCTGCATCCAAAGCTCTAGGGTGGGGTGCAGCAAGCCCTCCAG
GCAGTCCAGCGGTTTCTTCTGGGGAGGCAGTGAGCCCTCCTTTCTCCAGGCAAGGAGAGCCCCAGAAGATGCCAGCACTCAGCACGCTAAGCCTGCCTCA
GCCCCTGCCCATCTGTAAGAGGTGATGAGGCCAGGGCCCCATCCGCACTCTCAGCCCTGAGGCTGGCCAAGCAGAGGCCAGCTCTGGGGGCACTGGAGGA
TGGACAGATGGAGAGACCCTTGCCCTGTTTGTGTTTTGCAGACAGAGGAGGACTACATTCCATACCCGAGCGTGCACGAGGTACTCAGCTAGAMCCCCGC
GCCCAYCCTYACTCAAGCCCAGGAGGCACTTACACAGGGCTTCTGGATACCAGGYCCTCCTCCTTAGGAGCCTGACCTGCAGGCCTTGCTGCGGGCTGGA
GACTTAATTTRCAGGCCCAAGGCCTCAGAGCCCATTTGAACCCTTAGGCCTTCTGAGCCAAATGTTCCAGCCTCCTGGGCCAAGGTCATGCTCCAGCTCT
ACCTGCCCCCACACCCCCTGTTAGAGACTTGGGTCTCRGCGCTSTCTGGGTCTGGCTGAGGGAAAGGGCTGGAGCAGAACCCTGGGGCCCACACAGGCTC
TGGCCTGTCCCCTCATACCCCTTAGCCACGACAGAAGCGGCTCCAGGTCTGAGTTGGGAGGSTGTYCTGGGGCGCCCAGTGGGGTACAGTGTGGGGTGGC
TCTCAGCTGAGTCCCTCTTCAGGTCTTGGGGCGAGAAGGACCCTTCCCCCTCATCCTGCTGCCCCAGTTTGGGGGCTACTGGATTGAGGGCACCAACCAC
GAAATCACCAGCATCCCCGAGACAGAGCCACTGCAGTCGCCCACAACCAAGGTGAAGCTCGAGTGCAACCCYACAGCCCGCATCTAYCGGAAGCACTTTC
TCGGCAAGGTGGGTGGCCGGCTGGTKCAGCGGGGCTGGCTGGGGTGGGTCACAGTTCAGCCCCATTCGAGGTGGGCCTGGGAGGGAGCAGAACCCATGGG
CCAGGGCTGGGTRACAGTCCTAGAGCCCTGAGTGAATGTGCTCCCACCACACACACTCCCAGTCCCCAGGGAACATGCATGGCAGAATCACTTGTTCATT
CAACATTGATTGCAAAGGCAGCATTATGGCATGGTGGTTCATGGCAGAGACTCTACCAGGGCTTGAATCCTGGCTCTGCCACCCACTACACAGGACATCG
GGYAAATCGCTTAACTTCTCTGTGCCTCATTTCCTAATCTGTGAAAATGGTGGTTGGTGGTAATGATACCCACCTCCTGAGGTTGCTGTGAGGCTTTAGT
GAGCTGATATCTGTAAGGTCTTTACAGTGGTGTCTGGGACAAAGTAAGTGCTCAGTCAGGGGTGGCAAATAATGAGCACTAGCTGTGTGCCTGGCCCTGT
TCTAGGCACCAGGTATACAGCAGCCAACACAATAGACCCAGGCCCTCCCTTTGGGCAGCTTGGAGTTAGGAGAACAGTAATGTCATGGGTTGATGCAGCC
CCTGCCCCACCACCAGCACAGAGCAGGGACCCTGCCCAGCAACAACTTGTCAGAGTGTTGTGGGAGCCAARGGGAGGTCCCATGCCGGGAATGTGTGTGT
CAGGTTGCAGGCCGGGTGCTGTCTCTTCGTCAGCATAGAGCCAAAATGGGGAAGTGTGTCGTGGGCTCTGGAGCCTCGTGGCATGTGTGGGAATCTTGGC
TCTTCCATTAACTGTTTGTGTGACCTTGGGCAAGTTATTTAACTTTCCTCGTCGGTGAAAACAGGGATAATAAAAGTACACGCAAAGCTTCTAGAACCAC
ACCTGGCACATGGTAAATACTCAGTTAATGTTAGCTGTTTTCATGTCTTCATAATTACTTGGTGATATCAGGATTATTCTGTTTTTGCAGAAGAGGAAAC
CGAAGCTCAGATAGGTAAATGATTTAGTCAAGGTCACACAATGACTAAGCCTGGGAATTGAACCAGCTTTGGCTGACCTTCCATTAAGGTGCATGGGAGA
GATCATGCTCCTAGTCATTGTATRTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGGAAGAGGGGGTGACTCCTTGGGGGTT
CGGAAGATGTGTGACCTCAGTCTGGGCCTGGCCATTGGCCTAACTCTGGGAGACACCGGTGCTAACCAATGGAGTTAGGGGAGGATCCACTGTGACTGGG
ACTAAACCAGCAAGCCCAGGTTCAGGAGCCTTTGCCTGGGAACAAACCCAGAACCCAGCATGGAATTCCACTTCCCAGCTGAGCCCTAGAGGTGGAGCGA
GACCTGCATCCTAGGCACCTGCTGTCCAGAGGTTCCCAGCTGGGTCTGGCAGGTGGTAGGATCTGAGGGTACTGTATATGCCAAACACATGGTTGGTACT
CAGAAAAGTTTGTTGAAAGAGTGACAAGTGACAGATGAAGGTAGGAACAGATGAAGGTAGTGGACCTCGAGTGCAGCAGGCTCTGAAGAAGTGCAGACTG
GAGGGTCAGAAGAGGCAGCTGGGCGCCSTGGCTTATACCTGTAATCCCAGCACTTTGGGAGGCCRAGGTGGGCAGATCACTTGAGGTCAGAAGTTCAAGA
CCAGCCTGAGCAACATGGCAGAACCCCATCTCTAACAAAAATACAAAAATTAGCCAGGTGTGGTGCTGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTG
AGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGATTGCAGTGAGCTGAGATGGTGCCACTGTACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAA
AAAAAAAAGAAGAGGCTTCATGTCCAGGATCAGATTAGCAGTAATGAGGGAGAAGCCCCAGGGCTGGCAGAATGGCAGGGCCCCTTCCTGACTCCAGGTG
GGGTAATGGGGGAAGCAGCCAGGTGCTCAKGCACTGGGCCCTATCCTGGCAGAGAGGGGAGGTTAGGATGACTTTGGGCGTTGACTTCCTGGGACCCTGA
GCCCGCTCTCCCACTGTGTCCCGGGGGCTCCTCTGGGCTTGGGGGTGTCCAAGGAAMCTCCCCACTCTCTGGACTTCCCTGCCAGGGGCCTCCTTATCAA
GTGCCTGCCACTCCCTCTCTGCTGGATGATGTCAAGCATTTGGGGGTTTCTGCCACTCTGTGCCCAGGCAGAGCTGGGGGACTCTGCCCCAGGTCCATTG
AGAATGCCCCTGAGCTGCGGATTCGTGGGGCACATTCACTGGTCCCTGCCTCTATCTGCTCCTGGCCTCTGAGCACAGGTGTTCATGTTTGAACAGGATT
TACTTCTAGGATGATTCCTGGGGCGGGTGTGGCCGGGCAGCCAGCTCCACTCCCAGAACTTGGGCTAGGGCTGGGGCTGAGGTTGGCAGGRGGAGCCCGG
GGCCAGGCTGGGTGGTGTCTCCCTGAACTTCCAGCCCTCGGCTTTGGGACTTCCCCACCCGGAGGTGCCAGCCCTGGGCTCCTCTCTGGGGGTGCCATCC
CTGCCGCAGCCACCCCTGATACTCCCCAGGGTGTCTTCCCAACCCTGTGCCCTCTCCTCCAGGTGAGACAGGAGGGTGGAAACCTGCCTGGCCAGCCACC
CTGTGTGTTGTGAGATGTTTCGCTTCCTGTTTCTCATGGGCCCTGGCTTCAGGGGCCACAGAGTCACAGGTTGGGCARTCAGCTTTTGCTCATTGAGCAC
CTGCTGGGTGCCCAGCCCTGAGAAGGACCAGGGCTGAAGACAGGCATGCAGGTCCGAATATGGTCCAGACTCGATGAGCACCCAGAGATCCAGCGTTACT
ACCCACCTTCACTGAACTGAGCCAAGCACTTCATCCCTTTCAGTCCTGGCTGCCACCAAAGTACAGGGTTCCCTCCTATTTGGCAGACTAGGAAAGTGAG
GCACAGAGMGGCCAAGTGACCTCCTCAGGCTGCCCAGCTGGTCAGTGGCAGAGTGGGGCTTTGAGTGCAGGTCTGTCTGATGTGGGGTCTGCTATCAGCC
GTGACACCTGCTATCGGCGAAGGACCTGCATCTGGGAGTGGGTTGGCTTTCTGGCCTTGTTTCCAAAAGCCCCATGCTCAGCCTCACCCACTCCCCTGGC
CCCCACCTCCCACTGCAGGAGCATTTCAATTACTACTCACTGGACRCTGCYCTCGGCCACCTTGTCTTCTCACTCAAGTACGATGTCATCGGGGACCAAG
AGCACCTGCGGCTGCTGCTCAGGTGAGGGTGGTGGGGGAGTCCTGAGATGGCAGGAAGGGCTGAGGTCTTACAATCTCAGAGCCCATCTCATTTGACCCA
CTCTCTTCATCAAGGCCCATAGAGGGGCAGGGATTTGCTTGAGGTTGCACAGCAAGTTAGTACCCGAGTCAGCCTGACACCCATCATCACCTCTGGTCCT
CGCTGTGGTCCACCCCCTTCTGGCCTTACTTTGTGGGGKGTGGGGTTCCCATTTTCCTGTCCTGCTGCCCAGGCCTTCATCGTGTGACTTTCTCTTCTCA
GGACCAAGTGCCGGACATACCATGATGTCATCCCCATCTCCTGCCTCACCGAGTTCCCTAATGTTGTCCAGATGGCAAAGGTGAGGTCTCCGCTCCGCTG
AGCTTCCCGGGCTGGCTCCGCAGATGGGCACCTGTGGGGCTTCAGCTTGCCTTGGCGCGTCCCCTTCAGCTGTAGGCCCTAGCCCTGGCCTGCCGCCCTR
TCCTGAGGCTGTCTCTCACTTGTTCCCATCGTGTCTTGGGCTGCCACGTGTTCTCCTAGGCCCCCGTCCCCTGCCTGTGTGCTTTTGGTTTTCTCTATAG
CACCTTCAGATCTCAGGGGACCTCCGTTCCCTGAGCAACAGTGAACCCCGAGTCCTGCTTTAGCCTTGGCCATTCCCAGCATGKCTCCTCCCCAGACCTT
GACCAGGGAGGCCCAGGCAGCCCCATCCTCTCCTCCCTGGCCCCACACCTCACACCCCTSCCTTATCTCCTCCTGCAGTTGGTGTGTGAAGACGTCAATG
TGGATCGGTTCTATCCTGTGCTCTACCCCAAGGTATGGCTGGATCTGGGCACAGCTCACTGAGGGTGGGTGAGTAACTGGAAGACTGAGCATTTATTAAG
CACCTTCTGTGTGCCAGATACTTTCCCAAGGTTCTCTCATTTAATCCTCACAATAACCCTGTGAAGTCCACAATTTGCAGAAGAGGAGCCACCGAAAGGG
CCTGTGCSTWCCCCCAGGGTGCACAGCAGATAGGAGGGCCTGCGTTTAAGCCTCGGTTTGTCTGCCTTAGAGGCTGGCCTCACATCTGGAACCTCTGTGA
TGTTTGGGGACCCTCCTGAGAGCAAGCTGTGCCATAGTCCTCCCCTGGAATGGGTGTCTTTTCTACCGGCCTTGCCTTTTTATCCCAGAGGAGACCTATA
GAGAGAGAATAGCCCTGGCACTTCCTGCTCGGATGCTGGTAGCTGGGCTCTAGGCACTGTGACAGTGTGGGGATAGGGGCACGGGCTTCTGCCTTGGATG
AGCCAGGGGCACCTCCTGGAAGAGGACAGACAGGTAAACCCTTGGGTCCCTGACTGAATTCTGGAGCAGTGTGAGGTGGTGTGGTCCAGGAAAGGTATCC
TGAAGGGGCTTCAGAAATCAGGGCCCCCCTCCTGCTTATGGGAGAGGAAACTGAGGCCTAAGGTRAGGAGGAGAACTTGCTCAATGCCCACAGCAAATTG
GTGGGACGTGTCCTGTTCTGGGAGGATGATGTGGGTTTACAGAGGAGCCGAGGAGTGAGTTGGGAGTTAGAGTGGAGKAGGGGTGGGCTTGGCATGGCAG
GACYGGGGCTCACAGCAAAACTCAGGAGCGATGAACTTAAGCTTTGGAATCCAACAGACCTGGGGTCAAATCYCAAGCCTGCATGTGCTTGCAAGCCATT
GACCCTAGGTGAGTCACTTAAGGTCTCTGAACCTGAGTTTCAGAGGGGACAGCTGGACTGTCTCCCTCCCAGGCTTGTTCTGAGAATCACATGACGTGAC
GTGTGTAGAGCGCCTGGCTCAGTGCTTGGCACGGGGGAAGAGCACGTCGAATGGCAGCTTGCACACGCAGCCTCTTCACCCGGCGTCCTCTCCTGCAGGC
TTCCCGGCTCATCGTCRCCTTTGACGAGCATGTCATCAGCAATAACTTCAAGTTTGGCGTCATTTATCAGAAGCTTGGGCAGGTGTGCTCACCTCCTCCC
TGCCGCCCCTCCCCACCTGGCCCCATATCTGGAGSCTCACACCTTTTCCAGGGCAGCACACCGGCCAAGGGACTCAGGAGCCCAGGGGCTGCCAGAGGTC
CTCCCTCCGGCCCTCTCTGGGTCCAMGTAGGGACAGAGGGCAGGGGCTTCTCAGGAACTCCAGCTCAATGACCTTGGCCCCTCATCCCCAGACCTCCGAG
GAAGAACTCTTCAGCACCAATGAGGAAAGTCCCGCTTTCGTGGAGTTCCTTGAATTTCTTGGCCAGAAGGTCAAACTGCAGGACTTTAAGGGGTGAGTAT
TAKGGTGGGCTGAGCASAGTGTAATCTGACTTGTGCTCCTGGGCAGGGAGGGAGCCCCTGTCCTGGCCCCATGGAGGCCTGGCCAGGGCTGGAGACTGAG
GCGTGGCCTGGGGGGCCCCGGGGCAGGTTCCGAGGAGGCCTGGACGTGACCCACGGGCAGACGGGGACCGAATCTGTGTACTGCAACTTCCGCAACAAGG
AGATCATGTTTCACGTGTCCACCAAGCTGCCATACACGGAAGGGGACGCCCAGCAGGTAGCCTGGGCACCCCCACCTGCCTCCTGTCTTCCACSTGTCCT
CCCCCTCCACSTGTSTGTTCAGCCTCCATCACGCCAGGCTCAGCGCTGGGCCCTGGGATGGAGATGGAAATGATCAGCGCCCCCACTTGTGGGSTCTCGT
TGGGTCAGGGGAGACAGAAAGCCTTGGTTTCTACAGTCAGAATGGCACCCACTTCCTAGGTGAGCATAAATGCGTGGGTGCATAGAGGGACTAGAACAGT
GCMTAGTACATTGCAAGAGTTCAGCAGATCTGAGCTGGTGTTTTATGGGGAGTGGAGAGCATCATGGGGTCATGTGGGGACATGTAGTCTTGGCAGAGGT
GGGAGTCAGGAAAAGCTTTCAAGAGAAAGTGACTTTTAGTCCGTGAAGGAGCTGGGAGAAGRAAGGGAAATGTTCCAGGTGGCGAGAACAGCTTCTACAA
AGGCCTGGACTCGAGSACATGCAAGGCATGTGCCAGGAACTGAACTCAGAAGCGTGTCCCCTTGTCCTGAGCCTCCTACAGGGCTATCTGCCTTCCCAGT
CAGGTCCCCAGCCCAGGGGGATAAAAGGAAATGTGAGAAAAATGGAAATAGCTATTCCTTATTTTTAGTGTCTTTTGACTTTCGTTTACTAAGGGTCTGT
GTTCATTTTAGCAACATGAATGTATACCAAGTTGAGCTTGTTTATTCAATTGGGGGCCATGTTTGGGGCATTGAGATAGGAGAAGGGCTGAGAGGTAGGG
TCTGGGGACCAAGAGACCTGGGCTCGAGTCCCCAAGCTCATTATAGCTCATTATAGCACCTTCCAAGTCACTTCTCTCGGCCTTGATATCATCATCTGCC
ACAGCATCCCAAGAAAACTAAAATAATTTTTCTTGTAATTTCAATAGATATCCAGGTACAAGTGGGTTTTGGTTACATGGATGAATTGAATAGTGGTGAG
GTCTGGGATATTAGTGTACCCTCATCACCTAAAGAGTGTACGTTGTTCCAAACAGGCCATTTTTCAACTAAAATAGTTTTAAGACAAGTTTYTTTGCTAC
ATTATTTTGGGGAAAGCAAATCCTTAGATGTGCCCTCTGACTACCCCAAACCCTCCTAAACCCCCGTGGGCACCCCTCTCCCCCATGGGCCCCCTCTGGC
CAGACCACGAAGGCCCGTGGCTTTGTGCTCAGTTGCAGCGGAAGCGGCACATCGGGAACGACATCGTGGCTGTGGTCTTCCAGGATGAGAACACTCCTTT
CGTGCCCGACATGATCGCGTCCAACTTCCTGCATGCCTACGTCGTGGTGCAGGCTGAGGGCGGGGGCCCTGATGGCCCCCTCTACAAGGTGGGCGCTCTT
GGAGCCTCCCAGGGGCATCAGCAAGGGCCCTGGCTGCAGCTCTGCCCTCCCTGGGATGCCCCTCTGAGCCTCACTTTTTCCAGCTATAATGGGGGGACCA
TGGAAGGCTTCAATGGTGCACTGTTCACACCACGCCCCCTGTCGTCCCCAAAGCTCACCCCCTCAGAGAGGACAGTTTCCCTCCTCTGCCTCCTGGCCTG
GTATCACTGTCCTCCACCTCCCGTAGCCKCCTCTGCCTTCACCATCCCGATGATTCCTAAGGCCCCTACCCATCTCCACCACTAAAATTCAGGGCAAAAG
ATAGAGGGCAGAAATCTCTGGAAGAAAGATTCATCCAGCCCACAGTCACTGGGTCTCCCCGACCAAGGGGCAGTCCAGGGAGGCACAGTAGGGGTTTCTG
GCTGGGTGGGGCAGAGCAGACCCCAGGCTCCACAGGAACAGACAGCTGCCCTCCCTTCCAGGTCTCTGTCACTGCAAGAGATGATGTGCCCTTCTTTGGA
CCCCCCCTCCCGGACCCCGCTGTGTTCAGGAAGGTGAGGGGCACCCCCCCAGTCATGGGCAGAGCAGGASAAATGGGTGGGGGCCTGGGGGGTGCATACA
CATTCTGCCTTATGAGGTCCCAAAGTCTCATTGTATGCCAGGGCAGCTGGGCTCCCCTAACTGCAACCGGGGCCTGGCTTTTCCATTCATCTTGAAAACA
CCTTTTTTTTTTTTTTCACAAGGTCACAGGATAAACTACACGATTGTTTTACACTTTCCATAGTARACTGGCCTCTCCTCATTTCTGTTCTCTTTCTGAC
AGTTCCAGTCTCTTTCTTTCTTCTAAAATGTTTGGGGAGGGGCACACTTCAAGCCTGGGCTTCAGCTCTGTACGTAGCGTGTTCTGCTACCCTAGMCTGA
AGCAGTAGGTTGAGACCCCAACCCAGACCCTAACATCTGTGGAGTTTGCTCTCCCGAAGGCGTGGGCAGCCATGAAGGGCACTGGGGCCCCTTGAAGGTA
CCTGGGGAGCTGAGCCCAGGGAGATACCCTTTTGGGAGTGAAGAGGGTGACCCCAGGCCCCAGCAGAGCATGGTTCAGGAGCTGCAGCCTCTGCCTCGTT
GGGGTTCCRACCCTTGTTTATGTGTCATCTCAAYTTCCCTTCCTTATCTCCTCCACACTGGGAGTTTMCAGGGGCCTGAGTTCCAGGAATTTTTGCTGAC
AAAGCTGATCAATGCTGAATATGCCTGCTACAAGGCAGAGAARTTTGCCAAACTGGAGGTGAGGATGGGCTGTGAGGGCTGGGTGACCCTCTTCTCACCT
TCCAACCTATAACTTCAGCCCTGTCCCTGGGAAGGGAAAAGCCATGTTCAGACCTTGGCCTTAGCGGGGACACCTGGGGCTGGATGGATTGATGGACGAG
TAGGAGGTCGGGGAGAGGAAGCCGGAGGGATACTGAGGAGTTCCCASGAGATGCTGGGAGGCGGTTAGGCTGACAGGGACACCTTGGGACCTGTCAGGTG
GGGGGGTGGACCTGGGGGGTGGGGACATGAAGCCAGATCTTGAAGGGGCTTTGAGGGGCCCTTCATATGAGGGTCCCTGGGGGATGCTTGAGCTGTGGAG
TGGCCTGGGGGAAGGCGGTGCAGGAGCCCTCCGCCCTCCCCACTCCCCACTCATTCAGAGAAGGTGGCCCGTGCCTCAGAAGGTGGCCAGGATTTGAACT
GTGGGCCGAAGGGCTGATCCTTGGGGTCCCTCCTGACGGCCCGGGCCTGGCCCACAGGAGCGGACGCGGGCCGCCCTCCTGGAGACGCTCTATGAGGAAC
TACACATCCACAGCCAGTCCATGATGGGCTTGGGCGGCGACGAGGACAAGATGGAGAATGGCAGTGGGGGCGGCGGCTTCTTTGAGTCTTTCAAGGTGAA
GGGCCCCRGGTCTAACTGGCCGSGGAGCAGGGAYGTGGCTAGGGCGGAATCCCGGGCTGAGGCTGATAGACTGATGGACACGGCGTGGGGGTGGAGTCTG
GCAGAAGGGGCGTGGCTGAGGGGGTGGAGTCCCGGACTGGGGGATTGACACAGCATGGGGAGTGCAGCTAGAGGCCGTTCGCATTGGAGTCTGAGAGGGG
GCGTGGCTGGGGCGAAGTCCCGGACTGGGGCTGATTGACATGGTGTGGAGGTGTGGCTAGAGGCCGCTCGCCTGCGGGTAGAGTCTGGGATGGGACGTGG
CTGGGGGTGGAGTCAGGGGCCGGGGCTAATGGACATGGCGTGGGGGTGTGGCTAGAGGAGGCTCTAGTCTGGGATGAGGGCGGGGCTCGAAGTGGACTTG
GGCTTTAGAATGGGCTTACACTTGGGGACATAGTCTGCCTTGGGTAGAGTTTGAAGGAGCAGCATGTAAGGTGGGGCCCTGGCTTGGGGAGGAGTAACTG
TTGGAGGTGGGGCMTASGTGGGGAATTCACCTGGGAATTCTGCTGAAGGGTGGAGGATTCTGGGAGACARCAAGGGCTGCTGGTACAAAGGCTGCTAKGT
CAGCASGAAGAGAAGAGAGGAAGAGGCTCTGTCTTGACTGAGGGAAAGTTCTCAGAAGAGGTGTGTGAACCATGATCATTGGAGAGGGACTTGGCCTGTG
TGACCTACCCTGCCTGTCCCTGGKTTAGCTTAGCATTAAGAGCACGGACACTTCAAATTTCAGCTCTGTTACTTACCAGCTTGGGCATTCTGTGAGCATC
AGTTTCTTTATCTGTTGAGTAGGGTAATGGCAACTTGCCTCATACAGTTATTGTTATCTGTAAAAGAGTTAGGTTAGTGCAATACAAGTTTAAAAGCAAA
ATGCAAAACCTTGCCTGTCTGCCTCAGCAAATGTTGTCTGAAATGAGAAGTGTGGGGAGTGGAGTAGTTCCTGGACAGGGTCTGGACTCACTCAGGCCAC
AGGGCCCCAGGTGGTAGCCTTTTTGCCACCGTCTCCTCCACCCACAGGAGGATAACTGCCCATCCTCCAGCTTCCCGGCCGGCTGGTCACACCTCACCCT
CAACCCAGGACAGGTCACACAGCTGGAGCTATGGGTTGGAATAAGGGAATTAGCCCGGCTGCCCAGGCCTGCCCAGGAACTGAGGTGAACAGATCGTCTT
TGAGAAAGAGGCTTGGGGACTGGAGACAGGACAGGTGGGGTCAATATGGATCTGGGGTGTCTCCTTTGAGGAGGGCTCCGATGGTCCCACATCTGGTAGG
TGCTGGACGGTGGACCTAGATTAGGTCAAAGAATTTCTCAGAAGCAGYGGAGTCCAGAGTTGAGGGCATGGGTCCTGGCATGCCGGGCTCACCCCTGCCT
CAGTTGGCATGAAATGGGCATGATTGCTAGTCCCCATCTTGCAGGGGGATCCAGTGATAGAGTGATTGTAAAGCGCTGGTCCCATAGCAAGCATTTGGTR
TAGATTGGTCTGAAAAAAACAAGGAAAGAGGGTGGGAGGGAAGAAAAGAAAGAAGGCAGGAGAGCTCTAAGAGGCCCTAACAGGAATGAAACTGAGGTGT
CAAGAGGGCTCTCTGTGCACACTTTTGGCCATGACCCAGTGTCTTCTGCAGTCCTTACGCAGCCACATGAGGACACTCAGCACAGAGCAGCCTGTGTGTC
CCAGAGAGTGAGAGAACTGAAGTGGTGTCCCCAAGGCCACCCGGCAAGTTGGTGGCAGAGCCAATACCTGAGCTACCCTTAGGCCYCGTATGTACCTGCT
TCTCATGTGACGCACAGGGAAATTGAGGCCTGGCCCCACCTCCCTCTGTTGCCCTGCTGGCCACATGCCCAGGGGAAGGGATTTCCAGGGCTTACCCAGA
GTGGCATTGCTGGGGAGAGACCAGATGCCTGGGCTCCTGGGTTTCCCCAAGGGGACGGCCCTTAGGAATCCTGTGCCTCCTCCACTGCCACCCCCTTYAC
AGCGGGTCATCCGGAGCCGCAGCCAGTCCATGGATGCCATGGGGMTGAGCAACAAGAAGCCCAACACYGTGTCCACCAGCCACAGCGGGAGYTTCGCGCC
CAACAACCCCGACSTGGCCAAGGCGGCTGGAATAGTGAGTGCCCTCCCCCTCCCCAGGCCCCKGCCCCTCCCTGGGGGGCCCTCAGCTCTCCTCTGCCTC
CTGAGGCCTGACTCCAACTCTCTSTGTTGCCCTGCTGCCCACATGCCCATCCTAGGCTCTGGATTTGGTCTAGCCACTACTTTCCATGGGAGGGGGGTGA
AGTGCCCAGGCCAGGACACTGCGGTGCTGACAGCTTGCAGCCTGCAGCCCCTTCCCAAGCTCCTTGGCCCTCCCCTCCTCCTGGCCCTTTATGCATTGAG
GTGTGACTTCCTGCAGGTCAGCCCTGGGACAGCCTSTGTGTCTCATTCCTTATTGAGTATCTATCTGTTTGCTGGGGACTGGGCTGCTGTGTGGGCACCT
ACTGTCAAGCCTTGGGTTTCTGGGAGCACCTACTGTGTGTCGGGCTGTGGGCACCCACTGTGTGTCAGGCCCTGGGCTGCTGTGTGGACATGCACTCTGT
GAGCATCTACTGTGGGCCTGGCCCTGAGTACCTGTGAGCACCCACTGTGTGTCAGGTCCTGGGCTGCTGTGTGGGCATCAACTCTGTGAGCGCCTACTGT
GTGCGCAGCCCTGGGCTGCTGTGTGAGAACCTACTGTGTGTCAGAAAATGGACTGCTATGTGAGCACATCGTGTGTGATAAGCCCTAGATGTCAGTGAAC
ACCTACTGTGTGTCAGGAAGTGAGCTGTTGTGTGGGTACTTTCTCTGTGAGCACCTCCTACTGTGTGTCCGCAGCAGCCAGGGCCTCTGTGGTGTGGCTG
CCTATTGTGTGTCGGGAATCTGGCTTCTGTGTGAGCATCTCCAGAGGGAGCACCTCCTGTGTGATCACTGACTGTTGTCCAGGTTCTGGGATTCTGCTGC
TCACACTCAGGAGTGCTGGGCACATGGATGAATACGGCCTATGGCTGTGGGCCTCACTGCTGTCCACTGCCTAGTGGCCACCCCAGGACACTGCACCCAC
TGCTGTGCTCCCCACCCATCCATCCAGCCACCCATCCATCCACCCACCCATCCATCCATCCACCCACCCATCCACCCATCTAGCTATCCACCCACCCACC
CATCCACCCACCTACCCATCTACCCATCCACCCACCCACCCACTCATCCATCCACCCACCCATCCACCCACCCATCCACCCATCAATCCATCCATCCACC
CACCCATCCACCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCTCTATCCATCCCTCTATCTCCATCCATCCATCCACCCACCCACC
GATCCATCCATCCATCCATCCTTTATTGACTGTCTACTGCATGCCAAGCCCTGCGCTCAGTGCTGTGAGGCTATGTCACGTGGCAGGAGGGAATTCCCCG
ACCTCTGCTGTCCAGCAGTCACCAAGCACACTGTCATGCGAGGAGCAGGCCCAACCTCCCCCAACCCAGTTTTATCAACCACTCCCTTCCTCTCCACCAG
AGTGACCCAGCCTCCTGTGGGTGGCCGAGAGGGGCCCCAGGGACAGGACCAGGCCAGCAGCACCCACCATGGCAGTAACCGGACCCATTTCTGTTTTGTT
TTTGCACAACTCTCCCTCTCTCTGTGTTTCCTCCTTTCATTCTACTCTCTCTCCTTGTTTTTTTGTTCCCTCCTCCCTTCCCTTTCCCCGTCCTGTGGCC
TCTCTGCCCTTTGGCTCTCTGTTTCTCCTTCCTTCTTGCACCTGTCTTTTTTGCTCCCTCTCCTCCTTCCCTTCTCCGCTCTTCTCACCCTCGCTTTTTC
CTTTCGGCCTTCCCCTGGCTTCCTTCTCTGTCTCTGACCCTCCCTGGGCCTGTGTCTGTGTCCTTGCGTCCCTGTCTCTCTGGATTTCCCTCTGTGCCCA
TCTGGTGTGCCCTCGCTGGCTCACGCGTGTCCCTGTCTCCGGGTAACTGTCTGTCCATCTCTCCCCCGTCTCCCTTGTCCTCTGTCTCTCCTTGTGCTTC
TCGCCTTCCTTTCCCCGGCCCTATCTCTCCCATTGCCTCCTGCACCRTTCTCTTCCTTTTTCTGTCTGTCTTCCTCCTTTCCCTGCCTCTCCTCCTCTCT
GTGTCTCCCTCCCACCATCTCTCTTGCTCTCTGACTCTCTCTCTGTCTCTCTCTCTCTGCCCCCGCCCTCTGCTGCTTGCCAGTCATTGCTTATTCCTGG
GAAAAGTGCGAGTAGATTCGGACGCCGGGGCAGTGCCATAGGCATAGGAACCGTGGAAGAGGTTGTCGTCCGCGGGGCCGCCGGCTCTGGAGGCTGCCTG
CACGCGCTGTTCTCTGCTCGCTCTCAGGACGGAGGCCATATTGGGGACGTTGCCCCTCTGCCCCCGGGACAGGCCCCAGGGCGTGCGGGATGGAGTGGCG
GCAGCTCCGATGGCACTCAGCACCTGCTTTGGGGCCTGGTACCTGTGCCAGAGCCAGTGCCCCTCACCAGGGGCTTCTGGCCCTGCCTTGGCCCCTGGGA
CCCTGGCCCAGTCCCTGCCAGGATCCGGTACCCAAAGGCCCTACACCCAGCCGCACGTCCCCCAATATCGCCGGTCTGCATGGAGCGCCATCCCTCTCCT
CTGCCCTGACTCCTCCTCCCCGCCACGAAGTGACCTGGGGTCCTACCCCTTCCTGCCTCCAGARAAGCTGGGGGCGGGCTTCTGGGGCCTGGGGCATCCC
AGCACAGTGTGTGGGAAGCTGGGGGAGTCTTCCAGCTGCTGGGCCAGAACCTCCCCCAGCCAATTTGGAGGTTCCGGGGAGGGGCCCTAGCTGGCACGGG
GTGGGACTTGGGTTGCTACACTGCCCTCTGACCACTGCCCTTAGGCTGCAGATCCCACAGAGCCCTGGGGGGCGGGGAGCGGTAGCCATTCTGAGGACTC
GGCCTCCTCCCACCCTAGCCCCCTCAGGATGCTGTCCTAATCSTGGGCCAGTATTGACGTGCAGTCCTGCCGTGTGAGCTCGGGAGAGCCCCTTGCCCTC
CTGGGGACTGTTTCCCTTTCGTAAACTGGGAGGCTGTCTCTGGGAATGGATATCTTCTCTCGTTCTTTCTTGCTCATCAACTCTGCTTCAGGGCCTGGGG
CAGCAGGATCCCCAGAGGGGATGTGGGGGGGCACTGGGGCTCCCAGGTAAGGTGGCACTGAGTTGGGGCCTCTCCCCACAGTCACTGATTGTCCCTGGGA
AGAGCCCCACGAGGAAGAAGTCGGGCCCGTTCGGCTCCCGCCGCAGCAGCGCCATTGGCATCGAGAACATACAGGAGGTGCASGAGAAGAGGTGGGTGAG
TGGGGGACAGTGCCCCATTCCCCTGCAYCCCCATCCCTGAGCCCCATTCGGTGGCAAAGCAAGGCAGGCAGAAGGGAGTGCCCGCCCCTCTGCCTCTCCA
TCCCCACTAGTGACAGCTGTGTGGTCAAGTCCCTGCTGCGTGTCGGGCACCAGGGCCAGCACGTCACCTAACGTGCCACATGCAGATCAAGAAGCGGTAG
GTCAGAGGAGTCAAGGGGCTTGCCCAGATCACACAGCCAGTGATGGGCAGAGCTAGGATCTGAGCCCTGATCTGTCTAGGGCCAGCATCCGTGCTCTTCC
CACGGCCCCAGCGCATGTGGGAGGGCMTAGTGCTGGTTTTCAGGGTGGCCACAGATGGGCCTGGGGGGTCCATGAGTGTGGGCAGCATGAGGGCAGTGAG
CCCAGGCCAGCAGCAGGGCTGCCCCCGGACATCAGAGGCTAGCTCCCGGCTGCCTCCCCGATATTAACCATGTGTGACCTTGGGCGAGTCACTGACCTCC
TCTGAGCCTTACTGTCCCAACCTGGAAAAGGGACAAGAACACAACCCATGGCATGGGGCTGCTGTGGGGACTCAGGGCACTGCGTGTGAGGCCAGGGCCA
GGTCCCCTGAGAGGGCTCCAGGACGGGAGTGGGCATTGTCCTTGCTGCTGCCAGAGCTCCGCATGCTGTGAGTCCTGGGTTCAGGTCTTGGCACTGCCAC
GTCCTAGCTGTGCGTCCCTGGGCAGGTTCCTTATCCATAATGGGACAGCTATACCTGCTCCTGTGGAGAGGACCTGGGAGGAGTCCCATCCTGTCCCATA
TAGCCCCATCAGTGCCAACCCCATCACTGGCCAGGCTAGCCAGGGAGCCCACAAGACTGCTCCAGGGCTGGCCCTGAGTATAGGGGCGTGGGTATGAGGC
AGGAGGCACCGTGACTCCCCTCACCGCCTGGGCCTCACGCTACSCCTGATGCCAGGCCTGGTGCTGAATCCCCCCGCTGCCCCCGTGTGCCCCGCAGGGA
GAGCCCTCCGGCTGGTCAGAAGACCCCAGACAGCGGGCACGTCTCACAGGAGCCCAAGTCGGAGAACTCATCCACTCAGAGCTCCCCAGAGATGCCCACG
ACCAAGAACAGGTTGGGGCTCAGGGCACGTGGGGCTTGGGGGCTTGGGAGTGGTGAACCGTCCTTCCCCTCCCCTGCCTGGGCCCGGGACAGCACAGGAG
CCTTGACTGTGCCACAGCAGGGTGTCAGGGGGACCTGGGCATTCTCTGGGGCCCTCCTTTGACATATACCCAGCGAGCACTTTGTGCACGCCCAGCCCCG
CGCCCGGCTCTGGAGCACAGAGGTGCCCTGCGCATAGGTCCCCGCCTCACGGCCGCAGGTCCATCAGAACGCGGCCTCATAGGCTGTTGCCGGATCATGG
TGATAGGAGGAACCCGAAGCAGGGTTGGGGGGATGAAGAGGGACTGGGGGCAGAGGTGTTTTAGATGSGTCCTCGGGGAGRCACCTCCATGGGGTGACAT
TTGAATTGGGAACTGAACCAGCCCTGCTAGGACTGGCATGGCAGAGGAGCTCGGCCAGTGCAGAGGCCTGGGGCACACTCCAGGGACAGAAAGAAGGGTG
GCTGGGAGTGGTGACGTATGCCTGGAGTCCACCTACCTGGGAGGCTGAAGCAGGAGGATGATTTTAGCCCAKGAGTTGGAGGCTGCAGTGAGCTATGATC
ATGCCTGTGAATAGCCACTGCACTCTAGCCTGGACATCATAGCAAGACTCCATTGCTTAAAAAAAAAAAAAAAGAGTATCTGAGGGGCTGGGCCTGGACA
GACATTGTGACATTGTGCTGGGTGGTGGCGGGAAGGAGGTTGGAGAGGTGGGCAGACACTGGCTTATAGCTTAGCAGGCTGTACAAGAGCTTTGACTTTT
TTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCTCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAAGCTCCACCTCCCG
GGTTCACGCCATTCTCCTGCCTCAGCCCCCCAAGTAGCTGGGACTACAGGKGCCCGCCACCATGCCCATCTAATTTTTGTATTTTTAGTAGATACGGGGT
TTCACCGTGTTAGCCAGGATGGTCTTGATCTCCCGATCTCGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCC
AGCCTAAGAGCTTTGACTTTTATCCTAAGTGTGACAGGGAACCTTGGGAGGATTTTAATTACGAGGGCGATGCTTTAAGAAGCTGACTTCGGTTGCTGTA
CAAAGAGGCTGGAGTGGGGTGGGATGGAAGCAGAGAGGCCAGTGAGGAAACTGTCCCTGCATTTGGTGTCCGTTGGCTGAGCTGCCTCTGTGTTGGGCTC
TGTGGGAATCAAGAGGACTCAGCCCAGGCTAAAGAGCCGGGTAGGTGAACAGAGAGGCAGGAAAGGGTGGCAGGGACCAGGGAGACGCAGTATGCAGGAG
CCAGAGTGGGGAGGGTCATTCTCACCTTGGGAGGAGGAATCAGGGAAGGACTCCTGGAGCGAGAGCCCTAGGCTGATTTTTTAAAGGCACATTTGCTTTT
CGGGATTTGAGAGGACTGAGACTCCAGGCAGGAGGCATAGAGGCCCTGAGCATGAAAACCTTGTGGGATTAAGAGAGTAGACTGTGGAGTTGCCTGGACC
TCAACCCCTGCCCTCCCACCTGTGCTGAGTGACCCTGGGCTGTGTGCCTGTCCCCTCTGTGCCTGGTGTCATCTCATCTGGAAGATGGGTATAATAATCA
TAGYGATAAGATAATTCAGGTAAAGGCACGTAGAGCAGTGCCCGGTGCAGAGTGAACGTGCACCCGATGATGTTAGTGTCGCTAACCGCTGCTGTTTTTG
AACACCACGCCAAGGATATTGTGCTTTACCTGGGGAAATGGGAGGCCAGGAGAGGGTTTTGAGCAGGGGAGGGACGTGGTCAGATTTATGGATTAGGAAG
GACAATGCGGGTAGGAGGAGGCTGCAGGGGGAGTCTGGGGGGCTCAGAGGCCCAAGGATCTGTAAGGGGTCCTCAAAGGTGCTTGGCTGCTACCAGCTGG
GCCTCCCGGGTTGGRGAGGGCAAGGGAGTGAGGGCCTGGCCCAGGAGGGGCTCGGGGTGGACACCGGCTAATGGGGCACTGTCTGTGGCAGAGCGGAGAC
CGCAGCGCAGAGAGCAGAGGCGCTCAAGGACTTCTCCCGCTCCTCGTCCAGTGCCAGCAGCTTCGCCAGCGTGGTGGAGGAGACGGAGGGTGTGGACGGA
GAGGACACAGGCCTGGTGAGAGGCTCAGGGGGGTCAGGGGCCCCACAGGAGCTTGGAAGGGGGCTCTTTGGTCCCTGGAGATGCCCTGAGTAGAACCACG
AGCCTGGGCGTGGCTGAGATGTGATCAGGGGACCCGGCCCAAAGGAGCAGTGCAGACGAACCCTCCCCTGCTCAGAAGCCTTCCACGGCTCCCCAGCACT
GTCCACAGGAAGCTCAGTCTCTGGAGCTCTTGGAGATCTGGTCACTCCCTTCCTCTCTAGTCTCCTCTCTTACCACTTCAGACATTCTGTACTCCGTTGC
AGTCCCCCAAGCCTCCCAGGCTCACTGCACCCCTGGCCCTTTGCRCATGTGCCATCTCTTCTGTCTGGAACACTCTTCCTGCCGCCTCCTCCTTTCTTTG
CCAGGCTGGCTCTGACTCATCCTTTTTGACTGAGTCTCACACACCTCCTCCTGAAAGCCTTCCCTGATTTCCTAATCTCGGGGTAGGTTAGGAAGCCCCT
TTACGTTCTCACAGTCCTCGGGCTTTGCCCGGAACACCCTTTATCATTCTTCATTCTGCAAACCATCAGTGGGCCCCTGTTCCTTGCCAAGCGCTGCCCC
AGATACAACAGATRCAGCTGGGAACAGTGCAGACCCAGGCCCTGCCTGCTGGGGCACAGAGTCTAGAATTGCAATGGTCTCTTCACAGCCTGCCTTGCCT
CCCAGATATCAGGCTCCTGAGGGCAGGGCCCATGCCTGATTTATGTCAGTGGCAAGCCCTGGAGAACATCAGTGAATGTTTGTTGAGTGAGTGAGTGGCA
GTGGGTGGCGTGTGCCTGGGTCTGTGCCTGCCCTGACTCTGCCCTCCTGTGGTCTCCCTGGGGCAGACATGGCTAGGCCCGTCCTCCTCGCAGRGGGTAC
GGGTGGGGGGTTGTGGAATGCAGTGAGGGAGAGGGGCTGGGAGGGAGCCCTAGCCAGTGCCAAGGGCATAGGCTAACCTCCCTCCCTCTTTCCACCCCCT
CCCCAGGAGAGCGTGTCATCCTCAGGAACACCCCACAAGCGGGACTCCTTCATCTATAGCACGTGGCTGGAGGACAGTGTCAGCACCACTAGTGGGGGCA
GCTCCCCAGGTACCAGGACAAGGCAGCTTCCCCACAAAGCAGGGCTACCTTGGGGTAGGAGGGGGACAGGGCTGGGCACCAGTTCCCATGCCCCATGCAG
TGGATGTGATGTGACTGCCCCTGACTTGGAGGACAGCGGGCAGGTCATTGTCCAGCCTAGGGTGGCTGGGTGGATTGGAGGGCTGGTTTCTTCCGGAAGG
GTCTCGGAGGATAATGGGGGATGGCAAGGAAGAAAGTTAAGGGTGGGGTTGGAGCGCACTGGTGCCGACCGCCCACCTATGCCCCCGTCTCCCTGGTGCC
TCCCCGCGGCCAGTGAGGTGGCTCCCTCCTGCCCCCCTCCCCAGGCCCCTCTCGATCACCCCACCCAGACGCCGGCAAGTTGGGGGACCCTGCGTGTCCC
GAGATCAAGATCCAGCTGGAAGCATCTGAGCAGCACATGCCCCAGCTGGTACGTGCAGCCTCCTGGGGCTGGTGCTGAGGGAGCCCCACCCGGGAGGGGA
TGAGCTGGCGGGGAGGCTGGGAGCTGAGGCTCGACCAAGAGGTCCCCCTAGGCCCCGCTAGGCCAGGAGGGGTGGGGCTTGCCCGGCCTGGACACAGCCA
GTGACTTTGTGCACCTGTGTCTCCCGCCCCGTTGCTTCTCCCGTCTTGCCACCTGCCTCACCACCACTGTCTGTCTGCAGGGCTGTTAGCCGGGCCACCC
CCTCTGAAGGTGAAACTGAGCAGGTTAGACCCAGCCCCTCAGCTTGTGTTTGGTGGGAGAGGGTGGGGGTGTGTAGAGGGCTGAGCTGATTCCTCCCTGT
TCTTCTGTCACCTCTCTGGGGTGGGAGCTATGTATCTGGGTTTGAGCCCCCTGGTCCTCAGTTGCTGGGTGACTTGGGCAGGCCACGGCCCTTCCCCGTG
ACCTCTGCCCTTGCATTGTTGGAGGATTTGATGGGAGTGTGAAAGGGACTTGGCAGTTGCCAGGTGGGGAGAAGTTTCAGGGGTTCCCAATGGGATGGAA
AGACCTGGAGCCTGGAATTCCAAGGGTGGGCCCCTCCCAGGGTGGGGTTCTCTGAGGCAGGGACTTGGCAGAGTTGGGGCACACTGGTGCCAGCCACCCA
CCATGCCATGTTTCATGGTGTCTCCATCCCCCTTTGCCCTGCAGATGAGGCCACAGAAGCACAAGGGGAAGGTGCCGTGTCAAGCCCAGGCAGACGAGAC
CTCTGCCCTGAAGACCAACACCAGCCCGTGGGCTGCCCCCTGCCTCCCCACCCTCCCCATGGCCCACCCATCTGGGCTGTCTCTGCAGGGCAGAGCCGTC
CAGACCTGGGATCAGGGAAGCTGCTGGCATCGTCCCCACCCCCAGCCTGGGGGTCTGSGCTGGGGCAGGGATTGCTCAGTGGAAGCAGGACTGGGGGTCT
GGCTTGCCCCCTCCCTGGGCCTCCATCACCCCTGAGCATCCCTCTGGACTCAGAGGGAACAAGGTGGGAGAGAGAGTTTGAGACAGCTCCGTGTGGAGAG
CTTAGCCCCTGGAGGCAGCACAAGGAGGATGTGATATGTGGGGGAGTGAGCACTGGGTTGGGAGCCGGGTCCTGGTTTCCAATTTGGGTTCTGCTGTGTG
ACTCTGGGCAAGTCACTCTCCCTCTCTGGGCATGTCTGCTACAAATGGACAAGATTATTTCAGAGGTCACTGAAGACTGTGATTACATGCACCTGCCTTA
GAAGGTAGGATTTTCTTCCCAGGGACCTCCTATCACCCTACCCTGCTTCTTGAGGTCCCTGGAGCCCCAGGTGGGCTGAGGGGCAGGGAGCCGGCTGTGC
CCAGTATGCCTCCTGGACCCTCCAGTTCTGCCACAGGTCTGCCGATGCCCTGTCCACTGCCTACACATGACAGACAAGTAACCCCCTCATGGGGGATGGG
GACCTACCTGGCTCCTCAGCCAGCACCCAGCTTAACCCCTGCCATCCCATGCTGGGCCCTCCAGGCCAAGAGTCTCAGCTGGCCGAGAGTCCAGGCCTTG
CCTCCCCCGACCGCCATGGAGGGGGCAGCCCGGCACAGCTGCTGGGAGCCCTTGTGTGTCTGGTCACACTTTTTAGGCGTCACGCCAAARGCCAGCCTCC
TGGCCCCAATACCCATTTTGGAAGCCCCTGTGGCCGTGTGGATGTCGGTAACAGTTGTATAAAATAAATTCTATTTATCGCTATTGTACCCAGAGTTGGG
CCTGGCTTTGTGTGAACCGTGGCCAGATTGACCCCAGACAGATGTCCAGGGATGTCAAGGTGGCAGGGAGCAAGCCTGTCCCCATCAGAGCTGCTGGGCC
TGGGGACACCTCCAAAGCCAAGCCACCAGCTCTGTGAGCACCGCCCGTGGTTTCCTCCCCGGGGTGCTGTCCTTCCCTGCATCCTGGGCCCCTTCCCCAC
TGCAGGAAGAACATGGCTGTGCTGTCAGGCAGACCTAGGTTTGAGTCCTGGGACCGTCTCTTGTTAGCTGGGTGGGTGGCGTTGAGAAACTTACTAGCTT
CCGTGAGCCTCAGTGTTTCCTTTTGTAAAATAGGAGTGGTAGTGTTTCTCCCAAGGGTTTGTTGTGAGGATTCAATGAGCTGGTGCGTATCAAACATACA
GCACAGTGTCTGGCACACATTAGGTGCTCAATTAATTACTTCCTTCTCCCTGTTCTCATATTCAGTGAATCCCCTGATATGGCCACAAGGCGGCGCCAAG
GGACCACTTACGGGACCCGATGGGGACCCAGGAGACGGGGATGAGTCCAAGTCCCTCTACCAGGATCTCACAGCTGGGACAGTAGGACGAAGGGTGATGA
GGGGCAGCCGGGGACAGGAGAGGTGTGCACAAGCAGGGCCTGGGGAGAGAGGCGTCAGGGAAAGTTCCTGGAGTTGCTCCCCGTTCCTGAGAAGGCCTAG
GGAGGAGGGACCCTGCAGGAGGGGGCCTCGAGTAAAGGGCGGGGAGGCAGAGCACCCCTGGAACCAGGAAGGTGGCAGCCAGCTCTGAATGGTGGGAAGG
TGACAATGGAGGGGACAGGGAGATGGGCAGGGATGAGGCCAGAGGCAATGTGGCCTTGAACTCCCGACGGAGAGGCCAGGGCTCTGCGCCAAGGGCAGGG
GGAGCCCCAGGCAGGAGCGGTAGTTGCTGGTGGAGGCTGCACCAGTGGAGGGAGGAGGGGACCAACGAGGTTGTTGCTGGGGTAAGAGGGTGGCCAGGAG
GACGCTGAGAAGGACACCAGGTGGGCCTGAGCAGGGGGACCAAGCGCCTGATGGGCTGTGGGGCTAAGGGGGGAATCGGGTGGCTCCCGGGGGTACAGGC
TGGGTGTTGGGTGAATGAGGGGACTCTCCCTCTGGGGCAGGACCACGGAGGAGAGCAGGTCTGCGGGGTGGCTTTGGGGACATTTGGGAGTAGGCACCAA
ATTGGGCCCCGAAGGGATGAGCCGTGCCTTGGCCTCCCTGACAGCTTGGCAGTGCCCCCTATCCCCTGCTGGCCCTGCCCCCTTCCCAGGATGATGCTGA
AGGAACCCCAGGGGTTTGTCCAGGGAGTGCCACACTTTTCCCGACAGGGCCCTTCTGTGACCCTCTGATGCCTCAGGCCACCCATGGGTGGTGACTCACA
CCCAAACCCCAGCCCCACCCAACTCGGTTTGGCTCTAGGCTGCTCTGGGCCCAGTGAGTCCCCTGTGAACTGCCCACCCATCAGCCGCACCCCTGCTCCC
TATCCCTCCGCCGCAGTCCTCTGCCCTCTCTCCTCCTGCCCCACCTCCACAGGGCCGGCATCACAGTTCAGCACCACGGTTAAGAGCTTCTTCAGAATCA
GCTCTGAGCTGCTTCGCCTCCTCGCGCTATGACCATGCAGACATGATTTTGGCTCCCTGGGCCTCAGTTTCCTCATCTGTGCAGTGGGGGTGCTAACAGC
CCTGCCCTCGCTGGCACCCTGGCATGAGGATTAAATGAGGTGACACCTCATAAAGTTCTGGGTGCAGCCCCAGCACGTGGTGGGCTCAAAGAAGAGAGTG
TGCATACCGCAGGAAGGGATCAATGACGTCCGTAATTCAGAACACGTGGGGTCCGCTCAGTGCGTGGAGGACGCCCACCTGCCACTGGGCCCAGCACAGG
TGCCTAGATGTGAGGCTTTGGGAATGGACGGCGTCAGGTGCTTCCCTGGGCCTCAGCTTGCCAGGTTTACCTGGGGTGACGATGCTCCCATAACAGAGCT
GGGGGAGGTCTCCGGCTTGTCTCCCTGTACTTAGCAATGCACCCCCACTCCACTCTATCCCACAGCTGAGACAGAGCAGCAGGGGCTGCTGTGGCAGAGC
AGGTGGGCAGCTTGGTGGGCAGAACCTGCCTTTGCCCCATCCCTGTCCAGCTGGTGCCAGGCCGTCTGCGGGAAGGAAGGCCTTGGGGCTGGGTTTCACC
CTACCGCATCCCTCCAAGCTCCGAGGTGGGGTCAGGGGAGGCTGGCAACGGATCGGGCCTCTGGGATCAAAGTGTCCGGTGCTATTTCTCTTGTGCCCGC
GCCAGCTCTGTGCTCACCCTGGGCTGTGAGGTGGGAGGGCGAGCCGGGACACTCTGACTCGAGGCTGGAATTAGAACTTGGGCGGGGGGTACCAGGCTCC
GGGAAGCGCTGGACTCTGCTTAGAAATTACTCTGGTAGTGGAAACAGCAGCCGGGGGGTTCCTCCAGACACAGGAGGGAAGAGGCCTCCCGTGGAGGGAC
CTGGGTGCCTGGAAGACGTGCCCTCCCCCATCTCCCCTACCTCACAGCAGGGGCCTCCTGTCTCCAGGAGTCTGTTTCCTTACCTGGAGAATGAGGACAA
GGCCCCTACCTATTGCTCTGAAGAGGCTGTCTTGGCCTCTAAGGTACCTGGGATGGCTGCTGGCACAGAACCCGTGCCCAATACAAGGGGGTCCTCCCCT
ACCCACCCCCAGCTGGGGTGTTCTTGGACCTCCATGGCCAACCCTGGGGCAACTTTGCCAAGGAGATGACCGCAGGCCCGGGCCGGCYGTGCCAGGGGAC
TGGGAGCTGGACGTTCTCTGCTGCTCAGGCCACAGGGGGTGCTCAGCCAGGGACCCTGGAATGTGGAGGTCCCTCCCTTCTTCCCTGCTCCCGCCTTGCC
AAGGGGATGGAGCCTCCTGAAATAACCAGATCTGGTTAGCGAGGCTAATTTTAAAAGCCACTCTGGCTGCCCCATAGGCCGTTCTGGGAAGCCATGAATG
TCCCTGTGTTTGCCCCTGGGAGGCAGGGCGAGGGGAGAGCCCTGGGGCTGAGGCCGGCCTCTGAATGGACTCCCACCCCTGCCTCCCAGGGCCGGCCAGT
CTGGGGCCCAACGTTGGGGCTCAGGGACCCCACCTCTCCTCCACCCCAATCCACTCAGGCAAATCCTAGTGGGCTTTCAGGACCCTCCACCCGCTTCACT
GGTCTCCTGAAGCAGCTCTGGGCAGGGATCCGGAAGCTCTCTGTCTCCCTCTCAGCTGTCTCCCCCTCTGTCTCCAGTGCTCAGTCTCTGTGGTGTCCCT
TTATCTCTGTGTCTCTGCCTCTCTCTGTCTCTGAGTCTCGTGGTCCCTCTCTGCAGCTGTGGCTCTCTCCCCCTCTCTCCCTGGACCCATCACACAGGAG
GCGGGATGCAGTGTTCCTAAGGGTCCATACGCTGGGCTCTGTGCACTGGGTGGTGGGCGGCTGTGCCCACCTAGGAGCTGGGGTTTCAGGTGCGGCCCAG
CGAGGGAGGGAACTAGTCCTGGGGACCAACAGGAGCTATAACTGGGCAGGCAGGAGCCAAGTCCAGACACGACCTGGGCCATCTGGCCAGGCCCACTTCC
AGCAGGAGGAAAGAGCTCCAGGTCTAGGGTTGCCAGATTTAGCAAATAGAAACCCACGGTGCCCAGTTAAATTTGAATTTCAGATAAACAAGGAAGAATT
TTTAGTTTAAGTATACCTTGTGCGATATTTGGGACATACTTATACTAAAAAATTATTCTTTGTTTGTCTGAGATTCAAATTTAACTGAGCGTCCTGTATT
TTATCTGGCAACCGTCTCCAGGGAGGCTCTTGGAGTGAAGGGAGAGGTTTCTCAGGAAAGGCAGGTTGCACAGGCCAGTCTGATGGCAGTGTCACAACCA
TGCCCTGGAGAAATCCCAGTCTGATGAGGGAGGCACAGCTACAGACCACCAGGAGTTGGTGTGGGGACAGTCCTTGGGAACGTGGTGGGGAGGCACGTGA
CACACAGTCTTCTTAATGGAACCAGAGACATCAGAAGGAAGGGTCTGTGTGTGCATGAATGGCTGAGCCCAGCACCTTGCACACAGTAGGGGCTCCATAA
ATATTTGCTGAATGAATGAAGAATCCGGGGAATGGAGGGGGATGCGCATCCGGGGAATGGAGGGGCAGTAGTACCCTACTGCCCAAGCTCCTAGGAACCA
AGTGTGTGCCACCCCCAACCCAGGGACTCCCCAATATGAGCTGCAAAGGGGACGGGAGGGGGCAGAGTGGGTAAAGAGAGATCAGCTTTTCCCTTATTTT
GGCCCCTCCCCAGACCCCAATCCTATGTGGGAATTCAGCCCTGGGCAAGGGTGCAGGTGGTGGTGGGGACTAGGGCAGGTGATCTACCCTTGTGGCATTT
GGGGATGGCTGGGATGAAGGTGGGGGGGCGCAGGCCAGAGGGCACTGCTCAGTGACGCTGCTGTTTCTCAGGGGCCTCCCGTGTGCAGTGCCCTGTGCCC
TAGCGGGGTGTTGGACGAGACAGGGGACCCCTGGAACCCGGGAAGTGAGGGGTCCTTGTTTCTGGGCAGGTGAGACTTGGGCCTTTGTCTGTGGCCCATT
AATCTCAGGGGTCTCCCTGGAGGTGGCGGGGGGAGGCAACTAGGGAGAGACCTGTGGCCCTTTCATGCCTCCCCAGGGGCAGAATTCCTTAAACAGCCTT
TTTATTCGTTCACTCATTCATTCACTTGCTAACAGGCTCGCTTACTCACTCATTGTTGCCATTCACTGAGATGACCCCCCGACCGCCCCCTGAACTCTGC
CCCCTGCTCAGGATCTCAGGCGCTTGTCCAATCCCAGCAGGAACATACCACTGGCTCCTGGCATGACACTGGGCAAGTCATTGACCCTTCGGAGCCTTGG
TTTCCCCAGCCCTGCAATGGGGCTACACTAGCAGCTCCCTGGCAGGATTATTGCGAGAATGCGTGAGATGTTGCCTGCCCCCCGGGAGCACTTCCAAAGG
GAGCCACGGCTGCTGCTGGCACCATTATCATCATCATTATTATTATTAATCATTGCAAGGCCCCCATGGGTTGGGCAAGGAGCAGCCGCCTGGCTCCATG
TCCAGGTCATGCCGAGGCTGTTCTGGGAAGCGCCCGCTTCCCCTTGGGGCGTCAATCATCTCAGTTCCCAGCCCTCCTTTTCAAGGGGTGTCAGCGTTTT
GGCTTCTAGATGCAGCATGAAATCCTGTAGAGAAAAGTGAGAGGTGGGGATGGAGCCGAAGCCTCGCCCCCTCTTCACCTGCAGTGTGAATTCCGGGCCT
TGGTTTCCCCAGTCGTGCAGCCGGGGGCTGGGCTGGGCATCCTGCCAGAGCCCAGAAGGGGCCTCTCCATGTGTCATCCTGTTAGAAACGGTTTAGCTCC
GAGCCTATAATCACATCTACCCGGGGAGGAACTAACACAGCGTTTCTTTAAATTGGGCTCTAATTGCRGCTTTTAGTGGAGTCACATGCACCCCATCCCC
CAGCCGGTCTGAATTAGGGCGGCTGTCCCAGCCTGCCCTGCCAAGTACAGGAATCCCCCAGGATTGCTGTGGCTCCCACTGAGCCAGCGGTGGATGAGTC
CAGGGCTGCTGTTTCTCAGGGGCCTCCCGTGTGCAGTGCCCTGTGCTGGGCGCTTCCGTCTGGGGAACTCCTTGTCATTTCACCACCTGAGGATCAGGCA
CTTCTGGGACCTGCTTGCCACCAGGCCTCCTTTCTATTCACCCAGAAGTGGGGAGCCAGGCCTGGAGAGTGGGGTGTTGGCGGGCAAGGCCAGAGGCCGT
GCCCCTCCTTGGGGGCGTGGTGGGGGAGCCTGTGGTTTCCCTGTTTGTTCTGGAGATCCCAGCCGCTTCCCCRAGGAGACAGCTGACGGTTCCCAGGCCA
CAGCCCCTCAGGCGGGGCCAGACCACGGCTGGCCAGCCTGGGAGCACTGCCCGCCAGCCACCCGGGCTCCGCCAGGCCCTGGCGCT


SNP Information

Context             (SEQ ID NO:44359):
GGTGTTGGCGGGCAAGGCCAGAGGCCGTGCCCCTCCTTGGGGGCGTGGTGGGGGAGCCTGTGGTTTCCCTGTTTGTTCTGGAGATCCCAGCCGCTTCCCC
R
AGGAGACAGCTGACGGTTCCCAGGCCACAGCCCCTCAGGCGGGGCCAGACCACGGCTGGCCAGCCTGGGAGCACTGCCCGCCAGCCACCCGGGCTCCGCC
Celera SNP ID:            hCV3135989
SNP Position Genomic:     84973
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44360):
TAGAGGCGGGGGCACCCTGCTTAGTCCAGAAAGCTCACCCTCCACAGCAACCCTCAGTGCCCCTGCCTCAGTCTACTCATCTTCAGAGTAGGTCACTGCT
Y
GGCTGGAGGCCTAATGGAGAGCTTGGGGAGAGACCCTGTCCACGTCTCTGATCTCCGGGGAAGGAGAAGCCTGTGTGGTAGCCCTGCTAATGAAGCCCCT
Celera SNP ID:            hCV1944450
SNP Position Genomic:     48668
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44361):
GTGGGCAGAGAGTCCGGGCTTAGACTCAGGCAGGTCTCATGCAGATGCTAGCTTTGCTGCCGGCCAGCCGTGTGACCTCTGTGCACAGCTGGGTCCTGTC
Y
GTAAAGTGGGAATACCAGTGTGGTGAGGAGGCCATGCCCTCGGGCCTAGAACGAGGGCTCAGCACAGGGCCTGGCATGTGGTAGGCCCAATGAGCGTCAG
Celera SNP ID:            hCV1944451
SNP Position Genomic:     48370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44362):
AAATGCCACTGCCACCATATCTGTCCTTTTGGGTCAAGCATTGCCCAGCGCAGACCCCTCTTGTAAGATGCCATCACTCCTGGGAGGTGGAGAGGCCTCC
R
GTGCATAAGTGGGGCTGTGGATGGTTCCTCCGGGCCATTTCTCCTGCTGGAGTAGCTGGGCTGAGTGGAATTAGAAGGGAGGCTCAGACTGGGCGCAGTG
Celera SNP ID:            hCV1944453
SNP Position Genomic:     47512
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44363):
CATCCCTTGCCAATGAGGCAGCTGCAGCTGGTCAGAGCAGAGAGGCTGGAGCCCACACTGGGCTCTTTGTCTTCGGTGGGAACCCTTCAGCCCCCATGGC
Y
CCTCTCAAGGGCCCACTGTCCCAGTACCAGTGGGGCCTCCCGGGGGCCAGGCCTGGCTGGGAAACTTGCCACGTTGGCGGCCCCTTGGCTACTCTGCCAA
Celera SNP ID:            hCV27513694
SNP Position Genomic:     21335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44364):
GGGACTGCTGCATGGCTATCATATGAGCCTAGGGGAAGACAGAAGGGCACCGCTGGACTAGCCTGATCACAAGCAACAGCCGCCACTGGGCAGCCACGGC
S
GCACCCAGCACTCCAGCTTTACCGGGCTTCTACCCCAGGACTTCCTGACCCCCAGGCAGCCTCTGCCCTCCACCCCACTGCAGGATCCCTACTTCCTCTA
Celera SNP ID:            hCV1944454
SNP Position Genomic:     46065
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,8)   total(G,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44365):
AGTGGCTTATGCCTGTAATCCTAGTGCTTTGGGAGGCCAAGGTGGGAGGCTTATTTGAGGCCAGGAGTTCCAGACCAGCCTGGGCAACACAGCAAGACAC
S
CATCTCAACAACAACAACAAAAAATTTATTTTTAATTAGCCGAGCACACACCTGTAGTCCCAGCTACTAGGAGGCCGAGGGGGAAGGATCACTTGAGCCC
Celera SNP ID:            hCV1944455
SNP Position Genomic:     44570
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44366):
CCTGAGGTCAGGGTTGTTGTCATAAGGATTGAATGACATCACAGTGCCCGCATGGCAAATAGTCCCCCTGCCGCTCCTCTACCCCATCGCCACGCTCCCT
Y
TAGAGTCCTAGGAGAGGTCAACGGTGCCCAGGGAAAGGGGACACAGGAGCCTCCCGTGCCTGTGCCTGTCTGCTTAGGCTCCCAGTGGGCTGGGGAAGAG
Celera SNP ID:            hCV1944457
SNP Position Genomic:     40996
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44367):
ACTAAAGACCTTCTTTGTCATTGCTGTATAGTATTCCATGGTTTGATATATTTAACTAATCTCCTTGTAATGGACATTGAAGTGGCGTCCAGATGTTTGC
R
GTTGCAAACCCTGCTTCATGACTTTTTTGTTCATATATCTTTATGCATTGGTGTTATATTTCTGGAGAATAAATGCCTAGAAATGGGGTTGCTGGACCAA
Celera SNP ID:            hCV1944458
SNP Position Genomic:     37675
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44368):
CACTGAAGCCTCAACCTCTCAGGCTCAATCAGTCTTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGCACCACCATACCCGGCTAATTTTTG
K
GGTTTTTTTTTTTTTTTTTTTTGGTAGAGATGGGGTTTTGCTATGTTGCCCAGGATGGTCTTGAACTCCTGGCTCCAAGAGATCCGCCTGCCTTGGCCTC
Celera SNP ID:            hCV1944459
SNP Position Genomic:     37321
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44369):
AAGCGAGAGAATCGCTTGAACCCTGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGTGACAGAGCGAGACTGTCTCAATA
W
ATATATATAGCTGAGTTGGAACCCACTCTGTCCAGCCCTCTTGAGCCTGTGCCCTTCCTCACTGGCTCACACTGCCCTGCTCTGTATCCAGGCTGTGTAG
Celera SNP ID:            hCV15863534
SNP Position Genomic:     14975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44370):
CTGGCCTTGTTTCCAAAAGCCCCATGCTCAGCCTCACCCACTCCCCTGGCCCCCACCTCCCACTGCAGGAGCATTTCAATTACTACTCACTGGACGCTGC
Y
CTCGGCCACCTTGTCTTCTCACTCAAGTACGATGTCATCGGGGACCAAGAGCACCTGCGGCTGCTGCTCAGGTGAGGGTGGTGGGGGAGTCCTGAGATGG
Celera SNP ID:            hCV25932907
SNP Position Genomic:     61251
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44371):
CCACCACCTTCATGGGGGTCCCACGTGGGGCTGCTGGGAGCAGCAGCAGGAGATTCCTGAGACTGACTCCTGTTTTCTCTGTCTGGGCAACAGCCCAAGA
Y
TGGGGCATGTGGATCCGGGGCTTGGCAGGAAGGGAGAGACTCAATGGCAGCCCTCACTTGACAGCTGGGTTCATGAATGAAGCTCCCAGTCCCTCTTCCC
Celera SNP ID:            hCV7476110
SNP Position Genomic:     50256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44372):
AACACCGTGTCCACCAGCCACAGCGGGAGCTTCGCGCCCAACAACCCCGACCTGGCCAAGGCGGCTGGAATAGTGAGTGCCCTCCCCCTCCCCAGGCCCC
K
GCCCCTCCCTGGGGGGCCCTCAGCTCTCCTCTGCCTCCTGAGGCCTGACTCCAACTCTCTCTGTTGCCCTGCTGCCCACATGCCCATCCTAGGCTCTGGA
Celera SNP ID:            hCV11550388
SNP Position Genomic:     69263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,5)      total(G,5|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44373):
GGTCCCAAAGTCTCATTGTATGCCAGGGCAGCTGGGCTCCCCTAACTGCAACCGGGGCCTGGCTTTTCCATTCATCTTGAAAACACCTTTTTTTTTTTTT
T
CACAAGGTCACAGGATAAACTACACGATTGTTTTACACTTTCCATAGTAGACTGGCCTCTCCTCATTTCTGTTCTCTTTCTGACAGTTCCAGTCTCTTTC
Celera SNP ID:            hCV26187860
SNP Position Genomic:     65916
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,14)   total(T,14|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44374):
AGTGGTGAGGTCTGGGATATTAGTGTACCCTCATCACCTAAAGAGTGTACGTTGTTCCAAACAGGCCATTTTTCAACTAAAATAGTTTTAAGACAAGTTT
Y
TTTGCTACATTATTTTGGGGAAAGCAAATCCTTAGATGTGCCCTCTGACTACCCCAAACCCTCCTAAACCCCCGTGGGCACCCCTCTCCCCCATGGGCCC
Celera SNP ID:            hCV26187861
SNP Position Genomic:     64892
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44375):
AGAATCGCTTGAACCTGGGAGGTGGAGATTGCAGTGAGCTGAGATGGTGCCACTGTACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAAA
A
GAAGAGGCTTCATGTCCAGGATCAGATTAGCAGTAATGAGGGAGAAGCCCCAGGGCTGGCAGAATGGCAGGGCCCCTTCCTGACTCCAGGTGGGGTAATG
Celera SNP ID:            hCV26187862
SNP Position Genomic:     59908
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,9)   total(A,4|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44376):
CATGTGTCATCCTGTTAGAAACGGTTTAGCTCCGAGCCTATAATCACATCTACCCGGGGAGGAACTAACACAGCGTTTCTTTAAATTGGGCTCTAATTGC
R
GCTTTTAGTGGAGTCACATGCACCCCATCCCCCAGCCGGTCTGAATTAGGGCGGCTGTCCCAGCCTGCCCTGCCAAGTACAGGAATCCCCCAGGATTGCT
Celera SNP ID:            hCV3135992
SNP Position Genomic:     84568
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,12)   total(G,3|A,12) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44377):
GTGACAGATGAAGGTAGGAACAGATGAAGGTAGTGGACCTCGAGTGCAGCAGGCTCTGAAGAAGTGCAGACTGGAGGGTCAGAAGAGGCAGCTGGGCGCC
S
TGGCTTATACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACTTGAGGTCAGAAGTTCAAGACCAGCCTGAGCAACATGGCAGAACCCCA
Celera SNP ID:            hCV26187863
SNP Position Genomic:     59628
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44378):
GGGGTCCTCCCCTACCCACCCCCAGCTGGGGTGTTCTTGGACCTCCATGGCCAACCCTGGGGCAACTTTGCCAAGGAGATGACCGCAGGCCCGGGCCGGC
Y
GTGCCAGGGGACTGGGAGCTGGACGTTCTCTGCTGCTCAGGCCACAGGGGGTGCTCAGCCAGGGACCCTGGAATGTGGAGGTCCCTCCCTTCTTCCCTGC
Celera SNP ID:            hCV3135993
SNP Position Genomic:     81888
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   SC_12_T(C,12|T,12)   SC_12_C(T,7|C,10)   SC_12_TT(T,3|C,18)   SC_95_C(T,78|C,99)   total(C,139|T,100) 
SNP Type:                 hmCS


Context             (SEQ ID NO:44379):
AACATATACGTGGTGCAGTGGGACTTTAAATATTGGTGTGCAGGCTTCTGTGTGTGTGAGCAGGAGGGGAGGGAGAAAGATGGAGAGAGAGAGAGAGAGA
G
TGTGCGTGCTTCCTGGTGTACAACTCCATAGCACATGTGTCAGCAGGAGCCGCCTGAGCTGAGCCTTGGAGGGGCAGGGGGAGGGTCACCATCCTGGAGG
Celera SNP ID:            hCV26187864
SNP Position Genomic:     54460
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|G,9)   total(G,9|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44380):
GGGTTTGAGGAGCGGAAAGGAGTCTGGAGAAGGAGGAAAGAAGCCCTGGATGAGGCCAGAGACAGTGGGCGGGTGGGAGGGGGGCCGGGGATGGGGAGCA
S
ACACGCAGGGCCTCGTGGGCCACGTGAGGCGGGCGTCTGGATCCTGCTTGCGGCGGGAAGCCATTGGGGCCTTCTAGGCAGGTGGGTGGTGTGATCAGAT
Celera SNP ID:            hCV7476043
SNP Position Genomic:     35278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44381):
AAACATATACGTGGTGCAGTGGGACTTTAAATATTGGTGTGCAGGCTTCTGTGTGTGTGAGCAGGAGGGGAGGGAGAAAGATGGAGAGAGAGAGAGAGAG
A
GTGTGCGTGCTTCCTGGTGTACAACTCCATAGCACATGTGTCAGCAGGAGCCGCCTGAGCTGAGCCTTGGAGGGGCAGGGGGAGGGTCACCATCCTGGAG
Celera SNP ID:            hCV26187865
SNP Position Genomic:     54459
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|A,9)   total(A,9|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44382):
GGAGCGGAAAGGAGTCTGGAGAAGGAGGAAAGAAGCCCTGGATGAGGCCAGAGACAGTGGGCGGGTGGGAGGGGGGCCGGGGATGGGGAGCAGACACGCA
S
GGCCTCGTGGGCCACGTGAGGCGGGCGTCTGGATCCTGCTTGCGGCGGGAAGCCATTGGGGCCTTCTAGGCAGGTGGGTGGTGTGATCAGATCCAAACAT
Celera SNP ID:            hCV7476044
SNP Position Genomic:     35286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44383):
GAAACATATACGTGGTGCAGTGGGACTTTAAATATTGGTGTGCAGGCTTCTGTGTGTGTGAGCAGGAGGGGAGGGAGAAAGATGGAGAGAGAGAGAGAGA
G
AGTGTGCGTGCTTCCTGGTGTACAACTCCATAGCACATGTGTCAGCAGGAGCCGCCTGAGCTGAGCCTTGGAGGGGCAGGGGGAGGGTCACCATCCTGGA
Celera SNP ID:            hCV26187866
SNP Position Genomic:     54458
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|G,9)   total(G,9|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44384):
AGGGGGGCCGGGGATGGGGAGCAGACACGCAGGGCCTCGTGGGCCACGTGAGGCGGGCGTCTGGATCCTGCTTGCGGCGGGAAGCCATTGGGGCCTTCTA
K
GCAGGTGGGTGGTGTGATCAGATCCAAACATGCGACACAAGCGCTTTCCCTCCCACACCCATTCACGCTCCTGCCGGGGCCTCCCATCTCCATTCTCACC
Celera SNP ID:            hCV7476045
SNP Position Genomic:     35355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44385):
CGAAACATATACGTGGTGCAGTGGGACTTTAAATATTGGTGTGCAGGCTTCTGTGTGTGTGAGCAGGAGGGGAGGGAGAAAGATGGAGAGAGAGAGAGAG
A
GAGTGTGCGTGCTTCCTGGTGTACAACTCCATAGCACATGTGTCAGCAGGAGCCGCCTGAGCTGAGCCTTGGAGGGGCAGGGGGAGGGTCACCATCCTGG
Celera SNP ID:            hCV26187867
SNP Position Genomic:     54457
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|A,9)   total(A,9|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44386):
ACCCCTGCCCTCCCACCTGTGCTGAGTGACCCTGGGCTGTGTGCCTGTCCCCTCTGTGCCTGGTGTCATCTCATCTGGAAGATGGGTATAATAATCATAG
Y
GATAAGATAATTCAGGTAAAGGCACGTAGAGCAGTGCCCGGTGCAGAGTGAACGTGCACCCGATGATGTTAGTGTCGCTAACCGCTGCTGTTTTTGAACA
Celera SNP ID:            hCV3135998
SNP Position Genomic:     75304
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44387):
GGAAGGAAGGAAGTTCCTCCCTTCTCAGGCAAACTTCAGTGCTCTCAGGACCCACCCCTCAGGAGCCTGCCCTGGTGTGATTCCTCCCCCCAGGACTCTA
Y
AGCACTGCCCAGAGCAGAAGGGGCCCAGTCCAGGCTCCAGAGCACCTTGCAAGGGGAAGCCACACCCTCCTCTGAGGACTGAAAACCAAGGGACATAGTT
Celera SNP ID:            hCV27478514
SNP Position Genomic:     21859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44388):
GGAGCCCACAAGACTGCTCCAGGGCTGGCCCTGAGTATAGGGGCGTGGGTATGAGGCAGGAGGCACCGTGACTCCCCTCACCGCCTGGGCCTCACGCTAC
S
CCTGATGCCAGGCCTGGTGCTGAATCCCCCCGCTGCCCCCGTGTGCCCCGCAGGGAGAGCCCTCCGGCTGGTCAGAAGACCCCAGACAGCGGGCACGTCT
Celera SNP ID:            hCV3135999
SNP Position Genomic:     73444
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,22)   caucasian(C,17|G,19)   total(C,25|G,41)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|G,7)      total(G,7|C,2) ;no_pop(G,-|C,-)   ;JBIC-allele(G,278|C,445)   total(G,278|C,445)
SNP Type:                 INTRON


Context             (SEQ ID NO:44389):
GAGCCTAGGAGTTTAAGGCTGCAGTGAGCTTTGATCACGCCACTGCACACCAGCCTGGGCAGCAAGAGCAAGATCCTGTCTCAAAAAACAAAAAAAAAAA
A
GGGAAAAAGAAAAAAGTATTTATTGAGCAACTACTATTTACTAAGTGTCAGTGGTATAGTGTTAAGGGCACTGCAACCAGATGTTGGGGGAGGTCAAATC
Celera SNP ID:            hCV26187869
SNP Position Genomic:     45049
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,14)   total(A,3|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44390):
GGAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGTTCCTCCCTTCTCAGGCAAACTTCAGTGCTCTCAGGACCCACCCCTCAGGAG
Y
CTGCCCTGGTGTGATTCCTCCCCCCAGGACTCTACAGCACTGCCCAGAGCAGAAGGGGCCCAGTCCAGGCTCCAGAGCACCTTGCAAGGGGAAGCCACAC
Celera SNP ID:            hCV27478515
SNP Position Genomic:     21824
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,180|C,737)   total(C,737|T,180) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44391):
ATTGTCCTTGCCATTCATCTACAGGCTCACATGCTATGATGCAGAAGATAAATTCTTGGAAGTGGTCTTGCAGGTTAACAGGATGCATTTAAATTCAGCC
R
TCACCAAAGGACCAGGAGCTGGTCAGGGACTGTCCTGCTGCAACCCTGGCCAAGGGAACGTGACCCCCCACTAACCACCCCCACTCCCACCCCCACCCCC
Celera SNP ID:            hCV27478516
SNP Position Genomic:     21135
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,197|G,1112)   total(G,1112|A,197) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44392):
TCTTGGTTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCTTGAGTAGCTGGGATTACAAGCATGCGCTACCATGTCCGGCT
R
ATTTTGTATTTTTAATAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTGAAACTCCTGACCTCAAGTGATCCACCTGACTTGGCCTCCCAAAGTGC
Celera SNP ID:            hCV1944460
SNP Position Genomic:     37007
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44393):
GGGAGTGAAGAGGGTGACCCCAGGCCCCAGCAGAGCATGGTTCAGGAGCTGCAGCCTCTGCCTCGTTGGGGTTCCGACCCTTGTTTATGTGTCATCTCAA
Y
TTCCCTTCCTTATCTCCTCCACACTGGGAGTTTACAGGGGCCTGAGTTCCAGGAATTTTTGCTGACAAAGCTGATCAATGCTGAATATGCCTGCTACAAG
Celera SNP ID:            hCV25935310
SNP Position Genomic:     66334
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,36|T,4)   total(C,70|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:44394):
GATCAGACCCAAACAGACCCAGGCATGACCTGAAGAAACCCCATTTCTAGCAGGAGAGACTGACAGTGGCTTAATGGTCACACCATGAAATGTGCAAACG
M
AACAGGTAAATCCATGAAGGCCCAAGACAGGCTTCTGGGAAAGCTGGTCAGGTTCGGAGCAGCTTCTCCTGGTCTGGGGAGGGGGCTCTGGAAGACTGAA
Celera SNP ID:            hCV1944462
SNP Position Genomic:     34976
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,9)   total(A,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44395):
CATTCATTCATGCAGCAGATCAGACCCAAACAGACCCAGGCATGACCTGAAGAAACCCCATTTCTAGCAGGAGAGACTGACAGTGGCTTAATGGTCACAC
Y
ATGAAATGTGCAAACGCAACAGGTAAATCCATGAAGGCCCAAGACAGGCTTCTGGGAAAGCTGGTCAGGTTCGGAGCAGCTTCTCCTGGTCTGGGGAGGG
Celera SNP ID:            hCV1944463
SNP Position Genomic:     34959
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44396):
CTTCACGCATGTTATCCTCCAGTGCAGGAGACAGACAGCTAAGGTAGCTTCAGATGGGTAATGTGTAGTACGGATGGGGTGGGTGCAAGGCCTGGCTTTG
Y
CAAGGGTATCAGGGAGGGGCCTCTCTGAGGCCTGAATGGGAAGGAGCTGGCTGTGGGAAGAGTAGTCCAGGCAGAGGGTAGAGAAAATGTAAAGGATTGG
Celera SNP ID:            hCV1944465
SNP Position Genomic:     33864
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,13)      total(C,13|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44397):
GCCAAGGCCTGAAACCAGGGCCTGGCACAGAGCACGTACTCCGTCGATGCCAGCTATTGCGGTTACTGCCATCATCGCGGTCATGGTTACCTGCTGCGCC
Y
GCAGTGGGTGCGGAATTGCGCTTGGTGTGTAGACTCTGTCCTCTGGAAGCTTGCTGCCTGCCAGGGGGTGACCTGACTGCCTACACGTGACTGTACACCC
Celera SNP ID:            hCV1944466
SNP Position Genomic:     33043
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44398):
GGCAGAACCAGCACTTCCCTCAGGCACTAGACCTGTCACGAGTGAACTTAGTTCCCTCCTATACTCCTTCACTCTACCCTAAGGTAAGTGTCCCCCTCCA
Y
ACCTACGGCCCCTGGTCTGCCCCCTACCTCCGACACATGCCCAGGGCTGGGAAAGGCCCAAGAATGACTTTTGGGCAAAGGTAAAATGTTCAGGCAGATG
Celera SNP ID:            hCV25937929
SNP Position Genomic:     49027
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:44399):
ATGTGGAGGAGAAAAGTGTGTGGTGGCACATGCTGGATTCAAGACTGAGTTGGGCCTGACAGGTGAAGGGAAGAGAGACAGCCACCAGATCATGTCCCTG
Y
AGGCCCTGCTGGGACTTCTGTGGGCTACGCTGGAAGGCTCTGAACCCCCCAGCCACCATGGGAAGAGGCCTGCTAGGGTGCCAGTCGCCCATCCTCCTCC
Celera SNP ID:            hCV1944467
SNP Position Genomic:     32602
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,10)   total(C,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44400):
AAGGAGAGGTGCTTGGTCGCTTTTTGTTTTTTTGGAGACAGGGTCTCACTCTGTCGCCCAGGCTGTAGTGTAGTTGTGCAGTCTCGGCTCACTGCAACCT
Y
CACCTCCTGGGTTCAAGTGAATCTCTTGCCTCAGCCTCCTGAGTAGTTGGGACCACAGGTGCATGCCATCACTCCTGGGTAATTATTTTTGTATTTTTAG
Celera SNP ID:            hCV1944469
SNP Position Genomic:     27918
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44401):
GCTCCCATTTCATGTGTCAGAGGAGGCAGCGTGCAGGTGTCCAGGCCAGACAGAGCAGAGCCGGAGCTGGGCCTAGGGAAGGCGCTTGGCGGTGGCTGCA
S
GAGCCAGGGCCGTGATGGGAGGTCATGGGGCAGGAGGCCAGGTGACGGGACTGAGGGCCTGGGCTGAGGACAGTGGGATGCACGCTGTGGAAGGGACACT
Celera SNP ID:            hCV15863544
SNP Position Genomic:     43377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44402):
GTGGCCGGCTGGTGCAGCGGGGCTGGCTGGGGTGGGTCACAGTTCAGCCCCATTCGAGGTGGGCCTGGGAGGGAGCAGAACCCATGGGCCAGGGCTGGGT
R
ACAGTCCTAGAGCCCTGAGTGAATGTGCTCCCACCACACACACTCCCAGTCCCCAGGGAACATGCATGGCAGAATCACTTGTTCATTCAACATTGATTGC
Celera SNP ID:            hCV25942390
SNP Position Genomic:     58113
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,30)   total(A,1|G,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:44403):
TTTCATGTGTCAGAGGAGGCAGCGTGCAGGTGTCCAGGCCAGACAGAGCAGAGCCGGAGCTGGGCCTAGGGAAGGCGCTTGGCGGTGGCTGCAGGAGCCA
S
GGCCGTGATGGGAGGTCATGGGGCAGGAGGCCAGGTGACGGGACTGAGGGCCTGGGCTGAGGACAGTGGGATGCACGCTGTGGAAGGGACACTGGACTGG
Celera SNP ID:            hCV15863545
SNP Position Genomic:     43384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44404):
GCATGGTTCAGGAGCTGCAGCCTCTGCCTCGTTGGGGTTCCGACCCTTGTTTATGTGTCATCTCAACTTCCCTTCCTTATCTCCTCCACACTGGGAGTTT
M
CAGGGGCCTGAGTTCCAGGAATTTTTGCTGACAAAGCTGATCAATGCTGAATATGCCTGCTACAAGGCAGAGAAGTTTGCCAAACTGGAGGTGAGGATGG
Celera SNP ID:            hCV3136002
SNP Position Genomic:     66368
SNP Source:               Applera
Population(Allele,Count): african american(A,11|C,27)   caucasian(A,20|C,18)   total(A,31|C,45)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|A,6)      total(A,6|C,5) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   JBIC-allele(C,477|A,1012)   total(C,477|A,1012) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44405):
GGGCCCCCAGCCAGCTAGCACCCTGCCCTGGGAGTACCCCTACCTTCGCGGGCCGCCTCCTAGGGCTTTCCCCTTGCACGCCTTGGGGAGGGGAGGCAGC
R
CCTGGCGGCAGGCCTGGGAGGGTGTAACAGTGCTGCCTTCTCTTACAGGGAAGCAGGATGGATGAACAACGCTGCTCCTTCCCGCCGCCCCTCAAAGTAG
Celera SNP ID:            hCV25935175
SNP Position Genomic:     56193
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,4|G,34)   total(A,4|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:44406):
TGTGTGCCAGATACTTTCCCAAGGTTCTCTCATTTAATCCTCACAATAACCCTGTGAAGTCCACAATTTGCAGAAGAGGAGCCACCGAAAGGGCCTGTGC
S
TTCCCCCAGGGTGCACAGCAGATAGGAGGGCCTGCGTTTAAGCCTCGGTTTGTCTGCCTTAGAGGCTGGCCTCACATCTGGAACCTCTGTGATGTTTGGG
Celera SNP ID:            hCV3136005
SNP Position Genomic:     62308
SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,8)   caucasian(C,24|G,12)   total(C,54|G,20)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,10)      total(G,3|C,10) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44407):
TTAGCCTTGGCCATTCCCAGCATGGCTCCTCCCCAGACCTTGACCAGGGAGGCCCAGGCAGCCCCATCCTCTCCTCCCTGGCCCCACACCTCACACCCCT
S
CCTTATCTCCTCCTGCAGTTGGTGTGTGAAGACGTCAATGTGGATCGGTTCTATCCTGTGCTCTACCCCAAGGTATGGCTGGATCTGGGCACAGCTCACT
Celera SNP ID:            hCV3136006
SNP Position Genomic:     62060
SNP Source:               Applera
Population(Allele,Count): african american(C,15|G,23)   caucasian(C,20|G,18)   total(C,35|G,41)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   JBIC-allele(C,567|G,914)   total(G,914|C,567) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44408):
GCTTTCTGGCCTTGTTTCCAAAAGCCCCATGCTCAGCCTCACCCACTCCCCTGGCCCCCACCTCCCACTGCAGGAGCATTTCAATTACTACTCACTGGAC
R
CTGCCCTCGGCCACCTTGTCTTCTCACTCAAGTACGATGTCATCGGGGACCAAGAGCACCTGCGGCTGCTGCTCAGGTGAGGGTGGTGGGGGAGTCCTGA
Celera SNP ID:            hCV3136007
SNP Position Genomic:     61246
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,16|G,22)   total(A,26|G,48)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   ;JBIC-allele(G,660|A,837)   total(G,660|A,837)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44409):
TCACTGAACTGAGCCAAGCACTTCATCCCTTTCAGTCCTGGCTGCCACCAAAGTACAGGGTTCCCTCCTATTTGGCAGACTAGGAAAGTGAGGCACAGAG
M
GGCCAAGTGACCTCCTCAGGCTGCCCAGCTGGTCAGTGGCAGAGTGGGGCTTTGAGTGCAGGTCTGTCTGATGTGGGGTCTGCTATCAGCCGTGACACCT
Celera SNP ID:            hCV3136008
SNP Position Genomic:     61009
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,12)      total(A,1|C,12) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44410):
TGGAGGATGGACAGATGGAGAGACCCTTGCCCTGTTTGTGTTTTGCAGACAGAGGAGGACTACATTCCATACCCGAGCGTGCACGAGGTACTCAGCTAGA
M
CCCCGCGCCCACCCTTACTCAAGCCCAGGAGGCACTTACACAGGGCTTCTGGATACCAGGTCCTCCTCCTTAGGAGCCTGACCTGCAGGCCTTGCTGCGG
Celera SNP ID:            hCV16107343
SNP Position Genomic:     57394
SNP Source:               Applera
Population(Allele,Count): african american(A,34|C,4)   caucasian(A,37|C,1)   total(A,71|C,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:44411):
GAGCTTCCCGGGCTGGCTCCGCAGATGGGCACCTGTGGGGCTTCAGCTTGCCTTGGCGCGTCCCCTTCAGCTGTAGGCCCTAGCCCTGGCCTGCCGCCCT
R
TCCTGAGGCTGTCTCTCACTTGTTCCCATCGTGTCTTGGGCTGCCACGTGTTCTCCTAGGCCCCCGTCCCCTGCCTGTGTGCTTTTGGTTTTCTCTATAG
Celera SNP ID:            hCV25943199
SNP Position Genomic:     61800
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,19|G,1)   total(A,46|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:44412):
GGAAACCTGCCTGGCCAGCCACCCTGTGTGTTGTGAGATGTTTCGCTTCCTGTTTCTCATGGGCCCTGGCTTCAGGGGCCACAGAGTCACAGGTTGGGCA
R
TCAGCTTTTGCTCATTGAGCACCTGCTGGGTGCCCAGCCCTGAGAAGGACCAGGGCTGAAGACAGGCATGCAGGTCCGAATATGGTCCAGACTCGATGAG
Celera SNP ID:            hCV3136009
SNP Position Genomic:     60778
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|A,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44413):
TCACACACACGCACACATGGCTGCACGCATATGTGCACACACCTTCCATGCCACCTGGCACACAGCCATCTCCAGTGCTGTGAGCAGGTCTCGCCTCCCC
S
GGGGGCAGTGTGGGAATGGATGTTTCTCTGGCTGGATTTCGATGGGTGCCCGGAAGCATTCAGGCCTGGAAGTGGCTGCATAAATCAATATTTGCTGTTG
Celera SNP ID:            hCV7476120
SNP Position Genomic:     51484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44414):
GGCAGCTAGGGCGGGGGAAGGGACGGAGCAGGCCAGCCACTGTGAGGCATGGGAAGCAGGATGGAGGAGAGGAGGAGGAAAAGGGACAGACCCCAAAGAG
Y
AGCACCAGGCCTTTCTCTGGATTCCACTTTGACTTCTTCCTGACTGTGTGGTCTCGGGCAAGCTATTTCACCTCTTGGAACCGGCTTCTCATCTGTATAA
Celera SNP ID:            hCV7476121
SNP Position Genomic:     52269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44415):
AGGAAAAGGGACAGACCCCAAAGAGTAGCACCAGGCCTTTCTCTGGATTCCACTTTGACTTCTTCCTGACTGTGTGGTCTCGGGCAAGCTATTTCACCTC
Y
TGGAACCGGCTTCTCATCTGTATAATGGAGATGACATTTGTACCTCCTGGGCTGTGACGAGATTACGACACATGCGAAGGGCCCAGCATTAAGTAGGTGC
Celera SNP ID:            hCV7476122
SNP Position Genomic:     52344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44416):
AGGCAGAAGTTGGAATGAGCTGAGATCTCACCACTGCACTCCACCCTGGGCGACAAAGTGAGACCCTGCCCCCAACCACCACCAAAAAAAAAAAAAAAAA
R
GAAAAAAAAGAATTTCAAATGTGGGAGGCACCTTGAGGTCCTCCAGTCAAACCCCCCACCGCTCCTCCCGTTCCCACACCTTCAGATCTCCCTGGCTGCA
Celera SNP ID:            hCV26187870
SNP Position Genomic:     38170
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44417):
GGCGGAGGCAGACTATAAGTAAATAGACAAGGAAACAACCTCTGATGGGTACACTGAATTTCTTTCTTTCTTTCTTTTCTCTTTTTTTTTTTTTTTTTTT
T
GAGACAGGGTCTCACTCTGTTACCCAGGCTGGGGTGCAGTGGCGCGATCTCGGTTCACTGCAACCTCCACCTCCGTGGTTCAAGCAATTCTCTGCCTCAG
Celera SNP ID:            hCV26187871
SNP Position Genomic:     30414
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,13)   total(T,13|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44418):
TGGCGGAGGCAGACTATAAGTAAATAGACAAGGAAACAACCTCTGATGGGTACACTGAATTTCTTTCTTTCTTTCTTTTCTCTTTTTTTTTTTTTTTTTT
T
TGAGACAGGGTCTCACTCTGTTACCCAGGCTGGGGTGCAGTGGCGCGATCTCGGTTCACTGCAACCTCCACCTCCGTGGTTCAAGCAATTCTCTGCCTCA
Celera SNP ID:            hCV26187872
SNP Position Genomic:     30413
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,15)   total(T,15|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44419):
AACTGTAAAATTGGGAATGGCGGAGGCAGACTATAAGTAAATAGACAAGGAAACAACCTCTGATGGGTACACTGAATTTCTTTCTTTCTTTCTTTTCTCT
Y
TTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTTACCCAGGCTGGGGTGCAGTGGCGCGATCTCGGTTCACTGCAACCTCCACCTCCGTGGTTCA
Celera SNP ID:            hCV26187873
SNP Position Genomic:     30396
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,11)   total(C,3|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44420):
TTTTTTTTTTTTTTAATAGGATCTTGCTCTGTTACTCAGGCTGAAGTACAGTGGTGCAATGTTGGCCCACTGAAGCCTCAACCTCTCAGGCTCAATCAGT
Y
TTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCATGCACCACCATACCCGGCTAATTTTTGTGGTTTTTTTTTTTTTTTTTTTTGGTAGAGATGG
Celera SNP ID:            hCV7476053
SNP Position Genomic:     37254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44421):
GGGTGGGAGGCACACAGGGTGCCTCAGCTAAGCTCCCAGCCTGCCTTTCTATTTCCCTTTGATGCTCTCCATGCAACCTCAGGCTGCTTCCTCTCCCTTT
S
TGGGCATCATCTCCTGCTGCTGTGCCTAGTCCATTTGAGCCCCTCCTTCTGCAAGATGGTGTGCTATGCTCAGAGCAGGGGTAGACTGAGGGGGGATAAA
Celera SNP ID:            hCV26187874
SNP Position Genomic:     26537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44422):
CTGGGAAGCCAGGCCTGGGGTGGGAGGCACACAGGGTGCCTCAGCTAAGCTCCCAGCCTGCCTTTCTATTTCCCTTTGATGCTCTCCATGCAACCTCAGG
S
TGCTTCCTCTCCCTTTCTGGGCATCATCTCCTGCTGCTGTGCCTAGTCCATTTGAGCCCCTCCTTCTGCAAGATGGTGTGCTATGCTCAGAGCAGGGGTA
Celera SNP ID:            hCV26187875
SNP Position Genomic:     26520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44423):
TGGGGCTCTGCTTTGGGACTGGGGAGGCCTGGTTCACCCCACTCTGATCCCAGCACCCAGCACCATTGTCCACTCCAGAGCAGACCTCAGGACATGTGTT
Y
TGAATGAATGACTGAGCAGAGGAATGAAGGGCAGATGGGGGAGTGGGTAGATGACCGAGTGGGTGAGTGAGCGAAGGAATGCCTGGAGCTCAGAGAAGGG
Celera SNP ID:            hCV7476054
SNP Position Genomic:     39903
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44424):
CTCTAGGCTGCCAACCTGTTATTTGTTCAGGAGGCCTCTGCCTGGCCCAGCTCCGGGATCCGGGTGTCTCGGCATGCAGCCAGCATGGGGCGAGGGTGGC
R
GCCCCATGTGCCACCTTCCTGCCCATCCCTCTGCCCAGCTTGGGGCCTGAGTCTCCCACCCACACCCCCAGGGGGACCCTGCCAGCTCTGTCACTTGGTA
Celera SNP ID:            hCV7476055
SNP Position Genomic:     40718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44425):
GGGCTTCCCTGGCATCAGCATCACGTGGGCCTGGCTGGCTGCTCCTGCTGCTGCTTCACCTCCAGCAGGAGAGCCCCCCGACGGCTCTGGCTGCTGCTTC
S
TGCCCCTGCTCAGGGCTGTCTGGGGTCCGTGGGTCCTGCAGTACCCCCCAGCTGCTGGGCGACTCCCATCTGGCACCATCGTCCCCGCAGAGCCCTCCTG
Celera SNP ID:            hCV26187876
SNP Position Genomic:     26322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44426):
CGCCGCCGCCGGGAGCCGGGAGCGCGGAGCTCAGCGCTGCGGGGCCCGGACCCGGGCGCGCGCGGGCCAGGAGCCGGCTGGGCCAGCTGAAGTGCCGCCC
S
GGCGGGGGCCGGGCCGGGCCGCGCTCAGGATGGCACAGCTGCGGCCCGCGGTGCCACCCGGCCGTCCGCGGAGGGGCTCGCTGCCCGCGGGGGCCAGCTG
Celera SNP ID:            hCV7476129
SNP Position Genomic:     52870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:44427):
TGCCTCCGGGCTTCCCTGGCATCAGCATCACGTGGGCCTGGCTGGCTGCTCCTGCTGCTGCTTCACCTCCAGCAGGAGAGCCCCCCGACGGCTCTGGCTG
S
TGCTTCCTGCCCCTGCTCAGGGCTGTCTGGGGTCCGTGGGTCCTGCAGTACCCCCCAGCTGCTGGGCGACTCCCATCTGGCACCATCGTCCCCGCAGAGC
Celera SNP ID:            hCV26187877
SNP Position Genomic:     26315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44428):
CTTCCATATGGGGTCTTGCTAGCTGTCAGGTGATGAGAGGAGCCTGGGCTAGGCCCTGAGCTTCCTGGCCAGCCAACACGGGCAGCTCACAGGCTGGGTC
S
TGTTCTATGACCTTGGGCAAGTCCTGGCTTCTCTGACCTCACTGTCTGCAGAGTCGGCCTTCCCCATCAGCTGTCCCTGGGAGCCCCCAGCCCTGCCCTG
Celera SNP ID:            hCV26187878
SNP Position Genomic:     24608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44429):
GCTGCTACTACTTAGGAAGGAGGGAGGGAGGAAGGGAGGGAGGAAGGTTGTTGCTGCTACTACTTAGGAAGGAGGGAGGGAGGGAGGAAGGAAGGAAGGA
R
GGAAGGAAGGAAGGAAGGAAGGAAGGAAGTTCCTCCCTTCTCAGGCAAACTTCAGTGCTCTCAGGACCCACCCCTCAGGAGCCTGCCCTGGTGTGATTCC
Celera SNP ID:            hCV26187879
SNP Position Genomic:     21742
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1|-,9)   total(G,1|A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44430):
GTGTTTTCTTTCTTGATCCCCACACCCCCATTCCCTCTTTAGAATGCCTCCTCTGCTGCTACAGAGCATGCATTCGTGAATGTTCCTGGGGTAGGGGAAA
R
AGCATGGCAGGTGTGGACTTGAGTCTGACAGGTGTGGACTTGAATCTGCCTCTGCCACATTCTAGTTGTGTGACTTTGGCAAGTCATTTTCCCTCTCTGG
Celera SNP ID:            hCV1944470
SNP Position Genomic:     27600
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44431):
AACTTCAGCAATTCCTTAATGTCTCTGAACCTCAATTTTCTCATCTGTGAAATGGGGATTAAAATGCCTATTCATAGGGTGTAAGGTAAAAAGAACAAAA
M
CAAAAACTGGCCCTGGCATATTTTAGGCCCTTTTTGCTTAAATGCTTCCTTCCTTTTTTTTCTTCTCTATTTCTTCCCACCTCAGGGTGGCCCCTCGCTG
Celera SNP ID:            hCV1944471
SNP Position Genomic:     25885
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,7)      total(A,7|C,5) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44432):
GTTTGCAGCATGGGGGCTGATGTTCATGTGAGCCTGTCTGCATGCATTTGATCTTGATGTGATCTCTACAGGCATGAGTTAGATGACTCTTTGCATGTGC
R
TGGCACGGTACTAGGCCAAGTGCATGTGTGACCTGGGAAAGTTTGTGTGCAGTTGTGCACACAGGTCTACCAGAGACCTTGTCTGTCTTGTTCAGACTCT
Celera SNP ID:            hCV1944474
SNP Position Genomic:     18207
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44433):
GGTGGAGGTGGCTGATGGAGGGTGACCTTGGGAACTTCTTCCTGCCTGCAAGCTCGGTGCCAGAACTGCCAGGGCAGCCCTGATTCTTCTTGCTCAAAAG
Y
TGGCAGCGTCAGGGACCCTCGAGAGGCTGCCAGGACAAGGCCTGAGCTGATGTCACCATCACCAGCCTCTTGCGTCTTCCCCTGTGTTGGAGGTCCAGAG
Celera SNP ID:            hCV1944476
SNP Position Genomic:     11838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44434):
AACTGCCTGGTGCTTCCCACTCAGTGGACCCTCCTCTCCTGCCTCCCCTCTGTGTACATACCCAGCGGGTTGCCACGGGAGCCTCTCCCCAGGCTGCTCC
W
TTGCTGTCTCTGAAGGTGTTGTTCTGCAGGTCCTTCCCAAGACAGGACAGGACCCAGTGCAGGCTCCAAGCGGCTCTGGGGTTCCCTTTCCTTTCCACTT
Celera SNP ID:            hCV1944477
SNP Position Genomic:     8869
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,7)   total(A,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44435):
GGGAGGTTAGGATGACTTTGGGCGTTGACTTCCTGGGACCCTGAGCCCGCTCTCCCACTGTGTCCCGGGGGCTCCTCTGGGCTTGGGGGTGTCCAAGGAA
M
CTCCCCACTCTCTGGACTTCCCTGCCAGGGGCCTCCTTATCAAGTGCCTGCCACTCCCTCTCTGCTGGATGATGTCAAGCATTTGGGGGTTTCTGCCACT
Celera SNP ID:            hCV3136010
SNP Position Genomic:     60157
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,7|A,9)      total(A,9|C,7) ;no_pop(C,-|A,-)   ;SC_12_C(C,3|A,21)   SC_12_AA(C,0|A,23)   SC_95_C(C,23|A,146)   total(C,26|A,190)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44436):
GAGGCCCCCGACCGTCCCCAGCAAAGCCTCCCCTTCCTCCCTCTTTTCTGATTCATGTGGACCCAGCTTGACTGGCCCCAAGAATCCTGGGAAACTGCCT
R
GTGCTTCCCACTCAGTGGACCCTCCTCTCCTGCCTCCCCTCTGTGTACATACCCAGCGGGTTGCCACGGGAGCCTCTCCCCAGGCTGCTCCTTTGCTGTC
Celera SNP ID:            hCV1944478
SNP Position Genomic:     8777
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   JBIC-allele(A,494|G,611)   total(G,611|A,494)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44437):
AGGTGAGGGTGCCTGTGGCTGGAAGCTGGGTCAGGTTGAGGAGAGGGTCCAGAGTCCTAGGCTTGCCTTGCCACCCCTTCCCATGGAGGGAGGGTTGTCC
M
GTGGAGCACCATAATGGTGCTTTCACCCTGGGACCTTCCCAGCTTGCTTGGGCAAAGCCCTCTCCTCTTCTCTTCTTCCCAAGGTGCCTGCCTGGCAGGG
Celera SNP ID:            hCV1944479
SNP Position Genomic:     7826
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,11)   total(A,3|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44438):
ACATTGATTGCAAAGGCAGCATTATGGCATGGTGGTTCATGGCAGAGACTCTACCAGGGCTTGAATCCTGGCTCTGCCACCCACTACACAGGACATCGGG
Y
AAATCGCTTAACTTCTCTGTGCCTCATTTCCTAATCTGTGAAAATGGTGGTTGGTGGTAATGATACCCACCTCCTGAGGTTGCTGTGAGGCTTTAGTGAG
Celera SNP ID:            hCV3136011
SNP Position Genomic:     58303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44439):
ACATTCCATACCCGAGCGTGCACGAGGTACTCAGCTAGAACCCCGCGCCCACCCTTACTCAAGCCCAGGAGGCACTTACACAGGGCTTCTGGATACCAGG
Y
CCTCCTCCTTAGGAGCCTGACCTGCAGGCCTTGCTGCGGGCTGGAGACTTAATTTGCAGGCCCAAGGCCTCAGAGCCCATTTGAACCCTTAGGCCTTCTG
Celera SNP ID:            hCV3136012
SNP Position Genomic:     57455
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,26)   caucasian(C,14|T,26)   total(C,26|T,52)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,180|T,1323)   total(C,180|T,1323)   no_pop(T,-|C,-)   (T,-|C,-)   Caucasian(C,24|T,54)   African-American(C,19|T,59)   Asians(C,10|T,60)   total(C,53|T,173) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44440):
GGAGAGACCCTTGCCCTGTTTGTGTTTTGCAGACAGAGGAGGACTACATTCCATACCCGAGCGTGCACGAGGTACTCAGCTAGAACCCCGCGCCCACCCT
Y
ACTCAAGCCCAGGAGGCACTTACACAGGGCTTCTGGATACCAGGTCCTCCTCCTTAGGAGCCTGACCTGCAGGCCTTGCTGCGGGCTGGAGACTTAATTT
Celera SNP ID:            hCV3136013
SNP Position Genomic:     57410
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,24)   caucasian(C,1|T,37)   total(C,13|T,61)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44441):
AGCTCTGGCCTGGAATAAAGGCCACGTACCTTGCCTAGGCTGGGAGGGCAGATGGCCAAGGAATGGTGTCCATATGTGGGGCCACCACCTTCATGGGGGT
S
CCACGTGGGGCTGCTGGGAGCAGCAGCAGGAGATTCCTGAGACTGACTCCTGTTTTCTCTGTCTGGGCAACAGCCCAAGACTGGGGCATGTGGATCCGGG
Celera SNP ID:            hCV3136014
SNP Position Genomic:     50175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44442):
TTCTCTTCCAGGAGGAGCGATGGGCAGAACCAGCACTTCCCTCAGGCACTAGACCTGTCACGAGTGAACTTAGTTCCCTCCTATACTCCTTCACTCTACC
M
TAAGGTAAGTGTCCCCCTCCATACCTACGGCCCCTGGTCTGCCCCCTACCTCCGACACATGCCCAGGGCTGGGAAAGGCCCAAGAATGACTTTTGGGCAA
Celera SNP ID:            hCV3136015
SNP Position Genomic:     49005
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,15)   total(A,1|C,15) 
SNP Type:                 UTR 5;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44443):
CTTACTACTGTCCATCCCCATTTTACAGATGAGGGAACTGACGCTCAGAGAGGGGAAGTGGTGGCCCAGGGGCATGCAGTCAGTGAGGGGTGAACCAAGA
Y
TGACAGTAATGCCACTCTGAGCCCATGCCTTTAGCCCTCGATCTCCTGGATGCTGCTTGTGCTGAGTGGTGGGCTGGGGTGGGTGGCCCTGTCCTCAGGT
Celera SNP ID:            hCV3136016
SNP Position Genomic:     29328
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44444):
AGATGGAGAGACCCTTGCCCTGTTTGTGTTTTGCAGACAGAGGAGGACTACATTCCATACCCGAGCGTGCACGAGGTACTCAGCTAGAACCCCGCGCCCA
Y
CCTTACTCAAGCCCAGGAGGCACTTACACAGGGCTTCTGGATACCAGGTCCTCCTCCTTAGGAGCCTGACCTGCAGGCCTTGCTGCGGGCTGGAGACTTA
Celera SNP ID:            hCV7476130
SNP Position Genomic:     57406
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,10)   caucasian(C,38)   total(C,66|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44445):
GCTGGGAAACTTGCCACGTTGGCGGCCCCTTGGCTACTCTGCCAACTGGGCATGCAGAAACCACTCAGGAATCATTCCCACTGAAAAGACTGGCGAGGTA
Y
AGGTCCATGTCGAAGGGGATGCAGCAGCCCAGATGTGGCTGGAGTCCAGGCCCCAGCCCAAGCACTGTGCACATCCTCATAGCCCAGGCCTAGCTCTTCA
Celera SNP ID:            hCV26187880
SNP Position Genomic:     21491
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;JBIC-allele(T,594|C,709)   total(C,709|T,594)
SNP Type:                 INTRON


Context             (SEQ ID NO:44446):
GTAGCTGGGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAATAGAGACGGGGTTTCACCATGTTGATCAGGCTGATCTCGAACTCCTGACCTCATGAT
Y
CACCTGCCTCAGCCTCCCAAAATGCTGGGATCACAGGCGTGAGCCACCGCGCCCAGCCCACTGTTAGGTCTTTAACCCAGCAAAGTGAGAATAGGGGTTT
Celera SNP ID:            hCV26187881
SNP Position Genomic:     19114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44447):
TGCAGCCTGCAGCCCCTTCCCAAGCTCCTTGGCCCTCCCCTCCTCCTGGCCCTTTATGCATTGAGGTGTGACTTCCTGCAGGTCAGCCCTGGGACAGCCT
S
TGTGTCTCATTCCTTATTGAGTATCTATCTGTTTGCTGGGGACTGGGCTGCTGTGTGGGCACCTACTGTCAAGCCTTGGGTTTCTGGGAGCACCTACTGT
Celera SNP ID:            hCV7476207
SNP Position Genomic:     69536
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44448):
AGGCAAAGTAAGGATAATGATACTTTCAGAGCTAGCAGAATTCTCTCAAGGCAAATGTATCTTTCCGTTGTTAGGTCTTTTTTTTTTTTTTTTTTTTTTT
K
TTTTTTTTTTTAGATGGAGTCTTGCTATGTCACCCAGGCTGCAGTGCAGTGGTGTGATCTTTGGTCACTGCAACTTCTGCCTCCTGGGTTCAAGCGATTC
Celera SNP ID:            hCV26187882
SNP Position Genomic:     18894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44449):
TAGCATCCTGAGGTCAGGGTTGTTGTCATAAGGATTGAATGACATCACAGTGCCCGCATGGCAAATAGTCCCCCTGCCGCTCCTCTACCCCATCGCCACG
Y
TCCCTCTAGAGTCCTAGGAGAGGTCAACGGTGCCCAGGGAAAGGGGACACAGGAGCCTCCCGTGCCTGTGCCTGTCTGCTTAGGCTCCCAGTGGGCTGGG
Celera SNP ID:            hCV7476062
SNP Position Genomic:     40990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44450):
AGGCTGCAGATCCCACAGAGCCCTGGGGGGCGGGGAGCGGTAGCCATTCTGAGGACTCGGCCTCCTCCCACCCTAGCCCCCTCAGGATGCTGTCCTAATC
S
TGGGCCAGTATTGACGTGCAGTCCTGCCGTGTGAGCTCGGGAGAGCCCCTTGCCCTCCTGGGGACTGTTTCCCTTTCGTAAACTGGGAGGCTGTCTCTGG
Celera SNP ID:            hCV7476208
SNP Position Genomic:     72143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44451):
GTTCTTATGACGGCCAATTGGTGGCGCCCGAGACCGCGGCGGACTCCCGGACCCATTAGAGAACACGTTTTAAAAAGCGTTCTTCGGCCGGGCACTGTGG
Y
TCACGCCTGTTATCCCAACACTTTGGGAGGCTAAGGCGGGCGCATCACCTGAGGTCGGGAGTTCGAGGCCAGCCTGACCAACATGGAAAAACCCCGACTC
Celera SNP ID:            hCV26187883
SNP Position Genomic:     16135
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44452):
AGAACAGTAATGTCATGGGTTGATGCAGCCCCTGCCCCACCACCAGCACAGAGCAGGGACCCTGCCCAGCAACAACTTGTCAGAGTGTTGTGGGAGCCAA
R
GGGAGGTCCCATGCCGGGAATGTGTGTGTCAGGTTGCAGGCCGGGTGCTGTCTCTTCGTCAGCATAGAGCCAAAATGGGGAAGTGTGTCGTGGGCTCTGG
Celera SNP ID:            hCV7476136
SNP Position Genomic:     58671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44453):
CACTGATTGTCCCTGGGAAGAGCCCCACGAGGAAGAAGTCGGGCCCGTTCGGCTCCCGCCGCAGCAGCGCCATTGGCATCGAGAACATACAGGAGGTGCA
S
GAGAAGAGGTGGGTGAGTGGGGGACAGTGCCCCATTCCCCTGCACCCCCATCCCTGAGCCCCATTCGGTGGCAAAGCAAGGCAGGCAGAAGGGAGTGCCC
Celera SNP ID:            hCV7476209
SNP Position Genomic:     72483
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44454):
GAGGTCAGGGTTGTTGTCATAAGGATTGAATGACATCACAGTGCCCGCATGGCAAATAGTCCCCCTGCCGCTCCTCTACCCCATCGCCACGCTCCCTCTA
K
AGTCCTAGGAGAGGTCAACGGTGCCCAGGGAAAGGGGACACAGGAGCCTCCCGTGCCTGTGCCTGTCTGCTTAGGCTCCCAGTGGGCTGGGGAAGAGGGG
Celera SNP ID:            hCV7476063
SNP Position Genomic:     40999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44455):
CTGCAGTTCTTATGACGGCCAATTGGTGGCGCCCGAGACCGCGGCGGACTCCCGGACCCATTAGAGAACACGTTTTAAAAAGCGTTCTTCGGCCGGGCAC
K
GTGGTTCACGCCTGTTATCCCAACACTTTGGGAGGCTAAGGCGGGCGCATCACCTGAGGTCGGGAGTTCGAGGCCAGCCTGACCAACATGGAAAAACCCC
Celera SNP ID:            hCV26187884
SNP Position Genomic:     16130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44456):
TTAGTCAAGGTCACACAATGACTAAGCCTGGGAATTGAACCAGCTTTGGCTGACCTTCCATTAAGGTGCATGGGAGAGATCATGCTCCTAGTCATTGTAT
R
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGGAAGAGGGGGTGACTCCTTGGGGGTTCGGAAGATGTGTGACCTCAGTCTG
Celera SNP ID:            hCV7476137
SNP Position Genomic:     59124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44457):
GGCTGGAATGCAGTGGTACCATCATGGCTCACTGTAGCCTGGAACTTCTGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTGCCTGAGACTATAGGT
S
TGAGCCACTGCAGTGGGCTGGGTTTTTAATTTTTTTGTAAAGATGAGGGCTCACTTTGCTGCCCAGGCTGGTCTCGAACCCCTGGCTTCAAGTGTTCCTC
Celera SNP ID:            hCV7476064
SNP Position Genomic:     42543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44458):
CCACAGCCAGTCCATGATGGGCTTGGGCGGCGACGAGGACAAGATGGAGAATGGCAGTGGGGGCGGCGGCTTCTTTGAGTCTTTCAAGGTGAAGGGCCCC
R
GGTCTAACTGGCCGGGGAGCAGGGACGTGGCTAGGGCGGAATCCCGGGCTGAGGCTGATAGACTGATGGACACGGCGTGGGGGTGGAGTCTGGCAGAAGG
Celera SNP ID:            hCV25937295
SNP Position Genomic:     67108
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,36|G,4)   total(A,69|G,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:44459):
AGCTAGTATCATCTCCATTTTCCAGATTGGAAACTAAGGCTGACGGTCACAGCTCAAGACTGAGTCGGGGCTGGGTGCAGTGGCTCTTGCCTGTAATCCT
R
GCACTTTGGGAGGCTGAGGCGGGAGGACCACTTGAGGTTGGGAGTTGAAGACCAGCCTGGCCAAAATGGTGAAACCCCATCTCTACTAAAAATACAAAAA
Celera SNP ID:            hCV26187885
SNP Position Genomic:     14723
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44460):
CACAGGGCCCTGAGGGCTGTGGCTGAGTGGGGAGGCAGTGATCAGGTCCAGCTGGCCATGGGGGCCCCCCATTCCCTTCTCCATGACCTCAGCCTCACTC
K
GAGAGCCCCCAGCAGCTGGAAGGTCTGGTAAGGGGTGCGTGTTCCTTGATGGCCTTGGGAAGGGTTCCAGGGTAATGATTAATCCTCAGGTGGCACGAGC
Celera SNP ID:            hCV1944480
SNP Position Genomic:     7384
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44461):
GTCGCCTCCCCTGGCTCGGCAGGATCTGAGGACTCGGTGGGAATTCACGGGGCGGTTTCCGTGCCCTGCAGGGTTTGGTGCCAGCTGCGGGGCGCCTGGG
Y
TTGGGGAAGAAACCTTGTGTACGCACACCTGCACACACACACAGTCTCCGGAGGTGAGCGGCCCCCTCCCTACCATAACAGACCCCAGCCTGTGCATGCC
Celera SNP ID:            hCV1944481
SNP Position Genomic:     6761
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:44462):
GCTGAGCCCAGGGAGATACCCTTTTGGGAGTGAAGAGGGTGACCCCAGGCCCCAGCAGAGCATGGTTCAGGAGCTGCAGCCTCTGCCTCGTTGGGGTTCC
R
ACCCTTGTTTATGTGTCATCTCAACTTCCCTTCCTTATCTCCTCCACACTGGGAGTTTACAGGGGCCTGAGTTCCAGGAATTTTTGCTGACAAAGCTGAT
Celera SNP ID:            hCV25935339
SNP Position Genomic:     66309
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,1|G,37)   total(A,8|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:44463):
GCCACATGATCTGCATGGAGATGAGAAACACATCCTCAGGGGTAGGGCCTGAGTGGGGGCAGGTATTCTGGCCAGGCCAGATTTTCCTGGTCCCTGATGG
R
GTCCCTTTAAGTAGGCAGGGGTTTCAGAAACCCATTGAATAGAGCAGGAGTCTCAGAGCCAGGGCAGAGGCTGGCTCAGTAACCTCACTGGCCAGCTGCC
Celera SNP ID:            hCV3136021
SNP Position Genomic:     18564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIG-allele(G,479|A,1014)   total(G,479|A,1014) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44464):
TTGTGGGTGAGGAAACTGAGGTTCATAGAGGCAAGGAGATGGACCTAGGGGCACACAGTTGACCTTGGTACAGGTCTCTTCCTTCTGAGACCCAGCACCT
R
TGTGACGTGGCTCTGGGGCTGCACCCTGCATTGGAGTGGGGCTGGTCCTGAGAGGTCTGTATGGGGCCAGGGCAAGTATCAGATGAGGTTCTGAGATTCC
Celera SNP ID:            hCV3136022
SNP Position Genomic:     13195
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44465):
ATGGGGGGAGGCATGATGGGGCCTGAGCAATTGGATGCAGGTGGGGGCATTCATTGAGCACTTGCAGTGTGCTGGGCCCTATGTAAGCACTTTTCATGGA
Y
CTATCTCATTTAATCCTCTTAGCAACCCTCAAGGGCTCAGAGAGGTTAAATAGCCTGCCCCAGGTCACCCAGCTGGTGAGTGGCTGGGGCTGAGATTTGA
Celera SNP ID:            hCV3136023
SNP Position Genomic:     12442
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44466):
ATCAGCAATAACTTCAAGTTTGGCGTCATTTATCAGAAGCTTGGGCAGGTGTGCTCACCTCCTCCCTGCCGCCCCTCCCCACCTGGCCCCATATCTGGAG
S
CTCACACCTTTTCCAGGGCAGCACACCGGCCAAGGGACTCAGGAGCCCAGGGGCTGCCAGAGGTCCTCCCTCCGGCCCTCTCTGGGTCCAAGTAGGGACA
Celera SNP ID:            hCV25940882
SNP Position Genomic:     63335
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,34)   total(C,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44467):
GGCAGTCAGGGTGGGAAGTGGGCAGCTAGCTCAGGAATTCTAGGAAGATTCTGGATGGGGGGAGGCATGATGGGGCCTGAGCAATTGGATGCAGGTGGGG
S
CATTCATTGAGCACTTGCAGTGTGCTGGGCCCTATGTAAGCACTTTTCATGGATCTATCTCATTTAATCCTCTTAGCAACCCTCAAGGGCTCAGAGAGGT
Celera SNP ID:            hCV3136024
SNP Position Genomic:     12388
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44468):
TACACTTGGGGACATAGTCTGCCTTGGGTAGAGTTTGAAGGAGCAGCATGTAAGGTGGGGCCCTGGCTTGGGGAGGAGTAACTGTTGGAGGTGGGGCCTA
S
GTGGGGAATTCACCTGGGAATTCTGCTGAAGGGTGGAGGATTCTGGGAGACAGCAAGGGCTGCTGGTACAAAGGCTGCTAGGTCAGCAGGAAGAGAAGAG
Celera SNP ID:            hCV15863568
SNP Position Genomic:     67617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44469):
CCACAGCCCTCCCTGGCTGGAGAGGTGTGGGCTCTGTAGTCCTCCGAAGGGCAGAGAAGCCTGGGTCCTGCACAAACTCTACAATGCTGGGCCCACCCAA
Y
GGCAGTCAGGGTGGGAAGTGGGCAGCTAGCTCAGGAATTCTAGGAAGATTCTGGATGGGGGGAGGCATGATGGGGCCTGAGCAATTGGATGCAGGTGGGG
Celera SNP ID:            hCV3136025
SNP Position Genomic:     12287
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44470):
CTGTTGGAGGTGGGGCCTAGGTGGGGAATTCACCTGGGAATTCTGCTGAAGGGTGGAGGATTCTGGGAGACAGCAAGGGCTGCTGGTACAAAGGCTGCTA
K
GTCAGCAGGAAGAGAAGAGAGGAAGAGGCTCTGTCTTGACTGAGGGAAAGTTCTCAGAAGAGGTGTGTGAACCATGATCATTGGAGAGGGACTTGGCCTG
Celera SNP ID:            hCV15863569
SNP Position Genomic:     67698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44471):
GTCCTCGGGCTTTGCCCGGAACACCCTTTATCATTCTTCATTCTGCAAACCATCAGTGGGCCCCTGTTCCTTGCCAAGCGCTGCCCCAGATACAACAGAT
R
CAGCTGGGAACAGTGCAGACCCAGGCCCTGCCTGCTGGGGCACAGAGTCTAGAATTGCAATGGTCTCTTCACAGCCTGCCTTGCCTCCCAGATATCAGGC
Celera SNP ID:            hCV26187961
SNP Position Genomic:     76414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44472):
GGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAAGCTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCCCCCAAGTAGCTGGGACTACAGG
K
GCCCGCCACCATGCCCATCTAATTTTTGTATTTTTAGTAGATACGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCCGATCTCGTGATCCGCCC
Celera SNP ID:            hCV26187962
SNP Position Genomic:     74551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44473):
TCCTTGTTTTTTTGTTCCCTCCTCCCTTCCCTTTCCCCGTCCTGTGGCCTCTCTGCCCTTTGGCTCTCTGTTTCTCCTTCCTTCTTGCACCTGTCTTTTT
T
GCTCCCTCTCCTCCTTCCCTTCTCCGCTCTTCTCACCCTCGCTTTTTCCTTTCGGCCTTCCCCTGGCTTCCTTCTCTGTCTCTGACCCTCCCTGGGCCTG
Celera SNP ID:            hCV26187963
SNP Position Genomic:     70952
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44474):
GAGCCGCAGCCAGTCCATGGATGCCATGGGGCTGAGCAACAAGAAGCCCAACACCGTGTCCACCAGCCACAGCGGGAGCTTCGCGCCCAACAACCCCGAC
S
TGGCCAAGGCGGCTGGAATAGTGAGTGCCCTCCCCCTCCCCAGGCCCCTGCCCCTCCCTGGGGGGCCCTCAGCTCTCCTCTGCCTCCTGAGGCCTGACTC
Celera SNP ID:            hCV26187964
SNP Position Genomic:     69214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44475):
TTTGTAAAGATGAGGGCTCACTTTGCTGCCCAGGCTGGTCTCGAACCCCTGGCTTCAAGTGTTCCTCCCACCTCAGCCTACCAAAGTGCTGGGATTACAG
R
CATGAACCACTGAGCCTGGGCTGACCCTGCTGTTTTGCAGAGTATGGAACTCTCTTGAGATCTTCCCACCCTGGACTGGTGGAAGGCCTGTGTTCTTATC
Celera SNP ID:            hCV7476070
SNP Position Genomic:     42677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44476):
GGTGGGGCCTAGGTGGGGAATTCACCTGGGAATTCTGCTGAAGGGTGGAGGATTCTGGGAGACAGCAAGGGCTGCTGGTACAAAGGCTGCTAGGTCAGCA
S
GAAGAGAAGAGAGGAAGAGGCTCTGTCTTGACTGAGGGAAAGTTCTCAGAAGAGGTGTGTGAACCATGATCATTGGAGAGGGACTTGGCCTGTGTGACCT
Celera SNP ID:            hCV26187965
SNP Position Genomic:     67706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44477):
GATCACACAGCCAGTGATGGGCAGAGCTAGGATCTGAGCCCTGATCTGTCTAGGGCCAGCATCCGTGCTCTTCCCACGGCCCCAGCGCATGTGGGAGGGC
M
TAGTGCTGGTTTTCAGGGTGGCCACAGATGGGCCTGGGGGGTCCATGAGTGTGGGCAGCATGAGGGCAGTGAGCCCAGGCCAGCAGCAGGGCTGCCCCCG
Celera SNP ID:            hCV7476217
SNP Position Genomic:     72827
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44478):
TGGGCTGACCCTGCTGTTTTGCAGAGTATGGAACTCTCTTGAGATCTTCCCACCCTGGACTGGTGGAAGGCCTGTGTTCTTATCCCTGATCTGCTGCTCA
M
GGCCTTATTGGCTGACTTTGAGGTCGTGTTTTCACCTCTCCAAGCCTCAGTTTGCCCTGCTGGCAATTGGGGATCCTAGTGACTGCCTTATCTCCATTCC
Celera SNP ID:            hCV7476071
SNP Position Genomic:     42794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44479):
GGTGGGGCCCTGGCTTGGGGAGGAGTAACTGTTGGAGGTGGGGCCTAGGTGGGGAATTCACCTGGGAATTCTGCTGAAGGGTGGAGGATTCTGGGAGACA
R
CAAGGGCTGCTGGTACAAAGGCTGCTAGGTCAGCAGGAAGAGAAGAGAGGAAGAGGCTCTGTCTTGACTGAGGGAAAGTTCTCAGAAGAGGTGTGTGAAC
Celera SNP ID:            hCV26187966
SNP Position Genomic:     67670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44480):
AGGCTGTTGCCGGATCATGGTGATAGGAGGAACCCGAAGCAGGGTTGGGGGGATGAAGAGGGACTGGGGGCAGAGGTGTTTTAGATGGGTCCTCGGGGAG
R
CACCTCCATGGGGTGACATTTGAATTGGGAACTGAACCAGCCCTGCTAGGACTGGCATGGCAGAGGAGCTCGGCCAGTGCAGAGGCCTGGGGCACACTCC
Celera SNP ID:            hCV7476218
SNP Position Genomic:     73981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44481):
AGATAAAGAAGGCTTTTGAAAAGTACAAAGAACTGCACTCACGATGGTGCGATTATTATTGTTACCTCGATGCAGAGATAAGGGAGGGGGAGGAGGTGCA
S
TGACAGTTGCCAAGAAACCGGGGAGCTGTCAGCAGCGGCTTCCGGCCGGGCCCATCCCACTTAGGAGCTGGGCCCTTCCCCCACACCCTTGCTTCACCCT
Celera SNP ID:            hCV7476072
SNP Position Genomic:     43023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44482):
TCAGATTAGCAGTAATGAGGGAGAAGCCCCAGGGCTGGCAGAATGGCAGGGCCCCTTCCTGACTCCAGGTGGGGTAATGGGGGAAGCAGCCAGGTGCTCA
K
GCACTGGGCCCTATCCTGGCAGAGAGGGGAGGTTAGGATGACTTTGGGCGTTGACTTCCTGGGACCCTGAGCCCGCTCTCCCACTGTGTCCCGGGGGCTC
Celera SNP ID:            hCV7476146
SNP Position Genomic:     60030
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44483):
GAACAGGATTTACTTCTAGGATGATTCCTGGGGCGGGTGTGGCCGGGCAGCCAGCTCCACTCCCAGAACTTGGGCTAGGGCTGGGGCTGAGGTTGGCAGG
R
GGAGCCCGGGGCCAGGCTGGGTGGTGTCTCCCTGAACTTCCAGCCCTCGGCTTTGGGACTTCCCCACCCGGAGGTGCCAGCCCTGGGCTCCTCTCTGGGG
Celera SNP ID:            hCV7476147
SNP Position Genomic:     60491
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44484):
TGGAGTAGGGGTGGGCTTGGCATGGCAGGACCGGGGCTCACAGCAAAACTCAGGAGCGATGAACTTAAGCTTTGGAATCCAACAGACCTGGGGTCAAATC
Y
CAAGCCTGCATGTGCTTGCAAGCCATTGACCCTAGGTGAGTCACTTAAGGTCTCTGAACCTGAGTTTCAGAGGGGACAGCTGGACTGTCTCCCTCCCAGG
Celera SNP ID:            hCV7476148
SNP Position Genomic:     62973
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,13)   caucasian(C,36)   total(C,61|T,13)
SNP Type:                 INTRON;TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44485):
GGGGAGGGGAGGCAGCGCCTGGCGGCAGGCCTGGGAGGGTGTAACAGTGCTGCCTTCTCTTACAGGGAAGCAGGATGGATGAACAACGCTGCTCCTTCCC
R
CCGCCCCTCAAAGTAGGTGGGCCTGGCAGTCTGCCTCCCTCTCTAGGGGGTGGAGGGGGTCCGGGAAGTGCTGCCACCACTGCCCATCAAGCAGGAAATC
Celera SNP ID:            hCV25934541
SNP Position Genomic:     56277
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(G,38)   total(A,6|G,70)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44486):
GGGCTGGAGGGCAGTGTGCTCTGGGGTCAGGGCTAGTAACCCGGTGTCTGCTGACACAGCTCCACTTGGGTGGGGGAAACAGCTTACTCTGAGGAAGAGC
R
CTGGACTGTGAGCTCTGGGCGAGCTGGGTGCAGAAGAGCGACTTGGAGTGTTTAGTGAGCGAATGAGTACCTGCTGCAGAACTCAGAGCCCAGTTCCCTC
Celera SNP ID:            hCV16260937
SNP Position Genomic:     22578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIG-allele(G,281|A,1206)   total(G,281|A,1206) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44487):
CTGTCTGTCCATCTCTCCCCCGTCTCCCTTGTCCTCTGTCTCTCCTTGTGCTTCTCGCCTTCCTTTCCCCGGCCCTATCTCTCCCATTGCCTCCTGCACC
R
TTCTCTTCCTTTTTCTGTCTGTCTTCCTCCTTTCCCTGCCTCTCCTCCTCTCTGTGTCTCCCTCCCACCATCTCTCTTGCTCTCTGACTCTCTCTCTGTC
Celera SNP ID:            hCV27498297
SNP Position Genomic:     71247
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,278|G,1217)   total(G,1217|A,278) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44488):
AATATCGCCGGTCTGCATGGAGCGCCATCCCTCTCCTCTGCCCTGACTCCTCCTCCCCGCCACGAAGTGACCTGGGGTCCTACCCCTTCCTGCCTCCAGA
R
AAGCTGGGGGCGGGCTTCTGGGGCCTGGGGCATCCCAGCACAGTGTGTGGGAAGCTGGGGGAGTCTTCCAGCTGCTGGGCCAGAACCTCCCCCAGCCAAT
Celera SNP ID:            hCV16260939
SNP Position Genomic:     71864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44489):
CCCCTGCCCCCGACTCTGCCTGACACACAAGCACTGAGAGTCACACCATCCAGATGCTGGCACGTGTGTACACACAGAGAGACGGAGGTTGTCAGCAAGG
R
GAAGAGCCTTTTCAGAAGCCCTCGTCTTCTGTCGTCTGCCTCCATTATCTCCTCCAGGGTGCACACATGGTACACGCGCATGCAGGAAGAACACGAGGAT
Celera SNP ID:            hCV27498298
SNP Position Genomic:     8434
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,396|A,1105)   total(G,396|A,1105) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44490):
AGAACTCTTCAGCACCAATGAGGAAAGTCCCGCTTTCGTGGAGTTCCTTGAATTTCTTGGCCAGAAGGTCAAACTGCAGGACTTTAAGGGGTGAGTATTA
K
GGTGGGCTGAGCAGAGTGTAATCTGACTTGTGCTCCTGGGCAGGGAGGGAGCCCCTGTCCTGGCCCCATGGAGGCCTGGCCAGGGCTGGAGACTGAGGCG
Celera SNP ID:            hCV7476152
SNP Position Genomic:     63603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44491):
TGGGCGGGTCACCTCCTCTCTGGCTGCTCCCATTTCATGTGTCAGAGGAGGCAGCGTGCAGGTGTCCAGGCCAGACAGAGCAGAGCCGGAGCTGGGCCTA
K
GGAAGGCGCTTGGCGGTGGCTGCAGGAGCCAGGGCCGTGATGGGAGGTCATGGGGCAGGAGGCCAGGTGACGGGACTGAGGGCCTGGGCTGAGGACAGTG
Celera SNP ID:            hCV7476080
SNP Position Genomic:     43352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44492):
CCAATGAGGAAAGTCCCGCTTTCGTGGAGTTCCTTGAATTTCTTGGCCAGAAGGTCAAACTGCAGGACTTTAAGGGGTGAGTATTAGGGTGGGCTGAGCA
S
AGTGTAATCTGACTTGTGCTCCTGGGCAGGGAGGGAGCCCCTGTCCTGGCCCCATGGAGGCCTGGCCAGGGCTGGAGACTGAGGCGTGGCCTGGGGGGCC
Celera SNP ID:            hCV7476153
SNP Position Genomic:     63617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44493):
GAGGAGGCTGCAGGGGGAGTCTGGGGGGCTCAGAGGCCCAAGGATCTGTAAGGGGTCCTCAAAGGTGCTTGGCTGCTACCAGCTGGGCCTCCCGGGTTGG
R
GAGGGCAAGGGAGTGAGGGCCTGGCCCAGGAGGGGCTCGGGGTGGACACCGGCTAATGGGGCACTGTCTGTGGCAGAGCGGAGACCGCAGCGCAGAGAGC
Celera SNP ID:            hCV7476226
SNP Position Genomic:     75615
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,4)   caucasian(A,23|G,7)   total(A,47|G,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44494):
AGTGTAAGCTCCAGGGTGCTGCACAGATGTGACCACGGTCATGGCAGGGGGAAGGAGGAGAGGGGAGAGCGCCCCATGTCCCGGCATGCTCTGGGCTCCC
S
GCAGCTGCTGCCGCCCAGGAGGAATGCAAAGCATTTTAAGCTGAGCCAGGCCAGGGGGTTGGATGGTTTTTGGAGACGTGGGGAAGGGATAGAGACCAGG
Celera SNP ID:            hCV7476081
SNP Position Genomic:     44062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44495):
AACAAGGAGATCATGTTTCACGTGTCCACCAAGCTGCCATACACGGAAGGGGACGCCCAGCAGGTAGCCTGGGCACCCCCACCTGCCTCCTGTCTTCCAC
S
TGTCCTCCCCCTCCACCTGTCTGTTCAGCCTCCATCACGCCAGGCTCAGCGCTGGGCCCTGGGATGGAGATGGAAATGATCAGCGCCCCCACTTGTGGGC
Celera SNP ID:            hCV7476154
SNP Position Genomic:     63894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44496):
CTCCCTTCCTCTCTAGTCTCCTCTCTTACCACTTCAGACATTCTGTACTCCGTTGCAGTCCCCCAAGCCTCCCAGGCTCACTGCACCCCTGGCCCTTTGC
R
CATGTGCCATCTCTTCTGTCTGGAACACTCTTCCTGCCGCCTCCTCCTTTCTTTGCCAGGCTGGCTCTGACTCATCCTTTTTGACTGAGTCTCACACACC
Celera SNP ID:            hCV7476227
SNP Position Genomic:     76145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44497):
GATGGACAGGCAGTGCCCAGAGCCTCCAGTTTCCTTCTCTGTCCCCATCCTGGAGCCCCTCCCTTCCCCTGCCCCTTACGGCCTCAGCAGTGGCTTTTTA
S
GTGGAGTTGCCTTCGGGGGACAGGACTGTGGCCAGCCAGGAACTGGAGAGCCAAGGGCCCTGGGATGGGGTCCCAGGTGCAAGCCAGAGCACCCTGGCCT
Celera SNP ID:            hCV7476082
SNP Position Genomic:     45759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44498):
CACTGCAAGAGATGATGTGCCCTTCTTTGGACCCCCCCTCCCGGACCCCGCTGTGTTCAGGAAGGTGAGGGGCACCCCCCCAGTCATGGGCAGAGCAGGA
S
AAATGGGTGGGGGCCTGGGGGGTGCATACACATTCTGCCTTATGAGGTCCCAAAGTCTCATTGTATGCCAGGGCAGCTGGGCTCCCCTAACTGCAACCGG
Celera SNP ID:            hCV25937389
SNP Position Genomic:     65770
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,1)   caucasian(C,28)   total(C,57|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44499):
AATAGTGAAACTTGGGGAGCCAGAGTTTACCATGAACAAATGATGTGAAAGTTTTCATTGAGTGAATTCCCATGAGCTGCCCAGGCTCTGCGATGAATGT
K
TTTGGAAACTGAGGCTGAGAGAGGCTGTGTCACTAACCCAAGCTCACCTAGCCAGTCAGTGTCTGAGACTATCTCCCCCACACTGATGCCACAGGCTTGA
Celera SNP ID:            hCV7476088
SNP Position Genomic:     47312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44500):
CCAGTCAGTGTCTGAGACTATCTCCCCCACACTGATGCCACAGGCTTGAAATGCCACTGCCACCATATCTGTCCTTTTGGGTCAAGCATTGCCCAGCGCA
S
ACCCCTCTTGTAAGATGCCATCACTCCTGGGAGGTGGAGAGGCCTCCAGTGCATAAGTGGGGCTGTGGATGGTTCCTCCGGGCCATTTCTCCTGCTGGAG
Celera SNP ID:            hCV7476089
SNP Position Genomic:     47464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44501):
TACTCAGACAGGTGCCTCGGTCACTGATCAGAGCTGGTGGGACCCGGAGGGCCGGGGCGGGTGGAGACTCCTCTGGGGCTTGGCGGGATCAGCTGACCTC
S
CTCTCCCCTGTCTCTGTTGCAGAACACAGATCTATTTGAGATGATTGAGAAGATGCAGGTGAGGATGGCTCTGTGGCCTGTTCTGGGGAGCCACAGAGCT
Celera SNP ID:            hCV25939207
SNP Position Genomic:     55241
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,39)   total(C,1|G,77)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44502):
TCACGTGTCCACCAAGCTGCCATACACGGAAGGGGACGCCCAGCAGGTAGCCTGGGCACCCCCACCTGCCTCCTGTCTTCCACCTGTCCTCCCCCTCCAC
S
TGTCTGTTCAGCCTCCATCACGCCAGGCTCAGCGCTGGGCCCTGGGATGGAGATGGAAATGATCAGCGCCCCCACTTGTGGGCTCTCGTTGGGTCAGGGG
Celera SNP ID:            hCV7476161
SNP Position Genomic:     63911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44503):
TTAGGCCTTCTGAGCCAAATGTTCCAGCCTCCTGGGCCAAGGTCATGCTCCAGCTCTACCTGCCCCCACACCCCCTGTTAGAGACTTGGGTCTCGGCGCT
S
TCTGGGTCTGGCTGAGGGAAAGGGCTGGAGCAGAACCCTGGGGCCCACACAGGCTCTGGCCTGTCCCCTCATACCCCTTAGCCACGACAGAAGCGGCTCC
Celera SNP ID:            hCV25939069
SNP Position Genomic:     57644
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,16)   caucasian(G,26)   total(C,2|G,42)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(C,1|G,31)   total(C,2|G,66)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44504):
GTGTCCACCAAGCTGCCATACACGGAAGGGGACGCCCAGCAGGTAGCCTGGGCACCCCCACCTGCCTCCTGTCTTCCACCTGTCCTCCCCCTCCACCTGT
S
TGTTCAGCCTCCATCACGCCAGGCTCAGCGCTGGGCCCTGGGATGGAGATGGAAATGATCAGCGCCCCCACTTGTGGGCTCTCGTTGGGTCAGGGGAGAC
Celera SNP ID:            hCV7476162
SNP Position Genomic:     63915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44505):
CCATGCCCTCGGGCCTAGAACGAGGGCTCAGCACAGGGCCTGGCATGTGGTAGGCCCAATGAGCGTCAGTTATGGTCACGGTCACTGTCATTCGTAATAG
Y
GGTAGCCCTGGTAGCCCCTCAATGCCAAGGCGGCTACTCCCAGAGGCTCAGGGAGGGGTCCATTGTAGAGGCGGGGGCACCCTGCTTAGTCCAGAAAGCT
Celera SNP ID:            hCV7476090
SNP Position Genomic:     48502
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   JBIC-allele(C,663|T,837)   total(C,663|T,837)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44506):
CTGTCCTCCCCCTCCACCTGTCTGTTCAGCCTCCATCACGCCAGGCTCAGCGCTGGGCCCTGGGATGGAGATGGAAATGATCAGCGCCCCCACTTGTGGG
S
TCTCGTTGGGTCAGGGGAGACAGAAAGCCTTGGTTTCTACAGTCAGAATGGCACCCACTTCCTAGGTGAGCATAAATGCGTGGGTGCATAGAGGGACTAG
Celera SNP ID:            hCV7476163
SNP Position Genomic:     63994
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44507):
TCTTCAGAGTAGGTCACTGCTTGGCTGGAGGCCTAATGGAGAGCTTGGGGAGAGACCCTGTCCACGTCTCTGATCTCCGGGGAAGGAGAAGCCTGTGTGG
Y
AGCCCTGCTAATGAAGCCCCTCCTCTCCCTCCTCTTGGGGAACCCATGACCCTCTCCTCCGTGAAGTCTATCCTCCCTCACATCCCCCAGCTCTGAGAGT
Celera SNP ID:            hCV7476099
SNP Position Genomic:     48747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44508):
GCTCAGTGCTTGGCACGGGGGAAGAGCACGTCGAATGGCAGCTTGCACACGCAGCCTCTTCACCCGGCGTCCTCTCCTGCAGGCTTCCCGGCTCATCGTC
R
CCTTTGACGAGCATGTCATCAGCAATAACTTCAAGTTTGGCGTCATTTATCAGAAGCTTGGGCAGGTGTGCTCACCTCCTCCCTGCCGCCCCTCCCCACC
Celera SNP ID:            hCV25940479
SNP Position Genomic:     63217
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,35|G,1)   total(A,73|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44509):
ACCACGCCCCCTGTCGTCCCCAAAGCTCACCCCCTCAGAGAGGACAGTTTCCCTCCTCTGCCTCCTGGCCTGGTATCACTGTCCTCCACCTCCCGTAGCC
K
CCTCTGCCTTCACCATCCCGATGATTCCTAAGGCCCCTACCCATCTCCACCACTAAAATTCAGGGCAAAAGATAGAGGGCAGAAATCTCTGGAAGAAAGA
Celera SNP ID:            hCV25936092
SNP Position Genomic:     65429
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,36)   caucasian(T,38)   total(G,2|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:44510):
CTCTTCTCTTCTTCCCAAGGTGCCTGCCTGGCAGGGGTCTCAGGAGGCCCCTCTCCTGGCTCTAACTACCTTCCACCCTTAGGAGACAAGAAGGATTCTT
Y
CTTTGGCCTCTTGGAGGGCAGCAGGGAGAGAGGTCTCTGCCACTTAGGCCTCAGGCTCCCACAGCAGGGCCTCCACCTCCCTCTCACCTGGCCCTGCCCC
Celera SNP ID:            hCV27477264
SNP Position Genomic:     7991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44511):
GGTCAGGGGAGACAGAAAGCCTTGGTTTCTACAGTCAGAATGGCACCCACTTCCTAGGTGAGCATAAATGCGTGGGTGCATAGAGGGACTAGAACAGTGC
M
TAGTACATTGCAAGAGTTCAGCAGATCTGAGCTGGTGTTTTATGGGGAGTGGAGAGCATCATGGGGTCATGTGGGGACATGTAGTCTTGGCAGAGGTGGG
Celera SNP ID:            hCV7476171
SNP Position Genomic:     64103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44512):
TCATGGGGTCATGTGGGGACATGTAGTCTTGGCAGAGGTGGGAGTCAGGAAAAGCTTTCAAGAGAAAGTGACTTTTAGTCCGTGAAGGAGCTGGGAGAAG
R
AAGGGAAATGTTCCAGGTGGCGAGAACAGCTTCTACAAAGGCCTGGACTCGAGGACATGCAAGGCATGTGCCAGGAACTGAACTCAGAAGCGTGTCCCCT
Celera SNP ID:            hCV7476172
SNP Position Genomic:     64262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44513):
CTTTCAAGAGAAAGTGACTTTTAGTCCGTGAAGGAGCTGGGAGAAGGAAGGGAAATGTTCCAGGTGGCGAGAACAGCTTCTACAAAGGCCTGGACTCGAG
S
ACATGCAAGGCATGTGCCAGGAACTGAACTCAGAAGCGTGTCCCCTTGTCCTGAGCCTCCTACAGGGCTATCTGCCTTCCCAGTCAGGTCCCCAGCCCAG
Celera SNP ID:            hCV7476173
SNP Position Genomic:     64316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44514):
ACCGGGGCCTGGCTTTTCCATTCATCTTGAAAACACCTTTTTTTTTTTTTTCACAAGGTCACAGGATAAACTACACGATTGTTTTACACTTTCCATAGTA
R
ACTGGCCTCTCCTCATTTCTGTTCTCTTTCTGACAGTTCCAGTCTCTTTCTTTCTTCTAAAATGTTTGGGGAGGGGCACACTTCAAGCCTGGGCTTCAGC
Celera SNP ID:            hCV7476178
SNP Position Genomic:     65966
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44515):
GCGGCGACGAGGACAAGATGGAGAATGGCAGTGGGGGCGGCGGCTTCTTTGAGTCTTTCAAGGTGAAGGGCCCCAGGTCTAACTGGCCGGGGAGCAGGGA
Y
GTGGCTAGGGCGGAATCCCGGGCTGAGGCTGATAGACTGATGGACACGGCGTGGGGGTGGAGTCTGGCAGAAGGGGCGTGGCTGAGGGGGTGGAGTCCCG
Celera SNP ID:            hCV7476179
SNP Position Genomic:     67134
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,24)   caucasian(C,21|T,19)   total(C,33|T,43)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44516):
CTTTCCGTGTCCGGTCTCCCAGCCTGTGTGCAGTGGGTGGCTGTCCTCAGGGTGGGCTCCTCCTGCTCTTGCTCCAGGCACTGTCACCTGTCCAGATCCC
Y
ATTCCCCTGCTCCCGGTCCCAGCCTTCTTGCCTTGATGGTCCTGTACCACCTGCCCTGGCCACCAGAGTTTCACCTGGTTGAGTTGAATTTCAAAGCATC
Celera SNP ID:            hCV29023249
SNP Position Genomic:     41777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44517):
TACTGTTGTTATGTGACCCTGCCGGGGCAGGCAGGGCTTGTAGCCATGAGTGGGGCTGCATCTGGGTCTCCCTGGACACACCTGCCCGCCTCTGTGGCTG
Y
GTGTTGTCATGCCTCTTGTTCTCACACGAGAGTGGTTTGTGGTGTTACCATAGCTTTGTGTGCAGTTACTGGTGTGCAGACCTGCACAGGTGTGGGTTTG
Celera SNP ID:            hCV950739
SNP Position Genomic:     54086
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_C(T,10|C,74)   TSC_42_AA(T,4|C,78)   total(C,152|T,14)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44518):
TGCCAGCTTGCAATTGGGTGAAAGTACTTTGGAAAGTAGAAATTAGGAAGCTGAGCTCTTATCAGCGTCATTACATTCCCAGGGCTGGACAGGGCACCCA
R
AAGGGACATTCTCCTCCCTTCAGGCCCCACATTTGTACAGGCATCGAGCTACCCAGGACCCTCCTTCCCTCCTCCCTACAGGGGTTTCTCCACTCGGGGA
Celera SNP ID:            hCV16153738
SNP Position Genomic:     51054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44519):
CAGGCCAGACAGAGCAGAGCCGGAGCTGGGCCTAGGGAAGGCGCTTGGCGGTGGCTGCAGGAGCCAGGGCCGTGATGGGAGGTCATGGGGCAGGAGGCCA
S
GTGACGGGACTGAGGGCCTGGGCTGAGGACAGTGGGATGCACGCTGTGGAAGGGACACTGGACTGGAGTCACATCTCAGCCCTGCCCTTTCCCATTGTGC
Celera SNP ID:            hCV16250332
SNP Position Genomic:     43418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44520):
ACTGGTGGAAGGCCTGTGTTCTTATCCCTGATCTGCTGCTCACGGCCTTATTGGCTGACTTTGAGGTCGTGTTTTCACCTCTCCAAGCCTCAGTTTGCCC
Y
GCTGGCAATTGGGGATCCTAGTGACTGCCTTATCTCCATTCCAGTTCCGGTGAGAGTCCCAGGAGTGAGCAGATAAAGAAGGCTTTTGAAAAGTACAAAG
Celera SNP ID:            hCV16191844
SNP Position Genomic:     42852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44521):
AAAAAAGGGAAAAAGAAAAAAGTATTTATTGAGCAACTACTATTTACTAAGTGTCAGTGGTATAGTGTTAAGGGCACTGCAACCAGATGTTGGGGGAGGT
M
AAATCTTCAGACTTTCATTTACTGTGTGTGACCTTGGACAAGTTACTTAACCTCTCTGTGTCTTAGTTCCCTCCTTTGAAAAATGCAAATTAAATGAGTT
Celera SNP ID:            hCV16191845
SNP Position Genomic:     45144
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,14)      total(A,1|C,14) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44522):
CCCTCACATCCCCCAGCTCTGAGAGTGACTCTCCCAGAGTTCCCAAATTTCCTGGCTTGGGGCTCTCCCTGACCTCAGACTCTTTCTCTTCCAGGAGGAG
Y
GATGGGCAGAACCAGCACTTCCCTCAGGCACTAGACCTGTCACGAGTGAACTTAGTTCCCTCCTATACTCCTTCACTCTACCCTAAGGTAAGTGTCCCCC
Celera SNP ID:            hCV25937555
SNP Position Genomic:     48922
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,37|T,3)   total(C,72|T,4)
SNP Type:                 UTR 5;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44523):
GCTTACACTTGGGGACATAGTCTGCCTTGGGTAGAGTTTGAAGGAGCAGCATGTAAGGTGGGGCCCTGGCTTGGGGAGGAGTAACTGTTGGAGGTGGGGC
M
TAGGTGGGGAATTCACCTGGGAATTCTGCTGAAGGGTGGAGGATTCTGGGAGACAGCAAGGGCTGCTGGTACAAAGGCTGCTAGGTCAGCAGGAAGAGAA
Celera SNP ID:            hCV7476180
SNP Position Genomic:     67614
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44524):
AGACCACTCCCTCTTTCCGTGTCCGGTCTCCCAGCCTGTGTGCAGTGGGTGGCTGTCCTCAGGGTGGGCTCCTCCTGCTCTTGCTCCAGGCACTGTCACC
K
GTCCAGATCCCCATTCCCCTGCTCCCGGTCCCAGCCTTCTTGCCTTGATGGTCCTGTACCACCTGCCCTGGCCACCAGAGTTTCACCTGGTTGAGTTGAA
Celera SNP ID:            hCV29023250
SNP Position Genomic:     41765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44525):
GGGTGCGGAATTGCGCTTGGTGTGTAGACTCTGTCCTCTGGAAGCTTGCTGCCTGCCAGGGGGTGACCTGACTGCCTACACGTGACTGTACACCCCAGCC
R
TGGGCACTGGCCTTAGGCACTGGCCCTGAGAACACTGGCTTTGGAGTCTGATGGGCCTGGTGCCAGGTCCTGGCCAGTGACCTTGAGGAGTCCGTCACCT
Celera SNP ID:            hCV29023251
SNP Position Genomic:     33149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44526):
CAGGCTCCTCCCTGAGAGCTCTGGCCTGGAATAAAGGCCACGTACCTTGCCTAGGCTGGGAGGGCAGATGGCCAAGGAATGGTGTCCATATGTGGGGCCA
S
CACCTTCATGGGGGTCCCACGTGGGGCTGCTGGGAGCAGCAGCAGGAGATTCCTGAGACTGACTCCTGTTTTCTCTGTCTGGGCAACAGCCCAAGACTGG
Celera SNP ID:            hCV950740
SNP Position Genomic:     50159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44527):
GATCTGGGTGGATTTGGGGGAGACAAAGTCTGGGGTACCCCTGAAGTCTTAGGGAGCAGGGTACGTGTGTTGGGGTGAGGGTGGGGGGAAGCTCCTCCTA
R
ATCTCCTCCCAGATTCGCAGACATTTGCTTCCTGGGTGGATATGAGTGAACAGCTTCAGGATTGAGGCAGGCTACGGGCCTTGGGGGTGATGTTCTTTCT
Celera SNP ID:            hCV29023252
SNP Position Genomic:     25006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44528):
TATGGGGCCAGGGCAAGTATCAGATGAGGTTCTGAGATTCCCAGTGATGCCTGCCTCCTCCCTGTCACGGGAACACCACGCCCTTCAGTGGCGTGGTCTG
S
AAGAGACAGACTGGTGGGCAGAGCTGTTTCCAAGAGACTTCTCTGCCCACCATGCACATGGGGGCTATGCTGCCCCAGAAAATCAGATTGAGAAGGGCCC
Celera SNP ID:            hCV29023253
SNP Position Genomic:     13355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44529):
AAGGTCCCACTGGGATTCCAGCCTTTCCTACTGCAAGAAAGGAAGCAAAACATGATACTCCTGCTTTGCACCAGCACAATGGGAGCAGCCTCGTGTGCCT
R
CTCACTAAGCATTTAATGAGCATGTAGTGGATCCCAGGGACTGTGACAGGCACTGGGGCACAGAGATGAGCTGGGTCCTGTGGTCCCTGCCACAGCCCGG
Celera SNP ID:            hCV29023254
SNP Position Genomic:     9846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44530):
GGATCTGGGGTGTCTCCTTTGAGGAGGGCTCCGATGGTCCCACATCTGGTAGGTGCTGGACGGTGGACCTAGATTAGGTCAAAGAATTTCTCAGAAGCAG
Y
GGAGTCCAGAGTTGAGGGCATGGGTCCTGGCATGCCGGGCTCACCCCTGCCTCAGTTGGCATGAAATGGGCATGATTGCTAGTCCCCATCTTGCAGGGGG
Celera SNP ID:            hCV7476185
SNP Position Genomic:     68448
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(T,-|C,-)   ;SC_12_T(T,9|C,15)   SC_12_C(T,3|C,21)   SC_95_C(T,8|C,165)   total(C,201|T,20)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44531):
TCAGTTGGCATGAAATGGGCATGATTGCTAGTCCCCATCTTGCAGGGGGATCCAGTGATAGAGTGATTGTAAAGCGCTGGTCCCATAGCAAGCATTTGGT
R
TAGATTGGTCTGAAAAAAACAAGGAAAGAGGGTGGGAGGGAAGAAAAGAAAGAAGGCAGGAGAGCTCTAAGAGGCCCTAACAGGAATGAAACTGAGGTGT
Celera SNP ID:            hCV7476186
SNP Position Genomic:     68600
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44532):
AGAGTGGCATTGCTGGGGAGAGACCAGATGCCTGGGCTCCTGGGTTTCCCCAAGGGGACGGCCCTTAGGAATCCTGTGCCTCCTCCACTGCCACCCCCTT
Y
ACAGCGGGTCATCCGGAGCCGCAGCCAGTCCATGGATGCCATGGGGCTGAGCAACAAGAAGCCCAACACCGTGTCCACCAGCCACAGCGGGAGCTTCGCG
Celera SNP ID:            hCV7476187
SNP Position Genomic:     69098
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44533):
AGGCAGCCTTATAACAGCAGCTGGAATGGCTGCTTGAATTCCAAATCTGCGTTAGTGCTGCCAGGCGAGGCAGGCCCTCAGCCACAGGAAGTGGGGCACG
S
ACTCCAGGGAGGCCAGGAGGCCGACGCAGCCACTGCCTGGGTTGGATTGTTGCCTGCTGGCACACTGGCCTCTGCACAATTCTATCTGGGTTTTCCTTTC
Celera SNP ID:            hCV7475961
SNP Position Genomic:     1689
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,16)      total(G,4|C,16) ;no_pop(G,-|C,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:44534):
AACGCGGCCTCATAGGCTGTTGCCGGATCATGGTGATAGGAGGAACCCGAAGCAGGGTTGGGGGGATGAAGAGGGACTGGGGGCAGAGGTGTTTTAGATG
S
GTCCTCGGGGAGGCACCTCCATGGGGTGACATTTGAATTGGGAACTGAACCAGCCCTGCTAGGACTGGCATGGCAGAGGAGCTCGGCCAGTGCAGAGGCC
Celera SNP ID:            hCV27905560
SNP Position Genomic:     73968
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44535):
ATGGGCAGTAAGCCTGATGCTCTCTTTGGGGCAGAGGCCCTCACACCAGCAGCGTCGGTGCCACCTGGGAGCCTGTGAGGAATGTACATTCTCAGACCCC
K
CCCAGACCGCTGCATCCAAAGCTCTAGGGTGGGGTGCAGCAAGCCCTCCAGGCAGTCCAGCGGTTTCTTCTGGGGAGGCAGTGAGCCCTCCTTTCTCCAG
Celera SNP ID:            hCV27480935
SNP Position Genomic:     57049
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44536):
GCCCACACTGGGCTCTTTGTCTTCGGTGGGAACCCTTCAGCCCCCATGGCCCCTCTCAAGGGCCCACTGTCCCAGTACCAGTGGGGCCTCCCGGGGGCCA
S
GCCTGGCTGGGAAACTTGCCACGTTGGCGGCCCCTTGGCTACTCTGCCAACTGGGCATGCAGAAACCACTCAGGAATCATTCCCACTGAAAAGACTGGCG
Celera SNP ID:            hCV12007159
SNP Position Genomic:     21385
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44537):
CACCCCACAGACATACACTGCCTCTCACCCAGTGAGAGACACCGCAGGCTTTGTGGTGGGGGGCCCAGGTGGAATGGAACTGGAGGAGGGGACAGATGCT
S
GGGGCCTGTCAGCCAGAGACTGTGCTGCAGGAGTGGGAGGTATTACCCCTCCACCCTCCACCCCACAGCCCCGTCTGCGTTTCACATAGGTATGCATGGG
Celera SNP ID:            hCV27480936
SNP Position Genomic:     55665
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,23|G,1446)   total(G,1446|C,23) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44538):
TTTGGTTTTCTCTATAGCACCTTCAGATCTCAGGGGACCTCCGTTCCCTGAGCAACAGTGAACCCCGAGTCCTGCTTTAGCCTTGGCCATTCCCAGCATG
K
CTCCTCCCCAGACCTTGACCAGGGAGGCCCAGGCAGCCCCATCCTCTCCTCCCTGGCCCCACACCTCACACCCCTGCCTTATCTCCTCCTGCAGTTGGTG
Celera SNP ID:            hCV25933787
SNP Position Genomic:     61984
SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,1)   caucasian(G,34)   total(G,61|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44539):
CCCCAAGGGGACGGCCCTTAGGAATCCTGTGCCTCCTCCACTGCCACCCCCTTCACAGCGGGTCATCCGGAGCCGCAGCCAGTCCATGGATGCCATGGGG
M
TGAGCAACAAGAAGCCCAACACCGTGTCCACCAGCCACAGCGGGAGCTTCGCGCCCAACAACCCCGACCTGGCCAAGGCGGCTGGAATAGTGAGTGCCCT
Celera SNP ID:            hCV7476196
SNP Position Genomic:     69145
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44540):
CCCCTTCACAGCGGGTCATCCGGAGCCGCAGCCAGTCCATGGATGCCATGGGGCTGAGCAACAAGAAGCCCAACACCGTGTCCACCAGCCACAGCGGGAG
Y
TTCGCGCCCAACAACCCCGACCTGGCCAAGGCGGCTGGAATAGTGAGTGCCCTCCCCCTCCCCAGGCCCCTGCCCCTCCCTGGGGGGCCCTCAGCTCTCC
Celera SNP ID:            hCV7476197
SNP Position Genomic:     69192
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44541):
CGGCTGGAATAGTGAGTGCCCTCCCCCTCCCCAGGCCCCTGCCCCTCCCTGGGGGGCCCTCAGCTCTCCTCTGCCTCCTGAGGCCTGACTCCAACTCTCT
S
TGTTGCCCTGCTGCCCACATGCCCATCCTAGGCTCTGGATTTGGTCTAGCCACTACTTTCCATGGGAGGGGGGTGAAGTGCCCAGGCCAGGACACTGCGG
Celera SNP ID:            hCV7476198
SNP Position Genomic:     69324
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44542):
AGTGGCAGTGGGTGGCGTGTGCCTGGGTCTGTGCCTGCCCTGACTCTGCCCTCCTGTGGTCTCCCTGGGGCAGACATGGCTAGGCCCGTCCTCCTCGCAG
R
GGGTACGGGTGGGGGGTTGTGGAATGCAGTGAGGGAGAGGGGCTGGGAGGGAGCCCTAGCCAGTGCCAAGGGCATAGGCTAACCTCCCTCCCTCTTTCCA
Celera SNP ID:            hCV16116019
SNP Position Genomic:     76694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44543):
GCTGCAGCTGGTCAGAGCAGAGAGGCTGGAGCCCACACTGGGCTCTTTGTCTTCGGTGGGAACCCTTCAGCCCCCATGGCCCCTCTCAAGGGCCCACTGT
S
CCAGTACCAGTGGGGCCTCCCGGGGGCCAGGCCTGGCTGGGAAACTTGCCACGTTGGCGGCCCCTTGGCTACTCTGCCAACTGGGCATGCAGAAACCACT
Celera SNP ID:            hCV12007160
SNP Position Genomic:     21355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44544):
AGGTGACAAGCGGGAGAGCTGAGATTTTAGCCTTCAACGGTGAGGATATAAGCACATGCCTCAATGTCCATTGTCCTTGCCATTCATCTACAGGCTCACA
K
GCTATGATGCAGAAGATAAATTCTTGGAAGTGGTCTTGCAGGTTAACAGGATGCATTTAAATTCAGCCGTCACCAAAGGACCAGGAGCTGGTCAGGGACT
Celera SNP ID:            hCV12007161
SNP Position Genomic:     21066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44545):
AGAGGCCCTTTGAGGACTCCTCGGGCAGATCTGTCCTCCATGCTGCCATCTGTCTACGGAGGCCTTTGTCCTGGCTGTCAGAGGCTGCTGAGCAGCCGCA
Y
GTGCTGTGCAAACAACCGAGACCTGAGCACGGCCAGACACAAACGCAAATACAGTTAGACTGACAGATACCCTGAGACCCAGACACAGGAACACACGGGC
Celera SNP ID:            hCV7475971
SNP Position Genomic:     8218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44546):
GAGACGGAGGTTGTCAGCAAGGAGAAGAGCCTTTTCAGAAGCCCTCGTCTTCTGTCGTCTGCCTCCATTATCTCCTCCAGGGTGCACACATGGTACACGC
R
CATGCAGGAAGAACACGAGGATGCCCTACGCCCTTAAAAATGAACCTGGCAGACACGCACATGCACCCACCCACACCCAGGCCATCATGGGTGCACACAC
Celera SNP ID:            hCV7475972
SNP Position Genomic:     8512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIG-allele(A,330|G,1157)   total(G,1157|A,330)no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44547):
TTCAGACCTTGGCCTTAGCGGGGACACCTGGGGCTGGATGGATTGATGGACGAGTAGGAGGTCGGGGAGAGGAAGCCGGAGGGATACTGAGGAGTTCCCA
S
GAGATGCTGGGAGGCGGTTAGGCTGACAGGGACACCTTGGGACCTGTCAGGTGGGGGGGTGGACCTGGGGGGTGGGGACATGAAGCCAGATCTTGAAGGG
Celera SNP ID:            hCV16187983
SNP Position Genomic:     66647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44548):
TTTTCCTGGCTCTTTAACCCCTATGCCTTCCCATGTCCCTAATCTGACAGTCAGGCGACTGCAGCCTAAGGGTGATAGTGACTGCATCAGGCATCCTTAG
R
AACAGGACCTTCTCCAGCCCCTCTGGGAGGGTGGTGCAGTGCAGGTGGGTGTGATATGCTGGGCCAAGCTGGTGAGAAGGGATGTCCCCTCACCTATGGC
Celera SNP ID:            hCV25936199
SNP Position Genomic:     25399
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|G,1)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44549):
TCTGTGGCCTGTTCTGGGGAGCCACAGAGCTGGCTGGGCTGGGGCTGGGGGGCCCTTGCTGCATCTCCAGCCCTTCACCTCCCTGAGGACAGGCCACGCC
R
GTAGAAGATGGTGGCTATTGGTTGTCCAGGGTCCTCTGTCTGGAGGTCAGGGTAGAGGATGCCCAACCCCATCTCTGATGCCGGAGTCCATCTAGGCTCC
Celera SNP ID:            hCV25938448
SNP Position Genomic:     55411
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,9)   caucasian(A,23|G,13)   total(A,50|G,22)
SNP Type:                 INTRON


Context             (SEQ ID NO:44550):
CACCCTCCACCCCACAGCCCCGTCTGCGTTTCACATAGGTATGCATGGGAGGTGGGCCGGGGGTGCTGGGATGGGAGTGCCTTAAATACCCTCTGATCTT
Y
GATGCCTCCTGTTTCTCTTTCTGTCTCTCTCTCCAATGCCTCCTATTTCTCTGTCTTTCTGTCTCGTCTCTGCCTCTCCCTCCCCCTCTCTCCCTCAACA
Celera SNP ID:            hCV16190702
SNP Position Genomic:     55817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44551):
AAAAATGAACCTGGCAGACACGCACATGCACCCACCCACACCCAGGCCATCATGGGTGCACACACGCATGAATTACATCAGCTTCCTGCGTGTGGGATGT
K
AATGCTTCATCACCCGGGGAGGGGAGTGGAGGCCCCCGACCGTCCCCAGCAAAGCCTCCCCTTCCTCCCTCTTTTCTGATTCATGTGGACCCAGCTTGAC
Celera SNP ID:            hCV7475981
SNP Position Genomic:     8648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44552):
TGCCTCTGAGAGACTGGCGCTGTGGAGAGGTGCTTCTGTGGGCTTAGGTGAGGCCTCCAGGGCAGACATGCTAGATGGGGAGGGGCTCCCAGCTCCACCA
Y
GCTCCCTCGGCACTCACACCAAGCCTGCCAGAGTGCTGATTCCCTGTCCAAGCCTGGCCCTGCCTCTTGCTGGCTGTGTGGCCCGGACAAGTCATTTTCC
Celera SNP ID:            hCV7475982
SNP Position Genomic:     9218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44553):
CTTCTGTGGGCTTAGGTGAGGCCTCCAGGGCAGACATGCTAGATGGGGAGGGGCTCCCAGCTCCACCACGCTCCCTCGGCACTCACACCAAGCCTGCCAG
R
GTGCTGATTCCCTGTCCAAGCCTGGCCCTGCCTCTTGCTGGCTGTGTGGCCCGGACAAGTCATTTTCCCTCTCTGGGCCCAGCTCCAGCTCTGGGAGGCA
Celera SNP ID:            hCV7475983
SNP Position Genomic:     9250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44554):
CCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGGATCCAGGAGTTCAGACCAGCTTGGGCAACATGGTGAAACCCTGTCTCTACAAAAAAAAAAA
A
TTAGCCGGATGTGGTGGCATGCACCTGTGGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGCTTGCTGGAGCCCAGGAGGCAGAAGTTGGAATGAGCTGA
Celera SNP ID:            hCV11545650
SNP Position Genomic:     37992
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44555):
CCCAACTGGGCTTCATCCCACTCAAAATTCTGAGGGCTTTTGGGCCTCAGGGTCCCATACGCAGCAAGCCCCTTTTCTCTCTCTCTTTTTTTTTTTTTTT
T
GAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGTTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCA
Celera SNP ID:            hCV11545651
SNP Position Genomic:     36859
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44556):
AGGCTCTGTCTTGACTGAGGGAAAGTTCTCAGAAGAGGTGTGTGAACCATGATCATTGGAGAGGGACTTGGCCTGTGTGACCTACCCTGCCTGTCCCTGG
K
TTAGCTTAGCATTAAGAGCACGGACACTTCAAATTTCAGCTCTGTTACTTACCAGCTTGGGCATTCTGTGAGCATCAGTTTCTTTATCTGTTGAGTAGGG
Celera SNP ID:            hCV16166940
SNP Position Genomic:     67824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44557):
GGCCGAGGTGGGTGGATCACCAGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTATCTTTACTAAAAATACAAAAAAAAAAAAAAAA
A
TTAGCTGGGCGTAGTGGTGCATGCCTGTGATCCCAGCTACTCAGGAGACTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGATTACCATGAGCCGA
Celera SNP ID:            hCV11545652
SNP Position Genomic:     34241
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|-,11)   total(A,7|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44558):
CAGGTGTCCAGGCCAGACAGAGCAGAGCCGGAGCTGGGCCTAGGGAAGGCGCTTGGCGGTGGCTGCAGGAGCCAGGGCCGTGATGGGAGGTCATGGGGCA
S
GAGGCCAGGTGACGGGACTGAGGGCCTGGGCTGAGGACAGTGGGATGCACGCTGTGGAAGGGACACTGGACTGGAGTCACATCTCAGCCCTGCCCTTTCC
Celera SNP ID:            hCV16250299
SNP Position Genomic:     43410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44559):
CATGGCCCACCCATCTGGGCTGTCTCTGCAGGGCAGAGCCGTCCAGACCTGGGATCAGGGAAGCTGCTGGCATCGTCCCCACCCCCAGCCTGGGGGTCTG
S
GCTGGGGCAGGGATTGCTCAGTGGAAGCAGGACTGGGGGTCTGGCTTGCCCCCTCCCTGGGCCTCCATCACCCCTGAGCATCCCTCTGGACTCAGAGGGA
Celera SNP ID:            hCV7476283
SNP Position Genomic:     78258
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|G,14)      total(G,14|C,3) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:44560):
TTGAGGTTGCACAGCAAGTTAGTACCCGAGTCAGCCTGACACCCATCATCACCTCTGGTCCTCGCTGTGGTCCACCCCCTTCTGGCCTTACTTTGTGGGG
K
GTGGGGTTCCCATTTTCCTGTCCTGCTGCCCAGGCCTTCATCGTGTGACTTTCTCTTCTCAGGACCAAGTGCCGGACATACCATGATGTCATCCCCATCT
Celera SNP ID:            hCV25935046
SNP Position Genomic:     61539
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44561):
TCCAGGCCTTGCCTCCCCCGACCGCCATGGAGGGGGCAGCCCGGCACAGCTGCTGGGAGCCCTTGTGTGTCTGGTCACACTTTTTAGGCGTCACGCCAAA
R
GCCAGCCTCCTGGCCCCAATACCCATTTTGGAAGCCCCTGTGGCCGTGTGGATGTCGGTAACAGTTGTATAAAATAAATTCTATTTATCGCTATTGTACC
Celera SNP ID:            hCV7476289
SNP Position Genomic:     78990
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:44562):
CTGCTTTGAAAAATATAAAGCTGCACTCAGAGAAACACAGAGAGACACACTGAAGGAAAAGCAAACACAAATCTGGAGAAAAATCTTTTCTAAAAACATC
M
AATACTTCTCTACAGCCAGAAAAAAAAATAATAAGCCTTTTCTTCAGTGTTTTGAGAGTAGTGAGAATTTTTTCCGTAACTTCGCATTTCCAAAGTAGTT
Celera SNP ID:            hCV7475990
SNP Position Genomic:     10546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44563):
ACAGAGAGACACACTGAAGGAAAAGCAAACACAAATCTGGAGAAAAATCTTTTCTAAAAACATCAAATACTTCTCTACAGCCAGAAAAAAAAATAATAAG
S
CTTTTCTTCAGTGTTTTGAGAGTAGTGAGAATTTTTTCCGTAACTTCGCATTTCCAAAGTAGTTGGCATGGCTATCACCAGGTGAGCTGGGTAAGTTTCC
Celera SNP ID:            hCV7475991
SNP Position Genomic:     10582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44564):
GGGCTGGAGCAGAACCCTGGGGCCCACACAGGCTCTGGCCTGTCCCCTCATACCCCTTAGCCACGACAGAAGCGGCTCCAGGTCTGAGTTGGGAGGGTGT
Y
CTGGGGCGCCCAGTGGGGTACAGTGTGGGGTGGCTCTCAGCTGAGTCCCTCTTCAGGTCTTGGGGCGAGAAGGACCCTTCCCCCTCATCCTGCTGCCCCA
Celera SNP ID:            hCV25941972
SNP Position Genomic:     57766
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,27|T,1)   total(C,57|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44565):
GGCCCCCTACGTCTGTGTAAATTCCCAGCTTGGAAACCCAAGAAATCCCCAGCTTCAGAGCTGGGAAGGAGCCCACAGAGATCAGCTGGTCCAACCCCCT
Y
GTTTTACAGATAGTAATTATCATGATTATGCCTGATGGGAGCAATTCACAAAGGACTTTCACATCTGGGTTGCTGCTGAGTGTGCCGGAGCCCTTGGGGC
Celera SNP ID:            hCV7475992
SNP Position Genomic:     12974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44566):
CTGACAGTTCCAGTCTCTTTCTTTCTTCTAAAATGTTTGGGGAGGGGCACACTTCAAGCCTGGGCTTCAGCTCTGTACGTAGCGTGTTCTGCTACCCTAG
M
CTGAAGCAGTAGGTTGAGACCCCAACCCAGACCCTAACATCTGTGGAGTTTGCTCTCCCGAAGGCGTGGGCAGCCATGAAGGGCACTGGGGCCCCTTGAA
Celera SNP ID:            hCV27520945
SNP Position Genomic:     66096
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,630|A,857)   total(A,857|C,630) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44567):
TGTGCCAGATACTTTCCCAAGGTTCTCTCATTTAATCCTCACAATAACCCTGTGAAGTCCACAATTTGCAGAAGAGGAGCCACCGAAAGGGCCTGTGCCT
W
CCCCCAGGGTGCACAGCAGATAGGAGGGCCTGCGTTTAAGCCTCGGTTTGTCTGCCTTAGAGGCTGGCCTCACATCTGGAACCTCTGTGATGTTTGGGGA
Celera SNP ID:            hCV25937806
SNP Position Genomic:     62310
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,36)   total(A,1|T,73)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44568):
GATTTGAACCTTGATCTTCCAGACTCTGTGCAGAGCCCAAAACCTCGCCTACTCTGTCCCAGGGCCACCAGGCCACAGGGAGGGTCTGAACGAAGGATGC
R
CTTGAGGGAAGACTCAGAGACAGGGGCCACCCAGAAGGCCCACCCCAGGGAGCCCTAAGCCAAGAGTTAGAGACGAGGGCCCAGGACTGATTGTAACTGG
Celera SNP ID:            hCV11545662
SNP Position Genomic:     26974
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44569):
CCCAATTTTTAGTAGAGAAACTGAGGCTTGGAGAGGTTATGGTGACTTAATCCTGCACACACTGTGATCTGGGGGCAGAGCTAGGGCTTCCCCATGTCAC
S
TTTGGTTAGGAGATGGTGACCTTGTCTATCCCCGTGGGGGTTTCGCCTTGGCCTGGGTGGTCACCCCGCCTGGGGAGTTGTGAGGGGCAGGGACTTCTGC
Celera SNP ID:            hCV11550340
SNP Position Genomic:     39542
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,16)   total(G,1|C,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44570):
TCTCCCTTTCTGGGCATCATCTCCTGCTGCTGTGCCTAGTCCATTTGAGCCCCTCCTTCTGCAAGATGGTGTGCTATGCTCAGAGCAGGGGTAGACTGAG
S
GGGGATAAAAGCAGAGGTGAGGAAGATGCCATCCTTTCCTTCAGGGAGTTCAGTAATAACACCACTGACAACTGCCACTTGTTGGGCACCTGCTATGCAC
Celera SNP ID:            hCV11545663
SNP Position Genomic:     26628
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,10)   total(G,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44571):
GGGGTGGAGGGGGTCCGGGAAGTGCTGCCACCACTGCCCATCAAGCAGGAAATCCATCCCCTTTCAGCAAGTAGTCTTACAGTGTGCCAGGTGCGGGGGT
M
GGGGGGGAGGCACAGCTTCTAGCAGGGTAGACCCAGCCCCTGCCCTCTAGGAGTTCTGTGATGGGGAGAACCCCTCTCTTGCTAGAGGGCTGGGGCCTCT
Celera SNP ID:            hCV15878634
SNP Position Genomic:     56424
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44572):
CTGGGCAGGAGGCGAGTTGTTTGTTGTCCCAACAGCTGCTCAGCCCCTGCCCCCAGCGGCACCAAGGTGCCCTCAGAGGGCAGTAGGAGAATCTGGGCGG
R
GCGGGAGTGCTACCCACACATGCGTCCTGGGGCTGGATCTGGGTGGATTTGGGGGAGACAAAGTCTGGGGTACCCCTGAAGTCTTAGGGAGCAGGGTACG
Celera SNP ID:            hCV11545667
SNP Position Genomic:     24870
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44573):
GAACCCTTAGGCCTTCTGAGCCAAATGTTCCAGCCTCCTGGGCCAAGGTCATGCTCCAGCTCTACCTGCCCCCACACCCCCTGTTAGAGACTTGGGTCTC
R
GCGCTGTCTGGGTCTGGCTGAGGGAAAGGGCTGGAGCAGAACCCTGGGGCCCACACAGGCTCTGGCCTGTCCCCTCATACCCCTTAGCCACGACAGAAGC
Celera SNP ID:            hCV15878635
SNP Position Genomic:     57638
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,2|G,34)   total(A,5|G,67)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44574):
CTTACCTCTGGGCAGGAGGCGAGTTGTTTGTTGTCCCAACAGCTGCTCAGCCCCTGCCCCCAGCGGCACCAAGGTGCCCTCAGAGGGCAGTAGGAGAATC
Y
GGGCGGGGCGGGAGTGCTACCCACACATGCGTCCTGGGGCTGGATCTGGGTGGATTTGGGGGAGACAAAGTCTGGGGTACCCCTGAAGTCTTAGGGAGCA
Celera SNP ID:            hCV11545668
SNP Position Genomic:     24863
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44575):
GGGGCTACTGGATTGAGGGCACCAACCACGAAATCACCAGCATCCCCGAGACAGAGCCACTGCAGTCGCCCACAACCAAGGTGAAGCTCGAGTGCAACCC
Y
ACAGCCCGCATCTACCGGAAGCACTTTCTCGGCAAGGTGGGTGGCCGGCTGGTGCAGCGGGGCTGGCTGGGGTGGGTCACAGTTCAGCCCCATTCGAGGT
Celera SNP ID:            hCV15878636
SNP Position Genomic:     57972
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44576):
AGGGCACCAACCACGAAATCACCAGCATCCCCGAGACAGAGCCACTGCAGTCGCCCACAACCAAGGTGAAGCTCGAGTGCAACCCCACAGCCCGCATCTA
Y
CGGAAGCACTTTCTCGGCAAGGTGGGTGGCCGGCTGGTGCAGCGGGGCTGGCTGGGGTGGGTCACAGTTCAGCCCCATTCGAGGTGGGCCTGGGAGGGAG
Celera SNP ID:            hCV15878637
SNP Position Genomic:     57987
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,24|T,10)   total(C,54|T,14)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44577):
TGACCTTGGTACAGGTCTCTTCCTTCTGAGACCCAGCACCTGTGTGACGTGGCTCTGGGGCTGCACCCTGCATTGGAGTGGGGCTGGTCCTGAGAGGTCT
R
TATGGGGCCAGGGCAAGTATCAGATGAGGTTCTGAGATTCCCAGTGATGCCTGCCTCCTCCCTGTCACGGGAACACCACGCCCTTCAGTGGCGTGGTCTG
Celera SNP ID:            hCV7476001
SNP Position Genomic:     13254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44578):
CATTGCACTCCAGCCTGGGTGACAGAGCGAGACTGTCTCAATAAATATATATAGCTGAGTTGGAACCCACTCTGTCCAGCCCTCTTGAGCCTGTGCCCTT
Y
CTCACTGGCTCACACTGCCCTGCTCTGTATCCAGGCTGTGTAGTTATGCATTTAGAGCCCTGGTTCCTGGAAGGCAGGGCTTCAGCCAAGCAACGGGTTA
Celera SNP ID:            hCV7476002
SNP Position Genomic:     15032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44579):
CTTATCTCCTCCACACTGGGAGTTTACAGGGGCCTGAGTTCCAGGAATTTTTGCTGACAAAGCTGATCAATGCTGAATATGCCTGCTACAAGGCAGAGAA
R
TTTGCCAAACTGGAGGTGAGGATGGGCTGTGAGGGCTGGGTGACCCTCTTCTCACCTTCCAACCTATAACTTCAGCCCTGTCCCTGGGAAGGGAAAAGCC
Celera SNP ID:            hCV25934901
SNP Position Genomic:     66443
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44580):
GATGGGCTTGGGCGGCGACGAGGACAAGATGGAGAATGGCAGTGGGGGCGGCGGCTTCTTTGAGTCTTTCAAGGTGAAGGGCCCCAGGTCTAACTGGCCG
S
GGAGCAGGGACGTGGCTAGGGCGGAATCCCGGGCTGAGGCTGATAGACTGATGGACACGGCGTGGGGGTGGAGTCTGGCAGAAGGGGCGTGGCTGAGGGG
Celera SNP ID:            hCV27489764
SNP Position Genomic:     67123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44581):
GGCACACTCCAGGGACAGAAAGAAGGGTGGCTGGGAGTGGTGACGTATGCCTGGAGTCCACCTACCTGGGAGGCTGAAGCAGGAGGATGATTTTAGCCCA
K
GAGTTGGAGGCTGCAGTGAGCTATGATCATGCCTGTGAATAGCCACTGCACTCTAGCCTGGACATCATAGCAAGACTCCATTGCTTAAAAAAAAAAAAAA
Celera SNP ID:            hCV1482850
SNP Position Genomic:     74172
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44582):
CGTTCGGCTCCCGCCGCAGCAGCGCCATTGGCATCGAGAACATACAGGAGGTGCAGGAGAAGAGGTGGGTGAGTGGGGGACAGTGCCCCATTCCCCTGCA
Y
CCCCATCCCTGAGCCCCATTCGGTGGCAAAGCAAGGCAGGCAGAAGGGAGTGCCCGCCCCTCTGCCTCTCCATCCCCACTAGTGACAGCTGTGTGGTCAA
Celera SNP ID:            hCV1482851
SNP Position Genomic:     72528
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,30|T,4)   total(C,55|T,5)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   JBIC-allele(T,60|C,1407)   total(C,1407|T,60) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44583):
AGCAGCCTGTGTGTCCCAGAGAGTGAGAGAACTGAAGTGGTGTCCCCAAGGCCACCCGGCAAGTTGGTGGCAGAGCCAATACCTGAGCTACCCTTAGGCC
Y
CGTATGTACCTGCTTCTCATGTGACGCACAGGGAAATTGAGGCCTGGCCCCACCTCCCTCTGTTGCCCTGCTGGCCACATGCCCAGGGGAAGGGATTTCC
Celera SNP ID:            hCV1482852
SNP Position Genomic:     68886
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44584):
GGACGTGTCCTGTTCTGGGAGGATGATGTGGGTTTACAGAGGAGCCGAGGAGTGAGTTGGGAGTTAGAGTGGAGTAGGGGTGGGCTTGGCATGGCAGGAC
Y
GGGGCTCACAGCAAAACTCAGGAGCGATGAACTTAAGCTTTGGAATCCAACAGACCTGGGGTCAAATCCCAAGCCTGCATGTGCTTGCAAGCCATTGACC
Celera SNP ID:            hCV1482853
SNP Position Genomic:     62904
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,30|T,4)   total(C,63|T,7)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44585):
AGCAGTGTGAGGTGGTGTGGTCCAGGAAAGGTATCCTGAAGGGGCTTCAGAAATCAGGGCCCCCCTCCTGCTTATGGGAGAGGAAACTGAGGCCTAAGGT
R
AGGAGGAGAACTTGCTCAATGCCCACAGCAAATTGGTGGGACGTGTCCTGTTCTGGGAGGATGATGTGGGTTTACAGAGGAGCCGAGGAGTGAGTTGGGA
Celera SNP ID:            hCV1482854
SNP Position Genomic:     62765
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44586):
AGCCACTGCAGTCGCCCACAACCAAGGTGAAGCTCGAGTGCAACCCCACAGCCCGCATCTACCGGAAGCACTTTCTCGGCAAGGTGGGTGGCCGGCTGGT
K
CAGCGGGGCTGGCTGGGGTGGGTCACAGTTCAGCCCCATTCGAGGTGGGCCTGGGAGGGAGCAGAACCCATGGGCCAGGGCTGGGTGACAGTCCTAGAGC
Celera SNP ID:            hCV15878641
SNP Position Genomic:     58026
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,37|T,1)   total(G,70|T,2)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;JBIC-allele(T,632|G,869)   total(G,869|T,632)
SNP Type:                 INTRON


Context             (SEQ ID NO:44587):
ACTTCTGAGGTGACCCCAGCAGAGGGTGGGGTGGGGTGGGAGGCCAGAGGCTACCCTTCCATATGGGGTCTTGCTAGCTGTCAGGTGATGAGAGGAGCCT
R
GGCTAGGCCCTGAGCTTCCTGGCCAGCCAACACGGGCAGCTCACAGGCTGGGTCCTGTTCTATGACCTTGGGCAAGTCCTGGCTTCTCTGACCTCACTGT
Celera SNP ID:            hCV11545674
SNP Position Genomic:     24553
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44588):
TTTTTTGTTTTTGTTTTTGTTTTTTGAGACAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCCGCCTCC
Y
GGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAGGCGCGTGGCACTACTCTCAGCTAATTTTTGTATTTTTAGCAGAGATGGGG
Celera SNP ID:            hCV11550352
SNP Position Genomic:     43705
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44589):
TATCTGGAGCCTCACACCTTTTCCAGGGCAGCACACCGGCCAAGGGACTCAGGAGCCCAGGGGCTGCCAGAGGTCCTCCCTCCGGCCCTCTCTGGGTCCA
M
GTAGGGACAGAGGGCAGGGGCTTCTCAGGAACTCCAGCTCAATGACCTTGGCCCCTCATCCCCAGACCTCCGAGGAAGAACTCTTCAGCACCAATGAGGA
Celera SNP ID:            hCV15878642
SNP Position Genomic:     63426
SNP Source:               Applera
Population(Allele,Count): african american(A,16|C,2)   caucasian(A,14|C,4)   total(A,30|C,6)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|A,11)      total(A,11|C,3) ;no_pop(C,-|A,-)   ;JBIC-allele(C,211|A,1288)   total(A,1288|C,211)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44590):
GCCTGCCGGTAACTATTTCTATGGACCTCTCTTTAGTCCCCACCCTCCCACTCCAGACTCTCCCCATGTCAGTGTACCCTGCAATATGCAGGAACCTGTG
Y
GTAGGGATGTTCCTTTGCTCACAACCCTTCAGTGACTCCCAACCTTCATTCATTCATTCAGTCATTCAACAAATAGTGAAACTTGGGGAGCCAGAGTTTA
Celera SNP ID:            hCV11550357
SNP Position Genomic:     47140
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44591):
ATCCTGTGCCTCCTCCACTGCCACCCCCTTCACAGCGGGTCATCCGGAGCCGCAGCCAGTCCATGGATGCCATGGGGCTGAGCAACAAGAAGCCCAACAC
Y
GTGTCCACCAGCCACAGCGGGAGCTTCGCGCCCAACAACCCCGACCTGGCCAAGGCGGCTGGAATAGTGAGTGCCCTCCCCCTCCCCAGGCCCCTGCCCC
Celera SNP ID:            hCV15878649
SNP Position Genomic:     69168
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(T,259|C,1232)   total(C,1232|T,259)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44592):
AATACAGTGTCAGCCACACAGTGGGTGCTCAATACTGAATGAATGGGGGAAGGAATGAAAGACCGTACACCTGGGTGCTGCCTCCAGAAGGGCTTTGCTT
Y
CAGGGCCTTTCAAGCCACATGATCTGCATGGAGATGAGAAACACATCCTCAGGGGTAGGGCCTGAGTGGGGGCAGGTATTCTGGCCAGGCCAGATTTTCC
Celera SNP ID:            hCV7476013
SNP Position Genomic:     18450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44593):
GGCCCCTCTCAAGGGCCCACTGTCCCAGTACCAGTGGGGCCTCCCGGGGGCCAGGCCTGGCTGGGAAACTTGCCACGTTGGCGGCCCCTTGGCTACTCTG
Y
CAACTGGGCATGCAGAAACCACTCAGGAATCATTCCCACTGAAAAGACTGGCGAGGTATAGGTCCATGTCGAAGGGGATGCAGCAGCCCAGATGTGGCTG
Celera SNP ID:            hCV7476014
SNP Position Genomic:     21432
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44594):
CATGTCGAAGGGGATGCAGCAGCCCAGATGTGGCTGGAGTCCAGGCCCCAGCCCAAGCACTGTGCACATCCTCATAGCCCAGGCCTAGCTCTTCAGTCCT
S
TGCCCCAACCGCCTCCCACCTCTCTGAGAGGCCCTGCTGCTGCTGCTGCTACTACTTAGGAAGGAGGGAGGGAGGAAGGGAGGGAGGAAGGTTGTTGCTG
Celera SNP ID:            hCV7476015
SNP Position Genomic:     21597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44595):
GAAAGGGCTGGAGCAGAACCCTGGGGCCCACACAGGCTCTGGCCTGTCCCCTCATACCCCTTAGCCACGACAGAAGCGGCTCCAGGTCTGAGTTGGGAGG
S
TGTCCTGGGGCGCCCAGTGGGGTACAGTGTGGGGTGGCTCTCAGCTGAGTCCCTCTTCAGGTCTTGGGGCGAGAAGGACCCTTCCCCCTCATCCTGCTGC
Celera SNP ID:            hCV12008654
SNP Position Genomic:     57762
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,28)   caucasian(C,1|G,29)   total(C,3|G,57)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,87|C,1416)   total(G,87|C,1416)   (G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44596):
CCTCGAGTGCAGCAGGCTCTGAAGAAGTGCAGACTGGAGGGTCAGAAGAGGCAGCTGGGCGCCGTGGCTTATACCTGTAATCCCAGCACTTTGGGAGGCC
R
AGGTGGGCAGATCACTTGAGGTCAGAAGTTCAAGACCAGCCTGAGCAACATGGCAGAACCCCATCTCTAACAAAAATACAAAAATTAGCCAGGTGTGGTG
Celera SNP ID:            hCV12008656
SNP Position Genomic:     59665
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44597):
CACGCCATCACTCTGTGAGCTAAGAGCTAGTATCATCTCCATTTTCCAGATTGGAAACTAAGGCTGACGGTCACAGCTCAAGACTGAGTCGGGGCTGGGT
R
CAGTGGCTCTTGCCTGTAATCCTGGCACTTTGGGAGGCTGAGGCGGGAGGACCACTTGAGGTTGGGAGTTGAAGACCAGCCTGGCCAAAATGGTGAAACC
Celera SNP ID:            hCV11545688
SNP Position Genomic:     14699
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44598):
GCCAACACGGGCAGCTCACAGGCTGGGTCCTGTTCTATGACCTTGGGCAAGTCCTGGCTTCTCTGACCTCACTGTCTGCAGAGTCGGCCTTCCCCATCAG
S
TGTCCCTGGGAGCCCCCAGCCCTGCCCTGCGGAGGACGTCCTCTTGCTGGCAGAGTTGGGCTGGGCTCCCTCCTCATCCCCTTCTTACCTCTGGGCAGGA
Celera SNP ID:            hCV7476023
SNP Position Genomic:     24679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44599):
CGTCCTGGGGCTGGATCTGGGTGGATTTGGGGGAGACAAAGTCTGGGGTACCCCTGAAGTCTTAGGGAGCAGGGTACGTGTGTTGGGGTGAGGGTGGGGG
R
AAGCTCCTCCTAGATCTCCTCCCAGATTCGCAGACATTTGCTTCCTGGGTGGATATGAGTGAACAGCTTCAGGATTGAGGCAGGCTACGGGCCTTGGGGG
Celera SNP ID:            hCV7476024
SNP Position Genomic:     24993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44600):
CTCCCATCTGGCACCATCGTCCCCGCAGAGCCCTCCTGGGAAGCCAGGCCTGGGGTGGGAGGCACACAGGGTGCCTCAGCTAAGCTCCCAGCCTGCCTTT
M
TATTTCCCTTTGATGCTCTCCATGCAACCTCAGGCTGCTTCCTCTCCCTTTCTGGGCATCATCTCCTGCTGCTGTGCCTAGTCCATTTGAGCCCCTCCTT
Celera SNP ID:            hCV7476025
SNP Position Genomic:     26485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44601):
CTGTCTCTCTCTCCAATGCCTCCTATTTCTCTGTCTTTCTGTCTCGTCTCTGCCTCTCCCTCCCCCTCTCTCCCTCAACACATATCTGTGTAGATAACAG
Y
CCCCCCACCCGCCAGCTCGCACACCGGCATGTGCACCTCCCCTGCCCCCACTCCCAGCGGCACGTGCGTTCCCGCAGAGTCCCCAGCCCTCCCTGAGGCT
Celera SNP ID:            hCV1944441
SNP Position Genomic:     55938
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44602):
TGCTCAATGCCCACAGCAAATTGGTGGGACGTGTCCTGTTCTGGGAGGATGATGTGGGTTTACAGAGGAGCCGAGGAGTGAGTTGGGAGTTAGAGTGGAG
K
AGGGGTGGGCTTGGCATGGCAGGACCGGGGCTCACAGCAAAACTCAGGAGCGATGAACTTAAGCTTTGGAATCCAACAGACCTGGGGTCAAATCCCAAGC
Celera SNP ID:            hCV25936020
SNP Position Genomic:     62878
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,20)   caucasian(G,2|T,18)   total(G,4|T,38)
SNP Type:                 INTRON


Context             (SEQ ID NO:44603):
GGGAGGTATTACCCCTCCACCCTCCACCCCACAGCCCCGTCTGCGTTTCACATAGGTATGCATGGGAGGTGGGCCGGGGGTGCTGGGATGGGAGTGCCTT
R
AATACCCTCTGATCTTCGATGCCTCCTGTTTCTCTTTCTGTCTCTCTCTCCAATGCCTCCTATTTCTCTGTCTTTCTGTCTCGTCTCTGCCTCTCCCTCC
Celera SNP ID:            hCV1944442
SNP Position Genomic:     55800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44604):
AGATGCAGGTGAGGATGGCTCTGTGGCCTGTTCTGGGGAGCCACAGAGCTGGCTGGGCTGGGGCTGGGGGGCCCTTGCTGCATCTCCAGCCCTTCACCTC
Y
CTGAGGACAGGCCACGCCAGTAGAAGATGGTGGCTATTGGTTGTCCAGGGTCCTCTGTCTGGAGGTCAGGGTAGAGGATGCCCAACCCCATCTCTGATGC
Celera SNP ID:            hCV1944443
SNP Position Genomic:     55392
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,25)   caucasian(C,5|T,33)   total(C,18|T,58)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44605):
GGAGGCTCTGGGGGCTTCCCAGGCCCAGCCCCCAGCCGGGCCAGCCGGCAGGGATGCCGCCTTCCAGGAAGGCTCGCAGGGAGTTGGCGCTGGAGAGGCC
R
GGGCTGCCAAGCGCAGCTGGCAGACACCGGATTAACTCTGCGTGTGCCCTGGCTCACCCGGGAGAGGGTAGCTCGAGTGTGCGAGGGTTCAGGTGGCTCA
Celera SNP ID:            hCV1944444
SNP Position Genomic:     54656
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,8)      total(G,8|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44606):
AGCACATGTGTCAGCAGGAGCCGCCTGAGCTGAGCCTTGGAGGGGCAGGGGGAGGGTCACCATCCTGGAGGCTCTGGGGGCTTCCCAGGCCCAGCCCCCA
R
CCGGGCCAGCCGGCAGGGATGCCGCCTTCCAGGAAGGCTCGCAGGGAGTTGGCGCTGGAGAGGCCGGGGCTGCCAAGCGCAGCTGGCAGACACCGGATTA
Celera SNP ID:            hCV1944445
SNP Position Genomic:     54590
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,15)   total(G,15|A,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44607):
ATAGCACATGTGTCAGCAGGAGCCGCCTGAGCTGAGCCTTGGAGGGGCAGGGGGAGGGTCACCATCCTGGAGGCTCTGGGGGCTTCCCAGGCCCAGCCCC
S
AGCCGGGCCAGCCGGCAGGGATGCCGCCTTCCAGGAAGGCTCGCAGGGAGTTGGCGCTGGAGAGGCCGGGGCTGCCAAGCGCAGCTGGCAGACACCGGAT
Celera SNP ID:            hCV1944446
SNP Position Genomic:     54588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,8|C,9)      total(G,8|C,9) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44608):
ACTCAAGCCCAGGAGGCACTTACACAGGGCTTCTGGATACCAGGTCCTCCTCCTTAGGAGCCTGACCTGCAGGCCTTGCTGCGGGCTGGAGACTTAATTT
R
CAGGCCCAAGGCCTCAGAGCCCATTTGAACCCTTAGGCCTTCTGAGCCAAATGTTCCAGCCTCCTGGGCCAAGGTCATGCTCCAGCTCTACCTGCCCCCA
Celera SNP ID:            hCV25938638
SNP Position Genomic:     57511
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:44609):
ATATGGGCTTGTGACCCTTCCCAGAGCTCTGTGTGTGTGTGCGGGTGAGGGCTGTGTGAGGTTTAGACCGTGGCCCTCATCCTTGGGGATTAGCTACCCC
K
GCAGTTGCTGGATACCTTTTGAGTCTCATTTACTGTTGTTATGTGACCCTGCCGGGGCAGGCAGGGCTTGTAGCCATGAGTGGGGCTGCATCTGGGTCTC
Celera SNP ID:            hCV1944448
SNP Position Genomic:     53955
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|G,12)      total(G,12|T,7) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44610):
CTTGGCTGGAGGCCTAATGGAGAGCTTGGGGAGAGACCCTGTCCACGTCTCTGATCTCCGGGGAAGGAGAAGCCTGTGTGGTAGCCCTGCTAATGAAGCC
Y
CTCCTCTCCCTCCTCTTGGGGAACCCATGACCCTCTCCTCCGTGAAGTCTATCCTCCCTCACATCCCCCAGCTCTGAGAGTGACTCTCCCAGAGTTCCCA
Celera SNP ID:            hCV7476100
SNP Position Genomic:     48766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44611):
GCAGTCACAAACGTTGAACCTAGGTCTGTAGACTGTGGCAGGGAGGGGCTTAGGGCGAATCTAAGCAAAACAGCTGGGAATAAACCAGCCCCCCAGCTAT
Y
TTCATCATCTCCACAATCAACGTCACCATCAGTCTCCTTATCTGTAAACCAGGTGCAATGAGAGGACCCACTTCACAGGGTCATTGTGAAGATTGCTGCA
Celera SNP ID:            hCV7476101
SNP Position Genomic:     49284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44612):
GTTCGGAGCAGCTTCTCCTGGTCTGGGGAGGGGGCTCTGGAAGACTGAATACAGACATAGCACCTGAAATGTGATCCAAGCGGACGGGAAGGGGGTAACA
S
GCAGGGGGCACAGCGTGTGCAGTGGCCTGGAGGTGGGAAGGAGCACCTCGGGTTTGAGGAGCGGAAAGGAGTCTGGAGAAGGAGGAAAGAAGCCCTGGAT
Celera SNP ID:            hCV7476032
SNP Position Genomic:     35128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44613):
CTGGGGAGGGGGCTCTGGAAGACTGAATACAGACATAGCACCTGAAATGTGATCCAAGCGGACGGGAAGGGGGTAACAGGCAGGGGGCACAGCGTGTGCA
S
TGGCCTGGAGGTGGGAAGGAGCACCTCGGGTTTGAGGAGCGGAAAGGAGTCTGGAGAAGGAGGAAAGAAGCCCTGGATGAGGCCAGAGACAGTGGGCGGG
Celera SNP ID:            hCV7476033
SNP Position Genomic:     35150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44614):
CGTGTGCAGTGGCCTGGAGGTGGGAAGGAGCACCTCGGGTTTGAGGAGCGGAAAGGAGTCTGGAGAAGGAGGAAAGAAGCCCTGGATGAGGCCAGAGACA
S
TGGGCGGGTGGGAGGGGGGCCGGGGATGGGGAGCAGACACGCAGGGCCTCGTGGGCCACGTGAGGCGGGCGTCTGGATCCTGCTTGCGGCGGGAAGCCAT
Celera SNP ID:            hCV7476034
SNP Position Genomic:     35242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44615):
CAGTATTTCATCTCATCCTTGGACTATGTGATAGCTACTATAATCAGTCCCATTTTGCAGATGAGAAAATTGAGGCTCAGAGAGGTTCAGTCACTTGCCC
R
AAGTCACTCAGGTTGGATGTGGTGGGGCCACGACCGGATGCAAGCTGTCTGACCAGAGGGCCTGGTGTTAGGGCCTCTCTGATGCAGGGGTGACAAGCTC
Celera SNP ID:            hCV7476109
SNP Position Genomic:     49782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 223
Celera Gene:                 hCG37601 - 208000030292564
Gene Symbol:                 NR3C1
Protein Name:                nuclear receptor subfamily 3, group C, member 1 (glucocorticoid receptor);GCR;GR;GRL
Celera Genomic Axis:         GA_x5YUV32VUFE(32500686..32639120)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12383):
TCCTTTGTAGCACTTTGGAGTTTGATATGAAGTATCTTCTTATCTTGTTAAGGGATCCCTATACCAAGAATGTTTTCATCTCAACCCCACTATTTCTAAG
TTAGCTTAAAAACAAAACAAAACCCTGTGTGCTCTAATAAGAAGATATAAGAACCAAAATGGAAATGCAGGTTCTCAAATGAGCTGAAAGATTCCACATA
GCAGCGGGGCAGATTGAAACACTCTTTACCAAAGGAACATGGGAGAGAAAAGGAGATTAAATCAAGAAAGGAAGAAAGCTAATGACATATGAGGAGCCAC
AAATGCCACAAATGAAAAAACAAAGTACGTAATACTTGTTGCAATTATTCAGTGTGCTTGCTCTAATGCCTCCAAACATTAAAAACATTGAGTTCCTGCT
TATGGCAACATTTATCTCATTTATCTGCTGATAGCTGCCTCATCCTTGAATCAGGTATTGCTTAAACTAAGTTCTGCCAGCATAAAGAATAAAGTCAACC
AGGACACCCATTGGGCATTTCACGCATATGAGCACAAATTGTGATATTTTAGGTTGCTTATGATGAAATCATTGAAAGCATCATGAAAGACAGCAAAACA
GCAGGAAAGCTAGTAATAATTTAGCATTTCCCAGTCCAGGCGGGAATGTTAATTCTAATTACAACGAGGAATACCAAAGTGGAGTTCATTATGATTAAGA
ACTTGCTGTACTAGTGTGAATTGTTTATAATAGGCATGTCTGGCATAAAATACAAATATTGAAGCAGACAGAGATGGCTCATTCAAAGCTCAGCTGGGTT
CCCTTGAACCTCTTACCTTATAAAGTTAAATAGGAATAGAAGTATTTTCCAAAGTCAAGATATTATTTTAAAGAGACAAATAATAGCTATGATAGCTGCA
GGAATAATTTTTTAAAGTAAGTTCTAACCACCAATAAAAGCTGTTTGTGTGGGCTTAACATGTTCAAAATACACAATACACATGTACACAATACACGTAT
ACATGGTTCCCATTTATATTTAACATCACACATTTAAAGTGAGAGAGTACAGAAAAAAAGAATAAATGGAAACTGAAGCCATGACAAAGAATCACGGACT
ATAGGAAAATAAGTCACAAAGAAGTATGCTTATGTAAGAGGAAATATATGTGATAAACAACAGGAGACATGGGAATGAATGTGGTGTCTTATGTCCTTTC
TTTAACAGAATCGTGTAACAGACACTACTCAATATCGATCTCAACTGATCCAGTTCTCCAGTCTCCCTGGAAAACAATGGATTGATGCCCAGGGTGCGCT
GAACACTGGAACCATGGTCACTTCTGCACTTCACACGATTCTGCTCCCACCAGTTGAGCTACCAACAGTTCCTGGTGCTTTTGCTTCCCAAACATGTTTA
TGCCATTTGTTGCTTATTACTGTACTTACTTAATTTGATTAAATATTAAGTAAAATGATGAAATGAGTGTAAAAAATTGTTCTATAAAATCTAAATGGAA
AGATGCCCTATAGCCTTCCTTGACTTACAGTTGCGTCAAGTAAGGTGGATGTAAGACAATTTTAAAAGACTGGTGTGGGGGCAGGAGTGAGGAATCATAA
AAATTTAGAAATCTGCACGAAAATTATTCTAAAAGTACACATTGAACATCCCTAACTTGAAAATCTGAATTTTGAAGTGCTCCAAAATCCAAAACTTTTT
GAGCATTGTTATGATACCACAAATGAAAAATCCTACATGGAAGTACTTACCACAAACTTTGCTTCATGCCCCAAATTATTTTAAATATTGTATAAAATTA
TCTTCAGGCTATAAGGTGTATATGAAACAAAAAATGAATTTCCTATTTAGACTTGGGTCCCATGGCCGAGATATCTCATTATAATGCAAATATTCCAAAA
TCAGAAAAAAAAAAATCCAAAATCTAAAACACTTTCAGTATTAAGCATTTCAGGTCATGGATACTGAATGTGTATCTTTAATTTCTTGTTCTACTTTGTT
TAAAAAAAAGGGGGAAAATAGTAATTCTACAGATGAATAATAATTGCTAATGATGAGCAAATACTTCCTATGACCCAGGAATTCGTCTAAGCACTTCACA
TATATCAAACTGGTTTAATCTTTATAAATCAGTACTATTATTATCCCCATTTTACAGATGATGGAAAAAGGCACAGAGAGTTAGCCTGCCCAAGGTTACA
TTCCTTTTAGTGGTGGAGACTGTATTTGGCCTTTATAGTCTGGCTTTTAACTGCTACACTATATCAATGCATTACAGGTATAGTTTATACACACACTAAA
GAAGACATGGAACTCCAGTCAGTGGGCTCATAAAAGCTTTAGACCTTCATCAAAAGATTAGAAAATAAATGTTCAATCACAGGTTTTAGGTTTCAAAAGT
TTCAAAAGTTTAAAGTTTGCAAGTTATCTTTCTTAAAATTATTTCCTTCTTTTAACTAATTTTTAAATTAAACTCCAGTTCAATCACATCCACTAGAAGG
CTTCACTTTCTACAAAGGGGTAGGTAAAGGTGATGATCTTAAATACCATACTGGGAGTTGGGATCTGTGTAGCACTAGAATCAAGAGTTATTGTATATAC
TTGAGAAGGAGCACAGCCTGATTTAGTTGATGTTTTGGAGGGGTAATCTGGCAGTACAGCTTGGATTATTTTAGTGGGAATGGAGATGACAAAACATGAA
GAGAATGGGAGAACTCACTTGGGTAATATATCAGTTTCTGAAATCAATGTATCAAGTGGTTTGGTTATTAGTCAGGCTTAAGGTTTTATTGGCCTTAGGA
CATAGTCTCTAAGACCATATATTATCTTCATTCATTCATTTAACCAACACCCACTGAGCACCAACTATGCACTAGTGATACAGGGGTGAACAAACAGACA
CAGTCCCTGCCTTTGCAGAACTTATGTTCTGGTGGGTGATACAGAGAAATAACAAATGAGGGCACAAATAATGAACTATCATTGTAATGTGCTAACAAAG
TATGCAGAATACTATAAGAACATACAATCAAGAATCTAATCTAGTTTATTTTAAAAAAAAGTGGGGGGAGCACTCAGATGTTTAAACACAAAACAATAAA
AATGAGGATCTTGAGGGTTATCTGTACACTTTTTATTAACCCATTTGGCCACAACAATAACCCAGTAAAAGTGATTTTACATCTAGTTAACTAGTTGACT
CAATGTTATTATAACCCTGTAATGTATTTGTTGGGTGCCTGCTATGTAGTGGGCTGTGTTCCAGGAGTGGGACATAAAGCTATGACAAGATAGATCAGGT
CCTTGCCTTGACTGAGTCTGAATACATCACCTTCATTTCCACCTCTGCTTCTAAGACAATCAAATACCTTCCCACTCAGATAGGGATTCATCCTATTTCT
TGTAGTAATTATAAGTTCCCAGGGTTACAGATTAGTAAATGCCATACCTAAAGACTTAGGATACTGTGCATAAAACACTTTCAATAGTGTCTGTCAGACA
GCAGATGCGCAATAAATGTTGACTTTCGTTAGAATTGTGTTATTATTATAATGCTAAATCTCACGTCCTTTCTGGCACACTGGAGTTCATCTCTTCAATT
AAATTCCGTAAGCACATATTGTAAGTAGTCTATCAGAATTGATATACTACTTCATGTTAATGATTGAGATCAGTGAGGAAAACCACTTTAATATTGTCTA
ATTCCTCTCTTAATGCATAGGAGCCATGTGAACTTAGACAAGCATCAACCTCTGTAAGCCTGTTGTCCTCATATTGAAAAATCGAATAACAATACCTATC
TCATTTAATTGTTGTCAGCAAAAGTGGGCAGCAGAAGAGTGGGGATCAATAAATGTTAGCCACAAATCATAACTATTTGTATTACTCTGAAAAAGAGGGG
TTAACTTATAGTTCATGCATGCTTCCAAATGAATGTGAAAGACTAAAGAATGAGAATTTTTTTGCTATCAAATTAAAAAATTAACAGGCACATTTAGATT
GCTGAAGAGAGAAATTAGGATAAGTTTTTTTTTTTTTTTGCTCAATTAAAAACGTTTTCAATGGCATATTTAAAACTACGTATTCTTCCCCATTAAGATC
TGCAGAGAAAAAAAAATGAAGGGAGAATAATTGGGAACTCTTGTGAAATCATAAATTATTTAAGCAGAGTACCTACCACTAAGGATTTGAGCATGTATGA
GCGATGAGGTGGATTCTTAGAGCAGAGATTCAGCAGTGAGACAGGCTAATGGCATGGGGAGATGTGTTCTATTAGACAACTGTATTGTCCCCTTAATTAT
ATACATATATATGTATATAATATATATGTGTATACATATGTATACATACATGTATATATAAATAGAATTCTTAATCATTTTAAGCAGTGTACAAGGATAA
TTATTAGCATGGGCTATTTAACTCACTTTTAAAACGTGTAAAACATTATTGTAGGGTTGGGTCTTGATTTGTTTCCCATGAAACTGTTGGTAGTTTAGGG
GCCAAATTAACGAAAGACATCTCATTCTAGTGCTTGAGGCTCAGAAATTGGAAAAACGGGCAACTAGGTCAAGCAGTGTTCTCATAGCCTCACAGATGAG
CATCCAAAGCAAGGGCCTCCTTCTAGTTGACTTGTGCCAAGGGACAGGAGAAGCGGAGTCTGCCTTCTGGGTCCAGAAGGGGGTTTTGTTAACATGGAGT
TGCTCAGCGCCCTTCATAAAAATTCTTCTGGCTGAGGGTTCTACGTTGGCATACGGTTGGTTCCCTCTTCTTTTCCGAGGTGGCGAGTATCTCTTCCTTT
GCCAAGATGGCGGCTCCAGAATCCTCTGGAGGCGGCCCCCGTAGATCGTCTCCGGACAAGAGGCTTGCTGAAAGCCTACTTCTTTCCTTTCACATCAGAC
AATGCACAGGGAACCGTTTACCCTTGAGAACCAAGGAAGGACGGCTTAGGCTACCCGCGATCGCGAACCTTTGCCAAGATGGTGGCCGCGGGGACGGGCT
GGCGACACTGTACCCTACCAAGATGGCGGCGGGCGGCTTCCGGGACGCGCTTCCCCAATCGTCTTCAAGATGTCAGAGCAGGGGGAGCCGCCGTCAGTCT
GAGCGCGGCGGGAGGTGAGAGAGTGGCTGTGGCCGAGCGCCCGAGCAGGATTAGGTGGAGCTGCGGCAGCCCCCGCCCGTGTCAGGAGCTGGCAAGCGAT
GTCACCTGTGGGGGCGCAAAAGTTACCTCCCCAAACCCTAAACCCACACAGCACAACCTTTCCCAGAGTCACAAAAATCATAATCTGTGCCGCACAAGGT
AGGAGGCTCGGTCCCGGCATCGTCCAAGCCTTCCCGACGCGGCGAGCTGGGGAAGGGAGCTGGGGCGGGGGCTTCCCGCACGGGCACCCCTCGCCCCACG
GCCCTCTCCTTTCTCAGGACGGACCACGAGTTCCCTTCCCCTTGGACTGAGGGGRAAGCTCCTAACAGGAACATCTGTAGGGAGTTGAACGCTGGCATTT
TAAAGCTGCCTGTATTTTGTTTTATTTGTAGGGGCAGGGGTCCTATGAACGTGATAGGGTGAGCAACGCACAGAGTCGAGGGCAGCAAATGTCAAGATTC
GGGGGTGGGGCCTGCACCGGGAACTTGGACGCGGGCCCTGGCCGGGGTGGAAGAAGAGGTCAGGAGTTTCGGAAGGGGGGCTATATTTCGCCAGCAACTT
ACTATTTCGCCTGCAACTTGCTTTTAAGCCTGCCGCCCCCTGCTTTCCTTAATCATAATAATAAAAAAAAAGTGCAAAGAAATCCAGCTCGCTGGAGGTT
TTGCATTTGGCGTGCAACTTCCTTCGAGTGTGAGCACATTGGGCGGGAGGGGTGGGGGTTGAACTTGGCAGGCGGCGCCTCCTTCTGCCGCCGCCGCCGC
CTCGCAGACTCGGGGAAGAGGGTGGGGGACGGTCGGGGCGCGGGGGAGGGTGGGTTCTGCTTTGCAACTTCTCTCCCAGTGCGAGAGCGCGGCGGCGGCA
GCTGAAGACCCGGCCGCCCAGATGATGCGGTGGTGGGGGACCTGCCGGCACGCGACTCCCCCCGGGCCCAAAGTACGTATGCGCCGACCCCCGCTATCCC
GTCCCTTCCCTGAAGCCTCCCCAGAGGGCGTGTCAGGCCGCCCGGCCCCGAGCGCGGCCGAGACGCTGCGGCACCGTTTCCGTGCAACCCCGTAGCCCCT
TTCGAAGTGACACACTTCACGCAACTCGGCCCGGCGGCGGCGGCGCGGGCCACTCACGCAGCTCAGCCGCGGGAGGCGCCCCGGCTCTTGTGGCCCGCCC
GCTGTCACCCGCAGGGGCACTGGCGGCGCTTGCCGCCAAGGGGCAGAGCGAGCTCCCGAGTGGGTCTGGAGCCGCGGAGCTGGGCGGGGGCGGGAAGGAG
GTAGCGAGAAAAGAAACTGGAGAAACTCGGTGGCCCTCTTAACGCCGCCCCAGAGAGACCAGGTCGGCCCCCGCCGCTGCCGCCGCCACCCTTTTTCCTG
GGGAGTTGGGGGCGGGGGGCGAAGCGCGGCGCACCGGGCGGGGCGGCCACGCCAGGGGACGCGGGCGTGCAGGCGCCGTCGGGGCCGGGGTGGCGGGGCC
CGCGCGGAGGGCGTGGGGGCAGGGACCGCGGGCGCCCCTGCAGTTGCCAAGCGTCACCAACAGGTTGCATCGTTCCCCGCGGCCGCCGCGCGGCCCCTCG
GGCGGGGAGCGGCCGGGGGTGGAGTGGGAGCGCGTGTGTGCGAGTGTGTGCGCGCCGTGGCGCCGCCTCCACCCGCTCCCCGCTCGGTCCCGCTCGCTCG
CCCAGGCCGGGCTGCCCTTTCGCGTGTCCGCGCTCTCTTCCCTCCGCCGCCGCCTCCTCCATTTTGCGAGCTCGTGTCTGTGACGGGAGCCCGAGTCACC
GCCTGCCCGTCGGGGACGGATTCTGTGGGTGGAAGGAGACGCCGCAGCCGGAGCGGCCGAAGCAGCTGGGACCGGGACGGGGCACGCGCGCCCGGAACCT
CGACCCGCGGAGCCCGGCGCGGGGCGGAGGGCTGGCTTGTCAGCTGGGCAATGGGAGACTTTCTTAAATAGGGGCTCTCCCCCCACCCATGGAGAAAGGG
GCGGCTGTTTACTTCCTTTTTTTAGAAAAAAAAAATATATTTCCCTCCTGCTCCTTCTGCGTTCACAAGCTAAGTTGTTTATCTCGGCTGCGGCGGGAAC
TGCGGACGGTGGCGGGCGAGCGGCTCCTCTGCCAGAGGTAAGAAGCGAGGCGGGAGGGGGCCGGGGCGCGCTCGCTCCCCCGAGGTGCCGCTGGGACCGG
AGACAACTCGGGGGCCRCCGCGGGAGCCTACAAACTTTTATTAGCCTCGGGGAGTGGGGGTGGGGGGCTGGCAAGGGCCGGGCGACGGTGACGAAAGGGC
AGCGCGCGGGTGACAGCGCTGGCCTCTTCCTCTCCCTCCGCMGGCGTCCCCTGGCCGGGCCGAGGGGGAGGAACCTGACCTCGGACGGCGAGCGGAGCCC
TGTCGAACTGCCGGGGGCTTCGAGCCTCTCATTCCTCGCGGGAATCCTGGCCTCTTTTCTCCCCCTAGTGTCCCCTTTCCCTCCAAGGGGGTCGCCCGAC
ACCCGTTTTCGTGGTGAACGCTAAGCCGCGTCTGAATTTTACTCGCCCGAATATTTGCACGCCACCCCGGCGCGCCCGAGCGCGAGCCCGGGCTCCGGGG
AGGCCCCGGCGGCGCCTGGCTTGAGGAGGGCGTGCGGGGCGCGTGAGGGTGCACACGCGGGGGGCTGACAGCCCGCAACTTGGAGACTGCGGCCGGGGCC
GGCGTTATCTGTTAGAAGTGGGCGTGTCGGAGAGAGAACTCAACAGGTCTGGACGTACTTCTCTTTTAACCTCGCACTTTTTTCTCTTCTCCACCCCCGC
CCCGCAAGGGCTTGCTCTTTAGCGTTTGTTGTTAATTCGCGCCTGAGGTTTCTAAGTGGCCCCTTTTAGAAAAAGACCCCCTGTAACCGTAATGGTTTTG
TGCTGCGATTTTTACAAGTGCTAGTTTGACGTTTGGGGTTGCAGACTTGATAATTGCAACCTTGTAATACCACTTAAGACCCTCTGGCATGGTTCATTAG
GGCCAATTAATGTGGCTGGGTTATTTGCAACTTAAACTGGGGGATAATGTCGCTTGAGGGAGCGTTTTCGTTTTAGGAAATATTGTTTTGGTTTCGGGTT
TGAAGGCAGCTGTCAAAAAAGCGGCATGGAAATTCATTGGGCTCCATTCGATACCTCGTGTTTAGAGATCGTTATCGCCTCAGATAAACGGGGCAGAGAG
GTGGGGAGATAAGCAGTTTACCCTCAAGATTTGTAGTGGCAAGTCCACACCCCTCTCTCTACCTTCATATTCACTTTTCAGTGAGGGCCAGTGACATTTA
TGCTGCCTAACGTCATCGCATAGGAAAAGTTACCTTTTATTGGACGGGATTTGACTATAGTGTCCCAAATGCGCTTCTCCGTCTTAGCCCATCTCTTAAA
ACACCCTGATTAACGATATACTAACAGTCTTACTCTCTTGAGAATAGGCTGAGAATTGGGATAGGTGAAGGTTTGGATAGGTGAAGGCAGAGAAAATTAT
TTTGAACATTTTACTGGATACAGTTGTACCTGAATTTATATGAATGTGATTTTACGGTTCTGTGTTTTTCCATTTTTCAGTACTTCGATATTTGTTTGGA
AAGGAAAGAACTTAGAGATGTAATAGCATTTCATATTGAGGATCTCAAGCAATGTAAACAAATGTAGCTTAATCTAGATGTTTTTGTGAGTTATGATAAG
GGTCAGCTATATTTAAGTTATGTAAGCTAACAACGTAGTGAGAAACTACTACACCTTCTCTTCTGCTCTTTAAAATCTAAATTTTAGTTGGCCTATATAA
AGTGTATCTCATTTCATATATCCAAAATTTGGAGGTAGGCACATCCAGTCAGAAGTATGGGTTAAAAAGCCTTTTCCCAGCCTGTCGGAAGATAAGCAGA
TCAGCATTGTTTATTTTTCAAAGAAAACGTGCATGGTTCACCAGTTGGTTGTACTCAAAGGTTTGGATGTGTGACTAGCTGGTAGGAGGGAAATTTGGAA
GTAATTAGGGATTGAGAATTCTAGCATAGTATTTATCAAATGTTATATGTATTGGTTCTCAGAAAAGCAAACAGCCGTGATTGAAAAGAGGTAGGAATTT
TAATGATCACACTTCCTTTTTTTGAAATTAAATACTTTGACATCAACTTGAACCTTCAGAATAATCAGATGTAATGAATTATAATGTCTGTGATTAACAA
AGCTACACGTTCAGTAATCGGCAGGATGAATAGCCAAGCTTAGTTCGATACACTTTTGCCCTCAGCTGTGCAAATGGATTGCATTGTACTTTTAAATGTG
GCATGCTGAATGGGAGCAGGGGACATGGCTTTTTATTCTGGAAGATAGAAACTACTCTTCTGGTAACAAAGAATTTGATTYGGAGTTAACTAAAAGGTTC
ATTTAACAAGCTGCCTCTTACTAATCGGATCAGGAAGATAATGTGACTTTAGAGCTTATGATGTTTTCCCCCCGTTTTTGTTTTTTGTTTTGTAGTTGAT
ATTCACTGATGGACTCCAAAGAATCATTAACTCCTGGTAGAGAAGAAAACCCCAGCAGTGTGCTTGCTCAGGARARGGGAGATGTGATGGACTTCTATAA
AACCCTAAGAGGAGGAGCTACTGTGAAGGTTTCTGCGTCTTCACCCTCACTGGCTGTCGCTTCTCAATCAGACTCCAAGCAGCGAAGACTTTTGGTTGAT
KTTCCAAAAGGCTCAGTAAGCAATGCGCAGCAGCCAGATCTGTCCAAAGCAGTTTCACTCTCAATGGGACTGTATATGGGAGAGACAGAAACAAAAGTGA
TGGGAAATGACCTGGGATTCCCACAGCAGGGCCAAATCAGCCTTTCCTCGGGGGAAACAGACTTAAAGCTTTTGGAAGAAAGCATTGCAAACCTCAATAG
GTCGACCAGTGTTCCAGAGAACCCCAAGAGTTCAGCATCCACTGCTGTGTCTGCTGCCCCCACAGAGAAGGAGTTTCCAAAAACTCACTCTGATGTATCT
TCAGAACAGCAACATTTGAAGGGCCAGACTGGCACCAACGGTGGCAATGTGAAATTGTATACCACAGACCAAAGCACCTTTGACATTTTGCAGGATTTGG
AGTTTTCTTCTGGGTCCCCAGGTAAAGAGACGAATGAGAGTCCTTGGAGATCAGACCTGTTGATAGATGAAAACTGTTTGCTTTCTCCTCTGGCGGGAGA
AGACGATTCATTCCTTTTGGAAGGAAACTCGAATGAGGACTGCAAGCCTCTCATTTTACCGGACACTAAACCCAAAATTAAGGATAATGGAGATCTGGTT
TTGTCAAGCCCYAGTAATGTAACACTGCCCCAAGTGAAAACAGAAAAAGAAGATTTCATCGAACTCTGCACCCCTGGGGTAATTAARCAAGAGAAACTGG
GCACAGTTTACTGTCAGGCAAGCTTTCCTGGAGCAAATATAATTGGTAATAAAATGTCTGCCATTTCTGTTCATGGTGTGAGTACCTCTGGAGGACAGAT
GTACCACTATGACATGAATACAGCATCCCTTTCTCAACAGCAGGATCAGAAGCCTATTTTTAATGTCATTCCACCAATTCCCGTTGGTTCCGAAARTTGG
ARTAGGTGCCAAGGATCTGGAGATGACAACTTGACTTCTCTGGGGACTCTGAACTTCCCTGGTCGAACAGTTTTTTCTAATGGCTATTCAAGGTAAGATC
AGTGTTTTTCTGTTTCTTAAGAATGGTACATTTAAGGTAGATTAATAGATGTAAATCTTCATTGATTTATATGTGTTCTCTAAAGATTCATGTGCTTTTT
TATATGAATAAGTTTAAGTGGCCTTTTGAAAGTAGGAAAGGTAGACAACCTAAGTGACATCTGTACGTAACCATTTCAGGTTTTTTCCTTAAATAGTGGT
TTTCAGTATCCCATTGGCCAACGGTGAGGATTTTATTTAACATTTTTAAAATAATGTTGCTCATTAACAGATATCTTAACGAAAAATTATATAAATTCAG
GAGAGTATAATGTCTCATAATATCATATTGTGTTGTGCATGGTCATTCAGCTGTTTTAGAATATGTTCTTATATTACAATAAATGATACCCTTACTTACA
TAGTCAAAAGTTGTGCTGCCTTATTTGTAAATTCGTTAAGTGTTAGCTTGAGATTAAAGAGTTAAAAGCAGAAGTACTAACAAAGAGCCCTATTCTTCAA
ACTGAATCTTCTGTTAAAGAATTTGAGTTTTGAAGTTGCTAAAGCAATGCAGTGAACAGTGTACCAGACCATAGTATTAGACACAGGTCTTGCTCACAGG
GTTCTTGCCATAAAGTAGACAAGTTATGTCTGCTGATCAATCTCTTTAAGAGAGGAATTGGTGTCAACATGGTGCAAAACAAAATTTTACGTTCAAATGT
TCCTGCAAGTTCTCAAGTAGATAACTGATGGCCAAAATTGTTAAGCTTCAATTTTCAGCTTTCGTTTGATTTTTCTCTTTTTTTTACTCAGTCGTTTATA
AGCATACTGATATTTTTGTCTGACCCAAAAAGGTCAGAAAATGGAATTATCAGAAAAAAGTTCTAAATGTAGATATACGTGTTGGTAGGGGTGAATTTCT
CTACCCCGTAACCTCATCCCCAATTCAGATAAATGCTAGGTTTTATATCCATTTTAGTTGTGAAGGAAAATATAAAAATGTGGATTGTAGTGACACAAGA
TTGATTAATCAGCGGGTTTTTTTAAAAGAAGACATGGTAGACAGTGATTTATTTGTATGTAACTATTGAAGTTTTTTCTTAAATGTTAGTGATATTCATC
GTTCCCATTAACTAGTTATTCAGATTTTTGAAAATCCTTTTTCTGTGAAAGCTATCCTAACCTGGAGGATGTCTCTTTTCTTTCCTCTGTACTTAAGAAG
CTTTTCTTGTTAGGGAAATAATTTAGAATTAGATTTAGGCTATGTTCTGTTCTTCTAAAAGGCTTAGTTGTCAAAAAAAAAAAAAAAAAACACCAAAAAA
CCTTGGTTCTTACATGTCTTAATGTGAACTACCTCCTAATCTATTGTTTAAATAATTATCCTTTATTTAGAAGAACACTACTTCAACCTGAGTTGAAGGT
TTAAAATCTTTTCAGTAAGGAGATTTGAGATCTTTATTATTGCATAAGCTGTTGTGTTTTAAATGCTAAAAGACATGCTGTGTTTTAAAATTTTCAATTG
CAAATTTTTGGCAATAGAATTCGCATACTTGGTTTTCTTAAAAGAGTTAAGTACGGTTGATTTGACTAAGCTATCTGTAGGAAACTCTTAAATTGATTTA
TAAAACATGTAATTATACAAAGAAAAATAAAACATCTTAGGAAACTCTTGGGGATTATTAATGGATTTTGCCCTGATAATCATCATGGCATGGTTTTCAT
TTTCCTTACTATAAAGAAAAGGCAAGGGACAAAACTTATTTTCCATTTGCTATGAACTTTTAAACCCTATAAAATCTGGGATATAGAGTATAAGTAGATG
AACATAGTTACTCTTAAATCACTAAAGGTGATTTTAATGCTTTAACTTTTATAGTACTTCATGACATAAAGTATCTTTACGTATTTTTAATTTGGGTCCC
ATAACCTTATGGAGGTAGTAGGCAAGGCAATGATGATGCGGCTCTTTAGAAGTTCTTTAATATCAAATGAAATTATTATTTTTATGCCAATCTGTGATTG
GGAAATATAATCAGTAGTCTGTGTCCTAACAAGAAGGTATAATACTTTATACAGGGTATTTTGTTAATATTTGAAGATTTTATACCTTATGGCATTAACT
TAGCACTGGGAACTATGATTACCCAAAACAAAGCTTCATCCAAATAAATTGAAACAGTGTTTCTTTTAAACCATCATTGAATTAGTCTATTGTTTCCAAA
CAACAGCCCTGATATAGCTAAAATTAGTTGCTTTCTCTTCTCTATATGTTACATGACTGTAGCCAAACATTTGCTATGACCAGTGACCCTGAGTGATCAG
CAAATAATCAACACATTGAGACCACAACTTGAATACTGACCTTCTGACTTTACGAAGAAAAATATTAAATGCCACTAATAACTTGAATTCCTTTTAAATT
AAAAAAAGTTATAAATTGCAATTTGACTTTTTAAAATGCCACCTAAAATTGTTTTTATCAGAATACTTAAAAAAAAATCCTCACTTTATTCTCTGGGGGT
GGGAAGAGGCAATTCCTTCCTTCCACCACRACATTGAATTATCACATAAAATTGTAAAATTATGAATATTATGATTGAGCTTAGTAAAGCATTTTCTAAG
TTCATTTATAGTAAAACAAGAGAAACCTTATTCTCAAAATCTATTCTTTAAGTAAAACAAACTAGTCATTCTAACTTAATATGCTTTTAAAAATACTGAA
GTTCAGTACATTTAGCATAAACTTATTGACGAAGGCACATTTCTGCATTATTTGATTTTCAGCCTTGTTTCATTTAAGCATTAATGACAGAGGTAGAGAA
CAGAAATGGTTTTAGGTGGTATTAGAGCTTTTATTGGGATTATGTTGAAATTTTAGTGTTAAAAAATTGTTCGTATCCTGAAGGGAGGGATTATTGGAGA
GAATGAATGATGTAGGATGAACTTGTAAATTCAGTTTTCGGCAGAGTCTAAAATTAAGTGATGATTGGCACTTAATGAAGCTACTAAAATTTATGTAGAT
TTTAATGTCTCATTAGTAATCGCATCTGTATCTGGTTTTATAAAAGTAATGAAATTGAAGACCTGTACAAATACAGAATGAATGAAGCAAATTCTGCTAA
CATCATGTTGAATGTTTTCTCAGAAAAAGAGGAAATACGAAGAGAAGAGATTTGTTTTGACTGTGATTTACCCTCACCCCCATGGATACTTTCTTTACTT
CCTACCTTTTTTCTTTTTCTTTTCCTTCTAAAGATTCTGGCAATGGGTGTTTCAGTGTTTTTTAAGCTTAATATTTCTGGTACTCATTTATGTAAAGTGA
TTTCTGAATGTTAAAGGAGATTTCTTTTTAAATATATTTTCACTTATTTTTAGCTTTATGATGAGAATCTTATTTTTTAAATCTGTAACTTGTTATGGCT
ACATGATTAGTAAAAAAAGTTTTTAAAACACACTGTGTATTCAGGTGTGTCATTTTAGTGTGAAATGACTAATGCAGAAATATGTGACTAGCATGTGGTC
AGATTTTATTGAAATTACTTACGATGTTTCTATGGCTAGTCCCCTTGTATTTTTATAATTGGTAACATAATTCATATGTTATTTTGGTCTTGTCTATTTG
TGTTACATGTATTTTAGTCTGACCACTTTTGCTACTTATTTAATGTTTATACATTTTATGAAAGACTTATTCTGAAATATACCTTGCATAAATGTAGGTT
AAATGCAAATTGTATTAATAGTGAAATGGATATGTGGGTAGAGATCACTTTAGGGGCCTTTTGAGATTTAGTGAAGGAAAGATTGGATCAAAAGGGTTTA
CTTTAATGTGACTGCCTAATGTGAAAGTCGGAACATCTGCATTAATTGGTTAGTTACATAAATCTTAGTCTACTCTGGCCTGCAGGTGACTGAAACAGCC
CAGGAAATCTTAATTTACATTAAGCTTAGACAAGGTCTGAGGCTTAGGCTTAGTTCTTAAAGCACATTCTTTTTTACTTTAATGATTATTCCTAATTTTA
ATGAGCAGTGGGTTCTCATTGTGTACTAGTACTTAGGTGGGCAAATTAAATAAGCAAAATAGGTTTGTGCTGAATAGCATTTACCCTTCTGAGGACATCC
TGGTAATATTTTCATCAAGAGTAATTGTGTAATGCAATATTTACAGGTATTTGCCAGATTAATGGGCACTTGTTTTCATATTTCTGAGTCATGGAAAATA
TACATTGATGATTCCTGTTGCATAAAGAGTTTTCAAGAAAATTTTGTTGAATTAAGCTATAACTACAAAAAAAAATCCATTACATRTTGACCTTTAGAAA
GGATTTTTAAAAGCCCATGCTGTCCTTATTTCTGCAGCTTCAGAGAGCCGACTGCTCTTATTTTCTTCTGGCATATTCTATTAATACTTGGGTTTTGTAT
TTTTCAAGTAAATAAAATATTCCTATTGAGAATTTCAATTTTAAAAAAGAAAAGGTCTACTAAGTGYTCCTTTCCCTGTTGAATTATGTGTGATCATTTC
TATGCTAAACTAGATTAGGGTGTGACTTGTGATGGTGATTTTTGTTCATTTTACATATTAAGAAAGAAATAGAATTTTATTGCAGTTCAAAATTATTTGT
AGACAGTGGTTTTAACCCCCAGACACCTAATTGTGACAGGTTGCTTTCCTTAGTGCTCAATACTGTTGTAAATGTCTCTAAATACAGAATTTCCAGTGGA
GTTCATGAATTAATTGGGGGTGGAGGGTGAAGAGGGAGGAGCAACAGAGATGTGGGATGCTATAGATAAGTTTAGGAATATCCAGATCAGTTCTGAAAAC
TAACAGTTTGGATCAACTGTCATGAATTAGAGGTTTAAGAAAAGAAAAATTTAGGACTATAGGTACAAGGGAATGCATCAATCAGAATTACAATTTAATT
TCTTTTATTTCAGGTAGAAATCTAAAACTGACCATGGCTATATAATACTAATTTTTGAGTTATGTTGTTTCTTACTATGCTTTATTATCAAAAAAGGATA
AAATGCACATTTTACTTGAAGATTATTTTAGCTAAGATTAAGTTCATATTTTTCTCATTTTTATTTAAGCTGCTGTTTAATAAATGAAAATCTAATGACT
TGAATGTAGTCGACCTAATGTCTTAATGTTGATATAATCATTTCATATATCATAGTGCCCTTTTACAGCCATTGTCAACTGACTGGAGAGCAACCCTTTT
CTTTGGTAATATATTTCTATGGGTTATGTATTTTTCTGCTGGAATATTGAGAAAATTAATTTTTCATAATATGCAGAATAAATTATGGGGTTCTGCAAGT
GCTAGACAGTCACTTAAACCATTTATATTGCAATACATTCCTTAAATTCAGTATTTTGAATGAAAGTGTGTTATCCCCGAATTTTATCACTTGTCCAATT
TAAATATTAATTACATCCCAATAGAGCTGCATGCTTAAACATGCTTTTTCAGAGTAACCCAAGTATTAATTTCGAGTGCTTTTAAATATTTTTTCTTTTT
AGCAAGTTTCAACAACATTAATCCTGTCTATAATGCAGCAAGTTCAGTGAAAGTACCTGTTGTTTTATAATTTTTTTTTCATTCTCACTGTAGGGCACCA
AAAATATATATAAGGGGAAAAAAGTTTTAATGATATGATTAGTTGTAAATGTTTACGCATTATCTTACCTTGAATTTTTATTTTTGTAACTAATAATTTG
AGAGTTCAATAAGTATGCAGTGTTTAAGACATAGTTTGTTGCAAAAAGTGTTAACTTACTATTTCTTTTTACAATAAAATTAGCCTTTATTCTAGTTGAT
TTCATAACTGTCCATAATATTTAGCTGTGGCTATTATGAAAGTATATTTGATAGCCAAATTTTGAAAGCTATTATGAAATGATACAATTCACTACATGAT
TTATTATTTCATGCTGGTTGGGGCAGTGCTGTGACTTATGACCTTATGATTGTCACATGCTGAACACTAAAGCTCTACCAGTTTGTTATGGACACTGTTT
TACTTTATGTTATCGTTTTAATGTTTTCTTTTATAATTATTGAGGATAAGAGCTTCCTTAATTTTAAGACTATTTAAATTGCAGATTTTGCTTTTTTATT
TTTTTAACCATCCCTTCCAAAGAATTTGATTTAGATATTCAGTAGTAGAAACAGAAGAAAAATACTCAACTAAAAGTCCAAAGACCTAGTTTCTAATGCT
AAGGGAGACAGTCCATGGCCTCCAACTAGGTACTTTGGAGTCAAAAATACTTTCTTTACAACTGTGTTTGAATTGTTTTCAAAACACCTGTGTGTGTGTT
TCTAAAATTCCACAATCCTTTTAACCCGTCAATTTGATGAGGGAAGTAATTAGGGTAGGGAATGGTATAACAAAGTTGGTTCTTTGACATTTTCTTTATA
GATTATCGAATGTAAGACAAATAGATGTGAATGCAGATTTGGTGTTTTTATAAGATAAGGATTTAAAATAATGTAGTTGGTGATATATAAAAATAAACTA
TTGCTGCTGTTAGCACCCGAGAGGTGGGGCTCTTGGGTTCTCAGAGCTTGTTTTCTATGTTCGTTACAGTTATTTTAGATTAGAACTTAAAAGAACTTGA
GAGTTTCCCTAATTCTACCCCCTAATTTTTTCGAATGAGAAATTGAGATCCATAGAAAGTGTTGAGGTAAAGATCACAAAACACTTAATGAGCGGTGTTG
CCAGTTTGAATATCTCAATTCTTAGTTATCTAAGTTCCCTGGTAGGCTTCTTTAATTATCTGGGTCTCTTCTAGACATCTGGAACAAATAGTTGATTGAC
ATAATACAGACTAGCCACATATTTTATAAGAGTTACTTTTGACTCATTTAGATTTTTAAAATATACAGTGTCTGTATTCTTCTCTATTCATTTTGTTAAT
TTTTTTTTACCTAATAATGATTAAGCACCAATTATGTGACAGCACTATGCTAAGCACTTTGCATGCATTCATCTCATTTAAATCTCAACTCTGTGAAAGT
TTTTATTCTAGTTACTGTATTAAGTCTCAATTCTGTCAATATCCATGAAGCACAGAAGGCAGCTGTTATTTACCTTAATTTTACAGATGTGAAAACTAAA
GGCATTTAAAGAGAAAAAGAAAAAAAAAACCAGGAAACCTTAACACTTATCTGAAGGGAAATATTTAATATTGGGTATGTTAGTTCCTCATGTATCTTTA
ATAATTTTTGTCAACAGCGAATCTTTAAATAAAATATAAAGGATCAGGCCTCTGCTCTCCTGCATATATTTGTAAAGTCACTTACTGCTTTTTGTCACAG
TTTCAATTTCTGTAAAATAGTGAGAGGGTTTTTACCTGACAGGATTTGTGCATGTACGTTTACTTTGAAAATTAAAAAGCATTAGGCCAGGCGCGGTGGC
TCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCATGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTA
CTAAAAATACAGAAAATTAGCCGGGCATGGTGGCTGGTGCCTGTAGTCCCAGCTACTCGGGAGCCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGCGGA
GCTTGCAGTGAGCCGAGGTTGCACCACTGCACTCCAGCCTGGGCGACAGAGCGAGTCTCCGTCTCAAAAAAAAGAAAAAAAAAAGAAAAGAAAATTAAAA
AGCATTATAAAAATGCAAGGTGGAATTTTTAAAGCTCTGCCAAGTCCACTTAGCTTAAACCAGCATGACTCTCATTGGCTAAGTACGTTATGACATCTGT
GACTGTGGTGTAGGTATTGCCTATAATCAAGAATCTTTTAGGGTCTGCTATGTGCAATCCCTGAAGGGTCATGGATCGCAGTTTCATAAAGACTGCTGTA
TTTTAAAGCCTTCAAATGCCAACGTAGTATCTTCACAATGATTTTTTTTTTCAGTTTTATTATTTTTTGAAAGCGCCTTCGACAAAGTTTTCAGTGGATT
TTGTTGAGGGATATTAAGTATGCCATCTACATAATAGCCATAGTGATAACTCCAACCACATTGTTATATTTTTATTAATAAATGCTAGAGTATTCTCTTT
CTGGTATTTCCTATTCTGATATTTTTATATAATCAAGTATGCAAAGATTCTTTGTCATTGGAAACCTTAATTTGCCTGAAAATGGGAATGAAATTTTCAG
GTTTAAAATTTTTTTACATTTATTACATTTATTGAAGCTGTCTGAAAAAGCTCTTGAGTATATTGAATACCAAAATTTATCCTAACTGCATAAAGTTGGG
AGGATTGTGAAACTTGACTGCACTGACTTGTTTTCTTTATTGATCAAATGGTTGAAAAAAACTTCAGTTAAACAAATTTGATCTATTAAACCAAAGTTAT
AAAAGCAGAGGAAAGCATAGAATTATTAAACGGCAGTTTAAATTGGTAAACATACCGATGTAGAACCTAAGTTTGTAGGCAGCTTTCTTAGATGGAAACT
TAAAAAAATTTTAATCAGAACATTATGTGAAATTTGTCATCTGGAATTCAGCTGGGTTTATTAAGGACAAAGTGTATGGCTATAAAATAGATTGAGTTTT
TTTTTTAAAACAGAAAACCCAAAATAAATGTTCTAAGTTTCCACCTTAGGAGGCTATGTATATTGCTCCTCTTTGAAACTGCCTTCAGAACCACCTTGTA
AGCCATAAAAGAAAATCGGACTCATTGCACTATAGTAACACCTAACTGTTCTTGCTCAAAGAAAATGTATTTATCCCTTAGCTTTATTTGTGTGACTCCA
AATCATATGAGTATTGCCAGATATTTAGAAATTTAATCCTCTCTCGAATGATAACATTTATTTTCTTTGAGGGTTTTTAAAAGAGCCCACATAGATATTT
CTACAGAAAATGTTTAATTCTGTTTTGAATATGCCTGGAATAAGTGAATAGCTTCCCAGGGTGACTATTCTGAAATGGGTGATGCTTAGTGGTTAAGTTC
TGATTTGTGTTTTCTTGAAGTTATTAAGGAACTTTATGATAACAGTTTATATATTCCCTCTTCTTGGCATAGTAATGARGTAATAGAGACTATTCACCTC
TAAGCCTGATTTTTTAAATAAGTGTTTATTTTATGTTTAAGTAAGGTAGGTCTGCTTTTGGCTTGGACTTGAATTTGGCAATAGCAGATATAAAGTAAAC
ATAATGTGAATTCCTACAACAGTCTCCCAAACAGTTTAATTTCTCATTCATACACATTTCCCTTAGTGTATCAGGGAATTAAGTATCTGATTATCAGTAT
AGCAAGAACAACTCAAGTATACTGAAGTTATTTATACTCATAAAATAGTTTGAGTTATAGCTACAATATAAAATTAATATATTTTTGACTTTTATTCCTC
ACAACCTGAAAAAAACCTCTGCGATTACTGATAGTACTTTTAAAAACTAAATGAATTTTGTTACTACTATTTGCTAAATTTAGTCATGTTTACTGTTCAA
AAAATGCTAGGTTAAAATGGATCCTAATCTTTGAAATGATGAAGACATGTGTAGTGGTGTCAAAAATAGGATATTCATTTTGTAACTATTCTGTTAGTGC
CGAAGTTCTTAGAATTTCTTTGTGACAACAGCCTGCTTAAGAACTTTAGATTTTTTAGAATTGTACTAAAAGCAAACTGTTTTCTTGGATATTTGTTCTT
TCTCCCCAAAAGATGATTTATAAGTTTTCAGAGCTAAGAAATGGGAAGGAAGAGCCATCCTAGCATGGCAGGTAATGTTTTACTGCTAACAGGTTTTCTC
TGCACTGCTTTATTTGCCTTGAACCTCTTACTTTGTTCTGTCAGCTGGGAGGCTGGTAGATTTTCTATTAGGTAGCAAATGCTTCTCATCACTAAACACA
TATCATGGGCTGGTGTTAGTGCAGTCTGTGGATGGGCACTACATTTTTAATCAAGAAATGTTTTTAAAGGAAAGACAAATTGGTGAAGTAATTTCTAATT
CAGTATTTTAGGGATGAGTGACCTTTTAATTGATAATGATATTTAACAGAGCTGTACAGTGCTTTGGGGGTCCCACAGACATGTTTAAACAAGAAAACAG
TAAATAAGGAAGCCAGAAGGAAAAGTTATAAAACTATTAAGAAAGAAAATGAAAATTCTAAACTTCAATTCTGGTGCCTGGCTAAATTTGATTTTTGTAT
GCCTCAGTGTTTCTCTATGGACACTGGGAAATCAATAAGCAACCTAGCTACGTTATTATGTTCGTAAGTGGAAGAACTAAAGAACTACAAAGACATGTTC
TAGGCCAAGAATTCTGGTGGTAGGTAGAGTGGGAGGTTAACTAGATGATCTCCAAGGTCCTTCTAATTGCACTTGGCAGCAGCAAGCATTTATCAAGCTA
GACACTGGGCATATGGAGATGAAGAAGATGAATATCCCCAGCAGCATGGAGAGCACTCTGATGATAGTCATCCCTGCCTCCCCCTCCCTCAGTTTGCTTT
TTGAAATGTGAGCTTGAAAGATCTCAAACTCCTTCCTGGGAAGACATAACTGAAACTTCATGGAGGAAAGTGCATGAATGAATGGGAAACAAGATTTGAT
TCAACTATTTGGAATAAGAAAAGGGGCAACAAGGAGTCTGAAACAAATGAAAGAAAAGATGGAAAGAATTAGTTGACTAGATGAGGACTGAGTACATAGG
AATGAGCCAACAGGAGACTTCAGCAACTAATGGATGAAAGTATTATGTGCATGCATGTTGTCATCAAATATCACATGATACAAGACAAGGAGAAAACATG
ACTTTCACCATAACCTCAGTTTGTGTACCCTAGTTGCAAGATATTTTTTTCTTCTAGTCACTTAAGAATATCCTTATTGTCTAGGAGAAATAATCCTCTT
TCTGGGCTCCCCAGTGTATAAGCCCAAATCTGAGGAAAATTTACCTGAAATGTTCTTTCCCCAGATACCCACATGGTTTACTCTCTCATTTAAATGTCAG
CTCTGTAAAAGAGATCTCTGACTGCTCTATCTGAAATAGTAGAATCTTTCACAGTCTTTCCTTCTTCTTGACATCATCTATTTGTGTCTTATCTGCTCAC
CTGCTACAATGTAAGCTCCATGAGAGCAGTGATACTGTCTGCCTTGCTTACTCCTGTATGCCAGCGTCTAGAATAGTGTCTAGCACATAGTAAGACCTCT
ACAAATACATGTTGAATACCTAAATAAACAAAATTTAACATATAAACCAAAAAGATATATAGGAATGGATTATATTTCTAATCTTTCTCGAGTGAGGAAA
ATGTCAGCAGATAGTGAATATCACTGAGAGAGAGATGATAGCCCAGGTTATCTTCCCCAGATAGAAATAAGCCTTRAGACTGACAGGTGTATATGAATAC
AGAGAGTATACATAAAGAAGATGTATTTTCAATTGWCAGTCTCTAAATTTGCTTTAAGACTTCGAAATGGATTGCTTTTCATAATTTCTTAGAATAACTC
TGGTCTGTTTACCATTGAAAAATTAGAGTAGCCAATGTTTGTAAATGAAGGGTTAGAGGGTTTTTTCCTTTGGTGGTTTGTTAAAAGCTTGCTCAAGGCA
GTAACATAGTAAATTGTCAATATAGGAACTTTTGTAGCAGAAGCTTTATGCTTTTCACTTTTATAAGAATTGAGATTATTTAAGCAGATGAGTCTAATGT
ATATGTTTGTACTGACTTACCTAGAAGGTCAGGCAAGAAATCGGTTTCCTCATTTTTCAGATAAGTGTGTGTGTAATCACTGAGTACCTTAAGAGAGGAG
GGGTGTTTTATTTTTGCCTGAATTTTCAAAATATCTTTCTTCAGCTTATTTATATTTTAGATTTGACTTATTCTGTCTATAGTATATAACAGTCAGGAGG
TTGGTAGGATAAGTTCATCTCTTCTACTAAGAGTTATAGGAGAGTTCAACCTAATATGGCAATGACAGTCGCAGAAAAGAGAAAATGCAAGTTAAGTAGG
TGTTAGCCATAGCAAGAAAATCAGATGAGGTCATTTAAGAATGAACTGCTCTAATGTTCAGGAAAAAAGAGGGGAGGGACAAGGACAGGGCTCTAGAAGG
CAACCAAAGAGAGCAGCCACAAAATAAATGAATAGCTGAAGAATTAGGAGACAACAATCTTAAAATGTGGCAGGGAGAGGGTAGTTGTCACATTAACTAG
CATAGAAGAGACAGAATAGAATAACATAAATATATGAGTGATTATTGTTCTTGAAACCAGTCTTTAAAACATGGGAACATTCCCAAAAATCAAAGCCAGA
TAAATTAGGGAAATCTTAAATGGCACAATATAACTAGTGATTTCGTTTATAATTTTTTTAAAAAGGAGACTTAAATTTGAAATTTAGATGTAATTAAAGC
AGATAATAAGAAACATACTTCTGAGACCACAAAGACCCTGAGATTCAGTTAAGAGTAAGGTAGAAAGGCTGGAAGCCAGAAGGGAATTAAGTTTCTGTTC
CCTGAGAAGCCAACACAACAGGAAAAAACTGGCCACACCCTAGTTCAAACTCTTATTACTCTTATCAATAGTCTCCTAATTGTTTCTCTAGTTTTCTCCT
CTCCCTTCTTAATTCATTCTGCAGTCTACTGCCAGATTAATCTTCCTAGAACACCACTTTCAGTATTATTCCCCTGATCAAAAAATGTCTGTGGTTTTGT
TGCTCATAGCATAGTGGTTCTCCTTCTTTGTACCACAGCCCATATGCACGATGATAGATGGTGGGTAGCCACATGAACTCTCCATAACCTTTGGAGGATT
TGGGTTATACACAGTCTGTTATCCAAGAAAGCATATCTGAGTGTAAGTGAGCATTATAGGGATAGTCTTATAATTGACTCCTTTTAAAATTTGTTCTTCT
TTTTGCAAATGCCCCTTCAGAATTTACAGAAATAGTGTGTTCATTCCATCAGTAAAATTATACCCCAAAATGTTAATAAGCTTATTTCCATCACGTCTCC
TTTCCTATTTCTTTCTTTCCTCTTTCTTCCTGCACATCTCCCCTTATCCTCCACATTTCTCTGTAATTACATAAGCATAAACAGACACATATGAGATTTT
CTGGGTTGCTTGCCTTTAAATAAAAGAATGGGATTATCTTATACCCCTTTGTCTGCAGCTTGCTTTTCTCACCTAACAAGTACACCCTGAACATCCTTCC
AGGTTAACAGATGCGGATCCCATTCTTTTAAATAGACAATATTCTATTCATGTGGTTTCGTGATTTTTGCCACTACAAGCAAGTTTCTAATAAACACCCT
TTTCTATGTACCCTTTACAAATAGCAACTTTTTTTCTAAATATAAATGCTATGGTTTGGCTCTGTATCCCCACCCAAATCTCATCTTGAATTRTAATCCT
CACATATCAGGGGAGGGGCCTGGTGAAAGGTGATTGAATCCTGGAGGCAGACTTCTCCTCTGCTGTTCTCATGATAGTGAGTTCTCATGAGATCTGGTTG
CTTGAAAATGTATGGCACTTCCCTCTTCACTCACTGTCTCTCCTGCTCTGCCATGTGAAAACATGGTTTCTTTGCCTTCCACTGTGAGTGTAAGTTTCCT
GAGGCCTCCCAGTAATGCTTCCTGTTAAGCCTGTGGAACTATGAGTCAGTTGAACCTCTTTTCTTTGTAAGTTACCCAGTCTCAGTTAGTTCTTTATAGC
ACTGTGAAAATGGACTAGTACAGAAACTTGGTACCAGGACAGTGGGGCATTGCTATAAAGATACATGAAAATGCGGAAGCAACTTTGTAACTGGATAATG
GGCAGAGGTTGCAACAGTTTGGAGGACTCAGAAGAAGACAGGAAGATGAGGGAATGTTTGGAACTTCCTAGAGACATGTTGAATGGTTTTGACCAAAATG
CTGATAGTTATATGGACAATAAAGTCCAGGCTGAGGTGGTCTCAGGTGGAGATGAGGCACTTATTGGGAACTGGAGCAAAGTTCACTTTTGCTTTGCTTT
AGCAAATAGACTGACAGCATTTTGCCCCTGCCCTAGAGATCTGTGGATCTTTGAACTTGAGAGAGATGATTTAGAGTTCGTGGCAGAAGAAATTTCTAAG
TAGCAAAGCATTCAATATGTGGCCTGGCTGCTCCTAACAACATACAGTCATATGTGTTCACAAAGAGATGGTCTGAAGTTGGAACTTAGGTTTAAAAGAG
AAGCAGAGCATAAAAGTTTGGAAAATTTGCAGCCTGACCTTGTGGTAGAAAAGAAAAACCTATTTTCTGGGGAGCAATTCAAGTGAGCTGCAGAAATATG
CATAGATGAAGAGTAGCCTAATGTTAATAGCCAGTAGAATAGGGAAAATGTTTCCAGGGCATGTCAGAGACCTTCATGGCAGCCCTTCCTATCACAGGCC
TGGAGGTCTAGGAGGAAAAAATGGTTTCGTGGGCCAGGCCCAGGGTTGCGCTGCTCTCTGCAGCCTCAGGACRTGGTGCCCTGCATCCCAGCTGCTCTAG
CTCCAGCTGTGGCTAAAAGGGGCCAGGAGATAATCTTGGGCTGTTGCTTCAGAGGGGGTAAGCCTCAAACCTTGGCAGCCTTCATGTGGTGTTGGGCCTA
TGGGTGTGCAGAAGGCAAGAGTTGAGGCTTGAAAGCCTCTGCCTTGATTTCAGGATGTATGGAAATGCCTGGATGTCCATGCATTCTGCAGGGGCAGAGC
CCTCATGGAGATCCTCTGCTAGGGCAGTGCAGAGGAGATACATGGGGTTAGAGCCCCCACACAGAGACCCCACTGGGGCACTGCCTAGTGGAGCCGTGAG
AAGAGGGATACCATCCTCCAGACTCCAGAGTGGTAGATCCACTGACAGCTTTCACCATGTGCCTGGAAAAGCTGTAGGCACTCRATGCTAGCCTGTGAAA
GCAGCTGCAGGGTCTGTACCCAGCAGAGCCACCAGGGCAGAGCTGTCCAAGGCCTTGGGAGCTCACCCCTTGTGTCAGCGTGGCTTGGACATGAGACGTG
GAGTCAAAGGAGATCATTTTGGATTTTTAAGATTTAATGACTGTCCTGCAGGTTTTTGGACATGCATGGGGCCTGTAGCCTCTTTGTCTTAACCAATTTC
TCTAGTTTGGAATGGGGGAATTTACCCAATGCCTGTATCCCAATTTTTTCTTGGAAGTAACTAGTTTTTGATTTTACAGTCTCATAAGCAGAGTGGACTT
GCCTTGACCCAAGAAGACTTTGTACTTGGACTTTTGAGTTAATGCTGGAAGGAGTTAAGACTTCCGGGGACTATTGAGAATGCAAGATTGTGTTTTGAAA
TGTAAGAACATGAGATTTAGGAGGGGCCGGGGGYAGAATAATATGGCTTGGCTGTGTGTCCCCACCCAAATCTCAATCACTTGTAATCCCCACATGTCAG
GGGAGGGGCCTAGTGGGAGGTGACTGAATCACAAGGGTGGACTTCCCTCTTGTTGTTCTCATGATCGTGAGTTCTCATGAGACCTGGTTGTTTGAAAGTG
TGTGGCACTTCCCCCTTCTCTCTCTGTCTCCTCCTCTGCCATGTGAACATGTGCTTGCTTCTCCTTCAACTTCCACCAGGATTCTAAGTTTCCTGAGGCC
TCTCAGTCATGCTTCCTTTGAAGCCTGTGGAACTGTAAGTCAATTAAGTCTCTGTTCTTCATAAATTATCCAGACACAGGTAGTTCTTTATTGCAGTGTG
AAAACGGAATAATACAATAGATTTCCCCAAAGTTGGGTTCCTGAGTCAGGGGTATGTGTATTTAAAATTTTAACAGATATTTCCAAATTACTTTTTTCGA
GGATTATGGCAAGTCACAGTTCCCCCTGGCAGTGTTTATACTTTTCTTTATAATAAAAATACATAAATCATTATTACTAACAAATTCCTTGCCATGAGTC
CTAAATTGATAACAACATACCAGTGTGCCATATAACATAGCTGAGGACTGTTGCAGTCTAGAATTCAGGCTCCTTCTCTCTGCTTTTAACAATATGTGTA
ATGTTCAAGACCAATTTAGTGCCACTTATTTTGTATGCTTTCCTTTATGTAGTCCAGGCCATAGCCCCCCACCTCATCTGATGGTATCCTCTGGCAGCCA
CAGACCACACAGTTCTTTCTACCTAAATTAGTCATTAGCACATAGTAGGTACCCAGWAAATGTTTGTTGAATTAATACTGTTTATATATTTCTAATTTAT
CTCCAAGTAAATCCAGTCTCCTTAAGGACAAGGAACGTTTTCACTATAACACCTAGCACTTAAGGTACTCAATTTAGGTAGGGCTGTTTGAACAAAGAAC
CACAGAGGAAGCAAATAGCATGGCCTTGCCTTTAATACATATATTTTACTTTCTCTTAGGGAAAACTGGAACTGTAAGAATCTAGTAACAATAATAAGAA
CAGCACTTTTATTGAGCAGTTACTATATGTGAGGCACAGTTCAAACTGCAGAGGATACAACAGTGGACAAAGCTTTAGTTGTTTCTGCCTTTCTGAAGCT
TATGGTTTATGGGTGTTACATTCAAGACATTTGTAGGACACATTCTAAAATGCCATCCAATTTCAGGCTCTTTCCAGCAGAAACTGTGGAATATTTTTCC
GTTCATTCAGCATTTACTTAGTGCCTGCTCTGCCAGGAATTGAAGAGAAAGCCCAAAGACAGGCAGACCTTACCTGAGAGGTAGTGAACTGACCAGGATG
ACTGTGGGCAGTAGACTTGTTTCCCAAACTAGCCTCACCATTTCTGTATTTGCATATACGAGGAAAGGATTAGATATAGGGATTCATGTCAGCATACACC
CCAGGGACATTTGTTTTTAGTGAAAGGTGCCAGTCTTCATCCCTGTACCCAGTACACAAACCACGAAGAAGTATGCTCCCGTCATTGTCAAAGAATCATA
GAATTCCAAATGGAGCTAGTTTTGATATCCAGATCTCACTTCATATGAGGAAACTAGGTCCAGTATTGTGAGTAAGAATTAGGACTCTTCAGATTCCCTG
GGTATGAATCTGACTAACAACTGTGTGAACTTGACCAAATTCATAACCCTGTAAACTCTGTTTCCTCACTTTTAAAATGGGCACAACAAAGTGATGCATG
TAAACTGCATAGCACAGTGTCTGGCACTTAAAAAGCACTCCTGAAGTTATTTTTAGTGATGTGTTTTAAGATTAGACAACTCCTTAATGCCAAAGGTTTT
TACTTGAGAACTCTGTCTGTTGTGCCATACTACACGCTGTTCATAAGATAAGCCTTTTTCATTAATTGATCTCAAACTGGCTTCATTATGATCTTAACTT
TATTTCAGTTTTATTTTTAAAATTTATTTTTAATTTTTATGGGTATATAGTAGGCATATATATTTATGGGGTACAGGTCATGTTTTAATGCAAGCATGCA
ATTGTGGGGGTGATATATAATTGACTGGGGTGAGATATCTCATTGTAGTTTTGATTTGCATTTCTCTGATGATTAAGGATGTTGAACATTTCTTCATACA
CCTGTTGGCCATTTGTATGTCTTTTGAGAAATGTCTATTCAGATCTTTTGTCCATTTTTTAAGTTGGATTGTTTGATTTTTTCCTGTTGTCTGAACTCTT
TATATATTCTAGTTATTAATCCCTTCTCAGATGGGTAGCTTGCAAATATTTTCTTCCATTTTGTGGGTTGCTTCTTTGTTGTTTCCTTTGCTGTGCAGAA
GTTTTTTAGCTTGATGTGATCCCATTTGTCCATTTTTGCATTGGTTGCCTGTGCATTTGAGGTATTACTAAAGAAATCTTTGCCCATACCAGTGTCCTGG
AGAGCTTCCCAAATGTTTTCTTTTAGTATCCTAGTTTCAGGTCTTAGATTTAGGGCTTTAGTCCATTTTTATTTGATTTTTATATGTGGTGAGAGATAGG
GGTCTAGTTTCATTCTGCCTATGGATATCCAGTTTTCCCAGCACCATTTATTGAAGAGACTGTCCTTTCCCTAGTGTATGTTCTTGGCACCTTTGCTGAA
AATGAGTTCACTGTAGGTGTATGAATTTGTTTCTGGGTTCTCTAGGTCTGTGTATCTGTTTTTATGCTAGAACTATGTTGTTTGGGTTATTATAGTTTTG
TAGCATAATTTGAAGTCAGATAATGTAATTCCTCCAGTTTTATTTTTTTTGTTCAGGATGGCTTTGGCTATTCCGGGGCTTTTGTGGTTCCATATAAATC
CTATGATTTTTTTTTTCTATTTCTGTGAAGAATGTCATTGATATTTATTAATAAAGATTGCATTGAATCTGTAGATTGCTTTGGGTAGTATGGACATTTT
AACAATATTGATTCTTCCAATCCATGAGCATGGACTATCTTTCTTTTTTTGTGTGTCCTCTTCAATATTTTTCCTCAGTGTTTTATTGTTTTCATTGTAG
AGCTCTTTCACTTCTTTCGTTGAGTTTATTCCTAGGTGTTTTATTTTATCTGTAGCTATTGTAAATGAGATTACTTTCTGATTTCTTTTTTAGATTGTCC
TCTGTTGGCATCTAGAAATGCCACAGATTTTTGTATGTTGATTTTGTATCCTGTAACTGTACTGAATTTATCTGTTCTAATATTTTTTTGGTGGAGTCTT
TAGGCTTTTCCAATAAGATCATACAGTCTGCAAACAAGAATAATTTGACTTCTTCCATTCCATTTTGGATTCCCTTTATATCTTTCTCTTGTCTGATTAC
TCTAGGTAGGTCTTCCAGTACTTCCAGTTGAATAACAGTGGGCACTCTTGTCTTGTTGTAGATCTTAGAAGAAAGGCTTTCAGTTTTTCCCCATTCAGTA
TGATACTAGCTGTCAGTTTGTTGCAGATGGCATAACTTTCAAACTAATTGATTATAGTTAGGAAGTGGATACTTTAACTTGTGGTACCATTATCAGATTT
ATATTTCGGCCATAAGCTTGAAGAGGAGCTGAAAAATGCATATGTGATGCATATGCTTCCTATTTGGCTCTCTTCTCCCACCCCCCTGCCCTATAATCCA
CACAAGTTCCTCTCTCAGTCACTCATCAACTACTTGAACCTCTGAGGAACTTGGGGTTAAGGTAAATTAGAATAAAACTGTCTGAAGAAGAGCAAGCCTT
TCATGTCTTGAGAAATTCTTGGGGTTTTAGAAATAACTTCATTGCTTTTTTTCTCCAGTTACTTTGGCTTCTTCTTAAAGAGAATACTAACACTTTGAAC
GTCATAATACTAAGGTTCTGCCTCTTCAAATAAAGACTTTAAAAAAAAATGGTTTTTGTATGATTCAGTGTGAATTAAATCCCACAGTGTAAAGGACTTT
ACTTTCTTAATGTAGATTTTCAAATACACAATTACTGATGTTTATAAGTAGATTTATTACACCAAAGCACCTAGCAAATTCTTGAATGGATCAGGTCTTA
TTTTTCAGTCTTACTTTGCAAATTTAAGYCAAATAATTAAGGATTTGTTAAATATTTGTCTTAATATCAAGCTTTTGCATATCGGGGCCCTCTTTTATAA
GCTTTATAAGCAATCTTTTGTTTTCTCTGCTTGCTCAAAGTAGCTRTGTTTGTTGTATCTGTTAGTATTTGCTCTATAACAAACATACTGGGTGCCTTCC
CACTTAGATTTGGCAATTATCACTCCTGTAAATGAGATATTACATAAGATAGGAAAAAGAACAGTATCTTTCCAAGAAGAATAGTATCCTTCCATATTAA
CAGTTTAGAGCTGACTGCTTTTAAAATTTAGTGGCTTTAAAATAACAACCATTTATTATTCTTCATGAGTCTACAAATGAGGTGGGCAGTTCTGCTGATC
TGGCCAAGCTGAACTTATCTCAGCTGGGCACATTCAGCGTATCTGCTGTCAGTTGGCTGGTTGGCTGTAGCAATGAATGGTGAAAGTAGGCTGCCCTTAA
CTTTTTCACACAGTAGCATTAGAGTTACAAAAGAACCAGCAGAACCATGCAAAACTCTTTAAGACCTAGGCTTGGAACAACTATATTTCTACCACATTCT
ATTGGTCAAAGCAAATCACGGGGCTAGTCTAGATTCAAGTGGGTGGAGGAGCTGCAATTACACTGCAAAGGAGTGTGACTGTAGGGAGAGGTGTTTTTTT
ATTTTTATTTTTTTGCGATTTGTCACAGTAGTTGTAGGAATCAGGTGTATTTAAAATTCTGATCCTTCTGTGATATCCGAATTGTTCATGAACCTTGCCT
CTGGTGGAAAGGCAGAATCATTGTGACAGAAGGATAAAATCTTGGAATTTAGAGACTAACAAAGGTTCAGATTCCAGCTCCATCACTTATTTCTGCAATC
CTGCAGAAGTTAATCTTCCTGATAGGCATTCAGTAATGATTGATTCACCTGAACCTCAGATTCTTTATGTATTTTAAAGAAAGGGCTAGGTAAATGCAAA
GCACTTATGTAACTGCTTTTATTATTGCAAACCTGGCTCCCACACTCCATTCAAGGTGTAAGACTCAGTGTCTTCCTTGAATTAAAAAGGAAGAGAAAGT
GTGTTAGGGAAAGGAAGAGAAATATTTGACTAATTGTGGCCCCAATAAAGTGACCACTCACTGGGGGTATTTTCCTGTAAGAAAAGAATGGTTGAGGCTC
AGAGTTAAGAGATACAAATCCAAAAGTCTCCTTGGGGTAGGATTCCCTGTGATTCATGGGTTGAGAGGTGTAACATTAGACACAGTCCCAGTCTAGATTT
TTTTTTTAAAGAATTGTRGTCCATCCTATACACACTGGGTGCCTTAATACTATATGTGGCAATTATCACTCCTATAAATCAGGTTTTACATAAGATAGGA
AAAAGAACAGTATCATTCCACATTAACAATTGAAAGATGACTGCTTTTAAAAAATTAAAAGGGCCATATAGAAATAAAATCACATAAATTTCTTGTGTTA
AACATAGTTGTCATATTGGATGAGGACTAAACACCTAAATTCATCCAACTAGTAGTAATAGAAAAGATGAAACACACACACAGTAAAACTAGATTAATTT
AATTTATACAAAGGGCCAGATATCTCAGAATTCAGACAGTCAGAGATGTTGACTAGAGTTAATGCCTCTTTTAGGAGAGGTACCAGGTAAGTGTTCTCAA
AGAACTGGAAACTGAGACCACCACCTCTGGCATTATCTRTTTGTGAACACAAGCAAGTCTGAATTTTTCCGCACCATAGCTACCTTTCATGTAAGCTTCT
TTTCTTAGAAGAAAAGAAGGTAACATTTGGGTGTAATTTTTTATTAAGGGTGAAATTTAGTGTAGAGAGTAAAGGCATTTGGCATAGAAGCCCTTAGTTT
TTTTTGTTTTTAAGTTGAACTGCCAGCCTTTATGGATTGCAGTCTTCGCTGTTTTGATTGACATTTCCCAATTCATTTTGTATTATTTATTTTTTTAAGA
GACAGGGTCTCACTCTGTTACCCAGGCTGGAGTGCAATGGGGCAAACTTGGATCACTGCAGCCTTGAACTCCTGGGCTCAAGCAATCCTCCCACCTCAGC
CTCCCAAGTAGCTTGGACTATAGGTGTGCACCACCATCCTTGGCTAATTTTTTAAATCTTTTGTAGAGACAGGGTAGTGCTCTGTTGCCCAGGCTGGTCT
CACATTCCTGGCCTCAGTTGATGCTCTGGTCTCAGCCTTCCAAAATGCTGGGATTACAAGTGTGAGCCACTGCACCTGGCCCCCAATTTCATCCTTTACA
AAGACTACTTTCAACCATAAATCAACGGAAACTTCAGCTCCCTCAGACATATTTGGGATCCAAGGATATTTTCCCAAATGATTAATGCTAATTTCATATC
AATACATTTTTGCAAAACCTACAAAAATGGACTAGTAAAGAAAGACTCTTAATTTGGGAAAGACAGTTACTTGGAGAGAAGAGAAACTTAAGAGGCAGGT
CGAGTTCAGTGTTCAGAAATGAGAGGATCATAAAGAGATAGCCATAAAAATGTTTCTCCCTATATTGCCTGCTGATAGGGTGTATCAGTGAAGGTCTTAC
TAAGGACCTTGTACCTTTTCAGCGCTGCACTGCGTGCTCATAGGGAGGAAAGATAAATCATGTGTTTTTTCTGACCTCAAAGGAGCCTGTATCTGGCTAG
AGAGACATGATGCAGACACATGAAATAATTAAGAAACAATTAACTGTAGCAGGTGCTGAAGAATATACCAGGAGGTCAGAGAATGGTAGAGCTAGTGTGG
GCGAAGGTATAGCCCAGAGCATCATCAGATGATTCTTCCTTATGCAAATTCACATCTCCTCTGGGTCAAGTATCATCCTGGCATGCAGCAGCTCCATAGG
TAATGCCCTAAGGCTAGCCTGAGGCAAGTTGCAAAAGCCATCATATTGAGTCATGGCCTTTTTTTGTGTGGGGGGAGGGGAATGGCATCCCCTTCCTGTC
TGCCAAATCAAGGAATACAGTGCCCTCCTAAACCTGCTTTGTTTTAGTGGATTGTTAAAAAGAAGTGAATGAATTTATGCTTCATTAGGGAAAGGTTACA
GTGGAATACTGAGGAGTAAGGGGTATTTCTATTTAACAAATGACATAACTTGAAGGAATGAAATCATAAGGATGGAATTTCAGGCATTAATAAAAAGCTG
ATGAGAGATACTTTGAGACAAAAGAGCCTTCCCAGTGTAACCGAGATCACAGCACCTACTTCACATACACAGGAAACCAGTCCTATCTGTCTCTCCCATA
GAGCAGTAGCTGCCTTGTTTTTCCTCCCTCCTCCATCATTCATTCTAAATCTCCAGTCCTCCACCGCACCTTATCCAAACCCTGATACCCTTAAGTCACA
GATGGTGAATCAGTCAAAAGTAGTATTAAAAACTAGTGGTACACAGCTACACCTGGAATGCAGTAAGAAAAATACGGATTTCTGTACATCATCTTCCCTC
CCTGCTCTTACCCCCATTTAAGAGTTACAGGGTCAGAACCCAAGAGTSTGAGTTTTTGAAAGTCCCTAAAAATTTTGGATGATCACCTACATTTAGAACC
ACTGCACTAAGAAGGACAACAAATATGCCAATAAATTCTGTTGCCAAGGAGGTGATTATGCAAGCTGGAACCCTGATAACATGAGGAGAATCCCACAATA
GCCAAATAGTCCATGTACTAGTTACATTATAATAAAGCCAAAAGCAGCAGGCCTACCTGACTTTCTCCTGAGGTCTATCATGAGCTTAGAGAGAAGGAAC
GTGGACATAYAGAGGTAGCTCTAGATGGAGAAGGGCACTAGGTGTCATGGAAAGAATCATGTGCAAGAAGTAAAGAGGTGCTCTGAATGTCCTAGCCCTG
CTTAGGTGTCTGTGTCCTCACATGAGAATTTATCCACAGTTCTTTCCCGCTGTAACAATCTTTGGTTCCAACTGCATTTGTGAGACAGCAAAAAGCTATG
GTCCAGTCTCCTTCCATTGTATCATCTCATCAATGTATTTCTCCCACTACCCTTGTGTGAAATACAAACTTTTTTGGCTTATTGTGATTATGCAAGGTGT
ATGCCAACTTTTTTTTTTTCTCCACATCTTTCAGCTTTCTGATGGGTAAAAATTTTCCTTATTTTGCTTTAGAAAAATTCTCATTGGCATAGATCTAATT
TCAGGGAGCCTCCCTTGAAAGCTAAATAACATTGAGAATTCATGAAAATATAATGTAGAGCATTATGCCTGTTAGCATATTAGTTTAAATAGAAGTGGTT
CATGAAAATTTTTGAAATGCCAGACCCTGTCCTGTGTTTTGTATTCTCCCAAATACTCATCCAGATACTGTTCAGAATGTAACATGATTATTTTGAAATA
AAGATTTTCCCCTAGTTTTTAAAAAAGTTACTTTATACATTAACCCTTATGTTCCTCTTTGATCAATTTTTCCAGTAGTGTAAACAGTCTTCAGGGAAGT
AGATTTCTTACAGAAATTGTCAAGTGGCTCTCTGCTGTTAGCATGGTTACTAATCTTTTGGTTACTTTTCATATTTTTTATACTTTCTGGAAGTGGACAA
CTTACTTGTAAATAAAAGTGCATAATTTGTATTAAAAATTTTTAGTAACAATCTAATTTGTAAAATAGATGTGAGCAGCATGAATGTGTGTGATATGCGT
ACATACGAATTATGTCTCTTAAAAATGTATCACAGACATCTTTCCGTGTCCAAACAAATCTACCTCATTCTTTCTAATAGCCATATGGGTATACCATAAT
ATATTTAACTAGGCCCCTATTAAAAGAATTTTGACTCTTTTGTAGCTACTATAGTGTTGCAGTGTGTATCTGTGTATGTATCTTTGTGTGTGTATCTTTG
TACGAGTGTACATATATTTTCCCCTTGGCTATTTCAGATTTTTTTTTAGGTTTAAATCTTAGGAAAGGTTTTGAAATTGTCTTAAGTATTTTCAGAAGCA
TTAAATCATGGTTTTTTTACATTTTTCTTTTAGAAGTTTTATGTCATCTCTATGAGTAGCTTTCAGTAATTTGTTCTGCATAAAATTCCCGAAAACTTCC
ATTTAAAAATAGGTGGCATGACTAGACTTTCTCAGCCGAAAGAGTGAGGTCCCAGGAAGGATTTTGGAGAAGCTGTGTTCAAATATAGCTGCTGACCTGA
TGTCTGCCTAGAGTCTGGCAAGGTGATGTGTTGAATCTAGTGTCTGCCTGCATGCCAGCATCCCTTTACTGATGAGATTTGTGGTTTTCATCACTTCATG
GTAATYATCCCAAGTTATAAGATGGAGTCTCTAGAAAATCAGTAGAGTATGAAGGCCCAAGTAAAATACATGTGAGTGCATGTATGTGTGCATACAAATT
ACTTCTCTTAAAAACGTATCCTGGGCATTTAAAGAATGAGGACCTCCGAAGGATTTTGTGGAAGCTGTGTTCAAGTACAGCTGCTGAGCGTATGTCAGCC
TGGAGCCTGGCAAGGTGAAGTGTTGAATCTAGTGTCTTTTTGACTCACTGTTTTTTTTGACTCACTGTGCTTTGAAGCCCTTGTCATTTGGGCTCATAAA
ATAGATTTCTGTATACTGTCTCTCCTCCCTGCCCTCGCCCCCATTTAAAAGTATAGTGGCAGAACCCAAGAATCAGAGTTACTAAAAACTCTCTAGAAAA
TTTGGATGATCACCCACCTGATCATGTCTTTTTTACTCACTATGTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGG
CATGATCTTGGCTCACTGCAAGCTCCGCCTCCCTGGTTCACGCCATTCTCCTGCCTCAGCCTCCCATGTAGCTGGGACTACAGGGCCTGCCACCGCGCCC
GGCTAATTTTTTGTATTTTTAGTAGAGTCGGGGTTTCACTGTGTTAGCCAGGATGGTCCCGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAA
AGTGCTGGGATTACAGGCGTGAGCCACCACACCCGGCCCTTTACTCACTATGTTTTTAAGCCCTTGTTTTCATTTGCTCCACTGTAAAACATTCCCCAAG
CCAATCTGGAGCTGAGGCAAATTTTTAACAATTTAAAATCTGGGGAATATAAATATTGGATAATGATCATCCTGAAAAAACAATGAAGGTAGTAGCATAA
TACTTTATATATCAATAAAATGGCAAAATAAGACAGTTGTTGAAGGACAGAAAGAGTAACTGAAGTTAGGAGCTTATCTTAACACATTTTTTGTGTCATA
CCATAGGCATCATATTTTTTAAATTTTTTTTATTTCATACACATAGGAAAATATATGTGTGTAAGAAATAATAAACACCTCTTTGTACCTACCACCCAAC
TTAAGGAACAGCTCATTGCTATTCCCTTTGGTGCTCGCTGGATGCCCTTTCCCAGTCACATCCCCCTCCCTTCCCATCTGCAGGACTATACTAGTAAATT
TTGTATTTTTTGCATTATTTTGCTTTGTTTTATGATTTTACTACCTATCTACATATCCCTAAATAATACATTATTTAGTTTCATATGTTTTAACTTTATG
TTGTGGAATCACATTAAATGTAGTCTTTTTTTTTTATATTATACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTTACGTAGGTATACATG
CGCCATGTTGGTTTGCTGCACCCATCAACTCGTCATTTACACTGGGTATTTCTCCTAATGCTATCCCTCCCCTAGCCCCCCACCCCCCGATAAATGTAGT
CTTTATAACTTGTTTTTTTAACTCAACATTGTTTGTAAGATTCATCCATGTAAGCTGAAGCTTTTTTATAGAGATCTTTGTTAAGCCTTTTAATGAATAC
AGTACATACATTTCTCTGTTCCCCTGTTAGTGGACACTTGGATTGTTTCCAGAGTTTTGCTGTTTTGAACAACGCTGCTGTGAAAATGTCTCCTGAAACA
CATTTATAAGAGTTTTTTTTTCCCCAAGGGAATTATACCTAGAAATTGAATAACTAGATCACAAGGCATACACATCTACAACTTCTGCTAGGTAATGCCA
AATTGTTTCCAAGGAGCGTTAGAAGTGTTCTCATCAACTTTTACTAGTGCTAGTCTTTTACATTTGTGGCAGTATGGTGGGTGTGAAATATTTATGTTTA
GTTTTTCTTGGTGCCATTTAATAATTTTTATAAAAAATATTTAGAAGTCAAGGCAGTTTTTTGTTTTTGTTTTTATTTTTTGCTTGTTTTGTTTTAATGC
AGACATTGAGATTACGACTTGGAATAAACATTGGTTGCAAAGTTCCTAAAAGGAAAACTTTTTTTGGTATTCTGGAGCTTTTCTGGTACTGAATAAAATA
AGTATGTTAAATTATGCATGTGTAGTTTAGAAGTCAGAGCAATAATTGTGATTGTTGAACAGAATGGCAGTAAAAAGTTTCTAAACGATTGTACTGTACA
AGGGACACTTGTTGTGGGTCAGTTTTAGCCTCCCCAACTTTTATGTTAAAAGTTGCAACAAGGTTTAAGGGCTTATGTTTGATAGGCCAGATGGTGACCA
GCTGTGATAAAACACAGGGAACCCTTGCAAARGATTTCAAAATTTATGCAGTAGTCCGCCTTATCTGCAGTTTTGCTTTCCAAGGTTTCAGTTACCCGCA
GTCAACTGTGTTCTGAAAATATTAAGTGAAAAATTACAGAAATAAAGAATCGAAGAGTTTTAAATTTTATGCTTCCCACCCATCCCACCTGGGATGTGAA
TCATTCCTTTGTTCAGCATCTCCATGCTGTAGGTGCTGCCTGCCCCTTAGTCACTTGGTAGCCATCCAGGTTATCAGATTGACTCTTCTAGTATTACAAC
ACTTGGCTTCAAGTAATCCTTATTTTACTTCATAGTGGCCCCAAAGTGCAGGAGTGGTGATCCTGGCAATTCAGATATGTCAAAGAGAAGCTGTAAATTG
CTTCCCTTAAGTGAAAGATGAAAATTCTAGACTTATATATAAAGAAAAGAAATCATATGCTGAGACTGCTAAGATCTATGATAAGAATGAATCTTTTATA
CATGAAATTGTGAAGAATGAAAAAGAAATGCGTGCTGGTTTTGCTGTCATATCTCAGACTGCAAAAGTTTGCAGCCAATGTGTATGATAAGTGCTTAGTT
AAAAGGAAAAAGGCATTTAAGGTAAGTATATATAGTGTTTGGTACTACCTGTGATTTCAGGCATCCATTGGGGGTCTCCTGAGTATAAGGGGAGACTACT
CTTTTAGTGTTAAATGAACACTAAGGAACAGAGATGGGGAAGAGGTTGGAGAAGATTAGTTCAGCAGTTTGAGTATAGGTAAACAGTTGTTTGAGAAAGA
AGAAAAATGTGATTAGTATTTTACCTTAGCAATAGTGGCATAGATAATGATAAATTATAGTCACACAGAACTCTTAGTATTTACAGAACGTTCACATTTG
TGATCCCATTTAACAATAACTCTGAAAGAAAGGTATCATCTACCACTGCTTTATTGATAAAGATATAAAAGGTAAGAGAGATGAAACATATTGGCCAATG
ATACCCATCTGGTAAGAGACAGGGATGGGGTGGGACCCCAAGGCTCTTCTCGCCAAGCCCACGGTTTTTTTGCTTTATACTTTTTTGCCTCCTGATCACC
ATGGCTGCAGTTTCTACTGTGGACAATGTCTGTCAGCAAGCATTGATCCCCTGCCTTCAGCACTCTTACGTCTTAGCAAGGACTGGAAAGAAAAAGCCAG
GAGTTTACAGTCTGCTGGAGCAACAGAAAAGAATGATATGAAATATGAAGAGACCAAAATGATTTATAATAAGGTGCTAGACTATGTAGTAAAAATCTGC
TTTAGCTGTAAGTCAAAAGCAAGAGCAGTCTTTTCAGAATGGAATAGAAATGTTGGAATTAAAGGAATTTTCAAAGTTGTGAATTTTTTTCAAGATAAAC
ATGTTTTATTTTGGTAATTATGGTATTACTAATTTGATAACCTTCAGGGAGCCACCTAATATTATAGAAGATGTACATATAATGACAAAAGCAAACATTT
TATTTTTAAGGACCACAATCTAATCTAAAACAAAATTTCCCCCTTTTCTGGTCTTTGGTTAATTAAGGACTTATTTAAATATCAAAGAAAGACACATAGA
AAACATTTAGTATATTTCTATACTTTTATTAATGTCCTCCATACCTTACACAGATACTTGACTTGGCTATGGTCTAGATAATCCATGAAAATTTAAAGGA
CAGATTTTAACAACTTTATGCTAAATTGATAGATCTCTAGGATCAGATTGCCATCACTCTCAGATGCGAAGCTTCCAACCACTTATAGGTTCCTGATATC
TTGCTTTTATACAGACCTAATTTCTCTTCCTTTAAACTTTCTTTTCCTCAGTTGCTATTTGATTGAAATATTGAGTCATTAAAAATTTCCAAGTGGGAAT
TTTTGTGTTTCTKCATCTATCATGAAGCTGCTCAAATAAGTAGGTGTTTGAATAGGAGTAGAAACAGTAATAGGCTGAAGCCAGACCAATACAGCTTCAG
CTAAATGCCGACCTTGCTAAAGTCTGGGAGGACCGGTGTGGTATTCTACAATGTACAAGTCTGTAGCCGGTGCCCTTAATATGTTGGCTTCATGTCTCAT
GACTCTCTTCTGTAAATATGCAGTTTAAAAAATACAAGTTATTCTGCTGTAGAAGATACATTTGCAAAATTGATGTATCCCCTCTAAGTAAAGTTGGCTA
AACAATAAGGACATATTTATAATTAATGAATTTGAGAAGAATGCTGACGATATGCATTATTCTTTGAAGTTAACATTTTTCAGGTCCTAAATAAACAAAA
AGTAGGTTACTTCTGTCTGGAGTGTATGCAAGGGGTACCATCTTGTCCTTGGTTCCTGGCTGCTATTCCAAGGTGCTATAAAGTCAGCTAAAGAGAGCAA
TCATAATACATTGATAGCATCCCTCAATGTGTTTCTGAGCTACTTGAGAATCTTATTTTTGAATAGGTAGCAGGAAACCATCTTTGCAGGGCAGCATGGG
CAAAGGGATTGGAGGGACTATTATTATAAAGATCCACTGAACTGCTTCAGTATCATAATATCTTAAACTAAAGGACTGGAAAGAGCCAGATTCCAATTTA
ATCTGCTCTTCTATGAATTCTTAGCTGGGTTCATTTAAAAAGAAAAAACTTGAAGATTGCAAGATTTTGAAGACATCTTAAAATAGGTGAACTCCAAGGT
GCACTTTAAACTTGAGACTGATAACTGAATACTCCTTCACCTTTTGATCTGATATTGTCAAAATGAATGAGGACTTAGTGCTCTAGTAAGTTTGGAACAG
AATGATATTAATTTATTTTCTCATGATTGATTCTTTTTTGCTTTTTAATAGATTAAACTTCACCGTAGAACAGTTTCTCAACCTCTGGACTATTGACATT
TTTGATTGGATAATTCTTTGCTGTCAGGGCTGTTCTGTGTGTTGCAGGATAGTTAGCAACATCCCTGACAATCACAAATGTTACTTTCTGTCTCTATGGA
TTTGCCTATTCTGGACATTTCGTATAAATAGAATCATATATATGTGGCTTCTTGTACCTGGCTTATTTCACTTAACATGTTTTCAAGGTTCATCCATATT
GTAGCATGTAACAGCACTTCATTTTCTTTTTATGGCTGAGTAATATTCTGTTATGTGGATATACTACCATATTTTGTCTATCCACTCCTTAGCTGATGGT
CTTTTAGGTTGTGTCCATTCTTTGGCTATTATAAATAATGCTGTTAAGAACATTCATATACAAGTTTCTGTGTAGACATATATCTTTATTTCTCTTGTGT
GGATACCTAGGAGTAGAATTACTGGATCATATGATAACTCTATGTGTTACCTTTTGAGGAACTGCCAAACATTTTTCTACAGTGGCTGTATCATTTTACA
CTCCCATCAGCAATGTATAAGAATTCCAATTTCTCTGTCCTTGCCTATATTTATTAACTGTCTTTTCTTATTAGCCAACTGCTGTGGTTCGAATGTTTGT
CCCCTCCAAAACTCATGTTGGAACATAATCCCCAATGTGGCAGTATTGAGATGTGAGGCCTTTAAGAAGTGCTTGGGTCATCAGAGGTCTGCCCTCATGA
ATAGGCTAATCCATTCATGAGTTAATGTACTAATGGGTTATCACTGGATTGGGACTAGTGGCTTTATAAGAAGAGGAAGAGAACTAATCTAGTAAGCTCA
GCCTTCTCACTATGTGATTGCTGCCCTGTGTCACCTTGGGACTCTGCAGAGAGTCCTCCAGCAGCAAGAAGTTCTTCATCAGCTGTGGCCCCTTGACCTT
GGACTTCCCAGCCTCCAGAAATGTAAGAAATCCATTTCTTTTTTTTAATAAATTACACAGTCTCACGTATTCAGTTATACCAACAGAACACAGACTAAGA
CACCATCCTATTGGGTATGGGTATCTCATTGTGTTTTTTATTTGTGTCTCCCAAATGACTAACGATGTTGAACATCTTTTCATCTGCTTTTTGGACATTT
GTGTATTTTCTTTGAAGAAATGTCTTTAACATTCTTTGCCCATTTTAAAATTAGGTTGTCTTTTTATTGTTGAGTTGTCGGTKTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTATCTAGAATATATGTGTATGTATATATGCAGATATATTCTAAACACTAGACCCTTATGAAATATATAATTTGAGGACAATTTCTCC
CATTTAAAAGGCCATCTTTTCACTTCTTGATAGTGTCATTTGACTCACAAGTTTTTAATTTTTATGAAGTCCAATTTATTTTTTAATTCTTTGTTTTTGG
CACTGTATCTTTAAAAAGTTGCCTGATCTAAGGTCAAACTGATTTTCACCTATGTTTTCATCTAAGAATTATAGTTTTAGCTCTTACATTTAGGCCTTTG
ATCCATTTTGAATTAATTTGTGTATATGGTGTGAAGTAGGGCTCTAACTTATTCTTTTGTGTAATGATACCTAGTTGTCCCAGCACCATTTGTTGAAAAG
ATTATTCTTTCCCCATTGAATGGTCTTGATACCTTGTTGAAATCAACTGACCATAAATATATAGGCTTATTCCTGGACTCACAATTCTATGAGTCTGTAT
GTCTAATCTTATGCCAGTACCACACTGTTTTGATTATTACATCTTTGTACAAAGTTTTGAAATTGGGAAATGTGAGTCTTCCAACTTTGTTCTTTTTTAA
GATTACTTTGCCTATATTCCGTGTTCGTTGCAAACTCATATGAATTTTAAATCAACTCTCCATTTCTGGAAGAAAAAAAGAGGCAATTGAAGTTCAGATA
GGGATTGCATTGAACCTGTAGATCAGTTTGGGGAATATTGCCATCATAACAATTAGTAGGTCTTCCAACCCATGAATACAAGACTTCTTTCCAYTTCTGT
AGATATTTAGTTTCTTTCATTAATATTTTGTAGTTTTCAATATAAAAGTCTTGTACTTCGATTAAATTTATTCTTGAATATTTTGGGTTTTGATGCTTTT
ATGAATTTGTTTTCTTAATTTCACTTTAAGATTGTTCATTGCTACTGATTAGTAATGCAACTGATTTTTGTGTGTTGATTTTTGTATCCTGCAACCTAGC
TGAAATCATTGATTAGCATAATAGAGTATTTAATAGATTTAGGATTTCTATATATAAGATCATGTCATCTGCAATTAGAGATAATTTTACTTCTTCCCTT
TCAATCTGGACATTTTTTACTTCTTTTTCTTGCCTAGTTGCCCTAGCTAGAACCTCCAGTGCAGTGTTGAATAGCAGTGGTGAGAATGAGCATCTTTGTG
TTGGTCTTCATCTTGTGGGGAAACCTTTCAGTTTAAGTGTGTTGTTGTGGGGTTTTCATAGTTGTCCTTTATCAGATTGAGAATGTTCCTTTCTGTTCCT
AGTTTGTTGAGTGTTTTCTTTTTGATTGTTTTAATCAGGAAAGGGCATTAGATTTTGTCAAATGCTTTTTCTGCAGCTATTGAGATTTTTGTGTGTTTTT
CTGGTCTTTTATGGTTTATCACATTAATTGATTTTCATATGTCAAACAAACCCTGTGTTCTTGGGTTTCATCTCACTTGGTTATGGTTTATAATCCTTTT
TATATACTTGTAGATTCAGTTTGCCAGTATTTTGTTGAGGATGCTTGCATTTATATTTATAAGGGATATTGGTCTGTTGTAGCTGACCAGTAAGTATAGT
AAGCTGTATAGTTTACTAAGTGTTCCCTCTGTTTTGGGGGAGACTTTGAGAAGAAGGATTGTTGGTAATTGTTCTTTAAACATTTGGTAAAATTCACTAG
TGAAGCCATCTGGGGTCTTCTTTGGAAGTTTTTTGATTACTAACTTAATGTCTTTACTTGTTTGTTATAAGTCCATTCAGATTTTTTTCTCCTTGAGTCA
TTTTTGACAGTTGGTTGAGGAATTTGTTCATTTCATGTAGTTATCTAATTGGTTAGTGTATAATTATTCATAGTATTCCTTTATAATCTTATTTTTTTGC
TGTAAGGTCAGTCATAATGTTCACTCTTTCATTTCGGATTCTGGTAATTTAAGAGTCTTCTCTCCTTTTTTTTCTTGGTCAGTCTAGCTAAAGTAAAGTT
TTGTCCGTTTTCAGGGGAACAGCTTTTTTTTTTTTTTTGAGGCAGAATTTCCATCTTGTCACCCAGTCTAGAGTGCAGTGGTGCAATCTCGGCTCATTGC
AGCCTCCGCTTCCCGGGTTCAAGAGATTCTCCTGCCTCAGCTTGCCAAGTAGCTGGGATTACAAGCGCCCACCACCACGCCTGGCTAATTTTTTATATTT
TTAGTAGAGACGGGGTTTCACCATGTTGGGCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAG
GTGTGAGCTACCGTGCCCAACCCAGCTTTGGTTATTTTTGTTGACCTACTCTATTGTTTTTCTCTTCTCTATTTCACTTATTTCTACACTGGTCTTTATT
ATTTTCTTCCTTATGCTTGCTTTGGACTTAGTTCTTCTTTTTCTAGTCTCTTAAGGTGGATAATTAAGTTCCTGATTTGAATTCTTACTTCTTTGTAAGG
TGGTCATGTACTGCTATGAATTTCCTTCTCAGAAATGTATATGCTTTCACTGCATCCCTTAAGATTTGGTATGTTGTATTTTTGTTTTCATTTGTCTCAA
GGTATAGTCTTCTGATTTCCATTGTGATTTCTTCCCCCTCTAACCCGTTTATTATTTAGGAACTTGTTGATTTCCACATACCTGTGAACTTTCCAGATTT
CCTTCTTTGTTAATTCTCAGTGTCATTCCATTCTGGTCCGAGAACATACTTTGTATGATTTCTATCTTTTAAAATTTATTTGGCTTGTCTTATGACCTAA
TACATTGTCTATCCTGGAGGATGTTTCATGTACACTTGAGAAGAATGTGTATTCTGCTTTTGTTGGGTAGAGTGTTTGACAGGTGTGTTGGTACATAGTT
CTGTTCAAATCTGTTTCCTTGCAGATTTCTATCTAGTTGTTCTGTCTATTGGAAGTAGGATATTGAAATCTCCAACTAATATTGCTGAATTGTTTATTGT
TTTCTTCAGTTCTGTCACTTTTTGCTTTATATATTTTGAAATTCTATTGTTAGGTACAAGTAAGTTTATGATTATTATATCTTCTTGATAGATTGATTCT
TTTATCATTATACAGTGCCCTATAAGAACAATTTTTATCTTAAGTCTATTKGTCTATATTAGTATAGCCACTTCAGCTTTCTTTTGTTTACTGTTTGCAT
GGAATATTTTCTTCTTTTACTTTCTATTTGTGTTCTTGAGTCTAAGGTGAATCTCTGTAGATAGCAATTGGATCTGCCAATCTTTGCTTTTTATTTGGGG
AGTTTAAACCATTGACATTTAATGTAATTATTGATGAGGAAGATTACTTCTGATATTTTGCCATTTGTTTCCTTTATTTTGTGTCTCTTGTTCTTAAATT
CTTCCATTACTACCTTCTTTCTTTTGTATTACATATTTTCTAGTGTAACGATTTTAATTTCTTTGTCATTTCTTTTGTTGTATGTTTTTAGTTATTTTCT
TAGTGGTTGCCACGGAGATTTTATTGTCATTTTAACAGCCTAGGTTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACTGAGGCAGGAG
GATAGCTTGAGTCCAGGAGTTCAAGACCAGCCTGGGCAACTTACTGAGATACTGTCTCTACAAAAAAATACAAAAATTAGCCAGGCATGGTGGTGTGTGC
CTGTAGTCCCAGATGCTTGAGAGGCTGAGTTGGGAGGATAGCTTGAGCCCAGGAGGTTGAGGCTGCAGTGAACTTTGATCACACCACTGCACTCCAGCCT
GGGTACCAGGGCAAAACTAGCCCAAAGAAATGAAGGAAAAAAAAAATCTAATTTAGATTAATATCAACTCAACTTCAACAGTGTATAAAAACTTTGCCTC
TGTATACCTCTTCTGCTTCCACTCTGTGCTGTTATTGTCATAGATTTTCATCTTTCTACACTGTGTGTTTATCAATGTAGATTTAAAAATATTGCTTAGT
AGTTGTCTTTAGAATCCGATACGGAGAAAAGGAGATATAAACAAAAGATGCATTTTTACTGTCTTGTATGTTTACTTATGTAATTCCCTTTCCTGATGTT
GTATTTCTAAAGGCAAAGTAGGGTTATTGTGAGTGTCCTTTTGTTTCAACCTGAAAGACTCCTTTTAGCATGTGTTGGAGATATGCTAATGATGGACTCT
CACAGTTTTTGTTATCTGGGAATGTGTTAATTTATCCTTCATTTTTGAAGGATAGTGTTGGCAGGATACAGAATTCTTGGTTGACATGTAATTCTTTCAG
CATTATGAATATGTCATCGTACTGTCTTCTGACCTCCATGGTTTCTGATAAGGAATCAACTGTTAATCTTATTGAGGATCACTTGTTTGTAATGACTTGC
TTGTCGTGCTGCTTTCAAGATTCATTCTTTGCCTTTAGCTTTTGGTAGTTTGATTGTGATGCATTTAGGTGTGTACTTTATTAGTCTGTTCTACTTGGAG
TTTGTTGAGCTTTGTAGATGTATTTCATCAGATGTGTCAAGTTCTTTTGCCACTATTTTTTTTTTAAATAATCTTTTTGCCCCTTTCCGCTCCTTCTGTC
ACTCTGATTATTTGTGTGTTGCTTTGTTTGGTGGTGTCCCAGAAGTCTCTGAGACTCTGTCCAGTTTTTTCCTCCCCATTCTTTTTTCTTTCACTTCCTC
AGACTGGATGATCTCAATTTGACCTATCTTCGAGTTCATGGATTTTCTCTTCTCCAAGTGACATCTGTGAGATGAATTTTTTTCTAGAGAATTTTTCATT
TCAGTTATTCTACTTCAAAATTTCTCTTTGGTTCAGTTTTATCATTGCTATCTTTATATTATTCTCAGTTTAATGAGATACTGTTTTATACTTTCCTTTA
GTTCTTTAGACATAGTTTATGTCACTGAATATATTTAAAATAGCTGATTTTAAGTCTTTTTTTTTTATTTTTTTGGAGATGGAGTCTCGCTCTGTCACCC
AGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAGCTCCACCTCCTGGGTTCACGCAATGATTTTAAGTCTTTGTCTATGAAGTCTAGTATCTGGG
CTTCCTCAGGCATAGTTTCTGTTTTCTTTCTTTCTTTTCCTGTGTACTTCGTTTCTTTGTATACCTTGTAATTGTTGTTGTTAACTGGACATTTTGAATA
TTATAGTGTAACAACTCTGGCAGTCAGACTGTCTCCCCTCCCCAGTATTTGTTGTTGGTGAGTATTGTAGATGTTTGTTTAGTGACTTTTCATGGCTAAT
TCTGTAAATTTTATATTCTTTGAAGATTGTGGGCACCCTGAAGTCTCTGTTTGTTAGTTTAGTGGTCACCTAATAATTAACAGAGATTTCATTAAATGCC
TAGAAGCAAAATAYCTTCCAGTCTTTGCCCATGGCCTCTGTGTATGCATTAGGGCAGGCCTTGAACTCTTACCCAGGGAGTTTACAACCCTGCCTTAGCC
TTTACTACCAGCTTCTGCAGAGCATTAAGGTCAACAGGTGGTGAGAGTTTGGAGCCTACTCCATCTTTCCTGAGCRTATACACAGCCCTACTCATGCATG
TGGCCCTCTAGATTTCCAGGARTATGTTGGACCCTTTCAAAGCCCTTACAGACTCCCCAGCTTTTCCTCTCAATCTTTAGACTAGTGTGTTGTTTTCTTC
AACAGTTATCTGTCAGGCAGCAGCAAATTAAGAGATTAGCATAAATGTTTTCAACTCCTCCACCCGTCATGTGCCCCAGGGAAGCACTAAGCCAGTTCTA
AGTTAGGCAAAATAAAGACAATCCTTTTGAGGTGGTCTTCCATGGAGTCACCAGACAGGTAAACCAAATAATTAATTACAAGTCTTTGGCTGGATACAGT
GGCTCACACCTGTAATCCCGGCACTTTGGGAGGCTGAGGCAGGTGGATCACAAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCTGTCT
CTACTAAAAAATACGAAAAAATAGGTGGCTGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGAATGAACCCAGGAGG
TGGAGCTTGCCGTGAGCCGAGATCACACTACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAACAAAAAAAAAAAAAAACAAGTCTTCATGA
AAGAGGTCCATTCTGCTGTCTTTCATACCAGGAATGTGGAATGTGGACTGTTATTTTCATGGCTACTGCTAAGCTAGGAATCAAGGGATAGATGGGGACT
GGGTAAAACACCACAGAGTTTGCTGTTCTTACCAAGAATAAGCTGGGGAAGAGGGTTGTTTTTGTTTTTCAGTAAAAATTCCCTGGGCTGCTTCAAGCCG
TTGATTAATTTTCAGGTTCCGAAAAAGTTCAGTTTGACAGTTTTTGCCCTTTTTATTTGCTTTTATGGATATGTAGAACTTGAGTTCTTTTTTCCACCAG
TTTTGCTGACATTGTTTTAAAAGCACTTTTTGTAAAACCCAAATGTTGTCTCTCTCAAGGCTAGCCAATAATTAAAAATACTGTTACTCCCCTTTGATTT
TGGAAATGAATTCGTATTGACCAAAATTCAATACTAGAGGTCTTTCAAGCTGTTTTACCATTTATCTAAACTTTAGAATCTAATGATTCCTGTACATTGT
CTAGCATACTGGTGGTCCTCAATTGTCATAAGTTCAACTTTGGAACAAATGAACTTTTTGTGTGCAAGTTTCCAATTGTTTGGAAATTACATTGATGCCC
CCTCCATCAAACTGTTATTCGTGGGACATCTAGGAATTTCTTACAGCAGCTGACAAATATTTCAAGTCAGTGCCTGGTAGTACTGTCCACCAGGCAACAG
CTTCAGTAGTAGAGCGATCTTTATCTATAAGGCAGTGTTTGAGCAATTGTTTATTAGTGTTTTCCTAACTACTCAGAAGAACTATCAGGGGTTATAGAGG
TAGCTCAGAGAGTTGGGTGCAAGTAGAGAAATCCACCCGGCTTGCATTACACATCTTATTTCTAGAGAAGCTTTCCTTTGAAGAARGAGTTCTAAGGTTT
AAAAAATTACCTTGAATGCCACTTATATTGCATTTTAATTTTATTTTAGAGAAATCAATGGAAAGTAGAAAAATTAAGGCACTGATACTAGTGTTAAGAA
TGTTGGTTAAAGCTTCTGGCAATTAATTTTTTATTTCCTTTTTTAATTTTATTAAAATTTAACAATTTTCAGTTTATGCTGTAATCCAGACCAAGGTTTC
AATCTAATGAAGTTAATGCCAGTGTTGCTGCTACCTATTTTGTCTTTAGTCATTCAGCCATGCTTCCTACTTATACTGAATAAGCTAGCTTAATCTAACA
ATCAAAAAAGAAAGCTGTTGCCTAAGTTAAGAAAAACAGTTTGAACTGTTTTCAAACTAAATACCCAGTAGACTCTCTAGTTGTTGACAGGAGAATGCTT
AATTCAGAATTGTCCTGCAGTAGATCATTTTATCTCATTCCTGTTCTTCTATAGGATAGCTTATTTGTTTGAAATTGTATTTAATATGTTGTGATTTTTG
TGTGCTTGTTTCTATTTTTCACTGGATAGACTCAAGATAAAACCTGGTACCCTGCAGTGTAGCTATCAGTTTATAGCAGAGGAAATTTACATTAGAACTT
GGCTGTGTATTTACATGTATCTAACTTGGAGGTCACTCTGCTTACTGTTGATATATCAGTCATATTAGATGAGTCCCTAATGAGATACCAGAAACCCCGG
AAACATCATTAGGTGGAACAGTGTCCTTAATGCTTTATTAAGTGTTATAGGTAAGACAAAGCCTAGTACTATTTGTGGCATCAAGGTTAGGTGTTTAAAG
ACCTGTATTCTTCTATTGTCATGTTGAAATTGTTCCCTTGATGTAGCAATAGAAAATTTTAGATTAGGCTTAAGTTAATCAGCAAACAAAGATAAAAGTC
TGATACTATCCTAAATATTTTGTGTTTCTAAATAATTTAACAGTGATCCAATTAGCTACTCCTGTAGAAATGTAATTGATAAACTTTTCACTCTCTTTTA
AATTGCCATCTTGAATTTTACCTGTTTTTTAAAGCTGTCTCAAGTCCTCTCTAAAAAAAGGCAGTCATTTATAAATTTAGAAAAGCTTGATAGCACAGAA
AGTCACAGAAAAATGTAAACATAGTTTAAAACTGAATTGTATACAAGCCACTAGAAGTACTTTTATTAAGTTTACAAATATTAGTAGAGTGGAACTCATG
CATTTAATATGTTTGAAACTTTTGATCAAATACTGTGCTATGAAAAACATTTTAGATAATTATTCTTTAATCATGTGTGTGTAAAATGTGGCTTTTTTTG
ACAACCAAGTAGCTTTTCTGTGTGCCAAACTGTGACTTTAAAATTTTAAAGTACTCAACAGAGTAAACAAACCACAAATACCACTTAAACTGTACACATT
TGCACATGCATTTCCTATAAATAGTACATGGGTTTCAAGTCTTCACTTTTGAAATTCAGAAATGGGTTTTTTCTCCTTCCAGTAGAAATAAAAACTTGAT
TTATTTTATTTATTTATTTATTTTATTTTTGAGACGGAGTCTCGTTCTGTGGCCCAGGCTATGGTGCAGGAGGGTGATCTCAGCTCACTGCAACCTCTGC
CTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTGCCGAGTAGCTGGGATTACAGGTGCCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGA
TGGGGTTTCTCCATGTTGGGCAGGCTGGTCTCGAACTCCTGGCCTCAGGTGATCTGTCTGTCTCAGCCTTCCAAAGTGCTGGGGATTACAGGTGTGAGCC
ACCGCATCCAGCTAAAAACTTGATTTTTAAAAATCCAAATCGAAGACAGAATTGTGTATTTTAGTACATTTATTAGCAGCCTTGACGCTATACCATATGG
CTGTTTATCATTTAAACAGCTTGTAAAAGCAAACACTTCAGGATTCATGAGTGGCAGAAGGACTGAGTACTTTGGGAAATAAGAGAGAACTTTTGTTGAG
GATGGTTGAGGAAGAGTCCAAGACAATAATAGGCAGAATAAGCAAAAATCTAGAGACTCATTGTAGGCACTCAAGTATGTATTTGTTAGAATGAATGGCT
GAACTTGGTATATTGAGGAACACTGAGAAAGCCATACTGACTGGAAGATAGTTCCTACAAGAAACTGGTGAGACATATGTTACAGTCTAGATTTTGGTGA
GCCTTGTTAAAGTTTGGGCTTTATTTTTATACGGGGAGAAAGTTTCACAGGGGTTTGGAAATGAGGCTTGGAGCTGTTAATGGGGACACAGTGAGGTTTT
AGGGTAGTGGCTTTCAAACTGTTTAAATCCAAACTTTGATGATAACCCTGACATAACTATTGTTTATAACTTCCATTTCAGTTGTATTGGTTTTATCAAA
ACATCTTCATTGATCTTACTGATTGCTTCCTATGCAGATTAATATTATAAATTTGAATGTACAAAGGAAGCTTTAGCAGTAAAATAGCAACTTTTATCTG
TCTTACGTATTGGAGGTTCTGCATAAGATTTAATTTTTTTTTTTTTTGAAATGGAGTTTTGCTCTTGTTCACGGGGCTGGAGTGCAATGGTGTGATCTCG
GCTCACCACAACCTCTGCCTCCCGGGTTTAAGTGATTCTCCTGGCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCATGCCCGGCTAATTT
TGAATTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGA
TTACAGGCGTGAGCCACCGCGCCCGGCCAAGATTTAATTTTTTAAAAGAAAATATTTTGCTAAGGGTTTGGAAACTCTTGTTTTAGCAAGAATGGATTAA
GACTGATTAAAACTAAAGGCAAAGAGGAGGCTCTTATGTTTGGAATTCTTTGCTAATATTTACACAATATAATTCTCTCCACAAATATTTAATGGTACCA
GATATTAGATGGTTATAATGGCAAAAGTGTTCAAAGGATGCTATCATATTCATGATTCATGATCAAAATGAACATTATAAGGCTATCCCTCTTCAGAATT
AAATACGTTACTCCTGTGGAAAACTTGCTTTTAATGTAGAAGTTGTCCCARAGCCTTTCTTCCTTTCTCATGTCCTCTTATGTCCACTGCTGAGCTAACA
TGGGTCTCACTGAATGATTAAGAAAAAACATCTTAGGTGGGGAGTTCTGTATATAGTAAATGTTTAATTTATTGGGGTGGTGAACGGGAAGTGCTGCTGG
CAAGAGAGGATGGGAAGAGAAATCTACCCAAATCCTTACCCGCTTTACAGAACATAAACTTCCTATTCAGTAGTACACAATAACTTAACGATCAAGGCAT
CTTAACTTTTCTGTTTTCAGATGAAAGAACTATCGTTTGGCTTGATCAAGTATTTAGTATTTATTCGTTCACTCAAGTGCTTACGTTTTTTTGTTATCTC
AGGGTTTTACGTTAGTTATTAACCAAAAGAACTAGTTTTAGTTCTGGAAGTCTAAAATATATAAGAGAAGGTGAGGAGTAATAAGAGAAGATGAAGGGAG
ACTTTCGGAATGGCCTATGAACTTCTAGTAACTATACCACCTTAAAATAGACAAATTACAATGCAGTTATGAAGATATGTATTTTTCAGTGAAGACAACT
AAAATGTTTGCACAGAATTTTCTTTTTTATTGAGTGTTAGAAATTCTATTTTGGAGATACTACCTTGCACAACATAAAAAGAAAAAGTGAGTGTGGAATC
TAGGAATCTACGTGGCTCTAGGAAATTTTTTAAGTGTGGAAACTGAAGGAGAGCAAGAGAAAGGGAGCATGGCATTCCCCTGTTTGTAGTTCATGAGGTG
GGTTTAAATTGCCTTTTGCCAATGCAGCTGCACACTGAGGATTACAGAATTCTTTTTAAATGTTTGTAGAATTATTTTTCACTTATTAGGTAAAACGTGT
ATTTTTTGATTTTCTCCAATTTCAGCTTTCTCATGTTGCTATGCTCMATTTTGTATACCATATATAGTTTTGTTAAATTGACAAAGTGGTGTTTTTTGTT
CTTCTTTTTCCCATTGGTTAAAATTTAAAGAGAAAGTGGAAGCTAGAAATTTATCTAAAAAATGTAACTTTCCCTGTAATTATTAAAGTATCAATCTAAA
TTTGAATTTTCTTTGTGCATAATCTTTTTTCAAGCTATTTACCATGTTGACAAACTTGCTTTCCTGTGGCAAATACACTAGCAATACGTTATAAATATGT
AACTTTCAACCTATTTACAGTTGATGCTTTTTTAGCCCTTTGGATTTAAAATACAAGCACTGAAGAGGTGAGGAAGTACCACTGCTGCCTCAGCATTATT
TCGAAATTCTGTTTATAAACTATACAATTTCCAAGGTCATGAATCCAGCACCTTTCCAGGTACTAACTATTGGGACAAAGATAGAATTTGATTTTATTTA
TTTACCTATTGACTGAAGTCTAACTTAAATCTTGCACCTAGTAAGATCTTAGAAATAACGTGTGTACTCTGACCTGTAAACTAATCCTAGTATTCTGTGT
GTATATTCTTTCTCATTTGGGCTCTTAAAAGGAAAAGTAACGTACATCTGATGATCATTAGCACTGAGCTTTTTCAGCAAAAAGTATATGTTTATAAAGA
AGTATAGGATAATTTAGTAATTTAATAATGTGACAACATTTGCGTGTGTTTTTTTTTTTTGAGAAATACAAATTGTGAGAAACAGAAAAGTAAAAGAAGC
AGCAGCAGAAATATCACTATAGGATCAAAAGATTGCAGGAACCAAAACTCCAAAATTATTGGGCATAATGTACTAAAAACAGGGCAGTGGAGGAAAGGGA
CAGTCCAGACTAGCTCTGAGGGTCCAAAGAAAGTATTAAATATTGTTACTGGAGTGATTTGCTCTGCTATTTGGGCTTGGGAATTAAGTGAAATTGTTGA
TATACTAGACAGATACTTCCCACCCATTTTTCTCTTGATAATCAGGGTTCATTTTTTCTATTTTCTATTTCTCTGGATGCTCCATTTCTTAATATTAATA
TTAATATTAAGCTCTCAGTCTTTATGCTAAAAATTGGTTATTTAAAACAATTTAAATCAACTTCAGTCTAATTGGCTTAAGTTCAAATCCATTTTAAGAT
CGATATTGTGTCCTTTAAAAATTTTATTTAAAAGATATTTAAACTGATGAGAGGATACTACCCATTCCACTGATAAACTATTACTGTAAGTTTGTCTATT
GAGGGCTAGTTATTTGGTTTAAAAATGCTGAGATTATGGAAAGTGGATTGGAATATTTTGGAGCAATATTAAAAACAGTATCTGTAACAATTTAATAAAC
TTATAAATTCCTCTTTCTCTGTTGATCTATCTTGAAAAGACACTCTATGTCTCTAGGCATTCCTTCTCTGTGGTGTGATTGGTAGACAGGGAGTAAACAA
CTTACTGTAAATGGGCACCATGCCAGTTGGCTTCAGGCAGCATCAAGCTTGTGACTCACAGTCAGGGTTAGGAAAATGCCTTTTAACTTGTTTGTCTCTG
CCTCTTTTAAACATTAAAGGCACAACTGTACTAATTATTAAGTATTTCATAAGGTCTTTTAGGGCTTATAAGATCTTTTAGGAATGGCCTGGAAGTTATT
AGTACTGTTTCATTGAATCTGAATACCTTTAACATGATAATGAGAAGTTTTTAAAGGGTGGTTTTATAGTTAAACGGAATTTCTCAAATTGGCTTGCTCC
TTATGTTGATTTATTTAGGATCACATTTGGGAGTTTCTCTGCCCTACTTTCAATGTATTTAATTTACTGACCATCACTATTTGGGGGGAAAATGTTATAT
GATATTTAGAAACCAAGAGTTTTGGAGTTTTTCCCCCATTAGATGTATTTATTTATTTATTTATTATTTTTTAAAGACAGGGTCTTGCTCTGTCACCCAG
GCTGGAGCACAGTGGCATGATCCTAGCTCACTGTATTCTTGAACTCCTGGGCTCAGACTGTCCTCCCACCTCAGCCCAAGTGGCTAAGTATCAAGTAAGA
ATCACCTGGCAAATTCCAAGGCTGTATACCAGATTTCCTAAATTAGAATTTTGGGGTTGGGTATCTGAATTTTAGTAAAGCCCTCCAAATGTTTCTGGTA
TTGCTTCTAAGAACAATTGATAACATAATAGCTGTGGCCATTATAGGGGTATTCTGTCATATTTAGATATARGCATACCTTGTTTTATTGTACTTCCCAA
ATATTGCGTGTTTATTTTGTTTTGTTTCACTTACAAATTGAAGGTTTGTGGCAACCCTATATTAAGCGAGTCTGTCAGTGCCATTTTTCCAACAGCTTGT
GCTCATTTTGTGTCTCTGTGTCACATTTTGGTAATTCTCTCAATATATCAAACTTTTTCATCATTTTTGTATCTGTTACGACCAGTGATCAGTGATCTTT
GATTTTTTCTTTTTTTTTTTTTTTTTGAGACGGACTTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTTCAATCTTGGCTCACAGCAACCTCTGCCTCC
CAGGTTCAAGCAATCCTCCTGCCTCAGCCTCCCCAGTAGCCGGGCCTACAGGCGTGTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGG
GATTCCCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCTCACCTTGGCCTCCCAAAGTGCTGGGATTACCGTGCCAGCCTGATGT
TACTATTTTAATTGTTTTCAGGCACCATAAACCTCACCTGTATAAGGCACCGTACTTAATTGRTAAATATTGCGCATGATCTGACTGCTCTTCCAACTGG
CCATTCCCTGTCTGTCTCCCTCTTCCTGGGACTCTCAAATCCCTGAGAGACAATAATATTAAAATTAAGCTAATTAATAACCCTACAGTGGCCTCTAAGT
GTTGAAGTGAAAGAGTTGCATGTCTCTCACTTTAAATAAAAAGCTAGAAGTGGCTAAACTTAGTGAGGAAGGCACATCAAAAGCCAAGACAGGCCAAAAG
CAAGGACTCTTGTACTAAACAGCTAAATTGTGAATGCAAAGGAAAAGCTCTTGAAGGAAATAACTAGTGCTACTCCAGCAAACATGTGAATGATCAGAAA
GTGAAACAGCCTTCTTGCTGATACGAAGAAAGTTTTAGTGGTCTGGACAGAAGATCAAACCATTCACAACATTCCTTTAAGCCAAAGCTTAACTCTCTTC
AATTCTATGAAGGCTGTGAGAGGTGAGAAAGCTGCAGAAGAAAAATTGGAAGCTAGCAGAGGTCGGTTGATGAGGTTTAGGGAAAGAAGCCAGCGCTGTA
ACATAAAAGTGTAAGGTGAAGCAGCAAGTGCTGATACAGAAACTGCAGCAAGTTATGTAGAAGATCTAGCTAAGATTACTAAATAATAGATTTTCCATGT
AGATGAAAAAGCCTTTTGTTGGAAGAAGATGCCATCTAGGACTTTCATAGCTAGAAAGGAGTCAATGTCTGGCTTCAGAGGACAGGCTGACATTCTTGTT
AGGGGCTAATGTAGTTGGTGACTTTAAGTTGAAGCCAGGTCTCATTTACCACTCCAAAAATCCGAAGACCCTTAAGACTTATGCTTAATCTACTCTGCTT
GTACTCTAGAAATGAAACAACAAAGCCTGGATGACAGCACATCTGTTTATAGTATGCTTCACTGAATATTTTAAGGCCACTGTAAAGACCTGTTCAACTG
CTCAGAAAAAAATGATTACTTTCAAAATATTGCTGTTCATTGACAGTGCACCTGGGCTCACCCAAGAGCTCTAATGGAATTGTACAACAAGATGGATGTT
GTTCTCATGCCTGCCAACACATCATCCATTTGTAGCCCATGAATCAGGGAGTGATTTCAAGTTTCAAATCAGTACATTTTGTAAGGCTATAGCTGCTATA
GACAGTGATTGCTCTGGTGGACCTGGGCAAAGTAAATCAAAAACCTTCTGAAAAGGATTGGCCATTCTAGATGCTATTAAGAATTTGTGATTCGCAGGAG
GAGGTCAAAGGATCAACATTAGTAGCAGTTTGAAAGAAGTTGATTCCAACAGTTATAGATGAATTTGAGGGGTTCAACACTTCAGTTTAGGAAGTCACTG
CAGATGTGGTAGAAACAGCAAGAGAACTAGAATTAGAAGTGGAGCCCGAAAATGTGACGGAATTGCTGCAATCTCATGAGAAAACGTGAATGGATGAGGA
GTTGCTTCTTATGGACAAATGAGCAAATAAATTTTTTTCTTGAGATGGAATCTACTCCTGGTGAAGATTCTGTGAACCTTGTTGAAATAACAACAAAGGA
TTTAGARTATTACATAAACTTAATTGGTAAAGCAGCAGCATGGTTTGAGTGGATTCATTCCAGTTTTGAAAGAGTTTCTACTGTGGGTAAAATGCTATCA
AACAGCATCTCGTGCTACAAAGAAATCTTTTATGAAAAGAAAAGTGAAACTTCATTGTTGTCTACTTTAAGAAATTGCCACAGCCACCCCACCTTCAGCA
ACCACCTCTCTGATCAGTCAGCAGGCATCAACACTGAAGCAAGACCCTCCACAAGGAAAAAGATTACAACTCACTGAAAGTTCAAATGATTGTTAGCATT
TTTAAGCAATATTTTAAGATTAAGGTAAATACATTTTTAAAGACACAATGCTATTGCACACTTAATAGACTACAGTATAGTATAAATATAACTTTTATAT
GTAGTGGGAAACCAAAAAATTCGTCTGACTTGCTTTGTTGCAATATTCACTTTATTGTGGTCTAGAACCGAACCTGAAATATCTCAGAGGTATGCCTGTA
TTAATATTATTTTGCAAGTAAAAAACCCAGCATATAAAAAAAACGTAGAATATGTTGAGAGTTCAGTAATATGGATGAAAATGTTTTTCTCTAACTGAAG
AACATGATAAATTATAATTAGGGAAGGATATAAACCAAGAAAATATGTCTGAGATAGCCAATTCTTGCAGTTCATAATATGAAAACTCATTATACCAATC
TCAGTAAGAATACTTTTAATAGCTGTTATTTCTTTGGGATATAGAATTTATAAAGTACACAGTAATCTTCTTATGATCAATCCTAGGATCACTTTACAAC
CACTTACCCCATATTACAATGTAGTACCAAGACAAGCAGACCAAATTATAGAAGGACAAAGTTTTTGCTAAGCATATTTTGTCATCAGCATACCGCATTG
TGTGTGCATGCATGTGTGTGTTTGTGCATGTGTGTGATTGTATAAAATATTAGAAAGCCACCCCAGAAAAGTTAAATGACTAGGAATGTTGTGAAGGGAT
TAAGCTACCCCTAAAATTATATAACAAAACTCTCTTCATCTATTATTAGGTCATCTTTAGAACATCTTCTCTTAAATTTGTTATAGGTCTCTCTCATCTG
TTTGGATTAAAATTGGTCTGAAAGCCTAAAATGGCTTTTTACCTATATAATTATTTCCCAACTAGCTTGTAGTATAGGTGCAAAGCTATCACACTTGCTA
GGTTAGTGAAGTATGTAAAAACTACCATCTTTCAATTAGGAACCATCGGATAGCTTCTACAGGATTGCTGGGGAGAACCTTTATAAAGAAAGTTATATCT
TTATAAATTTTTTGTCATTTTACTTAGCTGAGAATATAAAATAAGTTAGCTAATAATAGAGTAGAAATGTTTTCTGTAACAGATTAATATTGATCAAATG
TGTTATTAAATGCTAAAACACCATTTTTTTTCTCTGTAAGCCATGTGTTTCATGCCACAACACAAAAGGGACAATTGTCTGTGTTTTATGACAGTTCTGT
TCTGTCAGATGCTGTTTGTTCATTTTGGTGAATAAATGAAGAGAGCCCTGGACACATCTTTTTTTCCTCAACAAAAGAGGAAAATTATTCTTGTCTGTAT
GTCTATAATCCTGACTCTTTGAATGGCTTTAATTTTTTTAAAGTCAGCATTTTTTTATAAAGATAGGTGTTTGGAATGTGGGCGATATGGCTGGACAGTT
AGATTGGGACCAAATAATGGAAGGCTTTGAACATCATGCTAAGAGGTTTGGGTTTTACTCTGAAGGCAGTAGAGAACCATTATGTTTTTAAGCCAGGATT
GACTTGTTCTAAGCTGTACCTTAGAAATATTACTCTGGCAGTTGTACATAGGATGAGCTGTATGTTGCTTTGTTTTGTTTGGGGAGACAGTTCTCGAAGA
GAGACTACATACGAAGGCAGTTATATGAGTCATTACTAAAGGTCTGGCAAGAAGTAGTAAAAGCATTAACTGGAGTGGTAGCAGTAGGGAAGGAAATAAA
AGGATAGATGTGGGAGTCATTTGGAAAGTATGAGGCAATTCATTGACCTTACAGAATCACTGGTTTTCTGCTTCCACTCCATTCACATTGACCTTTCCAA
GGTTATCAGTGACCTGCTTGTCCTTAAATTCAGTGGGCACTTTCCAGTAACCTACTGTTGGCACCAGCCCTGTGCTAGACAMCAGGATCCTGTTTGTAAA
GGCATCTGCCAGTGGTTTCTGTGACACAATTCTGTTTSTAGTTTTCCTCCTTCTACTTCTCTAGCCTCTTGGCAAGTTCTTCTTTCAGAGTTTCTCAGAG
CTTTGTGCTAGGCCCTCTTCTCATTTTCTCCTTCTCTAAGTGATCCCATCCTTTTCTGTTGCTTCAGTTACCATTTGTCCTTATGCAAAGGACAGCCATA
TCTACTGTATCTCCAGCTCAGATGTATCTCTTTGCCTCCTGACCCATATTTCCAACTATCTAACTGGGTATCTTTTCTTGGATGAGTTATAGGTCTCTCA
AACACAACATGTCCAGAATAATTCATTGACTTATTCTAAGGCCTGCTTCCTCTTTCTCCTGTAGTCCCTATCTCAGGAAATATATGGTGCTATCAACCCC
AAAGCAGAAATCTGGACATAATCCCTAACTACCCTTTTCCCCTCTCTGTGCACATAATTTCAGTCATTAGGCCTCATAGATTGGACTAAATAAATACCTC
GCAAACCCTTCTACTTATATTCTTAACTGCTCCTACCTTAAGCCAGGCTACCATAATTTTGTAGCTGGATGACTGCATCATCATCTTGACTGGCTCCCTT
GTCATCTTCAATCTATATTCTATACTGCAGCTAGAGCTTTCAAACATAAACATGTGATCAGATTAGTCCCCTCTTTAGAACACCCTAGGGTTCTCACTGT
CCTGAGTACAGTCTAAGGGTTTACCATGGCTTACAGGGTCTTTTATGATTTGGTGAGCTTTTTATTGTATAACCTTTCTAAACTGCCTTTACTTCCCTCT
TTCTTGGCTCTGTGTCTTTGCATAATGCTGTTCCCTATACTTCACCTCACGTCTAACCTTCATCTCCTTTTCACTTCTCCTCTTCCTCCAAAATCCAGCT
GAATATCACATTGTCATGCAGGCCCATTCTTGATCTCCCACGTTTGGGTTAGATATCCCTCTTCAGTACCATCACCGCACCAGGTGTGTCCCCTATCCTA
GCATTTGCCTCATTGTATTACAACTACTGTGTACTCGTCTCTACAGCTCCTGCTAGTCTAAAAGTTTTGGGAGAGCAAAGGTTCATGTTTGTGTTTTTCA
CTGTGGTATACCCCAGTGCCTAGTATATGATAAGCTCTCAAAATATTTGTTAGATGTATGAAGAAATGAGAAAGAGAACAGGAAGAGGGTAAGTTTCAAG
ACTAGGAAACAAGGCTATGAAAGCTGCAGGAAAGCAGCAGGTTAAAACCTAGAAGAAGAGTTTGTTTTAGGAAATACTGTGTTTTAAACCACTATAACTG
AAGCAAAAACCCAAGGCCTGGGTGTGGATAGAGTCCACTATCTGATAACAGTGGATACTGATGCATGGCAGAGTTGGAGAGGAAGAGAGCCAGATTCCAA
AACAGAAGGGGTAAAGTCTTCTAAGAAGATAGATTATAGTAAGAAGGATTAGGGGATAGAAATATGAGCCTGTTCCACTCATAGATCTCAAACATGAAAT
GATGAGTCATCATGAAGAGAGTAGGCAATTGTCCAGTGAAGAAGGGGATGCTAACCCTTCTTAACCTTGAATCTCTCAGGTAGAAGCAGTTAGAGAAGGA
ACAGCCATCATCAGATAGTGTTGTAAGGAAAATGATATCCTTGGGGAAACCTGCATTTTGGTAAAGCAAAGCAACTAAGAAAGAATATACTACCACTGTT
TAACAATCGCCACAAAAAGACAGTAGGATCATCTTTGACCCCCCTCATCCTTTCTCAGGAACTTGGAGGACTAAGAAGAGAGAAATCTGTAGAAGAGGCT
TCTCTCTCTGATCCTCCCTCCACTTCAGTTTTACCACATGTAATGCAACAATAATTAAGAATTTGTGTAAAATTTCACCAGGTTGGCATGCATGGAGAGA
AAAATTATTCAGATGTTTTCCTTTGTCAATAATACAAGGAGCATTTGTAGGGAAAAATATTTACAAATACAGTAAGACCTATTCTCTTTCTATAYTTATG
GGAAAATTTTAAGTTGTGCCCTTGTTTCATGTGTGTTTCTATTTAAAGATACCATACTTAATATATAYTGTTGATTCATTAACAYTGAACTCATGGCTAA
CAGCACTATAAATCATGTCTGATCAAAACTTATGATACATGTACTTTCTTCGTAAGGTACATCATAGTCTTCTCGTACATGGGAACTCTAGGTAGTACTT
CAGGACTATGCATAGAGGCCATTTTAAACAGCAAAATTCCCAACAAAAAGCACAAAACTCAAAAAATGTGCCACTAAATTTACCATGAAAAGGACACTTG
TTTACAGTTTGAGAGCTAAAACAAGAAGGTGGCGTGTCACTTCGTTTGACTTCAGCTGGGAACATGCATATCAGTCGACTCAAATTTTTTGCTATTCTGT
GCTTATCCACGAATCGATAGGAAAGCAAGTGTGGATTTGGGGGTTACAAATAAAATGTAGCAAATGTGTAAACTTGCAGATGTGGAATCTACAAGTAGTT
AGAATCAACTATGTTAGTCTGATCATTAAATCAGTTTTTTAAAGTACTATTGTAACACCTTATAACCTGCCCCATTCACTGAGTGTTGTAGTTTATAGTT
TCATTGGGCATTTTCAGTAGTTTTATCTGAAGTCACATTTCAAATTTTGTAATTGAAGCTCCAAAGTATGCTACCGGAAACACRAGCTGATGCTGTGAGA
CAAAATCAACAGGTAATCCACCATCACAACTGTGGGCTAGAATGCTCAAGAAACCTTGGAGGCCCAGAGAGCTGAGATGAATACTGAAGAATCATAGGCA
GGTTTACTCTGTCAAGCTGCCTGTATTTTGAGGGTGTAGTCCTCAAACCAAAAAGACACCAAATGAACAAACTCAGATGGCCTCACTGGGGAACAGAGAT
TGAAAGCTGACACTGGAATGTGTACTTAAAAAAATGAGAGCCCGTTTTGGAAAGGCAGACTGGGCACAGAATGTGGAGAGCTATATTTGCTAACTGAAGA
AATTTAGACTTTATCCTCTACAAAACAAAGCTATTGGTTTTTGAAGGTTGCATAAAAGCTGCATTTTAGCAGCATATATTTTGGTAGAGCTGTTACCTGC
CTGAAAACATCAATGTCATTTCACACAAATGATACTTATCCCTTGGTGTTTGATCTAAATTTCTACAATGAGAATGTGATTTTATAGTCTTTACTGGGGA
AGGAAGTAGGTTTTTCAGGCYGAAATTCTTGTGTAGCAAAAATTAACACTTAAGTTAGCCCTTGGCAATCTCCAGTTCTATAATGGTAAAATGGATTTCC
CAGAAAGTCACTCTCTATCCCTTTGAATAGACATTAGAAATAACATGTACTTTAAGTGGGATTTACAGAGGAAGGGGGCCTTTAATTCTTTACTAGTGTG
ATGCCCTGTAAAAAAATAACTAACATTAGAGTTGAGGCCTAGAAATAGCAGCACTGGGTTAAAGTCTGTTTTCAAGTGCAAGTTTTTCTTTTTATTCGTG
TGTGTGTGTGTCTGTGTGTGTTTCACATAGAAGGAGGAAATGCCAATTTCAGTTCTTACAAATATTAATGACTGCAACTTATAAAAATGTTACAGACTAT
ATTCTTCCCTTTTGTAACAGATGAGAAGATTTTGAAATTTAGTCTCTACTTTTTAGTTTGGTAAGACAATTTGAATAAACTGCAATAATTGCAAAAGAAT
TCTGAATATTTGAACATTTGACATTTTCTATGTCAAATATACATTTCTTGTACTATATAAACATTCTAGAAAAGAGAGACAGGCAGGGAGGAAAGTGCTC
ATTAAAAAGAGCTTCACCCTCTCTGAAAAGGGATTTCCTTTACAGTGCTGTGTACTAAAGCCTGTGTTGTAAATCAGAAAGCACTGAGCACACATGTTGC
TGCTTTGGTAGCATCAGAAGTCGATTTTCATTAGCCTTATACCATTCACTATTTCTGCCAAGCAATCTTAAATTATAAAAGAATCTTATTTGATTTTGTG
ATTCTCTTGTTTTCTGCTCATAAAGAAAATATCCTAAATTGAACAATGGCATGCTACGTTTTTAGTTTTTAAGACAGCTAATGTGTAAAAAGACATTTAA
AGTATAGTTGTGTTAAGTTTTTGAAGTTTACAGTTGTTTCAATTTTGCTGCTATACTTTGTTAACATATTTTAGGAATATTTCATTTTAGTCACAACTAG
GATATAAACATTATTTTGGTGGCGATCTCCTTGTAATCACGACRTCAACCAAATTTGGGAAATTTTGATTTGTTAGATTTATAAATTTTACAGTAACACA
AAAGTCTAATTTCCTATATATTTTCAAGGCCCCTATACCTTTGTCAAAATAAAGTATCAATGAAAAATGAAAAAATCATAAACTATGTTCAGGCCAAACT
GATACTGACTTTGTTAAAAGGCTAGATAGAAATCTGTTTTCCTCTTCTGTTACATCTCCTCTTCTGGAGACCACTCTGTGTGGACTGAAGGTTTGAGATC
CTAGGACCTAGGCTAGAACAGATTAGGAGATTGTGCTGTATGTTAAGTGGCAGATACCATGGAATTCTAAGCCTGTTACGAAGGAGGAGAAGAAGAGGCA
CAATGACCCTGACACAGCCCCTGGGTTGACCACAGCAGATATCTCACTTGAGCAAGTAGATATCATCTCAATTGCTTGCTGATTATCTCTAACTTGTCAG
TAACTTACTTTGATAACCTAGATTTAGGAGTCTGACAGCATGCAGTGTATGCCTCATAATAATCTGCTGTTTATGAAAGTCATAACATTGTATGTTTAGC
ATAATGGTGAAGAGCCTGCCATCTGGAATGGTCTACTTATTTGGGATCCACATACAGTAAGCTCTCACTTAACATCATCAGTAGGTTCTTGGAAACTGTG
ACCTTAAGCAAAACAACCTCTAATGAAACCAATTTTACCACAGGCTAATTGATATAAACAAGAGTTAAGTTCCTGTGGCATATTTCTGGTCACAAAAACA
TCACTAAACTTCTAAATAAAGACCCAAAACACTTATAATATTAACCACTGAAATAAATGTGAGCTATATATATACATTTAAGAATAATAAAAACAAAAAA
TAATTATTTACCCAATTTTTGGTGAACCAGTGAGTGATAGTGATCATAGTGATGGTGGATGAAATCAAGGAATAAATATTTGCAAAGTGAAAATTGTAAG
AAGCACCCCCTGTCACCACATAGCTCAGAAATAATAATTAGGGCAGGCTTGCTGAGCATTTTTAAACTGCACTGTTTATTGTCATGCATTTGAATGATTA
TCGCAGACTTTATGAATTTTCATTTTATAWTAATTTGTAGGCCAGGCACAGTGGCTCACGTCTGTAATCCCGGCACTTTGGGAGGCCAAGGCAGGCGGGT
CACTGGAGGTCAGGAGTTCAACACCAGCCTGACCAACATGGGGAATCCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGTACACACCTGT
AATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTAAGCCGAGATTGTGCCCCTGCACTCCGGCCTGGTG
ACAGAGCTAGACTCTGTCTCAAAAAACAATAATAATAATTTGTATTCATTCATTTTCCAATGTGTTCATTCCAGTTCAGGGTCCAGGGGGCCTGCAGCTT
ATACTCATAGCTCAGAGCAACTGACCCTATAGACAGGACGCCACCCCATTGTAGGGTGCACTCAAATGCACACTCACACTCAAACTGGGACCCTTCAGAC
ATGCCAGTTACCGTATCACACACAGCTTCGGGATGTGGGAGGAAAGCGAAGTATCTGGAGAAAAACTACACAGACATGGGAAGAACGAGCCAACTCTACA
CAGACAGTGGCCCTGGACAGAGCTGGGCAGGCATCAGTTTTTTTTCTTTTTTTTGTGGGGGGTGAGGGTGGGGCATGGAGTCTYACTCTGTCACCCAGGC
TGGATTGCAGTGCAGTGGTGTGATCTCAGCTCACTACAACCTCCACCTCCCGGGTTCAAGAGTTTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACA
GGCGCCCGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACAAGGTTTCACCATGTTGGCCAAGCTGGTCTGGAACTCCTGACCTCAGGTGATC
CACCCGCCTTGGCCTCCCAAAGTGATGGGATTACAGGCGTGAGCTACCGCGCCCAGTCAGCATCATTTTTTTTTTCTCATCAACGTTAAAACAATGTTGA
ACAAAACATTATTCAAAGACCTGCCGTATGGCTATTTTCTAGTTGTGTGACTTTCTTTGGGAAAGTTAGCAACCCTTTCTGAGCTTAAATGTCCTCATTC
ATAAAATGGGGCTAGTAATAATGCATAAGGTTTTTGTAAGAATTAGAATTAATAAAGTACTTAGACCATAATAACTMATTAGTATTAGTTGTTGTCTTTG
CTATTATTTTGATGTGGTGGTTGTTTGGTTTCACCTGTGTACTATCAGGACATGCTGAAATAAAATTTAAGAATTGGCTTTATAATATTAGAAAAGCAAA
CTTTTGTACGATATGGGTATGAAAAATTGTTGGGAGTCTACTTTTTCTCTCTTACCTAATTTGTCTTAGTCTTTTTAAAGCTTAGATTTTCCAAATGAGC
CATAGCAAAATATAATGTTTAAAAATGTTTAAATTCTAAGCACTATGTCATAGTTAAATAACTTAAAGGTGCTACATCTTATACAGTCCAAAAGGAACAT
AATTAGTAAAATTCTACAATTTAGAAAAAAAAATAGCTGACAGTGACTGATTTATAAAAGTAAAATATCTTTTGTTAATACTAATATTCTTTTTATAAAT
TAATTGATGACAAAAAATTGAGTGAATGAGATTTGCAGTTCATTTATCTATGATGCTGGTTTATTTAATCTCTATAATTTGCTGTATTTGAAAGAGCATA
GTGATAGAGGTCATGATAAAATCTAGGCCCAGTGCCACAASTAAATCCCTGTAGGAACTCTCAAGGTTTTGATTTCWTCTCTGAATGGGAATAACACCTT
CCAAGAATATTATGAAGATTAAAAAGTTACGTATCATAAATACACACAGAGTAACAATACTGGGAATATTGCAACTTGTAAGAAAGAGGAAGCATATGGC
ATATTCTGATGGTTAGGGATATGGACTCTGTAGCTGGGATGCCTGAAAGAGAACTCTGACTCCACTAATGGCTAGTTATATGAAATTGTGCAGATAATTT
AACTTCTCTGAGTTTGCATTTTTCTTTGTCTATATAATGGGGATAATAATAGTACCTACCTCACACATAGTGTTAATTTCTATTAGTGGTTCTCATTARG
ATAGTATTGTTGTTCATCCCTGGTTGTTAGCCATCATGTATCTGAGTTAGAGAGTCATTGATTTTAGAAAGTCCCGAGGAGACTATCAGGTCAAGCAACC
TGCCTCCTGCTAGACAATTAGCTTTATCCATGAGTTACCAAAGAGGGAGCCGAAACCCAGGGAAGCTGAAAGAGCTGTTGATTGTCACCCTGTGAGTTGG
TGATAGAAAGATATCTGGAATCCCAGTAGTTGCCCATTTCCTAGTTCTGGGCTCTGCATTGCACTAGAATACTGTGCCATTCTAAATATGAAAAGGCAGT
ATGACCATTGTGCTTGTCACTTTCCATTCCCTAGATGCTATCTTATATTTGTCCTTATGAAATTTAACCTGTGACTTTCAGATCACTTAGAACCTTGGTT
GGACAGTGTTTTCTAGTGTTATTTAGTATATTTTTTTGTCATCTTCTGTTGTCTTTGGGTTCCCCTAAAAGAGCTATACTCTGGGTGCCAGGAAACTTCA
CACATGACTGTCTTCTCTTCCTCGACTTCCCTCTCTACTTACCTTTCCAGCTCGTAGCAAATCAGAAGACTTCTCTGACACCTCTCTATGTCTAAAGGTC
CTTTGATATTCTCACATGGCGGCATGAATCACAGTGTATTTTAACTGGCCTTTTCCTTGTRTGTCTCCTACAATGAGCTGTTGAAGCTTCATGAAAACAC
AATCTGTTTTACTCAGGGCAGTTATAATTCCAATTACAAAGCACATTTCCTGGCTCCTGGCTAGGAACTCGATCATTTTTCGATGCTTCCTTGCTCAGGA
CTTTCTGATTCCTTCTTAAAACATTTTGGGGCATCTCCTTCTCCTGGTTTTTGGAAACATATTCTCATACTGCTATGAAGGTTTTTACTGACATTTCCAA
CTTCTCTTAAATTGATTCAGCAAATGTTTTTCCATAATAAATGTCATTGATATGTCATCAATATGGAGAGCAACAACAGAATGCATTGAGTAAACTCCTC
CCCTGGAGGTCTGAGAATCTAGATTCCAGTTCTCACAGAGCCACCACCTTGGTGACCTTGGACAGTAGACCTTCTAAGCCTCAGTTTCCTTATCCCTTAA
GTGGGGATATTAATAGAACCCATTCTCAGAGATGTTGCCAAGATTAAAATAACCAAGATAATTCCTGTAGATGATTTGGCATAGTGCCTGCCACGTACTA
AGCAAGAGTTAGCCTCCGTCATTATAGTATGATCATAAAAAATGAACAGACTAAACGAAGTAACCAGAAGGAAAGAAATTTTAATTCTTAAAATGTAATA
GTTTCTTGGTTTTTTTTTTTCTGTGAAACACCTGCATGGCACCTTTTTGTTATTCATMCTGTTTTGACTGTGGCTGTCGTAGATTCTTGTTGAAAGTCTG
AGAGACTGAGACTTGTCATTTTGAACATGGCATCAGTGGAACAGCTTATGATTCAATAATTGCATCATCCTGGACAAGCACCAGTAGAAGTGAGTCAGGA
CATGTGATAAAAAGACATTCATTTTGCCCCTCCTCCCTCTCTGTATTTTCTTTGCTATAAAATTATTGATGTTAAGCCCATAGTACTAATATTTCAGTTC
AATTCATAATAAAATTTGAGGGCATTTGAATATATTATCTGTTGTAAATTATAATTTTATATTTGACCACAGAGTATTTGAAGTGGGTCTTTTCTTTCCC
CAAAATTCTATTTTAATAACTAAAAAATATTCTTAGGAGAAGTATTATTTAAGAACAGGTTTATATTAAATAACATCATTTCACTTTCAACTTTCTGGTG
GTCAAAAAATATGCTAATACTAATTAGGATATGATACACATGTTCTGTTAGAACAGTTTTGGCAGTTAGAAGACTTCTCTTCTTGTGTTTGAAAGGGATG
TTACTTGGGGTAGTTATGAGCCATGTATCCAGATGTCCTGAAAGGACCAGTGGTAGATGTATTTCTATTTTTGTCTTTTCTTTTTTCTTTCTGGCATTCT
AGTTGCTGAGTGACTGACTTTTGTTTTCAGCTCTTCTCACAATCACCATTGTTCTAATAACTTTGCTTAAATAGAATGTCTCCTTTTGCTATAAGCCATG
GGGCCATTTACCGTTAATTTTTTAAAGTACTGAAATGAGAACCTCATAAATTAAAGAACACTCCTGATTCTGAGTTAGCAGATCCTACTAAGCCTTTTGC
AGATGGAAATTTCCTTTAAATTGGTTTGTTTTCCTTTAACATTCCATTATCCTATTGTTCATTCTTTGGAGCTGTGATTTGTTTAATATATTTCAGGCTT
CTTAATAAATCAAGTCATGTAAGTTATTATTTGGATCATTTCGAAACTACAACAGCTTATCAAACCTCTGAAAGAAGAATTTTGTGTTTGCCCACAGACT
GAAGAACTGATTCAGTTTTATTGGCTGAGCTACCTTCATTATTCATATTTAATTCCTGGTACTGAGGGTGGGAGGAGGGAGAGGAGCAGAAAAGATACAA
CTATTGGGTACTGGGCCTAATATCTGGGTGATGAAATAATATGTACAACAAGCCCCCGTGACATGTGTTTACCTATTTAACGAACCCTCACATGTATCCC
CAAGCCTAAAAGTTTAAAAATATATATTTGGTAAATCAATTGATGTGTTTTAAAAAATATCGCCTTTTGGCCGGGTGTGGTGGCCCATGTCTGTAACCCC
AGCACTTTGGGAGGCCAAGCCGGGCGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAA
TAGCTGGGCGTGGTGGCGCGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGGGAATCTCTTCAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAG
ATTGTGCCATTGGACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAATCATCTTTAAAGAGATAACTAACCCTTC
CCCAGAAGGCAGGGCCAAAGTCTAAGGTTCTTCCAGGTCCTTTGTATTCCCTATAAATTTTAGAGTCAGCCTGTCAATTTCTATACACACACAAAAAAAG
CCTGCTGGGATTATGATTGGTATTGCATTGAAATTAAATCAATTTGGGTATAAGAGACTTCAATTTGGGGATTGAGTCTATATTGAGTCTTCCAATCCAG
GAACACTGTATATCTCTCCATTTAGTCAGATATTTAGTTTATTTCAACAATATTTTCAGATCTTTAGTTCCTTTCAGCAATATTTTCTCATTTTTCCTGT
AAAGCTCTTGCACATCTTTTGTCCCATATCTATTGTGTATATGTGTTTTGCTAGTTATTAAATTATATTAATATAAATTTTATTTTCCAATTGTTTGTCG
CATATATAGAATGTTTTAAAAATATTGTGTCCTGTGACCATGCTAAATTAACTAATTCTAGTCATTATGTCTTCATTATCTTTCTCTTGAATTTTCATTG
TCTTCCCCTTCTGGGACTCCATTCATATGTAAGGCCATTTGATACTGTCTCTCAGGTCCATGAAGTTCTGTTAATTTTTCTTCATTCTTCTTTTTCTCTG
TGTTCTTCAACTGAATGAATGCCATTAATAATTTGGTATGTAATGGCTCACTTAAACTTCCTTTTGTTTTTAAGATATTTCTACTCTCAGCTGTGTCTGG
AATCCTTTAGTCCGGAGCCCCACCAACCCTCAGCCTAGAAGGAAGGAGGAGAAGGATAGGGTGAAAGGAAGGGGAGAGCTTCTAGCTTCAGGACAGAGAT
CAGAACAAACAACAGAGCAGTCATCTTGGATAAGGAAACTTCCCTCAAACCTATTACTTATATCCTCAGAAATAAGAAAAATAATGCATTTATCAAATTA
AAGGATTTTGAAAAAGGGAACATTCAGAGAATAAAACTAAACTCTTGAAAGTTAAAAGGATGATAACATAAATGAAAAGCTCAGTTGAAGGATTGAAAGA
TAAAAGTAAGAAAATATCCCAGAAATAAGAGCAAAAAGACAGCAATGTAAAATAGGGGAGAAGATAAGAGAATTAGAGAACCAGCTTAGGAGTTCTAGAA
AGAGAAAATGTAGACAACAAAAGGTAAGAAATCATCAAAGACTGGAGTAGGGGAGGTCATGCTATCTGTTTCTTTTTCTATTTTTTATTTTGAGTTACAT
TTTTTTTTACTGTGAAACAAGCATATGTACATGAGAATGAACAAAACAAATATGCAGTCATGTATTGCTTAACAACAGAGATAGGTTCTGAGAAATGCAT
CATTAGGCGATGTCATCATTGTGCAGACATCATAGAGTGAACTTACACAAATCTGAATGGTATGTCCTACAGTACACCTGGACCATATGGTATAGCTGTT
GCTTCCAGGCCACAAACTTACAGCATGTTACTGTACTGAACACTGCAGGCACCTCTAATACATCGGTAAGTATTTATGTATCTAAACATAGAAAAGGTMC
AATAAAAATMCAATATAAAAGAGGAAAAAAATAGTACACCTGTATAGGTGCTTACTGTGAATAGGGCTTCCAGGATTGGAAGTTGCTGTGAGTCATTGAG
TAGTGAGTGAATGTGAAGGCCTAGGACATTTATTATATGAAGTCTACTGTAGTGTAAACTCTGTAGACTTAGGCTACACTAAATTTATAGAAAAATTTTC
TTCAATAATAAATTAACCTTAGCSTACTGTAACTTTTTTACTTTGTAAACTTTTAATTTTTTTAACATTTTGACTCCTTTTTAGTAACACTTAGCTTAAA
ACACACACATTGTACAGCTGTAAAGAAAATTTTATGTCCTTCTTCTGTAAGCTTTTTTCCATTTTTAAGATGTTTTTATTTTTAAAACTGTTACTAAAAA
CTAATACACAAACACACACATTAACCTAGGCCTATACAAAGTCAGTGTCATCAGTGTTCAACCTTCACATGTTATCCCACTGGAAGGCCTTCAGGGGCAA
TAACAAACACAGAGCTGTCGTTTTCTGTGATAACAGTGCCTTTTTCTGATATACCTACTGAAAGACCTGGCTGAGAGTGTTTGACAGTTAACAAAAAAAA
AAAAGGACAAGAAGTACACTCTAAAATAATGAAAAAAGTATAATACAGTAAATACATAAACCACCAACATAGTCATTTATTATCATTATCGAGTATTATG
TACTGTACACAGTTGTATTTGCTGTACTTTTCTATAACTGGTAGCACGGTAGGTTTGTTTATACCAGCATCACCACAAACATAAGCWKKGTGTTGTATTA
CAATGCACAGCTGCAGCTAAGTGATAGGACTTTTTCAGCTCCATTATAATTTTATGGGACCATCACTATAAATGCTGTCCATCATTGACTGAAATTTATG
TCGTGCATGACCATACATACAATTTAATGAAAAATAATAATAATAAAGCTAGCAGTGTGTAATTACCAACCAGGGCAAGAAATAGAATATTGCCAATACC
TTGGAGGCCTCCAGTATGACCATATAAGTTTACAAATCCTATTTTGTTCCTCCTCCCCAGAGGTAACCACTGCCCTGACAAATGTGATCGTTGTTTTCTT
GTTTTTCTTACTACCTATATAAACATCCTTAAACAATATAACTCAGTTTGTATATTTTGAATTCCATGTTAATAGAATATCATATGTATATGAATTTTAT
GTGAATAGAATATTATATATGTCATTTTGCATCTTGCTTTTTTCATTCAACATTGTAGGATTCATTCATGTTGTAGTGTACAGCTGTCGTTTATTCATTG
CTGTATAGAATTATATCCTCAGAGATAAGATATATGGATGTTTATAAATCATTCCACTATTATGAACATTTGACTAGTTTGTAGTTTTTATTTAACCAAA
AAAATGCTGCTGCCAACATTCTTACACATTTTACTGTATATGCACATTAATTTATTTACAAGTATAAATTTCTTTTTGAATACATATCTATTGATGGAGT
TGCTACATCATAGGACATTCTTGTCTTTGACTTTACTGGATAATACCAAACTGTCTTCCAAAATGATTACATCCTTAAACTCAGGACACATCTTATTGTC
AAATGTTTAATTTTTGTCAGTCTGATGGGTATGTAAGTTATTTTATTGTCGTTTTAATTTGCATTTCCCTGATTACTAATTAAGCTGAGTAACTTTTCAT
ATGTTTATTGGCCATTTGGAGTTCCTGTATTGTAAAGTATAAGTTTTTTTGTCCATTTTTCTAGTTTTCTGTCCTTTTAGTTGAAATCCAAATTTGCCTA
AATCTGTTATTCTCTGAGCACAAGTAACTTGGGATGCTTTCCTTTAGATTTAGCCTAATTCTTTATCATTTTGTCAGCTTGATGGTGCTTTTAAGGAGAT
ATATATGTGTGTGTGCGCACACATGTGCGTGTGTGTATATATATATATGTATATGTATGTATGTATTTTTTGAGACAGGGTCTCACTCTGTCACCCAGGC
TGGAGTGCAGCGGCACAGTCTTGGCTCACTGCAGCCTCCACCTCCTGGGTTCAAGCTTTTCCCTGTCTCAGCAACCCGAGTAGCTAGGATTACAGGTATG
CCACCATACCCGCTAATTTTTGTATTTAATAGAAACAGGGTTTCGCCATGTTGACARGCTGGACTTGAACTCCTCACTTGAACTCCTCACGTCAAGTGAT
CTGCCTGCTTTAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTACCGCGCCTGGCCTGGATATTTTTTAAAAATATTTTTTATCTAGCACTTTGGTT
TTTGGCAGGCAGGTTGGCACTCATAGTCTGACCTACCATTTCTATAAAAAGAAACCTGTAAATGTTCTTAAACAGACTTTGAACCAGTCTTCCTGATTTT
GAACCCCTACCTTTACCCCCAGTTTTTGAGCCTTTCAGAATTTTTTTTCATAATAATTAGGTTGCTTCTTAGCTTTCCCCACTGGTGACTTAACAGATCT
TAGGAAGCCAACAATCCTTGTCCATCTGCTTTCTGTCTTGTGAACTGTTGCTGGTATTGTCTCTTCTCTTTATTCTTAGAGGTGTATGCTTTTAAAAACA
TATACTGGGTTTGAGAGGGAGCTGAAATAAAAGCATGTGTTAAATATACCATCTTTAACCAGAACTACATTTGACTGGTCATTTTATTTTCAAGCTCACA
TACACTTCAAACAGAGRTATGGCTAAAGGAATTATCATGTGAACAACAGCCAGGGCTCTGAACATCACAGATTATATCATCATACTTGAAATATTTGAAA
TTTTGATTCAAAATGAGAGCTTTATAGCTATGTCCTCAATGGACTAAGTGTTTAAGTACTTAACATCCAAAACATTCTTACTAATCAAGAGAAGACAAAC
ACCCCAACAGAGAAATAGGCAAATTTTATCAATAGCCAGTTCACCAGATTTGTTTTCTGTTAGAAGCGAATATGGGGAAATACATGTGTCCATGTTTTGC
CTACTTTTCCTGGAGCAGGTAAGGAGAGGCAGTTTAAGGATCCATGTGATAAACCCTAAAGTTGTCCATCGGCTTTCCAGTCCCTTCTAGGAATTTAACT
TAGGGAAATAATCAGACATTTGCAAAGGTGTGTACAGTGGTATTTATAATAGTGAAAAACCAAAGAATGACCAATAACGGGAGAATGGAAGTTACAGCCA
AATACTTTACAACTACTAAAGAATCATGTAAAATATCTATTGACATAGGAGTTTTATCAAAATGTGAAGTATACAGATGAATAGTACCACACATAAAAAG
CAAGGTGCAAATTAGCCATTTATAYTGTTATCCCCAAAATAAATAGATGCAGTTTTTTTAAAAGATGCAGGCTATATATGGAAGTGTTTGCTGGTTTTCT
GTCAAAAGAATGGCGACTTTATTTTCTAATTTAAACTTTTTGCTGTTTTCTAAATTGTCTAAATAGTTATAGTTTTTATAATGTAAAAGTATCTTCCAAT
TTAGCTTCATTTGACAAATTACCTTTTCATTCTATCTAGCTATGTAATTCTAAATGAATTTACAGCAGTAATCTTAGAGCAGATGAATTTACAACAATAA
TCTTAGAGTAGACTACGGATTAGATGTAAAAACATGAGTTGGGCTTTATGGTTACAGAGAGTTTTCCTCAGTGTGGGGATCATAGCTGTATTGAGTTTAT
TCAGTTTTCCTTTCCCACATGAATGAAAAATGGGGCCAGCCTACAACTGGAAGGGCCTCGGCATGTACCACTGTACTGTGTATGATGTGATTTCTTGATG
CTAGTAGGGAGAGAATCAAATTGCCTCCTATTCAAACCAAGACCCACAAATAGCGTCAACCAGTCATTTCAGCTACTCCCTGCAGTGTCAAGAAGGTGTG
AACCCCTCATGTTCTCTATTGCATACCCTTGTCTAATTCAGTGTTTCTTCTTCTTTTCAGGTTTTGGCTTTATGCTACATTTCAGAAATCATAATAACCT
TTTCTGGTATTATTTTATTCTTTTTCGCACTGTGAGAAAAATTAAACTTTCAAGTGGATGCTTCTTATAAACTATTTATACCCTTTTGCTCCCTTTTGGG
AGGCAGGGACAGGGACAGAGTTCCTCCTCAGGCTAACTAAGAAAACTTACTGCTTCCAATGTAATTTAAAAGATCTCCCTCTTTCTATTGCTCTCTGTAC
TCTTAATTCTTTTTTTTTTTTTTCACAGCAGAGACAAGTGAACATTTATTTTTATGCCTTTCTTCCTATGTGTATTTCAAGTCTTTATCAAAACAAGGCC
CCAGGACTCTCCAGATTCAATTATGTCCTTGGGCTTGGTCGACTGCTGTAGGAGTCTCAGGGAGCCTTCTACAAATGCTAGAGTGACTCATTTACCAACA
TTAAACCCTAGGATACATGCAACAAAGCAGGACTCCTTCCTCCATGGAATGTGCCGATTTCAGATGACACAGCACCCAATGTAGAAAACGCTGGAATTTT
TCCTTGGAACTAGACTGTGATGAGAGGTGCTTGACATGAACATAAGCTACTGTCTTTTCTTTTTTTTTGAGACAGAGTTTCGCTTGTTGCCCAGGCTGGA
GTGCAATGGCGTGATCTCAGCTCACTGCAACTTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACGTGC
CACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGCATTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCAACCTCAGGTGATCTGCCTGCCT
CAGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCACGACCGGCCAGCTACTGTCTTTTCTTTGACCCTTCCTTTCCAGTTTTTGAAGATAAAGCA
GGAAATAATCTTCTCTGAAGATACTTGATAAAAATTCCCAAAACAACAAAACGCATGCTTCCACTTCACTGATAAAAAATTTACCGCAGTTTGTCACCTA
AGAGTATGACAACAGCAATAAAAAGTAATTTCAAAAAGTTAAGATTTCTTCAGCAAAATAGATGATTCACATCTTCAAGTCCTTTTTGAAATCAGTTATT
AATATTATTCTTTCCCCATTTCCATCTGAATGACTGCAGCAATAGTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTTTGAGATGGAGTCTCGCTCT
GTCGCCCAGCTGGAGTGCACTGGCGCAATCTTGGCTCACTGCAGTCTCTGCCTCCTGGGTTCAAGCGATTTTCCTGCCTTAGCCTCTCGAGTAGCTGGGA
CTACAGGCACGTGCCACCACACCCAGCTCATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCAATCTCCTGACCTCATG
GTCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCAGCAATACAGTTTTTAGTTACTCGACATCTTTAAGCCTA
TAACTCTTAGGCTATGCATAGCCCCATGTCCTAATCAGGCATTCACTGATCCCAGCAGGTCTCCATCTATTTGTACCAGCCTCCTCTTTCCTCCCAATCT
CAAGGTTACTCTTAAATACTAGTAAATGCAAAAAGAACTTGTAAAGTGGCAAGGCATGGCCTATCAAAAGTCAGCCCAAGGGCAGTTTTCAGCCCTGCCT
CACCTGGGTCTAGTTCAGCTGACGGATGAGCTGATTGATGCGTTCACCCCGATAGCCAGGTGTGCCCATCTCCTTGAGGAAGCCCACTCTATTTTTGGTA
GCATGATGGGCCACTGAGAGGTGGAAAGGGCGCAAGAACCATGAGATCTCCTGGAAATGCTTCCCTGGGAAGGCAATTTCATGAATGAGGTCTTCCAAGC
AAATGAAGCCAAACTTCCCCAGGTGCTCCTCAATCACTGTGTTGTCTGTCAGAGGGATGGTCTTATTCTTGACCTTGGCTTGTCCACGTTTCAAAATGAG
TTCTCGGACAGACTTCAGATTTGGAAATCCCCAGGTCACATAAGGTTCCACTATATGCAGCATTTTTAGATTCTAGGGGGTAACTTTTACAAAGATACCA
CTAAAAATTTTCTTTAGGCGAAGTCTTGCAGTGGTTCTCTGCACCCGTAAACTCACGCCATCAATCCTTTCGATGCGTACAACAAAGGCCAAGGAATGTT
TATCTGGCAATTCCAAGGCATGAGGTTTCACTTCTAGTCGTCTGAGACGCACCTTGTCACGTTTCTGCCGCCAGGAATCATGTAGGAATGATTCCAGTCG
CTTAAACCTGAGCCCTTTTCCTTTCTTCTGTCTTGCTACTGCCATCTTTCTAGTGGTGCAGCTACTCAATTCTTTTTTTAATTATAATTTTTATTTTAAG
TTCCAGGGTACATGTGCAGGATKTGCAGGTTACATAGGTAAACATGTGGYCATGGTGGTTTGCTGTACCTATCAACTCATCAGGTATTAAGCCCGGCATG
CGTTAGCTATTTTTCCTAATGCTGTCCCGCCCCCCCACCCAACGGGCCCCAGTTACACTCTTAATCCTTATAGCTCAGATGTTATGATCCACAGTGTGGT
TCTTACAGAAAGTTATGGATTAAAAAAAAAAAAAAACACTCAAAGTGCCCGAACTTTCTTAAAATAATCCTGGTACAGCTAAACTCATGCACTGACTGTC
CACCTAATATTTAACAGTCTGTGTTGTGATATATTGTTTTAATGTTCTGAATGCTTGTCAGCTTTCAGTATTGAAGATGTGAATCATTTATCAGCAATGA
CACATTTAGTCTAAGGTTGTCAGCTATTTATGCTACAAATTAATGACTTGTCCTTAAAATATCAATTTTGTGATTCATGTTTTGGCAGGTGGTTAGATGT
TTTGTGTTCTAATTTTAAACTATGGATAAAGGTTTTGTCATAATCATTGTTTTATTGGTTCCTTTTCTCCCCTGCCCACTCCCCAAAAAACCCTGCAATT
CTTTTTTGTTAAACTTTTATTTTAGGTTCAGAGGTACATGTGCAGGTTTGTTATATAGGCAAATTTTGTGCCACAGGGGTTTGCTGTACAGATTATTTCA
TCACCCAGGAAATAAACACAGTACTTGATGGATAGGTTTTTAGTCTTCATTCTCTTCCCACCCTCAAGTAGGCCCCAGTGTCTGTCCTTCCCTTCTTTGT
GTCCCTGTGTACTCAATGTTTAGTTCCTAGTTATAACTGAGAAGAACATGTGGTATTTGGTTTTCTATTCCTGTGTTAGTTTGCTTAGGATAATGGCTGC
CAGCTCCATCCATGTTGCCGCAAAGGACATGATTTCATTCTTTTTATCGCTGTGTAGAATTCCATGGTGTATATGTACCACATTTTCTTTATGCAGTCTT
CTGTTGATGGGCTTTTAGGTTGATTCTATGTCTTTGCTATTGTGAGTAGTACTGCAGTGAACATACACATGCATGCGTCTTTATGGTAGAATCATTTATA
TTCCTCTGGGTATATACCCAGTGATGGGATTGCTGGGTCGAATGGTAGTTCTGTTTTAAGTTCTTTGAGAAATCATCAAACTGCTTTCCACAATGGCTGG
ATTAATTTACACTTCCACCAGGAGTGTATAAGCATTTCCCTTTCTCTGCAACCTCACCAGGATCTATTATTTTCTGACTTTTTAATAATAGCTGTTCTGA
CTGGTGTGAGATGGTATCCCAGCACCATTTATTGAATAGGGAGTCCTTTCCCCATTACTTGTTTTTGTTGACTTTGTTGAAGATTGGATGGTTTTAAGTG
TGTGGTCTTATTTCTGGGCTCTATTCTGTTGCATTGGTCTATGTGTCTGTTTTGTACCAATACCATGCTGTTTTGGTTACTTTAGCCTTGTAGTAGTTTG
AAGTCGGGTAATACGGTGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGCTTTGGCTATTTGTGCCCTTTTTTGATTCTATATGAATTTTAAAATAGTTT
TTTTCTAATTCTGTGATGAATGTCATTGGTATTTTGAGAGCAATAGCACTGAACCCGCTAATTGCTTTGGGCAGTATGGCGATTTTAACAATATCGATTC
TTTCTATCCCCTGCAATTCTTTGTTGTTGTATTTAACTATTTTTACTTGTGAAGTTTTTTCAGGGATGATTTTGTTGAAAGTGACAACTCTAAAAATTAT
GTTGGTAATTAAAATTTTAAGTAATGACTTTTATTTTCAGAGATTCCACTTCTCTTAGACTTTGGAGCTGTTAACAGCAGTGTCCAATCTGCAGTGGTAC
TCAGCAGTTTCTGTTTCCTGCATGCAGAACTGCTTATATGAAAACACAGTTTTAAAAATGCTTTCTTATGGCTGACATTCACATTCTTATTCCTTTTGAT
TCTTTTCAAGAGGGATTTGGTTTGTTAAAATTAATTTTTGCAATACTTTTATGAAGATACAAACTCTGACAAAGCTTTTAAAACAAGTTTGAGAGAATAC
AGTATTGATTTCACTTGTAAATCTGACRATTATTTTAGAAAAAAGGAAAATATTATTTACTATTATTTTGCTTATAAATGTTTATCAATTTTAAAGCTTC
CACATTGCACATCTCCCACTACAACAGTAGCTACCATTTATTCTTTCTCAAAAAAAGTGCTAAGTGTGCCCTTGAAATTTTTACATTGTGCAGAATATCC
CTAAAATTTTAAAACAAAAATTACATCATCACTTGCTTTAAATGTTTCTTCTTTATTTAACATACAGTTTCTAAAATGTTAGCAAATAGCATTTTAGAAG
AGACACGTTACTTTTCTAATGAATGTTCTAAAATGAACCACAGTAACCTATACTTACTTAGACTGTGAAAAACAAAACTTATATTCTATTGTTAAATTTT
CAAAAGTGAAACTACACGATAGTTTACTTGGCACATCACTCTGTTATTGTGAATTGACAAATGTATATGTAGACAAATATGTGAAAATCAGAGTACATAT
ACATTATATGCAGCACCACAATACATTTTTTAGTATGTTTTGACTGATATTTAATTATATAATTTACCAAGAGGATCTCACCAGAATGTAGAAAAGTATT
GAATTTTAGAACAATTCACATATTTAAAAAAAATGTAGTCAGCCCTTTTATCTGTATCTGGAGAATGCAGGGTAAAGGAATAATACATGAGTATTGGTAT
TTAAAAAAAGGTGTTAATTTCTTACCTATGATACCTGTTACTTTGGGTATCATTTAACCTTTATTTCTGTGAAATAGAGGAGTTCTAACATCCTCTAATT
ATTATAATATTGTTCTAATTTAATCTATCTTAATCTGTGATACAGTTTGAAAACCAAGCTTTTACTATTGGCATGTGCAAAAAAATAAAGCAGCAGTAGA
CTTGGAATCTTGAATGCAAATTTAGATTTTGCCTCTTAATAAATGTATAATATAGTGTTCTGGGACCAATTCTCTAACATTTCTGAGTCCTAGTTTCTGC
ATCTGTCAAATGGGATTAGAGATACCTACTTTCAGGATGTGATATGGTTTGGCTCTGTGTCCCCACCCAAATCTTATCTTGAATTGTAATCCCCATATAT
TGAGGGAGGGACCTGGTGTGAGGTGTTTGGATCATGGAAGTGATTTCCTCCATGCTGTTCTYGTGATAGTGTGGGAGATCGCAAAACATCTGATGGTTTA
AATATGGCAGTTTCCCCTGTGCTTTCTCTCTCTCCTGCCACCATGTAAGACTTTCCTTGCTTCCTCTTTGCCTTCTGCCRTGATTGTATGTTTCTTGAGG
CCTCCCCAGCTATGCAGAACTATGAGTAAATTAAACCTCCCTTATAAATTACCCAGTCTCAGATATTCTTTATAGTAGTGTAAAAACTGACTAATACAGA
GAATTGGTACTGGCAGGGTTGGGTACTGCTATAAAGATAATCTGAAAATGCGGAAGTGACTTTGGAACTGGGTAACAGGCAGTGGTTAGAACAGTTTGGA
GGGCTCAGAAGAAAACTGGAAGATATAGGAARGTTTGGAACGTCSTAGAGACTTGTTTTGAATACTTTTGACCAAAATGCTGATAGTGACGTGGACAATG
AAGTCCAGGCTGAAATGGTCCCAGAGATGAGGARCTTATTGGGAACTGGAGCAAAGGTTATTTTTGCTATGCTTTAGCAAAAAGACTGGCAGCATTTTAC
CCCTGCCCTAGAGAACTGATGAACTTTGAGATGATTTAGGGTATTTGGCAGAAGAAAATTTCTAAGCAGCAAAGCATCCTAGTGGTGACTTGGCTGATTC
TGAAAGCGTTCAGTCATGTGCATTCACGAAGATATGGTCTGAAATTGGAACTTAGGTTTAGAAGTGAAGCAGAACATAAAGGTTTGGAAAATTTGCAGCC
TGACCATGTAGTAGAAAAGAAAACCCCATTTTCTGGGGAGGAATTCAAGCCAGCTGCAGAAATCTGAATAAGTAACAAGGAGTAATAAGTAATAATAAGT
AAAAAGTAATAAGTAATAAGTAACAAGGAGCCAAATGTTAATAACCAAGACAATGGAGAAAATGTCTCCAGGGCATGGCAGAGATCTTCGGGGCAGCCCC
TCCCATCACAGGCCTGAGAACTAGGAGGGAAAAATGGTTTCCTGCTCAGGGCCTTGCTGCTCTGTACAGCCTCACGACATGGTGCCCTGCATCCCTGATG
CTCCAGCTCCAGCTGTGGCTGTAAGGGGCCAAGTTACAGCTCGCACCATTGCTTCAGAGGGTGCAAGCCCCAAGCTTTGGCAGCTTTCACGTGGTGTTGG
GCCTGCAGGTGCGCAGAAGACAAGAGTTGAGGTTTGGGAACCTGTGCCTATATTTAAGAGGATGTATAGAAACGCCTGGATGTCCAGGCAGAAGTCTGCC
ATGGAGGCAGAGCCTTCATGGAGAACCTCTGCTAGGGCAATGCGGAAGGGAAATATGGGGTTGGATCCCTCATACAGAGTCCCCACTGGGGCACTACCTA
GTGGAGCTGTGAGAAGAGGGCCTCTGTCCTCCAGGCCCCAGAAAGGTAGATTCACCGACAGTTTGCAGTATACGTCTGGAAAAGCCACAGAATGCCAGCC
TGTGAAAGCCACAGGGGTACCCTGCTGAGCCACAGGGGCGGAGCTGCCCAAGGGTATGAAAGCCCACCCCTTACTTCAGTGTGCCCTGAATGTGAGACAT
GGAGTCAAAGGAGATTTTGGAGCTTTTAGATTTAAGGGCTGCCCAGCTGGGTTTCAGATTTCATGGGGCCTGTGGCCCTTGGTTTGACCAGTTTCTCCCA
TTTGGAACAGGAACATTTACCCAATGCCTGTTCCCTCATTGTATCTTGGAAGTAACTAACTTGCTTTTGATTTTATAGGCTCATACGTGGAAGGGACTTG
CCATGTCTCAGATGAGACTTTGGTCTTGGACTTTTGAGTTAATGCTGTAATAAGACTTTGGGGGACTGTTGTGAAGGCATAATTGGTTTTAAAATGTAAA
AAGACATGGGATTTGAGAGGGAGCAAGTGCAAAATAATATGGTTTGGCTCTGTGTCCCCACCCAAATCTAATCTTGAATTGTAACCCGCATGTTTTGGGG
GAGGGACCTGGTGGGAGGCAGTTGGATCATGGGGGGGTTTTTTCCATGCTGTTCTTGTGATAGGGAGTTCTCAGGAGAGTTGATGGTTTAAATGTGGCAG
TTTCCCTTGTGCTCTTTCTCTCTCCTGCTGCCAGGTGAGACGTGTCTTGCTTCCCCTGCCCCTTCCACCATGATCATAAGTTTCCTGAGGCCTCCCCAGC
CATGCAGAACTGTGAGTCAATTAAACCTCCTTTCCGTATAAATTACCCAGTCTCAGATAGTATCTTTATAGCAGTGTCAGAATGGACTAATACAGGATAG
TAATGAAGATTACAGAATATGTAGATGAAGAAGTGCTAAGTAAATAGCAGCTATTATTATGTAGTCAAATTGAATGTATACATTGTGGTACTTCAGTGTC
CTTTAAATTGAATAACTAGAAATTTGTTGGCTTTCTCAATCTGCTCACATCAGATGACATGTTAATTTATGCCTATACTTTTTTCTAGTTAATAGATATA
AATCTATTCACTCAACTTCTATTGACAGAACTGGTAGTGTGGCAAGACATCTCATTTCTAGTTAAGGCTGTATAATATTAAGTTCATTTTACTTAAATTA
ACTATGGTTTGGGAAATGCTTTTCATGTCATCATGTATGCCCAATTTGATACTTTAGTGGGACAGTATATTTCAGAAAAAAACAAATGCTTCCCCAAAAA
TTCCAGGGTTGAATACATTAGTCAGACATATAACAATGTACTTCAGAGTTCCTCTAAGGGCAAAAATCGTGGTATGAATATACAAAACACTCCTATTTAT
ACTTTTGTATTTTTGAAATGTAGTCTTCATGTTAATTTAGCATTTCAATGACCAGCATGACATTATCTTAATAATTTGGAATGCCAATATGTTCATTTAA
GACTTAATATAGTAAGTATCTAAAGAAAAAAATGGAAGTGACTGAATGCTTTTGTATCTCTTAATTATAATTTGTGCTCCATTGTGATATGAAGGATAGA
AGGGGCAGGATAGATAGAAAACAGAAATTAACTTTGATGTTTAACCTTACCTTAAGACTGTCTGTTAAGTGACCCACATAATCTTAAAAAACTCTGTCAA
GCTTAATGGATGCTACTCTGCAGGCCCCTGCCAGGCAACAGTCACAAGGTTATGAGGTGCATAGATTTTGGAATTAGGCAGAGCTGAATTCAGATCCAGG
TGTTGCCTTATAATGCGACTTTGGGCAAATAAAAGGCCCAATTTTTGTATTCTTATCTGTAAAATGGACTCAGTAAAAATTATTTGAGATAATTTATTTG
TGTACTGTACCTAGGCATGCAGCTTGACACACAGAATTACAAGTCAGTAGTTTCCAGTATGATTATTATTGTGAAAGAGATATTTTGTTTCACCTACTGA
AAACTTTTTTCAGTCTTAAATTTTTTATCTAACTGGCTGTATTGCAGATGTCTGCTATATAACTTTTATATAATTTTAAAAACTATTTCTTTYCTCCTTG
ATCTTCTAGGGGTAAGGTTACCAATGTTTTCATTATTTACTAAATATAGCAGCCCCCACCCCTTATTCATGGAGGATAGGTTCCAAAACCCCTAGTGTAT
GCTTGAAACCACAGACCACAGATAATCCCAAATCCTATATGTATATTGTTTTTCCTATACATACATACCTATGGTTAATGTTTAACCTACTAATTAGGAA
GAGTAAAAGAGTAATAGTAACTAATAATAAAATAAAACAATTGTAACAATATTCCAGCATCACTATTCTTGTGCTTTAGGGCCACCATTAAGTAAAATAA
GGGTTACTTGAACACAAGCACTGTGATACTGTGGCAGTCCAACTGGTAACAGAGATAGTGATGCGGTTTGGCTGTGTCCTCACCAGAATCTCAACGTGAA
TTGTATCTCCCAGAATTCCTATGTGTTGTGGGAGGGACCCAGGGGGAGCTAATTGAATCACAGGGTCTGGTCTTTCCCTTGCTATTCTCGTGATAGTTAA
TAAGTCTCACATGATCTGATGGGTTTATCAGGGGTTTCCCCTTTTGCCTCTTCCTCATTTTTCTTTTGCCACCACCATGTAAGAAGTACCTTTTGCCTCC
CGCCATGATTCTGAGGCCTCCCCAGCCCTGTGGAACTCTAAGTCCAATTAAACCTCTTTTTGTTCCCAGTTTTGGGTGTGTCTTTATCACAAGCATGAAA
ATGGACTAATACAGTAAATTGGTACCAGTAGAGTGGGTGTTGCTGAAAAGATACCCAAAAATGTGGAAGCGACTTTGGAACTTTGGAGGACTCAGAAGAA
GACGGGAAAATGTGGGAAAGTTAGGAACCTCCTAGAGACATGTTGAATGGCTTTGACCAACATGCTGATAGTGATATGAACAATAAGATCCAGGCTGAGG
TGGTCTCAGATGGATATTAGGAACTTTTTGGGAACTGGAGCAAAGGTTACTATGTTATGTTTTAGCAAAAAGACTGGCAGCATTTTGCCTCTGCCCTAGA
GATTTGTGGAACTTTGAACTTGAGAGAGATGATTTAGGGTATCTGGTGGAAGAAATTTCTAAGCAGCAAAGCACTCAAAAGGTGACTTCGGTGCTGTTAA
AAGCATTCTGTTTTAAAAGGGAAACAGCATAAAACTTCAGAAAATTTGCAGCCTGACAATGCAGTTGAAAAGAGAAACCCATTTTTTGAGAAGAAATTAA
AGCTGGCTGCAGATATTTGCATAAGTAGCAAGGAGCCTAATGTTAATCCCCAAGACCATGGGGAAAATGTCTCCATGGCCATGTCAGAGACCTTCACAGC
AGCCCTTCCCATCACAGGCCCAGAGACCCAGGAGGAAAAAGTGGTTTCGTGGGCCAGGCCCACGGTCCTCATGCTATGTGTAGGCTAGGGACTTTGTGCC
CTGTGTCCCAGCTGCTCCAGCTGTGGCTGAAAGGAGCCAATATAGAGCTCAGGCTGTGACTTCAGAGGGTGGAGGCCCCAAGCCTTGGCAGCTTCCACAT
GGTGCTGAGCCTGTGGGTACACAGAAGTCAAGAATTGAGGTTTGGGAACCTCTGCCTAGATTTTAGAAGACGTATGGAAACACCTAGATGCCCAGGCAGA
AGTATTACTGCAGGGCAGGGCTGTCATGGAGAACCTTTGCTAGGGCAGTGCAGAAGGGAAATGTGGGATTGGAGCCCTCACACAGAATCCCTACTGGGGC
ACTGCCCAGTGGAGCTGTGGGAAGAGAGCCGTCATCCTCCAGACCCCAGAATGGTAGATCCACCAACAACTTGCACCATGTACCTGGAAAAGCCACAGAC
ACTCAATGCCAGCCTGTGAAAGCAGCCGGGAGGTAGGCTGCAAAGTCACAGGGGCGGAGCTGCCCAAGACCATGGGAATCCATCTTTTGCATCAGCATGA
CCTGGATATGAGACCTGGAGTCAAAGGAGATCATTTTGGGGCTTTAAAATTTGACTAACTCACTGGATTTCAGACTTGCATGGGCCCCGTAACCCCTTTG
TTTTGGCCAATTTCTCCCATTTGGAACAGCTGTATTTAACCTGTGACACCCCCCTACCCCCTGCCCCCCATCCCTCCGGCCCTTGTATCTGGAAGTAACT
AGCTTGCTTTTGATTTTATAGGCTCATAGGCAGAAGAGACTTACTAGCCTTGTCTCAGATGAGACTTTGGACTGTGGACTTCTGGGTTAATACTGAAATA
AGCTAAGACTTTGGGGGACTATTGGGAAGGCATGATTGGTTTTGAAATGTGAGGACATGAGATTTGGAGGGGCCAGGGGTGGAATGATATGGTTTGGCTG
TGTCCCCACCCTAATCTCAACTTGAATTGTATGTCCCAGAATTCCCATGTGTTGTGGGAGGGACCCGGGGGTGGGGGTGCAGTAATTGAATCATGGGGGC
TGGTCTTTCCTGTGCTATTCTCATGATAGTGAATAAGACTGACGAGATCTCATGGGTTTATCAGGGGTTTCCAAAACTTTTGCCTCTTCCTCATTTTTCT
CTTGCCACCACCATGTAAGAAGTACCTTTCACCTCCTGCCATGATTCTGAGGCTTCCCCAGCCATGTGGAACTGTAAGTCCAATTAAACCTCTTTTTCTT
CCCAGTTTTAGGTATATCTTTATCAGCAGTGTGAAAACAACTAATACAGATGGCTAGTAAGGGACTAACCGGCAGGGAGCGTCTCCAGTGTGGATATGCT
GGACAAAGGGATGATTCACGTTCCAGGGCATAAGATTTCATTACTCAGAATTGCACAGAATTTAAAACTTATTAATTATTTCTGGAATTTTCCACTTAAT
GTTTTCAAACTGTGGTTGACTGCAGGTACCTGAAACTGTCAAAAGTGAAACCACAGATAAGTGGGGAGTCCTGTACCTAAGATTATTCCTTTAAATTGTT
TCAGTGGATATGTAGGGACCTGAGTGTGAAGTGAGAGCAGCAGCATCAAAACCTGAGGGAAATCCAGATAGCAAAAGAAACTTGTCTAGTATACTGGCAT
GACAGAGAAACCAAAAAGTTCTCAAGTTAATGTGAGAATCTAAGAATTAAAGAATTAAGCCTTTGCCTTTGAGGGAAGGAAAGGGGTAATGTGGCTTTAA
ATCAGGTTGAGATTGGTTCTGAGGGTTCCTTTTCCTTCCTTTATATTGATATGAATATAGACACAACTGTTCTGCATTTCCATTTGTTTTTATAAATGTC
TTTTTAGGATTTAGGAACTGCTAATTATGCAATATGAGATATCTGTTAGTTTGAGGAACATTTGAAAATTTGGTCAAATGACACAGATCGTCACACAGTT
TTAAGACAAATGTTTTTACCTATTTGACCTAGTCTGGCAATCCCTATTTGGGCAAAAATCTTCATTTGCAGGTCATGATTGGAGGCAGGCACAGAAAAAA
AATTGCCACCTTTTTTGCATTATGTCATCAAGACATCAAACTTCAGCCTACAAAGTAGAAAGTGTTATTTCTCAAGTTGAAGGCCTGGATATACCTCAGC
TTCTCAGTTCTGACACTTTATCATAGTGGAAAATGAAGAAGATTGCTTAAGAACACTGATGTTGGTGTCAGAAAGACCTGGGTTTGAACCCTGACTTTAC
TAGTTACTTAGATCACTTTAGGCAACTCAACTTTTCTAAATCTTGTTTCTTCATCTGTAAATGCTGAAAATAGTACCCACCTCTTAGGTCTGTGGAGAGG
ATTAAATGAGATAATCTATACAAAGAAAGAGCTTGCATAATAGTGCCAAGTAATGGTGAGGTTATACCTGTATTCTGATTATAATCTCATAAATATTTAC
CATGTTAGCTGTCTCAGAGTTCTTTTGCAAAACAGATAMAGATAGAAAGTATAAATAAGAAAAATAAGTGAACATATACTGAACTTTGTACAAGATGCTG
GCGATATGGAGAGACCCAAGACATGGGCCCTACCTAAAAGAGATTATTGATAGAAACAGGATACATATACATCAAAAGGTAACATAGGATCATCTGTGCA
AAGTGCTATATGGCAGTGTTTTAGGAAGTCTAGAAGCTGTCATGGATCAGGAATACCATGGTGGACACTTCAGGCAGGGAAAACAGATCTTAGCAAAAGC
TACTCCTATCATAGGTACTTGATAAATATTTGTAGAATCCAGGATCCCTGTAGTGATAAAGAAACTACATGGATTATGTAGGGGAGTGATAAGACATATG
ACTGGAAAAATAAAAAGACCAAATTATGGACCATACTGAGCTTGTACTATAAACAGTGGAGGAGCCCTTCAGATTTTTAATCATGTTGAGAAAAGAGTTT
TAGCAGTGTGTGGGGGATAGAATGGAAAGAGAAGCCAGTGCCAGAAGGACTACTTAGTATCAACCATTGCAGTGGTTAAAGCAAGAGGTGAGAGAAGGCA
TGCATTAGAATGGCAGCGGTCAGAGTGGATGGGAAGGAATAGGTCCTGACATAGTGTTACAGGGAGTAATAAATAGGATGTGGAAGATGGGTTAGAATTG
GCAAAATCTCTGCATGTAAGTCTGGGTTACTAAATATAGTGAGAGAAATTCAAATCTSTCTTTAAGAATCGAATAAAATATTTAGAAATAAGTTACTGTT
GTATTTGAGGTGAACACAAATGGCATTTCAAAGATGCTCGAGATACCTTGTTGGAAAAAGTCAATAACTGCACTATTGTCTCCAACATGTTCTTGCCTTC
TCTGAAGACATCATGTTCCTAATTCTGAATTATGAACCATCTATTATCCTTGTATGCTCTTATGTGTGAGGAACCATAAGGTGGGAACAAAATCCGGTCT
TCATTCTAGAAATAACTATGCGATCAAAAAGTTTTTAGTCTTTCTTCTTACCATACTGGTTCTTGGTATTCTGTTTACCATTCAATGTACTATTATTGCT
TCTGCTTAAAACTCRCATCCCCTAATGCAAGCCTGAGCAAACAGAACTGATAACACACAGCCTGAGAAGGGAGTGCTTGGGGTCTCAAGACTTATTCTGT
TTTTCTCCATCTTTGACACTTGGTTTGAAGAGCAAAGAAGGATACAGCTGTTAGGAAGTAAGTTACCCAAACACAGTGACCAAACTGGATTAATTCTTCC
AATGAGAAAGAAATACATTATTTCTGTGAGACAGATTAGACTTTAAGTAGCATAGATAACATGATTATATTCTCTCTACAAATAAATACACAGGACCTAA
GAAACCCTTTACAGATCCAAGTGTTTTCCTCTCCACTTTTCCATCCCCAAACCCATCTTGCAAGATATGGCCAGCTTATTTGGAGTTAATTAAATCAAGA
CCTTCGTTTTACAGACAGGGAAACCAAGCCCAGAGACACTGAGTAGTAGGCCACTGGTGTCTTAGAGGTCTGAAAAATCCTTTACTGAACATTCTCTTGA
TCTATTAATGTATAGGTTTTGTTGCTGTAACCCTCTCCCCAAGAGGAGTGAATATAAATGATGCAGAGTTTGGATGAACTATCTTAATAAGAACCTAAAG
TTGAAACCAATGCAAACCTCTCTCAATAAATGCAAAGCAAAGAGAATAATCAGTCTTTCTTTGGCTTGTTAAATAAGATAAAATGTGTTCTGCTAAAACC
ATTTAACAGAAATATTGTGAAAGGTTTCCCCTAAAGCATTTTTCTATTTGATTTGAAAACTATTCCATAGCTTATTATCAAACAAATCAGTAATYCTTTA
GCTAATGCAGAGATAAATGGGCAGTCAGAAAATATAATCACCTGGTGTGTGCAGCTGAGTATTTACATTTTTCCTAATGAACAAAGATAAGAAAAGTGCA
GGTGACTTTAATGTGTAAAAACTACCTTTTAGTGCTAGCGCTAGAGGGAAAAAGAAATTACTGGCTCAAGCCAATCCTGTACTTGATAACTAAGCCGTAT
AGTCCATGGCTTGGCTTCAGTTCTGTTTTGAATCTCTTTTTGGACTTGTCTTGAATGGACTGTTTAGGGCTGCTTCAGTAGTGCAGTTGTTGCATTTTTA
AGCATAGTTTAGGTTTTAAAATGTTTCTGGTCCCTTTTTTTTTTTCTTTTCCACTTTATGTTGCTTAAAGCTTTATGGCCAGGTTTTCTCATCCTCAGCA
TTATTGACATTTGAAGCTGGATACTTCTTTGTGGTGGGGGCTGTCCTGTGCCTTGTAGGCTGGTTAGCAGCATCCCTCGCCTCTTCTCACTTAGATGCCA
ATAGCATTTCCCCAACCGTGATAACCAAAAGTGTTTTCAGACACTGCCAAATGTCTCCTAGAGAGCAAAATTGCTCTCTGTTGAGAACTACTGTGTTACG
GTGTTTGGACAAAAACTGACAAGCCAATGGGAATATTCTATTGGTAGTTGTAAAAAATTAATCCAGTTATAGCAGCTGTATTTCTGGAATTTTTTTCCAT
ATTAACACTTGCTTTCTGAGGTGATAATATCTTTGTTTTTTTTCTCCCAAATAGATTTCTTGCATTACACTGAAAAATTGCTGATTAATTCACTTAAATT
GAAGACTAAGCCAATCATGTCATTTGGGTAATAGTTTACCAACTCTGCCCCTTTCTCTGTCAGGGAAGCCTCTAATTTAGTAAGCGATACTGTATCCTTT
TGTCAGGTACATTACCATTCCTATTAGCAATAGGGCAATTGAGATTGAGAAAGATTAAAAGGTCACCAAGCTATTACATTGTAGAATTAGGTTATGAATT
GTAGCCTATCTGGTTTAGAATCTTTACCTTACTAGTCTCCATAACAACAATTCTTCCAGTGTGGTCCATGGGGCCCTGGGAGTCTCCCCTTAAAGGGCAG
ACTATTTTCACAGTAACACGTACTTTATTTGCCATTTCATTATGTCAGCATTTGCAATAATGGTACAAAAGCAAAGATGAGTAAAACTGTTGGCATCTTA
GTATACAGTAGTTACTGTATTCACTGTCATGCACTTAAAATCTTTGAAGAAGCAAAAAAATTATTAATTACATTAAATTTCAACCCTTAAATACATGTGG
TCTTTCTCATGTCAGTGTGACAAAATGAGAAGGTGCATAATCCACTTATATCGCATATAGCATTTGATAGTTGTCTCAAAGAAAAGTGTATAAGATTAAA
CTGTGAGTTAACCTACTTTTTTTCATGGAGTACCATGAGAGATAAACTCTGGTTTTCAGCCTTGGGTATTTGGCGATGTTTTCCCAAAAATGACTGAAGT
AAACTTAGCACTTTAAGGAAAACAACTTAAAGTATTTGTTGCCAATTGATAAAATATAGGTTTCAAGCAAAAATCAGAATTTTTGAAGACTTGTATCTGC
CACTGTGAGCTTGACAAATGTGACTCTTTTATATTACATAATGAACTATGTCAACATTTGAAAGATCTGCATAACTCAGTGAACCAGTATTTTCCAGATG
ACTAATGCATGATAATACAAAATCATGCATGGGTAAAAGATACATTCAAAGTGCAAGATAGACTGACATATTTCAATGTAACAATCAAAAGTTCATTGAT
AACAGTTTTGGATTCCACATTGCAATACTAAAACCTTTAAAAAACGAAATTGTCCAATTTTGGTGTAGTAATCAGAAAAGGCAATCTATAATTACCTGAA
CTTAAGTTTCTGGAGGACCATTAACCTTCTACAGGCTCATGGGGAAGACTGTAGCACTTCTCTTTCCCTAAGATCCTCCAGAAAGGAAGAAGGTAATCCT
TGGGGGTAGGGTAGAGACCTATTGTGTGATGATCACCAAGTATGTAACAATGCTTTATATAACTCTAATATATATAATCCACACAAACCCCCTAAAATGG
CACTAATAAGGGAATGGACTCAAAGAAGTTAAGTCAGCTAGCCACTGTCACAGCTATTAGAGCACTGGAACTAGGATTTGAACCCAGATTTGTCTGTATG
TAAAGCTGATTCTCTTCGTAATAGTACTGAGACACAAGAGGCGGCTACAAAATATTCTGGTACTCCATCCTAGACCAGAGTTTCAAGGTTCGTTATCATT
TGTAGCATGATACTGGATCCTCACAGTGCTTGCCTTTCATTCAGGTGCCAGGAAACGTCTGCCTGAATGAATGGGTGTAATTTACCTGCACATTTTACAT
GCTTCTCTAGGTGTGTGAWTAACTCATAATCCATCCATGACTTTCACCCATAATCCTCCTTGTAGCAATTGCTTTGCTTGCAACAAAACTAAGTAGACAT
ATCTAGCTTTATGCATGGTTTTCTCTCTCTGAACTCTAACATAAACTCAGCCTCAGGAATTATTCGGTTTCTACTACATTTGCCATTCTGATTGGGAACC
ACCAGCATTCAGGTATTCACCTGGAACAAGGCATTTTGTTCCAAGGGTTCCTCACTTAAAAGCAAGCACCCTAGCAATAGTTCATAATGGAACTTCTTAA
CATTCTCAGAATGTTTGGCACAGCTGTGAGTGAACACACATTGAGCAATCAATAACTATTACAGATAATGATGCCCTTAAGACCAGGATATTTTAGCTTT
CCCATTCAAAGGGGGTGAAATATGCACTCTTACTATGGTATACTTTTGGTTCCTTCTGCCATGTATCCTTAATAAAAGATGTCAATTCCATATGGTTTTC
TCTTGAGTTCTAACCATTTTGTTGTACCCTAGCCCTTTTAACAATATCAAACTTGCAACTGAATACCATTTAGCATTCATCCATTTTTTCCAATGGTGTT
CATTATAGGCTATCTTACTCCTCCTATTTGTATGACAAAAATTGGCTTTTTTCACCGATGTCTATGGTACATCTGGCAGCTTTCCATGTACTCAGTTCTT
ATCTGATGTAGCCCAGAACGACTGCCTGAAGGGATGCCAAAAGCCTGATTGAGGTTCCAAATTTTCAGCTACTGTACTATCAATCCATTTGTTCATTTTT
ACTTTCCCTTGTCATCTGTAGCTTACAGTTGAGTGGCCTGAACATGTTTTGCATACATTGTAATATCTAAGAATTTGGGAATACGGTCCTAGGATTTAGA
CTTAATACTACCTTCCATTTATATAATACTTACTCATAAAATCTTCAGTGTTCCTGAAAAAGAAAAAGGAACATGTATTGAGTGCCTGCTAGAAGCAGGA
ACTTGTAGTAGATTTTCTATGTGTTACCTTATTTTCACAACACACACACAGGTGATATCCTTCCCAGTTTACTGATGAGGAAACTCAGGGGTCAAAGTAG
TAGATACCTACCCAAGGTAACAGAAGCTGTGAAGTGGTACAGCTGGGATCTAAAATATGTCAGCTTCACCGTAGATAGGCTCCCTGATGAACCACCTGCC
ACGGCCCGTATGACCGCATCCAGGGGTGATGATGTCATTTTCACAGGGTTATTGAGAGCTAAAACTACGAAGTACTAYAAACTATTATTTAAAATATAAA
TACATACTATATATGCATATGTGTGTATATATAATTAATGGGGTAAACATTACAGAATACTGTCCTAACCTTTAAACAATGCACTCGTTTTCTGTAAACT
AATATACAAACAACTGTTTGGTCCCTAAAAATAGATGTCAGGTGACAGAGACTGGCTGAGCAAGAATAGGAGTATCTTCAGAATAGAAGCCAGAGGAGTT
TTTGCTTCCCCAACACATTGTCGCACCATTCACTGTTCCAGGACCTTCCTACTTCTCTGGAAAACTCTGGCCCAAAGCAGCTCCTCTACATTAGTCACAA
GTTTCCATTAATCAGGGGTGGCCTGTGCCGGACCTACAGCAGAGTCATTTCAGGTTATTCTGTTACAGGCTTTCGACGTGTAGTCAGTCCACTCGCCCAA
ATCTAGCAGGGAATGAATGCCTTGTAATACGGAAGCATCTACAAATTCTTCTTAACAGTGTTCAGAGAACAATGTGAAACCCTGGGGCCTTTTCCCAGAA
TTAGGGTGGTGGGAATGCTGTCCTATTGACTAAGCCTGTTAGGTAAGCAGGCAGTTGGCAAGATTCAGGAAGCTTCATTTGAAGATAGAATTTAGGGCGA
TCGTTTGGATTTACTGGCTTAATTACTTAAGGTAACATTTATAAAAGAAATTGTCATTCCATTATTATTACCTTTTAACTTTTATTCCTAAACGGAACAT
TAGCAACAAACTACATTACTTGATAAATGTAATTTCTAACCAGATTGATAACTAGAAAAAAATTTTAAGTTACTTTGCTCTGTGAATTAGTTTAAACATA
TTTGTAATTGAGACTTACTACTGTTATTGGCTGAAATAAATAAAAGCAAGAGATAATAAAGAATAACAGAGACAACGAACACCCAATTTAAGTTTATTTC
TAAGTTCCATCTTTTTTAGAGAAAAGGCAAATTAAGAAAAGTTTAGAGAGAGGTACTAGTATATTTATGAACTTGTATAGATGATAAGCAAAACGGACTT
TAATATGTAGAATTCCAGAATCAACAGGTTGCCAGCATCCATGTTTTTGAAGATTTGCTTAAGAACACAACCAAAAATGGAATGGGCAGTCTCTAATTAC
AAGCAGAAGGCTACAAAATCATTTTAGCTGCATAATACAGTTTTGGTTCTAAAGTCAGCACGTAAGAGGAAAATTCCTTAGGAAAATACAACATTGAAAA
CCATTGTGTCATGTAATATGAAATGCAATAATTAATTTTTCCTCCAGTAATAGAAAGATCACTGTTTCATTGGTTTATAAAAATATATCTTTATCATTAA
ATGTGGCAAAATGTTAAGACTTGGTGAATATTGGTGAAAAGTATATATCCATTGTACAATTCTTTCCAATTTTTTTTGAGATTGAAAATTTTTAAAACAA
CAAATTATCTTTTAAACAGCTAATAATCACTAGACCTGCACTCTTTGTGGTGAGACTATGAAAAATGTTAGAGACCTAGTAAGAGAAGCAGATTCACATT
TCTGTCTTCTTCTTCAAGCCAAACAGTCATAGAGTGGAGTGGGCAGAATGGAACTCACTTTTGAAAGCCTAGTGCTTTGTCCAATCTTACTGCAAGCCAG
ACAGGAAGGTTATAGAAAATGTTTCTGGATCAGTCTTCTCTGAGTCATATGAAATTGTGGTTTCAGCCAAGATGACATTAGGAATTAGAGACATGGGACA
AAAACTTTAAGATTGTAAAAAAATTTTGACTCTAGTAGGAAACATGGGTAGAATTGTAATGACACTTGATTGAATTTTAAAAGATGCCTGTATAAGATCT
TAAAATTAGGAAAAAAATTATGGCCTAAGCAATTAAAGGCATAGGAGGCATCTTTTTGGGATGATGGAAATATCCTCTCTCCTGATTGTGATAGTAGTTA
CATGAATATTCATTTAACAAAAACCATAAATTATAGACTTAGAAAACAGTAAATGTTACTGTATGTGACACCTTAATAAACGTGATTATAAAAATAAATC
CTAAGCATCTAAAAAAAAAAAAAAAAAGAAGAAGAAGTGAACCAGAACCACACCATTCTATTTTGGAGACACTTCAAAAGAAATGACCTCATTCTTAATT
TTGTTTAAAGAAGAATATAACATGATTTGAATATATTTAGCTAGGATATTTTAGTGCCTGCTAGCACYTGAAGCCAGAGTTCACTGTGAGCATTCTGACT
ATGAAGTGAGAAGCTAAGAGAACTGTATTTTGATATTCCTTTGACAGTTAAATCATAACACTGTTCTTCCCCTTCTTTAGCCCCAGCATGAGACCAGATG
TAAGCTCTCCTCCATCCAGCTCCTCAACAGCAACAACAGGACCACCTCCCAAACTCTGCCTGGTGTGCTCTGATGAAGCTTCAGGATGTCATTATGGAGT
CTTAACTTGTGGAAGCTGTAAAGTTTTCTTCAAAAGAGCAGTGGAAGGTAGTGTGTGTTTTGAAGAGTTTATTTTTCCTCTACTTGGTTTTCATTTCTCA
GGGTGGATTTTGAAATTTCCATTATATGCAAAGCCCATGAAAGGCTAAATATCAGTTAAGAGGGGAGAGGAGGGTGGCTCCTAGGTCCTCTAATGGGCAG
GAAAGTATTTAAAACRACAATACAAAAAGATCTAGAATAAAATAGAAAAGTACAAGTTGATGTCTGGGAGTTTGGTCAGGGAGCATAAGGTAACACTATA
AGAAAGTGCTATCATATGAAATGATGGTGTTAAGTTTGGGCATAACATAATGTTCATTGTATTAGAAACATGGGCTTTAACTTCCATAAGCTAATAGGTT
TCAAAGTCACCAACTTTACTGGCCTGGCAAAAATGAGTCACAGTGAGAACTGTGACAGGAAAAAAAAAAGATATTCATTTCATTTCTTATTCATTTTTTT
TTTCTATTAAGCCAGGGCACTGTGCTAAGTGGTATAAATACCAATAAGACCTGATCCTTACCCTCTGGGAAGTCACACTCCACTGAAGTGAAAGATGAGT
TAACAATGACAAGGTACAGAGATTATAATATAGATGAGGGAGAGAGAAACTCGGCCTGAGGAGGTCAGGAAAGGTATTTTAGAGAAACTGATTTCACTAT
ATAAATGTTGTATTAACACAAATCTTACTTTGTTATGGATTCAGACTGCTGACAGGGCAACAGCATTATCTCCCTAAAGAATGAGAAATTCATTCCATAG
CAAATTTATTAGAAGAGAGTCTAAAATGTCCTAATACTACCAGTGACTCCTCTAGGAAAAAAATTGTCATATAATTTAGTTATTTCTAAAGCAGTTTGAA
AGTAGCTTGGCCTAAAGCTCTGATTATATTAATTTTTTAAAGAAACAATTATTCATTCACTGTATGAGGATTATTATTATTTGTCTCATGTTGTGTTTGC
ATATCCATGAGAGTTAGATGAGTCATTTTCTTTTGTTTTACTTTTTAATACATTAGCAAATTATAAAATTACTCATATTACACCACAAAGATTACAAGGA
TGGCAGCTTTGGCCAGTGTAGTAGTCCCACCTATTGATTAGAGTCAAAAGTAAAGCCCAGCCCTGCTTTGTGCATTGCTCCTAATAAAGTGGATGTTACT
TAACACATACGCAGAAGACAGAAGCGTCTTCGTGTCCTCACTTTACTCCTCACTTTCTTAACTGCTTAAGTATTTCCACGATATAAATGCAGTGATAATA
ATAATACGGACAGTCCCTGACTTAACGATTTTTCAACTTTTATGATGGTGGGAAAGTGATACGCATTCAGTATGGCTCCTCGACTTACAATGGGGTTGCC
TCCAGATAAACCCATTGTGAATTGAAAATATCTTACACTTAGCACTCCATTCTTAATACCTGCTAGAATTATAGATTATCCCTCAAAATTGGCATAGTAT
AATATGGGTATCAGCAAGTTGTTGCACTTTATTCAGAGCTTTACACTAGGCAGGGGTGGGCTTTACTTTTGACTCTAATCAATAGGTGGGACTACTACAC
TAGCCAAAGCTGGCATCCTTGTGGTCTCTGTGGAGTAACGTGAGTAGCATTATAATTTACATCCCCCATAACAAATGATCCAAGAGAGTATGTGATCAAT
GCAGCAGAACTATTGTCTTTTATTATCTGATTTCACATGTAACATGCCATCACTTCTGCCATATTTTATTGGCCACACAGACCAATCTTGGTAAAGGACG
GAAAGGGACTGCACAAGACCATGCATTCAAGGAGGCAGAGATCACTGGGGGCCATCTTGGGAGGCTGGCTACCACACCCACCATAAATAGAAAACCAGAA
TTATTTGCCAAAAATAGACTTTAACCACAAAAATGAATACCATATAAACAAAACAAAGTCACAAAATTTCAGCTGACTTGAAGACTCATCTTTCTATTAG
TTAGAAAGGGAATTTACCAAGTAGTAGAAGACACAGGAACTCCAAAATAAGATATCTCATTGTCTTATCAGAAGGGTTGACAGGAAAATGGGCTGGGCAC
TGTGGCTCAAGGAAAATGGGCTGTGCACTGTGGCTCACACCTATTATCCCAGCAATTTGGGAGGCCAAGATGGGAGGATTGCTTGAGGCCTGGAGTTTGA
GACCAGCCTGAGCAACATAACGAGACCCCGTCTCTACAGGAAAAAAAAAAAAAAAAAAAACGTTATCCAGGCATCGCACCTGTAGTCTCAGCTACTCAGG
AAGCTAAAGCAGGAGATTCAGGCTGCAAAGAGCTATGACACACCACTGTACTCCAGCCTAGGCAACGTAGCAAGAACTTGTCTAAAAATAAATAAATAAA
TGAGTCAAGGAATGAATGAATGGATTGACAGGAAATGACTATTAGTTGTACGTGGCCATGTGTTATGAAATAGTGAATACTAGTTAAAACTCCTCATTTT
ATAGATAAGGAACAGATAGATAGACTTGTCCAACTTCATGCTAATAACCACAAAGGGCTATTTTTAACTTATGAAGGTACATTGCCTCTGATCCTATAGC
TCAGAGTCTTAGCTGTGCACAAGACATACCTGGGATAAAGAAATCAAGATTGGCGTAATGTGCACATCCTGACATTTCAGTTGGATATAAACAAAACTTT
GGAATTTTTCATTTTTAGCAGTGGGTGATTTTTTTTCTTTTTTTCTTCCAGTAACTGTAGGACAGTGATTTAGAGATTCCTTATAGGGTATAACTTTTTT
GTATTATAACCACTTCATCAATAGATGTATCTGTTGATCGTACTTTTGATTTATAGGGGATAGAATTGGGTTAGTGCTTCCATTTTCTGTCCAAGTAAAG
AAGCTAGGATATTTATAGAGTACAAAAAGAAATTGAAACAGCTGGTACAGATATTTGGCATTGGAGAGCAGCTCTGAACAAAGGTGAATTATAGTCTAGT
GGTCAATTTTGTGGCCTRTTCTTTACAAAGAATTGAACCTGATACAGTTAACCATCTACCCCAAACTATTATTTGTTTAAAACACAATCTATTGGCTGGG
CGTGGTGGCTCATGCCTGTAATCCCAGCACATCGGGAGGCCGAGGCGGGTGGATCACGAGGTCCTGAGATCGAGACAATCCTAGCCAACATGGTGAAACC
CTGTCTCTACTAAAAATATAAAAATTAGCCAGGCGTGGTGGCGTGCACCTGTAATCCCAGCTACTCGGGAGTCTGAGCCAGGAGAATTGCTTGAACCTGG
GAGGCAGAGGTTGCAGTGAGGTCATGCCACTACACTACTACACTCCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAATAAAAATAAAAAAACA
TAATCTATCAAACTGTGTAAAACACAGTTTATCAAAAAAGTAGTTACCCTTGGTGGGTACTGGCTGGAATTGGGCAGAAAGGGGGCCTGTTGGGGTACTG
TTCTGTTTCTTGATCTGAGAGCTGATTACATAAAGGTTCTTGGTTTGTAAAAATTTATTAAATGGTTCACTGATTTGTGTACTTTTTTTATATGTGAATA
CTGCAATAAGGTTTTTTATTGCACTGTTTTCAGTTTGTTGAACAGAAAAAGGGAGACTCTTTTTGTTGTTTTTGACCTCTCGACCTCATAATGGCAATGT
AGGCAAGAACATTCCCTCAAGGCAATACCTGTGGGTGTCTTGGTTATATTCCACCGGAAACAAAGACAGAGGCTGTCCKTATAAAATATGTTTGAAGACC
TGTGAAACTTTAATAGTGCCTTTTATTCCATATAGGACAGCACAATTACCTATGTGCTGGAAGGAATGATTGCATCATCGATAAAATTCGAAGAAAAAAC
TGCCCAGCATGCCGCTATCGAAAATGTCTTCAGGCTGGAATGAACCTGGAAGGTAATATAAATATCTGAAAGCAATTGTTTGTCTCTGTAGCTTATAAAA
ATTTATCATTTTACTTTTGAAGATACACGTAAGCAGATGTAATTAATGTAGTCAGTTCAGTATATATATGCTTGACTAGCATAATGTTACTGCCCAATAA
AAATGGGAAATTTTTTTCATGAATATGTCATATTGTTTGTTTATCCACCAGTTCTTCTTACACACACTGAATTCAGTACAGCCAGACTATATACAAAGAA
AGGAAATTATGTAATAATGAAACTTACACAACATGCAGCAACTTTATTATTCTTACTCCTTTTTTCAGCCTCAAAACTATTCCCTAGGGTTGGAAATGTT
TCTGTATCAGACATATTTACATGTCCATTTTTCTGTTTGCCTTTTAAAAGCATACCTTTTACTTGGAGATCTGTGTTTTATTACAGATCTTCAAGCGGGG
GGTGGTGGGAAAAAAAAAACCTCAAGGAAGAACTGGATGGGTTTTGTTTTGGTTTTCAAGTAAAGAAGAAACCTGGGCCGGGTGCAGTGGCTCACGCCTG
TAATCCCCGAAGTTTGTGAGAATCCTTCTGTCTAGTTTTTATGTGAAGATATTACCTTTTCCACCGTAGGCCTCAAAGCGCTCCAAATATCCACTTGCAG
ATTCTATAAAATGAGTGTTTGAAAAACTGCTCAATCAAAAGAAACGTTCAACTCCATGACCTGAATGCACACAACAGTGAGAAGTTTCTGAGAAAGTTTC
TTGGTCTCCCCGCACTTTGGGAGACCAAGGCAGGCGGATCACGAGGTCAAGAGATCAAGATCATCCTGGCTAACATGGTGAAACCCTGTCTCTGCTAAAA
ACACAAAAATTAGCGGAGCGTGGTGGTGTCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAG
TGAGCCGAGATCACACCACTGTACTCCAGCTTGGCGACAGAGCAAGACTCCGTCTTGGAAAAAAAAAAAAAAAAAGAAACCTGAAACTAGTTATAAGTTA
GAGTTTCATATCCCTGTTTATATAACAAGTTGTATAATTAACACTGATCTCAGCATTAAAAAATTTTCCTCTGAAAAAAGTTTGGAATTCTGCTGTGGTT
GAAATTGCAAGTTCTGTGAAGGTAGTGGTGATCTCATAACACATATGCTTAGTATTTATTGTGAAATTAGCACTTTTATTCAACAAATATGCACCAACAA
GGCAGTCACTAGGTATAAAATGAATAAAATAGTGCCTGTATTCAAGTAGTTTATCTGCTAGTTAGGTTGCAGAGTCAGTCACAAAATAGCRTGGCACACC
ATAGAGGGCATAGGGCCACAGGAACAAGAGGAAGGTCACCTAATTCTGTCTTGGAAGTCAAGGAAGAAGTAACATTGAATTTTAMATCTATAAGCTGAGT
AGGAATTAGATAGATGAAAAATAAGGGCAGAGACATGATCAGATTTGTATTTTACAAAGACTAATCTTACATGGAGAGACCAATTAAGTGAATATGGCAG
TCCTCCAGATAAGAGATGGCAGTACTGAGAGAGAATGGAAACCATGTGGTTCCTTTTATGATTATGATGATTATTATTATTTTAGAGACAGAGTCTAACT
CTTGTCACCCAGGCTGGAGTGCAGTGACATGAACATGGCTCACTGCAGCCTTGAACTCCTAGACTCAAGCCATCTTCCCACCCAGTAGGGCTACGGATGT
ACACTACCATGCCCAGCTGATTTTTTTTTAATTTTTGTTTTAATTTTTTGTAGAGACAAAGGGGTCTTGCTATGTTCCCAGGCTGGTGTCTAACTCCTGG
CCTTAAGTGATCCTCCCAACGTGGCCTCCCAAAGTGCTGGTATTACAGGTGTGAGCCACTGCAACTGACCTATGTGGTTCTTTTGATAGGAGAGACTAAT
TGTTGGTGCTATCTAGCACACACTGTGTGTAGACATCTTGTTAAATAGAAAATAGATTTATGGGTATGACTATGAAGAGTCTAATTCCCCAAACCACACA
CACAACTCTATMTACGTTTGACCAGGCTATTTAAACTTAACTGCAGAGTGTCAGCATGTTAAACATTGATTTACATAAAATGATAGCTGCCCACTTTCTT
GTAAATGTTATAAAAACTGYAGAGATTAACTAAAAAATGCACACAGAAGTTTGCTTTCAGTTCCACAAGGGTAGTTTATTTTTGTTATAAAAACAGTATT
CCCCACTTTCTTAGATACCAGATCTCTGCCCAGATTTTACCCAGTTTCATCTTGCTGCTCTCTAATCTCCTATGTATGTAATATACTTTGACCATTTAAA
TATGTATTAAGACACTTGAGTTTTTAGTGCCCTTTGGTTTATTTTCTCCGGTCCCAATTATCTCTAATCTTCATTTTTTCATTTTACCTATTTTATATTT
CGAAATAGGTTTTGAATGAAGCTCAAAGGACAAACCCAAATAAAATTCTGTCGTATCTCTAATATATTGTGGTTGCTTACCCAGTAACATTTTTAGGTGC
TTTTCTGAATACATATAAAGTTTAAGATCTTTGGAGTTTTAAGTATATAATGTTTTTCTGGGCAATTTCTCCCTATCCAAACTATGAGGGCCTTCTTTCA
TCAAAAGAAAAAAGATATATCAACTACAAAGTAATGATTTTGATGGACTAGGCTACGAAATCTGTCCATTTTTTCCTCCTTCTTACAGTTTAATAGCAAT
TGCAGTGCCCTTTGCCCTTACTGTACTAGAAGACGACCCCAGGCAGTGACTGACATCTGATTTTTCTATTAATTATACCATCACTGCCATTTCCAGTTGA
ATCTTTTGTTGGACATCAGAAATTTTTCTTACATGAATAAAATTTAAGCATACGGTTGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGC
CTAGGCAGGTGGATCACGAGGTCAGGAGATCGAGACTATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGT
GGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATCAGCCCAGGAGTTGGAGCTTGCAGTGAGCCAAGATCGCGCCACTGCA
CTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAATTTAAGCATACAATTTAGGCTGCAGTTTCTCAAAATATTGTAT
TAAAAATAACCAATTATATGCTTTTATAGTCAGTATAACGTATCCAGTTAGTGTAGAAATTGGCATTTGTTGAAAACTACTACATGTTAGTCTTTGATAT
ACATTCTTCTACTTTTTGGACCCTGATTATTAAAAACACCTTTGAATAGGGCCATGATTTACTTTATATCCATTTTTATACTACATAGTGGAAGAAAATT
CTGATTTGTTATTTCCTACTATGATATGTACCGTGTGGCACATATCATATAAATGATCCAATTCTACTTGTAGATGAATTGAAAGAAAGGCTTAAAAAAG
TTCTTAGGGTTTGTGTGTGTGGTTTCACTGTAAAACTATCATTTTTGTATTGAACTAACCTCAGTATACATAAAATCTTTATTTGGCCTGGTATGTACGT
ATGCCAGGAATCTTTGGCAGACCCTAACACTTACAATACAGATGAGCCATGTGTTTCACACTTTTTTTTTAACAACCTTCAGAAATATTCTCTTGTTCAT
CAGAGTGCTTCCCCTAAGCCAAGCAGTTTCGATGATAGCCCCAGAATAACTTTGCCCAAGTCTCTCCATAAATGTAACTTAGGACTCCAAGTGGTGTATT
TTTATACTCTTGCCCCATACCAAGTAAATCTCAAGATTTATTTTAAGGGAGTGGCCTTCACTGCTTAAAGGGCCTAGCATTTAAGAACAGATAAGATTTT
TAATGGTGATCCTAAATGTTTTTTTTTAAAAAACTTGCTTGTTTTTCTCTTGAAACTAAATGTTTTTATTCACTTCATTTTAAGATATATTGTAATCAAT
CCAAAGTATGGCTTTATTTTTAGTATAAACAGTCAAATGAAGCTTAGTCTTGTGGCATTGTCAGATTTATAACCAAATATTACTGAAACTAATTTTTTTA
AGTTCAAAAACCCAATCTAGTAGTTTCTCTCTTATTTTCAACTTTTATTTTAGATTCTRGGGGTACATGTACAGGTTTGTTACTAAGATACATTGTGTGA
TGCCGGTGTTTGGAGTATGATTGAACCTTTCATCTAGGAAGTAAGCACAGTACCTAACAGGTGCTTTTTAACCTGTGCCTCCCTTCCTCTATCCCCCCTC
TTGTATTTCCCAGTGTCTGTTCCCATCTTTATGTCTATGTGTACTCAATGTTTAGCTCCCATTTATAAATGAGAACATGGTATTTGTTTTTCTGCATTAG
TTCATGTAGGATACTGGCCGCCTGCTACATCCATGTTGCTGCAAAGGACGTGATTTCATTCTTTTTGTGGCCACATAGTATTCCATGGCATATAAATACC
ACATTTTCTTTATCCAGTCCACTGTTGATGGGCACCTGGGTTGGTTCCATGTCTTTGCTATTGCAAACCATGCTGCAGTGAACATATGGGTACATGTGTC
TTTTTGATAGAATGATTTATTTTTCTTTGGGTATATTCCCAGCAATAGGATTGCTAGGTTGAATGGTAGTTAAACTCTTAATTCTTTGAAGAATCTCCAA
ACTTCTTTCCACAGTGGTGTCATTGTGGTTTTGACTTGCATTTCTCTGATGATTAACAATCAGCATTTTTCCATATGTTTGTTGGCCACACGTATGTCTT
TTTTTGAGAAGTGTCTGTTCATGTCCTTTGCCCATTTTTAATGGGGTTGTTTTTGCTTGTTAATTTAAGTTCCATATAAACTCTGGATATTAGGGCTTTG
TCAGATGCATAGTTTGCAAATATTTTCTCCCATTCTGTAGATTGTGATAGTTTCTCTTGATTTGCAGAAACTCTTTAGTTAGGTCCCATTGTCAATTTTT
GTTTTTGTTGCAGTTTCTTTTGGGGATTAGTCATAAATTCTTTCCCAAGGCCAATGTCGAGAAGGTTATTTCCTAGGTTTTCTTCTAGGATTTTCATAGT
TTGAGGTCTTACATTTACATCTTTAATCCACCTTACTAATTTTTATATGGCAGTAGGTAGGGGTCCAGTTTCATTCTTCTGCACATGGATAGCCAGTTAT
CCCAGCACCATTAATGGAATAGGGAGTCTTTTCCCTATGGCTTATTTTTATCAACTTTGTGTAGATTACATGGCTGTAGGTGTGTGTCTTTATTTCTGGA
CTCTATTCTGTACCATTGTGTGTGGTTTTTTTTTACCAGTACCATGCTGTTTCGGTTACTATAGCCTGTAGTATAGTTTGATTTGGGGTAATGTGATGTT
GCCAACTTTGTTCTTTTTGCTTAGGATTGCTTTGGCTATTTGGGGCATTTTTTGGTTCCATAGGAATTTTAGAATGCTTTTTGCTAATTCTGTGAAAAAT
GACATTGTAGTTTGATAGGAATAGTGTTGAATCTATAAATTGCTTTGGGTAGTATGACCATTTTAACTATACTGATTCTACCAGTCCATGAGCATGGAAT
GTTATTCCATTTGTTTGTGTCATCTTTGATTTCTTTCAGCAGTGTTTTGTAGTTCTCCTTGTAAAAATTTTAAACTAACTTAGATGCATTCCTAGGTATT
TTACTCTTTTTGTGACTGTTACAAATGGGATTGCATTCTTGATTTGGCTCTCAGCTTGAACATTACTGGTGTATAGAAATGCTACTGATTTTTGTACATT
GATTTTAAATCCTGAACCTTTACCAAAGTTGTTTATCAGCTCCAGGAGCCTTTTGRCAGAGTCTTCAGGGTTTTCTAGGTATAGAATCATAAGTGAAAAG
AGATCGTTTGATTATTTATTTTCCTATTTGGAAGCCTTTTATCTCTTTCTCTTACCTGATTGTTCTGACTAGGATTTCCAGTACTATGTTAAATTGGAAT
GGTGACATTGGGCATCCTTGTCTTATTGCATTAAGGGGAATGCTTCCAGCTTTTGCCCATTTGGTATGATGTTGGCTGTTGGTTTGTCATACAGGGCTCT
TTATTACTTTGAGGTATGTTCCTTCAATACCTAGTTTGGTGAAGGTTTTTATCATGAAGAGATGCTGGATTTTATCGCAACTTTTTCTGCATCTATTGAG
ATGATCATTATTTTTTTTGTTATGTGGTGAATCACATTTATTGATTTGCATATGTTGAACGAGCCTTGCATCCCAGAAATAAAGCCTACTTGATTGTGGT
GAATTAACTTTTTGATGTGCAGCTGGATTCAGTTTGCTAGTGTTTTGTTGAAGATTTTTGTATCTGTGTTCATCAGGGATATTGGCCTGTAGTTTTGTTG
TTGTTGTTGTTTCTCTACCAGGTTTTGGTATTAGAATGATGTTTCCCTTGTAGAATAAGTTAGGGATGAGGCCCTCTTTCTAGATTGCTTTTTTAGAATA
GTTTTAGTAGGATTAGTACCAGCTCTTCTTTGTAYATCTGGTAGAATTTGGCTGTGAATCCATCTGGTCAAGGGCTTTTTTTAATTGGTAGGTTTTTTAT
TATTGATTCAATTTCAGAACTCGTTATTGGTCTGTTCAGAATTTCAGTTTCTTCCTGGTTCAATCTAGGCAGGTTGTGTGTTTCCATTTCCACATACATA
CTTACTCCAAATAATGGCTTTATATATACGGGGGTCAGCTGAAAACAAAAATGATACTTTCATAGTAAACTCCACCCGCCCCCCCACCCACATACACACA
CACATAAACCCTAGATTTTTTAAAGCCTTTGTTCCAATTTATCCATTTCCTCTAGATTGTCTACTTTGTGTGCATAGAGGTGCTTGTAATAGTGTGAAGA
TCTTTTTCACTTCTGTGGAATCTCTTGTAATGTCATCTTTTACATTTTTTATTGTGCTTATTTGGGTCTTCACTCTTTTTTTCTTTGTTAATCTTGCTAG
TGGTCTATCAATCTTGTTTATCCTTTCAAGTAACCAACTTTTATAAACTAGGTTTTAAGCTAATTAAGATTTCTCTACTTTCATTAAGAAGGAAGTAGTG
TTACCACAGACTCATGAACACTTCTGTGGAGCTCCTGTATTGACTGCTAATCAACTATATGCTCCAATGGGTCAGGAATTTATATAAAGTTGTATTAACT
AAGTTGCTTTAAAATAGTGATTGCTTAACTAAATGATTCAGTTCAGTTAACTCCTTCCTGAAGATATTTTGAAAAATTAATTAGTATTATTTCTTGCTCT
AGTCAGTACAGCACAGTTGGGTTCAATTGTACTTTCTGAGCTGTATTGAAAAACATCAGTTTTCTCATTTAGAACTATATATAAGTAGTGAGAAATTAAT
TACAAACTGAGTCATAGAAAATGTTTTTTTTTAATCCTCCAGCTTGTTACTCTTTCTTCCTTGTTCTAATGTGGAGTAAAGAAATATGCATTCCAAACCA
TTTAAAGTTATGACTAATTGAGGCTGTCAAAGTACTGTTTCAGTGTATTGATTTGGCACATGTGTGTTCTCTTTTACATTGTCAACAAAAGTACATTTTA
TGATTTTGGATCAAGATTTCACTGAGATACTTCTGGTTGTTTAAAGAGTTTCTTTATGTATTGGTGTCTTTCCTTTTTAAAATTTTATCACTCCTCTATT
AAGTTGTGATATCCAAATTTAAAATATTCTAAAAACATGTTCTCCTGCAAGTTGAGGTAATGATAGTTGTTATGTGGTACTTACTATAATATATGCCAGG
AACTGTTCTAAGCATTTTACATATTTAATTCTCACAACAACCCTATGAGGTAGGGACTAATATTGTCCTCATTTTACAGAAGGGGAAATGAAGAGTCAGG
GAGTAACTTGCACAGATATCCAGCTACAACATGGCAGAACCAGGACTTAAATCCAAATATGCTGATTTCAGGTTTCTGCCCTTTAGTCCTATATCATACT
GTGCCTCCAAGAGAGCATGGTAAACTAATTAGCATGGTTCTATCATGATTCTGTTTCTATTTTGAACTATTAATAAAAATTTTTGCAATTCTCAGTTACC
CCATTTAGTATAGAACACAATAAGAATGGAACCATTCTATTCTAACATTGTACATTGAGATATCGTTCCCACCACCATATCTGTCCTCCATAGACTATAT
GGTGTGTCATTTTAAGGACAGAGGATCTAAAAATGATTTTTAAAGGTGATTTACATTTACTCTTCCCTTTGCAAAATGGTTTGCATCCCTAATAATTTAG
ACAAGTACATTTCTTCGTGATATAAATTACATTTCTTGCCTTTCCCTGGAATTCTGAGTACTTTCCCTCTGAGAGAACAATGTAATTCTTATTTATTTAG
TCACTAAAATAACTTCAGGAGTATGAATAAGTCTACTAAAAAGTCTACAGGATCCATGTTGTAGTTTGAGTAGATGGTTCCATACCAAGTCAAGGTAAAA
GWTAATTTATATATAATATGAAAATGGCTGCTTTAGGTTTATAGAGTAATCAATATAAATCTTCCTTATAAAAGGGAAATTTCCCACTTATAATTTATGT
AATGTAAAGTTTTTCATTTCATCTTCCCAAATGTTTTTAGTCCCACGCAGTATTTATGTTAGTACCTATGTAAAGGTGAAAAGTGAATTTTTTCTACTGG
TAGAACTAATACTATTTTTAGCATGTAATCTGCTGTCATCTTCCTATCTTTATAAGTGGCTTTGAACAAGTGTAAATAGTGTAATTCTCTTCATTATATA
TACTACCATGATTTAGATTAATCTTAAACCACAGTTTGTAATCCGTTACTCCAAGCTTAGATTTTTTTTTCAGTTTATAGTAAGAGTAATTTGCCTTATA
TAACCAATGAAATTGTTGCATTTAGAGTGAAAGTGAGATAAAAAAATAATTTATAGAAGAATTTACAAAAGTTATTTACTCAGATTGTTTTAACATACCG
TTATAATACTTTGTATAAGGAATAACTCTAATGAAGTTTCTGGCCTATTTGTAGGCAAAATTAATTGGGAATAGGTTCCTCTGGATCTTTTGCTTTCAGA
AAAAAAAAAGTTTTTTCTCCTTTTCCATGTCACTTTATCATAATTGCTAAATAAAATATTTCTCCCATCTTAATAGTTTTAGAAAGTAAAAATACTTCTT
GAATAAACTGTGTAGCGCAGACCTTCCCATTACAGTTCATTTCTATGTATTTKTTTAAATACCCACAGCTCGAAAAACAAAGAAAAAAATAAAAGGAATT
CAGCAGGCCACTACAGGAGTCTCACAAGAAACCTCTGAAAATCCTGGTAASAAAACAATAGTTCCTGCAACGTTACCACAACTCACCCCTACCCTGGTGT
CACTGTTGGAGGTTATTGAACCTGAAGTGTTATATGCAGGATATGATAGCTCTGTTCCAGACTCAACTTGGAGGAWCATGACTACGCTCAACATGTTAGG
AGGGCGGCAAGTGATTGCAGCAGTGAAATGGGCAAAGGCAATACCAGGTAAGATGCAAAACATAAAAGAGCAACTATATAAACCTTTGTGTTTTCTTCAG
CAAAAACACTTTGGCTTTTATATCATCGTGAGCCCATGGCTTATCTTGTTTCTCTTAGTTCTGGGGAYTATGAAGGGGAGAGTCAGGTGAATACAGGTGA
TAGGGAGTTTATAATAAAACATTTACATTACTCCCTGCTTTTCAAATCATTATGCACAGGATGGTAATTTCACATAGGATGATGTAATATCAGAATTCAA
GTTACAAGACTCACTCAAAACTCCTTTTACACTGAAGTTTGGGGAAAGAAAATGTTTTTAGTTAATTCCATTTGTTTTCCTTCATTGTGCCACTTTTAAA
AATCAGGTTGTTTGTAAGATTGGTAAACATCAAGTATGTTGATTGTCAAAATTTGTACTAAAGTAGAATGATTTTAACCCTTCACTAAATGAAATGCTAC
ACATTGAATGTAATTTTAAAGATAATTTTAAATAAAAGTTACCCTATTGGAATTTGGTGTGGAATGGCAGAGGTCAATGTTAGTGTCAGCTCTGACTTTA
AAGACAGGGAATTGACAAGCCTGTGTTCACGCAAATAGTTAGGGAGAGAGCAAGAAAGTAACCTGACCTCCTGTCATCCTTGTTTTATTAAGGGGGAAAG
AGGTGTGAATAGCAGGGCAAATGTTTTGCTTAACTCATTGATTAATACCTCAAGCCAAGATTCTTTTCTGTTTTTTAAAATCAATACATAATAGTTGTAC
ATATTTACTGTACATATTTATATTTAGGGGGTACATGTAATAATTTAATAAAAGCATACAACGTGTAAGGATCAAATCAGAGTAACTGGGATATCCATCA
CCTCAAACATTTGTTTGGGGAACATTCCAAATCTTCTCTTTTAGCTATTTTGAAATATAAAGTAAATTATTGTTAACTATAGTCATCCTGTTGTGCTACT
GAACACTAAAACTTATTTCTTCTAACTGTATTTTTGCACCCGTCAACCATTCCCGCTTCATCCCCATCACCACTATCTTTCCCGGTCACTGGTAACCRCC
AAGCCAAGAATTTTGGCTATTTTACTATTTAGTTCATGTTTACTTAAGCAGACAGAGGTGACAAAACTGGCTTTTTTTTTTTTTTTTTACATTAAAAGCT
ATTAAAAAGCACCTAGGGGGCTGGGTGCGATGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCCCAGGTGGGTGGATCAGTTGAGGTCAGGAGTTCGA
GACCAGCCTGGCCAGCATAGCAAAACCCCATCTCTACTAAAATTACAAAAATTAGCCGGGCATGGTGGTATGAATCTGTMTTCCTAGCTACTTGGGAGGC
TGGCACTGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATGGCACCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTTTGTCTCA
ATTAAAAAAAAAAAAAAAAAAAAAAMCACAAGAGGGTTTGTGAGTCTTAAAGTGTCAGATGACAGAAGAAAACTGTGTCTACCTAGTATTTAATTTCCAT
TTTCTGTTAGGGGTGCCCTTGTTTTGACAGGGCTAATTGATCTCATTGCTCCTTGGCAATTCCCACAGAGATGATCTTCTGAAGAGTGTTGCCTCATACC
TTTATTTCTCTTAATTCAGGTTTCAGGAACTTACAYCTGGATGACCAAATGACCCTACTGCAGTACTCCTGGATGTTTCTTATGGCATTTGCTCTGGGGT
GGAGATCATATAGACAATCAAGTGCAAACCTGCTGTGTTTTGCTCCTGATCTGATTATTAATGAGTAAGTTGTATGTGTGTCATTTTCCCTGTATTCATA
GGGTATCTTTAACCAGCTGATGTTTTCCTGATTGACTGCTATTGTGATAATTCAGGACTGAAACAATCCTACTAGGTATCTAGGATCTAGGCAAACTGGA
AATAGAGTTATGAGTGCTTGGGGCAGGACAAGTGTAATGTAAAGCAAATGTACATGTGGCATTATTACTGTCCCAGGACATGTTTGAGGATATTTAACAG
CATATCTGAGGTTAGTAAAGTCTGTCGCAAGCAACAAGGAATCTTACTGTGATATCATTTACATAACCCTATTCCAGAAAGAAAAAGGAGCATGGTAAAA
CTCATGTGGATTCAGTGGGGACAATTGTAGATGAGGATATCTAGGCTGATGGGGTGGGACATATGGACCCAGACACAAGAGGTATCTCTTTGCATGGCAA
GGCTCACCCAGTGTCTGTGGTTTAAGAATATGGGAACAAATTTGTTTTGTTTAACTGAGAGAAGACCAAGCCTTTAAGATTTTATAAATCAGCTATTCTC
TTATCCTCTAAGCTTATTCCTGTGTCTGCGAAATACTTCAGGTGTCCATTTCCCCTTACCTCATTGCAGTTGTTTCCTCACTCGTTTTCTCCCTCCAGTG
TAACGTTCATCATGTTGGCTAATGTTTGCTTCCTCAAGCACAGTCTGACTGCATCACATATCTCCCCAGTACACAGATTGTCTTCAGTATCTTCCCACTG
ACCCTCCAGTACATATTCTGCATGATTTCAGACTTTCCAGAATCTGACCTCACTTCCTCTCCCATTGTTTTCCTTCACACACTCTTCATTCCCATCCATC
CTTTCCAGCATACTCTTAGACTCTTGGTGTTCACATCACCAGATACACAGCAGAGAAGTCACATCCTAGTTACTCTCACTTTCTACCTTGTATTACTACT
TTTCGTACCCCTAGCTTATTGCTATTAGTACAATGTAAACAGGGAGTTCACACACACATACCCCTGGTCTAAGAAGAATAAAAAATGAAGGAGATTTCTG
TTTGTATAGAAAACAGAAGTCACCTTGACTTTTATTGCCAAAAAGAGGACTGTTCAAACTACTGCATCACAATGTAACAAGATTAGGTAGTTGGATCCAA
TTTTAAATTAACTGGTAAATATATTTAGTTTCTGGGGAAACTGAAGACATTATTACTCATCATAATCCTACCATGCTGTTTAAAAAATACCATGTTGGCA
GTATTTGTTTTTTAGTCACTTTCTAATATGTAATTTGAAGGCATTTAAGTGGAATTAAAAGCATAAACAGATTTGTATGAAACACCAACTTATCCTGGTT
TATAAAACTAACCTAATTTAGGGTTTTTATTATTAGGGCATTCAGATTTAGCTTTAAGCAGTCACAGCAAAATCTAATCATGCCACATACATTCCTTACA
TAAAGTGGGATTTATAATTTTTTTTCCTCAACAGATTTACATTAGTTTCATTTTCATTAAGGGATATGTACTTCCTATTCTTGTGTTCTCATGCTGCTGC
CTAAAAGATGGGCAGTCCTCCACCTTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTGAGACGAGTCTTACTCTGTCACCCAGGCTCAAGTGCAGTGGTGT
GATCTTGGCTCATGGCAACCTCTGCCTCCAGGGTTCAAGTGATTCTCTGCCTCAGCCTCCCGAATAGCTGGGATTACAGGCGCACTCCACCACACTTGGC
TAATTTTTTGTATTTTTAGTAGAGACRGGGTTTTGCCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCACTTTGGCMTCCCAAA
GTGCTGGGATTACAGGTGTGAGCCACCGCACCCAGCCCTCCACCCTTTTTTCTTAGCCCACTATGTTTCCATACTGCTCTGGTGTCTGTGACAGGCAGAT
ATTGCATATCAGAAAGTATGCATTCAAGTTCTGACCCTCTATAGAGCTGTCAAACAGTCTCTCATGGTTGCCCTTAGGTCAGAACGTTGTGGGGGAAAAA
AAAATTGTTGTTGTTTTTACAGCCAACAAGAATGAGTTTTTACTTATTCTACTACACTATAACTTTGTTGAAATTTTCAGTTATATGAGTATAACCATGT
ACAAGAAACTAAAGGAAAAAAAGGTGCCTCCCAGAAAAGGAGTGCTTTACCTACTATTAAGGACTAGGGAGGTGCCTCTTCGGTAAGAGCAGATTTTAAA
TTTGAAGAGCCTCTGATCACTTTGGCAGCATATAAGTCATGTCTAATTTATTTTATATAAAGGAATAAACCACATATTCAGTAGAGAAAAATAATAACCT
TTCTGTTGTTAAGTCCAAGACGACTTTCTGTCAGAAACTTAAAAAAAAAAAAAAATCTTGAAGCATTTTAAAAGCTGTGAACTGGGCCCAGTTTCAGGCT
CTTAGTGTCATTTCACAAGTCAGGAAACTTTAGAGACCTATTTGAAAATCATAGGTATGTAATGACTTCAGAATCATAAGCAAGAATTGGTTTAGTACCT
TTAGTTTAAAGAATATTAAGGCATATGCCTGTCAGAGGCAGATTTTGAGCATCAGAAGTCTAGAATCAAGTTCTAGGTCTCGCCCTCTGCATAACTGTGA
ACAGTGTCACACATTTTTGTCTTTAGGATGGACTGCTGTGAAAAAATTTACCTTTAAAAATCAAGTGTGTAGGACCTAAAACTGTCGTCTAATTGACCGT
ATTCAAATGATAAACCTTGATTTAAATGAGCAACTAGTAATAAGTTCTATAAGAATTCTAACACTTTAATTAAATAATAAAATAATACATGGCATGCATG
ATAGAAAATAATATCTCCACTGTTACATTAGATTATTCATTAGTCTATTTAAACAGCCAAGATGCAGGAAGTTTAAGGAAAGTTCTCCAAAATTCTGATT
TTATAGGGAATTAGCAATAATATTATTGCAGTAGTTGTTTTTCTTTATGAGTTCATAGTTTTGCAAAACAAAACAAAAATGTGCTTTTTGGGGGGAAGTA
GCAGTATTTCTAACTAATACCCTGCTATTTATCTTTCACAGGCAGAGAATGACTCTACCCTGCATGTACGACCAATGTAAACACATGCTGTATGTTTCCT
CTGAGTTACACAGGCTTCAGGTATCTTATGAAGAGTATCTCTGTATGAAAACCTTACTGCTTCTCTCTTCAGGTTGGTAGAACACCTTTTCACCTTATGT
CAAAAGCATGAAATATGAAGGCCTAGAAACAAAGGTTAATTTATATACATAGTACTAATAATTATACCAAGTCTACTATTATTTCCTACTAGTCAGATGA
TTTTTATGAATGTAAAATATTAGAAAGGCACAGTAAGTGACACCAAGATTAATAAGACAAATAGGTATGGCAGAAACAGAGAGGTATATGAGCTGCATAG
GGATCTCTGTTGATAAGAATCTGTGTAGACTTTTTTCTCCTTCCTTCCTTTGATCTTTGATCATGGRAAGACATGGAAAAAGAAAGCTAACTACAGTGAT
TTTGTCYACTACACTGTTATTTGGTTAAAAATTTTAGTTTCCTAATGAGTATTAGCATGTATGAGAAATTATGGGAGAAAAAGGCGCATCCTAGAAAAGG
TGTGCTTAATTACTATTGGGGATTGGTTAACATAGCATGGGAGCTGGATTGTCAGAGATTCATTATCTAGAAAATGGCAACAAGAGTTTATAAAACGAAC
TTCTGTGAGATTACTTTTTAGCTAGCAAAGACAAAGATGTCCTTCAGTAGGTGAAGTGATAAACTATGATACATCCAGATGATGGAATACTATTGAGGAC
TAAAAAGAAATAAGCTGTCAAGCCATGAAAACACATGGAGGGACGTTAAATGCATATTACTAAGTGAAAAAAGCTAATCTGAAAGGGCTACATACTGTGT
GATTCTAACTATATAACATTCCATAAAAGGCAAAACTGTGAAGACAGCAAAAAAAAATCAGCGGTTGCCAGGGTTTAGAAGGAAGGGAGGGATAAATGTG
CAGAGCACAGAGGATTTTTAGGGCAGTGAAAATACTTCGTATGATACTACAATGGTGGAAACATGTCATTATACATTTATCCAAACCCAAAGAATGTCCA
CCACCAAGAGTGAACCCTCAACTATGGACTTTGGGTGATGATGTGTGGGACAGGAGGTATATGAAAAATCTCTGTACCTTCCTCCCAATTTTGCTGTGAA
CTTAAAACTGCTCTAAAAAAAGTCTTTTTTAAAAAAAGCTCTATGAACTAGTTGSTATTATAAACCTTAGGCCATTTCAAGTAAAAATTACATATCAATG
TTTATTAAATACTGAGTTAATAGCTGAATACCTCTTTCATATACAAATAAGTACATTTGCAATTTTTTAAAAAGTCTTAATTCCATTAGTAACTGTGGTT
TCATAGTTGCCAAATAACTGTAAGCTATGGATGTTGCACAAGACTGTGATTTTATTTAATCATTTCATATCTATTTAAACATTTCCAAAGCGCACATTCA
TCTTAATGTTTTCACACTATTTTTGCTCAACAAAAAGTTATTTTATGTTAATGGATATAAGAAGTATTAATAATATTTCAGTCAAGGCAAGAGAACCCGA
TAAAGATCATTGCTAGAGACGTTTAATGTTACCTGTAGCGGTACACTTGTTAAAGAAGTGATTAAGCAGTTACATAAAATTCTGATCATAGCTTTGATTG
ATACCATGAAGGTATAATTCAGTGCCTGGATACTAACAACTTTACTTGTTTAAAAAAAAAAAAAAAAGAATGGTTTCAATTGTATACATCCCAGACTAAT
TGAGCTATATGATTTTTTTCATTGTAAATAATATCACGAGTTCTTCTTGTTAAAAAATAATAGAATCATAAGGATGGAAATATATACCTTAAGATATAGA
CTTCTACTATGATAGACTACTGGAATAGGTATATAACCTCCCACCAAAAATGCTAGACTAAAAAAATTAAGAACTAAGTGAAGGCAGGAACCTACAGAGA
TAAGTGGAACTCAAGCCAACTTGCTCTTTGACGGCATTTGTAGAACCTGGTAAATTAGTAAGTTTAGTAAGTTGGGGTTTTTTTAAGTTTATAATCTTTT
TTAAAATGATTTCAATAGGTTTTTGGGGAACAGGTAGTGGTAGGTTACATGAATAAGTTCTTTAGTGGTGATTTCTGGGATTTTGGTGCACCCATCACCC
GAGCAGTGTACACTGTACCCAATGTGTAGTCTTTCATCCCTCATCCCCTCCCCAACCCTAGTCCACAAAGTCCATAATATCATTCTCATGCCTTTGCATC
TTCATAGTTTAGCTCCCACTTAGAAGTGAGAACATGCAATATTTGGTTTCCCATTCCTGGGTTACTTCACTTACAATAATGGTTTCCAGTTCCATCCAGG
TTGCTGCAAATGCCATTATTTTGTTCCTTTTTGTGGCTGAGTAGTATTCCATGGTATATATATACCACATTTTCTTTATCCACTCGTTGATTGATGGGCA
TTTGGACTGGTTCTGTATATTTAGTAAGTTTAAAAACAAGGGATGGAAATATAAATGCAGTTGAAAAGGCAGTGGATGGATCTAAAAGCAGAAGAATACA
ATTGTTTTTAATGATTGTGTATATGTTTGTGTATATAAACCACAAGGGAAATCTGTAGGTACTGAAAATCACAACAGGAAAATGGCAACAAAGCTATAGA
AACTGGAAAAGCAATGACTTTTCTTAGATCCCTCAGAGAATGGAGGTCATAGGACAAACCACCACTTCAAAATCTAGAAGAATAGACAAATACAGAGAAA
CAGCCAAGATCAGCTTACTGGGAAAAGATGCCACTGAAGCCAGGAAGACTATGGCAATTTGGGAAAAGATGCCACTGAAGYCAGGAAGACTATGGCAATT
TTGATGAATTGCTGGAGGCTGAGTGAGGACTAGCTTCAGAGTTAAAAACTCCCAGGGACCCAGTCTTAGTGGGGGTTTCCTGCAATTTCTTGGGTTTACC
CCACAAAATTTCTAACTTCCAGAAACTCCACAAGGTTCTTATGGTGAAGATGCAAGAAAAATTCCCTCCTTTTTCTGGTAGGAGTAGAGGGAAGGTAAAA
TTTGGAAATACGTAGCAGAGTGTTCACAACAAAAGGCCTGCCCTGTAAGGAAAACTAATTCAAYAGGCCCTTATGTGACCTGGGGGAAAGGCAAATAGAG
GATTCTAGCCCTTCCTTAGCCTTCTTGTCTCATTTCTGAAAGTCACAGCCCAGGGATTCAGACCCACTAAAAAAAACTGAGATTTAATCATAAAGATTAA
AAAACAATTCCCCTCCCCCTCCCCAACACCTTACCACCATATAAACAGGGCTCCAGGATAAAATAACAGTGGATTACAACTGAGAGAGCTGCAAGACACA
AGCTGTTTAAGGAGCTCTTAGGAAACCCAAAAACAACAGAAGAAAAAGTAAATAAAAACAAGGAAACTAGAGGAAACTGAAGCCTCCAGTACCTACAATT
ATGGCAAACATTAAATACAGCCCAGCTCCTAGCCAGATTAGCATGAAACCTCACACTAAAAGTCTAATTACTTCAGTTTTGATATATCAATCATGTCCAG
CTTTCAGCAAAAAAACTACAAGGCATGCTAAAAGGCAAGAAAAACCCACGGTCTGAAGAGACAAAACAAGCATCAGAAGCAGTCCTCAGATATGACACAA
ATATTTCAATTATCAGATAGGGAATTTACAATACCTATGATTAGTAGGTTAAAGGCTCCAATGGAAAAAAGTAGACAACATGCAAGAAGTGATGTACGCA
GAGAGATGGAAACTCTAAAAATAAATGCTAAGGAATGCTGTAAGGAAATGCAGAATGATGTTGATGGGCTCATCAGTAGACTGAGCACAGCCAAGCAAAG
AGTCAGTGAGCTTGAAGATAGATAGGTCAAAGGAAATTCCCCCAAACTCAAATGCAATATAAACATAGTAGACATTAATCCAGCTGTATCAGTAATTACT
TTAAATTTGAATGCTCTAAGTACACCAATCAGCTATTTTTTTAACTAGGAGGTGAAAATAAAGTTTGCCACCAGATGCTCACTAAAAAATTATTAGAGGA
TATATCCCAGCCAGGCGTGGTGGCTCACACCGGTAATCCCAACACTTTGGGAGGCTGAGGCAGGCAGATCACAGAGTCAAGAGATCAAGACCATCCTGGC
TTACGTGGTAAAACCCCATCTCTACTAGAAATACAAAACTTAGCTGGGGGTGGTGGTGCGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGA
ATCACTTGAACCTGGGACGTAGAGGTTGCAGAGAGCCAAGATAGCACCACTGCACTCCAGCCTAGTGACAGAGGGAGACTCCATCTTAGAAAAAAAATAA
TAAAAGTAATCCCATCTTTAAGAAGGACTGAAGAATAACAAAAGTGGTAAATAATATAGATACATTTAAACTGACATTTACTATGTATATAAAATAACAA
CAGTAACAATTTCCTTGAGGGCTAAAAAGTAGAACTAAAGTAAGTTTCAAGGATGACAACTAGAAATAGGGTATGCAGGGTATGCAAAGTACCAAACCAT
TGGGGGAAGAGAATACCTAAGAAAAACAATCCAAAAGAATGAAAGACATGAGAGGAGGGAGAAAAAAATGCATAAACAAGGGCATGATAACAGGAAGTAA
CAGATAAGGTACATTAGTACAGCTAAATTCAAACACATCAGTAGTTTAGTTTCATTAAATATAGAGATGGGGCCAGGTGTAGTGGCTCACACCTATAATC
CCAGCACTTTGGGAGGCTGTGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGCGAAACCCCGACTCTACTAMAACTATAAAAA
GCCGGGTGTGGTGGTGCATGCCTGTTATCCTAGCTACTCGGGAGGCTGAGGCACAAGAATCATTTGAACCTGGGAGATGGAGGTTGCAGTGAGCCAAGAT
CGTGCCACTCTTCTCCAAACTGGGTGACAGAGGGACACTGTCTCAAAAATAAAATAAATGTAGAGATGGACTGAATGCTCCAAGCTAATCTGACAGGATT
TTAGAAATAATCCAAATTTATGCTATTTAAAAAAAGCTATATCTGAATAAAGATATTGAAAGGCTGAAGTAAAAGGATCTACTTTGCATAGTATAACCCA
AGACATGGCCAACTTTTTCTGTAAAGGGCCAGATGGTAAATGTTGTTAGCTTTGCACAGTCTCTGTCACAGCTACTAAACTCTGYCCTTGTGGCAGGAAC
ATAGTCATTGACGGTACTCAAATAGAACAGGCATGGCTGTGTTCCAATAAAACTTTATTTACAAATACAGGCTGCAAGTAGGATTTGGCCCATAGGCCAA
AGTTTGCTGGCCCCTATATTGACCAAAACAAAACCGAAGGAGCTACATTATTACCAAGCAAAATAGATGTTAAGGCAAAATACTCCTTAAAGCATTTGTT
CAGGAAAAATAATTGTAAATATATAGTTTCAAATTACATAATACAAAAATTCATAGAACAAGAATACTTAGATAAATCTAGTAAAAATAATGAGATTTTA
CTATACCTTTCTTACAAATTAAGCAGACAAAAAAATAAGGATATGGATGTACATTTCATCTCTCTTGGGTCAATACTGAGGTGTGAGATCACTGGGACAT
AGGTTGAGTGTGTGTTTAAATTTATTTTTAAAATTGCCAAACTTTTCCGCAATTGTTAACATTTACCAGAAATGTATGAGACTTCTTAAGATCCATTCTA
TATCCTCCTCAGTACTTGGTACTGTCAGCCTCTTTCATCGTAGGTATACTGATGATTAAAAATATTAAGCATCTTTTCATGGGCTTATTGGCCACCTATA
TTTCTTATTTGGTATTGTGCCTCTTTTAATCTTTTGCCCATTTTTTAACTGGGTTTTAAGAATTGTTCAAATATTCTCAATGTGGCCCTTTGTTAAATAT
ATGTTTTGCATGTTTTCTTTAAGTGGATTACATTTACAGTTTTCTTAAAAAAATGTAGAGATGAGCAAAAGTGTATAATTTTGAAGAAAGCTTCGTGTCT
TTGTTTACTAAGAAAGTTTTGCTTAATCCAGGGTTAAAAAGATTTTCTACTATTTGTTTTCTTATAGAAATTCTGTAGTTTCAGCTCACATGCTTAAGTA
TATGATGCAAGGTAAGGGACAAGGTTCATTTTCTTCCCCAAAATCCATATCTGGTTGCTCCAGAACTTGACTCTCTTTTCCCTATTGAGTTACTTGGCAA
TTTTGTAGAAAATCAGTTGTTTGTATATGTGTGGGTCTACTTTCAGACTCTTTTTCTTACCCAACGATCTGTATTTCTTACCCAATGATCTGTATGCCTA
TATTCATATTGATAACACCCTGTCTTGATTACTGTTGCATTACAGTAAATCTTGAAATTTGGTAATATGAATTCTCCAAATCTGTTGTTCTTTTCCAAAC
TGTTGTTTTGGATATTCTAGTTTCCTTGCATTTCCACTTCCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTATTGTTGCCCAGGCTGGAGTGCAGT
GGCATGATCTTGGCTCATCGCAGCCTCAGCCTCCCCAGCAGTGGGATTGCAGGCACCCACCATCATGCTTGGCTAATTTTTGTATTTTTAGTAGAGACGG
GGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGT
GCCTGGTCTTCCACGTATTTTTTAATTAGCTTGACAATCTCTACCAAAAAGTCTTTTGGGGCTGGGTGTGGTAGTTCATGCCTGTAATTCCACCACTTTG
AGAGGCCAAGGCAGGCAGATCGCTTAAGCCCAGGAGTTTGAGACCAGCCTGGGCAAAATGTCGAAACCCTGTCACTACACAAAATAGAAAAAATTAGCCA
GGCATGGTAGCTTGTGCCTGTAGTCCCAGCTACCCAGGAGGCTGAGGAGGGAGGTCAAGGCTGCAGTGAGCCATGATCATGCCAGTGCACTCTAGCCTGG
GCAACAGAGTGAGACTCTGTCTCAAAAACACAGTCTGATAGAATTTTTATTAGGATAGCCTTGAATCTATAGATCCATTTGAAAATAATTAACATCTTAA
ATTTCCAATTTCTGGCCGGGCGCTATGGCTCACGCCTGTAATTCCAGCACGTTGGGAGGCCGAGGTGGGCAGATCATCAAGTCAGGAGTTCGAGACCAGC
CTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGG
CAGGAGAATCGCTTGAATCTGGGAGGCAGAGGTTGCAGTAAGCCGAGATTGTGCCACTGTACTCCAGCCTGGGCAACAGAGTGAGGCTCCGTCTCCAAAA
AAAAAAAAAAAAATTCCAGTTGTTGAGAAAGAATAGGAATTCCAGCTTTGGAGGAGTGGGGAGACCATCAAATCCTCTTTCCAAAAATACTACTAAAATA
CTACTGAGCAGAGTATAGTTCCACAAATAGTCTTCTGTAAAGAGACTCACAGTACATATTTGTCTTTGTAGGCCATATAGTCCCTGTTGCAATTTCTCAA
TTCTACAGCTATAACAGGAAAGCAGCTATATACAGTATGTGAATGCTTGTGTTCTAATACAAATTTATTTGCAAAATCAGGAAAATGGCTTGAAATGGTT
TAAGATCTAGTTTTCTGACTAGATCATGGTATATAATCTTTTCCATATATATTTTGAATTTGGTTTGCTAATATTTTGCTGATCATTTTTATATCTCTCT
TTATGAAGGATGCTGATCTACAACTTTCTTTTCTTGTGATATCTTTTTCTGGCTTTGCTACCAGGGTAGTACTAGCCTCTTAAAATGAGTTGAGAAGTAT
TTTCTGTTTTCTTAAAGAGTTTATAGAGTATTGATCTTATTTATTCTTTAAATATTTGATACATGTTACCAGTGAAGCCATCTGGGTCTGTGTTTTCTTT
CAGGGAAGATTTTTAATTATTTGCTTATTTGTTATATAGATCTATTCAGAATTTATATTTTTCCTTGACATAGTTTTGTAATTTGTGTGTTTCTATGAAA
TGAGCCATTTTGTCTGAGTTGTCTAACTTGGGCATAAAGTTGTTTGTAATCCTTTAAGTTTTGTAGGATCCATAGAGGTGTCCCCTCCATTATAGATTTT
CATAATTTGTGCCTGATCATCTTTTTTTCATGGTCAGTCTAGTTAAAAATTTATCAATTTTGTTGGTCTTTACAAAGAACCAATTTTTAGTTTCATTGAA
ATTTTTAGTTTCATTGATTTTCTCTTTTTGTTTCCTATGTCATTGATTATTATTTCTTCTTTTCTGCTTGCTTTTCATTTAATTTGTTCCTCTTTTTCTA
GTTTAAGGTAGAAGCTTCCATTGTTAGTTGAAGACCTTATTTTCTTATATAGATGTTTAAAGCTATACATTTTTTGTATATTTTCATTCATTTCATTTTC
TAATGTCCTTCATGATTTTTTTCATTGACCCATGTGTATTGCTTAATTTTTATATATTTGGGGATTTTCCATATCTCTTCCTATTCATTTCTAATTTAAT
TCCACTGAGGTAGGAGGTACATTGAAGGACTCTAATATTGAATGACTCCAATAAGTCTTCTGAGACTTTTTTAGGCACTTGCATATGGTCTATCCTGAGT
GTTCCATGAGTGCTTGAAAAAAAACTTACTGTGCTCTTGTTAAGTAGAGTTTTATGAACGTCAGTTAGGTCAAGTTGATTGATAGACTAATTCAAGTTTT
CTGTATCTTTGCTGATTTTCTGTCTAGTTGTTCTAGATCCTACAACTTTGTCTACATCCTTGCCAGAGCTTGGTATGGTTTTTTTATTATCGCTATCCTA
GAGAGTATGTAGTTGACCCTTGTGACTTGCCATGCATTTAATGACTGCCCATGTTCATAGCAGCATTATTCATAATAGCAAAAAAAACTTTTATCATATG
CTTTTGTGCCTCAAGATCATATATTTTTCGTTTTTAGTCACTAATATGGTATAATGGTATAATATACTGTTTAATTTCTGAGTAATTGACTAGCCTTTCA
TTCCGGGGATAAATCCTATTTGGTTATGATATAGTATCCTTTTTACATATAGCTGAATTCATTGTACTAAAATTTTGGTATTTTTGCATCTAAATCCATG
AGGGATATATTCTATAGCTTTGGTGTTATGATAATATGGTATTATTTCTTTCTTAAACGTTTGGTAAAACTCAGCAGTGAAGCTGTCTTGGTTTGTTTGG
AGCCTTTTTTGTAGAAAGGTTTTCAAGTACAAGTTCATCAAATGTTTACTGATAATATGTTTATTCTTGAGTGAGCTTTGTTGGTTTACATCTTTGAAGG
AATTTAACTGTTTCCTTCAAATGTTGAATTTATTGGTATAAAGTTAAGTTATTCATAATATTCCCATAATATCCTTCTAATGGCTCCAGTATCTCTAGTG
TTATTCCCTTTCATTCCCGACATTGGTATTTAATATATTCTTGCTTTTTTTTTTTTTTTTTAATCAGTCTGGCTAAAAGTTTTTCAGTTTTACCAATGTT
TTCATAGAACCAGCTTGGTCTTGATTTTGTTGTTGTTTATGCATGTTCTTAGTTATTCGTTTCTACTCTTTATCCTTTCCATTTTTCTTGTGTTTAGGGT
AGAAGCATATATAATTAATTGAGACCTTTCTTTTCTAATCAAAGCTTTTAATGCTGTAAATTTTCTAAGCACTGTCTTCATTGCATCCCACACATTTTGA
TATGCTGTGTTTTCAGTACTAGAGATTTTTAATTTTATGATACCTTATTTAATCATGATGCCTTATTTAATCTATAGCTTATTAAATGTCAAATTCTAAA
CATTTGGGTTTTTCTCCAGATATGTTTGTTACTGACTTCTATTTTAATCTCATTTTTGTCAGACAGCATTCATTGTATGACTTAATCCTCCTAAATGTAT
TCAGACTTGTTTTATGTTCTAGATTAATGTTCTGTGTATACTTGAAAAGAATGCAAGTTCTTGGGTAGACTGTTTCAGAAATGTCAGTCAAATTTAAGTC
TTGTTTATTCTTATTGATTCTGAGACAAAGGTGTTTATAATGTTAGATTTGTCTGCTATATCTCTGACATTGCCAAATATCCCCTTGGAGGCAAAATCTC
CCCCTCCCTTTTGAGAACCACTGATCTATGTAGCCTTTTTTCTGGGACTAATTTAGCCTTGCTTCTGAGATGTGGCCCCTAGGTCTCTACTGAATGCCCG
GCATATTTAATTAGATCTTTCTTTCCTCTATGGCCTCAAGGGATTTCACCCTAAGTATGCACAAATTTTTATTCAGCCGAAGACTGTACAGATTTCTGGA
GGCCTTTCTTTGTGTACCTCCTTCGTTTCCAGTAGTCTGACCCATAAATTGTACAGATTTCTGGAGGCCTTTCTTTGTGTACCTCCTTCGTTTCCAGTAG
TCTGACCCATAAATTAAAGCTGCTTTAGCCTCCCCAAACTTCAATCTCTTTCTCCTCAACCCAGCAAGATTGCTAGACCCTGGGTTCCCTTTCCCTTCAC
TGCAGTATGATAATTACTTTCAAGCACAAAGGTTTAGAATTAAGATTTCTTACTCCTGGGCTAGGTATGGCTTACCGTATTTGTTTCTCYTTTCCTAGGG
ATCATAATCATGTATTGCTTGTTGTCCAGTTTTCCAGTAGGAGGGGAATTCCAGGCTGTACTTACTTCCTGCAGCCAAAAGAGGAAGTAATGTTAGTGAT
TTCAATATTAAAACATTAAAAAAAAATTTAAGATGGATGAAATTCTTTTATATGCATATTGAATTGGGCTTCACCATAGTTATTTTTAGAATTAGGACTA
ACCGGCAGGGAAAAAAACTATACGGCAGGGAAAAAAACTATAAGCCATCGCTGTTTTACAATTTTGCAATAATTAGATTTTCTGTAGTATAGTAATGTGT
AAAATTAACCCATTGTTAATATAGAATGCCGTTATCACTCCTGATTAAGCGGTCTTCATTTTCATGTTAATACTGATGTCTTGTAATGCTTTMTGGAATC
AAACATTTTCATACATATTCATTAGTCTAATTCTAATCATAATCCAATGAAAAAGAGCAGGAAAGATGCTCAAGGAGGTTATATTCAAGTCCACATGGCA
AGTAAGAAATAAGACTACTCGGCTGGGCATGGTGACTTACTGCCTGAAATCCCAGCACTTTGGGAGGCCAAGGTGAGCGGAATTGCTTGAACCTGGGAGG
CGGAAGTGGCAGTGAGCTGAGATCATGCCAATGCACTCCAGCCTAGGCAACACAGCAAGACTCTGTCTCGGGAAAAAAATAATAATAATAAGACTTCTAG
AAGCTCCTAAATCCATAGCTTTTCCTCTATACCAGCATCTTCTAAAAATGTCAGCAGCAGTGAAGTTTCAGTTTGGGAAATAATGCATTTCCCCTCTCTG
GAGAGTGCACAGTTATATCTCCAAGAAGTACTGAAATTCAGAAGTCTGCCTAATATGTATTAAACATTTAGCTTTTCTCAAACTTTGACCACCAAATCCT
TTGTCTCGCTCTAACTATAGTTAACACAGAATCAGTGTTCCCAGGAGCACACTGTGAAAAATGTAGCACTCTACAAAAGTCCTAATCTCCACAGGATTAA
GTGAAACCATGATTAACCCTCTGTTCCTTGTCCTTATTAGTACCATTTTCTGAAGAGTAATGTATCCCCCCAAAACTTTTATACTAGTTTCACTAACCAG
AATCCATGTACATAAGGAAGGACAGATATTTGCTCCCTACTAAGACATATCTATTAGCTACATTAAAAAAAGTATTGCATGCCGATTTTAAAGTTATAAT
TAACTGGTGATATCACAGATATTCCAAGATATAATTGCTGGAATAAACACTGTTGTTGAAGCCTTCTATCTATCTCAGTACTAGAATTAAACTCAAGTGC
AGAATGGCAGACAAAGTTAACTAAAAATCACTGTATTATTTCATTTGGTCCTCCAAATAGCTTTGTGAGCTAAGGAGGAGAAGGTGTATCATCACCACTT
CCATTTTATAGATGAGAAATCAAGTGATTTACTCAAGGTTAAGTCCTCCAATTCTTTGTTATCCTGCATTTTCTCTTGGCTGTAGTTTAATTAATAATCC
TAAGAAAATGCTTATATTTTAGAGTGCAGTAAGAGTACATAAACAATGTTAAATGCCCATCTTGCATGTATAAAAAGTTATAGCAAGAAATCTGGCTGGG
AATGGTGGCTCACACCTGTAATCCTGGCACTTTGGGAGGCCGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTAAGACCAGCCTGGGCAACATAGGGAGA
TCCTGTCTCTACAAAAAAATTTAGCCAGACACAGTGGCTTGTGTCCTAGCTACTCAGGAGGCTGAGGTGGGAGGATCACTTGAGCCAAGGAGGTCAAGGC
TCCAGTGAGCTATGATTATGCCACTCAGACATGGTGGCTTGTGCCTACAGTCCTAGCTACTCAGGAGGCTGAGGTGGGAGGATCACTTGAGCCAAGGAGG
TCAAGGCTCCAGTGAGCTATGATTATGCCACTGCACTCCAGCCTGGATGACACAGTGAGACCCTATCTATCTCAAAAAAAAAAAAAAAAGAAAAGAAAAG
AAAAAGAAAATCCTTTAACTGACTTCATCTTAACCTTTTAGTTCCTAAGGAYGGTCTGAAGAGCCAAGAGCTATTTGATGAAATTAGAATGACCTACATC
AAAGAGCTAGGAAAAGCCATTGTCAAGAGGGAAGGAAACTCCAGCCAGAACTGGCAGCGGTTTTATCAACTGACAAAACTCTTGGATTCTATGCATGAAG
TAAGTGTCAAACATAAAGCCAAATATAAGAGTTTTCTGGGACAAAGTATGTTTTGATTAGTGAATATAATTATATACCAGCAGCGCCCCCACCCCCGCCC
CCAGTTTGTGGATGTTGGTGATAGCTTGAGTTCAACTTATGAACTTCAGTTTTGTAGACATTTTTCCTAAGGCCAATTATGAAATATCCTTTCACCTAGT
CATGTGTATATAAAATCACCATGTTATTACAGAATTTAGTAAYACTGTTTTTAAAAAGTATGATTAATCCATTAAATTAGAATAATGCACCCTTCATATA
TTATGGTACTACAGTGATTCATGAAATAATTCTATATAATTCTACATACAATCAAAGAAATATAAAATGTGTTTTGTACRGAAGTGCTTATTTTTCATCT
GGGGAATTCCAGTGAGATTGGTATATTCTAGGCCAGATAATTTTTTCAAAATAGAGGACAACAAACATGAGATGTTCCCACTGACCAATTTGGAAGCCTG
ATCATTACCATATCTTCTCTTGCAGGTGRTTGAAAATCTCCTTAACTATTGCTTCCAAACATTTTTGGATAAGACCATGAGTATKGAATTCCCCGAGATG
TTAGCTGAAATCATCACCAATCAGATACCAAAATATTCAAAYGGAAATATCAAAAAACTTCTGTTTCATCAAAAGTGACTGCCTTAATAAGAATGGTTGC
CTTAAAGAAAGTCGAATTAATAGCTTTTATTGTATAAACTATCAGTTTGTCCTGTAGAGGTTTTGTTGTTTTATTTTTTATTGTTTTCATCTGTTGTTTT
GTTTTAAATACGCACTACATGTGGTTTATAGAGGGCCAAGACTTGGCAACAGAAGCAGTTGAGTCGTCATCACTTTTCAGTGATGGGAGAGTAGATGGTG
AAATTTATTAGTTAATATATCCCAGAAATTAGAAACCTTAATATGTGGACGTAATCTCCACAGTCAAAGAAGGATGGCACCTAAACCACCAGTGCCCAAA
GTCTGTGTGATGAACTTTCTCTTCATACTTTTTTTCACAGTTGGCTGGATGAAATTTTCTAGACTTTCTGTTGGTGTATCCCCCCCCTGTATAKTTAGGA
TAGCATTTTTGATTTATGCATGGAAACCTGAAAAAAAGTTTACAAGTGTATATCAGAAAAGGGAAGTTGTGCCTTTTATAGCTATTACTGTCTGGTTTTA
ACAATTTCCTTTATATTTAGTGAACTACGCTTGCTCATTTTTTCTTACATAATTTTTTATTCAAGTTATTGTACAGCTGTTTAAGATGGGCAGCTAGTTC
GTAGCTTTCCCAAATAAACTCTAAACATTAATCAATCATCTGTGTGAAAATGGGTTGGTGCTTCTAACCTGATGGCACTTAGCTATCAGAAGACCACAAA
AATTGACTCAAATCTCCAGTATTCTTGTCAAAAAAAAAAAAAAAAAAGCTCATATTTTGTATATATCTGCTTCAGTGGAGAATTATATAGGTTGTGCAAA
TTAACAGTCCTAACTGGTATAGAGCACCTAGTCCAGTGACCTGCTGGGTAAACTGTGGATGATGGTTGCAAAAGACTAATTTAAAAAATAACTACCAAGA
GGCCCTGTCTGTACCTAACGCCCTATTTTTGCAATGGCTATATGGCAAGAAAGCTGGTAAACTATTTGTCTTTCAGGACCTTTTGAAGTAGTTTGTATAA
CTTCTTAAAAGTTGTGATTCCAGATAACCAGCTGTAACACAGCTGAGAGACTTTTAATCAGACAAAGTAATTCCTCTCACTAAACTTTACCCAAAAACTA
AATCTCTAATATGGCAAAAATGGCTAGACACCCATTTTCACATTCCCATCTGTCACCAATTGGTTAATCTTTCCTGATGGTACAGGAAAGCTCAGCTACT
GAYTTTTGTGATTTAGAACTGTATGTCAGACATCCATGTTTGTAAAACTACACATCCCTAATGTGTGCCATAGAGTTTAACACAAGTCCTGTGAATTTCT
TCACTGTTGAAAATTATTTTAAACAAAATAGAAGCTGTAGTAGCCCTTTCTGTGTGCACCTTACCAACTTTCTGTAAACTCAAAACTTAACATATTTACT
AAGCCACAAGAAATTTGATTTCTATTCAAGGTGGCCAAATTATTTGTGTAATAGAAAACTGAAAATCTAATATTAAAAATATGGAACTTCTAATATATTT
TTATATTTAGTTATAGTTTCAGATATATATCATATTGGTATTCACTAATCTGGGAAGGGAAGGGCTACTGCAGCTTTACATGCAATTTATTAAAATGATT
GTAAAATAGCTTGTATAGTGTAAAATAAGAATGATTTTTAGATGAGATTGTTTTATCATGACATGTTATATATTTTTTGTAGGKGTCAAAGAAATGCTGA
TGGATAACCTATATGATTTATAGTTTGTACATGCATTCATACAGGCAGCGATGGTCTCAGAAACCAAACAGTTTGCTCTAGGGGAAGAGGGAGATGGAGA
CTGGTCCTGTGTGCAGTGAAGGTTGCTGAGGCTCTGACCCAGTGAGATTACAGAGGAAGTTATCCTCTGCCTCCCATTCTGACCACCCTTCTCATTCCAA
CAGTGAGTCTGTCAGCGCAGGTTTAGTTTACTCAATCTCCCCTTGCACTAAAGTATGTAAAGTATGTAAACAGGAGACAGGAAGGTGGTGCTTACATCCT
TAAAGGCACCATCTAATAGCGGGTTACTTTCACATACAGCCCTCCCCCAGCAGTTGAATGACAACAGAAGCTTCAGAAGTTTGGCAATAGTTTGCATAGA
GGTACCAGCAATATGTAAATAGTGCAGAATCTCATAGGTTGCCAATAATACACTAATTCCTTTCTRTCCTACAACAAGAGTTTATTTCCAAATAAAATGA
GGACATGTTTTTGTTTTCTTTGAATGCTTTTTGAATGTTATTTGTTATTTTCAGTATTTTGGAGAAATTATTTAATAAAAAAACAATCATTTGCTTTTTG
AATGCTCTCTAAAAGGGAATGTAATATTTTAAGATGGTGTGTAACCCGGCTGGATAAATTTTTGGTGCCTAAGAAAACTGCTTGAATATTCTTATCAATG
ACAGTGTTAAGTTTCAAAAAGAGCTTCTAAAACGTAGATTATCATTCCTTTATAGAATGTTATGTGGTTAAAACCAGAAAGCACATCTCACACATTAATC
TGATTTTCATCCCAACAATCTTGGCGCTCAAAAAATAGAACTCAATGAGAAAAAGAAGATTATGTGCACTTCGTTGTCAATAATAAGTCAACTGATGCTC
ATCGACAACTATAGGAGGCTTTTCATTAAATGGGAAAAGAAGCTGTGCCCTTTTAGGATACGTGGGGGAAAAGAAAGTCATCTTAATTATGTTTAATTGT
GGATTTAAGTGCTATATGGTGGTGCTGTTTGAAAGCAGATTTATTTCCTATGTATGTGTTATCTGGCCATCCCAACCCAAACTGTTGAAGTTTGTAGTAA
CTTCAGTGAGAGTTGGTTACTCACAACAAATCCTGAAAAGTATTTTTAGTGTTTGTAGGTATTCTGTGGGATACTATACAAGCAGAACTGAGGCACTTAG
GACATAACACTTTTGGGGTATATATATCCAAATGCCTAAAACTATGGGAGGAAACCTTGGCCACCCCAAAAGGAAAACTAACATGATTTGTGTCTATGAA
GTGCTGGATAATTAGCATGGGATGAGCTCTGGGCATGCCATGAAGGAAAGCCACGCTCCCTTCAGAATTCAGAGGCAGGGAGCAATTCCAGTTTCACCTA
AGTCTCATAATTTTAGTTCCCTTTTAAAAAYCCTGAAAACTACATCACCATGGAATGAAAAATATTGTTATACAATACATTGATCTGTCAAACTTCCAGA
ACCATGGTAGCCTTCAGTGAGATTTCCATCTTGGCTGGTCACTCCCTGACTGTAGCTGTAGGTGAATGTGTTTTTKTGTGTGTGTGTCTGGTTTTAGTGT
CAGAAGGGAAATAAAAGTGTAAGGAGGACACTTTAAACCCTTTGGGTGGAGTTTCGTAATTTCCCAGACTATTTTCAAGCAACCTGGTCCACCCAGGATT
AGTGACCAGGTTTTCAGGAAAGGATTTGCTTCTCTCTAGAAAATGTCTGAAAGGATTTTATTTTCTGATGAAAGGCTGTATGAAAATACCCTCCTCAAAT
AACTTGCTTAACTACATATAGATTCAAGTGTGTCAATATTCTATTTTGTATATTAAATGCTATATAATGGGGACAAATCTATATTATACTGTGTATGGCA
TTATTAAGAAGCTTTTTCATTATTTTTTATCACAGTAATTTTAAAATGTGTAAAAATTAAAACCAGTGACTCCTGTTTAAAAATAAAAGTTGTAGTTTTT
TATTCATGCTGAATAATAATCTGTAGTTAAAAAAAAAGTGTCTTTTTACCTACGCAGTGAAATGTCAGACTGTAAAACCTTGTGTGGAAATGTTTAACTT
TTATTTTTTCRTTTAAATTTGCTGTTCTGGTATTACCAAACCACACATTTGTACCGAATTGGCAGTAAATGTTAGCCATTTACAGCAATGCCAAATATGG
AGAAACATCATAATWAAAAAATCTGCTTTTTCATTATGTGACTCCAACATGCTTTTGTAGAACTTGTACAGTTCCGATTGTCCAATCTGATTTTTGTTTA
CTGAAAGTAGAGTTACCCCTGCTTCAGGAACCTTAAGATAATATGGTGGGCATTTAAATGTCAGTGTGGCAATGTTCGCCTGCTAATATGGCATAGATTC
AAAATAAGCTTAACCCTGGTGCCAAAGACCTGAAGATTATCCCATCCATGCCTCAAATGGTTGTGTGCCAATTACTGCAAAGGGTACTAAGGGAAGGAGA
AATTCACTCCTGAGGCTGCTTCAAATGTATGTCTTTATCACAAAAGATGACATTTTATGTAAGCTAATGTTATCTAGTCAAAATTCTTAGCTTATTTTAA
AATCAACTCTTCAAGAAAAGGAATAAACATTTAATATAAATATCATAGCAGTATTGCACATAGAATAGAAAGGTCGGGCAGGGTAGTGGAAGTCAGCTAT
TCTATACAATCCATTCGGTATTTTCCAAAACATTTGATGTTCAGGCCATATCCAGGAACTGGATGACCTAACAAACTTCTCTGAGTACCTTTTTTTCCAC
AAGAGATCTCCATCACTAAGAAAAAAAGCATTGTGATTTAAAAGCCAAATTTGCCTTATCCATCATCATGTGCACCAAGTATTTGCTACCTGCCTACTAT
ATAATATTGAAGATACAATGTGAATAAGAAAAATACTATTGCTACCCTCAATCAGAGTATGTGATTGGAAAAGTGTATAACAAACCTTTCCCAGTGTCTT
CAGGTATAATGCAGAGATACCAGATACGGCATCAATGTGTATACACATTATGGCTGTACCATTCACTTTAAGTAGTAACCTTACATTTCTGTAGAACACC
TTCACATACATTTTTAACAAGCCTCACTGAATGAATTAATGACATGAAAATAATGAGGCAGATTATTCTCGTTTCCATTTTATAAGGAAGTAAACTCTGT
AAGAAAGTAAACAGGCTCAGAATTTAAGCACTGATTCATAGCCCCTAGCTCCCATGTTATTGAAATTTGAATGGAAAGCCTCTAATGAGGCCATTCATCT
ATCAGATGTCAAAGAGCATGTCTCTGGCCTATGAGCCTCTCAGGGAACTGGTTATGTTTTTCTGTTTTAAATTAAACTAATGCTTTACTGAGCACTTACT
ATGTGCCACGCACAATGATAATTCAATATATTATTTCATTTAATCATAGTACCCCTCTAAAGTACTACTGTAAAGCAGTGCTATTATCCTCATTGCATTT
ATATCAGGAAACTGTGGCTTAAAGAATTGAGTAACTTGCCTACAGTCACAAAGCTAGCTCCAGAATCCATAGTTTTAAAAACCACTATTGAGAAATTACT
AATATGAGCTAACTAGGGCGAATGAACCCATATTGATCATTATGTGTCTGGCCTTTTGACATGTCCTCATTTAATCTAATCCCTTTTGCTACCGTATCAA
TTTTGACTTAGAAATTTAACAATGATACATTAGTCCCCGCTTATCTACGGAGGATATGTTCCAAGACTCCCAATGGATGCCTGAAACATAGATAGTACTG
AACTGCATGTTTTTTCCTATATTACATACCTATGATAAAGTTAATTTACAAATTAGATGCAGCAAGAGATTAACAATAACTCAATTACAACAATATACTG
TAATAAAAGTTATGTGAATGTGAGCTCTCAAAAAATCGTACTATACTGAGGGTAACTGAGACCACGGAAAGTGAAACCGCAGATAAGGCGGGCACTATTG
TATTTCCTTCTCTTAAAAACGTGTCCTGTACCCTGGGGTGGTTGATGGTGGAAAATACTAGTTGCCCACAGATTACAGAATGCCCTTTGGTTTGTCTAAT
ATACAACAGGGAGCCTGTCTCACTAATGCCCACAGAAAAATCAAACATTTCTTCAAGTGATATGGAGCATATAGGGTACAGTCAAACCAAGGAAGAAAGT
TGTTTATAAATGAGAACTATAGTGCAAGTTAAAATTTGCTCCTAGTTTTGCAGGTAAAGAGCCAGACTTTGGGTGTAGAAAAAAAGTTGAAAATACTGAG
GCTTTTACATAAGGTGATTTTTTTTTTTTTTTTTTTTTTTTAGAATTTCAACTAATCTCTTTTAACTTAAGTCGTTCTTAACAGTATTGGTAACTTCATA
GCACTTTCTTTCTGGTGAAATAACCCCATCCTCCCTCTTATTTAGGCTTCCTGTTTCCTAGTTAAAATGGGGCAGTACTTTGTTAGGGAAGTATTTTTAC
TTCACTTGGTTACAAACATGTAAGTCTCAGAACAAAAGAGTTTGTGCAGACCATATCAGACACTCAAAAGACTTTCTTCACTCTACCCACTTGAGTAAGA
GACAATTTATATTCTGTTCACCTTATGTACCCTCACCAAAAATATTCAATAGGGTAATAATGTGTATATAATGTAAATAAGGCACACGTTTTTCTATTTT
TGTTAAAGTTGCATTGTCTTAAAAGTACTGAGTATATACATGGGGTTTTGCTAGAAATAAAAATCTAGGTCATCCAAAACCTCTACAGTTGTTCACTAGG
ATTGCAAAGAATCAAGATAAAAATGAAACTCTTTCAATATGGCAAGAAAGGGGGACAGTGTGCATAAAAGCAAGCAAAGGCTCACAAAACAGGAGAATAT
GTCACAAACACCACCTGATCAATTTCAAGACCTACTATGTGGCAAGCATGCTAGATGAAGCAATTCAAAGACCACTAAGGCAATACTAAGACTCCAAGGA
GAGGTTCCTGCCCTCAAGGAATTAAAGATGAAAGGCAAATGACTAAGCAATTCTACTCCTATGTATCTACTCAGAAGAGATGAAAACGTGTCCACACAAA
TGACTTGCATGCAAATATTCTTAGCAGCATTATTCTTAATAGTCAAAAAGTGGAAACAATTCAAATATCCATCAACCAATGTACAGATAAACAAAATGTG
GCACACAAAATGTGGCTGGGCACGGTGGTTCATATCTGTAATTCCAGCACTTTGGAAGGCCAAGGCAGGTGGATCACTTGAGGTCAGGAGTTCGATACCA
GTCTGGCCAACATGGTGAAACCCTGTCTCTATGAAAAATACAAAAAAATTGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGACAA
GGCGGGTGGATCACCTGAGGTCGGGAGTTTGAGACCAGCCTGAACAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCGGGTGGCGCATG
CCTGTAATCCCAGCTACTTGGGAGGCTGAAGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGTGGTGAGCCGAGATAGCGTCATTGCACACCAGCC
TGGACAAAAAGAGCGAAACTTCATCTCAAAAATATATATATATATTAGCTGAGTGTGGTAGCGCTCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGTG
GAAGAATTGCTTGAACCAGGGAGGTGGCAGTTGCAGTGAGCCAAGATCGTGTCATAGCACTCCAGCCTGTGGCAGCAGAGTGAGACTTCGTCTCAAAAAA
AAAAAAAAAAAGTGACGAACCTCAAAATCATGCTAAGTAAAAGAATCCAGACACAAAAGGACCATATATTATTTCACTTACATGAAACGTTCAAAAAAGG
CAAATCTATATAGAGAAAGAAAGCACATCAGTGGTTTCCTATGGCTAGGGATAATATTAGGGTTTAAGTGCAAATGGGCACATGAGGGTACTTTTGGGGG
TGATGGAAATGTTCTAAAACTAGACTGTAGTAATGGTTGTGCAATTCTGTACATTTAATAAATGCTACACTTAAAATGGGTGGATTTTATATGGTATATA
AATTAAATCTCAATAAATACGTATTAAAAATAGAGGCAGCCAAGCAAATGTGTAATTGCCATTCAGTTGTATCAAAAGCAGGTACAAATGCACTAAATGC
ACTTTGAATGCACTAAAACAAGTGCAGCTATTTTTTTTGGAAAGCCTGTCAGAAGATGTCTTCATTGTGCTACATGTTAAAGGATGAGCTGGAGTTCAGC
AGCACAAAGCCTTACTCGTTTAATATTAATGGATGCCCCTGTAATGTTTAATTAGTCATATGTTCTACCCATCCCCAGAGAGGGCAACCATGTACAAAGA
GATCACCAACATGACAAGTAAAAAAACTCACAGCATATACATGACTACTCATGTCTTGTATGAATTCTAAGTGTTAATAACTGTTAAGACCTTAGTGGTC
TTACAACTTCGGAATAAACAAATCTGGGTTCAAGCCTTGCTTCTTTATTTACTAAGTCTGTGATTTTGAGAAAATTCCATAATCACTTTATATCTGTTTC
TACATCTGAAAAATATATGTAGCTGCTTAGCTCAACTCCTACCATATAGCAAGCATTCAATACACGTTAGCTGTTTTTTAAGTCCTCATGAAAATCTAAG
AGAAGGGGAATTTTTTAATGCTGTCCCCAAAAATGTATAGAAGTGAGGCAAATGATGAAGAGCAGTATGAACACAGTAACTGCACACAAATTTCCAACCC
TGCATTTCTTAATTAATCAAAGCTATGCATAAGGCTGAGGGAGGCTGTTCTGTTATTTGCCAATTCTACAGAAACTTCCAAAAAAGCTGAAGCGGGGGGA
ATACTTCTCAACTAATTCCATGAGGTCTTCATTATTCTGATAACAAAATTAGACAAAATATAAGAAAACTGCACACTAATATCCCTCATGAACATAAATG
TAAAAGTTCTAACCAAAATCTTAGCAAATAGAATATAATAATATATTAAAGGAAGATACATCATGACCAAAGGATTATCTCAGGAATATAGGTTTGACTT
AGCATTTACAAATCAACCAATGCAATTCACAATAGTGGAAAAGAAAAAATCCATGTGATTAAGATGCCAGACAAACCATTTGACAAAATCTAACATACAC
TCTGAATTAAAAAAAAAAAAAAGATCAGCAAACTAGAAATAGAAGGAACCTCCTCAACCTAATAAAGGGCATCACACACAAAAAAATTATCTTCCAGCAT
TATACATACTTCATGGATACTTTCCTCTTAAGAACAGTAGCAAAACATGGTCTGCTCTCACCACTTTCATACACTATTTTACTGGTGTCTCCAGCCAATG
CCATCAGGCAAGAAAGAGAGATAAAAGGCATCCAGATCACCAAAGAAGTAAAACTCTTTACTAACAGATGACGTGATCATCTGTTTAGAAATTCTGATGT
GATCTTTAAAAATTAAAAAACACTACTAGACTTCAAAAAGGCTGGGCGTGGTAGCTCATGCCTGTAATCTCTGCATTTTGGGAGGCCAAGGCAGGAGGAC
TGCTTGAGGCCAGAAGTTCACGACCAGCCTGGGCAACACAGTGGGACCCCATCTCCACAACAATTTTTTTTTTTTAAAAATAACTGGGTATAATGGCACA
TGCCTGTTTTCCTAGCTACTTGGGAGGCTGAGGTGGAAACATCACTTGAGCCTAGGAGGCTGAGGCTGCAGTTAGCCATAGTCACACCATCACACTCCAG
CCTGGGTGACGGTGAGACCCTGTCTCGAGAAAGAAAAAAGAAAGTTAAATGCAGAATTACCATATGATCCCACAATTCCACCCCTAGGTATATACCCACA
AGAATGAAAACAGGTACTCAAGCAAACACATGTAGACACGTTCATAGCAGCATTATTCACAACAACCAAAAGGTGAAAACAGTCCAAATGTCTCCATCAA
GGAATGGCAGATAAACAAATCATAGTATATATAAAAATGAAATATTCAGCCATAAAAAGGAATGAAGTACTGATTTATGCTACAACACGAGTGAAGCTCC
AAAGTATTAAGCGTAGTAAAAGCAGCCAGATGCAAAAAGTCACATATAGTGTGATTCCATTTATATGACATATATAGAATATATAAGCCTATAGATACAG
AATGTAGATTGCTGGTTGTCAGGGGCTGGGGGAA


SNP Information

Context             (SEQ ID NO:44616):
CTAGTGGTGCAGCTACTCAATTCTTTTTTTAATTATAATTTTTATTTTAAGTTCCAGGGTACATGTGCAGGATGTGCAGGTTACATAGGTAAACATGTGG
Y
CATGGTGGTTTGCTGTACCTATCAACTCATCAGGTATTAAGCCCGGCATGCGTTAGCTATTTTTCCTAATGCTGTCCCGCCCCCCCACCCAACGGGCCCC
Celera SNP ID:            hCV8950974
SNP Position Genomic:     77950
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:44617):
GTTTTTGTTTTTTGTTTTGTAGTTGATATTCACTGATGGACTCCAAAGAATCATTAACTCCTGGTAGAGAAGAAAACCCCAGCAGTGTGCTTGCTCAGGA
R
AGGGGAGATGTGATGGACTTCTATAAAACCCTAAGAGGAGGAGCTACTGTGAAGGTTTCTGCGTCTTCACCCTCACTGGCTGTCGCTTCTCAATCAGACT
Celera SNP ID:            hCV11159930
SNP Position Genomic:     9674
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:44618):
TGTTAAATATTTGTCTTAATATCAAGCTTTTGCATATCGGGGCCCTCTTTTATAAGCTTTATAAGCAATCTTTTGTTTTCTCTGCTTGCTCAAAGTAGCT
R
TGTTTGTTGTATCTGTTAGTATTTGCTCTATAACAAACATACTGGGTGCCTTCCCACTTAGATTTGGCAATTATCACTCCTGTAAATGAGATATTACATA
Celera SNP ID:            hCV2115061
SNP Position Genomic:     30346
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44619):
GCCTAGAGTCTGGCAAGGTGATGTGTTGAATCTAGTGTCTGCCTGCATGCCAGCATCCCTTTACTGATGAGATTTGTGGTTTTCATCACTTCATGGTAAT
Y
ATCCCAAGTTATAAGATGGAGTCTCTAGAAAATCAGTAGAGTATGAAGGCCCAAGTAAAATACATGTGAGTGCATGTATGTGTGCATACAAATTACTTCT
Celera SNP ID:            hCV2115062
SNP Position Genomic:     35506
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44620):
CCCCAACTTTTATGTTAAAAGTTGCAACAAGGTTTAAGGGCTTATGTTTGATAGGCCAGATGGTGACCAGCTGTGATAAAACACAGGGAACCCTTGCAAA
R
GATTTCAAAATTTATGCAGTAGTCCGCCTTATCTGCAGTTTTGCTTTCCAAGGTTTCAGTTACCCGCAGTCAACTGTGTTCTGAAAATATTAAGTGAAAA
Celera SNP ID:            hCV2115063
SNP Position Genomic:     37832
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44621):
TCAGATAGGGATTGCATTGAACCTGTAGATCAGTTTGGGGAATATTGCCATCATAACAATTAGTAGGTCTTCCAACCCATGAATACAAGACTTCTTTCCA
Y
TTCTGTAGATATTTAGTTTCTTTCATTAATATTTTGTAGTTTTCAATATAAAAGTCTTGTACTTCGATTAAATTTATTCTTGAATATTTTGGGTTTTGAT
Celera SNP ID:            hCV2115065
SNP Position Genomic:     42694
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44622):
AACCCTAAGAGGAGGAGCTACTGTGAAGGTTTCTGCGTCTTCACCCTCACTGGCTGTCGCTTCTCAATCAGACTCCAAGCAGCGAAGACTTTTGGTTGAT
K
TTCCAAAAGGCTCAGTAAGCAATGCGCAGCAGCCAGATCTGTCCAAAGCAGTTTCACTCTCAATGGGACTGTATATGGGAGAGACAGAAACAAAAGTGAT
Celera SNP ID:            hCV11159938
SNP Position Genomic:     9801
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|G,-)    ;WIAF-CSNP-P(1(G,2|T,84)   total(G,2|T,84)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44623):
TCCTTTTGGAAGGAAACTCGAATGAGGACTGCAAGCCTCTCATTTTACCGGACACTAAACCCAAAATTAAGGATAATGGAGATCTGGTTTTGTCAAGCCC
Y
AGTAATGTAACACTGCCCCAAGTGAAAACAGAAAAAGAAGATTTCATCGAACTCTGCACCCCTGGGGTAATTAAGCAAGAGAAACTGGGCACAGTTTACT
Celera SNP ID:            hCV11159939
SNP Position Genomic:     10412
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)    ;WIAF-CSNP-P(1(T,2|C,84)   total(C,84|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:44624):
TATTCTTTGAAGATTGTGGGCACCCTGAAGTCTCTGTTTGTTAGTTTAGTGGTCACCTAATAATTAACAGAGATTTCATTAAATGCCTAGAAGCAAAATA
Y
CTTCCAGTCTTTGCCCATGGCCTCTGTGTATGCATTAGGGCAGGCCTTGAACTCTTACCCAGGGAGTTTACAACCCTGCCTTAGCCTTTACTACCAGCTT
Celera SNP ID:            hCV2115066
SNP Position Genomic:     47314
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44625):
CAGGGGTTATAGAGGTAGCTCAGAGAGTTGGGTGCAAGTAGAGAAATCCACCCGGCTTGCATTACACATCTTATTTCTAGAGAAGCTTTCCTTTGAAGAA
R
GAGTTCTAAGGTTTAAAAAATTACCTTGAATGCCACTTATATTGCATTTTAATTTTATTTTAGAGAAATCAATGGAAAGTAGAAAAATTAAGGCACTGAT
Celera SNP ID:            hCV2115067
SNP Position Genomic:     48986
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44626):
GAATTCTTTTTAAATGTTTGTAGAATTATTTTTCACTTATTAGGTAAAACGTGTATTTTTTGATTTTCTCCAATTTCAGCTTTCTCATGTTGCTATGCTC
M
ATTTTGTATACCATATATAGTTTTGTTAAATTGACAAAGTGGTGTTTTTTGTTCTTCTTTTTCCCATTGGTTAAAATTTAAAGAGAAAGTGGAAGCTAGA
Celera SNP ID:            hCV2115069
SNP Position Genomic:     53047
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44627):
CGCAAAACATCTGATGGTTTAAATATGGCAGTTTCCCCTGTGCTTTCTCTCTCTCCTGCCACCATGTAAGACTTTCCTTGCTTCCTCTTTGCCTTCTGCC
R
TGATTGTATGTTTCTTGAGGCCTCCCCAGCTATGCAGAACTATGAGTAAATTAAACCTCCCTTATAAATTACCCAGTCTCAGATATTCTTTATAGTAGTG
Celera SNP ID:            hCV1046424
SNP Position Genomic:     81280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44628):
AAAATATTTCTCCCATCTTAATAGTTTTAGAAAGTAAAAATACTTCTTGAATAAACTGTGTAGCGCAGACCTTCCCATTACAGTTCATTTCTATGTATTT
K
TTTAAATACCCACAGCTCGAAAAACAAAGAAAAAAATAAAAGGAATTCAGCAGGCCACTACAGGAGTCTCACAAGAAACCTCTGAAAATCCTGGTAACAA
Celera SNP ID:            hCV1046353
SNP Position Genomic:     109653
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44629):
CCTCACAGTGCTTGCCTTTCATTCAGGTGCCAGGAAACGTCTGCCTGAATGAATGGGTGTAATTTACCTGCACATTTTACATGCTTCTCTAGGTGTGTGA
W
TAACTCATAATCCATCCATGACTTTCACCCATAATCCTCCTTGTAGCAATTGCTTTGCTTGCAACAAAACTAAGTAGACATATCTAGCTTTATGCATGGT
Celera SNP ID:            hCV1046426
SNP Position Genomic:     92719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)   SC_12_A(T,1|A,20)   SC_12_C(A,9|T,15)   SC_12_AA(T,6|A,17)   SC_95_C(A,76|T,109)   total(A,122|T,131)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44630):
TTGTTTAAATACCCACAGCTCGAAAAACAAAGAAAAAAATAAAAGGAATTCAGCAGGCCACTACAGGAGTCTCACAAGAAACCTCTGAAAATCCTGGTAA
S
AAAACAATAGTTCCTGCAACGTTACCACAACTCACCCCTACCCTGGTGTCACTGTTGGAGGTTATTGAACCTGAAGTGTTATATGCAGGATATGATAGCT
Celera SNP ID:            hCV1046354
SNP Position Genomic:     109751
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44631):
CAGTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAGCATAGCAAAACCCCATCTCTACTAAAATTACAAAAATTAGCCGGGCATGGTGGTATGAATCTGT
M
TTCCTAGCTACTTGGGAGGCTGGCACTGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATGGCACCATTGCACTCCAGCCTGGGTGA
Celera SNP ID:            hCV1046355
SNP Position Genomic:     111280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44632):
CTGTTGATAAGAATCTGTGTAGACTTTTTTCTCCTTCCTTCCTTTGATCTTTGATCATGGGAAGACATGGAAAAAGAAAGCTAACTACAGTGATTTTGTC
Y
ACTACACTGTTATTTGGTTAAAAATTTTAGTTTCCTAATGAGTATTAGCATGTATGAGAAATTATGGGAGAAAAAGGCGCATCCTAGAAAAGGTGTGCTT
Celera SNP ID:            hCV1046357
SNP Position Genomic:     115307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   SC_12_A(T,0|C,23)   SC_12_C(C,9|T,12)   SC_95_C(T,51|C,104)   total(C,136|T,63)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44633):
AATAGACAAATACAGAGAAACAGCCAAGATCAGCTTACTGGGAAAAGATGCCACTGAAGCCAGGAAGACTATGGCAATTTGGGAAAAGATGCCACTGAAG
Y
CAGGAAGACTATGGCAATTTTGATGAATTGCTGGAGGCTGAGTGAGGACTAGCTTCAGAGTTAAAAACTCCCAGGGACCCAGTCTTAGTGGGGGTTTCCT
Celera SNP ID:            hCV1046358
SNP Position Genomic:     117681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44634):
ACAGTGAGACCCTATCTATCTCAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAAGAAAATCCTTTAACTGACTTCATCTTAACCTTTTAGTTCCTAAGGA
Y
GGTCTGAAGAGCCAAGAGCTATTTGATGAAATTAGAATGACCTACATCAAAGAGCTAGGAAAAGCCATTGTCAAGAGGGAAGGAAACTCCAGCCAGAACT
Celera SNP ID:            hCV1046359
SNP Position Genomic:     127652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:44635):
AAAATGCGGAAGTGACTTTGGAACTGGGTAACAGGCAGTGGTTAGAACAGTTTGGAGGGCTCAGAAGAAAACTGGAAGATATAGGAAAGTTTGGAACGTC
S
TAGAGACTTGTTTTGAATACTTTTGACCAAAATGCTGATAGTGACGTGGACAATGAAGTCCAGGCTGAAATGGTCCCAGAGATGAGGAACTTATTGGGAA
Celera SNP ID:            hCV8950980
SNP Position Genomic:     81545
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,8)      total(G,3|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44636):
AATAGTGCCAAGTAATGGTGAGGTTATACCTGTATTCTGATTATAATCTCATAAATATTTACCATGTTAGCTGTCTCAGAGTTCTTTTGCAAAACAGATA
M
AGATAGAAAGTATAAATAAGAAAAATAAGTGAACATATACTGAACTTTGTACAAGATGCTGGCGATATGGAGAGACCCAAGACATGGGCCCTACCTAAAA
Celera SNP ID:            hCV8950981
SNP Position Genomic:     88439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44637):
GGCTCCCTGATGAACCACCTGCCACGGCCCGTATGACCGCATCCAGGGGTGATGATGTCATTTTCACAGGGTTATTGAGAGCTAAAACTACGAAGTACTA
Y
AAACTATTATTTAAAATATAAATACATACTATATATGCATATGTGTGTATATATAATTAATGGGGTAAACATTACAGAATACTGTCCTAACCTTTAAACA
Celera SNP ID:            hCV8950988
SNP Position Genomic:     93978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44638):
TTCACATTGACCTTTCCAAGGTTATCAGTGACCTGCTTGTCCTTAAATTCAGTGGGCACTTTCCAGTAACCTACTGTTGGCACCAGCCCTGTGCTAGACA
M
CAGGATCCTGTTTGTAAAGGCATCTGCCAGTGGTTTCTGTGACACAATTCTGTTTCTAGTTTTCCTCCTTCTACTTCTCTAGCCTCTTGGCAAGTTCTTC
Celera SNP ID:            hCV2115070
SNP Position Genomic:     59582
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44639):
CAATTACTGATGTTTATAAGTAGATTTATTACACCAAAGCACCTAGCAAATTCTTGAATGGATCAGGTCTTATTTTTCAGTCTTACTTTGCAAATTTAAG
Y
CAAATAATTAAGGATTTGTTAAATATTTGTCTTAATATCAAGCTTTTGCATATCGGGGCCCTCTTTTATAAGCTTTATAAGCAATCTTTTGTTTTCTCTG
Celera SNP ID:            hCV11159943
SNP Position Genomic:     30229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44640):
TTTCCATTATATGCAAAGCCCATGAAAGGCTAAATATCAGTTAAGAGGGGAGAGGAGGGTGGCTCCTAGGTCCTCTAATGGGCAGGAAAGTATTTAAAAC
R
ACAATACAAAAAGATCTAGAATAAAATAGAAAAGTACAAGTTGATGTCTGGGAGTTTGGTCAGGGAGCATAAGGTAACACTATAAGAAAGTGCTATCATA
Celera SNP ID:            hCV8950989
SNP Position Genomic:     96616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44641):
GAGAGAAAAATTATTCAGATGTTTTCCTTTGTCAATAATACAAGGAGCATTTGTAGGGAAAAATATTTACAAATACAGTAAGACCTATTCTCTTTCTATA
Y
TTATGGGAAAATTTTAAGTTGTGCCCTTGTTTCATGTGTGTTTCTATTTAAAGATACCATACTTAATATATATTGTTGATTCATTAACATTGAACTCATG
Celera SNP ID:            hCV2115071
SNP Position Genomic:     61595
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44642):
GTCAGAGATGTTGACTAGAGTTAATGCCTCTTTTAGGAGAGGTACCAGGTAAGTGTTCTCAAAGAACTGGAAACTGAGACCACCACCTCTGGCATTATCT
R
TTTGTGAACACAAGCAAGTCTGAATTTTTCCGCACCATAGCTACCTTTCATGTAAGCTTCTTTTCTTAGAAGAAAAGAAGGTAACATTTGGGTGTAATTT
Celera SNP ID:            hCV11159944
SNP Position Genomic:     31939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44643):
TCTTTCTATATTTATGGGAAAATTTTAAGTTGTGCCCTTGTTTCATGTGTGTTTCTATTTAAAGATACCATACTTAATATATATTGTTGATTCATTAACA
Y
TGAACTCATGGCTAACAGCACTATAAATCATGTCTGATCAAAACTTATGATACATGTACTTTCTTCGTAAGGTACATCATAGTCTTCTCGTACATGGGAA
Celera SNP ID:            hCV2115072
SNP Position Genomic:     61685
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44644):
TCACACAAATGATACTTATCCCTTGGTGTTTGATCTAAATTTCTACAATGAGAATGTGATTTTATAGTCTTTACTGGGGAAGGAAGTAGGTTTTTCAGGC
Y
GAAATTCTTGTGTAGCAAAAATTAACACTTAAGTTAGCCCTTGGCAATCTCCAGTTCTATAATGGTAAAATGGATTTCCCAGAAAGTCACTCTCTATCCC
Celera SNP ID:            hCV2115073
SNP Position Genomic:     62821
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44645):
CCAAGCTGGTCTGGAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGATGGGATTACAGGCGTGAGCTACCGCGCCCAGTCAGCATCA
T
TTTTTTTTTCTCATCAACGTTAAAACAATGTTGAACAAAACATTATTCAAAGACCTGCCGTATGGCTATTTTCTAGTTGTGTGACTTTCTTTGGGAAAGT
Celera SNP ID:            hCV2115075
SNP Position Genomic:     65866
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44646):
TTCTGAGCTTAAATGTCCTCATTCATAAAATGGGGCTAGTAATAATGCATAAGGTTTTTGTAAGAATTAGAATTAATAAAGTACTTAGACCATAATAACT
M
ATTAGTATTAGTTGTTGTCTTTGCTATTATTTTGATGTGGTGGTTGTTTGGTTTCACCTGTGTACTATCAGGACATGCTGAAATAAAATTTAAGAATTGG
Celera SNP ID:            hCV2115076
SNP Position Genomic:     66077
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44647):
AAGTAACCAGAAGGAAAGAAATTTTAATTCTTAAAATGTAATAGTTTCTTGGTTTTTTTTTTTCTGTGAAACACCTGCATGGCACCTTTTTGTTATTCAT
M
CTGTTTTGACTGTGGCTGTCGTAGATTCTTGTTGAAAGTCTGAGAGACTGAGACTTGTCATTTTGAACATGGCATCAGTGGAACAGCTTATGATTCAATA
Celera SNP ID:            hCV2115077
SNP Position Genomic:     68358
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,9)   total(A,9|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44648):
TTGCTTCCAGGCCACAAACTTACAGCATGTTACTGTACTGAACACTGCAGGCACCTCTAATACATCGGTAAGTATTTATGTATCTAAACATAGAAAAGGT
M
CAATAAAAATACAATATAAAAGAGGAAAAAAATAGTACACCTGTATAGGTGCTTACTGTGAATAGGGCTTCCAGGATTGGAAGTTGCTGTGAGTCATTGA
Celera SNP ID:            hCV2115079
SNP Position Genomic:     71499
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44649):
ACTTCAGTTTTGTAGACATTTTTCCTAAGGCCAATTATGAAATATCCTTTCACCTAGTCATGTGTATATAAAATCACCATGTTATTACAGAATTTAGTAA
Y
ACTGTTTTTAAAAAGTATGATTAATCCATTAAATTAGAATAATGCACCCTTCATATATTATGGTACTACAGTGATTCATGAAATAATTCTATATAATTCT
Celera SNP ID:            hCV1046360
SNP Position Genomic:     128043
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,21)   caucasian(C,10|T,24)   total(C,19|T,45)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44650):
TTAACTATTGCTTCCAAACATTTTTGGATAAGACCATGAGTATTGAATTCCCCGAGATGTTAGCTGAAATCATCACCAATCAGATACCAAAATATTCAAA
Y
GGAAATATCAAAAAACTTCTGTTTCATCAAAAGTGACTGCCTTAATAAGAATGGTTGCCTTAAAGAAAGTCGAATTAATAGCTTTTATTGTATAAACTAT
Celera SNP ID:            hCV1046361
SNP Position Genomic:     128442
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,25)   caucasian(C,5|T,31)   total(C,10|T,56)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,6|T,32)   total(C,13|T,63)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)    ;(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44651):
TCTGCTTTTTGGACATTTGTGTATTTTCTTTGAAGAAATGTCTTTAACATTCTTTGCCCATTTTAAAATTAGGTTGTCTTTTTATTGTTGAGTTGTCGGT
K
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATCTAGAATATATGTGTATGTATATATGCAGATATATTCTAAACACTAGACCCTTATGAAATATATAAT
Celera SNP ID:            hCV11837642
SNP Position Genomic:     41883
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,5)   total(G,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44652):
TAGGTACAAGTAAGTTTATGATTATTATATCTTCTTGATAGATTGATTCTTTTATCATTATACAGTGCCCTATAAGAACAATTTTTATCTTAAGTCTATT
K
GTCTATATTAGTATAGCCACTTCAGCTTTCTTTTGTTTACTGTTTGCATGGAATATTTTCTTCTTTTACTTTCTATTTGTGTTCTTGAGTCTAAGGTGAA
Celera SNP ID:            hCV15938265
SNP Position Genomic:     45051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44653):
TTTGCTGCTATACTTTGTTAACATATTTTAGGAATATTTCATTTTAGTCACAACTAGGATATAAACATTATTTTGGTGGCGATCTCCTTGTAATCACGAC
R
TCAACCAAATTTGGGAAATTTTGATTTGTTAGATTTATAAATTTTACAGTAACACAAAAGTCTAATTTCCTATATATTTTCAAGGCCCCTATACCTTTGT
Celera SNP ID:            hCV15938266
SNP Position Genomic:     63844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44654):
GCAGATTAATATTATAAATTTGAATGTACAAAGGAAGCTTTAGCAGTAAAATAGCAACTTTTATCTGTCTTACGTATTGGAGGTTCTGCATAAGATTTAA
T
TTTTTTTTTTTTTGAAATGGAGTTTTGCTCTTGTTCACGGGGCTGGAGTGCAATGGTGTGATCTCGGCTCACCACAACCTCTGCCTCCCGGGTTTAAGTG
Celera SNP ID:            hCV11837646
SNP Position Genomic:     51534
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44655):
GAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACACCACTGTACTCCAGCTTGGCGACAGAGCAAGACTCCGTCTTGG
A
AAAAAAAAAAAAAAAAGAAACCTGAAACTAGTTATAAGTTAGAGTTTCATATCCCTGTTTATATAACAAGTTGTATAATTAACACTGATCTCAGCATTAA
Celera SNP ID:            hCV10046452
SNP Position Genomic:     101359
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,6)   total(A,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44656):
ATCCAAAAGTCTCCTTGGGGTAGGATTCCCTGTGATTCATGGGTTGAGAGGTGTAACATTAGACACAGTCCCAGTCTAGATTTTTTTTTTAAAGAATTGT
R
GTCCATCCTATACACACTGGGTGCCTTAATACTATATGTGGCAATTATCACTCCTATAAATCAGGTTTTACATAAGATAGGAAAAAGAACAGTATCATTC
Celera SNP ID:            hCV15961598
SNP Position Genomic:     31518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44657):
TCCATGTACTAGTTACATTATAATAAAGCCAAAAGCAGCAGGCCTACCTGACTTTCTCCTGAGGTCTATCATGAGCTTAGAGAGAAGGAACGTGGACATA
Y
AGAGGTAGCTCTAGATGGAGAAGGGCACTAGGTGTCATGGAAAGAATCATGTGCAAGAAGTAAAGAGGTGCTCTGAATGTCCTAGCCCTGCTTAGGTGTC
Celera SNP ID:            hCV15961599
SNP Position Genomic:     34010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44658):
GGGCATGCCATGAAGGAAAGCCACGCTCCCTTCAGAATTCAGAGGCAGGGAGCAATTCCAGTTTCACCTAAGTCTCATAATTTTAGTTCCCTTTTAAAAA
Y
CCTGAAAACTACATCACCATGGAATGAAAAATATTGTTATACAATACATTGATCTGTCAAACTTCCAGAACCATGGTAGCCTTCAGTGAGATTTCCATCT
Celera SNP ID:            hCV15756036
SNP Position Genomic:     131631
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,17|C,1472)   total(C,1472|T,17) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:44659):
TAGGCCAGATAATTTTTTCAAAATAGAGGACAACAAACATGAGATGTTCCCACTGACCAATTTGGAAGCCTGATCATTACCATATCTTCTCTTGCAGGTG
R
TTGAAAATCTCCTTAACTATTGCTTCCAAACATTTTTGGATAAGACCATGAGTATTGAATTCCCCGAGATGTTAGCTGAAATCATCACCAATCAGATACC
Celera SNP ID:            hCV27863277
SNP Position Genomic:     128329
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44660):
GAGTACAAAAAGAAATTGAAACAGCTGGTACAGATATTTGGCATTGGAGAGCAGCTCTGAACAAAGGTGAATTATAGTCTAGTGGTCAATTTTGTGGCCT
R
TTCTTTACAAAGAATTGAACCTGATACAGTTAACCATCTACCCCAAACTATTATTTGTTTAAAACACAATCTATTGGCTGGGCGTGGTGGCTCATGCCTG
Celera SNP ID:            hCV8950996
SNP Position Genomic:     99418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44661):
GCACCAACAAGGCAGTCACTAGGTATAAAATGAATAAAATAGTGCCTGTATTCAAGTAGTTTATCTGCTAGTTAGGTTGCAGAGTCAGTCACAAAATAGC
R
TGGCACACCATAGAGGGCATAGGGCCACAGGAACAAGAGGAAGGTCACCTAATTCTGTCTTGGAAGTCAAGGAAGAAGTAACATTGAATTTTAAATCTAT
Celera SNP ID:            hCV8950997
SNP Position Genomic:     101691
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44662):
GACCAGGCTATTTAAACTTAACTGCAGAGTGTCAGCATGTTAAACATTGATTTACATAAAATGATAGCTGCCCACTTTCTTGTAAATGTTATAAAAACTG
Y
AGAGATTAACTAAAAAATGCACACAGAAGTTTGCTTTCAGTTCCACAAGGGTAGTTTATTTTTGTTATAAAAACAGTATTCCCCACTTTCTTAGATACCA
Celera SNP ID:            hCV8950998
SNP Position Genomic:     102520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44663):
CCACAAACTTACAGCATGTTACTGTACTGAACACTGCAGGCACCTCTAATACATCGGTAAGTATTTATGTATCTAAACATAGAAAAGGTACAATAAAAAT
M
CAATATAAAAGAGGAAAAAAATAGTACACCTGTATAGGTGCTTACTGTGAATAGGGCTTCCAGGATTGGAAGTTGCTGTGAGTCATTGAGTAGTGAGTGA
Celera SNP ID:            hCV2115080
SNP Position Genomic:     71510
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44664):
AGGTTGATTCTATGTCTTTGCTATTGTGAGTAGTACTGCAGTGAACATACACATGCATGCGTCTTTATGGTAGAATCATTTATATTCCTCTGGGTATATA
C
CCAGTGATGGGATTGCTGGGTCGAATGGTAGTTCTGTTTTAAGTTCTTTGAGAAATCATCAAACTGCTTTCCACAATGGCTGGATTAATTTACACTTCCA
Celera SNP ID:            hCV2115081
SNP Position Genomic:     79017
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,7)   total(C,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44665):
TCTCTAATATGGCAAAAATGGCTAGACACCCATTTTCACATTCCCATCTGTCACCAATTGGTTAATCTTTCCTGATGGTACAGGAAAGCTCAGCTACTGA
Y
TTTTGTGATTTAGAACTGTATGTCAGACATCCATGTTTGTAAAACTACACATCCCTAATGTGTGCCATAGAGTTTAACACAAGTCCTGTGAATTTCTTCA
Celera SNP ID:            hCV11159956
SNP Position Genomic:     129703
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)    ;WIAF-CSNP-P(1(C,2|T,84)   total(C,2|T,84)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:44666):
TACAGGGAGTAATAAATAGGATGTGGAAGATGGGTTAGAATTGGCAAAATCTCTGCATGTAAGTCTGGGTTACTAAATATAGTGAGAGAAATTCAAATCT
S
TCTTTAAGAATCGAATAAAATATTTAGAAATAAGTTACTGTTGTATTTGAGGTGAACACAAATGGCATTTCAAAGATGCTCGAGATACCTTGTTGGAAAA
Celera SNP ID:            hCV3222046
SNP Position Genomic:     89158
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44667):
AATTTATTAAAATGATTGTAAAATAGCTTGTATAGTGTAAAATAAGAATGATTTTTAGATGAGATTGTTTTATCATGACATGTTATATATTTTTTGTAGG
K
GTCAAAGAAATGCTGATGGATAACCTATATGATTTATAGTTTGTACATGCATTCATACAGGCAGCGATGGTCTCAGAAACCAAACAGTTTGCTCTAGGGG
Celera SNP ID:            hCV11159957
SNP Position Genomic:     130184
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:44668):
AGAAGCTTCAGAAGTTTGGCAATAGTTTGCATAGAGGTACCAGCAATATGTAAATAGTGCAGAATCTCATAGGTTGCCAATAATACACTAATTCCTTTCT
R
TCCTACAACAAGAGTTTATTTCCAAATAAAATGAGGACATGTTTTTGTTTTCTTTGAATGCTTTTTGAATGTTATTTGTTATTTTCAGTATTTTGGAGAA
Celera SNP ID:            hCV11159958
SNP Position Genomic:     130666
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)    ;WIAF-CSNP-P(1(G,2|A,84)   total(G,2|A,84)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:44669):
TAGCCTCGGGGAGTGGGGGTGGGGGGCTGGCAAGGGCCGGGCGACGGTGACGAAAGGGCAGCGCGCGGGTGACAGCGCTGGCCTCTTCCTCTCCCTCCGC
M
GGCGTCCCCTGGCCGGGCCGAGGGGGAGGAACCTGACCTCGGACGGCGAGCGGAGCCCTGTCGAACTGCCGGGGGCTTCGAGCCTCTCATTCCTCGCGGG
Celera SNP ID:            hCV29253662
SNP Position Genomic:     7442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44670):
AACACCCTTTTCTATGTACCCTTTACAAATAGCAACTTTTTTTCTAAATATAAATGCTATGGTTTGGCTCTGTATCCCCACCCAAATCTCATCTTGAATT
R
TAATCCTCACATATCAGGGGAGGGGCCTGGTGAAAGGTGATTGAATCCTGGAGGCAGACTTCTCCTCTGCTGTTCTCATGATAGTGAGTTCTCATGAGAT
Celera SNP ID:            hCV29253663
SNP Position Genomic:     24193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44671):
CCTAGTGGAGCCGTGAGAAGAGGGATACCATCCTCCAGACTCCAGAGTGGTAGATCCACTGACAGCTTTCACCATGTGCCTGGAAAAGCTGTAGGCACTC
R
ATGCTAGCCTGTGAAAGCAGCTGCAGGGTCTGTACCCAGCAGAGCCACCAGGGCAGAGCTGTCCAAGGCCTTGGGAGCTCACCCCTTGTGTCAGCGTGGC
Celera SNP ID:            hCV29253664
SNP Position Genomic:     25684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44672):
AGACCTAATTTCTCTTCCTTTAAACTTTCTTTTCCTCAGTTGCTATTTGATTGAAATATTGAGTCATTAAAAATTTCCAAGTGGGAATTTTTGTGTTTCT
K
CATCTATCATGAAGCTGCTCAAATAAGTAGGTGTTTGAATAGGAGTAGAAACAGTAATAGGCTGAAGCCAGACCAATACAGCTTCAGCTAAATGCCGACC
Celera SNP ID:            hCV29253665
SNP Position Genomic:     39713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44673):
ATTTGCTGTATTTGAAAGAGCATAGTGATAGAGGTCATGATAAAATCTAGGCCCAGTGCCACAACTAAATCCCTGTAGGAACTCTCAAGGTTTTGATTTC
W
TCTCTGAATGGGAATAACACCTTCCAAGAATATTATGAAGATTAAAAAGTTACGTATCATAAATACACACAGAGTAACAATACTGGGAATATTGCAACTT
Celera SNP ID:            hCV29253666
SNP Position Genomic:     66677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44674):
GCATTGTACTTTTAAATGTGGCATGCTGAATGGGAGCAGGGGACATGGCTTTTTATTCTGGAAGATAGAAACTACTCTTCTGGTAACAAAGAATTTGATT
Y
GGAGTTAACTAAAAGGTTCATTTAACAAGCTGCCTCTTACTAATCGGATCAGGAAGATAATGTGACTTTAGAGCTTATGATGTTTTCCCCCCGTTTTTGT
Celera SNP ID:            hCV185371
SNP Position Genomic:     9481
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44675):
TTAACTTCTCTGAGTTTGCATTTTTCTTTGTCTATATAATGGGGATAATAATAGTACCTACCTCACACATAGTGTTAATTTCTATTAGTGGTTCTCATTA
R
GATAGTATTGTTGTTCATCCCTGGTTGTTAGCCATCATGTATCTGAGTTAGAGAGTCATTGATTTTAGAAAGTCCCGAGGAGACTATCAGGTCAAGCAAC
Celera SNP ID:            hCV29253667
SNP Position Genomic:     66999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44676):
GCCCAAAGTCTGTGTGATGAACTTTCTCTTCATACTTTTTTTCACAGTTGGCTGGATGAAATTTTCTAGACTTTCTGTTGGTGTATCCCCCCCCTGTATA
K
TTAGGATAGCATTTTTGATTTATGCATGGAAACCTGAAAAAAAGTTTACAAGTGTATATCAGAAAAGGGAAGTTGTGCCTTTTATAGCTATTACTGTCTG
Celera SNP ID:            hCV11160424
SNP Position Genomic:     128894
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:44677):
ACTATGCGATCAAAAAGTTTTTAGTCTTTCTTCTTACCATACTGGTTCTTGGTATTCTGTTTACCATTCAATGTACTATTATTGCTTCTGCTTAAAACTC
R
CATCCCCTAATGCAAGCCTGAGCAAACAGAACTGATAACACACAGCCTGAGAAGGGAGTGCTTGGGGTCTCAAGACTTATTCTGTTTTTCTCCATCTTTG
Celera SNP ID:            hCV1032036
SNP Position Genomic:     89515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   A(A,6|G,54)   B(A,0|G,60)   C(A,6|G,54)   total(G,168|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44678):
CATTTATCTATGATGCTGGTTTATTTAATCTCTATAATTTGCTGTATTTGAAAGAGCATAGTGATAGAGGTCATGATAAAATCTAGGCCCAGTGCCACAA
S
TAAATCCCTGTAGGAACTCTCAAGGTTTTGATTTCATCTCTGAATGGGAATAACACCTTCCAAGAATATTATGAAGATTAAAAAGTTACGTATCATAAAT
Celera SNP ID:            hCV15938276
SNP Position Genomic:     66641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44679):
ACTGAACACTAAAACTTATTTCTTCTAACTGTATTTTTGCACCCGTCAACCATTCCCGCTTCATCCCCATCACCACTATCTTTCCCGGTCACTGGTAACC
R
CCAAGCCAAGAATTTTGGCTATTTTACTATTTAGTTCATGTTTACTTAAGCAGACAGAGGTGACAAAACTGGCTTTTTTTTTTTTTTTTTACATTAAAAG
Celera SNP ID:            hCV15938277
SNP Position Genomic:     110998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44680):
CCCTCCTTTTTCTGGTAGGAGTAGAGGGAAGGTAAAATTTGGAAATACGTAGCAGAGTGTTCACAACAAAAGGCCTGCCCTGTAAGGAAAACTAATTCAA
Y
AGGCCCTTATGTGACCTGGGGGAAAGGCAAATAGAGGATTCTAGCCCTTCCTTAGCCTTCTTGTCTCATTTCTGAAAGTCACAGCCCAGGGATTCAGACC
Celera SNP ID:            hCV15938278
SNP Position Genomic:     117964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44681):
AATAATAATTAGGGCAGGCTTGCTGAGCATTTTTAAACTGCACTGTTTATTGTCATGCATTTGAATGATTATCGCAGACTTTATGAATTTTCATTTTATA
W
TAATTTGTAGGCCAGGCACAGTGGCTCACGTCTGTAATCCCGGCACTTTGGGAGGCCAAGGCAGGCGGGTCACTGGAGGTCAGGAGTTCAACACCAGCCT
Celera SNP ID:            hCV11837656
SNP Position Genomic:     64930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,3)      total(A,3|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44682):
TTGAACATTACTGGTGTATAGAAATGCTACTGATTTTTGTACATTGATTTTAAATCCTGAACCTTTACCAAAGTTGTTTATCAGCTCCAGGAGCCTTTTG
R
CAGAGTCTTCAGGGTTTTCTAGGTATAGAATCATAAGTGAAAAGAGATCGTTTGATTATTTATTTTCCTATTTGGAAGCCTTTTATCTCTTTCTCTTACC
Celera SNP ID:            hCV8951005
SNP Position Genomic:     106256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44683):
ATCAGAAGACTTCTCTGACACCTCTCTATGTCTAAAGGTCCTTTGATATTCTCACATGGCGGCATGAATCACAGTGTATTTTAACTGGCCTTTTCCTTGT
R
TGTCTCCTACAATGAGCTGTTGAAGCTTCATGAAAACACAATCTGTTTTACTCAGGGCAGTTATAATTCCAATTACAAAGCACATTTCCTGGCTCCTGGC
Celera SNP ID:            hCV11837659
SNP Position Genomic:     67661
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44684):
GGGAGTTTACAACCCTGCCTTAGCCTTTACTACCAGCTTCTGCAGAGCATTAAGGTCAACAGGTGGTGAGAGTTTGGAGCCTACTCCATCTTTCCTGAGC
R
TATACACAGCCCTACTCATGCATGTGGCCCTCTAGATTTCCAGGAGTATGTTGGACCCTTTCAAAGCCCTTACAGACTCCCCAGCTTTTCCTCTCAATCT
Celera SNP ID:            hCV15961609
SNP Position Genomic:     47476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44685):
CATGTAAAATATCTATTGACATAGGAGTTTTATCAAAATGTGAAGTATACAGATGAATAGTACCACACATAAAAAGCAAGGTGCAAATTAGCCATTTATA
Y
TGTTATCCCCAAAATAAATAGATGCAGTTTTTTTAAAAGATGCAGGCTATATATGGAAGTGTTTGCTGGTTTTCTGTCAAAAGAATGGCGACTTTATTTT
Celera SNP ID:            hCV29253672
SNP Position Genomic:     74825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44686):
CGAGCGGCTCCTCTGCCAGAGGTAAGAAGCGAGGCGGGAGGGGGCCGGGGCGCGCTCGCTCCCCCGAGGTGCCGCTGGGACCGGAGACAACTCGGGGGCC
R
CCGCGGGAGCCTACAAACTTTTATTAGCCTCGGGGAGTGGGGGTGGGGGGCTGGCAAGGGCCGGGCGACGGTGACGAAAGGGCAGCGCGCGGGTGACAGC
Celera SNP ID:            hCV26841916
SNP Position Genomic:     7317
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44687):
CAGATGTACCACTATGACATGAATACAGCATCCCTTTCTCAACAGCAGGATCAGAAGCCTATTTTTAATGTCATTCCACCAATTCCCGTTGGTTCCGAAA
R
TTGGAATAGGTGCCAAGGATCTGGAGATGACAACTTGACTTCTCTGGGGACTCTGAACTTCCCTGGTCGAACAGTTTTTTCTAATGGCTATTCAAGGTAA
Celera SNP ID:            hCV26841917
SNP Position Genomic:     10696
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)    ;(G,-|A,-)   ;WIAF-CSNP-P(1(G,2|A,84)   total(G,2|A,84)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44688):
TACCACTATGACATGAATACAGCATCCCTTTCTCAACAGCAGGATCAGAAGCCTATTTTTAATGTCATTCCACCAATTCCCGTTGGTTCCGAAAATTGGA
R
TAGGTGCCAAGGATCTGGAGATGACAACTTGACTTCTCTGGGGACTCTGAACTTCCCTGGTCGAACAGTTTTTTCTAATGGCTATTCAAGGTAAGATCAG
Celera SNP ID:            hCV26841918
SNP Position Genomic:     10702
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Caucasian(G,25|A,406)      total(G,25|A,406) ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44689):
CCACAACTCACCCCTACCCTGGTGTCACTGTTGGAGGTTATTGAACCTGAAGTGTTATATGCAGGATATGATAGCTCTGTTCCAGACTCAACTTGGAGGA
W
CATGACTACGCTCAACATGTTAGGAGGGCGGCAAGTGATTGCAGCAGTGAAATGGGCAAAGGCAATACCAGGTAAGATGCAAAACATAAAAGAGCAACTA
Celera SNP ID:            hCV27541057
SNP Position Genomic:     109876
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44690):
TCGTCTGAGACGCACCTTGTCACGTTTCTGCCGCCAGGAATCATGTAGGAATGATTCCAGTCGCTTAAACCTGAGCCCTTTTCCTTTCTTCTGTCTTGCT
A
CTGCCATCTTTCTAGTGGTGCAGCTACTCAATTCTTTTTTTAATTATAATTTTTATTTTAAGTTCCAGGGTACATGTGCAGGATGTGCAGGTTACATAGG
Celera SNP ID:            hCV11837666
SNP Position Genomic:     77838
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,9)   total(A,9|-,3) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:44691):
GCATTAAGGTCAACAGGTGGTGAGAGTTTGGAGCCTACTCCATCTTTCCTGAGCATATACACAGCCCTACTCATGCATGTGGCCCTCTAGATTTCCAGGA
R
TATGTTGGACCCTTTCAAAGCCCTTACAGACTCCCCAGCTTTTCCTCTCAATCTTTAGACTAGTGTGTTGTTTTCTTCAACAGTTATCTGTCAGGCAGCA
Celera SNP ID:            hCV15961610
SNP Position Genomic:     47522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44692):
CACTTTCCAGTAACCTACTGTTGGCACCAGCCCTGTGCTAGACACCAGGATCCTGTTTGTAAAGGCATCTGCCAGTGGTTTCTGTGACACAATTCTGTTT
S
TAGTTTTCCTCCTTCTACTTCTCTAGCCTCTTGGCAAGTTCTTCTTTCAGAGTTTCTCAGAGCTTTGTGCTAGGCCCTCTTCTCATTTTCTCCTTCTCTA
Celera SNP ID:            hCV28020579
SNP Position Genomic:     59638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44693):
CCAATTTGGAAGCCTGATCATTACCATATCTTCTCTTGCAGGTGGTTGAAAATCTCCTTAACTATTGCTTCCAAACATTTTTGGATAAGACCATGAGTAT
K
GAATTCCCCGAGATGTTAGCTGAAATCATCACCAATCAGATACCAAAATATTCAAATGGAAATATCAAAAAACTTCTGTTTCATCAAAAGTGACTGCCTT
Celera SNP ID:            hCV27860313
SNP Position Genomic:     128385
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44694):
TAAAGATAATCTGAAAATGCGGAAGTGACTTTGGAACTGGGTAACAGGCAGTGGTTAGAACAGTTTGGAGGGCTCAGAAGAAAACTGGAAGATATAGGAA
R
GTTTGGAACGTCCTAGAGACTTGTTTTGAATACTTTTGACCAAAATGCTGATAGTGACGTGGACAATGAAGTCCAGGCTGAAATGGTCCCAGAGATGAGG
Celera SNP ID:            hCV27505785
SNP Position Genomic:     81532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44695):
CCTCCCAAAGTGCTGGGATTACCGTGCCAGCCTGATGTTACTATTTTAATTGTTTTCAGGCACCATAAACCTCACCTGTATAAGGCACCGTACTTAATTG
R
TAAATATTGCGCATGATCTGACTGCTCTTCCAACTGGCCATTCCCTGTCTGTCTCCCTCTTCCTGGGACTCTCAAATCCCTGAGAGACAATAATATTAAA
Celera SNP ID:            hCV26841925
SNP Position Genomic:     55863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44696):
TCTTATGGACAAATGAGCAAATAAATTTTTTTCTTGAGATGGAATCTACTCCTGGTGAAGATTCTGTGAACCTTGTTGAAATAACAACAAAGGATTTAGA
R
TATTACATAAACTTAATTGGTAAAGCAGCAGCATGGTTTGAGTGGATTCATTCCAGTTTTGAAAGAGTTTCTACTGTGGGTAAAATGCTATCAAACAGCA
Celera SNP ID:            hCV26841926
SNP Position Genomic:     57407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44697):
TACAGTAAGACCTATTCTCTTTCTATATTTATGGGAAAATTTTAAGTTGTGCCCTTGTTTCATGTGTGTTTCTATTTAAAGATACCATACTTAATATATA
Y
TGTTGATTCATTAACATTGAACTCATGGCTAACAGCACTATAAATCATGTCTGATCAAAACTTATGATACATGTACTTTCTTCGTAAGGTACATCATAGT
Celera SNP ID:            hCV26841927
SNP Position Genomic:     61668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44698):
AACGAGCCAACTCTACACAGACAGTGGCCCTGGACAGAGCTGGGCAGGCATCAGTTTTTTTTCTTTTTTTTGTGGGGGGTGAGGGTGGGGCATGGAGTCT
Y
ACTCTGTCACCCAGGCTGGATTGCAGTGCAGTGGTGTGATCTCAGCTCACTACAACCTCCACCTCCCGGGTTCAAGAGTTTCTCCTGCCTCAGCCTCCCA
Celera SNP ID:            hCV26841928
SNP Position Genomic:     65584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44699):
TGAGGCAGGGGAATCTCTTCAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGTGCCATTGGACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTC
A
AAAAAAAAAAAAAAAAAAAAAAATCATCTTTAAAGAGATAACTAACCCTTCCCCAGAAGGCAGGGCCAAAGTCTAAGGTTCTTCCAGGTCCTTTGTATTC
Celera SNP ID:            hCV26841929
SNP Position Genomic:     69949
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44700):
TTTGGAACGTCCTAGAGACTTGTTTTGAATACTTTTGACCAAAATGCTGATAGTGACGTGGACAATGAAGTCCAGGCTGAAATGGTCCCAGAGATGAGGA
R
CTTATTGGGAACTGGAGCAAAGGTTATTTTTGCTATGCTTTAGCAAAAAGACTGGCAGCATTTTACCCCTGCCCTAGAGAACTGATGAACTTTGAGATGA
Celera SNP ID:            hCV11837672
SNP Position Genomic:     81634
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44701):
GAATAATAATCTGTAGTTAAAAAAAAAGTGTCTTTTTACCTACGCAGTGAAATGTCAGACTGTAAAACCTTGTGTGGAAATGTTTAACTTTTATTTTTTC
R
TTTAAATTTGCTGTTCTGGTATTACCAAACCACACATTTGTACCGAATTGGCAGTAAATGTTAGCCATTTACAGCAATGCCAAATATGGAGAAACATCAT
Celera SNP ID:            hCV8951023
SNP Position Genomic:     132311
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,4|A,73)      total(G,4|A,73) ;(G,-|A,-)   WIAF-CSNP-P(1(G,9|A,77)   total(G,9|A,77) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:44702):
AAATTTGCTGTTCTGGTATTACCAAACCACACATTTGTACCGAATTGGCAGTAAATGTTAGCCATTTACAGCAATGCCAAATATGGAGAAACATCATAAT
W
AAAAAATCTGCTTTTTCATTATGTGACTCCAACATGCTTTTGTAGAACTTGTACAGTTCCGATTGTCCAATCTGATTTTTGTTTACTGAAAGTAGAGTTA
Celera SNP ID:            hCV8951024
SNP Position Genomic:     132415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:44703):
AATCAATCATCTGTGTGAAAATGGGTTGGTGCTTCTAACCTGATGGCACTTAGCTATCAGAAGACCACAAAAATTGACTCAAATCTCCAGTATTCTTGTC
A
AAAAAAAAAAAAAAAAAGCTCATATTTTGTATATATCTGCTTCAGTGGAGAATTATATAGGTTGTGCAAATTAACAGTCCTAACTGGTATAGAGCACCTA
Celera SNP ID:            hCV11837677
SNP Position Genomic:     129230
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:44704):
TTTAAAATGCCACCTAAAATTGTTTTTATCAGAATACTTAAAAAAAAATCCTCACTTTATTCTCTGGGGGTGGGAAGAGGCAATTCCTTCCTTCCACCAC
R
ACATTGAATTATCACATAAAATTGTAAAATTATGAATATTATGATTGAGCTTAGTAAAGCATTTTCTAAGTTCATTTATAGTAAAACAAGAGAAACCTTA
Celera SNP ID:            hCV390883
SNP Position Genomic:     13330
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44705):
TTTTCCCTGTCTCAGCAACCCGAGTAGCTAGGATTACAGGTATGCCACCATACCCGCTAATTTTTGTATTTAATAGAAACAGGGTTTCGCCATGTTGACA
R
GCTGGACTTGAACTCCTCACTTGAACTCCTCACGTCAAGTGATCTGCCTGCTTTAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTACCGCGCCTGG
Celera SNP ID:            hCV3234371
SNP Position Genomic:     73657
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44706):
GAGTCATGGAAAATATACATTGATGATTCCTGTTGCATAAAGAGTTTTCAAGAAAATTTTGTTGAATTAAGCTATAACTACAAAAAAAAATCCATTACAT
R
TTGACCTTTAGAAAGGATTTTTAAAAGCCCATGCTGTCCTTATTTCTGCAGCTTCAGAGAGCCGACTGCTCTTATTTTCTTCTGGCATATTCTATTAATA
Celera SNP ID:            hCV390884
SNP Position Genomic:     15086
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44707):
GGGAGCTGAAATAAAAGCATGTGTTAAATATACCATCTTTAACCAGAACTACATTTGACTGGTCATTTTATTTTCAAGCTCACATACACTTCAAACAGAG
R
TATGGCTAAAGGAATTATCATGTGAACAACAGCCAGGGCTCTGAACATCACAGATTATATCATCATACTTGAAATATTTGAAATTTTGATTCAAAATGAG
Celera SNP ID:            hCV3234372
SNP Position Genomic:     74217
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44708):
TCTGGCATATTCTATTAATACTTGGGTTTTGTATTTTTCAAGTAAATAAAATATTCCTATTGAGAATTTCAATTTTAAAAAAGAAAAGGTCTACTAAGTG
Y
TCCTTTCCCTGTTGAATTATGTGTGATCATTTCTATGCTAAACTAGATTAGGGTGTGACTTGTGATGGTGATTTTTGTTCATTTTACATATTAAGAAAGA
Celera SNP ID:            hCV390885
SNP Position Genomic:     15267
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44709):
AAATTAATTTTTGCAATACTTTTATGAAGATACAAACTCTGACAAAGCTTTTAAAACAAGTTTGAGAGAATACAGTATTGATTTCACTTGTAAATCTGAC
R
ATTATTTTAGAAAAAAGGAAAATATTATTTACTATTATTTTGCTTATAAATGTTTATCAATTTTAAAGCTTCCACATTGCACATCTCCCACTACAACAGT
Celera SNP ID:            hCV3234373
SNP Position Genomic:     80028
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44710):
TGATAGCCCAGGTTATCTTCCCCAGATAGAAATAAGCCTTAAGACTGACAGGTGTATATGAATACAGAGAGTATACATAAAGAAGATGTATTTTCAATTG
W
CAGTCTCTAAATTTGCTTTAAGACTTCGAAATGGATTGCTTTTCATAATTTCTTAGAATAACTCTGGTCTGTTTACCATTGAAAAATTAGAGTAGCCAAT
Celera SNP ID:            hCV27876980
SNP Position Genomic:     22236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44711):
TTAGTAAAGCCCTCCAAATGTTTCTGGTATTGCTTCTAAGAACAATTGATAACATAATAGCTGTGGCCATTATAGGGGTATTCTGTCATATTTAGATATA
R
GCATACCTTGTTTTATTGTACTTCCCAAATATTGCGTGTTTATTTTGTTTTGTTTCACTTACAAATTGAAGGTTTGTGGCAACCCTATATTAAGCGAGTC
Celera SNP ID:            hCV15961620
SNP Position Genomic:     55272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44712):
GTGATGCTTAGTGGTTAAGTTCTGATTTGTGTTTTCTTGAAGTTATTAAGGAACTTTATGATAACAGTTTATATATTCCCTCTTCTTGGCATAGTAATGA
R
GTAATAGAGACTATTCACCTCTAAGCCTGATTTTTTAAATAAGTGTTTATTTTATGTTTAAGTAAGGTAGGTCTGCTTTTGGCTTGGACTTGAATTTGGC
Celera SNP ID:            hCV390887
SNP Position Genomic:     19879
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44713):
CATGATTCATGATCAAAATGAACATTATAAGGCTATCCCTCTTCAGAATTAAATACGTTACTCCTGTGGAAAACTTGCTTTTAATGTAGAAGTTGTCCCA
R
AGCCTTTCTTCCTTTCTCATGTCCTCTTATGTCCACTGCTGAGCTAACATGGGTCTCACTGAATGATTAAGAAAAAACATCTTAGGTGGGGAGTTCTGTA
Celera SNP ID:            hCV27876982
SNP Position Genomic:     52151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44714):
TTCTAATCTTTCTCGAGTGAGGAAAATGTCAGCAGATAGTGAATATCACTGAGAGAGAGATGATAGCCCAGGTTATCTTCCCCAGATAGAAATAAGCCTT
R
AGACTGACAGGTGTATATGAATACAGAGAGTATACATAAAGAAGATGTATTTTCAATTGTCAGTCTCTAAATTTGCTTTAAGACTTCGAAATGGATTGCT
Celera SNP ID:            hCV390888
SNP Position Genomic:     22176
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44715):
TATCGAGTATTATGTACTGTACACAGTTGTATTTGCTGTACTTTTCTATAACTGGTAGCACGGTAGGTTTGTTTATACCAGCATCACCACAAACATAAGC
W
TGGTGTTGTATTACAATGCACAGCTGCAGCTAAGTGATAGGACTTTTTCAGCTCCATTATAATTTTATGGGACCATCACTATAAATGCTGTCCATCATTG
Celera SNP ID:            hCV15789275
SNP Position Genomic:     72287
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,2|A,6)      total(A,6|-,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44716):
CCTACTGAAAACTTTTTTCAGTCTTAAATTTTTTATCTAACTGGCTGTATTGCAGATGTCTGCTATATAACTTTTATATAATTTTAAAAACTATTTCTTT
Y
CTCCTTGATCTTCTAGGGGTAAGGTTACCAATGTTTTCATTATTTACTAAATATAGCAGCCCCCACCCCTTATTCATGGAGGATAGGTTCCAAAACCCCT
Celera SNP ID:            hCV3234376
SNP Position Genomic:     84593
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44717):
AAAACCATTTAACAGAAATATTGTGAAAGGTTTCCCCTAAAGCATTTTTCTATTTGATTTGAAAACTATTCCATAGCTTATTATCAAACAAATCAGTAAT
Y
CTTTAGCTAATGCAGAGATAAATGGGCAGTCAGAAAATATAATCACCTGGTGTGTGCAGCTGAGTATTTACATTTTTCCTAATGAACAAAGATAAGAAAA
Celera SNP ID:            hCV15961621
SNP Position Genomic:     90295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:44718):
GGGAGCTGGGGCGGGGGCTTCCCGCACGGGCACCCCTCGCCCCACGGCCCTCTCCTTTCTCAGGACGGACCACGAGTTCCCTTCCCCTTGGACTGAGGGG
R
AAGCTCCTAACAGGAACATCTGTAGGGAGTTGAACGCTGGCATTTTAAAGCTGCCTGTATTTTGTTTTATTTGTAGGGGCAGGGGTCCTATGAACGTGAT
Celera SNP ID:            hCV27858332
SNP Position Genomic:     5455
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 TFBS


Context             (SEQ ID NO:44719):
ATCGAGTATTATGTACTGTACACAGTTGTATTTGCTGTACTTTTCTATAACTGGTAGCACGGTAGGTTTGTTTATACCAGCATCACCACAAACATAAGCA
K
GGTGTTGTATTACAATGCACAGCTGCAGCTAAGTGATAGGACTTTTTCAGCTCCATTATAATTTTATGGGACCATCACTATAAATGCTGTCCATCATTGA
Celera SNP ID:            hCV15789276
SNP Position Genomic:     72288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44720):
AATAGCATGGCACACCATAGAGGGCATAGGGCCACAGGAACAAGAGGAAGGTCACCTAATTCTGTCTTGGAAGTCAAGGAAGAAGTAACATTGAATTTTA
M
ATCTATAAGCTGAGTAGGAATTAGATAGATGAAAAATAAGGGCAGAGACATGATCAGATTTGTATTTTACAAAGACTAATCTTACATGGAGAGACCAATT
Celera SNP ID:            hCV3234377
SNP Position Genomic:     101785
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44721):
TTTCCCTTCACTGCAGTATGATAATTACTTTCAAGCACAAAGGTTTAGAATTAAGATTTCTTACTCCTGGGCTAGGTATGGCTTACCGTATTTGTTTCTC
Y
TTTCCTAGGGATCATAATCATGTATTGCTTGTTGTCCAGTTTTCCAGTAGGAGGGGAATTCCAGGCTGTACTTACTTCCTGCAGCCAAAAGAGGAAGTAA
Celera SNP ID:            hCV15961622
SNP Position Genomic:     125590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44722):
TCGAGTATTATGTACTGTACACAGTTGTATTTGCTGTACTTTTCTATAACTGGTAGCACGGTAGGTTTGTTTATACCAGCATCACCACAAACATAAGCAT
K
GTGTTGTATTACAATGCACAGCTGCAGCTAAGTGATAGGACTTTTTCAGCTCCATTATAATTTTATGGGACCATCACTATAAATGCTGTCCATCATTGAC
Celera SNP ID:            hCV15789277
SNP Position Genomic:     72289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44723):
ATGGAGATCTGGTTTTGTCAAGCCCCAGTAATGTAACACTGCCCCAAGTGAAAACAGAAAAAGAAGATTTCATCGAACTCTGCACCCCTGGGGTAATTAA
R
CAAGAGAAACTGGGCACAGTTTACTGTCAGGCAAGCTTTCCTGGAGCAAATATAATTGGTAATAAAATGTCTGCCATTTCTGTTCATGGTGTGAGTACCT
Celera SNP ID:            hCV25616963
SNP Position Genomic:     10487
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(G,34)   total(A,4|G,68)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44724):
GGACATTTATTATATGAAGTCTACTGTAGTGTAAACTCTGTAGACTTAGGCTACACTAAATTTATAGAAAAATTTTCTTCAATAATAAATTAACCTTAGC
S
TACTGTAACTTTTTTACTTTGTAAACTTTTAATTTTTTTAACATTTTGACTCCTTTTTAGTAACACTTAGCTTAAAACACACACATTGTACAGCTGTAAA
Celera SNP ID:            hCV26841930
SNP Position Genomic:     71724
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,8)      total(G,1|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44725):
GAGCAACTATATAAACCTTTGTGTTTTCTTCAGCAAAAACACTTTGGCTTTTATATCATCGTGAGCCCATGGCTTATCTTGTTTCTCTTAGTTCTGGGGA
Y
TATGAAGGGGAGAGTCAGGTGAATACAGGTGATAGGGAGTTTATAATAAAACATTTACATTACTCCCTGCTTTTCAAATCATTATGCACAGGATGGTAAT
Celera SNP ID:            hCV27499607
SNP Position Genomic:     110068
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,5|C,1498)   total(C,1498|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44726):
CCCACCCAAATCTTATCTTGAATTGTAATCCCCATATATTGAGGGAGGGACCTGGTGTGAGGTGTTTGGATCATGGAAGTGATTTCCTCCATGCTGTTCT
Y
GTGATAGTGTGGGAGATCGCAAAACATCTGATGGTTTAAATATGGCAGTTTCCCCTGTGCTTTCTCTCTCTCCTGCCACCATGTAAGACTTTCCTTGCTT
Celera SNP ID:            hCV26841931
SNP Position Genomic:     81162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44727):
TATTATCCCAGCAATTTGGGAGGCCAAGATGGGAGGATTGCTTGAGGCCTGGAGTTTGAGACCAGCCTGAGCAACATAACGAGACCCCGTCTCTACAGGA
A
AAAAAAAAAAAAAAAAAACGTTATCCAGGCATCGCACCTGTAGTCTCAGCTACTCAGGAAGCTAAAGCAGGAGATTCAGGCTGCAAAGAGCTATGACACA
Celera SNP ID:            hCV26841932
SNP Position Genomic:     98642
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,8)   total(A,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44728):
AATGATGTTTCCCTTGTAGAATAAGTTAGGGATGAGGCCCTCTTTCTAGATTGCTTTTTTAGAATAGTTTTAGTAGGATTAGTACCAGCTCTTCTTTGTA
Y
ATCTGGTAGAATTTGGCTGTGAATCCATCTGGTCAAGGGCTTTTTTTAATTGGTAGGTTTTTTATTATTGATTCAATTTCAGAACTCGTTATTGGTCTGT
Celera SNP ID:            hCV26841935
SNP Position Genomic:     106935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44729):
TTCATGGCAGCCCTTCCTATCACAGGCCTGGAGGTCTAGGAGGAAAAAATGGTTTCGTGGGCCAGGCCCAGGGTTGCGCTGCTCTCTGCAGCCTCAGGAC
R
TGGTGCCCTGCATCCCAGCTGCTCTAGCTCCAGCTGTGGCTAAAAGGGGCCAGGAGATAATCTTGGGCTGTTGCTTCAGAGGGGGTAAGCCTCAAACCTT
Celera SNP ID:            hCV10046345
SNP Position Genomic:     25273
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44730):
CACTAAAATAACTTCAGGAGTATGAATAAGTCTACTAAAAAGTCTACAGGATCCATGTTGTAGTTTGAGTAGATGGTTCCATACCAAGTCAAGGTAAAAG
W
TAATTTATATATAATATGAAAATGGCTGCTTTAGGTTTATAGAGTAATCAATATAAATCTTCCTTATAAAAGGGAAATTTCCCACTTATAATTTATGTAA
Celera SNP ID:            hCV26841936
SNP Position Genomic:     108902
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,3|-,8)   total(A,3|-,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44731):
GGAGGCGGAGGTTGCAGTGAGCCGAGATGGCACCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTTTGTCTCAATTAAAAAAAAAAAAAAAAAAAAAA
M
CACAAGAGGGTTTGTGAGTCTTAAAGTGTCAGATGACAGAAGAAAACTGTGTCTACCTAGTATTTAATTTCCATTTTCTGTTAGGGGTGCCCTTGTTTTG
Celera SNP ID:            hCV26841937
SNP Position Genomic:     111426
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44732):
TCCAGGGTTCAAGTGATTCTCTGCCTCAGCCTCCCGAATAGCTGGGATTACAGGCGCACTCCACCACACTTGGCTAATTTTTTGTATTTTTAGTAGAGAC
R
GGGTTTTGCCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCACTTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACC
Celera SNP ID:            hCV26841938
SNP Position Genomic:     113527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44733):
CACTTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTTGCCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCACTTTGGC
M
TCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCAGCCCTCCACCCTTTTTTCTTAGCCCACTATGTTTCCATACTGCTCTGGTGTCTGTGACA
Celera SNP ID:            hCV26841939
SNP Position Genomic:     113593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44734):
TTTTGTTTTTTGTTTTGTAGTTGATATTCACTGATGGACTCCAAAGAATCATTAACTCCTGGTAGAGAAGAAAACCCCAGCAGTGTGCTTGCTCAGGAGA
R
GGGAGATGTGATGGACTTCTATAAAACCCTAAGAGGAGGAGCTACTGTGAAGGTTTCTGCGTCTTCACCCTCACTGGCTGTCGCTTCTCAATCAGACTCC
Celera SNP ID:            hCV4041
SNP Position Genomic:     9676
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44735):
GCCTCCAAGAGAGCATGGTAAACTAATTAGCATGGTTCTATCATGATTCTGTTTCTATTTTGAACTATTAATAAAAATTTTTGCAATTCTCAGTTACCCC
A
TTTAGTATAGAACACAATAAGAATGGAACCATTCTATTCTAACATTGTACATTGAGATATCGTTCCCACCACCATATCTGTCCTCCATAGACTATATGGT
Celera SNP ID:            hCV3234237
SNP Position Genomic:     108503
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44736):
ACTAAAATAACTTCAGGAGTATGAATAAGTCTACTAAAAAGTCTACAGGATCCATGTTGTAGTTTGAGTAGATGGTTCCATACCAAGTCAAGGTAAAAGA
T
AATTTATATATAATATGAAAATGGCTGCTTTAGGTTTATAGAGTAATCAATATAAATCTTCCTTATAAAAGGGAAATTTCCCACTTATAATTTATGTAAT
Celera SNP ID:            hCV3234238
SNP Position Genomic:     108903
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44737):
TACACCTGGAATGCAGTAAGAAAAATACGGATTTCTGTACATCATCTTCCCTCCCTGCTCTTACCCCCATTTAAGAGTTACAGGGTCAGAACCCAAGAGT
S
TGAGTTTTTGAAAGTCCCTAAAAATTTTGGATGATCACCTACATTTAGAACCACTGCACTAAGAAGGACAACAAATATGCCAATAAATTCTGTTGCCAAG
Celera SNP ID:            hCV8950959
SNP Position Genomic:     33748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44738):
ATTGATCTCATTGCTCCTTGGCAATTCCCACAGAGATGATCTTCTGAAGAGTGTTGCCTCATACCTTTATTTCTCTTAATTCAGGTTTCAGGAACTTACA
Y
CTGGATGACCAAATGACCCTACTGCAGTACTCCTGGATGTTTCTTATGGCATTTGCTCTGGGGTGGAGATCATATAGACAATCAAGTGCAAACCTGCTGT
Celera SNP ID:            hCV3234239
SNP Position Genomic:     111636
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)   ;(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44739):
TGTCAGATTTATAACCAAATATTACTGAAACTAATTTTTTTAAGTTCAAAAACCCAATCTAGTAGTTTCTCTCTTATTTTCAACTTTTATTTTAGATTCT
R
GGGGTACATGTACAGGTTTGTTACTAAGATACATTGTGTGATGCCGGTGTTTGGAGTATGATTGAACCTTTCATCTAGGAAGTAAGCACAGTACCTAACA
Celera SNP ID:            hCV2115047
SNP Position Genomic:     104559
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44740):
GACACTTCAAAAGAAATGACCTCATTCTTAATTTTGTTTAAAGAAGAATATAACATGATTTGAATATATTTAGCTAGGATATTTTAGTGCCTGCTAGCAC
Y
TGAAGCCAGAGTTCACTGTGAGCATTCTGACTATGAAGTGAGAAGCTAAGAGAACTGTATTTTGATATTCCTTTGACAGTTAAATCATAACACTGTTCTT
Celera SNP ID:            hCV25616970
SNP Position Genomic:     96168
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,5|T,35)   total(C,6|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:44741):
ATGGCAGAAACAGAGAGGTATATGAGCTGCATAGGGATCTCTGTTGATAAGAATCTGTGTAGACTTTTTTCTCCTTCCTTCCTTTGATCTTTGATCATGG
R
AAGACATGGAAAAAGAAAGCTAACTACAGTGATTTTGTCCACTACACTGTTATTTGGTTAAAAATTTTAGTTTCCTAATGAGTATTAGCATGTATGAGAA
Celera SNP ID:            hCV25616971
SNP Position Genomic:     115267
SNP Source:               Applera
Population(Allele,Count): african american(G,18)   caucasian(A,1|G,31)   total(A,1|G,49)
SNP Type:                 INTRON


Context             (SEQ ID NO:44742):
GAATAATGCACCCTTCATATATTATGGTACTACAGTGATTCATGAAATAATTCTATATAATTCTACATACAATCAAAGAAATATAAAATGTGTTTTGTAC
R
GAAGTGCTTATTTTTCATCTGGGGAATTCCAGTGAGATTGGTATATTCTAGGCCAGATAATTTTTTCAAAATAGAGGACAACAAACATGAGATGTTCCCA
Celera SNP ID:            hCV25616972
SNP Position Genomic:     128180
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44743):
ACACCTATAATCCCAGCACTTTGGGAGGCTGTGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGCGAAACCCCGACTCTACTA
M
AACTATAAAAAGCCGGGTGTGGTGGTGCATGCCTGTTATCCTAGCTACTCGGGAGGCTGAGGCACAAGAATCATTTGAACCTGGGAGATGGAGGTTGCAG
Celera SNP ID:            hCV26841940
SNP Position Genomic:     119689
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)   SC_12_C(C,6|A,7)   total(C,6|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44744):
TTGAGTTAATGCTGGAAGGAGTTAAGACTTCCGGGGACTATTGAGAATGCAAGATTGTGTTTTGAAATGTAAGAACATGAGATTTAGGAGGGGCCGGGGG
Y
AGAATAATATGGCTTGGCTGTGTGTCCCCACCCAAATCTCAATCACTTGTAATCCCCACATGTCAGGGGAGGGGCCTAGTGGGAGGTGACTGAATCACAA
Celera SNP ID:            hCV10046355
SNP Position Genomic:     26134
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44745):
AGGTATATGAAAAATCTCTGTACCTTCCTCCCAATTTTGCTGTGAACTTAAAACTGCTCTAAAAAAAGTCTTTTTTAAAAAAAGCTCTATGAACTAGTTG
S
TATTATAAACCTTAGGCCATTTCAAGTAAAAATTACATATCAATGTTTATTAAATACTGAGTTAATAGCTGAATACCTCTTTCATATACAAATAAGTACA
Celera SNP ID:            hCV3234240
SNP Position Genomic:     116055
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44746):
GTATATGAAAAATCTCTGTACCTTCCTCCCAATTTTGCTGTGAACTTAAAACTGCTCTAAAAAAAGTCTTTTTTAAAAAAAGCTCTATGAACTAGTTGGT
A
TTATAAACCTTAGGCCATTTCAAGTAAAAATTACATATCAATGTTTATTAAATACTGAGTTAATAGCTGAATACCTCTTTCATATACAAATAAGTACATT
Celera SNP ID:            hCV3234241
SNP Position Genomic:     116057
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44747):
TGCATAGTATAACCCAAGACATGGCCAACTTTTTCTGTAAAGGGCCAGATGGTAAATGTTGTTAGCTTTGCACAGTCTCTGTCACAGCTACTAAACTCTG
Y
CCTTGTGGCAGGAACATAGTCATTGACGGTACTCAAATAGAACAGGCATGGCTGTGTTCCAATAAAACTTTATTTACAAATACAGGCTGCAAGTAGGATT
Celera SNP ID:            hCV3234243
SNP Position Genomic:     120085
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44748):
CTCGACCTCATAATGGCAATGTAGGCAAGAACATTCCCTCAAGGCAATACCTGTGGGTGTCTTGGTTATATTCCACCGGAAACAAAGACAGAGGCTGTCC
K
TATAAAATATGTTTGAAGACCTGTGAAACTTTAATAGTGCCTTTTATTCCATATAGGACAGCACAATTACCTATGTGCTGGAAGGAATGATTGCATCATC
Celera SNP ID:            hCV27506177
SNP Position Genomic:     100179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44749):
TAATGTGTAAAATTAACCCATTGTTAATATAGAATGCCGTTATCACTCCTGATTAAGCGGTCTTCATTTTCATGTTAATACTGATGTCTTGTAATGCTTT
M
TGGAATCAAACATTTTCATACATATTCATTAGTCTAATTCTAATCATAATCCAATGAAAAAGAGCAGGAAAGATGCTCAAGGAGGTTATATTCAAGTCCA
Celera SNP ID:            hCV3234244
SNP Position Genomic:     125993
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,11)      total(A,11|C,3) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44750):
TACATTGATCTGTCAAACTTCCAGAACCATGGTAGCCTTCAGTGAGATTTCCATCTTGGCTGGTCACTCCCTGACTGTAGCTGTAGGTGAATGTGTTTTT
K
TGTGTGTGTGTCTGGTTTTAGTGTCAGAAGGGAAATAAAAGTGTAAGGAGGACACTTTAAACCCTTTGGGTGGAGTTTCGTAATTTCCCAGACTATTTTC
Celera SNP ID:            hCV3234245
SNP Position Genomic:     131776
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,4|G,73)      total(G,73|T,4);SG_12_T(T,3|G,18)   SG_12_G(G,9|T,15)   total(T,18|G,27)   (T,-|G,-)   WIAF-CSNP-P(1(T,9|G,77)   total(G,77|T,9) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:44751):
TTCTTCTGTCTTGCTACTGCCATCTTTCTAGTGGTGCAGCTACTCAATTCTTTTTTTAATTATAATTTTTATTTTAAGTTCCAGGGTACATGTGCAGGAT
K
TGCAGGTTACATAGGTAAACATGTGGCCATGGTGGTTTGCTGTACCTATCAACTCATCAGGTATTAAGCCCGGCATGCGTTAGCTATTTTTCCTAATGCT
Celera SNP ID:            hCV8950968
SNP Position Genomic:     77923
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,8)      total(G,8|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:44752):
TGTTGTAGTTTATAGTTTCATTGGGCATTTTCAGTAGTTTTATCTGAAGTCACATTTCAAATTTTGTAATTGAAGCTCCAAAGTATGCTACCGGAAACAC
R
AGCTGATGCTGTGAGACAAAATCAACAGGTAATCCACCATCACAACTGTGGGCTAGAATGCTCAAGAAACCTTGGAGGCCCAGAGAGCTGAGATGAATAC
Celera SNP ID:            hCV15821788
SNP Position Genomic:     62284
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:44753):
GGCCATAGCCCCCCACCTCATCTGATGGTATCCTCTGGCAGCCACAGACCACACAGTTCTTTCTACCTAAATTAGTCATTAGCACATAGTAGGTACCCAG
W
AAATGTTTGTTGAATTAATACTGTTTATATATTTCTAATTTATCTCCAAGTAAATCCAGTCTCCTTAAGGACAAGGAACGTTTTCACTATAACACCTAGC
Celera SNP ID:            hCV87894
SNP Position Genomic:     26957
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44754):
TCTAGCACACACTGTGTGTAGACATCTTGTTAAATAGAAAATAGATTTATGGGTATGACTATGAAGAGTCTAATTCCCCAAACCACACACACAACTCTAT
M
TACGTTTGACCAGGCTATTTAAACTTAACTGCAGAGTGTCAGCATGTTAAACATTGATTTACATAAAATGATAGCTGCCCACTTTCTTGTAAATGTTATA
Celera SNP ID:            hCV27530168
SNP Position Genomic:     102412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 224
Celera Gene:                 hCG37668 - 206000045734829
Gene Symbol:                 VIP
Protein Name:                alpha-2 macroglobulin family protein VIP;KIAA1283
Celera Genomic Axis:         GA_x5YUV32W1A1(8115535..8261226)
Chromosome:                  Chr19
OMIM number:                 192320
OMIM Information:            VASOACTIVE INTESTINAL PEPTIDE;VIP


Genomic Sequence (SEQ ID NO:12384):
TTTTCTGCATTCATACCCAATGTTTCTTGCAGACAAAAATCTTACATAAGTGAACACAATATTTGATTTTATGCTCAAATCATTCCTAATGCATCCATCA
TGTCGGAACACATTTGTGCTTTCAAAACAAGTGATAAAGTGGAAGTGACTGTACTCCGCCCATGGGTAATTTCAACCTACTGGCGTGAAGTGACTAAACA
TAGAGTTAGGAAGAGATCTGTGTTATTATGGAGTATTTTCACCATGCATAACCTCAAGAGTACAGAGAATTGTAAAATGTAGTAAAATGAAGACGAAGTG
ATGAGTTTTGAGTACTTTCAGCGCCTTTGCTATTTATTTATTTATTTATTTTATTTGAGACAGTCTCACTCTGTCGTTCGGACTGGAGTGCAGTGGCATG
ATCTCAGTTCACTGCAACTTCTGCCTCCTGGGTTCAAGTGATTCCCTTGCCTCAACTTCCCAAGTAGTTGAGATTACAGGCATGCACCACCACCCCTGGC
TAATTTCTTGTATTTTTAGGAGAGATGGGGTTTCACTATCTTGGTCAGACTGGTCTCGAACTCCTGGTCTCAAGTGATCTGCCCTCTTTGGCCTCCCCAA
GTGCTGGGATTACAGGCTTGAGCCACCTCGCCCAGCCATATTTTTAATACACGTTGAGCATCTCTAATCTGAAAATCCAAATTCCACAAATGCTCCAAAA
TTTAAAAATTTTCAGCGCCAACATGACGCTCAAAGGAAACACTCACCAAAACATTTCAGATTTCAGATTTTCAGATTAAAGATACTCTGGGCATGATGGC
TCATGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCAGGTGGATCACTTCAGCTCAGAAGTTTGACACCAGCTGGGCAACACGGTGAAACCCTGTCTCT
ATAAAAATACAAAAATTAGCTTGATGTGGTGGCATGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTTGAACCCAGGAGGTGAAG
GTTGCAGTGAGTCAAGATCGCACCATTGCACTCCAGCCCAGGCAACAGAGCCAGACTACACACACACACACACACACACACACACACACACACACACACA
CACACACGATACTCTACCAGTAAGTATAATGCAAATATCCCCAAATCTGAAAAATTAAAAATCTGGAACATTTCTTGCACTGACCGTTTTGGAAAGTGCA
TTTTAGATTAGGCATTTTTTTCTTTTTGAGACAGGGTCTGGCTCTGTTGCCCAAGCTGGAGTGCAGTGGCCCATTCTTGGCTCACTGCAACCTTCACCTT
CCGGGTTCAAGTGATTCTCATGCCTCAGCCTCCCAAGCAGCTGGGATTACAGGTGCCTGCCATGACACCCAGCTAATTTTTGTATTTTGTAGAGATGGGG
TTTCACCATGTTAGTCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATTCACCCACCTTGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCA
CCCGGCCGATAATGCATTTTGGCTACTCAACCTGTATAATGTGTTTCATTGCAAATCGGTATAATTTAGTTTTTAGTCATGGCTTTGTTAACTCAGGCTT
GTATAATTCATGGAATAGTATCAACTGACTCTTCTAAGCAGCGAGCCTTCTCCCGTGTGCTGATGAGGCAGTAATCTGTGTGAGGTGTGCCCACTTTGAG
CCAGGGGCTGCGGCCAGCAGCAAACGGGGGGCTCACATCCCAAAGAAGACAGACAGGAAGCAGATGTGTATGGAATAATAAGACCATGCTCTGTGTTTTG
TGTACCATGCAGTCAAACTGGATGACCGGGCCATGCTAGTGTCCTCATTGGCTCCTATTCACCCATGATCTAAATCAAGGGTCCCCAACCCCTGGGCCAC
AGACTGACACTGGTCTGATATTGGATGAGTAAGCAAAGCTTCATCTGTATTTACAGCCTCTCCCCATCGCTCACATTATCGCCCGAGCTCCACCTCCTGT
CAGATCAGCGGCAGCATTAGATTCTCAGAGAAGCCCAAACCCTATTACAAACTGTGCATGCGAGGGATCTATGTTGCATGCTCCTTATGAGAATCTAATG
CCTGATAATCTGCCACTGTCTCCCATCACCCCCAGGTAGGATCTCTGGCTGCAGGAAAACAACAGCTCAGGGCTTCCACTGATTCTACGCGATGGTGAGT
TGTATCATTATTTCATTATATTACAATGTAACAATAATAGAAATAAAGTGCACAATAAATGTCACGCACTTGATCATCCCAAAACCATCACTGTCCCTCC
CATCACCTTGCCCCTTGTCCATGGAAAAAATGTCTTCCATGAAACCTGTCCCTTGTGCCAAAAAGGTTGGGGACTGCTGCTCTAAATAGTATGAGATGGG
CCCGGCACAGTGGCTCATGCCTGTAATCCCAGGACTTTGGGAGGCTAAGGCAGGTGGATCACATGAGGTCAGGAGTTCGAGAACAGCCTGGGCAACATGG
TGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGCGCCTATAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTG
AACCCGGGAGGCATAGGTTGCAGTGAGCTGAGATCACGCCATTGCACTCCAGCCTGTGTGACAGAGTGAGACTCCGTTAAAAAAAAAAAAAATAGGCCGG
GCGCGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCCAGGAGGGCGGATCACGAGGTCAGGAGATCAAGACTATCCTGGCTAACATGGTGAAGC
CCCGTCTCTACTAAAAATACAAAAAATTATCCGGGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAAAAGTGTTAACTC
GGGATGCGGAGCTTGCAGCGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAGAGTATGAG
ATGGCCAAACATACAACATGTGACATTGGGTGGGTGAGATCTACAGTTTAGTGCTCACCTATTCTCACACAATGACGGGAGGAGGACCCTGTACACTGTG
TGAGGCCACACAGGGGTTGCACTCGGGAGCACAATGAACAAGCAGGGGCTGTGGGAAGCAGGCTTTGTAGTAATAAGAGGGTGAGGCAGCCCCTGGTTCT
CCTGGGAGGATGTGATTGGTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAAT
CTCGGCTCACTGCAAACTCCACCTCCTGGGTTCAAGTGATTCACCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTGCACCACCACACCTGGCTA
ATTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTA
CTGGGATTACAGGCATGAGCCACCACGACTGGGCATGGCTTGTTTCAATAACTTCTCAGCAGCTAGGGAAGTGAAGTCTGTGGCTGATGGGTGGGGTGCA
GCTGGTCTGGTTGCTTGGTGAGACAGCCAGGTGGAGAGCAGCTTCTCTTGCCAGGCAGGGGGCATATTTGGCAAGAGTAGCTGAACGGTCGGTCAGGACA
TCGTGGTCCTGTGTGGCTCAACCATGCCAAGGCAGCACTGACATTTTAGACCTTACAAACCAGGCAGGCACGGAAGGCACCTCCGGGCTAACCCTGAAGG
TGGAGGAGAGCAGCCGGTCTTGTGATGCCACGGGGAAGTGCATCCCAGGCAGAGGGGACAGCTGGCACCTTGGCCCAAGATGGTGGTGGTGGGTGGGGGT
CTGATGTATCTCAGGAGCAAATGTGGCCAGAGCCCAATGGTCAAGGGGGAGGCGGAGGGCTCAAAGGCTGGCCTGGAGGCTGAGGAGTGGAGGTTGGCTT
AGGTAGGAGTCAGAGTTGGCCTGGAGGGGCCCGGAGGGGTGGCATGGGGCAAACTTCGATGATGAGGGTGAGATCAGATGCTGCTTCTTGGTGCTAGATT
TTTGCACCTCCATGTGAGTTTAGCAGCCTGTTTGGGGTTGGCCTGGTCTGAGCTTGGAGGCAGGCAGCTCCTCCTCTTCTCCAGGCAGGAGAGACGGCTA
CTCAATCTACTCCGGCCCCTGCGCGCGTGCACGCACACACACACACCAACACACCATCATCAGTTACGTCCCCTCTGGGTTGTGTGCTCAGTGGCAGCAG
GTCCTGTATGTCCCAGGGTCCTCATTGCCCAGCCCAGGGCTTGGTGCTGCCTGGGTGATCAGTGTTGGGTCCAAAGGCTGTTGACAGGGCTGAGAAGCCC
CCAGAGGACCCACATCCCTAGGGGCAGGGAGGGGGCAAGAGAAGCTTCCCTTGAGTTTCCTGGAAGGATCAGGAGTTGGACTGGCGAAGGAGGCAGGTAG
AGGAAGACAGAGATTAGGCAGAAGCAGGCAGTGGAGTAAGAACAGGGTGTTGGAGGAACTAGGCTGAGGTCTCTGCCATCAAAGCCAGAGTTTAGATTTG
GTCTCAATAAACGGGAAGCCCTGGCTGGATGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGAGGGAGGATCATTTGAGCCCAGTGCT
CAAGACCAGCCTGGGCAACACAGTGCGACTCCGTTTCTAAAAAAAAATATATAAAAATTAGCTGGGTGCGGGCTTGCACCTGTAGTCCCAGCTACTCTCC
AGGAGTCTGAAGCTGCAGTGAGCTGTGACTGCACCACTAAATTCCTGCCTGGGCAACAGAGCAAAACTCTGGTCTCAAAACATAAAAATAAAATGTAAAA
TAAACAGGGAGCCCCGAGGATTCCGGGCAGGAGGGGGTGTGGTCAGCACTGGAATTTTAGAAGAAGGGCAGTTGGTAGCTGGGGGAAGGGGGTTCCACAC
TGGAAGGAGGGGGTCCAGGACTTGGACATGGTATAGGATGTGCCGCCTGCCAGTGGGACCTAGGACAGCAGGACCATCACTGAGGTGGCCACACGGGGAG
GGGCAGGAGGGGACACCCTGCTCTTGGAGAGAAAGGGGGTGCCCATCCACCCCTGCTGTATGAAGGGGAAAGGGGGACTCTGAGGCCCAGCGAGAGAGGG
GACGGGCCCAAGGGATTTGTGGACAGTGGGGGTGGGGGAGAGGGGAGCAGAGAGCACAGATAGGGACCTGGGGCAGATGTGAGTCTGGGAGGTTCGACCC
CTGGCTAGACTGTTTCCCCAAAGGGTCCTCTGCTCCTTGGGCTGTACGCACTGCACTGGGCACTAGATACAGGCCAGGGCTTAGGGCACGGCGGCGCCTG
TGGGATCGGGGTTGCAGGCGGCGTCCAGACCCAGGGGCCCCTGGTGAGGGGCGGGCCCGGGGAGGGGGCCATAAGGGGCTGGCTGGGGAGGGAGGGAGGG
AGAGGCCAGGGAAGGGACAGGTTCCGAGTGGACGCTGGGTGGAGAGGAGAGGGAGAGTGGGGGCGGTGGGGGGTCGGGTCCGAGGCGGGGCTGGTGGGGA
GGGGGGCATCCGGGGGCGAATCCGGGTAGGGGGTGAGGAGGCGGGTTCGGAAGGAATCGGGCAGGGCCCGGGTGGGTCCGGTGAGTAAGTGAGGGGACGA
TCCCCGGAAGGGATCGGGGCGGGTCGGGGTCCGGAGATGGGCGGAGCAGGCGTCCCGGGAGGGTGCGCCCAGGAGCGGGGCGAGCGGGGCGAGCGGGGCG
GTCCCGGAGACGAGGCGGGTCCGGGGAGGGGGCTGGCCCGGGGCTGCCCCAGCTTGGCCGGGCGCGGAGCGGGGCGCATGGCGCCGGGCGCACTGCGCGG
GGGCTGCGAACAAAGGGCCCCCGGCGGCGGCGCGAGGACGGCCGCGCTCGGACCCTGGCCCTGGCCCAGCCCTGGCCCGGCCCCCTCCCCAGGCGCGGCG
CCCCCCAGGAGCCGAAAAATGAGCGGCGCCCTGCTCTGGCCGTTGCTCCCGCTCCTGCTCCTGCTGCTGTCGGCGCGGGACGGCGTGCGCGCCGCGCAGC
CTCAGGCCCCGTGAGTATCCTCCGGCGACAGAGGAGGTCGGTCGCCTTCTGGGGTGGGGGTCGCGGGTACTGGCTCAGAGKGTTGCAGCGACCTGCCCAA
GGCCACACAGCCTCCGCGCTGGGCTGGACCTGGCCTCTTGTTCCCGAATCGTCTTGAGGAGGGGGCGCCCTAAAGTTTCCGAAGTGGCTCTGTGGAGGTA
CAGGGACTCCCAAAAGCTAAAGGTGCTGAGGTCAGCTCCCCCCGCCCCACCTCGCCCCCTTCGTGTGACCCGGGCTGTCATCATGGGTGGCGATTTCCAG
TTGTCCAAGGTATGAAGGTAAGAGGAGCGTCTTGGCTGAGAAGTGGGAGGAGAGTGCGAAGGGGCACTTTCCCGTGGGTGGGCGTGGTGAGGGAGGAGGA
AGTGTTTGTTTTGCTTCTACATTTTTCTAGAGGTTTGCTTGCAGGCTTCTGGTGGGTTGACAGCGGGGAGAAGGTGAATTAACTAACTGCTGGGGAGTAC
TGCTAAGTTGGCTTCACAGAGAATATTTCTAAACCTGGCAAGTTCGGGTGAGCTCTGCAGGGCTGCGGGTTCAGGGGGGCTGCCCTGGTCTGCACAAGAC
CAGCCTTTTAGTCCAGCTGGGCGTTTAGAAGGCGGCTTGTTCAAGCAGCCCTTGTTTAGGAGTTTCCAGAAAACTGGTAAGCAGTGAGACTAGGTGGGTG
TCGTTATTTGCAGTGAGTAGTTGGTCCTTGCTGGTCACAGTTTTAAAAGCAAGACAGTCTACTGCGCTCTGAGCATCCAGACTTCCCTCTCCTAGGCTTC
GTGAAATCGGAACCCTACAAATTTTCATCCTAATGCTTCTTTCAAAGCTGGCATCCCTTAGAATAGTGGTTCTCAGCCCTGGGGGGGATTTTTGTCTCCC
TGAGGCCGCTGGGAAATGTCTGGAGGTATTTTTGGTTGTCACAAATAGGGAGAGGCATTTGGTGTTGGCATTAAGTGGGTGCAGGCCAGGAATGCTGGTA
AACAGCTTTCGATGTGCAGGTCAGCTTCCACTGCAAGGAATGACGCGGCCCCACATGACAGACCTTGGCTCCAATGAGAGACCCTGCCTTATACAGAGGT
TTTTGTTTGTTGTTTGTTGTTTTTGGGGTTTGTTTTTGTTTTTGTTTTGAGATGGAGTTTTACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTT
GGCTTACTGCAACCTCCGCCTCCCAGGTTCAAATGACTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGTGCCACCACACCCGGCTAATT
TTTTGTATTTTTAATAGAGATGGGGTTTCTCCATGTTAGCCAGGCTGTTCTGGAACTCCTGACCTCAGGTGATCCACCCACCTCCGCCTCCCAAAGTGCT
GGGATTAGAGGCGTGAGTCACCGTGCCTGGCCCGTTAGAGAGTTTTAAACAGTTCTCCAGGGCGTTTTCCTCTGACTAAAGTCACCCTGTGATCTTACCA
TCTGTTAAGTGACATGGAATCCCTGTGCTGAGAGACACACTGGGGAAGAGATGTCCCCAAATGACCGACCTGGGATTCCAGATTAGCTGGCCTCTAAGCC
AGGGGCATGGTTCACCCAGCCCAAAGGATCTCGTCTTAGGAATAGCTCTGGATGCCCACTTCTGTCACCTGAGAGATTTTTGTGTGAGGAATCTCTGATC
CCAGAAAGCAGCACAGTTTGCAGTTGTAAGAGCAATTCTGTCTACACTGACCCAGACATCCCTTTCCCCAATCTGGGACCTTCTGAGACCAGCAGGATGA
GAAGCAGTGTTGGCCCAGATGCTAGGGGTGGGTCAGGTGTGACAGTGAATGGCTGGCAAGCATCCCAACAGCTGGAAACAGCTGCAACTTCTGAATGGCA
GGGAAACTTAATTTGGTGATGTCAGTTTCTCTGGGCAGTTGGATGAAGACTTGAACCCGTATTGTCAGGAGTTTCAAAGGTGACCAAGCAAAATGAACAC
GTATTCCTTACTCTCTCTTCTACACTCACCATGTACTATATGTGAGGCCCGTCTAAACTCTAGGGATCAGCTGGGAGCCAGACAGAAAGAGTATTCCCCT
TTTAAAGGATGCCACATTCCAGTGCTGGAGCTGGACAGGACACCTGGACAGGGTAATTGCATGTCCTGGTCAGTGCTGGAGTTATGTAATACACAGCACA
TACCCAGGGTCTTGCAAACTCCAGTTGGTCCTAGAGTTGGACAGCACATGTGTGATCCCAGGGGACTGAACTCTGGTAATTATTCAAGGCAGATGTAGCA
CACTATGATCACAGGGTCAGTGCACACTGTGGCCAGGGCTGCAGTAAACAACCCAAACCCATTGTTCGTGTGCATGAAACAACACAAACCCACTGCGTCT
TTTGAGATGCAAAATTGGTAATGATGTTTTCATGAAGTTTGGTTTATCAGTGAGTTATTTTATGGATCTTATTTTTGGTATCTTACTCAAGAAATCTTTG
CCTAATCTAAGCATGCAATGACTTTCTCCTTTGTTTTCTTCTAGTGTTTCTACAAGTTTTACTTCTTCAATTTAGATCTGTTACTAAGATTAACTTTGAG
TTAATCTAATTGCATGGTGTGAGGTAATGTTCTCAATTCATCTTTTTGCATGTGGATGTTGGGTTGTTCTAGAGACACTATTGAGGCCAGGTGCAGTGGG
CCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGCGCAGATCACTTGAGGTCAGGAGGTCAAGACCAGCCTGGCCAACATGGTGGAACCCAGTCTCTACCA
AAAATACAAAAATTAGCTGGGTGTGGTGGTGCACGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGAAGAATCCCTTGAACCTGGGAGGTGGAGGGT
ACAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCAGTCTCAATTAAAAATAAATAAATAAATAAATAAAAATAAAAAAA
GAAAATATTGAAATGAAAATGTCTCCTAATCTCATTGCATGGTCCAGTTTCCCCCTTTACCCTCTTTTCTTCTGATTTCCATCATTCTACATGGTTGCAA
TTGTGGTGCCTTTGCTATAATGCTCTTGGTGATTGTGGGGACACTGTAAGCATTTCATGAGGTTACAGGGCCTTTGTAATTTTCCATGGAAGGCTGCAGA
TACTGGGAGACMGGAGCTCAGGTGGGGAGGACCTGGGCCCTCAGGTCAGGTCCCCTAAGGGCACCTCAGTGCCCTCTTCTGCCTGGCTGTGTGATCTGGT
GCATGTTCCTATTCTTCTGAAGCATCAACTTCCCATGGGGAAACTGGGGGTAATGCCTCCCTTCCAGAGGTGACTTCATAGTCAATCAGAAGATTTTAGG
AAAGAGAGGCCTGCTTTGATTCCATTGTTTTCAGAGCTCTTTTTGTTTGAGGCCCTATGGTTTGTTTTCAGGGTTTGTTCTTAAAATGAATGTTGCAAAG
AAGCCCTTTGCTTCTTTTTATCAGGTTTTGGAGTCTGACCGCCTGAGTTAGAATCCTGGTCTGTCACTGTTGCGGCTGGTGACTTGACTTCTCTGGGGTT
TCCTTTCTGACTTTCTAAATGGGGCTGATGTCAGCACTTCTCACRGTGGTGGGGGASGGGGTGCACCGTGAGGATGAAGTGGGATCCTGCCGGTTACCTG
GCTTGTGGAGGAGAGTATTTCAGACAGTGGGCATGACATGTGCAAAGGTCCTGGGCCAGAAGGGCCAGGCGTGGTGGATCACACCTCTAATCCCAGAACT
TTGGGAGGCTGAGGAGGGTGGATCATTTGAGGTCAGGAGTTTGAGATCATCCTGGCCAACATGGCAAAACCCTGCCTCTACTAAAAAGACAAAAATTAGC
CGGCCGTGGTGGCAGGCACCTATAATCCCAGCTACTTGGGAGGCTAAGGCACGAGAATCCCTTGAACCCGGGAGGTGGAGGTTGTAGTGAGCCGAGATCA
TGCCACTGCACTCCAGCCTGGGGGACAGAGCAACACTCTGTCTCCAGGAAAAGAAAAAAAAAAAAAGGTCCTGGGGCAGAAGGAAGTAGCTGAGTCAACA
GGCTGGAGGCCGGAATAGAGAGAGTAAGAGGGGTTGTGCAATGCTGAAAAATCCAGTGAGGCCAGATTCTTACCCAGCATGGGGACTTCACAGGTGAAAG
AGCCAATCCATGGACTCAAGAACTGATGGGGGGGCACAGACTCCTAGAGCATCAATGCCAGCCAGGTGTGGTCAGCAAAAGGCAGGAGTCTGCTGCGAGG
AGAGCCCTGACCTAGCTGTGGTGGCAGCGAGACCAGGGGTCTKGGGTGAGAACTTCACCTCGGATCTCCTTTCCTGCAGGGGTTACTTGATTGCAGCTCC
CTCTGTTTTTCGCGCGGGCGTGGAGGAAGTCATCAGCGTGACCATCTTTAACTCTCCAAGGGAAGTCACGGTCCAGGCTCAGCTGGTGGCCCAGGGTGAG
CCGGTGGTGCAGAGCCAGGGAGCCATCCTGGGTAGGTCCCTTGGGTGCCAGACCAGGACTTCCCCTTCTTTTGCAAAGTGGAGCCACTTGCTGGCCTTCA
GGGCTGGGGCAGTGTGGGTGTTGCTTTGCTTCCCTTCTGCCCTAAATCCCCAGGGGCATGGGAGGGAGGGAGGGAAGACAGGTTGCATTCTCCTCATTCT
ACAGATGGAGAGAGAGTAAAGCCCAGGATGGGCAGCTCAGCTCATGGGTCCTCAGCAGCCCTGGTTCTGTGGGTGCAGATCTGGGCAGAGCACGGGCACC
CACCTGTGTCAGCTTTGACCAGAGGTGGGACAGGGGACCTGAAGGAGATCACATGACCCCCCTCTGACCTTTTGTTGGGTTTCCAGCACACCTGAACCAT
TAGACTCAGACCTGGGCTCACAGGCCTGTTACTAAGTGCAGCTCAGGCCCTCAGCCAGTCTCTCCCCTTCACTCCTTGGTCAAATGCAGACAGCAACAGC
CTCAGCCTCCTGGTCAAGATAGTGAATGCAGATCCCTGGCTCAGAAAGCTGTAATCTCCCAGGGGAGGTAGACTCATTCCTCATGCCGAGAATGATGTAG
CCACAGGAGACACAGAGAAGGCCAGGGGCTCCAAGGCCAGTGAAGCAGCACTTGTCTCTTAGGGAGGTGTGGCCAGAGAAGGTGGAAATGTGGAAGCTTC
TAGAACCTTCTAGAAGCCCTTCTAGTCCTAGAAGAACCAGGCACTCCTGACTTGGGTGGCTAGCCAACTGAAACCCAACCCAGTTGGCTTCTGCAACAGT
TTGTGGTCTCTCATACCTAGAAAGAAAGTCCACTGGTATTGCTGGCCAGCTTCTCCCCCTACCTCTTGATGCAACCAGGTCTCTCCTTAAGATCAGGGGA
AGCACCAGTYTCCCAAGATGGCTGGATAAAGTCCCAGGATTCCCTCTGATTGGCCTATCTTGGTTCATGTGCTCAACCCTGAGCCAATCACTATGACCAG
AGGGGAAGGCCTATGCTGATTGGTTCATTTTGGGTCATGTGCTCAGCCCTGAACCAATCACTGTGACCAGGGGGAAGGCCTATGCAGATTGGCTCAGAGT
CCCAGGAAGGYGGATGGAGAGCTTGGGAGCCACGTGCGTTGTGTGCTGGGCAGATAGCTTGTCCAAGGAAATTGAGGATCTGTTAGCAGGAAATGGGATA
ATGGTTGCTGGGAGGCAAAAATAATAGATACCTAATTGAGTCCTGGAGGCCAGAAACCTAGTACAGTAGCACAAATGATTTAGTGTGGGTAGCAGAGAGA
GGTGATGGGAGAACAGTCAGGTCCACTGGGGACCTCAGTCCCCTCTTCTTTCTCTCCACCCTTCTCCTTGTTCCTCTCCCCTGGTGTTTTCCCATTACTC
CCCTCACAGCTTAGTTTGGACAGGAGCCAGGGGTGAAGTAAATCAAGTACTTAGGCAGGCCAGCTTTGCCCTGAATAGCTCAGCTTTGTCCATTCCCTCT
GGCCTTCAGCTTGTGCCAGCTTGGAGGAAACCTCTGGCTTCTGCCAGTCCTAGCCTGGCCCAGTCCAGGCCAGCATGACCCAGGGTGTGTTTGTCCACAT
GAAACCCCTTTGGGTTAAGAAAGTTTGTGGTTTGTGAGGCTGCAGCTCAGGGAGGCAGGGCAACACAGCTCTTGATTTAACTTTTTTCATTTTATTTTCA
TTTTTAGATAAAGGGACAATCAAACTCAAGGTAAGCCGTTGATTTTTAAAATCATAAACCTGACCTTGGAAATAAAGAATTGAATTGGGCCAGGCGTGGT
GGCTCACACATGTAATCCCAGCACTTTGGAAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGATCAGCCTGGGCAACATGGTGAAACSGCAT
CTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGC
RGAGRATGCTGTGAGCCGAGATTGCACCATTGCACTCCAGCCTGGGCAACAAGAGTAAATCTCCGTCTCACCAAAAAAAAAAAAAAAAAGAAAAGAAAAA
AAAAAAAGAATTGAATTGGGATGGAATAAGAGAAATTGCATGTGTTGTGAGAAAAATCATTTTTAAAAAAGAGATGTAAAAAATGAATAATGAGGCTGGG
TGCCATGCTCACATCTGTAATCCCAGCACTTTGCGAGGCTGAGGTGGGTTGATCTCTGGAGCCCAGGAATTCAAGGCCAGCCTGGAAAACATGGTAAAAT
CCTGTCTCTACAAAAAAAAAAATACAAAAATTATCCATTAGCTAGGCATGGTGGTTCACGCCTGTTCTCACAACCACTTGGGAGGCTGAGGTAGGAGGAT
CGCTTGAGACTGGGAGGTTGAGGCTGCAGTGAACTATGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGTGAGGCCCTATTTAAAAAAAAATGAGAG
AATAATGAAATTTAGAAAAGGAGAAATCCACCGATAATCCAGTTTTCATACTTTTCACTTTTTCATGTTTTCCACACATTCTTGTTCATGCACATACATT
TTCTTTTCATAGTTTCAGTTAAAGGACACACACCACTGGCCGGGCGCAGTGGCTCATGCCTGTAATCCTAGCACTCTGGGAGGCCGAGGAGGGTGGATCA
CCTGAGGTCAGGAATTTGAGACCAGCCTGGTCAACATGGCAAAACCCCATCTCTACTAAAAATACAAAAGTTAACTGGGCATGGTGGCGCACACCTGTAA
TCCCAGCTACTCGGGGGCTGAGGCAGGAGAATTGCCTCAACCCATGGGACGGAGGTTGCAGTGAGCCAAGATCTCACCACTTCACTCCAGCCTGGGCAAC
AGAGTGAAACTCCGTCTCAAAAAACAAAACAAAACAAAACATAACAAAAGAAAACAAAACACCGTGGTGTTTCCTAGTCCCTCTTATCACACTGTTGTAA
ACAACTTCCATGTTTCCAAGTCTCTGTAATTGGAATTTCCATTTCATTGTAAGCAGCATCCTATTGCACCCCTCTTAAATATCAGTTTGCTAAGCCCCCA
GCTAGATTTTTTCTAGATTGTTTCAGTGGTTTTTTTTTTCTTTTTTTTTTTTGAGATGAAGTCTCACTCTGTCTCCCAGGCTGGAGTGCAATGGTACAAT
CTCAGCTCACTGCAACCTCTGACCCTGGTTTCAAGCGATTCTCGTGCCCCAGCCTCCCAAGTAGCTGGGACCTCAGGCATGCACCATCAAGACTGGCTAA
TTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGACTGGTCTGAAACTCCTGACC
TCAAGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACCCTGCCTGGGCTGTTTTCAGTGTTTTGATACTGTAATCCTTAA
GTCGCCAGAATGTTTGTATGTAAAGCCATATTAGCATTCTGGATGCCTTCTTTAGGCTAAACAGCCAAATTGAAGAATTACCAGCAGGACCCAAGCCTCT
CACTGGGTCTTGCTGTGTCCTGGAATACRCAGCAGTACCTGTTCATGGAACCACCTGCAGTACATTAGGGATCAGATTTCTCCACTGCCTCTCAGACATT
GAATATTGTTATTTTTAAATTATTATATGTACCAAACTATGTAAATAATTTTATGACATGGGTTTTCAAACTGGAGTCCTTGGATTTCAGATATTATGTA
AGCCCTGGAATTGCGGCATTTGGGGGGTTAGCTATTCCTTAACTTTTACCACATGCTCAAAGGAGTCTACGAATGAATGGGSTAAATTGAGAATTATTTT
AAATTATAAGGCGCCCATCTCCATTGATCAGAATGGAGGCTGAGATAGTTCCTTTTGTATGAGGTATACCACTAGTGCCTATTTGCTGCAGGACAGTGGT
CTTCCTGCCTTACTTTTTTTTTTTTTTTTTAAGCAGTCTTGCTTTTTCTCCCAGGCTGGAGTGCAGTGATGCAATCTTGGCTCACTGCAACCTCCGCTTC
CTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGRTGTGCACCACCGTGCCCAGCTAATTTTTTTGTATTTTTAATAGAGAT
GGGGTTTCATCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGTTGATCTGCCCACCTCAGCCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCA
CAGCACCTGGCCCCTCCATTACATTTGATGATAGAACCCTTTCTCTAAGGCAGCAGTTCTCACTCAAGGGGGCTTTTGCCCTACAGGGCACATTTCGTAA
AGTTTGGAGACATTTTTGGTTGTCACAGCTGGGTTGGGGCTGGGCGGTGCCAGGTGCTACTGGCATCTGGTGGGTGGAGGCCACAGCTGCAACTCAACAT
CTTACAATGCGCAGGATCCCTTACAGCAAAGAAGGATGTGGCCCCAGAAGTCCACATTCAGGAAACCCTGAACCAAAACCCTAGAGCAGCAGTCCCCAAC
CTTTTTGGCACCAGGGACCAGTTTCATGGAAGACAGTTTTTTCCACGGACCAGGGAGCAGAAGAAATGGTTTCAGGATGATTCAAGGGCATTCCATTTAT
TGYGTGCTTTATTTCTATTATTATTACACTGTAATATATAACGAAATAATGATATAACTCACCATAACTGAAGAAACAGTGCAAGCCCTGAGCTTGTTTT
CCTTCAACTAGATGGTCCCACCTGGGGGTSATGTGAGACAGTAACAGATCATCAGGCATTAGATTGTCATAAAGAGCATGCAATCTAGACCCCTCCCATG
CACAGTTCACAATAGGGTTCWCACTCCTATGAGAATCTAATGCCACCACTGATCTGATGGGAGGCGGAGCTTAGGCAGTAATGTGAGTGATGGGGAGCGG
CTGTAAATACAGATGAAGGTTCATTTGCTCACCCACTGCTCACCTCCTGCTGTGTAGCCCCATTCCTAACAGGCCATTGACTGGTACCAGTCTGTGGCCC
AGGGGTTGAGGGTCCCTGCCCTAGGGCTTCAATGCCTACAGAAGCATAAGGAAAAAAGAAAAAAAAAAAAAGACCCTAGAACTCCCTTTCCTGGCTTCCT
GTGATTGGATTTCTTTTCCTCCCTCCTCCCTTCCTTCCTCTCTCTCTCTCCTGCCTTTCCTTTGTGTGATTAGATTTTTCTCTCTCTTTCTCTCTTTTTG
GAGACAGAGTCTTGCTCTGTCGCCCAGGGTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTTTCCTGCCTCA
GCCTCCTGAGTAGCTGGGACTGCAGACGCCCCCACCATGCCCAGCTAATTTTTGTATTTTCAATAGAGGTGGGGTTTCACCATGTTGGCTACTGTGGTCT
CAAACTCCTGACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGCATTACAGGTGTGAGCCACTGCACCCAGCCTAGATCTGCTTTCTTATGA
GTCAGGAAGCCATTTCCCTGGAGCAGGTGTTAAGATGATGTGCAGTCCCTGGCCACCACACGTTAGAAGACACTCTTCACAGCACAGATGCTGGGAATTT
GTAAGAGAGACTAACAAAGGGTTGTATAATTCTGGGAGAGGGGCCAAGGGCTCTTAAGACTAGACTTGAGATTCCCAAGAAAGATGCTTAAGATCCTTAG
CATTTGGCCAGGCACAGTGACTGGTGCCTGTAATCCTAGCTACTTGGGAGGCTGAAACTGGAGGATCGCTTGAGGCCAGGAGTTGGAGACCAGCCTGGGC
AACATAGTTGAGAGCCTGTCCCCTGTCTCTACAAACTGAAAATAAAAAATTAGCCGGGCATGGTGGCCTGCACCTGTAGTCCCAGCCACTCAGTAGGCCA
AGGTAGGAGGATTGCTTGAGTCCAGGAGATCGAGGTTGCAGTGAGACGTGATCGCACCACAGCACTCTAGTCTGGGCAACAGAGCAAGASCCTGTCTTTA
AACACGGAAAGAAGGCTGGAGGTCCTTCTTGCCTTCTCTCCCTGTGGGAGGCATCCTCTTCCCTGGGAAGGTGTGAAGCTCTAGGGGCTGCCGTTTGGGG
TCGGCCCCCTTTATGTGCTCAGCATAGTCTCTTGCCCGCCAGCCTCCCTGTCCCTCCAGCATACGGTCCTCAGCACCTCCRGTATCTCCCTCCTGCCCAT
CCTTGCCCTGCTCTTGGGTGGCCGGGACCTTTCCTCCCTCTTCAGCCTCTGGCCAGTGTTGAGATATTTCCAGAAACAGGGCCAGGTGAGGATTTTGGGA
TTGGAGTAGTGGGTGAGGTTTATTGCTTTGGTTGGTCTTGACGGGGAAACTGCAGTCAGAAGAGACCTCACAGGTCCAGAAGGCTGSTCCTGCGGGTGGC
AGGTAGGAGAGGTCCCTCTGAGGCTGTTCAGAGCAGACAGGAGGTGGGTGGCTGGAGAGAGGGCTGGGACGGACCCCGTGTGGCTTCAGAGAGCGGGGGT
CCTAGTGCACCCCGACCTCACCCACACAATGGTCATGACAGTGCAGAACTGTGATGATCAGTCAGATAATCTGGTAGATTGTTCCCCGTGATGGTCACCA
GGGTCCATCCACCCCTTGAGGGACCACATGAGTAGATGCTGACATAGGGGTCCTCAGAAGAGGAACACCCCACAGTTGGATAGTTTTATTTTTACATTTT
TTTTATTTTTTATTTTTTGAGATGGAGTCTCACTCTGTCACCTAGGCTGGAGTGCAGCTGTACCATCTCAGCTCACTGCAACCTCTGCCTTCTGGGTTCA
AGCGATTCTGCTGCCTCAGCCTCCTGAGTCGCTGGGACTATAGGCGCCTGCCATCACACCTGGCTAATTTTTGTATTTTCAGTAGAGACGGGGCTTCGCC
ATGTTGGCCAGGCTGGTCCCGAACTCCTGACCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATGACAGGCGTGAGCCACTGTGCCCAGCC
ATTTGGGTGGTTTTAGGAACAGGTGGGTGCACATAGCTCCCCAGGTGATCTGCTTGGAGGTAATGTCCACCTGCTGGGTGCCCAGGGATGGCTGAGAGGG
TAACTATCATCAAATACCGGTCACATAGAGGGAGGTAATATGGTTTGGTTGTGTCCCCACCTAAATCTCATCTTGAATTGTAGCTCCCATAATTTCCACA
CGTTGTGGGAGGGACCCAGAGGGAGATAATTGAATCATGGGGTGGTTTCCCCCATACTGTTCTCATGGTAATGAATAAGTCTCACAAGAGCTGATGATTT
TATAAGGGGAAACCCCTTTTTGCTTGGCTCTCATTCTCTCTTGCCTGCCACCATGTAAGACGTGCCTTTCACCTTTCGCCATGATTGTGAGACCTCCCCA
GCCACGTGAAACTGTGAGTCCATTAAACCTCTTTTTCTTTATAAATTACCCAGTCTCGGGTATGTCTTTATCACCAGTGTGAAAACAGACTAATACAGGA
GGCATTACTTTTGTTTGTTTTAAGCATGAAAGGAGCTTTTATAGTGCATGACTCACATGCCAGGGCGTTCTGCCCATCTGCTTAAAAAAAAATAAGAGGA
CGGCCAGGTGCCATGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGTCGGGAGGATCACATGAGCCCAGGAGTTTGAGCCCAGCCTGGGCAACA
TAGTGAGACCCCATCTCTACCAAAAAATAAAATAAAATAAATTAGCTGGGCATGGTGGTGCATGCCTGCAGTCCTGGCTTCTCAGTAGGCTGAGGCAGGA
GGATCGCATGAGCCCAGGAGTTTGAGGCTGTAGTGAGCTCTGATCGCACCATTGGACTCCAGTCTGGCGACAGAGCAAGATATTGTCTCTAAAAACAAAA
GAAAGAAAGAGAAAGAGAGAGAAAGAAAGAAAGAAGGGAAGGATGGAGGGAGGGAGGGAGGGAAGGAATGTGTAGTGTAGGAAGGATGGAAGGAAGGAAG
AAAGAAAGGAAGGGAGGGAGAGAGGGAGGGAGAGAGGGAGGGAGGGAATGTGTAGTGAAGGAAGGAAGGAAGGAATTGCGTAGTGTAGGCTCCATCCTGA
AGACTGAAGTGGTTTTTTTTTTTCTCCCATCTGTGTGGCAAAAACACAAACCAAACCAACAAAAAAGCCATCTAACCATTCTAAAACATATAATTCCGTG
GCATTTACTACATTGACAGGGTTGTGCAATGCCCCCCCATCTAGTTCCAGAACATTTTTATCCCCGCAAAAGAAGACCCTGTCCCCATCAGTAGTCACTC
CCCACTCCCTTCTCCCAGCCCCTAGCAACCACCCATCTGATTCCTGTCTCTGTGGATTGCCTTTTCTGGACAATTCAGATCAATGGAGTCATGCACTATA
TATGTGTTGTGATTTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTTTGAGGCGGAGTCTCGCTCTGTCATCCAGGCTGGAGTTCAGTG
GTGTGATCTCAGCTCATGGCAACCTCTGCCTCCCAGGTTCAAGTGATTGGTGTGCCTCAGCCTCCAGAGTAGCTGGAACTACAGGTGCCTGACACACACC
TGGCTAATTTTTTTTGTATTTTTTGTAGAGACAGGGTTTCACCATGTCGGCTGGGCTGGTCTTGAACTTCTGGCCTCAAGCCATCTGCCCACCTCGGCCT
CCCGAAGTGCTGGGATTACAGGTGTGAGCCATCGCGCCTGGCTTGTGCTGTGACTTTATTTGTATTATTTGTTTATTTATTTTTTTTGGAGATGGAGTTT
CACTCTTGTCACCCAGGTTGGAGTGCAATGTTGCGATCTGGGCTCAATGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGT
AGCTGGGATTACAGGTGCCCACCACCACACCTGGCTAATTTTTGTACTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGAC
CTCAGGTGATCCGCCCACCCCAGCCTCCCCAAAGTGCTGGGATTACAGGTGTGAGCCATTGCRCTCAGCCTGTGCTGCGATTTTAGAGTGAGGCARACAC
AGACACATATACATGATAGATATATCTGGACATGTACATATGTATATCAAGGGATCCAGGTCTCCTTCCACCGCTCACAGGCTGTGAATTCACTTGGCAA
GAAGGGAGACAGTTCTTGTAACTCTCCAGTGATGATGACAGAAAACAGCTTTGCAACTCTGTTGAGTCAGAAGAGAAGGCTCCATAACTAGACCAGTGTT
TCTCAGCCTCAGCATGGCTGAAAGCTGGGGCAGGCTTGGCACAGTGGCTCACGTCTGTAATCTGAGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGAGTT
TGAGACCAGCCTGGGCAATAGAGTGAGACCTTGTTTCTACCAAAAATAAACAAAATAAGCCTGGCTTGGTGGTGCATGCCTGTAGTCCCAGCTCTTTGGG
AGGCTGAGATGGGAGGATTGCTTGCGCCCAGCAGGCCAAGGCCGCAGTGAGCCATAATTGCACCACTGCACTCCAGCCTGGGCAACAGAGATAAACCCTG
CCTGAAAAAAAAAAAAAAAGAAAGAAAGAAAGAAAGAAAGAAAAAAGATATGGCCGGGTGCAATGGCTCACGCCTATAATCCCAGTACTTTGGGAGGCTG
AGGCAGATGGATTGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTTTCTACTAAAAACATAAAAATTAGCCAGGCATGGTG
ACACACACCTGTAATCCCATCTACTCAGGAGGCTGAGGTGGGAGAATCATTTGAGCTGGGAGACAGAGGTTGCAATGAGCTGAGATAGTGCCACTACACT
CCAGCCTGGGCGACAGAGTAAGCCTTGTCTCCAAAAAAAAAGATATTTGGGGCAGTTTGCCAAGGGCGGGGGTGTCCTGTGCTCTGTAAGATGTTGAGCA
GCCTCTCTATTCCCCTCTCAAGTGACAGTAGCAATCCCCACCCCCAAAGCTATGACACCCCAAAACATCTCCAGAAACTGCCAAGTGTCCCCCTGGGGCA
CAGTCACTCCTGGGGTGAGTTCCCCCTGTTCCAGGCCTCCAAACTCCTTYCCCAGTATCTTGGCCCATTCCAGGGTGAATTCTTGTCCCAAAGCTCCTTC
CTCTGCCTGCAGGTGCCCACGGGCCTCCGGGGCCAAGCGCTTCTGAAAGTGTGGGGCCGCGGCTGGCAGGCGGAGGAGGGGCCCCTCTTTCACAACCAGA
CCTCGGTGACCGTGGAYGGCCGGGGCGCTTCTGTATTCATCCAGACGGACAAGCCTGTGTACAGACCCCAGCACCGAGGTGAGTGGCCAGCATGGATGCA
GGGAGGGCCGGCCATGGTCTGGAGGTGTCACACGCCTCTCTTCTTTCTTCTAGTGCTCATAAGCATCTTCACCGTCTCTCCAAATCTGAGGCCTGTCAAC
GAGAAGGTGAGATCAGCTTCTAAAACCGCGGGCCCGGAGTGCACCCACTTGGGACTACCTGGCCAGGGCCACCATCGGAAACGGGTCTTTCTCTCCAGAA
CTTCTCTTTTCTATTTTCTTTCATGGTTGTTTCATGTCCCCCGGAGAACCCCAGGGAGTTCTTTGTGACAGAGGAAGGCTGGTGGGCGTGCCTGGCCCAC
TGCCCCTCAACAAGGAATGCCTTTGAGGGCTTTAGGTAGCCCTGGACTGTTGCTTAATTTTTTTTTTTYCCCCAAGACCGAGTCTCTCGCTCTATTGCCA
ATGCTGGAGTGCAGTGGCACTATCTCGGCTCACTAYAACCTCTGCTTCCTGGGTTCTAAGTGATTCTCTTGCCTTAGCCTCCCGAGTAGCCGGGATTATA
GGTGCCCACCACCACGCCCGGCTGATTTTTTTTTCTGTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAAGCTGAAGTGCAGTGGTGCGATCTTGG
CTCACTGCGACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCTGAGTAGTTGGGATTACAGGTGTGTGCCACCATGCCCAGCTGATTTT
TGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTTTCAAACTCCTGACCTCAGGTGATACACCCGCCTCAGCCTCCTAAAGTGCTAGG
ATTACAGGTGTGAGCCACTGCACCTGGCTATATTTATGTGCTTTCTGTCTAGCGCTCTCTCTCTGTCTGTATATGTATATATACTTACAAAATTATTTTA
ATGGTAAATAATGTGAGAATAACTTACAGATACTGTGCCTCTCTGGCCCTGAACACTTGGCCTGTATCCTTTAAGAGCAAGGACGTTCTCTTATACAACT
CAAGGAGGATCATCACATTTAAAAATTTTGAGGCTGGGCACAGTGTCTCACATCTGTAATCCCAGCACTTCGGGAGGCTGAGGCAGGAAGATCGCTGTGG
CCAGGAGTCCGAGACCATTCTGGGCAACATAGCGAAACTGTCTTGACAAAAAATTAAAATAATAAAAATTAGTTGAGCATGGTGGCATGTGCCAGTAGTC
CCAGCTACTTGGGAAGCTGAGTCAGGAGGATCTCTTGAGCCCAGGAGTTCGAGGCTGCAATGAGCTGTGATTGTGCCACTTGAACTCCAGCCCGGGCAGC
AAAGCACAACCCTGTCTCTACAAAAAACGAAAAACCAAAAAAAAAAGAGGAGGAAAATAATTTTGACATTGACACAATAATAATATCTAATATAAAATCC
ATGTTGTTCCAATAGTAACCTTTATAGCATGTTTCTTTGCTGGTCCAGGATCTGATCGTGGGTCATTTGTTGCATTTGATCATCATGTCTCTTGGTCTCC
TTTAATTTGAATTAGTTCCTCACTGCCTTTCTGTGTCTTCCATGACATTGACATTTTTGGCAAGTCCAGGCAGTTGTTTTGCAGAACGCCCCTTGGTAGG
ATGGTCTCCTGGTTCCTTGTGACCAAGTTCAGTCTGTGAATCTCGGGCAGGATCCACAGAAGCAATACTGGATCCTCCCCGGTGCCTTGTATCAGGAGGC
ACCCAGCATGGGTTTGTCGTGTTGCTGGGGACATTAACAGGGTCCAGTGGTTCAAGTAGTGCCTGCCTGGTTTCCCCATTTCTTTTTTTTTTTTTTGAGA
CGGAGTCTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCYGCTCACTGCAAGCTCTGCCTCCYGGGTTCATGCCATTCTCCTGCCTCAGCCT
CCCGAGTAGCTGGGACTACAGGCACCCACGACCATGCCCGGCTAATTTTTTCTATTTTTTGTAGAGACGGGATTTCACGGTGTTAGCCAGGGTGGTCTCA
ATCTCCTGACCTCGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCTGTAATGAGTCTTTCTAAAGACCCTACTTGGGG
TTAGGATTCAACGGATGTAATCTAGGGGGACACTGTTTAACCCATAACAGCGACTGCCTGTCCCGGGGACCGAGGCCATGCATGAGCATGTTGAAAGGGT
TTGGGGTTTGCTGGAAGATTTGCTCACTGCATCTGTGTCTTCATTACAGCTGGAAGCCTACATCCTGGTGAGTGGCCTCTGTCCTTCCTCGGCTTGGACT
TGGGGCCCGGGTAGCCCACCTTCTGCAAGATCTGGTCTGTCTTCGCTCACTGTCTGCCTTCTGGGTTGAGCCGCTGTGCCTTACAAGGCTGGGACCTGGC
CTCTTCTATCCTGGTCCCTGGGTCCGCCCTGGGATGGGCTGTGTGTGTGTCTGTCCGTTTCCTTTTTTTTTTTGAAATGGAGTCTCGCTCTATCACCCAG
GCTGGATTGCAGTGGTGCTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTTCCTCAGCCTCCCGAGTAGCTGAGACTACAGG
CRTATGGCACCACACCCAGCTAATTTTTTTTTGTRTCTTTTTTAGTGGAAATGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAG
GTGATCCGCCCACCTTGGCCTCCCAAACTGCTGGGATTACAGGTGTGAGCCACCACACCCAGCCACGTCCATTTCTAGGTTTGTACACGGCTCCCTAAAT
GAGGAGGTAGGCCCAGCCCRTCCCCTTCTGCTTTTCAAATCCTTCTCTATCCAGAGCTTTTTTTTTGCCCCGGGGTTAATGATTAATCTTGGGACCTTCG
CTGCATGGTTGACATGCCCAAGAGAGAGGACTGGGAAAATCCTTACATTGGGCACATGCTAGGCTAGCCTGAGTTCACTCCGTGTGTCTGTCCCCCTCCA
CCACCAACAGGACCCCCGAGGCTCTCRGATGATAGAGTGGAGACACTTAAAGCCGTTCTGCTGCGGTAAGTTTCTTCCTCTGCGGCTTGGGGGCTGCAGA
TGTGATAAACCTTCCAGGAAAACAGAATATGCTCTGTCCAGGGCCCACCGCTAATGTACCCCCACTGCTGCTCCAGCTGGAGGGGACCAAGGAGGAGCGG
AGGGCAGGTACCCACCTGGGAGGTGACAATGCCATGGGTTTGGATCTGGGAGCCTCAGCCCAGCCCACAGCACCTTCCCTGTGGATTTGGACCCTCTGCC
CACRTTTCTCTATGCCCAGGACTCAGGCGGGGCTCCTGCTCAGAACTCAAGACCTTTGTGGAATACTGGGGCACCTGCTCTCACCTTGTTTTTTATTTTT
TGAGACAGAGTCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGAGCGTCTCCTGCCTC
AGCCTACCGAGTAGCTGGGATTACAGGTGCATGGCACCACGCCTGGCTTATTTTTGTATTTTTAGTAGRGATGGGGTTTCACCATTTGGCCAGGCTGGTC
TCCAACTCCTGACCTCTCAGGTGATCCACCCGCCTTGTCCTCCCAAAGTGGTGGGATTACAGGCGTGAGCCACCACGCCCGGCCTGCTCCCAGCTTCTTC
CTGCTATAGGTTGCAGATTTTATCATCCCCATTGCATGAGATATTTCTTTTCCAGCTAGAAGTCAGAAAGGACTTTGCTTTTTTCTTTTCTTTTCCTATG
ACTAGGAAGACTGTGTAATTGACATACCCCACTTTGCTTTGCCTGTGAGGGGTGTGATGCCCCAGGAGAGGGCAGGGGATAGGTAGGGTGTGGGGAGTCT
GGGGATGGCCATGCACACACCCAGGCTGTCCAGAAATGGGGTAACARTAGAGCCACAGGCAGGATCACGGGGGTCTGTTGGTGACCCTTCCTCCTTCTGT
CTCCTGCCTTGGGTCTCAGCCTCTTTTCTTCTTCTTCATCTTCCTTCTTTCTTGTTCTTTCTTCTTCTCCTTCTCTTCGTCTTATTCTCCCTCCTCCTCC
TCCTTCTTCTTCGATCTTCCTTCTTCTTTCCTCCTCCTCCTCCCCCTCTCCTCCTGCTTCTTCTTCCTCCTTCCTCCTTCTTCTTTCTTCTTCTTCCTCC
TTCTCCTTTTTCTTTTCTTCTTCTTCTTTTTTTTTAAAATACAGTCTTGCTATTGTCACCCAGACTGGAGTGCAGTGGCACGATGTCGGCTCACTGCCAC
CTCCGCCTCCCGGGTTCAAGCCATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGATTACAGGCACGTGCCACCAGGCCTGGCTAATTTTTGTATTTTTAG
TAGACACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCCAAACTCAGGTGATCCGCCCGCCTCGGCCTCGGAAAAGTGCTGGGATTACAGGCA
TGAGCCACCGTGCCTGGCCTCAGCCTCTTTTCTTCTGTTCCATCTTCCCTGTCTGCCTTCTTTACTCCCTCTCGTTCCCTTGATTGCTGTCTTTGTATCA
GCAGCTATTTGTTGGGCGCCACATAGATACTGCCATGGGGTGAGCTTTCAACCCAATGGGGGAAGCAAACATGAACTAAACAGCCTGGATAATGTCAGTT
GTGATGAGTGCTAGGAAGGAGAAGTTCAAAACTCAGAGATGGCAAATGGGGCTCTATCCCAGCCCGGGGTGGCAGAGGCAATCCTGGAAGGCTGCCTGAA
GGAGGATCCTTTTCAGCAACAAAGAAGGAACGGGGGACAGCCAGGCAAAGCAAGGGGGCCAGGAAGCATCTCCCAGGCAGGGAGTCAACTTATGGGAAGG
GCTGTGGATGTCTAGGGTAGTGAGGTTGGAGATGGGGGACAGGAGAGAGATGTTGAGTGCTGAGAGCAGGGGTGACACTGGCAAGAGCCAGGGAAGAGAA
TGGATTTGATCTTTTTTTAAAAAGTTTTTTTTTTTTTTCTCAAGAGGCAGGTTCTCTCTCATTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGATCATAG
CTCACTGCAGCCTCTACCTCTTGGGTTCAAGTGATCCTCCCACCTCAGCCTCCCAAGTAGGTGGGACCACAGGCGCGTGCCACCAAGCCCAGCTAATTTT
TTAAATTTTTGGTAGAGACAGGGTCTCAAGATGTTGCCTAGGCTGACTTGATCTTAAGAGCACAGAGTTGGGGAAGAGGTCAACCTCCTGTTTAAAAAAA
CCCTTTGAGGCCTGGCTTGGTGGCTCACACCTGTAATGCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTG
GCCAACATGGGGAAACCCTGTCTCTACTAAAAATACAAAATTAGCTGGACATGGTGGCGGGCGCCTAAAGTCCCAGCTACTCAGGAAGCTGAGGCACAAG
AATCTCTTGAACCCGGGAGTGAAGGTTGCATGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCAAAAGAGCAAGACTCTGTCTCAAAAAAATAAAAA
AAAAAACCCTTTGGGATGTGTGTAGACCCATGATTCTCAACCAGGGTGACTGTGCCCCTCTCTCAGGGAGCACTTGGCAAAGTTGGCCACAGACCCCTTA
CAAAACACGTGCTCAGGACACACATCCCCGAATGTCCTGTAACCATCAAAGGCCCACTTTGCCTGAATATGAGGGGGAAAAAGCCRTTTTAGCCATCACA
TCTTCTGACTCCAATGTGATTGAGAGAAGCCGTGGGCGCCGCTATGGGTTTTCGGTTCTGTCGTGAGACCCAGGGGAACCACTCTCCCTGTCCCTTCCCT
GTATGGCCCTCCCCATATGATCATTGGGGACGAGTGGAGCGTGTCACACTCAGGAGTGGAAGATCCCCTGGCACTGCCTAGAGTCAATGTGCCCTTTCCA
ACTCCTCCATGGCTCCCAGTGAAAACAGCTGCGGACGGGGCTCAGAGGCACAGGCGCAAAGCAAATGACAGCTCCCATGTCAGCGGCTGATGGTGTTTCT
GGGGGGATGTTTGGGGAGAGAGTGCTCTGTTCTAARGTGTGTGCGTGCTCTAGTTCAGTTGGGGGGTGGTTCTCATGGAGGGGTGGGGGGTCGGACAGGC
GATTCTGCCCCCAGGGGACATGGCAATGTCTGGGGACATTTTGGCTTGTCAGGACTTTTGTGGAGGACAAGGGGTGCAACTGGCATCTGGTGAGTGGAGG
CCAGGGAAGATGCTCAGCACCCCTCAGTGCTCTGGGATTTCCACCAAGGGGTGACTTTGCCCCCTAGGGGCGATATTGGCAATGTCTGGGGGACTTTTTT
AGGTTGTTATATTGTAGAGGGCATTGGTACTACTGACCTTTGGTGAGTGGAGGCCAGGGATGATGGTCAGCACCCCTCAGTGCACAGGATGCCCCCACAC
CACAATGAATGATCTGGCCCTAAATGTCAGTAGTGCTGAGGCTGAGAAACCCTATCCTGGCAGGAGACCCTGTCTGTCTTGTCTGTTTCTCTCTCTCTCT
CTCTCTGTCTGTCTCTCTCTCTCTCTGGGATTTCCACCCAGGGGTGATTTTGCCCCCTGGGGGCGATATTGGCAATGTCTGGGGGACTTTTTTAGGTCGT
TATATTGTGGGGGGCATTGGTACTACTGGCATCTGTTGGGTGGAGGCCAGGGGTGCTGCTCAGCATCCTACAGCTCACAGGACACCTCCACCCCAGAGRG
CCACGTGGCCCCAGGTGTCAGTAGTGCCCAGGCTGGAAATGACTCGGGTGGCGGGGGATGGAGTGAATGAGCCGGGCTGGCTCATTTCCCTCGTTTGTCC
AGCTCACTGCCTGCCCCTGGCCCTGGCTGCAAGGCTGTCCCGGGAACCGCGGGTCCAGTCCCTTCCTGCATCCCTTCGAAGCCYGCCGGGGTGTCAAACC
TGCTCCGCTGGCCTGATCCTACAGGGTGCTGCTCTGCACAGACCCCGCCAGCTTCTCTGTGGTCTCCAGTTCTCCTGGGGGGCTGCTCAGGGAAGGAGAA
GGAGCAGGGTCCTGGCTCCCTCTTCCCGTACCTCACCGTGTCTGTGGCTCTCTGAAAAAGCCCTTGCCCTCTCTCTTCACACAGGCATCACCAACATGAG
CTTCCCCTTGTCCGACCAGCCTGTGTTGGGAGAATGGTTCATTTTTGTTGAAATGCAAGGCCACGCGTACAACAAGTCTTTTGAAGTTCAGAAGTATGGT
AAGTTGGAGAATCTCAGGGTCTTGGGATTTCAGATCTGGGAGAAACCTTAGAAACTGGTGAAGAAGGCCGGGTGCAAGGGCTCTCGCCTGTAATCCCAGC
ACTTTCGGAGGCCCAGGTGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCTCGTGTCTACTAAAAATACAARAATT
AGCCGGGCGTGGTGGCGCGCACCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGTATCACTTGAACCGGGAGGCAGAGGTTGCAGTGAGCCAAGAT
CGCACTACTGCGCTCCAGCCTGGGCGACAGGGCGAGACTCTGTCTCAAAAAAAAAAAGAAAAAGAAAAGGAAACTGGTGAAGATGGCAGTGAAGAGGTGG
AGGATGACATGAGTCCCCGTTTACTGAGGGCTCATGATGGCTGGGTATAGTTTCAGGGGATGGTCCTACACTCTTACTTTTTTTTTTTTTTTGAGGCAGG
GTTTCACACCCATCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGAAGCCTTGACTTCCCAAGTTCAAGTGATCCTCCCTCCTCAGCCTCCT
GAGTTGCTGGGACTACAAGTGTGAGCCACCACACCTGGTTAATTTTTGTATTAGTAGAGACAGGGTTTCGTCATGTTGCCCAGGCTGGTCTAGAACTCCT
GGTCTCAAGCAATCCTTCCGCCTCAGCCTCCCAAAGTGGACTCTTGCCTTTTATAGAAAAAAGTATTGTAGGCCAGGCATGGTGGTGGCTCACACCTGTA
ATCCCAACACTTTGGGAAGCTGAGGCTGGAGGATCGCTTGAGGCCAGGAGTTTGAGACCAGCCTGGACAACATAGTCCCTGTCTGTATAAAACTTTAAAA
CAATTATCTGGACATGGTGGCACGTGCCTGTAGTCYCCGCTACTCGGGAAGCTGAGGCGGGAGGATTGCTTGAGCCCAGGAGATCAAGGCTGCAGTGAAC
TGTGATTGCACCACTATTCTCCAGTTTGGGTGACAAAGTGAGACCCTGTCTCAGAAAAAAAAAAAGGTGGCCAGGCAYGGCAGCTAACGTCTGTAATCCC
AGCACTTTGGGAGGCTGAGGTGGGTAGATCACTAGAGGTCAGGAGTTCAAGACCAGGCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAA
ATTAGCCAGGCGTGGTGGCATGTGCCTGCAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCAGGAGGAGGAGGTTGCAGTGAGCCAA
GATCGTGCCACTGCACACCAACCTGGGAAACACAGTGACAATCTGTCTCAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAGAACGAAAAGATTCTT
AGGCTCCTACAAGAGTTCTCTCAGGACCCGATTCTTTCTGGTTTACYGGCTGCTCCAGGGTGTCACCTCCGCCCCTGGTGACAAGATGGCTTGATACTCC
CAGGGCTGAGTCCAGAAGCAAATGGAGAAATCAGCTCTCTGTTGCAGTCACSCTGGGGATGCCCCTTGTTGGCTCCCAGGGCCACCTCTATCCCATGCAC
AGACACAGGGGCTGGGAGGAGCCTCCTGGCCTCGTGTCCACCCTGGGATAGGCTGGAATCCGCCACACTCTAAGCACGTGGTCTAAAAGTGACAGGGGGA
GGCCCCTTGAGGAAAATGGGGTCCTAGTCCCCCAAAGATGAGAAATAGATGCAGCCCACAAAATCCCCAGGGCTGCTCAGCAGAGTGGTGTGGATGGGTA
CAGTGTCAACCTCGGTGGTGGCCAGGTGCTGTGGTCCTCAGACACCTTGCACCGGTGTCAGGGCTCCTGAGGCCACCTTAGGGACAGAAGCCAGCCCCTC
CTCTCTGCTTGCTTTCTTCAGTGTTGCCCAAGTTYGAGCTTCTGATTGACCCGCCCCGGTATATCCAAGACCTGGACGCCTGTGAGACAGGCACTGTGCG
GGCCAGGTGAGAAAGAGGGACCCCTGGGGCACACTGGGGGGGCCCTTCCCCTTCCCCAACCATCACGCTGCTCCCTCAAGGTCGTTCCCCTCCTCTGCTG
CCTCCCTCCCTCCCACATGGGTGTGCCCCTCCCTTCCTGGTTCCCTCCTCCCTGGGGTGTACCCCTCCCCTAGTGCATCTCCCTTCCTGTGACTCTCTCC
WGTAGGCRCCCCCTCCTCAGGAGGTGCCCCTCCCCCTAGAGTATCTCCCTCCCCRCCAGGCTCCTCCCCTGTGGGCGCCTCCTCCCTGGGGTGTCCCCCT
CCCTCTAAAGTATCTCCCTCCCTGCTGGGCTCCTCCCCTGTGGGTTCCCCTCCCCAGGATGTGCCCACCCGCTAGAGCATCATCCTTTCCCGTGCCCCTC
CCCTGGGGGCACCCCCTCCCTGGAGTGTACCCCTCTCCCTAGAGCATCTTCCTCCCCCTGGGCCCCTCCTCTGCCCTCCCCTTCCATCTCCCCCAACAAC
CGGGCTTCCCCCTCCTCCTACAGGCAGACACTTCTTCCATGGCCTCCCTGCTCCCACAAGGGTGCCCTGTGCCCCGCTCCCTCCCTAGTACTCGGTGTCT
CCCTGCCACATGAGTCTCTTGCACTCTACCCACTGCCTGTCTTTGTTTCCATGCTGGTGTCCTCACCCCTATGAGCACGCCCCTGTCTCTCCAAAGCATG
CCCCTCTCCCGCTGTGTATTCCTTCCTCAAGTCCTGCCCTTCCACTCTAAGTTCTTCCCTCCCCAAGGGTCTCCCCTCCCCAAAGAATGCCCTACCCCCC
AGGGTGTGACCCTCCCAACCCCACCATGTTCCCCTCTCCCCCAAGGCTGCTCCCCGCCCTCTGCAGGCCTCCCTGGCATCCAACAGCACCCCCGCCAGTG
TGCTGACCCGAGAGGGGTTGATCCTTGTTTTTTTTTTTTTTTTTTTTTTTTCAGACGGAGTCTTACTCTGTCCCCCAGGCTGGAGTGTAGTGACAGTCTC
AGCTCTCTGCAACCTCTGCCTCCCGGGCTCAATTGATTCTCCTGCCTCAGCTTCTCCTAGTAGCTGGGATCACAAGCATGTGCCACCACACCCAACTAAT
TTTTGTATTTTTAGTAGAGACAGAGTTTCACCATGTTGGCCAGTCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGTGCT
GGGATTACAGGCATGAGCCACCATGCCCAGCCTGCACTCTCTCATTTTGCTCCTGTTCCCCATCCACCAGCATTCCCTCTGCATCAGGAGTGACATACAG
ACATTTAAGTTTCACTATCACCCCTGAGAGGGTAGTTTGAGTCCCATTCTCTGGGTGAGGAAACAGGCTCAGAGAAGTTCGGCCCTTGGTTCAAAGTCGA
GCTTAATGGGGCGCTTAGGCTCAGGTGCCTCTCAGTCGCTCATGCCTCTGCACTACTCTGCTCCAGAGGTGGCACCAACCTAGCCTTCTCAGTTCCAGAG
TTCCTCTCTGACCCTTGGTCTCTTTTTCTGTCCATCTGGAGGCTTGGTGCAGAGGATCGGAGGGCCTTGGCATCTTCTGTCCCGATTCCAGGCTGCAGGG
AGGGCTGTCAGGACAGGATGCAGGGTGTGGAGGRAGCTGCATCCATCACTGTACTAGTGGCCACACTATGYCAACCTGGCCTTCCTGAGGCTGGGCCCTC
CCTGCCATCTTGGCTGTGAAATTGAGCATGCTTTATCCTTTTGTTCCAGGTATACCTTTGGGAAACCTGTGGCTGGTGCCTTAAYGATCAACATGACTGT
TAATGGTGTRGGGTACTACAGCCACGAGGTGGGACGCCCTGTCCTCAGAACAACCAAGGTGAGAAACAGGGACCCCTTCTACCCCCTGACCCAACCCCCA
GGTTCACCTCCACCAGCACACATTTTATTTTACTTTCTCTTATTGTTATTATTTTATTTACTGCCTTTAAAAAGTTTTTGAATAGAGACAGGATCTCACT
ATGTTGCCCAGGCTTGTCTTGAACTCCTGGGCTCAAGCGATCCTCTCGCCTTTGCCCCCAAAAGTGAGCCACCGCTGTTTTACTTTCTAAAACAGTTATA
TGGCAGGGATTTTTCTGATGATAAAATTCCTGCAGGCTGAATATAGAGACTTTAGAAAATATAAAAAGGAAGAAAATAAAGATAACTTGTTCTCCAATAG
GTGGACATGACCACTATCGATATTTTGATGTGTTTCCTCACAGGTTATTGTAAGTAAAGTTAAAAAAACACCAATTTGGCTGGGCATGGTGGCTCACACC
CGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACTTGAGGCCATGAATTCGAGACCAGCCTGACCACCATGGCCTGGGCGACAAAGTGAGACT
CCATCTCAAAAAACAAACAAAAAACAAAAAAACACTAATAAACACTAATTTTATTGCCTGGAGTCCCAGCTCTTAATATTTGGAAGGTAGAGACAGGAAG
ATCTCTTGAGCTCAGGAGTTCAAGGCCAGCCTGGGCAACATAGTGAGATCCCATCTCTAAAATAAAATAAAAACATAAACAATTTTATTGAGATATCATT
CACATAGCATACAATTCACCCATGTAGAGTGTACAGCTTGATGGTTTTCTTTTCTTTTCTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGC
TGGAGTGCAATGGCGTGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTATAGGTGC
CCACCACAACACCCGGCTAATTTTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTATTAGCTAGGATGGTCTCGATCTCCTGACGTCGTGATCC
GCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCCACAGCTTGATGGTTTTCATATAGTTGCAGAGTTGTGCAACCAT
GGCTGTTATCCAATTTTAGAATTGTTCCACCATCCTTCCATACATCCTTCATGTCCTTTTGCAGAGAATCCTCATTTCCCTCCTCCTGTCTCTGGCAACT
ACTATCTGTTTTCTGTCTCTGTAGATTTGCCTGTTCTGGACATTTCTGTGAATGAATCATATGCTATATGTCCTTTTGTGTCTGGCTTCTCTCACTCAGC
ATCATGTTTTTGATGTTTGTCTACATCGTAGCATGATCAATGCTTCATTCCTTTTTTATGGCTGCATCATATTCCCTGGTACAGATGGACCACAATGTGT
TTATCCCTTCATCCGCTGGTGGACATTTGGGTTGTTTCTGCTTTTTGGCTATTATGTCTCATGCTACTATGAACATCCCTGTGCAAGTTTTTCTGTGGAC
CTACATTTTTGTTTCTCTTGGGTTCTTTCCTAGGAGCGGAATTGCTAGGTCAGAGGGTAACACTATGTGTGACCTTTTGAGGAACTGCCAAATGGTCAAT
GTGGCTGCACTATTTTAYATTCCCACCTGTTTAAAGTTTTGTAACCTTTTTTGGTCTTTCAGCATAATGTTACATTGTGAGTGGGCTACAGTACAACAGA
CACCCACCTTCCTGGAGATTCCCATCCCTCTGTAGGTGCCCGGACATTAAGCCTTTCAGCACCGGCTCCTCCCCACCTCCCACCCAAAGCTCCTTCTCAG
TCCCTTTCCCACCTGRGACACATCTGCTCCAATGGGCTCCCCTCTCTTATGTCTGAGATATCTTTAATTTAATTTAATTTAATTAATTTATTTATTGAGA
TGGAGTCTCTCTCTGTCTCCCAGGCTGGAGTGCAGTGGCACGATCTTGGATCACTGCAGCCTCTGCCTCCTGGGTTCAGGCAATTCTCCTGCCTCAGCCT
CCCATGTAGCTGTGATTACAGGCATGTGCCACCGTGTTGGGATAATTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGA
ACTCCTGACCTCAAGTGATCTGCCGCTGCTGGCCTTCCAAAGTGCTGGGATTACAGGTGTGCACCATCACACCCAGCCCATCTCTCTGCTCTCTGAGGCT
TCTCTTCCATGGATTGGAAACCATAAACCCCTACCTTTCCCATTCCTGACACTGGCACCTTGGAGAATCCCAGCCATTCTCCTGGGAGGCTACCAGCTGA
TGGTCTTTGACTTAGTTCTCTCATTTACGGAGTAATTTACTCCACAGCTCTTTCTGAATGAGGATTATTTGCCAAGTCCCAGGGTGGGATCCTGAGATAG
GAATTGAATGAGGGAGTTCTGGTGCCCCAGAGTGAGGCTGAGCAGGTTCAGCTGCCCCCTCTGTTGCCTGGGCTGTGGGAGATTGTGTCAGCATGGGAAT
CTCTTTCCTCTTTTTTTTTTTCTTAACCCAGGCTGGAGTGCAGTGGCACAATTCAGGCTCACCTCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCATGC
CTCAGCCTCCCAAGTATCTGGGATTACAGGTGCCTGTCACCACGCCCAGCTATTTTTTTACATTTTTACTAGAGGCGGGGTTTCGCCATGTTGGCTAGAC
TGATATCGAACTCCTGACCTCAAGTGACCCGCCCGCCACAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCTCTTTCCTCTTCT
GCCCAATGGAGCCAACATCCATCTTCCCTGGGATGTTGTCCAGATCCAGTGAGGGACCCTCTGCATGGTCCCGTGGCATAGAYTGGGTATGCCACCAAGT
GACCCCTGGCCCTCCAAGCAGCTGAAGAGTCTTGCACCTCAGGTGTGTGTTTCAGGGACATCCCTCAAAGACACTCCAACCCTGAGTGAGCACGGGCTGT
GTTTTTCCTCCCTCCAGATCCTCGGCTCCYRGGACTTCRACATCTGCGTGAGGGACATGATCCCAGCRGACRTCCCTGAGCACTTCCGGGGCAGGGTCAG
CATCTGGGCCATRRTGACCAGTGTGGACGGGAGCCAGCAGGTCRCGTTCGATGACTCCACCCCCGTGCAGAGGCAGCTGGTGGACATCCGGTACTCCAAG
GACACGAGGAAGCAGTTCAAGCCGGGCCTGGCCTACGTGGGGAAGGTAACTTGGGRGTGACTGTGCTGCCTCCCGCCCAAGGACCACCGTGAAACCACCA
CCACTAGCCACTAGCTCTGCAGTGGTGACTCAGCTGAAAAYGRATCCCCTGACATAACCTTTGCGGAGAGTGGAGAGGGCTGGTGTTCCAGGTGAGGGGC
AGGGGACATTTTCCTCCACGGGAAAGGACAATCTACTCTATTCCACTTGGACAGACATCTGAGTAGCCATTTATTAAAGCAACTGCTCTAAGGCAGTCCT
GTTTCTTCAATGGGTTCTTTTTTTTTTTTTTTTTTTTAGAGATAGTCACACTCCATCGCCCAGGCTGGAGTGCAGTGGCTCCATCTCGGCTCACTGCAAC
CTCCGTCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGAACATACTACCAAGCCCAGTTAATTTTTGTATTTTTAG
TAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGAACTTCCCGCCTTGGCCTCCCAAAGTGCTGGGGTTACAGGCGT
GAGCCATCACTCCTGGCCCTTCACTGGGTTGATTTTATCCCCTGAGGACCTAAGTTGAGAGCCCTGCAAAGGTAGACCTTCTGTTCCTGAGACTGACAGG
TGCAGACCCATGTGACATTTTGAACGAGCCTCTGCCTCCCACCCACCACTCAAGTCTTATGCACGGTAAATTTTGAGGTGTCCAGATGTCATGATCCTTA
TATATGTTTTCTTCTTAGAGACAGGGTTTTGTTCTGTCGCCCAGGCTGGAGTGCAGTGGTGAGATCATAGCTCACCACAGCCTCGACATCCTGGATTCAA
GCAATCCGCCTGCCTCAGCATCCTGGGTAGCTGGGACTGCAGGCATGAGCCACCACGCCCAGCAAATTTTTTTATTTTTAAATTTTTATTTATTTATTTA
TTTTGAGACAAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGACTAATTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTG
CCTCAGCCTCCAGAGTAGCTGGGATTACAGGCATGCCCCACCATACCCCACTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCACATTGGCCAGGC
TGGTCTTGAACACCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAGAGTGCTGAGATTGCAAACAGGAGCCACCGCACCTAGTCAATTTTTTAATTT
TTTGTAGAGATGGGATCTTGCTGTGTTGGCCAGACTGGTCTTGAACTCCTGGGCTCAAGCAGATCTCCTACCTCAGACCCCCAARGTGCTGGGATTGCAG
ATGTGAGCCACTACACCCAGTCATTATTCTTATTTTAACTGTTAAACTGGGGTAGGCTGGGCACGGTGGCTCATGACTATAATCCCAGCACTTTGGGAGG
CCCAGGTGGGCGGATGACCTGAGGTCAGGACTTCAAGACCAACCTGGCCAACATGGTGAAATACTGTCTCTACTGAAAATACAAAAATTAGCCAGACATG
ATGGTGGACACCTGTAATGCCAGTGACTCAGGAGGCTGAGGCACGATAATTGCTTGAACCTGGAGGCGGAGGTTGCAGTGAGCCAAGATCACACCACTGC
ACTCCAGCCTGGGAGACAGAGACTTCGTCTCAAATAAAAAAACAAAAAACAAAAAACAAAAACAAACCTGGGGCATCTTCACCCCAATTGCAGCAGCAGG
AGTGGGGCAAGGCCAACAGAGCCCAGTGTCATGCAAGGGGAAAGTGGGCCACATCCCTGGCCCTGCATCTGTCTGCACCCAGTTCCCTTTTGCCGTCCAT
GAGTGATGCTGGCTGGCTGTCCTAACACTGAGTTCTGACCCTCTTGTTCTGCTTTGGAACCTCCTTTCTCTTCTCCATGCCAGTGTTGGAGCCACCTCTA
TCCCATGCACAGACACATCTCCTGTGTCCCTGGCTTTGAGGGCCCCAGCTTGAGTAGAAACTAAAGTACCTCGTGCGGGGTCAGAATGTGTATGAAGAAG
AGGTTTAAGGCTACAAATTTGGTAAAGAGCGTTTCACATATGACAGAAAATACCTACCATCTGCATTCAAGAAAGGAGTGGTTAGGCTGGGCATGGTGGC
TCATGCCTGTAGTCCCAGTGCTTTGGGAGGCCGAGGCAAGAGGACCACTTGAGGCCAAGGCAAGAGGACCACTTGAGGCCAAAAGTGTGAGACCAGCCTG
GGCAACATAGTGAGATCCAGTCTCTACAAAAAATAAAAAGAAATAGGCCAGACGTTTGTGGCTCACACTTTGGGAGACCAAGGTGGGAGGATTGCTTGAG
ACTGGGAGTTTGAGACCAGCCTGGGCAATAGAGCAAGACCCCAGCTCTACAGATTTTTTTTAAAATTAGCCAGGCATGGTATTGTACACCTGTGGTCCCA
GCTATCAGGAGGATGAGGCAGGAGGATTGCGAGCCCAGGAGGTAGAGGCAGCAGTGAGCTATGATCGGGCCACTTCACTCCAGCCTGGGCAACAGAGCAA
GACTCTGTCTCTCAAAAAAAAAAAAAAAAAAAAAAAAGGGAGTGGTTAATGAAGATCATGTGGGCTGAATCCTGGTTCACTCCGTCACCAGATACCTGCA
CAGCTGAGGGCTGTTTTAGGGTTCTTCAGAGGCTACAATCTGTGCTCCTTTTAAAACATCTATGTCTSCCTCATTCTAGCTGGCTCTCCAACCAGTCTGA
ATGGGTGAGGTTTAAGTGTCACACTGAACTGTCCATACCCTGGTATGGCATCAGACTAATGACTAGCACATGTAATTTGTACTTCATGACCTCTTTGCCA
AATCCRAGGGCATGAAGGTCTACCCTTATGTTTCTTCTAAGAATGTTATAGCTTTAGCTGTTACATTTAGGTCTGTGATCCATTTGAGTTTATTTTTGTA
TATGGTGTGAGGTAGGGATGCAACTTCATTTAAAACTTTTTTTCTCTTAAGAGACAGGGTCTCATTCAGTCACTCAGGCTGGAGTGCAGTGGCACCATCA
TAGCTCTCTGCAGCCTTGAAGTCCCAGACTCAAGTGATCCTCCCACCTCAGCCTCCTGAATAGTTGGGGCTATAGGTGCATGCCACCACACCTGAAATTT
TAAAGTTTTTTGTAGTGAGGTCTCACTATGTTACCCAGGCTGGTCTGGAACTCCTGGCCTCACATGGGATTATAGGTGTGAGCCACTGCATCCGGCTTCC
ATGTCTGCCTTGGAAGCCTCTTGAGTAGCTGGGACCACAGGCACACGCCACCACTCCTGGACCTGTGAGTCCTTCTTTTTTGTTCCCTTTAAGGATTGTT
TTTGCGATTTGGAACTCGTTGCGATGCCCTGTGAATTTCAGGAGCAGTTTGTCAATTTCTACAAAGAAGCCTGCTGGGATTCCAGTGGGGATTGCGTTGA
TTCTGCAGATCAGTTTGGGGAGCATGGCCGTCTTAACTCTGTTGTGTCTTGGGTGACCTTTTCTAGGTGGAGCTATCCTACCCCGATGGCAGCCCAGCTG
AGGGGGTGACGGTCCAGATTAAGGCAGAGCTGACACCAAAGGATAACATCTACACCAGTGAAGTTGTGTCCCAGCGTGGACTAGTGGGGTTTGAAATCCC
CTCCATCCCCACGTCAGCCCAGCACGTGTGGCTGGAGGTGGGTGAGTCCCGTGGACCCTTGTTATTCAGCCAGCAGGTATGGACTTGGGGCCTCCCCCAG
RCTGGGTGCAGGCACCTGATCAGTGGGCCTGGAGCCCGTCCCAGCCCTGCAGGAGTACACATTCCACTAGACAGTGGGATGGACAACACAGCCATCCTGG
GATCAGGTGGAAGGTCAAAGAGAGATAAGGGTGCCTGGACCAGTTATGCCAAAGGAGTCTTGTCCAAGGAGATCTCTCCAAATGGACTCCTGACCATGGG
GAAGTCAGCCAGGCTGCTTCTGGGCGGGTGGAACAGCCTGGGTGCAGGTTCAGAGGCAGACCGTGATTATACTGTAATCAGAGTCTCACAAGTGCTCAAC
TACATTGAGCCATTTTGGAAAGAGATTGGGGAGAGAGCCAATGGTGGTTTCCGCCACCTCACGGGTGCTCAGTGGAAGGCAGTGTCAGGCGAAAGAGTGA
TCTGATTTTTTTTTTTTTTTAAGAGACAGGGTCTCGCTCTGTTGCCCAGGCTGCAGTGCAGTGGCATCATCATAGCTCACTGCAGCCTCTAACTGCTGGG
CTAAAGGGATCCTCCTGAGTCAGCCTCCCAAGTACCTGAGATTACACGTGCATGCCCGTAATTAGCACCTCACCCAGCTAATTTTTAAATTTTTCTGTAG
AGGCTGGGCACAGTGGCTCATGCTTGTAATCCCAGCACGTTGGGAGGCCAAGGCAGATGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACA
TGGCAAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTGTTGTGGCAGGTGCCTGTAATCTCAGCCACTCTGGAGACTGAGGCAGGAGAATTGC
TTGAACCCGGGAGGTGGAAGTCGCAGCGAGCCAAGATTGCGCCACTGCACCCCAGCCTAGGCAACAGAGTGAGACTCCATCTCAAAAACAAACAAACAAG
CAAATAAATAAATAATAAATTTTTCTGTAGAGATGGGGTCTTGCTATGTTGCCCAGGCTGGTCTCAAACTCCTGGACTCAAGCCATCCTTCCACCTCAGC
CTCCCAAAGCATAGGGATTATAGGCCATGAGCTGCCATGTCTGGCCTGATCTGATTTTCGATACCCAGTGATCACTCCAGAGTCTTTAGTTGGGGGTGGT
TCAGGGCGGGCCCAGGCAGGCAGACAGGAGGTGAGGACAGAGAGGTCTCCAAACTGGAGCTCTTGAGGAAGTAGATCCAGAAGGCCTTAGTGTCCCATCA
TCAGGGGAGGCAAGAACAGGAGGKACTGGAGAGGATGTCCCAGCCCTTGGCTTTGGGAACTGGCAGTGGACCTGGCGGCCCTGCAGAGAGTAAATACGTA
GATGGGAACTGAGGACACTGTGGTCACTTTGTCCTCTGTGGGCACCATGTCCTAAAGGTTTTAACCACTGAAGCCACTGCCTTGCCACTYGACATTCACA
GCCAGATGGGTTCACGCTTTCTTGTGTTGGACCTGCTGCTCAACACACAGCACAGCTGTTTGGTCACCTGGGCCACTGTTCTGTTGTTTTTTTTTTTTGA
TACAGAGTCTTGCTCTGTCGCCCAAGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCGGCCTCCCAGGTTCAAGCGATTATCCTGCCTCAGC
CTCCCGAGTAGCTGGGATTACAGGCGCCCCCCACCACGCCCAGCTAATTTTTGTATTTCTAGTAGAGATGGGGTTTCACTATATTGGTCAAGCTGGTCTT
GAACTCCTGACCTCAGGCAATCCACCTGCCTCGGCCTCCCAAAGTGCCAGGATTACAGGTGTGAGCCACCGTACCCGGCCCACTGTCCTGTTTTAAGAGA
GTGACCACAGCCTGGCATCTCTCAGACTCCTTGAGGAACCAGAGATCTGCCCTGCCCATCCCCTACCAGGTGGGAGATTGCAGTAACTTCTGACACCAGC
TACCTGGAGCTGGGCCACACTTCACAGGTGGTAGGCACAGCCCTCTCCACAAGACTACCCTAAATTCTGACACCAGCTGCAAGTCCAGGGGTCCCCGGGC
CACCTGTGCTTCCCACCTACTGGCTGCAAATTCCACTACCCTACCACCTTTTAATTACAGCTTTACCATAGCAAAATGACATAAATTAGAACCAACCAAA
GAGAGAGATGCATAGGGTGAGGTCTGGGCAATTCCCAGATTGGAAGCTTTGTGTGTTCTCTGCACAGAACCAGGATATGTAATCCCCACAAGCTGAGCAT
TGCTAAGCAGGAAAGCTCACCTGAGCTTTGGTGTCCAAAGTTTTTTGTGGGGGCCTCATTTCGTCTGCATGATTGATTAAATCATTGGCCATGGGACTAA
TCTCAATCTCCTGCCCTCTCCCTTCCCTGGAGATGGGCTGATAACCTGTGGCTCAAAGCCCAGCCATCTAATCACACAACTGGCCTTTCTGGTGTGGCCC
GTTTATACCCTATTTAGAGTCTACCTACTTCCCAGGAGCCAGAGACAGAGGCAGGCCAACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTT
TTGCTCTTATTGCCCAGGCTGGAATGCAATGGCGTGATTCCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCCCCTGCCTCAGCCTCCCAAG
TAGCTGGGACTACAGTTGCCGGCCACCATGCCCGGCTAATTTTTTGTATTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCCT
GACCTCGTGATCTGCCCACCTTGGCCTCCCAAAGTGGTGGGATTACAGGCGTGAGCCATCGCGCCTGGCCCAACTTCTTTTTAAAATTATTTCAGAGATA
CGGTCTAGCTCTGTTGTCCAGGCTGGAGTGCAATGGTGTGATCATAGCTAAATTGCAGCTTTGAACTCCTGGACTCAAGTGATCCTCCTGCTTCAGCCTC
CCCTAGTAGCTGAGTCTCCAGGCACAAATTTTTTGTAGAGACTGGATCTTGCTATATTGCCCAGGCTGGTCTTGAACTCCTGGGCCCAAGTGATCCTCAC
ACCTCTGCCTCCCAAAATGCTGAGATTATAGGTATGCACCCACTCTGCCTGACCCCCAATACCCTTTGACCAATCTTGGATGCTTGCTTCTTTTTTTTTT
GAGTCAGAGTCTTGCTCTGTTGCCAGCCTGGAGTGCAGTGGTATGATCTCAGCTCACTGCAGCCTCTGCCTCCTGGGTTCAAGCAATTCTTGTGCCTCAG
CCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACTACTCCTGGCTAATTTTTGTATTTTTTCAGTAGAGACGGGGTTTCTCCATGTTGGCCAGGCTGGT
CTCGAACTCCTGGCCTCAGGTGATCCACCTGCCTCGGCCTCCCGAAGTGCTGTGATTACAGGTGTGAGTCACTGTGCCCAGCTGGACACTTGCTTCTTGA
TGCTAGGAAGAATGGGCTGGACAACTGGCTAYTACTCCCTGAGGATTGGGGAGGGGGTTCCCCAAAGGGATATTGGAGCATGAGAGGGTGTTTCTTCTGG
GCAGAGCAAGCAGAAGCATCCCCAAGACCCCCTTTCTGCTCTTGGCACTCGGGTGTTGATCYAAGCATCTTCTCTTCTCAGACCAAGGTGATGGCACTGA
ACGGGAAGCCYGWGGGGGCTCAGTACCTGCCCAGCTACCTCTCCCTCGGCAGCTGGTACTCCCCCAGCCAGTGCTACCTGCAGCTGCAGCCACCCTCCCA
CCCACTGCAGGTAAGATTTTCAGGWGCTACCCTTCCTGGGCCATGCGGGATCCAAAAAGCAGCATGAGCCAGGTGCTGTGGCTCATGCCTGTAATCCCAG
CATTTTGGGAGGCCGAGGCAGGCGGATCACTGGAGGTTAGGATTTCGAGACCAGCCTGGCCAGCATGGTGAAACCCCATCTCTACTAAAAATACAAAAAT
TAGCTGAGTGTGGTGGTGCGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAG
ATCACACCACTGCACTCCAGCCTGGGCGACAAAGCCAGACTCCTCAAAAAAGACACAGCATGAGTGAGCCCCTAAGGCAGCAGTAGCCAGCCTTTTTGGC
ACCAAGGATTGGTTTTGTGGAAGACAATTTTTCCACAGACGGGGGCACGGGCACGGGGGATGGTTTCAGGATGATTCAAGGAYATTATGTTTATTTTGCA
CTTCATTTCTATTATTATGACATTGCAATATATAATGAAACAATGATACAACTCACCATCATGTAGAATCAGTGGGAGCCCTGAGCTTGTTTTCCTGCAA
CTAGACAGTCCCGTCTGGGGGTGGTGGGAGACAGTGACAGATCATCAGGCATGAGATTCTCATTAGGGGCATGCAACCTAGATCCCGTGCAAGCACAGTT
CACAATAGGGTTCACACTCCTGAGAGAATCTAATGCTGCCACTGCTGATGTGACAGGAGGTGGAGCTCACATGGTAATATGAGTGATGCGAGCRGCTGTA
AATACAGATGAAGTTTTGATTGTCRGCCTACTACTCACCTCCTGCTGTGTGACCTGGTTCCTAACAGGCCATGAATCAGTACTGGTCCATGGCCCTGGGG
GTTGGGGACCCCTGCTCTAAGGGACCTAATACTACAGCTGACACAGGGATCCCTTATCTCCCCAGCAAGGGGAGAATTCTGCAGAATGCATGCATGCATT
ACTATTTGTTTCTTTTCTTTCTTTTTTTTTTTGTTTTGTTTTTGAGGTGGAGTCTCACTCTGTCAGCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCA
CTGCAACTTCCGTCTCCAGGGTTCAAGTGATTCTCCTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGTGCCCACCACAATGCCTGGCTAATCTTTGTA
TTCTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTTCTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAATGCTGGGATTAC
AGGCGTGAGCCACCACGCCCGGCTCGTTGCTATTTATTTGTTATGGACATTTAGGCTGTGGCCCAGGGCTGACAATGATGATCACCACTCTGCCCCAGGG
CACCACTGCACCCAGACCTGACATAGAGCTGCTGCTATGGGGCCAGATTCCCCACTGCCTTGAGCCTTCCCTTAGTGCAGAGGCCCTGGGAGTTTCTCCA
CACAGACACTCTGAGTGCAAAGACAAGGTAAATTTAGAGCCGTGTCTGCCATTCATTTTTCCTGGGTCTATTATTTTGCAATTCTGATTACATAAGGTGT
GTGTGTGTATTTTTCTTTTAATTAATAGACTTAATTTTTTAAGAGCAGTTGTAACTTTATAAAAACCTTGAACAAAAAGTAGAGTTCCCGACCGGGCGTG
GTGGCTCACACCTGTAACCTTGGCACTTTGGGAGGCTGAGGCGGGAGGATTGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAATCAC
ATCTCTATCAAAACAAAAACAAAAACAAAAAAACCCCAGCCGGATGTGGTGGTGCATGCCTGTAGTCCCAATTACTCAAGAGGCTGAGGCAGGAGGATCA
CTTGAGCCCGGGAGATTGGGACCGCAGTGAAACATGATCGTGCCACTGTACTCCAGCCTGGGTGACAGAGCGAGACCCTGTCTCAAAACTAAACTTAACT
AAACTTTATCTATAGCTTACTATTGGCCAGAGTCAATCAACACAGATTTTGTACTTTCTATGCATGATATACTGTATTCTTACAATAATGTAAGCTACAG
GAAGGAAAATATTATTAAGAAAATCATAAGATTTTCTTAYGCTGGCAGGCGCAGGTAAAAAAAATCATAAAGAAGAGAAAATATCTTGACTGTTCGTGAA
GTGGGAATGGATCATTGTAAAGGTCTTCTTCCTTGTCATCTTCACGTTCAGTAGGCTGAGGAGGAGGAGGAAGAGGAGAGGGGGTCCTGCTGTCTTGCTT
GGGCAGAGGTGGAAGAAAATCCACACATCAGTGTTGTGGGCAGTTCAAACCTGTATTTCTCAAGGGTCAACTGTATATATGTGCATATATATGGATATGC
TGTGTACATGTGTGTTCATAGACATCTAGATACCCACATATACATATATATATATATATATATATATATATWTWTWTWTTTTTTTTTTTTTTTTTTTGAC
AGAGTCTCTGTCTCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCATCTCCTGGGTTCAAGCAMTTCTCCTGCCTCAGCCTCCCGA
GTAGCTGGGATTACAGGCACCTGCCACCATGCCTGGCTAATTATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGACCAGGGTGGTCTCGAAC
TCCTGGCCTCAGGTGATCCACCCTCTTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCATACACATCTATATTTAAGATACA
TCACCCCTCTGTTAACTTTGTGGACTGGTGGCAGGCTCACTGGCTGGGCTGTTTGCATCCTGGCCGCAATCCCAGCAGAGCCTCTGGCTCAAGCTATAGC
CCCAGCCTTGGCAGAAATGTCACCCCTAATGGAAACCAGTTGCCATCACAGCGCCCAGGGCCCTACCAGCCCATAAACCTCTCACACTCCTTTTCTGATC
ATATCGAGGCCCCTGGGGTTCAGCTTGGAGGAATCGTGGCGCCAAGGCTGCCTGTTTCCTGGGATTAACAGCCCTTTGCAGAGGTTGTAAGAATGAGAAG
TCAGACAGGATCATGCCCAGCTTGGCTGAACACACTGTTCTTCTTGTAATTCCATTAAACCAGTGGTGCAGGGTGGGGACGCTGGTGCTGGCCTCCTCCT
CAGGGGACAGGAAGGAACCTTGTGTTCTCAGCTGGCCAGACTGTTGTTCTGATTAGGGGGAGACCTGGCTCTGTCACTCAGATTTTGCTCCCCGGGTGAA
TCTCAATCCTGTTTGAGGTGGCTCAGAAACCCCAGCGCGTCCTACCCACCAAACTGCCATGAGGGGCCCGGGCACAACCTCAGGGCATGGAGGGAAGATG
GGTTCATGCTGGGGCCAGGCTGGGCATGGTGCAGGGACCTCTTCCTCTTCTTCTAGCGCCAGGGCCCCGGCAGGGGGGAACTGGGGGGCTCCACTCCCCA
CATCTTGGCACCCATCCTTCTGAACCTGTTTTGCTTGGTGAATGGGGGCGCTCACTCCAATCTTTTAAGGTTGTTTTGATGCCATAAATTTAGTAAAGAA
GAGGAGAAAGGTTTGTGCTCTCCTTTTCCCCCCAAGATCTCAAGCAGAAGGGGACTTCTGTTTGGGTGTCTTTTTATAAGGGGGACATTAATAAATTTAG
AGTGAAATTGAAAAATGTTAATATAATAAACAACCATGAGACTTTCACCTAGATTTATAAATTAATGCTTTGCCTATATCCTTTCATTCATCCCTCCATC
CACCCTCCATCTCTCTSTCCATCCCTCCATCTGTCCCTCTCTTCATCCCTCCATCCATCTATCCTCTCTCCCTCCATTCATTCACCCTTCCTCCCTCCCT
CCACCCATCCATCCACCTACTACCCTTTATCCACTCATCTTCCCTCCATCCATCCACCCTTCATCCATCCATCCATCCTCCATCTATCTATTCATCCATC
CATCCACCCTCCCTCTGCGCCTCCCTTCATCCATCCATCATCCATCCATCCATTTACTCTCCCTCCCTCCTTTCTTCCTTCCCTTCCTTCCTTTCTCCAC
CCATCTATCCACCCACTACCCCTATCCATTTATCATCCATCCATCCATCCTTCCGTCTGCCCTTCATCCACCCTTCATCCATCCATCCATCCATCCATCT
ACCCTCTCTCCCTCCTTCTTTTCCTCCTTTCTTTCTTTCCTCCACCCATCCATCCACCCACTACACTTACCTATTTATCTACCCTCCATCCATCCATCCA
TCCATCCGCCCTTCATCCATTCATCCACCCTTCATCCATCCATCCATACATGCACCCTTCATCCATCCATTCATCCACTCTCCCTTCATCCATTCTCCCT
CTATCCCTCCCTTCATCCATCCATCCATCTGCCAATTCACGCATCCATCTATTTCTCTACACATTTTTTGGCTGCAGCATTTGAAAGCAAGTTACAAACA
TGATAGTGCTTCACTCTTAAATACTTGACCATAATGTATACTTAAAAAAAGGCATTATTTTACCTGACCTCAAGGCCATTTTCTTAGGTCACACCTAAGA
AAATTACATTCACCAAATTATATTGTCTAATTCATAGGCAATATTCAGATTTTCAATGGGTACCCTAAAAATGTAATTTACATTTAGTGTTTGTTTGCAT
GCATATGTGACTGCATGATTGTATCACACATGTGTGACTACACATGAGTGTGCATGTGCATTTGTGTGAGTGTGTGTGCATGCTCACCCATGTGTATGTA
CTTGGTTTTTAGGGGTTTCACTATGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCTCTCTGCCTCAGCCTCCCAAGGTGTTGAGATGACA
GATGTAACCACCACACCCAGCCCCACTACTGTTAATAATTGGGTTGTTTATCTTTGTTGAGTCGTGAAAGTTCTTTCTAAATTCTGGATACTAGCCCTCA
TCAGATGTGTAATTTGCAGACATTTTCTCCTATACTATGGGTTATCTTTTCACTTTCCTGACAGTGTCCATTAGTGCAACAAAAAATTTTAATTTTGATG
AAATCCAATTTCTCTTTTTCTTTTGCTGCTTGTACTTCCGATGCCACATCTCAAAGAAACCATTGCCAAATCTAAGGTCATGATTTATCTCTGTGTTTTC
TTTTAAGAGTTTTATAGTTTCAGCTCTTACATTTAGGTCTTTCATCTGTTTTGAGTTAATTTTTTTATATGGTGTGAGGTAGGGATCCAAATTCATTCTC
TCTCTCTCTCTCTCTCTCTTTTTTTTTTTTTTTTTTGAGATAGGACCTTGCTCTGTCACCCAGGCTGAGGTGCAGTAGTGTGATCATAGCTCACTGCAGC
TCAACCTCCTGGGCTCAAGTGATCCTCCCACCTCAGCTTCCTAAAGTGTTGAGATTGCAGGTGTGAGCCACCACCCACAGACCAACTTCACTCTTTTGCA
TGTACCTATTCAGTTGTCTCAGCACTGTTTGTTAAAAAGACTATGCTTTCCCCATTGAATGGTCTTGGCACCCTTATTTCAAATCAGTTGCCCTTAGCTG
TCTGGATTCATTTCAGGGCTCTCACTTCTATCCCAYTGGTTTCTATGTCTCTCCTTATGCTGGTACTACACTGTCTTGATTACTGTAGCTTTGTAGTAAG
TTTTGAAATTAGGAAGTGTGAGTCCTCCAAYGTTATTCTTCTTTTTCAAGATTCCTGAGTCCTTTGTGTTTTCATATAAATTTTAAGATCAGTTCCATTT
CTGCAAAAAAGGCCATTGAGATTTTGATAGGCTTCCCCTAATGCTAACATCTTACAAGACTATGATCCATTTGTCATAACTAAGAATCAACACTGGACAT
CAGTGTTAACCAGACTCCAGATTTTATTTGGATTTCCCCAAGTTATCCCACTCATGGCCTTGTTTTCTGGTCCGGGATCACCTTTAGGGTCCCACGTCAC
ATTTAGTCATCACGTCTCCTTGGTCTCCTCCAATCTGAAAATTTTATTCTTTCCTTGTCTTTCACGACCTTGACATTCTTCTTTTTCCTTTCTTTGTTTT
TAATTAATTTATTTTTGAGACAGGGTCTTGCTCTGTCACTCAGTATATTAGTCCGTTTTCATGCTGCTGATAAAGACATACCCACGACTGGGTAATTTAT
AAAGAAAAATAGGTTTATTGTTATTTATTTATTTATTTATTTATTTATTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCACAATC
TCAGCTCACTGGAACCTCTGCCTCTCAGGTTCAAGCAATTTTGCTGCCTCAGCCTCCTGGGCTGGGATTACAAGCACCTGCCACCGTGCCTTGCTAATTT
TTGTATTTTTGTAGAGATGGGCTTTCCCCATGTTGGGGAGGCTGGTGTTGAACTCCTGACCTTAGGTGATCCGCTTGCCTTGGCCTCCCAAAGTACTGGG
ATTACAGACGTGAGCCACCATGCCCAGCCAGAAAAAGAGGTTTAATGGATTCACAGTTCCACGTGGCTGGGGAGGCCTTACAATCATGGCAGAAGGTGAA
AGGTACATCTTACATGGTGGCAGACAAGAGAGAATGGGAACCAAGTGAAAAGGRAAACCCCTTATAAAATTATCAGATCTCACGAGACTCATTCTCTACC
ATGAGAACTGTATTGGGGAAACTGTCCCCATGATTCAGTTATCTCCCACTGGGTCCCTCCCAGAACACATGGGAATTATGGGAGCTACAATTCAAGATGA
GATTTGAGTGGGGACACAGCCAAACCATAGCACCCGAGGCTGGAGGGTGGTGGCACAGTCATGGCTTACTGCARCCTTGACCTCCTGTGCTCAAGTGATC
CTCCTGCCTCAGCCCCCCTAGATAGCTGGGACTATGGGCTTGTGCCACCACACCCAGCTATTTTTTTTATTATTTTTTGTGGAGATGGAGTTTTGCCATG
TTGTTCAGGCTGGTCTTGAACTCCTGAACTCAAGCAATCTGCCTGCCTCAGCCTCCCAAAGTGTTAGGATTATAGGCATGAGCCACCACACTCAGCTGAC
ATTCTTCTTTTTGCTGCTCAAATTTTCCAAATTTGGCTGTGGGAGTCCCTTAGGCCCAGCTTCTTAAACAGGCAGATTCTTCCTTTAGGGGGAGGTAGAA
TGACATTTATTTTTCTTACTATATATTTTTTTAATTAAAAAATATTGATTGATTGATTGAGACAGGGTCTCACTCTGTTGCCCAGGCTAGGGTGCAGTGG
CATGATCATGACTCACCGCACATCGACCTCCCTGGCTCAAGTGATCCTTCCGCCTTAGCTTCCCGAGTAGCTGAGACCACAGGCACCCACCACCACATCC
ACCTAATTTTTGTATTTTTGTAGAGATGGGGTTTCACCATGTTGCTGTGGCGGGTCTTGAACTCCTAGACTCAAGCAATCCTCTCGCCTCGGCCTCTCAA
TGTGCTGAGATTACAAAGCATGAGCCACTGCGCCTGGCCAAAGTTTTTTGATTTTTTGTAGAGACGGGATCTCACTTTGTTGCCCAGGCTGGTCTCAAGC
TTCTGGGCTCAAGTGATCCACCCACCTCAGCCTAACAAAATACTGGGATTACAGGTGTGAGCCATGGCCCCTGGCCAGAATGACACTTATTAGCCACCTA
CAGTGTGCATTGTGTGATGTTGAGCATGACACACACATCATCTCATTGGAGCCTCAGGACCCTCTGTCCAGGAGATAACAGCCTTATTTTACAGGTGGGG
AAACTGAGGCTCAGAGAGGTGAAATGATTTGCCCAAGCTTCCACGGCAAGAATGTCACTCTTCCCCTACTCCAGATATCCCTCTTCTGGGCTTTCAGGGT
GATCCCAACATTTGGGGACAGTCACAGATTGCAAAACATGGAACAGAGGCGGGATTCCTAGGGCAAAGTGTTGGACATGGCCACACGCCAACCCCCTAGG
GAGATCTTAGGACCTGGGAGGCCTTAGCTTTCCTGATATCAGAATAATGGCAGCTTCAGGGTTCAATGTGGGGCCTTAGCATCAGTTCCCCTGAGTTTGA
ATCCTGCCCTACACTCATTGACATTGGGCAAAGAACCAAGGCCTCAGTTTCCAGTTTTCCCCTCTAGGAACTTGGGGACTATGATAGGACCCAACTCATT
GAGTTCATATCCTAAGAGAAGGCCCAGCCCACTTGTGGCATTAGCACGTTCAAAGTTAGGAAACARTATTTTATTTTTATTTTTTTTTGGAGACAGGGTC
TCACTCTGTTACCCAGGCTGGAGTGCAGTGGTGCGATCATGGCTCACTGCAGCCTTGACTTCCTAGGCTCAAGTGACCCTCCCACTTCAGCCCCCTGAGT
AGCGGGGACTACAGGCATGTGCCACCACGCCTGGCCAATTTTATGTGTGTGTGCTTTTTGTAGAGATGGGGGTCTCACTATGTTGCTCAGGCTGCTCTCT
AACTTCTGGACTTGAGCGATCTGTCCGCTTCAGCCCCCCAAAGTGCTGGGATTACAGGCGTGAGCCCAAAATACTGGGATCACGAGGTCAGGAGTTCGAG
ACCAGCCTGGCCAACATGGTGAAACTCCGTTTCTACTAAAAATACAAAAATTATACCGGCATGGTGGCGGGCGCCTGTAATAGCTACCCAGGAGGCTGAG
GCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGCGAGCTGAGATCTCACCATCGCATGCCAGCCTGGGTGACAAGAGTGAAACACTATCTTAAA
AAAGAAAACAAAAAACAAAAAAGCTAGGGGCCAGGACTGGATGCTGGGCACTCCGCTCCCTCAGCCATCCCAACCTCCCTCTGGCCCCAGAATGGCCGTC
TTCCTGTGGTGGGTTGCAACATTGGTRCGAGGCAGAGCCCCCCATGCTGCGTGTCTTCCATAGGTTGGGGAAGAAGCCTATTTTTCTGTGAAGTCCACAT
GTCCCTGCAACTTTACCCTGTACTACGAGGTGGCTGCACGGGGCAATATTGTGCTATCGGGCCAGCAGCCTGCCCACAYCACCCAGCAGCGMAGCAAGCG
GGCRGCCCCTGCCCTGGAGAAACCGATTCGTTTAACACACCTTTCTGAGACAGGTGAGCCGGGCAGCAGGGAGAAGGTTCCTGTTCTTCCTTCTGAACAA
TTGAGACTGAGATGGGTGCTCCTGCAAGGAGGGACAAGGCAAGACCCAGCAGAGAGGGGAGCATGCCTTGGGTCAGAGGGGAYACATCCTTAACRATACC
AGACTGGGTCCAGGAAGAMAGTGATCAGCTRCTGGAAGTGGAGAGGTTCAGGCCCCAGACTCTTCTCACTCTGTGTGTGCAGGGGACAGGGAAAGCCAGC
CACAGACTAGGCTCTTGCACTGGCCCACATTGTGCTGTTGCCTCTTTGCCCAGGYGGTTCTGCCTATGAGTCCTCTTCCTCTTCTCTTTTTGACACCATG
TGCTCCTCATAAGGCCCTCCTCCCAGGGGACTTCCTTAGTCCCCTCCTCTTCAAAGCTCTTCTTCTCAATACAGGGTCCCCAACTTGAGCACTATAGACA
TATATAAGGGGGTGGATCACTCCAGAGTGGGGGCGTCCTGTGCACTGTAGGGTGCTGAGCAGCATCCCTGGTCTCTCCCCACCAGATGCCAGTAGTACCA
ACTTTCCACAGTATGATGACCTAAAGAGTCTCCAGATATTGCCACTATCCCCAGGGGGCAGAGTCACTTCCAGGTGAGGACACTGAGATAGGTAGGTAGA
TAGAYAGAATGATGGGTGGATAGATAGATVGGCAGGATCTCTCAGGCKAAGGCAAGGTTTCTCAACCTTGGCACTATCAACATTTGGGCAAGATCATTCT
CTGTGGTGGAGGCACTGTAGGATATTGAGCAGCATCCCTGGCCTCCACCCCATAGATGCCAATAGCCCTATAGATGATAGAGGGATGGATCAATGGATGG
ATGGACAGATAGAAAGATGGATGAATGGATGGATGGATGGATGGACTGATAGAACAGTGGATAGATGGAAGGATGGATGGATGGATGGATAGGTGGATAG
ATGGATGAATGGACAGAGAGATGGATGGATGGATGGATGGACCAAAAGATGGATGGACAGAAGGATGGATGGATGGATGAATGGACAGATGGATGGGTGG
ATTGATAGATGGATGGATGGATGGATGGACCAAAAGATGGATGGATGGATGGATGGATGGATGAATGGACAGATGGATGGATGGACAGATGGATGGATGA
ATGGACAGATGGATGGCTGGATGAATAGATGGATGGATGAATAGATGGATGGAGGTACAGAAGGATGGATGGATGGATGGCTAATGGGTGGGTGGATGAG
GATTAGATGAATAGATGGATGGATGGATGGATAGTGGGTGGGCGGATGATGACTGGATGAATAGATGAATGGATGGATGGATAGTGGGTGGATGGGTGGA
TGATGGATGGATGAATAGATGGATGGTTGGATGGATAGATGGATGGATAGTGGGTGGATGAATGGGGGATGATGGATGGAAGAATAGATGGATGGATAGT
GGGGTGGGTGGATGAGTGGATGATGGATGGATGAACAGATGGATGGATGAACAGATGGATAGATGATTGGATGGTGGATGGRTGGGTGGATGATGGATGG
ATAAATGGATGGATGGTGGGTGGGTGGATGATGGATGATGAATAGAGGGATGGGTGGATGGTTGGATGGGTGGATGATGGATGGTTGATGAATAGAGGGA
AGGGTGGATGGTGGGTGAGTGGATGGATGGGTAGATGGTGGATGGATGAAGAGATGGATGGATGGATAGATAGAAAGATGAGTGGATAGATGGATGGATG
GATAGATAGACAGACAGAGAAGATCCCTCCTTCTTAGGCAGGCTTTCTCACCCTCTGCACTGTCAACATTTGGGACCATCCCATGCACTGTAGGATGCTG
AATAGCATCTCTGGCTTCTATTCACCGGAAGCCAGTAGCATCCCCTCCAGCAGTGATGACCAAAAAACATCCGCAGAYATTGCYAGCATCCCCTGGGTAG
CAGAATTGCCTTGGCTGAGAACTGCTGGCCAGAGTCCTGCTTTGGGCATGGTGCACCTTCACCCTCTTGGTCTTCTCTTCTCTTCTGGGTGAAATAACAG
GGACTTTATGTCTCCCTGGAATCCTTGTCCAGGGCCAGCCCTGGGCTTGGAACTCCCCACAATCTGTCCCCATTTAACCCCACTGCAGCCTGGGATGGTG
GTGGTTCCACTGTGTCCATCTGCAGATGAATGGGCTGTGACTTGGGGGTGGGGGTTTCAGGGACTTTCCCATTGCCTAGTAGGGGCCAGAGCCARGATTT
GAACCCCAAGGCCGATTGGGTACCCACTTCCTCCTGTTGSCCATGAGTTTCCTTGTGTCCCCGCTTTCCCCTACCATCCCTGTCCACTGGCTGCTCTGAG
CTCTGCACAGAACCAGCTGACAGATGGCCCATTCTGGAACTGGGAGCCTTTCTACCCTCATTCTCTTGCCGTAGAGTATTTGGGAGTGCCTGGACAGGCT
TCTAAGATCCTCTATCCTTTAAGGATCATTTACCCACAGGGAAGGCAGTATGAACTCGGTTCAAGTCAGCAAATAATGGCTGCCCAGGTCTGCTGGCCCC
AGGCCCCAGCAAGACAGAGCCAATCAGAGGGAGGGACTGGAGGTCAGGGGCATATTGGGGAGCTGCAGTGGTGCTGCCTGGACAAGCCAAGGTGGTTTTG
GTGTCCGCGGAGGAAGCAGAGGGCTGGTCAGGGAGCAGGGACCATGTTCCCCGGCAGAGAGGATGATTCTAGGCAAATTCCAGCCTGCTCTGTAGGAGCC
CATGGTGACCCTAGAGCTGAGTCAATAGAAAGAGTCAGCATTGACTGAGGATGTAGCCTGGGAAGGGCATCTCAAAACCAAAGATGCAGACTGTCTCAAT
GYGTAGACAGGAGCATAGCGCAGGGCAAATTGGGGCAGAGCCTGAATGGCTGAGGTTGCATGTCGGATGCGGAGAATTCACCACCTCTCTCTACTTTTGC
TCACCTCAGAGCCCCCACCAGCCCCAGAAGCTGAGGTCGAMGTGTGTGTGACCTCTCTTCRTCTGGCCGTGACCCCCAGCATGGTCCCCCTTGGTCGCCT
GCTGGTCTTCTACGTCAGGGAGAATGGAGAAGGGGTCGCCGACAGCCTTCAGTTTGCAGTCGAGACCTTCTTCGAAAACCAGGTAGAGCATCGTGCACTG
AACCTGGGACACAGCCAGGGGCCATCGGGGCTTCTCCARGGTGCTGGCCAGGGGGTCTGTGCACACCTGAGACTCATGTTGTGTCGCAGCATGATGTAAG
GAATTATGGGAACATGAGTTGCATCTTTACTGAAGCATCTCCAAARGTCACACAAAAGGAGATTGCATTCAAAACACATRGGGAAAGCCATCAATTATTC
TCTGCSTTTGTTGAATTCAGGATTTAAGGGACAGCACTTGTTTCCATYGGCACCCTCAGCCTCCTCTCCCCCTCCCTGCAACAACTTTATTATTATTATT
ATTATTTTGAGACGGAGTCAAGCTCTGTCACCCAGGCTGGAGTGCAGTGGCAYGATCTCGGCTCACTGCARCCTCTGCCTCCCGGGTTCAAGCAATTCTC
CGGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGCATGTGCCACCATGTCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACYATGTTGGCCA
GGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCACATGCTTCAGCCTCCCGAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCTCCTCCCTGCA
ACTTGTAAACAAACTGCCACAGGCTCTCCGCCAGCACCTGCCTTCCCATCTCTGCCTGTCCCTCTGTGTTCCCTTCTTTGTGCCCGCTGCACAATGACCA
GCTGCCCTTCACAGTGTGGGACCAGTTTCACCCAGGTAGCGAGGCCAGGTTCCCAGCTGAGCTGGCAAAGACCCACTCTCCTTGGTGGGCAGGGGGTGCA
TGGGTGGGGCAGAAGAGATGCCTCTGGACTAGACCAAACCTGGATTGAACCAAGTTTCTTTTTTTCATTGTTTGAAATGGARTTTCATTCTTGTTKCCCT
GGCTGGGGTGCAACCACACTCTCTCAGCTCCCTGCAACCTCTGTCTCTGGGCTTCAAGCGATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGG
CACCTGCCACCATGCCCAGCTAAATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCARGMTGGTCTCGAACTCTTGACCTCAGGTGATCCA
CCCRCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACTCACAGCCAACTGAACCAAGTTTCTTATCCCTTGCTGCATTTGCGCCAAGGT
TTCAGTGACGTATTCAGCAAATGAGACCCAACCTGGGGAGGTTGTCGACCTGCGGATCAGGGCTGCAAGGGGCAGCTGTGTGTGCGTCGCCGCAGTTGAT
AAGAGTGTCTACCTGCTCAGGTCTGGGTTCCGGCTGACTCCTGCCCAGGTGAGCAGACCCCTCGGGCTTGGGTTCTAGACCTCCACRGGGCTTTACCTTC
TCTTGCTCTCCCTTTCCCATCTCTCATTCCAATAAATGAAGAGTGGCATTTGAATCCAGATTCGCTTTCTCCGTCGGGTTCATTTTTCAGGGAACCTAAT
GGGTGTCTGATAAATCCTTCCTGCTGCTTCAGCACAGTTGCAAGATCAGGGAGTCAAGGTCATCAGATTTTTGCAACATGACATTGGGCCAGGTCTCACC
TCTCTGGCTCCAATTTGCCCATCTTATTTTATATTATTTTTAGAGTTGGGATGTTGCTCTGTTGCCTGGGCTGGAGTGCAGTGGCGTGATCATAGCTCAC
TGTAGCGAACACCTCCTGGGCTTAAACGATCCTCCCACCTCAGCCTCCAGAGTAGCTGGGGCTACAGGCATGCACCACCACGCCTGGCTAATTTTTTCTA
TCTTTTGTAGGGGYGGGGTCTTGCTATGTTGCCCAGGCTGGTCTCRAACTCCTTTGCACAAGCCAGCCTCCWGTTTCAGCCTCCCCAGTAACTGGGATTA
GAGGCATGGGCCACTGTGCCTGGCTCCTGTTTGCCCATCTTAAAATGGGCTGATGCTACCAGTGCCCATCTCCTGGAGGTTGTCATGACGTGATAAAGAG
GTTGGGATGGGAGCATGCCACACCCACGGGAGCCAGTTTGGGTTGTAAAGAAAACTTCAGCTGACAAGTCTCTGTCCCCCTTTGCCTGCAGGTTTTCCAG
GAACTGGAAGATTATGATGTTTCTGATTCCTTTGGCGTGTCCAGGGAGGATGGTCCTTTTTGGTGGGCTGGGCTGACGGCACAACGACGCCGGCGCTCCT
CTGTCTTCCCGTGGCCTTGGGGCATCACCAAGGACTCTGGGTTTGCCTTCACCGTAAGGAGAGGTGGTCTCAGATCCCTCTGCCCCCTTCTAAGKTCCTC
TTGCCTAGAAATAAGAGTCTTGGAGATTCAGAAATGGGTTGGAAACAGAATTGGAAGCTTTTCTTTCTTTTTTTCGAGATGGGGTCTCGCTCTGTGGCCC
AGGCTGGAGTGCAGTGGTGTGATCATAGCTCACTGCAGCCTCAAACACCTGTGCTCAAGTGATCCTCCCACCTCAGTCTCCCAAGTAGCTGGCACTACAG
GTGCATGCCACCACACCTGGCTAATTTTATTTTGCTTTATTTCTTTGTAGAGATGGGGTCTTGCTACGTGGCCCTGGCTAGTGTCAAACTCCTGGCCTCA
AGCAATCCTCCTGCTTCAACTTCCCAAAGTGTTAGGATTACAAGCATGAGCCATTGCACCCAGCCTTCCAAACTTTTCTTTTTCATTTCTCCCCAGTGAA
AGCTCACAAGTAGATTCTTCCAATTTGCAAAGCCGTGGAGAGCAGAATGTTATGCATGTCAATGGTCAGGTTCAAATGGGTAACTTGAACTTGTGATGGG
ACGTGTTATGACATTGACRTGCTTTGCTGCGAGGAAAACCTTCTCATTGGGAGCTGTGGGTGCCAGTAGCTCTTAGCTCTGCCTCGGCTTTGGTTAACTT
GGTTGTGTGTCTGGCAGCTTTCAAGCAGAAGGAGGTGGCTGTGATCCCAGGTGGCAGGGGGTCTGAACTGCATAGGTGATCCTCGTGCCCCAGCCTCCCT
AGTCGCTGGGATTAGAGGCATGAGCCACTGTGCCCAGCTCCAGTTTACCCATCTTAAAAAGGGCTAAKGGGGCGCCTGTAGTCCCAGCTACTCGGGAGGC
TGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTC
AAAAAAAAAAAGGGCTAATGCTGGCTGAGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACAAGGTCAAGAGATC
GAGACCATCCTGGCCAACACGGTGAAACCCCCTCTCTACTAAAAACACAATAATTAGCTGGGCGTGGTGGTGCATGCCTGTAGTCCCAGCTACTTGGGAG
GCTGAGTCAGGAGAATCACTTGAGCCCGGGAGGTGGAGGTTGCAGTGAGCAGAGATCACATCACTTCACTCCAGCCTGGTGACAGAGCCAGACTCCGTCT
CAAAAAAAAAAAAAAAAAAAAAGGGCTAATGCTATCAGGTGCCCATCTCTGGACGTTTTCATGATGTGATATAGATAGAAAGGGATTGGGATGGGAGCAT
GCTTCGCCCTTCAGGGTCACACCTTAGGGTGCTGGTGGTCTCCACTCAAATGCGTGTCCCATTGGAGGGTGCCTTTCATTTCAGCTTTAAAAAATATTTC
TGGCCAGGTGTGGTGTCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGACACGTGGATCACCTGAAGTCAGGAGTTCGAGACCAGCCTGGCCAACA
TGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTATCTGGGTGTGGTGGTGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTAAGGCAGGAGAAGCTC
TGGAACTGGGAGGCGGAGGTTACAGTGATCACGCCACTGCACTCCAGCCTGGGTGGTAGAGCGAGACTCTGTCTCAAAAAAATGAAATTAAATAAATAAA
TAAAATTTCAAAGGCATCCTTCCCTCCCCAACCTGTGTTGCTTTTATGATGAAAATTTCCAAACATGCAGAAAAGTTGAGCGAATTAGACAAATACCCAC
ATGCCTGCCACCTAGTTCCCACAGTTCTATTTGCTAAAAACAAAACAAACAAACAAAAAAATCTCTTATTTTTCTTTTTTTGAGACAAGATCTCACTTTG
TCACCCAGGCTGGTATGCAGTGGCGTGATCTCAGCTCACTTCAGTCTCGACCTCCTGGGCTCAAGCGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGA
CCACAGACACACGCCATCATGCCTCGCTAATTTTTTTCGTATTTATAGAGATGGGGTTTCACCATGTCACCCAGGCTAGTCTTGAACTCCTGGGCTTAAT
GGATCCACCCGCGTTAGCCTCCCGAAGTGCTGGGATTACAGACATACACCACTGTACCTGGCAAAATAAACCTTTGTGTTTTGTTTTTTGTTTTGAAAAA
TAACATTTCATTTATGAGTATGTGAACTGCCTGGCAGTTTGAACTCCAGGTCCCTTCTGGAAGTCAGAGGTGACGCCTTTGAGTCAAAGGAACTGGGTTT
GAATTTCTTATTCAAAGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGACGGGCGGATCACGAGGTCAGGAGATCGAGACC
ATCTTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCAGTAGTCCCAGCTACTCAGGAGAATGA
GGCAGGAGAGAATGGCATGAACCTGGGAGGCGGAGCTTACAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCTAA
AAAAAAAAAATTCTTGTTCACAAATCCAAGTCAGCCCAGGCTACAGTGAGTCTTCTTTCAAATCCAGTTGCTCCCAGTAATTAGTACAATGATGAGGACA
GAATAAAAAGACTAATTGCATAGCCGGGCATGGTGGTGCACTCCTCTAGTCCCAGCTACTCAAGAGGCTGAGGTGGGAGGATCACTTGAGCCTGGGAGTT
TGAGGCTGCAGTGAGCTATGATTGCAGCACTGCACCCCAGCCTGAACCACAGATGGAGGCCGTCTCTAATAATACTAATACTAATAAAAGAGATCATTGC
ATCCCACCGTTGGTCCTTGGTTGGGGTCAGGTACTGCGCCAACTGATTTCCTCCCCTGCTCTCCCCTCACTTCCCCTTCCTTCTTTTCTTTTCTTTTTCT
TTTGAGATGGAGTCTTGCTCTATTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCCAGTGATTCTCCTGCC
TCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCCACCACCATGCCTGGCTAATTCTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTGGCCAGGCTG
GTGTTGAACTCCTGATCTCAAGTGATCCGCCCACCTCGGCCTCCCAAAATGCTGGGATTACAGGCATGTGCCACTATGCCTGGCCATGATTTTTCTAATC
GAGATGAAATTCATATAACATAAAACTCACCGTTTAAAATTCAGTGGCATTTATTATATTCACAGTGCTGTGCAACCACCACCCCTACTTAATTCCAGAC
CATTTTCATCCCCCAAAAGGAAACCCCATCCCCAGTAGCAATTACTCCCCATTTCCCCTCCCTCAGCCCCTGGCAGTCACCAGTTGATCTGCTTTCTGTC
TCTATGGATTTGCCTGTTCTGGGCGTTTCATCTCAACGGAATCATACAACATATGGCCTTTTGTGTTTGGACCATCTGATTTGGTTGCACAGTTCAAATG
TGCTGTTCTCTCTTCTCCACCCTGGATGGTCACTGGGTCCCACGTTCTCCCCAGCCTGTGCCACCAAACCCAGAGTAAAAGAATGATGCCCCATGGTGAC
GGGCACCTGTAGTCCCAGCTACTAGGGAGGCTGAGGCAGGAGATAGGCGTGAACCTGGGAGGTGGAGCTTCCAGTGAGCCAAGATTGCGCCACTGCACTC
CAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAACAACAAACAAACAAAACAAAACAAAACAAACCCAAAAAAGCAAAAAAAGAATGATGCCCCCAA
GGTTGCCACAAGCTGATATTGGGACAGTGGCCACAGGGTGATTCATTCCCTTATGCTTCTGGGGGCTGTCAGCATCCACTTCCCCACCAATGGTTTGGGT
GTTGTCTGTTGCCTAGGAAACGGGACTGGTGGTGATGACCGAMCGAGTGAGCCTGAACCACCGGCAGGACGGTGGCCTCTACACCGATGAGGCTGTCCCC
GCTTTCCAGCCCCACACAGGGAGCCTGGTGGCAGTGGCTCCTTCCAGGCACCMCCCCAGGTAACGGCTTATACATTGAGCAAGGTTTTCTAACCCTGGTC
CTATTAACATCTGGGGCTTGTCTTTGTCCTTCCTGGCTGCTATAACAGAAGACCATAGACCGAGTGGCTTATAAACAACTGAAATTTATTTCACATGGTT
CTTGGGGCTTGGAAGTCCAAGAACAGGGCACCAGCTGATTGGGTGTCTGGTGAGGGCTCACTTCCTGCTTCATTGATGGTGCCCTCTGGCTTCTTGCTGT
ATCCTCATATGGCAGAAGGAGTGAGGGAGCTCTCTGGAGCCTTTTTTTTTTTGAGATGGAGTCTCACTCAATCTGTCCCCCAGGCTGTGTGACCACACCC
CCAGTGGTGTGATCTTGGCTCCCTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCCACC
ATGCCTGTCTAATTTTCGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCATGAACTCCTGGCCTCAAGTGATTTGCCTGCCGCAGC
CTCTCAAAGTGCTGGGATTACAGGTGTGAGTCACTGTACCTGGCCTGGAAGAAAATTTTAACTAAATAACAGGTGTCTTTCTCTCTTTCTTTCTTTTTTT
TTTTTTTTWTTGAGACAGAGTCTTGCTCTGTCTCCCAGGCTGGAGTGCAGTAGTGCGATCTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATT
CTCCTGCCTCAGCCTCCTGAGTAGCTGAGACTATAGGCGCCCGCCACACCCCGCTAATTTTTTTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTG
TGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATTCGCCCACCTTGGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCAATA
ATAGGTGTTTTTAAAGTATAATATTAACAACTGCTATTAGTAAGTTTTTCGTTGTTTTTGTTTTTTTTTTTTTTTTGAGATGGAGCCTGGCTCTGTTGCC
CAGGCTGGAGTGCAGTGGTRCGAGCTTGGCTCACTGCAACCTCCACCTCCCAGATTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACA
TGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGATTTCACCATGTTAGGCACACTGGTCTCAAACTCCTGGCCTCAAGTGATTTGCCTG
CTGTGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCTCTGCACCCGGCCTAGAGTCCCTTTTATAAGGGCCCTAATCCCATTCATGAGCAATCCACT
TTCATAACCTGATCATCTCCTAGAAGCTTCACCTCAACACCATCACCTCGGAGGTTAAGATTTGAACATATGAATTTTCAGGGGGATGCAAACATTGAGT
CCATTGCAGGGTAGGATTATTCTGTGCACTGTGAGGGGTGTCCTCTGCACTGTAGAGTGTTGAGCAGCATCCCTGACCTCCACCCACTAGATGTCAGTCA
CACTCCTTCCCAGTTGTAACAACCAACAATATCTCCAGACATTGCCCAATGTTCCCTGGGGGCCATTGGCATAGCAGGCTAGGACACTGATTGCTTCATA
TACCTCCTCCCTACCCAATTCTTAGCCCTACCCCAGTGCACAAGATTAGGGATATGGAAGAGAGAAGAAAATGAATCAGGAGAGCTGACCTGTCTGAGGA
CAGAGGGATCTGGGCAGGGTGAGAACCTGGGGCTTGATCTCCCAACTCTCAGAGACTCTGTTTAGAGAGTTCTTTATTTTGTCCTTTCTCCTTCCTCTCA
TCCTTCCCTCCTCTTCCTTTTACTCTGTTTCTCCTTCTTCTCCAACTCTACCTTCATGAGTTGACACAAAGTAATTACTTTTCAGTCTTTCTCATCTTAA
ATATAAACACTTGGCTGGGCACAGTGGCTCATGCCTGTAACCCCAGCACTTTGGAAGGCCAAGGCAGGCAGATCACTTGAGCCTAGGAGTTTGAGACCAG
CCTGGGCACATGGCAAAACCTTGTCTCTACACAAATACAAAAATTAACCATGTGTGGTGGCTCATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGACTG
GAGGATTGCTTGAGCCTGGGAAGGTTGAGGCTGCAGTGAGCTGTGATTGTGCCACTGCACTCCAGCCTGAGTGACAGAGTGAGACTCTGTCTCTAATTTA
AAAATAAATAAATAAATAAATAAAAACACTTAAGCCATTAGAGGATTATGAATTTTCCTCTGAGTACTGCTTTGGCTGCAGTCACATTGTGCTATGAAGT
ATTTCCAGTATTGCTCACTGCCAAATAGGTTCTAACTTTTGGAATGATGCCCATTTTGATGTATGACCTGTCCAGGAAACCTCTTGATTTGGTGGCCAGC
CCTGATGAGCCTGTCCATGGAAGTGTTCTCCATCTTTCAAGCCCTCTCTATATAAAACAGGAACCTTCTTGTGCCCCTCCGTCTGCTCCCCAGTGGCTCC
TGGATGCTTCAGTCCCCCAGGCTCTTCCTGCTGGGGCCACACGTTTAGCAGGCCTACAGGGTTCCTAGTTTCCCAACTCCTAATCGGGGAATTGGCAGAT
TAGGCTTCATACTGTAGTTTGGATACACATGGAAGCATTTCAAGATGTGATTGGATGAGGAAGATTGGAATGCTGGCCCCAGGGCCTCTGTCAGCTGGCA
GCCACCCCAGAGGCCCTGACCCACTCACATGCATAACCCCTGAGAGCTTGTCCTGGGGCTGGTATAGAAGCAGCAGCTTTGTAAAACTCAAAACCATGAA
GGCAATTGTAAATCACAATGGAGAAAGGCATAAGAAATGCCTTCAAAATCAAGTGCCCATGCTTTTTTGTAATTGGAACAAACACATCCTTATTCTGAGA
GCAACATGTATATATATACACACATGTGTGTGTATATATGCACATATATACACACACATGTGTGTGTATATATGCACATATATACAAGTATATACACGCA
CATATGTGTGTATATATATACATATATATATATTTTTTGGTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGTAGTGGCGCCATCTTGGCTTACT
ACAAGCTCTGCCTACCGGTTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTACCTGGGACTACAGGCACCCACCACCATGCCTGGCTAATTTTTGTTGT
ATTTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCCATCTCCTGACCTCATGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTA
CAGGCATGAGCCACTGCACCTGGCCATATATTTTTAATTATATATGTATTTTCTTTTTTTAAAAAATTATACTTTAAGTTCTAGGGTACATGTGCACAAT
GTGCAAGTTTGATAGGTATACATGTCCCATGTTGGTTTGCTGCACCCATCAACTCATCATTTACATTAGGTATTACTCCTAATGCTATCCCTCCCCCGGC
CCCCCACCCCCCGACAGGCCCCAGAGTGTGATGTTCCCCGCCCTGTGTCCAGGTGTTCTCATTGTTCAGTTCCCACCTATGAGTGAGAACATGCAGTATT
TGGTTTTCTGTCTTTGTGATAGTTTGCTGAGAATGATGGTTTCTGGCTTCATCCATGTCCCTGCAAAGGACATGAACGCATCCTTTTTTATGGCTGCATA
GTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCACA
ATAAACATACGTGTGCATGTGTCTTTATAGTAGCATAATTTATAATCCTTTGGGTATATATCCAGTAACGGGATTGCTGGGTGAAATGGTATTTCTAGTT
CTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAATTTACACTCCCACCAACAGTGTAAAAGCATTCCTATTTCTCCACATCCTCT
CCAGCATTTGTTGTTTCCTGACTTTTTAATGATCGCCATTCTAATTGGCATGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGT
GATGATGAGCATTTTTTCATGTGTTGGATGCATAAATGTCTTCTTTTGAGAAATGTCTGTTCATATCCTTTGCCCACTTTTTGATGGGGTTGTTTGTTTT
TTTCTTGTAAATTTGTTTGAGTTCTTTGTAGATTTTGGATATTAGCGCTTTGTCCGATGGGTAGATTGCAAAAATTTTCTCCCAATCTGTAGGTTGCCTG
TTCACTCTGATGGTAGTTTCTTTTGCCATGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCTATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTT
TAGTCGTGAAGTCTTTGCCCATGCCTATGTCTTGAATGGTATTGCCTAGGTTTTCTTCTACAGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAAT
CCATCTTGAATTAATTTTTGTATAAGATGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTACCCAGTTTTCCCAGCACCATTTATTAAATAGC
GAATCCATTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGCGTGGTGTTATTTCTGAGGCCTCTGTTCTGTTCCATTGGT
CTATATATCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAACTCAGGTAGCGTGATGCCTCCCGCTTTGTTCTT
TTTGCTTAGGATTGTCTTGGCAATGTGGGCTCTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGA
TGGGGATGGCATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTAACTATATTGATTCTTCCTATCCGTTAGCATGGAATGTTCTTCCATTTGTT
TGTGTCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTATCTTT
GTAGCAATTGTGAATGGGATTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTAATTGGTGTATAGGATTTTTGTGATTTTTGYACATTGATTTTGTATC
CTGAGACTTTGCTGAAGTTGCATATCAGCTGAAGGAGGTTTTGGGCTGAGATGATGGGGTTTTCTAAATATACAATCATGTCATCTGCAAACAGGGACAA
TTTGACTTCCTCTTTTCCTGATTGAATACCCTTTATTTCCTTCTCTTACCTGATTGCCCTGGCCAGAACTTCCAACACTACGTTGAATAGGAGTGGTGAG
AGAGGGCATCCTTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCCCTTA
TTATTTTGAGATATATTCCATCAATACCTAGTTTATTGAGAGTTTTTAGCATGAAGGGCTGTTGAATTTTGTCGAAGACCTTTTTTTTTTGAGATGGAGT
CTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATATCGGCTCACTGCAAGCTCTGCCTCCCAGGTTCACACCATTCTCCTGCCTCAGCCTCCTGAG
TAGCTGGGACTACAGGCGCCCGCCACTATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTATCAYCGTGTTAGCCAGGATGGTCTCGATCTCC
TCACCTTGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGTGCCCAGCCCGAAGACCTTTTTTGCATCTATTGAGATG
ATCATGTGGTTTTTGTCAATGGTTCTGTCTATGTGATGGATTTCGTTTATTGATTTGTGTACGTTGAACCAGGCTTGCATCCCAGAGATGAAGCTGACTT
GATCGTGGTGGATAAGAAGCTTTTTGATGTGCTGCTGGATTTTGTTTGCCAGTATTTTATTGAGGATTTTTGCATCGATGTTCATCAAGGATATTGGTCT
AAAATTCTCTTTTTTTTGTTGTGTCTCTGCCAGGCTTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCTTCTTTTTCTTGATT
AGAATAGTTTCAGAAGGAATGGTATCAGCTCCTCTTTGTACTTCTGGTGGAATTCAGCTGTGAATCCTTCTGGTCCTGGACTTTTTTTGGTTGGTAGGCT
ATTAATTATTGCCTCGATTTCAGAGCCTGTTATTGGTCTATTCAGAGATTCACGTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCCAGGAATTTA
TCCATTTCTTCTAGATTTTCTGGTTTATTTGCGTAGAGGTGTTTACAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGATATCCCCTT
TATCATTTTTTATTGCGTCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGTGGTCTATCAATTTTGTTGATCTTTTCAAAAAACCAGCT
CCTGGATTCATTGATTTTTTTGAAGGGTTTTTGTGTCTCTGTCTCTTTCAGTTCTGCTCTGACCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATTT
GTTTGCTCTTGCTTCTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCGATTTTAGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCC
CTCTACACACTGCTTTAAATGTGTCCCAGAGATTCTGGTGTGTTGTGTCTTTGTTCTCATTGGTTTCAAAGAACATCTTTATTTCTGCCTTCATTCCGTT
ATTTACCCAGCAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTGGTTGTGTGGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAATTTGATTGTGCTG
TGGTCTGACAGTTTGTTGTGATTTCTGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAATTATGTGGTCAATTTCAGAATAAGTGTGATGTGATGC
TGAGAAGAATGTATATTCTGTTGATTTAGGATGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGAGTTCAATTCCTGGATATCCTTG
TTAACCTTCTGTCTCACTGATCTGTCTAATATTGATAGAGGGGTGTTAAAGTCTCCCATTAGTATTGTGTGGGAGTCTAAGTCTCTTTGTAGGTCTCTAA
GGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGCATGCATATACATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATTCCTTTACCATTATGTAATG
GCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTGCTTTCCATTTGCTTGGTAG
ATCTTCCTCCATCCATTTATTTTGAGACTATGTGTGTCTCTGCACATGAGATGGGTCTCCTGAATACAGCACAATAATGGGTCTTGACTCTTTATCCAAT
TTGCCAGTCTGTGTCTTTTAATTGGGGCATTTAGCCCATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATATTAGCTGG
TTATTTTGCCCATTAATTGATGCAGTTTCTTCATAGCATCAACGGTCTTTACAATCTGGCATATTTTTGCAGTGGCTGGTACTGGTTGTTCCTTTCTATG
TTTAGTGCTTCCTTCAGGAGCTCTTGAAAGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGATTTTATTTCTCCTTCACTTA
TGAAGCTTAGTTTGGCCGGATATGAAATTCTGGATTGAGAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTAGGGTTTC
TGCCAAGAGATCTGCTGTTAGTCTGATGGGCTTCCCTTTGTGGTTAACCCGACCTTTCTCTCTGGCTGCTCTTAACATTTTTTCCTTCATTTCAACTTTG
GTGAATCTGACAATTATGTGTCTTGGGGTTGCTCTTCCTGAGGAATATCTTTGTGGTGTTCTCTTTATTTCCTGAATTTGAATGTTGGCCTGCCTTGCTA
GGTTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCCATCACTTTCAGGTACACCAATCAGACGTAGATTTGG
TCTTTTCACATAGTCCCATATTTCTTGGAGACTTTGTTCATTTCTTTTTACTCTTTTTTCTCTAACCTTGTCTTTTTGCTTTATTTCATTAATTTAATCT
TCAATCACTGATACCCTTTCTTCCACTTGATCGAATCGGCTATTGAAACTTGTGCCTGCGTCACAAAGTTCTCGTGCCATGGTTTTCAGCTCCATCAGGT
CATTTAAGTTCTTCTCTATGCTGTTTATTCTAGTTAGCCATTCGTCTAACCTTTATTCAAGGTTTTTAGCTTCCTTGCGATGGGTTTGAACGTGCTCCTT
TAGCTCAGAGAAGTTTGTTATTACCAACCTTCTGAAGCCTACTTCTGTCAATTTGTCAAAGTCATTCTCCGTCCAGCTTTGTTCCATTGCTGGCAAGGAG
CTACTATCCTTTGGAGGAGAAGAGGCGCGCAGGTTTTTAGAATTATCAGCTTTTCTGCTCTTGTATCTCCCCATCTTTGTGGTTTTATCTACCTTTGGTC
TTTGATGCTGGTAACCTACAGATGGGGCTTTGGTGTAGATGTCCTTTTTGTTGATGTTGATGCTATTCCTTTCTGTTTGTTAATTTTCCTTCTAACGTCA
GGTCTCTCAGCTGCAGGTCTGTTGGAGTTTGGTGGAGGTCCACTCTAGACCCTGTCTGCCTGCGTATCACCAGTGGAGGCTGCAGAACAGCAAATATTGC
AGAACAGCAAATATTGCTGCCTGATCCTTCCTCTGGAAGCTTCGTCTCAGAGGGGTACCCGCCTATATGAGGTGTTTGTCGGCCCCTCCTGGGAGGTGTC
TCCCAGTTAGGCTACATGGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGTCCGTTCTCAGAGCTGAAACGCCATGCTGGGAGAATGACTGCTGTCTTCA
GAGCTGTCAGACAGGGACGTTTAAGTCTGCAGAAACTGTCTGCTGCCTTTTGTTCAGCCATGCCCTGCTCACAGAGGTGGAGTCTATAGAGGCAGTAGGC
CTTGCTGAGCTGCAGTGGGCTCCGCCCAGTTTAAGCTTCCCAGCCACTTTGTTTACTTACTCCAGCCTCAGCAATGGTGGGCACCCCTCCCCCAACCAGG
CTGCCACGTCGCAGTTCGATCTCAGACTGCTGTGCTAGCAGTGAGCAAGGCTCTGCGGGCGTGGGACCCGCCCAGCCAGGCATGGGAGAGAATCTCCTGG
TCTGCTGGTTGCTAAGACCATGGGAAAAGCTCAGTATTTGGGCGAGAGTGTCCTGTTTTTCCAGGTACAGTCTATCCCGGCTTCCCTTGGCTAGGAAAGG
GAAATCCCCTGACCCCTTGTGCTTCCCGGGTAAGGCGACACCCCGCCCTACTGCGGCTCATCCTTCATGGGCTGTACCCACTGTCCAACCAGTCCCAATG
AGATGAACCAGGTACCTCAGTTGGAAATGCAGAAATCACCCATCTTCCGTGTCAATCACACTGGGAGCTACAGACTGGAGCTGTTCCTATTTGGCCATCT
TGGAATAGCCCCAACATATTTTTTTAACCATGTAAATGTGGTTAACATTTTTTTCAAGCAGTAGAAGAGGATATATAATGAAATTTAAGTCTCCTTCCCA
CCCTCAGACCCTCCATTCCCTTCTTCAGAAGGGAAAGCTGAATAATTTTTTTTTTTTGAGGAGGAGTCTCACTCTGTTGCCCATGCTGGAGTGCRGTGAT
GGGATCTCAGCTCACTGCCTTCCATGTTCAAGTGATACTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCCTGCACCACCAAACSCGGCTAACTT
TTGTATTTTTAGTAGAGAGGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCCAGTGATCCACCCACCTCAGTCTCCCGAAGTGCTGG
GATTACAGGTGTGAGCCACTGTGCCCAGTCTGAATAATTTCTTAGATATTCTTCTGTGCATATGTAGGATTAAAAAAAAAAAGAATAGAAGAATACCATA
ATGTCATTTTGTACATTTCTTTTGAAAGTTAACAACAAGTCTTGGAAATCATTCCATATCAGTAAATGCATGTTTACCTCACTCTTTTTTTTTTTTACAA
ATATATAATAGTCCACCAATGAATATACTATCATTTGATTTTCCAGTCCTCCTAATGATGGAGATTTGGGCTATTTGCTAATTTTCCTAGTGCCACGATG
AACCACTCCATCTCTCTGTGTTTGCACACACGTCTGCGGGTGTTTCCGGGGTCTGCTCCTAGGAGAGGTGTTGATGGTTGAAAGGATAGGAGCATTTTTA
TTTTTGCCAAATTTTGAGAAAGCCTTTTTTTTTTTTTTGAGAAAGGAGAAGGAGCAGCCTTTGAGGAGGGTGAACTGTGAGGCTTCTGAGGCTCAAACAA
GAATGCATGAAGGCACTCCTTAGGAAACAGAGGATGGGTGAGCAGGAGGTGGAGAGTTCAGTGTGATGATGAAGATGAACGTGGTAAAACCCAGGGAGGG
AAATTAGCAAAGGGAGGGATATAGGGTGGCCCCTGCAGGCCTTTATCCCTTCTGCATCCAGGAGAGGAGGCACGACTGTTTAAAGATGGACTCTGCCAAG
CCTTTGATACCTTGCTTCTTCTATTCTTAAGTAGAATGTTAACGCTGCCAGGTAAAAGAGTTAACAAGTTACATCCTTGAGCAGACACTTTTCAAAGAAG
ATACACATGCAGGCCGGGCGTGGTGGCTTATGCCTGTAATACCACCACTTTGAGAGGCTGAGGTGGGTGGATCACAAGGTCAGGAGTTCGAGACCAGCCT
GGCCAATATGGTGAAACCCCATCTCTACTRAAAATACAAAAATTAGCCGGACATGGTGGTGGACGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGG
AGAATTGCTCGAACCTGGGAGGCGGAGGCTGCAGTGAACCGAGATTGTGCCATTGCACTCCAGTCTGGGCAACAGAGAGAGACTCCATCTCGAAAAAAAA
AAAAGAAAATATACGTGCAGCCAACAAGCATATGAAAAAAACCTCAATGTCACTGAACTAGAGAAATGCAAATCAGGCCAGGCACAGTGGCCCACACCTG
TAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACTTGATGTCGGGAGTTTGAGACCAGCGTGGTCAACATGACAAAACCCCATCTCTACTAAAAA
TACAAAAATTAGCCGGGCGTGGTGGCACACCTGCAATTCCAGGTGTAATTCAGGAGGCTGAGGCATGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCA
GTGAGCAGAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAGGGAAATGCAAATCAAAACCACAATGA
GATGCCATCTCATGCCAGTCAGAATGGCCATTATTAAAGAGTCAACAAATAAGCTGAGTGTGGTGGCTCATGCCTGTAATTCCAGAACTTTGGGAGGCCG
AGGCAGGTGGATCACCTGAGGTCAGGATTTTGAGACCAGCCTGACCAACATGGTGAAACTGCGTCTCTACTAAAAATACAAAATTAGCTGGGTGTAGTGG
CAGGCGCCTGTAATCCTAGCTACTCGGGAGGCTGAGGCTGGAGAATCGTTTGAACCTGGGAGGCAGATGTTGCAGTGAGCTGAGATTGTGCCATTGCACT
CCAGCCTGGGTGACAAGAAGGAAACTCCATCTCAAAAAAAAAAAAGAAAAAAAAAGTAAAAAAATAACAGATGTTGGTGAGGTAGTGGAGAAAAGGGGAT
GCTATGCATAGTTGATGGGAGTGTAAATTAGTTCAACCATTGTGGAAAGCAGTGTGGTGATTGCTCAAAGAACTAAAAACAGTACTACCATTTGAGCCAG
CAATCCCATTACTGAGTATATACTCAAAGGAATATAAATCATTCTACCATAAAGACCCATGCACACAAATGTTCACTGCAGCACTATTTACAATAGCAAA
GACCTGGAATCAACCTAAATGCTCATCAATGACAGATTGGATAAATAAAATGTGGTACAGAAATACCATGGAATACTATGCAGCCATAAAAAAGAACAAA
ATCATGTCTTTTGTGGAAACATGGATGGAGCTGGAGSCCATTATCCTTAGCAAACTAATGCAGGAACAGAAAACCAAATACTGCATGTTCTCACTTATAA
GTGGAAGCTAAATGATGAGAACACATGGAAACAAAAGGGGGAACAGACACAGGTCTACTTGAGGATGGGGGATGGGAAGACAGAGAGGATCAGAAATAAT
AACTATTGGGCATAGGCTTAGTATCTGGGTGATGAAATAATCTGTACAACAAACCCCCATGACACACATTTACCTATGTAACAGACCTGCACATGTACTT
CTGAACCTAAAATAAAGTTTTTAAAAAAACAAGTTATGTCCTAATCAAGTAGACTGTTAACCCTGCCAGGTAAGAGAATTAACATGTTATATCCCAGTGA
AGTACAATGTTAACCCTTCCAGGTAAAAGAAATTAACGCGTTATATCTGATCAAATAGAATGCAAAGCTGCTAGGTTCACATAAGATTTGTTATGTTCAT
GAAACCTTAATCGTTTCTTTTTTTCTTTTCATAGAACAGAGAAGAGAAAAAGGACTTTCTTCCCCGAAACATGGATTTGGCATTGTCTCAACATCAGGTA
CATTAAGATTTCTTTTCTGCGCTGACTTTGCCGGTTGASTGAAAGACACTCATGCGGGTCYAGAGAGCCTCCGGTGAGRTGGGCAGGCCTGATACCAACA
TCTGAGCAAGACACTGTGCATCTTTTTCTAACACAYAAAACTTCAAGCCATGAAGCCAGCCTTGAGTCCCGCTGCACATTTGGACGTTTGCCTGTGAAAT
ATGAAATGCAAGGGCTTTGTGCCTCTTATAACTCCCTCTTGGGGTTACTCTATCTGCTCTGTTTGTATAACGAGCTCATTAAAATGATTACAGTTCCCTG
GAACATGAACTTGACTCCACCTACCCCCACTCCTTGCTCCTCAGGGGACTACAGCTCTTGCTCAAAAAACAGGATGCCTTTCTCAACACATTTCCTTTCT
GCATTTTTCCCCGTTTAGTTCTCTTTGAAGCAGGAGTGTAGGCAACCCTTTTCTGCTGGATGCAATTGACTTTTTTTCTTGCAATGCTCAGCGTTAGAGC
ACCAATGACACTAGTAAAAAGTGGCACTGGCGTGCCCCGGCAAACCAGTTTGGCATGAAAACTGACTCTTGGTCCAGCCCGGGCCAGCAGGTGGGCTGAC
TGCTGGAGCTGTGCCCTTCCTCCAGGCACAAGGTGCTGTGGCAAGTGCTTGGCAGAGCCAGGCACGCAGCTGGGGGCCCCTCAGACTGCTTTGGGGGATG
TGTATGTCCTCATCGTGGGAAGGTTTGACTGCTGATCAGAACACATCCAGTTCACTGTGTTTTGTTCTGGGGGCCCAGCTGTAAGACAGGCTATCTGTCC
ATCATCATTCAAATGTATCTACTTTCTGGATGTCTGGTGAGCTTTTTTTATTGTTAAAAAATTTTTTCAATTAACTTTTATTAGGGCTGGGCATGGTAGC
TCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACGAGATCAGGAGATCGAGACCACCCTCTCTAACATGGTGAAACCCTGTCTCTA
CTAAAAACGCAAAAAATAGCTGGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGTAAGAGAGTGGCATGAACCTGGGAGACGGAG
GTTGCAGTGAGCCAAGATGGCGCCACTGCTCTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAATATTTCATAGAGATGGGGTCTCT
GTATGTTGCCCAGGCTGGTCTGAAACTCCTGGCCTCAAGTGATCTTCCTGTCTTGGCCTCTCAACGTGTTAGAATTACAGGTGTGAGCTACTGCTCCTGG
CCCGGATGTTTTTGATGTTAAGGATGGTCCCTTGAATAAGGTAGACAGAGTCCCAGCACTCATAACATTTTCATTGTAGCTAGAGTAGACAGGTGCCTAA
AGAGCCATCATGGTGCAGTGGGGTTAGTCTTCTGGAAGGCTGGGCATGGAGCTTGGGAGGCAGAGAAAGATGGTGGAATCCTTTGGAAAAGCCAGAGAGG
GTCCTCAATGTAGGGCCCAAGCTGAGTCCCACCATATGAATAAGCAAGAAAGGGAAGGGTGTCCAGGAAGGACCAGCATGAGCAAGTGCTGCAAAGTAGG
AGAGGCTGGTGGATTTCCACATGGTTGAAATGAGATGGAAGGAGCTGAGGAGGATGCAGGGAGTATGAGACCATGTGGGCTGTGGGGGTGGGGTTAGGGG
TGCAGGTGTGGAGAGCCAGGGATTTGGGATTTAGGATTCGGGATGTTCTCTCTCCTCTCTTGTTGGCTGGAGCAAGGATGAATCAGAGGGGACAGATCTG
AGACCAGGGAGGAGGTTCCTGCTGGACCCAAAAGAGGACTGGTCAACTCTCTTTTAAACCACACCCGTTTAAAGGCGGGGTGTGGTGGCTTATGCCTGTA
ATCCCAGCACTTTGAGAGGCTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATAGCAAGGCCCCATCTCTAAAAAAAATT
TTTAAATTAGCCAGGTGTGGTGGCACATGCTTGTGGTCCTAGCTACTTGGGAAGCTGAAGTGGGAGGATCGCTTGAGCCCAGGAGGTTGAGGCTGCAGTG
ACACGAAATTACACCACTGCACTCCAGCCTGGGCTACAGAGTGAGACCCTGTCTCAAAAAGGGAAAATGATTCAAAAATGAATTGGTTTAAAAAATTATG
GTGAAATACTCCACATAAAATTTACGATCTTAACCATTTTTAAGTGTATAGTTCAGTGGTATTAAGGACACTCACGTTATTGTGCCAACATCACCATCAC
CCATTTCTGTGACTCCTTTCATCTTACAAAACTGACACTCTGTCCCATTAAACACTCACTCCCCTCTCTTCCCTTCCCCCAGCCTTTGGTAACAACCCTT
TCTGTCTCTGAGTTTGACTATTCTAGGGACCGCCTGTAAGTGGAATCATGTAGTATTTGTCGTTTTGTGACTGGCTTATTTCAACATGTCCCCAAGGTTC
ATCTTTGTTGGAGAATCCATGTCAGAATTTCCTTCTCTCTTTTTTTTTTTTTTCTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAGTGCAGTGGCAC
AATCTCGGCTCACTGCAACCTCTGCCTCCAGGGTTCAAGTGATTCCTCTGCCTTAACCTTCCAAATAGCTGGGACTATAGGCATGCGCCACCATGCCCAG
CTATTTTTGTGTGTTTGTGTGTGAGACAGCATCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAACTCTGCCTCCTGGG
TTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACCACAGCCGCCCACCACCATGCCCTGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTT
TCACCGTGTTACCCAGGATGGTATCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGGCATGAGCCACCGTGCCCA
GCCAATGCCTAGCTAATTTTTTGTATTTTAGTAGAGATGGGGTTTCACCATGTTGACCAGGATGATCTCGATTTCCTGACCTCGTGATCCACCCCCCTCG
GCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTACCCAGCCTCCTTCCCTTTTAAGGTTGAATAATATCCTATTGCATGGATTCCCTCATTTTG
TTTATCCATTTATTTTCTGTCGATGGACCCTTGAGTTGCTTCCACCTTTTGGCTATTGTGAATAATGCTGTGAACAGGGGTATACAAATATCCCTTTGAG
ACCCTGCTTCCCATTCTTTTGGGTGTATACCCAGAAGTAGAATTGCTGAATCATGTGGTAATTTTATGTTTAATTTTTTAAGGAACCTCCAGACTAATTT
CCACAGCAGCTGCAGCGTTTTACATTTCTACTAACAGTGTACCAGGGTTCCAATCTTACCACATCCTCAGAAACACTTGCTGTTCTCTTTTTCTTTCTTT
TCTTTTTTTTTTTTTTTGAGATAGAGTCTCGCTCTGTCACCCAGGCAGGAGTGCAGTGGTGCAATCTCAGCTCACTGCACCCTCCGCCTCCCAGGTTCAC
ACAATTCTCCTGCCTCAGCCTCCCAAATAGCTGGAACTACAGACACGCACCACCACACCTGGCTAATTTTCGTATTTTTAGTAGAGACGGGGTTTCACCC
ACTACTTCTGGGTGTATACCCAAAAGAATGGGAAGCAGGGTCTCAAAGGGATATTTGTATACCCATGTTCACAGCGTTATTCACAATGGCCAGACTCCTG
ACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCATGCCCAGCCTTTTTTCTTGCCTTTTCTTTTTTAATATC
CTAATTAAGTACATGAAGTGGCATCTCATTGTGGTTTTTATTTGCATTTCCCTAATGATTAGTGATGTTGAGCATCTTTCATGTATTTATCAGTCATTTG
TCTATCTTCTTTGGTGAAATGTCTATTCAAGTAATTTGCCCATTTTTGAATCATGTTGCTGTTTTTGTTATTGAGTTTCAGGAGTTCTCTATATATTCTG
GATATTATTTCCTTATCAGATATATGACTTGCAAATATTTTCTCCCACTGGGTTGACTTTTTACTCTGTTGATAGTGCCTTTTTTTTTTTTTTTTTTGAG
ACAAGGTCTCACTCTGTCACCCAGGTGTTCAAGTGATCCCCCAACCTCAGCCTCCCAAGTAGCTGGGTCTACAGGTACACACCACCACTCCTGGCTAAAT
TTTTTAATTTTTTGTAAAGATAGGGTCTTGCTGTGTTGCTCAGGCTGGTCTCAAACTCCTGGGCTCAAGTGATCCTCCTTCCTTGGCCTCCCAAAGTGCT
GGGATTACAGGAGTAAGCTACCATGCCAGCCCTTGAATAGTGTCTTTTGATGCTCAAAATTTTGCAGTTTTCATAAAGTCCAACTTGTCTACTCTTTTTT
TTTTTTTTTTGCTTGTACCTTTGTTTTCATATCCATGAAATCATTGTCAAACCCAATGTCATGAAGCTTTTGCCCTGTTTTCTTCTAAGAGTTTTATAGT
TTTAGTTTTTACTTTCAAGTCATGGATTCATTTTGAGTTAACTTTTGTATATGGTGTTAGGTAAGGTCCAAATTCATTCTTTTGCATATGGATGTTTGCT
TTTTCTAGCAGTATTTGTTAAAAAGATTGTCTTTTCCCTAAAGTATCTTGATGCCCTTGTCAAAAATCATTTATCTGTGTCGTCAAGGTTTATTCCTGGG
CTCTCTATTTGATTCCATTGGTCTGTATGTCTGTCTTTATGCCAGTAACACATTGATTTGAATATGGTAGCTTTGTGGTAAGTTTTGAAGTGTGAGCTCT
CCAGCTTTATTCTTCTGGTTTCTTTGTTTGGCCACCAGGATCCCTTGAGATCCATGTAAAATCTCAAGGTGGAGTTTTCTATTTCTGCAAAATAAAATAA
AATAAAAAGTCATTGGGGTTTATGATAGGGGTTCCATTGAATCTATAGATCACTTTGGGTAGTTTTGACATTTTAACAAGTCTTTCCGATCCATGAACAT
GGGAAATGTTTTCATTTATTTATGTCTTTTTTTGTCTTTTTTAGTTTCTTTCAATAATATTTTTGTGTGTGTGTGACAGGGATCTCACTCTGTTGCTGAG
GCTGGACTGCAGTGGCGGGATCACAGCTCACTGCACCCTCGACCACCTGGGCTCAAGTGAATCCCCCACTTCAGCCTCCTGAGTAGCTGGGCCTACAGGC
ATGTGTCACTATACCCACCTAATTTTTAAATTTTTTGTAGCAACACGGTCTCATCATCTTGCCTAGGGTGGTCCGGAACTCCTGGGCTCGGGCAGTCTCC
CACCTCGGCCTCTCAGAGTGCTGGTATTACAGGCATGAGCCACTGCGCCCAGCCCATGTTTTCTATTAGAGTCAGGGCTGAGGGACAGTTTTTTTCCTGT
TGCCGCTTTTRTGATGCCTTCAATGCTTGTTTCTAAGCTCCTAGGGTGCCTCTCTGAGCCATGCAGCCTGGGTCATCCATGCCCACTGGCCCCCCTGAGG
CATGGCCCTGGAGAAGGGCCCCCCATCATGGCTGTCTGTCTCTCCGCAGTGACCCATCTGGTGAGGGGACACTCAGTGTGAAGGTCCCGGACTCCATCAC
CAGCTGGGTGGGTGAGGCCGTGGCCCTGTCCACCTCTCAGGGCTTAGGCATCGCCGAGCCCTCCCTGCTGAAGACCTTCAAGCCCTTCTTCGTGGACTTC
ATGCTCCCCGCTCTCATCATCCGTGGGGAGCAGGTCAAGRTCCCGCTCAGTGTCTACAACTACATGGGCACCTGCRCTGAGGTACTCAGCCCCCCAAATA
CATAGCCTTCCTCCATTCAGTGGGGAGTTGGGACTGCATTGGTGCTATAAGGTAGGCAGGGGTGGGACAGTGTCAGCTTGGGGGATTTAGGAGGGCGAGA
GCCTCTATGATGTTGRGGAGGCAGGGATGGGTGGGCTCAGCCTGGGGGGCTTTGGGGAGGATGCGTCATCTGTGCTGTCAGGGAGGCAGGAGTGGGATGA
GATCAGCCTCTGATTCACCAACCGTCAAAGCCGGGTGAGGAGGAGGTGGGGACGCATGTGTGTGAGTGAGAGGGACTTGGTGTAAGTGGAGCTGTTGTCC
CTGACTCCCTGGCCTAGCAAGGGCGTGCCTGGACTGGTATCATATATGATAGCATGGAGCTTTCTCTGTAAAGGGCCAGATAGGAAATATTTCTGTCTTT
GCCAGCCACACAATCCCTGTGGCAGCGACTCAACTCAGCCCTTATAGCATAAAAGCAACCTAGATGATCTCTTACCTGAATAGATATGGCTGTGTTCCAA
TAAAACTTGATTTCTAGACACTGAAATCCGAACTCCATAGAATTTTCACCTGTCACAAAATAATCATTCTTCTTTTAATTTTTTTTCCTCCTAACCATTT
GAAAAAGATGAAAACCATCTTTAGCTTGTGGGCCCAAAAGACAGGTGGTGGATCCGGTTTGGCCTATGGGTCTTAATTCACAGRCTCCCCACAAAGTACC
AGGAAATCCTGGTGGTGAACAGAGAGGGTGCTTGGGATCCCGGTTTATACTCATAGAGCTGCTGATCTTGGGCACGTTATTCAATCTGTTGGTGTGTCGG
AGCCTCGCTGGGCGTTAAAGGGTTAAATGAGTTAGTCTCAGTAGACACTGAGAACATTAAGCAGGGCTGTTTTTCGATGATATTATTGGGGTTCCAGTGT
CTGCCAGAGGTGTGCAGTGAAGGCCAAAGCTCTCTCTTGGAGGCGGCAGGAAAGGCTGCTGTCCTAGTCTCCTTGGGCTAGTAAGGTAGCCCAAACCAGG
TGGCTTAAAACAACAGAAATGTATTGTCCCACAGTTCACGAGAAGAAGTGTGAAGGCAAGGTGTCATCAGGGCTGGTCCCTTTTGGAGGCCCTGAGGGAG
AATCTGTCTATGCCTTTCTTTCTCTCTCTTTCTCTTTTTTTTTTTTTTTTTTTTTTCGAGACAGGGTCTTACTCTATCACCCAGGCTGGAGCGCACTGGT
ACAATCACAGCTCACTGCAGCCTTGACCTCCTGGGCTCAAGCAATCCCCCCTCCTCAGCCTCTCAAGTAGATGGGACTACAGGTGTGCACCACCATGCCT
GGCTAATTATTTTATTTTATTTTCGTAGAGATGGCATCTCCATATGTTGCTCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGACCCTCCCACTTCGGCCT
GCCAGAGTGCTGGGATTACAGGCATGAGCCACTGCATTTGGCCCCTCTCTCCCTGTCTCTTGGCTTCTGGTGGCTTGTGCCAGTATCAGAAGATCCCGTC
ATGCAGGATGTGAGATCCAAGCTCAACCTTGGAGCGAAGTGGTTTGTGTTTAGATCCCACTCACTCAGTTTTGGTGGGGCATGTACTTCTGCAGCTGGTG
CTGGACTGACAATTTTACCTGCATTATTATTTATTTATTTATTTATTTATTTGAGATAGGATCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGAT
CTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCCGCCACCACGCCTAGCTA
ATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTTAAGCCATCTGCCTGCCGTGGCCTCCCAAAATG
CTGGGATTACAGGCATGAGCCACCACGCCTGGCCACCTTCATCATTTTATCAAGCTCCTGTGTGGGCCAAGGAAGAAGGGTCTGTGATGGAATCATTCAC
CATTAGGAAGCTCAAAGAAGCATTGTCATGGGTTCAGGGGCCTCCAGGGAGTGAGTGGTGGAGCTGTGTGTTAGAATCAATGTCTACGGGTGCCGGGACA
GCCCAGAAAAGGGGAAGTCCCCCTGAACCTGAGAGTCTGCAGGTGATGTTTGAGTCAGGCATCGGGGCGGGAAGGGCATTCGCAAAGAGGGAACAGCATG
TACAAGCAACAGAAGCAGGAGGCAGCTTGACCTTTCCTGGGTCCTGCCTCAGACATAGTTTGGCTTGGCTTTGGGGTCTGGTCAGGGAAGATGGAAAAGC
AGGTGAGGAGCAAGAGGACGAGGAGGTCAGAGGCTCCTGCCATTGTCTAGGCAAGAGGCAAGGAGGCAGGAAGCAACCAAGGCAGCGGTCACAGGGTGGC
TTCGGTGAGGAGTAAATGGGAGATGTTAGACTCAGAATGGCCAGGTAGTGGTGCCCAGAATCCTAGCTTCAGTCCCAACCTTTACAATCCATCCTTTACC
GTTCTTTTTATATGGATTATGGTTGGGAGGAATAGGATCTCGGTTTCCAAAAGAAAGCATACACACAGACTATGCCCTGACCTGTAGGTTGGCCCCTAAA
GGGAGGTTTCCCTCTGAAACCTGTGAGCAGAATCCCCAGATGTCCGGCTTGGCTCTGAGCGCATGCTGGTGTCTAGCTTTTCCAGCAGGAAGAAGGAAGT
CCTGCTGGGCAGTGTATGTGCTTAAGGACCACCCCAGCTTGTATGACCATCCCCAAGACAGAGAAAACATACCCATTCAGACCCTCCAGTGGGGAGCGCT
GGTCATTTCACTCAGGACCTGGAAAATGGCTCATTGACACTGTTGAGTTTCTTTCTTTCTCCTTCCTTCCTCCCTTCCTTCCTCCCTCCCTCCCCCCCTC
CCGTCCTTCCTTCCTTCTTTCTTTCTTTTCTTTCTTTCTTTTCTTTTCTCTCTCTTTCTTTCTTTTCTTTCTCCCTTCCCTTCCCCTCCCCCTCCCCTCC
CCCCTCTGCTCCTCTCCCCTCCACTCCCCTTCCTTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTCCCTTTCCTTTCCCTCCCTTCCCT
TCTCTTCCCTTCTCCTCCCTTCCCTTCCCTTCCCCTCTCTTCCCCTCTCTTCCCCTCCCTTCCCCTCCTTTCCCGTCTTTTCTCCTCCTTACCCCTTCTT
TCCTTTTCTTCTTCTTTTGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTTACTGCAACCTCCACCTCCTAGGTTCAAG
GATTCCTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCAGCACTACGCCTGGTCTTTAGTAGAGATGGGGTTTCCTCATGTTGGCCAAGCTG
GTGTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCAGCCTCTTTCTTTCTTCCT
GGGAAAATGCTACCTTGAGGGGGATGTGGGGATTCCTGATGTGCACCCTGCAGCAGCCATTGGCTCTCAGATCTAGCTGGGCCTTTCCTTTGTCAGGATT
CAGGACTCTATCATGTATGCCACTTCACATTTTCCCCGCATGCTTCTCTCCACATCACACCTGCAGCCTCTGTGCCAGTCCTTGGGTGGGACAACATTCT
GAGGCTCAGCAATCACTCATGTCTTGATCAGCCATTTCTTTAATTCCTAGCGGGGCACCCAGTAGGTGCTCCATATATGCTGGTTGGACAAATGGATGTG
GAGCAAAGATTTCCTCTTAGATGGAGGGGTTGCAAACGTGCTTGCATATGCACCCACARTRCACATRCACACACCCTGCAAAATGCACACACATGCACAC
AGAGACCAGTATGTGTGAGCATGCACATGATGCACCCACACAAGTCGTCATGGTATACATATGCACATGTACATGCATGATACATGTATACACATGCCAT
ACTTGCACATCCATGCACAGACATGCACATGGAGTCCCATGGGTGCATCCATAGCACCTCTGTACCCATATAGGCACACACATGCATGCAGAAACTAGCA
TGCCCATACACACACACACGAATGCATATCCACATGCCTTCACCCGGTAGATGCACATGTGTGTACATGCATGCATGCACATGTGTATGCAGTCTGTGCT
TGCATCCATGCACACAAGTGTGCACCCAGGGACACATGCATTCACAGCACACACATGCACATGAATAAACACACACGTGCACACACAGAGCTGTACTCTG
ACATCATGGAGCTGCACGGTTGGAAAGAGGGTCAGGAGAGGCACTCTGTGGACCTGCTGTGGGAGAGGTTACATCCATCTGGAGTCCCGGAGTGGATGGA
CATGCAGGAGAGGCAGCCCTGGCTGGAACTGGCAGCTTCAGTCCATGGGAGATCTGGACCTGTGAGGATACGGAGGGCTGTGGGGAGGAGAGGTCTCACA
GCAAGACAGATGGGCATGAGAAGGCCAAGTGGGGCACCAGACAGCAGAGGGTAGTTTGTTCTGATCGGAAATGGAAAGGGGACCTTCCCGGGGGGAGCAT
GGCTCTTTGGGAGGCTGACAAGTCTGGTGTGTGCAGTGAGTGGTGGGATGTGTGTTGGGCCTCCAGGCACTGGGAGGGGGTCTGGATTCCAGGCGCCATG
AGCCAATGCCACCCTCTGCAGGTGTACATGAAGCTCTCGGTTCCCAAGGGCATCCAGTTTGTTGGGCATCCTGGCAAACGCCATGTGACCAAGAAGATGT
GTGTGGCCCCCGGGGAGGCTGAGCCCATCTGGGTCGTTCTGTCCTTCAGCGACCTGGGACTCAACAACATCACGGGTGAGGACCCCACAGTTCTTGGGGT
GTCCCCCCTCTCCAGGCCACAAAAGTGTCCTGGCATTGACCCGAGTTGGGGATGAGGGGTGGATGGGGCAGCAGGTAAGGTCAGGACTGTCCCAAGGAAA
ATGGGACAGCAACTGGGGCAAGCAGGACAGAAGGAATGGGCCCAGGAGGAGTGGGGAGGCAAGCCCTGGGGTCTCACCTGTTGGGGGAGCTGGGCTCTTA
AGGTGCCAACCCAGTGTAGCACACACACATGCAGACATGCATACACACACAAATCCACACACACGCCCACATGTGTAGACATGCACACACACAAATCCAC
ACACACACGTCCACATGTGTAGACATGCATACACACACCACAAATCCACACACACACCCACGTGTAGACATGCATATACACACACACAAATCCACACACA
TGTCCCCATGTGTAGACATGCATACACACACCACAAATCCACACACACACGCCCACGTGTAGACGTGCATATACACACACACAAATCCACACACACGCCC
ACATGTGTAGACATGCATTCACACACACACACAAATCCACACACACATGCCCACATGTGTAGACATGCATACACACAGATCCACACACATGCCCACATGT
GTAGACATGCATTCACACACACAAATCCACACACATGCCCACATGTGTAGACATGCATATACACACACACAAATCCACACACACACMCCCCCACGTGTAG
ACATACATACATATACAAACAAATCCACACACGCACATGCCTGCATGTGTAGACATGCATCACACACACGAATCCACACACACACATGCCCACATGTGTA
GACATGCATCACACACAAATCCACACACACAGACACATGCCTGCACATGCAGACATGCACACACACACACAAATCATACWCACACACATGCCCACATGTG
CAGATATGCATTGCACACACGAACCTGTACAAACACATGCACACACATACACACATGCATATACACATACAAACTTGTACACACAAACATGGAAAAATGC
ACACACATGCATATACACACAAACACACGTACAGATACACACATGCATATGCACACACAAATTTGTACACACACAAATGCACACACAAACTCGTGCACAC
AAATGCACACACGTGCATATGCACAAACTCGTACACACAAACACATGTACAAGTGCATGCATATGCACACATGAGCCTGTACATTCAAACACATGCATAC
ATGTGCAGACATACACACTTGCATGCATGCACACATCTGCATATACACACACACATGCACACACACACACATGCATGCATGCACACACATCTGGGATAAG
GATAGGGATGGGACAGCCCCCATCTTGGGTGGAGACCTGTTCTGAGACCAAGACATCAAATTTCTGCAGCCAAAGCCCTTGCTTACGGAGACACAAATTG
CTGCCGGGATGGGAGGTCCAGCAAACACCCTGAGGAGAATCACGCCGACAGGAGGGTCCCCATCGGGGTGGATCACGTCAGGCGCAGTGTGATGGTTGAG
GTAAGGCCGTGTCCTCATCTCTGGTGCTTAGCCAGGGCCTCATTCCTTCAGCCATGAAGCTGGGSCCAGCTGGAGTGTGTGGTCTGAGGCTGAGCCAGGG
CCTGGGCAGCCTTCACGGGTTGTGCTTGAGAGCTCAGGTGCCTGGACTTTCGGGTACTTCCTTGTTAGAGGATCATGGTAGTCCGTTCCCTCCCTAAAGC
GCAGAGTGGGCTTYGGTAAAGCAGCTTGGGACTCTTCAGGGGCTGCAGCAAGTGCTCCCTGACCCCTGGGTGAACTATTTAGGAAGACCATGTCCCTCAT
CTCGTGCTTGTCATAGGCATTTATGGGGACCATGACTCAGCATTTGGGGCATTGTCATTGGATGGCCTGTGTAGGAAGGACACAGAGCTGCAGGGGGCAG
AGGCAGGCGCCAGGATCTTGCAGACCCCCAGCTATGAATCCAGGATTGGCCACTTACCCATGATCTCGGGAAGCATCCTGGCTTTCCAGCCCCGCTCTGT
AAGACGAGGGGCTCACCTTCATAAGATGGGGTGGGAAGCCAGAGATGACACACAGATGTCTCAGGGCTGAGCATGCAGCAGCCACCATGCCTCATCTTTT
CTTGGCTGCTTGGACACATCAGAGCCCTACTGAGGCTCCATTTGGTGCCGCACCAACAGCCCCTAACAGCAGCCCGAAGGGACTCACATTCCCCAGAGGC
CCAGCTGCAAACAGCTGCTCTCCCTCCCTGCTGGGATCCTGCTGGCCCTGAACACAAGTGGCTTCTGTCAGCACCAGGAGTCATGTGCCCACTGGGCAGA
ACTCCGGAGCGGTGACAGTGGACAGGTCACCGCTGTAGTGTCGTTGATGTGATGTGATGGATTCCTTGGGGACAAGAGTGCTGTCAGGTGGGGACCGAGA
TCTCTGTGAGCCAGCAGGGTGGGAGGGTCCAGATGGGGAAATGCAGAGACCCCCAGTCACCCTTTGCCCAGCCAGGGCATCCTCCCTGGGCCACAGCCTG
CCCTCCTAAGGCCCAAGAAGGAGGCAGCGAGCCCCTCCGAGCTGCAGAACCTGGAGGCCTGGCGTTCTTGCCTCCTCCCCTTACAGAAGGGATTTCTCAA
TGCACACAGGGGGACTCTTGAGGGTCTCCTTCCCTGGAGCCTTTCCTCCCATCCATGCCGCAGAACTGTCTCTGCACCTGCAGTATCCACTTGTCCGGCT
TCCTGGAGGCAGCTCTGGGGAAAGATACAGGCATCAGAAGACTTGAAATGTTGATGCAAAAGATGAAGCTACAATTAGAAAAGCAATTTATGAAACAAGA
GGCACCAGGATGTGTGGCTTGATAAAGCAGCAAAATGCTCCTCCTACCTCTTCCCACCGGAGGACTGTGGGCGCCACCAGCTGAGATGGACTTAGGAGCA
GGAAGCTGAATACGATGCATGGGCCGGTGGGGAATCATCATCTGTGCACGGCCCATCATGGGCACTGTACCAGGGTGGGGATGGCTTGGCAGGTGCAGGG
AGTACGGACACCGCTCTGCCTTGCTCCCCTGCTGGCCTGCAAGGGGACTAAGATCCTCTATATCTGCTGGGAGGCTGAGAGTGTTCAATCATCTCCACGT
GAATTTCACTTCAGTGAAATTCCAAGGAGCAAAGAGGAGGCAGAAATAATTCGGGCCTCACTGGAGTGATAGGAGGGCTGGCCAGCCAGGGAGTGGGCTC
TGGAGTGAGAGCCCCAGATTCGGATGGAAGCGTTGGATGGTTAAATGAGAGTGTTGGTGGAAAGCCTCTCATGGTATCTGGCCTGTCTACTAAAGWCCCA
CGTGCTGTTGTCACACAGGCATTTATAACAGTCAACTGGGGAATCCCARACCAAAGTCAGGGATACRCTTTCTATTTTAGGAAATGTCCATCAGCTGATG
AATTAGAGAAATGAATGTGGGTCAATGAAATGCAATTCCTCAATGCAATGGAATATTATTCAGCTGTGAAATGGAGTGAAGGGCTGGGTGTGGTGGCTCA
CACCTGTAATCCTTGTGCTTTGGGAGGCTGAGGCAGGAGGATGGCTTGAGGCCAGAAGTTGGAGGCTGCAGTGAGCTATGATTATGCCACTATACTCAGC
CTGGAAAACAGAGCCAGACCCTGTCTAAATGAATGAATGAATGAATAAATAAATAAATAAATAAAGCACTGATCCATGCTACAACGTGGATAAACCTAGA
AAACGTGATACCGAGTGAAAGAAGACAGACACAGGCCGGGCACGGTGGCTCACGCCTATAGTCCCAGCACTTTGGGAGGCCAAGGTGGGCAGACCACCTG
AAGTCAAGAGTTTGAGACCAGCCTGGGCAACATGGCAAAACCCTGTCCCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACACACCTGTAGTCCC
AGCTCCTCAGGAGGCTGAGGAGGGAGGATTGCTTGAGTCCAGGAGGTGAGAGTTACAGTAAGCAACAGAGGGACTCTTGCAACACTGCACTCTAGCCTGG
GTGAGAGAGCCAGACCCTGTCTCAAAAAAAAAAAAAAGAAAAAAGAAAAAAGAAAAAAGTCAAACACAAAAGGCCACATGGTGTATGATTCAATTTATAT
GAAATGCCCAGAACAGGCAAATCCAGAGAGGCCGAAAGGAGTGAAGCACAGATCTGTACTACAAGGCTTTAGAAATGCCCAGCCGGAGCTACTATTCGTG
CATCATGCAGGCTCCGTGTTCTGAGATCTGGCCCCAAGCCAGAAAGAGCACAGAGACAAAGGAGGTTGGAACCAGGATGGACAAGTGCAGCCCGAGATGG
GCTAACACTCAAGGAGCAAACCCAAGCCACGGCAGAGGGGCAGAGTGGAAGAGATGGGCATCATTGAGGAAGCCAGCTGTGGGGTCCTCTGTGAGCTGAG
TCAGCAGAGGTTTCTTGGGACCCAGAAACCATGAGGGGCCCCTGGATTTGTGCCCAGGGCCCCAGCCAATGGTCAGCCAGAGGCACAGTGCATCCTTGTT
GTATTAGTTCGTTCTTACATTGCTATAAAGAAATACCTGAGACTGGGTTATTTATTTATTARTTTATTTATATTATTACTAGTTTTGGGGATGGAGTCTC
ACTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCCAGTGATTCTTCTTTCTCAGCCTCCTGAGTAG
CGGGGACTACAGGCATGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGTTGGTCTTGAACGCCTGAC
CTCAGGTGACCCGCCCGCCTCGGTCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCGACCATGACTGGATAATTAGTAAAGAAAAGAGGTT
TAATTGGCTCACAGCTCTGTAGGCTGTACAGGAAGCATGGCTGGGGAGGCCTCAGGAAACTTACAATCATGGCAGGAGGTGAAGGAGAAGCAGGCGTGTC
TTACATGGCTGGAGCAGGAGGAGGAGGGAAGGGGAGGTGCTTCACAGTTTTGTTGTTGTTGTTCTTGTTGTTGTTTTGAGATGGAGTCTCGCTCTGTCGC
CACGCTGGAGTGCAATGGCATGATCTCAGCTCATTGCAACCTCCARCCTCCTTGTTCAAGCGAGTCTCCTGCCTCAGCCTCCCGAATAGCTGGGATTGCA
GGCACCTGCCACCATGCCCGGATAATTTTTATATTTTTAGTAGAGGCAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAATCTCTTGACCTCGTGATCCA
CTCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCGCTTCACAGTTTCAAACAACCAGATCTCATGAGAACTCACCCAT
TATCACGAGAACAGCAAGGGGGAAATCCGCCCCCATGATCCAATCACCTTCCACCAGGCCCCTCTTCCAACATTGAGGATTACAATTCAACATGAGATTT
GGGTGGGAACACAAATCCAAACCATATCACTCACCACCAACAGAATGGATCTGGTTCTGTCTCTATGGATTTGCCCACGGGACATTTTGTATCAATGGAA
TCATACAACATGTGGCCTTTTGAGTCTGGCTTCTCTCACTCAGCACAATGTGTTCAGGGTTCATCCACGGTGCAGCATAGATACGTGCTTGCTTCTATGG
CTCAATCATATTCCACTGGATGGATGAACCACATTTTCTTTATCTGTTCACCTATGGTGGACATTTAGGTTATGCACAATTTTTAGGATTATGTAGCTGT
TAAAAAGCTACCATGAGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGCCAGGAGTTCGAGA
CCAGCCTGGCCAACATGGTGAAACCSCGTCTCTACTAAACTATACAAAAAATTAGCCAGGTGTGGTGGCAGGCACCTGTAATCCCAGCTACTTGGGAGGC
TGAGACAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGACTGCRCCACTGGACTCCAGCCTGGGCGACAGAGCGAGATTCCATCTC
AAAAACAAAAAACAAAAAACTACCGTGGGTTACAATGGCCTAGCCCTGCCCATTGCTCCAAATCCYTTTCCCGACAAGGGGCCAGGCWGGTAGATGGGGG
GTTACTGAGGCCTAAGCAATGCTTCTGGGGCCTTCCCTGGTGCCCCCTAGCTTAGCAAATGACCCGTGGGTGCCACATCGGGCCTAGCAGGTGTGAGATG
AAATCCTGGCAGGTGGACGGCTCGATGTAGCCTGAGATGGTGTCCTCAGCCTCTCAGCACCAACCCTGGGAACTTTACTAGGAAGTGGATGTGAGTGGGG
ACAAGCATCTCCTGGACTCATCAGTATAGACACATGACAATTTCAAGGAGAGCTTTGTAATGAAAGTAGGTAAGGATGAGAAAATATAACAAGAACTGAC
TGTCAGTAGCACTGAGAAGACTCCAGACCCTTTCTGAAGCATGATAACCCCGTCACAAGGTGAAGTTGGGGGTCTTTAACCCCCATCTTAGAGATGAAGA
AATGGGGGCCCAGAGAGGTTGAGTGAGTGGCCCTAAGCCAGTCAGCAGGAATGGTTGTATTAGGATTCACCAGAGAAACAGAAATCCGCACCCCCTACAT
ACATAGAATGAGATTTGTTATATAAACACACTCCCACACATACATCTGTAGGATAGGTTTATCATAAGGTACTGGCTCATGCGCTTATGGAAGCCGAGAA
GTTTACAAGCTGCCCTCTGCAAGATAGAGACCCAGGAGGCCGGGCGTGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCAGGCAGATCA
CCTGAGGTCAGGAGTTCGAGACTAGCCTGGCCAACATAGTGAAACCCTGTCTCTACTAAAAGTACAAAAATTAGCTGGGCCTGGTGGTGGTGMCTGTAAT
CCCTGCTACTCAGGAGGCTGAGGCAGGAAGATCATTTGAACTCAGGAGGCGGAGGTTGTAGTGAACCGAGATCGCGCCATTGCACTCCAGCCTGGGCAAC
AGAGTGAGACTCCATCTAAAAAAAAACAAAAACAAAAACAAAAAAAMCCCAAAACAACAACAACAACAAMAAAAAAGCTAAAGACCCAGTAAAGCCAGTG
GTGTAGCTGGAAGGCCTGAGAGCTGGAGAACCAATGGTGTAGATTCCAGCCCAGGTCTGAAGGCCTGGGAACCAGGAGCAGGAGAAGATCRATGTCCCAG
CTCAAGCAGTTGGGCAGAGAGTGGAACCAATCTTCCTCTGTCTTGTTCTATCAGGAGACGTTTAACAGCTTGGATGGTGCCCACTCACATTGGAGAGGGC
CGTGTGCCCTACTCAGTCCTCCAACACCAATGCTGATCTCTTGCAGAAGCACTTCCTGGACGCGCCCAGATAGAGTGTTTAACCAGCTACCTGGGCATCC
TGGAGCCCAGTCCAGTTGACACCTAAAATTGACCATCCTAGGCTGGGCACGGTGTCTCATGCCTGTAATCCCAGCACTTTCGGAGGCCGAGGCAGGCGGA
TCGCTTGAGGTCAGGAGCTTGAGACTAGCCTGGCCAACATGGCAAAATCCCATCTCCACTAAAAATATAAAAAATTAGCTTGGCGTGGTGGCATGTGCCT
GTAGTCCCAGCTACTTGGGAGGCTGAGGCATGAGACTTGCTTAAACCCAGGAGGCAGAAGTTTCAATGAGCTGAGATCACTCACACCACTGCACTCCAGC
CTGGGCGACAGAGTGAGACTCTGTCCATAGATAGATAGATAGATACATAGATAGATAGWTAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAA
TTGACCATCCTAATGGGGAAAGGGGCTGCCAGGCCTTCTGGTTGCAGCTGCCCCATGTTAACCCTTTGAGGTCTGATCCAAGGGCCCCCACAGGGGCCGT
GTTGGTCAGACCAAGCTCCGCAAGGTATAGGGGGTTAAATTCTGGGCATCCCTTTTTAAGAGACTGAGACAGCTGCCTTCTGGTATTTGGGGTCATCCAT
AGAAGAAGCAGAAATGAGAACCCAGATGGAAGAGACAGGAGACAAGAGATGTGGTAGACAGACAGTGGGACGGAGACTCGTCCTTGGCAGATGCAGGAGC
CCCTCTCACAGTGCTCACGGATGTCAAATGAGGCCTCAGAACCTGGCTTATTTGTCCTCATGATGTCCTCTGYCCAGAGGGAGATGGGAGGAAGAGGGTG
GCTGGGAGGGTAGGGTAGGGATGTGGGCCCCATGACAAGTTTAGAAGCAGTTGGTGAGTTCCTTTTGGCCAGCAAGGGGGAGCAGCCTCAGTTTCCCCAT
TGGAGCCTGGGAAGTGGGTGGCCCTGTCCTGCTCCACGCACCTGTGATCTTGGTGTGACCGTGCTGATACCACGTAAAACCTGGAAGCACAATTATGTGG
TCTGGACTTGAAGTCATTGCTGTGGGAGAGCCAGCTGCTCCGCTGAGCTGACCATCCCCCTCACCGCCCCAGCACTCAGTTCTCCTTGTTTCTTTGTTTC
AGGCRGAAGGAGTYCCCCGGGCGTACACSTACAGCGCATTCTTCTGTCCCAGTGGTGAGTCCCCCGTGCCCATTCTGCTAAGGTGTGGCCACCTGGCTGG
GTCAGGACTTTGGCCTTCCCCCTTTCCCACACTGTGGGGGCTGTCCCGCTGCAAAGTGAGCACCTGCCCTTCCCCTGGGAAGGGGGCACTGTGGTTTAGG
AAGAAYRATGTCCCAGCTGGGGACAGGCAGAGCCAGTGAGGGTGGGGCATGAATGAATGAATACACAGGGAATGAATACTCRGGGAATGAATACACAGGG
AATACGCAGGGAATGAATACACAGGAATGTGCACTGCAGGCACCAAGCAAGAAGGTTAGGCTGCCCGGGCACGGTGGCTCACACCTGTAATCCCAGCACT
TTGGGATCCTGAGGAAGGTGGATCATTTGAAGTCAGGAGTTTGAGACCAGCCTGGCCAACGTGGTGAAACTTATCAATACTAAAAGTACAAAGTTGGCCG
GGCGCGGTAGGCTCACGCCTATAATCCCAGCACTCTGGGAGGCCGAGGCGGGTGGATCACAAGGTTAGGAGTTTGAGACCAAGCCTGACCAACATGGTGA
AACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGTCGTGGTGGCACGCACCTGTAATCCCAGCTGCTCAGGAGGCTGAGGCAGGAGAATCACTTGAA
CCGGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGCCATTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCAACTCAAAAAAAAAAAAAAAAAAAAGT
ATGAAGTTAGCCAGGTGTGGTTGTGTGTGCCTGTAATCCCAGCTACTTGGGAGGTTGAGACAGCAGAATCTCTTGAACCCAAGAGGTGGAGGTTGCAGTG
AGCCAAGTTTGCATCACAGCACTCCAGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAACAACAACAACAACACATGAGGCTGGACCTAAAGATCACACC
TTACACGAGAATGAACCCTAAATGGATCATGGACTTAAACGTAAAACCATAGTGCTTTTAGAAAAAAACACAGGACAGCCTGGGCAACATGGTGAAATCC
CATCTCTACAAAAAATTAAACAAACAAGCAAACAAGCAAACAAAAACTTAGCCAGACGTGGTGGTGCACGCCTGTAGTCCCAGCTACTTGGGAGGTGGAG
GTGGGAGGATTGCTTGAGCCCAGGAGGTGGAGGTTGTAGTGAGCCTTTATTGTACCACTACACTCCAGCCTGGTTGACAGAGAGAAACCCTGTCTCAAAA
AAATGAAGTAAGGAAGGGAGGGAGGGATGGAGGGAGGGAAGGAAGAAAGGAAGGAAGGAGGAAGGAAGGAAGGAAGGAAGGAAGGCAGGAGGGAAGGAAG
GAAGGGAGAAAGGAAAGAGGAAGGGAAGGAAAGGAAGGAAAAAAGGAAGGAAGGAAGGAAGGAGAAAGAAAAGAGGGAAAAAAAGATCTGCCACCTAGAG
CCAAGCATATAGTTTTTAGACTTGAAAAGTACAATCTATAAAAGGAAACATTAATAAATAAACCTCTTCAAACTTTAAAAGTTTTTTTCTCCACAATAAA
CCCTGTTAAGGGAGGAACTACAGTCTACAGACTGGGAGAAAATACATTTGCAAACCTTATCAAATTACTGGTTTTTAGAATATATAATGAAGTCTCCAAT
TCAGTAGTGAATAAAACAAACCATCTAATTAAAAGTGGGCAAGGCCGACTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTG
GATCACTTGAGGTCAAGAGTTCGAGACCAGCCTGACCAGCACGGTGAAACTCCATCTCTACAAAAAATACAAAAAAAAATTAGCCAGGCATGGTGGCAGG
TGCCTGTGGTCCCAGCTACTTAGGAGGCTGAGGCATGAGAATAGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAG
CCTGGGTGACAGAATGAGACTCCATCTCAACAACAACAACAAACAAACAAACAAAAAAGTGGGCAAAAGAAATAACCAGACATTTCACCAGAGGAGACAT
ACAGATGGCAAATTGCACATAAAAAGATGCTCAACRTCATTTATCATTAGGGAAATGCAAATTACAGCATAATGACATACCCCTACACACCACCTATAAG
AATGGCTAAGATTAAAAATAGAGCTGRGCGCAGTGGCTCATGCCTATAATCCCAGCACTTTGAGAGGCCAAGGTGGGTGGAGAACTTGAGTCCAGGAGTT
CAAGACCAGCCTGGCCAACATGATGAGACCCTGTCTCTACAAAAATACAAAATATTAGCTGGGCATGGTGGCTTGTGCCTGTAGTCCTAGCTACTTGGGA
GGCTGAGGAGGGAGGATTGCTTGACCCTGAGAGGCTGAGGTGGCAGTGAACTGTGATGGCACCACCACACTCCAGCCTAGGCGACAGAGTGAGTTGCTAT
CTCAAAAAAAAAAAAAAATAGTGAACACTAAATGATGGCAAAGATGTGGAGAAAGTGGACCACTCAAACTTTGCTGGTGGAAATGTAAAATGGTACAGCC
ACCTTTGGTAGTTTTTAAAAACAGTTTGGTGGTTTCTTAAAAAACTGAGCATGCAACTACCCCACCACTCAGTAGTTGTACTCCTGAGTATTGATCTCAG
AGAAACAAAGACTTATGTTCACACAAAAACTTGTACATAGATGTTCATATTAGCTTTATTTGTAGTAGCCCCAAACTGGAAACAGCCCGGATGTCCTTCA
GCAGGTGAATGACTTAACAAACTGTGCATTCAAGCCTTGGAATACTACTCATTAATAAAAAGGACAAACTATTGATACATAAAACAACTTGGATGAATCT
TGAATGAAGGGAATTGAGTGGGAAGAAAATCCCAAAAGATACATGAATTATTCCATTTATATTTTTGAAATGACAAAATTTTATAAATGGAGGTCATATT
AGTGGTTGCCAGGGGTTAGGGAGAGGGAGAAGGAAGTAGGGGATGGATATGGTTATAAATGGGCAACGGTGAGAATCTCTGTGGTGTTGGGAATGTTTAG
TACCTTGACTGTGGTAGTGGAWTCGTGTACCTACATATGTGATAAAATTACATGGCACTCACATAAAAAGTACAAATAGAATTGGAGAAAGCTGAATAAG
ATTGATGGATTTTATCAATGTCAATATTCCTGATTGTGATTTTGCAAGATGTTACCATGGGGAGAGGGGGAAACGGGTACAGAGAGCTCTCTGAATTATT
TATAACAATTGCATGTGATTATCTTAGCAAAACTTTAAGTTAAAAACATTTTTAAAAGCAATACATATGTACAAATACCATATGATTCCACTTATATGAG
GCACTTAGAGTAGTCAAAATCATAGAGAAAGAAAGTAGAATGGTGTTTACAAGAGGCTGGGGGAGGAGGGAATAGGGAGCGAGTGCTTAATGTAATAATG
GGTGCAGAGTTACAGTTTTACAGGATGAAAAGAGTTCTTGAAATGGGTGATGGTGGTGGTGGTTGCACAACATTGAGTGTACTTAATGCCATTGAACTCT
ACCCTGAAAAATGGTTAAGATGGTACATTTTATGTTATATATATTTTACCACAATTAAAACATTGTAAAATGAAAAGCAATACATGTGTATTGCAGAAAT
TTGGGAAGGTAGAAGGAAAAGCATCTCCTCTGGTTCACACCCAAAGAAGACTTCCTTTGACATTTTGTTGTATTTGCTTTCATAGGGTTGATTATTGTTT
GTTTTAACATAGTTGTTACTTCACGCACTATGTAATTATATATGCTGCATTTTTCACTTAACACATTCTGAGCACTTTTTCTGGTTAGTATAAAGTCTTT
ATGAACAGCATTTCAAGACAGCCTCAGAATGTTTCATAATAACTGTTCCATAATTTAACCATTATGGAGCATTTTAGAACATGTTATGGAACATTTTGGA
ACATATTACTGGACTTTCTTATAGTACTTCTACTTTTTAATATTGTAATTAACACTTTTATGAACATATTTATATGAATAGTAAAGGCAATAATATTTTA
AATATGTTTATTGAGGCATAATTGACATACAATAAATTACACACATTTTAAATGTGCAATTTGGTGAGTTTTAACATATATGTACGTCTGTGAAACCATT
GTCACAACTAAGATAACAAACATTTCCTTCACCTCCCAAGAGTCATGCCCGTTTGTAATCTCTCACTCCTGTTTACTCCATCACTAGGGACCACTGAGCT
GCTTTCTGTCTCTGTAGATTAGTTTGTATTTTCCAGAATGTTATATAAATGGAATCATGTCGTATGTATTCTTTTTGTCTGGTTTCTTTCAGGATAATAA
TTTTGAGATTCATCCATGGTGCATGTGTCAATAATTCAATCATTTTAAGGCTGAGTAGGATTCCATTGAATGGATATATCACAATGTATTCATCCATTCA
TCTGTTGATGAACTTTCAAGCTGTTTCCAGTTTGGGAGTATCTCAAATAAAGCTACTATTATCATTTGTGTCTTTTCTGGGTAACATGCTTTCCTTTCTC
TTGGGTCAATAGCTAGGAATGAAAGAACAGAATCATATGGTTCGTGTATGTTTAACTTTTTAAGAAACTGCCAACCTGTTTTCTAAAGTGCTCAGGCCAT
TTTGTATTCCCACCTGCAGTATGTGAGAGTTCCATTTCCTCCCCATCCTCACCAACATTTAGTATTGTTAGTCTTTTTACTTTTAGCCATTCTAATAGAT
ACCCAGTGACATCTCCCTGTGGTTTCAGCTTGCATTTCCATCATGACTGATGATCTTAAGCATATTTTCATTTGCCTGTTTGCTATGAGTATGTCTTTTT
TTTTGTGGAAAAACGTCTGTTCCAATCTTTTAACCTGTTCAAAATTGAGTTGTACTTTTTTTATTGCATTTTGAGATTTGAAAATATATTCTGGATACAA
GTTCTTTATCAGATAAATGCTTTGCAAAAATATTTCTCCCAGACCGTGGCTTACCTTTTCATTCATTCTCTTAATTATATCTTTTGAGAAGCAGAAGTTT
TTTTATATTAATTAAGTGCAATTTATTATTTTTTCTTTTTATTCATTAATGCATTTGCTATATTTAAGAAATCTTTGCTAAACCCTGTTTTTTTTTTCTC
AAAATTTTGTAGTTTTAAGTTTTACACTACAAAGTGGCCATGATTCATTTTGAGTTAATTTTGGATTACCATGCAAGATATGCATCAAAGTTTATGTTTC
TGCATTTGGATAGCCAACTGTGCCAGCACCATTTATTGAAAAGATTATGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCTTCCTGCCTCAG
CCTCCCAAAATGCTGGGATTACAGGTGTGAGCCACTGTGCCAAGCCCTCTCTTGCTGTCTTTAGAACTATCTTTTTGTCCAACCACACTGGAAAAAAGGG
AAAAGAAAAAGTAAAAGAAAAAAATGATATTTTTGTCTTTTGACAGTTTGACCATAATGTGCTGTGGAGAAGACCTTTTTGAATTATACCCATTTGGAGG
TGTCTGAGCTTCCTGTATCTGGATGCCTAAATCTCTTATTAGACTTGGGAAGTTTTCAGCTATTATTTTGTTAAATAGGTTTTCTACCCCTTTTGTTTTT
TCTTCACTTTCTGGGACACCAAAATTTTGAGTATTTGGTTACTTTATAGTGTCCCATTTGTCATGTTGGCTTTGTTCTTTCTTTTATCTTTATTTTTGTC
TGATTGGGTTATTTTAAAAGATCTGTCTTCAAGTTCTGAAATTCTTTCTTCTACTTCATCTAGTTTATTATTGAAGCTTCCTATTTTGTATTTCATTTAA
TGAATTCTTCAGTTTCAGAATTTGTTTGGTTCCTTTTTGAATTGTTTTTCTGACTTCTTTGTATGGTTCTTACGTGTTCTCTTTTGTCTCACTGAGCTTC
TTTTATATCATTACCATTACTATTTCTTGAGACAGGATCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCATGGCTCACTGCAGCCTTGACCT
CTTGGGCCCAGGTGATCCTCCCACCTCAGACCCCCAAGAAGCTAGGACTACAAGCACATGCCACCACGCCTGGCTAATTTTTTGCATTTTTGTTAGAGAT
GGGGTTTCGCCATGTTGCCCAGGCTGGTCTTGAATGCCTGGCCTCACCTGCCTTGACCCTCAAAGTATTGGAATTAGAGGTGTGAGCCACCACACTCAGC
TAATGTCATTATTTTGAATTATTTTTCCAAAATTACATACATTTTTTTTTTTACTGGAATCYGTTGCTCAAGAATTATTGTGTTTCTTTGGTGATGTCAC
GTTTCCTTGCTTTTTCACGTTTCTTGTGTTCTTACAGTGATGTCTATACGTTTGGTGTTTGGTGTAACAGTCGCTTCTTCCAATCTTTTGAATTTGCTTT
CATAGAGGAAGACTTTTTCCTGAAGATCTATCTGTGGTGTTGGTTGGGTACAGCATTTAGATTGATTCTGAATGTGTAYAGTAGTGTAGTCTCCATATGA
TTTCTTTAGCTATAAACAGCATCAGTGGTGTCTGTGATTTCCTGAGTGGCTTAGGGTGCAGTTATTAGTGGAGGCTGTGATGAAGTTTTGCTGGGGATGG
GGAAGCCAGATGGACCTGTCCTCAGGTCCCAGTGTTGGCAGCAGTGGGCAAAGCATGACTTCCTTGAGCACCAGGGCATTCTACACTGGTACCAGTGTTA
GTGGGTCCAGGTGGGCCAACTCTTGGACTTCCAGGAAGCTAGCTTGAATGCCAGTAGTGGCAGCGGTGGACCAGGAACATGGATAGGTTCTTGAGCCCCT
GGGCAGTGGGCTTGGCATGGGCACTGGCAGTAGCAGTGGTGAGATGACCCTCCGGCTCCCAAGCAATCTGCTCTGGTGTTGGTGGTGGCTGTGACAGGCT
GGGTAGGCCAACCTCCTTGCCCACAGGTGGCATAGGCAGGTGTGTGCCAGCTGTGGTGTTAGTGGCACACATTAGGTTGGGTGAGCCTGACCTCAGATGC
CTAGGAGGAGCGCTCAGGTGCCGGCTGTGGTGAACTAGGCTGGGAGTCTCAAGGCCCTTGGATGGCACCCTCAGGCACTTGCGGGGACAGAGCTGGGCTG
GGCCGACCTATCTCAGGCTCCCTGGTGGTGTGTGCAGTTGCTGGCTATGGTAGGCAGGGGTGGGGTGATTCTTAGGTCTCTGGTGGAATGCTCGGGTTCA
GCCTTGCTACTGGGGAGGGTGCAGTTGCTTCCAGTGACAGCAGCCATATGCAGTGGCTGGGGAGCATGAGCTTTGCTCATGCTTTGGCCCCTGGCTGCAG
CATCCCATAGCGGCAGTTGCTGCAGGTTGGGGAGTTAGCCCTCGGGGCACGTGAAAGTGTGCAGCAGCTTCACTGCTGGGGGCAGTGAGGTCATTGCCAA
TGGCTTGGGCTTCATTCCTGGTGGCAGCAGCCAGCCTTGGTGGTGGCTGTGAGCAGGGAATGTAAGTGGGGCTCCAGAGATGTGAAGATGCAGGAGCTGT
TTGGCCCCCAGGCAGAATGCAGCCTGGCAGTGGCTAGGATCTCGATAYGGTGCCCTGCTGTAGCTGCTTAGGGCTCAAGGGTGTGTGAGACCCAGCCTTA
GCCCCCTCTCTGGAACAGTATCTTTGCACAATCTCTGGGTATCTCCCTAGGCTAGTCTGTGGCCCACGAGGATCTAGGGGCTCTCCCATGGCTAGAGCTG
CTAGAGTCCACGGTGGGAATGGGGACCACGGGGGTTCACTCACCCTTTCCTCACACTGGGGAGCTACTCCCGGCCCCCAGCTGATTCCCGCCAAGCACCA
TGTATTATTTCCATTTCCTTCTTCGCTTTAGGTGTTTCTTGTCACTTCTCTGTTGAATTCCAGTGTTCTTAGATGAACTAGTCAAAGTGTGATGATCTAC
TTGTTATTTTTGTTCGTCAAGGAGGCAAGTACCAGATGCCTCTAAGTAGCCCCTCTCCCCACATAATAATTGGTGCATTTATGTTTCCTGATACTCATAT
CACATTGTGGTGATTCCTGTCACTTTATGGTAAGTCTCAGTGTCAGAGAGTGTGAGTTTTCCAGTTGTGTTCTTTTTTTTTTCTTTTTTTTTTGAGATGG
AGTTTCACTCTTGTCGCCGATGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGAAACCTCCACCTCCTGRGTTCAAGTGATTCTCCCRCCTCAGCCTCC
TGAGTAGCYGGGATTACAGGCACYTACCCCCACGCCCGACTAATTTTTGTCTTTTTAGTAGAGACGGAGTTTCACCATGTGGGTCAGGYTGGTCTCAAAC
TCCTGATCTCAGGTGGTCCACCTGCCTCAGCCTCCCAGAGTGCTGGGTTCTTTACCAAAGTTGAGCTCTCCTAGGTCCTTTGCGTGTCTGTATAAATTTT
GGAATCCAGTTAGCAATTTCTCCAAAAGAGCCTCCTGGGATTTTGACTGGGATTGCTTTGAATCTGTAGAACCATCTGGGGAAGAACTCTAATGTTCATG
ATAGTCCATGAACATGGTCTAGCTTTTGTTGATTTGGGTTTTCTTTTGTTTCTCTCTTCAGCCTTTTGCAATTTTCAACACCTTGCTCATCTTTGGTCAG
ATTTATCCCTGAGCATCTTATCTTTTTGTTTTTAGAGAGAGAATCTTGCTTGTTTTTTAGAGAGAGAGTCACCCAGGCTGGAATGCAATGGTGCAATCAT
GGCTCACTGCAGCCTTGAACTCCTGGGCTCAAGCGATCCTCCTGCCTTGGCCTCCCAAGTAGCTGGGGCAACAGATGCATGCCACTGTTAACTTAAAAAC
ATTTTTGTAGAGATAAGAGTCTTGCTATGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTAGTCTTCCTGCCTCAGCCTCCTAAAGTGCTGGGATT
ACAGGTGTCAGCTACTCTGCCCAGTCCCATTTTATCTTTTGTGTGCCATTGCCAATGCCATTGTTAGGCCAACACCATTCCACCATGTGTGCCGAGTCAC
AGTGAGACCCACTCCTTGTGGTCCTGGTGCTCACCTCCAGGTACCATCAGGGAAAGTGGGATGCCTCCAGGTGCCCTCTCAACTCCCCATCTCCTTTCCT
CCATCCAGAGAGAGTCCACATCTCCACCCCCAACAAGTATGAGTTCCAGTATGTGCAGCGGCCACTGCGCCTCACCCGCTTTGATGTGGCTGTGCGAGCT
CACAATGATGCCCGTGTGGCCTTGTCTTCTGGGCCCCAGGACACAGCAGGCATGATCGAGATCGTCCTGGGGGGGCATCAGAACACCAGGTCATGGATCT
CCACCAGCAAGATGGGAGAGCCCGTGGCCAGTGCACACACGGCCAAGATCCTCTCCTGGGATGAATTCAGAACATTCTGGATCAGCTGGCGTGGTGGCCT
TATCCAGGTATACAGCAGAACTGCCTGGGGCTTGTGCAGAAGCCTCATGTTCCTCCAATAYTAGCTGCTTCCTGTTTGGTGCCAGGCTTTGATCCRGGGT
CAGGAGGAGCAAGGGAAACATGGAGCACCACCTCAAGTTGTTCTTAGTCTAGAGTCGCTTACCGAAAAAAAAAAAAAAACATGTAGCAAGAGCTGTGGCA
GAGGAAGCACCCAAGGATCAGGGAGCAGAGAGAGGAGGTAGGGGAGAAAAGAAGAATGGACATGAGCAAGTGAAATGGGGGTTGGGGGGTGTTTTCTGGG
CCAAGGAAAAAGAAGATATAGAAGCTAACACAGCTTCCCAACACAGGAAGCTAATACTGCTTCCTAGAGGAAGAACATAACCAAAGTAGGTTTTGAAGTA
TGAATAGGAGTTCGCTAGGCAAAATGGAAGCAGAGTAGGTTCTCTAGGCAGAGCAATAGCATGTGCAAAGGTCCAGAGGTTCCAAGGAGCCCAATGACTT
TGGAACCTGTAGATGCCATGCCTTATGTTTCTGTTGGCTGTTTAATGGATGGGGTAACCTGATTTCTCTCACCTCTGACTCCCCGAAGACCCTTCCTTGC
ACTGTGAGCATGGCTGAGGCCTCTGACCCTGGCCACAAAGCTGGTGTCACTGCCACCTGAGTGCCTACTGCCTGCTTCCTGCCAGYGTCCAGCAGCCTTG
GTTTCTTTTTCCAGGTTGGCCATGGTCCAGAGCCATCCAATGAGTCTGTCATTGTGGCCTGGACCCTCCCGAGGCCACCAGAGGTCCAGTTCATTGGCTT
TTCCACCGGCTGGGGCTCCATGGGTGAATTCCRAATCTGGAGGAAGATGGAGGTGGACGAGAGCTACAGCGAGGCCTTCACCCTGGGGGTCCCACACGGC
GCCATCCCTGGGTCTGAGCGAGCCACCGCCTCCATCATCGGTGCGTCTGTCCCACAGCCTGGCTTGGAGAGGTCAGGGGGCAAGAGCCGAAGTTGAGACT
CCAGGCTTAGTCTCAAGCTGGGCTTTGCTGGGGACCTGTGTCTTGGGGTGTCCACCCATACACCCACTCACCTGACAAGCAGCTTCCAGTGCCTTCTCTA
TGCCCATCCATGTGCTGGGCATTGAGGAAGCCCAAGAGCTGATCCCAACCCCACCCTTGAGGGACTCCTAGTCCAGGTGAGATGGCAGATCTAGAGCCCC
CCAAGTCTAAACCTTATGCAGAGGTCAGGGTAGGGTGACCCCTAAGAACCTGCAGTGAACCCTGTGAGGGCAGTGGGCCAAGGACAAGATCCAAGAAAAC
ACAAATACCTGAATAAGTCAGCCAGATATGCGGTGCAGGATGGAGGCCTGGGGGGTCTTGGTGATGGGGCAGGCGTCCGGAGCAGTTGCTGAGTAGGGGT
GAGAGGCTCTGACTAGGGACATTGGAAGCAGCCTTAGGGGGTCTGTAGGGTTGGGATGTGTATTAGTCTGTTTTCATGCTGCTGATAAAGACATACCCAA
GACTGGGTAATTTATAAAGAAAAAGAGGTTTAATTGACTCACAGTTTCACGTGGCTGGGGAGGCCTCACAATCATGGTGGAAGGCGACAGGTACGTCTTA
CRTGGTCCCAGGGAGAATGAGAGAATGAGAGCCAAGTGAAAGGGGTTTTCGCCTTATAAAACCATCAGATCTCGTAAGACTTATTCACTACTGCGAGAAC
AGTATGGGGAAGCCGCCCCCATAATTCAGTTATCTCCCACCGAGTCCTTCCCACAACATGTGGGAATTATGGGAGCTACAATTCAAGACAAGATTTGGTT
GGGGACACRGCCAATCCATATCAGGATGCCTCTAGTAGCCCAGGTGCTGGAGGGGCTGTGATTGATCCAGGGCTAGGAGTTGGGCAGAAGGGTGGTGAGA
GTTTGGGATGGGCCTGAGYCAGGGAGGAGAGGGTGAGAGGCCGGAAGGAGATGGACAGACCCAAATGAGGGTGTCGAGGCTCTCTCTGACATCAGAGGGT
GGAGGCCCTGGGACTCAGGCAGGTAGGTGGTTGTGGCCAGATCAGAGGAATTTCAAGTTTACAATTCCTGAGGCACGAGAGCAAGTCAGAGTGGATGTGG
GGCTGAGTGACTAAGATGGAACTGAATGAGATAGGAGAAGAAGCAGAGAGGCAGGAATGGAGAGGAGGCGACGTCTGGGATCTGTGTGCCAGTGCCTTCA
GTGACACAGCAGATGGAGAAAAAGCTGGGGAGCCTAGAGCCTAGAAAGTAGCCAGGCTATTTGTGCAACAAGAGCTGTAGGGGCAATGGCAGCCTCAGTG
AGACATGCAGAGAGGCTAAAGAAAGAAAGAAGGGGCCAGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATAACGAG
ATCAAGAGATGGAGATCATCCTGGCCAACATGGAGAAAGCTCGTCTCTTCTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACAAGCCTGTAATCCCAG
CTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCACTGCAGTCCAGCCTGGTGACAGAGTG
AGATTCCATCTAAAAATAAATAAAATAAAATAAAATAAAATAAAGAAGGAAAGAAGGTGTGTTCAGGGGACATTGGGGGTCCCAGGGGGGTCCATCAGAA
ATATTTGAGACAAGGAAGCCAAGAAGAGGAATACGGAATGTCAAGGGGATGGGAGAACCATAATTTTTTTTTAAAGAGAGAAAACTGAAAAATGCACCTC
CAACTCCATACATATAGAAACTTTTTTTAAAAATTGAAGTGCTCTTGGTTAAAGAGAAAATCTGAATATTTTAGAAAGAATATTTTAGGACCAGGTGCAG
TGGATCACGCCTGTAATTCCGGCACTTTGGGAGGCAGAGGCAGGTGGATCACGTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGATGAAACCCTG
TCTCTACTAAAAAAATAAAAATAAAAAATTAGTTGGGTGTGGTGGCACACGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAGTTGCTTGAAC
CTGGGAAGCGGAGGTTGCAGTGAACCGAGATTGTGCCACTATACTCCAGCCTGGGTGATGGAGTGAGACTCCATCTCAAAAAAAAAAAATATTTTAGAAA
GACTAGAATAGAATGAGAATGATTGTATAGACATACCAATATTTGTAGGATGCAACCAAAGTTGTACTTAGAGGCCAATGTATAGCTTTCAATGCACCTA
TTTTAAAAGCCAGGGAGGGAAAAAGCATTGAACAGAATGAAAAGCTAGAGAAAGAAAGCCTGAGTTAAAACTAAAGAACACAGAAGGAGGTGTGTAAAAC
TGTCACCAAAGCCAGGACACCAGCTGGTCTGAGCAGGCAGAGGGTGCCAGTCCCAAAGGGCAGTTGGGTGGCTGACTGCATGACACTCACTGTCTCCCAT
CCCTGGKTAAAGCTGTCCCTGTTCTCTACTGAACTGGGACAGCCCCCAACTCAACTCTCTTCWCCTTCCCACCAGGGGACGTCATGGGGCCAACCCTGAA
CCACCTCAACAACCTCCTGCGGCTGCCGTTTGGCTGTGGAGAGCAGAACATGATCCACTTTGCACCCAACRTCTTTGTCTTGAAGTATCTTCAGAAAACC
CAGCAGCTCAGCCCTGAGGTGGAGAGAGAGACCACCGACTACCTAGTACAAGGTATTGGGGAAGAAGTGCCTGGGTTGAGGTGGGAGCAAGGGAGGCAGG
TTCAGCCTTCAGTGGAGAAGACCAYGCTGGAGGTGGCCCACACACCAGGTGCAGCAAAGKGGAGGAAGTGGGCAAAAGAGGCCATTCAGGGTGGCCCTGA
TCTTGTCACTGTCAGCAGGAGCCTGATGTCTGTGGCTGTTAGGATGAGATGGTGCTGTTCAGATACAGGGAGAGGAAAAGCATCTTTTTAAAGTGTGGAT
TTTTTTACAACAATAATAATATAACAGCATTATTAAAAATAACATTTAGAAAATAAAAGAGAAGGCCAGGCACAGTGGCTGATGCCTGTAATCCCAACAC
TTTGGGAGGCCGAGGCAGGAGGATTACTTGAGCCCAGGAGTTTGAGACAAGCCTGGGCAACAAAGCAAGACCCCGGTCTCTACAAAAAATAAAAAAAATG
TTAGCCAGACATGGTGGCACACCCCTGTAGTCCCAGCTGCTCAGGAGGCTGAGGCAGGAGGATCACTTGGGCCCAGGAGTTGGAGGCTGCAGTGAACTGT
GATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTGAGACCCCAACTGTAAAAAATAAAAAAGAATAAAGAAGAAGAAACAGTCAGGGGTTGCTCTAGG
CTGAAAGTCTGGCATCTTGAAGGCTGATCATGGACAGCTAGGAAGGCCAAGTCCACTGAGGCCAGGTCCTGGGGGCTCAGATTAGCACTTGTGAGGGTCT
GGGAGATGGGTGGACACCAGCTGGTGGATCCATCCAGGCTCAGGTCCTTAAACACCACCCAGAGTTGAATGAGCCCTCCTCGTGAATAACAGCCTGTACC
TCCAGGGGACAGCCGGACCCTGTGTGCATCCAGCCAACTCGCAGTTCAGACTCAACAAACCCCAAATCAACCCCCGCCATCTTCCCCCCAAACCCACTTG
TGTTCATTTCCTAAAACTGCCACRACAAAATGCCACAAACCGGGTGGCTTAGAACGACAGAAATGTGTCATCTCCTCATAGTTCTGGAGGCCAAAAGTCA
AAAATAAAGGTGTCCGCAGAGCTGGTTCCTACTGGTGGCTCTGAGGGAGACTGTCCCAGGCCTCTCTCCTGGCGTCTGCTGGCTCCAGGAGTTCCTTGGC
TTATAGACTGATCAGCCTGCTCTGTGCCTTCACAATCACATGGCTGTCACCTCTGTGACTAATTCCCTTTCTTTTCTTTTTTTTTTTTGTAAGAGCTAGG
GTCTCGCTCTGTCACCCAGGCCGGAGTGCAATGGTGCGATCATAGCTCACTGCAGACTTGAACTCCTGGGCTCAAGTGAGCCTCCCACCTCAGCCTCCTG
AGTAGCTGGGACTACAGGTGTGCACCACCATGCCCAGCCAATTCTTTGTAAAGATGGGGTTCCGCTATGTTGTCCAGGCTGGTCTTGAACTCCCGGCCTC
AAGTGATCCTCTCACCTTGGCCTCCCAAAGTGCTGGGATTCCAGGTGCAAGCCACGATGCCCGGCCTCTCTTTTCTCTTACAAGGATGCCTGTCATTGGA
TTTAGGGCCCATCCTAAATAAATCCAAGATGCTCTCATCTGGAGATCCTAACCTTAATGACATCTGTAAAGATCTTTTATTTCCAGTAAGGTCCCATTTT
TGGGTTCCAAGTGGATGTGAATTTGGGAGGACCCACCCAGTACAGAATTTCTTTGGTCACCGGTCCTGTCTCTGTGGACACAGCCCTGTCCTTCCTGARG
CTCAGACCACACACAGTGGTGCCCTCAGATTCGTCCTTCTTTCCCTCACAGGCTGTGTCTGGCTGAGTAGCTCTGCCTTCACCCCAGGAAGGCTCCCCAC
CTCTGTCGCCGCCACTGGGTCCAAACTCATCATTGCACACTGGGAGGGTTCCCCGTCCCCAGCTTTCTGTCCAGACCCTACGGTCCACTGGCTCTATATG
TCTCCTCACACTCTTCTCCTACTCACACGCCACCCATGGCTCCCTATGCCCTTGCAGGAAAACCACACTCCCAGCCCAGCCTTGGAGGCCCTGTGGCCCA
CCGGCCTCTCACCTCACCCCCTCGTTCCCTGCTCCGTTCCCTGTCCCCGGCACCACCAGTTCTCTGAGCTTCCCAAGCTCTCGCCCCAGCAGTTGGAGCA
GCCCCCACGCCTGGGGACAGAGGGCTGTGGGGGACAGAGGGCGCTGCCCCAAGATGGTGGTTTTGCTGACCTCCTGGGAGTGACCGAAGGCCAGTGTGTG
ACCAGTAGTCACGAAGGGGCAATGTCAGTAAACAAGATGAATGAGTTGGAGGTTACAGCCACCCTAGATGTAGTGTGGGGCAGTTTCAAGGACCTCAGAT
GTGGTGTGAGGTAGTTCCAGGGATCCCCGATGTGATGTGGAGCAGTTTCAGGGACCCCCAATGTGGTATAGGGTAGTTTCAAGGACCCCAGATGTGGTGT
GGAGCAGTTTCAGGAACCCCAGATGTGTGGAGCAGTTTCAGAGACCCCAGATGTGGTGTGGGGCAGTTCCAGGGACCTCAGATGTAGTGTGGAGCAGTTC
CAGGGACTCCACATGTGGTATGAGGCAGTTTCAAGAACTCTAGATGTGATGTGGAGCAGTTTCGGGGACCCCAGATGTGCTGTGGGTRTGGGGCAGTTTC
AAGAACCCCAGATGTGGTGTGGAGCAGTTTCAGGGACCCCAGATGTAGTGTGGGGCAGTTTCAGGGACCCCAGGTGTGGTGTGGAGCAGTTCCAGGGACT
CCAGATGTGGAATGAGACAGTTTCAAGAACCCTAGATGTGATGTGGGGCAGTTTCAGGGACCCCAGATGTGGTGCGCTGCGGTTCCAGGGACTCCAGATG
TAGTATGAGGCAGTTTCAAGAACCCCAGATGTGGTGTGGGGCAGTTTCAGGGACCCCAGATGTGACACAGGGCAGTTTCAGTGAGCCCAGATGTGGTGTG
GAGCAGTTTTAGGGACTCCAAATGTGGTATAAAGCAGTTTCAAGAACCCCACATGTGGTATGGGGCAGTTTCAGGGACCCCAGATGTGGGTGTATGGCAG
TTTCAAGGACTCCAGATGTGATTCGAGGCAATTCCAGGGACCCCACATGTGGTGTGGCTTCGGAGATCCGGGGTAGGGGACGGCAGAGTGGTGTAGGTCC
CTGGGGGCGGGCCTGGGCCAGGCCACTCAACAGGACAGGGTCCTCTCTGCTTGCCCCACAGGCTACCAGCGCCAGCTGACCTACAAGCGCCAGGATGGCT
CCTACAGCGCGTTTGGGGAGCGGGACGCATCGGGGAGCATGTGGTGAGTCCCCACCGCCCTGGGCATTGCCTCTGAGGCTCCCCGCCCGACGCCATGGCC
TCACATCCAATGCAGTGTGACCAGATCACTTGGCGCCTGATCCCCGGATGACAGGGAACACAGCTGGGAAGTAAAGACTGTGGTGGTCCCAGCTCCAGRG
ATGGAGGYTGGGGCTTGGGGCCAGTGCAGAGCTGGTGATCGTAACCATTCCTGTTTCTGCTGCTGTTACCACAGTGAGCAAGACTCCATGCCCTGCTCTC
TGGCCCCTTGGGAGTGAGCCCTGGATGCCCTGGGCTTCCTCAAGCTCCCAGGACTCAGGAATAGCGGTGACTGGAGCAGGAGGAGATGGCAGGGCAGAGG
GGTCAGAGGCCAGACCAGCACCTTGAGGCTGGGGTGTGCTGTSTGCAGGAGCAGCCTGGGATCTTGTTTCTGTGGTAACTGCAGGGAGGWGACCAGGGCA
GGGAGGGCCCCTGGGAGGCCGGGCACACCTGGGTCTTGTTTTCCTGATATCCTCAGGCTATTGCAGTTCTTGGCATCATCATGGGGTTCACCTGAGACTG
TGAGTCACTTTCCAACTCCTGTACCCATCGCCGGACTCCTTCTCGGAGATTGCCACCCTGGTAGTGCCGACAGCAGCTGTGAGCGTGGAAACTGCCCTGT
CTTTAGTCCAACAGAGTGTCCACTGCACAGTCACAGTGCCAGGATCCCAGGGAGTGGGGACATGTGGCTGAGTACTTCCTGCCATGGGCAGCATCACTTA
CCTAGCTCCAGAGGGGCCCAGGGTTGGCGACTCACCCAGCCTCCCCCAGCCCCAGGAGCTCATCCACACTGTCCCAGCTCTAGTCCCAGGGCCCTGCCTT
GCCKACAGCTGATAACRCAAGGCCCCAATCACRTCTTAGCAAGCAGAGGCCCCGCCCACCCCAGGGACAGCTAAAGCCACTGAGTCACTCTCCAAAAGCT
GGCTGAGCCCCAGCAGCCCCTAGGAGGCCTCCACCAGCCAGGATTAGCAAGTTGTGACGCATTGGACCTTTTTTTTTTTTTTTTTTTTTTTTGAGATAGA
GTCTAACTCTGTTCCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGGTCACTGCAACCTCCATCTCCTAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTG
AGTAGCTAGGATTACAGGTGTGCACCAYCATGCCCAGCTAATTTTTGTATTTTTAGTAGGGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTC
CTGACCTCAGATGATCCGCCTGCCTTGGCCTCCTAAAGTGCTGGGATTACAGGCRTGAGCCACCGTGCCCRGCCTAGACACTCAGTGTGCACACACCTCC
TCAGCATCTTCCGGGGATTAAACTCTCAGCATGAGCAAGAAAAATCAAATTTCCTTTTTGTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGG
AGTGCAGTGGCGCCATCTCGGCACACTGCAAGCTCCGCCCCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGAATACAGGCGCCCG
CCACCACGCCTGGCTACTTTTTTTGTATTTTTAATAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTTCTGACCTTGTGATCCGCCCGCC
TCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCATGGCTGAAAAATCAAATTTCACTGTGTGCATGGAAGTCAGCAGCTTCCAGGTCCC
CTCTCACCTCCTGAAACATTCCTGTTGGTCTCCAAACATGGACGTCTTCCTGGGGACCCTGTAGGACAAGGAGGCAGTGAGCGCAGGGCAGTGGCAGCAG
CACCCACCCCGAAGCTGGACAAACCTCAGCTCTGTCTCATGTGAGCTGTGTGGCCTTAGACCCRATGATCAACCTCTCTGAGCCTGTTTCCTTACCACAC
ATCCCTCTAAGAACCTGGATCCATGGGATAAGCATGTGGTACACTCAGTGCAGTGCCGTCCTGTTAGCACCTCCCCTAACTACTTACCAKAAGGCTCCAA
GATCCTGCCAGGGAGCCTGAAAACTTGGGATCTGTTCTAGATGGGTTCCCTTATACTCAACGCAYATTCATTCATTTATTCATTGAGTGAGCTAGGCTCT
GGTCTTCATCCTGGGGGAAAAAGGAACACATGGTTCCTACCTCCAGGTCCTYGCTGCCCAGTGCAGGAGAAAGACCCTGTGAGAGATGCAATAGTTATCC
ACTGCTGTGTAACAAGTGACCCCAAATGTAGCCATTTAAAACAACAAACGTATTATCTCTATTTATTATGTATTAATTCTTATGGATCAGGAATTCAGGA
GCAGCTTAGCTGGGTGTTTCTGCCTGGGGATCTTTGCTGAGGTTGCAGTCAAGGTGTTGGCTGTTGCTGTCTTCATCTGAAGGCTCTACTGGGGCTGGAA
GATTTGTTTCCAAATTGGCTCCCTCACATGGCTGTTGGCAGGAGGCCTCAGTTGCTCACCACATGGACTTCTCCATAGGGACTACTTGAGTGTTCTTACA
ACATGGCGGCTGGCTTCCTCTCACAGTGAGCAATTCAAGAGAGAAAGCGGGAAGGATGCCATAGCGCCTTTTGTTACTTGGTCTTACAAGTCAGGCTGTT
ACTTCTGCCTCATTMTATTCTATTCCTTTTTTTTTTCTTTTTTTGAGATGGGGTCTCACCCTATCACCCAAGCTGGAGTTCAGTGGTATAATCTCGGCTC
ACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGCACCTGCCACCATGCCTGGCTAATTTTTGT
ATTTTTAATAGAGACAGGATTTCACCATGTTGCCCAGGCTGGTCTCGAATTCCTGACCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGAGATT
ACAGGTGTGAGCCACCGTGCCTGGGCTCCAAGATGCTTTTAGTGCCAACCTCATGCTCAAGGGAAATGTTCATTGGAGCATTTCAGATTTTTTGCATTTG
GGATGCCCAAGTATACAGGTAGCCCTCCGTATCTGTGAGTTCCACAGGATTCAATCAACTACAGATCGAAACTATTCAGAAAAAAAAAAAAAAAAAGTCT
GGGTGTGATGGCACGTGCCTGTCATCCCTGCACTTTGGGGAAGCTGAATCGGGAAGATTGTTTGAGGCCAGGAGTCGGAGACCAGCCTGAGAAACATGGC
AAGACCTCATCTCGGCAAAAATGTTAAAAATAAGCTGGGYGTGGTGGTACATGCCTTAGTCCCAACTACTGGGGAGGCTGAGGTGGGAGGATCCCTTGAG
CCCAGAAGTTCAAGGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAAACTCCATCTCTTWAAAAAAAAAAAAAAAAATT
TTAAAAATTCCACAAAGTTCAAAAACGAAAAGTTGAATTTGCTGCATGCTGAGTACAATATTGAATTCATGCAAATGAAGTGACATGTGGGCATTGTATT
AGGTGTTCTAAGTAATCAAGACATGCTTTAAAGTACACAGGAGGGGCCGGGCGCTGTGGCTCACGCTTGGAATCCCAGCACTTTGGGAGGCCAAGGTAGG
CGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACCCCGTCTCTACTCAAAATACTAAAATTAGCTGGGCATGGTGGTGGGCG
TCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGAGGCAGAGATTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCT
GGGCAACAGGGTGAGACTGTGTCTCAAAAATAAAAATAAAAAATAAAGTTCACGGGAGGATATGTGTCGGTTATATGCAACTACTACACACTCGTATATC
GGGGACTTGAGCATCAGTGGATTTCGGTATCCTTGGGGGTCCTGGAACCAGTCCCCTACAGATACCAAGAGATTCCCGTAAATGCAAATATTCCAAAATC
CAAATTCAAAATCTGAAACACTTCTGGTTCCAAGCATTTCAGATAACAGATAGTCATTAGACTTTACTTTTTATTATTTATTTTAACTAATTTTTTTTGA
GACAAGATCTCGCTCTGTTTCCCAGGCTAGAGTGCGGTGGCACAATCAGGGCTCACAGCAGCCTTGATTTTCTGGGCTCAAGCAATTTTTCCGCCTCAGC
CCCGCAAGCAGCTGGGACCACAGGCATGCACTACCATGCCCAGCTAATTTTTTTGAATTTCAGTAGAGACCAGGTGTTGCTGTGTTGCCCAGGCTGGTCT
CAAGCTCCTGGCCTCAGCCGATCCTCCACCTCTGCCTCCCAAACACTGCTGGCATGAGCCACCTCGCCYGGCCATAGATCTTACTTTTTAGAAGAGTTCT
AGGTTTCCAGAAAAATTGAGTAAATAGAACAGAGTTCCCATWCACCTCTACACCCCCATACACAGCTTCCCATGTGATAGGCATCTTGTATTAGTGTGCT
GTATTTGTTACAATTGATGGACCGGCATCAAAACGTTATGAACTAAGGTTCATAATCTACATTAGAGTTCACTCACACACTCATTTTTTATTTATTTGTG
TGTTTGTTTATGAATAACAGGGTCTCACTATGTTGCCCAGGCTGGTTTCAAACTCCTGGCCTCAACTGATCCTCCTGCCTCAGCCTCCCAAGGTGTTAGG
ATTACAAGTATGGGCCACTGAATCCGGCTGAGAGCTCATTTCTTTTTATCACTTGATAACATTTATCCTGTTTGCGTTTTACAGTGGGAAAGTAGAGAGC
ACAGTATGCTAGACCATGGGAATTCCACAATTCCCAGCACACAGCTGGCTTGGTTCTGTCCTTGCCTCCTTTCCCTGCCGTGCCCAAAATGCATGGAGTT
TCCCCCTGGTTGCAGTGTGCATAGCTGGTAATGGGGTGGGGATGAGCCTGGGAGCCATGGGGTCTCCTGGCTAATCCAGGGAACATGGGAATAGAAAGAA
GAGGATGCATTTGAGGTACCTGAGAGGGAGAACGGCCTGGACGAGCTTTGGGTATATTTTATTTTATTTTATCTATTTATTTATTTATTCTTTTTTGTCT
GAGACAGGGTCTCATTTTGACACCCAGGCTAGAGTGCAGTGGTGCGATCTCAGGTCACTGCAACCTCCGCCTCCTGAGGTCAAGCAATTCTCTTGCCTCA
GCCTCCCGAGTAGCTGGGATTACAGGTGCCCGCCACCACGCCTGGCTAATTTTTTTTTATTTTTAGTGGAGATGGGGTTTCGCATGTCAGTCAGGCTGGT
CTTGAACTCCTGAATCCCAGCACTTTGGGAAGCCAAGGTGGGAGGATCACTTGAGGTCAGGAGTTTGAGATCAGTCTGGCCAGCATGGTGAAACCCCGTC
TCTACTAAAAATACAAAAATATTAGCTGGGCATGGTGGCAATCCCAGCTACTCGGGAGGCTGTAATCCCAGCTACTCAGGAGGCTGAGGCACGAGAATTG
CTTGACCCTGAGAGGCAGAGGCTGCAGTGAGCATGGTGGCTTATGCCTATAATCCCACCACTTTGGGAGGCCATTGTGGGAGGATCRCTGGAGCCCAGGA
GTTCGAGACCTGCCTGGGCAACATAGTAAGACCTCATCTCTATAAAGAATTTAAAAATTCGCTGGATGTCGTGGCACGTCCCTGTAGTCCCAGCTACTTG
GGAGGCTKAAGTGGGAGAATCGCTTGAGCTGGGAGTTGTAGGCTACAGTGAGTTAGGACTGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCT
GTCTTGAAAAGCAAGAAAGCAAGAGAGAGAGAGAGAGGAAGGGAGGGAGGGAGAGAGAGAGAAGAAAGAAAATCAAGAAAGAAAAGTAGGAAAGAAAAGA
GAGAGAGAAAAAGGAAGGAGAGAGAGAAAGAGAAAGAAAGAAAGAAAAAGAAAGAAAAGAGAGAAAGAAGAAAGGAAGAGGGAGGGAGGGAAGGAAGGAA
GGAAGGMGGCAGGCAGGCGGGCAGGCGGGCAGGCTAATGCATCCCATTTTTGTGGTTCATATAAAGAGCCTAGAGCCACTTGATTTTGAAGACAGCTTAT
TCATTGATCCTGAATTTGCGAAGTTTCCTCTCCTGACAATTTTGGTTTTCATCCCTCATGGCCTCCTGGCTTCCATCCTGTGCTTCTCTCCTTCATTTRT
TCATGCATTCATTCCCTGGCCTTGCCAGCTCTTACTCAGGGTGGCACCTGCAAAAGCAGGGCAAGGGAGATGGGGTGGATGAGGGACAGGCCACATAACA
GAGATGTTTTTGGCTGAAAACAACAGAAAACGGGCTGGAGAGCAATTCTGAACATCAGCTCACACTGCAGGGCTGGGGAGGTGCTATGGTTGGCTAATTC
AGCAGCCCCATAGTGCACTGGGGCTCGTTTTTTTCCTTCCATCCCTGGGTATTCCCTCCCTTGGCACATGGCTGCACCCCTCATGGTGGCAAAATGGCTG
CAGCTGCTCCCAGCATTGCATCACATGCCCATTCCAAAGCCATTCCCAGGCTCAGAAACTGGAATGCCCATGACTGGCTGGCTGGGACCACAGAGAAGCA
CAGATCTCCAGGGCACATGGCTGCTGGCCCCTGAATGAGATCAGGGGCCTTTTGGCAAGGACCAAGCAAGAAATGGCTGTGAGGTCGGCAACCAGAAGGG
TCTTCCTCACATGGCAGGACAGGCAGGGCTAGACCAGCTCACAGAAGGGCCTTGAGTGCCGAGCAAGGAGCAGACCTGAATGCCACTAGGGTAGAGGTCC
AGGTAGGAAGGAGAGAGCTCCGTCTTCAAGCCCCACTGGGTGCTGGGCAATGTGCCCCCTCCTCCACTCTGACAGCCCTGTGGGGACAGATGGGACCCCT
CCCATCTTATAGATGAGGAAATGGAGGCCGGGGGTGGTGCCAGGAGCTTGCTGCAATCCCTCAGCCAGCATGTGGGGGCTGACCATTCTGCAACCCCTCA
GCTGACACCCTGTCCTCTTTCAGGCTCACAGCCTTTGTCCTGAAGTCCTTCGCACAGGCTCGCAGCTTTATCTTCGTGGACCCCCGGGAGCTGGCTGCCG
CCAAGAGCTGGATCATCCAGCAGCAGCAGGCCGATGGCTCCTTCCTGGCCGTGGGCAGGGTCCTGAACAAGGACATCCAGGTGAGTGGCCCCTTGAGCCT
CCTTCCCGGGCCCCTCACCTCCTCCCAGAGCCCCAGCCCTGACCTGCCTGTTCCTACTCCCTGGAGCTGCCTGGGGGAAGTGGGGGGAAGTGGACTGTCT
CCTTTGGCTTAGGGTGAGGCCTGTGAGTCCCCTTGYAGGGTGGGATCCACGGCAYTGTCCCGCTGACAGCCTACGTGGTGGTTGCTCTCCTGGAAACAGG
CACAGCCTCAGAGGTGAGTACAGAAGGGGTTTGGGGAGACTCGGGGCTGGGCACTGGAGGAGCAAATGGAAGGTTCCCTCCTTTATGCCAGGGGTGATTT
CTTCCTCCCTGCCCTCCTTCTGCTCATTATCGAGGCTTTTTCATGCTTTTCATCAACAATGGTCACATTACATCCAGTTTCTTGTAATCTGAGCAGAGGA
GAGAGAGATTCCCATGCTACTAGGGGGAAATTGGGCACATGTTGGGGGCTGGGGAGGTGCCCTGAGTACAGAGCCTCCCATGACTGTCCACAGCCCCTAG
ACCTCCTTCAGAGAATCATTTCAGGCTAGTTCAGGTTCCTGGCCAGTGACCCAAGGGTTGGCTTCAGGGAACCCTACAAAATGTTGGGCTCATGCATGTT
TTTGCAGGGAAAGGGGTTAGGATATTCAGAGACAGTTGGTACTGGATGGGGCTTAGATGGCCCAAGAGACTTGAGGGCCATAGTCTCTTCTATGAGGCTT
TCCTGGGGTGGGGGATGGCACAGTCTCTGCAGAGAAGGCTTCCACGATGGATCTCAGCCCTGGGTGAGAAGAATMTGCCCTCCCTAATACCTACATCAAT
TCTACAATCTCTCATGATAAATTATGAGTTTGGGCACTTCTCAGGATTCTTGGTCTCACAATCCAGACAACTAGTGGGTCTACAGTTTGCTGTGACCTAA
GACCGCCCCCACCRTGCACAATGTCCAGAGGGCCCCTTGCCTTGTGTTATGGGCTGAATTGGTTCTCCCCTGACCAAATTCTTATGCTGAATTCCTAATG
CCCTGTCTTAGCTTGGGCTGCAGAAACAAAATACCATGGAGTAAGTGGCTTCAACAATAGGCATTTATTTTGCACAGTTCTAGAGGATGGGAAGTCCAAG
ACCAAGGCACAGGCAGATTTGGTTCTTGGTGAGGGCTCTCTTCCTGATTTGTTGACTGCCACCTTCTCACTGTATGTTCACATGGCGTTTCCCTAGTGTG
TGCATGTGGAGAGAGAGCTCTAGTGCTCTTCCTCTTCATATAAGGACACTAATCCTATTATTTTGGAGGCCCCATCCTCGTGACCTCAGTCTAAACCTAA
TTATCTCTCAAAGGTCCCCAACTCCTAATACCATCATATTAGGAGTTAGAGCTTCAACATATGGATTCTGAGGAAGATCACACGTATTCCATGACACCCC
CTCATACCTCAGAAGTCCTCCTCCACATCTCCCATGGAAGTGGTCAAATATGTCACCTCCCAAATGCATTTTTCTGGAAACTTCCCTGCCAGAGCCCTTG
GCCCCCACTCGAGTTGGAATGGACAGCACCCAGGATGCTGCACAATTGCTACCCTCCTTTACTGAGAAAGGGTTTTGGGAGGCACATTTTTTGAGACGTT
GCATGTYTGCAAATATTCTTATTCTGGCCCTGTATGATAGCTGGGCTGGGTATAGAATTCCAGGTTGGAAATTGTTTTCCTGTAGAATAATTGATGATGT
TCTATCATCTTCTAGTTTCCTGTGTTCCACTGAGAAGTCGGATGTCATTCTGAGTACTATCCTTTGTATCTCGTTTGTTCTCTCCTCTGGAAGCTTTCCA
ATCTTCTCATTGTCCATATCACTATGGACAACAAGATATGTACACTTTTATGACACATATCTTGAGGTGAGACTTTTTTTTTTCAGCTCACTGCAACCTC
CGCCTCCTGGGTTCAAGTGATTCTCTTTGGCTTGGGGTGAGGGCTGTGAGTCCCCTTGCAGGGTGGGATCCATGGCATGGCAGCTTCAGACTCCCGAGTA
GCTGGGACTACAGGCATGTGCCACTGCATCCGGCTAATTTTCGTATTTTTAGTAGAGACCAGGTTCCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGA
CCTCAGGTGATCCTCCTGCCTTGGCCTCCCAAAGTACTGGGATTACAGGCATAAGCCACCATGCCTGGCCCTCCCTTATGTCTTCAGTGAACACTCAACA
GGCCCTCTACCTCCTTCCTATCCCTTGAGGTCACTTCACTTCTCCCAAGAATCTTTTTCTGCCTTCTCCATAGCCTTCCAACCTATTTCTCTTCTGAACC
TGAAGGCCTGCCCTGCAGGGCAGCAGTTGTTTCTCCCTGGTCTTCTGAGTTCTGGTCTCTTAGATCAGCAGTATCCAACCTTTTTGGCACAAGGGACCAG
TTTTGTGGAAGACAATTGTTCCATGGACTGGGGAAGAGGGGGTAGTTTTGGGAGATTCAAGAGCATTACATTTATTGTGCACTTTATTTCTATTATTATT
ACATTATAATATATAATGAAATAATTATACAACTCACCATAATATAGAATCAGTGGGAGCCTGAGCTTGTTTTCCTGCAACTAGACTGTCCTTTCTGGGA
GTGATGGGAGACAGTGACAGATCATTAGGCTTTAGATTCTCATAAGGAGTGTGCAACCAGCTGGGTGCAGTGGTTCACACCTGTAATCTCAGCACTTTGG
GAGGCCAAGGCAGGCAGATCACTTGAAGTCAGGAGTTTGAGACCAGCCTGGCCAACATGATGAAACCCTGTCTCTACTAAAAATACAAAAACTGTCTGGG
TGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGTGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAATCTGGTGAAACCC
CGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGG
GAGGCAGAGCTTGCCGTGAGCCGAGATGGTGCCACTGCACTCCAGCCCGGGCAAGAGTGCCAGACTCTGTCTCAAAAAATAAAATAAAATAAAAATAAAA
ATMCAAAAATTAGCTTGTGTGGTGGCGCATGCCTGAAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAG
TGAGCCAAGCTCGTGCCACTGCACTCCAGCCTGGGCAACCAAGCCAGACTCTGTCTCAAAAAAAAAAAAAGAACAAAAAAAAAAGGAGTCTGCCAGCAAA
TGCCTCACATGCTCACAGTTCACAATAGGGTTCATGCTCCCACGAGAATCTAATGCTGCTGATGGTCCGATGGGAGGTGGAGCTCAGGTGGTAATACAAG
CGATAGGGAGTGGCTGTAAATACAGATGAAGCTTTGCTGGCTCACCTGTCACTCACCTCCTGCTGTGCAGCCCCTTCCTAACAGGCCACCAACCGGTACC
AGTCTGTGACCCGGAGGTTGGGGACCCCTGTCTTAGATCGTTCCCCAAAGGAGGCAAAACCTGCTGTCTTCATTTCCTGTGGCTGCCATAACAAATTGCC
ACAAACTGGGTGGCTTAAAACAACAGAAATACATTCTCATTGCTTTGGAGACCAGAAGTGCAAAATCAAGGCATTGGCAGGCCCTTGCTCCCTCTGCAGG
CTCTAAGGGAAGAGCTTTCTTTGCTGCCTCCAGCTTCCAGGGACCCCAGGCATTCTTTGGCTTGTGGCTGCATCACTCTAGCCCCTGCCTTTGTCTGCGT
GTGACCTTCTCCTCTGTCTTCTCCCCTTCTCGTCTCTTAAACAACACTTGTTGCCATGTGCAGCAGGGCATTCCTGTAGTCCCAGCTACTCGGGAGGCTG
AGGCAGGAGGATTGCTTGACCCAGGAGTTCTGGGCTGTAGTGCACTGCACCAATCAAGTGTCTGCACTAAGTTCAGCATCAATATGGTGACCTCTTGAGA
GCAGGATGACCAAGTTGTCCAAAGAGGGATGAACTGGCCCAGGTCAGAAATGGAGCAGGTCAAAACTCCTGTGCTGATCAGTAGGGAGATCGTGCGTATG
AATAGCCACTGCACTCCAGCCTGGGCAACATAGTGAGACCTGTCACTAATTTAAAAAAAAAAAAAAAGGCGGGCCCAGTGGCTCCTGCCTGTAATCCCAG
CTCTTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTGACCAACATGGAGAATCCCCGTCTCTACTGAAAATACAAAAAT
TAGCTGGGTGTGATGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCTGGGAGGYGGAGATTGCGGTGAGCTGAG
ATCACGCCATTGCACTCCAGCATGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAGTTAAAGGTTCTTGTCATTGGACGCCAAGCACAGTGGC
TCATGCCTATAATCTCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACATGGGTCCAGGAGTCCGAGACCAGCCTGGCCAATATGGCAAAAGCTTATCTC
TACTAAAAGTACAAAAATCAGCCAGGCACCATGGCACGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGAAGGTGG
AGGTTGCAGTGAGTTAAGATTRCACCAYTGCACTCCAGCCTGGGTGACAGTATGAGAYTGTTTTAAAAACAAACAAAAACTCCCGTGCCGATCAGCAGTG
GGATTGTGCCTATGAATAGCCACTACACTCCAGCCTGAGTAACACTGAGTAACAGTGAAACCTCTGTCTCTAATACAAATTTTTTTTTTTTGAGACGAAG
TTTCGCTCTTATTGCCTAGGCTGGAGTGCAATGGAGCGATCTCAGTTCACTGCAACCTCTGCCTCCCGGGTTCAAGGATTCTCCTGCCTCAGCCTCCCAA
GTAGCTGGGATTACAGGCATGGGCCACCATGCCTGGCTATTTTTGTATTTTTAGTAGAGATGGGTTTGTTTGTTTGTTTGTTTTCCCTTTTTGAGATGGA
GTCTCGCTCTGTTGCCCAGGCTGGAGTACAGTGGCGCGATCTCGGCTCATTGCAAGCTCCGCCTCCCAGGTTCATGCCATTCTTCCACCTCAGCCTYCTG
AGTAGCTGGATCTACAGGCGCTCGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCT
CCTGATCTCATGATCCACCTGCCTCGGCCTCACAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCAAAAAAAATTTTTTAAAGATATTTGTC
ATTGGATTTGAGGCCACCTTAATCCAAGGTGATCTCATCTCAAGACTCTTAATTACATCTGCAAAGACCCATTTCCTAAATAAGTCAGCATTTACAGGTC
CCAGGGAATATATCTTTTTGGTGGGCCACCGTTCAACCYGCTACACCTGTGCTGGAATCAGATGAGCTGGGGGGCAACCAGCAAATGACCTTGACCCCTT
GGAGTTCCGTTGCATCCGCTTGTCTGTAAACGGGAGGATCTGCACAGCTGGGGCCRGGCTGGGTCCATCCCTGCTTGGTGTGGTCTCCGCAGCGTCCTTG
AGACCCGTCCTGGCCCGCGTGACCTGGGGTAACTCCCATGTCACTGTTCCTGCCCCTGGGATGGGGATGTCCAACCTTCCCCCACCCCCAGGCAATGGAC
TTGTGAGGGCCAGTCCTAGGGTCTGGCTAGTCAGCCGGGTTCATCCCTGGCACATGCCTCCCAAAGGGCATCTCAATGTCACACCTTAGGGACAGTTCCC
ACGTTTGTCCTGGTCTAAGGATGGAAAGCTTTGGAAACATTCTTTCTATGACCAGGACAGTTCCGAAAGCAGAGTTAGCTCAACTCCATACCTCTATTGG
GCCACCAGAAGACTCTGGTTCCATTGCTAAATTTGTTAATGCTTCTGGTCACTCATTTCTTCCACATAATATTATTGGGCAGCTTCTCTGAACCAAAACC
ATCAGTAGATTCTGGACTTGGTCCCTGTCTTCCAACAGATCACATTCTAGGGAGGGCATGAGCAGGGCTGGTGGGCTTCTCTAAGGAGGTGACCAGGCCT
GGAGGCTGGGGAGGGCCTGGGCTGTGGAGGTCTTAGGAGCCAGCTTTTTATTTCTATTATTTTTTTTTTTTTAAGATGAGGTCTCACTCTGTTGCCCAGG
CTGGAGTGCGGTGGTGCAATCTCGGCTCACTGCAACCTCTGCCTCTCGGGTTCAAGGGATTCTTGTGCCTGCCTCAGCCTTCTGAATAGCTTGGATTATA
GGCGCCCACCACCACGCCTGGCTAATTTTTGTATTTTTAATAGAGATGGAATTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATC
TGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTACCTGGCCTTAGCTAGCTGTCTTAACAAAGACCTGGCCATGGRGCTGGGT
GGGACAGGGTGGCCAGGACTCTGCCTGCTTCCCCTAGAGTATCACTGTGCTCATTTGCCATGCACTTGGGCATCCTGGCCAGACCTCATTTGGAAAAAGG
AGTGCCAACTTACAAGAATGGTAATGGGAGCCAGGGGCAGTGGCTCACTCCTGTAATCCCAGCTCTTTGGGAAGCCAAGGTGGGAGGCTCGCTTGAGCCC
AAGAATGTGTGACCAGCCTGGGCAACATAGTGAGACTCCATCTCTACAAAAAATAAAATGTTAGCTGGGCGTGCTGGTGTGCACCTGTAGTCCCAGTTAC
TGGGGAGGTCAAGGCGGGAGGATCGCTTAAGCCCAGGAAGTGAAGGTTTCAGTGAGCTATGATCGTGCCACTGCACTCCAGCCTGGGCAACAGAGTAAGA
TGCTGTCTGTATTTTTTTTTTTTTTTTTTGAGACGGAGCCTCACTCTGTTGCCAGGCTGGAGTGCAGTGGCGCGATATTGGCTCACTGCAACCTCCAACT
CCCTGGTTCAAGCAGTTCTCCTACCTCAGCCTCCCAAGTAGCTGGGATTAAAGGCATGTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATG
GGGTTTCACCATGTTGGCCAGGGTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACATTGCGCCCAGCCT
ATTACCAAAAAAAAAAAAAAAAAAAAAAAGGCAAGAAAGAAAAGAAAGGAGATGGGGTTTGAAAATTGGGTCTGCAGGCAGTGAGAGCCACAGAAGGATG
CAAAGCAAGGGGCTAGGAGTCACCCAGAGCTCTCCTCGGGGATGCCTCAGAAGCCAGTGGGTGGGTGGGATGGGGGCAGAGCAGCCTCCCAGGTTTCACC
TTCCCACCCCACCCTGCAGGAGGAGAGAGGCTCCACTGACAAAGCGAGGCACTTCCTGGAGTCTGCTGCGCCCCTGGCCATGGACCCTTATAGCTGTGCC
CTGACTACCTACGCGCTGACCCTGCTCCGCAGCCCGGCAGCCCCTGAGGCACTGCGCAAGCTCCGTAGCCTGGCCATCATGCGAGGTAGGTGTCCCTGGC
CCTCCCCAGAGGCCACAGCGTCGGGAAGCCCACTGTGGAGTCTGGTAAACAACTCATGAACATATTTATCACAACTGACGAGTCATGTAGTCCCAGCTAC
TCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGATTGCAGTGAGCAGAGATCGCGCCATTGCACTCCAGCCTGGGTAACAGAGCAAGA
CTCCGTCTCAAAAACAAAACAAAACAAAACAAAAAACTGATGAGTCGACCAGGCGCGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGCAGATCACTTG
AGGCCAGGAGTTCGAGACCAGCCGGGCCAAYATGGTGAAACCCCGTCTCTCCTAAAAATACAAAAATTAGCTGGGTGTGGTGGCAGGTGCCTATAACCCC
AGCTACTCGGGAGGCTGAGGCACAAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATAATGCCATTAGAAAGAAAGAGAAAGAAAAGA
AGGAAGGAAGGAAGGAAGGAAGGAAGGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGG
GAAAGAAGGAAGGAAGGAGGGAGAGAAGAGAGAGAGGGAGGGAGGGAGGGAGAGGAAGAAAGGAAGGAAGGAAGGAGAAAGGGAAACTGACGAGATGCCT
TTTGCTTGTCAATTGCTTTGTTGATTATAGTATTCATTCATTATCGCATCTGCTAGTGACTTTATTTGAGGAAGTGGCTTGTCCAAGTCACACCAGCCCC
AAGCATCACTTTCCTTGCCTGTGAAATCTGGGATGCCAACCCCTCTGGAAGGGGAGTTCTCAGAGAGGGATCCCCAGCAGAGAACGCATCCCCCGCCTCC
GGCCAGGCTTCCTGGAAATCATCCCAGGACAGGGGTGCTGGGAGACAGGGGAGGGTTGGGTCTCGCTTCCACCCTTCCCTCCACTTGCTGAGTGAGCCCT
GGAAAGCTTTTTTGAGCTGTCAGTCTCCCCACCTACAAAATCATCACCCCACTGGGACTCCAATCCCTGAGCTTTGACTTTCTCAGAATGCCCCCAAACT
TAGTCTCCTCCTACTTCACCCAGACCTCCCCACTCCACCCCTACCCCCAGCAGCTGCACTGGGGCTCAGACAGGTTTCTCTGCTTAAGCATTAAGATGCC
ACCTGAAGAATTGTTTTCATTGCTTCCGAAAGAAAAAAGTTTAAAGAGGATCCAGGGATGGAGTGGGAGGTGGTGGTGGTGGGCTGGTTTCTCTCTGGAT
TTGAGAGTCTTTACACCTCATGCGAGCTCAGAATCCTTGGAGCCTTTTTCTTTTTTTTTTTTTTTTTCTTTTCTTCCTTTTTTTTTTTTTTTTTTTGAAA
CGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCCTAACTCAGCCTCCCAAGTAGCCAGGATTACAGGCATGCACCACCATGCCCA
GCTAATTTTTTGTATTTTTTAGTAGAGATGAGTTTCTCCATGTTAGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCAGCCTCCCA
AAGTGCTGGGATTACAGGCRTGAGCCACCGTGCCTTGCCATTCTTTTTAAATTATTATTATTATTTTTATTTATGTATTTATTTATTTATTGAGACAGTC
TCACTCTGTCACCCAGGCTGGAGTGTGGAGTGCAGTGGCTCGGTATTGGCTCACTGCAACCTCTGCCTTCTGGGTTCAAGCAATTCTCCTGCCTCAGCCT
CCTGAGTAGCTAGGATTACAGGTGTGCACCACCACACACAGCTAATTTTTGTATTTTTAGTAGAGATGGGATTTCACCATGTTGGCCAGGCTGGTCTTGA
ACTCCTGACCTCAAATGAGCCACTCACCTCAGCCTCCCAAAGTGCTYGGATTACAGGCGTGAGCCACTGTGCCTGGCCAGAATCTTTGAGCCTTTGCAAG
TCGAGTGTGGCTGCTTGGGCACTAAGTAGGAACATCAGGGGCTGGATCAGTACCTGGTCAGRAGGGAGGCTATTGACTAGTGATGTCTGTGTCCAGGAAG
GGGAAGGTGGCCTTTGATTAGTGATGTCTGCCAGGGGTARGGTTGGGTAGCCATTGATTCACGATGTCTGCCAGGGGCACAGGAAGGGCTGGGGCTGCCA
TAGGTTTGCAGATCTGAGATGGAGCCCCAAGGCCCTTCCTGTTCCAGCTGTCTTCCCCTGATACTCTTCTCCCACTGGGGTCCCACAATACCTTTTCTTT
AGACCCCATGCTTGGATGYGCTCCATSGGATGCCAGGCTACACACTGGGTGGGTTATAGCTCTTGACCACTCCTTTCCTTGCAGATGGGGTCACCCACTG
GAGCCTGTCAAATTCCTGGGACGTGGACAAGGGCACATTCTTGAGCTTCAGTGACAGGGTCTCTCAGTCAGGTACTGGCCACCCCAGCTCCCGGGTGCCT
GCCTTGGCCATACCTCCATGCACTGGGTCCATGTCCCTGTGTCAAAAGTCCCCAGTGGGCCTCTTCCATTGCAGTGGTCTCGGCCGAGGTGGAAATGACA
GCCTACGCCCTTCTGACCTACACTCTGCTGGGTGACGTGGCTGCCGCCCTGCCTGTGGTGAAGTGGCTGTCCCAGCAGCGAAATGCACTTGGGGGCTTCT
CCTCCACTCAGGCGAGCCGGGCAGGGCCAGAGGGAGGGGCTCAGGGCTGGGTGGGTGGGGTCCCTGCAGTCCTTGTTTTGAGCTCTGAGGTGGCCAGGCA
GTCTGGCCCCTTCTCACCTTATGGAGCCCCAAAGAGGGCAGGGGTTGGGGGTGAGGGACAGATGCCCCTGGATCCYCCATGGGAGCCCAGCCTCTGCCTC
TGGGGACACACCAACCTGGCTGTCCTGAGGCCCCCAGTGCCATGGGTGTCTGCACTGGGTCCAGTCTCTATTCCAGCCCCGTTGGTGCCTGTTTTAGGCT
AGGCTTCCAAGACGGGGTTCAGGGGACCACTGGCCAACTCAGTCTCAGGGTTGATGGCCGTCTCCTCCTCCATCCCCAGGACACCTGCGTGGCTCTGCAG
GCCTTGGCTGAATATGCCATCTTGTCCTATGCTGGAGGCATCAACCTCACTGTCTCCCTGGCCTCCACCAACCTGGACTACCAGGAAACCTTCGAGCTGC
ACAGGACCAACCAGAAGGTTCTGCAGACAGCAGCGGTGCGTGTTCCTGGGATGAGGGTTTGGGGGTKGTTGGAGGAGGGGTCAGCAGGGCCTCACGGTGA
CTTCTGTCTCCAGATCCCCAGCCTCCCCACGGGGCTGTTTGTGAGTGCCAAGGGGGACGGCTGCTGCCTGATGCAGGTGAGGTTTTGGGGAGCACGAGGT
GATCTTGGGCTTGTCCTCCTGTGCCCCATTCCCTCCAATCACACAGTGGAACCCCAGGGACCCCCAGAGGGTTCTGAACTCAGCAGCATGCCAGACTGCA
GGACAGGTTTTCAGCCTTCTAATACTGCCCAAGGCAGGTGGCCATGGGTCCTCTCAGGTGTGCCACCCCCACACCTGAGAGGGTCCATTTGACCCTCAGT
CCAGGGATCTCTGACCCATTGACTCAAGCAGATTTGCCTAAGGGCTCGAGGTCATTCCCCCTGCTGTGGCCTGGATTTAGCCCCAGACCAGGCTGGGGCA
GGTGCATGTCACGGGTTCTGACTGGCAGTCAGAGGGCAAGTTTCCCGCGATGACTCTCGCTAGCCTCCGTTTTCTGATCTCTAAAATGGGAGCTCAGATA
ACACTGTGGATGAGAGGGAGACCCCTARACTCAGACATAGCTGAGCACAGCTCTGCACCCCAGATCCATAAAACTGGTCTGATGATTGTACCTACACCCG
CTTCAGTGATTTCAAGGCTAAAACGAATAACGGTAGTCTCTAAAACTGTCATGGATGTCATTGTCCTCATAATTCTGGCTGTTCCCACCTCCCCACTGCC
CTTCTCCTCCCCTACCCTGCACCTGTTATGGAGGGCCCAGGTCCCTAAGCCTCCATCCTCCAACACCCCCCAGATTGATGTCACCTACAATGTGCCTGAC
CCGGTGGCCAAGCCAGCTTTCCAGCTGCTCGTAAGCCTCCAGGAGCCTGAGGCCCAGGGACGCCCGCCCCCCATGCCTGCCTCCGCAGCTGAGGGTTCCC
GAGGAGACTGGCCCCCAGCTGACGATGATGACCCAGCGGCCGATCAGCATCACCAGGAATACAAGGTGATGCTGGAGGTGTGCACCAGGTAAGGCCACCT
GCCCTGCTGGCGTGGGCATCCCAGGAGGGTGCAATGTGCGGAGAGGATGGCCTCCTGGGACCAGGAGGAGCTTCCGGCTCCAGGCACTCAGTGGTGGTTT
TTGTTTTGTTTTGTTTTTTTGAGACAGAGTCTCACCCTGTCGCCCAGGCTGGAGTGCAATGGTGCGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTT
CAAATGGTTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCATCATGCCCAACTAACTTTTTTGTCTTTTTAGTAGATACAGGGTTT
CACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCTGCCCGCCTCAGCCCCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCTCGCCCAG
CCAGTTTTTGAAATGAATGAAAGAAAAGCAAATGGACACAGAAGACTCCAGTATGGTCGGGGCGGGTGGGCTGGATGGGGACAGCGATGTGTGGCTGGGA
CACTGGTCCCTGCCCGATAACACCAGCACCAGACCCCTTGGTTTCCAAGAGTGAGCCTGGGACCCGGCCGCAGCGGGCCCTCACCCTAAGAAGATGTTTG
TTGCCATGGTGATGGATGCTTGTCACCATGGCGACGATTGGTGGGTGAGTGGTTGCCATGACACTCGCAGCCCATCAGAGCCGCTACCCCGGTAACGGCT
GCCCTGACCTTGACTCTCAGCCCGAATGTGTCCAAGTTCCCCATCTCAGAAAGTTCTGGAAATCAGAGTCCAGCTTGGTGCACTCCCCGCAGCTGCAAGC
TCCACTCTGAATGTTGGCTTCCTCTTCCTTGTCCCCAACGCCCTATAGGAAGCGCCTGGCATATTGCAGGCTCCAGAGAGTGCCCAGTTACCTCCCTCCC
CGCCCCACCATGTTACAGAAGGAGAAACTGAGGCCGGAGCTAGGGGGTTGATTTCCCAGAGTCTCCTGCAGGGTGGCAGTGTTGAAGCACCTGAGCTGTG
GCTGCTCTGTGCAACCATGTCCAGAGTGGGGTCGCCAGCTGCTTCCCAGGCTGGGGACACAGAGTGAAGTCCAGGACAGAACACAATGCTTAGTCAAGAG
ACCTGGTCAGGCCTAGAGCCCTTGGCAAGGCCCTTTCCCTCTGGTCTCAGTGTCCCTGCTGTAAAATAGGTTGACTGAGTTGACCGAGCCAAGGATGTGT
GTGCTGTTGGCCTGCCGGCCAGGCCCCAGGGCAGGCTTCCTGGGACATCAGCTGTGTGGGCTCCAGGGGGAGAGGGGACCTTGAATTCCACCTCTGGGCT
TGAGCTCTAGGGCCTCTCTCTCTCCCCTGTTGTTGGAAGGTGGCTGCATGCAGGGTCTTCCAATATGGCTGTCCTGGAGGTGCCCCTGCTGTCAGGCTTC
CGGGCAGACATCGAGAGCCTGGAGCAGGTGAGGCAGCGCCGGTGAGCAGCGGTGGGCAGGGATCTCTGAACAATAGGTAGGGCTTAGGCACCCAGGGTCA
GGCTGGCTGGCAGTCCAGACCTTTGTAAAATGCTATGGGTATTCTTTTCTTCCCTCTCCCTCTCCCCCTCCCCCTTCCCCTCCCCCTCCCCTTTTACCCT
GTTTCTCTTTCTTTTTTTTGACATAGTCTTGCTCTGTTGCCCAGGCTACAGTGTAATGATCTGATCTTGGCTCAAATTCCCAGTGGAGCCTTGAACTTCC
AGGCTCAAGTAATCCTCCCACCTCAGCCTCCCGAGTAGCTGGGACTACAAGCATGCACTACCATGCCCTGCTAATTTTTGTATTTGTGGCAGAGACAGGG
TTTCGCCATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTCCCGCCTCAGCCTCACAAAGTGCTGGGGTTAYAGACATGAGCCACTATG
CCCAGCCCCTTTTTTCCTCCCCTTTCTGGGCAAAAATGGCCCATCTGTCTACTGAGGAGTAGRTGGGGTGAGGTGGGGGCTGCTCCAACAGGTGGATCTC
CCATGCGGCCACTGTCACTATTATTATTATTATTATTATTTGAGATGGAGTTTTGCTCTTGTTGCCCAGGCTGTGCAATGGCACAATCTCAGCTCACTGC
AACCTCCACCTCCCCGGTTCAAGCAATTCTCCTGCCTCAGTCTCCTAAGTAGCTGGGATTACAGGCATGCACCACCACGCCCAGCTAATTTTTTTGTATT
GAGTAGAGATGGAGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCGGGTGATCAGCCCACCTCAGCCTTCCAAAGTGCTGGGATTACAGA
TGTGAGCCACAGCACCGGGCCCACTGTCACACTATTATAAATGCCACCTAGAACTTCAGCAAAGTTCCATGTGCTTTGGCCCTGGGTGGGGAGCCATGGG
GTATTCTCAATCCACATTCTGCCGAGACCAGCTGTCACCCTCACAACCCTAAGACAGACCAGTGCCATGTCCCCATTTTGTACAGGAAGGAAGAGGGACA
TGGGGGTGGGGATTGCTGCCCGGCTCTGGCTGGGGGAGAAAGAGGACCAAGAAGCGAGGGTTTCAGGGACCAAAGGAGGTCTGCAGTGTGGGGAGGGTGG
AACAGGAAAGCTGGGCCTATTGTCACCTCCCCTCCAAGGAGGCTGCACGGAGCACCAGGGGATGAGGATGTGGTCAATTCAGAGGCCTTGGAGTGGGTGT
GGATTTTTTTAAATCAAAAACTGAAAAAAAAAAAAAAATCCCAGGCTGGGAGGGGAACTTGAACAGTGCAGCTGAGACACCAGCAGGCGGCAGGGCTCAG
CCGGGCACCTCTTTGGCCACGGAGAAGCCTGACCTGGGCTTGGGGCTGGGTTGAGGGAGTGTATAGGGAGGCGAGGCAGGTGCTCCCAGCGGGGATAGCC
ATCCTTGAGCGTCCTCTCCTGGGTGCTGAGAGGCTGGCAGGGCCTGGGGAGCACTGACCAGCACCCAGACCCCAGCCCATGGTAACTTGTGGGCAAGTCC
AAGCATCCCACTGACCACTGCCCCCAGGGGATGGGAGAGGAAGCAAGTAGAGAGTCTGAGGACMCTGACTTCTGGCTTCCTCTGCAGCTGCTCCTTGACA
AGCACATGGGGATGAAGAGGTATGAAGTGGCTGGACGCCGAGTGCTCTTCTACTTTGATGAGGTACCACCAGCCGGGGTTGGTGGAGGAGGCTTCCCTGG
TGTGCATGTTGGTGAGGGTGCACCGGTCACTGCCTGGTGTGGCTCCCTSMAAGTATCTTGTACCATAAAAAAGACACTGGGGCCGGGCATGGTGGCTCAT
GCCTGTAATCCCAGCACTTTGGGAAGCCGAGGTGGGAGGATCACTTGAGCTCAGGGGTTCGAGACCAGCCTGGGCAACATGGCGAGACCCCATCTTTACA
AAAAATATAAAAAAGTGCCCAGGCCCTTTGGCTTACGCCTGCAATCCCATCACTTTGGGAGACTGAGGCAGGTGGATCACCTGAGATCAGGAGTTCAAGA
CCAGCCTGGCCAACATGACAGAACCCTGTCTCTACAAAAAACACAAAAATTAGCCAGGTGTGATGGCACGCTACTGTAATCCCAGCTATTTGGGAGGCTG
AGGCAGGAGAGTCGTTTGAACCTGGGAGGCGGAGGTTGTGGTGACCTGAGATTGTGCCACTGCACTCCAGCTTGGGTGACAGAGCAAGACCTGCAAGACC
TTGTCTAAAAAAAAACAAAAAAAAATAAGACACTGGGAGAATAAATTCCAGGCAGAGTTGGCCATGCTGACAGCTCTGTGCCCTCGGCTGATGGCAGTTG
GTAGAAAAAGCAGGGAGGGGCCGCAGTGGATATTATCCATCTGTAGGAAGGAGCGAAGCATTGATCCATGCTACAGCATGGATGAACCTCAGAAACATGA
TGCTGAGTGAAAGAAGCCAGACACAAAAGGCCACAGAGTACATGAWTCCATTGACATGAAATGCCCAGAACAGGCAAATCCGTAGAGTTGGAAAGATTTG
TGGTTGCCAGGGGCTGGGGGAGTGGGGAGTGAGTGCTGATGGCGATGGGGTTTCTTTGGGGGAGAAAGAAACCGTYCTGTAACTAGACAGAGGTGATGAT
TGCACAGTATCGTGAATGTGCTGACTCCCACCCACACATGCTCAGCCATGCGTGCACACACACAAAAAGGAGTGGTGTTTCAGAGGCCACCTGAGACGTT
TTCCCAGTGGGATGGAAGGACCCAAAGAATAAAAAATGGGACCGAGGCGGATCACTTGAGGGCAGGAGTTGGAGACCAGCCTGGCCAACATGGTGAAACT
CCGTCTTGATCAAAAATACAAAAAATTAGCAGGGTGCGGTGGTGGGCGCCTGTTATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCATTTGAACCCA
GGAGGCCGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGCAACAGCGCGAGACTCTGTCTCAGGAAAAAAAAAAAAAAAGAAAAGTA
AAAGAAAAAAAGAAAATGGGATCACGTTTCTTCTGTGTTTCACGCGTCCTGGGTATCCCTGAAATCAGCCAGTTCTGGGCCTGAGCTCAGCGCCCCGGGC
CTCCTGGCCCGGGTCGAGCCTGCGCCCGCCGCTGCCCCACAGATCCCCAGCCGGTGCCTGACGTGCGTGCGGTTCCGTGCTCTCCGGGAGTGCGTGGTGG
GCAGGACGTCGGCGCTGCCAGTCTCCGTGTACGACTACTACGAACCCGGTAGGCCCGCGCGCCCGCACCCCCGGCCCGGCCCGGTCCCTGACCCGTCGCG
CCTGCACTTGGTCACCCGCCACCCTCGTCCCGTAGCCTTCGAGGCCACTCGCTTCTACAACGTCAGCACSCACAGCCCACTCGCCCGGGAACTGTGCGCC
GGACCCGCGTGCAACGAAGTGGAGCGCGCCCCTGCCCGGGGCCCGGGTGAGTGCGCGGAGCCACTGCCGCCCCCCACCGCGGCCTGCCACACCCCGACTC
CCACCCTCGGACGCCAGGGAGGGCTCCCCTGGGGGCTTGGCAGAGGAGGGGCCAACGTAAAGTCAGGAGAACGCAGCATAGAGGTGGGCGGGCGCTCTGC
CTGTACGGGGGAGGCGGGGCTGGAGGAGCGGTCAGCGGGGAGGGGCGTGGCTGGGGGAGTGGTAAGTGCGGAAGGGAAGTGGCTGGGGAATGGTCAGTAT
ACTGGGGGCAGGGCCGAGCCAGTGAGGGTGTGGTCACTGTGGTGGGGACTGGGCGCAATGGGTTGAGGGTGGTCAGTGTGGTGAGGGCGGGGTCGAGCGG
CGAGGGGGAGGTGAGTGCGGAGGGTGCGGGGTTGAGGGCGGGWGTGTTCAGTGCGGGGGGCGGGGCCGAACGGGGTGGGTGTGGTCAGTGCGAAGGGGAC
GGGGTTGAGAGTGGATGTGGTTAGTGCTGAGGGGATGAGGTTGCGGTGGGTGTGGTCAGTGCGGGGGGCGGGGTCGAGGGTGGGTGCGGTCAGCGCTGAG
GGGCGGGATTTGTGGTGGGTGTGGTCAGTGCGGAGGGGGCGGGGTTAAGAGTGGTCAGGACGGAGGGGGCGGGGTTGAGGGTAGGTGTGGTCACSGCGGA
GGGGGCGGGGTTGAGGATAGGAGCGGTCAGTGCGGTGGGGGTGGGGTTGGGGTGGGTGTGGTCAGTGCGGAGGAGGCGCGGCAGGGGACGGGGCTGTTGT
TGCAGGGYGGCCCAGACAGGACGCCCTGTCTCCTTTCTCTCCTACAACCGCTTTTTAAAAGTCTGTTTCTGTTTTTGTAAGTATTAGGCAAATACCTGCG
TGAAATTCCATAAGGCCAGGGCTCAGGACCTCCCATTAACTGTCGCGCCCCAAGACCCACCGAGGGGGTAGTGGGCCCGGGACCCAGGGACATCTTCCCC
ACCCCCAGGTTCTGTGGGGGCGCGGGCAAGGTTCAGGGTGGGGGGTCTGTCGAGCCTGCCTCGTCCCCCAGGCTGGTTCCCCGGCGAGTCGGGCCCTGCC
GTGGCCCCTGAGGAGGGGGCGGCGATCGCGCGATGCGGCTGCGACCACGACTGCGGCGCCCAGGGGAACCCGGTGTGCGGCTCCGACGGGGTGGTCTACG
CCAGCGCCTGCCGCCTGCGGGAGGCCGCCTGCCGCCMRGCCGCGCCCCTGGAGCCCGCGCCTCCCAGCTGCTGCGCCCTCGGTGAGGACCCTACCCCCCG
CCTAGCCTCGGGGACACCATCGCTGCTGCTCTGGGCCACGGATCTCCTCCCCTCGGCCCTTGGGTCCCCTCCCCGCCACGCCCTCCCGACCGAGGCCCCC
TTCCTTCCAGAGCAGCGGCTGCCGGCCTCGTCGTCCTCCACCTACGGGGATGACCTGGCTTCTGTGGCCCCGGGGCCTTTACAGCAGGACGTGAAGCTGA
ATGGAGCCGGCCTTGAGGTGGAGGACTCAGACCCTGAGCCTGAAGGGGAGGCGGAGGACAGGTAACAGCTGGGCCCACCCCAGAGATAAGAGACATAGGC
KCAATATCTCCCCACCTCCCTCCCCTACCAACCTCCCCCGACGACCTGCCCCGACTCCTCCGCCCCGCCCCGACCCCCCACTGGCAGTGGGAGTGACTCA
GGGTCAGAGGCTCAGAGTTCCTGGGGACAAAGTGGGACATTCATCCTCCCTCCACCCTGGYCCACGCAACACCCACCAGCGAACAGCTGTGCGCGGGCGC
ACGCGCGCGYGTGTGTGTGTGTGTGTGTGTGYGCGTGCGCGCGCGCGMGCKCATACGGGTCAAGGATCCCTTATCCGAAATGCTGGGGGGACCAGCAGTG
TTTCGGATTTCAGATTTTTTCACATTTCAGAATGCTTGCATTATATAGTTAGCTAAGGTTCAGCATCCCTAATCTAAAAATCTGAAATGCCCCAATGAGC
ATTGCCTTTGAGCACGTCAAGTCGCTGCTCAAAAAGACTTGGATTTTGGAACATTTCAGATTTAGGATTTTTGGACTAGGGAAGTTTTGCCTGTAGTTAA
CAGTGTGCGGTTTCCTCATGGGCAGATTTGTGTAATCTCAACCATAGTCAACAAACAGCCCATCTGCACAGGATCCTTCCAGCTGCTCTTCCATAACTTC
ATCTCTCCCCTCAACACCTGCAACCACTAAGCCATTTTCCCCCTACCCGTCTGTAATTTTGTTATTTTGAGAATGCCAGGTAAATGGAATCAGAGCGGAT
AATCTTTGGAGCATGATTCCCTTGCATTCACCTGTGTTGTTTCGTGTATCCATAGTTTATTCTTTTTTTAATCTGGGCTCACTGCAATCTCCGCCTCCTG
GGTTCAAGCGATTCTCCTGTCTCAGCCTCCCCAGAAGYTGGGATTACAGGGGCCCGCCACCATGCCCGGCTAATTTTTTTTGTATTTTTAGTAGAGGTGG
GGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCTTGACCTCAGGTGATCCACCCGCGTTGGCCTCCCAAAGCGCTGGTATTGCAGGCATGAGCCACCA
TGCCAGGCCTATTCTTTTATTTTTCAAACGAGGTCTCACTGTGTTGCCCAGGCTGGAGTGTAGTGGCGTGGTCATGGCTCACTGCAGCCTTGACCTCCTG
AGCTCAAGTGATCCTCTTGCCTCAGCCTCCTGAGTAGCTGGGACCACAGGCACACACTACCACCACGCCCAGCTAGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTTGTAGAGATGGGGTCTCTGTATGTTGYCCAAGCTGGAGTGCCATGGCTGTTCATAGACATGATCATTGTGCACTGCAGCCTCA
AATTCCTGGGCTCAAGTGATCCTCCCATCTCAGTCTCCCAAAGCTTTGGGATTACAGGCGTGAGCCACTGTGCCCGGCCTGGAGTTTGTTCTTTTGTATT
GCTGGGTAGTGTGCTATGGGTAGCTTTTCGATTTGGTTGGTGGTCTGACACAAGCTACTCCCCYCTTACCGCACATGGACACCCAGAGCCCATCACTGTG
GTCCACTGGAAGGGGAAAGGAGGCAGAGTTGTACAGTGCCAGGCCTGGGCCATGTGTCCCCCWTCCAGTTGGGGTTCTGCCATCTAAATGAGGAGGTGGC
AGCTGGCCTGAGCCCCGTGGAGTTGGGTTCAGGAAAGGGGTGTGGGGTCCCATCCCGAAGTCCTGGCGGCCCCATAGGAATCTTTCTCCTCTCCTGGCCA
GTCAGAGCGGCTTCTCTTCCTAACGGCTGCCCTGCTGAGAGCAGGACGACACCATCTGGCTGCATCCYGTCCCTATCAGCCTGTGACTCTGTATGGTGGG
TGGGCAGACCTCAGCCCAGGTGACACCTGCCTCTAAATGAACCCAAGGAACAGAATGACAGAGATCTGCCCGTCCCTAGGATGAGACTCTTGGGACCCAG
GTGTGGGCTCAGCAGTCACCRGTGTGGTGCAGGGGGGACAGCTGGAGGTCCCTTGGGAGATCCCCCACCTTCCTAGCTACAGCTGGAGCTCCAAGCACCC
CAACCCCCCAGCCTTGGAGCTGGGCATCATTTTCCTGGGGCCACGGCAGCTCCCACAGCCTGACATTCTGTTCCCGGGAGAAGAAACATTCCCAGAAAGC
ACTCGTGTGGCCAAAAGCCTCTTTCTGAGCAAACACGATGTGGACTAAATTAGCAAAACATCCAGCCGGTGGGCAAYTTCAAAACGGAACAGGCTGCGTT
TCTCTGAAACACAAAGCCCCGGCCTCCCTTTGGGGCACCCAGGACCCCAAATTGCCCTAAGACTGTCCCAGCTCTCGCACCCTCTGCCTTCGCCCCCCGG
GGACCTCGGGCTCACATCACAAGGCCCTGCGGGGAAGCAGATGGCTCTCAGCAAATGCACTTTCAGCTTCCGGCTGCCGGGGCTGGGTGACCCCGGTGCT
TCCTCACCGTGAGTTCCTGATGTCCTCGTGCCCAGAGGACCAGCCCACTCCCAGGGCCCCCAGGCCCAGAACCTGCCTGCCTTGGGGGGCCCTACCAGCT
GCCTGCCACCAGTACCAGCAGACTTTGATTCCCCTTTGTGACCCCTGGCACCTGCTTATGTCTGCATTTGCCCATCTTCTCCGGGGTGGTATTTATTTCA
GCCAACACCGCTCAGCCCTGATCTCTGCCAGCAYGGAGGCCCCTCGCTGCCTGTGAGATCAAGGTCTGAGGCTGCCCTGGCCGGTGGGTTCCCCACCCCT
GGCACCCTACAAGCGACAGGCCCTGTGGCTCCTTCCTCAGCCCGAGGCCCCGTGCCCACTTGCTGTAGAGGATGTTGTAAGATAAAACCTCATCTCCAGG
GTCACAGCCGGGCCTCGGCCTCCTGTGAGCAGCGGGAACCTGGAAAGCAGCACCCAGAGCGCCAGCCCGTTCCACAGATGGGGCCAGACTCCGGCCCCTC
RGAGACATAGTGGCCGGGTGGTGGGGGCCCACAGGCCAGGGCTTCTGAGCCCTGTCTTCGTCTACAGCCCAGCCTTTCAGAGTGGTGGGGAGGAGGGTTT
ATGGATGTCAAACACCTGCACCTTGAGATAATCCTACAACCACATGCAGTTGTGGGACCGCAGTTTGGTCCTGGGGACCATTCATACCCACACACCCAGC
TTGTGCCTGTGGTTAACATCTCAGAAAACTCTGGTAAATGATCACTCCAGGATATTGACAMGAATACACGTTACTGATCTTACTCACATGTTCTGGGGTG
CACATGAACTTTGTGTGTGCATGTGTGTGTGTGTGCATGTGTGTGTCCCGGGCACCTGACACCCCCAGCCCAGGGCTGCCCAAAGTTGGGCTGATCAGAG
ACATAGACCCAATGAGGAGCCCAACAGTGGCCCTCCAACCCTCTGCCTTGCCCCCATAGTTCATGCCCCAGTGGTCTTTGAAACTGCCCTGTGCCACTCC
CTGGAGTGAGCAGCGGTGTCTCTGTGTGTGTGTGTGTCTGTGTCTGTGTGTGTGTTTGTGCACCAGGTGCTGAGGCTTCTCCCCTTCCCCACACACCAGC
TGTGTCCTCCACAGCCACTGGCATGGCCCCTTGTGGTCTGTCCCGTGCAAGGCTTACAACCGGCTGCCAACATCCTGGCAGAAGGGAGTTCCAGGTCTGC
AGCACCCGAACCCCCCAGCACACACTGTCCACCCCCACCCCCCATTGTCCCACCTTATCCCTGGTGACATTGACAGAAAGTGAAAAGAAGGATCAGCCTG
CAGGTGAGAGGAGGGAAGGCGAGGGTCCCCAGCAGTCAGGGGATAGCAGGAGGCTGAGCCGTGCTAGTGATGGGTTTTGGGGAGCAGAGTTGGGGGTGCT
ATTCTGGTTGCTCAAGAGACATCCCAAAGCCAGAAGCTGGTGGGCATGAGAATGGCCAACCAGGCTCTGGGCCTGGTGGGGCCACAGCATTGGGCACTGA
GGATGGGGTGCCCTCAGCCTCCTGGGCAGGAACTTGCAGTGAGTCTCCAGGGAATGCAGCCCCAGCCCCAGCTCCAGCCCCATCTCAGACACCAGTGCGT
CGTGGGCTGCATCCAGCCCAGAAAGCCGAGCCAGAGATGCTGGCAGGGCCCAGGAAGCAGAGTTTGATCCTGTTTCAGATTCCTGGGCTGCCCTGACAAA
GTGCCACATGCCAGGCAGCTTAAAACAATGAGAGTTTATTGTCTCACAGTTCTGCAGGCCAGAAGTCCAGGGTCAAGGTGGTGGCAGGGCTGGTTCCCTC
TGGAGGCTGTGAGGGAGAGCCCGTCCCAGGCCTGTCTCCTGGCTGCTGGTGGCTGTTGGCTGTGCTTGGCATCGTGGCATCCCTTAGTTTGTGTCCGTCC
GCATCACTCCCATCTCTGCCTCTGCCGCCACATGGCTTTCTTCTCTGTGTGTCTCTGTGTCCTCTCCTCTTCTCTTTTTTTTGGAGACAGAGTCGCTCTT
TCGCCCAGGCTGGAGTGCAGTGGCACCATCTCAGCTGACCGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGACTCAGCCTCCCCAGTAGCTGGGT
GGGCACCTCCCCAGTACAGGTGCCCACCACCACGCCTGGCTAATTTTTGTATTTTTGGTAGAGATAGGATTTCACCATGTTAGCCAGGCTGGTCTTGAAC
TCCTGGCCTCAGATGATCTGCCCACCTCGGCCTTCCAAAGTGCTGGGATTGCAGGTGTGAGCCACCACACCCACTATCTCTCGTCTTCTTTTTTTAATTT
TAGTTTGTTTATTTTTGAGACAAGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTACAATCATAGCTCACTGCAACCACAACCTCCCAGGCTCAAG
TGATCCTCCCGCCTGTGCCTCTTGAGTGGCTGGGACTATAGGCGCATGCCACAATGCCTGGTTCATTAAAAAATTTTTTTGTGTGTAGAGATGGGATCCC
CCTATGTTGCCCAGGCTGGTCCCAAACTCCTGGCTTCAAGCAATCCTCCATCTTGGCCTCCCAGAGTGCTGAGATTATAGGCGTGAGCCACTGCACCTGG
CCGTCACTTTTCGTCTTTTTAAAATTGAATTAAATTAATTAATTAATTAATTTAGAGACAGGCTCTCTGTCACGCAGGCTGGAGTCCAGTGGCGCAATCT
CGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATCCTTCTGCCTCAGTCTCCTGAGTAGCTGGGATTACAGGCGCCAGCCACCAAGCCCAGCTAAT
TTTTGTATTTTTGGTAGAGATGGGGTTTTACCATGTTGCTCAGGCTGGTGTTGAACTCCTGGGCTCAAGTGATCCATCCGCCTTGGCCTCTTAAAGTGCT
GGGATTACAGGCGTGAGCCACCAGGCCTGGCCTCTCCTTATCTTATGAGGACACCACCCACACTGGATGTAAGGCCCACCCTTCTCCAAAGTGACCTCCG
CTAGTGACAGTTGTAACAACCCTATTTCCAAATAAGGTCACATTCTGAGGTCCCAGGAAGGACGTGAAGTGGGGGAAGGGACCCTGTTCGACCCAGTACA
GCCTTCCCCACTTTGTGTCACTGGAGCAAAGAGGAGTGGGTGCCCATGCCCCGGCTGCCCCCTTCCGCAGAGGCCTTGGAGGCCACGGTGTCCCCYGGCG
ACCGTTGGAAGAGCCCTGCCCGCACCTTGTCCCTGAACTCGGCCGACACGTAGTAGTAGATGAAGGGATCCACGCAGCTGTTGAGGGTGCTCAGCGCCAG
GCTGGGCACRTAGGCACCATAGAGGTTGCCCCAGGCGCTGGGGCTCRGGTCCGAGTAATGCAGCAGCAGCAGCAGGTTGCTGGGCACGAMGAAGGCCACG
GCGGAGGCCAGCACCACTGCGGTCAGCCTCAGCGCGTGGCCGTAGCGCCGGCCGCTGGCCGCCAGCGTGTGCAGGGTGGCCCCGTAGCACAGCAGCATGG
CCAGMAGGGGCAGGAAACAGCCCAACAGCGCCAGGCAGGTGAAGGCCGGTTGCCAGTGGGAGGCCTGTGCGTCCAGGGGCAGCGCGTCATGGCAGAGCAC
GCGATCGGAGCGCGCCAGCCGGAAGGTCTGCYGCTGCAGTGTCAGGGGCAGTGCCAGGGCGGCCGCCATGAGCCAAGCAGCCATGCAGAGTCCAAGGGCC
AGGCGCCGGCCACGCAGGGCGCGGGCCCGCAGCGGGTGCACCAGGGCCAGGTAGCGATCCAGGCTGACGGCGGCCAGCAGCAGCACTGAGCCATACATGT
GACCATAGAGTGCGGCCGTGGCCAGGCGGCAGGCGGCCTCCCCGAAGGGCCAGCGCTGGCCACGCAGGTGGTAGGCGATCCGCGGGGGCAGCGCCAGGGC
CAGCAGGAGGTCAGCAGYCGCGAGGTTCATCAGCAGCATGGTGGAGGGCAGCCGAGGTGCCTGCGTGGCCAGCACCCACAGCGCCAGCCCATTGGCCGGC
AGCCCCACCACCAGGACCAGCCCATAGAGGGCGGGCACCAGCCTGGTGGGCACCCAGCCCAGAAGCAGTGCCCGTGAGCTGTCCGGGAGCTCCAGGGTGT
CACTGTCATTGGCACAGACTTGGCCTGGGTAGCCGCGGGGGGCAGGCAGGATTGAGGGCGTGCTGTCTGGGAGAGAGAGGGGACCTCAGTCAGCCCCTGC
CTCGGCAGGTGACGAGAAGCAGCAGGGAGGGAGGTGCTCAGAGCCTGGGGTCTGCCCTGGTGGGAAACAGCTGGACATGACACTCAAGGGAATAGCCCAG
CCCTATGGGGTCAGAGACGGGATACAGAGTGGGCTGGGCTGAAGCCCGCAACTTCCCGGCCTCCCCCTCCCCAGCTCCGGGCCCCCAGCTCCATCTCTGA
TGTAACCCCATCTCTGCACCCCAAAGCCAGGACCACTCACCATCACCACCTCCGGTGCTCCCGCTCTCGTCGTAGACGCTGGGGGTCTGGGTGCCGCCAG
ACAGGCTGAACCCCAGCACCAGGGGCCACAGGAGCAGTCGCCCCCACATGACTGCACTCAGGCTGCTCTGGGCTGTGGCCTCAGGCTTCCTGCCTCGCCG
GACCCTGAGCCCCAGCTTCTGGAGCCGAGGCGGACGAGCAGATCGCGCCGGTGGAGATAAACCAGGAAGGCTGCCCCTGCCCCCGCAGACCCACCAGGGC
CGCTTGCCAGCCAGCCCGTGGGAGGACTGGAGTGTGGGTTATGGAGACCGGGCTGCCCCACGTGGCTATATCCAGTGTGGCGCCTCCCAGGGACCCAGGT
GCCAGGCCAGCAAGATGCAGGGGGGGGTCCCAGCTGCAGCCAGCACCCCCGGTCCCTGACCAGCCCAGGAAGCATCTGCGGTTCAAGTGGCCACTTCCTG
CCAGCCGCTCACATCTGCAGCCACTGTTCTCACGACAGCCCTGTCCTCACCCCAATCCCCACGCCCATCACGGGCTCTGGGCCTTTCCTGAAGTCACCCC
CCGACTTCCTATCTCTGGTGAGCAGGATAAGAAGAGCCCTGCTAGGCCAGGCACGGTGGCTCACGGCTGTAATCCCAACATTTTGGGAGGCCAAGGCAGG
CAAATCACCTGAGGTTGGGAGTTTGAGACCGGCCTGACCAACATGGAGAAACCCCATCTCTCATAAAAATACAAAAATTAGCTGGGCTTGGTGGCAGATG
CCTGTGGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCTTGCCACTGCACTCCAGCC
TGGGCAACAGAGCGAGACTCGGCAAAAAAAAAAAAAAAAACCAAGGATGGGCGCCTCCCAGAGGGTAATAGCGAGGGTCCCTTCAGACCCCCAGAGCAGC
ACGAGCCCAGCRTCAGGGACTCTGGCTGAACCTCGAGAGCCCCTCAGCATCCTCGGCTGACCCCATACTCACAAGGCACCCCTGTATGAGTGCCTCACTT
CACTCTTGCCCAGGGGACACACGGGCATCTGTAGGGGAGACAGTGATGCTGGGGACAGCACCTGCCGAGGACCGGGGGGACTTCGGGGTGTGTGGCTCGC
CTGCTCTGACCTCTGACCCTGAGTGAGGTGGCCAGGTTGAAGGGTCCCCAAGCCAGCCTCCAGGGGGCCTCCCTCCTCTAGCCCCAGCACATCCCCACTC
CTGGGTACCATTGGATGGGGGCTCATCGGGCAGATGAAGAAACTGAAGCTCGGGGGGGTACCCCTTCCCTCTTCTGCACAAGGCCCCTCAGTGTTGTCCC
TCCCTGCCTCAGAGAGGCCTCAACCCGTCGTGCCCTGGGGGAGTCTGGTATGGGTGGTTCTGGCCCCAGTGTGCTCAGCGCTGGGCTACAGGGGATGGGG
GACAGGGCTTGGGGGGGTCTGGGAGCAGGAGGGCCTAGTTGGGAGCCATGAGGATTGGGGAAAATAAAATGAACTAGGGATGGGGGAGGGAGGGGTCCAA
TGTGGCCGTTTCCTGCCTGGGGGAGCCCTAATCTCATCACACACTTGAGCACTCGGGGATCAGCCAGGAAGTGACTGAGCAGAGTCTTGGACAGAGTCAA
CACCCAGCTCCAGGAGGAGACACTGAAGCCTGGAGAGAGAGTCTAGCTGGGGCAGGGTCTCAGAGGCCCTGCTCCCATTTCTGGGCAGTTTCCATGGCCA
CCAATGAGAAAATCAGCTTCACGTCAATGACTTGGGGAAAAAGGTGGCTGAGGACACCCTCAGCACACGGAAAACCCACGCCTGGGCTCCCCCCTCCACC
GTCTTCTCTGTGAGCAGAGTGGGAAGCTGTGCAGGGGAGGCTGGGCACACCGGCAGTCCGGTGATGCTGGGGCAGGGTGGTTTGAAGATGATGCATCAAA
ATAGTGATGCACGACCGGGCGCAATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAGGTGGGTGGATCACGAGGTCAAGAGATCGAGACCGTCCT
GGCCAACATGGTGAAAACCCGTCTCTACTAAAAATACAAAAATTAGCCAGACATGGTGGCGCACGTCTGTAGTCCTAGCTCCTCAGGAGGCTGAGGCAGG
AAAATCTCTTGAACCCAGGACGCAGGGGTTACAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCAACGGAGCGAGACTCCGACTCAAAAAAAAA
AAAAAAAAAAAAAAAAAGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCAGAGGCGGGTGGATCACCTGAGGTTGGG


SNP Information

Context             (SEQ ID NO:44755):
ACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAG
R
ATGCTGTGAGCCGAGATTGCACCATTGCACTCCAGCCTGGGCAACAAGAGTAAATCTCCGTCTCACCAAAAAAAAAAAAAAAAAGAAAAGAAAAAAAAAA
Celera SNP ID:            hCV25960302
SNP Position Genomic:     12605
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,23)   caucasian(G,2)   total(A,1|G,25)
SNP Type:                 INTRON


Context             (SEQ ID NO:44756):
AGTCCACATGTCCCTGCAACTTTACCCTGTACTACGAGGTGGCTGCACGGGGCAATATTGTGCTATCGGGCCAGCAGCCTGCCCACACCACCCAGCAGCG
M
AGCAAGCGGGCGGCCCCTGCCCTGGAGAAACCGATTCGTTTAACACACCTTTCTGAGACAGGTGAGCCGGGCAGCAGGGAGAAGGTTCCTGTTCTTCCTT
Celera SNP ID:            hCV1655860
SNP Position Genomic:     52092
SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,15)   caucasian(A,27|C,13)   total(A,44|C,28)
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:44757):
CTCCTGCAAGGAGGGACAAGGCAAGACCCAGCAGAGAGGGGAGCATGCCTTGGGTCAGAGGGGACACATCCTTAACAATACCAGACTGGGTCCAGGAAGA
M
AGTGATCAGCTGCTGGAAGTGGAGAGGTTCAGGCCCCAGACTCTTCTCACTCTGTGTGTGCAGGGGACAGGGAAAGCCAGCCACAGACTAGGCTCTTGCA
Celera SNP ID:            hCV1655861
SNP Position Genomic:     52319
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,11)   caucasian(A,8|C,22)   total(A,17|C,33)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;JBIC-allele(C,720|A,781)   total(A,781|C,720)
SNP Type:                 INTRON


Context             (SEQ ID NO:44758):
TCCACAGTATGATGACCTAAAGAGTCTCCAGATATTGCCACTATCCCCAGGGGGCAGAGTCACTTCCAGGTGAGGACACTGAGATAGGTAGGTAGATAGA
Y
AGAATGATGGGTGGATAGATAGATAGGCAGGATCTCTCAGGCGAAGGCAAGGTTTCTCAACCTTGGCACTATCAACATTTGGGCAAGATCATTCTCTGTG
Celera SNP ID:            hCV1655863
SNP Position Genomic:     52805
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44759):
CTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGC
R
GAGGATGCTGTGAGCCGAGATTGCACCATTGCACTCCAGCCTGGGCAACAAGAGTAAATCTCCGTCTCACCAAAAAAAAAAAAAAAAAGAAAAGAAAAAA
Celera SNP ID:            hCV25995408
SNP Position Genomic:     12601
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,14)   total(A,2|G,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:44760):
TCCCCAGGGGGCAGAGTCACTTCCAGGTGAGGACACTGAGATAGGTAGGTAGATAGACAGAATGATGGGTGGATAGATAGATAGGCAGGATCTCTCAGGC
K
AAGGCAAGGTTTCTCAACCTTGGCACTATCAACATTTGGGCAAGATCATTCTCTGTGGTGGAGGCACTGTAGGATATTGAGCAGCATCCCTGGCCTCCAC
Celera SNP ID:            hCV1655865
SNP Position Genomic:     52848
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44761):
AAGGTAACTTGGGGGTGACTGTGCTGCCTCCCGCCCAAGGACCACCGTGAAACCACCACCACTAGCCACTAGCTCTGCAGTGGTGACTCAGCTGAAAACG
R
ATCCCCTGACATAACCTTTGCGGAGAGTGGAGAGGGCTGGTGTTCCAGGTGAGGGGCAGGGGACATTTTCCTCCACGGGAAAGGACAATCTACTCTATTC
Celera SNP ID:            hCV25969602
SNP Position Genomic:     35643
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,30)   total(A,1|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:44762):
ATCCCATGCACTGTAGGATGCTGAATAGCATCTCTGGCTTCTATTCACCGGAAGCCAGTAGCATCCCCTCCAGCAGTGATGACCAAAAAACATCCGCAGA
Y
ATTGCCAGCATCCCCTGGGTAGCAGAATTGCCTTGGCTGAGAACTGCTGGCCAGAGTCCTGCTTTGGGCATGGTGCACCTTCACCCTCTTGGTCTTCTCT
Celera SNP ID:            hCV1655867
SNP Position Genomic:     54078
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44763):
TGCACTGTAGGATGCTGAATAGCATCTCTGGCTTCTATTCACCGGAAGCCAGTAGCATCCCCTCCAGCAGTGATGACCAAAAAACATCCGCAGATATTGC
Y
AGCATCCCCTGGGTAGCAGAATTGCCTTGGCTGAGAACTGCTGGCCAGAGTCCTGCTTTGGGCATGGTGCACCTTCACCCTCTTGGTCTTCTCTTCTCTT
Celera SNP ID:            hCV1655868
SNP Position Genomic:     54084
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44764):
ATGGTGACCCTAGAGCTGAGTCAATAGAAAGAGTCAGCATTGACTGAGGATGTAGCCTGGGAAGGGCATCTCAAAACCAAAGATGCAGACTGTCTCAATG
Y
GTAGACAGGAGCATAGCGCAGGGCAAATTGGGGCAGAGCCTGAATGGCTGAGGTTGCATGTCGGATGCGGAGAATTCACCACCTCTCTCTACTTTTGCTC
Celera SNP ID:            hCV1655869
SNP Position Genomic:     55002
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44765):
GCTGCGACCACGACTGCGGCGCCCAGGGGAACCCGGTGTGCGGCTCCGACGGGGTGGTCTACGCCAGCGCCTGCCGCCTGCGGGAGGCCGCCTGCCGCCA
R
GCCGCGCCCCTGGAGCCCGCGCCTCCCAGCTGCTGCGCCCTCGGTGAGGACCCTACCCCCCGCCTAGCCTCGGGGACACCATCGCTGCTGCTCTGGGCCA
Celera SNP ID:            hCV15894787
SNP Position Genomic:     136138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:44766):
AGGACTGGGAAAATCCTTACATTGGGCACATGCTAGGCTAGCCTGAGTTCACTCCGTGTGTCTGTCCCCCTCCACCACCAACAGGACCCCCGAGGCTCTC
R
GATGATAGAGTGGAGACACTTAAAGCCGTTCTGCTGCGGTAAGTTTCTTCCTCTGCGGCTTGGGGGCTGCAGATGTGATAAACCTTCCAGGAAAACAGAA
Celera SNP ID:            hCV25969462
SNP Position Genomic:     24127
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:44767):
CCAGACTCTTCTCACTCTGTGTGTGCAGGGGACAGGGAAAGCCAGCCACAGACTAGGCTCTTGCACTGGCCCACATTGTGCTGTTGCCTCTTTGCCCAGG
Y
GGTTCTGCCTATGAGTCCTCTTCCTCTTCTCTTTTTGACACCATGTGCTCCTCATAAGGCCCTCCTCCCAGGGGACTTCCTTAGTCCCCTCCTCTTCAAA
Celera SNP ID:            hCV11699105
SNP Position Genomic:     52455
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44768):
GTTCTTCCTTCTGAACAATTGAGACTGAGATGGGTGCTCCTGCAAGGAGGGACAAGGCAAGACCCAGCAGAGAGGGGAGCATGCCTTGGGTCAGAGGGGA
Y
ACATCCTTAACAATACCAGACTGGGTCCAGGAAGACAGTGATCAGCTGCTGGAAGTGGAGAGGTTCAGGCCCCAGACTCTTCTCACTCTGTGTGTGCAGG
Celera SNP ID:            hCV25958036
SNP Position Genomic:     52283
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,40)   total(C,67|T,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44769):
CCTAGAGCATCAATGCCAGCCAGGTGTGGTCAGCAAAAGGCAGGAGTCTGCTGCGAGGAGAGCCCTGACCTAGCTGTGGTGGCAGCGAGACCAGGGGTCT
K
GGGTGAGAACTTCACCTCGGATCTCCTTTCCTGCAGGGGTTACTTGATTGCAGCTCCCTCTGTTTTTCGCGCGGGCGTGGAGGAAGTCATCAGCGTGACC
Celera SNP ID:            hCV25971814
SNP Position Genomic:     10443
SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,4)   caucasian(G,39|T,1)   total(G,65|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:44770):
CACGTAGTAGTAGATGAAGGGATCCACGCAGCTGTTGAGGGTGCTCAGCGCCAGGCTGGGCACGTAGGCACCATAGAGGTTGCCCCAGGCGCTGGGGCTC
R
GGTCCGAGTAATGCAGCAGCAGCAGCAGGTTGCTGGGCACGAAGAAGGCCACGGCGGAGGCCAGCACCACTGCGGTCAGCCTCAGCGCGTGGCCGTAGCG
Celera SNP ID:            hCV15955388
SNP Position Genomic:     142247
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,3|G,33)   total(A,3|G,67)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,1|G,9)   total(A,1|G,39)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44771):
CATCTTCTGTCCCGATTCCAGGCTGCAGGGAGGGCTGTCAGGACAGGATGCAGGGTGTGGAGGGAGCTGCATCCATCACTGTACTAGTGGCCACACTATG
Y
CAACCTGGCCTTCCTGAGGCTGGGCCCTCCCTGCCATCTTGGCTGTGAAATTGAGCATGCTTTATCCTTTTGTTCCAGGTATACCTTTGGGAAACCTGTG
Celera SNP ID:            hCV25968233
SNP Position Genomic:     32071
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,6)   caucasian(C,34|T,2)   total(C,60|T,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44772):
TGTCGGATGCGGAGAATTCACCACCTCTCTCTACTTTTGCTCACCTCAGAGCCCCCACCAGCCCCAGAAGCTGAGGTCGACGTGTGTGTGACCTCTCTTC
R
TCTGGCCGTGACCCCCAGCATGGTCCCCCTTGGTCGCCTGCTGGTCTTCTACGTCAGGGAGAATGGAGAAGGGGTCGCCGACAGCCTTCAGTTTGCAGTC
Celera SNP ID:            hCV1655870
SNP Position Genomic:     55161
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,24)   caucasian(A,22|G,12)   total(A,28|G,36)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44773):
ATCTGGAGGCTTGGTGCAGAGGATCGGAGGGCCTTGGCATCTTCTGTCCCGATTCCAGGCTGCAGGGAGGGCTGTCAGGACAGGATGCAGGGTGTGGAGG
R
AGCTGCATCCATCACTGTACTAGTGGCCACACTATGCCAACCTGGCCTTCCTGAGGCTGGGCCCTCCCTGCCATCTTGGCTGTGAAATTGAGCATGCTTT
Celera SNP ID:            hCV25968167
SNP Position Genomic:     32034
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,37)   total(A,1|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:44774):
ATGGGAACATGAGTTGCATCTTTACTGAAGCATCTCCAAAAGTCACACAAAAGGAGATTGCATTCAAAACACATGGGGAAAGCCATCAATTATTCTCTGC
S
TTTGTTGAATTCAGGATTTAAGGGACAGCACTTGTTTCCATTGGCACCCTCAGCCTCCTCTCCCCCTCCCTGCAACAACTTTATTATTATTATTATTATT
Celera SNP ID:            hCV1655872
SNP Position Genomic:     55506
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44775):
TCACACAAAAGGAGATTGCATTCAAAACACATGGGGAAAGCCATCAATTATTCTCTGCCTTTGTTGAATTCAGGATTTAAGGGACAGCACTTGTTTCCAT
Y
GGCACCCTCAGCCTCCTCTCCCCCTCCCTGCAACAACTTTATTATTATTATTATTATTTTGAGACGGAGTCAAGCTCTGTCACCCAGGCTGGAGTGCAGT
Celera SNP ID:            hCV1655873
SNP Position Genomic:     55548
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44776):
AGGAACTTGGGGACTATGATAGGACCCAACTCATTGAGTTCATATCCTAAGAGAAGGCCCAGCCCACTTGTGGCATTAGCACGTTCAAAGTTAGGAAACA
R
TATTTTATTTTTATTTTTTTTTGGAGACAGGGTCTCACTCTGTTACCCAGGCTGGAGTGCAGTGGTGCGATCATGGCTCACTGCAGCCTTGACTTCCTAG
Celera SNP ID:            hCV26209700
SNP Position Genomic:     51266
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44777):
CCCTCAGCCTCCTCTCCCCCTCCCTGCAACAACTTTATTATTATTATTATTATTTTGAGACGGAGTCAAGCTCTGTCACCCAGGCTGGAGTGCAGTGGCA
Y
GATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCGGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGCATGTGCCACCATGTCTGG
Celera SNP ID:            hCV1655874
SNP Position Genomic:     55653
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44778):
GAATAGATGGATGGATAGTGGGGTGGGTGGATGAGTGGATGATGGATGGATGAACAGATGGATGGATGAACAGATGGATAGATGATTGGATGGTGGATGG
R
TGGGTGGATGATGGATGGATAAATGGATGGATGGTGGGTGGGTGGATGATGGATGATGAATAGAGGGATGGGTGGATGGTTGGATGGGTGGATGATGGAT
Celera SNP ID:            hCV26209701
SNP Position Genomic:     53682
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44779):
TCGCCGCAGTTGATAAGAGTGTCTACCTGCTCAGGTCTGGGTTCCGGCTGACTCCTGCCCAGGTGAGCAGACCCCTCGGGCTTGGGTTCTAGACCTCCAC
R
GGGCTTTACCTTCTCTTGCTCTCCCTTTCCCATCTCTCATTCCAATAAATGAAGAGTGGCATTTGAATCCAGATTCGCTTTCTCCGTCGGGTTCATTTTT
Celera SNP ID:            hCV25956006
SNP Position Genomic:     56687
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(G,38)   total(A,3|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:44780):
TCCAATTTGCAAAGCCGTGGAGAGCAGAATGTTATGCATGTCAATGGTCAGGTTCAAATGGGTAACTTGAACTTGTGATGGGACGTGTTATGACATTGAC
R
TGCTTTGCTGCGAGGAAAACCTTCTCATTGGGAGCTGTGGGTGCCAGTAGCTCTTAGCTCTGCCTCGGCTTTGGTTAACTTGGTTGTGTGTCTGGCAGCT
Celera SNP ID:            hCV26209703
SNP Position Genomic:     58119
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44781):
AAGCAATTCTCCGGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGCATGTGCCACCATGTCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCAC
Y
ATGTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCACATGCTTCAGCCTCCCGAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCT
Celera SNP ID:            hCV1655876
SNP Position Genomic:     55790
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44782):
CTGCATAGGTGATCCTCGTGCCCCAGCCTCCCTAGTCGCTGGGATTAGAGGCATGAGCCACTGTGCCCAGCTCCAGTTTACCCATCTTAAAAAGGGCTAA
K
GGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCAAGATTGCGCCACTGCACT
Celera SNP ID:            hCV26209704
SNP Position Genomic:     58368
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44783):
CTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCACCTGCCACCATGCCCAGCTAAATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCA
R
GCTGGTCTCGAACTCTTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACTCACAGCCAACTGAACCAA
Celera SNP ID:            hCV1655877
SNP Position Genomic:     56367
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44784):
GCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCACCTGCCACCATGCCCAGCTAAATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGG
M
TGGTCTCGAACTCTTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACTCACAGCCAACTGAACCAAGT
Celera SNP ID:            hCV1655878
SNP Position Genomic:     56369
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,11)   total(A,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44785):
CCGCAGCCTCTCAAAGTGCTGGGATTACAGGTGTGAGTCACTGTACCTGGCCTGGAAGAAAATTTTAACTAAATAACAGGTGTCTTTCTCTCTTTCTTTC
T
TTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCTCCCAGGCTGGAGTGCAGTAGTGCGATCTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCAC
Celera SNP ID:            hCV26209705
SNP Position Genomic:     62394
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44786):
TCCTGGGCTTAAACGATCCTCCCACCTCAGCCTCCAGAGTAGCTGGGGCTACAGGCATGCACCACCACGCCTGGCTAATTTTTTCTATCTTTTGTAGGGG
Y
GGGGTCTTGCTATGTTGCCCAGGCTGGTCTCGAACTCCTTTGCACAAGCCAGCCTCCTGTTTCAGCCTCCCCAGTAACTGGGATTAGAGGCATGGGCCAC
Celera SNP ID:            hCV1655879
SNP Position Genomic:     57114
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44787):
CTCCATCCCCACGTCAGCCCAGCACGTGTGGCTGGAGGTGGGTGAGTCCCGTGGACCCTTGTTATTCAGCCAGCAGGTATGGACTTGGGGCCTCCCCCAG
R
CTGGGTGCAGGCACCTGATCAGTGGGCCTGGAGCCCGTCCCAGCCCTGCAGGAGTACACATTCCACTAGACAGTGGGATGGACAACACAGCCATCCTGGG
Celera SNP ID:            hCV25969616
SNP Position Genomic:     39301
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,4|G,30)   total(A,6|G,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:44788):
GTGCTGGGATTACAGGTGTGAGTCACTGTACCTGGCCTGGAAGAAAATTTTAACTAAATAACAGGTGTCTTTCTCTCTTTCTTTCTTTTTTTTTTTTTTT
W
TTGAGACAGAGTCTTGCTCTGTCTCCCAGGCTGGAGTGCAGTAGTGCGATCTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCT
Celera SNP ID:            hCV26209706
SNP Position Genomic:     62409
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44789):
GGTATTTTATTATCTTTGTAGCAATTGTGAATGGGATTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTAATTGGTGTATAGGATTTTTGTGATTTTTG
Y
ACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCATATCAGCTGAAGGAGGTTTTGGGCTGAGATGATGGGGTTTTCTAAATATACAATCATGTCAT
Celera SNP ID:            hCV26209707
SNP Position Genomic:     66984
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44790):
CTCCAGATATTGCCACTATCCCCAGGGGGCAGAGTCACTTCCAGGTGAGGACACTGAGATAGGTAGGTAGATAGACAGAATGATGGGTGGATAGATAGAT
V
GGCAGGATCTCTCAGGCGAAGGCAAGGTTTCTCAACCTTGGCACTATCAACATTTGGGCAAGATCATTCTCTGTGGTGGAGGCACTGTAGGATATTGAGC
Celera SNP ID:            hCV11699111
SNP Position Genomic:     52830
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,1|A,1|-,4)   total(G,1|A,1|C,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44791):
ATGGTGGTGGTTCCACTGTGTCCATCTGCAGATGAATGGGCTGTGACTTGGGGGTGGGGGTTTCAGGGACTTTCCCATTGCCTAGTAGGGGCCAGAGCCA
R
GATTTGAACCCCAAGGCCGATTGGGTACCCACTTCCTCCTGTTGCCCATGAGTTTCCTTGTGTCCCCGCTTTCCCCTACCATCCCTGTCCACTGGCTGCT
Celera SNP ID:            hCV11699113
SNP Position Genomic:     54395
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44792):
ACTTGGGGGTGGGGGTTTCAGGGACTTTCCCATTGCCTAGTAGGGGCCAGAGCCAAGATTTGAACCCCAAGGCCGATTGGGTACCCACTTCCTCCTGTTG
S
CCATGAGTTTCCTTGTGTCCCCGCTTTCCCCTACCATCCCTGTCCACTGGCTGCTCTGAGCTCTGCACAGAACCAGCTGACAGATGGCCCATTCTGGAAC
Celera SNP ID:            hCV11699114
SNP Position Genomic:     54440
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44793):
TGTGTCGCAGCATGATGTAAGGAATTATGGGAACATGAGTTGCATCTTTACTGAAGCATCTCCAAAAGTCACACAAAAGGAGATTGCATTCAAAACACAT
R
GGGAAAGCCATCAATTATTCTCTGCCTTTGTTGAATTCAGGATTTAAGGGACAGCACTTGTTTCCATTGGCACCCTCAGCCTCCTCTCCCCCTCCCTGCA
Celera SNP ID:            hCV11699117
SNP Position Genomic:     55480
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,15)   caucasian(A,8|G,28)   total(A,27|G,43)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44794):
GCTCCTCTGTCTTCCCGTGGCCTTGGGGCATCACCAAGGACTCTGGGTTTGCCTTCACCGTAAGGAGAGGTGGTCTCAGATCCCTCTGCCCCCTTCTAAG
K
TCCTCTTGCCTAGAAATAAGAGTCTTGGAGATTCAGAAATGGGTTGGAAACAGAATTGGAAGCTTTTCTTTCTTTTTTTCGAGATGGGGTCTCGCTCTGT
Celera SNP ID:            hCV25970953
SNP Position Genomic:     57595
SNP Source:               Applera
Population(Allele,Count): african american(G,14|T,6)   caucasian(G,4|T,12)   total(G,18|T,18)
SNP Type:                 INTRON


Context             (SEQ ID NO:44795):
TTCCCACCCTCAGACCCTCCATTCCCTTCTTCAGAAGGGAAAGCTGAATAATTTTTTTTTTTTGAGGAGGAGTCTCACTCTGTTGCCCATGCTGGAGTGC
R
GTGATGGGATCTCAGCTCACTGCCTTCCATGTTCAAGTGATACTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCCTGCACCACCAAACCCGGCT
Celera SNP ID:            hCV1655880
SNP Position Genomic:     71795
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44796):
AGTGCAGTGATGGGATCTCAGCTCACTGCCTTCCATGTTCAAGTGATACTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCCTGCACCACCAAAC
S
CGGCTAACTTTTGTATTTTTAGTAGAGAGGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCCAGTGATCCACCCACCTCAGTCTCCC
Celera SNP ID:            hCV1655881
SNP Position Genomic:     71890
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44797):
AAGACACTCCAACCCTGAGTGAGCACGGGCTGTGTTTTTCCTCCCTCCAGATCCTCGGCTCCCGGGACTTCGACATCTGCGTGAGGGACATGATCCCAGC
R
GACGTCCCTGAGCACTTCCGGGGCAGGGTCAGCATCTGGGCCATAGTGACCAGTGTGGACGGGAGCCAGCAGGTCGCGTTCGATGACTCCACCCCCGTGC
Celera SNP ID:            hCV25968249
SNP Position Genomic:     35368
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,7|G,29)   total(A,11|G,57)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:44798):
ATGCCTGTAATACCACCACTTTGAGAGGCTGAGGTGGGTGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAAACCCCATCTCTACT
R
AAAATACAAAAATTAGCCGGACATGGTGGTGGACGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTCGAACCTGGGAGGCGGAGGCT
Celera SNP ID:            hCV1655882
SNP Position Genomic:     72930
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44799):
TCAGTAGGCCAAGGTAGGAGGATTGCTTGAGTCCAGGAGATCGAGGTTGCAGTGAGACGTGATCGCACCACAGCACTCTAGTCTGGGCAACAGAGCAAGA
S
CCTGTCTTTAAACACGGAAAGAAGGCTGGAGGTCCTTCTTGCCTTCTCTCCCTGTGGGAGGCATCCTCTTCCCTGGGAAGGTGTGAAGCTCTAGGGGCTG
Celera SNP ID:            hCV29031653
SNP Position Genomic:     16690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44800):
CCAGTAGGTGCTCCATATATGCTGGTTGGACAAATGGATGTGGAGCAAAGATTTCCTCTTAGATGGAGGGGTTGCAAACGTGCTTGCATATGCACCCACA
R
TGCACATGCACACACCCTGCAAAATGCACACACATGCACACAGAGACCAGTATGTGTGAGCATGCACATGATGCACCCACACAAGTCGTCATGGTATACA
Celera SNP ID:            hCV26209710
SNP Position Genomic:     84559
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44801):
TGAGGATTTTGGGATTGGAGTAGTGGGTGAGGTTTATTGCTTTGGTTGGTCTTGACGGGGAAACTGCAGTCAGAAGAGACCTCACAGGTCCAGAAGGCTG
S
TCCTGCGGGTGGCAGGTAGGAGAGGTCCCTCTGAGGCTGTTCAGAGCAGACAGGAGGTGGGTGGCTGGAGAGAGGGCTGGGACGGACCCCGTGTGGCTTC
Celera SNP ID:            hCV29031654
SNP Position Genomic:     17087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44802):
AGTAGGTGCTCCATATATGCTGGTTGGACAAATGGATGTGGAGCAAAGATTTCCTCTTAGATGGAGGGGTTGCAAACGTGCTTGCATATGCACCCACAAT
R
CACATGCACACACCCTGCAAAATGCACACACATGCACACAGAGACCAGTATGTGTGAGCATGCACATGATGCACCCACACAAGTCGTCATGGTATACATA
Celera SNP ID:            hCV26209711
SNP Position Genomic:     84561
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44803):
TGCTCCATATATGCTGGTTGGACAAATGGATGTGGAGCAAAGATTTCCTCTTAGATGGAGGGGTTGCAAACGTGCTTGCATATGCACCCACAATGCACAT
R
CACACACCCTGCAAAATGCACACACATGCACACAGAGACCAGTATGTGTGAGCATGCACATGATGCACCCACACAAGTCGTCATGGTATACATATGCACA
Celera SNP ID:            hCV26209712
SNP Position Genomic:     84567
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44804):
CAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTTCCTCAGCCTCCCGAGTAGCTGAGACTACAGGCGTATGGCACCACACCCAGCTAATTTTTTTTTGT
R
TCTTTTTTAGTGGAAATGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCGCCCACCTTGGCCTCCCAAACTGCTGGG
Celera SNP ID:            hCV29031655
SNP Position Genomic:     23735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44805):
ACATGCCCACATGTGTAGACATGCATTCACACACACAAATCCACACACATGCCCACATGTGTAGACATGCATATACACACACACAAATCCACACACACAC
M
CCCCCACGTGTAGACATACATACATATACAAACAAATCCACACACGCACATGCCTGCATGTGTAGACATGCATCACACACACGAATCCACACACACACAT
Celera SNP ID:            hCV26209713
SNP Position Genomic:     86287
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44806):
GTAAATACGTAGATGGGAACTGAGGACACTGTGGTCACTTTGTCCTCTGTGGGCACCATGTCCTAAAGGTTTTAACCACTGAAGCCACTGCCTTGCCACT
Y
GACATTCACAGCCAGATGGGTTCACGCTTTCTTGTGTTGGACCTGCTGCTCAACACACAGCACAGCTGTTTGGTCACCTGGGCCACTGTTCTGTTGTTTT
Celera SNP ID:            hCV29031656
SNP Position Genomic:     40690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44807):
GAACAATTGAGACTGAGATGGGTGCTCCTGCAAGGAGGGACAAGGCAAGACCCAGCAGAGAGGGGAGCATGCCTTGGGTCAGAGGGGACACATCCTTAAC
R
ATACCAGACTGGGTCCAGGAAGACAGTGATCAGCTGCTGGAAGTGGAGAGGTTCAGGCCCCAGACTCTTCTCACTCTGTGTGTGCAGGGGACAGGGAAAG
Celera SNP ID:            hCV29031657
SNP Position Genomic:     52295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44808):
ACACACATGCCCACATGTGTAGACATGCATCACACACAAATCCACACACACAGACACATGCCTGCACATGCAGACATGCACACACACACACAAATCATAC
W
CACACACATGCCCACATGTGCAGATATGCATTGCACACACGAACCTGTACAAACACATGCACACACATACACACATGCATATACACATACAAACTTGTAC
Celera SNP ID:            hCV26209714
SNP Position Genomic:     86480
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44809):
TCCAGAGTAGCTGGGGCTACAGGCATGCACCACCACGCCTGGCTAATTTTTTCTATCTTTTGTAGGGGCGGGGTCTTGCTATGTTGCCCAGGCTGGTCTC
R
AACTCCTTTGCACAAGCCAGCCTCCTGTTTCAGCCTCCCCAGTAACTGGGATTAGAGGCATGGGCCACTGTGCCTGGCTCCTGTTTGCCCATCTTAAAAT
Celera SNP ID:            hCV29031658
SNP Position Genomic:     57146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44810):
CCAGCCAATGGTCAGCCAGAGGCACAGTGCATCCTTGTTGTATTAGTTCGTTCTTACATTGCTATAAAGAAATACCTGAGACTGGGTTATTTATTTATTA
R
TTTATTTATATTATTACTAGTTTTGGGGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCCACCTCCC
Celera SNP ID:            hCV26209715
SNP Position Genomic:     90162
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44811):
GCACCACCACGCCTGGCTAATTTTTTCTATCTTTTGTAGGGGCGGGGTCTTGCTATGTTGCCCAGGCTGGTCTCGAACTCCTTTGCACAAGCCAGCCTCC
W
GTTTCAGCCTCCCCAGTAACTGGGATTAGAGGCATGGGCCACTGTGCCTGGCTCCTGTTTGCCCATCTTAAAATGGGCTGATGCTACCAGTGCCCATCTC
Celera SNP ID:            hCV29031659
SNP Position Genomic:     57172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44812):
CAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACC
S
CGTCTCTACTAAACTATACAAAAAATTAGCCAGGTGTGGTGGCAGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGACAGGAGAATTGCTTGAACCTG
Celera SNP ID:            hCV26209716
SNP Position Genomic:     91526
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44813):
GCAGATCACCTGAGGTCAGGAGTTCGAGACTAGCCTGGCCAACATAGTGAAACCCTGTCTCTACTAAAAGTACAAAAATTAGCTGGGCCTGGTGGTGGTG
M
CTGTAATCCCTGCTACTCAGGAGGCTGAGGCAGGAAGATCATTTGAACTCAGGAGGCGGAGGTTGTAGTGAACCGAGATCGCGCCATTGCACTCCAGCCT
Celera SNP ID:            hCV26209717
SNP Position Genomic:     92593
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44814):
GCCCTGACCTGCCTGTTCCTACTCCCTGGAGCTGCCTGGGGGAAGTGGGGGGAAGTGGACTGTCTCCTTTGGCTTAGGGTGAGGCCTGTGAGTCCCCTTG
Y
AGGGTGGGATCCACGGCACTGTCCCGCTGACAGCCTACGTGGTGGTTGCTCTCCTGGAAACAGGCACAGCCTCAGAGGTGAGTACAGAAGGGGTTTGGGG
Celera SNP ID:            hCV25967951
SNP Position Genomic:     118136
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,11)   caucasian(C,35|T,1)   total(C,56|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:44815):
AGGCGGAGGTTGTAGTGAACCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCTAAAAAAAAACAAAAACAAAAACAAAAAAA
M
CCCAAAACAACAACAACAACAACAAAAAAGCTAAAGACCCAGTAAAGCCAGTGGTGTAGCTGGAAGGCCTGAGAGCTGGAGAACCAATGGTGTAGATTCC
Celera SNP ID:            hCV26209718
SNP Position Genomic:     92747
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,7)   total(A,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44816):
GATCGCGCCATTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCTAAAAAAAAACAAAAACAAAAACAAAAAAAACCCAAAACAACAACAACAACAA
M
AAAAAAGCTAAAGACCCAGTAAAGCCAGTGGTGTAGCTGGAAGGCCTGAGAGCTGGAGAACCAATGGTGTAGATTCCAGCCCAGGTCTGAAGGCCTGGGA
Celera SNP ID:            hCV26209719
SNP Position Genomic:     92770
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44817):
GGGACAAGGCAAGACCCAGCAGAGAGGGGAGCATGCCTTGGGTCAGAGGGGACACATCCTTAACAATACCAGACTGGGTCCAGGAAGACAGTGATCAGCT
R
CTGGAAGTGGAGAGGTTCAGGCCCCAGACTCTTCTCACTCTGTGTGTGCAGGGGACAGGGAAAGCCAGCCACAGACTAGGCTCTTGCACTGGCCCACATT
Celera SNP ID:            hCV25958122
SNP Position Genomic:     52331
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,11)   caucasian(G,30)   total(A,5|G,41)
SNP Type:                 INTRON


Context             (SEQ ID NO:44818):
CCTCCCTGCAACAACTTTATTATTATTATTATTATTTTGAGACGGAGTCAAGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCA
R
CCTCTGCCTCCCGGGTTCAAGCAATTCTCCGGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGCATGTGCCACCATGTCTGGCTAATTTTTGTATTTTTA
Celera SNP ID:            hCV11699121
SNP Position Genomic:     55671
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44819):
CTGAGGTAGGAGGATCGCTTGAGACTGGGAGGTTGAGGCTGCAGTGAACTATGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGTGAGGCCCTATTT
A
AAAAAAAATGAGAGAATAATGAAATTTAGAAAAGGAGAAATCCACCGATAATCCAGTTTTCATACTTTTCACTTTTTCATGTTTTCCACACATTCTTGTT
Celera SNP ID:            hCV11699050
SNP Position Genomic:     13086
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44820):
GAGAAGAGAAAAAGGACTTTCTTCCCCGAAACATGGATTTGGCATTGTCTCAACATCAGGTACATTAAGATTTCTTTTCTGCGCTGACTTTGCCGGTTGA
S
TGAAAGACACTCATGCGGGTCCAGAGAGCCTCCGGTGAGATGGGCAGGCCTGATACCAACATCTGAGCAAGACACTGTGCATCTTTTTCTAACACACAAA
Celera SNP ID:            hCV11699125
SNP Position Genomic:     74839
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,14)   caucasian(C,2|G,28)   total(C,6|G,42)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(G,-|C,-)   JBIC-allele(C,118|G,1367)   total(G,1367|C,118) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44821):
TGTAATATATAACGAAATAATGATATAACTCACCATAACTGAAGAAACAGTGCAAGCCCTGAGCTTGTTTTCCTTCAACTAGATGGTCCCACCTGGGGGT
S
ATGTGAGACAGTAACAGATCATCAGGCATTAGATTGTCATAAAGAGCATGCAATCTAGACCCCTCCCATGCACAGTTCACAATAGGGTTCACACTCCTAT
Celera SNP ID:            hCV11699053
SNP Position Genomic:     15430
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44822):
ACCATTAGGAAGCTCAAAGAAGCATTGTCATGGGTTCAGGGGCCTCCAGGGAGTGAGTGGTGGAGCTGTGTGTTAGAATCAATGTCTACGGGTGCCGGGA
C
AGCCCAGAAAAGGGGAAGTCCCCCTGAACCTGAGAGTCTGCAGGTGATGTTTGAGTCAGGCATCGGGGCGGGAAGGGCATTCGCAAAGAGGGAACAGCAT
Celera SNP ID:            hCV11699126
SNP Position Genomic:     82799
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,5)   total(C,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44823):
CCTGGGGGTGATGTGAGACAGTAACAGATCATCAGGCATTAGATTGTCATAAAGAGCATGCAATCTAGACCCCTCCCATGCACAGTTCACAATAGGGTTC
W
CACTCCTATGAGAATCTAATGCCACCACTGATCTGATGGGAGGCGGAGCTTAGGCAGTAATGTGAGTGATGGGGAGCGGCTGTAAATACAGATGAAGGTT
Celera SNP ID:            hCV11699056
SNP Position Genomic:     15521
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44824):
TGAGGCAGGAGAATCACTTGAACCGGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGCCATTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCAACTC
A
AAAAAAAAAAAAAAAAAAAGTATGAAGTTAGCCAGGTGTGGTTGTGTGTGCCTGTAATCCCAGCTACTTGGGAGGTTGAGACAGCAGAATCTCTTGAACC
Celera SNP ID:            hCV11699129
SNP Position Genomic:     94979
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44825):
AACAGACTAATACAGGAGGCATTACTTTTGTTTGTTTTAAGCATGAAAGGAGCTTTTATAGTGCATGACTCACATGCCAGGGCGTTCTGCCCATCTGCTT
A
AAAAAAAATAAGAGGACGGCCAGGTGCCATGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGTCGGGAGGATCACATGAGCCCAGGAGTTTGAG
Celera SNP ID:            hCV11699057
SNP Position Genomic:     18284
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44826):
TCATTGCTGTGGGAGAGCCAGCTGCTCCGCTGAGCTGACCATCCCCCTCACCGCCCCAGCACTCAGTTCTCCTTGTTTCTTTGTTTCAGGCGGAAGGAGT
Y
CCCCGGGCGTACACCTACAGCGCATTCTTCTGTCCCAGTGGTGAGTCCCCCGTGCCCATTCTGCTAAGGTGTGGCCACCTGGCTGGGTCAGGACTTTGGC
Celera SNP ID:            hCV25961205
SNP Position Genomic:     94214
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:44827):
TCCAATCTTTTGAATTTGCTTTCATAGAGGAAGACTTTTTCCTGAAGATCTATCTGTGGTGTTGGTTGGGTACAGCATTTAGATTGATTCTGAATGTGTA
Y
AGTAGTGTAGTCTCCATATGATTTCTTTAGCTATAAACAGCATCAGTGGTGTCTGTGATTTCCTGAGTGGCTTAGGGTGCAGTTATTAGTGGAGGCTGTG
Celera SNP ID:            hCV3057135
SNP Position Genomic:     100779
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44828):
TGTGAGCAGGGAATGTAAGTGGGGCTCCAGAGATGTGAAGATGCAGGAGCTGTTTGGCCCCCAGGCAGAATGCAGCCTGGCAGTGGCTAGGATCTCGATA
Y
GGTGCCCTGCTGTAGCTGCTTAGGGCTCAAGGGTGTGTGAGACCCAGCCTTAGCCCCCTCTCTGGAACAGTATCTTTGCACAATCTCTGGGTATCTCCCT
Celera SNP ID:            hCV3057136
SNP Position Genomic:     101848
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44829):
CTGACCTCAGGTGATCCGCCCACCCCAGCCTCCCCAAAGTGCTGGGATTACAGGTGTGAGCCATTGCGCTCAGCCTGTGCTGCGATTTTAGAGTGAGGCA
R
ACACAGACACATATACATGATAGATATATCTGGACATGTACATATGTATATCAAGGGATCCAGGTCTCCTTCCACCGCTCACAGGCTGTGAATTCACTTG
Celera SNP ID:            hCV11699059
SNP Position Genomic:     19796
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44830):
TCTTTTTTTTTTCTTTTTTTTTTGAGATGGAGTTTCACTCTTGTCGCCGATGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGAAACCTCCACCTCCTG
R
GTTCAAGTGATTCTCCCACCTCAGCCTCCTGAGTAGCCGGGATTACAGGCACCTACCCCCACGCCCGACTAATTTTTGTCTTTTTAGTAGAGACGGAGTT
Celera SNP ID:            hCV3057138
SNP Position Genomic:     102471
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44831):
TTTTTGAGATGGAGTTTCACTCTTGTCGCCGATGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGAAACCTCCACCTCCTGGGTTCAAGTGATTCTCCC
R
CCTCAGCCTCCTGAGTAGCCGGGATTACAGGCACCTACCCCCACGCCCGACTAATTTTTGTCTTTTTAGTAGAGACGGAGTTTCACCATGTGGGTCAGGT
Celera SNP ID:            hCV3057139
SNP Position Genomic:     102489
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44832):
GGCTCTGGAGTGAGAGCCCCAGATTCGGATGGAAGCGTTGGATGGTTAAATGAGAGTGTTGGTGGAAAGCCTCTCATGGTATCTGGCCTGTCTACTAAAG
W
CCCACGTGCTGTTGTCACACAGGCATTTATAACAGTCAACTGGGGAATCCCAAACCAAAGTCAGGGATACACTTTCTATTTTAGGAAATGTCCATCAGCT
Celera SNP ID:            hCV1655890
SNP Position Genomic:     88896
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44833):
ACACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACTATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTATCA
Y
CGTGTTAGCCAGGATGGTCTCGATCTCCTCACCTTGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGTGCCCAGCCC
Celera SNP ID:            hCV29031660
SNP Position Genomic:     67572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44834):
GAGTGTTGGTGGAAAGCCTCTCATGGTATCTGGCCTGTCTACTAAAGACCCACGTGCTGTTGTCACACAGGCATTTATAACAGTCAACTGGGGAATCCCA
R
ACCAAAGTCAGGGATACACTTTCTATTTTAGGAAATGTCCATCAGCTGATGAATTAGAGAAATGAATGTGGGTCAATGAAATGCAATTCCTCAATGCAAT
Celera SNP ID:            hCV1655891
SNP Position Genomic:     88949
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44835):
TTCAGTGGGGAGTTGGGACTGCATTGGTGCTATAAGGTAGGCAGGGGTGGGACAGTGTCAGCTTGGGGGATTTAGGAGGGCGAGAGCCTCTATGATGTTG
R
GGAGGCAGGGATGGGTGGGCTCAGCCTGGGGGGCTTTGGGGAGGATGCGTCATCTGTGCTGTCAGGGAGGCAGGAGTGGGATGAGATCAGCCTCTGATTC
Celera SNP ID:            hCV29031661
SNP Position Genomic:     80816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44836):
TCTCATGGTATCTGGCCTGTCTACTAAAGACCCACGTGCTGTTGTCACACAGGCATTTATAACAGTCAACTGGGGAATCCCAAACCAAAGTCAGGGATAC
R
CTTTCTATTTTAGGAAATGTCCATCAGCTGATGAATTAGAGAAATGAATGTGGGTCAATGAAATGCAATTCCTCAATGCAATGGAATATTATTCAGCTGT
Celera SNP ID:            hCV1655892
SNP Position Genomic:     88967
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44837):
TTTCCTCCTAACCATTTGAAAAAGATGAAAACCATCTTTAGCTTGTGGGCCCAAAAGACAGGTGGTGGATCCGGTTTGGCCTATGGGTCTTAATTCACAG
R
CTCCCCACAAAGTACCAGGAAATCCTGGTGGTGAACAGAGAGGGTGCTTGGGATCCCGGTTTATACTCATAGAGCTGCTGATCTTGGGCACGTTATTCAA
Celera SNP ID:            hCV29031662
SNP Position Genomic:     81384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44838):
AGTTTTGTTGTTGTTGTTCTTGTTGTTGTTTTGAGATGGAGTCTCGCTCTGTCGCCACGCTGGAGTGCAATGGCATGATCTCAGCTCATTGCAACCTCCA
R
CCTCCTTGTTCAAGCGAGTCTCCTGCCTCAGCCTCCCGAATAGCTGGGATTGCAGGCACCTGCCACCATGCCCGGATAATTTTTATATTTTTAGTAGAGG
Celera SNP ID:            hCV1655893
SNP Position Genomic:     90746
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44839):
AGTTTCAATGAGCTGAGATCACTCACACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCTGTCCATAGATAGATAGATAGATACATAGATAGATAG
W
TAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAATTGACCATCCTAATGGGGAAAGGGGCTGCCAGGCCTTCTGGTTGCAGCTGCCCCATGTT
Celera SNP ID:            hCV26209720
SNP Position Genomic:     93459
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2|-,4)   total(A,2|-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44840):
GTGGTGGCTCACACATGTAATCCCAGCACTTTGGAAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGATCAGCCTGGGCAACATGGTGAAAC
S
GCATCTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGG
Celera SNP ID:            hCV25994707
SNP Position Genomic:     12496
SNP Source:               Applera
Population(Allele,Count): african american(C,28|G,2)   caucasian(C,10)   total(C,38|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:44841):
GGGGTGGATCACGTCAGGCGCAGTGTGATGGTTGAGGTAAGGCCGTGTCCTCATCTCTGGTGCTTAGCCAGGGCCTCATTCCTTCAGCCATGAAGCTGGG
S
CCAGCTGGAGTGTGTGGTCTGAGGCTGAGCCAGGGCCTGGGCAGCCTTCACGGGTTGTGCTTGAGAGCTCAGGTGCCTGGACTTTCGGGTACTTCCTTGT
Celera SNP ID:            hCV29031663
SNP Position Genomic:     87165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44842):
GAAGCCGCCCCCATAATTCAGTTATCTCCCACCGAGTCCTTCCCACAACATGTGGGAATTATGGGAGCTACAATTCAAGACAAGATTTGGTTGGGGACAC
R
GCCAATCCATATCAGGATGCCTCTAGTAGCCCAGGTGCTGGAGGGGCTGTGATTGATCCAGGGCTAGGAGTTGGGCAGAAGGGTGGTGAGAGTTTGGGAT
Celera SNP ID:            hCV26209721
SNP Position Genomic:     105509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44843):
TATCAGGATGCCTCTAGTAGCCCAGGTGCTGGAGGGGCTGTGATTGATCCAGGGCTAGGAGTTGGGCAGAAGGGTGGTGAGAGTTTGGGATGGGCCTGAG
Y
CAGGGAGGAGAGGGTGAGAGGCCGGAAGGAGATGGACAGACCCAAATGAGGGTGTCGAGGCTCTCTCTGACATCAGAGGGTGGAGGCCCTGGGACTCAGG
Celera SNP ID:            hCV26209722
SNP Position Genomic:     105619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44844):
AGAGAGACCACCGACTACCTAGTACAAGGTATTGGGGAAGAAGTGCCTGGGTTGAGGTGGGAGCAAGGGAGGCAGGTTCAGCCTTCAGTGGAGAAGACCA
Y
GCTGGAGGTGGCCCACACACCAGGTGCAGCAAAGGGGAGGAAGTGGGCAAAAGAGGCCATTCAGGGTGGCCCTGATCTTGTCACTGTCAGCAGGAGCCTG
Celera SNP ID:            hCV29031664
SNP Position Genomic:     107525
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44845):
AAAGCCAGTGGTGTAGCTGGAAGGCCTGAGAGCTGGAGAACCAATGGTGTAGATTCCAGCCCAGGTCTGAAGGCCTGGGAACCAGGAGCAGGAGAAGATC
R
ATGTCCCAGCTCAAGCAGTTGGGCAGAGAGTGGAACCAATCTTCCTCTGTCTTGTTCTATCAGGAGACGTTTAACAGCTTGGATGGTGCCCACTCACATT
Celera SNP ID:            hCV1655896
SNP Position Genomic:     92891
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44846):
GGGCCATAGTCTCTTCTATGAGGCTTTCCTGGGGTGGGGGATGGCACAGTCTCTGCAGAGAAGGCTTCCACGATGGATCTCAGCCCTGGGTGAGAAGAAT
M
TGCCCTCCCTAATACCTACATCAATTCTACAATCTCTCATGATAAATTATGAGTTTGGGCACTTCTCAGGATTCTTGGTCTCACAATCCAGACAACTAGT
Celera SNP ID:            hCV29031665
SNP Position Genomic:     118775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44847):
GTGCATCCAGCCAACTCGCAGTTCAGACTCAACAAACCCCAAATCAACCCCCGCCATCTTCCCCCCAAACCCACTTGTGTTCATTTCCTAAAACTGCCAC
R
ACAAAATGCCACAAACCGGGTGGCTTAGAACGACAGAAATGTGTCATCTCCTCATAGTTCTGGAGGCCAAAAGTCAAAAATAAAGGTGTCCGCAGAGCTG
Celera SNP ID:            hCV26209723
SNP Position Genomic:     108424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44848):
ATGATAAATTATGAGTTTGGGCACTTCTCAGGATTCTTGGTCTCACAATCCAGACAACTAGTGGGTCTACAGTTTGCTGTGACCTAAGACCGCCCCCACC
R
TGCACAATGTCCAGAGGGCCCCTTGCCTTGTGTTATGGGCTGAATTGGTTCTCCCCTGACCAAATTCTTATGCTGAATTCCTAATGCCCTGTCTTAGCTT
Celera SNP ID:            hCV29031666
SNP Position Genomic:     118914
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44849):
GAGACTCGTCCTTGGCAGATGCAGGAGCCCCTCTCACAGTGCTCACGGATGTCAAATGAGGCCTCAGAACCTGGCTTATTTGTCCTCATGATGTCCTCTG
Y
CCAGAGGGAGATGGGAGGAAGAGGGTGGCTGGGAGGGTAGGGTAGGGATGTGGGCCCCATGACAAGTTTAGAAGCAGTTGGTGAGTTCCTTTTGGCCAGC
Celera SNP ID:            hCV1655898
SNP Position Genomic:     93873
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44850):
ACACAGCTGGGAAGTAAAGACTGTGGTGGTCCCAGCTCCAGGGATGGAGGTTGGGGCTTGGGGCCAGTGCAGAGCTGGTGATCGTAACCATTCCTGTTTC
T
GCTGCTGTTACCACAGTGAGCAAGACTCCATGCCCTGCTCTCTGGCCCCTTGGGAGTGAGCCCTGGATGCCCTGGGCTTCCTCAAGCTCCCAGGACTCAG
Celera SNP ID:            hCV26209724
SNP Position Genomic:     110958
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|T,8)   total(T,8|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44851):
CCAAGGCCCTTCCTGTTCCAGCTGTCTTCCCCTGATACTCTTCTCCCACTGGGGTCCCACAATACCTTTTCTTTAGACCCCATGCTTGGATGCGCTCCAT
S
GGATGCCAGGCTACACACTGGGTGGGTTATAGCTCTTGACCACTCCTTTCCTTGCAGATGGGGTCACCCACTGGAGCCTGTCAAATTCCTGGGACGTGGA
Celera SNP ID:            hCV29031667
SNP Position Genomic:     128027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44852):
CACAGCTGGGAAGTAAAGACTGTGGTGGTCCCAGCTCCAGGGATGGAGGTTGGGGCTTGGGGCCAGTGCAGAGCTGGTGATCGTAACCATTCCTGTTTCT
G
CTGCTGTTACCACAGTGAGCAAGACTCCATGCCCTGCTCTCTGGCCCCTTGGGAGTGAGCCCTGGATGCCCTGGGCTTCCTCAAGCTCCCAGGACTCAGG
Celera SNP ID:            hCV26209725
SNP Position Genomic:     110959
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|G,8)   total(G,8|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44853):
CTTTGTGACCCCTGGCACCTGCTTATGTCTGCATTTGCCCATCTTCTCCGGGGTGGTATTTATTTCAGCCAACACCGCTCAGCCCTGATCTCTGCCAGCA
Y
GGAGGCCCCTCGCTGCCTGTGAGATCAAGGTCTGAGGCTGCCCTGGCCGGTGGGTTCCCCACCCCTGGCACCCTACAAGCGACAGGCCCTGTGGCTCCTT
Celera SNP ID:            hCV29031668
SNP Position Genomic:     139134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:44854):
AGTAGGGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGATGATCCGCCTGCCTTGGCCTCCTAAAGTGCTGGGATTACAGGC
R
TGAGCCACCGTGCCCAGCCTAGACACTCAGTGTGCACACACCTCCTCAGCATCTTCCGGGGATTAAACTCTCAGCATGAGCAAGAAAAATCAAATTTCCT
Celera SNP ID:            hCV26209726
SNP Position Genomic:     112055
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44855):
TTCCTCTCACAGTGAGCAATTCAAGAGAGAAAGCGGGAAGGATGCCATAGCGCCTTTTGTTACTTGGTCTTACAAGTCAGGCTGTTACTTCTGCCTCATT
M
TATTCTATTCCTTTTTTTTTTCTTTTTTTGAGATGGGGTCTCACCCTATCACCCAAGCTGGAGTTCAGTGGTATAATCTCGGCTCACTGCAACCTCCACC
Celera SNP ID:            hCV26209727
SNP Position Genomic:     113415
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,13)   total(A,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44856):
ATTTCAGATTTTTTGCATTTGGGATGCCCAAGTATACAGGTAGCCCTCCGTATCTGTGAGTTCCACAGGATTCAATCAACTACAGATCGAAACTATTCAG
A
AAAAAAAAAAAAAAAAGTCTGGGTGTGATGGCACGTGCCTGTCATCCCTGCACTTTGGGGAAGCTGAATCGGGAAGATTGTTTGAGGCCAGGAGTCGGAG
Celera SNP ID:            hCV26209728
SNP Position Genomic:     113880
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44857):
AGGTGGGAGGATCCCTTGAGCCCAGAAGTTCAAGGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAAACTCCATCTCTT
W
AAAAAAAAAAAAAAAAATTTTAAAAATTCCACAAAGTTCAAAAACGAAAAGTTGAATTTGCTGCATGCTGAGTACAATATTGAATTCATGCAAATGAAGT
Celera SNP ID:            hCV26209729
SNP Position Genomic:     114181
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,4)      total(A,4|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44858):
AAAGTATTGGAATTAGAGGTGTGAGCCACCACACTCAGCTAATGTCATTATTTTGAATTATTTTTCCAAAATTACATACATTTTTTTTTTTACTGGAATC
Y
GTTGCTCAAGAATTATTGTGTTTCTTTGGTGATGTCACGTTTCCTTGCTTTTTCACGTTTCTTGTGTTCTTACAGTGATGTCTATACGTTTGGTGTTTGG
Celera SNP ID:            hCV11699131
SNP Position Genomic:     100562
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44859):
TCTTGTCGCCGATGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGAAACCTCCACCTCCTGGGTTCAAGTGATTCTCCCACCTCAGCCTCCTGAGTAGC
Y
GGGATTACAGGCACCTACCCCCACGCCCGACTAATTTTTGTCTTTTTAGTAGAGACGGAGTTTCACCATGTGGGTCAGGTTGGTCTCAAACTCCTGATCT
Celera SNP ID:            hCV3057140
SNP Position Genomic:     102509
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44860):
TGGAGTGCAGTGGCACGATCTCAGCTCACTGAAACCTCCACCTCCTGGGTTCAAGTGATTCTCCCACCTCAGCCTCCTGAGTAGCCGGGATTACAGGCAC
Y
TACCCCCACGCCCGACTAATTTTTGTCTTTTTAGTAGAGACGGAGTTTCACCATGTGGGTCAGGTTGGTCTCAAACTCCTGATCTCAGGTGGTCCACCTG
Celera SNP ID:            hCV3057141
SNP Position Genomic:     102524
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44861):
GCAGGTACCCACCTGGGAGGTGACAATGCCATGGGTTTGGATCTGGGAGCCTCAGCCCAGCCCACAGCACCTTCCCTGTGGATTTGGACCCTCTGCCCAC
R
TTTCTCTATGCCCAGGACTCAGGCGGGGCTCCTGCTCAGAACTCAAGACCTTTGTGGAATACTGGGGCACCTGCTCTCACCTTGTTTTTTATTTTTTGAG
Celera SNP ID:            hCV11699063
SNP Position Genomic:     24404
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44862):
ACCTCAGCCTCCTGAGTAGCCGGGATTACAGGCACCTACCCCCACGCCCGACTAATTTTTGTCTTTTTAGTAGAGACGGAGTTTCACCATGTGGGTCAGG
Y
TGGTCTCAAACTCCTGATCTCAGGTGGTCCACCTGCCTCAGCCTCCCAGAGTGCTGGGTTCTTTACCAAAGTTGAGCTCTCCTAGGTCCTTTGCGTGTCT
Celera SNP ID:            hCV3057142
SNP Position Genomic:     102589
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44863):
TGCCTCCCGGGTTCAAGAGCGTCTCCTGCCTCAGCCTACCGAGTAGCTGGGATTACAGGTGCATGGCACCACGCCTGGCTTATTTTTGTATTTTTAGTAG
R
GATGGGGTTTCACCATTTGGCCAGGCTGGTCTCCAACTCCTGACCTCTCAGGTGATCCACCCGCCTTGTCCTCCCAAAGTGGTGGGATTACAGGCGTGAG
Celera SNP ID:            hCV11699065
SNP Position Genomic:     24669
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44864):
AGGTGTGGTGGCAGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGACAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGACTGC
R
CCACTGGACTCCAGCCTGGGCGACAGAGCGAGATTCCATCTCAAAAACAAAAAACAAAAAACTACCGTGGGTTACAATGGCCTAGCCCTGCCCATTGCTC
Celera SNP ID:            hCV15988118
SNP Position Genomic:     91658
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44865):
ACTCCAGCCTGGGCGACAGAGCGAGATTCCATCTCAAAAACAAAAAACAAAAAACTACCGTGGGTTACAATGGCCTAGCCCTGCCCATTGCTCCAAATCC
Y
TTTCCCGACAAGGGGCCAGGCAGGTAGATGGGGGGTTACTGAGGCCTAAGCAATGCTTCTGGGGCCTTCCCTGGTGCCCCCTAGCTTAGCAAATGACCCG
Celera SNP ID:            hCV15988119
SNP Position Genomic:     91766
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44866):
GTTATATTGTGGGGGGCATTGGTACTACTGGCATCTGTTGGGTGGAGGCCAGGGGTGCTGCTCAGCATCCTACAGCTCACAGGACACCTCCACCCCAGAG
R
GCCACGTGGCCCCAGGTGTCAGTAGTGCCCAGGCTGGAAATGACTCGGGTGGCGGGGGATGGAGTGAATGAGCCGGGCTGGCTCATTTCCCTCGTTTGTC
Celera SNP ID:            hCV11699068
SNP Position Genomic:     27899
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44867):
CCAGCACTTTCGGAGGCCCAGGTGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCTCGTGTCTACTAAAAATACAA
R
AATTAGCCGGGCGTGGTGGCGCGCACCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGTATCACTTGAACCGGGAGGCAGAGGTTGCAGTGAGCCA
Celera SNP ID:            hCV11699069
SNP Position Genomic:     28596
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44868):
TCCAGATCCTCGGCTCCCGGGACTTCGACATCTGCGTGAGGGACATGATCCCAGCGGACGTCCCTGAGCACTTCCGGGGCAGGGTCAGCATCTGGGCCAT
R
GTGACCAGTGTGGACGGGAGCCAGCAGGTCGCGTTCGATGACTCCACCCCCGTGCAGAGGCAGCTGGTGGACATCCGGTACTCCAAGGACACGAGGAAGC
Celera SNP ID:            hCV25968336
SNP Position Genomic:     35413
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,21)   caucasian(A,3|G,25)   total(A,12|G,46)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44869):
CACTCCAACCCTGAGTGAGCACGGGCTGTGTTTTTCCTCCCTCCAGATCCTCGGCTCCCGGGACTTCGACATCTGCGTGAGGGACATGATCCCAGCGGAC
R
TCCCTGAGCACTTCCGGGGCAGGGTCAGCATCTGGGCCATAGTGACCAGTGTGGACGGGAGCCAGCAGGTCGCGTTCGATGACTCCACCCCCGTGCAGAG
Celera SNP ID:            hCV25968265
SNP Position Genomic:     35372
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,6|G,28)   total(A,6|G,60)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44870):
CCAGATCCTCGGCTCCCGGGACTTCGACATCTGCGTGAGGGACATGATCCCAGCGGACGTCCCTGAGCACTTCCGGGGCAGGGTCAGCATCTGGGCCATA
R
TGACCAGTGTGGACGGGAGCCAGCAGGTCGCGTTCGATGACTCCACCCCCGTGCAGAGGCAGCTGGTGGACATCCGGTACTCCAAGGACACGAGGAAGCA
Celera SNP ID:            hCV25968338
SNP Position Genomic:     35414
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,7|G,29)   total(A,7|G,57)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44871):
GGCAGAGCTTGCCGTGAGCCGAGATGGTGCCACTGCACTCCAGCCCGGGCAAGAGTGCCAGACTCTGTCTCAAAAAATAAAATAAAATAAAAATAAAAAT
M
CAAAAATTAGCTTGTGTGGTGGCGCATGCCTGAAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGA
Celera SNP ID:            hCV26209733
SNP Position Genomic:     121103
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44872):
CTCTACTGAAAATACAAAAATTAGCTGGGTGTGATGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCTGGGAGG
Y
GGAGATTGCGGTGAGCTGAGATCACGCCATTGCACTCCAGCATGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAGTTAAAGGTTCTTGTCAT
Celera SNP ID:            hCV26209734
SNP Position Genomic:     122380
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44873):
CCAGGCACCATGGCACGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGAAGGTGGAGGTTGCAGTGAGTTAAGATT
R
CACCACTGCACTCCAGCCTGGGTGACAGTATGAGATTGTTTTAAAAACAAACAAAAACTCCCGTGCCGATCAGCAGTGGGATTGTGCCTATGAATAGCCA
Celera SNP ID:            hCV26209735
SNP Position Genomic:     122722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44874):
ACCATGGCACGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGAAGGTGGAGGTTGCAGTGAGTTAAGATTGCACCA
Y
TGCACTCCAGCCTGGGTGACAGTATGAGATTGTTTTAAAAACAAACAAAAACTCCCGTGCCGATCAGCAGTGGGATTGTGCCTATGAATAGCCACTACAC
Celera SNP ID:            hCV26209736
SNP Position Genomic:     122728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44875):
TGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTACAGTGGCGCGATCTCGGCTCATTGCAAGCTCCGCCTCCCAGGTTCATGCCATTCTTCCACCTCAGCCT
Y
CTGAGTAGCTGGATCTACAGGCGCTCGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGA
Celera SNP ID:            hCV26209737
SNP Position Genomic:     123197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44876):
AAAAAACTGATGAGTCGACCAGGCGCGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGCAGATCACTTGAGGCCAGGAGTTCGAGACCAGCCGGGCCAA
Y
ATGGTGAAACCCCGTCTCTCCTAAAAATACAAAAATTAGCTGGGTGTGGTGGCAGGTGCCTATAACCCCAGCTACTCGGGAGGCTGAGGCACAAGAATCA
Celera SNP ID:            hCV26209738
SNP Position Genomic:     126031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44877):
TCCAGGGATGGAGTGGGAGGTGGTGGTGGTGGGCTGGTTTCTCTCTGGATTTGAGAGTCTTTACACCTCATGCGAGCTCAGAATCCTTGGAGCCTTTTTC
T
TTTTTTTTTTTTTTTTCTTTTCTTCCTTTTTTTTTTTTTTTTTTTGAAACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCCTA
Celera SNP ID:            hCV26209739
SNP Position Genomic:     127051
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44878):
AGCTCCCAGGACTCAGGAATAGCGGTGACTGGAGCAGGAGGAGATGGCAGGGCAGAGGGGTCAGAGGCCAGACCAGCACCTTGAGGCTGGGGTGTGCTGT
S
TGCAGGAGCAGCCTGGGATCTTGTTTCTGTGGTAACTGCAGGGAGGAGACCAGGGCAGGGAGGGCCCCTGGGAGGCCGGGCACACCTGGGTCTTGTTTTC
Celera SNP ID:            hCV11699141
SNP Position Genomic:     111143
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|C,6)   total(G,6|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44879):
GAGATTCCATCTCAAAAACAAAAAACAAAAAACTACCGTGGGTTACAATGGCCTAGCCCTGCCCATTGCTCCAAATCCCTTTCCCGACAAGGGGCCAGGC
W
GGTAGATGGGGGGTTACTGAGGCCTAAGCAATGCTTCTGGGGCCTTCCCTGGTGCCCCCTAGCTTAGCAAATGACCCGTGGGTGCCACATCGGGCCTAGC
Celera SNP ID:            hCV15988120
SNP Position Genomic:     91788
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,3)      total(A,3|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44880):
CAGGGCAGAGGGGTCAGAGGCCAGACCAGCACCTTGAGGCTGGGGTGTGCTGTGTGCAGGAGCAGCCTGGGATCTTGTTTCTGTGGTAACTGCAGGGAGG
W
GACCAGGGCAGGGAGGGCCCCTGGGAGGCCGGGCACACCTGGGTCTTGTTTTCCTGATATCCTCAGGCTATTGCAGTTCTTGGCATCATCATGGGGTTCA
Celera SNP ID:            hCV11699142
SNP Position Genomic:     111190
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|A,5)   total(A,5|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44881):
AGCTCCAGAGGGGCCCAGGGTTGGCGACTCACCCAGCCTCCCCCAGCCCCAGGAGCTCATCCACACTGTCCCAGCTCTAGTCCCAGGGCCCTGCCTTGCC
K
ACAGCTGATAACACAAGGCCCCAATCACATCTTAGCAAGCAGAGGCCCCGCCCACCCCAGGGACAGCTAAAGCCACTGAGTCACTCTCCAAAAGCTGGCT
Celera SNP ID:            hCV11699143
SNP Position Genomic:     111604
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,7)   total(G,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44882):
CTGAGGCAGGAGAATTGCTTGAACCAGGAGGAGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACACCAACCTGGGAAACACAGTGACAATCTGTCTC
A
AAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAGAACGAAAAGATTCTTAGGCTCCTACAAGAGTTCTCTCAGGACCCGATTCTTTCTGGTTTACTGGC
Celera SNP ID:            hCV11699070
SNP Position Genomic:     29750
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44883):
CCCAGGGTTGGCGACTCACCCAGCCTCCCCCAGCCCCAGGAGCTCATCCACACTGTCCCAGCTCTAGTCCCAGGGCCCTGCCTTGCCTACAGCTGATAAC
R
CAAGGCCCCAATCACATCTTAGCAAGCAGAGGCCCCGCCCACCCCAGGGACAGCTAAAGCCACTGAGTCACTCTCCAAAAGCTGGCTGAGCCCCAGCAGC
Celera SNP ID:            hCV11699144
SNP Position Genomic:     111617
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,7)   total(G,5|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44884):
ACTTTGGCCTTCCCCCTTTCCCACACTGTGGGGGCTGTCCCGCTGCAAAGTGAGCACCTGCCCTTCCCCTGGGAAGGGGGCACTGTGGTTTAGGAAGAAC
R
ATGTCCCAGCTGGGGACAGGCAGAGCCAGTGAGGGTGGGGCATGAATGAATGAATACACAGGGAATGAATACTCAGGGAATGAATACACAGGGAATACGC
Celera SNP ID:            hCV25959885
SNP Position Genomic:     94407
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:44885):
CTGAGGCTGGGCCCTCCCTGCCATCTTGGCTGTGAAATTGAGCATGCTTTATCCTTTTGTTCCAGGTATACCTTTGGGAAACCTGTGGCTGGTGCCTTAA
Y
GATCAACATGACTGTTAATGGTGTAGGGTACTACAGCCACGAGGTGGGACGCCCTGTCCTCAGAACAACCAAGGTGAGAAACAGGGACCCCTTCTACCCC
Celera SNP ID:            hCV11699072
SNP Position Genomic:     32185
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,34|T,2)   total(C,60|T,6)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44886):
CACCCAGCCTCCCCCAGCCCCAGGAGCTCATCCACACTGTCCCAGCTCTAGTCCCAGGGCCCTGCCTTGCCTACAGCTGATAACACAAGGCCCCAATCAC
R
TCTTAGCAAGCAGAGGCCCCGCCCACCCCAGGGACAGCTAAAGCCACTGAGTCACTCTCCAAAAGCTGGCTGAGCCCCAGCAGCCCCTAGGAGGCCTCCA
Celera SNP ID:            hCV11699145
SNP Position Genomic:     111633
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44887):
GCAGTGGTGCAATCTTGGGTCACTGCAACCTCCATCTCCTAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGATTACAGGTGTGCACCA
Y
CATGCCCAGCTAATTTTTGTATTTTTAGTAGGGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGATGATCCGCCTGCCTTGG
Celera SNP ID:            hCV11699146
SNP Position Genomic:     111928
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44888):
CACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGATGATCCGCCTGCCTTGGCCTCCTAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCC
R
GCCTAGACACTCAGTGTGCACACACCTCCTCAGCATCTTCCGGGGATTAAACTCTCAGCATGAGCAAGAAAAATCAAATTTCCTTTTTGTTTTTTTTGAG
Celera SNP ID:            hCV11699148
SNP Position Genomic:     112071
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44889):
GACTTGAAGTCATTGCTGTGGGAGAGCCAGCTGCTCCGCTGAGCTGACCATCCCCCTCACCGCCCCAGCACTCAGTTCTCCTTGTTTCTTTGTTTCAGGC
R
GAAGGAGTCCCCCGGGCGTACACCTACAGCGCATTCTTCTGTCCCAGTGGTGAGTCCCCCGTGCCCATTCTGCTAAGGTGTGGCCACCTGGCTGGGTCAG
Celera SNP ID:            hCV25961228
SNP Position Genomic:     94205
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:44890):
CACGGGTTGTGCTTGAGAGCTCAGGTGCCTGGACTTTCGGGTACTTCCTTGTTAGAGGATCATGGTAGTCCGTTCCCTCCCTAAAGCGCAGAGTGGGCTT
Y
GGTAAAGCAGCTTGGGACTCTTCAGGGGCTGCAGCAAGTGCTCCCTGACCCCTGGGTGAACTATTTAGGAAGACCATGTCCCTCATCTCGTGCTTGTCAT
Celera SNP ID:            hCV15885211
SNP Position Genomic:     87314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(T,552|C,697)   total(C,697|T,552) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44891):
TTGGTGGGCAGGGGGTGCATGGGTGGGGCAGAAGAGATGCCTCTGGACTAGACCAAACCTGGATTGAACCAAGTTTCTTTTTTTCATTGTTTGAAATGGA
R
TTTCATTCTTGTTGCCCTGGCTGGGGTGCAACCACACTCTCTCAGCTCCCTGCAACCTCTGTCTCTGGGCTTCAAGCGATTCTCCTGCCTCAGCCTCCTA
Celera SNP ID:            hCV25965945
SNP Position Genomic:     56182
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,38)   total(A,2|G,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:44892):
GGTGGGCTGGTTTCTCTCTGGATTTGAGAGTCTTTACACCTCATGCGAGCTCAGAATCCTTGGAGCCTTTTTCTTTTTTTTTTTTTTTTTCTTTTCTTCC
T
TTTTTTTTTTTTTTTTTTGAAACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCCTAACTCAGCCTCCCAAGTAGCCAGGATTA
Celera SNP ID:            hCV26209740
SNP Position Genomic:     127078
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44893):
GTGGGCTGGTTTCTCTCTGGATTTGAGAGTCTTTACACCTCATGCGAGCTCAGAATCCTTGGAGCCTTTTTCTTTTTTTTTTTTTTTTTCTTTTCTTCCT
T
TTTTTTTTTTTTTTTTTGAAACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCCTAACTCAGCCTCCCAAGTAGCCAGGATTAC
Celera SNP ID:            hCV26209741
SNP Position Genomic:     127079
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44894):
CCTGAATGGCTGAGGTTGCATGTCGGATGCGGAGAATTCACCACCTCTCTCTACTTTTGCTCACCTCAGAGCCCCCACCAGCCCCAGAAGCTGAGGTCGA
M
GTGTGTGTGACCTCTCTTCATCTGGCCGTGACCCCCAGCATGGTCCCCCTTGGTCGCCTGCTGGTCTTCTACGTCAGGGAGAATGGAGAAGGGGTCGCCG
Celera SNP ID:            hCV25972158
SNP Position Genomic:     55141
SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,17)   caucasian(A,11|C,23)   total(A,24|C,40)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44895):
TTTTGTATTTTTAGTAGAGATGGGATTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAATGAGCCACTCACCTCAGCCTCCCAAAGTGCT
Y
GGATTACAGGCGTGAGCCACTGTGCCTGGCCAGAATCTTTGAGCCTTTGCAAGTCGAGTGTGGCTGCTTGGGCACTAAGTAGGAACATCAGGGGCTGGAT
Celera SNP ID:            hCV26209742
SNP Position Genomic:     127647
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44896):
GAGCCACTGTGCCTGGCCAGAATCTTTGAGCCTTTGCAAGTCGAGTGTGGCTGCTTGGGCACTAAGTAGGAACATCAGGGGCTGGATCAGTACCTGGTCA
G
AAGGGAGGCTATTGACTAGTGATGTCTGTGTCCAGGAAGGGGAAGGTGGCCTTTGATTAGTGATGTCTGCCAGGGGTAAGGTTGGGTAGCCATTGATTCA
Celera SNP ID:            hCV26209743
SNP Position Genomic:     127761
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|-,5)   total(G,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44897):
ATTTCCCTCGTTTGTCCAGCTCACTGCCTGCCCCTGGCCCTGGCTGCAAGGCTGTCCCGGGAACCGCGGGTCCAGTCCCTTCCTGCATCCCTTCGAAGCC
Y
GCCGGGGTGTCAAACCTGCTCCGCTGGCCTGATCCTACAGGGTGCTGCTCTGCACAGACCCCGCCAGCTTCTCTGTGGTCTCCAGTTCTCCTGGGGGGCT
Celera SNP ID:            hCV25971284
SNP Position Genomic:     28084
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,8)   total(C,41|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44898):
AGCCACTGTGCCTGGCCAGAATCTTTGAGCCTTTGCAAGTCGAGTGTGGCTGCTTGGGCACTAAGTAGGAACATCAGGGGCTGGATCAGTACCTGGTCAG
R
AGGGAGGCTATTGACTAGTGATGTCTGTGTCCAGGAAGGGGAAGGTGGCCTTTGATTAGTGATGTCTGCCAGGGGTAAGGTTGGGTAGCCATTGATTCAC
Celera SNP ID:            hCV26209744
SNP Position Genomic:     127762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44899):
CCACTGTGCCTGGCCAGAATCTTTGAGCCTTTGCAAGTCGAGTGTGGCTGCTTGGGCACTAAGTAGGAACATCAGGGGCTGGATCAGTACCTGGTCAGAA
G
GGAGGCTATTGACTAGTGATGTCTGTGTCCAGGAAGGGGAAGGTGGCCTTTGATTAGTGATGTCTGCCAGGGGTAAGGTTGGGTAGCCATTGATTCACGA
Celera SNP ID:            hCV26209745
SNP Position Genomic:     127764
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44900):
GGCTGCGACCACGACTGCGGCGCCCAGGGGAACCCGGTGTGCGGCTCCGACGGGGTGGTCTACGCCAGCGCCTGCCGCCTGCGGGAGGCCGCCTGCCGCC
M
GGCCGCGCCCCTGGAGCCCGCGCCTCCCAGCTGCTGCGCCCTCGGTGAGGACCCTACCCCCCGCCTAGCCTCGGGGACACCATCGCTGCTGCTCTGGGCC
Celera SNP ID:            hCV26209746
SNP Position Genomic:     136137
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:44901):
GTGGGACATTCATCCTCCCTCCACCCTGGCCCACGCAACACCCACCAGCGAACAGCTGTGCGCGGGCGCACGCGCGCGTGTGTGTGTGTGTGTGTGTGTG
Y
GCGTGCGCGCGCGCGCGCGCATACGGGTCAAGGATCCCTTATCCGAAATGCTGGGGGGACCAGCAGTGTTTCGGATTTCAGATTTTTTCACATTTCAGAA
Celera SNP ID:            hCV26209747
SNP Position Genomic:     136732
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44902):
GGCTCACTGCAGCCTTGACCTCCTGAGCTCAAGTGATCCTCTTGCCTCAGCCTCCTGAGTAGCTGGGACCACAGGCACACACTACCACCACGCCCAGCTA
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTAGAGATGGGGTCTCTGTATGTTGCCCAAGCTGGAGTGCCATGGCTGTTCATAGACA
Celera SNP ID:            hCV26209748
SNP Position Genomic:     137676
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,4)   total(G,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44903):
AGCTCACTGCAACCTCTGACCCTGGTTTCAAGCGATTCTCGTGCCCCAGCCTCCCAAGTAGCTGGGACCTCAGGCATGCACCATCAAGACTGGCTAATTT
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGACTGGTCTGAAACTCCTGACCTCAA
Celera SNP ID:            hCV26209676
SNP Position Genomic:     13904
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44904):
GCTCACTGCAGCCTTGACCTCCTGAGCTCAAGTGATCCTCTTGCCTCAGCCTCCTGAGTAGCTGGGACCACAGGCACACACTACCACCACGCCCAGCTAG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTAGAGATGGGGTCTCTGTATGTTGCCCAAGCTGGAGTGCCATGGCTGTTCATAGACAT
Celera SNP ID:            hCV26209749
SNP Position Genomic:     137677
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44905):
GCTCACTGCAACCTCTGACCCTGGTTTCAAGCGATTCTCGTGCCCCAGCCTCCCAAGTAGCTGGGACCTCAGGCATGCACCATCAAGACTGGCTAATTTT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGACTGGTCTGAAACTCCTGACCTCAAG
Celera SNP ID:            hCV26209677
SNP Position Genomic:     13905
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|-,4)   total(G,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44906):
ACGGGAAAGGACAATCTACTCTATTCCACTTGGACAGACATCTGAGTAGCCATTTATTAAAGCAACTGCTCTAAGGCAGTCCTGTTTCTTCAATGGGTTC
T
TTTTTTTTTTTTTTTTTTTAGAGATAGTCACACTCCATCGCCCAGGCTGGAGTGCAGTGGCTCCATCTCGGCTCACTGCAACCTCCGTCTCCCAGGTTCA
Celera SNP ID:            hCV11699082
SNP Position Genomic:     35818
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44907):
ACTCGACATTCACAGCCAGATGGGTTCACGCTTTCTTGTGTTGGACCTGCTGCTCAACACACAGCACAGCTGTTTGGTCACCTGGGCCACTGTTCTGTTG
T
TTTTTTTTTTTGATACAGAGTCTTGCTCTGTCGCCCAAGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCGGCCTCCCAGGTTCAAGCGATT
Celera SNP ID:            hCV11699087
SNP Position Genomic:     40787
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44908):
AGCCAGCTGCTCCGCTGAGCTGACCATCCCCCTCACCGCCCCAGCACTCAGTTCTCCTTGTTTCTTTGTTTCAGGCGGAAGGAGTCCCCCGGGCGTACAC
S
TACAGCGCATTCTTCTGTCCCAGTGGTGAGTCCCCCGTGCCCATTCTGCTAAGGTGTGGCCACCTGGCTGGGTCAGGACTTTGGCCTTCCCCCTTTCCCA
Celera SNP ID:            hCV25961169
SNP Position Genomic:     94229
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,7)   caucasian(C,40)   total(C,69|G,7)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:44909):
GGGGGCACTGTGGTTTAGGAAGAACGATGTCCCAGCTGGGGACAGGCAGAGCCAGTGAGGGTGGGGCATGAATGAATGAATACACAGGGAATGAATACTC
R
GGGAATGAATACACAGGGAATACGCAGGGAATGAATACACAGGAATGTGCACTGCAGGCACCAAGCAAGAAGGTTAGGCTGCCCGGGCACGGTGGCTCAC
Celera SNP ID:            hCV25959538
SNP Position Genomic:     94482
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:44910):
TCCTCAGACACCTTGCACCGGTGTCAGGGCTCCTGAGGCCACCTTAGGGACAGAAGCCAGCCCCTCCTCTCTGCTTGCTTTCTTCAGTGTTGCCCAAGTT
Y
GAGCTTCTGATTGACCCGCCCCGGTATATCCAAGACCTGGACGCCTGTGAGACAGGCACTGTGCGGGCCAGGTGAGAAAGAGGGACCCCTGGGGCACACT
Celera SNP ID:            hCV25956050
SNP Position Genomic:     30335
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,10)   caucasian(C,1|T,9)   total(C,3|T,19)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,102|T,1391)   total(C,102|T,1391) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:44911):
TGTGGAGCAGTTCCAGGGACTCCACATGTGGTATGAGGCAGTTTCAAGAACTCTAGATGTGATGTGGAGCAGTTTCGGGGACCCCAGATGTGCTGTGGGT
R
TGGGGCAGTTTCAAGAACCCCAGATGTGGTGTGGAGCAGTTTCAGGGACCCCAGATGTAGTGTGGGGCAGTTTCAGGGACCCCAGGTGTGGTGTGGAGCA
Celera SNP ID:            hCV3065907
SNP Position Genomic:     110088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44912):
CCTCACATCCAATGCAGTGTGACCAGATCACTTGGCGCCTGATCCCCGGATGACAGGGAACACAGCTGGGAAGTAAAGACTGTGGTGGTCCCAGCTCCAG
R
GATGGAGGTTGGGGCTTGGGGCCAGTGCAGAGCTGGTGATCGTAACCATTCCTGTTTCTGCTGCTGTTACCACAGTGAGCAAGACTCCATGCCCTGCTCT
Celera SNP ID:            hCV3065908
SNP Position Genomic:     110899
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,8)      total(G,8|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44913):
CAATGCAGTGTGACCAGATCACTTGGCGCCTGATCCCCGGATGACAGGGAACACAGCTGGGAAGTAAAGACTGTGGTGGTCCCAGCTCCAGGGATGGAGG
Y
TGGGGCTTGGGGCCAGTGCAGAGCTGGTGATCGTAACCATTCCTGTTTCTGCTGCTGTTACCACAGTGAGCAAGACTCCATGCCCTGCTCTCTGGCCCCT
Celera SNP ID:            hCV3065909
SNP Position Genomic:     110908
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,8|C,8)      total(C,8|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44914):
CTCACTGCAGCCTTGACCTCCTGAGCTCAAGTGATCCTCTTGCCTCAGCCTCCTGAGTAGCTGGGACCACAGGCACACACTACCACCACGCCCAGCTAGT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTAGAGATGGGGTCTCTGTATGTTGCCCAAGCTGGAGTGCCATGGCTGTTCATAGACATG
Celera SNP ID:            hCV26209750
SNP Position Genomic:     137678
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44915):
TCACTGCAGCCTTGACCTCCTGAGCTCAAGTGATCCTCTTGCCTCAGCCTCCTGAGTAGCTGGGACCACAGGCACACACTACCACCACGCCCAGCTAGTG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTAGAGATGGGGTCTCTGTATGTTGCCCAAGCTGGAGTGCCATGGCTGTTCATAGACATGA
Celera SNP ID:            hCV26209751
SNP Position Genomic:     137679
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44916):
CAGAGGAAGGCTGGTGGGCGTGCCTGGCCCACTGCCCCTCAACAAGGAATGCCTTTGAGGGCTTTAGGTAGCCCTGGACTGTTGCTTAATTTTTTTTTTT
Y
CCCCAAGACCGAGTCTCTCGCTCTATTGCCAATGCTGGAGTGCAGTGGCACTATCTCGGCTCACTATAACCTCTGCTTCCTGGGTTCTAAGTGATTCTCT
Celera SNP ID:            hCV26209680
SNP Position Genomic:     21469
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44917):
TGGTTCAAGTAGTGCCTGCCTGGTTTCCCCATTTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTC
Y
GCTCACTGCAAGCTCTGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCACGACCATGCCCGGCTAATTT
Celera SNP ID:            hCV26209681
SNP Position Genomic:     22948
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44918):
TTTCCCCATTTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCTGCTCACTGCAAGCTCTGCCTCC
Y
GGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCACGACCATGCCCGGCTAATTTTTTCTATTTTTTGTAGAGACGGG
Celera SNP ID:            hCV26209682
SNP Position Genomic:     22971
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44919):
TCCACCCTGGCCCACGCAACACCCACCAGCGAACAGCTGTGCGCGGGCGCACGCGCGCGTGTGTGTGTGTGTGTGTGTGTGTGCGTGCGCGCGCGCGCGC
K
CATACGGGTCAAGGATCCCTTATCCGAAATGCTGGGGGGACCAGCAGTGTTTCGGATTTCAGATTTTTTCACATTTCAGAATGCTTGCATTATATAGTTA
Celera SNP ID:            hCV15947708
SNP Position Genomic:     136751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44920):
CTGGATTGCAGTGGTGCTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTTCCTCAGCCTCCCGAGTAGCTGAGACTACAGGC
R
TATGGCACCACACCCAGCTAATTTTTTTTTGTGTCTTTTTTAGTGGAAATGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGT
Celera SNP ID:            hCV26209683
SNP Position Genomic:     23702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44921):
GCCACAGACCCCTTACAAAACACGTGCTCAGGACACACATCCCCGAATGTCCTGTAACCATCAAAGGCCCACTTTGCCTGAATATGAGGGGGAAAAAGCC
R
TTTTAGCCATCACATCTTCTGACTCCAATGTGATTGAGAGAAGCCGTGGGCGCCGCTATGGGTTTTCGGTTCTGTCGTGAGACCCAGGGGAACCACTCTC
Celera SNP ID:            hCV26209684
SNP Position Genomic:     26886
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44922):
AGAGATCTGCCCTGCCCATCCCCTACCAGGTGGGAGATTGCAGTAACTTCTGACACCAGCTACCTGGAGCTGGGCCACACTTCACAGGTGGTAGGCACAG
C
CCTCTCCACAAGACTACCCTAAATTCTGACACCAGCTGCAAGTCCAGGGGTCCCCGGGCCACCTGTGCTTCCCACCTACTGGCTGCAAATTCCACTACCC
Celera SNP ID:            hCV26209685
SNP Position Genomic:     41241
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,1)   total(C,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44923):
GGCCTTATCCAGGTATACAGCAGAACTGCCTGGGGCTTGTGCAGAAGCCTCATGTTCCTCCAATACTAGCTGCTTCCTGTTTGGTGCCAGGCTTTGATCC
R
GGGTCAGGAGGAGCAAGGGAAACATGGAGCACCACCTCAAGTTGTTCTTAGTCTAGAGTCGCTTACCGAAAAAAAAAAAAAAACATGTAGCAAGAGCTGT
Celera SNP ID:            hCV25960947
SNP Position Genomic:     103796
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,3)   caucasian(A,28)   total(A,43|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:44924):
TGGAAGCTTTGTGTGTTCTCTGCACAGAACCAGGATATGTAATCCCCACAAGCTGAGCATTGCTAAGCAGGAAAGCTCACCTGAGCTTTGGTGTCCAAAG
T
TTTTTGTGGGGGCCTCATTTCGTCTGCATGATTGATTAAATCATTGGCCATGGGACTAATCTCAATCTCCTGCCCTCTCCCTTCCCTGGAGATGGGCTGA
Celera SNP ID:            hCV26209686
SNP Position Genomic:     41541
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44925):
GGAAGCTTTGTGTGTTCTCTGCACAGAACCAGGATATGTAATCCCCACAAGCTGAGCATTGCTAAGCAGGAAAGCTCACCTGAGCTTTGGTGTCCAAAGT
T
TTTTGTGGGGGCCTCATTTCGTCTGCATGATTGATTAAATCATTGGCCATGGGACTAATCTCAATCTCCTGCCCTCTCCCTTCCCTGGAGATGGGCTGAT
Celera SNP ID:            hCV26209687
SNP Position Genomic:     41542
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44926):
GGAAGGTAACTTGGGGGTGACTGTGCTGCCTCCCGCCCAAGGACCACCGTGAAACCACCACCACTAGCCACTAGCTCTGCAGTGGTGACTCAGCTGAAAA
Y
GGATCCCCTGACATAACCTTTGCGGAGAGTGGAGAGGGCTGGTGTTCCAGGTGAGGGGCAGGGGACATTTTCCTCCACGGGAAAGGACAATCTACTCTAT
Celera SNP ID:            hCV25969598
SNP Position Genomic:     35641
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,4)   caucasian(C,19|T,13)   total(C,41|T,17)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,726|C,759)   total(C,759|T,726) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44927):
ACACAGATTTTGTACTTTCTATGCATGATATACTGTATTCTTACAATAATGTAAGCTACAGGAAGGAAAATATTATTAAGAAAATCATAAGATTTTCTTA
Y
GCTGGCAGGCGCAGGTAAAAAAAATCATAAAGAAGAGAAAATATCTTGACTGTTCGTGAAGTGGGAATGGATCATTGTAAAGGTCTTCTTCCTTGTCATC
Celera SNP ID:            hCV26209689
SNP Position Genomic:     45140
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44928):
CAGAAGCATCCCCAAGACCCCCTTTCTGCTCTTGGCACTCGGGTGTTGATCTAAGCATCTTCTCTTCTCAGACCAAGGTGATGGCACTGAACGGGAAGCC
Y
GTGGGGGCTCAGTACCTGCCCAGCTACCTCTCCCTCGGCAGCTGGTACTCCCCCAGCCAGTGCTACCTGCAGCTGCAGCCACCCTCCCACCCACTGCAGG
Celera SNP ID:            hCV11699090
SNP Position Genomic:     42911
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,6)   caucasian(C,22|T,14)   total(C,48|T,20)
SNP Type:                 SILENT MUTATION;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:44929):
ACCTGCCCAGCTACCTCTCCCTCGGCAGCTGGTACTCCCCCAGCCAGTGCTACCTGCAGCTGCAGCCACCCTCCCACCCACTGCAGGTAAGATTTTCAGG
W
GCTACCCTTCCTGGGCCATGCGGGATCCAAAAAGCAGCATGAGCCAGGTGCTGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGCAGGCGG
Celera SNP ID:            hCV11699091
SNP Position Genomic:     43025
SNP Source:               Applera
Population(Allele,Count): african american(A,13|T,19)   caucasian(A,16|T,20)   total(A,29|T,39)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,2)      total(A,2|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44930):
GTGGCCAGGCGGCAGGCGGCCTCCCCGAAGGGCCAGCGCTGGCCACGCAGGTGGTAGGCGATCCGCGGGGGCAGCGCCAGGGCCAGCAGGAGGTCAGCAG
Y
CGCGAGGTTCATCAGCAGCATGGTGGAGGGCAGCCGAGGTGCCTGCGTGGCCAGCACCCACAGCGCCAGCCCATTGGCCGGCAGCCCCACCACCAGGACC
Celera SNP ID:            hCV7493801
SNP Position Genomic:     142818
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,24)   caucasian(C,25|T,9)   total(C,35|T,33)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,22)   caucasian(C,25|T,5)   total(C,33|T,27)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(T,7|C,10)   SC_12_C(T,10|C,13)   SC_12_AA(C,5|T,12)   total(C,28|T,29)   (C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44931):
GTCAGAGGGCAAGTTTCCCGCGATGACTCTCGCTAGCCTCCGTTTTCTGATCTCTAAAATGGGAGCTCAGATAACACTGTGGATGAGAGGGAGACCCCTA
R
ACTCAGACATAGCTGAGCACAGCTCTGCACCCCAGATCCATAAAACTGGTCTGATGATTGTACCTACACCCGCTTCAGTGATTTCAAGGCTAAAACGAAT
Celera SNP ID:            hCV7493804
SNP Position Genomic:     129528
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   SC_12_A(A,7|G,13)   SC_12_C(A,11|G,12)   SC_12_AA(A,5|G,16)   total(G,41|A,23)SG_12_G(A,12|G,12)   SG_12_AA(A,6|G,10)   SG_95_G(A,58|G,123)   total(G,145|A,76)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44932):
TTTTGAGCTCTGAGGTGGCCAGGCAGTCTGGCCCCTTCTCACCTTATGGAGCCCCAAAGAGGGCAGGGGTTGGGGGTGAGGGACAGATGCCCCTGGATCC
Y
CCATGGGAGCCCAGCCTCTGCCTCTGGGGACACACCAACCTGGCTGTCCTGAGGCCCCCAGTGCCATGGGTGTCTGCACTGGGTCCAGTCTCTATTCCAG
Celera SNP ID:            hCV7493805
SNP Position Genomic:     128576
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   (T,-|C,-)   no_pop(T,-|C,-)   JBIC-allele(T,434|C,1037)   total(C,1037|T,434)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44933):
ATGGAGCCCCAAGGCCCTTCCTGTTCCAGCTGTCTTCCCCTGATACTCTTCTCCCACTGGGGTCCCACAATACCTTTTCTTTAGACCCCATGCTTGGATG
Y
GCTCCATGGGATGCCAGGCTACACACTGGGTGGGTTATAGCTCTTGACCACTCCTTTCCTTGCAGATGGGGTCACCCACTGGAGCCTGTCAAATTCCTGG
Celera SNP ID:            hCV7493806
SNP Position Genomic:     128019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44934):
AGGCCAGCACCACTGCGGTCAGCCTCAGCGCGTGGCCGTAGCGCCGGCCGCTGGCCGCCAGCGTGTGCAGGGTGGCCCCGTAGCACAGCAGCATGGCCAG
M
AGGGGCAGGAAACAGCCCAACAGCGCCAGGCAGGTGAAGGCCGGTTGCCAGTGGGAGGCCTGTGCGTCCAGGGGCAGCGCGTCATGGCAGAGCACGCGAT
Celera SNP ID:            hCV15853473
SNP Position Genomic:     142405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:44935):
CAGGCAGGTGAAGGCCGGTTGCCAGTGGGAGGCCTGTGCGTCCAGGGGCAGCGCGTCATGGCAGAGCACGCGATCGGAGCGCGCCAGCCGGAAGGTCTGC
Y
GCTGCAGTGTCAGGGGCAGTGCCAGGGCGGCCGCCATGAGCCAAGCAGCCATGCAGAGTCCAAGGGCCAGGCGCCGGCCACGCAGGGCGCGGGCCCGCAG
Celera SNP ID:            hCV15853474
SNP Position Genomic:     142532
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,36)   total(C,65|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44936):
GGCTGGATCAGTACCTGGTCAGAAGGGAGGCTATTGACTAGTGATGTCTGTGTCCAGGAAGGGGAAGGTGGCCTTTGATTAGTGATGTCTGCCAGGGGTA
R
GGTTGGGTAGCCATTGATTCACGATGTCTGCCAGGGGCACAGGAAGGGCTGGGGCTGCCATAGGTTTGCAGATCTGAGATGGAGCCCCAAGGCCCTTCCT
Celera SNP ID:            hCV803802
SNP Position Genomic:     127840
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44937):
CTTCAAGCCCTTCTTCGTGGACTTCATGCTCCCCGCTCTCATCATCCGTGGGGAGCAGGTCAAGATCCCGCTCAGTGTCTACAACTACATGGGCACCTGC
R
CTGAGGTACTCAGCCCCCCAAATACATAGCCTTCCTCCATTCAGTGGGGAGTTGGGACTGCATTGGTGCTATAAGGTAGGCAGGGGTGGGACAGTGTCAG
Celera SNP ID:            hCV25964221
SNP Position Genomic:     80676
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,34)   total(A,2|G,66)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:44938):
AACACAGCTGGGAAGTAAAGACTGTGGTGGTCCCAGCTCCAGGGATGGAGGTTGGGGCTTGGGGCCAGTGCAGAGCTGGTGATCGTAACCATTCCTGTTT
C
TGCTGCTGTTACCACAGTGAGCAAGACTCCATGCCCTGCTCTCTGGCCCCTTGGGAGTGAGCCCTGGATGCCCTGGGCTTCCTCAAGCTCCCAGGACTCA
Celera SNP ID:            hCV3065912
SNP Position Genomic:     110957
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|C,8)   total(C,8|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44939):
ATGAATTCAGAACATTCTGGATCAGCTGGCGTGGTGGCCTTATCCAGGTATACAGCAGAACTGCCTGGGGCTTGTGCAGAAGCCTCATGTTCCTCCAATA
Y
TAGCTGCTTCCTGTTTGGTGCCAGGCTTTGATCCAGGGTCAGGAGGAGCAAGGGAAACATGGAGCACCACCTCAAGTTGTTCTTAGTCTAGAGTCGCTTA
Celera SNP ID:            hCV25960375
SNP Position Genomic:     103761
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,6)   caucasian(C,40)   total(C,64|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:44940):
AATCCTGGTTCACTCCGTCACCAGATACCTGCACAGCTGAGGGCTGTTTTAGGGTTCTTCAGAGGCTACAATCTGTGCTCCTTTTAAAACATCTATGTCT
S
CCTCATTCTAGCTGGCTCTCCAACCAGTCTGAATGGGTGAGGTTTAAGTGTCACACTGAACTGTCCATACCCTGGTATGGCATCAGACTAATGACTAGCA
Celera SNP ID:            hCV11459010
SNP Position Genomic:     38268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44941):
GGACAAGGAGGCAGTGAGCGCAGGGCAGTGGCAGCAGCACCCACCCCGAAGCTGGACAAACCTCAGCTCTGTCTCATGTGAGCTGTGTGGCCTTAGACCC
R
ATGATCAACCTCTCTGAGCCTGTTTCCTTACCACACATCCCTCTAAGAACCTGGATCCATGGGATAAGCATGTGGTACACTCAGTGCAGTGCCGTCCTGT
Celera SNP ID:            hCV3065916
SNP Position Genomic:     112664
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44942):
TAGCACCTCCCCTAACTACTTACCAGAAGGCTCCAAGATCCTGCCAGGGAGCCTGAAAACTTGGGATCTGTTCTAGATGGGTTCCCTTATACTCAACGCA
Y
ATTCATTCATTTATTCATTGAGTGAGCTAGGCTCTGGTCTTCATCCTGGGGGAAAAAGGAACACATGGTTCCTACCTCCAGGTCCTTGCTGCCCAGTGCA
Celera SNP ID:            hCV3065917
SNP Position Genomic:     112865
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44943):
TATACTCAACGCATATTCATTCATTTATTCATTGAGTGAGCTAGGCTCTGGTCTTCATCCTGGGGGAAAAAGGAACACATGGTTCCTACCTCCAGGTCCT
Y
GCTGCCCAGTGCAGGAGAAAGACCCTGTGAGAGATGCAATAGTTATCCACTGCTGTGTAACAAGTGACCCCAAATGTAGCCATTTAAAACAACAAACGTA
Celera SNP ID:            hCV3065918
SNP Position Genomic:     112952
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44944):
AATATTAACAACTGCTATTAGTAAGTTTTTCGTTGTTTTTGTTTTTTTTTTTTTTTTGAGATGGAGCCTGGCTCTGTTGCCCAGGCTGGAGTGCAGTGGT
R
CGAGCTTGGCTCACTGCAACCTCCACCTCCCAGATTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACATGCCACCATGCCCAGCTAAT
Celera SNP ID:            hCV11459015
SNP Position Genomic:     62820
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44945):
TGTATATATGTGCATATATATGGATATGCTGTGTACATGTGTGTTCATAGACATCTAGATACCCACATATACATATATATATATATATATATATATATAT
W
TTTTTTTTTTTTTTTTTTTTTTTTTGACAGAGTCTCTGTCTCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCATCTCCTGGGTTC
Celera SNP ID:            hCV26209690
SNP Position Genomic:     45472
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44946):
TTGGCTGTGAAATTGAGCATGCTTTATCCTTTTGTTCCAGGTATACCTTTGGGAAACCTGTGGCTGGTGCCTTAACGATCAACATGACTGTTAATGGTGT
R
GGGTACTACAGCCACGAGGTGGGACGCCCTGTCCTCAGAACAACCAAGGTGAGAAACAGGGACCCCTTCTACCCCCTGACCCAACCCCCAGGTTCACCTC
Celera SNP ID:            hCV25968872
SNP Position Genomic:     32210
SNP Source:               Applera
Population(Allele,Count): african american(A,20)   caucasian(A,23|G,3)   total(A,43|G,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:44947):
CTGAACCACCGGCAGGACGGTGGCCTCTACACCGATGAGGCTGTCCCCGCTTTCCAGCCCCACACAGGGAGCCTGGTGGCAGTGGCTCCTTCCAGGCACC
M
CCCCAGGTAACGGCTTATACATTGAGCAAGGTTTTCTAACCCTGGTCCTATTAACATCTGGGGCTTGTCTTTGTCCTTCCTGGCTGCTATAACAGAAGAC
Celera SNP ID:            hCV25966331
SNP Position Genomic:     61753
SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,16)   caucasian(C,38)   total(A,12|C,54)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:44948):
TATATATGTGCATATATATGGATATGCTGTGTACATGTGTGTTCATAGACATCTAGATACCCACATATACATATATATATATATATATATATATATATTT
W
TTTTTTTTTTTTTTTTTTTTTTTGACAGAGTCTCTGTCTCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCATCTCCTGGGTTCAA
Celera SNP ID:            hCV26209691
SNP Position Genomic:     45474
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44949):
TATATGTGCATATATATGGATATGCTGTGTACATGTGTGTTCATAGACATCTAGATACCCACATATACATATATATATATATATATATATATATATTTTT
W
TTTTTTTTTTTTTTTTTTTTTGACAGAGTCTCTGTCTCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCATCTCCTGGGTTCAAGC
Celera SNP ID:            hCV26209692
SNP Position Genomic:     45476
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44950):
TATGTGCATATATATGGATATGCTGTGTACATGTGTGTTCATAGACATCTAGATACCCACATATACATATATATATATATATATATATATATATTTTTTT
W
TTTTTTTTTTTTTTTTTTTGACAGAGTCTCTGTCTCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCATCTCCTGGGTTCAAGCAC
Celera SNP ID:            hCV26209693
SNP Position Genomic:     45478
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44951):
TTTTTTTTTTTTTTTTTTTTGACAGAGTCTCTGTCTCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCATCTCCTGGGTTCAAGCA
M
TTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCTGCCACCATGCCTGGCTAATTATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCAT
Celera SNP ID:            hCV26209694
SNP Position Genomic:     45578
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44952):
GTTAATATAATAAACAACCATGAGACTTTCACCTAGATTTATAAATTAATGCTTTGCCTATATCCTTTCATTCATCCCTCCATCCACCCTCCATCTCTCT
S
TCCATCCCTCCATCTGTCCCTCTCTTCATCCCTCCATCCATCTATCCTCTCTCCCTCCATTCATTCACCCTTCCTCCCTCCCTCCACCCATCCATCCACC
Celera SNP ID:            hCV26209695
SNP Position Genomic:     46817
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44953):
TTTCAGCTCTTACATTTAGGTCTTTCATCTGTTTTGAGTTAATTTTTTTATATGGTGTGAGGTAGGGATCCAAATTCATTCTCTCTCTCTCTCTCTCTCT
C
TTTTTTTTTTTTTTTTTTGAGATAGGACCTTGCTCTGTCACCCAGGCTGAGGTGCAGTAGTGTGATCATAGCTCACTGCAGCTCAACCTCCTGGGCTCAA
Celera SNP ID:            hCV26209696
SNP Position Genomic:     48318
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44954):
CAAAGCCAGGACACCAGCTGGTCTGAGCAGGCAGAGGGTGCCAGTCCCAAAGGGCAGTTGGGTGGCTGACTGCATGACACTCACTGTCTCCCATCCCTGG
K
TAAAGCTGTCCCTGTTCTCTACTGAACTGGGACAGCCCCCAACTCAACTCTCTTCTCCTTCCCACCAGGGGACGTCATGGGGCCAACCCTGAACCACCTC
Celera SNP ID:            hCV25970143
SNP Position Genomic:     107207
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,1)   caucasian(G,28)   total(G,53|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44955):
TAGTAGAGATGAGTTTCTCCATGTTAGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGC
R
TGAGCCACCGTGCCTTGCCATTCTTTTTAAATTATTATTATTATTTTTATTTATGTATTTATTTATTTATTGAGACAGTCTCACTCTGTCACCCAGGCTG
Celera SNP ID:            hCV7493814
SNP Position Genomic:     127320
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44956):
AAGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTACCTGGCCTTAGCTAGCTGTCTTAACAAAGACCTGGCCATGG
R
GCTGGGTGGGACAGGGTGGCCAGGACTCTGCCTGCTTCCCCTAGAGTATCACTGTGCTCATTTGCCATGCACTTGGGCATCCTGGCCAGACCTCATTTGG
Celera SNP ID:            hCV7493816
SNP Position Genomic:     124593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44957):
CTCAAGACTCTTAATTACATCTGCAAAGACCCATTTCCTAAATAAGTCAGCATTTACAGGTCCCAGGGAATATATCTTTTTGGTGGGCCACCGTTCAACC
Y
GCTACACCTGTGCTGGAATCAGATGAGCTGGGGGGCAACCAGCAAATGACCTTGACCCCTTGGAGTTCCGTTGCATCCGCTTGTCTGTAAACGGGAGGAT
Celera SNP ID:            hCV7493819
SNP Position Genomic:     123539
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44958):
ACCAGGTGTTGCTGTGTTGCCCAGGCTGGTCTCAAGCTCCTGGCCTCAGCCGATCCTCCACCTCTGCCTCCCAAACACTGCTGGCATGAGCCACCTCGCC
Y
GGCCATAGATCTTACTTTTTAGAAGAGTTCTAGGTTTCCAGAAAAATTGAGTAAATAGAACAGAGTTCCCATACACCTCTACACCCCCATACACAGCTTC
Celera SNP ID:            hCV3065922
SNP Position Genomic:     115169
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44959):
AACACTGCTGGCATGAGCCACCTCGCCCGGCCATAGATCTTACTTTTTAGAAGAGTTCTAGGTTTCCAGAAAAATTGAGTAAATAGAACAGAGTTCCCAT
W
CACCTCTACACCCCCATACACAGCTTCCCATGTGATAGGCATCTTGTATTAGTGTGCTGTATTTGTTACAATTGATGGACCGGCATCAAAACGTTATGAA
Celera SNP ID:            hCV3065923
SNP Position Genomic:     115242
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44960):
GTGCATGGGTGGGGCAGAAGAGATGCCTCTGGACTAGACCAAACCTGGATTGAACCAAGTTTCTTTTTTTCATTGTTTGAAATGGAGTTTCATTCTTGTT
K
CCCTGGCTGGGGTGCAACCACACTCTCTCAGCTCCCTGCAACCTCTGTCTCTGGGCTTCAAGCGATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTA
Celera SNP ID:            hCV25965973
SNP Position Genomic:     56196
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:44961):
AGGCACGAGAATTGCTTGACCCTGAGAGGCAGAGGCTGCAGTGAGCATGGTGGCTTATGCCTATAATCCCACCACTTTGGGAGGCCATTGTGGGAGGATC
R
CTGGAGCCCAGGAGTTCGAGACCTGCCTGGGCAACATAGTAAGACCTCATCTCTATAAAGAATTTAAAAATTCGCTGGATGTCGTGGCACGTCCCTGTAG
Celera SNP ID:            hCV3065924
SNP Position Genomic:     116387
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44962):
ACCTGCCTGGGCAACATAGTAAGACCTCATCTCTATAAAGAATTTAAAAATTCGCTGGATGTCGTGGCACGTCCCTGTAGTCCCAGCTACTTGGGAGGCT
K
AAGTGGGAGAATCGCTTGAGCTGGGAGTTGTAGGCTACAGTGAGTTAGGACTGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGTCTTGAA
Celera SNP ID:            hCV3065925
SNP Position Genomic:     116508
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,6)      total(G,4|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44963):
TTGGATAAATAAAATGTGGTACAGAAATACCATGGAATACTATGCAGCCATAAAAAAGAACAAAATCATGTCTTTTGTGGAAACATGGATGGAGCTGGAG
S
CCATTATCCTTAGCAAACTAATGCAGGAACAGAAAACCAAATACTGCATGTTCTCACTTATAAGTGGAAGCTAAATGATGAGAACACATGGAAACAAAAG
Celera SNP ID:            hCV27989693
SNP Position Genomic:     74237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44964):
ATTCATTGATCCTGAATTTGCGAAGTTTCCTCTCCTGACAATTTTGGTTTTCATCCCTCATGGCCTCCTGGCTTCCATCCTGTGCTTCTCTCCTTCATTT
R
TTCATGCATTCATTCCCTGGCCTTGCCAGCTCTTACTCAGGGTGGCACCTGCAAAAGCAGGGCAAGGGAGATGGGGTGGATGAGGGACAGGCCACATAAC
Celera SNP ID:            hCV3065927
SNP Position Genomic:     116999
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44965):
TACTCCCTGGAGCTGCCTGGGGGAAGTGGGGGGAAGTGGACTGTCTCCTTTGGCTTAGGGTGAGGCCTGTGAGTCCCCTTGCAGGGTGGGATCCACGGCA
Y
TGTCCCGCTGACAGCCTACGTGGTGGTTGCTCTCCTGGAAACAGGCACAGCCTCAGAGGTGAGTACAGAAGGGGTTTGGGGAGACTCGGGGCTGGGCACT
Celera SNP ID:            hCV3065928
SNP Position Genomic:     118155
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,25)   caucasian(C,18|T,18)   total(C,25|T,43)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44966):
TGGGGACTGGGCGCAATGGGTTGAGGGTGGTCAGTGTGGTGAGGGCGGGGTCGAGCGGCGAGGGGGAGGTGAGTGCGGAGGGTGCGGGGTTGAGGGCGGG
W
GTGTTCAGTGCGGGGGGCGGGGCCGAACGGGGTGGGTGTGGTCAGTGCGAAGGGGACGGGGTTGAGAGTGGATGTGGTTAGTGCTGAGGGGATGAGGTTG
Celera SNP ID:            hCV15885173
SNP Position Genomic:     135343
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,11|T,35)   PGA-EUR(EAN-PANEL(A,8|T,38)   total(A,19|T,73)   (T,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:44967):
CCATCCAATGAGTCTGTCATTGTGGCCTGGACCCTCCCGAGGCCACCAGAGGTCCAGTTCATTGGCTTTTCCACCGGCTGGGGCTCCATGGGTGAATTCC
R
AATCTGGAGGAAGATGGAGGTGGACGAGAGCTACAGCGAGGCCTTCACCCTGGGGGTCCCACACGGCGCCATCCCTGGGTCTGAGCGAGCCACCGCCTCC
Celera SNP ID:            hCV25961767
SNP Position Genomic:     104533
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,38)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44968):
ACTCGAGTTGGAATGGACAGCACCCAGGATGCTGCACAATTGCTACCCTCCTTTACTGAGAAAGGGTTTTGGGAGGCACATTTTTTGAGACGTTGCATGT
Y
TGCAAATATTCTTATTCTGGCCCTGTATGATAGCTGGGCTGGGTATAGAATTCCAGGTTGGAAATTGTTTTCCTGTAGAATAATTGATGATGTTCTATCA
Celera SNP ID:            hCV7493821
SNP Position Genomic:     119607
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44969):
GTACAGCCTTCCCCACTTTGTGTCACTGGAGCAAAGAGGAGTGGGTGCCCATGCCCCGGCTGCCCCCTTCCGCAGAGGCCTTGGAGGCCACGGTGTCCCC
Y
GGCGACCGTTGGAAGAGCCCTGCCCGCACCTTGTCCCTGAACTCGGCCGACACGTAGTAGTAGATGAAGGGATCCACGCAGCTGTTGAGGGTGCTCAGCG
Celera SNP ID:            hCV15955316
SNP Position Genomic:     142096
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,41)   total(C,41|T,1) 
SNP Type:                 INTRON;SILENT MUTATION;TFBS


Context             (SEQ ID NO:44970):
CCAAAGGGATATTGGAGCATGAGAGGGTGTTTCTTCTGGGCAGAGCAAGCAGAAGCATCCCCAAGACCCCCTTTCTGCTCTTGGCACTCGGGTGTTGATC
Y
AAGCATCTTCTCTTCTCAGACCAAGGTGATGGCACTGAACGGGAAGCCCGTGGGGGCTCAGTACCTGCCCAGCTACCTCTCCCTCGGCAGCTGGTACTCC
Celera SNP ID:            hCV25961408
SNP Position Genomic:     42862
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,38)   total(C,3|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:44971):
GAAGCTGAATCGGGAAGATTGTTTGAGGCCAGGAGTCGGAGACCAGCCTGAGAAACATGGCAAGACCTCATCTCGGCAAAAATGTTAAAAATAAGCTGGG
Y
GTGGTGGTACATGCCTTAGTCCCAACTACTGGGGAGGCTGAGGTGGGAGGATCCCTTGAGCCCAGAAGTTCAAGGCTGCAGTGAGCTATGATTGTGCCAC
Celera SNP ID:            hCV7493824
SNP Position Genomic:     114040
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44972):
CCTTACCACACATCCCTCTAAGAACCTGGATCCATGGGATAAGCATGTGGTACACTCAGTGCAGTGCCGTCCTGTTAGCACCTCCCCTAACTACTTACCA
K
AAGGCTCCAAGATCCTGCCAGGGAGCCTGAAAACTTGGGATCTGTTCTAGATGGGTTCCCTTATACTCAACGCATATTCATTCATTTATTCATTGAGTGA
Celera SNP ID:            hCV7493825
SNP Position Genomic:     112790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44973):
CTCAGCGCCAGGCTGGGCACGTAGGCACCATAGAGGTTGCCCCAGGCGCTGGGGCTCGGGTCCGAGTAATGCAGCAGCAGCAGCAGGTTGCTGGGCACGA
M
GAAGGCCACGGCGGAGGCCAGCACCACTGCGGTCAGCCTCAGCGCGTGGCCGTAGCGCCGGCCGCTGGCCGCCAGCGTGTGCAGGGTGGCCCCGTAGCAC
Celera SNP ID:            hCV15955318
SNP Position Genomic:     142290
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,3)   caucasian(A,32)   total(A,61|C,3)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,25|C,3)   caucasian(A,4)   total(A,29|C,3)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   PGA-AFRICAN-PANEL(C,5|A,43)   total(A,43|C,5) 
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:44974):
TCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGAAGGTGGAGGTTGCAGTGAGTTAAGATTGCACCACTGCACTCCAGCCTGGGTGACAGTATGAGA
Y
TGTTTTAAAAACAAACAAAAACTCCCGTGCCGATCAGCAGTGGGATTGTGCCTATGAATAGCCACTACACTCCAGCCTGAGTAACACTGAGTAACAGTGA
Celera SNP ID:            hCV3065930
SNP Position Genomic:     122758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44975):
ACCAGGGGACGTCATGGGGCCAACCCTGAACCACCTCAACAACCTCCTGCGGCTGCCGTTTGGCTGTGGAGAGCAGAACATGATCCACTTTGCACCCAAC
R
TCTTTGTCTTGAAGTATCTTCAGAAAACCCAGCAGCTCAGCCCTGAGGTGGAGAGAGAGACCACCGACTACCTAGTACAAGGTATTGGGGAAGAAGTGCC
Celera SNP ID:            hCV15905341
SNP Position Genomic:     107371
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,28)   caucasian(G,36)   total(A,6|G,64)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,12)      total(G,12|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44976):
AATCAGATGAGCTGGGGGGCAACCAGCAAATGACCTTGACCCCTTGGAGTTCCGTTGCATCCGCTTGTCTGTAAACGGGAGGATCTGCACAGCTGGGGCC
R
GGCTGGGTCCATCCCTGCTTGGTGTGGTCTCCGCAGCGTCCTTGAGACCCGTCCTGGCCCGCGTGACCTGGGGTAACTCCCATGTCACTGTTCCTGCCCC
Celera SNP ID:            hCV3065932
SNP Position Genomic:     123656
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44977):
GGGCTTAGGCATCGCCGAGCCCTCCCTGCTGAAGACCTTCAAGCCCTTCTTCGTGGACTTCATGCTCCCCGCTCTCATCATCCGTGGGGAGCAGGTCAAG
R
TCCCGCTCAGTGTCTACAACTACATGGGCACCTGCGCTGAGGTACTCAGCCCCCCAAATACATAGCCTTCCTCCATTCAGTGGGGAGTTGGGACTGCATT
Celera SNP ID:            hCV25964316
SNP Position Genomic:     80640
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,36)   total(A,69|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44978):
CTGCGTGAGGGACATGATCCCAGCGGACGTCCCTGAGCACTTCCGGGGCAGGGTCAGCATCTGGGCCATAGTGACCAGTGTGGACGGGAGCCAGCAGGTC
R
CGTTCGATGACTCCACCCCCGTGCAGAGGCAGCTGGTGGACATCCGGTACTCCAAGGACACGAGGAAGCAGTTCAAGCCGGGCCTGGCCTACGTGGGGAA
Celera SNP ID:            hCV25968388
SNP Position Genomic:     35444
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(A,3|G,33)   total(A,4|G,62)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:44979):
TTTGTGGCAGAGACAGGGTTTCGCCATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTCCCGCCTCAGCCTCACAAAGTGCTGGGGTTA
Y
AGACATGAGCCACTATGCCCAGCCCCTTTTTTCCTCCCCTTTCTGGGCAAAAATGGCCCATCTGTCTACTGAGGAGTAGATGGGGTGAGGTGGGGGCTGC
Celera SNP ID:            hCV3065934
SNP Position Genomic:     131883
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44980):
CTCACAAAGTGCTGGGGTTACAGACATGAGCCACTATGCCCAGCCCCTTTTTTCCTCCCCTTTCTGGGCAAAAATGGCCCATCTGTCTACTGAGGAGTAG
R
TGGGGTGAGGTGGGGGCTGCTCCAACAGGTGGATCTCCCATGCGGCCACTGTCACTATTATTATTATTATTATTATTTGAGATGGAGTTTTGCTCTTGTT
Celera SNP ID:            hCV3065935
SNP Position Genomic:     131963
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44981):
GCTCAGAGTTCCTGGGGACAAAGTGGGACATTCATCCTCCCTCCACCCTGGCCCACGCAACACCCACCAGCGAACAGCTGTGCGCGGGCGCACGCGCGCG
Y
GTGTGTGTGTGTGTGTGTGTGTGCGTGCGCGCGCGCGCGCGCATACGGGTCAAGGATCCCTTATCCGAAATGCTGGGGGGACCAGCAGTGTTTCGGATTT
Celera SNP ID:            hCV15885180
SNP Position Genomic:     136710
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44982):
GGAAGGAGCGAAGCATTGATCCATGCTACAGCATGGATGAACCTCAGAAACATGATGCTGAGTGAAAGAAGCCAGACACAAAAGGCCACAGAGTACATGA
W
TCCATTGACATGAAATGCCCAGAACAGGCAAATCCGTAGAGTTGGAAAGATTTGTGGTTGCCAGGGGCTGGGGGAGTGGGGAGTGAGTGCTGATGGCGAT
Celera SNP ID:            hCV3065936
SNP Position Genomic:     133946
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,7)      total(A,2|T,7) ;PGA-EUR(EAN-PANEL(A,1|T,45)   total(A,1|T,45)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:44983):
CCCTCCACCCTGGCCCACGCAACACCCACCAGCGAACAGCTGTGCGCGGGCGCACGCGCGCGTGTGTGTGTGTGTGTGTGTGTGTGCGTGCGCGCGCGCG
M
GCGCATACGGGTCAAGGATCCCTTATCCGAAATGCTGGGGGGACCAGCAGTGTTTCGGATTTCAGATTTTTTCACATTTCAGAATGCTTGCATTATATAG
Celera SNP ID:            hCV15885181
SNP Position Genomic:     136748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44984):
CGGCGTGCGCGCCGCGCAGCCTCAGGCCCCGTGAGTATCCTCCGGCGACAGAGGAGGTCGGTCGCCTTCTGGGGTGGGGGTCGCGGGTACTGGCTCAGAG
K
GTTGCAGCGACCTGCCCAAGGCCACACAGCCTCCGCGCTGGGCTGGACCTGGCCTCTTGTTCCCGAATCGTCTTGAGGAGGGGGCGCCCTAAAGTTTCCG
Celera SNP ID:            hCV1655804
SNP Position Genomic:     6181
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44985):
TTGCTATAATGCTCTTGGTGATTGTGGGGACACTGTAAGCATTTCATGAGGTTACAGGGCCTTTGTAATTTTCCATGGAAGGCTGCAGATACTGGGAGAC
M
GGAGCTCAGGTGGGGAGGACCTGGGCCCTCAGGTCAGGTCCCCTAAGGGCACCTCAGTGCCCTCTTCTGCCTGGCTGTGTGATCTGGTGCATGTTCCTAT
Celera SNP ID:            hCV1655805
SNP Position Genomic:     9312
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44986):
GAGTTAGAATCCTGGTCTGTCACTGTTGCGGCTGGTGACTTGACTTCTCTGGGGTTTCCTTTCTGACTTTCTAAATGGGGCTGATGTCAGCACTTCTCAC
R
GTGGTGGGGGACGGGGTGCACCGTGAGGATGAAGTGGGATCCTGCCGGTTACCTGGCTTGTGGAGGAGAGTATTTCAGACAGTGGGCATGACATGTGCAA
Celera SNP ID:            hCV1655806
SNP Position Genomic:     9745
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44987):
TGGTCTGTCACTGTTGCGGCTGGTGACTTGACTTCTCTGGGGTTTCCTTTCTGACTTTCTAAATGGGGCTGATGTCAGCACTTCTCACAGTGGTGGGGGA
S
GGGGTGCACCGTGAGGATGAAGTGGGATCCTGCCGGTTACCTGGCTTGTGGAGGAGAGTATTTCAGACAGTGGGCATGACATGTGCAAAGGTCCTGGGCC
Celera SNP ID:            hCV1655807
SNP Position Genomic:     9757
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44988):
CTCATACCTAGAAAGAAAGTCCACTGGTATTGCTGGCCAGCTTCTCCCCCTACCTCTTGATGCAACCAGGTCTCTCCTTAAGATCAGGGGAAGCACCAGT
Y
TCCCAAGATGGCTGGATAAAGTCCCAGGATTCCCTCTGATTGGCCTATCTTGGTTCATGTGCTCAACCCTGAGCCAATCACTATGACCAGAGGGGAAGGC
Celera SNP ID:            hCV1655808
SNP Position Genomic:     11510
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44989):
CTATGCTGATTGGTTCATTTTGGGTCATGTGCTCAGCCCTGAACCAATCACTGTGACCAGGGGGAAGGCCTATGCAGATTGGCTCAGAGTCCCAGGAAGG
Y
GGATGGAGAGCTTGGGAGCCACGTGCGTTGTGTGCTGGGCAGATAGCTTGTCCAAGGAAATTGAGGATCTGTTAGCAGGAAATGGGATAATGGTTGCTGG
Celera SNP ID:            hCV1655809
SNP Position Genomic:     11711
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44990):
CTCCCGTGCCGATCAGCAGTGGGATTGTGCCTATGAATAGCCACTACACTCCAGCCTGAGTAACACTGAGTAACAGTGAAACCTCTGTCTCTAATACAAA
T
TTTTTTTTTTTGAGACGAAGTTTCGCTCTTATTGCCTAGGCTGGAGTGCAATGGAGCGATCTCAGTTCACTGCAACCTCTGCCTCCCGGGTTCAAGGATT
Celera SNP ID:            hCV11699261
SNP Position Genomic:     122880
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44991):
GGAAGAAGTGCCTGGGTTGAGGTGGGAGCAAGGGAGGCAGGTTCAGCCTTCAGTGGAGAAGACCACGCTGGAGGTGGCCCACACACCAGGTGCAGCAAAG
K
GGAGGAAGTGGGCAAAAGAGGCCATTCAGGGTGGCCCTGATCTTGTCACTGTCAGCAGGAGCCTGATGTCTGTGGCTGTTAGGATGAGATGGTGCTGTTC
Celera SNP ID:            hCV27472423
SNP Position Genomic:     107560
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,194|G,1299)   total(G,1299|T,194) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44992):
TCTCAGAGTGCTGGTATTACAGGCATGAGCCACTGCGCCCAGCCCATGTTTTCTATTAGAGTCAGGGCTGAGGGACAGTTTTTTTCCTGTTGCCGCTTTT
R
TGATGCCTTCAATGCTTGTTTCTAAGCTCCTAGGGTGCCTCTCTGAGCCATGCAGCCTGGGTCATCCATGCCCACTGGCCCCCCTGAGGCATGGCCCTGG
Celera SNP ID:            hCV25966283
SNP Position Genomic:     80311
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,34)   total(A,2|G,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:44993):
GGGTGTACCCCTCCCCTAGTGCATCTCCCTTCCTGTGACTCTCTCCTGTAGGCACCCCCTCCTCAGGAGGTGCCCCTCCCCCTAGAGTATCTCCCTCCCC
R
CCAGGCTCCTCCCCTGTGGGCGCCTCCTCCCTGGGGTGTCCCCCTCCCTCTAAAGTATCTCCCTCCCTGCTGGGCTCCTCCCCTGTGGGTTCCCCTCCCC
Celera SNP ID:            hCV27472425
SNP Position Genomic:     30655
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,105|A,1380)   total(G,105|A,1380) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44994):
AGAGGGAGAAGGAAGTAGGGGATGGATATGGTTATAAATGGGCAACGGTGAGAATCTCTGTGGTGTTGGGAATGTTTAGTACCTTGACTGTGGTAGTGGA
W
TCGTGTACCTACATATGTGATAAAATTACATGGCACTCACATAAAAAGTACAAATAGAATTGGAGAAAGCTGAATAAGATTGATGGATTTTATCAATGTC
Celera SNP ID:            hCV7493830
SNP Position Genomic:     97322
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,3)      total(A,1|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:44995):
TGAGTGAAAGACACTCATGCGGGTCCAGAGAGCCTCCGGTGAGATGGGCAGGCCTGATACCAACATCTGAGCAAGACACTGTGCATCTTTTTCTAACACA
Y
AAAACTTCAAGCCATGAAGCCAGCCTTGAGTCCCGCTGCACATTTGGACGTTTGCCTGTGAAATATGAAATGCAAGGGCTTTGTGCCTCTTATAACTCCC
Celera SNP ID:            hCV7493831
SNP Position Genomic:     74936
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,33|T,7)   total(C,64|T,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   JBIC-allele(T,120|C,1377)   total(C,1377|T,120) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44996):
GCGAGACTCGGCAAAAAAAAAAAAAAAAACCAAGGATGGGCGCCTCCCAGAGGGTAATAGCGAGGGTCCCTTCAGACCCCCAGAGCAGCACGAGCCCAGC
R
TCAGGGACTCTGGCTGAACCTCGAGAGCCCCTCAGCATCCTCGGCTGACCCCATACTCACAAGGCACCCCTGTATGAGTGCCTCACTTCACTCTTGCCCA
Celera SNP ID:            hCV15955324
SNP Position Genomic:     144312
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:44997):
TGTTTCGTGTATCCATAGTTTATTCTTTTTTTAATCTGGGCTCACTGCAATCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCCCAGAAG
Y
TGGGATTACAGGGGCCCGCCACCATGCCCGGCTAATTTTTTTTGTATTTTTAGTAGAGGTGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCTTG
Celera SNP ID:            hCV11699269
SNP Position Genomic:     137338
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,11)   total(C,11|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:44998):
CTCCCAAACTGCTGGGATTACAGGTGTGAGCCACCACACCCAGCCACGTCCATTTCTAGGTTTGTACACGGCTCCCTAAATGAGGAGGTAGGCCCAGCCC
R
TCCCCTTCTGCTTTTCAAATCCTTCTCTATCCAGAGCTTTTTTTTTGCCCCGGGGTTAATGATTAATCTTGGGACCTTCGCTGCATGGTTGACATGCCCA
Celera SNP ID:            hCV7493833
SNP Position Genomic:     23920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:44999):
ATGGAGCCGGCCTTGAGGTGGAGGACTCAGACCCTGAGCCTGAAGGGGAGGCGGAGGACAGGTAACAGCTGGGCCCACCCCAGAGATAAGAGACATAGGC
K
CAATATCTCCCCACCTCCCTCCCCTACCAACCTCCCCCGACGACCTGCCCCGACTCCTCCGCCCCGCCCCGACCCCCCACTGGCAGTGGGAGTGACTCAG
Celera SNP ID:            hCV15955325
SNP Position Genomic:     136501
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,6|T,42)   total(G,6|T,42) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45000):
CGCCCCGCCCCGACCCCCCACTGGCAGTGGGAGTGACTCAGGGTCAGAGGCTCAGAGTTCCTGGGGACAAAGTGGGACATTCATCCTCCCTCCACCCTGG
Y
CCACGCAACACCCACCAGCGAACAGCTGTGCGCGGGCGCACGCGCGCGTGTGTGTGTGTGTGTGTGTGTGTGCGTGCGCGCGCGCGCGCGCATACGGGTC
Celera SNP ID:            hCV15955326
SNP Position Genomic:     136661
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,6|C,42)   PGA-EUR(EAN-PANEL(T,14|C,32)   total(C,74|T,20) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45001):
CTCTTACCGCACATGGACACCCAGAGCCCATCACTGTGGTCCACTGGAAGGGGAAAGGAGGCAGAGTTGTACAGTGCCAGGCCTGGGCCATGTGTCCCCC
W
TCCAGTTGGGGTTCTGCCATCTAAATGAGGAGGTGGCAGCTGGCCTGAGCCCCGTGGAGTTGGGTTCAGGAAAGGGGTGTGGGGTCCCATCCCGAAGTCC
Celera SNP ID:            hCV3065940
SNP Position Genomic:     138063
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;(T,-|A,-)   PGA-AFRICAN-PANEL(T,8|A,40)   PGA-EUR(EAN-PANEL(T,14|A,32)   total(A,72|T,22)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45002):
GTCACAGCCGGGCCTCGGCCTCCTGTGAGCAGCGGGAACCTGGAAAGCAGCACCCAGAGCGCCAGCCCGTTCCACAGATGGGGCCAGACTCCGGCCCCTC
R
GAGACATAGTGGCCGGGTGGTGGGGGCCCACAGGCCAGGGCTTCTGAGCCCTGTCTTCGTCTACAGCCCAGCCTTTCAGAGTGGTGGGGAGGAGGGTTTA
Celera SNP ID:            hCV3065941
SNP Position Genomic:     139401
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;PGA-AFRIGAN-PANEL(G,5|A,41)   PGA-EUR(EAN-PANEL(G,15|A,31)   total(G,20|A,72)   (A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;UTR 3


Context             (SEQ ID NO:45003):
CAGTTTGGTCCTGGGGACCATTCATACCCACACACCCAGCTTGTGCCTGTGGTTAACATCTCAGAAAACTCTGGTAAATGATCACTCCAGGATATTGACA
M
GAATACACGTTACTGATCTTACTCACATGTTCTGGGGTGCACATGAACTTTGTGTGTGCATGTGTGTGTGTGTGCATGTGTGTGTCCCGGGCACCTGACA
Celera SNP ID:            hCV3065942
SNP Position Genomic:     139661
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:45004):
TATTAGCATTCTGGATGCCTTCTTTAGGCTAAACAGCCAAATTGAAGAATTACCAGCAGGACCCAAGCCTCTCACTGGGTCTTGCTGTGTCCTGGAATAC
R
CAGCAGTACCTGTTCATGGAACCACCTGCAGTACATTAGGGATCAGATTTCTCCACTGCCTCTCAGACATTGAATATTGTTATTTTTAAATTATTATATG
Celera SNP ID:            hCV1655812
SNP Position Genomic:     14229
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45005):
TCATTCCCTTATGCTTCTGGGGGCTGTCAGCATCCACTTCCCCACCAATGGTTTGGGTGTTGTCTGTTGCCTAGGAAACGGGACTGGTGGTGATGACCGA
M
CGAGTGAGCCTGAACCACCGGCAGGACGGTGGCCTCTACACCGATGAGGCTGTCCCCGCTTTCCAGCCCCACACAGGGAGCCTGGTGGCAGTGGCTCCTT
Celera SNP ID:            hCV25965701
SNP Position Genomic:     61643
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,27)   caucasian(C,40)   total(A,1|C,67)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:45006):
GGATTTCAGATATTATGTAAGCCCTGGAATTGCGGCATTTGGGGGGTTAGCTATTCCTTAACTTTTACCACATGCTCAAAGGAGTCTACGAATGAATGGG
S
TAAATTGAGAATTATTTTAAATTATAAGGCGCCCATCTCCATTGATCAGAATGGAGGCTGAGATAGTTCCTTTTGTATGAGGTATACCACTAGTGCCTAT
Celera SNP ID:            hCV1655813
SNP Position Genomic:     14482
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45007):
ACCAACCTGGACTACCAGGAAACCTTCGAGCTGCACAGGACCAACCAGAAGGTTCTGCAGACAGCAGCGGTGCGTGTTCCTGGGATGAGGGTTTGGGGGT
K
GTTGGAGGAGGGGTCAGCAGGGCCTCACGGTGACTTCTGTCTCCAGATCCCCAGCCTCCCCACGGGGCTGTTTGTGAGTGCCAAGGGGGACGGCTGCTGC
Celera SNP ID:            hCV25965703
SNP Position Genomic:     128967
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,27)   caucasian(T,36)   total(G,1|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:45008):
AGGCTGGAGTGCAGTGATGCAATCTTGGCTCACTGCAACCTCCGCTTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAG
R
TGTGCACCACCGTGCCCAGCTAATTTTTTTGTATTTTTAATAGAGATGGGGTTTCATCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGTTGATC
Celera SNP ID:            hCV1655814
SNP Position Genomic:     14753
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45009):
TTTTGGCACCAGGGACCAGTTTCATGGAAGACAGTTTTTTCCACGGACCAGGGAGCAGAAGAAATGGTTTCAGGATGATTCAAGGGCATTCCATTTATTG
Y
GTGCTTTATTTCTATTATTATTACACTGTAATATATAACGAAATAATGATATAACTCACCATAACTGAAGAAACAGTGCAAGCCCTGAGCTTGTTTTCCT
Celera SNP ID:            hCV1655815
SNP Position Genomic:     15303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45010):
CTAGGGGCTGCCGTTTGGGGTCGGCCCCCTTTATGTGCTCAGCATAGTCTCTTGCCCGCCAGCCTCCCTGTCCCTCCAGCATACGGTCCTCAGCACCTCC
R
GTATCTCCCTCCTGCCCATCCTTGCCCTGCTCTTGGGTGGCCGGGACCTTTCCTCCCTCTTCAGCCTCTGGCCAGTGTTGAGATATTTCCAGAAACAGGG
Celera SNP ID:            hCV1655816
SNP Position Genomic:     16881
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45011):
GAAGCATCCCCAAGACCCCCTTTCTGCTCTTGGCACTCGGGTGTTGATCTAAGCATCTTCTCTTCTCAGACCAAGGTGATGGCACTGAACGGGAAGCCCG
W
GGGGGCTCAGTACCTGCCCAGCTACCTCTCCCTCGGCAGCTGGTACTCCCCCAGCCAGTGCTACCTGCAGCTGCAGCCACCCTCCCACCCACTGCAGGTA
Celera SNP ID:            hCV25964831
SNP Position Genomic:     42913
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(A,1|T,37)   total(A,1|T,71)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:45012):
TTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCCACCCCAGCCTCCCCAAAGTGCTGGGATTACAGGTGTGAGCCATTGC
R
CTCAGCCTGTGCTGCGATTTTAGAGTGAGGCAGACACAGACACATATACATGATAGATATATCTGGACATGTACATATGTATATCAAGGGATCCAGGTCT
Celera SNP ID:            hCV1655818
SNP Position Genomic:     19763
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45013):
CCTGCAACTTTACCCTGTACTACGAGGTGGCTGCACGGGGCAATATTGTGCTATCGGGCCAGCAGCCTGCCCACACCACCCAGCAGCGAAGCAAGCGGGC
R
GCCCCTGCCCTGGAGAAACCGATTCGTTTAACACACCTTTCTGAGACAGGTGAGCCGGGCAGCAGGGAGAAGGTTCCTGTTCTTCCTTCTGAACAATTGA
Celera SNP ID:            hCV25956745
SNP Position Genomic:     52104
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,40)   total(A,1|G,71)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:45014):
CCACAGGCACACACTACCACCACGCCCAGCTAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTAGAGATGGGGTCTCTGTATGTTG
Y
CCAAGCTGGAGTGCCATGGCTGTTCATAGACATGATCATTGTGCACTGCAGCCTCAAATTCCTGGGCTCAAGTGATCCTCCCATCTCAGTCTCCCAAAGC
Celera SNP ID:            hCV15955332
SNP Position Genomic:     137744
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45015):
GCCACTGTGCCCGGCCTGGAGTTTGTTCTTTTGTATTGCTGGGTAGTGTGCTATGGGTAGCTTTTCGATTTGGTTGGTGGTCTGACACAAGCTACTCCCC
Y
CTTACCGCACATGGACACCCAGAGCCCATCACTGTGGTCCACTGGAAGGGGAAAGGAGGCAGAGTTGTACAGTGCCAGGCCTGGGCCATGTGTCCCCCAT
Celera SNP ID:            hCV15955333
SNP Position Genomic:     137964
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   total(C,1|T,47) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45016):
TGACACCTGCCTCTAAATGAACCCAAGGAACAGAATGACAGAGATCTGCCCGTCCCTAGGATGAGACTCTTGGGACCCAGGTGTGGGCTCAGCAGTCACC
R
GTGTGGTGCAGGGGGGACAGCTGGAGGTCCCTTGGGAGATCCCCCACCTTCCTAGCTACAGCTGGAGCTCCAAGCACCCCAACCCCCCAGCCTTGGAGCT
Celera SNP ID:            hCV15955337
SNP Position Genomic:     138421
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|G,44)   total(G,44|A,4) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:45017):
GGAGAAGAAACATTCCCAGAAAGCACTCGTGTGGCCAAAAGCCTCTTTCTGAGCAAACACGATGTGGACTAAATTAGCAAAACATCCAGCCGGTGGGCAA
Y
TTCAAAACGGAACAGGCTGCGTTTCTCTGAAACACAAAGCCCCGGCCTCCCTTTGGGGCACCCAGGACCCCAAATTGCCCTAAGACTGTCCCAGCTCTCG
Celera SNP ID:            hCV15955338
SNP Position Genomic:     138677
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|C,43)   total(C,43|T,3) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:45018):
AAATCCGTAGAGTTGGAAAGATTTGTGGTTGCCAGGGGCTGGGGGAGTGGGGAGTGAGTGCTGATGGCGATGGGGTTTCTTTGGGGGAGAAAGAAACCGT
Y
CTGTAACTAGACAGAGGTGATGATTGCACAGTATCGTGAATGTGCTGACTCCCACCCACACATGCTCAGCCATGCGTGCACACACACAAAAAGGAGTGGT
Celera SNP ID:            hCV15905366
SNP Position Genomic:     134076
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   PGA-AFRICAN-PANEL(C,11|T,33)   PGA-EUR(EAN-PANEL(C,8|T,38)   total(C,19|T,71)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:45019):
CCTCCCTCCCTCCCACATGGGTGTGCCCCTCCCTTCCTGGTTCCCTCCTCCCTGGGGTGTACCCCTCCCCTAGTGCATCTCCCTTCCTGTGACTCTCTCC
W
GTAGGCACCCCCTCCTCAGGAGGTGCCCCTCCCCCTAGAGTATCTCCCTCCCCGCCAGGCTCCTCCCCTGTGGGCGCCTCCTCCCTGGGGTGTCCCCCTC
Celera SNP ID:            hCV27475922
SNP Position Genomic:     30601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45020):
CTATGACACCCCAAAACATCTCCAGAAACTGCCAAGTGTCCCCCTGGGGCACAGTCACTCCTGGGGTGAGTTCCCCCTGTTCCAGGCCTCCAAACTCCTT
Y
CCCAGTATCTTGGCCCATTCCAGGGTGAATTCTTGTCCCAAAGCTCCTTCCTCTGCCTGCAGGTGCCCACGGGCCTCCGGGGCCAAGCGCTTCTGAAAGT
Celera SNP ID:            hCV1655820
SNP Position Genomic:     20850
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45021):
GTAGCCCTGGACTGTTGCTTAATTTTTTTTTTTTCCCCAAGACCGAGTCTCTCGCTCTATTGCCAATGCTGGAGTGCAGTGGCACTATCTCGGCTCACTA
Y
AACCTCTGCTTCCTGGGTTCTAAGTGATTCTCTTGCCTTAGCCTCCCGAGTAGCCGGGATTATAGGTGCCCACCACCACGCCCGGCTGATTTTTTTTTCT
Celera SNP ID:            hCV1655822
SNP Position Genomic:     21536
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45022):
GAGGGGTGTGATGCCCCAGGAGAGGGCAGGGGATAGGTAGGGTGTGGGGAGTCTGGGGATGGCCATGCACACACCCAGGCTGTCCAGAAATGGGGTAACA
R
TAGAGCCACAGGCAGGATCACGGGGGTCTGTTGGTGACCCTTCCTCCTTCTGTCTCCTGCCTTGGGTCTCAGCCTCTTTTCTTCTTCTTCATCTTCCTTC
Celera SNP ID:            hCV1655823
SNP Position Genomic:     25047
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45023):
CGGGGCTCAGAGGCACAGGCGCAAAGCAAATGACAGCTCCCATGTCAGCGGCTGATGGTGTTTCTGGGGGGATGTTTGGGGAGAGAGTGCTCTGTTCTAA
R
GTGTGTGCGTGCTCTAGTTCAGTTGGGGGGTGGTTCTCATGGAGGGGTGGGGGGTCGGACAGGCGATTCTGCCCCCAGGGGACATGGCAATGTCTGGGGA
Celera SNP ID:            hCV1655824
SNP Position Genomic:     27236
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45024):
GCTTGAGGCCAGGAGTTTGAGACCAGCCTGGACAACATAGTCCCTGTCTGTATAAAACTTTAAAACAATTATCTGGACATGGTGGCACGTGCCTGTAGTC
Y
CCGCTACTCGGGAAGCTGAGGCGGGAGGATTGCTTGAGCCCAGGAGATCAAGGCTGCAGTGAACTGTGATTGCACCACTATTCTCCAGTTTGGGTGACAA
Celera SNP ID:            hCV1655826
SNP Position Genomic:     29336
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45025):
AGGAGATCAAGGCTGCAGTGAACTGTGATTGCACCACTATTCTCCAGTTTGGGTGACAAAGTGAGACCCTGTCTCAGAAAAAAAAAAAGGTGGCCAGGCA
Y
GGCAGCTAACGTCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTAGATCACTAGAGGTCAGGAGTTCAAGACCAGGCTGGCCAACATGGTGAAACCC
Celera SNP ID:            hCV1655827
SNP Position Genomic:     29478
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45026):
CTCAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAGAACGAAAAGATTCTTAGGCTCCTACAAGAGTTCTCTCAGGACCCGATTCTTTCTGGTTTAC
Y
GGCTGCTCCAGGGTGTCACCTCCGCCCCTGGTGACAAGATGGCTTGATACTCCCAGGGCTGAGTCCAGAAGCAAATGGAGAAATCAGCTCTCTGTTGCAG
Celera SNP ID:            hCV1655829
SNP Position Genomic:     29847
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45027):
GTTGGGTGGCTGACTGCATGACACTCACTGTCTCCCATCCCTGGGTAAAGCTGTCCCTGTTCTCTACTGAACTGGGACAGCCCCCAACTCAACTCTCTTC
W
CCTTCCCACCAGGGGACGTCATGGGGCCAACCCTGAACCACCTCAACAACCTCCTGCGGCTGCCGTTTGGCTGTGGAGAGCAGAACATGATCCACTTTGC
Celera SNP ID:            hCV25962237
SNP Position Genomic:     107263
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(A,2|T,36)   total(A,2|T,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:45028):
AAGACCCTTCCTTGCACTGTGAGCATGGCTGAGGCCTCTGACCCTGGCCACAAAGCTGGTGTCACTGCCACCTGAGTGCCTACTGCCTGCTTCCTGCCAG
Y
GTCCAGCAGCCTTGGTTTCTTTTTCCAGGTTGGCCATGGTCCAGAGCCATCCAATGAGTCTGTCATTGTGGCCTGGACCCTCCCGAGGCCACCAGAGGTC
Celera SNP ID:            hCV25964779
SNP Position Genomic:     104386
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,38)   total(C,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:45029):
TCTTGCACCTCAGGTGTGTGTTTCAGGGACATCCCTCAAAGACACTCCAACCCTGAGTGAGCACGGGCTGTGTTTTTCCTCCCTCCAGATCCTCGGCTCC
Y
GGGACTTCGACATCTGCGTGAGGGACATGATCCCAGCGGACGTCCCTGAGCACTTCCGGGGCAGGGTCAGCATCTGGGCCATAGTGACCAGTGTGGACGG
Celera SNP ID:            hCV25967752
SNP Position Genomic:     35330
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,24|T,6)   total(C,52|T,6)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:45030):
ACTGGGTAATTTATAAAGAAAAAGAGGTTTAATTGACTCACAGTTTCACGTGGCTGGGGAGGCCTCACAATCATGGTGGAAGGCGACAGGTACGTCTTAC
R
TGGTCCCAGGGAGAATGAGAGAATGAGAGCCAAGTGAAAGGGGTTTTCGCCTTATAAAACCATCAGATCTCGTAAGACTTATTCACTACTGCGAGAACAG
Celera SNP ID:            hCV27914705
SNP Position Genomic:     105302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45031):
AGAGCCCTGCCCGCACCTTGTCCCTGAACTCGGCCGACACGTAGTAGTAGATGAAGGGATCCACGCAGCTGTTGAGGGTGCTCAGCGCCAGGCTGGGCAC
R
TAGGCACCATAGAGGTTGCCCCAGGCGCTGGGGCTCGGGTCCGAGTAATGCAGCAGCAGCAGCAGGTTGCTGGGCACGAAGAAGGCCACGGCGGAGGCCA
Celera SNP ID:            hCV22271507
SNP Position Genomic:     142210
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,23)   caucasian(G,8)   total(A,5|G,31)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(G,34)   total(A,2|G,54)   
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|G,42)   total(G,42|A,4) 
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45032):
TTTGGGTTCCAAGTGGATGTGAATTTGGGAGGACCCACCCAGTACAGAATTTCTTTGGTCACCGGTCCTGTCTCTGTGGACACAGCCCTGTCCTTCCTGA
R
GCTCAGACCACACACAGTGGTGCCCTCAGATTCGTCCTTCTTTCCCTCACAGGCTGTGTCTGGCTGAGTAGCTCTGCCTTCACCCCAGGAAGGCTCCCCA
Celera SNP ID:            hCV27914706
SNP Position Genomic:     109199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45033):
CTGCCACCATGCCCAGCTAAATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCTTGACCTCAGGTGATCCACCC
R
CCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACTCACAGCCAACTGAACCAAGTTTCTTATCCCTTGCTGCATTTGCGCCAAGGTTTCA
Celera SNP ID:            hCV25966884
SNP Position Genomic:     56404
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(G,40)   total(A,2|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:45034):
CCCTCCCACATGGGTGTGCCCCTCCCTTCCTGGTTCCCTCCTCCCTGGGGTGTACCCCTCCCCTAGTGCATCTCCCTTCCTGTGACTCTCTCCTGTAGGC
R
CCCCCTCCTCAGGAGGTGCCCCTCCCCCTAGAGTATCTCCCTCCCCGCCAGGCTCCTCCCCTGTGGGCGCCTCCTCCCTGGGGTGTCCCCCTCCCTCTAA
Celera SNP ID:            hCV27493714
SNP Position Genomic:     30608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45035):
ACAACAAACAAACAAACAAAAAAGTGGGCAAAAGAAATAACCAGACATTTCACCAGAGGAGACATACAGATGGCAAATTGCACATAAAAAGATGCTCAAC
R
TCATTTATCATTAGGGAAATGCAAATTACAGCATAATGACATACCCCTACACACCACCTATAAGAATGGCTAAGATTAAAAATAGAGCTGGGCGCAGTGG
Celera SNP ID:            hCV1655900
SNP Position Genomic:     96336
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45036):
ATGCTCAACATCATTTATCATTAGGGAAATGCAAATTACAGCATAATGACATACCCCTACACACCACCTATAAGAATGGCTAAGATTAAAAATAGAGCTG
R
GCGCAGTGGCTCATGCCTATAATCCCAGCACTTTGAGAGGCCAAGGTGGGTGGAGAACTTGAGTCCAGGAGTTCAAGACCAGCCTGGCCAACATGATGAG
Celera SNP ID:            hCV1655901
SNP Position Genomic:     96427
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45037):
CCCGGCCCGGCCCGGTCCCTGACCCGTCGCGCCTGCACTTGGTCACCCGCCACCCTCGTCCCGTAGCCTTCGAGGCCACTCGCTTCTACAACGTCAGCAC
S
CACAGCCCACTCGCCCGGGAACTGTGCGCCGGACCCGCGTGCAACGAAGTGGAGCGCGCCCCTGCCCGGGGCCCGGGTGAGTGCGCGGAGCCACTGCCGC
Celera SNP ID:            hCV15905376
SNP Position Genomic:     134870
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,10)   caucasian(C,17|G,15)   total(C,19|G,25)
SNP Type:                 UTR 3;SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;SILENT MUTATION


Context             (SEQ ID NO:45038):
GCTCCAGGGTGTCACCTCCGCCCCTGGTGACAAGATGGCTTGATACTCCCAGGGCTGAGTCCAGAAGCAAATGGAGAAATCAGCTCTCTGTTGCAGTCAC
S
CTGGGGATGCCCCTTGTTGGCTCCCAGGGCCACCTCTATCCCATGCACAGACACAGGGGCTGGGAGGAGCCTCCTGGCCTCGTGTCCACCCTGGGATAGG
Celera SNP ID:            hCV1655830
SNP Position Genomic:     29952
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45039):
TCCCCGAAACATGGATTTGGCATTGTCTCAACATCAGGTACATTAAGATTTCTTTTCTGCGCTGACTTTGCCGGTTGAGTGAAAGACACTCATGCGGGTC
Y
AGAGAGCCTCCGGTGAGATGGGCAGGCCTGATACCAACATCTGAGCAAGACACTGTGCATCTTTTTCTAACACACAAAACTTCAAGCCATGAAGCCAGCC
Celera SNP ID:            hCV25956900
SNP Position Genomic:     74861
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,40)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:45040):
TTGGGTTCTTTCCTAGGAGCGGAATTGCTAGGTCAGAGGGTAACACTATGTGTGACCTTTTGAGGAACTGCCAAATGGTCAATGTGGCTGCACTATTTTA
Y
ATTCCCACCTGTTTAAAGTTTTGTAACCTTTTTTGGTCTTTCAGCATAATGTTACATTGTGAGTGGGCTACAGTACAACAGACACCCACCTTCCTGGAGA
Celera SNP ID:            hCV1655837
SNP Position Genomic:     33918
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45041):
AGATTCCCATCCCTCTGTAGGTGCCCGGACATTAAGCCTTTCAGCACCGGCTCCTCCCCACCTCCCACCCAAAGCTCCTTCTCAGTCCCTTTCCCACCTG
R
GACACATCTGCTCCAATGGGCTCCCCTCTCTTATGTCTGAGATATCTTTAATTTAATTTAATTTAATTAATTTATTTATTGAGATGGAGTCTCTCTCTGT
Celera SNP ID:            hCV1655838
SNP Position Genomic:     34116
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45042):
CAGCCTCTTTCCTCTTCTGCCCAATGGAGCCAACATCCATCTTCCCTGGGATGTTGTCCAGATCCAGTGAGGGACCCTCTGCATGGTCCCGTGGCATAGA
Y
TGGGTATGCCACCAAGTGACCCCTGGCCCTCCAAGCAGCTGAAGAGTCTTGCACCTCAGGTGTGTGTTTCAGGGACATCCCTCAAAGACACTCCAACCCT
Celera SNP ID:            hCV1655839
SNP Position Genomic:     35183
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,8)   caucasian(C,5|T,25)   total(C,9|T,33)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45043):
TATTTTTCTGTGAAGTCCACATGTCCCTGCAACTTTACCCTGTACTACGAGGTGGCTGCACGGGGCAATATTGTGCTATCGGGCCAGCAGCCTGCCCACA
Y
CACCCAGCAGCGAAGCAAGCGGGCGGCCCCTGCCCTGGAGAAACCGATTCGTTTAACACACCTTTCTGAGACAGGTGAGCCGGGCAGCAGGGAGAAGGTT
Celera SNP ID:            hCV25956694
SNP Position Genomic:     52079
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,40)   total(C,71|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:45044):
CCCAGACCCCAGCCCATGGTAACTTGTGGGCAAGTCCAAGCATCCCACTGACCACTGCCCCCAGGGGATGGGAGAGGAAGCAAGTAGAGAGTCTGAGGAC
M
CTGACTTCTGGCTTCCTCTGCAGCTGCTCCTTGACAAGCACATGGGGATGAAGAGGTATGAAGTGGCTGGACGCCGAGTGCTCTTCTACTTTGATGAGGT
Celera SNP ID:            hCV15955357
SNP Position Genomic:     133064
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|C,45)   total(A,1|C,45) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45045):
CTTGCACCTCAGGTGTGTGTTTCAGGGACATCCCTCAAAGACACTCCAACCCTGAGTGAGCACGGGCTGTGTTTTTCCTCCCTCCAGATCCTCGGCTCCC
R
GGACTTCGACATCTGCGTGAGGGACATGATCCCAGCGGACGTCCCTGAGCACTTCCGGGGCAGGGTCAGCATCTGGGCCATAGTGACCAGTGTGGACGGG
Celera SNP ID:            hCV25967767
SNP Position Genomic:     35331
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,26)   caucasian(A,14|G,20)   total(A,20|G,46)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,739|A,758)   total(G,739|A,758) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:45046):
TCCACCCCCGTGCAGAGGCAGCTGGTGGACATCCGGTACTCCAAGGACACGAGGAAGCAGTTCAAGCCGGGCCTGGCCTACGTGGGGAAGGTAACTTGGG
R
GTGACTGTGCTGCCTCCCGCCCAAGGACCACCGTGAAACCACCACCACTAGCCACTAGCTCTGCAGTGGTGACTCAGCTGAAAACGGATCCCCTGACATA
Celera SNP ID:            hCV25969008
SNP Position Genomic:     35556
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,36)   total(A,2|G,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:45047):
GTCAATTTTTTAATTTTTTGTAGAGATGGGATCTTGCTGTGTTGGCCAGACTGGTCTTGAACTCCTGGGCTCAAGCAGATCTCCTACCTCAGACCCCCAA
R
GTGCTGGGATTGCAGATGTGAGCCACTACACCCAGTCATTATTCTTATTTTAACTGTTAAACTGGGGTAGGCTGGGCACGGTGGCTCATGACTATAATCC
Celera SNP ID:            hCV1655841
SNP Position Genomic:     36885
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45048):
TGAGGTTTAAGTGTCACACTGAACTGTCCATACCCTGGTATGGCATCAGACTAATGACTAGCACATGTAATTTGTACTTCATGACCTCTTTGCCAAATCC
R
AGGGCATGAAGGTCTACCCTTATGTTTCTTCTAAGAATGTTATAGCTTTAGCTGTTACATTTAGGTCTGTGATCCATTTGAGTTTATTTTTGTATATGGT
Celera SNP ID:            hCV1655842
SNP Position Genomic:     38406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45049):
ACAGGAGGTGAGGACAGAGAGGTCTCCAAACTGGAGCTCTTGAGGAAGTAGATCCAGAAGGCCTTAGTGTCCCATCATCAGGGGAGGCAAGAACAGGAGG
K
ACTGGAGAGGATGTCCCAGCCCTTGGCTTTGGGAACTGGCAGTGGACCTGGCGGCCCTGCAGAGAGTAAATACGTAGATGGGAACTGAGGACACTGTGGT
Celera SNP ID:            hCV1655843
SNP Position Genomic:     40524
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45050):
CCTCGGCCTCCCGAAGTGCTGTGATTACAGGTGTGAGTCACTGTGCCCAGCTGGACACTTGCTTCTTGATGCTAGGAAGAATGGGCTGGACAACTGGCTA
Y
TACTCCCTGAGGATTGGGGAGGGGGTTCCCCAAAGGGATATTGGAGCATGAGAGGGTGTTTCTTCTGGGCAGAGCAAGCAGAAGCATCCCCAAGACCCCC
Celera SNP ID:            hCV1655846
SNP Position Genomic:     42732
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45051):
GTAGCCAGCCTTTTTGGCACCAAGGATTGGTTTTGTGGAAGACAATTTTTCCACAGACGGGGGCACGGGCACGGGGGATGGTTTCAGGATGATTCAAGGA
Y
ATTATGTTTATTTTGCACTTCATTTCTATTATTATGACATTGCAATATATAATGAAACAATGATACAACTCACCATCATGTAGAATCAGTGGGAGCCCTG
Celera SNP ID:            hCV1655849
SNP Position Genomic:     43483
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45052):
CCACGGGCCTCCGGGGCCAAGCGCTTCTGAAAGTGTGGGGCCGCGGCTGGCAGGCGGAGGAGGGGCCCCTCTTTCACAACCAGACCTCGGTGACCGTGGA
Y
GGCCGGGGCGCTTCTGTATTCATCCAGACGGACAAGCCTGTGTACAGACCCCAGCACCGAGGTGAGTGGCCAGCATGGATGCAGGGAGGGCCGGCCATGG
Celera SNP ID:            hCV25973759
SNP Position Genomic:     21017
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,8)   caucasian(C,15|T,1)   total(C,33|T,9)
SNP Type:                 SILENT MUTATION;UTR 5


Context             (SEQ ID NO:45053):
GGCCAGGGGGTCTGTGCACACCTGAGACTCATGTTGTGTCGCAGCATGATGTAAGGAATTATGGGAACATGAGTTGCATCTTTACTGAAGCATCTCCAAA
R
GTCACACAAAAGGAGATTGCATTCAAAACACATGGGGAAAGCCATCAATTATTCTCTGCCTTTGTTGAATTCAGGATTTAAGGGACAGCACTTGTTTCCA
Celera SNP ID:            hCV25970272
SNP Position Genomic:     55446
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,4)   caucasian(A,32|G,4)   total(A,62|G,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:45054):
TCTACTTTGATGAGGTACCACCAGCCGGGGTTGGTGGAGGAGGCTTCCCTGGTGTGCATGTTGGTGAGGGTGCACCGGTCACTGCCTGGTGTGGCTCCCT
S
CAAGTATCTTGTACCATAAAAAAGACACTGGGGCCGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCCGAGGTGGGAGGATCACTTGAG
Celera SNP ID:            hCV15955364
SNP Position Genomic:     133249
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|G,45)   total(G,45|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45055):
CTACTTTGATGAGGTACCACCAGCCGGGGTTGGTGGAGGAGGCTTCCCTGGTGTGCATGTTGGTGAGGGTGCACCGGTCACTGCCTGGTGTGGCTCCCTG
M
AAGTATCTTGTACCATAAAAAAGACACTGGGGCCGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCCGAGGTGGGAGGATCACTTGAGC
Celera SNP ID:            hCV15955365
SNP Position Genomic:     133250
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|C,43)   total(A,3|C,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45056):
TCAGGTGTGTGTTTCAGGGACATCCCTCAAAGACACTCCAACCCTGAGTGAGCACGGGCTGTGTTTTTCCTCCCTCCAGATCCTCGGCTCCCGGGACTTC
R
ACATCTGCGTGAGGGACATGATCCCAGCGGACGTCCCTGAGCACTTCCGGGGCAGGGTCAGCATCTGGGCCATAGTGACCAGTGTGGACGGGAGCCAGCA
Celera SNP ID:            hCV25967772
SNP Position Genomic:     35339
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,2|G,34)   total(A,2|G,66)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:45057):
GGCATTGTCTCAACATCAGGTACATTAAGATTTCTTTTCTGCGCTGACTTTGCCGGTTGAGTGAAAGACACTCATGCGGGTCCAGAGAGCCTCCGGTGAG
R
TGGGCAGGCCTGATACCAACATCTGAGCAAGACACTGTGCATCTTTTTCTAACACACAAAACTTCAAGCCATGAAGCCAGCCTTGAGTCCCGCTGCACAT
Celera SNP ID:            hCV25960655
SNP Position Genomic:     74879
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,2)   caucasian(A,40)   total(A,70|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:45058):
GAAAAAGGAAGGAGAGAGAGAAAGAGAAAGAAAGAAAGAAAAAGAAAGAAAAGAGAGAAAGAAGAAAGGAAGAGGGAGGGAGGGAAGGAAGGAAGGAAGG
M
GGCAGGCAGGCGGGCAGGCGGGCAGGCTAATGCATCCCATTTTTGTGGTTCATATAAAGAGCCTAGAGCCACTTGATTTTGAAGACAGCTTATTCATTGA
Celera SNP ID:            hCV16148833
SNP Position Genomic:     116807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45059):
CCGACAGCCTTCAGTTTGCAGTCGAGACCTTCTTCGAAAACCAGGTAGAGCATCGTGCACTGAACCTGGGACACAGCCAGGGGCCATCGGGGCTTCTCCA
R
GGTGCTGGCCAGGGGGTCTGTGCACACCTGAGACTCATGTTGTGTCGCAGCATGATGTAAGGAATTATGGGAACATGAGTTGCATCTTTACTGAAGCATC
Celera SNP ID:            hCV25970923
SNP Position Genomic:     55339
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,14)   caucasian(A,28|G,8)   total(A,48|G,22)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,714|G,767)   total(G,767|A,714)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45060):
CACAGTTCACAATAGGGTTCACACTCCTGAGAGAATCTAATGCTGCCACTGCTGATGTGACAGGAGGTGGAGCTCACATGGTAATATGAGTGATGCGAGC
R
GCTGTAAATACAGATGAAGTTTTGATTGTCGGCCTACTACTCACCTCCTGCTGTGTGACCTGGTTCCTAACAGGCCATGAATCAGTACTGGTCCATGGCC
Celera SNP ID:            hCV1655850
SNP Position Genomic:     43794
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45061):
AGAATCTAATGCTGCCACTGCTGATGTGACAGGAGGTGGAGCTCACATGGTAATATGAGTGATGCGAGCGGCTGTAAATACAGATGAAGTTTTGATTGTC
R
GCCTACTACTCACCTCCTGCTGTGTGACCTGGTTCCTAACAGGCCATGAATCAGTACTGGTCCATGGCCCTGGGGGTTGGGGACCCCTGCTCTAAGGGAC
Celera SNP ID:            hCV1655851
SNP Position Genomic:     43825
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45062):
AAAGACTATGCTTTCCCCATTGAATGGTCTTGGCACCCTTATTTCAAATCAGTTGCCCTTAGCTGTCTGGATTCATTTCAGGGCTCTCACTTCTATCCCA
Y
TGGTTTCTATGTCTCTCCTTATGCTGGTACTACACTGTCTTGATTACTGTAGCTTTGTAGTAAGTTTTGAAATTAGGAAGTGTGAGTCCTCCAATGTTAT
Celera SNP ID:            hCV1655854
SNP Position Genomic:     48636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45063):
TCCCACTGGTTTCTATGTCTCTCCTTATGCTGGTACTACACTGTCTTGATTACTGTAGCTTTGTAGTAAGTTTTGAAATTAGGAAGTGTGAGTCCTCCAA
Y
GTTATTCTTCTTTTTCAAGATTCCTGAGTCCTTTGTGTTTTCATATAAATTTTAAGATCAGTTCCATTTCTGCAAAAAAGGCCATTGAGATTTTGATAGG
Celera SNP ID:            hCV1655855
SNP Position Genomic:     48731
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,1)      total(C,1|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45064):
CAGTTCCACGTGGCTGGGGAGGCCTTACAATCATGGCAGAAGGTGAAAGGTACATCTTACATGGTGGCAGACAAGAGAGAATGGGAACCAAGTGAAAAGG
R
AAACCCCTTATAAAATTATCAGATCTCACGAGACTCATTCTCTACCATGAGAACTGTATTGGGGAAACTGTCCCCATGATTCAGTTATCTCCCACTGGGT
Celera SNP ID:            hCV1655856
SNP Position Genomic:     49654
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45065):
AATTATGGGAGCTACAATTCAAGATGAGATTTGAGTGGGGACACAGCCAAACCATAGCACCCGAGGCTGGAGGGTGGTGGCACAGTCATGGCTTACTGCA
R
CCTTGACCTCCTGTGCTCAAGTGATCCTCCTGCCTCAGCCCCCCTAGATAGCTGGGACTATGGGCTTGTGCCACCACACCCAGCTATTTTTTTTATTATT
Celera SNP ID:            hCV1655857
SNP Position Genomic:     49874
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45066):
GGGGCCAGGACTGGATGCTGGGCACTCCGCTCCCTCAGCCATCCCAACCTCCCTCTGGCCCCAGAATGGCCGTCTTCCTGTGGTGGGTTGCAACATTGGT
R
CGAGGCAGAGCCCCCCATGCTGCGTGTCTTCCATAGGTTGGGGAAGAAGCCTATTTTTCTGTGAAGTCCACATGTCCCTGCAACTTTACCCTGTACTACG
Celera SNP ID:            hCV1655859
SNP Position Genomic:     51927
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,12)   caucasian(A,10|G,20)   total(A,22|G,32)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45067):
GCTGAGGGGCGGGATTTGTGGTGGGTGTGGTCAGTGCGGAGGGGGCGGGGTTAAGAGTGGTCAGGACGGAGGGGGCGGGGTTGAGGGTAGGTGTGGTCAC
S
GCGGAGGGGGCGGGGTTGAGGATAGGAGCGGTCAGTGCGGTGGGGGTGGGGTTGGGGTGGGTGTGGTCAGTGCGGAGGAGGCGCGGCAGGGGACGGGGCT
Celera SNP ID:            hCV15955370
SNP Position Genomic:     135595
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,9|C,31)   total(G,9|C,31) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45068):
GACTTTGGCCTTCCCCCTTTCCCACACTGTGGGGGCTGTCCCGCTGCAAAGTGAGCACCTGCCCTTCCCCTGGGAAGGGGGCACTGTGGTTTAGGAAGAA
Y
GATGTCCCAGCTGGGGACAGGCAGAGCCAGTGAGGGTGGGGCATGAATGAATGAATACACAGGGAATGAATACTCAGGGAATGAATACACAGGGAATACG
Celera SNP ID:            hCV25959904
SNP Position Genomic:     94406
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:45069):
GGGTTGAGGATAGGAGCGGTCAGTGCGGTGGGGGTGGGGTTGGGGTGGGTGTGGTCAGTGCGGAGGAGGCGCGGCAGGGGACGGGGCTGTTGTTGCAGGG
Y
GGCCCAGACAGGACGCCCTGTCTCCTTTCTCTCCTACAACCGCTTTTTAAAAGTCTGTTTCTGTTTTTGTAAGTATTAGGCAAATACCTGCGTGAAATTC
Celera SNP ID:            hCV15955371
SNP Position Genomic:     135708
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,42)   total(C,42|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45070):
GGCCCCATAGGAATCTTTCTCCTCTCCTGGCCAGTCAGAGCGGCTTCTCTTCCTAACGGCTGCCCTGCTGAGAGCAGGACGACACCATCTGGCTGCATCC
Y
GTCCCTATCAGCCTGTGACTCTGTATGGTGGGTGGGCAGACCTCAGCCCAGGTGACACCTGCCTCTAAATGAACCCAAGGAACAGAATGACAGAGATCTG
Celera SNP ID:            hCV15955372
SNP Position Genomic:     138268
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,1|T,43)   total(C,1|T,43) 
SNP Type:                 INTRON;UTR 3


Gene Number:                 225
Celera Gene:                 hCG37690 - 107000109405300
Gene Symbol:                 CDA
Protein Name:                cytidine deaminase;CDD
Celera Genomic Axis:         GA_x5YUV32W3P1(3710225..3752198)
Chromosome:                  Chr1
OMIM number:                 123920
OMIM Information:            CYTIDINE DEAMINASE;CDA


Genomic Sequence (SEQ ID NO:12385):
GCCATCGAAAAGAGTTTTGTTTGTTTGTTTGTGTTTGTTTTTGAGACAGAGTCTCAACTCTGTCACCCAGGTTAGAGTGCAGTGGCTCAATCATGGCTCA
CTGCAACCTCAACCTCCCTAGGCTCAAGCCATCCTCTCACCTCAGCTTCCTGAGTAGCTGCGATTACAGGCGTGTGCCACCACACCTGGCTAATTTTTTG
TATTTTTTGTAGAGATGGGGTTTCGGCATGTTGCGCAGGCTGGTCTGGAACTCCTGGCCTCAAGCGATCCTCCTACCTTGGACTCCCAAAGTGCTAGGAT
TACAGGTGCAAGCCACTGAGCCCAGCCGAAAAGATCTTTGTTTCCTGTTTTTTTCAACATTCTACTGGCTTTGTCCATGAAGTCCTTCATCAAACAAAAC
TCCTTAATTTTTATGTAGCCAAGTTTGAAGAAGCGAAAGTTTGTAGAGAAGTTTTTTCCATCCCCATCTCTTCTGTAAAATATCTGTTCAAGTCTTTTGC
TTACTTTTCTGTTGGGATGTTTGTCTTTTCTTACTGGTTTTAAGAATTCTTGATATATTGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGG
GAGGCCGAGGCGGGCGGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGG
GCTTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCCGAGGCAGGAGAATGGTGTGAACACGGGAGGCGGAGCTTTCAGTGAGCGGAGATTGCGC
CCGCCACTACACTCCAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAGAATTCTTGATATATTATGGATCATAATCCTTCCA
GGGAGCGTTACTCCCTGACATTTCTGGCCTACCCTATCTACCCTATGCATGGGCTGAGCAGACTCATATGCCCAGGGAATGCTTCAGGTAAGAAGCCATG
GGTATGTTTAGGAACTACCCGTTAAAGCTGGAGGTGACATCTGGGATGGCTAAGGGGGTGTGGGTGAGGCTCCGACAGTATTTGCTGTACCCACGTTGTC
CAATATGAACAGCCACCCATCATTTAAGACTCCTTTTGGGCTGGGTGCAGTGGCTTACGCCTGTAATCCCAGCACTTTGGGAAGCCGAGGCAGGGGGCGG
ATCACAAGGTCAGGAGATCAAGATCATCCTGGCTAACATGGTGAAGCCCCGTCTCTACTAAAATAAATACAAAAAATTAGTGAGGCGTGGTGGCACACGC
CTGTAATCCCAGCTATTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTCGCAGTGAGCCAAGATCGTGCCACTGCCCTCCRGCCT
GGATGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAGACTAAAATAAAAAAGACTCCTTTTATCCTCTTGTTATCTGGGAAGCTTTTCCTAACCT
ACCTACTCCACCACTCCTTCCAAACAATAGTTTTTCTGTATTGCTATGAGACCGAGTACCTAATCTCATTTTATAGTGTTTTATGCCTGTCTGTTGGCTT
ATCTGTCTCCTTCACTAGTGTGAGATCCTCAAGGCAGGCACCGAGTCTCATCCACCTCTGATTCTCTGGTACCGAACACAGGGCTTGGCACACACTATTT
GCTATAACATGTGCTAACACTTGTTAAGCACTTACCATGTGCCATTCGCCATGCTAAAAGCTTTATGTATATTATCTCGCTTGATTTTTACAACAATCCT
AGGAAGTAATATGTTCCTCTAGATGCCACAGGATTGACAGAAACAAAACTCAAACAACTTTAAGATAGAAGTGAATTTTACTAGTTCAATTAAAGGAAAA
TCTAGAAACATGCCTTCAGGCATGGCTGGATCCAGACACTCATTGAGCAGTTGGGGTTCTTTCCCTCCATCTCTCAGCTCTGTTTCTCTCCATCAGGCTT
CATTCTGCAAGCAAGCTCACTCTACAAAGAGGGGGAAGCTAGCTGCCAGCAACAGTTGTATCTTCCTACTTAGCAACCACAATGGGAAAAACCAACATTC
CCACTGACTCAGCAGAAAAGCGAGGTCTCTGATTGGCGCATCCTGTGTCAACTGCTTGTACCTGCTCATGGGGTGGAAGCACAATGATTGGCAGCCCACC
AAGAGGTCTTGCCTAAAAGAACCAAAATAAAACAAAAGAGATGGGAAGCCTTCCTGAGCAGAATAAAACCATGATCCACCAGAGATGGGTCCTTGTGTTG
TCCCATTGCATCAATGAGGAAAGAGGCACAGATCACTTGCCCGGGGATACCACTGGTGATAAGTAGCAGAAAAAACATTTAAACTGATGGGTCTGATGTC
AAGTCCTGCACCCCTTGTCCATCCATTATACTGGCTCCTCCTATGAATTCTGGGATGGATGAGAGCCCAGGATTCAGATGACAGACAAACTCAGGTTTAA
GATCTATTATTATTATTATTATTATTATTATTATTATTATTATTAGACAGTATCTTGCTCTGTCACCCAGGAATGCAGTGGCAACATCATAGTTCACTGC
AGCCTCGAACTCCTGGGTTCAAGCCACCCTCCCACCTCAGCCTCCTGAGTAGCTGAGACTAAAGGCATGTGCCACCATACCTGGCTAATTTTTTTTTTAA
TTTTCGTAGAGATGGGGTCTTAGTATGTTGCACCTGCTGGTCTCAAACTCCTGGCCTCAAGCGATCCTCCAGCTTCAGCCTCCCAAAGCACTGGGATTAC
AGACATGAGCCACCGCACCCAGCCTGAGATCCTTTTTTGAGGCTGTGATCTCTATGAGCTCAAGTGTCCTCATCAGTCAAATATGGGCAATAATAGTATC
TCTATCTGGTGGTGAGGATTAAATGAAATCATTCAAATAATATATTTAGCATAGGGTCTGGCACATAAAAAGAGCTAAATTAATGTTAGTTCCTATTATC
AATAACTATTCATTGAATGAATAAGTGAGTGCATGGTACCTAGACTCTAACATGAAGACTCTGGTTAGACTCTGGTTAGAGATGATACCTCACGTATCAT
CTCACGGTGTGAAGGCCTGGGAGCAGGGTTTAGGGAGGGCTTTGGACCCTTGAAAATCTCCACCACGGTGCAAAACACTCTCCATGGATTTTCTATTCTT
TGAGCTGGGCAATTAACTTTTCTTAATTTTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTGAGACAGGGTCTCATAACATAATGTTACCCAA
GCTGGGGTACAGTGGTGCAATCACAGCTTGCTGCAGCCTCGAACACCTAGGCTCAGGTGATCCTCCTGCCTCAGTTTCCTGAGTAGCTAGGATTACAGGT
GCACACCAGCATGCCCAGCAGATTTTTTTTTTCAGATAGGGTCTTGCTATGTTGTCCAGGCTGGCCTCAAACTCCTGATCTCAAGTTATCCTCCCACCCT
GGCATCCCAAAGCACTGGGATTACAGGTGTGAGCCACTGCAACCAGCCAACTTTTCTTAGTTTTACATAAAGTAAAAATAAAAGCATGTTTAGAAAGTGC
TGTTCATATTATTGATCTGTAACTTAGCTCTAAGCAAGTTTCCAAGCCCACTTTCTCCTTCCAACCGAATGACCACCCCAAGCCCCTTCCATTAGGAATT
CTAGGCCAGGTGCAGTGGCTCACACCTGTTATCCCAGGACTTTGGGAGGCCAAGGCTGACAGATCACATGAGGCCAGGAGTTTGAGACCAGCCTGGCCAA
CACAGCAAAACCCCATCTCTAGTAAAAATAGAAAAAAATTACCTGGGCATGGTGGCACACACCTGTAATCCCAGGCTACTTGGGAGGCTGAGGCACAAGA
ATTGCTTGAACCCAGGAGGCGGAGGTTGAAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTAGGCAACAGAGTGAGACTGTCTCAAAAAAGAAAAAGG
AATTCTAGAGCCACCACTGGCACCCACGCTCCATACAGCTGGGTTTGGAATGAGCGCTGTCCTCAYGTATGACCACGTGCAGGTAAAGAGCTTTGAAGGT
GCCAAGGGCCATGAGTAGCTTGGGAGGTCATCTAGGTTCTCCCAGCACTGTGGAGTCAAGGAGTCCTGAAGGCCGGTCCCAGGCCTGGGCAGGGCTGGGT
GGGGCAGACTGAGACAGGGCAGGGGACAGGAACGGGATGACTTATTGAGGTCTCTGACAGGCCTGGCAGACCAGCAGGGCACTACAACTCTTTTCCCAGT
AGTAATTATACTTGGCCTGAAAAAGCTTTAGAATTATTCCCACGTTGAGTGGGCACACAGTGTCCTGAGACATCCTTGGCCCTCTGAGATCCAGGAAACT
GCTCTAGATGCCAAAGTTATAGAGACAGTAGGAAAGTGCATGGGTGGAGAGGCCCTCAGCCCCAGCAGGAGGCAATAGGCTGCCTCTCTGAGGGCTGGAT
GCAGTGGGAGGGGAGGGGATCTGAAGGGAGAGGAGGCAAGGAGGAAAGGAAGCAAACTTTACCCAACTCTTCAGCGGCCCAGCTGGGTGTCTGCGATGTC
CACATATGGCTGAGAGCTCCAAGTCTGGGACACAGAGATGCCAGCATGCAGGACACGAGATACTGCCTTGTTTTCTCCTCCTTTCCCCTGCCTTTCCCCC
TGCCCCTTCCCCATTCCCCATCCAAACTCTCCTGCTGGCCAGGGGTGTGGAAACAGTTGGATGTCTTTGGCCACTCTAGCTGGAGTTCTGCCCTATGTGA
TCTTGGCTGAGTCACTTAATGACAATAACCCAGTTTGTGTGGAGTCACAAATGGTGTTCACATCATAACGTCACCAGACTCTCCAGCCACACCCATTGTA
CACGCATTATCTCATTCAATCCTCATGACAACTCTGGAAGTGAAATCATGTTAGTGCACCCATTTTGCAGATGAGGACACTGAGGCTTAGGGAGATGGTG
TGTGACCTTCCCAATGTCATATGTCTAATAAATGGCAGGAATGGAATTCAAACCATGGTTTACTAAACTCCAAAGCTGGAGCCCTTCTACAGTCTCAGGA
TCTAGAACAGGGATTATTACTATCTCTGCTGTTGACATGAGGAAACTGTGGTTCAGGGAGGTCAAGTGACCTGCCAAAGCTTGTACACATGGAAAGTAGT
AGAACCAGGATGCAAACACATTTCTTTACCACCAACACCAATATCTATTTTGCCAACAAAACAATGAGGGGGCCTGAGTAAATAATCTCAACGGTTAACT
CCACCCTCCAATTGAGATACTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTGGCTCTCTGTCACCCAGGCTGGAATGCAGTGGTGCAATCTGAGCTC
ACTGCAGCCTCTGCCTCCTGGGTTCAAGCCATCCTCCCACCTCAGCTTCCCAAGTAGCTAGGACTACAGGCACATGCCACCATGCCCAGCTAATTTTTGT
ATTTTTTGTAGAAACAGGGTTTTGCCATATTGCCAAGGCTGTTCTCAAACTCCTGGGCTCAAGCAGTCCTCCTGCCTCAGCCTCCTAAAGTGAGCCACCA
CACCCAGCAGCTGAGACACTTTTTAATTCTGGGCTAGGGCAAAGAGAAGTTGGAAGGAAAATGGGTGAAAATAAAGAAGTTCTCAGTTATACTGCAGCTT
GTTCATGCCTCCTGCCTCGGGATGCCGCAGTGGCTGCCCCAGCCCTGCCCTTTCAGCCTCAGCCCTTCCCTCAGTGAAGGAGAGAAAAAGTGATTTAACA
AAGTGAGGACTGTCAGCCCTTGGAGCTTGGACCTTTGAGATCTCACACTGCCCCACCCAGTAGCTTCCCCTTCCAGTAGCGTGGCACCACCTTCTGACCC
ACCCCTCAGTGTGTCCACCAGTGAGAGTGGTTCCTAAGGGAGAGTGTGAAGCACACGTAGGCASTGTCTTACACCACACCTGCTGAGTCCAAACCATGGG
AGGCTCCTCTCCTAGACCCTGCATCCTGAAAGCTGCGTACCTGAGAGCCTGCKGTCTGGCTGCAGGGACACACCCARGGGRAGGAGCTGCAATCGTGTCT
GGGGCCCCAGCCCAGGCTGGCCGGAGCTCCTGTTTCCGCTGCTCTGCTGCCTGCCCGGGGTACCAACATGGCCCAGAAGCGTCCTGCCTGCACCCTGAAG
CCTGAGTGTGTCCAGCAGCTGCTGGTTTGCTCCCAGGAGGCCAAGMAGTCAGCCTACTGCCCCTACAGTCACTTTCCTGTGGGGGCTGCCCTGCTCACCC
AGGAGGGGAGAATCTTCAAAGGTAAAGGTGGGCACCCCAGGGTCCCCCAGCCCAGCARCCTGGGTGGTGGGTCAGAGGAAGATGTACAGGAAGAGGCGCA
GAGGCACAGGCAGTGGCAAGAGCGCGGCTCTGTCCCTTCTTCCCCCAGTCTCCGCTGGAATGTTCCTACCCTGCCGACTGCCCCAGACCGCGCTCAAATG
TGGCTTAAATCCAGGGTCTTTCAATGCTTAGAGGACTGGGATGAGGAAGGAAGTTGRATGGGAGGCAGGAAGGGGAGGCCATAAATCAAAAACATCAACA
GTCCTGGGGTGCAGGCAGGGAGAGSGTTCGTGCTTTCCCAGCCTCGGATATGTCTGGCACCTTACTGAGGCTTCCACAACACTAAGTCCACACCTCCTGC
CCACTGACCTAAGTGTTAATGCTCGTCTTTAGATGAAACTACGGAGGTCTCGAGAGGTGACATGACTTGCCCAAGGTCACACRGGGCGCTGGTGGTGAAA
CCCTGGGCTGGAGGTTCCCCAAAGCCCTGCTCTCTTCCTTCCACCCACTGTGCTCAGTGCTGGCCAGGGTGGTGACGTGTTTGTCGGGGGTGGTCGGTGG
AGAATCTTGGAGGAGAAAAGCCAGCTGGGCTTTCGGAGTCCAGCAGTGAGCAGCGCCCTGCGGGGCGGGGGCGGGTAATGGAACCTGARCCCATCTGAGT
CTGCTCTAATCTGTTCCTAAACTCTTTTCTTTGATTTATTGCTTTTGTAGAAAAGTTCATGTGAGCAAAAATTCAAGCTTGTTTTTGMTAAGCTTAGAGG
CATTCTCCTTCAGGGCAGTAGGGGACATGGTGTGGAGGTACCCCTTGGTATTATTCCCTGTCTGTTGAGGTTCTGTCGGGTGTGACTTGCCTGGGTCTTA
AACATCTTTGAGTGGGAGAAGCAGGTTTGATTGAGTGCTAACAGCCTGTGAAAGGAAGGTGATTAATGCTATCCATTTAACCCCTGCAACCCTGAAAGGC
AGAGAAGGAAACAGGTTTGGAAAGTTTCAGAGCTCRAAATCACAGAGCTGGGATTGGAACCCAGACTTCCCCTGACTCCAAAAGCTGTTGCTCTGTGGGG
AGTGAAGGATCTCTGAGTACCGTGTTGAAATTCAGACCTGTTTTGGTGGCTGAGGTGAATATTAAACATTAACCACCACCACAAACAACAAACATTCACC
ACCACCGCAAACACCATTGCAACTCACAACATTGCAGAATCTTGAATGTGGAAATCAGCCCTTGATTCTTTCGAAAGCCTCCACATCCTTTCCAGATGGC
ACAGAAAGGGCCCTCCTACAATCCCCCGGCACCCACACTGACCCCTCCTGCCRTGCTTATCACATGGTGTCATCACTGTCCACTTATGTATCTGCCTCTC
CCTTGGGACTTTGTGCTGCAGAGGGCAGGAGCTGTGTCTTGAATCTTTGTRCCATTGACTTTCTCGTGCTGTGACGTAGCACCTGCCTGGCTCAGAACAG
GCACTCAATAACTGTTGAGTGACTGATTGGATGAATGAATGAGATGAGTACGTTTGGAGAAGCAGAAGGAAGAGGGATGGTGGGGCAGGTGGTGGTGATG
GGGGCTCAGCATGTTCGGCCACAGCATTTCCTGGCCTGTGGGGCCAGCATGGCTGCCTTCCATCCATGCTTTCCAGCACTGGAACTGGTGTTCTGCTTGG
AACAGCAGGAGGTCAGACAGCCTCATCGTGCCTCCAGAGCCAGGGGACCCCCATGCCAGAATGCTYGGGTCCTTTCTTGTTTTAAAACCCACAATAGTCG
GGCATGGTGGCTCACGCCTGTAACCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGATGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAA
CTCCATCTCTACTAAAAATACAAAAAAAAATAGCCRGGCGTGGTGRTGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAA
CCTGGGAGGYGGAGCTTGCAGAGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAACAAACAAACAAAAAAAA
ACAAACCCACAATAAAGGAGGCACACTTTCACTCATAAGTGACACCTGGGAGCTCCTTCCAGTGAAGTCCACACCTCTGTCACCCTCATACTGATCATTC
AACAGATATTTGCTGAACATCAACTCTGTTCCAGGTAAGGTGCCAGGTGCTGGGGATATCACAGTGAACAGGGATGACACAATCCCTGCCCCCATGGCAG
TCCCCTCATATTGCATAGGTGATGACTGAAGGCKCGAGCCTCATCCAGTGGAAGGAAGGAATGGAGGAGATAAACAGGACTGTGGCCCATTTGCATTGCA
GGGAAAGACCTGGTGTCACCAGAGAAAGGGTTGTGTGATGGGGATTTAGAGAGTGAAATGGAGGCTTCAGAGTCAGAGGTTCCTGGGTTGGAAGGCTGGT
GTTTATCAACTGTGTGACTCTGGGTGAGACCCTTCACCTTTCTGAGTGTCAGCTCATACATTTTATTTATTTATGGGTTTTTTTTTGTTTTTTTTTTTTG
AGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAATCTCCGACGCCCAGGTTCAAGCGATTCTCCTGCCTCAG
CCTCAGAGTAGCTGGGATTACAGGCACCCGCTACACACCTGGCTAATTTTTGTACTTTTAGTAGAGACAGGGTTTCATCATGTTGGCTAATCTGGTCTCG
AACTCTGAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCAGCCAGCTCACACATTTTAAGCCAGGGATCA
TAAAACCCACCTTTCAGGATGACTGTGAACAGAACCAGATTCAGCTGGTATGCTGGTATGCCTGGCACGACACGGCATGGCAGGCAGCATTCACTCTGAT
CGGTTGGTGCCTGCGCTGAGTATGTAGAATTTCACCCCTGGTTGTGAGGCTTTAAATGAGTAAATGCTTATAAAGCATTCAGCGCATTTTCTGCCTCGTA
ATAAGAAGGTCACAAATGATAGCTGCTTCTGCTACCACTATTAATGCTATCATTATYCTTATTATCTGGAGGCAGATTGTGGAGGACTTTTGGAGGCCAA
ACAGAGACACTAAGATTTGAAGAGGTAGGAAGTAGGGAGCCAAGGAATGTTATTAAGAAGAAGAGTAACATAAAAGTGGTGTGTGATGACATTTAGTGTG
ACAGGTGCTCAGCAAGGGCGGGGACAGAGGAACAGTGTCAGGGTACAGTATCTGCTCCACTCACTGACCTGTCTGCAGTGTCAGCACACTTCCTGGCCTA
TCACTGGGCCTCTGTAAGGTTTGTTGAACACATGAATGAAAGGCTTCTACTAGGACTGGGACAGGTAGAATGAAGAGAAAGGAATGATCCGAGAGATATT
GTGTGGGACACATGGACCGGGCCTGGCATGGGCAGTGTTACAAATAAAGGCTGGGTGCGGTGGCTCATGCCAGTAATCCCAGTGCTTTGGGAGGATGAGG
CTGGAGGATCCCTTGAGTCCAGGAGTTCGAGACCAGCCTGGACAACATGGCAAGACGTCGTGTCTACAAAAAGTACAAAAATGAGCTGGATGTGGTGGCG
TGCATCTGTGGTCCYAGACACTTGGGAAGCTGAGATGGAGGGATCACTTGAGCCCCAGGAGTTCRAGGCTGCAGTGAGCTGTAATCACACCACTGTACAT
CAGCTGGGCGACAGAATGAGACCCTGTCTCAAAAAATAAAAAACAAAATAAGAAATAAAGTAAAGGCACATGGCTTTAGGATCGCCAGCCAGGTGGCCCA
GGTGAATGATGATGAGGCACTGACTGAGGTGAGGCATTGAAGGCATGGCTGGACTGTGTGCTGGGGACGTGCTGGGCAGGGACCAGCAGCAGTATTCGAA
GCTACAATGGAGTGAGCTCACTAAGGACTTCATTTAGATGACCTCCTGTAATATCACAGCCACCTCATGATGGGGGACAATGAGTTTCACATGCACTAAT
CAGAGTACTTCCTATGGTCAACGTCAGAAAGCAACCAGAACCAGAGCGGGCAAGGGTAGTGCTTGTCTCAGGGTAGCTGGATCCAGGAACACAAACATCA
CCACATCCTTCTTTATCCTTCTGGGTGCAGGTCTCTTTCTCTTGTCCTGCAGGTGGGCTTTTTCTGGGCATCAGGGAACATGAGTGCAAGCAGTCTCTGG
TTTCCATTCTTTTGTTTTTGTTTTTGTTTTAAAGGCAGGGTCTCTCTGCTGCCCATGCTGGAAGTACAGTGGCGCGAGCCTAGTTCACTGCAGTCTCAAA
CCCCTGAGTTCAAGCTATCCTCCTGTCTTAGCCTCCCAAGTAGCTGGGACTACAGGTATGTACCACCATGCCCAGCTAATCTTTTTTATTTTTATAGCGA
TGAGGTCTTGCTACGTTGCCCAGGTTGGTCTCGAACTCCTGACCTCAAATGATCCTCCCACCTTGGCCTCACACAGTACTGGGATTACAGGCATGAGCCA
CTGCACCTGGCCTGTTTATCATTCACACATTACTGAAGTAGGAAGTGAGGCCAGGTGCAGAATAGGGGGTGGATGCAGTAAGTTGGGGCTTGGAGCAGGG
GGCACCTGGACACCCAGAGGAAGCCTGGTGTGGTTTCATGGGGTGAAGCAGAGCTGATCAGGAGGCAGAAACGGCACAGCTGAGTTTAGACACTGTGAGT
TTACAGCTTATGGCAGAACAGGTCTGCCCAGGTCTGTGACTTTCTCCAGCTAAACACAAGACCGGCACAGGTGAAGGCTTCCCCCTCCAAGGCAGCTGGT
GTCCCATCCAATTCAAAAGCAGGCCTGGCTGCAAAGACGGCCTTGCTATCGAGACTTCATAATGATCATCATTTTCTCTCTGTTACTCCCAACCCTGGCC
AGGGCCTTGTGCCCCTCACAGATGGGCCACCCAGGATGGTGATTAACAACTACAGCAATTAGGTTTTCATGATGCACCTCGGGCTGGTAACATTCGTGAC
TGCTTGTGGGGAGAGCCGAGGGAGAGGTACAGAAAGAGGAGCTCACTGGTGAGGAAAGAGCTGCTAAGGGAAAAAAAAAAGTGAGGACACAAAGAGGAGA
GTGGAGATGGCACAGAAGGAGGATTGAGAAAGCAAAGAAAATGGGCCAGGCGCGGTGGCTCATGACTGTAATCCCGGTGCTTTTGGAGGCCGAGCTGGGC
GGATCACCTGAGATCAGGAGTTCGAGACCAGCCTGGCCAACATGGTAAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGTATGGTGGTAGGTG
CCTGTAATCCCAGCTATTCAGGAGGCTGAAGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCC
TGGGCGACAGAGCGAGACGCCATCTCAAAAAAAAAAAAAAGAAAGAAAGATAAAAGAAAAGAAAGAAAGCAAAGAAAATGGTCCACGGAAACGGAGTCAG
CTCCGGGCCTTGCACATGGCTGAGGCTCAGCCGGTGTTCRTGCAGCGCCGGGTGGGTGATGGGCAGGGAAGAGAAGGACCACCTGTAACCCTAGGGGCAC
TGCACGAGGTGTCCCTGGGCTCGTGGGGAGTATGCATCTGGCGATGAGACCACGACAGTGCCAGAAAGGGTCCCAGGATGGTGCCCAGACACAAGACTTC
TTGGCTGTAGTTTCTGCCAACTCTGCTGGCACAACCCAAGGGATGGGAGGGTTTATCTTCTTCAGCTCATGACCTTAGGACAGTGGTCTCTCTCCCTCTT
TCCTCCTCCTTTCCTCTCCGTCTGCCATTTAGGGAAAAAGCCACTTTACTCAACCAGCTGGGGTGAATTCTGAGAGGAACACACCACATTTTAGAAGACA
CTTGAGGATGTCTTGGTTAAGTAACCACTGAATCCAGCCTACCTTGGCTTAATTCTTAAATCTGAGTCTTCCATTTTCCCTCAAACCACCCCCTGCTGTT
CTGATTCTGTCCCTGGTCTCCCTTTCTCTGCCTGGATGCATTTTCCTAGAAGCATTTCTTGGTGCCTGACACCAGCCCCTCTCTTCAGCAGCTGATGGAC
CCCAGGCCCCATCCCCCCAACACCACAGCATCTCTGGTCTAGGTAAGAGCAAGCTTCTCTAACCTGGGTCTTCAGCTTACAGCCCAGCTCCCATCACGCC
CCGTTTCCCGCTGTTTCCCCCTGCCAAGGAACTTCAGTTAGTCCTCTCCACTGTCACTCAAAAGTGGCTCATTTTGTGACCAGCCTAGGCAACAGGGTGA
AACCCCATCTCTACAAAAAATACAGAAATTAGCCAGGCGTGGTGGCACATGCCTAGAGTCCCAGCTACTCGGGAGGCTGAGGCAGAAGGATGGCCTGAGC
CCCGGTGGTGGAGATTGCAATGAGCCGTGAKCACGCCACTGCACTCCAGCCCAGCCCGGGCAACAGAGCAAGACTCTCTCAAAAAAAAAAAAAAAAAAAA
GGCCAGGCACGGTGGCTCATACCTGTAATCTCACTCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCA
ATATGGTGAAACCTCGTCTCTATTAAAAATACAAAAATTAGCCAGGCGTGGTGGCAGGCGCCTGTAATCCCAGCTGCTCAGGAGGCTGAGGCAGGAGAAT
CGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCACCATTGCACTCCAGCCTGGGTAACAAGAGTGAAACTCCATCTCGAAAAAAAAAATT
GTCTCATTACATAGGCAAGCTTTACTACAGTCCCTCGACTAAATAGCTGAGTTCGAATATAATTCATACCTGAAATGGTGCATTTGCAGTGGGAGGAGGT
TAGGAACATGGAGAGAGTGTCGTATTTCTTCAAGTATATGGACAGAACATTCCTCACGTGATTCTCAAACGTGGTCCCAGAACTGCAGCCTCAGCAGCTC
CTGGGAACTTGTGAAAATTTGAAATTTTTGAGCTCCAACCCAGCCCAGACCTATTGAATCAGAAACTCCAGGAAAGAGGCTTACAAGTGTGTTTTAAGAA
GCCCTCTACTCAGGAGGCAAAGGCAGGAGGATTGCTTGAGTCCAGGAGTTCAAATTCCAGCTGGGCAACTAATAACAAGACCCTGTCTCTAAAAAATATA
AAAATAAATAAATTTAAAAAGAGAAGCCCTCCAAAACATTCTGATGCCCACTTGCTTGAGTGTGAGAATACTGCTTTAATCTTGCTAGGATCCCTCAGAA
AAGAGAGTGGGTGCAGTGCTTTCTGGCATTATTCTTTTCTCTGGGTGGCTGGGCCCAAATAGCCTCATTGTGAGCTTCTTTCCCTGTTGATGTCTTTTTT
TTTTTTTTTTTTTTTTGAGACAGGATCTCACTCTGTTGCCCAGTCTGGAGTTCACTGGCACAATCTCAGCTCACTGCAGCCTCGACCTTCCTGGCTCAGG
CGATCCTCCCACCTTAGCCTCCCAAGTAGCTGAGATCACAGGCATGCACCACCATGCCTAGCTAATTTTTAAAATTTTTTGTAGAGACTGGGTTTTGACA
TGTTGCCCAGGCTAGTCTCGAACTCCTGGACTCAAACAATGCACCCACCTCAGCCTCTAAAAGTACTGGGATTACAGGCGTGAGCCACCACACTCAGTCT
TGCTGATGTCTTAATAACATCTGACCGCAGCCCTGCCTTAAGCACCAAACCACCTCAAAACATGGCCTTCCTTCCTGCAAGGCCATAGAGAATAAGAAGA
GTCTGGCCGGGCGCCGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCATGAGGTCAGAAGATCAAGACCATCCTGGCTAAC
ATGGTGAAACCCCATCTCTAATAAAAATACAAAAAAAATTAGCCGGGTGTGGTATGCAATCACAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAA
CCTGGGAGGCGGAGCTTGCAGTGAGCCAGGATCGTGACACTGCACTCCAGGCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGAAAAAAGAAGAGTCCA
TCGTATCTCACAGGCCAGGATGCATGTTTTGGCCTCCTGCCACCAGCCTTCACTTTTACCTTCTGTAAAATGGTGTTCTAACAGTATTTACCTTACCCAA
CAGTTAAAAGGATTAACTGACCTTATGCAGGTAAAGCACTCCACAGAGTGCCTGGCCTATGAGTGCCCAGTAAAAGAAAGCAATTAGTAATACTGGCACT
ATGATCGTAGTATTATTTGGTCCTATCTTATTATTATGGATTTCTAACTTAGCACCATCCCAATCTCTCTCATGTATGTTTTGAAGTAAGCAAAGGCAAT
AGCARAAACAGAATTGGTTTGCCTGGTCAGAAGACAGCCTGCTTTCTGGGCTGAGAGAAGCAAAACAAAATTGCACAGCATTTCAGGATGCAGTACGTGG
GCAAAGGCTTCCTTCCTTTTTTTTTATTTGCCTTTTTTTTTTTTTTGAGCTAGAAAATTCAAGGAAATTRCTTGAATTTGTTACAGGCTCCAAATACAGT
TATTCCTCTGCGTCTTAAGCATCTAGMACTGAAGTGGAAAATTCCACTCTTTCAATAATGGTTAGCCATCTTAGCTCAGGCCATGCTGTGGTTTGAAGGT
TTGCCCCCTCCAAAATGCATAAGCGTACTTTGGAGGGCTTCTCTTTTCAAATTTATTATTTATATACACTTTTAGAGACAGGGTCTCGCTATGTTTAATT
GCCAATGCAACAGTGTTGGGAGGTGGGACCTAATAAGAGGTGTTTAGGTCATGAGGGCTCTGCCCGGTGAGTGGATGAATACCGCTATAAAAAGGGCTTA
CAGTATGGATTCTCTCTCTTTCACTCTCCTGCCACATGAGGAATAGTGTTCCTCCCCTCCAGAGGATGCAATGTTCAAGGCGCCATCTTGGAAGCTGAGA
CTGGGTCCTCACTAGACACCAACTTGCCAACAGCTTGACCTTGGACTTCCAAGCCTTCAGAATTATGACAAATAAATTTCTGTCCTTTATAAATTACCTA
GTCTGGGATATTACGTTACAGCAGCACAAAACGGACTAAAACAGGCTGCTATAACAAAATACCATAGACTAGTGGTTTAAACAGCAGACATTTATTTCTC
ACAGTTCTGGAGGCTGGGAAGTCCAAGATTCAGTTCTTGGCGAGGGCCCTCTTTCTGACTTGGCCATTTTCTCACTATGCCCTGACAGGATGGAGAGAGA
GAGTTTAAGAGTCTCTTCTTCTTCTTATAATAGCACTAATCCCATCATGGGGGCTGCCCCCTCACGACCTAATCTAAACCTGGTTATCTCACAAATGCCC
CACCTCCTAATAGTATAGCGTTGAGGGTTAGGACTTCAACAGAAGAATTTTAGGGAGACACAAACATTCAATCCATAAGAGAAACTGAGAGCCCCATGAC
TTCACTGTTCCAGGCCCAGGACATACCACAACACATGTTAGAGACAAAATCTCTGCCCTCAGAAAGTTTGTAATATAATAGGAGGAATTAGATAATAAAG
ACATTTATTTCAGGAGACTGTTAAGTGCTATGAAGAAAATTAAAGCAGGAGAAATGGATACAGAGAGTTGGAGGCAGTAGTGGGAGGAAGCCATTTTAGA
TAGGTGATCGGAGAAAGCGTCTCTGAGAAGGTGACATTTGAGCAGAGCCCTGAGTAGGGTGAATAGTGCGCAAAAGGGAAAGAGAGTTCCAGGCAATGGG
AACAGCTTGTGCAAAGGCCCTGTGGCAGGAGCATACTGGTGCCCTGAGGGGAGCAGCTGGAAGGACAACAGGTCTAGAGAACAAAAGGAGATGCGAGCCA
AGAGGTAGCACCAGATCACATATGACCTTGGCACCAGATCACATATGACCTTGTAGTCATAAGAAGGATTTCAGGCCAGGCGTGGTGGCTCACACCTGTA
ATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACAAGGTCAGGAGTTCAAGACCAGCCTGACCAATATGGTGAAACCCCATCTCTACCAAAAATACA
AAAATTAGCCGGGCGTGGTGGCACGCACCTGTAGTCCTACCTACTTGGGAGGCTGAGGCAGGAGAATCGCCTGAACCCAGGAGGCAGAGGTTGCAGTGAG
CCGAAATTACGCCACTGCACTCCAGCCTGGGCGACAGAGCTAAGTCCGTCTCCAATATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAA
AATAAAATAAAATAAAACAAAATAAAATAAAATAAAAATAAAGGATTTCAAAGTGCCTGAAGGACAGGGACAGGACCACTGTCATACCTTGTTGAGAAGG
TGCAGAGGGTCACATAGCCCTACTGCCACCAAAGCCTTGATTTTTATGCAATTGATAACAGCAGCAGCTAACAGCTGCCGACCATTTCCTCTGTGCCAGG
CTTTGTGTTAAGTGCTTTACACGAGTGATCTCAATTTATTCTCACAACAGGACTATGAGGGAGATTCTATCATTAGYGWTTTACAAATGAAGCCAGTGAG
CCTCAAAGAGGTTCAGTCCCTTTCCCCAATTCTCAGAGCCAGTTGGGCAAAGAGTCCCAGGGCAGAATGAAACCTAATGGAACCTCTTTCTACAGGGTGC
TGTTTGAGTAGTGGGGCATGTGAGTGTGCCCCCTGCCACAACCATCTTTCTTTCTCATTAACTGGCCTATTACATGTTTTACACAAAGTAAAGGAAGATT
TCTSTCTCTGAGGCCTTTCTGAACTTCCAGAGCAGACACATGTGACCATCCTGAGAGACTGGGTCTTCTGCAAGTGTGGAAATGTGCTTTAACGGCATGT
CAGCAAAACCCAAGATCTGCATGCATCACTTTTGATGGGAAAAGTGTCAGACTTTAGTCAGGGATCGGGCAGGGAAGCTGGAAGGGCGGGGCTGGGAGAG
TCACTAGGCTGGGAGTGAGGCTGGCAGGGACTGTAATCTGGGAGAGAGGCAGAAACCAAGTGTAGGGATGTCAGTGAAGGTGGGAGTGGTGAGCAGATAT
GGCAGGTGAGAGTGGTGTTTAAAGAAAGTCATTTTCAGGGGCTGGGCATCTTAGCTCACACCTGTAATCCCAAGATTTTGGGAGGCCGAGCTGGGCGGAT
CACTTGAGGTCAGGAGTTCAAGACCAGCCTGAACAACATGGTGAAACCCCATCTTCACTAAAAATTAAAAAATTAGCCAGGCATGGTGATGCACACCTGT
AATCCCAGCTATTAGGGAGGCTGAGATGAGAATCACTTGAACCCAGGAGGTGGAGATTGCAGTGAGCTGAGATTGTGCCACTACACTCCAACCTGCATGA
CAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAGAAAAGAGAAGAAAAAGAAAGTCATTTCAGGTGAGGATCAGGAACCTGGCTGGGGAGACAAGGTGG
GGAGCAAGAGGCATTATTCATTTATACATTCAACTTTCATTGACTCAGCAGAGAGACTGAGCAATAAGGGGCCAGTTATCTCAGCTATAATAACTAACAT
TTAAATAAACAAAAGCTCTCAGGGTTGCAACTTCCTGATTGTACCCTGCCCCATATTCCAACTGTATTAACTGATCTCTGTATGGTTTCAAATGATAAAA
ATACACATGAACTATTTTAGACAAAAGGAGGATGTATGGATTCCTATAACTAAACCGTGGGAAGACCTGGAGTGTAGCCAGACCTCAGGGGCAACTGGCA
CTGGCCAGACTCCTTTCTTTCCATCTCTMTTCTCTCATCCATTCTTCTGAGTGTCCATTTCAGCCTCTCTCATTGGTCTCTTCCATAATGAATGGAAACA
TGGCGGCCCACACTCAGTGTCTCAAGAGAGAAACTGAAGTTCCCACACAGAGATGAACTCTGATTGGCCAGTTTGAGTCAGGTGTTCATCTTTATGCCCA
TAGCAAGGTCATAGGAGACAAGATGGCAGCTCCCATTTGAACTACATGCTGGGGAATAAAGTAAGAGTCATTCCTCAGGGGAAAAAATGTAAGAGGTGTT
AAGTTGTCAAAACAGTAGATGCTCACTATAGTCTACCCTTTGGTGCTCAGTATACAAGCCTGTTTTCTTCCCCAAAGTAGAATTCCAAACCAGCCCCCAT
CTAACACCATACAGCCATCCCATGCACCACTGTGACCACATTCACCCTCACCCTGACAAGGGACCTGCAGCTGTGGCACCCAGTAGTGTCTAATGACATC
CGTCAACTCTGGACATGAATGCCTGYGATCCTGAGAACGAGTTAAATGACTAATCACTCCTAACATGCCAATGTAAATAATGAAGGGACCAGAAAATATG
TGAGGAAAAATATACAAGAAGATAATGACCAAATAATTCCCAAATGTGATCAACACGGAACAAAATACTGCATAATCACAATGAAGACTTGGACTTATAA
AAGGAGGTGTAGGCTGGGCACCGTGGCTCACACCTATAATCCCAGCACCTTGAGAGGCCAAGGTAGGTGGATCACTTGAGCCCAAGAGTTTGAGACTGGC
CTGGGCAACCCCATCTCTACAAAAAAATACAAAAAATTAGCCAGGTGTGGTGATGTATACCTGTGGTACCAACTACTTGGTAGGTTAGGATGAGAAGATC
AGTGGAGCCCAAGACTTTGAGGTTACAGTGAGCTATGATCATGCCACTGCACACCAGCCTGGGCAACAGAGTAAGATCCTGTCAAAAAGAAAGGAGAGGG
GAGAGGAGGAGAAAGGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGAAGGCTAAGTTGATGAAATCAATAAGTATACAGTGACTCAAACAAGATGTGGTGG
CTTATTTCCCTCATCTAACAGACCAGGGGCGGGCTGGAGTCCACAGCATAGGAGATGTGTTTCTCTGTCCTGCAAAGTTGTCCTGGAGACCAGATTCCTT
CTGTCTAGATGTCCCACCATCCCTAGAGTTGTGTCCTCATCTGCATGTTCAAACTGACACACATCATCACACCCACATCATGGTTTTTTTTTTTTCGTTG
TGTTTTGAAATGGAGTCTCACTCTGTCGCCCAGGCTGGAGCGCAGTGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTTCT
GCCTCAGACTACTGAGTAGCTGGGACTACAGGTGGCTGCCACCATGCCAGGCTAATTTTTGTATTTTTAGTAGACAGGGTTTCACCATATTGGCCAGGCT
GATCTCAAACTCCTGACCTTGTGATCCGCCCGCTTYGGCCTCCCAAAGTGCTGGGATTATAGGCTTGAGCCACCATGCCCAGCCTCATCATGTGTTTTTA
TAGGCCAGGCTTGTGGCTTCTTTGGCGATCCAATTCTATCAAAAGTTGGAAACATCCTGATCTATTTGCTTCCAATTATTTCCATACAGAAATGCCACAC
CCAGAGATCCCTTCTGGACATGGTTCTGAAGCCTGCCAACTCTGGCATTTTCCTAACTGGCTCCCATGCCTGGCCCATTCCTGCTGCCCCATCTTAATGC
TGGCTATTGTGGTGCCTGAAACAACAGGCTGTGTGGGCAGATGACACATCACATCTTTGCCACAGGGCTGATTCCCATTGCCAGGGAGAGAAATTTCAGT
GGTGGGTACCACGGCCTGCCTTCCTGGTTATTGCAGGTGGAGCTTTACCAAATAACAGACTAGGAGGAGTCACCATCTGGCCATCTTGCCTCATCTGTGT
TTTCTCCTTTGCGTTGCTCAACCACTAAGCCAATGTCACATACTTTAGATTTTTTTTGTTCAAGTTGCATCTCACCTTCAGCACAAATGTCTGTATTAGA
CATAGGTTATGCTACTATAACAAACAGATTCCAAGATGCAGTGATATAAACATGGTGGAATTCTCTTTTTCTCTCACACAACAATTCAGAGTAGGCCCCA
GGCAAACGGGCAACTCTGCCCCATGAGTTGACCAGGTTTCCAAATTCCTTCTCTCTCCTTGCTGCTCCTCCATTCCCTTGGCCACGCAGTCAAAAGTGTC
CCACCCCATCACCTCCACCTTCCAGTCTGTGGAAGGAGAAAAGAATGGAAGTAACAGGCAAGCAACCTCCTTACCAAAAGTATGATCCAGAAATTTCCCA
CATCACYTTGGGCCACATCCCATTGGCCAGAACTGCATCATGTGGCCACACTGTGCTGCAAGGGAGTCTGGGAATTACAGTCCCTAGCTGAGCGGCCATG
CTGGAATGGGAGGCACTTGTATTACTTAAAGGAAGAAATAGGAAATGAATACTGGGGAACAACTCCTATCTCCGCCTCAGGGAAAAAGGCAATTTACAAA
CAGTGATACAGATGGAATACCACATCTTGCTGGTCAGGGGAAAACCCAGCTCCCATAGTGATTTGTTCGTAGACTCACTTCCCTGAATATGGGGACTTTC
TTAGCCAATCTGGTTATGCCAACATCTTGCCTCCTAGGAGCAGCCTTGGCTTATTGTCCCCCAGCAACAACCCTGAGAGAGCCAACAGGAAGGACTCCCT
TACTGAGAGCTGGGCCATCTTAGGAGCCCACATCCCACTGGAGGCCCGAGGATTGTTTTAAGTCTTGTGAAATCACAGGCAACTCGCACAAAGCTCGAGG
TGTTTTTTTTGTTTGTTTGTTAATTGATTTCGTTGTTAGTTGGTTTTGACAGTGTGTTTGTTTTGCAACACAACTGACACAGAACCCTGGCTGAACTCTG
ACAGCCAGTACCTAACCCCCAAAATTTTGTCCAGGCTCAAACTTGGAATCAGGATCTGTCTTAGTCCATTCAGGCTGCTATAACAGAATACCATAGACTG
GGTAGCTTGTAAATAACAGAAATGTATTGCTCACAGTTCTGGAGACTGGAAAGTCCAGGGTTCAAGGCACTGGCAGATTCAGTGAGGGCCTGCTTAGTCA
TAGACGGTGACTCCTTGCTATGTCCTCATGCGGCAGATGGGGCAAGGCAGTTCTCTGGTTTTATAAGTGCATGACTCCCATTCCTAGGCTTGGTCCCCTT
CATTCCATTCTCATTATCTAATCATTCCTCCAAAGGCCCCACTTCCTAATACCATCACTTTGGGGGCTAGGATTTCAACATATGAATTTGATGGGACACA
TTCAGACCATGGGGCTCTTAGATCTCTTAGATGCAGGTGTGGGGGCTCTACTTATTTTTGTAAGCCTCGGGATCTACCCTGGCCTTGACCTCTGCAGGGG
TGATGGAGCTGCCTAATCTGCCTGTTGTGCTGCCCTGCTCCCAGGCTGTGCTTCATCATGGAGGCATTGGGTAAATTAAGACAGTGCCAGGTTCTTGGGA
AGGGCCACTACCATGGGCCAAAGAATCTACCAGTGCCCCAGGTCGAATTGYCCTAATTGCCCTKTCCTTCTCCCCACCTTGTTTGGAGTAACCAGTTCCT
TCCTGCTTTGGAATGGGGCAAACTTCTTACTCAACACACGCAACAGGAAGTGTCTCTGCCAGACATACCACTGGACTCTGCTCTCTTCTCAGGGTGCAAC
ATAGAAAATGCCTGCTACCCRCTGGGCATCTGTGCTGAACGGACCGCTATCCAGAAGGCCGTCTCAGAAGGGTACAAGGATTTCAGGGCAATTGCTATCG
CCAGGTGAGTGGGAAAGCCAGGTTGCAACAATATTCATTCATCTCTTTAGCCAACATCTTCCTTACACATATTATTCATTCATTCATTCATCTGACATAT
GTTTATTGTGGACTTCCTATGTGCCAGGCACTGTACAGGGCCCTGGGATGAGTGCTGAGGATAAGGAGATAAATAAGAAATGGAGTTTGCCCTCAGTGAG
CCTGCAAAGCAGGTAAATAAGCAAGGCAACTCTCATACAAGGGCCAGTATGCCCCTGTTCCAGCAACACAACGTGATACAGACTCCTGTCCTACAAGATW
TAACAGAAAGGCAGCATTGAAACATAAAGCGGGGGGAACCTGAGCCAGGYGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGATGGGCA
GATCACGAGGTCAGGAGATCGAAACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCTGAGCGTGGTGGCRGATGCT
TGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGCAGAGCTTGCAGTGAGCCGAGATGGCGCCACTGCACTCCAGCCTG
GGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAATTTTTTTTTGCTGATGGTGGCATGCCCATAGTCCCAGCTATTTGGGAGGCTGAGGCAGGAGG
ATCACTTGAGCCTGGGAGTTCGAGGCTGGAATGAGCCATGATTATGCCATTGCACTCCAGCCTGGGGGACAGAGTGAGACCCTGTCTCAAAAACAACACA
AAACAAAAAAGCATTGAGAACAGTTTGGAAAGGTCTTCACCGGCAAGTAATTATCACAGTGTTGTACCATTGGATTCTCTTGGCTTACTTATAGGTTCTG
TATTGTTTGAATAACAAAAAAGGAATACTGAAAGCTGGGTTTAGTGCAAGGCCAGTGGGGACTGCACAGAAGCAAGCCCACGTGCCTTTTATAAGATCCT
ACACTTTGCCTCAGTCTGGCCCCAAGGAGACCCAGCTTAATTTGTTTCTGAGTAAGTAAAGCCCGAGGTGCACTCAAGGAGAAGGGCTCCAGTATCCGAT
AGCCTTCCCTGTCACCGAGGTGTGTCCTGGCTTCCTTAAGGCTTCYGGAGGAATAAATGACGGTTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCT
GAGGCAGGAACATGGCGTGAACCCGGGAGGTGGAGCTCGCAGTGAGCTGAGATCACGCCTCTGCATTCCAGCCTGAGTGACAGAGCGAGATTCCGTCTCC
AAAACAAAAAAGCGGGAGGGACCTAAAAATCACCTGCTATAGACTCCCTTGCCACCACCCCCATTTTATAGCTGATGAAATTGAGGCCCCGATAAGTTGA
ACAACTTTCCTGGGAGTTAGTGCCAGAGCTGGGACAAAACCCAGGTTCCAGAGTCTCACTGCAGGGCTCATTCCACTACATCATGCTGTGCCAGGAGATG
GAACACTTTTCCCTGTTCTCCACAAGCTGATGCTAGGATCCTGAATGAGCCACTCAGCACTGCTCTCTCCTTCATTTGGCAACACTCACCTCTAGGTCCA
AGAACCAGGATACAAAAACAGTCAGGTAAACAGTAGTTATGGTTCAAACTAATCAGAGTCCAGCCAAGGTTCTGGCTGAACAAGAGCCCCAATCAATGCT
CCTATATGTCCCAAACATAAATATCCTAGTTGGTATGGCTTACTTTCCACGGGAGCATGTTGAATTCTTGTTGGCTCTGGCCCTAGACTCAGTGGTTTCA
GGATCCAAGCACGTAAATTAGCCCTTTTACTGGACTCCATTATTGAATGACTTAATGGTGAATTGCTCCTGTGTGCACCTTTGCATTGTGTATGACAGTT
TTCTTAACAAGTTAATGATGCAAGAAAAATGACATGGGAAATGTTGATCCCACCCAGAAGGAGGCTGCATGCCTGTTGGTCTTTAGGGACATCTGGGTGC
ATAGGTCACATTCTGTGAGGTAATTATCTCTTCACTCATAGTGGAGTTAATTCCTGTGGTAGAGCTRYAGCACCTTTCTGGCTAAAATACAGAAAGAGAG
CTACACCTTTTAGCACCTTTCTGGCTAAAATGCAGAAATGCAGGGGTTTAGTGCAAGGCCAGTGGGGACTGCACAGAAGCAAGCCCACGTGCCTTTTATA
AGATCCTACACTTTGCCTCAGTCTGGCCCCAAGGAGACCCAGCTTAATTTGTTTCTGAGTAAGTAAAGCCCGAGGTGCACTCAAGGAGAAGGGCTCCAGT
ATCCGATAGCCTTCCCTGTCACCGAGGTGTGTCCTGGCTTCCTTAAGGCTTCCGGAGGAATAAAKGACGCTGTGCTGAGAACATTTTGTGCAGATAGGCC
AAGATCAGGATGTGAATTGCACTTTATGAAAAAAAAGAGAAAAGGAGGGAAATAACTCAATTTCAAAGCTGATCCAAGAAAATAATGATATTCTAGGGAA
AAAGAGGCCAAAGTCAACCAAAGGATAATGATGCCTTGCTCTATTTAGAATTTTCCAAATGAGAGGCTTTTTCTCTTGGTCATTATCGACTTTTAAACAA
AACTAAGTATCACTAGCAATGATTAGCAAATGTCCTTATTTACACAAAACCTGCCATTTTTCCAGCACCCAACTGCTGTACTCTRGGTATTCAGCTCAGT
TTCCCTGAGCCCAAGATGCACTCATTATCGCACTCATGATTTGTTAAATTGAGARCGTTTGTGGATTTAGAGGATGAATGAGAAGTACCAGCTCCCTTGT
TAACATCAGATGGGTCTGAGCAACCTCAGAGAGAACCCCTCTCAGGTCTTTAAGGATGGAGACCGCACTCAGGAAAGGTCCGTGTGTCTTACTGCTCACA
GACAGATGAGACTGCCCCACTGGGTCCCAGCTGTAGTGATCAGAGTCAGTAGGTTTCCAGCCCGTCAAGTCTGATAAGTACGGCCTCAGTGTGTGACCAA
GGTGAGCACAAACCACAGAAAACTGTAAATAGCCAGCAAAAGGCAGGACAGAGTGAAGGGCAGGGTAGAGGGAGAAAGGGGGAAGCTGTGAAGAAACATC
CTGAGGCAGCCAGCAGGTGCTCAGTCTTGAGTGCTCTCTCTTGGCAGGAACGTTGAGTAAGTTAGAAGCCCAGGCTTCAGGGTCAGTGAAACCAGTTTCC
AAATCCAGCCGCATTATGGACCTTGGGCATGCTGCTTAGACCCTGAGCCTGGCTTCTCATCTGTGAAATGGAGGAGACTGGTCTGTTACAGGGTCTTAAG
AAACGATTTCTGTAAAGTTCCTGACACAGGGTATGTAATACATTCAAACTATTATATAKTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTGAGAACAA
GTCTCTCTGTGCCGCCCAGGCTGGAGTGTAGTGGCAAGATTTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCATGCTTCAGCCTCCTG
AGTAATTGAGACTACAGGTGCCGGCCAGCACRCCTGGCTAATTTTTGAATTTTYAGTAGAGACAGGGTTTCACCACGTTGACCAAGCTGGTCTCGAACTT
CTGGCCTCAAGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCAACCGCATTCAGCCTCAAACTATTAYATTGTTTTAAAGTT
ATCATTATTTCTTCTGCAAGCTGCAAAACTACCAAAGGCAGAGTGTGTAGATTTGGGGTTCAAATCCTGATTCTGCCACTTCACTAACTCTGTGGCCTTG
GGCAAGTCGTTTCACCTTTCATGATCTACMGCATGCAGGTGATAAGAGCGMCTGCATACCCCGGCCCCTTACAGGGTTGTTGGGGGATTAAATGAACTAA
TCCACTTAAGGTCCTTAGCACAGAGGCTGGCACACAGAACCACTATGTATGTGTAAGCCATTACTGTTAATGCGCTGTCTCTACATCCTCAGTGCTAGGC
TGCCTGGAAACACTATCCTGYGACTTTTGGTTGTTGAAGCCTACACCAAATCTACCTTCCCAGTGGAATGCATGCTTGCCCACCTTGAAATCCCTGATGC
AGATCACCTTGTCCAGGGAGCTAGCCATTGGGTAGTGGGCCACAGATGCCACAAGATTCAGAAAGAAGGCCGGGCGCAGTGGCTCATGCCTATAATCCCA
GCACTTTGGAAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGCCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAA
ATTAACCAGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGCGAACCTGGGAGGCAGAGCTTGCAGTGAGCCG
AGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAGATTCAGAAAGGAAGCGGTGAGCTCAGCAGGGGTCAGAT
CACACAGGGCCTTACAGGCCATGAAAGGAAGGCTGAATTTCATTCAGAGCAACTCTCCCATGGCCCTAACCATGCCTTTGTTACGGCATTTGTGTGAAAT
TTTATCTCCCCCTCCAGAGGGTAAGCTCCAGGAATTGTCCGATTGGTYTTTGTTGCTCCTTTCCCATGCCTGCCTGACATAGAGAAGGATTTTGGTCGAC
ATGTSTGGAATGAAGTGAARAATAACCCCCAAAAAGCTTAAGAGGCCCTGGCTGCAACAGCTGTCACCCAGTAATTCCAAGAGTTCACTCGGCATCCTGG
GCAGGAGTCCCCACCCTCTTATGTGCCCGTGGGTTTTTCTTCTGAAGCTGGAAGCGTCCTCAGAGAGGTCCCCATCATCCCATGGAACAGAACCTTTCAT
TGACTGGACCCCCACATGTAAAAGGTAGTAATGGTGAGGATTAGAGAAAATAGCACCTCAGCTGCTTTATTCTAATCATAATATCATCCCTATCTCCACT
TGACGCATGTGGTTGGTTGGTTGGGTGGTTGATCAGTTGCCTAGCTCCCCTCACTAGTCTATAAACTCCTGAGCATAGTGAATTTTGTCTGTTTTGTTCA
CTGCTGCACTCCTAGCACCAATGACAGTGCCCAGCACTGCTCAGTAAATATTTGTTGGTTGAARTGAGACAATGCATATAAAATGCTTTGCAGAATGYCT
GGCACATTCTAGGCACACATTATCTTTTTTTTTTTTATTTTATTTTATTTTTATTTTTATTTATTTATTTTTATTTTTTTTTGAGATGGAGTCTTGCTCT
GTCACCCAGACTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTACCTCCCAGGTTCAAGCAATTCTCTGCCTCAGCCTCCCAAGTAGCAGGKA
TTACAGGCATCTGCCACCACGCCCGGCTAATTTTTGTATTCTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACTTTGTG
ATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATAGGCACACATTATCTTAATAACAATTGTTGTTAAGATATAATAAGATGAATTATGAA
ATAGTACATAAATCACATAGCATATAATAAAACTGTGTATGATAAAGTACTAAAATTATGACAGAGCTTACATACGTAAGGAAATAAATGTCCAGCACTT
AGAACAGGCAGTAACAATATGTATATAACATTCTAAAGTTTACAAAGTCTTCCATACACCTTATCTCATTTTATCTTCTAGCATTCTTACAAAGCAGATG
ACGTATCATCCACATTTTACAGCAAATAAATGAGACTTGGATGAGTTAAAATGACTTAGTCAAAGTCACACATAGCAAAAGGAAGAGCCAACTAAAAACC
AAAATTTAAATCCTGTGTTCTGCCAGGCATGGTGGCTCATGTCTGTAATCCCAGTACTTTGGGAGGCTGAGGTGCAAAGATCTCTTGAGCCCAGAAGTTC
AAGACCAGCCTGGGCAATATAGTAAGATCCTATTTCTACAACAAATCAGAAAATGAGTCAAGTGCGGTGGTGCGTGACTGCAGTCCCAGCTACTCAGGAG
GCTGAGGTAGGAGGAGCCTTTGAGGCCAGGAGGCAGAGGCTGCAGTGAGCCATGATTGTGCCACTGCACTGTAGCCTAGACAACAGAACAAGACCCTGTC
TCAAATAAATAAATAAATAAAAATCCTATGTTCTTCCAGAGATATCACAAAGCTGTGGGTCCAGAAGAGTAAGAAGGATGGTGGCTGCTGGCTTCACCTG
TGGTGCAGGCTTGGAATTTTCCATCATCAAAGGCACTTGTTTGTTTTGTTTTGTTTTGTTTTGAGGCGGAGTCTCGCTCTGTCACCAGGCTGGAGTGCAG
TGGCACCATCTCGGCTTACTGCAACCCCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGGGTAGCTGGGACTATAGGTGTGCACCACCAC
ACCCAGCTAATTTTTGTATTTTTAGTAGCGATGGGGTCCCACCATGTTGGCCAGGATGGTCTCGGTCTCTTGACCTCATGATCCACCCACCTTGGCCTCC
CAAAGTGCTGGGATTATAGGCGTGAGCCACTGTGCCTGGCCAAAGCCGCCTGTTTTAGGGACCAATCCTTGTCCTGCTCAGAGCTGGAGGTCTGCCTGTA
GGAGCCTAAACTCTCACAGGCAATCCCTGGCTGGTGAGCTTCTTCAGTGCAAGGAGCCCATTTTTCTCTCTGAGACACATGCACTTTATTCTTTCATGCC
TCAGGGCCTTTGCACATACTGTTTTTTTGTTTGTTTGTTTTTTGAGACAGGGTCTCACTCTGTCACCCAGGCTGGAGTGCGGTGGCACAATCACAGTTCA
CTGCAACCTCCGCCTCCCAGGCTCGAGTGATCCTCCCACCTCACTCTCCTGAGTTGCTGGGACTACAGGCCTGCACCACCACACCTGGCTAATTTTTTGT
ATTTTAGTAGAGATGCAGTTTCGCCATGTTGGCCAGGATGGTCTCGAACTCCTGACCTCAGGTGATCCATCCGCCTCAGCCTCCCAAAGTGCTGGGATTA
CAGGCATGAGCCACCACGCCCARCCTGCACATACTATTTATTTCCTTCGCCTACGACACAGAGAAACCCAGGGCTTCCGAATAGCATCTCTGCCTCTTCA
TCACACTGAACCTATCTCCTCACCCTTAAAGTGGCCATTCTGACATCTTGATGTCAGSCCTCTGAGCCCAAGCTAAGCGGTCTTAACCCCTGTGACCTGC
ACATATACATCCAGATGGCCTGGAGCAACTGAAGAACCACAAGAGATGACATTCCACCATTGTGATTTGTTCCTTCCCCACCCCAACTAACCAATCGATC
TTGTGACATTCCACCCCCCCACCACCGACAATGAGTCTCACGRTCTCCCCACCCTGCACCGTGTGACCCCCGCCCCTGCCCACAAGAAAACAACCCCCTT
TAACTGTAATTTTCCATTACCTACCCAAATCCTATAAAACTGCCCCACCCTGATCTCCCTTTGCTGACTCTCTTTGCAGACTCAGCCTGCCTGCACCCAG
GTGACTAAAAAGCTTTATTACTCACACAAAGCCTGTTGGTGGGGCGGGGCGGGGTGGCTCATGCCTGGAGGCCGAGGTGGGCGGATCATGAGGTCAGGAG
ATCGAGACCATCCTGGCTAACATAGTGAAACCCCGTCTCTACTAAAATTACAAAAATTAGCCGGGCGTGGTGGTGCATGCCTGTAATCCCAGCTACTCGG
GAGGTTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTTCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGTAACAGAGCGAGACTCC
ATCTCAAAAAAAAAAAAAAAAAAAGCCTGTTGGTGGACTCTCTTTACACAGACGTGCGTGACACCAGGCTGCTCTGAGAATTCCATGAATTAATGAATGT
TGAGTGCCTGGTACAGAGCCTGGCATACAGTAGACATTCACTAAATGGTGACTTATGAACTCTACACTTCCTCCAAGGACCAGGACACATGCCTCCTCCT
CCATAAAATCTTCCTTCTCAGTCCACAGGCAGGGATGAGCTCCCTCATACTGTGTGTTCCTTCTGCAATTTTTTTTTTTTTTGAGAAGGATTTTCATTCT
TGTTGCCCAGGCTGGGGTGCTATGGCACGGTCTTGGSTYACTGCAACCTTTGCCTCCCGGATTCAAGCGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGG
GAGCTACAGGCGCCCACCACCAAGCCTGGGTAATTTTTGTATTTTTAGTAAAGACGGTGTTTTACCACGTTGGCCAGGCTGGTCTCGAACTCCTGCCCTC
AGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTACCAAGCCCAGCTGCATTTTGTTTAACATGATAACTCAGCTGGTTTT
TTACATAACAGAGACAAATTCTCTTTGACCTTTGTATTCCCGGGTGTGGGTGATGGTAAGTGCTCAGTAAACGTTTATGGATGGCACTAATGAAAGTCCT
GCCCATGGCCCTGCCTTGTGGCAGTGTGGAAAGCCACCACGTGGCCTTCTCAGCCTTCAGGACACAGTGGATCTGTGAATCAGGAACTGCCTGATGGGGT
ATGACCCAAATCAGGAACAGACCGAGWCTCAGGGCCTGAATCTTAGCAATTGTCCTCAGTCCTTGGGAGAGACTAATTTGAGTTTGATTCTTTGCTTCCC
CAGTGACATGCAAGATGATTTTATCTCTCCATGTGGGGCCTGCAGGCAAGTCATGAGAGAGGTAAGCAGCTTCTCTTGCTGTCTGGAATGCAAATATCTT
CCCTGTCGCAGGCTATGGGAGCCAMGCCAAGYTGCAGGCATGGCAGGCATGGCAGGCRTGGAGACACAGCTACTGTCCTGTTTGCTTGGTTGGCTGACTT
CTAAGGCCTCCCTACGCTTGCATGAGTCACTGGAAATTATTCCTTCATTTAACAAATACTTACCGAGTGAGTGTCTGCTTTGTGCCAGGCCCTGAGGTAG
CTCTGGGGAGGCACAGGGAAAAGATGGGCCAGGCCCTGCCCTCACAGAGCTCATAGGCTAATGCAGGAGACAGATGATAAACAAGGAGCAAAATAAATAA
ACAAACAGTGGCGTTTCTGAGTCAAGAGGGCTATAGAGGAAAACAAAATGCAGAAAAAAAAAAGGAGTCCAGTGACAAACGGGCAAACAGGGGACACTGC
AGATTGGGGTCAGCAAACAACAGCCCTTGGGCCAAATCCAGCCTGCTGCTTGTATTTGTAAATAAAGTTTTATGGGTATACAGCCATGGCCATTCATTCA
CCTATTGTCCATAGCCACTTTGCCCTGACACAGCAGAGGTGAGCCATTACGACAAAGGCCACATGGCCTCTAAACCTAAGATATTTACTGTCTGGTCCTT
GACAGAAAAAGGTTTGCCAACCCCTGCTTTAGATATCCAGGAAGGCCCTCTTTTTGAGCATGACATTTGAGCAGAAATATAAATAATGAGGAAAAAAATG
AGACAGACAAAGGTCAAAAAAGGAGATTCAGAACCAGCAAGTTCAGACCCTTGGTGAATTTGAGAAGAGGCAAGAAGGCCACGAGGGCTAGAGAGCTAGG
GCCTGGTAGGTGGAAGGAAAGCAATGGGATTGAAGTCAGAGGGGTGGGCAGAGGCCAGATCACATGGGGCCTGGCCATGGAACGAAGGGTACATTTTATT
CCAAGAATAAAGGAAACTGAAGTGTACACTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGYAGAGTCTCAGCTCACT
GCAACCTCCGCCTCCYGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCAGCTACCATGCCCGGCTAATTTTTGTATT
TTTAGTAGAGACTGGGTTTCACCATGTTGGCCAGGATGGTCTTGAACTCCTGACCTTGTTATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGCCACCGCGCCCAGCCTGGAGTGTACACTTAAACATGGTTAAAATGGCAAATCTTACATTATATATATTTTATCACATTATATACATTGGGAAAA
AAGGGAATAAAGGTAAGCCATTGGATATTTTCAAGAAGAAACTTGAAGGACTTTTTATAAAAGTCCTCTTGATGGAAGGCTGCAATTTCTTCAACTCTAA
AAACAAAACGGTAAGCCAGGTATGGTGGCTCAGCCTGTAATCCCAGCAATTARGGAGGCAGAGGCAGGAGGATCGCTTGGGTCCAGGAGTTCGAGACCTG
CCTGGGCAACATAGCGAGACCCTGTTCTCCACAAAAAAAAAAAAAAAGGAATAAAACAAAACAAAAAAATGAAAACGAAGGGATAGTTTAGATCATGGGT
TCTTAATCCAGGCTCAGGGGAAGGTTTTCATGTTTATATGTACGTTTGGGGAAAGGGGAATGTCAGTAACTATTGTGGATTCTCAAAGAGATCTGTGTCC
TCTAGAGTCCCAAAAGATTAGAGAATCCCACAGGCCCTGAGCTCCAGCATAATATCAAGAGCCCCTCGAAATACGGCATCTTGTGGGCATGATGGCTTAC
ACCTGTAAGCCCTGCACTTTGGGAGACTGAGGCAGGAGGATCACCTTAGCCCAGGAATTCAAAACCAGCCTGGGCCACATAGTAAAACCCGGTCCCTTCA
AACAATTTAAAAATTAGCAAGGCATAGTGTGCACGCCTGTGGTCCTAGCTGCTCCAGAGGCTGAGGTAGGAGGATCACTAGAGCCTAGGAGGTCAAGGCT
GCAGTGAGCTGTGATCAAGCCACTGCACTCCTGCCTGGGTGACAGAGCGAGATCCGGTCTCAAAAATAAATACATACCTACAGCATCTTGTTTAATCCCC
TCCCCAAGACTGAGTGAAATGCATGTCGTTATTCCCATTTCCCAGTGACCACTCTGAGGCTCAGAGGAGTAAAATGACTTACTGAAGGGCCCCCTGCCAG
GCGGTGACATATGGGTATCCATGGCCCATCAGGCTGACTCTGAAGCCCGTGCTCCTCACGGCTGCCTCTCTGTCTTTGTGGTTCTGTAAGTTGGACAAAA
TTATTTTCARCCATGGAGGAAACATAATGGTACTTTGGCATGTGGATGCTGCTTGTACCGTGGGAGTTTCTGCTTTTGGAGTTGTGTTTTGGGAGAAAGG
GGGTTGTTTTAGCTTTGTTTTTGTGCCGTGGGGTTTCAAAGCATCTGGGGATGCAGACACTTCCATCTTCCTCCTGCTTCCTGCCAGGAGTGCAAATCAG
ACACATTTCCCAAATCCAAAAACAWACCACCGGGAAAGCAGTGAATTTACACGGTGGAATTTGTCTCACTTGAGAGGGGCAGAAATAGCTGCCCTGCACG
GTGGAAATGTCGAAGGTCATATAAGGAAGCCACAACAGGGCGCCAAGTCCCTGGCTCCCAAGGCCCCGACGTGGTCCAATTGCTCAGTGCTGTTTTCTCC
AAACAGATTGGATGTTGGCAAACGAGAGAAGGCAAATGAAAAAGCTGAAGGAGGCAGGGGGGAAACTGAAACCAAATGCAAATGATAAGAGATGAGGCGT
TGGGGCCAGGGACCTGACACGTAAACTCGCCCTCGGCTCAACTTTTGTCTGTACCTACCCTTAGGCACAGCCTGTCAAGCAGAAAAATTTCCTTCCTTAA
AACATTAATTCTAAAAAAGCCAGAAGATTGAGTGTGCCCGGGAATAACTTGGTGATTCAGAGAGAAGTGTGGAAGAACAGGAGGCTGCAGACCTGAGCAG
TCACTGGCTACCAACATAATCAATAAGAATGGCATCTATTAATTGAACACCTACTATGTGCATAGAGATGCTTTACATGAATCATCTCTGCATCTCAGAA
TACCTGGCCAGAAAGAGCTTAGGTCTGTTGACCCCACCTCCAGGGCTCTTGTCATGACACCGCTGCTGATTAACCTCTTGCCTACCATCCTGCATTCTCC
CATCCCTAAAACCATTCCATGGACCAAGACACTGAGTGAGCCCCAGAAAGTTATCATTTTCCCAAGGTCACACAGCAAACAAACAGTGCTCCTCATAGTA
TAGGAGAAAGATCAAGAGACAAATTTTTCTTTGCTGACTTTACTCTGCTAAGCCTCAGTTTCCTCATCAGTAAAATGGGCATCATGATAGCACCTACCTC
ACAGGGTAGATTATGAAACCACGCATGTGCAGTATCTATGTGGTGTGGTTTGGCTGTGTCCCCACTCAAATCTCATCTTGAATTGTAGCTCCCATAATTC
CCACATGTCATGGGAGGGACCTGGTGGGAGGCAATTGAATCATGGGGGCGGGTCTTTCCCAYGCTGTTCTCGTGATAGTGAATAAGTCTCATGAGATCTG
ATGGTTTTATAAATGGGGGTTCCCTCACACAAGTCCTCTCTTGCCTGTTGCCAGGTAAGACATCCCTTTGCTCTTCCTTCCTCTTCCGCCATGGTTGTGA
GGCTTCCCCAGCCATGTGGAACTGTGAGTCCATTAAACCTCCTTTTTTATTTTATTTTATTTTWTTTTTTTTTTGAGACCGAGTCTCGCTCTATGGCCMA
GGCTGGACTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCCAGAGATTCTCCTGCCTCAAGCCTTCTGAGTAGCTGGGATTACAT
GTGCTTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGGAGAGATGAAGTTTCACCATGTTGGCCAGGCTCATCTCGAACTCCTGACCTCAGGAGATCC
GCCTGCCTCGGCCTCCCAAAAGTGCTGGGAGTACAGGYGTGCGCCACAACACCCGGCCTAAACCTCTTTTCTTTATAAATTACCCGGTCTCAAGTATGTC
TTTATTAGCAGCTTGAGAACAGACTAATACACTGAGTATATGTAGCAGGCTTGCAGCTTCTCCTGGTGTGAGGTGTAAAGGGGATACTGAAGGGAAGCGG
GTGTTAGTTGTCATTTGTCATAGCAGAAGGAGGTTCCAGGGGTTAGCTGTTGCTCTTATAAAGCCCTGGGTGAGTCTTGAATGGTGCCTGTTCACGATGT
ACCATGCACTGTTCAGTTTCACAGCATTCTTTCGTTTCCTCCTCCCTGCAGCACTATGATCCAGGTACAATTATGGTCATTCCCCTTTTACAGATGAGAA
AATCAAGGTAAAGAGAGGAACATTAGACAGTGGCAGAGTCAGACTCAGACCCAGTCCGTCTCAGCCCCCTCAGCCACGCTGTGTCTCTCACGCCAGCTTT
GCCTCTTTTCCAGTTTGGCACCAACTGGCCCGTGTACATGACCAAGCCGGATGGTACGTATATTGTCATGACGGTCCAGGAGCTGCTGCCCTCCTCCTTT
GGGCCTGAGGACCTGCAGAAGACYCAGTGACAGCCAGAGAATGCCCACTGCCTGTAACAGCCACCTGGAGAAYTTCATAAAGATGTCTCACAGCCCTGGG
GACACCTGCCCAGTGSGCCCCAGCCCYACAGGGACTGGGCAAAGATGATGTTTCCAGATTACACTCCAGCCTGAGTCAGCACCCCTCCTAGCAACCTGCC
TTGGGACTTAGAACACCGCCGCCCCCTGCCCCACCTTTCCTTTCCTTCCTGTGGGCCCTCTTTCAAAGTCCAGCCTAGTCTGGACTGCTTCCCCATCAGC
CTTCCCAAGGTTCTATCCTGTTCCGAGCAACTTTTCTAATTATAAACATCACAGAACATCCTGGATCAAAGCGTGTGTCTTGCTCTGTCTCTATCCTTGC
TTGCAGCTCTTAGGAGGGACAGCATGATTTGTCTTTATAGGAAGAGCTGGACTCTTTCTGTTCGGAGAGGAAATGGGTACCTTGGAACCATGGACCTTAT
GGTGTGGAGAGCTGAGGTTTTAGGCAACTTGCCCCAGCGTTCTCTAAACGGGCAGCTCCCCTGGGCTGGACCTAACTGCCAATAACCATCCTAGAGTGTG
TTTTTGTCTCATCATAGACCTGAGCACCAGGAGACTCCAGAGTATAAAGGGTCAAGCACGGTTTGTCTAGACAGTGTAACAAAGGGTTTTCTCAGTAGCT
ACTGTATGTCAGGTAATTTGTGTGCATCATTTTAAGTTTAACATGCTCCACAGTTCTGTGAGGAGGGTGTGGAGATGCCCCCTTTTCACAGATGAGAGCA
CTGGGCTTTGGAGAAGTTGAATACCCTGCTCTAGGACAATGGCAAACCTCAGAACAGAATCCAGGCCCCTTAACCCCCACTGTGGTCCGGAAACATTGCA
TGCTTTTTGCCATGCACTGCGCTAAGGTGTGTGACATATATGAACCCGTTCAGTCCTCATTTGTCAAACTCAAAGGTTAATTATTAGTGTTCTCAATTTA
GAAATAAGCAACTCGAAGCTCAGAGTGATTGAGTTGCTCACCCAAAGTCACACAGCTGATGTGGCAGAACTGGAATCAGAACTAGATCTGTCTGGGCCGG
GCAAGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATAGTGAA
ACCCTGTCTCTTCTAAAAAATACAAAAATCAGCCGGGCGTGGTGGCAGGTGCCTGTAATCCCAACCACTCAGGAGGCTGAGGCAGGAGAGTCATTTAAAC
CCAGGAGGTGGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCCCTCCAGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAACAATAACAACAAGGATTC
CAAGGATTTTTTTCCATTCCCCCATAACTGATGTCTCAATTTACTGATTATCTTTTATATGTCAAATATTCTAAATATTGCAGAGAAAAACAGCCTCTGC
CCTTGAACTCCCAGCCTGACAGATTGAGAGAAAGAGAGGTGTACACAGGTCTAATGCACAGGAGTGCACACTGTGATCCAGGCAGAACCAAGTGTCAGGT
GGGTGTGTCGGGGAGCCTGCTGCTGTCTGGAGTGTGAGGACAGGGAGGGACTGTTTCTTTCATGGGTGCATTGGTTATCACACATGCACAAAATTAGGAA
GGTCAGGACTGAATAAGGAAGGAGCCAGGGTGGGTGCTCTGGAGGGGGATGACAGCTCCAGGAGCCCTCCCAGGAGGAGTTGGTCTTGGGGCTGGCTCAT
TGGGTGGGGTAAGAATACAGCTTAGGTTTCCTGTTCCCAGGGCAAGCAAGTACCTAGGGGCACCCAAGTGGACATCACCCCTTCCCTGGAAGCCCTTTCC
ACCCTGATCCAGTGTTGCCACCTGATGAGAATGGCTTTGCCACAACACACTCAGACTTATCTGCTGGCATCTTGGGAGCATCCCAGTCATTCCAGCATGG
CTATATGACACACAACTCCATTCTGCTTTTTTTTTTTTTTATTTTATTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGAAGTGTAGTGGTGCA
ATCTCGGCTCACTGCAACCTCTGCTGCCCGGGTTCAAGTGATTCTCCTGCCTGAGCCTCCCAGGTAGCTGGGATTACAGGCACCTGCCACCGCACCTGGC
TAATTTTCGTAGTTTTAGTAGAGACGGGGTTTTACCATCTTGGCCAGGCTGGCCTTGAACACCTGACCTCATGATCCACCCGCCTCGGCCTCCCTAAGTG
CTAGGATTACAGGTGCGAGCCACCACGCCCGGCCTGACTTTCTTTAGAAATGGCTTTGGTGGCTGAGCACAGTGGCTCACACCTATAATCCCAACACTGT
GGGAGGCTGAGGTAAGAGGACCTCTTGAGGTCAGGAATTCAAGACTAGCCAAGTAAACAGTGAGATTCTGTCTCTAAAATAAACAAATAATATAAATWAA
TTAAATAATAAAATAAACTAAATAAATTAAATTAGCTTGGCCTTATGATGCTTGCCCGTGGTCCCAGCTACCCAGGAGGCTGAAGCAGACGGATCTCTTG
AGGCCAGGAGTTCAGGGCCACAGTGGGCCATGATTGCATCACTGCACTCCAGCCTGGACAACAGAGTGAGATACTGTCTCTAAAACAACAACAGGCCAGG
CACAGTGGCTCACACCTATAATCCTAGCACTTTGGGAGGCCGAGGCAGGTAGATCACTCCTGACTTGAGGTCAGGAATTCGAGACCAGCCTCTCCAACAT
AGCAAAACCCTGTCCCTACTAAAAATACAAAAAATCAGCCAGGCGTGGTGGTGCGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGC
TTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATTACGCCACTGCACTCCAGCCTGGGCAACAAAAGTGAAGCTCCATCACAAAAAAATAAAATAAA
ATAAAGGCCCAGTGTTTGACCCTCAGTAAATTCTCCGTAAATCTTGGCTGTTAACCCTCAACAAGGGTGATAAATTTTGTTTTTTTTAAGGATGGATTTG
TTTTTGCAAAATTTTACAGCCTTTTTTTTTTTTTTTTTGTGAGATAGAGTCTCCCTCTGTTGCCCAGGCGGGAGTGCAGTGGCGTGATCTCGGCTCACTG
CAGCCTCTGCCTCCAGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGATTACAAACGCCCACCACTACGCCCATCTAATTTTTGTATTT
TTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGCCTCAGCCTGCCAAAGTACTGGGATTACAG
GGGTGAGCCACTGCATACAGCCTATACGTTCTTTTCACAATTTTTTTTTTAATTATTATTATTTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGG
AGTGCAATGGCATGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGACTACAAGCGCCCG
CCACCATGCCCGGGTAATTTTTTGTATTTTCAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATAGTCTCGATCTCCTTACCTCGTGATCCGCCCGCCT
CAGCCTCCCAAAGTGCTGGAATTACAGGCATGAGCCACCACGCCCAGCCTCTTTTCACAATTATCTATCGGTGCTTACTGCTGAGACCAGTTCCCAGGGA
CACAGCAGTAAGCGAGGCAAAGTCTTTGCCCTCACAGAGCTCCTAGTTTATCAGTGGGAAAATGAGATCTACATGATTATAGTACTTCATGACAAGTGAA
GAAAGCCCTGGCAGCAAGCAGCAGAAAGAGCAGAACTTGGCTGGGCACAGTGGCTCATGCCTGTAATTCCAGCATTTTAGGAGGCTGAGGCAGGCGGATC
TCTTGAGTCCAGGAGTTCAAGACCAGCCTGGGCAACATGGTGGAACCCCATCTCTACAAAAAGTTTAAAAAATTAGGCCAGCCATGGTGGCTCACGCCTG
TAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGGTCACGAGGTCAGAAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATA
CAAAAATTAGCCAGGTGTGGTGGCACATCCTGTAATCCCAGTTACTCAGGAGGCTGAGGCAGAAGAATCGCTTGAACCCAGGAGGCACAGGTTGCAGTGA
GCCGAGATCATGCCACTGTAGTCCAGCCTGAGCGACAGAGCGAGACTCTGTCTCCAAATAAATAAATAAATAAATTTTAAAAATTAGCAGGGTGTGGTGG
CAGGCACGTGTAATCCCAGCTTCTCAGGAGACTGCCATGAGAGGATCACTTGAGCCCGTGAGGTGGAAGATGCAGTGAGCCGAGATTGCACCACTGTACT
CCAGTCTGGATGACAGAGCCAGACCCTGTCTCAAAAAAAAAAAAAAAAGAAAGAAAGAGAAAACAAAGAATAAAACTTGCCTTCATGCAAGACCACCCGG
AGGAGAGGATGTTTTAGTCAGAGCAGAGAAGTGTCATCCAGTAAGAGAATGGGGTTTGGAGAAGGGTAAAATATGAGACTGATGGAAGGACTAAGCCTAG
TATCCTTATACTATGTGGAAACAATCTATGGAAGGCGATTCTCAAAGGATTCTAGAGATTCTTCAACAATGGCCTCTTGGAAGAACAATACTCATTTGCC
TGGAGAGAGGCAATAAAAGCATTTTCACTTTGCAGCCCCATTGTACAGAACACAGCGCGGAGGACATGCGTTTTCGGAGCAGTCCCATTGTGCAGAATGC
AGTGCTGAGGACATGTGTTTTCGGAGCAGCTCATGTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGA
GTGCAGTGGCGTGATCTCGGCTCACCGCAACCTCCGCCTCCCAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGC
CACCACGCATGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGGTGGTCAGGCTGGTCTCCAACCCCCGACCTCAGGTGATCCGCCCACCTT
GGCCTCCCGAAGTGCTGGGATTACAGGGGTGAGCCACTGCGCCCAGCCTGTGTTTAATATTTTGTATATGGTGATATGAGCACGGGAACAGATGTGATAG
GAATGCCCAATCTGTAAACACAGTTTTTGATGGGTACAGGAAAGAGGCGTTAAGAAGATTAAATTGTTAGGCTGGGCATGGTGGCTCACACCTATAATAC
CAATACTCTGGGAGGCCGAGGTGGACGGATCACCTGAAGTCAGGAGTTCAAGACCAGCCTGCCCAACATGACAAAACCCAGTCTGTACTAAAAAGACACA
AAAATTAGCCAGGTGTGGTGGCACACGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCTGGAGAATCACTTGAACCCAGGAGGCAGAAGTTGCAGTGAA
CTGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAGAAAAAAAAAAAAAAAAAAGGAAAACTCTATGACTGAATAGAAAAC
TATATGGCATAATGGTGACATTAGTTATCTATTGCTGTATAGCAAGTTACTCCAACATTTAGTGGCGGAGGACAACAAATACTTATCATCTCACAGTCTC
TGTGGGGCAGGATTCTGGGCTGAGCCAGCTTCTATGGCTCGAGGTCTCTTACAAAGTGGCAATGAATATGTCAGGAAGGGCTTCRGTCTCATCGGAAGAT
TTGACTGGGGGTGGATCCACTTCAAAGCTCACTCAGTTTCTGGCAGGATTCAGTTCACTGTGGGCTGTTGCTGTTACTATTCAGTTCCTTGCTATGTGGG
CCTCTCCACAGGGCAGTTTACAACCTGGAAGCTCACTTCTCTTAGAACAAGCAAGCAAGACAGAAACCAGAGTCTTTGGAATGTCATGAAAGTGACAGTC
CATCACTTTTGACAAATTTAGTCCACAGAAGCAAGGCATTAACATCCAGCCCACAATCCAGAGGAGGGGATAATATATATGGCATAAATGCCAGGAGGTG
GGTATTCTAAAGATGTAAAAATTCACAATGTACATGAACAAGGAAAACAAAATAAAATTAAAAAGTAGATAAGCATGGTGGAAGGGTCAGAAGATGCAGG
CCTGGTTAGCCCTGTTAAGGAGTTTGACTTTATTCCAAAGGGCAGCCATCAGTTTCAGGTGTGGGTCACGTGG


SNP Information

Context             (SEQ ID NO:45071):
TGAGTAAATGCTTATAAAGCATTCAGCGCATTTTCTGCCTCGTAATAAGAAGGTCACAAATGATAGCTGCTTCTGCTACCACTATTAATGCTATCATTAT
Y
CTTATTATCTGGAGGCAGATTGTGGAGGACTTTTGGAGGCCAAACAGAGACACTAAGATTTGAAGAGGTAGGAAGTAGGGAGCCAAGGAATGTTATTAAG
Celera SNP ID:            hCV1187477
SNP Position Genomic:     9457
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45072):
CAGAGGCTGGCACACAGAACCACTATGTATGTGTAAGCCATTACTGTTAATGCGCTGTCTCTACATCCTCAGTGCTAGGCTGCCTGGAAACACTATCCTG
Y
GACTTTTGGTTGTTGAAGCCTACACCAAATCTACCTTCCCAGTGGAATGCATGCTTGCCCACCTTGAAATCCCTGATGCAGATCACCTTGTCCAGGGAGC
Celera SNP ID:            hCV566799
SNP Position Genomic:     26121
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45073):
GTGACAGCCAGAGAATGCCCACTGCCTGTAACAGCCACCTGGAGAACTTCATAAAGATGTCTCACAGCCCTGGGGACACCTGCCCAGTGGGCCCCAGCCC
Y
ACAGGGACTGGGCAAAGATGATGTTTCCAGATTACACTCCAGCCTGAGTCAGCACCCCTCCTAGCAACCTGCCTTGGGACTTAGAACACCGCCGCCCCCT
Celera SNP ID:            hCV7477302
SNP Position Genomic:     35727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:45074):
GAGTCCAGGAGTTCGAGACCAGCCTGGACAACATGGCAAGACGTCGTGTCTACAAAAAGTACAAAAATGAGCTGGATGTGGTGGCGTGCATCTGTGGTCC
Y
AGACACTTGGGAAGCTGAGATGGAGGGATCACTTGAGCCCCAGGAGTTCGAGGCTGCAGTGAGCTGTAATCACACCACTGTACATCAGCTGGGCGACAGA
Celera SNP ID:            hCV1187478
SNP Position Genomic:     10015
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45075):
GGTCCAGGAGCTGCTGCCCTCCTCCTTTGGGCCTGAGGACCTGCAGAAGACCCAGTGACAGCCAGAGAATGCCCACTGCCTGTAACAGCCACCTGGAGAA
Y
TTCATAAAGATGTCTCACAGCCCTGGGGACACCTGCCCAGTGGGCCCCAGCCCTACAGGGACTGGGCAAAGATGATGTTTCCAGATTACACTCCAGCCTG
Celera SNP ID:            hCV7477303
SNP Position Genomic:     35673
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:45076):
GGGAGGCCGAGGCAGGCGGATCACGATGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACTCCATCTCTACTAAAAATACAAAAAAAAATAGCC
R
GGCGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGAGAGCCGAGATCGTG
Celera SNP ID:            hCV26762131
SNP Position Genomic:     8236
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45077):
GCTGAGATGAGAATCACTTGAACCCAGGAGGTGGAGATTGCAGTGAGCTGAGATTGTGCCACTACACTCCAACCTGCATGACAGAGTGAGACTCTGTCTC
A
AAAAAAAAAAAAAAGAAAAGAGAAGAAAAAGAAAGTCATTTCAGGTGAGGATCAGGAACCTGGCTGGGGAGACAAGGTGGGGAGCAAGAGGCATTATTCA
Celera SNP ID:            hCV11465471
SNP Position Genomic:     17820
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45078):
GGCAGGCGGATCACGATGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACTCCATCTCTACTAAAAATACAAAAAAAAATAGCCGGGCGTGGTG
R
TGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGAGAGCCGAGATCGTGCCACTGCACT
Celera SNP ID:            hCV26762132
SNP Position Genomic:     8246
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45079):
ACTGGCCCGTGTACATGACCAAGCCGGATGGTACGTATATTGTCATGACGGTCCAGGAGCTGCTGCCCTCCTCCTTTGGGCCTGAGGACCTGCAGAAGAC
Y
CAGTGACAGCCAGAGAATGCCCACTGCCTGTAACAGCCACCTGGAGAACTTCATAAAGATGTCTCACAGCCCTGGGGACACCTGCCCAGTGGGCCCCAGC
Celera SNP ID:            hCV7477307
SNP Position Genomic:     35624
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;SILENT MUTATION


Context             (SEQ ID NO:45080):
TACTAAAAATACAAAAAAAAATAGCCGGGCGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGG
Y
GGAGCTTGCAGAGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAACAAACAAACAAAAAAAAACAAACCCAC
Celera SNP ID:            hCV26762133
SNP Position Genomic:     8310
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45081):
GCCGTGGGGTTTCAAAGCATCTGGGGATGCAGACACTTCCATCTTCCTCCTGCTTCCTGCCAGGAGTGCAAATCAGACACATTTCCCAAATCCAAAAACA
W
ACCACCGGGAAAGCAGTGAATTTACACGGTGGAATTTGTCTCACTTGAGAGGGGCAGAAATAGCTGCCCTGCACGGTGGAAATGTCGAAGGTCATATAAG
Celera SNP ID:            hCV7477308
SNP Position Genomic:     33525
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45082):
TGCCCCTACAGTCACTTTCCTGTGGGGGCTGCCCTGCTCACCCAGGAGGGGAGAATCTTCAAAGGTAAAGGTGGGCACCCCAGGGTCCCCCAGCCCAGCA
R
CCTGGGTGGTGGGTCAGAGGAAGATGTACAGGAAGAGGCGCAGAGGCACAGGCAGTGGCAAGAGCGCGGCTCTGTCCCTTCTTCCCCCAGTCTCCGCTGG
Celera SNP ID:            hCV25617644
SNP Position Genomic:     6358
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,22)   caucasian(G,40)   total(A,4|G,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:45083):
CTGCCACCATGCCAGGCTAATTTTTGTATTTTTAGTAGACAGGGTTTCACCATATTGGCCAGGCTGATCTCAAACTCCTGACCTTGTGATCCGCCCGCTT
Y
GGCCTCCCAAAGTGCTGGGATTATAGGCTTGAGCCACCATGCCCAGCCTCATCATGTGTTTTTATAGGCCAGGCTTGTGGCTTCTTTGGCGATCCAATTC
Celera SNP ID:            hCV26762134
SNP Position Genomic:     19736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45084):
TATGGGTATCCATGGCCCATCAGGCTGACTCTGAAGCCCGTGCTCCTCACGGCTGCCTCTCTGTCTTTGTGGTTCTGTAAGTTGGACAAAATTATTTTCA
R
CCATGGAGGAAACATAATGGTACTTTGGCATGTGGATGCTGCTTGTACCGTGGGAGTTTCTGCTTTTGGAGTTGTGTTTTGGGAGAAAGGGGGTTGTTTT
Celera SNP ID:            hCV7477309
SNP Position Genomic:     33310
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45085):
GCTGCCTGCCCGGGGTACCAACATGGCCCAGAAGCGTCCTGCCTGCACCCTGAAGCCTGAGTGTGTCCAGCAGCTGCTGGTTTGCTCCCAGGAGGCCAAG
M
AGTCAGCCTACTGCCCCTACAGTCACTTTCCTGTGGGGGCTGCCCTGCTCACCCAGGAGGGGAGAATCTTCAAAGGTAAAGGTGGGCACCCCAGGGTCCC
Celera SNP ID:            hCV25472931
SNP Position Genomic:     6246
SNP Source:               Applera
Population(Allele,Count): african american(A,30|C,4)   caucasian(A,28|C,12)   total(A,58|C,16)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45086):
TGCCCCTGTTCCAGCAACACAACGTGATACAGACTCCTGTCCTACAAGATATAACAGAAAGGCAGCATTGAAACATAAAGCGGGGGGAACCTGAGCCAGG
Y
GCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGATGGGCAGATCACGAGGTCAGGAGATCGAAACCATCCTGGCTAACACAGTGAAACCC
Celera SNP ID:            hCV26762135
SNP Position Genomic:     22450
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45087):
ATGGGCAGATCACGAGGTCAGGAGATCGAAACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCTGAGCGTGGTGGC
R
GATGCTTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGCAGAGCTTGCAGTGAGCCGAGATGGCGCCACTGCACTCC
Celera SNP ID:            hCV26762136
SNP Position Genomic:     22594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45088):
ATCTGTGAAATGGAGGAGACTGGTCTGTTACAGGGTCTTAAGAAACGATTTCTGTAAAGTTCCTGACACAGGGTATGTAATACATTCAAACTATTATATA
K
TTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTGAGAACAAGTCTCTCTGTGCCGCCCAGGCTGGAGTGTAGTGGCAAGATTTCGGCTCACTGCAACCTC
Celera SNP ID:            hCV11465476
SNP Position Genomic:     25459
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,7)   total(G,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45089):
TTCTGAGTAAGTAAAGCCCGAGGTGCACTCAAGGAGAAGGGCTCCAGTATCCGATAGCCTTCCCTGTCACCGAGGTGTGTCCTGGCTTCCTTAAGGCTTC
Y
GGAGGAATAAATGACGGTTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAACATGGCGTGAACCCGGGAGGTGGAGCTCGCAGTGAG
Celera SNP ID:            hCV26762137
SNP Position Genomic:     23246
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45090):
GAAGGGTACATTTTATTCCAAGAATAAAGGAAACTGAAGTGTACACTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGG
Y
AGAGTCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCAGCTACCATGCCC
Celera SNP ID:            hCV26762138
SNP Position Genomic:     31984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45091):
ACTGAAGTGTACACTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTAGAGTCTCAGCTCACTGCAACCTCCGCCTCC
Y
GGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCAGCTACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACTGGG
Celera SNP ID:            hCV26762139
SNP Position Genomic:     32016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45092):
GGTAAGGTGCCAGGTGCTGGGGATATCACAGTGAACAGGGATGACACAATCCCTGCCCCCATGGCAGTCCCCTCATATTGCATAGGTGATGACTGAAGGC
K
CGAGCCTCATCCAGTGGAAGGAAGGAATGGAGGAGATAAACAGGACTGTGGCCCATTTGCATTGCAGGGAAAGACCTGGTGTCACCAGAGAAAGGGTTGT
Celera SNP ID:            hCV7477384
SNP Position Genomic:     8634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45093):
ATGCTTTCCAGCACTGGAACTGGTGTTCTGCTTGGAACAGCAGGAGGTCAGACAGCCTCATCGTGCCTCCAGAGCCAGGGGACCCCCATGCCAGAATGCT
Y
GGGTCCTTTCTTGTTTTAAAACCCACAATAGTCGGGCATGGTGGCTCACGCCTGTAACCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGATGTCA
Celera SNP ID:            hCV7477386
SNP Position Genomic:     8066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45094):
GCCATGTTGGCCAGGATGGTCTCGAACTCCTGACCTCAGGTGATCCATCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCA
R
CCTGCACATACTATTTATTTCCTTCGCCTACGACACAGAGAAACCCAGGGCTTCCGAATAGCATCTCTGCCTCTTCATCACACTGAACCTATCTCCTCAC
Celera SNP ID:            hCV1187370
SNP Position Genomic:     29223
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,6|G,10)      total(G,10|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45095):
CTGTCACCCAGACTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTACCTCCCAGGTTCAAGCAATTCTCTGCCTCAGCCTCCCAAGTAGCAGG
K
ATTACAGGCATCTGCCACCACGCCCGGCTAATTTTTGTATTCTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACTTTGT
Celera SNP ID:            hCV1187371
SNP Position Genomic:     27499
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,15)   total(G,15|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45096):
AGCAACTCTCCCATGGCCCTAACCATGCCTTTGTTACGGCATTTGTGTGAAATTTTATCTCCCCCTCCAGAGGGTAAGCTCCAGGAATTGTCCGATTGGT
Y
TTTGTTGCTCCTTTCCCATGCCTGCCTGACATAGAGAAGGATTTTGGTCGACATGTGTGGAATGAAGTGAAAAATAACCCCCAAAAAGCTTAAGAGGCCC
Celera SNP ID:            hCV1187372
SNP Position Genomic:     26748
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45097):
ATTTGGGGTTCAAATCCTGATTCTGCCACTTCACTAACTCTGTGGCCTTGGGCAAGTCGTTTCACCTTTCATGATCTACAGCATGCAGGTGATAAGAGCG
M
CTGCATACCCCGGCCCCTTACAGGGTTGTTGGGGGATTAAATGAACTAATCCACTTAAGGTCCTTAGCACAGAGGCTGGCACACAGAACCACTATGTATG
Celera SNP ID:            hCV1187373
SNP Position Genomic:     25951
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,12)   total(A,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45098):
TACCAAAGGCAGAGTGTGTAGATTTGGGGTTCAAATCCTGATTCTGCCACTTCACTAACTCTGTGGCCTTGGGCAAGTCGTTTCACCTTTCATGATCTAC
M
GCATGCAGGTGATAAGAGCGCCTGCATACCCCGGCCCCTTACAGGGTTGTTGGGGGATTAAATGAACTAATCCACTTAAGGTCCTTAGCACAGAGGCTGG
Celera SNP ID:            hCV1187374
SNP Position Genomic:     25930
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|A,9)      total(A,9|C,4) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45099):
CATTTTTCCAGCACCCAACTGCTGTACTCTAGGTATTCAGCTCAGTTTCCCTGAGCCCAAGATGCACTCATTATCGCACTCATGATTTGTTAAATTGAGA
R
CGTTTGTGGATTTAGAGGATGAATGAGAAGTACCAGCTCCCTTGTTAACATCAGATGGGTCTGAGCAACCTCAGAGAGAACCCCTCTCAGGTCTTTAAGG
Celera SNP ID:            hCV1187376
SNP Position Genomic:     24855
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,6|G,11)      total(G,11|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45100):
ATCGACTTTTAAACAAAACTAAGTATCACTAGCAATGATTAGCAAATGTCCTTATTTACACAAAACCTGCCATTTTTCCAGCACCCAACTGCTGTACTCT
R
GGTATTCAGCTCAGTTTCCCTGAGCCCAAGATGCACTCATTATCGCACTCATGATTTGTTAAATTGAGAGCGTTTGTGGATTTAGAGGATGAATGAGAAG
Celera SNP ID:            hCV1187377
SNP Position Genomic:     24785
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,13)   total(G,5|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45101):
AAAGCCCGAGGTGCACTCAAGGAGAAGGGCTCCAGTATCCGATAGCCTTCCCTGTCACCGAGGTGTGTCCTGGCTTCCTTAAGGCTTCCGGAGGAATAAA
K
GACGCTGTGCTGAGAACATTTTGTGCAGATAGGCCAAGATCAGGATGTGAATTGCACTTTATGAAAAAAAAGAGAAAAGGAGGGAAATAACTCAATTTCA
Celera SNP ID:            hCV1187378
SNP Position Genomic:     24465
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|G,8)      total(G,8|T,5) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45102):
CATGCCTGTTGGTCTTTAGGGACATCTGGGTGCATAGGTCACATTCTGTGAGGTAATTATCTCTTCACTCATAGTGGAGTTAATTCCTGTGGTAGAGCTA
Y
AGCACCTTTCTGGCTAAAATACAGAAAGAGAGCTACACCTTTTAGCACCTTTCTGGCTAAAATGCAGAAATGCAGGGGTTTAGTGCAAGGCCAGTGGGGA
Celera SNP ID:            hCV1187379
SNP Position Genomic:     24168
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45103):
TCCCAGGACTTTGGGAGGCCAAGGCTGACAGATCACATGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACACAGCAAAACCCCATCTCTAGTAAAAATAG
A
AAAAAATTACCTGGGCATGGTGGCACACACCTGTAATCCCAGGCTACTTGGGAGGCTGAGGCACAAGAATTGCTTGAACCCAGGAGGCGGAGGTTGAAGT
Celera SNP ID:            hCV11465442
SNP Position Genomic:     3832
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:45104):
GGAATGTTCCTACCCTGCCGACTGCCCCAGACCGCGCTCAAATGTGGCTTAAATCCAGGGTCTTTCAATGCTTAGAGGACTGGGATGAGGAAGGAAGTTG
R
ATGGGAGGCAGGAAGGGGAGGCCATAAATCAAAAACATCAACAGTCCTGGGGTGCAGGCAGGGAGAGCGTTCGTGCTTTCCCAGCCTCGGATATGTCTGG
Celera SNP ID:            hCV11465447
SNP Position Genomic:     6557
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,9)   total(G,9|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45105):
TGGCAAGATTTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCATGCTTCAGCCTCCTGAGTAATTGAGACTACAGGTGCCGGCCAGCAC
R
CCTGGCTAATTTTTGAATTTTTAGTAGAGACAGGGTTTCACCACGTTGACCAAGCTGGTCTCGAACTTCTGGCCTCAAGTGATCTGCCCACCTCGGCCTC
Celera SNP ID:            hCV11465480
SNP Position Genomic:     25632
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45106):
CCACTCAAATCTCATCTTGAATTGTAGCTCCCATAATTCCCACATGTCATGGGAGGGACCTGGTGGGAGGCAATTGAATCATGGGGGCGGGTCTTTCCCA
Y
GCTGTTCTCGTGATAGTGAATAAGTCTCATGAGATCTGATGGTTTTATAAATGGGGGTTCCCTCACACAAGTCCTCTCTTGCCTGTTGCCAGGTAAGACA
Celera SNP ID:            hCV26762140
SNP Position Genomic:     34562
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|C,9)      total(C,9|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45107):
AACCTCCGCCTCCCAGGTTCAAGCGATTCTCATGCTTCAGCCTCCTGAGTAATTGAGACTACAGGTGCCGGCCAGCACGCCTGGCTAATTTTTGAATTTT
Y
AGTAGAGACAGGGTTTCACCACGTTGACCAAGCTGGTCTCGAACTTCTGGCCTCAAGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGC
Celera SNP ID:            hCV11465481
SNP Position Genomic:     25654
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,11)   total(C,2|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45108):
ACATCCCTTTGCTCTTCCTTCCTCTTCCGCCATGGTTGTGAGGCTTCCCCAGCCATGTGGAACTGTGAGTCCATTAAACCTCCTTTTTTATTTTATTTTA
T
TTTTTTTTTTTTTTGAGACCGAGTCTCGCTCTATGGCCAAGGCTGGACTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCCAGAG
Celera SNP ID:            hCV26762141
SNP Position Genomic:     34760
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45109):
CATCCCTTTGCTCTTCCTTCCTCTTCCGCCATGGTTGTGAGGCTTCCCCAGCCATGTGGAACTGTGAGTCCATTAAACCTCCTTTTTTATTTTATTTTAT
T
TTTTTTTTTTTTTGAGACCGAGTCTCGCTCTATGGCCAAGGCTGGACTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCCAGAGA
Celera SNP ID:            hCV26762142
SNP Position Genomic:     34761
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,12)   total(T,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45110):
ACACGTAGGCAGTGTCTTACACCACACCTGCTGAGTCCAAACCATGGGAGGCTCCTCTCCTAGACCCTGCATCCTGAAAGCTGCGTACCTGAGAGCCTGC
K
GTCTGGCTGCAGGGACACACCCAAGGGGAGGAGCTGCAATCGTGTCTGGGGCCCCAGCCCAGGCTGGCCGGAGCTCCTGTTTCCGCTGCTCTGCTGCCTG
Celera SNP ID:            hCV25617654
SNP Position Genomic:     6053
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(G,39|T,1)   total(G,75|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:45111):
TGAGACCGAGTCTCGCTCTATGGCCAAGGCTGGACTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCCAGAGATTCTCCTGCCTC
A
AGCCTTCTGAGTAGCTGGGATTACATGTGCTTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGGAGAGATGAAGTTTCACCATGTTGGCCAGGCTCAT
Celera SNP ID:            hCV26762143
SNP Position Genomic:     34874
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45112):
GACCGAGTCTCGCTCTATGGCCAAGGCTGGACTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCCAGAGATTCTCCTGCCTCAAG
C
CTTCTGAGTAGCTGGGATTACATGTGCTTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGGAGAGATGAAGTTTCACCATGTTGGCCAGGCTCATCTC
Celera SNP ID:            hCV26762144
SNP Position Genomic:     34877
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45113):
CTTCATCATGGAGGCATTGGGTAAATTAAGACAGTGCCAGGTTCTTGGGAAGGGCCACTACCATGGGCCAAAGAATCTACCAGTGCCCCAGGTCGAATTG
Y
CCTAATTGCCCTGTCCTTCTCCCCACCTTGTTTGGAGTAACCAGTTCCTTCCTGCTTTGGAATGGGGCAAACTTCTTACTCAACACACGCAACAGGAAGT
Celera SNP ID:            hCV25617655
SNP Position Genomic:     21851
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,37|T,1)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:45114):
CCGAGTCTCGCTCTATGGCCAAGGCTGGACTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCCAGAGATTCTCCTGCCTCAAGCC
T
TCTGAGTAGCTGGGATTACATGTGCTTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGGAGAGATGAAGTTTCACCATGTTGGCCAGGCTCATCTCGA
Celera SNP ID:            hCV26762145
SNP Position Genomic:     34879
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45115):
GCATTGGGTAAATTAAGACAGTGCCAGGTTCTTGGGAAGGGCCACTACCATGGGCCAAAGAATCTACCAGTGCCCCAGGTCGAATTGCCCTAATTGCCCT
K
TCCTTCTCCCCACCTTGTTTGGAGTAACCAGTTCCTTCCTGCTTTGGAATGGGGCAAACTTCTTACTCAACACACGCAACAGGAAGTGTCTCTGCCAGAC
Celera SNP ID:            hCV25617656
SNP Position Genomic:     21864
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,40)   total(G,75|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:45116):
TCACTGCTGCACTCCTAGCACCAATGACAGTGCCCAGCACTGCTCAGTAAATATTTGTTGGTTGAAATGAGACAATGCATATAAAATGCTTTGCAGAATG
Y
CTGGCACATTCTAGGCACACATTATCTTTTTTTTTTTTATTTTATTTTATTTTTATTTTTATTTATTTATTTTTATTTTTTTTTGAGATGGAGTCTTGCT
Celera SNP ID:            hCV11465486
SNP Position Genomic:     27298
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45117):
CGAGTCTCGCTCTATGGCCAAGGCTGGACTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCCAGAGATTCTCCTGCCTCAAGCCT
T
CTGAGTAGCTGGGATTACATGTGCTTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGGAGAGATGAAGTTTCACCATGTTGGCCAGGCTCATCTCGAA
Celera SNP ID:            hCV26762146
SNP Position Genomic:     34880
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45118):
GCATGCCTGTTGGTCTTTAGGGACATCTGGGTGCATAGGTCACATTCTGTGAGGTAATTATCTCTTCACTCATAGTGGAGTTAATTCCTGTGGTAGAGCT
R
CAGCACCTTTCTGGCTAAAATACAGAAAGAGAGCTACACCTTTTAGCACCTTTCTGGCTAAAATGCAGAAATGCAGGGGTTTAGTGCAAGGCCAGTGGGG
Celera SNP ID:            hCV29225852
SNP Position Genomic:     24167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45119):
GCCTGCAAAGCAGGTAAATAAGCAAGGCAACTCTCATACAAGGGCCAGTATGCCCCTGTTCCAGCAACACAACGTGATACAGACTCCTGTCCTACAAGAT
W
TAACAGAAAGGCAGCATTGAAACATAAAGCGGGGGGAACCTGAGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGATGGGCA
Celera SNP ID:            hCV7477356
SNP Position Genomic:     22400
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45120):
AGAGGTAAGCAGCTTCTCTTGCTGTCTGGAATGCAAATATCTTCCCTGTCGCAGGCTATGGGAGCCACGCCAAGTTGCAGGCATGGCAGGCATGGCAGGC
R
TGGAGACACAGCTACTGTCCTGTTTGCTTGGTTGGCTGACTTCTAAGGCCTCCCTACGCTTGCATGAGTCACTGGAAATTATTCCTTCATTTAACAAATA
Celera SNP ID:            hCV29225853
SNP Position Genomic:     31058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45121):
TGCTAACAGCCTGTGAAAGGAAGGTGATTAATGCTATCCATTTAACCCCTGCAACCCTGAAAGGCAGAGAAGGAAACAGGTTTGGAAAGTTTCAGAGCTC
R
AAATCACAGAGCTGGGATTGGAACCCAGACTTCCCCTGACTCCAAAAGCTGTTGCTCTGTGGGGAGTGAAGGATCTCTGAGTACCGTGTTGAAATTCAGA
Celera SNP ID:            hCV7477391
SNP Position Genomic:     7336
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45122):
TGCTTAGAGGACTGGGATGAGGAAGGAAGTTGGATGGGAGGCAGGAAGGGGAGGCCATAAATCAAAAACATCAACAGTCCTGGGGTGCAGGCAGGGAGAG
S
GTTCGTGCTTTCCCAGCCTCGGATATGTCTGGCACCTTACTGAGGCTTCCACAACACTAAGTCCACACCTCCTGCCCACTGACCTAAGTGTTAATGCTCG
Celera SNP ID:            hCV7477395
SNP Position Genomic:     6625
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|C,14)      total(G,2|C,14) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45123):
CACCTGCTGAGTCCAAACCATGGGAGGCTCCTCTCCTAGACCCTGCATCCTGAAAGCTGCGTACCTGAGAGCCTGCGGTCTGGCTGCAGGGACACACCCA
R
GGGGAGGAGCTGCAATCGTGTCTGGGGCCCCAGCCCAGGCTGGCCGGAGCTCCTGTTTCCGCTGCTCTGCTGCCTGCCCGGGGTACCAACATGGCCCAGA
Celera SNP ID:            hCV7477396
SNP Position Genomic:     6077
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,25|G,13)   total(A,57|G,17)
SNP Type:                 UTR 5

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:45124):
CATCACCTCCACCTTCCAGTCTGTGGAAGGAGAAAAGAATGGAAGTAACAGGCAAGCAACCTCCTTACCAAAAGTATGATCCAGAAATTTCCCACATCAC
Y
TTGGGCCACATCCCATTGGCCAGAACTGCATCATGTGGCCACACTGTGCTGCAAGGGAGTCTGGGAATTACAGTCCCTAGCTGAGCGGCCATGCTGGAAT
Celera SNP ID:            hCV1187383
SNP Position Genomic:     20607
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45125):
ACCACTGTGACCACATTCACCCTCACCCTGACAAGGGACCTGCAGCTGTGGCACCCAGTAGTGTCTAATGACATCCGTCAACTCTGGACATGAATGCCTG
Y
GATCCTGAGAACGAGTTAAATGACTAATCACTCCTAACATGCCAATGTAAATAATGAAGGGACCAGAAAATATGTGAGGAAAAATATACAAGAAGATAAT
Celera SNP ID:            hCV1187384
SNP Position Genomic:     18726
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45126):
TTGAGTAGTGGGGCATGTGAGTGTGCCCCCTGCCACAACCATCTTTCTTTCTCATTAACTGGCCTATTACATGTTTTACACAAAGTAAAGGAAGATTTCT
S
TCTCTGAGGCCTTTCTGAACTTCCAGAGCAGACACATGTGACCATCCTGAGAGACTGGGTCTTCTGCAAGTGTGGAAATGTGCTTTAACGGCATGTCAGC
Celera SNP ID:            hCV1187386
SNP Position Genomic:     17204
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45127):
GAGATGACATTCCACCATTGTGATTTGTTCCTTCCCCACCCCAACTAACCAATCGATCTTGTGACATTCCACCCCCCCACCACCGACAATGAGTCTCACG
R
TCTCCCCACCCTGCACCGTGTGACCCCCGCCCCTGCCCACAAGAAAACAACCCCCTTTAACTGTAATTTTCCATTACCTACCCAAATCCTATAAAACTGC
Celera SNP ID:            hCV7477322
SNP Position Genomic:     29543
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45128):
AACTCCTGAGCATAGTGAATTTTGTCTGTTTTGTTCACTGCTGCACTCCTAGCACCAATGACAGTGCCCAGCACTGCTCAGTAAATATTTGTTGGTTGAA
R
TGAGACAATGCATATAAAATGCTTTGCAGAATGCCTGGCACATTCTAGGCACACATTATCTTTTTTTTTTTTATTTTATTTTATTTTTATTTTTATTTAT
Celera SNP ID:            hCV7477323
SNP Position Genomic:     27264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45129):
GAGCTCCCTCATACTGTGTGTTCCTTCTGCAATTTTTTTTTTTTTTGAGAAGGATTTTCATTCTTGTTGCCCAGGCTGGGGTGCTATGGCACGGTCTTGG
S
TCACTGCAACCTTTGCCTCCCGGATTCAAGCGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGAGCTACAGGCGCCCACCACCAAGCCTGGGTAATTTT
Celera SNP ID:            hCV11465491
SNP Position Genomic:     30337
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45130):
TGTGGGAGGCTGAGGTAAGAGGACCTCTTGAGGTCAGGAATTCAAGACTAGCCAAGTAAACAGTGAGATTCTGTCTCTAAAATAAACAAATAATATAAAT
W
AATTAAATAATAAAATAAACTAAATAAATTAAATTAGCTTGGCCTTATGATGCTTGCCCGTGGTCCCAGCTACCCAGGAGGCTGAAGCAGACGGATCTCT
Celera SNP ID:            hCV26762152
SNP Position Genomic:     38098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:45131):
GCTCCCTCATACTGTGTGTTCCTTCTGCAATTTTTTTTTTTTTTGAGAAGGATTTTCATTCTTGTTGCCCAGGCTGGGGTGCTATGGCACGGTCTTGGCT
Y
ACTGCAACCTTTGCCTCCCGGATTCAAGCGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGAGCTACAGGCGCCCACCACCAAGCCTGGGTAATTTTTG
Celera SNP ID:            hCV11465492
SNP Position Genomic:     30339
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45132):
TAGGCTAATGCAGGAGACAGATGATAAACAAGGAGCAAAATAAATAAACAAACAGTGGCGTTTCTGAGTCAAGAGGGCTATAGAGGAAAACAAAATGCAG
A
AAAAAAAAAGGAGTCCAGTGACAAACGGGCAAACAGGGGACACTGCAGATTGGGGTCAGCAAACAACAGCCCTTGGGCCAAATCCAGCCTGCTGCTTGTA
Celera SNP ID:            hCV11465496
SNP Position Genomic:     31354
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,9)   total(A,5|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45133):
AACTTCTTACTCAACACACGCAACAGGAAGTGTCTCTGCCAGACATACCACTGGACTCTGCTCTCTTCTCAGGGTGCAACATAGAAAATGCCTGCTACCC
R
CTGGGCATCTGTGCTGAACGGACCGCTATCCAGAAGGCCGTCTCAGAAGGGTACAAGGATTTCAGGGCAATTGCTATCGCCAGGTGAGTGGGAAAGCCAG
Celera SNP ID:            hCV25617667
SNP Position Genomic:     22021
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45134):
CTCTCCATGTGGGGCCTGCAGGCAAGTCATGAGAGAGGTAAGCAGCTTCTCTTGCTGTCTGGAATGCAAATATCTTCCCTGTCGCAGGCTATGGGAGCCA
M
GCCAAGTTGCAGGCATGGCAGGCATGGCAGGCGTGGAGACACAGCTACTGTCCTGTTTGCTTGGTTGGCTGACTTCTAAGGCCTCCCTACGCTTGCATGA
Celera SNP ID:            hCV25617668
SNP Position Genomic:     31025
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(A,1|C,39)   total(A,1|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:45135):
TTTTATAAAAGTCCTCTTGATGGAAGGCTGCAATTTCTTCAACTCTAAAAACAAAACGGTAAGCCAGGTATGGTGGCTCAGCCTGTAATCCCAGCAATTA
R
GGAGGCAGAGGCAGGAGGATCGCTTGGGTCCAGGAGTTCGAGACCTGCCTGGGCAACATAGCGAGACCCTGTTCTCCACAAAAAAAAAAAAAAAGGAATA
Celera SNP ID:            hCV11465499
SNP Position Genomic:     32453
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45136):
AGGAGAGATGAAGTTTCACCATGTTGGCCAGGCTCATCTCGAACTCCTGACCTCAGGAGATCCGCCTGCCTCGGCCTCCCAAAAGTGCTGGGAGTACAGG
Y
GTGCGCCACAACACCCGGCCTAAACCTCTTTTCTTTATAAATTACCCGGTCTCAAGTATGTCTTTATTAGCAGCTTGAGAACAGACTAATACACTGAGTA
Celera SNP ID:            hCV1187355
SNP Position Genomic:     35038
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45137):
GAGGCTTCCCCAGCCATGTGGAACTGTGAGTCCATTAAACCTCCTTTTTTATTTTATTTTATTTTTTTTTTTTTTTGAGACCGAGTCTCGCTCTATGGCC
M
AGGCTGGACTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCCAGAGATTCTCCTGCCTCAAGCCTTCTGAGTAGCTGGGATTACA
Celera SNP ID:            hCV1187359
SNP Position Genomic:     34799
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,12)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45138):
TTTGCCTTTTTTTTTTTTTTGAGCTAGAAAATTCAAGGAAATTACTTGAATTTGTTACAGGCTCCAAATACAGTTATTCCTCTGCGTCTTAAGCATCTAG
M
ACTGAAGTGGAAAATTCCACTCTTTCAATAATGGTTAGCCATCTTAGCTCAGGCCATGCTGTGGTTTGAAGGTTTGCCCCCTCCAAAATGCATAAGCGTA
Celera SNP ID:            hCV1187393
SNP Position Genomic:     15027
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(C,6|A,8)      total(A,8|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45139):
ATTGCACAGCATTTCAGGATGCAGTACGTGGGCAAAGGCTTCCTTCCTTTTTTTTTATTTGCCTTTTTTTTTTTTTTGAGCTAGAAAATTCAAGGAAATT
R
CTTGAATTTGTTACAGGCTCCAAATACAGTTATTCCTCTGCGTCTTAAGCATCTAGCACTGAAGTGGAAAATTCCACTCTTTCAATAATGGTTAGCCATC
Celera SNP ID:            hCV1187394
SNP Position Genomic:     14970
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|A,8)      total(G,6|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45140):
TCGTAGTATTATTTGGTCCTATCTTATTATTATGGATTTCTAACTTAGCACCATCCCAATCTCTCTCATGTATGTTTTGAAGTAAGCAAAGGCAATAGCA
R
AAACAGAATTGGTTTGCCTGGTCAGAAGACAGCCTGCTTTCTGGGCTGAGAGAAGCAAAACAAAATTGCACAGCATTTCAGGATGCAGTACGTGGGCAAA
Celera SNP ID:            hCV1187395
SNP Position Genomic:     14805
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,11)      total(G,11|A,5) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45141):
AGAAAGAAAGATAAAAGAAAAGAAAGAAAGCAAAGAAAATGGTCCACGGAAACGGAGTCAGCTCCGGGCCTTGCACATGGCTGAGGCTCAGCCGGTGTTC
R
TGCAGCGCCGGGTGGGTGATGGGCAGGGAAGAGAAGGACCACCTGTAACCCTAGGGGCACTGCACGAGGTGTCCCTGGGCTCGTGGGGAGTATGCATCTG
Celera SNP ID:            hCV11465460
SNP Position Genomic:     11940
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,16)   total(G,16|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45142):
GCTGGTCTCGAACTTCTGGCCTCAAGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCAACCGCATTCAGCCTCAAACTATTA
Y
ATTGTTTTAAAGTTATCATTATTTCTTCTGCAAGCTGCAAAACTACCAAAGGCAGAGTGTGTAGATTTGGGGTTCAAATCCTGATTCTGCCACTTCACTA
Celera SNP ID:            hCV7477330
SNP Position Genomic:     25786
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45143):
GCCGACCATTTCCTCTGTGCCAGGCTTTGTGTTAAGTGCTTTACACGAGTGATCTCAATTTATTCTCACAACAGGACTATGAGGGAGATTCTATCATTAG
Y
GATTTACAAATGAAGCCAGTGAGCCTCAAAGAGGTTCAGTCCCTTTCCCCAATTCTCAGAGCCAGTTGGGCAAAGAGTCCCAGGGCAGAATGAAACCTAA
Celera SNP ID:            hCV11465466
SNP Position Genomic:     16977
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45144):
CACGCCTGTAATCCCAGCTATTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTCGCAGTGAGCCAAGATCGTGCCACTGCCCTCC
R
GCCTGGATGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAGACTAAAATAAAAAAGACTCCTTTTATCCTCTTGTTATCTGGGAAGCTTTTCCTA
Celera SNP ID:            hCV26762126
SNP Position Genomic:     1396
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:45145):
CGACCATTTCCTCTGTGCCAGGCTTTGTGTTAAGTGCTTTACACGAGTGATCTCAATTTATTCTCACAACAGGACTATGAGGGAGATTCTATCATTAGCG
W
TTTACAAATGAAGCCAGTGAGCCTCAAAGAGGTTCAGTCCCTTTCCCCAATTCTCAGAGCCAGTTGGGCAAAGAGTCCCAGGGCAGAATGAAACCTAATG
Celera SNP ID:            hCV11465467
SNP Position Genomic:     16979
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45146):
CTTCCCCTTCCAGTAGCGTGGCACCACCTTCTGACCCACCCCTCAGTGTGTCCACCAGTGAGAGTGGTTCCTAAGGGAGAGTGTGAAGCACACGTAGGCA
S
TGTCTTACACCACACCTGCTGAGTCCAAACCATGGGAGGCTCCTCTCCTAGACCCTGCATCCTGAAAGCTGCGTACCTGAGAGCCTGCGGTCTGGCTGCA
Celera SNP ID:            hCV566821
SNP Position Genomic:     5964
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,5)   caucasian(C,21|G,19)   total(C,52|G,24)   
SNP Type:                 TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,5)   caucasian(C,20|G,16)   total(C,53|G,21)
SNP Type:                 TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|G,7)      total(G,7|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:45147):
TGCTGAGTCCAAACCATGGGAGGCTCCTCTCCTAGACCCTGCATCCTGAAAGCTGCGTACCTGAGAGCCTGCGGTCTGGCTGCAGGGACACACCCAAGGG
R
AGGAGCTGCAATCGTGTCTGGGGCCCCAGCCCAGGCTGGCCGGAGCTCCTGTTTCCGCTGCTCTGCTGCCTGCCCGGGGTACCAACATGGCCCAGAAGCG
Celera SNP ID:            hCV566822
SNP Position Genomic:     6081
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:45148):
ATCATCTCACAGTCTCTGTGGGGCAGGATTCTGGGCTGAGCCAGCTTCTATGGCTCGAGGTCTCTTACAAAGTGGCAATGAATATGTCAGGAAGGGCTTC
R
GTCTCATCGGAAGATTTGACTGGGGGTGGATCCACTTCAAAGCTCACTCAGTTTCTGGCAGGATTCAGTTCACTGTGGGCTGTTGCTGTTACTATTCAGT
Celera SNP ID:            hCV9401020
SNP Position Genomic:     41485
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 TFBS


Context             (SEQ ID NO:45149):
AATCAGCCCTTGATTCTTTCGAAAGCCTCCACATCCTTTCCAGATGGCACAGAAAGGGCCCTCCTACAATCCCCCGGCACCCACACTGACCCCTCCTGCC
R
TGCTTATCACATGGTGTCATCACTGTCCACTTATGTATCTGCCTCTCCCTTGGGACTTTGTGCTGCAGAGGGCAGGAGCTGTGTCTTGAATCTTTGTGCC
Celera SNP ID:            hCV566823
SNP Position Genomic:     7653
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,11)      total(G,11|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45150):
AGGATGTATGGATTCCTATAACTAAACCGTGGGAAGACCTGGAGTGTAGCCAGACCTCAGGGGCAACTGGCACTGGCCAGACTCCTTTCTTTCCATCTCT
M
TTCTCTCATCCATTCTTCTGAGTGTCCATTTCAGCCTCTCTCATTGGTCTCTTCCATAATGAATGGAAACATGGCGGCCCACACTCAGTGTCTCAAGAGA
Celera SNP ID:            hCV15760140
SNP Position Genomic:     18229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,11)      total(A,2|C,11) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45151):
CCGTGCTTATCACATGGTGTCATCACTGTCCACTTATGTATCTGCCTCTCCCTTGGGACTTTGTGCTGCAGAGGGCAGGAGCTGTGTCTTGAATCTTTGT
R
CCATTGACTTTCTCGTGCTGTGACGTAGCACCTGCCTGGCTCAGAACAGGCACTCAATAACTGTTGAGTGACTGATTGGATGAATGAATGAGATGAGTAC
Celera SNP ID:            hCV566824
SNP Position Genomic:     7751
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45152):
TACAAAAAGTACAAAAATGAGCTGGATGTGGTGGCGTGCATCTGTGGTCCCAGACACTTGGGAAGCTGAGATGGAGGGATCACTTGAGCCCCAGGAGTTC
R
AGGCTGCAGTGAGCTGTAATCACACCACTGTACATCAGCTGGGCGACAGAATGAGACCCTGTCTCAAAAAATAAAAAACAAAATAAGAAATAAAGTAAAG
Celera SNP ID:            hCV566825
SNP Position Genomic:     10065
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45153):
AGCCAGGCGTGGTGGCACATGCCTAGAGTCCCAGCTACTCGGGAGGCTGAGGCAGAAGGATGGCCTGAGCCCCGGTGGTGGAGATTGCAATGAGCCGTGA
K
CACGCCACTGCACTCCAGCCCAGCCCGGGCAACAGAGCAAGACTCTCTCAAAAAAAAAAAAAAAAAAAAGGCCAGGCACGGTGGCTCATACCTGTAATCT
Celera SNP ID:            hCV7477376
SNP Position Genomic:     12831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45154):
GCAACAGAGTGAGACTGTCTCAAAAAAGAAAAAGGAATTCTAGAGCCACCACTGGCACCCACGCTCCATACAGCTGGGTTTGGAATGAGCGCTGTCCTCA
Y
GTATGACCACGTGCAGGTAAAGAGCTTTGAAGGTGCCAAGGGCCATGAGTAGCTTGGGAGGTCATCTAGGTTCTCCCAGCACTGTGGAGTCAAGGAGTCC
Celera SNP ID:            hCV1742296
SNP Position Genomic:     4066
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:45155):
TGTGGGGCCTGCAGGCAAGTCATGAGAGAGGTAAGCAGCTTCTCTTGCTGTCTGGAATGCAAATATCTTCCCTGTCGCAGGCTATGGGAGCCACGCCAAG
Y
TGCAGGCATGGCAGGCATGGCAGGCGTGGAGACACAGCTACTGTCCTGTTTGCTTGGTTGGCTGACTTCTAAGGCCTCCCTACGCTTGCATGAGTCACTG
Celera SNP ID:            hCV1187366
SNP Position Genomic:     31032
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,24)   caucasian(C,7|T,25)   total(C,11|T,49)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;(T,-|C,-)   JBIC-allele(C,99|T,1380)   total(C,99|T,1380)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45156):
TAAGTCCACACCTCCTGCCCACTGACCTAAGTGTTAATGCTCGTCTTTAGATGAAACTACGGAGGTCTCGAGAGGTGACATGACTTGCCCAAGGTCACAC
R
GGGCGCTGGTGGTGAAACCCTGGGCTGGAGGTTCCCCAAAGCCCTGCTCTCTTCCTTCCACCCACTGTGCTCAGTGCTGGCCAGGGTGGTGACGTGTTTG
Celera SNP ID:            hCV1187472
SNP Position Genomic:     6783
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45157):
CAGAAGACCCAGTGACAGCCAGAGAATGCCCACTGCCTGTAACAGCCACCTGGAGAACTTCATAAAGATGTCTCACAGCCCTGGGGACACCTGCCCAGTG
S
GCCCCAGCCCTACAGGGACTGGGCAAAGATGATGTTTCCAGATTACACTCCAGCCTGAGTCAGCACCCCTCCTAGCAACCTGCCTTGGGACTTAGAACAC
Celera SNP ID:            hCV566794
SNP Position Genomic:     35716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:45158):
CCCTTTGCTCTTCCTTCCTCTTCCGCCATGGTTGTGAGGCTTCCCCAGCCATGTGGAACTGTGAGTCCATTAAACCTCCTTTTTTATTTTATTTTATTTT
W
TTTTTTTTTTGAGACCGAGTCTCGCTCTATGGCCAAGGCTGGACTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCCAGAGATTC
Celera SNP ID:            hCV11465503
SNP Position Genomic:     34764
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|T,9)      total(A,4|T,9) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45159):
GGTGGTCGGTGGAGAATCTTGGAGGAGAAAAGCCAGCTGGGCTTTCGGAGTCCAGCAGTGAGCAGCGCCCTGCGGGGCGGGGGCGGGTAATGGAACCTGA
R
CCCATCTGAGTCTGCTCTAATCTGTTCCTAAACTCTTTTCTTTGATTTATTGCTTTTGTAGAAAAGTTCATGTGAGCAAAAATTCAAGCTTGTTTTTGCT
Celera SNP ID:            hCV1187473
SNP Position Genomic:     6989
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45160):
TGGAAAGCCACCACGTGGCCTTCTCAGCCTTCAGGACACAGTGGATCTGTGAATCAGGAACTGCCTGATGGGGTATGACCCAAATCAGGAACAGACCGAG
W
CTCAGGGCCTGAATCTTAGCAATTGTCCTCAGTCCTTGGGAGAGACTAATTTGAGTTTGATTCTTTGCTTCCCCAGTGACATGCAAGATGATTTTATCTC
Celera SNP ID:            hCV566796
SNP Position Genomic:     30827
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,40)   total(A,75|T,1)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;SC_12_AA(A,4|T,19)   total(A,4|T,19)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45161):
ACAGAGAAACCCAGGGCTTCCGAATAGCATCTCTGCCTCTTCATCACACTGAACCTATCTCCTCACCCTTAAAGTGGCCATTCTGACATCTTGATGTCAG
S
CCTCTGAGCCCAAGCTAAGCGGTCTTAACCCCTGTGACCTGCACATATACATCCAGATGGCCTGGAGCAACTGAAGAACCACAAGAGATGACATTCCACC
Celera SNP ID:            hCV1187369
SNP Position Genomic:     29358
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,9)   total(G,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45162):
AGCCCATCTGAGTCTGCTCTAATCTGTTCCTAAACTCTTTTCTTTGATTTATTGCTTTTGTAGAAAAGTTCATGTGAGCAAAAATTCAAGCTTGTTTTTG
M
TAAGCTTAGAGGCATTCTCCTTCAGGGCAGTAGGGGACATGGTGTGGAGGTACCCCTTGGTATTATTCCCTGTCTGTTGAGGTTCTGTCGGGTGTGACTT
Celera SNP ID:            hCV1187474
SNP Position Genomic:     7088
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45163):
GGTAAGCTCCAGGAATTGTCCGATTGGTCTTTGTTGCTCCTTTCCCATGCCTGCCTGACATAGAGAAGGATTTTGGTCGACATGTGTGGAATGAAGTGAA
R
AATAACCCCCAAAAAGCTTAAGAGGCCCTGGCTGCAACAGCTGTCACCCAGTAATTCCAAGAGTTCACTCGGCATCCTGGGCAGGAGTCCCCACCCTCTT
Celera SNP ID:            hCV566797
SNP Position Genomic:     26820
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(A,-|G,-)   SC_12_A(G,7|A,16)   SC_12_C(G,5|A,18)   SC_12_AA(G,10|A,13)   SC_95_C(G,24|A,149)   total(G,46|A,196)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45164):
TCTCCCCCTCCAGAGGGTAAGCTCCAGGAATTGTCCGATTGGTCTTTGTTGCTCCTTTCCCATGCCTGCCTGACATAGAGAAGGATTTTGGTCGACATGT
S
TGGAATGAAGTGAAAAATAACCCCCAAAAAGCTTAAGAGGCCCTGGCTGCAACAGCTGTCACCCAGTAATTCCAAGAGTTCACTCGGCATCCTGGGCAGG
Celera SNP ID:            hCV566798
SNP Position Genomic:     26805
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Gene Number:                 226
Celera Gene:                 hCG37739 - 207000009795026
Gene Symbol:                 CACH-1
Protein Name:                cytosolic acetyl-CoA hydrolase
Celera Genomic Axis:         GA_x5YUV32W40L(9923960..10000304)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12386):
CAAAGTAGGCACTCAATAAGTATGTGCTGATTGAATGAATGAAGGTGACTTGAAATAGAGGCACCAGCATGGCCTTTGGAGCTAGAACTGGGCACCACTC
CCATCTCTCCCACTTCCCATGTGTCCTCTGCACCACATGCATCAACTTCCTAGCCCAGCTGAACAAGAGCCAGACTTTCTAGATTTGAATCCTGACTCTA
CTACTTCCTAGTTATGTGGTCTTGGGCAAGTTCCATCAGTTTCCTCATCTATAAAATGGGAATTGTAGTAGTTTGTATACTTCATAGGGATGTGTGGCAT
GTTGTAAGTGCTTATGAATTATCTGGGCTTGATTTCCCAGCTCTTTAAAGAGAATATTACTTGCAAGGTTGTTGTGAGACTTGACCCTCCATAAATAGCA
GTTATCATGATTCCATTTGATAATACTTTCTATGATCTAATCACAACTTTATGAAATAGGGAAAGCATCCCTATTTTGTTAAAAAAAAAAAAAAAAACAA
ACTAATGTGTAAATTGAGTGATACATTCGAGTTCAACACTAGCAAGGATAGGGTCTAACTCAGACACAAACACATCTCTCCAGACCCAAGACTGTGACCC
TTTTCCCCGCATCACAAATTCCTTTACAGGTCTGAAAAGGCCCCCTGTTAAACTGAAGATGTTCTTGGGAAGGACTGCACTGTAAGCTTTACTCTTTTAA
AGAAAGACACCATACGGCAGTAGTTTTTAACATACTGTGCAGCAGAAGCACATGGAAAAATTGTTAAAAACAGGTTATTGGCTGGGTGTGGTGGCTCACG
CCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACAATGTCAGGAGTTCGAGACCAGCCTGACCAACATGATGAAACCCCGTCTCTACTAAA
AATGCAAAAATTAGAATGGCATGGTGGCATGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGTGGCGGAGGTTGC
AGTGAGCCGAGACTATGCCATTGCACTTCAGCCTGGCCAACAGAGCGAGACTCCATGTCAAAAAAAAAAAAGAAGTTACTGGCCCCACCCCTGGAATTTC
GGATTCAGTATGTATGGGTTGAGCTGGAAAATCTTGAGAACCACTCCCCTAAGGGGAAGTAGCTGAAAGCTGGCTTAGAAAGCAGGAAATGGTGTGGGCA
GGAGAGATCTGGGGAAAGCCAGGGAGGCAGGAAGGGGCAGCTTTAAGAGCCAGCCAGAGAGGGGAGGGCTCTGCCAGATGGAAGAAAAAGCACCAGATCA
GGCTCTAGCTCAATCTCAGTCTTTGGCAAATCACCTTTTCTGAGATAAAAAGGAGTAATTCTTTTAAAAACAAGCTACCACAGCTCACCCCATACGAAAT
AATTTGAGTACCCCTGTAACTGTTTCAAAAATCGAATTAATGGCCGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGAGG
ATCATGAGGTCAGGCATTCGAGACCCACGCGGCAACATAGTGAAACCCCGTCTACTAAAAATACAAAAAATTAGCTGGGTGTGGTGGCGGACACCTGTAA
TCCCAACTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGGGAACAGAGATCGTGCCATTGCACCCCAGCCTGTGTGC
CACTGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAATTTTAAACTTCCAAAAAAAATCTTCAGGGCCCAGATAGTTTCACTGGAGAATTCTA
CCAAAAGTGTAAAGAACACCAAATATATACAGTCTTTTTCAGAATACATGGTGGGGGAACATTTCCCGATTCATTTTATGAACCCTGACACCAAAACCAG
ACAAAGACAGTTTTAAAGAAAGAAAACTGCAGACCAACATGTCCCAAAAATACAGACATAGAAATTCTTATTAAAATATTAGTAAATGGAAATCTGCAAT
ATATAGAAAGAATTGTATACCATGAGCAAGTGGGATGCAGTATTTGAAAACAATGTGCTCCAACATATTCACAGGCAGTGGTGGTGACCGCAAAGGGACT
CCACTGAGCAGTAATCAATGGCCTGGGATGAAAGTGGGGCCAAACAAATCTGGGGAAGCAGAAAAATTAGATTCTATACACATGGCTTTTGTTCAAACAA
AATAAAGCTCTGTACTCCACACAAATGTGGTGGCTGTTAGGTTCTACACCTAATGCTTGACAGAAAGAAGGGGCCACCGGAAGTGCAGGGACAAACAGGA
GCAAGGTTATCTTGAGGCTCCAGGTGCTAAGAGGGACAGTCCAAGCAGAAAACCCATTCCCCAAAGTCACTGCCATCCCTAGAGCAGGGTTCAGGGGCAG
AGAAGGACAGGAGACCCTCCAGTCAAGAAGTTGGCGGCCAAAAGCTGAGAAAACCCATCCTGGAATTTTTGCTTAGGGGCTCTGAGTTTAAACTTTGAAC
CACATCCTTATAAATTTGTATTTGAATTTGGAAACACTGACCTGACACCTTTTAAAACATACCAAATGTAGAGAGAGAGTTTGATGGCTAATCAAGTTCA
TCTCTGTATGAAGTACTTGAACTAGCAAACCCTCTGTCTGGGACATATCTCCCACAATGGAAAGGCTCCCGGCTGCCTCTGCTGTTCAGGACAGTAAGGA
TTTTGGCTCTCTGCCTTGCCCACATGGCCACGGCACTCACCATTCTGAGTCCTAGTCCAAGCTGACAGCGTCTTCCTGTCCTACTGAGATAAAGCTCCAG
CTGAAAGCTTGCTCTTGCTCTGAAATCTGCAGAAGTCCTGGGGAGTTCATCTCCTGGGACCAGCCCTTAGTCAATGAAGGATGCCAGTCAGAGGATAAAA
ACCCCAGGGTTCATGCCAGTGGGAGGGATGGCTGGGGCTGTTCTTCACAAACTGTAATGTGCCCCTGAATCACCTAGGAATCTTAATAAAATTTAGACTC
TAATTCAGTAGGTCTGAGTTGGAGCCTGAAATTCTGCATTTATAATTTTTTCTTTTCTTTTCTTTTCGAGACAGGGTCTCACTGTGTCACTCAGACTGAA
GTGCAGTGGCCCAATCATGGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCCCAAAGTAGCTGGGACCACAGGCATATG
CTACCTTTCCTGGCTAATTTTTAAATTTTTTTTTTTTTTTTATAGAGACAAGGTCTCTCTATGTTACTCGGGCTGGTCTCAAACTCCTAGGATGAAGTGA
TCCTCCTGCCTCAGCATCCCAAAGTGCTGGGATTATAAGCATGAGCCAACACTCCCGGCCTGAGATTCTGCATTTCTAAGAGGATCCTAGGTGAGGCTGA
GGCTGCTTACCTGGGGACTACACTTTGATGCCCCTACCAGTGCTTTCTGCAATTTCCTCCCAAATAAACTGTCTGCTCTCAAATTCTTGTCAGAGGCTCT
GTTTCTGGAGAAAGCATTTTTTTTTCTACCTCTCTACTTATATTCCAGGTTCCTTGTTCTCAGTTTTCACAAAACCCAGCCACTACCTTACAATGTGAGC
CAAGGAAATCACTTCATTTCCTCATCTCTAGAATAAGAGTTTAGACTGTCCAGTTCCCCTTCCCACTCCAGCATTTTAAAGATTTTCTCGTTATTCTAGT
GATTGTGGAACTTCCCACACTTTTTTGGATCAGCTTTCCTGCTCCTGTGTACAAACTTTTAAAATCAAGCTGGCTTCACATTCTGCTTATCTTCAAAAAT
GTCTCTAAACACAAATGAAACTCGACCTTTTATTCAAGCATAATAGTAAAAATCTTTGACACCAGAGAGAAATGGAGGTAACAAATGTTCATGCATGCAG
ATKACATTTTCATTGTAAAAGGAAGAAAGGGACCATTCAGAAAAACACAAGAATAGTAAAATGAAAATTAGTATGAAACCAACAAAAGATATGAAACCAT
AATCTGAAGACATCTAAACAGGAGATAATAAAGATAAGAAAACACAGCAGTGAATTTGTGTACCATGTCTGCTTTTAAAGCAACATCTCTAGACAAACAC
ACAAATATACACATGCTGTCCCCTTCAAGAAAATCATTTTGGAAACCCATCCTCTTACACTTATGCGTAAACATTTTTGAAATTTCTTCTTCTTTTTCTT
TTTTTTTTTTTTTTTTTTTTTTTGAGACTCAAGCTCACTGCAACCTCTGCCTTTTTGGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGAC
CACAGGGACACACCACCACGCCCAACTAATTCTTGTATTTTTGGTAGAGAGAGGGTTTCACCATGTTGCTCAGGCTGGTCTTGAACTCCTGAGCTCAAGC
AATTTACCTAACCTCAGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACTGCGCCTGGCCTAAGTTTCTTTAGTTTATAAGAAACCAAGTATACAAC
CATACACATAATTCAATATCACCACTTTAGTCACCACTTTTTACCCAAAATAATACAACCCAGCCTAAATGCAAACTTTATTTCCAGTAATTTAATAAAC
TTCCCAAATATTAATACAGTTCACTCATGTAACTGTCAGCTATTGCTGCATAACAGACAACCCCCAAAATCACAGTGGCACACAACAATAAGTAGTTATG
TCTCACTCAAGAGTCTTCATGTCTGCTGGGTTGCTCTGCTTCAGGCTGTGAGTCCTCCGGCTGGCTGAGATGCCTCTGCAATACGTGAATTCAGTCTGGT
ACCCAGATGCTAATAGGCAGCTACTTGACCTCATGGCAGAGGTCAGATGTTCCTGAGAACAGAAACACGGTGCTTCTAAAGGCAAGACTGGTGGTACACT
GCTATCTCTCCACATTCCATTCTTAAGCAAGCCACATGGCCAAGTCCAAGGTCAATAAATGACTCTCACAGAGTTATTGGTAGATGGAGTGAATATATGA
TAATCTATCAATTCCTAAATTATGATTTCTCAATACAGAAGTCATTAAAAAGAAGGCATTTTCCAAGGAGGAGTGCCAAAAGCGATGTAATAACGTTATC
ATTGAAATAAGTGTATAGCTACATAATGGGACCATCTTGGATGCACAAGTTTTTGTTTGCTTTTAAAAGTTATTTTAATGCCTTTTATATAAGTCAGACT
TCATGCTTGCCTCAGTGAAAACATGCAATTCCTATTTATGATTGGATTGTCCTGAAACCTATACACAGAGGCTCCTAAAAGCTATCAAGTCAACATTTCC
TTATTTCTTCACTTTCATTTAAAAAAAAATCTTTTAAAAAGGAAAGAAAAATACCAGAATCTCCATTCTGATGTCGCCATGCTGAGGCTTGGCAAGCCAA
AAATATAAGGATGAAAAGGCACCACCAATTCGTGAGAGTCGGCTAGGCTTCTTCGTGCTATTCCGGACAGTCAGGAGCCCTGGGTTCCAGCCAGGTGATC
GGGTCGCTTATCGGCTCCTATCACCTCAGCTGCTTGCTCCACTTCTCCGGGTTTCCAGTTCTCCATCGTAAATGTGCTCCCTGGAGCAGCCTCCCCTGAC
AGTCAGACATCCACCAATCCATTAGATGCTGGAGGTTTTCTGGAGACACTGTTTCCCTAATGAGGACTGCTTTGTACAGTCACTGATAGCAGCTCTAGAA
AGTGTAACAGCTTTTTTATGTCAAAAGCTGTTCCTCGCGCTCCGGCTCTCGGGGAGCCGCCTTCCAGACCTGTCTACCCGGGAGCCCCCTCCCCGCGCAC
TTCCCAGACTTCTCCTGAGACCCGAGAGCGCTGGTTTTCCCCCACTCGCGATAGTCCTGGGATGACAGTGCGGGCCCCCTCACTCGCAGCTCCCACCACC
TGGCGGCCAGGGGTTCGCGGCCCGGGCGGGCGGCGCCAGTGCCCTCTGGAGCTGGGCGGGGAGGGCGGGGCGGGCGGAGCGGGCATGGTGGGGTGTCGGG
GGCCGCAGGCGTAGCGCTCTCGCCCTGGCCATGGAGCGGCCGGCGCCCGGCGAGGTGGTCATGAGCCAAGCCATCCAGCCGGCGCACGCCACTGCGCGCG
GCGAGCTGAGCGCGGGGCAGCTGCTCAAGTGGATCGACACCACCGCCTGCCTGGCGGGTAGGCGGGCGCCGGGGCTGCGGGGAGGCGCGGGACCGGGGCT
GCGGGAGCGGCGGCGGCTGGGGGCTGGGGGGGGTAGGAAGGCGAGGAAGGTACTTGCGGAGAGCTGAACCCTGCGCAGCCAGGGATAGGGGTGTTGCAAC
AGTGCGCCCGCGCTGGGCATGGCCGAGACCGGTGGTTCCCAAATGTGTGGCTCTCGGGACTCCTTCATTCCATTAAACAAGTGAGGAGCCCAGAGAGCTT
CTGCGGGGTTTTTTGTTTGTTTGTTTGTTGTTGTTGTTGTTGAGCTCTCTCCCGGGCTGGAGAGCGGTGGCGCCATCAGAGGTCGCTGCAGCCTCGACCT
CCTGAGCTAAAGCGATCCTCCCACCTCAGCCTCCAGAGTAACTAGGACCACAGACGCACGCCACCAGGCCCAGCTGACTTTGGGAGTTTTGTTTTGTTTT
GCTTTTGTAGAGATGGGGTCTCACTATGTTGCCCAGGCTGGTCTCAAACGCCTGGACTCAAGTGATCCTGAAGTGTTGGGAGGCCCCAGCCTCCCAAAGT
GTTGGGATTACAGGCATGAGCCACCGCACCCAGGCAGCTTTTGTTTATGTAGGCTATTTATATCACATTTACCGTAATGGAAATTTAAAATTTTTAATTA
TTTTTAAAAAAGAAATGGACTACATTGTTAGCATAACATTTTTAATTAAGAAATAACTATTTTCCACAAGAACAAAAGTGTAGCGAGAGGAGTGGTGATA
AAGGTTACATCCTGGCGAGTCTCTCTAAGGTCTGGCTAGTGGAGGATTGCTGACTTCTCATACCTGCTTCTGCATTCACCCTGCTGCTACCACACCCTTA
TGTAGTCTCTGGAAAACTCCACTGTGTTCTTGTGACAGAATGACAGTAAAAATGGCAAAAACATTTATTAAGGACTGAATTATATCCCCCACACCACCCA
CCGAAATTTATACACTGAAGTCCTAACCCCTGGTGTGACTCTATTTGGAGTGAAGAATTAAGGCTAATGAGGTCATAAGAGTGGAATCCTGGTCCCATAC
AATTAATGTCCTTATAAGAAGAGACACTGGAGAGCTTCTCTCTGCCATGTGAGGCCACAGCAGGAAGACAGCCATCCACAGGCCAGGAAGAGAGCCCTCA
CTAGGACCTACAATGGGCAAGCACCTCGATTTGGAACTTCCCTGCCTCCACAATTGTGAGAAATCAATGATTCGTTTAAGCCTTTTTTTTTTTTAACAGG
ATTTGAGATTGGTTATATTAACAATGGAAACATGAATACAAAATTAATCCACACATAGGAAAAAAGAATAATACATAAACCACTGAGGTTGCTAATAATA
ATGATGCCTGTTTCCAAGGCAACTGAATACATTATGAGACCACTGAAGTGACTTTTAGTTACCTTGCTTAGTGCCTCTGTCTTGTGATGGAGAAACAATG
GCCCACCTGCAATTGTCATCATTTCTATGACCTGACATCTTTGGAAACCATGGAAAGATCCAATTGACAATCAATTACTCTATACCTTAATAGTTACATT
ACTATTAGTAGTATAATATTAATAACTGATAATGTTACTAATATTAAGAAAACCTGTATGATAAAGTTGGTTTGGGCAACATGAATAACGCCTGTGTTAA
ACACTTTATGGTGACCTGAGGCACCACATAAGCAGGGGACATTATTTAGCCAAGGTGTAACTGAATCTGTGTAGTAATATAAAACTGATTTCTCTGGGAT
TTTCTCAGAGTTTTTTATAGGCCAGCATTATCTCTTTAGCCACATTACTGCAATCCCAGTCATGGCCCCCAAGGCATTTCTATGACCCCTAGGCACTGCT
GGATTCCAAAATGTCTTCTCAATATTTAAAGAAAGATGAAATATTCTCACTATCCTTACTTCTGTCAGTGGCCCCATTATTTTTCCAGTCCCTTAAGTCT
AAAGTCTTGAAGCTATCTGAGTAATCCTCTATCTCACACGTCCATGTATTATTTTGGAACATCTCACACACAYGGTTTTTTATTTGTGAATCTTTTCCAG
GGTTTACTATCTCTGGAGTGGCACCCAACTCATCTAGTTGAGCAAGTCAAAAGTCTAGGAGTCATCCTTGATATYTCTSTCTCCACCTTACTTCTCACTT
CACATACTCTATGCATGGAGCAAGTCCTATCAGTGTTACCCCCTAAAGGAGTCTCTGAAATCCAAGCACTTTGCTGCACCCCCATTGCGAMCATCTACTC
CAAGCTATCATCATGTTTCATGCAGACTTCAGCAGTGATTTCCAAACTCATCTCCATTCATTCTGGTCTCCTCTCCACACTGCTTCTAAAGTAATCTTTG
AAGATGCTAATCTGATTGATCATGTCATATGTTTTGTTCATTTTTCCCTTTCTTTTCTTCACCAAGGGCTTTAAGGATTTTTCTAAGATGTTCAAGTGCT
TCCTACTAAAAAATCTCCCACAGATAATAATTATAAACTCTGGGCAAAACACTAAATAAAAGAGACTTAAGGCAGGTGAAAAGTGAACAAAAGTAGGCTT
ATAACACTTGAAAGTTAACACATGAAAGAACAAAGTGGTGTTGGCTTTTTCTGTGTTTGTTTTATAAATGACTTGAAGCCTGAAAGAAAATGCCAGTCTG
CTCCCAGCTATAGTTCTGATGGAAAACCCACAGGCTTGCTGGTTTGAAGAGCCCAAAGACAGGGTTTGGGAAAAGCACAGCTACTGAATGAAATACAAAA
GGGAAAGTTCCAGAAAGGAAAGAGCCAGAGAGACAGAGCCCTAAAATCTATCTATAATCTTTTCCCAGATATCTGGCAAATCTTGAATCATGTATACATA
GGACAGACTCCAAACCTCCTGGTTGAGGCCAAAAGAACTGAAAATAGTTGTGCCCATCTCTAGGTAGACAGATTATAGTTTTGGTTTGGTCAGGTTAACT
GCTTGCTTTAAAAAACAAAACCAAAAACAAAACCAACACTTTTCAGAGAAACACAGTTTCTACAATGGATCACTCACAATGGCTAGGATATTATCCAAAA
TTACTTGAAATACAGAGGGAAACATGATTTATTCTTAAGAGAAAAGATGATCAATGGAGATTCATCCCTAGACAACCCTGATGCTGGAATTAAGCTTCAA
GGATTTTAAAGCAGCTAGTATAACTGTGCTCAATAATATAATTAAAAATATGATAATAAAGATTGCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGT
GGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGTCAACATGATGAAACCCTGTCTACTAAAAATACAAAAATTAGCCGGGTGTTGTGGCAGGTGCTT
TTAATCCCAGCTACACAGGAGGCTGAGGCAGGAGAATCACTTGAATCTGGGAGGTGGAGATTGCAGTGAGCCGAGATTGTACCACTGCACTCCAGCCAGT
GCTGGAGTCTCATTTGAGAATGAGACTCCATCTCAAAAGAAAAAGAAAAAGAAGAAAAAGATTTAAAAGACAGTACATTTCTGCAGAGTAATAGAAACTA
TTTTTTAAAAGCCAAATGGTAATTCCAGAACTGAAAAATACAGTGTCTAAAATAACAAACTCAATGGCTAGGCTTAACAGCAGAATGGACATGGCTGAGA
AAAGAGTTAGTAAATGCAAAAATACATCAATATAAATTATCCAATCTAAGAACAGAAAAAAATGAATTTTAAAAATAAAGTGTGGCCAGGTACAATGGCT
CATGCCTATAATCCTAGCACTTTGGGAGGCTCAGGTAGGAGGATGRTTTGAGCCCAGGAACTTGAGACCAGCCTGGGCAACATAGAGAGATCCTGTCTCT
ACCAAAAAAAGAAAATGTTAAAATTAGCCAGGCATGGTAGCATGTACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGTGAGGATGACTTGAGCCTGGG
AGGTCGAGGCTGCAGTGAGCCATGATTGCACCACTGTACTCCAGCCTGGGTAACAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAAATACATAAATAA
AATAAAGTGTCAGAGATTTGTGGAAAAATAAAACATAAACATAATTAGAGTTCCAAATATGGTGAAAGACATACAATTACAGATTCAAGGTCATAGAACA
TCAAGAAAAACTAATACAGGCTGGGCCTGGTGGCTCACACCTGTAATCCCAGYACTTTGGGAGGCTGAGGCAGGCAAATCACCTGAGGTCAGAAGTTCAA
GACCAGCCTGGCCAACATGGTGAAATCCCATCTTTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGCACGCCTGTATTCCCAGCTACTCAGGAGGC
TGAGCAGGAGAATCTCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGTGCCACCACACTCCAGCCTGGATGACAGAGTGAGACTCTGTCTCC
AATTTAAAAAAAGAAAGAAAGAAAAACTAATACAAAGAATACATCCAGGCATATCATAGTCAAACTATGATGAAGAGAAAATCTTGAATGCAGCCAGACT
GAAACACCGTATATAGGAGAACAACAATTAGAATTACCACTGACCTCATCAGAAACAGTGGAGACCAGAAGGCAGTGCAACAATATCTTGAAGAATAATA
ATTACAAAAACTTTGAACCAAGAGCTTCAAGGCCCTGTGCATAGCCTGTCCTCAGCCTTCACTCYAGCCTCATCTCACCCACTCTCCCTCCTACTCTCTG
CATTGCAGTCACCAGGACCTTTGTAGTCACTGTTCCCTCTGCTCAGCAGGCCTTCCCCTCCTCTGCCCTCCAGCCTTCCTGGATACCCCACCTAGTGTAT
TATCTCAGTTACTGACTGTCATAAAATCCCTGTTTTCTTCAGAGCACTTAGTCCATTTTGTCATTATGTATCTGTATTAGTCCATTTTCATGCTGCTGAT
AAAGACATATCTGAGACTGGGTAATTTATAAAGAAAAAGAGATTTAAYGGACTCACAGTTCCATGTGGGTGGGGAAGCCTCACAATCATGGTGGAAGGTG
GAAGGCACTTCTTATATGGCGGTGGCAGGAGAGAAAATGAGAACCAAGCACAAGGGGTTTCCCCTTATAAAACCATCACATCTCGTGAGGCTTATTCACT
ATTATGAGAATAGCACAGGAAAGACCTGCCCCCATGATTCAATTATCTCCCACCGGTTCCTTCCCACAACATGTGGGAATTATGGGAGCTACAACTCAAG
ATGAGGTTTGGGTGGGGACACAGCCAAACCATATCAATATCCATTTAATTAACCTCTAGCTCATCCACTAGACTCCATGAGAGCAGGGGTCCTGGCTGTT
TCCCATTGCCAGCACCTTACGCAGAGGCTGCCTTATATAAAATAAAACAAGTGTTCAATCAATATCTGCTGAAGGAAGGAAGAAATGAAGGAAGGTTACC
ACTATTTTTATCAGTCATCATTTCGTACCTACTTACAATCACTTAGCTTCTCTTTGTTCTCCCAGGAAATCAGAAACAGCTTTAGGGTTTTCCACTTCTG
CTGGTATGAAGGGCAATCAAAATCAAGAACCAGAACAAGCCAGTCCTGTGAGTTCATGTCATCTAATTGACACTCGTTTAAAAACACAGCACGCATGTAA
TGACATGTGAAGCCAGGACCCTATGGTGGTCCCCATATTTTTTTTCCTTTTAGTTTAATGACCCTTGAAAATCAATGGTATAAATCATGATTATTGAGCT
CCTGAAACCCATATTTAGCCACGTCCTTCTCTGGGAGTGTTCTCTGGTTTGTCTAACCTACTCTTTCCTGAAAGTTCCTATTGCTTCTATAGTCAAAATC
ACTATTTAGAACAATGCATTTAATCTTTCTAAGCCTAAATTTTCTTATTTATAAAAGGGAGCTAATAATAGTACCAACTTCATGTAATCGACATGCTTAA
ATGACTAGTCCAGTGCCTGATCAATAATAAATGCTTAATAAAAAGTAACTGTCATGATTTTATTACTTTTTGATCCCTTAAGAAATCTAGTATAGTGCTA
CATATACAGAATAGATACCCAATATAAACAATAAAAGTTTAATTTTTTTACTGGTTACTGCATTTTAGTTATCATTTAAGTCATTCAAAATTGATAACTC
AGCCGGGCATGGTGGCTCACACCTGTAATTCCAGTGCTTTGAGGGGCCAAGGCAGGAGGATCACTTGAGTCCAGGAGTTTGGGACCAGCTTGGGCAAAAT
CATGAGACCCTGTCTCCACAAAAAATATTTTAAACAATTTTTTAAAAGTTAGCTAGCTGTGGTGGCACATGCCTATAGTCCCAGCTACTTGGGAGGCTGA
GGCAAGATCACTTGAGCCCAGGAGTTCGACGCTGGAGTGAGCTATGCTCGTGCCACTGCACTCCAGCCTAGGTGATACAGACCTCGTCTCTTAAAAAAAA
AAAAAAAAAAAAGATACTCAAGATACTCATGTTGGTATACATTATAACACTTTATTACTAAGAATTAATAACCTCAACATCCCATTCCCTCATGTCAAGT
AACTGGAATGAATGTTTATTAAGTATTCTTTAATCAATGATTTAAGCATATATTTGCAAGGTTTCAGCAGTTCCCTGGAAAACTTAAGCTCTAAAAGGGT
ACTGACTATGGCTGGATCTCTAAGTGCCACAGAGTGGACTGCTTAAAAGATAGAGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGA
TCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGTGCACACCTGT
AGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGAAATGAGCCAAGATCACACCATTGCACTCCAGCCTGGGT
GACAGTGAGACTCTATCTGAAAAAAGAAAAAAAAAAAAAAAAAAAAAAATGGAACTCATCCAACTCAGTGTCTGGAAATCAGCAAGAACTTAACAAATGT
TTGGTGCATTGAATTAAGTTGAGTCCACCTTGAGCATTCCTAGAGTCCGATTCTTCCATTTTCCCTTCCTTGAACATTTGAATGTCCAATTTTCTGCAGA
ATTAGATCCTAGACAGGAATGTGTTAAATACGTGCGCAGTGGGGTATCTCTCATGTCTTCTTACCTAGGACTATCAATTAATACATATGTAGTTATAATG
ATCCAGTACGCACAAGGAAGACAAATTCAGTGTAATTCACTCTTTTCTTCATCATGTGGCACCAGGACTGAAGTCTCCAAAACTAAAATGAGGTCAAAAG
TTCTTATAAAGCCAATATAATCTGTTTGGCTTTCAATTGTGTTTCTCAAAATCAAATCTGGCAGAAGCACATGTCAAAATCTTCCCCACAGAGTATAAAT
TCTGGTGTTTTTTATGTAAAGCAAAACCAACAATAAAAAAAAAATCTGAGCAAATTACGTGCAGACATAGAACATGGAAATAACTAAGCTTCTTCCTGAA
CTCTCCCACCCTACTCAATACTCCTCCTTCAAGGTAATTAATGTATACTGAATTTGGCATAAATTTGGTAATAATAAAATAAATATTGACTAAATATCTA
CTGTGTGCCCATCTCTCTTTCTCTGATACCCAGAGAAGATCCTCTTTGATTTGGGATGACTCGGGGTTTCCCATACCGCTCAAGTGCTTACGGTGGTTAA
ATCATTTAAACAGATTCTGCTACTGGTTATGTGGGCAAGTGGCTACACCTGTGATGCTTTGATTTTAAAACAAGAAGGATAGTACCTGATAAAATATTTA
AAGTCAGCACCAACTTACTAAAATTGCTATTTCAATAGCTAGATTTGCAGGATCTTGGTATTAAATTTCAAATACAAGACCATGTAAGTTAAAAATTAGG
ATAAAAAGTGCAGTAATTACCATACATTAGAAATATAACTCACAGAGCAAAGAAGCTTGTAATGAGCCAGTTGATCCAGAAAGTGTAGGCACAGTGGTGC
TATAATGAATGAGGGATGGGTGACTAAAATCAATGCACTTACATTTCATTCCTTTCCCTTATACTGAAATATTCTCATATCACCACTAAAGCAGCACATT
TTTATGTATTTTTTGAAGCTGAGAAACATGCTGGAGTTTCCTGCGTTACAGCCTCAGTGGATGACATACAGTTTGAGGAGACAGCTAGGTAAGTGACATT
GCTCCATGGCTCCTTTCTCCTGGGTTTGTGGGTTCATCTGGGACATGTATTGGTGGCACCTGAGCTTATTCAGGCAGAGGTAGTGATCTTGTTTCTTAAT
AAAATAAATAACATGTGACCCAATTTAGGTAAGTAAAAAAATAATCATAGGGCCTACTTATAAGAAACACTCTTAAGTGTAACTTCACAGTCTCAATTTT
GTGGAGAAATAGCTCTCAGCCTTAGATGCATTGTGGCATAAGGCATAACAGCCAAACAGACTTTCTATAAGCTCCTTTTTTTAATTGTCTCACTCTGCTG
CCCAGACTGGAGTGCAGTAGTGTGATCTTGGCTCACTGCAACCTATTCCTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTA
CAGGCACATGCCACCATGCCCACCTGGCTAATTTTTTTTGTATTTATTTATTTATTTATTTTTAGAGATGGGGTTTCATCATCTTGTCCAGGCTGATTTC
GAACTCCTGGGCTCAAGCGATCCACCCACTGGCTTCCCAAGGTGCTGGGATTACAGGAGTGAGCCACCATGCCCGGCTACTATAAGCTAATTATTAACAT
CCCCTTCCTGTACTAGAAGAATAATTAATGATAATAAGTATCTTTATAATGGTGAATTTCATCAGGTTGTTAGGTAAACACTAATTCATCTGAGTAGAGA
GAGTAAATTATGAAAAACATTTTATGTGTGAAAGTTCTTAACCATCTTTTACTGTAGAAAATTTCAAGATACACAAACATTTCAAACATACATATTTAGG
TTGGTAATTGAGAAAACTGCGATTACTTTTCCACCAGCCTATAAAACAAGAGAGGATAGTACAGTGTATCGCAAGGACCCTTCACCCCTAGCTATAGCAA
TTATCAACTCACAGACACTCTTGCTTTATCAATACCTCTCCACACTCCCCCATATGCCTGGATTGTTTTGAGGAAAACCCCAAGCATCATCTGTAAATGT
TTCMGTCTATACAGTCATGCATCACTTAATGACGGGATATGTTCTGAGAAATGCATCACTAACGACTTCATCCTTGTAGGAACATCATAGAGTGTACTTA
CACAAACCTCAACAGTACAGCCTCTTACACACCTAGGCTATGTGGTATAGCCTATTGCTCCTAGGCTACAAACTTGTGCAGCCTGTTACTGTACTGAAAA
CTGTAGGCAATTATAATAACATGGTGACTATTTGTGTATCTAAACATAGTTAAACATTAAAAAGATACAGTAAAATACAGTATAAAAGATGAAAAAATGG
TACACCTGGCCAGGYGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCTAGGGGGGTGGATCACCTGAGGTCAGCAGTTCAAAACCAGCCTGG
CCAACATGAAACCCYGTCTATTTTGTACTAATTTTGTACTAAAAGTACAAAAATTAGCCAGTTGTGATGACGGGCGCTTGTAATCCCAGTTACTCAGGAG
GCTAAGGCAGGAGAATAGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCACGCCAATACACTCCAGCAGCCTGGGCGACAAGAGCAAGACTC
TATCTACAAAAAAAAAAAAAAAAAAAAAGTACACCTATGTAGGGCACTTAACCATGAATGGAGCTTGGAAGGCTGGAAGTTGCTCTGCAGGAGTGCAGGA
GTCAGTGAGTGCTGAGCAAATATGAAGGCCCCAGACATTACTGTACACTACCTTAGAATTTATAAATACCACACACTTAGGCTACACCAAATTTATAAAA
ATATTTTTCTTTCTTTAATTATGAATTAACCTTAGATTATTGTAACTTTTTTACTCTATAAACTTAAAAAAATCTTTTTGATTCTTTTGTAATAATACTG
AGCTTAAAACACAAGCCTTTTATAGAGCTGTTTAAAAATATTTTTCTTTATGTCCTTACCTTATTCTATAAGCTATTTTCTGTTTTTAAAATTTGTTATT
TTTTTTTTTTACCTTTTAAACTTTTTTATTAAACACAATGACACAAACACATACATTACCTTAGGCCTACACAGGGTCAGGATCACCAGTATCACTGTTC
TGCTTCCACATCCTGTCTTACTAGAAGGTCTTATGGGATTTATTAAACCAGGATTCAGTATAGGTGATAGGTCTCTTAAGTGTCTTTTAACATAAAATGT
TCCCTTCCTTCTTTTRTCTYGCAATTTATTTTTTAAAGAAACCTGGTCATTTGTTTTATAGAATTTACATCCACTGTAGCCTTGATTAATGTGTTCTCCT
GTCCTTTGTATTTCTTGTAATCTGACAGTTACATCTAAAAATTGACATGATGAAGGTTTGATTTTGTTTTTTCTTTGAGATGGAGTCTTGTTCTGTCACC
CAGGCTGGAGTGCAKTGGTGCGATCTTGACTCACTGCAACCCAGGTTCAAGCGATTGTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGGCAGCTG
CCACCATGCCCTGATAATGTTTGTATTTTTATTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACAGTGC
TGGGATTACATGCGCCTGCCACCACGCCCGGCTGGTGAGGGTTTGATATTCGGTAAAAATTTCTCATGTCAAGGCCATATGATATCTAATGATCATAGAC
TACAACCATTCTGTCATTAGATATTGGAAACATGGTAATATGCTAATTCTATCATTTCTTCTTCATTTATTTTCTAAAATACTTCTCTAGAGGGAAACTC
TCACTAATGACCTGAGTATCCTGAGGAAAAGTTTGTTCAGGAAAGTCTTGACTCTTTCCCTTTATTCATTAAGAGCCTATGGATTTTCATGTACTTGATG
TGTTACAATTCATCCATGTTATTCTTCTTCTTTTTTTTTTTTTGAGACAGAGTTTTACTGTTGTCACCCAGGCTGGAGTGCGATGGCGCAATCTCAGCTC
ACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAAGTAGCTGGGATTACAGGGGCCTGCCACAACACCCAGCTAATTTTTT
TTGTATTTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAGGCTGGTCTCAAACTCCTGATCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTG
GGATTACAGGCATGAGCCACTGCGCCTGGGCAATGTTATTATTCTTACAGAAGTTCAGACTGCCCCATCTTTGAGCAGTGGGAGCTTCTTCAGTTTAATC
CCTAAGTCCCTTGAACAAAAGCCCAAAGTTAAAGGTGCTTAATAACTCCTTGGCCTTCTGGTATAAAATGTTTCAGTCTCATCTTTTACATTTTCCCCCA
CAAACTTAGAATCCATTATTTCTCCAAGGAGTCCTGATTCCTTGCAGTAGAAATGAGAAGTAGAGACCACAACCTGGGCAGGAAAGGTGCACATCACATC
AAAATGGGCATTCGTTCTCGGCCTTTTCAGCGGACAGAATTAGAAATTATGTATTTTTAAAGCATTTAAATTAATAAACTGCAATAATTTAGGGTTATAT
GGTTTTACTTAATTTCTTTGATTTTATGTCTATATCTCTGAGTTTTAATTTTATTTTATGCTGAATATCATGATATTTAAAGACATAAACTTATTTGATT
GAAATTAATATGTATATACACATTAATTAGATTCAGAATAACAGTACCAATATTATCACTAACAAATGAATAGAGAAAGTAGCTTAAGATTATTTATGCA
GTTTCTTTCTCAAACTGTATCTCATCTGGTACAGCCAAGTCACTGTATTTTGAAGTCATTTGAAATAATCATTTTCCATGTGGTTAAGCTACTGACTTCA
TACATTCTTAAGTTCATTTGTTTAATTTGCTTTTTATTTTGTAGGAATGACTTTTATTTTCATTTAATTTTGTTTTATAGTTTAAAATATCTACAGGTAC
CAGAGTCAAATCTGGAAAACAGACCCATTTCACCCTGGGGAAACTGGCTCCTCCCTACCTTCTGTCTAGGCCCCTCCCTCTCTTTCTATGTAAGCTTTAT
TTATTTTGTGCTGTATCCTTCTTTTTTTTAATGTAAAGAAATATTTATATGTATCCATGTTATTTTAAAAATAAATTTCAACACACTGTGTGTACTCTTC
TCCACCTCACTTCTTTCACTTAAAAATGAGGTGGAGAAAAGTATATATAGTATATAAAATATACACTGTAAAATATGTAGTATTTCCATCTAGAAAATCA
CTCCATACCAATATGCAGTTATGTGCTGCATAGCAGCATTTTGGTCAGTGACAGTGGTCCCATAAGATTTTAATACTGGCCGGGTGCAGGGGCTCACGCC
TGTAATCCCTGCACTTTGGAAGGCTGAGGTGGGTGGATCATCTGAGGTCAGGAATTTTGAGACCAGCCTGGCCAACATGATGAAACCCCATCTCTACTAA
AAATAGAAAAAATTAGCTGGGTGTGGTGGCACGCGCCTGTAATCCCAGCTATTCGGGAAGCTGAGGCAGGAGAATCACTTGAACCTGAGAGGCGGAGGTT
GCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGCAACGAGAGCAAAACCCCATCTCTAAAAAAAAAAAAAAGRTTTTAATACTGCATTTTTACT
GCATCTTTTCTACATTTAGCTATGTTTGGATACACAAATACTTACCATTGTGTTACGGTTACCTACAGTATTCAGCACAATAACATCCTCTACAGGTTTG
TAGCCTAGGAGCAATAGGCTATACCGTATAGCCTAGGTGTGTAGGAGGCTATACCATCTAGATTAGTGTGGGTACACTCTATGATGTTTCCACAACAACA
AAATCACCTAATGAAGCATTTCTCAGAACACACCCCTGTCATTAAACTAGGCATAACTGTAAGTAGATATTCATCATTCCTTTTAGTATCTACATAGTAC
TCCATTGTGGAGACGCACTACATTWTTCAACTGGCCCTCCACTGATGAACATTTATATTGTTTCCAGTCTTTTGCTATTACAAATAATATTTCAATTTGT
AGTCTTGTGCAGATGTATGTTTGTTTGTATTTTTTCCAGTATATTTGTGGGATAGATTTCTTTTTTTTTTTTTTTTTTTTTTCTAAGACAGTCTCACTCT
GTCACCCAGGCTGAAGTGCAATGGCACGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAG
ATTACAGGCACGTGCCACCACACACAGCTAATTTTTGAATTTTTAGTAGAGACAGGGCTTTGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAG
GTGATCCACCTGCCTCACCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCTGGCCTTTGTGGGATAGATTTCTAGAAATAGGATTGCTGAG
TCAAAGGGTAAATGCATATGTCATTTTATTAAACATTGCCAAATTCCTCTCCAGAGCAGTTGTTATGTAGGTTTTATCAGTTTTCAAACTTATAAAATTA
AGGGTTAATAAAACTGTGCCAGAAATTTAAATTTGTTCAGATTTCTAATATAGGAATTAATTGCTTAAATAAATATACATATGTATGTATTATTAAACTC
TTTACCTCCAGTTTTTCTGCCAAAAAATGCTACAGATTATGACAGGTATGTAGAGTAACAATATGTGTGCAAAGGCTTTAACCAGATGCAGTCACTCTTC
TAGGTAAACCCAACTGGTTCATCTTGTAGACTGTCTTTAATATATCTGGGCCAGATGCACTGGCTCATGCTGTATCCCAGCACTTTGGGAGTCCAACGCA
GGAAGATCGCTTGACCCCAGGAATTTAAGGCTCCAGTGAGCCATGATTGAACCACTGCACTCTAGCCTGGGTGACAGAGTGAGATATGTATATCTGAACA
AGCCTCTCTACTATGATTAAAATAGTATGAATTGCAATTATTTACCAGAAACCTGAGTAGGGTAATGTTGTCAAAGCTTTGGAGCCAGATAAGACCAGGG
TTTGAACTCTGATCCTGCCAGTCACTATGTCACCTTCTAAGGCCGTTTCCTGATGGGAATGAAATGGGAATGATAATGCCCACCTCATGGGGTTACTGCT
CAGTGAATGACRTGTTGTTAGATTATGATACAAAGCGTTTAGCATGGTGCTTTTTTTTTTATTATTATTGTACTTTAAGTTCTGGGGTACATGTGCAGAA
CGTGCAGGTTTGTTACATAGGTATACACGTGCCATGGTGGTTTGCTGCACCCATCAACCCATTATCAACATTAGGTATTTCTCCTAATACTATCCCTCCC
CTAGCCCCCCACCCCCTGACAGACCCCCGTGTGTGATGTTCCCCTCCCTTTGTCCATGTGTTCTCATTGTTCAACTCCCACTTACAAGTGAGAACATGCG
GTGTTTGGTTTTCTGTTCTTGTGTTAGTTTGCTGAGAATGACGGTTTCCAGCTTCATCAATGTCCCTGCAAAGGACATGAACTCATCCTTTTTTATGGCT
GCATAGTATTACATGRTGTATATGTGCCACATTTTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAACAGTG
CCACAATAAATATACGTGTTCATGTGTCTTTATAGTAGAATGATTTATAATCCTTTGGGTATATAACCAGTAATGGGATTGCTGGGTCAAATGGTATTTC
TAGTTCTAGATCCTTGAGGAATCGCCACGTTGTCTTCCACAATGGTTGAACTAATTTACACTCCCACCAACAATGTAAAAGCGTTATTTCCCCATGTACT
GTCCAGCATCTGTTGTTTCCTGACTTTTTAATGATTGTCATTGTAACTGGCGTGAGATGGAATCTCATTGTGGTTTTGATTTGCATTTCTCTAATAACCA
GTGATGATGAGCTTTTTTTCTTATGTTTGTTGGCAGCATAAATATCTTCTTTTGAGAAGTATCTGTTCATATCCTCCGCCCACTTTTTGATGGGGTTGTT
TTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGATTCTCGATATTAGCCCTTTGTCAGATGGATAGATTGTAGAAATTTTCTCCCATTCTGTAGGTTGCC
TGTTCAGTCTGATGATAGTTTCTTTTGCTTGGCAGAAACTCTTTAGTTTAATTAGATCCCATTTGTCTATTTTGGCTTTTGTTGCCATTGCTTTTGGTGT
TTTAGTCATGAAGTCTTTGCCCACGCCTATGTCCTGAATGGTATTGCCTAGGTTTTTTTCTAGGATTTTTATGGTTTTAGGTCTTACCTTTAAGTCTTTA
ATCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAATTTCAGTTTTCTGCATATGGCTAGCCAGTTTTCCTAAYGCCATTTATTAAATA
GAGAATCCTTTCTCCATTGCTTGTTTTTGTCAGGTTTGTCAAAGGTCAGATGGTTGTAGATGTGTGGTGTTATTTCTGAAGCCTCTGTTCTGTTCCATTG
GTCTATATATCTGTTTTGGTACCAGTACCATGCTGTTTTGGTGACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTRTTC
TTTTTGCTTAGGATTGTCTTGGCTATTCAGGCTCTTTTTTGGTTCCATATAAAATTTAAAGTAGTTTATCCAATTCTGTGAAGAAAGTCAWTGGTAGCTT
CATGGGGATAGCATTGAATCTATAAATTACTTTGGGCAGTATGGCCATTTTCATGATACTGATTCTTCCTATCCATGAGCAGGGAATATTTTCCCATTTG
TTTGTGTCCTRTCTTATTTCCTTGAGCAGTGGTTTGTTGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCT
TTGAAGCAATGGTGAATGGGAGTTCACTCATGATTTGGCTGTTTGTCTGTTATTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCTT
GAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGAGCTGAGAAGATGGGGTTTTCTAAATATACAATCATGTAATTTGCAAACAGAGACAATT
TGACTTCCTCTTTTCCTATTTGAATACCCTTTCTTTCTTTCTCTTGCCGGATTGTCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAG
AGCGCATCCTTGTCTTATGCCAGTTTTCAAAGGGAATGCTTCCAGCTTTTCCCCATTCAGTATTATATTGGCTGTGGGTTTCTCATAAATAGCTCTTATT
ATTTTGAGATACGTTCCATCAATATCAGTTTATTGAGAATTTTTAGCATGAATGGAYTGTTGAATTTTGTTGAAGGCCTTTTCTGCATGTATTGAGACAA
TTATGTGGTTTTTGTCATCGGTTCTGTTTATGTGATGAATTATGTTTATTGATTTGTGTATGTTGAACCAGCCTTGCATCCCAGGGATGAAGCTGACTTG
ATTGTGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTCGCATCGATGTTCATCAGGGATATTGCCCTGAAA
TTTTCTTTTTTTATTGTGTCTCTGCCAGGTCTTGGTATCAGGATGATGCTGGCCTCACAGAATGAGTTAGAGAGGAGTCCCTCTTTTTCTGTTGTTTGAA
ATTGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGTACCTCTGGTATAATTCGGCTGTGAATCCATCTGGGCCTGGACTTTTTTTGGTTGGTAGGCTATT
AATTACTGCCTCAATTTCAGAACTTGTCATTGGTCTATTCAGAGATTCGACTTCTTCCTAGTTTAGTCTTGGGAGGGTTTATGTGTCCAGGAATTTATCC
ATTTCTTCTAGATTTTCTAGTTTATTTGCGTAGAGGTGTTTGTAGTATTCTCTGATATTAGTTTGTATTTCTGTGAGATCAGTGATGATATCCTCTTTAT
CATTTTTTATTGTGTCTATTTGGTTCTTCTCTCTTTTCTTCTTTATTAGTCCGGATAGGGGTCTATCTATTTGCTGACGTTTTCAGAAAAACAGCTTCTG
GATTCATTGACTTTTTTGAAGGGTTTTCATGTCTCTATCTCCTTCAGTTCTGCTCTGATCTTAGTTATTTATTGTCTTCTGCTTGCTTTTGAATTTTTTT
GCTCTTGCTTCTCTTGTTCTTTTAATTGTGATGTTAGGGTGTTGATTTTGGATCTTTCCTGCTTTCTCTTCTGGGCATTCAGTGCTATAAATTTCTCTCT
ACACACTGCTTTAAATATGTCCCAGATATTCTGGTACATTGTGTCTTTGTTCTCATTGGTTTCAAATAACTTATTTATTTCTGCCTTCATTTCATTATTT
ACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGTGTGGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAATTTGATTGCACTGTGGT
CTGAGAGACTGTTTGTTATGATTTCCGTTCTTTTGCATTTGCTGAGGAGTGTTTTACCTCCAATTATGTGGTCGATTTTAGAATAAGCACTTTGTGGTGC
TGAGAAGAATGTATATTCTGTTCATTTGGGGTGGAGAGTTTTGTAGGTGTCTATTAAGTCTGTTTGGTCCAGAGCTGAGTTCAAGTTCTGAATATCCTTG
TTAATTTTCTGTCTCATTGATCTGTCTAATATTGACAGTGGAGTGTTAAAGTCTCCCACTATTATTGTGTGGGAGTCTAAGTCTCTTTGTAGGTCTCTAA
GAACTTTCTCTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTACTCTTCTTGTTGAATTGATCCCTTTACCAGTATGTAATGT
CCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAAACTAGGATGCAACCCCTGCTTTTTTTTTTTTCTTTCCATTTGCTTGGTA
AATATTCCTCCATCCCTTTATTTTGAGCCTATGTATGTCTTTGCACGGGAGATGGGTCTCCTGAATACAGCACACTGATAAGTCTTGACTCTATCCAATT
TGCCAGTCTGTCTTTTAATTGGGGCATTTAGCCTGTTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATACTAGCTGATTC
TTTTGCCTGTTAGTTGATGCAGTTTCCTCATAGTGTCAATGGTCTTTACAATTTGATATGTTTTTGGAGTGGCTGGTACCGGTTGTTCCTTTCCATGTTT
GGTGCTTCCTTCAGGAGCTCTCGTAAGGCAGCCCTGGGGGTGACAGTGTCTCTCAGCATTTGCCTGCCTGTAAAGGATTTTATTTCTGCTTCGCTTATGA
AGCTTAGTTTGCCTGGATATGAAATTCCGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCSCCACTCTCTTCTGGCTTGCAGGGTTTCTGC
AGAGAGATCCGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCTGACCTTTCTCTCTGGCTGYCCTTAACATTTTTTCCTTCATTTCAACCTTGGTG
AATCTGACAATTATGTGTCTTAGGGTTGCTCTTCTCAAGAAGTACCTTTGTGGTATTCTCTGTGTTTCCTGAATTTGAGTGTTGGCCTGTCTTGCTAGGT
TGGGGAAGTTCTCCTGGATAATATCCTGAAGAGTGTTTTCCGACTTGGTTCCATTCTCCCCATCACTTTCAAGTATACCAAACCAACGTAGATTTAGTCT
TTTCACAWAGTACTATATTTCTTGGAGGCTTTGTTTGTTTATTTTCATTCTTTTCTCTCTTATCTTGTTTCTCACTTTATTTCATTAAGTTGATCTTCAA
TCTCTGATATCCTTTCTTCTGCCTGATTGATTCAGCTATTGATACTTGTTTATGCTTCATGAAGTTCTCGTGCTGTGTTTTTCAGCTCCATCAGGTCATT
TATGTTCCTCTCTAAACTGGTTATTCTAGTTAGCAATTCCTCTAACCTTTTTTCAAGGTTCTTAGCTTCCTTTCATTGGGTTAGAACATGCTCCTTTAGC
TTGGAGGAGTTTGTTATTACCTACCTTCTGAAGCCTTCTTCTGTCAATTCATCAAACTCATTCTCCATCCAGTTTTTTTCCCTTCCTGGCACGGAGTTGT
GATCCTTTGAAGGAGAAGAGGCATTCTGGTTTTTGGAATTTTCAGCCTTTTTGYGCTGTTTTCTCCCCATCTTCATGGGTTTATCTACCTTTGGTCTTTG
ATGCTGGTGACCTTCAGATGAGGTCTCTGAGTGGATGTCCTTTTTGTTGATGTTGATGCTATTCCTTTCTGTTTGTTAGTCTTCCTTCTAACAGTCAGGC
CCATCTGCTGCAGGTCTGCTGGAGTTTGCTGGAGGCCCACTCCAGACCCTGTTTGCCTAGGTATTCCCAGCAGAGGCTGCAGAACAGCAAAGATTCCCTC
CTGTTCCTTCCTCTGGAAGCTTTGTCCCATAGGGGCACCTGCCAGATGCCAGCCAGAGCTATCCTGTATGAGGTGTCTGTCGGCCCCTACTGGGAGGTGT
CTCCCAGTCAGGATACACGGGGGTCTGGGACCCACTTCAGGAGGCAGTGTAGTCCCTTATCAGAGCTCGGACGCTGTGCTGGGAGATCTGCTGCTGTCTT
CAGAGCCATCAGGCAGGGACATTTAAGTCTGCTGAAGCTGCGCCCATAGCCACCCCTTCCCCCATGTGCTCTGTCCCAGGGAGATGCTGCCTTTTTTTCA
GAGATGCCCTGCCCAGAGAGGAGGAATCTAGAGAGGCAGTCTGGCCAGAGCAGCCTTGCTGAGCTGTGGTGGGCTTTGCTCACTTTGAACTTCCTGGTGG
CTTTGTTTACACTGTAAGGGTAAAACTGCCTACTCAAGCCTCAGCAATGGTGGACGCCCCTCCCCTCACCAAGCTCGAGCATCCTAGTTTGATCTCAGAC
TGCTGTGCTGGCAGCGAGAATTTCAAGCCAGTGGATCTTGGCTTGCTGGGCTCCGTGAGCGTGGGACCCGCCAAGCCAGACCACTCGGCTCCCTGGCTTC
AGCCCCCTTTCCAGGGGAATGAATGGTTTTGTCTTGCTGGTGTTCCAGGTACCACTGGGGTATGAAAAAAACACTCCTGCAGCTAGCTCGGTGTCTCCCC
AAATGGCCGCCCAGTTTTGTGCTTGAAACCCAGGGTCCTGATGGCCTAGGCACCGGAGGGAATCTCCTGGTCTGCGGGTTGCAAAGACCATGGGAAAAGC
TCAGTATCTGGGCCAGAGTGCACCATTCCTCACAGCACAGTCCTTCATGGCTTCCCTTGGCTAGGGGAGGGAAATCCCCTGACCCCTTGCACTTCCCTGG
TAGGGTGATGACCCACCTTGCTTCGGCTCACCCTCCATGGGCTGCACCCACTRTCCAACCAGTCTCAATGAGATGAACTGGGTACCTCAKTTGGAAATGC
AGAAAAATCACCCCCCTTCTGCATCGATCTCGCTGATAGCTGCAGACTGGAGCTGCTCCTRTTCGGCCATCTTGCCAGCAAATCCCATGGTGCCTGATTT
ACACACAACATTCAGTAGAGAGTAGTCATTGTTATTAGTATGGCCACACTGAGAAACATTAAATTTCATTTAATTAATGACAGGGATTTTTTATTGTTAA
TGAATTATCAATAATTCCTTGGTAATCTTTTGGGCTTTATCTATTTACATCCCAGCATCCCAAGGAAAGATTGGTCTCCTTGAAGTCAGTAGTTTTGTCT
TATTCATCACTGTATCTTTAGACCTGGCTTAATGCCAGGACTACTCAGTAAAATGCCAATTAACTCAGTAAACATTAGTGAAATGTATAAGTCAGAAAAA
TAAACGATGTTTTTAGGAAGTTTGAATTGAAGAAAAGAAAAGCAACTTGAGATAGAATAGGTTTGAGAGAAAAATTTTAGAAARGAGAAGCTTTGAGCAT
TGTCATAGACTGATGGAGATTCAGGGAAGAGGCAGAGATTGAAGGCAGAAAAGAGARCAGAGCTGATGAGGCAGAGCCAACAAGGGAGGGGACAGGGCCA
CTGGAGGATGGGACCAATGGCACAGGTAAAGAAAGAGATTAGGTCTCAAGAGATCCCTCTTTCCCTGAAACAGAAGAGCAAAGAGAAAGGTGCAAATGCA
GTTTAACATTGAAGTTAAGGAAGAAAAATCCAGGGGGCTTCTATTGGGTTACCTCTTACCTTCTGCTAAGGGGAAGGAATTAGAGCTGACTGAAGGGCCT
GAATACAAAAGTTTTGGAACAACTTCAGGTTACATGATCGAAGTTTCAATAATAGTAGGAAGTGAGTAGACCACCTAGCATCATTGAGGGCCCATACAAA
CCTACTGAAGCTGATCAGTTTGCTTGCTTGCCTTTTTGTATATTTGTCCATTTATGTATTAACTAACATTCAAAAATAAATACCAGCTGTATAGATTTGC
TGGTGTATTTTCCTTAACTTCTCTTGGGGAAACAGCTGCTGTATAGTCAGTATGTGTTGCCGATTTGGAGTCATGTCGCACACTATCTCTGCAAAGTCTC
TTTTCTGTTTAAATATTGGTGGTCCGCTAACACCATAAGTGTGGTTTACAGTTATCGGCCTTTGTTTTTARGTGTTGTCTTTTTCCATTATCATTAACCT
GAATTTCSCATGCATGAAAATTATCAGCATGATAAGGTGGAACTGCTTTATGGCATGCATTTAAGTAATCTTYAAGTCTTATCTGAAATGAARTGTGCTA
AAACTACTGAGGTTTTTTTGTTTGTTTTTCCCTAGAGTTGGACAAGTTATAACCATCAAAGCAAAAGTTACTAGAGCATTCAGCACAAGCATGGAGGTAA
GAGGCACCTTTTCAAACATCTGCCTGTTGGTGCTCACTTCTTCATTGTTTACAAAGGGTAGAGCAGGAGGCCTAGACTAATATTTGGAGTTAGTGAGATT
CTCTATTTCASAAGGCTCTGGAATGTGTAGTCAGGTCACAGGTAAATAATAAGCAGCAGATGTTTCCACTGTTTCCCAGCTAAAATTCAACATGGCCAGG
CATGGTAGCTCACACCTATAATCCCAGCACTTTGAGAGGCTGAGACAGGAAGATCACTTGAGACCAGGAGTTCCACACCAGCCTGGGCAAGATAGCAAGA
CCCAATCTTTAAGAAGAAAAAAAAAAATTAGCCAGCACAGTGGTAAGTGCCTGTAGCCCTGGGTACTCAGGAGACGGAGGTGGGCGGATTGCTTGAGCCC
AGGAGTTTGAGGCTACAATGAGCTTTGATTGTACCACAACATTCCAGCCTGGGTGACATAGCAAGACTTTGTCTCTTAAGAAACAACAACAACAAAAAAA
ACCAACACATTTAAACATGATACAGTACACTATTTCTACATAGAAGGATATACAGAAAGTAAACCTGCAAGAGAAAAGGACAGTCTTAATTCTTTATAAA
GCATGGTTTTTATTTCTTAATTATGCTGACTCTACTATTATTCTAATTCTGTTTGTTCTCCATCCCCTCAACCTCTGACAGAAACTAGTCCCATGATTAA
CTAGTTTTTTAAAAGCAGGATAACTGGACTTTAGTAAGAAGGTAAATTTAGAAGATTTTTATTCTGCATCCACTTGATTTTATTTTCTCTACCATTGTGA
ATACTGGATTCTCAGGGGCTCTTGAGATCTCYATTCAGGTTAAATTAGCAGGAAAGGAGTTGCTGGATCTCATATTGTACCTCCCAGGTTGCTCAGGATC
AGTCCCTTCAATCTCTGGGCATGAAGACATGGAAGAGTTTGTATTCATTTGTTAGGGCTGCCGTAACAAAGCACCACAGACTGGGTGGCCTAAACACAGA
AAAGTAGTGTCCCACGGTTCTGGGAGCTAGAAGTCCTACATCAAAATATGGGCAAGGATGGTTTCTCTGAGGGCTGGAGGGATAATCTGTTCATGCCGCT
CTCCTACCCTCCCATGGCTCTCTGTAGTCTTTGGTATTTCTTGGCTTCCACTGCATCACCCGATCTCTGCCTTCATCTTCACGTGTTCTCCTTGTGTGGG
TGTCTGCTTCCAAATTTCCCCTTTTTATAAAGATATCGGTCATATTGGATTAGGGGCCTGCCCCACCGCAGTCTGGCCTCATCTTAACTAATTACATCTG
CAACAGTGCTATTTCCACATTTACATTCTAAGGTACTGGGGGTTAGGACATAAGAATTTGGAAGGGGGAACACAGTTCAGTTATAACAACTGTTTTGACA
GTAACCATGCCATTGGTGGTGGCTTTACCCTGATGTGGTCACTTTCTTTTTTTTTGTTTTTGCTTTTGTTTTTGAGACAGAGCCTCACTCTGTTGCCAGG
CTGGAGTGCAATGGCAAGATCTCGGCTCACGGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTG
CATGCCACCACTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGATCTCAATCTTCTGACCTCATGATCTGCCCACCTTGGC
CTCCCAAAGTGCTAGGATCGATCACAGGCRTGAGCTACTGTGCCTGGCTGATGTGTTCACTTTCTAGCAGTATCCAAATAAGCAGAATACAAAGCACTTG
AAGAAAGCAGAAAGGAAATGTCGTGAAGAAAACAAGCTCTGTCAGCAAATGGTGTTTCTGGAGCGTTTATTCAACTGTGGGGCTCTTAGCCTTTGCACAC
AGGAGCCTCTGGGCTTGGCCTGTCTCCTGAGGGCCACACATTCTCCTGATAGACAGTCCAAATATAGATAAAWCCTCCTTTACATTTCTCCTTTTCCTCC
TCTTCCCTAAGACAGGCTAGAATTTCTAAAGGAGGCTTATCTAAAAGCTAAGAAAACAAAAGTAAAACCCAGTGAGTTTGAAACCACAGATTTCTGATGC
TGGGGAAAGTAAACCCTAGCCTCCACTGACTTTCCAGGCCTGATCCGCCGTGCAGAATTTTGTTCTCTTTCATCTTCTGCAAATCATGACCAGGCAGCCT
CTAAATTTTGTCATACTTTCTACCACCTGGTAGAAATTTCTTGGATTTTTTTCCTTAAATATAGATGCCAACTAAACATTTTTATTTTTACTTTTTCAAA
CTGGACATGTCCTTTAGCGTCTTCCTGTTCAATTTCAGTTTCCTGCCACAACTGAGGCCAGCCCTCTGCTAATTTGCTGAGCAGAAATAAATGACTGACT
TCTCCCTGAATCCAAAGCAAGCAGGAACTCTGCTSTGTGCCAAACCTACTTCCAGGGGATTCTCAGACTCTACTGATCAGTCTCTTCCCTCTTCCCACCT
CTGGAAGGTGTGTGATGCATTACTATTAATAGATGATATTGTCTCATTTGCACTAAGAGCACATTATATGAGTGTGAGTTTTTTTTTTTTTGTCCTTAGA
ATATGTCTTTAAGAATCAGTTTTATTGAGATATAATTTACAACATTAAAATTCTCCCATTTTAAGTATACATTTTGCTGAGCTTTGACAAAGTTATACAG
TTGGATCACCACCACTGTAATATACAACGTTCCCATCACTACATGAAGCCCCTTTATGCCCCTTTGCAATCAGCTCTCTCAGACCCCAGCTTGTGACAAC
CACTCATTTACTTCAGGTCAGTACCCTTTTTTTTTTCTTTTTTGCCCTTTACTGTATTTTGTATAAATGGAATGATATAGTATATATAATTTTTGTGTCT
AATTTATTTTACTTAGCATAATATATTTGATTTCTGCTGTTGGTTATTATATTATTCTCATTCTATTTATTTTGGGTTTAATTTGCCTTTCTTTTTCTAG
TGTCTTAAGGTAGAATCTTGGGAAATTGATTAAACTTTTCTTTTTTTCAAATATAAGCATTTAAGATCGTAAAATTTTCTTCAATATATTGCTTTACCTG
CATCAAAATATGTCCTTTTTTTCTTGTAAATTCTTCCCTGACCTCTAGTCTGTCTAGATGTGTGTTGTTTAATTTCCAAATCTCTGATGATTTTTCCAGA
TACATCTTTATGTTTTTGATTTATAATTTAATTCCTTTGCAGAGAGAGAACATAATTTGTATAATTTCAATTATTTTAAATTTATTTAGACTTTTTTAAT
GACCCAAAATATGGACTATTTTGGTGAATGTTCTATATGTGCTTGAAAAGAATGTGTTGCTTATAGTCAATGAAGTATTCTGCAGATGTCAGTTAGCCTA
ACTTGGTTCACAGTGTTGTTCAAGTCTTCTGTATTATTATTATTATTATTTTTTGAGATGGAGTCTTGAACTGTCTCCCAGGCTGTAGTGCGGTGGTGCG
ATCTTGGCTCCCTGCAAGCTCCGCCTCCCGGGTTCAAGTGATTCTCTTGCCTCAGCCTCTCAAATAGCTGGGATTACACATGTGCACCACCACGCCCAGC
TAATTTTTGTATTTTTAGTAGAGAAAGGATTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGTTCACCTTGGCCTCCCAAAG
TGCTGGGATTACAGGCATGAGCCACCGTGCCCTGCCAGGATTCTTAACTCTTCCTGATGTTGTGACCCTTTTATCATTATGAAGTTTGCCTTTTTATCTC
TGGTTTTTGTTTTAAAATCTACTTTGTCTGACATTAATTTAGCCAGACAAGCTTTCTTTGGTTTAGTGTTTTTTTCCCCATCATTTTTCTCTTAACCTGT
CTTTTTGTACATGTAAGTGGGTTTCTTATAAACAGAATATATTTGGATGCTATTTTTTTATTTATTCTAACAATCTCTGCCTTCTACCTGGAGTATTTAA
ACTATTTACATTTGATTATCTATATGGTAGAGTTGAAATCTATCATCTGGCTGTYTGTCTTCTATTTCTTCCATCTGTTCTTTGTTTCTTCCTGTCCCCA
TCTTTTCCTGCATTTTTTAGAGCAGAGTAATTTTTAGTAATCCATTTTATCTCCACTGTTGGTGTTTTAACTATACATATTTGTTTTGGTTTTAATGTTT
TTCTCGGGTTTGCAATATGACTACTTAACTTATCTGAGACTACCTTCGAATAATATAATATCCCTTTGAGTATAGTGTAATAACCTTATAACAGTACACA
CACTTCCCTTCCCATGTCCCAGCCTTTGTGCCGTTATTGTCATGCCTTTTACATGCACATATGTAGGAGGTAAACCCTACAATACATAGTTATTATTTAT
GTTTTAAACAGTCAATCATCTTTTAAAAAGAATAGAAATGAAAAGAAGTATTTTATATATATACCCACATATTTGCCATTTCTGGTGTTCTTTATTCTTT
TGCGTATTGTGTATCTCCAGATGTCTCCCTAGTGTCATTTTCCTTCTGTCTGAAGATATTCCTTTAGCATTTCTTTTTCAGCTTTTGTTCGTGTAAAAAT
GTGTTTGTTTCATCTTCATATTTAAAAGATGCTCATATTCAGTAGGTATAGAATTCTAGCCTGGCAGCAGACTTATGTAAATTATGATATGGCTTGGGTT
TCTAGAGCTACTGGATCTATGGATTTATAGTTTCTAAGAAATGTGGATTTTTTCAGCTATTATATCTTCAAACTTTTTTCCTGTCTTTTGTGCTCTCTCT
CCTTTTGGACTTTATAGAGTTTTAGACTTCTTGTTAGTGTTCCACGGGTCACTGATACTGTTCGTTTTTCTTCTTTYAGTCTTCCTTTCTCTTCATGCTA
CATTCTGTGTAGCTTCTTTTGTCATCTTCAGCTTCACTGACTTTTTCCCCTGCATTAACTAAACTGCTGTTAATCTTATCTGGTTTGTTTTTTATTTCAG
ATGTTGTATTTTTTTACCTTAGAAAGTCCACTTTGATTTTTTTATATTTTCCGTTCTTTCCTCATTATTTTCATCTTTTTCTCTATATTAGGAGTCAGCA
AACTATGGCCTATAGACCTGTTTTTATGAATAAAAATTTTTTGTAGTACACCCATTAATTTATGTTTTGTCTGTGTTTGCTATCACAGTACATTGACAGA
GTTGAGTAGTGGCAATAGAGTCCATGTGACCACAAAACTTAAAATATTTACTATCTGGCCTTATCCTTTAAGAAGATATTGCTGACTCCTTTTCCAAATC
TCTGAGTTCATGGTGCTTATATTTAATTGTTGTTTTAGTATCCTTTGTTGTTATTCCATCATTTCTGTTATCTGTTGTTTTATTTATATTACCTTTCACC
TAATAATTTTCTTGCATCTAATATTTTTTACTCGATGCTGAACATTGTGAATTTTATATTGTTTAGTGCTGGCTTTTGTTATATTTCTTTAAAAAGAGTG
TCAGACTTTTCCTGGCAGGAAGATGTTGTTACTTGCAGATTGGTTTGAGCCTTTAAAGATACGTTTTAAACTCTTCTATGGAAGATTTAGAATACTCTAC
TTTAGGGCTACTTTAGCCCCTCTTCTAAGTTGGGATCTTCTGTTATGTCTATGAAGGTGTTATATATTCAGTGAAATCTGGCTGGAGAGAACTCAAAAGA
TCCCCAGCTGTGTGTGAGTTCTTGGAATTGTCCATGTTACAGTTTCCCAGGAATTGCTTGTTCCTCAGAAGCTGTTCTTGTCTGGGGTTTCACCCTGTAT
ATGGTCCAGTTAGTATCAACCCAAAGACTCACAGGCATATTTCTGGAATTCTTTCTCTTTTTTTTTAGYTTCCTTCTCTGGTACTCTAACCCACAAATTT
TAGCTCCATTCAATTCAGCAGAGTTAGGTTTTTCTTCTCTAACCTAACCGTAAATTACCTTCAGCCTGAGAACCTGGGAACGCAGTGCTCTCGTTGTTTT
TCCCGCCTTGGGGATCACAGTCCTGTGTTGCCTATTTTCGTAGGTGTGAAAGTAGATGCTTCCTATATTTTGTCCAGTTTTCTAGTTGTTTTCACAGGAT
GTAATTCCAATCTTACCTAATCTCTTATAACACAATGAAATTCTCCCTGGCATATGTTTTTGAAACATTTGGTAATCACATATAACTAAGTTAACTCTTC
TAGTAGAAGACAGTGTTTAGAACTTATTTTAACACTCCAGAATTGTTGCTTTGTTTTTACTGTTAGGTATTTTATTTTATTTTTCATTTGTCCATTTCTC
TAAAAGCAGAAAGCTGTGTGGGATTGAGGGTTGAGAGTTGGGAATAGATAGTTTAATTTTGGCTAATCATCATCTAGTTAATTTAGGATTTACCATGTAA
ATACTAATTTGCATTTATGAATTGAGTGACTTAAAATGAGTCATAGATTATTGATTATTCTTTTTACATGGTGTACACAGTAAAGATACAGATACGGATA
TTCTTTATCGTTGATAACATAGTGCTGAGCTGTGCCTGAGATAGCTCATTATTTTCAGAAGATAGTATTACTCATCTGAAATATGTAGGGAAAAGGTTTA
TTAGCCAGAATCTAAAGACRAGTACCTGAGTTTACCAACACTTCTGCGAAGTGCAATCCTGAGGACCAAGCTTCAGCGCTCTTCACACAGGGGGAAATCT
AGCCCATTTTAGTATCAACATAAAGTGTCTCAGCTACCTTCTTATTACTCCTGAAAAATTAATCACAGAAACAAAGCTGTAAATACATGATGCAATTCTG
TCCGTGTTAGCTTGGTTATGAAACTCTGAGACTATGCTGCCTAGAGACATTTAAAAAAAGGAAAAAAAACTCTSAKAGTAAAGGCTAAAAAAGTTATGGT
ACATCTCTCTGGTGGTTTTATAAGGCAGACACCAATATCTTGTTTTCAAAAGCATATTTAGTAATCATGAAATTTAAAAGAGCTTTCATATAATGCCAAA
TTTTTAAAAATTGGAACAGGCCAGGTGCAGTGGCTCACCCCTGTAATCCCAGCACTTTGGGAGGCCGAAGTGGGTGGATCATGAGGTCATGAGATCGAGA
CCATCCTGGCCAACATGGTGAAATCTTGTCTGTACTAAAAATACAAAAAATTAGCTGGGTGTAGTGCTGCGTGCCTGTAGTCCCAGCTACTCCGGAGGCT
GAGGCAAGAGAATGGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGCAACAGAGCAAGACTCCGTCTCAA
AACAAAAAAAAAAAATTAGAACATAAAACTGTAAATACATTACAATAATTTTATATACACATGCATATATACACACACGTATTTCATGTCATATGTATGT
AATATAAAATGTGTGTATATATTATGTAATATGATATTATATATGTGTATGTATTATRTGATATGTATGTGTATATATTATATATCATATATGACATCAT
ATATATCATATACACTTATATATCATATATGATATATAGAAAAAGCTAGAAGAAAATTCACCTAAAATTTAATAATTATTATCTCTGGGTGATGGGATTA
CTGATAATATATACTCTGGATAGTCAGATTCCATAAATTTGACATGGTAAATAAATAATTTTTATAATCAGAAAAAAGCTAATTGTCCAGTGTTATAGAA
CATCATTGAAATAATTCTATTGCTTAAAAATAAATTAAAATTCTGGTTTCATTTTTAAAATGAAAGAAGGTAATGGTGCATACATATGACTAAATTTTGA
ATGCTGAAATCTGAACTGGCCAAGAGTGTATTTATTTATCTTTTTTTCATTTTAGATCAGTATCAAGGTCATGGTACAGGATATGCTCACTGGCATTGAG
AAGCTTGTTAGTGTGGCTTTCTCCACATTTGTAGCCAAACCAGTTGGAAAAGAAAAGGTAAATTTTGTATGTGAAGATGTATCTAGCRTGTAATTCAGGG
ACATAGTAACAATTGCATCAGAATGTTATAGAAAAAAATGACACTTCTTCTTTCCATGAGATATACTTCCCCAAGATTTGTTATTCACCAATATTTATTG
CAAAAGTTATCACTCTGTGGTAACATCAGAGGAATAGGAACTTTACAGAAAAGTACCTTAGAGAAAAGACGATATAGAAAGTTTGTAAAATACAAAAAAA
AATCCACATTGTTTTAAATGATCTGAAGGTCATATTGGTTTCTTTAAAATACTGCCTACTGGTTTAGTGCTTTTCATTTGTGGTCATATAACTCAAAATT
GACTTAAAATAAAATCTTTTTTTAAAAAAGCAAGAGCAATTTAGCAAGCAGTTGCATGTTATAGATTAACCACTGTTAATACCTGAAGGAAAACTGTCAA
CATTGCTGAGTTATTGAAGTTTAAAAATAAGCTTCTGGGCATGTGGGGTGAAAACACCCTCCGAAGTGATACTTTGGCCTGATGAGCTTGCCTAGCCGGC
TGCCTGGACACGATCCAGATCCACTCATCTGGAGGCTGCTGGAGATTTGCTCCTTACAATTTCTTGGCTTTTTTTTTTCAGTGTCAGGGTGCCTGGAGGA
GGGTCCCATTTAGTCTAAACACTGTGATAATTCAATCTGGAATATGAGTCTTTCACTCCAAGGATCATCCCAGAGCTAGACACAGTGGCTTCTCCTAGCT
CTACTCTGAAGCAAGGAGGAGTCATGTTGGTCAGGTTGGTCTCAAGCTCCTGACCACAGGTGATCTGCCTGCCTTGATCTCCCAAAGTTCTGAGGTGTGA
GCTATGGAGCCTGGCCTGCACTCTCAGTCTAACATTAAACATGTTGCAAGGCAAATTCATATTGCCCAAGGGTGTTATTTTTCAAATGGAAGTTCATATC
AGCTAATTCTATTTTTTAAAATGCAGTTTTCTGGGCCATATCATGGACCTACTAAATTAGAATCACTAGTGTGGAATCTTGGAATCTGTACTTTGCCAAA
GCATCCCACGGAGCCTGTGTTCACTAAAATCTGAGACACTGAGATAGTCTTCCCAACCATTCTGTTTTTCCTGGCATCCCCACAAATCTCCAGACTCTTG
GAAGTGAGAGAATAGGGGATGGGTGCAGGTGCCCGTATCTGAGCGCAAGTGACAAAGGAATACACCTTGCAATCCCATTCCNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATATAATAGTCACACTTCAGTCCAATCTCTCTTGAGACTGGAGAACTGGGTTCTGAAAGTGGAAA
ATCAGATCCATTATGGTGCTAACATAATTGGTTGGTTCAGATAACCTTAATTGTAAAGCACCTTTCCAGACTAACTTATTTCCTAGTTGCTAATATGCTG
GTTCAGCAGCTCATCACAAAGAGACCCATGAAAAATCAGTGGTTTGGTTTGAACCCATAGGACTACTTGAATTTCTGTTCACAGTGGGTTTATTTTAGGA
TGAAGTTGGTTCAAAGCATAATGTACGCTGATTAAAAAACAAAAAAGAAATTGGCAATGATTAACCAGACTTAGTTCAACAATTGCACAGGCCAGATCAT
TGAAGGGACTTGCAAGACTCCACAGGGTACACTCATGCAAAGCCTTACTAAGCTAAAGCAGATGGTGCGGAGGGAGAAAGCAAGCACAGGCCAGCCTCAG
AGAGGGTGGAGGTCTCCAGGCACAGCCATGCTGCTGGGGCCTTAGTAACACAAGATGTACTTCTGCAGAACAGAAATCACCAAAACATATGCGAGGTATC
TTGGTTTCAGGAGAACCAACACACAAGTTTACCAAGCAGTCTTGTATACCCTGCTAGTCACACAACTAAAACAACACTACAAAAATTGTTAAATCAGGCT
GGGTGCAGTGGCTCACACTTATAATCTGAGTGCTTTGGGAGGCTGAGAAGGAAGGATTGCTTGAGGCCAGAAGTTTGAGACCAGCCTGGGCAACATAGTG
AGCCCTCATCTCTACAAAAAATAAATATAAAAAAATTAGCCAGGCATAGTGACGTTTGCCTGCAATCCTACTGAGAGGATCCCTTGAGCCCAAGAGTTTG
AGGTTACAGGAAGCTATGATTACACCACTGTGCTCCAGCCTGGGCAACAGAGTGAGACCCTGTTTCAAAAAAAAAAAAGGAGTTAAACCAGTGCATGCCA
TCAATCTACACATTCCTAACCAAATTCCACAAGGTAGTCCAGGGCAGTTTTGGACTTTAAGCAGCATATTATAAATCACCAGCTTATTTCTTATTTCTTT
TTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCTCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCTTCTCCTGGGTT
CAAGCGATTCTTGTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGTGTGCTCCACCATACCCGGTTACTTTTTGTATTTTTAGTACAGACAGTGTTTCA
ACGTGTTGGCCAGGTGCAGTGGCTCACACCTATAATCTTGAACACCTGACCTCAAGTGATTCACCCACCTCAGCCCCACAAAGTGCTGGGATTATAGGTG
TGAGCCACCACACCCAGGGATCACTAGCTTATTTCATCCTTATCTTGGCCAAGGGTCCGTACCAGACTTTGAGTATCTTGGAAACAAGCATGGAGCTACC
CCAGTCCAGCTTCAAGGTGACCCTTCCTTCTACACACAGGGTCAGCAAAGGGCATTTATGTAAGAATTTGAGCTCTTGGTTCTGTNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAGTTGGTGAAAGCTTTATTCCTACATATTGATTCTTTTG
TTTTGCTTATTAGATAATGTTTTCACCATGTAATGAAATTTCCAAATTGGTATCATGGTATAAGATAACTTTCTCTAGAACATCTTTATTCCCTCTCTTT
GCTTTCTTAATTTTGCAAAATTTATTCCCTCTCTTTGCTTTCTTAATTTTGCAAAGATAGGAAATGTTTAGATTTCAGTGGAGTCAAAGTCCATCTCCTC
ATTCATCAATATGAATAATTTCTTATTTTGTAGTTCTGTTGAAAAATTTTAAAATCAGGGAAAATAATAGAGAGAATTTTTAAAGCACATATCTTATTGC
ATGAAGAAATAATTACGCCTATGTTGATTTTTTTAGTTTAAAAATAATTTAAGAAAAAATTTAGTCATAACATGTTTAGTGAAAACACTCATAAAAGCTC
TATTTACTTGAGTTAGAAAACCATGTAGCATATCATTTGTTTTGCAAAATTCATGCTGTGCTTTTATAATTTAACAAGGCAATAAAAGATAAATGCTTTT
CTTTCTCTAGATTCATTTAAAACCAGTCACACTTCTAACTGAACAAGATCATGTGGAACATAATCTGGCTGCTGAGAGAAGGAAAGTTCGATTACAACAT
GAAGATACCTTTAACAATTTAATGAAGGAAAGTAGCAAATTTGATGGTCAGTAAATCCRCTTATAAGAATTTTAATTCTATAACTGTGACAGGCAAAGGA
GTCTTTTCTTAGAGCACACTTATTTTCACCTTATTATTACCATTCAGTCCTGGTGACACTAGGTATCCTTTCCAACAAACCCGGTGGCTGGAGAAGAAAC
CTGGCCATTGAGAATGTAACTGCTGACACCTAAGGCCTCTTTAAATTGGAAGATCTCCAGGAAAGGAGATGGGGAAAAAGGGTGACAGGGACCAGGCAGT
CATTAGTAAGCATGTATTCACTAATGATGGCTGAATGAAGGGTTGATGACAATGCCATACATTGACACGGTGCTTCGTGGCTTACTAAGCAGTTTCTCGT
CCACGGTTTCATAGGAGCTGCATGTAATCTCAACAGAGCAGAAAGCTGCAACTCTGAGTAGGAAAGAAATTTGCTAAAGATCATATGGGGTATGAGCAGA
GRCTTAAGATCCTGCTCCTGTTGCCTGGTGCTTTCCACAATCACCCTGCGTTTTATGAGCCACACTTCCTTAGTTCTCTGGCAGTGATTTCCTGGGCTCT
TTGATGCCTCCTGGAGCCAGACTGGTAGGGAAAGGCAGAGCCCCGCCCTTGCCCCTCCTCTGCCCTTTCTTTTTGTCTGACCCTATCTTCTGAAGCCCCA
AGGGGTGCCGGTGGAGAGCACAATGAGGGAGGGGAGGAAGTGAAGTGAGCCCGCCCAGGCCCCACAAGCTCACCACTGCCAAGAGGGCAGAAGGTTCAGC
AMCCCTTGGCTCCAAAGGAAGGCACCGGAAGAAGAGGAAGGAAAGGAGAGGACAAGAACATGTCAGAACAAGGATGTCAAAAGAGAAGGAGAAAGAGTGC
ATGGAAAGGCCAGAGGAAAGGGAGAGGTAGCAGCCAGTATGGCAGAAGTGCAAAGCCTTTATTCTGCCCCAGGGGATATCCTGGGACCACCCCACAGAAG
ACTTACGGGTTGAAAAAGAGATTTTTCAAAGGTTTCTACTCATTGCTGACCTTTCAAAGGGCAATACCCATTACCAACTTGATTTTTTTTTTTTTCTTTG
AGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCAAACTCGGCTCACTGCAACCTATGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCA
GCCTCCGAAGTAGCTGGGATTATAGGCGCGTGCCACCACGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCT
CGAACTCCCAACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCCAGACCAAGTTATTTTTAA
GGAAATGAAGACTTCATCATTAAATGACGGTGTTAAGAAGAGCAAGTCTCCGTTTATAAAGCTGGTCTCAGCACCAAAATACATTTCAAATGCATGTTGC
TCAAGTAATGAAATAGCTGAACCAAGAGAACCAAGAGAAGCTGCTGAGGCACCCTGAGGCAGGTGAGACAACCATTAATAAAAAACAAAACCCTGCTGTC
TCCTCATCCCTTAAATCCCAAGGAAGAAATGAAATGACAGATAAAATACTTACTAATGAGCAAACCCGTTCTATGCATGACAAGTAAATCTCTTAGGACA
TCTTAGGAAACTCAAGCATTTAACACAGTTTTTAATAGGCATATGCATTTCCCCTAGTTTCATTGGTCTTCCTTTCTGCAGTTATGTCTTTTAAAAAAGC
TTTCTGTCCTCAATGAAATTACACTACCTGAGTTCATAAGGAGAAAGTAGAAATAAGCCACTAAACAACCAGAATTCTGATTGACAATGTCAAAATACAG
TTGTTTTTCTTCTTCTTCTTTTTTTTTTTTTTTTTTTTTTTGGGAGATGGGGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCA
CTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCATGCGCCACCACGCCCAGCTAATTTTTGTG
TTTTTAGGGGAGACGAGGTTTCACCACATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGGTTA
CAGGTGTGAGTCACCGCGCCCAGCAAGGAACAGTTCTTTTGAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTGCTTTCATCCTCTCCAAGTCATCCCCTCGTCTGAATCACATCTC
AAGGTCATTCTCCACCCTTTTGCCCGGAACTCTCTAGATCAAGCTGCTGCCCACCAGGAAGAGGGTGACCCTGTGATGCGTGAGGTGCTGGCCAGTTTGC
CCCGGTGCATGCTAGATGGAGTGTGTGTGTGTGATTGTGGATAAAATCATTGATAGTCATATAGGTGGAAGGACTCCTTCCCTCTCAGCAGCAAGGAAAG
ACTTCCACACTGACTGGTAGTTCCTTCCAACAGTTCTGTATGAAACGCCTGTCATGTGCCAGGAACCTGCTTGCCACTAGAGGTATAAAGATGAATAATG
CAGGGTCTTTGCTCTTAAGAAACTTGTAGTTTAKTGCTGGAGACAGACATATTAATAGTTTCTAAATAATATAGTAAGTGAATAGAGAGCTGTAGACTCT
AAGTAATGTGGGAGCCCAGAGGAAGGGCCCTTCAGGGTTCACGAGAGACTCGCTGCAGGAGGGGCTATGAGAAGAAAGTTGGGAAGGCGAGGAATTGCGT
AGCAGTGAGGGTGAAGGCACGGAGGCATGAACCAGCACACTGTGTGCTGGGAAGCCACCAACACAAGAGTATTGCTAGAGAGAAAATGCAAGGTAGAGGG
AGGCGGGAGAGGAAGAAGGTAGGATTGTGTCATGGAGGCTCCCTGGGCCATGYCGAGAGGCTTGGCCTTTCTTCTGTTCTTGATGGGAGCCATTGAAGGA
TTTTGAGCAGGGTTGGGGCATGACTGGGTTTGCACTTAATATGGTCACTCTGGCTAGAGGGAGAGAGACCAGGCGAAAGGCGAGGGGTGCCTAAACCAGG
CAGTGATAGTGGGGAGAGACAGGAGGGAAAGAGTTTAAAAATACACACGAGATCACACCAACAAAATAGGGTCACCGATTGGCTGTGGGGAGAAGGGCGA
GGAAGAAGGAGCATAGGCTGACTCCTGGGTGTCTGCTTGGAGCAGCTGGTTAGCAGTTGTGCCATGAACTGAGATCATGGATCTGAGGGGCAGGGAACGG
CAATTTTTGGGAGGTAGATGATGAGTTCASTTTTAGGCATATGGAGTCTGAAGTGCCTGTGGACATCCAAAAGGAAGAGACCACAGCTGGGGAGATTTCA
TCTGAGAGACAACYRCTTAGAGAAGTAGTTCAAATGAAGACAACCTGCAGCCCACAGGGTGCTGGGCCAAGAACAGAACCTGCAAAGCACAGGCATCTAA
GAGAGGATCCAGAAAGACAAACCTACTAAGGAGACCTGGAGGGACTAATCAGAGGGGTGCAGGGAGAGCTGGAGAGAGCAGTGTCACACRCCAAGGCAGC
AGAGTTACAAGAAGAAATAGTAAGTGGTCAACTGCGTCCCAGGAAGTGAGGAATAAAACCTGTCTACTGGACTGGGAATCAGGAAGGCATTGGTGACATC
GGCAAGTGTGGGGTTAGAAGAAGTGTGGGAGACACTTGGATGACCTTAATTACTTAGAGGAATAATGGGATGAGGGACAGTTTACCATAACCTTTATGTC
ATATACACAGGCCAAAGTAAACACTCCTATCACCAGGCTTGTTTGAAGCACATGTACAAGGATGCGGGGGGTGGGGAGGGAAGTAGAGCTGCGAGCCTCA
TGGCCCCAACAGCCCAAGTGTCATCTGTTGCAGGACATGTGGACGGTGAGGGACACAGTGGCCATTGCAGCTCTTAGAGCAGCTTGGCTAGTTCAGAGCC
TTTGCTTTTGTGGAAAACTAAGGCATTGTTTCCCACAGCAGCACTAGCATTTAGCAGGAACTCACTTCTCTCAAGGTATTTTCCTTCACTCCAGCCATCC
AAGGTGGAACTTGCTCCTCTCTGGCCTCTGGACCCAGCCCCACAGGAAGCAGGAGGCATCCATCGGCCCACTCAACCCAAACCATCCACCCTGGAGAGAG
CTACCTCCTCCCACCGGACTTACTCCTAAAGGCGAATTGCTAGGAGCTGGCCCTATGCATTGGCTCATCTTTTTCTCATAGTCAGTGGTTGCCCCAGCAC
AAAGCTGCTCTTTTTATTTTCTTATCCAACGCTTTTTTTATCCAGGTCTGTAACCAAGTCCTCTGACTTGGCAGAACCATCCTTCTGCTCTCTATCTTTG
TGAGTTCAATTGTTTTGATTTTTAGATTCCACAAACAGGTGAGAACATGTGATATTTGTCTTTCTGTGCCCTACTTCTTTTGCTTGACATAATGACCTCA
GTTCCATCCATGTTGTTGCAAATGACAGGATGTCCTTCTGTGTTATGCTGAATAGTACTGTAACAGGTCTATAACCAAAACCTCTGACTTTGCTTTTCTC
AGCTTGCCGAAGCAAGGTAAATAATAAACAAAACGAGAACTGTAAAATGGGAATAATAAAGGTACTTACATAATGGGTTTATGGGAGCATTAAATGAGTT
AATATAGAAAGTGTCAGGCATGCAGAAAGTGCTGTCATTTCTATTATTGTTTGAGAGGTCCCCTCCACAGGAGGAATTAGAGCCAAGAGTTAAAGACAGA
TGCTTCTCAGGAACTATGCTGTAAAGGATGAAAGAAATAGCCTGGAGCTACAGGAGACCCTCAAAGTCAAGGGGCATTGTTTTTCAGGCTAGGAGAAATT
TGGTCATGGTTCCAGGCTGATCAAGATGATTGATGAGGCCTGGCGGTGGCTTATGCCTATAATCTCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACTT
GAGATCAGGAGTTCGAGACCATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGTGCACTACTGTAATCCCAGCTACTCAGG
AGGCTGAGGCAAGAGAATTGCTTGAACCCAAGAGGCGGAGTTTACAGTGAACCAAGATTGCACCACTGCAGTCCAGCCTAGGCCACAGAGCCAGATTCTG
ACTCAAAAATAAAAAAAAAAAAGACATAATTGATAAAAATAATTATTGAGGAAGAAGTTAATTATAAAAGAAAGAGATAATTCATGTCAAATCTGTACTT
TAGACACTGGGAAATTGTTGTCATGTTTTTATCTTGGAGGAATGGGGATCTCTGCTACCCTGAGCTCCCTTGCGAGGGTTCGTCTATTGGGAAGGGTTGC
TAGGATGGTGACTGAAGCTGTCTTCACACCCCCCTCAAGGTAACAAGAGCCAGGTAAACATGGGTGGCTGCACCGGCTTCTTCTGGTGTTGTGCAAGTTG
CACTAATAAGTGAAATCAGCAGCAGACAATTTGTCTGCACAACACTAAYAGTACTTTGARTACTGGAGATAGTCTAAATTAGTGACAGGCACACATGACA
GTCATTCAAATATAGAGATAAAACGATTGCAATTGACTTGAGTTTCAGTGTGTTACAAAGTTGGCCAGATTAGATCTACATCTACATGTCTAGTTCAWAG
TTCAATTTCAAATTATAGATTTTTCTCAAAGTCTTCTTTTATCATCTGCTTTGTTTAATCTGCCCTAACTTATTCTACATCCTTTCACATAAAACAACTT
TTAACCTAATTCCACTGATCTGATTTTGTTTTTGGAAATTTTACTAACTTCCATGCCAGCAAAGGTGCCAGAGAACTTAWAAGCAATTCATCTTAAAGAA
TGCAAGAGCCAGACTCTGACATTTAAAGCCGCTGTGTAGTATGTGATTTCTCCACCTGCTGCTCCTTAGATCAGATGGAGTTGGTTTTTGATAGGACATT
GTGTGTTCTAAAAGAAGAGAACCAACCCATCTCTGTTCTTGTACCATGTTTTTAGAAAACCAGGGGTTTGTGTTGGTTATAAATATCAAACATAAAAGAT
TGGAATATTTTTCAAGATGTTGTATGATGGAAATGCATATTATTAGAACAGTGAGAACATTGAATCCAGATCATATCCTTTCGGAAGAAAAGAAAAGAGA
TGAGATTAGTTTTGTAAAAGCAGGATATTTCTGGAATGTGTATAAGCACGCACATCTCAGAAATACTACTGGATCATTATTTGCAAGCTTGACATATAGG
GGAAAAACTTAAAATTTGAAAGCATTTTAATTTAATTTTTGAGTAAGAAAATCAGATCTTAAGAGCATTATCATGGTTAATTTTCTGGATATGCAGAAAG
AAAACTAGGGCTAGCATGACCTCAATTCAGGTCAAAGTTCCTGATCTACAAATGTAGAGTGAATGTAAAGTTGTCAAAGCAGGTTGATGACACAGTACTT
TAAGAACATCCAAAGTACACGTATTGAACTTGATCACTCAAAGCCAGCAGAAAGGGTGAGTTCTGTTTACTTAACCCAAACCAGAACTGCGAGCCTGAAT
TGCTCTCTGAACCTGGGAAAACCCTATTTTTTTCGTTGGTTGTAAATTAACTCCAAATAAGCAAACTTCTGYACCAAAGTCATCTAACTCAATATATTTC
TGCATACGTATCATAGCTGATGCTGGTGCACGTATAATCTCACCTAGCACCTCCCTCTACAGGTTCCAGTATATACTGTATATGTCTTCATAGGAAGTAT
GTGGTTTCTCTTTAAAGTTATCCCTCAGAAAAGAARGAGCTGCTTTATATTTGAGTCTTTACAATGTCTCTCRTAAGGCCTTCTCTTAATTTTTTATTTA
TAATTATCTAAAAACTATTTTTAAAGAGATAGTACATGCACAGGGTAAAAAATGCAAAACGCATAAAAAGGCATATAGTTAAAAAGTAAGTCTGCCTACC
GTCTCACTTCCCACCTTCAGAGACCGTCACTATCACACACACTTCAATTTYTGTGGGTACACAGTAGGTGTATATATTTATGAGATACATGAAATACTGT
GATACAAGCATACAAATGTGCAATAATCACATCATGTAAAATGGGGTATCCACTCCTTCAAGTGTGACAAACAATCCAATGATACTCGTTATTTTTAAAT
ATATAATTAAATTATTATTGACTGTAGTCACCCTGTTGTGCTGTCAAACACTAGGTCTTATTCATTCTTTCTAACTATATTTTTGTACCCATTAACCATC
CCCACCCTCCCACTACCCTTCCCAGCCTCTCATAAGCATGCTTCTGCTATCTCCATGAGTTCAATTGTTTTGATTTTTAGCTCCCACAAATAAGTGAAAA
CATGCAATGTTTGTCGTTTGTCTTTCTGTGCCTTATTTCACTTATAATGATCTCCAGTTCCATCCATGTTGTTGCGGATGACAGGATCTCATTCTTTTTT
ATGGCTGAATAGTATTCTGTTGTGTATATGTATCATATTTTCTTTATTCATTCATCTGTTGATAGACACTTAGGTTGCTTCCAAATTTTAGCTATTGTGA
ACAGGGCTGCAACAAACATGGGAATGCATATATCTCTTCAGTATCCTGATTTCCTTTCTTTTGGGTGTATACCCAGCAATGGGATTGCTGGATCTGATGA
TAGTTCTGTTTTTAGTCTTTTGAGGAACCTCCAAACTGTTCTTCATAGGGGTTGTACTAATTTACATTCCCACCAACAGTGTATGAAGGTTCCCTTTTCT
CCACATCCTTACCAGCACTGGTTATTGCCTGTCTTTGGGATAAAAGGCATTTTAACTGAGGTGAGATGATACCTCATTGTAGTTTTGATTTGCATTTCTC
TGATGATCAGTGATGTCGATACCTTTTTATATGCCTGTTTGCCATTTGCATGTCTTCTTTTGAGAAATGTCTATTCAAATCTTTGGCCCATTTTTTAATC
AGATTATTAGATTTTTTTCCTATAGTGCTGTTTAAGCTCCTTATATATTCTGGTTATTAATCGCTTATCAGATGGATAGCTTTCAAATATTTTCTCCCAT
TCTGTGGGTTGTCTCTTCACTTTGTTGATTGTTTTCTTTGCTGTGCAGATGCTTTTTAACTTGATGTGATTCCGTTTGTTGATTTTTGCTTTGGTTACCT
GTGCTTGTGGGGTACTGCTCAATAAATTTTTGTCCAGACCAATGTCCTRGAGAGTTTCCCTGATGTTTTCCTATAATGGTTTTATAGTTTGAGGTCTTAG
ATTTAAGCCTTTCATCCATTTTGATTTGATTTTTGTGTATGGTAAGAGATAGTGGTCTAGTTTCATTCTTCTGCATATGAGTATCCAGTTTTCCCAGCAC
CATTTATTGAAGAGATTGTCCTTTCCCCAATGTATGTTCTTGGCACCTTTGTCAAATATGAGTTCACTGTGGGTGTGTGAATCTGTTTCTGGGTTCCCAG
TTCTGTTCCATTGGTCTATGTGTCTGTTTTTATGCCAGTGCCTGGCTGTTTTGCTTACTACRACTCTGTAGCATAATTTGAAGTCAGATAATTGTATTAA
TTTATTTTAAACAAAAAATGTGCCATTTGAGTAAGTAACATTAGCCTGAAAACAACCTCAATAAATACTAGTTTGGGATATGTATAAAACATCTTCAAAT
AAAATCAATTTTAGAAAGAGAGAGAAATTGAAAGGGATTAAGATTGTGTATTTCTTTCAAAGATCACTTTAGAAAGTGATTCCATTTTGATTCTAGCAAT
ATAGTGGATTCATTGTTGGGTAAAACCAAAAATTTCTGGAAAAATATTTACAAACATCTTTGCAAACACATCTCAGCAGGCAGAAAAATAAGAGAAAACT
TTGAAGTCCAGAAATGGTGAGAAAACACAAATGCCGCAGTGCAAGGAAGCATGGGGGCTGGCATTTGTCCTGGAGGACCCAGCAGGTGGGCCTGCTTGGG
CTCAGGAGACAAAACCAGGCGTCCATGTGAGGGAGAAGGTTGGATCAGGGAACCTTCCTTGGTGCTGGAACCTCCAAAAGGTGATTCCCTCAGTGAGTCA
ACCAGAAAAATTCCACCCTCCAGAGAGCCTTAGCCTTAGGTGGAATGGGAAAAAAAATTCTCTCCCTTTCAGAATTCAATCACAAGTGCATCCTCATGAA
GATTTGGATCCTCAGAAGTCACATGACCTGTCTGGGCTAAAACAGAACAAGTAAACTTTAGTGTAAAGTGGTGCTGTGTTGTAGGACCCCAGGGGATCTG
CAGCTGCAAATGCAGCTCCTTTGTGAAGAAATGACTTTAAAGCCAGCTCCCAAGAATTTYCACAGAAAAAGATCCAAGCAATATGAGATCCTAGTGAAAA
ATCATAAAAGATAGAAATAAAGCAAGGCTTCAAGATCTGGAAGTGACACCAGGCCCCACAAAGTCTGAACGAGGCCCACAAAGACAGCAGATAATGAATT
TATCAAGTAAGATGAAGAGGCTTAATATGTTTTAAGAAATAAAAGAGTATCAAGAGTATAATGCAAGAACAACAACAACAAAAAAGATAACCTAGAAGGT
TTAACAAAGAAACAAAGACGATTTCTATAAAAAAGAATATATAATAATTAAAATTTGAAACTCAGTGAATGAATGAAACAGCAGATAAGACAAGGAACTG
GAAGATAGATCTGAAAGAGTTAACTAGAATGCAGCCAGATAGACAAAGAGATGGGGAACATGTAAGGGAGGTTAGGAAACATGAAGAATGGAGAGAAATG
TCTAACATGCAAAAAAATTCTCCGGAAATGAGACAAGCAATATTTGAAGCAAATGATATAAAGAGACATTTCATGAAGAGGTGACAAGAATACTTAATAT
ACATGTAAAAAGATGTTGGAACTCATTAGTAATCAGGAAAATGCAAATTATAACCAACGTGAGATACTCTTCCACACCCACCAAACTGGAAATAGTTGAG
TGTCTGATACTTCTAAGCAAAAATGGGGACCAGTGGGGACTCTCATCAACAGCAGACAGAAGTGTCAGTACAACTATTTTATTACCTAAAAATATTCTGT
TGAGAGTAAGGACTATGAATGTTAAGGAAATCAGCTAAGTTAAGTTTATTCATTCATTTCATTTAATAAATATTTATTGAGCACCTATGTTCAGGAATTA
TATGAGAATTTTAAAAATCCATAGTCCCTGCACCAAAAAGCTTAGGATCTAGTGGGTCACATAATAAAAGGGCACACAAATAACATAAAACTATAGCCAT
GAAAGGAAAGATCCTTCAAGAGACCCTGGAAGGTGGGGGCTGGAGCTGTGGGAGGTCAGAGAAGGCTCCACTGGAGGGAAGTAATGACCAAGGGGGGGCC
ACAGAGTATGAGTGAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCAATTAATTATAAATCTAAAAATTA
CATTAGGAAGTGGAATTAAGGGTTTCTGTGACTACCCTTCTGGATCACCAGATGTGACTATGCCGAGAGCAGCAACAGTTGCTGGGCATATCTTCCCTCT
CACACTGCAAGCTCAGCTCTGCCTCTGACAGTACAGCCACGATGGTGTCCCAGTTTGTAAATCCTTTCCCCCTCCTTCCCAACAATAGCATGTGAGATGG
AAACCTAGCCGGTGGTTCACTTCGTGATGCAAAAAGCATAATTGAATACATTTTACTGCTTTGCAGCCAGAGTAAATGATTTTTCCATTGTTAAGAGTAA
AAACCAATTTGTTAGTAAACGGAGCAGATATGATTCAAAAGAAGCAGAAAGCTAGGCGCGGTGGCTCACGCCTGTATTCCCAGCACTTTGGGAGSCCGAG
GCGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAAACCATCTCTACTGAAAATACAAAAATTAGCCAGGCGTGGTGGCA
CGCACCTGTAAGCCCAGCTACTCRGGAGGCCGAGGCAGGAGAATTGCTTGAACCTGGGAGGCTGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCC
AGCCTGGATGACAGAGTGAGACTGTCTAAAAAAAAAGAGAGAGCAGAAGGACATGAAGAAGTATAACAGATTGTGTCTTTCCTGCTTGTGACTGCAATCA
TTACAAACAGTTTCCGCAGGAGGCCACATTTCCATTCTGAAGGTAGTGTTTCAAGCTTCCTGGTGTCTCTGGTCCTTTGTAGCTCAGATTCCTTTATCTT
TAACAACTTYATTGTGGTGTAATTGACAAACAATGAATGGCCCATATTTAAAGCATAYAATTTGATAAGTTTTGAAGTAAGTTTACACCTGTGAAAACAT
CACCACAATCAAGATAATGACATATCCATCACCCCCAACATTTCTGCCCCTTCCTGTCCTGATCTGTCCCTACCCCACCACAAACAACTCAAGTTTCAGT
GTAACCATTCTTTTAGTCAAAATTCCAATAGACTTATTTTATAGGCTAGAATACAATCTCTAAAAGGCCCTTTCTGATTATCTTAACCCAATTCATTGCA
AATATTCACCATTAAGATAAGAGTCACTCTGTAGAACCTGTCAATTTTCTCAGTCTTAAGGCTTTGAGAACACTTTAATTTTTCTATAAATCCGAGTTGA
ATGTACTGCCGGGAAGGAAAAGCTGGAGCCCCAGGGCCTATGGTTCACTCCACCATCATTAATGTTTACATCCACCTTTCAGATCTCATTTTTGATGAAG
AGGAAGGAGCGGTTTCCACAAGGGGCACCTCCGTTCAGAGCATTGAACTGGTCCTCCCACCCCATGCAAACCATCACGGAAATACATTTGGTGGCCAGAT
TATGGCGTGGATGGAGACAGTGGCTACTATTTCTGCAAGGTTCTTGGTTTTGACCTTCGGCCTATGATTTTGGGACCAGTGAGGAGAAAGTAGAAAGGGA
CTGAGATCCAGTTCTTGGGATAGTCAAGAAGTCAAGGAAAGGACTGAGGAAAATGTTGCCTTTTATAATGATTTCTAAATCATTTACTTTCTTACTTTAG
GATTAATCTGTCCTTTTGTTTGAAGGTGAATGTTTAAATATTTTGGTTCAAAAATAAAAATGAGATGACAGTTTTAATACTTTATTCTGAATTATGAATA
TTSATCTTATGAAACTGCAACTCATTGTCTTGATAGCTTATGACAAAGTAAATGCAGAACAGAAATAGAAGACAGGCTTCACACTTAAAAATAATCAGTC
TAGGTTGGGCAKGGTGGCTCACACCTATAATCCCAGCACTCTGGGAGGCCGAGACAGGAAGATTGCTTGATGCCAGGAGTTCAAGACCAGCTTGGGAAAC
ATAGCAAGACCCTGACTCTACAAAAAAAATTTGCTGGTGTAGTGGTGTGCACCTATAGTCCTGGCTAGTTGGGAGGCGGAGGTGGGACGATCACTTGAGC
CCAGGGATTCAAAGCTACAGTGAGCTATGATCACACCACTGCACTCCAGCCTCTCTATAAATAAGTAAGTAAATAAATAAAGTCAGTTAGTTACAAACCT
TTTTAAAGACAATTTACAGTTAGGTCTGACCTTTAAAGGTGCTGGTTAAAAATAATTATGGCCAAAGAAATAATTGAAAAATAGGAAAAGAAAGAAGAGA
ATATTTAGAATACTTTTAAAGACTCCTCAATTTCAAAAAGGTTATTTTATTCTTAATGGAAAGATGTAGGTAATTGAGCAGTTTTAGGGAACACTCTGTA
CCCTGTAAATGCATTTGAATAGGATCTGCCCTTCTGACAATTTTCATAACCATTGAAAATTTTTAAGGTTGTATTTCCCTCAAATTAAAATAATTTTATT
ATTAATATGTCTATAGTTATGACTATAGTTACAAACCAGTAGTTATCCTTTCTAAAAATTATGCACAAATAAGAGAGCTTGTTTTTAAAATGAGATTGTC
ATTCTTAGTGACAGTAAAGCAATTGAACATGTTCTATTGTAAAGGCTTATGGCAGCATCTGTTCGCTTGGTGTTGGCACAGAGTAATTGAATGATGACTG
GGAATCTAAAATGTAGAAAATTATGGAAGTAACTTTCTGAAATTAAATATTATATATAATTATTTCAAAGTGTCATACACACAAAAATTATAAAATGTGT
ATCTCCTAGCCTTTCAGGCTTTATGTAGCAATCCAGGTAATTTTTCTGTGAGGGGAAAAAACTTATCTTTTGATCTGTGGGTGAATTTGATTAACTGTAA
AGCTGAGGAATTGTGTAAGGACACCTGCCTTCACTTGGACCCCACTCCAACCTGGATCAGAACTTCTTGGGACTACAGTCATGAGCTATCAGGATGACTG
TAATTCAGATTAGAACAAAAAGCATTGGTTTGTTGTTCCAAGGGACTTCCACAGGAAACGAGACAAGAGTAGGACTGTTACCAAAGGAGTAGAAGCATCA
ACATCTGGGTAAAGACCCCACTGCTCGGGGACATGGTATTTCCCAAAATATTGGCAGGTAGCGTGCAGACCTACCCTCAACCCACATAATCCAGTTATTT
ATTTCAGTCAAMTTTAAAGAAATGCTTATTTGAAGACTTGTCTGTGCATTTGTTCGATGAATGAATGTGTGATCGCTTTCTTCTCTCTCCCTCCCTTTGT
CTCCCCAGCCGCCTGTGTTGGGCTCATCCCTTTCTGAAGTCCRTAGATATGTTTAAGTTCCGGGGACCATCTACAGTTGGAGATCGTCTTGTCTTCACTG
CCATTGTCAACAATACATTTCAGACCTGGTAAAGTGAGCCCTTAGGCTGCTATGAAGAAATTTAAACTTGCACAAATGTAATTTTTAATTTCAGCCTGGA
GGTGAGTATGGGAACTACTTTAGTGAAATTCCATTTTTTTCATGCAATTTTCAAAATCCRTGAACATATTTTTAACCCTTTGTTCTGCTTGGGGCCTTTT
CACAATTAGTAAATTGTGAAGGACTGGTTTTTGTCTTATAAGGGTAGCCGTATGTCCCAATTGGCCCAAGTAGGACCTGGTTTGTACCTGTCATCCCTGC
ATAATTATTAACTTTTCCTTTCAGTCCCAGTGACTAGATGGTCAATCAACTCATAATGGACCTGGTATTACCACCATGAAATCCAAACCACTTCCCAGTT
ATTTTTATTATTCTTGATACACAATGAAAAGATTTGATTTAGTATTATTTTCTTTTTAAATGTAAAAATGAATATCTGTGTTTCCTGTCTAATTTCAGTG
TTTATTTTTTAATTACAGAATTATTGTTTTTAGGGAAGAAAACTTAACTTTGGCATAATTTAAGCCCTCCCCCACATTGCCAAAATATGTTCTTGAATGT
ATATAAAGCCCTTCCTGGCCTTTTTCCCACTTGAAAGTGGGGAAGTAAAATGGAAATGCTCTTAGGGGCTTGTAAAAAGCAGCCCATTGACCTGAAAATG
GATTTTAATAGTTGCACAGGTTTGCTGATAACAAACAAGAAAACCCAGGCCCTTATCCTCCTGTTGCTTAGAGGAGGTGGCAGCGGTGKGCAAGGAGGGC
CTGATGGGTCAAGATCCTCTTTGCCCAMCGCCCTGCATCACCCTTCACAGTGTTGAAGTTGGAGTTCGCGTGGAGGCCTTTGACTGTCAGGAATGGGCCG
AGGGCCGAGGGCGTCACATCAACAGTGCTTTTSTCATTTACAATGCTGCTGATGATAAGGAAAATCTCATCACGTTTCCCAGAATCCAACCCATTTCAAA
GGTCAGTTATTATCACACGAGGTTCAATAGCCGGACCTGTGAATAGAGAGCTCTACCTAGAATCTCCTCCCACCGGCAACAACCTCTTTGGCTCTTTCCC
TTTGGTTTTCCCTCTTTTCAGCATCACAAAGTGAAGTGGGCTTTTTTCTTTTCCTTTTCCCCCCGATCACTCTGATCATTTGTTCAAATGATGGAAGCCC
TGAAGACCTCACCTCTACCGGGCTACACACTGCTGTGGGTAGGATGTCACCTTCTATGTCCTGTTTCTGGGTCTCTTCTCTCACTTCCTTAACTCTAGCT
CTTGATGCTGTGCCACGTGCCAGGTTCATGGAAACCATATCTTTCCCTCATCCCTAAATTACCTGATTGCCAATGTTAATTTTTTCTAAAAACTCTGTAG
TGAGAATTAAGTATAATTCTGGTAACAGGAATGTTAATAATCTCCACTTTTGAGAAAAGGAAGAAAATAGCTGCAAAGATTGCACCTTTGTCAGTGCAAC
TGCCCTTTGTGGATTCAGCACAGAGACTCTGACTTGATGAAGTCAGTTCATGGAGAGACACCACATCTCAGTTAGCCCTTTTGACTGATTTAGGAGAAGG
ATACTTAAGGATTATAGCACTAAGATAGTAGATATTTTATTTTATTTTATTGATTTTACTTTGTTTTTGATTAAAGGATGATTTCAGACGCTATCGGGGA
GCTATTGCACGCAAGCGAATTCGCCTAGGCAGGTAAGGAACATAAGGTGTAATGATTTTATGGAGTCTTCGTTAATCTGACAAATTATATAAGAGCCCCC
CTCTGGGTCTCTATTCCCACGTAACGGAAAAAGAGAAGGTCTGATGTTTCCTGGCCGCAAAGGCTGACTACTGACTTATGGAAATAGTTCTTCCACGTTG
TTCCACTGATATCCATGGCTGATAGAAGTTCAAGAAAGTATTATGGTTATTGTTGTGTGCTAAATGCAGAGAAAAAAACTGTCATTTAACACTTTAATTT
TTTTTTCCAGAAAATATGTTATTTCCCACAAAGAAGAGGTTCCACTTTGCATACACTGGGATATCAGCAAGCAGGTGATGTTTTGTGATTTGGAGCTCTT
CATATAAAAGTCTCATCATTACAAAAATGGAAATCCGCTTGCCTAACTGGCCTAGGCTGTGCCTACGCAGGCTATGTGAAAAGGTGGATTATATCAGCCA
GTCATGTCAAGATGAAACAAAACCAGGCTATCAGTTACTGCTTACCAATCGGCAGTTTAGCCTTGTTTGACTTCTTACAGTTCCCAAACTGCAGACTCAG
GATGCTCTGCCATCAGATATGTTCCAGAAGCATGGCACAGTGCCACCTGGTATCTCACCGTGACTTGTGCCCACCAGCTTGCATTTTTATAAAAACAATA
ACAAAGTAGTAGTCATTTGAATATTTTTAACCATTAAATGTAAAGAGAAATCCAAGTTTACTTATTACACATTGATTATCAGTCATACTGAAAGGTAGTC
TGTCTTTGCTCAGGACACCAACTAAAATGATACTAAAATGATACGCAGTTGTTAAGTATACAGTTACTTTGTCTGAATTCTGAATTAAGGGTTCAAGATA
AAAAGTATATGTTACCTGTAGCTTAGTTCTTTTTACTTTTGTTTGTTTTTTTTTCGTTTTTGCTTTTGTTTTTGTTTTTGTTGGGTTTTTTTTTGGTATT
TTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGTGGCGGGTTCAAGCGATT
CTTCTGCCTCAGCCTCCAAGTAGCTGGGATTACAAGTTTGCACTACAACACCCGGCTAATTTTTGTATTTTTCGTAGAAATGGGGTTTCACCATGTTGGC
CAGGCTGGTCTCAAGCTCCTATCCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNCATCCATGTATTGAACACATAGCTTTAAAAATATAATATTTCTATTCTAGGCATCCCTGAGTGACAGCAAT
GTGGAGGCCCTCAAAAAACTGGCAGCCAAAAGGGGTTGGGAGGTTACCAGCACTGTGGAAAAGGTAGGACACTTCCAGGTATTTGCATAATCCATCGCCC
ATCACAAACGAAAGCTGTGGTGGTGGTGGTTCTACTGCTTCTACTGAGGCTTTTAAGAAGGTAACAAAATCTTTTGAGGAAACTGTTTCTAAGACGCAAC
CATCTTTTCAGCCCTGTCTCTACAAGCTGGTTGATTTGGAGTCCTTCAAATATACCCAACATGCTCCTACCTCTGAGCTTAGGTTCTCACATCCCGTCTC
TCCCTCCTTCTCTTCTCCATCTACCCAAATCCCACCTGATCTAGATCAGGACAGATGCTTCTCCATAAAGCCTCAACTGCCACACTTGACTTAAGGACTT
CTTTTTCTAGTAACTGTCATGACTTCTTTAAAATTAATTTTTTTGGTCGAGTGTGCTGGCTCACGTCTGTAATCCTAGTACTTTGGGAGGCCAAGGCAGG
AGGATCCCTTGAGGCCAGGAGTTTGATACCAGCCCAGGCAAAACAATGAGACCCCATCTCTACAAAAAATTTAAAAATTAGCCGGCTGTGGTAGCAGACA
CTTGTAGTCTTAGCTACCCAGGAGGTTGAGGTGGGAGGATCACTTGAGCCCAGGCATTTCAGCCTCCAGTGAGCTATGATTGCATCATTGCATTCCAGTC
TGGGCAATAGAGCAAGACTCTGTCTCTAAAAAAAATAAATAAATAAATAATTGGTCAATTAATTATACACTATCTTGTGACATTTCTTCCACAGCTACCT
CAAATTAATATTTAAGCCTTACATGGAAATTTAACTTTTTACACATGGTCTTCTTTCCCTAAGTACATTATAAACCTCTTAAGAAAGAGGCCTTGTCTGG
ACTTCTTTGTATCTCTCTTAGGACCTATTACAGTGTTTTGCATGCCATCAGGTTTAAAGAGACATACATCATTTGGATCATAATTTTATCTATTTTCAGA
GGTTTTTTAGGAGACCCTCGGAAGYTCATGCCCACAATAACTAGACTGTAAGCTCCCTGAGGGCCGATCTGCTCACCACTACACCCAGACCATAGGAGCG
CCTGGCACTTCAGAGATGCTCACTAATGCCAGCACTTTGGCTACATTCATATTTCAGTATGCACTGATTTTCATCATCAGTGAAGCAGCAGCCTATGAAA
TAGGATGACCATATGTCCTGATTTTCCTGGGACAGCTCTGGCTTACACCTGTTGTCCCATCATAATTATTAACAGTCTCTTGGTGTTCCAGTTTGGATGA
TAAATTATATTGTTACTTTACCTTTAAATCTAAGTAAATTCAGATGCTACTTCATTGATTCGTTTCAACTCTGACTTTGACTTCTTCTGAATGTTTTGTT
TTTGGTTGTTTCCTTTTATGAGTTCTCTGTCCTCATTATTAAATCCTTTAGAAGTCTTCCTTATCCCATTTGGATCCAGTTAAATTTCTGTCTTTGCCTG
GTTCAGTGATGCAGAAACACAGGTTTAACTAATGCATTTGTTTATCTTTCATAAAAGATGCTTCACTACTTTGTTTTCTTTTACTATTATAAAACTTACT
TCTTTCATCATTGCTGGCATCTGAGCATTCATGAGCAGCAGTGGAAAGAACAAATTCATGTCTGGAATGAACTGAAAGAACATATTTAGTGAAGTCGTAG
AATATATTAAAACTGCAGTTCTTTGGGAGGGTGTGGCCCAAAGCATACCCAAATAAATTTGCTAGTGTTGTGGGAGAGCTATCAATGATTAATTCTTCAT
TCTTATACAGATAGTTACTAGAGGATATTGTATAAAGTAATATTCTTGTGTTATTTCCATTGAATTTGAATTTCTCCTTTAAAGATTATACTTATGATAA
AAATCTGATTTTAAAAATCTGATAAAAGATGTTTTTGAAGAGTTTTCCTCCTCTTCTCTCCCACGTTTTACAGCTTATATGTTTTTAATTTCAAAATATG
ACTCTAATTTTTTTCTGYCACCTTTTAGTGGAATAATTCTTACAACACAGTTGTCTGTTAAGAATCATACTTTTGGGCCAGGCTCAGTGGCTGACGCCTG
TAATCCCAACACTTTGGGAGGCCGAGGCAGGTGGATCACAAGGTCAGGGGTTCAAGACCAGCCTGGCCAAGATGGTGAAACACTGTCTCTACTAAAACTA
CAAAAATTAGACAGGGGCAGTGGCAGGCGCCTGTAATCCCAGCTATTTGGGAGGCTGAGACAGGAGAATTGCTTGAACCTGGGCGGCAGAGGTTGCAGTG
GGCCGAGATCGTGTTACTGCACTCAAGCCTGGGCAACAGAGTGAGACTCCATCTCAAAAAAACAAAACAAAACAAAACAACAAACAATCATACTTTCTGG
GCAGGCGCAGTGGCTCACACCTGTAATCCCAGCAGTTTGGGAGGCCAAAGTGGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGG
TGAAACCCCATCTCTACTAAAAATAAAAAATTAGCTGGGTGTCATGGCGGGCACCTGTAATCTCAGCTGCTTGGGAGGCTTAGGCATGAGAATCACTTGA
ACCTGRGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCAGCTGCACTCCAGCCTGGGCAACAGAGTGAGACCCTATATCAAAAAAAAAAAAAGAATCATA
CTTTCCTCAAAGCCGGGTCTGACAGCATCCACCTGTAGTCCCAGCTACTCGGGAATCTGAGGTAGAAGGATTGTTTGAGCCTAGGAGTTTGAGGCCAGCC
TGGGCAACATAAAATGACTTCATCTCTATAAAAAAAATCATGTTTTTTCCAGGTTTTCAATATAAATTAGATGGTAAAAATTTAAGATTGTAGTATATGT
GATGAAATTGGATAGGGCTTATGGTTTTAATTCRTTTCATGTTTCATGTATAATGATAGAATTAATTGTAGTAGTAATACAAGGAGCAAAATGTATATTT
TGGAAACATCACACAGGTATGTGAAACAGCTGAAGAATAATTATAAGGTCGTTTATTAACAAGTGAGAGATTACAGTGCTTAAACCATAAAAGTCAGCTC
TTATAGGCAATTCCAAGAGAAGACAGTTATATAGGGAGAACTTTAGAGAGGAGGCCATTCTTACCTCCTTGAAGACAGTGTCAGGAGTGGATTGCTGAGG
GAGAAATAGGGCTTTCTAGGCAGTGGGTAGTTTAAGCCAAGTTCTCCTGGTGGAAATTAGCATTGAGTAGGAGACTGGCCTGACAGGAGTAACTTTTTAT
TTAAGGAAGACCTGGGGATGTACTGGGAAAATTATGATGAAAGCCAGAATGACATGAACCACTTGAAAACCTTTACATAGGACAGACCCCTAGTATAGGA
AACAGACCAGAGGGGAGCTATTCTCATGGAGCCGGGGGAGGGGCTGGGCCCAGAGCTCCGCCCTTCCGACCCCCACCCGCTTGGCCCCCGTGGKCATCTC
CAGATACCTCCARGGAAAATGAAGGCTCCCCTRGGCTTCTGTAAAAACCACTTTTGCCCTCTTTACCACAGTGTAGTCTCCATAACATATTTGTCAATAG
ATGGTACAAAAATTCTCAAATTTTTAGTTGTTTCCTCTTGTACTGTTTGTTTTTTGAGATAGAGTCTCACTCTTTGCCCAGGTTGGAGTGCAGTGGTGTG
ATCTCGGTTCACTACAACTCCCCCTCCTGGGTTCCAGGGATTCTCGTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGTGCCACCACCCCTGGAT
AATTTTTGTGTTTTCAGTAGAGACAGGGTTTCACCATGTTTCCAGGTTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTG
TTGGGATTGCAAGCCCTCTTATACTATTTGTATAAGACATTAAATTCAAATTCAAAAAGAATCTTATTAGAATGAAAACAATGATATCACTAATAAAATG
TTAGCAAGGATCCAGCAGATTTTGANNNNNNNNNNNNNNNNNNNNCCTGCTTGCTTTAAGCTTCATTTCGTAGAATGAAATTCTCCAACCATCAAATGAT
AAAGAAAACGTTTGAGTTGGCGTATTAGTTCATCCTCACATTGCTATAAAGAACTACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGGTTC
AGGGTTCCATAGGCTGCACAGGAAGCATGGCTGGGGAGGCCTCAGGAAACTTACAATCGTGGCAGAAGGTGAAGAGGAAGCAGGCACGTCCTACATGGCT
AGAGCAGGAGGAAGAGAGAGGGGGAGGTGCCACACACTTTCAAACAACCAGATCTCATGAGAACTCACTCACTATCACAAGAACAGCAAGGGGGAAGTCC
ACTCCCATGATCCAGTCACTTCCCACCAGGTCCCTGCTCCAGCACTGGGGATTACAATTCGACATGAGATTTGGTTGAAATCACAAATCCAATCCATATC
AGTTGGTTACAAATAAATAAATAAATTGAATCTCTATATTCCCAAATGTGAAAGGTAATTCATTTTCTTGGAGAATTGTTCCTGGAAAATTTTTTCACTA
AGCAAAAGCTGGCCTTTATTAGCAGGGTTTAAAGAGAACCAAAACTAACTACTGCATTTCCTTGTCTGCTTTGTTTGCATCAATATCATTGATTTATACA
GCAGGGCAACRGGGACTTTCTGCTACCCTCACCTTCTAGGGGAAAGATCAAAATCGAATTTGCTCATCCAGTACTGTACCTGACATTGGATAAGTCAAGT
GAGCTCTGTAAGGGCAGAATTCAGTGGTGGTTACAACTTAGCTTGATGTTTGGTTTGGCTCCAGGATAGGAAGCAGAAGCATGTGACTGCAACCTGGGGA
GCAGCMCCCCCAGAAAAGTGCTGTATTAGTTTCCTAGGGCTGCTATAACAGAGGACCACAAACTGGGTAGTGGACACATTAGAAATCTATTGTCTCACAA
TTCTGGAAGCTGGTAGTCTGAGACCAAGATGTCAGCAGGGTTGCTTCTTTCTGAGCCTGTGAGGGACAATCTGTTCCATGCTTGTCTCCTAGCTTCTGGT
GATTTTCTGTCAGTCTTTGGCATTCCTTGGCTTATAGAAACATCACCAGATCTCCACCCTTGTCATCACATGTGTTCTCCCTATAAGCATGTCTATGTCC
AATGTCCCTTTTTAATAAGGATGCCAGTCATATTGGATTAGGGGCCCATCCTACCACAGCACAACCTCATCTTGACTAATTACATCTGCAAGAGCCCCAT
TTCCATATAAGGTCAGATTCTGAGGTACAGGAGGTTGGGGCTACAGCATATGAATTTGGGGGTGGAAGGGTAGAGAMATAATTCAACTCTTAATAAGTGC
TCAGCACAATATTGCATCCCACTCCATCTTGTTCCACCAGAATGGAGCATGGCTGCCCCAAGGGCAGATTAGGACTGGCACTATGGAGTTCACCCTGGCC
ACCTGCCCTCAGCTCCTCTGAGATTGCAGAGCCCCAGCAGGCCATCCTAGAGCCACTTACCTACCAACCACCRATTGGATGACTGATGAATCTGATAATC
TCTCTGGATATACACCAATGAAACTCCTTCAACTCCCCCTGTGCTGGGGGCAAAGTTAGGCATGCCCATGCTAAGTAGGGTGTGTCTCACCAGCCACCTG
GAGCCCCATCCSTAGTTTTCTTGGTGTTTGATAAGTGCTCACAGCCTCAGTCATGTCTTCCTTTGCAGGCTGGATTTAAAGGGAGGCTTGGAACCAAGTT
CAATTGGAGAGGTTAAATGGTGTAAGCAAATAATCACTTGTTTCCTTTCTGAGCAGCTTGTAGTTAATTTCTCATTTTCTCATTCTCTTATTGATGATAT
TTATGTTTAAATAAAGCCTTCTCCTTTACAGCCTGATTTTTCCCATCTGCTTGATTCCTGCAGTGAAGTCCTAACCCCATATTTGTTTGTTTTCTCACAG
CTTGTTGCCATGGGAATGGTTATAAGGTAGCAAATTTCAACACTAACTTCAAAGTATCCTGAAAGAGATAAAGAAAACGGGAAGGATAGAAATGTGTTCT
TAGCTGAACACACATCTCTGATTATTGTCAAAAACACAGTAGAAGAAAAGCTCAGAGTAGCAAGGGATGCATTCATGCTTAAGTATATGTCAAATGGCTC
CCCAGGACAAGCCTCCTCTTACCTAAGGAATAATGTGCATTAGGAAACCAGGAACTGGCCTTTCAGAAGGATGATCCAGCCACTGTGATTCGGAAATGAA
AGGGTGCTTCGTGCTGAGGAAATATGGTGCTCCAGGGGCCCTGCTAAGAGGCTGAGATGGTTCTAGAAGTGGTTGATTCAGTTCCTGGATCCCCTTGGCC
CACTTAAAGACACGCCTGACATCCTGGGAAAGTGTCCTAAGCTATAGCCTTGACTCTGCTCTTTTGAGGGAGATGAGGTGCTGACCTGCCTAGCAGTCTG
GTGATATTTTCTTTTTTTCCTCAGTAGAGGCAGGGAAACATCACAAAGAGACAAGGAGAGAAAGGCCTAGGTTTTTACATTTTTCATGAGAAAAAAAAAA
ACTGTTGTGCAATAATTAAATAGCCCACCCTCAAGTCACATATTGTTTAGAGGACACGAGACTACAGCATCCTGGACAGACCTCTAGACATCCCAGTATT
TGAAGAGAAATTGCCGGGGCTTCAATTTCATCCAGGAAATAAGATGCCTTAGTTAGTGCAATTGGTCTATGACTACATATATATGCATATGGTTTCTAAA
GTAAAAGCATCAGTTTTCTTTCGTAATTTAATTTTTTTGTTGTCTTTTAGATAAAAATATATACTCTGGAAGAGCATGATGTTTTATCTGTTTGGGTTGA
AAAGCACGTGGGAAGTCCAGCACATTTGRCTTATCGTCTCTTGTCTGACTTTACAAAGCGACCTTTGTGGGACCCCCATTTTGTGTAAGAACAAATTTAA
AAATTTTTCTCAATCAACCTTGACATAATGTAAAAGATGATCTCCATACTGMAGTCCATCTCCATCGTCCAATGTGTGACCCATTGTTTAAAGAGTATTT
TTAGAAGTTTGACCCAGCATAGCACTTTGGGAGGCTGAGGCAGGTGGATAGTTGAGTCCGGGAGTTCAAGACCAGCCTGGGCAACATGGTGAAAGCCCAT
CTCTATAAAATACACAAAAATTAGCTGGACATGGTGGTGCATGCCTGTARTCCTAGCTACCCGGGAGACCCAGGTGGGAGGATTGCATGAGTCTGGGAGG
TCAAGGCTACAGTGAGCCAAGATCACACCACTGCACTCTAGCCTGGGTGACACAGGAGACCCTGTCAAAAATTAAAATAAAAATAAAGTTTGATCTGGAC
AGAATACTGCATCAGGTGATATTGAGAGACACAAAACAAAAATTATACTCACTTATCATCTATATTGAGTTGACCTGCTTTACACACATCTATTGTAATT
CTACCAGTAACTTCAAGGTCAATATTATTTCCATTTAAGAGGTTCTGAGACGTGCCAAGATTGCACAGGCAATAAAGTGATGGAACCCAAACTGGAACCC
AAGTCTGTCATGCTCTGAATTCTACACTCTTCTACTTTAATATGCAACCTCATTGCTCTTGAGGAAGTGATTATCCAATTGTCCTGCATACTCTCAATAT
TTCATTGGCAGTTCCTTACTTTTCTGTGAAGCAACCCTCCCTGGTGAGAAGCTAAGAGAGCAAGCTGTGTGAGCCCCGAGGTGAAAGGCATGCCTTCCTG
CTCCCCCTCCTGATGATGTCCCTGCTCCTATTAGCCTACATCTCCCACTCCTGCCACTCCCTGTCTCCTGCATCCCTAATCCAATCTCCTCCACTCCCCA
GCCCTTTCCTGGAACACAGTACAGAGCTGTGCACCCTGCCAACTGCACTGACAGAGACCAGCTGCACTGGGGCCCAGCCACCTTGGCTATAGCACCCCGC
AGGGCTTCATGGCCCACYTTGTTGACACGGAAGAGTTGATGAGATGGGCTTCCTATGTGTTAAGCGTTTCCTAATCTTGACAAGATAGAGGCTCATCTTC
AAATTTTCTAAAACTCACTGTGATAGAGATTTAGAAATACCATGTAACATATGATTTAATACCACTAAAGTGAAACATCTCTGAGGTCACGTGTTACATT
GGCACAGATGCTAGAGTTGAAATGGGAGGAGTTCCCTTATCCTCCTCATAGGGCCTGCGACAAGGGTGTGGCTTGTTTCTTCSGTGCTGCTCAAACCCCT
AGAGGGATCATGCAGACGCTTAAGTCGCTTAAGTCGTGGGGAGTGTTTTTGAGCTCTGACCCCACGGCAGCATCTAGGGTTGACTGTTTATGGCTTCTGA
AGCCCCGGTGGGTGTGTGTTACGATGCGCTCTTTCAGTTTTGCTGTCTGCAGGCAGCCTGTGTTAATCAGCTCGATCAGACCCTCTGCCTTATTGCAAGA
ACAGAGGGCTTTCTGTATCCTGGATTCTTGCGTTAGTGTACTGGAAAAAACGGCTCACGCGTGGCCTTGGAGGATGGGTGCAAGGTTTATTGAGTGGTGG
AAGTTGCTTTTAGCAAGATGGATGGGGAGCCAGAAGGAGGATGGAGTGGGAAGGTGGTCTTCTTCTGGAGTCAGGCTGCCCAGCCACCAGACTCTCCTCT
GACCACCCCTGACTGAATTCCATGTCTTTCCACCATCGATGGTCTGCCAGCGTCTGCTGGTGTCTGGCAGTGTGCTCCTCTGTTCCTCTCAACATCCAGC
CCGCTAGGGTCTCGGGTTTTTTATGGGCACAGGATGTGGGGTGCAGTGGGCCAAAAGGTAACTTTTGGGGTGTGAAAACAGAAATGCCTGTCCTCATTTA
GGTCTGTGGGCACAGGCCCGAGGGTGGAGCCCTCACCAGGGACCCTGCCCTTCCCTACCCAACATTTCCCTGCCCACCTCCTGTATCAGAATGATACATC
GTGGTTAATGCTATCATAATAAATCATTCTGAGAGAAGAGGAACACTTCTCAATTTTCTTGCATCAATTTAGTAGATACTCTACCAGTACAAGCTTTTAG
GAATAACAATGCCTAAACTTTGGTGWTATGCTTTAAAAATGTTTCTCCCACTATCTCTATGTCACTTGACATTCCAGCCAAATTGAAGTTGAACAAATKG
GGGAGTGAATGAATGAATTCTAATCCAACTAACTTTTCTTGTACATGTACTATGATTCAGGTACTATGCCAGGTGTTTTCACTGAATCCTTGCAATAACC
CCACGTATCATTATCTAAATTTTACAGATGAAAAAATCAAATGACTTGCCTAACGCAACTTATGTAGCGAGTAAGTGGCAATCTGGGAGTCAAAAGAAAG
TTGTGTGACTCCAAAGCTAGTGCGGTTTCCAATATACCACATTTCTTTATCTATATAAACAATCCTTCTTGGACTGACTATATGATTTACCAGTCCTCAC
AATGTTTTTACTTGATCCTGGAGAAAAATAATTTTGTGTAAAACAGCTCAATGCCTTTCACTGAAGTATTGAGAATTATGAACTTGAAGTCAGATGGCCA
CCATCCTCTATCACTTGCAGAATTATTCCTTCTGATCAAAGAGCTCTTGCGTTTTTTGTTTGTTTGTTGTGGCTTTTTTTTTTTTTTTAAGATCTCACTG
TGTCACCTAAGCTGGACTGCAGTGGCACAGTCATGGATCACTGCAGCCTCAACCTCTCAGGCTCAAGTGATATTCCCACCTCAACCTCTCGAGTAGCTGG
GAGTACAGGCATGCACCACCACACTCAAATAATTTTTTAAAAAATTTTTATAAAGATAGGGTTTTGCAAGATTTTGCCCAGGTTAGTCCTGAACTCCTGG
CCTCAAGTGATCCTCYCACCTCAGACTCCCAAGGTGTTAGGATTGCAGGCATGAGCCACTGTGCCTACCCTCAAAGAGCTCTTCTAAAGGCAGACTTGAG
CAATAATGCTGGCTTTTAGGGAGATGATTAGGTGAGCTGAAGGGGCAAATATGGATACAAATAATGAGATTATGTAAGCAAATAAGGGAAGTGAATGCCT
GAGCAGGTAGAAAGTATACCTGCTTTTCACTGTTCTATATACACAGGTCCTGTGAAGTCATAGACTGGGTGAGTGAAGATGATCAGCTGTATCACATCAC
CTGTCCTATACTGAATGATGACAAACCCAAAGACTTGGTAGTACTCGTATCACGAAGAAAACCCCTCAAAGATGGGTGAGTATATGCAGTCCAAGTGTTC
TATTAATATTTCATAGTATAGGATAGAAATTAAAAGTTGATGTGAAAATAATGAAGTCTGTGTAGATATTTCTGCTCTTGAATTATGTTTATTTGAATTA
TACCTAGATGAATCTTTAGCTATTATTTTAAAAATTAACAGTCATCTATTAAGAGCCAGCTGTTTGCAAAGGACAATGCAAGAATCCTAAAGTAGTTCCT
TTTCCTACGTAAATGTAAAACTGGTATTCAGTAAACCTTTGAAACATACCATGATTAGTAAAAATGTCGTGGAAGCCAAATAAGACATCAGGAATTGGTT
TAGAATTCACCAAGGCTTGACTATGCTAGACATCCACCATGGCTGGTTGTCAGCTGGGGCTGTCGATCAGAGTATCCAGACATAGTTTTTCCATGTACAT
TGAACTTCTCAGAGCATGGCAGCTAGCTTCTAAGAGAAACTGTCCCAAATAATCCCACACACATATGAGTATTAACAGATGTTCAGTGTTGTATCATTTA
TTATGTCAAAAGATATTAGAAACAAATGGAAAATCCATCTTATAAATTATGGTAGAGCCATACTACAAAGTATTGTACCATCATTAAAAAGGATGAAGGA
GCTATAGTGGGACTGATAGAGAAACACCTTCAAAGATTTATTGCTAAATGAAAAATCAAATTGTAGTCAATATTTGTAAAATGATATTTATGTAAAAAAT
TTTGTGTGCATTTGCTTATATAAATGTCATTCTTATACACTTATTTTAAAAAGTCTAGAGGGCTATACAGTAAAATGTTAAGCGTGTTCACTTCTAGGGT
AGAAAATAGCATGGGAGCGCAATTGGACTGGAGGAAGATTTTTATTTTGTAGCCTACAGGGTTCTCTATTGTTGAGAGTTTTTCTTTTAACAACAATGGG
TATTGTTTTTATTATTATTATTTTAGATGATGTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTCAGCTCACTGCAACTTCTGCCTCCCGGGTTCAAAC
GATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCATGGTCAGCTAATTTTATATTTTTAGTAGAGATGGAGTTTCTCCAYGT
TGGTCAGGATRGCCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTGTT
TTTTAATTTAAAAAGGAAAGGAGGCTGAAATTACAACCCTGTCGGGCACAATAAAACTTCAGTTTGGTGGTTGACTCCAGTTTCATGGAGTTACACAAAG
CATTGTATATGCAATTCTAAGGCAGAAAACACTATTTCCTACCTTGAAGGTAGCCTGTAGAGTGTTTTCTGATGAGACCACTCTTCTAGAAGATCTGGGC
CTTCATAGTTTCACTTCTACCTGTATAAGTAAATTGGGTTAACTATAGGGATTTATTTTCTAACAACTATTCTTTATTTCTCACAAGAGCTTAGAAAGTG
TTTTCTTTCAGTAACACTTACACAGTGGCAGTGAAGTCGGTCATTTTGCCATCGGTCCCCCCGTCTCCACAGTACATCAGAAGTGAAATCATATGTGCCG
GATTTCTCATCCATGCTATTGACAGCAATTCATGCATCGTAAGTTTGATGAAACATCTGCAGATTAATTGGCTCTGCCAGATAGCGAAAAATCTCTTAAT
TTACCCAGATGTCCTAATTAATTGTAATCTTGTAATTTGTGTCCACACTATGGGAATCCTAAGGTCATCCTTTSGGATCATCTATTCCAGAAGGTCCCCC
AGAAGATTAGGGTCTTAGCCTCCCCTACACCAGCAAGACTCAGATCCTTTCTTGAAAAAGCTCCAAGTCAATAAGAAATTAAAATATTGTACTTTCTTTT
TGAAACAGGTATCTTACTTTAACCATATGTCTGCTAGCATCCTTCCTTACTTTGCTGGAAATCTTGGTGGCTGGTCAAAATCCATTGAAGAAACAGCAGC
CTCTTGTATACAGTTCTTAGAGAATCCTCCTGATGATGGGTTTGTAAGCACATTTTAAAGGTCAACTTTCAATTACTGGTAATTTAATTTCCCACTTTTA
ATTCCAAGCACCCTTAGCCCTGACATCTGTCAAGCTTTGGGGCCACAAAATAATTTAATATAACCCTAAGCAAAATGCAGTGACGGAGTTAAAAAACAAA
ATGCATCTTAAGTCAAATACCAGTGATTTGGATTAGCATTAAAAGAGCTTTAGAATTCTGTTGTAAGTCATCTGTGGCTCTGCCTCTTCCAGGGGCACAG
ATAGTGGAAAATTGCCTGTATGCARTACTATGTGTTCTATAAAATGGCATGAATTTAGTTTAAATTATCGTAAACATTTTTAGGTTACAGAGGTGAAACA
TGCATTCTGTGTGAAATTCCAAAAAAAAAATTATAAAATCTAAAATGATTTGCTAAGTTGACTCGTTGATTAATGTATGGCATTCTTCCTCGTGCAGCAG
GTGTCTATATGTCAGGAGCATTTGACAAGATGTATTACATAGTCTAGAGATTTAAATTAGGGAGACATTAAAACATAATGGAATCCAATCAATTTTAGTA
ATAAGAACAACTTTACTTGTGTCATTTAACATATATTCCAGGTGGCTGACCAATTTAGTGTCTATTGCTCTAATAGACACACAAGGTACCTGTAAAATGT
AGTATTACAGAGAAAGAGAATATTGACCGTGATCTCTTTCATAACCATTACATTAGCACTTTATTCCGTAGACTTCAACATTCAGTATTCTCCTCTGTGA
TTTGTCTTAACTCATGAGACAAGCCAGAATATGGCAAGCTAGCCTCCTCTCAAGGACACGTTTTAAAAGTTGAAGGAGTCTCCATTTTTGGTGGGAGCAC
TTAACAGATTAGATGCATCCTGCTGTTAGTTTGCTAAAGTTCTACCTCTGCTCCCCCTACCAACCCTCACCCATCTATTCACACAAGGTAAGCCTGGTTA
TAATTATTTTCATTTTTCCTGTGCCAGCAAGTTTTCATTTACATGAACTTTGGACTGTTCTGCAATTTCATACATTAACATTTATATACGTAAGAAGAGT
GGATATGTGGATTAAAATAATTATATATTATATTCCAGAAGTAGAGATGGTTTTGAGAATATTTTTACATTTTGAAAAAGTCAACAAAATTAGTAATGAA
GGAGTTACATTAAACTAAAATTTCAGACCTCACCTACAATTGAGACACTTCCAAATGCTGTCTGCCTAGCCTAGGTCTTTGAGTTTACATTTTTTGAAAT
GTTTTCCTGAACAGTAACGGAAACATTGTGAAGTTAAAGGAGTAGAGTGATGATAGCTGGATCACTCTGAGACATAAAGATGTTGCCCACTCTAATTGAC
AACAGAGGCATAGTCTATTCCTGCATTCCCCAATATGTGTCATTAAATAGCACTAGGCACGTGTGCTATTTAATTAAAATTAAATAAATTTCAAAAATCA
ATTCTCCCACCATACTAGCCCCATTTCAAGTATTATTAGTCACCTGTGGTTAGTGGCTATCAAATTGGACTATACAGGTATAGAATATTTCCATGATCAC
AGAAGATTCTTTAGATAGTGCTGTTCTATTCAGTTTGTCCCAGTCTTATAATAATGCAGACAGGTCCTGTTTTCCCATTTTCACCTATCTTAGTGCCAAA
CAATCCCTTCTACCCCTTTTTTAAATATATTTCACTTTTATGTTTCTGAACAAAAACATAGGACTCATCCACCTGGCGCTTTCTTGGATCATTCAGCATA
TCCTGAATTGAAGAGCTCATTTTCAGGACTACTGGACTTTAGAAATGCTAAATGAGCATGGCAAGAAGATAAGATAGCAATGCATTTAGGCTCTCCTTAG
GGCATTTCCAAAAGTTTGAAATCTATTGTCTAAAACAATGCCAAAATTAACTAAGGCATTCCAGTTGTAAAAGTTAACAATAGCTCTTAAGTTTGCATTT
TCCTTTTTCTTAGGAATATACTCACTCTTTCATTCATTCAGATATTTATTGAGAACTTTGTGCTAGACACATCTTAGGCACGGCGGGTTCAGCAAGAAAC
AGAAGCATACTCTGTTCACATCATAAATAAAATTAATATAGAATATTAGAAGATATAAGGAAAAATTAAGCAGGGTAAAGATGAAGAGTGCTGGGGAAGG
GTTGGGGGTGGTGGTTGATATTTTAAGTAGGGTGGTCAGTGTAGGCTTCCTTGAGGGACATTTGAGCAAAAGCCTGCAGGCAGACAGGGAGTGGGCTGAG
GATCTCTGGATGCAGCATGCTTCCTACCGAAGGACTAGGCGAGGCAAAGTCCCTAAGCAAGGGAGTGTTTCTGGCACATTCTAGGAAAGCAAAGAACCTG
GTGAGACTTCAACAGAGCGAGAGAAAATTAAAGACAGCTGAATTAAAGACCATCTTCCCCTACTCTCTTTGATGTCCAGGCTTTAAGCAAACGCGTTTGC
TCCAAGGGTAAGCAGCTAAGTTAGTTCATCAGCAGTCAGCCCCCTGGAAACTAAGGACAGAGGAAACCTAGAAAAATTAGTCCCACTGATTTTTTTCTTT
GGAGTGTCAAAGTATCCTTAAGGGACACTCAAAATTTCATGCTGTTTTTTTGATGGTAAGGGTTTTCAAGTGCTTCTAACAGGACCGAAAGCTTCTTGAT
TAAGAAAGGAATCTCAGCCAGCCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGAC
CAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGCTGCGCACCTGTAATCCCAGCTACTCAGGAGGCTGA
GGCAGGAGAATTGCTTGAACCTGGGAGGCGAAGGTTGCAGTTTGCAGAGATCGTGCCACTGCACTCCAGCCTGCGCAACAGAGTGAGACTCTGTCTCAAC
AAAAAAAAAGGAAGCTCATTCCTATTAATTCTTCCTGGTTTCAATGCAATCTAGTTACTAATCTGCATTCGGTTTCTCTATTATGTTTGTTTTAGAAAAA
AATCTAGTGAAAGAAATGTGAAAATGAATCAGAATATAGTTTACCCTGTACTCAAACATCTTTAGGAAATGATCAATTTTAATAAATAATGGAAAGAAAC
TAGTATATATATATATGTGTGTATGTATATATATATGTGTGTGTGTATATATATTATATATATGTGTGTGTATATATATATACACATATATATAATCACA
TATATATAATCACATGGTTTTGTTTATATTTCTTATTACACATTTCAGAAATAAGCTTGGACATTTTACTGGCATAGTTATAAGGATAGTCTTGAAATAT
ATGTTGATACTATCATATTTGGGATTAAGTTAAAAAAAGAAAATATATGTTGAAAAAGACATATAAAGGAATAAGTCTTGTGATTTAGAGTAAATTATTA
AAATAAGAACTATTAAGTTTGCTCATAATTTATTTCCCCTTTCCAAAGTATTAAAACTATGGGGACAGACAGCTCACCATGAGCCCTGGGTGGTCTTGCA
CATTCTTGCTGAGTGTGCCAGGCTACAGGACTAATCTGTCTACCAATTCTGAGCAATTTCTGTAGCTAGTCCCATAGACAACTAAATAGGTCAAGGTGAC
CACAGCATGATTCAGTGTAACTGCTCACTCTCTGGGCAGAGGAGGCCTGGCTTGTTTGCTGCCTGCTACAGTGCTCGCTACTTGCTCAAAAAGTTATCGG
CCTTTGGTTCCTCAGCTGTGACACAAGCCCAATATGTCTGCAGCATTCACTAGGCCCTTCTTGTCACCTCTGTGGGACTTGGAGGGAAAGGAAAGCAACA
CAAATATGCTGATACTTATGCTGCTTGCTGTGTCATGAGTAATATAGTCCTTCATCTCTGAACCAAAAGTCTTGTGTCTTTTGTCAACATCCACAAAACA
ATAAGAGGCTAACTTAATATTAAGACTCTTGGCCAGGCGTGGTGGCTCATGAATGTAATCCCAACACTTTGGGAGGGTGAGGTGGGCAGATCACCTGAGA
TGGGGAGCTTGAGACCAGCCTGACCAACATGAAGAAACCCCATCTGTACTAAAAATACAAAATTAGCCAGACGTGGTGGCATGCGCCTGTAATCCCAGCT
ACTCACAAGGCTGAGGCAGGAGAATGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCATGCCAATGCACTCAAGCCTGGCAACAGGGCGAGA
CTTCGTCTCACAAAAAAAAAAAAAAAAAAAAAAAAAGAATCTCAGGGCTGGGTGTGCAGTCGCTCATGCCTATAATCCCAGCACTTTTGAAGGCTGAGGC
ACATGGATCACTTGAGCCCAGTTTGAGACCAGCCTGGGCAACATAGCAAGACTCCATCTCTATGAAAAATGAAAAAATCAACCAGGCATGGTGGTGCATG
CCTGTAGTCCCAGCCACTTGGGAGGCTGAGGTGGGAGGATTGCTTGAGCCCTGGAGTCATGGCTGCAGTGAGCCATGATCATGCCACTACACTCCAGCCT
GGGAGACAGAGTGAGACACTGTGAGACACTGTCTCTAAAAAGAGAAAGCAAGACTCTCAAACCCTTCACAGTTATTGACAGTAAACCATCTCCAGATTCA
AAAGTCAGAGAAATCTGATATTAAAAATGCCTTTCTCATTTTACACCTGCAAGGATGAAGCACCCTATAAAAATTATATACCTGATACCACCTTTCACAT
CCAATTTAGGGATATTTTGGAGATACTGAAAATAGATTAGAAAAAAAGTATTTTTATCATTGGACACAACTCATTCCCGCTTTACATGCCCCCCCGTTTC
CTTGTCCGGCTTAGATTCCGTGGTCCATCATTATAATCACTCCCTGGAAAACACTGCACCTCTGTCCTTTCATTCAGCTTCTCTGACAAAAACCCCAACT
ATGGCTAAATTAAACTATTCATAATACTTCATTCCTGCACACAGCAGGTGAAAATTGTGTACTGGTCTCACTTTAAGTTCGTGACCACAAATTTTAACAG
GGTGCTTAGGAGGCTGGTAATTCTACTCCATCTCCCTGGATGTTTGCTATTTCACACTGAGTCCTCTTCCCTCAAGCTTCTCGTGTCTCTTACCCTGACT
CAGGTCATGAACTTCAAAAAATATTCATTGAGAAAATATAAACCATCAGGCAGGAGTCTTTTCCTATTCCCATCCATGCGCCTTTCACYTCTTTGCTTTT
TCTTCTGTTATAATGGATGAAATATCTCTACCCCTAGCAGAGAACACTTTCTCTCACCTTCTCCAGGACTCCCTTCCATCAGTTCTCTTTTTTCTCTGCT
TCAGGAGCTTCTTTACCTCCACTGGATTAATTTTCACAACCACAGGTGTCTCTTAAAATAAAACGATACTTTTTCTGGATGCATTTCCTAAATCCTGCCC
CATGTCTATTCCAGTGGTCTATAGAGGTGGTCTTCACACCTTTATTTTATTTACCTAACTATACTCCCACCTCCACTACTCCACAATACTTCTATTATCA
GGATCAACTATGTCTTTTCTATTGCCAAATCTAATGGCCCTGTTCTTGACTTACTTAGTCTCTGAGCAGCCTTCAGTGAAGTTGACTCCTTGCTTCTTTT
TGCAACATTTTCTCTTCTTGACTTCCATGATGTCACACTCTTAGAATCCCTCCTACATCACTAATTCCATTTTTAAAGCCTTTTCTTGTGGTTCTTCCTG
TTCCATCAGGCCTCTCAATATTAGGTTACCCTAGGGCTCTGGCCTTGGCCTCTTCTCCTCTATATCTATTCCTCAGTGAGTCTAACCAGTATCTGGGTTT
AAAAGCCATCTATTTACCAGAAATTCCCACATCTATGTCTCTAGGCTTAATTTCTCCTGAACTTCATGCTTGTATACTTAAGTACTTATTTGGTATTTCC
ATTAGGACAATAGTCATCTCAAAGTCAGTATTTCCAAAACAGACCACCCAAATTCTGCCACCTTTCCCCCAACAAATTCCCTTTCCTTCAGCAAATTCTA
TTGGCTTTTTGTCAAAAATATAATGAGAACCTTACTACTTCTTATCAACTTTACCACTAAAGCCCTAATCCAAAACGCTATCTTCTCTCATCTGGATTAT
AACCTATCTTCCCTGCCTGGCACAGTGGCTCACACTTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGCAGATTAACTGAGGTCAAGAGTTCGAGACCA
TCCTGGCCAACATGGTGAAACCCCGTCTCTATTAAAAAACAAAAATTAGCCGGGCATGGTGGCACATGCCTGTAATCCCAGCTGCTTGGGAGGCTGAGGC
AGAAGAATTGCTTGAGCCCAGGAGACAGAGGTTGCAGTGAGCCA


SNP Information

Context             (SEQ ID NO:45165):
CATAATCTGGCTGCTGAGAGAAGGAAAGTTCGATTACAACATGAAGATACCTTTAACAATTTAATGAAGGAAAGTAGCAAATTTGATGGTCAGTAAATCC
R
CTTATAAGAATTTTAATTCTATAACTGTGACAGGCAAAGGAGTCTTTTCTTAGAGCACACTTATTTTCACCTTATTATTACCATTCAGTCCTGGTGACAC
Celera SNP ID:            hCV11646146
SNP Position Genomic:     40159
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45166):
ACTAGAAGGTCTTATGGGATTTATTAAACCAGGATTCAGTATAGGTGATAGGTCTCTTAAGTGTCTTTTAACATAAAATGTTCCCTTCCTTCTTTTATCT
Y
GCAATTTATTTTTTAAAGAAACCTGGTCATTTGTTTTATAGAATTTACATCCACTGTAGCCTTGATTAATGTGTTCTCCTGTCCTTTGTATTTCTTGTAA
Celera SNP ID:            hCV1400351
SNP Position Genomic:     16620
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45167):
TCTTACTAGAAGGTCTTATGGGATTTATTAAACCAGGATTCAGTATAGGTGATAGGTCTCTTAAGTGTCTTTTAACATAAAATGTTCCCTTCCTTCTTTT
R
TCTTGCAATTTATTTTTTAAAGAAACCTGGTCATTTGTTTTATAGAATTTACATCCACTGTAGCCTTGATTAATGTGTTCTCCTGTCCTTTGTATTTCTT
Celera SNP ID:            hCV1400352
SNP Position Genomic:     16616
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45168):
CGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCTAGGGGGGTGGATCACCTGAGGTCAGCAGTTCAAAACCAGCCTGGCCAACATGAAACCC
Y
GTCTATTTTGTACTAATTTTGTACTAAAAGTACAAAAATTAGCCAGTTGTGATGACGGGCGCTTGTAATCCCAGTTACTCAGGAGGCTAAGGCAGGAGAA
Celera SNP ID:            hCV1400353
SNP Position Genomic:     15815
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45169):
AATAACATGGTGACTATTTGTGTATCTAAACATAGTTAAACATTAAAAAGATACAGTAAAATACAGTATAAAAGATGAAAAAATGGTACACCTGGCCAGG
Y
GTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCTAGGGGGGTGGATCACCTGAGGTCAGCAGTTCAAAACCAGCCTGGCCAACATGAAACCCC
Celera SNP ID:            hCV1400354
SNP Position Genomic:     15715
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45170):
TCAACTCACAGACACTCTTGCTTTATCAATACCTCTCCACACTCCCCCATATGCCTGGATTGTTTTGAGGAAAACCCCAAGCATCATCTGTAAATGTTTC
M
GTCTATACAGTCATGCATCACTTAATGACGGGATATGTTCTGAGAAATGCATCACTAACGACTTCATCCTTGTAGGAACATCATAGAGTGTACTTACACA
Celera SNP ID:            hCV1400355
SNP Position Genomic:     15404
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45171):
TTAGTCCATTTTGTCATTATGTATCTGTATTAGTCCATTTTCATGCTGCTGATAAAGACATATCTGAGACTGGGTAATTTATAAAGAAAAAGAGATTTAA
Y
GGACTCACAGTTCCATGTGGGTGGGGAAGCCTCACAATCATGGTGGAAGGTGGAAGGCACTTCTTATATGGCGGTGGCAGGAGAGAAAATGAGAACCAAG
Celera SNP ID:            hCV1400356
SNP Position Genomic:     11148
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45172):
CTAAGAACAGAAAAAAATGAATTTTAAAAATAAAGTGTGGCCAGGTACAATGGCTCATGCCTATAATCCTAGCACTTTGGGAGGCTCAGGTAGGAGGATG
R
TTTGAGCCCAGGAACTTGAGACCAGCCTGGGCAACATAGAGAGATCCTGTCTCTACCAAAAAAAGAAAATGTTAAAATTAGCCAGGCATGGTAGCATGTA
Celera SNP ID:            hCV26555510
SNP Position Genomic:     9946
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45173):
CCAGAAGGCAGTGCAACAATATCTTGAAGAATAATAATTACAAAAACTTTGAACCAAGAGCTTCAAGGCCCTGTGCATAGCCTGTCCTCAGCCTTCACTC
Y
AGCCTCATCTCACCCACTCTCCCTCCTACTCTCTGCATTGCAGTCACCAGGACCTTTGTAGTCACTGTTCCCTCTGCTCAGCAGGCCTTCCCCTCCTCTG
Celera SNP ID:            hCV1400357
SNP Position Genomic:     10865
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45174):
CCAAATATGGTGAAAGACATACAATTACAGATTCAAGGTCATAGAACATCAAGAAAAACTAATACAGGCTGGGCCTGGTGGCTCACACCTGTAATCCCAG
Y
ACTTTGGGAGGCTGAGGCAGGCAAATCACCTGAGGTCAGAAGTTCAAGACCAGCCTGGCCAACATGGTGAAATCCCATCTTTACTAAAAATACAAAAATT
Celera SNP ID:            hCV1400358
SNP Position Genomic:     10353
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45175):
CTTCTCACTTCACATACTCTATGCATGGAGCAAGTCCTATCAGTGTTACCCCCTAAAGGAGTCTCTGAAATCCAAGCACTTTGCTGCACCCCCATTGCGA
M
CATCTACTCCAAGCTATCATCATGTTTCATGCAGACTTCAGCAGTGATTTCCAAACTCATCTCCATTCATTCTGGTCTCCTCTCCACACTGCTTCTAAAG
Celera SNP ID:            hCV1400359
SNP Position Genomic:     8391
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45176):
GCATTGAATCTATAAATTACTTTGGGCAGTATGGCCATTTTCATGATACTGATTCTTCCTATCCATGAGCAGGGAATATTTTCCCATTTGTTTGTGTCCT
R
TCTTATTTCCTTGAGCAGTGGTTTGTTGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATG
Celera SNP ID:            hCV26555444
SNP Position Genomic:     22311
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45177):
GCTGTAAATACATGATGCAATTCTGTCCGTGTTAGCTTGGTTATGAAACTCTGAGACTATGCTGCCTAGAGACATTTAAAAAAAGGAAAAAAAACTCTGA
K
AGTAAAGGCTAAAAAAGTTATGGTACATCTCTCTGGTGGTTTTATAAGGCAGACACCAATATCTTGTTTTCAAAAGCATATTTAGTAATCATGAAATTTA
Celera SNP ID:            hCV278754
SNP Position Genomic:     35276
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,11)   total(G,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45178):
GCCCTCACTAGGACCTACAATGGGCAAGCACCTCGATTTGGAACTTCCCTGCCTCCACAATTGTGAGAAATCAATGATTCGTTTAAGCCTTTTTTTTTTT
T
AACAGGATTTGAGATTGGTTATATTAACAATGGAAACATGAATACAAAATTAATCCACACATAGGAAAAAAGAATAATACATAAACCACTGAGGTTGCTA
Celera SNP ID:            hCV26555517
SNP Position Genomic:     7394
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45179):
TTAATCTGTCCTTTTGTTTGAAGGTGAATGTTTAAATATTTTGGTTCAAAAATAAAAATGAGATGACAGTTTTAATACTTTATTCTGAATTATGAATATT
S
ATCTTATGAAACTGCAACTCATTGTCTTGATAGCTTATGACAAAGTAAATGCAGAACAGAAATAGAAGACAGGCTTCACACTTAAAAATAATCAGTCTAG
Celera SNP ID:            hCV11646653
SNP Position Genomic:     52803
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45180):
AGCTTTATTCTTTTTGCTTAGGATTGTCTTGGCTATTCAGGCTCTTTTTTGGTTCCATATAAAATTTAAAGTAGTTTATCCAATTCTGTGAAGAAAGTCA
W
TGGTAGCTTCATGGGGATAGCATTGAATCTATAAATTACTTTGGGCAGTATGGCCATTTTCATGATACTGATTCTTCCTATCCATGAGCAGGGAATATTT
Celera SNP ID:            hCV26555445
SNP Position Genomic:     22191
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45181):
AGCCCTCACTAGGACCTACAATGGGCAAGCACCTCGATTTGGAACTTCCCTGCCTCCACAATTGTGAGAAATCAATGATTCGTTTAAGCCTTTTTTTTTT
T
TAACAGGATTTGAGATTGGTTATATTAACAATGGAAACATGAATACAAAATTAATCCACACATAGGAAAAAAGAATAATACATAAACCACTGAGGTTGCT
Celera SNP ID:            hCV26555518
SNP Position Genomic:     7393
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45182):
GACCTGAAAATGGATTTTAATAGTTGCACAGGTTTGCTGATAACAAACAAGAAAACCCAGGCCCTTATCCTCCTGTTGCTTAGAGGAGGTGGCAGCGGTG
K
GCAAGGAGGGCCTGATGGGTCAAGATCCTCTTTGCCCACCGCCCTGCATCACCCTTCACAGTGTTGAAGTTGGAGTTCGCGTGGAGGCCTTTGACTGTCA
Celera SNP ID:            hCV25753901
SNP Position Genomic:     55189
SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,23)   caucasian(G,6|T,26)   total(G,15|T,49)
SNP Type:                 INTRON


Context             (SEQ ID NO:45183):
CTCTAAACACAAATGAAACTCGACCTTTTATTCAAGCATAATAGTAAAAATCTTTGACACCAGAGAGAAATGGAGGTAACAAATGTTCATGCATGCAGAT
K
ACATTTTCATTGTAAAAGGAAGAAAGGGACCATTCAGAAAAACACAAGAATAGTAAAATGAAAATTAGTATGAAACCAACAAAAGATATGAAACCATAAT
Celera SNP ID:            hCV7442391
SNP Position Genomic:     3903
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,0|G,84)   TSC_42_C(T,0|G,84)   TSC_42_AA(T,0|G,84)   total(G,252) 
SNP Type:                 TFBS


Context             (SEQ ID NO:45184):
ATTGGTCTATATATCTGTTTTGGTACCAGTACCATGCTGTTTTGGTGACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTT
R
TTCTTTTTGCTTAGGATTGTCTTGGCTATTCAGGCTCTTTTTTGGTTCCATATAAAATTTAAAGTAGTTTATCCAATTCTGTGAAGAAAGTCAATGGTAG
Celera SNP ID:            hCV26555446
SNP Position Genomic:     22097
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45185):
TACCTTTAAGTCTTTAATCCATCTTGAGTTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAATTTCAGTTTTCTGCATATGGCTAGCCAGTTTTCCTAA
Y
GCCATTTATTAAATAGAGAATCCTTTCTCCATTGCTTGTTTTTGTCAGGTTTGTCAAAGGTCAGATGGTTGTAGATGTGTGGTGTTATTTCTGAAGCCTC
Celera SNP ID:            hCV26555447
SNP Position Genomic:     21885
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45186):
CTTACCCTGACTCAGGTCATGAACTTCAAAAAATATTCATTGAGAAAATATAAACCATCAGGCAGGAGTCTTTTCCTATTCCCATCCATGCGCCTTTCAC
Y
TCTTTGCTTTTTCTTCTGTTATAATGGATGAAATATCTCTACCCCTAGCAGAGAACACTTTCTCTCACCTTCTCCAGGACTCCCTTCCATCAGTTCTCTT
Celera SNP ID:            hCV1429329
SNP Position Genomic:     75189
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:45187):
CTGCATCACCCTTCACAGTGTTGAAGTTGGAGTTCGCGTGGAGGCCTTTGACTGTCAGGAATGGGCCGAGGGCCGAGGGCGTCACATCAACAGTGCTTTT
S
TCATTTACAATGCTGCTGATGATAAGGAAAATCTCATCACGTTTCCCAGAATCCAACCCATTTCAAAGGTCAGTTATTATCACACGAGGTTCAATAGCCG
Celera SNP ID:            hCV25755257
SNP Position Genomic:     55333
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,36)   total(C,71|G,1)
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45188):
ATTAACCTGAATTTCGCATGCATGAAAATTATCAGCATGATAAGGTGGAACTGCTTTATGGCATGCATTTAAGTAATCTTTAAGTCTTATCTGAAATGAA
R
TGTGCTAAAACTACTGAGGTTTTTTTGTTTGTTTTTCCCTAGAGTTGGACAAGTTATAACCATCAAAGCAAAAGTTACTAGAGCATTCAGCACAAGCATG
Celera SNP ID:            hCV25751766
SNP Position Genomic:     28293
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:45189):
GCAATTCTGTCCGTGTTAGCTTGGTTATGAAACTCTGAGACTATGCTGCCTAGAGACATTTAAAAAAAGGAAAAAAAACTCTGAGAGTAAAGGCTAAAAA
A
GTTATGGTACATCTCTCTGGTGGTTTTATAAGGCAGACACCAATATCTTGTTTTCAAAAGCATATTTAGTAATCATGAAATTTAAAAGAGCTTTCATATA
Celera SNP ID:            hCV26555481
SNP Position Genomic:     35292
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,7)   total(A,4|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45190):
TCAGTATTATATTGGCTGTGGGTTTCTCATAAATAGCTCTTATTATTTTGAGATACGTTCCATCAATATCAGTTTATTGAGAATTTTTAGCATGAATGGA
Y
TGTTGAATTTTGTTGAAGGCCTTTTCTGCATGTATTGAGACAATTATGTGGTTTTTGTCATCGGTTCTGTTTATGTGATGAATTATGTTTATTGATTTGT
Celera SNP ID:            hCV29164492
SNP Position Genomic:     22857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45191):
ATCCTGCCAGTCACTATGTCACCTTCTAAGGCCGTTTCCTGATGGGAATGAAATGGGAATGATAATGCCCACCTCATGGGGTTACTGCTCAGTGAATGAC
R
TGTTGTTAGATTATGATACAAAGCGTTTAGCATGGTGCTTTTTTTTTTATTATTATTGTACTTTAAGTTCTGGGGTACATGTGCAGAACGTGCAGGTTTG
Celera SNP ID:            hCV11649706
SNP Position Genomic:     20612
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45192):
TTCTTGTGTTAGTTTGCTGAGAATGACGGTTTCCAGCTTCATCAATGTCCCTGCAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTACATG
R
TGTATATGTGCCACATTTTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAACAGTGCCACAATAAATATACG
Celera SNP ID:            hCV11649707
SNP Position Genomic:     21016
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,7)   total(G,7|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45193):
ATAACAAACAAGAAAACCCAGGCCCTTATCCTCCTGTTGCTTAGAGGAGGTGGCAGCGGTGGGCAAGGAGGGCCTGATGGGTCAAGATCCTCTTTGCCCA
M
CGCCCTGCATCACCCTTCACAGTGTTGAAGTTGGAGTTCGCGTGGAGGCCTTTGACTGTCAGGAATGGGCCGAGGGCCGAGGGCGTCACATCAACAGTGC
Celera SNP ID:            hCV25754493
SNP Position Genomic:     55228
SNP Source:               Applera
Population(Allele,Count): african american(A,8|C,26)   caucasian(C,40)   total(A,8|C,66)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:45194):
AAGCTGTAAATACATGATGCAATTCTGTCCGTGTTAGCTTGGTTATGAAACTCTGAGACTATGCTGCCTAGAGACATTTAAAAAAAGGAAAAAAAACTCT
S
AGAGTAAAGGCTAAAAAAGTTATGGTACATCTCTCTGGTGGTTTTATAAGGCAGACACCAATATCTTGTTTTCAAAAGCATATTTAGTAATCATGAAATT
Celera SNP ID:            hCV26555488
SNP Position Genomic:     35274
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45195):
CTGCCAGATAGCGAAAAATCTCTTAATTTACCCAGATGTCCTAATTAATTGTAATCTTGTAATTTGTGTCCACACTATGGGAATCCTAAGGTCATCCTTT
S
GGATCATCTATTCCAGAAGGTCCCCCAGAAGATTAGGGTCTTAGCCTCCCCTACACCAGCAAGACTCAGATCCTTTCTTGAAAAAGCTCCAAGTCAATAA
Celera SNP ID:            hCV25757079
SNP Position Genomic:     69674
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,2)   caucasian(C,39|G,1)   total(C,73|G,3)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,37|G,1)   total(C,73|G,3)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45196):
AAAATCATGTTTTTTCCAGGTTTTCAATATAAATTAGATGGTAAAAATTTAAGATTGTAGTATATGTGATGAAATTGGATAGGGCTTATGGTTTTAATTC
R
TTTCATGTTTCATGTATAATGATAGAATTAATTGTAGTAGTAATACAAGGAGCAAAATGTATATTTTGGAAACATCACACAGGTATGTGAAACAGCTGAA
Celera SNP ID:            hCV437547
SNP Position Genomic:     60534
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45197):
TACAAAGCGACCTTTGTGGGACCCCCATTTTGTGTAAGAACAAATTTAAAAATTTTTCTCAATCAACCTTGACATAATGTAAAAGATGATCTCCATACTG
M
AGTCCATCTCCATCGTCCAATGTGTGACCCATTGTTTAAAGAGTATTTTTAGAAGTTTGACCCAGCATAGCACTTTGGGAGGCTGAGGCAGGTGGATAGT
Celera SNP ID:            hCV25750248
SNP Position Genomic:     64652
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,1)   caucasian(A,22|C,2)   total(A,29|C,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:45198):
TATAGGAAACAGACCAGAGGGGAGCTATTCTCATGGAGCCGGGGGAGGGGCTGGGCCCAGAGCTCCGCCCTTCCGACCCCCACCCGCTTGGCCCCCGTGG
K
CATCTCCAGATACCTCCAGGGAAAATGAAGGCTCCCCTAGGCTTCTGTAAAAACCACTTTTGCCCTCTTTACCACAGTGTAGTCTCCATAACATATTTGT
Celera SNP ID:            hCV27912
SNP Position Genomic:     61094
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45199):
TTTATTTGTGAATCTTTTCCAGGGTTTACTATCTCTGGAGTGGCACCCAACTCATCTAGTTGAGCAAGTCAAAAGTCTAGGAGTCATCCTTGATATTTCT
S
TCTCCACCTTACTTCTCACTTCACATACTCTATGCATGGAGCAAGTCCTATCAGTGTTACCCCCTAAAGGAGTCTCTGAAATCCAAGCACTTTGCTGCAC
Celera SNP ID:            hCV1400360
SNP Position Genomic:     8279
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45200):
AAGACCCCACTGCTCGGGGACATGGTATTTCCCAAAATATTGGCAGGTAGCGTGCAGACCTACCCTCAACCCACATAATCCAGTTATTTATTTCAGTCAA
M
TTTAAAGAAATGCTTATTTGAAGACTTGTCTGTGCATTTGTTCGATGAATGAATGTGTGATCGCTTTCTTCTCTCTCCCTCCCTTTGTCTCCCCAGCCGC
Celera SNP ID:            hCV25752898
SNP Position Genomic:     54212
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,34)   total(A,69|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:45201):
GTTTTTTATTTGTGAATCTTTTCCAGGGTTTACTATCTCTGGAGTGGCACCCAACTCATCTAGTTGAGCAAGTCAAAAGTCTAGGAGTCATCCTTGATAT
Y
TCTCTCTCCACCTTACTTCTCACTTCACATACTCTATGCATGGAGCAAGTCCTATCAGTGTTACCCCCTAAAGGAGTCTCTGAAATCCAAGCACTTTGCT
Celera SNP ID:            hCV1400361
SNP Position Genomic:     8275
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45202):
CCCATTATTTTTCCAGTCCCTTAAGTCTAAAGTCTTGAAGCTATCTGAGTAATCCTCTATCTCACACGTCCATGTATTATTTTGGAACATCTCACACACA
Y
GGTTTTTTATTTGTGAATCTTTTCCAGGGTTTACTATCTCTGGAGTGGCACCCAACTCATCTAGTTGAGCAAGTCAAAAGTCTAGGAGTCATCCTTGATA
Celera SNP ID:            hCV1400362
SNP Position Genomic:     8173
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45203):
TAGTAAGAAGGTAAATTTAGAAGATTTTTATTCTGCATCCACTTGATTTTATTTTCTCTACCATTGTGAATACTGGATTCTCAGGGGCTCTTGAGATCTC
Y
ATTCAGGTTAAATTAGCAGGAAAGGAGTTGCTGGATCTCATATTGTACCTCCCAGGTTGCTCAGGATCAGTCCCTTCAATCTCTGGGCATGAAGACATGG
Celera SNP ID:            hCV27931768
SNP Position Genomic:     29232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45204):
TGTTGTCTTTTTCCATTATCATTAACCTGAATTTCGCATGCATGAAAATTATCAGCATGATAAGGTGGAACTGCTTTATGGCATGCATTTAAGTAATCTT
Y
AAGTCTTATCTGAAATGAAATGTGCTAAAACTACTGAGGTTTTTTTGTTTGTTTTTCCCTAGAGTTGGACAAGTTATAACCATCAAAGCAAAAGTTACTA
Celera SNP ID:            hCV25751197
SNP Position Genomic:     28273
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,38)   total(C,2|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:45205):
AAACTGCAACTCATTGTCTTGATAGCTTATGACAAAGTAAATGCAGAACAGAAATAGAAGACAGGCTTCACACTTAAAAATAATCAGTCTAGGTTGGGCA
K
GGTGGCTCACACCTATAATCCCAGCACTCTGGGAGGCCGAGACAGGAAGATTGCTTGATGCCAGGAGTTCAAGACCAGCTTGGGAAACATAGCAAGACCC
Celera SNP ID:            hCV28947696
SNP Position Genomic:     52912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45206):
TAATTTTTTTGTTGTCTTTTAGATAAAAATATATACTCTGGAAGAGCATGATGTTTTATCTGTTTGGGTTGAAAAGCACGTGGGAAGTCCAGCACATTTG
R
CTTATCGTCTCTTGTCTGACTTTACAAAGCGACCTTTGTGGGACCCCCATTTTGTGTAAGAACAAATTTAAAAATTTTTCTCAATCAACCTTGACATAAT
Celera SNP ID:            hCV7439646
SNP Position Genomic:     64529
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,23)   caucasian(A,3|G,27)   total(A,10|G,50)
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;POOLE|_CEPH(G,37|A,151)   total(G,37|A,151)
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45207):
GTTTCCGCAGGAGGCCACATTTCCATTCTGAAGGTAGTGTTTCAAGCTTCCTGGTGTCTCTGGTCCTTTGTAGCTCAGATTCCTTTATCTTTAACAACTT
Y
ATTGTGGTGTAATTGACAAACAATGAATGGCCCATATTTAAAGCATACAATTTGATAAGTTTTGAAGTAAGTTTACACCTGTGAAAACATCACCACAATC
Celera SNP ID:            hCV28947697
SNP Position Genomic:     51910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45208):
GAGTAAAAACCAATTTGTTAGTAAACGGAGCAGATATGATTCAAAAGAAGCAGAAAGCTAGGCGCGGTGGCTCACGCCTGTATTCCCAGCACTTTGGGAG
S
CCGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAAACCATCTCTACTGAAAATACAAAAATTAGCCAGGCGTGG
Celera SNP ID:            hCV28947698
SNP Position Genomic:     51495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45209):
AGGAATAACAATGCCTAAACTTTGGTGTTATGCTTTAAAAATGTTTCTCCCACTATCTCTATGTCACTTGACATTCCAGCCAAATTGAAGTTGAACAAAT
K
GGGGAGTGAATGAATGAATTCTAATCCAACTAACTTTTCTTGTACATGTACTATGATTCAGGTACTATGCCAGGTGTTTTCACTGAATCCTTGCAATAAC
Celera SNP ID:            hCV29226474
SNP Position Genomic:     66799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45210):
CACATGCATATATACACACACGTATTTCATGTCATATGTATGTAATATAAAATGTGTGTATATATTATGTAATATGATATTATATATGTGTATGTATTAT
R
TGATATGTATGTGTATATATTATATATCATATATGACATCATATATATCATATACACTTATATATCATATATGATATATAGAAAAAGCTAGAAGAAAATT
Celera SNP ID:            hCV26555451
SNP Position Genomic:     35858
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45211):
ATTCTGAGAGAAGAGGAACACTTCTCAATTTTCTTGCATCAATTTAGTAGATACTCTACCAGTACAAGCTTTTAGGAATAACAATGCCTAAACTTTGGTG
W
TATGCTTTAAAAATGTTTCTCCCACTATCTCTATGTCACTTGACATTCCAGCCAAATTGAAGTTGAACAAATTGGGGAGTGAATGAATGAATTCTAATCC
Celera SNP ID:            hCV29226475
SNP Position Genomic:     66726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45212):
ACACCAATGAAACTCCTTCAACTCCCCCTGTGCTGGGGGCAAAGTTAGGCATGCCCATGCTAAGTAGGGTGTGTCTCACCAGCCACCTGGAGCCCCATCC
S
TAGTTTTCTTGGTGTTTGATAAGTGCTCACAGCCTCAGTCATGTCTTCCTTTGCAGGCTGGATTTAAAGGGAGGCTTGGAACCAAGTTCAATTGGAGAGG
Celera SNP ID:            hCV29226476
SNP Position Genomic:     63312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45213):
CACGGTTTCATAGGAGCTGCATGTAATCTCAACAGAGCAGAAAGCTGCAACTCTGAGTAGGAAAGAAATTTGCTAAAGATCATATGGGGTATGAGCAGAG
R
CTTAAGATCCTGCTCCTGTTGCCTGGTGCTTTCCACAATCACCCTGCGTTTTATGAGCCACACTTCCTTAGTTCTCTGGCAGTGATTTCCTGGGCTCTTT
Celera SNP ID:            hCV463600
SNP Position Genomic:     40602
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45214):
TAATTACATCTGCAAGAGCCCCATTTCCATATAAGGTCAGATTCTGAGGTACAGGAGGTTGGGGCTACAGCATATGAATTTGGGGGTGGAAGGGTAGAGA
M
ATAATTCAACTCTTAATAAGTGCTCAGCACAATATTGCATCCCACTCCATCTTGTTCCACCAGAATGGAGCATGGCTGCCCCAAGGGCAGATTAGGACTG
Celera SNP ID:            hCV29226477
SNP Position Genomic:     62977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45215):
CTGTAAGGGCAGAATTCAGTGGTGGTTACAACTTAGCTTGATGTTTGGTTTGGCTCCAGGATAGGAAGCAGAAGCATGTGACTGCAACCTGGGGAGCAGC
M
CCCCCAGAAAAGTGCTGTATTAGTTTCCTAGGGCTGCTATAACAGAGGACCACAAACTGGGTAGTGGACACATTAGAAATCTATTGTCTCACAATTCTGG
Celera SNP ID:            hCV29226478
SNP Position Genomic:     62506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45216):
TTGAACCTGAGAGGCGGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGCAACGAGAGCAAAACCCCATCTCTAAAAAAAAAAAAAAG
R
TTTTAATACTGCATTTTTACTGCATCTTTTCTACATTTAGCTATGTTTGGATACACAAATACTTACCATTGTGTTACGGTTACCTACAGTATTCAGCACA
Celera SNP ID:            hCV26555457
SNP Position Genomic:     19079
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45217):
ATTTAAACTTGCACAAATGTAATTTTTAATTTCAGCCTGGAGGTGAGTATGGGAACTACTTTAGTGAAATTCCATTTTTTTCATGCAATTTTCAAAATCC
R
TGAACATATTTTTAACCCTTTGTTCTGCTTGGGGCCTTTTCACAATTAGTAAATTGTGAAGGACTGGTTTTTGTCTTATAAGGGTAGCCGTATGTCCCAA
Celera SNP ID:            hCV25759040
SNP Position Genomic:     54560
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,36)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:45218):
TAGTGCTGAGCTGTGCCTGAGATAGCTCATTATTTTCAGAAGATAGTATTACTCATCTGAAATATGTAGGGAAAAGGTTTATTAGCCAGAATCTAAAGAC
R
AGTACCTGAGTTTACCAACACTTCTGCGAAGTGCAATCCTGAGGACCAAGCTTCAGCGCTCTTCACACAGGGGGAAATCTAGCCCATTTTAGTATCAACA
Celera SNP ID:            hCV1400331
SNP Position Genomic:     35020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45219):
GATTTGGATTAGCATTAAAAGAGCTTTAGAATTCTGTTGTAAGTCATCTGTGGCTCTGCCTCTTCCAGGGGCACAGATAGTGGAAAATTGCCTGTATGCA
R
TACTATGTGTTCTATAAAATGGCATGAATTTAGTTTAAATTATCGTAAACATTTTTAGGTTACAGAGGTGAAACATGCATTCTGTGTGAAATTCCAAAAA
Celera SNP ID:            hCV390673
SNP Position Genomic:     70225
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:45220):
AAGCTGTTCTTGTCTGGGGTTTCACCCTGTATATGGTCCAGTTAGTATCAACCCAAAGACTCACAGGCATATTTCTGGAATTCTTTCTCTTTTTTTTTAG
Y
TTCCTTCTCTGGTACTCTAACCCACAAATTTTAGCTCCATTCAATTCAGCAGAGTTAGGTTTTTCTTCTCTAACCTAACCGTAAATTACCTTCAGCCTGA
Celera SNP ID:            hCV1400332
SNP Position Genomic:     34269
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45221):
TTTCCTGTCTTTTGTGCTCTCTCTCCTTTTGGACTTTATAGAGTTTTAGACTTCTTGTTAGTGTTCCACGGGTCACTGATACTGTTCGTTTTTCTTCTTT
Y
AGTCTTCCTTTCTCTTCATGCTACATTCTGTGTAGCTTCTTTTGTCATCTTCAGCTTCACTGACTTTTTCCCCTGCATTAACTAAACTGCTGTTAATCTT
Celera SNP ID:            hCV1400333
SNP Position Genomic:     33277
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45222):
AACGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCATGGTCAGCTAATTTTATATTTTTAGTAGAGATGGAGTTTCTCCA
Y
GTTGGTCAGGATGGCCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTG
Celera SNP ID:            hCV390674
SNP Position Genomic:     68998
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45223):
GAGGTCACGTGTTACATTGGCACAGATGCTAGAGTTGAAATGGGAGGAGTTCCCTTATCCTCCTCATAGGGCCTGCGACAAGGGTGTGGCTTGTTTCTTC
S
GTGCTGCTCAAACCCCTAGAGGGATCATGCAGACGCTTAAGTCGCTTAAGTCGTGGGGAGTGTTTTTGAGCTCTGACCCCACGGCAGCATCTAGGGTTGA
Celera SNP ID:            hCV390675
SNP Position Genomic:     65883
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45224):
TCATGTCGCACACTATCTCTGCAAAGTCTCTTTTCTGTTTAAATATTGGTGGTCCGCTAACACCATAAGTGTGGTTTACAGTTATCGGCCTTTGTTTTTA
R
GTGTTGTCTTTTTCCATTATCATTAACCTGAATTTCGCATGCATGAAAATTATCAGCATGATAAGGTGGAACTGCTTTATGGCATGCATTTAAGTAATCT
Celera SNP ID:            hCV25750436
SNP Position Genomic:     28171
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:45225):
TTTTTATTTATTCTAACAATCTCTGCCTTCTACCTGGAGTATTTAAACTATTTACATTTGATTATCTATATGGTAGAGTTGAAATCTATCATCTGGCTGT
Y
TGTCTTCTATTTCTTCCATCTGTTCTTTGTTTCTTCCTGTCCCCATCTTTTCCTGCATTTTTTAGAGCAGAGTAATTTTTAGTAATCCATTTTATCTCCA
Celera SNP ID:            hCV1400334
SNP Position Genomic:     32455
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45226):
TCAGTTTCCTGCCACAACTGAGGCCAGCCCTCTGCTAATTTGCTGAGCAGAAATAAATGACTGACTTCTCCCTGAATCCAAAGCAAGCAGGAACTCTGCT
S
TGTGCCAAACCTACTTCCAGGGGATTCTCAGACTCTACTGATCAGTCTCTTCCCTCTTCCCACCTCTGGAAGGTGTGTGATGCATTACTATTAATAGATG
Celera SNP ID:            hCV1400335
SNP Position Genomic:     30835
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45227):
AGTACAGAGCTGTGCACCCTGCCAACTGCACTGACAGAGACCAGCTGCACTGGGGCCCAGCCACCTTGGCTATAGCACCCCGCAGGGCTTCATGGCCCAC
Y
TTGTTGACACGGAAGAGTTGATGAGATGGGCTTCCTATGTGTTAAGCGTTTCCTAATCTTGACAAGATAGAGGCTCATCTTCAAATTTTCTAAAACTCAC
Celera SNP ID:            hCV390676
SNP Position Genomic:     65618
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45228):
GACTGGCACTATGGAGTTCACCCTGGCCACCTGCCCTCAGCTCCTCTGAGATTGCAGAGCCCCAGCAGGCCATCCTAGAGCCACTTACCTACCAACCACC
R
ATTGGATGACTGATGAATCTGATAATCTCTCTGGATATACACCAATGAAACTCCTTCAACTCCCCCTGTGCTGGGGGCAAAGTTAGGCATGCCCATGCTA
Celera SNP ID:            hCV390677
SNP Position Genomic:     63173
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45229):
AACTGTGGGGCTCTTAGCCTTTGCACACAGGAGCCTCTGGGCTTGGCCTGTCTCCTGAGGGCCACACATTCTCCTGATAGACAGTCCAAATATAGATAAA
W
CCTCCTTTACATTTCTCCTTTTCCTCCTCTTCCCTAAGACAGGCTAGAATTTCTAAAGGAGGCTTATCTAAAAGCTAAGAAAACAAAAGTAAAACCCAGT
Celera SNP ID:            hCV1400336
SNP Position Genomic:     30373
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45230):
CGGGGGAGGGGCTGGGCCCAGAGCTCCGCCCTTCCGACCCCCACCCGCTTGGCCCCCGTGGTCATCTCCAGATACCTCCAGGGAAAATGAAGGCTCCCCT
R
GGCTTCTGTAAAAACCACTTTTGCCCTCTTTACCACAGTGTAGTCTCCATAACATATTTGTCAATAGATGGTACAAAAATTCTCAAATTTTTAGTTGTTT
Celera SNP ID:            hCV11645290
SNP Position Genomic:     61133
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45231):
TCTGATAAAAGATGTTTTTGAAGAGTTTTCCTCCTCTTCTCTCCCACGTTTTACAGCTTATATGTTTTTAATTTCAAAATATGACTCTAATTTTTTTCTG
Y
CACCTTTTAGTGGAATAATTCTTACAACACAGTTGTCTGTTAAGAATCATACTTTTGGGCCAGGCTCAGTGGCTGACGCCTGTAATCCCAACACTTTGGG
Celera SNP ID:            hCV505264
SNP Position Genomic:     59618
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45232):
TCCTGGTGTCTCTGGTCCTTTGTAGCTCAGATTCCTTTATCTTTAACAACTTTATTGTGGTGTAATTGACAAACAATGAATGGCCCATATTTAAAGCATA
Y
AATTTGATAAGTTTTGAAGTAAGTTTACACCTGTGAAAACATCACCACAATCAAGATAATGACATATCCATCACCCCCAACATTTCTGCCCCTTCCTGTC
Celera SNP ID:            hCV390678
SNP Position Genomic:     51958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45233):
TTCAAACATCTGCCTGTTGGTGCTCACTTCTTCATTGTTTACAAAGGGTAGAGCAGGAGGCCTAGACTAATATTTGGAGTTAGTGAGATTCTCTATTTCA
S
AAGGCTCTGGAATGTGTAGTCAGGTCACAGGTAAATAATAAGCAGCAGATGTTTCCACTGTTTCCCAGCTAAAATTCAACATGGCCAGGCATGGTAGCTC
Celera SNP ID:            hCV1400337
SNP Position Genomic:     28511
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45234):
GGGAGCTATTCTCATGGAGCCGGGGGAGGGGCTGGGCCCAGAGCTCCGCCCTTCCGACCCCCACCCGCTTGGCCCCCGTGGTCATCTCCAGATACCTCCA
R
GGAAAATGAAGGCTCCCCTAGGCTTCTGTAAAAACCACTTTTGCCCTCTTTACCACAGTGTAGTCTCCATAACATATTTGTCAATAGATGGTACAAAAAT
Celera SNP ID:            hCV11645291
SNP Position Genomic:     61113
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45235):
GGCCTTTATTAGCAGGGTTTAAAGAGAACCAAAACTAACTACTGCATTTCCTTGTCTGCTTTGTTTGCATCAATATCATTGATTTATACAGCAGGGCAAC
R
GGGACTTTCTGCTACCCTCACCTTCTAGGGGAAAGATCAAAATCGAATTTGCTCATCCAGTACTGTACCTGACATTGGATAAGTCAAGTGAGCTCTGTAA
Celera SNP ID:            hCV11760570
SNP Position Genomic:     62311
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45236):
GAGTTCAAGACCAGCCTGGCCAACATGGTGAAAACCATCTCTACTGAAAATACAAAAATTAGCCAGGCGTGGTGGCACGCACCTGTAAGCCCAGCTACTC
R
GGAGGCCGAGGCAGGAGAATTGCTTGAACCTGGGAGGCTGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGATGACAGAGTGAGACTG
Celera SNP ID:            hCV390679
SNP Position Genomic:     51624
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45237):
TTTAAATATTGGTGGTCCGCTAACACCATAAGTGTGGTTTACAGTTATCGGCCTTTGTTTTTAAGTGTTGTCTTTTTCCATTATCATTAACCTGAATTTC
S
CATGCATGAAAATTATCAGCATGATAAGGTGGAACTGCTTTATGGCATGCATTTAAGTAATCTTTAAGTCTTATCTGAAATGAAATGTGCTAAAACTACT
Celera SNP ID:            hCV1400338
SNP Position Genomic:     28208
SNP Source:               Applera
Population(Allele,Count): african american(C,24|G,12)   caucasian(C,16|G,18)   total(C,40|G,30)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45238):
ATAGGTTTGAGAGAAAAATTTTAGAAAGGAGAAGCTTTGAGCATTGTCATAGACTGATGGAGATTCAGGGAAGAGGCAGAGATTGAAGGCAGAAAAGAGA
R
CAGAGCTGATGAGGCAGAGCCAACAAGGGAGGGGACAGGGCCACTGGAGGATGGGACCAATGGCACAGGTAAAGAAAGAGATTAGGTCTCAAGAGATCCC
Celera SNP ID:            hCV1400339
SNP Position Genomic:     27557
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45239):
TAGAGATGGGGTTTCACCATGTTGGCCAGGATGATCTCAATCTTCTGACCTCATGATCTGCCCACCTTGGCCTCCCAAAGTGCTAGGATCGATCACAGGC
R
TGAGCTACTGTGCCTGGCTGATGTGTTCACTTTCTAGCAGTATCCAAATAAGCAGAATACAAAGCACTTGAAGAAAGCAGAAAGGAAATGTCGTGAAGAA
Celera SNP ID:            hCV27870566
SNP Position Genomic:     30130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45240):
AGTTGAGTCCGGGAGTTCAAGACCAGCCTGGGCAACATGGTGAAAGCCCATCTCTATAAAATACACAAAAATTAGCTGGACATGGTGGTGCATGCCTGTA
R
TCCTAGCTACCCGGGAGACCCAGGTGGGAGGATTGCATGAGTCTGGGAGGTCAAGGCTACAGTGAGCCAAGATCACACCACTGCACTCTAGCCTGGGTGA
Celera SNP ID:            hCV9359699
SNP Position Genomic:     64850
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45241):
CACTGGCATTGAGAAGCTTGTTAGTGTGGCTTTCTCCACATTTGTAGCCAAACCAGTTGGAAAAGAAAAGGTAAATTTTGTATGTGAAGATGTATCTAGC
R
TGTAATTCAGGGACATAGTAACAATTGCATCAGAATGTTATAGAAAAAAATGACACTTCTTCTTTCCATGAGATATACTTCCCCAAGATTTGTTATTCAC
Celera SNP ID:            hCV25754723
SNP Position Genomic:     36388
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,34)   total(A,65|G,1)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:45242):
AAGTCTTGACTCTTTCCCTTTATTCATTAAGAGCCTATGGATTTTCATGTACTTGATGTGTTACAATTCATCCATGTTATTCTTCTTCTTTTTTTTTTTT
T
GAGACAGAGTTTTACTGTTGTCACCCAGGCTGGAGTGCGATGGCGCAATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTC
Celera SNP ID:            hCV26555469
SNP Position Genomic:     17343
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45243):
AGTGTAAAGTGGTGCTGTGTTGTAGGACCCCAGGGGATCTGCAGCTGCAAATGCAGCTCCTTTGTGAAGAAATGACTTTAAAGCCAGCTCCCAAGAATTT
Y
CACAGAAAAAGATCCAAGCAATATGAGATCCTAGTGAAAAATCATAAAAGATAGAAATAAAGCAAGGCTTCAAGATCTGGAAGTGACACCAGGCCCCACA
Celera SNP ID:            hCV390680
SNP Position Genomic:     49560
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45244):
TGTATAAGTCAGAAAAATAAACGATGTTTTTAGGAAGTTTGAATTGAAGAAAAGAAAAGCAACTTGAGATAGAATAGGTTTGAGAGAAAAATTTTAGAAA
R
GAGAAGCTTTGAGCATTGTCATAGACTGATGGAGATTCAGGGAAGAGGCAGAGATTGAAGGCAGAAAAGAGAACAGAGCTGATGAGGCAGAGCCAACAAG
Celera SNP ID:            hCV1400340
SNP Position Genomic:     27484
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45245):
GTTCACTGTGGGTGTGTGAATCTGTTTCTGGGTTCCCAGTTCTGTTCCATTGGTCTATGTGTCTGTTTTTATGCCAGTGCCTGGCTGTTTTGCTTACTAC
R
ACTCTGTAGCATAATTTGAAGTCAGATAATTGTATTAATTTATTTTAAACAAAAAATGTGCCATTTGAGTAAGTAACATTAGCCTGAAAACAACCTCAAT
Celera SNP ID:            hCV390681
SNP Position Genomic:     48762
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45246):
AGTCTCAATGAGATGAACTGGGTACCTCATTTGGAAATGCAGAAAAATCACCCCCCTTCTGCATCGATCTCGCTGATAGCTGCAGACTGGAGCTGCTCCT
R
TTCGGCCATCTTGCCAGCAAATCCCATGGTGCCTGATTTACACACAACATTCAGTAGAGAGTAGTCATTGTTATTAGTATGGCCACACTGAGAAACATTA
Celera SNP ID:            hCV1400341
SNP Position Genomic:     27061
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45247):
ATACTGTATATGTCTTCATAGGAAGTATGTGGTTTCTCTTTAAAGTTATCCCTCAGAAAAGAAGGAGCTGCTTTATATTTGAGTCTTTACAATGTCTCTC
R
TAAGGCCTTCTCTTAATTTTTTATTTATAATTATCTAAAAACTATTTTTAAAGAGATAGTACATGCACAGGGTAAAAAATGCAAAACGCATAAAAAGGCA
Celera SNP ID:            hCV390682
SNP Position Genomic:     47073
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45248):
ATGCTTTTTAACTTGATGTGATTCCGTTTGTTGATTTTTGCTTTGGTTACCTGTGCTTGTGGGGTACTGCTCAATAAATTTTTGTCCAGACCAATGTCCT
R
GAGAGTTTCCCTGATGTTTTCCTATAATGGTTTTATAGTTTGAGGTCTTAGATTTAAGCCTTTCATCCATTTTGATTTGATTTTTGTGTATGGTAAGAGA
Celera SNP ID:            hCV28947564
SNP Position Genomic:     48449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45249):
GCATTTGACAAGATGTATTACATAGTCTAGAGATTTAAATTAGGGAGACATTAAAACATAATGGAATCCAATCAATTTTAGTAATAAGAACAACTTTACT
T
GTGTCATTTAACATATATTCCAGGTGGCTGACCAATTTAGTGTCTATTGCTCTAATAGACACACAAGGTACCTGTAAAATGTAGTATTACAGAGAAAGAG
Celera SNP ID:            hCV26764374
SNP Position Genomic:     70518
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:45250):
TCCCTTGGCTAGGGGAGGGAAATCCCCTGACCCCTTGCACTTCCCTGGTAGGGTGATGACCCACCTTGCTTCGGCTCACCCTCCATGGGCTGCACCCACT
R
TCCAACCAGTCTCAATGAGATGAACTGGGTACCTCATTTGGAAATGCAGAAAAATCACCCCCCTTCTGCATCGATCTCGCTGATAGCTGCAGACTGGAGC
Celera SNP ID:            hCV1400342
SNP Position Genomic:     26953
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45251):
TCCTTTCACATAAAACAACTTTTAACCTAATTCCACTGATCTGATTTTGTTTTTGGAAATTTTACTAACTTCCATGCCAGCAAAGGTGCCAGAGAACTTA
W
AAGCAATTCATCTTAAAGAATGCAAGAGCCAGACTCTGACATTTAAAGCCGCTGTGTAGTATGTGATTTCTCCACCTGCTGCTCCTTAGATCAGATGGAG
Celera SNP ID:            hCV390683
SNP Position Genomic:     46080
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45252):
AATGCAAAACGCATAAAAAGGCATATAGTTAAAAAGTAAGTCTGCCTACCGTCTCACTTCCCACCTTCAGAGACCGTCACTATCACACACACTTCAATTT
Y
TGTGGGTACACAGTAGGTGTATATATTTATGAGATACATGAAATACTGTGATACAAGCATACAAATGTGCAATAATCACATCATGTAAAATGGGGTATCC
Celera SNP ID:            hCV28947565
SNP Position Genomic:     47251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45253):
AGCATTTGACAAGATGTATTACATAGTCTAGAGATTTAAATTAGGGAGACATTAAAACATAATGGAATCCAATCAATTTTAGTAATAAGAACAACTTTAC
T
TGTGTCATTTAACATATATTCCAGGTGGCTGACCAATTTAGTGTCTATTGCTCTAATAGACACACAAGGTACCTGTAAAATGTAGTATTACAGAGAAAGA
Celera SNP ID:            hCV26764375
SNP Position Genomic:     70517
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:45254):
ACAGTCATTCAAATATAGAGATAAAACGATTGCAATTGACTTGAGTTTCAGTGTGTTACAAAGTTGGCCAGATTAGATCTACATCTACATGTCTAGTTCA
W
AGTTCAATTTCAAATTATAGATTTTTCTCAAAGTCTTCTTTTATCATCTGCTTTGTTTAATCTGCCCTAACTTATTCTACATCCTTTCACATAAAACAAC
Celera SNP ID:            hCV390684
SNP Position Genomic:     45898
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,2)      total(A,1|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45255):
CCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCATGGTCAGCTAATTTTATATTTTTAGTAGAGATGGAGTTTCTCCACGTTGGTCAGGAT
R
GCCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTGTTTTTTAATTTAA
Celera SNP ID:            hCV27875007
SNP Position Genomic:     69011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45256):
AATCTCACCTAGCACCTCCCTCTACAGGTTCCAGTATATACTGTATATGTCTTCATAGGAAGTATGTGGTTTCTCTTTAAAGTTATCCCTCAGAAAAGAA
R
GAGCTGCTTTATATTTGAGTCTTTACAATGTCTCTCATAAGGCCTTCTCTTAATTTTTTATTTATAATTATCTAAAAACTATTTTTAAAGAGATAGTACA
Celera SNP ID:            hCV28947566
SNP Position Genomic:     47036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45257):
GAGCATTTGACAAGATGTATTACATAGTCTAGAGATTTAAATTAGGGAGACATTAAAACATAATGGAATCCAATCAATTTTAGTAATAAGAACAACTTTA
C
TTGTGTCATTTAACATATATTCCAGGTGGCTGACCAATTTAGTGTCTATTGCTCTAATAGACACACAAGGTACCTGTAAAATGTAGTATTACAGAGAAAG
Celera SNP ID:            hCV26764376
SNP Position Genomic:     70516
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,2)   total(C,2|-,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:45258):
AAACTCATTCTCCATCCAGTTTTTTTCCCTTCCTGGCACGGAGTTGTGATCCTTTGAAGGAGAAGAGGCATTCTGGTTTTTGGAATTTTCAGCCTTTTTG
Y
GCTGTTTTCTCCCCATCTTCATGGGTTTATCTACCTTTGGTCTTTGATGCTGGTGACCTTCAGATGAGGTCTCTGAGTGGATGTCCTTTTTGTTGATGTT
Celera SNP ID:            hCV1400343
SNP Position Genomic:     25754
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45259):
TAACCCAAACCAGAACTGCGAGCCTGAATTGCTCTCTGAACCTGGGAAAACCCTATTTTTTTCGTTGGTTGTAAATTAACTCCAAATAAGCAAACTTCTG
Y
ACCAAAGTCATCTAACTCAATATATTTCTGCATACGTATCATAGCTGATGCTGGTGCACGTATAATCTCACCTAGCACCTCCCTCTACAGGTTCCAGTAT
Celera SNP ID:            hCV28947567
SNP Position Genomic:     46872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45260):
GGAGCATTTGACAAGATGTATTACATAGTCTAGAGATTTAAATTAGGGAGACATTAAAACATAATGGAATCCAATCAATTTTAGTAATAAGAACAACTTT
A
CTTGTGTCATTTAACATATATTCCAGGTGGCTGACCAATTTAGTGTCTATTGCTCTAATAGACACACAAGGTACCTGTAAAATGTAGTATTACAGAGAAA
Celera SNP ID:            hCV26764377
SNP Position Genomic:     70515
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:45261):
ATGGGTGGCTGCACCGGCTTCTTCTGGTGTTGTGCAAGTTGCACTAATAAGTGAAATCAGCAGCAGACAATTTGTCTGCACAACACTAATAGTACTTTGA
R
TACTGGAGATAGTCTAAATTAGTGACAGGCACACATGACAGTCATTCAAATATAGAGATAAAACGATTGCAATTGACTTGAGTTTCAGTGTGTTACAAAG
Celera SNP ID:            hCV390685
SNP Position Genomic:     45760
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45262):
CAGGCATCTAAGAGAGGATCCAGAAAGACAAACCTACTAAGGAGACCTGGAGGGACTAATCAGAGGGGTGCAGGGAGAGCTGGAGAGAGCAGTGTCACAC
R
CCAAGGCAGCAGAGTTACAAGAAGAAATAGTAAGTGGTCAACTGCGTCCCAGGAAGTGAGGAATAAAACCTGTCTACTGGACTGGGAATCAGGAAGGCAT
Celera SNP ID:            hCV28947568
SNP Position Genomic:     43790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45263):
GCCAGGTAAACATGGGTGGCTGCACCGGCTTCTTCTGGTGTTGTGCAAGTTGCACTAATAAGTGAAATCAGCAGCAGACAATTTGTCTGCACAACACTAA
Y
AGTACTTTGAGTACTGGAGATAGTCTAAATTAGTGACAGGCACACATGACAGTCATTCAAATATAGAGATAAAACGATTGCAATTGACTTGAGTTTCAGT
Celera SNP ID:            hCV390686
SNP Position Genomic:     45749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45264):
TAGATGATGAGTTCAGTTTTAGGCATATGGAGTCTGAAGTGCCTGTGGACATCCAAAAGGAAGAGACCACAGCTGGGGAGATTTCATCTGAGAGACAACT
R
CTTAGAGAAGTAGTTCAAATGAAGACAACCTGCAGCCCACAGGGTGCTGGGCCAAGAACAGAACCTGCAAAGCACAGGCATCTAAGAGAGGATCCAGAAA
Celera SNP ID:            hCV28947569
SNP Position Genomic:     43615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45265):
TTCTGTATGAAACGCCTGTCATGTGCCAGGAACCTGCTTGCCACTAGAGGTATAAAGATGAATAATGCAGGGTCTTTGCTCTTAAGAAACTTGTAGTTTA
K
TGCTGGAGACAGACATATTAATAGTTTCTAAATAATATAGTAAGTGAATAGAGAGCTGTAGACTCTAAGTAATGTGGGAGCCCAGAGGAAGGGCCCTTCA
Celera SNP ID:            hCV390687
SNP Position Genomic:     42834
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45266):
AGAACACACCCCTGTCATTAAACTAGGCATAACTGTAAGTAGATATTCATCATTCCTTTTAGTATCTACATAGTACTCCATTGTGGAGACGCACTACATT
W
TTCAACTGGCCCTCCACTGATGAACATTTATATTGTTTCCAGTCTTTTGCTATTACAAATAATATTTCAATTTGTAGTCTTGTGCAGATGTATGTTTGTT
Celera SNP ID:            hCV11434321
SNP Position Genomic:     19425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45267):
CACTTCCCTGGTAGGGTGATGACCCACCTTGCTTCGGCTCACCCTCCATGGGCTGCACCCACTGTCCAACCAGTCTCAATGAGATGAACTGGGTACCTCA
K
TTGGAAATGCAGAAAAATCACCCCCCTTCTGCATCGATCTCGCTGATAGCTGCAGACTGGAGCTGCTCCTGTTCGGCCATCTTGCCAGCAAATCCCATGG
Celera SNP ID:            hCV27953454
SNP Position Genomic:     26990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45268):
CCCCATCTCTACTAAAAATAAAAAATTAGCTGGGTGTCATGGCGGGCACCTGTAATCTCAGCTGCTTGGGAGGCTTAGGCATGAGAATCACTTGAACCTG
R
GAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCAGCTGCACTCCAGCCTGGGCAACAGAGTGAGACCCTATATCAAAAAAAAAAAAAGAATCATACTTTCC
Celera SNP ID:            hCV26983159
SNP Position Genomic:     60206
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45269):
TGTGCATTTGTTCGATGAATGAATGTGTGATCGCTTTCTTCTCTCTCCCTCCCTTTGTCTCCCCAGCCGCCTGTGTTGGGCTCATCCCTTTCTGAAGTCC
R
TAGATATGTTTAAGTTCCGGGGACCATCTACAGTTGGAGATCGTCTTGTCTTCACTGCCATTGTCAACAATACATTTCAGACCTGGTAAAGTGAGCCCTT
Celera SNP ID:            hCV25750122
SNP Position Genomic:     54343
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,1|G,33)   total(A,2|G,68)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45270):
GTTCTCCTGGATAATATCCTGAAGAGTGTTTTCCGACTTGGTTCCATTCTCCCCATCACTTTCAAGTATACCAAACCAACGTAGATTTAGTCTTTTCACA
W
AGTACTATATTTCTTGGAGGCTTTGTTTGTTTATTTTCATTCTTTTCTCTCTTATCTTGTTTCTCACTTTATTTCATTAAGTTGATCTTCAATCTCTGAT
Celera SNP ID:            hCV26555438
SNP Position Genomic:     25308
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45271):
AGTCCAAGCAGAAAACCCATTCCCCAAAGTCACTGCCATCCCTAGAGCAGGGTTCAGGGGCAGAGAAGGACAGGAGACCCTCCAGTCAAGAAGTTGGCGG
C
CAAAAGCTGAGAAAACCCATCCTGGAATTTTTGCTTAGGGGCTCTGAGTTTAAACTTTGAACCACATCCTTATAAATTTGTATTTGAATTTGGAAACACT
Celera SNP ID:            hCV26555545
SNP Position Genomic:     2438
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:45272):
CAGTCCAAGCAGAAAACCCATTCCCCAAAGTCACTGCCATCCCTAGAGCAGGGTTCAGGGGCAGAGAAGGACAGGAGACCCTCCAGTCAAGAAGTTGGCG
G
CCAAAAGCTGAGAAAACCCATCCTGGAATTTTTGCTTAGGGGCTCTGAGTTTAAACTTTGAACCACATCCTTATAAATTTGTATTTGAATTTGGAAACAC
Celera SNP ID:            hCV26555546
SNP Position Genomic:     2437
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,8)   total(G,8|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:45273):
ACAGTCCAAGCAGAAAACCCATTCCCCAAAGTCACTGCCATCCCTAGAGCAGGGTTCAGGGGCAGAGAAGGACAGGAGACCCTCCAGTCAAGAAGTTGGC
G
GCCAAAAGCTGAGAAAACCCATCCTGGAATTTTTGCTTAGGGGCTCTGAGTTTAAACTTTGAACCACATCCTTATAAATTTGTATTTGAATTTGGAAACA
Celera SNP ID:            hCV26555547
SNP Position Genomic:     2436
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,8)   total(G,8|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:45274):
CTATTACAGTGTTTTGCATGCCATCAGGTTTAAAGAGACATACATCATTTGGATCATAATTTTATCTATTTTCAGAGGTTTTTTAGGAGACCCTCGGAAG
Y
TCATGCCCACAATAACTAGACTGTAAGCTCCCTGAGGGCCGATCTGCTCACCACTACACCCAGACCATAGGAGCGCCTGGCACTTCAGAGATGCTCACTA
Celera SNP ID:            hCV9357671
SNP Position Genomic:     58625
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45275):
CCACCACACTCAAATAATTTTTTAAAAAATTTTTATAAAGATAGGGTTTTGCAAGATTTTGCCCAGGTTAGTCCTGAACTCCTGGCCTCAAGTGATCCTC
Y
CACCTCAGACTCCCAAGGTGTTAGGATTGCAGGCATGAGCCACTGTGCCTACCCTCAAAGAGCTCTTCTAAAGGCAGACTTGAGCAATAATGCTGGCTTT
Celera SNP ID:            hCV9359706
SNP Position Genomic:     67516
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45276):
GGCCCCCACTCTCTTCTGGCTTGCAGGGTTTCTGCAGAGAGATCCGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCTGACCTTTCTCTCTGGCTG
Y
CCTTAACATTTTTTCCTTCATTTCAACCTTGGTGAATCTGACAATTATGTGTCTTAGGGTTGCTCTTCTCAAGAAGTACCTTTGTGGTATTCTCTGTGTT
Celera SNP ID:            hCV29164487
SNP Position Genomic:     25066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45277):
GTAAAGGATTTTATTTCTGCTTCGCTTATGAAGCTTAGTTTGCCTGGATATGAAATTCCGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCC
S
CCACTCTCTTCTGGCTTGCAGGGTTTCTGCAGAGAGATCCGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCTGACCTTTCTCTCTGGCTGTCCTT
Celera SNP ID:            hCV29164488
SNP Position Genomic:     24970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45278):
GTAGATGATGAGTTCAGTTTTAGGCATATGGAGTCTGAAGTGCCTGTGGACATCCAAAAGGAAGAGACCACAGCTGGGGAGATTTCATCTGAGAGACAAC
Y
GCTTAGAGAAGTAGTTCAAATGAAGACAACCTGCAGCCCACAGGGTGCTGGGCCAAGAACAGAACCTGCAAAGCACAGGCATCTAAGAGAGGATCCAGAA
Celera SNP ID:            hCV28947570
SNP Position Genomic:     43614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45279):
TGTCTGCTTGGAGCAGCTGGTTAGCAGTTGTGCCATGAACTGAGATCATGGATCTGAGGGGCAGGGAACGGCAATTTTTGGGAGGTAGATGATGAGTTCA
S
TTTTAGGCATATGGAGTCTGAAGTGCCTGTGGACATCCAAAAGGAAGAGACCACAGCTGGGGAGATTTCATCTGAGAGACAACTGCTTAGAGAAGTAGTT
Celera SNP ID:            hCV28947571
SNP Position Genomic:     43530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45280):
GGGGTGCCGGTGGAGAGCACAATGAGGGAGGGGAGGAAGTGAAGTGAGCCCGCCCAGGCCCCACAAGCTCACCACTGCCAAGAGGGCAGAAGGTTCAGCA
M
CCCTTGGCTCCAAAGGAAGGCACCGGAAGAAGAGGAAGGAAAGGAGAGGACAAGAACATGTCAGAACAAGGATGTCAAAAGAGAAGGAGAAAGAGTGCAT
Celera SNP ID:            hCV11646144
SNP Position Genomic:     40902
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,10)      total(A,1|C,10) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45281):
AGCCACCAACACAAGAGTATTGCTAGAGAGAAAATGCAAGGTAGAGGGAGGCGGGAGAGGAAGAAGGTAGGATTGTGTCATGGAGGCTCCCTGGGCCATG
Y
CGAGAGGCTTGGCCTTTCTTCTGTTCTTGATGGGAGCCATTGAAGGATTTTGAGCAGGGTTGGGGCATGACTGGGTTTGCACTTAATATGGTCACTCTGG
Celera SNP ID:            hCV28947572
SNP Position Genomic:     43153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45282):
TTGTAATCTGACAGTTACATCTAAAAATTGACATGATGAAGGTTTGATTTTGTTTTTTCTTTGAGATGGAGTCTTGTTCTGTCACCCAGGCTGGAGTGCA
K
TGGTGCGATCTTGACTCACTGCAACCCAGGTTCAAGCGATTGTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGGCAGCTGCCACCATGCCCTGAT
Celera SNP ID:            hCV1400350
SNP Position Genomic:     16815
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,5)   total(G,5|T,4) 
SNP Type:                 INTRON


Gene Number:                 227
Celera Gene:                 hCG37774 - 104000117648431
Gene Symbol:                 MTP
Protein Name:                microsomal triglyceride transfer protein (large polypeptide, 88kDa)
Celera Genomic Axis:         GA_x5YUV32W7K2(47612374..47673551)
Chromosome:                  Chr4
OMIM number:                 157147
OMIM Information:            MICROSOMAL TRIGLYCERIDE TRANSFER PROTEIN, 88-KD;MTP


Genomic Sequence (SEQ ID NO:12387):
ATTCAACCTTAACCCAAAGTATAAATTAAATATCCACAAGTCCTTATTGATATAGTGATTAAATAAATCAATTGGAAATTAAAGACAAATTTCCCATGTG
GAGGAATTCAAATAATTTACGTAGCTACTCCACCCTCAAGGAGGAGGAACATAACTCCTCACTCCATAAATGTGGGATGTACATAGCATTTCCTTCCAAA
GAGTGCACTATGAAAAAAAGGGTGAAGAAAAACAATTAACTTTACAATGGAGAAATCTGACAACACTGCTGAGCCAGGTGATCAAAGTCAATGTAAATAG
AGATAAATCATGTTGATATTATGTACCTCTGATGTAATGTGGTATCAAGAAAATAGCACTTTACCTCTGTGGTATTCCTCCTCCAAACTTAACAACCTCA
GTCAAATCATGAGAAAAATACCACAAAAATTCACTAGAGGAATATCTTGCGAAGTATCTGACCATTTCTCCTCAGAGCTATTACAGCCAAGAGGAGCCTA
AAGATACTTGAGAACTAAATGTAATGTACCCTGGATGGGAGATTGGAAAAGAAAAAAAGAATTAGGTAAAAACAAAAGTAACCTAAATAAAGTATGAATT
TTAGTTAATAATATATTAATATTGGTTTATTAATAATAACAAATCAACTACACTAATGTAAGTTATTAACAGAAGTAACTGTGCAGGCTATATGAGAAAT
CTTTGTGTTATTTTAGCAATTTTTCTGTAAATCTAAAACTGTTATAAACAATAAACCTATTTTAAAGTAACATATACATTATACAATGTGAGAAAATATA
ATGGCAAAAAAAGAAAATGCAAGCACAAACTATATTCCGTCTCTCAGGGATAATAATTATTAAGGTGTTCAGTGAATATTGTTCTAATCCTTTTTCTGTG
CTCATATGTATGTATATTGTTTAAACAAGAAATCTCAAACCATATCTACATCTGCTGTTTACCAGACTGCTTCCTTTACTTACTAAGATATGGTAAATAT
ACTATATTTACAAGTTTACATATTTACATATACCAAACTATACAAAATACACACTTTTATAGTATTATTTTAAAATGGCTTCATGGAATTCTGTTGAATT
GATACGCCATAATTTATTGAACTATTTTTGTCATTAACCAAACATGGTATCCAAATTTTCACTATACCACAAAGTTCCTTGTGACACCATTTTTAATGTT
TTTTTTTTGTGCACTTTATGCCTAACTCCACAAGACACTGTTATTAAGAGCCAGTGTGTTTCTCCACCATACTTTCTTTGCTCTTCATCCCTTCTTGCAT
CTCAGATTTTATCTGGGGTCAATTTTTTTCTAATTGAAGCAGATTTTTAAAGATGTCATTTGGAGGAGTCCTTTACTGGTAAATTTTCAGTTTTAGTTTT
TCTGGAAAATCTCTATTTCAAGTTTATACTTAAAAGACATCTTTACAGAATATATATAGAATACTTAATTCACAAGTATTTTCTCTCAGCACATTGAAGA
CAACATTCTAATGTCTCCTAATTTTCATTGATACTGTTAATAATTTAGTAGTTGTCTGCTTCTCTTTCTTCTTGAAAATAATCTGTCCTCTCTATCTAGT
TCCTTTAAATATCTTCTCTCTCTCTCTGATATTCTGCAGTTTAATTATGATGTATCTACTTGTGTGTATGTGTGTTTTAAAAATTATCCTGCTTAAGACT
TATTGAGCCTCGTGAATCTGTGGATTGGTATCTGTGATAGGCAGACAATGGCTCCCCAAAGATCTTAAATGTCTTAATCTCCAGAACCTGTGATAGTCTA
AGTTAAGGTTGTAGATGAAATTAAAGTTACCAATCCACAGACCTCAGGGTAAAAAGATTATCCTGGATTATTTAGGCAGGCCCAGTATAATCACAAGGAT
TCATAAAACGGAAGAGGGAGACAGAAGAGATGGTCAGAGTGATATGAAGTAAAAAGGATTCAGCTTACTCTTGCTGGATTTGTAAATGCAGGAAGGGACC
ACGAGTCAAGGAATGCAGGTAGCTTCTAGAAGCTAGAAAAGGTAAGAAACAAATTCTCCCCTAAAGCCTCCAGAAAGGGATACACCTGCCAATACTTTCA
TTTTATCCCTGTGAGACCAGTGTTAGACTTCTGACCTCCAAGAGTATAAGACAATAAATCTGCTGTTTTAAGCCACTAAGTTTTGTGGTAATTTGTTATG
GTAGCTATGGAGAACTGATACAGTGCCTTTCAATAGTTCTTGGAAATTCTTCAAATATATTCCCCAAATATTGCCTTTGCACCACTCACTCTATCCTCTA
TATCTCTTGACCTCTCTTTAACATTTTTTATTTTCTTATTTTGGTAATTATTTAAAACAATTGGCTTCTTGTTCCACTTCAAATAAATTCATATTTTTAT
ATCTACATATTAAGAATTAGTTCATAAATGTAATTGTTGTATCGTATATACTTTAAAAGGAAAATTGCATTTATACTTGGATATTATTATATTTTAGGTT
TTGAAATTTCTTTTTTTAAATGTCTGATAAATTTATTCTGATCAAAATTAAAATCTTATTGTATTTACAGTAGTCTACTAAAAGAGTTTACATCAATTCT
CTCCTTTAAATGCTAGCAATTCAGTTTTGTGTGGTCAAAGATAATTTAGAATCCTTTTATGGTAACTGATATGATACAAAGGATTTTTTTGGTTGTTGTC
AAATTTGTATGTGCGTATATATGTATAGGGGGTAGAAAATTTGGTTAGTGACTCTATTTTGGAAAAATGAATGTTCTTTTTGGAGTTTTAGATTCCCAGT
GTTTCAAACCAAGTTTGCTTTTGATAAGGAATTCAGTGAATCTTTATTTTCTCGTAGAGAATTTTTAAACAATACCTTTCAAAATATTGTATGTATTCCT
ATATAATTTTGCCTTGGAATAAAAAAAGTCATCACATTAAGAATATTTTTAACTTAAGAAATTTTTTCAAGATTCTTTCAAAATGCTAACTCCCTCATTG
ATTTGAAAATACTTTTAGAGTTTAAACTATTATGACCATGTAGGGATAACTTAAAGTGTCCTTCTAAATTTTTTTTTCATTAATGTCATGCTTCTTTCTA
AGAACAAAGTGTTTCAATGTTATAAACAGACTGTTTTTTCACATAGCTTTCATACATCCTGACTTTCTATATCTAGTAGGGTAATACATTTCCTTCCAAC
CTTTAGTGGGGTGAAGTTCATTTGTCTTCTAATCTAAGAAAATACGTTAACTCCTGACAAYCTCTGACACTCAACAGAAACACAACTGTACTTTGGAATT
AATCATCCATCTTTATTTCATAGTCTCCTTATTTATCAATGCAAATGGAAGTATAGCAAATATTTCACAGTGTCATGTACTACCTAAGGAATTTCATTGC
AATAGCATTGTTTTGAAATGTATCATTTGATTTTGATCTAACTATCATAGATCAGTTTTACCCCTGTATGTTCAGCCTGAATGTCTAACCACAATTTCAC
AAAAATCAAGGGCTCTGTTAGTTTTCATACAAAATTGTGATGACTTATTATGAAGACAGTCCCAATTAACAATTGCATGTCATCTGTAAGAAATCAATTT
TTTTCTCACTCCCCACCTGTAATTTTTTTTAAGCAAAGAAGAATACTTGGGTCTAGGTTTCAAGGTTTATTTTTCTGTAGTCCTAATATCACTTCAGTAA
ATTAATCTGAGACTCATTTTTCTAATATGTCAAATGACTGTTGTAAGGATTATTATAAAAACGTAAGGTGATTAACAAAGTATGTAATTGTTCCATAGAT
GGCAGCTCTTGTTTTTTTACTGTGCTTTGCTTCTGCCCTGCTTCACATATTATGTAAAATAGCTGGTGAGTTTTAGGAGGTAGTGCTCACATGTTTGCAC
AGTGTTTGCTGTGGACGATCAACAGTAACAGAAGAGCATACTTCTTCGATACACAGAGTTTACTGAATTTGGAAAGGCTTTGGCATTCTTATGTCATCTG
TAATGAAACAATCTCCAGAAGTCTTTTCTAAAATGTCCTTGTAAAAAGAAAAAAGTTATGTTTATATTTTATAAAAGGATGATGTTATTTATAACCAGCA
GAAGCAGCCTTATTTGAACATCTTATGTTGAAATTGCTACTTAATACAGTGACTCATAGGAGCTTTCTAGTGGAAATCAAATGCTCAAATGAAATAGAAT
TTAGTTTGTTAGGCAATAGTGATATGTCTTTTATTGGTTGGACTCTGGAAAACACTTGACAACGAATAGTACTTTACCCGAAGGGCACGTATCATGCACC
ACATAGCCTAACCACAAACATTAAAGGTCTTGTAACTGTGAGCCTCAAATGAAAATACATAAGGACAGCTCTCATACAATCAAATACAATACAAACTAGC
TTTTAATTTAAATAAATATGTAAGTAAAGTTCAAGTGACTATAATGATTTTATATCCCTATGTATGTATCACAGAAATTGTGGCAAACTGTAGAAATCTA
TTCAAATGGAAAGTAACAAAGCACTTTCACATTGCCTTGTATTCAAAATCCCTACTCTTCATAAAAACTTATATTTCTTTAACAAAGCTACTTTTCTGTT
TAACTCCCGGAAAACTTCGTATTTATAACTTAAGGGGGTTTCTCCAACCAAACAATTTATTTTTGCTAGGTACTATAGCTATATTTTTTATACAAAATTT
GTGACAGCAAATGAAATTCTAATCCCAATAGAAGAACAAACAATTTTCATGTTTCGATCTTCATATATATAATTCAAGAGGAAATATGCTTAACTTTGTA
GATTTTTACATTTTAAATTGCATTGTGTCTGTATCAAGTCTACTATCTTTTACCTAGATTGTCTGGAAGATTTAAGCTCAAGGTTACGGTTTGAGAAAAG
GGTTTTGAGAGTGACCAGGATAGATTTAAGAATTCATTTTATACTAAAATATGGCCATAAATATTTTTAAATACATTCAAATAGCCCTTTGCTGGCACAT
TTTTTCCCTTCTTTGCCAAAACATTCCCACAGGCGGCCTAAGTCACCTCATTTTATAGGTTTAGTAGGTTTAGCAGGCTTTATGTGCTCTAGTAGGGTTA
GTAGGTTTTGTTCATATCAGGTCTCTCTCATGGGAGTTTCCAGGGACAAGGATTGCTTCAGTTAGTATGGCCTTAGCCATACTAGGGTATTTGCTTTAAT
TCTACAGAAGTTTTCTAATTAATATTCTGTAGCAAAAGAACTAAGATCTGGAATTCCCCCTCTTAATCTCTTCCTAGAAATGAGATTCAGAAAGGACAGG
ACTGCATCCAGCCTGTTTGGGAACTCAGACAAATGTGTGTTGTCACAGACACAAATAGAGGTCTACTATGAAATAATTGGCTTGCTAGTGTGCTAATGAC
AGACAATGCTGATTTGCTCCAACCTCATACAGTTTCACACATAAGGACAATCATCTATGTTTCATGAAAGTTCTATCTACTTTAACATTATTTTGAAGTG
ATTGGTKGTGGTATGAATTAACAGTTTAAATTTAAATCCTAAAATTCAGTGTGAATTTTTTATAATAGCATAAAAATTCAAAGATGTCCATACAAGAAAA
ATTAAAATTTGGTTAGGTTTAGCAGAGTTTGAGAATCCTTACTACCCTCCCACATAGTATTGTAATGTGAATATAGGCAGTTACTATTACAGGCATAATG
ATGATTATGTATTAAGCAGAAAGAAGTATCACCACCAGTTTTTTTCTTTGAATGCCCCTCAGTACTTCTGCATTTATAGGATGGTAGACTGGTTTGGTTT
AGCTCTCAAAAGTGAAAACATTTAAAGTTTCCTCAYTGGGTGAAAAAAATTAAAAAGAGTGAGAGACTGAAAACTGCAGCCCACCTACGTTTAATCATTA
ATAGTGAGCCCTTCAGTGAACTTAGGTCCTGATTTTGGAGTTTGGAGTCTGACCTTTCCCCAAAGATAAACATGATTGTTGCAGGTTCTGAAGAGGGTCA
CTCCCTCACTGGCTGCCATTGAAAGAGTCCACTTCTCAGTGACTCCTAGCTGGGCACTGGATGCAGTTGAGGATTGCTGGTCAATATGATTCTTCTTGCT
GTGCTTTTTCTCTGCTTCATTTCSTCATATTCAGCTTCTGTTAAAGGTAAGTTTGTGTTGCCTTTTGCTAAACTTTAATTTCCATCTTTGGAGTTGGAGG
CAGATACGTGCGTGTGTGTGTGTTTGTGTGAGTGAATAGTGAAAGAGTTTCTGACTAAACTATCTTCAAAACCATGTAACTTTGGAATGTTTGTGAAAGC
ATGGCTGAGTTGAAATGAAAACCAAATTCAAATCCCTACAAACATTAAGAAAACAGATATTTCTTTTAGTTTCAGTTCCTCAGACCAGTGTGTTCTTGCT
TCAATTTCTCATTCATGGTCTGTTTTTAAAAGAAGGAAAAAAGATACCCACTATTGTTACCTGCTGTTGTTGGTCACATTGAATGCAGCTCCTTCATTTG
AATTGTAAATGAGGATTTTTTTTAAAAACCGAGTTCTTAAATTTTCTTTTAGTTGCTTAGCAATGTGACCTCAAGAAGAATTAGACCCAATGAAAAAGGC
ATTTGATTTGCCAAAGAATTATGAATGAAATGGCACAACATATATTTAATTCCGTTACAATTAAAAAATGATAGAATTCATAGTGAATTAAAGAAAATTA
AATTTCCTGATACAGATTTAAGAAATAAGACATTATCTTTGGAAAAATAATGTTGCTACTTACAGTTTCTATTTTAAGATGAAATTAATTTTAAAAATAC
ATATGAATTAATACCATTGAAAAGGCAAGTGAAAAAACATTTTATGAGGAATGGTTTCATAAAACTGTTGTGAAGTGTATTAATATAGAATCATGTTTCA
GATCAGCTACATTATAAACATCGGTTTTCCAAATGCTGCATTGTGTAAAATGATCACTTTTTAGTTTCTTAGGAAGACACACTGTTAAAAACCAATTGAT
ATAACAACATAGCGTTATAGGGACCAATTTTAAAACCATGTACTCTAAGTAATTGATAGAAAACAATTCACTTATAAACTTATAAAACCTGTTAGGGATA
AATGTGGCTTTTGATATTAAAGTAAAGTTTGCCTCAGGATTTTTTGTGTAGAAAATTTCCACATGAGGAAAAAAACCTAATCTTCATTATTGGAGCAATA
GAGGGTTAAATTTAAACCAATTCACCTCAGCAAATCACACTGTAGGTTCTTGAACTAAAGAAAATATTTTCACCAATTTCTAAATATTTACTATTTAAAC
ATACAGTTCTTACTTGGACAAAAGAAATTTTTTAATGAGAAGAAGATTTATAAATTATATCTGACTGAGAGTGTTATATAGAGGACTTACTATTTCATCT
GCCAAATAAACTGTTGAGTAGTCAAAATATGTGTGATTTAAATACCATAGTATCAAACCTAATACCATAAGTATTTTGAGAAAAATAATTGAGACATGGT
ACTTATCATGAGCTTCTCCTGTTTTCCCATTTTATAAACTAGAACATTGGGTGACCTCATGTTTTCAAATATACTTATAAAAAATTTAAGGCCGGGYGTG
GTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCTAAAACGGTGAAACCCCGT
CTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGMGGCAGGAGAATGGCGTGAACCCGGGAG
GCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAATTTAA
ATATACACATACACTAGACAATGGCATAATTGGGAAATGGCATAAATGAGAAAATGTGGTTTAGAATATTATAGGTAGCTACAGTTTATTGTAAACAAGC
TTAGTAGTAAATCTAGATTTTTAAAGCTTGAAACATATATAATTTAGGGGCCACTTTTGAGAAAAGATTACAAAAATATCTTACTATTGCAAAGGTTACT
GAAAAAGATATGGCATGTGGATACATTGCTAGGGTCCACTTCTGGAGTCTTTGGAAGGATCCTGGGCAAGAGAGCTTAAGCTTCATCAGCATCATGGTAC
GTTGCTTATGCTGATATCATAAATTAAAAGTGTACAACTTGAGAGCTTCTTTACCTAGATGGAATAACTTTTTGCATTATGGTACCATGATTTAATTATA
GATTCTTTGCCCTTGTAACAACTGACATTAATTAGCAAACAACTTGTGAAGAGTTTACCTTAAAATCAGTCCATTTAAAATTTGGGGATCCCATGCCTCA
TTGCCTCAAAACTCATCTCTAAATTACCAATGCAACTGTTTGGTAAATCCTCAGATCTGGGTGGATGTTGAAGGGCAGGTTAGAATCTAAAGAAAATTGA
GGCTGGGTGTGGTGGCTCATGCCTGTAATCCCAGCGCTTTGGGAGGCCAAGGTGGGTAGATCACTTGAGGTTGGGAGTTCGAGACCAGTCTGACCAACGT
GGAGAAACCCCATCTCTGCTAAAAACACAAAATTAGCCAGGCATGGTAGCGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCGT
GAAACTGGGAGGTGGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGCAATAAGAGCGAAACTCTGTTTCAAAAAAAAAAAAAAAAGA
AAGAAAAGAAAGAAAGGAAGGAAGAAAAGAAAAAGGAAAATTGAATGGCAGATTGGAATCTGAAGAGGGTATTAGGATTAGGATAAAAGAGCACATCTAT
ATGATTTGCTGTGTGAACTTTCTAAAGACTCAAGTTTTCCCTACTTTTTCTTAATTATACTTTGTCATGGTTGGACTATTTTCAGCGCCTTCTCTGTGTT
TTCCTTATATAGTATTTTTACCTTCTATTTAATTTTGTCACCTTTAAACCTGTACACTTCCTTCATTTCCAGTCTTTCTCTCAATCCCTCACCCCACCCT
TACTTTTTAGTCAATTTTTATTAATCATCTTCCAGTTCTTTTTTCTTCTTACCCTTCATCTTCTTTTTTAACTTCTGACCCTTTAGTTTTCTGTTGGGTT
CATAAATGCCATTACCTATCACCCTTATCATCACTGCATGTCTCTTCAAACCTCACCAATAACTCAGCTCTGCTTTGTCTTCTTGACTAAGCCAGTTATC
AGTGATTGTACTCATATAAATCTGACAAAGGAGTATTTAAAAAATATTTCTTGAAGATTCAAAACTAACAGTTTTGTTGCTTTTAAGTCACTTAAAAATT
CTAAATGCACTTGAAGGGCAAATGAAAGAGATTCTGACTTTTTTGGCTAATATTACTTTCTGTTTTGGTTTTATCTAACAACAGTTATCAAAAAATRTTA
CTATACATACTCTGAAGAGCACTATCCTACAAAAGGAATTAAGTCAACAATATAAATGGGACATGCCCCAATGCCCAGTGTTGCCAGATCTCTGCAAAGC
ATAAACAGAGAAATACTTATCAAAAAGGAAAGTATAAGAGGATGACACTCTAGCACAGTCCACCTTATTTGAACCGTTTTAGGCTTTATCTCCTGTTGAA
AGAGGTAGGAAACAGTTTGGAGGAATAAAGGGCCCATTCTTTTCTGTGCTTTAACATTTCCTACTCATAGTCAAAAATTGATTTATTATATGGCCAGTAA
AGTAGAGGTAAGAAAAGAAGTGAATAACATAATAGTTTGGAAAGCTTTGGAATTTAAGAAAGGTTACCTTCCTACAAATGTTTCGTAGTTATTTTAACCA
GAGGACACCTTAATATAGTCCACAGAACTTGGATTTTGGTAAATTTAAACATCAAATCTGCATTATATTTGCTATGTTGGGTTGAACTTGGGGTCAGCTT
CTATCTGCTGTCACACAATGCTTACTTTTCAGAATTGCTCTGAGGATTAGATAAGACAACATGTATTTCCTTTATGCCCTATGTGGAATTTGATAGGTGT
CATAAAAAGAAGGCCTCCTGACCGAAATATTTTTCCTGACCAGAAAGCYAGTATTTGAACCCGCTATAGAGTCCCCAATTACAATGCAGAAGACATAGAG
ATAAGAGGGAATCCCAGTCTTCATCCCCTTCAAGGTTTTTCCTGACTCTCTTTGCCTTCTGTGTCTCACACCTCAGTTTCTGCCTGACTTGGTGCTTGGA
CACAGCTTGGTTTTGTGTATACACATAGATCCTTTCATACTTCCTTCTCCTGGCTCTTCTTGATTCCTATGAAAATGCTTGTCCCTTTTCTTTGAAGGTT
CGACAGATTATGTGACTTCACTACCCAAAATTCTATGGCAGCGTCCCATCTCACTCAAACTCCCCAAATCTTCCTGCCACCCATAGRTACCTCCTTTACC
TTGTCTCCTTCACTGTGTCTTTTACTTATTTATTTCCAGCCTCTTTGGTCTCCCTGCTCTTCCTCCATTACACCTGCAGGAGCCCTCCTCGGGGCCTTTG
CACTTGCTGTTTCCTCTGTGAGGGGAAGGGGTAGAAAGGGTAGGAGTTGGGGGAGGGGGATGCCCTTCCCACAGATATCCATGTAGCTCACCGAAAACCT
TTGTCCAAAATGTCACCTTTCCACAGAGGTTTTTCTCTCAGCATCTCCATTCCCTTTCCTGCTTCAGTTTTCTTTATGAGCACTTCTATCATACTATATA
ACTTGCTTATGTACTCATTTTTTTATTGCCCTTCTCCATCGCATTTAAATGTACCTTCCAATTTACATTTACAAAGGGTAGAAAATTTACAAAGGGTATT
AAATTTACAAAAGGTAGAAACTTTGTCTGCTGGTTGGGTGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGGTGAGGTGGGTGGATTGCTTGAG
CTCAGGAGTTCAGGACCAGCCTGGCCAACAAGGCAAAACCCTATCTCTACAAAAATATAAAAATTAACTGGGCTTAGTGGCGTGAGTGTGTGGTCCCAAC
TACTCAGAAGGCTGAGGTGGGAGGATCACTTGAGCCTGGAGATGAAGGTTGCAGTGAGCYGAGATCGCATGACTGCACTCCAGCCTGGGTGACAGAGTGA
GACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAGTAAAGAAAGAAGAAGAAACTTTCTCTGCCTTTCTCTGCTTGTTAACTGGTGTAGTCCCAGAGCCTTA
AAAAGTACTTACTATTCAACAGGTACTCACTATATTCTAGTTGAATGAATGAATAAATTTCTAGCTCACTGCCTAGGAATGGAAAATAATTCAACCTATA
GTTTTAGAGATATATAGTATAGATAAGAGCATCATCTTTAGAGACAGACAGCCTGGATTAAAATCATATCTCCAGCCAGACGTGGTAGCTCACATCTATA
ATCACTTTGGGAGGCCGAGGTGGGTGGATTACCTGAGGTTAGGAGTTCAAGACCAGCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAA
ATTAGCCAGGCGTGGTGGCACACACCTGTATTACTAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAGCCTGGGAGATGGAGGTTGCAGTGAACTG
AAATCGTGTCACTGCACTCCAGCCTGGCCGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGAATCATGTCTCTATGATGAATTA
CCTGGGTGACCTTAGGTAAATTATATAGTTTCTGTGTCCCCTCAGTCTCTTCATCTATAAAATGAGACTAATAATAGTGCCTACCTCATTAGATTTTTGT
GAGGATTAAATAAGTTAMTACATGTAACATGCAGATGATGGATTTTTGACCACCATTTCCTCTGGGCAAGTACGTGCTGTCATATGTAGAGGAGACAGTG
AACAGATTGTTACTGTGTAGGTGGGTAAGGCCTTTTCAGGCATTGCAAAGTAATTTTTGCTATCACCTTTCTCAGCTGCTTTGCTTCTTGTCTAGTCACC
CCAAACCCCTTTTCTGTCCCTCTCCCCATATGTATATTTCCTGAGAGAAAAAAAGATTATGGTTGCGTGTCATAGTAAACTGGGCAATGCAACCCCATTA
GCATTGAGGAATAAGGTAAACTGAAGTCTTTTTTAACTATCTCCTGAGAGCCATACATAGAAAATATACAAAAGAAAAAAGATTTATGTGACCATACATT
TTAAGTCATCTCTGGGAAAGACTTGCTCCTTGGCATTTCTTTGGGCTAGGTAAACTGAATTGGATACTGTGTGAACTCATTCATACATCAGTTTTCTTGG
CTCACAGTACAGATTTGTATACTATTTGATCTTTTTAAATTACCCCATGCCAACTTTAAGCCTGTACTAAGATTTCATATAGTAAAACATTATTTTATTC
GGGCACAGCTAATTTAAAGTTACATATGTGCAACGCTGAAATGTACCTTTGTACTAAAAGTTTGATAATTACATTAATAGAGTAAATTACACTGAAGAGA
TGTTTCTTAAATATCAAAAATGTCCAAATTAAAGAACTTCCTTCTAACCACTAAAACTACCTTGGCATTGATCTGCTTGCATTTAAATAATACGTTAATT
ACGAATGGCTCATATTAAATTTATCAACCAATTCCTGGTGGGTCCTCTACTTGAAATCATGTTCATATAATTAAGAGAAATACAATGGCATTTAAACAAA
AAAAAACCCAAAATATCTATAGTTCAACCATGGCACTATCGGATAAGTGATTAGGAATACAAACTAAGGTTCTCTGAAATGGGAGTTTATTTGTTTGTTT
TTTGTTTGTTTATCTATGTTTTTCAAGTCAATGATTTCAGCAGATGAAGTAGCACCATGTTTCAATCAGCGAATATTTACCAAGCTTCCTGAGCCCCACT
GTGGTAGAGAGATGCACTGATGGTGAGACAGCATGTTCCCTTACAATGAAAACTGGATATGTGTCATTATCTTTATGCAGGTCACACAACTGGTCTCTCA
TTAAATAATGACCGGCTGTACAAGCTCACGTACTCCACTGAAGTTCTTCTTGATCGGGGCAAAGGAAAACTGCAAGACAGCGTGGGCTACCGCATTTCCT
CCAACGTGGATGTGGCCTTACTATGGAGGAATCCTGATGGTGATGATGACCAGTTGATCCAAATAACGGTGGGCATTTTCTACCAGATAAATGCAAAGAT
TAGATATCAGAAGTTTTTGAGAAGTGTACCATTGGACAGCACTTGTATTGGGTTCCCGTTTATAAATCCATTTAGTTTCTTATCTATCACTAAAACAAGC
AGTTCTATGTATTTAAAGGTTTTGCTGATGAAAAGTGAACTGATCTTTCCAAGTTATTGCAACAGACAATAGAAGGTATATACTGGTAAACGACCAGAGT
ATGGTGTTCAATTCTATAGATCATGTTAATAGGGAAGTTATACTAGAGTCTTTTCAAAATGTTCTGGGAGAGAAGGGTCAATAATCCATGTTGTATGAAA
AACAATTTAGACCACTCTAACTCAAGAGGAGATCAGTTAGGAGGTTCCTGCATTCCTTGATACAACAGGTGGAATTACTGAAGAGAGAGTAAACCTAGTC
TGTGTTCTTCCTGAGGAAGGAACCAAGTACTCCCCTGAATAACAGTGTTTGGTCAGTTAAAATGGTTTAGATTTATGTGYTGAGAAGGGAGGCCAAATTA
GTTGGTCTCTGGGGACTTTTCCAATTGTAATATATGGTGATTCCCTTATTTGCTTCTCAAGAACCTAAAGATAATAGATTCCTTGAGTAAAGTCAGTTAT
TCTTCTACATCTTGGTGTGAAACAGGTACACAGGACAAAGTACTTGGAACAAGTAGTTGCTGGTGTCCTTTATATTGAGGTGTCATAGCAATACATTTAC
AAGTGATATTTGCTTCTTTGGGTGTCTCTAATTGCTCTTGTGTTTTCCAAGTTAGATCTAAGCATCATCATCCATCTCTCTGAGCCATTTCTCAATACAA
CAGTAAACTGTTCTCCAGAAAACATTATATTCCTCCTTATTCAGTAATTAGACTTTATTTTTATTTACACAGATAAGGTAGAATAGGGCAGGGGTCCTTT
CCAACAAGTGGTAAAGAAAGTGAAGTGATCAGGTAGACAGCAACCACAAAAAACAAATGAAGAGTGGCAATGATAGGAAAGAATCACACTCAAGTCACAA
TTATTTTAAGCCTAAAGTCACAGAGTTCTTTAAGTATTGCTATTTTTGCCTTATTAAAAAACCTAGTTTTTAAATACCTTCTCCATTCTTTTAAAGTGAG
TGGCAAGGTCCTATAAATCATGAATTGAAAAATGACAGAAGAAATTGTGGCCAACTCTTTCTGTTTCTTTATCATTTTATTTTCAGAGATACTCTGATGA
AGACAGATATAGGAAGTTTTTTTTAACAGCTTTCTTTCTGTTACTCCAGATGAAGGATGTAAATGTTGAAAATGTGAATCAGCASAGAGGAGASAAGAGC
ATCTTCAAAGGAAAAAGCCCATCTAAAATAATGGGAAAGGAAAACTTGGAAGCTCTGCAAAGACCTACGCTCCTTCATCTAAYCCATGGAAAGGTAAAGG
GGCGTTTAGATTCCACAACTTTTTCTCCAACTTCATATTTTTCTTCCCTTCAGTAGATATTATTTTGAGGTAATCACATTGTAACTACTTTTATGGTAAA
TGGAATTTCTTCAAGAACTAAAGAACAGAGGTTGTAAATTAAATGTTTCCAAACTGAATCAATGCCCTGAGTTCCCTTACATTTACTAGCCAATTTGTTT
CCTATTTTTCTGGAAATCTTTATAGTGGAATGAAGTATTTATTTATTGATGAAAGGCATTATTAAAAGGTAAATTTCTCATCAAATTATAAGGGATTACA
AACRTAATGTAACAAAGCAAGTCATCAAAGCATGATTGGATGAATTYAGGAAAGGAGACAAATTATGAGACTGAAATGATCCAACTGAGATTAGTAATAT
TGATTTGTTATGAGATTATCGATATCTGGCTAAAGTACAAGGTTAAAGATTTTAARAGGGTATGACAAGTCTAAAGTAGAGTTTTTTTAAAGCCTTTAGA
AATTATTTTAAAACTATGACATGGAAAAGCCTTTTATATATTAAAATAATGATTGAACACTTTATAATATATATTTGAAAATCTGTTTTAAAAATTCTAT
GTGTGCATTACTTATGGCTTGATTCTAGTCAATTGAAATGGTCTWAATAAATTTGGAATTGAGAAACAATTGTGATCAGTTGATTATTAGGCATTACATA
TTTGTGTTTATGAAAATTACAGATAGTGTGTTGACATACATAAAAATGTGTCTAAAGATGAGAGCTCAATTTTAGGAACAAAAGCAGGAAAACAGAAAGG
GAACATTGAGTTATAATTCCATACGTCTCTGAAATTTCACTTTCTAAATTCAAAATAAAGAAAAACTGATCTTTATATACTGATAAAGTAATACTTTATT
TATTTTCAACTGAAGTATTTGAAAACAAATACTTTGGACATTTCATATATGTATATTGCTAATCATGATGCACATTTTTATATGAAGTTCTAAAAAGGAA
CTCACAAGAAGAAATCTTGTGTTTTCACCTCGCCTACAACCAAATATGAATCACTATCTTCAAGAATGCTTTCTCTTCCTTCTTTACTTGTCAAAATACT
TGCCATGTTTCTGACTGCTCACATGCCATTTCTGTCATAAAGTTCATACCCTTCCAGCCAGCTGGAAATAACCATCACTCTTTAGAATGCTCTTAGCACT
TTGCAGCTCACTCATGACCCTTATCACTTTGTTTTTGGTCATTTGTGTTCATTGCTAGATTATGGGTGTTGGATAGAAAAAAATCCAATTCCTCTTTGTA
TTTCAGCCTCTCCCCTTCACCTCCATGCCCTTCCACTCCCTCCTTCCCCAAAGCACCCAGAATTATGCCTTGCACTGAATATTTTATGAAGCCTTCTCCG
ACATCTTTCCAAACCCCTGGGCCTATTTCTGTCAAAGCGTTTATCACAGTGTATTGTCACTCTCCTTTTATGTCTTGGCTCTCCACATTCAGAATAAGTT
TCTCATGGGCAGAGTTGTATCTGTCTATTCAGCACCTTGCTCATAGGGGATACTGAATATAGATGCTTCTAAAATAAAGGATAAACAAATAAGATTATAT
GGGGCTCAACTGAGTTGAACTTTGATAAAGGTTTTACTTATTGTTTACTTAATAATAGCTAAAATGAACTAAGCACTTACTGTGTGCTAGGTGCTGACTA
AAGGCATTACACGAACTGTCTCTTTTATTCTTGTAATGGCCCTGAGCAGTAAGGGCTGCCTTATCAACCTCTTGTGATAGATGAGGAACCAAAGTTAAGA
AAAGTTAGGAAATTTGCCTATGGTCATACAACTGGCAGGTGGTGGAGTTGGGACTTGAAATAGAGTCTATGCTCAAACTTCTATGCCTACTGTCTTCCAG
CTGGAAAGTATTTGGAGAAATGCCTGCCTCTTTGGTTGACTTGTAGTGTTCCTTATTTACATCATGAGATCAGTTGACTTATTTGATTTTCTTATGGCTC
AACTTTGTTAACAACAAGAAATATTGTTATTTTCTTCTCTGAGCTTCCAATGTGGCAAGACACTTGAGTTCATAGATATTATTTGCATTTATAATCTTAC
TGACAACCAATCATTTTATAGCTCCTTTGGTAGCAGCTGAGTACAAAGTCTTCTGCTACACACATGAAAGGACTCAGTACCCTCACTGTTCAAAGGCTGG
GATGGAACTGCCACATCATTATTTTAATAACTGCAATGGGCCAATTCTAGAGGAGCTATGATTTGCGATGATTTACTGTAACCACAGGTTAAAGTACATC
ATTGTATCTTTCAAGTATATAATAAAATATTTGTTGGAAAAAACTTAACAATGAGGACTAAGAAGCCAACAGGAAGTTTTGGCCATGTCACTGTCAGAAA
GATCATTACTTAAATTATCATTTCAGTTTACTATGAGAGAAATTATGGACAGGCAGAGTAAGGCTATGGACAGGCTATTTTCTTAGAGAGCATTTTCTAC
CACAGGCTCAAATTAAGTTGTGCTCCTGAAGTTTCTGGGATTTCAAGGATGCTCATCAGCATGTAATTTTTGTCCTTCCAGACCTCCCCCTGTCTCCCTT
TCCCATCTGAGGCTCTCATATTTACATTTTAAAAGAGAGTCCATTAAAATACTTAGATACATATTCATTGCACATCTTCTTTTTTCCATGCCCACTCATC
TTCCCTACATAAGTGGGCATAACTCTAGTTTTGTCTACAAATCATTAAGTTGTAAACGTGACAGTTATCTGATTACGTTGATTAATGCTGACGAGTGAAA
GATGCCTCAAGTTATACCATGGATTCTTTTTTAGGCCTGAAATGCTGCTCCAATTAACTGGATAATTACCAGATTTCCATTTCTGGTTTTGGCTTTGTGT
TGATTAAATTAACCACGTGGCTGCTGAGTCAGACCTTTATTTTGTATTGTTTCYGGGCATTGATTTGCTCTCTAAATCASCATGGCTCTTGTACACACAC
TGAACTGCCACAAGAAATGTGACACCTTGAAAGTCCTTCTGAAATTTGTTGTATATTTCTTTACTTGTTTGTTCTCCAGTGTGTCATTTCCTAGCCATGC
TCTGTCTTAGATAGATATCAAAGATAAAATTACTAATCTTTGTTTGCTGGGATTCTTTTTATTATTTTTATTGTTTGGCCACTTAATGGAATTTAGTCTC
CTCTTATTCYTAAAATAAATATAAAGGAAGGTGTGGAGAAAGGCATCTTCTTCCTAAGGAAAAAACAATATGAATGATGCCTACCTATTTCAAGAGGAAA
CTGGCCCCTCATATTTGGCTGGAAGAGGCACTGTACCACCTTCCCAGCCATTTTACCCAGTCTCCCTCTAGCTGTGGTTTCCTTGGGTTAAAGACTTCGT
TTGTAACCAGGTCATACCTGCTGCTGCTCTTTGGAAGCTCTGAGTACTGTAAATTTAGATAAGAACCTGTGCTCTTGGATGTTCAGAACTAATTTCATTG
CTGAATGAAGTAATCAACTTTATGGCCTGAGTATAATAAAACTTACTCAGTTCCTGTTGTGAAATAATAAATTTAAGATTATTGCTGTGACAGCCATGTG
GCTTGAAATGCAAAATTCTGATTTCAGATTATTATTTTTTAAATGATTACAAGGCAGCTCAATTCTAACAGTTTTGACATTTAGCTGGTATGGATATCAG
TACTATCTTCACTTTGGATCTCATCAGTCTACACTAAAGAAACAGAATTTAGGCCCTAGAAGTAGCAGTCATATAAAAGAAAAAGAGATGTGTTCATTTT
TCTAGTTCTGGGGAAGCAATAAAAACTAATAGAAAGGATTAAAAAAACTTTTTTCATTGTGTYTCACAGTTTATRTCTATCATTCAGCCTGCCAGGAGGG
AAAAAAGGCTCTAACACCATTTTCTAAGGGATCCAGAGGTCAAGATCAAAACTTGATCCATTGCAGTGGGTCAGTAACAGATAAGCACTGAACCTTATGC
ACAGTCCAAAGATTAAATCCAAGAACTGGGTTTCCTTACCTTTTAGGTAAAACTTTAAAAATAGCTCAGATACATTTTGTAGCCTGGAAGGAAAGTGACA
TAGTGGTGACAATACTGGTATTTTTCCCACTTAGGAGATCTTGCTTTCTAAAGTATTTAAGGTTCATACCAAAAAGACATGGGCCATATAGACATGTGTG
CATTGCCACTGAGTGAACACTTCTGACTATTTTGGGGCAATCTAGTTATGAACTTCTAATGGTCATGATACCTGGAGATACACTTCCAAATATTTGAAAA
GGAAATTACACTGTGATTATTAGAGGAAGGAGATATAGTTTACAAAATAGAACTTCAGAAACTCAGGCTTGGGTCTGAGATATTGCCAGTGATTTGTTTG
AGAATATGATACTGTGAATTTTCAGACACTGAGGTCATTATTCCAGTTCCTTTCTAAGTCGGACAAACACTATTCCAACATTTATAGGTTAGTCCAGTCT
AATGACTAAAACTGATTGCCAGATAAAGTACCTAGTAAATCCATCACTAGGCAGAGTATATGTAGGAAGTAAAAATAGAGATTTGAGACACTTGTTTGGA
TAATTCAGGAAAAGTATTCTCTTCTTCTAAGGCACAAGATAATTTTCATGTAGACTAAATTACTGAGCTTGGTATTATTTGGATTCATTGCATAGCTATT
GAGCTTTATGTTTTACTTTAGAAGCTATGGTTGGTTTTAAAGAGTACTAGGAAGGCATTCAGGATATTTCTGGTAGAAATGCTCAGCTATAATTATCATA
GACCTTGGGAATTTTTACAGGGAACATGTATCTATCCTCTATTTCTAAATTGTGTGATGCATATCAAGTCTACAGGGTGAAAACCAACAAGCTGATTTTC
ATTAAATTCACTTTGTACTTTTATCCTTGTTTCTTAAACATTAGTTAAATTATCAAAATGGCAAAAGACACTTATCATCTCTGTGCCTATAAATATCAAA
GATGATAAAACAAAACTAAGTGGCTTACTATTCCTGCCAAATCATAGTCACCCTCCTCATTTCAACCTCCTTTCTCTGCCTTCTGATGGTAACCTCAAAG
CAGTGCCTGGGGCAGGTTATGCAGCAGTAGCAATCTCAACCTCAAATTTTCCAGCCTTCTGAATATATATATACACACATATATATATATGTTCATATAT
ATACACACATATATATATGTTCATATATATACACACATATATATATGTTCATATATATACACACATATATATATGTTCATATATATACACACATATATAT
ATGTTCATATATATACACACATATATATATGTTCATATATATACACACATATATATATGTTCATATATATACACACATATATATATGTTCATATATATAC
ACACATATATATATGTTCATATATATACACACATATATATGTTCATATATATACACACATATATATATGTTCATATATATACACACATATATATGTTCAT
ATATATACACACATATATATGTTCATATATATATTCATATATATATATATTTTTTTTTTACCCAATACCAATATAAATGCTCTGGAGGGTGGAAAACATT
GCCCCTGTGAAATGTTGACCATGGGTATTATGGCCATGCCTGGGGCCTTGCAATAGCCCATAAAGGCTGTGCCATCTCAGGAATCTCAAAGGTAGTGATT
GCCATTTTCGTCCAAGAACTTTTTTATTTGCTATTATTTTAAACCTTAGTTATTTTTTGTTTCAAGTACAGTTACAGGTAGAGAACATGCTGACATGTTC
AAACAGAATKTTCATCATTTCTCTTCCCTGGGCCATCCTTGTTTTCATGAGGCTCCCAGCCTATATCAGTGCTCTCTCCCAATGCTGTGCCCATCATGCA
AGAGCCTTCATTATCGGTCTCCCTAAACTTCATATTCTGATGGTCTCAGAGATTTAAATAGCTTCTTTTCACAAAAAGGAAATTCCAGATTTGGAGTGTC
AGATCTCTTTCTCCCAGGATTAATACAGGTAAGAATCTGACCTTGCCTGACACTTATTTAAATCTGATAAATGATGCATTTTTGCTYCATTTGTGTTCTG
TTCCCCTCTCCCCACCAGGTCAAAGAGTTCTACTCATATCAAARTGAGGCAGTGGCCATAGAAAATATCAAGAGAGGYCTGGCTAGCCTATTTCAGACAC
AGTTAAGCTCTGGAACCACCARTGAGGTACTTACCAATATTAATAAGGATTCAGCATCTCAATAAAATTTGTAAGGATTTCTACTTAYACAATTTCAGTA
GAAGAGTTACTACTAAGGTAATGCTCAGAAAAGRTGACTTGTGTAGTGAAGTCGCATTTGCCTATGAAACAATTGCCATTTATCCCAATGTTTTGTTAAT
TAATTACAAGGTAGAGAGGATTAGAAATATTTATACTAAAGGAGCTTCGTGGGGATCATTCCAGTGGTTCCCAGATATCACTGTGCACCACTGTACCATG
GAGGGGCTTGTTACAAATATAGATTCCCTATATTCATCCCAGAGATTCTGATTCAGTAGATCGGGGAGGACCYGAACGTCTTTTTTTTTGAGATGGAGTC
TCACTCTGTGGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGT
AGCTGGGATTACAGGCGTGTGCCACCATGCCCRGCTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCA
GATGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCGCGCTTGGTCAAACATCTGTATTTTAACAGTCTTTGTGGATTATT
TGGATGCATTGTCAATGTAGGGAACCACTGGTCTATACCAACACTGTTCATTTTGCAAAAGAAGAAACTAGAGAAGTTAGGTGGATCTTCCAGTATCATA
CCTGGAGTCAAGGCTGGAGTCCAAGTTTCTTAGACTGAATTCAACCAGCCCATGAGTGGGTGAAAAATCTGATGGTAGGGTTGGACCAAAAGAATGTTGG
TTAGCTTGCTAGAAAAGAGACCTCTGCTTCTGTGATGCTGGCAGAGGCCCCAGGAAAAAGCTCAGAGAAGCTAGACAGAGTCTGTATTGGGATACATTTG
CCTAAACTCAAACTGATGATGTAGCTAATGATGATTTGAGTTAATCCCAGTGGATTTTAATTAATCCCACAGGATTTTAAGAATTTCTAATCATGTTCAG
CTAGTTGAAGTTACACACACACACACACACACACACACACCACACACACACAGAATCTAGATACAGCATTAACAATCAACTCCCTTGCCACAGAATTACC
CATTTATCCAAAGTTTCAATTATTACCAGGCCATTTGTCTAATTTTAATTGGATTTCGAGAGAAGTAGGAAATCCCACATTATTTGTGAAAAAAAATGAG
AAGGCGCTATTAAGACACTCAACCAAAGAGAATGGGAGGGAATCAATGAGCTACCAGAAACCTTGTTCTTGTCTTTGTATCTTATCATCCTGGGGGAGAA
AAAAAGTCCCCTATGGCCTATTAGAGACCTCAATTTTCAAGCCACTTCTCACTAGAATTCAAATGGCCYACAAGGAATCCCAAGCATTATGCCCTTGCCT
TTCTTTTTAGRTAGATATCTCTGGAAATTGYAAAGTGACCTACCAGGCTCATCAAGACAAAGTGATCAAAATTAAGGCCTTGGATTCATGCAAAATAGCG
AGGTCTGGATTTACGACCCCAAATCAGGTATGATAGATGTCACTTTCTTTGAGGCATTAAAATAATTACATTTTGTAGAGACTAATTTAATGTAATAGAA
AAATAAAGTAGAAATAGAATTTTGAAACATTTGTAATTTTTAGTTTAGGCTACAAATTCACACATATGTAATGAATAGACCCATTTCAATTGTTGTAGGT
GTTAGTAATGAGGGATGGGTGTAATGGGGAAGCTGTTTGTAGACTGAAAGACAGTTTGCTATTTGACTTGATTCAATAATTTAAACGATGATTACTTGTT
ATAAAGATGGCTATTTATTTATTTAGGTCTTGGGTGTCAGTTCAAAAGCTACATCTGTCACCACCTATAAGATAGAAGACAGCTTTGTTATAGCTGTGCT
TGCTGAAGAAACACACAATTTTGGACTGAATTTCCTACAAACCATTAAGGGGAAAATAGTATCGAAGTAAGATAATGCTAAAATTTTTATTTTCTTTGCT
ATTCTTTGTTATATTATTATACTTGATTTGTAAATAGATCTGTGTTTGTGTGTGTGTGTGTGTGCGCGTGTAGTCATGCATTGCTTAACAATGGGAATAA
GTTCTGAGAAAAGCATTGTTAGGCAATTTCATCACTGTGCAAACATCATAGAGTATACATACACAAACCTAGATGGCATAGCCTACACTACATTATATGG
TATAGCCTATTGCTCCTAGGCTACAAACCTGTATAGCATGTTGCTGTACTGCATACTGTAGACAATTAAACACAATGGTAAGTTTTTGTGTATCTAGACA
TAGAAAAAGTCAGCAGAAAAATACAGTATAAAAGATACTATGTAGGTGTACCTTTATTCATAAAAGGTACATAAGTGAAATTTGCAGGGCTGAAAGTTGC
TCTGGATGAATCACCAAATGAGCACTGAGTGAATGTCATAGACTAGGACGTTACTGTACACTACTGTAGACTTTATAAACACTGTACACTTATGCTACGC
TGAATTTCTAAAAAACTTTTTTCCTCCATCATAAATTAACCTTAGCTTACTGTAATATTTTTACGTTAAAAACTTTTTAATTTTTGTTAACTTTTGAAST
ACTCTGTAATAACACATAGTTTAAAACACATTGTATAGGTGTACAAAAAATATTTTTTCTTTAAATCTTTATAAGCTTTTTTCTATTTTTAAATTTTTTA
TTTTTATTTTTTTCTTTTAAAAATTTCTGGTTAAAAATTAAGACATAAGCATATATATTAGCCTCGGCCTACACAAGGTCAGGATCATCAATATCACTGT
CTTCCTCCAGTGGAAGGCACTTACAACCTCCAAATGTTGTCTCACTGAAAGGTCTTCAGGTGCAATAACATACATAGAACTGTCACTTCCTCTGATAACA
ATGCCTTCTTCTGGAATACCTCCTGAAGAACCTGCCTGAGGCTGTCTTACAGTTAATTTTTTTAATAAGTAGAAGAAGTACACTGTAAAATAATAATAAA
ATGTGTGGTATAATAAACACAGAAATCAGTAATAATCATTTGTCACCATTATCAAGTATTATGTATTGTACGTAACTGCACGTGCTATACTTTTATATAA
CAGTAGCACAGTAGGTGTGTTAACCACCAGCATCGACAAAAACACGTGAGTAATGCTTTGCACTGTGATGATAGGACAGCTATGATGTCACTAGGCAAGA
GGAATGTTTCAGCTTCATAATTTTATGGGACCACCTTTGTACATGGGTCCATCATTGACCAAAATGTCCTTGTGCAGCACATGACTGTATTTATTGTGCT
TCCTCATTTCAACTGTGAGCTCCTTGAAAATAGTGATTATATCTTGTTCATCTTTATTTTTTACATCATCTACAACAATTCACGGCACATGGTAAATAAT
TACTTTTTAAATAAAATTGTATTAAAAATCAATTATTTATTGAACAGGTTTTAAGTTTTAAAAAGACAAACTACTTGATTCATTCTAGTTCATTTTCTAA
TTTCTCTGTCAAATGTTTTTAATATTAAGGTAAAAAAGTGGTAGCATTTGTAATTTTTAAGAGTTTTTAAAAAAAATTGTTGTTAAAAAACATAAAAAGT
TCCGTAGTGAAGAGATGTGACAAAATTTTTGATATGACTTATGCAACTTAAATATTTAGGCCTGTTTATCATTTGAAGACCATTCTCTGGACAGAATTGT
TCTAACAGGATTAAGAACTAGAATGTTAAATCTTAGAGTTTCTGTTATTTTCAGATTTTAATTCAGAAAACAATGTTTTCTAGCAGTGAATGTGTTATAC
CTTATGCCATTGCTTCTCAAAAAATTTCTCTGGAGTAGCTGTAATATTAGCACCAAATAGATGCAAAATAGTAGTAAAAATGCCTGATTAAAATGCTTGA
AATTTTATAGAAGTCTCATCTGGAATAGAATTTTGCATTCTACTTCATATACTACTGGTATATCTATAGTGTTTTATTATATTTTCATATAAAATAAATA
TTTTAAATAACTTATCAGGCCTATGAGATTTCCATTGCTATGTAACAACCCCAGATTTAGTGGTATAAAATGCAACAATCACTGTACTGTTCTCTGTCAT
AATTTACAGGCTTGCCTTGGCCTTGCTAGGCATCTATTATGTAGTTTCAGACAGTCAAACTATTCAAAGGTGGTTCCCCCATGTATCTGGTGCATGGGCT
GGAAAGACTCAAACATCTGAGGCTCCTCATGCAACTATCTTTATTTCCCTGTCGCCTCTCAGCATTGCAGCTTCATGTCAGACTTCTTATGTAGTAGCTC
AAGGCTCCGAAGCACATGTACTGATAGTGTGCCAGAGAAAAGCTGAATTCTCTTTTAAGACATAGCCTTAGAGATCACACAGTGTTACTTTCAGTCTCCT
CTATTAGTTGAGGCAGTCACAGAGTCCTACCCAGGTTCAAGGAGAGGGATGTAGACCCTACCTTTTGATGACAGACAGGTTCTGGAAGAGCATGTCAGAC
AAAAATAGAGTTGAGACTATTTTTGGAAAATAAGATTTTCTAGCTGTCTTGGTTAATAAGTAACACGTGGTTGTATTGACGATATCATTTTCAGAAAGCT
GGGCTAAATTCAAAAGARCTGACATTGCATATCTTATTCATCATCCAGGCAATTTTTCTTCCCTGTATACTGTTGAAATAATATTTTGAAAATGCAAACT
TAAATTTTCAAATCTTTTAATATAATTGTTGCYCCAGAAAGACTTCATAATGAGCTTTCAGTTACCTCTGGAGATATCACAGTTTKAAAGACRTGGCTAT
ATACAACTTGAATAAATTACTATCTTGTTTGCCAAAAGAATGGCAATTAGTATCTTGTTCACTCAAAAGAATGATTATAATATAGCATTTCCCTTTGGTA
TTATGCAGGCAGAAATTAGAGCTGAAGACAACCGAAGCAGGCCCAAGAYTGATGTCTGGAAAGCAGGCTGCAGCCATAATCAAAGCAGTTGATTCAAAGT
ACACGGCCATTCCCATTGTGGGGCAGGTCTTCCAGAGCCASTGTAAAGGATGTCCTTCTGTAAGTGCAGACAAATATGGGAATAATCATGACATCAGACT
CTGTTTTCATTTTGTCTCCAGTGAAAGCATCAACTCATTCAATGAAGACAGTTTCTAAAGAACTACCAGCTACCACAGAGTTGTGATGACAGCAGTCTCA
CAATATGCACCTGACATAGTGCATGACACATCAATAATTAACAAATAGTTACCATTCATTCCTCTCAAAAAGTGTTATAACTCAAGGGCAGCCTTTAATA
AGTCACATCTAGAATTCAGGGAGGATAGAGGGCTTAATGAAGTTAGGGGGAAGCATATGGTGTCAAGAATGTGGACAAMGGCTGAACCTTGAAAGTTCWG
TCACATAATAGTTATTTGTCCACAGGTGACATACTTTACTGGCCTCAGTGTTCTGATTATTGCTGCAAGGACTGAAAAAGGATACCAGGATCTTTGCCTA
AATTAGGAAACATTTATTTACCCCAGTTTCCCCTACAATTCCTGTCAGAAATGCGATATCTCATCCCCAGGGCAAAGTGTAGATCATTGTAACATTTTTA
ATCCAACAAAGAAAATTTTCCTTTTATTGCATGAATCAGTTATGATATACATTCAGAGAAATGACTTACCACCCAGMATTTCCTTATCTGTAATCTCTTG
TCAGAAGAGCAAACCATTGGCTTCATGCTCTGTGTGTAACTATAGGGAGATGCTCTTTCCTTCAGTATTACTGGTGTTCAGAAAAGTGAAATCATCAAGA
TGTAATACCATAATTTGCTTAAAGTACAAGACAGTAATTGCTTATTAGTTTCTGAAATTGAGTTAGAGGAAAAAGGAAACATTTTAAAACACAAAATCAT
CATTTTCAAACATTGTTTCTTCTTTTACCTGTTTTTTTTTTCATATGTCATTTAATGTTCTAATGTAATTTTCTAATGCTGTATGAGATGGAAATTATTT
AGGAAGGTGGCTAATAAAACTAAWCTTTTCTTATGCTCTGCACTATTAATTTCTCTCCCATAGATATTAAACATTATGAGCCATCTAAGATTTTTGATAA
TTATTTCTTAATTATTATAGAAAATGATTTATTTATGTTATTGAGGAATTTGCTTTTCCAAATTTGGAATTCCAAATTCCAAATTTGCTTTTGTAAATTC
TATTGCAGCCCTTTAAAGTAAAACAAAAACAAAAACACCTGAATTCATATTGATATGCTCTCTGCCTTCAGAAATGACCCAGTAAATCTTTAGCTAAGTG
CAGCTGGAATTTCACTTGGAATATCTTCTTAAGATTACATAGYTAAAAGGCACTTGAAAAAGAGAAAAAAAAGGATCCATTGCTTATTAAAAGTAATGAA
TAATTTAAAAACTGGCAGCAAGTTATTACTATAGAGTTAGAGAGTTAGTAGTCACTGATAGGATTTCATAAAACTAGGGGGGAAAGTAGTAAAGTATGAA
AAATAAGTTCTTCAGTTAGTTTCAAAGCCGAGAGATGCTGTTAATTAGAACTATTTATTAGGTTGTTGCAAAAGTAATTGTGGTTTTTGCCATTACTTTT
GTGACAACCTAATATTATTTTTAAAACCRCAATAGAATAACTTAGTGTGTGTGAGAATTACCTTTATCTAAATGCTACTCTAAAAAACATAGATATAAGA
AATGAATAATTCAGACCTTAGCAACAGCAAAACATTGAATTTTGTACAAATAATAAAATAAAGAGAGAGAATAGGGAGCTCACCGAAAAATTGATTTTCA
GTGAGGTGCAGGTAAATTAGAAACCTGATGCAATTCTTCAGCAGTTCTCATTATTTTATCTCTGAAATATTTTGCTGTTAATTAAAGTTCTGCACAATTT
AAATTGCACTATGGTAGTCAAAGCCTGGCCTCGGATAAATTCCCTTGGTGTAGCCGTGAAATGACCTATATACCCAGAAACCAGTTAATTATTGCCCTAG
GATCTTCAAGCTAAATATGAATAGACAAAAACAGTCCTCCTATAGAGGAATGGTTCACAGAGTGGATGGAAGTCCCAGGGGTATGATATGGGCAGGGAAC
TGTCATGTGTATTGAGGTAAGGTACAAAAAGCTGCTTTCGCTTCAGACACAAGGGACATTTTATTCCTAGGAGAACACCCTTTGTAAATGTGGATGTTCA
CAGTTATGAGTGGGGTATGAGCCTGCAGTGTATGTTTTGCAGCTCTCGGAGCTCTGGCGGTCCACMAGGAAATACCTGCAGCCTGACAACCTTTCCAAGG
CYGAGGCTGTCAGAAACTTCCTGGCCTTCATTCAGCACCTCAGGACTGCGAAGAAAGAAGAGATCCTTCAAATACTAAAGATGGAAAATAAGGAAGTATT
GTAAGTTCCCCAACCTTTGTGTGGGGTTGTCTGTCAGAAACATTTCTGGATTGTTGGTTTTTTGAAGTAAGAAAGACCCCTTTTAAACCAACTGCCCCAC
CWCCAAAACAATTATTTTCTTGTACTACATTTTCATCGAAAAGTTATGCCACAGTGCAGTAATTTAATGGTCACTTGACCAGAAATACAATAGCAGATTT
TCAGCAGGGACTAGGAATAAACATGTTGTTGTGTTTATGAGTTTAAATCAGGACTAGATTGGTACATAGATAAGTGAAGGCAAGGCTTCGTCGTGACATC
GTGGGGCATGTGCTGCCTCGCTGTTTTTGAAATTATGTTCCTCATGCTGTTAATTGACACCTGAACAGATTTGAGTTCATTTAAAAGAAAACAACAAAAA
GGGTTTGACTTCTTCAGTTGAAAATGTGATTTCACTAAACAGCCAGTTGAAACTATGTTTTATGTAAAAAATTGAGAACTGAGGCGAATGGTGAAAAGAA
TCTGGAGAAAATAAATCCATATGTTACTTAATATTTGGTGAAACTATGATCCATTTTACATGTGTAATAAACAGAGTTGACTTAATTTTTCCCCAAAACA
TTGCATCTGTTTCTAAATAGAATGTATTTTTAGTCTATCATACAGAATTTGTGTATATATACAAATTGAGCTTATGATACCAATTATCCTAATTGATGAT
ATAGAACAAGGCCCAATTAATTTGACAAACAGTGAAAAACAGTCATTAACATAATCAAAAGTGGAAATTAGCCAAGTTACACACACACACACAGCAGTAG
CAGTCACTGAGTTCAAAGAACTGAATTCCCCAACAGGAGGAAAATTGCAGCTTTTTTCTGAAAAGTCTGTTTATGCTCAATTGCATTTATTTACTTGCCT
TAAGGACATTAAAAAATTGATAGGAATTCCAAATGACTAATCAAAGTTGGTTATTCTCTTCAAAAATAAATAAACCAGAAATTGAAAAAGAAGCAAAATC
ATAAATTATCAGGCTCTGTTTTAATTACAGCATGTTAAAATATATTGGTAGAGGGACTTGTCTTAACATTATTTTTTATATTTTTAAGATTCTTTAAAAA
TTTTACCACTCTCAAAGTACATAGGCATTGTCTTAACATTAAAGGCAGACATTACTGAGAATAAAAGTGGAATAATTAGGTATTAATTTAGAATAGAGAT
TACATTAAACCTTATTAGCATTATCTGTATCCTAAAAATCTTAAGGCAGCAATAATTTGGAGGACTGCATGATGTATTTTCTAAATCAGATTATTTATAC
AATATTGAACCATATAACATGCAACACACATGTAGTGTAGTGTAATAGAAAGGATACTAAGATGAACTAAAATTGGAAAATTTAGTTTAAATTCTGACCT
CCAACAACAGTATATCCTTCAAGGAAGTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTAGACAGTGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGC
GCAATCTTGGCTCACCACAACCTCCACCTTCAGGGTTCAAGCAATTATCCTGCCTCAGCCTCCCGAATAGCTGGGATTACAGGCATGTGCCACCACACCC
GGCTAATTCTGTATTTTTAGTAGAGATGGGGTTTTTCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAA
AGTGCTGGGATTACAGGCGTGAGCCACCGCACATGGCCAAGGAAGTCTTTTATATTTAGCTTCTCTGAGCCTCACTTTCAACATCTGTAAAATAGGGATA
ATAATTCTTTCTATTTATTGTAGGCTAGTGAGAGGCAGGGTGGTGGAATGTAACATTTCCCAAAAAGCCTATATGTTGTATCCTGTAATTTGCAGGAAGT
TAACAGGTATGCAAAAAGGAAAAGATTCTGTGAGCAACTGAGTTTGCAAAACTGGATGAAACCTTGTTAATTTCTCTGTTGCAGAACTTTTCAGTATCTT
TAATCAGATAATATTCTGGTAAGTTTTGAATATTTTCTAAAACACATGATCTTGAAAATCCCTTTTCTTAAAGCATTTTGTAAGACTAGTGTTAACATGG
AAAACACTTTGAGAAACATCACTATAATTAAGAAACCATRGACTCCAGAGTCAGAAAAACCTAGGTTTCAATCCCAGCAATGCCATTTACCATTTACCAG
CTATATGACCTTGAACAAATGACTAGGTRTATCTGCGTCTGTTTCCTAGCATGTACAGGGGAATATTAATATTAAACTGACAGAGATGTTCAGTGGATTA
AATGAGGTGGTAGTATTAGTAACAGCTAATATTTATCAATCACTTACTATATGTCAAGCACTCTTCTGAATGTTTTACAGAGATAACATAATTTAATCCT
CCCAACAATCCTGAGGTAAATACTACTTTGGCTTCATTTTACAGATGAAGAACTTAGAGATTAGACACATAAAATTTTTAGTACAGTGCTTGCACAATAT
AAACTCAATAAGTATTATGTCTTCTAGTTATCTAAGCTTAATTCACTAGTTTTTTGTTATGATCAAAATAGTACAAGTATATCATTTTTTAAAAGTATAA
ACTACTAAGCACATGTCACATTGTCTGGTGTGCTTATATAGGGGTAGTATGTAATATTTACATACATGTGTTAATTAGTATGACAACTATTTTTAGAAGT
TTTACCATCCCGGGCTCAAAAAGCCAAAGATTTTTGATGACTAGAATATATAACTAGAGTTTTCCTGTAGGGGTTCCATTCTGTTCACACATATTCATTG
TGGTTAAACATAGAACTATACTATGGTGTGTTTTTATTTTTAAAAAGAGGAAAACCTTTCCCCTTGGATTTAAGGTTAAAGGATTTTCCATCAAATAATA
CTGCTTTAGTTCAATTAGGCACTTCTGAAATAGGTTTGTTTGCAAAGCTAATTAAAGAAAGAGAATAAATTTGGGGACCCATAGCTTTTATGTATTACTC
ATATAGGAAAGAATTTGAACTTAATTTATAATTGTATTTATATAATTTTTACTTACAAATCGCCAAATTATACTTGGCTTAGGTTAATATAGTAAAATTA
GTTTGTATATTCTGAGTATACATTGTTTGAGTGAGAGAGAGGGGCGTTCAAGGAGAAAATTAAAATAAAATGGGGAGGGGTCTTTTTGAGAAAGTCTTAA
TCATTTTTTCATTTGTTCAAATTAAAAAAAAAATCACTTCTTGAGAAAACTCAAAYCAATAGAAACTCTGTGAATGGTAGAGATTTTTAAGTATTCCTTC
CCCTAAACATTGATATCCATGATTATGCCTTTTTTTATAGACCTCAGCTGGTGGATGCTGTCACCTCTGCTCAGACCTCAGACTCATTAGAAGCCATTTT
GGACTTTTTGGATTTCAAAAGTGMCAGCAGCATTATCCTCCAGGAGAGGTTTCTCTATGCCTGTGGATTTGCTTCTCATCCCAATGAAGAACTCCTGAGA
GCCCTCATTGTAAGTCAAATAGAAAATAAAGACCCTCAACTCCTATAAAACTTCTTAAGAATATTAACAGTAATTAAAAGTTTCTTAGATCTGAATGAAG
GCTATCAACTAGAGACTTCTGAGTATTCATATTCAAATTGGGGTATTTTCTATCCACTAATTATTAACTGTATAATAAATTATTTCAGTTAGTGCCTTTT
TCGTAATTTCAGTAAGTAGTATAAACTATATGGAAATTTAAAGATTGTGTTCACCTATCATGTTATATAGCATAGGACAGAATTTCAGAGGGGAGAAATC
TAGCTTATGCTTCAGTAATCAATTTTACAAGATTTGTTTTGACTTCAAAAATTCTCATGATATTTAATACACCTACATTGAAGAGATACAATTCTTCTGC
TGTTAAAGATTTATGTTGAAAACAAAAGCTAGACTTCTCTTGTGTCCAAGAATGTTATCTATTTAATTGCACTTGTCTACCTATGATCTAGTGGAATAGT
TCATAATCTTTATGGAAAATGTACCCATTCAGAATCTGATAAAAGTGATGAGGCCCCTTTTTACTCATACATAAAATTTTATAACCCTCACCCCTCCTTT
TTTTTTTTTTTTTTTTGTTCATTGACCCCATGAATCCAATCCATAAATTTCCAGGGTTAAGAATTCCCTGTACCACAGGTTAAAAATCCCTGAAAAGGGG
ATTAACTCTTYAATTCAAAGCTAGATAGCAAATGTGTAAGTGTCTCAAAAGCAAAATTCTGAGTTTGCAATCTAGAAACATAAAAATACTTTACCAAGTA
TGTGTTTATTTTTTAACTAAAAGTGTTCCTTGGAAATATTTAAATGTCTTGGTAACCTATTTTATCCCTGTTTGGTTAATAGAGTAAGTTCAAAGGTTCT
ATTGGTAGCAGTGACATCAGAGAAACTGTTATGATCATCACTGGGACACTTGTCAGAAAGTTGTGTCAGAATGAAGGCTGCAAACTCWAAGTAAGTGCAA
ATCCAATCTCATGTATTACATCATTCTACACCATTGTCCATTTGATACTCACCATGCTGCCTACTATTGGCACTCCTAATTCTCTTTACTCTATTCTACT
TACCTTATTTGCATAGCAATTTTTGCCATCTAACATATATTAAAATTCAGTCATTTATTATGTTTATTGTATATTTCTATTTCACTAGAATGTAAGTTCC
ATGAAGAAATGGATCTCAGTTTTTTTCAACACCAATTGCTCACCAGTTCCCGGTACATAGATAATATTTAATAAAGACTTGCTAAAAAGTGAATAGTACA
ATAACCTCCCTACCCATATACTTTATTGAGTGCCCACTATGTACTCAGTTTTAAATGGTGTGTATGATATACTTCTTGTTTTCAGAGAAATATTAGACTC
TAAGTCTATCTCCTAGAGTAGAACTTTGTATATAGTAAGTGTGGTTTCCAGTTTTAAGTTTTGATAGTAGAAATTTAGTTACTTTTAATCACAGAGAACT
TTATATTTTATTTTCAATTTCATTTGCCTAAAGCTTTTCCACTTGCCTGAGTGGACTATCAATTTTCACGTCTTTCTTATTAAAAAGCAAAAAGCAAAAA
CACTTTTTAAGTATAACTAAATATGGAAAACCAAAATAGATTAATGTCTAACACAGTCCATCTTTCTATAATGCAAATAAAGATGCTAAATATATAACAA
CATAGTCTTTTTTTCTGTCCACATTATACAGCCAGTGTCCCATCAGCATTTTTTCTACCTCAGACAGCACTATATATCATTTTGCTTACTAAGTGCTTGC
TATTAAAAATAGTAGGGAAAATGTTCTTGAAACCAAATGGTCCCAAAAGAGGCAAGCCAAAACTAGAATATACATTAAGTATGAAAAAGATCACTAAAAA
CAGTAGTACTGAAAAGGCTTGGGTATTAACTTATTAAGTTCTGGCAGAAATTAAATTTATTATTTTTATATTAGGGAAGCATGACTTCTTATATTTTTCA
ATTTCCATAATTATTTKAGTAGCTGATTTACTTCAGCTATTTGTGTATTAAATATCTTGGCAAAAGATAAAACCCACATATCAAAAGATCTATTCAGCAG
TATTTAATGAGCATCTACTCTGTACTAGGCATGATGCTAGTCCTCAAATAAAAAGATAAATAAAATATTCTACCATCCTCAAAGAACTCCTAGTCTGTTT
ATCAAATATAAACAAATAAATAATATTGAAATATAAACAAAGTGCTCAGACAATACAGAAGATGCAGCAACGTTTTCTGTTTGAGTGTGCTCGAGAAGTT
TCCACCAAAATAACAATTTTTGCACTTAATCTAGAAGAGGTTTTTAAGTGAAGAGGTCAAAGTATGGAATGAAAGACATTCTAGGAGACATACAATAATG
TATGAAAAGGCCCAAAGTCAAAATAGGCCTGGTATGGTTGGGAACAGTGAGAAATTCTGTGGGGTTGGAACATAAAATATGTATGTTTCTGGGGGCAGAT
AAGTGACAGTGGAGACACAGGAAAGATGGGAAAAGAGATGGAAGGTGAGCCAGATCTTCATTAATAACAAGCTAAGGAGTCTGGCCTTCATTCCACAGAA
AGAAGAGAACAGTGAAGTCTTTAGGCGGATGAATGACATACTCAGATTTTTTATTAAGAAAGAAGCAAGATGTTTTGTGGACTGATTGTTTAACTGGATT
AGAGTTAGTGAGATCTGACTGGAAGCATTTGCAATAACCTAGGCAAGAATTAGTAAAGGTCTGAATTAATGTAGGGGCAGAGGGCTGAGAGGAGATAGAT
TCAAGGGCCACTTTATTTAGTGACTGATAAGATGTGGAAAATGAGAAAGAGATAAGAATCCAGGTGACTCTAAAGCTTTCAGTTGAGGTTACCAGGTGTA
TGGTGATGCCGACCACTTAAGTAAGGTTTATACAGCCTGGTTGGGGGTGGGAGGAGAGTAGAGCTATTAGTTTGTTTTGGCCATGTTAAGTTCAAAATCC
TTTGGGTCACCAGGCTCAGTTGTCCAACAGGCAGGTGTCCACATTCACCTGCAGCTCAGGAGAGAAGTTAGGGTCAGAAATAGAGAGTGGCTGAAACCTT
CAAAGAGACTGGGGTTACCTAGGAAAGTCATGTAGCATAAGGAAACAGAACAAAGGATCAAATTTAAAGTTCTTCTGATAATGGACAGCCTGGTTCTCAT
CACATCTTTAAAATTACCTTGAAGGTAGCTGCAAACCATCTACTATCACTGGCATTCAATTTTGTTAATATTTTTGAGCAAACATTTTTTTTCATCTTTG
AGGATAATAAGATTTGGCCATAGTGAATTTACTACAGAAGAACTGTAGTAAAGGTTCAGTTTTTCTTTTGAATTTTCTGCTGTGAAACACTCATCTACGT
TTTGTCCAAATCAAAGATATATGAAAGAAAGGAAAGAAAATTATGTATTGTATTAAATAAGCACAAATTTAAGGTAGCTACTGGGCACACTATATGCATG
CTGTGTAAAAGGAACCTGCCATTCTGTGTAGTTCTATAGCCTTTCAGAACTTACTAGGATAAAAGCTACAGTCCTGTGACAGTCTGAATGGCAGCTAGAC
AAGTGCACAACCAGTACTATGCCACATGTTTCTKTTTTATGTTTGTCTTTTGCTTATGTTTTGACCTCCCGGCATCCTAATTCCTTATTTTCACTGAATT
TGTACTTGAAAAAATGTAAACCTACAGAAAAGTTGTAAGAATAGTACAATTCCATGAACACCCAGATATCTTTCATCTAGATTCATCAGTTGTTAACGTA
TTTTCATCTTTGCTTTATCTCTTTCTGTCTTATTTTAGTTGAATAATTTGATAATAAATTGCAGACATCTGACATTTTACCTCTAAATACTTTTACTTCT
TATTACTTGAGTGCCATTGCAACTAGTCTCTTACAATGAAAAAAATACATGTATTTACCAAATTGTGAGTTCCCACTGCTATCTCTAATTCTAATTCTAA
TTCAACACTACAGGGTTATTTTTTCCCTCATTTCATCATTCTATTTTCCTTCYCCCACTGTGACAACTGTGGTTTTCGAGAACACCAATATATTGATTCA
CCTGCTCAATTCTAAAACATACACAATATATTTTTGGAATTGCCATACTGATATTACTACAGAAACAAACTAAATAAAGTTCAAGACTTTTACAGTTCTT
TTTGTCCTTAGAATATATTCCATCGCATGTACACAAAGTTCTATGCTCAAAAGTTACTTGGATTAATTCTTTTTCATTCTCTTCTGTTTAGTCATATTAT
CAAGTTGATAGACATTTAGTTTCATTTGTTTCTGGTTAAACTGAATTTTGATAATTTTCCATCCTGTTGATTTAATTTTATTTCTTGAACATGTGAAATA
GTAATGTGGTTCAAAAGGCAGAACTGTGTTTTAAAAGTATTAACAGAGAGGTCTCATCGCTTCTCGATGCTTTTCCCCCAATCTCACCTACTTCCTCTAG
GTAAAAAAAATCACTCATTAAAAAAAATTTTTCTTTCTATGTTTCTTTTTGCAACAGTAAACAGATGTTCACACATTTACATACTTTTTTGCACAAAATA
TATCATTCTATACATACTCTTTTTGTATCTTACATTTTTCACTTAACAATATATCATGAAAATATTCCCTACATAGAGATCTTTTTCATTCCTTTTGACA
ACTGCCTAGTACTCCATTGTGTCTATGGACTATGTTTTATTTAATATCTCCTATGAATGGTCATGTAAGTGGCTTCCACTATTTTGCTGTTATAAATAAT
ACTGAAGTGAATAATCTCAGGCACAGATTTTTGCTATTGTTGAGATGTAGCTTCAGGGATAGAGTTGCTGGTCAAAAAGCAGTTCTGTTTGTTTTTCTCA
CATTATCTTCCATAGGAATTGTACCATTTTAGGCTTTCATCAGCAATTTATGAAAAGGCCTATTTCCCCATAGTCTCACCTACAAAATATGTTAGCAAAC
TTTTGAATTTTTCACCAATTTGATAGTTGAGAAATGTCACTTCTCTGATTAAGTGTGATGTTTAGCATCTTTCCTTCTATTGGGAGCCTTTTGTTAATAC
TTCTCCACTCTTCCCCATATCATCCATTCTCCCCAACCCCATGTATGTGTGTGTGTGTGTGTGTGTGTRTGTGTGTGTSTGTGTGTKTRTKTGTGCYTGT
AGCCTAATTTCAGAGGTTATGAATCCTGTGGATGAATTAGATCTTAAAACCCTTTATTTTTAAAAAATTTTTCAGCCTAGACTCTGTCATACAAAGAATC
TTTATTTTAAACATGAAACTGAAGCCTCTAAAACATATGTAGTGGCAAATATAAGACCAGAACCCAGATGTCCCTATTTCTAATTTGCTTTCCCATTAAA
CTATTAACTTACACTCAATCCCCCTTTTTCTCAGACTAGGACAAAAGGACTTTTCTGATTGTAGAACATATTTGAAAAGTACCTAGTAAAGTACCTACCA
CATAGGAGGTACTGAGGAAATATTTTTTGAACTATATTGCAGCATTAATTAAATTTGGAATTAAGTGAAAACAAACACTTTTAAAACATTTAGAGCCAGA
CTTTATGGTTGAACTCTAAGAGGTCTCACCCAAGTTCTTACTTAAGGAAAGGTGTATGGTGACACTAAGACTCCATCTAATTGTTGCTTTAGCAATTCAG
TGAATGAGCAGTTTTTTGAATAACCAATCACAATGAAATTAAAAAGTGGCCTTATATATTCAAAATGTGTTCAAAACAAAATATGCCCATTATTGATAAT
ACTCATTGCTTCTTAAGAATGTATATGTATTTTTTTTAAAAAAAGCATAACACCTTTATCAAGCTTTACTTGTTTGCTTTTATTCCACTGTGTGCCTCAG
TCAAGCAACCAATGCAAAACTTTGTAAAACTGTAGGTTGCTTTCTTGGACCCAAGAATAAAGCCAGTCTCACCCAAGTCTTCTTCAATGTATGGTCATGC
ATATATCTAAGGTATATGATTTTTCAGGCAGTAGTGGAAGCTAAGAAGTTAATCCTGGGAGGACTTGAAAAAGCAGAGAAAAAAGAGGACACCAGGATGT
ATCTGCTGGCTTTGAAGAATGCCCTGCTTCCAGAAGGCATCCCAAGTCTTCTGAAGTATGCAGAAGCAGGAGAAGGGCCCATCAGCCACCTGGCTACCAC
TGCTCTCCAGAGATATGATCTCCCTTTCATAACTGATGAGGTAAAATCTCCAAGAATATTTGCAACATTTACAGAAGAAAAAAAAAAAGCATGCTGAACA
TGAGTCAAATGCAAATTCCGCTCAAGTCACTCTGTATTTTCCCCAAATAGTCTTCTCTCCTGCTTAAAAATAACTCTTAAATTGCATTTGCGGCTATTCT
AAATATCCTCACAGGGTAACGTCCTATATCTATATCCTGAAGCATAAATATTGAAGCATATTCTCTTATTTTAAGAAACAAATTCTTTTTTGAAATATAT
TTACTTTTATAAGTTTTAAGATGCTGTTACATTTTTCAATACTGAAATATCCTGGTTTAAGTATAACTTTGTTTGTTACTACAACTACATTTTTCAGGAA
GCCATCTAAATTAAACCTTTGTTAGGGCAGAGAATGTCTATAAATCTCAAGATAAACCATCTGCCGAGAATGGTGTTTCCAGTTTATAGCTAAGCACCTT
CCCACCAGTTTTGTGTTGAAGTTGGTGGCTGCAAATCATGATGGTTAGGGGCACAGGCTTTTGAGAAAGACAGACCTACGTATAAACTCTGGCTCTGTCC
TTCCCTGGTTGTTTGTTCTTGGGTGACTTGTTTAACATCTACATATCTGAGAGCAAAGCCAAGATTTGAGGGAGTTAGTAAAAGGTAAAGGGAAATGAAA
TTAAAGAAATATTTATAAATGCTTAGTATAGATCCTTACACATTGAATATCATTAGGCAGTTCTAATAATCAATGAAGTTACTTGTTGCTATGGAATGCA
ATTATTTTGGCACGTTTTCTTCGATGCTAATGTTTTGTTTAGAAAACAAAAGGATCCTAATGTAACCTACAGACTTTGGGTAATAATGAAGTGCCAGGTA
GATTTATTGAATGTAAGAGATGTACCACTGAGGGCATTGTTGATACAAGGGGTGATTGTGCGTGTGTAGGGTTAAAAGGTGTGTGGGAACTCTCTGTACT
TTCCACTYAATTTTGCTGTGAACCTAAACTGCTCTTTAAAAAGTCTATTAATTAAAAAAAAGAGAGATGGGAAGATTCTGAGGTACTTCATTGTAAGGAA
ACATTACTTCATATAACTACCTTTCCCCAGAGCCCCATGCCATGTAGTATCCTTAAAATTCTATATTAGTTAGGTAACACCAGGTTATGCTGCAATAAMA
AATGTCCCTCAAAATCTCAGCAATGTGTTAAAAGTTTATTTCTGAGCCAGGCATGGTGGCTCACGCCTGTAATCCCAACACTTTGGAAGGCCGAGGCGGG
TGGATCACGAGGTCAGGAATTCGAGACCAGACTGGCCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAATCAGCTGGGCATGGTGGCACACGCC
TCTAGTCACAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAAGCGGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTG
GGCAACAAAGCGAGACTCTGCCTCAAAAAAAAAATGTTTATTTCTCAGGCTATGCCTAATGTGCATAAGGAAGTATGTGGTCTGAAGTTCACTACAGTCA
TGGAAGAAAGAGATGGAGAAAGCCACCAGCTCTTAAYGGCCTCAGCCTAGAAGTGATCCTCATAGATTCTATCCATGGCGTATTAGCCAGAACTAGTCAC
GTGGCCCCCACCAAATCACAAAGGAATCTGGGAAATGTAGTAACACATGTATATTTTTATGAACACTCACTATTCCTGCTATTCCTGCTGAAATGTCCAT
TTTAAAAATCTAGATGTGCACTAAGTTTGAACATCTTATGAACAGGTGAAGAAGACCTTAAACAGAATATACCACCAAAACCGTAAAGTTCATGAAAAGA
CTGTGCRCACTGCTGCAGCTGCTATCATTTTAAATAACAATCCATCCTACATGGACGTCAAGAACATCCTGCTGTCTATTGGGGAGCTTCCCCAAGAAAT
GAATAAATACATGCTCGCCATTGTTCAAGACATCCTACGTTTTGAAATGCCTGCAAKGTATAATAYATTGCACATGTCTCTCTGTGTATTCAAGCTTATT
TGTGTGTTCATGGGGTACCGATGTAGCTAATAATAATGATGTGGTCATTATGCAGGGTTACGTTGCATAAAACCAAAGAGTGCCAGATTTCCCATAATAG
GGCTATTTAGGGGGCCAGATGAAACAACTTCACTTTGGCACTATGAGTCCATGACTGGTAACTCTGGGTATAATTTTTAGTAGGGATGTCTTGTTCAGTC
TGGCAAGTGTATATTGCCAAATGTTTTAAAAGCTAACTGCATTTTCAACAGGATTTTAAAAATAAGTACAACAAAACAAAGTAAATTCTTACCAAATGGT
TTTCATTGTAACATTTCAAGTGTTAGGAATTTTTGAAGCCTCATTTATCACAGATCAAATAAATTTCCCATTTAAGTTTAAAATCTTAGGCACGGCCCAC
ATTTCAAGGTGATTCAAAATTTAAAGAGTGCAATCAGTAGAGTTCATCACTCTATAACTCTTGCTGAATTAATTTCCTTCCAGTTACCAAGTCTGTCCTC
CCAAATGCAAAGTGGCTCCCCCAAGGTGCCTCCTCCCTGGAATTAGAGGGTCAGAGAAGGAAGTTTCATTTTTCCTGAGTTACATGCAGAACACTACCCC
CACGAAAGATCAGATTTAAGCATTCACCACAGAGATTGGAAGGGTGGAAAATAAAGGGAAAGAAAATGAAAAAAGACAGCATTAAAAGGTTGAAAGAAAG
AGAAACAAGGACTAAGACTGAAGGAAGACATAAGAAACGGGTGTGAGTAGAACAGAGATAAGAGCAGGACATTCAGGAAAGAGCAATGGAGCAAGTGAGT
GAGAAAAGAAGCCAAATCTCTCTGCAGCCATGTATTTCTAGTTGAACGCATTTAGCTTCTCCATTTCTTTGTTTGCTTTTATGAGRCCCTGTGAAGGAGA
TCCTGGGTGTACTTGCTGCCTTCGTCTTATGGCTCTAGCATTTCAGGGACCCGGAAAGAGGAGACAGTGGGGTAGAGAACAGACTAGAAATTGTGAGGAA
AATATCACCAACATTATGGTTCAGAGTCTCAGAACCAAAAACATTAGAGTGGGGAGGAACACTAAAGGCTCCCTTGCTTGGTATCTCTCCACTGTAGGGC
TGTAGTCTCCCAGCAGGTGGTATTCAGACTTTGCTTCCCTCTCCCGATGACAGGAAGCTCACCATCTTTGAGGGAACTTGTGCCAGTGTTGTTCAGAGAC
TCTCACCATTATGTCTTTGTATAATCTGAAATCTTCCTATTGGCTCTGGTTTTATCCCAGGAGCAAAGCAAAACACGTCTAGTCATTCATCCACAAGAAG
ACCCTTTGAATATCTGAGGATAGCTGTCATAACCCTTCTCATCTTTGCTTCTCTAGGCTAAAATCTTATAACCTAGTGATATTGGAGGGGAAACCTCTCA
GGATGCCATTGCCTCCCCTCAATTATTTTCTACCTTAGACCTAGGACCAGATTTCTATAATTGATTATTTTGATGTTTTGCTATGTTGTCATAATGTTGC
TATTACTGATATGATTAATGTTATGTAATCAGAAATGAACATCTTAACACTAATTACTTAGACAAGATGGACGCAATGGGGTAAGGATTAAGACTTACTC
CAGAGGAGACGATGATTTCTATATGGGTTTTACTGAGCTGTTTCTGTAATTGGAAACTTCACAGATATAGAAGAAATACTGGAAATGTACTGTTATATGT
CATTAGTGAGAGAGACTATTAGGGAATGCAGAAAAACATTTAAAGAAATATTGTGCAATCTCCCCAGTTTGGCACAATTTTCCTTTAAGTGTATGCACTA
TTAAACAATAAAACCATGAMGAATCAAAGAATTTTGCCATGCCTGAAATGTGTCTACTAGTCAACTTAAGCCACCTCAAAGCTGGACACCCTTGCCTTGC
TGTCATTTTGATACCAAACTAAATTTCAAATATCTGAGTAATGAAGGGGCTAGCCCTAATCCTGATGCTACCACGCCAGCTGGCACCACCCTGGCTCTTG
GAAAGGCATGAGGAAAATTTGGCTTCCTCTTTTTTCCACTGAGGATTTTTTTTTTCCAAATTTGACTTGGGAAACWGTCATTACAATGAATGTGCAGCTT
TTTTTTTCCTCATATGTTGCAGCAAAATTGTCCGTCGAGTTCTGAAGGAAATGGTCGCTCACAATTATGACCGTTTCTCCAGGAGTGGATCTTCTTCTGC
CTACACTGGCTACATAGAACGTATGTACACCAAAAAGAGGTTCTCCTTCCATACCYCACAACTTAGCATTGCTGGAACTGCTATTAAATTACAGTTATTG
TGTGTCATCAGGTAGTCCCCGTTCGGCATCTACTTACAGCCTAGACATTCTCTACTCGGGTTCTGGCATTCTAAGGAGAAGTAACCTGAACATCTTTCAG
TACATTGGGAAGGCTGGTCTTCACGGTAGCCAGGTAACTCACTTCTCATGGATTTTGCTYAATAAAGTATGCAAGAAATCAGGCTGAGGTAAAATAAAAC
ATATATGCTGTGGGTAATGCTATAGAATGTATAAGTTAATGGTGGCTTCTGTCATATTTTGCCCATGATTTCCTTATCTGTAAGAGGCTGTATGGTTTAT
AGTCACTCAGAGAAAGTTTCGAATWTGAACTTGAAACCTAAGTAATTTGATCCATTGAACTTGACAAATGTCCATTTGTCTTTTCAAAGGTGCACATATT
CACAAAACTGAAATTGTGCCAATATTTCTTACATAAACGTTTAAAAATAATATTTTATTTTTATTCACAGATATATTTCTTAGCCTCCTCTCACCCCCAA
GTATTTAATTMTAGAATATATTTTCCTTTTCTGGTTGTTTCTATGAAGAGATTGATTCCCCATAATAAAACCCTTCATAATAGAATATGATGCTCTAAAG
AGTCAATCTGTATTTCTCCAACACTGCTAGAAGAGAAAAGAATAAAATGTAGGCATTCAACAGCTGGCTGACTTCCATCCCTTTAGTGTTATCCAAATTG
AGGTGATGGTCTATAAAGACTTCCTAATAATGACATGTACTTTCTTTTTAGTTTTTATGTACATGAAATTATTACCTTGTAAATACAGCCATTTAAGTTT
TTAAAATGATCCAATGCTATAAAAACTTGAGTCTTTATCAATCTTATATTACTATACCTTTTGGTAGTACTGTAGTCAGAGTACTATGCCTTTCTGTCCT
GAGGAATCACAATCTGTTTTCTGATATGTACTTTGAAATGCAAAACATCCAGGGGTTAAAGGGCTGGGTATGGAGGACAGAAAATATGTAGGATTCCTAT
TTGTTGTGGAAATAAGTGTGTTAGCCCCCTCATGGTGTTTATCGACTTTTTTTTTTTTTTTTGGCTAGGGAGAAAAGTTTGACATGGAATGGGGTGAGTC
ATGGCTTAGAGAATACCATGTCCTCACATAGCAGCAGCCTTAGAATGACTCTGCCAACACCTTTCCATCTACTTTTAGATGCTCTGCAAGACAGCTGATG
CGTTGTATATGACAGTCCTGGAAAGACTAAGAGTCTGTAGGATGCCATCATAAAATAGAAAGCTCATGGTTTTCATAGTCAGACAGAAGGGGTATGGGTC
CCGCCTCTGACATTTATTAGCTGAGTAAACTTGAAAACTTTTTTTGCCTCATCTACAAAATGGGTAATATCATATGTACTTCAAAGAGTGGTTGTGAGGA
TTCAATGAAAAACTAACCCACCTTATATTCAGGCACAGAGGTTTTTGTCTGTTTTAGTTTTTGTTTTTAGCTGTTGCAAATATTTAAGTTTTTGGCCCCT
TGAGAAGTTCTAGCTGCAGCTCAGAAGCTTCACCATTATTTACAGAGCAGGCAGGGAGCTTGCRTCATGAACATTATATTGATTTTATCCAGGTGGTTAT
TGAAGCCCAAGGACTGGAAGCCTTAATCGCAGCCACCCCTGACGAGGGGGAGGAGAACCTTGACTCCTATGCTGGTATGTCAGCCATCCTCTTTGATGTT
CAGCTCAGACCTGTCACCTTTTTCAACGGATACAGTGATTTGATGTCCAAAATGCTGTCAGCATCTGGCGACCCTATCAGTGTGGTGAAAGGACTTATTC
TGCTAATAGATCATTCTCAGGTAATTCATTCAGTCTGTGAGTATTTATTGAGTCCCTAAAATACGCCAGGCACGTTTTAAATATGCTTAGTTCTTGGAGG
ATACAAGACAAAATTGTGCCCATCTTGGAGCTCATATTCCAAGCACTTGGCCCTCTTGGTATTGGTCCCCTTTCTCCTTTACTATAGATATGTTATAATT
TCATWTATTAGATGATTAATAAGTGCCTTTAATTGGAGGCAAAGAGAAAATGTTGATGTTAACAGAAACAAGAAAGKTTAGGACACAACAGAATAGAGCT
ACCACTGTCTCCTCACTTGGCTCTCTCAGGCACGAGGGCTTAGGTGATATTTATCCTGAAGGCAGGAGCTGAACTATGTGGCCTTATAAGTCACTGATGA
CATTTGTAATGACAGAGATGATGAAGATGCATACAGTGCATCATTTTGACCCTGCCAAATTAGTAGAGGCACAAGCAACCACGGCCATGAGCCACATGCA
AGAAATCATGAAGACTCTTTGCCCAAAATTCTCATGTATATAAAATCTCAGAAAGATGTGTTCATTCTTAGAGTATAGGAGTACTTTCATTCTCTAGAGC
CACATTCTTCAAAATGGTTTTCAATTTTTTGTGGCCCGAAATCTTATGATACTGTACCAAAAAATGACAATACTATCTTTGATGCAGTAAGATTTAAGTG
GCCAAGATACTGTGGGATGGAGATGGTCTGCCTAATTAGATTTTCTGAAAAACAGAAGAGGGTTAATCTGAATAACCTTTGAGTCTGAATGTTTGGTGCT
TAAAATTTTTCTTTAATAGTTTGATTTATTTTCTGCTTCACTAAGCATAGCAACATAAAAAATGATATATTTGCTAAATAAAATCTTATGAGGAATCAAA
GTGATCACTGTGTACTCTAATTCATACTTATTATATTGAGAATATATAAGGAGATTGAAATAAAAATTTACAGATGATTGGATTGACTTGTAAAGTTTAC
TTTATTGTTTTAATACATTAATGGATAATAGCCTACGTKTGAATTTTGCCTCCGTTACCTTCTTGCTATGTGCTCTTGGGCAGTTACTTAATAGCCTTAA
GCCACAATTTCATACTAGTAAAATGAGGCACCTGGAACAGGTGGTCTGAAGATTTTATCAGCTTTTTTGTTTGCCAGATAATTTGAGGATTCTGATTTGT
TAGGTTCTGGTTATGAAATCATAGATTTTAAGGGCTGGGAGATATCTTAGGTATTAGACTGTATTAAAACTCCTCCAAAAGCTCATTATTTGGGATTAAA
CAGTGTTAATTTTCTATCTTTCTTGTTCCTCATATCAGCTCAGGATAGCTGTATATAACAAAAACAAAAAGCAATTTAGAGTGGCTTAACTAAATAGTTT
CACTTTTATAGTGTAACAAACATTTGGAAGTASGTGGTCCAGGGTTAATATGGAAATCTTAAGATATCATCAGAATCCAAGCTGCCTTCCTTCAGCTCAG
CCATTCTTACTTGTGACTTTTGACCTCATGCTTGTCACCTTGTGATTATCAGATGGCTGCTCCACTTCCAGCACCACTTCCTCATTCCAAGATGGAAGAA
GGGAAGGATAAGAGGTCACAGAGTCTGACTCTTTTTCAAGAATTGTTTGGAATCCCTGTCTAGGTTTTGGACCAAAACGGTGTTACATGGCTATCTCTAG
CTGAGAGAGAAGCTTTTGAACATAGTTTTTCAATGGGTGTCTGAACAAAATTGTTTCTGTCAATACAAATGTAGAAAGGACAAAGAGCAGTGCGTCTTGT
ATCCCTTAATCCTCAAGTCACACATKAAAAAAACAGTTCTCAAATTATATCAGAATTTTACATTGCACAATTCCAGTTTTAATGAAAGAATCGTCTAAAG
GCAGCATAAGTACTGAAAAAGTAGTCCACGTTTTAGGACACAGAGGACAGCTCAACACCACCTGTATGTGCTTAGCTACCCATAAACAATGCCTGAGGAT
TTGAATCGGGGTGTAAAACCATGAGGAGTAATCTAGATCTGGGTCAGCAAACTTGTTCTGTAAAGGGTAGAAAGTAAATATTTTAYGCTTTGCAGGCCAC
ATGGTTTCTGTTGCAGCCACTCAATTCTGTTACTGTAGAGTGAAGACAGCCATCAGCAATACATTAACAAATGAGTATGGCTGTGTTCCAATAAAATTTT
ATGTACAAGAATAGCCAGTGGGCCAGACTTGCCTGCTGGCCATAGTTTGCCAATCCCTGATCTAGATTAWCTTGTACAGTTTTTCTATTCACTAAGCTAG
GGCAGCTAAGGCAAGGCATATTCTATGAGAAAGATTGCCCCCTAGCTATTAAACATAGCCCAGTGTCTGTGTGTCAGGTTGGAGTATTTGGCAGATCTGA
GGTTATTATACAAATTAAGCTGTCTGAGGCCCCCTGGCTCTGCAGAGCACTCCAGTAATGCCATCCTAGCTTCAGAGACACATACCACTCTAGGTCAAGT
GCTGACACTGAAGGAAATGTTGGCAGTGGGTAGCCCATCACAGCCACCAGGGCAGATGGAATTACTCTGTGCTTGCTCACACTTTCTCTCTTCAGCTAAT
TGGATTACTCTTCAGAGAAAGATGTCTCATAAAGTCAGTTTAATAAGGGGATCCTCTTTAGCCAGTAAAGAACATATTTCCCTAAATGGAAGCAACAGGA
TGAGTTGTCAAAATGTCAGCATCTGAGCTATAAGAAACACTTATGGGACCAAGAGGATCAAAGAGGTCACATTAGCTACAAAGTTCTAATAWCTTTTTCC
TCTAGTTCATAGGAAAGAATCTAAATAAATATGCACTCTGGGCCAAACAAGGACATAAACCTATGCTCTCTCTCTCTTTTTTTTTCCTTTTTTGCAATAT
TTCTTAGAACAGGCTTTCTTGTACACCAGGAGACAAAAGAGAGGTATGAGTTTGTGATAGCCATGAATATTAGTAGAAAAGTCTTCACCCAGGCCAGGTG
CAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGTGGCCAAGGCAGGTGGATCCCTTGAGCTCAGAAGTTTGAGACCAGGCTGGGCAACATGGTGAAACC
CCAGATCTACAAAAAATAAAAAAATTAGCTGGGCATAGTGGGGTATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGGGTGAGAGGATTGCTTGA
GCCCAGCAGGTTGAGGCTGGTGTGACCCATGATCACACCACTGCACTCCAGCCCGGGTGACAGAGCAAGACCCCATCTCAAAGAAAGAAAGAAAAGAAAT
GTCTTCACCCTAGAGACAATTGGAGTGTTTATTCTGGCTTCATGTGTAGCCTCTGAGCCTGATTTTTCCTTTCAATCTTAAGATATAATGCCTACCATGG
AATATTGGTATGAGGATTAAATGAGACACCAAAGCTTTGTAGAGCTTTGGGCACACAGTATGTGCTCAAAACCTGTTAGTTCTACTTACTTTATACTGCT
TAAAAATTAGCACCATGTGGCTTAGTCCCTTTCAAAAAGGAAAGAGTGCTTTGTTTTTCTACAGGAGTCAGTGGTTTATCTTTATAAGGGGGTCCAAGAA
AATTCCTCTTTGCACATGCATTCTTCTTTTGTCCCTTTGTGTAAGGAAGTAGAATTTTCCCAGAAATCCAAGGCACTCCTCATAACCCACCTTGCAATGG
AAATGCTCTCTCCCCACAAAAGGTGCGTTGTCTAACAGCCATGAAATGGCCTTTTCCATGGCACTTGGTGTATTTTGCCTTCCATTTAATATATGGTTGG
TGGGAAGGCCAAGATCCACATCACAGGCCTCTGCTGGACTGGGTGGATGAACAAGATTATAATTTTCAAATTAGGAAGAGAGAAAAAGATGCAAAGAAAG
GAATAYTTCTGAGGTGAGGCACACCATAGCTTTCATTTGGAAAYAATCATGTTTGGAGTACACATACAGAACTCTCATATTTTGGTCCCATAGTTCACAG
GCATAGGTGAAAATGTGGGCATGACTATTGTGTTTTCTTCAGGATAGTTTGTGTCCATCACATTAGTTATAATGCCTCAAACAACCCCTTCATCCCATGC
AGCCATATTTTGTCCTATATCAAATGTCTCTTTAAGTATCCTTAGRGCTATCTCCTAATGTGTCCTGARCATGGCACTGAGAATCTCATGCTTCCATCAA
AGAGTGTCCTTCAGACTGAAAGTAGCTTCATGCCGCAACCGTACTTTTTTAATACACCTGGTTGTAAACCAAGTCCTTTGCCTGGGGTTTCCTGTGACCT
TTTTTTGGAAAGTGAAGAGAACTCAGGGAGATCAACACAATCCTTGCTAGAAAGTTAAATCATGGCAGTTATAGCTGGCAAATGCATGGCTTGTTTGGTC
TGAGTAGGGCAGTTACATAAAGAAGTTAGTCATCCTGCCGGTTGCCAGGAATTTAAGATCTTTGGAGGAATATCAAAATTAAGGATACTGAGTCTCTTTC
TCAAAATCATTATCACTTCCAACACTGTCCCCAGGCAATCTGATTCCAATCCAACTAAAAAGTTTTGTGCCAACATCACCTCAACTAATGTACATGAAAA
AAAAATGCAAGACTTAAAGGCTAAATGCAGGCAAACAGCACAAAACAATGGGTTTCAGACAACCACAAAATTTGCTCAGGATGGGCCATGTTTGTAAATA
ATTACTGTCCCTATGAAAAATACTATTGAGTTCATGTTGAACTTGACTATTAACTCAGTGTCATTTCAAATGTCAAACAGCAGGGTATTAGGCTTAGTTA
AABTTGCCTTCGTTTTCTAGTTGGATGTAGGCAATTCCTGGAACTTGTATACAGTTGGYGTCTCTGTAACCGCTGGTTCCTCATCAAATTCAACCAACCT
CAGATCAAAAATATTTGGAAAAAAAACACCAAACAATAAAATATAGCAAAACGACAGTATATATTCATACAATTTTTAAAATACAGCATAACAGCAACAT
AGCATTTACACTGTATTAGRTATTATAAGTAATCTAGAGATGATTTAAAGTGTATGGGAGGATGGGTGTAGGTTACATGCAAATACTATGCCTTTTTATA
TAAGGGACTTGAGCACCCTTGGATTTTGTTATACTCAGGGCTGGGCATAGGTAGTCCTATAACAAGTTCCCCTTGGATACTAACGGACAAACACACTCCA
CTGGGAGTTTTAAATCTTGTCTGTTATTTTCTAGCAGGATGCAGTTGACTGTATTTGCCACAGCACATAACTAGAGAAGTGCTGAAGGACCTCGAGAGAT
CACCTGATCCAAACCTCCTCCCCTTACTTCCCTGGACAAAAAGCCACAGCTAGATTTCTGATGGAGATGCCTTCATTTTCCTTAGTTCAAAAGTTTCCAA
ATTTAGGTGGATCAGAATCATACAAGGGCTTGTTAAAACATAGATTGCTAGACCCCATCCTCAGAGTTTCTAATTTAGTAGGTATGAAGGGGAACTTATA
ATCTGTACTTCAAACCAGTTCCCAGGCAATGCTGATGCTGTTGTTCACAGAAACACACTTTGAGAACCATTGTTCCTTTCAAAGTGTAGCAATGATTGAA
GGAAAACATCCTTCTTAAYTGGCACTTCATCACTCTGGTATTTTAATTGACTAATTAATTTAGCAAATCAACAGAGTCTACTTCCGGTGCTTAAAATTAG
GACAGCATGTTTCCAAGCCTAGAGAAAGACTCCAACATCAACACAACTCAAATGGAATTATCTACAGCAGGAGGTCAAATGTGCCATTGGAAAGGGGGTT
AACTAAATTGTACTTATTATTTTTATAACTATTATTATGCTTTTTTCTTCTAGGAACTTCAGTTACAATCTGGACTAAAAGCCAATATAGAGGTCCAGGG
TGGTCTAGCTATTGATATTTCAGGTGCAATGGAGTTTAGCTTGTGGTATCGTGAGTCTAAAACCCGAGTGAAAWATAGGTAAGTGTTTATGCATTATACA
TTTATGAATTACATATAAGACTATATACAGAGAACTTCCGAAATATGTTTTGGGAATTAATCTTCTGACTTTTCAAAATCTATGCTTTCTATTTGGAATT
ATAAAACGATAGAGTTGGAAGTGATCATAGGAAATTATTCTGTCTATAGCTTCTTATGAGCAGGTCAGTACCTAATATGACTCAGCCAAGAATTTTCCTG
CTTTTAAAGACATACATAGACAGGATGCCCTGTGAATCAGATGGTTCATCTTCTTTTGGTATTCCACCAAGAGAAGAAATTTCACTTTAAGGTAAACTTT
CCTCTTTTGTTGTCTTCAGTGGGGAAAAATAAAATAGATAATTTCATCTGTGCAGAAACTAACTATTAAATGTTAAGAGTCCTTAAGTCTTTTCATCAGC
ATTCCTTTTTCTAAATAAAATACTCTAAGCTCCTTTAATTTTTCTAATCTACCTGTGAGATTTAATGAAAGTGTTTTACTTTGAATATAAAACAATGTCT
TTGAACTAGTGTGAAGATGAAAATTATTAGCCTTCTGTTACAGAATTTTTAAAAAGGAAATAGAAATGCAACTAATTTTAATTTTTTGATATTTAAAAAC
ACATTCAGGCAAAAGTGAGATATGTGATAAAATCAAATTTTTGATTCATCTTGAGCTATGGATGAAGGAACTGAGAGCAATCAAACAGTAGCACATTTAA
TGTGAAGTGTGACCCACAGTGTTACCAAAAGGAAMCACAGAATGAAAAATGACACTGGTCATCAAAAGGTTCACAATATAACTTAGGGCTTCCCACATAA
TCAGTCATCTTTCACCTCTTTCCAAAGTACTTTCTAGACAGAAGTTTTTCCAAATGAAATGGAATTGAATTCTTTGCAAAGAGAAATCAACAACAGCAAC
AACAACAAAAAGTAATTTGGATTTTTTWAAAAAGTACACAGTATCCTTAAGAATCTACCCTTATCCATATTGTAACCAATCTGTCTTCCATTTCCACTTG
TTCATTTGAAAAAAATATCTTTTAAACCTTTGCTGAATATAGGACATCAGAAGGTACTCTAAGTGATTCAGGGATTAAAACGACCTCTGACCTATTTTTA
CACTGATCATAACAGCAGCAGGGGTTTTAATTTRCRCAGCAAAAATTAATATTCCTGTCAAAACATAAGGGCATAAAACTCTCATTTAATTGTGAAAGCA
GTTTCTCACAGTTTGATTTAAAGTCCACAATTCAATTACAGTAGAAGTAAGTCTTCTGTTGAAATTATTTATCCTCTTCATCATTATCCAGGGCACATTC
CCCAGCCAATGCAATCTGTTTATCCAGTTATCTAGAGCATCATTAAAGGACCCACCATWTTTTTCCTCCTAGGACCTACTGTACATGCCCCACTGTAAGA
ATGATTTTTTGTAACACAATATTTTTTCAAATATCTTGGCAATCAAGGGCTTACGCCTCTAGAGACTCTTTGGAGAAGGTAATGAAATGGAATTAAAATA
GCTGCCTAGAAGCCAACAGAGAGATAGTTAACAAAAAACTATAAGCATCGATTGTCTTCTTGGTGAGTTTAGACTCCATTTTAATATAACTTGGGTATTT
CTGACCTGCTGAGAGGACTGGGTTCCAAGAATGTTTTCATTTTGGTCTTTGTTATGCCCATACAAAACAATGTAGTATCTTACAGACACTCCCCACATCT
GCAACTGAAGGCAGGGGAGAGCTCAGGGGAAGGGCAAACCTTCCCTGCCCAATATCTGAGACTCACCAGGCCCTGGTTACCAGCAGAACTCTAAGCACAT
CCAGGTCACCTCTGAATCCCTTAAGTGTTTCCTTCCAGTCACTGGCATCATACGTTCAGACCCTGTAAAGTTACAGCTGTTAGTCCAATWCCATTAAATA
TAATATGAACAAGTTTTTTCTTTTTTTCTCAAATGTTTAGGGTGACTGTGGTAATAACCACTGACATCACAGTGGACTCCTCTTTTGTGAAAGCTGGCCT
GGAAACCAGTACAGAAACAGAAGCAGGCTTGGAGTTTATCTCCACAGTGCAGTTTTCTCAGTACCCATTCTTAGTTTGCATGCAGATGGACAAGGATGAA
GCTCCATTCAGGTAAGATGCAGCGTTCAGGTCATGTTCCAGGACCATCCCCAGTGCACCAGGAACTTGCATTCAGTTTAGAACATTCAGTTTCAGAATTA
AAACRAAACAGTAGAAACCCAGGGAAAGATGAATTTTCTTTAAATGAGTAGAAGAATAATTGATAAGGCCAAAAAAAGTCAGTTTCTGGGATACCAAAAA
RAAATCTAATGACTAGTTCATTTGATTCTGGAGATAGTTATCATATTCTAATCCAGAAACAATTTATCCAGGAAAGAAAGGCCTATGATTTACCATAGGA
GTTGCCACATAGTTTCATAAAAAAAATCAGATACACATTTACTGTCTGGTATCTTCACAATAAACTGCTGGACAAAAGATTTCAAATAAAACACCTGGCA
ATCCATTTACCATGTTTAAGGGCCAAAATGAATTCGCAATTTTTAAGTATTCCATATAGCAGCAACTTGACCCTGTTTAAGTTTTGGCTCAAGTTTCAGA
GTTTGGGATTCTGAATTTTTTTAAATAATGCTTTTGGTAAAATAGTTAGTGTTTTAAAATACAAAGATATAATTTCCATGTAACATTTGTGCTGTGTCAT
TTGAATTTTGTAACCATTATTTGTAACAATACTATCACATAGAGCTAGAATGCCTTGAGTCTAGGTAGCACTGACCCTTTCATAATAGTTGACCTACGGT
AAGCATAAGGGTCATTTGTACAGTTAAAACAGCAAGCCACATCTTACATCATCTCCTTTTTTAAGTAGGCCAAAATTGAGCACCTTCATTATTTTACTGA
CATTTCATGATTCATATTAAAAAACGCATTGATTATATAAAAGTAAACGAGTCAGTTGTATTTTCAGAGAATAAAAGATTGTGCTTTATAGTTAAACTAT
TAAGCTGTCACTAACTTACATTAAGTKATATCTAGAATGAACCTCCACAAATGCATTTTAAAAACCCCAACCTTCTAATGGTTGAAATGCAGTGACCACC
AACCCACCCACATGATTAATTGGTTTGGTTCCACATTTGCCTTGGGCSAGAGCTCTTAGAATGTTTCTCTGTCCGCATTCTCTGCTTAAATCCAGCTGGG
CTTGCCTGTTACTCAAAAGGAGAGTGCTCCCAAGGTGGGGCTTCTGGAATGAAGGGTGAGACACAGCACAGCCTGCAAAGCTTAATGGCATCACCAAAAA
GCTGAAATGAATTTAGTCTTTCATTCTAGAAAAATGTATGGCAGGACTCCCATATCCCAGGCATTTGAAGTGTTTCTGTTGATATAAAAAGAAATGAGAA
GAAAATCACCCATTCATGGAGTAGCCTTTGACACTCATATCCTTTCTCAGATTGCTTTGGAACAGAARCTTCAAGTACATTCAGTAACTTGGCTGGAGAG
GTATAGGGTGACTTAACTGTGTGTGTAATTCTGTTATTGTTGCTGTTGTTGTACAGGCAATTTGAGWAAAAGTACGAAAGGCTGTCCACAGGCAGAGGTT
ATGTCTCTCAGAAAAGAAAAGAAAGCGTATTAGCAKGATGTGAATTCCCGCTCCATCAAGAGAACTCAGAGATGTGCAAAGTGGTGTTTGCCCCTCAGCC
GGATAGTACTTCCAGCGGATGGTTTTGAAACTGACCTGTGATATTTTACTTGAATTTGTCTCCCCGAAAGGGACACAATGTGGCATGACTAAGTACTTGC
TCTCTGAGAGCACAGCGTTTACATATTTACCTGTATTTAAGATTTTTGTAAAAAGCTACAAAAAACTGCAGTTTGATCAAATTTGGGTATATGCAGTATG
CTACCCACAGCGTCATTTTGAATCATCATGTGACGCTTTCAACAACGTTCTTAGTTTACTTATACCTCTCTCAAATCTCATTTGGTACAGTCAGAATAGT
TATTCTCTAAGAGGAAACTAGTGTTTGTTAAAAACAAAAATAAAAACAAAACCACACAAGGAGAACCCAATTTTGTTTCAACAATTTTTGATCAATGTAT
ATGAAGCTCTTGATAGGACTTCCTTAAGCATGACGGGAAAACCAAACACGTTCCCTAATCAGGAAAAAAAAAAAAAAAAAAAGTAAGACACAAACAAACC
ATTTTTTTTCTCTTTTTTTGGAGTTGGGGGCCCAGGGAGAAGGGACAAGRCTTTTAAAAGACTTGTTAGCCAACTTCAAGAATTAATATTTATGTCTCTG
TTATTGTTAGTTTTAAGCCTTAAGGTAGAAGGCACATAGAAATAACATCTCATCTTTCTGCTGACCATTTTAGTGAGGTTGTTCCAAAGACATTCAGGTC
TCTACCTCCAGCCCTGCAAAAATATTGGACCTAGCACAGAGGAATCAGGAAAATTAATTTCAGAAACTCCATTTGATTTTTCTTTTGCTGTGTCTTTTTG
AGACTGTAATATGGTACACTGTCCTCTAAGGGACATCCTCATTTTATCTCACCTTTTTGGGGGTGAGAGCTCTAGTTCATTTAACTGTAMTCTGCACAAT
AGCTAGGATGACTAAGAGAACATTGCTTCAAGAAACTGGTGGATTTGGATTTCCAAAATATGAAATAAGGAAAAAAATGTTTTTATTTGTATGAATTAAA
AGATCCATGTTGAACATTTGCAAATATTTATTAATAAACAGATGTGGTGATAAACCCAAAACAAATGACAGGTSCTTATTTTCCACTAAACACAGACACA
TGAAATGAAAGTTTAGCTAGCCCACTATTTGTTGTAAATTGAAAACGAAGTGTGATAAAATAAATATGTAGAAATCATATTGAATTCCTTTTGTCTTTTG
TTACTTCCAACACCATATTTCTCATTCCTGCCACTTTCTGAGCCTAGACACATACACAGTTAAGCCTCTGCAGCAATACAGGTCAGGCCAGGTTCTCTAG
ATGGGAGACCAGACCCATTTGAAAAATGGGCCACTGAAAATATCAGCAGTCAGAACCTCTTAAGGACGTGTGAGCTTGAAAACATGCCATAACCCCAGTT
TTCATAAAGCTCTGGACTGGCCCCTTTACTGTCATGTTACTAAAAAGGAAGAAAGGAATCAGAAACTAAGGTGGTGGGTGGAGCATGGTATGTGGTAGCA
TCAGCCTTGGGGAAACCACTCTGTAAAGATGCTGACGTCGCAGGGAAAGTGAGTTGGTCTAGGGTACTAAGCTGAAGATGTTGTGGACTCAGGCGCTTCA
GCCCTGTGAGGTTTAACAAATCACAGCCACCTCTGCAAAATGTAATCATTTACTTAACAATGATGACTGTGGTGCTCTGAATGTTAGTGTTTTGCCATTT
CCCAACTGTTTACTGGGCTGCTGAGCCAAGTATCTGCCCACCCAGTGGAGAATGGATGATCCTGAGCAACTCTAACATGCTCCAAAGAAACAAGAAAGCA
GCAGCATAGGACAAACAGTAACTCCTTTGTAGATAAACAAGAYAGAAAATGAAGAGGGGTAGAGTGATAGTCCACATTTGGAAATAAGATATTGGAGCCA
GAAAAATAACTTTAAACCTCATTTGCAGTCCTCTAGTTCTGACTACTTCTCCATTATAAATGCCAGCATACAGACACATTTGTCTTCTGAAAAGACATCT
ATTTGGGAATTGTATAGCCCCCTAATGTGAATCTCCAGGCCTCTGTCCAGTCAGATCTTTCCTGCAAGCTTTAAGATTAGCGTGGCTTCTTTTCTTCTGT
GAAGTGTTATTGTCATTCCCTGGCTCATGTTGCAGTCCTGCCTGTGACAAGTTGCTCCCTGCTTCTCTAAACTGACCACCTTCAAGTAAGTGTTAAAGCT
AACACTTACTGAGTGCCTATTATATGCGAGGTATTTTAAAGCCTTTTCCGTACATTAATTTAATCTTCATAAAAACTATATTTAATAGGTAGCATTATTT
CCATATGATAGATCAGCACTAAGAGAAATATAATATGAGTCACATAAGCAATTTGGAATTTCTAGTAGCCACATTAAAAATGTAAACCAAAACAGGCGAA
GTAAACTGTAATAATATATTTTATTTAACCCAAAATATCCAAAGTATTATCGTATCAATATATAAGTAACATAAAAATTATTAATGGGAAGCTTTACTTT
TGTGGGGAAGATTAGGTCTTCAAAATGTGGTATATATCTTGTATATAAAGCACATTTCAGTTTGGATGAGACACATTTCAAGTGTTCAGTAGATGCATGT
GGCTAGAAGCTGCTGTATTGAATAGTACAATATTGGGCACACAAGACATTTAATTTGCCCCACAGAAGACACTTTCTCACTTAGAAAGTGAAAGAACCAG
GACTCAAATATGAGTAGTTTCACCTCAGAACCTGCTCTCTGAACCCATTATAGGATGTTTCCCACATGCTTTTGGTTTTAAAGATTTGCTGCCAAACGAA
TACAGACAGTAGGTTATGAAAATGAGAAACATGTGACAGCAGCAATAAAGCTAAGAGTTGTTGCCCTTTCTTTTTTTTTGAGACAGAGTCTTGCTCGGTC
GCCCAGGCTGCAGTGCAGCGGCGCAATCTCAGCTCACTGCAACCTCTTCCTCCCAGGTTCATGCCATTCTCCCGCCTCAGCCTCCCGAGTAGCAGGGACT
GCAGGCGCCCGCCATCATGCCTGGCTAATTTTTTGTGTTTTTAGTAGAGACAGGGTCTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGA
TCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACTGGTGTAAGCCACTGCGCCCGGCGGACTTGTTGCCCTTTCTCTGTGGTCGTTCAGTCTCCTCCT
CTGATGGAATCAGAAGCCCACCATAATCAATTGTAGAACGCATCCATCATTCCAAAAAGAAACCTGTACACTTTAGCTATCACTTCCAATGTACCCATCT
CCCAGCCCTAGGAAATCACTAGCCTACTTTCTGTGCCTAGATTCATTGTGGACAATTCATATAAATGCACTCATATATACTATGTAGTCTTTTGTGACTG
GCTTCTTTCACTTAGCATTGTGTTTTCAAGTTTCGTACACGTTGTAGCATGTATGAGCACTTTATTCTTTTTTATGGTCAAATAATATTGCACTATACAG
TTATGCCATGTGTTTATCCATTCATTAGTTAATGGACATTTGGTTTGTTTCCACCTTCTGGATATTATGAATAATTCCGCTATGAACATTTGTGTACAAA
CTTTTTGGTGGGCATGTGTTTACATTTCTTTATACTTAGCAGTACAATTGGTGACTCAAATGGTAACACTATATTTAACTTTTTGAGAACTGCCAGAATT
TTCTCCAATGTAACTGAACCATTTTACATTCCCACCAGCAGTGTATAAGGGTTCTGATATTTCCACATTCTCACCAACACTTATTAATATACTTCTTTTT
GATTATAGTCATCCTAGTGGGTGTGAAGTTAGCACTATATTTCGAATAAATAAAAAAATGTATTTGGCTGGGTATGGCGGCCCACACCTGTAATCCCAGC
ACTTTGGGAGGCCAAGGTGGGATGATTGCTTGAGGCCAGGAGTTTGAGACCAGCCTGAGTAACATAGGAAGACCCTCATCTCTACAAAAAATAAATAAAT
AAAAAAATTAGCTGGGCTTGGTGGCACATGCCTGTAGTCCCACCTACTCTGAGGCTGAGGTCGGGGAATCGCTCAAGCCCAGGATGTTGAGGCTGCAGTG
AGTCGTGATGGTGCTAATGCACTCTAGCCTGAATGACAGAGCGAGACCCTGTCTCAAAAAAGAAAAAAAAAGATTCAAGTCCTTGCCCTTTTTAAAGTTG
AATATTTTTCCTTTTATTTTTGAATTGCAAGAATTAGTTATATATTTTCAGTGTAAGTCCCTTATCACATACATAATTTGCAAAAATCTTCTCTCATTCT
GTTGGTGTCTTCACTTTCTTGATAACGGCCTTTGAAGTACAAGAGTTTGTAATTTTGCTGAGATACAATTTATCTCTACTTTTTCTTTTTTGTTTGTTTG
TTCTTTTGGTGTCATATCTAAGAAACCATTGCCAAATCCAAAGTCACAAAGATTTAACACTATGTTTTCTTTTAAGAACTTCATATTTTAGCTGTTAAAT
TAGTCCATCATGGTTAATTTTTTATATAGTGAGAAGTAGAGGATCAAAATTTATTCCTTTGTGTATGGATTTCCAGTTGTCCCATCATTGACTGTTGAAG
AAACAACTCTGTCCCCATTGAATTATTTTGGCATCCACAAACATGAAGGCTCATTTCTGGACTGTTAGTTTTATTCCATTAATCTCTATGTTGATCTTTA
TGCTAGTACCGCACTGCCTTGATTACTGTTGCTTTGTAGTAAGTTTTGTACTTGTGAAGTGTGAATCGCATATTTTGTTCTTTTTAAAGATTGTTTTGGC
AATTCTGAGTCCCTTAAGTTTTCATATGAATTTTAGGATTAGCCTGTCAATTTCCACAAAGCCAGCTTGGATTCAAATGGAGATTGTGTTGAACCTGTGC
ATCAAAAATTAATTATATTGTCTCCAGGTCCATGAACACGAAACATCTTTCCATTTATACACATCTTGAATTTCTTTCAACAGTGTTTTGTAATTTTCAG
AGTATAAGCTTTGCACTTTTTTCGTTAAATTTATTTCAAATGTTTTATTCTTTTTGATGCTATTCTGAACACATTTGTTTTGTTTCATTTTTTCATTGTT
CATTGCAAGTATATAAAAATATAGTTTTTTTTTGTATAATATATTGCTCCTGTAAAAACAAATTATGTTGCAACACTGCTGACCTCATTTATTCATTCTA
TATCTTTTGGTAATAGATTCTTTAGAATTTTCTATGTAAAGAATAATGTCATTTTTGAATAGACATAGTTTTACTTCTTTCTTTCCCATCTGAATGTTTT
TCTTTTTTTATTTTCTTGACTAATTGCCCTGGCAAGAACCTCCAGCACAATCTTGAATAGAAGTGGTGAGAGTGGACATAGCAAAGATGATAATGCTGGT
GAAAAATGTGGTGGTGGTGACAGCAGTGACAGACACTAATAACCACGGGACATGAAAGGAAGGCCCAAATTGTTTGGCAGTAGCTCTAGTTCTATTTTCA
CTAAGTAATATACAGTTGTTCCTTGGTATCTGTGGGGGATTGGTTCCAGGACCCCTGTGGGTACTAAAATCTGTGGATGCTCAATCCCTTATATAATGGC
ATAGTATTTGCATATAAACTACACACATGCTTGAGTATACTTTAAAGCATCTCTAGATTACTTATAATACCTAATACAATGTCTAAACATCACTTCATTC
ACATGGCTTCAACTTAGTAGTCAATGTGGGGCAAATTCAAGTTTTGCTTTTTGAAACTTTATGAAATTTTTCTTCCGTATATTTTTGATTCTCAGTTAGT
TGAATCTATCCATAGATGGAGAACTCATGCATATGAAGTATTGTAAGTTCTGCTGTGCTTGAAAATTAATAAAAGCTTATTTGAACGTTTAAAACACTTT
CAAGATAGTCTAGATGTCTGACTGCACAGAGAAGAGATACACAACTTGAGGTGCCTGTACCAGCACTAAGGATATGTTTGAGATTCAGATTGGTTGAAGC
TTCAGTGTTGTCAACTTAGTCAACTTCCTCCCCTAGAAGGAAGCGGGGAGAGAAAGGGAATAGGACAGGGAGGCCTGGCTTAGAAATCCAGTTCCACTAC
CTGCTGGATCTTGGACATGGGATTCAACCTATCTGCCATTTCCAAAATGGGTATTATAATCTTTATTTCATTGTGTTGTTTTAAGGATTCATGGAGATAA
TGCATGTAAAGCATACTGCCCAGCACATACTTGGTAGCATTTGGTTAATGTTTTTAATTTTGGAGATGTAGTGAGCAATATCTTATAACTGATCAGTTTT
AATAAAAAGGAGTTTGTTTGCACTTTATTTCTACCTCTTCCTTACAGGTAGTTGGAGAGCATAGTAGTAATTTTCTCTCTAACTCTCCAGAATTGGTGCA
GAATGGCATGAAAACCTTTCCCATGCAGCATCCAGGAAGGTAGGAGGCAGGGGATTGCAGCAGTGAGGAGATTTGGAGTAAGATACTCCTGCATACGTGA
AATCTCACCTCTTCTTCTTACTACTGCTACATAAACCTTCAAGCCTCTCAGCTTCTACATTGGGAAAATGAGCAGCACCTCATAGGTTGTTGTGAGGATG
AAGTAAGGTAATAAGCAAGTTCCTGGCGCATAACAAGCATTTAATAAGTACTCATTAATACTAACTTTTCATGTGCAGTCTTATACAATTTCTGAGTAAA
GCAACATTTTATGTTTTGACTCAATGGAGTGAATCTATTTTCTGGACATTCATCCATGAACATCATAAGTTTTGGAATGGCTACCAGTTTTGTTTATTTA
TCATGAAAACACTACTTTCACATTATAAAAAATTATTCCTCCATTTTGTAAAAACATGACTTTCATCCATTTCTCTGCATACCTAAATTGACCTGAGATT
TCACTGATCCTTTCTTTACCATTTTTCTTTGCTTTTGTCCTCTGTAAATATGATAATTACCAAGAGTAAAAGAATAAGTCTTTTCACTAGGGGGCATGGA
ATGAATTTAAAATTCATCCACAAAATAAGAAAGTTCTAGTAGAAAGTTTTTGGAGAAAATCTTAAGAGAACTCTACATCATAAATAAAATGGATAGGATT
TTTGAGAGGAAAGAAAATACCAGAAGACACCACTCCAGCTCAGTCATTCTTGTTTAGGACTTGAGCAGAATGTCATA


SNP Information

Context             (SEQ ID NO:45283):
AAAGAGTTCTACTCATATCAAAATGAGGCAGTGGCCATAGAAAATATCAAGAGAGGCCTGGCTAGCCTATTTCAGACACAGTTAAGCTCTGGAACCACCA
R
TGAGGTACTTACCAATATTAATAAGGATTCAGCATCTCAATAAAATTTGTAAGGATTTCTACTTATACAATTTCAGTAGAAGAGTTACTACTAAGGTAAT
Celera SNP ID:            hCV1192261
SNP Position Genomic:     20922
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,5)   caucasian(A,32)   total(A,63|G,5)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): Gaucasian(G,13|A,297)   Ghinese(G,8|A,52)   Japanese(G,3|A,17)   African(G,25|A,73)   (G,2|A,7)      total(G,2|A,7) ;JBIC-allele(G,347|A,1144)   total(G,347|A,1144)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45284):
AATAATGATTGAACACTTTATAATATATATTTGAAAATCTGTTTTAAAAATTCTATGTGTGCATTACTTATGGCTTGATTCTAGTCAATTGAAATGGTCT
W
AATAAATTTGGAATTGAGAAACAATTGTGATCAGTTGATTATTAGGCATTACATATTTGTGTTTATGAAAATTACAGATAGTGTGTTGACATACATAAAA
Celera SNP ID:            hCV29127184
SNP Position Genomic:     15345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45285):
ATTTTTGCTTCATTTGTGTTCTGTTCCCCTCTCCCCACCAGGTCAAAGAGTTCTACTCATATCAAAATGAGGCAGTGGCCATAGAAAATATCAAGAGAGG
Y
CTGGCTAGCCTATTTCAGACACAGTTAAGCTCTGGAACCACCAATGAGGTACTTACCAATATTAATAAGGATTCAGCATCTCAATAAAATTTGTAAGGAT
Celera SNP ID:            hCV1192262
SNP Position Genomic:     20878
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,12|T,20)   total(C,39|T,29)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   JBIC-allele(T,462|C,1031)   total(C,1031|T,462) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45286):
GATAGATATCAAAGATAAAATTACTAATCTTTGTTTGCTGGGATTCTTTTTATTATTTTTATTGTTTGGCCACTTAATGGAATTTAGTCTCCTCTTATTC
Y
TAAAATAAATATAAAGGAAGGTGTGGAGAAAGGCATCTTCTTCCTAAGGAAAAAACAATATGAATGATGCCTACCTATTTCAAGAGGAAACTGGCCCCTC
Celera SNP ID:            hCV29127185
SNP Position Genomic:     17910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45287):
GTCCAAGAACTTTTTTATTTGCTATTATTTTAAACCTTAGTTATTTTTTGTTTCAAGTACAGTTACAGGTAGAGAACATGCTGACATGTTCAAACAGAAT
K
TTCATCATTTCTCTTCCCTGGGCCATCCTTGTTTTCATGAGGCTCCCAGCCTATATCAGTGCTCTCTCCCAATGCTGTGCCCATCATGCAAGAGCCTTCA
Celera SNP ID:            hCV1192263
SNP Position Genomic:     20510
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45288):
AGATATCACTGTGCACCACTGTACCATGGAGGGGCTTGTTACAAATATAGATTCCCTATATTCATCCCAGAGATTCTGATTCAGTAGATCGGGGAGGACC
Y
GAACGTCTTTTTTTTTGAGATGGAGTCTCACTCTGTGGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAG
Celera SNP ID:            hCV29127186
SNP Position Genomic:     21273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45289):
GCAATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGTGTGCCACCATGCCC
R
GCTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGATGATCCACCCGCCTTGGCCTCCCAAAGTGCT
Celera SNP ID:            hCV29127187
SNP Position Genomic:     21433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45290):
TTTCTGGTTTTGGCTTTGTGTTGATTAAATTAACCACGTGGCTGCTGAGTCAGACCTTTATTTTGTATTGTTTCCGGGCATTGATTTGCTCTCTAAATCA
S
CATGGCTCTTGTACACACACTGAACTGCCACAAGAAATGTGACACCTTGAAAGTCCTTCTGAAATTTGTTGTATATTTCTTTACTTGTTTGTTCTCCAGT
Celera SNP ID:            hCV1192265
SNP Position Genomic:     17680
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45291):
TATTTTTGGAAAATAAGATTTTCTAGCTGTCTTGGTTAATAAGTAACACGTGGTTGTATTGACGATATCATTTTCAGAAAGCTGGGCTAAATTCAAAAGA
R
CTGACATTGCATATCTTATTCATCATCCAGGCAATTTTTCTTCCCTGTATACTGTTGAAATAATATTTTGAAAATGCAAACTTAAATTTTCAAATCTTTT
Celera SNP ID:            hCV29127188
SNP Position Genomic:     25618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45292):
GAAGAGAGAGTAAACCTAGTCTGTGTTCTTCCTGAGGAAGGAACCAAGTACTCCCCTGAATAACAGTGTTTGGTCAGTTAAAATGGTTTAGATTTATGTG
Y
TGAGAAGGGAGGCCAAATTAGTTGGTCTCTGGGGACTTTTCCAATTGTAATATATGGTGATTCCCTTATTTGCTTCTCAAGAACCTAAAGATAATAGATT
Celera SNP ID:            hCV1192266
SNP Position Genomic:     13780
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45293):
CTTATTCATCATCCAGGCAATTTTTCTTCCCTGTATACTGTTGAAATAATATTTTGAAAATGCAAACTTAAATTTTCAAATCTTTTAATATAATTGTTGC
Y
CCAGAAAGACTTCATAATGAGCTTTCAGTTACCTCTGGAGATATCACAGTTTGAAAGACATGGCTATATACAACTTGAATAAATTACTATCTTGTTTGCC
Celera SNP ID:            hCV29127189
SNP Position Genomic:     25733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45294):
AAAATTAACTGGGCTTAGTGGCGTGAGTGTGTGGTCCCAACTACTCAGAAGGCTGAGGTGGGAGGATCACTTGAGCCTGGAGATGAAGGTTGCAGTGAGC
Y
GAGATCGCATGACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAGTAAAGAAAGAAGAAGAAACTTTCTCTG
Celera SNP ID:            hCV1192268
SNP Position Genomic:     11160
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45295):
TTTCTTTGAAGGTTCGACAGATTATGTGACTTCACTACCCAAAATTCTATGGCAGCGTCCCATCTCACTCAAACTCCCCAAATCTTCCTGCCACCCATAG
R
TACCTCCTTTACCTTGTCTCCTTCACTGTGTCTTTTACTTATTTATTTCCAGCCTCTTTGGTCTCCCTGCTCTTCCTCCATTACACCTGCAGGAGCCCTC
Celera SNP ID:            hCV1192269
SNP Position Genomic:     10487
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45296):
TAAGTCACATCTAGAATTCAGGGAGGATAGAGGGCTTAATGAAGTTAGGGGGAAGCATATGGTGTCAAGAATGTGGACAACGGCTGAACCTTGAAAGTTC
W
GTCACATAATAGTTATTTGTCCACAGGTGACATACTTTACTGGCCTCAGTGTTCTGATTATTGCTGCAAGGACTGAAAAAGGATACCAGGATCTTTGCCT
Celera SNP ID:            hCV16074282
SNP Position Genomic:     26399
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45297):
CCAATATTAATAAGGATTCAGCATCTCAATAAAATTTGTAAGGATTTCTACTTATACAATTTCAGTAGAAGAGTTACTACTAAGGTAATGCTCAGAAAAG
R
TGACTTGTGTAGTGAAGTCGCATTTGCCTATGAAACAATTGCCATTTATCCCAATGTTTTGTTAATTAATTACAAGGTAGAGAGGATTAGAAATATTTAT
Celera SNP ID:            hCV25616050
SNP Position Genomic:     21034
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,21)   caucasian(G,28)   total(A,1|G,49)
SNP Type:                 INTRON


Context             (SEQ ID NO:45298):
CCAGCTGGCACCACCCTGGCTCTTGGAAAGGCATGAGGAAAATTTGGCTTCCTCTTTTTTCCACTGAGGATTTTTTTTTTCCAAATTTGACTTGGGAAAC
W
GTCATTACAATGAATGTGCAGCTTTTTTTTTCCTCATATGTTGCAGCAAAATTGTCCGTCGAGTTCTGAAGGAAATGGTCGCTCACAATTATGACCGTTT
Celera SNP ID:            hCV16190616
SNP Position Genomic:     42276
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,662|A,833)   total(A,833|T,662) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45299):
AGTTATGAGTGGGGTATGAGCCTGCAGTGTATGTTTTGCAGCTCTCGGAGCTCTGGCGGTCCACCAGGAAATACCTGCAGCCTGACAACCTTTCCAAGGC
Y
GAGGCTGTCAGAAACTTCCTGGCCTTCATTCAGCACCTCAGGACTGCGAAGAAAGAAGAGATCCTTCAAATACTAAAGATGGAAAATAAGGAAGTATTGT
Celera SNP ID:            hCV25616057
SNP Position Genomic:     28302
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,5|T,35)   total(C,8|T,70)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45300):
AAATTATATAGTTTCTGTGTCCCCTCAGTCTCTTCATCTATAAAATGAGACTAATAATAGTGCCTACCTCATTAGATTTTTGTGAGGATTAAATAAGTTA
M
TACATGTAACATGCAGATGATGGATTTTTGACCACCATTTCCTCTGGGCAAGTACGTGCTGTCATATGTAGAGGAGACAGTGAACAGATTGTTACTGTGT
Celera SNP ID:            hCV11352691
SNP Position Genomic:     11918
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45301):
TAAGTTCCCCAACCTTTGTGTGGGGTTGTCTGTCAGAAACATTTCTGGATTGTTGGTTTTTTGAAGTAAGAAAGACCCCTTTTAAACCAACTGCCCCACC
W
CCAAAACAATTATTTTCTTGTACTACATTTTCATCGAAAAGTTATGCCACAGTGCAGTAATTTAATGGTCACTTGACCAGAAATACAATAGCAGATTTTC
Celera SNP ID:            hCV25616058
SNP Position Genomic:     28502
SNP Source:               Applera
Population(Allele,Count): african american(A,29|T,3)   caucasian(A,31|T,5)   total(A,60|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:45302):
GTTCAAAGGTTCTATTGGTAGCAGTGACATCAGAGAAACTGTTATGATCATCACTGGGACACTTGTCAGAAAGTTGTGTCAGAATGAAGGCTGCAAACTC
W
AAGTAAGTGCAAATCCAATCTCATGTATTACATCATTCTACACCATTGTCCATTTGATACTCACCATGCTGCCTACTATTGGCACTCCTAATTCTCTTTA
Celera SNP ID:            hCV27863117
SNP Position Genomic:     32888
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:45303):
AAAATTAAAATAAAATGGGGAGGGGTCTTTTTGAGAAAGTCTTAATCATTTTTTCATTTGTTCAAATTAAAAAAAAAATCACTTCTTGAGAAAACTCAAA
Y
CAATAGAAACTCTGTGAATGGTAGAGATTTTTAAGTATTCCTTCCCCTAAACATTGATATCCATGATTATGCCTTTTTTTATAGACCTCAGCTGGTGGAT
Celera SNP ID:            hCV25616059
SNP Position Genomic:     31656
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,2)   caucasian(C,15|T,3)   total(C,37|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:45304):
GTCAAGAACATCCTGCTGTCTATTGGGGAGCTTCCCCAAGAAATGAATAAATACATGCTCGCCATTGTTCAAGACATCCTACGTTTTGAAATGCCTGCAA
K
GTATAATACATTGCACATGTCTCTCTGTGTATTCAAGCTTATTTGTGTGTTCATGGGGTACCGATGTAGCTAATAATAATGATGTGGTCATTATGCAGGG
Celera SNP ID:            hCV27863118
SNP Position Genomic:     40157
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45305):
ACTAAAAGCCAATATAGAGGTCCAGGGTGGTCTAGCTATTGATATTTCAGGTGCAATGGAGTTTAGCTTGTGGTATCGTGAGTCTAAAACCCGAGTGAAA
W
ATAGGTAAGTGTTTATGCATTATACATTTATGAATTACATATAAGACTATATACAGAGAACTTCCGAAATATGTTTTGGGAATTAATCTTCTGACTTTTC
Celera SNP ID:            hCV27863119
SNP Position Genomic:     50274
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45306):
CAGAGAGGAGAGAAGAGCATCTTCAAAGGAAAAAGCCCATCTAAAATAATGGGAAAGGAAAACTTGGAAGCTCTGCAAAGACCTACGCTCCTTCATCTAA
Y
CCATGGAAAGGTAAAGGGGCGTTTAGATTCCACAACTTTTTCTCCAACTTCATATTTTTCTTCCCTTCAGTAGATATTATTTTGAGGTAATCACATTGTA
Celera SNP ID:            hCV22274307
SNP Position Genomic:     14683
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,22)   caucasian(C,10|T,26)   total(C,26|T,48)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,244|T,1251)   total(C,244|T,1251) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45307):
TTGAAAATGCAAACTTAAATTTTCAAATCTTTTAATATAATTGTTGCTCCAGAAAGACTTCATAATGAGCTTTCAGTTACCTCTGGAGATATCACAGTTT
K
AAAGACATGGCTATATACAACTTGAATAAATTACTATCTTGTTTGCCAAAAGAATGGCAATTAGTATCTTGTTCACTCAAAAGAATGATTATAATATAGC
Celera SNP ID:            hCV29127190
SNP Position Genomic:     25786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45308):
AGTATCTTGTTCACTCAAAAGAATGATTATAATATAGCATTTCCCTTTGGTATTATGCAGGCAGAAATTAGAGCTGAAGACAACCGAAGCAGGCCCAAGA
Y
TGATGTCTGGAAAGCAGGCTGCAGCCATAATCAAAGCAGTTGATTCAAAGTACACGGCCATTCCCATTGTGGGGCAGGTCTTCCAGAGCCAGTGTAAAGG
Celera SNP ID:            hCV29127191
SNP Position Genomic:     25949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45309):
AACTCAAGGGCAGCCTTTAATAAGTCACATCTAGAATTCAGGGAGGATAGAGGGCTTAATGAAGTTAGGGGGAAGCATATGGTGTCAAGAATGTGGACAA
M
GGCTGAACCTTGAAAGTTCTGTCACATAATAGTTATTTGTCCACAGGTGACATACTTTACTGGCCTCAGTGTTCTGATTATTGCTGCAAGGACTGAAAAA
Celera SNP ID:            hCV29127192
SNP Position Genomic:     26379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45310):
AGATAAGACAACATGTATTTCCTTTATGCCCTATGTGGAATTTGATAGGTGTCATAAAAAGAAGGCCTCCTGACCGAAATATTTTTCCTGACCAGAAAGC
Y
AGTATTTGAACCCGCTATAGAGTCCCCAATTACAATGCAGAAGACATAGAGATAAGAGGGAATCCCAGTCTTCATCCCCTTCAAGGTTTTTCCTGACTCT
Celera SNP ID:            hCV1192270
SNP Position Genomic:     10149
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45311):
AAACACATGATCTTGAAAATCCCTTTTCTTAAAGCATTTTGTAAGACTAGTGTTAACATGGAAAACACTTTGAGAAACATCACTATAATTAAGAAACCAT
R
GACTCCAGAGTCAGAAAAACCTAGGTTTCAATCCCAGCAATGCCATTTACCATTTACCAGCTATATGACCTTGAACAAATGACTAGGTATATCTGCGTCT
Celera SNP ID:            hCV29127193
SNP Position Genomic:     30540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45312):
AATTCTAAATGCACTTGAAGGGCAAATGAAAGAGATTCTGACTTTTTTGGCTAATATTACTTTCTGTTTTGGTTTTATCTAACAACAGTTATCAAAAAAT
R
TTACTATACATACTCTGAAGAGCACTATCCTACAAAAGGAATTAAGTCAACAATATAAATGGGACATGCCCCAATGCCCAGTGTTGCCAGATCTCTGCAA
Celera SNP ID:            hCV1192271
SNP Position Genomic:     9497
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45313):
AGAATATATAAGGAGATTGAAATAAAAATTTACAGATGATTGGATTGACTTGTAAAGTTTACTTTATTGTTTTAATACATTAATGGATAATAGCCTACGT
K
TGAATTTTGCCTCCGTTACCTTCTTGCTATGTGCTCTTGGGCAGTTACTTAATAGCCTTAAGCCACAATTTCATACTAGTAAAATGAGGCACCTGGAACA
Celera SNP ID:            hCV16130305
SNP Position Genomic:     45339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45314):
TGAATGTAAGAGATGTACCACTGAGGGCATTGTTGATACAAGGGGTGATTGTGCGTGTGTAGGGTTAAAAGGTGTGTGGGAACTCTCTGTACTTTCCACT
Y
AATTTTGCTGTGAACCTAAACTGCTCTTTAAAAAGTCTATTAATTAAAAAAAAGAGAGATGGGAAGATTCTGAGGTACTTCATTGTAAGGAAACATTACT
Celera SNP ID:            hCV29127194
SNP Position Genomic:     39108
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45315):
TAGGGAATGCAGAAAAACATTTAAAGAAATATTGTGCAATCTCCCCAGTTTGGCACAATTTTCCTTTAAGTGTATGCACTATTAAACAATAAAACCATGA
M
GAATCAAAGAATTTTGCCATGCCTGAAATGTGTCTACTAGTCAACTTAAGCCACCTCAAAGCTGGACACCCTTGCCTTGCTGTCATTTTGATACCAAACT
Celera SNP ID:            hCV29127195
SNP Position Genomic:     42020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45316):
TTTTTCAATGGGTGTCTGAACAAAATTGTTTCTGTCAATACAAATGTAGAAAGGACAAAGAGCAGTGCGTCTTGTATCCCTTAATCCTCAAGTCACACAT
K
AAAAAAACAGTTCTCAAATTATATCAGAATTTTACATTGCACAATTCCAGTTTTAATGAAAGAATCGTCTAAAGGCAGCATAAGTACTGAAAAAGTAGTC
Celera SNP ID:            hCV16130307
SNP Position Genomic:     46126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45317):
ACAATGCCTGAGGATTTGAATCGGGGTGTAAAACCATGAGGAGTAATCTAGATCTGGGTCAGCAAACTTGTTCTGTAAAGGGTAGAAAGTAAATATTTTA
Y
GCTTTGCAGGCCACATGGTTTCTGTTGCAGCCACTCAATTCTGTTACTGTAGAGTGAAGACAGCCATCAGCAATACATTAACAAATGAGTATGGCTGTGT
Celera SNP ID:            hCV29127196
SNP Position Genomic:     46386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45318):
AGAGTCCACTTCTCAGTGACTCCTAGCTGGGCACTGGATGCAGTTGAGGATTGCTGGTCAATATGATTCTTCTTGCTGTGCTTTTTCTCTGCTTCATTTC
S
TCATATTCAGCTTCTGTTAAAGGTAAGTTTGTGTTGCCTTTTGCTAAACTTTAATTTCCATCTTTGGAGTTGGAGGCAGATACGTGCGTGTGTGTGTGTT
Celera SNP ID:            hCV1192275
SNP Position Genomic:     6124
SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,6)   caucasian(C,39|G,1)   total(C,69|G,7)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45319):
GTGTCTTTTTGAGACTGTAATATGGTACACTGTCCTCTAAGGGACATCCTCATTTTATCTCACCTTTTTGGGGGTGAGAGCTCTAGTTCATTTAACTGTA
M
TCTGCACAATAGCTAGGATGACTAAGAGAACATTGCTTCAAGAAACTGGTGGATTTGGATTTCCAAAATATGAAATAAGGAAAAAAATGTTTTTATTTGT
Celera SNP ID:            hCV29127199
SNP Position Genomic:     54890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:45320):
ATGGAGCAAGTGAGTGAGAAAAGAAGCCAAATCTCTCTGCAGCCATGTATTTCTAGTTGAACGCATTTAGCTTCTCCATTTCTTTGTTTGCTTTTATGAG
R
CCCTGTGAAGGAGATCCTGGGTGTACTTGCTGCCTTCGTCTTATGGCTCTAGCATTTCAGGGACCCGGAAAGAGGAGACAGTGGGGTAGAGAACAGACTA
Celera SNP ID:            hCV16268467
SNP Position Genomic:     41086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45321):
GACTTTCTATATCTAGTAGGGTAATACATTTCCTTCCAACCTTTAGTGGGGTGAAGTTCATTTGTCTTCTAATCTAAGAAAATACGTTAACTCCTGACAA
Y
CTCTGACACTCAACAGAAACACAACTGTACTTTGGAATTAATCATCCATCTTTATTTCATAGTCTCCTTATTTATCAATGCAAATGGAAGTATAGCAAAT
Celera SNP ID:            hCV1192278
SNP Position Genomic:     3261
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 hmCS


Context             (SEQ ID NO:45322):
CTGAGGTGGGAGGATCACTTGAGCCTGGAGATGAAGGTTGCAGTGAGCCGAGATCGCATGACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTC
A
AAAAAAAAAAAAAAAAAAAAGTAAAGAAAGAAGAAGAAACTTTCTCTGCCTTTCTCTGCTTGTTAACTGGTGTAGTCCCAGAGCCTTAAAAAGTACTTAC
Celera SNP ID:            hCV9979837
SNP Position Genomic:     11212
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45323):
GTGTAGATCATTGTAACATTTTTAATCCAACAAAGAAAATTTTCCTTTTATTGCATGAATCAGTTATGATATACATTCAGAGAAATGACTTACCACCCAG
M
ATTTCCTTATCTGTAATCTCTTGTCAGAAGAGCAAACCATTGGCTTCATGCTCTGTGTGTAACTATAGGGAGATGCTCTTTCCTTCAGTATTACTGGTGT
Celera SNP ID:            hCV16074292
SNP Position Genomic:     26677
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,5)      total(A,2|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45324):
AACTTCAAGTACATTCAGTAACTTGGCTGGAGAGGTATAGGGTGACTTAACTGTGTGTGTAATTCTGTTATTGTTGCTGTTGTTGTACAGGCAATTTGAG
W
AAAAGTACGAAAGGCTGTCCACAGGCAGAGGTTATGTCTCTCAGAAAAGAAAAGAAAGCGTATTAGCAGGATGTGAATTCCCGCTCCATCAAGAGAACTC
Celera SNP ID:            hCV27863120
SNP Position Genomic:     53867
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:45325):
AATTAAAACAAAACAGTAGAAACCCAGGGAAAGATGAATTTTCTTTAAATGAGTAGAAGAATAATTGATAAGGCCAAAAAAAGTCAGTTTCTGGGATACC
A
AAAAAAAATCTAATGACTAGTTCATTTGATTCTGGAGATAGTTATCATATTCTAATCCAGAAACAATTTATCCAGGAAAGAAAGGCCTATGATTTACCAT
Celera SNP ID:            hCV1804394
SNP Position Genomic:     52596
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,13)   total(A,13|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45326):
TGCTGATTTGCTCCAACCTCATACAGTTTCACACATAAGGACAATCATCTATGTTTCATGAAAGTTCTATCTACTTTAACATTATTTTGAAGTGATTGGT
K
GTGGTATGAATTAACAGTTTAAATTTAAATCCTAAAATTCAGTGTGAATTTTTTATAATAGCATAAAAATTCAAAGATGTCCATACAAGAAAAATTAAAA
Celera SNP ID:            hCV8934089
SNP Position Genomic:     5507
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:45327):
ATTGTTGCTGTTGTTGTACAGGCAATTTGAGAAAAAGTACGAAAGGCTGTCCACAGGCAGAGGTTATGTCTCTCAGAAAAGAAAAGAAAGCGTATTAGCA
K
GATGTGAATTCCCGCTCCATCAAGAGAACTCAGAGATGTGCAAAGTGGTGTTTGCCCCTCAGCCGGATAGTACTTCCAGCGGATGGTTTTGAAACTGACC
Celera SNP ID:            hCV27536646
SNP Position Genomic:     53936
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45328):
CCTAGGAGAACACCCTTTGTAAATGTGGATGTTCACAGTTATGAGTGGGGTATGAGCCTGCAGTGTATGTTTTGCAGCTCTCGGAGCTCTGGCGGTCCAC
M
AGGAAATACCTGCAGCCTGACAACCTTTCCAAGGCTGAGGCTGTCAGAAACTTCCTGGCCTTCATTCAGCACCTCAGGACTGCGAAGAAAGAAGAGATCC
Celera SNP ID:            hCV11352700
SNP Position Genomic:     28266
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,31)   caucasian(A,1|C,39)   total(A,8|C,70)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45329):
CTATAGCCTTTCAGAACTTACTAGGATAAAAGCTACAGTCCTGTGACAGTCTGAATGGCAGCTAGACAAGTGCACAACCAGTACTATGCCACATGTTTCT
K
TTTTATGTTTGTCTTTTGCTTATGTTTTGACCTCCCGGCATCCTAATTCCTTATTTTCACTGAATTTGTACTTGAAAAAATGTAAACCTACAGAAAAGTT
Celera SNP ID:            hCV11352703
SNP Position Genomic:     35534
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45330):
ATTTTTCTGGAAATCTTTATAGTGGAATGAAGTATTTATTTATTGATGAAAGGCATTATTAAAAGGTAAATTTCTCATCAAATTATAAGGGATTACAAAC
R
TAATGTAACAAAGCAAGTCATCAAAGCATGATTGGATGAATTCAGGAAAGGAGACAAATTATGAGACTGAAATGATCCAACTGAGATTAGTAATATTGAT
Celera SNP ID:            hCV8934090
SNP Position Genomic:     15004
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45331):
TGATGAAAGGCATTATTAAAAGGTAAATTTCTCATCAAATTATAAGGGATTACAAACATAATGTAACAAAGCAAGTCATCAAAGCATGATTGGATGAATT
Y
AGGAAAGGAGACAAATTATGAGACTGAAATGATCCAACTGAGATTAGTAATATTGATTTGTTATGAGATTATCGATATCTGGCTAAAGTACAAGGTTAAA
Celera SNP ID:            hCV8934091
SNP Position Genomic:     15047
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45332):
TACTGTCCCTATGAAAAATACTATTGAGTTCATGTTGAACTTGACTATTAACTCAGTGTCATTTCAAATGTCAAACAGCAGGGTATTAGGCTTAGTTAAA
B
TTGCCTTCGTTTTCTAGTTGGATGTAGGCAATTCCTGGAACTTGTATACAGTTGGCGTCTCTGTAACCGCTGGTTCCTCATCAAATTCAACCAACCTCAG
Celera SNP ID:            hCV11352707
SNP Position Genomic:     49103
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2|T,2|-,6)   total(G,2|C,2|-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45333):
CAGTGGAGAATGGATGATCCTGAGCAACTCTAACATGCTCCAAAGAAACAAGAAAGCAGCAGCATAGGACAAACAGTAACTCCTTTGTAGATAAACAAGA
Y
AGAAAATGAAGAGGGGTAGAGTGATAGTCCACATTTGGAAATAAGATATTGGAGCCAGAAAAATAACTTTAAACCTCATTTGCAGTCCTCTAGTTCTGAC
Celera SNP ID:            hCV29127200
SNP Position Genomic:     55843
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:45334):
AGACAAATTATGAGACTGAAATGATCCAACTGAGATTAGTAATATTGATTTGTTATGAGATTATCGATATCTGGCTAAAGTACAAGGTTAAAGATTTTAA
R
AGGGTATGACAAGTCTAAAGTAGAGTTTTTTTAAAGCCTTTAGAAATTATTTTAAAACTATGACATGGAAAAGCCTTTTATATATTAAAATAATGATTGA
Celera SNP ID:            hCV8934096
SNP Position Genomic:     15156
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45335):
CTATTTCAGACACAGTTAAGCTCTGGAACCACCAATGAGGTACTTACCAATATTAATAAGGATTCAGCATCTCAATAAAATTTGTAAGGATTTCTACTTA
Y
ACAATTTCAGTAGAAGAGTTACTACTAAGGTAATGCTCAGAAAAGGTGACTTGTGTAGTGAAGTCGCATTTGCCTATGAAACAATTGCCATTTATCCCAA
Celera SNP ID:            hCV8934097
SNP Position Genomic:     20988
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45336):
CTTTCCTTCTATTGGGAGCCTTTTGTTAATACTTCTCCACTCTTCCCCATATCATCCATTCTCCCCAACCCCATGTATGTGTGTGTGTGTGTGTGTGTGT
R
TGTGTGTGTCTGTGTGTTTGTGTGTGCTTGTAGCCTAATTTCAGAGGTTATGAATCCTGTGGATGAATTAGATCTTAAAACCCTTTATTTTTAAAAAATT
Celera SNP ID:            hCV8934098
SNP Position Genomic:     37069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45337):
GCAACAGGATGAGTTGTCAAAATGTCAGCATCTGAGCTATAAGAAACACTTATGGGACCAAGAGGATCAAAGAGGTCACATTAGCTACAAAGTTCTAATA
W
CTTTTTCCTCTAGTTCATAGGAAAGAATCTAAATAAATATGCACTCTGGGCCAAACAAGGACATAAACCTATGCTCTCTCTCTCTTTTTTTTTCCTTTTT
Celera SNP ID:            hCV27519028
SNP Position Genomic:     47092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45338):
TTTACCTGTTTTTTTTTTCATATGTCATTTAATGTTCTAATGTAATTTTCTAATGCTGTATGAGATGGAAATTATTTAGGAAGGTGGCTAATAAAACTAA
W
CTTTTCTTATGCTCTGCACTATTAATTTCTCTCCCATAGATATTAAACATTATGAGCCATCTAAGATTTTTGATAATTATTTCTTAATTATTATAGAAAA
Celera SNP ID:            hCV15940486
SNP Position Genomic:     27024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45339):
AGTTCATAATCTTTATGGAAAATGTACCCATTCAGAATCTGATAAAAGTGATGAGGCCCCTTTTTACTCATACATAAAATTTTATAACCCTCACCCCTCC
T
TTTTTTTTTTTTTTTTTTGTTCATTGACCCCATGAATCCAATCCATAAATTTCCAGGGTTAAGAATTCCCTGTACCACAGGTTAAAAATCCCTGAAAAGG
Celera SNP ID:            hCV9979857
SNP Position Genomic:     32498
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45340):
AAATTGTGCCAATATTTCTTACATAAACGTTTAAAAATAATATTTTATTTTTATTCACAGATATATTTCTTAGCCTCCTCTCACCCCCAAGTATTTAATT
M
TAGAATATATTTTCCTTTTCTGGTTGTTTCTATGAAGAGATTGATTCCCCATAATAAAACCCTTCATAATAGAATATGATGCTCTAAAGAGTCAATCTGT
Celera SNP ID:            hCV8934104
SNP Position Genomic:     43011
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45341):
AAGACAAAATTGTGCCCATCTTGGAGCTCATATTCCAAGCACTTGGCCCTCTTGGTATTGGTCCCCTTTCTCCTTTACTATAGATATGTTATAATTTCAT
W
TATTAGATGATTAATAAGTGCCTTTAATTGGAGGCAAAGAGAAAATGTTGATGTTAACAGAAACAAGAAAGTTTAGGACACAACAGAATAGAGCTACCAC
Celera SNP ID:            hCV8934106
SNP Position Genomic:     44505
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|A,8)      total(A,8|T,1) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45342):
CTTTACTATAGATATGTTATAATTTCATATATTAGATGATTAATAAGTGCCTTTAATTGGAGGCAAAGAGAAAATGTTGATGTTAACAGAAACAAGAAAG
K
TTAGGACACAACAGAATAGAGCTACCACTGTCTCCTCACTTGGCTCTCTCAGGCACGAGGGCTTAGGTGATATTTATCCTGAAGGCAGGAGCTGAACTAT
Celera SNP ID:            hCV8934107
SNP Position Genomic:     44577
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45343):
AATGAGTATGGCTGTGTTCCAATAAAATTTTATGTACAAGAATAGCCAGTGGGCCAGACTTGCCTGCTGGCCATAGTTTGCCAATCCCTGATCTAGATTA
W
CTTGTACAGTTTTTCTATTCACTAAGCTAGGGCAGCTAAGGCAAGGCATATTCTATGAGAAAGATTGCCCCCTAGCTATTAAACATAGCCCAGTGTCTGT
Celera SNP ID:            hCV8934108
SNP Position Genomic:     46570
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45344):
GAATGTATAAGTTAATGGTGGCTTCTGTCATATTTTGCCCATGATTTCCTTATCTGTAAGAGGCTGTATGGTTTATAGTCACTCAGAGAAAGTTTCGAAT
W
TGAACTTGAAACCTAAGTAATTTGATCCATTGAACTTGACAAATGTCCATTTGTCTTTTCAAAGGTGCACATATTCACAAAACTGAAATTGTGCCAATAT
Celera SNP ID:            hCV568071
SNP Position Genomic:     42825
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|T,12)      total(A,1|T,12) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45345):
TGGATGAACAAGATTATAATTTTCAAATTAGGAAGAGAGAAAAAGATGCAAAGAAAGGAATATTTCTGAGGTGAGGCACACCATAGCTTTCATTTGGAAA
Y
AATCATGTTTGGAGTACACATACAGAACTCTCATATTTTGGTCCCATAGTTCACAGGCATAGGTGAAAATGTGGGCATGACTATTGTGTTTTCTTCAGGA
Celera SNP ID:            hCV8934109
SNP Position Genomic:     48244
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45346):
GTTCTGGCATTCTAAGGAGAAGTAACCTGAACATCTTTCAGTACATTGGGAAGGCTGGTCTTCACGGTAGCCAGGTAACTCACTTCTCATGGATTTTGCT
Y
AATAAAGTATGCAAGAAATCAGGCTGAGGTAAAATAAAACATATATGCTGTGGGTAATGCTATAGAATGTATAAGTTAATGGTGGCTTCTGTCATATTTT
Celera SNP ID:            hCV568072
SNP Position Genomic:     42660
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,11)      total(C,2|T,11) ;no_pop(C,-|T,-)   ;(C,-|T,-)   Caucasian(C,17|T,67)   African-American(T,84)   Asians(T,84)   total(C,17|T,235)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45347):
AAATTTTTGATTCATCTTGAGCTATGGATGAAGGAACTGAGAGCAATCAAACAGTAGCACATTTAATGTGAAGTGTGACCCACAGTGTTACCAAAAGGAA
M
CACAGAATGAAAAATGACACTGGTCATCAAAAGGTTCACAATATAACTTAGGGCTTCCCACATAATCAGTCATCTTTCACCTCTTTCCAAAGTACTTTCT
Celera SNP ID:            hCV27522985
SNP Position Genomic:     51035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45348):
CTGATGAAGACAGATATAGGAAGTTTTTTTTAACAGCTTTCTTTCTGTTACTCCAGATGAAGGATGTAAATGTTGAAAATGTGAATCAGCAGAGAGGAGA
S
AAGAGCATCTTCAAAGGAAAAAGCCCATCTAAAATAATGGGAAAGGAAAACTTGGAAGCTCTGCAAAGACCTACGCTCCTTCATCTAATCCATGGAAAGG
Celera SNP ID:            hCV16195230
SNP Position Genomic:     14594
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,28)   caucasian(G,36)   total(C,6|G,64)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,363|G,1126)   total(G,1126|C,363) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45349):
AATCTAGATGTGCACTAAGTTTGAACATCTTATGAACAGGTGAAGAAGACCTTAAACAGAATATACCACCAAAACCGTAAAGTTCATGAAAAGACTGTGC
R
CACTGCTGCAGCTGCTATCATTTTAAATAACAATCCATCCTACATGGACGTCAAGAACATCCTGCTGTCTATTGGGGAGCTTCCCCAAGAAATGAATAAA
Celera SNP ID:            hCV27536741
SNP Position Genomic:     40007
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45350):
TTAACTGGATAATTACCAGATTTCCATTTCTGGTTTTGGCTTTGTGTTGATTAAATTAACCACGTGGCTGCTGAGTCAGACCTTTATTTTGTATTGTTTC
Y
GGGCATTGATTTGCTCTCTAAATCAGCATGGCTCTTGTACACACACTGAACTGCCACAAGAAATGTGACACCTTGAAAGTCCTTCTGAAATTTGTTGTAT
Celera SNP ID:            hCV27503752
SNP Position Genomic:     17654
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,89|C,1406)   total(C,1406|T,89) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45351):
CAGTTTTTTTCTTTGAATGCCCCTCAGTACTTCTGCATTTATAGGATGGTAGACTGGTTTGGTTTAGCTCTCAAAAGTGAAAACATTTAAAGTTTCCTCA
Y
TGGGTGAAAAAAATTAAAAAGAGTGAGAGACTGAAAACTGCAGCCCACCTACGTTTAATCATTAATAGTGAGCCCTTCAGTGAACTTAGGTCCTGATTTT
Celera SNP ID:            hCV11944682
SNP Position Genomic:     5836
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,19)   caucasian(C,11|T,29)   total(C,26|T,48)
SNP Type:                 TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Northern Ireland, France, Scotland(C,720|T,1280)      total(C,720|T,1280) ;(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:45352):
AAGTGTTTCTGTTGATATAAAAAGAAATGAGAAGAAAATCACCCATTCATGGAGTAGCCTTTGACACTCATATCCTTTCTCAGATTGCTTTGGAACAGAA
R
CTTCAAGTACATTCAGTAACTTGGCTGGAGAGGTATAGGGTGACTTAACTGTGTGTGTAATTCTGTTATTGTTGCTGTTGTTGTACAGGCAATTTGAGAA
Celera SNP ID:            hCV1192233
SNP Position Genomic:     53768
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;JBIC-allele(G,259|A,1236)   total(G,259|A,1236)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45353):
AGTTTGTGTCCATCACATTAGTTATAATGCCTCAAACAACCCCTTCATCCCATGCAGCCATATTTTGTCCTATATCAAATGTCTCTTTAAGTATCCTTAG
R
GCTATCTCCTAATGTGTCCTGAGCATGGCACTGAGAATCTCATGCTTCCATCAAAGAGTGTCCTTCAGACTGAAAGTAGCTTCATGCCGCAACCGTACTT
Celera SNP ID:            hCV8934110
SNP Position Genomic:     48446
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45354):
TTCCCAGGCAATGCTGATGCTGTTGTTCACAGAAACACACTTTGAGAACCATTGTTCCTTTCAAAGTGTAGCAATGATTGAAGGAAAACATCCTTCTTAA
Y
TGGCACTTCATCACTCTGGTATTTTAATTGACTAATTAATTTAGCAAATCAACAGAGTCTACTTCCGGTGCTTAAAATTAGGACAGCATGTTTCCAAGCC
Celera SNP ID:            hCV8934111
SNP Position Genomic:     49919
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45355):
TGAATATAGGACATCAGAAGGTACTCTAAGTGATTCAGGGATTAAAACGACCTCTGACCTATTTTTACACTGATCATAACAGCAGCAGGGGTTTTAATTT
R
CGCAGCAAAAATTAATATTCCTGTCAAAACATAAGGGCATAAAACTCTCATTTAATTGTGAAAGCAGTTTCTCACAGTTTGATTTAAAGTCCACAATTCA
Celera SNP ID:            hCV1192236
SNP Position Genomic:     51434
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45356):
TACTTTCTAGACAGAAGTTTTTCCAAATGAAATGGAATTGAATTCTTTGCAAAGAGAAATCAACAACAGCAACAACAACAAAAAGTAATTTGGATTTTTT
W
AAAAAGTACACAGTATCCTTAAGAATCTACCCTTATCCATATTGTAACCAATCTGTCTTCCATTTCCACTTGTTCATTTGAAAAAAATATCTTTTAAACC
Celera SNP ID:            hCV8934113
SNP Position Genomic:     51228
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45357):
AATATAGGACATCAGAAGGTACTCTAAGTGATTCAGGGATTAAAACGACCTCTGACCTATTTTTACACTGATCATAACAGCAGCAGGGGTTTTAATTTGC
R
CAGCAAAAATTAATATTCCTGTCAAAACATAAGGGCATAAAACTCTCATTTAATTGTGAAAGCAGTTTCTCACAGTTTGATTTAAAGTCCACAATTCAAT
Celera SNP ID:            hCV8934114
SNP Position Genomic:     51436
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45358):
TTGAAATTATTTATCCTCTTCATCATTATCCAGGGCACATTCCCCAGCCAATGCAATCTGTTTATCCAGTTATCTAGAGCATCATTAAAGGACCCACCAT
W
TTTTTCCTCCTAGGACCTACTGTACATGCCCCACTGTAAGAATGATTTTTTGTAACACAATATTTTTTCAAATATCTTGGCAATCAAGGGCTTACGCCTC
Celera SNP ID:            hCV8934115
SNP Position Genomic:     51659
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45359):
AAAAAAACACCAAACAATAAAATATAGCAAAACGACAGTATATATTCATACAATTTTTAAAATACAGCATAACAGCAACATAGCATTTACACTGTATTAG
R
TATTATAAGTAATCTAGAGATGATTTAAAGTGTATGGGAGGATGGGTGTAGGTTACATGCAAATACTATGCCTTTTTATATAAGGGACTTGAGCACCCTT
Celera SNP ID:            hCV1192239
SNP Position Genomic:     49320
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45360):
AGATTTGGAGTGTCAGATCTCTTTCTCCCAGGATTAATACAGGTAAGAATCTGACCTTGCCTGACACTTATTTAAATCTGATAAATGATGCATTTTTGCT
Y
CATTTGTGTTCTGTTCCCCTCTCCCCACCAGGTCAAAGAGTTCTACTCATATCAAAATGAGGCAGTGGCCATAGAAAATATCAAGAGAGGCCTGGCTAGC
Celera SNP ID:            hCV22274275
SNP Position Genomic:     20787
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,4|T,28)   total(C,8|T,62)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,422|T,485)   total(C,422|T,485) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45361):
TCTAAGCACATCCAGGTCACCTCTGAATCCCTTAAGTGTTTCCTTCCAGTCACTGGCATCATACGTTCAGACCCTGTAAAGTTACAGCTGTTAGTCCAAT
W
CCATTAAATATAATATGAACAAGTTTTTTCTTTTTTTCTCAAATGTTTAGGGTGACTGTGGTAATAACCACTGACATCACAGTGGACTCCTCTTTTGTGA
Celera SNP ID:            hCV8934118
SNP Position Genomic:     52190
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,3)   caucasian(A,38|T,2)   total(A,71|T,5)
SNP Type:                 INTRON;TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45362):
TATCAGCTCAGGATAGCTGTATATAACAAAAACAAAAAGCAATTTAGAGTGGCTTAACTAAATAGTTTCACTTTTATAGTGTAACAAACATTTGGAAGTA
S
GTGGTCCAGGGTTAATATGGAAATCTTAAGATATCATCAGAATCCAAGCTGCCTTCCTTCAGCTCAGCCATTCTTACTTGTGACTTTTGACCTCATGCTT
Celera SNP ID:            hCV27952670
SNP Position Genomic:     45733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45363):
CATTCAGGTAAGATGCAGCGTTCAGGTCATGTTCCAGGACCATCCCCAGTGCACCAGGAACTTGCATTCAGTTTAGAACATTCAGTTTCAGAATTAAAAC
R
AAACAGTAGAAACCCAGGGAAAGATGAATTTTCTTTAAATGAGTAGAAGAATAATTGATAAGGCCAAAAAAAGTCAGTTTCTGGGATACCAAAAAAAAAT
Celera SNP ID:            hCV8934119
SNP Position Genomic:     52505
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,7|G,7)      total(G,7|A,7) ;no_pop(A,-|G,-)   ;(A,-|G,-)   Caucasian(G,36|A,48)   African-American(A,21|G,61)   Asians(A,23|G,59)   total(G,156|A,92)
SNP Type:                 INTRON


Context             (SEQ ID NO:45364):
TGCGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTC
A
AAAAAAAAAAAAAAAAAAAAAAAATTTAAATATACACATACACTAGACAATGGCATAATTGGGAAATGGCATAAATGAGAAAATGTGGTTTAGAATATTA
Celera SNP ID:            hCV26457624
SNP Position Genomic:     7871
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45365):
ATTTGAGTTAATCCCAGTGGATTTTAATTAATCCCACAGGATTTTAAGAATTTCTAATCATGTTCAGCTAGTTGAAGTTACACACACACACACACACACA
C
ACACACCACACACACACAGAATCTAGATACAGCATTAACAATCAACTCCCTTGCCACAGAATTACCCATTTATCCAAAGTTTCAATTATTACCAGGCCAT
Celera SNP ID:            hCV26457625
SNP Position Genomic:     22034
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45366):
TGAGTTAATCCCAGTGGATTTTAATTAATCCCACAGGATTTTAAGAATTTCTAATCATGTTCAGCTAGTTGAAGTTACACACACACACACACACACACAC
A
CACCACACACACACAGAATCTAGATACAGCATTAACAATCAACTCCCTTGCCACAGAATTACCCATTTATCCAAAGTTTCAATTATTACCAGGCCATTTG
Celera SNP ID:            hCV26457626
SNP Position Genomic:     22037
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45367):
GTTAATCCCAGTGGATTTTAATTAATCCCACAGGATTTTAAGAATTTCTAATCATGTTCAGCTAGTTGAAGTTACACACACACACACACACACACACACA
C
CACACACACACAGAATCTAGATACAGCATTAACAATCAACTCCCTTGCCACAGAATTACCCATTTATCCAAAGTTTCAATTATTACCAGGCCATTTGTCT
Celera SNP ID:            hCV26457627
SNP Position Genomic:     22040
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45368):
AAGGGGAAAATAGTATCGAAGTAAGATAATGCTAAAATTTTTATTTTCTTTGCTATTCTTTGTTATATTATTATACTTGATTTGTAAATAGATCTGTGTT
T
GTGTGTGTGTGTGTGTGCGCGTGTAGTCATGCATTGCTTAACAATGGGAATAAGTTCTGAGAAAAGCATTGTTAGGCAATTTCATCACTGTGCAAACATC
Celera SNP ID:            hCV26457628
SNP Position Genomic:     23047
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45369):
TAGCAGTCATATAAAAGAAAAAGAGATGTGTTCATTTTTCTAGTTCTGGGGAAGCAATAAAAACTAATAGAAAGGATTAAAAAAACTTTTTTCATTGTGT
Y
TCACAGTTTATATCTATCATTCAGCCTGCCAGGAGGGAAAAAAGGCTCTAACACCATTTTCTAAGGGATCCAGAGGTCAAGATCAAAACTTGATCCATTG
Celera SNP ID:            hCV11944618
SNP Position Genomic:     18563
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;(C,-|T,-)   Caucasian(C,8|T,76)   African-American(T,84)   Asians(T,84)   total(C,8|T,244)
SNP Type:                 INTRON


Context             (SEQ ID NO:45370):
AGGGGAAAATAGTATCGAAGTAAGATAATGCTAAAATTTTTATTTTCTTTGCTATTCTTTGTTATATTATTATACTTGATTTGTAAATAGATCTGTGTTT
G
TGTGTGTGTGTGTGTGCGCGTGTAGTCATGCATTGCTTAACAATGGGAATAAGTTCTGAGAAAAGCATTGTTAGGCAATTTCATCACTGTGCAAACATCA
Celera SNP ID:            hCV26457629
SNP Position Genomic:     23048
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,6)   total(G,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45371):
TGTCATTTCAAATGTCAAACAGCAGGGTATTAGGCTTAGTTAAATTTGCCTTCGTTTTCTAGTTGGATGTAGGCAATTCCTGGAACTTGTATACAGTTGG
Y
GTCTCTGTAACCGCTGGTTCCTCATCAAATTCAACCAACCTCAGATCAAAAATATTTGGAAAAAAAACACCAAACAATAAAATATAGCAAAACGACAGTA
Celera SNP ID:            hCV1192240
SNP Position Genomic:     49159
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45372):
ATAATGCCTCAAACAACCCCTTCATCCCATGCAGCCATATTTTGTCCTATATCAAATGTCTCTTTAAGTATCCTTAGAGCTATCTCCTAATGTGTCCTGA
R
CATGGCACTGAGAATCTCATGCTTCCATCAAAGAGTGTCCTTCAGACTGAAAGTAGCTTCATGCCGCAACCGTACTTTTTTAATACACCTGGTTGTAAAC
Celera SNP ID:            hCV1192242
SNP Position Genomic:     48469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45373):
ATCCTGCTGTCTATTGGGGAGCTTCCCCAAGAAATGAATAAATACATGCTCGCCATTGTTCAAGACATCCTACGTTTTGAAATGCCTGCAAGGTATAATA
Y
ATTGCACATGTCTCTCTGTGTATTCAAGCTTATTTGTGTGTTCATGGGGTACCGATGTAGCTAATAATAATGATGTGGTCATTATGCAGGGTTACGTTGC
Celera SNP ID:            hCV1192243
SNP Position Genomic:     40166
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45374):
CATTGATTATATAAAAGTAAACGAGTCAGTTGTATTTTCAGAGAATAAAAGATTGTGCTTTATAGTTAAACTATTAAGCTGTCACTAACTTACATTAAGT
K
ATATCTAGAATGAACCTCCACAAATGCATTTTAAAAACCCCAACCTTCTAATGGTTGAAATGCAGTGACCACCAACCCACCCACATGATTAATTGGTTTG
Celera SNP ID:            hCV8934120
SNP Position Genomic:     53327
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45375):
TTTATTTCTCAGGCTATGCCTAATGTGCATAAGGAAGTATGTGGTCTGAAGTTCACTACAGTCATGGAAGAAAGAGATGGAGAAAGCCACCAGCTCTTAA
Y
GGCCTCAGCCTAGAAGTGATCCTCATAGATTCTATCCATGGCGTATTAGCCAGAACTAGTCACGTGGCCCCCACCAAATCACAAAGGAATCTGGGAAATG
Celera SNP ID:            hCV1192244
SNP Position Genomic:     39737
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45376):
AAACATTACTTCATATAACTACCTTTCCCCAGAGCCCCATGCCATGTAGTATCCTTAAAATTCTATATTAGTTAGGTAACACCAGGTTATGCTGCAATAA
M
AAATGTCCCTCAAAATCTCAGCAATGTGTTAAAAGTTTATTTCTGAGCCAGGCATGGTGGCTCACGCCTGTAATCCCAACACTTTGGAAGGCCGAGGCGG
Celera SNP ID:            hCV1192245
SNP Position Genomic:     39299
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,6)      total(A,6|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45377):
GTTCCCTAATCAGGAAAAAAAAAAAAAAAAAAAGTAAGACACAAACAAACCATTTTTTTTCTCTTTTTTTGGAGTTGGGGGCCCAGGGAGAAGGGACAAG
R
CTTTTAAAAGACTTGTTAGCCAACTTCAAGAATTAATATTTATGTCTCTGTTATTGTTAGTTTTAAGCCTTAAGGTAGAAGGCACATAGAAATAACATCT
Celera SNP ID:            hCV8934122
SNP Position Genomic:     54550
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:45378):
ATACTTCTCCACTCTTCCCCATATCATCCATTCTCCCCAACCCCATGTATGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTCTGTGTGTTTGTGTGTGC
Y
TGTAGCCTAATTTCAGAGGTTATGAATCCTGTGGATGAATTAGATCTTAAAACCCTTTATTTTTAAAAAATTTTTCAGCCTAGACTCTGTCATACAAAGA
Celera SNP ID:            hCV1192246
SNP Position Genomic:     37097
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45379):
AAAATGTTTTTATTTGTATGAATTAAAAGATCCATGTTGAACATTTGCAAATATTTATTAATAAACAGATGTGGTGATAAACCCAAAACAAATGACAGGT
S
CTTATTTTCCACTAAACACAGACACATGAAATGAAAGTTTAGCTAGCCCACTATTTGTTGTAAATTGAAAACGAAGTGTGATAAAATAAATATGTAGAAA
Celera SNP ID:            hCV8934123
SNP Position Genomic:     55074
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:45380):
GCCCAAGATTGATGTCTGGAAAGCAGGCTGCAGCCATAATCAAAGCAGTTGATTCAAAGTACACGGCCATTCCCATTGTGGGGCAGGTCTTCCAGAGCCA
S
TGTAAAGGATGTCCTTCTGTAAGTGCAGACAAATATGGGAATAATCATGACATCAGACTCTGTTTTCATTTTGTCTCCAGTGAAAGCATCAACTCATTCA
Celera SNP ID:            hCV22274712
SNP Position Genomic:     26041
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,29)   caucasian(C,24|G,14)   total(C,31|G,43)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,226|G,523)   total(G,523|C,226)no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45381):
ATTTACCAAATTGTGAGTTCCCACTGCTATCTCTAATTCTAATTCTAATTCAACACTACAGGGTTATTTTTTCCCTCATTTCATCATTCTATTTTCCTTC
Y
CCCACTGTGACAACTGTGGTTTTCGAGAACACCAATATATTGATTCACCTGCTCAATTCTAAAACATACACAATATATTTTTGGAATTGCCATACTGATA
Celera SNP ID:            hCV1192248
SNP Position Genomic:     35953
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45382):
GCTTGGGTATTAACTTATTAAGTTCTGGCAGAAATTAAATTTATTATTTTTATATTAGGGAAGCATGACTTCTTATATTTTTCAATTTCCATAATTATTT
K
AGTAGCTGATTTACTTCAGCTATTTGTGTATTAAATATCTTGGCAAAAGATAAAACCCACATATCAAAAGATCTATTCAGCAGTATTTAATGAGCATCTA
Celera SNP ID:            hCV1192249
SNP Position Genomic:     33917
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45383):
TGCAAACTTAAATTTTCAAATCTTTTAATATAATTGTTGCTCCAGAAAGACTTCATAATGAGCTTTCAGTTACCTCTGGAGATATCACAGTTTGAAAGAC
R
TGGCTATATACAACTTGAATAAATTACTATCTTGTTTGCCAAAAGAATGGCAATTAGTATCTTGTTCACTCAAAAGAATGATTATAATATAGCATTTCCC
Celera SNP ID:            hCV22274714
SNP Position Genomic:     25793
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,8)   caucasian(A,30|G,10)   total(A,60|G,18)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,661|A,826)   total(G,661|A,826) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45384):
CAAATGCATTTTAAAAACCCCAACCTTCTAATGGTTGAAATGCAGTGACCACCAACCCACCCACATGATTAATTGGTTTGGTTCCACATTTGCCTTGGGC
S
AGAGCTCTTAGAATGTTTCTCTGTCCGCATTCTCTGCTTAAATCCAGCTGGGCTTGCCTGTTACTCAAAAGGAGAGTGCTCCCAAGGTGGGGCTTCTGGA
Celera SNP ID:            hCV15921787
SNP Position Genomic:     53448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45385):
AAAAGAAAAAGAGATGTGTTCATTTTTCTAGTTCTGGGGAAGCAATAAAAACTAATAGAAAGGATTAAAAAAACTTTTTTCATTGTGTTTCACAGTTTAT
R
TCTATCATTCAGCCTGCCAGGAGGGAAAAAAGGCTCTAACACCATTTTCTAAGGGATCCAGAGGTCAAGATCAAAACTTGATCCATTGCAGTGGGTCAGT
Celera SNP ID:            hCV11944621
SNP Position Genomic:     18575
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45386):
GGGGAAAATAGTATCGAAGTAAGATAATGCTAAAATTTTTATTTTCTTTGCTATTCTTTGTTATATTATTATACTTGATTTGTAAATAGATCTGTGTTTG
T
GTGTGTGTGTGTGTGCGCGTGTAGTCATGCATTGCTTAACAATGGGAATAAGTTCTGAGAAAAGCATTGTTAGGCAATTTCATCACTGTGCAAACATCAT
Celera SNP ID:            hCV26457630
SNP Position Genomic:     23049
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45387):
GGGAAAATAGTATCGAAGTAAGATAATGCTAAAATTTTTATTTTCTTTGCTATTCTTTGTTATATTATTATACTTGATTTGTAAATAGATCTGTGTTTGT
G
TGTGTGTGTGTGTGCGCGTGTAGTCATGCATTGCTTAACAATGGGAATAAGTTCTGAGAAAAGCATTGTTAGGCAATTTCATCACTGTGCAAACATCATA
Celera SNP ID:            hCV26457631
SNP Position Genomic:     23050
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,6)   total(G,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45388):
TAATAACACATAGTTTAAAACACATTGTATAGGTGTACAAAAAATATTTTTTCTTTAAATCTTTATAAGCTTTTTTCTATTTTTAAATTTTTTATTTTTA
T
TTTTTTCTTTTAAAAATTTCTGGTTAAAAATTAAGACATAAGCATATATATTAGCCTCGGCCTACACAAGGTCAGGATCATCAATATCACTGTCTTCCTC
Celera SNP ID:            hCV26457632
SNP Position Genomic:     23707
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45389):
CAGTAATTGCTTATTAGTTTCTGAAATTGAGTTAGAGGAAAAAGGAAACATTTTAAAACACAAAATCATCATTTTCAAACATTGTTTCTTCTTTTACCTG
T
TTTTTTTTTCATATGTCATTTAATGTTCTAATGTAATTTTCTAATGCTGTATGAGATGGAAATTATTTAGGAAGGTGGCTAATAAAACTAAACTTTTCTT
Celera SNP ID:            hCV26457635
SNP Position Genomic:     26932
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45390):
TGTTTGAGTGAGAGAGAGGGGCGTTCAAGGAGAAAATTAAAATAAAATGGGGAGGGGTCTTTTTGAGAAAGTCTTAATCATTTTTTCATTTGTTCAAATT
A
AAAAAAAAATCACTTCTTGAGAAAACTCAAACCAATAGAAACTCTGTGAATGGTAGAGATTTTTAAGTATTCCTTCCCCTAAACATTGATATCCATGATT
Celera SNP ID:            hCV26457637
SNP Position Genomic:     31624
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45391):
TAAGAAACCATGGACTCCAGAGTCAGAAAAACCTAGGTTTCAATCCCAGCAATGCCATTTACCATTTACCAGCTATATGACCTTGAACAAATGACTAGGT
R
TATCTGCGTCTGTTTCCTAGCATGTACAGGGGAATATTAATATTAAACTGACAGAGATGTTCAGTGGATTAAATGAGGTGGTAGTATTAGTAACAGCTAA
Celera SNP ID:            hCV11944628
SNP Position Genomic:     30629
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45392):
TTGTTAATACTTCTCCACTCTTCCCCATATCATCCATTCTCCCCAACCCCATGTATGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTCTGTGTGTTTGT
K
TGTGCTTGTAGCCTAATTTCAGAGGTTATGAATCCTGTGGATGAATTAGATCTTAAAACCCTTTATTTTTAAAAAATTTTTCAGCCTAGACTCTGTCATA
Celera SNP ID:            hCV26457638
SNP Position Genomic:     37091
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45393):
GGGGCTAGCCCTAATCCTGATGCTACCACGCCAGCTGGCACCACCCTGGCTCTTGGAAAGGCATGAGGAAAATTTGGCTTCCTCTTTTTTCCACTGAGGA
T
TTTTTTTTTCCAAATTTGACTTGGGAAACAGTCATTACAATGAATGTGCAGCTTTTTTTTTCCTCATATGTTGCAGCAAAATTGTCCGTCGAGTTCTGAA
Celera SNP ID:            hCV26457639
SNP Position Genomic:     42246
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45394):
CTATGGCCTATTAGAGACCTCAATTTTCAAGCCACTTCTCACTAGAATTCAAATGGCCCACAAGGAATCCCAAGCATTATGCCCTTGCCTTTCTTTTTAG
R
TAGATATCTCTGGAAATTGTAAAGTGACCTACCAGGCTCATCAAGACAAAGTGATCAAAATTAAGGCCTTGGATTCATGCAAAATAGCGAGGTCTGGATT
Celera SNP ID:            hCV25921533
SNP Position Genomic:     22411
SNP Source:               Applera
Population(Allele,Count): african american(G,22)   caucasian(A,2|G,34)   total(A,2|G,56)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45395):
TTTTTTGTTCATTGACCCCATGAATCCAATCCATAAATTTCCAGGGTTAAGAATTCCCTGTACCACAGGTTAAAAATCCCTGAAAAGGGGATTAACTCTT
Y
AATTCAAAGCTAGATAGCAAATGTGTAAGTGTCTCAAAAGCAAAATTCTGAGTTTGCAATCTAGAAACATAAAAATACTTTACCAAGTATGTGTTTATTT
Celera SNP ID:            hCV1192250
SNP Position Genomic:     32611
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45396):
TATGCCTTTTTTTATAGACCTCAGCTGGTGGATGCTGTCACCTCTGCTCAGACCTCAGACTCATTAGAAGCCATTTTGGACTTTTTGGATTTCAAAAGTG
M
CAGCAGCATTATCCTCCAGGAGAGGTTTCTCTATGCCTGTGGATTTGCTTCTCATCCCAATGAAGAACTCCTGAGAGCCCTCATTGTAAGTCAAATAGAA
Celera SNP ID:            hCV1192251
SNP Position Genomic:     31824
SNP Source:               Applera
Population(Allele,Count): african american(A,16|C,4)   caucasian(A,18)   total(A,34|C,4)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45397):
CGAGAGATGCTGTTAATTAGAACTATTTATTAGGTTGTTGCAAAAGTAATTGTGGTTTTTGCCATTACTTTTGTGACAACCTAATATTATTTTTAAAACC
R
CAATAGAATAACTTAGTGTGTGTGAGAATTACCTTTATCTAAATGCTACTCTAAAAAACATAGATATAAGAAATGAATAATTCAGACCTTAGCAACAGCA
Celera SNP ID:            hCV1192252
SNP Position Genomic:     27629
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45398):
ATTCATATTGATATGCTCTCTGCCTTCAGAAATGACCCAGTAAATCTTTAGCTAAGTGCAGCTGGAATTTCACTTGGAATATCTTCTTAAGATTACATAG
Y
TAAAAGGCACTTGAAAAAGAGAAAAAAAAGGATCCATTGCTTATTAAAAGTAATGAATAATTTAAAAACTGGCAGCAAGTTATTACTATAGAGTTAGAGA
Celera SNP ID:            hCV1192253
SNP Position Genomic:     27343
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45399):
GCTGAATTTCTAAAAAACTTTTTTCCTCCATCATAAATTAACCTTAGCTTACTGTAATATTTTTACGTTAAAAACTTTTTAATTTTTGTTAACTTTTGAA
S
TACTCTGTAATAACACATAGTTTAAAACACATTGTATAGGTGTACAAAAAATATTTTTTCTTTAAATCTTTATAAGCTTTTTTCTATTTTTAAATTTTTT
Celera SNP ID:            hCV1192254
SNP Position Genomic:     23599
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45400):
CAATTTTCAAGCCACTTCTCACTAGAATTCAAATGGCCCACAAGGAATCCCAAGCATTATGCCCTTGCCTTTCTTTTTAGGTAGATATCTCTGGAAATTG
Y
AAAGTGACCTACCAGGCTCATCAAGACAAAGTGATCAAAATTAAGGCCTTGGATTCATGCAAAATAGCGAGGTCTGGATTTACGACCCCAAATCAGGTAT
Celera SNP ID:            hCV1192256
SNP Position Genomic:     22431
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;JBIC-allele(C,360|T,1125)   total(C,360|T,1125)no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45401):
TTGTCTTTGTATCTTATCATCCTGGGGGAGAAAAAAAGTCCCCTATGGCCTATTAGAGACCTCAATTTTCAAGCCACTTCTCACTAGAATTCAAATGGCC
Y
ACAAGGAATCCCAAGCATTATGCCCTTGCCTTTCTTTTTAGGTAGATATCTCTGGAAATTGTAAAGTGACCTACCAGGCTCATCAAGACAAAGTGATCAA
Celera SNP ID:            hCV1192257
SNP Position Genomic:     22369
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45402):
CGCTCACAATTATGACCGTTTCTCCAGGAGTGGATCTTCTTCTGCCTACACTGGCTACATAGAACGTATGTACACCAAAAAGAGGTTCTCCTTCCATACC
Y
CACAACTTAGCATTGCTGGAACTGCTATTAAATTACAGTTATTGTGTGTCATCAGGTAGTCCCCGTTCGGCATCTACTTACAGCCTAGACATTCTCTACT
Celera SNP ID:            hCV25616041
SNP Position Genomic:     42456
SNP Source:               Applera
Population(Allele,Count): african american(C,16)   caucasian(C,16|T,2)   total(C,32|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:45403):
TTTTTAGCTGTTGCAAATATTTAAGTTTTTGGCCCCTTGAGAAGTTCTAGCTGCAGCTCAGAAGCTTCACCATTATTTACAGAGCAGGCAGGGAGCTTGC
R
TCATGAACATTATATTGATTTTATCCAGGTGGTTATTGAAGCCCAAGGACTGGAAGCCTTAATCGCAGCCACCCCTGACGAGGGGGAGGAGAACCTTGAC
Celera SNP ID:            hCV26457640
SNP Position Genomic:     44064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45404):
AGGCCAAGATCCACATCACAGGCCTCTGCTGGACTGGGTGGATGAACAAGATTATAATTTTCAAATTAGGAAGAGAGAAAAAGATGCAAAGAAAGGAATA
Y
TTCTGAGGTGAGGCACACCATAGCTTTCATTTGGAAACAATCATGTTTGGAGTACACATACAGAACTCTCATATTTTGGTCCCATAGTTCACAGGCATAG
Celera SNP ID:            hCV26457641
SNP Position Genomic:     48206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45405):
ATTGGGAGCCTTTTGTTAATACTTCTCCACTCTTCCCCATATCATCCATTCTCCCCAACCCCATGTATGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGT
S
TGTGTGTTTGTGTGTGCTTGTAGCCTAATTTCAGAGGTTATGAATCCTGTGGATGAATTAGATCTTAAAACCCTTTATTTTTAAAAAATTTTTCAGCCTA
Celera SNP ID:            hCV11944632
SNP Position Genomic:     37079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45406):
AAACAAAACAGTAGAAACCCAGGGAAAGATGAATTTTCTTTAAATGAGTAGAAGAATAATTGATAAGGCCAAAAAAAGTCAGTTTCTGGGATACCAAAAA
R
AAATCTAATGACTAGTTCATTTGATTCTGGAGATAGTTATCATATTCTAATCCAGAAACAATTTATCCAGGAAAGAAAGGCCTATGATTTACCATAGGAG
Celera SNP ID:            hCV26457642
SNP Position Genomic:     52601
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,13)   total(G,2|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45407):
AGAGATACTCTGATGAAGACAGATATAGGAAGTTTTTTTTAACAGCTTTCTTTCTGTTACTCCAGATGAAGGATGTAAATGTTGAAAATGTGAATCAGCA
S
AGAGGAGAGAAGAGCATCTTCAAAGGAAAAAGCCCATCTAAAATAATGGGAAAGGAAAACTTGGAAGCTCTGCAAAGACCTACGCTCCTTCATCTAATCC
Celera SNP ID:            hCV25616048
SNP Position Genomic:     14585
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,36)   caucasian(C,1|G,35)   total(C,3|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45408):
CCTTTTGTTAATACTTCTCCACTCTTCCCCATATCATCCATTCTCCCCAACCCCATGTATGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTCTGTGTGT
K
TGTGTGTGCTTGTAGCCTAATTTCAGAGGTTATGAATCCTGTGGATGAATTAGATCTTAAAACCCTTTATTTTTAAAAAATTTTTCAGCCTAGACTCTGT
Celera SNP ID:            hCV11944633
SNP Position Genomic:     37087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45409):
TGCCTGACACTTATTTAAATCTGATAAATGATGCATTTTTGCTTCATTTGTGTTCTGTTCCCCTCTCCCCACCAGGTCAAAGAGTTCTACTCATATCAAA
R
TGAGGCAGTGGCCATAGAAAATATCAAGAGAGGCCTGGCTAGCCTATTTCAGACACAGTTAAGCTCTGGAACCACCAATGAGGTACTTACCAATATTAAT
Celera SNP ID:            hCV25616049
SNP Position Genomic:     20844
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,32)   total(A,69|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45410):
TTTTGTTAATACTTCTCCACTCTTCCCCATATCATCCATTCTCCCCAACCCCATGTATGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTCTGTGTGTTT
R
TGTGTGCTTGTAGCCTAATTTCAGAGGTTATGAATCCTGTGGATGAATTAGATCTTAAAACCCTTTATTTTTAAAAAATTTTTCAGCCTAGACTCTGTCA
Celera SNP ID:            hCV11944634
SNP Position Genomic:     37089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45411):
TGGTACTTATCATGAGCTTCTCCTGTTTTCCCATTTTATAAACTAGAACATTGGGTGACCTCATGTTTTCAAATATACTTATAAAAAATTTAAGGCCGGG
Y
GTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCTAAAACGGTGAAACCC
Celera SNP ID:            hCV11352686
SNP Position Genomic:     7597
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45412):
CATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTG
M
GGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAA
Celera SNP ID:            hCV11352687
SNP Position Genomic:     7773
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTRON


Gene Number:                 228
Celera Gene:                 hCG37888 - 79000075689180
Gene Symbol:                 KCNB1
Protein Name:                potassium voltage-gated channel, Shab-related subfamily, member 1;DRK1;KV2.1;h-DRK1
Celera Genomic Axis:         GA_x5YUV32VYHA(14795728..14919321)
Chromosome:                  Chr20
OMIM number:                 600397
OMIM Information:            POTASSIUM CHANNEL, VOLTAGE-GATED, SHAB-RELATED SUBFAMILY, MEMBER 1;KCNB1


Genomic Sequence (SEQ ID NO:12388):
GGTAGGCTTTGGTGGCAAACTGGTGATCAGGATTAGGAAATGAGTGCAAGGGAAGAGAAACTGTCCCATAACAAACTTACTAAAAAGTTTGTAGAGAGGA
TTAAAGGTCCACAAATAGCCAAGTGTGCCCTAAAAAAGAACAAAGAAGAGAGACAAGGGCTACAGGCACTAAAGCTCACTATAAAGCCATGCTAATAAAA
ACAGGACCACAGTGACATAAGCACAAGAAGCCCAATGGAGCAGAGTGGGGAGTGCAAGAGGCTTCATATGACAAAGGTGGCCCACAGATCAGCTGGGGAA
AGGACAAGTTATTTCATAGGTAGTTTTCAGAAAACTAGCCAGCTATAGGGAATGAATGAAGTTGGCTCCCTACCAAATCACACACACACACACACACACA
CACACACACACACACACACACAATTGGTTAAAGACCTAAAGTAAAAAATAAAAATATAAAATTAATAAACAAAACTGTTTGCAACTTAGGGGCAGGGGAG
GACTCAAACAAAAACTTTAAAAGCACAAACTATACAGCCAAAAATAGATTATCTTGATCACTTTAAAAAGATTTCTGCTTAATAAAGGACACCATAGGCA
AAGTTAACAGGTAGGTGACAAAGCAGAAGAAGATATTTGCAATGTCTAAAATCCACAAGGGACTTAAAATCTGCATTATACAAAGGAATCCTGCAAATCA
TCAAGAAAAAAACAGGAATCCTGATAGAAAAATGGGCCACTATGTGCACAGGTGATATTTATACAAGAGAACAATAAGCATATGAAGAGAGTCTCAGACT
CATTAGTAATCAGAGAAATGCAAATTTAAATATACTGAGATGTTACCTTGTACGTGTTAGACTGTCAAAACCTACATATCTGGATAATACCAAATGCTGG
CTGGGATGTGGAGCTGTAGGAACTCTCAAGCACTGCTGGTGAGATGCAGCCTGGAACAGACATCTGTAGGGAGACTTGGGTGTGCTTAGTTAAATTAAGT
GCAACATACTCTGTGATGTGTCAATTCTGAACCTGCAGGAAATGTTTTTTTAAAAAATCATCACACTGGCTCATAAGCAGACACATGGGAGGATGCTCGT
GGATGCATTCATTGTGGTGGTGGGAGTTGGAGGTCTTCTGGGTGACCACATAGCGGGTGGACAGTGGAAAGGGGACTTGTGTCATCGTGAACAACTGTGC
AGCTATTACAAGCAGCAGGCTGGGTGTACCCACAGCAACGTGGATGGATCTTAGAGAAAAATAAATAGAATGTGATGTATAACACAAACCATATATGCAA
GTTTTAAAGTGCACACAAAACACCAAACACAGTTTTCAAGAACTCATACAAACAAAGCAATATACAGGCYGGGCGCAGTGGCTCACACCTGTAATCCCAA
CATTTTGGGAGGCCGAGGCAGAAGGTTCACTTGAGCCCAGGAGTTTTAGGTTGCAATGAGCCATGATCATGCCACTGCACTCCAACCTGGATGACAGAGT
GAGTCCCGATCTCTAAAAGCAAAAGCAAAAACAAACCCAAACAAAACAATATACGGTTGACACATGACAACCATTTCCTATGGGCTAGTGGGAGGGGAAT
GCAGATAAAAGGGAATTTAAAAATGAAAAAAACAATACAGAAGAAAAACAAGTAACAAGGTTTTCTGTCTGTTCCTGGCCTTGGCAAGAGAGGTGTGTGG
CTCCACGAGGACAGGGACCATATAAATTACTCACCCTCAATTCCCAGCACCAACACCCATGCTGAGGCACACAGTAGATGCTCAGTAAACATCTGGAATG
ATTCCATTAATCAATAAATGAACTGATGGAGAAAGGACTTTGCAGAGAGGCTGCTCTGGTATTTGGATAGCCCGTTGATTTTGGAGTCAAACAAGAGATT
CCCATATCTGGTTGTGCCAGCACTTGCCAGCAAGATATTGGGCAAGACACCTTCTCTCGGAGCTTTAGCTTCCACATCTATAAATAACCTCATCTCTTAT
TTACAGATGTGGAAGCTGATGGATGTTATACCTTCAGAGGACTACTTGTAGTAGGTGCCCAACAAACATGCATCTCCACTCCTTGGTTATATGGAGTAGA
GAAGAACCGCACTTCTAGGTGTTATTTTAGCTGTACCTGGAAGGCACCGTAATGCCTGCAGTAATGCCTGGAAATTTCACCATTATAGAGTCATTTTTTC
CCTCTCATCAGGAAGGATTTATTGCTTTCTGAAACCTCCTGTGGGAATGCCCAGATCTCTGGAGAAAAGTTGCCTTCAACAGATTAGGCTTACAGAGGGG
CCAGCTGAGAACCCTTTCTGACCCTAGGAACACCAGACTGAAGCAGGAGGGAATGTGATTGTTCACTGTCTCTCACACCCCAGGTCATTTGCACTTGCTG
TTTCCTCCACCTGGAATGCATTTCCCTCATTCTCCCCATGGCTAGTCCCTTCTTATCTTTCAATCTCTATTAATCTCCTCTGAGACACCCTTCCTGACCA
CCCTGTGTAACACTAGCAGCTTGGTCTCTCTTTTTCCACCCCATCATGATGTTCCATTTCCTTTATAACAATCACTGTAGCCTGAAACTCTCTCTTTAAA
AATTTACTTTTTTAGTTACCTGTCTTCCTCCACTGGTCTACAAGCTCAGAAAGGGGGGCGGGCTGAATTAGGGCAATAGGCCAGAAGTTTAGGTTTTAGT
CTAAAGCAAGGGAAAGTCTTGGGAAGGTTTTAAGCAGATGAGAAACATGGTCCAACATTTCATGGTCCATGAAATGTAGCAGTTGTTTTGGTGGCCATGG
GGAGAATGAACTGTAGGAGGCCAAGATGGGAGCCAGGCATGGGAGCCAGGGATGAGGCCAAGATGGGAGCCAAGTTGCAGGGAGGTTGCAGGGAGACAAG
ACGATGGTACCTTGGACAAGGGTCATGATGGTGGAGATGATAAGTGGACAAGTAAAAAATATATAATAATATTATGTGCAACTCTATGGAAATTATGGAA
ATGAACCCCTTAATTTTAGAAAGGAAGAAAAGGGCCAGAGAGGAACCTGTGTTGGAACACTGTATCTTGTTCAGTTTTTGTCCTCCAGGGCAGGGGAGCT
CACTGCTGTACCCATCCCCGGCACTTTTTTTTTTCTTTTTTTTTTTTTGCAACAGGGTCTCACTTTGTTATCCAGGCTGAAATGCAGAGGTGCAATCACA
GCTTATAGTGGCTTTGACCTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGAGACCACAGGTAAGCAGCACCATGCCCAGCTAATTT
TTTATTTTTTGGCAGAGATGGGTCTCACTATGTTGCCCAGGCTGGTCTCCAACTCCTGGGCTCAAGCCATCCTCCCGCCTCAGTCTCCCAAAGTGCTGAG
ATTACAGGCATGAGCCACTGTGCCCGGCCGCTGACACCTATTTACTTATCATGCAGTAAATGAATATTTGAAAGAATAAATGAGTAAACACAAGGCCCAT
CTGTGGCATCCTTAGAGAACCCTTGCCTGCCTCTCCAGGTACCTCCTCCAGTTTTCATTTCTGGGATTATGTGATGGGTTTTGCCTCCCCCACTGGATGG
GGAGCTCCAGGGGGAAGACTTTCCCTTCACGGAGCCTGGCATTCTGCTTGCACATAGGAAGCTGTCAATAACCAGATGTCCAACTTAACATGAATAAATG
AATGAATGAATGAATGAATGAATCACCAGACTATATAAACCAGCTCACTCTTCACCCTCTCTTCCCCATACCTCGCTTTATTTTTCTTCTTAGCGGTTAT
CACCACCTGCCACATTGCATATGTACTGATGTATTCATTGTCCGCCTCCGTCCCCCACCCCCGACCCCCCGCTAAAATCTAGAATGGAAGCTCATGAAAG
CAAGGGCTATTTACAGTTCCGATCTGCCCCCTCCCACCCTCTGACCCTTCCTCCTGTTTCATTATTTCCCCCAGCGCTTGTCACCGCCTCATATATCCTT
TCGCTTTTTTGTTTATGATCTGTTTCCAACCAGCTCCACGAGGGCCGGATGTTTGTGTTTGATTCACAGCTGTATCTCAGACGCCTGTCACCGTGCCCTG
CACCGCGGCTCGCGCACAGGAGGCGTTCAACACACGTTGTTGACGGGACGAAGGAAGGCGGGATCGCGAGGCCAGCTGTGCAGGTGGCCTGGGTGGAGAG
GGATGCACGGCCACGCGCGTCTCCTTGGCCCGATCCCGGAGCCCGCCCCCGGCCTCCCCGGCAGGCTGGGCCGGGCAGGCAGGAGTTAAGCCGCGCTCGC
TTCCGACCCGCAGGTGGCGCCGTCCTGCCTTGGTGCCCGGCTCCGGGCGCTCCGAAGTGCGGGACAGAATAGCAGCGAGCGCGGAGCCGAAGCTCAGCCC
CGACTTGTTGATCTCGCCCAGGCAGCCGCCGCCGCCGCCGCCGCGGGAGCAGGAGGAGGAGGAGGTGGAGGAGGTGCCGCGCGGCCGCGGTCCTGCCCCC
GCGCCCCCGGCGCCCGCCGGCGCCCCCCGCCTCGGAGAGCGCGCCCCGGCCCCGCGGCGCCTGCAGCCCGGGCGAGTTGCCTGCCCGGCCGGGGTAGGCC
CGGCTCAGCCCGGCCCCGGGACCGCCGCTGCCCACGGGCGGGGGCGCCCGGGCGGCCGGGACGATGCGCGGTCCCTGGCCCCAGGAGGCGGCCGCCCTGG
GGGTGAGTGTTGGGGCGTACGGCCTTCCGTGGGGGTGCATGGGGACACGGACAGGGGGTTTGCCTGCCGCAGCTCGGCCTGTTGGTCTGCTCGGGCTCCG
CAGCTCCAGGCTGGAGGGGAGCGGGGTGGGAGGCAGGCAAGGGCTGAGGCCTGAGGGGACGCGCAATCCCCATTCTGGGGCTAAGGCGTGAGCCCTACAT
GCAGGGGGTGCTCAGGGGAACCCCCCGAAATCACTAGTGCGCGGTAGGAGGATGGCACCTTTTGAAAAGGCCAGAAAATTTAGCTCATTTCCCCGCCTCC
CACCTCCCCCACCCCTTCCCTTCCAAGCCCGGGGAAAGGCGCAGAACCCGGAGTTATAAAAAGCCATCGCGGGAGAGGAACGAGGAGGAGGAGTAGGAGG
AGGAGGAGGAGGAGGAGGAAGAGGAGGAGGAGGGGGAGAAGGAAGAGGAGGGGGAGGAGAAGGAGGAGAAGGGGGCGGGGAAGGAGCGAGGGGAGGACGG
AGCAGGCGGATCCCGAGGACTCTGCCCGCCCCTCCTGCGGTAGGGTTGGGGGCTCAGAGGGAGAGGCGAGAGCGGGCTTTTCCTCCTCGCGGCTCACCTT
GTCGCTGGAGCAATCTCAGGAGATGCTCCAGTGTTTGGGAAGAGGGGTCGCTCCAGGACAGAGGGGCTGTTGTGCACACCCCGTCTGTTGTGACCTCGGA
CAGGTGGGCACCTGGAACCCCCGGAATTCCCCCAAATCTTTTAAGATTTGGAAAAAAGCCCGCTGCCATTCCCCCACCCCCAAAATCTTGATTATCTCGA
GAAGGGGAAGGAAAAGAAGAGAACTCGTTAAAAAAAAAAAAAAGAAGGAAAGAAGAAGAAGAAAGAAAGAAAAAGATAAAGAAAGAAAGTTTTCATGCAG
CTCCCCCTCTCTCCCCATGGCGGGGCCAGGTTCGGGACTCGATCGGGAGACCCATAATGAAGAGAGTTTCAGCACTCTAAGGGGCGGACAGCGCCCCGGG
CGGCTGGGTCGCGCCTGGGCCGCAGAAGCCCAGGGTGGGGCCTCCCGGGCTCCAGGGGCATCTCTTGGGGCCCTCTCCCCGCCCCGAGGGGCGGCCCCTC
CCTCCATCCATGGGGTGCGGCGGACTTCAGCACCGGCGGGAGGGACAGCGACCATCCGTCCTACCCCACTGAGCCGCTTAAGCGCGGGGGAAGGTCAAGG
CCGGCTGGGAGCCTGGTGGAGAGGTGGGGGGCGGGGGGACAGCATGCCCAGCTCCCCGTTTGCTGACCCGCGTCCGCTTTCGCTTTCTGCCTCGCAGCCG
TCGGGATGGAGGTGAGAAGACGGCCGTGACGCGCGCCCGCGGGGCCCCCTGCACCCCCAGCAGCCCACAGCGCTCCCTGCCCCCCTCCCCCGCAGCAGCG
GGCCTTGCCGTCGAGTGACAGCGGCCTGGGGGGGCAGGGGGGGCGGGGGCGGCCGGATCAGCGATGCCGGCGGGCATGACGAAGCATGGCTCCCGCTCCA
CCAGCTCGCTGCCGCCCGAGCCCATGGAGATCGTGCGCAGCAAGGCGTGCTCTCGGCGGGTCCGCCTCAACGTCGGGGGGCTGGCGCACGAGGTACTCTG
GCGTACCCTGGACCGCCTGCCCCGCACGCGGCTGGGCAAGCTCCGCGACTGCAACACGCAYGACTCGCTGCTCGAGGTGTGCGATGACTACAGCCTCGAC
GACAACGAGTACTTCTTTGACCGCCACCCGGGCGCCTTCACCTCCATCYTCAACTTCTACCGCACTGGGCGACTGCACATGATGGAGGAGATGTGCGCGC
TCAGCTTCAGCCAAGAGCTCGACTACTGGGGCATCGACGAGATCTACCTGGAGTCCTGCTGCCAGGCCCGCTACCACCAGAAGAAAGAGCAGATGAACGA
GGAGCTCAAGCGTGAGGCCGAGACYCTACGGGAGCGGGAAGGCGAGGAGTTCGATAACACGTGCTGCGCAGAGAAGAGGAAAAAACTCTGGGACCTACTG
GAGAAGCCCAATTCCTCTGTGGCTGCCAAGGTGAGTCTGGGATCTGGGGGCTGCTGGTCTGGGGGGATCTGCTTGCATYCCCATATTGAGGACCACTGCT
GGAGGACTCTGGCTTTGTTCCCAACGATGAAGATTAGTAATGGGGAGGGGCTAGGACTGAGTCCCCAGAGGTGAGGACCAACCCCCTCAGACTTTTCCCA
TGTGGCACTGGTCACTCCATCTTTTTATTATCCAAGACGTTATACCCCTACTTGGTTGGAGAGGTTTCACAGGGACCCATAAAAAGCCACAGCAAGAAGA
TGGACACTGACGAATAAGAGAGAGAGCACAGAGAGACAACAGTGGCTTGCTGGGGTGGAGTAGGGTTTGCTTCCCTGTGAAGTCCCAGACCTAGGCTGGA
TTGGATCACCCTGTGATTTTAATATCTCCATATTTATAACCTCACTCTGCCCCAGCAAGGGAAAAAAGCAGCTTACAGACATGCTTACAGGACATTGAGA
TACTGTCAGATAGTTTAAACATAAGTAAGAAGGGACCCCGAGGGGTGGGTGTGGACCCACACGACACATGCAGTTGGTTGTGGATGCTTGCGGGTGAGGG
GTCACCCCCTGGTTACTTATTTATTTGGTGAGTTTATTTCCAGAATGGTTTGGTGCAGCTTGTAAAGATGTTTCAGCTCTTGGAACAAGATGTAAATTTC
AAAATAGGAGMGAAAAATGAGGCAATGTGAAAAATAAAGGAGGAGGAGGAGGAGGAGGCAGGAATGAGTTTGAACACAAAGAGTGGGCCAGAGAGTCTTT
GGTGCTGCTGGGTAATGGCAGGGGCTGTAGGGGACTGAGGAAGGCTTGGGGTGGGAGCCAAGGCAGGGCAGGAGGGCACTGGTTGATCAGCAACTTCTCT
ACGTCAGGCTGGGATTYGGGGTTGCCTGGGAAAGATGGGGCCTGTCTTCATGTGCCCGAAGTGCTGGGTGCTGGGAGCAAATGACAAAACAGTGTGTGCA
AGGCTATAAAAGAGGTTCTGTGAGGTTCACGGAGAACCCAGAAAAGAGAGATGTTGATGTTGAAATCCAGCAAGACCAACTTGGGAAACATGGGGAGAAT
GTAACTGAGTGTGGGGCCTAAAAAAAGGGGTCAGGTAAGTAGATTTGTGGTAAAAGAAAGAGGAGAGGAGGAAGCCTAAATATCCAGCCATATCTTACTA
GCTAGGGCTGACTCCTGTCCAGCCCAGCCTTTCATTGTGGGGTCTCCGGCTCAGTTCTCACTGAAGGCCCACCTGCAGGTCCCAGTCTGAAGGGAGACTC
CGTGGGGTCCTTCCTCCAGATCTAGCCACCCAAGGAGAGGCCCCTGAGAGTGGATGGAGAAGGGGTGGCTGGTAAGAGGGTGGAGGGAGCCCCCACGTGT
TTTTTTCGTTTCCCTGTTGGCCCTAACAAGGATGTAGAGGCTCCTGGGCCTGGCTTCCTCCTCTGAGGCTGTGGGCTGTCTCTCTCCATAATCCCGCCCC
CAATTTTGTGTCCAAAAAGCCTCCTCCTAAGACAGAGTCACTCACCCTTAATCAGCTTAGGATCAACAGACTTATTTTGCTATTTCCAGGCATGACACAG
GTTCTCCCACTGCACATCCCATTTAGGCCCAAATGTGACTCTCCCTCCCTGTCCCATCCCTAAGACATGAGAACAAGGTACAGGGAACTGGACAATTTGC
CCTCCCAGAGAAGAAGCAGGCACAGGGCCATGTTTTGGTCTGGCAGCAAGACCCAAGCACCGGGGCTTGCAAGAGGTGCTGTTTGGGAATAAAGAACCTC
TCCTCTCCCTTGGGTTAATCCGCTAGCAGGGACAGCCTTGTGACCTCTCCATGATCCCAGTCTGGGGCTGCCAGCTCACATTCCTGGCAGATGGACCATC
TAGGATTTTCTGTAGCCAGAGCTGAAATGGGGAGGGAGGCAGGCTCACTGGCCCTCAGAATAGAAATCCTGGCTGCCAATGATCAAACACCTACTGTGTA
TGGAGTGTAACAACGCAGCTCTGTTATTATCCCACCTTTCGCAAACAGTGAGGCTGAAAGAGGTTAAGTAACTTGCCTAAGGTCACACCACAGGCAGTCA
GGAGTAGCCAGAAATCCAAACCGAGTGTTCTTTCTATAATGATCAAGTGCCGCAGCCTCCTCCCCAGTCTCCCGGCTTCCACTTTTGCCCCTGCAATCCA
TTCCCCACATAGCAGCCAAAGTGAGCTTTTCAAAATGTAAATTGGATCACATTATTCATCTGCTTAAAATCCTCCAGAAGTTTCCCATCACACTCAAAAT
AAAATTCAGACTTTTCATCCTGGCATACAAGGCCCAGGCAGAATCTGGCCCCCATGACCTCTCTGGGCTCATCTCTTTTGATCTCCTCTGGTTCACTTGG
CTCCAGCCCCACTGGCCTTGCTGTTCCATAAACAGGCCAGAGTTTATCTGACCTCAGGACCCTTGCACTTGCTGTTTCCGCTGCCTGGAATGCTCTTCCC
CAGATTCCCCCTTGGCCAGCCCCTTCTCCCCCTTCCTCATTTGAGCAGGTCCCTGCTCACATGTCCCCTCCTCATACAGACCTTCCTTGACCGCTGTTCT
AAACAGTTTCCCTCCCCTCACTCTCTGTTGCATCATGCAATGCCTTTCCTGCAGAGGCCTTAAACGCCATCTGAAATTATATTTCCTTCTTTGTGTGTCT
CTGTTTCACACCCACAAGAATGTGAGTACCATGAGTTGATTCACTGCTTGATTCCCAGCACCCATGATGGTGCCTGGCACTGAGGAGCATGTGGAATGAA
TAAATGAATGAATGAACGAATGAATGAATGAACGAATGAATGAATCAAGCAAGCAAGCAAGCAGTCAGTCACTGTGTCTCAGGGTTTGGGGACCTGTCAC
CCCTTCTCACTGCCCACCTGCAACCCAGGTCCCTGTGCCTCTGGCCTCCTTTGAGTCATCTGCACCTTGCCCATCCCATCCCCACCCATCCCCCCAGCTT
GGATGCCTTGCTTGTCAAAACAAGCAAAGCCTGTGGAAATTGCTTAGAACTCACAGAGTGACAGGACCAAATGGAGGAYCATTTCTAGGTGATTGTAAGA
TACAAAAGTGGCCATATCTCATATGCTGAAGAGCAAGGATGGATCTGGTTCTGTGCCACTCCCCACTTCCATAGCTTTTAGCTAATTTCTCCAACTTTCC
AAGTCCCAACCTTCCACCTGTAAAATGGAGATAAAAGGCTCACCTTACAGGGTCTTCATTAAATCACATTTGTCAAAATTTTGCTCAAAGCCTAGCACAT
AGCAGGTGGGGATTGTTGTTATAAATGCTAAGGAAAAGAGTCTTTTTTCTAGGGCTGGGTGGGCCGAGTTGCTGCAAACCCTTTCCTTCTGAGAGCAGCA
GGGCCAGGGAGACTGAGCTGACACTGTTAATAATTGATGGGATGTTCTGGCAACTCGGAGACAAACCAAAGCACAGGCCCTAGGCTTTGCCATCAGGGGA
GCGAAAATCAAAACCCRTTAGGCAAAAGGCAGTGTGATTGATTCTTGTTTAGAAGATGGGGACAGCCCCATTGGTGTGACAGGGTTGCGGTGCTGGGGCT
ACCACGGGGCTTTGGCTTTCTCGGAAAACTCGACAGGCTTTTCTCAGTAGGAGAGACAGGGAACTGATTTGCCAGCCCAGGAGTGTCTGTGATCCCTGGG
ATAGTCTCAGGATTAAAGCCCTGAGATAACTTCCTAATTTCCAGGGTAGCTTATGTTTGTTGTGCCCAGCACTGATTAGTGGTGCTTCATATCTGCTATC
TCATTGAAATTCCTCCAACAGGGATACAACCAGGTAGTATGCCAGTTAGGGATGCTTTGGGCTGCRAGCAGCAGAATAGAAAACTCAAAGYAGCTTCAAT
AAGGAGGAAGATGCATCATTGAATATAATATGAAGTTCCAAGGCAGTTGGTTTTAGGTTGAGTTAATGGCTCAATGATGCCACCAGGATTCTAGATTCTT
TTCATCTCTCTGCTCCTCTGCTCCCCAACCCCTGCAAGTGGCTTGGTCCTCATGCTTGATGCTTCATATCACAAGATGGCTGCCCAGTTCCAGCCCTCAG
ACGTACATTCAGTGATGTTTAAYCCGTGAAGAGAAACATTTTCTCCTATGCTCCACTTTCTTTCTTTTGTTTTTGAAATGGAGTCTTGCTCTGTCGCCCA
GGCTGGAGTGCAGTGGCATGATCTCGGCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGCCGAGTAGCTGGGAT
TACAGGCATGTACCACAATGCCTAGGTAATTTTGGGGTTTTTAGTAGAGACAGAGTTTCACCATGTTGGCCAGGCTGGTCTCAAATGTCTGACCTTAAGT
GATCTGCCCGCCTTGGCCTCCCATAGTGATGGGATTACAGGTGTGAGCCACAGCGCCTGGCCCACTTTCTTTTTTTTTCTGAGAGGAAACCCTTTCCCAG
GAGCACCCTAGCAGACTTCTTTTAAAATCCCATTGGCCAGGACAGGTCACATGCTCATGCTCTAGCTCTGAGGGAACCTGAGAAAGCAAGTGTCTGGCAT
TTTCAGATGAGAGAGGGAATGGATCTGATAAGTGGTATGAAGACTCTTTTACAGAACAGGAAATGGAGGCTCTGAGAGGCGAAGTCACTTGCCTGAGCCC
ACACAGCTAGGTTCTCAGTAAATATTTATCAAAGGAATGAAAATTGCAGAGCCAAGGTTTGAACCCAAGTTTGTCTGGTTCCCAAGCCTATGTTTCTAAA
TCCTGGGACCTTGGGTGGATCATTTTAGCTCTCAGGTCCAGTGAATTCATCTGCCTGATGGTGATAATAGTCATAGCTCCCTTTCAGGGCTCTTTTGATG
ATTCAATGAGATTTCAGATGTGAATGTAATTTGTAAATGGAAAGTACTTTATAAGTATGAAGTATTATTGTATTCAAAAGTGGGAGTGGCCTTTATTTAT
TTATTTTTAATTTTTTAACTTTTTTCAGAGACAGGGTCTYGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCAGAGCTCACTGTAACCTCAAACTC
CTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCACACCATCACTCYTGGCTACATTAGAAATTTTTTTTTGTGGAGA
CAGGGTTTTGCTACATTGTGCTGGCTGGTCTCGAACTCCTGGGTTCAAGTGATCCTCCCATCTAAGCTTCTCAAAGCACTGGGATTAAAGGTGACAGCCA
TCATGCCCAGCTTAGAGTGGCCTTTCTTTAGGAACAGTGGTCAATATTTTTCCCATCACAGACTTGATTAAGAATCAGCTCTGGAGTCCAACAGATGCGG
TTGATTTCTTGTCTCCATTGCTTACCATGAATATGACCTTGGGCAAGCCCCTTTCCTTCTCTGAGTGTCACTTTCCTTATCTAGGAAATGAGAATTATAA
CAGAGGCAACCATGAAGAGCTGTTAGGAGATGCCCCTAATGTAAAGAGCCTAGCCCAGCGCCTGACTCATGGGAAGCATTCAGTAAGTGGCAGCAACGAT
TGTTAGTGTTTTCACRGAATTCCTCTGCTCCAGCTACACGTCTCTAGTGTAATGAGGTTCCAGCTTCCTTGACCTGAGCCACAAGGATCTGTGTATTATC
ATCAAAAGAAATGCGGGAACCAACTCAGAATCTATGGGGCCCCTTCAGTGTGATGAGTCATCGACTTAGGCTCTTGCTGGCCCCAGCTTGGTCAAACCAG
ATGCCTGTTTTTATCCTGGCAGATAATATGCCAGCAATTCTGAATCCTGATTGTGGGGTCACACAGACCTGGCTTCGAATCGCAGCCCAGCCTTGTCCTA
GCTGTGGACTTTGGCCAATTTGCTTCACCTCTCATCACTTCCATTTCCTAATCTGTAAGTGAGGGCGATAATAAAACCTACTCCACAGGGTTGTCTGAAG
GATGAAGGATGATAGCACATGATCAGWGTTGAAGCTGTGCCTGAGAAATCCCACATCCCCACAGGATAAAGAAACCCAGAGACCCAGGATGCTCCAGTGA
CCTGCTGAGGATCACACAGCCCATCATAGCCTTTCAAATCCCCTGAGAGACCAGCTGCTAAGAGATGATCCTGGTCAAACATCCTGGAGTAACAGAAAGA
TCCCTGAGCCTCAGCGGGTACGGGTGGCGGGGCCAGAAAGGCCTGGGCATGGCCCCTGATCTTTCACCGACTTGCTGTGTGAATGTGAAATGCTAGGAAG
AAAAAGAGATGGTCAAATGAATGGGTTGGCCAAAGCTTAACTAACTAGAAGAGAACAAGCATGCGTTAGGCACCAACTCCATACCCAGCACTTTGTGTAC
TTCCYGTACTTGATAAYGTCATCWGGATGGGAAGCACTTGACCTTAGCACTGGATTGCCCAAGTTCAGAGTTTGGCTTCTCTACTCACTAACCATGTGAT
TTGGGGTCAACTATTGCAGCCCTCTGTGCCCTGGTTCCTTCAGCCAACAGCAATTTTGGGCCAATCACTGTGCCTGCCTCATTGGATTGAGTTACATGCA
TTAATGTATGCAAAGCACTTAGACTAGGACCTGGTATGTAGAAAGCTCTCAATAACTGTTGGGTTTTGCTGTTGTTGTTTTTTTTCTTTTTTACTGTCCT
CTCATGTAATCCTCCTGACAATCCTGCAAGATAAATAAGCTCCTTTTCAAAAAACTGCTCTCATCAAATGATACCTGCTCATTGTAAGGTTAGAGGCTTT
CTCTGGCCACTGGAGTCCAGTAAAGGCAGGGCACTAACACCCCAGCAGGAACTAGTGGGATACTCACCTGCCGGCTGATGGGGACGATGTGTACGTGCTT
CTCCCCTGGCTGGGGGTATAACTCAGAGGTGTGTGTTCTACACTGGTCCCCAGGGCAGCTTCAGTTGCTCACAGCAATTACTTGTTTGATAACAGACCCT
GTTTGACCTCTTTCCTATCCCTGTCTCATGTTCCCTCCCCTCTTCCAGAGTTTTCTGGGATCACTTATCATATAAGCCACTTGTACTCAGAACCTTGTCT
TAGGATCTGAGATTCTGGGGAAACCAACCAAAGCTCTGTAGGACATATCATTTATTCAGAATGACCTGGTGTTGTATTATAGACAGCCCACCCCCGATAG
AGAGAACCTCTAGGAGGTTGTCGTAAAAGAAGAAATTCTAGGTCTGGCAGGGCACAGTCAGCCTCATCTCTGTCTCTTAGATAAAATGAAAACCACAGTG
GTGGCAGCAACAGCTAACACTGAGTGCTTACAATGTGCTTGCCTGGCATAGTGCAAAGGGCATTAAATGCCCCATCACATCTGATTTTCACAGCCCCCCC
ATAAGGGAGGGATAACTACCCTCATCTTACAGCCGTGGAAACTGAGGCTCAGAGAGGGGAAGTGTCTGGCCCAGGGTCACACAGTGAATGGAAGGCTGGG
ACAGATCCCACCCAGGACTCCCTGACTGCCCAGCCCATGACTTTGATCTCTGAGTTGTATGAGTGACCTTCAGAAAGTGAGAAGCAAGATCCCAGTATTC
CCTTCTCATGCTGGGGCAGTGCTGAGAGGAGAGAGATTTGTCCAGAATCACCCTATGACTTAGGAGTGTTCTTAGCTCTGGATCTAGGACGACTTTACCC
CCAAAGGCTCCTGGATGGGACTATGGGAGAGACAGATTTAGCATTAAGCATTATTTTAATAGATAAACTAAATGCATAAGGTCCTACCTTCTCCCTGAGG
TGAAATCAACTTGATTTTGGTGTCTCCAGCAGGAGTGGGCATGACTAGGTGGGGCCAGAAATGGGAGGAATCTCTCAGCCCCCGTATCGGGAGTGGGTGG
GGTGGGAGCTAGAATTCTCATGTTAATATCCAGGGCGCCAATGCTCCTTAAATGTTTTCTCTGATGACATAAATAACAAATAAGATGTAATGTTGCCATG
TGAGACACACTTCTGTGGACCTGGGTACAGGCCTGGATTCAAATCCCACCTCCTCTGCTTCCTGGCTATATGAGCCCCCAAGGCGCCTCACCTCTCTGAG
ACTGGGAGGTGGGGGTAATACCTGGGGCACACCTCACAGAGTAGCGCTTCTCCATGCTGCCTGCACATAAGGATCACCTGGGCTTTGCAAAATACTCATG
CCTAGGCCCCACAGTTGAAACTCACCCCCTAAGTGGTTTCTTTTTAGTTCTGGTAAAATACACATAATATGAAATTTTCCATCTTAACCGTTTTAAAATG
TATAGTTCAGTAAAGTATATTCACATTGTTGTCCAACCAATCTCCAGAACTTTTTCATTTTGCAAAACTGAAACTCTGTGCCCATTAAATTCTCCTGGGC
CCACCTCCTAGGCCCTGGCAACCCCCTTCCTACTTTCTGTCCCTTTGAACTCAACTGTTCTAGGTACCTCATATAAGTGGAATCATACAGTATTTGTCCT
TTTGTGACTGGCTTATTTCACTTATCATGCTGTCCTTCAGCTTCGTCCATGTTGTAATGTGTCAGAATTTCCTTCCTTTTAAAGACTGAATAATTTTCCA
TTGTATGTATACACTACATTTTGTTTATCCATTCCTCCATCAAAAGACACTTGGTTGCTTCAGCCTCTTGGCTATTGTGAATAATGCTGCTATTCACATG
GGGTACAGATATCTCTTAGAGTTCATGCTTTCAATTCTTCTGGGCATGGATAAGCAGAAACCAACTAGATTTTTAACAATTCTTTTGGGTATATACTCAG
AAGTGGAATTGCTGAATCATATGGTAATTCTATTTTGAATTTTTTGAAGAACTGCTGCTCTGTTTTTCATAGTGACTGTTACCATTTTACATTCCCACCA
ATGGTGTACAAGGGTTCCAATTTCTTCCTATCTGTATTAGTCCATTTTGCATTGCTATAGAGAAAAACCTGAAGCTGGGTAATTTATAAAGAAGAGAGTT
TTATTTTGGCTCACAGTTCTGCAGACTGTACCAGAAGCATAGTGCTGGCATCTGCTTCTGATGGGGCCTCAAGAAGCTTACAGTCATGCAGAAGGCAAAG
GGGAAGCACGTGTGTCACATGAAGAGAGAGGGAGCAAGAGAGAAGCCAGGCCTTTTTAAACAAGCAGATCTCACAAGAACTCATTACCGTAAGGAGGGCA
TCAAGCCATCCGTGAGGGATCCACCCCCATGACCCAAAGACCTCCCACTAGGCAGGCCCCTCTTCCAACATTGGGGATCACATTTCAACATGAGATTTGG
AGGGGACAAATAGCCACTATATCAACATCCTTGTCAATGCTTGCTATTTTTTTGTTTACGTTTTTTTTTTTAGTAGCTATCCAAATGGGCATGAGGTGGT
ATCTCATTGCAGTCTTGGTTTGCATTTCCCTGATGTTTAGTGACGCTGAGCATCTTTTCATGTGTTTTTTGGCCATTTGTATATACTAGCACCCCCTTAT
CAGGATGCCTAAACCTCGGATAGTACCAAACCCTGTATATTATATGTTTTTTCCTACACATACATACCTATGATAAAGTTTAATTTATAAATTAGGCACG
GTAAGAGATTAACAACAAAAACTAATAATAAAATAGAATAATTACAACAAAATACTATAATAAAAGCTATGTGAAAGTGGTCTCTCTTTCTCAAAATATC
TTATAGTATGTAATACTTTTGGACCACAGCTGACTGCAGGTAACTAAAACCTTGGAAAGTGATATTGCTGTGATAAGGGGGGACTACTGTATTTTCTTTG
GAGAAATGTCTACTCAAGTACTTTGCCTATTTTTAAATTGGGGTTTTTGTTGTTGTTGTTGTTATTGAGTTGTAAGAATTCTTTATATATTCTGGATATT
AATCCCTAATAAGATATACGATTTGCAAATATTTTCTTCCATTCCATAGGTTGTCTTTGCACCCTGTTGATTGTGTCCTTCAATACACAGAAGTTTTGTA
TTTTGTTGAAGACCGAGTTGTCTGTTTTTTCTTTTGTTGCCTGTGTTTTGGTATTATATTCGAGGAATCTTTGGCAATAGGGGGAAATCATAAAGCTTTT
CCCCAAATTTTTTCTGAGAGTTTGACAGTTGTAGTCTTATTTTAGGTCYTTGCATGTGGTGTGTAAGATAAGGAACCAACTTCATTCCATTGCATGGGGA
TATCCCCATTTTCCCCACACCATTTGTTGCCCTGGGTGATTCTGCACACGGCCAGGAAGCCCAGCCACAGAAGACAACATGGGATGGCGGAGATCAGAGG
TGCTAAGCTGTGGAGCACCATGTGCAGTGCTGGGAACAGAGGGAGTCGCCATCTGGGGCAGCTGCTGTTATCATTGTTGCCAGGATAAGGGGCAATCTCT
GACACACCCAGCATGGCTCATCCCTTCCTCTTCCACTCAGGACGGCTTGGCAGAATGCAAGTGAGAGAGTGAGATGCAAGTGKGAGTGACGTGTCTAGGT
TGTGGCCACTTCTTGCCACCCCACTGCTGCCTTCCTGACCYTATCCTCTCCCTCCKGTACCATTGCAGGAGCCTCTAGTCCCATCTGCTGCCTCCAGCCT
CCCATCCCCYGTCTGGTCTCCACACACAGCAACTCACGCCCCCGCTCAAAACCCTCCTATGGCTCCTGCCTCACTCCGAGAAAAAGCCCAACTCCTCAGT
CCCACTCACAGGGCCCATTATCTGGCATCTTTCCCCTTTTCCCAGCACCCTTACAGCCTCCTTCCCTACCACTCTCCCTCTCCATCACTCTGTTGCATCC
ACAGTGGCCTCCTTGCTGTTCTAGGCACCCTCCCACCTCAGGGCTTTTGCACTTACTGTCCGTCCCTTCTGCCTGGTACGGTCTTCCTGCTGATGCCACG
AGACTCACCCCTCACATTGTTCAAGTCTCAGCTCAAATGTCATCTCAGCAAGGCCATCCTTGACCACCACATATAAAATAGCACTGTTCATTCCCCATGG
CTGCTTTATTTGTTTCAACCTGACATATAATTACYTAATTATATGATTCCTTTCTCTCTCTCCCACTTTGATRTAAGCTTCAAAGGGCAGGGATTTTGTG
TGCTTTGTCCACTGTTGTGTCTTCAGTGCCTGCCATAGAGCAGGCATGAAATACATGCATTGAATAAATGAATGAATGATGTTATCCTAGAGATAACTGA
GAATACTAATTGATGAAAAAGGAATTTGTTTACAAACTTTGGGACTTTCACTCTTATTACTAACACATTGCTAGAAGTCTGACTCTCAGCTGCTTATGCC
AGGCTCTGGATGAAGAATGTGTCTGGTTTTTCAACCAGAGCCCAGTTTCTCAACCTTAGTGCTACTGACATTTGGCGATGGAGAATTCTTTGCCGTGGGG
CTGTCCTGTGCATTGGAGGATGTTTAGCAGTGGAGAATGGACATTAGAGAAAGAAGGGATAAGCCGCTGCCAGGAGGATATTGCATTATTCCAGGAAAGA
GAAGAAAGATGACAGCCCAGAAGAGGGTGGTGGCAGGGAAGATCGGTGAAAAGTGGCTGGACTCTGGATGTAAGGTGKGGAGGCAGCTCCTGGGAAGCCA
CAACGCCCCTGCCTCCACCAGTGGTCACAGACCCTCAGGCTGTGCAATGGGTCTTAAGCCCTAGCCTTTTTTTAAGCTGTGAGTCCTTGGGTCACGTAGC
TGTTTCCTCATCTGTAAAATGGACCTAATCACAGCACGTACCTCATAAGGAGATTGTAAGGATTTGATAATTATGGCAAATAACAGTAACAGACACATAA
TGCCCAACAGGTCAATAACAAACTTTTATTATCAGGATTGGTTGTGTATATTCATTCAGTGGAACTTATTGAGCACCTACTATGTGTCAAGCATTGTGCT
GGGTGCTGGGGACAAAGCAGAGATCAAAACAAAGATCCCAGCTCTCATGGCACTGATATTCCAGTAGAAGAAGGAGCAAGACTGTTAAAAAAATAAACAC
AGATACTGATTGGACCAAAACAACCATGCAAAATAAATCATGAGACTGTAAGACAATCAGGGAAAGAAAGATGAATGCTAACTGAATATTGGATGATATT
GAGGAATGAATGCTGTGTTTTTAGATGTGATAATGCTATTACGACTATGTTTTAAAATCTTTATCTTTTAGATACACATACTGAAGTGTTTATGGACGAA
ATGACAAGATCRAATAATTATGTAGTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCTCAATCTCGGCTCACT
GCAACCTCTGCCTCCCAGGTTCAAGCAATTCCCCTGCGTCAGCCTCCCAGGTAGCTGGGATTACAGGCACCCGCCACCATGCCCAGCTAATTTTTTGTAT
TTTTAATAGAGATGGGATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTACCCACCTTGGCCTCCCAAAGTGCTGGGATTAC
AGGCGTGAGCCACCGTGCCCGGCCTGMTATAATATTTTGGATGGCACTGTGGAGAAAGTTCTGCAGGGAAGGAGGGGAGTGCTGGGGCTTAACCAGGCTG
GTCAGGAAAGGAGAAGGTGCCAAGTAGAAAGGGAGGGAGACAGGCATGTKGGCATGTGGGGGAAGAGTGCTCTGGGTGGAGAGAAAAGCAGTGCTAAGGC
CCTGGRACAGGAACGTGCCTGGGGCACTCAAGGAACATTCAGGTATTAATGTGGTTGGAGCAGAGTGTACCGGAGGCAAGAGAGTAGAAGGAGGTGAGAT
CAGAGGTGCGACCTTGTGGGTCACTGCTGAACTCTGACCCTTCCTGGGAGCCTCTGAGCCCCAGAATAGGCTCCCTGCTTCCAGCCTTTCCCATCCAGTT
CAACCTCTGCAGAGCAGCCAGAGCCGACTTTCTCAAATGCAGTCTGCTCAACTTCATCACCCCCTTCCCAAAACTTCCATAGTTCCCACTGCCCCCAGGA
TAGTCCACACTCCTTAGCCTGGCTTTCGACATCCCAACCCAACTCTCCACCTTCATCTCCTCCCCATCCCTTCTTCAGACACCCTCTGCGACCACCACAC
TAACCTTTCTGCATGCCCCCAAAAGCTCCAGCCTTCCTCAGCGCTGGTCACCCTCTTGCCCAAGCTGTTCCTCTGCCTTGCACCCATTTCTTCCTCTTCT
CTGCCTGCAGCCTCTCTCTTTCCACCTTCAAGGCCCAGCTTCCCCACCACCTCCTCTGTGAAGCCTTCTTTAACCACCCCCCGCCCCCCTACCACCACCT
ACACTTCCCTTCAGGCAGCACTGACTGCTCCCTCCTCTGTGCACCGGAAACCTGACGTTCATACCTTCCTCGCACAAAACATCGTGAAAATTCACTTGTG
GGTTGTTCTGTGGATGCCAGGCCTGGCCTACAGAGAAACAGGAAAGCTTAAGCGTGCAGGCTGTGCAGCCTGACTGCCTGGGTTCAAATCCCAGCTCAGC
CACTTTTGAGCTGTGTGCCCTTTGGGGAATTACATAACTTCTCTAGGTTTCAATGTCCTGATCCGTAATTTGGAAAGCCTCATAACAACCAGGGTTGTTG
GGCAAATTCTATATGAAACACTCAAGCCGTGCCTGGCACTCAGCAGGTGTTCAGTATATTTCACTATTACTATTGTTACTGCAGGTAGGTGTTGGTAAAC
GTTTGTTGAGTGAATAAATGAGCAAATGTGCATGATCTTGTGATGACTGATCAGAGGGGTCTTCCTTAAAAGGTAAGGGTCTCTTCCAGGTACACCCTGC
TCCTTCCACCTTTCTTGTCTCTACCTGCCTGCAGAAAGAAGTGGCCTTTTGCCTTCCATTTACAGAGAGGAGACACACAATTAAGTTAGACACTTGAGGT
GTTCCCTCACACCCTGACTGTTTTTGAGACAAGGTCTCGCTCTATTGCCCAGGCTGGAATGCAGTGGCGCGATCATGGCTCACTGTAACCTTGACCTCCT
GGGCTCAAATGATCCTCCCACCTCAGCCCCTTGAGTAGCTGGGACTACAAGTGTGCACCACCGCCACACCCGGCTAATTTTTGTACTCTTTTTTTGTAGA
GACAGGGTCTTCCTATGTTACCCAGGCCAGTTTCAAACTCCTGGGCTTCAGCAATCCTCTCACCTTGGCCTCCCAAAGTGTTGGGATTACAGGTATGAGC
CACTGCACCTGGCAGCTGCTCCATTTTTGCTCTGAAATGAGACTGGTTTCTACCACAACTGCCCACCATGGGCTGGCAGGCAGGCACTGTCTTTGAGAGA
ATAATATTGCATTTGCCAATTCCACACCATCACTTACATCCACCAGGTAATGGGCCTAGAACCAAACAGTTTCTAAAAACAGATCATCAATTGTCACTAA
TCACTCCCTACAGGCCATCCCTGAGTCTTTCTAAGCTTTGTGTGATCCTTGGAGCCCTTGAGCTTGGCCAGCCCCACCTCTCAGAGTCTTTGTAGACTCA
GTTGTACCGAAGAGGCAGCCGATGATTGCCCTGTCAGGGGCATATGAGAGGCAAAAGGAAAGATGGAGACAAGACAAGGCAGAACCAGCCTTTCCTTTGC
TTATCACTTGTCTGGAATTCCCACTGTCTCTGTGAATGGATCGAGTTTCTTTTATCTCTTTTCAGTGGATACATTTGCACAACCTTTATTGTTTCTTGAA
ATAGTGACTGTAATTCGACTCAGTCATTCCTCCTGTTTCTAGATCATTCTTTCTGTTTCAAGGTGGCTTCCATTCTAGGCTTCTCTGGTCCTTCTAAGTT
TAGGTGGGAGTATGTGCATGCTTTGAGGACCTGTTTCAATCCTGCCTGTGGTTTGTCTGATAAACAATTTAGTGCATGTTACTGTGGGCCAGGCAACCTG
CTGGGTGCTTGAAAATCACGTGTGTATCTATTTGTTAGGATTCTTCTAGCTGCAGGTGACAGAAAGGTAGCTCCAATGGACTTAGGCAAAATGTTAAAAA
AAAAAAAGTCTTGGGTTGGGTAAGGTTTCCAGCAAGGTTGGATCCAGGGGCTTAAATATGTCATCAAGACTTGGTATCCTACATCTCTAAGCTCTATTCT
TCTTTGTCATGGCTTCTCAGCAGGCTGCACCAACATGGCAGGAAAGATGGCCCCCTCAAATCCAGGCTTTCTTCCTGGGGCAAAGCAAGTCTCTTTTCCA
ATAGGCCCAGCAAAATCCCAGGGCTGATTTTCATTGGCCCAGCCCTGAGCCAATCACATAGCTGCGTCTGGGTCACATGTCAATGGCTGGAGCTGGGATG
GGATTGAGAATGGGAAAGAGGTGCTTTCCCAAAGAAAAATTGAAGTCCTCTTACCAAGAGTGGGGAGAATAAATGTAAACCGGCAGAAATAATCCATGGC
CATCATAGAGTTTATAACCTACTGGAGGGAGATACGCATTAAACAAATTAAAAATTAAATGAAAGAATAATCACACTAAGTGTAATATGTATGTTGGAAG
GAGAGAAACAAGGTGTTTTGACAGAGATTAATGGGGCAAGGTCAAAGAAAACTTCTCAGTGTATGTGAACTTTTCTGAGAGCGTGCACTTTTCTGAGAGC
CTGAACTTGATGTCTGCCCTGCTGAGCTACAGGAGTGATCTTTCTCCTATAAGATCGCCATTCCGCTTATCCTGCACTGTTCAGTGTGCTCTCTCTCGTA
TTCTATTTTCTTCTTAACTTGTTTCATCTCTCCACATAAAACAGGATGTTCTCAAAGYCTAAGACTGTATCTTACTCACTTCTGTGCTCAAAACAGGGTG
GGTGGGCTGCCTGTTTTGTAAATACGGTTTTAATGGAACACAGGCAGGCCTATTCATTCACCTGCCATGTACAGCTGCTTTTGGATGTATGGCCATAAAG
CCTAAAACGCATTTATTATCTAAACCTTTATAGAAAAAGTTTGCTGACCTGTGTTCTGAAGTTGCATCAGGGCCTGGTGCAGAGGAGGGGCTTATTGGGT
GTTTGTGGGTGGATTGGTGGGAAGGAAGATGCAAGCTAGCTGTGTGACCTTGAGTGAATCACTTAACTTCTCTGGGCCTCTGGCTTCATATCTTGCAGTG
TCAGCCAGCCCCTTCTCCTTCTTCAGATCTCAGCTCATAGGTCACCTCTTCAGAGAGGCCCTCCCTGACCTTGAATGGCCAGTTTGGACTTGGTAATGTT
TACAGTCTTCCCATCATAACATGTTTCTCTGGTTTATTTTGAGATTATGCCCACTTGGGGTAGGCATCTTTCCCTTTCTCTGCACCAATGTTTTTCCTCC
TCTCATGTGCCGTCTCCCTGGCAGGGTAGGTGGAAAGAGCTCTGGTTTGGAACTCTGGAGGTCTGGGTTCATACTCCCCACATATGAGCAATGAGACCCT
GGGCAGACCCTTCTTCTCTCTGAGTTTCCATTTCCTTGGCTGGAAAACGGGCATGGTGACTTTACCAAGCAAAGCTACTGGAAAGACAGGTGTACTTAAC
CGTGCCAGAGGGCCCAGCACTGTGCTGGGCTGAGCACAGGTACTTCATTCGTGTTAAGTTGTTTTTCCTTCTCTCCTTCCTCTCCTCAAGAGAGTCTACC
CCTGACCTTGCTTTAGTCCTGCCCCTGATGATACCCTTGCCTGCTCAAACCCTTCATGCAATGACTGTGCCAAGGAATGGTTGGAGAGGAAGTGTTAGAT
ACTTCCTCCACCTCCCACCCCCAGGCCCCATCACACTCCCCCATTCTTTGATGGAGCGTCCTCCATGTTACATAAAGCTCTATGCAAATGCAACCCAAGA
AAAGTCCTCTTGTTCCCCTCCCCACCCCAGGTTACTGTCCCCAAGCCCCTCTTGTATAAAAATTTGGGACCCTTGCTGGCCTCATGCCTGGGAGAACTGG
CCAATCCAAAGAGGTGGTTTTCTAGATGGATGAGAGCAGTCCTTGGGGGCAGGGTGTATGGGGGACTGGGTGTCCCTAATTACCAAGTGACCTACTGGCA
GGGCCAGCTACAGAATTCGTGGGGTGCCGTACAATATAAAAATGCAGTCCCCTTGTTCAAAAGTAAGAAAGAATTTTGAGATGGTGATAGCAGAGTAGCA
AACCGAGCATGGAGCCCTTGTGAGCGCAGGGCCCTGTGCAACTGTGCAGGTTGCACACCCTTGAAGCCAGCTCTGCCCGCAGGGCAGAATGACTCAGAGG
TCCTTATGGGTTAGGAGGAGAAGGCCTTAACCTCCCTGCCTAGGCAAGAGCCGGGGCCTCAGACTCTGATGGCTACCGGAGCTAGGTAGGCCTTGTCACC
CAGTGAAGCAGTTGCTGGAAGAACTGTAGGAGGGCAAGTTCAAGGAGGACACTGGTCAACACCCAGCCTAACATGCCTATTCCATGGCCAGCCACTTTTC
AGGCAGGGAGTGGAGGGGGCTAGTGGTGAACTGGAGCAGAAGCCTGCCTGAGAAGGCAGCAGCCATTCAGCTCCAGACTGGGTCTGGACTTAGCCAGAAA
TTTTAATTTTCATGGGAGCTATCCCGGTTTTTCAACGTTGGCAAATCATTTTAAAAGTTAAAAACATGCCCAAGTGCAGTGTCTCATTCCTGTAATCCCA
GCACTTACGGAGGCCAAGGTGGGAGGATCCCYTGAGCCCAGGAGTTTGAGACCMGCCTGGGCAACTTAGTGAGACCCCATCTCTACAAAAAGTAGCCAGG
TGTGGTGGCATGTGCCTGTGGTCCCAGCTACTCAGGAAACTGAGGTGGGGGGATTGCTTGAGCCCAGGGAGTCAAGGCTGCAGTGAGCCATGATTGTACT
ACGGCAATCCAGTCTGGGTGACAGAGCAAGACCCTGTCTCAAAACAACAACAAAAGGCCGGGTGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGTG
GCTGAGGCGGGCTGATCACGAGGTCAGGAGATCGAAACCATCCTGGCTAACACAGTGAAACCCCGTGTCTACTAAAAATACAAAAAAAAAAAAAATTAGC
CGGGTGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCG
CGCCACTGCACTCCAGCCTGGGTGACAGAGCGTGACACCGTCTCAAAACAACAACAACAACAACAACAACAAAAACTCCAATACTGTGGTGACTGTCTTT
GCACTTAACATCTGTGTGTGTGTGTGTGTGTGTGTCTGTGAGTATATCTGTGGGAGAAATCTCTGGAAGTCAGATTTTATAACAGATTTGTGCATTTTAC
ATTTTGATCCATATGACCAAACTGCACTTTGTAGAGGTTGTACCAATTTATTCTCCCACCAACGATGTGTGAGGGTGCCTGTTTCCCCACAACTTCATCA
GCACCATGTATTGTGAACTTTCTGATTTTTTTGTCACTCTAACAGATGGAAGCGGGTATCTCGGTATGGTTTCAATTTCCATTTTAAAATGAAGAGTGAA
GCAGGTACCTTTTGCTTGTTGAGTGAAACAGCATCAGTGTCACATGTCAGGAAGCTCCATTGTTTTCCTGTCTCAAAAAAAATAAYTGAAAACAATTTGA
GTGGGCCAAACAGAATATGTTTGGAACCATATGCAGCCCTCGTGGCTCTAATTTTTGACCTCTGGAGCATAGAGCCTTCACGTGGCTGGAAATGTTGGGG
GTGCATTTCTTGCCTCTGAGGCCCCCACCTGGAAGGGAGGAAAGAGACAGAGCTTGGWTGACAGAAGCAATAGGTCCCCTGTATTAATTAAGGTTCTCCA
GAGAAACAGAATCACTAAGAGATTTGTTTATTTATTCATTTATTTGAGAGACCGGGTCTCACTCTGTCATCCAGGCTGGAATGCTGTGGCACAATTATAG
CTCACTGCAGCCTCGAACTCCTGGCCTCAAGCAATCCTTCCGCCTTGACCTCCAAAATAGCTGGGTTACACGCGTGAGCCCCCATGCCCAGCTTCCCAGT
AAGACATTTATTCTGAGGAGTTGGCTCACATGAGTAAGGAGGCTGAGAAGTTCCACAATCTGAACATTCAGGAGAAAGCTGGTGATGTAATTTGGTCTGA
GTCCCAATGCCTGAGAACCAGAGAAGCCGATGGTATAAATCCCAGTGCAAAGGCAGGAGAAGACCCATGTCCCAGCTCAGAAGGCAGGCAGGAAGCAAAA
GGGGCAAATTTCTCCGTCCTCTGCCTCTTTTTTTTCTATTCAGGCTCTCAGAGGCTTGGATGATGTCCATTCACATTGGGCAGGGCTAGGTACTTTTCTG
AGTCCACCGACTGAAATACTAATCTCATCCAGAAACACCTGCACAGACACACAAATAAATGTTTAATCTGGCCACCCCATGGCGCAGTCGGATTCACACA
TAAAATCAACCATCATATCCCACCTTCCCTCTTCTTATTTCTGGCATCAAGCACAACCTCGGGTGGCAAATCTTTGTTGAATGAATGACTATCCCCCCAA
GGCGGGACTTGGCTCCAAAAATCAAGGCAGTTCATGCCTGATGGATGGCAACACAAGTCGGGGAAATTCTCAGGCAAATCGTAAATTGATTAGCTAATGA
GTTACAACTTCCCAAACCCAATCTCCAACCAGGGCAGGAAGAAACAGCTACTGCAGTGGCTAGAAAAAGCTCTCGATGTCACGTCAGCAAACTGAACTGG
CTCTAGGCCTCAGGTTCCTAATCTGTAAAATGGGAATAATAAGATCCCTGGGGTGACCCAGAGGATGGATAAGATGAAACATGTAAAGTGCACAGCAAAG
TGCCTGATGTGTAACAGATGTAAGCCAGTATTATTTGTGTTGTTATCATCATCATCATCATCATCATCATCATTATCATCATCGAAGCATTTGGCTTATT
TCTAGGGGCTGTGGGCCTGTGGAAAAGCTTATTGTGTAGAATTAAACTTTGTATCCTGTGGAGTCATGTCAGCTCTACTATTTCAGGCTGGAAAGCTTGG
GCATTGAGAGATTCAGTAGAGATTAGGGGGCCCAGGATTGGGATTCTGGTGCTCAAGATTGCTGCTGTTGTGTCCAGTATTGGAGCAACATCATTCAAGG
TCACAACTCTGAAGTTCAAGATCAGACAACTGCCATCTGAGGTCAGAATCCTCTAATCCATCATTGGAGCCAAGGAGTCCATGGCCAGAGAGTTGCTCTT
CATAATTAAAACTCTAGCGGGCAAGGTCAGAATGCTGATGTCCCAGRTTGGAACTAATGTACGGGGTTGGAATTCTGAGGTKCAAGGTCAGAACWCTTCG
GCAGTCTTCATGATCAGAATTCTGGCAGGCACATTCAGAAGACTGGTGTTTGGAGTTGGAAGTCTTATTCCCTGCTTGTTATATTGGGAGTCTCATCTCT
TCTGTGTGTCCTTAACCCTTCATCATCCGTCTTCCTGGCAGCAGTTATTGAAGAAATGCAAATCACAGAAGATCCCCAAACCCCCATTTATCCAGCGGGG
TCCTGATACATAGGCCTCTCTCTCTTATTGTGTCTGATGCCCATCCACTCAGGTCGTGCTGATAAGGGCGACAGGATCCTCAGGAAGGTGACCAAAGTGT
GGCCCCCTTACCCCACCCCTGCCAAAGACCCTGGAACCTGTTGTCAACTCTGTTTAAATCCACCCTTAAATCCATCTTGTTGGCTGACCTGGAGCAGATC
CAAGTAAGCAGCTCTGCCAAGCCCCTGGGGGGCACCTGGATGATCTCACTGCTCCATCATCCAAAGAAAGGCAAACACTGTCAGGCAAGGGGCAGAAGAA
AGTGCCAAGGGCTTGCGGCTTTCCAGCCCGGGAGATGGGCTGGCAGCAGAACGTGGGGAAGTGCAACAGTTTGTTGGTCACTGCGGTCACCACAAGTGTA
CTGTTGGTGCCAACTGGAGAGGGAGGTTTATTGCTCATGGGGTGGAGGGAGCTAAAAAATAATCTTTAAACTGTATTTATGATGGTGCAAGTAATGAGTG
CTCAGTGGAACAAGGGCGGGCAGGAAGGATTGGCTTGGTCATGTTCSCAAGGAAATTGTAACACACCTCCCGTCCCTGCCTTTATGCTCCATTTCTCGGC
CTTCCTTTATTTTTTTCATAGCCCTTTTGCCACGTGTTATCTTATAGGTTTATCTGGCTCTTATCTGTCTCATTTCACTACAGTATCAGCTCCATTAGAA
AGGAACTTGGTCAAATTTTACTGCTCACTCCCCAGTGCCTAAAACTGTGCCTCACACAGAGCAAGTAATAAATATTTGTTGAGTGGATGAATGAATGAAT
GGATGGATGATTATTACCCCTTCAGAGACAGTATTAGAGTTTTCTGAGTTCCCAAATCATTCCATGCATGGCCCACCTCCAAGCCTGTTCGCTGTGTCTC
CAGATTTTGTGGATGGGGGTGAGGGGAAACAGCAGGAGGGAGAGGGATTGGTCACTCCACGGCTTCTTGTTGCTCTCGGGATAACTTCCAAAATCTTTTT
CTGGCCACCAAGGCCCTGGAAGGTCTACCACCCTACCTTCGTAACACATGCCTGTTATCTTGCCCCTTTTTTTCTCCTAGCTGTACTAGATAGCTTTCTC
AGAGCGTCASSACGTGGTGCTGGGTCACAACTCAGGGCCTTTGCACATGCTGCCATCTGACTAGGATGATCTTATGGCCCCTACCCTGGCTCCCTTGGCC
TCCCTTACTCATGCTTCAGGGCTCTGCCTAAACATCCCACCCCTAACTTACTGAACGTGATGTCATTCCCTCCATGATAGGCCCTGGTATTTCTTGCAAG
AGTTTATCCATAGATCCCCTTGGTCACTGTTTTGGGTTCCAGTGTTCATCACTGTGGGGATAAATCTTCYCTGAACTGGAGGTTCTTTATGAGGGAGGTA
GCCAGAGCCCTTTCCCTATCACTAAGAAAAATGCAGAAACTCGCTTCTTCTCCCAGAAATGAGGCATTCTCGCTCTAGCAGGGAGGAATTTTGGTCTCCC
AGGAAGATTTCTTAGCTGCCTCTCCAAAGCCTGTCCCATACTAGCCCCATCACAATGGGGTTCTCTGTTTCCTCTCACCGTCCAGCTGTCCAGGCTAAGT
CTATGGCTTCCCCCAGGACACTGCAGAGGTTAGAGGGTGCAACCCAGCCTCTGAAGACAATGGCAAAATAGCTAACACTCATATACCACGTTTTACACAC
ATCGCCTCATTTAACCCTTACGACATCCTATAAGGAAGGTATTATTATTATCCCTATTTTACAGATGTGGAAACTGAGTCCCAGAGAGGTTAAGTAACAC
ATGCAAGGATGCAGCTAACAGGTGGCAGGGTAGCATTTGAACCCCAGTTGTTACCCCCAGAGCCCAGGCCCTGAACCACTACACCCCCTCCCCTGTCCAC
TCCGTTTCCTCCCCACAGCCTTCTCCTCACTTACTTCTTCCTTTTATTCTTAGTCTTCTTGCCTTTCTCTTTGCTCTTCTTCCTTTTCTCCTTAAGTAAC
TCAAACTCCCCAAGTTATAAGCAACCCCAATTGTATGGATGCGTTGTTCTATTTTTCAAATTGCAAAAATCRTAAGAGCAGTGGAATTTTTTCACATCCT
TATGCTATAAGCGAGGGTGGATGGAAAGGTGGGAGTTTTCTGTTTGATTTGCTGCAGAACGGGTTGGGAGGAGAGGGTAAATTTCCTCACAGTGGCCTAT
AAGACTCCATGAGGCCAGAGTCATTTAACACTCTCTGACTTCATCTTCCACTACCATCTCCTGCCTCCCCGTGTCCAGCCATGCTGATCTCATACTTACT
ATTATAAATTCCTTCCTGCCTTGAGTCTTTGCACATGCTGTTCCCTCTGCCTCGAATGCTCTTCCTCTCTTCTTCATCCAGTTATTTGCCTCCTCACCCT
AGAGCTCCCAGATAGAATRCCACCTCCTCCTGCAAGCCTTTCCTAATCTCTCAATAGGTCAGATCCCCCAGTTATGGATTTTCAAAGTTCTCTGTGTCTC
TCTTGGGTGGCCTCCATTCCAGTTGTAATTTCACATAGGTTTAAGCAACGATCTGATTAGCGCCTGCCTCCCCATCTGGGCTGTGATCTCCCCAGTAGTA
GGACCTTGTCTGCTATAGGCATGTCTCTCCTGCATCTAGCACTTTGCCTACCTCCATGCAAATCTTCCATAAAATTTTGCTGGATGAATGGATGGATGAA
TTCAGAGGTTAGTCAAAGTTGGCAGAAACCACAATTCACCTTCCTTTGGTTGAGGAGTGGTGAGATGGTCTGAAATGTTCAGCTCGAACTCCAGCCAGAA
GTTTCTTATCATCCACTGAAAGCACAGGGCACTAAATTCTTTACAAGTGGCCAAATACCTTCTCCAGTGCCCAGAATGTGTTGAATGATCATTACAGTGT
CTTCTATCAGCTTTTCAAAGGTACCTATTTGGGTTATATTTTATGGGGTGCCATTACATTTTACTTAAGTAAACCCTACGTATGAAGACTCAAAACCCAG
GAAACAGAAGTTCTGAGGGAACTATAGGCAGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATTGAG
ACTAGCCTGGCTAACAAGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGATGCCTGTAATCCCAGCTACTCGGGAGGC
TGAGGCAGGAGACTGGTGTGAACCCGGGAGGAGGAGCTTGCAGTGAGCCGAGATAGGGCCACTGTACTCCAGCCTAGGCAACAGAGCAAGACTCTGTCTA
AAAAACAAAAAAGAAAAGGAAAGAAATAAAATGAAGAATCCCAGGGAATTCACCAGAAATGTGGTTTAGCGGGAAGTTGTACTACCTTTGTGGGCAGGTG
GGCCTAGTTCAAATCCCTGCTCCACCACTAATGCCGGTGGCCTTGGAAAGTCATTCCTCATCTCTCAGCTGACATTGCCTCCAGATTCCACCCTCCCAGC
ATGAAGGCCAGCAGATAAAATGGCCATTTTTTTCCTGACTCTTCCCATGAAGATTGCCTCTGACTGGACAGACTTGAGCCACATGATCATCTCTGAGCCA
ATCCCTGTGGCCAGAAGGGATCATGAGTGAGGGAACCAGTTTGGGTCAGAGACCACCATTAGGTCCAGGGGAAATACCTGAAATAGGATTTGCTTAATAG
TCTTCTTTAGATTAAGTCATTAATTTTACTAAATCGAGTTGTTWTAACAGGAAATTTGATATTATGAAGAACTGGTGCCATTTGCCATAAATCATGTCAT
AAAATTCCAGCCAGATGCTGAAGCCTGATACCTACTCTCTGGGTTAAAAGGGAAGATGTGTGTTAGAGAGGTGTTAAAATGTCACTGGCTTCATACTGGG
ACTTTCCACTTCAGGGAGTCTGGGGGTCTGAAGACAATTGGAAAGGGTAGCACCTTCTCACTCTGTGAATCAATGTGATTCTGATGGCTTGTCCCTGGGC
AGCTAAACCAGTCTTGGCTGCACATGAGAATCAGCTGAGGATCTTTGAAAAATCCCAATGCCAGACCACCCGCCAGACCTGTGAAATCGGGATCTCTGGG
GATGGGACCCAGGGATTGGTGTTTTTCAAAGCTCGCAAGGTGATTCCACTGTGCAGCCAAGGTTGAGAAATCCAGATTTCAATGTAWCTAATACTGGTGG
TGTGTGCCCCACATTGCTACCCACAAGGGTTCAGCAAGTCCATTGGGCTGCAGGAAGGGGCTTATTGGAGACTGGGGTGGCCTGGCTGGCCAAAGAGTGT
CACAGAAAATGGGCTCCTGTTTCTCCAAAGCATTAGCTGAACAGGAGTCTGGGAGAGTCATTTAACACTCTCAAATGGGAAGAAACCACATGTCTCTCTC
CCAAGTCCAGAAGGATTTGATTCCCAAAATGAAATTCAACTCTGACCTGGATCCTACCCGCACTGTCTGGATCCAATTGCTTGTTACCTGAACCAGCTGT
TACCTTTCCACCTATCCATCAACCATCCCAGACCCAGCTCTGCTGCTTCCCAGCTGTGTGGCCTCAGGCAAGGCACTCGGCTTCTCTGGTCTTCGGGTTT
CTCATTTGCCTAACGGGGGTAGGCTGCTGGGCTCTGTGATCTTTAAAGACATTTCCACTTGGGAACCTGCAAGTCTTGAGAGGCAGCCACAGGCTCTTTA
ATTGGACACCCAAGCCCTAGGTCAGGAGTTCTCAAAACCCAGGCAGTTCAGATTCCGGGTCCATCGCCCAGACCACAGAATCAAAGTCTCTAGAGGCAGC
CCAGGATCTGCATCCCTAACAAGGATCTCAACTGATTCTGACGCAGGTGATCCTCAAAACACTTTAAAAGCATATTGCCTATGCCTCAGTGTTCATCATA
AAAGCCCCTTATCCAGAGATCCAGCCCACACGAAACATGCCCTCCTTTTTGCAGGTGAGGAAACTGAGGCTCAGAGAGGCAAGTCCTTCTTTACCTGAGG
TTCTGCAGTGAGTCCACGGCAGAGCTGGGATTCAGACAATGACCCTGCCTAACTCCAAAGCTGGTGTCCTTCCCCTGTCTATGTGACATTCCTCAAACTT
AACATCTCCAAAACTAAGCCCCACGTCCTCCCACTGCGAACTCGCTCCTGCCGATTTCCCCCCATCTCAGTATCTCTTTCCAGCCACAGAGGCCAAAAAC
CTGGGAGCTACTCATGACTCCTCCTTTGTTCACACTCCGTGTGGGACCTCTGCATAAATCCCAAGGCCCTGCTTTCAAAGTGTATCAGCCTCCAACCCCT
TTTCATCACCCCCATGAACACTCCTGACCAAGAGTCGGCACGCTTTTCTTGAAAGGGCCAGATAGTAAATATTTGAGGTTTGCAGGCCAAGAGGCAAAAT
TGAGGATATTCTGTAGGTACTTACATAATCACTTAAAACGGAACCATTTAAAAATGTGAAATCTGCTCTCAGCTTGCTCTCGGGTTGTACAAGCAGGTGG
CAGGTTGCATTTGGCCCGTGAGCCATAGCTGGCTGACTCCTGCTCCAGACCAGAAGTTCTCAACGGGGGGTGATTTTTGCCCCTCAGAGAGCATTTGGCA
TTGTCTGGAGATATTTTTGGTATCATACCAGGTGGGATGGTACTATTGGCACCTAGTGGGTAGATGCCGGGATGCCGCTAAACATCCACAGTGCACAGGA
CAGCCCCACAACAAAGATTCATTCAGCCCAAATGATGRTAGTGCTGAAGTTGAGAAACTCTACTTTAGGACCAGGTACGGTGGCTTGTGCCTGTAATCCC
AGCACTTTGGGAAGCTGAGGCAGGAGGATCACTTGAGCCCAGGGGTTCAAGACCAGCCTGGGTAACATATTGAGACCCCATCTCTACAAAAAATAATTTC
AAAAAATTAGCCGGGCATGGTGGCACATGCCTGTGGTCCCAGCTACTTGAGAGGCTAAAATGGGAGGATCACTTGGGCCCCAGAGGTTGAGGCTGCAGTA
ATCCATGATTGCACCACTACGCTCCAGCCTGGGTGAAAGAGTAAGACCCTGTCTCACAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTCTACTTTA
GAGCAAGCCACTGTCATTTCTCACCTGGACTATTACAGTTACTTTCTCGCTGCTCACCTGCATCCACACTCACACGCTTCCCTGAAAGCCAGAGGGATCC
TGTGAGAACCCACGTCAGGTCATGTCACCTCCCACTCAAAGCCTTCCAGTGGCTCCCATATCACTCAGTGTAACAGCAAAGTCCTCATGGCCCTGCAGGA
CCTGCCCCTACAAGACCTCTCTGACCTCATCTCTCCGTCTCCCATTGCAAATCTACCTGGGGGAGCTTAGCATCGGCTATTCCCGCTGTTCCCTGCACGA
CTTCTCTCACCTCCAAGTTCTTATTCAAGCATCCTCTCTTTAGGAAGTGACACCTTCCCTGACCCTCTATTTTCAAATGGCAGTTTCCACCCCCAGCCTT
CCTTTTTTTTTTTTTTGAGGCAGTGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCCATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAG
CAATTTTCTCGTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCAAGCACCACCACATTCTGGCTGATTTTTTTGTACTTTTAGTAGAGATGGGGTTTT
GCCATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGTTGGGATCACAGGTGTGAGCCACCGCGCCCA
GCCCTCCTGCCTTCTTATCTCCCTTCCCTGCTTCATTCTTTTTCTCCACAGCAATAATTACTTCCTTCCCCAACCCCCTCCTCGCCCACCTGAATATGTG
CTCCATGTGGGCAGGGGTTTCTCTTTTGTTTACTGAAGTATCTCAGGACCTGAATTAGTGCCTGGCACAGAGTAGGTGCTTCATCAGAATTTGCTAGTGA
AGTAAGTTAGTGCACTTCTCTAGGCCTCAGTTTCCCCCTGCGTCAAATTTAGCCCCCAACTCACCCACCTCCAGATGCTGAGCTATTAGATTGTTTGCTC
ACTGTAGAGTGCTGTACCCAGGTGAAAGGGGTTCAGTTTGGCATGGGTGGTGKTGAAGTGTGGCCCTGCTCTAAGCGCTACTCAGAGCCGAAGCATCCAG
GTCGTTTTGCAGCTGGGGTCAGGGCTGCAGCCAGGTCCTCACCTACCCCAAGGCTGCTCCACTGGTACCTAATTTCCTACACCTTCTCACAATCTCAGGT
CTCGCCATCCTCTCCACGGTCTGTCGTGGGGCCTCCCGTGAGACCTGGTCAAGCCACCTTGTCTTTCCTCACCTTGTAACTTCATCTGCCCAGCCTGGTC
CTCGAGCCAGGCCCCATTCTGTCTTCCCCTGGGGAGGCCCCCTTTGTGGGTACATTAGCTCAGAGAGCCTGAAAGCTACAATTCTGAAGTTCTGCCCTCA
GTGTCTTGAAGGTTCTAGAGTCCTACAACTGGAATAGGCACAGCTTGCATGCTGTGAGCCTAGATGTGTGAGCAGGGCTGTTGTTTTGTTCGTACACTGG
ATGCAATGGCCGTGATGGAGGGTGGTGGAAACTGTATCTTGGTTCAATTCAGTCTCCCTTTTCTTCTAAGGGTTGACCCTAAGTTTGGGAGGTTTAGGTA
GTGATGAATTAATACAATAAGAGGACACCCAACATTTTAAAATAACTAAAAGAGTGTAATTGGATTGTTTATAACACAAAGGTAAATGTTTCAGGGGATG
GATACCCCGTCCTCCATCATACGATTATGAGGCATTGCATGCCTGGATCAAAACATTTCATGTACCCCATAGATACCCCTACTAAGTACCCACAAAAATA
AAAAATACACACATTTTAAATTTAAAAGAAAAGAGGACAGCCAGTGTGGTGGACACTGTGAGTTCCTCACCTACACTCCATTTACGAGCTGGTGCACCCA
CACCCCAACTGCTGGCATTCCCCGCTGCTAACAGTTCACCACTGCCCCCTTCTCACGACTCCTGCCTCTCACAATTGCCCTTGGCCCATGGGAGTCGCCT
GCCAGGGGATTTTAACCTGTGGCAGCTCTCCCGTCCTCCCACCAGGCAGACTGTGGACTCATTGAGTCAGGGGTACAAAAGCTCAGCCCTCTTTCTGCAA
GGTGGGATCAACACCTGGTGCAATTCAGGCCGAAGCTAGACCTCAGCTGAGGCTACATCCTGGCTTAGCTCCTTCCCTATCCTGTCCTGCTTCTCTCTCT
CCCCCATCTCCTAAAGGAGACGTGGAGCAAGAATGAATCACGTGCCTAAGAATCCCTGTCTCAGGCTCTGCTTTTAGGGATGCCCTGACATGAAGGGAGG
TGATCGGTGTTATTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTGTCTCCCARGCTGGAGTGCAGTGGTGCAGTCTTGGCTCACTGCAAGC
TCCGCCTCCCAGGTTCTCGCCATTCTCCTGCTTCAGCCTCCCAAGCAGCTGGGACTACAGGCGCCCGCCACCACACCTGGCTAATTTTTTTGTATTTTTA
GTAGAGACGGGGTTTCGCCATGTTAGCCAAGATGGTCTCGATCTCCTGACCTCGTGATCCGCTGGCCTTTGCTTCCCAAAGTGCTGGGATTACAGGCGTG
AGCCACCGTGCCCGGCCAATCAGTGTTATTTAAAACTGACCTCCATGCCCAAGGGCTGGGGACTGGCAACTAAGAGTTACCCTCAGGATGGGATGGTCTC
CCCCTACCTAGCTTCACCATCTTCCTGCCTTTTCCCTTCCATCTTCAGGGTGGGCTCTCATTGGCACTGTCCCCACACCCACAGACTCCAGTCCATTCTC
CATTTTCCCTGCTAGACTGAAGAGTTTGGCTGTTTCTGCTGACTTGGAGGGGACAATGACCAGAGCAGGCTGCAGTCCAAGCATTTGTTCACGAAGGGCT
TTGAAAGGCTGGCCCGGTCCTCCCTCCCCACCTTGTTTGCCAGGAATGGTCCCCATCCCAGCGCAAAAGCTCTGGCAAGCCTTGTTTCCTTTCAGCCGGC
GTTTTCTGAGGGTTAGCTTGGCAGGCTTCCGTGCTGACCTTGGATGGCTTAATGAAGTTGGGAGAGGCTCCATGCCAGCTCCCCATTAACGTGGCCTTTG
AGAGAGCCTCAGGGGCTCCCAAATCTTTTGGCTTGCTCAGGCCCAAGGGTAGAGGAGGTGAGCCAGGCAAGGGAGAAAACAATAGCTTCAACGGCACCAA
GATGCTGTGTGACCTTGGATGAGTCACATCCTCTCTATAGGTCTTGGGTCCCCCAGCTGTAACGGGAGGGCATTGGGCTGGGTGATTCCTCCCAACTCCC
TGCTGTACTCATTCATTGGAAAACATGTATTGAGTGTCAAGTATGTGCCAGGCACTCTTCTAGGTGCTGAGGACATAGCAGCAAACAAAACAAAGCATCT
GCCTTGTGGAATAGAATATCCCCAGCTGGGGGAATAGAAAGAATGTGGGATTTAGAACCAGAAGACCAGAATCTTTTGCCACTGACTTCTGAGCCTCAGT
TTCCTCATCTGTAAAATGGGGCTGTTCTGAGGCATCAGTGAGATAGTGGATGTAAATGTTCTTGGTAGTAATCTTATGCAATACTTATTTAGCACCTACT
GGGTTCCAAGGCATGGACATAATCAATAATTCTCATAATCCCTTCATAAAGAGGGATAATGGTGGCAGGTGAAGGCTCTGGAGCTGGACCGGGTCCAAAT
CGCAGCTCTGCCCCTTCCTGTGTGACCTCAGACAAGCTGCTGGGCCTCTCTGTGCCTCAGGTTCCTTTCCCATAAGACAGGTAATGATGATACCTGGATT
ATAGGGTTGCTGGGAGGACAGAGTGGACTCGAACTTGCGCAGTCCTTAGAACAGTGCCTACTGCATAATAAGTGCTCAATACAGGGGAGTTATGAGCTGT
ATGTTATTATTATTCATTTCATTTCACAGGAGAAAACAGATTTTCAGTTCTTGTCTGAGGTCACTCAGTAAGGGAAGCTGAAGAAAATRTGGAAGGAGCC
CCCCACGGTGGCTGGACYCAGCATCAGGGGCTCTCCCCATCTCCTTTAGTCCTCTGAACCCAGAGAGGCTTAGCTGAACTGCAAGCTGAGGCCAAGGGAT
TTACAGCTCAGAAATCCCCATTTCTGAATGAGTCTGACTGAGTATCCATGCACATGTGTGTAAGTGTGAGTGGCTGTGCACACATCTGAGCATCCACAAT
AGGCATTGCCAAGAAGGACACACCATATGATTCCATTTATATGAGGCTCAAGAACAAGCAAAATTCAACTATAACAAGAGAAATCAGAACAGTGATTGCT
TTTGGAGGTATTGACTGGAAGGGAACCCGAGAGAACTTCCTGGATGATGGAAATATTCTGGACCTTAACTGAGTTGGTGGGTACACAAGTGTATCTATTT
ATCAAAAGGCACTGCACTAAACACTTAAAACTTGTGCATTTTATTATGTGTAAGTTATACCTCAATAAATAAAGGAGCACTGGGAAAAAATAATAAGAGA
TCTAATTTACTGAGGAGTAATTAACCACATGCCGGGCGCTGTTCAAGACGCCTTACAGGTGTTCTGTAATGTAATCCTAACACAACCCCATGTAGCATTG
CCTGTTATGTACATGCATGTACTCCATCCTGTGCGTATGTGTCTGAGGCTGCTTCTTAGCCGGCGTATGAGTAGTTCACAGAATGCATATGCACACGTGA
CACTGACTCATTCCTATACTTGGGGGCTAAGTGGGCACGTATGAGGGTGCACGTGTCCACAGATTTGTCCACGGGAATAGATTTCTGCCAGCACCTGTTT
GCTCCCCTCAAGAGCATTAATGAACCGTGCTTCATGCGCCGTGCTGGCTGGTAGTTAGATGCTAACAGCATGCATGCAGGGGCCCTGGTCTGTGTAGACA
AATCAAGCACTGTTATCAGACAATAATGGCAGGGGATCGACAGCCAGCCGCCTGTGCCAGGGAGGGGTGGGGACGCATGAGCACTGGGCAATTAGCATCT
CTAAAGGGTGTCTCTGCTGAATGGTGGCTAATTTGCCGACATGGCCCCATCAGTCAAACTCAGCAGTCACTGAGTGGGGAATGCCGGGCCTCTCCAAAGA
TTTGTGAGTTGCTGCTGTTGGTGCCAGCTTTTGCACTGGGAGCAACTCATACCTTAAGACCTCACCCTTAAGAGGATAAGGGTGAACAGAGCCTGCCTGC
YCACAACAGAGCCTGCCTGCCCTCTGACCTCTCCCCACCTCTGAGGATGGTTGGCCTTGTGAGCTTGGGATGATGTGGAGGCTCGGAGAGGGCAAGCAAC
CTGTTTAGAGTCAAACGGCCAGTGGGCCACCAACCCAGGAACTGAGCTTGGGTTTCCAGACTTGCAGGCATTGTACATTTCTCAACACCATCACTCACTC
ACATGACACAGTATTCACAATATTTTTGCCATTTCTTTTCACCAAAGGTACTATTAGTTTCTTGGTATTTTCCCTCAAGTGACTCTCTTTTTAAATTTTT
AAAATTATTTTGTTTTATTTTTACTATTATTATTTTGATGCGGAGTCTTGCTCTGTCGCCCAGGCTGGACTGCAGTTGCACGATCTTGGTTCACTGCAAC
CTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCTTCCCGAATAGCCGGGATTACAGGCGTGCACCACCACGCCCGGCTAATTTTTGTATTTTTAG
TAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACCCCTGGCCTCAAATGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGT
GAGCCACTGCGTCCGGCCCCTTTTTAAATTCAAATGTTTATTTTAAAAGGAAGCTGCCATTAATGGAAAACCAGTATCTGATACCCATAAGTTGAAGCAG
GGGTGACCAACCACCCTTGCCTCCATTCACCTGTGAACTTTCAGTTTTAAAACCTAGATGGTTCTGGCAAACTGTATGGAGTTAATCACCTTAAATTGAA
CACAGGGTTAAAAATGAATACCACRAAAATAAACTAGGTTATTAAACTCGAACTGGCAGCTCTGAGCCTGGAGCCTGTCCTTACCTGTGCTGAAGGCGGA
GCTCCATTAGAATGCTGGAGCTTCTCTTTCCGGTAGTCCCATGACAAGTCCCAGGGTTCACTCTGATTGGCTTGATTGGGGTCACATGMCCAGACTCTGC
CAATCGTTGTTGCCAGGGGAATGCACCGTTCTGATTGGCCAGACCTGGAGCCAGAGGTGAGGYCAGGCTACAAGCCACGTGGCTTGAGAGCTGGGAAGGG
ATAGTTCCCCCAAAGGGTGAGATGGTTTGTTGCTAAAAAGAAGCCCCCTCTTCCTCCAGGTATGAGCAGCAGGTGACTCCTCTGCCCTTGCAGGAACAAT
GTCCTCTTGCTGTCCCAGGCTCTGGCTCCCAATCTGCCTCCTGCTGCCTGTGTCTCTTCCCCGCTCTGGTCCTCAGTCTCCTCATTTGTGAAATGGAGGG
TTGTGCTGAATGATCTCTAAGCGTCTTCCAGGCTTTGATGTTATGTGATTGGTCTTCCCTGGGATGATTATTACTGGAGTTTGGTGGTGGCTGTTACTGT
TTTACTCCCTCCCACTTGCCCAGAGATAGATGAGAAAAGAGAAGGTCTTATAACATGGTGAGAAGAGCATAAGGCATTTCCAGGTTCAAATCCCAGCACT
GACAGTTTCTGGCTGTGAGATTTCAGACAAGTCACTTCACTCTCTGAGCCTCAGTTTCCTCATCTCTAAAATGGGAAGAACAATAGTATCTATGTAGAAG
AGTCACATTGAGGATTAAAACTGGCAATAAGTCTAGACTGTTGGGGTGTATTTGGGTCTTTTGGGGTGTATTTGGGTGCAGGAAACTGAAAGTCAAATGA
AACTGGCATGGACAATAAAGGGCATTTATTGGATAGTGCAACTGAAAAGCCCAGGCAGTGTGTAGCAAGGGTAGGGAGGGGATCATGATGTCATCATTGT
GTCAAGGATTTACTCTGCTTTGTCCTCCTCTGTGAGCCAATTTTTCTCTTGGGCTGGCTCCCCTCATGGGAGTCCCAAAGGCTGCAGCATTTCTAGGCGT
CACACATGCACTCTACGTTATCCAGAAGAGAAGGGAACTCCCAGCATTCCTGGCCAAAGCTCAGAAGTCAATAAATTGGCTTAGCTTGAATCACATGCCC
CACTCAGCAAGCTCTCTAGCTGGGGGATGCCATGTGCTGACTGGCTTATCCCTGGGGCAGGGGGCAGGGTCAGCTTCCTCAGAACCACAGGGATCCCCAC
GGAGTGGTTGGGAAGGGCCCCTGCATGCTGGGAATGATGCAATCAAGCATTGAGGATCACCAGCGACTCTAGCGCTGAGGCTCTGAAAGGGCTTTCCAGA
CATCTCCTGTCCCGAGCTATCATTTTACACAAGGGGGACACTGAGGCTAAGAGACGGGCTGATTTCAGGAGGGTGTCACTTGGAAAATGACGATCAAGAT
CTGCCTTGGCTGATTGCTGTAAGACCCCAGTGAGATGAAAATAATGCTTTGAGAAAGAAGGAAAGAAAGGAGGAAGGACTCAAATAGATCACAGACCTAC
TAGGTGCTAGATTTTCTGTACCTGTCATGTCATTTAATCCTCGTAGCCACCCCGGGAAGCGGGTTTTGCCATTACTCCCAGTTTACAGAGGGGAAATGTG
AGGCTGAGAGAGCTGAGGTCACTTGCCTAGGGTCACACCCTAGGAAGCAGTGCCAAAGGGCTGCGAAGCTAGTTGTGTACGATTCTGGTCCAAGGACACT
TGCATTTAGTGTGCACCTACTGTGTGCTAGGTGCTTCCCAGGCCACCATCTCTTATGTGAGTGCTCAGTGGGTCTGCCCATAGCGGGGGATGTGTTCTCA
GGAGAGAGCAGGGATCCCTTCTTGGCCACCAGAAATGGTCCATTTTTCAAGTTGTCTTTACCAGTGGAGACTCTATGACTTCTTTCTTGTTCTTTCTGTA
ACCTGGTCCCCTCCCCAATCCCGAACATTTTCTGGCCTGGCAGCTCCACTAAGAGTCTCGAATCTTCCAGGTACCTGTACCCAGCCCTGGGACTGGATGA
GGAGGTTCTTCTGGAGACACCCAGGCCTTTGTGTCCCTGGGCCCCAGGGCTCCGTCCCACCCCTGGCTGCCCCCTCCTGGGCCCCTCCCCAGCACTGGTT
TTGTGCCAATGTTTGGGCTGCTACAGCCCTGGCCAGGCTCGAAAAAGGAATTATTTCTGTCTCTTGCATAGTTCTCAGCCCAATTCCCAAAATGGGAAGT
GGCCTGGGAGGGCCGCCCAACCCCCACTCCAGTGGAGGAGGGAGGCGAGGAGAACTTGGCAGAGCTGAGACACACACACACACACACACACGCACACACA
CACACACACACAGCTCCTTCTCTAGGCCTGTGGCCTGTAGAGGGAGGCCAGGCACTTCAGAGGGAGATGAGGGATGGCTCTTGGAGTGGGGTGCCTCTTC
CCTCCTCTTCCAGAATGCTTTCCCTGATTGTTGAGGGGCTGTATCAGGCTCTTGAGAGGGGTRTTGGGACCCCCGGTTATTCTGTGAGCTTAGGACCCCC
ATTTCTTAACATTCCTCATAGCATCCAGTGTTTGTCTCTGCCCAGCCTGGATGTCTGTCATAATGGCCAGCTGCATCACTGGCCAGAAGGTAGGTTGGTT
CTGACGGACACTGACTGACTGACTTGTCCACCGCAAGTCTGAGAGCCTGACAGACAGGATAGCTGACTGACTGGATGAATGGCTGTGCCTGCCTGCCTGC
CTGCCTGCCTGCCTGCCTCCATGTCTGACTGAATGTCCCTCTCTGAGACAGAGAGACTCTCTCCCTGTCTACCTGGCTGCGGCTCTTGTACCTGACTAAT
TAGATGCAAAACAAATTGCCTTTCTCTCCATCTCCTCATTCAAATGCCTGTTGGAGTGTCTGTCTGTCTGTCTTCCTGGGTGTTTGGCTGGCTGTAATTA
GATGAGTAACTAAGACTAGCTGTCCATCTCCTGTCTGACTGACTGACTAGCTGTCTCTATAGCTGACTGACAAGATGGCTGATGGACAGCCTGTCTGTCT
GTCTGTCTGTCTATGTCTGTCTGTCTGCCTGTCTGTCTGCTGGGTATCTATTGTATCTGACTAACAGATGAAGAAGCCTGTCTGTTCATCTCCTCCTCTG
ACTGACTGACCGTCTGTCTGTCAGCCTGCTTGTCTGACTGCAGGCCTGATCAAATGGCTGAGTGACGGCCTGCCCATCTGCCTGTCTCTACGTCTAACTG
ACAAGATGACTGTCAGGCTGATCACCTGTTTCCCACCTCGGTATCCGAATGACCAGCTCACTGGATACTTGACTCTTGACTCTCCTAACTAGACACAACT
CCCAGGCTGTCCTAGATGGTCGGAAGGGCATGGGTGACACCCATCTGGAAGCCCCCACCCAGCCTCAGCAACCATGCCTCTCCCCTCCCTCCAGGGCTCC
CTGGCCCAGAGGAGCAAAAGTCCTTTCCCTGCCAGAGCAGGGAGGGGGAACTGAGTGGAAACCTCAACGCCTGCCCATGTGTTCATGTTTCACATGTTTG
CACTGCCTGGAGATGGGGGTGGAGGGTGAGCCCTGTGTTCCTCATCCATCCTGCACCCCTGTTTTCAGGGGTCTTAAGGGGGAAACATCCTTCCCCAAAG
AGGCCACAAGGACTCTCCCAATATGTAAGGCCCTACCCAGGCCCTGCAATCCTGGAAAGCACCTTGGGGAACCATTTCAAACTCTTCACCCCTGTGTTGC
TCAGACACTGGGGCAGATTCCCAGAACAGGGGCCAGGTCTGGGGCAGCCAGCCACCGGTGGGAGCACGGGCTCCCTGGTCAACATCAGCAGACGTCCACC
ACCTCCACCTGTCAGGAACTCCACAGCCCTTCAGAAGGAAGCCAAGCTGGGGAGAGTGAGTAACACTTTGCCGGGAGGGAGGGCACAGTCCTTCCTGCTG
GCTGCATTTCCTCCTGATAATAGAATTCTGCCCAGCTGCTGGGCTGGCTGCTGTCTGACCTCCCTTCTTAAMGACAGAATTTGCTGATGAATTTTGTTTC
AGGAGAAATATGTGTGTGAATGGGGGAAGAGACGAGACAGAGAGAAATAGGAAGAGTTTGGGAGCCTCTAGATGAAAAGCAGCATCTCGAGAATTTAGCT
CTGTCTAAATCATGCCTTCCCTGTCTTTTTTAGAGCCCTGTAGGTCCCCCAGATGGGCCCCGGGGATGACAGGCTGGGTGACCTCTGCACAGGCCAGTGG
AATCACTTTAAGCTCTGGGGAAAGGTGGGAAGAGGGCATTCTGGGAGTCTCTGAATCCCTGGGCAGTAGACAGCAGCAATTGGAGATGGCTGGGCATCTG
AGGCCAGGGCTGAACTCAGTGTATGACTAGGGTTAGAGATCAATATGTGACAAAGATTATGGTTCACCCTAGGACCAGATTATGGTTGACTCTATGGCCA
GGATCAGGGATCAGTCAGTGAGGAGTGCCAGGACTCAGTGTCTCTCCAGGGTCAAAGCTCAGTCTGTGTCCTGCGTCAGAGCTCAACCAGTGAGCAGGGT
CAGGACTCAGTGTGTGATGAGGGTCAGGGCTTATCCTTGACAAGGATCAGGGTTCAGTCTGAGACTGAGGTCAGTACATGACCTGGGTCATAGATCACAC
TAGGAGTTAGTCTGTGATCAGAGTCAGGGATCAGTATGYAACTAGGGTTAAGGATCAGTGTGTGACCAGGGTCAAGGCTTAKCCTAGGACCAGGGTTATG
AAGGAATGTGCGGCCAGGGTCAAGATTCAGTGTGACCCGGGTTAGGACTCAGTTTGTGGCTCATTCAGGGGCTGGAGTTAGAATCAATCTGGACACTTGG
GCTCTAGGAGTAACCCAGATTCTTATGCCTGAAGGACAGGCAGACGGGGGACCAGCGTATACCTGGCTGGCTCCTGCTCCCCCTCGTCCCCTCTTCTACT
TGGGYTCCAAGGGCAAAACCAGGACACTTTAGGAGCCCCTGGGACAGGGGAAGATTGGAGAGTGTCCTCCAATCCTTGCATGTTCTGCTGCAGCTGGGGC
CAGAGAGGGTCATCCTCATGTCTGGGGAGGACAGGGAGACAGAGGACTGGCTCTGATAAGCAGGGAAGAGGAGAAGAAAGTCATGAAAGGAAGTAGTTAT
AAGTATGGCATCTGTAGCAGAATACCTGGGTTTGAATTCTGGTTCCGCCACCTACTAGCTGTGTGGCCTTCAGCAAGTTACTCAATCTCTCTGTGCCTTG
ACTTTCTCATCTCTAGAATGAGCATAAAAATAGTATCCATAGGGTTGTAGTAAGGATTCTAAGTAAGTTAATACATGTAAAGTATTTACAGTGTGCCTGT
TGGCTGTATGTATTCCATCAATTTTAGCTGTTTTTGTTTGCTCTGAAGCCATGGAGGGGTCCAACCTTGTGAACTGCCCAGGCTTGAGGATAGAGGGCTG
GAGCCCAGGCTCCGATCCCTGGGCAACTCCCTAGACCTGCAAGCCTCCCCTCTGTTAGGTTCCGATGCCATCATAATCCCCAACTGTTGTAACACTAATG
ACATTTGCAGTTACTTCTCTGATTCCTGTGTCCCCCCACCTAGAGCACCTGCTCCTGAGGACCAATATTTTTATCTTTCTTGCTCACTACGTATCTTCAG
CACCTAGCAAAGTACCTGGCACACAGTAGGTGCTCAARAGACAGTTAATAAATGTTTTATTACTATGATAATAATAAAAGCAACCATTTGCATTGAGCCA
AACACTGCTCGTTGCTTTCTCTCTCATTTTTTTAATCCAGTCTTTTAAAAACTGATCATTAAAATAAATGCATTCAGCCGGCCACAGTGACTCACACCTG
TAGTCCCAGCACTTTGGGAAGCTGAGGTGGGTGGATCATTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGATGAAACCCTGTCTCTACTAAAAA
TACAAAAAAATTAGCCAGGTGGCGCACACCTGTAATCCCAGCTACTCGGGAGGCTGGGAGAATAGCTTGAACCCGGGAGGCAGAGGTTACAGTGAGCCGA
GATCGTGCCACTGCACTCCAGCCTGGGCAACAGAGCAAAACTCCATCTAAATAAATAAATAAATAAATGCATTCAACAGTAAGACTAATTCAAATACCAG
AGGGCATACAATGGAAAGACAGAAATCTCACTCCCACATCTCCAGGCTCAGAAGAAGCCATTTTCTTGCACGTCTTTATATTAGGTTGATGCAATTGCTT
TTGCACCAACCTCCATGGAAATAGGAGTTTTGTTTTATCCACACTGTATTCCTCCTGCTTACTCCAGTTCCTGGCAAGCAGTAGGTGCTCAATAAGGCTA
TGTAGAAAGATTATTTTTATTTCTAATACCAATGGGATTATGTCATATATACTGTTGGGTACCTTACTTTTTAACTATTAATAAATGAATAAGCCACCGG
GCGCGGTGGCTTACACCTGTAATCCCAGCACTTTGGGAGGCCAAGATGGATGGATCACGAAGTCAAGAGATTGAAACCATCCTGGCCAACATGGTGAAAC
CCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCRTGCGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGG
GAGGCAGAGGTTGCAGTGGGCTGAGATTGCGCCACTTCATTCCAGCCTGGGCAACAGAGCGAGACTCCATCTCAAAAAATAAATAAATAAATAAGCCTTA
GAGATCTTTCCATATCAGCAAAAACTAGATTTACCTCATTCATTTTAATGGCTGCATAATCTTTCATGGCTTAGATGTACCATACATTATTTAACTAGAC
TCTTCGTGGATATAGTTTTTGGTTTTGTTTTTCTTCACCCATCATGACAATACTTTATTTAAGTATCACACCTCAACTCTACAAGGGTTAACTCTGATTT
TGGCTGAGAAGACTGCATCTCAGAGAATCTAAAGCACTTGCCTAAGGTCAGAGAATCTCAGCACTTGCCTAAGGTCACTCAGCCAACCTCCAAGCCCATT
CCACCACCCAAGCTTTTTCTTTGCTGCCCGCCAATGCCCCTCGCTGAGTTGTCCCATCGCCAGCCTCAGAGAAGGCTGCCCTGCGACGCTTCTATCGCCT
GCACAGGGCATTGCCCTCTTGCAAGGTTCTTCTCTAGGCCTTTGTCAGTGTCTTTCCAGAGCCTGAAGCAGGCTCAGAAGGGTTAAGAATCAGCTGGGTG
CGGTAGCTCACATCTGTAAGCCCAGCATTTGGGAGGCCAAAGTGGGTAGATCACTTGAACCGAGGAGTTCAAGACCAGCCTGGCCAACGTGGCAAAACCC
CGTCTCTACAAAAAATAAAAACATTAGCCAGGCATGGTGGTACATGCCTGTAATCTCAGCTACTCAGGAGGCTGAGACACGAGAATTGTTTGAACCCAGG
AGGTGGAGGTTGCAGTGAGCTGAGATCGCACCACTGCCCTCCAGCCCAGGCAGCAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAACCCAAGAG
TCCCCAGATGGGCCTAGAATCCACATCTCCAGAGCTGTGTTAAGATAGTTCTCAGCTGGAGGTGATTTTGACCTCCAGGGGACGCTTGACAATGTCTGGG
TCATTTTGGTTGTCATACCCGGGGGCATCTAGTGGGTGGAGGCCAGAGATGCTGCTGAACATCCCAGAATGCACAAGGCAGCCCCCTACCTGAGTGAGCC
AACCCAAAACGCCARTAGGTCGAGGTTGAGAAATGCTCGGTGAAGGGCACAGATTCTTGCACCAGACTTCCTGGGGCCAAATCCTGGCTGCCGCTTACTG
GCCGAATGACCTCAGACAAGTTGATCGATCTCTCTGTGCCCCTGTTTCCTTATCTGTAAAATGGGGATAAGAGTAGCCCCTCTCTTCCAGATTAGATATG
TAAATCACTTTGGAAAATACTCAGTATCTGAAACCATAACTGGAATATTTGTCCTCAGAATCTGGCTGTCAGAGCTGGGAGAAGATGTACCCTACAGAGA
AAACAGGGCAGCGGACTGCTGCCCCACCATGGCCCAGCCTCCCCCAGGGAATGTGACCTCAGTCCACAGATAGAAGTAGATGCCCCTGACGCTGCTGACC
TCTGCTCGGTCAGGAATAGAGGAAAAATCGCTGTTTCCATTTTGAGGTCTGAAAAGCAGCTCCCAAGATACCCTCAGACTTGGGGATTTTCAAGAAGCCT
AACATTAAAGGATTTTAGGAACCAGCAACTCCAAGCCATCCATTTGACAGGTGGAAAGACTGAGGCCCAGAGAGAGGGTARGGGGCAGGACTTGCTCACA
CAGCAAGGCCATGACAGACCTGAGCTGGGACGCRGCCCAGGACAAACACGGGCCTCCCCACAGCCCAGCCCAAAGGCTCTTCTCAGGTACAGACCAGCGC
CTGGGTCAGATTCGTTCTTCCCTCTTTTCTGAGAGTCTCTGGAATCCAGGCTGCCTGAAAAGCAATGTCATGTGTTTACAAGCACAGCTTTGACATCAGA
CAGACCCTGGTACAAATCCCCATCTCACCAGTTGCCTGTGATGACTTTGGGCAGGCCATGTACAATTCTCTGAGCCTCAGCAAAATGGACACCATCTAGT
TTGTTGTTGAAAGGATTAGAGACAACGTGTGGGTACACTCCCACATTGCTGGTGGAATGCACGTCAGCCAGACTTCTTTGCAGGGAAATTTGACAAAATC
TAAGAACACTGAAAAAGCATCTGCCCTTGCATTCAGCAATTCTTCTGAAGACAAACCCTCACATGTGGGATATGAACAATGTCCCTGTTTTGTCTCTGCA
GTATTATCTGTGATAGCAAGAAGTTGAGAACGACCCACACCAAGAGGGACTTGGTGGAACACTCTAGGGAGCATCTGTACAAGGTCTTAGACACATTCAT
TTAAAAGTTCAGGGCAGCTCTGTGTGTACCTATTTGTAACAACCTTCAAGATATATTGTTAAGTGAAGACGTAAGATCCTGAAGGGTAGGTGGAGTATAT
GCTACCGTTTTTGTGGGGAAGAAAGAACATAGATAAATACAAATGCTTATTTAGGCACGGTTTCAGTTAAGAAGGCATGTAGCTGCAAGGATGAGAAAAA
TCCAACAGACGATGGCTTGAGCAAACACAGTAAGTCCAGAGCCGGGCAGCGCAGCACTGGTGCAGCTGCTGAAGGACTCAAGCATCGTTCTTTCCTTTCC
CCATTCTGAGTACGTGTCTCTGATCCTTACGGTCTCAAGGTGGCTGCTCCTCCACCTCCAGGTATCAAGTCCACATTCCAGGCAGAATATATATATATAT
TTTTAATTGAGATGGAGTCTCACCCAGGCAAGAAATTTTTTTTAAGGGCAAAGGGCAAAAGCAAAACAAAAACACAAAAGTCTTCTTTTCCGGGCACTTT
GACTTTTGAGGGAGTGAAAAGAAATTCCCTGCCCAGGGACTTCCACCTACATCTCGCTGTACAGACCAGGTCACATGGCTGCTGCTAACTGCAAGGGAGT
CAGGAATGTGAGTGTTTTTATCTGGGCATATGGCCACCTGTGAGCAAAATTGGGGTTCTGTTAGCAAGGAGGAGGTGGAGGCTGGATACTGGGTGGGCAA
CTAGTAGGTTCTGCCATTCCTAGTCCGTCACTGGAAAGATCCCTAAGAAACAAAATAGTAGTCACTTCTGAGGCAGAGAGCTGGTTGACAGGGGACAGGG
GCGGGAGGAAGATCCCCCTTTTTAACTGTGTACCCTTTTGTACCTTTTTGATTTTCAAACTGTGTGCAGGTACTGCCCTTCAAAATTAATATAATTTATA
TAAAAAGTGAAATTTTTAAAAACTCAATGCAGGCTGAGCACAGTGGCTCACGCTTGTAATCCCAGCCCTTTGAGACACCAAGGCGAGCCAATCACCAGAG
GCTGAGAGTTCAAGACCAGCCTGGCCAGCATGGTGAAACCCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACATGCCTGTAATCCTA
GCTACTTGGGAGGCTGAGGCAMGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGGGAGCCGAGATCACGCCACTGCACTCCAGCCCAGGTGACAGAG
TGAGACTGTGCCTCAAAAAATAAATTAAATAAAATAAATAAATAAATAAATAAAAGCACAGTGCATACAAAGATGCCTGGAATATAACATGCACTCAATA
AAACTGGCTTTCCTTCTTTTATCACCTGGCTTAGCATCAAATGCACATTGAATTCTCAGCTCTGCTACACCTAAGTTTTGTGACCTTGGGCCTGGTTCTC
CAGCTGTCTGTGCTTTCATTTCCTCCTGGATGCGTTATGAGATGCAGGTCAAGCATACTGTTTTAGTGGCTGTCAGGAGAATTCCTCCCAGGGGCCCACT
TTTGTTGAGGAGATGGCTTCTTAAGACCTGTTGAAATGGGAGAGCCCCATCGGATGTGGGTGGATGGGGCCAATGTTTCCCAGAAAGGGAGCTACCTACC
CAACACCCCTTACGCTAGCCACGTGATAATAACAGAAGCCAGGACGGGGCACGGTGGCTCTCACCTGTAAGCCCAGCACTTTGGGAGACTGAAGCGGGAG
GATTACTTGAAGCCAGGAGTTCAAGACCAGCCTGGGCAATATCACAAGACTCTGTCTCTAAAAAAAAACAAAAACAAACAAACAAACAAAAACTTAAAAA
TTAGTCTGGYGTGGTGGTGCGTTCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCGGGAGGATGGATTGGGCTCAGGAGTTCAAGGCTGCCGTGAGCTAT
GATCGCACCACTGCACTCCAGCCTGGGTGACAGAGCGAGATCCTGTCTCTAAAAGAATAACAATCTGCAGCCATAAAAAAGAACGAGATTACATCCTTTG
CAGCAACATGGATGCAGCTGGAGGCCATTATCCCAAGTGTATTAATGCAGAAACGGAAACCCAAATACCACATGTTCTCACTTATAAGTGAGAGCTGAAC
ATTGGGTACATACGGACACAAAGATGGGAACGATAAGCACTGGGAAGTCCAGAAAAGGGGAAGGAGGGGAGGGAGAGGGGGAAAAGGATTGAAAAACTAC
CTGTTGGGTACCACGTTCACTGCTTGGGTGATGGGATCGTTAGAAGCCCAAACCTCCGCATCACAAAATATACCCGTGTAACAAACCTGCACATGTACCC
CCTGAATCTAAAATGAAAATAAATAAATAATAGGAGTGAACATTCATTGAGTGCCAACCATGTGCCAGGCACTGTTCTAAGTGCTTTTACATACATTAAC
TCATCTAACCTGGAGAAGAATCTTACAAGGTGTTTACTACTATTGACTCTTCTGTTAAGTCTGCCAGAATGATAACATGTTTGATGGGTTGAGTTTCTCA
TGGAAATCGGTGGCAGAGGCTGAGACAGCATCCAGATGGATTCAGGACATTTGAACCCAAGGGACAGAAGAAGCAAGGACCCCGGCATTTATAGCGTTCT
GGGGAGGGGCTGTGATTGACCTTGGCGATTGGGAGGCATTCAAAGACTGTTCATCAGGTAGGAAGCTTTTGATCTCAGCTGACATCTGGGTCAAGTTAAA
TGGCAATAAAAATCCCTGCAAGTGGAGGTTCCATGGATAGAATTGCTAGTCCACAACTAGCATCTGACCACTTCACACCTCCGCCTCCACCCCCTGGCCG
AGCCCCCTTCGTCTCTCACCTGGTCTATTTCAGTAGCCTAGTCACTGGTCTCCCAGCTTCCATCCTGCCCACATCCACCCCACAGTCCATTCTCCACTCA
CAGCCAGAGAGATTTGGTGCAAACCTAAGTCAGAGCATGTCCCTCTTCTGCTCAAAGCCCTCCACGGCTCCCACTTCACTCAGAACCAAGCCATGGGTCT
CGGCAGAACCTCCCTGGCCCTCCAGGGTCCAGCCCCCATCAGTTCTCCCTCCTTACCTCTTAGCTTCCTCTGGCTCAGTGCTCCCACCCCAGGGCCTTTG
CACTTGCTATTTCTCCTGTTGCAAATACTCTTCCACCCAATTTCTGTGCCCCACCCCACCCAATCTCTTCATTCAAGTCTCTGTTCAAAAGCTACCTCCT
CAGTGTGTCTTCCTTGGACCACAGTGCCTCTCCTCCATCTAAAGCAACTCCAGTCCTGGCCAACCCTAACCCAGCCCGCTTTATTTTTCTTAAAGTCAAA
TTGCGCTTTTCATATTTCGAGTCAAATTGCACTTGTATCTGTTCCTCTGTCTCTTCATGGTTAGCTTCCTGAGCAAGCAGAGATTTTGTGCTCTTCACTT
GGCTCATATTAGATGCCTTACAAATGCATTTTATTCAAATCCATACACACATATACATATAACAGCTTTATTGAGATATTATTGAGATGTACAATTTACC
CATTAAATTAAAGCTACAATTTACCCCCATTAAAGTGTACAATTCGATGGTTTTTAGTACATACACAGAGTGGTGCAACCATCATCATAATCAATTTCGG
AACATTTTTATCATCCCAAGAAGRAACTCCTACCCCTTAGTAGTCACTCTCCATCTCTCCCCACCTCCATCCCAGCCCTGGGCAGCCACTAACCTAATTG
TTATCTCTCTACATTGCCCTATTCTGGACACTTCATGTAAATGAAATCACACAATAAGTGACCTTTTGTGTCTGGCTTCTTTTGCTCAGCATAATGTTTT
CAAGATTTTATATCCATGTTGCAGCATGCGTCAGTACTTCATTCCTTTTTATGGCTGAATAAGCTTCCATTATGTGGATATACCACATTTTGTTTATCCA
TTCATCAGCTGATGGACATTTGAGTTGTTTCCACTTTGGGCTATCATGAATAATGCTGCTATGAACATTTGTGCACAAATTTTTATGTGGACATATGTTT
TTCTTTCTCTTGGTATGTACCTAGAAGTGGAATTGCTGGATCATATGGTAATTCTATGTTTAACCTTTAGAGGAACTCCCAGACTGTTTTCCAAAGTGAT
TTTGCCATTTTACATTTCCTCCAGCTATATATGAGGGTTCCAGTCCCTCTACATCCTTGCCAGCACTTGTTCTGTCTTTTTTATTCTAGCCATCCTAGTG
GGTGTGAAGTGGTATTTCACTGTGATTTTGGCTTGCATTTCCCTGATTGTTATCATAGTATTTCTTGACAGAGTGGATTGAATGACATGCTGTCAGGTGA
GAGTCCACACAGCAGTCTGAATGGCTGAGCCCCCTCCACCGCCCTCCAGGCCAGGACCAGGCTGAGGTCTAGAGCCCAGGTGATCGCTAGGAAGGATGCT
CTCTGAGGCTGGGCAGCCTCCCAGGTCAGGCCAGGTGGTTGGACTAACCTTCTATGCCATCTGGTGGCCAGTAGCCAGCTGGGTGTGAAAATCCAAGGTG
GGCACCAAGTTATGGCACCTTAGCCGAGCCTGGGYTGTTGACTGGCAGCTGTGGCCAGATTTGCAGGCCGGGCTCTAGGAACTGTGATATCGCTGCACTC
CCTCACCAGCTCACAGTGCCTTTGCAGGGTGTGGCCTCCTTTCATCTGCTCCTCAGCCTTTGCAAGAGCTGCTGTTACCTCTTTTTTACAGGTGAGGAAA
GGGAGACTCAGAGAGGTGGCTTCCTGGCCCCAGGACACACAGCATCCCTGCCCACCTTTCCAAGATTTGTGTGTACATTCTACAAATACCTATTGAGTGT
CTTTGATGTGCTGAGCCCTGTGCTAACTCTGGGGTTCCAGAGTGAATAAGACAAAGTCCCTGTCCTCGTGGAGTCCACCCTTCGGTCTGGGAGACAGATA
GCACACAAGCAGATAGATATGCACTATAATATCAGGAGGGGACAAGGGCAGTGAAGAAAAGTAAAGAAGAAAAGGAAGGAGCTGAGTAATAGGAGGGGGC
AGAGTTTGCAAATTTAGATAATAAAAATAATAATAATACTCAATACTTCTGCAGTGTTTAGTTTGGAGGCTATGCTGGCCATAAGCACCTCCACTTCTGC
CAACACAAAAACCATAGGCCAGGAGTAAAATAAAGGATCACTCTTTCTGGGGGAAGGTGGAGGAGGGAGGAGAGAGAGGATCCAGGGCACAGCCCCCTGG
AGAGGGATCGTTACCAGGTGCCAAGCCGGGCCCAGTGATCCAGCTTCCACCCTGGTGGGGACAGGCCTCATCTGCCATGGTGGGCCCTGTGTTAGGGGAA
TGAGAGAATGAACTAGAACTTCTTAGGCACCTACAACATGCCAGGCACTGTACTAGGTGAAGGTGGAGTTGGGGGAAATCAAACAGCATCATCATCACTG
CTGTCCCCTCCCCGGCCACTGCCACACCCGTCCTCCCAGCTGCAAGCTAACAACAGGCTTTGTCACGGGTGTGCAACCAGTGCAGTAGTACCAGACGCCM
CTCTCAGAAGGGCCCCACACTTTGTTAGAGGCTCTGCTGTCACTGTCATGAAATCCATAGTTTTTGAACAAGGGTCCCCACATTTTCATCTGCACTGGGT
ATTGCAAACCCCAGTGTGTCCAGTCCCAGCAGTAAAGGAACAAGGAGGCCCCCAACTCCCTCCCCTTGCTGGAGCCCGTCATAATGGCTGCTTTCTTTCC
GTTGGAATTTAAAGGCATTATTTGATCCATCTAGTATACTCAAGTGCCTTGTGAGTTTTCTCAGAGGGTCAAGAAAAGCATTTGCTCTTTAGAGAAACCA
GGGAGCCCAGGAAGATGATGGGTCAGACCCGAGAGAAGGGTCTGACGGTGCATTTAGCTTGGGGAGCCCATAGGGAGCATTACCAGGGACTCCATCCACT
GAGATTTTCAAATACATCACCCGCCTAACTCCCAGGATCCCAGAGCCTCCTGAAAAGGAGGCAAACACCACTTTGTGGCCAAAGCTTTTTCTAATATTAT
TTTACTTCATCCTGCTTGGGAAGGCATCACCATTATTAGCCCATTTGCAAAGGATGAAACCGAGACTCCATAAGGCAATGCTAATTGCTTAGGGCCCCGT
GGTTAGTGGGAGGAGGGGTGGGGAGCAGAAAGTAGGGCCATGTGATGAATTTTGTGGCCCCCGGGCACTTAGGCCTCTCTCCATGAAAAAAAAACAAACA
TGCTATATTATGGCTACATTGGTATAAAGATGAATATATTAATATCACATACAGTATTACAACATTTTCTTCCTGCTGAAAGTTCTTTTTTTCTTCTAAT
TATAAAAGAAATTAAAACATTGGAGAAGGGGCCCTAGAGGTAGTGTGAACCCCAGGCTGTGTCTATTGGGCCTAATGGAGAAGTCAGCCCTGGCAGGAGG
AGAGGAGAGGAAGAGAAGGAAGATGGAGAGGAGGGAAAGGAGGTAGAGGAAGAAGAGAATGTCTGTGTCGCTTAGCAAAGGCGCCAAGGTCTGCAGTGAA
ATGCCACAGGCAGCAGCTCAAAGCGTGGCCCTCTGCTCTTAACCCAAGTGTCTGAAGTCTTGGTGCCACCTCCCTCTGAGACACCCTCTCCCTACCCACC
CGGCCCCTTCTCTCCCCTCCTACCTACACCTAGTGACCCTGGGAGCTTCATCTGCCCCAGACATCACCTGTCTAAAGCAGGTCCCTGTTAGATCAGATCG
GCCCAAGGGCCTTGCGTGGGATGTGTGTCTGCGGCCACACTCTGCCCCGTCACTCCACCTGCCCCCATGCCACTGCCTGTCTTCACAGATTGGACGTGTC
CTTCCTGATTTATACTGTCATCCTGGCAGGCATCAACTGGCATGCAGCCAGCAACGCCGTTACCTTTTGCTGCCATTAACGCAGCTATTTACTCCACGGA
AAATGACCTTAATTTACAAGGCATTATAACTAATACTGGATGATTACGGTTATTAATATTTATGGATTGACACTCCCAGGAGGGGACCTGGGTGCTAATT
GGCACTCCTCTCTGTGCCTCTTTTCTCAATGAGATTTCTTCTGATTTCTGCTGCTGTTCCAGCTCTCAGCCTCTTAGTTTCAAAGGAAAATACCGCACGG
TGCCCTGCCTTATTTCTGGCTGATTCTCTTATTTCATTCCCTTATTTCCTTCAGGTTCTGTAGGTAGCCTAGAAACAGGCCTGCTGCCCTAGGGGCTCCT
GGGTATTGGGAAAGGTCTGGGGTCCTGGCTGAGGGGAATTTGGCTGTGAGGAGTAGTAAGGAGAGGGAGTCTATGCTTCTACTTTAGAGGACGTGGAGAG
AAGAGAGGCATCAGGGAATGTGTACATTTGCCCAGAAACAAAGCACTGTCTCAGACTCCCACACCTTCCTCCATCRCTAATCAAAAATGTTCTGGTCTTT
TTATATAAGATGGAATCTAAATCAACCCCTCCCAACGCCTCATCTCTGGGTTGGTTGAACAAATGGGGGTGTTTGGGGCATCTGCATTTGGGGCCCAGAT
TGGAGAAGACAGATCACACTCCCCCTTCTCGCTCTTAGGTTTTGGGGGGTGCCAGGAGCTGATGTTGCCTGGGCTGAGAAGAGAGATGTACTTGTCATCT
CCTCTCCTTTTCAGGTGGAAGATGTGTTACAAACAGCAGCATGTTGCTATGGTAACCAAGGTGCTTCCTTCCAAGAGAGAGGGAGAGTGTCCTGCTTGTG
GTCCCTGCATGGCCTCACTACTCACGCCTGTGTCCCATCAGCTGGGCTGGGGCCAGGCAGCCCTGTACAAGAGTGATATAGCCAGGAGGGCACTGGGATG
AAATGGGGCACTTGTATCCTGACAAAAGGAGCAGCCACTGCCCAACTCCTGTAAATAGCTGCCATGCAGAAAAATGGGCACAATGCTGTCAAACCTTCTG
ATTACCGAAGAGAAGTGGGAAATTTGGATTAAGGCACACTGTCCCAATTATTTTTATTGTTGGCAAAGAATGCAAATAATAATTTTTTTTTAAGAATTAA
ACAAACATGGRCCAAACAAAACGTGTCCATGAACCGGCCATTTGGGTTGGGCAGTTTGGTAGCCATTTTGCCATCTGAGCAGAGTACACACTCACAGAAG
GTGGCCCCACTCAGCATCCTTCTGGGGTCCCAAGGTAAGTGAATCCAGGAAGAAAGCTTTCTAAGGAGATAAGAGGTGGGAAACGCCCAAATTCAGGAAC
TCGGAACTGTGTTCAGCTGGACCGTGAGTCTCTAAACAATTGTTCAGGATCCACCAGCTGCTGTTGATCACGGGTTAAGAAAGGGGCACATGGGTTCTGG
CTGTGTCTGACCCCCTTTCTGAGTGACCTTGAACCATTTTCTCCCCTTTTGTGTGTCTTAGTCTCCCCATCTGTACAATGATAGGACTGAACCAAATGTT
TTCTTGGGGTTTCCTCATGTTGACTGATATCCTCCTATACTTATTCCAGAGTCATTGCCCCCAACATTCACTCTGTGTGACTCCCAGGAATTTTCAAAGT
TGGGGCTTCAGCCTCCAGAGAGGGTTTCTCCCCATTTTAGTCCCTCATTCTTTGACAACAATGTGTTGAACAACTATGGTAATGGGCATCAAATGGGAAT
GGGGATGGAGAAGTGAATGGGTCAGGTGAGGTCCCTGACCATATGGGGCTCACATCGACTAGAAGAGGCAGAAAAGAGGGAAGGGCTGCGTTTTTGCTCA
TCCACGTGGCCAGCTGGTTATTACCTGGATTTATTAACCAGTGTCCATCTTTCAAGACKCAGTTGAGCTGTTACATCATCCAGGAAAGCTTTCTTAAGCA
ATTCCCCTAYGCCTTTCTACTGTGTGCCCCATGACTCAGGATTTTGTTCTAACTGGTCTAAAGCAGGCACTATTGACATCTGAATAATTATCTCTCATGG
GGTCTGTACTGTGCACTGTAGGATGCCTAGCAACATCCCTGGCCTCTACCCACAAGATGCCAGTAGCAATGCCCCCAAAACACACACATAATTATGCCAC
TGAAAATGTTTCTAAACGTCCCCTGGGGTGCAAAATCAGGGCCAGTTGCAAACAGCTGATCTGAGACAATCATGGTGGCCCCATTCCTTTTGCTCGTGAT
GGTCTGAGTATGAATGTGGGCATGTCTTCACCTGATGGCCAGAGCAGAGGCAGCTATCTTGTGTCCATGAAGTAAGCCAGCCTGGGAATGAAGCCAGTCC
TCTGAGGGTGGTAGAGTAGATGGTAGAGAGTCTGGATATTTAACTATGTTGTCAAGTCCCTCAGTGATGGGGTAACCCTATTTCAGGACTTTTGGTTATG
TGGGATCATAACCCTAACTGCTGGAGCCTCTTTTGGTTAGCATTTTCTACTTCTTAAACCAAGAGCATTCCTAACTGATAAATCATAAATCATACTTCAG
ATCTCATCTTAAATGTCAACTTTCTCAGAAAAGCCTCCYCCATCTCCCAATGGAAATTAGGCATCTTTATCATTCTGGACTTTGTTTTGGTAGCATTCAT
CCCAATTTATGCTTACATTTTGTGTGTCTATTGAGGCCTATCTTCCTTCAGTGGACTGTGAGCTCCATGAGGAGAAGAACCTCATTTTGTCTTTTCTTCC
ACTGTATCCATTGGCCAACATGGTGCCTGGCATATAGTCGGCTTTTGGTAAATATTTATTGAATTAATGAATGAATAAAGGAAATGGGAAAATAAATGAA
TGGGTAGATAGATGAGTAGATGAATATATGATTTAATGGATGCATGAGTGGATGGATGAATGAGTGGATGAATGGATGGATTAGTAGGTGGATGGATGGG
CAATTGGATGTGTAGATGAGTGGDTGGATGGATGGATAAATGGATGGGTGGATGAGTGGATGGATGGATGATGGATGGATGGATGGATGGATGGATGGAT
GGATGAGTAAATGGATTGATGGGTGAATGAATGGATGGATGGATGGAGATATAAAAGGGTGTGTGTTTGCATCTCTGCCTGTACGCTTTGATGGAAAATT
CTCTGCAAGTCTACAAACTCCAAAGTTGAACCTAAAGCATCAGAAGTAAAGGAAGGGCCCCACAAAAGCACCTTATTTAGTGCTGAAGAAGAAAGCCTGT
GAAATCACATCATCTGCCTTGAACCCAATGGCAGGCAACATCAGGGTTTTTTGAGAAGTGGCACAGCGTGCCAAGCACTGGAAGGACAGAGTGGAGAAAA
ACAGCATAGATGTGGACTAGGATCCCTGGGCAGGTGAGGCACTGAGAAAAGATGTTTGGCTTTGTTCACATGAAATCTGATGAAATGTGAAGCACCATTA
TATCAGAGGCAGGTGGTGATGCTCTGGCTGAAGCCCCCACCAGGACAATGAAGGAGTAAGCTGGGATTTAATGGAACAGATGGGGAAACTAAGGCCCACA
GTGTCAAGGAACTTGCTTGGGTTCCCTCGGAAAGTGGCCTCAGGCCTTACTCTGGGTGTGTCCCACGCACTATGATGTAGCTGAGAGAGCCAAAAGCTGT
RTGACCCCAGACAAGTCATTTTATCTCTGTGAGCTTCCATTTCTTCACCTGGATAACAAGGGTGATGGTACTACCTCACATTCAGCAAGGTTGTTGCATG
GCTTCAGTGAGATATCACAAGCAGAGCACCAGGGCACTGAGTGGTGCCCAGTTATCATGAGTTCATTTTCTTGTCTGTGGTTGGGATATCTGGGAGAGTT
ACCTGGAGGAGGTATCCTACAGATTCTCAACTCCATAGGAACAAGCCCTCAGGTGAATCCTTGGAGCTGGGGGTTGAAATACTTTCTTGAAATTCTTCCT
GGGACATCCAAGAAGACAGCATGGAGCTGTCCATGCTGGGGACCCTTCCTCATTTGTATGTTCCCCCTTCTAAAACTCCCTTGCCATGGAAATGCTCCTC
TTGGTATTTTTTTTAAGGGTTTGATTGGGGTATAATTCAAATGCCATAAAATTCACCCATTTAAAATRTATAATTCAATAGTTTTTAGCATATTCAAAAA
GTTGTGAAGCCATCATCACATCTAATTTTAGAACATTCTAATCACCCCAAAAAGAAACCCTGTACCCATTAACAGTCACCCCCCATTCCTTCCTCCCCTC
ATCTCCTGGCAACCAGTAATCTATACTTTCTGTCTCGTTAGGTSTACCTATTCTGGACATTTCTCATAAATGGAATCATACAATATGGGGCCTTTTGTGA
CTAACTTCTTTCACTTAGCAAAATGTTTTCAAGGCTCGCCCACAGTGCAGCTTGTATCCGTTTTTGTTCCTTTTTATGGATGAATACTACTTTATTGTAT
GGATAGGCCACAYTTTATTTATCTTTCATCAGTTGATGAACATTTGGGGTGTCTCTACTTTTTGGTTATTATGAATAAAGCTGCTATGAATGTATAATTT
TTTGCACAGACATAGGTTTTCAATTCTCTTGGATGTATACCTAGAAGTGGACTTGCTAGGTCATATGGTAACTCTTTTGAACATTTTTGAGGACCTGCTT
TCTTGTTCCCCTCACTCCAAATGTTGTAGTATAATTAAAGTCAGAGTTGTCCTTGTAGACCAAGGCTTTTACCTCCCAGCTGGACATTTCCAAGGTCTCT
TCCTCTACCAAAATTTAAGTGATGCCCCAGCCTGCATCAAGATGACATGGATTCAAATTCAGTCTCTACCTAGGCTGTGTGATCTCGGATAGGCAACTAA
GCCTCTCTTAACTTCCATTTCCTCACCTGCAAAATAAGGACAAAAGCAATTCTTGGCTACAAAGACAATCATGACGTTGAAATGAGGGAATGTGTGAGAG
AATTCTTTGTGAAAGCTGAAAACAGCAGTAGAGATGTTGTTCATTCATCCAATGTATATCAAGGGCCTATTATTTGCCATGTACTATGTTTTGTGATGGG
ACACGATGTTGACCAAGACAGATAAGGTACRTGCCCTCTGAGATTTTATGTTCTGGTCTTTTTGGTCATAGATTGCCACCAAATGTTCTATAAACCTGAA
CAAACTATGCTTCCTCTTCAGGCCTCAGTTTTACCATCTGTAAAATGGGTGGGCTGGATCCACCCATTTGCCATAGAATTTCTACTTCTGCTTTCAGCCC
AACAGTAAAATGAGCACAAGTGTCTCATACAATGCAGACTTCTAAATTCTGTCCCTCAGGGGATAGCAAGGGTGGGCTCTTCCTAGCTGCTCAGGATAGT
CGAAGGGGACAGATCAAAAAAGGCAGTCCGTCTGGGATAGCCATGTGGACGGGAATGAGCTACCTTCCCCCTCACCTCCACGTCTTCTGGAACTTAATGA
TAACATCATCCCCACGCAGCTCCTGGCCTAATTGGCATGATTCCATTACATCTGCTGGTTCTTTCCCATAACGGAACCCAGCCTGGTGGTCCAGACCCGA
CTGCTGGGCCACAGCTGAGAAAAGGGCCCCCCGGGAGTGTGTGTTCCTCACGAAGAACAAAGATGTAGGCAGCAGCCTAAAATAGACACGGAAAAACACT
GCTTTTTGTTTTCTCCCTGGAAGGGTGGCTGAGTGATTCGCGGCAGGGAACCCAGAAGGTCTGCATTGAAAACACTGTTATTATAAGACAGTCAGGAGGG
ACTGGAAGCTGCGGGTGCTGAGGGAAGACACCCTCTCTCACCACTGCATGCACTCTGGGCTGGAGTTGGATCCCAGGAGAACCCTGAACCAGACYTAATA
TCCAGAATAATCCTCACTCCCACTGCCCCACACCATTGCCAACTCTGGCAGGTCCTTTCCCATGGCTCCCTGTTACCCTTAGGATAAAGTCAAAGTGACT
TAGCAAGGCATTCAAAGCTCCCCAGGTTCTGGCTTTAAGTGAGTTTACTGGCCTCTTCCCACTGCAGGTTATTCATTGGAAATCCCAGAACTTGTTCTGC
ATTTTCCTGCTTCTGGGCCTTTGCTTACCCAACACCTTCACCTACCATGCCTGGATGAATCCAGAATCTTGATTCTAACTGATCGTAGCAAAAAAAGAGG
AAGGCAGAAGGGACTGATTGGCTTATGTAACTGAAAAGCCCAGGGGTACACGCCTTCAGGCTCAGCTGAATCAAGKTGCTCAAATTATGTTCTAAGGTTT
CTGTTTTCCTCCATCACCTGGACCTTTTTTCCTTTGTGTTGGCATCCTCKCAGGCAGCTCCCCAAGTCATAGCAAAAATGGCTCTCAGCAGCCCCAGGCT
TGTATCTAACCAGCCCAGCAGCTCCAGTGGGTACCAGTAGTTCCTAAGAGCTCTGTGGTTGACATGCATTGGCCTGGATTGCATCATATGGCCATCTCTG
AGCCAACCACTGTGGTCATGAACCACATGCCCATACCTGGAGCCATTTCCTGGGGATCAGAAGAGGGATGGTGCCAGGGAAAAATCAGGGAGCTGTTACA
GATAAAGAGCAAGTAGATACTGGGCAGTTAAAAGCAAGTGTTCACAACAATGCCCATAGCTCTGGCCCACACTCAGCCAATTCCAACTTTAAGCAAATTT
CACCGGGAAACAAATACCTGGGGGAAGAATGGTTAGAAACTCTTCTGGGCAAGACTCATCCTCTGGTCTTGGTTTACTCACCCGAGAACAAAAAAGGTTA
GACTTGAAGCTTTGTCCGAGGTCTTTCCTGCTTTGACATCAAGTGAATTGCAGCAAAACAGCCCTTCCTTGTCTCCCAAATTTCTGATCGAAGAGACCTA
GTGAGTCAGATCAAGGAATGGACTGTCATTAAAGGCCAGAAAAAGCTCTTTTTTAAGTTTCCACTTATTGTGTTCTATTTCCTAGGCTCTGTGTTAAGCA
TTTTTCCAGGTACATTGTTTTGTTCAGTTCGCACATTAACTCTCTGAGATTCCATACTACATGTGAGGAAACTGAAGCTGTGAACACTGAAGTGAGTGAG
GATTGCAGCCCCATCGGCCTGACTCTTAACCACTATGCCACACTCTTTCCATCCCAAACCAAAGACCCTTAGAGACCTCGGATTAGAGACTTGGGCTGCA
AGCCCAAAGACTCCCATAGGTAGAACATGGCCACATAAATGAATGAAGAGGTCCACATAGGGCCTTTGGCACTGGAATGCTCATGCCTCAGCCAGTTGCT
TTTACAGATGCAGAATGCACAGCTTAATATTTTTCTTTGTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTCTC
CCAGGATGGAGTGCAGTAGCATGATCATGGCTCACTGCAGCTTCAACCTCCCAGCCTCAAGTGATCCTCCCACCTCAGCCTTCCAAGTAGCTGGGACTAC
AGGTACATGCCCCCACACACAGCTAATTTTTGTATTTTTTGTAGAGACGAGGTTTTGTCCTGTTGGCCAGGCTGGTCTCAAACTCCTTGGGCTCAAGTGA
TCCACCCTCYTCAGCCTCTCAGAGTGCTAGGATTACAGGCATGAGCCACCACACCCAACCTTAGTTTTTCGAGATAAATTGAAAATTTGCATTCTAAAAC
AAAATCTCTCAACTTTATAACTGTTAGCAACTTGCTCAGTTCTTGAAACACTATGTAAACCAAACAAAACAGGTCTGTGAGTTAGATTCAACTTACAGGC
CACCAATTTTCAGCTTGTCTCTCTTTGCTTCGTACGGATGGGGGAAACTAAGTCACAGATATATGTCATATTATACATATATATWTATATATATATATAT
ATATTTGGCCTTATCACTGAGGCTGAATTAGGTGCTTTCTCCTAGGGTGGTCTTGGTAGTGTGTCTCTGAGAAGGTGACATATGAGCAGAAACCTAAAGG
GAGAGCTTCCCTTCTGGGGGAAGAGCTTTCCAGGCAGATGGAGGAGCAAGTGCAAAGGCTCTGAGGCAGAAAAGCAACTGTATGTTTGAGGAACAGCAGT
AAGACTAGTGAGCTAGAGTAGAATAAGAGAGGGGGAGTGAAAGGGGATGAGGACGGGATAACCAAATCCACTTCTACATAGGGCCTGTAGGACCCAGGTT
CTAATTAAAATGAACAACTGAGAGGACAAGGTGATGAATGGATTTATGAATGAATGAATGGATTCCAAGCTGCTTTCATGGGATATTCGTATTTGGTGTT
AGTGTGTGGGTGTGGCTGATTCGCCCTAGGTTCTGAAGTCTTCAGAATTATCCTGGAAGATGATCTTGGTTACCTTCCCAAGTTGCTGTCAGTCTTCAGA
GGTTGTGACACTTGGATAGAAGCCTCAAATTGGGCAGGGCCTCTGGGAGAGCAACTATGAGACAGACAAACCAAGAAGAACCAAGGCAGGAAGAGATGGT
GCTCACCAAAATACCCATCACGCCAAGTGTGCTCATTCCCACCAGCCAGGGACCCCAGGCTTCCATAGAGTACTGTGACCTGGACAGTGAGCCCATGAAT
CTCCCTTGTCACCAAGTCCTCACATCCCTCCCATCAATCCCTGGCAAACCCATTGGGGATGCCGTGCAGGGGGCCTGCTCCTGTCCTCGGCCGCACTCAG
CCTGTGAGACTATTTTGTGCCTTGGTTCAGGCACTGGCATCCCAGCTGCTGGCAAGCGACTCAGATGGCGTTGTCATGGCGACCCTCAGGCACGGATTTC
CAGAGATGCTCCCTGCATCCTCCYGAGCCTGCCACTGCTGATTGCTGGGGGAGAGCATGACTCACCGTTAAATATATCACRGTCGTCCCAAATTGGCTGC
TCAGCCCCAGCAGCCGGATGTAGGGACAGGCAGCATCTGGGGGTGTGTGGGTTTGGGAAGCTGAGAGGCATGACCTTCTGTGTACCTTTGGGGCCTTCAG
CTCCTGTCATTTCCAGCGGTTCTCTTCTCCAATCCCCTACTCATCTCTCCTTCCTTTCCCAATCGGTCTGGGTAACAGTCCTAGCTTTGTTACTTGTTAG
CTGTGTGATCTTGAACAAGAAGCTTCAATTCTCTGGGCCTCAAAGTCCTCATCTGTAAAACAGGGGTGATGTGAGTATGACGGAAGAACTACGAAGGGTC
CGAGATTTTGCACTGCTCACAAGCTAATGAGTTAGCCTGCCACAATGCCATACATGACGGCAGAAGACACGAGATCCCAGGTCAGAGACAAAGGACTTTA
TTAGTCACAGTATAGCARGCAGCACAAGCTTCATATTTGCGTCAGTTCTAATTGTCTCCCAAGTTCCATGAGAGCAATGAAAACAACCCAAATGGATTCT
GCACACACAGCAGCAGATCTGTGTCTCAATGGAGGATCCCAGAGCTTAGGAAACCTGCAATCTTATAAAGGGGCTATTGCCAAACCTGTCTAGCCTTTGC
CTCAGATAGAGACATTATTGTACTGGTTGGGAAACAACTCTATCCTCTTCTTTCTGCTCCAGAGAGAGATATTGTCTCTGTCCTCCAAGTGTGTTTGCTA
CACAGATGTCCTTGAGATGATAGTCTAGAACAAAGGTCTCAGTGTCTTTTGAGCTGAAGACATGCAGACCTTGGAGAGACCCATGGAGAATTATCTCCCA
ATACCACTTCAAAGGGCTTCTTGGAGGAGCAGATGGGTTCATACCTGTAACATGCTCTGTATAGTTGCCTGGCATGTGCCTGGCACTTAATCAGTGTTAG
CACTTGTCATTATTACTCTCAGCTTTTATCACTTGTCAGCTAGTAGGAACTCAGAGGCCTCCTGTTCTGGGATTTCCCCAGTTAGGTGACTAAGAAAATC
ACAGCTTCTATCCTTTCCAGCCAGTACATATCCATTTATCTCCTATGCCCCATGAAGCTCTAACAACTCCACCCTCCACCCCTTGTCCCCTCCCTCTGAC
TCCCCTCTGTTCTTTTTTTTTTTTTAAATAGCTTTATACCATAAAAAATTTTAAACAGCCTTATGGAACTTTATACCATAAAATTCATTCATTTTAAGTG
TGCAATTCAATAATTTTTAGTAAATTTACAGCATTGTGCAGCCATCACTACAATCCAATTTCAGAACATTTCCAAAAGAAACCCCATGCCAATTTGCATT
CACTCCCCACACCCCTTTCACCCAGGCCCAGGCAACCACCAAGCTGCTTTCTTTCTCTATGGATTTGTCTCTTTGGGACATTTCACGTAAATGGCATCAT
ACAGTGTGTGGCCTTTTGCATCTGGCTGCCTTCACTCAGTATCATGGTTTTGAGGTCCGTCCATGGTGTGGCATGCATCAGTAGCTCACTCCATTTTATT
GCTGAGTAGTATTCCTTTGTACAGGCATACCATAGTTTTTGTCCAGTCACCTTCACTGGATTCCTGAAAGGATATTCCAAGATCATGAGAATAAAAGCTC
TTGTGCACCATCAAGTGTAGAGCAGACATTGACTGCTATTGCCCACATCACCCCTTGGAGCTTGTCCTGCCATCCTGGCCCCTTGGGGTGTTCTAGCTAA
CATAAAATAAGACAGATRGATACTTTGGCAGGCAGAGTTTTAGAGACTTTTAAAATCACATGACAAACCCACTTCGATGAAAAGCAAGCAAAGAACCAGT
CCAAACCCTACTCCAACAAAAAGAGGCATTCACAGTTTTTTTTTAAGAGAGGGGATCTCAGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGTACTTT
GGGAGGCCAAGGTGGGCGGATCATTTGAAGTCAAGAGTTTGAGACTAGCCTGACGAACACGGTAAAACCCCATCTCTACTGAAAATACAAAAATTAGCCA
GGCATGGTGTCATGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAAGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCA
CCACTGCACTCCAGCCCGAGCAACATGGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAGAGATGGGGTCTCATTCTCTTACCCAGGCTGGAGTGCAGTG
GTGCAACCAGAGCTCACAGCACACTTGATCTCCTGAGCTCAAGCACCCCTCCCACCTCAGCCTCCCGAATAGCTGGGACTACAGGCATGCGCCACTGCAC
CCAGCTTCACAAAGATTTTGTAGGCTGAACTTCCCCTGTCTCTTCCCAGCTCCATCTCCATGGCAGCCCCACACAATAAATAAAACAGGAAAGGAATAGA
AGGAGAGGTTTCTGATGCTTGCCTATAGAGCGGCCTTATTTCCTTTGATAGTCCAAGTAGGACGATAGCCACCAGRTAATTCCACATTCTGTGAAAAATA
TATAAGATCCTGAATTAAGGGAAAACATTTGTTCTCCACTTTTGCCACCTCCACCCTGGCCATAGWGGATCCCGAGGTGTGTTTGATTAGCAGAGGATTC
TATCTCAAATAGGGAAGACTCCTAGACTGTTCTCAGCTATTCTCATTGACAAGGCTAGGGAGTGCCAGAGGGAAGTCAGCAGATGATGTTTCCTGACCTG
ATTTATTGGTCTTCCTTAAAATAACCCCAGGCCTCTCTGTTATTATTAAAATCCTACATCTGGATTGGGTTCCTGCAGGGCCCAGGAAATTCCTTCCCAG
TTGGGAAGATGTTCTATTTCTCTACAGCCACATAACACACCACCCTCCAAAACTTAGTGGCTTAAAACAAAACATTTATTTGCTCGTGAATCTGCAGTGT
GGGCCAGGATGGACAGGCCTGGTTCATTTCTGCTCTGCACACAGCCTCCACCGGGGCGGCTCAACTGGGGCTCACTTGCTCGCAGGGCTGGAAAGATGTT
GCTGTCTGACAGTTCCCCTCCATGAGGTGGCTTGAGTTTCCTCACAGGAGGCATCTGGTTCCAAGAGTGATCATACCAAYGAGCAGGAAGTGAAAGATAC
CAGTTTCTCAAGGTCTGGGTCCTGAAACTGGCACTGGGTCATTTCTGCCATATTCTACTGAACAAGCAGTTGCAGAGCCCAAACTCAAAGGGAAGAGACA
AAAGCCTTGTCTCTTGATGGAGGAATGGCAGAGAATGTGGGGATTATGTTTTGAGACTCACATGGTTGGCAAGTCCATGGCATGTCAGTAGGCCAGAAGG
TTTTGGAAGAAAATGCTCTGCAGGACTGTTACACCATAAGTGCTCATCCCAGAACAAGATATTTCTTAGAACTTCACATTGGCCAAAGTTGGTTTCGGCC
AAATGTCACGTGGCCTAGCAGGCCAAATGTGAAGTGGTTCCCCAGCTTGTCTGTTCTCTGTCCTCAGGCCAGTGTCCCTACCCCCCACCTCCTTGAAGGG
CTGTGCAGGAAATCCAGACCTTCTTGCCCAGCCTTGGCCACGTGTTTTCTCCGAACTGGGGAGACCCACAGGTGAGTCAGCAGGACATCATGCACATGGT
GGCCTGGGTCCCGAGAACATCTGCTTTAATGGAGTCCAGAGAATGTTTCCAAACACGTCTTCCCTCTCCTCTCACCAAAGCTTTTAGGAGAAAATGTCCA
GAGCTCTCTGGATGTCTTCCAGGAACACATTGACAATGAGTTGTAACCTCACCCTGAACTCATGGTGCTGCATGACTGGCCACCTTTGTTGTTTGGAAGA
CCTAGAATCCTTGTTTTTCTCAGGCCCTGATCAGCAGGGCTGTGCTTATCTGCATGGTTGTCTTAACAACAAATCACCAGTGCCAGTGTCCTCTGAGGAT
CTTTTCTTGGCTTCATGGTGAGAAGACCAGAGTTTGAGGGCTGACTTTTCCTCTTAGTGGTGAGAGACATTGGGCAAGGTATTTTACTTCTCTTAGCCTT
GGTTTCCTTTTCTGGCAGGAAAGTTTGGAGCTCACAGTTTCCTTCAAGCTCCACATAGTTCTCATGGTGTTTGTTTGACTACCTTGAGGAAACAGAGTGT
ACCTTGCCTTCAACCACAAAAATACACTGACTAATGAGTATTGTTGCTACAGCCACCTGGACATGTGGCCATAAACTGCCCAACCCATGGTGTAATGCTG
GGTTTGCCTTTCATGGAGAGAGAGATTCATGAGACATTTCAGAGGACTCTCTGTTGTCCCGGAGTCCTGAGGAGTCTGCCTGGAGACCTGGAACTCATTT
GTTTGTTCTTTAATTTGTGTCTACTGTATGCCAGCCCCTTGCTAGGCATGAAGGACACAACAATACAATCAAGAAAAAGAACAAAGACCTGTGGCTCTTA
AAGCTTGCATTCTAGAAGCAAAAGGAGAACACTAAAGAAATAAGAGACAAATATATAATATCACTGCATATATGCAAAATGTCAGGAGTAAGGGGACTGG
TATTCATGGGGTGTGGGTGCCATTTGAAATAGAGTGGTCAGGGAGAGCCRTTCTGGGGATGTGAGATTTAAGCAGAGACCTGAAAGACACAAAGAAAGGA
AACAGGCCTATATATGGGGCTGGAGTGTTCTAGGCAGAGGGCACAGCAAGTGCAAAGGCCCTGAGGCCAGACCATGCCTGTTGTGCTCCAGGAACAGAGG
GGAGGCCAGCATGGCTGGAGGGGAGTGAGCAAGGGGAGGAGTAAAGGGGATCAGGCCAGAGAGATACGGAGGGGCCAGGCCCTGCASAGCCTTGTGGGCT
GTTCTAAGGACTTTGGCTGTTGTCCTCAGTATGCTGGGAGATAGGGAGGTGTTTTGAGCAAAGAAAAGTGCCCTGGTCTGGCTTAGGTTCTAACAGGATC
CGTATGGATGAATCTGGAGAATGGACTGTGTTTTATTGTACGGGCCAGGATGGAAGCAGAAAGACAGTGAGGAGGCAACTACAATCATTCAGGTAGAAGA
GGATGTGGCCTGGCCCAGGGCAGATCTCTGGGGGTGGTGAGAGGTGGGCATGTTCCAGGTGCCTCCTGCAGGCAGATCTGGAAGGTCTTGCTGATGTGGT
AGATATTCTGAGACTCCCTGTAGCTGGTGGCTCAGCGAGCCTCCCCCATCACCAGCCTCAGCAGGACAGTCTAGACTAGAGTCATCCGCCTCTGCCCTGC
ACTCTGCCTGCCTGGTGATGAGGGGCCTCTCCCATCCATGCCGTGGGCACTGAGGCACCGAGCTAGGCCCACCCCTGGCTTCCCCAGGTGGTGAATCAGA
GGGAGCTCTGGATTGGAGACTTTTACTCTATGCATGACACTCCTTAGCTCTGTGACCTTAGACAAGTTCCTTCCCCACTCGGAACCTCAGCTTTCTTGTC
TGTAAAGTGGGAATAATGAAACCAACACTGCTACCTCCTAGGGTGGCTGGGAGAATCAAGTGAGATACAGGCTGGACACAGGGTTTGAAGCCAGCGCAGG
GGGATGGTCATGAATGAGTTAAGCGTGTGTACATTATTAATAGTATCATTTCATCCTTTCTACCATCTCATGGGCTGTTGGGAAACTTTAACGTYGATTC
AGATCAGGCCATGGCTACACTAAGTCAACATCTCTCACTTTGATTTAGTGGCTAAAAAGCCTGGGCTCTGGAATTGTTCAGAACTGGGTAGCACTCCTAG
CTCGGCGCTGTGAGATGCTGTTTCCAGAGGAGASAGCTTAAAAACCACAGACATTCCCCTCCAGTCCGCAGCAAGACCAGCTTCACAGGGTGGGAATTTT
CTCTTGCCCATGTTCAGCAGATCTACATCCCCAGGGGTAGGCCTGGCCCTGCCTCTGTGCCTTGGTCAGCCTGTCCCCATCCCCTGGGAGCACCTAAATT
GGGACTGTGGGCTGCTGTTCCTCCTGAGAACTCGGGTTTACTGTCCCTGTTCTCGGGCCTCCCTTGTCTCTYTCACTCCCTAAGGAGAATTGGGACAGGG
TCCCTCCAGCGGAGAGAAGCCTGGAAGACTTCTATTTTTTTGAGACTCCTGGAATATTAATTTATAAAGAAAACAACAACAAAATGAAGACATCCCTAAA
GTTGCAGTACATTTAAGATGTAACATTGAGCAAATCGTGACAACCTGCATAAAATCACAACATAATATAAATGTGTAACTCACATAACTCACAAGATAAC
CCCAGGATTTATTCGATTTGTTTATATATTCGTATTTTAAACCCATGGCATTCTCTAGGAGTGGTTCAGTAAGGGATGCAGGGGTAGTGTTGTTTGAGGA
ATGCAGTCTTTTTTCGTTGTTATCATTCTGTCCCTGTTTGTGTACMTAACCCATTTARAGATAAGGTCAAAATTCTAAAAATACTGGAATGTCAGTTTTC
TGAATAGCTACTATATTTCCCTAGTATGAAAGTCAAAGTGTTCAAAAGGGCACACAGTGAAAAGTTCTCTCCCACCCTGTCCCCCAGCCACCCCGTCCTC
CTCCCCAGGGGCAGCCACTGTTACCAATTTCCTGTGATCGCTTCCACAAATAACATATCCATATATAAGTGAATGCATATATGTACATATTCTTTTTTCC
TTGTTTTATTGAAATGGGAGTTTGTTATACATTCTGTTCTCGCGGTGCTTTGCTTGCTAACAGCATACCTCGGGGACTGTTCCCTATTTATGCATATTGA
GCCATCTCTGTTCTTTTTACAGCTGCATAGTGTTCATATTTACAGCTGCATATAAATGACCCTCTGTTGAGTTAATTTTTCCCTGTTGATGGACATTGAG
GTTGTTTCCAAACTTTTTGATCGAATAAACAATGCTGCAGTGAATAATCTTATACCTATATCATGAAAACTCTTGTTTAAGATCCTTAGAAGCCAGGCGC
CTGGGTCCTGCCCATAGTYACATCTACTCAGGAGGCTGAGGCGGGAGGTTCCCTTGAGCCCAGCAGTTCGAGGCTGCAGTGAGCTATGATTGTGCTACTG
CACTCCAGCCTGGGTGATGGAGTGAGATCCTGCCTYTAAAATAACAATAATAAAATAAAATAAAGATCCTTAGGGATTGTGAGGTCTGCAAGGAATGGCA
CTCCCTTTTGCCCACACCAACCCCTTCCTGGGAGCTGAGGCTTGAATGAGGAGGGCAGTCCCAGAGTGGGGGAAGAGCATTCCAGGCAGAGGGAGCTATA
GTGCAAAGGCCTGGGGTAGAAATGAGCTCAATCTATGGGAGAACAGCAAGAAGGCCAYTGTGGCTGCATGGGACCATGTGAGAGAAGGGTAGTAGGAGAT
GAGGTTGAGAGGACTTTGGGGGACAGGTGAGATTTGGTGAGATGGGAGGGAATGAATGARTGAAGCCTCCAATACGATAAGCGAAAAAACATGATATTCC
AAGAGATAGGCGTGGTCCTCCCCCAAATTTTGGTTGCTGGGAAGACTGGCAGTCCCTCCCCAGCTGGATCCMCTAGGCCTTTTGCCAGCATCACCTACAG
AGAGGAAAGAGCCGTGGGCTCTGTCACAAGGCTGGGGCTCACAGCATCACAGCCCCCACCCCCTGCACCACCCCAATAGCTTCCTTCAGTGGACTTAGCT
ATGGCCTCTCCCAATACCCACGCTGGCCTGGGCCAATCACATTTCAGGTGGATGGGAACTCGCGGGACCACCACTTCAGCCACCTTGGGCTCTTTGCCGT
ATTTATATTCTCAAGGCGTCTGCTGCTTCCCTTATTCTTCCCCCTGTCCTTACATGGCCAGACCCACTGTTCAGCTCACAGGTCACCTTCTCAGGCCACT
GAATATCAAGTTGCATCCCCACCTTCTTTCTCCCACCACCTACCCAGCCTGTCCCATCCCCTCAATGTTTGGAGCCACCGTGAAGGGCGATGGTTAACAG
CTTGAGTTCCAAAGCCAGGCTGCTCAAGTGGAACCCAGGAGAAGCTGTGAGCAACCTACTTTCCAGCTCATCCCCTCATGAGGTGGARGTGATAGAGCTT
CCACCTCTCAGACCGGAGCRAGATTCAACAGGTAAATACACACAAGCCATTCTGAACGGTGCCRGGCAGATGGTCCTCAAAAAGCTTAGTCCTTTGCCTT
TCCACCTGGTGCTGATCCCTGTCTTAAATGATCTGTCTTGTTTTTTAGTAGAGACAGCGTCTCACTGTGTTGCCCAGGCTGGAGTGCAGTGACACAATCA
TAGCTCACTGCAACCTCAAACTTCTGGGCCCAAGTGATCCTCCTGTCTCAGCCTGCCAAGTAGCTAGGACTACCGGTGTGTGCCACCACACCTAAGTGTG
TTTTGTTTTGTTTTGTTTTGTTTTTAGAAATGGGGGTCTCACTATGTTCCCCAGGCTGGTCTTGAACTTATGGCCTCAAACAATCCTCCTGCCTTGGCCT
CCCAATGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCGGCTGATCTATCCTTTTATGCGTTTATGTATGTGTTGTCTGTCTCCCCTCTGAACCATGAG
CACAGGAAGCATGTATTATCATTTGGGTTCAGCTCTATGCCCCAAGTGACATTTAAACAGGCCTTCAAGGAAGAGCTGGAGTTAGCCCAGGCAAGAGGAG
TAGGGAGAGAACACAGCCCATGTGAGACCTCTGGGATCGGAATGGTGTGGGAAGCAGGGAGCTGCATGGCAATAGGGGTGCCGTTAGTAGGACTCAGATC
CCGTAGGGCCTTCAAACCTCAGTGAGAAGTGTGGATTTATTCTGAAGGCACTGGGGAGCCATAGAAGACTCTAAAGCAGAGGAGCGACAAGATTAGATCT
TATAGAAAGATCCTTGGGATTCTCTGGAAGGAGGAGTCAGAGGAGACAAGAGTGAGAGCAAAACCACATCGAAACATTATTGCCTTTCTAGAGTCAGACA
GACTTTCTCCCTCTGCTCGTGCTCTCCCTCCGCCCCTCTCCATGAACAAAACCGTAACTCATTTTCTCCCTCTGGCTGGCCCTGGCATCCTTCCTCTAAT
ACCACTCATTATTTTAATTAAACTCTGGGATCTGTTTTACTAACCTGACATCTTGCTTAGGAAAACCAAAAGAGGAGTTGCCCGGAGCCAAGGAAGGGAA
GTTGCCAGAGGATCGAGGAAAGGTTTCCATCTGCCCTGTGGCAGGAGGGGGCCCCTCTTACCCAGGTCCAGCACTTAAAGGGGCAGCCATGCACCATGCT
TAAGGATATGAGCACTGCGGTGGCCTCTGAGCTCCATCACTTACTGGGGAGAGTGACGCAACCTCTGAAGCTGCTTCCTCATCTATAAAATGGGGATATT
AATAGTTCTTCTCTTATAGGGTTTTGTGAGGTTTAAATGAGTTAACACAGTGCTTTTCAAACTGATGGTCATAAAATCAATCTAAGGGATCACAACCACC
ACTGAAAACCCAAGAACAGAAAGTATCAGAGTACATTATCATCATGGGGATACGTCTTGTGGGTGGAGCGTTTATTTCAGGGTATGTGTACTCGCCGGGT
TTTTTTTTAGAACTATATTTATTACTCTGGTCCCCAGTCCAGAAGGCTTGAAAGCTACARTTAAAGTACTTAGGCAAGTGCATGCAGCAGGTGCTCAAAC
TGTGGTTGCTGATATTTCTTGTGGTAGCAAGAAGATTTTCYTTTTTATTTCCCTGCAATGTCATTGGGTTTTGCTCCATCTTACTCATGGGGAGACTGAG
GCTCACAGAGAGAAGAAGCCATTCCAAAGCTACATGACCACACTGAGCTGTGAACTGTGGCCTGACCCTGCCTGAATATGGCCTGAACTCCCATCCAGAA
TCTTCGTGAGGTCGAGGGAGGGTCATGTGGCTGCCAATGGCATAATGAGAGCTCCCGGCAGCCAGGGTCTRGCAGGATGCAGGAAAGAGGCTGGTAGGGG
CATCTGGGGCTGGGCCACCCTTGGCTGTGGCCCTGGAGGCAGCACAAACCCCTACCCTGGAGATCTCTCCTCTCCACACCCMCACCTGCCCACAGCCCAT
ACCCCACAGTTACCAAGGGAAACAGGCGCCAGAGGGGAAAGGCTGCATTTCCCTCCTTCCTTGTGGGCTTTCCAGAAACCAACCCATCTAGAAGAGCTCT
CCACGTGGAGCAGGGGAAGATGAGCGGCTGAAGTAGGGCAGATCTGCAAACTTCGGGGGCTTTCAGGAAGATTCCATGAGGCAAGGACTGGGAACCAGTG
CCTGCCTGAGAGGCTGAGGGGCAGAAGATCTGGGTCCCAGCCTTGGTTCTGCTCTGGCAGGGCTATGTGCCTGGGGCCCCGTTCCTTCCCTTTCCTTCTG
GACCTCAGCTTCCACATCTGTACAGTGGGTGTGGTAGCTCCCATGATCTTCAGGGGCCACACCACTCAGATGTCTCRAAAATGCTCCCGTTGAGTGTGTT
TCTAGTTATGAGAGGTCGCTTCAACATCCCCACTAGGGAAGGTATTGTGTATTCATTCATCCAGCAAACATTTACTGAGTACCTACTGTGTAACAGGCAG
CTAGTGTTGCACAGGGATCAAGACAGACATAGTTCCTGTCCTCTCAGGGAAACTTCATTCTAGTGAATGAGACAATTACCAAGTCAAGAAGGAAATGATG
AGTGCTTCCAAAACCCTGAAAGAGGGTCATGAGATAATAGATGAGGATAAAGTGGCTAGGGTGGCCAGGGAGGTCCCTCTGGGGATAACGGATGAGCTGA
ACGCTGAAAGATAAGAAAGACCTGCAGAGATCTAGGAGAGGAGCATTCCTGGCAGGAACTGTAAGTGCAAAGGCCCTGAGGCTGGACCCAGTCTGGGAYA
TTGGAGGAGCAGCAGGGCCAGTGGCTGCAGCAGGTTTAGCTCAGCTGGTGGATGTGAGTGGAGAGAGGTAGCCGGGGCCAGATCAGACAGGGTCTTGAAG
GCTGTGTGAGGCGCTGGCTTTCATTCCAGGTGCACTGGGACTCCACTGGGGGCTTTTGAGGAGGGCAGTGGCAGGATCAATGCATGCTTTAAAAAGAGTG
TTCTGATTGGAAAACAGACTGCGGGGGTGAGGGAGGACATAGGGACAGCACAGGGACAGCAGTGAGGAGGCCACTGTAACAGTCCTGGTAGGATACATCA
GGGGCCTGGCCCAGGGTGATGATCGGGGAGGCAGGAGAAGTGCTCAGACTACTTTGAAGGTGGAACCCATGGGATTTGCMGATGAACAGAAAGGAGTCGA
GGAGGGCTCTTGGGTCACAGCCTGAAGATCTGGGAGGATGGAGGCACCATTTGCCAAAAAAGGCAAAACATAGTACAGAGCAGGTAGTGGGGGATCAAGA
GCTCTTTGGCCTTGTTAAGTTTGAGAAGCCCAAGCGACATCCAAGTGTCAAAACAATCTTCCTCCCACCCAGCAAGGCCCGAGAGCCCAGATAGAGGKTG
GAGGGGAGCCTGCCCGGGGTGGAGATTAATGCACATAACCCAGTTCTCTCTGCCCGTGGCTATTTGGGTCACTTGGACTGCAGGTCCTCACCCCTCTGAG
CCTGTCAATCACCCCCACCCCACCCTGTCCCTGTCCTTTTCAGTCTCTGGAACCTGCTGCCAGGAGAATGCTCAGGGAGGGAAATGCTCAGGGAGGCACA
CCTCTCTCACTGGCTCCTCGATGAACCCTAAATTTCCCTGCCCCTTTGCCTTTGCTCTTACCGTACCCTCTGCCCAGAATTCCCTTTCTCCTCTTCCAAT
CTCACACATCCAAATTCTTTTCATCCTTTTATGTCAAGCCCAGAAGCCTCCAAGAAACTTCCCCAGTTCCCACGTAGACTAATAAGAAGAGTATTTTGAA
TGCCTGCTGTGTGCCAGGCTCTCTAAAAAGTGCTCTACCTTTCTGATCTCATCGAATCTTCAGAGGCAGAGATTATCATCTCCATTGTATTCATGAGAAA
GTTAAGGTTCAAAGGGGTAAAAAGTCACTATCTTGAGGTCATATGAGCAAAGTGGCAGAGTGGAATTTGAACTCTATGATTTCTGTTATGTTTCATAAAG
CAACTTAGGTGCTTACTCTGCTGAAGGGGCTCTGGGCTTCTTGAGGGGATAGATTGAGTTTATTTAGTTTTTGCATCCCCAGAATCTGCCACAGGCTCTC
CATAAATGCTTGCCGAADGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATAGATAACAGATGAACAAATGGACAGATTACTGAACATA
TAGATGGTGCATAAGTAGACAGATAGATAGATAGAGTAGGAAAAGAGAGATAAGAGAGGTATGAGAGAGAGAATTTCTAGCTGGTGGAAGAGGGAAAGAG
CAAGTGCCAGGCGCACGCTTCTATGCCTGTGGACACGTAAGGCCCCAGGCATCTGCTCACTTCTACCATATCCATTGGCCATGCCTAGCTGTAAGGGAGG
CTGGGAAACAGTCTCTATTCTGGGCAGTATGTTTCCCAATGCACATCAGTGGATCTATAACACTAAGAAAAGGAGAGGTTGGATAACAGGGACATATTCT
GCCCCACTTAATATCCCATCTCAGTATTTTTTTTCCTTCATAGCACTTATCACAATCTGCTATTACCTTGTTTATTTGTTTATTGTCTGACTCCCCTACT
AGAAAGTAAGCTTCATTGTGGTAAGGAATCTTGACTATCATGTTCACCACTATATCGCCAACAGTACAAATGAATGAAAATTAATTAACTTATTAATTAA
GGCAGCTTGAGCTTTTTCCTTCCACACTAAATTTTTTCAGAGTTTTCTTTTGTCAACATGTAATTGCACCCTGGGGGAGATGTCAGACATGTGGCTGTCA
TCATGAATGCAGCAGTGCCGAGAGAGTGGCAAGTCCCTATTCTACAAAAACACAGTTTAGCTGAATGTCACTTAGGGAATGTCATGTCAAAATAATGTAA
TAAAAATACCAAACATGAATAAGACGGAGGAGAATGTTGGGAGCGTGAAGTCCTCAGCGGGCCTGCAGCAGTCAGACCTAATTACTCAGGCAGGCTCACC
CCTACCAGATAGGGTCAGYGCAGGAAAGGGGACTGCAAAGCGTGCCCGGGGCTGCAGCTCAGGTGGCCAATGGCCCTAGAAGCCCCCTCCACCCTCTAAG
CTCAAAAGACTGTCTTTCCTGCCTGACCAGCCCAGCCTTTCCCACCTAGGCTCATATGAAGGCAGAGATTCTGGTTTTAAGAGATAAGGTCACTGGTTCT
GAAATGTGGTGTATCTGTGGCCTGTGTGGCTTCCACGAGACAGTGTACTGTGGTTAATAACAGGGGCTCTGAGCCCAGCTCTGCCTGAGTTCAAATCTCA
CAGTTATCTCTTGCAACAGAGACCAAATGGTGCACAAAGACTAAAATATCTACTATTTCTGCTGTGGAACCTTGCCCGAGGATTCCAGTCTCTCTGAGAC
TCCGTTTCTTCATCTGAACATAGGGCTGCCTATCTCATCAGGGTCCTATGAGCTAAGACATGTAAAGCCTCTGGAGCGGGGGCCAGCAATCCAGGGCCTG
TGGGCCACATCTAGCCCACCCCCTGTTTTGGTACAGCCCTCAAGCTAAGAACAGTTTTTACATTTTCAAGTGGCTGAAAAACATCCAAAGAAAAATATTG
TTTCGTGACATGTGAAAACCATATAAAATTTAAATTTTAGGACCATCAGGGTTTTTGGAACAGAGCCATAACTCACAAACTCATTTCTGTTTATCTGTGG
CCGCGTCTGTGCTGCCCTGCAGAGTTKAAGGGTTGTGACAGAGATCATGCGGCCCCCAAAGCCTAAAATATTTACTCTCTRACCCTTTTACAGACAAAGT
TTGCTGAGCCCTGGTTTAGAGAGCATTGCCTTATTCAGGCCCTTAGGGAAGCAAGTGTGGAGYGGGCCCCAGGCTGCATCTATTAAGCACCAACTGTGGG
CAACCTCTTGGGTTAGGCACATTATATTTGTCATCCCTTTCACAATACTCTGAGGTCAGTGTGACTGTCCCCACCTTATAAATGAAGAAACTGAGACTCA
GCCAGSCACGGTGGCTCACGCCTATAATCCCAGCACTTTGGCAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCCAGACCAGCCTGGCRAAYATA
GTGAAACCCCATCTCTACTAAAAACACAAAAATTAGCCAGGCATGGTGGCAGGCACTTGTAATCCCAGCTATTCAGGAGGCTGAGGCAGGAGAATGGTGT
GAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGCTCACACCAYTGCACTCCAGCTTGGGTGACAGAACAAGACTCTGTCTCCAAAAAAAAAAAAAGAAAG
AAACTGAGGCTCTAAGARGTGGTGGAAGCTCCTCACCCTGGCCTTCAAAGCTCTGCCTGATTWGCCCACAGTCGCCCAGCTGGGTAAGTGTTAAAGCTGA
GATGTGAACCCAGGGCCTTCTGATTCCACTGAGCCCCCTGCTTCTCCCCCTCACACATACTGCGTGCCCTGTTGCCTGAAGTAGCTCTGGAAACATGCCA
GCAGCTATGTCTCTCCAATGCYGGACAGAGGAATCACGTGGAAGTGTTTGTAAAGATGTGAACTCCTGGGTCCTAGCACAGRYCACCTGAATCATTATCT
CTGTGGAAGACCCTGGGATCTTCATTGMCAGCAAACTACCCCAGTGGATTTCAACACCAGGAGAGTGGTTGGGAGGAGGAGGGCCCCATAGGCTCTAGCT
GCCAGGGAAGGTTTCCTGAGGAAGAGTGGGCAAATCAGGGAGAGGAGAGGCCACCCCAGGCAGGGGATCCTGTCTGAGCAAAGGTAGGGAGGCAGGAATG
AGGCTGCTGTGTGCAGCGAGGTGTCGCTYGGCCCCTCCTGATGCGGGGACAGGCTGCATACAAGCCAGCCAGGTTTCGGGGGTTGAGTGACGGTCAGGTT
CTCCCATGAGCCCTGGTGCTTCCAAGAAGTAAGGCAGCTCATCCACCCAGGGCCCAGAGCCTCCTCTTCCTCTAGGTCCTTAAAATAAATTGCAAGTTCC
TCACCCCGGCCTTCAAAGCTCTGCCCGATCTGCCACCCGCCTGCCTCTCCATTATCATCTCTGGCCACTCTTTCCTTTGCTTCTTCCACACCGGCCACAC
TGGCCTCCTTTCTGGTGCCCAAACACGACCGTTCCTATCTCAGGGCCTTTGCACACGCTGTATCCTCTTCCCCACAGTGCTTGGCCTCAGACCTCTGCTT
AGCAGGCATCCTCAGAGGGGCTTTCTTAACCCTCTGCCTCCCTCCCATTGGCACTCTCTCCATCGCCCACTAACTCYCTCCCTGCCATTTCATCTGTTTG
TTGGCTCCTCTGCTGTCTTGGGGACAGTGACTCCCAGAGCCCAGCACAGTGCCTGGCACACAGAAAGCACTCAGGACATGCAACCGAATGGACATGCAAC
GTGGAGTGTGTCCAAGCCAGAGAAGGGCTGAATGGCGGCTCAGGACTCCCCTCTTGGTTACGTACTCAGCACCCAGGGGACTGCTGGTTAAAGGCTTGGG
GTGATAACTGTGGCATGAGAGTGGACAGAGGGGCACTGGGGAGAATTCTCCAAGGATAAAGCAAGGCAGTCAGAGAGGCGCTTGCCTTCGTCCACCCTCC
AGAGAGGAGAGCCCACTGTCATCTTCTGGAATCCACCAGAGCATCCCCTGCCTCCACAGGCCCAGGAGCTAGTGGCCACCCCAGGTCCCCTCATTGAACA
AGCCCTGGGCCAGCCCTCCACATCCGCGTTCCCATTAAATATTCACAGTTCCACGATTAAGGAAGTCTCACTGTCTCCCACTGCAGATGGGGAAAGCRAG
GCTTGGAGCGGTGAAGGAATTTGTCCTGGGTCTAGCATGAAGCTCCAATGCTGGAACCCAGTGCGGAGCCTGTTTTTCCCACCATTGTGTTGTGGCTGCC
ACCTCAGTTCCCACCATTCATACCATTCTCCCATCCTCCCTCGTGTGACATTGTCAGAGAGTCCTTCTGAGACCGCAGCACATCACCCTGGGAGACGGTC
TCAAAGACACCTTCTGTTTCCATTTCCAATGTAACTTTGTGGCTCAGTTCAAACCAGGAAGGCAATGAATGTTGAGGAGAGGAGGCATAGAAAACCCAGA
CCCAAAGGAAGTCAATTTTCAGAAACAAAACTGCAGGGAGGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGAT
CATGAGGTCAGCAGATCGAGACCATCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAAATACAAAAAATTAGCCAGGCGTGGTGGCGGGCGCCTGTA
GTCCCAGCTACTCCAGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCCCTCCAGCCTGGGCG
ACAGAGCGAGACTCCGTCTCAAAAAAAAATAAAAAAAAAATTTAAAAAATTGCAGTAAATGGGCTGGGGGCGGGGGGGGTCAAGGTATCTGGGCTCAAAT
CCCAGCCCCAACACTCCCTTTGCTGTGCGACTTTGATCAAGCTAGTGACACTCTCTGTGCATCTGTCTGCAATTGTGGAAAACAGGAGTCTTAACAGACA
GGCGCCTATGTCCAGGGTGCTATCAGGTTTGACCCAGTATAGTCAAAATGTGAGCTGGAGAGGCAGGCCCTGCCCTGGAAAGCGGAGGCTAGAGGGAGCC
AGGGCCTAGTGGGGAGAAAGCATGGTGACGGTGCAGTCAGAGGACAGCTCCAGACAGCGGCAGGAAGGCTGGAGATCAGTCACCAAGTACAAAGACCACG
GGGTCCTGGGGCCTTCCCAGGAGCCAGAGTGGCCCAGAAGGACTGGACTTTTAGGCRGGGCTTCTCAGCCTCCGCACTGGTGACATTTGGGGCTGGAGAG
TTCTCTGCTGTGGGGCCGTCCTGTGATTGTTCAGCAGCATCCCTGGCGTATACTCATTAGAGGCCAGTAGCGACCCCACACACAACCCCCACCCAGTGTG
ACAATCAAAAATGTCTCCAGACATTGCCAAATGTCCCCTGGGGGGTAAAACCGCCCCTGATCAAGAATCACCGCTTTTAGGTGGCATCTAATTTACAAAG
TTGGTAACCTTCACACAGGTCTCAGCTCAAACACCTCCTGGTCTCTGGCAGGTAACAGCCAGGAGCAGGAGAATTCAGCCCAGGAGCTGCCAGTTTGAGA
CTTCTGTCCCAGAAGGTGAGGCTGACCCTAGAGGTCATCTCATTGTACAGATGGGAAGACTGAAGAAGAAAGACTTGGCCAAGGTCGTACAGCGGGACGG
TGGCAGAGCCGGGCCTAGAACCATTCTCAGTTTCCCCACCAGTCTCAGTTTCCCCATCTGTAAAATAATGAGCTGGACCATGTGGTCGGTGGCTGCTTGG
CAAACTCTTCTCCCCACAAGACTCAAGTGGTGTTTCCTGCAGGAAGTCTTCCCTCACCTGCCCCCAGCTAACGTAGACGTGTTTCTCCCAAGCAGTGGGA
GGGTCCCTGTCTCCCTTGCCTCAGCTTTGCATCTGTCTCTCCCCGCTGCCAGRCGGAGGAAGACTAGGTCTTACTTGCTTTCGCAGACCCTCTCTGTGCT
GACCCAGGGCTGATCATCTTTTAGCCTTGCCATAAATTTAAAATTTATTCATTTTTATTTGCCTATGATGTATATGAAATATACAGCCCTTCACTCATTC
AATCAGTGACTAAAACACACCAGGCACTGCGCTAAGCACGGCAGATATAGCAATAAATGCAGCAAGCACRATCCCCGCACTGGAGCGCCCAGCTTGGTTG
GGGAGATGGGCATTACAGCTAATTCTACAAATAGCTGAAGCTAGTTCGCAGGACCCAGAAGAGGGTGGAAGAGTGAGGTGCCCAGGATGCAAAATTGAAG
GAGGAGCTCGCTCTCAGGGTGGTGCATGTGCACTTTGGTTCTGATAAGTGCCGCAAAGAAAAAAAGTGCAGACGCTCTGAAAATATGAGCAGAGAGTTGG
AGCCTAATCAGGGAGGTAGAAGACAGCCAAGGAAGGCCACCTTGCATGGGTGAGACGTATAAACACGTGCACCTTCCAGGGTCACAGTTTTCCACTCCCA
GAGCCCAAGTCCCCTTTATAAATAACAAATATTTTGTTAACTTCTCCCACCACTTCGTATTCTAAAATGAAATTCACAGATAATATACTATATAYGTAAC
TTCAAAAAAATCAATATCATTCCCTAACTTTAGAACGAATAATTACAAGGACGTTTGTATTAAACTTGTRTGTGTTTCAGTATGCAAATGCCTGGTCAGG
ACAACAACACCAGAAAACACCATGAGGTTGTCAGATGCTTCCACTATACATAGAAGCACCRTGAGTGTGACCGTGACAAAAACAGAGGTACAGGTGTGCT
GGCAGCTCTGATATCCCAAGCAGCACTGACATCAGCTGCATGACTTTTCCAATACGATGAATAACTCCTGGTAAAGTTCTGAACAGAAGAAAGTCCAGTT
CTTCCCTTGCTTCACCAGGCGTTGCCATTTCTGGAAAATTCAGGGTAGATTAAAACATTGGCAAAACATATTTGGCGGGTTTATATATAAAATGAAGTTA
CAGTCTAAAATTAATTTAAACAAGTTGTTGTTCACCTACCTGAGTATCCACTGGGACACTCCAACATTGAGCAGGACAAGAGAAGGTTATCCATGAGCAG
GGCTGTCTYGTGCATTACAGGTYGCCTGGTGTCCTCAGCCTCTGCTCACTTCATGCCTGTGGCATCCTCTCCCATCCTTGTGACACCCTCGCACATTTTC
AGGGCATGTCCTTATGGGTAGTGCCACCCTGCTGAGAATCACTGGATCCAACCTCCAGCTAACAGTGGCTCCTGCTCAGAAGATCTTGTTTTTTGTTTGT
TTGTTTGTTTGTTTGAGACAGAGTCTCGCTCTGTCACTCAGGCTGGAGTGCAGTGGTGCGATCTCRGCTCACTGCAACCTCCACCTCCCTGGTTCAAGCA
ATTCCCCTGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGCACCCACCACCACACCCAGCTAATTTCTGTATTTTCAGTAGAGACAGGGTTTCACCATGT
TGGCCACACAGGTCTTGAACTCCTGACCTCAGGCAATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACCAGCTGTGAGCCACCACACCTGCCCACG
GATCTTGTTTGTTATCTGTCAATCTTTGCATTCCTAATGGTTTGTTTACTTGCACTGTCACGATCAGGGTCCTTTGCACACTACRAGTGGCTTGTCTTTG
CCTCCAATTTGTGCACCTCCCTGGTAATTATCCTTGGAAGCAGAGGAGGCAACACAAGCACAAATAAAGATTCCCAAGGCAGCAGCCCCTGGCTAAATCC
ACGGTGATTGTCTTGGCCACTCCAGCCTGACTCCGGGGACATTAGCCAGCTCCCACGTGTGRTTACAGCCAGAAACAGGCCATTTGTGTGGTCTGGAACC
CCTGCTGATTGTTCCTTGGAAAACCTGAACCAGAATGAGCTCTTCTATATGCCAGAGAATTTTAGCTAGAACAGAGTTTCACACCTGGGCATCTAATGTA
TGAGACTTGAGAAGGAAGAGAGACAAAGAAAAATTCTTTTATTTTTCTCCTTCACCTGTTGGCCTTTCCCTAACCACCCCCACCCTACCCTCTGCATTAG
CTGGTTACCTTCCTGCCTCAAACAGAGAGGCCACATCTGGGATAAAATGCATCATTTCCTGGCTTCTGAGCTTCCAGTTTTCAGGTCCTCACAATATAAA
GGTAGGGATTTTCAAAAGTAGGTGATAGATATTCATCTTACTGGTTATCGTTGGAACCAAACCCATGAGGATATGACTCTACTGTCCATTAATCCTAATC
TTCCCCATCACCAGCAAGGTAGGTGTTCTCATTCCCATTACACATGAGAAAGCAGAGGCTCAGAGAGGGCCGTGACTTGCTCAGCCCCACACTGCCAGTG
AGTGGTGGGGTGGGGTTTGTCCCAGATCTGCTGCCACCAGAGCACACCCTTGTCATAGCCACCCCACTGTAAAGCCATTTTCCCTCTCTTAGGGTACAAA
TAGCTGTTTACCCTATTTTCTATGAACAAATTTCCAAAGATGCCTCCGGGATGTGTGTGATCAAGCCAGTGAATTCAAAAATACAGTGCTTATTACGGAA
CTTAGTATTATGGAACTTAGTATTAGCTGGCCACCCACCCGCCTGGCTCTAATTAAAGGCCTGTCCGTCTTCTGCTTTAGAAATCATGGCTTTCTGGAGC
CTGTAATTTCACCATTCGTGCTGAAGTCCTGGAGCACTGGGAGTGGAAGAATGGACTCCCCACATCTTATTGAGGCTGGTGAGACAGAGACAGATACAAT
TAGCATGGCCTGCCACTCAGGGACAAGACTAAAGTGAGTTAAGCGAAGCACTCACCTTGGGCACAAAAATCCAAGATCAGGCCAGGCACAGTGGCTCACG
CCTGTAATCCTGTAATCCCAGCACTCTGGGAGGCCGAGGCGGGCGGATCACCTGAAGTCAGGAGTTAGAGATCAGCCTGGCCAACACGGTGAAACCCTGT
CTGTACTAAAAAGACAAAACAAAAAAAAATTAGCTGGGCATAGTGGCCCATGCCTGTGATCCCAGCTATTYGGGAGGCTGAGGCAGGAGAATCACTTCAA
CCCGGGAGGCAGAGGTTGCCTGCCATGAGCCGAGCTAGTGCCACTGCACTCCAGCCTGGGCGACAAAGCAAGACTCTGTCTCAAAAAAACGAAACAAAAC
AAGATCAGTATTAATTTTTTCCTTTTCCCTTTCACTCCCATATGGCTTAGCACACCAGTGTTGCTGATCCTGTCTTTATTGAAAATATAGATATTTTGTT
CATCATGGGGGGTTTYACATTAAGTTTGATTTTTTAAATGTTACATTAAAGTAGTATTTATCTTGCTTACTGAGTTATTTGGCAATGCCTTAAATTTCAC
ACCCTTAATTTTTTTCACCCTGGACTCAGCCCTGCTGCCATTTCCCAGTTCATGTGACCTTTGTTAAGTCACCTCCCCTCTTTGAACTGCAGTTTTCCCA
TCTGTAAAATGGAGATACTAAAAGTACCTACCTTATTGGACTGCTGGATCTAAAGTCCCTGGCATACACTAGGCACTCAATAATGGCTGCCATTGTGGGG
GAAGAGGGAAAACCGTGGTACTATTAGCATTGGGAACAAGACAAGACTTCACGACACAGGACTGTGCATTGCAAGACGTCTCTTATCCCTGGGTCCCACT
CACTGAATGCCAGTATCACCATGATAACCAGAAACACCTGTCCTCCCTAACATTTCCAAAATGCCTCCTGYGGCAAAATGCCACCACCACTGGGCTAGAT
CACTGTCTTTGGAGTCACACAGCCCTGGGCTCAAATTCAGTTTGTCACTTAGCTGTGTGACCTTAGGCAAGTTCCTTAACTTCTCTGAGCCTTTTGCTTT
CTTCATTTGTAAAACAATGATAACAATAGAGGTGACTTGAGTACTTGGATGTTCAGTTTTGGGTAGCAGCTATTATGAGCAGTATTTTGTTTGTATTCAA
AGCAATAAGCTCTTCTTGGAGTTGAGCTCTCTTGTGGCAATTTGCAGGGTAGGGAGGGAAAGAGGGGGCCAGTGACCAGAGGGGTTGTAAAGAGAAGAGA
GGCAGCTCTATCCTGTAAGCATGTATTGTTTGAACTGAACTGCATTTACATATTTTAATTAGTTACCCACATTAACAAATTGGGAAGAGTTCACCAAAAG
AACCCCTAGACTTTCACTTGTTTGTTTCTACTGAGAAACTGGAAAATTAGACCACTCTGGGCCACATCTATTCCCTCTTGGAGCTGGTAGTGGCCGCCCA
CTTGAGAGGTGGCCCATGCACTCCTTCCTGGAGTTCGATATCCAGCCTGCTTTGGTCATTTGCACTTCCTGCCTAGCTGCAGTAGCTGGTTAGGTTTTCT
TTTCTTTTTGTTTGAGACAGGCCCTTGTTCTGTCACCAAGGCTGGAATGCAGTGATGCAATCATAGCTCACTGCAGCCTCAATCTCCTGGGTTCAAGCAA
TCCTCCCACCTCAGCCTCCTGAGTAATATTAGAAATAAGTTTTCAGTGCCGCAAAAGAAACAGCACTCAAACATAAATTTAATTTTCTCAGCAAGGCAAT
TGTACTTCTATAGAAGGGTGCATCTCGCAGATGGAGCAATGGGGAGAGCACACCAGACAAGGGAGGGGAAGGGATTCTCATCCCAACGCAGCTAGTTCCT
GCTGCTGTGTCTTTCCCCTATTGGCTAGGGTTGGACTGCACAGTCTAAGGTAATTCCGATTGGCTATTTTAAAGAGGCAGAGGTACAAGCTGGAGTGGCA
GGGTGAGTAGTTTGGCGGGAAGGATGGTTACAGAACAGGTGACTCGGGATGATTAAGAACAGAGCAGGTGACCCAGGATGACTAAGAACAGACCAGGTGG
CCAAAGATGACTAAGGTCAGAGCAGGTGATAGAGGCTAGGAGAAGATTGGTTGCTGAAACTAGGGGCAAGGAGACGTAAAGAACGAGAAAGTTAAACTTT
AAAATGAAGAACAAAGAACAGGGGAGCTGAACATACTGATACATTGGTTCTTTGAAGAGGATCTCAGAACTCATTGTACTTAACAATTTACAGGCTAAAA
CCTTTGAAGACGAATTTATTATATTCTACAGTAGCTGGGACCACAGGTGTGTGCCACCACATCCGGCTACGTTTTTAATTTTTAGTAGTGACRGGATCTC
ACTATGTTCCCCAGACTGGTCTCAAACTCCTGGGCTCAAGCAATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGGGTGAGTCACTGCTCTGG
CCTGGTTGAGTTTTCAATCCCAAACTGGCAGTASAGGGGAGGAGAGAGAGCACACTATGCAGGAAACCAGAAAAAAGAGTTTTAAAAGTAAGCATAGGAT
TGCTACTGGGTTGTCAGGAAAGATAAGAAATCTAGTAGGAATTCGGAGTGCCTCAAAAAGTGGATGAAGGCTGGGTGCGGTGGCTCATGCCTGTAATCTC
AGCAGTCAGGGAGGCCGAGGTAGGAGGATCACTTGAGATCAGGAGTTTGAGACCAGCCTCGAAACCCCATCTCTACAAAAAATACAAAAAGTAACTGGAC
ATGGTGGCTCATGCCTGTAGTCCCAGCTACATGGGGGGCTGAGACAGGAGAATTGCTTGAGCCCAGGAGGTGGAGGTTGCAGTAAGCCAAGATCACGCTA
CTGCWCTCCAACCTGGRTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGWAAAGAAAAAGAAAAGAAAAMAAAAAAGAAAATAAGTGG
TTGAGAGAATCTGGATTTTTGTTTGTTTGTTCAGTCTCCCAAGCTCTTTGCAAATTGCTAAGAGCCAGGAAAATGTTAACATCCTGGGGAAGGAGCCTTC
GGAGTAGCCACAGCAGGAGCAAAAACCTGGAGGCTGGACTAATTCTTCATTGCCCAAGGAGAACAGGGGAGGGACGGGGAGAGAAGGAAGGAGGGAGGAA
GCAAGGTAGGAAAATGCACGGATGGACAGATGGACAGGTGGATAGGTGGGTAGGTGGATGGATGGATGAATAGAAGAAGGAAGGAAATTGATAGATATTA
GACAAATAGAAGAATAGAAAGTTGGGTAGATGGAAGGAGGCCTAGTTCTGCCTCTGAGCAGCAATCCATTAATAAGCACTTACAGAGTGCCTACTCTGTG
CCCGACCCTGTGCTAGGCACTRTAGCAGAGACAGAAAAATTAAGTCAGGACTCTCCTTGCCAAGGAATTCACTGTCTTGTTGGAAGGCTCAAAGGCTSGG
TCTGTTGCCCAAGGCAGCTCAGGTAAGAAGTAAAATCCACAGCAGTGCTTCAATTCTGCTCACAAACTGGGCTCCTCCACTCTGGTCTCAGAATTCTGAG
GAGAACAGAATGATCCTGGCCTGGCTTCCTGTGGGGCCTGTGAGGGAGGCTCTTGGAATGTTCTGGAGCCCACCCAAAGGGCAGCTCAGCGAAGGCAGGA
ACGATGTCGGTGTTGTTCACTGCTGCGTCCCMGCATCTAGCAGAGTCCATCCTCATACCGAAGGCGTTCAGTGCCACCTCGTCAATAAATGAATGAGTAG
GTGGGTCTGAGTCCCATTGGCTATGGCTGCAAGCAGTTCCTCTCACTTCTGCAACCTCGATTCCCCTGCCCCTAMGATGGAACTAACAGTAGTGACTGTG
CCCCACTCATGGGGGAGTGTGGTGAGGTTTAGAAGAGAATGAGAGGATTTTGAAAGTGCTTTGTAAACTCAGGAGAGGTTTACAAATGGGAAGTGCGATG
CTAATAGCAGAAAGAGTAGTAGAAACAGCATCAGTGTAGCAATAATGGCCCCTGTGTTCACTGTGTTAAAAGTAGGATGATGCTGTCATTCCTGGCAGTG
GCAATAGAAGTATTCATGAGAATAGTCGCTGTACTGGCGATGGCAGTGATGGTCATATTAATGGTGGTCATAAGAATAACATTACTGGGGCCAGGCGCGG
TGACTCATTCCTGTAATCCTAACACTTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTG
TCTCTACTAAAAATACAAAAATTATTCTCTGGTTTCTCTTCAGATCGTATAAATCTTTTGCCTTTTACTAAAAATACAAAAATTAGCCTGGCATGGTGGT
ACACTCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAATGAACCAAGATTGTACCACTGCACTC
TAGCYTGGGCAATAGAACAAGACTGCATCTAAAAATAAAAAATAAATAAGAGTAACATTAATTGGTAGCAAGAGAGAARAGAAGGAAGAACATTCCAGGA
GGAAAACAAGGTTCTGATTGCAGTTATAAGAGACAGAAATCCAATTCAAATTGGCTTAAGCTTGAAAAAAAATGGGAGGGGTGATGCAACTGCGAAGTTC
AGAAGTGGTTCTGGCTCTGGCCCAGATACACAGGCCTCGAACAATACCATCAGTGCTTGTCATTGCAACTCAGTCTCTCTCCATCTTTTGTCTCTGCCCT
CCTCTAYGAGGGCTTCACTCTCAAGCAAGCTCTTTGGGCTCCAGGCTTCCTATCTCCCAGCTAGACATTTTCCCTCAAAAGAGAACTCCTGGCCGGGCAC
GATGGCTCATACCTGTAATCCCAGCACTTTGGGAGGCCRAGGCAGGCAGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCG
TCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCATATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGTCAGGAGAATTGCTYGAACCCAGGA
GGCGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGCACACAGAGTGAGACCCCGTCTCAAAAAAACAAACAAACAAAAAACAAAAAAA
CAAAGAGAAMTCCTCCTCCCCCATGGTTGCAAAGTTCCAAGATCCACTCTCATGAAGCCATCTTGTGTCACATGCCCATCCCTCAGTCAATCACAAAGGC
TGGGAGRGTTGGTCTATGCTGATTGGACCAGGCAGAGCCACATGGCCACTCCTGGAGCTGGAGGTGGCCTCAGAGTAGAGACATCAGAAGAGGGTGAGAG
AGAGGTGCAGGGCAGAGGATCAGTGGGTGGCCTTCAGAGGTAGGACCAGATAAAGACGCCATGGGTCCCAGGACCTGGTGCTTGGTAATGCTCAACAATT
AATGTTTTTAATTGTAAAACATTAATGTGCTGTAAAGATAGGGAACAACCCATAGGTTGTGAGGTAGAGCAGCCCTGGGTTCAAATCCCAGCTSTGCTAC
TTGTTAGCTGTGTGGCCTTGGGCAAAGCACTTGACCTCTCTGTGGCTTGGTTTCTTCATCTGTAAAATTGGATGAAAATGATCGATTGTTTTGAGTATTA
AATGAGTTATTGCATTCAAAGCACTTAGAARAGGGCCTGACACATTGTCGGTACTCAGTAAATGTTAGTTATTATGTTCATTATCTATTCAGTGTACTCA
ATGGTGCCAACTTATATGACTCACTAGGATTAAAATCTCTTCCCTCCACCTGGATGCTCCTTTCCCAGATCTTCATACAACTCGATACTCCATCTTTGGG
TCTCAGCTCAGATGTCACCTCCTCAGAGAAGCCCTCCCTGACTACCATAGTTGATGATGTCCCTACAGCCAGTCTCTATCCCATTAGCCCATTTTCTTGC
ACCTTGAAGAGATCCTTTTTAATTTACCTATTTCCTCATTTCATGTCTGCTTCCCCCACCCAAATATCAGTTCCCTGAAGACAGAGTCTGTCTTGATCAC
TGCTGTGTCCTCAGGATCTGGAAAAGTGTTTGGCACATAGCTTGGCTCCATAAATGTTTGATGAATGAATGCCCCTTTTCTTCCCCGATAGTATTTCTGT
GCCGCATCATCCATCAGGGAGGACACTGGGGCAAAGATGTAGCAAGGGGGGAGGGGTGCAGAGATGCATACCCCAAATAGCTGGGTTGGAGCTTCGGGGG
GAGACCTAGGTGAGCCTGCCACCCCTCTGTCCCCCAAGAAGGGTCTTTTAGATCCCTGTCCCCGGTTGTGTAGAGGGTCTCAGCTCTGGGTGGCCTAAGA
GGACAGGAGCGTTCTTCTTGACTTGGGTCATCCTAGCCAAGGTCAGGCTAAAGCCAGCAGGCCTGGGATTACACACCCTTGCACATCCAGCTGCTTAGCC
GGATTAGTGCAGACGCCATGCCCACAGGCCTAGGCCCAAGACAGGGGCCCCGGGAGGGTGAGTCACAGGCCACCTCACCCTCCTACTCCTCTGGCCTTTC
CTACACTGGAGAAGCCTCAAGACCTACCAGGGACCTGACAGAGTGGCTGTATTTTCTGTGTATATTTTCATTACTGTTTATTGAATGTCTACTGTATACC
AGGCCCTGAACGGGGCACTTTACAGGCTCTCAGTCAGTCCTTCAGTCTGAGAGACTAGGGCTCAYTTATTTATTTTTAAAATTCAGTTCCTCAATAGTTA
TTAAGCACCTACTATGTACCAGACACAGGTCTAGGCATGAGAGATGCTGAAGTTACAAAGATGGTCCCTGCTTTCATGGAGCTTTTAGAGGAAAAGACAG
GCAGGGAGTAAATAAATATTTTCATTTTTTAATTTTTTTAATTTTTTTTTTTTTAGAGATAGGGTCTCGCTCTGTCACTCAAACTGGAGTGCTGTGGCGG
TGACATGGTTCACTGCAGCCTCGACCTCCTAGGCTCAAGCGATCCTCCCACCTCAGCCCCCCAAGTAGCTGGGACTACAGGTGCACGCCAACTCACCCGG
CTAATTTTTGTATTTTTTGTAGAGACGGGGTTTTACCATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAGGCGATCTGCCTATCTCGGCCTCCCAAA
GTGCTGGGATTACAGGCATGAGCCACTGCGCCCAGCCATGAATATTTTTTAAATGCTCTTCAGCTCCTCAAGCCAGAGGTGAAGAAGTCGGGAAGGGAAA
ATGTGGATGGGCAGGTAGAGCTTTCTCGTGCACTCTATAGGCCCAGGAAGGATGTTTGTGGCCCATAACCCACGGCTGCTTGTGGGGAGCTTTGCCGTCT
GTGAGAGAATAGAATATGGACAAGCTTTTACCACAAATGTTTGTTGAATGACTGAATGAATATTCTGCTGTTGCTCAGAAGCCTTCCCAAGCTCCCCATT
GTCTGCGGGGTCTGGTCCAGACCCCTCAGCTGATGTTCACAGCACCCCCATGATCTGGCCCCAGGTGCTCCTCCGATTCCTCTCCATCTCAGGAAACACC
ACCACTATCCTCCCAGTTGCTCAGGATGAAAACCTGGGATTCCATCTTGACTCTTCTTTCCCTCGCCCCACACATCTGAGCCATCAGCAATTGGTTGATT
TCACCTCCAAAATATAACTTGAATTTGTCTTCCGTACTGTGAACAGACACAGTCTCTTGCCTGGACACCTACCACAGCCTCCTCACTTTGATTCCTGTTT
CTATTCCAGTCCCCCTACAGGCTGTTCCTAGGTGCAGCTCGGGGATTATTTTATTTTATTTTATTTATTTTATTTTATTTTATTTTATTTTATTTTACTA
TTTTTTGAAACAAAGTTTCACGTTGCCCAGGTTGGAGTGCAATGGCACAATCTCGGCTCACTTTAACCTCTGCCTCCCAGGTTCAAGCGATCCTCATGTC
TCAGCCTCCCGAGTAGCTGGGATTACAGGCGCCCACCCCCGTGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTG
GTCTCGAATTCCTGACCTCAGGTAATCTGCCCACCTCCGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCTAGAGCTAGGGGATCT
TTAAACCTACATTAGGCCATGGCCGTGTGGCTCCCAGGATTCTCAGGTTAAAAACATCCTATCAGGTCTTAAAGGCCTGCCTCTCTTCTCTCTTTGACCT
CAACTCTCACGCCCTTTGTCTTCCTCCCTAGCACCAGGGACACTGGTCGCCTTTCTCCTCCTCTTCTTGCCAATCTCTTCCCTGCCCCAGGACCCTTGCA
CTTGCCGTGACTGCTGCCCGGACSGGCCTTTCCCCAGATCTTTGCGAGCTGGCTCCTTTGCATTCCTCARATCCGCACTCACGCATCACCTCCTCAGTGA
GGCCCTCCAAAGCCGTTGGGCTAAAGTAGTCCCCTATCTCCTGCCCGTCTTTTTTAATCCTCTAATTCTGCTTTACTGAGGTGTGGTAGGATGAGCGGTG
GGGACTAGGAGGAGCTTCAGAGCAGTCTAGAAGCAGGAGAGACGAGGGGAAAATGCAGCCAGGGGCTCTAAGGAAGCAGCAACATGGCTTCTCTGCAGCC
ATATACGGATGGATGAGGGGCTGGCCCAGGCAGGGATTCCATCCGCATATTCCTGATCCAGGGCATCTCGCGGACCCAGCTCTTGGCCCAGCATTCCCTA
AGGAACCCMTGACTGCTTCTCTGGCACTGTTTAATCTTTTCCCTCATCGCTGGCTACACGTCTAATGATTTATTCCTGGGCTCCCAAACCAGATTCCTGC
AGAAGCCAAGCGAGCCTCATAAACAACACGCACAGGGTGCACGTGAGATTTTAGAGTACAGGACTGGACTTAACACCGCGCAGCGGCAGCCTGGGCTTGC
CACGGAGCAGCGTGGACCAAGAGTACCCAGAGCTTCAGATTTTTCTTGAGAAGCTCAAATGTGAATTCATAGGGAAAATAAATATTGGCAACGAATTCAC
TGTGTGGGCCAAAACTCCCTGCCGGTGGATGAGTGGGGGGCCGTCCTGCTGGCAGGGTGTCCTCGGTTCACATGCGTACCCTGGGGTACGCATTTTCCAT
GCATGATTTCATTGCTGCCTGACAACCACCTGTGCAGGGGGTATTATTCTGAGCCCCATTTTACAGATGAGGAAGCTGAGGCTCAGAGAGTTAATGTGAT
CATMCATGCCAGAGTTCAACCTATATCTAGAACTAATCTGCTTGCCCAAAAGCTGAAGTGGTTCCAAACTCTGTACTAAGAGTGTCTACCTGTTTTGTCT
GACTTCATCTTCCGATTCTGCCTGTTTCACACGGGAGACTCAGAGAGGTTAAGTAATGTACCGAAAGTCACCCAGCTGCCAAGGGCCAGGATTGGAACCC
AACTTTGTCCAAAGTCAAAGTTTGTAGGCTAACCCCTTACTCTCTATCCAGTTTCAATATGAAGGAGCTTTGAGAAGTTCAAGTGRCCACAGAATCYTTG
GTGGTACTGAAACAATTATCTGTACAAGATCCTACTAAGCGTAAGCCCTGAGAAGTGYTAAGACTTCTGGCCCTTCTATGGAAACCCTGTGTTGCAGCCA
GGGCTCTTAGATGACACTTTTTTGGAGAGAGTGGGATCCTCAGGAATTTTGTTCAAATGCTGACATCTGACCGCTTGTTYACTTTATGTGTCAACTCCTG
GGCTTTGGTTGCTCCTGCCAGACCCCAGTGCAGGCTGGGAGAGTTTGGAGGATTCCAGATGCAATCTAGAATCTGCCCAGAAGCTTGCGGCTCATGGGGG
AGCTTCCACCAGTGGGTATACCTCCTCCCGTCCTTCTCTCCACCACTCCTTGATCTATGGAAGAAGGGAACAGGCATTTCTTGAGGACCTGGTAGRTGCC
ATGCACTTTCTTTGTGATATCTCAGTGTGATTCAGCCCCTTCCTTCCTGTGGATCCTAAACGCAAGTCATTTTACCTCTATGAATCTTAGCTCTCTCACC
TGTAAAATTAAGATAACAATTTTGTTMAGTCAGATCACTTTTTATTTGCAAGGGTCAGAAATCCAGCCCAACTGGCCTAATCCAAAAAGAGCATTCATCA
GTTCATATTGTTGGAAAATCCAAAGGGATGGCTTCAGGGATGGCTGGATCCAGGTGCTCAAATAATGTCATTAGAAACCTGTCTTTGTGTCTTGGCACAG
AGTCCCTCTGCTTTGGCTACACTCTTGGGCAGATTTTTTTTCCCCAGAGAGCCAGAGTTGACCCTCCAGCCACTTCTGGTTGATATCCTGTTAACCCAAC
AGCCCCTGATGAAAGAGACCACCTCTTTCCCAATAATTTGAGAAAAAGTTCCAGGATGAACCCTGATTGACCAATTTTAGTCATGCCCACACTACTAAAG
TAATCCCTGTGGCCAGGGAGATGAATTATCCTAACTGGTAAGCTTGGATCTCACTCTTACCCCCTGAAACGGAGAAACAGGGTCAACTTCACTTAATGCG
TGATTGTGGAGGAGGAACAATTCCCAAAAAATGATGCTAAACTATCCAAAAACATATCCACCACACTAATACCTACCTCCTGGGTACTTGTGAGGATTAA
TTGAGATAGTATGCTGTGCCTGGCTCCCAGTACMTGCTCAGTTACTCCATAGCCAGCCTTGTCAACTCCTTCCTGAACCTCTGACTATCCATCTCTGACC
CAGCCTCAGAGTGAGACAGGCATGAATTCAAGTCCTAATCCTGCTGTGTGGCTCTGGGCATGTTATTTAGGGGCTCCAAGCCTCAGATCCATCCTCTGAA
AAATGAAGGTGAAAAGAGGAGCTACTTCCTGGGGTGATGGTGAATAAATGCTTTGGTACCTCACATGTCRCRGGTGTGCAGTAAATGGTGGTCTCCCCTC
TTGCCAGTTTTCTCTCTGTGTGCACACCTGCCCTAGCCAAACTGGCTTGACTGTTATTCCCCACCTCCAACCCTTTGAATATGCAGCTGCCTCTGCCTAG
AACACCCCTACTMCCATCTCTGCCTGCTGGAATCCATCTCTAGCCCTCAAGCCCCAGCCCAAATGTTTCCTCCTCCAATGGAACCTCACCTTTTTGAGGC
TTGGTTTTCACAATTGCAAAGCAGGAATTACGAGAGTATCTACCTCCTGGGGTTGATATAAGGAGTAAATGAGATCGGTCATGCAATGCAGTTGGCGCAG
TGCCTGCTTTGGTGAGAAATCAATAAAWCTCAGCTGTTATTAYATCATTAGTATCAGGCATCCAGCTGCTAATTCAAGCTTGCATTTTCCAATAGTGCCT
TGCATAGGAGGGGTGCTCAGTAAACATATTGCATTTGGGTGGTCCGATTGGGGTCATGGCTTCTAAACCCATCCATCCAAACTTCCATCCATCCATCCAT
CCCTCCATCCAACTGACCAACTCACAAACCATTCACCTGTTCATTCATTCAGGCAGTCATTTAGTGCACCAGTATTTGTTGAGTGCCAATGCCACATCTG
GCTCTGTGCTGGGCAGTGGGGAYCCAGCCTTGTGAAATAGACACAGTCCCTGCCCTTGATGTGCTAACCTRGGTTGGTGGAGAAGCGGAAAATAAATGAG
TAAACAAACAAATAAACAAAATGATTTGGCCAGGCATGGTGGCTCACATCTATAATCCCGTCCCTTTGGGAGGCTGAGGCGGAAGGATTCCTTGAGCCCA
AGAGTTTGAGACCAGCCTGGGTAACAYAGTGAGATCTTATCTCTACAAAAAGAAAAAAAAATAGCTGGGCATTGTGGCACACATCTGTGGTCCCAGCTAC
TCAGGAGGCTGAGGTGGGAGGATTGCTGGAGCCTGGGAGGTCAAGGATGCAGTGAACCATGATAACATCACTGCACCCTTTTGAGACCCTGTCAAAAAAA
AAAAAAAATGACTGCAGATTGTGACAAATCACCAAGGAGGTAAAACAGTGCAGCAAGAGTGAGTGACTGAGGAAGAGGTATTTTTAATCAGGCAGTGAGG
GACAGTCTCTCTAAGGAGAGACTGTGAGGGATAAGAAGGAGCCAGTCACAGACAATCTGGGATGAGGATGTTCTAGACAGAGAAACAGCAAGTGCAAACG
TCCTGAGGCAGGAGTGGGCTTGGCATGTGGAAGAGCAGACAGGTGGCCAGTGTGGCTGGAAGGGAGTGACTATGTGCRAGAGCACAGAGAAAAAGAGATC
AGAGAGGTCAACAGGGGCCAAGTCAGGCAGGGCCGTGCAGCCTCCATAAGAGTTTGGACCTTGTTTCAAGTGCAGCAGGACACCACTGGAGGACTTTAAG
AAGGCGAGTGATGAAACTTCACAAAGACTGCTGTGACAGGGCAATGAAAGGGCTGACTCAACTTAATTCAGTCTAGGAAAAGCTGGTGACATTGCTACTG
AGTCCCRAAAGAAGGAAGAAAGCAAACTGGTGAAGGGGCAGGGGAGGTGGCAGGAAAAGGTCTCTCCAGGCCAGGCCCAGGGAACAGCAAATGAAAAGGT
GCCGAGGTCTCTGTTGACCTCCCTCTTAGAACAGGAAAATGAGAGGCTACTGAGAGTCCAGAAAGGGAAGGAAGGAAGGGTGTGGAGTGGAGCCAGTTAA
GGACACAGGGAACTACTCAAGTTCCATGGAATGGAGTTGTTTTCTGAGCAACTTGTTCCCAGTCCATTGCTACGTTATTCTGGGCAACCGGTGTCTTTTT
GCCTGTGTTACTATCAGATGGGTTGGCAGTCCATGTGTAAGTTGTACTCCATATTCTCCATATACTGGAGAATTACTGGGCTAACCACTGCAGTGCTGAT
TAGAATCTAGGCCTGGCTCTATAACAAAGTGAGACCCAGGGAGAGAAGTATATTTCTCTCATCAGTCCAGATGAAAATAGTCCACGACTAGTACCATGGC
TCTATAAAGTCATCATGGCCCCAGCCTCATTCCACCTTTCTGCTCTGCTTTTCCCAGAGTGGGGTTTTCAGTCTCACGACTCTCAGTGGCTGCTAGAGTT
CCAGCAATCATGTAATCATCCCTGGCAGCAGGATGGAGGAAGATCTAAAAAGAGGAGGCAGCCTTCCCTGCTTTAAAGAGATTCTGGGGCTGGGTGCAGT
GGCTCATGCCTGTAATCCCAACACTTTGGGGGGCCAAAGCGGGCAGATCGCCTGAGCTCAGGAGTTAGAAACCACCCTGGGCAACATGGTGAAACCCCAT
CTCTACTAAAATACAAAAAAATTAGCCAGGCATGGTGGCGCGCACCTGTAATCCCAGCTACTCCGGAGGCTGAGGCAGAGAATCGCTTAAGCCTGGGAGG
CAGAGGTTGTAGTGAGCCAAGATCGTGCCACTACACTCCAGCTTGGGCGATAGAGTGAGACTCCTTCTCAAAAAAAAAAAAAAGAAAAAAAATACGAAAA
ACAAAAAAGAAAAAAGAGATTCTAGAAGTCCCACACAACACTCCGACTCCCATCTTATTGACCAGATCCAAGCATGTGACCTCCATCCAGCTGCAGGGGA
GGCTGGGCGGTGTTATCTTCAAGCAAAGTAGTCACGTAAGCACAAAATCAGGATTCTGTGAAAGAGTAGAAAATGGATACTTGTCTCGTGCACGCATGGC
TTTCCTCAAAGTGGCCCGAGGCCCATAGAAATCTCACCCCTGAGCATTAAGAATTGAGAGAATGGGAGGTGGCAGGGCGAGGCCCCCAAAGGTTGAAGCC
AAAGCTCAAAATTGCATGACCAGAGTCACCTCCTTGTCACTTTCCTGGACAATTAATGCAATCATTCCTTACACTCTAGTGAGTCAACCTCCCCTTCAAC
AACCAGACCAAGGACTTGGAGTGTTGCTGCCCTGAATGTTTTCATGTGGGACAGTTGAATAACTGAAGGGATCTTCCAGGAGAACCACAAGAATGGATGT
CCTTGTTTTCCAAAGCAGGTCCTTAGTGGGGGACAAACAAGGGAGTCAGAGGAARACTGCTGCTAATGATACTAATAATAATAGCRTGTTCTGCACTCAY
TGTGTGTGGCCTGGAGGCACTCTAAGATCTGCCCCCCTTACCACATTCCTTACTGTCCCCTCCACTTAACCTACTTCAGCCACGCTTGCCAAACACGTTC
TTACCTCAGGACCTTTGCACTTGCTGTTCCCTCTGCCTGGAATGCTTTTCCCACTGATGGTCATGTGGCCAGCTCCTCTTTATCATTCAGGTCTCAGCTC
AAATGTCACATCCACAAGGAGGCCCTCCTTGATCACCCCAGCTAAAGTAAACCATCTCATAGTCATTCTCTTTCCCCTGACCAGCTTCATTTTTTCATAG
CCATTATCATAGCCTGAAATGATCCTGTTGACTTATTATTGTTCACTGTGTGCCCCTTCCCTCTACAAAACCATCAGCTCYGTGCAAACTGGGATTTTTG
CCTGAATTGTTTACTGCAGTATTACCAGGGCCTAAAAGATTACCTGGCACATCCCCACATGAATGAATGAATGAATGAATGAGGTAAATCCTTMTAAGAA
TCTGACCATGTTRGTATTAATAGTCCCTTTTTATAGATGAGGAAAGTGAAGCTCATGGAGATGAAGTTCCTTGTGTAAATTCAAACAGCCAGTAAATGTC
AGGGGCAAGATTTGAACCCAGATCTTGCTGATTCCATCCTTCTCTTTGGCCTCCCTCCATTGCATAATAACAATAGCTCATTGTAACAGCTCCCACCATT
AGAACGGTCGTCCTTATATCGAGGCGAAGTACTCCTCGCAGCTTTAAAACAAACGAACATCTAACATTCATCGAGGCCTTACTGCGTGCCAGGCACCCCC
GCGCATTATCTCATTGAATTCCCACATGACAACCCAGTGAGGGAGGAACTCTGGTGATCCCCATTGCACAGATGAAGAAATTGAGGCTCAGGGAGGTTAA
GAAACTTGTCCRAGGCCTCACAGCTGGAAAATTGAAAACAGATTAAAATGCAAGTCCTGGTTCTTAACCAACACATTCTAGTGCCTCCCTCCCCCTGGAT
CTAGCTCATTCATTCCTTATCAAATTTCATTTATCCTGCCTTCTTTCTTTCTTTGATGAATGAATGAGAATAGGGCTCACTGTAAAAGAGAGTAGATGAA
AATTCACATACAAAGAGTCTTCCTGATCATTTCAACCCTTTTCTGGCCAACCTCTTGTCAGATCTGATGAGATCATCATTATTTTTAACTTTGTGTTTTC
ACTGCCAAAGGGCTCAGACCACTGGGGTGGGGGAAGCATCAGTTCAGCCACTGTCTTGATGTTCTCCTGTGTTTCCATTGCTAATACTACCCCCAAACCC
TTGTGGCTTTACCAAGATCTTTATGTTTTATTTTTATTTCTTTAGAGACAGGGGGGAGGGAGGGTCTCACTATGTTCCCCAGGCTGGTCTCAAACTCCTG
GCCTTAAGTGATCCTCCCGCCTCAGCTTCCCAAAGTGCCAGGATCATAGGTGTGAGCCACCATGCCCGTTTTCCAGGATCTTTGTAAGCCATTCATCTTT
GTCTGAGAGGACTAGTTAGCTTAAAATCAGAAAATAGAATCTGTAACCTGACTCGACCAGATGAATTAGTGAGAAGATGCTAGATTGTGCTACAGTAATG
AAGAAATCCACAATCTCTTGACTTTACCCATCAAAGTTTTGTGTGAAGAACTCACACCCACTCTTAAATGCCTCTGCCAGTACCCACACAGAGCCCATAC
AGAACCAGATATCCCCGCCCCACTGCCTCGAGGAAATAGACATTTTGCCCAGGAAGAAGACTGGAACCAGACACCCATGAGTGCTAGAAGTCTCTTCACC
CCAGACACACATACATGGCACTGCGGCCATCAAACAAAGATGTGAGGGCTTCCTTGCCAACCCCGCTAAGCTGAAGCACCCCTACTCTCCCGCCAGGGGT
CTTCTCCTTTCTCCATGGCTGCCTGACATACTGAGTGAACAAGGATCCCGATGTTAATTCATGGACTTAACATCAGGAAAACTTGATTTCTTGGTTTGTT
TGTTTGTTTGTTTTTAACAGTAAAGGGTAGAAATGCCAGTCATTTGTTTCTGCACTGCAGTGTGTCATATTGTGCACACACCCATATTGGGGACCATCTC
CTTAGCCTGTTATAAAGCATTTTGTAAGTTTCAAAGCACTTACTGTGTCCCCCTGGAGGACACAGTAAGAGACCAGAGGCCTCACTGTTGAGGGAGGGAA
TGATGTGTATCACTTTTGGGTGCGGGCATTTAAGAGCAAGTGTGACTTGCCCACACTGTCCCTTCCTCTGCCTTGGCAAGACTGGAGGCTACCAATTGAG
ATGGTAGAGCCACTAGGTTCTTGAGTCACCACCTAGAAAGGAACTGTACTGGAGACCCATTAGACTCTCAGTGGATCCTGCATGAGAAAGATCAGAGATG
TGACGACACTTGCCGAAGCATGCCCAGCCAGAATTAAAAGTAGGTCTCCYGACTACCCACGTGTCCATTTCACCTCAATATGAATCTCTGGTGAGACTAA
ACTGCTATAATTTCATAATAGATGAGAAAGATCTATTGTTAAGCCACCAAAATGTCTCTTTCAAAAAGTAGATTGGACATTAACCAGTAAATCTGGCTAT
TGTCAAAAAAAGACCACTCACAGAGCCATTATTCTGACATTAGCCAGAGTACTACCTAACCCCAGCATCTCTCCAGACTCATATAATTAGCTTCCATTAG
CAACCCCAGCCACCTTGGTCAAGCTCTCAGAGACTACCCTCCCCAGTCCCCTCCAGCCAGACTCAGAGGACAAGGAAACCGGTTTGTGGCCGGCAGAACC
TGGGGACACTGTCCTTGCCTAACACTTCCTGTGCTCCTCATTTTTCATTCAATACATTGCTCTCTACAACAGGAATGGACCCGTGCCATTCATCACGGTT
AACACTGACAGTTCCTCCCCCACCTGCTCATGTCCTCAGCAAATATAGGGAATTGGCAACCACCCAGGCAGGGAGCACACTGTCTCGCATTTCTCCCCTT
CAGAAACAAGCCTCTTCATCCCCTCTTCCCTCTGCAGGGATCAGTTTTGAGTCCCTCTTCCTCCTCCACCAGAGACCATTGTCCTCAGGTTGGCAGGAGA
TGGTGACATCACCATCTCCCAGAATTCCTGCCTTTGGAGAGGCTTGTGGGAACCTGGCTGGCCTGTTAGGAAGAGGTTGCCCAACCCAGAGCTTGTTAAG
AAGAGTGCAGTTACCTCAGAGAGACGGTTCAAGTGAAGGCATAAGTTAAAAACCAGACCCCAGGATACTAGGATAAGAAAGGTCCCAGGTATGTATATTT
TTTAAAATAAAGAAGGGCATCAAAGTCTAGTATACATCAGTTTAAACTCTCTCTCTACTACTTTCTTCTTCTTCTTCTTCTTCTTTTTTTTTTTTTTTTT
TTTTTTTTTGACAGAGTTTTGCTCTGTTGCCCAGGCTAGAGTACAGTGGCATGATCTCGGCTCACTACTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCC
TCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCAACACACCTGACTAATTTTTGTATTTTTAGTAAAGACAAGGTTTCACCTTGTTGGCCAGGCTG
GTCTCAAACTCCTGACCTCAAGTGATCTGCCCAMCTCGGCCTCCCAAAGTGCTGGGATTACAGGCCTGCACCACCATGCCTGGCCATCTACTATTTTCTT
AATTGTTCCTCTGGACATTTGTTCTTAAGCCTCAGTTTCCCCAATTATAAAACAGGTGGAGGCACAGCACAGCCTGTAGGATTGTTATCAGGATGAAATG
AGATCCTTTGTTCCATAGATATGTATTGAGCACCAACTATGTGCTCTAAGGATTCAAGATTGAGAAAAATCAGATATAACCCCTGCCCTCACACTGCTTA
CAGTCTGCAGAGGTGGACATTACTGCAAAATTGCAACTTGAACAGTGTTATGAGGAGAAGGATAATAGTACTATGAGAGTCTGTGATTGGGATTTGACTT
GGTCAGGAAAGTCAAGGATGGCTTCCTTGAACAGGTGATCTTGAGCTAAGAAGGATGAGTAGGAAGTAACCAGGCAGAGTGAAGGGAAAAGCACTCCGGG
TGGAGGGAACARTGTGGGAAAGGTCCCGTGGCAAGAAGATAGTGAAGACTATGAACGACCAAAGGAAGGTTACTGGTTAATGTACCTGAGATGAGGGGGC
AGAGAAGAGCATGGAACAAGAGAAGGCTGGARAGTTAGTCAGGCAGGGAGAGACTAAGCGGCTGTAACAATGAGACCCCAAAATACAGKGAGTGGCTTCA
ACAAGATGGATGTCATGAGATAGACCAGGAGCTGGCAAACTTTTTCCATAAAGGGCCAGTCTAGCACTGAGATTCGCTTCCATCTCAGATCCAAGACAGT
TGCTCCAGCTCTGCCCAGCACATCTGCCTGCCAGCCAGCAAGGAGGAAAAGGAGACAGGGCTTCTATTATTTCTGCTCACCTTCCATTGGCCAATGTTAA
TCACATGGCCACATCTAACTGCAAGGGAAGCTGGGAAATGTAGTCTTTATTCTGGGCAGCCCTGGGTCCAGCTAAAACTCTGTGACAATGGAAGAGGGGA
AGAATAGATGTTGGTGACAGCTAGTGGTCTTTGCAATAGTGGGCCAGAGAGTGGTTTTGGGGAGGCCAGAAAGAAGTCCTGATGCGGGAGGRTGGGGACT
GTGCAGGTGGAGAGAATGGAACAGATGCGCAGATGTTGGTGAACTTGAATTGATCAGACTTAGCAACCACTATCTTCTTGCCATGGGGCCTTTCCCACAC
TGTTCCTTTCGCCTGGAATGCTTTTCCCTTCACTCTGCATGGTTACTTCCTACTTATCCTTCTTAGCTCTTAGCCTGCCYCCTGCAGGCTCCTGTCTCCT
GATCCCTGGGTATGGRGATAGGGCAGGGTATAGCAAGTGTGACCCCCATGTTCCTGGCTTGTGGAGTCTGATGCAGATCTTGTCTGGAAAGTTCTTCATA
CCCTATGGCAGGTGTTGTCTTCATTATCGCCTCAGGTGGGTCAGTGACTGCAAACCCAGCTGCCTGCAGAGACAGATCACAAAACAGGTGAAGGGCCTGT
GGCACACTAGGGAGCTGGTTCACTCTCCCAAGGGGTTGCTGTTCCTTAGCTCTAGCCAGTGGTTGCCACTGGGAATGCAGGTTGAGTGAAGACGAGCATC
TAATTTTCCAAAAGAATGTGAAAATCTGGATTTTTATGTAAAATCTCCCAATTTTGAAACTCGGTCAACCAAGTAAAAATAAACTTCCCAGCAGCAAAGC
CTCTGGGTTATAAGGGCTAGGGCGCCCTCCACAGTGGCCCTCCATCCTCTTTCCATCTTTGTGACTGTTTTCTTCTCATGGCAAAGCCCTCTGCTTTCAT
CCTTTGTTGTACACGCACAGGATTCCTGTCCCTTTGTGCCCACGAGCGCCCCCTGCAGGCTTCTGACTCCAATGTCTTACCAATCCTCTGCCAGGGACCC
CTCCCTGCCTGTAGGGGATGCGGGCAACCCCATCAGCCTGCTCCCAATCCCCTTAATCGGATCTGCACCAGTGACCCTTCTAATTAAAACTCCCCAGCTG
TAATCCCCCCTTAAAGCTGGGGGAAGCGGAAGCACCATAAAAGGACCGAAGGTTTGATGGGCCAGCAGCCGCCTCCTCCTACGTCCTTGAAAACGTCTTG
GGAGACCCACAGACCTGAGATCAAGTCCATGGGTCTGGAACCACCGCTTACAAGTTGCGAGACTCTGGAAAAGTCACTTCATTCTCTCAGCCTCCATTTT
CTTTATTCACTTGTTCATTCATTTGTCAGCTATATAGAAAGCTCCCATCTGTACCAAGCACTGTTTCAGGAGCTGAGGACACAGCACTGGACAAGACCGA
CCCAGTTCGGGCCCTCATGGAGGTGACACTTTAGTGTGGGACAGAAAGGAGAAAACAGTTTCAGCTCAGCAGCACCAGGGCTGTGATCAGAGATGCGCAG
GGGCTGTGTGAGCTCAGAGAACTGATGTACCTAATGCAGACCGGGGGCCCAGAGAGGGCTCGCTGGGGCAAGTGGCCCCAAAGCTGAGGCCTGAATAGGC
AGTAGGAACCAGCCAGGAGAAGTGGGTTTGGAGTAGGAGGAAGGGTACTCCAGGCAGAGGGAACAGCAAAGATCTAGAGGTGGAAGCACCCATGGTGGTG
AGTTTGGGAACTTTAAGTGGTTTCTGCAGGATTCAGTGTGGGWTACAATGGGAAATAGGGGAAATGGTCAGGAGAGAGAAGAAAAGGGATCTTAATATAA
AACCCAGATCTCTTCATCAGGTCTCATCAGGCCCACCCCGCTCTCCCGCTCTCGCTCATGCAGCCCCAGCCATGCTGAGCTTCTTTGGGTTGCTTGATAT
ACCAGGCTTATTCCCACCCAAGGCTTTCATACGTGCCGTGCCTTCTGCCTAGAATGTTCGCATCTTTGAATGACACACACTTCTTATTTTTAAGTCTCAG
CAACGAGACACCTCCTAAGAGAGGCCTGCCCTGACCACTCTGCCTCCCGTGGACACCCCTAGTGCTTCTGCATCGATCCCCCTGGTTTGCTTTTCTCAAT
AACTCACAGCATCTAACACTATCTGACATCACCTTGCCTCTTTCCTGGTTTACGTTTTTGGGTTTTTTTGGTCTGCCTCTCCCTGCTAGCTCCATGAGGC
TAGGAAATTTTCTTCCTTATTCATGCAGCACCCTCAGCAACTAGCATAGCACTTAGGAAGTGCTCAATAAGCACATGCCAACTAAAGGCACAGGAACTGG
AACTTAACTGGGAGAATGGGGAGTCGCTGCAGGGCTTACAGCAGCTCTGTGGCTTGCTCAGCTTCTTCTCTCCTATGAACTATCCATATGTTGTGGGGAT
GGAAAGCAATGGGCTGACATGGGCAATGTGGCAAAACCCCATCTCTACAAAAAATACAAAAAGGGAGGTTGAGGCTGCGGTGAGCCAAGATCACATCCCT
GCACCCCAGCCTGGGCAACAGAGTGAGATCCTGTCTCAAAAGAAAAAAAAAGGCCCGGTGCGGTGGTTCACACCTGTAATCCCAACACTTTGAGAGGCCA
AGGCGGGTGGATGACATGAGGTCAGGGGTTCAAGACCAGTCTGGCTAACATGGTGAAACTCTGTCTCTACTAAAAATATAAAAATTAGCTGGACGTGGTG
GCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCACAAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGTCGTGATCGCGATACTGCACTCCAGC
CTCGGCTACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAAAAGAAAAGAAAAGCAATAGCAATGGGCTGC
CCTTTATGGAAAGCAACTTTTTATATAACTTTATCGAGGCTTACTTTATGTATCATATAATGCACACCCATTTCCAGCATACAATTTGATAATTTTTATT
AAATTTTACCAAATCGTGCAGGCTTTGCCCTAARTCAGTTTTTAGAACACGACGTCCTTTATGATCATTAACTGTTAATCCCTATCCCCCACCCTGGCAA
CCACTAACCTACTTTCTGTCTCTATAGATTTGCTTTATCTGAACATTTCATATAAATGGAATCATATAATAAGTGGCTTTTTGTGTCYGACTTCTCTCAC
TTATCATAATGTTTTCATGGTTCGTCTGTGTTGTAGCATATATCAGCACTTCATTCCTTTTTATGGATGAAGAATATTCCATTGTATGGATAGCTGCATT
TCGTTTATCCATTCATCAGTTGACGGACATTGGGGTTGTTTCCACTGTGGGGCTATTATGAATACTGCAGCTATAAACCTGCATGTTTACGAAGAGCAAT
TTGCAAGCCCTAAACACTAGGTGCAGCTTCCAGCTTGCCAAAGCTTCTAGTGTTACTGAACAGTGTTGACAGCAATGGGCTGTGTGACCGTGGGCAAGTC
ACTTCCGTTCTCTGCTTGAGTTTCCCCATCTTCCCAGCAGGAAGCTTGAGCCCTTTTCTGCATGGACAGTCTGTGCCTCATCCACATTCCTGGAACAGCA
GGGAAGTGTGCAGAGGCCACGATAAACAGTCCGTAGGCCTCTCTGTGATTAACCACCAGAGCCGACGATTAGGATGAGGAGGGCCTGGCTCCAGCACTCC
TGAATTCCACCCTGGGGATCCCCACCTGCCAATCTCTTCCCCCAGAGGACCAAAGCCCCCTCTCCCATTTGGTGCAGACAGGTAGGCTCCAGGATCCAGA
ACCTCTTCACAGGGAATTTGGGGACAGCCTCCCAGTCTCTGGAGCTGGCTCCTGCCTCTGCTCCCCGGGTTCCTGGAGTTCTGCCAAGCCCAACTGGGCT
CAGATCCCAGAAAAGCAGAGGCCTGTCCAGGCCTGAGCTGGGGCTGGGAGGACTCCCAGGTGGTAGTCAGTTCCCCATTCCTGGGGCTTATCCCAGAAAC
CAAATCAACACAGTCCATCTGGGTCCACGAGCTGTTTAGAGGACGCACGCTGCCTTAGGCAGTCACTGGGGTCTACACAGCTACTCCTGGCTTCCAAAAG
CAACCAGTACAGAGGTTAGGGATGGGGTTGACCATAAATTACCTGAATAATAATTTATTTATTTGAGACAGAGTTTCCCTCTTGTCRCCCAGGCTGGAGT
GCAGTGGCTCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTAAAGGCACCCACCA
CCACACCCGGCTAATTTGTGTATATTTAGTAGAGATGGGTTTCACCATGTTGGCCAGGCTGGTTTCGAACTCCTCAGGTGATCTGCCCACCTCGGCCTCC
CAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCGGCCCTGAATAATAATTTAATAACATTATATATTAAGTGGCTTTTAGGTGAGTACTCAGTTAC
CTTCATCTTCATTTCAGAGAAAAGGAAATAGAGGCTCAGAGAGGGGGAGTGGCTTGTCCAAAGCCACACAGCTGGGGAATAATAGCCTTGGGACTCAAAC
TCAAGTCCAAAACCAGCTATAAATAAATGTAAAGAAATGTGGAGAAATAAATACAATTAAAGTTTAAAGTGATTGTGCCACTAGCTAAGGGCATTTTGAG
TTCAWTGAATTTTCATTGCAGTCTTGCAATGATCCCTGTCTTACATATAGGGAAACTGAGGCACAGAGGGCTTAAATCACGTTGGGAAGTTCCCCAGGCA
GGAAGTGTGGCCCTGATTCTAAGGGCCTCACTGAGTCTGGGAAAGAAAAAGTTCTTGCAGGTGGGGTCAGGAGGGGTGGGGCAGGGGAGACCCCCCACAC
TGCATTACCGCATACGCTGTGTGATGCACATTCACACAGACCGATGGCAGGTGTGCTCTGACCCTCCCAACCCAACCCTGAGCAGCAGGCACTCCCCCAC
ACCCYCCACCTTGGAGTCCAGTGGAGCCCCTCCCCCTGCTTTGCTCGTTTCCTAGGCTTCCTTGGGCTGAGGGAAGGGGAGAGGGAGGGCACAGTCTCAA
GTACAAAAGGGGTGCCTGCTTTAGGTCTGTACAATAGCTGGGTGCATAATTCATGCATCTGTCGCCAGAACATCAATTATGTGGGCCTTCCCTGGAGTTG
TCTGGGGGTTAGAAACCAAAGCAGGCTTCCCCTGCTAGCCTTTGGGGGAAAATAAGACTGCCCAGCTCTTAAAGGAACAGACTCCCAGGGAACCCATTCC
TCCCTGTGCAGGCGCCCTCCTGCCAGAAGTCACCAGACGAGAGCAGCTTCCTGTAGGGCTCAGCCCAAAGCCCACTGGCTGCCCACTCTGACCCACTCTG
TGTCCCCAACTCCACAATTGTGAGGGGCTGACTATTGGCATGTCCCAGAGTTTCTCAATCTCAGTACTGATGGCATTTCAGGCTAGATCATTCTTTGCCG
TGGGAGCTGTCCTGTGCATTGTAGGGCATTTAGTGACATCCCAGACCTCCACCCCCAAGATGTCAGGAGCACCCCTCCCACCAGTTGTAACGACCAAAAA
TTTCTGCCAAAATTGCCAAGTGTCCCCCAGGAGTAAAAATCATCCCCTTAAAAACCACTAGTATGTCCTCATTTTACAAATAAGGAAACTGAGGCAGTGA
ACATTTGGATGCCCAAGGCCATTCCACCAATGAATGGCAAGAGCTAGAATTTCAACTCCAGGACCCACACTCCTCAGCTCAACACAGGAGCACCAAAAAG
TGTGCTGCCAAGATGTTATTCCAACAATTACATATTTATTTTGGTGAATATTTAATACATATAGCCCTGGCATGAAAAATCAGCAATTTTGCATATGATT
TCTTAGAATAAAGCTAAAATAAAATAAAGAAGGTGAGTGGGCTTTTTTGATTTTTTGTTTTTACCATTAAGGAAAGAGTGATACAAGTAGCAAAATACAT
ACAGTATAACGTCAAAACTGAGCAAAGTCCAGGTGCGGTGGCTCACGCTTGTAATCCTAGCACTTTGGGGGCCCTGGTGGGAGGATTGCTTGAGGCCAGG
AGTTCAAGACCAGCCTGGGCAACATAGTGAGACCCCATCTCTACAAAATATAGCCAGGCATGGTAGCATGCACCTGTAGTCCAAGTTACCTCGGAGGCTA
AAGCAGGAGGATCGTTTGAACCTAGGTATTCGAGCTGTGATTGCACCACTGCACTCCAGCCTGGGCCACAGAGTGAGACTCTACCTCTTAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAACGCAACAAAATGACAATTTAGGGACCCATATATTCTTATTGAAAATCATACAGAGAAACAAAGGGACGAAAAACTGCACAC
AGAGGTTATCTCTGGAGTGGGAAAGACACAAAGGAAGTGTCAGTGTTACTGCTGCCTGCTCTGTCTCTCCATTTGGGTGGCGGGTTCTAGGTGTTCATTT
GATTATGGTTCATAAATTATATATAAATTAGGTCTATTTTTGTATATATCAAACATTTTATTTTCTTTATTTTATTTTTCAGACAGAGTTTCACTCTTGT
TGCCTAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTGCCACCCCCACCTCCCGGGTTCAAGCAATTTTCCAGCCTCAGCCTCCCGAGTAGTTGGGAT
TACAGGCGCCTGCCACCACACCTGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCACATTGGCCAGGCTGGTCTTGCACTCCTGACCTCAG
GTGATCCACCTGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGTTTGAGCTACTGCACCCTGCCTCAAACATTTCATTTATAAAGTATTACAGAATCTTC
CTTTTTCAATGGGTGCAAATCAAGAAACTCAAACCTATTTTTTTTTAAACATAGGATGTGTCAGACTTAACTATAGCAAAAAAATCAGAAGTTATGGAAC
CCCTGAGGCTGGGGAGGCACCACACCTTGGAACATTCCCTTTCATCTTCAGAGCTGGCCCATCAGGGCACTGGCACTCTCTTGCCCCCTGTGGCATCCCC
AATGTCTGGCCTAGTGCCTCACGCAGAGTAGATGACCAAGAAATATTTCCCAGGCCAGTGCAGTGGCTCACACCTGTAATCCCAGTGCTTTGGGAGGCCA
AGGCAGGAGGACAGCTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACAAAGTGAGATCCCATCGTTACAAAAAAGGTTAAAAATTAGTTGGGCTTGGT
TGTGCTCTCCTGTATTCCTAGCTACTTGGGAGGCTGAGGTGGGAGAATTGCTTGAGCATGGGAGTTTGAGGCTGCAGTAAGCTATGATCACACCCTTGCA
CTCTAGCTTGGGCAACAGAGAAAGATACTGTCTCTAAAAAAAAAAAAAAAAAAACCTGAATTCTGGTACTGACCCTTCTACTTCTAACTCCATGAACTTG
AGCAACGGCCAACAAATACTTGGTGAGCACCTGTCAGGTGTCCCACCCTGGGTTAGGTGCTGGGGGCACATAGATAAACCTCAGAACCCATCCCCATCCT
CCCAGTACTCACCAATTCTGGGCAGCAATAAGCACACTCACTCACGTGCACACACACACACGCATGCACACACACACACGCACGCACCTGTGATGGGATA
TGAGTGGTAAGTATCCCCAAGGTATGGTAAAATGGTGAGGAAAYCCAAGGATGGAGCAGTCAACCCTGCCTGGGGAAAGCAGGGAGAACTCCAAAGGGAA
GGGGYCACATGGGCTGGATTTGAAAAGATGGATTGGAGTTCACCAGACAGCAAGCAAGAAGCTCGGACATGCAGAATTGACCAATGATAGTGTGCGGCTA
GAGGAGTGTGAATTTTGAGAACCGATGGCAGGAGTGGCCAGAGAGAGAGGTCAGAGTCAAAATGAGAAGGACTTGACAACCAAGTGTCCTTACTGGGGAT
TCATTGCAGGGCCAGAAACCTCCCACACTCACCCATGTAGCAATTGGGTTGACTTACAGGATACAGCAGACAGTCTCAGAACAAGGACAGGAGGCAAAGA
CCGAGACCGGGCCACCCCGAGGCTGGTGATCTGAGTGGGTGGGGTGATGTGGGCTGAGATTTCMCCTGTGATGACAGCTGGCATCTATTAGACACTCACC
GTGTGCTGCTGGAAGCTGTCCTAGCACTTTGCCTGTGCTAACACATTTCATCTTCACAGCAGTTCTCTGAGGTAGATACTGTTATTATCAGCCCATTTKC
TAGATGAGGAAACTGGGGCTTAGAGAGGTTAAATAACATGCTCAATGTAAGGAAATGGCAGAGCTGAGGCTTGAACCTCAAACAGGCTGACACCAGAGCC
TCAGCTCTTAACTGCTGCCCTCGGCACCCTGCTATGACCCTCCTGCGGTCCCCACTCCTCCTTCATCTGCACCTTCCCTTCATTCTCTGGCTTCTCTTGA
AGGTTCAGCTTTCTTTGTCTTTTTCTTTCGTTTGTTTGTTTGTTTGTTTGTTTGTTTKTTGAGATGGAATCTCACTCTGTCGCCCAGGCTGGAGCGCAGT
CGTGCAATCTCGGCTCACTGCAACCTCTGCCTGCCGGGTTCAAGCCATTCTCCTGCCTCACCTGCCAAGTAGCTGGGAATACAGGTGCCGCCACTATGCC
CGGCTAATTTCGTTTCTTTTTTTTTTTTCCTTTTTCTTTTCTTTTGTTTTCTTTCAAGACAGGGTTTCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGT
GTGGTCATGGCTCACCACAGCCTCAACCTCCTTGGGCTCAAGAGATTCTCCCGCCTCAGCCTTCCAAGTAGCTGGGACTATAGACATGTGCCAATACACC
CAGCAGATTTTTTTATTTTTTGTAGAGACGGGGTCTCACTGTGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGCAATCCCCCCACCTTAGCCTCCC
AAAGTGTTGGGATTACAAATGTAAGCCACCATGTCTAGGCTAAGGCTCAGCTTTCTCTGATGTTTTTATGGCATCTCTGTCCCCTACATTTGGGAGACAG
TTGCTTGAGGGTTGGGCTTATCATGAAGCTGATTCAAGCCTAGATTCTACTTAACATTTAATTCAGGGACTTACCCTCCCGTAACCCACTCACCGCCTGG
GTTCCTGAACTCAAATTTCTCAAAGGTAGGCTGGCTAAGCCCCAGTGTACGGATTGGCTTAACTTGGATTTTTTTATCCAAACTTCATGCTCTGATCATT
GGCAGGCAGGATCAAATGATACAACCATGGTGACCAGGCCCCCCCCTTCCCACTTAGCAGGGGCAGAGGAAGAGAAAGGGAAAATCTACAAAAGCAAGAC
AGGTATAGGGGACCCAATAGACAGGTTTAGGGGTTTGGATTTTTTCATGAGGAGCCCTGGAGATTTATTAAACAAAGGAGTAATGTGATTGGATTTGTAT
TTTTGAAAAAAAAAAAAAAGACCCTCAGAGCAATTGATTACATCTGTTTGCTTTTCTGCATAGTCTGTAGACTGGCCTACTGGCCTAGATTCCATTAATT
TCAACATATATCCATTGAGCCCTTTCTCTGGGCCAAGCTCTCTTCTTGATCCAGGGGACTCAAAGGTAGTTAAGCCAAGGTCTTTAGCCCCCAAAAGCAC
ATAGTTCCAATCAGGAGTTAACATGGGCCCAGAATGTCTGTGCCTCCCTAGGAATTACCTGCAAAATCTTGAGTGTCTAGGCATTTTTCTAGCAAAAGGT
TAGCTTTCATCTGATTTTTTTCCCCTTTGTTCTTCTATAGAGACAGAGTCTCACTATGTTGCCCAGGCTAGACTCGAACTCCTGGCCTCAAACGATCCTC
CTGCCTAGGTCTCCCAAAGTGCTGGGATTACAGACATGAGGCACCATACCCAGCCAAATCTGATTTTTAACACAGCCTTAAGAGCTCATGTTCTTGGGTC
ACACAGACCTGGGTTAAAATGCTGGCTCTTCCACTTACTAGCTGTGGAAACCCAAGTGTCCGCATCTGTTCAATGGAGCTAATAGCACTGAACGGGGTTA
TTATAAGAATGAAATGAGCTATTTCATGGAAAGTGCCTAGCACACAATGAACACTCAATCAAGGATAGTTATTATCATTAGTATCATCTCTGTGAAGGTA
GTTCCCCATCCAGTGTGAGCCACTGGTCTAGATCAGAAGTCAGCAAATCATGGTTCACAGGCCAAATTCAGTCCACTGCCTATTTTTGTAAATAAAGTTT
TATTGAAACACAGCTATGCCCATTCATGTATGTATTATCCAAGGTTGGTTTTATGCTACAGCTGCAGAGTCGAGTCGTTGTGACAGACAATGCAGGGTTT
CAGGGCCTATAAAATGGTTACTATCTGAAAAAGTATGCTTGAACCCTGGGCTTGCTGATAGCTTTAAAACATTTCATTTCTCTGGGCCTTGGTTTCCACA
TCTAGACAATAAATGGATTACAACAAATTCTCTTTTTGGCTCATTAAATGACTAGTGAAATGTGAAAATGCTCTTGAACATTGAGGAGTGCCCTGTAGAT
CCAGGATATTATGATGATCATCCTGTGGGGTGGTTGATAACTAAATCCCACTCTCTTCTCCTCACAGATCCTTGCCATAATTTCCATCATGTTCATCGTC
CTCTCCACCATTGCCCTGTCCCTCAACACGCTGCCTGAGCTACAGAGCCTCGATGAGTTCGGCCAGTCCACAGACAACCCCCAGCTGGCCCACGTGGAGG
CCGTGTGCATCGCATGGTTCACCATGGAGTACCTGCTGAGGTTCCTCTCCTCGCCCAAGAAGTGGAAGTTCTTCAAGGGCCCACTCAATGCCATTGACTT
GTTGGCCATTCTGCCATACTATGTCACCATTTTCCTCACCGAATCCAACAAGAGCGTGCTGCAATTCCAGAATGTCCGCCGCGTGGTCCAGATCTTCCGC
ATCATGCGAATTCTCCGCATCCTTAAGCTTGCACGCCACTCCACTGGCCTCCAGTCTCTGGGCTTCACTTTGCGGAGGAGCTACAATGAGTTGGGCTTGC
TCATCCTCTTCCTTGCCATGGGCATTATGATCTTCTCCAGCCTTGTCTTCTTTGCTGAGAAGGATGAGGACGACACCAAGTTCAAAAGCATCCCAGCCTC
TTTCTGGTGGGCCACCATCACCATGACTACTGTTGGGTATGGAGACATCTACCCCAAGACTCTCCTGGGGAAAATTGTTGGGGGACTCTGCTGCATTGCA
GGAGTCCTGGTGATTGCTCTTCCCATCCCCATCATCGTCAATAACTTCTCTGAGTTCTATAAGGAGCAGAAGAGACAGGAGAAAGCAATCAAACGGCGAG
AGGCTCTGGAGAGAGCCAAGAGGAATGGCAGCATCGTATCCATGAACATGAAGGATGCTTTTGCCCGGAGCATTGAGATGATGGACATTGTGGTTGAGAA
AAATGGGGAGAATATGGGTAAGAAAGACAAAGTACAAGATAACCACTTGTCTCCTAACAAATGGAAATGGACAAAGAGGACACTGTCTGAAACCAGCTCA
AGTAAGTCCTTTGAAACCAAGGAACAGGGATCCCCTGAAAAAGCCAGATCGTCTTCTAGTCCTCAGCACCTGAACGTTCAGCAGTTGGAAGACATGTACA
ATAAGATGGCCAAGACCCAATCCCAACCCATCCTCAATACCAAGGAGTCAGCAGCACAGAGCAAACCAAAGGAAGAACTTGAAATGGAGAGTATCCCCAG
CCCCGTAGCCCCTCTGCCCACTCGCACAGAAGGGGTCATTGACATGCGAAGTATGTCAAGCATTGATAGTTTCATTAGCTGTGCCACAGACTTCCCTGAG
GCCACCAGATTCTCCCACAGCCCTTTGACATCACTCCCCAGCAAGABTGGGGGCAGCACAGCCCCAGAAGTGGGCTGGCGGGGAGCTCTGGGTGCCAGTG
GTGGTAGGTTTGTGGAGGCCAACCCCAGCCCTGATGCCAGCCAGCACTCTAGTTTCTTCATCGAGAGCCCCAAGAGTTCCATGAAAACTAACAACCCTTT
GAAGCTCCGAGCACTTAAAGTCAACTTCATGGAGGGTGACCCCAGTCCACTCCTCCCCGTTCTAGGGATGTACCATGACCCTCTCAGGAACCGGGGGAGT
GCTGCGGCTGCTGTCGCTGGACTGGAGTGTGCCACGCTTTTGGACAAGGCTGTGCTGAGCCCAGAGTCCTCCATCTACACCACAGCAAGTGCTAAGACAC
CCCCCCGGTCTCCTGAGAAACACACAGCAATAGCGTTCAACTTTGAGGCGGGTGTCCACCAGTACATTGACGCAGACACAGATGATGAGGGACAGCTGCT
CTACAGTGTGGACTCCAGCCCCCCCAAAAGCCTCCCTGGGAGCACCAGTCCGAAGTTCAGCACGGGGACAAGATCGGAGAAAAACCACTTTGAAAGCTCC
CCTTTACCCACCTCCCCTAAGTTCTTAAGGCAGAACTGTATTTACTCCACAGAAGCATTGACTGGAAAAGGCYCCAGTGGTCAGGAAAAGTGCAAACTTG
AGAACCACATCTCCCCTGACGTCCGTGTGTTGCCAGGGGGAGGAGCCCATGGAAGCACACGAGATCAGARCATCTGAACTGCCCTGCCTTGGAGGAGAGA
CTTTTGGGTGAGGTCCAAAGAGGAGAGCTGTTCAGCTTACCTGCCACAGAGCTTTTCTGCATGAACTCTGGAACAGAAAGGCCCTGTAAAGCCCTCAGAG
AGAAGAGAGACTCCAGAGAAGGCTCCCTAAGACCTTGAGAGCCATGACAGGTCCATCAGCATGAAGTTGGCCAAGCCATAGGGCACAGCACCTCCTTGTA
ACAACTCTATAGCCCTCTTTGGGAGATGACATGAGTGGAACTCACAGCCACCACTACCACCACTTTAGACAGGACCGAGGCCACATACTCCCCATTCTCT
CGTGGCTTTCCATCTCAGCCTCGGAGGGCAACATTGACAGTCCTCCTGGCTTCAGCTAGAGAAGGATGCTGGAACAAGCGGCTGGTGTTGAAAGAGTGGG
TTGACCAATTTGGTATTGAATGTTGCCCAGCCACCCCTAGGAACACCTGTCCATCACCTCCTGGATGGATTCCACTGTTAGACAGCTACAGGGAATGATT
GGTCATGGGGAAGTCTCTGCGCCATAAGCCACGATCMCAGCGCAAAACCCTTACTCAAATGTCTTCATTGACTTCGGTATTTCATAGTACCYGAGATTTT
WTTTTGAGATACCATCAGGGTGAGTTGCACCACTTGTACTCAATTCTAATTGCCCCCTGGCAATCTGGGAAGGGTTCAGAAGGTGGGCACCCAGCCAACA
GCATGAACTCAGAGCATTGTTTTAGGGTTGGAGGAGGAACACGCTTTCTTTACATCACTAGTGTAGACTCAMAAGATATGCAAGTGTCAAATATGCAAAA
GAAATAGTTTATTCAAAGAGACTGTGTGTTACTGAAGAACAGCATAAAAATATGATTTTTTTACTTGCAAAAATGAAAGGAAAAAAATACCACGCRTTGA
AATGCCCAGTTCAGACTGAATAATTCCTGCTGCAGCAAGGAAAGTACCTACTATAATAGAAATTCTGTTTTGTTTTCTGTGGTTTTCAAGTTAAAAAAAA
AAAAGTTAAAATAAAAAGCACTTTATGTTTTTCAAAAATAGGTTCTGCCAGGGACAGTGTCAACATCTTGCACTTTAAAATAAGCACTATTTCCCATAGC
CCAATTGTTGGGACTGTAGTTGGATTGTTGCTACCTGCCCATTTCTGGCCAGCATGGGTAATATTGTGCTGGTATTACTGTCTGCCATATCAAAGTCTGT
GGGCTCCTTCCCTGCCCCTCTGAAACCTTCCCTTAACCCTCATGGGTCAGGAGGGGTTCTTGCCCCTTGGGTGGGGCCTCTCATGAAGTCAAGTATACAG
GAGACATGCACATCTCAAAAGGACACAGTGACAGTTGGACATTGGGTGTTTTACTCTGTTCTCTTTCTTGTCAACCAGCTATTGGTTTTTCAGTGTCACT
GTCTGTACTAAAAGCTCAACTCTCCTTCCTGCAGCCATCGATGCAGCCAGTACAGACAAAAGCAATAAGTATTTGTGTGCATCCTGAGTGGTTCTGGTGT
ATTTCTTGGTGTTGGTTTTCCTGTCCTCGTTTGATGACCTGGCATTGTCCTGCCTGCTTTTAGTCCAACAGCATGGTGTTGTTGGCCATTCCTCAGTACA
GTGGCATTAGGTTGAACCACTGATGAATACAATGCTATAGTGTTGGCTCACCTGTCAGTAAAGATGACATGTTATTGGTCTGCCTGTCTGTAGTACAATG
GAACAATGTTGTTCTCTTAATGTAATGTTGATGGATGATGTCCCAAGTACAATAGTGTAGTTCTGTCTATCCTCAATACAGTAACAGGCATATGTCTTCC
CAGTGGAAGAAAGATATGGTATTGGTTCACCTAGTCTTAAGTCTCAATATCATCTGTTGCTGGTCTGCCTGTTAGTACAATGGCATGATCCACCTCTCAG
TACACAAATATCATGGAGCTGTTCTGCCTGCTCTTCATACATAAGGCATAAGGTTGAGCCACCTGCCACACATATGATGAGATGGGATCATTCCACCACC
CTTAAAAATATGTCTTCTCTGCTGTATACAAACCCAATTCATAACACTTCTCAGCATCTCCAGAGACTGTAGATCCCCCCAAGAGGGTGCAGTCCTGTTC
TTTGCCGCATTAACAGAGAAAACGAGAACGTCACTCTTCCTAGGTATCTTCAGAGTATTCGCGCAGCAACTGCAAAGGGACTTAGGGGCAGGGAGAGTGT
GAGGTCATCCCGTGCCAGGCAGAGGAAGCAGCACTCCCAAAACACTTTGCTGAACACGCAGTCTGAGCTGGGGGCCTCTTGAGGAATGACTGTGGGACAG
TTCTCCGCCGACCATCTCACATGTCTCTTCTTTGTTTTCATCACCATTAATGTCCACCATCAGCACAAATGTGAAAATTCAGGGAAAAAAACAAATGCTT
TTTGATAAAAGTAAATAGTTGTGATTTCCAATTCAGATATTTTTAGAGCTGATGCTATCTGTAAAAAATAATAATAATAATAATATAGTCTATTTTACAT
ATCAGGAAAGTGAACATGTTTCAATATAGCCATATATATTGAGAAGGAACTTACCACCCCTTCTTCCAATCGAGGCATTTCATTTGTTGGTTGAAGCAGA
TGAGAACTGTACAGATTGAAAATGATTTGTTTTTTTTTTTTTTTAAAAAAAACGAAAACCAATTGGTGCAACTCTCCTTGTAACCAAAGGCCCTTTCTGC
CTTCTGTGGTCATGTAGGACCTGGCCCTTCCTTCCTTGTGTATTTTGTCCAACCGTAAAGTAGCATTTTATTGAGTCACTTTTGAAGGACGAATTCAGAA
GTATCATTAAGAACCTACCTTTTCAGGCTTCATAGCCAGAGTCCTATAGAGTTCTTATAGAAACAGAATAATTGAAATTCAGCATATACTATGCTTAGAA
AGTATTTTGTTTGGGTTTGATTGGGTTTTTTTTTCTTTTACTTGTGTGTGTATGTACTGGGGGAGTATAGCTTTTATTCTGTGCTCAATTCGAAAGAGAG
TATTATAAGTTTTCCCAGCCCATCCACCCGCTAAAAAAGAACATATCCAAATTTTAATATGTATACACCCAACCTGTACCTATGTACGTGAATATACATG
CACTGGGAAATCTACTTAAGAGTCTTCACTGAGAAGTTCACTCGATAGAAAGGTCTTGATAGAGAAGAGAAGAGGAAAGCAATGGTCTGAAGGCAAATCC
TGCTTTAACTTGGTGGTCCATTTCCCATTCATTCCTGAACCAATGAGAGCAGAAAGAAACAAGTCAACCCAAACAAGCAAACTAGGGGCTGGACGCGGCG
AATGGATGCTGGTCAGTTTGGCAAATTCACTGAAACTCATCAAGAACCCAGCTGAACTTGCATTCCAACTTCCACAATTATCTGAAAGGGCTAGGGACCA
GGTAGCCATGTGTCCCAATCACACGGGGGAGAGTCTGCCACCGGCGGTGAGAGAGGTGGGGAAGCTTTGGAGGAGACAGTATATTCACCTTTTTATCTTT
GGGTAAAAGAAACCAACAGGACTTTGGTGCAGTAGATTTCTCAGTGCCTTCTTTAGGAATTCTATCTTAAGCACACTTCAAGGGGAAAGAAAAAAGGAGG
AGAGAACATTTGTTCCCGTGAAGTCCCTTTCTCCAAAGGACTGGGGATCAAGAAGGAAGAAGAGTAAGAAGGAAAAACAACAAAATCCTGAGGAGGCCAT
TTCTTTTAACCCACCCAGCTTGCCCCTGAAAACTGCTGGTGATACAAACTTTTTCAAACTGACTTCCAGCTTCTCCATGTGTCTTGGTAACTGTAGCCTC
GTCTCTGCCCTTTCTCCTAATAAGATCCATGTTTCTAAGGAGAAAAACAAAACAGTATTCTCTTCTGTAAAACTGTAATGTATTGTTGATATTTGTAACT
ATTGTATATTTCTGTCTTGCTCCAGTCCCAGCTGGAGTGTCTAGTTCCATGGACAAGGGGATATTTAAAATTCACCACGGACAAGAGCCACTAAAGCCAG
GTCTCTATCGCTAATCTCTCTCCTATTCTTATTTCTCTACCAACTAATCTCAAGTAACAATACCCCAGGCTTTTTTTCAGCCTCAATTCAAGTAACTTTG
AATCAAAAGAGAGCAAGGCAAAAAGCCTCCGGACATGCTTCTTTGGGAAAGGACTTTTTCTGTAGCTGCAGAGTGGGCAGGAGGGAGAAGGGGCTCCCCT
GAGACCCCGGCAGGACAATGGAAAGCTTCCAGCCCCGAGCTGATGTTTCCTCACCTATCACTGCTTATAGGACAGCATCCAAATGCTTTCATGTCACTCA
GCCCAGGCAACCCAAACCAGTCCTGGCTACACCCAGAAATAAGAGTTACCTCTGCATTTTCTGTTGCCATTTTTCTGGCTCTAGAAGTATCTGATGCGCG
ACTATGTCATAGAATGTCCACGCATCTCAGAGTAGTCTATTTTTCTGTTCAGATAAAATATATATATATATGTATTTTTAGCAAATTTATAATAGGGCAA
TTGAGTCTAATTTCTTCTTTTGTAATACAGAACAATATCTTAGGAGTTTCATTGTTGGTCATTATCGTAGCTGATGTTTTCTGGTCTTTTGCAGTTCCTA
CCATTGTCCCTTGGGCTGTTTGGGTTTTCTTCCTTTTGATTCTGATTTCTTGAGGGTGGGGAAAGACTTTGGGGTTTGACTTCCTTGTGTAGGCATTTCT
TGACACTAGGCCTGGACTCTGTCAATGCTGTGACTTTCCTCATTCATTTCTGTGTGTTTCTCCCATTCGTTGTTCTTAAGAATCCAGGGCATGAATGCAG
GAATGAGACCCAGGGAAGCAGAGCTACAGATGGCCCTCAAAATCAGGATGGGATGTGGGCTGGTTTCACTTATATCCCACACCCCTTTAGGGATCTGAAG
GGACTGAGTTTTCTCATCCCCAGAGATCTTGGAACCAAAAATCTCATGCAAGCAAACTCATCACTGGCATTTCTGAGATCCAGAACACATGTGAGTCCCT
CCTGGCTGGGCTGCTCCCACATGTCCAGCACCCTGTCGGCCTGTAACATCAATCAGAGCTGAAGGTCAGAGGTTTTTCAGGTTCTCGTGAACCTCACAAG
AACATGCTGGGCCTCCGATCTCACCAACTTGTTTATCAGTTCCTTGTTTCGATCTGTTTATTTATTTATTTTTTTGTTATTATTATTTTGAGACAAAGTC
TTGCTCTGTTGCCCAGGCTGCAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCCTCCACCCAGGTTCAAGTGATTCTCATGTCTCAGCCTCCTGAGT
AACTGGGATTACAAGAGCGCACCATCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGGCAGAGTTTCTCCATGTTGGCCAGGCTGGTCTTGAACTCCTG
ACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAGTGCTAGGATTACAGGTGTGAGCCACCACTGCACCCAGTCCATTTCAATCCATTTCTAACAGCTTCAC
CAAAAAACAGTGGCCAGACACCCTTGCAGCCAAACCCTGAGAAGAGATGTCCCCGAATCTGCTAGCTCATCTCCCCTTCCCTTGCCAGCTGCCTGGCTCC
ATAGAGCAGGAGGTGTGTGGCAAGGACAGGGGCAGTTTTCCAGCTTCCACCTATCCACGCCTGGGGGAGTTTTTGGACTGTCCTGATAATTAATTCCAGA
GGCAGTTTTCAGTCCTGGGTGGGCGGAGGACATCTCACTAGGCAGGATCTTCAGCAGAAAGTGATTCTCCATCCGTCAACTCATGCAGGAAGATGAAGAA
AGCCCAGATAATCTCCAACTTGCATTCGTTTAGGTTTTGGTATACCACCCACCTCACTGTCAGCTGCAGGGCTTGGGGCTCTGCCTAGAATCAGAAATTT
GAGCCAAACTGGGACCCTCAGATGGCAGTGAGCCATCCCATCAGATAACTCCCAAGAGGAAGCCAACTCAAATATGAATTTTATTATTCTGGACTATGAC
CCTGATCAGAGTTCTCCCACCCCGAAAACCTCTGATAGTCTGGTTTGAACCAGAGTCAAATAAAACAGACAAGATTTTTTTTTCCTCTGCACAAAAGCAA
AAAAACAAAACAAAAAAAAGTCTGCCAGTAGTTTCCTGGGTTTGATGCCCAGATAAGCAAACACTGTTGCCTATGGCTGTTGCTGTTTTCATCAAGAAAG
AGGTTATATAGTTTGCATTTCCATCCACTCTCCCTGATTTTATCTTAACCTAGAATTTCTCCTGAACTACCCCAAATGCCAACTTGAATTTGGGTAGGGC
TCTGTTAATCGAGGGAACCCTCATCTTCACTTATAAACCTAATTCTCTGTTCCTCCCTCCAAAGATCCTGAAAAGATCTCCTAAAGGCTGGCCAGGATGG
GGTGGAGTGGGGCAGTGCACCTGAAGAAAAAAACTTAGCTGCCAGCTGGCTGTATGCAAGTTCTCCGAAAATTTCTATTGTATGAAAGGGATGGGGTCAA
TTGCAGCTCAAATTAAGGAAGCCCTCCTAACAGGCTGGGTTGTCTGACCATGGAGCTCAATGCCATGGTGGACAGTGAGCTCCCTTATATCACAGGTGTT
TAAAGAGAGGCTGGCTAGATGGTGTAAAAAATGGGCATTGCAGAGGGGCCCTAGCATTGCATGGAAACTGGGCTGAACAACCACAGAAATTCCTCTTTGT
TTCTTGGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGGTGGTTTCAACACTCTGGATATAAGCTCAAGCCACTGAGGCAAAGG
CATGCAGCACAATTAGCAGGAATGCAACTTCTGGGCTTTGGAGCTCTCAGAGGGGGTGTCCAAGAGACAAGTCTGCTTCCTTCCGGCTCCGTCTTGGAAC
ATTTTAATGACTGTCAGTCACCAATCCAACCCATCCCCAGTGGCCTACCAGGCACCACATTGGGATGAGACTCATGCTACCCTTCCCCAGGCCAGCCAAG
GAGCAATCCACGCTGTCCCCCATCCCTGGCTGGCTGTCTTATGGTGCTTCAGCCCCTCCGCCCAGCTCCTGTGCCCTCATGAGCCTGGGGCTTTCTGTAT
AAAAGATGCAATGATATCTGTTCCCCACTAGCCATCCCCACAATGAACAACTTCCCAGGCAATAGCAAATGGCTCCATTCCAAAAGGGCTTGTTTTTTTG
GTAAATCAAATAAGAGACCCCACTCAAGACCTTTGAAAGTCCCCGTCAATGAAAAAAATCCAGAAGGGTCAAAAGAGAAAGGCAGCTTTTAATCCAGTTT
CACAGCAAAACCAGGCTCTTGGCTGCCTCCAAGCAGAATGCCACTCTCCTGCAGCTGTGGCCTCCATCCCAAATCATCCTGCATACTGCATTCTCTAAGG
AAAGCATTTGACAAGAGAGGGTTTATGTATGGTGGATTGGGAGAAAGTGAGACTTCAACCTCAGGGTGAACCGAAGACTGGTTTGTCTTTGGTTGTTTTA
GTATGAGGTTGGGCAGGATGATATGTTTGGATGGGTAGAATGAGCAGCCGCCTTCCTCTGAAACCAAAATAAAATAAAAACCAGTTTTCAAGATTCCTCC
CAACTCCTCACTGGAGGCTCTGCCCTGCAGAATCACTCAAGTTGCAACAACACAAGGAGACAAAAATAGGATATTTCATGAAAATATAAGAAACTCCCAA
TTCCGTCCCATTAGGATGCCCTCAAGGGGCCATGCAGGGATCTTCCCATACTTCCTGCTTCCCTGATCTGAACCAAGATTGGAAAGAGGCAGGCAGCAGA
GAAGATGCCCAAGAAACTCTGACATATCCACAGCTTGGCTCTGCCCCTTGGGCTTCACTGGGGTTTGGGCCTCCCTCTTGGTTGAGCTGAGTG


SNP Information

Context             (SEQ ID NO:45413):
AGCCATCCATTTGACAGGTGGAAAGACTGAGGCCCAGAGAGAGGGTAAGGGGCAGGACTTGCTCACACAGCAAGGCCATGACAGACCTGAGCTGGGACGC
R
GCCCAGGACAAACACGGGCCTCCCCACAGCCCAGCCCAAAGGCTCTTCTCAGGTACAGACCAGCGCCTGGGTCAGATTCGTTCTTCCCTCTTTTCTGAGA
Celera SNP ID:            hCV1086051
SNP Position Genomic:     47734
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45414):
CGGGAGGGAGGGCACAGTCCTTCCTGCTGGCTGCATTTCCTCCTGATAATAGAATTCTGCCCAGCTGCTGGGCTGGCTGCTGTCTGACCTCCCTTCTTAA
M
GACAGAATTTGCTGATGAATTTTGTTTCAGGAGAAATATGTGTGTGAATGGGGGAAGAGACGAGACAGAGAGAAATAGGAAGAGTTTGGGAGCCTCTAGA
Celera SNP ID:            hCV1086052
SNP Position Genomic:     43372
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,14)      total(A,14|C,2) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45415):
ATTCACCTGTGAACTTTCAGTTTTAAAACCTAGATGGTTCTGGCAAACTGTATGGAGTTAATCACCTTAAATTGAACACAGGGTTAAAAATGAATACCAC
R
AAAATAAACTAGGTTATTAAACTCGAACTGGCAGCTCTGAGCCTGGAGCCTGTCCTTACCTGTGCTGAAGGCGGAGCTCCATTAGAATGCTGGAGCTTCT
Celera SNP ID:            hCV1086053
SNP Position Genomic:     39325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45416):
GTGCCCGACCCTGTGCTAGGCACTGTAGCAGAGACAGAAAAATTAAGTCAGGACTCTCCTTGCCAAGGAATTCACTGTCTTGTTGGAAGGCTCAAAGGCT
S
GGTCTGTTGCCCAAGGCAGCTCAGGTAAGAAGTAAAATCCACAGCAGTGCTTCAATTCTGCTCACAAACTGGGCTCCTCCACTCTGGTCTCAGAATTCTG
Celera SNP ID:            hCV11194483
SNP Position Genomic:     87898
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45417):
CACCTCGTCAATAAATGAATGAGTAGGTGGGTCTGAGTCCCATTGGCTATGGCTGCAAGCAGTTCCTCTCACTTCTGCAACCTCGATTCCCCTGCCCCTA
M
GATGGAACTAACAGTAGTGACTGTGCCCCACTCATGGGGGAGTGTGGTGAGGTTTAGAAGAGAATGAGAGGATTTTGAAAGTGCTTTGTAAACTCAGGAG
Celera SNP ID:            hCV11194484
SNP Position Genomic:     88275
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,11)   total(A,3|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45418):
TGCTCTTCTTCCTTTTCTCCTTAAGTAACTCAAACTCCCCAAGTTATAAGCAACCCCAATTGTATGGATGCGTTGTTCTATTTTTCAAATTGCAAAAATC
R
TAAGAGCAGTGGAATTTTTTCACATCCTTATGCTATAAGCGAGGGTGGATGGAAAGGTGGGAGTTTTCTGTTTGATTTGCTGCAGAACGGGTTGGGAGGA
Celera SNP ID:            hCV1086056
SNP Position Genomic:     29272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45419):
TCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAATGAACCAAGATTGTACCACTGCACTCTAGC
Y
TGGGCAATAGAACAAGACTGCATCTAAAAATAAAAAATAAATAAGAGTAACATTAATTGGTAGCAAGAGAGAAAAGAAGGAAGAACATTCCAGGAGGAAA
Celera SNP ID:            hCV11194486
SNP Position Genomic:     88905
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45420):
AGGCCCTGGAAGGTCTACCACCCTACCTTCGTAACACATGCCTGTTATCTTGCCCCTTTTTTTCTCCTAGCTGTACTAGATAGCTTTCTCAGAGCGTCAG
S
ACGTGGTGCTGGGTCACAACTCAGGGCCTTTGCACATGCTGCCATCTGACTAGGATGATCTTATGGCCCCTACCCTGGCTCCCTTGGCCTCCCTTACTCA
Celera SNP ID:            hCV1086057
SNP Position Genomic:     28311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45421):
CCAAGATTGTACCACTGCACTCTAGCTTGGGCAATAGAACAAGACTGCATCTAAAAATAAAAAATAAATAAGAGTAACATTAATTGGTAGCAAGAGAGAA
R
AGAAGGAAGAACATTCCAGGAGGAAAACAAGGTTCTGATTGCAGTTATAAGAGACAGAAATCCAATTCAAATTGGCTTAAGCTTGAAAAAAAATGGGAGG
Celera SNP ID:            hCV11194487
SNP Position Genomic:     88979
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45422):
AAGGCCCTGGAAGGTCTACCACCCTACCTTCGTAACACATGCCTGTTATCTTGCCCCTTTTTTTCTCCTAGCTGTACTAGATAGCTTTCTCAGAGCGTCA
S
CACGTGGTGCTGGGTCACAACTCAGGGCCTTTGCACATGCTGCCATCTGACTAGGATGATCTTATGGCCCCTACCCTGGCTCCCTTGGCCTCCCTTACTC
Celera SNP ID:            hCV1086058
SNP Position Genomic:     28310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45423):
GGTTCTGGCTCTGGCCCAGATACACAGGCCTCGAACAATACCATCAGTGCTTGTCATTGCAACTCAGTCTCTCTCCATCTTTTGTCTCTGCCCTCCTCTA
Y
GAGGGCTTCACTCTCAAGCAAGCTCTTTGGGCTCCAGGCTTCCTATCTCCCAGCTAGACATTTTCCCTCAAAAGAGAACTCCTGGCCGGGCACGATGGCT
Celera SNP ID:            hCV11194488
SNP Position Genomic:     89207
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45424):
GGGAGCTAAAAAATAATCTTTAAACTGTATTTATGATGGTGCAAGTAATGAGTGCTCAGTGGAACAAGGGCGGGCAGGAAGGATTGGCTTGGTCATGTTC
S
CAAGGAAATTGTAACACACCTCCCGTCCCTGCCTTTATGCTCCATTTCTCGGCCTTCCTTTATTTTTTTCATAGCCCTTTTGCCACGTGTTATCTTATAG
Celera SNP ID:            hCV1086059
SNP Position Genomic:     27747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45425):
TTTGTGAGTTGCTGCTGTTGGTGCCAGCTTTTGCACTGGGAGCAACTCATACCTTAAGACCTCACCCTTAAGAGGATAAGGGTGAACAGAGCCTGCCTGC
Y
CACAACAGAGCCTGCCTGCCCTCTGACCTCTCCCCACCTCTGAGGATGGTTGGCCTTGTGAGCTTGGGATGATGTGGAGGCTCGGAGAGGGCAAGCAACC
Celera SNP ID:            hCV27506762
SNP Position Genomic:     38501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45426):
TGGCATTCTCTAGGAGTGGTTCAGTAAGGGATGCAGGGGTAGTGTTGTTTGAGGAATGCAGTCTTTTTTCGTTGTTATCATTCTGTCCCTGTTTGTGTAC
M
TAACCCATTTAGAGATAAGGTCAAAATTCTAAAAATACTGGAATGTCAGTTTTCTGAATAGCTACTATATTTCCCTAGTATGAAAGTCAAAGTGTTCAAA
Celera SNP ID:            hCV11194410
SNP Position Genomic:     70346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,10)      total(A,10|C,4) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45427):
TGGAGAAAGTTCTGCAGGGAAGGAGGGGAGTGCTGGGGCTTAACCAGGCTGGTCAGGAAAGGAGAAGGTGCCAAGTAGAAAGGGAGGGAGACAGGCATGT
K
GGCATGTGGGGGAAGAGTGCTCTGGGTGGAGAGAAAAGCAGTGCTAAGGCCCTGGGACAGGAACGTGCCTGGGGCACTCAAGGAACATTCAGGTATTAAT
Celera SNP ID:            hCV11194340
SNP Position Genomic:     19350
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45428):
GAAAGGAGAAGGTGCCAAGTAGAAAGGGAGGGAGACAGGCATGTTGGCATGTGGGGGAAGAGTGCTCTGGGTGGAGAGAAAAGCAGTGCTAAGGCCCTGG
R
ACAGGAACGTGCCTGGGGCACTCAAGGAACATTCAGGTATTAATGTGGTTGGAGCAGAGTGTACCGGAGGCAAGAGAGTAGAAGGAGGTGAGATCAGAGG
Celera SNP ID:            hCV11194341
SNP Position Genomic:     19406
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45429):
CCATTCCGCTTATCCTGCACTGTTCAGTGTGCTCTCTCTCGTATTCTATTTTCTTCTTAACTTGTTTCATCTCTCCACATAAAACAGGATGTTCTCAAAG
Y
CTAAGACTGTATCTTACTCACTTCTGTGCTCAAAACAGGGTGGGTGGGCTGCCTGTTTTGTAAATACGGTTTTAATGGAACACAGGCAGGCCTATTCATT
Celera SNP ID:            hCV11194343
SNP Position Genomic:     22458
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45430):
GTCCCAGAGTGGGGGAAGAGCATTCCAGGCAGAGGGAGCTATAGTGCAAAGGCCTGGGGTAGAAATGAGCTCAATCTATGGGAGAACAGCAAGAAGGCCA
Y
TGTGGCTGCATGGGACCATGTGAGAGAAGGGTAGTAGGAGATGAGGTTGAGAGGACTTTGGGGGACAGGTGAGATTTGGTGAGATGGGAGGGAATGAATG
Celera SNP ID:            hCV11194417
SNP Position Genomic:     71258
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   SC_12_T(T,7|C,16)   SC_12_C(T,5|C,16)   SC_12_TT(T,3|C,21)   SC_95_C(T,50|C,129)   total(C,182|T,65)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45431):
GTGGCTGCATGGGACCATGTGAGAGAAGGGTAGTAGGAGATGAGGTTGAGAGGACTTTGGGGGACAGGTGAGATTTGGTGAGATGGGAGGGAATGAATGA
R
TGAAGCCTCCAATACGATAAGCGAAAAAACATGATATTCCAAGAGATAGGCGTGGTCCTCCCCCAAATTTTGGTTGCTGGGAAGACTGGCAGTCCCTCCC
Celera SNP ID:            hCV11194419
SNP Position Genomic:     71360
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45432):
GGCCCCAGTGGTCAGGAAAAGTGCAAACTTGAGAACCACATCTCCCCTGACGTCCGTGTGTTGCCAGGGGGAGGAGCCCATGGAAGCACACGAGATCAGA
R
CATCTGAACTGCCCTGCCTTGGAGGAGAGACTTTTGGGTGAGGTCCAAAGAGGAGAGCTGTTCAGCTTACCTGCCACAGAGCTTTTCTGCATGAACTCTG
Celera SNP ID:            hCV25973347
SNP Position Genomic:     115670
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,37)   total(A,1|G,69)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45433):
ATATTGCATTATTCCAGGAAAGAGAAGAAAGATGACAGCCCAGAAGAGGGTGGTGGCAGGGAAGATCGGTGAAAAGTGGCTGGACTCTGGATGTAAGGTG
K
GGAGGCAGCTCCTGGGAAGCCACAACGCCCCTGCCTCCACCAGTGGTCACAGACCCTCAGGCTGTGCAATGGGTCTTAAGCCCTAGCCTTTTTTTAAGCT
Celera SNP ID:            hCV1086061
SNP Position Genomic:     18278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45434):
ATAAAATAGCACTGTTCATTCCCCATGGCTGCTTTATTTGTTTCAACCTGACATATAATTACTTAATTATATGATTCCTTTCTCTCTCTCCCACTTTGAT
R
TAAGCTTCAAAGGGCAGGGATTTTGTGTGCTTTGTCCACTGTTGTGTCTTCAGTGCCTGCCATAGAGCAGGCATGAAATACATGCATTGAATAAATGAAT
Celera SNP ID:            hCV1086062
SNP Position Genomic:     17773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45435):
CTCCAGGCTTCCTATCTCCCAGCTAGACATTTTCCCTCAAAAGAGAACTCCTGGCCGGGCACGATGGCTCATACCTGTAATCCCAGCACTTTGGGAGGCC
R
AGGCAGGCAGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGG
Celera SNP ID:            hCV11194493
SNP Position Genomic:     89339
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45436):
GTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCTG
M
TATAATATTTTGGATGGCACTGTGGAGAAAGTTCTGCAGGGAAGGAGGGGAGTGCTGGGGCTTAACCAGGCTGGTCAGGAAAGGAGAAGGTGCCAAGTAG
Celera SNP ID:            hCV26715078
SNP Position Genomic:     19227
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,6)      total(A,1|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45437):
AAATGTCATCTCAGCAAGGCCATCCTTGACCACCACATATAAAATAGCACTGTTCATTCCCCATGGCTGCTTTATTTGTTTCAACCTGACATATAATTAC
Y
TAATTATATGATTCCTTTCTCTCTCTCCCACTTTGATATAAGCTTCAAAGGGCAGGGATTTTGTGTGCTTTGTCCACTGTTGTGTCTTCAGTGCCTGCCA
Celera SNP ID:            hCV1086063
SNP Position Genomic:     17735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45438):
GTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCATATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGTCAGGAGAATTGCT
Y
GAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGCACACAGAGTGAGACCCCGTCTCAAAAAAACAAACAAACAAAA
Celera SNP ID:            hCV11194494
SNP Position Genomic:     89490
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45439):
TCAACGTTGGCAAATCATTTTAAAAGTTAAAAACATGCCCAAGTGCAGTGTCTCATTCCTGTAATCCCAGCACTTACGGAGGCCAAGGTGGGAGGATCCC
Y
TGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACTTAGTGAGACCCCATCTCTACAAAAAGTAGCCAGGTGTGGTGGCATGTGCCTGTGGTCCCAGCTACT
Celera SNP ID:            hCV26715079
SNP Position Genomic:     24332
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45440):
ACCTCTCATCACTTCCATTTCCTAATCTGTAAGTGAGGGCGATAATAAAACCTACTCCACAGGGTTGTCTGAAGGATGAAGGATGATAGCACATGATCAG
W
GTTGAAGCTGTGCCTGAGAAATCCCACATCCCCACAGGATAAAGAAACCCAGAGACCCAGGATGCTCCAGTGACCTGCTGAGGATCACACAGCCCATCAT
Celera SNP ID:            hCV1086064
SNP Position Genomic:     12727
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(T,0|A,23)   SC_12_C(T,9|A,15)   SC_12_AA(A,10|T,13)   SC_95_C(T,60|A,121)   total(A,169|T,82)no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45441):
TGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGCACACAGAGTGAGACCCCGTCTCAAAAAAACAAACAAACAAAAAACAAAAAAACAAAGAGAA
M
TCCTCCTCCCCCATGGTTGCAAAGTTCCAAGATCCACTCTCATGAAGCCATCTTGTGTCACATGCCCATCCCTCAGTCAATCACAAAGGCTGGGAGGGTT
Celera SNP ID:            hCV11194495
SNP Position Genomic:     89610
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,8)   total(A,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45442):
AGAGCTGTTAGGAGATGCCCCTAATGTAAAGAGCCTAGCCCAGCGCCTGACTCATGGGAAGCATTCAGTAAGTGGCAGCAACGATTGTTAGTGTTTTCAC
R
GAATTCCTCTGCTCCAGCTACACGTCTCTAGTGTAATGAGGTTCCAGCTTCCTTGACCTGAGCCACAAGGATCTGTGTATTATCATCAAAAGAAATGCGG
Celera SNP ID:            hCV1086065
SNP Position Genomic:     12316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45443):
CCCCAACCCCTGCAAGTGGCTTGGTCCTCATGCTTGATGCTTCATATCACAAGATGGCTGCCCAGTTCCAGCCCTCAGACGTACATTCAGTGATGTTTAA
Y
CCGTGAAGAGAAACATTTTCTCCTATGCTCCACTTTCTTTCTTTTGTTTTTGAAATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATC
Celera SNP ID:            hCV1086066
SNP Position Genomic:     10823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45444):
CCAGCACTGATTAGTGGTGCTTCATATCTGCTATCTCATTGAAATTCCTCCAACAGGGATACAACCAGGTAGTATGCCAGTTAGGGATGCTTTGGGCTGC
R
AGCAGCAGAATAGAAAACTCAAAGTAGCTTCAATAAGGAGGAAGATGCATCATTGAATATAATATGAAGTTCCAAGGCAGTTGGTTTTAGGTTGAGTTAA
Celera SNP ID:            hCV1086067
SNP Position Genomic:     10566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45445):
TCCCCACCCATCCCCCCAGCTTGGATGCCTTGCTTGTCAAAACAAGCAAAGCCTGTGGAAATTGCTTAGAACTCACAGAGTGACAGGACCAAATGGAGGA
Y
CATTTCTAGGTGATTGTAAGATACAAAAGTGGCCATATCTCATATGCTGAAGAGCAAGGATGGATCTGGTTCTGTGCCACTCCCCACTTCCATAGCTTTT
Celera SNP ID:            hCV1086068
SNP Position Genomic:     9779
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   SC_12_AA(C,3|T,18)   total(C,3|T,18)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45446):
GGCAGGGGCTGTAGGGGACTGAGGAAGGCTTGGGGTGGGAGCCAAGGCAGGGCAGGAGGGCACTGGTTGATCAGCAACTTCTCTACGTCAGGCTGGGATT
Y
GGGGTTGCCTGGGAAAGATGGGGCCTGTCTTCATGTGCCCGAAGTGCTGGGTGCTGGGAGCAAATGACAAAACAGTGTGTGCAAGGCTATAAAAGAGGTT
Celera SNP ID:            hCV1086069
SNP Position Genomic:     7617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45447):
ATCGGAGAAAAACCACTTTGAAAGCTCCCCTTTACCCACCTCCCCTAAGTTCTTAAGGCAGAACTGTATTTACTCCACAGAAGCATTGACTGGAAAAGGC
Y
CCAGTGGTCAGGAAAAGTGCAAACTTGAGAACCACATCTCCCCTGACGTCCGTGTGTTGCCAGGGGGAGGAGCCCATGGAAGCACACGAGATCAGAGCAT
Celera SNP ID:            hCV25972768
SNP Position Genomic:     115573
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,38|T,2)   total(C,72|T,2)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45448):
GGGTTCAGAAGGTGGGCACCCAGCCAACAGCATGAACTCAGAGCATTGTTTTAGGGTTGGAGGAGGAACACGCTTTCTTTACATCACTAGTGTAGACTCA
M
AAGATATGCAAGTGTCAAATATGCAAAAGAAATAGTTTATTCAAAGAGACTGTGTGTTACTGAAGAACAGCATAAAAATATGATTTTTTTACTTGCAAAA
Celera SNP ID:            hCV16269915
SNP Position Genomic:     116472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:45449):
GGAAAGAGGCTGGTAGGGGCATCTGGGGCTGGGCCACCCTTGGCTGTGGCCCTGGAGGCAGCACAAACCCCTACCCTGGAGATCTCTCCTCTCCACACCC
M
CACCTGCCCACAGCCCATACCCCACAGTTACCAAGGGAAACAGGCGCCAGAGGGGAAAGGCTGCATTTCCCTCCTTCCTTGTGGGCTTTCCAGAAACCAA
Celera SNP ID:            hCV11194421
SNP Position Genomic:     73982
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(A,22|C,36)   Chinese(C,8|A,12)   Japanese(C,15|A,25)   African(A,15|C,45)   (A,2|C,6)      total(A,2|C,6) ;SC_96_C(C,83|A,157)   total(A,157|C,83)   (A,-|C,-)   (C,-|A,-)   Caucasian(A,22|C,36)   African-American(A,15|C,45)   Asians(C,23|A,37)   total(A,74|C,104)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45450):
GAACGCTGAAAGATAAGAAAGACCTGCAGAGATCTAGGAGAGGAGCATTCCTGGCAGGAACTGTAAGTGCAAAGGCCCTGAGGCTGGACCCAGTCTGGGA
Y
ATTGGAGGAGCAGCAGGGCCAGTGGCTGCAGCAGGTTTAGCTCAGCTGGTGGATGTGAGTGGAGAGAGGTAGCCGGGGCCAGATCAGACAGGGTCTTGAA
Celera SNP ID:            hCV11194422
SNP Position Genomic:     74799
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45451):
ACCTCTGGAGCATAGAGCCTTCACGTGGCTGGAAATGTTGGGGGTGCATTTCTTGCCTCTGAGGCCCCCACCTGGAAGGGAGGAAAGAGACAGAGCTTGG
W
TGACAGAAGCAATAGGTCCCCTGTATTAATTAAGGTTCTCCAGAGAAACAGAATCACTAAGAGATTTGTTTATTTATTCATTTATTTGAGAGACCGGGTC
Celera SNP ID:            hCV11194350
SNP Position Genomic:     25458
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45452):
AGAGCTCTTTGGCCTTGTTAAGTTTGAGAAGCCCAAGCGACATCCAAGTGTCAAAACAATCTTCCTCCCACCCAGCAAGGCCCGAGAGCCCAGATAGAGG
K
TGGAGGGGAGCCTGCCCGGGGTGGAGATTAATGCACATAACCCAGTTCTCTCTGCCCGTGGCTATTTGGGTCACTTGGACTGCAGGTCCTCACCCCTCTG
Celera SNP ID:            hCV11194423
SNP Position Genomic:     75398
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45453):
AATCCTCTAATCCATCATTGGAGCCAAGGAGTCCATGGCCAGAGAGTTGCTCTTCATAATTAAAACTCTAGCGGGCAAGGTCAGAATGCTGATGTCCCAG
R
TTGGAACTAATGTACGGGGTTGGAATTCTGAGGTTCAAGGTCAGAACACTTCGGCAGTCTTCATGATCAGAATTCTGGCAGGCACATTCAGAAGACTGGT
Celera SNP ID:            hCV11194351
SNP Position Genomic:     26947
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45454):
CTGCTGAAGGGGCTCTGGGCTTCTTGAGGGGATAGATTGAGTTTATTTAGTTTTTGCATCCCCAGAATCTGCCACAGGCTCTCCATAAATGCTTGCCGAA
D
GGATGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATAGATAACAGATGAACAAATGGACAGATTACTGAACATATAGATGGTGCATAAGTAG
Celera SNP ID:            hCV11194424
SNP Position Genomic:     76118
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|A,1|-,5)   total(G,1|A,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45455):
TGGCCAGAGAGTTGCTCTTCATAATTAAAACTCTAGCGGGCAAGGTCAGAATGCTGATGTCCCAGGTTGGAACTAATGTACGGGGTTGGAATTCTGAGGT
K
CAAGGTCAGAACACTTCGGCAGTCTTCATGATCAGAATTCTGGCAGGCACATTCAGAAGACTGGTGTTTGGAGTTGGAAGTCTTATTCCCTGCTTGTTAT
Celera SNP ID:            hCV11194352
SNP Position Genomic:     26982
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,8)      total(G,4|T,8) ;SC_12_C(G,11|T,12)   SC_12_AA(G,5|T,16)   SC_95_C(G,61|T,118)   total(G,77|T,146)no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45456):
AATTTAAATTTTAGGACCATCAGGGTTTTTGGAACAGAGCCATAACTCACAAACTCATTTCTGTTTATCTGTGGCCGCGTCTGTGCTGCCCTGCAGAGTT
K
AAGGGTTGTGACAGAGATCATGCGGCCCCCAAAGCCTAAAATATTTACTCTCTGACCCTTTTACAGACAAAGTTTGCTGAGCCCTGGTTTAGAGAGCATT
Celera SNP ID:            hCV11194425
SNP Position Genomic:     77727
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45457):
TCATTTCTGTTTATCTGTGGCCGCGTCTGTGCTGCCCTGCAGAGTTTAAGGGTTGTGACAGAGATCATGCGGCCCCCAAAGCCTAAAATATTTACTCTCT
R
ACCCTTTTACAGACAAAGTTTGCTGAGCCCTGGTTTAGAGAGCATTGCCTTATTCAGGCCCTTAGGGAAGCAAGTGTGGAGTGGGCCCCAGGCTGCATCT
Celera SNP ID:            hCV11194426
SNP Position Genomic:     77781
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45458):
GCTCTTCATAATTAAAACTCTAGCGGGCAAGGTCAGAATGCTGATGTCCCAGGTTGGAACTAATGTACGGGGTTGGAATTCTGAGGTTCAAGGTCAGAAC
W
CTTCGGCAGTCTTCATGATCAGAATTCTGGCAGGCACATTCAGAAGACTGGTGTTTGGAGTTGGAAGTCTTATTCCCTGCTTGTTATATTGGGAGTCTCA
Celera SNP ID:            hCV11194354
SNP Position Genomic:     26995
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,9)   total(A,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45459):
CTCCATGATAGGCCCTGGTATTTCTTGCAAGAGTTTATCCATAGATCCCCTTGGTCACTGTTTTGGGTTCCAGTGTTCATCACTGTGGGGATAAATCTTC
Y
CTGAACTGGAGGTTCTTTATGAGGGAGGTAGCCAGAGCCCTTTCCCTATCACTAAGAAAAATGCAGAAACTCGCTTCTTCTCCCAGAAATGAGGCATTCT
Celera SNP ID:            hCV11194355
SNP Position Genomic:     28570
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45460):
CTAAAATATTTACTCTCTGACCCTTTTACAGACAAAGTTTGCTGAGCCCTGGTTTAGAGAGCATTGCCTTATTCAGGCCCTTAGGGAAGCAAGTGTGGAG
Y
GGGCCCCAGGCTGCATCTATTAAGCACCAACTGTGGGCAACCTCTTGGGTTAGGCACATTATATTTGTCATCCCTTTCACAATACTCTGAGGTCAGTGTG
Celera SNP ID:            hCV11194428
SNP Position Genomic:     77863
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45461):
CCTTGAGTCTTTGCACATGCTGTTCCCTCTGCCTCGAATGCTCTTCCTCTCTTCTTCATCCAGTTATTTGCCTCCTCACCCTAGAGCTCCCAGATAGAAT
R
CCACCTCCTCCTGCAAGCCTTTCCTAATCTCTCAATAGGTCAGATCCCCCAGTTATGGATTTTCAAAGTTCTCTGTGTCTCTCTTGGGTGGCCTCCATTC
Celera SNP ID:            hCV11194356
SNP Position Genomic:     29619
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45462):
TCTTGGGTTAGGCACATTATATTTGTCATCCCTTTCACAATACTCTGAGGTCAGTGTGACTGTCCCCACCTTATAAATGAAGAAACTGAGACTCAGCCAG
S
CACGGTGGCTCACGCCTATAATCCCAGCACTTTGGCAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCCAGACCAGCCTGGCGAACATAGTGAAA
Celera SNP ID:            hCV11194429
SNP Position Genomic:     78006
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45463):
GACGGCTTGGCAGAATGCAAGTGAGAGAGTGAGATGCAAGTGGGAGTGACGTGTCTAGGTTGTGGCCACTTCTTGCCACCCCACTGCTGCCTTCCTGACC
Y
TATCCTCTCCCTCCTGTACCATTGCAGGAGCCTCTAGTCCCATCTGCTGCCTCCAGCCTCCCATCCCCCGTCTGGTCTCCACACACAGCAACTCACGCCC
Celera SNP ID:            hCV29209061
SNP Position Genomic:     17241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45464):
AATCCTAGCACTTTGGGTGGCTGAGGCGGGCTGATCACGAGGTCAGGAGATCGAAACCATCCTGGCTAACACAGTGAAACCCCGTGTCTACTAAAAATAC
A
AAAAAAAAAAAAATTAGCCGGGTGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCT
Celera SNP ID:            hCV26715080
SNP Position Genomic:     24682
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45465):
CAGTCCTGGTAGGATACATCAGGGGCCTGGCCCAGGGTGATGATCGGGGAGGCAGGAGAAGTGCTCAGACTACTTTGAAGGTGGAACCCATGGGATTTGC
M
GATGAACAGAAAGGAGTCGAGGAGGGCTCTTGGGTCACAGCCTGAAGATCTGGGAGGATGGAGGCACCATTTGCCAAAAAAGGCAAAACATAGTACAGAG
Celera SNP ID:            hCV7596099
SNP Position Genomic:     75180
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,5)      total(A,2|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45466):
GCTGAAGGCGGAGCTCCATTAGAATGCTGGAGCTTCTCTTTCCGGTAGTCCCATGACAAGTCCCAGGGTTCACTCTGATTGGCTTGATTGGGGTCACATG
M
CCAGACTCTGCCAATCGTTGTTGCCAGGGGAATGCACCGTTCTGATTGGCCAGACCTGGAGCCAGAGGTGAGGCCAGGCTACAAGCCACGTGGCTTGAGA
Celera SNP ID:            hCV29209062
SNP Position Genomic:     39489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45467):
AAAATGAAGAGTGAAGCAGGTACCTTTTGCTTGTTGAGTGAAACAGCATCAGTGTCACATGTCAGGAAGCTCCATTGTTTTCCTGTCTCAAAAAAAATAA
Y
TGAAAACAATTTGAGTGGGCCAAACAGAATATGTTTGGAACCATATGCAGCCCTCGTGGCTCTAATTTTTGACCTCTGGAGCATAGAGCCTTCACGTGGC
Celera SNP ID:            hCV26715081
SNP Position Genomic:     25286
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45468):
TGGATGGATTAGTAGGTGGATGGATGGGCAATTGGATGTGTAGATGAGTGGATGGATGGATGGATAAATGGATGGGTGGATGAGTGGATGGATGGATGAT
G
GATGGATGGATGGATGGATGGATGGATGGATGAGTAAATGGATTGATGGGTGAATGAATGGATGGATGGATGGAGATATAAAAGGGTGTGTGTTTGCATC
Celera SNP ID:            hCV15995027
SNP Position Genomic:     58173
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45469):
ACCTAGAGCACCTGCTCCTGAGGACCAATATTTTTATCTTTCTTGCTCACTACGTATCTTCAGCACCTAGCAAAGTACCTGGCACACAGTAGGTGCTCAA
R
AGACAGTTAATAAATGTTTTATTACTATGATAATAATAAAAGCAACCATTTGCATTGAGCCAAACACTGCTCGTTGCTTTCTCTCTCATTTTTTTAATCC
Celera SNP ID:            hCV29209063
SNP Position Genomic:     45038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45470):
AAAGGAGACGTGGAGCAAGAATGAATCACGTGCCTAAGAATCCCTGTCTCAGGCTCTGCTTTTAGGGATGCCCTGACATGAAGGGAGGTGATCGGTGTTA
T
TTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTGTCTCCCAGGCTGGAGTGCAGTGGTGCAGTCTTGGCTCACTGCAAGCTCCGCCTCCCAGG
Celera SNP ID:            hCV26715082
SNP Position Genomic:     35613
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45471):
TGGGGATTTTCAAGAAGCCTAACATTAAAGGATTTTAGGAACCAGCAACTCCAAGCCATCCATTTGACAGGTGGAAAGACTGAGGCCCAGAGAGAGGGTA
R
GGGGCAGGACTTGCTCACACAGCAAGGCCATGACAGACCTGAGCTGGGACGCAGCCCAGGACAAACACGGGCCTCCCCACAGCCCAGCCCAAAGGCTCTT
Celera SNP ID:            hCV29209065
SNP Position Genomic:     47681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45472):
AAGGAGACGTGGAGCAAGAATGAATCACGTGCCTAAGAATCCCTGTCTCAGGCTCTGCTTTTAGGGATGCCCTGACATGAAGGGAGGTGATCGGTGTTAT
T
TTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTGTCTCCCAGGCTGGAGTGCAGTGGTGCAGTCTTGGCTCACTGCAAGCTCCGCCTCCCAGGT
Celera SNP ID:            hCV26715083
SNP Position Genomic:     35614
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45473):
AGAAGTGGGAAATTTGGATTAAGGCACACTGTCCCAATTATTTTTATTGTTGGCAAAGAATGCAAATAATAATTTTTTTTTAAGAATTAAACAAACATGG
R
CCAAACAAAACGTGTCCATGAACCGGCCATTTGGGTTGGGCAGTTTGGTAGCCATTTTGCCATCTGAGCAGAGTACACACTCACAGAAGGTGGCCCCACT
Celera SNP ID:            hCV29209066
SNP Position Genomic:     56311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45474):
CAGGCTCTGCTTTTAGGGATGCCCTGACATGAAGGGAGGTGATCGGTGTTATTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTGTCTCCCA
R
GCTGGAGTGCAGTGGTGCAGTCTTGGCTCACTGCAAGCTCCGCCTCCCAGGTTCTCGCCATTCTCCTGCTTCAGCCTCCCAAGCAGCTGGGACTACAGGC
Celera SNP ID:            hCV26715084
SNP Position Genomic:     35662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45475):
ACTTAGCAAAATGTTTTCAAGGCTCGCCCACAGTGCAGCTTGTATCCGTTTTTGTTCCTTTTTATGGATGAATACTACTTTATTGTATGGATAGGCCACA
Y
TTTATTTATCTTTCATCAGTTGATGAACATTTGGGGTGTCTCTACTTTTTGGTTATTATGAATAAAGCTGCTATGAATGTATAATTTTTTGCACAGACAT
Celera SNP ID:            hCV29209067
SNP Position Genomic:     59613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45476):
GGTTACTTATTTATTTGGTGAGTTTATTTCCAGAATGGTTTGGTGCAGCTTGTAAAGATGTTTCAGCTCTTGGAACAAGATGTAAATTTCAAAATAGGAG
M
GAAAAATGAGGCAATGTGAAAAATAAAGGAGGAGGAGGAGGAGGAGGCAGGAATGAGTTTGAACACAAAGAGTGGGCCAGAGAGTCTTTGGTGCTGCTGG
Celera SNP ID:            hCV1086070
SNP Position Genomic:     7411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45477):
TGGCCAGCATGGTGAAACCCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACATGCCTGTAATCCTAGCTACTTGGGAGGCTGAGGCA
M
GAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGGGAGCCGAGATCACGCCACTGCACTCCAGCCCAGGTGACAGAGTGAGACTGTGCCTCAAAAAATA
Celera SNP ID:            hCV26715085
SNP Position Genomic:     49422
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45478):
TCCGCCTCAACGTCGGGGGGCTGGCGCACGAGGTACTCTGGCGTACCCTGGACCGCCTGCCCCGCACGCGGCTGGGCAAGCTCCGCGACTGCAACACGCA
Y
GACTCGCTGCTCGAGGTGTGCGATGACTACAGCCTCGACGACAACGAGTACTTCTTTGACCGCCACCCGGGCGCCTTCACCTCCATCCTCAACTTCTACC
Celera SNP ID:            hCV1086071
SNP Position Genomic:     6361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45479):
GGTTCAGGCACTGGCATCCCAGCTGCTGGCAAGCGACTCAGATGGCGTTGTCATGGCGACCCTCAGGCACGGATTTCCAGAGATGCTCCCTGCATCCTCC
Y
GAGCCTGCCACTGCTGATTGCTGGGGGAGAGCATGACTCACCGTTAAATATATCACGGTCGTCCCAAATTGGCTGCTCAGCCCCAGCAGCCGGATGTAGG
Celera SNP ID:            hCV29209068
SNP Position Genomic:     63924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45480):
AGCATTTTCTACTTCTTAAACCAAGAGCATTCCTAACTGATAAATCATAAATCATACTTCAGATCTCATCTTAAATGTCAACTTTCTCAGAAAAGCCTCC
Y
CCATCTCCCAATGGAAATTAGGCATCTTTATCATTCTGGACTTTGTTTTGGTAGCATTCATCCCAATTTATGCTTACATTTTGTGTGTCTATTGAGGCCT
Celera SNP ID:            hCV26715087
SNP Position Genomic:     57739
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45481):
ATAAGACGGAGGAGAATGTTGGGAGCGTGAAGTCCTCAGCGGGCCTGCAGCAGTCAGACCTAATTACTCAGGCAGGCTCACCCCTACCAGATAGGGTCAG
Y
GCAGGAAAGGGGACTGCAAAGCGTGCCCGGGGCTGCAGCTCAGGTGGCCAATGGCCCTAGAAGCCCCCTCCACCCTCTAAGCTCAAAAGACTGTCTTTCC
Celera SNP ID:            hCV29209069
SNP Position Genomic:     77019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45482):
ATATATGATTTAATGGATGCATGAGTGGATGGATGAATGAGTGGATGAATGGATGGATTAGTAGGTGGATGGATGGGCAATTGGATGTGTAGATGAGTGG
D
TGGATGGATGGATAAATGGATGGGTGGATGAGTGGATGGATGGATGATGGATGGATGGATGGATGGATGGATGGATGGATGAGTAAATGGATTGATGGGT
Celera SNP ID:            hCV26715088
SNP Position Genomic:     58124
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3|A,3|-,11)   total(G,3|A,3|-,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45483):
GAATGGATGGATTAGTAGGTGGATGGATGGGCAATTGGATGTGTAGATGAGTGGATGGATGGATGGATAAATGGATGGGTGGATGAGTGGATGGATGGAT
G
ATGGATGGATGGATGGATGGATGGATGGATGGATGAGTAAATGGATTGATGGGTGAATGAATGGATGGATGGATGGAGATATAAAAGGGTGTGTGTTTGC
Celera SNP ID:            hCV26715089
SNP Position Genomic:     58170
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45484):
ACTGGGGCATCGACGAGATCTACCTGGAGTCCTGCTGCCAGGCCCGCTACCACCAGAAGAAAGAGCAGATGAACGAGGAGCTCAAGCGTGAGGCCGAGAC
Y
CTACGGGAGCGGGAAGGCGAGGAGTTCGATAACACGTGCTGCGCAGAGAAGAGGAAAAAACTCTGGGACCTACTGGAGAAGCCCAATTCCTCTGTGGCTG
Celera SNP ID:            hCV7596029
SNP Position Genomic:     6625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45485):
GGAGTGGTTCAGTAAGGGATGCAGGGGTAGTGTTGTTTGAGGAATGCAGTCTTTTTTCGTTGTTATCATTCTGTCCCTGTTTGTGTACATAACCCATTTA
R
AGATAAGGTCAAAATTCTAAAAATACTGGAATGTCAGTTTTCTGAATAGCTACTATATTTCCCTAGTATGAAAGTCAAAGTGTTCAAAAGGGCACACAGT
Celera SNP ID:            hCV16127817
SNP Position Genomic:     70358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45486):
CGAAGTATGTCAAGCATTGATAGTTTCATTAGCTGTGCCACAGACTTCCCTGAGGCCACCAGATTCTCCCACAGCCCTTTGACATCACTCCCCAGCAAGA
B
TGGGGGCAGCACAGCCCCAGAAGTGGGCTGGCGGGGAGCTCTGGGTGCCAGTGGTGGTAGGTTTGTGGAGGCCAACCCCAGCCCTGATGCCAGCCAGCAC
Celera SNP ID:            hCV16171906
SNP Position Genomic:     114947
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,38|G,2)   total(C,76|G,2)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45487):
GAACTCCTCCTCCCCCATGGTTGCAAAGTTCCAAGATCCACTCTCATGAAGCCATCTTGTGTCACATGCCCATCCCTCAGTCAATCACAAAGGCTGGGAG
R
GTTGGTCTATGCTGATTGGACCAGGCAGAGCCACATGGCCACTCCTGGAGCTGGAGGTGGCCTCAGAGTAGAGACATCAGAAGAGGGTGAGAGAGAGGTG
Celera SNP ID:            hCV11194500
SNP Position Genomic:     89707
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45488):
CAGCAGACAGTCTCAGAACAAGGACAGGAGGCAAAGACCGAGACCGGGCCACCCCGAGGCTGGTGATCTGAGTGGGTGGGGTGATGTGGGCTGAGATTTC
M
CCTGTGATGACAGCTGGCATCTATTAGACACTCACCGTGTGCTGCTGGAAGCTGTCCTAGCACTTTGCCTGTGCTAACACATTTCATCTTCACAGCAGTT
Celera SNP ID:            hCV524931
SNP Position Genomic:     111164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45489):
CTCCCTAGCACCAGGGACACTGGTCGCCTTTCTCCTCCTCTTCTTGCCAATCTCTTCCCTGCCCCAGGACCCTTGCACTTGCCGTGACTGCTGCCCGGAC
S
GGCCTTTCCCCAGATCTTTGCGAGCTGGCTCCTTTGCATTCCTCAGATCCGCACTCACGCATCACCTCCTCAGTGAGGCCCTCCAAAGCCGTTGGGCTAA
Celera SNP ID:            hCV11194505
SNP Position Genomic:     92824
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45490):
CATTGAATTCCCACATGACAACCCAGTGAGGGAGGAACTCTGGTGATCCCCATTGCACAGATGAAGAAATTGAGGCTCAGGGAGGTTAAGAAACTTGTCC
R
AGGCCTCACAGCTGGAAAATTGAAAACAGATTAAAATGCAAGTCCTGGTTCTTAACCAACACATTCTAGTGCCTCCCTCCCCCTGGATCTAGCTCATTCA
Celera SNP ID:            hCV524932
SNP Position Genomic:     99412
SNP Source:               Celera;dbSNP
Population(Allele,Count): Gaucasian(A,0|G,60)   Ghinese(A,0|G,20)   Japanese(A,0|G,40)   African(A,0|G,60)      total(G,180) ;(G,-|A,-)   (A,-|G,-)   (G,-|A,-)   Caucasian(G,60)   African-American(G,60)   Asians(G,60)   total(G,180)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45491):
CTCAGCCAGGCACGGTGGCTCACGCCTATAATCCCAGCACTTTGGCAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCCAGACCAGCCTGGCGAA
Y
ATAGTGAAACCCCATCTCTACTAAAAACACAAAAATTAGCCAGGCATGGTGGCAGGCACTTGTAATCCCAGCTATTCAGGAGGCTGAGGCAGGAGAATGG
Celera SNP ID:            hCV11194433
SNP Position Genomic:     78097
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45492):
TTTTCATTACTGTTTATTGAATGTCTACTGTATACCAGGCCCTGAACGGGGCACTTTACAGGCTCTCAGTCAGTCCTTCAGTCTGAGAGACTAGGGCTCA
Y
TTATTTATTTTTAAAATTCAGTTCCTCAATAGTTATTAAGCACCTACTATGTACCAGACACAGGTCTAGGCATGAGAGATGCTGAAGTTACAAAGATGGT
Celera SNP ID:            hCV524933
SNP Position Genomic:     91165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45493):
CCAATCTCTTCCCTGCCCCAGGACCCTTGCACTTGCCGTGACTGCTGCCCGGACCGGCCTTTCCCCAGATCTTTGCGAGCTGGCTCCTTTGCATTCCTCA
R
ATCCGCACTCACGCATCACCTCCTCAGTGAGGCCCTCCAAAGCCGTTGGGCTAAAGTAGTCCCCTATCTCCTGCCCGTCTTTTTTAATCCTCTAATTCTG
Celera SNP ID:            hCV11194506
SNP Position Genomic:     92870
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45494):
GGTCAGAGACCACCATTAGGTCCAGGGGAAATACCTGAAATAGGATTTGCTTAATAGTCTTCTTTAGATTAAGTCATTAATTTTACTAAATCGAGTTGTT
W
TAACAGGAAATTTGATATTATGAAGAACTGGTGCCATTTGCCATAAATCATGTCATAAAATTCCAGCCAGATGCTGAAGCCTGATACCTACTCTCTGGGT
Celera SNP ID:            hCV11194361
SNP Position Genomic:     30944
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45495):
ATGGTGGCAGGCACTTGTAATCCCAGCTATTCAGGAGGCTGAGGCAGGAGAATGGTGTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGCTCACACCA
Y
TGCACTCCAGCTTGGGTGACAGAACAAGACTCTGTCTCCAAAAAAAAAAAAAGAAAGAAACTGAGGCTCTAAGAGGTGGTGGAAGCTCCTCACCCTGGCC
Celera SNP ID:            hCV11194434
SNP Position Genomic:     78243
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45496):
TGATTTCATTGCTGCCTGACAACCACCTGTGCAGGGGGTATTATTCTGAGCCCCATTTTACAGATGAGGAAGCTGAGGCTCAGAGAGTTAATGTGATCAT
M
CATGCCAGAGTTCAACCTATATCTAGAACTAATCTGCTTGCCCAAAAGCTGAAGTGGTTCCAAACTCTGTACTAAGAGTGTCTACCTGTTTTGTCTGACT
Celera SNP ID:            hCV11194507
SNP Position Genomic:     93704
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,10)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45497):
TCGGGATCTCTGGGGATGGGACCCAGGGATTGGTGTTTTTCAAAGCTCGCAAGGTGATTCCACTGTGCAGCCAAGGTTGAGAAATCCAGATTTCAATGTA
W
CTAATACTGGTGGTGTGTGCCCCACATTGCTACCCACAAGGGTTCAGCAAGTCCATTGGGCTGCAGGAAGGGGCTTATTGGAGACTGGGGTGGCCTGGCT
Celera SNP ID:            hCV11194362
SNP Position Genomic:     31387
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,7)   total(A,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45498):
GTTGCAGTGAGCCAAGCTCACACCACTGCACTCCAGCTTGGGTGACAGAACAAGACTCTGTCTCCAAAAAAAAAAAAAGAAAGAAACTGAGGCTCTAAGA
R
GTGGTGGAAGCTCCTCACCCTGGCCTTCAAAGCTCTGCCTGATTAGCCCACAGTCGCCCAGCTGGGTAAGTGTTAAAGCTGAGATGTGAACCCAGGGCCT
Celera SNP ID:            hCV11194435
SNP Position Genomic:     78318
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45499):
TGGTACTATTGGCACCTAGTGGGTAGATGCCGGGATGCCGCTAAACATCCACAGTGCACAGGACAGCCCCACAACAAAGATTCATTCAGCCCAAATGATG
R
TAGTGCTGAAGTTGAGAAACTCTACTTTAGGACCAGGTACGGTGGCTTGTGCCTGTAATCCCAGCACTTTGGGAAGCTGAGGCAGGAGGATCACTTGAGC
Celera SNP ID:            hCV11194363
SNP Position Genomic:     32938
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45500):
AAATAAAGATTCCCAAGGCAGCAGCCCCTGGCTAAATCCACGGTGATTGTCTTGGCCACTCCAGCCTGACTCCGGGGACATTAGCCAGCTCCCACGTGTG
R
TTACAGCCAGAAACAGGCCATTTGTGTGGTCTGGAACCCCTGCTGATTGTTCCTTGGAAAACCTGAACCAGAATGAGCTCTTCTATATGCCAGAGAATTT
Celera SNP ID:            hCV29209070
SNP Position Genomic:     83462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45501):
TTTTTCCTTTTCCCTTTCACTCCCATATGGCTTAGCACACCAGTGTTGCTGATCCTGTCTTTATTGAAAATATAGATATTTTGTTCATCATGGGGGGTTT
Y
ACATTAAGTTTGATTTTTTAAATGTTACATTAAAGTAGTATTTATCTTGCTTACTGAGTTATTTGGCAATGCCTTAAATTTCACACCCTTAATTTTTTTC
Celera SNP ID:            hCV29209071
SNP Position Genomic:     84916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45502):
AATGGATGGATTAGTAGGTGGATGGATGGGCAATTGGATGTGTAGATGAGTGGATGGATGGATGGATAAATGGATGGGTGGATGAGTGGATGGATGGATG
A
TGGATGGATGGATGGATGGATGGATGGATGGATGAGTAAATGGATTGATGGGTGAATGAATGGATGGATGGATGGAGATATAAAAGGGTGTGTGTTTGCA
Celera SNP ID:            hCV26715090
SNP Position Genomic:     58171
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45503):
CCCCCAACTCACCCACCTCCAGATGCTGAGCTATTAGATTGTTTGCTCACTGTAGAGTGCTGTACCCAGGTGAAAGGGGTTCAGTTTGGCATGGGTGGTG
K
TGAAGTGTGGCCCTGCTCTAAGCGCTACTCAGAGCCGAAGCATCCAGGTCGTTTTGCAGCTGGGGTCAGGGCTGCAGCCAGGTCCTCACCTACCCCAAGG
Celera SNP ID:            hCV11194368
SNP Position Genomic:     34353
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45504):
TGGGGCCTGTGAGGGAGGCTCTTGGAATGTTCTGGAGCCCACCCAAAGGGCAGCTCAGCGAAGGCAGGAACGATGTCGGTGTTGTTCACTGCTGCGTCCC
M
GCATCTAGCAGAGTCCATCCTCATACCGAAGGCGTTCAGTGCCACCTCGTCAATAAATGAATGAGTAGGTGGGTCTGAGTCCCATTGGCTATGGCTGCAA
Celera SNP ID:            hCV29209072
SNP Position Genomic:     88132
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45505):
CTGATTGGCTTGATTGGGGTCACATGCCCAGACTCTGCCAATCGTTGTTGCCAGGGGAATGCACCGTTCTGATTGGCCAGACCTGGAGCCAGAGGTGAGG
Y
CAGGCTACAAGCCACGTGGCTTGAGAGCTGGGAAGGGATAGTTCCCCCAAAGGGTGAGATGGTTTGTTGCTAAAAAGAAGCCCCCTCTTCCTCCAGGTAT
Celera SNP ID:            hCV11194369
SNP Position Genomic:     39563
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45506):
ATGGATGGATTAGTAGGTGGATGGATGGGCAATTGGATGTGTAGATGAGTGGATGGATGGATGGATAAATGGATGGGTGGATGAGTGGATGGATGGATGA
T
GGATGGATGGATGGATGGATGGATGGATGGATGAGTAAATGGATTGATGGGTGAATGAATGGATGGATGGATGGAGATATAAAAGGGTGTGTGTTTGCAT
Celera SNP ID:            hCV26715091
SNP Position Genomic:     58172
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45507):
TCCAAGAAGACAGCATGGAGCTGTCCATGCTGGGGACCCTTCCTCATTTGTATGTTCCCCCTTCTAAAACTCCCTTGCCATGGAAATGCTCCTCTTGGTA
T
TTTTTTTAAGGGTTTGATTGGGGTATAATTCAAATGCCATAAAATTCACCCATTTAAAATGTATAATTCAATAGTTTTTAGCATATTCAAAAAGTTGTGA
Celera SNP ID:            hCV26715092
SNP Position Genomic:     59207
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45508):
ATGGATGAGGGGCTGGCCCAGGCAGGGATTCCATCCGCATATTCCTGATCCAGGGCATCTCGCGGACCCAGCTCTTGGCCCAGCATTCCCTAAGGAACCC
M
TGACTGCTTCTCTGGCACTGTTTAATCTTTTCCCTCATCGCTGGCTACACGTCTAATGATTTATTCCTGGGCTCCCAAACCAGATTCCTGCAGAAGCCAA
Celera SNP ID:            hCV29209074
SNP Position Genomic:     93209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45509):
AGTTAGATTCAACTTACAGGCCACCAATTTTCAGCTTGTCTCTCTTTGCTTCGTACGGATGGGGGAAACTAAGTCACAGATATATGTCATATTATACATA
T
ATATATATATATATATATATATATTTGGCCTTATCACTGAGGCTGAATTAGGTGCTTTCTCCTAGGGTGGTCTTGGTAGTGTGTCTCTGAGAAGGTGACA
Celera SNP ID:            hCV26715093
SNP Position Genomic:     62980
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45510):
GTTAGATTCAACTTACAGGCCACCAATTTTCAGCTTGTCTCTCTTTGCTTCGTACGGATGGGGGAAACTAAGTCACAGATATATGTCATATTATACATAT
A
TATATATATATATATATATATATTTGGCCTTATCACTGAGGCTGAATTAGGTGCTTTCTCCTAGGGTGGTCTTGGTAGTGTGTCTCTGAGAAGGTGACAT
Celera SNP ID:            hCV26715094
SNP Position Genomic:     62981
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45511):
TTAGATTCAACTTACAGGCCACCAATTTTCAGCTTGTCTCTCTTTGCTTCGTACGGATGGGGGAAACTAAGTCACAGATATATGTCATATTATACATATA
T
ATATATATATATATATATATATTTGGCCTTATCACTGAGGCTGAATTAGGTGCTTTCTCCTAGGGTGGTCTTGGTAGTGTGTCTCTGAGAAGGTGACATA
Celera SNP ID:            hCV26715095
SNP Position Genomic:     62982
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45512):
ACAAGCCCTGGGCCAGCCCTCCACATCCGCGTTCCCATTAAATATTCACAGTTCCACGATTAAGGAAGTCTCACTGTCTCCCACTGCAGATGGGGAAAGC
R
AGGCTTGGAGCGGTGAAGGAATTTGTCCTGGGTCTAGCATGAAGCTCCAATGCTGGAACCCAGTGCGGAGCCTGTTTTTCCCACCATTGTGTTGTGGCTG
Celera SNP ID:            hCV7596100
SNP Position Genomic:     79798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)   SG_12_A(G,7|A,16)   SG_12_G(A,12|G,12)   SG_12_AA(A,6|G,17)   SG_95_G(G,81|A,104)   total(G,117|A,138) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45513):
TAGATTCAACTTACAGGCCACCAATTTTCAGCTTGTCTCTCTTTGCTTCGTACGGATGGGGGAAACTAAGTCACAGATATATGTCATATTATACATATAT
A
TATATATATATATATATATATTTGGCCTTATCACTGAGGCTGAATTAGGTGCTTTCTCCTAGGGTGGTCTTGGTAGTGTGTCTCTGAGAAGGTGACATAT
Celera SNP ID:            hCV26715096
SNP Position Genomic:     62983
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45514):
AGATTCAACTTACAGGCCACCAATTTTCAGCTTGTCTCTCTTTGCTTCGTACGGATGGGGGAAACTAAGTCACAGATATATGTCATATTATACATATATA
T
ATATATATATATATATATATTTGGCCTTATCACTGAGGCTGAATTAGGTGCTTTCTCCTAGGGTGGTCTTGGTAGTGTGTCTCTGAGAAGGTGACATATG
Celera SNP ID:            hCV26715097
SNP Position Genomic:     62984
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45515):
GATTCAACTTACAGGCCACCAATTTTCAGCTTGTCTCTCTTTGCTTCGTACGGATGGGGGAAACTAAGTCACAGATATATGTCATATTATACATATATAT
W
TATATATATATATATATATTTGGCCTTATCACTGAGGCTGAATTAGGTGCTTTCTCCTAGGGTGGTCTTGGTAGTGTGTCTCTGAGAAGGTGACATATGA
Celera SNP ID:            hCV26715098
SNP Position Genomic:     62985
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,3)   total(A,1|-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45516):
TAGCCACCAGGTAATTCCACATTCTGTGAAAAATATATAAGATCCTGAATTAAGGGAAAACATTTGTTCTCCACTTTTGCCACCTCCACCCTGGCCATAG
W
GGATCCCGAGGTGTGTTTGATTAGCAGAGGATTCTATCTCAAATAGGGAAGACTCCTAGACTGTTCTCAGCTATTCTCATTGACAAGGCTAGGGAGTGCC
Celera SNP ID:            hCV26715099
SNP Position Genomic:     66566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45517):
GCGGCAGGAAGGCTGGAGATCAGTCACCAAGTACAAAGACCACGGGGTCCTGGGGCCTTCCCAGGAGCCAGAGTGGCCCAGAAGGACTGGACTTTTAGGC
R
GGGCTTCTCAGCCTCCGCACTGGTGACATTTGGGGCTGGAGAGTTCTCTGCTGTGGGGCCGTCCTGTGATTGTTCAGCAGCATCCCTGGCGTATACTCAT
Celera SNP ID:            hCV7596104
SNP Position Genomic:     80857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45518):
TTGACCTCTCTGTGGCTTGGTTTCTTCATCTGTAAAATTGGATGAAAATGATCGATTGTTTTGAGTATTAAATGAGTTATTGCATTCAAAGCACTTAGAA
R
AGGGCCTGACACATTGTCGGTACTCAGTAAATGTTAGTTATTATGTTCATTATCTATTCAGTGTACTCAATGGTGCCAACTTATATGACTCACTAGGATT
Celera SNP ID:            hCV7596105
SNP Position Genomic:     90131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45519):
GTGCAATCAGAGCTCACTGTAACCTCAAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCACACCATCACTC
Y
TGGCTACATTAGAAATTTTTTTTTGTGGAGACAGGGTTTTGCTACATTGTGCTGGCTGGTCTCGAACTCCTGGGTTCAAGTGATCCTCCCATCTAAGCTT
Celera SNP ID:            hCV7596037
SNP Position Genomic:     11869
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45520):
GGAAACCCTGTGTTGCAGCCAGGGCTCTTAGATGACACTTTTTTGGAGAGAGTGGGATCCTCAGGAATTTTGTTCAAATGCTGACATCTGACCGCTTGTT
Y
ACTTTATGTGTCAACTCCTGGGCTTTGGTTGCTCCTGCCAGACCCCAGTGCAGGCTGGGAGAGTTTGGAGGATTCCAGATGCAATCTAGAATCTGCCCAG
Celera SNP ID:            hCV11194513
SNP Position Genomic:     94180
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;JBIC-allele(C,578|T,899)   total(C,578|T,899)(T,-|C,-)   Caucasian(A,22|A,31|G,38|G,51)   Caucasian, from CEPH families(A,143|G,183)   African-American(A,22|A,30|G,38|G,54)   Asians(G,23|G,34|A,35|A,46)   total(G,421|A,329)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45521):
CAGAACAAGACTCTGTCTCCAAAAAAAAAAAAAGAAAGAAACTGAGGCTCTAAGAGGTGGTGGAAGCTCCTCACCCTGGCCTTCAAAGCTCTGCCTGATT
W
GCCCACAGTCGCCCAGCTGGGTAAGTGTTAAAGCTGAGATGTGAACCCAGGGCCTTCTGATTCCACTGAGCCCCCTGCTTCTCCCCCTCACACATACTGC
Celera SNP ID:            hCV11194441
SNP Position Genomic:     78363
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45522):
GGGGGAGCTTCCACCAGTGGGTATACCTCCTCCCGTCCTTCTCTCCACCACTCCTTGATCTATGGAAGAAGGGAACAGGCATTTCTTGAGGACCTGGTAG
R
TGCCATGCACTTTCTTTGTGATATCTCAGTGTGATTCAGCCCCTTCCTTCCTGTGGATCCTAAACGCAAGTCATTTTACCTCTATGAATCTTAGCTCTCT
Celera SNP ID:            hCV11194514
SNP Position Genomic:     94396
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45523):
GATTCCACTGAGCCCCCTGCTTCTCCCCCTCACACATACTGCGTGCCCTGTTGCCTGAAGTAGCTCTGGAAACATGCCAGCAGCTATGTCTCTCCAATGC
Y
GGACAGAGGAATCACGTGGAAGTGTTTGTAAAGATGTGAACTCCTGGGTCCTAGCACAGATCACCTGAATCATTATCTCTGTGGAAGACCCTGGGATCTT
Celera SNP ID:            hCV11194442
SNP Position Genomic:     78522
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45524):
GTGATTCAGCCCCTTCCTTCCTGTGGATCCTAAACGCAAGTCATTTTACCTCTATGAATCTTAGCTCTCTCACCTGTAAAATTAAGATAACAATTTTGTT
M
AGTCAGATCACTTTTTATTTGCAAGGGTCAGAAATCCAGCCCAACTGGCCTAATCCAAAAAGAGCATTCATCAGTTCATATTGTTGGAAAATCCAAAGGG
Celera SNP ID:            hCV11194515
SNP Position Genomic:     94527
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45525):
GACAAGGATCAGGGTTCAGTCTGAGACTGAGGTCAGTACATGACCTGGGTCATAGATCACACTAGGAGTTAGTCTGTGATCAGAGTCAGGGATCAGTATG
Y
AACTAGGGTTAAGGATCAGTGTGTGACCAGGGTCAAGGCTTAGCCTAGGACCAGGGTTATGAAGGAATGTGCGGCCAGGGTCAAGATTCAGTGTGACCCG
Celera SNP ID:            hCV11194370
SNP Position Genomic:     44039
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|C,14)      total(C,14|T,7) ;(T,-|C,-)   JBIC-allele(T,187|C,1290)   total(C,1290|T,187)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45526):
TAGCTCTGGAAACATGCCAGCAGCTATGTCTCTCCAATGCCGGACAGAGGAATCACGTGGAAGTGTTTGTAAAGATGTGAACTCCTGGGTCCTAGCACAG
R
TCACCTGAATCATTATCTCTGTGGAAGACCCTGGGATCTTCATTGACAGCAAACTACCCCAGTGGATTTCAACACCAGGAGAGTGGTTGGGAGGAGGAGG
Celera SNP ID:            hCV11194443
SNP Position Genomic:     78582
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45527):
ATGCTAAACTATCCAAAAACATATCCACCACACTAATACCTACCTCCTGGGTACTTGTGAGGATTAATTGAGATAGTATGCTGTGCCTGGCTCCCAGTAC
M
TGCTCAGTTACTCCATAGCCAGCCTTGTCAACTCCTTCCTGAACCTCTGACTATCCATCTCTGACCCAGCCTCAGAGTGAGACAGGCATGAATTCAAGTC
Celera SNP ID:            hCV11194517
SNP Position Genomic:     95134
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45528):
GGGGCTCCAAGCCTCAGATCCATCCTCTGAAAAATGAAGGTGAAAAGAGGAGCTACTTCCTGGGGTGATGGTGAATAAATGCTTTGGTACCTCACATGTC
R
CGGGTGTGCAGTAAATGGTGGTCTCCCCTCTTGCCAGTTTTCTCTCTGTGTGCACACCTGCCCTAGCCAAACTGGCTTGACTGTTATTCCCCACCTCCAA
Celera SNP ID:            hCV11194518
SNP Position Genomic:     95370
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,10)   total(G,10|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45529):
GGCTCCAAGCCTCAGATCCATCCTCTGAAAAATGAAGGTGAAAAGAGGAGCTACTTCCTGGGGTGATGGTGAATAAATGCTTTGGTACCTCACATGTCGC
R
GGTGTGCAGTAAATGGTGGTCTCCCCTCTTGCCAGTTTTCTCTCTGTGTGCACACCTGCCCTAGCCAAACTGGCTTGACTGTTATTCCCCACCTCCAACC
Celera SNP ID:            hCV11194519
SNP Position Genomic:     95372
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,10)   total(G,10|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45530):
TAGGAGTAACCCAGATTCTTATGCCTGAAGGACAGGCAGACGGGGGACCAGCGTATACCTGGCTGGCTCCTGCTCCCCCTCGTCCCCTCTTCTACTTGGG
Y
TCCAAGGGCAAAACCAGGACACTTTAGGAGCCCCTGGGACAGGGGAAGATTGGAGAGTGTCCTCCAATCCTTGCATGTTCTGCTGCAGCTGGGGCCAGAG
Celera SNP ID:            hCV11194375
SNP Position Genomic:     44305
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;JBIC-allele(T,68|C,1403)   total(C,1403|T,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:45531):
AGCTCTGGAAACATGCCAGCAGCTATGTCTCTCCAATGCCGGACAGAGGAATCACGTGGAAGTGTTTGTAAAGATGTGAACTCCTGGGTCCTAGCACAGA
Y
CACCTGAATCATTATCTCTGTGGAAGACCCTGGGATCTTCATTGACAGCAAACTACCCCAGTGGATTTCAACACCAGGAGAGTGGTTGGGAGGAGGAGGG
Celera SNP ID:            hCV11194449
SNP Position Genomic:     78583
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45532):
AAGATGGATGGATCACGAAGTCAAGAGATTGAAACCATCCTGGCCAACATGGTGAAACCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGC
R
TGCGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGGGCTGAGATTGCGCCACTTCATTCC
Celera SNP ID:            hCV11194376
SNP Position Genomic:     45943
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45533):
TGAGACACGAGAATTGTTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATCGCACCACTGCCCTCCAGCCCAGGCAGCAGAGCAAGACTCTGTCTC
A
AAAAAAAAAAAAAAAAAAACCCAAGAGTCCCCAGATGGGCCTAGAATCCACATCTCCAGAGCTGTGTTAAGATAGTTCTCAGCTGGAGGTGATTTTGACC
Celera SNP ID:            hCV11194377
SNP Position Genomic:     46873
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,6)   total(A,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45534):
ATACGATAAGCGAAAAAACATGATATTCCAAGAGATAGGCGTGGTCCTCCCCCAAATTTTGGTTGCTGGGAAGACTGGCAGTCCCTCCCCAGCTGGATCC
M
CTAGGCCTTTTGCCAGCATCACCTACAGAGAGGAAAGAGCCGTGGGCTCTGTCACAAGGCTGGGGCTCACAGCATCACAGCCCCCACCCCCTGCACCACC
Celera SNP ID:            hCV16083205
SNP Position Genomic:     71472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45535):
CCAGCTTCATTTTTTCATAGCCATTATCATAGCCTGAAATGATCCTGTTGACTTATTATTGTTCACTGTGTGCCCCTTCCCTCTACAAAACCATCAGCTC
Y
GTGCAAACTGGGATTTTTGCCTGAATTGTTTACTGCAGTATTACCAGGGCCTAAAAGATTACCTGGCACATCCCCACATGAATGAATGAATGAATGAATG
Celera SNP ID:            hCV11660762
SNP Position Genomic:     98881
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45536):
TTGGGTAGATGGAAGGAGGCCTAGTTCTGCCTCTGAGCAGCAATCCATTAATAAGCACTTACAGAGTGCCTACTCTGTGCCCGACCCTGTGCTAGGCACT
R
TAGCAGAGACAGAAAAATTAAGTCAGGACTCTCCTTGCCAAGGAATTCACTGTCTTGTTGGAAGGCTCAAAGGCTGGGTCTGTTGCCCAAGGCAGCTCAG
Celera SNP ID:            hCV27516347
SNP Position Genomic:     87822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45537):
CCTGGGTCATAGATCACACTAGGAGTTAGTCTGTGATCAGAGTCAGGGATCAGTATGCAACTAGGGTTAAGGATCAGTGTGTGACCAGGGTCAAGGCTTA
K
CCTAGGACCAGGGTTATGAAGGAATGTGCGGCCAGGGTCAAGATTCAGTGTGACCCGGGTTAGGACTCAGTTTGTGGCTCATTCAGGGGCTGGAGTTAGA
Celera SNP ID:            hCV27932848
SNP Position Genomic:     44082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45538):
GTTATGAGCTGTATGTTATTATTATTCATTTCATTTCACAGGAGAAAACAGATTTTCAGTTCTTGTCTGAGGTCACTCAGTAAGGGAAGCTGAAGAAAAT
R
TGGAAGGAGCCCCCCACGGTGGCTGGACCCAGCATCAGGGGCTCTCCCCATCTCCTTTAGTCCTCTGAACCCAGAGAGGCTTAGCTGAACTGCAAGCTGA
Celera SNP ID:            hCV27482208
SNP Position Genomic:     37289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45539):
GAATGCTTTTCCCTTCACTCTGCATGGTTACTTCCTACTTATCCTTCTTAGCTCTTAGCCTGCCCCCTGCAGGCTCCTGTCTCCTGATCCCTGGGTATGG
R
GATAGGGCAGGGTATAGCAAGTGTGACCCCCATGTTCCTGGCTTGTGGAGTCTGATGCAGATCTTGTCTGGAAAGTTCTTCATACCCTATGGCAGGTGTT
Celera SNP ID:            hCV11660765
SNP Position Genomic:     103416
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45540):
TTGAATAACTGAAGGGATCTTCCAGGAGAACCACAAGAATGGATGTCCTTGTTTTCCAAAGCAGGTCCTTAGTGGGGGACAAACAAGGGAGTCAGAGGAA
R
ACTGCTGCTAATGATACTAATAATAATAGCATGTTCTGCACTCATTGTGTGTGGCCTGGAGGCACTCTAAGATCTGCCCCCCTTACCACATTCCTTACTG
Celera SNP ID:            hCV7596112
SNP Position Genomic:     98455
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45541):
CACAAGAATGGATGTCCTTGTTTTCCAAAGCAGGTCCTTAGTGGGGGACAAACAAGGGAGTCAGAGGAAGACTGCTGCTAATGATACTAATAATAATAGC
R
TGTTCTGCACTCATTGTGTGTGGCCTGGAGGCACTCTAAGATCTGCCCCCCTTACCACATTCCTTACTGTCCCCTCCACTTAACCTACTTCAGCCACGCT
Celera SNP ID:            hCV7596117
SNP Position Genomic:     98486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45542):
GCTGTGTTTTTAGATGTGATAATGCTATTACGACTATGTTTTAAAATCTTTATCTTTTAGATACACATACTGAAGTGTTTATGGACGAAATGACAAGATC
R
AATAATTATGTAGTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCTCAATCTCGGCTCACTGCAACCTCTGCC
Celera SNP ID:            hCV7596045
SNP Position Genomic:     18912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45543):
TCCTTGTTTTCCAAAGCAGGTCCTTAGTGGGGGACAAACAAGGGAGTCAGAGGAAGACTGCTGCTAATGATACTAATAATAATAGCATGTTCTGCACTCA
Y
TGTGTGTGGCCTGGAGGCACTCTAAGATCTGCCCCCCTTACCACATTCCTTACTGTCCCCTCCACTTAACCTACTTCAGCCACGCTTGCCAAACACGTTC
Celera SNP ID:            hCV7596118
SNP Position Genomic:     98500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45544):
ATTTTTGCCTGAATTGTTTACTGCAGTATTACCAGGGCCTAAAAGATTACCTGGCACATCCCCACATGAATGAATGAATGAATGAATGAGGTAAATCCTT
M
TAAGAATCTGACCATGTTGGTATTAATAGTCCCTTTTTATAGATGAGGAAAGTGAAGCTCATGGAGATGAAGTTCCTTGTGTAAATTCAAACAGCCAGTA
Celera SNP ID:            hCV7596119
SNP Position Genomic:     98994
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,13)      total(A,13|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45545):
CTGAGGCGGGAGGTTCCCTTGAGCCCAGCAGTTCGAGGCTGCAGTGAGCTATGATTGTGCTACTGCACTCCAGCCTGGGTGATGGAGTGAGATCCTGCCT
Y
TAAAATAACAATAATAAAATAAAATAAAGATCCTTAGGGATTGTGAGGTCTGCAAGGAATGGCACTCCCTTTTGCCCACACCAACCCCTTCCTGGGAGCT
Celera SNP ID:            hCV26715101
SNP Position Genomic:     71036
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45546):
CTGTGGCTGCATGGGACCATGTGAGAGAAGGGTAGTAGGAGATGAGGTTGAGAGGACTTTGGGGGACAGGTGAGATTTGGTGAGATGGGAGGGAATGAAT
G
AATGAAGCCTCCAATACGATAAGCGAAAAAACATGATATTCCAAGAGATAGGCGTGGTCCTCCCCCAAATTTTGGTTGCTGGGAAGACTGGCAGTCCCTC
Celera SNP ID:            hCV26715102
SNP Position Genomic:     71358
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,10)   total(G,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45547):
AGACTCAGCCAGGCACGGTGGCTCACGCCTATAATCCCAGCACTTTGGCAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCCAGACCAGCCTGGC
R
AACATAGTGAAACCCCATCTCTACTAAAAACACAAAAATTAGCCAGGCATGGTGGCAGGCACTTGTAATCCCAGCTATTCAGGAGGCTGAGGCAGGAGAA
Celera SNP ID:            hCV26715104
SNP Position Genomic:     78094
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45548):
ATGTGATGTATAACACAAACCATATATGCAAGTTTTAAAGTGCACACAAAACACCAAACACAGTTTTCAAGAACTCATACAAACAAAGCAATATACAGGC
Y
GGGCGCAGTGGCTCACACCTGTAATCCCAACATTTTGGGAGGCCGAGGCAGAAGGTTCACTTGAGCCCAGGAGTTTTAGGTTGCAATGAGCCATGATCAT
Celera SNP ID:            hCV11194309
SNP Position Genomic:     1370
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:45549):
TGGCTCCTGCTCAGAAGATCTTGTTTTTTGTTTGTTTGTTTGTTTGTTTGAGACAGAGTCTCGCTCTGTCACTCAGGCTGGAGTGCAGTGGTGCGATCTC
R
GCTCACTGCAACCTCCACCTCCCTGGTTCAAGCAATTCCCCTGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGCACCCACCACCACACCCAGCTAATTT
Celera SNP ID:            hCV26715105
SNP Position Genomic:     82966
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45550):
TTGAGCCCAGGAGGTGGAGGTTGCAGTAAGCCAAGATCACGCTACTGCACTCCAACCTGGATGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAA
A
AAAGAAAAGAAAAAGAAAAGAAAAAAAAAAAGAAAATAAGTGGTTGAGAGAATCTGGATTTTTGTTTGTTTGTTCAGTCTCCCAAGCTCTTTGCAAATTG
Celera SNP ID:            hCV26715107
SNP Position Genomic:     87357
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,9)   total(A,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45551):
GAGGAATCACGTGGAAGTGTTTGTAAAGATGTGAACTCCTGGGTCCTAGCACAGATCACCTGAATCATTATCTCTGTGGAAGACCCTGGGATCTTCATTG
M
CAGCAAACTACCCCAGTGGATTTCAACACCAGGAGAGTGGTTGGGAGGAGGAGGGCCCCATAGGCTCTAGCTGCCAGGGAAGGTTTCCTGAGGAAGAGTG
Celera SNP ID:            hCV11194450
SNP Position Genomic:     78628
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45552):
TGAGCCCAGGAGGTGGAGGTTGCAGTAAGCCAAGATCACGCTACTGCACTCCAACCTGGATGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAA
A
AAGAAAAGAAAAAGAAAAGAAAAAAAAAAAGAAAATAAGTGGTTGAGAGAATCTGGATTTTTGTTTGTTTGTTCAGTCTCCCAAGCTCTTTGCAAATTGC
Celera SNP ID:            hCV26715108
SNP Position Genomic:     87358
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,9)   total(A,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45553):
TCTCTGTGTGCACACCTGCCCTAGCCAAACTGGCTTGACTGTTATTCCCCACCTCCAACCCTTTGAATATGCAGCTGCCTCTGCCTAGAACACCCCTACT
M
CCATCTCTGCCTGCTGGAATCCATCTCTAGCCCTCAAGCCCCAGCCCAAATGTTTCCTCCTCCAATGGAACCTCACCTTTTTGAGGCTTGGTTTTCACAA
Celera SNP ID:            hCV11194523
SNP Position Genomic:     95513
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,14)   total(A,1|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45554):
GGCAAATCAGGGAGAGGAGAGGCCACCCCAGGCAGGGGATCCTGTCTGAGCAAAGGTAGGGAGGCAGGAATGAGGCTGCTGTGTGCAGCGAGGTGTCGCT
Y
GGCCCCTCCTGATGCGGGGACAGGCTGCATACAAGCCAGCCAGGTTTCGGGGGTTGAGTGACGGTCAGGTTCTCCCATGAGCCCTGGTGCTTCCAAGAAG
Celera SNP ID:            hCV11194451
SNP Position Genomic:     78829
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45555):
TTACGAGAGTATCTACCTCCTGGGGTTGATATAAGGAGTAAATGAGATCGGTCATGCAATGCAGTTGGCGCAGTGCCTGCTTTGGTGAGAAATCAATAAA
W
CTCAGCTGTTATTATATCATTAGTATCAGGCATCCAGCTGCTAATTCAAGCTTGCATTTTCCAATAGTGCCTTGCATAGGAGGGGTGCTCAGTAAACATA
Celera SNP ID:            hCV11194524
SNP Position Genomic:     95728
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,8)   total(A,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45556):
GAGCCCAGGAGGTGGAGGTTGCAGTAAGCCAAGATCACGCTACTGCACTCCAACCTGGATGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAA
A
AGAAAAGAAAAAGAAAAGAAAAAAAAAAAGAAAATAAGTGGTTGAGAGAATCTGGATTTTTGTTTGTTTGTTCAGTCTCCCAAGCTCTTTGCAAATTGCT
Celera SNP ID:            hCV26715109
SNP Position Genomic:     87359
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,9)   total(A,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45557):
CCTCCTGGGGTTGATATAAGGAGTAAATGAGATCGGTCATGCAATGCAGTTGGCGCAGTGCCTGCTTTGGTGAGAAATCAATAAATCTCAGCTGTTATTA
Y
ATCATTAGTATCAGGCATCCAGCTGCTAATTCAAGCTTGCATTTTCCAATAGTGCCTTGCATAGGAGGGGTGCTCAGTAAACATATTGCATTTGGGTGGT
Celera SNP ID:            hCV11194525
SNP Position Genomic:     95743
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,8)   total(C,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45558):
AAGCCAGGAGTTCAAGACCAGCCTGGGCAATATCACAAGACTCTGTCTCTAAAAAAAAACAAAAACAAACAAACAAACAAAAACTTAAAAATTAGTCTGG
Y
GTGGTGGTGCGTTCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCGGGAGGATGGATTGGGCTCAGGAGTTCAAGGCTGCCGTGAGCTATGATCGCACCA
Celera SNP ID:            hCV11194381
SNP Position Genomic:     50110
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45559):
GTGCTTGGCCTCAGACCTCTGCTTAGCAGGCATCCTCAGAGGGGCTTTCTTAACCCTCTGCCTCCCTCCCATTGGCACTCTCTCCATCGCCCACTAACTC
Y
CTCCCTGCCATTTCATCTGTTTGTTGGCTCCTCTGCTGTCTTGGGGACAGTGACTCCCAGAGCCCAGCACAGTGCCTGGCACACAGAAAGCACTCAGGAC
Celera SNP ID:            hCV11194454
SNP Position Genomic:     79277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45560):
TCGAGGCTTACTTTATGTATCATATAATGCACACCCATTTCCAGCATACAATTTGATAATTTTTATTAAATTTTACCAAATCGTGCAGGCTTTGCCCTAA
R
TCAGTTTTTAGAACACGACGTCCTTTATGATCATTAACTGTTAATCCCTATCCCCCACCCTGGCAACCACTAACCTACTTTCTGTCTCTATAGATTTGCT
Celera SNP ID:            hCV1086023
SNP Position Genomic:     106034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45561):
GTGGTTGGACTAACCTTCTATGCCATCTGGTGGCCAGTAGCCAGCTGGGTGTGAAAATCCAAGGTGGGCACCAAGTTATGGCACCTTAGCCGAGCCTGGG
Y
TGTTGACTGGCAGCTGTGGCCAGATTTGCAGGCCGGGCTCTAGGAACTGTGATATCGCTGCACTCCCTCACCAGCTCACAGTGCCTTTGCAGGGTGTGGC
Celera SNP ID:            hCV11194382
SNP Position Genomic:     52835
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45562):
CTCACCTGCCCCCAGCTAACGTAGACGTGTTTCTCCCAAGCAGTGGGAGGGTCCCTGTCTCCCTTGCCTCAGCTTTGCATCTGTCTCTCCCCGCTGCCAG
R
CGGAGGAAGACTAGGTCTTACTTGCTTTCGCAGACCCTCTCTGTGCTGACCCAGGGCTGATCATCTTTTAGCCTTGCCATAAATTTAAAATTTATTCATT
Celera SNP ID:            hCV11194455
SNP Position Genomic:     81553
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45563):
GTATATGAAATATACAGCCCTTCACTCATTCAATCAGTGACTAAAACACACCAGGCACTGCGCTAAGCACGGCAGATATAGCAATAAATGCAGCAAGCAC
R
ATCCCCGCACTGGAGCGCCCAGCTTGGTTGGGGAGATGGGCATTACAGCTAATTCTACAAATAGCTGAAGCTAGTTCGCAGGACCCAGAAGAGGGTGGAA
Celera SNP ID:            hCV11194456
SNP Position Genomic:     81770
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,8)      total(G,8|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45564):
CACAAACCATTCACCTGTTCATTCATTCAGGCAGTCATTTAGTGCACCAGTATTTGTTGAGTGCCAATGCCACATCTGGCTCTGTGCTGGGCAGTGGGGA
Y
CCAGCCTTGTGAAATAGACACAGTCCCTGCCCTTGATGTGCTAACCTGGGTTGGTGGAGAAGCGGAAAATAAATGAGTAAACAAACAAATAAACAAAATG
Celera SNP ID:            hCV11194529
SNP Position Genomic:     96023
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45565):
TGGAGACCCATTAGACTCTCAGTGGATCCTGCATGAGAAAGATCAGAGATGTGACGACACTTGCCGAAGCATGCCCAGCCAGAATTAAAAGTAGGTCTCC
Y
GACTACCCACGTGTCCATTTCACCTCAATATGAATCTCTGGTGAGACTAAACTGCTATAATTTCATAATAGATGAGAAAGATCTATTGTTAAGCCACCAA
Celera SNP ID:            hCV1086026
SNP Position Genomic:     100950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45566):
CTTCTACTTTAGAGGACGTGGAGAGAAGAGAGGCATCAGGGAATGTGTACATTTGCCCAGAAACAAAGCACTGTCTCAGACTCCCACACCTTCCTCCATC
R
CTAATCAAAAATGTTCTGGTCTTTTTATATAAGATGGAATCTAAATCAACCCCTCCCAACGCCTCATCTCTGGGTTGGTTGAACAAATGGGGGTGTTTGG
Celera SNP ID:            hCV11194386
SNP Position Genomic:     55676
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   SC_96_C(G,91|A,119)   SC_12_CA(A,10|G,12)   SC_12_A(G,11|A,21)   SC_12_AA(A,3|G,9)   total(G,123|A,153) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45567):
CTCCCAGAGCCCAAGTCCCCTTTATAAATAACAAATATTTTGTTAACTTCTCCCACCACTTCGTATTCTAAAATGAAATTCACAGATAATATACTATATA
Y
GTAACTTCAAAAAAATCAATATCATTCCCTAACTTTAGAACGAATAATTACAAGGACGTTTGTATTAAACTTGTGTGTGTTTCAGTATGCAAATGCCTGG
Celera SNP ID:            hCV11194459
SNP Position Genomic:     82195
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45568):
CTAGAAGAGGCAGAAAAGAGGGAAGGGCTGCGTTTTTGCTCATCCACGTGGCCAGCTGGTTATTACCTGGATTTATTAACCAGTGTCCATCTTTCAAGAC
K
CAGTTGAGCTGTTACATCATCCAGGAAAGCTTTCTTAAGCAATTCCCCTACGCCTTTCTACTGTGTGCCCCATGACTCAGGATTTTGTTCTAACTGGTCT
Celera SNP ID:            hCV11194387
SNP Position Genomic:     57059
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45569):
CCAGCTGGTTATTACCTGGATTTATTAACCAGTGTCCATCTTTCAAGACTCAGTTGAGCTGTTACATCATCCAGGAAAGCTTTCTTAAGCAATTCCCCTA
Y
GCCTTTCTACTGTGTGCCCCATGACTCAGGATTTTGTTCTAACTGGTCTAAAGCAGGCACTATTGACATCTGAATAATTATCTCTCATGGGGTCTGTACT
Celera SNP ID:            hCV11194388
SNP Position Genomic:     57110
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45570):
CTAGGAACACCTGTCCATCACCTCCTGGATGGATTCCACTGTTAGACAGCTACAGGGAATGATTGGTCATGGGGAAGTCTCTGCGCCATAAGCCACGATC
M
CAGCGCAAAACCCTTACTCAAATGTCTTCATTGACTTCGGTATTTCATAGTACCTGAGATTTTATTTTGAGATACCATCAGGGTGAGTTGCACCACTTGT
Celera SNP ID:            hCV11660774
SNP Position Genomic:     116237
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:45571):
GGTCATGGGGAAGTCTCTGCGCCATAAGCCACGATCCCAGCGCAAAACCCTTACTCAAATGTCTTCATTGACTTCGGTATTTCATAGTACCTGAGATTTT
W
TTTTGAGATACCATCAGGGTGAGTTGCACCACTTGTACTCAATTCTAATTGCCCCCTGGCAATCTGGGAAGGGTTCAGAAGGTGGGCACCCAGCCAACAG
Celera SNP ID:            hCV11660775
SNP Position Genomic:     116301
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:45572):
CAAAAGAAATAGTTTATTCAAAGAGACTGTGTGTTACTGAAGAACAGCATAAAAATATGATTTTTTTACTTGCAAAAATGAAAGGAAAAAAATACCACGC
R
TTGAAATGCCCAGTTCAGACTGAATAATTCCTGCTGCAGCAAGGAAAGTACCTACTATAATAGAAATTCTGTTTTGTTTTCTGTGGTTTTCAAGTTAAAA
Celera SNP ID:            hCV11660776
SNP Position Genomic:     116596
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:45573):
AGCCCAGGAGGTGGAGGTTGCAGTAAGCCAAGATCACGCTACTGCACTCCAACCTGGATGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAA
A
GAAAAGAAAAAGAAAAGAAAAAAAAAAAGAAAATAAGTGGTTGAGAGAATCTGGATTTTTGTTTGTTTGTTCAGTCTCCCAAGCTCTTTGCAAATTGCTA
Celera SNP ID:            hCV26715110
SNP Position Genomic:     87360
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45574):
CTGCAACACGCACGACTCGCTGCTCGAGGTGTGCGATGACTACAGCCTCGACGACAACGAGTACTTCTTTGACCGCCACCCGGGCGCCTTCACCTCCATC
Y
TCAACTTCTACCGCACTGGGCGACTGCACATGATGGAGGAGATGTGCGCGCTCAGCTTCAGCCAAGAGCTCGACTACTGGGGCATCGACGAGATCTACCT
Celera SNP ID:            hCV11194316
SNP Position Genomic:     6449
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45575):
CCCAGGAGGTGGAGGTTGCAGTAAGCCAAGATCACGCTACTGCACTCCAACCTGGATGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAG
W
AAAGAAAAAGAAAAGAAAAAAAAAAAGAAAATAAGTGGTTGAGAGAATCTGGATTTTTGTTTGTTTGTTCAGTCTCCCAAGCTCTTTGCAAATTGCTAAG
Celera SNP ID:            hCV26715111
SNP Position Genomic:     87362
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,11)   total(A,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45576):
CCAGGATTGGAACCCAACTTTGTCCAAAGTCAAAGTTTGTAGGCTAACCCCTTACTCTCTATCCAGTTTCAATATGAAGGAGCTTTGAGAAGTTCAAGTG
R
CCACAGAATCCTTGGTGGTACTGAAACAATTATCTGTACAAGATCCTACTAAGCGTAAGCCCTGAGAAGTGCTAAGACTTCTGGCCCTTCTATGGAAACC
Celera SNP ID:            hCV27501000
SNP Position Genomic:     93986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45577):
GTAAGCCAAGATCACGCTACTGCACTCCAACCTGGATGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAAGAAAAGAAAA
M
AAAAAAGAAAATAAGTGGTTGAGAGAATCTGGATTTTTGTTTGTTTGTTCAGTCTCCCAAGCTCTTTGCAAATTGCTAAGAGCCAGGAAAATGTTAACAT
Celera SNP ID:            hCV26715112
SNP Position Genomic:     87382
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|A,7)   total(A,7|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45578):
ATACCCGGGGGCATCTAGTGGGTGGAGGCCAGAGATGCTGCTGAACATCCCAGAATGCACAAGGCAGCCCCCTACCTGAGTGAGCCAACCCAAAACGCCA
R
TAGGTCGAGGTTGAGAAATGCTCGGTGAAGGGCACAGATTCTTGCACCAGACTTCCTGGGGCCAAATCCTGGCTGCCGCTTACTGGCCGAATGACCTCAG
Celera SNP ID:            hCV27501001
SNP Position Genomic:     47115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45579):
AACAATTAATGTTTTTAATTGTAAAACATTAATGTGCTGTAAAGATAGGGAACAACCCATAGGTTGTGAGGTAGAGCAGCCCTGGGTTCAAATCCCAGCT
S
TGCTACTTGTTAGCTGTGTGGCCTTGGGCAAAGCACTTGACCTCTCTGTGGCTTGGTTTCTTCATCTGTAAAATTGGATGAAAATGATCGATTGTTTTGA
Celera SNP ID:            hCV26715113
SNP Position Genomic:     89994
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45580):
GACACCTACCACAGCCTCCTCACTTTGATTCCTGTTTCTATTCCAGTCCCCCTACAGGCTGTTCCTAGGTGCAGCTCGGGGATTATTTTATTTTATTTTA
T
TTATTTTATTTTATTTTATTTTATTTTATTTTACTATTTTTTGAAACAAAGTTTCACGTTGCCCAGGTTGGAGTGCAATGGCACAATCTCGGCTCACTTT
Celera SNP ID:            hCV26715114
SNP Position Genomic:     92264
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45581):
AGTATTTGTTGAGTGCCAATGCCACATCTGGCTCTGTGCTGGGCAGTGGGGATCCAGCCTTGTGAAATAGACACAGTCCCTGCCCTTGATGTGCTAACCT
R
GGTTGGTGGAGAAGCGGAAAATAAATGAGTAAACAAACAAATAAACAAAATGATTTGGCCAGGCATGGTGGCTCACATCTATAATCCCGTCCCTTTGGGA
Celera SNP ID:            hCV11194530
SNP Position Genomic:     96071
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45582):
TGGCCAGGCATGGTGGCTCACATCTATAATCCCGTCCCTTTGGGAGGCTGAGGCGGAAGGATTCCTTGAGCCCAAGAGTTTGAGACCAGCCTGGGTAACA
Y
AGTGAGATCTTATCTCTACAAAAAGAAAAAAAAATAGCTGGGCATTGTGGCACACATCTGTGGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATTGCT
Celera SNP ID:            hCV11194531
SNP Position Genomic:     96227
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45583):
ACTGCAGTATTACCAGGGCCTAAAAGATTACCTGGCACATCCCCACATGAATGAATGAATGAATGAATGAGGTAAATCCTTATAAGAATCTGACCATGTT
R
GTATTAATAGTCCCTTTTTATAGATGAGGAAAGTGAAGCTCATGGAGATGAAGTTCCTTGTGTAAATTCAAACAGCCAGTAAATGTCAGGGGCAAGATTT
Celera SNP ID:            hCV26715116
SNP Position Genomic:     99013
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45584):
AAATTCACAGATAATATACTATATATGTAACTTCAAAAAAATCAATATCATTCCCTAACTTTAGAACGAATAATTACAAGGACGTTTGTATTAAACTTGT
R
TGTGTTTCAGTATGCAAATGCCTGGTCAGGACAACAACACCAGAAAACACCATGAGGTTGTCAGATGCTTCCACTATACATAGAAGCACCATGAGTGTGA
Celera SNP ID:            hCV11194460
SNP Position Genomic:     82270
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45585):
TAAACTTGTGTGTGTTTCAGTATGCAAATGCCTGGTCAGGACAACAACACCAGAAAACACCATGAGGTTGTCAGATGCTTCCACTATACATAGAAGCACC
R
TGAGTGTGACCGTGACAAAAACAGAGGTACAGGTGTGCTGGCAGCTCTGATATCCCAAGCAGCACTGACATCAGCTGCATGACTTTTCCAATACGATGAA
Celera SNP ID:            hCV11194461
SNP Position Genomic:     82361
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45586):
CAGAGAAACAGCAAGTGCAAACGTCCTGAGGCAGGAGTGGGCTTGGCATGTGGAAGAGCAGACAGGTGGCCAGTGTGGCTGGAAGGGAGTGACTATGTGC
R
AGAGCACAGAGAAAAAGAGATCAGAGAGGTCAACAGGGGCCAAGTCAGGCAGGGCCGTGCAGCCTCCATAAGAGTTTGGACCTTGTTTCAAGTGCAGCAG
Celera SNP ID:            hCV11194534
SNP Position Genomic:     96678
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45587):
CCTCCTTCATCTGCACCTTCCCTTCATTCTCTGGCTTCTCTTGAAGGTTCAGCTTTCTTTGTCTTTTTCTTTCGTTTGTTTGTTTGTTTGTTTGTTTGTT
T
TTTGAGATGGAATCTCACTCTGTCGCCCAGGCTGGAGCGCAGTCGTGCAATCTCGGCTCACTGCAACCTCTGCCTGCCGGGTTCAAGCCATTCTCCTGCC
Celera SNP ID:            hCV26715118
SNP Position Genomic:     111557
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45588):
TATGAAGGAGCTTTGAGAAGTTCAAGTGACCACAGAATCCTTGGTGGTACTGAAACAATTATCTGTACAAGATCCTACTAAGCGTAAGCCCTGAGAAGTG
Y
TAAGACTTCTGGCCCTTCTATGGAAACCCTGTGTTGCAGCCAGGGCTCTTAGATGACACTTTTTTGGAGAGAGTGGGATCCTCAGGAATTTTGTTCAAAT
Celera SNP ID:            hCV1086031
SNP Position Genomic:     94058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45589):
AGTGATGAAACTTCACAAAGACTGCTGTGACAGGGCAATGAAAGGGCTGACTCAACTTAATTCAGTCTAGGAAAAGCTGGTGACATTGCTACTGAGTCCC
R
AAAGAAGGAAGAAAGCAAACTGGTGAAGGGGCAGGGGAGGTGGCAGGAAAAGGTCTCTCCAGGCCAGGCCCAGGGAACAGCAAATGAAAAGGTGCCGAGG
Celera SNP ID:            hCV11194535
SNP Position Genomic:     96907
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,8)   total(G,5|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45590):
CTCCTTCATCTGCACCTTCCCTTCATTCTCTGGCTTCTCTTGAAGGTTCAGCTTTCTTTGTCTTTTTCTTTCGTTTGTTTGTTTGTTTGTTTGTTTGTTT
K
TTGAGATGGAATCTCACTCTGTCGCCCAGGCTGGAGCGCAGTCGTGCAATCTCGGCTCACTGCAACCTCTGCCTGCCGGGTTCAAGCCATTCTCCTGCCT
Celera SNP ID:            hCV26715119
SNP Position Genomic:     111558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45591):
ACCCAACTTTGTCCAAAGTCAAAGTTTGTAGGCTAACCCCTTACTCTCTATCCAGTTTCAATATGAAGGAGCTTTGAGAAGTTCAAGTGACCACAGAATC
Y
TTGGTGGTACTGAAACAATTATCTGTACAAGATCCTACTAAGCGTAAGCCCTGAGAAGTGCTAAGACTTCTGGCCCTTCTATGGAAACCCTGTGTTGCAG
Celera SNP ID:            hCV1086032
SNP Position Genomic:     93997
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45592):
TGCCAACACACCTGACTAATTTTTGTATTTTTAGTAAAGACAAGGTTTCACCTTGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCA
M
CTCGGCCTCCCAAAGTGCTGGGATTACAGGCCTGCACCACCATGCCTGGCCATCTACTATTTTCTTAATTGTTCCTCTGGACATTTGTTCTTAAGCCTCA
Celera SNP ID:            hCV11194536
SNP Position Genomic:     102134
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45593):
AATTAATTTAAACAAGTTGTTGTTCACCTACCTGAGTATCCACTGGGACACTCCAACATTGAGCAGGACAAGAGAAGGTTATCCATGAGCAGGGCTGTCT
Y
GTGCATTACAGGTCGCCTGGTGTCCTCAGCCTCTGCTCACTTCATGCCTGTGGCATCCTCTCCCATCCTTGTGACACCCTCGCACATTTTCAGGGCATGT
Celera SNP ID:            hCV11194464
SNP Position Genomic:     82709
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45594):
CCCCGTTCCTTCCCTTTCCTTCTGGACCTCAGCTTCCACATCTGTACAGTGGGTGTGGTAGCTCCCATGATCTTCAGGGGCCACACCACTCAGATGTCTC
R
AAAATGCTCCCGTTGAGTGTGTTTCTAGTTATGAGAGGTCGCTTCAACATCCCCACTAGGGAAGGTATTGTGTATTCATTCATCCAGCAAACATTTACTG
Celera SNP ID:            hCV1086034
SNP Position Genomic:     74377
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45595):
CCTGAATATGGCCTGAACTCCCATCCAGAATCTTCGTGAGGTCGAGGGAGGGTCATGTGGCTGCCAATGGCATAATGAGAGCTCCCGGCAGCCAGGGTCT
R
GCAGGATGCAGGAAAGAGGCTGGTAGGGGCATCTGGGGCTGGGCCACCCTTGGCTGTGGCCCTGGAGGCAGCACAAACCCCTACCCTGGAGATCTCTCCT
Celera SNP ID:            hCV1086035
SNP Position Genomic:     73871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45596):
AGTTGTTGTTCACCTACCTGAGTATCCACTGGGACACTCCAACATTGAGCAGGACAAGAGAAGGTTATCCATGAGCAGGGCTGTCTCGTGCATTACAGGT
Y
GCCTGGTGTCCTCAGCCTCTGCTCACTTCATGCCTGTGGCATCCTCTCCCATCCTTGTGACACCCTCGCACATTTTCAGGGCATGTCCTTATGGGTAGTG
Celera SNP ID:            hCV11194465
SNP Position Genomic:     82723
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45597):
AGAAGGCTTGAAAGCTACAGTTAAAGTACTTAGGCAAGTGCATGCAGCAGGTGCTCAAACTGTGGTTGCTGATATTTCTTGTGGTAGCAAGAAGATTTTC
Y
TTTTTATTTCCCTGCAATGTCATTGGGTTTTGCTCCATCTTACTCATGGGGAGACTGAGGCTCACAGAGAGAAGAAGCCATTCCAAAGCTACATGACCAC
Celera SNP ID:            hCV1086036
SNP Position Genomic:     73641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45598):
ACCACACCTGCCCACGGATCTTGTTTGTTATCTGTCAATCTTTGCATTCCTAATGGTTTGTTTACTTGCACTGTCACGATCAGGGTCCTTTGCACACTAC
R
AGTGGCTTGTCTTTGCCTCCAATTTGTGCACCTCCCTGGTAATTATCCTTGGAAGCAGAGGAGGCAACACAAGCACAAATAAAGATTCCCAAGGCAGCAG
Celera SNP ID:            hCV11194466
SNP Position Genomic:     83285
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45599):
TGGGTGGAGCGTTTATTTCAGGGTATGTGTACTCGCCGGGTTTTTTTTTAGAACTATATTTATTACTCTGGTCCCCAGTCCAGAAGGCTTGAAAGCTACA
R
TTAAAGTACTTAGGCAAGTGCATGCAGCAGGTGCTCAAACTGTGGTTGCTGATATTTCTTGTGGTAGCAAGAAGATTTTCTTTTTTATTTCCCTGCAATG
Celera SNP ID:            hCV1086037
SNP Position Genomic:     73560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45600):
GTGTCAAGGAACTTGCTTGGGTTCCCTCGGAAAGTGGCCTCAGGCCTTACTCTGGGTGTGTCCCACGCACTATGATGTAGCTGAGAGAGCCAAAAGCTGT
R
TGACCCCAGACAAGTCATTTTATCTCTGTGAGCTTCCATTTCTTCACCTGGATAACAAGGGTGATGGTACTACCTCACATTCAGCAAGGTTGTTGCATGG
Celera SNP ID:            hCV11194394
SNP Position Genomic:     58801
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45601):
CAGCTCATCCCCTCATGAGGTGGAAGTGATAGAGCTTCCACCTCTCAGACCGGAGCGAGATTCAACAGGTAAATACACACAAGCCATTCTGAACGGTGCC
R
GGCAGATGGTCCTCAAAAAGCTTAGTCCTTTGCCTTTCCACCTGGTGCTGATCCCTGTCTTAAATGATCTGTCTTGTTTTTTAGTAGAGACAGCGTCTCA
Celera SNP ID:            hCV1086038
SNP Position Genomic:     72064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45602):
GAGATGTTGTTCATTCATCCAATGTATATCAAGGGCCTATTATTTGCCATGTACTATGTTTTGTGATGGGACACGATGTTGACCAAGACAGATAAGGTAC
R
TGCCCTCTGAGATTTTATGTTCTGGTCTTTTTGGTCATAGATTGCCACCAAATGTTCTATAAACCTGAACAAACTATGCTTCCTCTTCAGGCCTCAGTTT
Celera SNP ID:            hCV11194395
SNP Position Genomic:     60231
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45603):
ATCAGCCTGGCCAACACGGTGAAACCCTGTCTGTACTAAAAAGACAAAACAAAAAAAAATTAGCTGGGCATAGTGGCCCATGCCTGTGATCCCAGCTATT
Y
GGGAGGCTGAGGCAGGAGAATCACTTCAACCCGGGAGGCAGAGGTTGCCTGCCATGAGCCGAGCTAGTGCCACTGCACTCCAGCCTGGGCGACAAAGCAA
Celera SNP ID:            hCV11194468
SNP Position Genomic:     84671
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45604):
GGAGATGAGGGATGGCTCTTGGAGTGGGGTGCCTCTTCCCTCCTCTTCCAGAATGCTTTCCCTGATTGTTGAGGGGCTGTATCAGGCTCTTGAGAGGGGT
R
TTGGGACCCCCGGTTATTCTGTGAGCTTAGGACCCCCATTTCTTAACATTCCTCATAGCATCCAGTGTTTGTCTCTGCCCAGCCTGGATGTCTGTCATAA
Celera SNP ID:            hCV27485635
SNP Position Genomic:     41863
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,60|G,1247)   total(G,1247|A,60) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45605):
CTGCTCAAGTGGAACCCAGGAGAAGCTGTGAGCAACCTACTTTCCAGCTCATCCCCTCATGAGGTGGAAGTGATAGAGCTTCCACCTCTCAGACCGGAGC
R
AGATTCAACAGGTAAATACACACAAGCCATTCTGAACGGTGCCAGGCAGATGGTCCTCAAAAAGCTTAGTCCTTTGCCTTTCCACCTGGTGCTGATCCCT
Celera SNP ID:            hCV1086039
SNP Position Genomic:     72020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45606):
GGAGGGACTGGAAGCTGCGGGTGCTGAGGGAAGACACCCTCTCTCACCACTGCATGCACTCTGGGCTGGAGTTGGATCCCAGGAGAACCCTGAACCAGAC
Y
TAATATCCAGAATAATCCTCACTCCCACTGCCCCACACCATTGCCAACTCTGGCAGGTCCTTTCCCATGGCTCCCTGTTACCCTTAGGATAAAGTCAAAG
Celera SNP ID:            hCV11194396
SNP Position Genomic:     60995
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45607):
TTTCACTCCCATATGGCTTAGCACACCAGTGTTGCTGATCCTGTCTTTATTGAAAATATAGATATTTTGTTCATCATGGGGGGTTTTACATTAAGTTTGA
T
TTTTTAAATGTTACATTAAAGTAGTATTTATCTTGCTTACTGAGTTATTTGGCAATGCCTTAAATTTCACACCCTTAATTTTTTTCACCCTGGACTCAGC
Celera SNP ID:            hCV11194469
SNP Position Genomic:     84930
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45608):
GGGTACTCCAGGCAGAGGGAACAGCAAAGATCTAGAGGTGGAAGCACCCATGGTGGTGAGTTTGGGAACTTTAAGTGGTTTCTGCAGGATTCAGTGTGGG
W
TACAATGGGAAATAGGGGAAATGGTCAGGAGAGAGAAGAAAAGGGATCTTAATATAAAACCCAGATCTCTTCATCAGGTCTCATCAGGCCCACCCCGCTC
Celera SNP ID:            hCV524969
SNP Position Genomic:     104743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45609):
ACAGTCTCTTGCCTGGACACCTACCACAGCCTCCTCACTTTGATTCCTGTTTCTATTCCAGTCCCCCTACAGGCTGTTCCTAGGTGCAGCTCGGGGATTA
T
TTTATTTTATTTTATTTATTTTATTTTATTTTATTTTATTTTATTTTACTATTTTTTGAAACAAAGTTTCACGTTGCCCAGGTTGGAGTGCAATGGCACA
Celera SNP ID:            hCV3029902
SNP Position Genomic:     92249
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45610):
GAAAAAACTCTGGGACCTACTGGAGAAGCCCAATTCCTCTGTGGCTGCCAAGGTGAGTCTGGGATCTGGGGGCTGCTGGTCTGGGGGGATCTGCTTGCAT
Y
CCCATATTGAGGACCACTGCTGGAGGACTCTGGCTTTGTTCCCAACGATGAAGATTAGTAATGGGGAGGGGCTAGGACTGAGTCCCCAGAGGTGAGGACC
Celera SNP ID:            hCV11194320
SNP Position Genomic:     6779
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45611):
GTCCAAAACCAGCTATAAATAAATGTAAAGAAATGTGGAGAAATAAATACAATTAAAGTTTAAAGTGATTGTGCCACTAGCTAAGGGCATTTTGAGTTCA
W
TGAATTTTCATTGCAGTCTTGCAATGATCCCTGTCTTACATATAGGGAAACTGAGGCACAGAGGGCTTAAATCACGTTGGGAAGTTCCCCAGGCAGGAAG
Celera SNP ID:            hCV7596134
SNP Position Genomic:     107705
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,33|A,50)   TSC_42_C(T,16|A,67)   TSC_42_AA(T,16|A,67)   total(A,184|T,65)   (T,-|A,-)   no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45612):
AAAGTTAAAAACATGCCCAAGTGCAGTGTCTCATTCCTGTAATCCCAGCACTTACGGAGGCCAAGGTGGGAGGATCCCTTGAGCCCAGGAGTTTGAGACC
M
GCCTGGGCAACTTAGTGAGACCCCATCTCTACAAAAAGTAGCCAGGTGTGGTGGCATGTGCCTGTGGTCCCAGCTACTCAGGAAACTGAGGTGGGGGGAT
Celera SNP ID:            hCV27873725
SNP Position Genomic:     24354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45613):
GCTGACACTGTTAATAATTGATGGGATGTTCTGGCAACTCGGAGACAAACCAAAGCACAGGCCCTAGGCTTTGCCATCAGGGGAGCGAAAATCAAAACCC
R
TTAGGCAAAAGGCAGTGTGATTGATTCTTGTTTAGAAGATGGGGACAGCCCCATTGGTGTGACAGGGTTGCGGTGCTGGGGCTACCACGGGGCTTTGGCT
Celera SNP ID:            hCV11194321
SNP Position Genomic:     10217
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:45614):
ACGTGCACACACACACACGCATGCACACACACACACGCACGCACCTGTGATGGGATATGAGTGGTAAGTATCCCCAAGGTATGGTAAAATGGTGAGGAAA
Y
CCAAGGATGGAGCAGTCAACCCTGCCTGGGGAAAGCAGGGAGAACTCCAAAGGGAAGGGGTCACATGGGCTGGATTTGAAAAGATGGATTGGAGTTCACC
Celera SNP ID:            hCV7596135
SNP Position Genomic:     110744
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45615):
ATCTGCTATCTCATTGAAATTCCTCCAACAGGGATACAACCAGGTAGTATGCCAGTTAGGGATGCTTTGGGCTGCAAGCAGCAGAATAGAAAACTCAAAG
Y
AGCTTCAATAAGGAGGAAGATGCATCATTGAATATAATATGAAGTTCCAAGGCAGTTGGTTTTAGGTTGAGTTAATGGCTCAATGATGCCACCAGGATTC
Celera SNP ID:            hCV11194322
SNP Position Genomic:     10591
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45616):
TGGTAAGTATCCCCAAGGTATGGTAAAATGGTGAGGAAACCCAAGGATGGAGCAGTCAACCCTGCCTGGGGAAAGCAGGGAGAACTCCAAAGGGAAGGGG
Y
CACATGGGCTGGATTTGAAAAGATGGATTGGAGTTCACCAGACAGCAAGCAAGAAGCTCGGACATGCAGAATTGACCAATGATAGTGTGCGGCTAGAGGA
Celera SNP ID:            hCV7596136
SNP Position Genomic:     110805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45617):
CCCACCCTGGCAACCACTAACCTACTTTCTGTCTCTATAGATTTGCTTTATCTGAACATTTCATATAAATGGAATCATATAATAAGTGGCTTTTTGTGTC
Y
GACTTCTCTCACTTATCATAATGTTTTCATGGTTCGTCTGTGTTGTAGCATATATCAGCACTTCATTCCTTTTTATGGATGAAGAATATTCCATTGTATG
Celera SNP ID:            hCV27873727
SNP Position Genomic:     106188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45618):
TTACCGCATACGCTGTGTGATGCACATTCACACAGACCGATGGCAGGTGTGCTCTGACCCTCCCAACCCAACCCTGAGCAGCAGGCACTCCCCCACACCC
Y
CCACCTTGGAGTCCAGTGGAGCCCCTCCCCCTGCTTTGCTCGTTTCCTAGGCTTCCTTGGGCTGAGGGAAGGGGAGAGGGAGGGCACAGTCTCAAGTACA
Celera SNP ID:            hCV27873728
SNP Position Genomic:     108005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45619):
GAAAGTACTTTATAAGTATGAAGTATTATTGTATTCAAAAGTGGGAGTGGCCTTTATTTATTTATTTTTAATTTTTTAACTTTTTTCAGAGACAGGGTCT
Y
GCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCAGAGCTCACTGTAACCTCAAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAG
Celera SNP ID:            hCV11194324
SNP Position Genomic:     11740
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45620):
AGAGATGGTCAAATGAATGGGTTGGCCAAAGCTTAACTAACTAGAAGAGAACAAGCATGCGTTAGGCACCAACTCCATACCCAGCACTTTGTGTACTTCC
Y
GTACTTGATAATGTCATCAGGATGGGAAGCACTTGACCTTAGCACTGGATTGCCCAAGTTCAGAGTTTGGCTTCTCTACTCACTAACCATGTGATTTGGG
Celera SNP ID:            hCV11194325
SNP Position Genomic:     13105
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45621):
TCCTTCATCTGCACCTTCCCTTCATTCTCTGGCTTCTCTTGAAGGTTCAGCTTTCTTTGTCTTTTTCTTTCGTTTGTTTGTTTGTTTGTTTGTTTGTTTT
T
TGAGATGGAATCTCACTCTGTCGCCCAGGCTGGAGCGCAGTCGTGCAATCTCGGCTCACTGCAACCTCTGCCTGCCGGGTTCAAGCCATTCTCCTGCCTC
Celera SNP ID:            hCV26715120
SNP Position Genomic:     111559
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45622):
ATGAATGGGTTGGCCAAAGCTTAACTAACTAGAAGAGAACAAGCATGCGTTAGGCACCAACTCCATACCCAGCACTTTGTGTACTTCCCGTACTTGATAA
Y
GTCATCAGGATGGGAAGCACTTGACCTTAGCACTGGATTGCCCAAGTTCAGAGTTTGGCTTCTCTACTCACTAACCATGTGATTTGGGGTCAACTATTGC
Celera SNP ID:            hCV11194326
SNP Position Genomic:     13117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45623):
TTCATTTCACAGGAGAAAACAGATTTTCAGTTCTTGTCTGAGGTCACTCAGTAAGGGAAGCTGAAGAAAATGTGGAAGGAGCCCCCCACGGTGGCTGGAC
Y
CAGCATCAGGGGCTCTCCCCATCTCCTTTAGTCCTCTGAACCCAGAGAGGCTTAGCTGAACTGCAAGCTGAGGCCAAGGGATTTACAGCTCAGAAATCCC
Celera SNP ID:            hCV7596067
SNP Position Genomic:     37318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45624):
CCTTCATCTGCACCTTCCCTTCATTCTCTGGCTTCTCTTGAAGGTTCAGCTTTCTTTGTCTTTTTCTTTCGTTTGTTTGTTTGTTTGTTTGTTTGTTTTT
T
GAGATGGAATCTCACTCTGTCGCCCAGGCTGGAGCGCAGTCGTGCAATCTCGGCTCACTGCAACCTCTGCCTGCCGGGTTCAAGCCATTCTCCTGCCTCA
Celera SNP ID:            hCV26715121
SNP Position Genomic:     111560
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45625):
TTCTTGCCACCCCACTGCTGCCTTCCTGACCCTATCCTCTCCCTCCTGTACCATTGCAGGAGCCTCTAGTCCCATCTGCTGCCTCCAGCCTCCCATCCCC
Y
GTCTGGTCTCCACACACAGCAACTCACGCCCCCGCTCAAAACCCTCCTATGGCTCCTGCCTCACTCCGAGAAAAAGCCCAACTCCTCAGTCCCACTCACA
Celera SNP ID:            hCV27997909
SNP Position Genomic:     17310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45626):
TCCAGGAACAGAGGGGAGGCCAGCATGGCTGGAGGGGAGTGAGCAAGGGGAGGAGTAAAGGGGATCAGGCCAGAGAGATACGGAGGGGCCAGGCCCTGCA
S
AGCCTTGTGGGCTGTTCTAAGGACTTTGGCTGTTGTCCTCAGTATGCTGGGAGATAGGGAGGTGTTTTGAGCAAAGAAAAGTGCCCTGGTCTGGCTTAGG
Celera SNP ID:            hCV27954578
SNP Position Genomic:     68787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45627):
CAAGAAGATAGTGAAGACTATGAACGACCAAAGGAAGGTTACTGGTTAATGTACCTGAGATGAGGGGGCAGAGAAGAGCATGGAACAAGAGAAGGCTGGA
R
AGTTAGTCAGGCAGGGAGAGACTAAGCGGCTGTAACAATGAGACCCCAAAATACAGTGAGTGGCTTCAACAAGATGGATGTCATGAGATAGACCAGGAGC
Celera SNP ID:            hCV27954579
SNP Position Genomic:     102732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45628):
TCAAGGATGGCTTCCTTGAACAGGTGATCTTGAGCTAAGAAGGATGAGTAGGAAGTAACCAGGCAGAGTGAAGGGAAAAGCACTCCGGGTGGAGGGAACA
R
TGTGGGAAAGGTCCCGTGGCAAGAAGATAGTGAAGACTATGAACGACCAAAGGAAGGTTACTGGTTAATGTACCTGAGATGAGGGGGCAGAGAAGAGCAT
Celera SNP ID:            hCV11194541
SNP Position Genomic:     102612
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45629):
AGATGAGGGGGCAGAGAAGAGCATGGAACAAGAGAAGGCTGGAGAGTTAGTCAGGCAGGGAGAGACTAAGCGGCTGTAACAATGAGACCCCAAAATACAG
K
GAGTGGCTTCAACAAGATGGATGTCATGAGATAGACCAGGAGCTGGCAAACTTTTTCCATAAAGGGCCAGTCTAGCACTGAGATTCGCTTCCATCTCAGA
Celera SNP ID:            hCV11194542
SNP Position Genomic:     102789
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45630):
GCAAGACGTCTCTTATCCCTGGGTCCCACTCACTGAATGCCAGTATCACCATGATAACCAGAAACACCTGTCCTCCCTAACATTTCCAAAATGCCTCCTG
Y
GGCAAAATGCCACCACCACTGGGCTAGATCACTGTCTTTGGAGTCACACAGCCCTGGGCTCAAATTCAGTTTGTCACTTAGCTGTGTGACCTTAGGCAAG
Celera SNP ID:            hCV11194470
SNP Position Genomic:     85371
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45631):
AAGAGGGGAAGAATAGATGTTGGTGACAGCTAGTGGTCTTTGCAATAGTGGGCCAGAGAGTGGTTTTGGGGAGGCCAGAAAGAAGTCCTGATGCGGGAGG
R
TGGGGACTGTGCAGGTGGAGAGAATGGAACAGATGCGCAGATGTTGGTGAACTTGAATTGATCAGACTTAGCAACCACTATCTTCTTGCCATGGGGCCTT
Celera SNP ID:            hCV11194543
SNP Position Genomic:     103192
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45632):
GCCATGGGGCCTTTCCCACACTGTTCCTTTCGCCTGGAATGCTTTTCCCTTCACTCTGCATGGTTACTTCCTACTTATCCTTCTTAGCTCTTAGCCTGCC
Y
CCTGCAGGCTCCTGTCTCCTGATCCCTGGGTATGGGGATAGGGCAGGGTATAGCAAGTGTGACCCCCATGTTCCTGGCTTGTGGAGTCTGATGCAGATCT
Celera SNP ID:            hCV524970
SNP Position Genomic:     103380
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45633):
CGATGGTTAACAGCTTGAGTTCCAAAGCCAGGCTGCTCAAGTGGAACCCAGGAGAAGCTGTGAGCAACCTACTTTCCAGCTCATCCCCTCATGAGGTGGA
R
GTGATAGAGCTTCCACCTCTCAGACCGGAGCGAGATTCAACAGGTAAATACACACAAGCCATTCTGAACGGTGCCAGGCAGATGGTCCTCAAAAAGCTTA
Celera SNP ID:            hCV1086040
SNP Position Genomic:     71988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45634):
GATCGAATAAACAATGCTGCAGTGAATAATCTTATACCTATATCATGAAAACTCTTGTTTAAGATCCTTAGAAGCCAGGCGCCTGGGTCCTGCCCATAGT
Y
ACATCTACTCAGGAGGCTGAGGCGGGAGGTTCCCTTGAGCCCAGCAGTTCGAGGCTGCAGTGAGCTATGATTGTGCTACTGCACTCCAGCCTGGGTGATG
Celera SNP ID:            hCV1086041
SNP Position Genomic:     70919
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45635):
GGCTAAAACCTTTGAAGACGAATTTATTATATTCTACAGTAGCTGGGACCACAGGTGTGTGCCACCACATCCGGCTACGTTTTTAATTTTTAGTAGTGAC
R
GGATCTCACTATGTTCCCCAGACTGGTCTCAAACTCCTGGGCTCAAGCAATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGGGTGAGTCACT
Celera SNP ID:            hCV11194472
SNP Position Genomic:     86793
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45636):
TGTCCCCATCCCCTGGGAGCACCTAAATTGGGACTGTGGGCTGCTGTTCCTCCTGAGAACTCGGGTTTACTGTCCCTGTTCTCGGGCCTCCCTTGTCTCT
Y
TCACTCCCTAAGGAGAATTGGGACAGGGTCCCTCCAGCGGAGAGAAGCCTGGAAGACTTCTATTTTTTTGAGACTCCTGGAATATTAATTTATAAAGAAA
Celera SNP ID:            hCV1086042
SNP Position Genomic:     69972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45637):
GCTCAAGCAATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGGGTGAGTCACTGCTCTGGCCTGGTTGAGTTTTCAATCCCAAACTGGCAGTA
S
AGGGGAGGAGAGAGAGCACACTATGCAGGAAACCAGAAAAAAGAGTTTTAAAAGTAAGCATAGGATTGCTACTGGGTTGTCAGGAAAGATAAGAAATCTA
Celera SNP ID:            hCV11194473
SNP Position Genomic:     86934
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45638):
AATATATAATATCACTGCATATATGCAAAATGTCAGGAGTAAGGGGACTGGTATTCATGGGGTGTGGGTGCCATTTGAAATAGAGTGGTCAGGGAGAGCC
R
TTCTGGGGATGTGAGATTTAAGCAGAGACCTGAAAGACACAAAGAAAGGAAACAGGCCTATATATGGGGCTGGAGTGTTCTAGGCAGAGGGCACAGCAAG
Celera SNP ID:            hCV1086043
SNP Position Genomic:     68550
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45639):
CACAAGCTAATGAGTTAGCCTGCCACAATGCCATACATGACGGCAGAAGACACGAGATCCCAGGTCAGAGACAAAGGACTTTATTAGTCACAGTATAGCA
R
GCAGCACAAGCTTCATATTTGCGTCAGTTCTAATTGTCTCCCAAGTTCCATGAGAGCAATGAAAACAACCCAAATGGATTCTGCACACACAGCAGCAGAT
Celera SNP ID:            hCV1086044
SNP Position Genomic:     64418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45640):
TGGCTCATGCCTGTAGTCCCAGCTACATGGGGGGCTGAGACAGGAGAATTGCTTGAGCCCAGGAGGTGGAGGTTGCAGTAAGCCAAGATCACGCTACTGC
W
CTCCAACCTGGATGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAAGAAAAGAAAAAAAAAAAGAAAATAAGTGGTTGAG
Celera SNP ID:            hCV11194474
SNP Position Genomic:     87305
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|A,9)   total(A,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45641):
CCCCCACACACAGCTAATTTTTGTATTTTTTGTAGAGACGAGGTTTTGTCCTGTTGGCCAGGCTGGTCTCAAACTCCTTGGGCTCAAGTGATCCACCCTC
Y
TCAGCCTCTCAGAGTGCTAGGATTACAGGCATGAGCCACCACACCCAACCTTAGTTTTTCGAGATAAATTGAAAATTTGCATTCTAAAACAAAATCTCTC
Celera SNP ID:            hCV1086045
SNP Position Genomic:     62710
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45642):
CTGGCTTCCAAAAGCAACCAGTACAGAGGTTAGGGATGGGGTTGACCATAAATTACCTGAATAATAATTTATTTATTTGAGACAGAGTTTCCCTCTTGTC
R
CCCAGGCTGGAGTGCAGTGGCTCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTA
Celera SNP ID:            hCV11194548
SNP Position Genomic:     107187
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45643):
ACGCCTTCAGGCTCAGCTGAATCAAGTTGCTCAAATTATGTTCTAAGGTTTCTGTTTTCCTCCATCACCTGGACCTTTTTTCCTTTGTGTTGGCATCCTC
K
CAGGCAGCTCCCCAAGTCATAGCAAAAATGGCTCTCAGCAGCCCCAGGCTTGTATCTAACCAGCCCAGCAGCTCCAGTGGGTACCAGTAGTTCCTAAGAG
Celera SNP ID:            hCV1086046
SNP Position Genomic:     61450
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45644):
CCGTGTGCTGCTGGAAGCTGTCCTAGCACTTTGCCTGTGCTAACACATTTCATCTTCACAGCAGTTCTCTGAGGTAGATACTGTTATTATCAGCCCATTT
K
CTAGATGAGGAAACTGGGGCTTAGAGAGGTTAAATAACATGCTCAATGTAAGGAAATGGCAGAGCTGAGGCTTGAACCTCAAACAGGCTGACACCAGAGC
Celera SNP ID:            hCV11194549
SNP Position Genomic:     111299
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,6)      total(G,4|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45645):
ACCCCAAAAAGAAACCCTGTACCCATTAACAGTCACCCCCCATTCCTTCCTCCCCTCATCTCCTGGCAACCAGTAATCTATACTTTCTGTCTCGTTAGGT
S
TACCTATTCTGGACATTTCTCATAAATGGAATCATACAATATGGGGCCTTTTGTGACTAACTTCTTTCACTTAGCAAAATGTTTTCAAGGCTCGCCCACA
Celera SNP ID:            hCV1086047
SNP Position Genomic:     59444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45646):
GTAGTCCCAGCTACATGGGGGGCTGAGACAGGAGAATTGCTTGAGCCCAGGAGGTGGAGGTTGCAGTAAGCCAAGATCACGCTACTGCACTCCAACCTGG
R
TGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAAGAAAAGAAAAAAAAAAAGAAAATAAGTGGTTGAGAGAATCTGGATT
Celera SNP ID:            hCV11194477
SNP Position Genomic:     87317
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,9)   total(G,5|A,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45647):
TTCTAAAACTCCCTTGCCATGGAAATGCTCCTCTTGGTATTTTTTTTAAGGGTTTGATTGGGGTATAATTCAAATGCCATAAAATTCACCCATTTAAAAT
R
TATAATTCAATAGTTTTTAGCATATTCAAAAAGTTGTGAAGCCATCATCACATCTAATTTTAGAACATTCTAATCACCCCAAAAAGAAACCCTGTACCCA
Celera SNP ID:            hCV1086048
SNP Position Genomic:     59268
SNP Source:               Celera;dbSNP
Population(Allele,Count): Gaucasian(A,24|G,36)   Ghinese(A,8|G,12)   Japanese(A,10|G,26)   African(A,8|G,52)      total(G,126|A,50) ;(G,-|A,-)   (G,-|A,-)   Caucasian(A,24|G,36)   African-American(A,8|G,52)   Asians(A,18|G,38)   total(G,126|A,50)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45648):
GCTGTCCCCTCCCCGGCCACTGCCACACCCGTCCTCCCAGCTGCAAGCTAACAACAGGCTTTGTCACGGGTGTGCAACCAGTGCAGTAGTACCAGACGCC
M
CTCTCAGAAGGGCCCCACACTTTGTTAGAGGCTCTGCTGTCACTGTCATGAAATCCATAGTTTTTGAACAAGGGTCCCCACATTTTCATCTGCACTGGGT
Celera SNP ID:            hCV1086049
SNP Position Genomic:     53800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,3)      total(A,3|C,2) ;(C,-|A,-)   no_pop(C,-|A,-)   SC_12_A(A,7|C,16)   SC_12_C(C,11|A,12)   SC_12_AA(C,10|A,13)   SC_95_C(A,80|C,107)   total(A,112|C,144)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45649):
TAACTGATCGTAGCAAAAAAAGAGGAAGGCAGAAGGGACTGATTGGCTTATGTAACTGAAAAGCCCAGGGGTACACGCCTTCAGGCTCAGCTGAATCAAG
K
TGCTCAAATTATGTTCTAAGGTTTCTGTTTTCCTCCATCACCTGGACCTTTTTTCCTTTGTGTTGGCATCCTCTCAGGCAGCTCCCCAAGTCATAGCAAA
Celera SNP ID:            hCV11194401
SNP Position Genomic:     61376
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(T,-|G,-)   SC_12_A(G,7|T,16)   SC_12_C(G,6|T,17)   SC_12_AA(G,3|T,21)   SC_95_C(G,44|T,139)   total(G,60|T,193) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45650):
GACCCTCAGGCACGGATTTCCAGAGATGCTCCCTGCATCCTCCCGAGCCTGCCACTGCTGATTGCTGGGGGAGAGCATGACTCACCGTTAAATATATCAC
R
GTCGTCCCAAATTGGCTGCTCAGCCCCAGCAGCCGGATGTAGGGACAGGCAGCATCTGGGGGTGTGTGGGTTTGGGAAGCTGAGAGGCATGACCTTCTGT
Celera SNP ID:            hCV11194402
SNP Position Genomic:     63981
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;JBIC-allele(A,63|G,1230)   total(G,1230|A,63)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:45651):
TAGAGCAGACATTGACTGCTATTGCCCACATCACCCCTTGGAGCTTGTCCTGCCATCCTGGCCCCTTGGGGTGTTCTAGCTAACATAAAATAAGACAGAT
R
GATACTTTGGCAGGCAGAGTTTTAGAGACTTTTAAAATCACATGACAAACCCACTTCGATGAAAAGCAAGCAAAGAACCAGTCCAAACCCTACTCCAACA
Celera SNP ID:            hCV11194403
SNP Position Genomic:     65718
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45652):
GGTTGGCCAAAGCTTAACTAACTAGAAGAGAACAAGCATGCGTTAGGCACCAACTCCATACCCAGCACTTTGTGTACTTCCCGTACTTGATAATGTCATC
W
GGATGGGAAGCACTTGACCTTAGCACTGGATTGCCCAAGTTCAGAGTTTGGCTTCTCTACTCACTAACCATGTGATTTGGGGTCAACTATTGCAGCCCTC
Celera SNP ID:            hCV11194332
SNP Position Genomic:     13124
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,4)      total(A,4|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45653):
ATAAATAAAACAGGAAAGGAATAGAAGGAGAGGTTTCTGATGCTTGCCTATAGAGCGGCCTTATTTCCTTTGATAGTCCAAGTAGGACGATAGCCACCAG
R
TAATTCCACATTCTGTGAAAAATATATAAGATCCTGAATTAAGGGAAAACATTTGTTCTCCACTTTTGCCACCTCCACCCTGGCCATAGAGGATCCCGAG
Celera SNP ID:            hCV11194406
SNP Position Genomic:     66476
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45654):
CCCCCATTAAAGTGTACAATTCGATGGTTTTTAGTACATACACAGAGTGGTGCAACCATCATCATAATCAATTTCGGAACATTTTTATCATCCCAAGAAG
R
AACTCCTACCCCTTAGTAGTCACTCTCCATCTCTCCCCACCTCCATCCCAGCCCTGGGCAGCCACTAACCTAATTGTTATCTCTCTACATTGCCCTATTC
Celera SNP ID:            hCV7596074
SNP Position Genomic:     51924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45655):
TGGTATTATATTCGAGGAATCTTTGGCAATAGGGGGAAATCATAAAGCTTTTCCCCAAATTTTTTCTGAGAGTTTGACAGTTGTAGTCTTATTTTAGGTC
Y
TTGCATGTGGTGTGTAAGATAAGGAACCAACTTCATTCCATTGCATGGGGATATCCCCATTTTCCCCACACCATTTGTTGCCCTGGGTGATTCTGCACAC
Celera SNP ID:            hCV11194333
SNP Position Genomic:     16849
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45656):
TCGCAGGGCTGGAAAGATGTTGCTGTCTGACAGTTCCCCTCCATGAGGTGGCTTGAGTTTCCTCACAGGAGGCATCTGGTTCCAAGAGTGATCATACCAA
Y
GAGCAGGAAGTGAAAGATACCAGTTTCTCAAGGTCTGGGTCCTGAAACTGGCACTGGGTCATTTCTGCCATATTCTACTGAACAAGCAGTTGCAGAGCCC
Celera SNP ID:            hCV11194407
SNP Position Genomic:     67080
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   SC_12_T(C,5|T,12)   SC_12_C(C,6|T,14)   SC_12_TT(C,1|T,12)   total(C,12|T,38)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45657):
GGATAAGGGGCAATCTCTGACACACCCAGCATGGCTCATCCCTTCCTCTTCCACTCAGGACGGCTTGGCAGAATGCAAGTGAGAGAGTGAGATGCAAGTG
K
GAGTGACGTGTCTAGGTTGTGGCCACTTCTTGCCACCCCACTGCTGCCTTCCTGACCCTATCCTCTCCCTCCTGTACCATTGCAGGAGCCTCTAGTCCCA
Celera SNP ID:            hCV11194334
SNP Position Genomic:     17183
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,3)      total(G,3|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45658):
CGCAGGGGGATGGTCATGAATGAGTTAAGCGTGTGTACATTATTAATAGTATCATTTCATCCTTTCTACCATCTCATGGGCTGTTGGGAAACTTTAACGT
Y
GATTCAGATCAGGCCATGGCTACACTAAGTCAACATCTCTCACTTTGATTTAGTGGCTAAAAAGCCTGGGCTCTGGAATTGTTCAGAACTGGGTAGCACT
Celera SNP ID:            hCV11194408
SNP Position Genomic:     69595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;(T,-|C,-)   (C,-|T,-)   no_pop(T,-|C,-)   (T,-|C,-)   Caucasian(C,27|T,31)   Caucasian, from CEPH families(T,92|C,224)   African-American(T,15|C,45)   Asians(T,22|C,38)   total(C,334|T,160)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45659):
CTCACTTTGATTTAGTGGCTAAAAAGCCTGGGCTCTGGAATTGTTCAGAACTGGGTAGCACTCCTAGCTCGGCGCTGTGAGATGCTGTTTCCAGAGGAGA
S
AGCTTAAAAACCACAGACATTCCCCTCCAGTCCGCAGCAAGACCAGCTTCACAGGGTGGGAATTTTCTCTTGCCCATGTTCAGCAGATCTACATCCCCAG
Celera SNP ID:            hCV11194409
SNP Position Genomic:     69734
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45660):
TGCAAGTGAGAGAGTGAGATGCAAGTGGGAGTGACGTGTCTAGGTTGTGGCCACTTCTTGCCACCCCACTGCTGCCTTCCTGACCCTATCCTCTCCCTCC
K
GTACCATTGCAGGAGCCTCTAGTCCCATCTGCTGCCTCCAGCCTCCCATCCCCCGTCTGGTCTCCACACACAGCAACTCACGCCCCCGCTCAAAACCCTC
Celera SNP ID:            hCV11194339
SNP Position Genomic:     17256
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,1)      total(G,1|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45661):
GGAATGATTGGTCATGGGGAAGTCTCTGCGCCATAAGCCACGATCCCAGCGCAAAACCCTTACTCAAATGTCTTCATTGACTTCGGTATTTCATAGTACC
Y
GAGATTTTATTTTGAGATACCATCAGGGTGAGTTGCACCACTTGTACTCAATTCTAATTGCCCCCTGGCAATCTGGGAAGGGTTCAGAAGGTGGGCACCC
Celera SNP ID:            hCV11194551
SNP Position Genomic:     116292
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;JBIG-allele(G,521|A,972)   total(G,521|A,972)   no_pop(A,-|G,-)   SC_12_CA(G,9|A,27)   SC_12_A(G,8|A,16)   SC_12_AA(G,5|A,37)   total(G,22|A,80) 
SNP Type:                 INTRON;UTR 3


Gene Number:                 229
Celera Gene:                 hCG38011 - 104000117478669
Gene Symbol:                 F5
Protein Name:                coagulation factor V (proaccelerin, labile factor);FVL;PCCF
Celera Genomic Axis:         GA_x5YUV32W2NG(7841943..7926352)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12389):
CAGACACTTAGCCTGCCTATAAGTTCATAAAGTTTTGTTTATAACCTAATGGGGCTCTTCTTCATCACTCCTCATAGAAAGTAACTGGGGGCATCAGAGA
GACCATTAATTGCTCAAATCAAGGTAATGGAAAGTGGCTATGTTAAAATATCTGAAAGAGATCTCATTGAATTTCTCTATTGTTGACATAGGTCTCAACA
CCTATTCTTAACTGCTCAGAGGCAAAACCACGTGTTCCTTACTCTTATTCTTTCTCCATTTACAATGCTACCAAAACATTGAGGCTGTTTTTCCAAATTT
CCTTCATATACTCTCCTGTGAGTGGCTAAGACAATAGACAAAGGTCAATACTCTGCTTCAATACCAAAGAGATGTACTGAGAGCTACAGTGAATCCCTCC
ATGCAAAATGTGTGCTTGCTCAACCAAACCCAGAAGGCAGAGGCAAGAGCTCCTAGACCTTAATCTCTATGATCATGTAGGAATCACTCTAATCTTGATG
TTTCCCCCAAGTCCTTTCTTTGACTTTGAGACATTTCCAGAGGACCCTCTAACAGTGGAGAAGGACAAATGGCCACTCATGCCCCAATATTTTTAATAAT
AAATACATTCATTTGTTGGGGATGGGAGCTTTTTTCCTCAGCTTCTCCCAATTTGATTTTAGGCTTTGAAGTTTTCTATGGCCAAATAAGAGGAAAATGC
TGCAGCCATAGCTGAAAATTCAACTATGAGAGTCTGTTATTTGGATAAAAATATGCTACCAGGGAGGAAAAACATCCACTGTTCTGTTGGTTTGGATTCA
TGTATGTGATTAGCTTGCTCAGCTAAGGGCTGAGGGCAAGTGACACAAGATGCCCTCAAAAGAAATTGATTTATGTATTTACTGAAAGGAAGGAGGAAGA
AAGTGACAGGACTCTGGAGTTAAATATTGTCGAATGTTTAATTTAGCCTAAAACACTTTCTACCTTTCAGGGAGAAACTGTTCCCAATATTCCCCTTATA
ATGAGCCCTCCTGAAAATCAGTCTACTGGTTTTCCCCAGTAATTTCTATCCTTAATGACCCTCTCTTTCATCTTGTTTTTTTTTTTTAATCATTCATTCT
TGTCTTCTTGCTGATTTTAGATGATGGGAAATGCCCCTTGAATCCTCACAGGTAAGGTAGAAATGTTTTATGATTGAGTAAATTTTGCTACCTTAACTTT
ATAATTCACTGTAATATGTCAGAATGATTACATGCAATGCCTGCCTCCTTTTTACAATGTCTTTTGCAATGTCTTCTTTTCTACTCTGAAGTAAAATACA
CAGATAACAAATATTCTAATTAAAATATAAAGTAGGAATAAAATGAAAAGTAATTTATAATAAAAACAAGATGCAAAAACTTAGGCGCTGTGCCAGTAGA
TGCAATGAGGTCATCAGAAGCGTGCACCTTCCACAGAATCACTAGGAAAGCAACGCCCACGCAGGTGGACTGATGGGGGAATGTTGTATTAGTGACTCAA
AGAGCATTAGAACTGTGGCCAACACCAGCCTAATTTTTCAACATGGTGAACAACTCCGGTAAAGAGTCTGAAAACCTGTGATAATTGTCCTTTGATTCAT
ATGGCAATTGCATTTTAAAGATGCAAAAAAATGCTTAATATTTACATGTAAAGTGCTTGAGTTCCAGGCTCAGAGATTTTTAACCTGTATGAATATCGAG
CAGATATTCCAAAGTTATGTGGGATGTTGGACAATTCTTTTGTGTCCTGTACCCCTTGCTATTTATAATCTAGCAATAGTTTTCAAAAAGGGACAGTATG
CCCCCAAGGGTATTTTTTTATTTTTGTAATGAACAAGAGTTCTACTGACATTGAGTGGGCAGGAGGCAGGGGTGCTGGATATCTTTTAAAGACATTTCCG
TCCTGGAGGACATGGAAATCCTTATATGAACTCTATTGTCGTAGACATCCAGCACCCTTGCCCCATACCCACTCAATATCGGAAGAACTCTTGGTTATAA
AAATCAAAAAACACCCCTAGGGGTCATATTGCACCCTTTGAAAACTATCGTTAGATTATCAAGTGTTAATGCCAAGAATTTTGTAACTACCTCTTGTCAC
CTAGAAGAGGTTGCAGCAACTTAGAGGGTATAACAGGTATTCAGTACATAAAGCATGAACAATAACTTAGTGTGGGTGCAAAATGCAATGCAAATTACCC
AGAGCTGGTAAGTGGGATATCGAATATTTCTTTGGCATTTATTTTTCTTTCCTTTCTAAAGCAGAATTCCAAGGGTGGATGGTAATTTGTGGTTTCTGGA
AATACTATGTGTTGGACTGTGTTGTCGAGAACTAAGCAGTATATTGTTGCCATCCTTGTGTTTCTGTTCTTTAGCCACCTAGGAACATATGGAGTTTTTA
CAAACGCTGCATTTGACCCGAGTCCTTAAGGTAAGATCCCTATAAAGATATTTTTGAAGGAAATAGAACACTAGGGAAAAATGGAAGANTATAAAGCTTA
ACTTTTCTTTACATAATCATATATTAAATTTTAAGTATGTATTAAATTTTCAGGCATGAAGGAAATTGTGTTGGCAGTAGGACACAGGTATGACAATGGA
GTTACAAAAGAGTTCACAAAAGGATTTTCATTTCCTCCAGGACAGAAATGTCCTAACAAGACATAACTTATTTCAGGATGTGTAACATTTCCATTATTAA
CTGCTAGGTGGTGATGATGTGGCCTTGCCTGCAAAGCAGAAGTCAGGACTGCTGAAAAATGTTTACGAACTGTTATGGAGTCAATTCCCTATGCTACCTG
CTGGAAAAACAAAAATAATCTGATGCTATCCCTCTCCCAAAAAGTGGGTAGTTGAGTGTCCTACAAAAAGCCTGAATGGCAGAATATTCGAAATCTAGAA
AGAAAAGATTATGCTGCGCCTCAGGGTGTAGATATGATGAGCAATTTTTTTCTTTCTTTTATTTTTTTAAGGAAATGATAATTATTTAAATTTCTTTGGT
CTCATTTCCAGAGACCTGTCCTTTTCCTGGTCTCCTCATTCAGCCTCCATATGATCCTGTTGTGAACATCAAGTTTCCTGCTACACTGGACTTAACTATA
ATGCATTTGCTGCAGGTTTCCATAAACACCCATGAATCAAAGACATGGAATTACCTTAGATTAGCTCTGGACCAGCCTGTTGGACCCGCTCTGGACCAAC
CCTGTTTCCTGAGTTTGGGATTGTGGTACAATCTCAAATTCTCAACCTACCACCCCTTCCTGTCCCACCTCTTCTCTTCCTGTAACACAAGCCACAGAAG
CCAGGAGCAAATGTTTCTGCAGTAGTCTCTGTGCTTTGACTCACCTGTTACTTGAAATACCAGTGAACCAAAGAGACTGGAGCATCTGACTCACAAGAAG
ACCAGACTGTGGAGAAATAAAAATACCTCTTTATTTTTTGATTGAAGGAAGGTTTTCTCCACTTTGTTGGAAAGCAGGTGGCATCTCTAATTGGAAGAAA
TTCCTGTAGCATCTTCTGGAGTCTCCAGTGGTTGCTGTTGATGAGGCCTCTTGGACCTCTGCTCTGAGGCTTCCAGAGAGTCCTCTGGATGGCACCAGAG
GCTGCAGAAGGCCAAGAATCAAGCTAGAAGGCCACATGTCACCGTGGACCTTCCTGCCACCAGTCACTGTCCCTCAAATGACCCAAAGACCAATATTCAA
ATGCGTAATTAAAAGAATTTTCCCCAAATGCCGTGTTCCTCTATTTTATGGTTTGTTCAGTAAGGTCTGTATACATCACATTGTTTACCATCAGTGTAAT
AACACACAATTATGGTTGTCCTATTTACACCTCAACCATTCATTCAGTCAGCAAATATGTATCGCACACCCTACACTGCAAGAGAAAATCAGAGAAATGG
AAAAATTCTTCATCACCTTAATATTTTACAGGGAAGAACAAATGTGTTTTACATGTTCTTTAAATCCCATGTTTAATAAATAGGTCATTGAAAGTTATAT
AGTATTTATCTGGAACTGATGTTAAAAAAAATAGAGAGCCAAAAATTATAGTAGTCATCTTGTCTCTGTAAAATGTAATTMAATAAATATGTCATGTACA
CTGTATATACATAAGCAAACATGCAAATAAAAAAGCAGCCTACTCAAAGGTTACAATAATGTTGCAACAATTCTGGTAGTAACCTTGGGATTTAGGGACA
CAGTGCTTTCAAAACGTTTCTCTGATACACTGCCAGTAGCATCTCTGACTGCTTATTTAAATGTCAATCAGTAGGCTAGGTGTTCTAGGACTTTGGTCTC
AACCCTGTTTCCTGAGTCAGAATCTACATTTTGTAAAAGTTCCCCTGGGAATTCTGATGGTCTGCCAACTTTGGGAGACACTGATAATATTGTAGATAAA
GAAGTGTAAGCAACTGTTCAGTTAGGGAGACAATAGATACCTGCATGGAATAACAAAAGGTAATTAACATGATTATATAATTTGAATAGTGTTGTAATAG
TTCATAAAATGGAAAAGCCAATTTGAGCCCAGAATCTGGGAGATAGGCAGAACTCTGGACTGTAAAGAATGGCCCAGCAAAGAGGAAGAAAATGGGCATT
CTAAGTTGGTGCAATAATATCAGCACAGGAGAAAAGACAGAATATTGGGGGGAGTGGGGAGGGAGGAAGAGGCTGTTGATGAGCCTGATATCATTAACAG
AGACCTCATGTGAGGTGCCAGATTACAATTTATTGAATGTACTGAATGCATAAAGCATAAGACAGAAACCTGGAGCCATGCAGATACAGGGAACCCAGGA
CAAGTCATTATGATGCCTCAGACAATATAATTCGCAGATTCTCTATCAATAGCAAAGTAAGATTTAAGGTGCTGTGAAACAGTCAGATCCTTCAAGAAAA
ACAAGAATACAAGGGGTCCTGGAGACAGGAAAATATGATCATAATAATAAATTTGTGATTCCTTCTTTCTCTCTTTTTCTCTTTCTTTCTTTTTCTTTCT
TTCTTTTTTTTTTTTGATGGAGTTTTGCTCTCGTTGCCCAGGCTGGAGTAAAATGGCATGATATCAGCTCACTGCAAACTCCACCTTCCAGGTTCAAGCA
ATTCTCTTGCCTCAATCTCTCGAGTAGGTGGGATTACAGGTGTCCACCACAACGCCCGGCTAATTTTTTATATTTTTAGTAGAGAAGGGTTTCACCATGT
TGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATTCACCCGCCTTGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACTGCGCCTAGCCTCTG
TGTGTTAAGTGCTGGAACTATAGTTTACAGTAGCATTTTATCCTCCCAACATACCCTATCAGGAAAAATTATTATTGTCATCCTTATTTCACAGATGTCA
AAACTGAACAGAGAGGTACAGTAACTTGCCCAAGACAACACAGCTAGTAAGTGAAACTGAAATCTGGACAACTGATTTTTTTCAGCCAAGCTCTTCAAGC
CCGCTGCTATGCTGCAGCTTAGCTGGCGACAGGCCCTTATCAAGGCAGAACTGTGCCTTGATAGAGGCCAGGAAGGCGATTCAGAGCAGTAGGCCTTGTC
CATGTGTTTGTTCCCTGCTTCTTCACCACTTGAAAATAGTGTTTCAGTGCCCAGTAACAGGGCACAATACTCTTTTCCTCAGATTAAAAGGGGAGCCATC
TGCTTAAGGTGGTTGGGTGCCACTGCACTGCACAGAAGGTTCTCCAAGTGTGAGCTTGGACCCAGGCAGGCCTCAGGTCAGTGGTAACGGACGACTGCTT
CCGTGGTGTTGGCAGGTGGAAATGGAGGGATACAGCTTTGTCCGGCTCATGAATCCCTGGGCATTGTCCCGCCTGCTAGAGCCTCTGATCTCTGCCCCTT
CTTCACCTGCAGTAAAACAGTCACTAGTTTGGTTGCTCTCCCTAATACCTCTGGTCACTGGGAGCTGTGATCTCACCAAACCCCTGCCAGGAAAAGCCCC
AGAAAAAGCGGAGGGAGTGAGAGCCAGAGGCTGCTGCTGCCGTTTGCAAGAACTGCAGGGGAGGAGGACGCTGCCACCCACAGCCTCTAGAGCTCATTGC
AGCTGGGACAGCCCGGAGTGTGGTTAGCAGCTCGGCAAGCGCTGCCCAGGTCCTGGGGTGGTGGCAGCCAGCGGGAGCAGGAAAGGAAGCATGTTCCCAG
GCTGCCCACGCCTCTGGGTCCTGGTGGTCTTGRGCACCAGCTGGGTAGGCTGGGGGAGCCAAGGGACAGAAGCGGCACAGCTAAGGCAGTTCTACGTGGC
TGCTCAGGGCATCAGTTGGAGCTACCGACCTGAGCCCACAAACTCAAGGTAACTCAGGTGTGGAGTCCGGGTGGGCTTCTCTAGAGAGGAAAATCTATTT
CTTTTAGAGAACATTCCCTTTGCAATGTCATGGCTTTTTTTTTTTTTAACTTCAGGTAAGTAAATATAACTAATAGGAGAGTATACTGAATTAAATAAAC
TGGGCAAATGCTAATTTTGCATCCAACAATGTAGTTTATCATTCTGAGGGTTTAGAAAGCACCCTATTTGATTGGTTAGATGCTACCTTCTTTTCAAGTT
TATTTTCAATACAGTTTTGTTAGTATGTTTGTGTTGGCTTATATATTGGTTAATTCAAAGGCACCAGGCACTTGCTCCCTCATTAGCCCTTCCTGCAAAC
TCCTGTTCCAGATTTTTAGTTGTATAGTATTTTTATGAGACTCCTAGTTACATATTATTTATTCCATTGTCTACATAGCTTCATCTTCTAAAACTAAAAA
TGAACACCTTGTGCTTTTTGTCATATAATTTTATTGCTGCCTTATAAATGACTTTCAAAATATCATCAGTTCTTGTATGTTTTTGTACTTTCACCTTTTT
TCTGCTTCATATTTGACTTATTTATCCTATTGAATGTGACTCTTCATTTTTTTTTCTCTCTGTTCATCATGTCCTGGGATATGGTTTACCTTGGCTACTT
AAAGGCATATGTAACTGAGAGGAGGTTTAATTCAGATAAAATACTATCCTTGAGTTGCAAACTATTTTTTCTAATTGAAATGTTAAAAATAAGACTTCTC
AGAAATTAACTAAATCATACAGTCTATTCAATATTTCCAGTTAGTTATTTTTTAAATGGTAAACCTGCTAGTGTGACTCACTTTTTTTCCTTACATCACA
CTTCATTATGAAAGATGTGTTCCTCTTTTACAATTACAAAACCAAAGTAATCTGCCAAAAAATAATGTAATATTTTGAGATCTTTTAGTGTATAATATTA
ACCTTTTTAAAACTCTCATTGTAACTGGGTTATTTTGGAGGGTATTACATACCATCTTGGTCTTATAATAAGAAGAGATCCCTCCTTCTCAAAAATAATC
ATTTTAAATATCGTACTTCAAAGTGATAATCTAGGTCACACCCACACCCTTTGGGAACTGCCGTAAGCTAAAACCCCAAGGAAAATAACAGTCCTTCTAA
CACTAATCTTGCCTGCTCATGAGTAGAATGCAGACTTGGTTGTTGGCTTTCTTGTAGCATGCTGGGTTCATGCTTGGGAGTTTTTTCTCTTGTCTGTAGT
TAGCGTTGAAAATAACAAGCAAAATACCGGAGGCAGAACCAGATAGGGCAAAGGTCTGATTCACATGGTGAGTACACAGGGAACCATGACTGGTCATTCT
GTCCCCTCATCCTGTGGGTAAGTTTCCAAAGTTCTGGAGATTCGTTCCTCTGGTAGSAATTGTTGAGTCAAAACCATAGAAACACAACCCAGACAAACTG
TCATATTGTTTAACCCTAAATCATATCATTTCTCTCTAGCATTTTCTTATGAAAAATCTAATCCATATATCTGGCTGCTTAAACTAAGAACTTGTTCTAA
CTTGTCCTGCCCCTAGAGCTATGATACTCACTAGGTGAATATCAACATAGCCAACTCCATCTTTTGGCAAAGTGTATTTTAGCACAAAGCAGACATCTAT
CTACTTATTTCATATAATATTAGCAGGACAATGCCTTTTAAAGGTAAAATGTATCTATTATTCTTGCTCCAAGTCTAAGGTGAACACTTTCAAAAATTTC
CTTAGAAAACTTGTTTAGTCACTCACATGTATACAAAGAGATATTGAAGAAAAGATATACATACATTTTCCTTCTAGGGTTCTAGCTTTATATGATTTTG
TGATTATGAACAAATCATCTTTAAACAATCCTTATAAATGAAAAACTCGTCGTACACATTGTTTGAATTCATATSATCTGTAACTTTTTAATCAGATAGA
TTATTTTCCAATAGAAATTGTTCAGATCAAAATAGACATACCTCAGTATGAATACACAGCATACATAGTAAAAACATGTTAGGAAACATCTCTCTGTTGA
AATTACTCCACGTAAGAGACTGATATTTTTTAGTAAAGATTTTACACCATCATCTACATTTCTGTATTAAAGATCTGGGGCAGGGGAGGACAATAACTTT
TCAATTGTACTAAAAATAAATAAATAAAAATGGACTTCCACATTAGGGACATTAGTATATAGAATCCTGGAATTCTTAAGTTAGAAGAATGCTAAGAGTT
CATTTAATTCATATTCAACTTCCACGCTTTAACCTTCTACTTTTCCCCTTTCCCTCAGCACCAATGACCTTACCAAGTAGTTGTCTAATTTCTACTTGAA
TGCTTCCAGTGATGGAGAATCCACTACCTTCTCTATCTAGCTATTCTAAAAGTACTTACGTGCCTCCTTTAATTCTGCCCCCACATATTAACACAGTTTC
TGTATTCCACATATTACAATTTGTGAGCATTACTGTAACTACAGATTTGTTTTTGCTTTCTGAGAAAACCTGAAGGGTAAAGACTAACTCTTATTACATT
TACAAAATAATATTACTAGCTAACATGGATTGAGTATTTCTAGTGTGCCAGCTCTATGCCTTTTGCACATATCAACTTATTTAAAATTATACAACAATTC
TGTGAAGGAGATTTCAGTATTAATCTCATTTCATAGTTGTAGAAACTGAGGCACAAATGGATGAAGTAAACTTTTCAAAGTAAAACAATAAGAGGTAGAT
ATAGGCTTCAAGTCCAGAGATACTGAATTCACAGCCTGCACCCTAGCCACCGCGCTGTATAGAAGTCATGGCATATGTGGGTGCTGTTATGTCTTGATTA
TGGCTGGGCCACTGTCCCCACATTAGGAAGCAAAACAAAGCCACTCTGATCAACTGATTTAGACATTTGCAAGGTATTTTCTCCAAATTCTCTTTCCTTT
TACCCTCATCTTTGAGTTTAAGACAAGGATAAGACTGATTTGCCTTTAGAGGTACAGAACAATAACAACAACAGCAAAAACAGGAAAGTAACCCACCACT
CACAACTCTCCCTGTTGTCTGTCCTCTCTCTAATTTTATTTAAAATCATGAATGCAGTGGTTTCACATTTTTTAATCTTGGTTCTGCCACTTATCAACTG
TATCTCTTGGACAAGTTACTGACTCTTTCCAAAACAGTTTTTTCATTTGTTTGTTTCCAATATGAATCCCAGGGCTTTTACCCCATTAGCCATCTCTCAC
CTCTCAACTAGAAATAAATTCCACCAAATCAATACTTTTTCACAATGTTCCCCAGTAGATTAAAACTATATTTGATTGATCAGTTGAAAAACAGCTCATA
TATTTATTCATAAAGGATTTGGTCATATTTTAATCATATAAAATCTAAACCTACAGTTTGGGTTTCTACTGTGATATTGGGTTCTTTTTAGAAAATTGAT
TCTGAGGAATGATATTAGGGTAGATTAACTTGTGAACAAATAGTTATCACAACAGGATATTTTTGAAGAGACCAATAATTATTTCATTAACTTTACTTAT
TGATCATATTTATAAAACTGTGGACTTCTGAAATACAATAAAGATACTRGTATTCTACTAGAAGTCTGAAGATATGAGAGATCTACTTTTTTTGTAATGT
GAGAAATAGATATTGAATATGCCTTTCAAATTAGTTTTTGTATTTTATTTCCAGTTTGAATCTTTCTGTAACTTCCTTTAAGAAAATTGTCTACAGAGAG
TATGAACCATATTTTAAGAAAGAAAAACCACARTCTACCATTTCAGGTAAGCCTGAAATATACTTTTTTAATTTTAAAGATAAATTTCTATGGGTAATTT
GGCATTCACATGCATCTAAAATATCCATTTACTGAAAATTTATAGAAACGTGTGGTTTTTTTTTTAAGAAGTACTGGCTACATAATATGTGGGGCCCAGT
GCAAAATGAAAATGTGAGTCCCCTTGTTCATATTATTGAAAATTTCACAGTGACTGCAAAGCATTAAACCAAGCCAGGGGCCCTTTGGGGCATGGGGCCC
TGTGAAACTGCCCAGGTCACATACCCATGAAGCTGGCTCTGTTTTTAACCTTGATTAAAATAACTAAATAAAACTTATAAGTGTTTGAATTTTTATTCAT
TCATCTAAAAAACTGTTATTGAGTACCTGGTATGGGCTGGGCATTGAAATAGGCATTGTGGATGCAATAGTGGACAAGACAGTCTCATATCCTGGGTTCA
TGGAGATTATGGTCTAGTTTAATGAGCATAGATGTGCCTTCGCAAAATGATATTTTGCTTCCATTTGGCTCCCTAGATTCATTCAAAGGAACTATGTATG
GCTGACTCTTTTGCATCTCTTTCCCGTCTATTCTTCTGTTTATTTAGTGTGATATATACAATAGCCATAATTTTTAAAGAAAATCTCTTATTTTTTCCTC
ATCTCTTCCTTTATCAAGAAGACTGGGTTGAATAGGGTTCTAATATCTTAACTATGATACCATATTCCGCAGGGATGATAGAGACCATCAAGGGAGAACT
TCCTCCAGTTGAATCCCCTTGTCAGTAATTCACCTGTCCCTTTCCCCAATCAGATGAAGACCTGCTGTCTTTCCCAGAATCATCCTAGTCTGTCCTGCCT
CTTCTGATCTCCTTTAATCTTCAATATTTAGTCAATGGGAGTCTTCCTTTCAGTTAAAAATCAACGACTAAACCAAAACCAAATCAAACCATGTCCAGTT
AACTCCTATCTAGAAAAAGAAAAAAAAAAATCTCCCCTTGACCCTGCCTGCCTTTTCCTTTTCTCTCCTTTCCTTCACTACCAGTTTTCTGTATGAGAAC
TCTGTATCATTCTCTACATTTCTTCGCCTATATTCCTTCCCTAATCTGCTTTAGTATGAATAAGTCTACTAAAATTACTCTCACAAAAGGGCACCTAGGA
CTTGAGGTGCCAGAGCCTATGTTCTTTTACTACTAGACATTACTAGGACATTTAACACTCTTCCTTTCTGAAGCTCTCGCTTTACCTGTTTTTTCTAGTG
CCACTTCCCCTTGGTTTTCTCAGACTTCTCTTACCACTCCTGCTCAGTATCCCCACCAGATATTCTTCCCCAGGGTTCGAATCTCACCCAAAACCAAGGC
TTTCACTACTACCTACCCAGAAGCCACTTTCCCTCTGAAGCTACATTGACACCCCCTCAATACCAGCAGAATTAAATCTTCCCTCTTCTATACATCCCCA
GTACCTTGAATTAATCCCTACCTTCTAAAGATATTAAGAGGATCAATTGAGTTAATAAGTACAAAGTATTTATAATGATGCTGACACATAATAGGCACTC
AGTAGAAGTTAGCTACATTATTGTTATTGTTGCTGCTATTACTAATCATAACTTAGATCATATATATCATAGTATTATGGATATCTATATATCTATATTT
CTCCACTCATTTATATAGTCTTCACATGTGTTCATTTATATATTTATTTAATTTTAAACAGATCTGCATTTAAATATTCTTTTATTTTTAAATAATTGTG
TATTGAGGCCAGGCGTGGTGGCTCATGCACTTTGGGAGGCCAAGGCAGATGGATCACTTGAGGTCAGGAGTTCCAGACCAGCCTGGCCCACATGGTGAAA
CCCMGCCTCTACTGAAAATACAAAAATTAGTTGTGCATGRTGGTACATGCCTGTAGTCCCAGCTACTCRGGAGGCTGAGACATGAGAATCACTTGAACCC
AGGAGGTGGAGGCTGCAGTGAGCTGACATCGCATCACTTCACTCCAACCTGGGTGACAGAGCGAAACTCTATCTCAAAAAAAAAAMAACAACAACAACAA
CAACAAAAAAGTATATTGAGAACCTACTACATTCTAGGCTCTGGGATAAAGTGAATAAGACATGGACCTTGATTTCCAGGAGCCAATCAGCTATTGGGGA
TAACCTATGGATAGACAAGCAATGACAGTAGAGTAATAAGGAAGAACTATGATGAGGATTCTGTAGTAGGACATAGGAGACCTATCTCCAGTCTGGTGGT
CAGGAAAGTATTTCTATTTCTAGATTGATAGCTGAAAAAAGAGTAGGATCTTGGAAAGCCAAGTGGGGAGGCAAGGGGTTGGGTGATAGATGCATTTTAA
ACCAAGGCACAGAATGTTTAAAAGTTTGGAGGTGAGAGTATGGTATATTTGTGGAACCATAACTGGATCAGCACAGTTGGACCACAAACTTCAGGGAAGG
AATTAACAAGAGATGCAACTAGATGGGGATCAGGGATCCATGCTAGGCTTTATATTGAGAGGAATAGGGAGTCCCTAAAAGGATTTCAGCAGGAGAAATA
TTTGTCCTTTAGAAAGATTATGTTGTCCAATTATAGAGAATAGATTGGAGAAAGACCAGTCCAGAGCCAGAGAAAGTAGTCATGGGACTGTTGTATCAAT
CCAGATAGCAGAGAAGCTGAGATGGAGTCCAAAGATATTTAGGAGCTAAAGTTGATTAAACTTGGTGACTCATTAGATGCAGATAATGAGGAAGAAAAGG
GAATTGTTATGGACTTCAAGGTGTCTGGTTTGAACAGCAGAATGGATAGGGTGCCATTCAGTGAGAAAGAAAATGTAAGAAAAGGAGATAGTTTGTGAGA
GAAGGTGATAAGTATAGATTTGGAGTCTGAGGTGTGTATAGAATATCTACCTAGAGATGTTAAGTGAGCAGACGGGTGTAGAAGTTTGGCCCTCAAAAGA
GAGATCTGAGCTAGCTGTCAACATTTGGGAGACATCAGAACAAAGATGGCAAATGAAGAATTTAGAGGGTGTGAACTCACCCAGGGAGGATGTGATGAGA
AGAGAAGGCTGCAGACAGAGCTCAAAGTAGCAGCAAAGTCCAAGGGATGAGCCAAGAAAGAAAAGTTTACCAAGGAGCTTGAGAAAGCCTGTTCAGGGAG
GGGAGAAGAAATCTAGAGAATGTGTTATCCTGGAGGCAAAGGGTCAAATGCTATTAATATAAGGGTCAAAATATGGTCCCTTTGTTATGGAATAGTGGGA
CAAGACCAGATGGCAGGGTGTTGAGGAGTGAATGGAAGGCGAGGAAACTGAAGCACAAGGGTCTTATAGATAACTCTTCCCTGAAACTTGGTTCCAGATG
GGAGGAGAGACAGGGTAGTTTCGGGGGTGGGGGTGGGTACTGAGGAGCTTAAGGACATTTGAGAATTTTATAAAAAGGAATACAGAGACTTAAATATTTA
AGGGAAGACTCTATAGAAATGCCATGAAGTCCTTTCCAATAGAAAATGTGGGGATAAAACATCTGAGAGAGAATGATTAATGGAGACTTAGAAGAAGCAG
GAAGCATTGGGATTCAAACCTTGGGCTGGCTTGGCCTTAGGTAGAATGGCTACCACCTTCATGGGGGGCCAGGAAAGCAGAGGATAACGTTGCAAATAAA
ATTAAGTTTGTAGTTATGAGTAGGAAGTTGAAGGATGTCCTGTCCTATATCACAGAGTCTATTCATTTTCATAGCTCCAGCTCCAAGCTTAGCATGTACA
ATAGATACTTAAGAACTATTTAATTAAATTAAATTGTAGGTAGATGAAGGGAATATAAGGTGGGAAACATACTCATTAGGGCCAGGAAAAGAGGATTGGG
GCCGGTATTTGAAGGTGTACCTTTTGTGGCTTTTGCCAAGCTAAGCAAATTTTAATCCCTTTGCTGTGTGAGACATTGTGCTAAATGCCATAAGAGACGG
AAAGGACTAATTCCAGGCTGAAGACTTTTAAACAATAAAAAGGCATGGATAGCTTTTGAAGAAAAGGGTTCTGTGATCAAAGTCCTTTCAGATGATTAAA
TTTTTTAGTGATTTCCTGATTTAACCTTGTTAGAGGTAGACTCTGACAGTTGGTGAGAACAGTCTCCAATTTATGTGTGAGGCCTTTGCACCTTTCTGTC
AACCCCTGTGTATCTCAGAATATATTTGTTTCATGTGGACAAAGGTGTTTCGACGTCCATTTTAATGTAATCTCTTCCTGAATGTCCAAAGTTGCTTAAC
TATGAACTTATGAAGTGCAGGAGTGGTATCTTATTCACCTTTGTAACTCTATAGTAGTTGATACAAGGAGGCAAATCTGGCGTGAAGGAAAAGCCTTTTA
TTTTGACTGAGAAGATCTGGATTTGAACACTGCCATTAACTATGTGGCCTCTCCCATTCCCCAGACTAGTCCTGTGTTATTTGTACCTTTCCCCTATGTC
CTGCTCCACTCATCTGCTGGGTGTGATTCTAGCTGAGCCCTGAAAAAGTCATGAGCCTCACTCCTGCAGCATGAACTATTGTTGTTGTTAGTTCTTGTAA
TTGTAGGGGGCTGGGCTGTAGGATTGGAGGTATGAAGATGCCCATCCAATAAGGTTTGTGGACATTTGGGCAGGTGAGGGAGTACAGCTGGGGTCATTTT
TAGGAATTCTGTCTTGGGCTTTAAAATGGCTAGTCTTGGCTGGGCATAGTGGCTCATGACTGTAATCCCAGCACTTTGGGAKGCCRAGGTRGGAGGATTG
CTTGAGGCCAGGAGTTTTAGACCAGCCTGGGCAATGTAGTGAGACTCTGTTTCTATTTAAAAAAATACATACATATATATATATRTATATATATATATAT
ATATATATATTTAAATTAGCCAGACATGGTGGTACATACCTGTCATTTCAGCTACTGGGGAGGCTAAGGCAAGAGGGTCATTTAGGACAAGAGCATCACT
TGAGCCCAGGAGTTGGAGGCTGCAGTGAGTTATGATCACACCACTGCACTCCAGCCTGGGTGACAAAATAAGACCTCATCTCTAAATAAATAAATAATTA
ATTAAATTGGCTAGTTTTGAGTCTGCATATTTTTCAGGGACAAATTATAAAATGTTTGTCCCTGAAGGAGTTTTGAAATAGCTGCAACAATCACTACCTT
GTGTTATGTAATGCATTGTTCACCTAAGAGCAGGGGATTGGATTAGTTGACCTTCTGCAGTCCTTTCCAGTTCCACAACTGCACTAAATTGGGTACATGC
TGTGCTGGCTTCCCCAAGCCCTGAAGTAGGCCACTCCTTTCCCCAATCCAGCTTTGGGCACTGAGGAGAGGGTTAGAAGGGTTTTAGGCCATCTGGCTGT
TGGAGGAGCTAAAGAGCAGCTTGAAAACCATTTAGCCATGTGTTTTCCTACATGCGTGAAAGTATTTGGTATGCATTTATGAAAACATCCTTTTGTTTTG
CCTTAAATCTGAAGAAGCAGGAGGGGAGGTTGAATAAATACTCCAAACTGTCCACTGAAGTAATAGGTCTTATTAGGTTAAATAACTTAGGAGACTTTCT
CTGGGCATCTGGTATTTGCAGGCATGTGATGCCAACAAACAAATCAACCAAGCAAGAGAACCATGGCAACTAAATGCGGCACACAATTGGCAGCATAGTC
AGCACCCTGTTGGGCTCATTGGCAGCTGGGGTAGGTGGGAATAGTCAGTGGAAACTTCCATCAGGAGCCAAGACAGAGGGTAGCAGCTGGAAGAGGGGGG
TCAGTCAGTGGAGTCCGACATGTCAGGAGTCAAAAGAGGTGTAGACATCTGGACTATTCTATAAAGATGGGGGYCTGAGCCTGCCCYGTGGAAGGAATAG
GGAGAGCTTTGGCTCAGGAGTCCAGAGATCTGAGTTCTGATCCCAGCAATGCTACCAGATCACTGACTGACCTTGGGCAAGTCACCTTTGTCCCCCGATT
CCTACCTCCCAGGCTTTGTTAACTAAAATAAGGACTGAACTTTGTGACCTCCACAGTCCTGTGTAAAGCTAACATAAAAACAAACAAAAAGCTTCAGGCA
CAAGATCAGAATAAACTCCAGSAGTAGGAGTTCAAGGAAAGGAATAGGACAACCGTGGGTGGCAAGACAGGGGTAGGGAAAGATAGGACCTCTGTCCCAG
AAATCAGAGTTTACCATTGCTTCTGTAACCAGTTACTGCAAACTTAGTGGCTAAAACAACACAAATTTATTCTTTTATGATTATATWTCTGCAGAYSAGA
AGTCCAAAATGGGTTTTATTGGGCTAAAATCAAGGTGTTGGCAGAGCTGCATTCCTTCTGGAGGCTCTGGGGGAGAATTGTTTCCTTGTCTTTTCCAGTT
ACTGGAAGCTGCCTACACTCACGGGCTCATGGCCCCTTCCTCCATCTTCAAAACCAGCTGAGTAGCATCTTCCAAGCTCTTCCTAACTCAGATTCTCCTG
CATCCCTCTGATAAGGACCTTTGTTATTACATGGGATCCACCTGGACAGCCCAGAAGAATCTCATCTCAAGATTCTTAATMATAGATACACAGTCCCTTT
TGCCATATAAAGTAGCATATTTCCAGGTCCCAGAGATTAGGACRTGGACATCTCAGCAGGGRCACATTATTCTGCCTACTACACCCACCAAACAAAGCCC
TCCCACGGTGTCCTCCATCTCAGAGAATGGCACCCTCCTCCACCCAGCTCCCCAAAYCAGAACCTCATCAGCCATCCACAGCAACTGATGTCCTTTATTC
TCTACCCCACATCCAATCCATCTTCAAGTTCCAACTATTTTATCTCATAAATACATCACTAATATATTCTCTCCTCATCATCTCATCATAATCTCAGTCA
CCACCATCTCTCCTGGAGTCTTCTATCTGTTCTCTCAATTGTTCTCTGCTCAGTCTCCTCCGAGATCATCCTCCACAAATACAGCCAGAGATTTTAAAAC
CAAAATCTGGTCCATGTTGCACCCCTGATGAAAACTCTTTAATGGCTTCCAGATACTCTTAGGCTAAAGGGAAAACTCTATGAGGCTTACAAAGCCCTGC
ATGATGGGACTCTGAGGATGCCTTCGGCTTCACCTTCTGCCCCTTCCTTTCACATACTAAGCTCCACCTCCCCACTGGATAACTGTCAGTTCTCTAAAAA
GGCCACATTTTCTGGCACCTCAGGGCCTTTGCGCACRCTACTCTAACTTTTTAGAATGTCTTTGGCCATCCCTTTTCCTCTCTGCCTTTGGACCTCAGTT
AAAGGATTAATTCCTCGGGAARGGATTCCCCAACTCACCTCCAATTGGACTAGATTCCACTGTCAAATACTCTTCAGAGTATTCCCTCCTTTTCTGTCAT
AATATTTACCATAGGTTTAAATTGAATGTTTTTGTGATCATTTGTTTAAAATCTGTCTTTCCTACTATAAAAACGTATAAAGTTATAGAACTATAAAAAT
GTTTGACTTTTATAAACTCTATGAAGGCAGGGAGTGGGTGTATCTATTTTACTCTTTTACGCACCATTGCAATTCTGATGCCTAGGATAATATAGGCACT
TGATATTCATTGAATAAATAAAGGAATGAATAAAGGAATGAATACAAGGTGGAGGTGTAGTATAAWGAAGTGGCTTAAAAGTCACGATCTAGAGACAGAC
ATATTAAACTTTAAATCATGATGCTGTGTGATATTAGGCAAGATATTTAAACTCTCTGAGGCTCAGTGTCCTCACCTATAAAATGAGGATCTTAATATCT
ACCTTAAAAACTTGTGAGGATTAATGTAGGGACTTACAGTGCTTGAATGTATTAAGGGAAACAGTACAGGAAAGCCTTATTATGATTATCATCACCACTG
CAAACAAATGCTGGCTGAACTCCATGAGTGCYGTGACTTCCTTCTCCTGCTTCTAGGAYGCCTAATGGCGAGAAGCCAATCCCATGACACTTGTGGATGG
CTCAGAAATGACAGTAGTTGATTTCTGTCACTTGTCTGGAATGGGGCTTTTGGTCATAGATTCTCAAGATTTCAAAGACATCAAGATCACCAAGGAGCAC
ACGTTAAAGTCCAGATTCCCAAGTTTCACCTCCAGAACTCAGATTCATTGAGGCTGAGGTGATATTTGGAAATCTGCCTCTTATTAAGACCCTAGGTGAT
TCTGATGCAGAGACTCCAAGGACTACACTTTGGAAATTCTAGTACAGTCATCCCTTGGTATCCACAGGGTATTGGTTCCAGGACTACTCACAGATACCAA
AATTTGCAGATGCTCAAGTCCCTTATATAAAATTTCATAGTATTTGCAATAACCTATGCACATCCTCTCATATACTTTAAATCATCTTTAAATTAGTTAT
AATACTGAATGCAATGTAAATACTATGTAAATTGCTATTATGTTAKAGTTTTATTTGTATTGTTTTTATTGTTTATTTTTTATTGTTGTTTTTTGAATAT
TTTTGATCCAAAATTGGTTGACTCCATGGATGTGTAACCATGAATATGAACCATGGTCATGGAGGGCTGACTATATAYAATTCCTCAAATTCTGACTCAG
CCATCAACTTTTTCCCTAACTCCCCAGACAGAATTTGTGCTTCATCCTCTCTTCTTCTGTAATATTTTGCCCATATCTCAGCAGTCRCTCCTATCATACA
TCTATCTCCAAACTAGCTTGTGAGTTCCTTCAGTACAGGGACTGTATTTGATCCAGGTAGCCAGAAACTTTCTAACACAGTGCCTGGCATGTAGAAAGTA
AAACCTCATTCTTGATTTCTGCACCCATAACCTCCTGTCTCTGCTGTGTTCTCCCATTGCAGTAACTAATAACATCATTTACCCAGTTGTTCTGATAAAA
CACCTTGAGGTCATCCTTGACTTCTGTCTCTCACAAGCCACATGCAATCCATCAGCAAGTCTTGTTTGCCTTACCTACAAAAATGTCCAGACTCCAACCA
CTACTCATCACGTTCTGCTACATGTGCTGGCCCAGTACACTGCAGTCTCTTTCCTATACTGCCTAATCTCTCTGCTTCCATTCTTGTCCCTACACAGACT
ATTCTCTACACAGCAGCTATGATGAACTTTTTGTTTTAGGATGAACTTTTAATACACGTTATACTATGTCTCTGCTGTACAAAGTGGTTTTTCATTTTAC
TTAGAAATGCTCCATTTCACTTAGACGAGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGTATCACCTGAGGTCAGGAG
TTTGAGACCAGCCTGGCCAACATGGTGAAAAGTCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCATGCCTGCAATCCCAGCTACTTGG
GAGGTTGAGGTAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGGGTCCTGAGATTGCATCACTGCACTCCAGCCTAGGAGACAGAGCGAGACT
CCATCTCAAAAAAAAAAAGAAAAATGCTCCAGTGATGTCCCATTTCACTTAGAAGAAAATTCAAGTTCTTACCRTAGCCCATAGGGCCTCCCTTGTTCTA
CACACCTACCATCCACCTCATCTCTTCTTTCTTCCCGTACTGTTTTTCTTACTGTTCCTTAGATACATCAAGACTACTCCTGCCTCAGAGCCAGAGAGCT
GTGTGATTTGGTTCCTCAATTCATCTAGGTCTCTGAGCACACCCATGTCAGAGAAATCTAAAGTAACTACCCTCTCGCATCACCCTCTGTAATTGAAATG
AACATCTTTCTTAAGCAAAGAAAGTTATTGCTAAGGAATGACAGTGGGTCAAAGTGGGCAAGACTTGGCCAGAACTATTTCTCCTACTCTGTTGACTTCT
TTTGGGTCCAGGACAAGTGTTTCTACCATTCTATTGTGATCTGTGTACATGTAATGTTGAGTTAATGAGCTGCTAAAACCTTCTAGATTGAAAATAAGTG
AGTCAGCCTCAGGACCAGGAGGAATGGTAGCAATCACTCTTGGTATCATCTGTTTGTTTTTCTTGCTTAGCAACTCTGCCTTTGATGACCCTGAATACAG
ACATAGTTTAAATATTTGTTTTCACAGGACTTCTTGGGCCTACTTTATATGCTGAAGTCGGAGACATCATAAAAGTTCACTTTAAAAATAAGGCASATAA
GCCCTTGAGCATCCATCCTCAAGGAATTAGGTACAGTAAATTATCAGAAGGTAAGATAAATCTAATATTTTTCTGAAAAGGGAAAATGTCTAAGTCTTTA
ATACCAGCATCAACATTTAAAACTATACTGTTAACCACGTGTTGTTAGGGAAATCTCTTGCAACTGGTAATTATAAAAATTGTTGCTGTTGTAAGTTTTG
AGAGAAGAAAAGGAAAAGGTTTTGGAGTCCTCTAGACCTGCATTTTTCACTGGGTTCTTACTCTTTAATGTTTGGGAGGGCAAGTTATCTAATTTCTCTG
AATTCTCATATGTTCATCTTAAAATGGGAATAATAATACATACATTGAAAGATGGTTTAAGGCGGGGGTCAGTAAATTTTTCCGTAAAGGGCCAGATAGT
AAGTTTGTTTGGCTTTGCAGGCCATAAGATCTCTGTTGCAAGTACTCAACTCTGCCTTTTAGTACAAAAGCAGCCATAGACGATACCTATTTTTTTGGCT
TTGGTTACAGATGCCAGAACTAATTAACTTTGTTACCGTATTCTTTCCCTCAAGTCATACACCAGAGTAAGACCGCCTCTGACAATACAATTTTATTTAC
AAAAACAGGAAATTGGTTGGGTTTGGCCCATGAGCCACTGACATAGTGACATAGAACTAGCCTGATATAGGCTTCCTGGCACATAGATGACACTCAATAA
GTGGTATTTGGTGGTGGTGAGACTAGAAGCATTAATAGTATTAGACTTTTGGACATAGTGAAGTGGTTAAGAAAGTAAGCTTTAAAGGCAGACAAGTTAA
AATTCTAGCTTTATCATTTCTGATTCTACGACTTTAGCATCTCTGAGCCTCAGTTTTCTCATCTATAAAATGGAAATGATTATAACCACCCATAAGATTG
CCTGAAATTTAAATGAAGTCACTTAGGTAGAGTACTAAACATGGTTCCTGGGATCGGATAAGCTCTCTATAAATAATGATGACAATGATGGCAATAATCA
TAAAGATAATAGTCATGCAAGTTATTGTATCAGCCGCTGAATAGTAAGTACCTGATGTTAATATGGTTCTAATTATCCCATTATGMYGATGTTCAGATCA
TTGTAAGCATAGTAGAGTTCCATCAGGCACTGGTATAAAAAATTGTATCCATATTATAATAGTTGTTGGTATGAKAACATTTTAAAATAATTTCAGACTT
TTCATGGTTCACATTTAAATATCTTTCCTTCTACATGTTCCAGCCATCATACCTTTGAGAGAATAATTGAGTAGGAGAGTGGTTTATGTGCAGGTTTTAG
AACTAGACTAATAAGTGCAAATCCTGGCTCAGTGACTTTTATGAAGTTATTTAACCTCTGTGTGCCTCATCTTTCTCATCTGTAAAATGGTAATAATAAT
CATGTCTCTGTCATACAGGTTTGTTGTCRTGAAATCTTAGAATAATGACTGGCATATAACAGATAATAAATATTAGCCATGATAGTAAAGATAATTCTTC
AATTAAAATGTGTTCAAATAATTTAGTATTTATCTTAAAACTTGTTAGTTTCAGAAAAAATCAGAAAGTAATTTTTAAATTTATTGTTTTCTATATAAAC
TGTTGTCAAACTCATACCCACTAAGGTATAAGTGACTGATAATAGGTCAATGAACTACCTTCCTTAGGAGTACTTGCATTAGCACTTAATCTTTGGCTTG
AGGAAAAACAATGAAGCATTAACTGTGGCACTGAGATTTCTTCCAAAGTGAATTTGGCAAGACTCTGGGTGAGGTAGTGGGAACAGGAGTTTCTCCTATG
TTCTTAAAATCATACAGTGACATAGTGAACAACCACTTCACCTACTTATGAGGCTTCTAGACGACTGCATCAGAAGTTCAGCAATGTAAAGAAGAAGGGG
GAGAAACCTCAAAATATCAAAATGTCACATGCAGGTTTCATTTCAAATAAGGGAGGAGGTAAGAATTGTAGACTTTGGACCCTACCTGGGCTGTTTGCAC
AGTGAATGAACCTTGCAACACTATCCCTCTTCCTTTACTGTTTATTTGTCCCTACATTCCCTACAGCCAGCAATTATTTATGAGCAATTGCTTAAAATGC
TCCCACAGCTTTCACTGGAGACATGATTATTGGCATATAATATTGCCTCTGGTCCTATGAMTCTAAGAAAGGTAAATACATATTGGTAGGGAAAGTAAAA
TTTTACCTTGGAAATGAGATGCAAAYCTAGTAAGCAGATAGTATCTTTTATGGTAAAAGACAAGCCTTATAAGTTGATTTTATTATGCCCTCTGCATTAA
AATAAAACATCTCCTCCTCCATGTCTGACACTCACCCTCACCTATAGCCTCCCTCTGTGGTTTGAGCTATTTTTTTGGGAGTGGGGATAAACTAACTGCA
TGCTGAGCCAGTTACATGAGAATCCAGATTCCTCTATCTCAGAGGTAGATATTTGAGAGATAGGTGGTAGGGGGTTAAGATAGTATTACACTGGCTTGAG
AAACCACAACAGAACATAAGAGAACTCTGGATAACCCTTTTTGACAGAATGGACAAACGGTGATTTGTAAAAATGCTTGTAAGGACATTTCCTTTAATAA
TGTATTTAATAAGACTGTCTTAGATCAGGGAATAAAGTATCTGCAACTGTAACTAATCACTTAAAARCTGTCACTAAAGGGTTTCAATTTGAGGTTAAAT
TTTCAGAAACTCTGTAACTAGCATGCATCAAATTGACTTCAATGCTGCACCTTTGAGCAAAGTTTGTTGTTCAGTAAAATTTTCAAAGTCGTTTTGGTCA
ATTACCTTTAAAAAGCTTGTTTCATGGAGAATTTAATATTATTCTTTTCTTTTAGTTATATTCTCATATTTTAAATATATGAGTTGCATATGAATGTGAT
GTCACMAAATTASTTCTATAATATATAGCCATCTGCTGGTAAGCCAGCTCTCCAAATAAAACACRTTTTCTGCCAGACATTGTTCGTTGTATCTAAGTGT
TGCCAAATTCTCTATACAAAAATTTGCTCTTCTAGATTTTTCCAAAACATTCCAATGCTTGACTTAATGTAGGTGATTACATTTTTTCACTTCTCATCTG
AATATTTTGGCCTTATGTAGAGACTTCCTTGAGTATATGATAAACACCTGAAACAAACTATAACGGCTATAGTTTGTATATTTAATAAATCACAAAAATG
TGGATCCCTTTTCCAAAGAGACTTGCAAGTCCTGTGCAATGAAATCAGCTCTTTATAAAACRTCAGCATTGATTCGCCCATTGCCTACATTATAGCTTCT
AAAAGAATATTCTGAATCTTTGAATGTAGTGAAGCATTCACTAAGTTTATTAACTTAGGAGAGGAAAAGAGTTGTTCACAAAAATAAGTAACAAGGGAAG
AGTTACTGAGTGAGCACCCTAATGAGTAACCAAAAAGGCTCTTTATGTAACTTCACTTTCCCAAAGCTTGTATGCACCATTTTTCATTTTTAAAAAATAC
TGAGAGCCTTTGGCAAGTAATTAGTACATCATGACAAGAATAAATACAATACAAAGCTGACTATCGACTGAGCAGGAAATGAACAGAACTGAGTAAATAT
AAATGAAGAGCTACCCTTGTGTAAAGATTTTATTCCAGCAAGCAGCTGAACAAGGACTTCTTGTGCTCTAGCACAATAGTTGTCCCTGTCCATTTCTCTT
CTTTTCAGTTTAGAGCTTAATTTTTTTTATTTTGATTACAAAGTCAAAATCACATTCACCAAAACTGCATCTCACAAATGCTTCCTCTTAATAGYTGTTT
GTATTTTATACTTTATATTAATGTATGTTGYAAAATCAAAGATACAACAAACCTGTTTTATTCTAGACTAAAGGTAAAATAATTTGAAGTGAAAAGAATA
AAAGCATTGATAAAATTACACCCCAATTGTCTCATTAGCCATCTCACTCAGTGTAATTATAGAATATATCCTATGTACAAGTCTATATCATTCACTGTTT
CAAGATGCTCATAATTCAACTTTTAGTAGTATACTAAACTTAATTAACATCATTCATTTAATTATTTGAAATTCATCTTATATGTAACTGACAGGCGAAT
GTGAAATTCTGAGTAATTTAGTTTGATCAATTAGACAGACATTAATTTGTGTGACTAGAGTAACCTTTCATTATCTATCTCAAAATATCATGTACACAAG
TATATACAATAATTTTTTAAGCCCAGTATGTGTTAAAATAAATCTAGGTGTGAAACATTGATTGTTTACAGATAGGTTCAATATTGTTAGAAAATCAGTC
ACCCTGCTATACCTAGCACAAGTGTTATAGCATCTTGGGCAATTTTTAGATACTTACATTGGTTGGTTCTCATTCCAGATTGACAGTGTGTTCTAATTGT
AGCCCTAGAAGAAATCTAGAGGTCAAACCTATCACAATTAGGGCACCAACATGTACCCTAGAGTTAACTAGGCAGAGCCCCTCAGGGGCCCAGGCCCTKT
CTTCTTTACATTTGTACTCTGGCATTTAGCACAGAGCCTGGAACCTAGTGGATGATGATGGTCATGATCATGATGATATTAATCATTACTGAACTAAACT
GAGGGGCCGAGGACTGATTAGAAAGTAAGGACTATGCATTATTTTTCCCTTGCTTTAAAATTATTGATTTTGCTGATAATTTTGAGCAGGTACTTTGTCT
TACTTATTACCAAAAAAAAAAAAAAAAAGTACTTTTACCAAAAAAGTCTTATTTACTTTCATCGCCTTTGGAATAGATACATCACTACAATGGATTGGAA
GTTTGTGTCCTCCAAAAATTCACATACTGAAATCTAACCTCCAGTGTGATGGCATTAGYAGGTGGGGCCTTTGGGAGATTTTTTTTTATTATACTTTAAG
TTTTAGGGTACATGTGCACATTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGCGCTGCACCCACTAACTCGTCATCTAGCATTAGGTAT
ATCTCCCAATGCTATCCCTCCCCCCTCCTTTGGGAGATTTTTAGGTAATGAGGATGGAGCCCTCATGATGAGATTAGTGCCCTTATAAAAGGGACCCTCT
CACTCACCCTCTTTCTACCATGTGAGGATACAAGGAGAAGATGGCAGTCTACAACCTGGAAGAGACCCTGCACCAGAACCCAACCATGCTGGCACCCTGA
TTTTAAACTTCCAGCCTCCAGAACTGTGAGGAAGAAGTGTCCGTTGTTTATAAGCCACTCAATCCAGGGTACTTTGTTAACAGCAACCCAAACTAAGAAA
ATCACCAATTTCTATCTTACTCACATGTGTTACCAGAACTCRAGCACACTTAAGATCTATCTTATCTAAAGTAGAACATAAAGGAAAGAGGCTGTATTAA
TTGCAACATGACTGGGAAAGAAAATACTTAACCAAAATGTGAACATGTATTCCCACAGGCTATCAGAGCATTTGTTAGGAGCCAGAAATTTTACAAATAT
TTTCCAGTCTTCATAACCCATCAAAAAGGATAAAGTTATCTCTAGAAAAAGGATTATATTATCTTAAATTATAAATGAAAAAACTGAGGTTAAAGGGACT
TCAAGAAACCTTCCCAAGTTCCCACAGTTAGCAAATGATACAACCACCAAGATATTTTCAACTCTGACCCTGAAGTTCAAGTGCTTTCTCCCACTATCTA
GCAGAAAAAAGTATCGTTAACCATATAGTCTCACAAATACTGAATTACAAATGGCGATGAGTGCTGTCAAAAAACCAACAACAAACAAACAGGTATCACA
ATCAGAGATCAAGAAGGGTGTAAGATGATATTTGATCTGACATCTGAAGAATGAGCACACATTTACCCAGAAAAATAAAGGGAGGAAGAACTTCAAAAGT
TATCTCCTACCCTGCAAAGAATATAATGTTTTGCCCTTAGGGGAGCTTGTGAAGGCAGTGGAAAGAATATCATTTTCTACTATAGAAACCCCATGTGATG
TTTTAACAGTTGAAACAGTGGAAGCTGCCTGTCCAGAAACATCATTTTTCAACTTTATGAGGCCATGTAGCAAGAAGCATTGAAGAAGGGCTGTCATGCT
TGATTCAAGGTAGATGGTGCAGCTCATCAACTAGCCATGCTAATTTCAGTTAATAGACAAGTTCTGACCTGAGAGGGCAACTCTCCTTATCAGTCCTGTT
TGTGCTTTGTTACCAAAGCTCTTTTGTAATCTTTCACAGATAATGCTTCCTGCTTATTAGTGGAGACTTTCTCCATAAACTTTTTTTCTTTTATAGACTA
GAATTATGTTATMACTTACAGGAAGTGACTTAAGCTTTTATCATTTCTCAGCTCTTGACAGTTTTATTATCAAAGTGAAAGTACAGCCTAGAGTAAATAT
TAGTTATTAGTGTCAAGCTATCCTTTGGGGTGTGTTGGGGGAAGACACAACAAAGTCCACTTTATGCTAGYGCAAAGTTCACAAACTCAGATGCCTATAG
TAGCCAGATAAGTAGTTCAGTGAACAAAATTGGTCCAGTAAGDACTGATCATCAGAAAGCAGAAAAGGGCAGCTAAGATCCAGATCCAACAAAATTCTGT
GCAGGAGTTTGGTCCTGTTGYTAACCAGATCTCCAGGTTTTTGTTTTTTAAAGAGAAACCAGTAATCCAAATTCTTATATAATTTCTCCGGATGTTTAAT
GTTGGCATTTAATCTATTTTAACATTACGCAATCATAACAACACACAGCCATGAGCTTTGACTTGTTGACCTAGGCTGTAGCCCATAGGACCTTAAATTT
TAGGAGTTTAATAAATATTCACTGAGCATCTTCTTCATGTTCATGTTCCATGCTTCTCTAGGTACCTATGGAAGGCACCAGAGACACTAAGACAAATACA
ATCCAGCACTTTTCCTTGAGGAACTCACACTTGGGTGACCAAAATGTGCAGGACACAAATACTTATGATCTAGTAGAAGAAAATGAATTAGTCAYATAAT
CTCACAGGCATTTAATTACAAATTGTGATGGGTGCTGTAAAAGAAAAAAATGTGTATCAGAATTGGAGATAAAGGTAGAAGTGAACAGATATTCAAGGTG
ATGTCTGAATGATGAGCACATATTTATCAAAAGGAAGACGGGAGGAAGAGCACTCTAGGCAGAGGGAATGGCATCTGCAAAGACCCTGAGGTAGGACAGA
ACTTGGATGTCTGGGGAACTGACAGGGGACCCAAGGGACAAGGAGCCCATAGTAAACAAGAGAAAAGACGTATGATAAGACTGAAGAGAGAAGTAGAGGT
AAATCATACATGGACTTGTGGTCCACGTTAAGGACTTTATGCAAGAAGTAAATCTAGATRTACCTACTCAACTTATGGTTTCCATGCTCAGAACCTCATG
AGATACATTGCACGTTACTGTAGTACCTGAATCCTTCATTGCTATTGAATGGATGTGCCTTATTTTCCACTCCCACCTGGRGAATCCAAACATATGCTGA
TGCCATGCAAACTCATGCAAAGCGTTTTGAGTGGAATAGATTTTCCACAGTTGGGATGGGGAAAGGTACAATTAAAGAAGGGAAGCTGACATTGCTGTAA
TGTAAAAAAATATTTTATATGGAAATTTAGCATCTCAGACTTTGGCTTCAGAACATAAGGAACMAGATTTACCCTTTTTCTCAACAACTAGACAGGCAGA
CAAAACATATAAAACAGAAGTTTTCAGACATCGAATGACAGACAACTCAAGACAGTAAAAGAAGWGTAACAAACCAGATGTGCCCTATGAGCACCTAARC
TTACTGCTTGAAGAGTGTTTCCAGGGAACAGCACAAGCAGGGAGAACCCAGACAGAGTCTCTATGGGTTGAGGAAATAGAGTTTGGACTTCGGAGAAGCT
CAAATGGCTAGAATTTGTGATTTTAGGGCAGAGTCCTGCAGAGGACAGTATAATCACAGAGAAAGAGCTCTAGAGAATCTACAGAGAGGTTTTGTCAAGT
TGAATACTGATCTGCACATACATGTGAGGAAAGTACTGAGGGTAAGAAAAATGTCACTTGAAAGGAACAGGTGGAACAGTCCCTGGACCTTACTCAGGGC
CGGTAATCGTTTATGTTCCTACCATCAAACATAGAAAGACCTCCTAATAAATGAGCACTGGATAGAATTGTCAGAAGGATTTAGAAACAGTGGGTGGATA
AAATTAGACTACAGGCTGCTGAGGAGGCAACAGAATAAAAAACAAGATTTGATTTCAAGTATCTTAACTGTGAATAAAACTCAATACTAGTTAACAAGAA
TGCAACAAACAACAATGTAAATTCACAATGTTAATAAAAATAAACAAGCATTAGAAGAAGCAGAAAGAGATGACTCATAACCAAGAAAAAACTCAACAGA
TTGAGAAGTGAAAGAGAGAATAGAAGCAGCAGGCAGAGACAGTAAGACAGCTATCATAAATCTTCTCAATATGTTCCAGAAAGCAGAGAAAAGCATGAGC
ATGATGAAGATAGAGAATATAAATATGCATACACAGAACTTCTGTAGATGAATACAATTGTTGACATGAAAAGTAAAAAATAAAGCATAGAAAAGAAAGG
TAAAAAATAAAGGATAAAAAAATATATTATAAACTGAAGGATACCACTAATACAACAAACACTGGATGAAATTAATAGCACATTAGACACTGTGAAAGGA
AATAGTAGAAAATATTAATACATTGCAATAGAAACTGCAAAGTGAAATACAGAGATTAAAAAGGCTGAAGAAAGTGAACAGAGCATCAGTGAACTGTGGG
ACCATATCAAGTGATCTAACATATGTGTAATTGGATCCCAGAAGTAGCAGGAACAGAAAAAGTATTTGAAGAAATRATGACTGAAAAATTCCCAAATGTA
ATGTAAACTACAAACCAACAGATTCAAGATGTTTGACAAAACTAAGAAGAAGGAACATGAAGAAAACCACACCAAGCCACATCACTATCAAGTTGCTGGA
AACCAGTGATAAAGAGAAAATATTGGAAGCAGTGAGAGATAAAAACACACACCACATACAGGGGAACAAAACCAAGAAATGATAGCAGACTTATCGTTAG
AAACTATGCACACCAGAAGACAATTAGGGACATCTTTAAAGTGTTGGGAGGGTAGAAGATAGGGGAATCTGTCTGTTTAGTATTCTATACCAAGTCAAAA
AGTCTTTTTTAAATGAAGGCAAAATAAAGAGTGTTTTAGACATACAAATGCAGAAAGAATTTCTCACTAACAGAGCAGAAAAAAATGTTAAAGGAACTCC
TTTAGATAGAAGAAATATTATGTCAGAGAGACATTTAGATTCATAAGAARGAATGAAAAGTTCCAGAAGTTGATAAATATAGAGAAATTTTTTCCTCRTT
TTAATCTATTAAAAAGGCAATTGATTATCTAAATGTTAAAGCAAAATAGTAACAATTTATTGTGGGGTATATTATGTATATATAAATAAAATGTATGACA
ATAGCACAAAGGCTGGGAGGGAAGAAATGGAAATATATTATTGCAAGGTTCTTACAAGTGAAATAGTATAATATTATTTGAAGGAAGTTTGTGACAAGTT
AAAAATGTACTATATATTGTAAACGGAAGGGCACCACTAAGAAAACAAAGCTAAGAAGGCAACAATGGAGATTAAACATCACTAACTATACTCAATCCAA
AAGAAAACAGAAAGGAAGGGGAAAAGGAATAAAGACCAGATAGACAAATAGAAAATAAATATAAAGATGGCAGTTTTAAATTCAACCATATCATCAATTA
CATTAAAAGTAAATGGAAAGAACACTACAATTAAGAAACAAATAAGATTGAATAAAAAAGCAATGCTAAACTGTATGCAGAATTTAAGAAATCCACTTTA
ATGAGAGAGACAAAGATAGGTAAAAAATAAAGGATAGRAAATTATATACCATACCAGCTAACACTAATCCAACACAAAAGGGTGTGTAATGATGATTCCA
TTGATATGACATTACAGAAAAGCCAAATTATAGTGAAATAAAGCAGATTAGTGGTTGTCTGGGCCCRGAGGGCATTGGCTACAAATGGCATGAAGAAATG
TTTTGGAATGATGGAACTCTTCTCTATCTTGATTGGAACTATAGCTATAAGACTGGGTAATTGTTTTAATCAAAGCTCAGCAAATATTATACTTAAAAGT
GGTAAATGTTATTATATGCAAATTATACCTCAATGAGGATAATGAAAGGAAGAAAGAGAGGGAAGGAGGGTGGGGAATAGGGAAGGAAGAAGACAAAGAA
AGGAAGAAAGGAGAAAAGAAAAGAAACTAGGAAAGGAAAAAGAAAAGAAAGGGAAGAGAAAGGAAGGGGAGGGRAAGGATTAATCATTTCAGTTTTCAAA
AAGTGTAGTTGCTTCAGTAAGAGKAGTTTTATTGGCCTTTTACCCCATCATGTAAAACATTTCAGGCTTTTTTYCCCAGATCCTTGTTGTCTGCCTACAT
CCACACTGATGTTCTCACCTTCTTCTCKTAAAGAATTTATCAAGTTATTGTACCAAACAAAAATAACTGCATCCCAAAGAGAAATTCTGTCACCAGCTGA
TGATAGGGAATCTTTCACCTAATTAAATGAGGAATTCCTCAGGCAGAGGAAACTGTTCATTCCACTTGGCTMTCTATGGCACTCACCTCTCCCCTTCCTG
ACCTCACTTGCTCCATTTTATTATTGAAAACCTCACCCAACCCTCTACACTTCTTTTAATATTGAGTATCTCAGTTCCTTCTCTTCAATAAAGAAGACCA
ATTTCTTCATCCTCTCCCTCTCCTATCAGTAGGGAAAGTCCAATATACATGGAGGTGTTAATGATGTGTCTTTGGGTGCACAAAGTACAAAGTAAGACAT
CTAAGTTTCAGGGGATGGACACRTTTCATATTCATACAGACAACCAGCCTGCATAGGGGAGTTAGACGCTGTGGCTCGGGGGAAAAAATTGAGATAATCA
GATGGCTAAGATGAAATAAAGAGATAAAACAAAGCTGAGGATCACAGCAGTTGGAAAGAAGATCTGAAATAGCAAAACAAAATAATACATAAACAGCTCT
GACTATCCTCCCATCTCATGTTAATAGGCTAAGTATGTCTTATTAAASACCACAAAGAAGATATCACCCATTCTTATATTCTGAGATGGTTTACTAATCA
AAGGCGATTCAATTCTCTGATTATATTTAAATAATAATTGTTCAGGTACCCTGGAAAATTAACTTGCTAAACTTTAATTTACAAATAACATTTGTTATTC
TTAAGATCACCATGTTATCAAAGCCTTTGTAAGTACATGAGCATAGAAATGGGCATATGTGAATCTTTCCAAATAATAAAAGTTCACTATTGAAGGACAT
ATGCATCTCCAGAGARCTCATCTTAGCTATCMCCAGATKTGAGAGTGGTGAAAACGCAATCCTCAGAAACTGCCCACATGTCTTGATGGCTGTTACTCCT
CCAGGTGCTTCTTACCTTGACCACACATTCCCTGCRGAGAAGATGGACGACGCTGTGGCTCCAGGCCGAGAATACACCTATGAATGGAGTATCAGTGAGG
ACAGTGGACCCACCCATGATGACCCTCCATGCCTCACACACATCTATTACTCCCATGAAAATCTGATCGAGGATTTCAACTCKGGGCTGATTGGSCCCCT
GCTTATCTGTAAAAAAGGTAAGAACACCCCCACCAAAAGATTCAACAACTAAAYGTTGGAATGGTCAGGAGTTCTGTCATGGGACAAAGCTTGGGAGCAT
CTTGGTAACTTCTTGTACATCAAGCAGAGGAAGACGGCACGGAGACCAGATCATTGTTTGACAAGAGAAAAAAACACCTGCTATTTCAGGGTGTGGATCC
ACCTCTGTTTCTTCTCATTCCTCCTTCATCTCAGTCCTTAAGGTTCTCCCAGGCAAATTCCTGTTTGAGAGTATGTTCTGATGTCATGCTTGTATGATCT
GTAACATTTACCTCAAGGCCAAAGTCTTTTAGAAAGTATACAGTAGCCTATACTCTGCTGAAAGAGCTCTTGGAAAGAACTTTGGCTAACATGTTTGACA
TATCTGAGGTTTGGGCTGGTAATTTGCTCTATAAACACGTGAAATGCCAGCTTCCTTTCTTACAAACAAGTTGAAAACTTTGGGTGGTAGGTTTCAAACA
CACTCAAGTGACTTTACAAGAACTTTTATTGGCTGGGCTTCTTAGGAGCAAGCTTGGATTTTCATTTTATCCCATGAGAATCCAGCCCATCTTTCATTAA
AACAAACAACCACAGTGAGCCACAGCATGGGAAATAACGTGATGGACTCACCATCTGCCTATACAYACACGCTCAGRCCATACCTACATACATGCCCAAT
GTATTTACTCATTATACAAAGACTTTTTTTCCATTTCCTGGTATATATAAGATACTGTGATGGTACTGAAAAAAACCKTAAAACTTACAAAAGACTCTTC
TTGCATTTTACCATCAGCAGCATGTTTTTCTCATAGTGAGAATGGATTAATGCTGATACTTCCACCCAATTATCTAATGCCCCCTTTCATATACAAATAA
GATGACAGCATTAAACTTGGGGCATGATGCTTTYACCAACTGAGCTAACGTATCTATATACTCTTCTATTGAGACTGGRGGAAATGGATACTTGTACAGA
GTCTTGAGAGTCACCAAATGTTTTCTTCCCAAGCTGGATGAAATAAAGCCTGTTCCCCAAAGCAAGAAGGTATCAAAGAAGACAGTRTGGCACCAGATTT
TAAATAACCCTAGAACCATTATTACTTGATAAATATGCTATTTTAAAAAATAAGAATTTCTTCAAGTTGAAATCATTATGGTTGATTGCTTGCCCTAAAC
TCTTTGCTATCCAGGAAAGCTAATGAGCRTCTTCTATCTGCAGTGCTACTGAAAACATGTCTTTCCTTTCATAGGGACCCTAACTGAGGGTGGGACACAG
AAGACGTTTGACAAGCAAATCGTGCTACTATTTGCTGTGTTTGATGAAAGCAAGAGCTGGAGCCAGTCATCATCCCTAATGTACACAGTCAATGGATATG
TGAATGGGACAATGCCAGGTAACAYGAGGGCTGTGTACCATTAAACAACAGTAAAATCATTAGTAATTTTTCGGTCCTGTTTTCTTCAAAGCACTAGAGA
AGTTGACCATACTCACTGTTTTSCAACTCCCTATCAAGAAGGAAATATTTTCTCTTTTTTTTTTTAAACAGGAAATAGAAGAGACAAATTAGAAGCTAGA
GAAGAAATGTGCAGCCTTGTTAGGTATAGTGACCTGAGTAGGTTTCACCTTGGCCTGTACTTTGAATAAGACCTTAAGGTATCAGCTCAGCCACTCTCTC
CGAGTTCTGCAGTTCCTCTATATGATGACCATGGCTTCTTCAAGGACAAGCCCTAGCAGGAAGGATCAGCAGGAAGATTGCAGTAAAGATGAACAGATTA
GGAGTAATCCTCAACACACAAAAAAAACCAGCATTTCAAAAGGTGACAGAAGAGTAATATTCARTGGCATCTAGAATATTTTCTCTTTCCATTTGCATTT
GGGCACTTATGAGAAGGCAAAATCATAGCAATCGTTAAGAGAAAAAATAACTRATTCCCACTTAGACCACATCTCTTCTATTTCTCTCTGGTAGAACTGA
CCTACAACTAAAGATCCAGGGTATATGATACTAGCCTGAGGGAAAAACATTAAAAAATTAAAATGCCACTTTACTAAATAAACCATATTTCAAAACACTA
AACTTCTTAGAGGTTATTCTCTAATGCCATCTGAAAATCACAAATAGCTTCACTTACTAAAACACAAATATTGTTAAGAGTTGAGATCTGGGTAGTGTTT
TTAAATTGTATTCTATTTCATTTGACTACATTTTCCACTTGGTTTTCTGAAAATATACTCATATGACTCTCAATGTTGATCCCAAGTTCCAATACTAGGA
GCTTGTAAAAACTGGGGCTTAGTTAACTGACCTCGACCTTAGATAATCTGAGTTCAGACTTCAGATTATCAGACTACCTTCTGTGGCCCTGGATAAATTA
GTTGTCTCAATGTGCTTACTTACAAAAGTGGACTAACCATTTATCCTAACATCTATTTCCTGGCAGAGTGAACAATCTGTATAAGTATATGGATGCCAAG
AAAAGCAAAACCATATGCACAAAAATAAAAATAAATTGATCTGAGCTTAGAGTTTACGAATTTATAGTTCCCAAAAGAATAAYTGGGGGTAAATGGGACA
AGGTAGGGAAAGACCATCAGTAGAAACTAAGAATAGTAAACATTTGTAAAAACCCTCTGCCTTATAAAGCAGAATAAATTGAATACATATGATAAATGCT
AACACAGATATGTTAATTGCTGAACTCAATATAAGCATTTCTTTGGCATGGATAAACGCTTCCACCAAAGCCTCCTAGTGATGCAAGGAATCCTGGCTTT
GTTGCAATGGTCTCCTAAAAAAAACAAGCCTTTGTGTGGGTAAGGAACTGATTCTCAGSCCCATTATCTAGTATCTAGTGATTATGTATCTGAGATGTAA
AACAGAAACCTAAAAGCCAAGGATGGAGTCTCCCCACAGAGCAAATGAGCATTTTCCCAGTGACTGTAGGAGCAAAGAAGGAGCAAAACTAAGTTTTTAT
ATTCAGTTATCACTACTCCTTCCATGAAAAGCTCCCAATGGCTCAGCATAATGAGGACTTGTACACTGCATTTTAAGGAGAGTGTGTAACCCCAAAGTGA
TTTCGTTGACTTGTCATTAAAACAATCAAAAAGTAAGTAAAAATAACAATTGAAAATCCTCAYATCATCTTCACATCTTCTTCCCTTAGGCAGAGCTTCG
ACCACTASAGCTAGAGAGCTGAGAGGATTAAGTGCTTGAACTCAGCCCTATTGGCGGTTCTGGTGATTTGACTCCCTCCAGCTGAGATCAGACTGGGGTG
ACCAAACATTCCATTTTGCCGTGGACTTTTTACCAGTTCTAATAGTTAAAGTCCTGAATCTTGGGAAACCCCTCAGACCAGAAMAGTCGGTTACCTTCTT
GGTTCCCTTCTTGGCCTAATCCTTTAGCAATCCCTGTGTTTYTGAGTTCACATCCACCATCTCTAAGCTCTGTTGTTACCTGTATAATGCCATTTATCAC
AATGAGTTRTCACTGCTTGTTTGCTGGTCACTCAGATGTCTGCTTTTGCAGGGCACAAACTACAACTGGAGTGTCTGTTCCCTCAAAGCTTTATACAATG
CCTGACACACAGCAGGTGCTCAATACACTTGGTGAGTGAATGTTTGATCACAGAGTACTTGACTGAATGCTTATTTTGGCCTGTGTCTCTCCCTCTTTCT
CAGATATAACAGTTTGTGYCCATGACCACATCAGCTGGCATCTGCTGGGAATGAGCTCGGGGCCAGAATTATTCTCCATTCATTTCAACGGCCAGGTCCT
GGAGCAGAACCATCATAAGGTCTCAGCCATCACCCTTGTCAGTGCTACATCCACTACCGCAAATATGACTGTGGGCCCAGAGGGAAAGTGGATCATATCT
TCTCTCACCCCAAAACATTTGCAAGGCAAGAAACTCTCCTGACAGTCTTGCTTCTCAATGCAGAATCCTTTCTTCCCATGCACTAACTCCCTCTTTCTCC
YTTGCCCTTTCAAGCCACCTGCACCGCAGACAAACTTTCCTCRGTTCCTAACAACCAAACTTAGATATTTTGCTCTTAGATTTATAACTTGCTCTTTGGG
GATGGAGAAAGCGAAGGAATTGGCAAAGGTTTTTTTTTTTTTTTTTTTTTTTTTTTTAATTAAGCAAAAGCTAAAGAGATCTCTAACTTCCTCGAAAGAA
GAAAAGAGGAAGAAAACAAATGCATACATAGAGATATTCTTTCTTCGGGTTACTTCATATGCAAAAAAGACCTAGATGCTAGCACAAGACAAACTGCAAA
TTTACAGAAGCACTAAGTTGTAGAAAGTGTAAAAGTTTAGCATGAAAACATTAACCTTTACAGTGGGATGAACACAAAGTCTAGCACAGAGAGGAACTCA
ATGAATGTGTGTTGAATGGATCATACATGGCATATACTGAGGGGTGAGCTCCAAAGAACACTGGGGAATTCAGGTGGGAAAATAAATCAACCCACGTTAT
GTGGTATCGTGTAAACAAAATAACTGATTGTTCTACTACACATTTTTGCTTTAAAACTGTTGAGATTAGAGTTCATATAAATGGAGACTAAAATCTAAGG
AAATGATATCACAATAGGAAATCATTTTGTTACCAAAATAATGTATAAGCAACACATATAAGGAAGAGATACTTCATGAGATCATTTCTGTTTCTTTTCA
CACGAGTAGTCAAAATTATATTTGAAGTAATAAAACCATCATGATATCCGTGGAAGATAGAGTTCCCAATAATATTAAAACAACAATGTAACTTTTGTTT
CTTTGTTGAGGATAAGTGCATTATGTATTGTTATTAATATTTAATTTTTAACAACAATTTTATTAGGTACTGGTGCTACTTCATTTTATAGATTAAGGGA
CAGATGACAGAAAAATGAGAATTTAACAAGACTTAATTCATAAGGTCTTAAGAAGTTAAAAATTATTAGAAATTTGCCTGCTCAAGAAGAAATAAAGGGA
ATCTTTCCAAATTTTTTCCCTAACCCCTCCTCCTTTTCCCCCTTTTAAAATTCTTGCCTTTTCTGGATGCCACTTAAAGAGTTCCAAACTAAAATGTTCA
AAAATTGCCTGAGCATTACTTTCACTCTTATTATATTAATATAAACCTTCCACAAGTTGATTTAAAGGATATGCATTTCAATCAACCATAATTTCTTCTC
TTGAGTTATTTCATTGTCTTTCTGTCCTAACTCAGCTGGGATGCAGGCTTACATTGACATTAAAAACTGCCCAAAGAAAACCRSGAATCTTAAGWAAATA
ACTCGTGAGCAGAGGCGGCACATGAAGAGGTGGGAATACTTCATTGCTGCAGAGGAAGTCATTTGGGACTATGCACCTGTAATACCAGCGAATATGGACA
AGTGAGTTGTTGGGGTTCATACCACTGGGCAAAGGTTCAAGACACATTCCATAGGGTCCTAGATGTTTGGGGTGAAATGTAAGTTCACAGCTCTCAAGGG
GACACATGTATTGGTTTCTATTCAAGTCTTTTTGTAAAAATTAATCTTGAATTACCCCCAAATCACCAAAGAAATTCAGCCTAATAATAATAAAAATGAC
AACAGCAGCTACCTTTTGTTGAATGTTTGCCATTGCCAAGCACTGTATTGTCCCTTTCTGAGAGCTTCGCTTCAACTCTACAAACTAGATACTGCTCTTA
TTTCTTTTTATAGATGAGGAAATGGGTCTGAGAGATTAAGAGATTTGGAAATTCAAATAGCTCTTAAACCCTTGAAAAGTTACTCAAATTCACTCATAAT
AACAGAAATGCAAATTAAACTTCATGGGAATACTACTTTTATCTATCACATTCACAAGTCCAGATGACATCATCTGTTGACAAGGCTGTGAGAAAAAAGA
ACTATCATATATTGTTCGTGGAAGATTAAATTGGTAAAAGGATTCTGAAGAATAACTTGGCAATATGTATCAAAATTCTAAATGCATATACCCTTTGACT
CAGCTATCTCACTCTGGAAATCTAACTATACAGATACACTTGTTCACAGGTGAAATGATGTATGTACAACATATTCACTGTTGCAACGTTAGTAGTAGTA
AGACTGGAAACAACYCAAAATGTCCATCAGTAGAAAACTAGTTTAATAAATTAGGATACATTCATACAATGGAATACTAAGCATCAAAAAAAGAGGATGC
AAACACTCTGTATGTACTAATACAAAAAGTTCTCCAAGATAYGTTATTAAATTAAAAAGCTGGGATGTAGTATAGCGTGTATAYATAGCTGCCTTTTGTT
AAAGGAGTGAAAGGGATAAGAATATTTATATTTTCTTATTTGTAAGACATAAAGGTATTCTGGAATTACACGCATGAAATTAATATATGGCTACCTAGAA
AATTCAGGGAGGGTAGGGAGGTCATTTTGAGAGTCATCAGAGAAAAGTGAGAGTTTTCACTGTAATAAAAATTATGTGAATGTATTTTCTATTAAAAACA
ATTAAACTAGGAAAAAGAACAAAAAAAATTTGGCCAAGATTATAGAATTGTTGACAGAACTGAGATAGGAATCCAGGAGTGTTTGGCAACAGTCAGTGCT
TTCCACTGGGAAAAATAAATTCATAAAATGATATTCCATCTTAAAAGATTGCTGGGTTAAATGATATTTCTGACTTTAGGTCTTGGAGGAACTGCCATAC
TGTCTTCCACAATGGCTGAATTAATTTACATTCCACCAAGAGTGTATAAGTGTTCCTTTCTCTCCATGACCTTGCCAGCATCTCTTCTTTCTTGACTTTT
CAATCATCGCCATTCTGACTGGCATGAGAGGGCATCTCATTGCGTTTTTCTTTCTTTTTTTGAGACGGAGTCTCGCTSTGTCGCCCARGCTGGAGTGCAR
TGGCGCAATCTCTGCTCACTGCAAGCTCCGCCTCCCRGGYTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGGGCCCGCCAACAC
AAATACAAAATACAAAAAATATAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATTTG
CCCGCCTCGGCCTCCCAAAGTGCTGAGAGTACAGGCGTGAGCCACCGCGCCCGGCCTCATTGTGGTTTTGATTTGCATTTCTCTCATGAWCACTGATGTT
GAGCTTTTTAAAATGTGCTTTTTGGCCGCATGTAGTTGCTTTTGCAAACTAAGGTAATAAAGAGGGCAGGGGAAAAGTGGTTCATGTTTCTGCTCCCAAA
GTATTTATCCCAGTAGCTACAAAAGATGGGTGAAGGAGGTTGCTTTTCAGTCAGCTCAGAGAATTGGCTAGATGGTGGAAGAGATAGCCCAATAGCACAG
AACTATGATTAACAATGCTAGTAAATGTTTCCTGGGGTTGGAAGTTGCTTTTAGGGATTAAGAAATACCTTTAAAACCAAAAAGGCTATCATAGAATAAG
TGATAGGACAGACTTTAGAAAAATTCCTAGTATCTTTTCAGCCAGTATAGGCCTTTTCCCAGAGATATCAAATGTCTGCTGTAGCAATAAGAATGACAGG
AAGATCTAAGTAGCTGCTTCTAACCAGTTACCTATGACTTTTATCAGTGATGCAGGAGACAAATCAGAAGTTTCCAGTTTTCCAACTAGACAGAAAACAT
AAGGACTTTGCAAACTACACTAAGAAATTTTTAGAGAACTAGTATGTTAGCTAATCTAAGAGCAGAATGTTTAAGCACAAGGGTTTCCCCATCCTACCGA
GATCTCTATTTGAGAAAGTGGTTTAATTTTTTTTTACTTCACTTTAAGAAAATACAGGTCTCAGCATTTGGATAATTTCTCAAACCAAATTGGAAAACAT
TATAAGAAAGTTATGTACACACAGTACGAAGATGAGTCCTTCACCAAACATACAGTGAATCCCAATAYGAARGAAGATGGGATTTTGGGTCCTATTATCA
GAGCCCAGGTCAGAGACACACTCAAAGTAAGTAACACAAATACAGAATCATGGGAGAAATTACATAGTAAAATATTATGGAGTACCTGGTTATTTTTTAA
TTTTAAAAGAAAAAGATGCTCATATAATTTTAAATTCAAATGCAACTTTTAGTTTTTATTTAGTATTTGTATTTATTTACAGCTTRCTCAGTAATACAAA
GGATCTGAGACAGTTTCTCAAGTTATAAAGGCATAAAACAAGGAGTCTATGTAATTGGGATAGAATAYGSGGACAAAGAAAATAAAGCCACAGATAAGTA
GATACCATGTGACCCTGTAAGGCTGTCTTCAAATTTTGTCCTAAGCTTTATGGCAGTCAGTGTAAAAAAGGAAATATGTCAGGGTGAAGTTTACATCATC
TACAAAAAGAAAGCACCATTTATCCTGATGTTAAGATCTAAGAGGAACTTCTTTAATGAGTTCTACAAAAGAGAGTGCTGAGTGATACAGTAGATGGCAT
CCTTGATAAAATTCTTATAACCAGCATAATAGATTAAAAGTTGCATAAAATAATAGATTAAAAGTTGCATTAAAATATTTCTCATTATAGCTAAGATATA
ACAGTAAACACAATTGAATAGAAACAATTTTTACTCATTTTTTAATGTAGTCTAGGTATGCAGCTCTCTAATGGTTGGACTCTGATGAAGGTAAACTCCA
TGTATCAAGAGCACGGAGTTTTCCTCAGACAATTCTCCTTAAATGTCATGTCACTTCACCAAGATAGATAAGAATTGGACAGCAGAGAATTAAAGGTTGC
AATCTTTGACAAAATCCTAGAGTGTAGWTAATCTACAGACAAAGGATGATCCAAAGGCTTTGACAATCAACCAAATAGAAGATAGGATTAAGGTTCTCTT
TTGCAGATTAAAGAGCCTAACTAGGACTCCTGTGTGTTTTATGCACCTGACAAGGTCTATTCTGTTCATTTAAAATAGCCAAAGGACAAAAGCAGTTTTT
TTTCTCCATGCCTCTTTCCCTTCTTCCATTTCTGATCCCTTTTATGTGCTCTCAGCAAGTGTAGACATACCTTATTAAAAGTTCAGGATCTGGCTATTTG
TCTGTGCCTCTCAAGCAAGTAGCTTTTCCCCCYCACCAAGGGTCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGTGYGATCATGGCTCACTGCAACCTC
CACTTCCTGGGCTCAGGCGATTCTCGCAYCTCAGCCTCTCAAGTAGCTGGGACTACAGGCACACGCCCCAAYGCCTGGCTAATTTTTGTATTTTTTTGTA
GAGATGAGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGTGATCCAMSTGCTTCAKCCTCCCAAAGTGCTGGGGTTACAGGTTTGA
GCCACTGAACCTAGCTGAGAAGATGACTTCAAAGACAGTGTCCTAAAAAATCTACCGGGCAGGGGAAGGGGATCATGGTCTAGAGATGAGAAGCAGATTC
AAAATGAGATGTGGCCCAAGCTGAAAAGAGAAGGGCAGGGGAAGGAGGACTTGCTTGGAGAGAGTGATACTGTGAGGAAAACGTCACTTCTCCTAACCTA
TCCTCTAAAGTCAGACTTCTCTTTCCATTTTCCACCTTAATGTGTGAGTGAAACACTCTCTCCAATGCTCCTGCCAAGTGATGAGGGGAGGTTACTGCTC
AGATAAACAGATCTAATTTTCCYACTGTGTGTACACATGTATACACACACACCATCCAAAAGGTGAATATGCAAAGCTAGTATCTTATATTATTTGTCAT
GATCAACCTTAAATCCTAGAATAAATTTGATTTAACTTTGTAGATCGTGTTCAAAAATATGGCCAGCCGCCCCTATAGCATTTACCCTCATGGAGTGACC
TTCTCGCCTTATGAAGATGAAGTCAAYTCTTCTTTCACCTCAGGTTTGAATCTTTCACTTCTACTGAATCCAACTAGTAACTTCTGAGAGGCTGCCACAT
TTTTCTGCTATTCTCCTTGCCCGGTGGTGTCACTACTGCAGTCAGGTAGTATACATGTAGGAGTATCCTAAAAATCACAGCCAAACCCTTCTCACTTCAG
GAGTTTTGTCTCTTAGTGGTAACAAAATATGGTGTCTTTTATTAGTGTCATAGTGGCCTCTAGTGGAGCATTATCTAATGGCTACATGTTATCCAGGTTC
CAAGTAGAATATTTAAAGAATTCAATTGAACAATGAGAACATTTAGACACAGGATGGGGAACATCACACACYGGGGCCTGTCGGGGGGGGGGGGTGGGGG
GCGGGGGGAGGGATAGCATTAGGAGATATACCTAATGTTAATGACAAGTTAATGGGTGCAGCACACCAACATGRCACATGTATACATATGTAACAAACCT
GCAYGTTGTGCACATGTACCCTARAACTTAAAGTATAATTTAAAAAAAATAAAAATAAAAGAATTCCTTTTGCAATATTAATTGGTTCCAGCGAAAGCTT
ATTTATTTATTTATTATCATGAAATAACTTTGCAAATGAAAACAATTTTGAATATATTTTCTTTCAGGCAGGAACAACACCATGATCAGAGCAGTTCAAC
CAGGGGAAACCTATACTTATAAGTGGAACATCTTAGAGTTTGATGAACCCACAGAAAATGATGCCCAGTGCTTAACAAGACCATACTACAGTGACGTGGA
CATCATGARAGACATCGCCTCTGGGCTAATAGGACTACTTCTAATCTGTAAGAGCAGATCCCTGGACAGGYRAGGAATACAGGTATTTTGTCCTTGAAGT
AACCTTTCAGAAATTCTGAGAATTTCTTCTGGCTAGAACATGTTAGGTCTCCTGGCTAAATAATGGGGCATTTCCTTCAAGAGAACAGTAATTGTCAAGT
AGTCCTTTTTAGCACCAGTGTGATAACATTTATTCTTTTTTTTTTTTGTCTTGTCTATTTTTATCAGTACCATCACTGCCGAAGGCAAGTCTAGAGTGTG
ATAACATATTTTGTCTTAGTTTCAAATTCCAGGTCTGTTGGTATYGGATGTGTTGAGCAAGTTGATTAGCCTTTCCTAATTTCTTCCTTTTATCAAATGG
GTAATAACCCTCCTAAAAATGTTACAGGTCTGTTTGGGGGTTCAGTGAGATACCATCTGGTAAAAGTATAAAGCTCTTTACCAGTCTTTGCTATTTTTAG
AGACCTGCAATAGGGAGACAGAGGAGAGATTCTCTGAAAGCAACCAAATTTAGAGACATAGTTCCTAGTGAAATTGGACCCAGATTATGGCCCATCTCTG
TTGAGACTAAAGTATACAGAAGAATGTGAACAAAGATACTGAATTTCTGAGTTTGTCTTCATTGAAGAATTGTAGTCTCATATTATTAAACTAAAATTCC
CAATTATGCTAAACTGTAACCAAAGAGGTCTTATCTCAAGGCATACAAAATAAACATATGCCTAGAAAAAGCAGAAATGAATTTCTGGACATATGGAAGA
TCCTGATTTATTGAGCTAGGAAAGGAAACAGGTAGTAGAAGCATAAGGCTTTTCTATTGCAACCTTCTCTTTCATCCTTTGCACTTATTCAGAGCATATT
CAGTCAATCATTCATGTTGAAAGGTGTGCAATTACAGAGATAGACAGACTTTCAGCTGCCATAGCGAAATGAGATTTTTCTTTTGGGATTTGTTTTTTTT
TTTTTTTTCTTTTGAGACAGAGTCTCACTCTGTCWCCCAGGCTGGAGAGCAGTGGCACCATTTTAGATCACTGCAACCTCTGCCTCCTGGGTTCAAGTGA
TTCTCCTGCCTCAGTCTCTTGAGTAGCTGGGATTACAGGCGCCCRCCACCACCCCCATGTAATTTTTGTATTTTTTAGTAGAGACAGGGTTTCACCATKT
TGKCTAGGCTGGTCTYGAACTCCTGACCTAAGGTGTTCCACCTGCCTCAGCCTCCCAAAGTGCTGGTATTACAGGTGTGAGCCACTSTGCCCGGCTCTTT
TGGGATATTTTAATCTCTGAATTTTCTTATCTGTTCTGTTTGCTTTTGCATATTACCTTTAGCTCTAACAAGTGCTGTGTACACAATGGACTCTCATAAA
TGCCTGAATTATATGGCTTCAGTAGTTCCAAGAACTATGTCACTTTGGTTTCTGAGAACTCAGTGGTGTAGATAATTTGCTGCAATGTTAATGACTGAAT
ACAGCACTTTTTTTTCTTTTTTTTTTACTCTTAAGTTCAGGGGTACTTATGTGCAGGATGTGCAGGTTTGTTACATAGGTAAACATGTGTCATGGAGGTC
TGTTGTACTTACTACTTCATCACCCAGGTATTAAGCCTAGTATCCAYTAGTTATTTTTTCTGATCCTCTCCCTCTTTCCACCCTCCATCCTCTGATAGGC
CCCAGTATGTATTGTTCCCTTCTATGTGTCCATGTGTTCTCATAATTTAGCTTTCACTTGTAAGTGAAAACATGCAGTATGTGGTTTTCTGTTCTTGCGT
TAACTTGCTTAGAATAATGGCCTCCAGCTCCATCCATGTCCCTGCAAAGGACATAATCTTGTTCTTTTTGATGGTCACATAGTATTCTATGGTGTWTATG
TACCATATTTTCTTCATCCAGTCTGTCATTGATGGGCATTTGGGTTGATTTCATGTCTTTGCTATTGTGAAGAGTGCGAAAATGAACATACGCATGCATG
TGTCTTTATAACAGAATGATTTATATTCCTTTGGGTACATACCAAGTAATGGAATTGCTGGGTTCAAAGGTATTTCTGACTTTAGGTCTTTGAGGACTCA
CCATGGTATCTTCCACAATGGTTGAACTAATTTACACTCCCACCAAGAGTGTATAAGTGTTCCTTTTTCTCCACAACCTTGCCAACATCTGTTAGTTTTT
GACTTTTTAATAATAGCCATTCTTATTGGTGCGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTAATGATCAGTGATGTTGAGCGTTTTTTTC
ATATGCTCTTTGGCCACATGTGTGTCTTCTTTTGAAAAGTGTCTGTTCCTGTCCTTGGCCTACTTTTTAATGGGGCTGTTTGTTTTTTTCTTGTAAATTT
AAGTTCCTTATAAATGCTCSATATTAGACCTTTGCCAGATGCATAGTTTGCAAAAATTTTCTCCCATTCTGAATGTTGTCTGTTTACTCTCTTGATAGTT
TCTTTTGCTGTGCAGGAGCTCTTTATTTCAATTAAATCCCATTTGACAATTTTTGCTTTTGTTGCTATTGCTTTTGGCATGTTCGTCATGAAAGCTTTGC
CCATCCCTATGTCCCAAATAATATTGCCTAGGTTGTCTTCCAGGGTTTTTGTAGTTTGGGGTTTTACGTTTAAGTGTGTTGTTGTTGTTTTTTGTTTGTT
TGTTTCTGTTATTTTTGAGATGGAGTCTCGTTCTGTTGCCCAGGCTGGAGTGCAGTGGYAYGATCTCAGCTCACTGCAACCTCTGCCTCCCATGTTCAGG
TGATTCTCCTGCCTCGGCCCCTCGGCCTCCCGAGTAGCTGGGATTACAGGCATAAGCCACGATGCCTGGCTAATTTTCTTTTCTTTTCTTTTCTTTTCTT
TTTTTTTTTTTTTTAGTAGAGACGGGTTTTGCCATGTTGACCAGACTGGTCTTCAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGC
TGGTATTACAGGCGTGAGCCACCGCGCCAGGCCTACATTTAAGTCTTTAATCCATCTTGAGTTAATTTTTGTATATGATGTAWGAAAGGGGTCCAGTTTC
AATTTTCTGCCTACGGCTAGCCAGTTTTCCCAGAACCATTTATGGAATAGAGAATCCTTTCCCTATTGCTTGCTTTTGTCACAGATCAGATAGTTGTAGG
TGCGCAGCCTTATTTCTGAGTTCTCTATTCTGTTCCATTGGTCTATGCGTCTGTTCTTGTACCAGTACTATACTGTTTTKTCCTCCAGAGGGCAGCAGAC
ATCGAACAGCAGGCTGTGTTTGCTGTGTTTGATGAGAACAAAAGCTGGTMCCTTGAGGACAACATCAACAAGTTTTGTGAAAATCCTGATGARGTGAAAC
GTGATGACCCCAAGTTTTATGAATCAAACATCATGAGCAGTAAGTCAGAGTACTATTTTTGTTCATCAGTTTTTCATTCCTGTGGTTGAAATATGACTGT
GCCTAGAGTCAGAGACATGGATTAAAATCTACTCGCTAAGGGGCACCTCCAATCCTCACTTCCAGTCCAAAGACTTGGTGATGAAATCCGTGGGTGACAT
CATAGCAACATTTTTAAGCAAGAGGTCAAAGGCTCACATCCTTAGAAATGCGTTTGATCTTCTATTCCAAGCGTGTGTGTGTGTGTGTGTGTGTGTGTGK
ACACAGACATACTCTGCGTGGTGAGGAAAAGGGTGAGRGAGTAGGACTAATGGAAGGTGTTATAGTCCATGTCAATAGTATCCTAGACTGAGTTCAGGGT
GAATATATGGCYAGGACAGAAASAAGGCAAGTAATCCAAAGATGGATTGACACATCAAAGTAGAGCAAAATGAGTATAGGGACCCAAGAGTCTTGGAAAG
GCATGCATGAAGACRTTTCAAGTGATCAGTAAGATKTTCAGAACAAAAGGAATTCCCTGAATGAGGGTTCCGGCATTTGCTGCAGTTCTAAAGTTCAGTG
GCCAAAAGCACTGCCATGGCAGTCTGAGAGAAATGTCACTGAGCCAGCTGGAAGCAAACTTCTCCACAACAGCCAGGGTCCCCCTACTGATCCTCAGAGT
CTAGAGTCATGGTAATCACCTTCTCTAGTAGGTAATCACACATGTGAGGATGATTTCTGCATGTTCTGTTCATATAGCTTCAGATGACYGACAGCTAGGG
ATTATCAGAGCTGACAGGTGCCAGGTCAAATAATTCAAACAGAAAATTACTCTCAGCTTTCTTTGCATAACTTCCTTTTGGCAGTGAATCTATCATAGTT
CTAGACCAGTGCTGTCCAATAGAAACTACGTATGAGCTAYATGCGTAATTTAAAATTTTCTGATAGCAACATTAAAAAGTAAAGAGAAATAGGTGACATT
AATTTTAGTAATATGTTTTACTTAACTCAGTATATCCTGAATATTATCATTTCAACATGTAACCAATATAAAAATTAATGAGACTTACTTTATTACTAAG
TCTTTGAAATTCAATGTATATTTTATACTCACAGCATATCTCAGTCCAGTCTACCCATATTTCAAGTGCTCGATAACCACTTGTAGCCAGTGGCTACCAT
ATTGAACAATGCAGTTATAGACCATTTAGAAAAACATCTAGAATGAGGTATAAACTAATAATACATCATGTAAATTATTAAAGTCACTTAAGTGATTTAA
GTAGGTATTTAAATATTTGTTAATGCCAGTCATTATACTGGTACTAAGGCTAAGAGTGGTAATSGAGGTAGACATGAGCCCYGCCCTTGTAGAAATCATA
CCTTTGGTTTTTTACTATGCTTAGTACATAAGTAAATAAAAATATTGCCTACAGCAGTGTCCCTTTTAACAATAATGAAATGTATGAACTGGATACTCAA
ATGGAAACTGTGAATACTATGTAGATTATAAGACAGCAATAAAAACTATAAAATATGCTAAATGGGCTTTATTTTTAGGGACATTACTTCTTACCCAATG
ACTAATATATCAAAAAGATGAATTTCTTATATTATGCTTTTCCTCCAAGTGGAATTATTAGAATATCTTTAAAGGCAGAGAATGGAGCACAAAATATTTA
CTATACATTTGAYGAATGACTAAATCAATGTAAATGGAAGGCTTTATCTTTTTCCTGAGATTTCTCCTTTGGCTAATTTAGGAGAATAATCTCTCATTTG
AAAATTCTGAGTTTGATCTTCTAGTCACATGTTAGACTAGATAAAGCTTATCTTGGATAATCACTGCTTTGACACAACCAAATTAACATGGAGACATTTA
TCTTAGGTATAATTAGACACATGCCCTTTTGTTGGCATAGACTTGGAATTTTAACAGATTTTACACTTTCAGCTATCAATGGCTATGTGCCTGAGAGCAT
AACTACTCTTGGATTCTGCTTTGATGACACTGTCCAGTGGCACTTCYGTAGTGTGGGGACCCAGAATGAAATTTTGACCATCCACTTCACTGGGCACTCA
TTCATCTATGGAAAGAGGCATGAGGACACCTTGACMCTCTTCCCCATGCGTGGAGAATCTGTGACGGTCACAATGGATAATGTTGGTGAGTAAGAGTCTG
GACACTCACAGAGGAAGCTTGCTTTGAATTTCTGGTCTATAAAGGTCTGCTGCAACTCTCCAGGCTACCAGTGCTCCTCTATGTATCTCCCTGACCCCCT
GCAGGCTTTTCTTTCAATGTTTCTCATGATTTCTCTTTGAGAAATTAATGACTTAAATGGATCCAGTTCTTTAGTGTGGGTTATATTTTTCCTTCTCTGG
GCAAAGTAGGAAGTAAAAATATACAACAGCAGAAAAATAAGGCATAACTCTGAGGAAGAAGCATAAATATTTTGGCCACAAAAGAGCATTTCTTTTATCA
AAATGCCCTATTCGGTTTTTTGCAACAGTCATCTTCAATCATCAGGTACAGTGCCTTAAAGGCTGCTTCAGCAACAGCTTTGGAGTTTGTCAGACTGGAA
TGCAAGTCCTGATCTGCCAATCGATTGCTGTGTAACCTTACACAAGTTACTTGGCCACACTGAGCCACAAGTCATTTATCTGGAAAACAGTGTAATCACA
TCTCACAGAGTTACTTTGACCATTAAAATAGTAATATGYGCCAAGTGCCTAGCACTCAGTAGACACCAACAATGGTAACTATTGGAGACTCACCAAGAAA
TCTTTRATGTTCCAGCAATGCATGCCATTTCAGAGATTCAAAATTGTCCTCGTGAATTATTACTTAGAAACATCTAAATGTCTCTTATTTGTGGGGATAG
AGCTCATCACCATCCCTTTAATTCTAAGACAAGATGTGCTGTTAGGATATTTATGATATTAAAAGTCCATTTTATTCTTGATTCATCCCTTTCTTAATAT
ATTTTAAAATAGTGAGCAACTATCTGTGCTGAAAGACCTTTTTTCCCCTCTAATCTCCACTAAGCAACACTTTTGTTTTTTATTCTGTTAAGCGAGATGA
ACGCACTGGTCATGTGCTTAGAGTCACAGCAATGTCAAATTGCTTTAGAAAAACAAAAGTTTACTAAATATTTCATTCTCATTTTTCTCTCCTTRTGTTA
TTTTGACCCAGTAATCAATAGKTCACAGACAAGCAGTGGTCCACAGCCCATACTTGAATATTCCTGACGAAAGTTTATTAGAAATTACCTGCCACAATGG
ATTATTGTGTTTTCATGTCTTTTCCCAGACTTCCAGATCTCTCTTCTGTCTGTCTCTCTTCTGTAGGAACTTGGATGTTAACTTCCATGAATTCTAGTCC
AAGAAGCAAAAAGCTGAGGCTGAAATTCAGGGATGTTAAATGTATCCCAGATGATGATGAAGACTCATATGAGATTTTTGAACCTCCAGAATCTACAGTC
ATGGCTACACGGAAAATGCATGATCGTTTAGAACCTGAAGATGAAGAGAGTGATGCTGACTATGATTACCAGAACAGACTGGCTGCAGCATTAGGAATYA
GGTCATTCYGAAACTCATCATTGAAYCAGGAAGAAGAAGAGTTCAATCTTACTGCCCTAGCTCTGGAGAATGGCACTGARTTCGTTTCTTCRAACACAGA
TATAATTGTTGGTTCAAATTATTCTTCCCCAAGTAATATTAGTAAGTTCACTGTCAATAACCTTGCAGAACCTCAGAAAGCCCCTTCTCACYAACAAGCC
ACCACAGCTGGTTCCYCACTGAGACACCTCATTGGCAAGAMCTCAGTTCTCAATTCTTCCACAGCAGAGCATTCCAGCCCATATTCTGAAGACCCTATAG
AGGATCCTCTACAGCCAGATGTCACAGGGATACGTCTACTTTCACTTGGTGCTGGAGAATTCARAAGTCAAGAACATGCTAAGCRTAAGGGACCCAAGGT
AGAAAGAGATCAAGCAGCAAAGCACAGGTTCTCCTGGATGAAATTACTAGCACATAAAGTTGGGAGACACCTAAGCCAAGACACTGGTTCTCCTTCCGGA
ATGAGGCCCTGGGAGGACCTTCCTAGCCAAGACACTGGTTCTCCTTCCAGAATGAGGCCCTGGRAGGACCCTCCTAGTGATCTGTTACTCTTAAAACAAA
GTAACTCATCTAAGATTTTGGTTGGGAGATGGCATTTGGCTTCTGAGAAAGGTAGCTATGAAATAATCCAAGATACTGATGAAGACACAGCTGTTARCAA
TTGGCTGATCAGCCCCCAGAATGCCTCACGTGCTTGGGGAGAAAGCACCCCTCTTGCCAACAAGCCTGGAAAGCAGAGTGGCCACCCAAAGTTTCCTAGA
GTTAGACATAAATCTCTACAAGTAAGACAGGATGGAGGAAAGAGTAGACTGAAGAAAAGCCAGTTTCTCATTAAGACACGAAAAAAGAAAAAAGAGAAGC
ACACACACCATGCTCCTTTATCTCCGAGGACCTTTCACCCTCTAAGAAGTGAAGCCTACAACACATTTTCAGAAAGAAGACTTAAGCATTCGTTGGTGCT
TCATAAATCCAATGAAACATCTCTTCCCACAGACCTCAATCAGACRTTGCCCTCTATGGATTTTGGCTGGATAGCCTCACTTCCTGACCATAATCAGAAT
TCCTCAAATGACACTGGTCAGGCAAGCTGTCCTCCAGGTCTTTATCAGACAGTGCCCCCAGAGGAACACTATCAAACATTCCCCATTCAAGACCCTGATC
AAATGCACTCTACTTCAGACCCCAGTCASAGATCCTCTTCTCCAGAGCTCAGTGAAATGCTTGAGTATGACYGAAGTCACAAGTCCTTCCCCACAGATAT
AAGTCAAATGTCCCCTTCCTCAGAACATGAAGTCTGGCAGACAGTCATCTCTCCAGACCTCAGCCAGGTGACYCTCTCTCCAGAACTCAGCCAGACAAAC
CTCTCTCCAGACCTCAGCCACACGACTCTCTCTCCAGAACTCATTCAGAGAAACCTTTCCCCAGCCCTCGGTCAGATGCCCATTTCTCCAGACCTCAGCC
ATACAACCCTTTCTCCAGACCTCAGCCATACAACCCTTTCTTTAGACCTCAGCCAGACAAACCTCTCTCCAGAACTCAGTCAGACAAACCTTTCYCCAGC
CCTCGGTCAGATGCCCCTTTCTCCAGACCTCAGCCATACAACCMTTTCTCTAGACTTCAGCCAGACAAACCTCTCTCCAGAACTCAGCCATATGACTCTC
TCTCCAGAACTCAGTCAGACAAACCTTTCCCCAGCCCTCGGTCAGATGCCCATTTCTCCAGACCTCAGCCRTACAACCCTTTCTCTAGACTTCAGCCAGA
CAAACCTCTCTCCAGAACTCAGTCAAACAAACCTTTCCCCAGCCCTCGGTCAGATGCCCCTTTCTCCAGACCCCAGCCATACAACYCTTTCTCTAGACCT
CAGCCAGACAAACCTCTCTCCAGAACTCAGTCAGACAAACCTTTCCCCAGACCTCAGTGAGATGCCCCTCTTTGCAGATCTCAGTCAAATTCCCCTTACC
CCAGACCTCGACCAGATGACACTTTCTCCAGACCTTGGTGAGACAGATCTTTCCCCAAACTTTGGTCAGATGTCCCTTTCCCCAGACCTCAGCCAGGTGA
CTCTCTCTCCAGACATCAGTGACACCACCCTTCTCCCGGATCTCAGCCAGATATCACCTCCTCCAGACCTTGATCAGATATTCTACCCTTCTGAATCTAG
TCAGTCATTGCTTCTTCAAGAATTTAATGAGTCTTTTCCTTATCCAGACCTTGGTCAGATGCCATCTCCTTCATCTCCTACTCTCAATGATACTTTTCTA
TCAAAGGAATTTAATCCACTGGTTATAGTGGGCCTCAGTAAAGATGGTACAGATTACATTGAGATCATTCCAAAGGAAGMGGTCCAGAGCAGTGAAGATG
ACTATGCTGAAATTGATTATGTGCCCTATGATGACCCCTACAAAACTGATGTTAGGACAAACATCAACTCCTCCAGAGATCCTGACAACATTGCAGCATG
GTACCTCCGCAGCAACAATGGAAACAGAAGAAATTATTACATTGCTGCTGAAGAAATATCCTGGGATTATTCAGAATTTGTACAAAGGTTTGGCCAGTTT
TCTCCTTTTTTATTCTCATTTTTCCATTACTGCTGMAAAAAGTAGCTACTACAATTCAGGGGGATAATTGTGGGCAAATTATACTAAGAACAGTGTGGTT
CCCCTATTGCAAGTTGGCCTGTTCTTTTTCCTTTGTCAATTCCAAGATTGCTTCTTTACCTTAGATGACCCCTGGACAATATAAGAACAATCACTGTGAG
AACTCTATAATATTCTGTAATTAAGCATTTTTCTGTGTCCTCTCCTCTTACTACCCATGTTTCTACTGACTCTTATTGCTCCAGGCAGAGCCCAACCTAT
CCATAGCTATATGCTAATCAATATGATTTAATTGAAGTTAGCCTCAAATCCAAACTCAAATATGATGTAGAAATCTCCTTTTTGCATTTACTTGTTTAGA
TCAGAATTTCTAAGAGATCCAAATCCCTTTTTTAAAAGAATATTTACAATTCAGTTTTGCTTASGGGTAGAAAGCCATGTTGAACTGGGCTCTTTGTTCT
GGGATGAAGATACAGAAAGAGAAGAGAGAGGAGGAAAGGAGCAAGGCTTAGTCAACTACAAATTCTCAGGGATATAGCATGATGACTGTGCATCAGCTGT
CTAGATATGCCCACAGCTTTTACTAAAGCTGTTACACTAATCACTTAAAAAACCAAAGTGTAATTACAGTAGGCAAACACAATGTATGGTGTGACTTATG
CATATGAGTTCATTAATCTGATGCCTGACATCTCCACATTAGAACTCTGTTTAAAACACCTTTTCCTATGACTTCCTATWTAAATGTTGCACTCAATACC
ACATGAGAACAACTAGCTACCTGAGTATTTCTAAGCAAGGCCCCGAGGGAGTGAGATGCAGGGCCTGTCCAGAGTGAATAGGGATGGAACCACCTTCAAA
ATCTTGTATTCCATTCAAGGCTCACAACCCACTTTTATGGCAKTCGGAGTTGCTTTACCCACTCCCTTGTGTTCTGTGAGTTTGCATGTTATGCTCAGAG
TCTGGAAAGATGGGATTAGTAGGGGAGGTAGACCAGAAGAAAGGCAGAAGGAGATTCTCTGTTGATGACTCACAGTATATAGCAAATATTATGGGTTTGA
TGGGTGAGTGTTTGGCTTGTTTCCACAGGCTTGGGAAATGTGAGAGTCAGTGGGAGAATTCGACATGCTTCAGTCCTAGACTGAGCCAATGAACTAGATG
GAAATAATGTGCTTTATTTATTTATTTATAATTTGTAATTAAACTTTTTATTTTGGAACAAAAATAAAATAGATTCACATACAGTCAAGAGAAATAATAC
GGAGAGATCCTTTGGGTATCCTGAGTATTCTTTACCCAGTTTCTCCCAGGGGTAACATTTTGCAAATCTATAATACTATATCACAACCAGCACACTGATG
TTGATACTGTCAAGACACAGAATGTTCACCATCACCATAAAAATCCCTCTCATTACCCCTTTATAGTCACATCTGCCTTCCTCCCACCATAGCCCTTCCT
TATTCCCTGGCAACCAGTAGTCTGATCTCCATTTCTRTAATTTTGTCATTTCAAGAATATTACATAAATGGAATCAGGCAACATGTAACCTTTGGGGACT
GGTATTTTTTCACTCAGTATAATTCTCTGGAGATTCATCTGGTTATTGCATGTATTCCATTATATGGGTGTACCMCAGTTTTTTTGTTGTTGTTGTTTTA
TACACATTTATGGTGTAAACATGATGTTTTAATATATTTATAAATTGTGAATTGGCTAAATCAAGCTAATTAACCTATGCATTACCTCACATACTTTTTT
GTGGTTAGAACACTTAAAATGTACTCAGCAATGTTAAAAATTCAGTGTGTTGTTATTAACTACAGTCACCATCTTATACAACAGATCTTCTAAATTTATT
TCTTCTAACTGAATTTTATCTTTTGACCATTTTCTCAATGCTCCACCTCTGTATCCCTTTGTTAACCACTGTTCTACCTTCTGCTTCTATGAGCTCAATG
TTTTTAGTTTCCACATTATAAGTGAGATCCTGCAGTACTTGTCTTTCTGTGCCTGGCTTATTTTATGTAACATAACGACCTCCTGGTTCAGTCATGTTGT
CACAAATGGCATTTCTTCGTTTTCTTTTTTTTAAATGCTAAATAGTATTTCATTGTTTATGTAGATCACATTTAAGAAATCCATTCATTTGTTTATAGAC
ATTTGGGTTGCTTCCCTATCTTGGCTAATGTGGCTAATGCTGCAGTGAACGTGGGACAGCAGATATCTCTTCAACATACTGATTTCATTTTCTTTGGGTA
TATACCCAAAAGTGGGATTGATGGATCATGTGGTAATTCTATTTTTAATTTTTAAAGGAACCTCCCATACTGTTTTCCATAATGGCTGTACTAATTTACA
CTCTCACCAAGAGTATACAAGAGTTCCCTTTTCTTCACATCCWTGCCAACATTTATCTCTTGTCATTTTTATAATAGCCATCCTAACGGTGTGAGGTGAG
CCCTCATTGTGATTTTAAATTGCATTTCTCTGATTATTAGTAATGTTGAGCATCTTTTCATATATTTGTTGGTCATTTGTATGTCTTCTTTTACGAAATG
TCTATTCAAGTCTTTTGCTCATTTTTTAATCAGGCTATTTGGGTTTTTTGCTGAATTGAGTTCCTTATATTTTTAATATTAATATTCTTATCAGATATCT
GGTTTTCAAGAATATTCTCCCATTCCAAAGGTTGTCTCTTCACTCTGTTATTTCCTTTGCTGTGCATAAACTTTTGAGTTTGATGGCAATCCCATTTGTC
TATTTCTGCTTTTGTTGCCTGTACTTTCGAGGTCAAATCCAAAAAATCTTTGTCCACACCAATGTCAAGAAGCTTAAGAATAATGGACATTAGCAAAAAA
CAAATGTGAGAAGAGTGGCTACTTTTAGGGTACAAAACATTCACCCATCCAGTGACTTTCATAAGTGTGACCTTCTAATTAATCTGACCATTGTCACCTG
ATAGCCCCAAGCTCTGGCACTGTCCCATTACATGGCTTTGTCTGCCTTTGATCTTAAAATTTGGTGTGTTAACATACGATTATATTTATACATTCATTTA
TATGTTTGACAAAAATTTATTAAGTTCCTGCTGTGTGTCAGATAATGTGCTTACCACTGGAGAGAGTACTATGAGCAAACTAGGCACAATGGCTGACCTC
ATGGCACTTATACCCAGTGAGAGACAGATATTAATAGATAATCTCACAAATAAATTATATATAATCTACAATATATAYTCTAGAGATATTATAAGAATAC
TACAGGAATTTACTATATATACTATAATAATACTATAGAAATATGAGAAATTGATATAGAGACTTGACCTAGTCTAAAAGGTCATAGGAAGACTTACCTA
TAAAATAATATTTGAGTTAGGAATTGAAAGATATTTACTGGCTTTTGTTTTTATCCACTTATATATTTACTCATTTATCCACCAAGTATTTATTAAAGAC
CTTCTCTATGCTAGATGCTATATTTAGAAAGAGACAATTTCCTAAATTCTGGGAACAGTCTTTAATTTCTTCTTTTACACAAATAGTATTATTATTTCAG
GGAAACAGATATTGAAGACTCTGATGATATTCCAGAAGATACCACATATAAGAAAGTAGTTTTTCGAAAGTACCTCGACAGCACTTTTACCAAACGTGAT
CCTCGAGGGGAGTATGAAGAGCATCTCGGAATTCTTGGTCCTATTATCAGAGCTGAAGTGGATGATGTTATCCAAGTAAGTCTTTTGAGCACTGCTAAGA
TCTTCGGAGGAATTTCCACAAGCACCAGAGGGTTGTAAAGGTGCAGGTGGCAAGAGAGCTATAGGTGATTTGTTTGTTTTCCAGGATTAATGAATAATTA
CATTTCTTTTCAAAGACTCCTTGCCAAGCAATTTGGCAATCTTCGAACTAAAAAAAAAAAAGATCTCATTTTTTAAATGCTGAAAACTATATAATCTGTG
GAAAATCTTTCTGTAATTTCTATCTAAAGCTAACCTATCTAAAGTTAACACAGAAAATTAATATATTCAAGAGCAATTGAATTGGGTTTCATAGCAGTGG
TGGTGGTGGTGGCAGTAGCAGTGCTAGTAGTAATAGTAATTTAGAAATATCTTCAGGTGTTTTCCTAAAAATTAAATAAAATGAAGTTAAATAAAATGAG
TAAGGAAAGTAAAGATGTCTCCATGCCCTCCAAAAGTGAGCAAGTTTCTTCAGTGTCTTCCTAGTTCTGGTAATTTCTTTCAAAATCTTGTGTCCAGACC
CACGATTATAACTTGCTTTTATAACAAAGTTTACTTCCGCCATTTTTGCTAACCGCTCACRTTCAAAAACCCAGAAAGAACCCTGATTCTAAAGTAAGCT
ATTCTAGATTTTAAAATATAATCTACTATACCTGTGTAAGCATTCACTACATTTTCAGTGACCATTTGCTCTTTTTAAAAACGTAAACAAGTACATAGGG
ATATAAGAATCTTAATTATTCTAAATTTTCCATGAAGCTATGGGAGGCAATATTCTCTTTTATGATTAGGGGATCCTTTTTCAAGATGAACGATAATTTA
ACACAATATTTAAAAAACTTATTCTAAGTAACTCAGGAATCAAAAACCAGACACTGTATGTTCTCACTTACAAATGGGAGATAAACTGCRGGTATGCGAA
GGCAGACAGATTGGTATAATGGACATTGGAGACTCAAAAGGGAACGGGGGATGGATGAAAAGCTACCTATTGGGTACAGGGTACACTACTCAGGTGACAG
GTACACTAAAATCCTAGACTTCACCACTMTACAATTCATCCATGTAACCAAAAACCACTTGCATTCCTAAAGCAACTGAAGTTTTTTAAAAAATTTAAAA
ATCAAAATTAATGCACGAAAGCCACAATAAACAAAACCTCACAATTGTGAATAAAGACAGGATAAGTAACAATGTTGCATTGAGACATACTGGAGCCTTA
GGCAAAAGGAAAAAAATCAAATACTGAATCTTTGTTTTAGCCCTGGATTTCACTAGATAAAAATGACTTCATTTGTGTATTTTTAAAATAATTTTAACTT
TTATTTTAGATTCAGGGGGCATATGTGCAGTTTTGTTATCTGGGTATATTATGTGATGCTGTTGTTTAGGGTATGATTGATCCCATCATCCAAGTAGCGT
GCATAGTACCCAATAGTTTTTCATCCCTTGCTCATCTCCTTCCTTCCCCCTTCTAGAAGTCCCCAGTGTTTATTGCCATCTTTATGTTCATGAGTACCCA
ATRTTTAGCTCCCACTTATAAGTGAGAACATGTGGTATTTGGCTTTCTGTTTCTGCATTAATTCACTTAGCATAATAGCCTCCAGCTGGCATCCATGTTG
TTGCAAAGGACGTGATTTCAGTCTTTGTTATGGCTGCGTAGTATTCCATGGTGCATATGTACCATATTTTCTTTATGTAGTCCACCACTGATGGGCACCT
AGATTGATTCCATGTCTTTGCTACTGTGAATAATGCTGTGATGAACATCCTAGTACATGTGTCTTTTCAGTAGAACAATGTATTTTCTGTCTTTCTTTCT
TTTTTTTTTTTTTGAGAYGGAGTCTCACTCTGTCGCCCAGGCTGGAGTACAGAGGTATGATCTCAACTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAA
TTCTCCTGCCTCAGCCTCCYGAGTARSTGGGATTACAGSCACCCRCCRCCAHGCCCRGCYAATTTTTGTATTTYTARTAGAGACRRGGTTTYACCATGTT
GGCCRGGSTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCRTGAGCCATTGCGCCCGGCTGAACA
ATKTATTTTCTTTTTTGGCTATATACCCAGTAATAGAATTGCTAGGTCAAATTGTAGCAGGACAAGCCACAGACAAAAACCCCTCAGACACCAAGTTAAA
GAAGGAAGGGCTTTATTCAGCCGGGAGCTTYGGCAAGACTCATGTCTCCAACAACCGAGCTCCCCGAGTGAGCAATTCCTGTCCCTTTTAAGGGCTCACA
ACTCTAAGAGGGTCCACGTGAGTGGGTCGTGATTGATTGAGCAAGGAGGGGGTACGTGACTGGGGGCTGCATGCACCAGTAATTAGAACAGAACAGAACA
GGACAGGGATTTTCACAGTGCTTTTCTATACAATGTCTGTAATCTATAGATAACATAACCGATTAGGTCACGGGTMGATCTTTAACTACCAGGTCCRKGG
TGTGGCGCCGGGCTGTCTGCTTGTGGATTTCATTTCTGCCTTTTAGTTTTTACTWCTTCTTTCTTTGGAGGCAGAAATTGGGCATAAGACAATATGAGGG
GTGGTCTCCTCCCTTAAAATAGTAGTTCTGTTTCAAATTCTTTGAGAAACCCCCAAACTTCTTTCCACAGTGGCTAATTTACATTCTAAGCAGCAGTGTA
TAAGCATTCCCTTTTCTTCACAGCCTCACCAGCATCTATTTTTTGACTTTGTACTAATAGCCATTCTGACTGGTGTGAGATGGTATTTCACTGTGGTATT
GATTTGCATTTCTCTGATGATTAGTGATGTTGAGCATTTTTTTCACATTTGTTGGCTATTTGTATGTCTTCTTTTGATAAGTATCTGTTCATGTCTTTTG
CCCACTTTTTAATGGGGTTATTTGTATTTCGCTTGTTCAATTGTTTAACTATCTTATAGTTTCTGGATATTAGACCTTTGTCAGATACATACTTTGTGAA
TATTTTTTCTATTCTGTGTCTGTTCACTCTGTAGATAGCTTCTTTTGCTGAGCAGAAGCTCTTTAGTTTAATTTGTCAATTTTTGCTTTTGTTGAAATGC
TTTTGAGGAATTAGTCATAAATTCTTTCCCAAGGCTGATATCCAGAATGGTGTTTCCTAGGTTTTTCTTCTAGGATTCTTATAGTTTGAGGTCTGACATT
TAAATCTTTAATCCATTTTGAGTTAATTTTTGTATATGATGAATCCAGTTTCATTGGATTCATTGGGGTTCAGTTTCATTCTTCCACATATGGGTAGCCG
GCTATTCCAGCACCAYTTATTAAATATGAGTCCTTTTCCCCTTGTTTTTTGTTGTTGTTGTTGCTGTTGTTGTTGACTTTGTCAAAGTTCAGGTGGTTGT
AAGTGTGTGGCTTTATTTCTGGGTTCTTTATTCTGTTTCATTGGCCTATGTGTCTGTTTTTGTATCAGTACCATGCTATTTTGGTTATTGTAACTTTATA
GTATAGTTTCAAGTCAGGTACTGTGATACCTCCAGATTTGTTCTTTTTGCTTAGGATTGCTTTGGCTATTCAGGCTCTTTTTTGATTCCATATGAATTTT
AGAATAGCTTTGTCTAATCCTGAGGAAAATGATTCCAGTAGTTGTTAAAAAATAGTGTTGAATCTGTAGATTGCTTTGGGCACAATRGCTATTTTAACAA
TACTGATTCTTCCAATACATAAGCATAGAATGTTTTTCCATTTGTTTGTGTCATCTATGATTTCTTTCATCAGTGTTTTGTAATTCTTCTTATAGAGATC
TTTCACCTCTTTGGTTAGATGTTTTCCTAGGTATTTTGTATGTGTGTGTGGCTATGTTTAATGGGATTTCGTTCTTGATTTCGCTCTCAGTTTGAACATT
ACTGATGTATAGAAATGCTATTTTGTACATTTGTACATTTTATTTTGTATAATTGATTTTGTACATTAATCTTGCATCCTGAAACTTTACTGAAGTCATT
TATCAGTTCCTGGAGCCTTTTCATGGAGTCTTTAGGGTTTTCTAGGTACAGAATCATATTGCCAATGAAGAGAGATACTTTAACTTCTTTTCTTCTTTGG
TTGCCTTTTATTTCTTTCTCTTGCTTGATTGCTGTGACTAGAATTTCCAGTACTATGTTGAATAAGAGTGATGAGATTGGGCATCCATGTCTTGTTCCAG
TTCTCACGGGGAAGGCTTTCAGCTTTTGCTCATTCAGTATGATGTTGGCTGTAGGTTTGTCATAGATGGCTCCTATTAGTTTGAAGTATGTTCCTTCAAT
GCCTAGTTTGTTGAGGGTTTTTATCATGAAGGGATGTTAGGTTTTATCAAAAGCTTTTTCCACATTTATTGAGATGATGATACTGTTTTTGTTTTTAATG
CGGTTTATGTGGTGAATCACATTTATTGATTTGCATATGTGGAGCCACTTTGCATCCTAGGAATGAAGCCTATGTGATTGTGATGAATTAATTTTTAATT
TGCTGCTGGATTTGGTTTGCCAATATTTTGTTGAAGATTTTTGTGTCTATGTACATCAGAGATATTGGCCGGTAGTTTTCATTATTCATTGTGTCTTTGC
CAGGTTTTGTTATTAGGGTGATGCTGGCTTTGTAGAATAAAATAAGGAACAGACAATTAGGGAGTCTTTAATCACTAGAAGTTATAGAAGGGCTGGGAGG
AGCTTCATGGGTCTGACTGCTGGGGTGTGAAGACTTCTCATATGGCATTTAAGTCCTTTACCATCTGGCCCCAACCTGCTCCTTTTCTASCCTCATTTCT
CACCAGGTTCCACCTGTCCCTGTGCATTTCACAGCCCAGTTCCACCGAGATCCTTGCTATTCCCCAAACTCTTCCTTTACTCCCCTGCTCACAGGCATCC
TTCTGCCCTTCTGAGAGTCTGAAATGTCTTTCTAGCTCCTGTTCATTCTATGATGGCCAATTCCATTTCCTCTAAGAAACTTACCTTAATTCTTCCAACC
ACTCCTAAATATTCAACCAAATTGTTCCTCCAGGGCATTGTCATCTGAACCCACTTAGACTTTGTATATAGCACCTGTTGTCTCCAGATTTGTAGTGTGG
ATGCCCATGTGCATGTCTGTTTCAGCAGKAGCTTAAAAGCTTCTTATGAACAAGAATCAAGCTTCTTTCATCTTCACATCTCCACTACCTATCACTCTCA
TTTCATTAGTAGATAATGTCAGTACTTTAGCCTTGAGCCTAAGAACAAATATCTTTTGGTATTTCTGGAGAAAACTACTTGGGCCATATCTCACAGGATG
GTTATGAAAATTAAATGAAATAATATACATAAGTTATTTTGTACCTTATATCTTAGCTCCGATTTTATAACCAGCCATTTTGACTTATAATGCTGACATT
TTTGTGGTTTAGATTTTTGTTAAGCTTAAGTACATTTGTGGATCATTCCTTTTCCTAGGTTCGTTTTAAAAATTTAGCATCCAGACCGTATTCTCTACAT
GCCCATGGRCTTTCCTATGAAAAATCATCAGAGGGAAAGASTTATGAAGATGACTCTCCTGAATGGTTTAAGGAAGATAATGCTGTTCAGCCAAATAGCA
GTTATACCTACGTATGGCATGCCACTGAGCGATCAGGGCCAGAAAGTCCTGGCTCTGCCTGTCGGGCTTGGGCCTRCTACTCAGCTGTGAACCCAGTAGG
TACTTTCATTGAAAGTTTTTCTCATTCCCCTAACCTCGTAATCTGAAGTCCACCAAATGGAAGAGTCRGGGTTATTTCTTGTCAAATGTCTGTCTTGCTT
TTCATGAGGAATGCATAAGGGTGTGGTTAACAGTCTGCATTTATCATAACCAGGGACTCTCCATGCAGCTCTTCAGATGACAGAGAGAGAAACATTTATT
CAGTGGAGAGGAGGAAAGATTACTTGAATGATTGGCCATGAATTAGAATGCCTACATTTACAGAAGATGGCATTTATTTGAAATTTTCTTGAACAAGTAT
TAGCTATGTTCTGCTCTTTCTTTRTGAAAAGAACTGCAAAGTCAAGACTCCTTTATCTGWCATTCTGCAATGTATATATACTTCAAAACAATATGTCATA
CACAGTATATGCATACAATTTTATCTGTCAATTAAAAAGAGAAACAACTCCTCCATTTCAGGCATAGTGGAAAGAGCACAGACTCAGATTTAAATTTTTA
CCCTGTCAATGCATAATCCTAGGAAATTCCTTGACCTCTCTTAGCCTGGTATCAGAAGTTAAAAATGAGATAACAGTACATAGTGCATGGTAAGCACTTG
GTAAATATTTGTTCAATGAATGAATTTATATTTACCAKATAAGATAGTTGTCAGGATTAAATGGGAGATTGCAGGCAAATCATTTAATATAGTAATAGAT
TCTCAATAAATAGTATCCCTTATATTATCAATTTATTATTATCATCATTGTTACTGGGATAAAGATCAATCAGAGGAAGGAGGATTATGAATACAACAGA
ATTAGGTGATAAATATCCAGGCTTATTAYGCCATTCATTTATAATCTTCATCTTCAAATTCAGAGCCTATCAGAAAGTTTCCTTTTCTATATGATGAGTG
ATTATCAGAAGAGCAAGGAAATTCCTGAGAAAGAGGCAATACAATTTACTCTGTTTTTCCAGGAAAAAGATATTCACTCAGGCTTGATAGGTCCCCTCST
AATCTGCCAAAAAGGAATACTACATAAGGACAGCAACATGCCTRTGGACATGAGAGAATTTGTCTTACTATTTATGACCTTTGATGAAAAGAAGAGCTGG
TACTATGAAAAGAAGTCCCGAAGTTCTTGGAGACTCACATCCTCAGAAATGAAAAAATCCCATGAGTTTCACGGTATTTTCCTYRGACTTTGATCTAATC
TCCTAATTAAATCACACTGGGTCACAGTGATTTCTGCCCTTAGATATTCACAAGATTAGACATGAGATGCTTCTGAGACACCCAGAGCTACAACTAAAAC
CGGTTCCTTAACATTCCAGAGGGCTGATGTAATCTGGCAGGTGACACTGTGGGTGAGGCAAAAAGAGAAAGTCTGAAAGATAGCACAGAGAAGCTGCTGC
AAAACAAACCAACAGAAAACCACAACAACAAAAAGCCAGTGTGCTTCAGCTGGTAACATACATTGAAAAGGAATTAACATTGTTCTGCAATTTAAAGTTA
ATAAGCTTGTTTCTGGATCTCTAAAGGCACAAGTGTTTATATAAAAGAAATGATCACCTGTGTGTCTTTTCTAAAATAAGAATGACGCTAACAGTTTTAG
CTCTCAGCAGCTACCAGGTGGCACCCAAAGCATATGAGAACAAAATGAGATAAGAAACTAGGTACCCAGGTAATAGGAGAATAGTGGCAAGAGAGCATTT
GGGTGGTCACACTGGGAAAAGTGTGCCTATTTGGAAATTCACAAGGAAAATTTGCCCTGTAAGCTAGTAACTGAAACAGRAACTGAGAAGAGAAAGGTAC
GAGCTTGTGTTATGAATATGTAGATAGGTGTTCTCACRCCTGATATAATTTGAAGGATGCCCAAATGATCTCAACCCGTCCCTCTCCAAAAATTCACCTG
CCTGGTTTCTGAAATTTCACAGCAGTTCCTCTAACTTAAGAAGGAGGAAACAAAGCACTTCCYTCACTTTGGTTTCAGTTAAACGTTTGGTAACACTAAA
CTTTATCTTTACAGTTTTGTGTTACATTTTTAAGGTGATCAAGTTTCTCAGGAACTTTTTAAAAAATCCGCGTATTTTACTGTGGGGAGAGTAGATAAAG
CCTGAGAACCCTAGTTATCTAATCTGAGAAGTGGGCAGAGGAGTTGTCATACCAATAAGAGAATAAACATGACTTGCTATGGTTGCTGGATACACCAAYG
ATAAACTCCTAATTTTATAAACTCCTAGACTTCCTAATTTGCCTGAAACTTTCTCTGAATTTAGAAGGCCTTAAGGTGACATGCTGCATATCTCCTTGCT
GACTCTAATCCCTGGAGTTTACTTTGTCTGCCCATATTTGTATTTATCTTTTGTAGTTAAGGAAAATTAAGACTGTTAATGGAAAGTATACACGGGTAAA
GCACGGAACTGTAAAAGCTGAGGAAAAGAGTGATAAACTGCTTGGAAAGGGAGTTCCCCCTGCCTTCTGCTGTAGGCTGGTGTGAATGATATGAGAAGGA
CTAGTGGTTCTGCTTTAGCCTCTCACTAATGTGACATACAAGAGGGCCCTTTCCATGGCTAGGTAGGCCTGGGAATGCAGAATCATGAGGAACATGGGTG
TTGAGTGGGTTGCCCCATATTTCCTTACCACTCGCCCTCTCTGTGTCAACAGATTTTTAATTGATTTCAACTCTTTGTCCTTTCAGCCATTAATGGGATG
ATCTACAGCTTGCCTGGCCTGAAAATRTATGAGCAAGAGTGGGTGAGGTTACACCTGCTGAACATAGGCGGCTCCCAAGACATTCACGTGGTTCACTTTC
ACGGCCAGACCTTGCTGGAAAATGGCAATAAACAGCACCAGTTAGGGGTCTGGCCCCTTCTGCCTGGTAAAGATTGGGTAATGGGAAGAGGTCCCTGCTA
AGAAATACAGGGAAAAGGCAATCTGTAACTCCTTCTCATTTCTTCCTTGTGCATATACTTCCTAAGGGGTCAGAACACAGGGTTCTGGCATAGAGCCTAG
GCAAACCCATAGACCCAAAGTATATACGGAGTACAAAAATGTCACCTAATTTATGAACTATTTGCAGCACCACACAGGCTAAATGTGTGACCCAACTCAG
TTGCAACATAACATGCAGTTTCTCCCAAGCCACTGTRTGTCATACAGATGAGGTCTTAAGCAGATGAAAAAATGAATCCCACAGGGCTCAGGCAGCTACA
GCTATCTCTGCTGGGAGGGTTTCCAGATTCTTCAGTTCTGCTCCTCTTCTAGGCCCTATCACCCTAATATCTTTGGGCAAGTGACTCCAGGAATCACATT
CTTAAACTGACTTATAGACTGTTTGAAGAGGAAAACATTTTTAAAAAATAATAATAAAAGTTAAAGAATAACAAAGGTATTTAGAACTTTTCATGTGCAA
AATAAAGATAAATGTAGATTTAAACAGTCTACAATTATACAGAAGGGATGTTTCTGTGCCAATGAGTTGTTTGTAAGTGTATCTACTTGTGCAGCAGTAT
AAAAACCTAGGAAGTCAGTTAAAATGCAGATGTGAAGGCAGAGGGATTTTGTTCTCAGAGACTTTAAAGTAGATTTTGGGCAGAATTCCAAGGAGTCTGT
ATTTTTAACAAGCAGCCTTCCTTCTATTTTGCCTTCTATTAAAAGTAATGGCAAAAACCGCAATTATAGTTTGCACCAACCTAACACATGCTGCCTGAGG
AGTTAGTGAAGGCAGCCCCTCGACAGCACTTTGGGTGACGTTGTGTGAATCTGCCTCAGATGCAGRCACAGAAGTCCAAATGGACTGGTTTGATTAAGAG
CAGGGAAAAAAAGAGGGTTCTTATTGGTTTTTCACATGCCAGTAACTCACTAATACATCTAGAGAGTATTAATTGTATTATATTAATATCATATTAATTA
ATTAATATAATAATTAATAGATAATTTATTGTATTAAAATCAGAGACAGAAGAGATTCAGTCAAATTTACTCATCTTTTCATCAAGTATTAGAAGATCAG
TCATCCTTCCTATCAGCCTGCAGACAGACTGAGAAGCTAGGATTGGCTGGTGTCTCTAAATCTGCAAACCTAAATACCTGCATTGGAGAGAGGAAAACTG
GAGACATTTTTCAGTGTGTTTGAGGAAGATAATCATATCTATTCATTTTCACCCACAATCTGGGAAACAGTCATAAATTATAGTCAACAGAATTTAAATA
TTAACTGCCAGGGGGTAATGTTAAATACCAGAATGGATAGCCAGAGGTTTTAGAAATCTCATTCTTTCAGTGTTTTTTCTGAGCAATTTATGTAAATCTC
TATTCAAATATGTAAGCTTTATGGAAAACTTGAAAACATGGAGGAAGAAGGTTTTATTTTTATTTTCTTATATAAAAAAGAGAAAAAAGCAAAAATGAAA
AGAGGGAAAGGAAACATGTATGATATTTTTGAAGCCCAATGATGTCATTCGAGGTCACTTTGATAATTAGGACTGTGAAGCTGTATTGTATGTGAGTTAA
TTTGTAACATTATATTTAGATAAGTGAAAGTTTCTTCTAGTGAGGTGTGGTGGTGATTTAAAATTTTTTTTAGTTATCTCTGTGTATGTGTTGTTATTGT
TTTGTTTTTATCTGTTATACTTTCAGTCCTACCTAAAGAAAAATGGTTAAATTCTATTTGAAAGCCTCTTGTGAAGCAGGAATTTTAGGATTCTTAGAGA
ACTATCAACCACAATATTTACTTGTTAATTTTTGCAAATGTAATGTTGTTCTTTTTATTTTAGGTTCATTTAAAACTCTTGAAATGAAGGCATCAAAACC
TGGCTGGTGGCTCCTAAACACAGAGGTTGGAGAAAACCAGAGAGCAGGGATGCAAACGCCATTTCTTATCATGGACAGAGGTATCACAAGAGCCATGTGA
TATTTGGTTTGGCAGGAGAGTGCCTATTACTAGAATATTACCAACTTTTAGATTGGAAATATTCAACTCTAAGAACTCTGATGTGACAAAGGCATAATTT
GTAGCCATAATTGCTTTYATTCCGGCCCATGGTCTGATTGCATTGAAAACACATCAGTCAGATCAAAAGCATTCCTGTCAATTGGGAAACCTGTGTAAAG
CATCCTTCTTCATGACTTGTGATCCATGGACAAGTGCATATAAGAAATTTTCCAGCTTCCAAGAGTTGAGGAGGGAAAAGGTCACAGGAATTTAACAATG
ACTGAGTCACYAAACTTGACATTTCAGCATTTAGGAAACACAGTTTTCATCTGTCCATCTGTTCATCCATTCTTTAAGCCATTACTAAGCACTGTTGAGT
ATGAAGCACTGTGCCAACATCCAGGTAGCACAGTGGCTGGTATCCCTTCCTTGATCAAGATATAAATAACCTTGTAACTTTGAGGTCAACTTTTGAGAAC
ATAGTCTCATCAGGACTAGAACTTTTTTTCATATTTTTATATTTTGTATTTTTATTTTTTTTGTAGAGAAGAGGTTGCCCAAGATCAAACTCCTGGCCTC
AAGTAATCCTCCCCCCTYRGCCTCCCAGAGTGCTAGGATTACAGGCATGAGCCACTGCACCTGGCCATGGATGGTACCTAATGTTGTAAAATAGCATAAT
TTAAGATAAAAGCAGRAGAAAATCAGTTTAAAAARTGATTACATTTCAGGATTTCAGTTGCTTTCTTCTAGGATGCCACTATATCTATTAAAGCACCAGT
CTTGTTAGTGCATTTACCATTTTATAATCAGATATATTTAAGTCAGGGCCACACAAGGTAGGTAAAAATATCTAATTATTGAGTCAGAAACATAATCCCT
AACCATGGAGTTTTACTTTATTRTATATATTTTRTAAGCAAAAATTATTCATTTTTTTTCTGTTTTTCATAGACTGTAGGATGCCAATGGGACTAAGCAC
TGGTATCATATCTGATTCACAGATCAAGGCTTCAGAGTTTCTGGGTAAGTTGTAGCACCATGGTCTGTGAATGGTACCCCCTACAGTTGTGCAGCATGCA
GCCTATGAAACCATACATGACAATCCTATCTATGAATCAGTTTTTCTCTTTATGCTTTTCTCTACKACAATGTAGTGAAGCAGCTCCATTTGGGGTACAT
ATATGGTAAAGGAAGGAACACTAYGGTAGGAGCTAAAGGCCTGTTAGTGTGCTCTTAACACTGCCACCTCTTCTGGTGTATAATGATCCCAAAGAGTCTT
TTCCAGGAAAAACCGATAGCTGGGGGTCATTGATTTCTCTACATAAAAAGCCCAGCCTCTCTGCAGGGATTTGGCAAGGATCAGATACCTTASTCTTATG
ACCACGCGCCCATTTCCAAAACTCTCCTCAGTCATCTTTTCTGGGTTTGACCACACATGTAGTATTTCAGCCAGATTCACAGGGTCTTATCAGCCAGGCA
TTATAGTCCCCATTAATATGGCCCTTTGCCTGTGGCAACCATTCATCTATTCAGAAAACTTTGTTGAACCTCCACTATATGTGAGGAACTCCTCCAAAGT
TTTCCCACACTGCCTCAAAGCCCTTCCCAAGATCAAGAGGTCATGATCAAGAGGATGATGAGGCTCCCATATACCCTTCCATGTCTTCCTGTTAGGCAGG
CACATTCAGCATTAGGAATATAAACACAACAGAAAAAATCAAACATGACCTGTGTGCAAGAAAGGGGATAGGAGGTGGTTGGCAGTTGACCAAACACAGA
CCTGAAGCCCAGATTTCATCATCAAGGACTGGCCTAGTAGCTGAGGCCCATGCCTAGACTCCTGACTACAACACAGGTCCTCCAAGGATCTGGTTTTCCA
CTGGATTAAACTCACTTGAGAAATTGCTGGGTTTTTAAAAAATTCAGAATAAATCTTTTTCTTCCCTTGAGTTTAGGTTACTGGGAGCCCAGATTAGCAA
GATTAAACAATGGTGGATCTTATAATGCTTGGAGTGTAGAAAAACTTGCAGCAGAATTTGCCTCTAAACCTTGGATCCAGGTTTGTCTTAATAGACTGAT
AATATTTACTGCTATCGTAATAATAAAAATGAAAGTGATTTAGTAATTCCTTGTTATTGTTCTTGCAATGTTGTTAGGGGAAATAGCAAGTACTAAGTGT
GAGGCACTGTTCTAAGTACTTTATATCCTTAAAATCAACCCTCTGAGGTTGGTTCTAATAATATCTTGTTTTATAGATTAAAAAACAAAAGGCACAGAGA
TACTACCTACCTTCCCAAAGTAACACACAGCTAATTAGTCATTGAGTTGGGATTCAAATTTAGGTACTCTGTGCCCAAATATGAATTGCATGTAGTCATT
GTATCAGTTTGCTAAGATCTTATGTGCTAGCTCTTTAGTTCTRAAGAAAGCTGATTGTATAATGAATTTAGGCAGTGTGTGACTTGTTGACAAGGACAGT
TCTGTTTACTGGCTTTCCTATATTGCAGGTGGACATGCAAAAGGAAGTCATAATCACAGGGATCCAGACCCAAGGTGCCAAACACTACCTGAAGTCCTGC
TATACCACAGAGTTCTATGTAGCTTACAGTTCCAACCAGATCAACTGGCAGATCTTCAAAGGGAACAGCACAAGGAATGTGATGGTTTGTGTGCATATTT
CTATCTGAATCTCTAGACTCTAGACTTGGCCTAGAATTATTATGACTATACCTAATGATTATGTATTTTAAAAAATACCTTTCTGGGTATTAGAAATGTG
AATGGCTTTCTAAGGGTCATATGGAGAAAAGCAGTAATATGATAGGTCTGTGTCTTACAAATTAAAGAGAGAAGCAGGGTTACTGAAACTTCAAAACCCC
ACAAAACTTTAAAAAATCATTTTATCATCAAACAAAATACCCAGATTTCTCAGACTGGCCAATGGTATACGGCAGAGTAGAACATCTGGTCTTGCRCCTC
AAGGAGCTCATGCTAAAAATTGGCTACCAAGACTTTTGATTTTACTATTGTAGTTTGTTTTGTTCTTTATTTCAGTGTACCTGAAGTAAATAGTAGTGTT
AATGCTAGTAAGCCTCTGAGGCAGTGTGATTCTCAGACTTTTTGGGGGGCCATGCCTGAGGAATGACATTCTCCTTCTGGTTCTTCCAGGGGCTCAGCCA
TAAGCCCTAACTCTTCTCCTCCTCTCTATTCCCTTCCCCAAAGAAGTCTGAATGCAAGGAGTCTGCCTGCCATTATTATACCAATAACCTTGAGTCTGTT
TCTGCTTATATTTTATATAAAATTATTTACTGTTTATTAGTTACCTATTTTTAATAATTATTTATACTATGTCTCAGAACCATTGAAATCCTAAATTATG
GTTCTTACTAATCAGTATTATGAGAGAAAACACAGATTGCAGTTGAGTCCATAGCATAAAGATTTTGTCGTCTATGTTCATGAGAGGATATTGGTATATA
GTTTTATTTTTTTAATTGTCTTTTTCTGTTTTTGATACCACAGTTATACTAGCTTTCATAAAAYTGGTAAGCATGCTCTTTTCTACATTCTAGGAGAAAA
TGTCTGCAATTGGTAATAATTCTTTAAATATTTGGTAGGAATCACTAGTGAAACCATCTGGGCCTGCAGATTTCTTTTTGGGCAGTTTTTAAATTACAGA
TCCTATGTTCTAAATAGTTACAGGGCTATTAAAATTATCTATGTCATATTGGGTGAATTGAAATACTTTGTATATTTCAATTAACTGGTCAATTCCCTCT
ACGTTGTTAAGTTTATATGTGTAGAGTTGTTTGTATATTCCCTTATCCTTTTTCATGTTTGTAGTGATTTTGCCTGTTTCATCTCTGATATTGTCATCTG
CCCCTCCTTTCTTTTTTGTGTGAATCTTGCTAGAGATTTGTCGATTTTAAAAAAATCTTCTTGGCCGGGCGCAGTGGCTCACGTCTGTAATCCCAGCACT
TTGGGAGGCCGAGGTGGGCRGATCACGAGGTCAAGAGATCAAGACCATCCTGACCAACATGGTGAAACCCCCTCTCTACTAAAAATATTAAAAAAAATTA
GGCAGGGTGGCGTGCACTTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGTATCGCTTGAATCCGGAAGGCAGAGGTTGCAGTGAGCCGAGATCACG
CCACTGCACTCCAGCCTGGTGACGGAGTGAGACTCCGTCTCAAAAACAAAAAAAAAAAAAAAATCTTTTCACAGAACCAGCCTTGTTTTATTGATTTTTC
TCTATTGTTTTTCTGTTTTCAGTATTACCGATACCTGCTCCAATCTTCTGTTTTAAAAAGTTGGCTTTTTCTGACATTGCTCTGTCAGGAAAAGGGGTAG
GGCACAGCCTGTTTACTGCCAAGTGGGGGTCAAAGTCCAGGTTCCCCACTCCATTGCCACCTAAGAAGGGATTGTTCCTTGGTGGCTGGGTGGGAAGGGA
AGTTCCCCATTTGGCMTCCACTGATACTGCAGGGGCAGGAGCTTCATTAGGGGCTGGAGATGAAAGCCCTAAATCCCTACATGGCCTTTTCTGACACAAC
CCCAGTGAGGGTGTAGGGTGCCTCTTTAGCCTCAGGAGCATAGAAGTCTAGGCTCCCCATTCAGCCTTTGCTGTTGTGGGTTGGGGAGGGGCCTCAGGTT
TTTCTGTGGTGTTTGGCTAAAGGASAGAAGTCAGTGTCCACCAGTTTTCTATCATATCTCGCTATGCTGCCCTTTACTGGTACTTTGGTTAGAGAAAGCA
GATTTTATTTGGGCTTTTTCAGTCTGTACTCATTGGTGTTTCCAGGTTGCCGGCTTCTTCATCTCTAAGTCTGGGATTTATGAGGCAAAAAGAAAATTCA
AGACACTGATCACCATTTTGTTCCTTCCGAGAACCCTAGCCAGTCTGTCTTCTGAGCTCTTTTCAGGGTCTTATGTTTCTCTGAGCTATAATGTCCAAAG
TTTTTAGTTGTACTTAGCAGGAGGAATAGGGCAAAGTACATATATACAATCTTCCTGGAACTGGAATTATCCCCAAGTATATTTTATAACCAAATTGATT
TAGTTTGGACCCCATGAAAATGTAGTATTACAATATTAAATTAGATCAAAATTTTAATATAAAGTCACTTYATAGATCATTGTTACATAACTAAACTTTC
CTCTTTTCTTCTAGTATTTTAATGGCAATTCAGATGCCTCTACAATAAAAGAGAATCAGTTTGACCCACCTATTGTGGCTAGATATATTAGGATCTCTCC
AACTCGAGCCTATAACAGACCTACCCTTCGATTGGAACTGCAAGGTTGTGAGGTAAATGGTAAGGTACAAAGATGCATTATTTTCTCACTGCCACTCAAA
GAATCAAGATTTGGGAGGTATAGGAGAATGAGTAGAATTTTTAGTTCTTTTCAGTGACTTAGGCTCCTAGGAAAACCTTTGTGAAACAGAGGTTCTACTC
AGGTAAACTCTCAGTGTGATCTAGACCAAGARTGGTTCTGCCAATCAGAGTGCCGACAGCATCTCTGTGAAGAAAGTGCCTGGATTATATAGACACATCA
CAACYCTCCAAGGAAGGGCTCTAATTTGGAATTACCTCCATCAGCCCATTTTCAATAAGACCTACCTGAGATTCAAACTAGGCCTGACTCTTCCAAAGTC
CTCAGGTCACTCAAACTTCAATGTCATGACAGTATCTGGCAACATCACTGCCATATATRTGGTGTTCAATGAGTGTTTTTGAAATCTGAATTGGCTTCCC
AACTTCCTGAAACCACAATTCTTCTTTATATTTTCTTTCATACCCTGTGTAGGTACTCAAGTCTTTTCTATGTTAGCTGCTATTTCTCAGGGGCTGTAAT
GTGACCTGTGGTATAAATAAATCCAGGTAATCATAAATGGTCATAATAAAATTCTACTATATATAGCAAGGATGTTTAAGAGTCTTAACTGTTCTTCTTG
GACTCTTAAAGCAGTGCTTTCCAATATTTTTTACTTCAAAGCACACAAAGAAAATAATATCTGCCTGGCATTCTGAGGTAAAAGAATGAAGCAWTAAATC
TAAGGCTTGGCTGATCCAGGCCCCACTTGGCTGCTGAAGGGCTGGAGGTGGGAAGAGGGATCAATAAATAGGTGCACTAGAAACCTGCCRTGRCACACCT
GTCAGGAGTTGCAGTACTTCCCTTTGGGTGGAGAGAAGCCACCATGATTCACAATGGAGAAAGTAGCTGAAACCTGGAATCAGTTTCCTGTTGAAGCAGA
TAATGGCACAGTATACCCTTGGATGGATATGGGTATTTTGCCAATGTCCAGATAGCAGTAGTCTAAAACATCTCCCAAATAAAACACAGATCTTGTATCG
GCAGGACCACTCCTTGAAACAGTTCCATAAGTCATTGCGTTTTTTTCTTTCCATATGGTATAAATAGATTTGTTCAGATCCTAATAAACTACCCTAAAAT
GTGACATTCAATTCTGCTAACTTATTTAAAACATCTATTTTTTATACAAGAAGCATTATTTTCTTCTTATTCATTTTCTTGATACTTAGGTAATTATTAG
CAGTGGGTATTATTTTTAGGACCCTTTGTTTTTTTCATGGAGAAAGTAAGGCATCACTTCAAGAAAATTTCTGCATGATTTACCAACAAGAACAAAGTGT
CACAGAGATGATGGGTGGTCAGCCAGGTTCACTCACTAGCTGTGTTTCTTACAGTCACAGGTCTGCCTTGCTGCCTATGATATTCAAATTACACCTTGGA
AAAATTCCAAAGGGTACATAACTCGAATTACCCTCTAAGGGTTGAAACAGAAAATATTAAATAGTGACTGAGGGTCCATTGTATCTTCTTGGTAGCTTTT
GTTAGAAGAAACAGAGTATTTTTATATATAGATAATTTAGGATTATTGTCACCTGAAAGCAAAGACCAAAGTTTCCAAGACTCTCAGAAGGAGGAAGTGA
GTTTAAATGTTTAGAACATGGTATTTGGTATCAGATTGTCTGAACTCAATTCAGTTTCTGATTCTTGTGGCTGTGTTACCTTAGACAAGTTACTGTGTTT
TGGCTGTACTAAAATGGAGATATTTATGAGCATTATATAATACATGTAAAGCCTGAGAACAGTATTTGGCACTTGGATTCAATAAATCTTCATTGTTGTG
GTTATTGTTTTTGTCATTTGTTGGTAGTAATATTATTTCTTATCTCCTCTGCAGTGCATGAAGCCATGCAGGGAATATTGGTGTGTAATTAATCAMGTTA
CTTTTCTTTTGATAGGATGTTCCACACCCCTGGGTATGGAAAATGGAAAGATAGAAAACAAGCAAATCACAGCTTCTTCGTTTAAGAAATCTTGGTGGGG
AGATTACTGGGAACCCTTCCGTGCCYRTCTRAATGCCCAGGGACGTGTGAATGCCTGGCAAGCCAAGGTCAAGTATACTCTATGCATGGTGTTCTCTTAG
GGCTCCAGAAGAAAGCAAAGGCCCTCACTACCACAAACATGGAGGATCTGGGAAGCAGGAGTATTTTAATCTGTTTCTGCAGATTAAAATCCTAGGTCCA
AGAGTCCAGGATGTCTGTGGACTTGATAGCTTTGACTATAACTTTGTCTCAGAGAGAAGTCATTTATCATCTCTGTGGTTTTTGGTCTAGTCTTGATTTA
AACCAATAATAAGCAAATTAATTTTTCTGCAAAGGGATAGATGGTAAATATTTTAGTCTTTGTGGGCCATACATTCTCTGCCATAACTACTCAACTCTGC
CATTGTAGCAGTAAAGTAGCCATAAACAATATGTAAATGAATGAGCTGGCTGTGTTCTAATAAAACTTTGTTTACAAAAAACAGGCAGCGGGCCAAATTT
GGCCCATGGATCATAGTTTGCCAACTCCTCATTTAGACAGCTTACATTAGTGATAAAAAAATGATTTAGATTTGCAACATCATCTCTTATTTTTTCTTTA
CAATTTAGCAATATTTTTTCATTTTCCTAAATGAAATGTCATCTAAACTTTTTTGTTCTCTTCCCCGCCCTCCTTATTTTAAGAGCTTTGTGATATTCCT
TGAGGCAACTAGAAGCATAGTAAAATGTTGCAAAACCAGAGTTATAAAATCAGTGATCTAAGTTAAACAAACACCTTCCAGAGAGTTATACTGTCCCTGA
TATTAGCCCACTGAGTAATTCAGGTGATTTAATTTGGGGGTAACTCTTAATATTTGACTCATTTTTATTAATTCTTTAAATGACCTGAGATATCAGAATG
GCATGAATAACTTGATGATCCCTTCAGCCAACTAAATCCAAATTCCCTAMTTTCTATCCTCATATCTCCCTCCCTTAAGATACCTACACTCCAATTTCCT
GGCTTTCTATAGAATTCCAGGGCCTATCCTTAAATTAGGCCACTAGAAAGGAAAAAAGAATTGTGGTGCTGGTGGGGTAAATAGAAAAGATTGGATTCCA
CACAGTCTTGGGAACTGATATCTGTGTCTTGAAACTCATTCTGGCCCAATATGGAATCACAGAATGTTACAGTAGCAAGGAGCAAAGCATCTGGTCTAGA
TTTTTCCTTTTAATTSTAAATACACAGGAGATTAAATAATTTTAGCTTAGTTTGGTAGCAGAATCAGGACTAGAATCCCATTCTCCCAGTAAACAGGCCA
TGCTCCTTCCACCATTTGAAGCAGCCCAAATACCTCATTTTGCAATTTTGCAGAGGGCAAAGCTGACACCCAGAGAAGTTAAAATAATAAAAATAGTGTT
ATATTACATTTATATAATTTACATAGCAATATAAATAATAATTAAAGAGATGTTATCCAATTCTTTTTCAGATGACTCTTTAGACTTGTTCATGGTATAA
CCTTGTCACTCCATACTTCATTTTACAATCTTTTAAAAAAATTTGCACTCTCTATAATTTGCTCTTAGTCTTTGTSATATAACAAGGGYCTCAAAGATAA
AATGCTAATTTTTAATGGTGTCATTTCAAAGTTAGAATTCGGGATCAGAAATATGTGTTTTACTTAACCCCCTTCCATTCACATGAAATGTCTTTATATG
GTCTCTTTAGAGAGGTTGAAAATCAAAGCTGGACATATGCAGTGATGCACATAGATGCTGTTCTCTCCATAACTAAAATGTCTCTACCTCTTTTATGCCT
GTGAAAACCTCTAGCTGGTTATACTCTGCATCACTGGTACAACCTTGATATGAAGACWCACTAAGATACCACCCAGATGTCACTAGAGGATGTTATAGAC
TTAAAAGTTTTCTCATATAATCATTCTAATTCAGTTAATTTGCTTTTAAAATACATATAGCATGTGAATTTTTGTGTATACACATATATACACATACACC
TATATATACACATACACTTATGTATGTGTGGGTGATGTTGAAGAAACATATCAATATTATTTCCTTTAGAATTGAATGAGGTTATGGTAGACGATAAATC
TCCCAAAGGTAAAAATTTATCTTAGATGACTCTAAAACTCAGTTTAGACCTTCTGATCTTTCTCCAAACACATATCACCAACCATGTGATTAGGCATTTT
GTTAGGCCAGAGACAGGACAATAACTGTACTGTGTATCAAGCTCTACTTATGGTTTTATCAGGTCTCTCAAATGTTACATTTATTTGAAATATTAGAAGA
AATTGAACTATTTCTGMTCTTTGACATTAACAGGGGGAAAGAGAAGTTGTGTTTTGTAAAACAGGTGAAATAGAGAGAGAATGCTATCCAATTATTTCCC
AGATAACCCTGCAGCAATATTACCAGAGTATTTAAAGAAATTTGCTTAAGAAAATAATATTCACAGATAATTTAGCAGTTTAATTATTTTTCCAAATAAA
GCTCATTTATTCATTCATTTATTCAACAACTATTTATTGAACACCAACTGAGTGTCTTAACATTGTGGTGAGTACCAGGAAACAAAATGAAATAAGCCTC
TACCCTTAAGCAGTAAGGAATGCTAAGAAGGAAACAATTATAGTACAATGTGTGAAATACTTCAATAAAAATTTACACACATATTGTGGCAATGAAGAAG
AAAGAGGGAAAGCTTCTAGGAGACTGTGAATCCTAAGGGATAAGATAGAACAAAATCCTTTTGAGCTCTGTGCTTTTTTGCATAACTTGGTCTAAAAAAA
AAGCAAAGGTTTTAACATCTTCCTTATCTATGTGTTTTTGTCATTTTCRTAGGCAAACAACAATAAGCAGTGGCTAGAAATTGATCTACTCAAGATCAAG
AAGATAACGGCAATTATAACACAGGGCTGCAAGTCTCTGTCCTCTGAAATGTATGTAAAGAGCTATACCATCCACTACAGTGAGCAGGGAGTGGAATGGA
AACCATACAGGCTGAAATCCTCCATGGTGGACAAGGTAGAGTGGCATCTGGGCAAAGAGAAAGCAATCTGAAGACTGTGCTATAATGAGAATAACAGTAT
TTTGCATTTGACAAATATGCAGTGACATGTACCACCTCTTTAAGTCTTCTAAATCTTAGTTCTTMAGGTGCCTGGTCTCAGACAAACTCCTGGTTGTCTG
TTTTGGTTTGTTTTATTTCTCACTACACCAGGTTGCCCTCATAGGAGGATAAATATCATTGTCATAAAAAAAAGAGTGATTTTATTTCTGGTGTGTGTAA
ACCTTGGGGAACTTGCTGATGATGGAAGGGGGAAAGTTATACACTTTAGTTGAGGATATAAGGTACATGCCAACAAGAATAAATAAATTAAAATGCATGG
TCACATTTTAAATGTTAGCAATAGTCAAACATTTATTGGTGGCCACTTCCTGGCACTTACTATGCACTTACGTTGACATACATTTTTAAATATTTACAAT
GACTTCTGTGAGGTAAAATGTTATTATCCTTATTTTGCCAATGAGGAAATGAAGAATCAGAGAATAAGTAACTTGTTCAGTCATACAGCTAATACAGACG
GGCTGAAGGCAGAAATGGTTTTGCAGCTGCTCCACAGCACCATGTGAGACTTGTTTATTTTTCACTAATTTAAGTCAGATCACTGGTGAGATGAAATCTA
TCTGGCATGTGATTTCATAACTGATAGAGGATCATCTCTGTGAGAGTGTTCTATGTGTTCTTTGATATGCTCATTTTGAGCTAATAGGATAAAAAATTTT
CTGGGTTGGGCATGATGGCTCATGTCTGCAATGCCAGCACTTTGGAAGGCTGAGGCAAGAGGATTACTTGARAGGAGTTTAAGGCTGCAGTGAGCCATGA
CTGTGCCACTGGACTCAAGCCTGGGCAACAGAATAAGACCCTGTCTAAAAAAAMACAAAAACAAAAAACCTTAGCCATTTATGTTGTCATTAAAGATTTT
CTCTTATTTGGCTTTCAGATTTTTGAAGGAAATACTAATACCAAAGGACATGTGAAGAACTTTTTCAACCCCCCAATCATTTCCAGGTTTATCCGTGTCA
TTCCTAAAACATGGAATCAAAGTATTGCACTTCGCCTGGAACTCTTTGGCTGTGRTATTTACTAGAATTGAACATTCAAAAACCCCTGGAAGAGACTCTT
TAAGACCTCAAACCATTTAGAATGGGCAATGTATTTTACGCTGTGTTAAATGTTAACAGTTTTCCACTATTTCTCTTTCTTTTCTATTAGTGAATAAAAT
TTTATACAAGAAGCTTTTATAATGTAACTCCTTGCTACCAGTAAGTAAGATAATGGCTATTACTTCTGCATTAATTTGAATACAGGTAGGAAAATATCAA
GAACCAACAAGAAAAGGGCTTATCTTTCTTAATGATTGAAAATGCTATGAAGTAATATTTATGTAGTTAAAATGCTTCATTATAACTCTTTTAAATCCTT
TACACACTAGTAAAACAGATATTACTTTAAATAATAATTGATAGACCTGGATAACTTTCACAAACACATGATTTTTTAATGGTTTTTCTTGAGTGAAGAG
AAAAACAATATTATCAAATGAAATAAGTACTTAAAATATCCTGTCTTTCCCATATAACAATGATTTTTCTGACTTTCCATGAGTAAAAAAACAGCCAAGC
ATCTTTCCAGTAGCCCCATTGAAATTGTGAATCCGTCCTGGTCTCCCTAAGGACTGCACACATTGATATTCAAGGTTGGTGGTCATTAGATATGGAACAG
AACTGAAATAACCATGGTAGAACTGAATGTGTAATGTTGGCTTTATTCTAGCTGGTACTACATGGCACACAGTTTCAAAACATAATTTCACCTACTGGAA
AGCTCAGACCTGTAAAACAGAGCATGGGAACTGCTGGTCTAAATGCAGTTGTTCCTGCTCAAAGAGACCTCTGGCCAAACTGGCAAGCAGTTAAAGTTTT
CTTTCAGGGCCTTCCTCTCTATGGCCTCAACTTCCTCCTCTCTCTTCTTCCAGCAACTTCCCCTTTCATCATTCCTTTCCCTGGGGACTTGGCATTCAGT
GATCCTGTAGATATTGCACAACTGGGGAACCTTTAGACATCCTTAAAATCACATGAGATAGACAGTCATTTGGGGTGTCTGAAATAAACCACCCCAAAAC
TTAGTGTTAAAAGAGCAACCAAAAAAAATTTATGTGAGATTATGGATTTGTTACTTAGCTTGATTTAATCATCCTGTAATGTGTACATATATCAAAATGT
TATGTATACCATAAATATATAAAATTTTATCAACGAAATTCATAACAATCTCTCAGACCACAGAGAAATCAAATTAGAACTGAGGACTAAGAAACTCACT
CGAAACCACACAACTACATGGAAACTGAACAACCTGCTCCTGAATGACTACKGGGTAAATAATGAAATTAAGGCAGAAATAAATAAGTTCCTTAAAACCA
ATGAGAACAAAGAGACAACATACCAGAATCTCTAGGAGACAGGGCTTTGCTTTTGCTGCATTCTATTCGTTGTGAACACAAATTACAGGCCAGTCTCGAT
TCAGTGTAGAAGGGAACTGCATAAGGACCACATACCAGGAGGCATAATTCACTGGGAGCATCTTTAGAAACTACCAGAGTTACCTGTTGCCCATACCAGT
GGGGTAAGCCCTATGAATGTATATGAGAGTTTCAAACATCCACAAAACATTGGCTTTCTAATATTYGTATTCCCACTATTCCTTTCTTTTCATGATTCAT
GTCATTGTCCCATCAACATTTCTAAGATTTCCATTCCGTTAAGAGCAAAAGAGAATGTTGGAAGGTGGGGGAAAACATTTCTTTGTTTTCTACAGGGCCA
GCTTCTTGGATGTGTGTGATCTGTTCAGTTGCAAAGGGTCACATGCTCAGAAGGACCGCATGCTAAATTTAATGCTTTGCAGTTACCCTCTTGAAATCCT
TTATTTTTTAAGAAGGAATTCGACATTTCCATTTTTCAATGAGCCCCACAAATTACGCAGCTAGTCCTGGGCTTCTCTACTCTGAAATTGGGCAGGATCT
CTCTTGATCTAGAATTTACTAAGGCATAATAGGGGCAAGAAAATCTTATGAAATAATGGGGGGTAGGGAAGAGATGGGAATGGAGCATGAGATCCAGCTT
CGTTATTCTCTACTTGAGAAAAATAAGGCCCCAAAGATTAAACAACTTGCCCAAGGATATTGCTTGTTAGTGTCAGAACTGAAACCAGAAACCAAATGAT
CATATCCCTAGACTTTTAGTCTGCTTTCTCTTCCATAAAATGAAACTTATAATGTTTCTAATCCATTGCTCAGACAGGTAGACATGAATATTAATTGATA
ATGACTATTAATTGATCTGGAAAATACTTGTTTGGGGATCAATAATATGTTTGGGCTATTATCTAATGCTGTGTAGAAATATTAAAACCCCTCTTATTTT
GAAATAAAAAAGATACCCACTTTTTATTTCTCTCTCTGAACTCACTTAGATGAAATTACAAGTTTGACTACATAGTACGTCTCCAGTGACATAATCCACT
GTTTGTTACAACTGGGTGCTTTGGAAAGAAGTTAAATGACTCACGGTAGAATCATGACTTAAGAGAAACCAACAGATAAAATTCTAAACATTATTAGTCA
TTCTAATTGCAATTTGGAAAAGAATAGCTGTGAATGTATCAAAAATATGAAAGGACTAGAAGAAACATGAAATTATTTCTCCAGAATTCTTTCAAGTTAT
TAAAAGAAATAACAAACTTCATGCCATTTTTATAATCATTTTGAATAAACACCATATTTTGAGTTCAGGGCCATTTTGGCAAACCCAGGGAAAAGCTCTT
GCCAAATAGCTTGGATGTTCCCAAGAGCCATGAATATTTCACCATTTACTTCTCTGGACAGACCAGGAAGGAACAATTTACTAGGCAGTGAATTTTGGTT
TTACGAAATATTGGCACATGCCCCAATGCAGTGGGCCTAACACATACTTAAAAATATCTGATAGCTCCATGTTAGCATTTTTCTTGTTTTATATTTCCTA
ATGGAGAAGTATTTTATGGAAAATTCTGAATGCCTAATTCTCCCAAGTTCATATATTCTCATAGCCTAGAGATAGGGAAAGCTGTAGACAAAGACAAAAT
GATTATGTGTGGAATAATATTTACATGGTCAATGCCCAGATAACAAGGTTTTTCATATCCAAGTACTTAAATTGTTGGGAGAGACTACAGAGCTTTAAGA
TTTTATTATCTCTGGCTTGTATGAACTGTCCCCACCAAAACATATACATGTATTTTGCATTTGGTACATGTAAAGAAAACTTGATATTAACCTCTCTACA
TGTACCATCATTTTAATTTTTTAAAAAGTATTAAGCTCATTCTATCGACACAGCAAACCACTATGACAGGCATTGTAGGGGAGAGTATATAAAGGAAATA
AAAGACACTTCTCTGGCTTATTCAAATACATCATCTAGTTGCATAGAGAAGACAAACATAAGAAGCAAATAGACACTATGAGCCTATTAAGCCTAACAGA
TTACACCCTGAGTAGTAAAGAAAAAGACAATTAGATGAGTAGCCTTGTGGGATGGAATCAGACTGTGAAAACTTTTGGAGATGATTTAACCTAGGTCATC
TGATATTAGATGTGTATGAAGGCAACCTGTGCAGAACTCCAAAGAAGAGAGGACTGGGATAAGGATCAATAAAAACCAGGATAAATAAGAGCTTTATGCT
CAAATTCAGGGCCCAGTTAAGCTTTCTCTGACATACCTACTCATTTTCCCTACCCTCTCTATATAGTCTAATAATGACTTATCCACCTCCCTCCATCTCC
TGTACCATGCCCATAAATCCAGTGTATGTGCAAGGTCAAAACAAATAAGAATTACCTGGGTAGAACTGATGATGTGAGGGTGGGGAAAGACACAAAAACA
GATACAATACATATCCCTAATCTCCAAATCGTGAATTACAGATGGTAGTGACCAGATTAAAAGTGGGTCACCTTTGGAAATATTATAGAAGACGCCCATG
AGGAACAGGATTCTGACTTGCTTAGGGTGATAGGAGAATGACACTGGAGTGGGGAGAAGACGGGTAAAAGTATGTTGTATGTGAGAAATTGACTAATGGA
GAGATGAGACAATCATTGAGGATGTTTGGACAATGACAAGAGTTCAAAGTTCTTATGCGATGGTTTTATTTTTACCACTGGTCCACATCTAAACCACTTC
TACCTCATCTGTACTTTCATGTTTTACACTTAGAAGAAGCTTCTCAATGTCTTAGGAATGGTGTGCAGTTAATTTCATACCCCACCTGCTTTTTATTGAC
AGGAAATTTGGTAATGGCTTTACCGTCTTAGTTATCTCCACCTTGTATTGAAGTTCCTTCCTGCTGATTAAAAAGACTTTCTGAAAGTCTGGAATGTGGC
AACCTTGTTTACAGATGTGACAAGTAAAAATGTTTAAAAAGCTTTTCTTTTATGAATAGACTGGGAGAAATAGTGACAAAGGCTATAATTCTATGATTGC
AATAGTATTGGTACATAGTAAGCATTCTATCAGTATTTATTATTAGCATTATAATGAAAATATGATATACTATGAATATAATGGTATTAATTACTAATAT
TAATTTCTACTATTCTCTAATGCTTTTTAATACTGCTCATTACCTCTTTAGAAATTGTAGTAAAATACACATAAAAGTTACTCTTTAAGTGTACAATTCA
GCGGCATTAAGTACATTCTCATTGTTGTGCAGCCATCACCACCATCCACTGCTCATTACTTTTTATTGCAGCTCTATTTTCTACCCATACTTGATGCTCT
TCCCAGTAGGTGGCATGTCTGGTTCAACTGTACTTAGCCAGAGTTCTGAAGACATTCACATAGAGGTCAAGCTTTAATTATTCAGGCTAAACAAATAATT
GAACAGCTTGCATGGACTTTTTTCAGTGGGTTTAACTGACCTAATTATGTTTTTCTCAGGGRTAGGGACTATTGGCATTAGTTTACATCCTGAGCCCACA
GGCCTAGTATAGGATTCAGAAATTATCAAACTATCCACAAATTTGAAGATTTAAATAAAATCAAGTAAAAATTTTCTCTCCAAAAAAAAAATCAATTAGT
TGCCAATGAAGGAGTTTAAATGGGAGAGGTAAATAAATTGTGCCAGAAAATAAACTAGAAAGAACAGTCAGCATGCTAGGTTATAGTAGATATTGTGAAA
ACTGTACTTCTCTGCAATACACAAAGTAGGTTATTAAAAATTATTGGCTGGTGATGATAGTGTGGTTTCATATTTGCCAGCATTATGAATAATCTTCTCT
GCACTCCTAGCAGCTAGAATTTTAAATAAAAAGTTATCATATTTCTTCAGGTGGCAAAATAATTGTGAAACACAATGTTCTTGGCAGAAAATAAAACCCA
AATGACTAAATACAACATATTTTTAGGCATGTGTGAATGAATATATTTCTCTCTCATCTTGTCCCCCCAAGACTTAAGGCTGCTTAAAAAAAATAAAAAA
TACTACTAGATGACATATGTTAGAAGTAGGGAAGAAAGCAAAACCGGAGGTAGAAACATAAACAGGAAGCAGAAAAAAGCTAACAGGAAAATGCATATCA
TAAAGCTATCGACCTTGCTATGGGTGAACTTGGGTTTAAGTGAACTTTTTAAACAGCCAATGCACAAAAAAACCTTATCAGTTATACCATATGGTGTCCC
CAAAAAATGTACAAAAGGAGCACACTTTTATTGAGACTGAAGTTAAAAATAAACTTCTCCCAAAGGTCCGCAGAAAGAGGTCACTATGTAATGAGCAGAA
TGCCTCTAACAAGAGCACATTATATAGGCTGCTTTCTGTGCAGAAGGTGCTGAGGACTTCCCACCAAAGCACAGTTCAGTAAAAACAAGTCTTCAGAGGC
CACTGCTGTGTGGTCCATGTGCAGGGGCTCTTTGCTGGTCTGGCTTAAGCCAAAGGTAGATTTTACAGCCTCTAAAAATCATTTTCCTTCAGGCAAAGGC
TCATATCATAAATACTGTTTCTCTAAGGCATGATTTTGTTAGCTACTCTGTGACAATGAGCTCAAGATTGTGTATTCTGCAAGGTGTAACAACTGCATTT
TTACAAAATTGTTATGTTCTTGCACAAGATTCTATCATAAGCAAATGGCAATAGAAGGCAAATGTTTCAGAACAATTAATGCAAAAAAACGTAAATAGAG
AAAATTATT


SNP Information

Context             (SEQ ID NO:45662):
GTTCCATCAGGCACTGGTATAAAAAATTGTATCCATATTATAATAGTTGTTGGTATGAGAACATTTTAAAATAATTTCAGACTTTTCATGGTTCACATTT
A
AATATCTTTCCTTCTACATGTTCCAGCCATCATACCTTTGAGAGAATAATTGAGTAGGAGAGTGGTTTATGTGCAGGTTTTAGAACTAGACTAATAAGTG
Celera SNP ID:            hCV27242885
SNP Position Genomic:     21517
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45663):
AATCTGAAGACTGTGCTATAATGAGAATAACAGTATTTTGCATTTGACAAATATGCAGTGACATGTACCACCTCTTTAAGTCTTCTAAATCTTAGTTCTT
M
AGGTGCCTGGTCTCAGACAAACTCCTGGTTGTCTGTTTTGGTTTGTTTTATTTCTCACTACACCAGGTTGCCCTCATAGGAGGATAAATATCATTGTCAT
Celera SNP ID:            hCV27490260
SNP Position Genomic:     77265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45664):
AGTTCCATCAGGCACTGGTATAAAAAATTGTATCCATATTATAATAGTTGTTGGTATGAGAACATTTTAAAATAATTTCAGACTTTTCATGGTTCACATT
T
AAATATCTTTCCTTCTACATGTTCCAGCCATCATACCTTTGAGAGAATAATTGAGTAGGAGAGTGGTTTATGTGCAGGTTTTAGAACTAGACTAATAAGT
Celera SNP ID:            hCV27242886
SNP Position Genomic:     21516
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45665):
GAGTTCCATCAGGCACTGGTATAAAAAATTGTATCCATATTATAATAGTTGTTGGTATGAGAACATTTTAAAATAATTTCAGACTTTTCATGGTTCACAT
T
TAAATATCTTTCCTTCTACATGTTCCAGCCATCATACCTTTGAGAGAATAATTGAGTAGGAGAGTGGTTTATGTGCAGGTTTTAGAACTAGACTAATAAG
Celera SNP ID:            hCV27242887
SNP Position Genomic:     21515
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45666):
AGAGTTCCATCAGGCACTGGTATAAAAAATTGTATCCATATTATAATAGTTGTTGGTATGAGAACATTTTAAAATAATTTCAGACTTTTCATGGTTCACA
T
TTAAATATCTTTCCTTCTACATGTTCCAGCCATCATACCTTTGAGAGAATAATTGAGTAGGAGAGTGGTTTATGTGCAGGTTTTAGAACTAGACTAATAA
Celera SNP ID:            hCV27242888
SNP Position Genomic:     21514
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45667):
GAGGAAAAGGGTGAGAGAGTAGGACTAATGGAAGGTGTTATAGTCCATGTCAATAGTATCCTAGACTGAGTTCAGGGTGAATATATGGCTAGGACAGAAA
S
AAGGCAAGTAATCCAAAGATGGATTGACACATCAAAGTAGAGCAAAATGAGTATAGGGACCCAAGAGTCTTGGAAAGGCATGCATGAAGACATTTCAAGT
Celera SNP ID:            hCV27478370
SNP Position Genomic:     46523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45668):
TGATATCTGTGTCTTGAAACTCATTCTGGCCCAATATGGAATCACAGAATGTTACAGTAGCAAGGAGCAAAGCATCTGGTCTAGATTTTTCCTTTTAATT
S
TAAATACACAGGAGATTAAATAATTTTAGCTTAGTTTGGTAGCAGAATCAGGACTAGAATCCCATTCTCCCAGTAAACAGGCCATGCTCCTTCCACCATT
Celera SNP ID:            hCV328321
SNP Position Genomic:     75316
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45669):
AAGCTTGTTTCATGGAGAATTTAATATTATTCTTTTCTTTTAGTTATATTCTCATATTTTAAATATATGAGTTGCATATGAATGTGATGTCACAAAATTA
S
TTCTATAATATATAGCCATCTGCTGGTAAGCCAGCTCTCCAAATAAAACACGTTTTCTGCCAGACATTGTTCGTTGTATCTAAGTGTTGCCAAATTCTCT
Celera SNP ID:            hCV16191207
SNP Position Genomic:     23213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45670):
GCTTGAACCCAGGAGGCGGAGGTTGCAGTGGGTCCTGAGATTGCATCACTGCACTCCAGCCTAGGAGACAGAGCGAGACTCCATCTCAAAAAAAAAAAGA
A
AAATGCTCCAGTGATGTCCCATTTCACTTAGAAGAAAATTCAAGTTCTTACCGTAGCCCATAGGGCCTCCCTTGTTCTACACACCTACCATCCACCTCAT
Celera SNP ID:            hCV27242893
SNP Position Genomic:     19621
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45671):
GTAAAAATGCTTGTAAGGACATTTCCTTTAATAATGTATTTAATAAGACTGTCTTAGATCAGGGAATAAAGTATCTGCAACTGTAACTAATCACTTAAAA
R
CTGTCACTAAAGGGTTTCAATTTGAGGTTAAATTTTCAGAAACTCTGTAACTAGCATGCATCAAATTGACTTCAATGCTGCACCTTTGAGCAAAGTTTGT
Celera SNP ID:            hCV16191208
SNP Position Genomic:     22967
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,472|G,1011)   total(G,1011|A,472)   (A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45672):
TGCTTGAACCCAGGAGGCGGAGGTTGCAGTGGGTCCTGAGATTGCATCACTGCACTCCAGCCTAGGAGACAGAGCGAGACTCCATCTCAAAAAAAAAAAG
A
AAAATGCTCCAGTGATGTCCCATTTCACTTAGAAGAAAATTCAAGTTCTTACCGTAGCCCATAGGGCCTCCCTTGTTCTACACACCTACCATCCACCTCA
Celera SNP ID:            hCV27242894
SNP Position Genomic:     19620
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45673):
TTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGGGTCCTGAGATTGCATCACTGCACTCCAGCCTAGGAGACAGAGCGAGACTCCATCTCAAAAAAAAAAA
G
AAAAATGCTCCAGTGATGTCCCATTTCACTTAGAAGAAAATTCAAGTTCTTACCGTAGCCCATAGGGCCTCCCTTGTTCTACACACCTACCATCCACCTC
Celera SNP ID:            hCV27242895
SNP Position Genomic:     19619
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45674):
TTTATTGGCCTTTTACCCCATCATGTAAAACATTTCAGGCTTTTTTCCCCAGATCCTTGTTGTCTGCCTACATCCACACTGATGTTCTCACCTTCTTCTC
K
TAAAGAATTTATCAAGTTATTGTACCAAACAAAAATAACTGCATCCCAAAGAGAAATTCTGTCACCAGCTGATGATAGGGAATCTTTCACCTAATTAAAT
Celera SNP ID:            hCV27478377
SNP Position Genomic:     30828
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,477|G,1024)   total(G,1024|T,477) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45675):
GAGTGCCTATTACTAGAATATTACCAACTTTTAGATTGGAAATATTCAACTCTAAGAACTCTGATGTGACAAAGGCATAATTTGTAGCCATAATTGCTTT
Y
ATTCCGGCCCATGGTCTGATTGCATTGAAAACACATCAGTCAGATCAAAAGCATTCCTGTCAATTGGGAAACCTGTGTAAAGCATCCTTCTTCATGACTT
Celera SNP ID:            hCV25921847
SNP Position Genomic:     66818
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,2)   total(C,1|T,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:45676):
CATGAAAATCTGATCGAGGATTTCAACTCGGGGCTGATTGGGCCCCTGCTTATCTGTAAAAAAGGTAAGAACACCCCCACCAAAAGATTCAACAACTAAA
Y
GTTGGAATGGTCAGGAGTTCTGTCATGGGACAAAGCTTGGGAGCATCTTGGTAACTTCTTGTACATCAAGCAGAGGAAGACGGCACGGAGACCAGATCAT
Celera SNP ID:            hCV16141162
SNP Position Genomic:     32054
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,34)   total(C,3|T,67)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45677):
TTCATGGTATAACCTTGTCACTCCATACTTCATTTTACAATCTTTTAAAAAAATTTGCACTCTCTATAATTTGCTCTTAGTCTTTGTGATATAACAAGGG
Y
CTCAAAGATAAAATGCTAATTTTTAATGGTGTCATTTCAAAGTTAGAATTCGGGATCAGAAATATGTGTTTTACTTAACCCCCTTCCATTCACATGAAAT
Celera SNP ID:            hCV15852040
SNP Position Genomic:     75689
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45678):
AAACTCTCAGTGTGATCTAGACCAAGAATGGTTCTGCCAATCAGAGTGCCGACAGCATCTCTGTGAAGAAAGTGCCTGGATTATATAGACACATCACAAC
Y
CTCCAAGGAAGGGCTCTAATTTGGAATTACCTCCATCAGCCCATTTTCAATAAGACCTACCTGAGATTCAAACTAGGCCTGACTCTTCCAAAGTCCTCAG
Celera SNP ID:            hCV15852041
SNP Position Genomic:     72305
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   JBIC-allele(C,348|T,1135)   total(C,348|T,1135) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45679):
TCAAACATTCCCCATTCAAGACCCTGATCAAATGCACTCTACTTCAGACCCCAGTCACAGATCCTCTTCTCCAGAGCTCAGTGAAATGCTTGAGTATGAC
Y
GAAGTCACAAGTCCTTCCCCACAGATATAAGTCAAATGTCCCCTTCCTCAGAACATGAAGTCTGGCAGACAGTCATCTCTCCAGACCTCAGCCAGGTGAC
Celera SNP ID:            hCV27540523
SNP Position Genomic:     50972
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:45680):
AGAGGTCAAGCTTTAATTATTCAGGCTAAACAAATAATTGAACAGCTTGCATGGACTTTTTTCAGTGGGTTTAACTGACCTAATTATGTTTTTCTCAGGG
R
TAGGGACTATTGGCATTAGTTTACATCCTGAGCCCACAGGCCTAGTATAGGATTCAGAAATTATCAAACTATCCACAAATTTGAAGATTTAAATAAAATC
Celera SNP ID:            hCV8919424
SNP Position Genomic:     83162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:45681):
AGCAATAAATCTAAGGCTTGGCTGATCCAGGCCCCACTTGGCTGCTGAAGGGCTGGAGGTGGGAAGAGGGATCAATAAATAGGTGCACTAGAAACCTGCC
R
TGGCACACCTGTCAGGAGTTGCAGTACTTCCCTTTGGGTGGAGAGAAGCCACCATGATTCACAATGGAGAAAGTAGCTGAAACCTGGAATCAGTTTCCTG
Celera SNP ID:            hCV27480803
SNP Position Genomic:     72890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45682):
CTCTGCGTGGTGAGGAAAAGGGTGAGAGAGTAGGACTAATGGAAGGTGTTATAGTCCATGTCAATAGTATCCTAGACTGAGTTCAGGGTGAATATATGGC
Y
AGGACAGAAAGAAGGCAAGTAATCCAAAGATGGATTGACACATCAAAGTAGAGCAAAATGAGTATAGGGACCCAAGAGTCTTGGAAAGGCATGCATGAAG
Celera SNP ID:            hCV27480804
SNP Position Genomic:     46512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45683):
TTTTGAGTTAATTTTTGTATATGATGAATCCAGTTTCATTGGATTCATTGGGGTTCAGTTTCATTCTTCCACATATGGGTAGCCGGCTATTCCAGCACCA
Y
TTATTAAATATGAGTCCTTTTCCCCTTGTTTTTTGTTGTTGTTGTTGCTGTTGTTGTTGACTTTGTCAAAGTTCAGGTGGTTGTAAGTGTGTGGCTTTAT
Celera SNP ID:            hCV24197
SNP Position Genomic:     59416
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45684):
CTCTTTAGACTTGTTCATGGTATAACCTTGTCACTCCATACTTCATTTTACAATCTTTTAAAAAAATTTGCACTCTCTATAATTTGCTCTTAGTCTTTGT
S
ATATAACAAGGGCCTCAAAGATAAAATGCTAATTTTTAATGGTGTCATTTCAAAGTTAGAATTCGGGATCAGAAATATGTGTTTTACTTAACCCCCTTCC
Celera SNP ID:            hCV8919430
SNP Position Genomic:     75676
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45685):
GTAGAATTTTTAGTTCTTTTCAGTGACTTAGGCTCCTAGGAAAACCTTTGTGAAACAGAGGTTCTACTCAGGTAAACTCTCAGTGTGATCTAGACCAAGA
R
TGGTTCTGCCAATCAGAGTGCCGACAGCATCTCTGTGAAGAAAGTGCCTGGATTATATAGACACATCACAACTCTCCAAGGAAGGGCTCTAATTTGGAAT
Celera SNP ID:            hCV15852051
SNP Position Genomic:     72232
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   JBIC-allele(G,342|A,1157)   total(G,342|A,1157) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45686):
TGTATTTATTTACAGCTTACTCAGTAATACAAAGGATCTGAGACAGTTTCTCAAGTTATAAAGGCATAAAACAAGGAGTCTATGTAATTGGGATAGAATA
Y
GCGGACAAAGAAAATAAAGCCACAGATAAGTAGATACCATGTGACCCTGTAAGGCTGTCTTCAAATTTTGTCCTAAGCTTTATGGCAGTCAGTGTAAAAA
Celera SNP ID:            hCV15852052
SNP Position Genomic:     40268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45687):
TGAAAAGAAGAGCTGGTACTATGAAAAGAAGTCCCGAAGTTCTTGGAGACTCACATCCTCAGAAATGAAAAAATCCCATGAGTTTCACGGTATTTTCCTC
R
GACTTTGATCTAATCTCCTAATTAAATCACACTGGGTCACAGTGATTTCTGCCCTTAGATATTCACAAGATTAGACATGAGATGCTTCTGAGACACCCAG
Celera SNP ID:            hCV8919431
SNP Position Genomic:     62985
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,26)   caucasian(A,1|G,31)   total(A,7|G,57)
SNP Type:                 INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Italian(A,6|G,294)      total(G,294|A,6) ;(G,-|A,-)   (A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45688):
CGTTGTTTATAAGCCACTCAATCCAGGGTACTTTGTTAACAGCAACCCAAACTAAGAAAATCACCAATTTCTATCTTACTCACATGTGTTACCAGAACTC
R
AGCACACTTAAGATCTATCTTATCTAAAGTAGAACATAAAGGAAAGAGGCTGTATTAATTGCAACATGACTGGGAAAGAAAATACTTAACCAAAATGTGA
Celera SNP ID:            hCV15852053
SNP Position Genomic:     25642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45689):
ACAGAAGATGGCATTTATTTGAAATTTTCTTGAACAAGTATTAGCTATGTTCTGCTCTTTCTTTATGAAAAGAACTGCAAAGTCAAGACTCCTTTATCTG
W
CATTCTGCAATGTATATATACTTCAAAACAATATGTCATACACAGTATATGCATACAATTTTATCTGTCAATTAAAAAGAGAAACAACTCCTCCATTTCA
Celera SNP ID:            hCV8919436
SNP Position Genomic:     62160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,4)      total(A,4|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45690):
GAATCACTTGAACCCAGGAGGTGGAGGCTGCAGTGAGCTGACATCGCATCACTTCACTCCAACCTGGGTGACAGAGCGAAACTCTATCTCAAAAAAAAAA
M
AACAACAACAACAACAACAAAAAAGTATATTGAGAACCTACTACATTCTAGGCTCTGGGATAAAGTGAATAAGACATGGACCTTGATTTCCAGGAGCCAA
Celera SNP ID:            hCV341615
SNP Position Genomic:     12186
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45691):
TTGAATGATTGGCCATGAATTAGAATGCCTACATTTACAGAAGATGGCATTTATTTGAAATTTTCTTGAACAAGTATTAGCTATGTTCTGCTCTTTCTTT
R
TGAAAAGAACTGCAAAGTCAAGACTCCTTTATCTGACATTCTGCAATGTATATATACTTCAAAACAATATGTCATACACAGTATATGCATACAATTTTAT
Celera SNP ID:            hCV8919437
SNP Position Genomic:     62124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45692):
CAGGCAACATGTAACCTTTGGGGACTGGTATTTTTTCACTCAGTATAATTCTCTGGAGATTCATCTGGTTATTGCATGTATTCCATTATATGGGTGTACC
M
CAGTTTTTTTGTTGTTGTTGTTTTATACACATTTATGGTGTAAACATGATGTTTTAATATATTTATAAATTGTGAATTGGCTAAATCAAGCTAATTAACC
Celera SNP ID:            hCV8919438
SNP Position Genomic:     53975
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45693):
CCAAAGCTCTTTTGTAATCTTTCACAGATAATGCTTCCTGCTTATTAGTGGAGACTTTCTCCATAAACTTTTTTTCTTTTATAGACTAGAATTATGTTAT
M
ACTTACAGGAAGTGACTTAAGCTTTTATCATTTCTCAGCTCTTGACAGTTTTATTATCAAAGTGAAAGTACAGCCTAGAGTAAATATTAGTTATTAGTGT
Celera SNP ID:            hCV15955118
SNP Position Genomic:     26613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45694):
ATCCCATTATGCTGATGTTCAGATCATTGTAAGCATAGTAGAGTTCCATCAGGCACTGGTATAAAAAATTGTATCCATATTATAATAGTTGTTGGTATGA
K
AACATTTTAAAATAATTTCAGACTTTTCATGGTTCACATTTAAATATCTTTCCTTCTACATGTTCCAGCCATCATACCTTTGAGAGAATAATTGAGTAGG
Celera SNP ID:            hCV15852060
SNP Position Genomic:     21475
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45695):
GATGGCAATAATCATAAAGATAATAGTCATGCAAGTTATTGTATCAGCCGCTGAATAGTAAGTACCTGATGTTAATATGGTTCTAATTATCCCATTATGC
Y
GATGTTCAGATCATTGTAAGCATAGTAGAGTTCCATCAGGCACTGGTATAAAAAATTGTATCCATATTATAATAGTTGTTGGTATGAGAACATTTTAAAA
Celera SNP ID:            hCV15852061
SNP Position Genomic:     21387
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45696):
TGATCCCTTTTATGTGCTCTCAGCAAGTGTAGACATACCTTATTAAAAGTTCAGGATCTGGCTATTTGTCTGTGCCTCTCAAGCAAGTAGCTTTTCCCCC
Y
CACCAAGGGTCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCATGGCTCACTGCAACCTCCACTTCCTGGGCTCAGGCGATTCTCGCACCTCA
Celera SNP ID:            hCV337817
SNP Position Genomic:     41133
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45697):
AAACAGTACAGGAAAGCCTTATTATGATTATCATCACCACTGCAAACAAATGCTGGCTGAACTCCATGAGTGCCGTGACTTCCTTCTCCTGCTTCTAGGA
Y
GCCTAATGGCGAGAAGCCAATCCCATGACACTTGTGGATGGCTCAGAAATGACAGTAGTTGATTTCTGTCACTTGTCTGGAATGGGGCTTTTGGTCATAG
Celera SNP ID:            hCV15852062
SNP Position Genomic:     18059
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45698):
GAGACACCTAAGCCAAGACACTGGTTCTCCTTCCGGAATGAGGCCCTGGGAGGACCTTCCTAGCCAAGACACTGGTTCTCCTTCCAGAATGAGGCCCTGG
R
AGGACCCTCCTAGTGATCTGTTACTCTTAAAACAAAGTAACTCATCTAAGATTTTGGTTGGGAGATGGCATTTGGCTTCTGAGAAAGGTAGCTATGAAAT
Celera SNP ID:            hCV8919441
SNP Position Genomic:     50264
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,5|G,91)      total(G,91|A,5) ;(G,-|A,-)   WIAF-CSNP-P(1(A,11|G,97)   total(G,97|A,11)JBIG-allele(G,350|A,1125)   total(G,350|A,1125)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:45699):
TCTGAAGACCCTATAGAGGATCCTCTACAGCCAGATGTCACAGGGATACGTCTACTTTCACTTGGTGCTGGAGAATTCAAAAGTCAAGAACATGCTAAGC
R
TAAGGGACCCAAGGTAGAAAGAGATCAAGCAGCAAAGCACAGGTTCTCCTGGATGAAATTACTAGCACATAAAGTTGGGAGACACCTAAGCCAAGACACT
Celera SNP ID:            hCV8919442
SNP Position Genomic:     50085
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,1)   caucasian(A,25|G,3)   total(A,44|G,4)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)    ;(A,-|G,-)   JBIG-allele(G,350|A,1141)   total(G,350|A,1141)   WIAF-CSNP-P(1(G,34|A,72)   total(G,34|A,72) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:45700):
GCAGAGCATTCCAGCCCATATTCTGAAGACCCTATAGAGGATCCTCTACAGCCAGATGTCACAGGGATACGTCTACTTTCACTTGGTGCTGGAGAATTCA
R
AAGTCAAGAACATGCTAAGCATAAGGGACCCAAGGTAGAAAGAGATCAAGCAGCAAAGCACAGGTTCTCCTGGATGAAATTACTAGCACATAAAGTTGGG
Celera SNP ID:            hCV8919444
SNP Position Genomic:     50064
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)    ;(G,-|A,-)   WIAF-CSNP-P(1(G,34|A,70)   total(G,34|A,70)JBIG-allele(G,156|A,593)   total(G,156|A,593)   (A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:45701):
AGTAAGTTCACTGTCAATAACCTTGCAGAACCTCAGAAAGCCCCTTCTCACCAACAAGCCACCACAGCTGGTTCCCCACTGAGACACCTCATTGGCAAGA
M
CTCAGTTCTCAATTCTTCCACAGCAGAGCATTCCAGCCCATATTCTGAAGACCCTATAGAGGATCCTCTACAGCCAGATGTCACAGGGATACGTCTACTT
Celera SNP ID:            hCV8919445
SNP Position Genomic:     49941
SNP Source:               Applera
Population(Allele,Count): african american(A,26)   caucasian(A,35|C,3)   total(A,61|C,3)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|A,9)      total(A,9|C,2) ;Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(C,5|A,91)      total(A,91|C,5);(C,-|A,-)   (A,-|C,-)   WIAF-CSNP-P(1(C,11|A,97)   total(C,11|A,97) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:45702):
TAGGAATCAGGTCATTCCGAAACTCATCATTGAATCAGGAAGAAGAAGAGTTCAATCTTACTGCCCTAGCTCTGGAGAATGGCACTGAATTCGTTTCTTC
R
AACACAGATATAATTGTTGGTTCAAATTATTCTTCCCCAAGTAATATTAGTAAGTTCACTGTCAATAACCTTGCAGAACCTCAGAAAGCCCCTTCTCACC
Celera SNP ID:            hCV8919446
SNP Position Genomic:     49792
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,4)   caucasian(A,30|G,8)   total(A,56|G,12)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)    ;(A,-|G,-)   WIAF-CSNP-P(1(G,34|A,72)   total(G,34|A,72) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45703):
TGGCTGCAGCATTAGGAATCAGGTCATTCCGAAACTCATCATTGAATCAGGAAGAAGAAGAGTTCAATCTTACTGCCCTAGCTCTGGAGAATGGCACTGA
R
TTCGTTTCTTCAAACACAGATATAATTGTTGGTTCAAATTATTCTTCCCCAAGTAATATTAGTAAGTTCACTGTCAATAACCTTGCAGAACCTCAGAAAG
Celera SNP ID:            hCV8919449
SNP Position Genomic:     49780
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,37|G,3)   total(A,71|G,3)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,14)   caucasian(A,35|G,3)   total(A,49|G,3)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,5|A,91)      total(G,5|A,91);(G,-|A,-)   WIAF-GSNP-P(1(G,11|A,97)   total(G,11|A,97)JBIC-allele(G,129|A,1360)   total(G,129|A,1360)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45704):
ATATTTAAGTCAGGGCCACACAAGGTAGGTAAAAATATCTAATTATTGAGTCAGAAACATAATCCCTAACCATGGAGTTTTACTTTATTGTATATATTTT
R
TAAGCAAAAATTATTCATTTTTTTTCTGTTTTTCATAGACTGTAGGATGCCAATGGGACTAAGCACTGGTATCATATCTGATTCACAGATCAAGGCTTCA
Celera SNP ID:            hCV11975200
SNP Position Genomic:     67634
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45705):
ACCACTCGCCCTCTCTGTGTCAACAGATTTTTAATTGATTTCAACTCTTTGTCCTTTCAGCCATTAATGGGATGATCTACAGCTTGCCTGGCCTGAAAAT
R
TATGAGCAAGAGTGGGTGAGGTTACACCTGCTGAACATAGGCGGCTCCCAAGACATTCACGTGGTTCACTTTCACGGCCAGACCTTGCTGGAAAATGGCA
Celera SNP ID:            hCV11975201
SNP Position Genomic:     64527
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)    ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45706):
ACTTACAGTGCTTGAATGTATTAAGGGAAACAGTACAGGAAAGCCTTATTATGATTATCATCACCACTGCAAACAAATGCTGGCTGAACTCCATGAGTGC
Y
GTGACTTCCTTCTCCTGCTTCTAGGACGCCTAATGGCGAGAAGCCAATCCCATGACACTTGTGGATGGCTCAGAAATGACAGTAGTTGATTTCTGTCACT
Celera SNP ID:            hCV15852071
SNP Position Genomic:     18032
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45707):
GTTTAGAACCTGAAGATGAAGAGAGTGATGCTGACTATGATTACCAGAACAGACTGGCTGCAGCATTAGGAATCAGGTCATTCCGAAACTCATCATTGAA
Y
CAGGAAGAAGAAGAGTTCAATCTTACTGCCCTAGCTCTGGAGAATGGCACTGAATTCGTTTCTTCAAACACAGATATAATTGTTGGTTCAAATTATTCTT
Celera SNP ID:            hCV8919450
SNP Position Genomic:     49726
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,29)   caucasian(C,8|T,32)   total(C,13|T,61)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)    ;WIAF-CSNP-P(1(C,34|T,72)   total(C,34|T,72)   (C,-|T,-)   JBIC-allele(C,337|T,1154)   total(C,337|T,1154)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45708):
TCATGGCTACACGGAAAATGCATGATCGTTTAGAACCTGAAGATGAAGAGAGTGATGCTGACTATGATTACCAGAACAGACTGGCTGCAGCATTAGGAAT
Y
AGGTCATTCCGAAACTCATCATTGAATCAGGAAGAAGAAGAGTTCAATCTTACTGCCCTAGCTCTGGAGAATGGCACTGAATTCGTTTCTTCAAACACAG
Celera SNP ID:            hCV8919451
SNP Position Genomic:     49699
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,5)   caucasian(C,32|T,8)   total(C,59|T,13)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,5|C,90)      total(C,90|T,5) ;WIAF-CSNP-P(1(T,11|C,95)   total(C,95|T,11)   (C,-|T,-)   (T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45709):
AAAAGATGAATTTCTTATATTATGCTTTTCCTCCAAGTGGAATTATTAGAATATCTTTAAAGGCAGAGAATGGAGCACAAAATATTTACTATACATTTGA
Y
GAATGACTAAATCAATGTAAATGGAAGGCTTTATCTTTTTCCTGAGATTTCTCCTTTGGCTAATTTAGGAGAATAATCTCTCATTTGAAAATTCTGAGTT
Celera SNP ID:            hCV8919452
SNP Position Genomic:     47813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45710):
CAGAAAATTACTCTCAGCTTTCTTTGCATAACTTCCTTTTGGCAGTGAATCTATCATAGTTCTAGACCAGTGCTGTCCAATAGAAACTACGTATGAGCTA
Y
ATGCGTAATTTAAAATTTTCTGATAGCAACATTAAAAAGTAAAGAGAAATAGGTGACATTAATTTTAGTAATATGTTTTACTTAACTCAGTATATCCTGA
Celera SNP ID:            hCV8919453
SNP Position Genomic:     47040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45711):
GTGAGGACAGTGGACCCACCCATGATGACCCTCCATGCCTCACACACATCTATTACTCCCATGAAAATCTGATCGAGGATTTCAACTCGGGGCTGATTGG
S
CCCCTGCTTATCTGTAAAAAAGGTAAGAACACCCCCACCAAAAGATTCAACAACTAAATGTTGGAATGGTCAGGAGTTCTGTCATGGGACAAAGCTTGGG
Celera SNP ID:            hCV8919457
SNP Position Genomic:     31995
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,33)   caucasian(G,38)   total(C,3|G,71)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45712):
AATAGTGGCAAGAGAGCATTTGGGTGGTCACACTGGGAAAAGTGTGCCTATTTGGAAATTCACAAGGAAAATTTGCCCTGTAAGCTAGTAACTGAAACAG
R
AACTGAGAAGAGAAAGGTACGAGCTTGTGTTATGAATATGTAGATAGGTGTTCTCACGCCTGATATAATTTGAAGGATGCCCAAATGATCTCAACCCGTC
Celera SNP ID:            hCV29397251
SNP Position Genomic:     63580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45713):
TCCAGGGCATTGTCATCTGAACCCACTTAGACTTTGTATATAGCACCTGTTGTCTCCAGATTTGTAGTGTGGATGCCCATGTGCATGTCTGTTTCAGCAG
K
AGCTTAAAAGCTTCTTATGAACAAGAATCAAGCTTCTTTCATCTTCACATCTCCACTACCTATCACTCTCATTTCATTAGTAGATAATGTCAGTACTTTA
Celera SNP ID:            hCV29397252
SNP Position Genomic:     61229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45714):
TATAATCAGATATATTTAAGTCAGGGCCACACAAGGTAGGTAAAAATATCTAATTATTGAGTCAGAAACATAATCCCTAACCATGGAGTTTTACTTTATT
R
TATATATTTTCTAAGCAAAAATTATTCATTTTTTTTCTGTTTTTCATAGACTGTAGGATGCCAATGGGACTAAGCACTGGTATCATATCTGATTCACAGA
Celera SNP ID:            hCV22274637
SNP Position Genomic:     67623
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,13)   caucasian(A,5|G,15)   total(A,12|G,28)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,21)   caucasian(A,3|G,23)   total(A,8|G,44)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;JBIC-allele(G,127|A,1346)   total(G,127|A,1346)
SNP Type:                 INTRON


Context             (SEQ ID NO:45715):
ATTAATCTGATGCCTGACATCTCCACATTAGAACTCTGTTTAAAACACCTTTTCCTATGACTTCCTATTTAAATGTTGCACTCAATACCACATGAGAACA
A
CTAGCTACCTGAGTATTTCTAAGCAAGGCCCCGAGGGAGTGAGATGCAGGGCCTGTCCAGAGTGAATAGGGATGGAACCACCTTCAAAATCTTGTATTCC
Celera SNP ID:            hCV15769021
SNP Position Genomic:     53112
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45716):
ACACGCCCCAACGCCTGGCTAATTTTTGTATTTTTTTGTAGAGATGAGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGTGATCCA
M
CTGCTTCAGCCTCCCAAAGTGCTGGGGTTACAGGTTTGAGCCACTGAACCTAGCTGAGAAGATGACTTCAAAGACAGTGTCCTAAAAAATCTACCGGGCA
Celera SNP ID:            hCV29397253
SNP Position Genomic:     41361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45717):
GATACTTGTACAGAGTCTTGAGAGTCACCAAATGTTTTCTTCCCAAGCTGGATGAAATAAAGCCTGTTCCCCAAAGCAAGAAGGTATCAAAGAAGACAGT
R
TGGCACCAGATTTTAAATAACCCTAGAACCATTATTACTTGATAAATATGCTATTTTAAAAAATAAGAATTTCTTCAAGTTGAAATCATTATGGTTGATT
Celera SNP ID:            hCV29397254
SNP Position Genomic:     33087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45718):
GCCCCCTTTCATATACAAATAAGATGACAGCATTAAACTTGGGGCATGATGCTTTTACCAACTGAGCTAACGTATCTATATACTCTTCTATTGAGACTGG
R
GGAAATGGATACTTGTACAGAGTCTTGAGAGTCACCAAATGTTTTCTTCCCAAGCTGGATGAAATAAAGCCTGTTCCCCAAAGCAAGAAGGTATCAAAGA
Celera SNP ID:            hCV29397255
SNP Position Genomic:     32979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45719):
ATAGTTAAAGTCCTGAATCTTGGGAAACCCCTCAGACCAGAACAGTCGGTTACCTTCTTGGTTCCCTTCTTGGCCTAATCCTTTAGCAATCCCTGTGTTT
Y
TGAGTTCACATCCACCATCTCTAAGCTCTGTTGTTACCTGTATAATGCCATTTATCACAATGAGTTGTCACTGCTTGTTTGCTGGTCACTCAGATGTCTG
Celera SNP ID:            hCV27886240
SNP Position Genomic:     35442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45720):
TAGTGAGAATGGATTAATGCTGATACTTCCACCCAATTATCTAATGCCCCCTTTCATATACAAATAAGATGACAGCATTAAACTTGGGGCATGATGCTTT
Y
ACCAACTGAGCTAACGTATCTATATACTCTTCTATTGAGACTGGGGGAAATGGATACTTGTACAGAGTCTTGAGAGTCACCAAATGTTTTCTTCCCAAGC
Celera SNP ID:            hCV29397256
SNP Position Genomic:     32934
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45721):
ACAAATAAGATTGAATAAAAAAGCAATGCTAAACTGTATGCAGAATTTAAGAAATCCACTTTAATGAGAGAGACAAAGATAGGTAAAAAATAAAGGATAG
R
AAATTATATACCATACCAGCTAACACTAATCCAACACAAAAGGGTGTGTAATGATGATTCCATTGATATGACATTACAGAAAAGCCAAATTATAGTGAAA
Celera SNP ID:            hCV27886241
SNP Position Genomic:     30238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45722):
CTACAGCCAGCAATTATTTATGAGCAATTGCTTAAAATGCTCCCACAGCTTTCACTGGAGACATGATTATTGGCATATAATATTGCCTCTGGTCCTATGA
M
TCTAAGAAAGGTAAATACATATTGGTAGGGAAAGTAAAATTTTACCTTGGAAATGAGATGCAAACCTAGTAAGCAGATAGTATCTTTTATGGTAAAAGAC
Celera SNP ID:            hCV29397257
SNP Position Genomic:     22461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45723):
GAACAGAGCATCAGTGAACTGTGGGACCATATCAAGTGATCTAACATATGTGTAATTGGATCCCAGAAGTAGCAGGAACAGAAAAAGTATTTGAAGAAAT
R
ATGACTGAAAAATTCCCAAATGTAATGTAAACTACAAACCAACAGATTCAAGATGTTTGACAAAACTAAGAAGAAGGAACATGAAGAAAACCACACCAAG
Celera SNP ID:            hCV27886242
SNP Position Genomic:     29176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45724):
ATTGCAATTCTGATGCCTAGGATAATATAGGCACTTGATATTCATTGAATAAATAAAGGAATGAATAAAGGAATGAATACAAGGTGGAGGTGTAGTATAA
W
GAAGTGGCTTAAAAGTCACGATCTAGAGACAGACATATTAAACTTTAAATCATGATGCTGTGTGATATTAGGCAAGATATTTAAACTCTCTGAGGCTCAG
Celera SNP ID:            hCV29397258
SNP Position Genomic:     17766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45725):
TCATCTCAAGATTCTTAATCATAGATACACAGTCCCTTTTGCCATATAAAGTAGCATATTTCCAGGTCCCAGAGATTAGGACGTGGACATCTCAGCAGGG
R
CACATTATTCTGCCTACTACACCCACCAAACAAAGCCCTCCCACGGTGTCCTCCATCTCAGAGAATGGCACCCTCCTCCACCCAGCTCCCCAAATCAGAA
Celera SNP ID:            hCV27886243
SNP Position Genomic:     16762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45726):
CTCCAGCCTAGGAGACAGAGCGAGACTCCATCTCAAAAAAAAAAAGAAAAATGCTCCAGTGATGTCCCATTTCACTTAGAAGAAAATTCAAGTTCTTACC
R
TAGCCCATAGGGCCTCCCTTGTTCTACACACCTACCATCCACCTCATCTCTTCTTTCTTCCCGTACTGTTTTTCTTACTGTTCCTTAGATACATCAAGAC
Celera SNP ID:            hCV11342103
SNP Position Genomic:     19674
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45727):
GACCTCTGTCCCAGAAATCAGAGTTTACCATTGCTTCTGTAACCAGTTACTGCAAACTTAGTGGCTAAAACAACACAAATTTATTCTTTTATGATTATAT
W
TCTGCAGATGAGAAGTCCAAAATGGGTTTTATTGGGCTAAAATCAAGGTGTTGGCAGAGCTGCATTCCTTCTGGAGGCTCTGGGGGAGAATTGTTTCCTT
Celera SNP ID:            hCV29397259
SNP Position Genomic:     16387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45728):
TCCTAACTCAGATTCTCCTGCATCCCTCTGATAAGGACCTTTGTTATTACATGGGATCCACCTGGACAGCCCAGAAGAATCTCATCTCAAGATTCTTAAT
M
ATAGATACACAGTCCCTTTTGCCATATAAAGTAGCATATTTCCAGGTCCCAGAGATTAGGACGTGGACATCTCAGCAGGGGCACATTATTCTGCCTACTA
Celera SNP ID:            hCV27886244
SNP Position Genomic:     16681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45729):
ACAGGACAGGGATTTTCACAGTGCTTTTCTATACAATGTCTGTAATCTATAGATAACATAACCGATTAGGTCACGGGTCGATCTTTAACTACCAGGTCCA
K
GGTGTGGCGCCGGGCTGTCTGCTTGTGGATTTCATTTCTGCCTTTTAGTTTTTACTTCTTCTTTCTTTGGAGGCAGAAATTGGGCATAAGACAATATGAG
Celera SNP ID:            hCV11342034
SNP Position Genomic:     58598
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45730):
CAACCATAATTTCTTCTCTTGAGTTATTTCATTGTCTTTCTGTCCTAACTCAGCTGGGATGCAGGCTTACATTGACATTAAAAACTGCCCAAAGAAAACC
R
GGAATCTTAAGAAAATAACTCGTGAGCAGAGGCGGCACATGAAGAGGTGGGAATACTTCATTGCTGCAGAGGAAGTCATTTGGGACTATGCACCTGTAAT
Celera SNP ID:            hCV27529390
SNP Position Genomic:     37283
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45731):
AAACACAGATATAATTGTTGGTTCAAATTATTCTTCCCCAAGTAATATTAGTAAGTTCACTGTCAATAACCTTGCAGAACCTCAGAAAGCCCCTTCTCAC
Y
AACAAGCCACCACAGCTGGTTCCCCACTGAGACACCTCATTGGCAAGAACTCAGTTCTCAATTCTTCCACAGCAGAGCATTCCAGCCCATATTCTGAAGA
Celera SNP ID:            hCV27531094
SNP Position Genomic:     49892
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:45732):
TGATGGCAATAATCATAAAGATAATAGTCATGCAAGTTATTGTATCAGCCGCTGAATAGTAAGTACCTGATGTTAATATGGTTCTAATTATCCCATTATG
M
TGATGTTCAGATCATTGTAAGCATAGTAGAGTTCCATCAGGCACTGGTATAAAAAATTGTATCCATATTATAATAGTTGTTGGTATGAGAACATTTTAAA
Celera SNP ID:            hCV8919460
SNP Position Genomic:     21386
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45733):
GACAATAACTGTACTGTGTATCAAGCTCTACTTATGGTTTTATCAGGTCTCTCAAATGTTACATTTATTTGAAATATTAGAAGAAATTGAACTATTTCTG
M
TCTTTGACATTAACAGGGGGAAAGAGAAGTTGTGTTTTGTAAAACAGGTGAAATAGAGAGAGAATGCTATCCAATTATTTCCCAGATAACCCTGCAGCAA
Celera SNP ID:            hCV2481727
SNP Position Genomic:     76417
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45734):
ATATTTGACTCATTTTTATTAATTCTTTAAATGACCTGAGATATCAGAATGGCATGAATAACTTGATGATCCCTTCAGCCAACTAAATCCAAATTCCCTA
M
TTTCTATCCTCATATCTCCCTCCCTTAAGATACCTACACTCCAATTTCCTGGCTTTCTATAGAATTCCAGGGCCTATCCTTAAATTAGGCCACTAGAAAG
Celera SNP ID:            hCV2481728
SNP Position Genomic:     75050
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45735):
AGTTTTTGTATTTTATTTCCAGTTTGAATCTTTCTGTAACTTCCTTTAAGAAAATTGTCTACAGAGAGTATGAACCATATTTTAAGAAAGAAAAACCACA
R
TCTACCATTTCAGGTAAGCCTGAAATATACTTTTTTAATTTTAAAGATAAATTTCTATGGGTAATTTGGCATTCACATGCATCTAAAATATCCATTTACT
Celera SNP ID:            hCV8919464
SNP Position Genomic:     10133
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,25|G,3)   total(A,56|G,4)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)   ;(G,-|A,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45736):
TAGGTCATTGAAAGTTATATAGTATTTATCTGGAACTGATGTTAAAAAAAATAGAGAGCCAAAAATTATAGTAGTCATCTTGTCTCTGTAAAATGTAATT
M
AATAAATATGTCATGTACACTGTATATACATAAGCAAACATGCAAATAAAAAAGCAGCCTACTCAAAGGTTACAATAATGTTGCAACAATTCTGGTAGTA
Celera SNP ID:            hCV8919465
SNP Position Genomic:     4081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,7)      total(A,7|C,2) ;PCA-AFRICAN-PANEL(C,7|A,41)   PCA-EUR(EAN-PANEL(C,2|A,38)   total(C,9|A,79)no_pop(C,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:45737):
ACGGAAAATGCATGATCGTTTAGAACCTGAAGATGAAGAGAGTGATGCTGACTATGATTACCAGAACAGACTGGCTGCAGCATTAGGAATCAGGTCATTC
Y
GAAACTCATCATTGAATCAGGAAGAAGAAGAGTTCAATCTTACTGCCCTAGCTCTGGAGAATGGCACTGAATTCGTTTCTTCAAACACAGATATAATTGT
Celera SNP ID:            hCV27541295
SNP Position Genomic:     49709
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:45738):
AATTTTAACAGATTTTACACTTTCAGCTATCAATGGCTATGTGCCTGAGAGCATAACTACTCTTGGATTCTGCTTTGATGACACTGTCCAGTGGCACTTC
Y
GTAGTGTGGGGACCCAGAATGAAATTTTGACCATCCACTTCACTGGGCACTCATTCATCTATGGAAAGAGGCATGAGGACACCTTGACCCTCTTCCCCAT
Celera SNP ID:            hCV27540496
SNP Position Genomic:     48147
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45739):
CTTCTCTTGAGTTATTTCATTGTCTTTCTGTCCTAACTCAGCTGGGATGCAGGCTTACATTGACATTAAAAACTGCCCAAAGAAAACCAGGAATCTTAAG
W
AAATAACTCGTGAGCAGAGGCGGCACATGAAGAGGTGGGAATACTTCATTGCTGCAGAGGAAGTCATTTGGGACTATGCACCTGTAATACCAGCGAATAT
Celera SNP ID:            hCV27536180
SNP Position Genomic:     37295
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:45740):
ACCCCTGGGTATGGAAAATGGAAAGATAGAAAACAAGCAAATCACAGCTTCTTCGTTTAAGAAATCTTGGTGGGGAGATTACTGGGAACCCTTCCGTGCC
Y
GTCTGAATGCCCAGGGACGTGTGAATGCCTGGCAAGCCAAGGTCAAGTATACTCTATGCATGGTGTTCTCTTAGGGCTCCAGAAGAAAGCAAAGGCCCTC
Celera SNP ID:            hCV27859214
SNP Position Genomic:     74126
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45741):
TAGGGTTCTAGCTTTATATGATTTTGTGATTATGAACAAATCATCTTTAAACAATCCTTATAAATGAAAAACTCGTCGTACACATTGTTTGAATTCATAT
S
ATCTGTAACTTTTTAATCAGATAGATTATTTTCCAATAGAAATTGTTCAGATCAAAATAGACATACCTCAGTATGAATACACAGCATACATAGTAAAAAC
Celera SNP ID:            hCV29397260
SNP Position Genomic:     8275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45742):
GAGAAAAGACGTATGATAAGACTGAAGAGAGAAGTAGAGGTAAATCATACATGGACTTGTGGTCCACGTTAAGGACTTTATGCAAGAAGTAAATCTAGAT
R
TACCTACTCAACTTATGGTTTCCATGCTCAGAACCTCATGAGATACATTGCACGTTACTGTAGTACCTGAATCCTTCATTGCTATTGAATGGATGTGCCT
Celera SNP ID:            hCV15955145
SNP Position Genomic:     27660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45743):
CCCCTGGGTATGGAAAATGGAAAGATAGAAAACAAGCAAATCACAGCTTCTTCGTTTAAGAAATCTTGGTGGGGAGATTACTGGGAACCCTTCCGTGCCC
R
TCTGAATGCCCAGGGACGTGTGAATGCCTGGCAAGCCAAGGTCAAGTATACTCTATGCATGGTGTTCTCTTAGGGCTCCAGAAGAAAGCAAAGGCCCTCA
Celera SNP ID:            hCV27531172
SNP Position Genomic:     74127
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45744):
CTGGAAGAGGGGGGTCAGTCAGTGGAGTCCGACATGTCAGGAGTCAAAAGAGGTGTAGACATCTGGACTATTCTATAAAGATGGGGGCCTGAGCCTGCCC
Y
GTGGAAGGAATAGGGAGAGCTTTGGCTCAGGAGTCCAGAGATCTGAGTTCTGATCCCAGCAATGCTACCAGATCACTGACTGACCTTGGGCAAGTCACCT
Celera SNP ID:            hCV11342117
SNP Position Genomic:     15987
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45745):
CAGAGGGTAGCAGCTGGAAGAGGGGGGTCAGTCAGTGGAGTCCGACATGTCAGGAGTCAAAAGAGGTGTAGACATCTGGACTATTCTATAAAGATGGGGG
Y
CTGAGCCTGCCCCGTGGAAGGAATAGGGAGAGCTTTGGCTCAGGAGTCCAGAGATCTGAGTTCTGATCCCAGCAATGCTACCAGATCACTGACTGACCTT
Celera SNP ID:            hCV11342118
SNP Position Genomic:     15974
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45746):
ACCCCACAAAACTTTAAAAAATCATTTTATCATCAAACAAAATACCCAGATTTCTCAGACTGGCCAATGGTATACGGCAGAGTAGAACATCTGGTCTTGC
R
CCTCAAGGAGCTCATGCTAAAAATTGGCTACCAAGACTTTTGATTTTACTATTGTAGTTTGTTTTGTTCTTTATTTCAGTGTACCTGAAGTAAATAGTAG
Celera SNP ID:            hCV2481730
SNP Position Genomic:     69696
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45747):
AGAGTCTTTTCCAGGAAAAACCGATAGCTGGGGGTCATTGATTTCTCTACATAAAAAGCCCAGCCTCTCTGCAGGGATTTGGCAAGGATCAGATACCTTA
S
TCTTATGACCACGCGCCCATTTCCAAAACTCTCCTCAGTCATCTTTTCTGGGTTTGACCACACATGTAGTATTTCAGCCAGATTCACAGGGTCTTATCAG
Celera SNP ID:            hCV2481731
SNP Position Genomic:     68093
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45748):
TGTGAATGGTACCCCCTACAGTTGTGCAGCATGCAGCCTATGAAACCATACATGACAATCCTATCTATGAATCAGTTTTTCTCTTTATGCTTTTCTCTAC
K
ACAATGTAGTGAAGCAGCTCCATTTGGGGTACATATATGGTAAAGGAAGGAACACTATGGTAGGAGCTAAAGGCCTGTTAGTGTGCTCTTAACACTGCCA
Celera SNP ID:            hCV2481732
SNP Position Genomic:     67866
SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,25)   caucasian(G,16|T,12)   total(G,25|T,37)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,25)   caucasian(G,19|T,15)   total(G,28|T,40)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45749):
AGCCTGAGAACCCTAGTTATCTAATCTGAGAAGTGGGCAGAGGAGTTGTCATACCAATAAGAGAATAAACATGACTTGCTATGGTTGCTGGATACACCAA
Y
GATAAACTCCTAATTTTATAAACTCCTAGACTTCCTAATTTGCCTGAAACTTTCTCTGAATTTAGAAGGCCTTAAGGTGACATGCTGCATATCTCCTTGC
Celera SNP ID:            hCV2481733
SNP Position Genomic:     63999
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45750):
TTCACAAGGAAAATTTGCCCTGTAAGCTAGTAACTGAAACAGAAACTGAGAAGAGAAAGGTACGAGCTTGTGTTATGAATATGTAGATAGGTGTTCTCAC
R
CCTGATATAATTTGAAGGATGCCCAAATGATCTCAACCCGTCCCTCTCCAAAAATTCACCTGCCTGGTTTCTGAAATTTCACAGCAGTTCCTCTAACTTA
Celera SNP ID:            hCV2481734
SNP Position Genomic:     63638
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45751):
CTCTTAGCCTGGTATCAGAAGTTAAAAATGAGATAACAGTACATAGTGCATGGTAAGCACTTGGTAAATATTTGTTCAATGAATGAATTTATATTTACCA
K
ATAAGATAGTTGTCAGGATTAAATGGGAGATTGCAGGCAAATCATTTAATATAGTAATAGATTCTCAATAAATAGTATCCCTTATATTATCAATTTATTA
Celera SNP ID:            hCV2481735
SNP Position Genomic:     62438
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,6)      total(G,2|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45752):
GGGCTGGGAGGAGCTTCATGGGTCTGACTGCTGGGGTGTGAAGACTTCTCATATGGCATTTAAGTCCTTTACCATCTGGCCCCAACCTGCTCCTTTTCTA
S
CCTCATTTCTCACCAGGTTCCACCTGTCCCTGTGCATTTCACAGCCCAGTTCCACCGAGATCCTTGCTATTCCCCAAACTCTTCCTTTACTCCCCTGCTC
Celera SNP ID:            hCV2481736
SNP Position Genomic:     60890
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45753):
TCCATATGAATTTTAGAATAGCTTTGTCTAATCCTGAGGAAAATGATTCCAGTAGTTGTTAAAAAATAGTGTTGAATCTGTAGATTGCTTTGGGCACAAT
R
GCTATTTTAACAATACTGATTCTTCCAATACATAAGCATAGAATGTTTTTCCATTTGTTTGTGTCATCTATGATTTCTTTCATCAGTGTTTTGTAATTCT
Celera SNP ID:            hCV2481737
SNP Position Genomic:     59787
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45754):
ACGATAATTTAACACAATATTTAAAAAACTTATTCTAAGTAACTCAGGAATCAAAAACCAGACACTGTATGTTCTCACTTACAAATGGGAGATAAACTGC
R
GGTATGCGAAGGCAGACAGATTGGTATAATGGACATTGGAGACTCAAAAGGGAACGGGGGATGGATGAAAAGCTACCTATTGGGTACAGGGTACACTACT
Celera SNP ID:            hCV2481738
SNP Position Genomic:     56990
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45755):
CGGCAAGCGCTGCCCAGGTCCTGGGGTGGTGGCAGCCAGCGGGAGCAGGAAAGGAAGCATGTTCCCAGGCTGCCCACGCCTCTGGGTCCTGGTGGTCTTG
R
GCACCAGCTGGGTAGGCTGGGGGAGCCAAGGGACAGAAGCGGCACAGCTAAGGCAGTTCTACGTGGCTGCTCAGGGCATCAGTTGGAGCTACCGACCTGA
Celera SNP ID:            hCV25617200
SNP Position Genomic:     6233
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(G,38)   total(A,3|G,67)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,40)   total(A,3|G,71)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45756):
TGGGTATGGAAAATGGAAAGATAGAAAACAAGCAAATCACAGCTTCTTCGTTTAAGAAATCTTGGTGGGGAGATTACTGGGAACCCTTCCGTGCCCGTCT
R
AATGCCCAGGGACGTGTGAATGCCTGGCAAGCCAAGGTCAAGTATACTCTATGCATGGTGTTCTCTTAGGGCTCCAGAAGAAAGCAAAGGCCCTCACTAC
Celera SNP ID:            hCV25617201
SNP Position Genomic:     74131
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,1|G,39)   total(A,1|G,69)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45757):
TCCTATCTATGAATCAGTTTTTCTCTTTATGCTTTTCTCTACGACAATGTAGTGAAGCAGCTCCATTTGGGGTACATATATGGTAAAGGAAGGAACACTA
Y
GGTAGGAGCTAAAGGCCTGTTAGTGTGCTCTTAACACTGCCACCTCTTCTGGTGTATAATGATCCCAAAGAGTCTTTTCCAGGAAAAACCGATAGCTGGG
Celera SNP ID:            hCV25617202
SNP Position Genomic:     67924
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,4|T,34)   total(C,4|T,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:45758):
AGGATTACAGGCATGAGCCACTGCACCTGGCCATGGATGGTACCTAATGTTGTAAAATAGCATAATTTAAGATAAAAGCAGAAGAAAATCAGTTTAAAAA
R
TGATTACATTTCAGGATTTCAGTTGCTTTCTTCTAGGATGCCACTATATCTATTAAAGCACCAGTCTTGTTAGTGCATTTACCATTTTATAATCAGATAT
Celera SNP ID:            hCV15756375
SNP Position Genomic:     67435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45759):
CTCAGACCACAGAGAAATCAAATTAGAACTGAGGACTAAGAAACTCACTCGAAACCACACAACTACATGGAAACTGAACAACCTGCTCCTGAATGACTAC
K
GGGTAAATAATGAAATTAAGGCAGAAATAAATAAGTTCCTTAAAACCAATGAGAACAAAGAGACAACATACCAGAATCTCTAGGAGACAGGGCTTTGCTT
Celera SNP ID:            hCV27242803
SNP Position Genomic:     79552
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:45760):
CTCGGCCTCCCAGAGTGCTAGGATTACAGGCATGAGCCACTGCACCTGGCCATGGATGGTACCTAATGTTGTAAAATAGCATAATTTAAGATAAAAGCAG
R
AGAAAATCAGTTTAAAAAATGATTACATTTCAGGATTTCAGTTGCTTTCTTCTAGGATGCCACTATATCTATTAAAGCACCAGTCTTGTTAGTGCATTTA
Celera SNP ID:            hCV15756376
SNP Position Genomic:     67416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45761):
GACAATTCTCCTTAAATGTCATGTCACTTCACCAAGATAGATAAGAATTGGACAGCAGAGAATTAAAGGTTGCAATCTTTGACAAAATCCTAGAGTGTAG
W
TAATCTACAGACAAAGGATGATCCAAAGGCTTTGACAATCAACCAAATAGAAGATAGGATTAAGGTTCTCTTTTGCAGATTAAAGAGCCTAACTAGGACT
Celera SNP ID:            hCV16191269
SNP Position Genomic:     40828
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,382|T,1101)   total(A,382|T,1101) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45762):
GTGAATCTTGCTAGAGATTTGTCGATTTTAAAAAAATCTTCTTGGCCGGGCGCAGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGC
R
GATCACGAGGTCAAGAGATCAAGACCATCCTGACCAACATGGTGAAACCCCCTCTCTACTAAAAATATTAAAAAAAATTAGGCAGGGTGGCGTGCACTTG
Celera SNP ID:            hCV27242805
SNP Position Genomic:     70720
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45763):
TCAGCCATACAACCCTTTCTCCAGACCTCAGCCATACAACCCTTTCTTTAGACCTCAGCCAGACAAACCTCTCTCCAGAACTCAGTCAGACAAACCTTTC
Y
CCAGCCCTCGGTCAGATGCCCCTTTCTCCAGACCTCAGCCATACAACCCTTTCTCTAGACTTCAGCCAGACAAACCTCTCTCCAGAACTCAGCCATATGA
Celera SNP ID:            hCV11342050
SNP Position Genomic:     51295
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45764):
ATGTTTGTAGTGATTTTGCCTGTTTCATCTCTGATATTGTCATCTGCCCCTCCTTTCTTTTTTGTGTGAATCTTGCTAGAGATTTGTCGATTTTAAAAAA
A
TCTTCTTGGCCGGGCGCAGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAAGAGATCAAGACCATCCTGACC
Celera SNP ID:            hCV27242806
SNP Position Genomic:     70655
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45765):
GAACTTTTTTTCATATTTTTATATTTTGTATTTTTATTTTTTTTGTAGAGAAGAGGTTGCCCAAGATCAAACTCCTGGCCTCAAGTAATCCTCCCCCCTC
R
GCCTCCCAGAGTGCTAGGATTACAGGCATGAGCCACTGCACCTGGCCATGGATGGTACCTAATGTTGTAAAATAGCATAATTTAAGATAAAAGCAGAAGA
Celera SNP ID:            hCV27242807
SNP Position Genomic:     67319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45766):
TTTTTAATTTTAAAGATAAATTTCTATGGGTAATTTGGCATTCACATGCATCTAAAATATCCATTTACTGAAAATTTATAGAAACGTGTGGTTTTTTTTT
T
AAGAAGTACTGGCTACATAATATGTGGGGCCCAGTGCAAAATGAAAATGTGAGTCCCCTTGTTCATATTATTGAAAATTTCACAGTGACTGCAAAGCATT
Celera SNP ID:            hCV11342126
SNP Position Genomic:     10265
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,11)   total(-,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45767):
AGAACTTTTTTTCATATTTTTATATTTTGTATTTTTATTTTTTTTGTAGAGAAGAGGTTGCCCAAGATCAAACTCCTGGCCTCAAGTAATCCTCCCCCCT
Y
GGCCTCCCAGAGTGCTAGGATTACAGGCATGAGCCACTGCACCTGGCCATGGATGGTACCTAATGTTGTAAAATAGCATAATTTAAGATAAAAGCAGAAG
Celera SNP ID:            hCV27242808
SNP Position Genomic:     67318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45768):
ATGAAAAGAAGAGCTGGTACTATGAAAAGAAGTCCCGAAGTTCTTGGAGACTCACATCCTCAGAAATGAAAAAATCCCATGAGTTTCACGGTATTTTCCT
Y
GGACTTTGATCTAATCTCCTAATTAAATCACACTGGGTCACAGTGATTTCTGCCCTTAGATATTCACAAGATTAGACATGAGATGCTTCTGAGACACCCA
Celera SNP ID:            hCV11975232
SNP Position Genomic:     62984
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,35|T,1)   total(C,69|T,3)
SNP Type:                 INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45769):
AGTCACAGCAATGTCAAATTGCTTTAGAAAAACAAAAGTTTACTAAATATTTCATTCTCATTTTTCTCTCCTTGTGTTATTTTGACCCAGTAATCAATAG
K
TCACAGACAAGCAGTGGTCCACAGCCCATACTTGAATATTCCTGACGAAAGTTTATTAGAAATTACCTGCCACAATGGATTATTGTGTTTTCATGTCTTT
Celera SNP ID:            hCV16175730
SNP Position Genomic:     49322
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,343|G,1152)   total(G,1152|T,343) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45770):
ATAGTTTGCACCAACCTAACACATGCTGCCTGAGGAGTTAGTGAAGGCAGCCCCTCGACAGCACTTTGGGTGACGTTGTGTGAATCTGCCTCAGATGCAG
R
CACAGAAGTCCAAATGGACTGGTTTGATTAAGAGCAGGGAAAAAAAGAGGGTTCTTATTGGTTTTTCACATGCCAGTAACTCACTAATACATCTAGAGAG
Celera SNP ID:            hCV27242809
SNP Position Genomic:     65566
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45771):
TGATTATCAGAAGAGCAAGGAAATTCCTGAGAAAGAGGCAATACAATTTACTCTGTTTTTCCAGGAAAAAGATATTCACTCAGGCTTGATAGGTCCCCTC
S
TAATCTGCCAAAAAGGAATACTACATAAGGACAGCAACATGCCTATGGACATGAGAGAATTTGTCTTACTATTTATGACCTTTGATGAAAAGAAGAGCTG
Celera SNP ID:            hCV11975233
SNP Position Genomic:     62799
SNP Source:               HGBASE
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45772):
AGATGAACGCACTGGTCATGTGCTTAGAGTCACAGCAATGTCAAATTGCTTTAGAAAAACAAAAGTTTACTAAATATTTCATTCTCATTTTTCTCTCCTT
R
TGTTATTTTGACCCAGTAATCAATAGGTCACAGACAAGCAGTGGTCCACAGCCCATACTTGAATATTCCTGACGAAAGTTTATTAGAAATTACCTGCCAC
Celera SNP ID:            hCV16175731
SNP Position Genomic:     49295
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,141|A,1360)   total(G,141|A,1360) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45773):
GTGTGTCTTCTTTTGAAAAGTGTCTGTTCCTGTCCTTGGCCTACTTTTTAATGGGGCTGTTTGTTTTTTTCTTGTAAATTTAAGTTCCTTATAAATGCTC
S
ATATTAGACCTTTGCCAGATGCATAGTTTGCAAAAATTTTCTCCCATTCTGAATGTTGTCTGTTTACTCTCTTGATAGTTTCTTTTGCTGTGCAGGAGCT
Celera SNP ID:            hCV11342057
SNP Position Genomic:     45120
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45774):
GATCATTCCTTTTCCTAGGTTCGTTTTAAAAATTTAGCATCCAGACCGTATTCTCTACATGCCCATGGACTTTCCTATGAAAAATCATCAGAGGGAAAGA
S
TTATGAAGATGACTCTCCTGAATGGTTTAAGGAAGATAATGCTGTTCAGCCAAATAGCAGTTATACCTACGTATGGCATGCCACTGAGCGATCAGGGCCA
Celera SNP ID:            hCV11975235
SNP Position Genomic:     61641
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45775):
CAATGTATGGTGTGACTTATGCATATGAGTTCATTAATCTGATGCCTGACATCTCCACATTAGAACTCTGTTTAAAACACCTTTTCCTATGACTTCCTAT
W
TAAATGTTGCACTCAATACCACATGAGAACAACTAGCTACCTGAGTATTTCTAAGCAAGGCCCCGAGGGAGTGAGATGCAGGGCCTGTCCAGAGTGAATA
Celera SNP ID:            hCV2481741
SNP Position Genomic:     53080
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,9)      total(A,1|T,9) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45776):
TGCGTTAACTTGCTTAGAATAATGGCCTCCAGCTCCATCCATGTCCCTGCAAAGGACATAATCTTGTTCTTTTTGATGGTCACATAGTATTCTATGGTGT
W
TATGTACCATATTTTCTTCATCCAGTCTGTCATTGATGGGCATTTGGGTTGATTTCATGTCTTTGCTATTGTGAAGAGTGCGAAAATGAACATACGCATG
Celera SNP ID:            hCV11342058
SNP Position Genomic:     44596
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,12)   total(A,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45777):
TTAGATTTTTGTTAAGCTTAAGTACATTTGTGGATCATTCCTTTTCCTAGGTTCGTTTTAAAAATTTAGCATCCAGACCGTATTCTCTACATGCCCATGG
R
CTTTCCTATGAAAAATCATCAGAGGGAAAGACTTATGAAGATGACTCTCCTGAATGGTTTAAGGAAGATAATGCTGTTCAGCCAAATAGCAGTTATACCT
Celera SNP ID:            hCV11975236
SNP Position Genomic:     61609
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45778):
TAGACTTCAGCCAGACAAACCTCTCTCCAGAACTCAGTCAAACAAACCTTTCCCCAGCCCTCGGTCAGATGCCCCTTTCTCCAGACCCCAGCCATACAAC
Y
CTTTCTCTAGACCTCAGCCAGACAAACCTCTCTCCAGAACTCAGTCAGACAAACCTTTCCCCAGACCTCAGTGAGATGCCCCTCTTTGCAGATCTCAGTC
Celera SNP ID:            hCV2481742
SNP Position Genomic:     51586
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:45779):
ACTCTCAATGATACTTTTCTATCAAAGGAATTTAATCCACTGGTTATAGTGGGCCTCAGTAAAGATGGTACAGATTACATTGAGATCATTCCAAAGGAAG
M
GGTCCAGAGCAGTGAAGATGACTATGCTGAAATTGATTATGTGCCCTATGATGACCCCTACAAAACTGATGTTAGGACAAACATCAACTCCTCCAGAGAT
Celera SNP ID:            hCV11975237
SNP Position Genomic:     52080
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45780):
AACCATAATTTCTTCTCTTGAGTTATTTCATTGTCTTTCTGTCCTAACTCAGCTGGGATGCAGGCTTACATTGACATTAAAAACTGCCCAAAGAAAACCA
S
GAATCTTAAGAAAATAACTCGTGAGCAGAGGCGGCACATGAAGAGGTGGGAATACTTCATTGCTGCAGAGGAAGTCATTTGGGACTATGCACCTGTAATA
Celera SNP ID:            hCV27531830
SNP Position Genomic:     37284
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45781):
CTGCCAAGTGGGGGTCAAAGTCCAGGTTCCCCACTCCATTGCCACCTAAGAAGGGATTGTTCCTTGGTGGCTGGGTGGGAAGGGAAGTTCCCCATTTGGC
M
TCCACTGATACTGCAGGGGCAGGAGCTTCATTAGGGGCTGGAGATGAAAGCCCTAAATCCCTACATGGCCTTTTCTGACACAACCCCAGTGAGGGTGTAG
Celera SNP ID:            hCV329837
SNP Position Genomic:     71216
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,10)   total(A,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45782):
CAGAGTTACTTTGACCATTAAAATAGTAATATGCGCCAAGTGCCTAGCACTCAGTAGACACCAACAATGGTAACTATTGGAGACTCACCAAGAAATCTTT
R
ATGTTCCAGCAATGCATGCCATTTCAGAGATTCAAAATTGTCCTCGTGAATTATTACTTAGAAACATCTAAATGTCTCTTATTTGTGGGGATAGAGCTCA
Celera SNP ID:            hCV2481744
SNP Position Genomic:     48906
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,13)   total(G,13|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45783):
TACACAAGTTACTTGGCCACACTGAGCCACAAGTCATTTATCTGGAAAACAGTGTAATCACATCTCACAGAGTTACTTTGACCATTAAAATAGTAATATG
Y
GCCAAGTGCCTAGCACTCAGTAGACACCAACAATGGTAACTATTGGAGACTCACCAAGAAATCTTTGATGTTCCAGCAATGCATGCCATTTCAGAGATTC
Celera SNP ID:            hCV2481745
SNP Position Genomic:     48839
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,12)   total(C,12|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45784):
AGTCACTTAAGTGATTTAAGTAGGTATTTAAATATTTGTTAATGCCAGTCATTATACTGGTACTAAGGCTAAGAGTGGTAATCGAGGTAGACATGAGCCC
Y
GCCCTTGTAGAAATCATACCTTTGGTTTTTTACTATGCTTAGTACATAAGTAAATAAAAATATTGCCTACAGCAGTGTCCCTTTTAACAATAATGAAATG
Celera SNP ID:            hCV2481746
SNP Position Genomic:     47482
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45785):
CATCATGTAAATTATTAAAGTCACTTAAGTGATTTAAGTAGGTATTTAAATATTTGTTAATGCCAGTCATTATACTGGTACTAAGGCTAAGAGTGGTAAT
S
GAGGTAGACATGAGCCCTGCCCTTGTAGAAATCATACCTTTGGTTTTTTACTATGCTTAGTACATAAGTAAATAAAAATATTGCCTACAGCAGTGTCCCT
Celera SNP ID:            hCV2481747
SNP Position Genomic:     47464
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45786):
CCAAAGATGGATTGACACATCAAAGTAGAGCAAAATGAGTATAGGGACCCAAGAGTCTTGGAAAGGCATGCATGAAGACATTTCAAGTGATCAGTAAGAT
K
TTCAGAACAAAAGGAATTCCCTGAATGAGGGTTCCGGCATTTGCTGCAGTTCTAAAGTTCAGTGGCCAAAAGCACTGCCATGGCAGTCTGAGAGAAATGT
Celera SNP ID:            hCV2481748
SNP Position Genomic:     46636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;(T,-|G,-)   JBIC-allele(G,168|T,751)   total(G,168|T,751)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45787):
TCATAGCAACATTTTTAAGCAAGAGGTCAAAGGCTCACATCCTTAGAAATGCGTTTGATCTTCTATTCCAAGCGTGTGTGTGTGTGTGTGTGTGTGTGTG
K
ACACAGACATACTCTGCGTGGTGAGGAAAAGGGTGAGAGAGTAGGACTAATGGAAGGTGTTATAGTCCATGTCAATAGTATCCTAGACTGAGTTCAGGGT
Celera SNP ID:            hCV2481749
SNP Position Genomic:     46400
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,7)   total(G,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45788):
TCTTGGCCTAATCCTTTAGCAATCCCTGTGTTTTTGAGTTCACATCCACCATCTCTAAGCTCTGTTGTTACCTGTATAATGCCATTTATCACAATGAGTT
R
TCACTGCTTGTTTGCTGGTCACTCAGATGTCTGCTTTTGCAGGGCACAAACTACAACTGGAGTGTCTGTTCCCTCAAAGCTTTATACAATGCCTGACACA
Celera SNP ID:            hCV27958878
SNP Position Genomic:     35509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45789):
CATGACTTGTGATCCATGGACAAGTGCATATAAGAAATTTTCCAGCTTCCAAGAGTTGAGGAGGGAAAAGGTCACAGGAATTTAACAATGACTGAGTCAC
Y
AAACTTGACATTTCAGCATTTAGGAAACACAGTTTTCATCTGTCCATCTGTTCATCCATTCTTTAAGCCATTACTAAGCACTGTTGAGTATGAAGCACTG
Celera SNP ID:            hCV15756380
SNP Position Genomic:     67011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45790):
CTCTCTCCAGAACTCAGCCATATGACTCTCTCTCCAGAACTCAGTCAGACAAACCTTTCCCCAGCCCTCGGTCAGATGCCCATTTCTCCAGACCTCAGCC
R
TACAACCCTTTCTCTAGACTTCAGCCAGACAAACCTCTCTCCAGAACTCAGTCAAACAAACCTTTCCCCAGCCCTCGGTCAGATGCCCCTTTCTCCAGAC
Celera SNP ID:            hCV27859090
SNP Position Genomic:     51471
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45791):
ATAACCGATTAGGTCACGGGTCGATCTTTAACTACCAGGTCCAGGGTGTGGCGCCGGGCTGTCTGCTTGTGGATTTCATTTCTGCCTTTTAGTTTTTACT
W
CTTCTTTCTTTGGAGGCAGAAATTGGGCATAAGACAATATGAGGGGTGGTCTCCTCCCTTAAAATAGTAGTTCTGTTTCAAATTCTTTGAGAAACCCCCA
Celera SNP ID:            hCV27242810
SNP Position Genomic:     58655
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45792):
AACAGGACAGGGATTTTCACAGTGCTTTTCTATACAATGTCTGTAATCTATAGATAACATAACCGATTAGGTCACGGGTCGATCTTTAACTACCAGGTCC
R
GGGTGTGGCGCCGGGCTGTCTGCTTGTGGATTTCATTTCTGCCTTTTAGTTTTTACTTCTTCTTTCTTTGGAGGCAGAAATTGGGCATAAGACAATATGA
Celera SNP ID:            hCV27242811
SNP Position Genomic:     58597
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45793):
CCAGTAATTAGAACAGAACAGAACAGGACAGGGATTTTCACAGTGCTTTTCTATACAATGTCTGTAATCTATAGATAACATAACCGATTAGGTCACGGGT
M
GATCTTTAACTACCAGGTCCAGGGTGTGGCGCCGGGCTGTCTGCTTGTGGATTTCATTTCTGCCTTTTAGTTTTTACTTCTTCTTTCTTTGGAGGCAGAA
Celera SNP ID:            hCV27242812
SNP Position Genomic:     58576
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45794):
TAATAGAATTGCTAGGTCAAATTGTAGCAGGACAAGCCACAGACAAAAACCCCTCAGACACCAAGTTAAAGAAGGAAGGGCTTTATTCAGCCGGGAGCTT
Y
GGCAAGACTCATGTCTCCAACAACCGAGCTCCCCGAGTGAGCAATTCCTGTCCCTTTTAAGGGCTCACAACTCTAAGAGGGTCCACGTGAGTGGGTCGTG
Celera SNP ID:            hCV27242813
SNP Position Genomic:     58331
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45795):
AGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGC
R
TGAGCCATTGCGCCCGGCTGAACAATTTATTTTCTTTTTTGGCTATATACCCAGTAATAGAATTGCTAGGTCAAATTGTAGCAGGACAAGCCACAGACAA
Celera SNP ID:            hCV27242814
SNP Position Genomic:     58176
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45796):
GCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGG
S
TGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCATTGCGCCCGGCTGAACAATTTATTT
Celera SNP ID:            hCV27242815
SNP Position Genomic:     58108
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45797):
CCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCC
R
GGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCATTGCGCCCGGCTGAACAATTTA
Celera SNP ID:            hCV27242816
SNP Position Genomic:     58105
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45798):
GTCCTCCAGGTCTTTATCAGACAGTGCCCCCAGAGGAACACTATCAAACATTCCCCATTCAAGACCCTGATCAAATGCACTCTACTTCAGACCCCAGTCA
S
AGATCCTCTTCTCCAGAGCTCAGTGAAATGCTTGAGTATGACCGAAGTCACAAGTCCTTCCCCACAGATATAAGTCAAATGTCCCCTTCCTCAGAACATG
Celera SNP ID:            hCV11975241
SNP Position Genomic:     50929
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45799):
TTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTT
Y
ACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCATTGCGCCCG
Celera SNP ID:            hCV27242817
SNP Position Genomic:     58092
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45800):
CCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACA
R
GGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCATTG
Celera SNP ID:            hCV27242818
SNP Position Genomic:     58086
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45801):
GAAGTGAAGCCTACAACACATTTTCAGAAAGAAGACTTAAGCATTCGTTGGTGCTTCATAAATCCAATGAAACATCTCTTCCCACAGACCTCAATCAGAC
R
TTGCCCTCTATGGATTTTGGCTGGATAGCCTCACTTCCTGACCATAATCAGAATTCCTCAAATGACACTGGTCAGGCAAGCTGTCCTCCAGGTCTTTATC
Celera SNP ID:            hCV11975242
SNP Position Genomic:     50746
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:45802):
TCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGAC
R
GGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCATT
Celera SNP ID:            hCV27242819
SNP Position Genomic:     58085
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45803):
TTTGTCTTGTCTATTTTTATCAGTACCATCACTGCCGAAGGCAAGTCTAGAGTGTGATAACATATTTTGTCTTAGTTTCAAATTCCAGGTCTGTTGGTAT
Y
GGATGTGTTGAGCAAGTTGATTAGCCTTTCCTAATTTCTTCCTTTTATCAAATGGGTAATAACCCTCCTAAAAATGTTACAGGTCTGTTTGGGGGTTCAG
Celera SNP ID:            hCV11342064
SNP Position Genomic:     43045
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45804):
AAATTATTCTTCCCCAAGTAATATTAGTAAGTTCACTGTCAATAACCTTGCAGAACCTCAGAAAGCCCCTTCTCACCAACAAGCCACCACAGCTGGTTCC
Y
CACTGAGACACCTCATTGGCAAGAACTCAGTTCTCAATTCTTCCACAGCAGAGCATTCCAGCCCATATTCTGAAGACCCTATAGAGGATCCTCTACAGCC
Celera SNP ID:            hCV11975243
SNP Position Genomic:     49916
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,4)   caucasian(C,38)   total(C,58|T,4)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)    ;WIAF-CSNP-P(1(T,3|C,105)   total(C,105|T,3)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:45805):
AGTGGCACTTCTGTAGTGTGGGGACCCAGAATGAAATTTTGACCATCCACTTCACTGGGCACTCATTCATCTATGGAAAGAGGCATGAGGACACCTTGAC
M
CTCTTCCCCATGCGTGGAGAATCTGTGACGGTCACAATGGATAATGTTGGTGAGTAAGAGTCTGGACACTCACAGAGGAAGCTTGCTTTGAATTTCTGGT
Celera SNP ID:            hCV11975244
SNP Position Genomic:     48236
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(A,3|C,37)   total(A,3|C,73)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(C,-|A,-)    ;(C,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45806):
TTCCATTTTCCACCTTAATGTGTGAGTGAAACACTCTCTCCAATGCTCCTGCCAAGTGATGAGGGGAGGTTACTGCTCAGATAAACAGATCTAATTTTCC
Y
ACTGTGTGTACACATGTATACACACACACCATCCAAAAGGTGAATATGCAAAGCTAGTATCTTATATTATTTGTCATGATCAACCTTAAATCCTAGAATA
Celera SNP ID:            hCV2481750
SNP Position Genomic:     41723
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,15)   caucasian(C,6|T,20)   total(C,17|T,35)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45807):
ATCCTTAGAAATGCGTTTGATCTTCTATTCCAAGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTACACAGACATACTCTGCGTGGTGAGGAAAAGGGTGAG
R
GAGTAGGACTAATGGAAGGTGTTATAGTCCATGTCAATAGTATCCTAGACTGAGTTCAGGGTGAATATATGGCTAGGACAGAAAGAAGGCAAGTAATCCA
Celera SNP ID:            hCV11975245
SNP Position Genomic:     46438
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45808):
CAGCAGACATCGAACAGCAGGCTGTGTTTGCTGTGTTTGATGAGAACAAAAGCTGGTACCTTGAGGACAACATCAACAAGTTTTGTGAAAATCCTGATGA
R
GTGAAACGTGATGACCCCAAGTTTTATGAATCAAACATCATGAGCAGTAAGTCAGAGTACTATTTTTGTTCATCAGTTTTTCATTCCTGTGGTTGAAATA
Celera SNP ID:            hCV11975246
SNP Position Genomic:     46093
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,3|G,37)   total(A,3|G,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,6|G,107)      total(G,107|A,6) ;(G,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45809):
TATTTATTTACAGCTTACTCAGTAATACAAAGGATCTGAGACAGTTTCTCAAGTTATAAAGGCATAAAACAAGGAGTCTATGTAATTGGGATAGAATATG
S
GGACAAAGAAAATAAAGCCACAGATAAGTAGATACCATGTGACCCTGTAAGGCTGTCTTCAAATTTTGTCCTAAGCTTTATGGCAGTCAGTGTAAAAAAG
Celera SNP ID:            hCV2481752
SNP Position Genomic:     40270
SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   Caucasian(C,37|G,47)   total(G,47|C,37)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45810):
CACAGATCAGATAGTTGTAGGTGCGCAGCCTTATTTCTGAGTTCTCTATTCTGTTCCATTGGTCTATGCGTCTGTTCTTGTACCAGTACTATACTGTTTT
K
TCCTCCAGAGGGCAGCAGACATCGAACAGCAGGCTGTGTTTGCTGTGTTTGATGAGAACAAAAGCTGGTACCTTGAGGACAACATCAACAAGTTTTGTGA
Celera SNP ID:            hCV11975247
SNP Position Genomic:     45980
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|G,-)    ;WIAF-CSNP-P(1(T,3|G,123)   total(G,123|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:45811):
GATCAGCAGGAAGATTGCAGTAAAGATGAACAGATTAGGAGTAATCCTCAACACACAAAAAAAACCAGCATTTCAAAAGGTGACAGAAGAGTAATATTCA
R
TGGCATCTAGAATATTTTCTCTTTCCATTTGCATTTGGGCACTTATGAGAAGGCAAAATCATAGCAATCGTTAAGAGAAAAAATAACTAATTCCCACTTA
Celera SNP ID:            hCV2481755
SNP Position Genomic:     33864
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45812):
AGAATCCAGCCCATCTTTCATTAAAACAAACAACCACAGTGAGCCACAGCATGGGAAATAACGTGATGGACTCACCATCTGCCTATACATACACGCTCAG
R
CCATACCTACATACATGCCCAATGTATTTACTCATTATACAAAGACTTTTTTTCCATTTCCTGGTATATATAAGATACTGTGATGGTACTGAAAAAAACC
Celera SNP ID:            hCV2481756
SNP Position Genomic:     32677
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45813):
TTTATCCCATGAGAATCCAGCCCATCTTTCATTAAAACAAACAACCACAGTGAGCCACAGCATGGGAAATAACGTGATGGACTCACCATCTGCCTATACA
Y
ACACGCTCAGGCCATACCTACATACATGCCCAATGTATTTACTCATTATACAAAGACTTTTTTTCCATTTCCTGGTATATATAAGATACTGTGATGGTAC
Celera SNP ID:            hCV2481758
SNP Position Genomic:     32666
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45814):
CTATCAGTAGGGAAAGTCCAATATACATGGAGGTGTTAATGATGTGTCTTTGGGTGCACAAAGTACAAAGTAAGACATCTAAGTTTCAGGGGATGGACAC
R
TTTCATATTCATACAGACAACCAGCCTGCATAGGGGAGTTAGACGCTGTGGCTCGGGGGAAAAAATTGAGATAATCAGATGGCTAAGATGAAATAAAGAG
Celera SNP ID:            hCV2481759
SNP Position Genomic:     31223
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,14)      total(G,5|A,14) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45815):
GCATCTCTTCTTTCTTGACTTTTCAATCATCGCCATTCTGACTGGCATGAGAGGGCATCTCATTGCGTTTTTCTTTCTTTTTTTGAGACGGAGTCTCGCT
S
TGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCTGCTCACTGCAAGCTCCGCCTCCCAGGCTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGA
Celera SNP ID:            hCV334458
SNP Position Genomic:     38878
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,10)   total(G,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45816):
TTGCGTTTTTCTTTCTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCTGCTCACTGCAAGCTCCGCCTCCCAGG
Y
TCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGGGCCCGCCAACACAAATACAAAATACAAAAAATATAATTTTTTGTATTTTTAG
Celera SNP ID:            hCV334459
SNP Position Genomic:     38940
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45817):
CCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCATGCCCAGCTAATTTTTGTATTTTTA
R
TAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCAT
Celera SNP ID:            hCV27242820
SNP Position Genomic:     58077
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45818):
CAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCATGCCCAGCTAATTTTTGTATTT
Y
TAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGG
Celera SNP ID:            hCV27242821
SNP Position Genomic:     58074
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45819):
ATCTCAACTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCATGCCCAGC
Y
AATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAAAGT
Celera SNP ID:            hCV27242822
SNP Position Genomic:     58060
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45820):
ATGATCTCAACTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCATGCCC
R
GCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAA
Celera SNP ID:            hCV27242823
SNP Position Genomic:     58057
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45821):
GAGGTATGATCTCAACTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCA
H
GCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTT
Celera SNP ID:            hCV27242824
SNP Position Genomic:     58052
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45822):
TACAGAGGTATGATCTCAACTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACC
R
CCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCA
Celera SNP ID:            hCV27242825
SNP Position Genomic:     58048
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45823):
TTAACAAGACCATACTACAGTGACGTGGACATCATGAGAGACATCGCCTCTGGGCTAATAGGACTACTTCTAATCTGTAAGAGCAGATCCCTGGACAGGC
R
AGGAATACAGGTATTTTGTCCTTGAAGTAACCTTTCAGAAATTCTGAGAATTTCTTCTGGCTAGAACATGTTAGGTCTCCTGGCTAAATAATGGGGCATT
Celera SNP ID:            hCV11975250
SNP Position Genomic:     42772
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)   |utch(A,12|G,589)   Caucasians(G,-|A,-)      total(G,589|A,12) ;(G,-|A,-)   ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45824):
GAGTACAGAGGTATGATCTCAACTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCC
R
CCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCC
Celera SNP ID:            hCV27242826
SNP Position Genomic:     58045
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45825):
CTCGTGATTTGCCCGCCTCGGCCTCCCAAAGTGCTGAGAGTACAGGCGTGAGCCACCGCGCCCGGCCTCATTGTGGTTTTGATTTGCATTTCTCTCATGA
W
CACTGATGTTGAGCTTTTTAAAATGTGCTTTTTGGCCGCATGTAGTTGCTTTTGCAAACTAAGGTAATAAAGAGGGCAGGGGAAAAGTGGTTCATGTTTC
Celera SNP ID:            hCV11342071
SNP Position Genomic:     39190
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,12)   total(A,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45826):
AGGCTGGAGTACAGAGGTATGATCTCAACTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAG
S
CACCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTG
Celera SNP ID:            hCV27242827
SNP Position Genomic:     58039
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45827):
ACCTATACTTATAAGTGGAACATCTTAGAGTTTGATGAACCCACAGAAAATGATGCCCAGTGCTTAACAAGACCATACTACAGTGACGTGGACATCATGA
R
AGACATCGCCTCTGGGCTAATAGGACTACTTCTAATCTGTAAGAGCAGATCCCTGGACAGGCGAGGAATACAGGTATTTTGTCCTTGAAGTAACCTTTCA
Celera SNP ID:            hCV11975251
SNP Position Genomic:     42709
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,18)   caucasian(G,2)   total(A,6|G,20)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)    ;(G,-|A,-)   ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45828):
ACTCTGTCGCCCAGGCTGGAGTACAGAGGTATGATCTCAACTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAG
S
TGGGATTACAGGCACCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACC
Celera SNP ID:            hCV27242828
SNP Position Genomic:     58027
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45829):
CACTCTGTCGCCCAGGCTGGAGTACAGAGGTATGATCTCAACTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTA
R
CTGGGATTACAGGCACCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCTGAC
Celera SNP ID:            hCV27242829
SNP Position Genomic:     58026
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45830):
TCAAAAAAAGAGGATGCAAACACTCTGTATGTACTAATACAAAAAGTTCTCCAAGATATGTTATTAAATTAAAAAGCTGGGATGTAGTATAGCGTGTATA
Y
ATAGCTGCCTTTTGTTAAAGGAGTGAAAGGGATAAGAATATTTATATTTTCTTATTTGTAAGACATAAAGGTATTCTGGAATTACACGCATGAAATTAAT
Celera SNP ID:            hCV11342074
SNP Position Genomic:     38284
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45831):
TATCTAATGGCTACATGTTATCCAGGTTCCAAGTAGAATATTTAAAGAATTCAATTGAACAATGAGAACATTTAGACACAGGATGGGGAACATCACACAC
Y
GGGGCCTGTCGGGGGGGGGGGGTGGGGGGCGGGGGGAGGGATAGCATTAGGAGATATACCTAATGTTAATGACAAGTTAATGGGTGCAGCACACCAACAT
Celera SNP ID:            hCV11975253
SNP Position Genomic:     42272
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45832):
TTGATTTAACTTTGTAGATCGTGTTCAAAAATATGGCCAGCCGCCCCTATAGCATTTACCCTCATGGAGTGACCTTCTCGCCTTATGAAGATGAAGTCAA
Y
TCTTCTTTCACCTCAGGTTTGAATCTTTCACTTCTACTGAATCCAACTAGTAACTTCTGAGAGGCTGCCACATTTTTCTGCTATTCTCCTTGCCCGGTGG
Celera SNP ID:            hCV11975254
SNP Position Genomic:     41927
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,3)   total(C,73|T,3)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)    ;(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45833):
TTTAATAAATTAGGATACATTCATACAATGGAATACTAAGCATCAAAAAAAGAGGATGCAAACACTCTGTATGTACTAATACAAAAAGTTCTCCAAGATA
Y
GTTATTAAATTAAAAAGCTGGGATGTAGTATAGCGTGTATACATAGCTGCCTTTTGTTAAAGGAGTGAAAGGGATAAGAATATTTATATTTTCTTATTTG
Celera SNP ID:            hCV11342076
SNP Position Genomic:     38242
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45834):
GGAATAGGGAAGGAAGAAGACAAAGAAAGGAAGAAAGGAGAAAAGAAAAGAAACTAGGAAAGGAAAAAGAAAAGAAAGGGAAGAGAAAGGAAGGGGAGGG
R
AAGGATTAATCATTTCAGTTTTCAAAAAGTGTAGTTGCTTCAGTAAGAGGAGTTTTATTGGCCTTTTACCCCATCATGTAAAACATTTCAGGCTTTTTTC
Celera SNP ID:            hCV2481760
SNP Position Genomic:     30674
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45835):
TGGAAATCTAACTATACAGATACACTTGTTCACAGGTGAAATGATGTATGTACAACATATTCACTGTTGCAACGTTAGTAGTAGTAAGACTGGAAACAAC
Y
CAAAATGTCCATCAGTAGAAAACTAGTTTAATAAATTAGGATACATTCATACAATGGAATACTAAGCATCAAAAAAAGAGGATGCAAACACTCTGTATGT
Celera SNP ID:            hCV11342077
SNP Position Genomic:     38115
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45836):
ATCCAACACAAAAGGGTGTGTAATGATGATTCCATTGATATGACATTACAGAAAAGCCAAATTATAGTGAAATAAAGCAGATTAGTGGTTGTCTGGGCCC
R
GAGGGCATTGGCTACAAATGGCATGAAGAAATGTTTTGGAATGATGGAACTCTTCTCTATCTTGATTGGAACTATAGCTATAAGACTGGGTAATTGTTTT
Celera SNP ID:            hCV2481761
SNP Position Genomic:     30367
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45837):
CAGTCTTGCTTCTCAATGCAGAATCCTTTCTTCCCATGCACTAACTCCCTCTTTCTCCCTTGCCCTTTCAAGCCACCTGCACCGCAGACAAACTTTCCTC
R
GTTCCTAACAACCAAACTTAGATATTTTGCTCTTAGATTTATAACTTGCTCTTTGGGGATGGAGAAAGCGAAGGAATTGGCAAAGGTTTTTTTTTTTTTT
Celera SNP ID:            hCV11342078
SNP Position Genomic:     36043
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;JBIC-allele(A,230|G,1265)   total(G,1265|A,230)
SNP Type:                 INTRON


Context             (SEQ ID NO:45838):
GACTTGTCATTAAAACAATCAAAAAGTAAGTAAAAATAACAATTGAAAATCCTCACATCATCTTCACATCTTCTTCCCTTAGGCAGAGCTTCGACCACTA
S
AGCTAGAGAGCTGAGAGGATTAAGTGCTTGAACTCAGCCCTATTGGCGGTTCTGGTGATTTGACTCCCTCCAGCTGAGATCAGACTGGGGTGACCAAACA
Celera SNP ID:            hCV11975256
SNP Position Genomic:     35208
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,6)      total(G,6|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45839):
ATATAAAGATGGCAGTTTTAAATTCAACCATATCATCAATTACATTAAAAGTAAATGGAAAGAACACTACAATTAAGAAACAAATAAGATTGAATAAAAA
A
GCAATGCTAAACTGTATGCAGAATTTAAGAAATCCACTTTAATGAGAGAGACAAAGATAGGTAAAAAATAAAGGATAGAAAATTATATACCATACCAGCT
Celera SNP ID:            hCV2481762
SNP Position Genomic:     30159
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45840):
ACACTGCATTTTAAGGAGAGTGTGTAACCCCAAAGTGATTTCGTTGACTTGTCATTAAAACAATCAAAAAGTAAGTAAAAATAACAATTGAAAATCCTCA
Y
ATCATCTTCACATCTTCTTCCCTTAGGCAGAGCTTCGACCACTAGAGCTAGAGAGCTGAGAGGATTAAGTGCTTGAACTCAGCCCTATTGGCGGTTCTGG
Celera SNP ID:            hCV11975257
SNP Position Genomic:     35163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45841):
TCCTTTAGATAGAAGAAATATTATGTCAGAGAGACATTTAGATTCATAAGAAGGAATGAAAAGTTCCAGAAGTTGATAAATATAGAGAAATTTTTTCCTC
R
TTTTAATCTATTAAAAAGGCAATTGATTATCTAAATGTTAAAGCAAAATAGTAACAATTTATTGTGGGGTATATTATGTATATATAAATAAAATGTATGA
Celera SNP ID:            hCV2481763
SNP Position Genomic:     29698
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45842):
CTTCCACCAAAGCCTCCTAGTGATGCAAGGAATCCTGGCTTTGTTGCAATGGTCTCCTAAAAAAAACAAGCCTTTGTGTGGGTAAGGAACTGATTCTCAG
S
CCCATTATCTAGTATCTAGTGATTATGTATCTGAGATGTAAAACAGAAACCTAAAAGCCAAGGATGGAGTCTCCCCACAGAGCAAATGAGCATTTTCCCA
Celera SNP ID:            hCV11975258
SNP Position Genomic:     34859
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,8)      total(G,5|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45843):
GCAGAAAGAATTTCTCACTAACAGAGCAGAAAAAAATGTTAAAGGAACTCCTTTAGATAGAAGAAATATTATGTCAGAGAGACATTTAGATTCATAAGAA
R
GAATGAAAAGTTCCAGAAGTTGATAAATATAGAGAAATTTTTTCCTCGTTTTAATCTATTAAAAAGGCAATTGATTATCTAAATGTTAAAGCAAAATAGT
Celera SNP ID:            hCV2481764
SNP Position Genomic:     29650
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45844):
AAGTATATGGATGCCAAGAAAAGCAAAACCATATGCACAAAAATAAAAATAAATTGATCTGAGCTTAGAGTTTACGAATTTATAGTTCCCAAAAGAATAA
Y
TGGGGGTAAATGGGACAAGGTAGGGAAAGACCATCAGTAGAAACTAAGAATAGTAAACATTTGTAAAAACCCTCTGCCTTATAAAGCAGAATAAATTGAA
Celera SNP ID:            hCV11975259
SNP Position Genomic:     34583
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   no_pop(T,-|C,-)   JBIC-allele(T,203|C,1100)   total(C,1100|T,203)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45845):
AGGTACAATTAAAGAAGGGAAGCTGACATTGCTGTAATGTAAAAAAATATTTTATATGGAAATTTAGCATCTCAGACTTTGGCTTCAGAACATAAGGAAC
M
AGATTTACCCTTTTTCTCAACAACTAGACAGGCAGACAAAACATATAAAACAGAAGTTTTCAGACATCGAATGACAGACAACTCAAGACAGTAAAAGAAG
Celera SNP ID:            hCV2481767
SNP Position Genomic:     27964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45846):
AATACAATCCAGCACTTTTCCTTGAGGAACTCACACTTGGGTGACCAAAATGTGCAGGACACAAATACTTATGATCTAGTAGAAGAAAATGAATTAGTCA
Y
ATAATCTCACAGGCATTTAATTACAAATTGTGATGGGTGCTGTAAAAGAAAAAAATGTGTATCAGAATTGGAGATAAAGGTAGAAGTGAACAGATATTCA
Celera SNP ID:            hCV2481768
SNP Position Genomic:     27295
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;(C,-|T,-)   JBIC-allele(T,473|C,992)   total(C,992|T,473)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45847):
TGAACAAAATTGGTCCAGTAAGAACTGATCATCAGAAAGCAGAAAAGGGCAGCTAAGATCCAGATCCAACAAAATTCTGTGCAGGAGTTTGGTCCTGTTG
Y
TAACCAGATCTCCAGGTTTTTGTTTTTTAAAGAGAAACCAGTAATCCAAATTCTTATATAATTTCTCCGGATGTTTAATGTTGGCATTTAATCTATTTTA
Celera SNP ID:            hCV2481769
SNP Position Genomic:     26921
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45848):
CTCAATACACTTGGTGAGTGAATGTTTGATCACAGAGTACTTGACTGAATGCTTATTTTGGCCTGTGTCTCTCCCTCTTTCTCAGATATAACAGTTTGTG
Y
CCATGACCACATCAGCTGGCATCTGCTGGGAATGAGCTCGGGGCCAGAATTATTCTCCATTCATTTCAACGGCCAGGTCCTGGAGCAGAACCATCATAAG
Celera SNP ID:            hCV27861961
SNP Position Genomic:     35719
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45849):
CTTAACAAGACCATACTACAGTGACGTGGACATCATGAGAGACATCGCCTCTGGGCTAATAGGACTACTTCTAATCTGTAAGAGCAGATCCCTGGACAGG
Y
GAGGAATACAGGTATTTTGTCCTTGAAGTAACCTTTCAGAAATTCTGAGAATTTCTTCTGGCTAGAACATGTTAGGTCTCCTGGCTAAATAATGGGGCAT
Celera SNP ID:            hCV27861962
SNP Position Genomic:     42771
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:45850):
GATAATGCTGTTCAGCCAAATAGCAGTTATACCTACGTATGGCATGCCACTGAGCGATCAGGGCCAGAAAGTCCTGGCTCTGCCTGTCGGGCTTGGGCCT
R
CTACTCAGCTGTGAACCCAGTAGGTACTTTCATTGAAAGTTTTTCTCATTCCCCTAACCTCGTAATCTGAAGTCCACCAAATGGAAGAGTCGGGGTTATT
Celera SNP ID:            hCV27861963
SNP Position Genomic:     61776
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45851):
CATATTTTAAATATATGAGTTGCATATGAATGTGATGTCACAAAATTAGTTCTATAATATATAGCCATCTGCTGGTAAGCCAGCTCTCCAAATAAAACAC
R
TTTTCTGCCAGACATTGTTCGTTGTATCTAAGTGTTGCCAAATTCTCTATACAAAAATTTGCTCTTCTAGATTTTTCCAAAACATTCCAATGCTTGACTT
Celera SNP ID:            hCV9945908
SNP Position Genomic:     23265
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;JBIC-allele(G,627|A,678)   total(G,627|A,678)
SNP Type:                 INTRON


Context             (SEQ ID NO:45852):
CTTTAAAAAGCTTGTTTCATGGAGAATTTAATATTATTCTTTTCTTTTAGTTATATTCTCATATTTTAAATATATGAGTTGCATATGAATGTGATGTCAC
M
AAATTAGTTCTATAATATATAGCCATCTGCTGGTAAGCCAGCTCTCCAAATAAAACACGTTTTCTGCCAGACATTGTTCGTTGTATCTAAGTGTTGCCAA
Celera SNP ID:            hCV9945909
SNP Position Genomic:     23206
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,4)      total(A,4|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45853):
TGATTCACATGGTGAGTACACAGGGAACCATGACTGGTCATTCTGTCCCCTCATCCTGTGGGTAAGTTTCCAAAGTTCTGGAGATTCGTTCCTCTGGTAG
S
AATTGTTGAGTCAAAACCATAGAAACACAACCCAGACAAACTGTCATATTGTTTAACCCTAAATCATATCATTTCTCTCTAGCATTTTCTTATGAAAAAT
Celera SNP ID:            hCV325211
SNP Position Genomic:     7757
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,4)      total(G,4|C,4) ;no_pop(G,-|C,-)   JBIC-allele(G,204|C,1271)   total(G,204|C,1271) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45854):
GAGTCTCACTCTGTCGCCCAGGCTGGAGTACAGAGGTATGATCTCAACTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCC
Y
GAGTAGCTGGGATTACAGGCACCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGCTGGTCTCAAACT
Celera SNP ID:            hCV27242830
SNP Position Genomic:     58020
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45855):
TTGCTACTGTGAATAATGCTGTGATGAACATCCTAGTACATGTGTCTTTTCAGTAGAACAATGTATTTTCTGTCTTTCTTTCTTTTTTTTTTTTTTGAGA
Y
GGAGTCTCACTCTGTCGCCCAGGCTGGAGTACAGAGGTATGATCTCAACTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTC
Celera SNP ID:            hCV27242831
SNP Position Genomic:     57918
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45856):
ATAGTACCCAATAGTTTTTCATCCCTTGCTCATCTCCTTCCTTCCCCCTTCTAGAAGTCCCCAGTGTTTATTGCCATCTTTATGTTCATGAGTACCCAAT
R
TTTAGCTCCCACTTATAAGTGAGAACATGTGGTATTTGGCTTTCTGTTTCTGCATTAATTCACTTAGCATAATAGCCTCCAGCTGGCATCCATGTTGTTG
Celera SNP ID:            hCV27242832
SNP Position Genomic:     57603
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45857):
ACTAAAATAAGGACTGAACTTTGTGACCTCCACAGTCCTGTGTAAAGCTAACATAAAAACAAACAAAAAGCTTCAGGCACAAGATCAGAATAAACTCCAG
S
AGTAGGAGTTCAAGGAAAGGAATAGGACAACCGTGGGTGGCAAGACAGGGGTAGGGAAAGATAGGACCTCTGTCCCAGAAATCAGAGTTTACCATTGCTT
Celera SNP ID:            hCV341182
SNP Position Genomic:     16222
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45858):
GGAGTTTTAGACCAGCCTGGGCAATGTAGTGAGACTCTGTTTCTATTTAAAAAAATACATACATATATATATATATATATATATATATATATATATATAT
T
TAAATTAGCCAGACATGGTGGTACATACCTGTCATTTCAGCTACTGGGGAGGCTAAGGCAAGAGGGTCATTTAGGACAAGAGCATCACTTGAGCCCAGGA
Celera SNP ID:            hCV27242905
SNP Position Genomic:     15011
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45859):
GAGACTCAAAAGGGAACGGGGGATGGATGAAAAGCTACCTATTGGGTACAGGGTACACTACTCAGGTGACAGGTACACTAAAATCCTAGACTTCACCACT
M
TACAATTCATCCATGTAACCAAAAACCACTTGCATTCCTAAAGCAACTGAAGTTTTTTAAAAAATTTAAAAATCAAAATTAATGCACGAAAGCCACAATA
Celera SNP ID:            hCV27242833
SNP Position Genomic:     57129
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45860):
AGGAGTTTTAGACCAGCCTGGGCAATGTAGTGAGACTCTGTTTCTATTTAAAAAAATACATACATATATATATATATATATATATATATATATATATATA
T
TTAAATTAGCCAGACATGGTGGTACATACCTGTCATTTCAGCTACTGGGGAGGCTAAGGCAAGAGGGTCATTTAGGACAAGAGCATCACTTGAGCCCAGG
Celera SNP ID:            hCV27242906
SNP Position Genomic:     15010
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45861):
CAGGAGTTTTAGACCAGCCTGGGCAATGTAGTGAGACTCTGTTTCTATTTAAAAAAATACATACATATATATATATATATATATATATATATATATATAT
A
TTTAAATTAGCCAGACATGGTGGTACATACCTGTCATTTCAGCTACTGGGGAGGCTAAGGCAAGAGGGTCATTTAGGACAAGAGCATCACTTGAGCCCAG
Celera SNP ID:            hCV27242907
SNP Position Genomic:     15009
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45862):
AATAAATCTAAGGCTTGGCTGATCCAGGCCCCACTTGGCTGCTGAAGGGCTGGAGGTGGGAAGAGGGATCAATAAATAGGTGCACTAGAAACCTGCCATG
R
CACACCTGTCAGGAGTTGCAGTACTTCCCTTTGGGTGGAGAGAAGCCACCATGATTCACAATGGAGAAAGTAGCTGAAACCTGGAATCAGTTTCCTGTTG
Celera SNP ID:            hCV27513570
SNP Position Genomic:     72893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45863):
AGTAATATTCAGTGGCATCTAGAATATTTTCTCTTTCCATTTGCATTTGGGCACTTATGAGAAGGCAAAATCATAGCAATCGTTAAGAGAAAAAATAACT
R
ATTCCCACTTAGACCACATCTCTTCTATTTCTCTCTGGTAGAACTGACCTACAACTAAAGATCCAGGGTATATGATACTAGCCTGAGGGAAAAACATTAA
Celera SNP ID:            hCV27498200
SNP Position Genomic:     33953
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,429|G,484)   total(G,484|A,429) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45864):
GCCAGGAGTTTTAGACCAGCCTGGGCAATGTAGTGAGACTCTGTTTCTATTTAAAAAAATACATACATATATATATATATATATATATATATATATATAT
A
TATTTAAATTAGCCAGACATGGTGGTACATACCTGTCATTTCAGCTACTGGGGAGGCTAAGGCAAGAGGGTCATTTAGGACAAGAGCATCACTTGAGCCC
Celera SNP ID:            hCV27242908
SNP Position Genomic:     15007
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45865):
AACTAGGCACAATGGCTGACCTCATGGCACTTATACCCAGTGAGAGACAGATATTAATAGATAATCTCACAAATAAATTATATATAATCTACAATATATA
Y
TCTAGAGATATTATAAGAATACTACAGGAATTTACTATATATACTATAATAATACTATAGAAATATGAGAAATTGATATAGAGACTTGACCTAGTCTAAA
Celera SNP ID:            hCV27242836
SNP Position Genomic:     55578
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45866):
CAAGGTGGGAGGATTGCTTGAGGCCAGGAGTTTTAGACCAGCCTGGGCAATGTAGTGAGACTCTGTTTCTATTTAAAAAAATACATACATATATATATAT
R
TATATATATATATATATATATATATTTAAATTAGCCAGACATGGTGGTACATACCTGTCATTTCAGCTACTGGGGAGGCTAAGGCAAGAGGGTCATTTAG
Celera SNP ID:            hCV27242909
SNP Position Genomic:     14985
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45867):
CTTCTTGGACTCTTAAAGCAGTGCTTTCCAATATTTTTTACTTCAAAGCACACAAAGAAAATAATATCTGCCTGGCATTCTGAGGTAAAAGAATGAAGCA
W
TAAATCTAAGGCTTGGCTGATCCAGGCCCCACTTGGCTGCTGAAGGGCTGGAGGTGGGAAGAGGGATCAATAAATAGGTGCACTAGAAACCTGCCATGGC
Celera SNP ID:            hCV27513571
SNP Position Genomic:     72794
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,119|A,1372)   total(A,1372|T,119) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45868):
TTTTAATTTTTAAAGGAACCTCCCATACTGTTTTCCATAATGGCTGTACTAATTTACACTCTCACCAAGAGTATACAAGAGTTCCCTTTTCTTCACATCC
W
TGCCAACATTTATCTCTTGTCATTTTTATAATAGCCATCCTAACGGTGTGAGGTGAGCCCTCATTGTGATTTTAAATTGCATTTCTCTGATTATTAGTAA
Celera SNP ID:            hCV27242837
SNP Position Genomic:     54743
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45869):
CTACTATTTGCTGTGTTTGATGAAAGCAAGAGCTGGAGCCAGTCATCATCCCTAATGTACACAGTCAATGGATATGTGAATGGGACAATGCCAGGTAACA
Y
GAGGGCTGTGTACCATTAAACAACAGTAAAATCATTAGTAATTTTTCGGTCCTGTTTTCTTCAAAGCACTAGAGAAGTTGACCATACTCACTGTTTTGCA
Celera SNP ID:            hCV11975260
SNP Position Genomic:     33425
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)    ;WIAF-CSNP-P(1(T,3|C,105)   total(C,105|T,3)JBIC-allele(T,28|C,1473)   total(C,1473|T,28)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45870):
GACAGAAAGAAGGCAAGTAATCCAAAGATGGATTGACACATCAAAGTAGAGCAAAATGAGTATAGGGACCCAAGAGTCTTGGAAAGGCATGCATGAAGAC
R
TTTCAAGTGATCAGTAAGATTTTCAGAACAAAAGGAATTCCCTGAATGAGGGTTCCGGCATTTGCTGCAGTTCTAAAGTTCAGTGGCCAAAAGCACTGCC
Celera SNP ID:            hCV27513572
SNP Position Genomic:     46615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45871):
AATGGAGTATCAGTGAGGACAGTGGACCCACCCATGATGACCCTCCATGCCTCACACACATCTATTACTCCCATGAAAATCTGATCGAGGATTTCAACTC
K
GGGCTGATTGGGCCCCTGCTTATCTGTAAAAAAGGTAAGAACACCCCCACCAAAAGATTCAACAACTAAATGTTGGAATGGTCAGGAGTTCTGTCATGGG
Celera SNP ID:            hCV11975261
SNP Position Genomic:     31983
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,22)   caucasian(G,30|T,8)   total(G,42|T,30)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,5|G,85)      total(G,85|T,5) ;WIAF-CSNP-P(1(T,10|G,90)   total(G,90|T,10)(G,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45872):
GATTTGAGAGTGGTGAAAACGCAATCCTCAGAAACTGCCCACATGTCTTGATGGCTGTTACTCCTCCAGGTGCTTCTTACCTTGACCACACATTCCCTGC
R
GAGAAGATGGACGACGCTGTGGCTCCAGGCCGAGAATACACCTATGAATGGAGTATCAGTGAGGACAGTGGACCCACCCATGATGACCCTCCATGCCTCA
Celera SNP ID:            hCV11975262
SNP Position Genomic:     31836
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,13)   caucasian(A,7|G,31)   total(A,26|G,44)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,5|G,85)      total(G,85|A,5) ;(A,-|G,-)   WIAF-CSNP-P(1(A,10|G,90)   total(G,90|A,10) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45873):
TCTCTCACCCCAAAACATTTGCAAGGCAAGAAACTCTCCTGACAGTCTTGCTTCTCAATGCAGAATCCTTTCTTCCCATGCACTAACTCCCTCTTTCTCC
Y
TTGCCCTTTCAAGCCACCTGCACCGCAGACAAACTTTCCTCAGTTCCTAACAACCAAACTTAGATATTTTGCTCTTAGATTTATAACTTGCTCTTTGGGG
Celera SNP ID:            hCV11342085
SNP Position Genomic:     36001
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;JBIC-allele(T,476|C,997)   total(C,997|T,476)
SNP Type:                 INTRON


Context             (SEQ ID NO:45874):
TCCCAAAGAGAAATTCTGTCACCAGCTGATGATAGGGAATCTTTCACCTAATTAAATGAGGAATTCCTCAGGCAGAGGAAACTGTTCATTCCACTTGGCT
M
TCTATGGCACTCACCTCTCCCCTTCCTGACCTCACTTGCTCCATTTTATTATTGAAAACCTCACCCAACCCTCTACACTTCTTTTAATATTGAGTATCTC
Celera SNP ID:            hCV11975264
SNP Position Genomic:     30972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,12)      total(A,5|C,12) ;no_pop(C,-|A,-)   JBIC-allele(A,473|C,1018)   total(A,473|C,1018) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45875):
CAGTTGGAAAGAAGATCTGAAATAGCAAAACAAAATAATACATAAACAGCTCTGACTATCCTCCCATCTCATGTTAATAGGCTAAGTATGTCTTATTAAA
S
ACCACAAAGAAGATATCACCCATTCTTATATTCTGAGATGGTTTACTAATCAAAGGCGATTCAATTCTCTGATTATATTTAAATAATAATTGTTCAGGTA
Celera SNP ID:            hCV11342089
SNP Position Genomic:     31448
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,8)      total(G,3|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45876):
AGACACAACAAAGTCCACTTTATGCTAGCGCAAAGTTCACAAACTCAGATGCCTATAGTAGCCAGATAAGTAGTTCAGTGAACAAAATTGGTCCAGTAAG
D
ACTGATCATCAGAAAGCAGAAAAGGGCAGCTAAGATCCAGATCCAACAAAATTCTGTGCAGGAGTTTGGTCCTGTTGTTAACCAGATCTCCAGGTTTTTG
Celera SNP ID:            hCV11975268
SNP Position Genomic:     26843
SNP Source:               dbSNP
Population(Allele,Count): (T,-|A,-)   JBIG-allele(G,261|A,440)   total(A,440|G,261)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45877):
CAAAGTGAAAGTACAGCCTAGAGTAAATATTAGTTATTAGTGTCAAGCTATCCTTTGGGGTGTGTTGGGGGAAGACACAACAAAGTCCACTTTATGCTAG
Y
GCAAAGTTCACAAACTCAGATGCCTATAGTAGCCAGATAAGTAGTTCAGTGAACAAAATTGGTCCAGTAAGAACTGATCATCAGAAAGCAGAAAAGGGCA
Celera SNP ID:            hCV11975269
SNP Position Genomic:     26771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45878):
AAGAACTTTTTCAACCCCCCAATCATTTCCAGGTTTATCCGTGTCATTCCTAAAACATGGAATCAAAGTATTGCACTTCGCCTGGAACTCTTTGGCTGTG
R
TATTTACTAGAATTGAACATTCAAAAACCCCTGGAAGAGACTCTTTAAGACCTCAAACCATTTAGAATGGGCAATGTATTTTACGCTGTGTTAAATGTTA
Celera SNP ID:            hCV11975197
SNP Position Genomic:     78255
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,32|G,2)   total(A,66|G,2)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)   ;(A,-|G,-)   WIAF-CSNP-P(1(G,3|A,105)   total(G,3|A,105) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45879):
TTTGATTACAAAGTCAAAATCACATTCACCAAAACTGCATCTCACAAATGCTTCCTCTTAATAGCTGTTTGTATTTTATACTTTATATTAATGTATGTTG
Y
AAAATCAAAGATACAACAAACCTGTTTTATTCTAGACTAAAGGTAAAATAATTTGAAGTGAAAAGAATAAAAGCATTGATAAAATTACACCCCAATTGTC
Celera SNP ID:            hCV2481776
SNP Position Genomic:     24131
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45880):
AACAAAATCCTTTTGAGCTCTGTGCTTTTTTGCATAACTTGGTCTAAAAAAAAAGCAAAGGTTTTAACATCTTCCTTATCTATGTGTTTTTGTCATTTTC
R
TAGGCAAACAACAATAAGCAGTGGCTAGAAATTGATCTACTCAAGATCAAGAAGATAACGGCAATTATAACACAGGGCTGCAAGTCTCTGTCCTCTGAAA
Celera SNP ID:            hCV11975198
SNP Position Genomic:     76949
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45881):
CCATACCTACATACATGCCCAATGTATTTACTCATTATACAAAGACTTTTTTTCCATTTCCTGGTATATATAAGATACTGTGATGGTACTGAAAAAAACC
K
TAAAACTTACAAAAGACTCTTCTTGCATTTTACCATCAGCAGCATGTTTTTCTCATAGTGAGAATGGATTAATGCTGATACTTCCACCCAATTATCTAAT
Celera SNP ID:            hCV343295
SNP Position Genomic:     32778
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,8)      total(G,1|T,8) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45882):
TCTCTTCTTTTCAGTTTAGAGCTTAATTTTTTTTATTTTGATTACAAAGTCAAAATCACATTCACCAAAACTGCATCTCACAAATGCTTCCTCTTAATAG
Y
TGTTTGTATTTTATACTTTATATTAATGTATGTTGTAAAATCAAAGATACAACAAACCTGTTTTATTCTAGACTAAAGGTAAAATAATTTGAAGTGAAAA
Celera SNP ID:            hCV2481777
SNP Position Genomic:     24095
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45883):
TTGTGGTTATTGTTTTTGTCATTTGTTGGTAGTAATATTATTTCTTATCTCCTCTGCAGTGCATGAAGCCATGCAGGGAATATTGGTGTGTAATTAATCA
M
GTTACTTTTCTTTTGATAGGATGTTCCACACCCCTGGGTATGGAAAATGGAAAGATAGAAAACAAGCAAATCACAGCTTCTTCGTTTAAGAAATCTTGGT
Celera SNP ID:            hCV11975199
SNP Position Genomic:     73996
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(A,3|C,35)   total(A,3|C,67)
SNP Type:                 INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45884):
GCAGCTGAACAAGGACTTCTTGTGCTCTAGCACAATAGTTGTCCCTGTCCATTTCTCTTCTTTTCAGTTTAGAGCTTAATTTTTTTTATTTTGATTACAA
A
GTCAAAATCACATTCACCAAAACTGCATCTCACAAATGCTTCCTCTTAATAGCTGTTTGTATTTTATACTTTATATTAATGTATGTTGTAAAATCAAAGA
Celera SNP ID:            hCV2481778
SNP Position Genomic:     24042
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:45885):
AACGGCTATAGTTTGTATATTTAATAAATCACAAAAATGTGGATCCCTTTTCCAAAGAGACTTGCAAGTCCTGTGCAATGAAATCAGCTCTTTATAAAAC
R
TCAGCATTGATTCGCCCATTGCCTACATTATAGCTTCTAAAAGAATATTCTGAATCTTTGAATGTAGTGAAGCATTCACTAAGTTTATTAACTTAGGAGA
Celera SNP ID:            hCV2481779
SNP Position Genomic:     23562
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45886):
GGCAAGAGGATTACTTGAGAGGAGTTTAAGGCTGCAGTGAGCCATGACTGTGCCACTGGACTCAAGCCTGGGCAACAGAATAAGACCCTGTCTAAAAAAA
M
ACAAAAACAAAAAACCTTAGCCATTTATGTTGTCATTAAAGATTTTCTCTTATTTGGCTTTCAGATTTTTGAAGGAAATACTAATACCAAAGGACATGTG
Celera SNP ID:            hCV15955264
SNP Position Genomic:     78054
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,37|C,3)   total(A,73|C,3)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45887):
GACCTACCTGAGATTCAAACTAGGCCTGACTCTTCCAAAGTCCTCAGGTCACTCAAACTTCAATGTCATGACAGTATCTGGCAACATCACTGCCATATAT
R
TGGTGTTCAATGAGTGTTTTTGAAATCTGAATTGGCTTCCCAACTTCCTGAAACCACAATTCTTCTTTATATTTTCTTTCATACCCTGTGTAGGTACTCA
Celera SNP ID:            hCV15955265
SNP Position Genomic:     72459
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,351|A,1126)   total(G,351|A,1126)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45888):
GGGTCATTTTTAGGAATTCTGTCTTGGGCTTTAAAATGGCTAGTCTTGGCTGGGCATAGTGGCTCATGACTGTAATCCCAGCACTTTGGGAGGCCAAGGT
R
GGAGGATTGCTTGAGGCCAGGAGTTTTAGACCAGCCTGGGCAATGTAGTGAGACTCTGTTTCTATTTAAAAAAATACATACATATATATATATATATATA
Celera SNP ID:            hCV27242910
SNP Position Genomic:     14891
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45889):
ATAAAAATCCCTCTCATTACCCCTTTATAGTCACATCTGCCTTCCTCCCACCATAGCCCTTCCTTATTCCCTGGCAACCAGTAGTCTGATCTCCATTTCT
R
TAATTTTGTCATTTCAAGAATATTACATAAATGGAATCAGGCAACATGTAACCTTTGGGGACTGGTATTTTTTCACTCAGTATAATTCTCTGGAGATTCA
Celera SNP ID:            hCV340604
SNP Position Genomic:     53837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,11)      total(G,2|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45890):
AGCTGGGGTCATTTTTAGGAATTCTGTCTTGGGCTTTAAAATGGCTAGTCTTGGCTGGGCATAGTGGCTCATGACTGTAATCCCAGCACTTTGGGAGGCC
R
AGGTGGGAGGATTGCTTGAGGCCAGGAGTTTTAGACCAGCCTGGGCAATGTAGTGAGACTCTGTTTCTATTTAAAAAAATACATACATATATATATATAT
Celera SNP ID:            hCV27242911
SNP Position Genomic:     14886
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45891):
CCGAGGGAGTGAGATGCAGGGCCTGTCCAGAGTGAATAGGGATGGAACCACCTTCAAAATCTTGTATTCCATTCAAGGCTCACAACCCACTTTTATGGCA
K
TCGGAGTTGCTTTACCCACTCCCTTGTGTTCTGTGAGTTTGCATGTTATGCTCAGAGTCTGGAAAGATGGGATTAGTAGGGGAGGTAGACCAGAAGAAAG
Celera SNP ID:            hCV340605
SNP Position Genomic:     53243
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,8)      total(G,3|T,8) ;(T,-|G,-)   no_pop(T,-|G,-)   JBIC-allele(T,123|G,1374)   total(G,1374|T,123)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45892):
GTACAGCTGGGGTCATTTTTAGGAATTCTGTCTTGGGCTTTAAAATGGCTAGTCTTGGCTGGGCATAGTGGCTCATGACTGTAATCCCAGCACTTTGGGA
K
GCCAAGGTGGGAGGATTGCTTGAGGCCAGGAGTTTTAGACCAGCCTGGGCAATGTAGTGAGACTCTGTTTCTATTTAAAAAAATACATACATATATATAT
Celera SNP ID:            hCV27242912
SNP Position Genomic:     14882
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45893):
TTAATCTGATGCCTGACATCTCCACATTAGAACTCTGTTTAAAACACCTTTTCCTATGACTTCCTATTTAAATGTTGCACTCAATACCACATGAGAACAA
C
TAGCTACCTGAGTATTTCTAAGCAAGGCCCCGAGGGAGTGAGATGCAGGGCCTGTCCAGAGTGAATAGGGATGGAACCACCTTCAAAATCTTGTATTCCA
Celera SNP ID:            hCV27242840
SNP Position Genomic:     53113
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,6)   total(C,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45894):
GATGTAGAAATCTCCTTTTTGCATTTACTTGTTTAGATCAGAATTTCTAAGAGATCCAAATCCCTTTTTTAAAAGAATATTTACAATTCAGTTTTGCTTA
S
GGGTAGAAAGCCATGTTGAACTGGGCTCTTTGTTCTGGGATGAAGATACAGAAAGAGAAGAGAGAGGAGGAAAGGAGCAAGGCTTAGTCAACTACAAATT
Celera SNP ID:            hCV340606
SNP Position Genomic:     52764
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45895):
CATTAATCTGATGCCTGACATCTCCACATTAGAACTCTGTTTAAAACACCTTTTCCTATGACTTCCTATTTAAATGTTGCACTCAATACCACATGAGAAC
A
ACTAGCTACCTGAGTATTTCTAAGCAAGGCCCCGAGGGAGTGAGATGCAGGGCCTGTCCAGAGTGAATAGGGATGGAACCACCTTCAAAATCTTGTATTC
Celera SNP ID:            hCV27242841
SNP Position Genomic:     53111
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45896):
TCAGTGACTTTTATGAAGTTATTTAACCTCTGTGTGCCTCATCTTTCTCATCTGTAAAATGGTAATAATAATCATGTCTCTGTCATACAGGTTTGTTGTC
R
TGAAATCTTAGAATAATGACTGGCATATAACAGATAATAAATATTAGCCATGATAGTAAAGATAATTCTTCAATTAAAATGTGTTCAAATAATTTAGTAT
Celera SNP ID:            hCV15955269
SNP Position Genomic:     21729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45897):
CTGCCCCTTCCTTTCACATACTAAGCTCCACCTCCCCACTGGATAACTGTCAGTTCTCTAAAAAGGCCACATTTTCTGGCACCTCAGGGCCTTTGCGCAC
R
CTACTCTAACTTTTTAGAATGTCTTTGGCCATCCCTTTTCCTCTCTGCCTTTGGACCTCAGTTAAAGGATTAATTCCTCGGGAAGGGATTCCCCAACTCA
Celera SNP ID:            hCV348381
SNP Position Genomic:     17337
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45898):
AGACCTCAGCCAGACAAACCTCTCTCCAGAACTCAGTCAGACAAACCTTTCTCCAGCCCTCGGTCAGATGCCCCTTTCTCCAGACCTCAGCCATACAACC
M
TTTCTCTAGACTTCAGCCAGACAAACCTCTCTCCAGAACTCAGCCATATGACTCTCTCTCCAGAACTCAGTCAGACAAACCTTTCCCCAGCCCTCGGTCA
Celera SNP ID:            hCV27242842
SNP Position Genomic:     51344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45899):
AGTTCCAGACCAGCCTGGCCCACATGGTGAAACCCCGCCTCTACTGAAAATACAAAAATTAGTTGTGCATGATGGTACATGCCTGTAGTCCCAGCTACTC
R
GGAGGCTGAGACATGAGAATCACTTGAACCCAGGAGGTGGAGGCTGCAGTGAGCTGACATCGCATCACTTCACTCCAACCTGGGTGACAGAGCGAAACTC
Celera SNP ID:            hCV27242915
SNP Position Genomic:     12069
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45900):
GAAGTCACAAGTCCTTCCCCACAGATATAAGTCAAATGTCCCCTTCCTCAGAACATGAAGTCTGGCAGACAGTCATCTCTCCAGACCTCAGCCAGGTGAC
Y
CTCTCTCCAGAACTCAGCCAGACAAACCTCTCTCCAGACCTCAGCCACACGACTCTCTCTCCAGAACTCATTCAGAGAAACCTTTCCCCAGCCCTCGGTC
Celera SNP ID:            hCV27242843
SNP Position Genomic:     51073
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45901):
TCTGTTCTTGTACCAGTACTATACTGTTTTGTCCTCCAGAGGGCAGCAGACATCGAACAGCAGGCTGTGTTTGCTGTGTTTGATGAGAACAAAAGCTGGT
M
CCTTGAGGACAACATCAACAAGTTTTGTGAAAATCCTGATGAGGTGAAACGTGATGACCCCAAGTTTTATGAATCAAACATCATGAGCAGTAAGTCAGAG
Celera SNP ID:            hCV27859913
SNP Position Genomic:     46050
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45902):
GATCCTCAGAGTCTAGAGTCATGGTAATCACCTTCTCTAGTAGGTAATCACACATGTGAGGATGATTTCTGCATGTTCTGTTCATATAGCTTCAGATGAC
Y
GACAGCTAGGGATTATCAGAGCTGACAGGTGCCAGGTCAAATAATTCAAACAGAAAATTACTCTCAGCTTTCTTTGCATAACTTCCTTTTGGCAGTGAAT
Celera SNP ID:            hCV27242845
SNP Position Genomic:     46889
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45903):
CTTGGCCTCCCAAAGTGCTGGTATTACAGGCGTGAGCCACCGCGCCAGGCCTACATTTAAGTCTTTAATCCATCTTGAGTTAATTTTTGTATATGATGTA
W
GAAAGGGGTCCAGTTTCAATTTTCTGCCTACGGCTAGCCAGTTTTCCCAGAACCATTTATGGAATAGAGAATCCTTTCCCTATTGCTTGCTTTTGTCACA
Celera SNP ID:            hCV27242846
SNP Position Genomic:     45783
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45904):
GTTTTACGTTTAAGTGTGTTGTTGTTGTTTTTTGTTTGTTTGTTTCTGTTATTTTTGAGATGGAGTCTCGTTCTGTTGCCCAGGCTGGAGTGCAGTGGTA
Y
GATCTCAGCTCACTGCAACCTCTGCCTCCCATGTTCAGGTGATTCTCCTGCCTCGGCCCCTCGGCCTCCCGAGTAGCTGGGATTACAGGCATAAGCCACG
Celera SNP ID:            hCV27242847
SNP Position Genomic:     45461
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45905):
GGGTTTTACGTTTAAGTGTGTTGTTGTTGTTTTTTGTTTGTTTGTTTCTGTTATTTTTGAGATGGAGTCTCGTTCTGTTGCCCAGGCTGGAGTGCAGTGG
Y
ACGATCTCAGCTCACTGCAACCTCTGCCTCCCATGTTCAGGTGATTCTCCTGCCTCGGCCCCTCGGCCTCCCGAGTAGCTGGGATTACAGGCATAAGCCA
Celera SNP ID:            hCV27242848
SNP Position Genomic:     45459
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45906):
TCATCGCCTTTGGAATAGATACATCACTACAATGGATTGGAAGTTTGTGTCCTCCAAAAATTCACATACTGAAATCTAACCTCCAGTGTGATGGCATTAG
Y
AGGTGGGGCCTTTGGGAGATTTTTTTTTATTATACTTTAAGTTTTAGGGTACATGTGCACATTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCT
Celera SNP ID:            hCV11342093
SNP Position Genomic:     25159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45907):
TTATGTGCAGGATGTGCAGGTTTGTTACATAGGTAAACATGTGTCATGGAGGTCTGTTGTACTTACTACTTCATCACCCAGGTATTAAGCCTAGTATCCA
Y
TAGTTATTTTTTCTGATCCTCTCCCTCTTTCCACCCTCCATCCTCTGATAGGCCCCAGTATGTATTGTTCCCTTCTATGTGTCCATGTGTTCTCATAATT
Celera SNP ID:            hCV27242849
SNP Position Genomic:     44347
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45908):
TACAGACATAGTTTAAATATTTGTTTTCACAGGACTTCTTGGGCCTACTTTATATGCTGAAGTCGGAGACATCATAAAAGTTCACTTTAAAAATAAGGCA
S
ATAAGCCCTTGAGCATCCATCCTCAAGGAATTAGGTACAGTAAATTATCAGAAGGTAAGATAAATCTAATATTTTTCTGAAAAGGGAAAATGTCTAAGTC
Celera SNP ID:            hCV11975273
SNP Position Genomic:     20296
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,14)   caucasian(C,1|G,33)   total(C,3|G,47)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(C,5|G,91)      total(G,91|C,5) ;(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45909):
GTAGCCCTAGAAGAAATCTAGAGGTCAAACCTATCACAATTAGGGCACCAACATGTACCCTAGAGTTAACTAGGCAGAGCCCCTCAGGGGCCCAGGCCCT
K
TCTTCTTTACATTTGTACTCTGGCATTTAGCACAGAGCCTGGAACCTAGTGGATGATGATGGTCATGATCATGATGATATTAATCATTACTGAACTAAAC
Celera SNP ID:            hCV11342096
SNP Position Genomic:     24799
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45910):
ATTATTGGCATATAATATTGCCTCTGGTCCTATGAATCTAAGAAAGGTAAATACATATTGGTAGGGAAAGTAAAATTTTACCTTGGAAATGAGATGCAAA
Y
CTAGTAAGCAGATAGTATCTTTTATGGTAAAAGACAAGCCTTATAAGTTGATTTTATTATGCCCTCTGCATTAAAATAAAACATCTCCTCCTCCATGTCT
Celera SNP ID:            hCV2481780
SNP Position Genomic:     22526
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45911):
AGGGCCTTTGCGCACGCTACTCTAACTTTTTAGAATGTCTTTGGCCATCCCTTTTCCTCTCTGCCTTTGGACCTCAGTTAAAGGATTAATTCCTCGGGAA
R
GGATTCCCCAACTCACCTCCAATTGGACTAGATTCCACTGTCAAATACTCTTCAGAGTATTCCCTCCTTTTCTGTCATAATATTTACCATAGGTTTAAAT
Celera SNP ID:            hCV2481781
SNP Position Genomic:     17422
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45912):
CCAGAAATCAGAGTTTACCATTGCTTCTGTAACCAGTTACTGCAAACTTAGTGGCTAAAACAACACAAATTTATTCTTTTATGATTATATATCTGCAGAT
S
AGAAGTCCAAAATGGGTTTTATTGGGCTAAAATCAAGGTGTTGGCAGAGCTGCATTCCTTCTGGAGGCTCTGGGGGAGAATTGTTTCCTTGTCTTTTCCA
Celera SNP ID:            hCV2481782
SNP Position Genomic:     16397
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45913):
CCCAGAAATCAGAGTTTACCATTGCTTCTGTAACCAGTTACTGCAAACTTAGTGGCTAAAACAACACAAATTTATTCTTTTATGATTATATATCTGCAGA
Y
GAGAAGTCCAAAATGGGTTTTATTGGGCTAAAATCAAGGTGTTGGCAGAGCTGCATTCCTTCTGGAGGCTCTGGGGGAGAATTGTTTCCTTGTCTTTTCC
Celera SNP ID:            hCV2481783
SNP Position Genomic:     16396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45914):
CCAAGGCAGATGGATCACTTGAGGTCAGGAGTTCCAGACCAGCCTGGCCCACATGGTGAAACCCCGCCTCTACTGAAAATACAAAAATTAGTTGTGCATG
R
TGGTACATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGACATGAGAATCACTTGAACCCAGGAGGTGGAGGCTGCAGTGAGCTGACATCGCATCACTTC
Celera SNP ID:            hCV2481784
SNP Position Genomic:     12040
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45915):
TGAGGCCAGGCGTGGTGGCTCATGCACTTTGGGAGGCCAAGGCAGATGGATCACTTGAGGTCAGGAGTTCCAGACCAGCCTGGCCCACATGGTGAAACCC
M
GCCTCTACTGAAAATACAAAAATTAGTTGTGCATGATGGTACATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGACATGAGAATCACTTGAACCCAGGA
Celera SNP ID:            hCV2481785
SNP Position Genomic:     12004
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45916):
CCAGGCTGGTCTCAAACTCCTGACCTCGGGCAATCTGCCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCATTGCGCCCGGCTGAACAAT
K
TATTTTCTTTTTTGGCTATATACCCAGTAATAGAATTGCTAGGTCAAATTGTAGCAGGACAAGCCACAGACAAAAACCCCTCAGACACCAAGTTAAAGAA
Celera SNP ID:            hCV9945852
SNP Position Genomic:     58203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(G,2|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45917):
GGGTTTCACCATGTTGGCTAGGCTGGTCTCGAACTCCTGACCTAAGGTGTTCCACCTGCCTCAGCCTCCCAAAGTGCTGGTATTACAGGTGTGAGCCACT
S
TGCCCGGCTCTTTTGGGATATTTTAATCTCTGAATTTTCTTATCTGTTCTGTTTGCTTTTGCATATTACCTTTAGCTCTAACAAGTGCTGTGTACACAAT
Celera SNP ID:            hCV27242850
SNP Position Genomic:     43987
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45918):
TTGGGCCTACTACTCAGCTGTGAACCCAGTAGGTACTTTCATTGAAAGTTTTTCTCATTCCCCTAACCTCGTAATCTGAAGTCCACCAAATGGAAGAGTC
R
GGGTTATTTCTTGTCAAATGTCTGTCTTGCTTTTCATGAGGAATGCATAAGGGTGTGGTTAACAGTCTGCATTTATCATAACCAGGGACTCTCCATGCAG
Celera SNP ID:            hCV25617181
SNP Position Genomic:     61868
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,23)   caucasian(G,2)   total(A,5|G,25)
SNP Type:                 INTRON


Context             (SEQ ID NO:45919):
CTGGTTATTTTTTAATTTTAAAAGAAAAAGATGCTCATATAATTTTAAATTCAAATGCAACTTTTAGTTTTTATTTAGTATTTGTATTTATTTACAGCTT
R
CTCAGTAATACAAAGGATCTGAGACAGTTTCTCAAGTTATAAAGGCATAAAACAAGGAGTCTATGTAATTGGGATAGAATATGCGGACAAAGAAAATAAA
Celera SNP ID:            hCV27509857
SNP Position Genomic:     40186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45920):
CTCTTGAGTAGCTGGGATTACAGGCGCCCGCCACCACCCCCATGTAATTTTTGTATTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCTAGGCTGGTCT
Y
GAACTCCTGACCTAAGGTGTTCCACCTGCCTCAGCCTCCCAAAGTGCTGGTATTACAGGTGTGAGCCACTGTGCCCGGCTCTTTTGGGATATTTTAATCT
Celera SNP ID:            hCV27242851
SNP Position Genomic:     43916
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45921):
ATTACATTGCTGCTGAAGAAATATCCTGGGATTATTCAGAATTTGTACAAAGGTTTGGCCAGTTTTCTCCTTTTTTATTCTCATTTTTCCATTACTGCTG
M
AAAAAGTAGCTACTACAATTCAGGGGGATAATTGTGGGCAAATTATACTAAGAACAGTGTGGTTCCCCTATTGCAAGTTGGCCTGTTCTTTTTCCTTTGT
Celera SNP ID:            hCV25617182
SNP Position Genomic:     52336
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,35|C,3)   total(A,69|C,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:45922):
CTCCTGCCTCAGTCTCTTGAGTAGCTGGGATTACAGGCGCCCGCCACCACCCCCATGTAATTTTTGTATTTTTTAGTAGAGACAGGGTTTCACCATGTTG
K
CTAGGCTGGTCTCGAACTCCTGACCTAAGGTGTTCCACCTGCCTCAGCCTCCCAAAGTGCTGGTATTACAGGTGTGAGCCACTGTGCCCGGCTCTTTTGG
Celera SNP ID:            hCV27242852
SNP Position Genomic:     43903
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45923):
GATTCTCCTGCCTCAGTCTCTTGAGTAGCTGGGATTACAGGCGCCCGCCACCACCCCCATGTAATTTTTGTATTTTTTAGTAGAGACAGGGTTTCACCAT
K
TTGGCTAGGCTGGTCTCGAACTCCTGACCTAAGGTGTTCCACCTGCCTCAGCCTCCCAAAGTGCTGGTATTACAGGTGTGAGCCACTGTGCCCGGCTCTT
Celera SNP ID:            hCV27242853
SNP Position Genomic:     43899
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45924):
GAGATCAGACTGGGGTGACCAAACATTCCATTTTGCCGTGGACTTTTTACCAGTTCTAATAGTTAAAGTCCTGAATCTTGGGAAACCCCTCAGACCAGAA
M
AGTCGGTTACCTTCTTGGTTCCCTTCTTGGCCTAATCCTTTAGCAATCCCTGTGTTTTTGAGTTCACATCCACCATCTCTAAGCTCTGTTGTTACCTGTA
Celera SNP ID:            hCV27936993
SNP Position Genomic:     35384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45925):
GAGAGCAGTGGCACCATTTTAGATCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGTCTCTTGAGTAGCTGGGATTACAGGCGCCC
R
CCACCACCCCCATGTAATTTTTGTATTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCTAGGCTGGTCTCGAACTCCTGACCTAAGGTGTTCCACCTGC
Celera SNP ID:            hCV27242854
SNP Position Genomic:     43845
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45926):
CAGGGGCACATTATTCTGCCTACTACACCCACCAAACAAAGCCCTCCCACGGTGTCCTCCATCTCAGAGAATGGCACCCTCCTCCACCCAGCTCCCCAAA
Y
CAGAACCTCATCAGCCATCCACAGCAACTGATGTCCTTTATTCTCTACCCCACATCCAATCCATCTTCAAGTTCCAACTATTTTATCTCATAAATACATC
Celera SNP ID:            hCV27936994
SNP Position Genomic:     16857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45927):
CAGAGATAGACAGACTTTCAGCTGCCATAGCGAAATGAGATTTTTCTTTTGGGATTTGTTTTTTTTTTTTTTTTCTTTTGAGACAGAGTCTCACTCTGTC
W
CCCAGGCTGGAGAGCAGTGGCACCATTTTAGATCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGTCTCTTGAGTAGCTGGGATTA
Celera SNP ID:            hCV27242855
SNP Position Genomic:     43735
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45928):
GGACAGCCCAGAAGAATCTCATCTCAAGATTCTTAATCATAGATACACAGTCCCTTTTGCCATATAAAGTAGCATATTTCCAGGTCCCAGAGATTAGGAC
R
TGGACATCTCAGCAGGGGCACATTATTCTGCCTACTACACCCACCAAACAAAGCCCTCCCACGGTGTCCTCCATCTCAGAGAATGGCACCCTCCTCCACC
Celera SNP ID:            hCV27936995
SNP Position Genomic:     16744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45929):
AGATATACCTAATGTTAATGACAAGTTAATGGGTGCAGCACACCAACATGACACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTA
R
AACTTAAAGTATAATTTAAAAAAAATAAAAATAAAAGAATTCCTTTTGCAATATTAATTGGTTCCAGCGAAAGCTTATTTATTTATTTATTATCATGAAA
Celera SNP ID:            hCV27242856
SNP Position Genomic:     42424
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45930):
GGGGGAGGGATAGCATTAGGAGATATACCTAATGTTAATGACAAGTTAATGGGTGCAGCACACCAACATGACACATGTATACATATGTAACAAACCTGCA
Y
GTTGTGCACATGTACCCTAGAACTTAAAGTATAATTTAAAAAAAATAAAAATAAAAGAATTCCTTTTGCAATATTAATTGGTTCCAGCGAAAGCTTATTT
Celera SNP ID:            hCV27242857
SNP Position Genomic:     42404
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45931):
CAAAGTAACTCATCTAAGATTTTGGTTGGGAGATGGCATTTGGCTTCTGAGAAAGGTAGCTATGAAATAATCCAAGATACTGATGAAGACACAGCTGTTA
R
CAATTGGCTGATCAGCCCCCAGAATGCCTCACGTGCTTGGGGAGAAAGCACCCCTCTTGCCAACAAGCCTGGAAAGCAGAGTGGCCACCCAAAGTTTCCT
Celera SNP ID:            hCV25617187
SNP Position Genomic:     50397
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,2)   caucasian(A,36)   total(A,64|G,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:45932):
GGGCCTGTCGGGGGGGGGGGGTGGGGGGCGGGGGGAGGGATAGCATTAGGAGATATACCTAATGTTAATGACAAGTTAATGGGTGCAGCACACCAACATG
R
CACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATTTAAAAAAAATAAAAATAAAAGAATTCCTTTTGCA
Celera SNP ID:            hCV27242858
SNP Position Genomic:     42374
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45933):
CACGAGGGCTGTGTACCATTAAACAACAGTAAAATCATTAGTAATTTTTCGGTCCTGTTTTCTTCAAAGCACTAGAGAAGTTGACCATACTCACTGTTTT
S
CAACTCCCTATCAAGAAGGAAATATTTTCTCTTTTTTTTTTTAAACAGGAAATAGAAGAGACAAATTAGAAGCTAGAGAAGAAATGTGCAGCCTTGTTAG
Celera SNP ID:            hCV25617188
SNP Position Genomic:     33523
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(C,1|G,27)   total(C,1|G,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:45934):
AGAAACTACCAGAGTTACCTGTTGCCCATACCAGTGGGGTAAGCCCTATGAATGTATATGAGAGTTTCAAACATCCACAAAACATTGGCTTTCTAATATT
Y
GTATTCCCACTATTCCTTTCTTTTCATGATTCATGTCATTGTCCCATCAACATTTCTAAGATTTCCATTCCGTTAAGAGCAAAAGAGAATGTTGGAAGGT
Celera SNP ID:            hCV15847759
SNP Position Genomic:     79866
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:45935):
ATAAATATGCTATTTTAAAAAATAAGAATTTCTTCAAGTTGAAATCATTATGGTTGATTGCTTGCCCTAAACTCTTTGCTATCCAGGAAAGCTAATGAGC
R
TCTTCTATCTGCAGTGCTACTGAAAACATGTCTTTCCTTTCATAGGGACCCTAACTGAGGGTGGGACACAGAAGACGTTTGACAAGCAAATCGTGCTACT
Celera SNP ID:            hCV25617189
SNP Position Genomic:     33229
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,4)   caucasian(A,4|G,24)   total(A,12|G,28)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   no_pop(G,-|A,-)   JBIC-allele(G,606|A,673)   total(G,606|A,673)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45936):
CCCCCCACCAAGGGTCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCATGGCTCACTGCAACCTCCACTTCCTGGGCTCAGGCGATTCTCGCA
Y
CTCAGCCTCTCAAGTAGCTGGGACTACAGGCACACGCCCCAACGCCTGGCTAATTTTTGTATTTTTTTGTAGAGATGAGGTTTCACCATGTTGCCCAGGC
Celera SNP ID:            hCV27242859
SNP Position Genomic:     41229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45937):
AAATTCTGACTCAGCCATCAACTTTTTCCCTAACTCCCCAGACAGAATTTGTGCTTCATCCTCTCTTCTTCTGTAATATTTTGCCCATATCTCAGCAGTC
R
CTCCTATCATACATCTATCTCCAAACTAGCTTGTGAGTTCCTTCAGTACAGGGACTGTATTTGATCCAGGTAGCCAGAAACTTTCTAACACAGTGCCTGG
Celera SNP ID:            hCV3046370
SNP Position Genomic:     18787
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45938):
TTTTATTGTTGTTTTTTGAATATTTTTGATCCAAAATTGGTTGACTCCATGGATGTGTAACCATGAATATGAACCATGGTCATGGAGGGCTGACTATATA
Y
AATTCCTCAAATTCTGACTCAGCCATCAACTTTTTCCCTAACTCCCCAGACAGAATTTGTGCTTCATCCTCTCTTCTTCTGTAATATTTTGCCCATATCT
Celera SNP ID:            hCV3046371
SNP Position Genomic:     18678
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45939):
GCAATAACCTATGCACATCCTCTCATATACTTTAAATCATCTTTAAATTAGTTATAATACTGAATGCAATGTAAATACTATGTAAATTGCTATTATGTTA
K
AGTTTTATTTGTATTGTTTTTATTGTTTATTTTTTATTGTTGTTTTTTGAATATTTTTGATCCAAAATTGGTTGACTCCATGGATGTGTAACCATGAATA
Celera SNP ID:            hCV3046372
SNP Position Genomic:     18546
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45940):
CCCCAAGTATATTTTATAACCAAATTGATTTAGTTTGGACCCCATGAAAATGTAGTATTACAATATTAAATTAGATCAAAATTTTAATATAAAGTCACTT
Y
ATAGATCATTGTTACATAACTAAACTTTCCTCTTTTCTTCTAGTATTTTAATGGCAATTCAGATGCCTCTACAATAAAAGAGAATCAGTTTGACCCACCT
Celera SNP ID:            hCV25921738
SNP Position Genomic:     71871
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(C,1|T,35)   total(C,3|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:45941):
AACGCCTGGCTAATTTTTGTATTTTTTTGTAGAGATGAGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGTGATCCACCTGCTTCA
K
CCTCCCAAAGTGCTGGGGTTACAGGTTTGAGCCACTGAACCTAGCTGAGAAGATGACTTCAAAGACAGTGTCCTAAAAAATCTACCGGGCAGGGGAAGGG
Celera SNP ID:            hCV9945862
SNP Position Genomic:     41370
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45942):
CACGCCCCAACGCCTGGCTAATTTTTGTATTTTTTTGTAGAGATGAGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGTGATCCAC
S
TGCTTCAGCCTCCCAAAGTGCTGGGGTTACAGGTTTGAGCCACTGAACCTAGCTGAGAAGATGACTTCAAAGACAGTGTCCTAAAAAATCTACCGGGCAG
Celera SNP ID:            hCV9945863
SNP Position Genomic:     41362
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,9)      total(G,2|C,9) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45943):
CAATTTATTATTATCATCATTGTTACTGGGATAAAGATCAATCAGAGGAAGGAGGATTATGAATACAACAGAATTAGGTGATAAATATCCAGGCTTATTA
Y
GCCATTCATTTATAATCTTCATCTTCAAATTCAGAGCCTATCAGAAAGTTTCCTTTTCTATATGATGAGTGATTATCAGAAGAGCAAGGAAATTCCTGAG
Celera SNP ID:            hCV342589
SNP Position Genomic:     62629
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,11)      total(C,3|T,11) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45944):
ATGGAGTTTTTACAAACGCTGCATTTGACCCGAGTCCTTAAGGTAAGATCCCTATAAAGATATTTTTGAAGGAAATAGAACACTAGGGAAAAATGGAAGA
N
TATAAAGCTTAACTTTTCTTTACATAATCATATATTAAATTTTAAGTATGTATTAAATTTTCAGGCATGAAGGAAATTGTGTTGGCAGTAGGACACAGGT
Celera SNP ID:            hCV22271510
SNP Position Genomic:     2489
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,32|T,2)   total(C,64|T,6)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45945):
AAACTAGGAAAGGAAAAAGAAAAGAAAGGGAAGAGAAAGGAAGGGGAGGGAAAGGATTAATCATTTCAGTTTTCAAAAAGTGTAGTTGCTTCAGTAAGAG
K
AGTTTTATTGGCCTTTTACCCCATCATGTAAAACATTTCAGGCTTTTTTCCCCAGATCCTTGTTGTCTGCCTACATCCACACTGATGTTCTCACCTTCTT
Celera SNP ID:            hCV344909
SNP Position Genomic:     30724
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;JBIC-allele(T,468|G,1015)   total(G,1015|T,468)
SNP Type:                 INTRON


Context             (SEQ ID NO:45946):
CTAGTTCTGGTAATTTCTTTCAAAATCTTGTGTCCAGACCCACGATTATAACTTGCTTTTATAACAAAGTTTACTTCCGCCATTTTTGCTAACCGCTCAC
R
TTCAAAAACCCAGAAAGAACCCTGATTCTAAAGTAAGCTATTCTAGATTTTAAAATATAATCTACTATACCTGTGTAAGCATTCACTACATTTTCAGTGA
Celera SNP ID:            hCV70275
SNP Position Genomic:     56661
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45947):
GTGGTGTGATCATGGCTCACTGCAACCTCCACTTCCTGGGCTCAGGCGATTCTCGCACCTCAGCCTCTCAAGTAGCTGGGACTACAGGCACACGCCCCAA
Y
GCCTGGCTAATTTTTGTATTTTTTTGTAGAGATGAGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGTGATCCACCTGCTTCAGCC
Celera SNP ID:            hCV9945866
SNP Position Genomic:     41272
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45948):
CTGTTCTCTCCATAACTAAAATGTCTCTACCTCTTTTATGCCTGTGAAAACCTCTAGCTGGTTATACTCTGCATCACTGGTACAACCTTGATATGAAGAC
W
CACTAAGATACCACCCAGATGTCACTAGAGGATGTTATAGACTTAAAAGTTTTCTCATATAATCATTCTAATTCAGTTAATTTGCTTTTAAAATACATAT
Celera SNP ID:            hCV15802102
SNP Position Genomic:     75958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45949):
TTTAGCCTCAGGAGCATAGAAGTCTAGGCTCCCCATTCAGCCTTTGCTGTTGTGGGTTGGGGAGGGGCCTCAGGTTTTTCTGTGGTGTTTGGCTAAAGGA
S
AGAAGTCAGTGTCCACCAGTTTTCTATCATATCTCGCTATGCTGCCCTTTACTGGTACTTTGGTTAGAGAAAGCAGATTTTATTTGGGCTTTTTCAGTCT
Celera SNP ID:            hCV15802103
SNP Position Genomic:     71425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45950):
AAAGTTCAGGATCTGGCTATTTGTCTGTGCCTCTCAAGCAAGTAGCTTTTCCCCCCCACCAAGGGTCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGTG
Y
GATCATGGCTCACTGCAACCTCCACTTCCTGGGCTCAGGCGATTCTCGCACCTCAGCCTCTCAAGTAGCTGGGACTACAGGCACACGCCCCAACGCCTGG
Celera SNP ID:            hCV27242860
SNP Position Genomic:     41178
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45951):
GAGCATAGAAATGGGCATATGTGAATCTTTCCAAATAATAAAAGTTCACTATTGAAGGACATATGCATCTCCAGAGAACTCATCTTAGCTATCCCCAGAT
K
TGAGAGTGGTGAAAACGCAATCCTCAGAAACTGCCCACATGTCTTGATGGCTGTTACTCCTCCAGGTGCTTCTTACCTTGACCACACATTCCCTGCGGAG
Celera SNP ID:            hCV25617190
SNP Position Genomic:     31739
SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,3)   caucasian(G,4|T,26)   total(G,31|T,29)
SNP Type:                 INTRON


Context             (SEQ ID NO:45952):
AGTACATGAGCATAGAAATGGGCATATGTGAATCTTTCCAAATAATAAAAGTTCACTATTGAAGGACATATGCATCTCCAGAGAACTCATCTTAGCTATC
M
CCAGATTTGAGAGTGGTGAAAACGCAATCCTCAGAAACTGCCCACATGTCTTGATGGCTGTTACTCCTCCAGGTGCTTCTTACCTTGACCACACATTCCC
Celera SNP ID:            hCV25617194
SNP Position Genomic:     31732
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,23)   caucasian(A,1|C,37)   total(A,10|C,60)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45953):
TCATTGCGTTTTTCTTTCTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCTGCTCACTGCAAGCTCCGCCTCCC
R
GGCTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGGGCCCGCCAACACAAATACAAAATACAAAAAATATAATTTTTTGTATTTT
Celera SNP ID:            hCV27242865
SNP Position Genomic:     38937
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45954):
TATCAAAGCCTTTGTAAGTACATGAGCATAGAAATGGGCATATGTGAATCTTTCCAAATAATAAAAGTTCACTATTGAAGGACATATGCATCTCCAGAGA
R
CTCATCTTAGCTATCCCCAGATTTGAGAGTGGTGAAAACGCAATCCTCAGAAACTGCCCACATGTCTTGATGGCTGTTACTCCTCCAGGTGCTTCTTACC
Celera SNP ID:            hCV25617195
SNP Position Genomic:     31716
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,22)   caucasian(A,28|G,6)   total(A,38|G,28)
SNP Type:                 INTRON


Context             (SEQ ID NO:45955):
TCAATCATCGCCATTCTGACTGGCATGAGAGGGCATCTCATTGCGTTTTTCTTTCTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCA
R
TGGCGCAATCTCTGCTCACTGCAAGCTCCGCCTCCCAGGCTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGGGCCCGCCAACAC
Celera SNP ID:            hCV27242866
SNP Position Genomic:     38900
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:45956):
ACAACAGGATATTTTTGAAGAGACCAATAATTATTTCATTAACTTTACTTATTGATCATATTTATAAAACTGTGGACTTCTGAAATACAATAAAGATACT
R
GTATTCTACTAGAAGTCTGAAGATATGAGAGATCTACTTTTTTTGTAATGTGAGAAATAGATATTGAATATGCCTTTCAAATTAGTTTTTGTATTTTATT
Celera SNP ID:            hCV25617196
SNP Position Genomic:     9949
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(G,40)   total(A,4|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:45957):
TTTCTTGACTTTTCAATCATCGCCATTCTGACTGGCATGAGAGGGCATCTCATTGCGTTTTTCTTTCTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCA
R
GCTGGAGTGCAGTGGCGCAATCTCTGCTCACTGCAAGCTCCGCCTCCCAGGCTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGG
Celera SNP ID:            hCV27242867
SNP Position Genomic:     38888
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45958):
CCATGAGAATCCAGCCCATCTTTCATTAAAACAAACAACCACAGTGAGCCACAGCATGGGAAATAACGTGATGGACTCACCATCTGCCTATACATACACG
C
TCAGGCCATACCTACATACATGCCCAATGTATTTACTCATTATACAAAGACTTTTTTTCCATTTCCTGGTATATATAAGATACTGTGATGGTACTGAAAA
Celera SNP ID:            hCV27242869
SNP Position Genomic:     32672
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45959):
ATTTACTCTGTTTTTCCAGGAAAAAGATATTCACTCAGGCTTGATAGGTCCCCTCCTAATCTGCCAAAAAGGAATACTACATAAGGACAGCAACATGCCT
R
TGGACATGAGAGAATTTGTCTTACTATTTATGACCTTTGATGAAAAGAAGAGCTGGTACTATGAAAAGAAGTCCCGAAGTTCTTGGAGACTCACATCCTC
Celera SNP ID:            hCV342590
SNP Position Genomic:     62844
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,5)   caucasian(A,30|G,8)   total(A,59|G,13)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,12)      total(G,3|A,12) ;UNKNOWN(G,22|A,51)   Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)      total(G,22|A,51);(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45960):
CATTTTGAGCTAATAGGATAAAAAATTTTCTGGGTTGGGCATGATGGCTCATGTCTGCAATGCCAGCACTTTGGAAGGCTGAGGCAAGAGGATTACTTGA
R
AGGAGTTTAAGGCTGCAGTGAGCCATGACTGTGCCACTGGACTCAAGCCTGGGCAACAGAATAAGACCCTGTCTAAAAAAAAACAAAAACAAAAAACCTT
Celera SNP ID:            hCV341935
SNP Position Genomic:     77972
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,26)   caucasian(A,7|G,33)   total(A,13|G,59)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45961):
AAAGGATTAATCATTTCAGTTTTCAAAAAGTGTAGTTGCTTCAGTAAGAGGAGTTTTATTGGCCTTTTACCCCATCATGTAAAACATTTCAGGCTTTTTT
Y
CCCAGATCCTTGTTGTCTGCCTACATCCACACTGATGTTCTCACCTTCTTCTCGTAAAGAATTTATCAAGTTATTGTACCAAACAAAAATAACTGCATCC
Celera SNP ID:            hCV344910
SNP Position Genomic:     30774
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45962):
ATAATTTCTCAAACCAAATTGGAAAACATTATAAGAAAGTTATGTACACACAGTACGAAGATGAGTCCTTCACCAAACATACAGTGAATCCCAATATGAA
R
GAAGATGGGATTTTGGGTCCTATTATCAGAGCCCAGGTCAGAGACACACTCAAAGTAAGTAACACAAATACAGAATCATGGGAGAAATTACATAGTAAAA
Celera SNP ID:            hCV2229825
SNP Position Genomic:     39972
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,6|A,107)      total(G,6|A,107) ;(G,-|A,-)   (G,-|A,-)   Caucasian(G,10|A,70)   African-American(G,10|A,72)   Asians(G,3|A,79)   total(G,23|A,221)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:45963):
TTTGTCGTCTATGTTCATGAGAGGATATTGGTATATAGTTTTATTTTTTTAATTGTCTTTTTCTGTTTTTGATACCACAGTTATACTAGCTTTCATAAAA
Y
TGGTAAGCATGCTCTTTTCTACATTCTAGGAGAAAATGTCTGCAATTGGTAATAATTCTTTAAATATTTGGTAGGAATCACTAGTGAAACCATCTGGGCC
Celera SNP ID:            hCV15802110
SNP Position Genomic:     70264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45964):
TTGGATAATTTCTCAAACCAAATTGGAAAACATTATAAGAAAGTTATGTACACACAGTACGAAGATGAGTCCTTCACCAAACATACAGTGAATCCCAATA
Y
GAAAGAAGATGGGATTTTGGGTCCTATTATCAGAGCCCAGGTCAGAGACACACTCAAAGTAAGTAACACAAATACAGAATCATGGGAGAAATTACATAGT
Celera SNP ID:            hCV2229826
SNP Position Genomic:     39968
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(C,6|T,107)      total(C,6|T,107) ;(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:45965):
AAATGATCTCAACCCGTCCCTCTCCAAAAATTCACCTGCCTGGTTTCTGAAATTTCACAGCAGTTCCTCTAACTTAAGAAGGAGGAAACAAAGCACTTCC
Y
TCACTTTGGTTTCAGTTAAACGTTTGGTAACACTAAACTTTATCTTTACAGTTTTGTGTTACATTTTTAAGGTGATCAAGTTTCTCAGGAACTTTTTAAA
Celera SNP ID:            hCV15802111
SNP Position Genomic:     63763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45966):
CCCATGAGAATCCAGCCCATCTTTCATTAAAACAAACAACCACAGTGAGCCACAGCATGGGAAATAACGTGATGGACTCACCATCTGCCTATACATACAC
G
CTCAGGCCATACCTACATACATGCCCAATGTATTTACTCATTATACAAAGACTTTTTTTCCATTTCCTGGTATATATAAGATACTGTGATGGTACTGAAA
Celera SNP ID:            hCV27242870
SNP Position Genomic:     32671
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45967):
AAATGTCACCTAATTTATGAACTATTTGCAGCACCACACAGGCTAAATGTGTGACCCAACTCAGTTGCAACATAACATGCAGTTTCTCCCAAGCCACTGT
R
TGTCATACAGATGAGGTCTTAAGCAGATGAAAAAATGAATCCCACAGGGCTCAGGCAGCTACAGCTATCTCTGCTGGGAGGGTTTCCAGATTCTTCAGTT
Celera SNP ID:            hCV27495770
SNP Position Genomic:     64937
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,32|G,1471)   total(G,1471|A,32) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45968):
TGAGTTGGGATTCAAATTTAGGTACTCTGTGCCCAAATATGAATTGCATGTAGTCATTGTATCAGTTTGCTAAGATCTTATGTGCTAGCTCTTTAGTTCT
R
AAGAAAGCTGATTGTATAATGAATTTAGGCAGTGTGTGACTTGTTGACAAGGACAGTTCTGTTTACTGGCTTTCCTATATTGCAGGTGGACATGCAAAAG
Celera SNP ID:            hCV25922120
SNP Position Genomic:     69143
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,4|G,30)   total(A,8|G,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:45969):
GACAAAACATATAAAACAGAAGTTTTCAGACATCGAATGACAGACAACTCAAGACAGTAAAAGAAGAGTAACAAACCAGATGTGCCCTATGAGCACCTAA
R
CTTACTGCTTGAAGAGTGTTTCCAGGGAACAGCACAAGCAGGGAGAACCCAGACAGAGTCTCTATGGGTTGAGGAAATAGAGTTTGGACTTCGGAGAAGC
Celera SNP ID:            hCV2229831
SNP Position Genomic:     28099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45970):
AGATTTACCCTTTTTCTCAACAACTAGACAGGCAGACAAAACATATAAAACAGAAGTTTTCAGACATCGAATGACAGACAACTCAAGACAGTAAAAGAAG
W
GTAACAAACCAGATGTGCCCTATGAGCACCTAAGCTTACTGCTTGAAGAGTGTTTCCAGGGAACAGCACAAGCAGGGAGAACCCAGACAGAGTCTCTATG
Celera SNP ID:            hCV2229832
SNP Position Genomic:     28065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45971):
TCCATGCTCAGAACCTCATGAGATACATTGCACGTTACTGTAGTACCTGAATCCTTCATTGCTATTGAATGGATGTGCCTTATTTTCCACTCCCACCTGG
R
GAATCCAAACATATGCTGATGCCATGCAAACTCATGCAAAGCGTTTTGAGTGGAATAGATTTTCCACAGTTGGGATGGGGAAAGGTACAATTAAAGAAGG
Celera SNP ID:            hCV2229833
SNP Position Genomic:     27781
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   Caucasian(G,7|A,77)   African-American(G,40|A,42)   Asians(A,34|G,50)   total(G,97|A,153) 
SNP Type:                 INTRON


Gene Number:                 230
Celera Gene:                 hCG38088 - 30000023637322
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W40L(5794359..6024456)
Chromosome:                  Chr5
OMIM number:                 603390
OMIM Information:            PHOSPHODIESTERASE 8B;PDE8B


Genomic Sequence (SEQ ID NO:12390):
AACAACAATATTTTTTGCAAGACAATGGATTTGTTTTCTAAATCTAGATTTTCACACAGAATGTTTCCTTAAGGGCGGTAGAACCTACAGTGACTTCCAT
TAAATAGAGAAGTTGTTTCAGAGTCTTCCACCTTCATTTCTTTTTTCTTCTTCCAGTGTTATCATCCCTGCCTAAGGAGACACTGTCTAGTTACCCTGTC
TGCTCACTGCCTTCTGGTGCCACCAAGTTTAGTTCTGCCTCTGTGCCTTTGTTCATGCTGTTCCTGTGATTGAAAAGTTCTTGTTGAGGCCCAACTGAGA
TGCCGCCTTCTTCCCTTCCCAATGACCATAACTACTATAAAAGAATTGACAATACCACTCATCTTTGTTCTGGCCCCTTGACACTCATGGATTGTACTAT
ATTTTCATGTGTAAGTCCTGTCTGCCTGATTGCTCTGTAAGTTCCTTTGGAGTAGGACTGCACCTTGTGTTTCATTTCTATATCCTTTTATGTCTGATGC
TTTTGTGAAATATATTTGTAAGACTTTAGGAAATGAATGTTCCATCTCTCCTAGCCTGATTATTGGGGTCCAAAGTTCTGGAGGTGAGTAGCATTCTGGA
GTCTCTCTGCAGGGCTAATCCAGCCCCTCCCTGTGGGGTGCTTGTTAACAGGAAGGACAGATCACTTTTGTACTATGCAGACTCAGGACCCAGCACTCGG
TGGCCTCCAAGTTTCATGAYGTTGACCTAAGGAAGTCAGATGTTGGCTGACTCTCCTCCTACACATTCTCTGTTTGCATTTTCTACAACTGGCAAGAGAA
AACCGTTCTATGGGCCAAATCCTCTCCTTAGTTTCACTTGGCCTATGGCAAAAGGTCCAAGAAGTGATGCACCTATAGTTTAAAATACAACTTATTTTTA
CTGTCTTGAAAGAGCTGTCTCCGTAAACTCACTTGGTAGGACTATTTCACCATGAAAGTGGCTTCCCATGGCTTTCTTTGTCTCTCTTTCTTTTTTCCTC
TCTGGGTGTCTGGTTCTGTGAGGTTTCCTTTACAAATGTGTAGGCATTCGTTTCTCTGTCTCCACCTATCTCTGATTCTCTCCCTTTTAAATTTATTTTC
CATCTTTTACCTTCTGTCCAAAGGAAAAAAAAATCAATGGAAATCCATAAAAGGAAATAGAGTTACCTAAATACTTTTTGTGGAGAGAATTAGGAAATAT
TACACTTACTCATTTACATGGTTTTTATGCACTGAAACTGTTTTTCAGAAAAATAAATTTGTCGTTTCTTGTCTACACCACTTTATACTCACTTATGAAC
CTCAAGATATGTTCATACATTGTCTATATTTGTAATCAATCTATGTACGTATCTATTTTTAACCTAACATTGTTTTGTTAGGTTTTATATTACTATAAAT
AGTAATATTTATATGTGATTTGTTGAGCCATTCCCTAAGTGTTTGATGGTTGAATTATCTCTAGTTTCATTATTGTAGACAACATTGCTACCAACAACTT
TGTACAAATTATTATATTTTATTATTCTGGCTTTTTCTGATGTACATTACCAAAAGACTACCATGATGTAATCAAAGGCATTCACTGACTTTAAAAACTA
AAAACACAGAGCATAAAACTCTATTAAAAACAAACAAATAAAATAACCCCTTCCATTTTGGGTAATAACAGTTAAGAGAAAGGCAAAAGACAAAGAAATG
GGAGAAAATTATTCATTCATAAATTCAACAAATATTTGAGCACCTACCATGTCCTAGGCACTGTTCCAAAAGTATGGGATCCATCAGTGAATAAGAAGCC
CCCAAACCCCTGCCTTTGTAGAGCCAATATTCTAGTGGGAGAAGGCAGACAATAAACATAATAGTAAGTGAGTTAATTATATAATAAGTTGAAAGGTGAT
ATGTGCTATGAAATAAGAAAAATAGCAGGCTAAGGGGAATCAGGAGTGGTAGAGGAACAATAGAGCTATGTGGGTTGCAATTTCAAACACGGGTTGGGAA
TAGGCATCACTGAGTAGGAAACGTTTGAGCAGAGACTTGAAGGAGGTGAGGAAGTTAGCCTTGCAAGTACTGATGAAGCTGCACAACAGGCAGAGGGAAC
AGCTACTGGCTAACAATGTTGGATATCCTGGAGAGACAATGAGGAGGCTGGTGCGGCTGGAGCAGTGAGGGTGGGCTCAGCAAGGTCGCCAGGATCCACG
TCGGGTAGGGTCTTCGAGGCACTTATAAGGACTTAAACTTCAAGGAGGCTGTGGAAAGGTTATACTAGATTCACTTTCTTTGAAAGGACAGATGCTGGAC
CTGTCCTTAACCCCTGAAGAAAGTCTCTGGGATGGAACCAGGGAACTGTTGTATTTCAGGGTGGTTCTGTTGTGCACGTGGATTCAGGACTACTCTTTCT
GTTCAAAAGTCCCACAATTCTAAATATAAAATAATTTAATAAAATGAAGCAAAAATTTCACAGCATTCTCGAATGTTGGTGATTTAGAGACTCTGGAGAT
CATCTAGGAAATTGAAGCCCAAAGGTTAAGTGACTTGCTCAAGGTTACACAGCCACAAGAGGCAGAACTCGGTTTCAGATTCACTCGTCTAACCCTGAAT
TCAATGTACCTTCCACTGTACTGGACTGCCTAATAAACGGTATCATTTCACTTATCAGGTGGTTAGATTTCCAATAGCTCCACCATTAGGAACACAGTTT
GAATCCAGAAGCTCTGTAAGGTTGATTGGTTGATTAAATATTTGGTTATCTAAAAATCAATCAGATAGCTGCTATTGTTTTAACCTTTACAGCTAAGAAT
CATTCAAAATGTATTAATCACATTTTCTGCTTCTCTAGAGGAATTCTGAAGAGTCATGCCATCTTAGAATTGGAAGGGACCTTATTTGTTCAGGATCTTG
CAGTGCCTGTGGGCCATAATTTTACAGTTAGCTCTTATTTAATACTATTATAAAACACACAAGCCATTCAGGTGACCCTGGACATATTGGAGGTTTTGTT
TTACAATATGTTTCTGATTTAGTTTACTTTCTTTTGATTTGCTTCTTGGATATTTTCTGTTGCTAAATTTTTCTCCACTTAATTATTTTTTTAATAATGT
TGGTCTTTCTGGCCTTATTCTGTAACTTAGGCCTAATTTTTATCAACAGTGTCTGAGCTTGTAGTCTTTGCTGTCACCTGGGATGCATTGAAGTGGTCAG
TGGCAATTGGTTCAGAAATCTCTTCTGTGGGTCAGAACTCAGGCTTCAGAACTAAGCTGTGGAAATGATTTCAGTTAAACCATTTCCCCTCCACTTGCAC
ACTTCTGCAAGTTTCAGCAGCCAGATCTGTTCCAGCAATGGGGGCAGGTTGCACATTCCCACTGAGAACACTTGGTGGAGATTATAAGGACACATTATTT
TTTTCTTTCACTAAGCCAGAATTGGCAGTTGAAGATGTGTTTGAGCTACTGTCTGCTCTGGGAATGGGAAGAAAACTGTATACCTAGTGCATTTCCCCTT
CTATCTTCTATTCCAACAAAGAAGTTGCAGTCAATGAAAGTCACTGGTCCTAATATGAACTGTTCAGTTAACCCACTAAAGCAGCCTAGTCCTATTCACT
AGCTACCTTGAGGTCACCTACTCTTTCAAGGCTTAATTATTCTTATTTTTTAATGTAGAAAGTTCAACCTAAATTTGTTTCTGGGTGACTTCTAGCTTCA
TGATTCAGCTCCTAATGTTCTCCACCAGAAGATTGGTTGTAATTTCTGTTTCATCACAGTCTTCTTGCCTTTCAAAGCCTCAGTGAGTGACTGGTGCTTT
TTTCTGGGTGGTTTCATTGCATTCCTAGAGAAAACTCTGAAAAAGTAGACATGTGTCATGAGAATATGCATGGCTGTAAATTTCAGTATGTGAAGGCTGT
CATTGATAGCTCCATGAAAGGTAATGACTGAAATGCTATATGCATTATCACAGGTAAGCTTTAGGAATCATTAAACCCTGACTTGAACGTTACATCAGGG
ACTAGTATAGAGACTAGTGTTTTTGCAATTTAACTCTGATGTTGTTTTCCCAGGTCCTAAATTGTCCTTTGGAAGTAGAGCAGATGGTTGCTATGAGGCT
TAGTTTTAAATGAATGACTGTCCCCATATCTCAGTCTCAGCCATTTAATGTGGTGTTCTTACAGGCATGGATGGGACAAGGAAACATGGATCTCAGCAGC
CTGGAAGGGAACTGTGGGTGGAGGCTATGATGCCAGGAAAGGACTTACTCCTCCAGCTACTGGGAGTGCTGCCAGCAGAAAGCCCTTGGCTCAGCTGACA
TCTCCTAGGGGCAGTGCCTCAGCTGAAGAGAGCCACCTTGCCCAAGGTCGCTGAGGTGGCCTGCATGTAAAGACTGGTCCATGCTGGGGTATAAAGGCCC
ACCAGAACAACTCAGAACCCAGCCCCAACTCAGAACAACTCTGAAGCATCATCCCACCTTCAGAATCCTCCCTGCAGGGATGCCTGAGGCTTGGTCAATT
TCTCCCTCTGCTCAAGCTTGCCTCCCTCCATTCCCTCCCTTTATTTCCTCCCACAAATGTTGACTACAAGAGCACTTCCTAAAAAGCCTCCCTCTGCCTG
CTAAACACCATCTCAGAATCTGCTTCTAGGAGGACCCAACCTGTGCAGAAATTTTATGAGCAATTTGCCTGTCCATTAAAAAATACAGCATAGACTTTTT
CCAGGTTAGCTGGAGATGGAGTTTTTTTGTATCAAAAAAAGAGAGCTAAACTGAGAAGAGAAGCAAAGGTAGAAGAATAAGGTTAGACTCTCCCTGTATA
ACTGAATTTGGGATTGGGAATGATATCTTGCTTCTCTATGAAATTTAGAAACTGTCTTTTGAAGTCTTCATCCAGTCACATCCAAGAGTGGTCCAGGAAG
AAAAAGGAAAATAAGAATGAAAAAAAAACAAAAAACAAACCTTAAAATTGGATACTTCTTTGTGCCTTGCATTAAGCCTCTATGTTACTGCCCTTGTCCG
TATAAGCAACTCTAGATAAAATCCTTTCTTAGACCATCTAATTTATCTCCCCGTGCCATTGTGAAAATCGGGCAGGAATTACTGCGGGAACCAGTGACTG
AATGGGCAGTGGTGTCTCGCAGCTGTAACTCAGAGTTTACAAGGGAAGGATGAACAGCAGCCATCCTTCTAAAGGCATTCTTCCTCTCCTCCAGCACAGC
TCAGTCTGTGCATGCCTCACCAAGGAGAATGAGGGAAGGCCTTGTTGACTGCCCAGCCCAGAGTGTGAGGAACAGCAGTTGACATGGGCGGCTGGACGGG
ATAGAAACCAGCATGAACATTTAGTGACACCTAAGGAAGAGGTGAAAATGGGGGAGAAAGCCAAGAACCATCAGACAGCTTCTTTCTGTTCTTGCCTTGG
ATCTTAGGGGAACGTATGTGTTCAAGGGTGCCTTCCTCCGCAGGGCCTCCCATCCCTTGGCACAAACTTCCAAACGATGAGTAGACATGGAATGGGCTTC
TTCTGAAGACTGGGTCACCATCCAACTCAGCCTTCGGAGTAGGCGGTGGGGCTGGGGGAAGAGGACGGAACCATGAGGTCTCTCCATCACTTCCCGGGTG
TGTTGAGAGGCAAGCAAATGCGGTGGGTGGGCCTGGGCTGTAGGGCCCCTGCCATTTCGGGAGGGGCCTCCTGGTGTTTAGCTCTGGGATGTGTGAAAAT
GTGTTGGTGAAAAGCGAGAGGCTTACACAGCCCTTCAGGGGAAGAGGGGCTGGGGCGCTGGGGGCGGCGTCGGGATGAGTGCAGAAGAGACGAGGCCTCT
GGACAGCGGAGGAGGAGGGGAGGGCGCCGAGGCGCGGTGCCAGCTGCCGCGCACAGGGGCCCCGCGGCGGAGCCGAGCCGCGGGCACGCTCTGCCCTGTC
GGGAGAGCTCCGGGAGCGGCGGGAGGGGCGGAGGGGCGCAGTGGGGCCCGGGCGGCTGCGGCCGCGGAGCCGGGGCACCTGAGGAGGAAGGAGGGTGGGA
GCGAGGGAGGGAGGGGACGGGCGCAGACCGAAAGTGGGGAAAGAAGGTGCAGGCAGGCGGGCAGGCGGGCGGGCGCCCTGGCCCAGGGCCGCGGGTGCGG
GAGCCCGGCGAGGTCGAGCTGGGCGGCGGCGGGGGCCGCGCCGAGGGAGGAGGGGAAGGCGGAGGCGCGGGGAGCGTGTTTGGGGCGCCGCGGCGGGGAG
GGTGGCGGCCGCTGGTGCGCGCGGGGCGCTGTGTATGCGCGCTCCCCCGCTCGGGGAGGAAGATGGCCCAAAAGGGAAAGTTGGGGTGACGCGCGCGGTC
CCCGGAGGCTCGGCGGGGGGCACCGCGGCCAGCCCGACGGAGCGGCGGACACACAGGCCGGGGGGCGCGCAGTCCGGGCGCCGCCGCGGCCGCCCCCTCA
CTGCAGGTGGCAGCGGGTGCGCTGGGTCCCGGCGGCCGCGGGCGCGGGCGGGCGCGCGGGGGAGCCCGGCCGAGGGATGGGCTGCGCCCCCAGCATCCAT
GTCTCGCAGAGCGGCGTGATCTACTGCCGGGACTCGGACGAGTCCAGCTCGCCCCGCCAGACCACCAGCGTGTCGCAGGGCCCGGCGGCACCCCTGCCCG
GCCTCTTCGTCCAGACCGACGCCGCCGACGCCATCCCCCCGAGCCGCGCGTCGGGACCCCCCAGCGTAGCCCGCGTCCGCAGGGCCCGCACCGAGCTGGG
CAGCGGTAGCAGCGCGGGTTCCGCAGCCCCCGCCGCGACCACCAGCAGGGGCCGGAGGCGCCACTGCTGCAGCAGCGCCGAGGCCGAGACTCAGACCTGC
TACACCAGCGTGAAGGTAAATGCCCCGCGCTGGCACACGCCGTGGGGGCCGTCCGCCCCGTCGGCGGGGCTCGCACGGGTAGGGGGCTCCGGCGGAGTTG
GGTGACCGTGAGGCGGTTGGTTTGGAGAGGTTGTCACTAAGGAGGAGTTTACTTTTCATTTGTGGAGATGATGGGAGCCCAGGAAATGTGGTCAGAAAAA
GGCCCCTGGAGGGGTCCTGGAAGCGTCCTTAGCTGGTCCTGGGGGACTGGGCGGGGAAGGGAGCGCAGAAGGAAGCAGGTGGGCTGGCCTGTTCCTCCTT
GAGGGCAGGAAGGCTGTGGCTTGGTTTATGCAGGAAGAGGGGTGGGGACCATTGAGAGCATTCGGTGGCCAGTCCTGTTGAATGAAATCTGAGCACTGAG
CTGGATTTGCGTGCCTTGTAGGTGACTGGTGCAGTTGCAGCACCAGGATAGATAGTGCCCCRTATTCCGATTTTTACCTGGGATTACCAGCCAGGCTGGA
GTCTCAGCACAGGAACCGAGCGTAGGGATTTGTGAATGAATGAGTGTTCGTGTTTTAAGAGATGTGGGAACGGAGCAGAGTGGAACCTGTTGTTTGTCAC
TGTAACGTTTCTCTGGGTTGGCTGCATCCTAGACAGAATTGAGAGAACCGGGCCATGAGTTCGGAGTGTCAGCAGAGCCACCGTGAGGGGACGTGGTTTC
CAGTGCAGTACAGCTGTCTGAGGATGATTCTGCACATACAACTGATCTTCCCAGAGAGTGGGATTTTGAGGAAGTGGAAAAAATTGTTTAGATGGTTAAA
GCAGTCGCTAAATATTTATTTCTTAAAGACAGAAGAAAAATAATTATTTAAATAGTGTCCTCCCGTATGTTCTCAAAGTACCGTTAAATCCAAGAGGCTT
TTCATTGTGTAAATCTGGGCACTGGGTCTTTTTTCCTTTCAGCAAACAAGATAACAATGGCATATCCTATTGTACAGAGAGAAAAAAATACTCCTAATGT
CAGATAGAATCACAGCCTTTACCTGGTCAATAGGTTACCAAGAACCATTCCATGGATTATTTGTCAAAGACACATTTGTATTTTTAATAGTTAAAAACTT
GGTCTTCATTGGATGAAGGCAGCCCACAGTGGAGGAGTGAGGAGAAGGATAACATGTTTTGGCTTCAATCTGGAAGTCCAAAAGTTTTTTAATGAACCTA
TTTTTTTTTTAACAGCATCTGATTGTTTAACATGAAGCTTGACTGATGTTTGCTTGTGGTTGCAGTGTTTCTCTGGCAGTAATCATAATCACCATTATAG
TAAAAACATCGTTTATTGAGCACCTACTATGTGCCAGGAGTAAGCTTTCTCTCCTAACTATTGAATGTTAACAGTGTGATCTTAGCATAGCATGTCTGAA
GACTAGAGTCTAGGATTTATGACAGTACAAACCTACCAGTTGCCCATTCGTTACAGAGGCATGTGCTGAACGCTATACTTTGCTTTTGTCAAGCTCTCTC
TCTCTCCCCCTCCCTGTTCACACAAAGTTAGCTTTAGGAGCAATTTTCAGGGATGAAAATGTTAAATTTGGTGAAAATATTAAGTTGGGATATTATCAGT
AAAGACCATCCTTTTGCCTGACGGTTGAAGACCTGAAGCAGTAGTTCAAAATTGTGACAGCTCATGAACTTTGTGATACTTTTTTTGGTTGCTCCAGAGA
AATTGTGAATTTTTGTTTTCTAGAATATCTATAATCTCAGTTTAGTACTTGGCAACTCTAGCTACTCCATGTTTGTTCAGTAGAAGAAAGAATACTGAAT
GAACCCATTCTGTACATTTTTAATACTTCCCTCAAGAGGCTGCTTAGAGACCAAATGAAGTAAAAACTGAAGGGACAATGAGCCCCAATTATTAGCAGCT
TGTATAAACTTGTATTAATCTCATTGCTACTTGGCTTAAGTATTAAAAGGCTTGACCTGGGTAGGAGTTTAACTCATTTTGCTTTATCAAGAAGATTCCC
AAATAAGAGCTTAATTCACTCTAACCCATTACTGGGAATGTTGGAAATGAAACCSCTGGTTCATTGACTTAACACTACTTTGCATTGTGTGGATCTCAGA
AAGTATATATTTGAAGTGAAATTTGAGACCAGAGTTATTTATGCAAATCTTACAGAATTATTATCACAGAACTGCCCTAATATATTTAATAGTATCCTTT
TAGGCCTGTGACTCGGTGTTGTATTGTCTTTTCTCAATCGTAAAGTTCACATGTTCTGTGCCCTTTTGTTGCTGAGATAATTTTATAAAAACTTTACATT
CATTTTTTTGTAGACTAAGCATTCTTTTTTTGCCGTAAGAGTTTGAGATAGTTGCTAGGCACGTGGTGGTGCCCCACCCCTTTCCAAAGCACACAGGTGG
AAAAATAAAATCTTTACCATTTGGTCCTGTTTACAGTGGTGGAAGGTTGTAATAGTTTCCACCCCCTCCCCCCGGCCATTTTACATCAATTATGAAGTGT
ATCCTCATTATCTACTTGGCCTCTGGTATTCCCCAGAGTGCAAAAATGTGTGCTTGATCTCTCTCTCTCTCTTTTCTAGCAATAATTCATCTCATTAAGC
TTTTAGAATGATGAGGCATTATGATGTCAAACATGATGTCAACAGGAACCTTCCTGAATACCTAATTTGCAAAAAAAAAAGGGTTATAAGCATTAATAAT
TCATATGCAGTACAATGATATCACATGGGTTTCCATTTCTGGTAAGAAGTTAGATTTGTCTCCCAATTGCTGTGAAAATGCAACTTCCTAGCAATTTCTT
TCCTTTTTGCTTGCCTTTTCAAAAATAGTACTCCAACAGGAGAATCCTGCAGGATGTTCACTCTTGATATTGTGCCAGTTTTGTAATTCTTGTTCAGAAA
TCCTCAGAGGAGATGGTTGAACCTCTCTCTGGGAAGAACCAGGGATTCTTACAAGTTTTCTCATACCAGCTGTTCCTACTTGGGAGCATCTGGGACTAGA
CAGCCAGTTGTAGAGAAGAATCGTTATTGACAATATCGTCAACTTGCTATGACCTCTGTGTAGGTTCACTCTTTTGTGGATCAGACACAGGATGTTGTTA
GTTTCCAGATGGCAGCATCACCAGCTCCCCGTTTTCCCTCCATTCATACAGAATGTGCTCATTTGTTCATTCAGTATTTGTGGCCAGACTGTGTTGTAGG
TGCTAGCGATTCAGGAAATATCCATGAAATTTGGTAAGCAAAGCCTAATGAGGAGGATAAATCTCCTGTAAAATGGTGTGCCTAAGCCAGTTATTAGTGA
CTGCTATGTTTTCTGTTCCATAGCACTCCAGAATTTGTGAGGATAATCCTGAGTTGACTATATATAAAAGGAAAATAAATAGATATTCCACTGACCTTAT
GGTAAATAATAATGAGATTTTATTTGGGGGAGGAGTAGAGCTATTTTGGAAAAAAGTCATTTTTGTTTTCTAAGTCAGTGTTTTGGAGTCAAACTTTACG
CAAGAATCACCTAGAGAGCTTGTTAAAATATAGATTGCTGGACTCCACTCCCAGAGATTCTGATTTAGTAGGTCTTGGGTGGGGCCTGAGAATTTGAATT
TCTAACAAGCTTCCAGGAGATGCTAGTGTTGCTGATCTGGGGACCCCATTTTGAGAACCACTGCTTTTTACAGTGGTGAATTAAATTATCTGTCTGTTGA
CCAGGCGAATGAGGTGGGGCCACCTCTAGCAGAGTGCATAGTACCACACTGTCTTTATCTGGGGTACTGGTCATAGCACTGCTTTCATCTTAGTTCACTT
CTGTATGGGAAACCTGCTATCCCTGTACAGGAAGTCAAAACGCTGAGCCTCCGAGATTGGCTAAAAAGTCTGTAAGTGAGGAGTGTTGGATCATGTAACC
AACTCTGGTTTCTTGAGGTTAAGTTTTCCCCAGGATCCTTTTGGGTTTGTACAGGTCCTAATGTCTTGCTTTGCCACCACAACAGAAGTCTAAAGCAAGG
CTGGATGTTACATGATACAGGCACATATTCTCTTCTCAGCTCTTGGAATTCTTGCTAGGCCTTTCACCATCATTTTTCATTTTAAAATGAAGTATAAAGT
TTAATAAGCTCAAATGAGTCCTGCAAGCTGATTTCATAAAATCCAAGTTTGCCTTCTGCCATTGTATATATGATTACAATTTAGTCCCTTCTTTTCCCAG
CACATTAATTAGAATGAATGAGCACATTTTCCTTATTTTCATGACTTTCTTCAGTAGTTCCATGAATTTTTAAGGACTATCAGGTAATTCTTCCTTTTGA
AGGAAAGTAAGTCCTCAAGCCAGGATGTAACATAGTATAAGCTGCCAGCTGTTCAGAGATGATATAGTTTCTACTGAAATCCTGTTTTGGTGACCACCAG
GTATGGCCTGGGCGCCAGCAGGACAGAATATGCTGGTGAGGGCAGGGCAGATTCTGTGGCACTAAACTGGTCATGGGTAAAGGCCAGTAATCAAAATAAT
AATCAAAATAGGAAGGAGGGAGTGAGCCCCGTGGAACCAGGTGGGAAGACAGAGTCCAGAGTTTGTTCAACCAGCAAAGTTGGAGGGGGCCAGGGAGCAG
GTGGGAATGTTGGGGCCAGGCAGGCAAGGGAAATCTAGAAATTAGTGGTTCAGCAAAGGTGACAGCTGTTGAACCAGGTTGAGACTTCTGATTGGGGAAT
AAAAGCTGCTTACTTTCTATTCTATTCAGGAGGCTGTGGTGACCAATCGGAGGGCTGTAGGTAACTTTGTGAACCCAGCACCAAATGACACAAGACCAAC
CAACCAGTTCTTCCTTGCACCCTGATCAGACAGAGTCTGGGCAGGAAACAGACTGCACATCCAAAAGGGTTAACTCAGAATAATCAAATGAAGGGACTAC
TGCAAATGTTTTGGCAGGATGAAGGAAAGACAACAAATGATGCTGAAGCACCCTAGGCTAGAAAAAGAGGGAGCTGTTACTACCCCAGAAGAGTCAAGGG
GAGGGGATGTGTATTAGTCTGTTTCACGCTGCTGATAAAGACATACCAGAGACTGGTTAATTTAGAAAGAAAAAGAGATTTAATGGACTCACATTTCCAT
GTGGCTGGGGAGGCCTCACAATCATGGCCAAAGGCGAAAGGCATGTCTTACATGGTGGCAGACGAGAGAATGAGAACCAAGCAAAAGAGGTTACCCTTAT
AAAACCATCAGATCTCGTGAGACTTATTCACTATCATGAGAACAGTAAGGGGGGAACTGCCCCATGATTCAATTACCTCTCACCAGGTCCCTCCCACAAC
ACATGGGAATTATGGAAGCTACAATTCAAGATGAGATTTGGGTMGGGACACAGCCAAACCATATCAGGGTGGTTATGGGAAGCTGAGAAACCAGGGTAGT
TATGGGAATCTGAGAAACCAAACCTGTAAGTCAGGGAAACCCTCAGAAGCTGTAGCCTTCAGGAGTGGACAGGGAGGGAGCCAAAGCAGTAAGTCCCTTC
ATGACATTGTCCTCCCTTTCATCAAGCTCCTGCTGGTTTCCACATCTGGAAACCAGAGGGAAAAGGAATCTGTTGATTGGGGTTTTCCAGGGTGCTGAGC
AGGGTGGAGAGTGGGTCTGGAGGGGCAAATGAAAAATATCCTGAGCATATCCCAAAGGCTCTTCGTAACAGGCAATAAGAGATGTTCAGTGTCACTGGAG
CTACCTCGGTATAGATAAACTAAAATTGTGATGGGCAGTTTGATGATTGTCTAAAATAATGGCATTTTAAAATGGCCACTTAATTCACTGTTTACAGTTC
CTGTTTGATGACTAATGATATTAAAATATGTCCAGTTAYCTTGGTTGGAGACCTCGAACTTATTGCTGTAAACATATCCTTCTCTTCAGTTCATTCTGTC
CCCTGACTGCTGATACACTTTTTTTATCACTTCCTCTGTCCCCTGCCTGCTGTCCTTCTCCCTATCCTGAACTCAAAGCCCAAGGGTGGAATGGGGGAGA
AASACCTGAGCCTCATAAGAGACTCAGGACCCTGTCTTATCAGTTTATTCCATTTTTTTTCTCAGTTTTTACTTTCCCACTTTCTATAACCTTCTCTCCA
CAGACTCAAAAAGTGAAAAAAAAAAGGATTTTGCTATGTGCTTGTAAGGTTATATTTTCAATAAAGAATGTGTACATTTAGAACATATTTAAAAATATTA
AAATGTGTCCAGGAATTTATTTTTAAAGATAGGTGTTACCTTTACCCTACAGTGGAAGTCTTGGTAGTTATGTTTTAGTAGAAAACACCAATTTTTTTTT
TTTTTGAGATGAGGTCTCACTCTGTCACCAGGCTGGAGTGCAATGGTGTGATCTCAGCTAACTGCAACCTCCGCCTCCCAGGCTGAAGCTATCCTCCTGC
CTCAGCCTCCCGAGTAGCTGGGACTGCAGGTGGTGCCACCACCCTCGGCTAATTTTTTGGTATTTTCTGTAGAGATGGGGTCTCGCCACGTTACCCAGGC
TGGTCTCAAACTCCTGAGCTCAAGTTATCCACCTGCCTTGGCCCCCAAAGTGCTGGGATTACAGGCGTGAACCACCATGCTTGGCCCAAAACACTACTTT
TCAACAAGTTGTAGTATATATTAGTTTAAAATTAGTTGTTCATGGCTCCTTCCCTAGTCTCTTTTTTTCTTCCATCAGCAGATAATAGTCAACTCTTATT
TAGGATTTTTCTGTTTTACTCTTTACCATTGATTTCTTTCATCCCCTCCTTTCCCCCTCCTTAGGGAGAATGCACAGAAAAGTAGTTCCTGAAGTAGGAT
TAGCCTACCCTGCTGCAAATTTGCTTTAAGAAGCTTGTGATTGCTGTAATAAAAATCAAGGAACTATTTTGCTTTTGGATAATCCATCAATGAAAATAAG
AATATTTCATGGTTGTCTCTTGTTTCCAAGGCGATTTAAGTTTTAGTGCATGGTTTGTACACTTTGCAACAAGGTAAACAGGATAGCTATAATAATATTA
GTTGTTATTTAAGTTCTTGCTATTTGCTGAGCACTTTATTTACATTGTTTCACCAAATCTGCATGATTTTCCCTGTTCTGCTATGAGCTACACGTTATTA
TTTTCACTTTAGAAAAGAGGAAAATGGGGCTGCAAGAGGTGGGATAAATTTCCCAAGGCGAGGACTGAAGTTTGAAGGCAAGAGGGTCCGAATGGTCTCT
CACCCCATGAGCCCATCCCTTAAGTGTGTTGCACACTCAGGCCTGTGGCCACACAGCCTGAAGCCCTAAGTGTGGCTGGTCCTGGAACTGCAGTTATTTA
GAGCAGAAGGATGATAAACAGGCAGAGGGAAGGGGAGCAGGGAGCCTCGTGAGTGAGATTTTTCCTTTCACATATCCACTGTCACCCCTTCTATTAACTT
GAACTAGAGTGTTTTGAAGTTGGAGAAGAATTAAAAAATGCACACAAAATGTGACAAGCTCTGGTACAACATGTTGTCATTATTTTCACTGAACACAGTG
CCTGACACTTTGTAAGTGCTGTACAAATAGTAGCTGCTCTTATTTTTATGRTTGCTATTATTACTCTTTGGGTAATCAAAATGAGATTTTGGTTATTTAG
ATTTAGATATTTTTGAAACATGTAATTTTTTTAATGGAAAATATATCCGACACTTTCAAGTACATTGATTTGGCCAATAGATGACTAACTGGATTTATAG
ACAGATAGGTTATCCCAAAGCCTTGCAAACTGCTGCCACAGACATGGGTTTTGTCTGCTTCACTTGGATTTCCAGAGATGACATAGTAGAATCTTGCCAG
TCCAAGGCCCAAGCTGGGGTTTGGGTTCCATGACTGTTGAGCCTGCACTCAGCAGAATTTACAGGTCAAGGCCTTGGTGTTATCCTGAGGTGGTTCCCTG
TGGAATTCTTTGGTATAAACTTGTAGCCTGAAGCCTCAGTCTCTAATTGCTCTTAGAAGCATTTTGCATGAGCTCGGTTGGTTTTCATATTGCTGCGTTT
TGGGTGCTGTCAGACACAGTATATTGTTGGGAAAATGATACACTGTACATCTAAAACCTGTTTTCTCTCAAATAGGAAGATGTAATGATTAGCTCCAGGG
ACCCAGTTGCCTGTGTGAGTCATAAAACTGAGATAAGACCCTAAATTTTGGAAATTTTTATAGGAAGATGCATGAGAGATTTTAAAGCAACCTATCACCC
AGGGTACCATATGAAGAAAAAGATGCCGTTCTGACGTCAGAACCACAAATAGCATTAAAGCTCCGGAACTGGAAGGTGATGACAAGGGTTCAGGATAGCC
AGAGCTTTTGTCCACTCCAGGGTTCCTGCTGAGGGAGCTTCAAACGAGAGCAATGACCAAATGGAGAGACAAATACATTTATGAAGGCCAGTGATGACCC
AACAATCCACACCTCAGCCACTAGTGGTCCTGGGGCCTTGTGGGACATACTCATTTTCAGCTTAAAAAATGGATTGACAGTCTTGGCCGAGAAATGGGGT
CTCTGCAAGGAAACAAAAGCCACCAATAGTGTTTGGAGCTGAGCCTTAGTTGGAACTAGAAGTCTCTTTCCCCCACAGTCGAGAGTGTGATGCTCAAAAG
AAGGATGGCCAAATAAAGACTGAAGGGAGCAAGGATCAGCTTAGTCTGTGCCTGTGCAAGCATTGGGTGGATACAACCTTTCATCCCAGATCCATCTGTC
ATGTGCAGCCTCAGACACACACATGCATGCACGTGCACACACCTGCTCTRGGAAGTGTTGCTGGGACAGAACACCTAGGCGGGTAAGTTTTCAGGAGACT
TCCTGCTCTCCCCCTCCCACATCTATAATGCTGGGTCTGTGAAGCCAGTTTCAGGACCCCTCCTCACCCAGTAGACTCTTGCAGGTCCTCCTGTCCTTGT
GGTTGCTGCCCTGCCCTTCTTCTCAGTCACATGTGGAGCCCAGGGTGAGGTCTCTGACACCCAGGCTGTTCTCTGCAGTGATCTGGCCCATTAGGACTGT
CAAACCCTGGGACTGGCTGACTGACTGTGGAGCCTTCATCCCTTGGGAGGAACAGGTGAGGGCAAGGGAGTGTGATCCACTTAGCCTGATCTCCCTACGG
GCAGTGGTAGAGGGGAGTTTTGCAGACTTTGTTGAGATTTTCAAGAAGGGACAAGGAGGTGGGGCAAAAGGTTGGAATCTCTTATTATATCAAAGGTGAG
AACTTTGAATCCTAAAACACAACCAGGAAATGCTTTGGATGAACGTGAAAGGCAGTGTTCACTTTTATATGCAGACTATATGACAAACATTAGTTTGTAA
GGCACCTAGTTGTTATTGGGGAAAGACTTTCATATAGAAACATGTTATATGTGGCATTTAGGTTTCTAGGTTAGCACAAAAAAGTTTTAGCCCATTATGT
AGCTGGAATATATTTACACTGTTGAAACAATATTGCTGTGAAAGAAACATAAAATTGAATTAGAACTCCCATTTCTTTTGTATGGGTGTCCTTTGGGAGA
AGCGGGTTTAATTAGAGGCTGATGAAGCAGATGAGGGAGAATTCGTGAAGTTCCTTTAGGGAGTAGTTATCTTTAGTGATCCATTGTGTGCTGGGGAGCT
GAGGGGCTCAGGTGGTGTTATTAACCTCACATTGCTAGGGAGGAAGTGGAGGCACAGGCGGCTCAAGTAGCTTGACCAAGGTCACACAGCTAGGGACTCA
GAGCTACATCTGCTCAACCGTCCTGTTTTCACTGTCCTATTTTATCTCCAGGTAAAAAGGGGTGTGTCGAGCTTCTTTGTGGCACTTATTTTCTGTTTCA
TCTACAGATAGCTCAGTTGGTATCTTTTAACTAGAACTGTTTTTAAAAATAAATCATAAAACCATTATATACCAAAAATATGACAACTTAATATCAATCA
CACTTTTCTAATTGTCTTACTACTTATTCTTTTACTGTTTGTTGGTATCCAAACAGTAACTCCACTCATTGCAGTAGGTTGCTATGCCTCTTAAGTCTCT
TTTAATCTGTAGCTTCCCCTTCCAGTCTCTCTTTTCTATATACTTGCAGTTTGTTTGTTGAGGAACCTGGGTTGTTTGTCCTGTAGATTTTCCCCCAATC
TAAAGTTTACTTATTGCATTCCCATGATGCATCTAACATGTTTCCCTGCCTTCTGTGTTTGCTAGAAACCGTAGTTTGATTTAGAGGTTTGATTGGATTA
TACTAAGTTTTGTAGGGTGGAGGTTGTCTCTTTTCTGTGATGCTAACAGAAAATCGGAGTATGCGAAGTTTTGTAGGATGTTTGGTTGTCTCTTTTCTGT
GATGCTAACTCTTATTAACGATCATTGCTTATATCCATTAGTCATTAGAGGTTGTAAAATGGTGATATGCTATCATTTTGTCTTCATGTATTCATTGGAA
TGCCTCAAGAAACTTTTTTCAAGAGTTGACTCCCTAGCATTCTCCTAAGGTGACAGGAGTTCTTTGCCTGTTAATTTGCTTAGTATCATTATGAATCGTT
ATGGGTTTATGTGTATTTGATGTGTTGATGCATTGCAGTTATTAAACCTATTTGTGCTTAGACTGCCCAGTTTTGACTGAAGGGAGCTTATTCAAGTTGG
TGAGGCACTTTTCTTGAAGAAACAGTTCTAGCTAAGTTGAGTGTGTCCTTATTCGAAACTCATTGTTTGTAGATGGGGACTCCACTGACCACCCTGGGGG
TGGAGGCACATCCTGGTGTCCACCTAGCCCTCTCTAGTCATGCCAAGGCCCCAAACATCATGGAGCTTTTGAAAGGAGGCATTTCACAAGGCCCCCTTGC
AGCTCCTTTGCTATAATTTTTGTGGCTGCAAAAGGGTAACCTGGTGTGAAGGAAAGGTGCTCACTGACTCCAGCTTGAATTCCAGCTCTGCCCTGTACAA
ACTTTGTSACTTTGGAGAAGCTGCATGATTTCTCCTTGCACGGTAGGGATAATGCATCTCTAAAAGGATTGGTACAACCTAGAGGTACAGTCCCTGTAAA
CCCGCTAGGTTCTCAAGTACGTGTGTGTGTATTTTCTGCCTTATACTAAGGCGCTACTCTAGGTTTGGAGTGATAAAAAAAATGAATATGATGGCCGGGC
ATGGTGGCTCATGCCTGTAAWCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGTTCGAGACTATCCTGACCAACATGGTGAAACCC
CATCTCTCCTAAAAATACAAAAATTAGCTGGGCGTGGTGGCTTGCACCTGTAATCCCAGTTACTCAGGAGGCTGAGACAGGAGGATTACTTGAATCTGGG
AGGCAGCCTGGGTGACAGAGTGGAGACTCCATCTCAAAAAACAGAATATGACATAGTTCCACGTTTCRGGAGCTTCCATTGTTTGTGCCCTATATTGTCG
TCTTCTGTGGGAAGGCAATGTGTTGACTGAGTGCYGGCTGGCTGGCAGGAGTTACGGATTGGGAATTGGGTTCTTCCAGGTGAGACACTCCTACTGGGAG
AGCATGAAGAACTGTGAGCCTGAGGGGTAAGTCAGCTGAAGACTGTAAGGAAAAGCCAAGGAGCAGACAACTGTACGGCCACAGGCAGGGGCCAGAGGCA
GAATTAAGGTCAGGCTTTCTAAGCCTGGAGCTCAAAGCTGCCAGACATAAATAGGATCCAAGAGAACTGATTAAGAAGGACTCTAAAGTCTGGTGGAGTT
GATGGCTGAGAATACTCTTGGGTGTTATGGTTCAGAGACTGCCAGATAAGGCTTGCTTTGGGTTGAAGCTCTAAAGCAGCATTACCCAATAGAAATAAAA
TGTGACCCAGATGTAACCTGCACATATAATTGTAAAATTTTTTATGAATCACATTTTTAAAAGTCAAAATAAGCAGGTAAATTAATTTTAGTACATGTTC
ACTTAACCAGTATATTAAAAATATTATTTTGACATGTACTCAATATAAAATTTGTTAATGAGATAGTTTACATTCTTTCTTTTTTTATTTTATTATTATT
ATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATACGTATACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCGTCATTTAG
CATTAGGTATATCTCCTAATGCTATCCCTCCCCCCTCCCCCCACCCATTCTTTCTTTTTTTTTGGAACTAAGTTCTTAAAGTCTGGAATGTATTTTACAA
TTACACTGCATCTCAGTAGGGACTACCCACATCTCAAGTGCATAATGACCACACAAGTAGCTACCATGTTGGAAAAACGGAGGAAGAAAGTGAAATTTAC
ATCAAGGTTCTAAGTCAAGCATTTACAATTTGACATTGTAACTTGACAAGCATAGCACAGTAGTGGTGTTGGTTTTTTGTCTCTTAGTTTGTAGCTCCAT
TTTTGCTTCCCCATTTTCTCCTTTGTATTATATGAGGCTAGAAGTCTGCAAGCTGCATCTTCCACATTACTTTTCCAGATGGTTTCCTCTTAGATTCCAC
AGGTAGGAGATACTGGCAGGAAATTGGAATGTGAGAGAAAGGAACAGGCGATAGCAGTGGCCCCTGCTAAGTGGCAGTGGTGCTGCCTGAGTGGTGATGA
TGCCAGCCCCCTCCGCTGATCAGCATGAGTGTGGGCTGGCGGGTGTCAGCCCAGGGTGTTAACAGTTTATTGTCTCTGGATGTTACTGCTTTATCTTTTT
AGTTTCTCCAGCTCTACCTCCATCTTCCCTTTGTTCATCCATACCTTCTAACACCTTTGTAAACAGTTCACTACAGCGGTATCTCTTCTTAATATATATA
AAATGGTTCTTGCTTTTCTCACTGGACACTTGGGATCTGATGTCAGAGAACTATGCTGTACTGTGGTCTTGTATGTACCATCTGTTGGTTCTATGGCTTA
GCTTCTTTAATTTTCAACTTCTTCTGTCTAAGGATAGAAAAATAAGGATAGTGAAAGTTCTGACCTCATAGAGTTACTGCAAGGATGATATAATCAATAT
ATGTACCATTGCTAGCTTTGAATGTAACACCCAGTAAATATTGCTTATTATTGATAATAATATACAAGCCGATTTTTGAAGGCTCATAATTTAACATTTT
TTATTATGGAAAAGTTCAAATGTATACAAATGTAGTGAGAATAGGATAGTGAAACCTCACGTGTACATCCCCCAGTTTCAACAGTAACAAATTAAGACTA
TTCTTTTATTTATACCTCCTACTTTCCCCCATACTTTGGGATTCTTTTAAAGCAAATCTAAAACATCCTCTTATTTCAGCTGTAACTATTTCAGTATGTA
ACTCTGAAAGAGAAGGACTGTTTAGAAAACACAACCACAATACTATTAGCAAATCCCTAAATTAAAATAATTTGTTAATATTATCAAATACAAGACAGTG
TTGAAGTTTCCCTATCTCATAAACATTTTCATTTAAAKATTTTTTTAATCATCTTTCAAATAAGATCTAGCTATTGCAATCAATTGATATGTTTCTTAAG
GATCTTGTCATCTGTGAGTTCCCTTTCCTCTCTTTCTTTTTCTCTTACAATTTGTTTGTTGAAGAAACTGGGTCATTTGTCCAGCAGAGTTTCCCACAGT
CTGGACTTTGCTGATTACATTCCTGTGGTATCATTAACCACATTCTTCTGGCCTTGTATTCCCTGTATGTTGGTAGTTAGATCTAGAGGCTTGATAGGAT
TCAGGTTTATTTACTTTTTTTTTKGGGGAAGACTACTTTATAGGTAGTGTCATGGACCTCCATCAGGAGGCACATGATGTCTGGTTGTGTCTCTTGGAGA
CGTTAGCAGCCACTGATGATTGTTGCCTAGATCAATTAATTCCTTAGGGGTTGCAAAAGCCTACCATTCTTTCTACAGTGCTTCTGGAATGCATCTATAA
AGATAAACTTCCCTCCATCCAATAGTTGGTTATCCTGAGGTACAGTTCATATGAGAAAGGCAGGGCAAATGCTTGATTCTACTCTTCCATTTGCCAGTTT
TCAAAATAATGAGTTGATTTCCTAGCATCCTCCAAAGGTAACCAGTGATGATTTTTGAATTCCTATAAAATTATCAGTTTATAAATATTAGATGTGTCAT
AGTCCATTGCAGTTATTGTCCTTACTGATGCTCAGTTGTCCTGACTTTGTCTACTCAGAGTAGCCACGTTGGCTCCTGTGTCCTTTTCATAGTCTGCTAG
TAATGTTTGACAGATTTCCTGCCTTTTTGGACTGACTAGATGTTCCAGGTTTGTTGCGTCCATTCCCTGTCTCTGATCTAGAATTAGTCTTTTCTCCCAG
GAACCTAATTATTTTTATTGAAAAATGGTATTTAGAGGTATGATCTCGGGTGTTCATTGCTAATGGACTGGTCATTGCTTCTGGACTTTTTAAGTGGACA
TAGCCAGGAAATAGATACTTTTGAAAGATAAAAATGTACCGTGAGTGTATACTTATTCATCCAGTTTAAATTTAGGACTACAAGCCTTTTCTTCAACCTC
GTCAGTCTTACGTTTCTATTTCCTCTTTCCCATGACATAAATCCTGGTTCTTAACATCATCATGATAATTCCTCATTTGTTAGATCCCACATGCGCGTGC
ACACACACACACACACACACACACACASACACATCTCAGAATACCAGTGATCAACACGACTTCATGATCAATATGAACACTGAAAACAGTTTGATTTTTT
TCCAGTGATTTTTGATWTTAGGGTCTGTCCCACTAGGGGTGAGCAGGCAAATTACTGTGTTTATAATTGTTTAAATCAGTTCYTTTTTATGTGGCTATTC
TACTAACAATGGACCAGTTAGTGATTAGCACAATACAGTTAGGATTATTTATTTCATTTTCCTTTTGATTTGGTCTTCTTTAATGTTTAGTTTAGTGTTA
TAAGAATGTAAATTATTTATATGCATCAACGTAAAATATGGTATATTCAGAGACATTTAGATTTTATCTCTGTCTCTTACATTCTATGCCCTCTGCCTTA
TTGGTAATTACATTTTAAAATGTTATGCATTTCATACCATTGTTTAAAATACACATTAACATATGTTCTGCAGAACTCAACTTTTCTGCATTTTCCTTTT
TTCACTTAACAGATATCCTGGAGATCATTCCATCGTAGTTCATAAAGATATTCCTCATTCCTACTCATAGCTGCATAGTATACCATCATGTGGCTGTACT
TTGTTTTATTCAGCCAGTCCCCTATTGATGTTTTTTGGGGGGATTATTTCCAGTAATTTTTGCTATTGTAATGGTGATACAGGGAATGGCCCTATGCCTA
TATATTTTCATATCATACAGTCTAATTTTTTAGTACAATAGTGACATAATGTTTTCCAGAAAGAATATATTTATCTATCCAGAGCATTAACTTCTGCCTA
TCATACAAAGACTTTCCTTGGACTCTTTAGTTGTTTAGTAATTGTAAAATAGTAATATAGTTTTAGCTGAAGCTCAAGCTTAAGATCTCTAGATCTTAAT
CTCAGAGGATTTTCTTTGAGTAAAATGTACTTTTTTCTGCTTTCAACCCAGCTATAGTTTCATTTTCATGGAGGTGTGAGATCTCTGAGACAAATTGTTT
AGAGGAGGTTTGTCTTGCATCTGTTGGACATTGTAATTCTCCTCCCTTATGATGGCAGCAAAGTGATTTGAGAAGAATAGTGGCTGCCTTTTCATCTTCA
CTTCTGCCTTTCCACTTACATTAAAGTCCTATGCGTTTACACTGGCATTAACCCAGTCAGCACCCACAAAATGCCACAGGGGGCTCTGTATCACTGATTG
TTGTAAAGAACTTTCTTGAGCCTTCATTAGAGCTTAGAGCATAATTGTACCTTATTTTGGTATTAATCACCAAGACCTAAAATCAAGTTTTTTTCCACCT
TAGAAATGGAATGCATAGATGTATATTCTTTTGTATGTTTCAGAAATTGGATTTTATCTTTGTGATAGAATCACATATCTGATCCATAATGATCCTGTAG
TGCTTTCTTATGTTCAATATAATTTTTAAACTGACCTTGTTTTTTTCCTTATATAAATGTATCAACTTTATCAACTAGCAATGCTCAAGGAGTTTTCTTG
GCTCACAAGTTGTACATGAATGGGTGAGATCATACCTCTAAATACCATTTTTCAATAAAAATAATTAGGTTCCTGGGAGAAAAGACTAATTCATGAAGTT
TGGGTGGGGCAGGAGAAGAAAGACTGGCAGAAGCAAAGGCACCCATGAGAGAGAGAGAGCAAAGATGAATTAGATTCATAGCAAAATTTTGGAGGTACAG
ATGGGAAATGAAAGATGGAGAAAATGATATAAAGAGTGGAGGTGTGCCTGTGCATGTCCATAAGAGATAATCTTGGAGGTGGAGTATCTTAACTATGCTG
TGAGCCACGCAGAATGGAAGACAGAGTTGGTTACCTGCCTCAGTTTAGGAAGGGGAAGCAAGGTTGGGGTCAAATATGCAGAAACTTTGGGGCAGACTGG
TTCAGTTCAACAAACATATACTGAGGGCTTAACTGGGCATCAAGCACCTGCATTAGATTTAAGAATACAAAGTTGAGTAGGATGGTTGCTTCCCTAGGTG
AGTTTATACTTAGTTGGAGGAGTTGAAAGGGATAACACACAAGCAGATATTTACTTCTTTATAACACATTACCATAGACTTAGGGGCTTAAGACACCCAC
ATTTATTATTAGTTGCTCTGGGTCAGGAGTACAGGCACAGCTCATCTGGGTCCTGTACTTCAGGGTGTCTTACAAGGCTGCAATCAAGATGTTGGCTAGG
GCAGGGTCTTATCTGAAAGCTTGACTGGAGAAAATCTTCCAAGCTTATCTACATGGTTGTTAGTAGGATTCACTTTTTAGATGGCTGTTAGGCTGAGAGC
TTTAGCTCCTTGTTGACTGTTGGCTGGACACCACCCTCAGTTCCTTGCCACACCGTCCTGCCCCATATAGCAGCATATTTCATCAAAGCCAGCAAGAGAG
ACAGTCTCTTTTATCAGTAAGATGGTAGTCATATTATGGATGTGGAAGAGAGGATTACACAAGGGCATGAGTACGAATAGGTGGGAATCATTGGGGGCTG
TGTTGGAACCTGCCTGTCCTACAAGTGTCTGCTACAGTTCTGTAATGCCTGAGAGAGGAAGTGTTCCATGGAAGCATGAAGGAAGAGCATGGAACCTACC
TGGCAGGGAAGTGGCTTCTCCAATAATGCAGTGTCTGGATGTCTGAGTGTAACCCTGAAAGACAAATAGGGATTAACTTGGTGTGTAGCTGGGAGAGGAG
GAAGGGAGAGATTCCAAGCAGAGAGACTAACATGAGCAAACATTGAGGGGGTAAAATACCTGAGGACCACCATCCAAGTAGTTTTCTGTGTAAACCATGT
GTGGAAGACATATAGAAGGTATCAGAAATGGAGAAAATGAAAGATGAGGGTCAGATTTTGGAGTTCCTCGTTTGTCAGGCTGAAGAATGAAGACTTTATC
AAGGTGATCACAGGGAGGATTTTAAACAGGGGAATGACACAGTCCAAGTTGTGGTTTCATTAGTATGGAAGATCAATTTTAGCAGCATTTATAATGATTT
AGGTGATAGATGAAGAGGGTCTGGATTAAAGTAGTGCAATAGGAGGGCATACATTTTAATTTTACAATTAGGAAGTTATTTGATATTTGGGCAAGGCAGA
TGTGGGAGATAGAACGGTCTGGAATGATGTCCAGGTTTTGGCAGAACATTCTTGTTAGGAAGCAGGGGAAAGAGAAGTTGACAGAGGGAAAGGAAAGGAT
GGAAGGGAGAGGTCTGTAAGAGTTTATGTAAGTTTGTAAATTAAGTGGCTGATGATAGGAGAGCCCAACTCAAAATACTCTTTAAAGAGCTTATGTTCTC
AATTTAATCAATGTAACTGTGTAAATTTTCTTTCTAGTTAAGCCATATGTTCCTCTGGTAGGAGAGAGAATCAAATACGGAATTCATTTTTCTTGCAAAC
AGTTGGATAAAAGAAAAATTAGTGTCAAAATTTTAGTAAACCTAGACCAAAGGTGGGACACGCATTCACTAGTTCTATCCAGTGCTTGCAATATTGTACT
CTGGCACGCAGATACTGCTATAGAATACCATTCACAAGCTATAAAGTGTCATGTAACTGACTTTTTCTTGAAAATGGAGATATAATTAGAAAAACATAAA
ATTAACCATTTTGAAGTGCACAGTTCTTTGCTTTCAGTATATTTACTATGTTGTAAAACCATTACTGCTAATTCTAGATAATTTCTAACACCTCCAAAAG
AAACCCTGAATTTATTAGCAGTCAGTTCCAATCCCCACCCCTCCGCACTCCTACCCCTGGCAACCATTAATGTGTTTTCAGGCACTATAGATTTGCCTAT
TGTGGACATTTCCTATAGATGGACTCATACAATATGTAGGGTTTGTGTCTGGCTTCTTTCAGTTAGCATGATGTTTCATGGTTCATTCTCATTGAAGTAT
ATATCAGTACTGCGTTCCTCTTGACTGTCAAATAATATTTCATTGTATGGATATACTACATTTTGTTTATCCATTCATCTATTGACGGACATTGGGTTGT
TTTGACTTTTTAGCTCTTAGGAATAATGCTGCTATGAACATTCTTGCACAGGTTTTGGTGTGGACATGTGGTTTTATTTCTATTGGGTATATACTAGGAG
TAGAACTGCTGCATTGTATGGTAACTATGTGTTTAACTGAGGAACCACTAAACTGTTCTCCGAAGTGGCCGTACCAGTTTCTCTTCCCGCCAGCATGTAT
GAGGGTCTCTATTTCTCCATGTTTTCACCAACACTTGTTATTGCCTGTCTTTTTTATTATAACCATTCTTGTGGTTGTGAAGTGGTATCTCACGTGGTTT
GATTTGCATTTCCCTGATGACTCATTCAAGGTTGTTTTTAAGAATTAAATAAGCTCCCATAGGTGAAATCTCAACATGAACTTGGGTTTCAGTTCTCTGC
TAGATCCAGGGGCCTTCAGAAAAACTATATTGGTATTCCTTGTCAATTTAATTTACACTGCACCTTTTTAGCTCAGGAAGCCAAAGTACAGGCACCACTT
CTCACACTGGCTTTACAGGGATGGATGCTAGAATCCCCTGTGGGGCCCTATCCCAGAGCTCTGGAAGCACAATCTCAAGGGGTCTGCCCAGCCTGTGCAT
TTTAAATTTATTCTATTTTATTTTGAGATGGAATCTCTCTCTCTTGCCTAGGCTAGAGTATAGTGGTATGATCTTGGCTCTCTGCAAACTCAGCCTCCGA
GGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTATCTAGGATTACAGGCGCCCACCATCAGGCCTCACTGATTTTTGTATTTTTTGTATTTTGGCCAG
GCTGGTCTCGAACTTCTGACCTCAAGTGATCCACCCGCCATCTCAAAGTGCTGGGATTACAGGCATGAGCCACCAGACCCGGCCATTCTGTGCATTTCTA
AAAGGCTGCACATTCAATGTCAATGCAAAGTCAAGAGTTGAGAATCACTGCCTGACTCCAGTCTGGGAGAAGAAATTGGTGGGACCTGGAGGAAAAGCAA
GAGACTTAGTCTCAAGAATCTTCAGGCAGCACCATTTTTTGCCACCACAGGAGGTGCTGGTGAACACATGTTGTTCAGACCTCTCAATAAGAACTGAGAG
AGTTGCTTGCCATTTCTGTAAGTGCAGAAACTAAGATTTCGATTTGGTTCAGAAGTTTAGCATTAACCCCAAATCATTGGAAGCACTAGAATTAAATGTG
GGCCAGGTTTCTGGTTTGGGTGCATGGAGTCATGCAGTGTGTGTTGGTACTTGATATTTGTTTTGGTAGTTTGGAAGAAATGGCGGTTAAAATAATTTCC
AAATGGTGACTGAAACAAAATTCACATGTAGTTGTTTTGGAATGCGTTTTTTACCTGCTTGTATGAAGCCAGATACAGCAGACAGTGTGGAAATTGGAAA
GACACAAAGTCAGGCTACAAAGACCCAGCTTAAAAGGAAGTAGGGGAAAGTGTGTGGGAACTTCCCCTTTCTACTTTTCAGTTCTTTTTGCTTTTTACTT
GGATTAAACAGTCTTGCTTTTTAGATTGACTTAAAGTTCTTAAGGAAAAACTGTTTCTCTTTAAGCTGTTTTTCTTTGGTTACAGTGGAAGTCATTGGGT
TTAGGTTTAAAGGGAGGGAATTTCAAATCACCTTCGTTTCTGTCTTTTGTGTGATAATCAGAGAAAGTAGGAACGATGATAATGGTAACAATGTCAAAAG
GAAGCTGTGTGACAAGAGGTTTTGCTACGTGTTAATTCAGAATTGATTGCAGTTGTCAAAGTTGCATCAGTCCCGGTCCCACGGGAAACAGCTCACCCCC
AGATGGTTCTGATGAAGAGACTTCAGTGTAGGTTCTGCTTACAGAGGTGTGAGCATAGATAAGGAAAGACAAGGGACAATGAGATGCCTAGACTAGCAAC
TGTATTTAGCCCTTACCGGCCCTAGGACTGTAGACTGAGGGGCCCCTGGCATAAGCGGTACTCATGAAGGCACATGCTATTGCCAGGACAGGGCACTGAA
GCAGCGAAGGAGTGGGAAAGAAGTGACTTGACCTCTCTCAGCTCTCATCCTGCAGTGCCCTGCCAGTGCCTCCCACTGGTCACATCCAACATGAAGCCAG
CCACAAGGGAGGCTTGTGCAGGCTGCACAGATCAGCCTTTCAAGACACAGAGCAGGGCAGACAGTGGATGTGGATGGGCATAGTGGTTTTTACAATTGGA
GACTAACTTGCACAGTAATCAACTGTTTTACAGTGATCACATTGTATATTTTGTTAATTTTAGAATGTATTATTTTGGAGAACTTTGAGAAATTTTGCAA
GCATAGAAAAACATCCATTTTTCATATTTAAAAAACRTTCCTCAGTATTTCACATTTACTTATGCAAAAGCTTCTTGTCTTTTAGGTTGTAAACTTTGTT
ATGAAGTCTCTTAAACTTTGTACATTCTYCTTATTTTCCCAATATATTAGTGCATATCATTGTATTGCGATAAGCCTGAAACAGAGAGGGCCACACTGTC
TTTCAGATTGGCAGAGGGTGCTTTAAAAATTCCTCTTTTCTAGATAGGGGCATAGATATTTGTGAATTATTCAAAGGTGATCACTTGCCTTTAAATCAAG
TTAATCAAAGTGGAATTTAGTTTAATGTCTTTCGTAGCTCATAGCTTAGGGGGAAGATGCTGTGTGTTTGAGACATTCACATAGCTGCATATATCATCTC
CTTGCAGACATAGCTGGGAATTATTTTGCTGCACACATTAGTGAAATATACCAACTTGAAATGTTTGTGCTAACCGAGTGACCTGTTTTCTGTGTCATCA
TGTGTGTAATTCTCTTATGTCTGAGTAAAAGGCTGAGATGAAGGTCTGTGTCTCTGGATACCCGTGGGGTTGCTAGGAAATGATTTTCGAAGTGCTCTGT
GGTGATGCAGCAGGTTGAACTTTTTTTGTGAAGTGTTGTCATGGAAACCAAGTGCATCATTGCCTTGTCTGACTAATTTATCTTTTAATGATAAAAATTT
GTAATCCAGGGTTAACAAATATAAATAATACAAATGCAATAAAAAACCAATAACTGTAAAGGGAATACTGCTGTAAGTAGCGAATCCTTTGAATTGGAAG
ATGTCACAGGAGTATTGTGTGATTCATGTTGGTAAGGGCTTGGCAGTGTGGGGAGCTAATCAGTTTGTTTTCCTTCTTGTCATTGGAGTAGGGAAACCAT
GATTTCACTCTGTGGCTTAGTGCTGTGGGCTTTTATTACTGACCTCGGCTCCTGAGCTTATAAGTAAAGAGGAAGGCGCTGCACACCCTGTGAGGCTCAG
CAAGCTTGCCAGGGTTTTGTTTTCTGGGTGGTTGCTTAGTTGTACTTCTCCTTTATGACCTCTCACTCTGCTCTCTCCACCTAAGAGAAGGCTGGGTGAC
ACAATGCAAGCCCTACCATTGATGAAGGCCAGTCATATGGAAATGGTGCCACAGGCTTGCTTTCTGGGMTAAGCAGTCCTACATCCCCCTTCCCCAGGAG
CAGGTCCTGGAGCACAGAATCTGCCTTGACTTCCTTTTCGTGGTTAAAGGGCCCTCAAGGAGAGAAAACCTGCTCTTTTGTTTATTGAGGACAAAGTCTT
ATAGCATTGTAAGATATCAATGGATGCTGCTTATATCTGGATGAGTAGCTTACTATGGTAAGCTTTCCAATGAAAGGATAGGAGAACTGATCTGAAAGAA
GACTTGATTCTATATTTAGTAGTTTATCTGCCTCCATAAGGATTTAGCTACTGGCGTTTCAGTCTACCTGACAGCCCCCAACCCCCTGAAGCTCTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCAGTAGACTTTTGTTGCATTAGGTTAAATATGCTCTTCAGTTTTAGACCATTCCAAAATA
TCTTTTATTAATATTTCCACCTTTAGGGTATGTTTGAGTTTTTTTTTTTTTTAATTTAAGGGGAAAAAGTTTGACTCTAGGCATGAGTCCTAAGATAAAT
AATGGAAGCGAGTCAATTTAAATCAGTATTTCACTGACTGGTGTTTACGGCCCAAATCTGTTTTCATGCTTTCATTTAGCATATATTTCCTGAGCACCTG
CTTTGTGCTGGGTACTTCTGATGCACCTATTATGGATAAAAGAAGGCGCCTAGAGGTAACTTTAAGGGGCTGAGAGCAAAGGCCAGCCAGAGCTTGCAAC
CTGTCCAGAGCAGTTTCAGACCAGGAGGATTCCATCTGGCAGCCATACTGAAATCTCACTGGTGATGTCCCTGCATTTCTGTGACTTATTTCCTATTCCT
TTGGTCATTTTCCCAGTTCCAGAATCTTGACCGCACCTCCTAATGACGATGTGGTACACGTACCCAGCATTTTGCATGATTTCCTAGTATTGACCTTCTG
TAGGGAATGTCACCTTTGTTGGTAAAATGGCCCCCAGAACCTAGACCTGGAAGGACTGGGCAGCTCTTGACTCCATCTATGGCATTTTATCTTCTGCTTT
GATCTCCCTACTCACCCTCACCCAACTCCACATGGGCTTCAGGGTGAGAGAAGGGGCCCTCCTCCCCTCGTTAATATCCTAGCCAACTCATACACATGAG
GTTGTATTTAGTTCCCAGAGCAGAGGTGAGTCAAGACTCGCATGTTCAAGAGGACTTTACCGARCCTCAGAGATGACAGAATAGAACAGGCCGAGGGAGC
ACTCTGAAACTAGACCCTCTGGTTTGCCCTTGGGTGCTGCAGTACTTGTCTAGTCTACCAGAGACTCCAGTCTGGCCTTCCCTACATAGTACCTTTCCAT
AGAAGTTTGACCTTTATCCTCTCTCCTCCAGATTCTTCCCCAAGATTCCTAGACCCCTGACGTCCAGACCAGGTGATTCTAAATCCCTCCCAGGGTAAAT
GTTATCTTTGGAAGTAAGTGATTGAGAGCTTTTGCTTAGAATTCCAGCTGCCACCACTCTCTAAATGAATATTATTTGGCCTGTTTTCTCGTTCATTTAA
TGGGATAAGAGTAATTCCTATTTTATCTGGGACCAGTGAGGATTAAATGAGAGCATGCACGCAAAGTGCTCAATGTAATGCCTGACACTTCGTAAATGCC
TTGTCATCATCATATTGTTGGAAAGACCACTCTTCCAGTGGTCTCTCACCCCCAACCCATTAGGGCTATTCTTAGCCCTCCTGGTCTAAGTACAATTATC
ATGGCCGTCATCTCACAGAGCAGCCCCACAGARGCCTACAATCTGTTGTTTGTCCTTGCACCACAGCTGCCCTGGGCCCCTCTTGTATCACAGAATAATC
CCATAGCCCTACCCTACCTTCCTTCTGGTATTTACCTGTTGGTTGTGATTTGTGTGTGCGTGCACGTGCTTGAGGAAACCCCAAGTTGGGAAACATGAAA
ATGGGAGCATAGACTAACTAATTGACCATATTTATTCACCTTTAGTATATTAWTCAATTGATGAAATACTCAGAATGGCCTTTGCTGTAAAACGTCCAGC
ATTTTGCCTCCATTTGCTGTGTATATTTCAGCACTGGGCCTACCAGTGTATGAACAGGATTCTCTGGGACATGCTCATGTTTCTCCCTGTTAGAGTCTCA
TTCTTGCAGATCAAGGATTAGGAGACTAAACGGGGCATTCATTCATTCATTTAGCTATACAACAAGTAAATGTTGAGTGCCTACTGTGACCTTGAATCAG
GGAATACAAACAAGGTCCTTACACTCATAGTGCTTATGTTGTAATTTATTCACCATTTTCATTCATTCATCCATTCATTCATTCAATGCATCTTGAAATT
CTGTGTTCATCTTTTTGTCAATAAGGAATATTTTCTTCATATCCTTCTCTTTTTTTCACTTACACCTTCATTCGTCTATTTGTTTGGCAGATATTGATTG
AAGTGGGGGCCTAATATGTGTCAGTCAATGTTTGAGACACTGAGTTACAGCAGAAAAAAAAAMAAAACTAAAAATTCTTGTTTTCTGAGTACTTACATTT
TAACTGGGGGAGATCACCAAGAAAAAAAATTTAACAACCTTATTTGGTTGGTACTATAATTATCCCCATTTAAAAGATGAGGAAACTGGAGCCGAGATAG
ATTAGGTAATTTATTTAAGGTCACACCACCAGGAAGTGGCAAAGTCACGATTGACACCCAGGCTGGCTGACTGGACTCTTAACTGCTGTGCTGTGTTGCC
AGAGAGGATATTCTGGAAAGATAACTTTTGAGATAAGACTTGAAGGAAGCAAGGGAGTGAGCCATGTGGCTATCTGGAGGAGGAATACCCCAGACAGTGG
GAGGTCCCGAGTCAGGAATATGCTTGGCATTTTGAGAGAAGCACAAGCAGGCCAGTGTTTTTGGGATGGAATAAGTGAGAGGGAAGAGAGGTGAGAGGAC
AAGGTTCTAGCTACCTGTAGACACAAATGTGGGAGTCATCAGTGCATAGATGACACTTAAAGCTATGAAACTGGATGGGATCATCAAGTGAGTGAGTATG
GATAGAAGAAGAGATCTAAGAACTAGATTAAGACCTGGGGCACCCAGAAGTTAGAGGCTGGGTTGATGAGGAGAAATTCAGTTTCTAAGAATGAGTAGCC
ACTGAATAGGAGGAAGAAGTGTAGTGACTTTCACTTGAATGCCAAGTGGAAAAAGTGTTTTGAAGAGGAGGAAGTGATTAACTGTGTCACATGCTGCTGA
TAGTTCAAAAAAGATGAGGACCAATATTGGACCACTGGATTTAGCAACATGGAGGTCATCAGTGAACTTGACCAGGACAGTTTCAGTGTGGTGATGGAGG
CAAAATCTTGCCTAGAGTGGTTCAAAGAGAGAATGGGGGAGAGTAAATTTAGATAACTATTTTGAGGAGTTTTTCCACAAAGGAARGGAAAAAAATGAAA
TGATATTGGCTGGGAAAGTGTTCTATAATGTCAATTTAGTTCAGTTGGATGATGGTATTGTTTGGTTTTTCTATATTCATGCTTATTTTCTGTCTAATAG
TTCTATTAATTACTGAAAGAGACCTCCAACTGTAATTGTGAATTTGTCTATTTTTGCCTTTAGTTTTGTCAGTTTTTGCTTTATGTATTTTGAAGCTCCG
TTGTTTGCTAATTGTATATTTAGTATTTTCATGTATGCTTGGTGAATTGACTTTTTTATGATTATGTAATTTCCCTTTTTATCCCTAGTAATTTTCTTTA
ATCTAAAGTTTACTTAGACAGATATTCCCTTTGTTTGATTAGTATTCACCTGGTTTATTCTTTTCCATTTGATTCTACCTGTATAATTATGTTTGAAGTG
AGTTTCTTATAGATAGCATGTAGTTGGGTCATGTGTTTTTAATTCATTCTAACAATTTCTGTCTTTTAATTGATTTATTTAGACCATTTACATTTAATGT
CCATACTTTTATTATTTGCTTTATGTTTGCTTCCCCTGTTTTTCATTCCTCTGTTCCATCTTTTCTGCTTTTTCTGGTTTATTCAAACATTTTTTAGTAT
TCAATTTTAATTTATCTATTGTGTTTTTTACTACATCTCTTTGTGTAGATTTTTTAGTGGTTGCTCTAGGGATTATCACACACACACTTAACTTTTCATA
GTGAACTTAGAAACGATATTCTATGTCTTCAAATTATATAAAGAAATCTTCATGTGTGTCTTTTTTATCCAATCTTCTTCATAGTTATTTTATATACTAG
TTATATGTACATTGAAAACTCCATTAGGCCATGTCATAAATTTTTCTTTCAACTGTCAAACATACTTTAAAGAATTCAAGAGAAGAATAATCTACTATAG
TTACCCAAATATTTACAATCTATTGCTTTTCCTTCATTCGTGATSTTCCAAGTTTTCTCCTAGTATCAATTTCCTTTAATCTGAAAGCTTTTCTTTAGAA
TTCTTTTAGAGCAGGTCTGTTGACAACTGATTTTTAAGTCTTTTCTGCATTTGAGAATGTCTTTATTTTACCTTAATTCCCTATGAATATTTTCATAAAA
TATAGAATCCTGAGTGAACAGGTTCCCCCCACCCCAGGACTTTGAAGATGATATTTCACTACCTTCTGTCTCCCATGGTTTCTGGTGAGAAACCTTTAGT
CATTTGAATTATGGTCCCCCTGTAAATAGTGTACCATTTTCTTTGGATGCTTTCAAGAATTTTTCATTATCTTTAGTTTTCAGTAGTTTGATTATGTTTC
TGGACATGGATTTCTTGGAGTTTATCGTGTTTTGAGTTTGCTAAGTTTCTTAAATATATAGGTTTATGACTTTTGCCACAGTTGGAAATATTCCAACCAT
TATTTCTTCAAATATTTCTTTGTCTTCTCTTTCTGAAATTCCATGACATGATKTTAAGACCTTTTGTTATTGTTCAGGTTCCTAAGACTCTGTTTTTTTA
GTTCAGTCTTTTCTCTTTTGTTCAGATTGGATAATTTGTATTGAATCATGTGCAAAGTTCACTGATTCTTTTCTTCAATCATTCTAACATTGAGCCTATC
CAGTTGGTTTTTTATTTTGGTTATTCTATCCTTTAGTCATCAGATTTTCATTTGATTCTTTTTTATATCTTCTATTCTTTGCTGAGACTTTAAATCTTTC
CAGTTGGTTCAAGTGTTAACTCTTGCTTATTGGAATTTTTTATAATAATTGCTTAGTCTTTGTCAGATAATTCCAGCATCTTTGTCATTTTTGTGTTGAC
ATCTATATTACTGAGGGCTCTTCATAGAAAYAGAACCAATAGGATACACATAGATATACAGAAAGTGGTTTATTACAAGGAATTGGCTCATGTAGTTATG
GAGGCAGAGAATTCTCATGATCTGACATCTGCAACCTGGAGGCCTGAGAAATCTGGCAGTGCAGTTCTAGTTCAAATCTGAAGGTCTGAGAACCAGCAGA
GTCAATGTGTAAATTCTAGTACGAGTCCAAAGGCCAGAGAACCAGGAGCACTGATGGCCAAGGGCAAGAGAAGATGAATGTGCCAGCTCAAGAAGAGAGA
ATGAATTTGCCCTTCTTCTGCCCTTTTGTTCTTTTCAGGCCTTCAACAGATTGTATGATGTCCACCCACTTGGTGAAGGTGAATGTCTTTACTCAGTCTA
CTAATTCAAATGCTAATCTTTCCCAGAAACATCCTTACAGATACACTCAGATATGTTTTAAAAGCTATCTAGGCATCCCTTAGCCCAGTCAAATTGACAC
ATAAAATTAATCATCACAACATCTGTCAATTATCTTGTCCCATGCAAGTTGTAATTTTCCTGGTTCTTATGTCCAGGAATTTTAGATTGATTATAAGACT
TTGTATCTTGATTAAATCTTATGGTGAATCTTGATATTTCCGTTTTAGCAGGGAATCAACCCTGTTGGGTTCAGACCACAATTTCTAGTCAGCCTTCTTT
TGTGGTTATATCAATTACATTTTTAAAGCCTTTTCAATGCTCTTTGAATATGTCCCATGTGTATGCCACCCAGTGGCCAGTCTGTGACCTGAAAAGTGAT
CTGTCTCATAATTTAGTTCTCTGTAATGTGCTTTTTAGTGTTAGATCCATATATATGCAGCTTGGAGGTGATGCTAGCAGTACATAAACAACCTATGGCT
TCGATTTTCCAAGCACTTCCTTGTTTGCAATCTCTTGGTATTTTCAAGTTCCCTGGGGCTACTGATATCTGGCCACCTTTCTTTTCTCTAATTCTTTGTA
CAATAAACAACACCAATCTTTTCTCTCCTTTACTGGATAATTTTAGTGTGGAAAATAACATCTAACCTTTCTGAAATCGAAATCCACACTTTTGATGAAC
ATGATCCAATTCCAATCTCTTATGCTTATGTAACTTTAAAACTTTCCACACATCTTTCTAACAAACATGGGCTCCTCTAGCTTTAGCTGTATTGTAAGAT
CTTAGATGAGGTTAAACACCTTCCTGTTCAGAGCTTTCATTCTTGTAATAACCCAGGCTTGTCTCTCCAGAATGCTCTTCTACTTGGGTGGCTTTTAAAG
CATGTTTGTTTATAGCTGCTCCTGGTCCATTATCCCCTGGGAACACAATGTTTTATAGGGGGTCCTTGAGCAGAAAAACACAGCAGCAACCCTAACCCTT
CGACGTCAGTCTCTCCAAGTGCATCKAAGTTTAAGTGTTTTGCTTCCTTCATCAGTACTTTTTCTGTGATCCTTCCTTTTCAACAAGCTCTCCAGTAACA
GCACAAGACAAAAGTTAAAATGAAGCTTTTTTTTTTTGTATTTCGTTTTAGTCATTCAATTGAGAGTTTTTTGAAAGGGCAATTTAAATTTGTTTTGTTT
TGTTTTGTTTTGAGATGGAGTCTCGCTCTATTGCCCAGGCTGGAGTGCGGTGGCGCGATCCCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATT
CTCCTGCCTCAGCCTTCCGAGTAGCTGGGACTACAGACGCCCGCCACCGCGCCCGGCTACTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTA
GCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCAAGGGCAA
TTTAAATTTTAATTAAAACTCCGAGGTCACAGGAGGTCTCGTAGACAGGATTCTACTCATGTAGAAAGAAAGTAGAAACCATAAGATAACCTAGTGTACA
TCTGCCTTGTCACCAGTCAGATAATCCTATGCCAACATCTTCTCCATCACTAGGGCTAGCTATTAATATCTTTTCAGTAAAATATGCTATTTAAAGTGTT
ATACCCACACTAATTATTCAAACACATTCAAATTGAAATTAACTAAGCTGACAATTATTCAGTACCCATTTTATGCAATAAGTGTTGTGAAAGGAAATAA
AGAAAGAAAAATACATAACTCTTACCTCCAAGAAGCTTTCTGATTTGCATTTCCATAAAATAAAATTATTTTGTCTTTCAAATACAGGTTTCCAAATACA
GAGGGATAAAATGTTGAATTAACCTTTTGAATAATACGTAGTTGCAACTAAGCAGCGTTTTCCTAAATAAGCATGTTTACAAAACTTCCTAGGAAGTGAC
CAGATTGCTATTCATTTTAGTAACACATAGTGAATTTTTTTAGTGCAAAAATGAGGGATAAAGGAGAAAAAGTGAGACAGTTGCAAACAGGAGTTGCAAT
CAACAAGGGAGACAGCAGCCAAATGAAAAGAGTTCTTTTTCTAGAGCACTCACTAGTATAGCATTTTTGGAAGAGTGGCTTTTGAATAAAACATCCGGAA
AACTGGTTGATACACTTACTGTCAGTTCAGCACGCACACCTCATTGCTTTTCTTCGGCAAGTATTGGGAGTAACTCATCATTATAGTCAAATATGTATTC
AAATGCTTTGACTACTGGAGATATCATAGTTCAAAGTGTATTGCTCTTGAATCTGAAGAAAGAACCTTAATTGATGTTTAATGTGAACTCAGATATTGAG
AGAAGAATGATAAGACGTCACATATTTCAACAGATTTAAAGTAATTTGAGGAGGTAAACAGGCATAATCATTTTACTTATGGCACAAAAACAATCATAGT
AAGAATAGTTACTAATATTTATTGAGCACCACATGAAGAGCATGATGTGCATTACCTCACTGAATCATGCAGCAATCCTGTCCTATAAGCACTATGATCC
TTATCTCCATTTTACCAACATGAAGGATTAGAGGTTAGAGAGGTTCAGTAGCTTGACCAAGGTCACACTGTTACTAAGTGATGAGGCCAAGTCTGGGTGC
CAAGGCCAGTTCCCAGCCACCATTCCTCCCTCTCTCATGAGATCATGTGTTCTTCAAGCAAAGTTCACGTTGGCCATCAGATTATTTCTCTGGGAAAATA
TTAAAGCTGCATTGATTTGCTAAAGAAACCACAAGTGTCTGGCTAACTTGCATTTCAAATTTTGCTTTAAAGTTTTAAAGTTATCATTTTAAGAACAGCT
GCTGTAGCTGCTATAATGCCTCTGGAAAAGATAGCAGAAAAAATCCACTGCCTTGCCCACCACTACTACAAACAACAGCAAAACTTTCTCATGGTTCAAA
TCCTTCCTTAACTTGTCCCAACACCAAATTCACGCAAGGTGTATGCCGATGAGCCTCCTGTAAAATATCCAGAGCTTCTAATTTGGGGTAAGATGAATTA
AGCACTCCATTCTCTCTCTCCAACTTAATGCAATTATAAAACCTGGCGAGAATGCATGGAGCAATTATTTAAGAACCTTGAAAAGTAAATAGTAACAGGT
AGATTGGGAGGGCAGCCAGAAATGGAAGAACTACCAAACTGGTGGTGTGTTTACAATTTTCCCCTCACTGGTATCCCTCAGCCTGTATCCAGTGCTCTCC
AAGAGACCTCCCTGAGTCCTTAGTTCTGGCAGAAGGCACAGGAAAAGAAAGGTGGCCAAATATCAGTAGCAAACGTGCTTAAAGAGAAGTTAACAGTTAT
TAGCTCAACATATTTCATCTACATCAGCATGTTTTAAAGTATGTTTCAAAGGACAATAGTTGTGCAGAATGTTAGGCTCAAATGAACAAAAAAGCAAAAT
AGTGGAGATCCAGTGCTGTTTGGGATTAGGCTCTTTGTAAACCACTAAAAGAAGCTAGATATATTTCTAATTTGGTAAAATAATAGGTATGATTTGGAGA
TCCAGTTTATTATGGCTAAAATTTATTAGTGAGACTTTAAGACATCAGCTCCTTCTGTTAGAAGTTTTATATCAAAATGTCAGTCAAATTTCTTTTTCTT
TTTTTAATTTATTTATGTATTTATTTTTTGAGGCGGAGTCTCCCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAGTCTTGGCTCACTGAAAGCTCCATC
TCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTGTAGCTGCGACTACAGGCACCCACGACCTCGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGG
TTTCACCATATTAGCCAGGATGGTCTTGATCTCCTGACCTTGTGATCCGCCTGTCTCGGCCTCCCTAAGAGCTGGGATTACAGGTGTGAGCCACTGCGCC
CGGCCAAATTTCTTTTTCTTATTAGATTTAACATTCTAAGAAATACCAAAGATAAAAAGTATAATACCAATCAATTATACTTTTTAATATCAACTATACC
ATGTTTATTCTATTTTTTAAAAGTGGTCTCTTTTAATCAAGGCTTTGCAATGATGTTGATGGGAAAAGTTTATGGTGAATTTTATAAATATAATTCAGTA
GCTTGAGCCTAACTTTTTTGGAGTGCAAGAGGAGTGTCTAAGAAGATATCTTCTATGGTATGTCCATAGATAAAAATGTAATACCTTTAGACAGAGCCAA
CTATACTACCAGAAAATATAATCTGTATGTTAAGTAAGCCATTTAGGAGTTAGCATTGCATTTTTTTGTTTTGAAAAAACACCCCAGCTTTATTGGAGTA
TGCTTTATATACCATAAACTTTATCAAATTAAAGTGTATAGTTTCATGAATTTTAATAAATCTATATAGTTATGGCAACATCACTACAATCTAGTTTTAG
AACATTTCATTACCCCTAAAAGATCCCTAGCACCTGTTTACAGTTGAGCCTGCTCCCACTCCCAGACCCAGACAACCACAGATCCTCTTTCTGTTGGTTT
TAACTTTTCTGGAAATTTTATATAAATGGAATCATACAATATGTAGTCTTTTTTGCCTGAGTTCTTTCAGTTAACATGCTTTCAAGGCTCATTCATGTTG
TAGCATGTGTGAGTAGTTGGTTCCATTTTATTGCTAAGTGGTGTTCTACTATATGGATAGGACACATTTTGTTTGTTCATTCATCAGTTGGTGGACATTT
TGGTKATTTTTAAATTTTTGCTATTATAAGTAATGCTGCTGTGGACATTTGCATACAAGTTTTTGTGTGGATGTGTGTTTTTGTTATTTCTCATGAGGAG
ATACATCAGAGTGAAGTCAGGGTTGTATAGTGACTCCTTAAGTCATTGCCAAAATGTTTTCCAAAGTACTTGTAACATGCTGCATTTCCACCGCCACCGC
TGCATCCTTTTCTGCTTGATTAAATGGTTAATGTTTGGTCTGAACTTAAGAGCAGGAAGCAGGGTATGTGGGAGAGTTGAAGAAGACACTCCACCACCAC
CACCACCACTGCAACAAGAAGGGCACTGGGGAGTCAGATTGGATGACACAAGCCAAGCCATGATAGGACTGCAGGAAACCCAGGCTYGAAGATCGTAGCA
GACATACAAACYAATCAGATGGGTTTTAGAAAGACTTAGCTTGGGGGTGGGGTAAACCGGTGGCAGCAGACCTCTGAAATGGCACAGTAGGACTCCAGCT
GTAGGCTCAGCTCTAGAGAGGAAGACTGAAAACAGAAAGAGCAACAGGGCCCTCAGCCACTTGCCTTGGGTTCATGGCAGGGCTGCAGCCTTGGGGTACT
CCCAATGTGGCCAAAGTCACAGGGTCACGTATAGAGATGGGACCAGGTCAGGAAGGAAAGAGAAATGATCTGGGTCTAGGAAACCATACAGGCTCCAGGG
GCAGCCTTAGGGCAACTTGCAGTGAAGATGCCATAGAGGCAAGCTTCTTAACAGAAATACATCTGTTGGGAGTGGCCCAGCAGGCCTCAGTATATTGTAT
AGAAAGCAGAGACTTTGAAATAATAATAATAATAACCAACCTGTATATAGTTCTCACTTTATACTAAGTACTTTTTTAAGTGCTCTCTCTCTCTCTATAT
ATAAATTTTTWAAATTCTCACTGCAACCCCACAGGATAGATACTGTTATCTCATTTGATTAAGCAAGACACTAAGCATCAAGAGATGGAGTGACCTGCCC
AAGGTCACGCAGCTATTAAGTAGGTAAACTAGGATTCCAACCAAGACTGGCTGGCTCCAGGGGCCATCCTCTTGACCACTAAGCTAGTCACCCCTCAATG
TAATGCTTATCACCTCTGCCTGAATGGACTCAAAAACTTGTCATCCAGGGCAGGGGGTGCTGAGAATCTCAGCATAGGAGAGGCAAGACCCTAGCTGAAA
GTTTAATACAAAAATATCACGCAGACATAGGCCACAGATTCCAGTGAATGTGTAATCATAGGCAAGGGGAAAATACTGTATCTTAAGGGAAACCTTAAGT
GAAATATTCCTTACATTGTTTTTTTAAAAACAGCCAAAAATCTCCCTCTAGCTCTGCAGTTAATATTTGAGCTATGTCTAAGATAGGTCCAAAAGTAATG
AACTAGAACATTGTCATACAGGCTTTGCATGATTTTAGCTACTCTCCATTGGTTTGAATAAAATACTCTCCTACTCTCCAAATTAGCGAAATGTTATACA
AGCTAACAATGGTTTAAAAAATGAAGAGTGTCTTGAGTAAAATAAAATAACTTTGTTTTTTAGGGGGAGCATTAAAATAAAAAGAAGAGTACATTGAAAC
CAAATTATCAATGCTTTGTAACTTTTCTGTGACTTTATATGCAAGATAATTAGATTTTTTAAAAGAGACATATGGGTAGTATCATTATCATTAACAATGA
CTATTTTCTGAGAATTGACAGTCTCTCTGATCGTACAGAAGACAAGGCCCAGACCTTCAGGAACTTAGAGTTCAGAGAATGAAGTGAGATGATTATTATT
GGGCCTCCTCTGCCTGCCTCATTTCCTCTTTCTCTTTGGTCTTTATTTCATGGAGCAGCTTGTGTGTGTGTGCACATGTGTGCATGTTCACTAAGGGCTA
TGCACTTATTTGACCCTCACAGCAGCCCCGTGAGATAGATATATTATTATCCTCATTTTAAAGAAAAGGAAACTGAGGTTTAGTATTTACATATGATAAC
TTATCTGAGATCATTCTGATCAGAATCTGTGTTCTTACTACTATGTATTTTGTACCCCTCCTCTCTCCTATAACCTCCTCCCCCCCCCGCCCCCCCCCCC
CAACTTTTTGAGATAGGGTCTTGTTCTGTTGCCCAGGCTGGAGTGCAGTAGCACAGTCACAGCTCACTGTAGCCTTACCTCCTGAGCTCAAGCAATCCTC
TTGCCTCAGCCTTCCAAGCAGCTGGGACCACAGGTACGCACTACCACGCCCAGCTAACTTTTTACATTTTTTGTAGAGATGGGTTCTTATTATGTTGCCC
AGGCTGGTCTTGAATTCCTGAGCTCAAGCAGTCCTCCTGCCTCAGCCTCCAGAAGTGCTGGGACTACAGGCATGAGCCATCATGCCCTGCCCTATTGTCT
TTTATTTTTCCTCCTCAATTGGTCATAATATTAAAAAAAAATGCATTTTAGGTCATTTGATGGATTTATTGCATTCATGCTATTATTTGACTTCATTGAT
CTACAAATGATTGTGCCATTCTGGCTTGTGGGCGTGGGGGGTTCCCTCAGAGGGCAGGTCCCAGGACAGTTAGGTTGTTCGTGGGGACTCCTCCGCCATC
TGAGGTCAGGAAGAGAAAACAAGGGCAGAGCCTGACTTATGTACAATTTATTGCAGGGTTCTGAAACTCCCGCCTGAGGTACCGGTCTGGCTCACTACCT
ATTTTTGTATGGCTCATGACTTAAGAAAGGGATTTACATTTTTAAATGCCTGAAAGAAAGTTAGAAGAAAAAAACATTTTATGACAGGTGAAAATTATCT
GAAATTCCAATTTCGGTGAACTTAAATAATGTTTTATTGAAGCATAGCTGTGTTCATTTATTTACTTATTGTCTATGATAGCAGTCACACTTGCAGAGTC
GAATAGTTGTGACAGAGACCAAATGGCCTGCAAACCCAAAAATATTTACTGTCTGGGGCCCTTTACAGAAAAAGTTTGCCAATCCCTGGTCTACTGGAGC
AGGTTGGAGAAGCTGTGAGCTCGTTGAGGAAAGTGACTAAGCTTTACAAAGGAAAAGAGCCAGCAGGCAACATGGTGTTCTTGTTGGGTAAGAGTTCTTC
AGACTCTGGCTTTGATCTTGACTCCACCTGTGTGACCTTAACTCCACCTGTGTGACCTTGAGCAAGTTACTTTGCCTGTCTATGCTCATATTTCATATTT
ATAAAGTAGTGATAATCGTAGTTCCTACCTCATAGGTTGTTATAAGGATTATATTTATATGCTAATCTTGTCAACAGTGCTTTAATATAAATGTAGCACA
CAAATAAGTTAATTAAGGTTCATTGTTGTGCTATGGGCGTTTCCTCTAGGCTTCATACAACAGGGCCCTACTGGCCCCTAAACCTCAGCCACTCTGGATG
GCACCCCACCCTTAGAAATATGAGACCTTCTGGTTGGCTCCTGAGATCCTTCTGTCTCCAGCACAGGCTCTGGTGGCTCACAGGTGTACTTTTCTCCTTA
TTGTTCTGGGCCAGTAGCTCCCAATGCCAGCCCTTTCAGAGGCTCCTGCCCTCTGTTCCGCAGCAGGAGGTGTGATGCGGTCCTGGCACTGCAGTCACGC
AGGGTGCCTCGGGGTCCCAAATGWGGGCCATGTCATTCTCACACGAGCCTCCCTCTGTGTCATATCACAATGAGTGCATCCCTGATGGCCCTGTGGGGCC
ACAACCATGAACATTAGTCCAGAGCAGGGGTCGAGCCATGCCCTGCGGTGACCCTGTGTGACCTGCTGAGGGCCTGGCTGCTCTGCATGTTCATCAATAT
CACTTTTATGCAGCAGGTACCACATGCCAGGCCTCGGGCTRGGGCTCTGCACACATCACCCTTCATCCTCATGAGATCCCTGCAGAGCAGCACAATACCC
ATCTTACAGTGGGGAGGTCACCACAGCAGTCAGCAAAGTCTCCCTCCTGTATCTAGGGCTAAATGTGTTCCTTCCCCCTCCCTGAGGGCCAGTGTTCTGT
AGAGATTTGGTTTCCCTCAAGAGAGGTGGAAATCATGTCCTAGTATGATAACTATGAATCCTTTCTGCCTCTTACCCTTGGCTGCCTCATCCCCTCACCC
TTAGGCCACATTGGTTTCTCCTAAGCACCATGTGTAGTAGGTATTCAGTAAATGTTTGCTGTCCAGGGGATCCATGCAGGAARGTCTGAGGTTACAAGCA
GGTAAACAGAAAAGCCCACMGCACTTCACCCGCATGGTGGTGTTTGGATCTATTATAACAGCACGTCTAAGCCAGGCCTGTTCATCCCCCATGGGACAGC
TGAGAAAACAAAGGTAGGTGCAGAGAAGTGAAGTGATTATTCCAAAGTTACAGTCACAAACCCAGCTCTGACTCTGAAACAGAAAAGTGTTCTAGGCAGA
AATGACAACTGAGGGCTAATGAGCATTAACTGGACTGCAAGCTCGATGAGGGCAGGGGCTATTGCMTGTTTATTCACTGTTGGAACCCAAGGGCCAAGAA
TGCTGGCTGGCTCATGGGAAGTACCCAACTAATATGGGTGGAAGTCATAGCAAATATTGTTGCCAAGGTGCRGATGAATCAGGAGCTTCCTATTTGGATG
GGAAGCAAAGGAGAGAGTATAACTGCACTGAGAGGGATACCTTCTATCCTCAAGAATTAAGAAACCCCCAATTAAATTAGTTTTTGTTGTTGTTGTTGTT
GTCTAATGAGCTTCAGTTTCTTCTGTATCCACAACACGGATCATTGGCCTTGGTGACAAAAACTTCCTTGCCCCAGTATACCTTATCACTACAGGGAAAA
AGTCCGTGTGTACCTACCGTGAAGAARCAAGGTTGTTACCTGACACACTAACAACACATCAGATGCACTTGCAGAATCCGGCTTGTCTCTGGGGAAAGAA
ACAATCTACTTATGCCAGAAAACCTCTGGAAATTTACACATCGTATGTGGTGCTATGGACTGAATTGTGTCCCTCCAAATTCATGTGTTGAAGCCCTAAC
TCTCCATGTGACTGTATTTTGGAGATTGGGTCTTTAAGGTGGTGATTAAGGCTAGATGAGGTCACAAGGCTGGGGACCTGATCCAACAGGATTAGTATCC
CTATAAGAAGAGACACCAGAAAGCTACTCCCCACTCCCTGCCATGTGAGGACASAGCAAGAAGACAGCCATCTGTAAGCCAGCAAGAGAGCCCTCACCAG
GAACCAACCCTGCCAGACCTTGACCTTGGACTTGCTAGCCTTTGGAACTTTGAGAAGATAAATTTCTGTTGTTTAAGGCACCCAGTCTATGGTATTTTGT
TATGGCCACTCAAGTGTACTAATACATGTAGTTTCCCAGGATTAATCCATTTATATRACCAATATCTGGCTGGARAGACCTTTAARTCTTCAACAACAGA
AGCAGAATTCTTCAAATGATGCCACTAGTAGTTAATGAATTCTATCCAAATAAGTAGCAGGTATAATGATCCATATTTTTACAATACGAAAAGCAGCATT
TAACTATTTTCTGTTTACAAAAGTCACACCACAAACACTGTCCACTTTAATTCTCAGAGTAGTGCTATGATATTGTGAGAGGCAAGAAAATTCAAGCTCA
AGAGAGGTTGAATGAGTTATCTAAAGCCACATAGCTTCTAAGTGGCAAAGCTGAATTCTAGCCTCAGTGTTTGACTTTTGGACAAGACTGTGTAGACTCA
GGGAAATAGTTTAGATTCTCTGACCTTTCATGGCTGTATCTACCAAGTGGCAAAAAAGAGCTCAAAATAAGGCACTGTAACCCAAGGAGAAATCAGGAAA
ATTTAGAACGAAGGTTTTGTCTTTGTCCTTAATTTACCTGACAGCATTTTCTGAAGTAATGGATGTCTCAAAAATGTGTGGGATGCAATATGCCACATTT
GCAGCAATTGCTAGGCAGAATAAGGAGAATTGGGGAAGGTGTTAGCGGCATCCTGCCTTATCAGCTGTCAAGGCCATTTGCTCTTGTTTACCTGAAGCAT
GCCACTTAAGAAGCACTTCATTTTCCACTGATAAAAATTAGAGGATTTAAATTTTGGGGGCAAGGATTCCAGAATGAAAAAAACCATTTGGCTGAAGTGT
GTGCATTTGATCTCTTGGAAAAAACAGAGATTTGTGAAAACAAAAACCATTACAAGTCGATGCAAGCCTCGTACAAGAAGATGTATGCAGAGGTTTCTTC
AGTTGGTCAGGCTTATGCACACGTCCCTGTTATACAATCACTGAATTACTGCTTTGCTTAATTGCTTCCATTTTAAAGAGAAAAACAACGTAATAAGACT
AAGATCTAAAAGGAAAAACATGCAATGCTTCTTTCTCATCAAACTGGGAGAGGAATAAGAAATTAACATTTATTGCATGCTTACTCCATGTCAGGCTCTG
TGCCAGGCTCTTGGGATGGGTATGTTGCATTTTCATCTTCACAGCAACTCTGTGAGGTAGAGAGTATCATTTACATTTTTACGAATTAAGAAATAGAGTT
GTTAACTTCTTCAAGCTTTTTCTCTTTGGAACTTGGGGATTGAAACAAGATCAGATGACTCAGAAATCCTTGCCGTCGCTGCTAATGGAATCCAGTTACT
CCCTTCCCATTCTCCCTCTATGATGATTCCAGGAAGGGATGAGGCCCTCTTGACCCTGGGGTATATGAGGACAAGGGACCTGGGACAGGGACACTTTTCG
TAAGTGCCACACTTCAAGGTAAAAATGCCCATCTTTGCTACTTAAAGAGCAAGTTCCTCTTGAGGTTCTGGGGTGCCTTCCCTTCTTCCTCATTAACTTA
TTTCTCCCACAGTGAAAGCAGAGAAGGTCTCTTTTCCATGTGACGATGACTTTTGTATTTTTGCCTGCCCAGTGATAGTTCCCTTTGCAGGGTCCACAAT
CAGGGTGAGGTGTGGGGAGGTCTCAGTCTCTCTATAGCTTTGGATGATCTGAAATTGTCTGGGAGTCACTTTCCAGCCTGGGTCATTGGTGGCCTCAGGA
TTCACTGACAAGTCCAGAAGAACAAGACATGTTTCCTGGGCCGCCAAGGTCCCTCTTCTCAGATGTGAGGAGGGGATGCAAAAGGCTACTCCAGGAGACA
TAGCATGATTCTGCAAGTGCATTTTGGCTGAACATCATGAGATGTATTTTTCTTTGTAGATCAGGTTATAAAAGCACATAGTATAGATACTGGACTAAAT
AACCATCTGTAGTAGTGTAATTCAGCCACATTATAGGTTCTTAAAGACAGTTTCGATAGCTAGGGAGGCTGTTTAACAATAGTAGCTAGGAGCATAGACT
TTGAAGTCAGACTGTCTGGCTTTGTATCTCAACCCTACCACTTAGCTGTGTAACCTTGGGCAAGTGTTCTTGGACCTTTATGTGCTTCAGTCTCTATCTG
TAAAATGAAAATGGTAATACTGACCTTACAGCGTTGTCAGGAGTATTGCTGCTAAGAAGTGGCAATTCTGAGGATGATCCATTTGAAGGTCATCTGTATT
TTTTTCTCTGGCTGTTTTTAGGATTTTCTTTGTCTTTGGTTCCCTGCAGTTTCACTGTGATGTGTGTAGGTGTGWCTTTCTTCTTATATAAGTGCCACAC
TCCTAAGTAAAAATGCCCATCTTTGCYGCTTAAAGAGCAAGTCCTCTTGAAGTTCTGGGGCATGCCCCCCTTCTTTATTAATTTATTTCTGCTTGAGTTA
AAGCAGAGAAGGTCTCTTTCCCATGTGAGAAAGACTTTTGCATTTTGCCTGCCCAATTGCTTGGGAATTGTTGGTTCTCCTGAGTCCATGGATTGATGTC
TCTGATTGGCTGTAAATTATTTTCAGTTATGACTTCTTCCCATGATGCTTCTTCCCCATTTTCTCCCCCTTCTCCCTCTTGAACTCCAAGTAAATAAATG
TTAGACTCTCCCACTGTATCCACCGCATCRCTCTCTCTCTTCCTTTTTTTGTGTCTGTGTCGTATTCCAGATAGTTTTCTGATATTTTGTGGTTTAATTC
TCTGTTCAGTTGTATCTTAGCAGCTGTTAAATTCTTCCACTGATTTATTAATTTTGATTATTACTTTTTTCAGTTCTAGAATTTTAATTTGTTTCTTTTT
CAAATCTGCCAAATCCTCTTCTCATAGTTTCCAATTTCTTTCTAAAATTTAAGCCTTTGTTTTTAATGCCTTTGAGTGCTATACATATGGTTGTATTACA
GTCTGTAGCTGGTAATTTCAGTATTCGAAGGCAGCCTCTATTTCTGTTGTTTCTACTGGCTCTCGCCTGTGTGGTTACATGTGCTCATGAATCTGGTTAT
CCTTCACAGCTTTGGCTTCTGCTGAGTGTGGGGTGTTGTCTGGTGACTGACTTATTCTGAGTGCAAGGCTTGAGGTGTCCTAGATGACTCGTTGCTGCAA
GGCAGGCTGACAGTCCACCCCAGAGCTGGTTCACTTGGGATTCACCCTTTCCCAGAGTTGTAGCCTTTGGGGCACAGATGAATCTGGGTGGTTCACTACA
TTCTCCACTTTTGGTGTCCCTGGCTTTTCCTTTAGCCTCCTTTTACCCTTGAATCTGTTAAAATAAGAAGCTCAGTTTTACAACTTTTTCTACCAAATTA
GCAAATACTCATGGGTACTCAATTTACCCAAGTAGGTTCTCAGTTTCTAGAATTTGGTCTTCCAGTGCTTACTACATTGATAACTCTTTGAGGCCTTTTA
AGAGGATGTTTTAAACTATTCAGTGTTTTGAGTTGTCCTTATTGGGCACGTTGGTCCTAATTTCTTAGTGTGCCATTACTAGAAGTGGAAGTTCCCCATT
CTGACTTTGATACAAGAAGATTGGTTGCCCTATTATGTCTGTTGCTGTTTGTTTGAGGAAGATACTTTTGTGACACCTTTTTCTGCCCRTTTCCCTTTTT
GATACTCCTTTTTCCTATATAAGAACTATATTTATTTGATTTGGAAAGGGGTAAATATAATCATCTTATCATTCCTCCTGGCAGAGGTAGCCGTTGAGGA
GTAAGGCTTTTTTGATGAGTAGAACACTGGTGATTTGACAGAAAAGAATAATACTTCTGGCCAATATTTTCCATTAATTTTTCTGTTACCATCTTAAAAG
CATCAGAGTTTAAGGAGATAATTTTCTATTTCGACCCTTCCATTGAGGTCACTTTTTTTACGAAGTCTAATCTCTGCAATTATGACATCACATTTTATTG
TAGAGCAAAGCATYGTACTTTCAGAGGGCAAATATCATTTAAGTGATAGAACTGATTTTTCCCCCAAAATAAACACAGCTCAAGAAAAAGCAGCAAGAAA
ATTAATTGGTATACTAGGAGCAGGAACTGATCTCCTGGTTTGCTAGGTAAACATCTGTTTTTAGGGTAATATCAGGTGTTCCTCTGAGGGAAATTTGTAC
TTTAATACATGAATATATTGGTTCAAAGTAATTATGAAGAAAACAGTGTTCCATGTGTGTTGCGATCTTATTGTAAATGAGTATAAATTTTAAAGGGTAA
AGGATCGTAGTWATCAAGTCACACTTGAAAATTCTTCACCTGGAGACACCTAATGATTAATGTAAATGAGGTTGGAGAGGAAAGACTATGAGAGGTGCTA
TTTGCTGCTGTTGTATTTTCCTTAGCAGTTTTCCCCTTTCACATCTTTGGATTCCAAATTCCTGTCTCCAAAGCATCAAGCTTTCTAATGATTGGCAAAA
ACCACTCAAAATATTAACATTTGTATTCTGCTTCTTAGAAGAAACCTTTGAAATATGAGAGAAAAAGAAATTGAAGATGACTGCGCCTATAGATTTATTT
TATTCATTTGAAATTTTACCAGCATAAAGTCAACTTATAGTGAACATAATTCTCTTTCAAAAAGTCTTCATTTGACGTTACCCTCCAAAGATTGCTTAGA
TTAATGGGACGAAAGTTTTGGGTAAAAGCTTGGGATACCTGAAATTTGCAGCTGTATACCCCTGGCTCTTGAYGTGAGACTTGACATTGAACCTTACAAA
GAGGGCAACCTTAGGTGATATCATTGGTCACAAATGCATTACAGAAAATGTTTTCTCTTAGTTAAATTGATATATCTAGCTCCTAAGTTGATTGATTCAA
TAYAATTGAAGACTGAACTATAATGGATTTTGAGTATTCTATATTTTATTTAGTATTTATATATATAAATATGTAACTATATTTTATTGAGTATTTATAG
TTATTACTGATATGAAGTATGCTTTCACATTCTTTTCATTAATATGGCCTAAAAGATTACTAAAAAGTAATGCATTGGGACTTTGTGTGGAACTAATAAG
TAGATAATCTCTATGATTGTATCCTTGCTTGAAAAATTTTACGATGTTCTGTTCAGATCTATTTGTTATCCATTGTGGATCACAGATACAAAAAGAATCT
GGTTGCTAAGCAACTAGATTATATATGATGGAACTCCTTGAAAGAACTTAAGTGTTAACTCTTTAGAAATTGAGAGGTGTCTGAGACATCGTGAATCCCT
TACTTTTAAAAGTAGATATGCATTATGCTCGGAAAAGAACTACAGTGAAAAACTGCCTCAAAAGTAGACAAAAATGATCTCAGAACTATTTGAATAACTG
CTTTCCAATTTAGAAAATTCAGTCATTAAAAAAAAATTGAAATAATTGCACTGAAAATGATAGGTTAGTGCTTTCTTTTAAGATTCCCATCTCTAATGGG
TTTATTAGCCACCTCTTTTCTCTAGTCATTGTGTCGTTACCAARCTCCCAAAACCAAGTATGTAATGACGCACTTAGTTTCCTTCTGCCTTTCTCACAAA
GGGGCTGATCTTTCAGGCTTTGTTTGTTTTGTCTTTTTTTTTCATTTTTTTCCTATCAAGTTTCGATTTTGTGAAATACAGTTGAACAATGGTTGGAACA
TTAACTTGAAATGAAAAGAATCATAATTGGAGTTAATTTTTTAAATCAGTTTATCAGTTCTCCAACAATAACTGATTTCTTTTGTGCCTGCTGTTTTCTG
TTCTTCTTGAAATGTCTTATGTTTTCCTGGATGGACCAGTAATAGCAGATGCTTCTGTATAGGTAGAGGTGAGAGCTCACTATATTTCTTCATTTGTGTA
TGCTCTCTGTAGCCTTAGGGGAGTACGGTTGTTTTAAATAAATGGAACCTTTTGGGGAGACAGGGAGGGTGGATGTGTCTTCTGATTTTATGAGTCTCTT
TTGTTTCTAGAGAATCTTTCRTTTCTGTTGCTTGCTTTTTCTTTTCCTCCTTTCACCATCAAGCATCCAGGGGAGGTGACCCTCCAAGTTACCTCCCTCC
CTCCGAAGTGGTGCCCTCCCAAGACTTTGGTCCTGGCAACTTTTCAGCCCCTTCTTTCATTTCCTCTGTAGCCAAGGATCAGACTTGTTCTCAGTATTTC
CACACTTAGGGTGGTACACTCTTTYTGGGGGTGATTTTCATCTGTTCCCCAACCAGGCTCTGCTGCCTGACTCTCTTTTCTGGAAAGGTTTCTGCTGCTT
TCAGACGTTCATTTTTCTCCCTATGCATTAATTGAAGTTTAGAGTATRTTTCGTGTCCTGGCTATGCTACAGGCAGGGCTGGCTTCATAGGCATGCCACC
AACGCGGCTGCACAGGGCCCTATTCTCAGAAGGGCCTCTCACCTGGGGTTTAATGCTTGGCAGTCACTGTCTTAAAATCCTTAATAATTTAGTATTTGAA
TTTGTGTTTTGTAAGTGAAGTCTGATGGGACAATGGAGCATGTGCCAGGACCTTGAAGCCTTGGCTCACACATGAGCCTGCCTCCCCTTCCCCAGCAACA
CTTACTCCTCACCTCCCCAGCCCCGAACTCCCCTGGCTGAATTCTCAGCCACCTGCCTCCGTGTCTGCCTTGCAGCCACTGAGGTCCTCTGGCTGAGGCA
GCAACCTGGCTGCATTGCAGGCGGAGGTCAGTGCTCTGTCCTAGCCTTCCACACCCACCAGGGACCTGGAGGCATGTGTGGGAAGGTTGAGGTTCCTGGT
TGACAGTGTCATGGTACATTCAGCCAGCAACTCAGTGGGGCCTCTCGTCTACTACAGATCCAGGTACGGGGTGTGTCCTGGCACAGAGGTTTCGATTCCT
TGGAAGCTGCCAGTTCACTGTGGTTTGGGTGGACTCTGGGAAGGGGAAATTGATTTCTCTGCCCTGGGCTGGAGCCCTCATTTTCATCTTGGAGTAAGCC
CTGCCAACTGTGTAGTGTGCCCTGGCTGTAGAAGTGAGTTTTGGGTGGTTTTATTTGCTCTCGTGGTTGATTTATATGGTTTTGGAGAGATTCGAATTTA
GGCAGTTGTCATTATCTCATGGGAAACTGGAAGTTCCTTATTTCTTTTAATTTGCTTTTATCAAACTTTTTTCCAAACTGTAAAAGCAATTTGTATTTTT
TTGCAACAAAACAAACAATATGCGGGTATACAAAGAAAAAGTCAACATTCTATTTCCACTCCCTCTCAAAGTGACCAGTGTTTACATTGGGTACGTATAT
GAGGTCTTCCCACACTTTTATTCACAATCATATCATACACACACGCATGCTCACACACATTTATATGTGCAAATCTACATATACACAAGCCATGTGGGGG
ATTTGAGGGTGTGGTAAAAATGCTTATATCTTGATAACCTGAAAGTCCCTCTACTTCAGTGCATCTGAATCCARCTCATTCTTTTTAAGAAAACATAATA
TTCTATATCCATAGATTTGCCATTATTCAGTCACGCATCTTGTAATGAWGAACATTTAGGTTGTTTCCAGTTTTTTAGTGCTATGATCATGCCACTGTGC
TACAGCCTAGGTGACAGAGGGAGACCTTGGCTCTAAAAAAATGAGGAAGAGAAACTAAATAAATAACTTCTATGGTGTGTCCTGGGCTCTGTACAGATTT
ATTCTATTCTGTACCTTATTTCTGTATTCAGACATCAACATCACTGGTGTTTAGAATGATAATAATGAGGTACTGCAAAGTTATTTATAATATACTAAAC
TTGTAAGGCATGAAGAGCCAACTATTACATTTTAGGAAAAAATCTCAAACCAAAAAAGAGTTGAAGCATATAGATTTTCTGAATAATCTTCATTTGACTA
AAAATTTACTTTACCAGAATGCTTTTTCTTGATTATTTTGTTTAACTGGTATTTTGCTTAGCTCTGTTATTCAATTTATTTAAGAATAATTTATTAAATC
CCTACTAGGTTCCAGGCATTTTTCCAGGTGCTAGGGTAATAGCAGTGAATTGAATGGTAGTGAWCGTACATAGAATATGATGTCAATCACAARAAAGTAG
ATATATCTAATAAACTAACATAGAAGATAAGATATATTAGACATTTCAGAAATACTTAGTACATCCAAAAGAAAACAGAAAAAGGGGAATGGGGGGAACT
AAGAACAGAGAAGAGAAGTACAAAACAAAAAGCAAGATGATAGATTTAAACCCAACCACATCAATAGTTGTATTAAATGTAAGTAGTCYAAGTATCTGAA
TTAAAAGGCAGAGATTATCAGATRGGATAAAAGAAAAGTCAAGAGCCAACTATATGCTGTCAACAAGACATCCACTTTTAATATAAAGACACAGAAAGCT
TAAAAGTATAGAAAAGGATGCACCAGCCTAGTACTAACCAAAAGAAAACAGAAGTGGCTATTTTCATTAATATTAAACAAAATGAATTTTAGAACTAAGA
ATATTACCAGTGATAAGTATTATCATTTTATAATTTAAAAAGAGGCCAGTGAGTCAAGAGGACATAATAATACTAAAATATTATGCATCTAATAATAGGG
CTTCAAAATATGTAAACACTGATAGAACTGGAAGGAGAAATAAATAAATAAACCAACATTTATAGCCAGAGTTCTCAACACCCTTTTCTTTTTTAAAAAA
TTTAATTTAATTTAATTTTAAGTTCTGGGATACGTGTGCAGGATATGCAGGTTTGTTACATATGTAAACATGTGCCATGGTGGTTTGCTGCACCTATCAA
CCCATCCCCTAGTTATTAAGCCCGGCATGCATTAGCTATTTATCCTGATGCTCTCCCTCCCCCATCCCCAACCCTGACAGGCCCCAGTGTGTATTGTTCC
CCTCCCTGTGTCCATGTGCTCTCACTGTTCGGCTACATGCAACACTCTTTTCTTAATAGCAATTTGGGGAAAAATATTCAGGGCAAAAGAAAAGTGCAAG
GATCCTGAGGTCAGAAAGAGCTTGAGTGTTTAGAGGAACCCAGAGCAGCCGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCC
GGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGACACCCCGTCTCCACTAAAAGTACAAAAATTAGCTGGGCATGGTGGCAGG
TACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACTGGGGAGGCGGAGGTTGTAGTGAGCCGAGATTGCATCACTGCACATCAG
CCTGGGTGACAAAAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAGGAACCCAGAGCAGACCAGTGTGTTTAGAGCAGAGTGAACTGATGGAGCA
TGGTCCATTGTAGACCAGGGAGATAGGCAGGGGCAGGGGCTAGATTGCATAAGACCTTGTGAACCATTGTAAGGAGTTTGCAAAAGCACTAAACATGTTT
GCTTCATACTGTGGCTTTGATTTAATATTTAATCATTAGCTGTATCTTAGAATTTCTCCACAGCCTAAAACTGAAAACAGTAGGTGACAAAGAACCCCAC
ACTTTAAAAAACAGGCTGGACCTGATAGGATACCATCAGGAAACAGATATGTATTCCTCCCATCCCTTCTTTCAAACCTGTTCTGTCAGATCTGCATCTC
TGAATTGTATCTCAGGGATCTATCACAGCTTTTGAGTCTTATTTTCAGTTATTAAAAAGTTCAGTCTGATCTTAATCAAAACTCCCATCTCCCATTATTC
AGTTCAGTGCTCTTACGCTTCCTTCAGCTCAGCACTGCCCTTGTCTTGGAAATTGCAACAGGGAAGAGCTAGCTGTGTGGTCTTTGTCTCAGCTCCCTGG
CTTTTCCTCCTCCTGTACAGACTGTTGGTTCCTCAGGGTCTGGGCAGGGGCAGTGAGAGGCAAAAAGGGAGAAATTGGTTTTCTGAGGGTCTTCTAACTC
TCTCTCTTTAGGTACTGAATAACTTCTCTCATGGAATACTTTGGTGGTTATTTTTCTGTTCCCTGCCTCCAACACACACACACACACAGACACACACACA
CACACACACCCCCGCCCCCCCCCCCCCCACACACACGAATGTTTCTGCCCCTTGACAGGGGACTGTGCTCTCCAGCTGACCTGTTTGCATACCCTCCTCT
CCTGGTTCCTGCTTTTTGGGTACAGCTCCAGCCTCTTCCTGCTAAAATCCCCTCACTCCGGTGGCAGTCAGCCCTCCTGGGTAGGGTCCCTTCCAGGTAG
TTCAAGTCTGCTCCTGTCTTCTAAAGACATTGTCCACTTGGCCCATAGAACAGGTTACAAACCTTTGCCCCACAAGAGATTGGAATGTAAGCTTCTCTCG
CTATCTTCTTGCCCTCTCCCTTCAAGGGCAGCTCCAGGCAGCTCCCATCTCTGTGGTACMTGCCCCAACTCTCCTAAAAACCCTTCTGCACCTTCTCTGG
TGGCAACTTGTGGAGGCCTAGGAGTTTCTTTCCACAACCCAGCAAGAGTTCTGCCTGGGAGGCCAGCCTCTCCTCCAGCAAGCACATTGCTCCCTTGGGT
AAGTTCCCTTGCTACTGCCCTCACTTGGAAGGGGAATTTCCTCCCCACTTCTCTACTCTAAGAAGGAGGGGGAACTCTGCAGCAATCCCTACTAAGCCAA
CAACTCTTTCAAAAGTCCCCTTCACCCAGCAAGTCCCCAGCTTTCTCTTAAAGACACTGAAGATGGGAGGTGAGCTCAGGGTGGTGGGGGTATGTTTCCC
ACATCCTGGCAAGTTCTTTCTAGATGAGTCTCTATAGTGTGGGATCTTTATTTCAGCTTTCAGCCATTTAATATCCTGTTTCCTGTGGAAAAAAGTTTGA
CTATAGAAATAAAGCTATCAGCCGGGCGTGTTGGCTCACCTCTGTAATCCCAGCAGTTTGGGAGGCCGAGGTGGGTGGATCATCTGARGTCAGGAGATCG
AGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAGATTAGGTGGCCATGGTGGCCCATGCCTATAATCCCAGCTACTTGGGA
GGCTGAGGCAGGAGAATCGCTTGAACTCGGGAGTTGCAGTGAGCAAACATCACGCCATTGTGCTCCAGCCTGGGCAACAAGAGCAAAACTCCATCACAAA
AAAAAAAAAAAAAGAAAAAAAAGAAAAAAAAAAGAAAGAAAGCTATCACACTTAATTGTACTGATGAAATAAAAAACACCAGCTAATTTGGTCATTCAGG
ATTCTTTTGAAAAGCTCTCATATGGCAGTAGAAATTTAAGACTGCACCATTAAACATATTTTTCAGAAATCAGTTCATCAGTTTACCATTTGGTTGGGAA
AGGAGGAGGCCTTTTCCTGTAAGGAGCATTTTAAAAGTGACATTTAAAAATTAGCTACCACGTATGCAAATACTTCTGAAAACTTTTATGTCAAATTTAA
TGATTTGATCAATTAGGAAATAGCAAATATAYCCATAGACATCAGTTGCATAGACTTGAATTTCACAATTAAAAAGTGAGTATATCCTTGGGTATTTTAC
TGATAATTTTCACTGTGGCTCATTTTTTTTTTTTTTTTTTTTTTGGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAATGGTGCAATCTCAGCT
CATTGCAACCTCTGCCTCCCGGGTTCAGTCAATTCTCACGCCTCAGCCACCTGAGTAGCTGGGATTGCAGGCATGTACCACCACACCCAGCTAATTTTTG
TATTTTTATTAATAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTAGCCTCAAGTGATCCACCTGTCTCAGCCACYCAAAGTGC
TAGGATTACCACACCTGGCCACTGTGGCTCACTTCTTAATTGTTGGGCCATTTTCCCCAAGTACCCTGTTTCTTTATCAGAAAAGTGATGAAAATATAGA
ATTATGATGACTGTTCTAATACCGGCTGAAGATGGAAGAACAAATTGGGAACGATTGATCAAGACCACACTTCAGATCTGTGAGACTGTGCATAAAGTCT
GCCTGAAAGCTGGTTGCATTCTGTTGCTTTTAAATGTCTGGAAATAAAAATGGTCTGGTATCTTTAAAAAGTTTAGAAAAAGTCCAGTGGCTTAGAAAAA
TGCCAGAAGCCATTCTGTCAGAATTCTCTAGAGGAGGTAGTAAAACCAGCCTGCAGTTTTTTATTAAAGGAACTCACCATAWGATATATACAGATGTGAT
GGTGAGGAATGTCACCTCCACAGAGACAGGAGAAGACAGTCACAAGGAGCAGCTCTAATCCCTTAGGATCTGCATGAAGCCCAGGGTTTTTGAGAGGTGG
AAGTTAAAGGGTTAAGTATTTCTGTTTAATGTAGACCAAGGTTAACCAAGATGAAATTAAACATTGCTTGACAGCAGTTGAAGATTGGCAAGACTATGGC
AACTACACTTCTCTACATTTTACTCTCAATTATGCCATTTTGTTTCTAATTAATCACTAGCATTTTAACAAAATGATGTAATTGATAGCTAGCAACCAGA
CTGTCAGTCTTCTCCCCACATCAGAAGGTATCTATCCATCTATTCAGCTATTGCCAGACACACCTTGTGCCTCATGGCAGCTACCTAGATTGCCGGCCAG
AGGGCCTGCTCTCCACACTAGACCTGTGAAGTACTAGAAGGTTCCTAAGAGGATTCCAGTAATGACCCTTCTAAGGCTGTCAGTGGAAGGAGGATTGTCC
TGATGTGCTTCTAAATCCCAATGGTTGCCGGGCCTTACTCCTGACTTTTAGAAGGCTACCCCAGCTGTGCCTGCAGCAGCAAAGGGATTTTCCATGTGTG
GATTCAGAGAAGTGCCTTGCGTTCACAGGGAAACTGTTTTTATTCTTGTGTAACATTTGAGGCCATCCCTCTGTAGGTTGCTGACAGCCTCCTGTTTTCC
ATTTTTCCTCTCTGCAGCTTTCTCCAGGGTAAAATAAATTGGGCTTCAATTTTTGTACATAATTTTTTTAATGAGGATACTAAGACTTAAAAATAGTAGC
AGGAAACATAAGCCTTTATTCACTTTACAAAGCATAAATAGTAACAGTATACTTCATATGTACAGTGTGACCAGTTAAAATGGAAAGATCCTGCRTATGG
GAACAGGGGTGGCACTAGTGAGTGTGCCTGGTAAAAAAAAAACAGGGCAAAAAGGCAGAAAATGGAGAGAAGCAGGGGACAGACTGAATGATTAGCTCAC
AGAGAAAAAGGAAGAGAGAAGAGCCTCTTTATGCTTCTTCTGACATGTCCTCTAGTACTAAAGTGGTCATGGGTTAGCTTTATCCACAGTCTCCCTGTGT
GGCTATCAAGCATAATCAGTATTGTTTTTCAAGAATAGAACCAAGAAAGGAAAACAAATGTCCCTCTCGCTTTGTACCCCTACTGAAATATTGAAGAACT
AATTTGCTGGAGACAAAATGCTGGTGTAGAAAGTGACAGGCCTGATTACATACTGCTGTCACAAAAATTGATTTCCATACTTTATAGTTGTACCTTATTA
TCAGGTGCATATATTGCATGTCTGCATTTAACATTTGTGCACAAAATAAACTTCTTTGATTGCATTTGACTTGGCACCTTGATTATCTTTCTTGTTGCAT
ACCGGAATTGGTTGTGCCTCTGATTTTCTACTTCTGTCTTTAGTGCACTTGTAATATGCCAGTGTCTGGAAACCATTATGACAGGTCCTACCAAGGATGC
CAGCTGGACTTGAAGGAGACACTTGTTTTCTCTCCTAAAGTCTATTCTGTGAACCACATGACCTGAAGATCTGCTTTGTTTAGGACTGGGAGCCTGCTCT
TTCCACTTAAGCACTCTCAACTGGTTTCACAAGGCTGAGTACGCATCAGATTTTCACTTCACTTGACCTGTGACATAATATCCTCAACTGAGGACTCCTT
CCTTTTTTCTGATGTAATAGTAATTTTTAAAATGCTTTCCTGGAAACTGATTGAAATGGGCATKGTTGCCACTTCATAGAAATACACTGAATGTTGACTC
TAAGGCTTACATATGCTTTGGAGACAGTGTTATAAGGTTTCACCAAAATAGAAGGAAGATGGAAAAAGAAAAATGATCAGTGGATCATACAGAGGCCACC
AAGGAGAGTATTTGAGAGATCAGGGCAACTAGAATAACAGAGATGACAGTTTAGGGCAGAATACATTTTTGTAAGAGAATAGGAAATGTTTTGTCTTTAA
TGAATTAAGATCAATGCGAACTTTTATTCCAATGCTGATCTTGCAGCAGGTTAAATAACATATCCTGATGTTGCAGGGCACTTTCTCAGAATGCAGTTAA
GTAAATAAAGCCTTGTTTCTTGGATCATATCGAAGTAAATAAATGTTTTTATTCTTTAGTACTAAGAGCTTTATGTTGAATACCATGTTTCTGATATGCC
GTTATAGAATCTGATAAGTACTTTTTCACAGAGAATGAAGTTGATTTTTCTCTACTGAAAAATGAAATTACAGGAACCCATCCTCCTGTTTCCTTCCCCT
ACCCATCAAAATAGGAGGATTTGAAAACATGGTAATTATCTCATGTGATTTGGTTTATTAAGGTTAAAGACGTCTTATCAGGTTATTGCTAAAGGTTTCC
AAGACCCCTTGCCCAACTGATGTCGGAGGACCTGGTATTTGGTGCTATGTGGAGTAACTATACAGCTAATTTCCTAATGGAGGTTATTGTTATTAATTCA
ATTTATTTTTATAGCAASTTTATTGAGAAATAATTTACCACCATACAGTTCACCCCTTTAAAGCATACAACTTTTAGTATACTCTTAGAAGTTGTGCAAC
CATCACCATAATCAATTTTAGAACATTCTTACCATTCCCAAGAGAAAGCCTCTACATTAGCAGTCACTACCCATTTTCTCTCATTAGCAGCCCCAGCCCC
AGAAAAACACAAACCTACTTTCTATCTCTATAATTTGCCTATTCTGGACATTTCATATGAAATGAACTCATGCAGTACGTGCGTCTTTTGTGTCTGGCTT
CTTTCATTTAGCGTAGTGTTTTAAAGGTTCATCCATGTTGTAGCAGGTATCAGTAATTCATCCTTCTTATTTCTGAATTATTTTCCATTTAATGGACATA
CCTCATTTTATTTATCCACATTTGGGATATTTTCAAGTTTCAACTATTATGAATAATGTTAATATGAACAATCATGTACAACTTATGTGGACAGATGTTT
TCATTTCTTTCAGGTATGTACCTAGGGGTGAAATTGCTGGGTCATATGGTAACTCTGTGTTTAGCTGTTTGAGGAACTGCCTGTTTTGCAAAACAGTTGT
ACCATTTTATATTCCCATCAACAATATATGAGAGTTCCAGTATCTTCACATTTTTGCCAACACTTGTTATTATCTGCCTTTTTTATAATAGTGGGGACAA
TTTTCAGAATGAAAGTGAGCCCTTATTAATTATCCCAGGCATGGCATGAACCAGTAATCAAATATCCTGAGCTAGTCAGGATATTTGATTCTTCTAGAAC
TTTTGGGAATGAGGCCTACTCAGTAGCAAAAAGTAGGGGGTGATTTGGGGGCAGTGGAGCTAAGTGCCAGTAAGTAGTGGTTGTTGGATATAGTCAACAA
AGAGGACATATCCAATTTTATTATAATATCCTGTGGGTAGATATTACTGTTTCAAAGGATCAAGCACATATTTATCTGGAAAGGAATCAAGTCTTTAAAA
TCATTTTTACAGGAGCAATTATGTTATTATTCTTAATAGTAAGATGCAATAGGAGATCAGCTTTGTTCAATAGGTAAAATAACTACCCAGGTGAACCATA
GCCATTTTGTCCAAAATTGATTCCCAGAGGCAAATTTGTAGCAGGTAATTTAACTACTCTTACTTTATTCCCAGGGACATTCTTTTTACATTGAAGTGCA
TCTCTTTCCTAGGCCTCAACTGAGCTGCTTGTGCAGGGTACTAGATGTTCAGGTTTTACAAATATTTGCCATCTTATTCTGTCTTTTTACACTGTTATTG
ACACACTGATGGTGTCCTTGTAAGATGTTTTGAGTGGGAGTCTCTAGCCCTCCACCCTAGCACTGTGGCAGGTAACTCATCTGGCTAGCAGTAGCTCATG
GTACTCTTATGGGATGGTTGGGGCGATGCTATACTGTAAATATCAGCTAACCCAGAAACCAAGACATCACAGACAATCAGTGGTGGTGTTGGCACAATAA
ATACCTGCTGGACTTTAATACTCATAAAATGTATCCTTTCTAGATCTGGTGTGTTGGCTTTTCTTTATTGATGGAAATTATACATCAAAATGTTTCCCTT
TCTTATTTGCTGTCAGAAAGCTTAGAGCTGATTTTTTATTGTTCAGCCACAATCGCTAGTTCATCAGTGTCTTTAGTATAACAATTTCTGTGCTCTTTCC
AATGTTTGTTTAAATTGTTTTTTTTAACTGTCCTAATCTTATGAGTTTTCTTTAACATTGTTAGCCACCTTTGAATTATTTTTAAAGGTTGGAGTATAAA
TAATTTTTAAAACTCCCATCCATAAAAGATAACTATCTTTTCTCTCCAGAACTATAAGTCTCTTGGAAATTTGATTTGATTTAGGTAATTGGCCCTACTA
CATAGTACCTTCCCTCTCTGGGCTCTTGACCATCTGGGGTTATCCTATGTTTGTCATGCTAGGGAAGCGTAAGAATGTTCTTTGGGTATTCTTTCAGAAT
TAAATAAGAAAAGGCAAAATGTTTGATAAACAGACATTTATTTCAATATTAAATATCCTTCATATAAAATGGGCTGAAGTCTAAATTGCACGTTCTTCAA
GTTGTCCTTGATCAAGATGTGTAGATGCAGAATAGTTCCTTCATTTCCACATCTTTTCTAGTGAGCAGGTGAGAGTACTTTCTCTGAAACTGAAGAGAGA
AGTGTCCTGATCCTAAAACCTTTCAGAGAGCTGCCTGACTGCGCTGCTCAGGAAAAAASGGGTGCTCACCCTAGCATGATAGGGATGGCCAAGTGCCTTG
GGGCACCCAGCTGTTCAGCGGCATTGTGGTGAAAGGGAAGTACAGTCGATCCTCATTTTTTGCACATTCTGTATTTGAGAATTTACCTACTTGCTAATGT
TTGTTTATGTCTAATCCCAACATCAATACTTGCAGGACTTTTGTGGTCATTTGTGGATATGTGAAAGTGGTAAAAAAAATTTGAATCCTCCTATGTGAAT
GTTCCCAGCTGAGATCGAACAAGGGGATGTTCTGCCTTCCTATTTTAGCTCTAATACTATAAATGTGTCCTTTTCTCACACATGGCTCAGAAATGTGCCA
AGTTTTTCACATTTTTTGTGCTCTTCATTGGTGATTTCATGGCTTAAAATGGCCCCCCARCCATAGTGCTGAAGCGCTGTCTATTCCTAGGGGAAAGAAG
GCTGTGATGTGCCTTTTGAAGAAAGCACATGTGTTAGACGAGCTTCATTCAGGCATGAGTCATGGTGCTGTTGTCCATGAGTCCCATGGTGGTTAATCAG
CACTATATATATTTAATGTGGCATCTTTAAACAGAAACCAACATAGAGCACAGTTAAGTATTGATCAGTTGAAGAGAATACCTCCTGTGACCAGAGGCTC
ACAGGAATCTAACCCTGTATTTCTCCTAGGAGCAATGATTCAATATTTATGAATTCAGTGTTTGGGGTGACTTGATAAAACATAACTACCTTGCATAAAG
AGAATCAACTGTATGTCTTTTTCTGCTCTTATAATTCTTCATGTTGGTGGGCCCCTGCCTTCAGCCCCAAAGAATGCAGCATGGGGCTTATTATTTCTTG
AATCTGTTTTTTTTTTTCTGGAGAATTTCATTCAACAAATTATGAATATTATTAGGTGTTGAACTGAGCTTTTGAAAACTTGTCAGATTCATCTTCAAGA
TTTTTGTTCCAAACATCCAAATTTATATACTCATTGTGAGTTTTTGGATGTTAACAATAGAATTTGATTCATTCTATATCCTTTGAGCCCACATGATGCA
TTTCCCTGTGTTAAGGCTTATTTGTTGCTCAGTTGAGTGACTCATTCACCACTTCTTACTTCCTGGAGGTTTAGTACCACTCTTAAAAATAGCAAGAGGC
CAGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCAAGAGGTCAGGAGATCAAGACCATCCTGGCTAAGGCGGGGA
AACCCCATCTCTACTAAAAATAAAAAAAAATTAGCCATGTATGGTGGCGGGCACCTGTAATACCAGCTACTAAGGAGGCTGAGGCAGGAGAATTGCTTGA
ACCTGGGAGGCGGAGGTCGCAGTAAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAGGGTG
GAAAACATTGCATTGCACAATGGGTTGAAGTGAGAGGTCTGCCTTATTTTGGGGTTTGTAGCTCCCTCCCTGTGCTGGAAGGGGGCTGTTGTGAGTGCCC
CACCCTTGCAGATGTCAGCAGGAACCAGTTTCTCTTCCAGAGCTGAAGCTCCAGCGTGCTGCCTGGCTTGAAGCTGCTGCCCTCTGTCCCAACTCTCACC
AGCTCTCTTGGGTTGTTCCCTGCTCTTGATCCTAATCAGTGCGTGTTTCTCACAAGCCTCTTCAGTCATCATGTTGACCCAATCCCCAGACAATGGGTAG
TAATTAAGTCAACTTTCATAAGGTTATGGTATGCGAAGTGATTACAAGAGATTGCTTACAAGAGCAGTTAGAATAAAGAGTTCAGGTGAGGGCAGTGTCT
TTAGTGAGCCAATAAGTTGTCTATAAGTTGATTGGGAAATTGTTTAGTCTGAGATTACAATAAGATGTTTTCTGAAGCACATACCAATGAACAGATTCCT
TGAAGAGATTTCCTTACAGAACAGTTTGCATTTTCATGTTGAAAATTAGCTTAGTGATTATCTTCATTTAACAGGTTAAAAAAAAAAAAGAAAACCAAAC
CTGATGAAAGGGTGACTTGGTATCAGGAATGGGGAGGTGATTTGGTGAAGGGATAGTGACTACCACTGACCACTAAAATAGCTTCATTTGTTTTTGTATT
CTCAGTGTCTCATTTCCTCCCATGTTCCTCTTTTTTATTTTATCATTATTTTGTTTTAAATTTTTAATTTTTGTGGGTATATGGTAGGTATATATATATT
TATGGAGTACATGAGATATTTTGATACAGGCGTACAATGCATAATAATCACATCGGGGTAAATGGGGGTATCCATCACTTCCTTTATGTCACAAACAACC
CAATTATGTTCTTTTAGTTATTTTTAAATGTAAATACACTGTTGTTGACTATAATCACCCTGTTGTGCTATCAAATACTGGAGCTTATTCATTTTATTTT
ACTATATTTTTGTACTAATTAACCATCCCCAGTTCCTGCCCCACCCCCCCACTACTCTTCCAAGCTTCTGATAACCATCATCCTACTCTCTGTCTCTATG
AATTCAATTGATTTAATTTTTAGCTCCCACAAATAAGTGAGAACATGTGATGTTTGTCTTTCAGTGCTTGGCTTATTTCACTTAACATAATGACTTCCAG
TTCCATCCATGTTGTTGCAAATGACAGGCTCTCATTCCTTTTTACAGATGAATAGTACTTCATTATGTACTTCAGTAGTATTCCTAACTATCCATCAACA
GATGATTGGATAAAGAAAATGTGGTAACTCTCTTCTAACTATCTCCTAACTATCCATCAACAGATGATTGGATAAAGAAATGTGGTAACATTTTCTTTAT
CCAATCATCTGTTGATGGATAGTTAGGTCATTTCCAAATCTTAGCTCTTGTGAATAGTGCTATAATAAACATGGCAGTGCAGCTATCTTTTCAATATACT
GATTTCCTTTCTTTTGGGTATATACCCAGCAGTGGGATTGCTGGATCATATGGTAGCTCTATTTTTAGTTTTTTGAGAAACCTCCAAACTGTCCTTCATA
GTGGTTGTACTGTAATAATTTACATTCCCACCAACAGTGTACGAGGGTTCCCTTTCCGCCACATCCTCGCCAGCATTTGTTGTTGCCTGTCTTTTGGATT
AAAGCCATTTTAACTGGGGTGAGATGATATCTCATTGTAGTTTTCATTTGCATTTCTCTGGTGATCAATGATGTTGAGCATCTTTTTATATACCTGTTTG
CCATTTGTATTTCTTTTTTGAGAACTGTCTATTCAGGTCTTTTGCCCATTTTAAATGGGATTATTAGATTTTTCCTATAGAGTTGTTTGAGCTCCTTATA
TATTTTGGTTATTACGCTCTTGTCAGATGGTTAGTTTGCAAATATTTTCTCCCATTCCGTGGGTTGTCTCTTCACTTTGTTGATTGTTTCCTTTGCTGTG
CAGAAGCTTTTTAACTTGATATGATCCCATTTATCCATTCTTGCTTTGTTGCCTGTGCTTGTGGGGTATTACTCAAGAAATCTTTGCCCAGTCCAATGTT
CTGGAGAGTTTCCCCAGTGTTTTCTTTTAACGGTTTCATAGTTTGAGGTCTTAGATTTAAGCCTTTAATCCATTTTGATTTGATTTTTGTATATGGTGAG
AGATAGGGTTCTAGTTCCATTCTTCTGTATATGGATATCCAGTTTTCCTAGCACCCATTAAAGAGATTGTCCTTTCTTCAATATATATTCTTGGCACCTT
TGTTGAAAATGAGTTTACTGTAGATGTATGGATTTATTTTTGGGTTCTCTATTCTGTTCCATTGCTCTATGTGTCCGTTTTTATGCCAGTACCATGCTGT
TTTGGTTACTATAGCTCTGGAGTATGATCTGAAGTCAGGTAATGGGATTCCTCCAGTTTTGTTCTTTTTGTTCAGGATAACTTTGGCTATTCTGGGTCTT
TTGTGATTCCACTTAAATTTTAGGATTTTTTTCTCTATTTCTGTGAAGAATGTTGTTGGTATTTTGCTAGGGATTGCATTGAATCTGTAGATTGCTTTGG
GTAGTATGGACGTCTTAACAGTATTAATTCTTATAATCCATGGACATGGAATATCTTTTCAATTCTTAGTATCCTCTTCAATTTCTTTCATCAGTGTTTT
ACAGTTTTAATTGTAGAGATCTTTCACTTATTTTGTTAATTCCTATGTATTTTATTTGTAGCTATTTTAAATGGGATTACTTTTTGATTTTTACACTGTC
CACTGTTTGCATACAGAAATGCTACTGATTTTTGTACGTTGATTTTGTATCCTGTAACTTTACTGAATATGTTTATCCATTCTAATAGTTTTTTGGTGAA
ATCTTTAGGTTTTTCCAAGTATAAGACCATATCATCTGCAAACAAGAATAATTTGACTACTTCCTTTTCAATTTGGATGCCTTTTATTTCTTTCTCTTGT
CTGGTTGCTCTAGCTGGTAATTCCCCATATTCCCTCTTACCGTTCACTTCTGCCTCTGCTTTGTGCCCTTAGCACTGGAGCTACATCTTAAGAGGTGGGG
TGACATGTTGATGGTATTTGGCTGAGGGACCCTGAAGCTTCTGGATCTTGCTTGTAATTGTCCACTCTGTTCAACAAGATACCTAGGGGGCATGTGTGCA
CAGAAGATAGTGATTTTTCCGGGCTCTTGTTATTAAACCTTGGCCCCACACTCTTAATATGGAACACTGCTTTGGCAGAAGGAAGAGCTAACCAGAGATA
CCACTTCCTTCTGGGAAGAAGCAGCAGGGCTGGGAGAATCCTAGCCCAGACTTTCTCTGGAAGCTGCTCCAGCTCCTGASCAGGCTTATCTTACCAGCCG
GGTGGGAGTTAGGAGGACTCCGGAGTCACACAGAAAGCCAAAAATCTCCTGAAAACAATACCCTTTCCAGTGTAGATCCTAGGCTCACCCCTCATTGTTC
ACTCAGGAATTAAGGCAGCTCTGGGGGTAACCCCATTTATGGAATCCATGCAATGATGGCATTGTGGGGGACACTGGCTAAGCTCCCAAGGGGATGTGCT
ATAACTGCATCGCAGTGGCTAGGCCCCACCCTTCTCATGCCTCTTCCCAGGTCACTATGGTGATGAGTCACTAATATCAAGAAGTAAAGAAGAATGGCAG
TTTATAAAAGACCATAAGATCTCCCTATTCCAGGATCAATGGTACATATGGTTCCTTTTCTTTCTTCTTTGTCTTACTTGTCCTTTAAAACCTCCATTTG
AGAGCTGCCTCTTCCAGAAAGCCTTCCTTGACCACCTCCAGCTGAAGTCTGGTTTGGAGCTATCTTCTCTGAGCTACTACTTGCCACCCTGGAAGGCTGT
GGCTGGTACGTGATCTTGAGAAAGTAGTTCCCTAGCTTTGTGGGAGTGGAATCTAGATGACAAATGGTTAAGGAGTTGGGGATAGGGGTGTAGATGGGAC
AGCCAAGGCTGATACCTTTCAAATTTCAGGTTGAACTGTGGAATGAAGAAGGTAGTGACTGAAGGTCACTGGGGAAGTTTATTTATTTGTTTTTTGATGT
GAAGAACTTTTTTTTAAGGCAGAGAAGAGGAGTATTGGAAACATTAGTAAAATAGGGAATAATCAACAGGTCATGGCCCAGGAGGAGGCCAGAAGAAGTG
GAATCAATAACAGATGGAAGGAAGTGAAAGGGAAGACACAGAGGGAGCTCTGGCTGGACATCCCCAAAGTTGTTCAACAATGGGAGCCACTGTTTCTTGA
AAGTTGACTAGATGCTGGATAGTCCTTATACATTCTCATCTGATTTCCACAGCAGCCACTTCACATTCTACGGATGAGAAAACCGAGGCTTATAACAGGT
TCTTCAGGTGGTACATGTTGGGGAGGGATGTGAATGTAGTCAGTGCAACTTGCAGAATCTGCTCTACCAGAGTCTTACTTCTCAAAGTGTGGTCCTCGGA
ACAGTACCACCTGGGAGCCCATTAGAAATGTCAACTCTCAGCCACATCCTCAGACCAACTGAAACAGACCTGCGATGTTTACATATGTTTAGGTCTGGAA
ACCCTGGTCTAAACTTCTGCCCCTTGTTCTCCTTGAAGTGTTAGATGTTGGCTTGGCTCCCTGCTTAGGGTAAGGTTATTGGAGCATGCCGAGGGCAGAG
GCTTGAGGGTAGAGGGGAACAGCAAATCATGGGAATGTGATGGAATGTATTAAGAGAGAGCTTCTAGAAGGTTATGATATCTATTAGTTCACAGGTTATG
GCTAAACTGGTAATGACTTCATTTAAGTTGATATCATTGTACTTTGCAGAGAGAACAGCCAAGTAACCTTGGTTGACTCTGGTTGTTCTAATATTCTTAG
CTATCCATTCTCTTGGGAGGGTCAAACCACAGCTGGCTGATCTGTTATCAAAGGATTTGTGGTGCCTCGAACATGTCCTGTTATTTCACAATCAGTGCCC
TTTGTAMATATGGTTCCTTTTATTTCTTCTTTGTCTGACTTGTCCTTTAAAACCTCCATTTGAGAGCTGCCTCTTCCAGAAAGCCTTCCTTGACCACCTC
CAGCTGCAGTCTGGTTTGGAGCTATCTTCTCTGAGCTACTGCTTGCCACCCTGGAAGGCTGTGGCTGGTATGTGATCTTTAAAGGACTTAGCATGGTACC
TGGCACATAGTAAGTGCTCAATAAGCACTAGCTTCTATTATTAGCCCAGAAGTAGGAATAAAAACAGTTAAGAGTAGAACACATGGTTCAGAGGGCAGCA
TAGTATAAAGGGGGCAAAAATAACCGAAGGTCCTAGCAAGAGCCATATGGAAGTGGTCAACTAGGAGGTTTCTGTGCTGGGAAGGGAGGGTGAGAAGGCA
AGAGAGAGGCAGTAGAAAGTTCATTATTTTTTAATGTATTTTTATTGTGTATATTTAAGGAGAGAAAGTGATGTTTTGATATACCTATGCATAGAATGAT
TTTGAATGGGCCTAATTGCTACGACGTCAGTTACAAGACGGAGGAGAAAGAAGACAAGACATGAATTTAAAGAAACTTGCTTATCCAAATCATTCTTCTT
TTAAGAAAGCTTTRTATTCATTATAGCTGATTATAAGAGTTAGGACAAATTTATGATGTGGCAGACTTGTGTTTTAGCTTATTAGTGTGTCTCTGTGCTG
CACTGAAGCCCTTGTCATCACTGCAGTGTACGTAGCTCCCATTTATGTACTTTCTATAGAATCTGAAGCCTAATTTTAACATTGTATCGTTTTTTATAGT
TATTGACACTTTGCTTCTATCCTATCAATTCTATCTGTAATTTATTTCAAATCAATTTCTTGAACAGGCAGGTAATAGCYTATTATATTATTTTTCCTAT
GGGAAAATATGATCGTTTATTAATTTGGTTTTTTAAAATTTACTAAACATCTATTACCCAGAAAGCACTATAGAAAATGCTTTTGAGAGATGCAGTTWTG
AACTAGCAATCGCCCTTGTCCTTCAGGAAGCTGACAGGCTAGGAGGGGAGATATGATAGGTAGAGATGACTTTAAACACAACAATGTGAGATGCTGTAAG
AGAGGCAGGGTAGTACACTTACTGAGGAAGAATAACTTGCTTTTGCCTGGGGACAGGAGTACAGGATAAAAGCTTTGAGGCAAAGGCAGTGGTTCAACTT
GACCTTGAGATTTTGTCTGGGTTTGACAGGAAGAAATAGGGCAAAAGCCATTTGAGGTGGACAAAATAGTATATAAAAAATAAAGTTTGATTTTTATTAA
CACAATGGTGAAAAGAGAGAACTTCMAGGTAGTTCCATCTGTTTTTTTTTTATTTATTTTTTATTTTTTATTTTTTTTTGAGATGGAGTTTCATTCTTGT
TGCCCAGGCTGGAGTGCAATGGCATGATCTTTGCTCACTGCAACCTCCGCCTCTTGAGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGAT
TACAGACATGCGCCACTATGCCYGGCTAATTTTGTATTTTTAGTAGAGACAAAGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTG
ATCTGCCTGCCTCGGCCTCCCAACGTGATGGGATTACAGGYGTGAACCATCTTGCCCAGCTAGTTCTATCTTTAGACTAAAATTTAAGTATCTATAAAAA
GGAGGAACTGCTGTTTAATGAATGCAAATGTTTAGGTACATATATATTATCTCAATTAATCCTCAAAAAATCCCTATGAGGTAGGGAGGTATTATTATTT
GCATTATAGAGGTAAATAAGCTGAGGTTCAGGAAGTTAATCATTTTGCTCAAGGCCACACAGGTCATCTGCGGCAGGGCTGGAAATCCAACACAGATCTA
TCTGATTCCAAAGCTTTCCACTGCTTCCTGCTGCCTTCCTGCGGACCCATTCATAAGACTGACATATTCATTCATTCCACTGACATATTCATTCATTCCA
CAAGTAGTTATTGAGCATCTGACATGTCCCRGGTGCTATGCTAGCTCCTGGACATGCAGTGATGGCCAACCTGGCCTAGCTACATGTGGGGGACAAATGG
AGGCACAAATAGTACCTTGGTATTCTGAGACCTACAGATTTCCAATTAAGTATAAATTTAGAAGATTAATGTGCTTTATTGATCTCATCAAATAGCCTAT
TGATAACCCTCCTCAAATAACTAGTAAAGGCACAGTGTTCACTGAGGAAAAACAGATGGGAAAATACAGGATATTTCAATGTCATAGTTGGAAAATTTAC
AACTTAACTATTTTATTAAAATGTCAGTACTTTGGAATTTTAGCAGTTGTAGACCTGAGAGCCCGAGAGGAGACTGCACCCATGCCATGCAAATTGTCAT
AAAAGTTTTAGATAAAAGTTCATATATACGTTTCAGAGAGAGAAAAAGAGAAAGAGAAAGAGATTTTGTTGACAGCCAGATGAAATTAAGTGGTCAGAAA
TTTAATCCACTGGCCCACTAAAAGAAATATTTTCAAGATACTGAGAAATGCAAAAAAAATGTAAAAACCAAGCATAATATCACCACTTTACACCACATAG
TATCACAMACACACACTAGTTGAGTACAGTGGTGCCCACCTGTAGTCCCAGCTACTTGGGAGGCTGAAGCAGRAGGATCACCTGAGTTCAGGATTTGTGA
CCAGCCTGGACAAAATAGTGAGACCCCATCTTTTTTTAAAAAAGAAAAAATATATATACTGTATATGTAAAGTCCTTCCCCTTGATCACTACTCCTCCAG
CCCCACCCTAGAGGTAACCACTGTTAACAATGTGGAGTTTACCCTTTCTGAATTTGTTACTCATAGTGACAAATCTGTTTAGGTTTGCCCATACAATCTT
TCTTTTCTTTCCTTCCCAAAAAGAGGACCACTTAAAAAATTCTTATTTTTCTGCCATTATCCCTTTGGTCTCATTAATTAATTTATTTTTGTCTTTTAAG
AGAACAGTTTTAAATTGCTTCTTGTGAGGGTGCAACACACCAGTAGGATTATCAGCAAAGTGTAGACAAGGCTATGAATGTGGATCTGATGCTTGGGAGA
AGAGAATTATCTTGTGACTCAACTAAAATACAACCAAAGACTCAAGAAGTTATGGATTTGCTCTTAATTGCTTTAATTGCTGCACAATTCTCCTTAGTTA
CTCTGTGAACTTGTAAGAATCCACCCACAGTAAAAGTCGAATTTGACAAGTTGTGAGAAATTGTTATGAGGATTACAGTTCTTTGTGTCCCACGTGCAAA
GTGCTTCCAAGATATTTCTTTAAATGTTGAATTTCATTTAAATATCTCAAATGAAGAAAAAGATATCTAACCGCATGAGGTTGGAAAGCTTAAAAGTAAT
TGTTATCCTATCCTACAGACACACCAAAGGGTACTTAAAGATGATATGAAGTGGGATATAAATATCTATACTGTTGTGCTCTGAACTAAAGCAAGTAGTA
TATATTTGTTATCCTTTATACTGAATTAATTATGTAAAAAATAAAGTTCAAAATATGAGTGTAGTTCCTGTGTGACGAATTGCCTGAATTACTCAAGTGA
TTGTCTCAAACCTCTATGTCATTTGTTTGTAGAGTTCTTTAGAAGAACTTAGTACAATTATCTGAAAGTGTCTCTAAGGTATGACAYTTCTGTGTGCATT
ATTGTACTCAGCATTTAAAACATGGCATTGCACTGATGTCCTTCCTGTTTCTTAAAATAAGCCAAGTCTTTTCTGGCCTCAGGGCCTTTGCGCCTGCTGT
TCCCTCTGCTGGGTTGCTGACGCTCTTCTCTGTATGAGGAGGCAGAATCACTCCTCATCCTTCAGGGCTTGGCTCAGCTCAAAGGCCTCTACCTCAGAGA
CCCTCCCAGGATCACCTCATCCAGAGTGTCTTCTCCCTCCAATCACTTCCTATTATCTGATTTATTTTCTTCATGCCACTTGTCATAATCTGTCATTCTC
ATGTTTGTTTGCTTACTTTTTGAGTTAGGCCTCTGCCTTGGCACCCAGTGGAGTCTTCAATAAATACCTGGTGAATGAATAAAGAGCTTTATTAGTTATT
CTTTTCCTCATTCGTTCATGCCTTCATTTATCTGTTCAGCATCAGACACAATATTGAGTGTCTAATGTGTCTAACTCACAGTGCTGGACTCAGTAGTAGT
GATTGCAGTGGAATTTTCAGGTAATTAATGCTTAGCCCTTCAGATACCAACATTTACTTAAAAGTAAATATTGGCTATAAATAAGTAAAGGATAAAATTG
TAAAATACTGGATGAGAGTATTCCTTAAATACATTACAGCACATCTCAGATAGAAGCTCTAGTATTGATATGGTGTGGTCCTCACKGTGAAGTGTCCTTA
CAGTGAATTTTTAAAATTTACATTTTGGTTTTTCTGTGAGCCCAGAGGGATGCCACTTCCTTTACCGTAACTCTGACTAGTTGCTCCAACAATGGCCCCT
TCCTGCCTCTAGACACAGGGGTGCTGGTCACTGATCTCCTGGGTCAAAAGCAGGATAAGACAGTTGCTTTCACGGTGGTTGTTCTCACCATGAACCTTGA
CATTCCAGTTTTCCCACAGCATGTGAAGGCCTTAAGTTGTTCAGATATAACCTTGATTCTCCAAGGGGTGSTGTGGTAGAACGCRGAAGGAGATTTTTGG
AAAATTGCATCTATAGAGTTAAATACTATGAATGTTTCTTATCTTGTCATAAAATCACCTGCATACATTCTTTTTATAAAGCCATCTTTGTAAGATGAGA
TTTATATTAATGTAATATGTTAGTGCTCAGATGGCCTTTAGCAAAGGATTTTAGGAAACACCTATTATCTATGACTGGGGTTGTCAGAATGCAAAAATTC
AAATCATCTTCCACATAGGAAACTCTTTTCTGGGTTCTGTGTTTGTGCTTATTATTTCGGTGTTTCCCTTTTAACTGTTTTCAGAAGGCATCTTCTGACA
GTGGCAACATCAAACTGCAAAATATCATAGGCTTATTTGGTGGGGATTTTACTTCTGGATTTGTTCCTCTTGACATGAAAAACATATATTCTCTGCTTCA
CATCAAAAATGTAGGCTTACTTTTAAGTAGCTATATTTTTAAAATCTGWGTCCTGTTTTTGATCTAGTTTTTATTATATCTTGCATTTTACCTGCCATTT
CTCTTCTTTCTCTTTTGTTCATTTTACAGGAAATGGGAGATCAGAGATGCTCAGATTTTTTCAGCGTAGTTTCCCCTAACATCACAGCTCTCTCCTGTCT
CTTTTATTCACAGTGAGACACTAAAGACTTCCCAGTGAGCAAATTTTTCACATAGGTGAAACTTACTCCATTAACCGCTAAAACTTTGAAGAATGATTAT
TTTAATCACTCTGGAAATACATTTCACAGTTCCTTCATTTGCAAAGTAAACTATGCATAAGATGTACATAGAATGTATGCCTATCTTTCACAGAGTCAGA
GCCAGCCTAGTGAGCTTTCACTTTTGTCCATGGTTTGGAGGCTGTTGAGCTAATCAGAGCTGTTTTCCTGGGCACCAAATGCTCTTATGTCTTGCCTCTG
CCTACCACTCTCAGCTGCCATTTCCTGGGACCATCGCTGGGTCTTTATAATTCTCATGTTTTCCTTATTGTAATGACAGCTGGCCGAGTTCACGTTCAAG
TTTACCTCCACCTCTTCTATAGGTAAACGTCTCCCAGCTTCAGTACTCTAGAGCCACTGTCTTGCAGTTCCATGCTCCTGTTAGGTTCTGGTAGGTAGGA
ACCTGACTTCTGGCTAAAGGGAATAGGGGATGTAATACTAAGTTGTCATTACAAATCCCTTAGGCCTTACTGATAGCCTTGCTCAGGATATCCATTTTAG
TTTTTCAACTACTGTGTTCTCATGAGATGGAAATCATAAAGCCAAGTGTCTTTGAAGAATTGTACTTGAGATTCAGAACAAGACTCCATGTTATTTTTTA
AAGAGAGATACTTCTTTTCTTTTTTTTGAGACRGAGTCTCACTCTGTCGCCCTGGCTGGAGTGCAGTGGCGCGATCTTGTCTCATTGCAAGCTCTGCCTC
CCGGGTTCATGCCATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCYGCCACCACGCCCGGCTAATTTTTTGTGTTTTTAGTAGAGACG
GGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATTCCCAAAGTGCTGGGATTACAGGCATGACCCACCGCGCCAGGCCCAAAGAG
AGATACCTTTTTTCAAGTTTTTGAGTGGCTAGTTTTGCATATTAATGCTAACACTGAAAATAGTACAACATCAATTTTTTACGCTTTTTATCTTTTTCTT
GACAAATACTAGTTTAAGTTGCTATTTCAAACTAGTTCATTCAGGGTATGAAATATACAATGGGGAAACTTTGAGACTCATGTTACTTCCTGTTGTTAGA
GTGCTTGATTTAGTGCTTTAATTACTATACACTACTGAAACAAAGTGAATATACAYCACCTTAGGAAATCACTTGTTATTTTCTTGAACTGTTTTGTTTC
ATCTACAATTACATCTTTATATCACATTTCACAAAATACTGGTGATTATGTGGTGTTCTAATGAGTGTGTATAGATAATAAAACTAAGAAAATGGAGTTT
AGATTTAGTGGGGCTACCACCTAAAAATTAAACTTGCTTAGTTCCAAATTTCCAATTCTTTGATGATTTGTATTGTAAACAGGATAGTTTTTTTATTACA
TTTACAGAACATGGGCATGACTTGAACAAAAGTTGCTATTCTTAAGTAAATTACTTTTATTTTATGCTGTATCTTGCCTTCTTGATGTTCTAGATGGTAT
GTCCTTTTAGTCCCACTAGAGTCTATAATGCTACTGTAGTTCCCAGCTTCCAGTTGTCATCTGTGTGGTGATGCCATAAGCATTGGAAAGTGCACTGTCC
TTATAGCCAGAAAGCACTGGTTCCTTCACCCTTTAGCTGTGGCTCTCCTCCCCGTCAATCCTCTTTTTTTAAAAGCCAACGCTTATTGAGGACTTCAGGT
TATATGCTGTGTGTCACGTGTTTTCTAGATGTTCCTTCTTTTAATTATCACAAGAAGCCTATGATGCAGGTATTAGTATCCACATTTTACAAATATGCAG
ACTCAGGCCCAGAGAGGTTGAATAACTCCAAGGTTATCCAGCTGGTTAGTGACAAAGGTGGGRTCTGAATACAGGTCTTACTTCCAAAGTCTGCACTTGA
ATTACCTCCTGTACCACCTGTGCTACCTCTGTGCCTCTCTGAACCAACTTTGGGTTTTCTGGAAGTGAGAGTGACAATCTCAGTCTCATGGGGTTGTCCA
GGGGCACAAGTGAGGCGAGGGAGGCAGAGCATCCTTGTCTTATGCTGCACTTGAGCAATATAGGTAGTCCAGCCTAGACAGTCATCTTCTTTTCATTGCA
TGCCTTTCCCTATTTCTGGATTATAGATAGCAGTGTCTCCCACCTGGGCCAGCTTTATCCTGACGCCCAGCATACACCCCACCTCTGGGTTGGTGTGCAT
TGAGGAAGTGCAAATAAAGTGGAATATGCCTCATTAAGCAGGAAAGTAGTCATGAGGAAAGGCATGCACTTGAGAGCCGTACCTGGGCTCTTTATCTTCT
GACAGATAGGATCATTCCCAAGGTCRTGAGAGTGCAGGGGATTGGGTGCCAACCAGGACACTGAAGAGCTCCCGGAGCCTGTGCATGGTGTCTAGCCCTT
CTGTCTTCAGGCAGTCACGTGCAAGCCCTCCCCTGGAAGGATTGTCAGACCACACCTGTGCCACTGCTGCTGTCTCCTCCCTGTCCTCCTGCAGGAGGGT
GTGTGTGTGTGTTTTAAATTTCCAATTTACTATGGACCAAGACCCTTGAAAAATACAATGAAAACAAATTTCTGGAAAAATAGTTTTTAAAAAGGCATTC
AAAATGTAAGCATAGTATTTTATTAGAAGATTCAACAGCAAGAAAATAACATTGCAAAAATGACCTGGCAATGCCAAATTGCTGGAAGTTTCTAAGCACT
TATTGTCAGTMTTTTTCCTAATCTCTTTACTGTTGGGTAGCAGTTCACAGACTGGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGTC
CAAGGCGGGTGGATCACAAGGTCAGGAATTTGAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTGAAAATACAAAAAAAATTAGCTGGGTGTG
GTGGCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCGGGGAGGTGGAGGTTGCAGTGAGCTAAGATCGCGCCACTG
CACTCCAGCCTGGGTGACAGAGAGAGACTCTGTCTCAAAAACAAACAAACAAACAAAGAAACAAAAAACAGTTCACAGACCACCACCAGTGCACAGACTG
CCGGCCCAGAGCCTACCCTGACTGAGGTGGGCACTTCATATGTGAATGCAGGTCCACCTGCCGAGGGGCTGGAGGTGTGCTTGCTGCTGTAAACTTGCTC
TGTGGAATGCRTGCGCAAGCCCCAGGCCACAGTGCCCGTGGAAGCGCCACTTCCCTGCTGCCCTTCATGACACCACTGCCCTTGTGACTTGGCCTCTACC
TCAGCTCCAGTTTCATTCTGTTTGCCTGGTGCTGGAGCTCATTCCTGAACCTAACTGGTTTAGTGGCTGTGGTACTGAGAGGGTCTTCCAGCGTCCCTCC
CCGAGGCCTAGATTCTGTTGTCTGGATGCCTAGCTGTTGGCCAGGATTCTAATCCAATGTTTTAGTTTCCTCTTGTTGCTGCAACAAATTGCCGCAAATT
TAATGACTTAAAACAACAAAACATTATTCTCTTGTAGCTCTGGAGGCCAGAAATTCAAAATGAATCTTATGGGATAAAACCAAGGTGTTGGCAGGGCTGA
CTCCTTCTGGAGGCTCTAGGGCAGAAATCACTCTTGCCTCTTCCCAGCTTCTGGTGGCTGCCAGCATTCTGTAGCCTACGGCCACCTTATCCCAGTCTCT
GCCTCCATGGTCACATTGCCTTTTCCTCTTCTGTTGCCAAATCTCCATTCGCCTCCCTCTTATGAGAACACTTTTGATTAGAGGTAGGCCCCCCACCCCA
GTAATCCAAAATGATCTTTCCACCTTAAGGTTCTTAACACAATCACACTTGCAAAGTCCTTTTTGCCCTGCAAGGTGGCATTCATAAGTTCCAGGGATCA
GGACCTGGATCTCTTTGGAGGGTATTATTCAGCCTACCACGACAATGCTTGGGAATTTGTGTCATTATCACTTCACCCCCTGTAAATTTTGCTTCTACTG
TGCGCTACTCCAACCCCTACCCCACCTCAACTGGACTACCTGGTATATGGGATCATTTGTGGGAGCGATCTGAGGTTTTCAGAGTCTGGGGGTGTTGGTG
GCAGCTAATACTTAGTAATGTGTGTTTCAGATTCTCTGCTAAGGACTTTATATACTATCCCATTTAACAGTCACGTCAACCCAAGAGGTACTGTGGCCTG
GGGAAGCCACATGCAATCCTGTTCAGCCTGACTTCAGAGCCAGAGTCCTTACCTGCTAACTGCCCCGTGGACAGAGGCAGACCCTGTGATTTGGGCTTAA
TTTAAGCACGTCTCTTCCCCACAGGGAGCAGCCACATGGCAGTCCTAGTGCTCCAGCCTGGCCCTGTGGTCCCAGCTTCTTTTCTTTCCCAGATAGCCTG
CAGGATGCACCTTCCCAAGAGTGGACAGCCAGGATGAGCTTATTCAGCTCTCTCCCAGCAGGATAAGTGCAGCTCAGGAACCCAAGCAGAGGACTGTGTG
AATAACCCTGAGTTTCCAGGCAATCTGGCTCTCAGCCCCCACACTGCGCTGCCCCTTGGACAGTCAGGGAGTTGGCAGTCAGCAGACGCTGGCTGAGTTT
GGATTTGTTTGCTGATCCTGTCATGATATGTCATTAAACATTCCTGGCTGGAAGTCAGACATGAGAGTGCTGGAGGGTGTTCTCACACCCCTGTGCTGTG
GGGAGGCCTTCCCTTCTTTCTGGCTGCCCTGGTACCCTCTAGAGCCTCCTATCTGCTGCTCGGAGGCAGTGCCTGCAGCGGCTGGACTCCTGCAGCAGCT
GGAGKTGGAGGAAAGATTCTTAGGCCGTGAGTCCTCTTCTTCCGACAGCGAATTTGAGCCCTGGTGGAGCAATGTCCGGCACGCTCAGGAAAGTGTGAAA
TCTAGAACTCTCTGTAGTGGCCTGAGGCAATAGTCAGACATGGCTGGTARAGCTGTGCTGCCTCAGAAGTCATCCTGGATAAGCTGCTCTGGATCCCCAT
CGTGGAAGCATAAAATGTCAAGCAGAAGGATGTTATGAGAATTGGAACCTAAGCCCTGTGCTGACCTCGGGGAGCACTCCCTGGGGCTACCTTTGCTGGG
AGGTGCCTGGCCCAGACCTGTCCAACCTGGGCCTGCAGCCAGGAACATTCTCCCAGAGTAGCAATCTTATTAAATTCCCTGTAATATACATGTTTTAATA
ATAAAAGTATGGATATATTATTGATGAGGATACAAATAGCTTTACGTCTTTTACATTATGTAAGTAAGCACTGAAGTTATTTCTTTTTTAAAAAAATAGA
CTTAATTTTTTTACAGCATTTTTAGATTCACAGCAGAATTTTGCAGAAAGTAGAGTTCTCATATATTCGAAACCCTGCACCACCCCCCACTCCCTGGAGC
CATATGCACAGCCTCTTCCACTGTCAACATCCCCCACCAGAGTGGTACATTTGTTACAATTGATGAGCCAACACTGACAACAACATAATCATCCAGAGTC
CATAGTTTACATTAGGGTTCACTCTTGATGTTGTACCTTCTGGGGAGTTTGACAGGTATACACCACTGTAGTATCATCCAGAAAAGTTTCACTGCCCTAA
AAATCCTCTGTGCCCCACCTATTCATCTCTCCCTTCCCACTAATTCCTGACAACCACTGATCTTTTTAATATCTCTACAGTTTTGCCTTTTCCAGAATGT
TATATGGTTGGAATCATACAGTATATGGCCTTTTCGGATTGACTTGACTCCTTTCACTTAGTAATATGYGTTTAAGGTTCCTCCATGTCTTTTCATGGGT
TGACAAACTATTTCTTTTTAGTGCTGAGTAATATTCCATCATTAGAATGTACCACAGTTTATTTATCCAGCCACCTACTGAAAGACAGCTTAGTTTCTCC
AAGTTTGGGCAATTATGAATAAAGCTGCTGTAAACATCTGTGTGCACGTTTTGTGTAGACATAAATTTTCAGGTTATCTGAGTAAATATCAAGGAATGCA
ATTTGCTGGATTATATGGAAAGAGTATGTTTAGTTTTGTAGGAAACCAAGTCTTCCAAAGTGACTCTACCATTTTGCATTTTCACTGACAATGAATTAGA
GTTCCTGATGCTCCATGTCCTTCCCAGCATTTAGTGGTGTCAGTGCTTGCAATTTTTCCATTATAATAGGTGTATACTGGTATTTCATTGTTGTTTTAAT
TTGCATTTCCCTAATGATATGATGCAGAGCATCTTTTCACATGCTTATTTGACATCTGTGTATCTTCTTTGGTGAGGTGTCTTTTCAGATTTTACCCATT
TATTAATAGGTTGTTCATTTTCTTATGGTTGAGTTTTAAGAGTTCTTTGTGAATTTTGGTTAACAGTCATTTATCAAAATAATTTTCCAAATATTTTCTT
CCTGTCTGTGATGTCTTCCCATTCTCTTGACAGTATCTTTTGCAGAGCAGAAATTTTTAACTTTGAATTAAGTCTAACTTATCAATTACTTCTTTCATGG
TCATGCCTTTGGTGTCATACCTAAAAAGTCATTGCCAAACTCAAGATTGTTTAGATTTCCCCTATGCTATCTTCTAGGAGTTTTATAGTTTTGCATATTA
CATTTAGGTTAGATTTCCTTTTTATAAACTTTTTGATTGAAGAATAATATGCAAACAAAAGTTTAAAAGTCATAAGTATACAAGTTGATGAATTATCACA
AAGTGAACACATTCATAACTATCACACAGGTTAAGCAATAGAACCAGTACTTCAGAAGCCTCTCTTGTCCCCTTTCTCAATCATAGCTCCCTCCCTTTCT
ATTCACACTTTTAAAACCATAGGGTAATGTTGCCTGTTTTTGAACGTTAAGTAAAATGAAGTAATATAGCATATACTATTTTATGTCTGGCTTCTTTTGC
TTAATGTTACATTTCAGAAATAATCCATCTTATTGGGTGTTGCAGTGTTTAATACATTTTCATTGCCATGTAGTCTTCCATTATGTGATTACATCACAAT
TCAATGTTAATGGACATTTGAGATGTTTCCATTTGGAGCTGTCATGAATAATGCTGCTGTAAACATTCTTGGACATATCTTTTGGTGCTCACTGGRCACA
TTCCTATTGGGTATTTACCTAAGATAGATAGTGAGTGTCACTATATTTCCAGTTTGTGCCCCACTGTCCCAGCTTATGCCTAGACGTCCAGAGTAATAAT
TTTCCTCCCTTTCATTTTCAGAAGTGTCCCAGTTTGGCTAATAAATGAATTATGTCTTTTGATGAATAGAAATGTAATGTAGTCCAAGAAATCTTTTCCT
ACCCCGAAGTCATGAAGACAGATGCCTGTATAATCTTTTAGAAGTCTTATTGTTTTAGTTTTTACAGTATTTTATGTTCACCTAGATAAAATAACCTTTT
ATATTTACCACTTGTATGCTCTTTATTCACTCCTCAACAGTCAGGTTTCCTTCTGGTATCATTTCCTTTAATCTGAAATAATTATTGTCATATTTCTTAT
AACGAAGATCTGTGGGCAATGAACTGTCCTTAGTTTTACTTTGTCCAGAAATGTCTTAACTTGAAAGCTGTTKTTCCTGTTTTCTGTTTCCGTAGTTTCT
CATGAAAATTTASCAGTCATCTGAATCATTGTCCCACTGTGTGTATTGTGTAGTTTTTCTCGGGCCGCTTTTGTCTTTGGCTTTCAGCAGATTAATTACA
ATGTGCCTAAACATAGTTTTCTTTGTATTTTTCCTGTCTGTCATTTGTTGACTCCTTAAATCTGTAAATATATGCCATTCAGCAAATTTGGAAAATTTCC
CATCTATTTTTTTCCCAAATGCTTTTATCTCCTCTCACTTTTCTCCACCTGGGACTTCAATTACTAATGTTAGGCATTTTGATACTGCCCACAGATCCCT
AGGTCTCTGTTTATTTTTTTCAATCTTTTTCTCTGTTCTTCAGATTGGACAATTTGTATTGATGTATTCATGTTCAGAGACTTTTTCCTCCCTAATCTCT
AGTCTGTTATTAATCCCATACAGTGAATATTTATTTCCAATATTGTATTTTTTCAGTTCTAAAATTCTCATTTGTTCTTACGTTTTCTATTTTTGGCTGA
GAGTTCTTCTTTATTTGTTATGAGTTTTTTCTTTATTTTTCTGCACTGAGGTTAATCATAATAGTGATATTAAAGTCTTTGGGAATTCCAACATCTGGGT
CATCTCAGGGTTGCCATTATGTTTCTTAGGTGATGTGATTTGGGATTGTATCATGGGCATTGTGAATGATATGTTGTGGAGGCTCTTTATTGTTTCATTT
TAGCAGGCGATTAGCTTGATTACACTCACAGTGTAAACATGATGTCACCTGAGGTGGGTGGCAGCTCAAATCTCAGTTCAGAGATTTTTAAATTTTTAGT
TGGACTCCTTAAAATCTTCCCTGTGCATGAACAGTTCCAGGATCAGCCAGAGATGTGAGCAGAGTTTGTACACAAAATTTAGGTTCCCTCCTCATTCTCT
AGTAACTCTGGTTGCCCCAGGCTCCATCTTCTGGTTCCTTAGGCAAGATTGATGGTAGGTTCTCCATCACAGTTGGACCGTCCCATGCCGTGGTGTGACT
GTGGCCTGCCCTCATGGCAAAACTGAAAAACTAGGTAACTCACCAGATGCTAGATTCCTTCTCCAGATCTTTCTCCAAATCTGCCTGCTTTTGTTCACGC
TCCAGAGCCCTTAGGTTGTCATTTTTTGTGTGTTTTGTTAAAGTGTGTTGTTGTTATCAGTGAGAGGGTTGGTGGTTATAGGAATTTACTCGTTCTTACT
GGAAGAGGACCCCAGTTCATTGACATTAAATATAATTAGTCATGTATTTGCATTTAATGCTGCTATCTTACTATTTATATTATACCCACCTATTCTATTC
AGAATGTTTTTCTTATCTTGATTTCTATCCATTTAAATATTTTCCATTTCCTCCCCTTTTAGCTTATTAGTTAACTCCCTGTTTATACCCTTTTTGTAAT
TAGTAGAAATTACAAAATTACTTTTACCTTGTTAACCCAATGTTAATATCTCTACCCTTCTTTAACACAGTAGAAGGAATGTAGAATACTTAAATTCCAG
TTATTTCCCTCCGGATTCCATGCTCCTGTTGTCGTGCATTTTAATTCTATGTATTTTTAAATCCCAGAAGAAATTACTGTCATTTTCTACACTCAATATT
CATTTAGATTTACACACAAATTTACCTTTTCTAAATGACATTATTTTCTCCATCTGTGAGCTTCCATCTGAGATCATTTGCCTTCTTTCTAAAGACCACC
CTTTATTATTATTTTTTTTAGTGCAATAGTTCTAGTAACAAATTCTCTGTTTTTGTTTGTCTGGAAATTCTTTTATTATTATTATTATTATTGAAGTATA
TTTTTACTAAGTATAGAGTTCCAGGTTGCCACGTATTTTATTTCAGCATTTTGAAGATATCATTTCATTGTGTCCCACCTCCCATTATTTCTGTTTTTCC
TTGGCTATTTTTAAACGTTTTTCACCTATATTTTGCTTTTACCAGTTCTTCTTTAATGCACTTAGGTATTTTTTTTTCTTCATATTTTTTTTTCTCTTTA
GGGCCTACAGTGCTTCTTGACTTTGCAGCTTGATTTGTTTCTTCAATATTGGAATATTCTCCACCATTTTCTCTTCAAATATTGTTCCTGACGCGTTCTC
TCTAATCCTACTGAGAGTGAAATTACATGTATGTGACACCTTTTCTCTGTGTCCTGGATGCCTCTCACATTCTTCTTATATTTGCCATCCTTTTGTCTCC
CTGCACCTTAGTCTGGATCTTTTTCTTTTTTTCTGACATATATTCCAGTTCCCCAGTTCTCTGTTCACTGTGTCTAATATCCATATAAACCCATCCATCT
GGTAACTGATTTTAACAATGGTAGTTTTATGACTAAAATTTCCACTTGATTTTTAAAATGTTTTCTAGTTCTTTGTCAAAATGTTGTTTCTTGTCTTTTA
ATTCTTTGRACATATTTTCAAGTCTGTGTGTGTAACCCTAGTATCTGGATCTTCCACGTGTCTGTTTAATGTTTTTTCCCTCTCTTGGCTTTTGGTCAAC
CTTTTTTTCCCTTATAACTGCTTATTTCTTCTGAGCATTGGATTTTAAATTTAGAGATAATTTGATGCTCTGAATGATGGCATATTCCCGCAGACAGAAT
TTAGTTTTCCTTCTAGTTGGCAGCTGGGAAGGGGACAGGCGATAATAACTCAGTGACTGAGATGAGTCAAAGAACCATTTCGTCCTATGTGAAGGCTGGC
CTATCTCCAGGTCAATTCTGTTCCTAGATTGCAGCTCATTGGGGTCCCCATTGAAAACCTAACATGTTTGCCAAGGTCCTCACTCTCTGATGGGCCCTGA
ACTCCAGTTTTATCCTTCCATTTCTGTGTGGTGGATGGAAGCTCTGCTCAGCTTCTCGGCTTCTGGAATTGTCAGTGGCCTTCAGGGGATATGGACACCA
AAAGCCACATTTTCCTTCTTGCCTTCCTTTCTCTCGCAGATCTTGGTCTGACAAAGTCTCACTGCACTGGTATCTATCTGATACTTTCAAATAGATTTTT
AAAACTTCTTTCCAATTTCTCTAGTTATTCTTATTGGAGAGTCGGCCCAAGAAAAGTAAGGTTCAGAGAGAATAAATAAATTGTCCAGGGTCATACAGAC
CCTGAAAGTAGAATCTCTATGAAATCTATTTAAATAGGTGGCACAAGACCAGAGAAATCTGAGACTTACAGCAGCCTGCATGCCCAGCCTTCACCATCCT
TTGTCATTTGGGTATTAAGTTTGACAGTTGCTATGTTTAACTCTCTTGTTTTACAAAACTGATATCCATAGAGATGGTGTGATTTGTCCATGACCACACA
GCGAGGTAATATGTGAGTTGGGGTAAAATCTAGGTCTGTGCTCCTCGGTTTTTTCCTGTTAAATCTTGCTGCCCCCATCTTTTTTTTTTTTTTTTTTTTT
ATTGTTACTTAGGTACCCAGACCTACATCCCAGCTTTAGTAAGACATCTCAGTGCTCAGTGGTCCAAGAAGATTCTTCTCATTTGTAGAAAATTGTCCTT
GATTTATGCAGCCACAACCACATATGAGTGTCACCTGTTACCTTCTTTTTTCCCCTCTTTCTTCGCTTCTCTTTTTATCTCTGAATTTTTACATTGCCAC
TGACATCTTGCCTGTGGCTAATAGACACGTCCACACTGAGAGACATGCTCTAGTAGAGTGGGTTCAGGACTGCATAATTAGTTTGTCCTCTTTTATGCCT
GGGAATATTATATCAGATTCTCTAAAAGGTTTTGAAACGTAAGGTGAAAAGGGAAATGATAAAATAAGGCATTTGAGATTTTTAAACTCATGATCAGCTG
CTTCCCTTGAAAATAATTCATAATCTCTTCCAGAATTGCTTGTAAAGGCTTTTAACTTTTGTGGTTTATCTGCTGTTCTCTTAAGCACATGGTATATATT
TATAGGTTCTTACCTTAAATTTTAGGCAGAATCATGAATTAGATACTGGGAATAAAGCTGACCAGAAGTAAATCATTTCCCACATCTTATCTTTGTAAGG
CCTGAAAATGTGATATTCCACGCTGTTTTTGAAGAGAAAGCATTTTGGTGGTTACCAGGAGGAAAGAATGGGGCAGGTTGGAAGTGTCACTGGTCTGGCA
GCCTGGAGACCTCAATTTTATCCCATTGTGACCTCTCACTTATGTGCGACCTTGGACACATCACATACAATTTAGGCCTTATTTGGCAATATGTAAAATG
AAAAGGTTGGACAAGATACCCCTTGGGAGCCTTACAATTCTCAAATTTTTGGAAAACTATCCTTTACTGTGAGGCCAGTGTCTGGAACAGCATTTTGTAA
TATGAATGAGGACTTAAAGCAATTTTTTATTTCCTGTGATCTTGTGGGAAGAGGGTGGGTAAAGTTAGATAATCTAGAAGTTGACATTTGTGTTTTCATG
TAAGCAAGTCAAATGTTCTGGACTACATTTTGTTTCAAGCTAAAGAGCTTATGCTGTGATGACCCAGCTTATTAAGTTAGATAACAAATGTAAGGCACCT
ATTTCATTTCCTTATCACTGTGGGGCTCAGTAAGGAGTTTCCAAAAGAATGAATGAGAGATTATCATCATAATATCTATCACTTATCAACTGCCTGCTGT
GCCAAGATACATCCGTGAGTAATACAGATTTGGCATCTGTCCTCTCCAAGGGGTAAGTATTATTACCCCTAGTTCCACGTGTGGAAAATGAATTCCAATC
TGGTCTTACATTAAAAACCATTGATGTGGCGCCTGCCTCGCGCACTGTGTGTGCACGCTGCAAAGACCAGCAAGCTCCTTGGACCTTGGAGCAGGCCTGC
TGCCTTCATGTCCACTCTCCTCATCAATCAGCCCCAGTATGCATGGCTGAAAGAGGTGGGGCTCCGAGAGGAAAATGAGGGCGTGTATAATGGAAGCTGG
GGAGGCCGGGGAGAGGTTATTATGACCTGTTGCTCTGCTAACAACTAGCCAATAGCAAGAGTCCGACAGGCCAGTGTGGCAGACTATGAAGAAACTGTAA
AGAAAGCAACAGAAGCATGGAAAATCTGGGCAGATATTCCTGCTCCAAAACGAGGAGAAATAGTAAGACAGATTGACGATGCCTTGTRGGAGAAGATCCA
AGTACTAGGAAGCTTGGTGTCTTTGGAGATGGGGAAAATCTTAGTGGAAGGTGTGGGTGAAGTTCAGGAGTATGTGGATATCTGTGACTATGCTGTTGGT
TTATCAAGGATGATTGGAGGACCTATCTTGCCTTCTGAAAGACCTGGCCATGCACTGATTGAGCAGTGGAATCCTGTAGGCCTGGTTGGAATCATCACGG
CATTCAATTTCCCTGTGGCAGTGTATGGTTGGAACAACGCCATTGTCATGATCTGTGGAAATGTCTGCCTCTGGAAAGGAGCTCCAACCACTTCCCTCAT
TAGTGTGGCTGTCACAAAGATAATAGCCAAGGTTCTGGAGGACAACAAGCTGCTTGGTGCAATTTGTTCCTTGACTTGTGGTGGAGCAGATACCGGCACA
GCAATGGCCAAAGATGAACGAGTGAACCTGCTGTCCTTCACCGGGAGCACTCAGGTGGGAAAACAGATGGCCCTGATGGTGCAGGAGAGGTTTGGGAGAA
GTTTGTTGGAACTTGGAGGAAACAGTACCATTATTGCCTTTGAAGATGCAGACCTCAGCTTAGTTGTTCCATCAGCTCTCTTCACTGCTGTGGGAATAGC
TGGCCAGARGTGTACCACTGCGAGGCGACTGTTTGTACATGAAAGCATCCATCATGAGGTTGTAAACAGACTTAAAAAGGCCTACGCACAGATCCGAGTT
GGGAACCCATGGGACCCTAATGTTCTCTATGGGCCACTCCACACCAAGCAGGCAGTGAGCATGTTTCTTGGAGCAGCGGAAGAAGCAAAGAAAGAAGGTA
GCACAGTGGTCTATGGGGGCAAGGTTATGGATCGCCCTGGAAATTATGTAGAACCGACAATTGTGACAGGTCTTGCCCACGATGCATCCATTGCACACAC
AGAGACTTTTGCTCCGATTCTGTATGTCTTTAAATTCAAGAATGAAGAAGAGGTCTTTGCATGGAATACTGAAGTAAAACAGAGACTTTCAAGTAGCAAC
TTTACCAAAGATCTGGGCAGAATCTTTCGCTGGCTTGGACCTAAAGGATCAGACTGTGGCACTGTAAATGTCAACATTCCAACAAGTGGGGCTGAGATTG
GAGGTGCCTTTGKAGGAGAAAAGCACACTGGTGGTGGCAGGGAATCTGGCAGTGATGCCTGGAAACAGTACATGAGAAGGTCTACTTGTACTATCAACTA
CAGTAAAGACTTTCCTCTGGCCCAAGGAATCAAGTTTCAGTAAAGGTGTTTTAGATGAACATCCCTTAATTTGAGGTGTTCGGCAGCTGTTTTTGAAGAA
GACAAAGAARATTAAAGTTTTCCTTGAATAAATGCATTATTATGACTGTGACAGTGACTAATCCCCCTATGACCCCAAAGCCCTGATTAAATCAAAAGAC
TCCTTTTTTAAAAATCAAAATAAAATTGTTACAACATTAAAAAAAAAAAAAACCATTTACCACTTAGCAACATTGGCAGCTTTAGTTCTCCAGCAGCCTA
CATACATTTTGTGCTAAGGAGCAAAGTAATCTTCCATTTACCAAGAGCTTTTTTTGCTTTTTAATGATGTATTAAATTAAACACCCACTCACCAAATATC
TGTGAGTGTTGGTTGCGCAGATGGATTTGAGTGTTTGGTGCTGGGGTGCATCTTGTCACAGCTGATCACTTACTGGTTCTCTGACTGTGGCTGGGTGGAG
TTGGCATCTGTCTCCTAGGTTCCTCCTGCCCCCAACAGTTTGTGGTTATGGTGATAAAATTATTGTGTGAYAAATATCATGGCAGACATATAAACAGAGG
AAAGGGGACAGCAATTGAAAGAGTATCAAACACACTTTAAGGTTCTAACTGTTTCAGTTACCAAGGCTCAGGAAGGCGTATGTTGTGTGTTAAGGGATCC
AGAGTCACTCAGACAGTGTTCCTCTCCCTCTAGCAGGGTATGAAACTACTAATGGCCCCAGACCCTCATCATCACTGTGAAATTCACTGTAAAATCTTTG
GAATTTTGATGAGTCAAAAGTGGAATCTGGTTATTTTGATTTGCATTTTTGGATTGCCAGAGAGGCTGAGCATTGCTGCCTGGTTTTACAGCCCATTTGT
GTATTTGTTTTGAGCATTGCTTGTCCTTTTCTTGACCCTTTTTAATTGGGATGTTCGCCTGTTTTATTATTGTCTTAGTAGAGRTTCAAAAAACTCTAAT
AAGGATGCCAATCCCTTTACTATCATATATTACTAATATTTTTTCTCAGTTTTGTATTTAAATATTTATTATGCTTTTTAATATGTTTTTCTTACTAAAA
ACCTAACAATCTTTTCTTGGTTTATGTCTTTGATGTTATTTTTAACAAAAGGCTTCCGGGCCCTTGAATGCTGGAAATGTTCACTTAAATTGTTTTTCAA
TATTCTCATGGGATTTTTTTTCTCATTTAAAATTTTAATCTATCTGGAAGTAATTTGGGTATATGTCATGATGCATAGAGCTGACTTAATTTTTCTCCAT
ATAGTTAACCAGTTATCTCAATATTATTATTGAATTATCCATTACTTTCTCACTGATATAAAATGACATTTTTATTACATAATAAATCACATATATCGCT
TTATATATATGTATAGATATGTGTAAAATTGGGTCAGTTCTAGATTTTATCTTTTTGTTGATCTCTCTGCTGGAAGCATACTATTTTGATAGTTGTATCT
TTGAAGTATTATTGTCACAACTGGCAGAGCAAAATACTTGTAACTCTTCACAGTTTTATTAGCCAGTGGCTGGAATTTATTCCTCTATATGGATTTGAGA
ATCATTTCACAAGTTTAAAAAGTTGTGCCAGTGTATTTATAGCAATTAGTATATAGGTTAATTTGAGAGAGACTTAGCATTTTTTTAGTACTGGTTTTCC
ACCCAGGAAAACAGCATCTCATTCCATTTATTTCAGTCATATTTTCTGACACTCAGATAGTCTGAGTGTGCGATATGATGTGTTAAGGCACAGGTTCTGG
AGTCAGAGAGTCTCAGTTCAAATCCAAGTCTAGCCATTTATTAGCTTGTATATCAGTGAAAGGTTTTCCCCAGTGAGTGGGACATAGTGTTGCTCAGTAA
ACATTTGTTGAAGAAATGTTTGAATGAAATAATTTATTCCTAAATTTTTTGTTTTTGCAGTTGTGAATGAGTTTTAGTCTGCATGCTTGCCAGCAATTAA
CATTGTCAGTTTTTTAGATTTTAGCCCTTCTACTAGGTGTGTTTTAATTAGTAATTCCCTGGTGACAAATGATGGCAAGCATCTTCTTTGGTGAGGTGTC
TGTTCAGATCTTTTGTCCATTTGTTAATTGGGTGTTTGTTTTCTTAATGTTGAGTTTTCARTGTTCTTTGTGTATGTTGGATATAAGTCCGGTATCACAT
TTATGTTTGAAAATATTCTCTCCTCATATGTGGTTTGTGTTTTTATTCTTCCCACAGCTTATTTTGAAAGCAGAAGTTTTTAATGTTAATATAATCCAAT
TTACTATTTTTTTCTTTCATGGATCCTGCTCTGTAGTATAATTTTAAGCCCCTTATATCAACTCATAAAAACAGACAGGGCAATAATGTAAATTGACAGA
GCACACAGTCCATAAGCAGCATCTTTCATAAAACTAAGGATTAGAGTATATGTCTATAAACTAAAAAATATGAGCAGTTAGGGCCAAACCACTGACCGTA
ACAAGGAAGTCTGCAGGAGGAAGCAGCTGGCAGACAAACAGACTTCTGGGGATCCCAGGGCTGGGGACCCAGAAACTTCTCTCAACACTTGTCCCAAGAA
GGGGACAGTCCCCCAGGAGTGGAGGGCTTGCTGTTGATGTGAACACATTCGCTTAAAGTGGAGGGGGCTTCCCAGGCTCCAGTTGGCAAACAGTAAGGAC
AAATGAGAAAAGTATGCCCACAAAGCAGAAGAGAAACTGCAACCTAATATTTCAAATGAGCTAAAAGAAATTAAGAAAATGATTAAAAGTTACAAAAGAA
CAGGACGAATGCAAATTAAAAAAAACACAGGTTACATCATTAGACAACAGAAAAATATGAAAGGGAATTGATTACTCAGAAAAGAAATAGAAATAAAAGC
AAAAAAAAATCTAGGAAAGGAAGGTCGAACTGGAAGAAATATAAGAGTGAATAAACAGTGCAGAAAGCACTGTATAGAAATTGGAAAGGAAGAAGAAAAA
CACAGAAATAAAGAAGACAAGAAACTATTTGAGAAGTGATAGAATGCAAGACAGGCAAAGGAGCTCCACAAATATATGATGATTCATTATATAATATATA
TATGATATATATAATATATATTATATCTATCTAGATAGGTCCACATATATAATACATATACATATATAACTCCTCTATATAATAGGAGCCTCTGAAGAGA
AAAAACCAAACCCCGTTGTGTACTGGGAAAATCAATCCAAAAGGACAACATCAATGCATATTCTAGTAACATAATTGCACTATAAAGGAAAAAAGTCTTT
TGGGGCATCTAGGCAAAAAGACCAAGTCGTTTATAAGGAAAAGAAATCAGATTGGCATCAGAACCTGAGAGCAATGCTTTAAGCCAGGAAATACTGGAGA
AGATATGTTAAAGATAATCTAGAAAAGAAAAAGTGAGCCAATTATTCTACATTCAGCCAAACTGGACCCTCAAATATAAGAACCACAGACAAAACTGTGC
GAACATGCCAGACCTYGGGGAATGAATTTCCCATTAACCCTTCTTGAGGAACCTTCTGACAATTACTGTGACTGGAGAAACTTTAGCATAAGGACTGGTG
GTTGACACGTGAGACTTTGGGGTACGTTAGCTTCTGGTGAGACCCCTGGCTTTCTCAGAATTCCATAAGTGTTCTTGATCCAAAGACAGCTGTAAAAAGT
GGTTCTATGATCCCTTGGTTGGAATACCATTTCTCCTCTGCTCAGGTGTTGGCTTTGACTCCAGTCATTTGGCTTGTGATTATTTCATATCCCTCCTTTT
AAGAAGCCACACACCAATGCACCTGTAGCTTGTGTGGCCAATTGCCCACCCAAAGGATACATATCATCAGATCTCTCTAATATCAACAAGGGGAAGTCAT
TTGTTTCCATTGAGATTCTTTCTGTTTAAACACAGGAGAGCTCATTCAACCTTATTTAATAAGGAGAAAAAAGSCAATTAATTGGCTCACCTAACTGAAA
AATCCAGAGTTAGATATGGCTTTGGGCAAGTCTTGATCTGGTAATTTGGAAGTGTTACAAAGGATCTTGTTTCTTTCCATTTCTCCACTCTGCTTTCCAT
GGTGTTGCTTTCRTTCTCACATGGTGTCAAGATGTTACGAGAAACAACCTCACTACACATTTCTTTTTGATAAACAGTGAGAATATTTATTAAAAGTAGA
ATAGCTTTTTCCCAGCATTGCTAGCAAAATCCTGGGATAAACTGAGTGGACTAGCCCAAGTCAAATGACTACCCCTAACCAATTGCTGTAGCAGTCCAAG
TCACGTGACTACTCCTAACCAATTGCTATAGCCAGGAAAATGAAATGCTTAGTTATGGTTACCTGTCCTCCTCTTCTTCCTCCTCCTCCTCTTCTTCATC
ATCTTCTTCTTTTTTCTTCTTTTTTTCTTCTTTCTCTCCCTCCTTTTCCTCCTCATCTTCCTTCTCTTCGTTTTCCTCTTCTTCTTTCTCTCCTTCTCCT
TCTTCTTCTTTCTTCTTTCTTCTTCTTGTTTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTATAAACATGGCTCACTGCAGCCTCAACTTCCTGGGCTC
AAGCAATTCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGATATACACCACCGTGCCTGGCTAATCTTTTTTACTTTTGGTAGAAATAGTGTCTCA
CCATGTTACCTAGGCTGGTCTTGAACTCTTGGCTCCCCAAAAGCTGGGATTATAAGTGTGAGCCACCGCTCCCAGCCCACATGTCTTTAGAACCAAACAG
AGATTTCCAAACAGAAGTCAGTGACTCCTGGAAGGAGAAAGGAAGGAATGGACTGGGGAGGCTATCTAAAAAAGAATTTTTAAACGTGTTGAATTTTATC
AAAGTGCTATCTTGACATTTCTTGAGATGATCATATATTGACTCTTATTGATTGTGGTGAGTTATGTAAATAGATACTCTAAGTTAGGGAAGGCAACCTA
CTTAGCTGTGCTCTGTGGGAGTAACTGAGGTTCTGGGAGAATCTGCTTGTTTCCCCTTTTCTTCTCTTTTTCCTTCTTCCAGCTCTTATGTGTACTTCTC
TGCCTCTCCTCAACCCTCTGATACTGGTGTTCTCCAGAGTTCTGTCTTTGGTCTTCTGYTGTGAGTGATGGCAAGGTTTTAACTGCCTTTCCTGTATGCT
GGTGTCACTCTCCCTGAGCTTCATACTTACATATCCCAGAGCCTGACTTTGCATTTTGAAAGGACTAGAGACATCTCAAACTCAGTACAAAGGCAGGGGC
CTTTGTACTGTGTCATCTCATGGAGAAGGTAGAAAGGGCAAGTGAGTGTGGGAGACAGAACAAAGAAAGCAAGCGGAATTCATCCTTTTATCAAGAGCCC
TCTCCTGTGATAACTAACCCACTCTCAAGATAACAGCATTAATCCATTCCTGAGGGCAGAGCCCCATGACCTAATCACGTCTTAAAGATCCCACCTCTTA
ATATAGTCAAAATGGCGACTRAATTTCAACATGAATTTTGGAGGGGAAATTCAAATCATAGCACCCCTCACCACTRCTCCTAGTGTAGACACTCATCATC
TTTTGTCAACACCAGTAGTTCCCAAACTTTAGCAAGCATCACATTCATCTGGAAGGCCAGTCATTACACACTGGGCCCACCCCTAGAGTTTCTGATTCAA
TAGATCTCGGATGGGGCCTGAATGTTTCCCCTTCTAATAAGTTCCATGTGATGCTGATGCTGCTGGTTCAGGGACCACACCTTGAGAACCACGGGGATCA
TTGCAGGAACTCCTTTCTGATCTCTGTTCCTCCCTTAGTCTATGCACATTTCAACCAGAGTGATCCAGCCAACTACAATCCAGCTATGCTACACCTTTGT
CCACCTAGCAAAGCCCAGGCTTCTCACCACAGMAGCCTTCTGTGACCTGGCTCCTTCCTCCCTCTCTAGCCACATGGTCTGTTCCACATTGCCTGGGACT
GTTCACACAAACTCTGTTCTTTGCCATCCTTGTGCCATTCCATCTGCCAAAAATGCTCCTTCCATCGGTCTTCACTTGGCTCATTCTCACTGATCCTTCA
ACATTGATCTCCAGTGTGGTTTCCTGGAAATTTGCCTGAATCCCCAGATTGAGCTAAGTTGCCCTTAGGTTTCTCTGGCTTCATGGTCATCTCACTCCCA
CTCTGCTCCCCACTCCTGTCTTCAGACTGTGGGCTTTTTGAAGGCGTGAACACTCAGTCTTGCTTATCTTTTTTGGCTTATTTTCTGTGTAGTATCTGGC
ACATAATAGATGCTTGATGAAAGTTTGTGGATCTAAACTAAATATTGGTGCTACTCTTGAGTATAACTATCTCCCCTCAGGGGCCCTGCCACCCATATGC
TAGTACCTGCCTCCCATCATAAGGAAACAGTGCCTTTTAGGCATTGCTGAAAAGTAKAGGGTCTGGACCTCCTGATACTGGGACTTGTTACCCTTTAGAC
ATCATTTCAATCTTCATATATCTTCCTCCTGTGGTTAGACTTAAATTGAGGGCTGTGGGCTCAGCCACAGAACATCATGGCCTCTGTTACCCTAAGTTTC
TTCCTGTTCTTGAAATTGTGACGGTTTGGAAAGAGATGGGGAGRATATTGTTACCCACGTGACAGGCTGCAGCAACCTTGACCACTAAGGTCAAATAAGC
AGCATTGATGAATTTTAGCATGTGGGCACCCCTGGAGGGGGCGAGGCAAGTCTTTCTGTTACAAAGATGCAGATTTCAGTGCAACTGAAGGCAGAACTTT
CTAATGAGAGTATAAAGTTGTCCACTGGTTGTTTAGAAAGAGGCTGGACTTACACCAGTAGAACTCCAAGTCCACATAGACCCGCCATTTGGTTCACCAG
ACACCATTCCCAGGGCTGTATTTTAGCCRTCTGACTGTCCAGGGATCCCCGGGAATCCTTATGTGTGATGATGGGGCTTTAGAGACTTTGAACTAAAATG
CCAAGGCCTCAGCTCCGTGAATTGGTCTTCTTCCTTTAGATTGGTGCTTCTCAAACCTCTTCAAATCTGAGGGTGAAGAAAGTGGATGCCTACCTCCACC
AGGTAAAGTGATCTGCTGCAAGCATTAGATTTTTGTGAAATTTCATTCTTTAGCTTAAAAATTCATGTGAACTTTGCATTATACTCTGGTTTTCTCAACT
AAGATAAAAATATTTTGAAGGACTTTGTAGTTAAATCACTAAACTTGTTTCATCTTGACATAAAAATGGATGCTCCACTAGGATGCACTTGTAGCTTTGT
ATGTCTCCTGGCCCTATCTCTGCACCATCACCATTTCTAAAGCATTGCCTGTCTTACACAAAGGCCCCAAGGCCCRTAAGAAATAGTAATGATTTTAAAC
AGGATTCCAGGAGAGTGGAGCCCATGAATCTGCATTGTTGCTTACAGAATTACAGCAAGATTGGGAACATGAGAGTTGTTTTTTTGTTTGTTTGTTTGTT
TGTTTGTTTTATTTTATTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTTGTTACATACGTATACATGTGCCATGTTGGTG
TGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGTCCCCGGAGTGTGATGTTC
CCCTTCCTGTGTCCATGTGTTCTTGTTGTTCAGTTCCCACCTATGAGTGAGAACATGCGGTATTTGGTTTTTTGTCCTTGCGATAGTTTGCTGAGAATGA
TGGTTTCCAGTTTCATCCATGTCCCTACAAAGGACATGAACTCTTCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATATGCCACATTTTCTTAAT
CCAGTCTATCGTTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCACAATAAACATACGTGTGCATGTGTCTTTACAGCAGCAT
GATTTACAATCCTTTGGGTATATACCCAGTAATGGGGTGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACA
ATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGGAACATGAGAGTTGTAACTGAAAAGCTTGTGAGGCAGTCTTCTAAGATCAGGGGCTCC
CATGTATGCAGTGGAGTAGGCCAGAATTGCTCCCAGTGCCTGATCAAAGACACATGAAGCCATGTTCTGTGATGCTAGACCGTGGTCAGAGAACCCTGGT
GCTGGGCATAGAGTACCCAGTGTTCTGCAGTGTAGGCATTTTAATGCCTTGAGCACTGAAGGTGAGAACCTGAGGCTCATCAAAATGAGCAAGTAGGCAG
AGCTTTAGAGTTTTAGAGCAAGAATACAAGGGAGCCCCTTGTTCTCATTCCTCTCTTAGACGAGAATACGTTACTCAGCCTGTTCTGTAGCCAAGAGAAG
AGGATGATGTCAGTGGATCCAAGATAGCCTGTGAGTTTGAACCGTTTTTTAAAAGAAATATACTTTGATTGAACACAAAATGGTCTTTTAGGACTTACTT
AACCCTTTGCTGTGCTTTGGGCATTTTCTGTTTTCTATTCCACCAATGGACACAGAACTGTACCCCTTTCATACTCTCTAGGGTTTGGGGAGATGGGAGG
GGGAATTACCATGGGAGCCCATCTTCAGCTTAGTCACCTGCCTGTAAACAGACTGCTTCCTTTCATTGCTGCTGCGGTGCTTACCTCTCTAAATCTTCAA
AAATAATACAAGGAAGAAATATAGTTCCTTGGGTGTTGCCTCGTTGGCTTTTGATGTAAAACATAGTGGCCCCAGAGGGTCAAGGTGCAGTGGGGATTGT
CTTCCATGTGTGTTAGCAAAGAGGAGGGGCCAAGGGCTGGGCCTAAGGCCTTGGGGACCTTCCCAGGAGAAGCTTTGCCGGTCTCAGGCTTCTGGTGTCT
TTGCTAAGCTTCTGAAAATGTTGAGGTTTTAATTGTGTAGTGTTTCACTCAGGTTGTATGTCATTAGGATGTTAATGGTGCTTTTTATCAATAACTGCTT
GGAAATCATGATTGTTCTTGCCACATAAGTGAAATTCCTTTTCAAAAAAGTGGGCATTTGCATTTTGTGGCTGACTTTGCATGGGCTACTTACTTTTAAA
TGGGATTCATTTCAGTGAGATTGGTTTTTAAATGGGAATTAGTGCCCGACAAGGATTCATTACCCCTGGGGCCATCTAATCTTTGGACTTGGTGACTGAA
GGTCATGGTTCATCCCAGCATGAGTGGTCCTGACACACCAGAGTCGGGAAAGTGAGTGTGGTTGGATTCTTGATGGGGTACCAGCTGTGGCTAAAAATCC
AGGTGCTTCAGGGTCACAGGTCCCTAATGGGAGATTCCCATGGAGACAAGCAGGGAAGACATTTCACTCTTGGTCCTCTAAGGCAGTTCTAGCTTATCAA
TGATAAAATTGAGGACAGAGGCAGCATGTATAATTGAAATCCACAGGAAATCTCTAAAACTCATTTTTAGCAGGTGGTTTCTGTTTCTTTGCCCATCAAA
TCTATTTACCAGAACTGCTGACCATGTAGCAAAATTTACTGATTTGAATATCATCCCTCCCCACTTTCTCCCAACTTCATGTAATGTTCAGGAGAAGGGA
AGGCATCAGAGGCATGCAGGAGGATGGAGGTGGATCAGAAATGAGTGCTTGGGTTTTTCCACAGTCTGGATAATTGCCTCCTGAATAATCAGAGCTAGAC
TGTTCTTTGCTTGTTCTCTATTACACAATGTAATTTTACATGCTTGAAGTCATCCGGCAGTGTCTATTATCAGTGRTATCTCTAATAAAAGGAAGGAAGT
CAGTTGAGGGATGTCACGTTTTGACCATTGCCTTTAAATTCCTGTGTTCTCCCAGTCAGACCCTGCATGATCTTTGGGATCTTGGAATGGAGCTGTGTTT
ACACACACTCAGCCTAGTCATTTGTGGCTGAATTATTACATTATGAAAGCTTGATGCCTTGATTCCTGCACTGCATGTACGACAGAAAGAATTTTGACAT
AATCATAGCATCGAACTGCAGTTTGGGGTTTTTTTTGTTTTGTTTTGTTTTGTTTTCCTCCTCTGAAGTTAAATCTCTCTAAGGCTTCCTTGTGCTGGCC
TCCTTTGGGTACTTGTCATTTTGTGGATTATATTCTAGACCATTTTTTTCTTTCCATTTTAATGCATAATCRACATCAGGCTGAGTTTTTTTCTCATGAC
TRTAGATGACATGACTATGTTGTATAAATAATTTCTCTTTAATCTGATATTTGTCAGGGGGAAATGGCTTCTCCATTATACTGTGCCAGCCAAGTTTTCT
GTGTTTAGATCTGATGGCATCTGCATGACTTCTGTGTTTATTTTTCTCATTACGACTTCAGAGTTAGCAAGACGATGGCCTCTTTATCTTTTCTCACTGC
CATATTTTCCAGGCACAGTGGGATGTAGCATCCCCCCTCCACTGGCACAGCAAAGCTCTCTGAGTCTAGTAGTAGCACTTCTTAAGAAAGACCAGTGACA
GTGGGGAAGGAAGGAGAGGGCATGGGTAGGGGGCAGTGTAAGATGCTGTGCTGGAAAGCACATCACTGTGTCTAGTGCATGGGGGGAGGTTGACGGTACT
GCCTCCYTCTTTGCAGCCTGACCTCACTGTCTGGGTGGCCCACTGCAGCGGGAGCGGGTGCCTTGTGCCAAACGTTGTGCACACCGACTTCCCTACCTGC
TTCCTCTTTCCATGCTCATTGTTTCTCAGCCAGATCTTTCACATCTTATTTATAAGTCATTTAAAAACCCTCACCTCATTTAAAGTCTCTTTGTACACCA
TCTTAAGGCCTTTCTGGAACAGTCTGAGATATAAGTAAATACACAAATAAGAGCATGGCCTTCCCAGTGAGGCAGACCTGGGCTTAAATCTCAGCTTCAT
CCTCTCGGGTAAGTGGCTTAACCTTTCTGCAGCATAACCTCTTAAGCCATAGAAAGGGGCCCAGGATGCCCTGTGGGATTGCTGTGACCTTTACGTGAGA
TGATGTACGTGGGGAATTCATCAGCCCCTTTTGTCTTATTGAGGCACAGTGCAGTTACTCATCTTGAGCAAGGTCCCCTGAGTCCCAGCCCAATTTTCTA
GAATTTTATTTTACCAAGTTTCAGAGAAACCCCATCTATATTCTGAGGAATTTTAAATACAACACCTTATTCTACCAAATAAAGACTTTACTGGAAAAAT
AAAAAGCATGTGTAGAATATTTATGTAGTGGCTAATGCTCCATTAATGTTAACACCAAAATAGGAAATAGACTTTCCCAATAAAATTAAACCTAATTTCC
ATTTATTTGGAAATATCTACATATACAAGAAGATAGWAAGTTTAATTCAGTAAACACCCATGTACTCACTATTTACTGCTTAAAAAAATAGGTCATACGC
TGAGTGTGGTGCCTCATGCCTGTAATCCCAGCACTTCGGGAGGCCAAGGTGGATGGATTGCCTGAGCTCAGGAATTCAAGACCAGCCTGGGCAACACGGT
GAAACCCCGTCTCTACTAAAATACAAAAAATTAGCAGGGCGTAGAGAATTTTTGTGTTCCCTACTAAAATACAAAAAATTAGCCTGTAATCCCAGCTACT
TGGGAGGCTGAGACAAAAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCACTCCACTGCATTCTAGCCTGGGCAACAGAGCAAGAC
TCCATCTCAAAATAAATAAATAAATAAATAAATAAATAGGTCATTCACAATATAGTTGAAGCCCCGGCACTTCTCTCCCTGAATTCATCGTCCCCTCCAC
CAGCAGGACCACTTGCCTCAATTGGGAGTTTGTCAGCATTTCTTTGTACTGTTATAATATATTCCTAAAGTCTATTCAGTATTGTTTTAAGTATTTGTAA
ACTTCAAGTGGTATCCTAAGGTATGCATCATTCTAAAACTTGCAATTTTTTGTTTTGTTGTTTAACTCAATGTTTGTAAGATTCATACGTTTTAAATGAG
TAACTCTAGTTGTTTCATTTTTACTGTTGTATAATATTCTATTGTATGGCTAGTCCTTGATACATATATCAGTTTCTTCTGGTGATATTAATAGACTATG
GATTCAGTTTTCTAAATTTTTGTTACAAACAATACTGCTCTGAATATTCTTGTAAATGCCTCCTATACACCCTAGAGATACACTCATATAGGAGGCTGAA
TTGTCAGATATATACTTCTTCGTCTTCACTAGATATCCCCAAACTGTTTTTCAAAGTTGCTAAACCAGTTTACATGCCCACCAACAATGTATAAGAGTTT
CTGAGGGGCCACTTTCTTGCCTATGCTAGATAATGTTTGACTCTTAATTCTGCCATTCTGTTGATAAAAATAGTTGGATGTAGGATAGTATCTCATTGTA
ATTTAAAATTTTTATCTTCCTGATTACTAATGATGATGAGCATCTCTTCATACTTATATTTCCTCTCCTGTAAATTTCTTTTTCAAATCATTTCCCCGGC
TTTGTTTTTGGCTGTCTTCTTACTGATGTTTAAAAAAATTTTGTTTTATGTTCTGGTTACTAGTATTTTTGGGTTTTTATGTTTTAGATTTCATCTCTCC
AGCTCTGGGCCTTTTTCTCTTTTATTACAGTGCTCTTTGCTTTTTTTTGTTTTGTTTTTGGTGAATAGAAGCTATAATTTTAAAGTCAAAGTGATTAATC
TTTTATTTCATGGTTGTATATTTTGATGAGTAGACATTTGTATGTTTATGTGATAAAACATCATGCTGCCAAATTAATGTACTATTCTAAATAGTAGGGC
ATAAAACATAAAAGTAATGAAATATGTCACTGGCTGTGAGTATCTTGTAACCATGAGTAATCGTCCATCTATATTATATAACAGAAAAACTATGAAAGAG
ATTTTTGATTGATTTTGATTGTAACGTAGGGATATTGTTTGGGGGGGATAATTCACCAAATATAAAAGACTTTATCTTCCTCATGCCAACATTATAATCT
TGTGTTTTTCRTGGAGCTATCTGGAAAAAACCAGTGGAGGTATCTGGAAATGAACACAGATAGCTGTCAATGTCTGGGTCCAGGCATGATAGCTGAGTCT
TGGGTGGGTGTTGTTACCTTCCACGAGGTAAGTGTTCCACCGGTGTTTGTTGAGTAAATGGATATGTAATAGAGTCTGCAGGAGGGGCCATTAAAGAAGC
AGGAATTGAAGTTAGCAACAGACAAGTCTGCTCAAAAGAATAGACTAGTGGTTCTCAACCCTGGCTAAACCCAAGGAGATAAAAAGTTGAAGACACTTGG
GCCCCATTCTTAGAGATTTTAGAGATTCCAGTTATCTTGGTGTCAAATAGGACCCAGGCATTGATATATTTTTAAAGTTCCCCAGGTACTTCTAATATGA
AGCCCAGGTTGAGAACTTCTAGACCAGAGGATTGGAAGCAGGAAGGAGAAGGGAAGCTCATGGGCTGCCCAGTGAGCTCTTGGGCCCTGAAAGGTCCAGG
GTRTCAGAGTTGCCAGGAGGTGCTGGAGGGCAGCCAGACCACAGCCAGGTAAGGCTGGAGGCTGGAGTGAGGGCAGCGCCAGCCAGCAGGGCCCACAACT
GAGAGGGGACAGAAGGAAGAGAGTGTTCTGGGTGTGCTAAGCACAGTTGGCAGGGGAGAGAGGGTGGGATGGGACAGAGTTTCCCAGCATAGAGCAGGGA
GGCCCAGCCTCACAGTGGGATCACCTAGAGGCTGCAGGGCCAGTCCCTTTCTGACTGGAAGCCAGAGGACAGACAGGGGCCCATTAAAAAGGCAAAAGGC
AGACACAACCTTTGTTTACCCAGAGCTCAGACGAATAAAGAACTAAGTTTGGCCTGAGAATGGAGGGTGGACAGGGCACATATTGAGATCATTAAATGCT
ATTTTTAAATCAGAGCCAACAGGGCAGCAGACAGAGTTGATGAAGAGCATTTAAAAGTGCCTATTTCTGTGCCCACAGCTGGTGTCTTTTCAGTGTGAAA
TGATCTTCACCGTGGACCCGTCACAAAGTGCAAGTCAAGCTTGCCTTAAGCTGTGTGTGTGCGAACACTCAGTACTGTAGATGGTGGGAAGGAAGGGATT
CTAAAGGAGAAGTCATTGAAGTGGGGAAGATTCAGACTCTGAGTTTTGGAACTCAGACATTCCACCCCCACCTGGACACACACGCACATGCACACGCATG
CATACCCTTTTTCTTCTTGGTGCTGGGCCAGCCCTGTTAACAGACTACCAGGCACAAGCAGGGATCGCCAGGCACTGCATCATCTGTTTTGCAGAGTCTG
AATGGAGTCCAGAAGCCATACCAGAAAGATGAGTGCTGCAGAATTAATGCTTCCAATTTTGGAGCATAATGGAAGAGCAGTGCACTGGGAGTTAGGAAGA
ATGAAGTCTCAATCTTCACTCTGTTACTTAAAAGCTGTCTGTTCTTTTCAGTTTAATTCAATTCCACAAAGCATTTACTGAGCATCTTGTAGATGCTGGG
GATAAAATTGTGAAAAAGACAGAGACTATGTCCTCAAGAAACTCACAGTCTTGCCAAGGAGTGAGATATTTAAATGAGTAACAAAATCAGTGCTATGAAT
ACAGGAGTACTGAGGAGAGAAATCACTGGTTCTTCTTTGGGTGAAGTTGGACTTGAACCATTGTCAGAGGGCAAGGGCGTTGGAGCAGGCCCTTGAAGGA
TGCRTTAGCTGCTGAGGCAGGAAAGGGCTTTCCAGGTCARCTGCTTTCCTTCCTGAATCCTTAGCTTCCCTCTTGTCTGAGGAAGGCTCTAAAACTCGAT
GCCAAGTTACTTAACAAAATTCCTGAAGCTGAAACTATTAAGAGCTGCAGCAATCACCTCTAGAGAATGTGGTGGCGTGACAGGTGAATTAACCAACCTG
AACTACCTTGATTTCTCTCGTGAGTTTGCCTCTTCCATCTGCCTACCCTGCACCAGCTGGGTTGTATCGTGGAGTTYCCTTTCTATTGAAGTGAAGCCAA
GCTGAGTTTTTTTCTTGATCATTGCAGTGTATTTTCCCACTTGCTTTCATTGCTGTAGTTCCTACTCATAGTGGTGTTTTTGTTTAGTTTTTGCTAAATC
TCTGTTCTTGGTTGTTCAGAAAGTGGGCAAGCCAATGTTTGATTTTCCCAAGTCACAGATCTTATTACGTTAATCCTTTGCTCAAACACCTGCAATGTGA
TTGGTGCTTAGAGATTAAAAAAGAGAGCTCCTTCCTGTGTCCTCTGAGGATCTGACCCCAGCCTTCCCAGTCGACCCTTTCTCACACTGCAATCCAGCTC
TCTGGACACTTGTTTTCTCCCCACCAGCACCTTCGCTTTCCTGCCTCCATGCCTGTGCCTGTGCTGTTCCCTATGCCTAGAATCTCCTTCCCCAACCCAG
TATCTTCGTCCCCCTATTCTTCACCACCTGCCTGCCTTCATGAAGCCTTCCTTGATCTCCCCACCTCCCAAACCAGAAGTATTACCTCCTCTTTCTCAAC
TTCAAAGTGGGAGAGAAAATGTCTCTCAACCAGAATTCTATATTCAGCCAAACTTCAAGCAAAAGTGAGTGATAGACGTTTACAGATCAACAAAGACTGA
GTGACTTTGCCATAGACCTTCTCTGAATGAAATGATGTATTCCTAATTTTGCAGTCATGGACCCATGTTGCCAGCTTGAGATCAACAATGGTATTTATAC
CACGGAAGTCAACAAATGCTACAAAATAGTACTTGTGTTTTTTTTTTCATGTGAAAGTGGATTGGTGACCCTGCTTCCATGTATATATGTGTGTATGTTA
CCATTCACACATGTACACACAAATATTTGACACACTACGAATGTTATACAGCACAGTTAAAACTACGCTGTAGTTCAGCAGTCCTTCCTCATTAGGCTAC
TGTGGAAACACATGTGGCTAGGAAGTGTGTCTCTCTTCACACTCTGGTCCCACCCTCCCCTCTTCTCAGGTGTTGGAATTATGTTACCTATGCCCCCACC
CCTGCATTTGTTTCTCTGACCCTGGCAAACTTGGCCACTTCCTGGAATCAGAGCTAATACACTAATTGAAGAGTCTGTGCATCTGCAGTTGCTCAAAGTT
CATTCTTTGAAGTAGAGAATCTTGGCCTGGCTACACAGATGTCAGTAAATTATCTCCTGTTTCTGTTCATAGTTGCTGTTTTATAAATTGGTGAAATGCA
GGCAGTTAGACGCCTGTGTCAGAAGCAGAACTCTGCAAACTGCCGTCTGTGAATACACCTGCTACAGGTTTTTTCCTGCTGGTCACTACCTAGTGCCAGC
CCTCAGAGTCAGCAAGAACAAGTTCCAGTGTTCTTTTGGGACAGTTGACCTCTTTTGGACACAGAAGCCAAGGCCAGATGACTTGGAGCACAGACCAAGA
AGGAAAAGGCAGGCCAAGAGACACAAAGCAAAGTGTGGGTCAGGACTAGAGGAGCTGGTRAACTGAGGCACCCACGCCGGTAGTGCAGGTAGAGTGACAA
CACGTGGGAGGGAGCACAGTGAAGTGAGGCTGGGAGGAGAGAGGCAAAGGATGCAAAGGATGGTAGAGATACGAGAGGCAGGGGTTTGGAGAATGTCCCT
TAGCAGCAACTTTACAGCCCCACTTCCGGGCTCTGCTGTCCTCCCACGAGCTCACAGCATGCCTTCCTGCTGGGTAGGTCAGACAGGAGTTAGAATACTG
GATGGCAGGCAGAGAACTGTTGTGGCTATGAGAGAAAGTYGTAGGGTCTTTCCTGCCTTTAGGAAGAAAAATGATATATCTTCTAGCTTGAAAGTTGCTT
TTAAAACTCCATGCTGTGACACAGTGGCCATTGCCTGTCTGCCCCTAGGATTACAGGTGTGAATGCGCCTGGCACAATGCCTGGGTCAGAGGGACTTAAG
GAATGTTCACAGTCATCAGATATTCTCCTGGTAGAGTCAAAAGTCGCCTGCCCTTCCCCGCCAGCCCACCATGTAAGGTTAGCTGTATCAACACTTCATG
CACATATTGATTATTTGGAAAAGTATACAGGCAACTGGGCACAATGGCTCATGCCTGTAATCCCAGCACTTTAGGAGGCCGAGGCGGGCAGATCACCCGA
GGTCAGGAGTTTGAAACCACCCTGGCCAACATGGCGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGTAAGTGGTGGTGGGTGCCTGTAATCCCA
GCCACTTGGGAGGCTGAGGCAGGAAAATCACTTGAACCCAGGAGATGGAGGTTGTAGTGAGCCAAGAAGGCACCACTGCACTCCAGCCTGGGCGACAGAG
TGAAACTCTGTCAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGGAAGGAAGGGAGGGAGGGAGGGGAGGGAGGGGTGGGGAGGGGAAGGAGAGGAAAGA
GAGAGAAAGAAAGAGAGAAAGAAAAGTATACAGGCAAGGTATTGGTTAGGGGTGAATTATTATTTTTTGGACAGCCTGTGCCCTTCTTGCAGGAATCCTT
CCCTATCTCTTGGCCTTCCAATGCGAGTCACTTTTTATTTTATTCCTTTTAAGCTTCTATTTATGATTTCATTCATTGCTTTATTTTCTGCCACTGAGTG
ACTCTTTTAGGAGCCTAATTTTGCTGGAGAAATCATTCACAGGTGGTCTTGTTGGAGGGGGCTTTTGTGTGTGGTGGAGGCAGTGAACTCGAGAGATCAC
AGGGCAAGCGAAAAGGTACCCTGGCTTATCAAATTTATCTTAGTATATACTAAATTGGTTTCACTTTTTTTTTTTCAGAGTCTCACTCTGCTGCCCAGGC
TGAAGTGTAGTGGTGTGATCTTGGCTCACTGCAGCCTCCACCTCCCGAGTTCAAGCCATTCTCCTGCCTCAGCCTCCCAAGTATCTGGGATTACAGGCAC
CCAACACCATGCCTGGCTAATTTTTGTATTTTGAGTAGAAATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCCACCT
GCCTCGGCCTCCGAAAATGCTGGGATTACAGGCATGAGCCACCATGCCCAACTGGTTTCCCTTTTTAATCATTAACCTTTTTTTTTTTTTTTTTTTTTTT
TGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGCGCAATGGCACGGTTTCGGCTTACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCT
CAGCCTCCCAAGCAGCTGGGATTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCTAGGCTG
GTTTTGAACTCCTGACTTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGAGAGCCACCGCATCTGGCCCAATCATTAACTTTT
TAATCAGCGTTCTGGCAGTTGCACTGCTTTGGAAAGAGGGTGTCTATTTCAATAACAAAAACTGGCTTGGGAGTGGAGCTGGGTGAAGGGCTGGCAGCCC
AGTGACGCAGCAGGTTCTGGTGCTGGTCCTCTCCCAGTAGAGTTGCTCTTGGGGCTGTGCCCCTAGGCTACTGGTGTCAGCACCCACACCTTGCAGGATA
CTGACTTACTTAGACAAAAGAAGAGTAAGAGAAGTCCACACTCAACATGAGCCTGTCACTTTGACCTGAACACAGCAGTGAAACACTGAAGGAACTTGTT
CACAGGCTCAGGGACTCAAAGCCTCCAGTTGGTTTTCATTGTGCCAGGCCTGCTGAGTGGACCCATGGTTGAGGAGGCTGCCTCCCCAAGAGGAGCAGAA
CAGGCATCCTTGCCCTCCTGAGAACCCCCCACAGAGGGCCAGGAACCTCAGATGAGCAGTCATTAGAGGGCTCTTTGAGTTTTCTGCTGGCTGGTTTRGT
GAGAGGCCCAAGCGCCCTGCATGAGTTCTTTACACTGCTGTGTTGGGGTGGGGTRGGAGAATCAGGCCTACAGAGGAGAAGAAGACTGGTGCTTTGGAGA
GTGTTCATAGCACCAGCACTAAGAGTTAAGCTTGGGGAAAGGAGAAGAAAGGAGAAAGGGAAATTATTATGGTCTTGCAAAGTATAATGTAAAGAAAGTT
TGCTTTTCTTGTTTGTTTTTTGTAACTGAAAAGGCTCCCATGGCCCTTGGGTCACTGCAAGTGTCTCTGGTTGTGTAAATGCTGCTGCGTGCTGAAGGCG
CTCCTTCAGACTGACAAGGGGCCAGTACAGAGTGTGGAATGCAGGATAAGCTTCCAATAGTGACAAATGACYACAGTCTCTTAGAGAAAAACAAAATTGG
ATCCATGGAGGTGAGGTCAAGACCGTCAACCAAATTAGTCTAGAGAATAGTCACTTTTAGAAATCTCAGTAAAGTAATTAAAAATAAAGACAAATATTTG
CTTTATGCTTGCTACCATCTAACTGCTTGCCAAAGGCAGCCAGATGGTGTTGGCCAGTGAACACTGAAGAGCCCTATGCTCACTCCTGGAGTTGTGGGGC
AGAGACAAGCCTCTCGTGGTCATCATGGTGTGGTGTTGCTCAGTTTATTTGTGGAACTACAACTAAGATGAATAATTTATCCATGGTAAATGTGAGTAAG
ACTAAGCTGTTTGACCCTCATAGTAAAACATGAAGATAAGAAAAACAAGATCTAAATATAGGAAAGGCTCTTAAACCATACATGTGATTTAGCCTCAAGA
TTTGAGAGAAATGTTTATTCTCTTTTGAAATTTCAGAATAATAATGGCCTCAGCATGATGCCCAGCACATAGTAGGTGCTCAATAAATAATTATTGAATT
GAATTCTTTTCTTCCATAAAATAGTACATGCTTATTATAAAAATCCAGACACTTCTAGTAAAAATGACTCAAAGTCCAACCACTTAGCATTTGGGGATGT
ATCCTTAAAGACATTTCCAATGCATATAAATGGATACTTTTTTTTTAATACAAAAACAGGACTGTGCTATACATATACATCATGCTTGGTAACCCATCTC
CAGTTCAGTAAGCTGGATTCTTCAATTTAGTGCACACGGTGGCATAATGCAATGCGTTGCGTAAGGAAGGATGTATCCATTTGTGTAGTTTAAGACTTGA
CGCTTCTCTTGTGCTGTCCTTTATTTAGCAGGTGTCTTCTGCGGAGGTGCGCATCGGGCCCATGAGACTGACGCAGGACCCTATTCAGGTACGCCTCCTT
TACTCAGCCCTGTGACTCAGATTATTTTCTTTTTTTTTTCTTTTTTTTTTTTTTTTGAGATGGAGCCTCCTTCTGTTGCCCAGGCTGGAGTGTAGAGGCT
CAGTCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCCACCTCAGCTACCCAAGTAGCTGGGATTACAGGTGTGCGCCACCATGCCTG
GCTAATTTTTGTATTTTTAATAGTGATGGGGTTTCACCATGTTGGCCAGACTGGTCTCAAACTCCTGACCTCAGGTGACCTGCCTGCCTCGGCCTCCCAG
AGTGCTGGGATTACAGGCGTGAACCACTGTGCCCGGCCTGGCTCAAATTGTTTTCTTGAAGACCTAAACATTTCCCCATTTTGAGTATAAATATGATGGA
CAGATTGCATGGTGGATTGTGAGAAAGAACAGCTCTTCCACCCCAAAACTAGTCTGCTCCACATCCTACTGTAGCCAGAAAGGGAAGAAGCAATGAAATG
GTGAAGGGCTGGGCTTTGCCATGAGTCACAACTGGGTGGGAATCTTGGCTCTGCCTTTAATCAGCTGTGTGACCTTGCATATATTGCTTCACTCCTCTGA
CCCAGTGTCCTGTCTGCAAAATGGAGATGATTATGCCTCGGGAAATTGTAAGTTAAATGAGATAGCATAGGATGCCTAGAACTTTCTCTGGCAGTTACCA
TTAATGATAGCAGTTGCTGTTGTGTGGGAATAGAAGATGATAAAATGCTCCCCTACATCTTCTATGTGACTTAAGCCAAGCAGCCTACTGGGCTCTGTAA
CACAGCAGGAACTTGTGTCCAAGGATACAAGGCCCAACCACCTGTAGGACTGACTTCACTCTAATAATGGCAGCAACTATGTCCTCCTTGCAGCCCTTCC
AGGTTCCYGTGCCCCCTTAAGAGAAACATGTATGAAGAGGGAGTTTGTACCCTTTTAAATAATTTCTAAATCCTTATCTGCATATAAGCCATCCTGTTAG
GCCTAAATAAGTTAACTTCTTCCTTGTAAAAACTGTAGCTTATTAGCACCTGGAATCTTGCCCTGTACTTGGGACAAGTAAAGATGCAGAAAAGATGTAA
ACAAGTCAACCAACATATAGATGAAAGTGAAAAACCAAGCAAGGAAATGTGCTATTTGATTTATGAGCAAATGGAAAAAGAAAATAGTGTTTTATAGTTG
CTTGGAAAAAGAAATGCAAATCTAGGAARGGAAAAAAAAAAAGGAAGAGATTAGCTTGGGAAAATTTGATGAAAACAAATTTAGGAACAGAGAGAGAGAG
AAAAATAAACACCAGCCACAACTATTTGTATAGAATACAAACAAATGGAAAATTTCAGTAATCATTCTGAGCCATGCCCTTTGTACTCCAATTTTGAATA
AAGGCAATAACAAATAAAGGCATTGATATCAAGGACTTATTCCCAAAGCAATTTCCAGAATACTTTTTGGGATTAGTGTGGTTTTAGATCAATTTCATTT
ACCTTCATTTTTGTCCTATGCTACACTGGCAATTAATGCTCATAAGGATGTCTCATTCTTTTAAAAATGTAAGTTGTCAAATGTTAAAATATTTCAAATA
TTCATAAAGGTGCATGTGTGTACCAACACCCACTTCTATCAAATATTAATGATATGTCTTATTTGTTTCAGAGTTTTCTCAGAAACAAAAGATTGTGGAT
ACTGTTTAAGCCCTTTATTTATCCCTTTGCTACCCCTTTCTTTCCTCTCTGAAAGCAACCACTATGATACATATTTGTATACTCACTCTTCGTATGTATG
TGTCCATTCATAATATGTACACTTGTTTTGAATACTTTTTAGCTCTCTTTGAAAGGTGTTGTGCTATACACATCGTTCTTCATTCATCAGTTGGTGTCAT
ATCTAAGAATTCATTGCCTAATCTAAGGTTGTAAACATTTACTTCTTTGTTTTCTTCTAAGAGTTTTATAGTTTTAGATCTTACATTTAGCTCTATGATC
CATTTTGGGTTAATTTTTGTTTATGGTGTGAGGTAGGGGCTTTATTTTTATCTAGTTGTCTTAGCAGCATTTGTTAAAAAATACTCTTCTCCATTGAATT
GTCTTGGCATCTTTGTCGAAAATCAGTCATAAATGTGAGGATTTACTTTTGGACTCTCAGTTCTATTCCATTGATTTATATGTCTGTCCTTATCCAGTAC
CACACTGTCTCGATTAGTGTAATTTTGTAGTAAGTTTTGAAGTTGTGAAGTGTAAGTCCTCCAACTTAGTCTCATTTTTCAAGATTATTTTGGCTTTCTG
TGTCCCTTGCATCTTTGTATGAATTTTAGGACCATTTTGTCAATTTCTGTGGGGGCTTCGGGGAGCTAGCTGGGATTTTGATAGGGATTGCAATGAATCT
ATAGACCAATTTCAGGAGTATTACTATGTTAACAATTTTGTTTTCCAGTCTATGACCATGAAATATCTTTCTATTTTGCAGGATCTTGTATCCTGCAAGC
TTGCTGAACTCATGTATTAGTTTTTTGTGAATATAGAAATTCCTATAATCCTAAGCATTATGTATTATAGGATTAAATTCCTTAGGATTTTCTATGTACA
AGATCATGGCCCAGTCTAGATGCTTTTTTTTCTTCTCTTGCCGAATTGCCCTAGCTAAAACCTCCAGAACAATGGTGTGTTTAGCTTTTTAAGATACTTC
TAGACCTTTCCTCAAAGTACAATTTTACACTCTTACCAGCAATATGAGATTTCTGGTTACTCTAAATCCTTGATAATATTTGATGTTGTGAGTCTTTTAA
ATTTTAGCTATTCTGGTGGATGAGTAGTATTATCATGATTTAAATTTGCATTTCTCCATGACTAATGATGAGCACTTTTTTATTTGTTTATTGGCCATTC
CTCTATTTTCTTTTGTGAAGCGTTTGGTCAAGTCTTCTCCTCATTTTTTAATTGGGTTAATTTTTAAAAGTTATTGAGTTGTATGAGTTCTTTATATATT
CTTGTTATGACTCCTTTGTCAGATTCTGAGAACATTTTCTCTCAATCCGTGGCTCTTTTATTCATTTTCATAACTCTGGCTTTTGAACAATAATTTTTCA
TTTTGAAGAAATCTTTCACTTTTTAAAAATGGTTATTGCTTTCTGTGCTTTAAAAATCTTTACTCCCAGGTCAAGAAGATAATTTGTTGTTTTCTTCTAG
AGACTTTATTGTTTTAACTTTTAATTTTAGATCTGTAATCTACCTCAAGTTAGTTTTTGTGTGCAGTGTGATATGGGTGTCAAGGCTGATCCCCCCACCC
CACCATATTAATGTCTGATTGTTTCCAGCTCCACTTATTACAAAGACTATTCTTCCCCATTGAATTGCTTTGAKGCCTTTGCTACTGATTTTTTTTATAT
TTGTTGCAGCTTGTTTGGTGGCCAGGTATGTAGTCAGTTTTTAGATTAATACTCCACAAAAAGTGATAAAAAGATGTATTCTCTATTTGTTGGACAGAGG
GTCCTATTTACATGAATTACTTCAATTTCATTAATCGTGCTATTCAAACCATCTCTATTAATTTTTGACTTAAATTTTGTGACTATGTGATCTATCAGTT
TCTAATTACAGTGGATTTGTTGAAATCATCAATATGTGTTAATACTTGCTGGTATTTTGAGTCTGTGTTGTTAGGTGTATCCAAGTTCTTGATTATTGTA
TATTCTTGATGACTGTCCCTTTTATCATTACGTAGTGTCCTACTTTAACCTTTTCCCTTATATTCTGTTTTATTTGTTGGTAATATTGCCAGGCCAGCTG
CCTTTCTTTAACATTTTCCTAGTTATCTTTTTCTGTTTTTTTCTTTCAGAAACAAAAGATTGCAGATACTTTATAACTTTATTTTGAGTAGCCTCTTTTA
AGCAGCATATTGGGGTTTTTTTTTCAATAAAAATATGGGAAATAAAATCTGTTTCTATAATCTTTGTCTTTTAATAGGTGAGTTAAATCTGATTACATTG
AGTGTGAATACTGATATAGTTTTATTTTGTATTTTCTATTTATTAATCTTTTCCTTTTTTATTGTTTCTTGTTTCTGCTTATTATCAAGTTGGGAATGTT
TTTGAAGTTACATTTTCTTTTCTCTAATATAGGTATACTTCTRTTCTTTTAGTGGTTACCCTGAAATTATTATTACTATTATTATTGAGACAAAGTCTTG
TTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAACTCTGCCTCCTGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGTACC
TGGGACTACAGGTGCATGCCACCCAGCCTGGCTAATTTTTGTATTTTCAGTAGAGATGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTTCTGACC
TCGTGATTTGCCTACCTTGGCCTCCCAAAGTGCTGGGATTACAGGGGTGAGCCACCGTGCCCGGCCTGAAATTATTTTTAATATGCTTGCTTAGCAGTCA
AATTTTATAACAAAATCTCACCATACTATCTTTCTGTCTTCTCAAACATGATACAGTCCTTTGCAGAATTTAAGTACCTCCTGACAGCCCCACTCTCCCA
CAACTGAAAAACACTTGTCTATAAATTTGAATGTATTATATGTGGCATATTAAAACATACAAAAATATTTTTGATATGTGCTCATAACCTATGAAACATA
ATAACAAATTGAATATCATAAACTCATAAGCCTGCCACCCAGTGCAAGACCTGGAACATTACCAGTGCTACGGTATACCCCATTGATTTCCCTCATGTGA
GTTTGGCTCCAAATAACAGCAGATGCAAGTGGTAAAGAGTACCTCTTTGAGTGAAGGACACAATAATTAAGGGTTTCTTTTAAAAAAGATAATAAGCTCA
ACTTAGAACCAAGGATGGCTTCACATGGTCTCATTCAAACATAGAGTTTGACTCAATGATTCATGCAATAAGAATCTACTGAGTACCTCCTATGTTCAGG
GCTCTATGCTAAGTGTTGCARGGGAGAGAGAGAAGGCACCATGTTCCCTGACCACAGAGAGAGGTCTGGAAGGTCAGTTTTATTGTCTATAACACACTAA
CTTTCAGTGTATTGACATCTAGTGTTTTTATGCTTCTTCTACTAACATTGCAATTGACTTAGAAAAATGAAGCTATGTCCTAATGTTTTTATTTTACTTT
TTTTTCTCCTTGAAGAAAACTATTCTGTTGCTTCACTGCAATGCCAAAAATATTAATTAGCTACATCAGCCAGAGCCCTTAGGGCTTGGGAGGAAATGGC
TTGATAAGAATATTTCAGGATAGAGTTGCTTTTGAGGGTGCATTTCTGAGCTCATCAGGGGAAATTTACTCCCATGTCAGGAAATGTACTCCCATAGGGC
TCCACACACCCCACACAGAGCTGGCAGGAGCACAGTTAGGAGTGGAATGGATTGGAAGTGCAGAGTGGTGCTGTGGAGCACGTCTCTCCTGGGTGAGTTG
ATGTGACCCACAGGGAAAGTCATRTTTTCCAATCTTGGCTAGAAAATAAAAAGCAGAGGAAGTGTTATGAGGCAGAGATTCAAATCAACATGATACTGTC
TGAAAAATCAARTGGCCTTTTCTTCATCCATACCTGGAACACGTTTACTTCCCCAGTGTGCAGAATGTATGTGTTTCTGCTTAGAGAGTCCCRTCCCCRT
TCCCGTCATGCTGGGCTTTCCAACTGGACATGGAAATGGATCCCCACAGCTGTGACCTAAGCTTTTTCTTAGCAAGGTCACACATCTCCTTTCAAAGCCT
GGCCAAGATGGTGAAACCCCGTCTTTACTAAAAATACAAAAATTAGTCGGGTGTGGTGGCGGGCATCTGTAATCCCAGCTACTCTGGAGSCTGAGGCAGA
GAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCACCATTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCTCAAAAAAAAAA
AAAAAAAAAAAAAACACAACAACAACAACAAAAACCACCTTATTCTTCCATGTTGTAGGGCATGGGTTTTCTGGAACCATTATATTTTGGGGATTTTATA
TAGTGGAGATCACATGGCCTCATAGGGAGCTGACCTTCACACATTAAGTGAAATGACTGAGGGATGGAGATGTTCAGACTCAGTAACTTGCTGTGGTCAG
CATTTCTTTTGCTGTCTGTCCTTACTGCTGCTACCAGGTTGTGTCTTCTACCTCGTCCAGCCAGTTTCAAAGAACCATAGAGTTGTTAAGAATTTTCATC
TAATATTATAGGTAAAAATATTTATGGTGCTGAGAGATAGTAAGTTACTTAACATAGTGATTACAAAGGCCCTGGGGTCAGGCCAGCCTCGGTTCACATC
TTGCTGGCAGTGCAGCTATGGACAAGTTTTTTAACCATCTAAGCCTCAGTTTCCATGTCTATAAAATAGGGATAATGCCCAACTCCAAAGAGTTTCTCTA
AYGGGTTATTGAGTGAGACAGTATGTTTCTAGTGCATTCAGTATAGTGGCTGSCCCTTARAAAAYTCCCATTAAACTATAGCTGTAATCAGCATCACTTT
CCTAGGGACATTTAAGGAAAGTTCTCAGACCATTTTTTTTCAGCTCAAATGACCACTCCCCTGATCAAATTGGCCACTTGTTTAGTATTATGCAGACASA
GCTTATGTGATCTATATATGTGGTCTGCTTTAGAAGCTCCATTACCAGGTGTTTGCTTAAAGCCAAACCAAATATTCCAAAAACTGGATGTTTAATGGTA
GACATTGACAATCCATTTGAAGACACATAGATACACCCTCATTTAGAAATAACGCTAGTAATAATGAACACCTATATTGCCTTATTCAAGATGAGGAAAA
GTTAGTTTTTGTTTTCATCTTTTTTTATAATTAGCCATCACCAGATAAAGTAGTTTCATTCTAATTTAGCTGTCAAAGACAGATTATTGCTRTCCTCAAA
AAGATATGTTTCAGCTTTCTTTGAGGTCTTTGTAGTTACCTTTGAAAAGCAGGTATCTCTTGCTTTGTACAGGTCCAATGTGCACAGATTTCATGGTTTA
CTTAGATAACACCAGACCCCCAACAACATGTTTCAAATTGCGGTTACATCAGTGTTTTAACTGTGAATAAATGCATAAAGCATAAACTTTGCAGCTGGCT
CTTCAGTCCACAAATCACTATGTAAATAACAAATGTGCAGCATCATCAGTAACTTATCGCTTTTTTTAACCATAACTTTTTTTAGCCAAAGACTGGTTGG
TTTCTGCCTATCTGTTATTCAGCCTAAGTACAGACAGCAAAGCATGTAGTTGTGTTGCCTCCTATCTCTCCGTGATAAACCCAAATGACATTATGCAAAA
ATAGATCATTGAAAGAGGGAATGAGCTAACAAAGATGAAAGTGCAATGAAGAGATGCAAAATGATAATGCTGTGAGTGAAATTTGAATTGAATGTAAATG
GACTTAGAGGAGAAATAGTTGACTGTGGAATGCCGACACTGCTGTCTTTGAGAGATTCTAGACATGTAGCTGGTAGAAGTTAGTGAATGCAAGTTCATCA
ACATAAATGAGGACAGCGGTGTGGCAAAAAGGATGAAGATGTCATAGAGGAAGTGAAGCCAGCAAAAAACTTCACATTAATGAAAGGAGCTCTGGGGATA
TTGCATGATACTGAAAGCACAGAGGATAAAATGTCAGCAGCTGATCCAAAGTTAGGAGTATGACAATTTGCCAAGGCATAGGAAAGATGCTCACTTCGTA
TCRTAACTTATACAACTAGAAGAAGGTGGCAAGCACTGTCCAAACTACTCTTGATAAATTTTTTTAAATAMATAAAACATCTTAATTTTCAATGTTTCTA
ATATTTTAAGTTACAGTATATTAAATAAATTTTAGCTTTATATTTTTTCATTTCCCTATATATTTATAACCAAGAATAAGAAAATTTTCAGTATGTTGAC
ACAAATTTTTAAAGGTCACAAAACAATCATAATTTTTACCATTATTTATTAAGATAGCTTTACATGGTCATTTTTTCATTTTTATTTTTATAGAATATAA
AAATGCAGATTTCTTGCATGCATATATTGTGTACTGGCTTTCAGTGTACCCATCACCYGAAAAGTGAAAAATGTACCCACTACGTAAGTTTTCAACCCTC
GTGCATGGTCATTATTACAGTCTGATTCTACTATGCAAAGTGAGGATTGCCGATAGCTATGTTCTGACTACGGACAGAACACAAGTTGGCTGAGCTCTGC
TCCAGAAAGAGGTTTCCTCGTTGTTCCAGGCTTCAGCCCAGATCAGTTCTGCATCTTCTCCTCTTTTGCTGTGTTTACAAGGGTACAGTGAGATCGATGT
GACAAAACTACTTCCTTCTGCTTGTTCTCCTGTGCTTGGATTCTTGTCCATGCTTTGTTTATCTGTGGTCACCACTTATTGGTGCATTTATTATAATTAT
CTGCTTCCTTGACTGGAGCCCAGGGGAAGAGACTGGCCTATGGCTATTTCTGTCATCTTTTTATTCCCAGTTCTTAACATCTTGCATAACAAGTCATCGA
TAAATATTCTTTGAACGAATGTTGAGGATATTATTTTGAGCAAGCACAAGGTCAGTTAGCTGTTACTCTTTACAGATCAAGTTCAGTTATAACACCATTA
GTAATGATTTTTCAAAAATATATTTTGCAGAATCATTTATATGAGTTAATCATTTATTGACCTCAGTTAATAGTCAATAAATCTTAAAAAATGGCCATGT
CAAAGAAATCAGAAATACTGATACACAGAATATTAAAGCTGAAGAGGGAATGCATTACTTAAGTTTTGTTTTGTTTTTATTTTTTRGTTGCAAGTAATAA
CTGCCTTATACCAAAAAAGTACATAAGTAAATAAGAAATGTATTAGAAGGATAGTGCAATTTTTTTTTTCAGACTCCAAGAAAGAGTTGAAAAGGGTGGG
TGGCTTGCGAAGGGTGTCCATGGGCCATCTCTGAGCCGTTTGACATCAGCAGTTTAACATTCTTCCATCAGTATCTCTATTTTTTTTTTTTTTTTTTTTT
TTTGAGATGGAGTTTCTCTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCAGCTCACTGCAACATCTCTGCCTCTCGGGTTCAAGCAATTCTCCT
GCTTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACCACGCCTGGCTAATTTTGTATTTTTGGTAGAGACAGGGTTTCTCCATGTTGGTCAGGC
TGGTCTCAAACTCCCGACCTCAGGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAAGCGTAAGCCACCATGCCCAGCCAATATCTCTATTC
TTAATGGGCCACAGGTCCCAGTTCCTAGCCTTTATGTCTCTCTGTTCAAATTCCAAATTCCCAGAAACAGAATATCATTAGCCTAGCTATAGCCTGGGAG
ATGGGAACAAAGAGTCCAATWTGGGCTACTTGGATCTACTTCTTTCCTGGAGAAGGTATTATTTTTAAGAGCTAGGCAGATATTTTTAAAAGGTGATTAC
TATAGTGTTTTACTCTGAAGTATATATTCTTTATTCCCATAAATTTTCACTTTGCTTAGGAATTGAATAATTGAAAAGCAGTCTTTCTAAATTTTTTATA
AATAGGAAAAAATTTAAATATTAGCCAAAGAAATTCTCTCCTGAGTGCCTTACCATACCTAAATAATAAGATCTGTTGGCCTTGCAACAGATACAGATTT
TATTATTCAGGTATGGTAAGGCCAACAGATCTAGGAACAATTGGCATTGAAAAAATCATTACAGTTCCCAGAGCAGGAGGCACAGCATGCCACCCAGGGC
CACACTGGGAAGCACCGCAGTCAGTCAGGAGGCACAGGGAGCGGGAGGAGATCCCGGGCAAGAGCCTCCACTGTGGTTTCCATGGGAAGGCTTGGGTGAG
GCAGGGTGAGCAGGGTTAGGCTAGGCTAGTCGGATTAATTTCAGAAAGGTCTGGKACATATTGGTGGTTCTAGTTGTCTGGTACCTGGCCCTAGGGTGAT
TAGGGTTGGGGAATTGTGGCCTGGAGTGTAAGAGCCAAAGGTGGTGGTGGTTGGGGAATGGGCTCTGGATTGGTTGATTTGCATATGAAGGGCATGCTCA
CAGGAGAATTGTGTGCTATCTCTAGGAATTAGCAACCCTGAGAAGGGCAGTCCTTCCAGGGTCAGCAAAGCCCCAGAAGTCAAAGCATCAGAAACACAGA
AAATAAAAATATACAATTAATACAGCTGTCCACCTTCAATCAGTTTTGTGAGTTTCCATGTGAAATCCAGTTTTGTAACACCTTCAAATGTCCTAGAAGG
CCTTATCATGGTCTAGCCCTCTGCCGTGAACCTGACCTGCTCCCACCCTTTTGCCCTCACACCCTCCCTTCAGTCACCCAGGCTCCCTTGCAGTCCTTAG
AACACACCAGGGGCTCATAGAACTCTGCCTGGAATGCTTTTCCTTCCAACATAAACTGGGCTTGCTTTTCTCTTGCCTTCAGGCATTTGCTCACACGTCA
CTTTCTCAGCAGGACCTATTCTAACTGCCTACTTCCTTCTGCTGCCGGCACCCACTCCTGACCCCCTTACTCTGCTCTGCCGGGTTTCACATAGCACCTG
TCATTTATTACCATTCTGTATAATGTGCTTACTTAATATTCTATTTATTGTGTGTGCCTCTACCACTACAATGCAAAGAGTCTTTATTTTGTTCRTCAAC
ATACCATAAGCAGTTAATAGCAGTGTTTCTGAAAATTAGTGATAGCTGTTGTAATGCCCAACAAGAGAATTGTTATATTCTTACTGTATTAGTCAAAGAT
TGAGGCATAATGGTGTCAAGGAAATATAAATTGCTGAGATTCTTGTTTAGAAACCCATAATTCAGCCAKACAGGTGAGAGACAAGAAATGTTTCACCTTT
TTTGACTTCTAGGTTTGGCATATTGAGTTTCTTGTGTTAATACCACAGCTACACCAAGTAAAAGGTTATTGACTTTTTGCACCAACCAGTTTATTCTACC
TGATTTTTCTCATTCAGGCTTCCTTGTTAACAGTTTGATTTGAAGGCTTTCATTATCAAAATCCACAAGGTTGTGTCCTTCATTTTTCTTGGGAGAGCCA
CCTCCTGTTTCTTCCTGGAAGGAACTCTGTGGCTGGAAATGTTAGGAGCTTCCTGGGCTGAAGAAGTTCAGACCCTAGCCAGTCCAGGGTGCTCCTAACA
AATGGCATATATAATATATCCAGATATTTATTGATATTAAGGAATTATTGGGGAGGTTTAGATATGAAATGATATTGTGGTTTGTTCTTTTTAAAAAATC
TTTATCTTTCACAGATGCATATGGATGAGATAAAATAGCTGTATTTGCCACCATCTATTATAAGAGCTAGGAAAATGGGTAGGGATAGAGATGAACTCAC
ATTGGCTAGGAGTTGGTTATTGCTGAAGCCGGGTAAGGAGTACGTGAGTTTCATTATATTATTGTTTCTACTTTTCTATATACTTCCAATTTTCAATTAA
TRAAAGTATTTTTCAGCTGGGCATGTGGCTCATGCTTGTGATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCATGAGGTCAGGAGTTCGAGACCAGC
CTGGCCAACATGGCGAAACCCCATTTCTACTAAAAAAATACAAAAATTAGCCAGGCATGGTGGCGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGG
CAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGTGCTCTAGCCTTGGTGACAAGAGCAAGACTCCATCTCAAAA
ACAAACAAACAACAAAAAAAAGTATTTTTCAAATGTAATAGTAATGATTGGACAATTTGGCTTGTTTCTGATTTTAAGTGAAACACGTTTGGTGTTTCAC
CATGATGAATATATTGACTATTGACTCAAAAGCTCTTCATGTTGAGAAACTACCCTTCTATTGTTAATTATTTAAACCAGACGTGGGTGCAGAAGAATAT
TGAGTGCCTTAACGATATCTTGAGATTACTATAGGTTTTTCTTATTAGATCTATTGCTGGGAGGTGGTTTTACATGTTATTCATAGTAAAGCCCTCTTGC
ATTTCTCAGAAGACCCCACAGGTAGTTATTTTTTCATTTCTCAGATATTTGCTGAACATCTAGGAAGTGCCAGCCTGGTGCTGGGCATGGGGGGTACAAG
CAGGGAACAAGCCAGGCCGAGCCCTCACTCTCCTGAAGCTTACTTCTCCAGTGAGGGAGATGGACCATAAATACATAAATGAGCTCAGGTGGTGGTAGGG
TAGTCTGTGTCTTTCTGGCTGGCAGAGAATCTGTGTTCCTGGACCCAAGGGATGTTGAGGGGGAAACTGTGTAAAGTATTGCTACCTTCTTTTCTGTGGG
TGGAATTGCTTCTCAATGAGGCAGTTCATCAATAGAAGCACTTTTCCCTCGACTTAGCTCCATCAGCTTTACATTTCATGATCATTCTTTCCAGATTCTG
GCAAAGATTGGATGTTAAAATTCATTTTTGAGGTTGTTTTGAGTTCCCTTACTTCCTTATGTCTATAGGTATTTTAGTGCTAAGTTCAAAGAGKTGGCCT
CCAGGGACTTAAAGGCAAATACCACTTGCAACTGGAATCAAATATATGTATTGTAAATGTAAACCRTAATCTAACCTGTGTTAACTATCTCRTTAATAAT
TTTACTTATTTAAAAACAAAGCTAATTAGGAAATTAGAAATACTTGTAATTGCAGTGAGTAACAATCACCACCAGAGTGAATGGGCACCTTCTCTGTTCT
TATTCAGTTCTCAGAACTAACTTATGTGGCACTGTTCTTTCACTCTTAGAGCCCAGAAACTATAGGCCAAAGAGGTGAAATACCTTGTTCAAAGACCACT
GTAACCAACTGGAGGAGCTGGGATTTGAACCCTGGTAGCTTCCCTCTAGAGGCCCCATTTTTAACCAGTATACCATAGGCCTGGTCTTTTGGTTGTTTTG
GGGGGATTGTTTTTGGCTTTGTTTTAGACAGGGTCTCACTCTGTTGCCCAGCTGGAGTGCAGTGGTGCAATCATGGTTCACTGCAGCTTCTACCTCCCAG
GCTCAAGTGATCTTTTCATCTCAGCCTCCTGAGTAGTGGAGACCACAGGCATGTGCTACTGTGCCTGGCTAATTTTTTTGTATTTTTTGTAGAGGCAGAG
TTTTGCCATGTTGCCCTGGCTGGTCTTGAACACCTGGGCTTAAGTAGTCCACTGCCTCAGCCTCCCAAAGAGCTGGGATTACAGGCATGAGCCACTGCGC
CTGGCCACTAGGCTTGTTTTTAATAGTCTCTATGGATGATGATTTATTTCAAGATGCCCTTTTTGTTGTGTTTCAGGTTTTGCTGATCTTTGCAAAGGAA
GATAGTCAGAGCGATGGCTTCTGGTGGGCCTGCGACAGAGCTGGTTATAGATGCAATATTGCTCGGACTCCAGAGTCAGCCCTTGAATGCTTTCTTGATA
AGCATCATGAAATTATTGTAATTGATCAYAGACAAACTCAGAACTTCGATGCAGAAGCAGTGTGCAGGTACCTTCTCTAATTTAATATGCTTAGTAAATG
TTCACTTTACATCTTAAAACGAATWTCATTTATAGATATCTTTAGTTTATTTCAAATATTTTTAAAATATGCGTTGATGTTTTTAARCAGTGTATACAGA
TGTCTGTGGTGAAAGCTATAGCTCCTTCCTGTAGATTTCTCTCTCCTCTTCTACTTTTCCACATTTGAGTTGTACTAAATTTAGAGGTGTGAGCTGGGCT
CCCCTGATAACTTCAGGGTATTCCCCCCACCCTGTGTATTGCTCATAAAAAACATTAAAATTCACACAGTTCGCATTACACAGATACGGTTTGGATTTAA
ACTAGCTATTTTAATCTTCATTATTCTCTCCCAAAATGAACATCGGAAATGTGTGAAATATAAATTTTTTCCTGCCTGACACAGATGGGTAGATCCCATA
GCAGGCTTCCCAGTCATGGAGTGAATGCAGCCACTTTTGCAGCAACAGAAAATCTTCCAGGGACCAAAACCCCCTGCTTGTTTATAGAAATGCTTGCACT
CTGGGGAGGAAACACAGGCCTGTTCATAAATAAATGCTCAGTCRTAAGAGTTAGCTCTGGATGAACTGATTCATTTAGCAGAAGTGGAATGCTTTGAAGC
TAGATGGAAGAGGTCACTAATTAAATGCTAGACCAAGACAGAGTCCARTTGCATGGGGAGCTGGAATTTTCTTGAATGTTAGTAAGTGAAATAAAAGGTG
AGAAAATGGCTTTTTAGACTTTGGTACCCTGACAAGAAATTAGTGGATTAAGAGAAGTTTCTTATCGCAGGCATCATCTTGYTATTCTTTGATGATTTTC
AGTTTCCCAAAGAAGAATTTTTCTTAAGCATCTGTTTTAGATATGTTTTAATGGCTTCAAATAATCTCATCTTTCTGCATAAACATATTTTTCTATTTAA
TAGTGTATATAAATATACATATAGTATATCATAAAATATCTGGATGCTATTTTTAGTATTAGGAAATATTTTTGATGATTTTATAATAGAATTGGGTCTT
GTAAAACTAAGTATTTCTGATTTTTCTTGGCCTTCACTTACTTTTCCTATGTAGTTTTGTAGTAGAAATATCACACTTCTTTGTTCCTATATATAATCAC
TTAAGATAAGCTTTACTTAAAAAGAAAAAACCAACAGGAAGAAATCTTTTAATTCAGGCAAAGGCCCAGTTTAGCAGATAAGCTTTACATTTTTCTTTGA
ATATAAATAAATAAGAGTTTTATTTCCTACCAAATATATTTCTGTGTTAGCTGCACAGAAAACCAATAGCGGTCTATGCAGTTTAGAAGTCAGATGTACA
TATCTGGCAGTGTGTTTCCTGACCATTATTGGTCTTGTTGAGGGTGGCCAGATTCCAAATGCTTGACTCCCAGCACACATTCCCTGGGGAGATGGGTGGG
TGACACGCTCCTGGCAGATGTGCATTCTTTGTTGTCACCTGTGGTGCTAGATCCCTCACCCTTGAGCTAGGACTGGACCTTAGCCTAACATGCGTCCTTG
AGCCTCAGCCCCACCTTCTCCTTAGTCCTCTCATCCAGGAAGAGGCCTAGGTCTCTCTTACCATACCGGTTCCTTTGGAGAGATGAGAGAAAAGAGACAG
CAGCAGGAAGCAACCCAAAAGATGGAAGCCAGTCCCAAAAGAAACCAAGAGAGTGTGTGCTCCAGCCCAGTTATGCTCATTACATGTTTCAGCCTCTTGC
CTAAAACCCACRCCTTAGGATATAGCCCAGCAGTGTGTCCATGATGCCTGCTGGGGTGGGAAAGACTGAATGAAGTTGAGAAGTACTTAGTGTTTCCCTA
GAGATAAGAACATGCCTCTAAAACACTATGTATKTTTTCATTAGGTGCTAACTGGTATTTCCACTGAGTATCCACCCAGTAGGCTCCTGAGTATAAAATA
AGTATAGCTTCACCTTAGCAGGACCTGCCCTGTGGGGTGGCTGACTGGGAAGTAGCCTGTGCTGGCATTGGAGGGATATTGACTTATGCCTCCTGCCCCA
TTGTGAGTTAATAGCATTTTCTCCAAAAGATCTCTTTCAAATACCATTTATCAACAGAGGAAACTTCACTTCCTGGGAATATGGCAGCCGATCATTTCCG
GGAGCCTTCCCCCCACACAGTGTGAGGGCTCAAGGAACAGGACATGGAGAAGGTACATTTTTTGAGAAAGGTCATAAAATGTTGGAGTTGAAGAGGATGA
AGCAATAYGAGCYGGCTGTCCCTTGGGGAGTGGTAGTTCAAATACATTAAAGTAGAGAGGAGCAGAAATGCCCACAGCCAGAGAGAAAAACAAATGCATG
TTGTTTCACAAATTACTCAGGAGTAATTCTGTTCTTGGAGATCRTGGTTCCCTTCCAAGATATCTCAGAATAAGCAGAGGCCAGACCAAGAGAATAGGTC
AAAGCAAGCTGCTGATTCACACCTAGATTCAAGTGTGTGGGCCTTTATTAAAAGTTTGTCCAATTTACAACCCCCTGACCAGAACAGTGCAGAATCTGGG
CTGTAGCATGGCACAGCTAAGAAGTTTCATGGACCTCAAAATTCTATGTCCTGATTATTTTGGTCCTGTTTAATTCCTAGGGAATAAACTAACTATATCC
AGGTGGTCCTAGTACAACAAACATTATATGGTGACAGGTACTATATTGCAACATTTCTCAGCCCCAGCTGATGATCAAGTTGTTTAAAGTATTTAAGCAC
AAACTACAGCAGGACTGAAAAATTGAGGTGGCTCTTTGTACCACCTTTAATTGGCTTTAACTGGCATTTGTACATCCAGCTGCCAGCAAGTGCTTTAATT
TTTATCATAAGCTCAACTTTCTGAACTACCTGCTATTTTAAAAGAAAAAAGATCAAACCCAGTGAGCTCCCCCAGGTACATACTGATAAGAAGAGGATTG
TAGGACTGCCAATTTATTTTTGTTTTGAAGAGTGGAGTTTCAATTTTAAAAAATGGAATTTAAGTGGAATTTGCCAGTTTTTTAAGTGGAAAATTGGCAG
GTCTGACCTATTGGATAATTGCCTGGGAGTTAAGAGAAAAAAAATTTTTTAACGWAATGAAGAGATTGTCCTAATCCACAAGSGCATCTTTCTTTGTTGT
CTTCTCTGTGTTTTGAGACGTTTTCTTTAGAGAAAGATTTGATGTTGTATCATTTTCAGTGTGAAGAAGTTCCACATTCATTTAATGTAACAAAGCCCAG
ATCACCTTGTTTGACTTGGAGCCTTCTCATTGCAGGTCGATCCGGGCCACAAATCCCTCCGAGCACACGGTGATCCTCGCAGTGGTTTCGCGAGTGTAAG
TGCACCTCCCATTCCCAGATGGAAGGAGTACYGTTCATTCTGAAATATTTGTCAGATGTAATCTGGTTTTTGAGCTATCTAAGCAATGGGTGTGTCTTGG
GTCCTAGAACACCAGCCTTAGATCTTGATCTTGCTTTGGGGGTTTTGTTTGTTTCACAAGTTCCTGGAAATATTTAGGTTTTTCTCTGTATCTTGTGTAA
TTGCCTTTAGCACCTAGTCATACACCTCAGGGAGAAAGTTTACTCATTATATGCCAAAAATGAATGGAAAATTTGAGGAGGAGGTGGTCTGGAGAAAACA
TTGTTCCAGTTTATCTCTTTTTTTTCCTTTGAAGAAAAGAGATGGGGATATGCTTGTTTTTCATTTAAGAAGAAACACATTTTTTTTCATATTCAAGCAT
GAGAACAAAGGGGCACTAAATCCACAAGACAAGGGTTGTGAAATTGATGTTGGGACTGATATGTGGCTAGAGGCAGGACAGTAGAGTTTATCCAATGCTG
GAAGGCAAAGAAAAGGGATTGCGCTGTAGGTGCAATGAAACTGTAGGATGAGCGCTTGCTCTGCTGGGTTTATCGTCTGAAGTGGCCAGCACTTAAAATA
AAAGAGCCAGCAGGAAGAAAAGTTGTCTGTGCAAGCTGCAGTGGTAGAAATCTTGGCAGGTAACAAAATTTGTTGTAGTCTTTTAATGGCTGTATTTAGC
TTTGCAGAGAATAAGACCTTATTTAGGACCTAGGACCTATTGGATTTGGCTGCATTATGGCATTTGGCACAAATTCTGCGACAAAGGCCAGGAAAGTCTG
GCCCAGGGGACTTGAAATGCCTCATTCCAAAGCCATGTGGATACAACAGGAAATCATGGCTKCAAAGTCTTACCCTCACTGAAGACTCCTACTTACCTGC
TACTCCTTGAGTGTCTCCCTAGGGGCTATGTCTTCTCACTTTGTTTGATACCCACCATGGGATGTGGTCCAGAGAAAGCAGAGACATTGTCCTCACTGGT
TCATTACACCTCTCCATCCTGGTGGGAGATTAAGATTCCACAGGGAATGAATGAGGGGAACTGAGACATAAGATCAGCATCCTTCAGCCCTCTTTTTTAC
ATTTATCTTCTGGACACTCTGAGATCTGAATGAGGTCATAGAGTCTTGGACATCAATACCAGAAATGTTCAAGGCCACACAGCATTTTTCCCAAGCCTGG
CTATTACACGGGTCCAAGAACAAAATACTCTTGTTTTTCTGACTCATATGGCAAAAAGGTTTGCTAGTCCTTGACAAATAATGGTTGACTATGGCTTATT
TGTTATGATGTCACCGATTTTTCCTGGTTTAATTATACAATAGTTCATATAGAGAGAGTAGTAATAAAATGAATGTGTGTGTCTATGTCACCCACTTAAG
AAATAAAACATTATTAATACCCTTGGAACCCTTTTTGTGGCCTTCCTAACAGTCAGAGAAGATAGAATTTGGAGTTCCAGAAGAAAAAGAAAGTGGGTAA
AATAGCTTTTCCCTTAGGGCAGGAATCAGCTGTGGGTAATGCCACAAGTCAGCACTGGGACTTCTGTTCCTGTTTTCTATCTGCGTTTCCACCCAATCCC
TTTTATTCCATTTTTCTTCCCTGGTTCTTAGGATATGTCCCCCATGTTACTTGCTGGCTGTCTCAGACACTGTTTCTCTATCTTGGTGATAGAGAGCCCA
GTGATGGCATGTCTTCATGACAAGCCAATCCACATCCCACCTTGTACTCAAACTAAAGTCCTGAGACTCAGCAGTAAGCTCACTATAGCAAACCCTCTTG
TGAAATGAGTAGCAATTATCCATTTTTGTTTTCTCTCCTTCCCTTCTAACTGTGTGTTCCTGCTGATACTTCTCTCCCATTTGGATTGGGGGTCTTGCAG
CCTGGAATGCTGGCTGTCTTCCTCATGTTGAGAGCTGGACCAGCTCGGTTTTGGTGTGGGAGTCATACTTCCAGATGGTTTGGGAACAATTGTCTCCGAA
TGAACAGTGCACGTAACATGTCCCTTTATGGGACTGCTCCCATACATGTGGCTCAACCCCAAAGGGCAGCTGAGTTGGAAAGGGCCATTCATGTGTACTG
AGGGTGATACCTCCAGGTACACTGCTGGAGCTTTCTCTGCTGTTTTTGTTCTTTTTGCATCTGGAAGGTAGATGTGGGGTCTGTATCCTTGAAGGCAGGT
GTGCCCCGTGGGCACGTGCTCGTCAGGAAGCCACTCTTGGAGCTAACGCTGTGTGGCCTCATTGCTCTCTCTCCGTGTTTCAGTGTGAGGAATCCTGGTT
TGTATCTGCTGAGTGACCACATTTTCTGCTTTGCTGCAGATCGGATGACCATGAAGAGGCGTCAGTCCTTCCTCTTCTCCACGCAGGCTTCAACAGGGTA
TGTACAAGATATCCAGCATCTCTCTCAGTTGCAGGCACCTTAACCCCTAACTCTCCCATAACAGGGAAGCAAAGCTGCCACGGAGAACTGTTAAGGAAAT
TAAGCCCCAGGACTGTTGGGGAAAGGAAGAAACTGTGTTCTCATGGGARAGTAACGAGCAGCTGCCAGTCGAGCTCTTTGCGTTTTTGCTCTCTGGGTTA
TTTCCATATATCTTAGCAATAGATATACAATGACATAAAAACACATCTTATTATATCAGACTAAAATTCTGTCATCCTAAAGTAATAAAGTAATCTTATT
TAAATCAGTACAGTCAATTCGATTTAATGTGTGTGTGATCATACATAGATACATCCACCAAATTGGCACCCAAGATTCTGTTCATCAGGGCTGGCCAGAG
CTTCTACCCTAGGGACAGGCCCATGATGACTGTAGCATCCTGTAAACTCCCGGTTGAAACCATTAACATCAGCAAAGAAAAATTCTTTGAGTGACAAACT
ACACAAATAACACTGAGATTCCACTTGAAGATTAAGAATTACTCCAAGGAAACTCACTAACAAACTAAATAACCAAGCTCACCCAGCATCTCAGGGTAGA
AATTAGATTGGAGGCAAAGCTGTGTGCCTGCAAATGGAAAGGAACTGATAGAATGGACTTAAAAGAGAAGAAAGAGAAGAAAGGGAGGAGGAAAAAGATT
ATCAAAACATGAATGTTTAAAAGAACTATATTCCCTAATATTAAAAAGAAAACAAGTCCTTATAGAGAAATTGTGGAAGACCTTACTTCATATTTTAATT
TTTTTAAATAACAAATATATATATTACTCCTATGTAAAAAGTAAAAGGTTTCCCTTAGGAGAATAATAGGATAGAGGACCATGGTTTACTTATACAGCTT
TTGCTGATAATCTAAACGCAAGTAATCCTATAGCATCCTGTGACCTCCTGGCTTAAACTATAAACATCATGAATAACACTGATATTCAACTTGAAGATTA
AGATTGGTTACTCCAAAGAGACTTACCAAAAAAACTAAGTAACTAGGCATACCCAGTGTCTCAAGATCTCTTGGTAAGAGTAATCTGAATCCCGGCCGGG
CACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTGACCAACGTGGAGAAA
CCCTGCCCCTACTAAAAATACAAAATTAGCTGGGCGTGGTGGCACATGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAAAATAGCTTGAACCCA
GGAGGTGGAGGTTGCGGTGAGCCAAGATTGCAACATTGCACTCCAGCCTGGACAAGAAGAGTAAAACTCCGTCTCAAAAAAAAAAAAAAAAAGAGTAATC
TGAATCCCAAGTAGGTGGAGTGATGTATTTCTTAAAAAATAGGGTACTGCGTGTGCCTTGTGAATTATGAAAATCCTCTGTGTGCTTTAAGTAATGGTAC
TTTGCTACTCCTGGCTTAAAAATATATATATATATTCCTGTTAGTTGTAGACCACAGAGAAGCAAAAACTACCTTTGTGATGCAGTTGTTTTGTGCTTTG
GTATGCTTCAGTGTGGAAGAAAGTGCTATAGAGAAGATTCAAGGTAGTCTAGTGGCTCACGATGCGTGATAGAAATGAATGTTTCCAGCTAGCAATATTT
TTCACGCTCCTAACACTTTTTTCTTGTCTGTTATCTCTTCTCACAAAGGTTGGCATTTGGTTCTGAAAGCTATTCTTAGGTGCTATATCTTAATGAGAAT
GCATGAGACAATGCTTCTGAGTTTTTGGAATGAAGAGTTGCAAAAGAAAAATCAGCAAAGAAGCCATGTGGTTGAGACAGATTTTCTTTACTCACTCATT
TTCTAAGAAATAGCTCTAAAATTATTCACAGGCTTCATAGAACTTCTGTGTAATATTGACCCCCCGACTCTACCCCATTCCAATGTCATCCTTTTCAAGT
TTGAGTTGGGACCTCATGGAGTGTGAGGACATAGATTTTCCTCATTACCTAGGAGATGATTGGAGAATGGCAATGACACACTGTGGGTTTTATCGATCAG
GACCCATGTACGTGCTGTTGAGTGTCCTTTTGGAATTCTACCTTTAGTTCAGTGATCCAACCTCAAACTGGTCTAGAATTGCTGCCATCTGAAGCGATAG
CATCTTGTCTGGAAGGCTGAGATTGCACATCTGCTCACAGTTAGGAGAAACAACWGGAACTCTTTGGGTGCAAATGCTATTGAGAAAATTTAACCAAAGT
TCCATTGTTTCCTTCTTACACATTTTACAACCTGTCCATGGGGCTCTGGAAGGCTTCATTTGCCACTATCCAGACATGTTACTGTGTTTTGCAGTCAGCC
TCAGTGAATAAAGCTTTGGGGGAGGGGCATGAACAGCGGTAGCTGTCAGGGACCACCTGGTGTTCTTCAGTGCTGGCCCTGATAGAGGCCATTTGCCCAT
TAGGTCAGGGTGCCCCCAGTAGCTTGGGCTCATTCCAGGAGAAGCAYGCTGCACCTACAACAGCTCTCCTGGCATTACTGTGGCACACCATCAGCTGAGA
CTGATCTTCATGTGGTGGTTCTCCTTTTTTGGGCAAAATCCTGTCTTTCACAACTCTCTTCCCAAGCACCTTTTCAAATATGCCAGTTATCTTTGCCTTC
CATGAAGTTGTTTCCCATCTCTGAGCTGGTTTGATTGTATTAGATTATCTGCTGAAACTCACCCCTGTGTTGCTAGCTAATTGGCTGGTGCTTCAGTCTG
TGGTCCCTGAGTGGGGATCTAGGAACAAATTGTGCCATCACATATCCCACAACAACTCCCCTTGAAGGCTCTGGAGCTATGTGTAAGCAGCCGACTATAT
AGATGCTAATTCCATGCTGAGCCTTTTAGAAACCAGCATCTTAGCAAAGGACAGTTGCAACTGTTTTTATATCAACTTTATGTGCCTCTTTTTCTATTTG
CAAAAATATTTGTTCAATTTAACAAGTGTTTATGGAGTTCTGCCTCTGTGCAATGTGCTAGGCATGCCGGGGGCACAACTGTAGGACACAGTTCTCTGTG
GAGAGGCCTTTTGTGGAGTAGGAAGTGGGGAGCTACGATTTATTGTCAGGCCCAGTTCCCAGTGATTTACTTAATCCTCCTCTACATATGAGGGATTTGA
TATTTTCTCCWTTTTTGCAGAGGAGGAAACAGGCTCAAAACAACTAAACTTGCCAGAGCTCACACTCATGACARAGTCCAGAAGCAAATACATGTTGTTT
AACTCCAAACTCTATATTGGGTTCACTAAAGTTAGATTTCCCAAGCTAGTGTYCCACAGAACACCACTGTACCAAAAGCTATTAATACATGGTCCATGAA
AAAAGCCTTCTATGATCAAATAAGTTTGGGGAATCAGTGAAAACTCAGTTTCCCCCTCCTCTCACACCTGAGAATCCACAGAGCACTTTTGCAACAYTGC
AYATTAGCATTTTAAATACTCTGAGAAGTCCCATAGTAAAGAAACCTGCTAACTTTGTTTATCCCAACATTTTCTTTCCATTTTTTGCAAAAACTAATCC
ATGTTTGTTATAGAAAATACAGATAAGCTAAAAATTAAAATTATTTATGCCACCAGCCTTTCAGATTTATTTGTAGGCAGAAATAGAAATGACTGTGTAT
TATTTACAAAACAGTGTCGTGATATACATACATATCTTTCTATGTTATTCCAGCATTTTCAAAACATATTTTATCATGGTTTTTTCATGTTTTTACAAAA
CATGAGCTAACAACTCCCTGAGTTCTGTTATAGGCTGATATATAGCTTTTATCCATCTAAAAGCTCAAATGGAATCTAACCATGTTTAACTTTGCTCTGT
AAATCAAACAGAAAGTATTTCCCTTATGTGTATGTTTATGGCTTCCTCTCYTTCCTTAGCTCTTCCCAGCTTCCACGTAAGAATTGTGGAGGACCAGAGG
CCCAGGGAAAGCCAGGGAGAAGCCAACCACTCCAGATATGTGGAGCCAACCACTCCAGTGTATATGTGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTRAGAGAGAGGAAGGAGTGAGGAGAGGGATTGATTTTTTTCTCTGGCCAACTTGGGTGAAGGAAATCTAAGAAATACATCTTTCAGCAGGGCCTAGTAT
TCTCCTCCTCCACTTATATAGCTACCGGAGAAGCAAAAGTATGTGACTAGTAGTTTGGAATACTTTGGAATTCTGCTTATCTTTCTACTTAATAGTTTGC
CAGCCATATGCTTAGAAAGGTTTGCATGATATGTTTTTTTAATCAATTAAAATGCATAACATTTCCCCTTTCCTAAGTAGAATTGTCCTTAAATCTCTTC
CCTTACTATTTTTTACTTGCTTTTTTTTCTGATTTCATTATTTCTCATTAAGTATTGATGTGATCATGTCAGAGAAGTGCTCAATTTCCTATATACCCTA
CACTGAATCACATAGCATATATAAGAAATGTAAACCAAATTACTTTGGGATTAAGTGAAAAAGGGCCTACTCCTCTTTAAACGCGGGACTTGAGCAGCTC
ATGCCTAGCATAAATAGGTGCTTCGTAGTTCTTTGATGAATGACRATGTGTGCTGCATTTTCTTCTATGTTATTATTTGCTTATCTATCTGTTCATTCAT
TCACTAAGTTTATTTATAAATACATGAAAGCCTTTTTTTTCAATTGAGATGAAACTAAAATTAGCCATTTTAAAGTGAACAATTCAGTGACACTTAGCAC
ATACACAGTGTTGTRCAGCCACCACCTCTCTCTAGTTAGAGTGAGAACCTGTTGCAAAACAAACAAGCAAAAAGCCATTTTCATCATTCCCAAATGTGTT
CCCATTAAGYGGTCACTCCTAGTCCTCCTCCCCACAGCCCTGACAACCACCAGTCTGCATTCTGGCTCAATCAATTGACCTATTCTAGATATTTCATATA
CATGGAATCATACAATATGTGAATTTTTCTGTCTGGATTCTTTCACTTAATACATTTTTCGGGTTCATACATGTTGTAGCATGTATCAGTATTTTATTCC
CATTTTATGGTCAAGTAATAATCCATTGTATGTATACACCACAATTTGTTTATCTGTTCAAATGTTGGACATTTGGGCTGTTTCTGCCTTTTGGCTATGG
TGAATGATGCTGCTATGAACACACATGTATGAGTATTTATTTGAGTACTTGTTTTCAGTTCTTTTGAGTATATACCTAGGAGTGGAATTGCTGGATCATA
TGAGAATTCTGTGTTTAACTTTTCCCCTGCATTAGGCACTCAGAAAATTAGGAAGGAAGTAAAGAGTAGGCTCTCCCTTCCAAAGAGATCATTGATAATG
TGGTGCACACTGAACATGCTGAGTGTTGGGTTTTAGATGATTTTATTAGTGCAATATGAAGCAAAGTGTTTCAGTCATTTACATGGCTGGGCAGGCATTC
CGTGCTCTAGAGCATTCATAATGTAGTTTATTCTACCTTTGTTATGCAGGAAGTGAAGTGTACAGTATTACTTGCTCTGTTGTTTCTCATACATTTAAAC
AAGCACTTTGAACACCTTGACAGCTGTTTCATCTCATCTTACCTACTAATTGTCTTATATAACGGAGTTACCTGGGGATAGGAACAACTGTTAAGTTTCT
CTATTTGACTCTCTAAGAAGTAATTATATATGTCTTATGTATTGTCTTTGCTTTCTTTTCAGAGATTTATGGAGAATAGCAGCATAATTGCTTGCTATAA
TGAACTGATTCAAATAGAACATGGGGAAGTTCGCTCCCAGTTCAAATTACGGTATGTAGCAAAATGATACAGTAACATGAGGTTAACAATTCTTTAGAAA
ATCTTATCTGTCAACAGGCTGATGTTCAGGGGTTCATAGCTGAATCCCAGGGATTTTGAAGCTTTTAAACAGGCAATGAATGGCAGCTGGCCAACAGCAG
TATCTAARCCAGAAGGCCCATTATATAAAGAAATAAATTGGAAGCATTTCTTCTTTTGACAGYATTTTCCACTATTTACAGAATTTTAAAATTGTAACCT
GGGAAAATGCTTAATTTTTGCACAATTAGATCGAGATTAGGAATAGCCTTGAGAATTATTTTCTACTTCCTACTTTCAATATTTATACATTTTTACTTGG
ATTGTTACGCATAGGGGCAAACTAATGGCGATATTTATCATGCTAACCATAAAAATGGCTAAGTAACCACAATAGCAATTTTATTAAGTCTGTTTGTGGC
CTCAATATGCATGAAGTAGCTTTAAGAAACCAGTTTTAAGTCTCTTTACAAGCATATAGTGTTTTAAGAGCAGGCTTGTCATTGGTGCTCAATTCCAGGG
ATGGGATTCTCTGCGTGTCTGGCTGCTGGCCAGAATGCTGGGCTGGGGGATGTTCTGCTCCTGGGCCCTCTTAGGAATATCAGGGTCCTAGCTCCTGCCT
GGTTTTGCTCAGGCTCCACTCTGGCAGGCTTTTTGGACCCTGATGTTTTCCTCTCTTCTCAGCCAGAGAGCAGGGAAAGGAGGAGGCTCTTCTCCACCCG
TGGGCCACTGCGGGGCCCAGTCCCCAGGAGCTTCAGGCTGTGTGATGCCAGAAAATTCTGTAGCATGGCCTCTCTCTCTGGCTGACTGAGAAGTCATGCA
TAGTTTGAGGCTCAACACAAAATAAGTAGGAGAGCATCCTATTATAGTAATTATATGCCTTATCTTGATTACTTATTGTCATTCAAAGACGACAAAATCC
TTTTCAAACTTAATTATCCTCCGTCCCAGGGAGGCAAAATGAATCGACATAAACCCAGAGAAGCAGGTTCCCCTGGGGTGCACCCTGGTCAGGGAAGTCA
CTTTTTGGTGGGTAGAGTGATCTAAGAAATAAAGTGTGGGGATAAACAGTCACTTTCTTAGGTAGAAAAGTATTAARAAAAGAATCTCAAACCAGTGGGA
AATCAGATATTTTGGGACTTCAGGTATTTTTAACAGCCCTTGGTAAGAAATATTGCCAAAGACTTTTTGAGCGTATAAGTAAGCTAGATCCTGTGGTTTC
TTTTTATGTGTATGTCAGCTTCAGAGAACTTCACAGAATTTTTCTAGAAACCCATGTTGCCTGTACTTCTGTAATTTATGCCTTTTAATAATGTAGATTA
ATTGTTATTATTCCTGGGGGTCTCTACTGTTTTTAATTGAAGGTTAAAAGACTTAGTACTTTTATTTTAGATGTTTACACAATAAATAGAATYAGAAAGA
GGGGGATTTTACTGTGGTTTAATTCTTCAACTGTGTATTACCCACMATAAAAAATGAACRGYGCAACACCTCATTGCATTGACAGGCAATTCCATTATTT
GATTTTAAATAAGTGCTTCTGKTTTTTTAGGCAACATTACATGTGATGGCATATGTTAGGTGCCAGGAGATGCCCTAATACAGATTCTGCAGTGCACATG
GGGCACTGGGGGGCTGTCCCAGGAATGTTAGGGGCACCTTGTCCATGATGAGCAGGGCAAAAGCAGGCCTGGAAATTTGAAATAAATATCCCCAGCCAAC
ACAATAGCATAAAGAAAAGCCTTCAGGTTATTGTACTGCTGAAATCTGTTYAGAGCCAGGGCACCAAAGACTTTTTAAGGTCTTATCMGATTCAGAACTT
TGCAAGTTTCTAAGTACATTATGTAAGTACTRTACTTCTGACCCCTCACTTACTAGAACTGGTTGGGGGCATTGGACCCGTTGTTGAGGTCATAATGAAA
AGGCTCAAGTTCTTACTACAAATCAGTGTCAAATTGGATAATGGACTTGACCCASGAAGGTAGTGGCCCCAGGAAAGAAGGTTTGCCTGGCACAGRGATT
ATCTTGCCTTCTGCACAAGTTTCAGCTGTTGCTTTTTGGTGGGTTCTGCCTCAACCTTATTCAAGTTATCGCCCTTTTGGGTGTGTGTGTGAACATGTGC
ATGATTTTATGTGCATATTCCCAGGTATTCTGTATCTAGGCCCAGCAGATAGGGGCAGTGACTCATGCCACGGCCTCTCCCCAGCTCCTTAGGGCACTCA
GGGACATCTAGCACATATACCTGCACCCCAAGGCAGGCAAGCAACTCTATCATTTGTTGCAGACTGGGAAAATGAGGCTCTTTATTATACAATGCTAGAA
TAATTATAGTCTAATTATATAATACTTTCCCCTACAATTCCGCCCCCAGCTGCAGCTAAATATGTATCATTACTGTCATTCTGCAAGGACAGTCTGTACT
GCAGGATGATGGTGAATGTTAAAGGTAGACACCTCTGCCTAGGTCCCATGTCAGGTGACCATATTTACTTAACCGAGAAACAAAAAGGATCACCTGATGT
GATCAAACAGAAGATGTAGTCTAATTTTAAGATTCTATTATATAAAATAACTTAAAGATATAAGAACTAAATCACATATCTGTATGCCTTTGATGAATTA
CTCTGTTGAATAGAAGAATTTATGAAATGGAGAGCGTCTAGGATAATCTAGATTAAATGATGACTATTTATCTCTTCTGATGTTCTTACACCTCTTTATC
ATGAAAAGATCTATTTTATCTAAAATAAAGATAATTATTTAGCTACTTAGCAGGAGTTTGGGCTGATCGATATATACTAATGCAGTACCAGCTATTGTTT
GATTCATTAGTCAGTCTAGAAGTTACATCCAAGTCATTATGTTTATTTCACTCCAAATCTTAAGACAGTAGCAATCCTCAATTTTAGAAAGAATCAAAAT
TTTTGGTGGGCAAAACTCTGTATTCTGTGGAACACCACATCTCTCAGTATTAACAGACATTTGTAGAGCACTTTATTCTCATATGGGCTCTGCGTGATAG
CCATTGTGTTTCAGGGGTGGAAACTGAGCTGTGAAGGCTTAAAATARCCAGTCCCTATTGCTTTATTGCCCAGTAATGAGTGCCAMCAAGTAACAAGGTC
ACGATCCTCTCACCTCTTCCACTCCCTGCTCCCAACTCATCCCAGACTCCTGCTGGTATGTGGACTTGTGTTCAGAATCTTTTCCCTACAAGCCACCGCC
TTGCCCAGTCCTACCCTTGTTCCAGGCAGCCTCACAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTTTTASTGGAGTCTAGATAGAG
CACTTTTGGAAGGGACACAGGAGATAATGTAACCCAACACCCTGGCCATGATTGACAGAGGAAAACACTGAGAACCATCACAGCTACTCAGCATGTTGGT
GGCMGTGGTGGAGTAGAATCCAGGCATCCTGCTTTTTCAGTCTGGTGCACTTTCCACTCAGCATAGCACTATATTATTTATAGACTTTATACCTGGACCC
CTGTAATATTTACCTTTTCTCTCTGGACCTTCGAGGGCTCTTAAGAAGGTGCAGGGAAAGTGGTGATATTACCTATACTTCATGGGTTCCCACAACTAGG
TTACTTTTCCCTTGTGTTTCTTTTTTCTAGTTTTCCAACTTTTTAACCTGAAGAATAAAACATAAAGATACCTGAGACAAAAGAGTTATATGGTTCCCAA
GAACAGATATTAATAAAGCTAAGGTTCTTCTGCCAGAAGAGTATGAATAATTAATACAAGCAATTAAGTTCTAAAACTCTAGAAACATGACTCAAGTTGA
TTATCTCATTTTGCTGCAGGTTTATTTAAATAGAACCATCAACCAAAGAGGTTGAGAGCCTGAATAAACGTTGTGGTCTGGTAGTGTTTGTTGTGGGGGG
CAGGGGTGGGAAATAGTGTGTTCTTTCTACCAATATCCTTTCATTTCAACTGTTGATAAGCATTTACTTTGTCTTATGGGGCTTTATACTTATTGAAAAT
TTCATGCTTTGTGGATAATCATAAAATGAATGTTTAATAAATTTTGGAGATTGGATCTAAGATCATGTATAAAGGCAACCTCTTGAATTGATGAAAATGA
TAATAGTCTGAAGTACCTGTTTATATACTTAGTTGAAACCTGTTTACATAGTTAGAGAAAATACTTAGGCAAGAGAGGAATTTGTCATTTGATAAAATGT
GTTAATTAAAGCTTAATTATCCAGCTCTCAAAATTAACAAATTAGTCCACATAGAGTGTGTTTCTCCAAGAGTGACTTCTGAAAGACAGCTGCTGCCCAG
GAAATCCTTCCCTACAGTGCTTCGTCCAGTTTTGGACCAGGTGCCTGGAAAACACTGTTGATAAGACTAGCTCTTGCTGTCTCTTATGAGGCAGTGCAGT
GACAAATTTGGTAGCAGTTTTAAAGCCCCCTTTTATTCTTGTTTCTTATTTTAAATTGTGTTTACAAGTGGTGGTACTAAGACAGTATACAGTTCAAATT
AGGTAGACTGGAGCAATTTAAATAAGAAAATATACTACTGCGCCTGTAAGCCATTTCAGTTGRGTTAGGTTAATATTCTCCTCTGCTCTTCTAACCCGTA
TCATGATTACTTGTTACACTTACCTTCTCACACTGATATCTTCATTTCTGCAACTATAGGAATGGCGTCYTGCAGTTGGCTAAAATATTGCACTCCGCAC
GCATACCTCACTATTATTGAATACAGTTCTTGGTTTGACATTTCAGGTATACTTATGAGAAAAGATAGGTTACGATTCATTTTTTTCACCAAAGCCTTTT
GAAAGCCTTAGAGAACAAAGAAGTATTACTCTGTGATCTTAAACATAACAACAGGTAWCTACATGTGTTGTATTCTCATATTGTCCCAAGCACTTCGAGA
AATGCCTCACATAAACTATCTGTTTTGATCTTTACAAAAACCTGTGAAATACGTATTATTATCCTCATTTTATGGATGAGGAAACTGAGGGCCATTGAAG
ACAAAAAGTTGCCTCAGGTCGCATAACTGGAAAAATACAGAGCCAGATTTCACCCAGTTCTTTCTGCCTTCTTCCCTCTAAACGGATCAAAATAGGAAGA
CAAAGTTAGAATGCCTTTATGAGTGGAAAAAAATAACATTTTTCAGAGTTTTTTTTTTTAAAGAAAAAACATCAATCCAGTAAATCAACAGTTTTTTTTT
ATTTTGTAATGTGTAAGAAAGCTTTTTATTGGGATTCTTTAAACAGTCAGTATAAATAACAGAGCTCTAGCTACATGCTTGCTGTGTTGGACAGTAAATA
GCTTACTGTATTTGGAGTTGCTCTAGATTAGGAAATTAGTTAAAACTATGATAAACAAAATGAGAGTTTGATTCCAAATATTCCAGAAATATAGGGAAGG
TCACCAAGAAAAGTCCCCACTGGAGAGCTGCAGAGGTGCARTGAACCAGCAAGGGGAGTTCTGCTGGGTTTGCCTTTCACCATGCCAGGGGGAATGGTTG
GAAGCCGAGTAACATCACAACAGCAAAAAAGGAGAAAAAATGTTTTTGTGTCTGTTGCAAAAGGCCAGAATACCTCACATCCAATTTGGGCCCAGTTAAG
TTCTCTAATTGTTGGAGACTTAACTTCTCCATGACCACAACTGTGAATGAAACAGAAGAACGTCATTGCCTCGTGTTAGTGTTGAAGTTTCATTCAGCAC
ACACATAGTCCATTCCATGATCCACRAAGATTTCACTGAATTACARTTCTTTTTGTATCATACACACAGATATATATGCTATTGTTTATGCATTTAGTTT
GAAAGATTAGTTTTTTTCCCTCAAAGCATATTATTAACCCTCTTAGTCTGTTAGGATTGCAATAATGAAATACAGTCATGCATCATTTAATGATGGGGAT
ATGTTCTGAGAAATGTGTCGTTGGATGATTTTGTCATTGTGCAAACATCATAGAGTGTACTTACACAAGCCTACGTGKTATAGCTTACTACACACTTAGG
CTACGTGGTACAGCCTGTTGCTCCTAGGCTACAAACCTGTAGAGCATGTTACTRTACTGAATACTGTAAATACTTTTAACACAATGGCATTTGTGAATTT
AAACATAGAAAGGCACAGTAAAAATGCAGTATAAAAAGAKTTAAAATGGTGCACTTGTATAAGGCACTTAGCATGAATGGAGCTTGCAGGACTGGGAGTT
GCTCTGGGTGAGCTGGTGAGTGAATGGAGAGGGAACATGAAGGCCCAGGGCATTATGTGTATAGGACTATAGACTTTATCAGCTTTGTACTCTTAGGCTA
CACAAAATTCATTAAAACATTTTCCTTTCTTCAATAGTAAATTAGCCTTAGCTTACTGCTACTTTTTAACTTTATAAACCTTTATATTTTTAAACTTTTT
CACTTTCTTAATAACATTTAGCTTAAAACACAAACACATTTCACAGCTGTACAAAAAAAATGTTTCTTTATAACATTATTCTGTTAGCTTTTTTCTATTT
TTAAATCTTTTTTTTTTTTTTTTTTTACTTTTTCAACTTTTTTGTTAAAAACTAAGACAAACTTTGGCTGGTGCCTACACAGAGTCAGGATCATCAATAT
CACTGACTTCCCCCTCCACATCTTGTCCCACTGGAAGGTCCTCAGGGGCAATAACACACATGGAGCTGTCACCTTCTATGATAACAATGCCTTCTTCTGG
GATACCTCCTGAAGGACCTGCCTGAGGCTGCTTTACAGTTAACTTTTCTTAGTAGTAGAAGGAATATTTTATCTAAAACAATGATAAATAGTATAGCAAA
TACATAAACCAGTATCCTAGTTATATCTTATCAAATGTTATATACTGTACATCATTACTGTATTGCTACACATTTATACAGCTGATAGTTTAGTGGGCTT
GTTTACACCAACATCATCACGGACACGTGAGGGTGTTATGTCTGCTACGACACCACTAGGCAATAGGAATTAGGTTATAATCTCGCAGGACCACCATTGT
ATATTGAGTCCATTGTTGAAATATYGTTATGAGTTGCATTACTGTATCTTAAAWTGAGTAATTTATAAGCAACAGAAATGTATTGCTGACAGTTCTGGAG
GCTGAGAAGTCCAAGATCAAGGTGCCAGCAGGTTCTGTGTCTGGTGAGGGCCTGTTCCTCATAGATGGCACCCTCTCTATGTCCTCACATGGCAGAAAGT
GCAAGGGAGCTCACTGGAGCCTCTTTAATAAAGGCATTAATCCCATTCATGAGGATGAAGCCCCACTGACTTAGCCACTTCCCAAAGGCCCTGCCTCTTC
ATACTATCACATTGGATGTTAGATTCCAACATATGAACTGTTGGGAGACATCAGCATTCAGACCATGGCAATAACAAAAAGTACGTAGATTTGATGAACC
TGGTATCTGTTTACTTTGTTAAATTAACAGATGAAATGTGAATGGTTTTCATAGAAGAACTAACTTCAATCTTTTATAACTTTCAGGGCCTGTAATTCAG
TGTTTACAGCATTAGATCACTGTCATGAAGCCATAGAAATAACAAGCGATGACCACGTGATTCAGGTATGGAAAGAAACCACCTCTATCATTAACATTCA
AAATGAACCTTTCAGGTTTAAGCCACACTTTTTATCAAGTACTTTCCCATCATSCTCATGTATCAGCACATTTTCTTAGGAGAAATAAATATCAAGCTGT
GCAAAGAATACTGATAGACTTAAGAATTAGATATTCAATAAAGAACAAAAAATTATTACTTCAGATCAGAACCTGCAATTTCTTTGACAGAAATGGGGTT
TAAAAAAATTTTATTTTTTTGAGACAGATTGTCACTCTGTCGCCCAGGCTGKAGTACAGAGGTAATCTTGGCTCAGTATAATTTCTGCCTCTCAGGTTCA
AGTGATTCTTGTGCCTCTAAGTAGCGAGGATTACAGGCATGTGCCACCACACTCAGCTAATTTTTATATTTTTAGTAGAGATTGGGTTTTACCATGTTGG
CCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTATGAGTCACTGCACCCAGCTAGAACCG
GGGTAAATTCTTTTGACCATCTGTGAAGACACTATTGACATAGAAGTAAGTCAGAATGGTACAGCAAATGCTTATAAATGTCTAGGGAACAGAGTATTTT
CAAAGACATTCATTTGTTTACCTGCAGTGGGTATCCTAATTACAAAGCATTCTTACATGAATGTCATCCTCCTAAGGAAATGTGTGTAGCAGAGAAACCT
TTCAAGAAATGAGGTGTTCTTATTATAATTGTTGGAAAGTAAGACATCTGTATTTGTAAAATACCCTGAAATATAGACTTTCCACGAATTGGTGCTTGCC
TGCCTGCTGTTGGTTTGCAGAGTGGCATGGAGTGTGAGGAGCACTTATCAGTAGGGCACCAAAGACAGTGGGCAACACACAGCGAAGCCCACAGCAGAAG
CCTCACATTTGTCTGCCCTGAAATCTCCCAGTGCACACATACACACCTTGTTCTMATACCAGACCAATGACATCAAYAGCCCACCCTGCCTAGGCCCTGT
CATCAGCACTTTCATTAGGTTGTCTCATTTCTATTCAATAAGGGTAGGCAAGAGACATCATTGCCCTATAGTGCAGATGAGGAAACTGAGTCCCAACAAG
GCCAAGGAACTTATCCAAGGAAAGCCTTAGTAATAAGTATCAGAACTAAAATATGTAGTCATGTCTCCAAAGCCTTCCTACCTGGTTTCCTGTTTAGCTG
TATTGTTAGAATATGTTTTATGGCTGCCCCGTGAAATGYATCTGAAGGCTTCCTCATGWTGCTGGCTCTTAGTGGCCCACCTGCCCACAGGTCTGCCTCT
TSGACCTCAGAGAGAGCCAGACGTGTTTCTGTTACAGACCAAGCACAAAAATCCCACATCTCCCCCACTTATACCCCGACTTGGACAATCGATTCTATTC
ATGAAGCACATTTGCTTTGCACCTCCCTGTTTTGCAGTGTGCAGCTGGATTTGATTTCAGAAATGAGGAGAAGGGGCTCCCTGCCCACTAGCYGCCCCTC
CACCTGTAATCTAACAAACRACTTCTAGAATAGGGAACAGAGTCTTTCATTCTCCAGTTATCAATTGGTGGTTAGAAAACCTGTATCCTTGGGAGAGGTA
ATATTGTGATGGTGTCACATTATGATATTAATCATCTCCCAGCCTTTGYGATGAACAGGAAGAAGCAGGAGCATGAGGCCAGTATAACAGATGCCTGTAA
AGGAGAGGTGGAAGGAGAGTCACTGCCTTTAAAGGGAAACTTGGATTCTGAAAGAAGACCTTACAGCTTTTTTCTCAGGGAACCTTTTCATCCTCCTTTA
GAAAAATGTATCAGCAATCTGTAGTATGGAACTTAAAACAAGAGGAAGGAGGAAGGAGCTGAATAGAGGATGTTATATGTATGGTGAAATTACCTATGTG
CTATAAATTTTGAGGATGTCATCATTGGATGGGATAGTTAATATATGTTCTTACTTGATATCAGCATCCTTTTCAGGGCACTCCAATCAAATAGTTAGAT
GCCTTTTTGAATACAAATCTTCAGAGGTCAAGTAGCAGCACTTAAAATTTAGAAGCAATATCTACCTATCTGTGTCTGTCTATCCATCTGTTATCTATCC
ACCCATCCATTCCTCCCTCCTTTCCTTCCTGTCTTCCTCCATGCCCCCATCTATCTAAACTCTATATGTATTTGCTTTAAAACACTTAATTGTTACTTGC
CATATACTAGGCTCAGTTCTAAGCATTTCACACATACTCATTTATTTCTTAAAGCAATCCTGTGAGTCAGGTATCACTATTGTACTCATTTTGCAGATGA
GGAAACTGAGGACCAGGGAAGTTAAGTAATTTGTCCATGGTTCTGTAGCTGGTAATTGGCAGAGCCAGGATTTGAACTTGGGTGCCTTGGCTCCAGAATC
CATATCTGGGAGTACCTGCTGCATTCTGAGGTTTCAGGAACCCTGGTGTGAAAGAAGGGCCATGACTTCTACCCAAATTTACAACTTAATAGGGAAGGCA
GAATGAACACACATGAAAAGGTATGAGAATATGGCTAACAAATAAAGAAAATAATATATTCTCTAATATTTTCTATTCATTCCTCAAATAGTTAATAAAC
AGTCCTGAGTATCCAAAGATCAATTCAAAATAGCCTTTGCCCTTGAGGAGTTGAATGTCCACTGGGAGAGACAGAGATAAACAAAAATTTAAATTCGGTG
TAATAAGTCACTGAAAGTCTGCACAGGCATCAGTGGCAGCTCTTGGGAGTGGACTAGGTAGGGGAATCAGGGAAGGCTTCCTGGAAGAGAAGAGGGATAA
ATTGGAGTTGGAGAGGGAAAGAGACAGGGAAGGGTATTATAAGCAGAGAGAGCACGTGGGGAAAGGCCCGGAGATGAGAGAGACATGCAGACAGCTCAGC
AGCCTGCAGAGGTGGCCCCGGGAGGTATGAGGCTGGCTTTGTGAGCAGGGGCTACGCTGTAAGTGATGCCCTTCCCTGCCTAGGGAGGGCCCTGAGTACT
ACATGTCAGTAATGGGGCCAGGAGGGGGTCTGGAGATCCATGAAGACAATATCAGGCCTCCTTCTCTTCAGTCACCCACCAAAGGCCTGATGACCAGAGC
ATCTTCCAAACCCCTTCAACTCTCAGGGTTGATCGTGTTAATAGAAGCTGTGTCTCCCAAGGAACAGCTCCCCAAGTGTCCCTGTGCCACCCTGTTCATG
ACTGCTGCCATCACAGTTGAGGGCAAGAGTGATTACAGTTGGTTCGAACATCTCCGAAGCAGCAGATGGATGCAATTTAAGCCCAAAGAAATTCATGACC
CAGATGCAGTCTGTTTACATTTTCCCGACATTCTTCACCGCTTGTCTCTCTCCACTCAGCCCCCATCTGTGATCTTTGAAAAGAAATCAGAGGGTGGGAC
AGGACCTGGGAGTCATCTAGGGTCATGGCTCTAAATTCCAGGACCCCAGGCAGAATTTTGAAAAGAAACCTCTGAGTCTGCTGGCCCCAGAATCTGCCGA
GGGGAGCTTCACACCTGCCTGAGCCCAGCACTGAAAGGGCTGCCTCCTGCCCCAGCCATTTAACTGAATTTATTGTTCTGATTCTACTGGTAGTGTCCCC
AAACTRTAGCAAACATTGATCAATAGATAGTGGCAATTGGAAAGGAGACATGAGAAATCCAGTTGTGGAGATGTGCATAATACAAGCCGCCACTGTTGAA
TGGAGTTCTTATTTGTTCRTTTGTTTGTTTATAAGAGACAGGGTCTTGCTGTGTTGCCTGGGCTGGAGTGCAACGGTGCAATCATAGCTCACTGCAGCCT
GAAACTCCCAGGCTCCAGTGATCCTTCTGCCTCAGCCTCMTGAATAGCAGGGACTACAGGTGTGTGCCACAACAACTGGCTAATTTTTTTATTTTTGTGG
AGGTGGAGTCTAGCTGTGTTTTCCAGGCTGGTCTTGAACTCTTGGGCCCAACTGATCCTCCTGCCTCAGCTTCCCAAAGGGCTGGAATTGAATTACAGGC
ATGAGCCACTGTGCCCAGCCTGAAACTTTCTTTTTTTAACTACAAACATATGGACCCAGTCCTAATTTATTTTTATTTCTTTTTTTGTCTGAGTTTTTCC
TTATTCATGGGGCGGTAGATGGTGAATGAGTTCCCCAAGAGGCTGGTACTGCTAGATGAGGGCTTCCTGTKTTTTTCCTGCTGAAGTTTCTTCTGATATC
CTACAGGGGATCAGGATGGCAGTTGAATGAATAAATTGCTGCCAGGAAGGAGGGAACTCCTCCAGGAAGGGTTTGGGGATGGAAAGGGGCAGCAGGACCT
GGCCAGCTAACTGCATTAGAGAATGTTTGCCCTGGGAACTTCTTGCTTGATATTCCTCTGGGTCCCAACAAGTCTTCCTACGGGGCACACAGACATTTCA
TGAATTCTGTCTTGTGTCCCCGCACTGATCTGTACCAACCTCCCATTAACAGTATGTCAACCCAGCCTTCGAAAGGATGATGGGCTACCACAAAGGTGAG
CTCCTGGGAAAAGAACTCGCTGATCTGCCCAAAAGCGATAAGAACCGGGCAGACCTTCTCGACACCATCAATACATGCATCAAGAAGGGAAAGGTGGGTT
ACACCAGCAAAACCAATCCAYGAACCCTCTCCCCAATGCACTTTTTTTTCTGAGTTTTAGAATTTCATCCTTAAGATTAGCTTTTTTAATAATGTCATAA
TTAAGTGAAAGATCTATTATGTTTGCAAAATGAGTTCRTTTTTAAGTTAACTTTGGAACTCAAGTGAATCTGGTGCTTATCATTATGGTACAGAATCTGG
TGATTTTGTGTGAAAACATTTCATCCTGTGCATGAATATGTCCCATCTGCCATTGCTGGAATATCGTGGGTATCTCTGAGCAGAGTTCCACCCAGAGAGC
TGTTGTGTTTTTTCAGTTTATCCAGTGTTTGGGAGACTAGACATATTTAATACCAGTATTTATAGGTAGGCCAGGTTTTTTTCCCAGTTTTCCTTTTCTG
TTCTCTGATCRCTGTTCAACATACATTTGTAGCTTCCTCCTCCCAGCTGCACCTGTTCCTCCAGTGGCTTCCCCTTCATCTGGGTAGATGAAGGTAATGA
TGGAAGTCCGAGAGGAATTTTCCCTGAAGCCCTCTCCTCCTGTAGAGCACTGCCTCTCATCGCTGGAACTGCCTGTGCATTTTCTGTTAAGCATTCAGAA
TGCTTCTTCACATACAATTTCTTTCATCTTCCTTTCTGTGATGTGAAGTAGTTAAATAAGCCCTGTATCCATTTAATAGAGGGAACATTTTAGAGGGATA
AGATAAATTTGGATTATAGATGATGATCAAAATGTTTTTTTAATTGAGGCAATGAGACCAAAAAGGAAACAAGACATTGTTAACTATTCCAAAGATTGTT
GCCAAAAGAATATAGCCACACATACCAAGGTGCATACCAATTAGCCACCTTATGTGATAGAGGGGACAAGAAATGGCTGCAGGGAATCGGAATCTCAGTT
TCTGATTAGCCAAACCTCCCATGTTCAGAGAACAGGAACCRATACTCTCCCCTTGGCCTCTTTCACGGAAGCTAAGAGGAGCCAGAGTAACCCCCGAGAA
GCCTTGGCTGGGGGGCCCGTAGGATGTTAGGAAGATGATGGGCTTCAGCGAGTGTTAAGTAGACATGAATTTATACGCAGATTTTCTGCATCCTCATGTG
GGCAAGTTACCTAGACTCTCTGAGCCTCAGTTTACCCACCTGTAAATTTAGTATGATAATGCCAAGTTCACAGATTGCTGTGAAGATTTTGAGAGAGACC
TCCAAAGAATCCCTTGACCTGGTGCCACAGCAGCCATAGGGCTGAGAGCAGAATTCCACCCACAGGTCAAGTGTCCTGGAAGCTGGGACAGACAACCTGG
TGGTGGATATGTGGATCTGTGGTCTTGTTTTCACACATGTGGCCACATCAGCATTGCACTGGGTACAACAATACAGCAGGCATTGGGAAATGTAACGAGA
GCATGTGGGAATRTTCCTTCTCAGCCTTCTGAGACCCTCTGCAGGAGCAGCTGTCATCCTTGACTGAAGGATTTTAAGAGCTCTCTTTGTCCATGTAGGA
GTGGCAGGGGGTTTACTATGCCAGACGGAAATCCGGGGACAGCATCCAACAGCACGTGAAGATCACCCCAGTGATTGGCCAAGGAGGGTGAGAGCAAACT
GTTCAACTCTTTTAGCTGRAGATAAAGACTCAAGGCCCTCATGGGCATTGGGCTTGAAATGCCAGTATGAGCCTTACATCCACAAATGCAGTAGGGTTGT
GCTGAATGTAGTATAGATCGAGGGTGCTTCCACTCAGCCGGCAGCAACCCCCAAACATGGTTTTCCATGTCTTTTATGAAGCATCACCCCAACCTCCCAC
CTCCACCTGATCACCTATGCCTTCTGTCATTCCCAGTGTGCTCTAAAGGGGCTTGATTTCTGGGCTTCCCTTTCCCCATAACAACAATGATCTCCTGCTG
GTGCTCTCTGGCCTCTGCACTCAGTGCATAGGGAGCCAACCTTTTCTCCTGCTTGAGGCCCTCGCTCCATGCTGGTTCCTCCAGGCCGGTTCTGGACTTG
TTCCTTGGAGGCCCACTGTTTATGGAGAGAAAGGTGTGTCTGACCAGGAGCTGAGGGCATCTCAATCCACTGAATCTCAGATTACCAGAGAAGCTTCTCT
CTTTTGTGGAGAGATAAGAAAAATATGCAATTCCTCTTCCTTCCTCCAGTTAAATTTTGTGAGATTTACAAAGCCAAACAGGACCCCCTAACCATACATC
ATGGTRAGCCGTGGGGAGCCAGCCTGAAGGTCAACACCAGGTTCATAGCTTGGGTGTATAAGGAACACRACGTTGTGTGACATGTCAGAAAAAGATGAGG
CCACAGTCWTCCTGCCAGKAACTGGAACAGGAGCCCCACCTGTGACTCTTAGGACTACCTGAGTTCCTTGCAAATTGTTGTATGAATAGAAAACGAGATG
TTTCATAAAATCAGCCAGGTATTTGTAATAGCTTGTTTCCCCTCCAATTTTGGTTAGTTTCAAAATTGCTCTCCCATCAATTCAGGCTACGTCCCGTCAA
TACCACCTGGTATTTCATGCCATTTTGTAATTTGAAGCTCCCTTTTTGCTTCACTCTGGATGATGGGGGCACTGACAGGCCCCTGACCGAGGTTGTGAGC
TGGAGAGAGGCTGCCCCTCGGCCCTCCTCCTGAGCAGCCTGGCCKCAGCGTGGCCATTCTCACCCACAGGCAGTGCTGAGAACTGTGGGGTGGAGATGAT
GCCCGTGACTGTCACATTGTTTTTATCCTCATCCTTATACCATCTCCTCAGAAAATCAAAGCTAAGAATCCCTTTCTGTGTGTGTGACCAGAATCATTAG
GCAACCAAAGCAGAGGAGACATGCTATTGCCTGGTAATTTCCAACAGAATACACTTTTCTGGTCTCTCTGATTTTACAGATAAGAAAAAGAAGTTCTTTT
GTCCAGACACAATTTCCAGTGTTATTTTCCCTGTAATTGTAGGCAGTGAGCTATCAGAGRCAATTCTTATTAAAAGTAGGGAAATTTTACCTCTTCCTAG
TTGGGTGAAGTTTATTACAGAGTAACCAGTATTTTATATCCTCTTTTCAGAGGCCTACAGAGAAAAGTGAACCAGGTAAAGAGAGAGAGAGAGTGGGATA
CCCCACGGGCTTCTGGGGGCAAAAAACCTAATGTAACTCTCTGGATTTCATGGTTTTACTCTCAGTAAAATATTGACTGTGAGCTGATTTTTGCATGGGG
CTGAGGCACCTGTCATCTTTTGCCCGGTTTTCCTTGTGACAGTGATAAAGAGTGAGGCTGCCCACTGAGTTTCAGGACCCAGTCCATGACGTTGAAATGA
GAGGATTTTTATCTGCCTGAGAAGTGCCATTATTATGACAATTATAGTGTGAAAGAATATGGGATATTTAATATAAAAACAGCAGCCATGAAATGTGGTC
ATTGTCCAAATGAATCTTTTGTAGCTATGCAATTATTAGTATCAGCAGAATTAAAACTAATTTATTTGTAGCAGCATTTTATCCTATCAACTGAAGATAT
CTAGGAACCAAACTTTAGGAGTCAGTTACAAAATAACATACCCATTAGGGAAGTGTTTCTGAGCCCTCTAGGATGTATAAAGGAGGCCCAGTTTCCAAAG
GCATGTGTGGGCTCTGTGTGAAAACTGTGTTTTCTGTAGATTGAGTCTTGCTTGAATTTTAAAACTGCCCTAGGACGAACCCTGGAGTTTAGCTTTAAGA
AGTCTGTTGACATTTTTATTTGCTGATTTGTTGAATCATCTCATATCTGACTCACTAATAACTGATTATTTGTTATTAGGAAAATTAGGCATTTTGTCTC
GCTCAAGAAACTGTGTTGTACCACTGACAATAATAAGCAGGTATGGTATTAGCTCACTTCGTTTGCTCTGTCTGTTTGGCCATGCGTCACCTCTGTTCTC
TGCTTATCTCACCACTGTTCTCTGCTTGTCTTTCTCCATGTCTAATTGTAGCTGCCAATTAAGCAGATTTATGGGAAAATKTGGTTCCTCTGACAAATCT
TTTTATTTCCCAGCAAACCTATATCACTTTATTTGTAGTGCACATCRGTTATGATTTAGCTTGTGGCTGAGGAWCTCTCTAGACTAATATATGAAGGCAT
AAAATTTTTCCTCCAAATAAAAAATGTTCTATTTTTATCTTAATTTCTTAATCAGTTGGAAAGTATATATCCATTTGAGCATTGCACCCCTACAAATTCA
TATCAAAAACAAGAATCATTCCAAATTAGTACTGCAATTTTTTCTTACCCTTACATCATACAGAAGAATACATCTGGATGTTATCATCTGCAGTAACAGA
ATTTTAAGAAGCCACTTTATTTAAGAACTTTTTAAGGTAATTTTGTAATGGAGGGCAACATTGGTGTAGGTATTTTTTCTATTTGATTAGTACTTTTACT
ACTGGATTATGTGTATTTTCACTTCATGCATTGTAATTTGTAGATTAACAATTATACAACAAACATAATTATCAGTGATCTATTTTTGAAAACTTACAAC
ATGTGGTCTTTGATTTTTATGAGGATTTTAAAGAGGGACAGTATCTCTAAAGGATTTCAAGGGCTTCTGTGGCATAATCCATTTTAGTAGAGGATGGCAG
AGATGTGTGAAGTGCTGGATGAGAAGGTGAAGCCCAGCCAGGCCTGGAGATCAACTGGAACCAGCAGGACGTGAGTAGACAGTGGGGTGAGCCCAGTGAG
CCCGTGAGGGTCTTCAGTCGGTTGTCTCAGGATATCAAAGGGGTCCACGTCCATGTGCTCCTTTATAAGATATAGTTGGAGATAAAGTCCTTCCTCCAGC
ACTGAGAATCTCATCTGAAATCAGGATGTTTTCACATAATACCATGAAGTCATGCAAGAGGCAAGTCCTTGGAGACCTCTGGTAAAGGAAAGAATGGCCT
TTCATAGGGAAAAAAAAGGGTTCCAACAGACATTTTGCTACATACCAGGAGAAAGAATGAGTTCTTCATAAGAGCTGACGCAGGCAGAAAGAGAGGGACA
GGACACCTGGTGTCTCTTTCGAGACAAACTTCTGAACACAAGCAGTGCAGACCAACATTTCTTGGCTGTGGATCCACAGTAGAGGACACAGGTCCACTGG
GGTTCATTCATTCTCATGCCAGAAATTGACCAAGCACAGTTCATGTCCAGTTCATGCCTTTCCCCCACCAACTCAGCCTTGCTCCTCTTCCTTACCTTCT
TTCTCACTTAATGACAGGGACCCCTACTCTCCCTGTCACCAGTCTCCCTGCAACTCCATGTGCCCAAGTCCTACCAGTCCTTCATGACCCAGTGCAAGAA
ACATTAAGTATCACCTTCTTTCTGAAGGCCCCTGAGGTACCCTCTTTGCTTTGTATCACCCACCAACCACCGCCATCATCTTCACAGCTATTTGCGTGCT
AAACTGCCCTCTCCCCTCTAGCAGGGCCACTGGTCTGTGCTGTCCTTGTGTGCCCACACTGCCTGGCATGTAGTAGGCCCTCAAGCTGGTGGCTAGCGTT
AATGAAACTGAATGTCTCAGTCCTGGCCTCCTGCCAGCTGTAAAGCCCTCCTGCCTCACAGGGAGAGCAGGCAAGCCCTTAGCACAGGACTTTAGGATAC
AGGGGTGGGGGGCCACCTGCTTTTTTTCTGAGGCTCTAAGTAGAAACGCCTTTACTACCATGAATTAGCTGCTGCTCCTAGAAAAGAGGAAATGCAGAGC
TCGGATACCCTGAGCCATTGACGTCACCTAATGGTACTGCACAGGCCTGGAGAGACATTTAGATTTTCTAATAACAAAGCATTTTTATACCTCTGGCTAA
CTACAGTGTTTTTCCTCTTCATCGAAGGAGGCTGCAGCGAATGGCAATGGGATCTGTGCTGGGGAGGGCAYCTGTCTGCAGGCGGTTCCGGTGGTGTGGT
TTTCTGGGGTTTAGCCCTGATGTCAAAATCGGCCCATGGGTTTGCATTTTAACAAGGTGTGACGTGGTAAGCCAGGCTGCTCTCTCCTGGTAAGGCTTGC
CGTCAGCAAAGATCCCTTTTCCTGTATGAGCCCTGTAGCTTTTTGCCAAGAGGCTGGAAATGCTCAGTGAGGTTTGTCTGTTGTCTTCCTCTCCTCTGCA
CACACACTTTCTCCCCAAATATGTGTTAAACACCTGTTCTGTGCTGGCACCAGGGACACAATGCATCTGCCCCCAATGTCAGGGAGGCCACAGACAGGTA
AACAGAATAAATAGAATGCAGCACAGAGGAAATGTGAATCAAGCACTGGAGRAGCTCAAAACCCAGGACCTAAGGAGGCTGTCTGGGATTTTTAGCTATT
GTGTAAAATAGGGGCCAAGAAACTAGAGCCTGCAGGCCAAATATGGCCTGTTCTGTAAATAAAGTTTTATTGGAACACAGCCACACTCTCTAGTGTGTTG
CACCTCTGGCTGCTTTCATACTGTGGTGGCAGAGCTGAGGCCATGTGGCCTGCAGAGCTTAAATATTTACCCTCTGGTCCTGCACAGAAAAAGGTTGCTG
ACTTCATTTCTTGAAGATAATTTTCTTTCTTGGATGTTCCATTTTCTTAGGCCAGCAACAGTCTGCCCTGACCTCCCAGAAGTACCCCTTCTCCCCTTCA
TACACTTCTTTGGGCACCTTTTGCCTTCGTGCTAGCCTCTGCGTCCTGTCTCAAAGCCTATCTCAGCCCCTGCATACTGGTGCGGACACGAGAACCTAGG
TCCCCTGAGGCTTTTTCCTTTTCACAAGGACAAAATCCAAATGCAAATTCATGGCTCARACTTCAGAATTTCAAGGATCTGCAACCATGGTCCAAGAGTC
ATATTGCATAGGGAAAAAAGGAGGCAGTTAGGGCCCTGACATTATATCTGCTCTTGTGTCTTGTTTTGTTTTGTTTTGTTTGAGACAGAGTCTCACTCTG
TTGCCCAGGCTGGAATGCAGTGGCACGATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAACTGGGA
TTATAGGTTTGCGCCACAGTGCCTGGCTAATTTTTGTATTTTTTGTGGAGATAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGG
TGATCCACCTGCCTCAGCCTCCCGAAGTGCTGGGATTACAGGTGTGAGCCAACACACCCAGCCATCAGCTCTTATTCTTGTTACATTTTTAATGTGGCTA
CTAGAAGTTTTAAATTACACATGTGGTTTGCATGTGTGGCTCACACAATATTTTTATTGGACAGACCTGGTCTGGACTTTCCCTMCCCTGCCAAATCCTA
TCACAGATTCACCTCACTTGCCCTTTTGCAGGTGACGGGATGCTAATGAGCTACAGACTTCCTCTCGTTTCTAGCAATGAGTCAGCTCCAGACTCACTGA
GCCTCCAGGAAAAGATASTGTAACCAGTTTCCCAGGCCCCTAGGAGGCTTTTACCCTCACTAGAGGACATTCTGATGGGTGCTTAAGCAAACCTATAGAG
AATGTCTTTGCGGGGAGATGCAGGGCCCCTTTCAATCATTCTCAAACTGCTGCAGAAAGTTAGGTCTCACTTTCTAGAGCTTGGTGGACAGTGGGGAGTA
CCATGTCCTACTGAGTGTACTCAGGCAAGGGGACACCACAGCCCTCAGAAAACTAAGCAGAAGTGGGATGCATGGGAGCCAGTGAGGGCCAGTGGACAGT
TAGGCACAGTCATCATCCCTGCTTGTCTGGGCAGCAAAGTGGGGATGGCTTATTCTCAAAGAGACCACACATGCTTAGAAACCCTTTAGCCATGGGTTGA
GATGGGTTTCCCAACCATGGGTTAAAGGAGATGGTCAGCCTCCCCTAATTAAAATGACCTCCTGCCCTTTTGTGGGAACAGAGCAAAGCTACCAGTTGAC
AGCTAGTAARATTTTTTTTCCTGGCACAGCCTGGCTTCACCAGCATGTCACAGAGGAGACTGCCCCACAGTTCTCACCAGGATCTAGGAGCTTCTCTMCA
AACCCAGCAGGTCCTGGATCATGGGCCTTGTCTGAGATGTGTGCGGTCTGAGTGTGACCAACAGGCTGCTCCACCAAGCACCGTTGGTCGATTTCTTTTT
TGCCTCGTAGGACTGTGCTCACAGCCCCCTGAACCCACAAGGACCCAAGGACTCAAGGACTCTGTAGTTGCTTGTGCCCAGTACTACAGGAAAGAGGCAG
GCTGACGCCATCTTTCTTTTCTTCCTCCCTCTTTTGCCTTCTCTCTTTTATCCACACTCTACCTTCAGTCACCTTCTGTAGGCCTCCAGACAGTCCACAG
ATTTTCCCATCCAGTCCTTACACCTTCATGGACCATCCTCTCAATGGGTTTCTGCTGCCTRCAACCCTTGGTGGCCCATTCTGGTTCCCACCGCCAGGCC
AGCCTTCTCTTGGGTGTGTCCTTGGCCTTCACTGCCCCCATGCCTTTACTCTCCCCACATTTGCCCATTTCTGTTTCTCTCATCCCTTACCTTTCTAGGG
GTGGTGTGGCCGATGGGCCTTCTCATGATTTGGGGCCTTCTCCTCCAGCTTCTGGCAAACCATGATCCTTAGCACTAACAGAGTCTAATATCTCATGGCA
TTCTCAGCAGAACTGAGAGAAGAGGGTGGTGGGGGTTCTGTTCATTGCTAAGTAGTGATAAAAACAAAATTTCAATTTGTCCTAAATTCCCAGTACTTGG
CTCTTTTACATGCTTTTAAATAGTGTGGACCTTTTGTTGCTTCCCTGTCCTTTAGGACTCAACTCAGCTTCTCTTCCCCCCAGGAAATCTTCCAAACCTT
CCAGCCCATGTCTCTACCCTGCAAAGAGGGAGCAGGGACACTTTTTGTCTGCACCACCCATTGGATCATTAATCTTATGCTGCTTTGGGTGAGTTCTCGC
CTTAGGGCGGGGACTGTGGGTTATGCCTCTTCGTACTTCCTCCTATGTATGCCCCATAGACATCAGGAAATTATTTTGAAAACTAGTTTTTACTCCTTAA
CACAATAACCTTTGGATGGCATAGGAAATTAAAGATGCAACTTCTGTCTTATCCCGAATTCTTATTCCATGTAGAGTTGATCTATATGTAGCCAATATAT
GTCTCACATGGTGTTACAAAGAATAGTTTCTGTACTCTTCCAAGGCACACATCCAAGTGTGACTTCTTTTTTTAAAAATTGGAGAAAAAGGCTACTGCAA
CTGAAAACATGACTGCAGTTATCTCTAAAAGCAGCTAGTCACAGAAATGTATTTTATGTAATTGGAATATTACTATGATACAGACTTTGTACACGTGCAC
CTTATTTGTGTGCCCCAAAATATTTATTGACATATTTGGTAAAGCCACAAGGTAAACAAAATTATCCAAATTTTTCCATTTAGCTTTAGTACGTATTTAC
AAGAATCTATTTAAAGAAAGGCCTCTGATATTGCGAAACCACATTTTTTTTTCCTGAGAAACCACGTTTGGAACAGCCAACCCCCGAGCAGACATGAATG
GAATACCTGCTACACATCAGGGACTGTGGGAGGCTCTGAGGGCACAAGATAAGCAGGGGCTTGCAGCCGGGAGGAGGGGACAGGGGTGGGGGTACTGAGA
ATCCAGGGGTAGGATTCTGTGTTTGAGAAGTCTTGACTTAGAGGAGGGAGAGACAACTTCACGCTTGGTGGTGATGGTGGCTGCTGGAGGTGATCATGCC
AGGCTCTGTGAAGTTCCAGAGCATCTGAAGCTGAGAGGGGGCTCTCTTGGCTTGCGAGGGAAAGGGTAAACCGATAACATTCTGGGCATGTGCACCTACC
CTGAGCATGATGTGAGAGGAGGCTGCCTAGTTTCAGGTAGACACAGGTGCCCTTTGCCCTGGCAGAGAAGSTTACCCTCATGGCCYGCAGGACAGCAGGC
TGGGGGGTGTCTGCCCTGCACGGATGGGGTTTTTTGACCCGTCTGTTCTCTCATTCTATCCTTTCTGCTACATCAAGGATGTTTATAAGGCAATGGATGT
TTGTTTATAAGGTATCCCTATGGTGGGGATAAGTGGGAGGTGGAGAATGGGAAAATCAGAGGGAAAGAAGCTATAGGTCTGAGCTGGAAATAAAGTGTCT
CCTTGTGTGAGACCAGTAATGCCTGCTCACCAGTAATAACCAGCTTCAGCAGGGACCCCCACCACCCCACCTCACCCTTAGCTGAGCCTCAGTCCTGGAG
GCCTAAACATAGAGAAAAAATAATTTGACTTAAGAAAAGTAAGATAGACTGCCGGGCGCGGTGGTTCACGCCTATAATCCCAGCACTTAGGGAGGCCAAG
GCAGGCAGATCACGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACGAAAAATACAAAAATTAGCCAGGCGTGGTGCACC
TGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTAAATCCAGGAGGTGGAGGTTGTAGCAAGCCAAGATCATGCCGCTGCACTCCAGCCTG
GGTGACACAGCGAGACTTCATCGCAAAAAAAAAAAAAAGAAAGAAAAGTAAGATAGGTTTGGTAATGGATAATGAACAGACATAGCTGAGCTATTTCTTA
AAAATTAATGTTATCTATTCATCTCTAATGCATTGAAGACCACTAGGATTTAAAGAGGAGTATTATGTTGGCGTTTGGGAGGAGGGTTTTTTCCCGATAA
GTTTAACTAAAATTCCAAAGKTTGCACTTCTACATGACTTGTGTCATTCAGACTATTACAAGATTCTGCTCACTCYGGAGGCTTGTACTAATTAAGCCCA
AGAGACTTACAGTACCTTAGGCCTGACTTCTGTTAAAGTTTTACTTAATATACCAATTTTTAGGCCACTTATGGGTGTTAGCACTCTATGGAAAATTTTC
TTTTTCCAAAGCAACAGTTGGTGGCTGACTTTTCAGAAGGAATTATTCACCTCACATGAAGGAATCAGTTTCTGGCATTTTGCTCAACCTAAATCATCCA
TTCAGTGAGCATGCATGCCTGCTGGCACTTGGCCCAGTGGAAGATACAGGATGGATGAGACTGAAGTCACTCCTTGCATCTGCTCTTGCTAGAATAGAAT
CCCTGGCTTGGCTAATGAGACCCCCATTTACCCAGTCACCCCCATCCTAACCTGGGAACCACCTTTAGCATCCTTGCTTTCCTGAGCCCCCTGCATCCTA
GAAGCCACTTAGTTCCAAAGGTGATGTCTTTGAAACAACTCTTGACTCCATGCCCACTTCCCAACCCACCACCACTTCCTTTAAGCCATTRTGACCTCTC
ATCCTACAGAGCCTCATGACCACTCCCTCTGCCTCCTTGTAATGTGTGCTGGAGCCAGTTCATACTGACTTGTGAGAACTGATTGTTTAATTTTCTGGTA
TTTTGTGATTTAGTGTTAAACCAGCCATTATTAAAAATTAAATTATATAAGCATGCATTTAAGCAAATTTTATTTGTAAGAAGTAATAAGTACTTACATT
CCATCCCTTCCCAAGCACATAACTATATTTTACTATCATGTGTGCTCTTGACATTTGTACGTCTGTTTTATCTGTATTATGGAAATGCCAGATAAAGCTG
TGCCCTGCACACATCTTCCCAACTCCACATTCAGTGACATCATTCTGGCAGCTTTAAACAGCCATGAAGGGAGTATTTTTAGATCAAGAAAATTGGCAAA
CTCTACAAATCAGGACCTTTTTTTAATTGATTTTTCTAGACTTAAAAAAATGATGAAGAAAATGTTAATAATACAAGATAAACTTAAATGTGTATCATGT
CTATAGTAGTTTCATTGTGAATAACCCAAAAATATCAAGAATGATTCCCCCAGTATTTACAAACTATTATTTGATTCAACAAAGAAGTTCCTCACATCAC
TGACAAATGAGTGAAATTTCTATGTACAYCTTTGTTATTTGTCTTTCATCTTACTTTTTTTTTTTTTTTTGACATGGAGTCTCGCTCTATTGCCCAGGCT
AGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCCGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCRCC
CGCTACCTCACCCAGCTAATTTTTTGTATTTTTAGTAGAGATAGGGTTTCACTATGTTGGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGC
CTCGGCCTCCTAAAGTGCTGGGATTACAGGCTTGAGCCACTGTGCCTGGCCCTCATCTTACTTTTTGATGTAAGTGAAAATATCAACTAACATTTATGCC
AAGACTCCACTCATTCATTAACTGTAACCATAAATTGGCTGCTGATACAAGAGGTCAAAAAAACCAGCAAAAGCATTTTGTGGGAATCCATTGGCTATAT
AGACTCTACAACCAAGAGTGCCTTATATTTGAATATTGTTTTGAAATTGTGTGTTATACATTCTTTGTATTAGGGATTGGGAAATTTATTTCTTAAAGGG
CCAGATAGTAAACATTAGGCCTTATGGTCTCTGTCAAACTGCTTAACTCAACTCTGCCATTGTAATGGGAAAGCAGCAATAGATGATATATAAATGATGG
GCAAGGCTATGTTCTAATGAAATTGTATTTACAGAAACAGGTGGCCAGTACATACTGACTTGYGAAAACTGATTGTTTGATTTTCTGGAATTTTGTGATT
CAGTTGTTAAACCAGCCATTATTAAAAATTAAATTACATAAACATGCAATTAAACAAATGCTATGTTTAAGAAATAATAAGAACAGCCCATCCCTTCCCA
AGCACATTACTATAGTTCACTATCGTGTTAGTAATGTCAAGAGCATACATGATGGTAAGCTATAGTAATGTGCTATGTGGCCATATGCTAAATTATGGCC
TGGACCGTAATTTCCTGACCTCCGCTTTATATCAGTAAAATGTRTAATAAACTTATGTTCGGCTATCTTTGCTTTTTCAGCAAGCTGGTGGTTAAACTCT
TAGCAGCATACTGTTGACTACTATCCTATCTGGTCCCCAGTCCTCATTGTGAAGGGCTCAGTGGTGGTTCCTCATCACTGACTAAACCATCATCAGGCAT
CTTTGAGGAGCACGCTCCTGACTTCCTGCCCCGCTTTCCCTGCCACCTTCCCAAGTCACACTAGGCTGTTTGTAGTTCTCTGGACATGCCAGGCTTGGCC
ATGCCTCTGTGTGTCACTCCCTCTGTCTAGCATGCTCTTCCTTCCTCCTGTCCTCCTGGAAAAATCTTGGTCCCCTGAGCCAGGTCAGGAGCCCCCTCTG
TGACTGCCCCCGGCCACCTCTCTCCTCCTCCCCGCTGTGGAGTGGATTTGGCACTGACCACACTATCACTGCTCAGCCTGACCAGACCCTCCAGGGCAGC
ATCATGTCTTGGTCGCTGTGTCCCCATCTCCCACTGATGCTGCTGAATGCACTTAGTAAAGATTTGATCAGTGGAGCTCATGGAAGAGCCTATGTTTTAG
TAATCCAAGTAAGATGTCTTTCGTGTTGACACTTTGTATCTGTTACTCTCCAAGTGCATTTCATACATTAACTCCTGCAATCCTTACCACAACTCCAGGA
GGGAGATACTAGGCTCCCCTTTCTACAGATGAGGAAACTGAGGCTTGAAGTGGTCAAGAAGCCTGTCCAGGCTTCACATGGGATGCGTGTGGCAGAACCA
GGATTCTAACCCTAAAGTAGTTAGCAATATGGAAATAAAGGAAGCACAAGTGTATCTTCGGAGAATTCATAAGAGAAAGGTTTCCCTTGCTTGGGAAGTG
AGGGGATGACTTCATAGAGGAGGTGTTGACTGACGTGGGTTTGAGCAGTGGATAGAATATGTCATTGTAGGCCTGGTGCGGTGGCTTATGTCTGTAATCC
CAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGTTCGAGACCAGTCTGGCCAACATGGTGAAAACCCATCTCTACTAAAAATACAAAAA
GTAGCTGGGCATGGTGGCGGGTGCCTGTAATCCCAGCTTCTCAGAAGGCTGAGGCAGGAGACTCACTTGAATCCAGGAGGCGGAGGTTGCCGTGAGCCGA
GATCCCACCATTACACTCCAGCCTGGGTGACAGAGCAAGACTCCATCGCAGAAAAAAAAAAAAAAAAGAATATGTCATTGTAGGGAGAGATCCTCTGCAA
AAGTGAAAAGGCAACGAAAGGCAGGAGAGGAGATAATCAAGCATGGCTGGTCCCCTCAATGTGTAGAGTAGGGGAGCTTGAGCTGAGGGTACAGTTGGTG
CCCAGATGCTCAGCTGCCCACCTGGCTTGGCCTGGCTTCCTCCACAGTCCATACCCTACCTCCAGGTGCTTCAGGGTCCACAGCCACCCCAGTGGGTGTT
TGGGCTGAAGTAGATCATGTCATGTGGATGGGCCTGTTTACGTGATGTGCCATGGAAGGGAGTGGCAGGTGGGCAGCTTGGAGTGAAAAGCTAAGAGAGT
GAGGTAGCTAACTGCATCTGTACGGAGAATCCTGGGTCTCTTTTATGGAAAACTGGAGGCCCAGACCTGCGTAGCTCCTTGAAGGCCATGAGAGCACCTC
GTCCAGGAGTGGGCAAGGTTGGGCATGCAGTAATGTAAATGGAGTAGTAAATGTCAGCTCTGACTGCAGCATTTCAGTTCAGCTTTCTACCACACTTTGG
AGGTATGCAGCCAACTGCACCTAAAACCCAGCCATTGTACCACCTGCTTCTTTGTCTATAGGACCCTTTATTTCTAACATGGTCAAAGCAGTGTTCATCA
CATAAGATTAGACTCAAGCGTCTGGATCTTCGCTTCTGTGGTGCCTCATTTAAATAATTTCTAAGAACAAAATTCCAAGAGGTATGGTTTCCTCTAGTGC
CATTGCTTGAAAAAGAAGTGAGGAGGAGGAAGAATTTGAAGTGTTCTTCCTTCCGCTTCTCACCCTGGTTTGCTGAAGGCTAGGTTTCCTGGGTGAGATT
TCAGAGCCCAGCTCCAGGAAACTGAAGAAAGTATGCATTTACTCATCCTGACCAGCTGCACCTAAACCCAGAATCACCATGTAAGGAGTGGCTTCAACTT
TTCCTCATTATTTGTTAGTCAAACAAGATGGCTGCAGGATGGGAGGCTGAACAGCTGCAACGTATGTACTCGAGGGTCTGGGGAGGAAGAAAAGGGCCAG
GTCTCAGTGGGTGCCATTAGTTCTGCAAGTGCCTTTTGAGCACTTTCATAGCAAACACAACCCTGAACTATGGCACGATGAAGAGAAAGCACGGGGGAGC
CTGCTCTCAAGCTGCTTTGGGTCTAGTAGAGGTTTGTGAGAAGGTTTCAGATCACTGGAACTGTTGAAAAGAGTTTAAGTCTATTCGCAGAGCTTTGGCC
CACAAGTTACAAAGGAAACAAAAGGCAGATTCATAAGAAGCCAGTTGTAATCCATAGGGAACACTGGACCTGTCTGATGGCGGAAATCCCTACAGGAGGA
ACGTTCACATCTACCCACTGGTGCTAGGGAACAGCAGCTCCTTCAGCACCTGTGTTCGATGAGGAGGAGTGTGGAAGGGCTAACATAGTGGCTCCCAACC
TTGGCTGCACATTGGAATCACCTGGAGAATTATCAAAGAAAACAACAACAACAAAAACAGAGGCTCTGATAGATTGGGTCTGGGGTGCAGTCTGGGCATG
AGGATTTCTGAGAGCGCCCCAGGGGATTCTGATGTACTGCTGAGGGTGAGAACCACCAAATTTCTGAGTGAATTAGATCTGGCGCGATCATGTTATATTA
GGCTAGGGAGCTTTCCTGCTGGATGTCTTGGAGGGGGACAAGACTGATTTGACCAAAAACTCCTGTTAGGGCAGGCTGATAGAAGGATGGCCTTTGTATA
ATTCTCACAAGGAAGACCAGGCCACTGTGGAACTGCCAGGGGTAGGGACCATGCCTTCATCGTCRTCATCTTATATCTGTCTCCTAGGTCCTGGCACACA
GAAAATATCTATTGAATAAATACTTGCATCCAGGCAGAGAGAAGCCATGGTGTTTGGGTAGCAGCAGTGGTTTCTGAGAGACAGGGGCCTGTGTGTGCCC
TTCCTCAGGCTTTGTCAGGGCCAGGGAGCTTGGAGCATAGCTTGGGCTTCCAGAGCAGCCAGTGGCCCAAGAGAAGTCTGACCTGGGCAAAGCTGCTCTC
CTCTCTGGACTCAGAGAGCACTGTGATGATGTGGCTCTSCCTGTCTTGTCAGCCATGTTTCCAGCACTTAGCATGAAGCCTGGTGCACAGGAGGTGCTTC
CGTAGGGGTAGATGATGTGCTGGGCAGTCAGCCCTCTTCCTGGAACTGGCTTCAGGCACCGAAGCTCCTCTATCTGCAGGGCCTGACCTGAAGGCACTTT
ACTTCCTGATTACAGTGAGATTTGGGGACAAATACAACAAAAATTCATTCCACAGTCTACACCCCAAGCCCCATTATCTGATTCAGCTGACAGGTTTTTG
GGTTTTTTTGTTTTTTGTTTTTGTTTTTTTCATGTCTCTTGCACATTAATGTTTTATGGTTTGAGATTTGATAGGGGAAGTAATAGTGTGAGTGGGATTT
ATACAGTTTCCTGCTTTAATTGAAATTAGAAAAATTCACCCAACATCCTTTAGGCTATGAGAACTTTGGTTTTTTTWAAAAAAAATCTTCAATAGATCAT
CGTCCCTGCGACGCTGCACCACCAAAACTCCAAGTCTTGTTTCTCTGCCTGTCACTACTGGGCTCTCAGGAGATGCAGCAAACGGCTGCCCCCTTTAGCC
ACAGAAGCACAGTGTTCTGGGTAAGCAGTTGAGGGGTAAGATCCAAAGCATGTGCCAGTGTATCACCATGGGGTGAGAGTCCAGAGACAGCGGTTGTTGA
GTAGGCCCTGGGGTCGGTCAGCTGTGCCAAGTGGTCCAGGCTCAGGCAGGGGCAGCTTTTTGCATTAGAGGGCAGATCACCACTGCTCCACTGCTGTCAG
GGGCTCTTCCTCTGTGCCTAAGAACCTTGGCGCCTATGCTTGGGGAACTCACTGCTGTGGAAATACAGCCTCGTGGGTGTGTGGGGGTCTGCCTGGCCTG
CAGCAGCTCCATGAGGCCAGAGCGGGGCCTMTGTATGTTCTTTCATCTTCTGATGAATGTTGTCCCTCAGAGGGAATTGTCTGAACAGTGGCCCCAGAGA
CATGTTYTATATTAGGAATTTAAAGTGACATTAAAAACTGCAACATCTTTAAAACATCCAACCAAAGGTTCTAGGGGCTTCGGGGCTCTAGGCCTTGCTC
CTGGATGGCAGCCCCCCGGTGGCCATCAAGGGCGCTTTGGTCCAGATGTCCCCTGGGGCATCTGTGCAGAGAATGTGCAAGGTCAGGCCCAAGTAGGCCC
TCCAGAGGCAGAAGCTGATGATGACCAAGGGGGTCCAGGCCCCTTGGGGCCTCTCAACTCATTAGCTTCTATGGGGCCAACAGGGTAAAACTGTTGGGAA
AATGGACCTTTCAAAAATTCTTTTTAGACAATGTGGACTGTTATTTGTAAACTTAGAAAGAGGAGGGTATGCTAAAACATTGTTTTCTCAAAACACACAG
ACACACACACACACACACACACACACAAATGTCTTCACATAAAAAGGAAAGGGAAGAGAAACTTCCTCACTGTCTTCAGAATTCAGTTACTCCTTCACAG
CTGCTGAAGGTGAGCAGCGTTGTGATGAATTCCTGGGGTACACTCTGGTTCCTCTTGATTCAGTGGTGGAGAGTGTAGAAGCAGATGCTGCAGCCAGTGA
GTGTCGTCCCTTGTGGAGTGGCCAGTGCAGAAGTTATCCCTTCCCCTTGTGTTTGAACTAATCTGGGGCTGAAAGCATACTTTCCAGCTAGTCTTCCTGG
TGATGACCTTGACCTTTGATCTGGAAATACCAACTGGAAGCCTGGGGAGTTCCTTCTCTTTTTCTCTCTTTTTTTTTTTTTTTTTTTTGACAGAGTCTCG
CTCTGTCACCAGGCTGGAGTGCAGGGGCGCAATCTCGACTCACTGCAACCTCCGACTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCT
GGGACTACAGGCACGCACCACCATGCCCTGCTAATTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGATGGTCTCAATCTCCTGACCT
CATGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCACGCCTAGCTGGGAAGTTCTACCGTTTTCTAAGGCTTCCAGCAAC
ACTGAGTCACAGACCTGGGTGAGTCATCTGCACTTGCAGCGTTCTTCACAAAAGCCCCCAACTTGTTCTCAGTGCTGAACTGGCTCCCCTGGCCATCTCT
CTGGCATGTGATTGTCAGGGCCAATGAGGCTGGCATGGCCTTTGTGACTAATATGTCCCCATGTGAGAATAAGAGATAAGTTGGAAAACATTTGATTCCC
TGGAGAAGTCTTAACCCTTGGCCTCCCATTTTCAGTAGCAGCATTTAGAGAAGAAAGTGTAATTTTGTGTTTGGTCTTTCAAATCCATCTCTCTTATTCC
TTTGGAAGCATCTTCACTTTCTCCAGAATCACTGTATTAAAGCCATTCCTCCTCTCCCAATCCATCCTGCACCCCCTTCCAGATTCATCTCCCCAAGATA
ACACTTGACTCTTTTATTTCTGTCTTAAAAACTTACACTGACTCCCTGTTGTGTATAAGGTCTGTCTTGCTGACTTAAAGTCCCAGCCCTTGATCCTTTA
CCCTTCCCGTGACTCCTGTGGAGCCTGCACTGTAGAAGGCTCAGCTTCTTACACCCTGTTACTCCTGGCTCCTGATCCCCAGGTATACTGCATATTCAAA
GGGCAATCTAGAAGTCTGGTCCCTCTCATGGAATGTTCCCTTCACGATAGCTTACTGTCCTTTCGGAGCCCTGCTGCACTTGCTGGCTGCGTCACACAGC
CCAGCACTCAGCCAAGTTTTGTCTCACTACACAGGTCATCCCAGGCAGCATTCAGTATCTTCTCCATCTTGACCTCTTCTTTCCCCAAGGGCCTTACAYG
GTGCTAGGTAGGTGACTAATACATTCAGACTAAATTAGATTACCTGAAATTATTCATAATTAGGTTACCAGCATCATGTCTTATAAATCAATCACTAGAA
AGGCACTTACTTGATGAGCTACACAGAAGGAATAAGACAGCCCCTGTTCTATTCTACTCTTATTAAGTCAAGTGGACAATACTCAGATATATGGAAACAG
AAAGAAAAGCAAAGAGGTGTGGYTAGACCCCATCTTAAAGACAAAAGAAAAAGAAGAGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGG
AGGCTGAAGCAGGTGGATCACCTGAGGTTAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGC
GTGGTGGTGCAGGCCTGTAATCCAAGCTATTCCAGAGACTGAGGCAGGAGAATAGCTTGAACCTGGGAGACGGAGGTTGCAGTGAGCYGAGATCATGCCA
CTGCACTCCAGCCTATGCGACAGAGCGAGTCCACTGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAGAGATAGACATAAGAGATGTTTTGATCAAAACATT
AACCAGAATGTTTTTGAAGTGAGGTATTGAAGGGTGAGATGGAAAGAAGAATAAAGAATGGCCCCACCTGAGTAGCAGGGCATTGACTGTTCCATRAATT
CCAAGGTGGAAGGAGTATCACAGAGCCCTGAGYGAAGGTTTCTGCTGGACAAGAGAAGCAGGGAGGATGAGGGTGTGCTGGACCGAGGTGACATAAGAGC
CAACGTCTGGCTAGATATGCAGAGAGAGGAATCCAAGGAGATCCGAAATGGCATGCTGTATCTGAAAATAATGAAGTGTAATACAATAATATTTTATTGA
GTGTTTGTTTTGGGACAGGCCCTAGACTGTCTTAAAGGCATCGTCTCAATTAATCATCTTATCAAGCCCATAAGATAGTATTATCCTTATTCAGCAGATG
AAGAAACTGATACTCAGAGAGCAGTTACACAGCTAGCAAATGTGCAAGCTTGGCATCATACCTCGAGACCACTACACAGCCCTTCCCTGTGGTGCCTTTG
AACAAATGTTTTCACTGGCACAGGCCACTCACAACATGAAGTACACTCAGCCACTTTTTGTAAGTCATGGGGGAAGCAAACATTGTGAAAAAGACACCCA
GAGCTCACCCTCAGTTCACATTCCAGCCAATTTTTTCTCAAGCATTTTATTGTGAAAATTGTCAGGCATACAGCAAAGTTGAAAGAATTTTACAGTAAAC
ACCTGAATAACCACCACCTAGATTCTACCGTTAACATTTTACTATATTTGCATTATCACATCTCTTTAAATATACATCCCTCTGTACATCCTTAATCCAT
CTTGTTTTTTTAAAATAAATTTCATCTATTAGTACTTTTCCTCCTAAAGCCTTTAGCGTGCATATCATTAGCAACAGTTCTATATCTGCTTACATTTTAT
GTAAAATTAACATACAAAGAAATGCACAAATGGTAAGTGTACCTTTGTGTGACCTTTGACAAATGTATACACCTTTGTAACCTAAACCCTAAGAAGACGT
AGAACATCACTGCCACTCCAGAGAAGGTCCTTCTTCCTCTTCCCAATTAATGTCTGTCCCCCAGTCCTCAGAAGAAACCATTGAGCTGATTTTATCCACC
ATAGATTAGTTTTGCCTGTTCTAGAATTTCATCTAAATGGAGTCACAGTATTTACTCATTCGTGGAAGGCTTCTTTCAGTCAATATAATGTTTTTGAGAT
GTATTTATGGTTTTGAGTATATGATTTGGTTGCTTTTTACTGCTGAGCACTGTTCTATTGCATGGATATACCACAGTTTGTTTATCCATTCTCCCATTGA
TGGGCACCTAGATTGGTGCCAGTCTTGAGCTATTATGAATAAAGCTGCTGTGAATATTCTTATACAAGTCTCTTTGTGAATATATATTTTTATTTCTCTT
GGGAAAATACCTAGGAGTAGATTTGCTAAGTCATGGATTAAATGTGTGTTTACTTTTGTAAGAAACTGCCAGTTCTCCCAAAGTAGTTTTTAGCATTTGA
CATCGCCAAGAACAATGTATGAGGGATTCAGTTGCTGCACATCCTTGCCAACAGTTGGTTTGCCAGTCTTTACAATTGTAGCCATTTTATTAGGTGTGCA
GGTCTTAATTTGCACTTCTCTGATGACTAATAATGTTGAACAATTTTTCGTGTGCTATTGGTCTTTTTTAAATGTCATCTTTTGTAAAGTGTCTACTCAA
ATCCTTTGCTATTTTAATTGGGTTGTTTTATTATTGAGTTGTATTAGTTCTGCATATATCCTGATGAATACATCAGTCTATTACTAGGTGTATGTTTTGC
TCATATGTACTTTCACTCTGTGAGTTTCCTATTCATTTAACAGTATATTTTAAGAAGTTTTTAGTTTGATAGTTTAATTTGTTAATATTTTATGTTCGTT
GTTTTCTGTGACCTACCTAAGAAAACTTTACCTACCCTCAAGTCAGGAAGATATTTTGTATTTTCCTTTAAAAACTTAGTGGTTTTACATTTAGGACTAT
CATCCATCTAGAGTTAGTTTTTGTGTATGGTGTCAGATGGGATCAAGCTTAATATTTTTCCATTTGGATATCTATTATTCAAGCACCATTTGTTGAAAAG
ACTTTCTTTTCTTCATTGGATTGTTTTGACATCTTTGTCAAAAGTCAAATGAGTATGTAATATTGATCTGTTTCTGGACTCTGTTCTTTGCATTGATCTA
TTGGTCAATCTACATATTGCATGCTTTCTTAATTACTTTATAGTAAGTCTCAAAGTCAGGTAATGTAAGTTCTTCAACTTAACATTGCATGATTTGGTAT
TCTATGTCCTTTCAATTTCTATATAAATTTTAGAATTAGCTTGATAATGTTTCCCCCAAAAGCCTGCTGAGTTTATTTTTAGGATTACATTGATGCTGTA
GATCAATTGGAGAGAATTGATATTTGATGATATTGATTCTTCCAGTCCATGATATGGGGTAGTTTTATGTTTGTTTGGATCTTCTTTAATGTCTCTCAGC
AATGTTAAGTAGTTTTCAGTATAGAAGTCTTGCATATCTTTGTTAAATTTATTTCAAAGTACTTTATGTTTGCTGATGTTGTGACAAATGGAATTGATTT
CTAAGTTCATTTTCTAAATGTTTGCTGCCAGTACATAAACATACAATTGATTTTTTGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAACACTTTGGGAG
GCCGAGGTTGGCATATCACTTCAGGCCAGGAGTTTGAGACCAGCCTAGCAACATGGCAAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGTATG
ATGGTGCACACCTGTAAATCCAGCTACTCAGGAGGCTGAGGCACAAGAATTGCTTGAACCCAGGAGGCAGAGGTTACAGTGAGCTGAGATTGTGCCACTG
CACTCCAGCCTGGGTGATAGAGTGAGATTCTGTCTCAAAACAACAACAACGACAACAACAACAACAAATTGATTTTTAAAATTAGCTTTCTACTTGTGAA
CTTGCTTGATGGATTTGTTAGTTTCAGCAGCTGCTTTATAGATTGCTTAGGATGTTATACACAAAAAGTCATGTCTTTCACATCTATTTAGGATGGAATC
TTGGTCTGTAGTTATCTGTTTTTTGGATAATGTCTTCATCAGGGTTTGTATATTAGGATTGTGCTGGCCTATTAAATGATCTTGAAAATATTCCCTCCTT
CTCTATTTTCCGAACAAGTTTATATAAGACAGGTGTTATCACTTCCTTAAATGTATGATAGAATTCACCTGTGAAGGTATCGTGGCCTGGAATTTTTTAT
GCGGAAAGATTTTTCATAAGAAGATCTTTTTTCCCCTAAATATAGGAAAGTTCAGTCTTTTCTGTTTTTATGTCCATACAGGTGAGTTGTAGTTTTCAGA
GAATTTGTCCATTTCATTTAGGCTATCAAATTTTTTGGCAAAAGTGGATCATAATATCCTCTCATCATCCTTTTAATGTCTGTAGACTTTGTAGTGTAAG
GCCGGGTGTCGTGSCTCACGCCTGTAATCCCAGCTCTTTGGGAGGCCGAGGTTAGGAGTTTGAGACTCAGCCTGACCAACATGGTGAAACACCGTCTCTG
CTAAAAATACAAAAATTAGCTGGGTGTAGCGGCGTGCCGCTATAATCCCAGCTACTCAAGAGGCTGAGGCAGGAGAATCACTTTAACCTGGGAGGAAGAG
GTTGCAGTGAGCTGAGATTGCACCATTGCACTCCAGCCTGGGCGACAGAGTGAGACTTCATCTCAAAAAAAAAAAAAGAATTTGTAGTGTAACCTCTCTT
TCATTTCTTTATTTGTGTTTGTGTCCTCTCTCTTTTTTATTGTTCTGTCTAGGTGAGATTTATCAACTTGGTTGATCTTTTTGGAGAACCAACTTGTAGG
CTTTATTACTTTTCTCTATTGTTAATCTGTTTTCTATTTTGTTGCTTTCTGTTCTTATCCTTATTATTTCCTGCATCTCTTTTACTCAGCTTGGTTTAGT
TTGCTCCTTTTTTCTAGCTTCTTAGGTAGAACCTCAGGTCATTATTATTATTTTCTGACAATTTCATTGAGGAATAACTGACATACATTAAACTGCACGT
ATTTAAAGCATACAGTTTGATGAGCTTTGTTGTATGTACACACCCATGAAGCCATCACCACAATCAAGATAATGAACATATCTATCAACATATCCCCAAG
AGTTTCCTTGGGTCCCTTTGTATTCTTTCCCTCCTGACCCTCCTTGCCCTCCTTTATTTCCAAGCAATCACTGATTACTATAGAATAATTTCCATTTTCT
CGGGTTTTATGTAAATAAAATTAGAGAGTGTATACTCCTTTTTGTGACATCTTTCACTAAGCATACTAATTCTGAGATTCACCCATGCTGTTGCATTTAT
CAGTTTATTTTCTTATTGTAATAGCTTTATTGAAATATAATTTACGTACCATACAATGTATCCATTTAAAGTGTACCATTCAATGGATTTTAGTGGTTCA
TTTCCTTTTATTGGTCAATATTATTCTAGTGCATTAGCTATCCTTTTTATCATTATAAAATGTTCTTCTTTATAGCTGGTGATACTATTTTTTCGTTTTT
TTGAGACGGAGTTTTGCTCTTGTTGCGCAGGCTGGAGTGCAATGGTGCCATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCC
TCAGCCTCCCGAGTAGCTGGGATTTACAGGCATGCGCCACCATGCCCAGCTAATTTTGTGTTTTTAGTAGAGACTGGGTTTCTCCATGTTGGTCAGTCTG
GTCTCGAACTCCCGACCTCAGGTGATCCACCTGCCTCAGCTTCCAAAGTGCTGGGATTACAGGTGTGACTCACTGCACTTGGCTGATACTCTCTATCTTG
TAATGTATTTGATTTGATAGTAATATAGCCATTCCAGCCTTCTTATGCTTGTTTGCATGATGTATCTTTTCCCATCCACTTACTTTCAATCTGTGTCTAT
TGAAGGTATATTTTTTATGGAGAGTGTATAATTGGCTTTTCATTTTTTAATCAATTCATATCTGCCTCTTATTTGGAATGTTTAGTCCACTAACAGCTAA
TGTAATTATTGATATGGTTGGATTCAGGTCTACCATTTTAACATCTGTTTTTTTTGTTTTATTTTTATTTTCTTTTATATAGGTATTTTAGATTATTTGA
ACGATTTTTAAAAGCCATTTTATTTATCCATTGGTTTTTTAGTTAAATCTCTTGGCATTTTTAAGTGGTTGTCCTGGGGATTACTATATACATCTTTAAC
TACACAGTCTACTTAGCCTAATATGGTACCAATTCATGTGAAACATAGGAACTTTTGAAACTGGAAGTCCATTTACCACCTTCCCTTTTATCCTTTATGT
TGCAGTTCTCATACGTTATAAATCCCATAATACGGTTACTGTTTTTGCCTTAAATGCATGTGTTTTAAAGAAATTAAGAGAAAATTTAATCTACTATGTA
CCCAAGTATTTGCCATTGAATCTTGAGCACTGAAGATCGGTGAGAAGGCAGCATACACGCTTGTTCTGTCCTTCACTCTGTCTCTGGCTAATCCTGTGCC
TTTGGGCAAATCCCCTAAGGACTTGGCCTCAGCTGTCTCCCTCTGTAGCAGGTCAGTAGGTGTCTTTGCCTACAGACTACAGACAGAACCAGATACACAC
ACACACACACACACCCAACTCTAGGTTCTCTAATTCTTGAGAAATTGCATTGTTAATGTGGATTTTAGACACTGAAACAGTTCCCAGAGGATACAGCTGT
TTTTCCCAGGAAACTTTTACAATAGCTGCCATATACGTGATGGTGTAGTCACTGTGCCATTGCCCCTGATGTGGACACTAACGAAGCTCTCAGCTGTGTT
TCTAGGACTTCTACTGGCAGTTTTTGTGCGTCCTGCCCATCCTTCTCTTCTGAGATAGACCTCACCTGCAGCATCAAAAGGAGTAGTTTTATCTCTTGAG
GGAGCTCCAGGGCCCAAGACTGTGGGAACCACTGCTGCTTGGAGGCACAAGATGAATCGCCCCAGGCAGGGAGGGTCAGGTTAGACAGCTGGGCCAGTCT
AAACTGTTACCTGGACAGAACCAAAACTTTGGCAAAAAGTATTTAAATTCCTGCTTTCAGACATGAATTTCAGCTATGTTTTGCTGGCACATTTTCAGCA
TAATAGTACCAGAATCTGCCAAATTGAAAAGCTAGGAGAGAGGACATCAAACTTCTCTTTGTTTAAAGTGAGAATAGGTCCCATGGCTGCATTTGCTGCC
ACCTGTGCCCATCTCCCCTCCATCAGCCAGGCCACCCCAGAAAGTTAAATCCCTCCTTAATGTCCTCCTGCAGCTAGCCTGCTATCACAAAATGCCACTC
ACAGTCCATTCCTAACGGACTCAGGAAAAGTTCCAGTGGTAGTCTAGTAAGTGGCGCTCAGCGTGGGCTTGGGTGGCATTTTTATCGTGTCTGGAAGGAA
AAAACTGCTCATGTCACATGAGATACATATACTTTAAAAAAATTATAAATGCTGCTTAATTCATCCATTTTGTTGCCCCTTTTTAGGGTACAGGAGTGTT
AATACTCACTTTGTGCCTTGATTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCCCTTGTTGCCCAGGCTGGAGTGCAGTGGTGCAGTC
TCGGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGCSATTCTCCTGCCTCCACCTCCTGCGTAGCTGGGATTACAGGCATGTGCCACCACGCCTGGCTAA
TTTTGTATTTTTAGTAGAGATGGGATTTCTCCATGTGCCTTCATTTCTAGTGGAGCATTCCCAGGCCAAATTAGGTGAAGGGTCTCATTTCCTAGGATTT
CTTCACAGGTGGCATCCGTCCTCAGATGGGCTACCTAGGACTAGGGATGGCTGCAGGTTTCAARGAGCGAGTAGCTTGAATGTGTGATTCAAGGTTATTT
AGTATCAAATTTGAGAATGCCCCAAACTTACCTTTTAACTGCTCGACCGCATGGCACCACCTTTTGGGAAATACTGTCTTTGGGCACTTCTGAACTAGTT
CRCTGAGAGCCAGAGCTTTATCTCTTGTTCTCAGTCACATCCCAGTGCCTAGAAAATTGCCTAGCACATAGTATATGCTCAACAAACACCTGCTGAATGA
ATAATTTCATTGTGACAGCACTGTGTTTGTCCCTTATTAGACAGTAAATCCTATGAATGCAGGGACTGGGACCTAACCACCTTTGCCTCACAGGCCCAAT
AAATATTTCTTGAGTTGAATTAGAAGTTGAGGTTCTAATTAGAGATGCCCTTTTTTCTCCTGGGGGTAATTGTTTACAAAATGTAAACAAAGTTCTAATG
AACAGCATTTTCAGAACCTTAGGACACACAGTGATAAAACTGTTTTACATTCCTCTCGTTATTACTAATTTTTCCCTGTGCTGTCCCCTCGCCTCTGCAC
TAGCTCTCAAGGGACCTGATTTACTAAGCTCTGGGCCTGAGGATCAATTCTATCTTATGCTAATCAAGTGCAAATGAAGGCCTGGTGTCATTAAGTAGTT
TAATGACTCTCTGTTGAGTGCTAGTGTAACAGGGGTGGGGAAATGTTGGATCTCTCTCATTCTCTTATTCTCTGGACCATAATCTAGGAGGCATGTGGGT
TTACACAGAAAAGTGCCATCCGTCACTGACAATTCTTTAAGAACAAGAAACTTTAAACAAAATGAAATTTCTGTCCCTGTTTATATGTAAGTGTCTGTCA
CTGAGCAGCAAGGGGACACGGGCTGGAGGACTGACAGCATAAAAGTGAGGAGACAAGTGTGCTGCTTGTGTTAGCCGCTCAGCAGAGCACCCCACATATG
CTCAACATTGAGCTTCAGAGGAAAGGAAACTAAAATCAATCCTGAAAGAGCAAGCAATATAAATGTCATTGAATCCAGATTCTCAACAAACAGAATACAC
CTATGAAAGAGAAGGCAAAGAGAACCAGCATGATCTGGGCCCCATTAGGCTAGGCTCGTGCTTCTCAAAGGATGGCACCGGACCTGCAGCTTCAGCCTCA
CCTGGGAGCTTGTTAAACATGCAGATTCGTAGTCTCCCACCCAAACCTGCTGAAACAAGTGATGGGTGCAGAACCCAGCAATGTGGCTTAACAAGCCTTC
CAGGTGATTCTGATATAAAGACCGGCTTAAAAGCCACGGGCTAATATTGTCTCATTTGATCCTCTTAGATCCTAAAAAGTAGATGTGATGCTTAGTTTTA
GGTGTCAACTTGACTAGCTTAAAAAAGATACCCAGAAAAAGGGTCTATGCATCAGATCCTTTAAAACAGTAAAACCTTGTTTATGGGAAGGTGTTTCCCA
AAGAGACTGGCATTTGAATCAGTGGACTGAATTTGAATCAGAGGACAGGAAGATCTGCACTCACCAATGTGGGCAGGCACCAGCCAATAAGCCAAGGGCT
TGGATAGAATAAAAAGGCAGTGGAAGTGCAAATTTGCCCTTGCTTCTTAAGCTGGGACGTTCATCATCTCCTTCCCCTGACATCGGTGCTCCCGGCTCTC
AGGCTTTCAGACTTCGGGACTTATGCTACTGCCTTCCCTGGTTCTCAGACTTGCAGACATCGTATCATGGGACTCCTCAGCCACCATAATCATGTGAGCC
AATTTATATAATAAACTCAGCTCGCTTGCTCGCTCTCTCCCTCTCTCTCTACACACACACACACACACACACACACACACACACAAYCCCCTGTTGGTTC
TTTGTCTAGAGAATGCTAATATAGCAGGTGTTGGTCGCCATTTACCAATGACGAAACTGAGACTTAGTAAAGCTCTGTAAGTTCCCCAGGTTTATACAAC
TAGAAATGTAGGTACTGGCCGGGCACGGTGGCTCATGCCTGTAATCCCAGTACTTTGGGAGGCTGAGGCGGGTGGATCATGAGCTCAAGAGATCGAGACC
ATCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGCTACACACCTGTAGTCCCAGCTACTCGGGAGGCTGAG
GCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAACTGAGATCGCGCCACCGCACTCCAGCCTGGCGACAGAGCAAGACTCCATCTAAAAAA
AAAAAAAAAAAAAAAAAAAGGGCATGTACCAAAGATCTTTTCTCAAAACCTATGGTCTTTTCACTTTATTGGTGTTTCTCAAACTGTAGTGTGTAATTGA
ATCACCTGGAGATTAAATGGCAAAATGTAGATTCCAATTCAGTAGTCAGAGAGCTTGMGAGTCAGTAGTTCTAACAAGCTTCAGGTGTTGCCAATGCCGC
CGGTACACTGAGCACACCTTAAATACAAAGGCTTAATGTGTTAATGGGGTGGGCCCCAGAACTAAAGTCTCAGCCTCACCTGAGAACTCTTAGATCCAAA
TGCTTGGCCCCACCCAGACCTACTGAGTCAGCAACTCTGGGGATGGGGCCTATCAGTTGGTTTTAACAAGCCCTTCAGGTGATTTTGATTCATGCATAAG
TTTGAAAACTACAAATATATCATCTTTCCATACTAGAAAACTCAGTATTGGCCAAGTTATGAAGTGTGGTGGTTCTTACATTGTAGATATTTGAAAGACA
TTAGAGAGAAACTAGACAAGAGAAAAAAGATAAAACATTTAAGCCTGAATAGTAGCTTGCATTAAGTGTTTTTCTGTGAGATAAGGACACATAAATGATT
ATCACTGGGCTAAACAATGACAGTACTTCTCTGTAAAGGCTCTTGCAAATATGTGTAGAATGTAGAGCCAGTGGGCACAAGTACTGGGAGCTAAGAGAAG
TTATGACCAAGGGACAGTATAATATCTGAAGATGTAGACCTGGCATTGCACAGGAAAATGATGCTTAAAATTTTTCAAAGAAAATATATCTAACAGCAGA
AGAAGATAAATCTCTGCTTGTCTGGCATGCAGAAAATGATCTGGGGGAAAAAAACAGCTTGGGATTTTTCTTTTTAATCTTGTGTAATCCTAGAAATTCA
TATGCAGTTTCATCTATATCAAACCAATGCATGTTGCTTTGATATAAATAACATTTTAAATTACCATTAAGATAAAAGGGGAGAGATGCTGTTGCACTTA
GTCTGTTAGACTCATAAAATGTACTGAAGTGGTATGATACCAAGTATCAGAATCAGCACCCATGTATATTTCTTTTCTGTCTTGGTGCTACAGCATTTGG
AGAACTTGGAATACATGAAAACAAATGRCAACAGCTTGTGGGTGGCTTTGAGAGCTATGTAAAGGCAGTCACTGAGGACAGGGGCCCAGAGTGTTGCAAG
AGGTGTTTTGTTCCGGTGTTTAGGAGCTGCTTGGGTGCGGATTTTGAGAAGTGAATCTTCAAGTGGTTTTTGAAAATAGAAAAGATCTTTGATCTATGCA
TCAGATCCTTTTAATTTCAAGAAAATACTCATCAAAGTTTTTTGAGTAAAGATGATCAAAGACGTTCTGTACTATACCACTCACACTGTCATTTCATTAC
ATGTAAATGAAGGGAGGGTCTCAAATGACTCAGTTCCTGCGATCACATCTCTTTATCCAGCATTCAGACTCCAATTCATCAAAGCAGTCTTGTCACAAAC
ATGAAAGCATTCAGTTCTGTCGTGAAGTTGCAGATCAAGAATGTTCAGTCTTAAAAGTGCTTAATAAGTCAACGTTTAAAGCTACAGTGATTATTTAAGT
GAATAGTACTTTTGTTCATCTTAACCAGGTTTTTTACCCCTTTCCATAACATTCAGGGGAATGGAGGATGAGACAAAAACAAAACAATATAATTCTGAGT
TTGAAAAAGTGGATCAAAAATTTCTTCCATCAAAACCTGCATTCTTCTATATAAAATCAAGAAACATTTAAAAATCACTTCCTGTTTCATTGCAAATGTG
TGTAAGAATATGAACAATCTTTTTGTTTTTAAAATAACATCTACCATTTGTACCATTCCATTGAATACAACAAGAAAAGTAACAGACTCTGTCAGAAGCT
CAAGGAACCAAGTTAGGGACAAAGGTGCATTTAGATATTTGGCCTCCATTTCTCACCTTCACAACAACTCTTTGCCTGTCAGATTTGGCACTATCTGAGC
CCATGGATGTATTTTAAATGGACATTTCTCTCAGCATTTTACCGTGAAACACTGTAAATTAGTATTTTTAGAGACATAACTATTAAGTAAAATATATAAT
GGCCAAATTATTAATAACAGTGTTTTCACCAGAGCTATGAGGCAAACAGCCTGGTCAATCTCAATCTCTTATGGATTCATTTTATATTAGCTTTTATACG
CCAGGTACTGTGTTAGCACTGGGTATACAAAGGTAATCAAGTGAGACATAACCCCTGCCTACACAGAACTTATAGATAGACATTATTCAAATAAGTACTG
ATTTATGAACTGTTATAAATACAATAAGGGGAAAGTCCATTGATAGCATGTAACAGAAGGGCTTGACCTTATAAGGGAGTAGGATGGGCAGGAAATATCC
GGGAAGGGTTCCCTTGGAAATCGTGTTTGAGCTAAGATCTGGAAGACAAATAGGCAGAGGAAAGACTGTGGACTGGGAAGCTTCCCAAGCAGTGGAGCTG
CAAGTACAAAGACTCGGAGGTGGGAAAGGGCATGGGAGAACAAGAGGGATGGAAAGGAAGCCAGGATGGCCTGCAAGCTGAGAGCTCAGGGCAGAGTGGT
GGGGATCAGAGGTGCACCTGGAGAGCTGGCAGGGACCAGGCCATGCAGCAGAGCCTCATAGCCAGCTYGCTGCCTGGAATTGACCCTAAGACCAACGGGA
WGTGGGAGTTTTAAACAGGAGAATGACAGGATTAAATACATAGTTTGCAAGCTTACACTGGCTGATGAGAATAGACTGGGTTGGGCAGGTATTGCCAAGC
TCAGATGAAAGCTGATGGTACCTGCGTTCTGGTAGTAGAGAGACGCAAGTGACTTTACAGGATTGGATGATGGACTGGCTCTGGGGAGGAGAGAGAAGGA
AGCAGCAAGGATGACCCCTGGCTTGCATACTGATATATCTGGTGATTTAATTGTGAGTTCTGATGCCTTTGACTTTCAGTAATGACTCAGACATTTCTAC
CAAATGCTGTCTACCTTCCCACGGTGATTCTGAAATGGGTGTTGAAGGAGGCATCCAGTATTTATTTCCTTACTTGTTTGTTATTGTACTGATCCTGGCC
TTGACTCATTTTAGTTGCTAAAAAGTCTCATGATTTTTTATTTTTTGTTTTTGTTTTTTTTTAAATAAAAGGTTGACATGAACACATCATACTAAGAGGG
ATGTTTTCATATTGTTTTTAGGGTTTTCTCCTACAAGAGATAGGTTTATGTCGCAAATGAATTTAAATTCTATAATTTAAGGTCATGGGAGAACTTGGGA
GCAGGGGAAGGAGGCTAGTTCATAAAATCTATCCATCATAAATTATATAAATTTAATAAAAATCAATGTTTTAAATAGTTACCTAAGTAGGTCTTACACT
TGGTAGATTGACAGCTGTTATACACAATTCCCTAGTTATGGTTTGAAGCAGTGTATTATCTTATGCCCAGGCTCAYAGTAGGGTGTCCCAGGGACTGTGA
CATGACATTAACCTCACTCCTCTGTTTCAGGCTGTTCTGATTTCGTCTTGTTTATTTTCATAGGTTTTGAAACTACAGTTCAGACTTCCAATTTTCAGCC
ATCAATCCGTATACTCAGTTGAACATACAATTTTCCCAATACTTTATTATGAAAATCTTTAACCATATAGAGTTAGAAGGACTGTAAGTGAATACACATG
TACTCAGTACCTACATTCTGTAATTAGCATGTTGCTTGATCATATAACCATCTGTGTCTCCCTGTAGACATCCAGCAGCCCATCTAATTTCTGACAGATT
TCCAACTATCAAAAAAAAAAGTTGCATATATCAGTATGTTTCACCCCTTGTAACTTCAGCATGCACATTATTAACTAGAGTTTAAYATTTGTTTTCATCT
ATTCTAAGGTAGAAGTTACATACAGCAAAATACGTRCATCTTAGGCMTAGCCTTCCGTGAGGTTTTTAACTTTTTTTTAATTATACTTCAAGTTCTGGGG
TACATGTGCAGAATGTGCAGATTTGTTACATAAGTATACATGTGCCATGGTGGTTTCCTGCACCCATCAACCCTTCACATTAGGTATTTCTCCTAATGCT
GTCCCTCCCCTAACCCCCACCCCACCCTCCKACAGGCCCCAGTGTGTGATGTGTGATGTTCCCCTCACTGTGTCCATGTGTTCTCATTGTTCAACTCCCA
CTTATGAGTGAGAACATGTGGTGTTTGGTTGTCTGTTCTTGTGTTAGTTTGCCAATAATGATGGTTTCCAGCTTCATGTTCCTGCAGAGGACATGAACTC
ATCCTTTTTTTATGGCTGCATAGTATTCCATGGTTCACATGTGTGCCACATTTTCTTTATCCAGTCTATCAGTGATGGGCATTTGGGTTGGTTCCAAGTC
TTTGCTATTGTGAACAGTGCCACAATAAACATACGTATGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATGG
CTGGGTCAAATGATATTTCTGGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAG
TGTTCCTATTTCTCCACATCCTCTCCAGCATCTGTTGTTTCCTGACTTTTTGATGATGGCCACTCTAACTGGCATGAGATGATATCTCATTGTGGTTTTT
ATTTGCATTTCTCTAATGACCAGTGATGATGAGCTTTCTTTCATATGTTTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCG
CCCACTTGTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTAAGTTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGGATAGATTACAAAAA
TTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGGTTTCTTTTGCTGTGCAGAAGCTCTTTAATTAGATCCCATTTGTCACTTTTGGCTTTTGTTG
CCATTGTTTTTGACTAAATGGCTTCACTTTCGACTAGTCTGACTTCATGATTAAAACATACCAAGTGTTTTAGTCATGAAGTCTTTGCCCATGCCTATGT
CATGAATGGTATTGCCTAGGTTTTCTTCCAGGGTTTTTATGCTTCTAGGTCTTACATTTAAGTCTTTAATCCATCTTGAGTTAATTTTTGTATAAAGTGT
AAGGAAGGGGTCCAGTTTCAGTTTTCTGCATATGGCTAGCCAGTTTTCCCGACCTCATTTATTAAATAGGAAATCTTCTCCCCATTGCTTGTTTTTGTCA
GGTTTGTCAAAGATCAGATGGTTGTAGATATGTAGTGTTATTTATGAGGCTTCTGTTCTGTTCCATTGGTCTATATATCTGTTTTGGTACCAGTATCATG
CTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTATTTTTGTTTAGGATTGTCTTGGCTATGCGGGC
TCTTTTTTGGTTCCATWTGAAATTTAAAGTAGTGTTTTTTCCAATTCTATGAAGAAAGTCAATGGTAGCTTGATGGGAATAGCATTGAATCTCTAAATTA
CTATGGGCAGTATGGCCATTTTTCATGATATTGATTCTTCCTATCCATGAGTATGGAATGTTTTTCCATTTGTTTGTGTCCTCTCTTATTTCCTTGAGCA
GTGGTTTGTAGCTCTCCTTGAAAAGGTCCTTCACATCCCTTGTAAGTTGTATTTCTAGGTATTTTATTCTCTTTGTAGCAATCGTGAATGGGAGTTCACT
CATGATTTGGCTCTTTCTGTTATTGGTGTATAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAGGTTGCTTATCAGCTTA
AGGAGATTTGGGGCTGAGACGATGGGTTTTCTAAATATACAATCATGTCATCTGCAGAGAAAATTTGACTTCCTCTTTTCCTATTTGAATACCTTTATTT
CTTTCTCTTGCCTGATTGCCCTTGCCAGAACTTCCAATACCATGTTGAATAGGCGTGGTGAGAGAGGGCATCCTTGTCTTGTGCTGGTTTTCAAAGGGAA
TGCTTTCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCTGTTACTATTTTGAGATACGTTCAATCAATACCTAGTTTATTG
AGAGTTTTTAGWGTGAAGGCCTGTTGAATTTTGTTGAAGGCCTTTTCTGCATCTATTGAGGTAATCATGTGGTTTTTGTCATTGTTTCTGTTTATGTGAT
GGGTCACAGTTATTAATTTGCGTATGTCTAACCAGCCATGCATCCCAGGGATGAAGCCAACCTGATCGTGGTGGATAAGCTTTATGATGTGCTGCTGGAT
TTGGCTTGCCAGTATTTTATTGAGGATTTTCGCATCGCTGTTCATCAGGGATATTGGCCTGAAATTTTCTTTTTTTGTTGAGTCTCTACCAGGTTTTGGT
ATTGGGATGATGCTGGCCTCATAAAATGAGTTAGGGAGGAGTCCCTCTTTTTGTATTGTTTGGAATAGTTTTAGAATGAATGGTACCAGCTCCTCTTTGT
ACCTTTGGTAGAATTTGACTGTGAATCCTTCTGATCCTGGACTTCTTTTGGTTGGTAGGCTAGTAATTACTGCCTCAATTTCAGGACTTGTTATTGGTCT
ATTCAGGGATTCAACTTCTTCCTGGTTTAGACTTGGGAGGGTGTATGTGTCCAGGAATTTATCTGTTTCTTCTAGATTTTCTGGTTTATTTGCGTAGAGG
TATTTATAATATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCCATGGTGATACCCCTTTATGATTTTTTATTGCATCTATTTGATTCTTCTCTCTTTT
CTTCTTTATTAGTCTGGCTAGTGGTCTATTTTGATCTTTTCAAAAATCCAGCTCCTGGATTCATTGATTTTTTTTTTTTCTTTTTAAGGGTTTTTCGTGT
TTCTATCTTCTTCAATTCTGCTCTGATCTTAGTTATTCCTTGTCTTCTGCTAGCTTTTGAATTTGTTTGCTCTTCTCTAGTTCTTTTAATTGTGATGTTA
GGGTGTCTATTTTAGATCTTTCCTACTTTCTCTTGTGGGCATTTAGTGGTATAAATTTCCCTCAAACACTGCTTTAAATGTGTCCCAGAGATTCTGGTAC
ATTGTGTCTTTGTTCTCATTGGTTTAAAAGAACATCTTTACTTCTGCCTTCATTTCATTATTTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTTC
ATGTAGTTGTGCGGTTTTGAGTGAGTGAGGTTTTTTTTTTTTTTTTTTTTTTGAGATGGAATCTTGCACTGTCRCAGTGCAATGGCACGATCTCAGCTCA
CTGCAACCTCCGCCTCTCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGGAGCTGGGATTACAGGTGTGCATCACCATGCCTGGTCAATTTTTGTA
TTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTTGTCTCAAACTCCTGACCTTGTTATCCACCTGCCTTGGCATCCCAAAGGGCTGGGATTACA
GGCATGAGCCACCAAGCCTGGCCTTGAGTGAGTTTCTTAATCCTGAGTTCTAATTTCATTGCACTGTGGTCTGAGAGACTGTTTGTTTTGATTTCCATTC
TTTTGCATTTGCTGAGGAATGTTTTACTTCCAATTATGTGGTCAATTTTGGAATAAGTGTGATGTGGTGCTGAGAGGAATGTATATTCTGTTGATTTGGG
GTGGAGAGTTCTGTAGATGTCTATTAGGTTCACTTGGTCCAGAGCTGAGTTCAAGTCCTGCATATCCTTGTTAATTTTCTGTCTTGTTGATCTGTGTAAT
ATTGACAGTGGGGCGTTAAAGTCTCCCACTATTATTGTGTGGGAGTCTAAGTCTCTTTGTAGGTCTCTAAGAACTTGCTTTATGAATCTGGGTGCTCTGT
TGTTGGGTGTATATATAATTAGGATAGTTAGCTCTTCCTGTTGCATTGATCCCTTTACCATTATGTAATGGCCTTCTTTTTCTCTTTTGATCTTTGTTGG
TTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGGTTTTTTTGCTTTCCATTTGCTTGGTAAATATTTCTCTATCCCTTTATTTTGAGCCTAT
GTGTGTCTTTGCACATGAGATGAGTCTCCTGAATACAGTATACTGATGGGTCTTGACTCTTCATCCAATTTGCCAGTCTGTGTCTTTTAATTGGGGCATT
TGGCCCATTTACATTTAAAAAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGCTAGCTGGTTATTTTGCCTGTTAGTTGATGTAGTT
TCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGACTGCGGACTGCAGTGGCGCAATCTCGGCTCACTGCAA
GCTCCRCTTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCGCGCCCGGCTAATTTTTTGTATTTTT
AGTAGAGACGGGGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCGGCCGATGTAGTTTCTTTATAGTGTCGATG
GTCTTTACAATTTGGTATGTTTTTGCAGTGGCTGGTACTGGTTTTTCCTTTCCATGTTTAGTGCTTCTTTCAGGAGCTCTTGTAAGGCAGGCCTGGTGTT
GAGAAAATCTCTCGGTATTTGCTTGTCTGTAAAGGATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGACATGAAATTCTGGGTTGAAAATTC
TTTTCTTTAAGAATGTTGAATATTGGTCCCCACTCTCTTCTAGCTTATAGGGTTTCTGCAGAGATATCYGCTGTTACTCTAATGGGCTTCCCTTTGTGGG
TAACCCGACCTTTCTCACTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACCTTGGTGAATTCACCAATTACATGTCTTGGGGTGTCTTGGGGTTGCTC
TTCTCGAGGAGTATCTTTGTGGTGTTCTCTGTAATTCCTGAATTTGAATGTTGGCCTGTCTTGCTAGGTTGGGGAAGTTCTCCTGGATAATATCCTGAAG
AGTGTTTTCCAACTTGGTTCCATTCTCCCCATCACTTTCAGGTACACCAGTCAAATGTAGGTTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCCT
TGTTCATTCCTTTTCATTCTTTTTTCTCTAATCTTGTCTTCTAGCTTTATTTCTTTAGTTGATCTTCAATCTCTGATATCCTTTTTTCTGCTTGATCAAT
TCGGCTATTGATACTTGTGTATGCTTCATGAAGTTCTCGTGCTGTGTTTTTCAGCTACATCAGGTCATTTATGTTCTTCTCTAAACTGGTTATTCTAGAT
AGCAATTCATCTAACCTTTTTTCAAGGTTCTTAGTTTCCTTGCATTGGGTTAGAACATGCTCCTTTAGCTCGGAGGAGTTTGTTATTACCCACCTTCGGA
AGCCTACTTCTGTCAATTCGTCAAACTCATTCTCTGTCCAGTTTTGTTCCCTTGCTGGCAAGGAGTTGTGATCCTTTGGAGGAGAAGAGGTGTTCTGGTT
TTTGGAATTTTCAGCCTTTTTGCGCTGGTGTCTCCCCATCTTCATGTATTTATCTACCTTTGGTCTTTCATGTTGGTGACCTTCAGATGGAGTCTCTGAG
TAGACGTCCTTTTTGTTGATGTTGATGCTATTCCTGTCTGTTAGTTTTCCTTCTAACAGGCCCCTCTGCTACAGGTCTCCTGGAGTTTGCTGGAGATCCA
CTCCCGACACTGTTTGCCTGGGTATCACCAGTGGAGGCTGCAGAACAGCAAAGATTGCTCCCTGATCCTTCCTCTGGAAGCTTCAGCCCAAAGGGGCACC
AGCCAGATGCCAGCCAGAGCTCTCCTGTATGAGGTGTCTGTCGGCCCCTACTGGGAGGTGTCTCCCAGTCAGGATACATGGGGGTCAGGGACACACTTGA
GGAGGCAGTCTGACCTTAGCAGAGCTTGCACGCTGTGCTGGGAGATCCGCTGCTCTCCTCAGAGCTGTCAGGCCGGGATGTTTAAGTCTGCTGAAGCTGT
GCCCACAGCTGCCCYTTCCCCAACATGCTCTGTCCCAGGGAGATGGGGGTTTTATCTATAAGTCCCTGACTGGGAATGCTGCCTTTTTTTCAGAGATGGC
CTGCCCAGAGAGGAGGAATCTAGAGAGGCAGTCTGGCCACAGCGGCCTTACTGAGCTGCGGTGGGCTCCACCCAGTTCGAACTTCCTGGTGGCTTTGTTT
ACACTATGAGGGTAAAACCACCTACTCAAGTTTCAGCAATGGCAGATACCCCTCCCCACGCCAAGCTCAAGCATCCCAAGTTGACCTTAGACTACTGTGC
CGGCAGCGAGAATTTCAGGCCAGTGGATCTGAGCTTTCTGGGCTCTGTGGAGGTGGGACCCGCTGAGCCAGACCACTTGGCTCCCTGGCTTCAGTCTCCT
TTCCAGGAGAGTGAGTGGTTCTTTCACTGGTGTTCCAGGCAGCACTAGGGTATGAAAAAAAAATCCTGCATCTAGCTTGGTGTCTGTCCAAACGGCCGCC
CAGTTTTGTGCTTGAAACCCAGGGTCCTGGTGGCATAGGCACCAGAGGGAATCCCCTGGTCTGCGGATTGCAAAGACTGTGGGAAGAGTGCTGTATCTGG
GCCGGAATGTACCATTCCTCAGGGCACAGTCCCTCATGGCTTCCCTTGGATAGGGGAGGGAATTCTCCGACCACTTGTGTTTCCCAGGTGAGGCAATGCC
CCACCCTGCTTTGGCTCACCCTCCGTGGGCTGCACCCACTGCCCAACCAGTCCCAATGAGATGAACCCCGGGTACCTCAGTTGGAAATACAGAATTCACC
TGCCTTCTGCGGCGATCTCTCTGGAAGCTGCAGACGGGAGCTGTTCCTATTTGGCCCTCTTGTCTGCAATCCCTTCCTTGAGTTTTGACAAAGCATATAA
TACTGGAACCTTATCCCCATCACGATATTAAACCTTGCCGTCCCAAAAGTCCCTTCATGCCCCTTCACAGTCTATCTCTGTCCACCCATCCTGCTCGCCC
CCAGAGGTGACCACTTTTCTGAATTACTTAACCATAGATTAGAGTTTGAGTGTATACTGTCACGGTTGGCTTCTCTCACTCATAATGTTTTTGAGGTTCA
TCTTCACTGTATCATTTTTTTTCCTTKTTATTACTGAATATTCCTTTGCATCAGTCTATCGCAGTGTGGAGAATCTACTTCTGCTGATGGACTCCAGGGC
TGTTTCCAGCTTTTGGCTGCTTTGAACATTCTTGGACAAGTTTTCTTGTGAATATATGCTTCTGTTTGCCTTGAGTAAACACTTAGGAGTGGGACTGTTG
GGCTGCGTAGTAGGTGGATGGCTAATTTTAAAAGAAACTGGCAGGCCTTTTTTCCAAAGTGGTTGTACAATTTTATACTCCCTCCAACTATGTATGAGAG
TTCCAGTTGTTCCATAGCCTTGACAAAACTTCTTTTTAATTTTAGACATTCTGGTGGGTGTGTAGATAAATAGGATTTTTAAATGATTAAGAGACAAATG
ACCCTGAAATCATGCACACATACACACAAATACCTAACTCAGAATTAATAGTGCTTTTTAGAACCAAGCAAAATCAGATGTTTGTAAACAAAGCATTTAG
CACAAGGACAGCAAAATTTGTGGCAACTTATAATATTTTGAAGTAATTAAGGGTTTGAAATTATTTTTCTCCCTGAAACAAGCTGTAAGCCTCCAAGGAC
TTGCTGAGGAATCCCAGCTTCGAGCTCTGGCAAAGAGCTTCACAGGCCAAGGAGAGCAGTATTCACATTGCACAAACTAAGCACTAAAGCCTTCGGTTTC
CCCAGTAACACACAAAATCAAACTTCCCAGTCACTGCTGCAAATGAGAATATTCTACATTTTATGCTTTTACAAGAGGAGAAACACACCACACTACAGAG
AGACTGACTGGCATGGGGCATTGATGCCATTGAATCCCCGTCCCTTTGCTTTGAGTTAGTTTGCACATGACAAAACCTTTTGATAAGAGATACTCACACG
TCCCCCCAAATTTCAAGGAAAACTGTGTTTCAGAGAGATGTCCCGCACTAATGCAGGGGGTGTTTCCTTGACCCCAGTTTAACAAGCCCGGTCCTGGCAC
ATCCCTTCTGGGGCTTCACTGTAAACAGCAGCTTGACAGAGCAAATGGTTTTAGAGCCAAAGGGACACATTTGAAATTGGCTCTGCATACTACCTGTGTG
GCTTGGGCAAGTTTCTTAACCTCTTAAACCTCAGCTTCCTTGCCTGTTCCAAGCAATGAGGATACCTCCCCTTGTGCAAGAGTGCCATCATGATTAGACT
GCAGATGTCATGCTGCCAGCATGTGGGAATACACGTAAGAGATGGCTGTGGAGCAAAGTTCATCCCCTTGGCTGCCTACCGGAGAGAATGCCAAACCACA
GACCCACTCATTCTGTATCTATTCTCCCAATGAGCTCAACTAAGTATTAAGGAAATAATTTTAGAATAATTTCTACTGAAATGACTGGTAAGTGTAGGGT
CCACAAGAAAATTCTGATTCTAGGAGAATTTTCATCCAAGTGAATCATTAGTTGTACAGTGGGGTATCTGGAAGAGGTACGTGGATAATCAGAGTCAGCT
TCAGTGAAAACCCAGCACCGCTGGGGTGTGACAGGGGAAGGTCTGCTGGCACTGCTCTCGGCACAGAGCATCATTAAGTCGGTCCCACAATAGGGTTCCT
GACGGCAGATGCTGCTGCAGCCAGGAAGAGTCTCTGCTTGTAGAGCAAGGAGTTATCTCCATGCTGGGTTGCTAGCCATAGGCATGCAGAGAGCCCAGCA
AAGGCAGGTGAGCCAGTCTGGGGGTGTGTTCAGCTCAAAATGCCAAATTATACTTGAAGAAGAATGGCCCAGAGCCACCTCAGCAGATGGAATTGGTACC
TGTCATCCCTGCTTCTCCCTGTACCTAGTGGCTGGCATACATTTCCATCCCCAAAGCAGGATGTGCATGTGCACCTGCTGGCCTTGGGCTTTATCTGGCT
CCACTCTAGACAGAACACAAAACCCATGTTGACATCGCAGGAGCTCCACGAGCCAATCGGCTGGCCCGAGGGGCAGAGGATACGCAAGAAAGGCTTTTTG
TTGTGTTTTGTTTGTTTTTTGTTTTGTTTTTAAATAACATAGGGAGCCATGGGACACAGCTTCTAAAGGAGRGAGGCGTTTTGATTCAGAAAGAAAAGCT
AAGCACTTAAAAATCACTTGTTTTTGTGTTAAAGCTATTTGAAAGAACAATTTGCAAGGCAAAAGTTTTATTCATTTGGTATCATATAAAAAATTCACAC
TATATCAGTAAGTAGCTGTATAGCAAATGGTCTTTATCCCTGAAGAAAACATGAAACATGGGAAATAAAAATGTCCCATAATTATGGGATAAATGAGTCA
CAGCCCTTAGTCACATTTTGACAAGGATATCACACAGGTTGGTCATGTAATTGTTTCCATAATTATGTGGAATGGACTGAGCAGAAGAGTTGGTAGAAAA
TCCTATTTTCACGCTTCAGTTTTATGTGATGATTTTTCAGTGGTTCAGTCAAGCTGAAACCTTTTACCTGTATCTGTCATACAGGGTGTTCTGCAGCGGA
CAGGCCTATGCAGACCTACCCCCCAAAGTCTGAGGAAGCTGAGAGGCCAAAGAAAGAGACTGACAACTCTAGTTGTCAGAAAGGAACATTAATAARAACT
TAAGAACAGAAGCCCTGTCTGTGTCTCTGGCAGCAGTGAGACAAGATGGTAGATCTGTGCACCATTACCCCCAGACCCAGGGCTTATATACCATACAGAA
AGGGTGATTCAGAGGGATGTGTAGGACAACTGAAGTATGATAACATCAAGGTTGTTTGACCTAATGGCAGTATTTACAGTAGGTATGTGCTTTTACCCAA
GGAACAATAGATAATTTGGGAATCTTTGAGGCCTTCTCAGAACTGAGGTTATTCAGAAGACAGCATGGCAGATTAGCATCCAAGATGGAGTTGCTTTGGC
CTCCACACTCCAGCCTCCCAAAACCAGCTCTTAAAATCTCATGCACTCTTCCTCTTCTATGATGGTCTCTTAGCCTGTAGGGAGGGTGGCTATAGCTTTA
GTAGCAGTACATTGGCAATGGAAAACAGCTCAGGCCCAGTGGGATTCCAAATGAGGGAGGTTCACAGGCTGTTGGAATCATCTCTAGTCTTAGGAATACC
ATGACTTCAGTTTTCTCAGAAGAAGTAAGMCAATGAGAGATACTTAACATTAATAATTTGAATAGTAGAAATATAATGACACTTGAAAGAGAATTCGTAT
GCCAGAACAACAACAACAAAAAAAGCCTATTAGCCAACTAGAAGAACATTAAAACTTGGTTCTTCTTTAGAGACTTGTAGCCAGGAAGTAATTCAGGTTT
AGCCCAAATTGTAGGCAAATAATAAAAACTCAAGAACAGTATTTCAGGTCCAGTTACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAAGA
GGGCAGATTGCTTCAGCTCAGGAGTTGGAGACTAGCTTGGCCAACATGGGAAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCAC
ATGCCTGTAATCCCAGCTACTCGGGTGGCTGAGGCCTGAGAATAGTTTGGACCCGGGAGGCAGAAGTTGCAGTGAGCCAAGTTTGCACCCACTGCTCTCC
AGCCTGGACGACAGAGTGAGACTGTCTCCAAAAAAAAAAAAGAAAGAAAGAAAAAGAAAAAGAGTGGKTAGGACTAGAATCTAAGTTTTTCTCTCTCCAG
TTTCCCCATTTCTACCAAGGATAAATTATAGTACCTTGCTATTTCAGGAATAATGAAAAATAAAAAATAAAAAAATTACAGGACCAATTTATTTGCTTTA
GTTGCAAAATAAATTTTAGTCTCACTATACTTGGCCTAATTATTTGCTTAAAGTGTAGCAAGAATAGTTATTAGTCATATAGGCTTCTTTTCAATTGGCT
TTGCTGGAACTTTATAAGGAATTTTGGATTTGACATTTTAAAAGCCTTGAGACTAAGGATTCCCCATTAGACTATGCTTGTAATACCTATACATAGGTAC
TATACCTGTAGAAATTCCTCTCTTCTTTAGTTCCCAAAATATCTTGGTTCCTGGGCCTGTCAGAAAGTGATATTCTTTACTTACCAGAGGCCGGGAACCT
TGTAAGGAACCATTTAGACAACGTACCAAGTTAGTCTTTCCAAAGGACTTTTTATCGGCTCTATAAAGTCAATGTCAATTCCTCAAAGCAGTCTGGTTAT
ATCTGAAAATACATGATTCTAGTCAAAGCCTTGGTGAAATAACCAGTGTTTCCAATTGTGTCCTGTTACAAAACAAAACAGATTCTTACTGAATTTATGC
AAACAACTACATTGCCATAAAGTAAGAATACTCATGAAAAGTTTCCAAATTCTGGAGAACTCAGGTAGAGGGAAGAAGTAAATTTTGCTCACAAAAGTAT
CCTTTACAATCAGAGTAGCAGTCTTCCAAACAGGATGTTGCCCGTTCATCATGGAACGGCCATCCACAAACCAAGCAGCTCTTAGTCAGGTGAGGGAGCT
GTTTGTCAGGCACTGTAGAATCCAGCAGCTCCTCACACAGTTTCAGAGTCAGTCCTAGGGAAAAAAGAGGCTCTCTGCTCATGAGTATCTCCTCCTCGCA
CTCTTCAGGTAGCAAGATCCTATATAAACCATTTCCATTTTATCATGGGACTCTTTTTGGGCACTGTGATCCCCATCAGAGTGTTTCTCTGACATTACCC
CCATATGCCCTAGTAAATGATTCACTAAGGGCTGTCAAGTGAAGAATTTATCCCTACAAGCACTCTGGCATGCTACATTCTGTGGGCTCAGGCAGTCTTA
TTCCCATTTAGCATATCCAATTAATATTGCTCAAAGGGCAGATTTGCATGCCTTCTCTTCTGTAGTACTAGGTAGGAAAAATGTTTCAGCAGTCAGATAT
AATATCCATTTTCATAAAACATTTAAGGAAAAGAGATATAACTATTTCACATAAAGACTATTTAAACATTTCAACTTTCATAATTCCATCAGCCCTTACA
TTTTTATGTTCTGCTTCCAGGAACTTCTCTTTTGCACCCCTAGACCATTTTACCCTCTTGTCAAAAAGGCTTTGGCTTTGCAGCAGGGGATTGAGCCAAG
GGACCTGGGCACTTTGGTCAATGTGTCTTGATTAATTACCTCAACATTGCCCCAGGCAATTGTTGATCACCTTTCTCATTTTAATCTTTACCTTTTGATT
TTTCAAAAAAATATTTTCCAATCTAGGGTAAATACAGAAAACTGGTTTGGGTTCCTGTAATGTTGGGGGAAAAGCAGGGGCTCACCATGGTCCATCCAGC
TTTTGGTAGTGTTGTATTAAGAACTTTGTTTGAACCCTATCAATTTCCAATTCATTCAATTTCTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTG
GAGTGCAGTGGCGCGATCTCGGCACACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACCC
GCCACCACACCCGGCTACTTTTTGTATTTTTAGTAGAGAGGGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCATGATCCGCCCGCCT
CAGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCGYGCCCGGCCAATTCAATTTATTTTTTATTTATTTATTTTTTTGAGACGGAGTCTCCCTCT
GTCGCCCAGGCCAGAGTGCAGTGGTGCTATCTTGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCTATTCTCCTGCCTAAGCCTCTCCAGTAGCTGGG
ACTACAGGCGCCCGCCACCGCTCCCGGCTAATTTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCG
TGATCCGCCCGCCTCGGCCTTTCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGACCTTCAGTTTCTTAATAACCAAGATTTCCACCCTGCTGG
GACAAATTCCATGACTCTCCCTTTCTGTTTTTCTTAGTTTCAACCCTTTCAATTTTTAAAAATTTACCTTTTAAAATAACTTTTAAAATTTTCACCTCGC
TAGGATAAGTCCTTTGACTCTCCGTTTTGCCATTCCCTATGCTCTTGTTAATTAGCCTAATGTTTTTATTAGCATCTGTAAGACCCATGAGGGGAAGTTG
AGACAGCAAATTTGAGGCTTCCTGAACTTTTAATTTTTCATCAGTAACGAAGTGCCCACGCAAAAGTCCCTCCTACCCCACCCCCACCCCCTCACCAGAC
ACACACATGCTTAACCACAGCATTTACCATGACCTGGGTAATAGGCATATTGATGGGGTGGCTATCCCTGTCATAAAGCCAGTTCCACATGGCTTATAGA
CAAAGCATATCAGCTGCTTCATCTGGGGTGCTCCACGTAGCATTGGGGCCGACCCCATTCTCAGGGTAAACAGATCTGACAGAGGCTTTTATCCAGTCCA
CCAGGCTGGCTGTTCCYTCAGGAATAACCTCCCATGTGTCTGGATCACATATAGCCATCTGTGATTGTTCAGTAGTGAGCTGGGGATCGTGCATCAACCC
AAACATGTTTTACCACTCTGCAGCATTTAAAACCAAAGACACTGCTCCAAATTAGCTACTTTCACAATTCAACAAMAGGTTTTATCCAGGGAGCTGATGA
TGCCTATCTACAAAAGGGAACAATTCCTTCACACAGTACCCTCTGGTTTCAGCAGTTACTTGGGTTTTGCCCTTCCCCCACATTGACTACCTTCTTGGCA
ACCACAGGTCTCAGAGGTACTTTCTGTTGCCCTGTCATTATTTTCCCCTTTGTAGATAGCTTTGAGGCTAATGATCTGAGCTCAGACAGACCCACATTTG
AGCTTGGTGCAGCCTCAAGGCCCAATCTGGCACTCTTATTTTAGCTTTTATAGAAAATAACCAAGGTACTGAATATTTCACTTTTCCTTATTGGTTTGCA
TTTACTTATGTATCCAGTGAACAACTCCTTAGGAGTTGGATTTTTCTCTAAATTCCACTGGTAACTCTTACCTTTTAGTAACTGAGCACAGCACAGCTAC
AGCTCCATACCATAGGTGACCACGTGGCCGYCCAGGAATCAATCAAAAGTTCCTCATTCTCTATCCTTTTATCCTTTCCCTTTCTATCCATCTAGTTTTA
TCTGTATCATTTTTCATTCATTTTAAAACAACCTTTAAATAGCCTCTAAACTATGTGGTTACTCTTCCTTTAGGCAAAAACCTCATCTTCATGTTTTTAA
TAAACTTCTTTATCAAAACACATCTTTCTTTCTTCACTTTCATGTAGAATTGTTTCTCTTATATTTAGTAGTTTTAATTACATATATTAACTACTACTTT
AACTCKTAGTAACCCTAATTTCCATGGAAAAACCTAGGATTACTTAATTTAACATAACAGATTTTAAGATTTCAAATTACTGAAAAGAACTTTGAAACTA
GTTTTATTTGAAAGATTACTAAAGTTAGGTGAACTAAAAGGCATTTGAGTTGGTTTCTATATTTCCGATAAGAAATTTTTTTTTTTTTTTTTTTTTTTTG
AGGCAGAGTCTCACTGTGTTACCCAGGCTGGAGTACAGTGGCATGATCTCGGCTCACTGTAACCTCTGCCTCCTGGGTTCAAGCAGTTCTGTCTCAGCCT
CCCGAGTAGCGGGGACTACAGGTGCACACCACCCTGCCTGGCTAATTTTTGTATTTTTGGTAGAGACAGGGTTTCACCATATTTGTTAGGCTGGTCTCGA
ACTCCTGACCTCAGGTGATTCACCTGACTTGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACTGTGCCCAGCCAGAACTTACTTTTTCTTTAAGC
CAAATTAGAGCTCTGTCATATATTTTGGTAATGATGTATCACATATATAACATACTAAATATATATAGACATACACACAAACAGAAGCAGCTCTTATAGA
CTTATAAGATTCTTCATTTGCCAGTTCTCAAATAGCTTCTCTCCCACCTTTACACAACCCACCCAAAGACATGACTCAGATGAAACAAGGTGGAGAAGAT
CTACATCTCTAAGGCACAGAACTTAGACCTAAACAGCATTATCTGGAAACAAGATTGCCAGGAAAAATGTCTTCTCTTCAACTTAGCTTGTTTCTTACAT
TACTGGCTTCAAGGTGTCAGTATATTCTTATATTACTGGCTTTAAGGAACAGGGCCAAGAAAGCATGGAAGTTTTAGGGCCTAAACCACACAATTCTTAT
CCAAACATGCCAAGAAATGAGTAGCCCTTATAGTAGTAACCACTTGCTTTAACAACTGCTGTCGGCCACCTCTAACAATATAGCTGTTGCCCGTGACTGC
TAGCCATTAGGTACAAGGTCAGCAACTCTCACAGTAAAAAGTAATCTCTGTACCCCACCCCCCGCCTCCCCACACACTAACCAGAGATGAGATAACACAA
TACAAAAGAGTGCAGTTTTAGACCTGAGTAGAATCTGTCTGCTTACTACCCTTGGGTTTCATGAGGAAAAAGAGATTCTTCCCTAAAAGAGGAGTCTTTG
ATGCCGTCTGTTTTCCCCAAGGGATCCCAGGCTGTTGGAAATTCCTTTTTTTTAGATCCCTCGTGTGGCAAGAAGTAGTAGGAACAGACAGAAGTAAATG
GAGAAACAGAATTTGGTCAGAAGTTTTACAGAGAGTGCAGAGGCCTTAATACATATGTAAACATATACAGCCCAAATTTCAGTTTTAACTAAGTTTACTT
TTGACTGTAGGGCCCTTAAAAAAAAAAAACCTTTTTCCTAATTGTAATTCCTAATCAAGCTGTTTTACTTTTTTTTTTTTGAAATGGAGTCTCACTCTGT
TGCCCAGGCTGGAGTGCAGTGGCACAATCTCTGCTCACTGCAACCTCTGCCTCCTGGATTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGCAAGCTGGGA
CTACAGGCGCCCGCCACCCCACCCAGCTAATATTATATTTTTAGTAGAGAGGGGGTTTCACCATGTTGGCTAGGCTGGTCTTGAACTCCTGACCTGAAGT
GATCACCCRCTTTGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACGGCGCCCGACCGGCTGTTTTACTTTTGTGTCTGCTGCTGGCTGGCTCCCG
CTAAGACACAGTCATCTTACCGCACTGGCTGCCTGCTGCCCTTCCGGGCCACAGTGTGATGGTTGGCRCTCAGTTCACCGTCACTCTAAACCCGCTGGCA
TTTGGGGTCATCCCCACACTCACGGGGTGGTCCACAATCATCTGAARTGTGAGCCACACCATTCCACATAGAAGTGGCTGCCCACCACAAGATTTCCTCC
ATTTTTTGGTCTCTCAGCTCCTGGCCTGGCTTACCACACGTCAGAGTGGGCAGGCCTGTGCACACCTACCCCAAAGTCCGAGRAAGCTGAGAGGCCAAAG
AAAGAGGCTGATGAATCCCGTTCCTYGGAATGAAACATCTAATAGGAACTTATGAACAGAAGCCACGTCTGTGCCTTGGATGGTGGCAAGACAAGATAAC
GGATCCCTGTTCCATTACCCACAGACCCAGCACTTACATACCAGAGGAAAGGAATGTGTAGGACACTTGCAGAGAAAGGCAAGAATGCTATGTGAATCTG
CCTAAGGGCAGGATTTATGGTCAAGGTTGTTTTGATGTAAGGGCAGGATTTACGGTAAGTACATGCTCTTCTTACACAAGGAACAGTAGATAAAATAGTA
ATATTGGAGGCCATCCCGGAACTGGGGTTAATCAGAAGTCAACATGGTGGATTAGCATCCAACATGGAGTTGCTTTGGCCTCCGCAGACAGGGTTTCTGG
CTATTACAGTTGATGTTGCTAAGCCATATTAATCTGCCTCTGCAGATGTCCTACACACTCATCTGTCTTATTTTTCAAGTTAACCTACCCCATTCATTGA
GTGGCTACAAAGATTTAATGGTCTGAGCACTTGAAAGTAGGTKGATTTAGCAGTGAAGCCGCATGATTATAAGTTTAATAGAACTAAATGTGCCCCACTA
ACAGTGTTGGGGTCAGTTATAAAACAAGAAATGCAGGATCCCAAAGAAAGCACACTTATTATTTCTAGTGCTAATGACTTCCTTTTGTCAYTTGACAGAC
ATTTATTGAGCATTAGCACAAAACCATTAACAACAAAAAAAATTGATAATGAGAARGAATAGGTGGAAAACTGCATCTAAAGTTCAGATCTCATCGTGAG
AAAACATTTTATAAATTGTCTATAATTGAGCATTTGAAGAGCTTTGTAGGAAATGTTTTTAACTCCTAGGCTTAAATTCAGATTATTCTGTAGCACAGAA
AAATTTTATAAYGTATCTGAAACAAACAGGTTATATGTTAGCCTTATAAATAACTTAAATTTAGTTATATCTTTTATCTTTCTGCATTTCTGTAGGCTGT
CAAAATGAGACAGTAGCTGACTGGAGAAGTAGATGTCCTGTCTAGAGAGTATGTGCCTTGGGTACCTTCCTGCTCTCAGGCTCAGCCATTCTATAAGTGT
CTGAAAGTAACAGAGCCTTTGGATTAGTACCACTTGGTGTATGTCTTTCATCTGTTCATATTATATGTGCAGCTTCTTGCTTTCTTCAAGTCTTCAGAGC
TTTTTAACTAAATTGTTTGATGAGAAATATAGCAAATGGCATATTTAAAATCTTTCTCTTGTTTTATCAAACTTTTGAACGACTTTAGATTCACAAGATT
CATCGTGATTCAGGAGACAATTCTCAGACAGGTGAGAATACTTCAATTGAACTCTAACATACTTAGGAGGCAGCTGTGGGTTCAAATGTATACATTTCTC
TGAAGAAGTCTAAGTTGACATCTACTACCCCAGAATGTGGAGTGCTAAAATCCACGTGCTCATATCACAAGGTTGGCAAGCCAGAAGAAAAGCAGAAATC
CCTTAAAATGTCCTTGAATCTTCCTTTATGGCAACCTTATCATACTGAAYGCCCTCCCCATCTTGTTTTTCTTTTCTTGGCTAGATACCATGTAGGACAG
ATAAACCCAAGAGAGTGGGCCGAAAGTCTAGGGGAGACACTGGTTGAATATGACACAGGTGACAATATGGTAGTTGCTCAACCGTGTCCAGTCTCCCTTT
TCTTTGCACTAATTGGTGACTGTACAGTTGGAAAATGTGGCTAGGTCCTGGCCTGGGAGGCAGAAGCACCAAGTTCCTATTTCAGTTTCCTACTCGCTCA
TTTCATATGTTGGGCAAGACTCTGCTTGGTTCTTGGCTTCCTCCATAAAAAGAGGAGCTGGACCTGATGACTTCTACAAGTGGAAAGGTCTGGAATTCTC
TGACCATTAGAGGGAAAAAAAATCAGTCTGCTACCAAGAAGTTAAGATTTTTGTGCCTGCAAGAATTGCAACATTCTTTGCCCTGTTGGTGGCTTTCCCA
GCCACTAATGCATGATGTCAGACCCTAGGCTAAGTGTTTAGTCTCTCTTCTTGGTGAGGTGGATCATATCTAGCATACTTAGAAAGATGTCATTTGCTCT
TTCTAAGCTTCAAATTTTTTCATTTGTAAAATGAATTAACAAAAGCCCATCTCATTGTTAATGAGGATTAAAGAAGGAAATGTATAATGCTTAGCAGTAA
CTGGCATTTAACTTGTACCTTCCTTCCCCCTTTCTGAAAACTTTCTAGACATGAACAGGCTGGGATAACATAATGACACTTCACACACAGGTGCATTTTC
TCTCTCTCCCTCACTCACACACATACATTTTAGTTAATTTCTTGTAACACCTGAGCAGGGGTATTATTTTAACTAACTTGGGAGCTTCTGGGTGCCACAA
ATTGTTCCAAGCATTTTTGTGTCCTTTGCAGTGCCCAGCATTGCCTTGTACATAATAGACACTTTGCAAATACTCAGCAAATATTGGTAAATTGAAACCA
TTCCATCTTGGAAGTACAGTTTCCACCATTTATTCTCTTTTTGATCTTGGGCTACCTACAAAATCTCTCCATGCTTAAATTTCTTATCAGTAAAATGGGG
ATAGCCCTATGTAGTTTTGAGAATTGTTGTAATGATTGAATGAGACAATTATTTAAAGTACATAGCACAATGCCTGTCACAAAGTAGGCACTCAGTAAGT
GGAGCTATTTTTTTTTTTCAATTGGTGGCACATATTCCTTTTTGCCACAGAGTACAGCTGTTTAAATGTCCTTTATCCTTTCTCTGGCTTAAGTTTCTAA
TTCATGTAAACATCTGTTGAAAGAATGACAATGAATTCTTTAATTATGTGGCCTTACTTTAGCCTTTATTGAAGAATAATTTCTCTAAACTTTTAATCAC
TTCTATTGCTATAGATTCTCTTAATTTTAACTGAGATAAAATGAGGAAGAATAAACATCATCCATCTTTGAATAATTTCTAATGAACGACTTAGAATTCA
ACCAGCTAGCCTGGGCCACAGCCTTGAAGCTAACCTCTCTTTTAGTTTTGTTTAGAAACTACATTTTGAGGAATTCTTGGTTCTTGAATCTTGAATTTAA
TCTTAAATTTTTAAGTTAGATTTAACTTATTACTTGGTACACAAATAAATGCTAGGACTGTATATGATTATGAGGTCCCTGAATAGGCTAAACCAAGTGT
CTCACAAGTGAGCAGTATTAGTTTCGTTTCTCAGGGATTCAGAAATGCCATGATCCCAACAATATCACTTAAAGTACTATTATTTATAGATAATTGTAAA
AATATATATATATAGAAACTTATATGCAAGGATAGGTAAACTACTAAGGTAGAATTTGGAAGATAAAAATTAGGAAAAGAGATAGTATAATAAATATTTT
AAGTTAGATTATTTAAGATAAGGTGCTATAGCTATGGTGTTCAGATTAACTTTATAATAGTTCCGCTTTCACTTCATGTTGTATAAAAATAATTCAGTTT
TAATTTTTGATTTAATAATTTTTTTAGTTGAATCAGGTTTTTAGGACACTAAAGTAAATGGTTAAGAAGGTGGTCTAGAAAAGTGTCTAAGACATTATAA
AGTGAAAACAGTAAGTAGTAGAACAATGTAACATGATCACATGTGTCTAAAGACATATATGCAAATGAACGGATGTAATTAATAGCCCCCATATACTACA
TGCTCACTATGTGGCAGACACTGTTCTAAATGCTATGCATATATTAACTCACTTATTTCTCAAAACAGCCTATAAATGAGATGCTATCATTACCCCCACT
TCATARACAAGGATAATGAGACCCAGAGAAGTTAAGTAACATTTCCAAGATTACACAGCTGCTGAGTGGCACAGTAGAAATTTGAATCTTGACGATTTGG
CTCTGGACCTGGTTTCCTTAACTACTAGGCTTCTTGCACCTGCTGTCACTAGGCAATTCTTAAAGAAGTGTTATTGCATCTTTTTTTTATTCTTGGAATA
TGATCACTTATTGGCATCTGAGAAGCGCATTCTTCCTGCTGAAATTTGCATGTCTGCCTCCTCTCTTAGCCTAGTGAGGAGTAATCTGTGTTATGGTTAA
ATTTCTCTACTCGCTTATGAGTTACTCTCACAGAAGCAAATGCGCTGAAAATGTGTGTTTCTGAAGCCAACACTGCTGCCTTGTCATTTTTTATATCTCG
GCGCTCACTGGTGGCATATGCTTTTTGTTAGTTTTTACATTAACATGACCGTGCGTTTTCAGTGTTAAATTCAAGTCTGCAAAGATTTAGGCCAAAATTC
TTYAAATGTTTGCCTGCCCCCACCACCCTGGAAAATAGGGACAAGGGTGAAGGTTTAGTTATTGAAATGTTGGGGGAATCTAAAACTGTTTTCTTCCTTT
CCTGTGATCAGCAGTATGCATCATTTGATGAAATCCATCCTTAAAGAGAATCTAGAAGCCCATCTAGAGGTCTGACTTTTCAGAGGTGCCAAAATTCGTC
TGAATTAATCTCGTAATTTAAATCTCTATAAGTTTCATTAGTATTATATTTCCTCAAATATCCCCATTTAAAAGCCTTCCCTATCCAGTTGAATATATTG
TCTTTCAAGTAAAGATTTAAAGTACTATTATTTATAGATAATTTTAAAAATATATATTGAAACTTTTATGCATGATAGGAAAATTACTAAGGAAGATAAA
AATTAGGAAAAGAGATAGTATAATAAATATTTTAAGCTAGATTATTTAAGATAAGGTGCTATAGCTATGGTRTTCAGATTAACTTTATAATAGTTCCACC
TTTACTAGTTCAATAGTTCCCCCGAGAATGTCCCTCAAGTTTTAATGTTTATTTTCTTAAATTCTTTTTTTTTTTGGAGACAGAGTTTCACTCTTTTTGC
CCAGGCTGGAGTGCAATGGCACAATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATCCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTAC
AGGCATGCACCACCATGCCTGGCTAATTTTTTGTTKGTTTTTTTGAGACAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCAT
TGCATGCAACCTCTGCGTGCTGGGTTCAAGCGAGTCTCCTGCCTCAGCCTCCTGGGTAGCTGGGATTACAGGCATGCTCAACCATGCCCGGCTAATTTTT
GTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGGTGRTCTCGAACTCCTGACTTCGTGATCTGCCCGTCTCAGCCTCCCAAAGTGCTGGACTT
ATAGGCATGAGCCACTGTGCCCAGCCTAATTTTATGTATTTTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAAACCTGACCTCAG
GTGATCCACCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGGCCCTGCGCCCGGCCTAATGTTTATTTTCAAAATTACATTCATGTAA
CTAAATAACCCTTGATACTAAGCTATATTACTATGATATAACATGGCATTATCTTAAAAAACCATCATTTAACTAATATGACTATAATTTTTGTCTTTCA
TGATTTGAAAAGAAAGTGGTTGACTGTTTCTTAAAATTATTTTATAGTGCTTAAAAAGTAACCTTGTTTTCTTTAGAGAATAAAGAAAAAACATGTTTGA
ATCTCTTCTGTGAATACACGGAAAACTAATCACCTTCCCTTTCTAATCTGAAATCCTTAGAGCCTCATTCATTCAGATATAAGAACAGGAGGAAAGAGTC
CATTGACGTGAAATCGRTATCATCTCGAGGCAGTGATGGTAAGATGTTTTTCAGATTCCTCTGACCTTTTTAAAATGTAGAAAATGATGGAAGAATATGT
TAAAAAATTCATCAGCGTATAAACTCCAAAGAGTAAGAGTTCAACAACACCGACTTATTTTTCAATAAGCTCAAAGGTTTTAGGGGTTTTAATTATTTTA
ATTATTTTTAAAAATCTTATGCTGTAGTCTTTGTCGTCTCTTTGGAGGGACTCCATGCTTGTTCCTTGATGKCTTGAAGCATGTTGAGCCATAACCACCC
AAGCAACTCAGAGTTTTAGTAGCTGAACAAGGTCACTCTTGGGTGCTAGAGGCAGAGAGGCAGCCAGTCCTGGCTTCCCAACTCCCAWCACAAACCTAGT
TTTCAGTGTACCAGCTATATGCACTCACTTCTTAATAAAATGTCACAGAGAAATCGTGAGGCAGAATTTAGCAAAATGTTTCTGCCCTGCAAGGCAGGAT
TTAGCAAAACATTTTTTGAGTTCCATCAGCCAGGCCTAAGTAAACAACTGGATTTGCAGGGAGATGGAAAAGTCAAAGACGATTCTGACATTTCATTCCT
CGGTGTCTGGGAAATTTTAAGTCATATATACAGAAATGGAAACGTCTCCAGGTTTTGCTAGGTTGGGGGTTAAGGAGAAGATGATGAATCTTATTTTAAT
GGAGATGGCTAGGAAGCTAACCTGCAACCCTGGTACTCGGGGCTATAGATGTGGAGTTGGCAGTCCTAGTGGTGACAGGTGAAGCCAGGAGCAGAAGAAC
ATCTCTAAGGGGTGTGTGATGTGCATGTAGTGAAAGGACAGAGGGTCCAAGCCTGAGCCTGAAGGCRTAGTCTCAGCCAGGGGGTGGGCAGTGGAAATAG
GGCCAGTAAAGAGGACAGAAGAGCTGGGGGTGACCATGAGAGTGCAGTGTCACATGAACCAAGAACAAGAGGGGATTGAGAAAGGCGGTGGCCAGCAGTG
TTAGATGCTGTGGATATCAGAACTCGAGAGCGGACAACAGACTAGTAGATTTCACTCGCTCATTTGATTTTTATTTGGCAAATGGGAGGACACGTTCTGG
GGTGTGAGGAGGGGATGGTTAGTGCCTGTGATAGAAAAGAGAGATGAGGCTGGTRACTTAAGAGAGTCAACAGAAAGGACAAGGGAGGGACTTTCCAGTC
CTTCTGTACACAGTAGGAAGACTGAGTATGAAAGTGGCTGACATAGGCCAGGTGCGATGGCTCATGCCTRTGATCCCAGCAGTTTGGGAGGCTGAGGCAG
GCGGATCACCTGAGGTCAGGAGTTCGAGGCCAGCCTGATCAACATGGTGAAACCCCCTCTCTACTAAAAATACAAAATTAGCTGGGTGTGATGACGCATG
CCTTAATCCCAGCTACTCAGGAGGCTGAGGCATGGGATTCGCTTGAACCCAGGAGGCGGAGGTTGTGGTGAGCTAGATCGTGCCTCCAGCCTGGGCAACA
AGAGCRAAACTCCATCTCAAAATAAAAATAAAAATAAAAAAAATTTAAAAAGTGGCTGACATAGCAAGAACCAAAGATGCTAGAGACAAGATGATAATTC
ACAGGGCATGTGAGGGACRGTAACCAATAATATAAAGAGAATATGAATCGAGAGATTTTTGAGATGGATTGAGCGGATAGATAGAATATTTTAGTCTGAG
AGGATAAGGGATGAGGGAATTTGAACTGGATTCACTGTTTTTGGAGCAGAACTTGAAGGGGACTGTCTTCTTTCCAGTACGGGCACAGTGGAGGCTGAAG
AGCATGCAGGTCTGCAATGGCTGCTGCACTAGCAGCGGGGGGACCCCAGAGGTGGCTGAGCAGGAGGCAGGCTCTGATGTGGGGTGGGTTCAGTGATCCC
ATCCATGAAATGGGACTCCCCCTCCTGCCTGCCTCAGAGGGGGTGGTAGGAAGATCTGATGAGAACAGTGCTTTTCAAGTCAAGCTTCTACCCTTGGCAT
CTTAAACCAAGTATAAACATTAACTATGTAGAAAAATAAAAGATTTTTTAAAAAATGAAAGCTTCTGTAGATTTGAACTAGAACTTCCATGGGTTTCTGG
GAGTTAAGAGCCTAAAGGCATGGGCAGGCGGAGTGACTGGCCCTAATTCAGACTGAGAATGGGCTCAATCCTCCGCCCTGACCCTAACCATGAACTGCCT
CCCCTCTCAAGCTGGCTGCACAGTCATCTGGTTACACGGCCAGCAGCTTAGGACTGAAAGTCATGGAACTGCAAAAGTTGGGTTTGGGTGACTTGGGGGA
AAGTGAGCCGTGTGGGGGTCATTAAGCTGTTGGAATGAGGCCTTTTTGGACCTCATCAACCTTCTCTGAAATTCCCCTTGTGGACTTGGGGCTCAGCAAG
CCCTCCTGCCTCCAAAGTTCCAGGCCAGATCRCCTTTCCAGACTCAGGCAAGTAGCAGTTGGGCTACCAGCCTTGGCAGAAGAGATGGGTGAATTCATGG
CTTTTTAGGTGGGAGGGTGGCCCTGTGAGAAGCGGGCCCTGGTCCATGAAGGGACTCCTTTGCTGCACTTAGCCACACTGAGCCACCGGAACTGGACACA
GCTTTCTTGCCTTCTCTCCAGCACCAAGCCTGCAGAATCGTCGCTATCCGTCCATGGCGAGGATCCACTCCATGACCATCGAGGCTCCCATCACAAAGGT
GAGTGGCGGCTGCTGCCTGCACTCTGCAGTCAGGGGCCCTCACACAGGGCYGTGCTCTGAAAATACATCACACTGACATCATGGAGCTCRGTCTAGTGGA
AGAAGCAAATAACAGGCAAATAAACACATAGCAAATAAACACCTCATCCTAAGTCACAATCAGGGCAGTGAAGGAAAACAAGCGGGTTCTGTGAGAGAAA
ATTAGAGTAGGGCCCTTAAGTAGGTTGGAAGAGAGGGTGGTCAGGGAAACTCTCAGTCATGTTTGAAGCAAGTCTTGAAGCATAAGATGTTACTCAGGAG
AAGAAGGAAGAGAAGACTCCGGGTAGCAGGAACAGCCAGGGAAAAAGCATTGCRATGGGCGAAGAGGGACTGGAACATTTAAGGAGCTGAAAGAAAGTCG
GAGTGGCCGGAGCTTGGTAAGCAGGTGAGAGAGGAGGAGGATGTAGGTTGTACAGGGCTCAGCTCATTCTGGACAGCAGGGACATAGTTAGGAGTTTGTA
TCTTAGTTTATGTGCACTGGAAACCACTGAAGAGTTTCAGGTGTGGGGTGGGTGATGTGACCAGATATGTTTGTTGAAAAGAACACCCAGCTTCTGTGCA
GAGAATCGATTGGAGGTGGCAAGAGAACAGGTCAGTTAGGGGGCTATTCTAGAAGTAGCTGAGCTAGAATTATAGCTGTGGAGGTGGAGAGAAATGAATA
GATCAAGAAATATTTTGAGGCAGACCAATAGGACTTGGTGATGAATTATATTGCCAGGGTAGGGAGAGGAATGAGGAAAAGTATTATGTCAGGCATGGCC
CTCCCAGGTTTTTGGTGTGAGCATGAAGTGCTTTCTTGATAGAAAATGACATGAGATAGAAGTGCTTTCTTTTGCAGTGTAGAAACCACAGAAGGTGAAC
AGCTTTTGTCTTTGATTTTTTTGTTGTGTGTGTTTATGTGATTTCTATGGAGAGAGGGGAACAAGAYTGCAGTTTAGTGTTAGACCTGTGAGATATTCCA
GTAGGTATGTCAGGTAGGGAATTGAATGTACAAGCCTGGAGGTCAAAGGAAGTTGAGGGCTGGGAGGTATATCGAAAGTCCCTAGCTATAGGTGTCCAAA
GTCGTGGAGACAAAATATCATTTCTGGAAGCGAGAGAGTGAGAGAGGGGCCCAGAACAGATCTCTGAGCAACYCCAATCTGTAGAGGAGGGCCAGGGGAG
GTGAATCTGCAAGGGAGCCTGAGGAAGCCTACTCACTGAGACAGGAGAACATTCACCAGGAGCCCGCAGGGAKAAAAGCATGCTTCAGGAAGAAGGGCGG
TGCCGTGAAAGCACTGGTCATTTTGAATAAGAGATGGTTACCCACTGATTTCTTTTGGATTCTGGGCATATATATGACTTTTGGGAAGTAGAACCCTATT
ATCCTCAGATGTATTCTTTCTTCACTCCRTTAGGTTATAAATATAATCAATGCAGCCCAAGAAAACAGCCCAGTCACAGTAGCGGAAGCCTTGGACAGAG
TTCTAGAGATTTTACGGACCACAGAACTGTACTCCCCTCAGCTGGGTACCAAAGATGAAGATCCYCACACCAGTGATCTTGTTGGAGGCCTGATGACTGT
GAGTGATGAGGCAAAACCTGAAAAGCAAGAGAGGTATCCGGGGCCTCTAGAGTGCAGCTGATGTGGAAACYGTTACCTGTGGTTGCAGAAGTACCTGTTA
TATAGACTAACGTTAGCATAACCAGAAGCAACTGCGTCAGAATTTATGTATAACATGTGCAGTGGTATTTGAGTGACTCTTGCATTTGTCTTTCCATGAG
GCTGGCCTACCATAGCCATGGGGACAGTGTTTCAGAATTCCTATGACTGCAGGGAGTCATTGGGCAACTGATGGAGGGCTCAATGTGCAAGATGGGGCTT
TGCAGGCTCTTGATTATTCCTGCTTTCCCTTGATCTGGTATAGTATTGGATTTCATTTCCATGGACCTCAGATTCCTCATGTAATGAAAGGGTTTATTGT
TAGACTATAGCATTTAATCTTAACTATAGAATCCTTTATTTAAAGTTTGTATAGAAGTTCCATTTATAAGGTAAAAGCAGACTGGGGCTGTTCTGGCTCA
GGGAGGGGAAGGGGAGAAGGAACCTCTCACTGCCACATTCCAAAAAGAACCATTTACACCACCAAGAGTAGCTGGTTTCTAGGGACTCAACCTATTCTGG
TGTTTTGCTGTGATCTATTTGGCTTTCATAATTATCTATCAGCAAGTAAAGAAAAGGAAAAAAATTCAAATTGTTTATTTGAGTTCCCCATCAGAGTCTG
AAGCTGGAATTCTTTAGAAAAAAAGTCCAGAAGTCATGTATGAGTTTGACTTTGAAGGTTTCTGTCCAGCCCTGCAGCCAAATGCTGAATGTTGACTGCC
TTTCCCCTCCATTCTCCACCTGGAACTTGAGGGCCTTCTTGTTTCTTTCTTGCCCCTGGGCTGGCCTGTTAACTCCATCTAATGCAGTGCAGACCTCAGC
TTCTAGGCAGCACTGCCAAGGGCTCTGCAAGAAGGTGGCCACCGCAGAGCTGCAGTGGGAGGGGTCTGGTTCTGGGAGCAAGCCATGTTCCCTCCCTCCC
CTGCTGCTGATGCAGGACAGGCAAGTCCCCAAACTGGGGCTCAGCCCGGGAGGGTTCTTGGCCTCGCCCAGGAAATAATKCAAGGGCAAGCTGGTGGTGT
TAAACAGCAACTTCTATTGAAGCAGCAGTTGTACTGCAGTGGCAGAGGGACTGCTGCTTGCAGAGCGGGGCTACCCCATGGGCAGTGTGCCCCTGGTAGC
AGCTCAGAGGCAGCACTGCACTCATCTTTATACCTACTTTTCATTACATGCAAATGAAGGGGCAGTTTTTGCAGATATTTCTAGAATGAGGGTGGTAACT
TCTGGGTTGTTACCATGGAAAGGGTGGAAAGGTCTGGATGTTGTCATGGCAACGGTAAACTGCCGTGGCATGCTGGTGGGCATAGCTTATGGGGAGGTGC
TTCTGCCCTGTTCTACCTAGTCCTCAATTTGGCCCCATGTCCGAGTCCCTTCTCCTACCTCACTGCCATACCATCGTGGGTTTCCTCTCCAGAGAATGCT
GTGAGGAACCAGTGAGTGATTCCACCTCAATTTTATGTGGTTTTGGGGAAGCGGAGCGAGAGAAGAGCAAGTAAAACCAAGAATCTCTTGCCATACACAC
GTTACAGGCAGGACAATTGTGGCTGTTGTTGTTACTTCTGTATTTACTCARTTTTTAAAATTAAGCTCTTGGCCTAAAGATCCAACATGTAACTTCAGGG
GAGTCCTTCATTAATTAATACTACTTTAAACCTTAGCACACATCGTCTGGGAATGACAAATAAGCATTTCTTTTTTTTTWAATTTAATTTTATTATTATT
ATACTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCATTTCTAAATGACTTTTAAGCAAA
GATCTAGATGATTGAGGTACTCAGAGATCAAAGGTGGAGGGAAGGAAACTGAGATTCAGGAACACTTGGGGACTAGTTCAAGAGCCAGGATATGGCCAAG
CATTGGAATTTCGTCCACTCTCTTAACGCTGCATCTCCAAGGACCTCAAGCCCAGAAACTCTTCTTTAAAAGGCAAGCAGCAATGCTCATGTTTCAAAAC
ATAAAATACAGTTGGGGAAAAATTAGTTGGGATATTAGTCAAAAAATAGCTCAATCTTTTTAAAACTTTATATTAGAAGGTAATCCCCTAAATATGGCTG
ATGGCTTCAACTCTTCAAAATGTAAGTCAAAAACACAATTAACACAGTCCCTCTGAGGGTGAGGGGGATCCCGTCAAGATCTGAAGCAAGGTCACTCCTG
YGATTTCACCTGTGTAGCTTGAAAATGCCAGGAGAGGAAGATGGCCTCAGAACAGAGCCAACCCACAGCTCACTGTGAGTCCTGACACAGTCACATCCAC
TCTATCCCAGTTCTCCACGTTCTGGGGCTAATAGTTACAGAAGGGAGAGTATCRTCTGTCTTATAACTGTTGTGATTTAATTTTGAGCTTTGCTTCAACT
TAGACTTCCAGATTGGTTGGGTTATTCAGGATTCAAATCTCTTTCACTAATAATAAWAAAAAAAAGAGAATGATAATAGATATAAAGCATGCTTCTAACA
GGCTCTTCCTTTATTCCAGGACGGCTTGAGAAGACTGTCAGGAAACGAGTATGTGTTTACTAAGAGTAAGTTTTCATCTATTTACTTGTTAGTGTAACCT
GTCTCCAGCCTGTGCTGTCCCCGCTGTTGCGATTATTGTTCTGGGAGGTGTTACTTCCAGCTAGTCCCATTTGAGTTTAAGCATCAATATGGTCTACATT
TAAAACTAGTCTCCTAATTAAAATTACTTCTCTGAGCACAGTTAGAGTAAGAATTGCAAATCTCTATACATTTAAACAGAGTTAAAGTGAATTATTTTTC
TATTTGAGGGTCTTGAAGTTCAATAACAGAAAAATCAGGTACAAGACTTTTTTTCTAGTAGTAACTATGAAGATGATGACAGACACCCGGGCACTCAAGA
TTCCACAATTAACCAGCCTCCCCCATCCCATCTGTTTGCTCAGATGTGCACCAGAGTCACAGTCACCTTGCAATGCCAATAACCATCAATGATGTTCCCC
CTTGTATCTCTCAATTACTTGATAATGAGGAGAGTTGGGACTTCAACATCTTTGAATTGGAAGCCATTACGCATAAAAGGTATGTGACTTCTCTGGCTGA
AGGCAGAGCAGGATTGATGGCCATGCTCAAACTCTCACATTTGGAAACTTTGAGGGAGACATGTTTTTGCTGTGAGAGACCTCACGGGTTCTGGCTCTCA
TGCCATGTTAGAGTAGTGTTGAATGAGCAGAGAKACTATGGCCCCTGAGTGAGATCCTTTGTGGAGAGTATTAGTAAGATGTGGGATCTGCCTGGGTATC
CACAGCTCCCTCCTTTGTGCTAGTGAGCCAAGAGTTCTAAGAATCCTCAAACTTGTCGAAGCTCTACCCTACAGAATGGAATTGAGAGCACTATAGATTT
TTTTTTTTTTTTCTGATCCATCCTGTAGGCAGAGGAAAGATTAGATAACTGAAAGGTCTTTTTCTATACTAGGAGAAGGCTGTTTCTTCCCAGAGGTGTT
GGTCTGTTGGATATGAAAGATTCTCACCTGTAACGTAAATAAGTAACAGGACTCTAAATGATAGGACTTTGGGACCATCCAAGCTGTTTTTTTTTGTCCT
TAGGCTTAGTCACTTCCTTAGGGAACATAAATAAAGTGCAAGGTTAATGTGGAAGTGGGGATGGAGAGGGACTGCCAGGCTCATTTCTAGGTTGTCAGAG
CCACTGAGGGGCCTATGATTTAGAGTTCATCTAGAAATAATTTGGATGTACTACCATGAAGCATCTAGTTCCAAAGAGGTGACTGGTGAGAAGGAGAGAT
CCTACCTCCTAATTTTTAGAGGAGATGCTTTTAAACCCCTGTGTGTGTGAAGCTATCATCAGAAGAAAAATGCTTCCATGCCCCACTATCATCAAAGAAA
ACAGTTTCTGGGCCAGTGAATACAATGAGCCAGGGTGGGTTTTCCTATTTTTCAGGCCATTGGTTTATCTGGGCTTAAAGGTCTTCTCTCGGTTTGGAGT
ATGTGARTTTTTAAACTGTTCTGAAACCACTCTTCGGGCCTGGTTCCAAGTGATCGAAGCCAACTACCACTCTTCCAATGCCTACCACAACTCCACCCAT
GCTGCCGACGTCCTGCACGCCACCGCTTTCTTTCTTGGAAAGGAAAGAGTAAAGGTAGGATTTTGATATCATGACCTRGTTACCTGCCTGGATTGGAGAT
CCAAGAACTTAATCTTAGTAAATACATTAGGCAAACAGCTATTTTGCAACCAAGTTGACAGCTTTTTTWAAAAAAAATTTTGTTACCRRATTGACTAGTC
ACTTTGGTGTTGTAAAGACATGGACCTTTCTGCCAGCCCTCCCCTCCTCCAAATACTTAAAATAATTATATCACCATAGAGACTCCTTTATATGCATGGC
AGATCATGAACCCATTTTCCAAATGTTAGCTAGGAGCTGTGTTACKGGGTTGCAGGACAGAACTTAATTATTACAGCAAATGGTTACTAGATCTATAGGT
TAAATTTTAGTATCAGGATTTGGCCATTGGTAGATTACAGTCCAGATATTAATAATAGCCATTCCGCATTCTACACTGTTTTACATATATTTATGTTTGT
GTTTTGTGTAGGTATGAACGTGCCTATCTTTATATTAATGACTTTTGCATAATTCTGAAAGAGTTCCATATCCCTTAGTCTTACAGTTCAATACTGTCAT
GTACCACTGCTGATTTGTAGGGCAGCCCTAGGAACCCCTTGCCCTTTACATAAGGGCAGCCCTATTTAAAGCTGGCAAGAGATCCCCATCTCTCCTCCTC
CCCAGCTACCATCACTTGCACACCAAAGCTTATACATTCTTTTGCTACAACTAGAACTAAAACTTAAATTTTAAATACCCCTGGGAGAAGTGCCATATGG
GGATTGAAATTCACATCTATCTGTAAATGCCTGACATTAGATCATTTTCTTAGAACCAGGTATTGAGGGATTAAGGTCCTAGGTACTTAAGAGCTATAGT
GAGACAGGTAGAAGCAGAAATGGCAGGAAAACAGTAASGGGGTATGTGGRTAAGGTTTTCTTCTCAGTTTTGCCAACAGCATCCTGATATTTATTCACTT
TCATCAGCAAGGAAACAATGTGGCCCAAGAATGATGCTTTTGAATAATTTTGTCTTCTACTTTTAGAAAACTAATAGTGATATCAACCTATGTTTCTATA
ACACCTTTCTTTGAGGAGCAAAAACACCCTGGATTCCTACTACAGGTTCATGCTCCTCTTTTTTAAAATTTTTTTATTTTTTTGAGATGGAGTCTTGCAC
TGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAACTCCACCTCCCAGGTTCCAACAGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGG
GACTACAGGCGTAGGCCACCATGCCCAGCCGATTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCAATC
TCCTGACCTCGTGATCCACCCGCCTCAACCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACTGCGCCYGGCCTATGCTCCTTTCTTTTATACCACATG
ATGTTTCACAGCTGAAGCCACATGCTACCAGTTGAGAACAGCACCCAATTCATTAATGCCAAGACCAAGGTGATCAAWAGCCTCTGCAGTCTTGAGTTAG
AGGTGAACCTCACTCAAGCGGAACCACTCTAGGAAAACATTGATTAAATTTTTGATAAATTAGGGAATGCTTAGTAACTTGATCATATCTTACTATCCTC
CTCCAAAATATATTTCTTTAAATTGTGAGTTCTGCTAGTGTATTTGGAGTCTGATTAGATTTCTCAAATGACAGCAATAGAAACAAGTTTAAGATTGGAC
AGAATATGTTTACAATTCAAAAAACATTTTCTCATGCTGGCAGCCCCTGCCAGAGAACCAGAAAACTTAGAGCTGCGAGGAAGCTTGGAGAACTGAGCTG
GAAGGGGTTTCTGGGCTCAGAGGTTTGGTTACCTGCCTGTGATCACTGGTGGGTCCATCATGAGGTGCTTCCAGAAAGATTTACTCCTGAGGCCTCTTCT
ACCAGATCTGCTGGCACTGACAAAGAGGGTCAGGAAGTATTTTCTTACTTCTCTTGTGTCATCTGTCACCCCTAATTTCTTTGTGATAAGCTAAAATTTT
TTTTTTTTTTTTTTTTTTTTGAGATGAAGTCTCACTCTGTCACCCAGGTTGGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTT
CAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTGCAGGCACATGCCACCAAGCCCAGGCTAATTTTTGTATGTTTAGTAGAGATGGGGTTTC
ACCATGTTGGTCAGGCTSRTCTYGAACTCCTGACCTCAGATAATCCACCCACCTCGRCCTCCCAAACTGCTGGGATTACAGGTGTGAGCCACTGCTTCCA
GCCAGGCTAAAATTCTTAATGTCACTATGACAAAGCATGCCCAACCCAGCTGTAGAGCTAGCATGCCCAGAGCTAACAGCCCCTTCAGTTGGTGACAGAC
CCCATCCTCTCCCCATGTTACCCAATTCCAGGGAACTAGTGCAAGTGGAGAAGCCAGGATAACAAGCATTCCTTTATTAGTATCTGRGCATACATGAATA
TTTATCCTGAATAAGAAACTATTTGAAAGACAGATCTAGAATGAAACCCTTTCCTCAGTGTGATCCAGATCTACTCCTACTGGTTAAAGAGGGAAAAAAC
TATGCAGAGGTAACTGCACCTCCACGGGACTGGAATTTCGCCAGTTGCGGGTTTGGTGGGGTTTTCTTCCATGGACATTTCCTCCTCGACGTAGGGCCTT
GCTACTCTCCTCTGCTAGTGAGCTAGCCTGTCTTCCTTCCCTACCTCCCAGCCATTTCTGGTCTGACAAGGCCTTGTTGGTGCCCACCTAAACTGCAGGA
CCCATTATTGGTATCTTTGTAAGTCACTGAGGGCATGGTTTAAATCAGTGTTAGCTGGAAGGAAAGGCATGTTTCATCTAGTGCTATTTATGTTTTCTAC
CCCAGTTACTTGAATCTATTTCATTGAAGAATTAAAAAATAAACAGGCCTGAGACTCCAAGCAGGATTGAACATACCACAGYGGCACTAGCTGGAGGCCC
AGAGTTTGGGCCCCGTGGGTTCTCACTGCTCAGGTACAGTCAGTGAAGGTGGAGCCCAGGTTGGGGCTGTCCTGGGTCCTGAGCTTGGAGATCGCTGAAC
GTGCCTGCAGGTGACCGTGGCCTCTCCTGACCAGCAGTGAAATGGGCCAAATGATGCTTGCTTGCCCTGGGCACTGCAGAATCAATCTCTGAGAACAGCT
GAGAAGAGTAACTTCTGCTGTCCCTATTCAGGAAGCCTAGTTGTGTTGATTGGGGTCACCCCAGGGTTGCTCACCAGCTCCATGGGGTCAGCGTTGGGAA
TGGAAATGACTCCCTTCTGGTGGAGACAGAGCTTTCAGGGAAGCCTGCTAAACCAGCACAAGCAAGTGCAGCCCCTTGGCCATCAGGGTGCCGTYGCAGG
ACAGGGCTGAGCTACAGGTTCACCTTCCTCACCTGAGTAGCAGCTCTTCCTCCTGCAGGCCTAGGAGAGCAAATTCTGGGAATACCAAAAATGATGACCT
CCCCACCCCCAACATCTTGGGGACCACTTTCCCTCTCACTATCCCTTCAGCCACAGTGATGTCGCTTACGTTTCCTGAACAGACCTTTTTTGTTTGACTT
CAGGAACGTCATGCAGGCTGTTCTTTCTGCCTGGAATTGCCCTCTTGCTGCTTGTTGCCTGGACAATTCCTGCTTCTCCTTCAGGCTCAGCAGAAAAATC
ACTTCCTTGGAAGTGACCACCCTCGAAATCCATGTTATCCGATATGGTAGCCATCAGCCTCGCATGGCTACTAAATAAAATTTAAAATGCAGTTCGTCAG
TTGCACTGGCTACCTTTCAAGTGTCCAGTAGCTGCATGCAACTAGGAGTTACTTTATCAGATAGCACAAATAGAACGCATTCCTGTCATGGCAAAAAATA
CATTGGACAGTGCTGCCCTAAACTAGACCAGGTCCCATGGTTATACTCCCAAAGCATCTGTACTTTCCTTCTTAGCACGTCTCACAGCAAGTTACTTCCG
TTTGTGTTTTTAAATGTATTTGTCTCTCTCCCTCTACATTACAAACTCCATTGTGCAGACTGTGCCAGTGTAAATCATCATGGCAGCTCTGGCACTATGC
AGTGATAATTGGTACYTGGTAGGCACTCAATAAATAATAAATTCCTAGCACAACATCTCTTATATAACAGTAGCCCATCTGATAACTCCTAAAGCTGCAG
GCTCAGAAAACACTTGTATCCCCGGATGCTCTGGTTTGTTTCTTTAATTACATAATGAGAGCTTTCGAATTAGGGTTTCCCTTTTTGCCTTTGCTGCCTG
CTAGCCCAGAGCTGAATTTTGTTCTTATTTGCAAGAACCCCTTTAGCCTTAATTTTCCTGGCAAAGTTATTCTTTCCCTTGGTCTTCTTTTACTGCTTGG
TCCTCTTTTACCTGGTACTCTTTTACTCTTCTACAGCTCTAGTCATTTCACCATTGTATGAAYAGTTTTGTTGTATCTGAGCCATTTGCTACCAGCACAC
TCAAAATCTTTTCAGAGCTAGGCAAATTGGTAATAGTTGTGATCACAGGCCACTTTCTGCTGTGGCAGAAATACCATACAGTGGGCAATTCAAAAGGCTT
GTTTGGCCTCTTCCTGCAGCTGATGGCCCCTGGAGAATGAATTAAGCGTCTGCTGTAACTGTGGCTCAGGTTGCCCTCCAGATAACAGACAGCACAGTAA
AGCGATGCTGCATGTCCGAGGCCGCCTCTCCACATCTAGGTCAGAAGGCTCAGCTGGCTAAAAACGTTCTGAAAATCTCAAATCCCCTGACCCGACCCTC
CGCACAGACAAGGATGGATGTGGGTCTCCAAGATCCAGTGGGTAATGCTCAACCTTGCCTCCCCATATCCCAGGGAAGCCTCGATCAGTTGGATGAGGTG
GCAGCCCTCATTGCTGCCACAGTCCATGACGTGGATCACCCGGGAAGGACCAACTCTTTCCTCTGCAATGCAGGCAGTGAGCTTGCTGTGCTCTACAATG
ACACTGCTGTTCTGGAGAGTCACCACACCGCCCTGGCCTTCCAGCTCACGGTCAAGGACACCAAATGCAACATTTTCAAGAATATTGACAGGTTTGTTGT
GCTGGGGCTCCTGTGCTCAAGTTTGTGAAGTTTAAGTGGTTTTCCCAAATACTTAGCTTCCTCTTAGGGGAAAGGGAAAATATTAGCTGTCCCACTGTAY
CAGATGATAAAATAACCTTGCCCTTAACTTAATTTGACTTTTCAGACTGCCTTTATGTTTTGAAATCTCATTTGGTCTTCAGTGAGTTCATAAAAATGTT
TTATACACTGCAGAACACTACATAAATATTGATTGTACTATTACTAAGTACACCAGATATTTTTACCCTCCTACGAGGACATCCTGTCTTTTGTGTAACT
CGAGGAAAATGTATCCACCCCCATTTTTCCCTAGCTCAATTTCCGGCCGCTTAAAATACTCCCTCATGAGTAGGTCCCACAGAGCGGGAGCACGAAGGGT
GGGGCAGGTTACCCCAGCCCCGCATTCTCTGATGAGAGTGGGTTAGATGTGAGCAGGTCCTCTTGCCTCCCAGCACCTTGCAGTCAGGCTTGTGGGTATT
TCCCACACAGCACCAGCCAGGCTGGTGCACAGATGCCTGGGAAGGGGGCAGTGTACAGAGAACATGGAGCTCACTCGGGCCTCAGGAATGCTGGTCTATG
TGAACCTATTGGTTTGGTCTCCAGAAAACTGGGAAAACATGGAGATGAGTTATTCCAGCTTTGGCTTCAGCTTCATCAGTATCGAGGATGGGTTTTTAAA
CTTTTGCAGAAAAAATTCTTTCCAGTAGCCAATTTTATTCAAGAGCCATTCTGGCTCTTGAAGTTAGAAAACGACGACAGAATTGGATGGTTAATTTGGG
GCAGGGTTGTTGCTTCATTCATTACAATTTCTATCTGCTGCAGTCTAGAGMATTACTTATTAACAGGAAAGTCTTCCAATGCYATCATTGAAAGAGGCTG
TGGCCATCCTGTGCAATGGGAATCCCTGTGTTTGCACAGAGTGCAGTGGGCCAGCTTATGTGGCTGCCGTGCCAGCCTGCCATTTCCTGCCACCTTACTG
TTTTGATGTTCTCAAGGGAAGGGAGAGGGGAATCACCTTGTCAGATAAACGTCCACCATGTGACAGGTACCTTCTCTCTTTTTTAAAATACTCATARATC
ACATAAGGGTCAGCTATCACTGGGGAAAATGGAATAGCATCTGCAAGTCTTGCTTACTGGGAGGACGAGCTCTTCTTGTGATCTGCACACATTTCTTAAC
TCTGTGCCCCAGCTTCCTCCTAGGTTGTGAGGAGTGTAGTGAAATGGTGGCAGAATAGTTATAATTTGAGACACGCTGTGAACAAGCCCCTTTGTCTTGT
GGTTATTTTAGGAACCATTATCGAACGCTGCGCCAGGCTATTATTGACATGGTTTTGGCAACAGAGATGACAAAACACTTTGAACATGTGAATAAGTTTG
TGAACAGCATCAACAAGCCAATGGCAGCTGAGGTGAGTACTGCTTTCCATGCCATAAGGCACATCCAAGTACATTTCCRTAAGAGCCTGCTCTGGCCCTG
AAGCATTTTCTCTCCCACTCAAATRTAAGGTGGTTATTTACTTGGAGTTGATAAAGGGCTGAAAGGACTGGCCACTTGTTTTCCTTGGGGATGAAAATAA
ACTGTGTCCACAGCAACTCTGAGCTCCTTGAAAGAAAGGCCCTGAGAAAAAGCCAGTACTGACCAGAAAAGCTTGGCCCAAAGAATATGGAAGGAGACGC
AGACGAACAGAGACTGGCATAAATGGTGGTATTTTAGAGAATCCAAAGCCTTTACTTCTSTGTTCACTGAGCTCTTGGAAAACCTCAAAGTTGGAAGGTG
TTTTAAAAAACAAAGAATGTTCCTGATTCACATTAAAAGCATACCAGTACCTGAAGACTATCATAAAACTGGGAGTGACTGGAAAGCAGAAGCATTTATT
GTGTTTTCCTTTTTTAAAACCTACTCATGTACCTTGGACCTGCCTTAAGGTCCTTACCAATTTGGCTTTTAGGAACATGAAACAGAAGGTTCACACCTAA
TAAGATCCACTGTTCTCTGAAGCCATGAAGCTGTTCATAACCCCATAAAGGTAGAAAAGCTTTCCGCTCATTCCTGTTGAGCGGCAGAGGTTGGCAAACT
GGATGGATGTGAATGATCATCATGAGTAACTTGCTCAGTAAGGAGATGATCTGTGTAGGACCCATCCCATGACCAGTCTGGATGGAGTGACAGTGTCTAC
CTCACCTATTTAAGCCCCTTCCCCCAGGGATTCCACAGCACAACACCAGAGCCCTCTCCTTCCACAGAAGACTTACAGGAGCAAGGATCTGGGGATTTAG
AGAAGGAAAAGTATAGAGATTCATAGAACTAGGAAGGTCATCCACTCATGTAAGCCCCCACCTCTGCACTGCAACTTACTATTAACTGCAGTATTTATAG
TAAASAGTATTACTTTGATAAGTARTCAAAAACCTCCAGAACATATTCTGCCCATTGATAGTCTAATAAATAGGTCCAGTCTTAAACCCYCCAAATGTCA
TGCAGCCTTTTGGCTTGGCAGAGCTCTGGAGACCTAATTGTTTTTACACAATCAATTTGATGGTGTCTTTAAAAGTGGAGAATAACAATCTTTCAGGTTC
TATGTAAATGGCCTGTGATGTGTGTACCAACTYGTGTCCTGGCCACATGGCTCAGGACACTGACATCACCACTAGGTGTGGACCAGTCTTTCTAAACATG
GCTGAACACACCTGCTCCTGACTACTTCCTACTCCAAGGACCCCACGCCTACCTGGCTCACTTACCAGCCAGTCAGAAGAACAGCCAAGAAAACATGAGT
GGACACATGCCTTAGGAGAACCAAAGTGCGAGAGAGTTGGGTGAGTTGGGGGTGGGACAGGTCATAGGAGGGAGGGAGATGGTAGGCATAAGTAGTAGAA
ATCAAGAAATAATTGAAGGGTTACATGTATGTGCCACTGCCCTACCTGAAATGCATTAAAGTAGCTAAAAGCTCTGCTTTTACACATTTTTTWAAAAAAA
CTGGGAGAAATTTCCTCTAAGATTACATATCAAATTGCTCAAAATAAAAACAAAACTGCTGTAGCAGTTACCTCTAGGGAAGAAAATGGATGTGAGGGGT
AGACAGGTGGTGACAGGGACTTTCAACTTTCAAACTCTGTGTGTGTGTGTATTGCTGAGTGTCTTTTAAGACTGTATCAGTATATTCTTTTTTTAAAGAA
TGTGTCAGTATATTATATATGGAATTTAAAAAAGGAAAAGCTGCCTTCGCCGAGTCCCAGTCCTACCTGTGTGCTCGGTGATCACCATCGAATGCCTGGC
GARTTAACCCTTGTGGGCTTCACCGTCATCTTGAACCAAGCCTGATCTGACCATCTGTTTTCCAGATTGAAGGCAGCGACTGTGAATGCAACCCTGCTGG
GAAGAACTTCCCTGAAAACCAAATCCTGATCAAACGCATGATGATTAAGTGTGCTGACGTGGCCAACCCATGCCGCCCCTTGGACCTGTGCATTGAATGG
GCTGGGAGGATCTCTGAGGAGTATTTTGCACAGGTGCGCCATCTTTCCAGGGAAGCTCCACTTCCCCTCTGGGAATGGGAACTAGGTCATGGAACKCCTG
GGGGATTCTCCAGCTGAGTAACTTTTTACCAATTAGTTAACCACTCCTCCCTGGAAGAAAGCAGCTTACCCCCACCTGGGGTAGGCTTCTGGTTCCTTCA
GGAGCTGACTGATGGGGCTGATCACTAACCAGAGTCTCTTGAGAAGGGGGATAAACTGAGCCTTTGGAAGTAACTTTTCATCTTCAGTTKGCTGGATCCA
GAACTTGCACAAAAACCGAGAAATCTTCCATTCATTCACTAGGTTATTCCTGGGTGTCTACATGGCGCGTTATGGGAACACAGGCATTAGTGAAGACATC
GCGGCCRCGGGGAGTTCCAGTCCAATAGGGGAGAGATGTAGATAGGTCCACATGTTAGTAAAAAATGAAGTGTATCTCAAGGAAGTTTATGTTAAGTGCT
ACAGACGTTCAGAGAGACTTTTTTCTAGATAAAAGGGGGGCTACAGAAATGGAATAGGAAAAGACTTTCTGGAAGAACAAAGCATTCTGAGCAAAATTAA
CAAAGGGAGGGGAAATAGAATTTTTRTAAAAAGGGAAGAGCAATATGTAGTTCACTTTAATTGTAGCAGTGTAGAGAGTTAAAGGAGAGAAATCTAGAAA
GCAGTAGACTGTAAATGGACATGTGAAAACAGCCCTACTTCCAGAGAAGAGACTCTAAGCACTGATGGGTGTGTGGGTGACAAACAAGCAGCCACAAGTA
GTGAATTTTGTGGGGTCTGCATGGCTGAAATGTACTGTGGAGGCAGGATAAATAAGGGCAGGATAAAGAATAGATGATGCCTAGGAAGACTGGGAAGGGG
AGTGACCAGCAGAGGAGCCCAGTATGTTTAAGATTTGGGGGTACATGTGCAGGTTTGTTAAAAGGGTATATTGCTGATGCTGAGGTTTGAGCTTCTAATG
ATCCATGGCTCAAGTAGTAAACATAGTACCCAATAAGTAGTTTTTCAACCCTTGCCCCCTTCCCTCCTTTTGAAGTCTCCAGTGTCTACTGTTCCAGTTT
CTGCCACTGTGTGTACCCAATGTTTAGCTACCACTTCTAAGAAAGAACATGTAGTATCTGGTTTTGTTTCTATTATTACTTCACTTTAGGATAATGGCCT
CCAGCTCTAGCCATGTTGCTGCAAATGACATGATTTCATTCTTTTTTATGGCTGCATAGTATTCCATGGTRTATATGCACCACATTTTCTTCATCCAGTC
CACCAATGATGGGCACCTGGGTTGATTCCATGTCTTTGCTACCATGAATTGTGCTGTCATAAACATGCAAGTACAGGTGTCTCTTCAGTAGAATGATTTA
TTTTCCTTTGGGYATATACCCAGTAATGGGACGGCTGGGTTGAATAGCAATTTCTATTTTTAGTTCTTTGAGAAATCTCCGAACTGCTTTCCACAGGGGC
TAGCTGATCTAATTTATTTCTCACCAACAGTGTATAAGCATTCTTTTCTCCACAACCTTGCCAACATCTGTTATTTTCTGACTTTTTAATAGCCATTCTG
ACTAGTTTGAGATGGTATCTCATTGTGGTTTTGATTTGCATGTCTGATTAGTGATGCTGGACTTTTGTTTTGKTTAGTTTTTTKTTTTTTTTTTTTTTTT
TTTTGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGACCTCAGCTCACTGCAACCCTCACCTCCCAGGCTTGAGCAATTCTGCCTCAG
CCTCCCAAGTAGCTGGGACTACAGGTGCACACTGCCATGCCCGGCTAATTTTTTGTATTTTAGTAGAGATGGGGTTTCCCTGTGTTGCCCAGGCTGGTCT
CGAATTCCTGAGCTCAGGCAATCCGCCTGCCTTGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGCACCCAGCCTGGACATTTTTTTTTTTAT
GTTTATTGGCTGCTTGTGTGTCGTCTTTTGAGAAGTGTCTGTTCATGAAATCCAGTAAGTAGACTGCAGCTTTCTGGGAAGAGAGCCTCTGAATTGAAGA
AAAGTAGGACAGGTAGTTCTGAGCTTTCCAGAGAGAAGAACAGGAAGGGAGTGAGGATCAAATGACTCCTTGAACACCAGTGGATATTTTAAGGCTGCTT
GATCGACTGACCTGAAATGAGCAAGCCAAGCCAAAAGCTGCTCATCAATGGGCTTCCCCGGACCCACAGAGAGAGGACCTGACGTACTACTCCTAGTTGT
TCTCAGTGTGAATGGAGGATGAGAAAAATGTGCTTTTAAGTTTTTTGATAAAAGCTTCCTATTTAGGTGTCCTTTTCCCAAAAAGCAATGTACTAATGTT
CATAAGCCAGGGTGACCTAAAAATGAAAGTTACAAATGAAGCCTTTGAGCTGGCCTTCTGGCTYAATACACCACCAGGAAATGCGGATCCTAATACTCAG
CTCAATGAATGATGATGGCCTTAGTTTAATGTGCAGAATACTCAGATTTCCACACACCTCAAAAGCTGCAAGGCTAATACCCAAGTTTGAACAATCATAG
TTTGACAGTCATTCTTTCCAGTGAAAATAATGGTCCATGGATAAAAACAGCTGGTTCAGCTCAATTCAAGTGCATAAGTGCTTTCCACAAGACAACCAGC
AGATTTTGGTATGCAGTTCAAGTGTACGTGTACTCCCATTTCATCACATTCATCATMCAGAATATTACAGAGACATGTACTTCGAAGGTCAAGATTTAAT
ACAATTAATAACTCTTACTGCTTCAAAGAGGTAATTCTCAAGTGAAACTGGTTCTGTTTTTTTGTTTTTTGTTTTTTKTTTTTAATGTGAGACAAGATCT
CACTCTGTAACCCAAACTGGAGTGCAGTGGCAGTCCTGGCTCAATGCAGACTCAAAACTCCAGGCCCCAAGCGAACCTCCTGCCTTGACCTCCCATATCA
CTGGGATTACAGGCRTGAGCCATTGGGCTTGGCCTGAAACTTTTTTTAAGTGCAAACATGTGGCAGCAAATAATATAATGACTATGGCTATTAATACAGT
TTGGTGCTAGTTCATTGAGTCATGCTAAGGTGTTAGCAGTTTTACCCACTATTGCTTCTTCTCAGTGTAAATGTCAGTAGTTTTGGTATGAGAATTYGTG
YTTGTATGACATTGAACAGAGCTTTGACTTTGCAATGATAAAAGCAGATCCCAGAAAAGGGGCTAAGTACCCTGAGATCAATGTGTCAGGAGATGCTATG
GTATCACAYAGAAAGAGGCTTGGGGCCAGGCACAGTGGCTCGTGCCTATAATCCCAGCACTTTGGGAGGCCAAGGGAGGCAGATCATCTGAGGTCAGGAG
TTCAAGACTGGCTTGGCCAATATGGTGAAACCCCTTCTCTACTAAAAATTAGCTGGACGTGGTGACAGGTGCCTGTATTCCCAGCTACTCAGGAGGCTGA
GGCAGAAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAACCGAGACTGCACCACTGTACTACAGCTTGGGCAACAGAGTGAGACACTGTCTCAAA
AACAAAAAAAGAGGCTTGAGAGTGGGAAGGTCTGAGTGTAGTCAGTGTAGCTCAGCTGACTTACGTAAGTCTGAGGACCTTGCTGAGCCTATTTCTTCAT
TGAGAAAACTGGATAATGACCCATTTTCACAGGGTTGTTCTGAGAAACAGGATATTACTGTGAAAGTGTCTCGCATGTCCTCCAGCCCTATGTGGTGGTT
TTTTCTTACAGACTGATGAAGAGAAGAGACAGGGACTACCTGTGGTGATGCCAGTGTTTGACCGGAATACCTGTAGCATCCCCAAGTCTCAGATCTCTTT
CATTGACTACTTCATAACAGACATGTTTGATGCTTGGGATGGTAAGACAGTTACTGTTTTGTCACCCAAAGAARATTGTTATACTTTACGAATATTATCT
TTAGTGACACAGGGTGAGCCTAAAGGTAAACAAAATATATTTTTAAAAATGTGGCTGTCAGCTTTTTGTGGCCAAGTGGGGTGGGGTGCATTCTTTGCAT
CCCCAGCAGCTGGCACAGAAGCTTGTGTGCAGAAGACTTGATGGATTTTTGATAGCTRGATAAACGAGTCTCTGCCTCTTCAAAGGACACGCTGCCAAAG
CTTACTGCAGTGTTTTTCTGTCGTTGGAGGAAAACTCTAGAAAGAATGCAAAATGTATTTAGTTTACTCTGAATCACAGGTTCTTCTGATAATGTCACTG
ATAAGCAGCTTTTCAAAAAGGACCTGTTTGCATTTCAGAAACTAGTGTTTAATGACTTGTCCTCATGCTTCGCCCAGGGTGTGCCTCCTCTAATTCTGAT
CCCAAACTTGTCCCAGACACCCCCAGGCTTATAAATGCTCCTGGGGTCTAAGTTCACCRGTTTCTTTTGATTCTTTTCTGTCTTTGCAGCCTTTGCACAT
CTGCCAGCCCTGATGCAACATTTGGCTGACAACTACAAACACTGGAAGACACTAGATGACCTRAAGTGCAAAAGTTTGAGGCTTCCATCTGACAGCTAAA
GCCAAGCCACAGAGGGGGCCTCTTGACCGACAAAGGACACTGTGAATCACAGTAGCGTAAAYRAGAGGCCTTCCTTTCTAATGACAATGACAGGTATTGG
TGAAGGAGCTAATGTTTAATATTTGACCTTGAATCATTCAAGTCCCCAAATTTCATTCTTAGAAAGTTATGTTCCATGAAGAAAAATATATGTTCTTTTG
AATACTTAATGACAGAACAAATACTTGGCAAACTCCTTTGCTCTGCTGTCATCCTGTGTACCCTTGTCAATCCATGGAGCTGGTTCACTGTAACTAGCAG
GCCACAGGAAGCAAAGCCTTGGTGCCTGTGAGCTCATCTCCCAGGATGGTGACTAAGTAGCTTAGCTAGTGATCAGCTCATCCTTTACCATAAAAGTCAT
CATTGCTGTTTAGCTTGACTGTTTTCCTCAAGAACRTCGATCTGAAGGATTCATAAGGAGCTTATCTGAACAGATTTATCTAAGAAAAAAAAAAAAMGAC
ATAAAATAAGYGAARCAACTAGGACCAAATTACAGATAAACTAGTTAGCTTCACAGCCTCTATGGCTACATGGTTCTTCTGGCCGATGGTATGACACCTA
AGTTAGAACACAGCCTTGGCTGGTGGGTGCCCTCTCTAGACTGGTATCAGCAGCCTGTGTAACCCCTTTCCTGTAAAAGGGGTTCATCTTAACAAAGTCA
TCCATGATGAGGGAAAAAGTGGCATTTCATTTTTGGGGAATCCATGAGCTTCCTTTATTTCTGGCTCACAGAGGCAGCCACGAGGCACTACACCAAGTAT
TATATAAAAGCCATTAAATTTGAATGCCCTTGGACAAGCTTTTCTTAAAAAAAAAAAAAAAGTTTATATACATGTTTAAAATTTTTATTAAAATCCAAAT
TTTCTGGGTGTAAGCCCATGCAGTATGTTGTGCCATGCACCATCTATACGTAATATTTTGGGAGGGGATAGGGGAAGTTTCAAGGTTCAGATATTTTTAA
CCAGTCTATATTTGAAATCATGCCATTAGCTTTAACAATGTTAAAATTGTGTGGTGTAAATATATCAGAAAATAGGCATATGGGGAGGCAGTAAATACTA
TTTTAAGCTATTAATTGTATGCTAAAAGCTTCTAAAGCACAAGTGCATATTTTTATACTGCTCTTTTCACAACTCCCTGTGATCTACATAAAGTCAGACT
CGAGATTTTCCTTTCTCTTTTACCAGCTGATCCTTCCTATGTATTATAAATATTAGACTCCGTAAACAAACTTCATTTTTCTTTCTCTGTACTTCATGCT
GCATTTTTAAAAGGTATAAACAAACAGAGACTGAATTAATTGAATCAGTAATTACTTTTTTCCAATACAAATTGGAATGCAGAATACTTGGAACTTGTAC
ATGGGGAAAAAATGACTTATCACTACATAATGTGCCAATGTTTTTTTCTATGTTTTGTACCAAAAATGGAAAAATATGACAATTCCATGCAAAGAAATGT
ATCTAAATTATTTTTGTTAGATGATAAGAGAACTTGCTTGGTCAGGACAGCAGCCAGCTTTGTATTGTAATGCTATATTATGTAAAWGTGATGAAAATGT
TTTTGTGAAGTACTTGTAACTAAATTCCTACAGCCATTTTTCACTCCCAACAGCTGTTTTTATTTTACCTCTTTGGCCTAAAGTTTTCATAATTTCAAAT
TTGGGGTTTAGTGTCCTTTATTTCATGAGTCACACACTTTGTTTTCAGAGCACATTAAAATCAGGATGCCAGAATCCCATATTAAGGACCTAGCTAACTT
GCCTAGGCTTCAGAAGCTTGCTTGAGGCAAGGACAATCTTTTTCTGATCATCTCACTTTCAGTTCTATTTGGTAAGTAACATTTATCAGGTGTCAGACAT
CTTCTATATGAAATATTTACAGCTTACTCAGTTTTATGTCAAATTTCTTGTTAACTTCAAACTTTTTATTAGTAATGTGCAAATGTTTAAAAATGCTTTA
AGACAGCTAGGTACTAAAGCGTCAACAATTTCTGCTCTTTACCAGTGTAATCTACGGTATAATCTTCTGGCCTGCGAACTAGTCTATTCTTCCACATAGT
CAACTTGTTAGAAATACAGGCTTTCAGATGATATGTGTATCAGATAGTTTATATTATATAAACTATTATAACTGCCTCTTACACAGAGTTGTTTACTTAA
ATGTCATGTGCTGAGGRGGGCCGTATTAGGAAAATGCAACACTCTCTAATAATTTCCGTGACTAGTAAGAGAAGGAAGCCAGTTATAAAACACTGCTGGA
CCAGAATGACCCTATAATTTCCTAAGATCATTCTTTATTTCTAATTTAAGATTTTTAAATTTACTTGCCCTCCATGTCAGGACTGGTTAGCATTCTGGGC
AAAAAAAAAACAAGCCTGTCAGTTCACTCAGAACCTACTCAGCTTTAGAGAGAGAAACAGAAGGGATGATCTTGTGCCCTTGCGCTATGTGAATATAGCC
AGAGACTGAGGTAATAAATATATTTTAAAATAAAAATGACAAGGGATTTGTACACTGTAACACTATGTAGTGTTACTTCTGCTGTTGCAAGTATCTTAAC
TGTTGAAAGCTAAACTCAGGAAATGGAGAAAATGTACATAATATACATTGACCCATTATTTTATTCTAAATTGAAAGTCCAACTTTTAGCAGCAGTCTAC
CTGCAACTACTGAACACCATCAGGTTTGAGTCCCTACCAGAATCTCCCATCATACTGTTATCCCCCATCTCTGTGACCTTAGGGCATGCATGAAAACAAA
AGCAATCTAGTCCCTAGGGTTGGAGACTGCCCTCTAGACAGTTTTTCATGGCAGAAAATTAGAATACAAGTATACCTCATTTTATTGCATTCTGCTTCAT
TGTGCTTCAAAGATACTGCCTTTTCTACAAATTGAGGGCTTGTGGCCACCCTGCATAGAGCAAGTCTATCGGGGCATTTTCCCAGCATGGGCTCACTTTG
TGTAAGTGTCACATTTTGGTAACTCTAGAGTAGAGTATTTCAAATGTTTTTATTCTTGTATCTGTCATGGTGGTCTGTGATCAGTGATCTTTGTTACTAC
TGTAATTGTTTTAGGGTACTGCAAACCATGCCCGTATAAGACAGTGAACTTAATTGATAAATCTTGTGTATATTCTAACTGTTCCACCAACTAGCGGTTT
CCAGTCTCTCCCTCTTCTTAGACCTCCCTATTCCCTGAGACACAACAATATCGAAATTAAGCCAATTAATAACCTACAGTAGCCTGTAAATGTGCAAGTA
AAAGAGTCACATGTCTCTCACTTTAAATCAAAAGCTACAGATAATAAAGCTTAGTGAAGAAGGCATGTTGAAAGCCCAGGCAGGTGAAAGCCATGCCTCT
TACACCAGTTAGCCAAGTTATGCAAAGGAAGAGTTCTTGAAAGTGTTAACTCCAGTGAACATGCAAACAAGAAAGTGAAACAGCCTTACTGCTGAGATGG
AGAAAGTCTGAGTGGTCTATATAGATTAAACAAGCCACAACATTCCCTTAAGCCAAAGCCTAATTAATTCTTCAATTCTTTCTTCGAAGACTGAGAGGTG
AGGATGCTACAGAAGAAAAGCTGGAAGCAAGCAGAGGTTGGTTCATGAAACTATCCCCATTAACGTCAGAGTGCAAGGGACAACAACAGCAGGAAGTTGT
CCAGATGATCTAGCTAAGATCACTGAAGGCGACTACACTAAACAACTGAGTTTGTGAAGATGAAATGGTCTTCTATTAGAAGAGATGTCATCTAGGACTT
CATAGCTGGGGAGAAGAAGTTCAATGCCAGCGAGTGTAGTTGGTGCCTTTAAGTTGAAGTCAGAGTTTATTTACCAGTCCAAAAATCTTAAGGCCCTTAA
GAATTATGTTAAATCTACTCTGCCTATGCTCTAGAAGTGGAATAACAAAGCCTAGATGACAGCATATCTGTTTATAGCATGGTTTATTGAATATTTAAGC
CTATGGTTGAGACCTGCTCAAATTTCTTTCCAAATATTACTGCCCATTACAATGTTACCTGGTCACCTAAGAGTTCTGATGGAGATGTACAAGGAGGTTC
ATGTTGTCTTCGTGCCAGCTACCACAACATCTATGCTGCAGTCCATGGGTCAAGGAGTCACTTTGACTTTTAAGTCTTATTTATTTAAGAAATACATTTA
ATAAGGCTGTAGCTGCCCTAACTAGTGATTCCTCTGAAGAGTCTGGGCAAAGTCAATTGAAAACCTTCTGGGAAGCATTTAGCATTCTAGATGCCACTAA
GAACATTCTGATTCATGGGAGGCGGTCAAAATTCCAGCATTAAAAGGAGTCTGGAAGAAGTGGAGCCTGAAGATGTGAATGAATTGCTGTAATCTCATGA
TCAAACTTTAATAGATGAGAAGTTGCTTAAGAATGTGTATAGAAAGTGGTTTCTGGAGACAGTCATTTCCACAGTGAAGATGCTGTAAACATAGTTGAAA
TGACAACAAAGGATTTAGAATATTCTATAAACTTAGTTCATAAAGGAGCATCAGGATTTGAGATGACAGACTCTAAATTTTGAAAGAAGTTCTACTGTGG
GTAAAATGCTATTAAATAGTATTACATGTTACAGAGATCTCATTTGTGAAAGGAAGTCAATTGATTTGGAAAACTTCATCGCTATCTTATTTTAAGGAAC
TGCCACAGCCACCCCAACCTTCAGTAACCACCTTAGTCAACAGCCAGCAGTATCAAGACCCTCCACCAGCAAAAAGATTATGACTCGCTGAAGGCTCAGA
TGATTGTTAGCATTTTTTAGCAATAAAGTATTCTTAAGGTATGTACATTTTTTAGAAATTTAAGACTGTAGTATAAACACAAGTTTTATAGGCACTGGGA
AACCAAAAACTAGATGTGACTCACTCTATTTGCAATAGTTGCTTTTTTGATGTGGTCTGAAACCTAACCTGTAGTATCTCTGAGGTACGCCTGTATAATG
ACCAGAAGGAATTTGCTGTGGTACTTACGGTACCATTTGCTTCCAAAATTCATGTGATTTCTACCACTCCATTTGAATAGATTACTATCACAAAATACTA
GCCTAGAACAGGCTAGGAAGTAAAACAGTTAAGTCTATGGCTCCCTTGTGTCATACAACTTCAGAAAACAACTTTACAAATGTATGGGCCAATGCAGAAT
TTCTAAAGGAAAAAGCACGTGAATAATGGGAGAAAGTCTTCTGTAATTGAGGTAGCTTAAGTTTTAATATTTCTCCATAGAACTTTTCATGACTCAATGT
TGTTTGGATTTAAAGTAGTCATATAAGCCTTTCTCATTCAGTCTTCAGTTCCTGTTTTTAGAGCTGCTTGGTGATACTGGGCACTACAGATTTAATTGCA
AGGCCTTACTGCACTGGGCCTCAGTTTCCTCATTTGTAACATTATGCCACTGGTCTACTCAGATGACCTTAACTCTTCCAGTCTTTGTAGGTAGTTGTGG
AAGCAACTGTCAAAGCTAAAACTAGTAAAAGAACTTATGGAGATTCCCTTTAGGGTATATTTGTAGTATATTTGTATAATGAACAAATAAATCTGTAGGT
TTTCTGTAAGAAGGGTCAGTCTGCTAACATCAGTCACGTTGCCCTTTCTTCATCAGTAGTTTAAGAATTTCAATCTTTAATGTGTAGACTACTTTCTAAT
ATTTTTATTTTTTAGCACCAAAAGGAGAAAACATATTGTTACAAGGCTGGTTATAGTGTCTCAATGGACACTGCAAAGAACTACATAAAAGAAGTCTGTC
TCAAGCAGTTCGTATTTGAGTCAGTGGTCAGATGGGGCAGTTGCGCTCAGCTGCAGTCCCTGACTCCGGAAACACTGTGCCTCTCAAATGATCTAGAGCT
CATCCTTGGCGTACATGAGGGGCAGTTGTTGTTCTAGTACCCATTTAGCCCATGGCTCTTCAAGCCAATTCACACTGGGAAAAACACACCCTCACAAGAT
GCCTATCCATTTGAGTTCATACAGGTTTTAGTAGCTAGAACTAAAAAACATTTTTAAAATTATCTAAACAAATTGGTACCAAAGAAAACTTGCCATACTT
AAACAGTATATATGTTCCCTTTTTTGGCTGAGAGATTCAAGTTTGTGCTATATAGAACACTAACAGTTACTAAAGACTAGGAAAATTTGCAGGAGAAAGG
CTATTTTTAAACTTCACAATAATTCTAAAGGAAGCCAAATAATAAAACTTCTAATAAATGCCATAACTTAACTATTACCTCTATTTGTACCTTTCACAAG
GATCTAGGTTCAAAATAAGCTCAAAACACAGCACTCACCACTTCAACAGCAGCTCAAAGTCAAATGGAAAAACTTGTGGTATATTCTTTGGAGGATATAC
TAGGACCTGAGAAGCAACATGTTCCTGGTTGGTAGGTCCACAAAAAATTTAAACATGTAGAATTTTATGGACTGACAAAAAAAATTACCAATTTAAGTGA
TCAATATATTAATGGTTTTCAGAGTAGTACCCGATATTTGATGTTCAAGGTTCATGCATGTGTATTTTTAATTCCTTAAACTAGACAGCAAGGTATAAGT
CACCATTCTCCTCTAATTTTTGAAATAATCTTAAACTGCGCAATCCAGATTCTCGCTCTCCATTTTTCCACAAAATAATGAGATGATCAGCGGAGCACGT
CACTAGTCCATGATCTTCAAAGTATAGAAACATCTGTAAAGAAAATTAAAACTGATTATAGGGACCCCGAAAAGCAGAGAAGTGTCTAATACCACATTAA
CACATGTGCGTGTGAGATATGTGCCTTAAAGACTCCTTTGGATCTGGGTGTAGAACTTCATTTCATTTTTCAGTATTGGTAAGTCACATACAAATAATAT
CTAATATTTTAATCAGAATTTTGTTAATATTGTTCAACTACAGAATAGCTATTTTTGTAAAGTACATGAATTCTCATAGTTCTTCCAGATTTTTTCATAA
TCTGATTTTTCAAGTATTGGTTTTACTTAACCATTACTTATACTGTATAATGGCTATGGAAAAAATGTCTGAATTCTAAATTTCCCAAGATAAACACTGG
CTTCAGCTCTCTATAAAAGTAGATATACTCAATCCATAGGTATTAAGTGTCAGCACTAGGTTTATGGTCCCTACCCTCAAGAAGATTCTGAAAAGCAAAT
CATAATTGAAACAATAAAGGTACCAATGAGAGATTATGTAATCAGGTACTAAATAATGCAGTATAGACTATGACATGTCACAGAAATTCAGAAAAAGCTT
CAAAGGGAGAAAATGCCCCAAGTAAGGGGAAGGGGCTTGCCCAGTGAAGGAATAGGCTGGAAGCTAAGAATAGGAAAACAGAGTGTTGACAAAAGGCAGC
ATGAATACTATGGGGTGAAGAGTTGTATCAGAAAAGTGAATCAATGAAAAGGATGAGGTCCTCGAAGGAAAGGGTGAAATAAAAGAGAAACAGGGCCGGG
CGTGGTGGCTCACACCTGTAATCTCAGCACTTCGGGAGGCTGAGGTGGGTGGACTGCCTGAGGTCAGGAGTTTAAGGCCAGCCTGGCCAAACATGGTGAA
ACCCTGTCTATACTAAAAATTAGCTGGGTATCTGTAATCCCAGCTACTCGGGAGGCCGAGGAAAGAGAATCGCTTGAACCCAGGAGGTAGAGGTTGC


SNP Information

Context             (SEQ ID NO:45972):
CACAGAAGCCAAGGCCAGATGACTTGGAGCACAGACCAAGAAGGAAAAGGCAGGCCAAGAGACACAAAGCAAAGTGTGGGTCAGGACTAGAGGAGCTGGT
R
AACTGAGGCACCCACGCCGGTAGTGCAGGTAGAGTGACAACACGTGGGAGGGAGCACAGTGAAGTGAGGCTGGGAGGAGAGAGGCAAAGGATGCAAAGGA
Celera SNP ID:            hCV7441510
SNP Position Genomic:     103860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:45973):
AAGGAAGGAGAGGGCATGGGTAGGGGGCAGTGTAAGATGCTGTGCTGGAAAGCACATCACTGTGTCTAGTGCATGGGGGGAGGTTGACGGTACTGCCTCC
Y
TCTTTGCAGCCTGACCTCACTGTCTGGGTGGCCCACTGCAGCGGGAGCGGGTGCCTTGTGCCAAACGTTGTGCACACCGACTTCCCTACCTGCTTCCTCT
Celera SNP ID:            hCV7441511
SNP Position Genomic:     98007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45974):
TTGTTTAGAAAGAGGCTGGACTTACACCAGTAGAACTCCAAGTCCACATAGACCCGCCATTTGGTTCACCAGACACCATTCCCAGGGCTGTATTTTAGCC
R
TCTGACTGTCCAGGGATCCCCGGGAATCCTTATGTGTGATGATGGGGCTTTAGAGACTTTGAACTAAAATGCCAAGGCCTCAGCTCCGTGAATTGGTCTT
Celera SNP ID:            hCV7441512
SNP Position Genomic:     94229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45975):
AATTGAGGGCTGTGGGCTCAGCCACAGAACATCATGGCCTCTGTTACCCTAAGTTTCTTCCTGTTCTTGAAATTGTGACGGTTTGGAAAGAGATGGGGAG
R
ATATTGTTACCCACGTGACAGGCTGCAGCAACCTTGACCACTAAGGTCAAATAAGCAGCATTGATGAATTTTAGCATGTGGGCACCCCTGGAGGGGGCGA
Celera SNP ID:            hCV7441513
SNP Position Genomic:     93944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45976):
TTGAGTATAACTATCTCCCCTCAGGGGCCCTGCCACCCATATGCTAGTACCTGCCTCCCATCATAAGGAAACAGTGCCTTTTAGGCATTGCTGAAAAGTA
K
AGGGTCTGGACCTCCTGATACTGGGACTTGTTACCCTTTAGACATCATTTCAATCTTCATATATCTTCCTCCTGTGGTTAGACTTAAATTGAGGGCTGTG
Celera SNP ID:            hCV7441514
SNP Position Genomic:     93757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45977):
CCTTAGTCTATGCACATTTCAACCAGAGTGATCCAGCCAACTACAATCCAGCTATGCTACACCTTTGTCCACCTAGCAAAGCCCAGGCTTCTCACCACAG
M
AGCCTTCTGTGACCTGGCTCCTTCCTCCCTCTCTAGCCACATGGTCTGTTCCACATTGCCTGGGACTGTTCACACAAACTCTGTTCTTTGCCATCCTTGT
Celera SNP ID:            hCV7441515
SNP Position Genomic:     93233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45978):
GGAAAAGTATAGAGATTCATAGAACTAGGAAGGTCATCCACTCATGTAAGCCCCCACCTCTGCACTGCAACTTACTATTAACTGCAGTATTTATAGTAAA
S
AGTATTACTTTGATAAGTAGTCAAAAACCTCCAGAACATATTCTGCCCATTGATAGTCTAATAAATAGGTCCAGTCTTAAACCCCCCAAATGTCATGCAG
Celera SNP ID:            hCV27454406
SNP Position Genomic:     216705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45979):
AAAGTGCAAAAGTTTGAGGCTTCCATCTGACAGCTAAAGCCAAGCCACAGAGGGGGCCTCTTGACCGACAAAGGACACTGTGAATCACAGTAGCGTAAAC
R
AGAGGCCTTCCTTTCTAATGACAATGACAGGTATTGGTGAAGGAGCTAATGTTTAATATTTGACCTTGAATCATTCAAGTCCCCAAATTTCATTCTTAGA
Celera SNP ID:            hCV1080310
SNP Position Genomic:     222463
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,6)   caucasian(A,21|G,11)   total(A,47|G,17)
SNP Type:                 INTRON;UTR 3;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:45980):
ACATTGAACAGAGCTTTGACTTTGCAATGATAAAAGCAGATCCCAGAAAAGGGGCTAAGTACCCTGAGATCAATGTGTCAGGAGATGCTATGGTATCACA
Y
AGAAAGAGGCTTGGGGCCAGGCACAGTGGCTCGTGCCTATAATCCCAGCACTTTGGGAGGCCAAGGGAGGCAGATCATCTGAGGTCAGGAGTTCAAGACT
Celera SNP ID:            hCV1080311
SNP Position Genomic:     221109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45981):
CACGTCTTAAAGATCCCACCTCTTAATATAGTCAAAATGGCGACTAAATTTCAACATGAATTTTGGAGGGGAAATTCAAATCATAGCACCCCTCACCACT
R
CTCCTAGTGTAGACACTCATCATCTTTTGTCAACACCAGTAGTTCCCAAACTTTAGCAAGCATCACATTCATCTGGAAGGCCAGTCATTACACACTGGGC
Celera SNP ID:            hCV7441519
SNP Position Genomic:     92876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45982):
TAGGTGTCCTTTTCCCAAAAAGCAATGTACTAATGTTCATAAGCCAGGGTGACCTAAAAATGAAAGTTACAAATGAAGCCTTTGAGCTGGCCTTCTGGCT
Y
AATACACCACCAGGAAATGCGGATCCTAATACTCAGCTCAATGAATGATGATGGCCTTAGTTTAATGTGCAGAATACTCAGATTTCCACACACCTCAAAA
Celera SNP ID:            hCV1080316
SNP Position Genomic:     220264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45983):
TGGTTCCTTCAGGAGCTGACTGATGGGGCTGATCACTAACCAGAGTCTCTTGAGAAGGGGGATAAACTGAGCCTTTGGAAGTAACTTTTCATCTTCAGTT
K
GCTGGATCCAGAACTTGCACAAAAACCGAGAAATCTTCCATTCATTCACTAGGTTATTCCTGGGTGTCTACATGGCGCGTTATGGGAACACAGGCATTAG
Celera SNP ID:            hCV1080318
SNP Position Genomic:     218090
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,115|T,1376)   total(G,115|T,1376)   (G,-|T,-)   no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45984):
GAAGTAATAGTGTGAGTGGGATTTATACAGTTTCCTGCTTTAATTGAAATTAGAAAAATTCACCCAACATCCTTTAGGCTATGAGAACTTTGGTTTTTTT
W
AAAAAAAATCTTCAATAGATCATCGTCCCTGCGACGCTGCACCACCAAAACTCCAAGTCTTGTTTCTCTGCCTGTCACTACTGGGCTCTCAGGAGATGCA
Celera SNP ID:            hCV11650602
SNP Position Genomic:     161777
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:45985):
AATTGCTACGACGTCAGTTACAAGACGGAGGAGAAAGAAGACAAGACATGAATTTAAAGAAACTTGCTTATCCAAATCATTCTTCTTTTAAGAAAGCTTT
R
TATTCATTATAGCTGATTATAAGAGTTAGGACAAATTTATGATGTGGCAGACTTGTGTTTTAGCTTATTAGTGTGTCTCTGTGCTGCACTGAAGCCCTTG
Celera SNP ID:            hCV11647456
SNP Position Genomic:     68614
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45986):
GTATTTGTCTCTCTCCCTCTACATTACAAACTCCATTGTGCAGACTGTGCCAGTGTAAATCATCATGGCAGCTCTGGCACTATGCAGTGATAATTGGTAC
Y
TGGTAGGCACTCAATAAATAATAAATTCCTAGCACAACATCTCTTATATAACAGTAGCCCATCTGATAACTCCTAAAGCTGCAGGCTCAGAAAACACTTG
Celera SNP ID:            hCV1080319
SNP Position Genomic:     213316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45987):
GCCATAACCACCCAAGCAACTCAGAGTTTTAGTAGCTGAACAAGGTCACTCTTGGGTGCTAGAGGCAGAGAGGCAGCCAGTCCTGGCTTCCCAACTCCCA
W
CACAAACCTAGTTTTCAGTGTACCAGCTATATGCACTCACTTCTTAATAAAATGTCACAGAGAAATCGTGAGGCAGAATTTAGCAAAATGTTTCTGCCCT
Celera SNP ID:            hCV27472483
SNP Position Genomic:     200988
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,393|A,830)   total(A,830|T,393) 
SNP Type:                 INTRON


Context             (SEQ ID NO:45988):
TCAGCTTTTTGTGGCCAAGTGGGGTGGGGTGCATTCTTTGCATCCCCAGCAGCTGGCACAGAAGCTTGTGTGCAGAAGACTTGATGGATTTTTGATAGCT
R
GATAAACGAGTCTCTGCCTCTTCAAAGGACACGCTGCCAAAGCTTACTGCAGTGTTTTTCTGTCGTTGGAGGAAAACTCTAGAAAGAATGCAAAATGTAT
Celera SNP ID:            hCV3261875
SNP Position Genomic:     221958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:45989):
CTTTCCTCTGGCCCAAGGAATCAAGTTTCAGTAAAGGTGTTTTAGATGAACATCCCTTAATTTGAGGTGTTCGGCAGCTGTTTTTGAAGAAGACAAAGAA
R
ATTAAAGTTTTCCTTGAATAAATGCATTATTATGACTGTGACAGTGACTAATCCCCCTATGACCCCAAAGCCCTGATTAAATCAAAAGACTCCTTTTTTA
Celera SNP ID:            hCV1958293
SNP Position Genomic:     87410
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;POOLE|_CEPH(G,75|A,113)   total(G,75|A,113)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:45990):
TACTTCGAAGGTCAAGATTTAATACAATTAATAACTCTTACTGCTTCAAAGAGGTAATTCTCAAGTGAAACTGGTTCTGTTTTTTTGTTTTTTGTTTTTT
K
TTTTTAATGTGAGACAAGATCTCACTCTGTAACCCAAACTGGAGTGCAGTGGCAGTCCTGGCTCAATGCAGACTCAAAACTCCAGGCCCCAAGCGAACCT
Celera SNP ID:            hCV3261878
SNP Position Genomic:     220678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45991):
TTCTTCTCTTTTTCCTTCTTCCAGCTCTTATGTGTACTTCTCTGCCTCTCCTCAACCCTCTGATACTGGTGTTCTCCAGAGTTCTGTCTTTGGTCTTCTG
Y
TGTGAGTGATGGCAAGGTTTTAACTGCCTTTCCTGTATGCTGGTGTCACTCTCCCTGAGCTTCATACTTACATATCCCAGAGCCTGACTTTGCATTTTGA
Celera SNP ID:            hCV7441520
SNP Position Genomic:     92459
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45992):
AGTTGGTGACAGACCCCATCCTCTCCCCATGTTACCCAATTCCAGGGAACTAGTGCAAGTGGAGAAGCCAGGATAACAAGCATTCCTTTATTAGTATCTG
R
GCATACATGAATATTTATCCTGAATAAGAAACTATTTGAAAGACAGATCTAGAATGAAACCCTTTCCTCAGTGTGATCCAGATCTACTCCTACTGGTTAA
Celera SNP ID:            hCV1080320
SNP Position Genomic:     211687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45993):
CTGGATTGGAGATCCAAGAACTTAATCTTAGTAAATACATTAGGCAAACAGCTATTTTGCAACCAAGTTGACAGCTTTTTTTAAAAAAAATTTTGTTACC
R
AATTGACTAGTCACTTTGGTGTTGTAAAGACATGGACCTTTCTGCCAGCCCTCCCCTCCTCCAAATACTTAAAATAATTATATCACCATAGAGACTCCTT
Celera SNP ID:            hCV1080322
SNP Position Genomic:     209288
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,27)   caucasian(A,10|G,22)   total(A,13|G,49)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45994):
TCATGACCTAGTTACCTGCCTGGATTGGAGATCCAAGAACTTAATCTTAGTAAATACATTAGGCAAACAGCTATTTTGCAACCAAGTTGACAGCTTTTTT
W
AAAAAAAATTTTGTTACCGAATTGACTAGTCACTTTGGTGTTGTAAAGACATGGACCTTTCTGCCAGCCCTCCCCTCCTCCAAATACTTAAAATAATTAT
Celera SNP ID:            hCV1080323
SNP Position Genomic:     209269
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,31)   caucasian(A,8|T,22)   total(A,11|T,53)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45995):
ACAGCCCAGTCACAGTAGCGGAAGCCTTGGACAGAGTTCTAGAGATTTTACGGACCACAGAACTGTACTCCCCTCAGCTGGGTACCAAAGATGAAGATCC
Y
CACACCAGTGATCTTGTTGGAGGCCTGATGACTGTGAGTGATGAGGCAAAACCTGAAAAGCAAGAGAGGTATCCGGGGCCTCTAGAGTGCAGCTGATGTG
Celera SNP ID:            hCV1080324
SNP Position Genomic:     204865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:45996):
AAAATAAAAATAAAAATAAAAAAAATTTAAAAAGTGGCTGACATAGCAAGAACCAAAGATGCTAGAGACAAGATGATAATTCACAGGGCATGTGAGGGAC
R
GTAACCAATAATATAAAGAGAATATGAATCGAGAGATTTTTGAGATGGATTGAGCGGATAGATAGAATATTTTAGTCTGAGAGGATAAGGGATGAGGGAA
Celera SNP ID:            hCV1080325
SNP Position Genomic:     202219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45997):
ACTATGTGGCAGACACTGTTCTAAATGCTATGCATATATTAACTCACTTATTTCTCAAAACAGCCTATAAATGAGATGCTATCATTACCCCCACTTCATA
R
ACAAGGATAATGAGACCCAGAGAAGTTAAGTAACATTTCCAAGATTACACAGCTGCTGAGTGGCACAGTAGAAATTTGAATCTTGACGATTTGGCTCTGG
Celera SNP ID:            hCV1080326
SNP Position Genomic:     198606
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,14)      total(G,14|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:45998):
GGCCACAGTGTGATGGTTGGCGCTCAGTTCACCGTCACTCTAAACCCGCTGGCATTTGGGGTCATCCCCACACTCACGGGGTGGTCCACAATCATCTGAA
R
TGTGAGCCACACCATTCCACATAGAAGTGGCTGCCCACCACAAGATTTCCTCCATTTTTTGGTCTCTCAGCTCCTGGCCTGGCTTACCACACGTCAGAGT
Celera SNP ID:            hCV1080327
SNP Position Genomic:     194647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:45999):
ATAACAAAGCATTTTTATACCTCTGGCTAACTACAGTGTTTTTCCTCTTCATCGAAGGAGGCTGCAGCGAATGGCAATGGGATCTGTGCTGGGGAGGGCA
Y
CTGTCTGCAGGCGGTTCCGGTGGTGTGGTTTTCTGGGGTTTAGCCCTGATGTCAAAATCGGCCCATGGGTTTGCATTTTAACAAGGTGTGACGTGGTAAG
Celera SNP ID:            hCV11650611
SNP Position Genomic:     150971
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46000):
TTTACTTTTGTGTCTGCTGCTGGCTGGCTCCCGCTAAGACACAGTCATCTTACCGCACTGGCTGCCTGCTGCCCTTCCGGGCCACAGTGTGATGGTTGGC
R
CTCAGTTCACCGTCACTCTAAACCCGCTGGCATTTGGGGTCATCCCCACACTCACGGGGTGGTCCACAATCATCTGAAATGTGAGCCACACCATTCCACA
Celera SNP ID:            hCV1080328
SNP Position Genomic:     194568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46001):
CTCCCGAGTAGCTGGGATTGCAGGCACATGCCACCAAGCCCAGGCTAATTTTTGTATGTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTCATCT
Y
GAACTCCTGACCTCAGATAATCCACCCACCTCGACCTCCCAAACTGCTGGGATTACAGGTGTGAGCCACTGCTTCCAGCCAGGCTAAAATTCTTAATGTC
Celera SNP ID:            hCV16147629
SNP Position Genomic:     211423
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46002):
ATCTCCCAGGATGGTGACTAAGTAGCTTAGCTAGTGATCAGCTCATCCTTTACCATAAAAGTCATCATTGCTGTTTAGCTTGACTGTTTTCCTCAAGAAC
R
TCGATCTGAAGGATTCATAAGGAGCTTATCTGAACAGATTTATCTAAGAAAAAAAAAAAAAGACATAAAATAAGCGAAACAACTAGGACCAAATTACAGA
Celera SNP ID:            hCV27470892
SNP Position Genomic:     222836
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,56|A,677)   total(G,56|A,677) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:46003):
CAGCTCAATTCAAGTGCATAAGTGCTTTCCACAAGACAACCAGCAGATTTTGGTATGCAGTTCAAGTGTACGTGTACTCCCATTTCATCACATTCATCAT
M
CAGAATATTACAGAGACATGTACTTCGAAGGTCAAGATTTAATACAATTAATAACTCTTACTGCTTCAAAGAGGTAATTCTCAAGTGAAACTGGTTCTGT
Celera SNP ID:            hCV3261880
SNP Position Genomic:     220557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46004):
TGTCAGTATATTATATATGGAATTTAAAAAAGGAAAAGCTGCCTTCGCCGAGTCCCAGTCCTACCTGTGTGCTCGGTGATCACCATCGAATGCCTGGCGA
R
TTAACCCTTGTGGGCTTCACCGTCATCTTGAACCAAGCCTGATCTGACCATCTGTTTTCCAGATTGAAGGCAGCGACTGTGAATGCAACCCTGCTGGGAA
Celera SNP ID:            hCV3261885
SNP Position Genomic:     217603
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,8)   caucasian(A,27|G,9)   total(A,39|G,17)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46005):
TAGTAGAAATCAAGAAATAATTGAAGGGTTACATGTATGTGCCACTGCCCTACCTGAAATGCATTAAAGTAGCTAAAAGCTCTGCTTTTACACATTTTTT
W
AAAAAAACTGGGAGAAATTTCCTCTAAGATTACATATCAAATTGCTCAAAATAAAAACAAAACTGCTGTAGCAGTTACCTCTAGGGAAGAAAATGGATGT
Celera SNP ID:            hCV3261886
SNP Position Genomic:     217293
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46006):
CCTAATTGTTTTTACACAATCAATTTGATGGTGTCTTTAAAAGTGGAGAATAACAATCTTTCAGGTTCTATGTAAATGGCCTGTGATGTGTGTACCAACT
Y
GTGTCCTGGCCACATGGCTCAGGACACTGACATCACCACTAGGTGTGGACCAGTCTTTCTAAACATGGCTGAACACACCTGCTCCTGACTACTTCCTACT
Celera SNP ID:            hCV3261887
SNP Position Genomic:     216933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46007):
AGAACTAGGAAGGTCATCCACTCATGTAAGCCCCCACCTCTGCACTGCAACTTACTATTAACTGCAGTATTTATAGTAAACAGTATTACTTTGATAAGTA
R
TCAAAAACCTCCAGAACATATTCTGCCCATTGATAGTCTAATAAATAGGTCCAGTCTTAAACCCCCCAAATGTCATGCAGCCTTTTGGCTTGGCAGAGCT
Celera SNP ID:            hCV3261888
SNP Position Genomic:     216725
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46008):
AGATGAGGTCACAAGGCTGGGGACCTGATCCAACAGGATTAGTATCCCTATAAGAAGAGACACCAGAAAGCTACTCCCCACTCCCTGCCATGTGAGGACA
S
AGCAAGAAGACAGCCATCTGTAAGCCAGCAAGAGAGCCCTCACCAGGAACCAACCCTGCCAGACCTTGACCTTGGACTTGCTAGCCTTTGGAACTTTGAG
Celera SNP ID:            hCV7441600
SNP Position Genomic:     44454
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46009):
ACTGTTTTGATGTTCTCAAGGGAAGGGAGAGGGGAATCACCTTGTCAGATAAACGTCCACCATGTGACAGGTACCTTCTCTCTTTTTTAAAATACTCATA
R
ATCACATAAGGGTCAGCTATCACTGGGGAAAATGGAATAGCATCTGCAAGTCTTGCTTACTGGGAGGACGAGCTCTTCTTGTGATCTGCACACATTTCTT
Celera SNP ID:            hCV3261889
SNP Position Genomic:     215397
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,10)   total(G,4|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46010):
ATCCACAACACGGATCATTGGCCTTGGTGACAAAAACTTCCTTGCCCCAGTATACCTTATCACTACAGGGAAAAAGTCCGTGTGTACCTACCGTGAAGAA
R
CAAGGTTGTTACCTGACACACTAACAACACATCAGATGCACTTGCAGAATCCGGCTTGTCTCTGGGGAAAGAAACAATCTACTTATGCCAGAAAACCTCT
Celera SNP ID:            hCV7441601
SNP Position Genomic:     44127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46011):
ATTTTAACAATGGTAGTTTTATGACTAAAATTTCCACTTGATTTTTAAAATGTTTTCTAGTTCTTTGTCAAAATGTTGTTTCTTGTCTTTTAATTCTTTG
R
ACATATTTTCAAGTCTGTGTGTGTAACCCTAGTATCTGGATCTTCCACGTGTCTGTTTAATGTTTTTTCCCTCTCTTGGCTTTTGGTCAACCTTTTTTTC
Celera SNP ID:            hCV7441533
SNP Position Genomic:     83409
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,17)      total(G,1|A,17) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46012):
GGAATTTAAGTGGAATTTGCCAGTTTTTTAAGTGGAAAATTGGCAGGTCTGACCTATTGGATAATTGCCTGGGAGTTAAGAGAAAAAAAATTTTTTAACG
W
AATGAAGAGATTGTCCTAATCCACAAGGGCATCTTTCTTTGTTGTCTTCTCTGTGTTTTGAGACGTTTTCTTTAGAGAAAGATTTGATGTTGTATCATTT
Celera SNP ID:            hCV25759911
SNP Position Genomic:     124355
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,40)   total(A,77|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46013):
ATTCACTGTTGGAACCCAAGGGCCAAGAATGCTGGCTGGCTCATGGGAAGTACCCAACTAATATGGGTGGAAGTCATAGCAAATATTGTTGCCAAGGTGC
R
GATGAATCAGGAGCTTCCTATTTGGATGGGAAGCAAAGGAGAGAGTATAACTGCACTGAGAGGGATACCTTCTATCCTCAAGAATTAAGAAACCCCCAAT
Celera SNP ID:            hCV7441608
SNP Position Genomic:     43872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46014):
CTCTGACTCTGAAACAGAAAAGTGTTCTAGGCAGAAATGACAACTGAGGGCTAATGAGCATTAACTGGACTGCAAGCTCGATGAGGGCAGGGGCTATTGC
M
TGTTTATTCACTGTTGGAACCCAAGGGCCAAGAATGCTGGCTGGCTCATGGGAAGTACCCAACTAATATGGGTGGAAGTCATAGCAAATATTGTTGCCAA
Celera SNP ID:            hCV7441609
SNP Position Genomic:     43766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46015):
TTCTTTATCAAAACACATCTTTCTTTCTTCACTTTCATGTAGAATTGTTTCTCTTATATTTAGTAGTTTTAATTACATATATTAACTACTACTTTAACTC
K
TAGTAACCCTAATTTCCATGGAAAAACCTAGGATTACTTAATTTAACATAACAGATTTTAAGATTTCAAATTACTGAAAAGAACTTTGAAACTAGTTTTA
Celera SNP ID:            hCV1080330
SNP Position Genomic:     192706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46016):
GGCAGAGGATACGCAAGAAAGGCTTTTTGTTGTGTTTTGTTTGTTTTTTGTTTTGTTTTTAAATAACATAGGGAGCCATGGGACACAGCTTCTAAAGGAG
R
GAGGCGTTTTGATTCAGAAAGAAAAGCTAAGCACTTAAAAATCACTTGTTTTTGTGTTAAAGCTATTTGAAAGAACAATTTGCAAGGCAAAAGTTTTATT
Celera SNP ID:            hCV1080331
SNP Position Genomic:     187372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46017):
AAAACAGTTTGATTTTTTTCCAGTGATTTTTGATATTAGGGTCTGTCCCACTAGGGGTGAGCAGGCAAATTACTGTGTTTATAATTGTTTAAATCAGTTC
Y
TTTTTATGTGGCTATTCTACTAACAATGGACCAGTTAGTGATTAGCACAATACAGTTAGGATTATTTATTTCATTTTCCTTTTGATTTGGTCTTCTTTAA
Celera SNP ID:            hCV11647475
SNP Position Genomic:     21583
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46018):
ACACACACACACACACATCTCAGAATACCAGTGATCAACACGACTTCATGATCAATATGAACACTGAAAACAGTTTGATTTTTTTCCAGTGATTTTTGAT
W
TTAGGGTCTGTCCCACTAGGGGTGAGCAGGCAAATTACTGTGTTTATAATTGTTTAAATCAGTTCCTTTTTATGTGGCTATTCTACTAACAATGGACCAG
Celera SNP ID:            hCV11647476
SNP Position Genomic:     21517
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,9)   total(A,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46019):
AAAATATCAAGAATGATTCCCCCAGTATTTACAAACTATTATTTGATTCAACAAAGAAGTTCCTCACATCACTGACAAATGAGTGAAATTTCTATGTACA
Y
CTTTGTTATTTGTCTTTCATCTTACTTTTTTTTTTTTTTTTGACATGGAGTCTCGCTCTATTGCCCAGGCTAGAGTGCAGTGGCGCGATCTCGGCTCACT
Celera SNP ID:            hCV16147639
SNP Position Genomic:     157029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46020):
TTGGATGGTTAATTTGGGGCAGGGTTGTTGCTTCATTCATTACAATTTCTATCTGCTGCAGTCTAGAGCATTACTTATTAACAGGAAAGTCTTCCAATGC
Y
ATCATTGAAAGAGGCTGTGGCCATCCTGTGCAATGGGAATCCCTGTGTTTGCACAGAGTGCAGTGGGCCAGCTTATGTGGCTGCCGTGCCAGCCTGCCAT
Celera SNP ID:            hCV3261890
SNP Position Genomic:     215183
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;JBIC-allele(T,141|C,1334)   total(C,1334|T,141)
SNP Type:                 INTRON


Context             (SEQ ID NO:46021):
CTGGCTCTTGAAGTTAGAAAACGACGACAGAATTGGATGGTTAATTTGGGGCAGGGTTGTTGCTTCATTCATTACAATTTCTATCTGCTGCAGTCTAGAG
M
ATTACTTATTAACAGGAAAGTCTTCCAATGCCATCATTGAAAGAGGCTGTGGCCATCCTGTGCAATGGGAATCCCTGTGTTTGCACAGAGTGCAGTGGGC
Celera SNP ID:            hCV3261891
SNP Position Genomic:     215151
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|C,9)      total(A,6|C,9) ;JBIC-allele(C,283|A,1016)   total(A,1016|C,283)
SNP Type:                 INTRON


Context             (SEQ ID NO:46022):
TGCTGGGGCTCCTGTGCTCAAGTTTGTGAAGTTTAAGTGGTTTTCCCAAATACTTAGCTTCCTCTTAGGGGAAAGGGAAAATATTAGCTGTCCCACTGTA
Y
CAGATGATAAAATAACCTTGCCCTTAACTTAATTTGACTTTTCAGACTGCCTTTATGTTTTGAAATCTCATTTGGTCTTCAGTGAGTTCATAAAAATGTT
Celera SNP ID:            hCV3261892
SNP Position Genomic:     214400
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46023):
TGGGAATGGAAATGACTCCCTTCTGGTGGAGACAGAGCTTTCAGGGAAGCCTGCTAAACCAGCACAAGCAAGTGCAGCCCCTTGGCCATCAGGGTGCCGT
Y
GCAGGACAGGGCTGAGCTACAGGTTCACCTTCCTCACCTGAGTAGCAGCTCTTCCTCCTGCAGGCCTAGGAGAGCAAATTCTGGGAATACCAAAAATGAT
Celera SNP ID:            hCV3261893
SNP Position Genomic:     212595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46024):
TGCTATTTATGTTTTCTACCCCAGTTACTTGAATCTATTTCATTGAAGAATTAAAAAATAAACAGGCCTGAGACTCCAAGCAGGATTGAACATACCACAG
Y
GGCACTAGCTGGAGGCCCAGAGTTTGGGCCCCGTGGGTTCTCACTGCTCAGGTACAGTCAGTGAAGGTGGAGCCCAGGTTGGGGCTGTCCTGGGTCCTGA
Celera SNP ID:            hCV3261894
SNP Position Genomic:     212182
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46025):
TTTCACCATGTTGGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCACCCGCCTCAACCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACTGCGCC
Y
GGCCTATGCTCCTTTCTTTTATACCACATGATGTTTCACAGCTGAAGCCACATGCTACCAGTTGAGAACAGCACCCAATTCATTAATGCCAAGACCAAGG
Celera SNP ID:            hCV3261895
SNP Position Genomic:     210570
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46026):
TTAGAACCAGGTATTGAGGGATTAAGGTCCTAGGTACTTAAGAGCTATAGTGAGACAGGTAGAAGCAGAAATGGCAGGAAAACAGTAAGGGGGTATGTGG
R
TAAGGTTTTCTTCTCAGTTTTGCCAACAGCATCCTGATATTTATTCACTTTCATCAGCAAGGAAACAATGTGGCCCAAGAATGATGCTTTTGAATAATTT
Celera SNP ID:            hCV3261897
SNP Position Genomic:     210050
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46027):
TAGATCATTTTCTTAGAACCAGGTATTGAGGGATTAAGGTCCTAGGTACTTAAGAGCTATAGTGAGACAGGTAGAAGCAGAAATGGCAGGAAAACAGTAA
S
GGGGTATGTGGGTAAGGTTTTCTTCTCAGTTTTGCCAACAGCATCCTGATATTTATTCACTTTCATCAGCAAGGAAACAATGTGGCCCAAGAATGATGCT
Celera SNP ID:            hCV3261898
SNP Position Genomic:     210038
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,10)   total(G,10|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46028):
ATGTGTGAGTAGTTGGTTCCATTTTATTGCTAAGTGGTGTTCTACTATATGGATAGGACACATTTTGTTTGTTCATTCATCAGTTGGTGGACATTTTGGT
K
ATTTTTAAATTTTTGCTATTATAAGTAATGCTGCTGTGGACATTTGCATACAAGTTTTTGTGTGGATGTGTGTTTTTGTTATTTCTCATGAGGAGATACA
Celera SNP ID:            hCV7441610
SNP Position Genomic:     39305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46029):
AGAGCCAACCCACAGCTCACTGTGAGTCCTGACACAGTCACATCCACTCTATCCCAGTTCTCCACGTTCTGGGGCTAATAGTTACAGAAGGGAGAGTATC
R
TCTGTCTTATAACTGTTGTGATTTAATTTTGAGCTTTGCTTCAACTTAGACTTCCAGATTGGTTGGGTTATTCAGGATTCAAATCTCTTTCACTAATAAT
Celera SNP ID:            hCV25757671
SNP Position Genomic:     207354
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46030):
TGGATTGGAGATCCAAGAACTTAATCTTAGTAAATACATTAGGCAAACAGCTATTTTGCAACCAAGTTGACAGCTTTTTTTAAAAAAAATTTTGTTACCG
R
ATTGACTAGTCACTTTGGTGTTGTAAAGACATGGACCTTTCTGCCAGCCCTCCCCTCCTCCAAATACTTAAAATAATTATATCACCATAGAGACTCCTTT
Celera SNP ID:            hCV3261899
SNP Position Genomic:     209289
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,13)   caucasian(A,20|G,4)   total(A,39|G,17)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46031):
TGCTCTCTCCACCTAAGAGAAGGCTGGGTGACACAATGCAAGCCCTACCATTGATGAAGGCCAGTCATATGGAAATGGTGCCACAGGCTTGCTTTCTGGG
M
TAAGCAGTCCTACATCCCCCTTCCCCAGGAGCAGGTCCTGGAGCACAGAATCTGCCTTGACTTCCTTTTCGTGGTTAAAGGGCCCTCAAGGAGAGAAAAC
Celera SNP ID:            hCV7441617
SNP Position Genomic:     28869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46032):
CTGACTGCTGATACACTTTTTTTATCACTTCCTCTGTCCCCTGCCTGCTGTCCTTCTCCCTATCCTGAACTCAAAGCCCAAGGGTGGAATGGGGGAGAAA
S
ACCTGAGCCTCATAAGAGACTCAGGACCCTGTCTTATCAGTTTATTCCATTTTTTTTCTCAGTTTTTACTTTCCCACTTTCTATAACCTTCTCTCCACAG
Celera SNP ID:            hCV7441618
SNP Position Genomic:     12803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46033):
AATCTAGAAAAGAAAAAGTGAGCCAATTATTCTACATTCAGCCAAACTGGACCCTCAAATATAAGAACCACAGACAAAACTGTGCGAACATGCCAGACCT
Y
GGGGAATGAATTTCCCATTAACCCTTCTTGAGGAACCTTCTGACAATTACTGTGACTGGAGAAACTTTAGCATAAGGACTGGTGGTTGACACGTGAGACT
Celera SNP ID:            hCV547954
SNP Position Genomic:     90816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46034):
TACTGGTTCTCTGACTGTGGCTGGGTGGAGTTGGCATCTGTCTCCTAGGTTCCTCCTGCCCCCAACAGTTTGTGGTTATGGTGATAAAATTATTGTGTGA
Y
AAATATCATGGCAGACATATAAACAGAGGAAAGGGGACAGCAATTGAAAGAGTATCAAACACACTTTAAGGTTCTAACTGTTTCAGTTACCAAGGCTCAG
Celera SNP ID:            hCV547955
SNP Position Genomic:     87871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46035):
GAACTTGGAGGAAACAGTACCATTATTGCCTTTGAAGATGCAGACCTCAGCTTAGTTGTTCCATCAGCTCTCTTCACTGCTGTGGGAATAGCTGGCCAGA
R
GTGTACCACTGCGAGGCGACTGTTTGTACATGAAAGCATCCATCATGAGGTTGTAAACAGACTTAAAAAGGCCTACGCACAGATCCGAGTTGGGAACCCA
Celera SNP ID:            hCV547957
SNP Position Genomic:     86709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:46036):
GGAATGAGGCCTTTTTGGACCTCATCAACCTTCTCTGAAATTCCCCTTGTGGACTTGGGGCTCAGCAAGCCCTCCTGCCTCCAAAGTTCCAGGCCAGATC
R
CCTTTCCAGACTCAGGCAAGTAGCAGTTGGGCTACCAGCCTTGGCAGAAGAGATGGGTGAATTCATGGCTTTTTAGGTGGGAGGGTGGCCCTGTGAGAAG
Celera SNP ID:            hCV25757318
SNP Position Genomic:     203032
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,28)   total(A,1|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:46037):
ACAATTCAATGTTAATGGACATTTGAGATGTTTCCATTTGGAGCTGTCATGAATAATGCTGCTGTAAACATTCTTGGACATATCTTTTGGTGCTCACTGG
R
CACATTCCTATTGGGTATTTACCTAAGATAGATAGTGAGTGTCACTATATTTCCAGTTTGTGCCCCACTGTCCCAGCTTATGCCTAGACGTCCAGAGTAA
Celera SNP ID:            hCV547958
SNP Position Genomic:     80496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46038):
ATATCTCTACAGTTTTGCCTTTTCCAGAATGTTATATGGTTGGAATCATACAGTATATGGCCTTTTCGGATTGACTTGACTCCTTTCACTTAGTAATATG
Y
GTTTAAGGTTCCTCCATGTCTTTTCATGGGTTGACAAACTATTTCTTTTTAGTGCTGAGTAATATTCCATCATTAGAATGTACCACAGTTTATTTATCCA
Celera SNP ID:            hCV547959
SNP Position Genomic:     79169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46039):
TTGGTGCTAGTTCATTGAGTCATGCTAAGGTGTTAGCAGTTTTACCCACTATTGCTTCTTCTCAGTGTAAATGTCAGTAGTTTTGGTATGAGAATTCGTG
Y
TTGTATGACATTGAACAGAGCTTTGACTTTGCAATGATAAAAGCAGATCCCAGAAAAGGGGCTAAGTACCCTGAGATCAATGTGTCAGGAGATGCTATGG
Celera SNP ID:            hCV11650561
SNP Position Genomic:     221001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46040):
ATTTTCTGACTTTTTAATAGCCATTCTGACTAGTTTGAGATGGTATCTCATTGTGGTTTTGATTTGCATGTCTGATTAGTGATGCTGGACTTTTGTTTTG
K
TTAGTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGACCTCAGCTCACTGCAACCCTCACC
Celera SNP ID:            hCV11650564
SNP Position Genomic:     219473
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46041):
CAAAGGTTTTAGGGGTTTTAATTATTTTAATTATTTTTAAAAATCTTATGCTGTAGTCTTTGTCGTCTCTTTGGAGGGACTCCATGCTTGTTCCTTGATG
K
CTTGAAGCATGTTGAGCCATAACCACCCAAGCAACTCAGAGTTTTAGTAGCTGAACAAGGTCACTCTTGGGTGCTAGAGGCAGAGAGGCAGCCAGTCCTG
Celera SNP ID:            hCV25752304
SNP Position Genomic:     200872
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(G,33|T,1)   total(G,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:46042):
GAATTTGAGCCCTGGTGGAGCAATGTCCGGCACGCTCAGGAAAGTGTGAAATCTAGAACTCTCTGTAGTGGCCTGAGGCAATAGTCAGACATGGCTGGTA
R
AGCTGTGCTGCCTCAGAAGTCATCCTGGATAAGCTGCTCTGGATCCCCATCGTGGAAGCATAAAATGTCAAGCAGAAGGATGTTATGAGAATTGGAACCT
Celera SNP ID:            hCV547960
SNP Position Genomic:     78350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46043):
GCCTACCCTGACTGAGGTGGGCACTTCATATGTGAATGCAGGTCCACCTGCCGAGGGGCTGGAGGTGTGCTTGCTGCTGTAAACTTGCTCTGTGGAATGC
R
TGCGCAAGCCCCAGGCCACAGTGCCCGTGGAAGCGCCACTTCCCTGCTGCCCTTCATGACACCACTGCCCTTGTGACTTGGCCTCTACCTCAGCTCCAGT
Celera SNP ID:            hCV547961
SNP Position Genomic:     76611
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46044):
CATAGTATTTTATTAGAAGATTCAACAGCAAGAAAATAACATTGCAAAAATGACCTGGCAATGCCAAATTGCTGGAAGTTTCTAAGCACTTATTGTCAGT
M
TTTTTCCTAATCTCTTTACTGTTGGGTAGCAGTTCACAGACTGGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGTCCAAGGCGGGTG
Celera SNP ID:            hCV547962
SNP Position Genomic:     76111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46045):
GATGCAGGTATTAGTATCCACATTTTACAAATATGCAGACTCAGGCCCAGAGAGGTTGAATAACTCCAAGGTTATCCAGCTGGTTAGTGACAAAGGTGGG
R
TCTGAATACAGGTCTTACTTCCAAAGTCTGCACTTGAATTACCTCCTGTACCACCTGTGCTACCTCTGTGCCTCTCTGAACCAACTTTGGGTTTTCTGGA
Celera SNP ID:            hCV547963
SNP Position Genomic:     75263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46046):
GGAAAATTTGGTTCCTCTGACAAATCTTTTTATTTCCCAGCAAACCTATATCACTTTATTTGTAGTGCACATCGGTTATGATTTAGCTTGTGGCTGAGGA
W
CTCTCTAGACTAATATATGAAGGCATAAAATTTTTCCTCCAAATAAAAAATGTTCTATTTTTATCTTAATTTCTTAATCAGTTGGAAAGTATATATCCAT
Celera SNP ID:            hCV25617975
SNP Position Genomic:     149174
SNP Source:               Applera
Population(Allele,Count): african american(A,28|T,2)   caucasian(A,36)   total(A,64|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:46047):
TTACTTCTGGATTTGTTCCTCTTGACATGAAAAACATATATTCTCTGCTTCACATCAAAAATGTAGGCTTACTTTTAAGTAGCTATATTTTTAAAATCTG
W
GTCCTGTTTTTGATCTAGTTTTTATTATATCTTGCATTTTACCTGCCATTTCTCTTCTTTCTCTTTTGTTCATTTTACAGGAAATGGGAGATCAGAGATG
Celera SNP ID:            hCV547966
SNP Position Genomic:     73149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46048):
TGTAGCTGCCAATTAAGCAGATTTATGGGAAAATTTGGTTCCTCTGACAAATCTTTTTATTTCCCAGCAAACCTATATCACTTTATTTGTAGTGCACATC
R
GTTATGATTTAGCTTGTGGCTGAGGAACTCTCTAGACTAATATATGAAGGCATAAAATTTTTCCTCCAAATAAAAAATGTTCTATTTTTATCTTAATTTC
Celera SNP ID:            hCV25617976
SNP Position Genomic:     149147
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(G,36)   total(A,3|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:46049):
TCACCATGAACCTTGACATTCCAGTTTTCCCACAGCATGTGAAGGCCTTAAGTTGTTCAGATATAACCTTGATTCTCCAAGGGGTGCTGTGGTAGAACGC
R
GAAGGAGATTTTTGGAAAATTGCATCTATAGAGTTAAATACTATGAATGTTTCTTATCTTGTCATAAAATCACCTGCATACATTCTTTTTATAAAGCCAT
Celera SNP ID:            hCV547967
SNP Position Genomic:     72685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46050):
CACGGTGGTTGTTCTCACCATGAACCTTGACATTCCAGTTTTCCCACAGCATGTGAAGGCCTTAAGTTGTTCAGATATAACCTTGATTCTCCAAGGGGTG
S
TGTGGTAGAACGCAGAAGGAGATTTTTGGAAAATTGCATCTATAGAGTTAAATACTATGAATGTTTCTTATCTTGTCATAAAATCACCTGCATACATTCT
Celera SNP ID:            hCV547968
SNP Position Genomic:     72671
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46051):
CGAAAGTCCCTAGCTATAGGTGTCCAAAGTCGTGGAGACAAAATATCATTTCTGGAAGCGAGAGAGTGAGAGAGGGGCCCAGAACAGATCTCTGAGCAAC
Y
CCAATCTGTAGAGGAGGGCCAGGGGAGGTGAATCTGCAAGGGAGCCTGAGGAAGCCTACTCACTGAGACAGGAGAACATTCACCAGGAGCCCGCAGGGAG
Celera SNP ID:            hCV11650571
SNP Position Genomic:     204473
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46052):
TAAAGGATAAAATTGTAAAATACTGGATGAGAGTATTCCTTAAATACATTACAGCACATCTCAGATAGAAGCTCTAGTATTGATATGGTGTGGTCCTCAC
K
GTGAAGTGTCCTTACAGTGAATTTTTAAAATTTACATTTTGGTTTTTCTGTGAGCCCAGAGGGATGCCACTTCCTTTACCGTAACTCTGACTAGTTGCTC
Celera SNP ID:            hCV547969
SNP Position Genomic:     72386
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46053):
GATATGGCTTTGGGCAAGTCTTGATCTGGTAATTTGGAAGTGTTACAAAGGATCTTGTTTCTTTCCATTTCTCCACTCTGCTTTCCATGGTGTTGCTTTC
R
TTCTCACATGGTGTCAAGATGTTACGAGAAACAACCTCACTACACATTTCTTTTTGATAAACAGTGAGAATATTTATTAAAAGTAGAATAGCTTTTTCCC
Celera SNP ID:            hCV1153901
SNP Position Genomic:     91413
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46054):
TCTCTAATATCAACAAGGGGAAGTCATTTGTTTCCATTGAGATTCTTTCTGTTTAAACACAGGAGAGCTCATTCAACCTTATTTAATAAGGAGAAAAAAG
S
CAATTAATTGGCTCACCTAACTGAAAAATCCAGAGTTAGATATGGCTTTGGGCAAGTCTTGATCTGGTAATTTGGAAGTGTTACAAAGGATCTTGTTTCT
Celera SNP ID:            hCV1153902
SNP Position Genomic:     91274
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46055):
TTTTACAGCCCATTTGTGTATTTGTTTTGAGCATTGCTTGTCCTTTTCTTGACCCTTTTTAATTGGGATGTTCGCCTGTTTTATTATTGTCTTAGTAGAG
R
TTCAAAAAACTCTAATAAGGATGCCAATCCCTTTACTATCATATATTACTAATATTTTTTCTCAGTTTTGTATTTAAATATTTATTATGCTTTTTAATAT
Celera SNP ID:            hCV1153903
SNP Position Genomic:     88284
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46056):
TGGGCAATGAACTGTCCTTAGTTTTACTTTGTCCAGAAATGTCTTAACTTGAAAGCTGTTGTTCCTGTTTTCTGTTTCCGTAGTTTCTCATGAAAATTTA
S
CAGTCATCTGAATCATTGTCCCACTGTGTGTATTGTGTAGTTTTTCTCGGGCCGCTTTTGTCTTTGGCTTTCAGCAGATTAATTACAATGTGCCTAAACA
Celera SNP ID:            hCV1153905
SNP Position Genomic:     81013
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46057):
CTGAAATAATTATTGTCATATTTCTTATAACGAAGATCTGTGGGCAATGAACTGTCCTTAGTTTTACTTTGTCCAGAAATGTCTTAACTTGAAAGCTGTT
K
TTCCTGTTTTCTGTTTCCGTAGTTTCTCATGAAAATTTAGCAGTCATCTGAATCATTGTCCCACTGTGTGTATTGTGTAGTTTTTCTCGGGCCGCTTTTG
Celera SNP ID:            hCV1153906
SNP Position Genomic:     80973
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46058):
ATGCCTCATTAAGCAGGAAAGTAGTCATGAGGAAAGGCATGCACTTGAGAGCCGTACCTGGGCTCTTTATCTTCTGACAGATAGGATCATTCCCAAGGTC
R
TGAGAGTGCAGGGGATTGGGTGCCAACCAGGACACTGAAGAGCTCCCGGAGCCTGTGCATGGTGTCTAGCCCTTCTGTCTTCAGGCAGTCACGTGCAAGC
Celera SNP ID:            hCV1153907
SNP Position Genomic:     75726
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46059):
TACAATGGGGAAACTTTGAGACTCATGTTACTTCCTGTTGTTAGAGTGCTTGATTTAGTGCTTTAATTACTATACACTACTGAAACAAAGTGAATATACA
Y
CACCTTAGGAAATCACTTGTTATTTTCTTGAACTGTTTTGTTTCATCTACAATTACATCTTTATATCACATTTCACAAAATACTGGTGATTATGTGGTGT
Celera SNP ID:            hCV1153908
SNP Position Genomic:     74556
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46060):
ATACTGTCTGAAAAATCAAGTGGCCTTTTCTTCATCCATACCTGGAACACGTTTACTTCCCCAGTGTGCAGAATGTATGTGTTTCTGCTTAGAGAGTCCC
R
TCCCCATTCCCGTCATGCTGGGCTTTCCAACTGGACATGGAAATGGATCCCCACAGCTGTGACCTAAGCTTTTTCTTAGCAAGGTCACACATCTCCTTTC
Celera SNP ID:            hCV27849878
SNP Position Genomic:     113293
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,6|G,32)   total(A,9|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:46061):
AATTACTCAAGTGATTGTCTCAAACCTCTATGTCATTTGTTTGTAGAGTTCTTTAGAAGAACTTAGTACAATTATCTGAAAGTGTCTCTAAGGTATGACA
Y
TTCTGTGTGCATTATTGTACTCAGCATTTAAAACATGGCATTGCACTGATGTCCTTCCTGTTTCTTAAAATAAGCCAAGTCTTTTCTGGCCTCAGGGCCT
Celera SNP ID:            hCV547970
SNP Position Genomic:     71687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46062):
AGGAAGAGCTAACCAGAGATACCACTTCCTTCTGGGAAGAAGCAGCAGGGCTGGGAGAATCCTAGCCCAGACTTTCTCTGGAAGCTGCTCCAGCTCCTGA
S
CAGGCTTATCTTACCAGCCGGGTGGGAGTTAGGAGGACTCCGGAGTCACACAGAAAGCCAAAAATCTCCTGAAAACAATACCCTTTCCAGTGTAGATCCT
Celera SNP ID:            hCV547971
SNP Position Genomic:     66380
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46063):
ATTCTCCAGTTATCAATTGGTGGTTAGAAAACCTGTATCCTTGGGAGAGGTAATATTGTGATGGTGTCACATTATGATATTAATCATCTCCCAGCCTTTG
Y
GATGAACAGGAAGAAGCAGGAGCATGAGGCCAGTATAACAGATGCCTGTAAAGGAGAGGTGGAAGGAGAGTCACTGCCTTTAAAGGGAAACTTGGATTCT
Celera SNP ID:            hCV7441499
SNP Position Genomic:     142149
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46064):
TAGTGAGCAGGTGAGAGTACTTTCTCTGAAACTGAAGAGAGAAGTGTCCTGATCCTAAAACCTTTCAGAGAGCTGCCTGACTGCGCTGCTCAGGAAAAAA
S
GGGTGCTCACCCTAGCATGATAGGGATGGCCAAGTGCCTTGGGGCACCCAGCTGTTCAGCGGCATTGTGGTGAAAGGGAAGTACAGTCGATCCTCATTTT
Celera SNP ID:            hCV547973
SNP Position Genomic:     61559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46065):
AACAAAAAGCAAGATGATAGATTTAAACCCAACCACATCAATAGTTGTATTAAATGTAAGTAGTCTAAGTATCTGAATTAAAAGGCAGAGATTATCAGAT
R
GGATAAAAGAAAAGTCAAGAGCCAACTATATGCTGTCAACAAGACATCCACTTTTAATATAAAGACACAGAAAGCTTAAAAGTATAGAAAAGGATGCACC
Celera SNP ID:            hCV547976
SNP Position Genomic:     52824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46066):
CATGCGTCACCTCTGTTCTCTGCTTATCTCACCACTGTTCTCTGCTTGTCTTTCTCCATGTCTAATTGTAGCTGCCAATTAAGCAGATTTATGGGAAAAT
K
TGGTTCCTCTGACAAATCTTTTTATTTCCCAGCAAACCTATATCACTTTATTTGTAGTGCACATCGGTTATGATTTAGCTTGTGGCTGAGGAACTCTCTA
Celera SNP ID:            hCV25617986
SNP Position Genomic:     149081
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,31)   caucasian(T,36)   total(G,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:46067):
ATGGGGGGAACTAAGAACAGAGAAGAGAAGTACAAAACAAAAAGCAAGATGATAGATTTAAACCCAACCACATCAATAGTTGTATTAAATGTAAGTAGTC
Y
AAGTATCTGAATTAAAAGGCAGAGATTATCAGATAGGATAAAAGAAAAGTCAAGAGCCAACTATATGCTGTCAACAAGACATCCACTTTTAATATAAAGA
Celera SNP ID:            hCV547977
SNP Position Genomic:     52789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46068):
TGCCAGACGGAAATCCGGGGACAGCATCCAACAGCACGTGAAGATCACCCCAGTGATTGGCCAAGGAGGGTGAGAGCAAACTGTTCAACTCTTTTAGCTG
R
AGATAAAGACTCAAGGCCCTCATGGGCATTGGGCTTGAAATGCCAGTATGAGCCTTACATCCACAAATGCAGTAGGGTTGTGCTGAATGTAGTATAGATC
Celera SNP ID:            hCV25617987
SNP Position Genomic:     146719
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,34)   total(A,69|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46069):
TAGCATCCCCAAGTCTCAGATCTCTTTCATTGACTACTTCATAACAGACATGTTTGATGCTTGGGATGGTAAGACAGTTACTGTTTTGTCACCCAAAGAA
R
ATTGTTATACTTTACGAATATTATCTTTAGTGACACAGGGTGAGCCTAAAGGTAAACAAAATATATTTTTAAAAATGTGGCTGTCAGCTTTTTGTGGCCA
Celera SNP ID:            hCV25617988
SNP Position Genomic:     221774
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,35|G,1)   total(A,68|G,4)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46070):
TTTCTAATGAACGACTTAGAATTCAACCAGCTAGCCTGGGCCACAGCCTTGAAGCTAACCTCTCTTTTAGTTTTGTTTAGAAACTACATTTTGAGGAATT
C
TTGGTTCTTGAATCTTGAATTTAATCTTAAATTTTTAAGTTAGATTTAACTTATTACTTGGTACACAAATAAATGCTAGGACTGTATATGATTATGAGGT
Celera SNP ID:            hCV11650581
SNP Position Genomic:     197876
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,18)   total(C,1|-,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46071):
GCCCGCCACCCCACCCAGCTAATATTATATTTTTAGTAGAGAGGGGGTTTCACCATGTTGGCTAGGCTGGTCTTGAACTCCTGACCTGAAGTGATCACCC
R
CTTTGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACGGCGCCCGACCGGCTGTTTTACTTTTGTGTCTGCTGCTGGCTGGCTCCCGCTAAGACAC
Celera SNP ID:            hCV11650582
SNP Position Genomic:     194409
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46072):
CATAATATCACCACTTTACACCACATAGTATCACACACACACACTAGTTGAGTACAGTGGTGCCCACCTGTAGTCCCAGCTACTTGGGAGGCTGAAGCAG
R
AGGATCACCTGAGTTCAGGATTTGTGACCAGCCTGGACAAAATAGTGAGACCCCATCTTTTTTTAAAAAAGAAAAAATATATATACTGTATATGTAAAGT
Celera SNP ID:            hCV1153910
SNP Position Genomic:     70673
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46073):
CACTGGCCCACTAAAAGAAATATTTTCAAGATACTGAGAAATGCAAAAAAAATGTAAAAACCAAGCATAATATCACCACTTTACACCACATAGTATCACA
M
ACACACACTAGTTGAGTACAGTGGTGCCCACCTGTAGTCCCAGCTACTTGGGAGGCTGAAGCAGGAGGATCACCTGAGTTCAGGATTTGTGACCAGCCTG
Celera SNP ID:            hCV1153911
SNP Position Genomic:     70608
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,7)   total(A,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46074):
TCAGGCCCAGTGGGATTCCAAATGAGGGAGGTTCACAGGCTGTTGGAATCATCTCTAGTCTTAGGAATACCATGACTTCAGTTTTCTCAGAAGAAGTAAG
M
CAATGAGAGATACTTAACATTAATAATTTGAATAGTAGAAATATAATGACACTTGAAAGAGAATTCGTATGCCAGAACAACAACAACAAAAAAAGCCTAT
Celera SNP ID:            hCV11650584
SNP Position Genomic:     188430
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46075):
CTGCCTTCCTGCGGACCCATTCATAAGACTGACATATTCATTCATTCCACTGACATATTCATTCATTCCACAAGTAGTTATTGAGCATCTGACATGTCCC
R
GGTGCTATGCTAGCTCCTGGACATGCAGTGATGGCCAACCTGGCCTAGCTACATGTGGGGGACAAATGGAGGCACAAATAGTACCTTGGTATTCTGAGAC
Celera SNP ID:            hCV1153912
SNP Position Genomic:     70031
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46076):
TAGTAGAGACAAAGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAACGTGATGGGATTACAGG
Y
GTGAACCATCTTGCCCAGCTAGTTCTATCTTTAGACTAAAATTTAAGTATCTATAAAAAGGAGGAACTGCTGTTTAATGAATGCAAATGTTTAGGTACAT
Celera SNP ID:            hCV1153913
SNP Position Genomic:     69641
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46077):
CATGATCTTTGCTCACTGCAACCTCCGCCTCTTGAGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGATTACAGACATGCGCCACTATGCC
Y
GGCTAATTTTGTATTTTTAGTAGAGACAAAGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAA
Celera SNP ID:            hCV1153914
SNP Position Genomic:     69523
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46078):
TGGCTGGACATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGTCCCCACTCTCTTCTAGCTTATAGGGTTTCTGCAGAGATATC
Y
GCTGTTACTCTAATGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCACTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACCTTGGTGAATTCACCAA
Celera SNP ID:            hCV11650586
SNP Position Genomic:     182969
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46079):
ACAGGAAGAAATAGGGCAAAAGCCATTTGAGGTGGACAAAATAGTATATAAAAAATAAAGTTTGATTTTTATTAACACAATGGTGAAAAGAGAGAACTTC
M
AGGTAGTTCCATCTGTTTTTTTTTTATTTATTTTTTATTTTTTATTTTTTTTTGAGATGGAGTTTCATTCTTGTTGCCCAGGCTGGAGTGCAATGGCATG
Celera SNP ID:            hCV1153915
SNP Position Genomic:     69326
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,8)   total(A,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46080):
ATTCTCTTGGGAGGGTCAAACCACAGCTGGCTGATCTGTTATCAAAGGATTTGTGGTGCCTCGAACATGTCCTGTTATTTCACAATCAGTGCCCTTTGTA
M
ATATGGTTCCTTTTATTTCTTCTTTGTCTGACTTGTCCTTTAAAACCTCCATTTGAGAGCTGCCTCTTCCAGAAAGCCTTCCTTGACCACCTCCAGCTGC
Celera SNP ID:            hCV1153916
SNP Position Genomic:     68007
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,5)      total(A,5|C,5) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46081):
TGATGTCGGAGGACCTGGTATTTGGTGCTATGTGGAGTAACTATACAGCTAATTTCCTAATGGAGGTTATTGTTATTAATTCAATTTATTTTTATAGCAA
S
TTTATTGAGAAATAATTTACCACCATACAGTTCACCCCTTTAAAGCATACAACTTTTAGTATACTCTTAGAAGTTGTGCAACCATCACCATAATCAATTT
Celera SNP ID:            hCV1153917
SNP Position Genomic:     59318
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46082):
AGTAGCAGGAAACATAAGCCTTTATTCACTTTACAAAGCATAAATAGTAACAGTATACTTCATATGTACAGTGTGACCAGTTAAAATGGAAAGATCCTGC
R
TATGGGAACAGGGGTGGCACTAGTGAGTGTGCCTGGTAAAAAAAAAACAGGGCAAAAAGGCAGAAAATGGAGAGAAGCAGGGGACAGACTGAATGATTAG
Celera SNP ID:            hCV7441570
SNP Position Genomic:     57695
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;(A,-|G,-)   Caucasian(G,84)   African-American(A,21|G,63)   Asians(G,84)   total(G,231|A,21)
SNP Type:                 INTRON


Context             (SEQ ID NO:46083):
TCTGGGCCAGTGAATACAATGAGCCAGGGTGGGTTTTCCTATTTTTCAGGCCATTGGTTTATCTGGGCTTAAAGGTCTTCTCTCGGTTTGGAGTATGTGA
R
TTTTTAAACTGTTCTGAAACCACTCTTCGGGCCTGGTTCCAAGTGATCGAAGCCAACTACCACTCTTCCAATGCCTACCACAACTCCACCCATGCTGCCG
Celera SNP ID:            hCV2952483
SNP Position Genomic:     209007
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,29)   caucasian(A,16|G,22)   total(A,23|G,51)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,11)      total(G,11|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:46084):
ATCATAGACAAACTCAGAACTTCGATGCAGAAGCAGTGTGCAGGTACCTTCTCTAATTTAATATGCTTAGTAAATGTTCACTTTACATCTTAAAACGAAT
W
TCATTTATAGATATCTTTAGTTTATTTCAAATATTTTTAAAATATGCGTTGATGTTTTTAAGCAGTGTATACAGATGTCTGTGGTGAAAGCTATAGCTCC
Celera SNP ID:            hCV27540137
SNP Position Genomic:     121325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46085):
CATTGTATCGTTTTTTATAGTTATTGACACTTTGCTTCTATCCTATCAATTCTATCTGTAATTTATTTCAAATCAATTTCTTGAACAGGCAGGTAATAGC
Y
TATTATATTATTTTTCCTATGGGAAAATATGATCGTTTATTAATTTGGTTTTTTAAAATTTACTAAACATCTATTACCCAGAAAGCACTATAGAAAATGC
Celera SNP ID:            hCV27513607
SNP Position Genomic:     68880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46086):
AGCCTTGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTATTTTTGTTTAGGATTGTCTTGGCTATGCGGGCTCTTTTTTGGTTCCAT
W
TGAAATTTAAAGTAGTGTTTTTTCCAATTCTATGAAGAAAGTCAATGGTAGCTTGATGGGAATAGCATTGAATCTCTAAATTACTATGGGCAGTATGGCC
Celera SNP ID:            hCV11650590
SNP Position Genomic:     179517
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46087):
AATGGGCTGGGAGGATCTCTGAGGAGTATTTTGCACAGGTGCGCCATCTTTCCAGGGAAGCTCCACTTCCCCTCTGGGAATGGGAACTAGGTCATGGAAC
K
CCTGGGGGATTCTCCAGCTGAGTAACTTTTTACCAATTAGTTAACCACTCCTCCCTGGAAGAAAGCAGCTTACCCCCACCTGGGGTAGGCTTCTGGTTCC
Celera SNP ID:            hCV25617998
SNP Position Genomic:     217896
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(G,1|T,37)   total(G,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:46088):
TAAAGTGCAAAAGTTTGAGGCTTCCATCTGACAGCTAAAGCCAAGCCACAGAGGGGGCCTCTTGACCGACAAAGGACACTGTGAATCACAGTAGCGTAAA
Y
AAGAGGCCTTCCTTTCTAATGACAATGACAGGTATTGGTGAAGGAGCTAATGTTTAATATTTGACCTTGAATCATTCAAGTCCCCAAATTTCATTCTTAG
Celera SNP ID:            hCV25617999
SNP Position Genomic:     222462
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,35|T,5)   total(C,72|T,6)
SNP Type:                 INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:46089):
CTCTACTTCAGTGCATCTGAATCCAGCTCATTCTTTTTAAGAAAACATAATATTCTATATCCATAGATTTGCCATTATTCAGTCACGCATCTTGTAATGA
W
GAACATTTAGGTTGTTTCCAGTTTTTTAGTGCTATGATCATGCCACTGTGCTACAGCCTAGGTGACAGAGGGAGACCTTGGCTCTAAAAAAATGAGGAAG
Celera SNP ID:            hCV1153920
SNP Position Genomic:     52049
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46090):
TCTACATATACACAAGCCATGTGGGGGATTTGAGGGTGTGGTAAAAATGCTTATATCTTGATAACCTGAAAGTCCCTCTACTTCAGTGCATCTGAATCCA
R
CTCATTCTTTTTAAGAAAACATAATATTCTATATCCATAGATTTGCCATTATTCAGTCACGCATCTTGTAATGATGAACATTTAGGTTGTTTCCAGTTTT
Celera SNP ID:            hCV1153921
SNP Position Genomic:     51974
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46091):
TAATCATGTGAGCCAATTTATATAATAAACTCAGCTCGCTTGCTCGCTCTCTCCCTCTCTCTCTACACACACACACACACACACACACACACACACACAA
Y
CCCCTGTTGGTTCTTTGTCTAGAGAATGCTAATATAGCAGGTGTTGGTCGCCATTTACCAATGACGAAACTGAGACTTAGTAAAGCTCTGTAAGTTCCCC
Celera SNP ID:            hCV11650594
SNP Position Genomic:     173587
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46092):
CCCAACCAGGCTCTGCTGCCTGACTCTCTTTTCTGGAAAGGTTTCTGCTGCTTTCAGACGTTCATTTTTCTCCCTATGCATTAATTGAAGTTTAGAGTAT
R
TTTCGTGTCCTGGCTATGCTACAGGCAGGGCTGGCTTCATAGGCATGCCACCAACGCGGCTGCACAGGGCCCTATTCTCAGAAGGGCCTCTCACCTGGGG
Celera SNP ID:            hCV1153923
SNP Position Genomic:     50848
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46093):
GGAGATAATTTTCTATTTCGACCCTTCCATTGAGGTCACTTTTTTTACGAAGTCTAATCTCTGCAATTATGACATCACATTTTATTGTAGAGCAAAGCAT
Y
GTACTTTCAGAGGGCAAATATCATTTAAGTGATAGAACTGATTTTTCCCCCAAAATAAACACAGCTCAAGAAAAAGCAGCAAGAAAATTAATTGGTATAC
Celera SNP ID:            hCV1153924
SNP Position Genomic:     48514
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46094):
GCAGGTCGATCCGGGCCACAAATCCCTCCGAGCACACGGTGATCCTCGCAGTGGTTTCGCGAGTGTAAGTGCACCTCCCATTCCCAGATGGAAGGAGTAC
Y
GTTCATTCTGAAATATTTGTCAGATGTAATCTGGTTTTTGAGCTATCTAAGCAATGGGTGTGTCTTGGGTCCTAGAACACCAGCCTTAGATCTTGATCTT
Celera SNP ID:            hCV25760282
SNP Position Genomic:     124632
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,40)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:46095):
AAGTTCCCCATTCTGACTTTGATACAAGAAGATTGGTTGCCCTATTATGTCTGTTGCTGTTTGTTTGAGGAAGATACTTTTGTGACACCTTTTTCTGCCC
R
TTTCCCTTTTTGATACTCCTTTTTCCTATATAAGAACTATATTTATTTGATTTGGAAAGGGGTAAATATAATCATCTTATCATTCCTCCTGGCAGAGGTA
Celera SNP ID:            hCV1153925
SNP Position Genomic:     48189
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,1)      total(G,1|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46096):
GGTGAGATGGAAAGAAGAATAAAGAATGGCCCCACCTGAGTAGCAGGGCATTGACTGTTCCATGAATTCCAAGGTGGAAGGAGTATCACAGAGCCCTGAG
Y
GAAGGTTTCTGCTGGACAAGAGAAGCAGGGAGGATGAGGGTGTGCTGGACCGAGGTGACATAAGAGCCAACGTCTGGCTAGATATGCAGAGAGAGGAATC
Celera SNP ID:            hCV11650597
SNP Position Genomic:     164933
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46097):
TGACTTCTTCCCATGATGCTTCTTCCCCATTTTCTCCCCCTTCTCCCTCTTGAACTCCAAGTAAATAAATGTTAGACTCTCCCACTGTATCCACCGCATC
R
CTCTCTCTCTTCCTTTTTTTGTGTCTGTGTCGTATTCCAGATAGTTTTCTGATATTTTGTGGTTTAATTCTCTGTTCAGTTGTATCTTAGCAGCTGTTAA
Celera SNP ID:            hCV1153926
SNP Position Genomic:     47230
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46098):
AAATTAGCTGGGCGTGGTGGTGCAGGCCTGTAATCCAAGCTATTCCAGAGACTGAGGCAGGAGAATAGCTTGAACCTGGGAGACGGAGGTTGCAGTGAGC
Y
GAGATCATGCCACTGCACTCCAGCCTATGCGACAGAGCGAGTCCACTGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAGAGATAGACATAAGAGATGTTTT
Celera SNP ID:            hCV11650598
SNP Position Genomic:     164688
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46099):
TCTTTGTCTTTGGTTCCCTGCAGTTTCACTGTGATGTGTGTAGGTGTGACTTTCTTCTTATATAAGTGCCACACTCCTAAGTAAAAATGCCCATCTTTGC
Y
GCTTAAAGAGCAAGTCCTCTTGAAGTTCTGGGGCATGCCCCCCTTCTTTATTAATTTATTTCTGCTTGAGTTAAAGCAGAGAAGGTCTCTTTCCCATGTG
Celera SNP ID:            hCV1153927
SNP Position Genomic:     46927
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46100):
GATAAATTTCTGTTGTTTAAGGCACCCAGTCTATGGTATTTTGTTATGGCCACTCAAGTGTACTAATACATGTAGTTTCCCAGGATTAATCCATTTATAT
R
ACCAATATCTGGCTGGAGAGACCTTTAAATCTTCAACAACAGAAGCAGAATTCTTCAAATGATGCCACTAGTAGTTAATGAATTCTATCCAAATAAGTAG
Celera SNP ID:            hCV1153928
SNP Position Genomic:     44657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46101):
CCTAAGCACCATGTGTAGTAGGTATTCAGTAAATGTTTGCTGTCCAGGGGATCCATGCAGGAAGGTCTGAGGTTACAAGCAGGTAAACAGAAAAGCCCAC
M
GCACTTCACCCGCATGGTGGTGTTTGGATCTATTATAACAGCACGTCTAAGCCAGGCCTGTTCATCCCCCATGGGACAGCTGAGAAAACAAAGGTAGGTG
Celera SNP ID:            hCV1153929
SNP Position Genomic:     43520
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46102):
TCTTTTGATTCTTTTCTGTCTTTGCAGCCTTTGCACATCTGCCAGCCCTGATGCAACATTTGGCTGACAACTACAAACACTGGAAGACACTAGATGACCT
R
AAGTGCAAAAGTTTGAGGCTTCCATCTGACAGCTAAAGCCAAGCCACAGAGGGGGCCTCTTGACCGACAAAGGACACTGTGAATCACAGTAGCGTAAACA
Celera SNP ID:            hCV25618000
SNP Position Genomic:     222363
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:46103):
ATTAAATCCCTACTAGGTTCCAGGCATTTTTCCAGGTGCTAGGGTAATAGCAGTGAATTGAATGGTAGTGAACGTACATAGAATATGATGTCAATCACAA
R
AAAGTAGATATATCTAATAAACTAACATAGAAGATAAGATATATTAGACATTTCAGAAATACTTAGTACATCCAAAAGAAAACAGAAAAAGGGGAATGGG
Celera SNP ID:            hCV7441582
SNP Position Genomic:     52593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46104):
CTGTTATTCAATTTATTTAAGAATAATTTATTAAATCCCTACTAGGTTCCAGGCATTTTTCCAGGTGCTAGGGTAATAGCAGTGAATTGAATGGTAGTGA
W
CGTACATAGAATATGATGTCAATCACAAGAAAGTAGATATATCTAATAAACTAACATAGAAGATAAGATATATTAGACATTTCAGAAATACTTAGTACAT
Celera SNP ID:            hCV7441583
SNP Position Genomic:     52564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46105):
ATGCAAAGAAATGTATCTAAATTATTTTTGTTAGATGATAAGAGAACTTGCTTGGTCAGGACAGCAGCCAGCTTTGTATTGTAATGCTATATTATGTAAA
W
GTGATGAAAATGTTTTTGTGAAGTACTTGTAACTAAATTCCTACAGCCATTTTTCACTCCCAACAGCTGTTTTTATTTTACCTCTTTGGCCTAAAGTTTT
Celera SNP ID:            hCV11435347
SNP Position Genomic:     223987
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:46106):
GTCCTCATGCTTCGCCCAGGGTGTGCCTCCTCTAATTCTGATCCCAAACTTGTCCCAGACACCCCCAGGCTTATAAATGCTCCTGGGGTCTAAGTTCACC
R
GTTTCTTTTGATTCTTTTCTGTCTTTGCAGCCTTTGCACATCTGCCAGCCCTGATGCAACATTTGGCTGACAACTACAAACACTGGAAGACACTAGATGA
Celera SNP ID:            hCV25618008
SNP Position Genomic:     222259
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,24)   caucasian(G,36)   total(A,4|G,60)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46107):
CCTCCAAATACTTAAAATAATTATATCACCATAGAGACTCCTTTATATGCATGGCAGATCATGAACCCATTTTCCAAATGTTAGCTAGGAGCTGTGTTAC
K
GGGTTGCAGGACAGAACTTAATTATTACAGCAAATGGTTACTAGATCTATAGGTTAAATTTTAGTATCAGGATTTGGCCATTGGTAGATTACAGTCCAGA
Celera SNP ID:            hCV15967025
SNP Position Genomic:     209446
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,246|G,501)   total(G,501|T,246) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46108):
TCTTCTAACTCTCTCTCTTTAGGTACTGAATAACTTCTCTCATGGAATACTTTGGTGGTTATTTTTCTGTTCCCTGCCTCCAACACACACACACACACAG
A
CACACACACACACACACACCCCCGCCCCCCCCCCCCCCACACACACGAATGTTTCTGCCCCTTGACAGGGGACTGTGCTCTCCAGCTGACCTGTTTGCAT
Celera SNP ID:            hCV26380600
SNP Position Genomic:     54590
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46109):
TTTGAACATGTGAATAAGTTTGTGAACAGCATCAACAAGCCAATGGCAGCTGAGGTGAGTACTGCTTTCCATGCCATAAGGCACATCCAAGTACATTTCC
R
TAAGAGCCTGCTCTGGCCCTGAAGCATTTTCTCTCCCACTCAAATGTAAGGTGGTTATTTACTTGGAGTTGATAAAGGGCTGAAAGGACTGGCCACTTGT
Celera SNP ID:            hCV25618009
SNP Position Genomic:     215779
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,38|G,2)   total(A,72|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:46110):
CTTCTAACTCTCTCTCTTTAGGTACTGAATAACTTCTCTCATGGAATACTTTGGTGGTTATTTTTCTGTTCCCTGCCTCCAACACACACACACACACAGA
C
ACACACACACACACACACCCCCGCCCCCCCCCCCCCCACACACACGAATGTTTCTGCCCCTTGACAGGGGACTGTGCTCTCCAGCTGACCTGTTTGCATA
Celera SNP ID:            hCV26380601
SNP Position Genomic:     54591
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,3)   total(C,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46111):
GAAAAAAGTTTGACTATAGAAATAAAGCTATCAGCCGGGCGTGTTGGCTCACCTCTGTAATCCCAGCAGTTTGGGAGGCCGAGGTGGGTGGATCATCTGA
R
GTCAGGAGATCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAGATTAGGTGGCCATGGTGGCCCATGCCTATAATCCC
Celera SNP ID:            hCV26380602
SNP Position Genomic:     55488
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46112):
TAATTTTTGTATTTTTATTAATAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTAGCCTCAAGTGATCCACCTGTCTCAGCCAC
Y
CAAAGTGCTAGGATTACCACACCTGGCCACTGTGGCTCACTTCTTAATTGTTGGGCCATTTTCCCCAAGTACCCTGTTTCTTTATCAGAAAAGTGATGAA
Celera SNP ID:            hCV26380603
SNP Position Genomic:     56392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46113):
CATAAATAGTAACAGTATACTTCATATGTACAGTGTGACCAGTTAAAATGGAAAGATCCTGCGTATGGGAACAGGGGTGGCACTAGTGAGTGTGCCTGGT
A
AAAAAAAAACAGGGCAAAAAGGCAGAAAATGGAGAGAAGCAGGGGACAGACTGAATGATTAGCTCACAGAGAAAAAGGAAGAGAGAAGAGCCTCTTTATG
Celera SNP ID:            hCV26380604
SNP Position Genomic:     57733
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46114):
GAAGAAACTGTAAAGAAAGCAACAGAAGCATGGAAAATCTGGGCAGATATTCCTGCTCCAAAACGAGGAGAAATAGTAAGACAGATTGACGATGCCTTGT
R
GGAGAAGATCCAAGTACTAGGAAGCTTGGTGTCTTTGGAGATGGGGAAAATCTTAGTGGAAGGTGTGGGTGAAGTTCAGGAGTATGTGGATATCTGTGAC
Celera SNP ID:            hCV27484630
SNP Position Genomic:     86088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:46115):
GGAGTTTACCCTTTCTGAATTTGTTACTCATAGTGACAAATCTGTTTAGGTTTGCCCATACAATCTTTCTTTTCTTTCCTTCCCAAAAAGAGGACCACTT
A
AAAAATTCTTATTTTTCTGCCATTATCCCTTTGGTCTCATTAATTAATTTATTTTTGTCTTTTAAGAGAACAGTTTTAAATTGCTTCTTGTGAGGGTGCA
Celera SNP ID:            hCV26380605
SNP Position Genomic:     70934
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,6)   total(A,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46116):
GTATTAACAGACATTTGTAGAGCACTTTATTCTCATATGGGCTCTGCGTGATAGCCATTGTGTTTCAGGGGTGGAAACTGAGCTGTGAAGGCTTAAAATA
R
CCAGTCCCTATTGCTTTATTGCCCAGTAATGAGTGCCAACAAGTAACAAGGTCACGATCCTCTCACCTCTTCCACTCCCTGCTCCCAACTCATCCCAGAC
Celera SNP ID:            hCV1154800
SNP Position Genomic:     135947
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,9)      total(G,5|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46117):
TCTTCTTTCTCTTTTGTTCATTTTACAGGAAATGGGAGATCAGAGATGCTCAGATTTTTTCAGCGTAGTTTCCCCTAACATCACAGCTCTCTCCTGTCTC
T
TTTATTCACAGTGAGACACTAAAGACTTCCCAGTGAGCAAATTTTTCACATAGGTGAAACTTACTCCATTAACCGCTAAAACTTTGAAGAATGATTATTT
Celera SNP ID:            hCV26380606
SNP Position Genomic:     73302
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46118):
TAAAACTATGATAAACAAAATGAGAGTTTGATTCCAAATATTCCAGAAATATAGGGAAGGTCACCAAGAAAAGTCCCCACTGGAGAGCTGCAGAGGTGCA
R
TGAACCAGCAAGGGGAGTTCTGCTGGGTTTGCCTTTCACCATGCCAGGGGGAATGGTTGGAAGCCGAGTAACATCACAACAGCAAAAAAGGAGAAAAAAT
Celera SNP ID:            hCV1154801
SNP Position Genomic:     138341
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,9)   total(G,9|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46119):
ATCATAAAGCCAAGTGTCTTTGAAGAATTGTACTTGAGATTCAGAACAAGACTCCATGTTATTTTTTAAAGAGAGATACTTCTTTTCTTTTTTTTGAGAC
R
GAGTCTCACTCTGTCGCCCTGGCTGGAGTGCAGTGGCGCGATCTTGTCTCATTGCAAGCTCTGCCTCCCGGGTTCATGCCATTCTCCTGTCTCAGCCTCC
Celera SNP ID:            hCV26380607
SNP Position Genomic:     74033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46120):
TCTCCATGACCACAACTGTGAATGAAACAGAAGAACGTCATTGCCTCGTGTTAGTGTTGAAGTTTCATTCAGCACACACATAGTCCATTCCATGATCCAC
R
AAGATTTCACTGAATTACAATTCTTTTTGTATCATACACACAGATATATATGCTATTGTTTATGCATTTAGTTTGAAAGATTAGTTTTTTTCCCTCAAAG
Celera SNP ID:            hCV1154802
SNP Position Genomic:     138626
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46121):
GGAGTGCAGTGGCGCGATCTTGTCTCATTGCAAGCTCTGCCTCCCGGGTTCATGCCATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACC
Y
GCCACCACGCCCGGCTAATTTTTTGTGTTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATTCCCAAAGT
Celera SNP ID:            hCV26380608
SNP Position Genomic:     74158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46122):
AATGAAACAGAAGAACGTCATTGCCTCGTGTTAGTGTTGAAGTTTCATTCAGCACACACATAGTCCATTCCATGATCCACGAAGATTTCACTGAATTACA
R
TTCTTTTTGTATCATACACACAGATATATATGCTATTGTTTATGCATTTAGTTTGAAAGATTAGTTTTTTTCCCTCAAAGCATATTATTAACCCTCTTAG
Celera SNP ID:            hCV1154803
SNP Position Genomic:     138646
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46123):
CTAAACATAGTTTTCTTTGTATTTTTCCTGTCTGTCATTTGTTGACTCCTTAAATCTGTAAATATATGCCATTCAGCAAATTTGGAAAATTTCCCATCTA
T
TTTTTTCCCAAATGCTTTTATCTCCTCTCACTTTTCTCCACCTGGGACTTCAATTACTAATGTTAGGCATTTTGATACTGCCCACAGATCCCTAGGTCTC
Celera SNP ID:            hCV26380609
SNP Position Genomic:     81207
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46124):
ATGCATCATTTAATGATGGGGATATGTTCTGAGAAATGTGTCGTTGGATGATTTTGTCATTGTGCAAACATCATAGAGTGTACTTACACAAGCCTACGTG
K
TATAGCTTACTACACACTTAGGCTACGTGGTACAGCCTGTTGCTCCTAGGCTACAAACCTGTAGAGCATGTTACTGTACTGAATACTGTAAATACTTTTA
Celera SNP ID:            hCV1154804
SNP Position Genomic:     138878
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46125):
TGCCTCATCCCCTCACCCTTAGGCCACATTGGTTTCTCCTAAGCACCATGTGTAGTAGGTATTCAGTAAATGTTTGCTGTCCAGGGGATCCATGCAGGAA
R
GTCTGAGGTTACAAGCAGGTAAACAGAAAAGCCCACAGCACTTCACCCGCATGGTGGTGTTTGGATCTATTATAACAGCACGTCTAAGCCAGGCCTGTTC
Celera SNP ID:            hCV1153930
SNP Position Genomic:     43483
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46126):
AGTGTACTTACACAAGCCTACGTGGTATAGCTTACTACACACTTAGGCTACGTGGTACAGCCTGTTGCTCCTAGGCTACAAACCTGTAGAGCATGTTACT
R
TACTGAATACTGTAAATACTTTTAACACAATGGCATTTGTGAATTTAAACATAGAAAGGCACAGTAAAAATGCAGTATAAAAAGAGTTAAAATGGTGCAC
Celera SNP ID:            hCV1154805
SNP Position Genomic:     138954
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46127):
GTGGAGAGATAAGAAAAATATGCAATTCCTCTTCCTTCCTCCAGTTAAATTTTGTGAGATTTACAAAGCCAAACAGGACCCCCTAACCATACATCATGGT
R
AGCCGTGGGGAGCCAGCCTGAAGGTCAACACCAGGTTCATAGCTTGGGTGTATAAGGAACACAACGTTGTGTGACATGTCAGAAAAAGATGAGGCCACAG
Celera SNP ID:            hCV28034947
SNP Position Genomic:     147306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46128):
CCCTGCGGTGACCCTGTGTGACCTGCTGAGGGCCTGGCTGCTCTGCATGTTCATCAATATCACTTTTATGCAGCAGGTACCACATGCCAGGCCTCGGGCT
R
GGGCTCTGCACACATCACCCTTCATCCTCATGAGATCCCTGCAGAGCAGCACAATACCCATCTTACAGTGGGGAGGTCACCACAGCAGTCAGCAAAGTCT
Celera SNP ID:            hCV1153931
SNP Position Genomic:     43141
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46129):
ATGCCAGCCCTTTCAGAGGCTCCTGCCCTCTGTTCCGCAGCAGGAGGTGTGATGCGGTCCTGGCACTGCAGTCACGCAGGGTGCCTCGGGGTCCCAAATG
W
GGGCCATGTCATTCTCACACGAGCCTCCCTCTGTGTCATATCACAATGAGTGCATCCCTGATGGCCCTGTGGGGCCACAACCATGAACATTAGTCCAGAG
Celera SNP ID:            hCV1153932
SNP Position Genomic:     42924
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,3)      total(A,3|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46130):
GACTTTGAAATAATAATAATAATAACCAACCTGTATATAGTTCTCACTTTATACTAAGTACTTTTTTAAGTGCTCTCTCTCTCTCTATATATAAATTTTT
W
AAATTCTCACTGCAACCCCACAGGATAGATACTGTTATCTCATTTGATTAAGCAAGACACTAAGCATCAAGAGATGGAGTGACCTGCCCAAGGTCACGCA
Celera SNP ID:            hCV1153933
SNP Position Genomic:     40211
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46131):
ACGTGAGGGTGTTATGTCTGCTACGACACCACTAGGCAATAGGAATTAGGTTATAATCTCGCAGGACCACCATTGTATATTGAGTCCATTGTTGAAATAT
Y
GTTATGAGTTGCATTACTGTATCTTAAATTGAGTAATTTATAAGCAACAGAAATGTATTGCTGACAGTTCTGGAGGCTGAGAAGTCCAAGATCAAGGTGC
Celera SNP ID:            hCV1154808
SNP Position Genomic:     139925
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46132):
CAACAAGAAGGGCACTGGGGAGTCAGATTGGATGACACAAGCCAAGCCATGATAGGACTGCAGGAAACCCAGGCTTGAAGATCGTAGCAGACATACAAAC
Y
AATCAGATGGGTTTTAGAAAGACTTAGCTTGGGGGTGGGGTAAACCGGTGGCAGCAGACCTCTGAAATGGCACAGTAGGACTCCAGCTGTAGGCTCAGCT
Celera SNP ID:            hCV1153934
SNP Position Genomic:     39712
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46133):
CACTCCACCACCACCACCACCACTGCAACAAGAAGGGCACTGGGGAGTCAGATTGGATGACACAAGCCAAGCCATGATAGGACTGCAGGAAACCCAGGCT
Y
GAAGATCGTAGCAGACATACAAACTAATCAGATGGGTTTTAGAAAGACTTAGCTTGGGGGTGGGGTAAACCGGTGGCAGCAGACCTCTGAAATGGCACAG
Celera SNP ID:            hCV1153935
SNP Position Genomic:     39687
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46134):
TCCATTATCCCCTGGGAACACAATGTTTTATAGGGGGTCCTTGAGCAGAAAAACACAGCAGCAACCCTAACCCTTCGACGTCAGTCTCTCCAAGTGCATC
K
AAGTTTAAGTGTTTTGCTTCCTTCATCAGTACTTTTTCTGTGATCCTTCCTTTTCAACAAGCTCTCCAGTAACAGCACAAGACAAAAGTTAAAATGAAGC
Celera SNP ID:            hCV1153936
SNP Position Genomic:     35526
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,5)      total(G,4|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46135):
AATATATAGGTTTATGACTTTTGCCACAGTTGGAAATATTCCAACCATTATTTCTTCAAATATTTCTTTGTCTTCTCTTTCTGAAATTCCATGACATGAT
K
TTAAGACCTTTTGTTATTGTTCAGGTTCCTAAGACTCTGTTTTTTTAGTTCAGTCTTTTCTCTTTTGTTCAGATTGGATAATTTGTATTGAATCATGTGC
Celera SNP ID:            hCV1153937
SNP Position Genomic:     33753
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46136):
TCTTTCAACTGTCAAACATACTTTAAAGAATTCAAGAGAAGAATAATCTACTATAGTTACCCAAATATTTACAATCTATTGCTTTTCCTTCATTCGTGAT
S
TTCCAAGTTTTCTCCTAGTATCAATTTCCTTTAATCTGAAAGCTTTTCTTTAGAATTCTTTTAGAGCAGGTCTGTTGACAACTGATTTTTAAGTCTTTTC
Celera SNP ID:            hCV1153938
SNP Position Genomic:     33245
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46137):
GTGTGGTGATGGAGGCAAAATCTTGCCTAGAGTGGTTCAAAGAGAGAATGGGGGAGAGTAAATTTAGATAACTATTTTGAGGAGTTTTTCCACAAAGGAA
R
GGAAAAAAATGAAATGATATTGGCTGGGAAAGTGTTCTATAATGTCAATTTAGTTCAGTTGGATGATGGTATTGTTTGGTTTTTCTATATTCATGCTTAT
Celera SNP ID:            hCV1153939
SNP Position Genomic:     32286
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46138):
CAGCTGAGGTGAGTACTGCTTTCCATGCCATAAGGCACATCCAAGTACATTTCCATAAGAGCCTGCTCTGGCCCTGAAGCATTTTCTCTCCCACTCAAAT
R
TAAGGTGGTTATTTACTTGGAGTTGATAAAGGGCTGAAAGGACTGGCCACTTGTTTTCCTTGGGGATGAAAATAAACTGTGTCCACAGCAACTCTGAGCT
Celera SNP ID:            hCV25618010
SNP Position Genomic:     215825
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,34)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:46139):
GTTCCTAGCCTTTATGTCTCTCTGTTCAAATTCCAAATTCCCAGAAACAGAATATCATTAGCCTAGCTATAGCCTGGGAGATGGGAACAAAGAGTCCAAT
W
TGGGCTACTTGGATCTACTTCTTTCCTGGAGAAGGTATTATTTTTAAGAGCTAGGCAGATATTTTTAAAAGGTGATTACTATAGTGTTTTACTCTGAAGT
Celera SNP ID:            hCV25618011
SNP Position Genomic:     117121
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,30)   caucasian(A,1|T,39)   total(A,5|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:46140):
AATTGCACTGAAAATGATAGGTTAGTGCTTTCTTTTAAGATTCCCATCTCTAATGGGTTTATTAGCCACCTCTTTTCTCTAGTCATTGTGTCGTTACCAA
R
CTCCCAAAACCAAGTATGTAATGACGCACTTAGTTTCCTTCTGCCTTTCTCACAAAGGGGCTGATCTTTCAGGCTTTGTTTGTTTTGTCTTTTTTTTTCA
Celera SNP ID:            hCV7441590
SNP Position Genomic:     50044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46141):
TGACGTTACCCTCCAAAGATTGCTTAGATTAATGGGACGAAAGTTTTGGGTAAAAGCTTGGGATACCTGAAATTTGCAGCTGTATACCCCTGGCTCTTGA
Y
GTGAGACTTGACATTGAACCTTACAAAGAGGGCAACCTTAGGTGATATCATTGGTCACAAATGCATTACAGAAAATGTTTTCTCTTAGTTAAATTGATAT
Celera SNP ID:            hCV7441591
SNP Position Genomic:     49273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46142):
TCTATGGTATTTTGTTATGGCCACTCAAGTGTACTAATACATGTAGTTTCCCAGGATTAATCCATTTATATAACCAATATCTGGCTGGAGAGACCTTTAA
R
TCTTCAACAACAGAAGCAGAATTCTTCAAATGATGCCACTAGTAGTTAATGAATTCTATCCAAATAAGTAGCAGGTATAATGATCCATATTTTTACAATA
Celera SNP ID:            hCV7441592
SNP Position Genomic:     44686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46143):
TACAAGTGGTGGTACTAAGACAGTATACAGTTCAAATTAGGTAGACTGGAGCAATTTAAATAAGAAAATATACTACTGCGCCTGTAAGCCATTTCAGTTG
R
GTTAGGTTAATATTCTCCTCTGCTCTTCTAACCCGTATCATGATTACTTGTTACACTTACCTTCTCACACTGATATCTTCATTTCTGCAACTATAGGAAT
Celera SNP ID:            hCV27991390
SNP Position Genomic:     137463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46144):
TAAGTGGAAAATTGGCAGGTCTGACCTATTGGATAATTGCCTGGGAGTTAAGAGAAAAAAAATTTTTTAACGAAATGAAGAGATTGTCCTAATCCACAAG
S
GCATCTTTCTTTGTTGTCTTCTCTGTGTTTTGAGACGTTTTCTTTAGAGAAAGATTTGATGTTGTATCATTTTCAGTGTGAAGAAGTTCCACATTCATTT
Celera SNP ID:            hCV25759970
SNP Position Genomic:     124383
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,39)   total(C,1|G,77)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46145):
ATGCCTACCACAACTCCACCCATGCTGCCGACGTCCTGCACGCCACCGCTTTCTTTCTTGGAAAGGAAAGAGTAAAGGTAGGATTTTGATATCATGACCT
R
GTTACCTGCCTGGATTGGAGATCCAAGAACTTAATCTTAGTAAATACATTAGGCAAACAGCTATTTTGCAACCAAGTTGACAGCTTTTTTTAAAAAAAAT
Celera SNP ID:            hCV25618018
SNP Position Genomic:     209178
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46146):
CAGTGATCTTGTTGGAGGCCTGATGACTGTGAGTGATGAGGCAAAACCTGAAAAGCAAGAGAGGTATCCGGGGCCTCTAGAGTGCAGCTGATGTGGAAAC
Y
GTTACCTGTGGTTGCAGAAGTACCTGTTATATAGACTAACGTTAGCATAACCAGAAGCAACTGCGTCAGAATTTATGTATAACATGTGCAGTGGTATTTG
Celera SNP ID:            hCV25618019
SNP Position Genomic:     204971
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:46147):
CTGGGCAGAATCTTTCGCTGGCTTGGACCTAAAGGATCAGACTGTGGCACTGTAAATGTCAACATTCCAACAAGTGGGGCTGAGATTGGAGGTGCCTTTG
K
AGGAGAAAAGCACACTGGTGGTGGCAGGGAATCTGGCAGTGATGCCTGGAAACAGTACATGAGAAGGTCTACTTGTACTATCAACTACAGTAAAGACTTT
Celera SNP ID:            hCV26380610
SNP Position Genomic:     87213
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:46148):
AAGGCACCCAGTCTATGGTATTTTGTTATGGCCACTCAAGTGTACTAATACATGTAGTTTCCCAGGATTAATCCATTTATATAACCAATATCTGGCTGGA
R
AGACCTTTAAATCTTCAACAACAGAAGCAGAATTCTTCAAATGATGCCACTAGTAGTTAATGAATTCTATCCAAATAAGTAGCAGGTATAATGATCCATA
Celera SNP ID:            hCV7441599
SNP Position Genomic:     44675
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46149):
AATCTCTCTAAGGCTTCCTTGTGCTGGCCTCCTTTGGGTACTTGTCATTTTGTGGATTATATTCTAGACCATTTTTTTCTTTCCATTTTAATGCATAATC
R
ACATCAGGCTGAGTTTTTTTCTCATGACTGTAGATGACATGACTATGTTGTATAAATAATTTCTCTTTAATCTGATATTTGTCAGGGGGAAATGGCTTCT
Celera SNP ID:            hCV26380611
SNP Position Genomic:     97572
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46150):
GATTTTGATTGTAACGTAGGGATATTGTTTGGGGGGGATAATTCACCAAATATAAAAGACTTTATCTTCCTCATGCCAACATTATAATCTTGTGTTTTTC
R
TGGAGCTATCTGGAAAAAACCAGTGGAGGTATCTGGAAATGAACACAGATAGCTGTCAATGTCTGGGTCCAGGCATGATAGCTGAGTCTTGGGTGGGTGT
Celera SNP ID:            hCV26380612
SNP Position Genomic:     100411
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46151):
GTGACAGGTGAATTAACCAACCTGAACTACCTTGATTTCTCTCGTGAGTTTGCCTCTTCCATCTGCCTACCCTGCACCAGCTGGGTTGTATCGTGGAGTT
Y
CCTTTCTATTGAAGTGAAGCCAAGCTGAGTTTTTTTCTTGATCATTGCAGTGTATTTTCCCACTTGCTTTCATTGCTGTAGTTCCTACTCATAGTGGTGT
Celera SNP ID:            hCV26380613
SNP Position Genomic:     102377
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46152):
GAGTGAAACTCTGTCAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGGAAGGAAGGGAGGGAGGGAGGGGAGGGAGGGGTGGGGAGGGGAAGGAGAGGAA
A
GAGAGAGAAAGAAAGAGAGAAAGAAAAGTATACAGGCAAGGTATTGGTTAGGGGTGAATTATTATTTTTTGGACAGCCTGTGCCCTTCTTGCAGGAATCC
Celera SNP ID:            hCV26380614
SNP Position Genomic:     104798
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46153):
GCACTTTTTTTTCTGAGTTTTAGAATTTCATCCTTAAGATTAGCTTTTTTAATAATGTCATAATTAAGTGAAAGATCTATTATGTTTGCAAAATGAGTTC
R
TTTTTAAGTTAACTTTGGAACTCAAGTGAATCTGGTGCTTATCATTATGGTACAGAATCTGGTGATTTTGTGTGAAAACATTTCATCCTGTGCATGAATA
Celera SNP ID:            hCV16193527
SNP Position Genomic:     145238
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,25|G,7)   total(A,59|G,9)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46154):
TGATCTGCCCAAAAGCGATAAGAACCGGGCAGACCTTCTCGACACCATCAATACATGCATCAAGAAGGGAAAGGTGGGTTACACCAGCAAAACCAATCCA
Y
GAACCCTCTCCCCAATGCACTTTTTTTTCTGAGTTTTAGAATTTCATCCTTAAGATTAGCTTTTTTAATAATGTCATAATTAAGTGAAAGATCTATTATG
Celera SNP ID:            hCV16193528
SNP Position Genomic:     145121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46155):
AGTGAAACTCTGTCAGAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGGAAGGAAGGGAGGGAGGGAGGGGAGGGAGGGGTGGGGAGGGGAAGGAGAGGAAA
G
AGAGAGAAAGAAAGAGAGAAAGAAAAGTATACAGGCAAGGTATTGGTTAGGGGTGAATTATTATTTTTTGGACAGCCTGTGCCCTTCTTGCAGGAATCCT
Celera SNP ID:            hCV26380615
SNP Position Genomic:     104799
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,3)   total(G,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46156):
CACGTGATTCAGGTATGGAAAGAAACCACCTCTATCATTAACATTCAAAATGAACCTTTCAGGTTTAAGCCACACTTTTTATCAAGTACTTTCCCATCAT
S
CTCATGTATCAGCACATTTTCTTAGGAGAAATAAATATCAAGCTGTGCAAAGAATACTGATAGACTTAAGAATTAGATATTCAATAAAGAACAAAAAATT
Celera SNP ID:            hCV1154810
SNP Position Genomic:     140554
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|C,8)   total(G,6|C,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46157):
TAAAAATCCAGACACTTCTAGTAAAAATGACTCAAAGTCCAACCACTTAGCATTTGGGGATGTATCCTTAAAGACATTTCCAATGCATATAAATGGATAC
T
TTTTTTTTAATACAAAAACAGGACTGTGCTATACATATACATCATGCTTGGTAACCCATCTCCAGTTCAGTAAGCTGGATTCTTCAATTTAGTGCACACG
Celera SNP ID:            hCV26380616
SNP Position Genomic:     107338
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46158):
ATTATTACTTCAGATCAGAACCTGCAATTTCTTTGACAGAAATGGGGTTTAAAAAAATTTTATTTTTTTGAGACAGATTGTCACTCTGTCGCCCAGGCTG
K
AGTACAGAGGTAATCTTGGCTCAGTATAATTTCTGCCTCTCAGGTTCAAGTGATTCTTGTGCCTCTAAGTAGCGAGGATTACAGGCATGTGCCACCACAC
Celera SNP ID:            hCV1154811
SNP Position Genomic:     140752
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,7)      total(G,5|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46159):
GCGGAGGTGCGCATCGGGCCCATGAGACTGACGCAGGACCCTATTCAGGTACGCCTCCTTTACTCAGCCCTGTGACTCAGATTATTTTCTTTTTTTTTTC
T
TTTTTTTTTTTTTTTGAGATGGAGCCTCCTTCTGTTGCCCAGGCTGGAGTGTAGAGGCTCAGTCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGC
Celera SNP ID:            hCV26380617
SNP Position Genomic:     107641
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,8)   total(-,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46160):
ACACAGCGAAGCCCACAGCAGAAGCCTCACATTTGTCTGCCCTGAAATCTCCCAGTGCACACATACACACCTTGTTCTCATACCAGACCAATGACATCAA
Y
AGCCCACCCTGCCTAGGCCCTGTCATCAGCACTTTCATTAGGTTGTCTCATTTCTATTCAATAAGGGTAGGCAAGAGACATCATTGCCCTATAGTGCAGA
Celera SNP ID:            hCV1154812
SNP Position Genomic:     141477
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46161):
CAGTCATGTTTGAAGCAAGTCTTGAAGCATAAGATGTTACTCAGGAGAAGAAGGAAGAGAAGACTCCGGGTAGCAGGAACAGCCAGGGAAAAAGCATTGC
R
ATGGGCGAAGAGGGACTGGAACATTTAAGGAGCTGAAAGAAAGTCGGAGTGGCCGGAGCTTGGTAAGCAGGTGAGAGAGGAGGAGGATGTAGGTTGTACA
Celera SNP ID:            hCV2171606
SNP Position Genomic:     203654
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,11|G,27)   total(A,15|G,59)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46162):
AATAGGGATAATGCCCAACTCCAAAGAGTTTCTCTAACGGGTTATTGAGTGAGACAGTATGTTTCTAGTGCATTCAGTATAGTGGCTGCCCCTTAAAAAA
Y
TCCCATTAAACTATAGCTGTAATCAGCATCACTTTCCTAGGGACATTTAAGGAAAGTTCTCAGACCATTTTTTTTCAGCTCAAATGACCACTCCCCTGAT
Celera SNP ID:            hCV26380618
SNP Position Genomic:     114165
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46163):
GCATGATACTGAAAGCACAGAGGATAAAATGTCAGCAGCTGATCCAAAGTTAGGAGTATGACAATTTGCCAAGGCATAGGAAAGATGCTCACTTCGTATC
R
TAACTTATACAACTAGAAGAAGGTGGCAAGCACTGTCCAAACTACTCTTGATAAATTTTTTTAAATAAATAAAACATCTTAATTTTCAATGTTTCTAATA
Celera SNP ID:            hCV15774678
SNP Position Genomic:     115403
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46164):
ATCAGAACTAAAATATGTAGTCATGTCTCCAAAGCCTTCCTACCTGGTTTCCTGTTTAGCTGTATTGTTAGAATATGTTTTATGGCTGCCCCGTGAAATG
Y
ATCTGAAGGCTTCCTCATGTTGCTGGCTCTTAGTGGCCCACCTGCCCACAGGTCTGCCTCTTGGACCTCAGAGAGAGCCAGACGTGTTTCTGTTACAGAC
Celera SNP ID:            hCV1154813
SNP Position Genomic:     141739
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,9)   total(C,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46165):
ATCACAAAGGTGAGTGGCGGCTGCTGCCTGCACTCTGCAGTCAGGGGCCCTCACACAGGGCCGTGCTCTGAAAATACATCACACTGACATCATGGAGCTC
R
GTCTAGTGGAAGAAGCAAATAACAGGCAAATAAACACATAGCAAATAAACACCTCATCCTAAGTCACAATCAGGGCAGTGAAGGAAAACAAGCGGGTTCT
Celera SNP ID:            hCV2171607
SNP Position Genomic:     203390
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,16)   caucasian(A,23|G,15)   total(A,43|G,31)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,10)      total(G,10|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46166):
AAAAAATGGCCATGTCAAAGAAATCAGAAATACTGATACACAGAATATTAAAGCTGAAGAGGGAATGCATTACTTAAGTTTTGTTTTGTTTTTATTTTTT
R
GTTGCAAGTAATAACTGCCTTATACCAAAAAAGTACATAAGTAAATAAGAAATGTATTAGAAGGATAGTGCAATTTTTTTTTTCAGACTCCAAGAAAGAG
Celera SNP ID:            hCV26380619
SNP Position Genomic:     116486
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46167):
TCATGTCTCCAAAGCCTTCCTACCTGGTTTCCTGTTTAGCTGTATTGTTAGAATATGTTTTATGGCTGCCCCGTGAAATGTATCTGAAGGCTTCCTCATG
W
TGCTGGCTCTTAGTGGCCCACCTGCCCACAGGTCTGCCTCTTGGACCTCAGAGAGAGCCAGACGTGTTTCTGTTACAGACCAAGCACAAAAATCCCACAT
Celera SNP ID:            hCV1154814
SNP Position Genomic:     141759
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,9)      total(A,4|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46168):
CACCTTCATTCGTCTATTTGTTTGGCAGATATTGATTGAAGTGGGGGCCTAATATGTGTCAGTCAATGTTTGAGACACTGAGTTACAGCAGAAAAAAAAA
M
AAAACTAAAAATTCTTGTTTTCTGAGTACTTACATTTTAACTGGGGGAGATCACCAAGAAAAAAAATTTAACAACCTTATTTGGTTGGTACTATAATTAT
Celera SNP ID:            hCV1153940
SNP Position Genomic:     31363
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,2)      total(A,2|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46169):
CACCTCCCTGTTTTGCAGTGTGCAGCTGGATTTGATTTCAGAAATGAGGAGAAGGGGCTCCCTGCCCACTAGCCGCCCCTCCACCTGTAATCTAACAAAC
R
ACTTCTAGAATAGGGAACAGAGTCTTTCATTCTCCAGTTATCAATTGGTGGTTAGAAAACCTGTATCCTTGGGAGAGGTAATATTGTGATGGTGTCACAT
Celera SNP ID:            hCV1154815
SNP Position Genomic:     142020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,10)      total(G,10|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46170):
TGTGTGCGTGCACGTGCTTGAGGAAACCCCAAGTTGGGAAACATGAAAATGGGAGCATAGACTAACTAATTGACCATATTTATTCACCTTTAGTATATTA
W
TCAATTGATGAAATACTCAGAATGGCCTTTGCTGTAAAACGTCCAGCATTTTGCCTCCATTTGCTGTGTATATTTCAGCACTGGGCCTACCAGTGTATGA
Celera SNP ID:            hCV1153941
SNP Position Genomic:     30853
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46171):
GCTTCACACCTGCCTGAGCCCAGCACTGAAAGGGCTGCCTCCTGCCCCAGCCATTTAACTGAATTTATTGTTCTGATTCTACTGGTAGTGTCCCCAAACT
R
TAGCAAACATTGATCAATAGATAGTGGCAATTGGAAAGGAGACATGAGAAATCCAGTTGTGGAGATGTGCATAATACAAGCCGCCACTGTTGAATGGAGT
Celera SNP ID:            hCV1154816
SNP Position Genomic:     144106
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46172):
TTCCAGTGGTCTCTCACCCCCAACCCATTAGGGCTATTCTTAGCCCTCCTGGTCTAAGTACAATTATCATGGCCGTCATCTCACAGAGCAGCCCCACAGA
R
GCCTACAATCTGTTGTTTGTCCTTGCACCACAGCTGCCCTGGGCCCCTCTTGTATCACAGAATAATCCCATAGCCCTACCCTACCTTCCTTCTGGTATTT
Celera SNP ID:            hCV1153942
SNP Position Genomic:     30633
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46173):
ATCAATAGATAGTGGCAATTGGAAAGGAGACATGAGAAATCCAGTTGTGGAGATGTGCATAATACAAGCCGCCACTGTTGAATGGAGTTCTTATTTGTTC
R
TTTGTTTGTTTATAAGAGACAGGGTCTTGCTGTGTTGCCTGGGCTGGAGTGCAACGGTGCAATCATAGCTCACTGCAGCCTGAAACTCCCAGGCTCCAGT
Celera SNP ID:            hCV1154817
SNP Position Genomic:     144219
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46174):
TCACATTGTATATTTTGTTAATTTTAGAATGTATTATTTTGGAGAACTTTGAGAAATTTTGCAAGCATAGAAAAACATCCATTTTTCATATTTAAAAAAC
R
TTCCTCAGTATTTCACATTTACTTATGCAAAAGCTTCTTGTCTTTTAGGTTGTAAACTTTGTTATGAAGTCTCTTAAACTTTGTACATTCTCCTTATTTT
Celera SNP ID:            hCV1153943
SNP Position Genomic:     27737
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46175):
GGTGAAGTTGGACTTGAACCATTGTCAGAGGGCAAGGGCGTTGGAGCAGGCCCTTGAAGGATGCGTTAGCTGCTGAGGCAGGAAAGGGCTTTCCAGGTCA
R
CTGCTTTCCTTCCTGAATCCTTAGCTTCCCTCTTGTCTGAGGAAGGCTCTAAAACTCGATGCCAAGTTACTTAACAAAATTCCTGAAGCTGAAACTATTA
Celera SNP ID:            hCV1154745
SNP Position Genomic:     102140
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46176):
AGGGTCTTGCTGTGTTGCCTGGGCTGGAGTGCAACGGTGCAATCATAGCTCACTGCAGCCTGAAACTCCCAGGCTCCAGTGATCCTTCTGCCTCAGCCTC
M
TGAATAGCAGGGACTACAGGTGTGTGCCACAACAACTGGCTAATTTTTTTATTTTTGTGGAGGTGGAGTCTAGCTGTGTTTTCCAGGCTGGTCTTGAACT
Celera SNP ID:            hCV1154818
SNP Position Genomic:     144340
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46177):
GCTCCATTAATGTTAACACCAAAATAGGAAATAGACTTTCCCAATAAAATTAAACCTAATTTCCATTTATTTGGAAATATCTACATATACAAGAAGATAG
W
AAGTTTAATTCAGTAAACACCCATGTACTCACTATTTACTGCTTAAAAAAATAGGTCATACGCTGAGTGTGGTGCCTCATGCCTGTAATCCCAGCACTTC
Celera SNP ID:            hCV1154746
SNP Position Genomic:     98737
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,5)      total(A,4|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46178):
TTTCAGTTTATCCAGTGTTTGGGAGACTAGACATATTTAATACCAGTATTTATAGGTAGGCCAGGTTTTTTTCCCAGTTTTCCTTTTCTGTTCTCTGATC
R
CTGTTCAACATACATTTGTAGCTTCCTCCTCCCAGCTGCACCTGTTCCTCCAGTGGCTTCCCCTTCATCTGGGTAGATGAAGGTAATGATGGAAGTCCGA
Celera SNP ID:            hCV1154819
SNP Position Genomic:     145511
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46179):
CCTTTGGGTACTTGTCATTTTGTGGATTATATTCTAGACCATTTTTTTCTTTCCATTTTAATGCATAATCGACATCAGGCTGAGTTTTTTTCTCATGACT
R
TAGATGACATGACTATGTTGTATAAATAATTTCTCTTTAATCTGATATTTGTCAGGGGGAAATGGCTTCTCCATTATACTGTGCCAGCCAAGTTTTCTGT
Celera SNP ID:            hCV1154747
SNP Position Genomic:     97602
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46180):
CACGGAAAACTAATCACCTTCCCTTTCTAATCTGAAATCCTTAGAGCCTCATTCATTCAGATATAAGAACAGGAGGAAAGAGTCCATTGACGTGAAATCG
R
TATCATCTCGAGGCAGTGATGGTAAGATGTTTTTCAGATTCCTCTGACCTTTTTAAAATGTAGAAAATGATGGAAGAATATGTTAAAAAATTCATCAGCG
Celera SNP ID:            hCV25750681
SNP Position Genomic:     200617
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,36)   total(A,69|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:46181):
GCCTCCTGAATAATCAGAGCTAGACTGTTCTTTGCTTGTTCTCTATTACACAATGTAATTTTACATGCTTGAAGTCATCCGGCAGTGTCTATTATCAGTG
R
TATCTCTAATAAAAGGAAGGAAGTCAGTTGAGGGATGTCACGTTTTGACCATTGCCTTTAAATTCCTGTGTTCTCCCAGTCAGACCCTGCATGATCTTTG
Celera SNP ID:            hCV1154749
SNP Position Genomic:     97176
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46182):
CAATACTATTAGCAAATCCCTAAATTAAAATAATTTGTTAATATTATCAAATACAAGACAGTGTTGAAGTTTCCCTATCTCATAAACATTTTCATTTAAA
K
ATTTTTTTAATCATCTTTCAAATAAGATCTAGCTATTGCAATCAATTGATATGTTTCTTAAGGATCTTGTCATCTGTGAGTTCCCTTTCCTCTCTTTCTT
Celera SNP ID:            hCV1153949
SNP Position Genomic:     20238
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46183):
AAGAGATGGTTACCCACTGATTTCTTTTGGATTCTGGGCATATATATGACTTTTGGGAAGTAGAACCCTATTATCCTCAGATGTATTCTTTCTTCACTCC
R
TTAGGTTATAAATATAATCAATGCAGCCCAAGAAAACAGCCCAGTCACAGTAGCGGAAGCCTTGGACAGAGTTCTAGAGATTTTACGGACCACAGAACTG
Celera SNP ID:            hCV25618020
SNP Position Genomic:     204729
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,35)   total(A,1|G,73)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:46184):
ATGCTTAGTAAATGTTCACTTTACATCTTAAAACGAATTTCATTTATAGATATCTTTAGTTTATTTCAAATATTTTTAAAATATGCGTTGATGTTTTTAA
R
CAGTGTATACAGATGTCTGTGGTGAAAGCTATAGCTCCTTCCTGTAGATTTCTCTCTCCTCTTCTACTTTTCCACATTTGAGTTGTACTAAATTTAGAGG
Celera SNP ID:            hCV27502633
SNP Position Genomic:     121387
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,341|G,1154)   total(G,1154|A,341)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46185):
TAAGTTTTGTTTTGTTTTTATTTTTTAGTTGCAAGTAATAACTGCCTTATACCAAAAAAGTACATAAGTAAATAAGAAATGTATTAGAAGGATAGTGCAA
T
TTTTTTTTTCAGACTCCAAGAAAGAGTTGAAAAGGGTGGGTGGCTTGCGAAGGGTGTCCATGGGCCATCTCTGAGCCGTTTGACATCAGCAGTTTAACAT
Celera SNP ID:            hCV26380620
SNP Position Genomic:     116560
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46186):
GAAAGAGTTGAAAAGGGTGGGTGGCTTGCGAAGGGTGTCCATGGGCCATCTCTGAGCCGTTTGACATCAGCAGTTTAACATTCTTCCATCAGTATCTCTA
T
TTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCTCTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCAGCTCACTGCAACATCTCTGCCTCT
Celera SNP ID:            hCV26380621
SNP Position Genomic:     116680
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46187):
GAGGCAGGAAAATAGCTTGAACCCAGGAGGTGGAGGTTGCGGTGAGCCAAGATTGCAACATTGCACTCCAGCCTGGACAAGAAGAGTAAAACTCCGTCTC
A
AAAAAAAAAAAAAAAAGAGTAATCTGAATCCCAAGTAGGTGGAGTGATGTATTTCTTAAAAAATAGGGTACTGCGTGTGCCTTGTGAATTATGAAAATCC
Celera SNP ID:            hCV26380622
SNP Position Genomic:     128376
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46188):
AGGCAGGAAAATAGCTTGAACCCAGGAGGTGGAGGTTGCGGTGAGCCAAGATTGCAACATTGCACTCCAGCCTGGACAAGAAGAGTAAAACTCCGTCTCA
A
AAAAAAAAAAAAAAAGAGTAATCTGAATCCCAAGTAGGTGGAGTGATGTATTTCTTAAAAAATAGGGTACTGCGTGTGCCTTGTGAATTATGAAAATCCT
Celera SNP ID:            hCV26380623
SNP Position Genomic:     128377
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46189):
GGCAGGAAAATAGCTTGAACCCAGGAGGTGGAGGTTGCGGTGAGCCAAGATTGCAACATTGCACTCCAGCCTGGACAAGAAGAGTAAAACTCCGTCTCAA
A
AAAAAAAAAAAAAAGAGTAATCTGAATCCCAAGTAGGTGGAGTGATGTATTTCTTAAAAAATAGGGTACTGCGTGTGCCTTGTGAATTATGAAAATCCTC
Celera SNP ID:            hCV26380624
SNP Position Genomic:     128378
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46190):
CAGGGAAAGCCAGGGAGAAGCCAACCACTCCAGATATGTGGAGCCAACCACTCCAGTGTATATGTGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
R
AGAGAGAGGAAGGAGTGAGGAGAGGGATTGATTTTTTTCTCTGGCCAACTTGGGTGAAGGAAATCTAAGAAATACATCTTTCAGCAGGGCCTAGTATTCT
Celera SNP ID:            hCV26380625
SNP Position Genomic:     131103
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3|G,3)   total(G,3|A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46191):
TTGCCCTTTTGCAGGTGACGGGATGCTAATGAGCTACAGACTTCCTCTCGTTTCTAGCAATGAGTCAGCTCCAGACTCACTGAGCCTCCAGGAAAAGATA
S
TGTAACCAGTTTCCCAGGCCCCTAGGAGGCTTTTACCCTCACTAGAGGACATTCTGATGGGTGCTTAAGCAAACCTATAGAGAATGTCTTTGCGGGGAGA
Celera SNP ID:            hCV1154820
SNP Position Genomic:     152518
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46192):
TTCAAATGTTGGACATTTGGGCTGTTTCTGCCTTTTGGCTATGGTGAATGATGCTGCTATGAACACACATGTATGAGTATTTATTTGAGTACTTGTTTTC
A
GTTCTTTTGAGTATATACCTAGGAGTGGAATTGCTGGATCATATGAGAATTCTGTGTTTAACTTTTCCCCTGCATTAGGCACTCAGAAAATTAGGAAGGA
Celera SNP ID:            hCV26380626
SNP Position Genomic:     132257
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46193):
CCCAACCATGGGTTAAAGGAGATGGTCAGCCTCCCCTAATTAAAATGACCTCCTGCCCTTTTGTGGGAACAGAGCAAAGCTACCAGTTGACAGCTAGTAA
R
ATTTTTTTTCCTGGCACAGCCTGGCTTCACCAGCATGTCACAGAGGAGACTGCCCCACAGTTCTCACCAGGATCTAGGAGCTTCTCTCCAAACCCAGCAG
Celera SNP ID:            hCV1154821
SNP Position Genomic:     153010
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46194):
CCAGCCCCTCCCTGTGGGGTGCTTGTTAACAGGAAGGACAGATCACTTTTGTACTATGCAGACTCAGGACCCAGCACTCGGTGGCCTCCAAGTTTCATGA
Y
GTTGACCTAAGGAAGTCAGATGTTGGCTGACTCTCCTCCTACACATTCTCTGTTTGCATTTTCTACAACTGGCAAGAGAAAACCGTTCTATGGGCCAAAT
Celera SNP ID:            hCV28013194
SNP Position Genomic:     720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:46195):
GGTGCACCCTGGTCAGGGAAGTCACTTTTTGGTGGGTAGAGTGATCTAAGAAATAAAGTGTGGGGATAAACAGTCACTTTCTTAGGTAGAAAAGTATTAA
R
AAAAGAATCTCAAACCAGTGGGAAATCAGATATTTTGGGACTTCAGGTATTTTTAACAGCCCTTGGTAAGAAATATTGCCAAAGACTTTTTGAGCGTATA
Celera SNP ID:            hCV26380627
SNP Position Genomic:     133977
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46196):
GACAGCTAGTAAGATTTTTTTTCCTGGCACAGCCTGGCTTCACCAGCATGTCACAGAGGAGACTGCCCCACAGTTCTCACCAGGATCTAGGAGCTTCTCT
M
CAAACCCAGCAGGTCCTGGATCATGGGCCTTGTCTGAGATGTGTGCGGTCTGAGTGTGACCAACAGGCTGCTCCACCAAGCACCGTTGGTCGATTTCTTT
Celera SNP ID:            hCV1154822
SNP Position Genomic:     153098
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,5)   total(A,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46197):
CTTTGGTCCTGGCAACTTTTCAGCCCCTTCTTTCATTTCCTCTGTAGCCAAGGATCAGACTTGTTCTCAGTATTTCCACACTTAGGGTGGTACACTCTTT
Y
TGGGGGTGATTTTCATCTGTTCCCCAACCAGGCTCTGCTGCCTGACTCTCTTTTCTGGAAAGGTTTCTGCTGCTTTCAGACGTTCATTTTTCTCCCTATG
Celera SNP ID:            hCV1154750
SNP Position Genomic:     50725
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46198):
TTAATATTCTCCTCTGCTCTTCTAACCCGTATCATGATTACTTGTTACACTTACCTTCTCACACTGATATCTTCATTTCTGCAACTATAGGAATGGCGTC
Y
TGCAGTTGGCTAAAATATTGCACTCCGCACGCATACCTCACTATTATTGAATACAGTTCTTGGTTTGACATTTCAGGTATACTTATGAGAAAAGATAGGT
Celera SNP ID:            hCV26380628
SNP Position Genomic:     137570
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46199):
TTTTATTTCTTTTTTTGTCTGAGTTTTTCCTTATTCATGGGGCGGTAGATGGTGAATGAGTTCCCCAAGAGGCTGGTACTGCTAGATGAGGGCTTCCTGT
K
TTTTTCCTGCTGAAGTTTCTTCTGATATCCTACAGGGGATCAGGATGGCAGTTGAATGAATAAATTGCTGCCAGGAAGGAGGGAACTCCTCCAGGAAGGG
Celera SNP ID:            hCV11432603
SNP Position Genomic:     144671
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,282|T,1205)   total(G,282|T,1205)no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46200):
AGGGACACAATGCATCTGCCCCCAATGTCAGGGAGGCCACAGACAGGTAAACAGAATAAATAGAATGCAGCACAGAGGAAATGTGAATCAAGCACTGGAG
R
AGCTCAAAACCCAGGACCTAAGGAGGCTGTCTGGGATTTTTAGCTATTGTGTAAAATAGGGGCCAAGAAACTAGAGCCTGCAGGCCAAATATGGCCTGTT
Celera SNP ID:            hCV470037
SNP Position Genomic:     151352
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46201):
ACCTTCAGTCACCTTCTGTAGGCCTCCAGACAGTCCACAGATTTTCCCATCCAGTCCTTACACCTTCATGGACCATCCTCTCAATGGGTTTCTGCTGCCT
R
CAACCCTTGGTGGCCCATTCTGGTTCCCACCGCCAGGCCAGCCTTCTCTTGGGTGTGTCCTTGGCCTTCACTGCCCCCATGCCTTTACTCTCCCCACATT
Celera SNP ID:            hCV1154823
SNP Position Genomic:     153461
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46202):
GAGTACGGTTGTTTTAAATAAATGGAACCTTTTGGGGAGACAGGGAGGGTGGATGTGTCTTCTGATTTTATGAGTCTCTTTTGTTTCTAGAGAATCTTTC
R
TTTCTGTTGCTTGCTTTTTCTTTTCCTCCTTTCACCATCAAGCATCCAGGGGAGGTGACCCTCCAAGTTACCTCCCTCCCTCCGAAGTGGTGCCCTCCCA
Celera SNP ID:            hCV1154751
SNP Position Genomic:     50521
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46203):
TTGGGATTAAGTGAAAAAGGGCCTACTCCTCTTTAAACGCGGGACTTGAGCAGCTCATGCCTAGCATAAATAGGTGCTTCGTAGTTCTTTGATGAATGAC
R
ATGTGTGCTGCATTTTCTTCTATGTTATTATTTGCTTATCTATCTGTTCATTCATTCACTAAGTTTATTTATAAATACATGAAAGCCTTTTTTTTCAATT
Celera SNP ID:            hCV11432604
SNP Position Genomic:     131645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46204):
ATAAACCTTTATATTTTTAAACTTTTTCACTTTCTTAATAACATTTAGCTTAAAACACAAACACATTTCACAGCTGTACAAAAAAAATGTTTCTTTATAA
C
ATTATTCTGTTAGCTTTTTTCTATTTTTAAATCTTTTTTTTTTTTTTTTTTTACTTTTTCAACTTTTTTGTTAAAAACTAAGACAAACTTTGGCTGGTGC
Celera SNP ID:            hCV26380629
SNP Position Genomic:     139374
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46205):
CCGATAACATTCTGGGCATGTGCACCTACCCTGAGCATGATGTGAGAGGAGGCTGCCTAGTTTCAGGTAGACACAGGTGCCCTTTGCCCTGGCAGAGAAG
S
TTACCCTCATGGCCTGCAGGACAGCAGGCTGGGGGGTGTCTGCCCTGCACGGATGGGGTTTTTTGACCCGTCTGTTCTCTCATTCTATCCTTTCTGCTAC
Celera SNP ID:            hCV1154824
SNP Position Genomic:     154971
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46206):
GAGGCTGAGACAGGAGGATTACTTGAATCTGGGAGGCAGCCTGGGTGACAGAGTGGAGACTCCATCTCAAAAAACAGAATATGACATAGTTCCACGTTTC
R
GGAGCTTCCATTGTTTGTGCCCTATATTGTCGTCTTCTGTGGGAAGGCAATGTGTTGACTGAGTGCCGGCTGGCTGGCAGGAGTTACGGATTGGGAATTG
Celera SNP ID:            hCV1153950
SNP Position Genomic:     18168
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46207):
GCATGTGCACCTACCCTGAGCATGATGTGAGAGGAGGCTGCCTAGTTTCAGGTAGACACAGGTGCCCTTTGCCCTGGCAGAGAAGCTTACCCTCATGGCC
Y
GCAGGACAGCAGGCTGGGGGGTGTCTGCCCTGCACGGATGGGGTTTTTTGACCCGTCTGTTCTCTCATTCTATCCTTTCTGCTACATCAAGGATGTTTAT
Celera SNP ID:            hCV1154825
SNP Position Genomic:     154986
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46208):
ATCTCTAATGCATTGAAGACCACTAGGATTTAAAGAGGAGTATTATGTTGGCGTTTGGGAGGAGGGTTTTTTCCCGATAAGTTTAACTAAAATTCCAAAG
K
TTGCACTTCTACATGACTTGTGTCATTCAGACTATTACAAGATTCTGCTCACTCCGGAGGCTTGTACTAATTAAGCCCAAGAGACTTACAGTACCTTAGG
Celera SNP ID:            hCV1154826
SNP Position Genomic:     155821
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,9)   total(G,9|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46209):
TTGCTATAATTTTTGTGGCTGCAAAAGGGTAACCTGGTGTGAAGGAAAGGTGCTCACTGACTCCAGCTTGAATTCCAGCTCTGCCCTGTACAAACTTTGT
S
ACTTTGGAGAAGCTGCATGATTTCTCCTTGCACGGTAGGGATAATGCATCTCTAAAAGGATTGGTACAACCTAGAGGTACAGTCCCTGTAAACCCGCTAG
Celera SNP ID:            hCV1153952
SNP Position Genomic:     17708
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46210):
AGCAGTCATTAGAGGGCTCTTTGAGTTTTCTGCTGGCTGGTTTGGTGAGAGGCCCAAGCGCCCTGCATGAGTTCTTTACACTGCTGTGTTGGGGTGGGGT
R
GGAGAATCAGGCCTACAGAGGAGAAGAAGACTGGTGCTTTGGAGAGTGTTCATAGCACCAGCACTAAGAGTTAAGCTTGGGGAAAGGAGAAGAAAGGAGA
Celera SNP ID:            hCV1154754
SNP Position Genomic:     106355
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46211):
TGGGAGGAGGGTTTTTTCCCGATAAGTTTAACTAAAATTCCAAAGGTTGCACTTCTACATGACTTGTGTCATTCAGACTATTACAAGATTCTGCTCACTC
Y
GGAGGCTTGTACTAATTAAGCCCAAGAGACTTACAGTACCTTAGGCCTGACTTCTGTTAAAGTTTTACTTAATATACCAATTTTTAGGCCACTTATGGGT
Celera SNP ID:            hCV1154827
SNP Position Genomic:     155876
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46212):
GCCTGTGCAAGCATTGGGTGGATACAACCTTTCATCCCAGATCCATCTGTCATGTGCAGCCTCAGACACACACATGCATGCACGTGCACACACCTGCTCT
R
GGAAGTGTTGCTGGGACAGAACACCTAGGCGGGTAAGTTTTCAGGAGACTTCCTGCTCTCCCCCTCCCACATCTATAATGCTGGGTCTGTGAAGCCAGTT
Celera SNP ID:            hCV1153953
SNP Position Genomic:     15550
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46213):
TGTGTAAATGCTGCTGCGTGCTGAAGGCGCTCCTTCAGACTGACAAGGGGCCAGTACAGAGTGTGGAATGCAGGATAAGCTTCCAATAGTGACAAATGAC
Y
ACAGTCTCTTAGAGAAAAACAAAATTGGATCCATGGAGGTGAGGTCAAGACCGTCAACCAAATTAGTCTAGAGAATAGTCACTTTTAGAAATCTCAGTAA
Celera SNP ID:            hCV1154755
SNP Position Genomic:     106672
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,6)   total(C,6|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46214):
CTGCATCCTAGAAGCCACTTAGTTCCAAAGGTGATGTCTTTGAAACAACTCTTGACTCCATGCCCACTTCCCAACCCACCACCACTTCCTTTAAGCCATT
R
TGACCTCTCATCCTACAGAGCCTCATGACCACTCCCTCTGCCTCCTTGTAATGTGTGCTGGAGCCAGTTCATACTGACTTGTGAGAACTGATTGTTTAAT
Celera SNP ID:            hCV1154828
SNP Position Genomic:     156391
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46215):
TTTGATGATTGTCTAAAATAATGGCATTTTAAAATGGCCACTTAATTCACTGTTTACAGTTCCTGTTTGATGACTAATGATATTAAAATATGTCCAGTTA
Y
CTTGGTTGGAGACCTCGAACTTATTGCTGTAAACATATCCTTCTCTTCAGTTCATTCTGTCCCCTGACTGCTGATACACTTTTTTTATCACTTCCTCTGT
Celera SNP ID:            hCV1153954
SNP Position Genomic:     12639
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46216):
AGTAAGGGGGGAACTGCCCCATGATTCAATTACCTCTCACCAGGTCCCTCCCACAACACATGGGAATTATGGAAGCTACAATTCAAGATGAGATTTGGGT
M
GGGACACAGCCAAACCATATCAGGGTGGTTATGGGAAGCTGAGAAACCAGGGTAGTTATGGGAATCTGAGAAACCAAACCTGTAAGTCAGGGAAACCCTC
Celera SNP ID:            hCV1153955
SNP Position Genomic:     12144
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46217):
CAAAGCCAAACAGGACCCCCTAACCATACATCATGGTGAGCCGTGGGGAGCCAGCCTGAAGGTCAACACCAGGTTCATAGCTTGGGTGTATAAGGAACAC
R
ACGTTGTGTGACATGTCAGAAAAAGATGAGGCCACAGTCATCCTGCCAGTAACTGGAACAGGAGCCCCACCTGTGACTCTTAGGACTACCTGAGTTCCTT
Celera SNP ID:            hCV251944
SNP Position Genomic:     147369
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,7)   total(G,5|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46218):
TTTGCTTCACTCTGGATGATGGGGGCACTGACAGGCCCCTGACCGAGGTTGTGAGCTGGAGAGAGGCTGCCCCTCGGCCCTCCTCCTGAGCAGCCTGGCC
K
CAGCGTGGCCATTCTCACCCACAGGCAGTGCTGAGAACTGTGGGGTGGAGATGATGCCCGTGACTGTCACATTGTTTTTATCCTCATCCTTATACCATCT
Celera SNP ID:            hCV251946
SNP Position Genomic:     147745
SNP Source:               Celera
Population(Allele,Count): no_pop(T,8|G,9)   total(G,9|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46219):
TGGTCTCTCTGATTTTACAGATAAGAAAAAGAAGTTCTTTTGTCCAGACACAATTTCCAGTGTTATTTTCCCTGTAATTGTAGGCAGTGAGCTATCAGAG
R
CAATTCTTATTAAAAGTAGGGAAATTTTACCTCTTCCTAGTTGGGTGAAGTTTATTACAGAGTAACCAGTATTTTATATCCTCTTTTCAGAGGCCTACAG
Celera SNP ID:            hCV251947
SNP Position Genomic:     148060
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46220):
ATGATAGGAAAATTACTAAGGAAGATAAAAATTAGGAAAAGAGATAGTATAATAAATATTTTAAGCTAGATTATTTAAGATAAGGTGCTATAGCTATGGT
R
TTCAGATTAACTTTATAATAGTTCCACCTTTACTAGTTCAATAGTTCCCCCGAGAATGTCCCTCAAGTTTTAATGTTTATTTTCTTAAATTCTTTTTTTT
Celera SNP ID:            hCV11435374
SNP Position Genomic:     199572
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,13)      total(G,3|A,13) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46221):
TCGGTGGCCAGTCCTGTTGAATGAAATCTGAGCACTGAGCTGGATTTGCGTGCCTTGTAGGTGACTGGTGCAGTTGCAGCACCAGGATAGATAGTGCCCC
R
TATTCCGATTTTTACCTGGGATTACCAGCCAGGCTGGAGTCTCAGCACAGGAACCGAGCGTAGGGATTTGTGAATGAATGAGTGTTCGTGTTTTAAGAGA
Celera SNP ID:            hCV29091104
SNP Position Genomic:     7262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46222):
ACCTGGGTAGGAGTTTAACTCATTTTGCTTTATCAAGAAGATTCCCAAATAAGAGCTTAATTCACTCTAACCCATTACTGGGAATGTTGGAAATGAAACC
S
CTGGTTCATTGACTTAACACTACTTTGCATTGTGTGGATCTCAGAAAGTATATATTTGAAGTGAAATTTGAGACCAGAGTTATTTATGCAAATCTTACAG
Celera SNP ID:            hCV29091105
SNP Position Genomic:     8855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46223):
CAAAAAACAGAATATGACATAGTTCCACGTTTCGGGAGCTTCCATTGTTTGTGCCCTATATTGTCGTCTTCTGTGGGAAGGCAATGTGTTGACTGAGTGC
Y
GGCTGGCTGGCAGGAGTTACGGATTGGGAATTGGGTTCTTCCAGGTGAGACACTCCTACTGGGAGAGCATGAAGAACTGTGAGCCTGAGGGGTAAGTCAG
Celera SNP ID:            hCV29091106
SNP Position Genomic:     18235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46224):
TAAAAAACATTCCTCAGTATTTCACATTTACTTATGCAAAAGCTTCTTGTCTTTTAGGTTGTAAACTTTGTTATGAAGTCTCTTAAACTTTGTACATTCT
Y
CTTATTTTCCCAATATATTAGTGCATATCATTGTATTGCGATAAGCCTGAAACAGAGAGGGCCACACTGTCTTTCAGATTGGCAGAGGGTGCTTTAAAAA
Celera SNP ID:            hCV29091107
SNP Position Genomic:     27829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46225):
TAAATTGTCTATAATTGAGCATTTGAAGAGCTTTGTAGGAAATGTTTTTAACTCCTAGGCTTAAATTCAGATTATTCTGTAGCACAGAAAAATTTTATAA
Y
GTATCTGAAACAAACAGGTTATATGTTAGCCTTATAAATAACTTAAATTTAGTTATATCTTTTATCTTTCTGCATTTCTGTAGGCTGTCAAAATGAGACA
Celera SNP ID:            hCV11435378
SNP Position Genomic:     195712
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,15)      total(C,15|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46226):
CCCCTCGTTAATATCCTAGCCAACTCATACACATGAGGTTGTATTTAGTTCCCAGAGCAGAGGTGAGTCAAGACTCGCATGTTCAAGAGGACTTTACCGA
R
CCTCAGAGATGACAGAATAGAACAGGCCGAGGGAGCACTCTGAAACTAGACCCTCTGGTTTGCCCTTGGGTGCTGCAGTACTTGTCTAGTCTACCAGAGA
Celera SNP ID:            hCV29091108
SNP Position Genomic:     30064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46227):
CCCTACAAGCCACCGCCTTGCCCAGTCCTACCCTTGTTCCAGGCAGCCTCACAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTTTTA
S
TGGAGTCTAGATAGAGCACTTTTGGAAGGGACACAGGAGATAATGTAACCCAACACCCTGGCCATGATTGACAGAGGAAAACACTGAGAACCATCACAGC
Celera SNP ID:            hCV15774834
SNP Position Genomic:     136184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46228):
TTAATAACATTTAGCTTAAAACACAAACACATTTCACAGCTGTACAAAAAAAATGTTTCTTTATAACATTATTCTGTTAGCTTTTTTCTATTTTTAAATC
T
TTTTTTTTTTTTTTTTTTACTTTTTCAACTTTTTTGTTAAAAACTAAGACAAACTTTGGCTGGTGCCTACACAGAGTCAGGATCATCAATATCACTGACT
Celera SNP ID:            hCV26380630
SNP Position Genomic:     139408
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46229):
TGGAATTTTTTATAATAATTGCTTAGTCTTTGTCAGATAATTCCAGCATCTTTGTCATTTTTGTGTTGACATCTATATTACTGAGGGCTCTTCATAGAAA
Y
AGAACCAATAGGATACACATAGATATACAGAAAGTGGTTTATTACAAGGAATTGGCTCATGTAGTTATGGAGGCAGAGAATTCTCATGATCTGACATCTG
Celera SNP ID:            hCV29091109
SNP Position Genomic:     34131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46230):
TTATTATTTCTAGTGCTAATGACTTCCTTTTGTCATTTGACAGACATTTATTGAGCATTAGCACAAAACCATTAACAACAAAAAAAATTGATAATGAGAA
R
GAATAGGTGGAAAACTGCATCTAAAGTTCAGATCTCATCGTGAGAAAACATTTTATAAATTGTCTATAATTGAGCATTTGAAGAGCTTTGTAGGAAATGT
Celera SNP ID:            hCV15774836
SNP Position Genomic:     195556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46231):
CACTAGGCAATAGGAATTAGGTTATAATCTCGCAGGACCACCATTGTATATTGAGTCCATTGTTGAAATATCGTTATGAGTTGCATTACTGTATCTTAAA
W
TGAGTAATTTATAAGCAACAGAAATGTATTGCTGACAGTTCTGGAGGCTGAGAAGTCCAAGATCAAGGTGCCAGCAGGTTCTGTGTCTGGTGAGGGCCTG
Celera SNP ID:            hCV26380631
SNP Position Genomic:     139954
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,7)      total(A,4|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46232):
ATTTTTAATGTGGCTACTAGAAGTTTTAAATTACACATGTGGTTTGCATGTGTGGCTCACACAATATTTTTATTGGACAGACCTGGTCTGGACTTTCCCT
M
CCCTGCCAAATCCTATCACAGATTCACCTCACTTGCCCTTTTGCAGGTGACGGGATGCTAATGAGCTACAGACTTCCTCTCGTTTCTAGCAATGAGTCAG
Celera SNP ID:            hCV26380632
SNP Position Genomic:     152385
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,5)   total(A,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46233):
ATTTACAAACTATTATTTGATTCAACAAAGAAGTTCCTCACATCACTGACAAATGAGTGAAATTTCTATGTACATCTTTGTTATTTGTCTTTCATCTTAC
T
TTTTTTTTTTTTTTTGACATGGAGTCTCGCTCTATTGCCCAGGCTAGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGC
Celera SNP ID:            hCV26380633
SNP Position Genomic:     157055
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46234):
GCTAGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCCGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGC
R
CCCGCTACCTCACCCAGCTAATTTTTTGTATTTTTAGTAGAGATAGGGTTTCACTATGTTGGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCC
Celera SNP ID:            hCV26380634
SNP Position Genomic:     157198
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46235):
AGGCAGGAGACTCACTTGAATCCAGGAGGCGGAGGTTGCCGTGAGCCGAGATCCCACCATTACACTCCAGCCTGGGTGACAGAGCAAGACTCCATCGCAG
A
AAAAAAAAAAAAAAAGAATATGTCATTGTAGGGAGAGATCCTCTGCAAAAGTGAAAAGGCAACGAAAGGCAGGAGAGGAGATAATCAAGCATGGCTGGTC
Celera SNP ID:            hCV26380635
SNP Position Genomic:     159252
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46236):
TGAAAGCATACTTTCCAGCTAGTCTTCCTGGTGATGACCTTGACCTTTGATCTGGAAATACCAACTGGAAGCCTGGGGAGTTCCTTCTCTTTTTCTCTCT
T
TTTTTTTTTTTTTTTTTTGACAGAGTCTCGCTCTGTCACCAGGCTGGAGTGCAGGGGCGCAATCTCGACTCACTGCAACCTCCGACTCCCGGGTTCAAGC
Celera SNP ID:            hCV26380636
SNP Position Genomic:     163070
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46237):
TAATGGGAAAGCAGCAATAGATGATATATAAATGATGGGCAAGGCTATGTTCTAATGAAATTGTATTTACAGAAACAGGTGGCCAGTACATACTGACTTG
Y
GAAAACTGATTGTTTGATTTTCTGGAATTTTGTGATTCAGTTGTTAAACCAGCCATTATTAAAAATTAAATTACATAAACATGCAATTAAACAAATGCTA
Celera SNP ID:            hCV1154831
SNP Position Genomic:     157763
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46238):
AAACTCAGTATTGGCCAAGTTATGAAGTGTGGTGGTTCTTACATTGTAGATATTTGAAAGACATTAGAGAGAAACTAGACAAGAGAAAAAAGATAAAACA
T
TTAAGCCTGAATAGTAGCTTGCATTAAGTGTTTTTCTGTGAGATAAGGACACATAAATGATTATCACTGGGCTAAACAATGACAGTACTTCTCTGTAAAG
Celera SNP ID:            hCV26380637
SNP Position Genomic:     174538
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46239):
CATACATGATGGTAAGCTATAGTAATGTGCTATGTGGCCATATGCTAAATTATGGCCTGGACCGTAATTTCCTGACCTCCGCTTTATATCAGTAAAATGT
R
TAATAAACTTATGTTCGGCTATCTTTGCTTTTTCAGCAAGCTGGTGGTTAAACTCTTAGCAGCATACTGTTGACTACTATCCTATCTGGTCCCCAGTCCT
Celera SNP ID:            hCV1154832
SNP Position Genomic:     158044
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46240):
CCAGCCTGAAGGTCAACACCAGGTTCATAGCTTGGGTGTATAAGGAACACAACGTTGTGTGACATGTCAGAAAAAGATGAGGCCACAGTCATCCTGCCAG
K
AACTGGAACAGGAGCCCCACCTGTGACTCTTAGGACTACCTGAGTTCCTTGCAAATTGTTGTATGAATAGAAAACGAGATGTTTCATAAAATCAGCCAGG
Celera SNP ID:            hCV11647405
SNP Position Genomic:     147419
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,10)      total(G,3|T,10) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46241):
TTAGCCACCTTATGTGATAGAGGGGACAAGAAATGGCTGCAGGGAATCGGAATCTCAGTTTCTGATTAGCCAAACCTCCCATGTTCAGAGAACAGGAACC
R
ATACTCTCCCCTTGGCCTCTTTCACGGAAGCTAAGAGGAGCCAGAGTAACCCCCGAGAAGCCTTGGCTGGGGGGCCCGTAGGATGTTAGGAAGATGATGG
Celera SNP ID:            hCV11647406
SNP Position Genomic:     146041
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46242):
TTTCAAAGCCTGGCCAAGATGGTGAAACCCCGTCTTTACTAAAAATACAAAAATTAGTCGGGTGTGGTGGCGGGCATCTGTAATCCCAGCTACTCTGGAG
S
CTGAGGCAGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCACCATTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCTC
Celera SNP ID:            hCV9367141
SNP Position Genomic:     113490
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46243):
AATGAGATAGCATAGGATGCCTAGAACTTTCTCTGGCAGTTACCATTAATGATAGCAGTTGCTGTTGTGTGGGAATAGAAGATGATAAAATGCTCCCCTA
C
ATCTTCTATGTGACTTAAGCCAAGCAGCCTACTGGGCTCTGTAACACAGCAGGAACTTGTGTCCAAGGATACAAGGCCCAACCACCTGTAGGACTGACTT
Celera SNP ID:            hCV1154760
SNP Position Genomic:     108356
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46244):
AACATCTTTACTTCTGCCTTCATTTCATTATTTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTTCATGTAGTTGTGCGGTTTTGAGTGAGTGAGG
T
TTTTTTTTTTTTTTTTTTTTTGAGATGGAATCTTGCACTGTCGCAGTGCAATGGCACGATCTCAGCTCACTGCAACCTCCGCCTCTCAGGTTCAAGTGAT
Celera SNP ID:            hCV26380638
SNP Position Genomic:     181331
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46245):
CCGTGGGGAGCCAGCCTGAAGGTCAACACCAGGTTCATAGCTTGGGTGTATAAGGAACACAACGTTGTGTGACATGTCAGAAAAAGATGAGGCCACAGTC
W
TCCTGCCAGTAACTGGAACAGGAGCCCCACCTGTGACTCTTAGGACTACCTGAGTTCCTTGCAAATTGTTGTATGAATAGAAAACGAGATGTTTCATAAA
Celera SNP ID:            hCV27947974
SNP Position Genomic:     147409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46246):
GTTAGGGCAGGCTGATAGAAGGATGGCCTTTGTATAATTCTCACAAGGAAGACCAGGCCACTGTGGAACTGCCAGGGGTAGGGACCATGCCTTCATCGTC
R
TCATCTTATATCTGTCTCCTAGGTCCTGGCACACAGAAAATATCTATTGAATAAATACTTGCATCCAGGCAGAGAGAAGCCATGGTGTTTGGGTAGCAGC
Celera SNP ID:            hCV1154834
SNP Position Genomic:     161065
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46247):
TAGAGCATGTTACTGTACTGAATACTGTAAATACTTTTAACACAATGGCATTTGTGAATTTAAACATAGAAAGGCACAGTAAAAATGCAGTATAAAAAGA
K
TTAAAATGGTGCACTTGTATAAGGCACTTAGCATGAATGGAGCTTGCAGGACTGGGAGTTGCTCTGGGTGAGCTGGTGAGTGAATGGAGAGGGAACATGA
Celera SNP ID:            hCV11647407
SNP Position Genomic:     139040
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46248):
TTGGTGTCATATCTAAGAATTCATTGCCTAATCTAAGGTTGTAAACATTTACTTCTTTGTTTTCTTCTAAGAGTTTTATAGTTTTAGATCTTACATTTAG
C
TCTATGATCCATTTTGGGTTAATTTTTGTTTATGGTGTGAGGTAGGGGCTTTATTTTTATCTAGTTGTCTTAGCAGCATTTGTTAAAAAATACTCTTCTC
Celera SNP ID:            hCV1154761
SNP Position Genomic:     109591
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,7)   total(C,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46249):
ACATCTTTACTTCTGCCTTCATTTCATTATTTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTTCATGTAGTTGTGCGGTTTTGAGTGAGTGAGGT
T
TTTTTTTTTTTTTTTTTTTTGAGATGGAATCTTGCACTGTCGCAGTGCAATGGCACGATCTCAGCTCACTGCAACCTCCGCCTCTCAGGTTCAAGTGATT
Celera SNP ID:            hCV26380639
SNP Position Genomic:     181332
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46250):
AGGAGTTGGATTTTTCTCTAAATTCCACTGGTAACTCTTACCTTTTAGTAACTGAGCACAGCACAGCTACAGCTCCATACCATAGGTGACCACGTGGCCG
Y
CCAGGAATCAATCAAAAGTTCCTCATTCTCTATCCTTTTATCCTTTCCCTTTCTATCCATCTAGTTTTATCTGTATCATTTTTCATTCATTTTAAAACAA
Celera SNP ID:            hCV27947975
SNP Position Genomic:     192431
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46251):
AGCTTGGGCTTCCAGAGCAGCCAGTGGCCCAAGAGAAGTCTGACCTGGGCAAAGCTGCTCTCCTCTCTGGACTCAGAGAGCACTGTGATGATGTGGCTCT
S
CCTGTCTTGTCAGCCATGTTTCCAGCACTTAGCATGAAGCCTGGTGCACAGGAGGTGCTTCCGTAGGGGTAGATGATGTGCTGGGCAGTCAGCCCTCTTC
Celera SNP ID:            hCV1154835
SNP Position Genomic:     161339
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46252):
TTAATCTTTTCCTTTTTTATTGTTTCTTGTTTCTGCTTATTATCAAGTTGGGAATGTTTTTGAAGTTACATTTTCTTTTCTCTAATATAGGTATACTTCT
R
TTCTTTTAGTGGTTACCCTGAAATTATTATTACTATTATTATTGAGACAAAGTCTTGTTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCA
Celera SNP ID:            hCV1154762
SNP Position Genomic:     111743
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,9)   total(G,9|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46253):
CGCCTATGCTTGGGGAACTCACTGCTGTGGAAATACAGCCTCGTGGGTGTGTGGGGGTCTGCCTGGCCTGCAGCAGCTCCATGAGGCCAGAGCGGGGCCT
M
TGTATGTTCTTTCATCTTCTGATGAATGTTGTCCCTCAGAGGGAATTGTCTGAACAGTGGCCCCAGAGACATGTTCTATATTAGGAATTTAAAGTGACAT
Celera SNP ID:            hCV1154836
SNP Position Genomic:     162231
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46254):
TCACATGGTCTCATTCAAACATAGAGTTTGACTCAATGATTCATGCAATAAGAATCTACTGAGTACCTCCTATGTTCAGGGCTCTATGCTAAGTGTTGCA
R
GGGAGAGAGAGAAGGCACCATGTTCCCTGACCACAGAGAGAGGTCTGGAAGGTCAGTTTTATTGTCTATAACACACTAACTTTCAGTGTATTGACATCTA
Celera SNP ID:            hCV1154763
SNP Position Genomic:     112621
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46255):
CTCCATGAGGCCAGAGCGGGGCCTATGTATGTTCTTTCATCTTCTGATGAATGTTGTCCCTCAGAGGGAATTGTCTGAACAGTGGCCCCAGAGACATGTT
Y
TATATTAGGAATTTAAAGTGACATTAAAAACTGCAACATCTTTAAAACATCCAACCAAAGGTTCTAGGGGCTTCGGGGCTCTAGGCCTTGCTCCTGGATG
Celera SNP ID:            hCV1154837
SNP Position Genomic:     162307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46256):
TCTGAAAAATCAAGTGGCCTTTTCTTCATCCATACCTGGAACACGTTTACTTCCCCAGTGTGCAGAATGTATGTGTTTCTGCTTAGAGAGTCCCGTCCCC
R
TTCCCGTCATGCTGGGCTTTCCAACTGGACATGGAAATGGATCCCCACAGCTGTGACCTAAGCTTTTTCTTAGCAAGGTCACACATCTCCTTTCAAAGCC
Celera SNP ID:            hCV1154764
SNP Position Genomic:     113299
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,29|G,5)   total(A,64|G,8)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46257):
TGCTGGCAGTGCAGCTATGGACAAGTTTTTTAACCATCTAAGCCTCAGTTTCCATGTCTATAAAATAGGGATAATGCCCAACTCCAAAGAGTTTCTCTAA
Y
GGGTTATTGAGTGAGACAGTATGTTTCTAGTGCATTCAGTATAGTGGCTGCCCCTTAAAAAACTCCCATTAAACTATAGCTGTAATCAGCATCACTTTCC
Celera SNP ID:            hCV1154765
SNP Position Genomic:     114102
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46258):
GCCCAGCACTCAGCCAAGTTTTGTCTCACTACACAGGTCATCCCAGGCAGCATTCAGTATCTTCTCCATCTTGACCTCTTCTTTCCCCAAGGGCCTTACA
Y
GGTGCTAGGTAGGTGACTAATACATTCAGACTAAATTAGATTACCTGAAATTATTCATAATTAGGTTACCAGCATCATGTCTTATAAATCAATCACTAGA
Celera SNP ID:            hCV1154839
SNP Position Genomic:     164199
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46259):
CCATGTCTATAAAATAGGGATAATGCCCAACTCCAAAGAGTTTCTCTAACGGGTTATTGAGTGAGACAGTATGTTTCTAGTGCATTCAGTATAGTGGCTG
S
CCCTTAAAAAACTCCCATTAAACTATAGCTGTAATCAGCATCACTTTCCTAGGGACATTTAAGGAAAGTTCTCAGACCATTTTTTTTCAGCTCAAATGAC
Celera SNP ID:            hCV1154766
SNP Position Genomic:     114153
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46260):
TATAAAATAGGGATAATGCCCAACTCCAAAGAGTTTCTCTAACGGGTTATTGAGTGAGACAGTATGTTTCTAGTGCATTCAGTATAGTGGCTGCCCCTTA
R
AAAACTCCCATTAAACTATAGCTGTAATCAGCATCACTTTCCTAGGGACATTTAAGGAAAGTTCTCAGACCATTTTTTTTCAGCTCAAATGACCACTCCC
Celera SNP ID:            hCV1154767
SNP Position Genomic:     114160
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46261):
CACTAGGATGCACTTGTAGCTTTGTATGTCTCCTGGCCCTATCTCTGCACCATCACCATTTCTAAAGCATTGCCTGTCTTACACAAAGGCCCCAAGGCCC
R
TAAGAAATAGTAATGATTTTAAACAGGATTCCAGGAGAGTGGAGCCCATGAATCTGCATTGTTGCTTACAGAATTACAGCAAGATTGGGAACATGAGAGT
Celera SNP ID:            hCV9367148
SNP Position Genomic:     94676
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46262):
TTCCTAGGGACATTTAAGGAAAGTTCTCAGACCATTTTTTTTCAGCTCAAATGACCACTCCCCTGATCAAATTGGCCACTTGTTTAGTATTATGCAGACA
S
AGCTTATGTGATCTATATATGTGGTCTGCTTTAGAAGCTCCATTACCAGGTGTTTGCTTAAAGCCAAACCAAATATTCCAAAAACTGGATGTTTAATGGT
Celera SNP ID:            hCV1154769
SNP Position Genomic:     114299
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46263):
ATCCACGTGCTCATATCACAAGGTTGGCAAGCCAGAAGAAAAGCAGAAATCCCTTAAAATGTCCTTGAATCTTCCTTTATGGCAACCTTATCATACTGAA
Y
GCCCTCCCCATCTTGTTTTTCTTTTCTTGGCTAGATACCATGTAGGACAGATAAACCCAAGAGAGTGGGCCGAAAGTCTAGGGGAGACACTGGTTGAATA
Celera SNP ID:            hCV27473239
SNP Position Genomic:     196350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(T,521|C,956)   total(C,956|T,521) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46264):
TAAAAGTGACATTTAAAAATTAGCTACCACGTATGCAAATACTTCTGAAAACTTTTATGTCAAATTTAATGATTTGATCAATTAGGAAATAGCAAATATA
Y
CCATAGACATCAGTTGCATAGACTTGAATTTCACAATTAAAAAGTGAGTATATCCTTGGGTATTTTACTGATAATTTTCACTGTGGCTCATTTTTTTTTT
Celera SNP ID:            hCV16139266
SNP Position Genomic:     56032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46265):
TGATCCATTTGAAGGTCATCTGTATTTTTTTCTCTGGCTGTTTTTAGGATTTTCTTTGTCTTTGGTTCCCTGCAGTTTCACTGTGATGTGTGTAGGTGTG
W
CTTTCTTCTTATATAAGTGCCACACTCCTAAGTAAAAATGCCCATCTTTGCCGCTTAAAGAGCAAGTCCTCTTGAAGTTCTGGGGCATGCCCCCCTTCTT
Celera SNP ID:            hCV29091110
SNP Position Genomic:     46875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46266):
AATATATTGGTTCAAAGTAATTATGAAGAAAACAGTGTTCCATGTGTGTTGCGATCTTATTGTAAATGAGTATAAATTTTAAAGGGTAAAGGATCGTAGT
W
ATCAAGTCACACTTGAAAATTCTTCACCTGGAGACACCTAATGATTAATGTAAATGAGGTTGGAGAGGAAAGACTATGAGAGGTGCTATTTGCTGCTGTT
Celera SNP ID:            hCV29091111
SNP Position Genomic:     48812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46267):
TGACCTGTGACATAATATCCTCAACTGAGGACTCCTTCCTTTTTTCTGATGTAATAGTAATTTTTAAAATGCTTTCCTGGAAACTGATTGAAATGGGCAT
K
GTTGCCACTTCATAGAAATACACTGAATGTTGACTCTAAGGCTTACATATGCTTTGGAGACAGTGTTATAAGGTTTCACCAAAATAGAAGGAAGATGGAA
Celera SNP ID:            hCV29091112
SNP Position Genomic:     58564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46268):
TAAATGTGTCCTTTTCTCACACATGGCTCAGAAATGTGCCAAGTTTTTCACATTTTTTGTGCTCTTCATTGGTGATTTCATGGCTTAAAATGGCCCCCCA
R
CCATAGTGCTGAAGCGCTGTCTATTCCTAGGGGAAAGAAGGCTGTGATGTGCCTTTTGAAGAAAGCACATGTGTTAGACGAGCTTCATTCAGGCATGAGT
Celera SNP ID:            hCV29091113
SNP Position Genomic:     61960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46269):
TATGGGAAAATATGATCGTTTATTAATTTGGTTTTTTAAAATTTACTAAACATCTATTACCCAGAAAGCACTATAGAAAATGCTTTTGAGAGATGCAGTT
W
TGAACTAGCAATCGCCCTTGTCCTTCAGGAAGCTGACAGGCTAGGAGGGGAGATATGATAGGTAGAGATGACTTTAAACACAACAATGTGAGATGCTGTA
Celera SNP ID:            hCV29091114
SNP Position Genomic:     68998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46270):
GGCCTTCCCTTCTTTCTGGCTGCCCTGGTACCCTCTAGAGCCTCCTATCTGCTGCTCGGAGGCAGTGCCTGCAGCGGCTGGACTCCTGCAGCAGCTGGAG
K
TGGAGGAAAGATTCTTAGGCCGTGAGTCCTCTTCTTCCGACAGCGAATTTGAGCCCTGGTGGAGCAATGTCCGGCACGCTCAGGAAAGTGTGAAATCTAG
Celera SNP ID:            hCV29091115
SNP Position Genomic:     78205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46271):
GGTGACAAATGATGGCAAGCATCTTCTTTGGTGAGGTGTCTGTTCAGATCTTTTGTCCATTTGTTAATTGGGTGTTTGTTTTCTTAATGTTGAGTTTTCA
R
TGTTCTTTGTGTATGTTGGATATAAGTCCGGTATCACATTTATGTTTGAAAATATTCTCTCCTCATATGTGGTTTGTGTTTTTATTCTTCCCACAGCTTA
Celera SNP ID:            hCV29091116
SNP Position Genomic:     89461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46272):
CCCAGGTTGAGAACTTCTAGACCAGAGGATTGGAAGCAGGAAGGAGAAGGGAAGCTCATGGGCTGCCCAGTGAGCTCTTGGGCCCTGAAAGGTCCAGGGT
R
TCAGAGTTGCCAGGAGGTGCTGGAGGGCAGCCAGACCACAGCCAGGTAAGGCTGGAGGCTGGAGTGAGGGCAGCGCCAGCCAGCAGGGCCCACAACTGAG
Celera SNP ID:            hCV29091117
SNP Position Genomic:     100903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46273):
CATTCAGGAGCAGGTTGTTCAGTTTTCATGTAGTTGTGCGGTTTTGAGTGAGTGAGGTTTTTTTTTTTTTTTTTTTTTTGAGATGGAATCTTGCACTGTC
R
CAGTGCAATGGCACGATCTCAGCTCACTGCAACCTCCGCCTCTCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGGAGCTGGGATTACAGGTGTGC
Celera SNP ID:            hCV26380640
SNP Position Genomic:     181374
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46274):
GGAGTACTGAGGAGAGAAATCACTGGTTCTTCTTTGGGTGAAGTTGGACTTGAACCATTGTCAGAGGGCAAGGGCGTTGGAGCAGGCCCTTGAAGGATGC
R
TTAGCTGCTGAGGCAGGAAAGGGCTTTCCAGGTCAACTGCTTTCCTTCCTGAATCCTTAGCTTCCCTCTTGTCTGAGGAAGGCTCTAAAACTCGATGCCA
Celera SNP ID:            hCV29091118
SNP Position Genomic:     102104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46275):
AATTTCTGACAGATTTCCAACTATCAAAAAAAAAAGTTGCATATATCAGTATGTTTCACCCCTTGTAACTTCAGCATGCACATTATTAACTAGAGTTTAA
Y
ATTTGTTTTCATCTATTCTAAGGTAGAAGTTACATACAGCAAAATACGTACATCTTAGGCATAGCCTTCCGTGAGGTTTTTAACTTTTTTTTAATTATAC
Celera SNP ID:            hCV15774846
SNP Position Genomic:     177886
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46276):
TTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGACTGCGGACTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCC
R
CTTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCGCGCCCGGCTAATTTTTTGTATTTTTAGTAGA
Celera SNP ID:            hCV26380641
SNP Position Genomic:     182506
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46277):
CCTCCCACGAGCTCACAGCATGCCTTCCTGCTGGGTAGGTCAGACAGGAGTTAGAATACTGGATGGCAGGCAGAGAACTGTTGTGGCTATGAGAGAAAGT
Y
GTAGGGTCTTTCCTGCCTTTAGGAAGAAAAATGATATATCTTCTAGCTTGAAAGTTGCTTTTAAAACTCCATGCTGTGACACAGTGGCCATTGCCTGTCT
Celera SNP ID:            hCV29091119
SNP Position Genomic:     104140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46278):
CTTAGCAGAGCTTGCACGCTGTGCTGGGAGATCCGCTGCTCTCCTCAGAGCTGTCAGGCCGGGATGTTTAAGTCTGCTGAAGCTGTGCCCACAGCTGCCC
Y
TTCCCCAACATGCTCTGTCCCAGGGAGATGGGGGTTTTATCTATAAGTCCCTGACTGGGAATGCTGCCTTTTTTTCAGAGATGGCCTGCCCAGAGAGGAG
Celera SNP ID:            hCV26380642
SNP Position Genomic:     184215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46279):
GGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCG
Y
GCCCGGCCAATTCAATTTATTTTTTATTTATTTATTTTTTTGAGACGGAGTCTCCCTCTGTCGCCCAGGCCAGAGTGCAGTGGTGCTATCTTGGCTCACT
Celera SNP ID:            hCV26380643
SNP Position Genomic:     190941
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46280):
CTACCCTTGGGTTTCATGAGGAAAAAGAGATTCTTCCCTAAAAGAGGAGTCTTTGATGCCGTCTGTTTTCCCCAAGGGATCCCAGGCTGTTGGAAATTCC
T
TTTTTTTAGATCCCTCGTGTGGCAAGAAGTAGTAGGAACAGACAGAAGTAAATGGAGAAACAGAATTTGGTCAGAAGTTTTACAGAGAGTGCAGAGGCCT
Celera SNP ID:            hCV26380644
SNP Position Genomic:     193946
SNP Source:               Celera
Population(Allele,Count): no_pop(-,8|T,8)   total(T,8|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46281):
ACAGAAGGAATAAGACAGCCCCTGTTCTATTCTACTCTTATTAAGTCAAGTGGACAATACTCAGATATATGGAAACAGAAAGAAAAGCAAAGAGGTGTGG
Y
TAGACCCCATCTTAAAGACAAAAGAAAAAGAAGAGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAAGCAGGTGGATCACCT
Celera SNP ID:            hCV1154840
SNP Position Genomic:     164423
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46282):
GTGACAAGCTCTGGTACAACATGTTGTCATTATTTTCACTGAACACAGTGCCTGACACTTTGTAAGTGCTGTACAAATAGTAGCTGCTCTTATTTTTATG
R
TTGCTATTATTACTCTTTGGGTAATCAAAATGAGATTTTGGTTATTTAGATTTAGATATTTTTGAAACATGTAATTTTTTTAATGGAAAATATATCCGAC
Celera SNP ID:            hCV11432620
SNP Position Genomic:     14351
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46283):
TGCAACCTCTGCCTCCCAGGTTCAAGCGATCCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCATGCCTGGCTAATTTTTTGTT
K
GTTTTTTTGAGACAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCATTGCATGCAACCTCTGCGTGCTGGGTTCAAGCGAGTC
Celera SNP ID:            hCV26380645
SNP Position Genomic:     199836
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,8)   total(G,8|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46284):
ACATTAACCAGAATGTTTTTGAAGTGAGGTATTGAAGGGTGAGATGGAAAGAAGAATAAAGAATGGCCCCACCTGAGTAGCAGGGCATTGACTGTTCCAT
R
AATTCCAAGGTGGAAGGAGTATCACAGAGCCCTGAGTGAAGGTTTCTGCTGGACAAGAGAAGCAGGGAGGATGAGGGTGTGCTGGACCGAGGTGACATAA
Celera SNP ID:            hCV1154842
SNP Position Genomic:     164896
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46285):
ACAGAAAGGACAAGGGAGGGACTTTCCAGTCCTTCTGTACACAGTAGGAAGACTGAGTATGAAAGTGGCTGACATAGGCCAGGTGCGATGGCTCATGCCT
R
TGATCCCAGCAGTTTGGGAGGCTGAGGCAGGCGGATCACCTGAGGTCAGGAGTTCGAGGCCAGCCTGATCAACATGGTGAAACCCCCTCTCTACTAAAAA
Celera SNP ID:            hCV26380647
SNP Position Genomic:     201870
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46286):
TCATCATTGCTGTTTAGCTTGACTGTTTTCCTCAAGAACATCGATCTGAAGGATTCATAAGGAGCTTATCTGAACAGATTTATCTAAGAAAAAAAAAAAA
M
GACATAAAATAAGCGAAACAACTAGGACCAAATTACAGATAAACTAGTTAGCTTCACAGCCTCTATGGCTACATGGTTCTTCTGGCCGATGGTATGACAC
Celera SNP ID:            hCV7602374
SNP Position Genomic:     222897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46287):
TGAGGAAAAGTTAGTTTTTGTTTTCATCTTTTTTTATAATTAGCCATCACCAGATAAAGTAGTTTCATTCTAATTTAGCTGTCAAAGACAGATTATTGCT
R
TCCTCAAAAAGATATGTTTCAGCTTTCTTTGAGGTCTTTGTAGTTACCTTTGAAAAGCAGGTATCTCTTGCTTTGTACAGGTCCAATGTGCACAGATTTC
Celera SNP ID:            hCV1154770
SNP Position Genomic:     114592
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46288):
TGTGAGCATGAAGTGCTTTCTTGATAGAAAATGACATGAGATAGAAGTGCTTTCTTTTGCAGTGTAGAAACCACAGAAGGTGAACAGCTTTTGTCTTTGA
T
TTTTTTGTTGTGTGTGTTTATGTGATTTCTATGGAGAGAGGGGAACAAGACTGCAGTTTAGTGTTAGACCTGTGAGATATTCCAGTAGGTATGTCAGGTA
Celera SNP ID:            hCV26380648
SNP Position Genomic:     204216
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,6)   total(-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46289):
TCATTTAGGCTATCAAATTTTTTGGCAAAAGTGGATCATAATATCCTCTCATCATCCTTTTAATGTCTGTAGACTTTGTAGTGTAAGGCCGGGTGTCGTG
S
CTCACGCCTGTAATCCCAGCTCTTTGGGAGGCCGAGGTTAGGAGTTTGAGACTCAGCCTGACCAACATGGTGAAACACCGTCTCTGCTAAAAATACAAAA
Celera SNP ID:            hCV1154844
SNP Position Genomic:     168314
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46290):
ATCCAACATGTAACTTCAGGGGAGTCCTTCATTAATTAATACTACTTTAAACCTTAGCACACATCGTCTGGGAATGACAAATAAGCATTTCTTTTTTTTT
W
AATTTAATTTTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCATTT
Celera SNP ID:            hCV26380649
SNP Position Genomic:     206680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46291):
TAGATAAAAGGGGGGCTACAGAAATGGAATAGGAAAAGACTTTCTGGAAGAACAAAGCATTCTGAGCAAAATTAACAAAGGGAGGGGAAATAGAATTTTT
R
TAAAAAGGGAAGAGCAATATGTAGTTCACTTTAATTGTAGCAGTGTAGAGAGTTAAAGGAGAGAAATCTAGAAAGCAGTAGACTGTAAATGGACATGTGA
Celera SNP ID:            hCV7602376
SNP Position Genomic:     218426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46292):
TTTTTTTTTTTTTTGAGACGGAGTTTTGCCCTTGTTGCCCAGGCTGGAGTGCAGTGGTGCAGTCTCGGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGC
S
ATTCTCCTGCCTCCACCTCCTGCGTAGCTGGGATTACAGGCATGTGCCACCACGCCTGGCTAATTTTGTATTTTTAGTAGAGATGGGATTTCTCCATGTG
Celera SNP ID:            hCV1154845
SNP Position Genomic:     171537
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46293):
AAAGTTATTCTTTCCCTTGGTCTTCTTTTACTGCTTGGTCCTCTTTTACCTGGTACTCTTTTACTCTTCTACAGCTCTAGTCATTTCACCATTGTATGAA
Y
AGTTTTGTTGTATCTGAGCCATTTGCTACCAGCACACTCAAAATCTTTTCAGAGCTAGGCAAATTGGTAATAGTTGTGATCACAGGCCACTTTCTGCTGT
Celera SNP ID:            hCV7602377
SNP Position Genomic:     213663
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,12)      total(C,2|T,12) ;(C,-|T,-)   no_pop(T,-|C,-)   (C,-|T,-)   Caucasian(C,14|T,68)   African-American(C,11|T,57)   Asians(C,35|T,47)   total(C,60|T,172)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46294):
GGCCAAATTAGGTGAAGGGTCTCATTTCCTAGGATTTCTTCACAGGTGGCATCCGTCCTCAGATGGGCTACCTAGGACTAGGGATGGCTGCAGGTTTCAA
R
GAGCGAGTAGCTTGAATGTGTGATTCAAGGTTATTTAGTATCAAATTTGAGAATGCCCCAAACTTACCTTTTAACTGCTCGACCGCATGGCACCACCTTT
Celera SNP ID:            hCV1154846
SNP Position Genomic:     171764
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46295):
GTATCAAATTTGAGAATGCCCCAAACTTACCTTTTAACTGCTCGACCGCATGGCACCACCTTTTGGGAAATACTGTCTTTGGGCACTTCTGAACTAGTTC
R
CTGAGAGCCAGAGCTTTATCTCTTGTTCTCAGTCACATCCCAGTGCCTAGAAAATTGCCTAGCACATAGTATATGCTCAACAAACACCTGCTGAATGAAT
Celera SNP ID:            hCV1154847
SNP Position Genomic:     171902
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46296):
ATTGTTATATTCTTACTGTATTAGTCAAAGATTGAGGCATAATGGTGTCAAGGAAATATAAATTGCTGAGATTCTTGTTTAGAAACCCATAATTCAGCCA
K
ACAGGTGAGAGACAAGAAATGTTTCACCTTTTTTGACTTCTAGGTTTGGCATATTGAGTTTCTTGTGTTAATACCACAGCTACACCAAGTAAAAGGTTAT
Celera SNP ID:            hCV1154774
SNP Position Genomic:     118569
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,5)      total(G,5|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46297):
CTCACATTTGGAAACTTTGAGGGAGACATGTTTTTGCTGTGAGAGACCTCACGGGTTCTGGCTCTCATGCCATGTTAGAGTAGTGTTGAATGAGCAGAGA
K
ACTATGGCCCCTGAGTGAGATCCTTTGTGGAGAGTATTAGTAAGATGTGGGATCTGCCTGGGTATCCACAGCTCCCTCCTTTGTGCTAGTGAGCCAAGAG
Celera SNP ID:            hCV3261900
SNP Position Genomic:     208234
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46298):
TTTTCACTTTATTGGTGTTTCTCAAACTGTAGTGTGTAATTGAATCACCTGGAGATTAAATGGCAAAATGTAGATTCCAATTCAGTAGTCAGAGAGCTTG
M
GAGTCAGTAGTTCTAACAAGCTTCAGGTGTTGCCAATGCCGCCGGTACACTGAGCACACCTTAAATACAAAGGCTTAATGTGTTAATGGGGTGGGCCCCA
Celera SNP ID:            hCV1154849
SNP Position Genomic:     174158
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46299):
TTGGCTAGGAGTTGGTTATTGCTGAAGCCGGGTAAGGAGTACGTGAGTTTCATTATATTATTGTTTCTACTTTTCTATATACTTCCAATTTTCAATTAAT
R
AAAGTATTTTTCAGCTGGGCATGTGGCTCATGCTTGTGATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCATGAGGTCAGGAGTTCGAGACCAGCCT
Celera SNP ID:            hCV1154776
SNP Position Genomic:     119202
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46300):
TAGGTATTTTAGTGCTAAGTTCAAAGAGGTGGCCTCCAGGGACTTAAAGGCAAATACCACTTGCAACTGGAATCAAATATATGTATTGTAAATGTAAACC
R
TAATCTAACCTGTGTTAACTATCTCATTAATAATTTTACTTATTTAAAAACAAAGCTAATTAGGAAATTAGAAATACTTGTAATTGCAGTGAGTAACAAT
Celera SNP ID:            hCV1154778
SNP Position Genomic:     120366
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46301):
GCGGAGCGAGAGAAGAGCAAGTAAAACCAAGAATCTCTTGCCATACACACGTTACAGGCAGGACAATTGTGGCTGTTGTTGTTACTTCTGTATTTACTCA
R
TTTTTAAAATTAAGCTCTTGGCCTAAAGATCCAACATGTAACTTCAGGGGAGTCCTTCATTAATTAATACTACTTTAAACCTTAGCACACATCGTCTGGG
Celera SNP ID:            hCV3261903
SNP Position Genomic:     206551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   (A,-|G,-)   Caucasian(G,30|A,54)   total(G,30|A,54)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46302):
GAGTTAGCTCTGGATGAACTGATTCATTTAGCAGAAGTGGAATGCTTTGAAGCTAGATGGAAGAGGTCACTAATTAAATGCTAGACCAAGACAGAGTCCA
R
TTGCATGGGGAGCTGGAATTTTCTTGAATGTTAGTAAGTGAAATAAAAGGTGAGAAAATGGCTTTTTAGACTTTGGTACCCTGACAAGAAATTAGTGGAT
Celera SNP ID:            hCV1154779
SNP Position Genomic:     121948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46303):
AAGCCATGTTCCCTCCCTCCCCTGCTGCTGATGCAGGACAGGCAAGTCCCCAAACTGGGGCTCAGCCCGGGAGGGTTCTTGGCCTCGCCCAGGAAATAAT
K
CAAGGGCAAGCTGGTGGTGTTAAACAGCAACTTCTATTGAAGCAGCAGTTGTACTGCAGTGGCAGAGGGACTGCTGCTTGCAGAGCGGGGCTACCCCATG
Celera SNP ID:            hCV3261904
SNP Position Genomic:     205980
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,12)   total(G,2|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46304):
TCCAATCTGTAGAGGAGGGCCAGGGGAGGTGAATCTGCAAGGGAGCCTGAGGAAGCCTACTCACTGAGACAGGAGAACATTCACCAGGAGCCCGCAGGGA
K
AAAAGCATGCTTCAGGAAGAAGGGCGGTGCCGTGAAAGCACTGGTCATTTTGAATAAGAGATGGTTACCCACTGATTTCTTTTGGATTCTGGGCATATAT
Celera SNP ID:            hCV3261905
SNP Position Genomic:     204573
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,8)   total(G,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46305):
TTCTTTTGCAGTGTAGAAACCACAGAAGGTGAACAGCTTTTGTCTTTGATTTTTTTGTTGTGTGTGTTTATGTGATTTCTATGGAGAGAGGGGAACAAGA
Y
TGCAGTTTAGTGTTAGACCTGTGAGATATTCCAGTAGGTATGTCAGGTAGGGAATTGAATGTACAAGCCTGGAGGTCAAAGGAAGTTGAGGGCTGGGAGG
Celera SNP ID:            hCV3261907
SNP Position Genomic:     204267
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46306):
ATCCCAGCTACTCAGGAGGCTGAGGCATGGGATTCGCTTGAACCCAGGAGGCGGAGGTTGTGGTGAGCTAGATCGTGCCTCCAGCCTGGGCAACAAGAGC
R
AAACTCCATCTCAAAATAAAAATAAAAATAAAAAAAATTTAAAAAGTGGCTGACATAGCAAGAACCAAAGATGCTAGAGACAAGATGATAATTCACAGGG
Celera SNP ID:            hCV3261908
SNP Position Genomic:     202106
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46307):
GAACAGGCATCCTTGCCCTCCTGAGAACCCCCCACAGAGGGCCAGGAACCTCAGATGAGCAGTCATTAGAGGGCTCTTTGAGTTTTCTGCTGGCTGGTTT
R
GTGAGAGGCCCAAGCGCCCTGCATGAGTTCTTTACACTGCTGTGTTGGGGTGGGGTAGGAGAATCAGGCCTACAGAGGAGAAGAAGACTGGTGCTTTGGA
Celera SNP ID:            hCV29091120
SNP Position Genomic:     106298
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46308):
TGGGTGTCAAGGCTGATCCCCCCACCCCACCATATTAATGTCTGATTGTTTCCAGCTCCACTTATTACAAAGACTATTCTTCCCCATTGAATTGCTTTGA
K
GCCTTTGCTACTGATTTTTTTTATATTTGTTGCAGCTTGTTTGGTGGCCAGGTATGTAGTCAGTTTTTAGATTAATACTCCACAAAAAGTGATAAAAAGA
Celera SNP ID:            hCV29091121
SNP Position Genomic:     110974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46309):
TATCTCAGCCCCTGCATACTGGTGCGGACACGAGAACCTAGGTCCCCTGAGGCTTTTTCCTTTTCACAAGGACAAAATCCAAATGCAAATTCATGGCTCA
R
ACTTCAGAATTTCAAGGATCTGCAACCATGGTCCAAGAGTCATATTGCATAGGGAAAAAAGGAGGCAGTTAGGGCCCTGACATTATATCTGCTCTTGTGT
Celera SNP ID:            hCV9968079
SNP Position Genomic:     151859
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46310):
CACCTGTCATTTATTACCATTCTGTATAATGTGCTTACTTAATATTCTATTTATTGTGTGTGCCTCTACCACTACAATGCAAAGAGTCTTTATTTTGTTC
R
TCAACATACCATAAGCAGTTAATAGCAGTGTTTCTGAAAATTAGTGATAGCTGTTGTAATGCCCAACAAGAGAATTGTTATATTCTTACTGTATTAGTCA
Celera SNP ID:            hCV29091122
SNP Position Genomic:     118395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46311):
GATTCTGGCAAAGATTGGATGTTAAAATTCATTTTTGAGGTTGTTTTGAGTTCCCTTACTTCCTTATGTCTATAGGTATTTTAGTGCTAAGTTCAAAGAG
K
TGGCCTCCAGGGACTTAAAGGCAAATACCACTTGCAACTGGAATCAAATATATGTATTGTAAATGTAAACCATAATCTAACCTGTGTTAACTATCTCATT
Celera SNP ID:            hCV29091123
SNP Position Genomic:     120294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46312):
AGGTGGCCTCCAGGGACTTAAAGGCAAATACCACTTGCAACTGGAATCAAATATATGTATTGTAAATGTAAACCATAATCTAACCTGTGTTAACTATCTC
R
TTAATAATTTTACTTATTTAAAAACAAAGCTAATTAGGAAATTAGAAATACTTGTAATTGCAGTGAGTAACAATCACCACCAGAGTGAATGGGCACCTTC
Celera SNP ID:            hCV29091124
SNP Position Genomic:     120392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46313):
ATTTGGCACAAATTCTGCGACAAAGGCCAGGAAAGTCTGGCCCAGGGGACTTGAAATGCCTCATTCCAAAGCCATGTGGATACAACAGGAAATCATGGCT
K
CAAAGTCTTACCCTCACTGAAGACTCCTACTTACCTGCTACTCCTTGAGTGTCTCCCTAGGGGCTATGTCTTCTCACTTTGTTTGATACCCACCATGGGA
Celera SNP ID:            hCV29091125
SNP Position Genomic:     125462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46314):
CCAGAGCTCACACTCATGACAAAGTCCAGAAGCAAATACATGTTGTTTAACTCCAAACTCTATATTGGGTTCACTAAAGTTAGATTTCCCAAGCTAGTGT
Y
CCACAGAACACCACTGTACCAAAAGCTATTAATACATGGTCCATGAAAAAAGCCTTCTATGATCAAATAAGTTTGGGGAATCAGTGAAAACTCAGTTTCC
Celera SNP ID:            hCV29091126
SNP Position Genomic:     130353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46315):
AACTGGAGTGCAGTGGCAGTCCTGGCTCAATGCAGACTCAAAACTCCAGGCCCCAAGCGAACCTCCTGCCTTGACCTCCCATATCACTGGGATTACAGGC
R
TGAGCCATTGGGCTTGGCCTGAAACTTTTTTTAAGTGCAAACATGTGGCAGCAAATAATATAATGACTATGGCTATTAATACAGTTTGGTGCTAGTTCAT
Celera SNP ID:            hCV9967922
SNP Position Genomic:     220815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46316):
TGAAAAAAGCCTTCTATGATCAAATAAGTTTGGGGAATCAGTGAAAACTCAGTTTCCCCCTCCTCTCACACCTGAGAATCCACAGAGCACTTTTGCAACA
Y
TGCATATTAGCATTTTAAATACTCTGAGAAGTCCCATAGTAAAGAAACCTGCTAACTTTGTTTATCCCAACATTTTCTTTCCATTTTTTGCAAAAACTAA
Celera SNP ID:            hCV29091127
SNP Position Genomic:     130497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46317):
TGTCTTATAACTGTTGTGATTTAATTTTGAGCTTTGCTTCAACTTAGACTTCCAGATTGGTTGGGTTATTCAGGATTCAAATCTCTTTCACTAATAATAA
W
AAAAAAAAGAGAATGATAATAGATATAAAGCATGCTTCTAACAGGCTCTTCCTTTATTCCAGGACGGCTTGAGAAGACTGTCAGGAAACGAGTATGTGTT
Celera SNP ID:            hCV26380650
SNP Position Genomic:     207457
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,9)   total(A,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46318):
TTTTAAACAGGCAATGAATGGCAGCTGGCCAACAGCAGTATCTAAGCCAGAAGGCCCATTATATAAAGAAATAAATTGGAAGCATTTCTTCTTTTGACAG
Y
ATTTTCCACTATTTACAGAATTTTAAAATTGTAACCTGGGAAAATGCTTAATTTTTGCACAATTAGATCGAGATTAGGAATAGCCTTGAGAATTATTTTC
Celera SNP ID:            hCV29091128
SNP Position Genomic:     133063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46319):
GTAGATTAATTGTTATTATTCCTGGGGGTCTCTACTGTTTTTAATTGAAGGTTAAAAGACTTAGTACTTTTATTTTAGATGTTTACACAATAAATAGAAT
Y
AGAAAGAGGGGGATTTTACTGTGGTTTAATTCTTCAACTGTGTATTACCCACCATAAAAAATGAACAGCGCAACACCTCATTGCATTGACAGGCAATTCC
Celera SNP ID:            hCV29091129
SNP Position Genomic:     134293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46320):
TCAGCTCACTGCAAACTCCACCTCCCAGGTTCCAACAGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGTAGGCCACCATGCCCAGCCGA
T
TTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCACCCGCCTCAACCTCC
Celera SNP ID:            hCV26380652
SNP Position Genomic:     210433
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|-,7)   total(-,7|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46321):
GCTCCTTTCTTTTATACCACATGATGTTTCACAGCTGAAGCCACATGCTACCAGTTGAGAACAGCACCCAATTCATTAATGCCAAGACCAAGGTGATCAA
W
AGCCTCTGCAGTCTTGAGTTAGAGGTGAACCTCACTCAAGCGGAACCACTCTAGGAAAACATTGATTAAATTTTTGATAAATTAGGGAATGCTTAGTAAC
Celera SNP ID:            hCV26380653
SNP Position Genomic:     210678
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,5)   total(A,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46322):
TTCTACCAGATCTGCTGGCACTGACAAAGAGGGTCAGGAAGTATTTTCTTACTTCTCTTGTGTCATCTGTCACCCCTAATTTCTTTGTGATAAGCTAAAA
T
TTTTTTTTTTTTTTTTTTTTTTTGAGATGAAGTCTCACTCTGTCACCCAGGTTGGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCCAG
Celera SNP ID:            hCV26380654
SNP Position Genomic:     211197
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46323):
GTCCAGTGGCTTAGAAAAATGCCAGAAGCCATTCTGTCAGAATTCTCTAGAGGAGGTAGTAAAACCAGCCTGCAGTTTTTTATTAAAGGAACTCACCATA
W
GATATATACAGATGTGATGGTGAGGAATGTCACCTCCACAGAGACAGGAGAAGACAGTCACAAGGAGCAGCTCTAATCCCTTAGGATCTGCATGAAGCCC
Celera SNP ID:            hCV16037096
SNP Position Genomic:     56782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46324):
TCAGCCTCCCGAGTAGCTGGGATTGCAGGCACATGCCACCAAGCCCAGGCTAATTTTTGTATGTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCT
S
ATCTCGAACTCCTGACCTCAGATAATCCACCCACCTCGACCTCCCAAACTGCTGGGATTACAGGTGTGAGCCACTGCTTCCAGCCAGGCTAAAATTCTTA
Celera SNP ID:            hCV26380655
SNP Position Genomic:     211418
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,13)   total(G,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46325):
GCAGGAGCACAGTTAGGAGTGGAATGGATTGGAAGTGCAGAGTGGTGCTGTGGAGCACGTCTCTCCTGGGTGAGTTGATGTGACCCACAGGGAAAGTCAT
R
TTTTCCAATCTTGGCTAGAAAATAAAAAGCAGAGGAAGTGTTATGAGGCAGAGATTCAAATCAACATGATACTGTCTGAAAAATCAAGTGGCCTTTTCTT
Celera SNP ID:            hCV27851863
SNP Position Genomic:     113124
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,36|G,2)   total(A,74|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:46326):
AGTGGTATGATACCAAGTATCAGAATCAGCACCCATGTATATTTCTTTTCTGTCTTGGTGCTACAGCATTTGGAGAACTTGGAATACATGAAAACAAATG
R
CAACAGCTTGTGGGTGGCTTTGAGAGCTATGTAAAGGCAGTCACTGAGGACAGGGGCCCAGAGTGTTGCAAGAGGTGTTTTGTTCCGGTGTTTAGGAGCT
Celera SNP ID:            hCV1154851
SNP Position Genomic:     175128
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46327):
CAGCCTCCCGAGTAGCTGGGATTGCAGGCACATGCCACCAAGCCCAGGCTAATTTTTGTATGTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTC
R
TCTCGAACTCCTGACCTCAGATAATCCACCCACCTCGACCTCCCAAACTGCTGGGATTACAGGTGTGAGCCACTGCTTCCAGCCAGGCTAAAATTCTTAA
Celera SNP ID:            hCV26380656
SNP Position Genomic:     211419
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46328):
AGGGAAAGTCATATTTTCCAATCTTGGCTAGAAAATAAAAAGCAGAGGAAGTGTTATGAGGCAGAGATTCAAATCAACATGATACTGTCTGAAAAATCAA
R
TGGCCTTTTCTTCATCCATACCTGGAACACGTTTACTTCCCCAGTGTGCAGAATGTATGTGTTTCTGCTTAGAGAGTCCCGTCCCCATTCCCGTCATGCT
Celera SNP ID:            hCV27851864
SNP Position Genomic:     113212
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46329):
GGCCTGCAAGCTGAGAGCTCAGGGCAGAGTGGTGGGGATCAGAGGTGCACCTGGAGAGCTGGCAGGGACCAGGCCATGCAGCAGAGCCTCATAGCCAGCT
Y
GCTGCCTGGAATTGACCCTAAGACCAACGGGAAGTGGGAGTTTTAAACAGGAGAATGACAGGATTAAATACATAGTTTGCAAGCTTACACTGGCTGATGA
Celera SNP ID:            hCV1154852
SNP Position Genomic:     176668
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46330):
CAAGCCCAGGCTAATTTTTGTATGTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTCATCTCGAACTCCTGACCTCAGATAATCCACCCACCTCG
R
CCTCCCAAACTGCTGGGATTACAGGTGTGAGCCACTGCTTCCAGCCAGGCTAAAATTCTTAATGTCACTATGACAAAGCATGCCCAACCCAGCTGTAGAG
Celera SNP ID:            hCV26380657
SNP Position Genomic:     211457
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,10)      total(G,6|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46331):
GTAAGTGAAATAAAAGGTGAGAAAATGGCTTTTTAGACTTTGGTACCCTGACAAGAAATTAGTGGATTAAGAGAAGTTTCTTATCGCAGGCATCATCTTG
Y
TATTCTTTGATGATTTTCAGTTTCCCAAAGAAGAATTTTTCTTAAGCATCTGTTTTAGATATGTTTTAATGGCTTCAAATAATCTCATCTTTCTGCATAA
Celera SNP ID:            hCV1154780
SNP Position Genomic:     122082
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46332):
GGGGATCAGAGGTGCACCTGGAGAGCTGGCAGGGACCAGGCCATGCAGCAGAGCCTCATAGCCAGCTTGCTGCCTGGAATTGACCCTAAGACCAACGGGA
W
GTGGGAGTTTTAAACAGGAGAATGACAGGATTAAATACATAGTTTGCAAGCTTACACTGGCTGATGAGAATAGACTGGGTTGGGCAGGTATTGCCAAGCT
Celera SNP ID:            hCV1154853
SNP Position Genomic:     176701
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46333):
AACCCAAAAGATGGAAGCCAGTCCCAAAAGAAACCAAGAGAGTGTGTGCTCCAGCCCAGTTATGCTCATTACATGTTTCAGCCTCTTGCCTAAAACCCAC
R
CCTTAGGATATAGCCCAGCAGTGTGTCCATGATGCCTGCTGGGGTGGGAAAGACTGAATGAAGTTGAGAAGTACTTAGTGTTTCCCTAGAGATAAGAACA
Celera SNP ID:            hCV1154781
SNP Position Genomic:     123012
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46334):
ATGTTTCACCCCTTGTAACTTCAGCATGCACATTATTAACTAGAGTTTAATATTTGTTTTCATCTATTCTAAGGTAGAAGTTACATACAGCAAAATACGT
R
CATCTTAGGCATAGCCTTCCGTGAGGTTTTTAACTTTTTTTTAATTATACTTCAAGTTCTGGGGTACATGTGCAGAATGTGCAGATTTGTTACATAAGTA
Celera SNP ID:            hCV1154854
SNP Position Genomic:     177936
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46335):
GCACAAAAACCGAGAAATCTTCCATTCATTCACTAGGTTATTCCTGGGTGTCTACATGGCGCGTTATGGGAACACAGGCATTAGTGAAGACATCGCGGCC
R
CGGGGAGTTCCAGTCCAATAGGGGAGAGATGTAGATAGGTCCACATGTTAGTAAAAAATGAAGTGTATCTCAAGGAAGTTTATGTTAAGTGCTACAGACG
Celera SNP ID:            hCV26380659
SNP Position Genomic:     218207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46336):
TGTGTCCATGATGCCTGCTGGGGTGGGAAAGACTGAATGAAGTTGAGAAGTACTTAGTGTTTCCCTAGAGATAAGAACATGCCTCTAAAACACTATGTAT
K
TTTTCATTAGGTGCTAACTGGTATTTCCACTGAGTATCCACCCAGTAGGCTCCTGAGTATAAAATAAGTATAGCTTCACCTTAGCAGGACCTGCCCTGTG
Celera SNP ID:            hCV1154782
SNP Position Genomic:     123134
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46337):
TTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCTGTTACTATTTTGAGATACGTTCAATCAATACCTAGTTTATTGAGAGTTTTTAG
W
GTGAAGGCCTGTTGAATTTTGTTGAAGGCCTTTTCTGCATCTATTGAGGTAATCATGTGGTTTTTGTCATTGTTTCTGTTTATGTGATGGGTCACAGTTA
Celera SNP ID:            hCV1154855
SNP Position Genomic:     180212
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46338):
TCCCCCCACACAGTGTGAGGGCTCAAGGAACAGGACATGGAGAAGGTACATTTTTTGAGAAAGGTCATAAAATGTTGGAGTTGAAGAGGATGAAGCAATA
Y
GAGCTGGCTGTCCCTTGGGGAGTGGTAGTTCAAATACATTAAAGTAGAGAGGAGCAGAAATGCCCACAGCCAGAGAGAAAAACAAATGCATGTTGTTTCA
Celera SNP ID:            hCV1154783
SNP Position Genomic:     123508
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46339):
CCACACAGTGTGAGGGCTCAAGGAACAGGACATGGAGAAGGTACATTTTTTGAGAAAGGTCATAAAATGTTGGAGTTGAAGAGGATGAAGCAATACGAGC
Y
GGCTGTCCCTTGGGGAGTGGTAGTTCAAATACATTAAAGTAGAGAGGAGCAGAAATGCCCACAGCCAGAGAGAAAAACAAATGCATGTTGTTTCACAAAT
Celera SNP ID:            hCV1154784
SNP Position Genomic:     123513
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46340):
ACATTAAAGTAGAGAGGAGCAGAAATGCCCACAGCCAGAGAGAAAAACAAATGCATGTTGTTTCACAAATTACTCAGGAGTAATTCTGTTCTTGGAGATC
R
TGGTTCCCTTCCAAGATATCTCAGAATAAGCAGAGGCCAGACCAAGAGAATAGGTCAAAGCAAGCTGCTGATTCACACCTAGATTCAAGTGTGTGGGCCT
Celera SNP ID:            hCV1154785
SNP Position Genomic:     123644
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46341):
CTCGCTCATTTGATTTTTATTTGGCAAATGGGAGGACACGTTCTGGGGTGTGAGGAGGGGATGGTTAGTGCCTGTGATAGAAAAGAGAGATGAGGCTGGT
R
ACTTAAGAGAGTCAACAGAAAGGACAAGGGAGGGACTTTCCAGTCCTTCTGTACACAGTAGGAAGACTGAGTATGAAAGTGGCTGACATAGGCCAGGTGC
Celera SNP ID:            hCV3261910
SNP Position Genomic:     201755
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46342):
AACTCTCCCATAACAGGGAAGCAAAGCTGCCACGGAGAACTGTTAAGGAAATTAAGCCCCAGGACTGTTGGGGAAAGGAAGAAACTGTGTTCTCATGGGA
R
AGTAACGAGCAGCTGCCAGTCGAGCTCTTTGCGTTTTTGCTCTCTGGGTTATTTCCATATATCTTAGCAATAGATATACAATGACATAAAAACACATCTT
Celera SNP ID:            hCV1154786
SNP Position Genomic:     127149
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,6)   caucasian(A,18|G,8)   total(A,20|G,14)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46343):
TAGTGGTGACAGGTGAAGCCAGGAGCAGAAGAACATCTCTAAGGGGTGTGTGATGTGCATGTAGTGAAAGGACAGAGGGTCCAAGCCTGAGCCTGAAGGC
R
TAGTCTCAGCCAGGGGGTGGGCAGTGGAAATAGGGCCAGTAAAGAGGACAGAAGAGCTGGGGGTGACCATGAGAGTGCAGTGTCACATGAACCAAGAACA
Celera SNP ID:            hCV3261911
SNP Position Genomic:     201467
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46344):
TCAGCCTCCTGGGTAGCTGGGATTACAGGCATGCTCAACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGGTG
R
TCTCGAACTCCTGACTTCGTGATCTGCCCGTCTCAGCCTCCCAAAGTGCTGGACTTATAGGCATGAGCCACTGTGCCCAGCCTAATTTTATGTATTTTTT
Celera SNP ID:            hCV3261912
SNP Position Genomic:     200044
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46345):
ATCCAACCTCAAACTGGTCTAGAATTGCTGCCATCTGAAGCGATAGCATCTTGTCTGGAAGGCTGAGATTGCACATCTGCTCACAGTTAGGAGAAACAAC
W
GGAACTCTTTGGGTGCAAATGCTATTGAGAAAATTTAACCAAAGTTCCATTGTTTCCTTCTTACACATTTTACAACCTGTCCATGGGGCTCTGGAAGGCT
Celera SNP ID:            hCV1154788
SNP Position Genomic:     129255
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46346):
CAGGGACCACCTGGTGTTCTTCAGTGCTGGCCCTGATAGAGGCCATTTGCCCATTAGGTCAGGGTGCCCCCAGTAGCTTGGGCTCATTCCAGGAGAAGCA
Y
GCTGCACCTACAACAGCTCTCCTGGCATTACTGTGGCACACCATCAGCTGAGACTGATCTTCATGTGGTGGTTCTCCTTTTTTGGGCAAAATCCTGTCTT
Celera SNP ID:            hCV1154789
SNP Position Genomic:     129547
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46347):
TGCCCCACTAACAGTGTTGGGGTCAGTTATAAAACAAGAAATGCAGGATCCCAAAGAAAGCACACTTATTATTTCTAGTGCTAATGACTTCCTTTTGTCA
Y
TTGACAGACATTTATTGAGCATTAGCACAAAACCATTAACAACAAAAAAAATTGATAATGAGAAAGAATAGGTGGAAAACTGCATCTAAAGTTCAGATCT
Celera SNP ID:            hCV3261914
SNP Position Genomic:     195491
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46348):
CTGGCTTACCACACGTCAGAGTGGGCAGGCCTGTGCACACCTACCCCAAAGTCCGAGGAAGCTGAGAGGCCAAAGAAAGAGGCTGATGAATCCCGTTCCT
Y
GGAATGAAACATCTAATAGGAACTTATGAACAGAAGCCACGTCTGTGCCTTGGATGGTGGCAAGACAAGATAACGGATCCCTGTTCCATTACCCACAGAC
Celera SNP ID:            hCV3261915
SNP Position Genomic:     194826
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46349):
AACCTTTGCCCCACAAGAGATTGGAATGTAAGCTTCTCTCGCTATCTTCTTGCCCTCTCCCTTCAAGGGCAGCTCCAGGCAGCTCCCATCTCTGTGGTAC
M
TGCCCCAACTCTCCTAAAAACCCTTCTGCACCTTCTCTGGTGGCAACTTGTGGAGGCCTAGGAGTTTCTTTCCACAACCCAGCAAGAGTTCTGCCTGGGA
Celera SNP ID:            hCV27919583
SNP Position Genomic:     54960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46350):
CACCACAAGATTTCCTCCATTTTTTGGTCTCTCAGCTCCTGGCCTGGCTTACCACACGTCAGAGTGGGCAGGCCTGTGCACACCTACCCCAAAGTCCGAG
R
AAGCTGAGAGGCCAAAGAAAGAGGCTGATGAATCCCGTTCCTCGGAATGAAACATCTAATAGGAACTTATGAACAGAAGCCACGTCTGTGCCTTGGATGG
Celera SNP ID:            hCV3261916
SNP Position Genomic:     194783
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46351):
TTTTATTTTAGATGTTTACACAATAAATAGAATTAGAAAGAGGGGGATTTTACTGTGGTTTAATTCTTCAACTGTGTATTACCCACCATAAAAAATGAAC
R
GCGCAACACCTCATTGCATTGACAGGCAATTCCATTATTTGATTTTAAATAAGTGCTTCTGGTTTTTTAGGCAACATTACATGTGATGGCATATGTTAGG
Celera SNP ID:            hCV27919584
SNP Position Genomic:     134360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46352):
CAGATGTCCTACACACTCATCTGTCTTATTTTTCAAGTTAACCTACCCCATTCATTGAGTGGCTACAAAGATTTAATGGTCTGAGCACTTGAAAGTAGGT
K
GATTTAGCAGTGAAGCCGCATGATTATAAGTTTAATAGAACTAAATGTGCCCCACTAACAGTGTTGGGGTCAGTTATAAAACAAGAAATGCAGGATCCCA
Celera SNP ID:            hCV27919585
SNP Position Genomic:     195343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46353):
TGAGCTGGGGATCGTGCATCAACCCAAACATGTTTTACCACTCTGCAGCATTTAAAACCAAAGACACTGCTCCAAATTAGCTACTTTCACAATTCAACAA
M
AGGTTTTATCCAGGGAGCTGATGATGCCTATCTACAAAAGGGAACAATTCCTTCACACAGTACCCTCTGGTTTCAGCAGTTACTTGGGTTTTGCCCTTCC
Celera SNP ID:            hCV3261918
SNP Position Genomic:     191976
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,7)      total(A,7|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46354):
CTTCATCTGGGGTGCTCCACGTAGCATTGGGGCCGACCCCATTCTCAGGGTAAACAGATCTGACAGAGGCTTTTATCCAGTCCACCAGGCTGGCTGTTCC
Y
TCAGGAATAACCTCCCATGTGTCTGGATCACATATAGCCATCTGTGATTGTTCAGTAGTGAGCTGGGGATCGTGCATCAACCCAAACATGTTTTACCACT
Celera SNP ID:            hCV3261919
SNP Position Genomic:     191817
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46355):
AAAAGACTTAGTACTTTTATTTTAGATGTTTACACAATAAATAGAATTAGAAAGAGGGGGATTTTACTGTGGTTTAATTCTTCAACTGTGTATTACCCAC
M
ATAAAAAATGAACAGCGCAACACCTCATTGCATTGACAGGCAATTCCATTATTTGATTTTAAATAAGTGCTTCTGGTTTTTTAGGCAACATTACATGTGA
Celera SNP ID:            hCV29091130
SNP Position Genomic:     134346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46356):
TTATTTTAGATGTTTACACAATAAATAGAATTAGAAAGAGGGGGATTTTACTGTGGTTTAATTCTTCAACTGTGTATTACCCACCATAAAAAATGAACAG
Y
GCAACACCTCATTGCATTGACAGGCAATTCCATTATTTGATTTTAAATAAGTGCTTCTGGTTTTTTAGGCAACATTACATGTGATGGCATATGTTAGGTG
Celera SNP ID:            hCV29091131
SNP Position Genomic:     134362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46357):
ATTCTTCAACTGTGTATTACCCACCATAAAAAATGAACAGCGCAACACCTCATTGCATTGACAGGCAATTCCATTATTTGATTTTAAATAAGTGCTTCTG
K
TTTTTTAGGCAACATTACATGTGATGGCATATGTTAGGTGCCAGGAGATGCCCTAATACAGATTCTGCAGTGCACATGGGGCACTGGGGGGCTGTCCCAG
Celera SNP ID:            hCV29091132
SNP Position Genomic:     134422
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46358):
AGCAGGGCAAAAGCAGGCCTGGAAATTTGAAATAAATATCCCCAGCCAACACAATAGCATAAAGAAAAGCCTTCAGGTTATTGTACTGCTGAAATCTGTT
Y
AGAGCCAGGGCACCAAAGACTTTTTAAGGTCTTATCAGATTCAGAACTTTGCAAGTTTCTAAGTACATTATGTAAGTACTATACTTCTGACCCCTCACTT
Celera SNP ID:            hCV29091133
SNP Position Genomic:     134651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46359):
ATCCCCAGCCAACACAATAGCATAAAGAAAAGCCTTCAGGTTATTGTACTGCTGAAATCTGTTTAGAGCCAGGGCACCAAAGACTTTTTAAGGTCTTATC
M
GATTCAGAACTTTGCAAGTTTCTAAGTACATTATGTAAGTACTATACTTCTGACCCCTCACTTACTAGAACTGGTTGGGGGCATTGGACCCGTTGTTGAG
Celera SNP ID:            hCV29091134
SNP Position Genomic:     134688
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46360):
TGTACTGCTGAAATCTGTTTAGAGCCAGGGCACCAAAGACTTTTTAAGGTCTTATCAGATTCAGAACTTTGCAAGTTTCTAAGTACATTATGTAAGTACT
R
TACTTCTGACCCCTCACTTACTAGAACTGGTTGGGGGCATTGGACCCGTTGTTGAGGTCATAATGAAAAGGCTCAAGTTCTTACTACAAATCAGTGTCAA
Celera SNP ID:            hCV29091135
SNP Position Genomic:     134732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46361):
AGAACTGGTTGGGGGCATTGGACCCGTTGTTGAGGTCATAATGAAAAGGCTCAAGTTCTTACTACAAATCAGTGTCAAATTGGATAATGGACTTGACCCA
S
GAAGGTAGTGGCCCCAGGAAAGAAGGTTTGCCTGGCACAGAGATTATCTTGCCTTCTGCACAAGTTTCAGCTGTTGCTTTTTGGTGGGTTCTGCCTCAAC
Celera SNP ID:            hCV29091136
SNP Position Genomic:     134855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46362):
TGAAAAGGCTCAAGTTCTTACTACAAATCAGTGTCAAATTGGATAATGGACTTGACCCACGAAGGTAGTGGCCCCAGGAAAGAAGGTTTGCCTGGCACAG
R
GATTATCTTGCCTTCTGCACAAGTTTCAGCTGTTGCTTTTTGGTGGGTTCTGCCTCAACCTTATTCAAGTTATCGCCCTTTTGGGTGTGTGTGTGAACAT
Celera SNP ID:            hCV29091137
SNP Position Genomic:     134896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46363):
GGCACCAAAGACAGTGGGCAACACACAGCGAAGCCCACAGCAGAAGCCTCACATTTGTCTGCCCTGAAATCTCCCAGTGCACACATACACACCTTGTTCT
M
ATACCAGACCAATGACATCAATAGCCCACCCTGCCTAGGCCCTGTCATCAGCACTTTCATTAGGTTGTCTCATTTCTATTCAATAAGGGTAGGCAAGAGA
Celera SNP ID:            hCV29091138
SNP Position Genomic:     141455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46364):
ATTGTTAGAATATGTTTTATGGCTGCCCCGTGAAATGTATCTGAAGGCTTCCTCATGTTGCTGGCTCTTAGTGGCCCACCTGCCCACAGGTCTGCCTCTT
S
GACCTCAGAGAGAGCCAGACGTGTTTCTGTTACAGACCAAGCACAAAAATCCCACATCTCCCCCACTTATACCCCGACTTGGACAATCGATTCTATTCAT
Celera SNP ID:            hCV29091139
SNP Position Genomic:     141802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46365):
TATTATTACTTCACTTTAGGATAATGGCCTCCAGCTCTAGCCATGTTGCTGCAAATGACATGATTTCATTCTTTTTTATGGCTGCATAGTATTCCATGGT
R
TATATGCACCACATTTTCTTCATCCAGTCCACCAATGATGGGCACCTGGGTTGATTCCATGTCTTTGCTACCATGAATTGTGCTGTCATAAACATGCAAG
Celera SNP ID:            hCV26380662
SNP Position Genomic:     219071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46366):
GCACCTGGGTTGATTCCATGTCTTTGCTACCATGAATTGTGCTGTCATAAACATGCAAGTACAGGTGTCTCTTCAGTAGAATGATTTATTTTCCTTTGGG
Y
ATATACCCAGTAATGGGACGGCTGGGTTGAATAGCAATTTCTATTTTTAGTTCTTTGAGAAATCTCCGAACTGCTTTCCACAGGGGCTAGCTGATCTAAT
Celera SNP ID:            hCV26380663
SNP Position Genomic:     219213
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46367):
CTTTACATGGTCATTTTTTCATTTTTATTTTTATAGAATATAAAAATGCAGATTTCTTGCATGCATATATTGTGTACTGGCTTTCAGTGTACCCATCACC
Y
GAAAAGTGAAAAATGTACCCACTACGTAAGTTTTCAACCCTCGTGCATGGTCATTATTACAGTCTGATTCTACTATGCAAAGTGAGGATTGCCGATAGCT
Celera SNP ID:            hCV11647432
SNP Position Genomic:     115758
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46368):
AACATCTGTTATTTTCTGACTTTTTAATAGCCATTCTGACTAGTTTGAGATGGTATCTCATTGTGGTTTTGATTTGCATGTCTGATTAGTGATGCTGGAC
T
TTTGTTTTGTTTAGTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGACCTCAGCTCACTGC
Celera SNP ID:            hCV26380664
SNP Position Genomic:     219463
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46369):
CCAAGGCATAGGAAAGATGCTCACTTCGTATCATAACTTATACAACTAGAAGAAGGTGGCAAGCACTGTCCAAACTACTCTTGATAAATTTTTTTAAATA
M
ATAAAACATCTTAATTTTCAATGTTTCTAATATTTTAAGTTACAGTATATTAAATAAATTTTAGCTTTATATTTTTTCATTTCCCTATATATTTATAACC
Celera SNP ID:            hCV11647433
SNP Position Genomic:     115471
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46370):
ACATCTGTTATTTTCTGACTTTTTAATAGCCATTCTGACTAGTTTGAGATGGTATCTCATTGTGGTTTTGATTTGCATGTCTGATTAGTGATGCTGGACT
T
TTGTTTTGTTTAGTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGACCTCAGCTCACTGCA
Celera SNP ID:            hCV26380665
SNP Position Genomic:     219464
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46371):
GTGTGTGTGTATTTTCTGCCTTATACTAAGGCGCTACTCTAGGTTTGGAGTGATAAAAAAAATGAATATGATGGCCGGGCATGGTGGCTCATGCCTGTAA
W
CCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGTTCGAGACTATCCTGACCAACATGGTGAAACCCCATCTCTCCTAAAAATACAAA
Celera SNP ID:            hCV26380593
SNP Position Genomic:     17921
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46372):
CATCTGTTATTTTCTGACTTTTTAATAGCCATTCTGACTAGTTTGAGATGGTATCTCATTGTGGTTTTGATTTGCATGTCTGATTAGTGATGCTGGACTT
T
TGTTTTGTTTAGTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGACCTCAGCTCACTGCAA
Celera SNP ID:            hCV26380666
SNP Position Genomic:     219465
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46373):
TGTGGTATCATTAACCACATTCTTCTGGCCTTGTATTCCCTGTATGTTGGTAGTTAGATCTAGAGGCTTGATAGGATTCAGGTTTATTTACTTTTTTTTT
K
GGGGAAGACTACTTTATAGGTAGTGTCATGGACCTCCATCAGGAGGCACATGATGTCTGGTTGTGTCTCTTGGAGACGTTAGCAGCCACTGATGATTGTT
Celera SNP ID:            hCV26380594
SNP Position Genomic:     20524
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46374):
ATCTGTTATTTTCTGACTTTTTAATAGCCATTCTGACTAGTTTGAGATGGTATCTCATTGTGGTTTTGATTTGCATGTCTGATTAGTGATGCTGGACTTT
T
GTTTTGTTTAGTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGACCTCAGCTCACTGCAAC
Celera SNP ID:            hCV26380667
SNP Position Genomic:     219466
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46375):
TTGTGGAGTAGGAAGTGGGGAGCTACGATTTATTGTCAGGCCCAGTTCCCAGTGATTTACTTAATCCTCCTCTACATATGAGGGATTTGATATTTTCTCC
W
TTTTTGCAGAGGAGGAAACAGGCTCAAAACAACTAAACTTGCCAGAGCTCACACTCATGACAAAGTCCAGAAGCAAATACATGTTGTTTAACTCCAAACT
Celera SNP ID:            hCV1154790
SNP Position Genomic:     130211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,7)      total(A,7|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46376):
TTTCCCATGACATAAATCCTGGTTCTTAACATCATCATGATAATTCCTCATTTGTTAGATCCCACATGCGCGTGCACACACACACACACACACACACACA
C
ACACACATCTCAGAATACCAGTGATCAACACGACTTCATGATCAATATGAACACTGAAAACAGTTTGATTTTTTTCCAGTGATTTTTGATATTAGGGTCT
Celera SNP ID:            hCV26380595
SNP Position Genomic:     21426
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,6)   total(C,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46377):
TCTGTTATTTTCTGACTTTTTAATAGCCATTCTGACTAGTTTGAGATGGTATCTCATTGTGGTTTTGATTTGCATGTCTGATTAGTGATGCTGGACTTTT
G
TTTTGTTTAGTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGACCTCAGCTCACTGCAACC
Celera SNP ID:            hCV26380668
SNP Position Genomic:     219467
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46378):
ATCCTCCTCTACATATGAGGGATTTGATATTTTCTCCATTTTTGCAGAGGAGGAAACAGGCTCAAAACAACTAAACTTGCCAGAGCTCACACTCATGACA
R
AGTCCAGAAGCAAATACATGTTGTTTAACTCCAAACTCTATATTGGGTTCACTAAAGTTAGATTTCCCAAGCTAGTGTTCCACAGAACACCACTGTACCA
Celera SNP ID:            hCV1154791
SNP Position Genomic:     130274
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46379):
TCCCATGACATAAATCCTGGTTCTTAACATCATCATGATAATTCCTCATTTGTTAGATCCCACATGCGCGTGCACACACACACACACACACACACACACA
S
ACACATCTCAGAATACCAGTGATCAACACGACTTCATGATCAATATGAACACTGAAAACAGTTTGATTTTTTTCCAGTGATTTTTGATATTAGGGTCTGT
Celera SNP ID:            hCV26380596
SNP Position Genomic:     21428
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2|-,6)   total(G,2|C,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46380):
TTTTAATAGCCATTCTGACTAGTTTGAGATGGTATCTCATTGTGGTTTTGATTTGCATGTCTGATTAGTGATGCTGGACTTTTGTTTTGTTTAGTTTTTT
K
TTTTTTTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGACCTCAGCTCACTGCAACCCTCACCTCCCAGGCTTG
Celera SNP ID:            hCV26380669
SNP Position Genomic:     219484
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46381):
AAAGCCTTCTATGATCAAATAAGTTTGGGGAATCAGTGAAAACTCAGTTTCCCCCTCCTCTCACACCTGAGAATCCACAGAGCACTTTTGCAACATTGCA
Y
ATTAGCATTTTAAATACTCTGAGAAGTCCCATAGTAAAGAAACCTGCTAACTTTGTTTATCCCAACATTTTCTTTCCATTTTTTGCAAAAACTAATCCAT
Celera SNP ID:            hCV1154792
SNP Position Genomic:     130502
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46382):
TTTCACTTACACCTTCATTCGTCTATTTGTTTGGCAGATATTGATTGAAGTGGGGGCCTAATATGTGTCAGTCAATGTTTGAGACACTGAGTTACAGCAG
A
AAAAAAAAAAAAACTAAAAATTCTTGTTTTCTGAGTACTTACATTTTAACTGGGGGAGATCACCAAGAAAAAAAATTTAACAACCTTATTTGGTTGGTAC
Celera SNP ID:            hCV26380597
SNP Position Genomic:     31354
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46383):
ATCCATCTAAAAGCTCAAATGGAATCTAACCATGTTTAACTTTGCTCTGTAAATCAAACAGAAAGTATTTCCCTTATGTGTATGTTTATGGCTTCCTCTC
Y
TTCCTTAGCTCTTCCCAGCTTCCACGTAAGAATTGTGGAGGACCAGAGGCCCAGGGAAAGCCAGGGAGAAGCCAACCACTCCAGATATGTGGAGCCAACC
Celera SNP ID:            hCV1154793
SNP Position Genomic:     130951
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46384):
GGGCAACCTTAGGTGATATCATTGGTCACAAATGCATTACAGAAAATGTTTTCTCTTAGTTAAATTGATATATCTAGCTCCTAAGTTGATTGATTCAATA
Y
AATTGAAGACTGAACTATAATGGATTTTGAGTATTCTATATTTTATTTAGTATTTATATATATAAATATGTAACTATATTTTATTGAGTATTTATAGTTA
Celera SNP ID:            hCV26380598
SNP Position Genomic:     49403
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46385):
CAGTTTGGTGCTAGTTCATTGAGTCATGCTAAGGTGTTAGCAGTTTTACCCACTATTGCTTCTTCTCAGTGTAAATGTCAGTAGTTTTGGTATGAGAATT
Y
GTGTTTGTATGACATTGAACAGAGCTTTGACTTTGCAATGATAAAAGCAGATCCCAGAAAAGGGGCTAAGTACCCTGAGATCAATGTGTCAGGAGATGCT
Celera SNP ID:            hCV1154866
SNP Position Genomic:     220997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46386):
AGTTCCTTATTTCTTTTAATTTGCTTTTATCAAACTTTTTTCCAAACTGTAAAAGCAATTTGTATTTTTTTGCAACAAAACAAACAATATGCGGGTATAC
A
AAGAAAAAGTCAACATTCTATTTCCACTCCCTCTCAAAGTGACCAGTGTTTACATTGGGTACGTATATGAGGTCTTCCCACACTTTTATTCACAATCATA
Celera SNP ID:            hCV26380599
SNP Position Genomic:     51732
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46387):
TGCAGTGAGCCAAGTTTGCACCCACTGCTCTCCAGCCTGGACGACAGAGTGAGACTGTCTCCAAAAAAAAAAAAGAAAGAAAGAAAAAGAAAAAGAGTGG
K
TAGGACTAGAATCTAAGTTTTTCTCTCTCCAGTTTCCCCATTTCTACCAAGGATAAATTATAGTACCTTGCTATTTCAGGAATAATGAAAAATAAAAAAT
Celera SNP ID:            hCV3261920
SNP Position Genomic:     188968
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,9)      total(G,6|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46388):
TATAAATACATGAAAGCCTTTTTTTTCAATTGAGATGAAACTAAAATTAGCCATTTTAAAGTGAACAATTCAGTGACACTTAGCACATACACAGTGTTGT
R
CAGCCACCACCTCTCTCTAGTTAGAGTGAGAACCTGTTGCAAAACAAACAAGCAAAAAGCCATTTTCATCATTCCCAAATGTGTTCCCATTAAGTGGTCA
Celera SNP ID:            hCV1154796
SNP Position Genomic:     131815
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46389):
GTTGTACAGCCACCACCTCTCTCTAGTTAGAGTGAGAACCTGTTGCAAAACAAACAAGCAAAAAGCCATTTTCATCATTCCCAAATGTGTTCCCATTAAG
Y
GGTCACTCCTAGTCCTCCTCCCCACAGCCCTGACAACCACCAGTCTGCATTCTGGCTCAATCAATTGACCTATTCTAGATATTTCATATACATGGAATCA
Celera SNP ID:            hCV1154797
SNP Position Genomic:     131910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46390):
GCGGACAGGCCTATGCAGACCTACCCCCCAAAGTCTGAGGAAGCTGAGAGGCCAAAGAAAGAGACTGACAACTCTAGTTGTCAGAAAGGAACATTAATAA
R
AACTTAAGAACAGAAGCCCTGTCTGTGTCTCTGGCAGCAGTGAGACAAGATGGTAGATCTGTGCACCATTACCCCCAGACCCAGGGCTTATATACCATAC
Celera SNP ID:            hCV3261922
SNP Position Genomic:     187896
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46391):
CTGTCAACAGGCTGATGTTCAGGGGTTCATAGCTGAATCCCAGGGATTTTGAAGCTTTTAAACAGGCAATGAATGGCAGCTGGCCAACAGCAGTATCTAA
R
CCAGAAGGCCCATTATATAAAGAAATAAATTGGAAGCATTTCTTCTTTTGACAGTATTTTCCACTATTTACAGAATTTTAAAATTGTAACCTGGGAAAAT
Celera SNP ID:            hCV1154798
SNP Position Genomic:     133008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46392):
CTTAACCATAGATTAGAGTTTGAGTGTATACTGTCACGGTTGGCTTCTCTCACTCATAATGTTTTTGAGGTTCATCTTCACTGTATCATTTTTTTTCCTT
K
TTATTACTGAATATTCCTTTGCATCAGTCTATCGCAGTGTGGAGAATCTACTTCTGCTGATGGACTCCAGGGCTGTTTCCAGCTTTTGGCTGCTTTGAAC
Celera SNP ID:            hCV3261923
SNP Position Genomic:     185327
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,6)      total(G,6|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46393):
TTCTATTCATGAAGCACATTTGCTTTGCACCTCCCTGTTTTGCAGTGTGCAGCTGGATTTGATTTCAGAAATGAGGAGAAGGGGCTCCCTGCCCACTAGC
Y
GCCCCTCCACCTGTAATCTAACAAACGACTTCTAGAATAGGGAACAGAGTCTTTCATTCTCCAGTTATCAATTGGTGGTTAGAAAACCTGTATCCTTGGG
Celera SNP ID:            hCV29091140
SNP Position Genomic:     141993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46394):
TAGTTACCTAAGTAGGTCTTACACTTGGTAGATTGACAGCTGTTATACACAATTCCCTAGTTATGGTTTGAAGCAGTGTATTATCTTATGCCCAGGCTCA
Y
AGTAGGGTGTCCCAGGGACTGTGACATGACATTAACCTCACTCCTCTGTTTCAGGCTGTTCTGATTTCGTCTTGTTTATTTTCATAGGTTTTGAAACTAC
Celera SNP ID:            hCV29091141
SNP Position Genomic:     177476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46395):
CTTGTAACTTCAGCATGCACATTATTAACTAGAGTTTAATATTTGTTTTCATCTATTCTAAGGTAGAAGTTACATACAGCAAAATACGTACATCTTAGGC
M
TAGCCTTCCGTGAGGTTTTTAACTTTTTTTTAATTATACTTCAAGTTCTGGGGTACATGTGCAGAATGTGCAGATTTGTTACATAAGTATACATGTGCCA
Celera SNP ID:            hCV29091142
SNP Position Genomic:     177947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46396):
AGAAAAGATAGGTTACGATTCATTTTTTTCACCAAAGCCTTTTGAAAGCCTTAGAGAACAAAGAAGTATTACTCTGTGATCTTAAACATAACAACAGGTA
W
CTACATGTGTTGTATTCTCATATTGTCCCAAGCACTTCGAGAAATGCCTCACATAAACTATCTGTTTTGATCTTTACAAAAACCTGTGAAATACGTATTA
Celera SNP ID:            hCV7441500
SNP Position Genomic:     137758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,8)      total(A,1|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46397):
TAAGTATACATGTGCCATGGTGGTTTCCTGCACCCATCAACCCTTCACATTAGGTATTTCTCCTAATGCTGTCCCTCCCCTAACCCCCACCCCACCCTCC
K
ACAGGCCCCAGTGTGTGATGTGTGATGTTCCCCTCACTGTGTCCATGTGTTCTCATTGTTCAACTCCCACTTATGAGTGAGAACATGTGGTGTTTGGTTG
Celera SNP ID:            hCV29091143
SNP Position Genomic:     178131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46398):
GCTCACTGGTGGCATATGCTTTTTGTTAGTTTTTACATTAACATGACCGTGCGTTTTCAGTGTTAAATTCAAGTCTGCAAAGATTTAGGCCAAAATTCTT
Y
AAATGTTTGCCTGCCCCCACCACCCTGGAAAATAGGGACAAGGGTGAAGGTTTAGTTATTGAAATGTTGGGGGAATCTAAAACTGTTTTCTTCCTTTCCT
Celera SNP ID:            hCV29091145
SNP Position Genomic:     199103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46399):
TTTTGGAAGGGACACAGGAGATAATGTAACCCAACACCCTGGCCATGATTGACAGAGGAAAACACTGAGAACCATCACAGCTACTCAGCATGTTGGTGGC
M
GTGGTGGAGTAGAATCCAGGCATCCTGCTTTTTCAGTCTGGTGCACTTTCCACTCAGCATAGCACTATATTATTTATAGACTTTATACCTGGACCCCTGT
Celera SNP ID:            hCV7441504
SNP Position Genomic:     136304
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,11)      total(A,11|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46400):
ATGGCTTCAACTCTTCAAAATGTAAGTCAAAAACACAATTAACACAGTCCCTCTGAGGGTGAGGGGGATCCCGTCAAGATCTGAAGCAAGGTCACTCCTG
Y
GATTTCACCTGTGTAGCTTGAAAATGCCAGGAGAGGAAGATGGCCTCAGAACAGAGCCAACCCACAGCTCACTGTGAGTCCTGACACAGTCACATCCACT
Celera SNP ID:            hCV29091146
SNP Position Genomic:     207201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46401):
GGCTCTGCGTGATAGCCATTGTGTTTCAGGGGTGGAAACTGAGCTGTGAAGGCTTAAAATAACCAGTCCCTATTGCTTTATTGCCCAGTAATGAGTGCCA
M
CAAGTAACAAGGTCACGATCCTCTCACCTCTTCCACTCCCTGCTCCCAACTCATCCCAGACTCCTGCTGGTATGTGGACTTGTGTTCAGAATCTTTTCCC
Celera SNP ID:            hCV7441505
SNP Position Genomic:     135986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46402):
TGACCAGAAAAGCTTGGCCCAAAGAATATGGAAGGAGACGCAGACGAACAGAGACTGGCATAAATGGTGGTATTTTAGAGAATCCAAAGCCTTTACTTCT
S
TGTTCACTGAGCTCTTGGAAAACCTCAAAGTTGGAAGGTGTTTTAAAAAACAAAGAATGTTCCTGATTCACATTAAAAGCATACCAGTACCTGAAGACTA
Celera SNP ID:            hCV29091147
SNP Position Genomic:     216060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46403):
AACAGAAAATCTTCCAGGGACCAAAACCCCCTGCTTGTTTATAGAAATGCTTGCACTCTGGGGAGGAAACACAGGCCTGTTCATAAATAAATGCTCAGTC
R
TAAGAGTTAGCTCTGGATGAACTGATTCATTTAGCAGAAGTGGAATGCTTTGAAGCTAGATGGAAGAGGTCACTAATTAAATGCTAGACCAAGACAGAGT
Celera SNP ID:            hCV7441506
SNP Position Genomic:     121844
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:46404):
AGTATTTATAGTAAACAGTATTACTTTGATAAGTAGTCAAAAACCTCCAGAACATATTCTGCCCATTGATAGTCTAATAAATAGGTCCAGTCTTAAACCC
Y
CCAAATGTCATGCAGCCTTTTGGCTTGGCAGAGCTCTGGAGACCTAATTGTTTTTACACAATCAATTTGATGGTGTCTTTAAAAGTGGAGAATAACAATC
Celera SNP ID:            hCV29091148
SNP Position Genomic:     216790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46405):
CCTGCGACAGAGCTGGTTATAGATGCAATATTGCTCGGACTCCAGAGTCAGCCCTTGAATGCTTTCTTGATAAGCATCATGAAATTATTGTAATTGATCA
Y
AGACAAACTCAGAACTTCGATGCAGAAGCAGTGTGCAGGTACCTTCTCTAATTTAATATGCTTAGTAAATGTTCACTTTACATCTTAAAACGAATTTCAT
Celera SNP ID:            hCV7441507
SNP Position Genomic:     121229
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(T,40)   total(C,3|T,75)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:46406):
TGGCTCACAGAGGCAGCCACGAGGCACTACACCAAGTATTATATAAAAGCCATTAAATTTGAATGCCCTTGGACAAGCTTTTCTTAAAAAAAAAAAAAAA
G
TTTATATACATGTTTAAAATTTTTATTAAAATCCAAATTTTCTGGGTGTAAGCCCATGCAGTATGTTGTGCCATGCACCATCTATACGTAATATTTTGGG
Celera SNP ID:            hCV26380670
SNP Position Genomic:     223262
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46407):
CGGGCAAGAGCCTCCACTGTGGTTTCCATGGGAAGGCTTGGGTGAGGCAGGGTGAGCAGGGTTAGGCTAGGCTAGTCGGATTAATTTCAGAAAGGTCTGG
K
ACATATTGGTGGTTCTAGTTGTCTGGTACCTGGCCCTAGGGTGATTAGGGTTGGGGAATTGTGGCCTGGAGTGTAAGAGCCAAAGGTGGTGGTGGTTGGG
Celera SNP ID:            hCV7441508
SNP Position Genomic:     117655
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46408):
GGATCTGTGGTCTTGTTTTCACACATGTGGCCACATCAGCATTGCACTGGGTACAACAATACAGCAGGCATTGGGAAATGTAACGAGAGCATGTGGGAAT
R
TTCCTTCTCAGCCTTCTGAGACCCTCTGCAGGAGCAGCTGTCATCCTTGACTGAAGGATTTTAAGAGCTCTCTTTGTCCATGTAGGAGTGGCAGGGGGTT
Celera SNP ID:            hCV16193586
SNP Position Genomic:     146513
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,17|G,1484)   total(G,1484|A,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46409):
GGAACTTGTGTCCAAGGATACAAGGCCCAACCACCTGTAGGACTGACTTCACTCTAATAATGGCAGCAACTATGTCCTCCTTGCAGCCCTTCCAGGTTCC
Y
GTGCCCCCTTAAGAGAAACATGTATGAAGAGGGAGTTTGTACCCTTTTAAATAATTTCTAAATCCTTATCTGCATATAAGCCATCCTGTTAGGCCTAAAT
Celera SNP ID:            hCV7441509
SNP Position Genomic:     108508
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46410):
GAAAAACCAAGCAAGGAAATGTGCTATTTGATTTATGAGCAAATGGAAAAAGAAAATAGTGTTTTATAGTTGCTTGGAAAAAGAAATGCAAATCTAGGAA
R
GGAAAAAAAAAAAGGAAGAGATTAGCTTGGGAAAATTTGATGAAAACAAATTTAGGAACAGAGAGAGAGAGAAAAATAAACACCAGCCACAACTATTTGT
Celera SNP ID:            hCV11647442
SNP Position Genomic:     108829
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46411):
CAGGCTTTCAGATGATATGTGTATCAGATAGTTTATATTATATAAACTATTATAACTGCCTCTTACACAGAGTTGTTTACTTAAATGTCATGTGCTGAGG
R
GGGCCGTATTAGGAAAATGCAACACTCTCTAATAATTTCCGTGACTAGTAAGAGAAGGAAGCCAGTTATAAAACACTGCTGGACCAGAATGACCCTATAA
Celera SNP ID:            hCV1080306
SNP Position Genomic:     224617
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;SC_12_T(T,9|C,15)   SC_12_C(T,12|C,12)   SC_12_TT(T,3|C,18)   SC_95_C(C,87|T,102)   total(C,132|T,126)no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46412):
GTAAATGCTGCTGCGTGCTGAAGGCGCTCCTTCAGACTGACAAGGGGCCAGTACAGAGTGTGGAATGCAGGATAAGCTTCCAATAGTGACAAATGACCAC
A
GTCTCTTAGAGAAAAACAAAATTGGATCCATGGAGGTGAGGTCAAGACCGTCAACCAAATTAGTCTAGAGAATAGTCACTTTTAGAAATCTCAGTAAAGT
Celera SNP ID:            hCV11647446
SNP Position Genomic:     106675
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,6)   total(A,6|-,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46413):
TTGACTGTTTTCCTCAAGAACATCGATCTGAAGGATTCATAAGGAGCTTATCTGAACAGATTTATCTAAGAAAAAAAAAAAAAGACATAAAATAAGCGAA
R
CAACTAGGACCAAATTACAGATAAACTAGTTAGCTTCACAGCCTCTATGGCTACATGGTTCTTCTGGCCGATGGTATGACACCTAAGTTAGAACACAGCC
Celera SNP ID:            hCV1080308
SNP Position Genomic:     222915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46414):
TAGCTTGACTGTTTTCCTCAAGAACATCGATCTGAAGGATTCATAAGGAGCTTATCTGAACAGATTTATCTAAGAAAAAAAAAAAAAGACATAAAATAAG
Y
GAAACAACTAGGACCAAATTACAGATAAACTAGTTAGCTTCACAGCCTCTATGGCTACATGGTTCTTCTGGCCGATGGTATGACACCTAAGTTAGAACAC
Celera SNP ID:            hCV1080309
SNP Position Genomic:     222911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46415):
ACTCTCAAGATAACAGCATTAATCCATTCCTGAGGGCAGAGCCCCATGACCTAATCACGTCTTAAAGATCCCACCTCTTAATATAGTCAAAATGGCGACT
R
AATTTCAACATGAATTTTGGAGGGGAAATTCAAATCATAGCACCCCTCACCACTGCTCCTAGTGTAGACACTCATCATCTTTTGTCAACACCAGTAGTTC
Celera SNP ID:            hCV11647449
SNP Position Genomic:     92821
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46416):
TCCATGGCGAGGATCCACTCCATGACCATCGAGGCTCCCATCACAAAGGTGAGTGGCGGCTGCTGCCTGCACTCTGCAGTCAGGGGCCCTCACACAGGGC
Y
GTGCTCTGAAAATACATCACACTGACATCATGGAGCTCGGTCTAGTGGAAGAAGCAAATAACAGGCAAATAAACACATAGCAAATAAACACCTCATCCTA
Celera SNP ID:            hCV25753930
SNP Position Genomic:     203351
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,38|T,2)   total(C,68|T,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 231
Celera Gene:                 hCG38090 - 104000117101735
Gene Symbol:                 FLJ10904
Protein Name:                hypothetical protein FLJ10904;MSTP048
Celera Genomic Axis:         GA_x5YUV32W40L(6010174..6088678)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12391):
CTATGATTAATCCTGTATTTTGCTTATGGAATGAGATATAAATTGAAGTACATTTATTTGGATATGGATGTCAAATTGTCTAGCACAATTAACAAAAAGA
CTTTTTCAATAGTCTTTTCTACACTGACTGCCTTTACACTTCTGTAAAAAAATCAGTTATCCATATATATGTGGCTTTATTTTGGTACTCTATTCTGTCC
CATTGATCTATTTATCTCTTTTATTGTGGTAAAATATACTAACATATTTGTCATTTTAACCATTTGTAATTGTACAATTCAGTGACATTAAGTACATTCA
CAATATTGTATAATCATCACCACTATATACAAATGTTTTTCATTGGTCTCAACATAAACTCTGTACTCATTCAATAATAACTCCCTATTTCCCCCTCTCC
CATCCCTGGTAACCTCTGTTCTATTTTCTGTCTCTATGAATTTACCTATTCTAAGTATTTCATAATAGTGGAATCATACAATATTTATTCTACTGTGTTT
GGTTTATTTCACTTAACATATGTTTTCAAGGCCCATCTATGTTGTAGAATATATTTAAAAATTAATTCCTTTATGACTAAATAATATTTCATTATATGCA
TACATCACATTTTATTTATCCATTCATCTGTGGATGGACACTTGGGATGTCTCCGGCTTTTGGCTATTGTGAATAGTGCTGATGTCAACATTGGCCCAAA
TATCTGTTGAGTCCTTGCTTTCATTTCCTGTAGATATATGCCTAGAGGTGGACTTGCTGGGTCATATGGTAGTTGTATGTTTAACTTTCGAGGGTCTGCT
AAACGATTTTTCACAGTGGCTGCTCCATTTTACATTTCTATTAACGATGCACAAGGACTCCAATTTCTCCATATCCCTATCAACATTTATTTTCCAGCTT
AAAAAAATTATAGGCATCCTAGTATGTGTGAAATGGCATGCCATTGTGGTTTTGATTTGCATTTTTCTAATGACTAATTATGTTGAGCTTCTTTTCAGGT
GCTTAATGACCATTCATATACCTTCCTTGGAGAAATGTCTACTCAAGTCCTTTGCCCAGTTTTAATAGGGTTGTTTTATGTTGTTGTTGTTGTTGAGTTG
TAGGAGATGTTTATATATTACAGGTATCACTTCCTTATCAGATGTATGATTTGCAAATATTTTCTTCCATTCTGTAGGTTTTCATTTTCTTGGTAGTATC
CTTTGACGCATGAAAGTTCTTAATTTTGATGAAGTCAAATTGGTTTATTTTTTCTTTTGTTGCCTGTGCATTTGGTGTCACCGCCACTAAATTTTGCCAA
ATTTAATGTGATGAATATTTTCTCCTCCAATTTTTTTTCTTCTAAGAGTTTTACAACTTAGCTTTTAAGTTTAGGTATTTGACTATTTTAAGTTAACATT
TGTGTATGGTATAAGATAAGGATCCAAGTTCATTCTTTTATGTGTAGAGATCCAGTTTTCCTAGTACCAATTGTTGAAAAGACTGTCCTTTCCCCATTGG
ATGGTCTTAGTACACTTGTCAAAAAAATTGACCATATATGTAAGAGTTTATCTCTAGGCTCTCTGTTCTATTCCATTGGTCTACATGTCTGTCCTTGTGC
CAGTACTATTACTTTAACTTCGTAGTAAGTTCCACAGTTGGGAAGTGTGAGTCCTCCAACCTTATTTTCTTTTTCAAGATTATTTTGGCTATTTGGGACC
CCTTGCAATTCCATATAAATTTGAGGATTATTTTTCCATTTTTAGGAACAAGATTATTGAAATTTTGATAGAGATTGCATTGAATCTGGAGATTGCTTTG
GGAAGTATTTATATCTTAACAATGTTGTCTTTCTATCCAAGAGCTTGGACGTCTTTTTATTTATTTAGGTACTCTTTAATTTCTTTCAGCAATGTTTTGT
TGTTTTCAGTATAGAAGTCTTTCACCTCCAGGGTTAGATTTATTCCTATGTATTTAATTATTTTAGATGCTATTGTAAATGGAATTGCTTTATTAGTTTT
CTTTTTGGATTGTTCATTGCTGGCAAGTAGGAACAACACTAATTTTTTTTGTATTAATCTAGTACCCTGCAACTTAGCTGAATTTATTTATTAGCTCTAT
ACCTTTTTTGTGGATTCTTCAGGATTTTCTATATATAGGGTCATATCATCTGCAAATAGAGAGAGCTTTACCTCTTCCTTTCCAATTTGGATGCTTTTTA
CTTCTTTTTGTCTACTAGCTCTGGCAAGAACTTCCAATACAGTGTTGAAGAGCAGTGGTCAAAGAGGACATCTTTCTTTTGTTTCTCATCTTAGGGGAGA
AGCTTTCAGTCTTTCACCATCGAATGTGATGTTAACCATGGGTTTTTCATAATTACTTTTTATCCTATTGAGGAATTTCCCCTCTATTTCTGGTTTTCTG
AGAGTTTTGTGATAAAAGGGTGTTGGATTTTGTAAAATGCCTTTCTGCATCAGTTGAGATTATCTTGTGGTTATCTTCCTTTGTTTTATTAATGTGATGT
ATTACATTGGTTGATTTTCTTATACTGAACCACTCTTCCATTCCCGGAATAAATCTTACTTGGTCATAGTAAATAATACTTGTTAATATGCTGTTGGATT
TAATGTGATAATATTATGTCAAAGATTTTTTTCATCTGTAGTCATAAGGGATATTGGCCTATAATTTTCTCTTTTTGTGATGTTTTTTTCTGGTTTTGGT
ATCAGGGTAATGCTGGCCTTGTATAAGGAGTTAAAAAGTGTTTCCTCCTCTTCACTTTTTGGAAGAATTTGAGAAAGATTTGTGTTAATTCTTCTTTAAA
TGTTTGGTAGATTCATCAGTAAAGCCATCTGGTCCAGGACTTCACTTTTTTGGGAGGTTTTTGAATACTGTTTCAATCTCTTTACTTGCTATAGGTCTGT
TAATATTTTCCATTTCTTTCTGAGTCAATTTAAATAATTTGTGTATTTCAAGGAATTTATTCATATCTTTTAGGTTATCTAATTTGTGTTCGATTGTTCA
TAGTGGTCGCATAGTCCCTTTTCTCTCTGCAAAGTCAGTAGTAATGTCTCCACTTTCATTTTCAATTTTAGTTATTTGCATTTTCTCTTTTTTTCTTTGT
CAGTCCAGCTAAAGGTTTTTAAATTTTTTTCATCTTTGCAAAAGACCAACTTTTGGTTTCATTGATTTGCTCTATTTTTTCTATTCTCTATTTTGTTTAT
CTCTGCTCTAATTCTTATTATTTCCTTCCTCCTACTAGTTTTGGGTTTCATTTGCTCTTCTACTTCAAGTTCCTATGGTATAAAGTCAGGTTATTGATTT
TAGATCTTCTTTTTTAATGTAGACATTTATACCTATAAATTTCCCTTTAAGTACTGCTTTTACCGCATCCCGTAAGTTTTGTCGTGTTGTGTTTTTGTCT
CTAGGTATTTTATAATTTCTTTTGTGCTGCTTTTTCTTGTGACTCATTGGTTGTTTGAGTGTTTTGCTTAATTTCAACACATTTGTGAATTTTCCAGTTT
TACTTCTGTCACTGATTCCTGTTGTGGTCAGAGAAGATACTTTGTGTGATGTCTATCTTTTAAAATTGATTGAGACTTATTTTGTGGCCTAACATATGGT
CTATCTAAGAGAATGTCTTACATGTGCTTGAGATGAATGTTTATGCTGATGTTGTTGGGTAGCGTGTTCTTTATATGTTAGATGTAATTAGTTTATTGTG
TTGTTTATGTCCTCTATTTCTTTACCTTGTCTGGTTGTTCTATCTATTATTGAAAGTGGACAGATGAAGTCTGCTACCATTGTTGTAGAACTATATCTTT
CTTCAATTCTGTTAAGTTTTGCTTCATAAATTTTGAGGGTCTATTATTAGGTGTGTAAATATTTGTAATTGTTTTATCTTCTTGCTATATTGACTATTTT
ATTAATATATAACATAATGTTTCTGTCTTTGAAAACTTTTTTGATTTAAAGTCTATTTTGTCAGCTGTTAGTACAGCCACTCCAGTTCTCTTTTGGTTAC
TATTTGCATGGAATATCTTTTTCTATTCTTTCCCTTTTGATCTATTTGTGTCTTTGATCTAAAGTCAGTCTTTCATAGACAGCATATAGTTGGATTCTAG
AGTTTGGTTTTTTTTTGTCAATCTGCCTTTTCTTTGGACAGTTTAATCTATTTATATTTAAAGTAATTACTGATAAAGAGGAATTTCTATTTTTCTATTT
GTTTTCTATATGCCTTATAGTTTTTTTGTACCTCATTTTCTCTATTACTGCCATCTTTTGTATTTAGCTTATTTTTTGTAGTAAATGTTTTGATTCCCTG
ATCATTTCCATTTATGTATATTTTACAGGTATTTTTGTGTTTACCATGAGAATTACATTTAACATCCTAACGTTATAACAATCTCATTTTAATTTATACC
AACGTAACTTCAATAGCATACAAAGACTCTGCTCCTATATTGCTCCACCCCCACCCTTTCTATTGATGCCACAAATTACATCTTTATACATTGTGTGCCC
AATAATATACTAATCTTGTAAAAAATTCTTTCTTAGCTGTCCTAAGAGGAACCAAGGGAGGAAGTGTTCAACCCTGGACCAGTGCTTTAAAGCATCAGCA
GAATGTCCCTTACATCAGAGTAATGTGGCATTGGGCAAACCCTAAAGAGCATGGGGCAAACCCTAAAGAATGTGGATAATCAGAAGAATAAAATGTAGGC
TATTTGGGCAACCACATTGTCTCACGTGAAGATATTCCTTCCAGAACTGAACTCCTGATGTCTCTGAGTTTTGTTTTACTTAAAGATAAGTCCCTCTTTC
CCAGGGGATAGTCTCTGTTTTGGTCTGTCTTCAACTGTATGCAGACTGCAATTTGGGGCTAGCACACAGAAGGCAACATGCTCCTGATCCTTGGGAGTGT
GTTCTTGCCGAGTGCACTCAAAAGGAATACAAAGATGAATTATAGGAGATCCGAGTTCCAGAGGGACTGTAAGTTTGTGTAGCTGCTCACAACCAACTTA
GCTTAAAGTGGGATGTATGGCTCTCTCTTATTGGTGACTGGGACATTATGCCTTGTCCCTCCAGAGCAGCATTTTATGTGATTCCTTTCTGCTTCTCTAG
TGCATCTGTGTCCAATACATGTTTGCTGAATTAATGCATTAGTTGGGACATTTGTAGATTCCCTACAACAATTTACTGCTAGGAGGATTATTTGAACCTA
ATACATATGCAAATATATATATTTATACTTTTGCAAACATGATATGTATAAGTAGTTCCTAGACCAGTGATTTTCAGACCTTGCTACTCATCAGAATCAC
CTGAGGAGCCTTCCCAAAACCCCGATTCCTACGTCCCAACCACAAAGATTATTTTAATGAGTCTGAGGTGGAAGCCAGGAATCTACATTTTCAAAAGCTA
CCCAGGTAATTCTGATATGCAGTCAGCATAGATAACCACAGCCCTTTGACTACCTAAGAAAATGTAGTAGTCAAAAAAAGGTATATGAACTGCCTTCTAT
TCTTTAGGGAGATTCTATGTTAATATAGCATACGGTCAAGAACACTACCAATGTAGCCACTTCCTAGCTGTTATCTTTAGACAAATTACCTAATCATTCA
GAGCTTTAGTTTCTTGATGTGTAAAATAGAGGATATAGGTTTACCATGAGGATTTATGTAAAGCCTTAGCACAGTAGCTGTACTATAGCACACAGTAAAT
GTTGGCCGGATTTATTCGGCTGTACACATGAGCCACTGGATTTGTCTGGATGCAGAAGTCTACTGCGGTACACCTTCTTCAKCAAGCTCTTGGGAAAGCA
GGGGAGATTTCCTGGTACCCTAGGAAGTGGAGGATACTAAAGCCATGTCACAGGGAGGGGCATTATTCTTCGTGCGCGCTTGCTCGCCGGGGTCGGGTTG
CTGCTCCGCGCGCGTCCACCAGGGGCCGCTCGAGCTACCTAAGCTCCGTGCGCTACCCGGCGGCGCTCCCGCGCGTGCTCACTCGGAGCAGCGCGCGCCC
SGCAATCGCCGCAGCCGCCCCCGCCGTCGGCCGCCGCACCCCAAGCGACTGCCCAAACTAAGCCTCCGTGGCTGGGTACGGGAGCGCTTTGGGGACAAAA
ATTCTCCCTCAACTGTGGTCTGCATTCCTTCGGCCCGTGGGCYGATCTGGGGCGGGAAGTATTAGCGTCTCAGTTGCGCTGCAGCCGGGGAGGAAGGAGG
AGGCCGAGCCTGGGGCGGAGTTTGGGCTGACTGGGGCTGGACCGGGCAAGACGCCGCCGCTGCCCGGATGTTGCGATGGCTGATCGGGGGAGGCCGAGAA
CCGCAGGGACTGGCCGAGGTAAACCCCGRGTGGGTCTGCTCTGCGTCCGTCGAGCYTGCTGGAGGGGCGGCTTCGTTCCGGTTCGGCCTTCCTSGGTTCC
GACCGCGGGGACCCGGGCGGAGGCGGGGCTGGCTGCTGAGCTCGTGCCACGCGCTGTTCTCACGACGGTGGGGGCGGAGGGCGCGGGAGCCGGAGCTCCT
CAGASCCGGCGGGACCCCAGGCGCACCCTGGAGCTGCAGACCCCCGGCCCCGTCCCACGGCTAGCTGAATCGTGAGATCCTGGCTCAGGGACGCTCAGCT
GGTCAGCAGTCCTATTGGGASCTGTGACAACTTAGGGCTTCTGGCTACCGAAACTATCTTCATTTCCACTTAAAAAGTATACGATTTAGCTAGAAACGAA
CGAGTTGTGACCGCAGCTTTCCACTTTTGGTTTATTTGAATTGGTGTCTCTTCCTGGCGTCTACTGATACTTGGTCAGGGAATATAAAATTAATTTWCTT
ATCCAASAACCGAAAAAGSATATAATTATTTTTAAAAAGTAATCTGCTTCAAGGTCAAGAACATGATTTTCTAATTAACTGCTGTTTTTGGTTTCATAGT
CACACTTTCTTCATGGGCCCGAATAATTGAATAGACCGTGTGTAATGAAATTTACATTTGAAATGTGAATAAAATAATTTTTGCAGTCTTGGAAATTTTG
AGGTCCCAAATTTATTTCGTATGCCACACAAGAACTTTCATGCGCGTCCGTGTGAAGAGACCACCAAACAGGCTTTGTGTGAGCAATAAAAGCTTTTAAT
CACCTGGGTGCAGGCGGGCTGAGTCCGAAAAGAGAGTCAGCGAAGGGAGATAGGGGTGGGGCCGTTTTATAGGATTTGGGTAGGTAAAGGAAAATTACAG
TCAAAGGGGAGTTGTTCTCTGGCGGGCAGGAGTGGGGCAAGGTGCTCAGGGGAGCTTTTTGAGCCAGGATGAGCCAGGAAAAGGACTTTTACAAGGTAAT
GTCATCACTTAAGGCGAGGACCGGCCATTTTCACTTTTGTGGTGGAATGTCATCAGTTAAGGCGGGGCAGGGCATTTTCACTTCTTTTGTGATTCTTCAG
TTATTTCAGGCCATCTGGGCGTATATGTGCAAGTCACCGGGGATGCGATGGCTTAGCTTGGGCTCAGAGGCCTGACAAGAACAGAATTTGTGAATTGCAT
TTTATTTCTCATAAGAAGTATTTGTTTAGATTGTTAAAAGTAAGAAATTGGATTGTTGAGAGTAGGCAGTCTTCTCAATTTTAACTTCCGCATGTCTTTG
CAGTTGACGGTATTGTCWGTTTTTAAAAATTTCTTATTTCAGATTAATCCTAAATCCTTGAGATTGTGGATTATTGAATAGCCRTATATGGTATATACGA
CATTTTGGATAATTCTGTTTTAACCTGGTTCTTTGGTTAATCATGTTATTTGCTTAACCAGGTCTCCCATTCCTGGCAAGTTTTCATTGGAGGAGAAGCA
GTTTATATAGTTTTCAAATTTCTCACCACAATCTCTTCTAGAAGGAAGACAGAATAAATACAAAATCAATGCTTTGTGGTGGTGGTTTTTTTTTTGGAAA
ACATTTATGCATGTTTTAAATTTATATATTTCTTCATATAAATSTAATTGAGTTGTATAACTGCTGTGAATTTGTACATTATCGGAACCTATGATTGTCC
CTAATTTATGCAATAACTTTGTATCCAGGCTTCTCGTTTAAGCAGTGGTTCTCAACTGGGGTGATTTTTGCCCCGCAGGAGACATTTGGCAATGTCTGGA
GACATTTTTGATTGTCATGCCTTGCAGAGGGGCAGTTCTATTGGCATCTAATGTGTATAGACCAGGGATGCTGCTCAATGTCCTGTAATGCACAGGACAG
TTCTCAACAACAAAGAATTATCTGGGCTGGGCGCGGTGGCTTACTCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGAATCACTTGAGGTCAGKA
ATTCAAGACCAGTCTCGCCAACGTGGTGAAAACCTGTCTCTACTAAAAATACAAAAATTAGTTGGGCGTGTGGTGCGAAAAAAAAAAATTCTCTAGCCCA
AAATGTCAGCATCAAGTTTGAGAAATCCAGAGTTGATTTCATGCCTTCATTTATTCATTTAGCAAGCATGYATTGAGTGCTTGTAATGGATGAGGCACTG
TTTCACTATTTTATGTCTTTGATTTGCAGTTTTGTTTCTGCCACATTTTAACTGAGAAACATGCATTCTAAAATGTTGAGTTGGATTGGCCCATTACTTT
TTTTAAAGTGAGGTTTAATAGGATACAATTTACATAAAATAAAATTCACCCTTTTTGTAAATTTATTGTGATTTGAAAATACTAAAATTCATGATTYGAA
TTTGTGGTAGGAGAAGTGTTTTATGTGGAACTGGCAGTTATTTAGTTGATAAAAGAAGAAATAATATTTAGTAGTAGAACATGATACCTTAAGGCTTTTA
AAATCTTGTGTTCTCAGATGTATACCATGGAGTTATATTCCAATATGGTCTTACAAATCATTTTATCTCTTTTTTTGTCTTTTGTTTTTTGCTTTTTTTT
TTTTTTCAATACAAGAAATCTCCTTTACAGACAATAGGTGAAGAACAAACCCAGAATCCCTACACTGAACTGCTAGTACTGAAGGCTCATCATGATATTG
TACGATTTCTGGTACAGTTAGATGACTACAGGTAAGAAGCTATAGTGGTCTAATTGACTATTGTTTGGGAAGAGGTTTTAGGGAATTTTATGTTAAACAC
CTTTAAAATTAATACATCTTTTCTAAAAATTTAAAAACTGTGATCATTAGTAACATTTAGTAGAAATTGAAATTGGCCTCTGCATCTCGATGAAATATRT
ATCTAGAGTCTTTTTTGCCCAAAGTCAGGGTGTCGTGTCTGGTGATTTGAGGGTTATGTTTGTTTGTTTGCATTCTCAGAAATATTCTTAATAGTTTAAA
AGAAGTGTATGACTTTAAAATTTGGGTAGGAGTTATAACAGTATATTAAGGAGAACTTGTATTTGAGAAACAAATATGCTAAGTGTTTAAGTATCAGGTA
CCTACCAGGAATGTTTTATTTTTAGTGGAAGGTAAGTTTAATCCAAAGTTTTTGTTATTGATGAAACCACTTGAAAATGTACATTATTCTGTACTTCCTT
GCTAACATGTATAATAATTATGTTTAATATATTTGCAAATAGAGGTGAAGGTGTATAGGCTTTAGGACTGTAGACTATTACTGATATGTATATATGTATA
TTAAGCCCATATTCAACTGTATATCTTTTATAGCATGTTTCACCATAATAATTACATAATTAGTGGTGTAATTCAATATTTTCGTCCTCTCTAAAATGTA
AGCTTCATGAGAATGAGGCTATGTTTTTCTTATTCACCATGTTTTCTTAGTACCTAGTACAGTGCCTTACATGTAGCAGATAATTCATAGATGGTGGCTG
AGTGAATGAATGACTCTCCAGACTACTAAGCATCCACATTGAATGCCGTCCTAATCCCCYAACCTCATTTCTGTTGTCTCTACTAGTTTTTCCACTTTCA
TCTCTAATTTTGTCTTTTGCCTTTGCTGTTTTTTTTCACTCCATGGATGAGTGTTACTGTAATTATTCCTAACTCTGACCACCACTTCTGCTGTCTATTA
ACCTTGTCTTTTCTCTGCTTTTTTTTTTTTAATTTAATTTAATTTTTAAAATAGAGACAGGGTCTCACTATGTTGCCCAGGCTGGTGGGCAACTCCTGGG
CTCAAGCTGTCTTCCCACCTTGGCCTCCCAAAGTGTTGGGATTACAGGCATCAGCCACCGTGCTCAGCCTTCTCTCTGCTCTTTAAATGTTACTGATATT
TAGTTGCTTTACCATGTGCAGTGCAGTTCTGACATTACCTGGACTTAGGTCAGATTCCACAGATGAAGGGCATAGTCTATACAGCACCCCTCACTGGAGA
CACTAGCTGCAAGCCATGTATGGGTTTGTAGGCCACTTGCATTTCCAGCTGCTGGCTACAAGTTCCTGCTGTTCCCTCAGGTCTGATAATTCACTAGAAG
GACTCACAGAACTGAGGAAAGCACTATACACAGGATTACAGTTTTATTATAAAAGATACAAATTAGGACCGGCCAAATGAGAGGATGTATATAGGGCAAG
GCCTAGGGGGTCCCACATGCAAAGCTTCCATGTCTCAAGACTCCTCGCCCTCTTGGAACATCAGTGTGTATCACCAATGAATGAGCACACTTGAGCTTTG
GGTGTCCAGAGCTTTCATTAGTAGGCATGATTGTTTGAATCATTGGTCACATAATTGAACTCAATCTTCAGTCCCCACCCTCCCCACCGTGACTGGTAGC
AGAAAGCCCAAACCTTTAAATCATGTGGTTCATTTTTCCACCTTGGCCAGCCCCTTTCCTGATGTTATCTCAGGGCCCACTGTGAGTTGTTCCTTTAGTA
TAAACTTAGGTGTGGTCCAAGGGACCCACCATGAATAATGAAGACATTCTTACCACTTGGAAAATTCCAAGGATTTAGAGACTCCCTTCTAGGAACCAGA
GACAAAGTCCAGCAAAGTTATTAAACAGTACCATGCTTCTTAACTTTTGCTTGAAAAGATTTGTCTCATATATATTACTGGCCTGTCATCACTGTTTTCC
TGTTGTGATGCAAGTCAACCAAATCATGSCATGTTAAACAATCATCTGCAGCCTTTTTTTKGGCAATGTTACTTGTTGCTATGTCCTGAGAGACACTCCA
TTTATTAAAGTGGTCATTTTTGTGGGGAACTAATTATTTCTGGAAAGGTAAGATTTTGGACAGCTAAAGTTTTCTTGCGCTATATTTTACCCTAGTAAGT
TGCTAGATTAAAGAAAATCTGATAATTTCTTATAATCACTAATACTTGGGTGTTAAGGAATCCTAAAGTTATTTTGTCCAGGAAAGTTAAATAATAAATA
CACAGTATGTGATCAGGTTGTGGACTTTAAATATTTGTATAAATTGTTAAGAGATCATGTTCATTGCTGTCTTTCCTCTGTGAAATATCCTCTTGGCTAT
TCCTATCCCATAGTTAGAAGAGGACTCTGTAGAAGAGGCCAGCCTATAGAATAATGGTTAGTGTACAAATGCTGACATATATTTGGTTTAATTTTCCCCA
CAGTGGTGCTCACATATACTTTAGTTGTTTAATGATAGAGTAAATATTCTGTAAAGAGTAAAAAGCCATATGTGGGTATGTTAGTTACCGATTGCTCTGT
CAGCTGTCACACCAAACTTAGTGGCTTAACACAACCCCATCTATTTAKCTCATTATTCTGCAGGATGGCAATTSGGGCTAGGCTCAGCTGGGTGAGTCTG
TCTTTGCACCAGGAGCAACTGATCTTGGCTAGATTCACTTATGCCTCTGTCAGCTGGTAGATTGGCGGGGGCTGGCTGGTTCATTTCAGCTGAAGGTCTC
AGCTGAAATGACTGTGGTCTCCCTCCATGTGGTTTTTCAGGTGCTTGTTCACATAATGATCATGGAGTTCTAATAGCAGCAGAAGGGCAAGCCCCAAAGT
AAGACACTTTTCAAGTCTCAGCTTGCCTCGTGTTTGCTGCTGTTTCGTCAGCCAAAGCAAGTTAGGAGCTGGCACAAATTCAGTGAGTGGGTAAATAAAC
TTGACCTCTCATGGTAGAAGTAACTAAGTCCTATTGCTAATGGTGGTGGCAATATTGGGAGGGGGAATAAYTTGTGGCCAGTTTGTGATCTACCACAGTG
AGTCTAAGATAGATGAAGAAGCCTGCTTTTTGGCTTTTGTAATACAGTGATGATATGACTTCATGATTCACATTTAATTCTTTGAAAAGTCATCAAATTT
ACATATAATCAACTATGAAGTTTTTCGGTCATTTGCTGACCTGTAGAACTTTCAGTCTGTATGTTGTTTTTAAAAATTTAATTCTGTAGTGTACTAAAAA
AGAAAAACCGAAAGAGTCATCTTCGTAAGAAGGACACAGGAAAATCTACAAAGTATAAACATTATGAACAGAATTAACCGAATGTTTTTACTCTTAATAG
TTTAGAATTATCTTTACCATTGCATATGTACATTATGCATTGTCAAATTAGAGAAATACCTTTCCAGTTTTAAAATTTTATATCATTATCCTTTTTTTGT
TTCTTAGTTTTTGAAGACATTACAYTCTGGGTTTTTTTTGGTCAGCTGTTATAATCCAGGTTTCACGCTTCAAGTCTTTAGATAATAWCATCTTATTGAA
AATTTTGCAGAAGGATTTTCTTGTTTTCTCAGTGGCTCAGCTAAAATCAGTGAGTGGAAAATTTTCTCGGATTGGTTTTTGAAGATACCCAATAAATCCT
GTATAACCTAACAGACAGCTGCCTTTTCTTTTCTTCTTTAGTATTTTTTGAACATGAAGTGAGGGTCGTATTGATGAGAGATCACTAAAGAAGGTTAAGC
CTCAGCAAAAGTCTTCCAAAAAATGGGCTGTGCTAAAATTKCATGTAATACTCTAGCGTTTGACACATTAAACTAAACTGAGTTCATAACACATTTTAAG
AAGAGTTTTCTCCGTTGCTCATTTGACCATTCCTTGCTCCTTCAGGAAACAGACAAGGTTATGTAGGATGGTGATCATGACTGGAAARGAATCAGATGAC
CCATGATGAAGTGCCAGATTGGAGAACAAAATGTGCCTCTAGGATGGTTGGTGAAGCTGTACATTCACAAGAAAGTAAATAAACTCAGTATAGCTTGATA
ATCCACTAAAAATGAACAATATGCTCATTTTAAAGGAAATATTCTCAAGCTAAACATATTCTTTCTTATACACTAACCTTCAGAGAACAGAAATCAGTAT
AGTTTAGATCCTAGGATCTGGGTTCCCTGGGAAACAGATAGTCAGTATAGATCCTTCTAGTACCTGGGTTCCCTGGGAAGGAGACACTAAAATGGAGACA
CTAAGCATGCAATAGGTTTATAAGAGAGAAAGCCAATGAAAGGAGAAGGGAGGAAGCAGAATTGGATAAGGGGAGCTGTCTCAGACTCTGATGCAGATGT
GACAAAGTTTCTGCCAGCCCAATGGGGACCGCTGGAGGAAAGGCTGCTTTTTAAGAGTTCTCTACTGGATGTAAATAACTAGGGCTTTGTACTATTGCCT
TGCTTAGTTATTTGCTGAGGGTCCTTCATGAAGAAYATGCACCTGGCTTCTACTATCTKGCTTAAATCCCAGTGACTAGGAGCCGATTGAGCTAGTATAA
CTTTGGCTTGAAGGCAGAAATGGATCCTGAAGTCAACAGCTGGAGGCAGTCAGATAACTATATTCCTCACAGCTGGGCAGTGAGTCCTGTCTTGAAAGGG
GGTCTGGAAGGCAGGTATTGGCGTCTGCCACACTTCCATAGTTGTAAGTTGGTCTATTTTATTTTTAACTTGCATGAACATACTCATKGGCTATGTCTTT
GGGCAGCTTTTTAAGRAACTGTAAGTATGCCATTGGTTAATAGTTATTTGATGGCTTGAAAAAGTTAATATTTTTAGAGCTATTAACGTACTTATGCCTG
GAAAAAAGGGTATAACCAGRATCCTTTTTATCACAAATTCCAGCAGCTACAATATTAATAACAGACTCCATATCTGGCATTTTTTTAAAGCACTTATATC
CAGTGTGACGTTGACTTTAGACAACTTTATTATAGTAAATTTTACTAAAATCTGTTAACCAAATAGCTTTTCTWTTTCTAAAGGCCCCTAATCCACCATG
TGTGGTGAATGTGTTGATTGAATTTCTGTTGTTTTGCATCGTGCCCTGAATCAAGCGGGGAATTTCGGCAGTGTCATCACACAGATGCGTGTGCCACCCT
TGCTGCTTTTCTCCTTATTTCTAATAATTTTGTCCTTTCAGCTTGTGTTTTGGAGCTGTAGCTGAGTTTYGTTTAGTTGGATAAGATGTTGCAGGGTTTG
GGAGGATGACAGGAGTGAGTGAAAMGGTAATTGCTGCTTCATGCATTAGCATAGAATCAAATTTTAGGATAAGGACAGCAAGTGTCTAACAGTATTTCAG
TTTCAAATTTGTCATCTTAGCAGTAAAACTCTAATTTCTAGATAAAATCAGTCTCTCTCAACTACAAAATACCCTTACTCTAGGCATTTGAAAATTATTT
TCTTGAACATCTTTCAAATGTAGCTTTAAAAATCCATCTGGCAACTTGAGCATAGATAYAGGAAGTAACTGCAATGAATTGCAACATATCACATATGTTT
AAATCCATGTGTTCATAATGATACTTAAAAAAGAGAACTCACCTTTGGAGAATGCTGGGGAACTAACTCATTCTGTTGAAAATCGGTAAATAAAAGGGCA
GAGTCAAAATCTRTACTGCCTTTCTTATATAAACTGTGTCTTGGGATCAGTAATAATTGACGAGAAGAAATTTCTCTGAAGAATTCAAGCTAGGAAGAAT
GATAGAATTAGAATATTGTAATTTTGCAACCTCTAATGTGTAGAGGAGGAAAACACTTTTCTTCTACCTATCTTAGATTCATTGATCAGGGCTCTACAAC
TTAGACATACAAAAGACAGGTTAATGAGCGAAAAAGAAGTATATCAATGCATACGTTGCATACACACACACACACACACACACACACACACACACACACG
AGTATTCARGTAACTCGTAGGGGTGGTTAAAACTTGGGCTTAGGCTGGGCACGGTGACTCAGCCCTGTAATCCTAACACTTTGGGAGGCTGAGATGGGAG
GATTCCTTGAGCTCAGGAGTTTGAGGCTAGCGTGGGCAACATGGCAAAACCATGTCTCTATTAAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACAC
CTGTGGTCCAAGCTACTTGGGAGGCTGAGGTGGGAGGATCACCTTAGCTCAGGAGGTTGAGGCTGCAGTGAGCTGTGATCGGGGCCACTGACTGTAGCCT
GGATGACTGAGTAAGACCCTGTCTCAAAAAAGAAAAATAAAACTTCAGCTTATATAGCATCTTAGCAGAACAAGAAATTTGTTGAGTGACAAGACAAAGG
AAATGGACTTTGAGTTTCTTGGGGTGGCAAATTGTGAGAAGGCAAATATATGATGGAAACTGCTGGTAGAGAAGGGCTCATTAGTGAGGTTGGTTTGTGT
AAACTCTTGGTGCCATCTCATCTGTGATAAAGGTTGTTATCCCCCTCCTGGTATGGGAGTGGGGGTGGAGGTTCCGGGGGCACTTTCCCAAGGGTGATGT
GTGCTTTTTTTTTTTTTTTTTCAGGTAGATGTGGGGAGGACAGAGCTCATTCTGTGCCTGCATTTTCTCAGTTGCCTTAAGCTGAAAATAATCATTATGT
CAGAGTGGCATAGTTTGGGGTTATGTGCTCTGAACCCCTTCAAATGAAATAATGAATTTAGATGGCCTAAATCATAACATATACACATACACACACAAGA
TAGCCAGAAATTATAYTTCCKGATGGAGTATACAATCTGCCTTTGGGGTGGTCTTACCAAAAAGTCAGATATGGATCTTATTTAGTCTCTAGATTTAACT
ATCAATTAACAAAAAATACAGAGGACAGAGGTGCATGTTGGATAACAGCACAGGAAAAAAAWCCCAGACTGTGAGAACTCGACAAGACAGGTGAATTTTT
TTTTCAACAAATAAATTRCAAGGAAAAACAGATGGAGAAAAAAATCATTAGAATAAAAGAGATATTAGAGATAAATCAACCAAGTGTACTATAGAAGCCT
TATTTGGATCCTTCTAACTGTTTAAAAAATTACGATCAGCTAAATTTGATCATTGACTGRGTATTTGATGACATTAAGGAAGTAAATGTTAACTTAGRTG
TGATGTAAAAGAGTCCTTAGAGATGCATTCTGAAATACTGACAAAATGAAATACAGTGACTAGGATTTGCTTCAAAATAATTTACAGAGGGGTTGGACTG
GGTGCAGATAAGACACTAGTGGCCATAAATTGATAATTACTAGAGACAGGCAATGAGTACATGTGGCTTTTTATTATAATGCCCTTCTCTCCACTTTTGT
ATATATTTAAATTCTCCGTAATGAAAAGTTAACTATCTGTATTTGAAATAGAGGAAATAAAAATGCCAATTTAAAAGGTATTTATGCCTCTGTGAAATAA
AATGTTTTCTTAGATATTGCTAGTGTTCTGAGTGTTCAGTGGAGAACCACCCTTGTTTCTCTTTGAGAACAGAATTTATTGAGAATAGTTGTAGGAATCA
TACAGATGAACATGAACATATCAGCTTCATAAAGTAATAACCGATACAAAACTGGATTACCAGATATGGCTCTTTTTTTTTTTTTTTTTTTTTTGAGACG
GAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGACCTTGGYTCACTCCAACCACCGCTTCCCAGGTTCAAGCGATTCTTCTGCCTCAGCCTCC
CGAGTAGCTGGGACTACAGGCATGTGCCACCACACCGAGCTAATTTTTGTATTTTTAATAGAGACAGGGTTTCACCAYATTGGCCAGGCTGGTCTCGAAC
TCCTGATCTCGTGTTCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTACCAAACCCAGCCAGGATGTGGCTTTAATATGTACCCAC
AGTGGATTTCCTTAACACTTCACCCTGAGTCAAGTAGACTATTTCAATGAATCCCTGGGGCAACTGAAGAGTTGCCAGCCTCCCATTCAGATACAGGCTT
ACCTCAAAAATAAGAGCAGACCAGTATGTTCCCTCTCTGTGAACAGATGAATCTTCAGAAAACCCACAAGGGGCYGGGTATGATGGCTCATGCCTGTAAT
CCCAGAACTTTGGGAGGCCAAGGCGGGTGGATCACAAGGTAAGGAGTTTGAGACCAGCCTGCCCAACATGGTGAAACTCCATCTCTACTAAACATACAAA
AATCAGCCATGCGTGGTCGTGGGTGCCTGTAATCCCAGCTGAGGCAGGAGAATCGTTAGAACCTGAGAGGCAGAAGTTGCAGTGAGCTGAGATCACGCCA
TTGCACTCCAGCCTGGGCAACAGGGCGAGACTTTGTCTCAAAAAAAAAAACAACCCAGAAAACCCACAAGGGTCTGAACTGAGCATGCCTAATTCATTGT
CTCAAGCAAGTGGSGCAGAGAGAGACCAAGAATGTTTCTCTAGTAGTRGGAGTCCTCCATGGAAACTTGAGTGCAGGGGAATGGAGGTTCACCTAATAGA
AGTCACACAGAKTTTTTTGGTATTCTAATACTGTAATCTTTTTTTTTTTTTTTAATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAG
TTACATATGTATACATGTGCCATGCTGGTGCGCTGCACCCACTAACTCGTCATCTAGCATTAGGTATATCTCCCAGTGCTATCCCTCCCCCCTCCCCGCA
CCCTACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAGTTCCCACCTATGAGTGAGAATATGTGGTGTTTGGTTT
TTTGTTCTTGCAATAGTTTACTGAGCATGATGTTTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTC
CATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCCTTGCTATTGTGAATAGTGCCGCRATAAAC
ATACGTATGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGAT
CCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAAGAGTGTAAAAGTGTTTCTATTTCCCCACAGCCTCTCCAGCA
CCTGTTGTTTCCTGACTTTTTAATGATCGCCATTCTAACTGGTGTGAGATGATATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGGT
GAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCGCCCACTTTTTGATGTGGTTGTTTGTTTTTT
TCTTGTAAATTTGTTGGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTT
CACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTAGCCATTGCTTTTGGTGTTTTA
GACATGAAGTCCTYGCCCATGCCTATGTCCTGAATGGTAATGGTTAGGTTTTCTTCTRGGGTTTTTATGGTTTTAGGTCTAACGTTTATGTCTTTAATCC
ATCTTGAATTGATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTCCATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGA
ATCGTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGCRTTATTTCTGAGGGCTCTGTTCTTTTCCATTGATCT
ATATCTCTGTTTTGGTACSAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGCTCTTTT
GGCTTAGGATTGACTTGGTGATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGAT
GGGGATGGCACTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCACGRTACTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTT
GTATCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCCCATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTG
AAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTTGTTGGTGTATAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAG
ACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGCTGAGACAGTGGGGTTTTCTAGATATACAATCATGTCATCTACAAACAGGGACAGTTTGA
CTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGG
GCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATT
TTGAAATACGTCCCATCCATACCTAATTTATTGAGAATTTTTAGCATGAAGTGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTGTTGAGATAATCA
TGTGGTTTTTGTCTTTGGTTCTGTTTATATGATGGATTACATTTATTGATTTGCGTATATTGAACCAGCCTTGCATCCCAGTGATGAAGCCCACTTGATC
ATGGTGGATAAGCTTTTTGATGTGCTGCYGGATTCGGTTTGCCATTATTTTATTGAGGATTTTTGCATCAGTGTTCATCAAGGATATTGGTCTAAAATTC
TCTTTTTCGGTTATGTCTCTGCCCGGCTTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTACTATTGATTGGAATA
GTTTCAGAAGGAATTGTACCAGTTCCTCCTTGTACCACTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTCTTTTTGGTTGGTAAACTATTGAT
TATTGMCACAATTTCAGATCCTGTTATTGGTCTATTCAGAGATTGAACTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCGAGGAATTTATCCATT
TCTTCTAGATTTTCTAGTTTATTTGCGTAGAGGTGTCTGTAATATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGATATCCCCTTTATCAT
TTTTTATTGCATCTATTTGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGA
TTCATTAATTTTTTGAAGGGTTTTTTGTGTCTCTATGTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGC
TCTTGCTTTTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTGGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTAC
ACACTGCTTTGAATGTGTCCCAGAGATTCTTGTTCTCGTTGGTTTCAAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAG
GAGTAGGTTGTTCAGTTTCCATGTAGTTGAGCGGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGACAGTTTGTT
GTAATTTCTGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACTATGTGGTCAATTTTGGAATAGGTGTGGTGTGGTGCTGAAAACAATGTATATT
CTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGATTTCAATTCCTGGGTATCCTTGTTGGCTTTCTGTCTCGT
TGATCTGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTCTCTTTGTAGGTCACTCAGGACTTGCTTTATTCAT
CTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATGATGTAATGGCCTTCTTTATCTCTTT
TGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGAGTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCTTTT
TATTTTGAGCCTATGTGTGTCTCTGCACGTGAGATGGRTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTT
TTAATTGGAGCATTTAGTCCATTTACATTTAAAGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTTGTTAGT
TGATGCAGTTTCTTCCTAGTCTCGATGGTCTTTACATTTTGGCATGATTTTGCAGCRGCTGGTACTGGTTGTTCCTTTCCATGTTTAGCACTTCCTTCAG
GAGCTCTTTTAGAGCAGGCCTGGTGGTGACAGAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCT
GGATATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCACTGTCTTCTGGCTTGTAGAGTTTCTGCCAGGAGATCCGCTG
TGAGTCTGATGGGCTTCCCTTTGAGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTAT
GTGTCTTGGAGTTGCTCTTCTCGAGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAATCTGAATGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCC
TGTATAATATCCTGCAGAGTGTTTTCCAGTTTGGTTCCATTCTTCCTGTCACTTTCAGTTACACCAGTCAGACGTAGATTTGGTCTTTTCACATAGTCCC
ATATTTCTTGGAGGCTTTGGTCATTTCTTTTTATTTTTTTTTCTCTAAACTTCCCTTCTCGCTTCATTTCATTCATTTCATCTTCCATCGCTGATACCCT
TTCTTCCAGTTGATCGCATCGGCTTCTGAGGCTTCTGCATTCTTCATGTAGTTCTGGAGCCTTGGTTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCT
GTATTGGTTATTCTAGTTATACATTCTTCTAAATTTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATGTCCTCCCGTAGCTCATAGTAATTT
CATCGTCTGAAGCCTTCTTCTCTCAGCTTGTCAAAGTCATTCTCCATCCAGCTTTGTTCCGTTGCTGGTGAGGAACTGCGTTCCTTTGGAGGAGGAGAGG
CGCTCTGCTTTTTAGAGTTTCCAGTTTTTCTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTGTCTAGTTTTGGTCTTTGATGATGGTGATGTACAGATGG
GTTTTTGGTGTGGATGTCCTTTGTGTTTGTTAGTTTTCCTTCTAACAGACAGGACCCTCAGCTGCAGGTCTGTTGGAGTACCCGGCCGTGTGAGGTGTCA
GTCTCTCCCTTCTGGGGGGTGCCTCCCAGTTAGGCTGCTCGGGGGTCAGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGCCCGTTGTCAGATCTCCAGC
TGCGTGCTGGGAGAACCACTGCTCTCTTCAAAGCTATCAGACAGGGACATTTAAGTCTGCAGAGGTTACTGCTGTCTTTTTGTTTGTCTGTGCCCTGCCC
CCAGAGGTGGAGCCTACAGAGGCAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGTTGGAGCTTTCTGGCTGCTGTGTTTACCTAAGCAAG
TCTGGGCAATGGCGGGCGCCCCTCCCCCAGCCTGGCTGCTGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATTAGCGAGACTCYGTGGGCGTAGG
ACCCTCCAAGTGAGGTGCAGGATATAATCTCCTGGTGCGCCGTTTTTTAAGCCCGTCGGAAAAGCGCAGTATTAGGGTGGGAGTGACCCGATTTTCCAGG
TGCCGTCTGTCACCCCTTTCTTTGACTAGGAAAGGGAACTCCCTGACCCCTTGAGCTTCCCGAGTGAGGCAATGCGTCGCCCTGCTTCGGCTCGCGCACG
GTGCAYGCACCCACTGACCTGCGCCCACTGTCTGGCACTCCCTAGTGAGACGAACCCGGTACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGCGTC
GCTCACGCTGGGAGCTGTAGACCSGAGCTGTTCCTATTSGGCCATCTTGGCTCCTCCTCCTACTGTAATCTTGATGTGTAGTTTAGCTTTCTATCTGTGA
TTTGGGAAGGGAAGAACTTACCAAATGTTTTACCTTTGCAAATAACCATGGGAACTATGCAATCTTTGTTTGTGAGCTAAAAAAGGACCTTAGACTTTTA
GATGTTAGAGTCATGTTAATATAATACATTCTTTTTTAAGGAAAAGAAATTGTTGAAGTAGATCTAATTAAGGAATTGGTTGCGTCAGCATCTATGGCTC
CTGAAAATGCTTTGACGTTTCCTTCAACTSCTTTACAAGTCCCTATCTGGATGCTTCTCTAATTTTCTTCAAGTAGTTCTAGCATACAAACATATACTTT
AAATGAAAATTGTGATTTTTTTTGTTGTTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTGTACATGTGCCATGTTGG
TGTGCTGCACCCAGTAACTCATCATTTTAACATTAGTTATATCTCCAAATGCTATCCCTCCCCACTCCCCCCACCCCACAACAGGCCCTGGTGTGTGATG
TTCTCCTTCCTGGGTCCATGTGTTCTCATTGTTCAGTTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGCCATAGTTTGCTGAGAA
TGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCATGTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTT
AATCCAGTCTATCATTGTTGGACATTTGGKTTGGTTCCAAGTCTTTGCTATTGTGAACAGTGCCRCAATAAACACACGTGTGCATGTGTCTTTATAGCAG
CATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCC
ACAATGGTTGAAGTCCCACCAACAGTGTAAAAGTGTTCCTGTTTCTCCACATCCTCTCCAGCATCTGTTGTTTCCTGACTTTTTAATGATCGCCATTCTA
ACTGGTGTGAGATGGTATATCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGCRCATTTTCTCATGTGTCTTTTGGCTGCATAAATAT
CTTCTTTTGAGAAGTGTCTGTTCATATCCTTTACCCACTTGTTGATAGGGTTGTTTATTTTTTTCTTGTAAATTTGTTGGAGTTCATTGTAGATTCTGGA
TATTAGCCCTTTGTCAGATGAGTAGATTACAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTTTGCAGAAGCTC
TTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTAGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCTCATGCCTATGTCCTGAATGG
TATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTGTTTAACCCATCTTGAATTAATTTTTGTAGAAGGTGTAAGGAAGGG
ATCCAGTTTCAGCTTTCTGCATATGACTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCA
AAGATCAGATGGKTGTAGATATGCGGCGTTATTTCTGAGGGCTCTGTTCTATTCCATTGGTCTATATCTCTGTTTTTGGTACCAGTATCATGCTGTTTTG
GTACCAGTATCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAATTTGAAGTCAGGTAGCCTGATACCTCCAGCTTGGTTCTTTTGGCTTAGGACTGAC
TTGGCAATGCGGGCTGTTTTTTGGTTCCATATGAACGTGAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGA
ATCTATAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTAT
TTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCCCATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCARTTGTGAAT
GGGAGTTCACTCATGATTTGGCTCTCTGTCTGTTATTGGTGTAAAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTT
GCCTATCAGCTTAAGGAGGTTTTGGGCTGAGACARTGGGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCT
AATTGAATACCCTTTATTTCCTTCTYCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGKCATCCCTGTCTTG
TGCCAGTTTTCRAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCACAGATAGCTCTTATTAGTTTGAGATATGTCCC
ATCCATACCTAATTTATTGAGAGTTTTTAGCATGAAGAGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTGTTGAGATAATCATATGGTTTTTGTCT
TTGGTTCTGTTTATATGCTGAATTATGTTTATTGATTTGCGTATATTGAACCAGCCTTGCATCCCAGTGATGAAGCCCACTTGATCATGGTGGATAAGCT
TTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTACTGAGGATTTCTGCATCAATGTTCATCAGGGTTATTGGTCTAAAATTCTCTTTTTTGGTTAT
GTCTCTGCCCGGCTTTGGTATCAGGATGATGCTGGCCTCATGAGTTAAGGAGGATTCCCTCTTTTTCTGTTGATTGGAGTAGTTTCAGAAGGAATKGTAC
CAGCTTCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGATTTTTTTTTGGTTGGTAAGCTATTAATTATTGCGTCAATTTCAGA
TCCTGTTATYGGTCTATTCAGAGRTTCAGCTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCAAGGAACTTATCCATTTCTTCTAGATTTTCTAGT
TTATTTGCRTAGAGGTGTTTTTAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATTGGTGGTGATATCCCCTTTATCATTTTTTATTGCGTCTATTT
GATTCTTCTCTCTTTTCTTCTTTATTAGTCTTACTAGCGTTCTATCAATTTTGTTGATCTTTTCAMAAAACCGGTTCCGGGATTCATTAATTTTTTGAAG
GGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTGGCTTTCGAATGTGTTTGCTCTTGCTTTTCTAGTTCT
TTTAATTGTGATGTTAGGGTGTCAATTTTAGATCTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGTGT
CCTAGAGATTCTGGTATGTTGTGTCTTTGTTCTTGTTGGTTTCAAAGAACATCTTTATTTCTGCCTTCACTTTGTTATGTACCCAGTAGTCATTCAGGAG
CAGGTTGTTCAGTTTCCATGTAGTTGAACGGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGACATTTTGTTATA
ATTTCTGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACTATGTGGTCAATATTGAAATAAGTGTGGTGTGATGCTGAGAAGAATGTATATTCTG
TTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTAAGTTCAATTCCTGGATATCCTTGTTAACTTTCTGTCTTGTTGA
TCTGTCTAATGTTGACAGTAGGGTGTTAAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTCTCTTTCTAGGTCTCTAAGGACTTGCTTTATTCATCTG
GGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTGAATTGATCCCTTTACCATGATGTAATGGCCTTCTTTGTCTCTTTTGAT
CTTTGTTGGTTTAAAGTCTGTTTTATCAGAGAGTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCTATCCCTTTATT
TTGAGCCTATGTGTGTCTCCGTGCATGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAA
TTGGAGCATTTAGCCYATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTTGTTAGTTGAT
GCAGTTTCTTCCTAGCCTCGATGGTCTTTACAATTTGGCATGTTTTTGCAGTGGCTGGTATCGGTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGC
TCTTTTAAGACAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGAT
ATGAAATTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCATTATCTTCTGGCTTGTAGAGTTTCTGCCAAGAGATCTGCTGTTAG
TCTGATGGGCTTCCCTTYGWGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGT
CTTGGAGTTGCTCTTCTCGAGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAATCTGAATGTTGGCCTGCCTTGCTAGATTGGAGAAGTTCTCCTGTA
TAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCTGTCACTTTCAGTTACACCAATCAGACGTAGATTTGGTCTTTTCACATAGTCCCATAT
TTCTTGGAGGCTTTGTTTCTTTTTATCCTTTTTTTCTCTAAATTTCTCTTCTCACTTCATTTCATTCATTTGATCTTCCATCACTGATACCCTTAGCATT
TTTTCAATGTTATTTTATTGTAAATGTAATAATGACTTCAGGCAGTGATTATTGATGGGTGTTAACATCACACACACGCAAAAATGACTGCCAGAAATTT
GTTTCCTAATGGAGTATACAAACTGCTTATGAAATGGTCTTACCAAAGAGTCAGATTTGAATTGGATTAAGTCTGTAGATTTAAGGATCAGTTTTCTAAA
AATACAGAATACAGAGGTGCATGTTAGATGACAACAGAGGAAAGTAGTCAGCAAAATCTGGGCTGTGAGAATTATACAGGAGAGACAACTAGGGTACATG
TGCACAACATGCAGGTTTGTTACATATGTATACATGTGCCGTGTTGGTGTGCTGCACCGATTAACTCATCATTTACAKTAGGTATGTCTCCTAATGCTAT
CCCTCCCCCCTACCCCCACCCCACGACAGGCCCTGGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTCTTCAGTTCCCACCTATGAGTGAGA
ACATGTGGTGTTTGGTTTTTTGTCCTTGGCGATAGTTTGCTGAGAATGATGGTTTCCAGTTTCATCCATGTCCCTACAAAGGACGTGAACTCATCCCTTT
TTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGATAGACATTTGGGTTGAAGAGAGACAACTTTTTTCAA
CAAAAAGATTGCAAGGAAGAAAAAGATGGAGAACAAAACCATAGAAAAAAGAGACTTTAGAGATATATCAAGCAGTTGTGCTATATAGACCTTATTTAGA
TCCTGCGTCTTACTGTACAAAAAAAATGATGAGATGATCATGGAAACTGTATAGTATTTTAGTTTTATCATGCATTAGAAAGTACTTGCAGGTTAGGTGG
AAAGTTAACCACTGGGGTGCCTGTACTGCCATAATAATGTCGTATTAAGATTTTTATTTTTTCAGTGCCTTATGTAGACATTGAATACAGGAAGATTTAT
GGTTCAGGTTTATGGACTATACTTTTTATGTCCTTTAAGGTAACATTTGAATTTTTGGGACCTTCACTTAGTTGAARGGCCTTCWCATGAGTAAGAACTA
TTAAATGAGCATTTAGCTATTGGACATAAGAATTATTGTGAAAACAATTTATTTTTTACAAATCTTTATTAAGCTTTGCYGTAGTTTTCAGCCCACTGTT
GGAAGGAACGAGAGAATACTTTCTCAGAGATGTTCAAAGAGAAGATGTTTAGAGGGAATTATTTTTATACATTAAGATGGTTGTAAGTGAGAATTCTCTA
AGGACTCATGATCTAGACCCTATAGCATCACATGGTAATGTTGGACTGTGAGTTCTTGAATGGCAAGAACAATCTCTTGATCTTTATTCTTAGGTTTAAG
CATCTATATAGTTAGTGCTTAGTAAGTATTGAATTACCGAGTGACTTATGGACTATCATAATAAATTTAGTTCTCATAATTAGGGGATGAGAGGATGAAA
CATTCTAGGAGGTCTGCCATAGGTCTTTGTTAAACCATGTTTCACCTTGTTGAACTTGTTTTTCATGAATRTAAGTTTTGCTTAGTCATTTAATTGTGTA
GTCTCAAGGAGTATTTTTAACAACTTGGGTTTTTTTTGTTTTTTGTGTTTTTTTTGAGATGGAGTCTTGCTCTGTTGTCCAGGCTGGAGAGTGGTGTGAT
CTTGGACTTGGTTTTAAGTTAAAGAAAAAACCTGAAGTATATGGATAAGAATTGGACAGGAATATGAAAAAATATAGAAATTTATTTTTGTGTGGTAGGG
ATTCTGGGTTTTAAATTTTTAAGTTTCTATTTTTTGTGGTAGTATATTTACATTAATTATGATAAAAGGAAAATATGGGGTTACATTGCCATCATTAATC
AATCTATTTCACAGAGCCCTTGAACACTTAAATGTTTGCTTATGCATTCACTTATTCATTCAACAAGCATTTCTTTAGCACTTAAAACCTGCCAGAGATA
ATCAGAGATTCATTAGACTGGCAAGTGCCATGTTATAAAGATAAAGATCAATAAATATGGTAATTCTTAGAGTTCATGATTCTAAGAAGCATATTTTTTT
CTATTTTGACATCTCTAAAATTTGGACACATCATATAATTGTGTGTTTCAATTGTAATTGGCARTATGTTTTCCTTAATGGTAAATAAAATAAGAGTGTC
TTACAATTGATGTCTTAGATTTGATGAAATACGGTACATTTCTAAACAATCATAAAGTTTTAAGATCTCAAAGCAAGAACCACATGTAAGGTGTCTTCAC
ATTTCCCTAACTCCTAGCACGGAATCACACTGAATACATTTTTTGCTAATCGGTAAAGAAACATTTCTCTCAAAATCTTATCTTTAGGCTTAAGTTTTTG
CTTTCTGTTACTTTAGAATGTTTTTAAAAATTAGTATGTAAAATGTTATCTGGCAATATTACTATTCTTCCATTGGATAGAATAGCTTAAACTTTATTGA
CATTTTAATCCTTTTTTTATTTTATAGTTCATTACTTCTTTTCAGCAGTTACACTATACCTTACAATTAGGAATTCTTGGGTTGTATTTCCATTTCTGAT
TTGGAGATGGTTGAAGTGTATGCTTGACTGACTAGGATTTAGTTTAAGATAAACTGATAAAGTATAGCTAGTTTTTTGTTATCCATSATAATAGGATGGG
TAATTGTAATTTGTGAATGATATCTCAACCCTTTATTAGTTTTTTTATGACAGGTACTAATATGTGTCAAAGTTATACTGGTTTGTATTTTAAAGCTTAA
TGTTTCCTCTTTAGGGGAGGTAGTAATAAATACTGAAATGGCAAAAAAAAAAAAAAAATGGTAGCAATAGAATATATATAAGAATAGAAGGCCTGAATAA
TCTACCAACCAGGTAATTGACCTTGCAGCAATAAAAAATTGACTGTGATTTCATGCATTACTATTGAGCCTTATTTAGATTTAACTTTTGTTCCCTACTG
ATTGAATTAAAGTTTGAGGTTAAATGCTCTATATCCCATTTCTAAACTCTCAGCTGTTCTCAGTCATCTCTCATTGTGAACTCATGAAAGTCAAACATGA
TAAAACAATCATAAGAAGTTAAAAATTAGGGTTAGAAAAARAGTATGTATTTTAAACTTGCTGTCTTCTAAATGCAATTTTAAGTTTAAAGAATCAATAG
AAATTGATGTTTTATACCAAAGAACACTTAAGACCTTGAGTCCTGCCCTCYCCACCATCACTATACAAATAAAAAGAAATCAATAGGCCCAGAAACATAA
GCTGCTAAAGATTTATTTCCAGCAACTATTTTTGATATTCAAGGTACTATTTACTAATCTGATTGAGAAAATGTAGATAATTAAGCATAGGAAATCTATT
TTTATTTTAAAAATGATCATTTTCTTTTTAATCTCCGGATCTTTTATATGTTACATTTTAAAATAAGAATAAATGATAGGCATGGATTTAAAAATAACTC
TTTGTGATTTTTAGCTAGTTACCTAAATTTAACAGGTCCATTCTGTTAAAAAGATAGGTAGTTCTGTATTTAAAAATTATTAAAAGACTGTCAGACTGTA
TTTGATCAATTTCATGTCTCCTGAATAATCTTGGTTCTACCAGTAGTAGATGTACTCAAAGGATTTTGAAATAAGAACTGAGTATTGGAATTGTCTGAGC
CAGTGAAGGCACTGAACTTTGAAACTGAAGATAAGAAATTTGAACATGAAACTCAGTTTGGAGTGTTAAGGAAAGTATTTCATGACTGAAATAGTGGGAT
TTTGTTATCTCATAAAGGGGTAAAAAATCCATTAGAACAGATGCTCACATAGCATCTGTTAATTATAAGGGGCCAGTTATATGTCATTCATAGCTGGCTC
TCTTTAACACCACTTCTTTCTCTCATACTGAAAAAAAAAAAAGCCTGAATTTGAGTGAAAGCAATATTATGGGGACAACTTTAAATTGATTCTGAGTCAT
TAAAAATTATTTACAAACTTGTGGATGACATTAACAGTAAATTATTTGACATGCTTATGATGTGATTATTTATACTACTTTGTTGSGTTAGTATAATAAG
ATGGTGAATTTTAGTATAATATGGTGATGAATAATCCTGTATGACAGGTTATTCCTTTTGATAGTGTTTATGTTCAGAATATCTTCTACTCTACAGAATT
TGGTGATTGTCCCTGTGATATGGTGAATGGGATATAAAAAGGAGAGAGAAGCTATAGCAGACTATCACAGCTCATTTTTCATGCCATAAGACAAGCTTTA
CCTGTGCATTTCAAGCATCTTCACTAAAAAGCAACAAAAAAACCCTAAAAAATCCTCAAATCTTCCAAACCAAGAACAAAGCATTTATGTGGAAAGACTA
AGGAGTTGAGCTGAGCAAAAGAGAGATCTTGACTTTAAATAATAATTATTTACAGAGAGAATAATAGAAGTAATGAATTTATTTAACATCGTAATCACTT
CCTAGAATATCACTTCCTGTCACTGAAGGCACTTGTCAGCTTGGTTTCATTTCACTTAAGTCAGGGATTTCTTAAAATCATAGAATTTTAAAGCAAAGAA
GGACTTTAAAGATTATTTTTACATTTCTAGCAGTTTATTCTTTGTAAACTTATAAATGTCTTATTTATCTTTTGATCTTCCATACCTGGTACAGAAGCTG
GAATGTGTTTCATAAATATTTTTTAAATTAGCTGAAATAACTTGATCTTCGTTAATATTAGTCAAAATACCACTAATAAGGTTTGATAGTTCTTAATCTT
AGTAATTAAATGTCACCAGTGATTTTTTTTTCTTGACCCTTTCTCCCTAACCAGATTTGCATCTGCTGRTGATGATGGAATTGTAGTTGTGTGGAATGCC
CAGGTGTGTATTGATTATGTGTGGATTGTGTGATAAAGATATGATGATGTAGTTGAGTATGTATTCATATAAATACTATCTGGGGATACATTTRCATATC
ACTGTTAATTGACACATTAATATTTGAAAAGAGCTAATTAGGATAAATCCATATACAGTGGGGACCAGTATTTCATAATGAAGAGGGAAAGTTTTTTTAA
ATTGAGATTTTTTTTCCAGCTGGGTGTGGTGGCTCGTGCCTGTAATCCCAGGACTTTGGGAGGCCAAGGCGAACGGATAACTTGGGGCCAGGAGTTTGAG
AACAGCTTGGCCAACATAGCAAGACCCCGTCTCTACTAAAAATACTAGAAATCAGCTGGGCATAGTGGCACATGCCTGTAATCCCAGTTACTCGGGAGAC
TGAGGTTGCAGTGAGCCGAGAACATGCCACTGCACTCCAGCCTGGGTGACACAGCAAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGTTTTTTCCTA
AGAAACAARTGCCAAAGTATGAAAATTCAAAAAATACAAAATTTTAATCTTATTTAACAAAATTTAGGTTATCACTAGCTATGCCCTGACTTCCAAAATG
AATAAATGAATTGTGTTGATTTTTGTGAGACACACAAGTTTTCTTTCAACATTGCGTAATAGCATAATGTAACATTTTTCTCATGTTTGACTTAATATTA
CAAAAGCCTTTTTTTTTTAAATAAATACTTAAGGCTTCACCAGTTTCTTCAGAGCCTCCCTTCCTGATCATTTGTTACTCAAATTATTCTTTTTTGAAGT
ATCTTCCTCTCACCTTAATTTTGGATTGTTATCTAGTCTGACTGTGTCASATCTTTATTTTTCAATGGCTTTGCCTGTGATAAAATCAGTTCTTTAACAT
TATTTTCACCACATTCACGAAGTCCTGCAATCTTGGAAAGATTTGCCATTTACATTGTATTTTTGCATGTTTMCTACTTGGTAAATTAGTCAGAGACTGA
TGGATGAAGACAYTGGATGGGTAGGAATAGATGTTGGTGTTAAATAACGATGGAGTGGAGACTGACTTTCTAAGTGGTTAATAAATGWGTGGATATATAT
ACTTATTTGTGTGTAGGTACATATACAGTTGTTATGGTGACTTTTATTTTCTTCTATGACCTTATAACTGTGGAGACTTAAATAACAAATACTTGGACAA
TGAGGACTCCATATTTTTTTCCTGCAAACTAAGTTACTGATGTTTTTATGCTTAATTTACACAATTATATTTTTAAATTTATAGAAAAAAATACTCAAAA
TTTTCTATAAAAATATACTAAAAATTAGCATTTTGTTTTAGAAAATAAAACTATARTTATGGCTGTACTTTCAGTGCTTGTTTAGATTCTGTGTGATTGC
TTAAGTTAAATTCTGAATAAGTAATTTTAAATGGAATGTATATGTATCTTCTATATGGTAGTTGTACTTAATGTAGTCATTTATGATTATCTAAATTGTG
AAAGCTAAGCCTATTAACATTTTTATTGGTATTTCAGACAGGGGAAAAACTTTTAGAACTGAATGGACACACTCAAAAGATAACAGCTATTATTACATTT
CCTTCCTTGGAATCTTGTGAAGAGAAAAATCAACTCATCTTGACAGCCTCTGCTGATAGAACAGTTATTGTATCCTTTAATCTGGAAGAAATGAACAAGC
TGTAGTGGCCTAAGGAGCCACTACATACACTATTAGTCTTTAGCTGATAGGGTCTTGTCTGTATATTCTTGTTATAGCAAAAATGRTTTTTGTTCTGTTA
CTTATAAGATACCATTTATTAGGTATCTGAAAAGTATTAGACTGGAAATAGGAGGTTAAGGCTTGTTATTGATGGAAACTCCRTGACTATTGCTGTTCTT
TCCAGAGTTACTCTATCAGGTTGTATAAAATTGATGAAATGGGAAAATGTGGACTTAAAAATAATTTATTTTACTATCTCAGTTTGCTTTTCAATTTAGG
GAAACAACGATGAGTTGGACTGGAGAATAATTTACATTYTTTTTCCCCACTATACAGCAGAAGAAACCAAATGGTCCCAACCCATAAAAATCTTTGGAGC
ATCTGAGTCTGATAGAAAAGTGAATTACTGTTTGTTCAGTGTGTAATATTTAATAATTAAAAACAATTTTATAAAAGTAAAATTACTTTTTCTTTACCCA
TACTTTTAGGTAAAAAGTTAAGATGGGATAGCAGTAGTAAAGTGCTTATGTGTAACAGGCATTGTTCTAATTGTTTTACATATATTAACTCATTTAATCT
TTAAAATTAGCCCTTTGACATAGGTATTTTTAATTCTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCACTCTTATTGCCCAGGCTGGAGTGCAATGGCG
TGATCTTTACTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCTTCAGACTCCCGAGTAGCTGGGATTACAGGCCTGTGCCACCACGCCCA
GCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCACTCTGTTGGTCAGGCTGGTCTCGAACTCCTGACCTTAGGTGATCCACCCACCCTGGCCTCCCACA
ATGCTGGGATTATAGGCATGAGCCACTGCGCCCGGCCTTATTTTTAATTATTCTTATTTACAGATGAAAAAAATAGAGTCACACAGAGGCTAAGTAACTT
TCCCAAGGCACACAGCCAGTGTAGGGCAGAACTGGCAAGTCTGACTGCAGAGTCAGAGCCCCGAACCACTGCACTTCATAAAATGTTTTCTGTAAACAAA
CTCAGCCCTTTAATATCTGTATGAGGAATTGGCTTGGTGAAGTCCAGAGTCAAGTGCTATGGATAACTGTTGTCTTTCATTACTTTTATTTTTTTAAAAG
AGGTTGTCAGATTGATTTTTTTTTTTTTTTAGACAGAATCTCACTGTTGCCCAAGCTGGAGTGCAGTAGCACAATCTCGGCTCACTGCAGCCTCCACCTC
CCAGGTTCAAGTGATTCTTCTGCCTCAGCCACCCAAGTAGCTGGGACTACAGGCGCCTGCCACCACGTCCGGCTAATTTTTTTGTATTTTTAGTAGAGAC
GGGGTTTCACCATATTGGCCAGGCTGGCCTCGAACTCCTGACTTCGTGATCTGCCCGCCTTGGCATCCCAAAGTGCTGGGATTACTGGCATGAGCCACTG
TTTCCGGTCATATTAATTTTTAAAAGTATATGCTTATCTGAAAGTTCTGTKTAAACASTTTCAAGCATTGGTGAAGTTTTGGAGTAAGCCCAAAAGTATA
GGTGTTTCTTAGGCTCTTACAGAACCAAGATACAGACTTGAACATGCTTTAAATGAGTTCATCAACTGAAGTGCTTTCTAGACAGATTGTTCATAGCTGA
AAAAATGTCAAGAAAAGGTTTAAATGGGGATAAACTCTCTATACATACATACATATATACATACACACATATATGTATGTTTGTGTGTGATTATGATACA
RTGTAAACAAGGGCATAAAATTCTCTCAGATGGTTAGGTCAGAGTTGCTTTATTACTACTCTGTAGAGGCAAATATGGGATAAAGCTCTCTTTTTCAGTA
TCAGTGTAATCTTYGCAAAAATAGAATTTAAAATACTCTATTAGACCACTCCTAAGACACTATAGCAATATTTTGAGGCAGTGATTAAAATTACATACAG
AAGTTAGTAGCTGGTACAGTGTCACTATGAATTTTACCTGTAAATGATAGTATGGACTCATTTCCTTTGCTGAGTGATTTTTGTTGTTAGAAAAAAATTC
TAGGCCGCTTATTTGGCAGTCTCTCTTACCCAAATGAATTCTAAATTTACTCTGCTTGGGTTTTTACTACAGGTTGAGCATCCCTAATCTGAAAATCCAA
AATCTGAAATGCTCCAAAATCCAAGACCTTTTAAGCACTGACGTGATGCCACAAGTGGAAAATCTTATACCTGACATCATGTGACAGGTTGCAGTCAAAA
TTTTGTTTAACGCACAAAATTACCAAAAATATTGTATAAAACTACCTTCAGGCTATATGTATAAGGTGTATATGAAAAATAAATGAATTTTGTGTTTAGA
CTTGGGTTCAGTCCCCAAGATAGCTCATTAGGTATATGCACATATTCCAAAATCCAAAAAAAATCAGAAACACTTCTGGTCTTAAGCATTTTGGATAAGG
GATACCCAACCTGTAAAAACTAACTTCCTTAATTAAATACTGAAGGTAGATAATTTTTTAAAGCGATAGCCTTAGGAGCTCAGGTTACTGAATATTAAAT
GTTCTGCTTGTGAATAGTGAAATAAGTGAAAAGGCTGTGAGATACTACTAGAATTCTGGTAAATATAAGGCCAGAAAACATTTCCTAATTACTGGGAGCA
TTTTTTGTATGCTAGCAGTTTTAGTGTGTTATATACATAAAATGTAATTCTCATGATAATCTAGCTCCATCTAAAGCATGACATAGAATATAGATGGTCC
CCAACCTAGGGTGGTTTGACTTACAGTTTTTCAACTTTATGATGGTGTGAAAGGGAGGTGCATTAAGTAGAAACTGTACTTTGAATTTTGAAGTCTGATA
TTTTCTCACACTAGTGATGCATGGGATGATAGTCTTTCCCAGTGCTGGGCAGCAGCAGCCTGGAGCTGCAGCTCCTTCCTAGTCAGCTATAAGATCACAA
GGGTAAACAGCCTTACTCTACAGTGTACTGTGTTGCCAGATGACTTTTTTTTTTGCCCAACTATAGGCTTATGTAAGTGTTCTGAGCACATATAAGTTAG
GCCAGGCTAAGCTATGATGTTTGATAGATGTGTTAAATGCATTTTGACTTAGGATATTTTCCACTTAGAATGGGTTTATTGTGGGACATAACTACTTTAA
GTCAAGGCACATCTGTATAATAAAAATATAACAAAAGGCATTGGCCATGATAAGGTTAACTAGTTTRTGAAATTAGTTTCAATTTTTAATACATGCATAT
ACATTTGTATACGTAGTACATACATGTATGTAAATGTGTTTTCAGACATGGTGTAAAATGTATTTCTTACTATAGGAAATGGTGTAAAAGTTTGAAAATC
ACTGTGCTTAAGTCAAACTGAACTTGGATGTTTTATGAGAGGCCCTCTGATTATATTAAATGCACATACAGGTAATAGTAATACACTGTTAGTGTCTTCT
CGAATCAAGATAACAGTAGTAAATCATGCTATCCATATTATAGGGAGCTTTCAGTAAATATTAATGGACATGATAGTTTTTGGTATAAGTACTTTATGCT
TATTAGATTATGGTGGGCTATTCTGGAGAATAAACTTTAAACAGTTGGAATATTTAGTGCTTGTAAAGATTCAGTACTTCAGACCATTCATTATGTTGGC
ATTTTCAAATAATTTGATAGTAAAATTTACCTCAAACTTATTTTAGATTATAAGCCTGCTTTGCTAAGTTGATGACTCACTATATGAATTCATTTTTGTG
GTGGTATAAACACTAAATATTTTATGTTTGATTTAAAGATTTTCTAACTGCTTAACATTTGTGGCTTAATTGTTAATTAGAAAAGTTATAATTAAGATTT
TAAAATTCTGTTTAGAAATTATTTCTTAACATAAATTTAGGTGTGGGATGGTGATACTACCAGACAAGTTCAGAGAATATCATGCTTCCAGTCTACTGTA
AAGGTAAAATCTTAAGTAAATATGAGTTTTTATGACAATCTATTTTTGTCYCAGAAGACATGGTTTAAAGAGTTAGACGAAATTACTTTTGTGGGTCTTA
TGAATTATTTCTTTCCACACACTTGTAGTCATTTGCTTCGTGTAAGATCAGATTTTTGAGAGCACATGTATTAAGTGTTAGAATGTTTCMATTTGAAATT
AGAGCAAGGGATAATCCCAATAGCAAGATAAGGAAAAAAGGTAGTACCTGGTATGTTTTTTGTAGGTAGTTCCAGGAAGAGATATTACTTGTAGAATGAC
CATAATAGTAGCTGGTCTGTTTTCTTTATACTTTGAATTTAAAATATAGAGCTATTTGTCCCATGACCTTTGCCTTCTCTAAGGTCACAAAGGCAAGACA
TGTCAGTTACTTAGTTTCAAAACTAAAAATCTTACCTGGCTAATTTGCTGTTACTGTTAGGTTTATTCCTTTTACAAACAATTATTAATTGGGGCTAATG
ATATGACAGAAGCTCTGCTACGTTTTAGAGAAACAAACATAGATAAGACTTGGTTGCTTGTGATTCCTACAGAAATTAAGTGTTCAGAGAAAGTGCCACT
GTTTTTTAGTAATGTAAGCAAGTTTTGGAAAAGATAGTAGTAGCAGTAGATGTTCCCTCATTTACTTTAAGGATAACTGATCTCCRTATTGGAGCTCTTT
TCTTTTTTTTCTTAATGTAAAAAGAATTGCTGTGTGCCAATAGGTAGAATAGTTGATCTTTTCCCAAAAAGGCAGAATCTCTGGTAGCCATCTCATGGCA
CTGTGCTGTTCAAAATATCAACTTAGTCAAGTTTCAGGGGAAGAAAGTGCCATGTACTATATATACTTYTATCTAACTTAACAGTGGATTTTTTAAGAAG
GCATTAAAAAGTATTGATTTGATTAAAATCTCTATACTTTATGTGACCTGAAATGATGTGCCTTTTACATTCCTTTAAAAATATTCTTGCTAYCTGAAAA
ACTAAGGTCGTTAAGTTTCCAATGAAAATATGTGGCTTGAAGGAACAAAGAGAAAAAAATTTAATGTATTTGGGGGAAATTCCTTTTGGTAAACTGTGTT
ATGAACTGGTTATAGGAACTGGTCACTAAAAAAGTATCTTATTCCAATATAGTGAAAGTAGTTTTAAAAGGGGTTTTACTGTAATGTGAATCAGCTAGAT
ATTTGTGTCTGTTTTCTCCTGCTGTGATCCTGTTTCACATAAAAATTGTTAAAAAATAGCATTGCACTCATTTAGTTCAGTGGTTCAGTTGTTCTTGAAT
AGATAGTTTATCCAAGAAATTTATATCCCTAATATGAGAAATACTATCATTTATTTTTTGAACTAACAAAATTTTTTATAAGGGTTGATGTTAGCAAGGA
GATAGTGAAATTGGCATTTTATTGCATATTGAGACTATAAATTGATATGATCTTCCCGGAAGGTAGTTTGGCATTATGAATGAATCTAAATAAATTATTA
TATGCATTAATCCAGTGATCATTCTAGAAAACTCTTTAAAGGAAATGATCAGAAAATAGGGCAGAAATTTATGAACAGAAATGTGTACTACAAATACATT
TTTATAAATGGATGATTGGAAGTGCCCTAAATGTCTTATAAGAAAATACATTATGGTAGATATATATACTAAAATTTATATTTCAGAAGAATATTAAAAG
AGGAAAATGCTAGTGGTAAAATGTTAAGTAACAAAAACATATATTATCCTCAACAAAATATTATCAAACCAAATTCAGCAACATCTAAAAAGAATTATAC
ACCATGACTAAGTGAGATTTATCCCTGGAATAAGCTTAGTTTAACATCTGAAAATTCATCAGTGAAATACACCATAGTAAGAATAAAGGACAAAAACCAC
AGGATCATCTCAACAGAAACAGAGAAGGCATTTGACAAACTCCAACACCCTTTCATGATAAAAATACTCAACAAACTAGGAATAGATGAGAATTTCCTCA
ACCTAATAAAGGGCTTCTGTGAAAATCTCAAGGCTAATTTCGTATTAATGGTGAAAGGCTAGGCTGGGTGTGGTAGTTCATGCCTGCAATCCCAGCGCTT
TGGGAGACCAAGGTGGGTGGATTGCTTGAGCTCAGGAGTTCAAGACCAGCCTGAGCAACATGGTGAAACTTCTCTACAAAAAAAAAGAAAGAAGAATTAG
CCAGGTCTGGTGGCACATGTCTGTAATCCCAGTTATTTGGGAGGCTGAGGTGGAAGGATCACTTGAGTCCAGGAGTTCGAGGCTGCAGTGAGTTGTAATT
GTGCCACTGCACTCTAGCCTGGGCGATAGAGCAAGACCCTGTCKCAAAAAAAATAATAAAATAAAAATTTTWAAAAATGGTGAAAGACAAATAATTTCCC
CCAAAGATCAGGCACAAGATAAGGATGTCTGCTGTCAGCACATCTGTTTAACATTGTACTGGAGGTTCTAGCCAGGGCAGTTGGACAATAAAAAAGATAA
ATGACATCCATATTGGAAAGGAAGACATAAAACTGTCTCTATTCCCAAATAACATGATCTTGTGTATATAGAAAATCCTAAGTCCACAACCAAACTATTG
AGGCTAGTAAATGGATTTAGCAAGGTTTCAGGATATAATRTCAACACACAGAAATCAATTGTATTTCTATTCACTAGCAATGAACATTCCAAAAATTAAG
AAACAATTCCATTTACAGTTGCATCCAAAAGAATAAAATACTCAGAAATAGATTTAGTCTGGGCGGGGTGGCTTATGCCTATAATCCTAGCACTTTGGGA
GGCCAAGGTGGGAGGATTGCTTGAGGTCAGGAGTTCAYGACTAACCTGGCCAACATAGCAATACCCCATCACTATTAAAAGAAATTTGAAGTAGTATGAG
ACTTATATACCAAAAACTACAAAACATTGTTGAAAGATATTAAAGATCTATATAAATGGAAAGACATCCTGAGTGCATGGATCAGATTTACTATTGTTAT
GATTCCACCACTACCCACATTGATCTACAGATTGAACCCAATCTTTATCAAAATTGTAGCTGGCTTGTTTTTTTGTTTTTTTTTTTTGAGAAATTTACAA
GCTGATCCTAAAATTCATATGGGAGTGCAAGGGACCCAGAATAGCCGAAACAATCTTAAAATGGAAAAACAAAGTTCCAAGACACACTTCCCAATTTCAA
AACTTAATATGAAGCTACAGTAGTCAAGACAGTGTGATATTGGCATAATGACAGACATGCAGATCAATGGAACCGAATTAAAGGCCCAGAAGTAAAGTCT
CACATAGCCAAYTGATTTTTTGACAAGAGCGCCAAGAACCTTTAATGGGAGAAAGAATAGTCTCTTCAAAAAATGATGCTGTGTCAATTGGACATCCACA
TACAAAATAATGAAATTTTATCCCTACCACATATCATATCCAAAAGTTAACTCAAAATGGGTCAAAGACCCAAATGTAAGAGCTGAAACTACAAAAATCT
TGGAAGAAATATAGGCGTACATCTCTGTGACCTTGGGCTAGGTGTCTTAAATATGATATCAAAAGCATATCAACAAACAACAAAAAAAGATAAATTGGAC
CTCATCAGAATGAAAAGTTTTTGTGCTTCAAAGTGAAAAGACAACATACAGAATTGGAGAAAATATTTTCAAATTGTATATCTGATAAGGGACTTGTGTC
TACAAYATATGAAGAATTCAATAAAAAAGCAAATACTCCAATTAAAAATAGACAAGATTTGAAAGAAAGAAATTTCTCCAAAGAAGATAAACAAATAGCA
AATAAGCACATGAAAAAGAGGTTCAACATCATTAGTCATTAGAGAAATGCAAGTCAAAACCACAGTGAAATACTATTTCCTACATACTAGAGTGGCTAAT
ATCTAAAAGACAAGTGTTGGTAAGAATGTGGAGCAATTGTAACCTTCATACATTGCTGGTGGGATCTAGAATGATACAATACAGCCACCTTGGAAAACAG
TTTAAACAGAATTATCATTTGACCCAGCAGTCTTACTCCTTGGTATATCCCCAAGAGATATGAAAATGTAAGTTCATATAAAAATGTGTACATGATTGTT
CATAGCAACATTATTAATAATAGTCAAAAATGGAAACAATCTATATGTCCATCAGCTGATGAATAAACACAATGTATATCCACACAGTGGAATACTATTT
GGCAATAAAAAGAAATGAAACACTGGCATTAAAAATTCAGAGATTAGACAGGGTAGGACCACTAGAAATATAAACTGCATTGGTTATTTTCAACTCTTTT
TAATCCAACAGTTTTAAAAGCAGCCTAGGCAAGATTACCAGAACCTCTGCCTTTTATTTTCTGTTCTTCTCTCTCGCTCTTGCCCTTGTCTGACTCAGAG
TCAGTGGGCGAGGAGAGTACTATTAAAGGTAAAGGGCTTATATGGTACTTGAAACACTCACTTTCCTGACTACCAAATGTATAGAATTGAGAAGACTTGG
GCRTTATTTATTCTAAAGATACAGAGAAACTAAGGTCATAGTTTCAATTTGATTTAAAAAGGGGTTTAAGCAATTGTGTATTAGTAATTTATTACTGAGT
AACAAATTACCTCAAAACTTAGTGGCTTAAAACAATAAACATTTGTCATCTCACAGTGTTTGTGATTAGGACTAGAGAGCATCTTATCTGGGTGGTTCTG
GCTCAGGGCCTCTCCTGAGGCTCCTGCTATCTGAAGGCCTGACTGCGGTGGAGGAGCTGCCTCCCAGGAGGCTCACCTACGTGCTTGGCAAGTTAGTGCT
GTTTGTTGCCCAGAAGCCTCAGCTCTTTGCTACATGGACCTTTCTCCATGTGACTGCTTTAGTGTCTTCACCTTAGAGCACGTGATCCAAGAGAGAACAA
GGAGGAGGCCACAGTATCTTTTATGACTTAGTCTTGTAAGTCACACACCATTCCTCTTGCCAGAATCTGTTTGGTAGAAGCTAGTCACTTAGTAGTGCCC
ACATGATCTACTAAGGAGAAATAAGCTCCACCTAGTGAAGGAAGGGGTTAAAGAACTTGTGGATATATTTTTAAACCACTGAACAATGACTGCTTAAGTT
TCTAACCTGATATACATTTCAAATAAATTTTGCAGTGTTTAACTGTTCTTCAGAGACTAGATGTTTGGCTTTCTGGTGGGAATGACCTGTGTGTRTGGAA
CCGAAAATTAGATCTCCTGTGTAAGACTAGCCACCTTTCTGATACAGGTAAAAAACATCAAGGTAATTTTGAACTATGATTGASAGACTAGAAGACACAG
CAGATCTTCAGAGAGACTTTCCATAAGTAGAAAGGTCAATATAGGGGATTTTTCTTTTTCAGTTCTGAAGATARCAGGTAGCCATATTCAATTCAGATCG
GGGTTGTGTAAAATATATTTTTATCCTGAATCAGGAGGAGAAGACTCCACTCARGAACAACCTTTTCCAATGCTCTTGGGCTGTTTTCCTGAACTGTGTT
TGRTGAGCACGCTGATACCTAGAAGCAGACCCTTACGACTTTACAGTAGCATTTGTGGGGTCATTAACTTTGAATAAATGCCTAAGGATGACCTCTTTTT
ACAATTGTCCTTACCAAAAAGATCATACATGTGCAAGCTTACTGATAAAGTTYCATTTTCTCACAATTCTGTGTACATACGATTTTGGTTTCAACAGAAA
AAAAATAATCAAATCAGTTTTGACTTTTTGATACCAAGGATCTTAAAAAATAAAATCTATTTTTAGAGTAAAATATTTAAATGAGTAGATTTTAATAACA
ACCTTGAAGTCACACTAACTATTGTTATTTCTAAAAATAATCAAATGAGCCTGGGTATCCTAGAAGGAACATTGTTGTGCATGTTGTTGATATTTCAGTG
GTAGCAGGAGCCCTGTGAATTGAATTTAGTTACTAATAGGAGCTAGCTTAGCTCCACGTAGAYATTTTAAAGTATCAGAAACATAATGACTTAGGAAAAC
TAAATCCATACATTGCTAGGGTTTACAATTTAACCACTCAGTTCAACATTTGATTACTAATAGTCTTGCTCAAATCTAGAATATATTTCCCTGTTTACTA
TTATCATGAATTATGTGTCTTTATGTTCATTTTTCTCTCTCTTTCACTAGCCTGTGGTTTTCATGAATTTTATTTTGGTAAAGTTATATTGTAAAATGTT
GAAATTGGGGCTGAAAAGAATCTTCTGTGTGTTCCTGGAAATAGCCACCTCTTATTGCAGTCTCCCTTTGTTTTGCAAGTTATGTTTAAGTACTATATAT
TAAATCATTACAATACTGCCATTTATCAGTGTCTCAAGAGTTAACAGAAGGCTTTGAGGGTATCTRTGGGAAAGCCTTGAGAAGGCCATGGGTTACTATT
GGTGAGCTGTTCATCATTTGGGTTTTCCAAATTACTGGAGGCCAGATTGTTAATAGTGTTATTAGATCCTTATGTCATGATGTCCTTTCATAAGCCCTGC
TTGATTTATGGACTGSTGGAGCTTTTACAAGCAGTTATTCTGTGTTTGGAAATAAGCAAAGACAATCTTAGTCAATGTGATACAATGGAAGGAGCCCTGG
ACTAAAACACAGGGCATCCGTGTCCTTTCCAGTAATATGTTTTGTGATTCTGAGTATTAGGTTGCTACATCTGGATTGTTGGGCTTCTAGTATTTTCACA
TATAATTTAGTGAAAGATTTTTAAACAAGCTGTTTTCTGCATTTAGAATTCTTCTCTTGCTAYCCACCCTGCTGTTCTCCCATGTCCTCTGCCTTCTCTG
TACCATTCCTTTGCCTTCCTTGCAGCACCATTTCCTCCTTCTTGTACATGGGAAAATACAAAACCTACTGTTAAAATATGCCTATGTGGAGAAAAATCTT
GGCCAGAAATACTATCCAAATCACAACAGTCAGTCCTTTGATGGATGGGAAGGATAAGCAAATGACTAGACCGTTTTCTACACTTGCATATATATTATAA
ATTACATATATATCATAATGGAAAAATTRAACAGGTTTTTTTTTTTTTGCCAACACGTGGTGGTTCTAATWTATCAACTCTTTTATTCATACTGACAGAA
GCAAAATTGTAACATGCCTTGTAGAAGTTATAGTTACGCTAAAATCATTAACCTCTTTACTTAAATAAGTGAAGTGTGTTAGAATGTTGAATCTGATTCT
TTCATTAATAGAAGAAAAATTTTACATGTATTAGTGGATCACAAACATGCTATTTGAAGGCTGCTTTCTTAGCTGCTGACTGTTGGCTAGTTCATTCAAT
GCCAGGGAGCCTGCTCAGGCTTCTAAAGTTTACATGAAGGAAAACCCCAATTTTACATCACTTTTGAGCTAGCCATCTTGTAAATGGGTGATGGTGATTA
TCTTAAGGGATCCCTGGTAAATAAGTGTGAATTGCTGAATCTACCACTTTATCACAATAGTRAAAAAAAGTACAAAAAAACCCAACCCCATATTCTGCTC
TTAATAAATCAATAATGTCTTCCAAAAGTCTCAGAAACCTACATTTAACAATCATTTTCCATTAGTAAGCAAGCAAGGAAGTGTGTGTGGAGCTAGTTCT
GTGTGCTTTATCTTCTTTATGGAAAACGACTGACATAAAACTGAGAATGTTTTTGTTTTTGATATAATCTGTGAGAAAAATAATTTGAACTTTGTTTTAT
ATGTTTTTGGAGGTATTAGTGCTTTGGTTGAAATACCTAAGAACTGTGTTGTGGCAGCAGTTGGCAAAGAACTGAGTGAGTATGAATTTTTTTCTTTTTG
TGTRTTTTGAACGAGAATTGTATACACATGCTGGAAGGACTAAAGTAATTTTTTATTTAAGGGACATTGCGTGTGCCCCACTCTTGGCTTCTTGGGATTG
TTGAAGTGATACAGAGACTAAGACATTTTCAGGATGTTAGGCCAGGTTTCTTTTTCTTATCAGTGTTTTAATCAGTATGTTAGCTTGGTTAAACAGTTTA
TTGCTTGTTATTCCAAAATTCCAGTCTCAAGATCACTTCATAATATTCCAACTAAAGTAGAAYTTCCCATAAGTTCAATGTGTATCAGAAAGAGTTCTCT
TTTCTATTGACTGAAAAACCTTCTTTTGACAACCACAGTTTGAATATGAGTAGCTGTCAGGATTAAATAACCTGGWTAGAGATTTGTAGTTTGGTAAAAT
ATTGTCAGAGACACAGAAAGAAGCATGGCATGACCTATCTTCTAGAGAGAAATGTGAGAAAGAAAAGATAMTTTCGTAATTTGAAAAGGACATGATCTCA
GAGACTTGTCACTTCTCAGATGTTAGTGATRCTAATCTTTGAGCATCCACAGCACCTGGTCCAGTGGYGTATTTTTAAAACACTCAGTACATTGAYGGTA
AGCCTGTTTATAAACAAGTCTCTCTCCCACTCTAGACTGAGCATTTGTGACTGGGCCTTATTCACATTTGGTACGTAGAGTTCCTGGAACATAAATGTTT
AGTAAATGATGATAGAATCACGTCTGTGGATTTTATTATGGGTTTTCTGTATTGATTAAAGTTAGGATTTATACTAGTTTAAATAAAACTGTATTTGTTA
AAGTCAGATAATGAGTAAAGCAACACATTGAACATTACTATAGTCAGAAGAACTGTATGATATATAAACATTATAAGACATACTCAGAGAATTTATAATT
TAATGGTATATGCCTAGGAATCAGAAGCTTTTTAAAAAAGAAGTTGCTTATGTCTTCACTGAGTTGAAGTTAAACTTGGATTTGCAGCTTATTCTGTMGC
AATGCTTACATGAGTAAGAGACATGAGTAGAGAAAGCTGATGTTGGAGGTGATTGAGGGATGTGGGCTAGTCACTGATTAGGGAGGGAGTGAGTTGAGAT
AACAAGACATCCGTTGAAACCCTAGAGAGAATGGGAGCTTCACTGTTTGGAAAAGTCAGTAAAGGAAGAGAGTTCTTCAGGACACATTCAGTATGGGTTT
TAGTAGATCATCTCAAACATCTCAAGCATTTGAAAGAAATAGTTTAAAGTAGTATGAATAAGGCTTTTTTTTGGAGATGGSTTTTTCAGTATGGTAGGTA
TTTTTCACTTAATGAAATGCTTGTTTTTAGAGCAGGAGTAGTATTTTATCCTCTTAGAGCATTGTAATAAAATTTTATCTGTCTTTTTCATTTAGTAATT
TTCAGGTTGGTAGCACCCACAGAAGGATCACTAGAATGGGATATTCTTGAAGTTAAGCGCCTCCTTGATCACCAGGATAATATTCTCTCATTGATTAATG
TCAATGGTAAGCTCATTGTGTACATTTATTATGTACAGTTTTGTGCTTGTTAACACAACCTGCTCTGAACACGAGCCTTGCTTAGTTCTGGGATTCTAGA
ATAAGTCACTAAAATAATGGGATTGTCATTCTCTTTTACTCTGAAGTTTTAGCCGGTGGAGCTGAGCAAGTTTCCTAGATTGCTAGGTCTAAGATTTAGG
GACAAGGAAAATAGTGTAAGGCAGAGAAAATAGAGGAGAACATAATGATCTCAGGCACTGCTTGGTAGCTGTGGGATGACTGTCACAGGCTGTTTCAGCA
TTTTTGGCAGCTGTTTCTGGCTAGTTCCTCTTTTGTAGAGAGATTGGAAATATGCCCTTTTGTCTTGCTGTCCACACCATACAATATCACATAGCAAGTT
ACACACTTACACTAGAATGAGCAGGATTCAAGCCAGTTGTAATCCTGGTTGAAGACTCTCAAAGAATAATACCAAACTAAAGTAAAAGTCTGCAGAAAAT
GGGTCATGTCTTCCCTTCCTTCCTCGTGGTGGGGGTTTTGACCTGCTGTACATCCTATTTGGCTTCCTAAATGATTTTAATGAGTATCTCCTGTGAGCTA
AATCTGACATCAGATGGCAAGATCACAAACCACTGATCTTGACATTCAGTTCACTTGCAGATAAGTGACAGCTTATATCATCAGAACTGTGCTGGGTGAT
CTGTGTATGAAGTCACATGAGAGGGCTTTTGGTGGCTTCAGTTTGATAGTCTGGTGGAGCCTGCAGGACGATCCTGTAAGGCTGCTTGGGAGTATGATGT
AGTGGGAGGGCTAGACAGCACCCCAGCAACATATCTCCCTGAGGCCTGGCTTGGCTTTGTTTTTTTTGTTTGTGTTTGTTTGTTTGTTTGTTTGTTTTGA
GATGGAGTCTCCCTGTGTTGCCCAGGCTGGAGTTCAGTGGCATGGTCTCGACTCACTGCAACCTCTGCCCCCCGGGTTCAAGCGATTCTTCTGCCTCAGC
CTCCCAAATAGCTGGAACTACAGGCGCATATCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCTCCRTATTGGCCAGGCTGGTCTC
GAACTCCTGACCTCATGATCCACCTGCCTCAGCCTCCCACAGTGCTGAGATTACAGGCATGAGCCACCAAGCCCGGCCGGCTTTGTTTTTAAGCAGTATT
TTGCGTGAATGTGAGACAAAGGGGAGCGAGGGACACAGAGAGTACCAAGTCTAGTCTCCATTTGTGTCCATTCAGTCACATGTTCAGATACACCAGTAAG
AGTGTCCCTCCCAGCTCCAAAATCTTCCTCCCAAATAGCCATCTTATTGTAAAACTCAGCTGCAGGTCTTTCTAAGGACTAGATTGTCTGTGTTGATAGA
AATAACAATGGTTGCTGGTGTCCCTTTAATTTTCTCTGGGGGCTCTTTTTCTCTAGCCATGGATGGAGACAGCACAGAAGGCAAGTTCTTATTTGGGAAG
CCCTCTGAAGCCTCATTGGTGACACTGAGTCTTAAGTCTCAAGTTCCCAGGGCTGCTGAGAAAAGCCCAGCAGTATTCGGCCCATYACACCGGTCATGCT
TAGTTATTTTGTTTTAGCAGTGAAGCACTGGCACCACTGAGCCAGCATGGTTACTTAAATGAAGATGATAGGATGATACAAGATAGCCTGAACTTCATGG
CATGTCTTTTACCATGTGATATGCAGAGGAACTTACAGCAGTTTCTGAAAGCTTTCTTCGAGTATTCATTTGCCAAATTCGTAAGGGGAAAAAAGGGAAA
ACTAAAGAAAAAAGTTGTTTATGAAAGTTACAGAAAGCCTCATGCACTTTTTACTGTTTTTTACTATCTTTTTAAAAAATTTCTTCTAAAAAAATGGGAT
ACATGTGCAGAATGTGCAGGTTTGTTACATAGGTATACGTGTGCCATGATGGTTTGCTGCACCTATCAACCTGTCCTCTCAGTTTCCTCCCCTTCCCCAC
AACAGGTGCTGGTGTGTGTTGTTCCCCTCTCTGTGTCCATATGTTCTCATTGTTCRGTTTCCAGTTAGAGTGAGAATATGCGGCATTTGATTTTCTGTTC
CTGTGTTAGWTTGCTGAGAATGATGGCTTCCAGCTTCATGACTATGTCCCTGCAAAGGACATGATCTCATTCCTTTTTATGGCTGCATAGTATTCCATGG
TGTATATGTGCCACATTTTCTTTATCCAATCTATCRTTGATGGGCATTTGGATTGGTTCCATATCTTTGTTCTTGTAAATAGTGATGTAGTAAACATACA
TGTGCATGTGTCTTTGTAGTAGAATGATTGATATCCTTTGGGTGTATTCCCAAAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGGTTCTAGATCCTT
GAGGAATCGCCATACTGTCTTCCACAATGGTTGAACTAATTTACACTCCCACCAACAGTGTAAAAATGTTCTTCCCATTCTCCACAGCCTTGTCAGCATC
TATGGTTTCCTGACTTTTTAATAATTGCCATTCTGACTGGTGTGAGATGGTATCTCATTGTGATTCTGATTTGCATTTCTCTAATGATCAGTGATGTTGA
GCTTTTTTTCRTATGTTTTTTGGCCACATAAATGTCTTGAGAAGTGCCTGTTCATATTTTGCCCACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTA
AGTTCCTTGTAAATTCTGGATATTAGACCGACCTTTGTCAGATGGGTAGATTGCAAAAATTTTCTCCCATTTTGTAGGTTGCCTTTTCACTCTGATGGTA
GTTTCTTTTGCTGTGCAGAAGCTCTTYAGTTTCATTAGWTCCCATTTGTCAGCTTTGGCTTTTGTTGCAGTTGCTTTTGGCATCTTTGTCATGAAGTCTT
TGCCCATGCCTGTGTTCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTTATTAAGTCTTTAATTCATCTTGAGTTAATTTT
TGTATAAGGTGTAAGGAAGGGGTCCAGTGTCTGTTTTCTGCATATGGCTAGCCAGTTTTCTTAGCACCATTTACTGAATAGGAGATCCTTTCCCCATTGC
TTGTTTTTGTCAGGTTTGTTGAAGATCAGATGGCTGTAGATGTGTGGTGTTATTTCTGAGGTGTCTATTCTGCTCCATTGGTCTATATGTCTGTTTTGGT
ACCAATTCCATGTTGTTTTGGTTACTGTAGCCTTGTAATATAGTTTGCAGTCAGGTAATGTGATGTCTCCAGCTTTGTTCTTTTTGCTTAGGATTGTCTT
GGCTATACGGGGTCTTCTTTGATTCTATATGAAATTTAAAATAGTTTTTTTTCTAATTCTTTGAAGGATGTCAATAGTAGTTTGATGGGAATAGCATTGA
ATCTGTAAATTACTTTAGGCAATATGGCCATTTTCATGATATTGATTCTTCCTATCTATGAGGATGAAATGTTTTTCCATTTATATGTGTCCTCCCATTT
CCTTGAGCAGTGGTTTGTAGTTCTCTTTGAAGAGGTCCTTCACATCCCTTGTTAGCTGTATTCCTAGGTACTTTATTCTCTTTGTAGCGATTGTGAATGG
GAGTTCATTCATGATTTTGCTCTCTGCTTGTCTATTGTTGGTGTAAAGGAATTCTTGTGATTTTTGTACATTGACTTTGTATCCTGAGACTTTATTGAAG
TTGCTTATCAGTTTAAGGAGTTTTTTGGGCTGAGATGATGGGGTTTTCTAAATATACAATCATGTCATCTGCAAACAGAGACAATTTGACTTCCTCTCTT
CCTATTTGAATACCCTTTATTTCTTTCTCTTTCCTGATTGCCCTGGACAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCTTGTT
CTGTACCAGGTTTCAAAGGGAATGCTTCCAGCTTTTGCCCATTCATATGATATTGGCTGTGGGTTTCTTATAAATAGCTCTTATTATTTTGAGATATGTT
CTATCAATACCTAGTTTATTGAGAATTTTTAATATGAAAGGATGTTAAATTTTATCRAAGGCCTTTTCTGCATCTATTAAGATAATCATGTGGTTTTTGT
CATTGGTTCTGTTTGTGTGATGGATTACGTTTATTGATTTGCATATGTTGAATCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAG
CTTTTTGATGTGCTGCTGGATTTGGTTTGCCAGTATTTTATTGAGGATTTTCGCATCGATGTTCATAAGGGATATTGGCCTGAAGTTTTCTTTTTTTTGT
TGTGTCTCTTCCTGGTTTTGGTGTCAGGATGATGCTGGCTTCATAAAATGAATTAGGAAGTCCCTCTTTCAGTTGTTCGGAATAGTTTCACAAGGAATGG
TACCAGCTCCTCTTTGTACCTCTGGTAGAATTCAGCTGTGAATCCATCTGGTCCTGGGCTTTTTTTGGTTGGTAGGCTATTAATTACTGCCTCAATTTCA
GAACTTGTTATTGGTCTATTCAGGGATTCGACTTCTTACTGGTTTAGTCTTGGGAGGGTGTATGTGTCCAGGAATTTATTCATTTCTTCTAGATTTTCTA
GTTTGTGTAGAGGTGTTTATAGTATTATCTGATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGCTGTCCCCTTTATCATCTTTTATTGTGTCTATTTGA
TTCTTCTCTSTTTTCGTCTTTATAAGTCTAGCTAGTGGTCTATTTTAATTTTTTCAAAAAACCAGCTTCTGGATTCATTGATTTTTTTGGAGAGTTTTTC
TTGTCTCTGTCTCCTTCAATTCTTCTCTGATCTTAGTTATTTCTTGTCTTCTTCTAGCTTTTGGATTAGTACTTTTTACTTTATAAACTCTATGACTATA
AAATTATACTACAGATAATAAATAAGCCAAAGGCGTATTTAGGAATCAAACATGACCAAGTAGTCTGTTAAAATTTGAAAATGATYTGCTGACAGTCTCA
TCTTGCAGTACATAGGCACGTTAGCCATGATGTGGATGTCAGTGATCCTGAAATGTTTATGTTGTACAGTTCCCTGCTTCACTTGCAGGAGCTCTGCTCC
TTTCTCCTCACCCATTACCAATGAAAGATATGGCCAGTTGCTTGGGATTGTACATCACAGGGCAAATCTGTTTKCAGAGGGGTGGCCCCAGGGCAACCTT
AGAATTGTATGAGAGAATACCAACAAGTGTGGATAATGAATACCAGATTTGCTAAAAAGATTGGAATGCCCAGGCAGAAGGTTTTCTAAGACAGACAAAA
AATAACTGATAATCTCTCCAGGCAGAAGGCTCTGGGTGCTCCTTTATTTTATTCCTTTTCTTGTATTATGTTGCCAGCATCTTTTGGTAATCATGAAGTA
CTAGTACTTGTGAGGGATGGATAGACAGATACCAGGTGAGATTTTCATACTAAGTGGCTTTTGACACAGGATGAAAATCCATCCACTAATAATATATAAT
TGAGGTTGTTTGTCATGAAACATTTTGAATGACCTGTTTGGGAATTAGTTTGCCATGTGTAAACTGCTTAAAAATATGTGCTGATTGGCCAGGTGCAGTG
ACTCACGCCTGTAATCCCAGCACTTTGGGAGCTTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCGTCA
CTACTAAAAATACAAAAATTAGCCAGGTGTGGTGTCACATGCCTGTAGTCCCAGCTACACAGGAGGCTGAGACAGGAATTGCTTGAACTTGGGAGGTGGA
GGTTACAGGGAGCCAAGATTGTGTTACTGTACTCCAGCCTGGGTGACAGAGTGAGACTTCATTTCAAAAAAAAAAAAAAAAAAAAAAGTGCTGATTGAGC
TGAATGCCGTATTTTATTTTTAGGGAAAATTCCAACTGGTCATTAATATTTTGTTTCTACTGCATGGAGGTATCACAGACACTTGGAGGATTAAGTCAGA
GCAAGCAGCTGCATGGTCTCAGTAGGTTAATTCTGTGTTGTGACTACAGATGCAGAGTGAGAGTCAAGGGGAATCTTCACTCCTTAGCTTCTCTGGTTCT
TTTGTAGTTTGAATGAAATAGGAAAAAGGAGGGAAAGGTGTGGGAAAGAAGGTCCTGGGAAGATGAGTACTGCCTTAACTTTCCCACTACTAAAACTAGA
AGCCCGTTTTGCTCCACAGATGAGAAGTGATTTCTCCACAGAGCAAGTTCTATAGAGTCTGTTAATAAACTATAGAAATTAGATATTAATAATCTACCTA
TTATGGCCTTGGAGTCAAGACAAATAATATTTACATGTAGGATTGCTGGTAATTCTGTATCTCTTAAGAGATTGTTCATGTGGTCATTAGAGATTTCTGT
CGTGCTGGTTTATTTGATAAATGAAATAATTAAATCATAATTACTCATCTGTATATTCCTAAATTAACAAGTAACAGGATGTTTTAATACGATTAATGTG
GAATAATACCAGGGGCTCAAAATACTACCAGGGGCGCAAAGATAATATTTGATGTCTTTTTAAAATGGCTACACGTTTATTATTCAATTTGATTTTTAGT
CACTCATTTAATGCATGARGAATCCAAGATAAAGGTTAAACTACTTCCTAAAGACCACCTGKCTAGCAACAGGCAGAGCCAAAATCAGAACTTGGGTTTC
TAGACTAAGTGCATTATASTCTTCTGTCTTACCCTAAATATGTAATAATTTAAATAAATTACATTTATTTGAAATAAGACTAGCAGTTGTACATTTTCTA
TTAAATATATAGTGTGTAAAATAAATAATATGTAAAATGGAAAAAAATCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGGGAGACAGAGTCTCGCT
CTGTCGCCCAGGCTGGAGGGCAGTGGCGCGATCTCGGCTTACTGCAAGCTCCGCCTCCCGGGTTCACGTCATTCTCCTGCCTCAGCCTCCCGAGTAGCTG
GGACTACAGGCGCCCACCACCACGCCCACCTAATTTTTTGTATTTTTAGTGGAGACAGGGTTTCACCGTTTTAGCCAGGATGGTCTCGATCTCCAGACCT
CGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCGGCTTTTTTTAAAGGTTTTAAAAACTTGTAAAAGTTATA
CATAGTCATAGTAGAAAAATATGAAAATAGTGAAAAACATTAAAAATATAAAAGTTAATATTAAAATCTTTCCACTATCCAGTATTAAACACCAGTCCAC
ATCTTTCTAGGTGATTTTCTGGGCCTATGTRTGTGTGTACATGTGTATTAATAYGGTTTACTGTTTTGTAACAATATGTCATAAATATATTTCCATATCT
AAGTTTATATTGTTAAGCATACTTTTATAACTTAATTTTTAATAACAGCATTACTATTTCATTTTGTTGATGTCTTATTCAATTCTCAATTCGATGTGTA
GTTATCTTCAGATTTTTAAGATTGTGTATTTGTACATATATGTATGTAACAACCTTGTACATTTATGTATTTCCTTCAGGATAAATTCCTAGAAGTGGAA
TTGMTGGATCGAGATTTACATTTTTCAAGGTTTTGATACATATTRGCAAATTAATCTTTGAAAAAAATACYAATGTATAGTAGGGCATTAGGCAATACAG
GAATGTGCTGATTTCTTATGCTTTTGCCAGTACTGTGTTGGGTATTTTCCTGTTTTATATTTCCTGATTCACAAGTCAATAAATGGTATCTCCTTGTTTT
TAGATTTCTTTGATTATTAAAGGAGTTGAACATCTTTTCACGTTTACTGACCATTTGTATTTGTTTTGCCTTTTCAGGTCCTTTTCCCATTTTTTTTTCT
GCTGTATTTATCTTGTTCTTAATAATTTCCAAGAACTCCTTATGTATCAAGTATAATAAACCTGTTTTGTCATCCAAGTTGCAAATTTTTCCCAGCTTTT
TGTCATTTCAGTGTATTTGTGTGTGTGTGTGTGTGTTTTAGACTGAGTCTCGCTCTATTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCG
ACCTCTGCGTCCCAGGTTCAAGCAGTTCTCCTGTCTCAACCTCCCAAGTAGCTGGGACTAAGGTGCACACCACCATGCCCGGCTAATTTTTGTATTTTTA
GTAGAGATGGGGTTTCACCATATTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCTTCCCAAAGTGCTGGGATTACCTCGC
CCGGTCCTTGTTTTTGTTTTGCCAAGCAGCTACTTACTAGGATCTCTTCCCCTGGCACCCCACTCTGCTTCCGTTAGAGCCCTTTACCACTCCACATTCC
TAAAAGTATKCACCTTTATCTTCTTCCATCCTTTAACTAACTTTCATGTTTTAATCTATTTGAAACTTATTTTGGTGTATGGTACAAGATAAGGTTCTTT
TACTTTTATTCCCCTTAAATGTAACCAGATATTCCAGCATGAGATTTCTTTACTGAAATGAAATGCAATCATTATTACATACTAAATTACTAAGATAATT
TGAGTCTATTTCTGGCCTTCTTATTCTGTTACATTAATCTTTCTGTTGGCTTGCCTAGGTACCTCACTGTTCTAATTACTGTGGTTTTATASGGCATTAC
TACTAGACATTCCAWTCAGTTATATCTTTACATAGATAAAATGATCGATAATGAGGCATATGTGAACTTTGCCTAGATTTGAGTTTTGTCACCGGCTCCC
ACGTCGGAGAGCTGATCATCTGGGATGCCCTGGACTGGACCATGCAGGCCTATGAACGCAACTTCTGGGACCCATCTCCACAACTGGACACCCAACAAGA
AATAAAACTCTGTCAAAAATCAAATGACATTTCTATTCATCATTTCACATGTGATGAAGAGGTAAAAAATGTATACAYTATCTATAAACTTGCCTTTGAC
ATATATAACCCAATTTCTGATTTTAAAAATTTAATCCCATGTTGGACATAAAAAAGGTATCATTCATGGTTTCAGGTTGTGCTTTAAAATGGTCTTTTTC
TAAAATTGGATGATTTGTGTTAAGCATTTTAATCTTTGCTTCTAATCTCGAGGCAAGGAAATGATTAAATGGCCACAGATTTAAAAATTATTGAAATTTT
GGGTTGGATTAAATAATCCCATTGGATTTGAGGTTAATGCTTAAAATTGTTTTAAGAAACACTGTGAAAAAGAGTTCTTTTGAAGATCTGACACATTTCC
TAGTGAGGCAAAGAAAATTAAAAATTTTAGGAGTGTTTCTCAGTCTGCTGGCATCTKGGGGCAAGATAAATTGAGTGAGAATTGTTGGATTCCATCTTAT
AGGACTTGGGAGTGATGCTCTTGAAGCACTTTAGATCTGTTTTGCTGTGAGAGATTAGTACCAATGGACTACTGAATCTTATCTCTGATCTGAAAAAACA
AATCTCTTAGCATCAGGGGCTCAGAAAATGTTTTTAAAGGGCAATTAACTTTTCTAAATGTAATCACAAGAAATGTTTATGAYTTGTACCCTTCGAGGAG
AAGGAGTTGGGGAGGCTTTTCTCTATTTTGTGACTTTCTATACTGTTTAATTTTTCTAACGGCATGCACGTTATTTTTATTAAAAATTTCAGTAGTAGTG
TTATGTAGTGGGGGGAGAATATGATCCATTTTTCTTTGTACCACTCTTTAAAAACAAAACAAAAGATTAGGATAGGAACAGGACTTAGAAACACTAATAY
ATTCAAAGATTGTTTCTTTGTATCCCAACTTTATTTTGAAAAAAGTTAAATATACATGATAAAGACAGTATGGTTTCAGAAAAGATAGAGACTAGATCAC
TAAGAGTTGTAGCCCTACAAATTATCTATTTTAAATGTTACATGTTTTTTCTCACTTTTGTGAAAATTAATATTTAAAAGTTTTGTATTTTAATCTTAAA
TTTTTTAATTGATGTTTATTTTCTACTATATATGCTTGATAAAGCATTGTATAGTTTTCCCTAATTTTTCTTCTTTTGTTGTGAGTTCTTTCCTTCTATA
AGGGACCGTTAGTTATTGATAGCGGGGATAGCATCCCCATTGAGTAAATGCTGCCTCCAAAGCTCATGAATTCTCTAGTTGTGTTTATAATTTTCTTCCT
GACCTTGGATAAATTACTTAAACTGTGCCCAGATTTCCTGGTCTATAGAATGAGTTTCGGGGGATTTTGGCATTGAATACAATCCACAGGGCTTTCCATT
TTAGTACATTGGCTAGCAGTGTTCATTAATGCCCTGGCATTGGGCCTCGGCTGCATTGCTGATTGCAGAGTACTAATCCTGAGAGTCAAGGGGATCATTC
MAGATTTAAGATTCCAGCAAGCCTTGGGGGCATGCTTTGGTTCAGTTACTATAGGTCTGAGTTGAGTTTGTAGTCTTGGAGGCTGTGTGAGAAAGGTTGG
AGAGCCCAGAATCTCTGGTGAAAACAAGAAGGCAATATGTAGGGATATTTGAAAGGTCTGCCTCATGGGGATATCTATTGAGTAAGAATGGATGATTCTA
GGACAGGTGCTTGCAAAAATTTCAAAGGCTACTACTGCATGTGAGTCACGTGAGGAATGAGCAAGGGACTGGAGTAACATGACCTTGATTSTAATATTGA
CTCCATGTTTCATTTCTTGTGTGACTTTAATCTCTTTAATTTTAAATTCCTTATCTGGAAAATGGCAATGATGCTTGCCTTTCTTAACACGATGTTGTGA
GGCTGAAGTGAGATAAGTATTAGTGAAAATGCTTTCAAAAGATTAAAGTTGTTTTAGTAAAAAGGTATTTATTTCTAATAGTACATTTGGAAAAATGTTT
TTTGAAACCTTCAGAGGATTGCATGATGATAATGCCACTGTAGCCGTGCTTTTTTGTATCACTTGTAGGTCTCCTGATTGCTTAAGATGTGGAATGCAAG
TAATTTTGCTTGCATTTTTCAGGCAGAAGAAGCTAGGTAATTTTCCCAAGGATAYAGTGTTATTTAAATGAAAACTCAGGTTATCCCTCAACAGCTTCCA
CTGCAGGGCCAGGCTGCTAGCTATAGCTTTTCTCTAGATATATTTCAGTGAGGAAGAAGTGGCGCTAAGGGATATACTATGCAGACCTACCTTTCTCTGC
ATTAGTGGTTGTGTCCTACCTTCTAAATGCTCAGAGCTTTCTTTAGTGCTTTGACATTTTGGGGTTTCAGAGATTAGTACTGTAATTTGGGCTAAAGGCT
AGGAATGGGAAAGGTAATGGTGKCTTTCTGATGTCACAYGAGGGCTGGAAATCCATTACACTAGGAAGGGTGAGTGYTAGTTTTATGCCCATTTCTGAAC
TTCTTCCCCTAGAATGTATTTGCTGCAGTTGGAAGGGGTTTATACGTGTATAGCCTTCAAATGAAGCGTGTGATTGCCTGCCAGAAAACTGCACATGACT
CCAATGTCCTGCACRTTGCCAGACTTCCAAACAGGTACAAGTTCCCATCTGTTCTGCAATAGATGAAAGCAAGTCACAGTTCCCAGGGCTACCAGTGTAA
TTTCTCAAGTGGCCAAGTTACCTGGCTTCATGGCTTGACCTGCTGTGTTCTTTTGGAAATGGAGAATGCCTGAGGGCTGTCTCTAACAGAAGGGTATGTG
GCAGTATATTACAGAATTTACAAGAAGCAAGGTGCAAATGAATTACATTGAATTTCATTGTTAAGAAGAGATGATTTAAAATTTGGTATTTAACAACATA
AACGACTTTGGGGCCACTTACATTGTACCAATTTTTATATTTCTCATAAACCTACCTTCTTTTTGTTTATGGCCAGAATCAAATGGTTGCTGGTCTCCTT
GTTGTGTGAGGCTACTAAGTGAGTGGTTTCCTGTCAGGGTAGATTTGCTGCTGAGCTTCTAGGGACGAACATATGGACAGGGACTATCATTATTTTCTAT
GCAGGATATTTTTATAGTGAAGCACCCAGAGAAGAGAGGKAGCAAGAGGAGGGAAGGGGGCTGCTTAGGACATTGTGAAGTATAATTCACACTGTTTTCC
CAAGGGCATTTTTTTAAATGGAGAGAATCAATTTATAGCATTTGAGCTAATGTAACGAGTAACATGTGGCTTTCCTAAAGGGTGCTTTTAGTTTGCGTTG
TAACGTCATGCTAAATTGTRATTTTTGTCAGTTCCTGCTAAGAGCTGAATAAAAGCAGTTGAGGGCTCCACTGATTTCTTTCACTGCAAATTTAGCATTG
GCCCTCAGTGGTGCGCTCTTTTTGTATTACTGATTTTCTGTTCTGACAGGCAGTTAATCTCATGCTCAGAAGATGGCAGTGTACRCATTTGGGAGTTAAG
AGAAAAACAGCAGCTTGCAGCTGAGCCTGTACCAACAGGTGTGTGTCTTCTCTCAAAAAGGTAGTCTTTTTCTCTCCTTTTTTCTCACGTGAAAGGCAGG
AGAAGGACAATTATGTGAAACCACTAAAATAATATAGAAATGCTCCAAATAGGCATCAGATGTTTATAGAAAGCATATGGTAATTGAGATCTAGGATTTA
CAGCTTAATACTGCCCTAATGTAGAACTGCCACTTCATTTCAAGTAAGATAGAGATTTTCTTGTTTTGAGGGAAAACTTACTTTCTGGTAATCTGAATGA
CCARATGGCCTAATGAAGTATTCATTTATATTGTCTATAATTCTGACTGATACACAAAATTTGTACCGTCAGATGTCAAACCAAAGTGTTCTTTACCCTT
GATGTTGAACTTAATTTATGGGAAAACATACTTTTCCTTGTGTGCTTATATCATAATTTTATGAGCTCTTGACTTCCAGGTGTTTAGTTTGAAAAACAAA
ACTCTGAAGGGTTGAATAAATTAGTTACCAACCTTTGCACAAGAAATCAGATGCTGGTACCTAGTTGTTTCTGGTCCTTTTGACTTCCTGAAGTCCTGGG
GTGTTGCTTTTGCACATACATATACAGCTTTTCCCCTATGCCTTGTTTGTTGATCTGAGTTTTGCCCTTTTTTCCCTTGACAGTTAGACACTGCCATTCA
AGCTTTGTTTCTGTCCTGTTTTATTCCAAGTGTCTTTTTGTTAATATACCTGCACCAGTGGGTGACTAGGGGCAATAAAAAGAGATGAAGAACAGACCTG
GTTAGCTAAGAAAGATGAAATAACATATTCACAAAACCCTAGCACGGTGCTCAGGTACTGTCCACTTAGCCCTTGACTAAAATAAGTCTGGAACCTCTTC
ACATTTAAATTTTGTTTTTCTGATCTCATGTTATTGTAAGTACAGAGCACARTAAKTTTGGAAATGATTCTTTTTCTAGGTTTTTTTAACATGTGGGGAT
TTGGAAGAGTCAGCAAACAAGCCAGCCAACCTGTTAAAAAGCAGCAAGAAAATGCTACTTCATGTTCACTGGAGCTTATTGGAGATTTGATTGGACACTC
ATCATCTGTGGAGGTATTGCTGTTTAGCCACAGAATGTCCAAGCAACTCCTGCTTTTGCATTTCATTGCTCTTTTCTTTCAGTTGATCTCATAAAGGCAT
ATACTTTTTCTTATATCTGTAGGTGTTTGTCAGATCTGAACATGGAATGGGATAGGCTATAGTATGTGCAGTTAGGGTCTCCCTTTCCGGATATATGATT
TGAGGAAACAAGGAATGCATTGCTTTTAAGAATGGTCTTAATCACCATTATTTAGGAGCTGGAGATAGCTGACAGTAAGGGCAGTGTGAATAATGTTGAC
TATATGACAACAGTMAACAGAGGATGCATGAAGGGTTGTGGTTATATGTGTATACAGTTAAAGCCTTAACAGAATCGAATTCCAGGGGCCTTTATCAAAT
TCATGAACAGAGTCCTGTTTYTCCTGCCTTTGAAGGATAATAGTTTGTTAGCTTTAATGAAACCTATGCCTTGATTTTCATTGTGCAAATATGAAAGTTT
TAGTTGAAAATTATGAAATGCGTAAGCTTTTAACATGTAGAAATCCAGATACATTAATATTTGCTGCAGGCATCATTGCCTGTAGTGAAGGAATAAGATC
AGTKGAGGTAACAGATTAGCTGTGAGAACTAATAACAGTGTAATCAGGGCCCTAAGGAATTTCTTAAATTGTTCTTCCCTGTTTCATAGCCAAAGAACAA
AAAATTTCTTTTCATTTGAAAGGGCATTCATGCTTAGGAGGAGCAGCGGCAGCATCCTTGTTAGTGAGCATTTCCTGTATTTCAGGCACTGTGCTAAACA
CTGGCTGCTGGAGTTTACAGAGAGAGATGAAWACAGTCCTTGCCCTCATGGATCTTACCCTTGAGTGGAGAGAAGGGGTATAGACCTAATAGGCTGTTAC
CCTAGGCTGCATTTGATGGACCCAAGTAAGCAGCAGTGACTCAGAAGAAACATTTCTTGCTGAATCTTGTAAATGGTTAGAGGATATAGGACTTGACACT
TGAGCTGAACCTTGAAGTTTAGTAGGATGAGTATATAGCCTTGTCATCATAAGCTCCTTGATGTTGGGGTACAGTGTCATAGTTATCTTTGCTTTCCTCT
AACAAGTAGCTCAGTTTTTAACTTTGTGTTTATGGTTGGGAGGTGAGCATGGACTGTGGTAGRCAGAAGGGCAAAGATAGCATTTACGTGGTGGCAAGGA
GCACCTTGSCTAGGCYGGAGCGCTGGGTTCCTGTGAACAGACACTAGTAGGGGATAAAGCCTGGGAACGTGGTTTGGGGTCAGATTATGGATGTCCTTGA
ATGTAAGGCTGAGGAGTTTGGACTTTATTTTTTAAATAGTAGGAACTCATTAAAAAGGTTTTTAGATGGTAGGGAAAACCCCATGTAAAAGACATTCAAA
ATGTGTTTGAATGTGGCACATTTCTCATTCTATAAAACAGTGTCAGCTTCTTAGGAATTTTCCTGAGTGAAAGTGTTGAGACCTGAACACTTTTAAAAAG
CATCTCCAGCTTCGTTGATAAAATCTAGGCTRTCTTTGCAGTGTCACCTGAATTTCCTCATTTCTTTTTTTTTCTTTGAGACAGCATCTCACTCTGTTGC
CCAGGCTGGAGTGCAGTCTTGGGTCACTGTACTCTCCGCCTCCCAGGTTTAAGCAATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGTGCCC
GCCACCACGCCCAGCTAATTTTTGTACTTTTAGTAGAGATGGGGTGTCACCAYGTTGGCCAGGCTGGTCCTCATTTCTATTTTCATCCTTGCTCTACTGG
CGCAACCCCTCTACCTGTGTACTGAATTTTGTGTTTTCCAGTTTCYGAAGGAATTCTGCTCCCATGTTTCCTCCCTTCACTCCTGCATCCTCAGCTGAGT
CTTATCCTGTGGTCTTCAGAAATGTATATGTCATTTCAGAGAAAACTCTTGTTTTTTTTCCCGAGAGGGAGTTTTGCTCTTGTTGCCCAGGYTGGAGTAC
AATGGCGCAATCTCCACTCACTGCAACCTCTACCTCCTGGGTTCAAGCGATTCTCTTTCCTCGGCCTCCCGAGTAGCTGGGATTACAGATACCCAGCTAA
TTTTTAGTATAGACAGGGTTTCACCATGTTTGGCCAGGCTGGCCTTAAACTCCTGACCTCAGGCAGTCCACCCACCTCAGCCTCCCGAAGTGCTGAGATT
ACAGGTGTGAGCCACCACGCCCGGCCCTGTTTCTCTTTTATTTCACCCTTTCCTTCGAGGACCTCATCCTTTTCATTGATTCACTTTTCTGATACAACTC
TTCACCCCATAGTATTCATGCTGCCTTTTGTCAACACTCTGTTTTCCTATTCTTAGCTTCCAGCCTATTCCTTCACTGGGCAAGCCCCTTCCCCTTACTT
GGGGCATTTTCTCCCTTTGAAGCTTTTTCTGAATTTCTGTGACATGTCRTAGTCTATACTGCATTATTTAGTACCTGATTACATAATCTCTCATTGGTAC
CTTTATTGTTTCAATTATGATTTGCTTTTCAGAATCTTCTTGAGGGTAGGGACCATAAACSTAGTGCTGACACTTAAYACCTATGGATTGAGTATATCTA
CTTTTATAGAGAGCTGAAGCCAGTGTTTATCTTGGGAAATTTAGAATTCAGACATTTTTTCCATAGCCATTATACAGTATAAGTAATGGYTAAGTAAAAC
CAATACTTGAAAAATCAGATKATGAAAAAATCTGGAAGAACTATGAGAATTCATGTACTTTACAAAAATAGCTATTCTGTAGTTGAACAATATTAACAAA
ATTCTGATTAAAATATTAGATATTATTTGTATGTGACTTACCAATACTGAAAAATGAAATGAAGTTCTACACCCAGATCCAAAGGAGTCTTTAAGGCACA
TATCTSASACGCACATGTGTTAATGTGGTATTAGACACTTCTCTGCTTTTCGGGGTCCCTATAATCAGTTTTAATTTTCTTTACAGATGTTTCTATACTT
TGAAGATCATGGACTAGTGACGTGCTCCGCTGATCATCTCATTATTTTGTGGAAAAATGGAGAGCGAGAATYTGGATTGCGCAGTTTAAGATTATTTCAA
AAATTAGAGGAGAATGGTGACTTATACCTTGCTGTCTAGTTTAAGGAATTAAAAATACACATGCATGAACCTTGAACATCAAATATCGGGTACTACTCTG
AAAACCATTAATATATTGATCACTTAAATTGGTAATTTTTTTTGTCAGTCCATAAAATTCTRCATGTTTAAATTTTTTGTGGACCTACCAACCAGGAACA
TGTTGCTTCTCAGGTCCTAGTATATCCTCCAAAGAATATACCACAAGTTTTTCCATTTGACTTTGAGCTGCTGTTGAAGTGGTGAGTGCTGTGTTTTGAG
CTTATTTTGAACCTAGATCCTTGTGAAAGGTACAAATAGAGGTAATAGTTAAGTTATGGCATTTATTAGAAGTTTTATTATTTGGCTTCCTTTAGAATTA
TTGTGAAGTTTAAAAATAGCCTTTCTCCTGCAAATTTTCCTAGTCTTTAGTAACTGTTAGTGTTCTATATAGCACAAACTTGAATCTCTCAGCCAAAAAA
GGGAACATATATACTGTTTAAGTATGGCAAGTTTTCTTTGGTACCAATTTGTTTAGATAATTKTAAAAATGTTTTTTAGTTCTAGCTACTAAAACCTGTA
TGAACTCAAATGGATAGGCATCTTGTGAGGGTGTGTTTTTCCCAGTGTGAATTGGCTTGAAGAGCCATGGGCTAAATGGGTACTAGAACAACAACTGCCC
CTCATGTACGCCAAGGATGAGCTCTAGATCATTTGAGAGGCACAGTGTTTCCGGAGTCAGGGACTGCAGCTGAGCGCAACTGCCCCATCTGACCACTGAC
TCAAATACGAACTGCTTGAGACAGACTTCTTTTATGTAGTTCTTTGCAGTGTCCATTGAGACACTATAACCAGCCTTGTAACAATATGTTTTCTCCTTTT
GGTGCTAAAAAATRAAAATATTAGAAAGTAGTCTACACATTAAAGATTGAAATTCTTAAMCTACTGATGAAGAAAGGGCAACGTGACWGATGTTAGCAGA
CTGACCCTTCTTACAGAAAACCTACAGATTTATTTGTTCATTATACAAATATACTACAAATATACCCTAAAGGGAATCTCCATAAGTTCTTTTACTAGTT
TTAGCTTTGACAGTTGCTTCCACAACTACCTACAAAGACTGGAAGAGTTAAGGTCATCTGAGTAGACCAGTGGCATAATGTTACAAATGAGGAAACTGAG
GCCCAGTGCAGTAAGGCCTTGCAATTAAATCTGTAGTGCCCAGTATCACCAAGCAGCTCTAAAAACAGGAACTGAAGACTGAATGAGAAAGGCTTATATG
ACTACTTTAAATCCAAACAACATTGAGTCATGAAAAGTTCTATGGAGAAATATTAAAACTTAAGCTACCTCAATTACAGAAGACTTTCTCCCATTATTCA
CGTGCTTTTTCCTTTAGAAATTCTGCATTGGCCCATACATTTGTAAAGTTGTTTTCTGAAGTTGTATGACACAAGGGAGCCATAGACTTAACTGTTTTAC
TTCCTAGCCTGTTCTAGGCTAGTATTTTGTGATAGTAATCTATTCAAATGGAGTGGTAGAAATCACATGAATTTTGGAAGCAAATGGTACCGTAAGTACC
ACAGCAAATTCCTTCTGGTCATTATACAGGCGTACCTCAGAGATACTACAGGTTAGGTTTCAGACCACATCAAAAAAGCAACTATTGCAAATAGAGTGAG
TCACATCTAGTTTTTGGTTTCCCAGTGCCTATAAAACTTGTGTTTATACTACAGTCTTAAATTTCTAAAAAATGTACATACCTTAAGAATACTTTATTGC
TAAAAAATGCTAACAATCATCTGAGCCTTCAGCGAGTCATAATCTTTTTGCTGGTGGAGGGTCTTGATACTGCTGGCTGTTGACTAAGGTGGTTACTGAA
GGTTGGGGTGGCTGTGGCAGTTCCTTAAAATAAGATAGCGATGAAGTTTTCCAAATCAATTGACTTCCTTTCACAAATGAGATCTCTGTAACAYGTAATA
CTATTTAATAGCATTTTACCCACAGTAGAACTTCTTTCAAAATTTAGAGTCTGTCATCTCAAATCCTGATGCTCCTTTATGAACTAAGTTTATAGAATAT
TCTAAATCCTTTGTTGTCATTTCAACTATGTTKACAGCATCTTCACTGTGGAAATGACTGTCTCCAGAAACCACTTTCTATACACATTCTTAAGCAACTT
CTCATCTATTAAAGTTTGATCATGAGATTACAGCAATTCATTCACATCTTCAGGCTCCACTTCTTCCAGACTCCTTTTAATGCTGGAATTTTGACCGCCT
CCCATGAATCAGAATGTTCTTAGTGGCATCTAGAATGCTAAATGCTTCCCAGAAGGTTTTCAATTGACTTTGCCCAGACTCTTCAGAGGAATCACTAGTT
AGGGCAGCTACAGCCTTATTAAATGTATTTCTTAAATAAATAAGACTTAAAAGTCAAAGTGACTCCTTGACCCATGGACTGCAGCATAGATGTTGTGGTA
GCTGGCACGAAGACAACATGAACCTCCTTGTACATCTCCATCAGAACTCTTAGGTGACCAGGTAACATTGTAATGGGCAGTAATATTTGGAAAGAAATTT
GAGCAGGTCTCAACCATAGGCTTAAATATTCAATAAACCATGCTATAAACAGATATGCTGTCATCTAGGCTTTGTTATTCCACTTCTAGAGCATAGGCAG
AGTAGATTTAACATAATTCTTAAGGGCCTTAAGATTTTTGGACTGGTAAATAAACTCTGACTTCAACTTAAAGGCACCAACTACACTCGCTGGCAYTGAA
CTTCTTCTCCCCAGCTATGAAGTCCTAGATGACATCTCTTCTAATAGAAGACCATTTCATCTTCACAAACTCAGTTGTTTAGTGTAGTCGCCTTCAGTGA
TCTTAGCTAGATCATCTGGACAACTTCCTGCTGTTGTTGTCCCTTGCACTCTGACGTTAATGGGGATAGTTTCATGAACCAACCTCTGCTTGCTTCCAGC
TTTTCTTCTGTAGCATCCTCACCYCTCAGTCTTCRAAGAAAGAATTGAAGAATTAATTAGGCTTTGGCTTAAGGGAATGTTGTGGCTTGTTTAATCTATA
TAGACCACTCAGACTTTCTCCATCTCAGCAGTAAGGCTGTTTCACTTTCTTGTTTGCATGTTCACTGGAGTTAACACTTTCAAGAACTCTTCCTTTGCAT
AACTTGGCTAACTGGTGTAAGAGGCATGGCTTTCACCTGCCTGGGCTTTCAACATGCCTTCTTCACTAAGCTTTATTATCTGTAGCTTTTGATTTAAAGT
GAGAGACATGTGACTCTTTTACTTGCACATTTACAGGCTACTGTAGGTTATTAATTGGCTTAATTTCGATATTGTTGTGTCTCAGGGAATAGGGAGGTCT
AAGAAGAGGGAGAGAYTGGAAACCGCTAGTTGGTGGAACAGTTAGAATATACACAAGATTTATCAATTAAGTTCACTGTCTTATACGGGCATGGTTTGCA
GTACCCTAAAACAATTACAGTAGTAACAAAGATCACTGATCACAGACCACCATGACAGATACAAGAATAAAAACATTTGAAATACTCTACTCTAGAGTTA
CCAAAATGTGACACTTACACAAAGTGAGCCCATGCTGGGAAAATGCCCCGATAGACTTGCTCTATGCAGGGTGGCCACAAGCCCTCAATTTGTAGAAAAG
GCAGTATCTTTGAAGCACAATGAAGCAGAATGCAATAAAATGAGGTATACTTGTATTCTAATTTTCTGCCATGAAAAACTGTCTAGAGGGCAGTCTCCAA
CCCTAGGGACTAGATTGCTTTTGTTTTCATGCATGCCCTAAGGTCACAGAGATGGGGGATAACAGTATGATGGGAGATTCTGGTAGGGACTCAAACCTGA
TGGTGTTCAGTAGTTGCAGGTAGACTGCTGCTAAAAGTTGGACTTTCAATTTAGAATAAAATAATGGGTCAATGTATATTATGTACATTTTCTCCATTTC
CTGAGTTTAGCTTTCAACAGTTAAGATACTTGCAACAGCAGAAGTAACACTACATAGTGTTACAGTGTACAAATCCCTTGTCATTTTTATTTTAAAATAT
ATTTATTACCTCAGTCTCTGGCTATATTCACATAGCGCAAGGGCACAAGATCATCCCTTCTGTTTCTCTCTCTAAAGCTGAGTAGGTTCTGAGTGAACTG
ACAGGCTTGTTTTTTTTTTGCCCAGAATGCTAACCAGTCCTGACATGGAGGGCAAGTAAATTTAAAAATCTTAAATTAGAAATAAAGAATGATCTTAGGA
AATTATAGGGTCATTCTGGTCCAGCAGTGTTTTATAACTGGCTTCCTTCTCTTACTAGTCACGGAAATTATTAGAGAGTGTTGCATTTTCCTAATACGGC
CCYCCTCAGCACATGACATTTAAGTAAACAACTCTGTGTAAGAGGCAGTTATAATAGTTTATATAATATAAACTATCTGATACACATATCATCTGAAAGC
CTGTATTTCTAACAAGTTGACTATGTGGAAGAATAGACTAGTTCGCAGGCCAGAAGATTATACCGTAGATTACACTGGTAAAGAGCAGAAATTGTTGACG
CTTTAGTACCTAGCTGTCTTAAAGCATTTTTAAACATTTGCACATTACTAATAAAAAGTTTGAAGTTAACAAGAAATTTGACATAAAACTGAGTAAGCTG
TAAATATTTCATATAGAAGATGTCTGACACCTGATAAATGTTACTTACCAAATAGAACTGAAAGTGAGATGATCAGAAAAAGATTGTCCTTGCCTCAAGC
AAGCTTCTGAAGCCTAGGCAAGTTAGCTAGGTCCTTAATATGGGATTCTGGCATCCTGATTTTAATGTGCTCTGAAAACAAAGTGTGTGACTCATGAAAT
AAAGGACACTAAACCCCAAATTTGAAATTATGAAAACTTTAGGCCAAAGAGGTAAAATAAAAACAGCTGTTGGGAGTGAAAAATGGCTGTAGGAATTTAG
TTACAAGTACTTCACAAAAACATTTTCATCACWTTTACATAATATAGCATTACAATACAAAGCTGGCTGCTGTCCTGACCAAGCAAGTTCTCTTATCATC
TAACAAAAATAATTTAGATACATTTCTTTGCATGGAATTGTCATATTTTTCCATTTTTGGTACAAAACATAGAAAAAAACATTGGCACATTATGTAGTGA
TAAGTCATTTTTTCCCCATGTACAAGTTCCAAGTATTCTGCATTCCAATTTGTATTGGAAAAAAGTAATTACTGATTCAATTAATTCAGTCTCTGTTTGT
TTATACCTTTTAAAAATGCAGCATGAAGTACAGAGAAAGAAAAATGAAGTTTGTTTACGGAGTCTAATATTTATAATACATAGGAAGGATCAGCTGGTAA
AAGAGAAAGGAAAATCTCGAGTCTGACTTTATGTAGATCACAGGGAGTTGTGAAAAGAGCAGTATAAAAATATGCACTTGTGCTTTAGAAGCTTTTAGCA
TACAATTAATAGCTTAAAATAGTATTTACTGCCTCCCCATATGCCTATTTTCTGATATATTTACACCACACAATTTTAACATTGTTAAAGCTAATGGCAT
GATTTCAAATATAGACTGGTTAAAAATATCTGAACCTTGAAACTTCCCCTATCCCCTCCCAAAATATTACGTATAGATGGTGCATGGCACAACATACTGC
ATGGGCTTACACCCAGAAAATTTGGATTTTAATAAAAATTTTAAACATGTATATAAACTTTTTTTTTTTTTTTAAGAAAAGCTTGTCCAAGGGCATTCAA
ATTTAATGGCTTTTATATAATACTTGGTGTAGTGCCTCGTGGCTGCCTCTGTGAGCCAGAAATAAAGGAAGCTCATGGATTCCCCAAAAATGAAATGCCA
CTTTTTCCCTCATCATGGATGACTTTGTTAAGATGAACCCCTTTTACAGGAAAGGGGTTACACAGGCTGCTGATACCAGTCTAGAGAGGGCACCCACCAG
CCAAGGCTGTGTTCTAACTTAGGTGTCATACCATCGGCCAGAAGAACCATGTAGCCATAGAGGCTGTGAAGCTAACTAGTTTATCTGTAATTTGGTCCTA
GTTGYTTCRCTTATTTTATGTCKTTTTTTTTTTTTCTTAGATAAATCTGTTCAGATAAGCTCCTTATGAATCCTTCAGATCGAYGTTCTTGAGGAAAACA
GTCAAGCTAAACAGCAATGATGACTTTTATGGTAAAGGATGAGCTGATCACTAGCTAAGCTACTTAGTCACCATCCTGGGAGATGAGCTCACAGGCACCA
AGGCTTTGCTTCCTGTGGCCTGCTAGTTACAGTGAACCAGCTCCATGGATTGACAAGGGTACACAGGATGACAGCAGAGCAAAGGAGTTTGCCAAGTATT
TGTTCTGTCATTAAGTATTCAAAAGAACATATATTTTTCTTCATGGAACATAACTTTCTAAGAATGAAATTTGGGGACTTGAATGATTCAAGGTCAAATA
TTAAACATTAGCTCCTTCACCAATACCTGTCATTGTCATTAGAAAGGAAGGCCTCTYRTTTACGCTACTGTGATTCACAGTGTCCTTTGTCGGTCAAGAG
GCCCCCTCTGTGGCTTGGCTTTAGCTGTCAGATGGAAGCCTCAAACTTTTGCACTTYAGGTCATCTAGTGTCTTCCAGTGTTTGTAGTTGTCAGCCAAAT
GTTGCATCAGGGCTGGCAGATGTGCAAAGGCTGCAAAGACAGAAAAGAATCAAAAGAAACYGGTGAACTTAGACCCCAGGAGCATTTATAAGCCTGGGGG
TGTCTGGGACAAGTTTGGGATCAGAATTAGAGGAGGCACACCCTGGGCGAAGCATGAGGACAAGTCATTAAACACTAGTTTCTGAAATGCAAACAGGTCC
TTTTTGAAAAGCTGCTTATCAGTGACATTATCAGAAGAACCTGTGATTCAGAGTAAACTAAATACATTTTGCATTCTTTCTAGAGTTTTCCTCCAACGAC
AGAAAAACACTGCAGTAAGCTTTGGCAGCGTGTCCTTTGAAGAGGCAGAGACTCGTTTATCYAGCTATCAAAAATCCATCAAGTCTTCTGCACACAAGCT
TCTGTGCCAGCTGCTGGGGATGCAAAGAATGCACCCCACCCCACTTGGCCACAAAAAGCTGACAGCCACATTTTTAAAAATATATTTTGTTTACCTTTAG
GCTCACCCTGTGTCACTAAAGATAATATTCGTAAAGTATAACAATYTTCTTTGGGTGACAAAACAGTAACTGTCTTACCATCCCAAGCATCAAACATGTC
TGTTATGAAGTAGTCAATGAAAGAGATCTGAGACTTGGGGATGCTACAGGTATTCCGGTCAAACACTGGCATCACCACAGGTAGTCCCTGTCTCTTCTCT
TCATCAGTCTGTAAGAAAAAACCACCACATAGGGCTGGAGGACATGCGAGACACTTTCACAGTAATATCCTGTTTCTCAGAACAACCCTGTGAAAATGGG
TCATTATCCAGTTTTCTCAATGAAGAAATAGGCTCAGCAAGGTCCTCAGACTTACGTAAGTCAGCTGAGCTACACTGACTACACTCAGACCTTCCCACTC
TCAAGCCTCTTTTTTTGTTTTTGAGACAGTGTCTCACTCTGTTGCCCAAGCTGTAGTACAGTGGTGCAGTCTCGGTTCACTGCAACCTCCGCCTCCCAGG
TTCAAGCAATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGAATACAGGCACCTGTCACCACGTCCAGCTAATTTTTAGTAGAGAAGGGGTTTCACCATAT
TGGCCAAGCCAGTCTTGAACTCCTGACCTCAGATGATCTGCCTCCCTTGGCCTCCCAAAGTGCTGGGATTATAGGCACGAGCCACTGTGCCTGGCCCCAA
GCCTCTTTCTATGTGATACCATAGCATCTCCTGACACATTGATCTCAGGGTACTTAGCCCCTTTTCTGGGATCTGCTTTTATCATTGCAAAGTCAAAGCT
CTGTTCAATGTCATACAAACACGAATTCTCATACCAAAACTACTGACATTTACACTGAGAAGAAGCAATAGTGGGTAAAACTGCTAACACCTTAGCATGA
CTCAATGAACTAGCACCAAACTGTATTAATAGCCATAGTCATTATATTATTTGCTGCCACATGTTTGCACTTAAAAAAAGTTTCAGGCCAAGCCCAATGG
CTCATGCCTGTAATCCCAGTGATATGGGAGGTCAAGGCAGGAGGTTCGCTTGGGGCCTGGAGTTTTGAGTCTGCATTGAGCCAGGACTGCCACTGCACTC
CAGTTTGGGTTACAGAGTGAGATCTTGTCTCACATTAAAAACAAAAAACAAAAAACAAAAAAACAGAACCAGTTTCACTTGAGAATTACCTCTTTGAAGC
AGTAAGAGTTATTAATTGTATTAAATCTTGACCTTCGAAGTACATGTCTCTGTAATATTCTGGATGATGAATGTGATGAAATGGGAGTACACGTACACTT
GAACTGCATACCAAAATCTGCTGGTTGTCTTGTGGAAAGCACTTATGCACTTGAATTGAGCTGAACCAGCTGTTTTTATCCATGGACCATTATTTTCACT
GGAAAGAATGACTGTCAAACTATGATTGTTCAAACTTGGGTATTAGCCTTGCAGCTTTTGAGGTGTGTGGAAATCTGAGTATTCTGCACATTAAACTAAG
GCCATCATCATTCATTGAGCTGAGTATTAGGATCCGCATTTCCTGGTGGTGTATTGAGCCAGAAGGCCAGCTCAAAGGCTTCATTTGTAACTTTCATTTT
TAGGTCACCCTGGCTTATGAACATTAGTACATTGCTTTTTGGGAAAAGGACACCTAAATAGGAAGCTTTTATCAAAAAACTTAAAAGCACATTTTTCTCA
TCCTCCATTCACACTGAGAACAACTAGGAGTAGTACGTCAGGTCCTCTCTCTGTGGGTCCGGGGAAGCCCATTGATGAGCAGCTTTTGGCTTGGCTTGCT
CATTTCAGGTCAGTCGATCAAGCAGCCTTAAAATATCCACTGGTGTTCAAGGAGTCATTTGATCCTCACTCCCTTCCTGTTCTTCTCTCTGGAAAGCTCA
GAACTACCTGTCCTACTTTTCTTCAATTCAGAGGCTCTCTTCCCAGAAAGCTGCAGTCTACTTACTGGATTTCATGAACAGACACTTCTCAAAAGACGAC
ACACAAGCAGCCAATAAACATAAAAAAAAAAATGTCCAGGCTGGGTGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGCGGATT
GCCTGAGCTCAGGAATTCGAGACCAGCCTGGGCAACACAGGGAAACCCCATCTCTACTAAAATACAAAAAATTAGCCGGGCATGGCAGTGTGCACCTGTA
GTCCCAGCTACTTGGGAGGCTGAGGCAGAATTGCTCAAGCCTGGGAGGTGAGGGTTGCAGTGAGCTGAGGTCATGCCACTGCACTCCAGCCTGGGCAACA
GAGCAAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAACTAAACAAAACAAAAGTCCAGCATCACTAATCAGACATGCAAATCAAAACCACAATGA
GATACCATCTCAAACTAGTCAGAATGGCTATTAAAAAGTCAGAAAATAACAGATGTTGGCAAGGTTGTGGAGAAAAGAATGCTTATACACTGTTGGTGAG
AAATAAATTAGATCAGCTAGCCCCTGTGGAAAGCAGTTCGGAGATTTCTCAAAGAACTAAAAATAGAAATTGCTATTCAACCCAGCCGTCCCATTACTGG
GTATATACCCAAAGGAAAATAAATCATTCTACTGAAGAGACACCTGTACTTGCATGTTTATGACAGCACAATTCATGGTAGCAAAGACATGGAATCAACC
CAGGTGCCCATCATTGGTGGACTGGATGAAGAAAATGTGGTGCATATACACCATGGAATACTATGCAGCCATAAAAAAGAATGAAATCATGTCATTTGCA
GCAACATGGCTAGAGCTGGAGGCCATTATCCTAAAGTGAAGTAATAATAGAAACAAAACCAGATACTACATGTTCTTTCTTAGAAGTGGTAGCTAAACAT
TGGGTACACACAGTGGCAGAAACTGGAACAGTAGACACTGGAGACTTCAAAAGGAGGGAAGGGGGCAAGGGTTGAAAAACTACTTATTGGGTACTATGTT
TACTACTTGAGCCATGGATCATTAGAAGCTCAAACCTCAGCATCAGCAATATACCCTTTTAACAAACCTGCACATGTACCCCCAAATCTTAAACATACTG
GGCTCCTCTGCTGGTCACTCCCCTTCCCAGTCTTCCTAGGCATCATCTATTCTTTATCCTGCCCTTATTTATCCTGCCTCCACAGTACATTTCAGCCATG
CAGACCCCACAAAATTCACTACTTGTGGCTGCTTGTTTGTCACCCACACACCCATCAGTGCTTAGAGTCTCTTCTCTGGAAGTAGGGCTGTTTTCACATG
TCCATTTACAGTCTACTGCTTTCTAGATTTCTCTCCTTTAACTCTCTACACTGCTACAATTAAAGTGAACTACATATTGCTCTTCCCTTTTTATAAAAAT
TCTATTTCCCCTCCCTTTGTTAATTTTGCTCAGAATGCTTTGTTCTTCCAGAAAGTCTTTTCCTATTCCATTTCTGTAGCCCCCCTTTTATCTAGAAAAA
AGTCTCTCTGAACGTCTGTAGCACTTAACATAAACTTCCTTGAGATACACTTCATTTTTTACTAACATGTGGACCTATCTACATCTCTCCCCTATTGGAC
TGGAACTCCCCGTGGCCGCGATGTCTTCACTAATGCCTGTGTTCCCATAACGCGCCATGTAGACACCCAGGAATAACCTAGTGAATGAATGGAAGATTTC
TCGGTTTTTGTGCAAGTTCTGGATCCAGCAAACTGAAGATGAAAAGTTACTTCCAAAGGCTCAGTTTATCCCCCTTCTCAAGAGACTCTGGTTAGTGATC
AGCCCCATCAGTCAGCTCCTGAAGGAACCAGAAGCCTACCCCAGGTGGGGGTAAGCTGCTTTCTTCCAGGGAGGAGTGGTTAACTAATTGGTAAAAAGTT
ACTCAGCTGGAGAATCCCCCAGGAGTTCCATGACCTAGTTCCCATTCCCAGAGGGGAAGTGGAGCTTCCCTGGAAAGATGGCGCACCTGTGCAAAATACT
CCTCAGAGATCCTCCCAGCCCATTCAATGCACAGGTCCAAGGGGCGGCATGGGTTGGCCACGTCAGCACACTTAATCATCATGCGTTTGATCAGGATTTG
GTTTTCAGGGAAGTTCTTCCCAGCAGGGTTGCATTCACAGTCGCTGCCTTCAATCTGGAAAACAGATGGTCAGATCAGGCTTGGTTCAAGATGACGGTGA
AGCCCACAAGGGTTAATTCGCCAGGCATTCGATGGTGATCACCGAGCACACAGGTAGGACTGGGACTCGGCGAAGGCAGCTTTTCCTTTTTTAAATTCCA
TATATAATATACTGACACATTCTTTAAAAAAAGAATATACTGATACAGTCTTAAAAGACACTCAGCAATACACACACACACAGAGTTTGAAAGTTGAAAG
TCCCTGTCACCACCTGTCTACCCCTCACATCCATTTTCTTCCCTAGAGGTAACTGCTACAGCAGTTTTGTTTTTATTTTGAGCAATTTGATATGTAATCT
TAGAGGAAATTTCTCCCAGTTTTTTTAAAAAAATGTGTAAAAGCAGAGCTTTTAGCTACTTTAATGCATTTCAGGTAGGGCAGTGGCACATACATGTAAC
CCTTCAATTATTTCTTGATTTCTACTACTTATGCCTACCATCTCCCTCCCTCCTATGACCTGTCCCACCCCCAACTCACCCAACTCTCTCGCACTTTGGT
TCTCCTAAGGCATGTGTCCACTCATGTTTTCTTGGCTGTTCTTCTGACTGGCTGGTAAGTGAGCCAGGTAGGCGTGGGGTCCTTGGAGTAGGAAGTAGTC
AGGAGCAGGTGTGTTCAGCCATGTTTAGAAAGACTGGTCCACACCTAGTGGTGATGTCAGTGTCCTGAGCCATGTGGCCAGGACACGAGTTGGTACACAC
ATCACAGGCCATTTACATAGAACCTGAAAGATTGTTATTCTCCACTTTTAAAGACACCATCAAATTGATTGTGTAAAAACAATTAGGTCTCCAGAGCTCT
GCCAAGCCAAAAGGCTGCATGACATTTGGGGGGTTTAAGACTGGACCTATTTATTAGACTATCAATGGGCAGAATATGTTCTGGAGGTTTTTGACTACTT
ATCAAAGTAATACTGTTTACTATAAATACTGCAGTTAATAGTAAGTTGCAGTGCAGAGGTGGGGGCTTACATGAGTGGATGACCTTCCTAGTTCTATGAA
TCTCTATACTTTTCCTTCTCTAAATCCCCAGATCCTTGCTCCTGTAAGTCTTCTGTGGAAGGAGAGGGCTCTGGTGTTGTGCTGTGGAATCCCTGGGGGA
AGGGGCTTAAATAGGTGAGGTAGACACTGTCACTCCATCCAGACTGGTCATGGGATGGGTCCTACACAGATCATCTCCTTACTGAGCAAGTTACTCATGA
TGATCATTCACATCCATCCAGTTTGCCAACCTCTGCCGCTCAACAGGAATGAGCGGAAAGCTTTTCTACCTTTATGGGGTTATGAACAGCTTCATGGCTT
CAGAGAACAGTGGATCTTATTAGGTGTGAACCTTCTGTTTCATGTTCCTAAAAGCCAAATTGGTAAGGACCTTAAGGCAGGTCCAAGGTACATGAGTAGG
TTTTAAAAAAGGAAAACACAATAAATGCTTCTGCTTTCCAGTCACTCCCAGTTTTATGATAGTCTTCAGGTACTGGTATGCTTTTAATGTGAATCAGGAA
CATTCTTTGTTTTTTAAAACACCTTCCAACTTTGAGGTTTTCCAAGAGCTCAGTGAACAGAGAAGTAAAGGCTTTGGATTCTCTAAAATACCACCATTTA
TGCCAGTCTCTGTTCGTCTGCGTCTCCTTCCATATTCTTTGGGCCAAGCTTTTCTGGTCAGTACTGGCTTTTTCTCAGGGCCTTTCTTTCAAGGAGCTCA
GAGTTGCTGTGGACACAGTTTATTTTCATCCCCAAGGAAAACAAGTGGCCAGTCCTTTCAGCCCTTTATCAACTCCAAGTAAATAACCACCTTACATTTG
AGTG


SNP Information

Context             (SEQ ID NO:46417):
AGTTCTCAACAACAAAGAATTATCTGGGCTGGGCGCGGTGGCTTACTCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGAATCACTTGAGGTCAG
K
AATTCAAGACCAGTCTCGCCAACGTGGTGAAAACCTGTCTCTACTAAAAATACAAAAATTAGTTGGGCGTGTGGTGCGAAAAAAAAAAATTCTCTAGCCC
Celera SNP ID:            hCV3261798
SNP Position Genomic:     8299
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,7)   total(G,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46418):
CAGTGCCTTACATGTAGCAGATAATTCATAGATGGTGGCTGAGTGAATGAATGACTCTCCAGACTACTAAGCATCCACATTGAATGCCGTCCTAATCCCC
Y
AACCTCATTTCTGTTGTCTCTACTAGTTTTTCCACTTTCATCTCTAATTTTGTCTTTTGCCTTTGCTGTTTTTTTTCACTCCATGGATGAGTGTTACTGT
Celera SNP ID:            hCV3261799
SNP Position Genomic:     9860
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46419):
GAGGTGTTTATAGTATTATCTGATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGCTGTCCCCTTTATCATCTTTTATTGTGTCTATTTGATTCTTCTCT
S
TTTTCGTCTTTATAAGTCTAGCTAGTGGTCTATTTTAATTTTTTCAAAAAACCAGCTTCTGGATTCATTGATTTTTTTGGAGAGTTTTTCTTGTCTCTGT
Celera SNP ID:            hCV29091154
SNP Position Genomic:     53410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46420):
TTCTTATTTGGGAAGCCCTCTGAAGCCTCATTGGTGACACTGAGTCTTAAGTCTCAAGTTCCCAGGGCTGCTGAGAAAAGCCCAGCAGTATTCGGCCCAT
Y
ACACCGGTCATGCTTAGTTATTTTGTTTTAGCAGTGAAGCACTGGCACCACTGAGCCAGCATGGTTACTTAAATGAAGATGATAGGATGATACAAGATAG
Celera SNP ID:            hCV29091155
SNP Position Genomic:     50286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46421):
TCTCAGAGACTTGTCACTTCTCAGATGTTAGTGATGCTAATCTTTGAGCATCCACAGCACCTGGTCCAGTGGTGTATTTTTAAAACACTCAGTACATTGA
Y
GGTAAGCCTGTTTATAAACAAGTCTCTCTCCCACTCTAGACTGAGCATTTGTGACTGGGCCTTATTCACATTTGGTACGTAGAGTTCCTGGAACATAAAT
Celera SNP ID:            hCV29091156
SNP Position Genomic:     47796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46422):
GTGTTTTAATCAGTATGTTAGCTTGGTTAAACAGTTTATTGCTTGTTATTCCAAAATTCCAGTCTCAAGATCACTTCATAATATTCCAACTAAAGTAGAA
Y
TTCCCATAAGTTCAATGTGTATCAGAAAGAGTTCTCTTTTCTATTGACTGAAAAACCTTCTTTTGACAACCACAGTTTGAATATGAGTAGCTGTCAGGAT
Celera SNP ID:            hCV29091157
SNP Position Genomic:     47463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46423):
TTGTGGGGTCATTAACTTTGAATAAATGCCTAAGGATGACCTCTTTTTACAATTGTCCTTACCAAAAAGATCATACATGTGCAAGCTTACTGATAAAGTT
Y
CATTTTCTCACAATTCTGTGTACATACGATTTTGGTTTCAACAGAAAAAAAATAATCAAATCAGTTTTGACTTTTTGATACCAAGGATCTTAAAAAATAA
Celera SNP ID:            hCV29091158
SNP Position Genomic:     45053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46424):
TCTAAGAATGAAATTTGGGGACTTGAATGATTCAAGGTCAAATATTAAACATTAGCTCCTTCACCAATACCTGTCATTGTCATTAGAAAGGAAGGCCTCT
Y
GTTTACGCTACTGTGATTCACAGTGTCCTTTGTCGGTCAAGAGGCCCCCTCTGTGGCTTGGCTTTAGCTGTCAGATGGAAGCCTCAAACTTTTGCACTTT
Celera SNP ID:            hCV1080310
SNP Position Genomic:     71857
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,26)   caucasian(C,11|T,21)   total(C,17|T,47)
SNP Type:                 INTRON;UTR 3;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:46425):
TACCTGACATCATGTGACAGGTTGCAGTCAAAATTTTGTTTAACGCACAAAATTACCAAAAATATTGTATAAAACTACCTTCAGGCTATATGTATAAGGT
G
TATATGAAAAATAAATGAATTTTGTGTTTAGACTTGGGTTCAGTCCCCAAGATAGCTCATTAGGTATATGCACATATTCCAAAATCCAAAAAAAATCAGA
Celera SNP ID:            hCV26380680
SNP Position Genomic:     37768
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,9)   total(G,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46426):
CTATGATTGACAGACTAGAAGACACAGCAGATCTTCAGAGAGACTTTCCATAAGTAGAAAGGTCAATATAGGGGATTTTTCTTTTTCAGTTCTGAAGATA
R
CAGGTAGCCATATTCAATTCAGATCGGGGTTGTGTAAAATATATTTTTATCCTGAATCAGGAGGAGAAGACTCCACTCAAGAACAACCTTTTCCAATGCT
Celera SNP ID:            hCV29091159
SNP Position Genomic:     44774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46427):
TGCTCACATAGCATCTGTTAATTATAAGGGGCCAGTTATATGTCATTCATAGCTGGCTCTCTTTAACACCACTTCTTTCTCTCATACTGAAAAAAAAAAA
A
GCCTGAATTTGAGTGAAAGCAATATTATGGGGACAACTTTAAATTGATTCTGAGTCATTAAAAATTATTTACAAACTTGTGGATGACATTAACAGTAAAT
Celera SNP ID:            hCV26380681
SNP Position Genomic:     32742
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,8)   total(A,4|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46428):
TTCTTAGAGTTCATGATTCTAAGAAGCATATTTTTTTCTATTTTGACATCTCTAAAATTTGGACACATCATATAATTGTGTGTTTCAATTGTAATTGGCA
R
TATGTTTTCCTTAATGGTAAATAAAATAAGAGTGTCTTACAATTGATGTCTTAGATTTGATGAAATACGGTACATTTCTAAACAATCATAAAGTTTTAAG
Celera SNP ID:            hCV26380682
SNP Position Genomic:     30964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46429):
AGATATTAGAGATAAATCAACCAAGTGTACTATAGAAGCCTTATTTGGATCCTTCTAACTGTTTAAAAAATTACGATCAGCTAAATTTGATCATTGACTG
R
GTATTTGATGACATTAAGGAAGTAAATGTTAACTTAGGTGTGATGTAAAAGAGTCCTTAGAGATGCATTCTGAAATACTGACAAAATGAAATACAGTGAC
Celera SNP ID:            hCV15843716
SNP Position Genomic:     16160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46430):
AGGAGAGACAACTAGGGTACATGTGCACAACATGCAGGTTTGTTACATATGTATACATGTGCCGTGTTGGTGTGCTGCACCGATTAACTCATCATTTACA
K
TAGGTATGTCTCCTAATGCTATCCCTCCCCCCTACCCCCACCCCACGACAGGCCCTGGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTCTT
Celera SNP ID:            hCV26380683
SNP Position Genomic:     29178
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,3)      total(G,3|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46431):
ATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCATTATCTTCTGGCTTGTAGAGTTTCTGCCAAGAGATCTGCTGTTAGTCTGATGGGCTTCCCTTCG
W
GGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCGA
Celera SNP ID:            hCV26380684
SNP Position Genomic:     28420
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46432):
AAGGCAGAATCTCTGGTAGCCATCTCATGGCACTGTGCTGTTCAAAATATCAACTTAGTCAAGTTTCAGGGGAAGAAAGTGCCATGTACTATATATACTT
Y
TATCTAACTTAACAGTGGATTTTTTAAGAAGGCATTAAAAAGTATTGATTTGATTAAAATCTCTATACTTTATGTGACCTGAAATGATGTGCCTTTTACA
Celera SNP ID:            hCV27514927
SNP Position Genomic:     40269
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,544|T,899)   total(C,544|T,899) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46433):
AAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCATTATCTTCTGGCTTGTAGAGTTTCTGCCAAGAGATCTGCTGTTAGTCTGATGGGCTTCCCTT
Y
GTGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTC
Celera SNP ID:            hCV26380685
SNP Position Genomic:     28418
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46434):
TCTCCGTGCATGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCC
Y
ATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTTGTTAGTTGATGCAGTTTCTTCCTAGC
Celera SNP ID:            hCV26380686
SNP Position Genomic:     28016
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46435):
GATATCCCCTTTATCATTTTTTATTGCGTCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTACTAGCGTTCTATCAATTTTGTTGATCTTTTCA
M
AAAACCGGTTCCGGGATTCATTAATTTTTTGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTGGC
Celera SNP ID:            hCV26380687
SNP Position Genomic:     26966
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,8)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46436):
AGAATTCGGCTGTGAATCCATCTGGTCCTGGATTTTTTTTTGGTTGGTAAGCTATTAATTATTGCGTCAATTTCAGATCCTGTTATTGGTCTATTCAGAG
R
TTCAGCTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCAAGGAACTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCATAGAGGTGTTTTTAG
Celera SNP ID:            hCV26380688
SNP Position Genomic:     26724
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46437):
CTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGATTTTTTTTTGGTTGGTAAGCTATTAATTATTGCGTCAATTTCAGATCCTGTTAT
Y
GGTCTATTCAGAGATTCAGCTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCAAGGAACTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCAT
Celera SNP ID:            hCV26380689
SNP Position Genomic:     26710
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,6)      total(C,6|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46438):
CCTGACATCATGTGACAGGTTGCAGTCAAAATTTTGTTTAACGCACAAAATTACCAAAAATATTGTATAAAACTACCTTCAGGCTATATGTATAAGGTGT
A
TATGAAAAATAAATGAATTTTGTGTTTAGACTTGGGTTCAGTCCCCAAGATAGCTCATTAGGTATATGCACATATTCCAAAATCCAAAAAAAATCAGAAA
Celera SNP ID:            hCV11650530
SNP Position Genomic:     37770
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,9)   total(A,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46439):
TTAAGAAGGCATTAAAAAGTATTGATTTGATTAAAATCTCTATACTTTATGTGACCTGAAATGATGTGCCTTTTACATTCCTTTAAAAATATTCTTGCTA
Y
CTGAAAAACTAAGGTCGTTAAGTTTCCAATGAAAATATGTGGCTTGAAGGAACAAAGAGAAAAAAATTTAATGTATTTGGGGGAAATTCCTTTTGGTAAA
Celera SNP ID:            hCV11650531
SNP Position Genomic:     40393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;JBIC-allele(T,502|C,971)   total(C,971|T,502)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46440):
ACTATAGCACACAGTAAATGTTGGCCGGATTTATTCGGCTGTACACATGAGCCACTGGATTTGTCTGGATGCAGAAGTCTACTGCGGTACACCTTCTTCA
K
CAAGCTCTTGGGAAAGCAGGGGAGATTTCCTGGTACCCTAGGAAGTGGAGGATACTAAAGCCATGTCACAGGGAGGGGCATTATTCTTCGTGCGCGCTTG
Celera SNP ID:            hCV27991391
SNP Position Genomic:     5782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:46441):
TTCTATATAGCACAAACTTGAATCTCTCAGCCAAAAAAGGGAACATATATACTGTTTAAGTATGGCAAGTTTTCTTTGGTACCAATTTGTTTAGATAATT
K
TAAAAATGTTTTTTAGTTCTAGCTACTAAAACCTGTATGAACTCAAATGGATAGGCATCTTGTGAGGGTGTGTTTTTCCCAGTGTGAATTGGCTTGAAGA
Celera SNP ID:            hCV3261870
SNP Position Genomic:     65863
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(T,-|G,-)   ;POOLE|_CEPH(G,41|T,147)   total(G,41|T,147)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:46442):
GGCAGAGTAGATTTAACATAATTCTTAAGGGCCTTAAGATTTTTGGACTGGTAAATAAACTCTGACTTCAACTTAAAGGCACCAACTACACTCGCTGGCA
Y
TGAACTTCTTCTCCCCAGCTATGAAGTCCTAGATGACATCTCTTCTAATAGAAGACCATTTCATCTTCACAAACTCAGTTGTTTAGTGTAGTCGCCTTCA
Celera SNP ID:            hCV3261871
SNP Position Genomic:     68096
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,10)      total(C,2|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46443):
TGTTGTCCCTTGCACTCTGACGTTAATGGGGATAGTTTCATGAACCAACCTCTGCTTGCTTCCAGCTTTTCTTCTGTAGCATCCTCACCTCTCAGTCTTC
R
AAGAAAGAATTGAAGAATTAATTAGGCTTTGGCTTAAGGGAATGTTGTGGCTTGTTTAATCTATATAGACCACTCAGACTTTCTCCATCTCAGCAGTAAG
Celera SNP ID:            hCV3261872
SNP Position Genomic:     68335
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46444):
CTTTTACTTGCACATTTACAGGCTACTGTAGGTTATTAATTGGCTTAATTTCGATATTGTTGTGTCTCAGGGAATAGGGAGGTCTAAGAAGAGGGAGAGA
Y
TGGAAACCGCTAGTTGGTGGAACAGTTAGAATATACACAAGATTTATCAATTAAGTTCACTGTCTTATACGGGCATGGTTTGCAGTACCCTAAAACAATT
Celera SNP ID:            hCV3261873
SNP Position Genomic:     68716
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46445):
ATACATTTTGCATTCTTTCTAGAGTTTTCCTCCAACGACAGAAAAACACTGCAGTAAGCTTTGGCAGCGTGTCCTTTGAAGAGGCAGAGACTCGTTTATC
Y
AGCTATCAAAAATCCATCAAGTCTTCTGCACACAAGCTTCTGTGCCAGCTGCTGGGGATGCAAAGAATGCACCCCACCCCACTTGGCCACAAAAAGCTGA
Celera SNP ID:            hCV3261875
SNP Position Genomic:     72362
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46446):
AGAGAAAGTGCCACTGTTTTTTAGTAATGTAAGCAAGTTTTGGAAAAGATAGTAGTAGCAGTAGATGTTCCCTCATTTACTTTAAGGATAACTGATCTCC
R
TATTGGAGCTCTTTTCTTTTTTTTCTTAATGTAAAAAGAATTGCTGTGTGCCAATAGGTAGAATAGTTGATCTTTTCCCAAAAAGGCAGAATCTCTGGTA
Celera SNP ID:            hCV29091162
SNP Position Genomic:     40086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46447):
TTTAAACTTGCTGTCTTCTAAATGCAATTTTAAGTTTAAAGAATCAATAGAAATTGATGTTTTATACCAAAGAACACTTAAGACCTTGAGTCCTGCCCTC
Y
CCACCATCACTATACAAATAAAAAGAAATCAATAGGCCCAGAAACATAAGCTGCTAAAGATTTATTTCCAGCAACTATTTTTGATATTCAAGGTACTATT
Celera SNP ID:            hCV29091165
SNP Position Genomic:     32051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46448):
CCTTCACATGAGTAAGAACTATTAAATGAGCATTTAGCTATTGGACATAAGAATTATTGTGAAAACAATTTATTTTTTACAAATCTTTATTAAGCTTTGC
Y
GTAGTTTTCAGCCCACTGTTGGAAGGAACGAGAGAATACTTTCTCAGAGATGTTCAAAGAGAAGATGTTTAGAGGGAATTATTTTTATACATTAAGATGG
Celera SNP ID:            hCV29091166
SNP Position Genomic:     29980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46449):
TTGTCTCATATATATTACTGGCCTGTCATCACTGTTTTCCTGTTGTGATGCAAGTCAACCAAATCATGGCATGTTAAACAATCATCTGCAGCCTTTTTTT
K
GGCAATGTTACTTGTTGCTATGTCCTGAGAGACACTCCATTTATTAAAGTGGTCATTTTTGTGGGGAACTAATTATTTCTGGAAAGGTAAGATTTTGGAC
Celera SNP ID:            hCV29091167
SNP Position Genomic:     11061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46450):
TACCATGCTTCTTAACTTTTGCTTGAAAAGATTTGTCTCATATATATTACTGGCCTGTCATCACTGTTTTCCTGTTGTGATGCAAGTCAACCAAATCATG
S
CATGTTAAACAATCATCTGCAGCCTTTTTTTTGGCAATGTTACTTGTTGCTATGTCCTGAGAGACACTCCATTTATTAAAGTGGTCATTTTTGTGGGGAA
Celera SNP ID:            hCV3261800
SNP Position Genomic:     11029
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46451):
CTTTATTTCCTTCTTCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTC
R
AAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCACAGATAGCTCTTATTAGTTTGAGATATGTCCCATCCATACCTAA
Celera SNP ID:            hCV26380690
SNP Position Genomic:     26112
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46452):
CTGTGGGTTTCTTATAAATAGCTCTTATTATTTTGAGATATGTTCTATCAATACCTAGTTTATTGAGAATTTTTAATATGAAAGGATGTTAAATTTTATC
R
AAGGCCTTTTCTGCATCTATTAAGATAATCATGTGGTTTTTGTCATTGGTTCTGTTTGTGTGATGGATTACGTTTATTGATTTGCATATGTTGAATCAGC
Celera SNP ID:            hCV27969735
SNP Position Genomic:     52757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46453):
TCTGTAAAGAGTAAAAAGCCATATGTGGGTATGTTAGTTACCGATTGCTCTGTCAGCTGTCACACCAAACTTAGTGGCTTAACACAACCCCATCTATTTA
K
CTCATTATTCTGCAGGATGGCAATTGGGGCTAGGCTCAGCTGGGTGAGTCTGTCTTTGCACCAGGAGCAACTGATCTTGGCTAGATTCACTTATGCCTCT
Celera SNP ID:            hCV3261801
SNP Position Genomic:     11648
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46454):
CTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTTCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGG
K
CATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCACAGATAGCTCTTATTAGTT
Celera SNP ID:            hCV26380691
SNP Position Genomic:     26087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46455):
TATGTACATTATGCATTGTCAAATTAGAGAAATACCTTTCCAGTTTTAAAATTTTATATCATTATCCTTTTTTTGTTTCTTAGTTTTTGAAGACATTACA
Y
TCTGGGTTTTTTTTGGTCAGCTGTTATAATCCAGGTTTCACGCTTCAAGTCTTTAGATAATAACATCTTATTGAAAATTTTGCAGAAGGATTTTCTTGTT
Celera SNP ID:            hCV3261802
SNP Position Genomic:     12525
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;SC_12_T(C,7|T,14)   SC_12_C(C,12|T,12)   SC_12_TT(C,2|T,14)   total(C,21|T,40)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46456):
GCTGAGACAGTGGGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCT
Y
CTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCC
Celera SNP ID:            hCV26380692
SNP Position Genomic:     26026
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46457):
ATCCTTTTTTTGTTTCTTAGTTTTTGAAGACATTACATTCTGGGTTTTTTTTGGTCAGCTGTTATAATCCAGGTTTCACGCTTCAAGTCTTTAGATAATA
W
CATCTTATTGAAAATTTTGCAGAAGGATTTTCTTGTTTTCTCAGTGGCTCAGCTAAAATCAGTGAGTGGAAAATTTTCTCGGATTGGTTTTTGAAGATAC
Celera SNP ID:            hCV3261803
SNP Position Genomic:     12588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,7)      total(A,7|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46458):
ATTGGTGTAAAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCCTATCAGCTTAAGGAGGTTTTGGGCTGAGACA
R
TGGGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTTCTGCCTAAT
Celera SNP ID:            hCV26380693
SNP Position Genomic:     25935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46459):
AGGAAAGGCTGCTTTTTAAGAGTTCTCTACTGGATGTAAATAACTAGGGCTTTGTACTATTGCCTTGCTTAGTTATTTGCTGAGGGTCCTTCATGAAGAA
Y
ATGCACCTGGCTTCTACTATCTGGCTTAAATCCCAGTGACTAGGAGCCGATTGAGCTAGTATAACTTTGGCTTGAAGGCAGAAATGGATCCTGAAGTCAA
Celera SNP ID:            hCV3261804
SNP Position Genomic:     13536
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46460):
CTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCCCATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCA
R
TTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTCTGTTATTGGTGTAAAAGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTG
Celera SNP ID:            hCV26380694
SNP Position Genomic:     25792
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46461):
TCTCTACTGGATGTAAATAACTAGGGCTTTGTACTATTGCCTTGCTTAGTTATTTGCTGAGGGTCCTTCATGAAGAACATGCACCTGGCTTCTACTATCT
K
GCTTAAATCCCAGTGACTAGGAGCCGATTGAGCTAGTATAACTTTGGCTTGAAGGCAGAAATGGATCCTGAAGTCAACAGCTGGAGGCAGTCAGATAACT
Celera SNP ID:            hCV3261805
SNP Position Genomic:     13559
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(T,-|G,-)   SG_12_T(T,8|G,12)   SG_12_G(G,11|T,11)   SG_12_TT(T,3|G,18)   total(T,22|G,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46462):
CTTTCTGCATATGACTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATGG
K
TGTAGATATGCGGCGTTATTTCTGAGGGCTCTGTTCTATTCCATTGGTCTATATCTCTGTTTTTGGTACCAGTATCATGCTGTTTTGGTACCAGTATCAT
Celera SNP ID:            hCV26380695
SNP Position Genomic:     25313
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,3)      total(G,3|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46463):
TTTCCATTTCTGATTTGGAGATGGTTGAAGTGTATGCTTGACTGACTAGGATTTAGTTTAAGATAAACTGATAAAGTATAGCTAGTTTTTTGTTATCCAT
S
ATAATAGGATGGGTAATTGTAATTTGTGAATGATATCTCAACCCTTTATTAGTTTTTTTATGACAGGTACTAATATGTGTCAAAGTTATACTGGTTTGTA
Celera SNP ID:            hCV27496662
SNP Position Genomic:     31487
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,131|C,960)   total(G,131|C,960) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46464):
TGTCTTGAAAGGGGGTCTGGAAGGCAGGTATTGGCGTCTGCCACACTTCCATAGTTGTAAGTTGGTCTATTTTATTTTTAACTTGCATGAACATACTCAT
K
GGCTATGTCTTTGGGCAGCTTTTTAAGAAACTGTAAGTATGCCATTGGTTAATAGTTATTTGATGGCTTGAAAAAGTTAATATTTTTAGAGCTATTAACG
Celera SNP ID:            hCV3261806
SNP Position Genomic:     13788
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,9)   total(G,3|T,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46465):
TGTTGTTTCCTGACTTTTTAATGATCGCCATTCTAACTGGTGTGAGATGGTATATCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGC
R
CATTTTCTCATGTGTCTTTTGGCTGCATAAATATCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTACCCACTTGTTGATAGGGTTGTTTATTTTTTTCT
Celera SNP ID:            hCV26380696
SNP Position Genomic:     24766
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46466):
CTGGCATTTTTTTAAAGCACTTATATCCAGTGTGACGTTGACTTTAGACAACTTTATTATAGTAAATTTTACTAAAATCTGTTAACCAAATAGCTTTTCT
W
TTTCTAAAGGCCCCTAATCCACCATGTGTGGTGAATGTGTTGATTGAATTTCTGTTGTTTTGCATCGTGCCCTGAATCAAGCGGGGAATTTCGGCAGTGT
Celera SNP ID:            hCV3261807
SNP Position Genomic:     14074
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,8)      total(A,4|T,8) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46467):
ATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAACAGTGCC
R
CAATAAACACACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAG
Celera SNP ID:            hCV26380697
SNP Position Genomic:     24465
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46468):
AGTGTCATCACACAGATGCGTGTGCCACCCTTGCTGCTTTTCTCCTTATTTCTAATAATTTTGTCCTTTCAGCTTGTGTTTTGGAGCTGTAGCTGAGTTT
Y
GTTTAGTTGGATAAGATGTTGCAGGGTTTGGGAGGATGACAGGAGTGAGTGAAAAGGTAATTGCTGCTTCATGCATTAGCATAGAATCAAATTTTAGGAT
Celera SNP ID:            hCV3261808
SNP Position Genomic:     14270
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;JBIC-allele(T,558|C,930)   total(C,930|T,558)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46469):
ACAAAGGACATGAACTCATCATGTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGG
K
TTGGTTCCAAGTCTTTGCTATTGTGAACAGTGCCGCAATAAACACACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCC
Celera SNP ID:            hCV26380698
SNP Position Genomic:     24430
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46470):
TAATTTTGTCCTTTCAGCTTGTGTTTTGGAGCTGTAGCTGAGTTTTGTTTAGTTGGATAAGATGTTGCAGGGTTTGGGAGGATGACAGGAGTGAGTGAAA
M
GGTAATTGCTGCTTCATGCATTAGCATAGAATCAAATTTTAGGATAAGGACAGCAAGTGTCTAACAGTATTTCAGTTTCAAATTTGTCATCTTAGCAGTA
Celera SNP ID:            hCV3261809
SNP Position Genomic:     14325
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,8)      total(A,8|C,3) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46471):
TGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTTGTTAGTTGATGCAGTTTCTTCCTAGTCTCGATGGTCTTTACATTTTGGCATGATTTTGCAGC
R
GCTGGTACTGGTTGTTCCTTTCCATGTTTAGCACTTCCTTCAGGAGCTCTTTTAGAGCAGGCCTGGTGGTGACAGAATCTCTCAGCATTTGCTTGTCTGT
Celera SNP ID:            hCV26380699
SNP Position Genomic:     21757
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46472):
AAGATAATTTGAGTCTATTTCTGGCCTTCTTATTCTGTTACATTAATCTTTCTGTTGGCTTGCCTAGGTACCTCACTGTTCTAATTACTGTGGTTTTATA
S
GGCATTACTACTAGACATTCCATTCAGTTATATCTTTACATAGATAAAATGATCGATAATGAGGCATATGTGAACTTTGCCTAGATTTGAGTTTTGTCAC
Celera SNP ID:            hCV25618024
SNP Position Genomic:     57392
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,13)   caucasian(C,13|G,21)   total(C,16|G,34)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46473):
GCCTTCTTATTCTGTTACATTAATCTTTCTGTTGGCTTGCCTAGGTACCTCACTGTTCTAATTACTGTGGTTTTATAGGGCATTACTACTAGACATTCCA
W
TCAGTTATATCTTTACATAGATAAAATGATCGATAATGAGGCATATGTGAACTTTGCCTAGATTTGAGTTTTGTCACCGGCTCCCACGTCGGAGAGCTGA
Celera SNP ID:            hCV25618025
SNP Position Genomic:     57415
SNP Source:               Applera
Population(Allele,Count): african american(T,16)   caucasian(A,6|T,34)   total(A,6|T,50)
SNP Type:                 INTRON


Context             (SEQ ID NO:46474):
TGCAAATTTAGCATTGGCCCTCAGTGGTGCGCTCTTTTTGTATTACTGATTTTCTGTTCTGACAGGCAGTTAATCTCATGCTCAGAAGATGGCAGTGTAC
R
CATTTGGGAGTTAAGAGAAAAACAGCAGCTTGCAGCTGAGCCTGTACCAACAGGTGTGTGTCTTCTCTCAAAAAGGTAGTCTTTTTCTCTCCTTTTTTCT
Celera SNP ID:            hCV25618026
SNP Position Genomic:     61085
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:46475):
TCTGTAATTTGGTCCTAGTTGTTTCGCTTATTTTATGTCTTTTTTTTTTTTTCTTAGATAAATCTGTTCAGATAAGCTCCTTATGAATCCTTCAGATCGA
Y
GTTCTTGAGGAAAACAGTCAAGCTAAACAGCAATGATGACTTTTATGGTAAAGGATGAGCTGATCACTAGCTAAGCTACTTAGTCACCATCCTGGGAGAT
Celera SNP ID:            hCV27470892
SNP Position Genomic:     71484
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,56|T,677)   total(C,56|T,677) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:46476):
TGGGGTTATGTGCTCTGAACCCCTTCAAATGAAATAATGAATTTAGATGGCCTAAATCATAACATATACACATACACACACAAGATAGCCAGAAATTATA
Y
TTCCGGATGGAGTATACAATCTGCCTTTGGGGTGGTCTTACCAAAAAGTCAGATATGGATCTTATTTAGTCTCTAGATTTAACTATCAATTAACAAAAAA
Celera SNP ID:            hCV15816405
SNP Position Genomic:     15816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46477):
ACAGAGGACAGAGGTGCATGTTGGATAACAGCACAGGAAAAAAAACCCAGACTGTGAGAACTCGACAAGACAGGTGAATTTTTTTTTCAACAAATAAATT
R
CAAGGAAAAACAGATGGAGAAAAAAATCATTAGAATAAAAGAGATATTAGAGATAAATCAACCAAGTGTACTATAGAAGCCTTATTTGGATCCTTCTAAC
Celera SNP ID:            hCV15816409
SNP Position Genomic:     16018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46478):
AAGTCAGATATGGATCTTATTTAGTCTCTAGATTTAACTATCAATTAACAAAAAATACAGAGGACAGAGGTGCATGTTGGATAACAGCACAGGAAAAAAA
W
CCCAGACTGTGAGAACTCGACAAGACAGGTGAATTTTTTTTTCAACAAATAAATTGCAAGGAAAAACAGATGGAGAAAAAAATCATTAGAATAAAAGAGA
Celera SNP ID:            hCV15823913
SNP Position Genomic:     15962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46479):
TACTGAAGGTTGGGGTGGCTGTGGCAGTTCCTTAAAATAAGATAGCGATGAAGTTTTCCAAATCAATTGACTTCCTTTCACAAATGAGATCTCTGTAACA
Y
GTAATACTATTTAATAGCATTTTACCCACAGTAGAACTTCTTTCAAAATTTAGAGTCTGTCATCTCAAATCCTGATGCTCCTTTATGAACTAAGTTTATA
Celera SNP ID:            hCV28013195
SNP Position Genomic:     67294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46480):
GAAGGAACATTGTTGTGCATGTTGTTGATATTTCAGTGGTAGCAGGAGCCCTGTGAATTGAATTTAGTTACTAATAGGAGCTAGCTTAGCTCCACGTAGA
Y
ATTTTAAAGTATCAGAAACATAATGACTTAGGAAAACTAAATCCATACATTGCTAGGGTTTACAATTTAACCACTCAGTTCAACATTTGATTACTAATAG
Celera SNP ID:            hCV27489160
SNP Position Genomic:     45363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46481):
GTTATGTCTCTGCCCGGCTTTGGTATCAGGATGATGCTGGCCTCATGAGTTAAGGAGGATTCCCTCTTTTTCTGTTGATTGGAGTAGTTTCAGAAGGAAT
K
GTACCAGCTTCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGATTTTTTTTTGGTTGGTAAGCTATTAATTATTGCGTCAATTT
Celera SNP ID:            hCV7602358
SNP Position Genomic:     26596
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,7)      total(G,7|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46482):
TCATAATGATACTTAAAAAAGAGAACTCACCTTTGGAGAATGCTGGGGAACTAACTCATTCTGTTGAAAATCGGTAAATAAAAGGGCAGAGTCAAAATCT
R
TACTGCCTTTCTTATATAAACTGTGTCTTGGGATCAGTAATAATTGACGAGAAGAAATTTCTCTGAAGAATTCAAGCTAGGAAGAATGATAGAATTAGAA
Celera SNP ID:            hCV3261810
SNP Position Genomic:     14713
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46483):
TTATGTGCTCTGAACCCCTTCAAATGAAATAATGAATTTAGATGGCCTAAATCATAACATATACACATACACACACAAGATAGCCAGAAATTATATTTCC
K
GATGGAGTATACAATCTGCCTTTGGGGTGGTCTTACCAAAAAGTCAGATATGGATCTTATTTAGTCTCTAGATTTAACTATCAATTAACAAAAAATACAG
Celera SNP ID:            hCV3261811
SNP Position Genomic:     15821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46484):
GCGATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGTGCCACCACACCGAGCTAATTTTTGTATTTTTAATAGAGACAGGGTTTCACCA
Y
ATTGGCCAGGCTGGTCTCGAACTCCTGATCTCGTGTTCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTACCAAACCCAGCCAGGA
Celera SNP ID:            hCV3261812
SNP Position Genomic:     16878
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46485):
CCAGCCTCCCATTCAGATACAGGCTTACCTCAAAAATAAGAGCAGACCAGTATGTTCCCTCTCTGTGAACAGATGAATCTTCAGAAAACCCACAAGGGGC
Y
GGGTATGATGGCTCATGCCTGTAATCCCAGAACTTTGGGAGGCCAAGGCGGGTGGATCACAAGGTAAGGAGTTTGAGACCAGCCTGCCCAACATGGTGAA
Celera SNP ID:            hCV3261813
SNP Position Genomic:     17175
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46486):
TACCTAAGCAAGTCTGGGCAATGGCGGGCGCCCCTCCCCCAGCCTGGCTGCTGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATTAGCGAGACTC
Y
GTGGGCGTAGGACCCTCCAAGTGAGGTGCAGGATATAATCTCCTGGTGCGCCGTTTTTTAAGCCCGTCGGAAAAGCGCAGTATTAGGGTGGGAGTGACCC
Celera SNP ID:            hCV3261816
SNP Position Genomic:     23289
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46487):
TCTGTCACCCCTTTCTTTGACTAGGAAAGGGAACTCCCTGACCCCTTGAGCTTCCCGAGTGAGGCAATGCGTCGCCCTGCTTCGGCTCGCGCACGGTGCA
Y
GCACCCACTGACCTGCGCCCACTGTCTGGCACTCCCTAGTGAGACGAACCCGGTACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGCGTCGCTCAC
Celera SNP ID:            hCV3261817
SNP Position Genomic:     23506
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46488):
CCCACTGTCTGGCACTCCCTAGTGAGACGAACCCGGTACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGCGTCGCTCACGCTGGGAGCTGTAGACC
S
GAGCTGTTCCTATTGGGCCATCTTGGCTCCTCCTCCTACTGTAATCTTGATGTGTAGTTTAGCTTTCTATCTGTGATTTGGGAAGGGAAGAACTTACCAA
Celera SNP ID:            hCV3261818
SNP Position Genomic:     23624
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,6)   total(G,6|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46489):
TCCCTAGTGAGACGAACCCGGTACCTCAGATGGAAATGCAGAAATCACCCGTCTTCTGCGTCGCTCACGCTGGGAGCTGTAGACCGGAGCTGTTCCTATT
S
GGCCATCTTGGCTCCTCCTCCTACTGTAATCTTGATGTGTAGTTTAGCTTTCTATCTGTGATTTGGGAAGGGAAGAACTTACCAAATGTTTTACCTTTGC
Celera SNP ID:            hCV3261819
SNP Position Genomic:     23639
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,6)   total(G,6|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46490):
CCGAGAACCGCAGGGACTGGCCGAGGTAAACCCCGGGTGGGTCTGCTCTGCGTCCGTCGAGCTTGCTGGAGGGGCGGCTTCGTTCCGGTTCGGCCTTCCT
S
GGTTCCGACCGCGGGGACCCGGGCGGAGGCGGGGCTGGCTGCTGAGCTCGTGCCACGCGCTGTTCTCACGACGGTGGGGGCGGAGGGCGCGGGAGCCGGA
Celera SNP ID:            hCV1080266
SNP Position Genomic:     6394
SNP Source:               Applera
Population(Allele,Count): african american(C,21|G,5)   caucasian(C,23|G,17)   total(C,44|G,22)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   JBIC-allele(C,544|G,937)   total(G,937|C,544)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46491):
TAGATTTGCTGCTGAGCTTCTAGGGACGAACATATGGACAGGGACTATCATTATTTTCTATGCAGGATATTTTTATAGTGAAGCACCCAGAGAAGAGAGG
K
AGCAAGAGGAGGGAAGGGGGCTGCTTAGGACATTGTGAAGTATAATTCACACTGTTTTCCCAAGGGCATTTTTTTAAATGGAGAGAATCAATTTATAGCA
Celera SNP ID:            hCV25618033
SNP Position Genomic:     60740
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,31)   caucasian(T,40)   total(G,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:46492):
GCGGGGACCCGGGCGGAGGCGGGGCTGGCTGCTGAGCTCGTGCCACGCGCTGTTCTCACGACGGTGGGGGCGGAGGGCGCGGGAGCCGGAGCTCCTCAGA
S
CCGGCGGGACCCCAGGCGCACCCTGGAGCTGCAGACCCCCGGCCCCGTCCCACGGCTAGCTGAATCGTGAGATCCTGGCTCAGGGACGCTCAGCTGGTCA
Celera SNP ID:            hCV1080267
SNP Position Genomic:     6505
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46493):
CAGGTACTGTCCACTTAGCCCTTGACTAAAATAAGTCTGGAACCTCTTCACATTTAAATTTTGTTTTTCTGATCTCATGTTATTGTAAGTACAGAGCACA
R
TAATTTTGGAAATGATTCTTTTTCTAGGTTTTTTTAACATGTGGGGATTTGGAAGAGTCAGCAAACAAGCCAGCCAACCTGTTAAAAAGCAGCAAGAAAA
Celera SNP ID:            hCV25618034
SNP Position Genomic:     62052
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,36)   total(A,1|G,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:46494):
CGAACGAGTTGTGACCGCAGCTTTCCACTTTTGGTTTATTTGAATTGGTGTCTCTTCCTGGCGTCTACTGATACTTGGTCAGGGAATATAAAATTAATTT
W
CTTATCCAACAACCGAAAAAGGATATAATTATTTTTAAAAAGTAATCTGCTTCAAGGTCAAGAACATGATTTTCTAATTAACTGCTGTTTTTGGTTTCAT
Celera SNP ID:            hCV1080268
SNP Position Genomic:     6797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46495):
GCCGCTGCCCGGATGTTGCGATGGCTGATCGGGGGAGGCCGAGAACCGCAGGGACTGGCCGAGGTAAACCCCGGGTGGGTCTGCTCTGCGTCCGTCGAGC
Y
TGCTGGAGGGGCGGCTTCGTTCCGGTTCGGCCTTCCTGGGTTCCGACCGCGGGGACCCGGGCGGAGGCGGGGCTGGCTGCTGAGCTCGTGCCACGCGCTG
Celera SNP ID:            hCV25618035
SNP Position Genomic:     6356
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,25)   caucasian(C,1|T,39)   total(C,2|T,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:46496):
TAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCTTTTTATTTTGAGCCTATGTGTGTCTCTGCACGTGAGATGG
R
TTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGTCCATTTACATTTAAAGTTAA
Celera SNP ID:            hCV26380700
SNP Position Genomic:     21538
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46497):
AGAAGGAATTGTACCAGTTCCTCCTTGTACCACTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTCTTTTTGGTTGGTAAACTATTGATTATTG
M
CACAATTTCAGATCCTGTTATTGGTCTATTCAGAGATTGAACTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCGAGGAATTTATCCATTTCTTCT
Celera SNP ID:            hCV26380701
SNP Position Genomic:     20306
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,3)   total(A,3|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46498):
ATGATGGATTACATTTATTGATTTGCGTATATTGAACCAGCCTTGCATCCCAGTGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGC
Y
GGATTCGGTTTGCCATTATTTTATTGAGGATTTTTGCATCAGTGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTCGGTTATGTCTCTGCCCGGCTT
Celera SNP ID:            hCV26380702
SNP Position Genomic:     20029
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46499):
TAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCACTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCACG
R
TACTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTC
Celera SNP ID:            hCV26380703
SNP Position Genomic:     19253
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46500):
GACTGGGGCTGGACCGGGCAAGACGCCGCCGCTGCCCGGATGTTGCGATGGCTGATCGGGGGAGGCCGAGAACCGCAGGGACTGGCCGAGGTAAACCCCG
R
GTGGGTCTGCTCTGCGTCCGTCGAGCTTGCTGGAGGGGCGGCTTCGTTCCGGTTCGGCCTTCCTGGGTTCCGACCGCGGGGACCCGGGCGGAGGCGGGGC
Celera SNP ID:            hCV25618039
SNP Position Genomic:     6329
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,38)   total(A,1|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:46501):
GTTTTTGTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGCGTTATTTCTGAGGGCTCTGTTCTTTTCCATTGATCTATATCTCTGTTTTGGTAC
S
AGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGCTCTTTTGGCTTAGGATTGACTTGGT
Celera SNP ID:            hCV26380704
SNP Position Genomic:     19019
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46502):
AAACAACCCAGAAAACCCACAAGGGTCTGAACTGAGCATGCCTAATTCATTGTCTCAAGCAAGTGGGGCAGAGAGAGACCAAGAATGTTTCTCTAGTAGT
R
GGAGTCCTCCATGGAAACTTGAGTGCAGGGGAATGGAGGTTCACCTAATAGAAGTCACACAGATTTTTTTGGTATTCTAATACTGTAATCTTTTTTTTTT
Celera SNP ID:            hCV2925990
SNP Position Genomic:     17548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46503):
TGGGCAACAGGGCGAGACTTTGTCTCAAAAAAAAAAACAACCCAGAAAACCCACAAGGGTCTGAACTGAGCATGCCTAATTCATTGTCTCAAGCAAGTGG
S
GCAGAGAGAGACCAAGAATGTTTCTCTAGTAGTGGGAGTCCTCCATGGAAACTTGAGTGCAGGGGAATGGAGGTTCACCTAATAGAAGTCACACAGATTT
Celera SNP ID:            hCV2925991
SNP Position Genomic:     17514
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46504):
TAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCGTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGC
R
TTATTTCTGAGGGCTCTGTTCTTTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAA
Celera SNP ID:            hCV26380705
SNP Position Genomic:     18965
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46505):
TTGGTCTATTCAGAGATTCAGCTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCAAGGAACTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGC
R
TAGAGGTGTTTTTAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATTGGTGGTGATATCCCCTTTATCATTTTTTATTGCGTCTATTTGATTCTTCT
Celera SNP ID:            hCV7602360
SNP Position Genomic:     26809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46506):
TTTGTCAATTTTGGCTTTTGTAGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTAATGGTTAGGTTTTCTTCT
R
GGGTTTTTATGGTTTTAGGTCTAACGTTTATGTCTTTAATCCATCTTGAATTGATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTCCA
Celera SNP ID:            hCV26380706
SNP Position Genomic:     18758
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46507):
GTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTAGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCT
Y
GCCCATGCCTATGTCCTGAATGGTAATGGTTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACGTTTATGTCTTTAATCCATCTTGAATTGATT
Celera SNP ID:            hCV26380707
SNP Position Genomic:     18714
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46508):
TTGCTATTGTGAATAGTGCCGCAATAAACATACGTATGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGC
T
GGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAAGAGTGTAAAAGTG
Celera SNP ID:            hCV26380708
SNP Position Genomic:     18172
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46509):
AGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCCTTGCTATTGTGAATAGTGCCGC
R
ATAAACATACGTATGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTT
Celera SNP ID:            hCV26380709
SNP Position Genomic:     18094
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46510):
TGACTTTTTAATAATTGCCATTCTGACTGGTGTGAGATGGTATCTCATTGTGATTCTGATTTGCATTTCTCTAATGATCAGTGATGTTGAGCTTTTTTTC
R
TATGTTTTTTGGCCACATAAATGTCTTGAGAAGTGCCTGTTCATATTTTGCCCACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTAAGTTCCTTGTA
Celera SNP ID:            hCV7602364
SNP Position Genomic:     51311
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46511):
GAGTATATCTACTTTTATAGAGAGCTGAAGCCAGTGTTTATCTTGGGAAATTTAGAATTCAGACATTTTTTCCATAGCCATTATACAGTATAAGTAATGG
Y
TAAGTAAAACCAATACTTGAAAAATCAGATTATGAAAAAATCTGGAAGAACTATGAGAATTCATGTACTTTACAAAAATAGCTATTCTGTAGTTGAACAA
Celera SNP ID:            hCV27484666
SNP Position Genomic:     64890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46512):
AACTCTATGACTATAAAATTATACTACAGATAATAAATAAGCCAAAGGCGTATTTAGGAATCAAACATGACCAAGTAGTCTGTTAAAATTTGAAAATGAT
Y
TGCTGACAGTCTCATCTTGCAGTACATAGGCACGTTAGCCATGATGTGGATGTCAGTGATCCTGAAATGTTTATGTTGTACAGTTCCCTGCTTCACTTGC
Celera SNP ID:            hCV7602367
SNP Position Genomic:     53686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46513):
TATGTAATCAGGTACTAAATAATGCAGTATAGACTATGACATGTCACAGAAATTCAGAAAAAGCTTCAAAGGGAGAAAATGCCCCAAGTAAGGGGAAGGG
R
CTTGCCCAGTGAAGGAATAGGCTGGAAGCTAAGAATAGGAAAACAGAGTGTTGACAAAAGGCAGCATGAATACTATGGGGTGAAGAGTTGTATCAGAAAA
Celera SNP ID:            hCV27947976
SNP Position Genomic:     13920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46514):
GCTCAGTTTTTAACTTTGTGTTTATGGTTGGGAGGTGAGCATGGACTGTGGTAGACAGAAGGGCAAAGATAGCATTTACGTGGTGGCAAGGAGCACCTTG
S
CTAGGCCGGAGCGCTGGGTTCCTGTGAACAGACACTAGTAGGGGATAAAGCCTGGGAACGTGGTTTGGGGTCAGATTATGGATGTCCTTGAATGTAAGGC
Celera SNP ID:            hCV27484667
SNP Position Genomic:     63409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46515):
CTGCTTCACTTGCAGGAGCTCTGCTCCTTTCTCCTCACCCATTACCAATGAAAGATATGGCCAGTTGCTTGGGATTGTACATCACAGGGCAAATCTGTTT
K
CAGAGGGGTGGCCCCAGGGCAACCTTAGAATTGTATGAGAGAATACCAACAAGTGTGGATAATGAATACCAGATTTGCTAAAAAGATTGGAATGCCCAGG
Celera SNP ID:            hCV7602368
SNP Position Genomic:     53874
SNP Source:               dbSNP
Population(Allele,Count): JBIG-allele(G,222|T,1239)   total(T,1239|G,222)   (T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46516):
TGAAAAACATTAAAAATATAAAAGTTAATATTAAAATCTTTCCACTATCCAGTATTAAACACCAGTCCACATCTTTCTAGGTGATTTTCTGGGCCTATGT
R
TGTGTGTACATGTGTATTAATACGGTTTACTGTTTTGTAACAATATGTCATAAATATATTTCCATATCTAAGTTTATATTGTTAAGCATACTTTTATAAC
Celera SNP ID:            hCV7602369
SNP Position Genomic:     56031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46517):
CCTTATTTGGATCCTTCTAACTGTTTAAAAAATTACGATCAGCTAAATTTGATCATTGACTGGGTATTTGATGACATTAAGGAAGTAAATGTTAACTTAG
R
TGTGATGTAAAAGAGTCCTTAGAGATGCATTCTGAAATACTGACAAAATGAAATACAGTGACTAGGATTTGCTTCAAAATAATTTACAGAGGGGTTGGAC
Celera SNP ID:            hCV15843743
SNP Position Genomic:     16198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46518):
TTTTGAGCTAGCCATCTTGTAAATGGGTGATGGTGATTATCTTAAGGGATCCCTGGTAAATAAGTGTGAATTGCTGAATCTACCACTTTATCACAATAGT
R
AAAAAAAGTACAAAAAAACCCAACCCCATATTCTGCTCTTAATAAATCAATAATGTCTTCCAAAAGTCTCAGAAACCTACATTTAACAATCATTTTCCAT
Celera SNP ID:            hCV16091721
SNP Position Genomic:     46862
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46519):
TCTTTTTTAAGGAAAAGAAATTGTTGAAGTAGATCTAATTAAGGAATTGGTTGCGTCAGCATCTATGGCTCCTGAAAATGCTTTGACGTTTCCTTCAACT
S
CTTTACAAGTCCCTATCTGGATGCTTCTCTAATTTTCTTCAAGTAGTTCTAGCATACAAACATATACTTTAAATGAAAATTGTGATTTTTTTTGTTGTTA
Celera SNP ID:            hCV3261820
SNP Position Genomic:     23930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,8)      total(G,4|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46520):
AATTGGTGTCTCTTCCTGGCGTCTACTGATACTTGGTCAGGGAATATAAAATTAATTTACTTATCCAACAACCGAAAAAGGATATAATTATTTTTAAAAA
G
TAATCTGCTTCAAGGTCAAGAACATGATTTTCTAATTAACTGCTGTTTTTGGTTTCATAGTCACACTTTCTTCATGGGCCCGAATAATTGAATAGACCGT
Celera SNP ID:            hCV2840797
SNP Position Genomic:     6839
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,7)   total(G,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46521):
TTCCACTTTTGGTTTATTTGAATTGGTGTCTCTTCCTGGCGTCTACTGATACTTGGTCAGGGAATATAAAATTAATTTACTTATCCAACAACCGAAAAAG
S
ATATAATTATTTTTAAAAAGTAATCTGCTTCAAGGTCAAGAACATGATTTTCTAATTAACTGCTGTTTTTGGTTTCATAGTCACACTTTCTTCATGGGCC
Celera SNP ID:            hCV2840798
SNP Position Genomic:     6819
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,6)   total(G,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46522):
TGGTGCGAAAAAAAAAAATTCTCTAGCCCAAAATGTCAGCATCAAGTTTGAGAAATCCAGAGTTGATTTCATGCCTTCATTTATTCATTTAGCAAGCATG
Y
ATTGAGTGCTTGTAATGGATGAGGCACTGTTTCACTATTTTATGTCTTTGATTTGCAGTTTTGTTTCTGCCACATTTTAACTGAGAAACATGCATTCTAA
Celera SNP ID:            hCV1080270
SNP Position Genomic:     8471
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46523):
GACATTGAATACAGGAAGATTTATGGTTCAGGTTTATGGACTATACTTTTTATGTCCTTTAAGGTAACATTTGAATTTTTGGGACCTTCACTTAGTTGAA
R
GGCCTTCACATGAGTAAGAACTATTAAATGAGCATTTAGCTATTGGACATAAGAATTATTGTGAAAACAATTTATTTTTTACAAATCTTTATTAAGCTTT
Celera SNP ID:            hCV3261825
SNP Position Genomic:     29877
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46524):
ATACAGGAAGATTTATGGTTCAGGTTTATGGACTATACTTTTTATGTCCTTTAAGGTAACATTTGAATTTTTGGGACCTTCACTTAGTTGAAAGGCCTTC
W
CATGAGTAAGAACTATTAAATGAGCATTTAGCTATTGGACATAAGAATTATTGTGAAAACAATTTATTTTTTACAAATCTTTATTAAGCTTTGCTGTAGT
Celera SNP ID:            hCV3261826
SNP Position Genomic:     29885
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,7)   total(A,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46525):
ACCTTTAAAATTAATACATCTTTTCTAAAAATTTAAAAACTGTGATCATTAGTAACATTTAGTAGAAATTGAAATTGGCCTCTGCATCTCGATGAAATAT
R
TATCTAGAGTCTTTTTTGCCCAAAGTCAGGGTGTCGTGTCTGGTGATTTGAGGGTTATGTTTGTTTGTTTGCATTCTCAGAAATATTCTTAATAGTTTAA
Celera SNP ID:            hCV1080272
SNP Position Genomic:     9199
SNP Source:               dbSNP
Population(Allele,Count): SG_12_G(A,10|G,10)   SG_12_AA(G,1|A,19)   total(G,11|A,29)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46526):
AAGCGACTGCCCAAACTAAGCCTCCGTGGCTGGGTACGGGAGCGCTTTGGGGACAAAAATTCTCCCTCAACTGTGGTCTGCATTCCTTCGGCCCGTGGGC
Y
GATCTGGGGCGGGAAGTATTAGCGTCTCAGTTGCGCTGCAGCCGGGGAGGAAGGAGGAGGCCGAGCCTGGGGCGGAGTTTGGGCTGACTGGGGCTGGACC
Celera SNP ID:            hCV25618040
SNP Position Genomic:     6143
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,23)   caucasian(T,40)   total(C,1|T,63)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,40)   total(C,1|T,71)
SNP Type:                 UTR 5


Context             (SEQ ID NO:46527):
TCTAAACTCTCAGCTGTTCTCAGTCATCTCTCATTGTGAACTCATGAAAGTCAAACATGATAAAACAATCATAAGAAGTTAAAAATTAGGGTTAGAAAAA
R
AGTATGTATTTTAAACTTGCTGTCTTCTAAATGCAATTTTAAGTTTAAAGAATCAATAGAAATTGATGTTTTATACCAAAGAACACTTAAGACCTTGAGT
Celera SNP ID:            hCV3261827
SNP Position Genomic:     31941
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46528):
GTATTTTTTGAACATGAAGTGAGGGTCGTATTGATGAGAGATCACTAAAGAAGGTTAAGCCTCAGCAAAAGTCTTCCAAAAAATGGGCTGTGCTAAAATT
K
CATGTAATACTCTAGCGTTTGACACATTAAACTAAACTGAGTTCATAACACATTTTAAGAAGAGTTTTCTCCGTTGCTCATTTGACCATTCCTTGCTCCT
Celera SNP ID:            hCV1080273
SNP Position Genomic:     12841
SNP Source:               dbSNP
Population(Allele,Count): (G,-|T,-)   no_pop(G,-|T,-)   no_pop(T,-|G,-)   JBIC-allele(T,273|G,440)   total(G,440|T,273)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46529):
TTGATTCTGAGTCATTAAAAATTATTTACAAACTTGTGGATGACATTAACAGTAAATTATTTGACATGCTTATGATGTGATTATTTATACTACTTTGTTG
S
GTTAGTATAATAAGATGGTGAATTTTAGTATAATATGGTGATGAATAATCCTGTATGACAGGTTATTCCTTTTGATAGTGTTTATGTTCAGAATATCTTC
Celera SNP ID:            hCV3261828
SNP Position Genomic:     32886
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,8)      total(G,8|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46530):
AACACATTTTAAGAAGAGTTTTCTCCGTTGCTCATTTGACCATTCCTTGCTCCTTCAGGAAACAGACAAGGTTATGTAGGATGGTGATCATGACTGGAAA
R
GAATCAGATGACCCATGATGAAGTGCCAGATTGGAGAACAAAATGTGCCTCTAGGATGGTTGGTGAAGCTGTACATTCACAAGAAAGTAAATAAACTCAG
Celera SNP ID:            hCV1080274
SNP Position Genomic:     12988
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   no_pop(A,-|G,-)   no_pop(G,-|A,-)   JBIC-allele(G,549|A,922)   total(G,549|A,922)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46531):
CTAAATGCTCAGAGCTTTCTTTAGTGCTTTGACATTTTGGGGTTTCAGAGATTAGTACTGTAATTTGGGCTAAAGGCTAGGAATGGGAAAGGTAATGGTG
K
CTTTCTGATGTCACATGAGGGCTGGAAATCCATTACACTAGGAAGGGTGAGTGCTAGTTTTATGCCCATTTCTGAACTTCTTCCCCTAGAATGTATTTGC
Celera SNP ID:            hCV25618041
SNP Position Genomic:     60023
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(G,39|T,1)   total(G,71|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46532):
GAATGCCCAGGTGTGTATTGATTATGTGTGGATTGTGTGATAAAGATATGATGATGTAGTTGAGTATGTATTCATATAAATACTATCTGGGGATACATTT
R
CATATCACTGTTAATTGACACATTAATATTTGAAAAGAGCTAATTAGGATAAATCCATATACAGTGGGGACCAGTATTTCATAATGAAGAGGGAAAGTTT
Celera SNP ID:            hCV3261829
SNP Position Genomic:     33794
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46533):
TATTGGCGTCTGCCACACTTCCATAGTTGTAAGTTGGTCTATTTTATTTTTAACTTGCATGAACATACTCATTGGCTATGTCTTTGGGCAGCTTTTTAAG
R
AACTGTAAGTATGCCATTGGTTAATAGTTATTTGATGGCTTGAAAAAGTTAATATTTTTAGAGCTATTAACGTACTTATGCCTGGAAAAAAGGGTATAAC
Celera SNP ID:            hCV1080275
SNP Position Genomic:     13816
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46534):
CAACTACAAAATACCCTTACTCTAGGCATTTGAAAATTATTTTCTTGAACATCTTTCAAATGTAGCTTTAAAAATCCATCTGGCAACTTGAGCATAGATA
Y
AGGAAGTAACTGCAATGAATTGCAACATATCACATATGTTTAAATCCATGTGTTCATAATGATACTTAAAAAAGAGAACTCACCTTTGGAGAATGCTGGG
Celera SNP ID:            hCV1080276
SNP Position Genomic:     14559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46535):
ACAAAAGACAGGTTAATGAGCGAAAAAGAAGTATATCAATGCATACGTTGCATACACACACACACACACACACACACACACACACACACACGAGTATTCA
R
GTAACTCGTAGGGGTGGTTAAAACTTGGGCTTAGGCTGGGCACGGTGACTCAGCCCTGTAATCCTAACACTTTGGGAGGCTGAGATGGGAGGATTCCTTG
Celera SNP ID:            hCV1080277
SNP Position Genomic:     15009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46536):
TTCTCATAATTAGGGGATGAGAGGATGAAACATTCTAGGAGGTCTGCCATAGGTCTTTGTTAAACCATGTTTCACCTTGTTGAACTTGTTTTTCATGAAT
R
TAAGTTTTGCTTAGTCATTTAATTGTGTAGTCTCAAGGAGTATTTTTAACAACTTGGGTTTTTTTTGTTTTTTGTGTTTTTTTTGAGATGGAGTCTTGCT
Celera SNP ID:            hCV1080279
SNP Position Genomic:     30371
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;SG_12_A(G,7|A,14)   SG_12_G(A,12|G,12)   SG_12_AA(G,1|A,16)   SG_95_G(A,80|G,101)   total(G,121|A,122)no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46537):
AAAACTGGATTACCAGATATGGCTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGACCTTGG
Y
TCACTCCAACCACCGCTTCCCAGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGTGCCACCACACCGAGCTAATTTTT
Celera SNP ID:            hCV26380710
SNP Position Genomic:     16748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46538):
ACTTAGACATACAAAAGACAGGTTAATGAGCGAAAAAGAAGTATATCAATGCATACGTTGCATACACACACACACACACACACACACACACACACACACA
C
GAGTATTCAAGTAACTCGTAGGGGTGGTTAAAACTTGGGCTTAGGCTGGGCACGGTGACTCAGCCCTGTAATCCTAACACTTTGGGAGGCTGAGATGGGA
Celera SNP ID:            hCV26380711
SNP Position Genomic:     14999
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46539):
AACTTAGACATACAAAAGACAGGTTAATGAGCGAAAAAGAAGTATATCAATGCATACGTTGCATACACACACACACACACACACACACACACACACACAC
A
CGAGTATTCAAGTAACTCGTAGGGGTGGTTAAAACTTGGGCTTAGGCTGGGCACGGTGACTCAGCCCTGTAATCCTAACACTTTGGGAGGCTGAGATGGG
Celera SNP ID:            hCV26380712
SNP Position Genomic:     14998
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46540):
TTTTTTTCACTCCATGGATGAGTGTTACTGTAATTATTCCTAACTCTGACCACCACTTCTGCTGTCTATTAACCTTGTCTTTTCTCTGCTTTTTTTTTTT
T
AATTTAATTTAATTTTTAAAATAGAGACAGGGTCTCACTATGTTGCCCAGGCTGGTGGGCAACTCCTGGGCTCAAGCTGTCTTCCCACCTTGGCCTCCCA
Celera SNP ID:            hCV26380713
SNP Position Genomic:     10030
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46541):
GTGATACTACCAGACAAGTTCAGAGAATATCATGCTTCCAGTCTACTGTAAAGGTAAAATCTTAAGTAAATATGAGTTTTTATGACAATCTATTTTTGTC
Y
CAGAAGACATGGTTTAAAGAGTTAGACGAAATTACTTTTGTGGGTCTTATGAATTATTTCTTTCCACACACTTGTAGTCATTTGCTTCGTGTAAGATCAG
Celera SNP ID:            hCV25618049
SNP Position Genomic:     39451
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(T,38)   total(C,3|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:46542):
TGTATCACTTGTAGGTCTCCTGATTGCTTAAGATGTGGAATGCAAGTAATTTTGCTTGCATTTTTCAGGCAGAAGAAGCTAGGTAATTTTCCCAAGGATA
Y
AGTGTTATTTAAATGAAAACTCAGGTTATCCCTCAACAGCTTCCACTGCAGGGCCAGGCTGCTAGCTATAGCTTTTCTCTAGATATATTTCAGTGAGGAA
Celera SNP ID:            hCV16173669
SNP Position Genomic:     59755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   JBIC-allele(C,182|T,1307)   total(C,182|T,1307) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46543):
ACATTGAATGCCGTCCTAATCCCCCAACCTCATTTCTGTTGTCTCTACTAGTTTTTCCACTTTCATCTCTAATTTTGTCTTTTGCCTTTGCTGTTTTTTT
T
CACTCCATGGATGAGTGTTACTGTAATTATTCCTAACTCTGACCACCACTTCTGCTGTCTATTAACCTTGTCTTTTCTCTGCTTTTTTTTTTTTAATTTA
Celera SNP ID:            hCV26380714
SNP Position Genomic:     9936
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46544):
CTTTTTTTAAAGTGAGGTTTAATAGGATACAATTTACATAAAATAAAATTCACCCTTTTTGTAAATTTATTGTGATTTGAAAATACTAAAATTCATGATT
Y
GAATTTGTGGTAGGAGAAGTGTTTTATGTGGAACTGGCAGTTATTTAGTTGATAAAAGAAGAAATAATATTTAGTAGTAGAACATGATACCTTAAGGCTT
Celera SNP ID:            hCV26380715
SNP Position Genomic:     8697
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46545):
GTTGGGGTACAGTGTCATAGTTATCTTTGCTTTCCTCTAACAAGTAGCTCAGTTTTTAACTTTGTGTTTATGGTTGGGAGGTGAGCATGGACTGTGGTAG
R
CAGAAGGGCAAAGATAGCATTTACGTGGTGGCAAGGAGCACCTTGGCTAGGCCGGAGCGCTGGGTTCCTGTGAACAGACACTAGTAGGGGATAAAGCCTG
Celera SNP ID:            hCV7602370
SNP Position Genomic:     63363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46546):
TAATTTTCTTTACAGATGTTTCTATACTTTGAAGATCATGGACTAGTGACGTGCTCCGCTGATCATCTCATTATTTTGTGGAAAAATGGAGAGCGAGAAT
Y
TGGATTGCGCAGTTTAAGATTATTTCAAAAATTAGAGGAGAATGGTGACTTATACCTTGCTGTCTAGTTTAAGGAATTAAAAATACACATGCATGAACCT
Celera SNP ID:            hCV7602371
SNP Position Genomic:     65272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:46547):
GTTTTCTCCTTTTGGTGCTAAAAAATAAAAATATTAGAAAGTAGTCTACACATTAAAGATTGAAATTCTTAAACTACTGATGAAGAAAGGGCAACGTGAC
W
GATGTTAGCAGACTGACCCTTCTTACAGAAAACCTACAGATTTATTTGTTCATTATACAAATATACTACAAATATACCCTAAAGGGAATCTCCATAAGTT
Celera SNP ID:            hCV7602372
SNP Position Genomic:     66288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:46548):
TCTTTCAAAATTTAGAGTCTGTCATCTCAAATCCTGATGCTCCTTTATGAACTAAGTTTATAGAATATTCTAAATCCTTTGTTGTCATTTCAACTATGTT
K
ACAGCATCTTCACTGTGGAAATGACTGTCTCCAGAAACCACTTTCTATACACATTCTTAAGCAACTTCTCATCTATTAAAGTTTGATCATGAGATTACAG
Celera SNP ID:            hCV7602373
SNP Position Genomic:     67433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46549):
GTGTCATACCATCGGCCAGAAGAACCATGTAGCCATAGAGGCTGTGAAGCTAACTAGTTTATCTGTAATTTGGTCCTAGTTGTTTCGCTTATTTTATGTC
K
TTTTTTTTTTTTCTTAGATAAATCTGTTCAGATAAGCTCCTTATGAATCCTTCAGATCGATGTTCTTGAGGAAAACAGTCAAGCTAAACAGCAATGATGA
Celera SNP ID:            hCV7602374
SNP Position Genomic:     71423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46550):
ACTTCCGCATGTCTTTGCAGTTGACGGTATTGTCAGTTTTTAAAAATTTCTTATTTCAGATTAATCCTAAATCCTTGAGATTGTGGATTATTGAATAGCC
R
TATATGGTATATACGACATTTTGGATAATTCTGTTTTAACCTGGTTCTTTGGTTAATCATGTTATTTGCTTAACCAGGTCTCCCATTCCTGGCAAGTTTT
Celera SNP ID:            hCV11435312
SNP Position Genomic:     7684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)   SG_12_A(G,3|A,17)   SG_12_G(G,4|A,19)   SG_12_AA(G,5|A,12)   SG_95_G(G,21|A,154)   total(G,33|A,202) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46551):
CAGAGCCTCCCTTCCTGATCATTTGTTACTCAAATTATTCTTTTTTGAAGTATCTTCCTCTCACCTTAATTTTGGATTGTTATCTAGTCTGACTGTGTCA
S
ATCTTTATTTTTCAATGGCTTTGCCTGTGATAAAATCAGTTCTTTAACATTATTTTCACCACATTCACGAAGTCCTGCAATCTTGGAAAGATTTGCCATT
Celera SNP ID:            hCV3261830
SNP Position Genomic:     34550
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(G,-|C,-)   SC_12_A(C,4|G,16)   SC_12_C(G,6|C,10)   SC_12_AA(C,1|G,16)   total(G,38|C,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46552):
GCCTGTGATAAAATCAGTTCTTTAACATTATTTTCACCACATTCACGAAGTCCTGCAATCTTGGAAAGATTTGCCATTTACATTGTATTTTTGCATGTTT
M
CTACTTGGTAAATTAGTCAGAGACTGATGGATGAAGACATTGGATGGGTAGGAATAGATGTTGGTGTTAAATAACGATGGAGTGGAGACTGACTTTCTAA
Celera SNP ID:            hCV3261831
SNP Position Genomic:     34673
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,8)      total(A,8|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46553):
ATTCACGAAGTCCTGCAATCTTGGAAAGATTTGCCATTTACATTGTATTTTTGCATGTTTACTACTTGGTAAATTAGTCAGAGACTGATGGATGAAGACA
Y
TGGATGGGTAGGAATAGATGTTGGTGTTAAATAACGATGGAGTGGAGACTGACTTTCTAAGTGGTTAATAAATGTGTGGATATATATACTTATTTGTGTG
Celera SNP ID:            hCV3261832
SNP Position Genomic:     34713
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46554):
AGTCAGAGACTGATGGATGAAGACATTGGATGGGTAGGAATAGATGTTGGTGTTAAATAACGATGGAGTGGAGACTGACTTTCTAAGTGGTTAATAAATG
W
GTGGATATATATACTTATTTGTGTGTAGGTACATATACAGTTGTTATGGTGACTTTTATTTTCTTCTATGACCTTATAACTGTGGAGACTTAAATAACAA
Celera SNP ID:            hCV3261833
SNP Position Genomic:     34788
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|A,7)   total(A,7|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46555):
TTTACACAATTATATTTTTAAATTTATAGAAAAAAATACTCAAAATTTTCTATAAAAATATACTAAAAATTAGCATTTTGTTTTAGAAAATAAAACTATA
R
TTATGGCTGTACTTTCAGTGCTTGTTTAGATTCTGTGTGATTGCTTAAGTTAAATTCTGAATAAGTAATTTTAAATGGAATGTATATGTATCTTCTATAT
Celera SNP ID:            hCV3261834
SNP Position Genomic:     35056
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46556):
ACCACTAATAAGGTTTGATAGTTCTTAATCTTAGTAATTAAATGTCACCAGTGATTTTTTTTTCTTGACCCTTTCTCCCTAACCAGATTTGCATCTGCTG
R
TGATGATGGAATTGTAGTTGTGTGGAATGCCCAGGTGTGTATTGATTATGTGTGGATTGTGTGATAAAGATATGATGATGTAGTTGAGTATGTATTCATA
Celera SNP ID:            hCV1080280
SNP Position Genomic:     33669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:46557):
AAGAAATGAACAAGCTGTAGTGGCCTAAGGAGCCACTACATACACTATTAGTCTTTAGCTGATAGGGTCTTGTCTGTATATTCTTGTTATAGCAAAAATG
R
TTTTTGTTCTGTTACTTATAAGATACCATTTATTAGGTATCTGAAAAGTATTAGACTGGAAATAGGAGGTTAAGGCTTGTTATTGATGGAAACTCCATGA
Celera SNP ID:            hCV3261835
SNP Position Genomic:     35486
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,19)   caucasian(A,11|G,23)   total(A,16|G,42)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;JBIC-allele(A,736|G,737)   total(G,737|A,736)   (G,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46558):
CTGCCCGCCTTGGCATCCCAAAGTGCTGGGATTACTGGCATGAGCCACTGTTTCCGGTCATATTAATTTTTAAAAGTATATGCTTATCTGAAAGTTCTGT
K
TAAACAGTTTCAAGCATTGGTGAAGTTTTGGAGTAAGCCCAAAAGTATAGGTGTTTCTTAGGCTCTTACAGAACCAAGATACAGACTTGAACATGCTTTA
Celera SNP ID:            hCV1080281
SNP Position Genomic:     36951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46559):
ATGGTTTTTGTTCTGTTACTTATAAGATACCATTTATTAGGTATCTGAAAAGTATTAGACTGGAAATAGGAGGTTAAGGCTTGTTATTGATGGAAACTCC
R
TGACTATTGCTGTTCTTTCCAGAGTTACTCTATCAGGTTGTATAAAATTGATGAAATGGGAAAATGTGGACTTAAAAATAATTTATTTTACTATCTCAGT
Celera SNP ID:            hCV3261836
SNP Position Genomic:     35583
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46560):
CCTTGGCATCCCAAAGTGCTGGGATTACTGGCATGAGCCACTGTTTCCGGTCATATTAATTTTTAAAAGTATATGCTTATCTGAAAGTTCTGTTTAAACA
S
TTTCAAGCATTGGTGAAGTTTTGGAGTAAGCCCAAAAGTATAGGTGTTTCTTAGGCTCTTACAGAACCAAGATACAGACTTGAACATGCTTTAAATGAGT
Celera SNP ID:            hCV1080282
SNP Position Genomic:     36958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46561):
ATGGGAAAATGTGGACTTAAAAATAATTTATTTTACTATCTCAGTTTGCTTTTCAATTTAGGGAAACAACGATGAGTTGGACTGGAGAATAATTTACATT
Y
TTTTTCCCCACTATACAGCAGAAGAAACCAAATGGTCCCAACCCATAAAAATCTTTGGAGCATCTGAGTCTGATAGAAAAGTGAATTACTGTTTGTTCAG
Celera SNP ID:            hCV3261837
SNP Position Genomic:     35739
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46562):
TGTGGGTCTTATGAATTATTTCTTTCCACACACTTGTAGTCATTTGCTTCGTGTAAGATCAGATTTTTGAGAGCACATGTATTAAGTGTTAGAATGTTTC
M
ATTTGAAATTAGAGCAAGGGATAATCCCAATAGCAAGATAAGGAAAAAAGGTAGTACCTGGTATGTTTTTTGTAGGTAGTTCCAGGAAGAGATATTACTT
Celera SNP ID:            hCV1080283
SNP Position Genomic:     39590
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(C,2|A,18)   total(A,18|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46563):
GACCTGTGTGTGTGGAACCGAAAATTAGATCTCCTGTGTAAGACTAGCCACCTTTCTGATACAGGTAAAAAACATCAAGGTAATTTTGAACTATGATTGA
S
AGACTAGAAGACACAGCAGATCTTCAGAGAGACTTTCCATAAGTAGAAAGGTCAATATAGGGGATTTTTCTTTTTCAGTTCTGAAGATAACAGGTAGCCA
Celera SNP ID:            hCV25618050
SNP Position Genomic:     44684
SNP Source:               Applera
Population(Allele,Count): african american(C,26|G,2)   caucasian(C,39|G,1)   total(C,65|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:46564):
CTTTGTTTTGCAAGTTATGTTTAAGTACTATATATTAAATCATTACAATACTGCCATTTATCAGTGTCTCAAGAGTTAACAGAAGGCTTTGAGGGTATCT
R
TGGGAAAGCCTTGAGAAGGCCATGGGTTACTATTGGTGAGCTGTTCATCATTTGGGTTTTCCAAATTACTGGAGGCCAGATTGTTAATAGTGTTATTAGA
Celera SNP ID:            hCV1080284
SNP Position Genomic:     45766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)   JBIG-allele(G,219|A,1260)   total(G,219|A,1260) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46565):
TAAGTTTCTAACCTGATATACATTTCAAATAAATTTTGCAGTGTTTAACTGTTCTTCAGAGACTAGATGTTTGGCTTTCTGGTGGGAATGACCTGTGTGT
R
TGGAACCGAAAATTAGATCTCCTGTGTAAGACTAGCCACCTTTCTGATACAGGTAAAAAACATCAAGGTAATTTTGAACTATGATTGACAGACTAGAAGA
Celera SNP ID:            hCV25618051
SNP Position Genomic:     44595
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,19)   caucasian(G,40)   total(A,3|G,59)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:46566):
AAAAATGTCAAGAAAAGGTTTAAATGGGGATAAACTCTCTATACATACATACATATATACATACACACATATATGTATGTTTGTGTGTGATTATGATACA
R
TGTAAACAAGGGCATAAAATTCTCTCAGATGGTTAGGTCAGAGTTGCTTTATTACTACTCTGTAGAGGCAAATATGGGATAAAGCTCTCTTTTTCAGTAT
Celera SNP ID:            hCV3261839
SNP Position Genomic:     37201
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46567):
ATTTGGGTTTTCCAAATTACTGGAGGCCAGATTGTTAATAGTGTTATTAGATCCTTATGTCATGATGTCCTTTCATAAGCCCTGCTTGATTTATGGACTG
S
TGGAGCTTTTACAAGCAGTTATTCTGTGTTTGGAAATAAGCAAAGACAATCTTAGTCAATGTGATACAATGGAAGGAGCCCTGGACTAAAACACAGGGCA
Celera SNP ID:            hCV1080285
SNP Position Genomic:     45916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   JBIC-allele(C,437|G,464)   total(G,464|C,437)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46568):
TGCTACATCTGGATTGTTGGGCTTCTAGTATTTTCACATATAATTTAGTGAAAGATTTTTAAACAAGCTGTTTTCTGCATTTAGAATTCTTCTCTTGCTA
Y
CCACCCTGCTGTTCTCCCATGTCCTCTGCCTTCTCTGTACCATTCCTTTGCCTTCCTTGCAGCACCATTTCCTCCTTCTTGTACATGGGAAAATACAAAA
Celera SNP ID:            hCV1080286
SNP Position Genomic:     46163
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46569):
GTCAGTCCTTTGATGGATGGGAAGGATAAGCAAATGACTAGACCGTTTTCTACACTTGCATATATATTATAAATTACATATATATCATAATGGAAAAATT
R
AACAGGTTTTTTTTTTTTTGCCAACACGTGGTGGTTCTAATATATCAACTCTTTTATTCATACTGACAGAAGCAAAATTGTAACATGCCTTGTAGAAGTT
Celera SNP ID:            hCV1080287
SNP Position Genomic:     46429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46570):
CCGTTTTCTACACTTGCATATATATTATAAATTACATATATATCATAATGGAAAAATTAAACAGGTTTTTTTTTTTTTGCCAACACGTGGTGGTTCTAAT
W
TATCAACTCTTTTATTCATACTGACAGAAGCAAAATTGTAACATGCCTTGTAGAAGTTATAGTTACGCTAAAATCATTAACCTCTTTACTTAAATAAGTG
Celera SNP ID:            hCV1080288
SNP Position Genomic:     46471
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46571):
ATACTTTCGTAATTTGAAAAGGACATGATCTCAGAGACTTGTCACTTCTCAGATGTTAGTGATGCTAATCTTTGAGCATCCACAGCACCTGGTCCAGTGG
Y
GTATTTTTAAAACACTCAGTACATTGACGGTAAGCCTGTTTATAAACAAGTCTCTCTCCCACTCTAGACTGAGCATTTGTGACTGGGCCTTATTCACATT
Celera SNP ID:            hCV1080289
SNP Position Genomic:     47768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46572):
GTACTGTAATTTGGGCTAAAGGCTAGGAATGGGAAAGGTAATGGTGGCTTTCTGATGTCACATGAGGGCTGGAAATCCATTACACTAGGAAGGGTGAGTG
Y
TAGTTTTATGCCCATTTCTGAACTTCTTCCCCTAGAATGTATTTGCTGCAGTTGGAAGGGGTTTATACGTGTATAGCCTTCAAATGAAGCGTGTGATTGC
Celera SNP ID:            hCV25764041
SNP Position Genomic:     60077
SNP Source:               Applera
Population(Allele,Count): african american(C,24)   caucasian(C,38|T,2)   total(C,62|T,2)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46573):
CTGCTCCGCGCGCGTCCACCAGGGGCCGCTCGAGCTACCTAAGCTCCGTGCGCTACCCGGCGGCGCTCCCGCGCGTGCTCACTCGGAGCAGCGCGCGCCC
S
GCAATCGCCGCAGCCGCCCCCGCCGTCGGCCGCCGCACCCCAAGCGACTGCCCAAACTAAGCCTCCGTGGCTGGGTACGGGAGCGCTTTGGGGACAAAAA
Celera SNP ID:            hCV27849879
SNP Position Genomic:     6001
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,37|G,1)   total(C,69|G,1)
SNP Type:                 TFBS


Context             (SEQ ID NO:46574):
GTTATGTAGTGGGGGGAGAATATGATCCATTTTTCTTTGTACCACTCTTTAAAAACAAAACAAAAGATTAGGATAGGAACAGGACTTAGAAACACTAATA
Y
ATTCAAAGATTGTTTCTTTGTATCCCAACTTTATTTTGAAAAAAGTTAAATATACATGATAAAGACAGTATGGTTTCAGAAAAGATAGAGACTAGATCAC
Celera SNP ID:            hCV27454455
SNP Position Genomic:     58500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46575):
GCTGAGGTGGAAGGATCACTTGAGTCCAGGAGTTCGAGGCTGCAGTGAGTTGTAATTGTGCCACTGCACTCTAGCCTGGGCGATAGAGCAAGACCCTGTC
K
CAAAAAAAATAATAAAATAAAAATTTTTAAAAATGGTGAAAGACAAATAATTTCCCCCAAAGATCAGGCACAAGATAAGGATGTCTGCTGTCAGCACATC
Celera SNP ID:            hCV3261840
SNP Position Genomic:     41744
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46576):
GGAGTTCGAGGCTGCAGTGAGTTGTAATTGTGCCACTGCACTCTAGCCTGGGCGATAGAGCAAGACCCTGTCTCAAAAAAAATAATAAAATAAAAATTTT
W
AAAAATGGTGAAAGACAAATAATTTCCCCCAAAGATCAGGCACAAGATAAGGATGTCTGCTGTCAGCACATCTGTTTAACATTGTACTGGAGGTTCTAGC
Celera SNP ID:            hCV3261841
SNP Position Genomic:     41772
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,3)      total(A,3|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46577):
CATAAAATTCTCTCAGATGGTTAGGTCAGAGTTGCTTTATTACTACTCTGTAGAGGCAAATATGGGATAAAGCTCTCTTTTTCAGTATCAGTGTAATCTT
Y
GCAAAAATAGAATTTAAAATACTCTATTAGACCACTCCTAAGACACTATAGCAATATTTTGAGGCAGTGATTAAAATTACATACAGAAGTTAGTAGCTGG
Celera SNP ID:            hCV11639553
SNP Position Genomic:     37314
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46578):
TATTCCCAAATAACATGATCTTGTGTATATAGAAAATCCTAAGTCCACAACCAAACTATTGAGGCTAGTAAATGGATTTAGCAAGGTTTCAGGATATAAT
R
TCAACACACAGAAATCAATTGTATTTCTATTCACTAGCAATGAACATTCCAAAAATTAAGAAACAATTCCATTTACAGTTGCATCCAAAAGAATAAAATA
Celera SNP ID:            hCV3261842
SNP Position Genomic:     42040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46579):
ATACTCAGAAATAGATTTAGTCTGGGCGGGGTGGCTTATGCCTATAATCCTAGCACTTTGGGAGGCCAAGGTGGGAGGATTGCTTGAGGTCAGGAGTTCA
Y
GACTAACCTGGCCAACATAGCAATACCCCATCACTATTAAAAGAAATTTGAAGTAGTATGAGACTTATATACCAAAAACTACAAAACATTGTTGAAAGAT
Celera SNP ID:            hCV3261843
SNP Position Genomic:     42238
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46580):
AAGCTACAGTAGTCAAGACAGTGTGATATTGGCATAATGACAGACATGCAGATCAATGGAACCGAATTAAAGGCCCAGAAGTAAAGTCTCACATAGCCAA
Y
TGATTTTTTGACAAGAGCGCCAAGAACCTTTAATGGGAGAAAGAATAGTCTCTTCAAAAAATGATGCTGTGTCAATTGGACATCCACATACAAAATAATG
Celera SNP ID:            hCV3261845
SNP Position Genomic:     42712
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46581):
GTTGTGTAAAATATATTTTTATCCTGAATCAGGAGGAGAAGACTCCACTCAAGAACAACCTTTTCCAATGCTCTTGGGCTGTTTTCCTGAACTGTGTTTG
R
TGAGCACGCTGATACCTAGAAGCAGACCCTTACGACTTTACAGTAGCATTTGTGGGGTCATTAACTTTGAATAAATGCCTAAGGATGACCTCTTTTTACA
Celera SNP ID:            hCV27919586
SNP Position Genomic:     44903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46582):
CAGAATGAAAAGTTTTTGTGCTTCAAAGTGAAAAGACAACATACAGAATTGGAGAAAATATTTTCAAATTGTATATCTGATAAGGGACTTGTGTCTACAA
Y
ATATGAAGAATTCAATAAAAAAGCAAATACTCCAATTAAAAATAGACAAGATTTGAAAGAAAGAAATTTCTCCAAAGAAGATAAACAAATAGCAAATAAG
Celera SNP ID:            hCV3261846
SNP Position Genomic:     43106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46583):
AAAATACTACCAGGGGCGCAAAGATAATATTTGATGTCTTTTTAAAATGGCTACACGTTTATTATTCAATTTGATTTTTAGTCACTCATTTAATGCATGA
R
GAATCCAAGATAAAGGTTAAACTACTTCCTAAAGACCACCTGGCTAGCAACAGGCAGAGCCAAAATCAGAACTTGGGTTTCTAGACTAAGTGCATTATAC
Celera SNP ID:            hCV1080292
SNP Position Genomic:     55319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46584):
AGAATGGGTTTATTGTGGGACATAACTACTTTAAGTCAAGGCACATCTGTATAATAAAAATATAACAAAAGGCATTGGCCATGATAAGGTTAACTAGTTT
R
TGAAATTAGTTTCAATTTTTAATACATGCATATACATTTGTATACGTAGTACATACATGTATGTAAATGTGTTTTCAGACATGGTGTAAAATGTATTTCT
Celera SNP ID:            hCV27919587
SNP Position Genomic:     38667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46585):
AGTGGGCGAGGAGAGTACTATTAAAGGTAAAGGGCTTATATGGTACTTGAAACACTCACTTTCCTGACTACCAAATGTATAGAATTGAGAAGACTTGGGC
R
TTATTTATTCTAAAGATACAGAGAAACTAAGGTCATAGTTTCAATTTGATTTAAAAAGGGGTTTAAGCAATTGTGTATTAGTAATTTATTACTGAGTAAC
Celera SNP ID:            hCV3261847
SNP Position Genomic:     43903
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46586):
ATCTTCAGATTTTTAAGATTGTGTATTTGTACATATATGTATGTAACAACCTTGTACATTTATGTATTTCCTTCAGGATAAATTCCTAGAAGTGGAATTG
M
TGGATCGAGATTTACATTTTTCAAGGTTTTGATACATATTAGCAAATTAATCTTTGAAAAAAATACTAATGTATAGTAGGGCATTAGGCAATACAGGAAT
Celera SNP ID:            hCV1080293
SNP Position Genomic:     56304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46587):
CTTTTTCAGTTCTGAAGATAACAGGTAGCCATATTCAATTCAGATCGGGGTTGTGTAAAATATATTTTTATCCTGAATCAGGAGGAGAAGACTCCACTCA
R
GAACAACCTTTTCCAATGCTCTTGGGCTGTTTTCCTGAACTGTGTTTGGTGAGCACGCTGATACCTAGAAGCAGACCCTTACGACTTTACAGTAGCATTT
Celera SNP ID:            hCV3261848
SNP Position Genomic:     44854
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,5)   caucasian(A,24|G,14)   total(A,45|G,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)   SG_12_A(G,7|A,13)   SG_12_G(A,12|G,12)   SG_12_AA(G,1|A,20)   SG_95_G(A,76|G,83)   total(G,103|A,121) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46588):
AAACACTGTGAAAAAGAGTTCTTTTGAAGATCTGACACATTTCCTAGTGAGGCAAAGAAAATTAAAAATTTTAGGAGTGTTTCTCAGTCTGCTGGCATCT
K
GGGGCAAGATAAATTGAGTGAGAATTGTTGGATTCCATCTTATAGGACTTGGGAGTGATGCTCTTGAAGCACTTTAGATCTGTTTTGCTGTGAGAGATTA
Celera SNP ID:            hCV1080294
SNP Position Genomic:     58057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46589):
TTTTTGGAGGTATTAGTGCTTTGGTTGAAATACCTAAGAACTGTGTTGTGGCAGCAGTTGGCAAAGAACTGAGTGAGTATGAATTTTTTTCTTTTTGTGT
R
TTTTGAACGAGAATTGTATACACATGCTGGAAGGACTAAAGTAATTTTTTATTTAAGGGACATTGCGTGTGCCCCACTCTTGGCTTCTTGGGATTGTTGA
Celera SNP ID:            hCV3261849
SNP Position Genomic:     47204
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,28)   caucasian(A,14|G,26)   total(A,22|G,54)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46590):
CTCTGATCTGAAAAAACAAATCTCTTAGCATCAGGGGCTCAGAAAATGTTTTTAAAGGGCAATTAACTTTTCTAAATGTAATCACAAGAAATGTTTATGA
Y
TTGTACCCTTCGAGGAGAAGGAGTTGGGGAGGCTTTTCTCTATTTTGTGACTTTCTATACTGTTTAATTTTTCTAACGGCATGCACGTTATTTTTATTAA
Celera SNP ID:            hCV1080295
SNP Position Genomic:     58283
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(T,9|C,11)   SC_12_C(T,9|C,12)   SC_12_AA(T,5|C,12)   SC_95_C(C,82|T,89)   total(C,117|T,112)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46591):
TTAGTACATTGGCTAGCAGTGTTCATTAATGCCCTGGCATTGGGCCTCGGCTGCATTGCTGATTGCAGAGTACTAATCCTGAGAGTCAAGGGGATCATTC
M
AGATTTAAGATTCCAGCAAGCCTTGGGGGCATGCTTTGGTTCAGTTACTATAGGTCTGAGTTGAGTTTGTAGTCTTGGAGGCTGTGTGAGAAAGGTTGGA
Celera SNP ID:            hCV1080296
SNP Position Genomic:     59101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46592):
TTCTTTAGTGCTTTGACATTTTGGGGTTTCAGAGATTAGTACTGTAATTTGGGCTAAAGGCTAGGAATGGGAAAGGTAATGGTGGCTTTCTGATGTCACA
Y
GAGGGCTGGAAATCCATTACACTAGGAAGGGTGAGTGCTAGTTTTATGCCCATTTCTGAACTTCTTCCCCTAGAATGTATTTGCTGCAGTTGGAAGGGGT
Celera SNP ID:            hCV1080297
SNP Position Genomic:     60039
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,22)   caucasian(C,1|T,39)   total(C,9|T,61)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): SC_12_T(C,3|T,18)   SC_12_C(C,3|T,21)   SC_12_TT(C,7|T,14)   SC_95_C(C,21|T,154)   total(C,34|T,207)JBIC-allele(C,240|T,1221)   total(C,240|T,1221)   no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:46593):
TGGCCACAAAAAGCTGACAGCCACATTTTTAAAAATATATTTTGTTTACCTTTAGGCTCACCCTGTGTCACTAAAGATAATATTCGTAAAGTATAACAAT
Y
TTCTTTGGGTGACAAAACAGTAACTGTCTTACCATCCCAAGCATCAAACATGTCTGTTATGAAGTAGTCAATGAAAGAGATCTGAGACTTGGGGATGCTA
Celera SNP ID:            hCV25617988
SNP Position Genomic:     72546
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(C,1|T,35)   total(C,4|T,68)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46594):
TGTATTTGCTGCAGTTGGAAGGGGTTTATACGTGTATAGCCTTCAAATGAAGCGTGTGATTGCCTGCCAGAAAACTGCACATGACTCCAATGTCCTGCAC
R
TTGCCAGACTTCCAAACAGGTACAAGTTCCCATCTGTTCTGCAATAGATGAAAGCAAGTCACAGTTCCCAGGGCTACCAGTGTAATTTCTCAAGTGGCCA
Celera SNP ID:            hCV1080298
SNP Position Genomic:     60215
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,11)   caucasian(A,22|G,16)   total(A,45|G,27)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIG-allele(A,739|G,756)   total(G,756|A,739)   (G,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:46595):
CAGCTGAGTCTTATCCTGTGGTCTTCAGAAATGTATATGTCATTTCAGAGAAAACTCTTGTTTTTTTTCCCGAGAGGGAGTTTTGCTCTTGTTGCCCAGG
Y
TGGAGTACAATGGCGCAATCTCCACTCACTGCAACCTCTACCTCCTGGGTTCAAGCGATTCTCTTTCCTCGGCCTCCCGAGTAGCTGGGATTACAGATAC
Celera SNP ID:            hCV1080299
SNP Position Genomic:     64192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46596):
GGCACAAATTCAGTGAGTGGGTAAATAAACTTGACCTCTCATGGTAGAAGTAACTAAGTCCTATTGCTAATGGTGGTGGCAATATTGGGAGGGGGAATAA
Y
TTGTGGCCAGTTTGTGATCTACCACAGTGAGTCTAAGATAGATGAAGAAGCCTGCTTTTTGGCTTTTGTAATACAGTGATGATATGACTTCATGATTCAC
Celera SNP ID:            hCV2952480
SNP Position Genomic:     12071
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46597):
TACTGTCCACTTAGCCCTTGACTAAAATAAGTCTGGAACCTCTTCACATTTAAATTTTGTTTTTCTGATCTCATGTTATTGTAAGTACAGAGCACAGTAA
K
TTTGGAAATGATTCTTTTTCTAGGTTTTTTTAACATGTGGGGATTTGGAAGAGTCAGCAAACAAGCCAGCCAACCTGTTAAAAAGCAGCAAGAAAATGCT
Celera SNP ID:            hCV25765798
SNP Position Genomic:     62056
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,21)   caucasian(T,36)   total(G,7|T,57)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46598):
CAATGTGTATCAGAAAGAGTTCTCTTTTCTATTGACTGAAAAACCTTCTTTTGACAACCACAGTTTGAATATGAGTAGCTGTCAGGATTAAATAACCTGG
W
TAGAGATTTGTAGTTTGGTAAAATATTGTCAGAGACACAGAAAGAAGCATGGCATGACCTATCTTCTAGAGAGAAATGTGAGAAAGAAAAGATACTTTCG
Celera SNP ID:            hCV2952482
SNP Position Genomic:     47576
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,5)      total(A,3|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46599):
GTTTTTGTTTTGCCAAGCAGCTACTTACTAGGATCTCTTCCCCTGGCACCCCACTCTGCTTCCGTTAGAGCCCTTTACCACTCCACATTCCTAAAAGTAT
K
CACCTTTATCTTCTTCCATCCTTTAACTAACTTTCATGTTTTAATCTATTTGAAACTTATTTTGGTGTATGGTACAAGATAAGGTTCTTTTACTTTTATT
Celera SNP ID:            hCV16037101
SNP Position Genomic:     57110
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,19)   caucasian(G,1|T,37)   total(G,8|T,56)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46600):
CCTGGATAGAGATTTGTAGTTTGGTAAAATATTGTCAGAGACACAGAAAGAAGCATGGCATGACCTATCTTCTAGAGAGAAATGTGAGAAAGAAAAGATA
M
TTTCGTAATTTGAAAAGGACATGATCTCAGAGACTTGTCACTTCTCAGATGTTAGTGATGCTAATCTTTGAGCATCCACAGCACCTGGTCCAGTGGTGTA
Celera SNP ID:            hCV3261850
SNP Position Genomic:     47671
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,5)      total(A,2|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46601):
ATTTAATGGTATATGCCTAGGAATCAGAAGCTTTTTAAAAAAGAAGTTGCTTATGTCTTCACTGAGTTGAAGTTAAACTTGGATTTGCAGCTTATTCTGT
M
GCAATGCTTACATGAGTAAGAGACATGAGTAGAGAAAGCTGATGTTGGAGGTGATTGAGGGATGTGGGCTAGTCACTGATTAGGGAGGGAGTGAGTTGAG
Celera SNP ID:            hCV3261851
SNP Position Genomic:     48198
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)   SC_12_A(C,9|A,15)   SC_12_C(C,11|A,11)   SC_12_AA(C,3|A,14)   SC_95_C(A,85|C,88)   total(A,125|C,111) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46602):
GCTGCACCTATCAACCTGTCCTCTCAGTTTCCTCCCCTTCCCCACAACAGGTGCTGGTGTGTGTTGTTCCCCTCTCTGTGTCCATATGTTCTCATTGTTC
R
GTTTCCAGTTAGAGTGAGAATATGCGGCATTTGATTTTCTGTTCCTGTGTTAGTTTGCTGAGAATGATGGCTTCCAGCTTCATGACTATGTCCCTGCAAA
Celera SNP ID:            hCV3261852
SNP Position Genomic:     50756
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46603):
TCATGACTATGTCCCTGCAAAGGACATGATCTCATTCCTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTTATCCAATCTATC
R
TTGATGGGCATTTGGATTGGTTCCATATCTTTGTTCTTGTAAATAGTGATGTAGTAAACATACATGTGCATGTGTCTTTGTAGTAGAATGATTGATATCC
Celera SNP ID:            hCV3261854
SNP Position Genomic:     50936
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46604):
AAAATGGCTACACGTTTATTATTCAATTTGATTTTTAGTCACTCATTTAATGCATGAGGAATCCAAGATAAAGGTTAAACTACTTCCTAAAGACCACCTG
K
CTAGCAACAGGCAGAGCCAAAATCAGAACTTGGGTTTCTAGACTAAGTGCATTATACTCTTCTGTCTTACCCTAAATATGTAATAATTTAAATAAATTAC
Celera SNP ID:            hCV3261855
SNP Position Genomic:     55362
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;SG_12_T(G,5|T,12)   SG_12_G(G,12|T,12)   SG_12_TT(T,8|G,12)   SG_95_G(G,83|T,98)   total(T,130|G,112)
SNP Type:                 INTRON


Context             (SEQ ID NO:46605):
GGAATCCAAGATAAAGGTTAAACTACTTCCTAAAGACCACCTGGCTAGCAACAGGCAGAGCCAAAATCAGAACTTGGGTTTCTAGACTAAGTGCATTATA
S
TCTTCTGTCTTACCCTAAATATGTAATAATTTAAATAAATTACATTTATTTGAAATAAGACTAGCAGTTGTACATTTTCTATTAAATATATAGTGTGTAA
Celera SNP ID:            hCV3261856
SNP Position Genomic:     55419
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46606):
GTTAATATTAAAATCTTTCCACTATCCAGTATTAAACACCAGTCCACATCTTTCTAGGTGATTTTCTGGGCCTATGTATGTGTGTACATGTGTATTAATA
Y
GGTTTACTGTTTTGTAACAATATGTCATAAATATATTTCCATATCTAAGTTTATATTGTTAAGCATACTTTTATAACTTAATTTTTAATAACAGCATTAC
Celera SNP ID:            hCV3261857
SNP Position Genomic:     56054
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46607):
TGTAACAACCTTGTACATTTATGTATTTCCTTCAGGATAAATTCCTAGAAGTGGAATTGTTGGATCGAGATTTACATTTTTCAAGGTTTTGATACATATT
R
GCAAATTAATCTTTGAAAAAAATACTAATGTATAGTAGGGCATTAGGCAATACAGGAATGTGCTGATTTCTTATGCTTTTGCCAGTACTGTGTTGGGTAT
Celera SNP ID:            hCV3261858
SNP Position Genomic:     56345
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46608):
TTCCTTCAGGATAAATTCCTAGAAGTGGAATTGTTGGATCGAGATTTACATTTTTCAAGGTTTTGATACATATTAGCAAATTAATCTTTGAAAAAAATAC
Y
AATGTATAGTAGGGCATTAGGCAATACAGGAATGTGCTGATTTCTTATGCTTTTGCCAGTACTGTGTTGGGTATTTTCCTGTTTTATATTTCCTGATTCA
Celera SNP ID:            hCV3261859
SNP Position Genomic:     56371
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46609):
CTAAGAATGAAATTTGGGGACTTGAATGATTCAAGGTCAAATATTAAACATTAGCTCCTTCACCAATACCTGTCATTGTCATTAGAAAGGAAGGCCTCTT
R
TTTACGCTACTGTGATTCACAGTGTCCTTTGTCGGTCAAGAGGCCCCCTCTGTGGCTTGGCTTTAGCTGTCAGATGGAAGCCTCAAACTTTTGCACTTTA
Celera SNP ID:            hCV25617999
SNP Position Genomic:     71858
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,5|G,35)   total(A,6|G,72)
SNP Type:                 INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:46610):
TTTTAACTTTGTGTTTATGGTTGGGAGGTGAGCATGGACTGTGGTAGACAGAAGGGCAAAGATAGCATTTACGTGGTGGCAAGGAGCACCTTGGCTAGGC
Y
GGAGCGCTGGGTTCCTGTGAACAGACACTAGTAGGGGATAAAGCCTGGGAACGTGGTTTGGGGTCAGATTATGGATGTCCTTGAATGTAAGGCTGAGGAG
Celera SNP ID:            hCV27517899
SNP Position Genomic:     63416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46611):
GCATTATTTAGTACCTGATTACATAATCTCTCATTGGTACCTTTATTGTTTCAATTATGATTTGCTTTTCAGAATCTTCTTGAGGGTAGGGACCATAAAC
S
TAGTGCTGACACTTAATACCTATGGATTGAGTATATCTACTTTTATAGAGAGCTGAAGCCAGTGTTTATCTTGGGAAATTTAGAATTCAGACATTTTTTC
Celera SNP ID:            hCV1080300
SNP Position Genomic:     64761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46612):
CCCAAAATATTACGTATAGATGGTGCATGGCACAACATACTGCATGGGCTTACACCCAGAAAATTTGGATTTTAATAAAAATTTTAAACATGTATATAAA
C
TTTTTTTTTTTTTTTAAGAAAAGCTTGTCCAAGGGCATTCAAATTTAATGGCTTTTATATAATACTTGGTGTAGTGCCTCGTGGCTGCCTCTGTGAGCCA
Celera SNP ID:            hCV26380670
SNP Position Genomic:     71058
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46613):
GGGTATGTTAGTTACCGATTGCTCTGTCAGCTGTCACACCAAACTTAGTGGCTTAACACAACCCCATCTATTTAGCTCATTATTCTGCAGGATGGCAATT
S
GGGCTAGGCTCAGCTGGGTGAGTCTGTCTTTGCACCAGGAGCAACTGATCTTGGCTAGATTCACTTATGCCTCTGTCAGCTGGTAGATTGGCGGGGGCTG
Celera SNP ID:            hCV1142208
SNP Position Genomic:     11674
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46614):
CTTCCTGCTGTTGTTGTCCCTTGCACTCTGACGTTAATGGGGATAGTTTCATGAACCAACCTCTGCTTGCTTCCAGCTTTTCTTCTGTAGCATCCTCACC
Y
CTCAGTCTTCGAAGAAAGAATTGAAGAATTAATTAGGCTTTGGCTTAAGGGAATGTTGTGGCTTGTTTAATCTATATAGACCACTCAGACTTTCTCCATC
Celera SNP ID:            hCV29091149
SNP Position Genomic:     68324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46615):
ATTACATAATCTCTCATTGGTACCTTTATTGTTTCAATTATGATTTGCTTTTCAGAATCTTCTTGAGGGTAGGGACCATAAACCTAGTGCTGACACTTAA
Y
ACCTATGGATTGAGTATATCTACTTTTATAGAGAGCTGAAGCCAGTGTTTATCTTGGGAAATTTAGAATTCAGACATTTTTTCCATAGCCATTATACAGT
Celera SNP ID:            hCV1080301
SNP Position Genomic:     64778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46616):
CCACAACTGGACACCCAACAAGAAATAAAACTCTGTCAAAAATCAAATGACATTTCTATTCATCATTTCACATGTGATGAAGAGGTAAAAAATGTATACA
Y
TATCTATAAACTTGCCTTTGACATATATAACCCAATTTCTGATTTTAAAAATTTAATCCCATGTTGGACATAAAAAAGGTATCATTCATGGTTTCAGGTT
Celera SNP ID:            hCV26380671
SNP Position Genomic:     57678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46617):
CAGTGTTTATCTTGGGAAATTTAGAATTCAGACATTTTTTCCATAGCCATTATACAGTATAAGTAATGGTTAAGTAAAACCAATACTTGAAAAATCAGAT
K
ATGAAAAAATCTGGAAGAACTATGAGAATTCATGTACTTTACAAAAATAGCTATTCTGTAGTTGAACAATATTAACAAAATTCTGATTAAAATATTAGAT
Celera SNP ID:            hCV1080302
SNP Position Genomic:     64921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46618):
TTTTAGATTTCTTTGATTATTAAAGGAGTTGAACATCTTTTCACGTTTACTGACCATTTGTATTTGTTTTGCCTTTTCAGGTCCTTTTCCCATTTTTTTT
T
CTGCTGTATTTATCTTGTTCTTAATAATTTCCAAGAACTCCTTATGTATCAAGTATAATAAACCTGTTTTGTCATCCAAGTTGCAAATTTTTCCCAGCTT
Celera SNP ID:            hCV26380673
SNP Position Genomic:     56598
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|-,7)   total(-,7|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46619):
TTAAAATATTAGATATTATTTGTATGTGACTTACCAATACTGAAAAATGAAATGAAGTTCTACACCCAGATCCAAAGGAGTCTTTAAGGCACATATCTCA
S
ACGCACATGTGTTAATGTGGTATTAGACACTTCTCTGCTTTTCGGGGTCCCTATAATCAGTTTTAATTTTCTTTACAGATGTTTCTATACTTTGAAGATC
Celera SNP ID:            hCV1080303
SNP Position Genomic:     65108
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46620):
CAGATGGGTAGATTGCAAAAATTTTCTCCCATTTTGTAGGTTGCCTTTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTCATTAG
W
TCCCATTTGTCAGCTTTGGCTTTTGTTGCAGTTGCTTTTGGCATCTTTGTCATGAAGTCTTTGCCCATGCCTGTGTTCTGAATGGTATTGCCTAGGTTTT
Celera SNP ID:            hCV26380674
SNP Position Genomic:     51539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46621):
GCTTGAGACAGACTTCTTTTATGTAGTTCTTTGCAGTGTCCATTGAGACACTATAACCAGCCTTGTAACAATATGTTTTCTCCTTTTGGTGCTAAAAAAT
R
AAAATATTAGAAAGTAGTCTACACATTAAAGATTGAAATTCTTAAACTACTGATGAAGAAAGGGCAACGTGACTGATGTTAGCAGACTGACCCTTCTTAC
Celera SNP ID:            hCV1080304
SNP Position Genomic:     66214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:46622):
ACCGACCTTTGTCAGATGGGTAGATTGCAAAAATTTTCTCCCATTTTGTAGGTTGCCTTTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTT
Y
AGTTTCATTAGTTCCCATTTGTCAGCTTTGGCTTTTGTTGCAGTTGCTTTTGGCATCTTTGTCATGAAGTCTTTGCCCATGCCTGTGTTCTGAATGGTAT
Celera SNP ID:            hCV26380675
SNP Position Genomic:     51527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46623):
GACACTATAACCAGCCTTGTAACAATATGTTTTCTCCTTTTGGTGCTAAAAAATAAAAATATTAGAAAGTAGTCTACACATTAAAGATTGAAATTCTTAA
M
CTACTGATGAAGAAAGGGCAACGTGACTGATGTTAGCAGACTGACCCTTCTTACAGAAAACCTACAGATTTATTTGTTCATTATACAAATATACTACAAA
Celera SNP ID:            hCV1080305
SNP Position Genomic:     66260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:46624):
TGGTGTGTGTTGTTCCCCTCTCTGTGTCCATATGTTCTCATTGTTCAGTTTCCAGTTAGAGTGAGAATATGCGGCATTTGATTTTCTGTTCCTGTGTTAG
W
TTGCTGAGAATGATGGCTTCCAGCTTCATGACTATGTCCCTGCAAAGGACATGATCTCATTCCTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTG
Celera SNP ID:            hCV26380676
SNP Position Genomic:     50810
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46625):
AGCGATTCTTCTGCCTCAGCCTCCCAAATAGCTGGAACTACAGGCGCATATCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCTCC
R
TATTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCCACCTGCCTCAGCCTCCCACAGTGCTGAGATTACAGGCATGAGCCACCAAGCCCGGCCGGC
Celera SNP ID:            hCV26380677
SNP Position Genomic:     49781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46626):
TTATAGGGTCATTCTGGTCCAGCAGTGTTTTATAACTGGCTTCCTTCTCTTACTAGTCACGGAAATTATTAGAGAGTGTTGCATTTTCCTAATACGGCCC
Y
CCTCAGCACATGACATTTAAGTAAACAACTCTGTGTAAGAGGCAGTTATAATAGTTTATATAATATAAACTATCTGATACACATATCATCTGAAAGCCTG
Celera SNP ID:            hCV1080306
SNP Position Genomic:     69703
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;SC_12_A(T,9|C,15)   SC_12_C(T,12|C,12)   SC_12_AA(T,3|C,18)   SC_95_C(C,87|T,102)   total(C,132|T,126)no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46627):
TGTTTACGCTACTGTGATTCACAGTGTCCTTTGTCGGTCAAGAGGCCCCCTCTGTGGCTTGGCTTTAGCTGTCAGATGGAAGCCTCAAACTTTTGCACTT
Y
AGGTCATCTAGTGTCTTCCAGTGTTTGTAGTTGTCAGCCAAATGTTGCATCAGGGCTGGCAGATGTGCAAAGGCTGCAAAGACAGAAAAGAATCAAAAGA
Celera SNP ID:            hCV25618000
SNP Position Genomic:     71957
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:46628):
GCTTAGGAGGAGCAGCGGCAGCATCCTTGTTAGTGAGCATTTCCTGTATTTCAGGCACTGTGCTAAACACTGGCTGCTGGAGTTTACAGAGAGAGATGAA
W
ACAGTCCTTGCCCTCATGGATCTTACCCTTGAGTGGAGAGAAGGGGTATAGACCTAATAGGCTGTTACCCTAGGCTGCATTTGATGGACCCAAGTAAGCA
Celera SNP ID:            hCV11435342
SNP Position Genomic:     63032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46629):
ACCTGACATCATGTGACAGGTTGCAGTCAAAATTTTGTTTAACGCACAAAATTACCAAAAATATTGTATAAAACTACCTTCAGGCTATATGTATAAGGTG
T
ATATGAAAAATAAATGAATTTTGTGTTTAGACTTGGGTTCAGTCCCCAAGATAGCTCATTAGGTATATGCACATATTCCAAAATCCAAAAAAAATCAGAA
Celera SNP ID:            hCV26380679
SNP Position Genomic:     37769
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46630):
GGCTGTGTTCTAACTTAGGTGTCATACCATCGGCCAGAAGAACCATGTAGCCATAGAGGCTGTGAAGCTAACTAGTTTATCTGTAATTTGGTCCTAGTTG
Y
TTCGCTTATTTTATGTCTTTTTTTTTTTTTCTTAGATAAATCTGTTCAGATAAGCTCCTTATGAATCCTTCAGATCGATGTTCTTGAGGAAAACAGTCAA
Celera SNP ID:            hCV1080308
SNP Position Genomic:     71405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46631):
GTGTTCTAACTTAGGTGTCATACCATCGGCCAGAAGAACCATGTAGCCATAGAGGCTGTGAAGCTAACTAGTTTATCTGTAATTTGGTCCTAGTTGTTTC
R
CTTATTTTATGTCTTTTTTTTTTTTTCTTAGATAAATCTGTTCAGATAAGCTCCTTATGAATCCTTCAGATCGATGTTCTTGAGGAAAACAGTCAAGCTA
Celera SNP ID:            hCV1080309
SNP Position Genomic:     71409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46632):
AAAACTTTAGGCCAAAGAGGTAAAATAAAAACAGCTGTTGGGAGTGAAAAATGGCTGTAGGAATTTAGTTACAAGTACTTCACAAAAACATTTTCATCAC
W
TTTACATAATATAGCATTACAATACAAAGCTGGCTGCTGTCCTGACCAAGCAAGTTCTCTTATCATCTAACAAAAATAATTTAGATACATTTCTTTGCAT
Celera SNP ID:            hCV11435347
SNP Position Genomic:     70333
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:46633):
TCATCTAGTGTCTTCCAGTGTTTGTAGTTGTCAGCCAAATGTTGCATCAGGGCTGGCAGATGTGCAAAGGCTGCAAAGACAGAAAAGAATCAAAAGAAAC
Y
GGTGAACTTAGACCCCAGGAGCATTTATAAGCCTGGGGGTGTCTGGGACAAGTTTGGGATCAGAATTAGAGGAGGCACACCCTGGGCGAAGCATGAGGAC
Celera SNP ID:            hCV25618008
SNP Position Genomic:     72061
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,4)   caucasian(C,36)   total(C,60|T,4)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46634):
GATGATTCTAGGACAGGTGCTTGCAAAAATTTCAAAGGCTACTACTGCATGTGAGTCACGTGAGGAATGAGCAAGGGACTGGAGTAACATGACCTTGATT
S
TAATATTGACTCCATGTTTCATTTCTTGTGTGACTTTAATCTCTTTAATTTTAAATTCCTTATCTGGAAAATGGCAATGATGCTTGCCTTTCTTAACACG
Celera SNP ID:            hCV3261860
SNP Position Genomic:     59391
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46635):
GGAGAGAATCAATTTATAGCATTTGAGCTAATGTAACGAGTAACATGTGGCTTTCCTAAAGGGTGCTTTTAGTTTGCGTTGTAACGTCATGCTAAATTGT
R
ATTTTTGTCAGTTCCTGCTAAGAGCTGAATAAAAGCAGTTGAGGGCTCCACTGATTTCTTTCACTGCAAATTTAGCATTGGCCCTCAGTGGTGCGCTCTT
Celera SNP ID:            hCV3261861
SNP Position Genomic:     60920
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,20)   caucasian(A,22|G,18)   total(A,38|G,38)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;JBIC-allele(A,504|G,977)   total(G,977|A,504)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46636):
CTTAATACTGCCCTAATGTAGAACTGCCACTTCATTTCAAGTAAGATAGAGATTTTCTTGTTTTGAGGGAAAACTTACTTTCTGGTAATCTGAATGACCA
R
ATGGCCTAATGAAGTATTCATTTATATTGTCTATAATTCTGACTGATACACAAAATTTGTACCGTCAGATGTCAAACCAAAGTGTTCTTTACCCTTGATG
Celera SNP ID:            hCV3261862
SNP Position Genomic:     61404
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46637):
CAGTGAGCCGAGAACATGCCACTGCACTCCAGCCTGGGTGACACAGCAAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGTTTTTTCCTAAGAAACAA
R
TGCCAAAGTATGAAAATTCAAAAAATACAAAATTTTAATCTTATTTAACAAAATTTAGGTTATCACTAGCTATGCCCTGACTTCCAAAATGAATAAATGA
Celera SNP ID:            hCV15827023
SNP Position Genomic:     34209
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46638):
ATGCATTGCTTTTAAGAATGGTCTTAATCACCATTATTTAGGAGCTGGAGATAGCTGACAGTAAGGGCAGTGTGAATAATGTTGACTATATGACAACAGT
M
AACAGAGGATGCATGAAGGGTTGTGGTTATATGTGTATACAGTTAAAGCCTTAACAGAATCGAATTCCAGGGGCCTTTATCAAATTCATGAACAGAGTCC
Celera SNP ID:            hCV3261863
SNP Position Genomic:     62515
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(A,7|C,14)   SC_12_C(C,12|A,12)   SC_12_AA(A,4|C,19)   SC_95_C(C,87|A,98)   total(A,121|C,132)no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46639):
GGGGCAGAGAGAGACCAAGAATGTTTCTCTAGTAGTGGGAGTCCTCCATGGAAACTTGAGTGCAGGGGAATGGAGGTTCACCTAATAGAAGTCACACAGA
K
TTTTTTGGTATTCTAATACTGTAATCTTTTTTTTTTTTTTTAATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTAT
Celera SNP ID:            hCV2417762
SNP Position Genomic:     17612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46640):
TTGAAAATTATGAAATGCGTAAGCTTTTAACATGTAGAAATCCAGATACATTAATATTTGCTGCAGGCATCATTGCCTGTAGTGAAGGAATAAGATCAGT
K
GAGGTAACAGATTAGCTGTGAGAACTAATAACAGTGTAATCAGGGCCCTAAGGAATTTCTTAAATTGTTCTTCCCTGTTTCATAGCCAAAGAACAAAAAA
Celera SNP ID:            hCV3261864
SNP Position Genomic:     62804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46641):
TGACCTATCTTCTAGAGAGAAATGTGAGAAAGAAAAGATACTTTCGTAATTTGAAAAGGACATGATCTCAGAGACTTGTCACTTCTCAGATGTTAGTGAT
R
CTAATCTTTGAGCATCCACAGCACCTGGTCCAGTGGTGTATTTTTAAAACACTCAGTACATTGACGGTAAGCCTGTTTATAAACAAGTCTCTCTCCCACT
Celera SNP ID:            hCV27495410
SNP Position Genomic:     47731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46642):
ATAAAACAGTGTCAGCTTCTTAGGAATTTTCCTGAGTGAAAGTGTTGAGACCTGAACACTTTTAAAAAGCATCTCCAGCTTCGTTGATAAAATCTAGGCT
R
TCTTTGCAGTGTCACCTGAATTTCCTCATTTCTTTTTTTTTCTTTGAGACAGCATCTCACTCTGTTGCCCAGGCTGGAGTGCAGTCTTGGGTCACTGTAC
Celera SNP ID:            hCV3261865
SNP Position Genomic:     63732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46643):
GACACATTCAGTATGGGTTTTAGTAGATCATCTCAAACATCTCAAGCATTTGAAAGAAATAGTTTAAAGTAGTATGAATAAGGCTTTTTTTTGGAGATGG
S
TTTTTCAGTATGGTAGGTATTTTTCACTTAATGAAATGCTTGTTTTTAGAGCAGGAGTAGTATTTTATCCTCTTAGAGCATTGTAATAAAATTTTATCTG
Celera SNP ID:            hCV16192288
SNP Position Genomic:     48481
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,54|G,1437)   total(G,1437|C,54) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46644):
ATTCTTAGCTTCCAGCCTATTCCTTCACTGGGCAAGCCCCTTCCCCTTACTTGGGGCATTTTCTCCCTTTGAAGCTTTTTCTGAATTTCTGTGACATGTC
R
TAGTCTATACTGCATTATTTAGTACCTGATTACATAATCTCTCATTGGTACCTTTATTGTTTCAATTATGATTTGCTTTTCAGAATCTTCTTGAGGGTAG
Celera SNP ID:            hCV3261867
SNP Position Genomic:     64649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;(A,-|G,-)   no_pop(G,-|A,-)   SG_12_A(G,1|A,16)   SG_12_G(G,7|A,14)   SG_95_G(G,48|A,117)   total(G,56|A,147)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46645):
GCGCACCCTGGAGCTGCAGACCCCCGGCCCCGTCCCACGGCTAGCTGAATCGTGAGATCCTGGCTCAGGGACGCTCAGCTGGTCAGCAGTCCTATTGGGA
S
CTGTGACAACTTAGGGCTTCTGGCTACCGAAACTATCTTCATTTCCACTTAAAAAGTATACGATTTAGCTAGAAACGAACGAGTTGTGACCGCAGCTTTC
Celera SNP ID:            hCV3261794
SNP Position Genomic:     6621
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(G,-|C,-)   JBIC-allele(G,547|C,944)   total(G,547|C,944)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46646):
GATTAAAATATTAGATATTATTTGTATGTGACTTACCAATACTGAAAAATGAAATGAAGTTCTACACCCAGATCCAAAGGAGTCTTTAAGGCACATATCT
S
ACACGCACATGTGTTAATGTGGTATTAGACACTTCTCTGCTTTTCGGGGTCCCTATAATCAGTTTTAATTTTCTTTACAGATGTTTCTATACTTTGAAGA
Celera SNP ID:            hCV3261868
SNP Position Genomic:     65106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,5)      total(G,5|C,5) ;JBIC-allele(C,693|G,800)   total(G,800|C,693)   no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46647):
GTGACCGCAGCTTTCCACTTTTGGTTTATTTGAATTGGTGTCTCTTCCTGGCGTCTACTGATACTTGGTCAGGGAATATAAAATTAATTTACTTATCCAA
S
AACCGAAAAAGGATATAATTATTTTTAAAAAGTAATCTGCTTCAAGGTCAAGAACATGATTTTCTAATTAACTGCTGTTTTTGGTTTCATAGTCACACTT
Celera SNP ID:            hCV3261795
SNP Position Genomic:     6807
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46648):
GTCACCATGTTGGCCAGGCTGGTCCTCATTTCTATTTTCATCCTTGCTCTACTGGCGCAACCCCTCTACCTGTGTACTGAATTTTGTGTTTTCCAGTTTC
Y
GAAGGAATTCTGCTCCCATGTTTCCTCCCTTCACTCCTGCATCCTCAGCTGAGTCTTATCCTGTGGTCTTCAGAAATGTATATGTCATTTCAGAGAAAAC
Celera SNP ID:            hCV29091150
SNP Position Genomic:     64046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46649):
TGCATGAACCTTGAACATCAAATATCGGGTACTACTCTGAAAACCATTAATATATTGATCACTTAAATTGGTAATTTTTTTTGTCAGTCCATAAAATTCT
R
CATGTTTAAATTTTTTGTGGACCTACCAACCAGGAACATGTTGCTTCTCAGGTCCTAGTATATCCTCCAAAGAATATACCACAAGTTTTTCCATTTGACT
Celera SNP ID:            hCV3261869
SNP Position Genomic:     65462
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:46650):
GTATTTGTTTAGATTGTTAAAAGTAAGAAATTGGATTGTTGAGAGTAGGCAGTCTTCTCAATTTTAACTTCCGCATGTCTTTGCAGTTGACGGTATTGTC
W
GTTTTTAAAAATTTCTTATTTCAGATTAATCCTAAATCCTTGAGATTGTGGATTATTGAATAGCCATATATGGTATATACGACATTTTGGATAATTCTGT
Celera SNP ID:            hCV3261796
SNP Position Genomic:     7618
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,7)      total(A,7|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46651):
GCAATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGTGCCCGCCACCACGCCCAGCTAATTTTTGTACTTTTAGTAGAGATGGGGTGTCACCA
Y
GTTGGCCAGGCTGGTCCTCATTTCTATTTTCATCCTTGCTCTACTGGCGCAACCCCTCTACCTGTGTACTGAATTTTGTGTTTTCCAGTTTCCGAAGGAA
Celera SNP ID:            hCV29091151
SNP Position Genomic:     63953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46652):
GGAAGACAGAATAAATACAAAATCAATGCTTTGTGGTGGTGGTTTTTTTTTTGGAAAACATTTATGCATGTTTTAAATTTATATATTTCTTCATATAAAT
S
TAATTGAGTTGTATAACTGCTGTGAATTTGTACATTATCGGAACCTATGATTGTCCCTAATTTATGCAATAACTTTGTATCCAGGCTTCTCGTTTAAGCA
Celera SNP ID:            hCV3261797
SNP Position Genomic:     7944
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,3)      total(G,3|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46653):
AGGATGCATGAAGGGTTGTGGTTATATGTGTATACAGTTAAAGCCTTAACAGAATCGAATTCCAGGGGCCTTTATCAAATTCATGAACAGAGTCCTGTTT
Y
TCCTGCCTTTGAAGGATAATAGTTTGTTAGCTTTAATGAAACCTATGCCTTGATTTTCATTGTGCAAATATGAAAGTTTTAGTTGAAAATTATGAAATGC
Celera SNP ID:            hCV29091152
SNP Position Genomic:     62621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 232
Celera Gene:                 hCG38209 - 66000115839973
Gene Symbol:                 BLAME
Protein Name:                B lymphocyte activator macrophage expressed;SBBI42
Celera Genomic Axis:         GA_x5YUV32VSLS(1595986..1618671)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12392):
AAACAGGTCCTTCAAGACAGATAGGTGAGAAGTCGTATCCTACACACAGACACGCACACACACACACACACACACACACACACACACACACACACACACT
ATTGGCCTGGCCTCTCAGGCACTTTTCTCTCTGCCTAGAACACCTCTTCTCTCCACCCAGCTCTATTTGCACGGCTGAAAACATCCTTTTCCCTTTGTTT
AGAAAAGAATGAGCCGGGATTTTTCCAAATGACCAATTACTAAGAAAATTGAAGAAAAATAAAATCTCAAAAAATAACATAAAGTAGAGATTTCAAAGGA
GGCCCTGCCCTTTAGCCCAGATTCACTGGTTTCCCTGATGTCAGCCCATGGAGTCCCAAAGCCCCATTTCCAGTCCTCAGTTGTCACAGCAGGAACCTGC
TTCTGCTCTGCAGGACACTGGTGGGCTGCGGCCATCTCCAAGAAAGAATGGGGACTTCCACCGTTCTCCAGAGACAGACCCTGCAGACACTGAGGAGAGG
TTCCTGGGGAGACCAGAGAGCTGCTTCCCTACTTCCCCTTTTCCATGGCCCTCTTGGCCTGCCACAGGCACTGGCCACACTAGCCACGGGACTCCCCGCC
AGTAGCCTCCTCAGTCTCAAGGCTCTGCCCTGTGAAACATTGCTTCTCGCTTCAAGTCAAAGCTAAATGCAAACACTTATTCAGCCACAGTGACTTGTCT
GTGCCTCCTCTTAAGGACCTGGGTTCTATGGGGTCACATTACCTACAGGGTAAAGAGAGAGAAAAGAACTCTAGCTGGGGAGAGTGGAGAGGCAACCTGG
AGCTGCTCCTTAAGGGAGAGAGCAGGAAAGAAGCCTCCATCTGGGAGGGAGCCTTGTGGCTGCCGTCTGGTGGCGCTCTCAGGTATTTGAGGTCTTGCGC
TTGCTTAGACAGTGATCTGACCCATTCACTGGACAACTTCAGTGTAAGATATGATTAGACACCTGTCCTTGTTTTGTATGTGAATACACAATCTAGATAC
AAGCAATAACATTGAAACGTGGCCCTTCTCTAAACCTGGAAGGTTGAACACATTGGGATTTCTTTCAATTCCAGGTTTGTTCTTTTAGATTTGGCTAAGA
AGTAAGGCTTTATTTAAATAAGCATCCATCCACCAAATAGCTCTGTGTCCGTCAACTTCATATCGACCGTGATAACAGTGACTACTGACAGAGTGTACAA
GATGAGAAGGACCCAGGCTTTTCCCTCCAGTACTGGGATCTTTTGCGTCCGGCCACCTGTTCACATCTCCCTCTGCACTGCTGAACAGGCTACAGTTGGC
AGGACCTGCAGCCGACAGCACGTCTGCTCCTTCAGCATTCATCACTTGCTGTGCCTTTGCTCAGAGGGGCCCTTCTCTCAGGTTCTTTGGAAGAATAACC
CAGGTTGTACTTATTCTGGAATTCTTTCCCATATGGGGCACAGATTCATATTGTGACTGAACCTCTCAGGAGTATCATGATTACTGGGACCATCAGCTTG
AGTTCTTAACCCCATGAGGCTTACACATGCTCGATGCTCTTTAGTGTTTGTTGGATGCATTAGTGCGCACAAGATGGGAACCAGGTGTTCGATGAGTGAG
TGAATGCCTGCATGAGCTTCCAGTTTCCCCCTCTCTACCTCAGGAGAGCGCAGTGTGGTTTTGTCTCTGTTTTATGCAGGCTTCCTTCAAATCTCTGGGA
ATGTGTGTCTTTGCCTCAAAAGCAGACCAACCTAAACCAAAGACCCCTTCCATCCAGACTCCTGCAGGCTGTTCCATCCCACTCACTTTCTCTTCTCTTT
TCTCTCCTCGGTTTCTCCCTCTCCGGCTGTGTGCAACATGCCTCTAGTTCATCCAAGACTCCACTCCCTCTACTTATCCCCAGCAGCGCCAGGACCAGGG
TGAGACTAGAGAGGCACCTCAGGCACAAAAGTTAAGGAGGCACTCAGGCTCACAGTGGTGCCAGTGTCATCTCATGAGAAGTAAGGCCATTTCGCATCCA
TTTCCCATCTGCAGAGGCTAAGCAACAGTGGGCGTTTCTAAGAAGTGACAGAGACAGGCTTCTTCCAGGGTCTTCTCCCTCTAGGCCAGTCTTCCTGCCA
TGTCATGGCACTGCTGCCTAAGCTGACTAGCCAGGGAGGGGTGCACACCGGCTTCCCTGCCCCAGGCAGCCTCTTGGTCTGTGGCTCCTCGTGGCATGGT
GCCTGCTGACAGATTAAATGAAAGCAGACACAAAGACAGGGCTTAGGTGGGGTCCTACCTTCCCCTTTCAGTCCCCATCCCACACCACGCCCTCAAAGCA
GTGCCCAGAGGCCTCCCCACTCCCTAGTAACACCTTCCTCTTTGGCTCCCACCTTTGGCTCCCGAAAAGCCTGCTGAATGCCCGCTCCTTCTGCCGGCTG
CTTTGCCTCTGCCTCCTTTCCTGCCTGGCTCCCCTTCTCTCCCAGCTCCTCAGGCACCCCACCTTTCTTTCCCTTCTCCATCTCTCCTCCTGGGAGAAGT
GTGGCCCCATTCTGCCCCCAGCACAAAGCTTCACCCAAATTCCACCCCACCCTGGATCTCCACACCAAGCGGCTCAGGGTTAATGGTCGAGTTCAGGAAG
CTTATGTGGCCTTGGTCAACACCTGCTCCCTCACCCCCAGCCTGAAGTGAAGGTGGGCTAATGGTGGGTGCAGGCTGTTCCACCTGGCAGATGGAGCTAC
TATGCCTGCCTCGGCGACCAACGCAGCAGATGCAGCCGAGAAGGGCCCCAGGGAGTGGAGTCGCAGCACCGGCTGCCAGCTGCTCTCTTAATTAAGGAAT
GTGGGGAGTGGCCCCTTTGAACTCACCAGCTAATTTACTCCTGTGCACTCCCCTCTGTGGCTGGGTAATTAATATGGTGTGAACCAGTGATTAGCAAGTA
GAGAGAACCTGCCTGCCACAGACTTAACCCTTYCCTGCATCTGGGAAGAAYTGCTGCCTTCTTAGTTCGTCTTTCTCCAGTGGTCACATGGGCAGAGAGT
TTTTCCCTTTGGGGAGGTGGGATATTTTTCAGTCTCCACTCAACCTCCTCCTACCCCCTTTCTCAGCTTCCCCAAAACTCCCCTCAAGGAAAAGGGCTTC
GGGTGGGGGAAGGGCTGCAATTCATTCCTTTGCTTGGATGGACCACTATGGGTGACCAACTCTGCGGAGTGGGAACGTAACTGCCCACTGTCTTCTCCAG
AGGAATTCGGGACCTGGCTCCACATTGGCCCCATACCTGCATCCCACAGCCCTCCCAGTCCTAGGCTTTGACATTTTAGAATCATTCAATTCAATCCAAC
AGATGCATGGAGGGCTTTGCCTCATCGAAAGCCTGTCCTTGGCAATATACAGGGTGCAGAAATGAAGGAGATCCCTCCCCTCATGGAGCTCCCAGTCTGG
GAGCAGAGAGTCAGAACAGGGGACTGCCCAGCCTGAAACATGCCTTTATCTGATTTACCCAGGTTTCCCCACTTCCCTCTCCCTGGCCATTTAGTAGCAA
TAGTTAGTATTTGAGTGCTAACTGCACCCGACCCCAAGTTAAACCTTCACATGTGTTCATTGGCAGTACTAAGAGGTAGGTATTGTTATTGCTCCCCATT
TCACAGATGAGGATACTGAAGCACAGGGAAGTTACTTGGCTCAAGGTTTCACAGCCAAGATTTGAACTCAAGAAGTCTGAATCATGCTTGAGTTCTGAAC
TCCTACCCTCATCTGATTGTATTCTTAAGTCTCACCTCAAACACCACCCCCTCCACAGAGCCCTCCCCAGACCCCCACCTGCCCTGGCAGGGTCAAAGGT
GTCCTCCGGCTCTCACAGCCTCCAGGGCACACATCTGACATTGTTCTTGCTACACTGGTTATAATTATTGGTTTATATATACCATCTTCTGTGAACTCCT
TAAGGTCAGGGGCTRAGCCTTTCATCTCTGTGTCCCTAGGTCCTGGCACCTRAGTAGATGCTCAATAAATGCCTGAKGAATGAATGACGGAATTGGCAAT
GGAGTCGTAAATGAGTTCCCTCCCTTGCCCTCTCCACCCCCATGACAGGCAGCTTCCCAGTTCTGCCCTTTCCTCAGTACTCTAGACATTTCCTTCATAT
GCAGTCCCTTCTCCTTCTCACAGGACCATCACAACAGACAACAGCTGTTGTTCAGGTTCCCTGGCCCCTTTGTTCTCTCCAACCTGCCCTGCCTGCTGTC
CTCCCACTCCTACTTAAAACATGCAACAGCCCCTCTCTTCAAGCAGTGCTTCCGGAGCGGTCCCCCAGTCCACCAGCCACAGACTCACGCTGAGTGGGGT
GCTTGTTACAACCACAGATTCCTGGGCCCTAGCTCACCCTGATGGCATCTCTGAGAATCCAAGTGCTGAACACAGTTGAGAGCCACTAGTCTCCAGAAGA
ACTTAACCCAGTTTTCAAGGCCTCCACAATCTGCCCCCAACCTCCTTTTCCATTCTTCCCACCCAGCCCTAAAGGATTCCTGTCTGCTGTCCCTTGTCCT
CTGTGGAGCCTACTTGGTATTTTCCCACAGCCACATCCCTGCACGCTCTGCTCTCCCCTCCTGCCCAGAGCCCACCCCCAACCTCTGGCTCTCTCCTTTC
CTCATATTATCTAAACCATGCCCATCTTCAAGGCACAGCTCAAATTCCACCTTCTCAAGAAGCGTCCCCTGCCCAGATCCGCGAAGCCCTCTTTCCCACC
CACTTCTGAGGACTGACTACCTGTTTGCACAAAGTGGTGTCTGTCTGCAGATAACCCTTCACTTTCCTTGGTGTACCTATCTCTACATTTTGGTTGTGAG
TACCTGGAGGGCAAAAACCTTATCCCAAAATCCTCCTGCTCACCACCCACCCCCACCCCATCCTATATGCCTAGTTCCTGGCTGAGTCCAAAGCTCAGTG
TCCAGTTTGATTGACAGGCGAGAGGCTGTGCAGGACCAGATACGATGAGCCACACTCCAGACTAGCAGGAATTTTCCTCAGGGGCAACACGTCCTCYAAA
AACCTTCACTGGCAAGAAACCAAGAAACTTGAAGTGAGAAGAGAAACAGGATGAGGAGGGGATAACTGTGGCAAAATAGACCACACTTCAAAGGCTGAGG
TTCAAGTTCCAGCTCTGCCTCTCTGTGAGCTCTGCAAGGGGCCTAACCTCACTCTGGTTTTCACATTTTCCCATTTCTAACCAGGTAACAAGATGATCCT
CTCAGAGGAGAGTTGCAAGGCTTACATAAAGCCAGATGTGTAGCCATGTCTAGAATGTACTCACTCACTTAACAAATACTCATGAAACATCTGTAATGTG
CCAAGCACTGAGGGCAACACAGAAGGGAACAAAAGACTGGCTAAACAGTCTGTGAAAACCAGAAAACTGTCATCAACAACACAGCAAGAGTAAAGAGGGA
GGTGTGGGCATGCACAGGACACAAGGAGAGGGCCTCTCACCTGCCTGTGGTCAGGAAGCCTGGAAGGATGTCCTCGCCGACTGCACAGCCATGTTCTGTT
TGCAAGGATAGAGGGAGCAGCATGCCTAGTCGGGGTGGTGGGGAAAGTACAACACAGGGAAGTGTGAAATCAGTAGTTCTGAGAAGGAGGCCTTCTGGCT
TGGGATGGCTGGAGGGCAGAATGACTGTGGGCGACCAGCCTGGAGAAGAAGGCCTGACTCAGGAGGGCCTGCATGCAGAGCAGAGTTAGTCCTCATCCTC
AGGTCCACGGGAGGCCACAGAAGCATTTTAAGCTAGAATGAGGATGACAGATAGTAGTGAGGCAGGCTGAGATGCAGGAAGGCCAGCGAGATCCAGCAAG
GAGGATGTGGCTTGTGTGGGGGCTGTTGTCGCCACGTGTTAGCCAACCATGTGCATGTGAAAGAGGCTGACTTACAAGAATCTGCTCCTGTAAGCCCAGA
GAGGCCCAGGGAYAACTTCCACTTTATTCTGGATGTTTTCACTTTTGGGACATCCTGTTCTGAGTCAAGATTCCTCCTTCTGAACATGGGACTTTCCAGA
AGGACCACAGCTCCTCCCGTGCATCCACTCRGCCTGGGAGGTTCTGGAKTTTGGCTGTCGAGGGAGTTTGCCTGCCTCTCCAGAGAAAGATGGTCATGAG
GMCCCTGTGGAGTCTGCTTCTCTGGGAAGGTAAGTGGGGCAGGCAGATAGCCTGTCCTCGGAGAGCTGAAGGCCCCTCCCCAGCTGCCTATGCCAGACGT
CTGGGCAGGGATCCCTCGACCTGGGTGAGAACCCAGAAGCTGAGGGTGGGTAGGAAAGACTAGAACAAGCTCTTGGGCRACATTTTAAGCTAGGCAGATA
CAAAGAGATGCAGGGTCCTGGGAGGGAGGAGGTGGCASCTTGAGGGGTATTCTTATCTGTGAGACATGAGCTGTTTTGTGGCCCAGAGCAGTAAAAACGG
AGCCAGTGGGTGATACTGCTGGTTTGGAGAGAAAGTCGGCTGTGAGAATGGTGAGGACCCGGCAGTGTTAGCAYGCAGAAACTCTRCAGAGTTTGAGGAG
AGTAGCAGAGGGCAGGGCAGAGCAGGGTTCCCCACAATCAGCAGAGTGTGTTTTCAACAGCCTGTGGGGGAGCTGAGGTCCCTCCCTACAGGCCTTTATA
AGGGGAGGCAAGTACTAAGTAGGGATGAGAGAGGCTAAATRTGGCCCAYGTGGACTTAGGGGTGGCCGACGGTGGTGTGATGTTGGGATGGCTGATACAC
GGGGTCTCCTCCACACCGGGCGATCCCTCTATCCATCTGATGCCTGAGTTCCCTTCCTTGGTCAACAAGCAGCCAACATGACATGGGTCAACACTGCCGG
GCCATGGATGAGGGTTTATGGGGTGCAGCAAAGATTAAGATGATATTGTTTACATCAGAGGCTCATAGGGACTTTGGGTTGCTTTGTTTCATCTCCTTGC
CTGAGTTCCTGGCCCTGAGAGCTCCAAAGCCTGCAGATTTCTTCAATATTTCTAAACATGTGCAGGAAATCACACCTTAACCTCAAAAAAGGCCTTGGTC
TGTTTGGTGAGACAAAAATAATTTGCCTTTTTTTTTTTTCTTTGAGACGGAGTCTTGCTCTGTCYCCCAGGCTGGAATGCAATGGTGCATCTCAGCTCAC
TGTAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGTCACTGCCACTAAACCCGGCTAATGTTTGTAT
TTTTAGTAGAGACAGGGTTTCATCATGTTGACCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCGCCCTCCTCAGCCTCCCAAAGTGCTGGAATTAC
AGGCATGAGCCACCACACCCAGCCCAAAAATAATTTTTCAAATGGCCCTTAATGATCAAAGATCTGTGTGACTGACCTGGTACAGACCCCTTATTTTTCA
GTGGTACTGAAGCCTGGGGCAGGGTGATGTGTGGAAGGGCACACAGCTGATCTGTGGCAGCACCAGGAGGAGCAGGTAGGAGCAGCTAGGTCTTGGCTGA
CATCCAGTGCAATTCTCTTTGTGTGTTACATTCCTGCTCTGCATTAACACTGAAGTCATCTCCAGTGTGAGAGGAGGTTGTTGGGCCTGGAGGACAGTGA
GGCAGAGGGGGACCGGAATTATCATGGCCGACTGAGCAACCATCCAGATCATGTCTCATTGACCAAAACTTCATCACCTCTTATTCTTCCCTACACCCTG
TGCCAGYGACAGGCATAGGGTCAGTCCTCAGCAGGGTAGGTCATTTATTCAATACCATTTACTAGGCTTCTCCCACAGTCTGTTCTTAAACAGTGGTGGG
CACTGGAAGCAAACGATGGGGAGAAAGAGCTCACGGTCTAGTGGGAGATGCTGACTCATAAACAGGCAATAAGAATAGAGGGATAAGGGTAGTCAGCATG
GTGRCCCCAGGCCACTGTGAGAACACAAGAGAGAATATGTAACCTCTCTTGGTTACATTACCTATGAGGGATAGGGGAGGTCGGAGGAGGCAGTGATGCT
ACAAGAGTGGGCAGAAATTAGTCAGCAAAGGAGTCAGGGGGGGCACTTCAAGGAGAAGCGTCTCCCATACACGTCTGACTCAAATATAGTCCCCCAAAAC
AGCATCTTGCTTTCTCACCCCCTGTCTGTTTCTCCTCCTGTTCTGGATCACAGAGAATAACATCCAGTGGATCCCAAGGACCTGGGAGCCGTCCTCGACT
CCTTTTTCTCCTTCACTCCCCAGAGCTAATCTATTACCAAATCCTACTGATTACACACCATCTTCGTGTTTCTCAATTCCTCCCACTTCTTCCCATCCCG
GTTGCTCCCTTCCTCAATTCAAGTTGCCGTCACTTCTCCACTGGACTAACATGAACAGCCTAAGTCCTGCCCACCTCCAGTGCATTCTCCACATCCCTGC
TGGAGTGATCTTTCTAACCATGCATCTAATCCTGTTACGCTCCTGCTTAAAACCTACCTGAGACGCCCCATTGCTCTACAGATAAAGCCCAAACTCCAGT
ATTGCTTTCAGGTCTCTGCATGATCTGACTCCTACCAACTCTGCAGTGTAATTTCCTACTCCTCACACAGAGAACTACTCTCAGTTCCCCTGGGCACCAA
CTCTCCCCCTCCAGGCCTTTGTCAGTACTGTGCCCTCTGCCGGTGACACTTCCCTATCCTGCTCCAGGCCGCCCTCGGCTTGGCCTGGCTGATTCCCATT
CCTCTTCAAGGCTCAGCTTAACAATTTGTTTTCTGAGCCCATCAAGGCTGGGTGAGATCCCCTGTCACCCTACCTGTGTTCTCCCAGGGCATCTCATTTT
TCCCTTCATGGTATTTAACAGAATTCATTTTTATTGATTTCTTGAATGTCTGGCTTCCTCTGTAAGTTCCATGAATGCAGAGACTGGGGTTATCTTCCAT
ATGTTTTATCCCTGGTACCTAGCACAGTGCAACCTCAACTTGAGTGGAGGGAATGTCAGTGGAGGGGCCCCAATTCACCCTATAGCAGCTCAGATGCATG
CAAAAGAAGGATGAGGAGTGTGGGGCAGGCAGAGTGACCAGGGGCTCTGTTCTTTCAGCCCTACTTCCCATTACAGTTACTGGTGCCCAAGTGCTGAGCA
AAGTCGGGGGCTCGGTGCTGCTGGTGGCAGCGCGTCCCCCTGGCTTCCAAGTCCGTGAGGCTATCTGGCGATCTCTCTGGCCTTCAGAAGAGCTCCTGGC
CACGTTTTTCCGAGGCTCCCTGGAGACTCTGTACCATTCCCGCTTCCTGGGCCGAGCCCAGCTACACAGCAACCTCAGCCTGGAGCTCGGGCCGCTGGAG
TCTGGAGACAGCRGCAACTTCTCCGTGTTGATGGTGGACACAAGGGGCCAGCCCTGGACCCAGACCCTCCAGCTCAAGGTGTACGGTGAGTGTGTCTGAC
ACTGGYTGCCTGGCCCTCTTCCCCMACAAAGCACCAGACGAGCATCCTGAGTCATAGCAGCCAGGGAGAGCTGGGTTCCAGAAAGCTCTGGTCTCTGACC
ATGTTGCCGACTCAGGGAACAGCTGCTCCCTGGCAGTCACGTCTAAGAAAATTCCTCCTGGCTGCAGCAGCCAGGCTTTGCCATTTCACAGTGCTTGCCT
GAACTCTAGCTCAGTCTTTTCTTGGCTCAGTGGCCTTGGACACAATGCTTAGCCTCCCTGGCCTTCACCTTTCTCCTTTGTAAATGGGCATTGTAATATT
ACCATGTAGAGTACCCACAGGATGAAATGCAGTGGCATTTGCAGTGGCATCCAGGACAGAGCCTGGCCTGTGCTTCCTCAGTTCTAAAGGATCATCATAG
ACTATAAGATGTGCCACTAGTCTATGTAGTCTATGTAGTCTGTGTAGACTATGTGTCATTAGTCTAAAGGAAAAAAAATGATGTACCATACTAAACTATG
ACATAATGGGTTTATTTAAAAATCAAATTATAATGAAACTGTAATTAAAAGTATAGAATTTACACATTTCTTAAAAGGGCTTCTTAGAGAGATCTTAACT
ATATATGATTCATGGGTTCTCTCAGTCATTCATCATTGCAAAACAAACCATCCCAAAACTTACTGACTGAAAACAACAACGATGTTTACTTCTCATAATT
CCGTGGGTTGGCAGGCCCAGCTGGGTGCGACTTCTGCTTCGCATGGGTCTGCAGAGCCATTCGCGCAGCTACATTCAGCACCTCGGTTGGCTGCATGGAC
TGGGGGCTGCGTGGGCCTTGTTTCCCAACAACTCCACCTCCACCTCCACCACAGCCACCTCCACCACCTTCATCATTTGTCTTCTGGTCAAGAAAGAGTG
GCTTTCAGCTCTCATTTATCTACCTAATGGGCTAGAAAAGAGGCATGGGTGACCCTAAATCACTGTTTCAGTAAAACCTTAGAAATTTAGATAGAGTGGA
AGAGAGGGGAGTCCAGATTTAAGAATGGAAAGCAGAGGTAGCAGCTGGGAAGAGGGTAGCCATGAGGGAGATAAAGATTGTAAGCAAATTGGGGAGATGT
CTTGAATCCCCCCAAGASAGCTAACTGGCTGTCCTTGGGCGAGCCACTCAGGGTGCCRATGCAATTGCAAGGTGCCTTTCTGGATGCACGCAGCCCTGAG
CCTCATCTTGGCAAGCAGAGTGCTGGCTGGATTTCAGCACCCCCCACCCCCTGCCACCTGTTACCCTGTGACCCCCCTTAGCCCAATGTCCTTGTGTAGT
GAATAACCTACCCCACCATACAGGCAGCCCTGGAGCCCCTCCTCTGATCTGAGTCTCAGCTGCCGCACATGTGAAATGAGGACATTGAATGTGATAATAC
ATGCAGCACCCACACCACTAAGCTCTAAAATGCCTTGTTCTCAGCAGCTGAATTACAGATTTTAAGGAAATTGCTGTTTTATTGCTTCCAAATACATAGC
GTGATTAGAACTAATTGCACGAAGCTGCCAAGCAGCCGTCCTTAGGAGTTCTGCTTTGACAATAGATAAGAACGATTTGAATTAGCAGATCAGTTACTAG
AAATGTCAATGKGTGTTTCTACTGTGCTTGATCGTGTTTGGAAGCAGCTTGTCCTCTTAAGTGATGTAAATATCCCCCCTGTAATCTTTGTTTATACTAT
TAGTGTGCCCAGCAAATCATTTCTCTTTCATATCACAAATCCCACCAGACTGAACTGGCATTAACGAGGTTTTTCTCTGCTTGACTTTGGAATGCTGTCA
GAGACTGAGCCCTCCTGTTGTCACCAGAATGCTCTCCCACTGGCCTCATTTCCACTGAGACTCAGGATTTACTCATCAACCTGTATAGAAAGGGGAATCC
ATGGCTAGGACACCAGGATATCAGTTTGTTCAGTGACCAGATATCGAGCACCCACTATTTGCCAGCACTACAGAGCTAAGTTTACTAAGCTAACAAGACA
GAGCCCCCACCTCTGGGCCCCTCCTTCACAGCATTTTGCACCCTCATAATTATTTAATTAATTATTCATAATCATTTTGTATTTGTCTTTCTCACCAAAC
TGTAAGCTCCAGAAGGCTAGGAATGTGTTTGTTTTCTTGCCTGACTTAATAAATGCTTGTCATCTCTTGTTGACTGACTGACATATTGTGAGAGAAATAC
TACAAAAAGAGATAGAGTGCTTGGAGAGCTCAGAGCCATGCCTGGGAAGGCTTCACAGTCAAGGCATTAAGCAATGTGTTCAAGCTGGGCCTTGAAGGAT
GGGTAGAAGTTTTCTAGGAGGACAAGAAGGGAAAGGCATCTGTGTGCGCAGATGAATTATGTGAAAGCATGAAAGATATTCAAGAGCATGACATGTTTGG
GAAAACTGCAAATTAATTAGGATGAGCAGGGAGAAGCAGCAGGAGGTACAGCTGGAGAGATGGGCATGAATCGTTTCCTGAAAGGTTTTGAATATCAAGC
TAAGGAATTCAGCTTCTGTCCTGTGGGCAGTGGAAAGCCAGACAAGATTTTGGAACAAGAGAGGCCTAGCCAGAGGTGGCATCTAACCCTGGGTAGATCC
CAGAGCCAGAGATGTGGGCCCTGCCCAGCMTCCCTGAGACCCATACCAGCTGTACTTTTCTTTCCCAGATGCAGTGCCCAGGCCCRTGGTACAAGTGTTC
ATTGCTGTAGAAAGGGATGCTCAGCCCTCCAAGACCTGCCAGGTTTTCTTGTCCTGTTGGGCCCCCAACATCAGCGAAATAACCTATAGCTGGCGACGGG
AGACAACCATGGACTTTGGTATGGAACCACACAGCCTCTTCACAGACRGACAGGTGCTGAGCATTTCCCTGGGACCAGGAGACAGAGATGTGGCCTATTC
CTGCATTGTCTCCAACCCTGTCAGCTGGGACTTGGCCACAGTCACGCCCTGGGATAGCTGTCATCATGAGGCAGGTATGCTAAGGGCCAGCAGTCAGTGG
TTGARGGCTTATGAAGCATCAAGTCCACCTCTAACCCCACCCCTCCATGTTCAGCACCAGGGAAGGCCTCCTACAAAGATGTGCTGCTGGTGGTGGTGCC
TGTCTCGCTGCTCCTGATGCTGGTTACTCTCTTCTCTGCCTGGCACTGGTGCCCCTGCTCAGGTAGGAGTCCTGCAGGTGCAGGAGGTAGGTGGAGGAAG
TGGAGTTCCTGGGGAGGAGGGGGTCTTGGACCTCCTCCTATTTAGGCTTCAGATGGTCTGCCCCTTCCTACCTCTCCCACCTCATCTCTTGGCCTTCTCT
AGCTCATATCTTGGTTTACAACCAGACTCAACTACTTGAAGTCTCTTATGTGGTTCTCCAAATGAACTGTTCTCTCACATCCATCTGCAGACCTTTGTAC
ATTGTATTCCCTCTGCCTGGAACACACTTTCCATGATTTCCCACCCAGCCTCCCCCCTTCATGTGGCTATCTCATACTCAGTCTTCAAGGTGTGCTTGCT
CCAGAAAGCCTTCCCTGATTGCCCCAATACTCAGGCTGATTAACATCCTTTCTTCAATCTCCATTGCTTACCCCAATCAGAGAACTACTTACATTTACTT
CCCCACTGAATTCTGAGCCCTTAAAAGGAGGATGCTGGGTCAACACTGGGCATGTCAGTGGTTCCCAGAACACAACTCTTCCTGAAACATAGCTGGTATC
GACAAACATTGTTGAGTGGGAGTCTAAATGACTCCGAACCCCTTCTTGCCTGAGATTTCTACAAAATGGCTCCCTAAGATAAGCTACTCCCTGGCCAGTG
GCTGATAGGGTTGCCTTCTTGAGAAGAGGAAGGAAGGGGAAACTCCAAGATCAGACCTGGTTCTAAGCTCTACATACAGCTCAGTCCCTTCCTCTGCCGC
AGGATGCCCTGCCCCTGAAAGAACTACCCGACTGACCAGGGCTCCGTGGTCATTTCCATGCCAGGCTGTCGGAGCTGGCTTGTCCCAAGGTGGAGAAAGG
GAGTCAGCAAGGAGGAGTCACTGAGCCCTCACTATGGTGGGTGTGTCCCAGAAGGCAGGGTCTGGGTCCAGCCTCTAAGCATGGGGACAGGCARTGCTGA
TTCCTGTTCATTCTCTCCAGCAGAGAGAAGGGCAAGAGGGAACAGCTGAGCCTGCACTCCACCTGAAGGCCCCATCTGCTGTGGGAGGGTATTGCCCTGG
CCCCTGGCCCCTGGCCCCTGCCCCAAGAGTCCCCAGGATTTGTGATAAGAAAGTGGAAGCCAGGAAAACAGCAGGGAAAAAATASCTTTATTGAGATATA
ATTCACATAGCATACAATTCACCTATTTAAAGTATACAATTCGATGCCTTTTAGTGTATTCGCAGAGTTGGGCATCCACCTTCACAACCAATTTTAAAAC
ATTTCTATTACCTCCCCCAAAACCCCATAACCCCTTAGCCATCACCTCCCAAATCCCCCATTCCTCCCACAGCACTAGTCTGCTTTCTGCCTCTATGCTT
TTGTCTTTCCTGGACATTTCATATAAATAGAACTATACACTATGTGGCCCTTTGGCCAGGCTTTTTTCACTTAGTGTCATGTCCTCAAGGCTCATAAAAT
AGCATCTTTGGCCACTGAGAAGGGACCCAACAACCTGGGATAGTAGAAAGCTCCAYGCAGGGAGTCCAGAAGCTGGTTCTGGCTCTGCCTCATGGCTTCT
GTCCAGTGATTTAACTGGGTCCACCACAGTCCTAACTTTCCATACCTTCTACAATTAAATGTATGGCATAGTTGCAGGCCAAGGTTAGATACTAGGAAGA
ATTTCCTATTCTTGAAGAGCCTCCCTTTCCAGGGTGTTGGAAGACCAGGAGAAATGTTCCTTTACCTAAGGTGACCTTGGGCTAACACACTGAGGATTCA
GAGGCCTGCAGGCAGGCCAAGGATTCCAAGACTCCAAACACTRGAGGGGTAACTTTCTTTCTGATGTCCTTACCAGGGAAAAAGAAAAAGGATGTCCATG
CTGACAGAGTGGGTCCAGAGACAGAGAACCCCCTTGTGCAGGATCTGCCATAAAGGACAATATGAACTGATGCCTGGACTATCAGTAACCCCACTGCACA
GGCACACGATGCTCTGGGACATAACTGGTGCCTGGAAATCACCATGGTCCTCATATCTCCCATGGGAATCCTGTCCTGCCTCGAAGGAGCAGCCTGGGCA
GCCATCACACCACGAGGACAGGAAGCACCAGCACGTTTCACACCTCCCCCTTCCCTCTCCCATCTTCTCATATCCTGGCTCTTCTCTGGGCAAGATGAGC
CAAGCAGAACATTCCATCCAGGACACTGGAAGTTCTCCAGGATCCAGATCCATGGGGACATTAATAGTCCAAGGCATTCCCTCCCCCACCACTATTCATA
AAGTATTAACCAACTGGCACCAAGGAATTGCCTCCAGCCTGAGTCCTAGGCTCTAAAAGATATTACATATTTGAACTAATAGAGGAACTCTGAGTCACCC
ATGCCAGCATCAGCTTCAGCCCCAGACCCTGCAGTTTGAGATCTGATGCTTCCTGAGGGCCAAGGCATTGCTGTAAGAAAAGGTCTAGAAATAGGTGAAA
GTGAGAGGTGGGGGACAGGGGTTTCTCTTTCTGGCCTAAGGACTTTCAGGTAATCAGAGTTCATGGGCCCTCAAAGGTAAATTGCAGTTGTAGACACCGA
GGATGGTTGACAACCCATGGTTGAGATGGGCACCGTTTTGCAGGAAACACCATATTAATAGACATCCTCACCATCTCCATCCGCTCTCACGCCTCCTGCA
GGATCTGGGAGTGAGGGTGGAGAGTCTTTCCTCACGCTCCAGCACAGTGGCCAGGAAAAGAAATACTGAATTTGCCCCAGCCAACAGGACGTTCTTGCAC
AACTTCAAGAAAAGCAGCTCAGCTCAGGATGAGTCTTCCTGCCTGAAACTGAGAGAGTGAAGAACCATAAAACGCTATGCAGAAGGAACATTATGGAGAG
AAAGGGTACTGAGGCACTCTAGAATCTGCCACATTCATTTTCAAATGCAAATGCAGAAGACTTACCTTAGTTCAAGGGGAGGGGACAAAGACCCCACAGC
CCAACAGCAGGACTGTAGAGGTCACTCTGACTCCATCAAACTTTTTATTGTGGCCATCTTAGGAAAATACATTCTGCCCCTGAATGATTCTGTCTAGAAA
AGCTCTGGAGTATTGATCACTACTGGAAAAACACTTAAGGAGCTAAACTTACCTTCGGGGATTATTAGCTGATAAGGTTCACAGTTTCTCTCACCCAGGT
GTAACTGGATTTTTTCTGGGGCCTCAATCCAGTCTTGATAACAGCGAGGAAAGAGGTATTGAAGAAACAGGGGTGGGTTTGAAGTACTATTTTCCCAGGG
TGGCTTCAATCTCCCCACCTAGGATRTCAGCCCTGTCCAAGGACCTTCCCTCTTCTCCCCAGTTCCTGGGCAATCACTTCACCTTGGACAAAGGATCAGC
ACAGCTGGCCTCCAGATCCACATCACCACTCTTCCACTCGATTGTTCCCAGATCCTCCCTGCCTGGCCTGCTCAGAGGTTCCCTGTTGGTAACCTGGCTT
TATCAAATTCTCATCCCTTTCCCACACCCACTTCTCTCCTATCACCTTCCCCCAAGATTACCTGAACAGGGTCCATGGCCACTCAACCTGTCAGCTTGCA
CCATCCCCACCTGCCACCTACAGTCAGGCCACATGCCTGGTCACTGAATCATGCAAAACTGGCCTCAGTCCCTAAAAATGATGTGGAAAGGAAAGCCCAG
GATCTGACAATSAGCCCTGGTGGATTTGTGGGGAAAAAATACACAGCACTCCCCACCTTTCTTTCGTTCATCTCCAGGGCCCCACCTCAGATCAAAGCAG
CTCTGGATGAGATGGGACCTGCAGCTCTCCCTCCACAAGGTGACTCTTAGCAACCTCATTTCGACAGTGGTTTGTAGCGTGGTGCACCAGGGCCTTGTTG
AACAGATCCACACTGCTCTAATAAAGTTCCCATCCTTAATGACTCACTTGTCAACTAGTGGACTAATTAACCCTCCACCAAAAAAACACAAAGTGCTTCT
GTGAGACCAATTTTGTGCTAATGAGCATTGAGACTGATGCTTTGTAAGTCACACCACAACAAATATTGATTGAGGGCGCTGCATGTGCTGGGTACATTTC
TTGGCACTTGGGAATCAGTAGTCAAGCGAAACCCTTGCCTTTGAGAGTTTATGGTCTGGATAATATAAATAAACAAGTAAGCATATGTCAGATGTTGTTA
GTTTCTGTTAAAGACAAGGCAGAGTAAAGGGCTAGAGAACAATCTGTTGGGGAGACAGGGTCTGTCTTAGATAAAGCAATCAGATGACACCCTCAATGGG
GTGACATTTGAACAGAGGCCCAGTGAAGTGGAGGAGTGAGCATGCAGTGACAGAGTGTTCCAGACAAAGAGACCAGAAAATGCAACGGCCCTAAAATGGC
AGCATGGTTGGTGTTTGCAAAGAAGAGAGTGGAGGCCAGAGGGGCTGGATCCAAACAAGGGAGAGAGAGGGGAAGGACAAGAGTACAGAGAGATGGCCTG
GGGCCACATCATATGGGACTTCGTCGGAATGCCCCTTTGTTGGAGTTACAATGACAGAAAGAACCCCTCGAGAGTCCAGATATCAGACTCCTCCCAGAAC
ACCCTCTACCTCATTGCTCCAGGATGCTTGTGGTCAGGTGAGAGCCCTCTCCAGATCTTCTTTTGCTTTTCCTCGTTTTCACTTTATTTTCCTTGAGCAA
TAGTTTTTGCATCTGTTCTCCTGTACAAAAGACAAATACAAGAGCTGCTAGGGCAAAGGGCTCATGAAACATGATATCAGAGAGAATAGGAAAGGGGAAT
AGCATAAGAAAAGGGTTAGAGAGGACATTTTTCTCATCAATGGAGACATGAACATTCAGTGCCTCATTTTTAAAAAAACTGCTGCATGAGCTGAGATTGT
GCCACTGCACTTCAGCCCGGGCAACAGAGTGAGACTCCGTCTCAATTAAAAAAAAAAAAAAAAACTGCTGCAAACATTAATGACACCTGTAGCAAATCTT
TCTTCCATGTGTATTAAGAACTAGCACCTGTTCAGTTAATCACTCTTGGTTACTTACTGATCTTCAGAGGAAGCATCATCTCCTTCCAGATTTGGCTTCA
TGGCTACCTGCATCTGTTCTGCATGCAGCCTGAAGGAAGGGCCTCTAAAATGACAAAAAATAACTATCCCTAGATCTAGGAAAGTTATGGTGGCTGCCTC
CCCTTGGGCTGTGCCTTAGTCAACATTATGTGCCAGGAGGGGCAGGCTGAGCACACGGGTAAGTAGTGGGGAGACTCCCACAGCATGACTAGTCCAGGTC
CAGGTCTCGAAGCCACACTTTCAGGAAGACACTGAAAAACTGGAGTGTCTGGAAGAGAATGACCAGAATGGTGAAAAGTCTAAAAACCTTACCATATGAG
AAATGATTACAGAAACTGGTTATGTTGGGCCTAGAACAAAACACTCGCAGGAGCATAGGTTCTCAAATATTTGAAGGGTTATCACATAAGCCCAGACCAT
GTAACTGGGGCCAATGGAGCATATCACTAAAAGGCAGATATTGACTCATATGAATAATAGGATCTTAAAGCTGGAAGGAAATCTGTGGTTACTCAGTTCA
AGTTTTTTTATTTCTCATGTGGAAACTGAAATCCAAAGAGAATGTTACTCCTCTGAAATTACATAATTAGTGGCACAGTCAGAATTACCTTTAGATTATC
TAAATCAGTCCAGTCCCTTCTACTGCACCACACTACCAAGGAAGAATGTTCTGACAAATGGAAAAATCCAAATATGAAGTAAACTGTTTCAATGAATCTG
CTTAAGCAGAAACCATCTCAGAGCAATACTTTAGAAGATTTAAAAATAACAGGAAAACACTTATATCAGTCAGGGTTCTTTGGAGGCAAGCAACAGAAAC
CAACTCTGGTTTTAACTAAAGTAAAAGAGGAAATGTATTAGAAAGATGTGAGTAACTCAGAGAACCAAGGAAAATGTTGACCGAGCCTCAGAAAAGACAA
AGCCAGGTAGCCTTGAGGATGCAGGCCTCGGGGCCTCCGAAAATAGTTCTGTTCTGTTTTCTCTTCCCCAGTTGCTCACTGAAGATTCAACTCCCCACCA
ACAGAGCCTGATTGGCCTATTTGAGGCCAAGGGCCCTCCTCTTTGATGGGGTGGGGAGGAGCTGTAGAACTTCTTGTCAGAAGCATTAACTGGGTTAACA
AAATAAAGTACAAAACAAAGTTTGAACAGGTATCTGTAGAACAGGAAATGCACCCATCCATTCATTCAGTAAGCACTTACTATGCACCTACTATGTGTCA
GCACCAACTGGGATACAGGAATTACTAAATAGTAGCATCACAAGCCCTGCCCTCAAAGAGCTCACAGACTGGTAAGAAAGCAATGTGTCAACAAAGGATT
CCAGTGAGTTCACAGGCACACAGCCCCTAGCATGAGCTCAAAGGCACCTCCTGGCCTGTAAGACCTCAGTCCCCAAAGACAGCCAGTCAGGTCCCCACGG
GAAACGGTAAAAGGAGAAAGCATTGCCTGGGAATAAAACTTCAGCTGGCAGGAACTGAAGACAGCATGGTATGGTGGTGTCCTGGGGCAGGCTTTCCCAC
AGCAGCATCACACTTTTGTTTAACTGTGTTCCCTGAACACCAGGACATCTCATGCTGGTAGCTTGTCTTCAGGTTTCCCTTGAGATGGTACAGAAAAGGG
AGAGCCACTCACAAGGGCTAGGGGCTGGTTCCATCCTCCTGGTGGTGGTTAGGGTGGTCCTGGCTGGGACGCCTGGACTGAGATGCTGATACTGTCTCAT
CTGCCAGCCCACCCTGTTGGTCTTCAAGCCTGTACCCACTGGCTGGACCTGCTTAGACTCCTCAGGAGTCTTCCAAAGTCAGGTAAAGCCATTTAAACTC
TGTCTAACCAGAGAGAAAATGAAGAGGTCGGAGCTCTGTCTGCTGGCTGACCCACTCAACCATATGCCCACCTGCAGTTAACCACTCAACCATACGCCCA
CCTTCAGTTGGCTTAACTGCAGGAGCTCAGAGCTCCAGCATACTCACTGCAGTCCTGCTCCCAGACCAGGGAGCCACTACCCCCGCTCCCACCCCCCAGC
AAAGAAGACACAACCAGTTGGTAGCCTGGACCTCTCTCTTCGATGCTCAGAAATACCCTGGGATCCCTCCTGCCCCTCATTGATAACAACCTGACAGCCT
AACAGTCCCAGAAAATCCCTAACAATCCACAGACACCCAGGGTGCTGGATGCCTCCTGAGCACTGAGCACAGATCCCCACACGTAGGGATGCCTCCGCAT
GAGGACATGAGAGAGGCAGATGGTGGAAGGACTGACCACAGGCCTGGCCACTCCCAGCAGAAGGACAAGAAGTGCAGGGGAAGGCCTGAGCCTCTTGGCT
TACCTGTTGTCCTGAGGCCTGGGCAGTCAGGAGAAGGTAGAGCTCTCATCCATGCACTCACCTGAGGGAAGTCTACACCAGAGGCCAGAGTCACCAGCCA
GAGCCTCAGCCAGCTCCAGCCAGCTGCTAATGGAGCATTTATTCTTCTGGAGGCTGCGTCTAGAAAGGACAAGCCTAACAGGATGCCTGTCGGTCTATTC
CCTACCTGATTACCCCAGGAAGCCACAAGCACAGACAATATCACCCCTACACCAAGGCAAGAAGGCTGCTGCCCTGGCCTGTACTACAGAAAGGCAGCTC
TGGCTCTCCTCCATAGGCAAGGAGACAACGGTGCATTCACCCGTAGCTGCCTCTCCCCCTTTTAGATCACACTTCAGAAATACAGATGGGAATTCTGAAG
ATGGACTAAAATGCCTACCTGTATCCTGGGTCTGAAGGTAGCTGAGGGGCAGTTTATGGACAAGGTGTGGAGGAAGCCCAGGATGTGCACAGCTGTGGGC
ACAAGGCTCTTCACAGTGTGGGCTGGAGCTGCAGGTGAGAAGAGAAAGGATCTGATTTAAGGCCTGGGCAAGGGAGCCAGTTCTTCCTATGCTGGGAGTT
CTGGTATGAAACCCCAAAGAGTCCAAGATTTCTGAATCCAAACCTGGCCTTCCAGGTCATTGTGAAGGTATATTTGTCAAGCTAGGAGAATAGAACATAT
TTTACGTAATAATGTGTTAGCTCAACTTACAATTACAAATGTTATGGGTGGGCCTCAATATGCGGACCCCTCCCCCTGGACTTTTTCCATCATAATTCCC
TCCCACCCCCTGAAACTGACACCTCCCCCATGACTAAGAGCAAACCCCCAGCTCTCGCTGCAGCTCAGAAGGAGCACAGCAGTGTGGGTCTGGAGTCACA
CTCAGGACAGCGGGCTCTGATTTCCTGGAGAACTGATTCGCGGGTCCACAGCACTCATTCTCTCAGCACGTCTTTAGTGAGTACCCACTCCATGCCAGAC
ACACTAGGAATAGAGCTGTGGGCATGACAGGCGAGTCTCTGCATTCATGAATCTTGCAGACTTGTCAGGCAGAAACAGACACTGTACAAGTGTACACAAA
TGTTTAATTAAAACTGTGCTAATCTCTATAGAAGAAAATAGCTGAAAACCAAGAGCCAGAATAACAAGGGATCAAAATATAGCTGGCGGGAGTACAGAGG
GAAGGGCCTCCCTGAGGAAGGAGAGTCAAGCTGAGGCCAGTGGGGAGAGGAGGAGTCAGCAAAGCAGAGTGGAGGAGCTGCCATGCTGGGAATGAGCATC
CATGAAAGCCCTTCCAGAAAGATCTCTGCCTGTGTAAGCATCTGGGGGAAGGTCCCCAGGGCCAGAGGGCAATGAGCAGGAGGGACTCTGGGAGGAGAGG
ACGGCAGAGGTCAGATCATGCAGGGTCTGATAGGACATGGAGAATTTAAAAGTTAATTATAAATGTAAAAGCAGACCACTGAAGAGCTTTAAGACAGGAA
ATGACATGATCAGACTCACATTTTAAAAGATCACGCTGGCAGCTGCATGGAGAATGGATTGAAGGTGCCGAGAGTGAAGGCAGGAAAATGAAGTTATTGC
AGGAATCCTAGGAAAAAACCATCATAGCTTGGAATGAAGGTGGGGAGAGAGAGGGAGACAAGTGGATGGCTTCAGTGCATATTTAGGAGCTAGAAGAGAA
TAGACAAGACTTAGTATCCTTGGTTGAGGGAGGGGTCAAGGATGACACTGAGGTCTCTGACATGAGTAACCAGGCAGATGGAGGTACCATTTACCAAACC
TGGAAATACAGAAAGAGTTAGTTTTGGCTGGGCGTGGTGGCTCACGCCTGTAACCCCAGCACTTTGGGAGGCCGAGGCAGGTYGATTACCTGAGGTCAGG
AGTTCAAGACCAGCCTGACCAACCTGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCCAGGCATGGTGGCACATGCCTGTAATCCCAGCTACTTG
GGAGGTTGAGGCAGGAGAATCACTTGAAACCAGGAGGCGGAGGTTGTGTTGAGCCAAGATCACGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACT
CCATCTCAAAAAAAAAAAAGAAAGAGTTAGTTTTAGGGTGAAGTCAGAAGTTAATTGATCCTTAATTATCAGGGAAGAGGGGCTTTAAAAGGAACAAATT
CTTGGAGGCTGAGCAATATATTGGGTTGAATCATATGAAAATTTCATTTTTTAAGTGTAAAAATAGTCAAACACAGGTAATTTCATATGATTCAATCTAA
CAATTTAAATGTAAGATGACTTGAGGAAGAAAAGTCATCTCTTCAGCTGCCCTGACTCCACCTCCTATAAGGACAACTGGGACATGCCTGTAACCTAGTA
GATGTTGGCAGAGCTCCTTCAACATGAACCTGGGCATGGAGGGACTGCAAGACAAGAGGGCCTCCCACAGCACTCTCAGCCCACACTGGTCGGGGGCCAT
GGTGTCCTGGTCAGCTTCTCTACCACCTGGACTGAATCCTGCCTGCCCAGCTCCAGAAAGTCCTGAAACATTCAGGAGCCAAGGTTCAGAATGGCAGGGA
GTGATGGAACTGCCTCAGCAACCATGGAGAACTGTCCTTGACCCCAACCCCTCTGAATCCAACCCACCTCATGCCTAGTCCTGCAGCATTCAGAGCCCCA
TATAGATTGTGGAAGTGAGGCCCCTGATGCTGTCTGAGGAGCCTTTCCAAGCAACAGGGGCAGTGACTTGGCCAGGCAGGCATGG


SNP Information

Context             (SEQ ID NO:46654):
CCCTCTGTGGCTGGGTAATTAATATGGTGTGAACCAGTGATTAGCAAGTAGAGAGAACCTGCCTGCCACAGACTTAACCCTTCCCTGCATCTGGGAAGAA
Y
TGCTGCCTTCTTAGTTCGTCTTTCTCCAGTGGTCACATGGGCAGAGAGTTTTTCCCTTTGGGGAGGTGGGATATTTTTCAGTCTCCACTCAACCTCCTCC
Celera SNP ID:            hCV27838503
SNP Position Genomic:     2951
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 hmCS


Context             (SEQ ID NO:46655):
ACCCTGGGTAGATCCCAGAGCCAGAGATGTGGGCCCTGCCCAGCATCCCTGAGACCCATACCAGCTGTACTTTTCTTTCCCAGATGCAGTGCCCAGGCCC
R
TGGTACAAGTGTTCATTGCTGTAGAAAGGGATGCTCAGCCCTCCAAGACCTGCCAGGTTTTCTTGTCCTGTTGGGCCCCCAACATCAGCGAAATAACCTA
Celera SNP ID:            hCV25618730
SNP Position Genomic:     12086
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:46656):
AGACAGCGGCAACTTCTCCGTGTTGATGGTGGACACAAGGGGCCAGCCCTGGACCCAGACCCTCCAGCTCAAGGTGTACGGTGAGTGTGTCTGACACTGG
Y
TGCCTGGCCCTCTTCCCCCACAAAGCACCAGACGAGCATCCTGAGTCATAGCAGCCAGGGAGAGCTGGGTTCCAGAAAGCTCTGGTCTCTGACCATGTTG
Celera SNP ID:            hCV22272682
SNP Position Genomic:     9406
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,36)   total(C,69|T,3)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46657):
GTGTTGATGGTGGACACAAGGGGCCAGCCCTGGACCCAGACCCTCCAGCTCAAGGTGTACGGTGAGTGTGTCTGACACTGGCTGCCTGGCCCTCTTCCCC
M
ACAAAGCACCAGACGAGCATCCTGAGTCATAGCAGCCAGGGAGAGCTGGGTTCCAGAAAGCTCTGGTCTCTGACCATGTTGCCGACTCAGGGAACAGCTG
Celera SNP ID:            hCV25618735
SNP Position Genomic:     9425
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(A,1|C,35)   total(A,1|C,71)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:46658):
CCCAGCTGCCTATGCCAGACGTCTGGGCAGGGATCCCTCGACCTGGGTGAGAACCCAGAAGCTGAGGGTGGGTAGGAAAGACTAGAACAAGCTCTTGGGC
R
ACATTTTAAGCTAGGCAGATACAAAGAGATGCAGGGTCCTGGGAGGGAGGAGGTGGCAGCTTGAGGGGTATTCTTATCTGTGAGACATGAGCTGTTTTGT
Celera SNP ID:            hCV25618736
SNP Position Genomic:     6279
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,3)   caucasian(A,22)   total(A,53|G,3)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,1)   caucasian(A,28)   total(A,51|G,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46659):
GACATCCTGTTCTGAGTCAAGATTCCTCCTTCTGAACATGGGACTTTCCAGAAGGACCACAGCTCCTCCCGTGCATCCACTCGGCCTGGGAGGTTCTGGA
K
TTTGGCTGTCGAGGGAGTTTGCCTGCCTCTCCAGAGAAAGATGGTCATGAGGCCCCTGTGGAGTCTGCTTCTCTGGGAAGGTAAGTGGGGCAGGCAGATA
Celera SNP ID:            hCV25618737
SNP Position Genomic:     6049
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,27)   caucasian(T,30)   total(G,1|T,57)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(T,28)   total(G,1|T,61)
SNP Type:                 UTR 5


Context             (SEQ ID NO:46660):
AGAAAGGGAGTCAGCAAGGAGGAGTCACTGAGCCCTCACTATGGTGGGTGTGTCCCAGAAGGCAGGGTCTGGGTCCAGCCTCTAAGCATGGGGACAGGCA
R
TGCTGATTCCTGTTCATTCTCTCCAGCAGAGAGAAGGGCAAGAGGGAACAGCTGAGCCTGCACTCCACCTGAAGGCCCCATCTGCTGTGGGAGGGTATTG
Celera SNP ID:            hCV26627277
SNP Position Genomic:     13494
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46661):
GTGGAAAGCCAGACAAGATTTTGGAACAAGAGAGGCCTAGCCAGAGGTGGCATCTAACCCTGGGTAGATCCCAGAGCCAGAGATGTGGGCCCTGCCCAGC
M
TCCCTGAGACCCATACCAGCTGTACTTTTCTTTCCCAGATGCAGTGCCCAGGCCCGTGGTACAAGTGTTCATTGCTGTAGAAAGGGATGCTCAGCCCTCC
Celera SNP ID:            hCV11628907
SNP Position Genomic:     12030
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,12)   caucasian(A,35|C,5)   total(A,61|C,17)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,4)      total(A,4|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46662):
TGTTTTCAACAGCCTGTGGGGGAGCTGAGGTCCCTCCCTACAGGCCTTTATAAGGGGAGGCAAGTACTAAGTAGGGATGAGAGAGGCTAAATGTGGCCCA
Y
GTGGACTTAGGGGTGGCCGACGGTGGTGTGATGTTGGGATGGCTGATACACGGGGTCTCCTCCACACCGGGCGATCCCTCTATCCATCTGATGCCTGAGT
Celera SNP ID:            hCV26627278
SNP Position Genomic:     6649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46663):
GCAGAGTGTGTTTTCAACAGCCTGTGGGGGAGCTGAGGTCCCTCCCTACAGGCCTTTATAAGGGGAGGCAAGTACTAAGTAGGGATGAGAGAGGCTAAAT
R
TGGCCCACGTGGACTTAGGGGTGGCCGACGGTGGTGTGATGTTGGGATGGCTGATACACGGGGTCTCCTCCACACCGGGCGATCCCTCTATCCATCTGAT
Celera SNP ID:            hCV26627279
SNP Position Genomic:     6641
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46664):
ATTTACTCCTGTGCACTCCCCTCTGTGGCTGGGTAATTAATATGGTGTGAACCAGTGATTAGCAAGTAGAGAGAACCTGCCTGCCACAGACTTAACCCTT
Y
CCTGCATCTGGGAAGAATTGCTGCCTTCTTAGTTCGTCTTTCTCCAGTGGTCACATGGGCAGAGAGTTTTTCCCTTTGGGGAGGTGGGATATTTTTCAGT
Celera SNP ID:            hCV27832642
SNP Position Genomic:     2933
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:46665):
GTCATGCTGTGGGAGTCTCCCCACTACTTACCCGTGTGCTCAGCCTGCCCCTCCTGGCACATAATGTTGACTAAGGCACAGCCCAAGGGGAGGCAGCCAC
Y
ATAACTTTCCTAGATCTAGGGATAGTTATTTTTTGTCATTTTAGAGGCCCTTCCTTCAGGCTGCATGCAGAACAGATGCAGGTAGCCATGAAGCCAAATC
Celera SNP ID:            hCV16193540
SNP Position Genomic:     4997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46666):
GAGGGTATTGCCCTGGCCCCTGGCCCCTGGCCCCTGCCCCAAGAGTCCCCAGGATTTGTGATAAGAAAGTGGAAGCCAGGAAAACAGCAGGGAAAAAATA
S
CTTTATTGAGATATAATTCACATAGCATACAATTCACCTATTTAAAGTATACAATTCGATGCCTTTTAGTGTATTCGCAGAGTTGGGCATCCACCTTCAC
Celera SNP ID:            hCV16193541
SNP Position Genomic:     13685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46667):
GGTACCATTTACCAAACCTGGAAATACAGAAAGAGTTAGTTTTGGCTGGGCGTGGTGGCTCACGCCTGTAACCCCAGCACTTTGGGAGGCCGAGGCAGGT
Y
GATTACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACCTGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCCAGGCATGGTGGCACATGCCT
Celera SNP ID:            hCV29185274
SNP Position Genomic:     21783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46668):
GGAAATCACACCTTAACCTCAAAAAAGGCCTTGGTCTGTTTGGTGAGACAAAAATAATTTGCCTTTTTTTTTTTTCTTTGAGACGGAGTCTTGCTCTGTC
Y
CCCAGGCTGGAATGCAATGGTGCATCTCAGCTCACTGTAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTAC
Celera SNP ID:            hCV29185275
SNP Position Genomic:     7065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46669):
TTTAAGAATGGAAAGCAGAGGTAGCAGCTGGGAAGAGGGTAGCCATGAGGGAGATAAAGATTGTAAGCAAATTGGGGAGATGTCTTGAATCCCCCCAAGA
S
AGCTAACTGGCTGTCCTTGGGCGAGCCACTCAGGGTGCCAATGCAATTGCAAGGTGCCTTTCTGGATGCACGCAGCCCTGAGCCTCATCTTGGCAAGCAG
Celera SNP ID:            hCV16193437
SNP Position Genomic:     10518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46670):
ATATACCATCTTCTGTGAACTCCTTAAGGTCAGGGGCTGAGCCTTTCATCTCTGTGTCCCTAGGTCCTGGCACCTAAGTAGATGCTCAATAAATGCCTGA
K
GAATGAATGACGGAATTGGCAATGGAGTCGTAAATGAGTTCCCTCCCTTGCCCTCTCCACCCCCATGACAGGCAGCTTCCCAGTTCTGCCCTTTCCTCAG
Celera SNP ID:            hCV16193459
SNP Position Genomic:     3977
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,4)   caucasian(G,26|T,12)   total(G,38|T,16)
SNP Type:                 hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:46671):
AGCCATGAGGGAGATAAAGATTGTAAGCAAATTGGGGAGATGTCTTGAATCCCCCCAAGACAGCTAACTGGCTGTCCTTGGGCGAGCCACTCAGGGTGCC
R
ATGCAATTGCAAGGTGCCTTTCTGGATGCACGCAGCCCTGAGCCTCATCTTGGCAAGCAGAGTGCTGGCTGGATTTCAGCACCCCCCACCCCCTGCCACC
Celera SNP ID:            hCV444400
SNP Position Genomic:     10558
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46672):
AATCCAGTCTTGATAACAGCGAGGAAAGAGGTATTGAAGAAACAGGGGTGGGTTTGAAGTACTATTTTCCCAGGGTGGCTTCAATCTCCCCACCTAGGAT
R
TCAGCCCTGTCCAAGGACCTTCCCTCTTCTCCCCAGTTCCTGGGCAATCACTTCACCTTGGACAAAGGATCAGCACAGCTGGCCTCCAGATCCACATCAC
Celera SNP ID:            hCV444401
SNP Position Genomic:     15826
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:46673):
TGCCACCTACAGTCAGGCCACATGCCTGGTCACTGAATCATGCAAAACTGGCCTCAGTCCCTAAAAATGATGTGGAAAGGAAAGCCCAGGATCTGACAAT
S
AGCCCTGGTGGATTTGTGGGGAAAAAATACACAGCACTCCCCACCTTTCTTTCGTTCATCTCCAGGGCCCCACCTCAGATCAAAGCAGCTCTGGATGAGA
Celera SNP ID:            hCV444402
SNP Position Genomic:     16212
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:46674):
ACACTGGTTATAATTATTGGTTTATATATACCATCTTCTGTGAACTCCTTAAGGTCAGGGGCTGAGCCTTTCATCTCTGTGTCCCTAGGTCCTGGCACCT
R
AGTAGATGCTCAATAAATGCCTGAGGAATGAATGACGGAATTGGCAATGGAGTCGTAAATGAGTTCCCTCCCTTGCCCTCTCCACCCCCATGACAGGCAG
Celera SNP ID:            hCV27836628
SNP Position Genomic:     3952
SNP Source:               Applera
Population(Allele,Count): african american(A,30)   caucasian(A,39|G,1)   total(A,69|G,1)
SNP Type:                 hmCS


Context             (SEQ ID NO:46675):
CCAGGCTTTTTTCACTTAGTGTCATGTCCTCAAGGCTCATAAAATAGCATCTTTGGCCACTGAGAAGGGACCCAACAACCTGGGATAGTAGAAAGCTCCA
Y
GCAGGGAGTCCAGAAGCTGGTTCTGGCTCTGCCTCATGGCTTCTGTCCAGTGATTTAACTGGGTCCACCACAGTCCTAACTTTCCATACCTTCTACAATT
Celera SNP ID:            hCV27871841
SNP Position Genomic:     14056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46676):
GGATGTTTTCACTTTTGGGACATCCTGTTCTGAGTCAAGATTCCTCCTTCTGAACATGGGACTTTCCAGAAGGACCACAGCTCCTCCCGTGCATCCACTC
R
GCCTGGGAGGTTCTGGATTTTGGCTGTCGAGGGAGTTTGCCTGCCTCTCCAGAGAAAGATGGTCATGAGGCCCCTGTGGAGTCTGCTTCTCTGGGAAGGT
Celera SNP ID:            hCV25618741
SNP Position Genomic:     6031
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,26)   total(A,1|G,57)
SNP Type:                 UTR 5


Context             (SEQ ID NO:46677):
AGGCTCCCTGGAGACTCTGTACCATTCCCGCTTCCTGGGCCGAGCCCAGCTACACAGCAACCTCAGCCTGGAGCTCGGGCCGCTGGAGTCTGGAGACAGC
R
GCAACTTCTCCGTGTTGATGGTGGACACAAGGGGCCAGCCCTGGACCCAGACCCTCCAGCTCAAGGTGTACGGTGAGTGTGTCTGACACTGGCTGCCTGG
Celera SNP ID:            hCV22272691
SNP Position Genomic:     9313
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,3|G,33)   total(A,3|G,71)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:46678):
TGGAAGCAAACGATGGGGAGAAAGAGCTCACGGTCTAGTGGGAGATGCTGACTCATAAACAGGCAATAAGAATAGAGGGATAAGGGTAGTCAGCATGGTG
R
CCCCAGGCCACTGTGAGAACACAAGAGAGAATATGTAACCTCTCTTGGTTACATTACCTATGAGGGATAGGGGAGGTCGGAGGAGGCAGTGATGCTACAA
Celera SNP ID:            hCV11628911
SNP Position Genomic:     7904
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46679):
GAGCAGTAAAAACGGAGCCAGTGGGTGATACTGCTGGTTTGGAGAGAAAGTCGGCTGTGAGAATGGTGAGGACCCGGCAGTGTTAGCATGCAGAAACTCT
R
CAGAGTTTGAGGAGAGTAGCAGAGGGCAGGGCAGAGCAGGGTTCCCCACAATCAGCAGAGTGTGTTTTCAACAGCCTGTGGGGGAGCTGAGGTCCCTCCC
Celera SNP ID:            hCV26627280
SNP Position Genomic:     6486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46680):
GACCAGGAGAAATGTTCCTTTACCTAAGGTGACCTTGGGCTAACACACTGAGGATTCAGAGGCCTGCAGGCAGGCCAAGGATTCCAAGACTCCAAACACT
R
GAGGGGTAACTTTCTTTCTGATGTCCTTACCAGGGAAAAAGAAAAAGGATGTCCATGCTGACAGAGTGGGTCCAGAGACAGAGAACCCCCTTGTGCAGGA
Celera SNP ID:            hCV25618728
SNP Position Genomic:     14343
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,3|G,31)   total(A,3|G,63)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:46681):
CTTGTCCTGTTGGGCCCCCAACATCAGCGAAATAACCTATAGCTGGCGACGGGAGACAACCATGGACTTTGGTATGGAACCACACAGCCTCTTCACAGAC
R
GACAGGTGCTGAGCATTTCCCTGGGACCAGGAGACAGAGATGTGGCCTATTCCTGCATTGTCTCCAACCCTGTCAGCTGGGACTTGGCCACAGTCACGCC
Celera SNP ID:            hCV25618729
SNP Position Genomic:     12248
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:46682):
TTTTGTGGCCCAGAGCAGTAAAAACGGAGCCAGTGGGTGATACTGCTGGTTTGGAGAGAAAGTCGGCTGTGAGAATGGTGAGGACCCGGCAGTGTTAGCA
Y
GCAGAAACTCTGCAGAGTTTGAGGAGAGTAGCAGAGGGCAGGGCAGAGCAGGGTTCCCCACAATCAGCAGAGTGTGTTTTCAACAGCCTGTGGGGGAGCT
Celera SNP ID:            hCV11628914
SNP Position Genomic:     6474
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46683):
AGCTGAGGGTGGGTAGGAAAGACTAGAACAAGCTCTTGGGCAACATTTTAAGCTAGGCAGATACAAAGAGATGCAGGGTCCTGGGAGGGAGGAGGTGGCA
S
CTTGAGGGGTATTCTTATCTGTGAGACATGAGCTGTTTTGTGGCCCAGAGCAGTAAAAACGGAGCCAGTGGGTGATACTGCTGGTTTGGAGAGAAAGTCG
Celera SNP ID:            hCV11628915
SNP Position Genomic:     6338
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46684):
ATTGTCTCCAACCCTGTCAGCTGGGACTTGGCCACAGTCACGCCCTGGGATAGCTGTCATCATGAGGCAGGTATGCTAAGGGCCAGCAGTCAGTGGTTGA
R
GGCTTATGAAGCATCAAGTCCACCTCTAACCCCACCCCTCCATGTTCAGCACCAGGGAAGGCCTCCTACAAAGATGTGCTGCTGGTGGTGGTGCCTGTCT
Celera SNP ID:            hCV22272229
SNP Position Genomic:     12405
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,24)   caucasian(G,20)   total(A,10|G,44)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(G,38)   total(A,10|G,66)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46685):
ACAGCCTCCAGGGCACACATCTGACATTGTTCTTGCTACACTGGTTATAATTATTGGTTTATATATACCATCTTCTGTGAACTCCTTAAGGTCAGGGGCT
R
AGCCTTTCATCTCTGTGTCCCTAGGTCCTGGCACCTAAGTAGATGCTCAATAAATGCCTGAGGAATGAATGACGGAATTGGCAATGGAGTCGTAAATGAG
Celera SNP ID:            hCV16193460
SNP Position Genomic:     3915
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,19)   caucasian(A,13|G,27)   total(A,24|G,46)
SNP Type:                 TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:46686):
GGGGGACCGGAATTATCATGGCCGACTGAGCAACCATCCAGATCATGTCTCATTGACCAAAACTTCATCACCTCTTATTCTTCCCTACACCCTGTGCCAG
Y
GACAGGCATAGGGTCAGTCCTCAGCAGGGTAGGTCATTTATTCAATACCATTTACTAGGCTTCTCCCACAGTCTGTTCTTAAACAGTGGTGGGCACTGGA
Celera SNP ID:            hCV444398
SNP Position Genomic:     7707
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46687):
GGACCACAGCTCCTCCCGTGCATCCACTCGGCCTGGGAGGTTCTGGATTTTGGCTGTCGAGGGAGTTTGCCTGCCTCTCCAGAGAAAGATGGTCATGAGG
M
CCCTGTGGAGTCTGCTTCTCTGGGAAGGTAAGTGGGGCAGGCAGATAGCCTGTCCTCGGAGAGCTGAAGGCCCCTCCCCAGCTGCCTATGCCAGACGTCT
Celera SNP ID:            hCV16193448
SNP Position Genomic:     6102
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,26)   total(A,1|C,59)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:46688):
TAATTGCACGAAGCTGCCAAGCAGCCGTCCTTAGGAGTTCTGCTTTGACAATAGATAAGAACGATTTGAATTAGCAGATCAGTTACTAGAAATGTCAATG
K
GTGTTTCTACTGTGCTTGATCGTGTTTGGAAGCAGCTTGTCCTCTTAAGTGATGTAAATATCCCCCCTGTAATCTTTGTTTATACTATTAGTGTGCCCAG
Celera SNP ID:            hCV27486360
SNP Position Genomic:     11012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46689):
TGTGTGGGGGCTGTTGTCGCCACGTGTTAGCCAACCATGTGCATGTGAAAGAGGCTGACTTACAAGAATCTGCTCCTGTAAGCCCAGAGAGGCCCAGGGA
Y
AACTTCCACTTTATTCTGGATGTTTTCACTTTTGGGACATCCTGTTCTGAGTCAAGATTCCTCCTTCTGAACATGGGACTTTCCAGAAGGACCACAGCTC
Celera SNP ID:            hCV16193449
SNP Position Genomic:     5913
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,2)   caucasian(C,24)   total(C,48|T,2)
SNP Type:                 hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 hmCS


Gene Number:                 233
Celera Gene:                 hCG38423 - 67000129103493
Gene Symbol:                 INPP4A
Protein Name:                inositol polyphosphate-4-phosphatase, type I, 107kDa;INPP4
Celera Genomic Axis:         GA_x5YUV32W6FK(9236172..9394125)
Chromosome:                  Chr2
OMIM number:                 600916
OMIM Information:            INOSITOL POLYPHOSPHATE-4-PHOSPHATASE, TYPE I, 107-KD;INPP4A


Genomic Sequence (SEQ ID NO:12393):
TGCTTCTTAGTGGGTGGATCTGCTAGTAATGAATTCACTCAGTTTCTGTTTGTCTGAGGTAGTCTTAATTTCTCTTTCATTTTCAAGGACAGTTTTGCTG
AATATAGAATTCTAGGTCTGCTCTTCCTTCCGTTCCTTTTATTACTTTGAATGTGTCATCTTACTGCCTTCTGGTCTCTATGGTTTCTGGTGAGAAAACA
GTTGTTAATTTTATTGAGGATTCTTTGTACATGAGGAGTTGCTTGTTTCTTGCTGCTTTCAAGAGTCTCTCCATCTTTGGTTTTAGATAGTTTGATTATG
ATGTATCTCAGTATGCTTCTCTTTGAGTTCATTTTAGTTGACAGTTTGATTATGATGTATCTCAGTATGCTTCTCTTTGAGTTCATTTTAGTTGGAGTTT
GTTGAAATTTTTGGATTATAGATTAATTTTTAAATCAAATTTGGAAAGGTTTTAGTGAATATTTTTTTCTGCACTTTTATCTCCCTCCTCTCCTTCTGGT
ACTCCCAATTGGTACTAGATATATCTTAGCATACTTGATGGCGTCTACTGATCTCTTAGGCTCTGTTCATCTTTCTTCATTGATTTTTCCTATATGTTCC
TCAGACTAGGCAGTATCCATGGACTTATCCTCAATTTTGCTAATTCTTCTGCCACTCAATCCTGCTATTGTCCCCCTATAATGGATTTTTCATTTCAGTT
ATTATACCTTTCAATTACAGAGTTTCTTTATATATAGTTATATAATTCCTATATCTTTAACTACACTCTCTTTTTGGTGAGATATTGTTCTCATACTTTC
CTTTAATTTTTGACACATGGTTTCCATCAGTTCTTTGAACACATTTATAATAGCTAATTTTAGGTCTTCGTCTAGTAAGTCTACAATTTATGCATTTTTA
ATGACAGTCTGTTGACTGCCTTCCAGCCTGTGTCCTTTTCTGCCTGTTTATGTGTCTTACAACTTTTTGCTAAAATATAGACACTAAAAATAATGTAATG
TGGCAACTCTGAAAACCATGTTTCCCTTTCCCCCAGGGTTTGCTGTTGTTACTGTTTTTATTTCTTTGATGCCTTTCTTGGACTAATTTTGTAAAGTCTG
TATTCTTTGTCATCTGTAGTCACTGATACGTCACTGTAGCCATTTGTAGTCCTTACTCAGTTAGCTTAATTGTTCACTAATGATGAGAGAAATGCTCTAT
CATTCCTCAAATGCTAGAATCAAAGATTTTTTTTTCCTTTGTTTATGGTGGGACTATGTGTGCATATTAATGCATGCCTTCAATTTTCAGGCAGACAATT
CACAGCTTTGCCTCAGCCTTCACATCCTGCTTGCTCAAAGCCTCACAGTTAGCCAGAAGTAAAACCTGGGCATTCTCAGATTTCCAGAAATATGTTAATC
TTTTTTTTTTTTCTGTTAGATGAGATCTTGCTATGTTGCCCATAGCATAGTTGAGATCTTGCTATGTTGTCCAGTGGCTATTCACAGGTGCAATCATAAC
ACACTACAGCCTCAAACTCCTGGGCTCGAGTGATCCTTCCACCTCAGCCTCCTGAGTAGCTGGGACCATAGGCATGTGCCACCAGGCAGCTTATGTTAAA
TCTTTTTAATGCCCCCTCCCCATGGACATCTCATTCTTCATTTTTCTTTTTCAAGTTTTTCAGTCAGCCTATTGTTAGCTGTAACTGGTGTCACTACCTG
AGGCTGCTGTAATATTAAACAATTGTTACTGATTGTTTTCAACAATGCCCTGTGGAGAGGACCATTTGCACAGGGCAAGCTCTGAGTTATGCCAATTAAA
GACAAACCCTGGGAATGTAGCTTTTCCAGGAAGCTGCCAGACAAGTAAATAGTGCCAAGACTCTGGGGATGGGGCTCTTTCAGGTGCTCCACATCCTTTT
TGTCCCTCCAGTGGCTGCTAGACTGCTCTTATGGTTGCAGGGCTGTTGGTTTTCAAGGTTACACATACTCTTTCTTCTTCTTCTTCTTTTTTTTTTTTTT
TGAGACAGGGTCTCACTTTGTTGCCCAGGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGTGATTCTTGTGCCTTAACCTCCTGAGTAGCTGGGATTACA
AGCATGCACCACTATGCCAGGCTAATTTTTATATTTCAAGTAGAGACAGGGTTTCATCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATC
CTCCCGCCTCAGCCTCCCCAAATGCTGAGATTACAGGTGGAGCCACCGTGCTCAGCCTCAAGGTTACACATATTCTATGTAGTCGTCCCTCAGTATCCAT
GGGAGATTGGTTCCAGGACCTCTGGTGGATATGAAAATCCATGGATGCTCATGTCCCTTATATAAAATGGGGTAGTTTTTTTCATATAACCTATGCACAT
CCTCCTGTATACTTTCAATCATCTCTAGATTACTTATAATACTTAATACAATGTAAATGTTATGTAAATCATTGTTATACTCTATTGTTTAAGGAATAAT
GACAAGAAAAAAAAGTCCATACAAGTTCAGTACAGATGCGATTTTTTTTTCCAGACATTTTTGATCTGTGATTTGGTTGAATCCATGGATGTGGAAACCA
TAGATTTGGATAGCTGACTGTATCCCTACAAAAATATCCTGTTAAATGGCCTGAAGATAAATTCTCATGTAGGATGGTTCTAGTCCTAAAGATAACACTG
TTCACCTCTTAATTATTGTATGTAGATAATCTGAATCAGCTTGCAGCAGGTCGAGCCACAGACAAAACTCCTTGACACTGAGTTAAAGAAGGAAGGGGTT
TATTCAGTCGGCAGCACCGGCAAGACTCCTGTCTCAAGAGCCAAGCTCCCTGAGTGAGCAATTCCTGTCCCTTTTAAGGGCTCACAACTCTAAGGGGGTC
CGTGTGAGAGGGTCATGATCAATCGAGCAAGTAGGGGTACATGACTGGGGGCTGCATGCACGGGTAATCAGAATGGAACAGGACAGGACAGGGATTTTTA
CAATGCTTTTCCATACAATATCTGGAATCTATAGATAACATAACTGGTTAGGTCAGGGGTCAATCTTTAACTAGCAGGCCTAGGGCGCGGCGCTGGGCTG
TCTGCCTGTGGATTTCATTTCTGCCTTTCAGTTTTTACTTCTTCTTTCTTTGGAGGCAGAAATTGGGCATAAGACAATATGAGGGGTGGTCCCCTCCCTT
AAGCTTACTTATTGTATATAGATCATTTAAGTCAGTATGTTCATCAGAATCCCTTGGAGGGCTTGTTAAAATACAGGTCACTTGGCCCCACTTCTAGAGT
TTCTGATTCAGCAGATCTGGGATGGGGTCTGGGAATTTGCATTTCTAGCAAGTTCTGGGAGGATGTTGATGTGACTGGTTAGGGACCCCATGTTGAGAAC
TTCTGAAGGACTGAGATACTTTACCACCAGCATACTTAGCTATCACATCGTGATGCTTAGGGAAGATATAGCATGATATTGTAAACCAAAAGGTGTCTGA
GACAGATCTGTCAATTTAGAGGTTTATTTTGCCAAGGTTGAGGATGCAACTGGGAAAATGAGGCACAAACTACAGTAGGATCAGTAGGATCTGTGGCCTA
TGCTTTTTCCCAAGAGGGTTTTGGGGACTTCAATACTTAAAGAGGAAAAAGTGGGCAGGAGGGGAAAGAAGAACAGTGAATTATGCATTTTTACATAAGG
TAAGTAAACAGAGAGTAGAGGAAGAGGTCAAATATGCATTTGTCTTGGGGTGGGTGGAAGGATGATTCCTCCGCTTGTCTTTGTCCCATTCCTGTGACGA
TAAGCTGTTAATTTACATTGTCAGGGTGAGGGAGGCCACCTGGGGAGATATGTGGCCTTCTATCTTGCAGCTATCTCTTTAGGAACAAAAGGAAGGCAGT
TTTTTTTGCATGATTCAGTTCCCAAGCTTAGCTTTTCCCTTTGGAGTAGTGAGTTTGGGGGTCCCGAGATTTTATTTTCCTTTTACAGTATTAACTAACA
CATGGCTCCCTTTTCTCTTGATAATTTTCATTCTACGGTGGAATTAGGGCCTCATTCTTTGCCACACTGAAAATGTGATTGATCTTTGAAGATTATCCAG
AATTACATAACAGTCAAGTGACAGATGTTATTGGAAGCTGATCCTCATTCAGTGTTACTGTACTAAATGAATGAATACTGAAATTAGACTGATATCTATT
TTTAAATCTTTATAAATTTAATTTTTTTTTCTTTTTTAAAAGTTAGTGTTTAACAACTTTCTTAGCTTGATTATGACTGCCAGGCGTGGTGGCTCACGCC
TGTAATTCCAGCACCTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAA
AATACAAATTTAGCCAGGGTGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCGG
TGAGCCGAGATCGCGCCATTGCATTCCAGCCTAGGCAAAAAGAGCGAAACTCCATCCCAAAAATAAATAAATAAACAGCATGGCCATAAAATTTATTGTT
TGAACAGGAATACATTTGAGAGTGAAAGAGGGCCCTATTAATAATTTTGCTGCAAAAAGATGTAAACTGGGGCTGTTCCAAGCAAACTAATTGGTCACAG
TAATTAAAAAAAATGCAAAAATATTTTTGCATTTCTACAAATTTGATTTTCTTGGCTTTAACTTTGTACTGTGGAGTCAAGGTTCTGTCAATATTTCTTT
CCATTTAGCTGGAGAAATAATAAGAGGGAACTGTTTTATTACTAAGTTACTTTTCAGAAGAGAAATAAAATAAAAAGTAAAGAAATAAAAATTTAAAACT
AGGACATTTTCTTTTTCTTTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTAGAGATACAGGGTGTTGCTCTGTCTCCCAGGCTGACACTGC
AGCCTCAAATTCCTCTGCTCAATCGATGCTCCTGCCTCAGGCTCCCCAAAAAACTCGTTTTATATTTGTTTATTTTTATTCCAGACTATTGTCTGTATTT
TGGTGACATGAGGAGGATCAGACATAATTCTAAATGAGTTCAGAGAATTCTTAATTTCCATTCCTAACTGGTTAATCTCTTTTGTTTTTGAAGCAAATTA
TATGTTTAAATGCTCTGCCTGAGAAGTATTCTGGTTTATTGAATTAAAATCATTTTAAGAATTTTTTTTTCGGATAAAATGTGAAGACTCAAAGATAAGG
ATACATTCAGTCCAGTATTTGCCCTTGCTCAAGGAGAAATGCTGTTTTAAAGTCAAAGTGAAAATTTTCTTCCAAAACTTCTGATTATTGTTTTTGTCTA
TGGAAAAATAGAAACTTGGGGCAAAGTGTAAGGACTGATGCTGTTGCAAGTCTGTTAGTGCACACTTATGCACACAGGCCAGAACAGGTCCGGAAGGACA
TACACTTAGAGGTTAGCAATTTTCTTTTTTTTGCAAGTCTGTATTTTCAAAGAATTAAGATTTTAATTTTTTGCTTGTCTGGTTGGAATGTTCAGTTTCC
TAAACATCTCCTGGGGAGTGAGTACGTCTGCACTTCAGGAAGTGCTCTTGTCCGGAGGGCAAAAGGTTGGGGGCGCATCCCCGGGTCGCGGCTCCTCCAG
GAAACTTTCCCTTGGGGATCCGTCAGGGCCTCAGATGCCTCAGTGGATGACAGGGTGAAGATGCCATCGCTCAGTCAAGTCCAGAAGTTCAAGAACTCCT
TGCAGGTGAAGCAGTCACAGGATAGGGTGGGATCTTGTGGGAACCTAGCAGTAGGAATTGGCGCGAGCAGCTCGGTCACCGGCCCTACTGTCTCAGAGGG
CGGACCCAGCTCGGGCTGGTAGTGGGGCGGGGGTCGCAGGGCGCGGGCCGGGCCCTCAGCGCGCATGCGCGACAAGGGGGCGGGGCCAGGGCGGGGCTGC
GCCCGGCGTCTAGAGCGGCGGCGGCTGGCTAGGGCTGCGGCGCGCGTGGAGGGTTCGCTGCTGGTTTGCCGCCGGGTCGGGCTCCGTGGGCCGGGGCAGG
AGGACCAGCACCTGAGGCCGGGCCCGCAGCCCGCGACTTCACAGCCAGGCGGCGGCGCTGCTGCTGCTGCGGGGCTCTGGCGCGCAGCCCGGCGGGACAG
CGGGGCGGCTGGCGCCGGGGGCCGGGGAGCGCCAGGTAGGTGGGCCGGGCCGGGCAGGAGGCGACGCGGCCGCCGCGGGGGCCGGGGCCGGGGACGGACA
GCGGGCGCGGGGGCGCGTCCAGGTCCCCGCTGGGGCGGATGTGGACGGCGCCCGCGGTTTTCATGGAAATTGCACTGCCTAACGGTGCCAGTGGTCCACC
TGCGGTGGCGTCTTTTGAGAACAATCCGAGCCCGGCCGACCCCCAGCCCCGTGAAGACGCGGCCGCCCCAGCAGGGAGCCGGGTGCCGAGCGGGCGCGTG
GCCGCGGGACGCAGACGCGGTGCCTGCCCGATGCGGCTCCAGGGCTGGGTCTACSGGCTCCTGAAGCTGGAGGCCTTGCCGTGTTTGGGGTGGAAACATA
ACCGGGTGAAAGTAAACATGCATCTCCGTGTGGGAAATCTGGTCTCCATCCTCGAAACTCTTCCATTTTCTGCCTGCCTTTAGACCCCGACAACATTTCT
AGCATCTTTGCTTTCTATATTTTATTTCTCTCTGGCTTTGCTAGTCAATTAATTGAGGCCTGAGAAATGTGCAGGGATCTGTGGCTGTCTCTTGAAAAGC
CAGCCAGGAATGGGTAGGCCCCAGAAGACAGACGTTCAAAATGTCAGAGGTAAATTTGTGTCTTTGTGGGCGAAGGAAGGGAATGTTGATGGTCTCGCTT
CCCTTCCCCTGTCGCCTGCCCTCTGACATTACATAATGATGGGTTCTTCCTGCCCCGAGTTCATCCGTAATGACAGACCATGAAAATGTTCCTCTGGGTA
AGAAAGACCTATATGTGGTAGAGCCCATCTTCTCTTTTGCTTTGCCACTGAATGTGTCTTGTGTTGGGAACCTGCCTAAGAGTGGAATTTGATTTGTCGC
CTGCCCCTCAGGGCATTTAAACCAAGGGAATGGGGGTGGGGTGGCGATTTGGGTGTTGCAGAGAAATTCTGACTGGTCCATCTGTTCACAGTGGGTTGTG
TGGACCATGGGGAAGCCAGTGGGGTTGAGGACAGAGTGGGTTGACTTCGGTGTGAATCATGGTTCTGCCGCTTGCTGACTCTGGTTCTTATCTCTAAAAG
GTGAGAGCAGAGCCTTTTTTGCTGAGTTTGTTTTGGAATCTAGCTGCTGTTGGCGTTGGCCAGTGCACGTAGAATTGCTTGCTATAGGTTGTCCTAGAAT
TGAGCCTAATTTTTCTTTGGTTGAAAAACACACTTTCTTTAACGGAAATTTTGTTTTTGGATCTAGGCTAGGGCATTTGTTTTGGGGGTTCTTTGCTGAA
GTGTCGACTGCTAATGTACTGTTTTCTTTGAAGAAAGATGAATGATGGGGCCCATGTAAGAAGGGCAGTGTGGTTGGTCTGTTGCAGGAGTGGTGCCAGG
AGGCCGTGATGCTGTCTGTCCCAGGGGTGGCGTTGCATGTGAACGGGCCTCTCGGTGCCTCATTCCCTGTGATGTCTAGTAAACACGCCTGTGAAGCCAG
AGCTGCTTGGTAGAGTTTGGCTTGAAGAAAAGGCTTAAAGAAATGGATGTGGACAAATTCAAAGAGAAAGAAACATTGTGTTTCTACTGAGCTCCTTATA
GAATTAGTCTGCTTACCTGGCCACCTTACTCATCAWGTAGCTACTTTTTTCATTTAGATTATTCTGTCTCAGGGTGTTTAATCTGCTTGGGTAAGTCTTG
TTTCCCAACTAGATTCAGAACCAAGGGCAGATATTATAGTGCCTCCCTGTTTTCAAAACTGGATATTTTGTAGTATTGCTGTTAAACTGAATATTAGCGT
TTTTWAAAAAAAWATCACTTTAAGGAAGGATGAAATAAAATAATACACGAGAGCTATTTGTAAACTGTAGAGCACTAGAAAAATGGGATGTGTATGACAG
AGAACTATCAGCCCTGCAAGTCCCTTTAACCAGCTGCCTGCCTAAGAGGGAGCGTTCTCAGCCAACATCTCTTCAAATGCACACGGGAATGGACCTGAAG
GCGGTGTGGGACCGACTGCCCCACTGATCCCCAGCCCAGGGCTTAACATCTCAAGAGTTCAGTGAGGCAGAGTGGAGGGGGAGGCTTTCCACCAAGACTG
TTTCATCCTGTTTTCGTTTTTAAATGAAAAGCTCCTTTTYAGTTTAGTATTCCAGAAAAGTTGCCACAACATCATCAACTACTCATGGTGTCAGGAGGCT
TTGACTTTCACTGAGAAAAAAATAGCACAAATCTGCAGCRAAAAAGGCTTGATTATGTTGGTGCTTCTGTAGAACTTGATTAATGAGCTGGTCTTGAGAG
AGCCTTCGAAACGGCTTTTTTTTTCAGTGTCCTAAAACAGAAGTTCTGTGAGGAAAACATATTTTGAGGAGACCAATATTAACGCCCATGCAGGCTTGCT
TCATTTTGTCTCTGTGTTTTTAAGGAAAATACCATCATGAAGCTAATCCCAGGGAATTTACCTATATTTCTATTCATATGCACATGTTATTCTCTAATTT
TTTTTTTTTAGTATTWTGATATAGTTTCAGACTTACAGAAAAGTTGCAAGAATAAGCCAAAGGTTTCTCAGATTCTCCAAATGTGGACATTCTGTTACAC
TGCTTTATCATTCTCTTGTATTCCTGTGTGTTACTACTTTTTCCTGAACTGCTTAATAGTAAGTTGCAGGCTTGAGGCCCTTTTACCTCTAAATACTTCA
CTGTGTATTTCCCAAAAAACAAGGATATTCATAACAGCAGTAATCCCCGCACTTTGGGAGGCCGAGGCGGGCGGATCACAAGATCAGGAGATCGAGACCA
TCCTGGCTAACACGGTGAAACCCTATCTCTACTAAAAATACAAAAAATTAGCCGGGCTTAGTGGTGGGCGCCTGTAGTCCCAGCTGCTTGGGAGGCTGAG
GCAGGAGAATGGCGTGAACCTGGGAGGCGGATCTTGCAGTGAGCAGAGATCGCACCACTGCACTCCAGCCTGGAGGACAGAGCGAGACTCTGTCTCAAAA
AAAAAAAAAAAAAAAAAAATCATGGCCGGGCGCAGTGGCTCATGCCTATAATCCCAGCAATTTGGGAGGCTGAGGTGGGAGGATCACTTGAGTCCAGGAG
TTTGAGACCAGCCTGGCCAACATGATGAAATACTGTCTCTACTAAAAATACAAAAATTAGCTGGGTATAGTGGCGTGTGCTCGTAGTCCGAGCTACTTGG
GAGGCTAAGGCATGAGAATCTCTTGAACTCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCTAGCCTAGGCAGCAGAGTGAGACTGT
CTCAAAAAAAAAAAAAAAAAAAAATCATGAAATTAATGTTGATATAACACTATTTAGTGTACAGGTCGTATTTAGATTTTGTCAATTGCTTCGATAATGT
CCTTTATAGCAAAAGAAAATCCTAGATCATCTGTTTTGCATTAAGTTTTTCTGTCTCTGTAGTGTCCTTTAATCTGAAAGTTACCACGTCTTTCTTTTGT
ATTTCACGACATAGACATATTTGAAGACTACTGACTTTTTAAGATAATGCCCTCAATTGGGTTTCCTGTGGTTTCATGATTAGATTCAGGTTATGCACTT
CTGGCGGGAGTAGCACAAGGTTGAAGCAGTTGTAGTCTTCTTTTCTCTCTCTCTCTCTCTTTTTTTTTTTTTTTTTTTAAAGAGACAAGGTCTCCCTTCG
TTGGAGTGCAGTGGTGCCATGGCAGCTCACTACAGCTTGGACCTACTCCACTCAGTGATCCTTCTGCTTTAGCCTCCTGAGTAGCTGGACTATAGGTGTG
TGCCATTGCACCTGGCCAATTTTTAAATATTTTATAGGGGCTGGATCTCACACTGTGTTGCCCAGGCTGGTCTCAGACTCCTACTCTCGCCATCCTCCTG
CGTTGGCCGACCACAGTGCTGAGTTTACAGGCGTGAGCCACTGTGCCCGAMTAATGCTGCAGCCTTCTTAATGTATCCCATCAGGAGGCATATGCTGTGA
TTATCCCATTCTCTGGCCCTGCTAACTTTGATCACTTGAATTAAGGTGGTGTCTATCTCATGGAAAAGTTACCATTTTTCCCTTTGTAGTTAATCTGTGT
CTTAAAGGAAGAGAATTTGAGACTATGTAAATATAGTTACTGCTCATACAATTAACTGACTAGTTTCAGAATTCATTGATGTTTCTTACCTGAGTCAATT
ATTATGATAGTAGGCAGATGATGATTTTCATGGTTCCTTCTATATTTATTAGTTGGAACTGTACTGAAAGGAAGAAACCTTCCTTTCTCTATTATTTACT
TTTTGATTTACATCACTGGACTCATGAATTCTTGCTTTATTCAATAGATTATAGTCCATTACTCCCATTATGCATTTTGTTGCTCAAATTATCCTAGATT
TGGCCAGTGGGAGTCCCTTCAGTCTGGCTTTTGTGTCCTTTTGACAAGTGCTCATCATTCTTTGAGGACTTTTCTTCCAGGCACAAAATCTTCAAGGACT
CAGCTTATACTTTCCTTGTCCCAGCCCTGGAATCAGCCATTTCTCCAAAGAGTCCTGGTTTCCTTTAGTGGAGAGTGGTATAAAAACCGAGATGTAGGCA
CTATGTATTCTCGTTGCTACTGAGGTGTCACCCATTCTAGACCTTCTCAGGGGATAGATGCTCTCATTGTAAACATAAATGTAGTCACATTACACAAAAT
TTTCTGTGGCTTGCTTTTTAAATTTGTACTCCTTCCATTAGGCTTTGAAACTGTCTGTTTCCCTTTAACTTGGCCAACATTTAAGAGAATAAATCTTGTT
AATTTTGCCAATCTAATGGGCAAGGAAGACATTATTGTTTTAATTGCATTTCCCAAATTACCAAAAATATTGGATACCTTTTCTTGTTAATGTATATTTT
AACTTCTAATGAATTACCTGTTTATATCCTTTGTTCATTTTTTCTTGTTGGGCTGTTTTTCCTTATCTTACTAGATTGTGGAAGTTACGGTAACTTTGAA
TTTTATTCTTGGCAGCTTTAGAATGTTTTTTTAAGTGTGATGCTTTTTTAATTTTTTTTTAAAGTCCTAAATGACAAGGAACCCAAGCTTTTCTGAGTAC
CCCCTGCATGCCAGGCCTCCCTGGACATCCTGTGGGAGGTTCTGTCCAAAGGTGAGCTGTGGTGTTGAGGAGTGGTTAGAGCATCCCCCGAGGGTAGTTA
AAAGAGGCTCAACTGGGACTAAAACCCAGTTATATCACCTAACTTCCTTCACAGGATTGAAAAATGAAAGCTTTTCAATGAGGGATAAAAATTGATTACC
TGGATTTGCCAGTATCAACAATTTCTGTTTTCAGTATTTTGGTTTATAAATCAGGAATTTCTTTTACACAGTCCTTTTTGCTGAGCATACACATCTTTCG
AAACCATTTATTTTATCCCTAGAACTATTGTGGACTCTGGTGCTGCACTTTCTGTGAGCATCCAGCTAGCTGTGTGACTTTGGGCAAGTGGCTTAATCTT
TCTGTGCCTCAGTTATTTCATCCACAAAACTGGGCTGCTGGTAGTAGCAGCCCCAGAGGCTTGTTGGGGGATTAAATGAATTAACATTTAATCCTGGTGC
CTAGTAAGTGTGCAGAACGGAAGCATTACAATGGATTCGTATACAGAGTGTGGGTGGTTGGCAGAGCTTGGAATTAGATCAGCCTTTCCTCTGTGGATTT
AATCTCTTAGTTGTCTCTTTCTGTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCTAGGCTAGAGTGCAGTGGCTCTAGCCTGCAACCTCGGCTCACTGC
AACCTCCGCCCCCTGGGTTCAAGCAGTACTCCTGCCTCACCCTCCCTAGTAGCTGAGATTACAGGCATATACCACCATGCCTGGCTAATTTTGTATTTTT
AGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGTTCTTGAACTCCTCACCTCAGGTGATCCACCCACCTCTGCCCCCCAAAGTGCTGGGATTACAGGC
ATGAGCCACTGCACCCGGCCTTAGCTGTCCCTTTCACCATAGCCTGTCTGGGATTGGAAAGCCAGGGTCCTGGGTGCAGTGTGCATGTCTCTTTCTGGTC
TTTGCACATACCTTTGTCATGCCCTATCAGGCTGTCAGGCCCAGGCCTGCCAGCCAGCCAGCCCAGCTGGCCTCTGGTGTTTGCCCACAGCCCTAACCTG
GAGCATGGGTGAGACTGCTGGCCTTTTAATATGAAACTTGTTCAGTGAGGCTCACCTGGCGAGGGACTTAGGCACAGTAAGCAGATGTATATGGTGGGGG
CAGTGGGGGGATCATGCTCTGGTGAGGTCTATTTTCTGGAATAGGGTCAGGAAGACAGGGATGTCCTCTGATGTCCAGGAAGAAGGGTGGGGACCTCTGA
AAGAGGAAAGTGTTTACCCGCTGCCAGCTCCGGTCCTGGGATCCTCCTAGAGCGCTTTCCCTGAGACACCTGGTAGTTTTCCTGACCTCCGGTTGCTGYA
GCGCCCCTCTTTTTGCACCTCACTAGGTGGTATTCTGATGTCTCCTGAAAACCCCCTGCCCCTTTCCTGCCCCTCCCATAGCCCTCACGCAGGTGGTGTC
AGCTGCTGTTATGGAAGCTGTCTATTATTAATTCACCCTAGCATATTGAACGCCCTTCTTTCCCTCTCTCATGTTGCTTGCATCTCTAAAKGGTGTATTC
TCAAACCAATTAATTTGAATTTTCAAGAAGGATGACCTAAGTGTATAAACTCTGGAAATGTGAAGGAAGTATTTAGGCAGATGGTTGTTTCTGGGAAACA
GGGCTCTACTAGGAAACAAGGATGCCCAGTTCAAGCTTCTCCCTGGATTATGGGGTGTGTCAGTTGGGATGCTTTTGGTTGCCAACAGTGACATTTATTA
TCTCAGAGAACTGGAGTCTCCATCAGCATGTCAGCAGTTTCATCAAGGACCTCGATTCTGCTCCTCTGTCCAGCCATCACTGCCGGTTTCATCCTAGGGG
GTTAGTCTCCTCATGATTCTGAGATGGTCGTTGGGGGCAGTGGGACTGCGTGCTTCCTTGTTCCTGTCCAGCAGGAGCAGGGAAGGAGACAAAGCAGCTG
ATTCCCCAGCCACAGTGTCTACCAGTCCTTCCCTCTGGCCTGTGGAGCAAAGGGTCACGTGGCCTTCCCTGGACCAGCAACATGAGGCTGTGAGAGTGCT
GTGTGCTGGTTGGCTTAGGCTGGTGGTCCTCCAGGTGTGGTCCTCAGACCAGTAGCATCAGCATTACCTGAGAACTTGTTAGAACTGGAGATTAGTGGAT
CCTACCCCACCCACTGAATCAGAAACTCTGGGATGGGGCCCAGAAAGCTGTGCTTTAAGAAGACTTCCAGGTGATTCTGATGCAAGGTCACATTGGAGAA
CAGCTCTTTTAGTTTAATCAAGACTCCCCTACTCCCCAGCTGGAGACAGGGCTGACTTTTCCTGAGGACCGGGGAGGAGGTTAGGTCCTAGAATAGCAAG
AAGGAAGAGAGGATGGTGGGTGGCCAGCCCACAGTGTGAACTAGCCAGTGTTTACGGCCCTGGGGGCCGCTTTGCTCTCCGGAGTCCTTCCCCTGCCCCC
CATTCGCCAGCTTGTCCACCCATATAAGTTTCTCAGCCCCCTTGCCTCAAGCTTCTSCAGCTCCTCCAAGCATGGCCTGTACTCTCCCTGTACARCTCGG
TGCTAAAGGAAGCAACCTCAGTAACACTCCAGCTCCAGGTCCCTCTCTGGCCTAGCAGGGATGGAGTCTACCTGGCTGGTGCTGAAGAGTCCCAAAGAGC
TGTTATGACTCACCTTCTGAAGCCATTCCTGAAGTGTGTTCATTTGTGTAGGGGTTGCCTACGCTGCTACTCCTTGCTCAGCTAGGAAAAAAGAGCAGTG
CAGTTAGTAGGTGCTTGAGAAATATTTAGGGAATTGGCCTGGAGACAGCCCAAGTGACTACTTTCAGTGGTGATTTTTACCTGTGTTATGTCCCCTTTTT
TGCAAGTACAACTCCAACTTGATGTTTGGGTGAAATAAATAGCCACCTCCACGGTGTAATTTGTGAGATCACAATGACCCACTTTTCCGAATTTTTCCTG
AAACTAAAGAGTTGAGATATTTCTGGGTTTTCAGCTTTAAAGATTCATCTTAATACATAAAAATAACGTTTAGGAGTAGTCTTGCACTGAGCTCTAACCA
CATTAGCACTAATTATTGCGGAAGGAAGGGCACCTGAGGAGGAAACATGCTAGAGAAGGGTCCACACAGCATGTTTCAAAATGCARTGGTTCATGAAATC
ARTTTGAGGTTGTAACTGGCATTAAAAAGCTTTTTGAAATAGCAAATATCCAAGTACGTTTCCTATGGGAAGGATAAGCATTTTTTGGTAAAACATCTAG
TTATTCACATGTAGTGTATTTGGGGTGTTGTTATGGTGTGACTGTTTCTTAGAGTGGATTTTGGTAAAGATGTGTCAAACCCTAGGGCTGAGTGCAGGGG
GTCCTAACCTGTAGGAAGGTGGGGCCTACGCTGGATGTGTATACACTTGGGGTCTTTTCCTGGGCGTGCGACCTGTGACTTTTGTCAGAACCTGGTGGTC
TGTGACTCGCCATAGATCAAGAACCAATGACCTAAAACCAGAGGAGACTTTCAGTGGTGAGGGCCAGTGGGAGTGGAGCTGGGGGCGTGAGGAGCAGGCA
CAAAGTCCTGAGCCTGGTCCTGCTCTGGCRTATTGTTCGTGGTAGTAAGCCATCTGAGCCAAATCCTCCTGATGAGGAGTCCTCTGCACAGCCACACTGA
CAGACAGGAGAGACAGTGGCAGGCAGTGTGTTGATCACCTGAGGTCGGGGGTTCAAGACCATCCTGGCCAACGTAGTGAAAACCCGTCTCTACTAAAAAT
ACAAAAATTAGCTGGGTGTGGTGGTGCACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGT
GAGCCGAGATCACATCACTGCACTCCAGCCTGGGTGACAGGGCAAAACTCCCTCTCAAAAAAAAATTTAACTCTGGATGCCAGATGGGTCCTTTACCTAA
CAGGTGGATCAGCATATTTCTACATAAGAGAGAGAGAGAGAGTCTCCTTGTTTGGGGCTGGCCCCAGTGAAAGCATTGCTGCTTTTGACTCCCCGCTGGA
ATCCTCTGTGCCTTAACACTGTCAGGACAGTTCCCAAGGCTGGCTTAGAGTCAGCTATGATCCCCATTATTTAATGCAGGCGCTAGTCTGGTTTGTATCA
CAAAGCTTATGTAGTAGTGGCTTTGGCATGTCTGTGTTTGTTTTTTGGGGGTAGGGGCAAGTTGGATTGTAGTGCTGGATGTGAACCCAAGTCAGCTTTC
TCATCTGTAAAATGGGGAAGGTGCTAGGCTCACAGGAGGGTGGTGGGGATTGATAATATACATAGGAGAGGGCTGTGAACTGCAGTGCACTGGACCGGTG
CAAACATGAATGTTTCGACCCCTGCTCCACTTGACAGTCTTGGTAACTGTTTTCCCCACAGTACTCTTATTTTTCACATGTGCTCAAAGGGCTGGAGTAC
ACCCTATTGTTGACTCCTGCTCAGGGTACCTTCCAGGGGAAATATCACAGAAGAGGGAGGTGCTGAGAGGCAGGGACATCCAGCGAAGTTGAGAGGAGAA
GGATGTGGGCGGGGGGTGGGAGGAGGAAGTGGAGGGCTTGCACTCTGTAAACTCTTAGTCAGCTGGTCACTGACCCAACTGAGCCTTTTACTGACACTGT
TTTTTTAAAGAATGGAAGGACTAAGGATTGTATGAGCTGAAATGTTGAGTATTTTCACATTTCTTATTCATTCTTCGTGCTCTGTGTATACAAATGTTAA
ATGATCACATTACATAATTGGGTGATACTCAAATGGCAATACAGTGGTATGTTTGACAGAACCCAATGTTTTAAAATAGGGCTAGGTGCCAAGAAATGTC
AGGATAGGCTGAGTAAGGTGACTCAGGCCAGTGATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCTCTTGAGCCCAGGAGTTCAGACCGGCCTGAGC
AACAAAGCAAGACCTTGTCTCTACTAAAAATTAAAAAATTAGCCAGGTATAGTAGTGCACACCTATATTCCCAGCTTCTTGGGAGGCTGAGGCGGGAGGA
TCACTTGAATCCAGGAGGTCGAGGCTGCAGTGAGCTATGATCGCACCAGTGCACTCCAACCTGGGTGACAGAGTGAGACCCTGTCTCTACAAAAAAAGAA
AAAAAAAAGATACCCCAGAATCTTCCAAATATTGTCATTCCTATGGTTTGGAAGAGGGGAGTGAGTAAATGGATTGGCCTTAGGGACGACACCTTGCTGG
TAGACTGTGCCCACCTCAGGTAGAAGGGAAGCGCTAGCAGTCTCATTTGTGGTTTGTCCCCAACTTGCCAGTGACTTGGTGAAGTCATGCCTGAATCTCA
CCCTCCTCCTTTCTTGTTCATCTAGTGAAGGTGATTTCCTTTGTTCCTCCCCCGTCGAATCCTCCCTGACAGTGGAATGGAGTGGTGATAGTGCCCAGGG
GCTACATGGGTGAAGTGTGGTATGTTCTTGATTTAGTTGGCATTGGACTAAGACACACACACACATACAAGTGTCTATTTAGGGAAGTTGTTCTTTGGTC
TGTTGCCTTGGAAATACTGCCTTTTTATTCTTTCACTTTCTCTCCCCTCTGCAGTGATTCAGCAGTAGCTTTCTAGAGAAGAAGAAACATAGTGTCAGAG
ACCCTGGAGTACCAAGGATATGTCAGTGGAGAGGGAAGCTGCCTGTGTGTCACACAGACCACATTCTTCCTGGTCCAGCTAGAGCGTCCCGTGCCTTTCC
TTGGCTTTTCCAGCCTCTCTCCATCACTCCTTCTGAGGCCCTTTGCAGACAGTCCCCCAGTACAACTACAGCATTTTTGTAAGTCCAGCCCTTGTCATTT
TCCCATTGACTGATGGAGACCACTTGACTCCAGCATACTTTATGCACACTTATCTTCTGGTTCAGGTCTGGACTGTCTTTCTCTTTCTGGCAGCTTTCTT
TCCTGTTAGCCATTCCTGACTTGTTTCAAAAAGGATACATGGACTTGAAATTACCAGTTAAAGCAGAAAATGATTAAAAAGAAAAAAAGGGCTTCAAATG
TCAAATGGATACAACTATATAAGTTGTAGAAGGTGCTCTGAACACGTTACAGGGAGGTTGCCATTGCTAAAAGCTTTTACATTTTTTATTTATTTATTTT
TAGAGACAGAGTCTTGCTGTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCATAGCTCACTGTAGCCTTGACCTCCTGGGCTCAAGCATCCTCCTGCCTC
AGCCTCCCAAGTAGCAATGACTGCATGCGTGTGCCACCACACTTGGCTAATTTTTAATTTTAATTTTTTCTAGAGACTGGGTCTTGTTGTGTTGCTCAGG
CTGGTCTTGAACTCCGGGCATCAAGCAATCCTCCTGCCTCAGCCTCCCAAATTGCTGGGATTACAGGGCATGAGCCACTGTACCCAGCTACTTTTACGTT
TTTCATTCTCACCCCTTTCTTCTGGAAACACTGCAGAGACCATGAGAACAGGAGCTTGTCTTACTTGATAGTGCAAACAGTCTTACAAATAGTGTTCAAC
CATCGATTGCCCAAAACACGTGTTTTGTGACTRTTATTGTAGGTGCCTTTGAACTGTATGGTGTGTTAAATAACTCCATTGGAGGGAGGAAGATCTTTGT
GTTTTGAGTTGATTATTTAATTATTCTTTAATTAGTCTAATGTCTTTACCAAGCTAGATATTAATATCTTTTGTCAAAGAGAGAAGAAAGCCAGTGGATG
GGTTGTGAAGTGGTGAGGGGCCACTTCACAAATGGTGAGTGGGTGGGTTTTTATTTCCAGCAGTGTCACTGGAAACAACTTTGTACCAACTTGCATGGTA
AGGAGCATTCAGGTTTTAAAGTTAATCTCATTCAGTTTCTCCTGTGGGACAACATTGGCCTTTCTCATTGGGGATTTGACTGTTGGGCCTTGTCCCTGGG
TATGTCCCAGCCCAGACACTCAGGGCACTGGCCACCCTGCCTCAGCCCCTCTGGAGCAAAGAGAGTTTTAAGCAGTAGTGGATGTAACTCATTTAAAATA
GGATTAGATCTAGCTGGGTTAGCTTAGTGGCATGCACCTGGTGAGGCTGTATTCTCTAGCTACTTGGGAGACCGAGGCAGGAGGATTGCATGAGCCCAGG
AGTTTGATACCAGCCTGGTCGGTATAGTGAGACCAGCCTGTCTCAAACAAACAAACAAAAACAGGATTACATGAGCTATGACTAAATTCCAGGGCAGTAA
CTGCTGTGTCATTCTTTGGGAACTGGTCATCCCAGGATTTGATCAGTGTTTCATATCATAGGTTGGCTGTTTTGTAAACTATTAGGATTGTACCAGTGTT
TGTCATGGGAACTAGCAGCCTGTGACGTAGACTGTGAACCTAACTTAATTGACTACTGTAATGAATACAAACAGTTGCTATTTTTACCTCAGAACGTAGA
TTTGTCTGCAAATTAAACATTTGAGACAATAAACAGGAGTTTGGTTTATTAAAGCTGTTTGAGCTTGCTACTTAGGCAGGCCTAGAAATAGGATTGGCTA
GCTTTTTCTGATTATGTAGATGTTGACTATATTAGGGAGAAACTCTTATTTTTGTTTTATTTTATTTTAGAGACGGGGTCTCGCTCTGTTGCCCAGGCTA
TAGTGTAGTAGACAGCCATAGCTCGCTGCAGCCTCAAACTCTAGGGCTCAAGCAGTTCTCCCACCTCAGCCTCCCAATTAGCAAGGACTACAGGCATATG
CCACTGTGCCCAGCTAATTAAACAAAAAWTTTTTTTTTTTTTTTTTTTTGTTTAAATGAGGTCTTGTTATGTTGCCCAGGCTGGTCTGGAACTCCTGGCC
TCAAATGATCCTCCTGCCTTAACCTCCGAAAGTGCTTGGATTGCAAGCATGAGCCATCACACCCTGCCTAACTTAACGTTTAAACAAGGCTTGAGCCTGG
GCAAAATAGTGAAACTTCATCTTTACTAAAAATTAAAAAATTAGCTGGGCATGGTGGTGCACACACWTCTGTAGTCCCAGCTGCTCAGGAGGCTGAGGCA
GGAGGATAGCTTCAGCCCAGGAGTTCAAAGTTGCAGTGAGCTATGATTGTACCGCTGCACTCCAGTCTTGGTGACAGGGGCTTGCCTCTGCCTCAGAAAA
AAAAAATCATCAAATAGCCCTTTCTCACCTTCTCTACCCTGGGAGTGGCTACGGATAGGCAGCAACTGAACACAACACGTTTCCTGGTACCCAAGATGAA
TCATTGCTGCCTGTGATGCCTGAGCCTAGTGATTATCTTCCAGATTGTTTTGCTAGCCAGTTCTTTCTCCATAAAAACATTCAGATTTTTTTTCCTCTTT
GAGAGTGGAGTATTTTACTTGAGGGAGCTGACCACCGAACTTCATAGAAATGCCTTCCTGCCCCTTCATGGCTGTGCTGTTCTGTGTGTTTTTTGGGGCT
TGCTTTCCCATTCTGCTGGTATCCTGGGTGAGACTCTGGCCCAATGAATGGGATGCTGCACATTTTTTTTCCAGGAGAAACAAAAGGTGTTGGGACCCCT
AAGTATGCAGCATGTATGCAGAGAGTGAGGCATGGCCAGGGGGGATGTGGCTCTGATTTCCACATTGCATCTCCAGACCTTAAGCGGGTAGGCAGCATCG
GCGGATCATGGCAGGGAGAGAAGTACAGCGGAGGCGAAGTTCTCAAAGCATGGCTGACTGTGGAAGGTGGCTCTCAGCACACTCTTTGTGGCCCGCTAAC
ACCCGTCAGGATGGTAGCCACCACACGCCCAAAGGCACCCGAAGTGCTTGATTTTGACTGACTTTTACCACATTTGCCACCAGTGTGATTGGAGCATTCA
TGGAGCACAGAATATGACACCAAGTCAGGATTGCATAGTGCTCAGGCAGAGCTTTGTCCTTCGGAAATGCCGCTCACTCATGAGACAAGATGGATAGTTC
AGGTCTGGACTGGCCCAGGAGTGGGAGTGACACTGAGTAGACCTCGGCCAGGGGCTTGCCCCTAAACCAGTGGTCCCTGCACCTGGGAAAATCAGCACTC
TGATTGCCTCACCTGGTTTCCCGCCCACTCCTCCCTACCCTGGTTGAGTGGCCTAAGGGAGGGTAGAGTTCAGGGAGCTATTAGGAGGAAGGGGGTCGCT
GCTGAGTAGCCAAAAGGAAAAACAACATGAAAGTAAGAAAGTCTACCAGGACACCCTGGAGGGCTGGCGTGCAGAGTGCTGAGGGGGACACCTGTGTCCG
TGTTTGGGAGGCCCTCTTACCCTCTCCTCCTTGGTGTGCAACTGGTTAATAGTAATTCCTTGAGGGTCTGGAGAAGTTGCTCAAGTGTTAGATTCTACTT
TACTGCATGCTACAGGGGCATTGTGTCCCACAATGGCATTCACAGTGTGAAGATTGCCAGAGTTCTCTATGGACACACCCTGCGAACATCATGGATCTGG
GCTGTCATAAGACTTAAGCATCCTTCAGGGCAGGGACAATAGCTTGGTTTTCTTTGTAGGTCCAGAGTGCCCCACTGTGCCTGGCACAAAATAGGCATAT
AATCAATGTTTGTTGAGTGAACGAATGAATAAAGCTAGTCTGTCCTTGTCAAAGTAGCAAGAAAAGCCTCAGCCTCTCTTGGGAAGACAGCCTGCTTCCC
TGAGGTCAAGTTGAGGTTCAGTCTAACTGAGGAGAAGGAGGGGAGACCAGAATCCACTGCACAGCTGCTGCCCCAGTAAGTTCTCAGGGAGAAACCAGAA
CTGTCAGTTTGCTGAGTCAAAGGCAGAAGCCTGTTCTCAGCAGTGACCTTTTTTATCCTTGGCACACAAGCCCTTTTGTCCAGGTGGCTGGAACCTAGGT
CTGCTTCCACTTCTGGGTGAGAAGGTGCCACACCTTTGGGTTTGGTCATCGTGTGTGTGTGGTGTGTGTGTGTGTGTGTGTATGTTTAAAATTAAAAGTA
AAAATTTTCCCCATATACATGTACACATATATGCAAGTGTGGTATTATAGGTGCAAGGGTGCAGAGAAGCCTAGTAGGGTAGGGGCACCCAGGAAAGGTG
GCCTCTTCCTCTTGTGGGTTTTGGGGAGCATCACAGGGCCTCAGGGAAGGGTGAGTTATGTGTCATGGAAGGGCAGTGGCTCAACCTGGGGGTCTTCAGA
GATAAATGAGGAGGGACTGGGGCAATGCATCAGGAAGGAGGCTCAGGAGAGGCAGGGCCAGATCACCCGGGGGGCTCGAGCCCCTTCAGGCCTTTTGTAA
AGTTTGGGAATTCATTCATCCCACACTGGAGGGTGTCAGACTTTTTTAAGACTCTTTCATTCTTTTTGTTTGTGTCATTACTTTAAGTGACAGAAGCAGT
TCCATAGTCATTTTCRTGGTTTGGGGAGACCCTTTCTTGGATCATAGTAATTCTTACAATAATGCCTGTGCTCTAACCACCAGTTTTAGGGGATTGTGGG
CCGCGACTTGGCCTCCTTGTCTCCGCTCTGTGTTGGCTTTACAGTTGTGGATGCTGCGGCTCACCCAGCGCTGTGTGGCAGTGGGTCCTGCTGCAGGATG
TCCACAATGCAGACCACAGGGCAGGGTGTCCCTGGCACCCATGGGGTCAGGGGTGAAGCTGTTATCTGTGAAATGACAGAAATGAAACCCAGCATTGGAG
AAGAATCGTCTGCGCCCCCTCTAATCCACCTGTGAAACACTGTGCTGAAACACCATGAGGAAGAGGAAGCATTGGGGTGTAAAGAAACCCAGAAATGCTG
GTTTCTAGAAATGGTATTAATTGTCTCAGGGGCTCTCCCTACAGTGTGAAATAGCTGGCTGGGCAGCTGCAGCCGGTTCCATCTTCTCCATAGCCACGCC
CTTCCCGTGACCTCATGGGGTATCTGCACAGTGGGTGCAGTGCAAAAAGACACAGTCAAGCCTGTGAGCCAGTAGCTGGCGAGGGGGTGGTTTGGTAGTG
AGAGATGATTACAGGGACGGGGGTTGGCTCATGGTTCTGCCACACCACCCTCCATCTCTAACTGGGACTCTGACTTGGAATATAGACTTCACTATGCCAC
ATGATGTAGTGACATGGCAGAGGAGGCAAACAGAGTGGAAGGAGACAAGTCAGAGAAGAAGGAAGTGAAGGGCGGAGAGCAAGGGATGCTCATTGCCAAG
GCCGTGGCAGTCACTGCCAGCAACAGGTGTGGGCCTAGCTTTGATTCTGTCACCTGCAGGGGTGCCTGCCCCAGAGCAGGGCTCCTTGAAATCTTCCATC
CCCTTATTGGCTGTGCACTAATGTCTCTTGGAGAGACTTCTCAAAAACCTCCCTGTACTTAACTTGGTTTGACAAATTTGATAACATTTTATGTTTTAAT
AGGCAAACATTTTCATGGCTTAAAAATTGTAAAATATAGCAGGATATGTGGTAAAGCCTGTTTCCTACCCTATCCTCTAGCCATCCATGTCCCCTCCCTT
AAGACACCAATGCCATGTGCTTGTTGGGTTTTTTTCTGAAGTTATGCTGTGTATATGCCAGCAGGCCTGCATGTGCAGACATGAGACAGTTTTCCACATC
CCTGGTGCCATGCTGCGTGCTCGCTGTGTGCCTCTTCTGACGGTTTCACTGGCCCACAAGGAGTTTTGTGTTCCATTGTCCAGCTGCATGCTGGCCTGCT
GCCAGGCTGTGCTGCAGATTCTTCAACCAGTGCTCTCTGGATGCCTGTTAGCYTCTTTCCAGCCTGTGCTTCACACTAATACGTTAGTTTTGTGAAGGAA
GCTGCACCCCCCTTGCTCTGAGGTCTGGGCCTAGGCTCTGGCTGGATTGAGCATCATTCTAGCTGGAAAAAGAGGGTGGGGTTAGACGACGTGTTTAAGC
TTCTGCCCGTTTATTTCAATTATGACCTGGCCTGTAGGGTTTTCTTTGGGAAATGGGCAGTTAATGGTTAGATACTATTTGTAAGGCACATGTCTCTAAA
ATATTACCTTCTAGTGGCCAGGCGTGGTGGCTCACGCCTATGATCCCAGCACTTTGGAAGGCCAAGGTGGGCGGATCATGAGGTCAGGACATCGAGACCA
TCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCAGGCGCCTGTAGTCCTAGCTACTCAGGAGTCTGAG
ATAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTTTAGCCTGGGCAACAGATGGAGACTCTGTCTCAAAA
ATAAATAAATAAATAGATAAAAATAAAATAAAATATTACCTTCTAGTTACACACAGACCTTTTATTTTTTTAATTATTATTGTTTTTTTTTTGAGACAGG
GTGTCACTCTGTCAACCAGACTGGAGTGTAGTGGCAGGATCATGGCTCACTGCAGCCTCTGCCTTCCAGGCTCAAGTGATCTTCCCACTTTAGCCTCCTG
AGTAGCTGGGACTACAGGTGTATGCCACCATGCCTGGCTAATTTTTAATTTTTTTTTGTGGGTTTGGCTATGTTGCCTAGGCTGGTATTGAACTCCTGGG
CTCAAGCAATCCACCTGCCTCAGCTTTTCAAAGTGCTGGGATTACTGGTGTGATCCACCATGTCCAGCCAACACACAGACATTTTATTTTTTATTTATTT
TTAATTTTTAATTTTTTAAAATTTYTATTCAAGACAGAATCGTGCTCTGTTGCAATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCCATTCTC
CTGCCTCAGCCTCCCAAGTGGCTGGGATTACAGGTGTGTGCCATCACATCCGGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATGTCGGCCA
GGCTGGTCTTGAACTCCTGACCTCAGATGATCTGCCCGCCTCGGCCTCCGAAAGTGCTGGGATTACAGACGTGAGCCACCGCGCCCAGCCCACAGACATT
TTAAACTAACCTGTAGCATCCTGAGTGAGGCTTGTCAAAGCTGCTTTTGACCCCAGTTTCAGGTACATTGGCTCTGTTGGGCTTTCCTCTGCCTGGCCTA
TCAAGCGGCCAACTCAAGCTGCAGGTGCAAGGGCAGATGGTTCTGCAGGGACCTTAATGACAGCCAGGCCCAGGAACACACAGTGCTTGTGTGGAAGTCT
ACATTTCAGCTGTGATGGTGTCTCGCTGAGGCTGGTTCTGGCCATGCCCTCCCAGCATTTCAGCTGTTCCAACCAAGGTGCTCTACATCTCAGAGGGAAG
GCAACGGCCTGGGCAGCACGTTGCACGTACATTTTGGAGTCATGTTGGTTGGTGGTCTTCAGTTTCTGAATCTGTGATATGGCATGGTCATTCATCACAG
GCGAGGTGATGCAAAGTTACCAACTGGGAGCACACCTGCCCCTTCTCATTCACTCACGCAGCAGGTAGTTTTCAGGCACAAAGGAATTGACTTGTGGAGC
TGGCCCTGGGGTCTGTCTGTAGGAGAGCAGGAAGTAGTAGCCACCTGCGGAGGGCTCACAGGCATGTGCCTGCGAGACTGCTTACAAGCCCCTGTGCGGG
ATTTAGGGCAGACCAGAGCCATGAGCGTCCATGGTCAAGTGAAGGTCTGGTAGGTGTGAGCTGTTAGCCCTAGGGTCTGCTGCATGCGGTGCCAGGGGCT
GAGGAATGCTGAGGCAGCTTTTCCTCCAGTCTCTGCTCGCTCCGTGCACAGCCCTTGTCTCCTGCCTGATAGTGGTCAGTAGTCAGTTGGCTTAGGGTAC
ACGGTCTCCACCCAGTGAACCTGGCGCTGGCAGAAGCTTGTAGAAGAATGGGTGCAAAAAAGATATCTCAGAGGGCCTGCAGATGGCTGTTTTTAGGAAG
TGAATAGGCTTCTTCTTTTTCTTCATTTTTTCTTTAAGATACTCTTGAGGTTTTGAGGCTCCACCCTGAGCTCTTTGTGGCTGAGGGCTGCTGTGGCTTG
ATGAAGGGGACAGTCTTCAAATCTTGCACAGGCTGGGGAAGGTTGGGACAGCACAGCCCTGAGTCTCGAACAAAATGGGGCAGAGGGGAGGGCAGGAGAG
CCGTCAGATTCATGGGGCCACATCCTCGCAGCAACCCAGGGGAAGCTGAGGCCCCAGGGTCTGCATGATGGAGGCCGAGCACGACGGAGGAAGTGGAATT
ATTGCACATGGTGGGTTTCGACACTTGGGACTCGCTCCTCAAAGAGGAAAATCGAGAGTGGGGGTGCACAGAGCAAGGGCTGAAGAAACAAAAAGCAGGG
GGTTTAGGGGAGAGATAAACCTCTTTGCATGAGTCAAGCTGAAAAGCAGTTTGGAAGGTCAAGTGCTAGCCAGTGTCTTTTTTTGCCTGCCCAGCCTCTT
CTTCTGCCATGTCTGCCCTGACAGGGGCAGAGTTCTCAGTTCCCATGTCAGAACTCGGCACCAGCTTCTCTGTTGACAGTTGCAAGGCCTGTGGCTGAGA
GAAGTACTTGTGCTGTGTTTCTGCAAGGTAAGATGGCCCTGATCACAGCTCATGATGCCTGAGATCAGGAGGGTCTGCTCCATGAGATATCAGCAGAGGC
CATCCTGTGAAATATTTTAACTAATTGAACTGAATGTTGAAGACAAGGCCTGTGGCAGTGTTGTATTTATATGTGACAAGCCGAGAGTCCTTGGACAACC
TTGGAAACTCCTTTTTAGGACAGAATCAACTGAGACGATACACACGAAGGAGCTTTTGTGAGCAGAGTACAGAGCTCGTTATTGCAGTACAAGGTTGTAG
GTTTTCACACAGCTTTTGAGGATGGGTTGGTGGCCCAGGGAGGATGTCAGGAACTGTCCTTCACTAATGGGGATTCTCGAGTTCCTACCACGTGCCAGAT
AGCGTGCTGATTGCTTTGTATCCACTTCCCTTTTAATCCCTTGTATTAGCTTCCTGTGGTTGCTGTAACAAACTCGGTGGCTTAAAGCGAAAGGAACTTA
TTCTCTCACTGTTCTGGCCTCCAGAATCACTGGGCTGAATCAAGCTGTGGGCAAGGCCATGTTCCCTCCAGTAGCTTAGGGCGGAATCCATTCTGTGGCT
GCTGGCTTGCCTCGGCTGCCGGCCCCTTCCTCATCTTCACACCAGCAGGGTAACATCTTCTCTCCGTGACTCCGCTTCTCTCTGCTTCTGTCACACGGCC
CTCTCTTCTCTCCGAAATCTCCTGCCTTCATATAAGGACATTTGTGATGGCATTTGGGGCCTACCAGTGTAATCTAGGATAATCTCATCTCAAGATTCGA
AACTTAATTGAGTCTGCAAATCCTTTGCTGTATAAGGTAACATTAATAGGTTCCAAGGATTTGAACGTGAACCTCTTTTGCAGGGGGCATTATTTGACCT
GCCATACCTCACAGCAGCCTGATGAGGACCATACTGTCCCACATACAGTGGGCTTAATGAGGAAGCTGAGGCTTGGGGAGGCCTAGGGGTGGCCATGGTC
CTTTCCTCTCCCAGACTCTGGGGTAGCTGACTCTGGGGTCATTTTGTCATGTTGCTGGGCACTCACTTGGTGAACAGATAATCCCCTGTCATTTTACTAT
GTTGTTACATGGGTTTGAAAAAAGAGTTTTTCAACTCTCTGGCTGAGCCCCTGTTCCTGTGAGGGCCTGTGGTTTTTCCTCCCGGCTCCACCCTGGTTTC
GGCGCAGTACTTGAGCAGACGGTGGCTTGGGTCTCACTCTAGCGCCCTCCCCCTTCCTCTCTGGCTGTGTGCCCAGGCTGGCCCTGCCCACCTTGCTCAG
TCTCTGCTCCATCTGCCACAAGTCTCACTCCAGCCCTCCCCCCAGTAGCTTAGGAAGGGACCTTCTTGTTACGTTTTTTGTTTTGTTTTGTTTTTTGTTT
TTTTGTTTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAATGCAGTGGCGTGATCTCTGCTCACTGCAACCTCTGTCTCCTGGATTCAAGCGAT
TCTCCTGCCTCAGCCTCTTGAGTAGCTGGGACTACAGGCGTACGCCACCATGCACAGCTAATTTTTGTATTTTTAATAGAGATGGGGTTTCACCATGTTG
GCCAGGTTGGTCTTGAACTCTTGACCTCAAGCAATCTGCCCGCCTTGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCTTGTTA
TGTTTTTTAAGCTAACCCTGTAGAGCACTCACTGTGCACCAGCACCTGTTGGCTCAAGGGGGTGACAGACATTCCCTATCACAGATTACAATGAGTCACC
GGCATTTTTGGAATTTCACTAAGCGTCGTTGCTGTGCTGTGCCTCAGCATGCAGCACTTCATTTAATCCTCTGGACACCTTGAATGATAAGTGTCTGTCA
TCCCATTTTACCCGTGAGAGAATTGCGGCTCAGAGAAGTTGTCACCCAGCTGGTTGGTGGCAGAGGTTTCAGAGGTCTTTCTGTGCATAAAACCCTCACT
TATGGTTATGCCAGGTAGGCCTTGGAGGGGATAGACCCATCGCCAAACTCACAGGAGAGAGAGGAGGGCACTCACAGGTGATGATGTCTATCTGTCTTCT
TTCTGGTGGGGACCCAGAGTTTTATTTCCATCTCGTTTTCTTTATGAATGCTTGTCTCACACTTATGTATTTTTTGGGCAGTCCCTGAATAACTACACCA
GGCTTCTGAATGCCGAGTTTCTTAGAGTAGCCGGGAAAGGGCCTTTTTCTTTTCCTCTTGGATGTTCTCTTAGTCTGTTTTGTGCTGCTATAAAAGAATA
CCTGAGGCTGGGTAGTTTTTAAAGAAAAGAGGTTTACTTGGCTCACAATTCTGATGGCTGGAAGGTTCAAGACTGGACATCTGCATCTGGTGAGGCCTCA
GGCTGCTTCTACTCGTGGTGGAAGGTGAAGGGGAGCTGTCGTGTGCTGAGCTCACATGGCGAGAGAGGAAGGAAGGGAGCGGGTGGTGGTGGTGGTGTCC
CAGGCTCTTTTCACAGCCAGCTCTTGTGGGAACCAACGGAGTGAGAACTCACGCACCCTCAAAGCGGGGGGTGGTTGGGGGAGGGCATTAATGTATACAT
GAGGGATCTGCCCCCATGACCCAAATACTTCCCATTAGGCCCCACTTCTRACATTCGGGATTAAATTTCAGTGTGGAGTTTGGAGGGGACAAACATTGTC
CTCTTGTGCCTGTGCCACACTTGCCCCTCCGTCCCCCTCATCTGCTGATGATTCATCACACTGTTAACTTGGTCTCTMCATCTGTTTAAACGCTTTCTCC
TTTCCCCTATTATGTTGCTGTTAAGACTGTGAAGCTGTCAGCAATGTTAGCGACACCGTCCACATGTGGGGACAACAGGTCCAGTGAACCTAGCATCATC
AGTGTCCTTTGCCCTTGGAACTGAGTGGAAATTATCTTCTCAGCCTCCATGGATTTAACTTCTGTGTTCTTGATGTGAAGCTTCTTTTCCTTAAGTTAGA
GTTTTTGCATATACATCCCACACATACACTTGCATTTGATTTTCTTGTCTGTATATGCACACACAACACACACTTGATTTTCTTGCACCATAATAACGTT
TTTCTGATTTTAAATTAGAAAAGGACAAATGAGTTGAATAGTTATCTATTAGTTATAGATAATTATCTATTATCTAATTATTATCTAGTTCTCTATTTAA
TAGTTATCTATTAGTTATTAACTGTCTAATAGTTATTTATTTCTTGGGAACTTAAGTACCAACTTAGTGGTAATTTTACATGAAATGAAATGTTCTCTGG
GTTCCAGATAACTTATAAATGGGCTTTTAGAGTACAGCCTGTTGGTTGAACAGGCCGTAAGTTCAGCCTCATCTTTGTCGAGTTCCACAACTAAGTTTTA
CAATTATTTATGAATGATAGTGCTTAGCATACTTTCCAACTCAGTGAGACCATGAACTAATTGAATTTGTAATAACCCTGAGTAAATCTTAGTGGACTAA
TAGTAAAACTTTGAGGTTTTACAGTAAGAAAGTGAGATCCTTAGATATACCAATTTTAATGTCTCAGTAAAGAAAACAATTTTATTGATTGATTGATTGA
TTGAGACAGGGTCTTGCTCTGTTGTCTAGTCTGGAGTACAGCCATGTAATCATAGCTCATTGCAGCCTTGAACTCCTGGACTTAAGTGATCCTCCCACCT
CAGGGTTCTGAGTAGTTGGGAGTACAGAAATGCCTTACCATGCCTAAATTTTATTTTTTATTTTTTTGTAGGGATGGGGGTCTTGCTTTGTTACCCAGGG
TGGTCTTGAACCCCTGGCCTCAAATGATCCTCTCACCTTGACCTCCCAAAGCGCTAGGATTTCAGGTATGAGCCACCATGTATGGCTGAAAACAGAAAAT
TTATAAGGTGCCACTAGGGGAGGGTAATAAAGGAAGGAAGGGGAATGAAATCCAAACCAAAATAAATGCTGTTTAGTGTGTGGCTGGTGGGTCGCATTTC
TCATTCTAAGAACTGTGGCATTTCTTTTTGATGGTTCTGTTGATCCTGAAACCAGTGAGACTGCAGTTTGTGAAGGATGATGATAGAAGTCGATAACTCC
TCATGGTTCATTGCTGGACCATGAGTTTAGCTGTAACTAGATGCAAAGCTCATGGCTGAGATTGAGAGCCAGAGAGACCCAAAGTCTCTACATCACGCCC
ACACTGGTACTTCCAGCCTAGGAGGCGTGGTGAATGCCTCCCACAGTGGTTGCTGAGATGGCTTTGAGCAGAGCAGAGATGAGTCAACCATGGCAGGATA
AAGTGAACAGCTGGGAAAAGGGGTTTTGGGGGCTGGGGGTAAGGGGAACTGGAATAGTGTTGCAATTTTCCCCATCCTGGCTGTACCTTACCATCACCTA
GGGGCTTTTGAAAAACATGGCAGCCTGCCCTCCACCCATGCTGTGCTAATTAGTGTAATCCTGGGTGGGGCCAGCATGACATTTGCCACCTTTCCCATGA
GGTGATTTGGAGGTACAGCTGGGGTGGAGAGCAGTGGGCCTTAGAGGTTTAGAACCCAGCCTCCTGGCTGGGCACGGTGGCTCACGCCTGTAATCCCGGC
ACTTTGGGAGGCCGAGGTGGGTAGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAGATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAG
TCGGGTGTGGTGGCTGGCATGCGCCTGTAATCCCAGCTTCTCGGGAGGCTGAGGCAAGGAATGGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAG
ATCGCGCCATTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAGAACTTGGGCCGGGTGCGGTGGCTCATGCCTGTAATGT
CAGCACTTTGAGAGGCCAAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGGCTAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAATACAAA
AAATTAGCCGGGCGTTGGGGCGCATCCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCCCTTGAACCTGGGAGGTGGAGGTTGTGGTGAGC
TGAGATCACGCCATTGCACTCCAGCCTGGGCAGCAAGAAAGAAATTCCGTCTCAAACAACAACAACAACAACAAAAAGAACTTGGCCTCCTGATGAAATA
GGCCCACCTGTTTCAAATCCCCACATATTGGTGTTGAGCCAGTCTCTTAGATGCCGAGCCTCAGTCCCCTCCTTCTCTCAGGCTGTGAAGGTGAACTGTG
ATGTGCAGAGCTGCAGCATGTTCTGCTGTGCACCAAGGAGGGTTCCACAGTCATAGAGGCATAGTCATGACTGATGTGAAAGGGCCAACGCACGTGACCT
CCTGCCCCTGTCCGTCCACATCTCACTTGGTAAAACCACAGCCCTGGTTCTGGCCACTTCTCAGCACAGTGGCCTGTGGCTGGAGAAGAACACATGACAT
GTTGATGAGTCTGTAAATTCATGACCACAGAGCTCCAGTGAGCCATTGGGAGTGCTTGGCACTCAGAGTGTTTCCCTGTGGTCCTAGACTGGGGAGCGGC
CCCTGGATTTTAAAGAGCTCTGGACCCAGTGGTGCAGGTGGGGAGACCTGGCCCCTGGAGGCTGACCCAGTGCACGTGCAGCCCCACCTGGGGTTCCCCT
GATTGGACTCCTGCCTCAGGAGGGGCATGAGACTCACTTGGCGCTGCTTCTGAGCTCTAAGTCCTTGCTCCTTAGTGGTCTGTCCCTTCCCTCCGCAGGG
AGGCATGGCCCGCTGGGCTTCGGCCCCTGCAAGGAGGCCTGGTGGGGCCTTTCGCCTTCTCAGCCAGGCACTGAAGGAGCAGGAAGGGGAAGCATGATAC
CAGGACCACAGGAAGAAGTGGTGCTGAGTTGGGTGGTCACTTCCTTGGTGTGACCTCTGGTTAGACGTGGTTCAGGGCCATGTTGCAGGAGGAGCTGGAA
GACATTTCTTTTTTTCTTTTTTTTTTTGTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGACCTCGGCTCACTGCAAGCT
CCGCCTCCCGGGTTTAAGCTGTTCTCCTGCCTCAGCCTCCCGAGCAGCTGGGACTACAGGCACGCACCACCACGCCCGGCTAATTTTTGTATTTTTAGTA
GAGACGGGGTTTCACCATGTTAGCCAGGCTGATCTCGAACTCCTGACCTGGTGATCCACCCACCTTGGCCTCCCAAAGTACTGGGATTACATGCGTGAGC
CACCGCACCCAGCCACTGGAAGACATTTCTAAAGAAACCATCACCATCCTTCTCTGAATAGGTTTCAGTGTGGTTTTATGTTTGTTGCAACCTTGTTGAC
CTGTAGTTTCAGAAACCAGAATGGTTTGGCCCAAGCTTTTGATTTGAGATCACACTAAAATAGTTTTAGCTGAGGGTGTTGGAGGTGCCTCCTGTGTATA
TGAGTGTGCGTGTATGTGGTGTGCCTGTGCGTGCATGCATGTGTGTGTCTGTGGCTTCACTGTAGATGGCCGTTGTGAATGATGTCCTGACCTGAGTCCT
GTGAGAAACACTGTTGAGTTACTTCACAGTCATTCCACACAGGAGAAAAGGATGAATGACCCTGTTGGGTTAAAAAATTGAGCTTTGAAAAGCTTTTTTC
CCTTTGTACTTGGCAATCTCGCAAAGCTATCAGGAGAGAATGTGGAATTAAAATATATAGCAGGTGGGAGTATGGTTTTTTAACTTACACTTAAGGTTTC
TGTGGTATCTCATCATATGTGGAATATTTCTGTTAGACCATCTGAGAATTTTAAGCTCTGGTGGATGGAAGTAAGGTTGCTTTTGAACAGAAGTCTGCCA
TGCYGCTGCTTCTCACAGGCTGCAGCCTCAGGTTGAGCGCTCAGGAACCAAGGTCAACGCTCAGTGTGTGTTTGCCAAGTAGACTGTGTAGATTTGAAGT
GCTTAGACTGGCTGTCTGTAAGCTTTTAAAATTCTTCATTTAATAATCTATAAATGTCGAAGCCTCCCAAGACGTTGCTGGCCCTGTTAGTAAGTTTGCC
GCAGCCCCCTAGCCGCCAGGAGTGCCCGAGAACCCCTGTTGGGGCTGAAGTCACAGACAGCACCGTGGAGTTCGGGACTGTAGCTCTGAAATTCTGCCAC
AGGCCAAGCAAACTGCCAGGGGTGTGTGGTCTGGGGTGAGGACTGATTGAAGAAGTAACAATCTTGGATGACTTTGAAAAGCTCTGGGAGTTGCCATTGA
CTGTGATGTTGATGCTGGGAGTGTGCTGGAGGGCCACCTGTCCTTGTCCCTCTTTTTGTGCCCCACAAGGAGGGTGTAGGAATCAAGAGTTTCAGCTGGG
CATTGGTCTGCTCCAACAAGGCCTCTTTTTGATCTCCCATGTGACTCCATTTTCTCGTTCTCTCCTGTGGCTGGGCCTGTTTCTGCCTGCCGTGGAGCAG
AAGTATGGTYCACATGGGKGGAGACCTACAGGGGCCAAGGAGGGCTGGGCCTTGAAAGTGATGAGCTTGAGTCCCTGTTGGGGTCCGGGGTTGGGGGAAG
GGCACAAGGTACACAGCTGGGCTTGACCCAGCCCTGCTCCTGGGAGTTCCCTCAGAGAGTGCCCAGAGCAGAAGAGTCTGTGCTGTGAGCACACCCACGG
CAGCGTGCACAGACTCGAGTCCCCCAGCAGATTCTCTTGGCTGCCCTGGATGGAGATASGGTGAAACTCTGCTGGGGAGAGCACAGTCCAGTGGAGAAGC
CAATCTGATGTGGACAGATGAGCTCTGTGGCAAGTGTCCAAGGAACCAGGCTGGTGGTGCAGATGTCTGTCCCCTTCTGCTGAAGTGCTCTCTCTGTCAT
GCAGCTGTTCTTCATGTGTCCTCTGTCCTCTGGAAGATGACTTCCTGAGGGAGAGGCCACAGCACATATGTCTGTGTCCCCTCCCCTAGCCCCAGCCCAG
GGCTYACTGAGGGTCTGTGGTGGGTCTTCAAATCTGTGCATCCTCAGTAGGAAGCATCTGCAGAAAGGAGGAGTGAGGTTTGAGAACCTGATATTCTCCT
CTTACAGAAGAGGGCATTGGGGCCCAGAAAGGGCAGTGACTTGCCCAGAGTCTTGCAGCTTAGCTGGGGCATGGCTGGCTGTGGAGTCCAGCCTCCAGGC
CTCCCTCTCCATGAGGTGCTCTTTCCTGCTGCCCTGAGCTGCACTTCTGCTTGCCACAGTGTGGGAGTGCCCTAGGCAGGAGAAAGGAGTGTATTGTAGG
TGCAGTGTAGAGTGAGGAGGGCAGTGCGGGTGCAGTGTAGAGTGAGGAGGGCAGTGTGGGTGCAGTGAAGAGTGTGGAGGGCAGTGTGGGTGCAGTGAAG
AGTGAGGAGGGCAGTGTGGGTGCAGTGGAGAGTGAGGAGGGCAGTGCGGGTGCAGTGTAGAGTGAGGAGGGCAGTGTGGGTGCAGTGAAGAGTGTGGAGG
GCAGTGTGGGTGCAGTGGAGAGTGAGGAGGGCAGTGTGGGTGGAGTGGAGAGAGTGGAGGGTAGTGTGGGTGCAGTGGAGAGTGTGGAGGGCAGTGTGGG
TGCAGTGTAGAGTGTGGCGGGTAGTGTGGGTGGAGTGGAGAGTGTGGCGGGTAGTGCGGGTGGAGTGGAGAGTGAGGAGGGCAGTGTGGGTGGAGTGGAG
AGTGAGGAGGGCAGTGTGAGGACAGTGGAGAGTGAGAAGGGCAGTGTGAGGACAGTGGAGAGTGTTGAGGGCAGTGTGAGGACAGTGGAGAGTGAGGAGG
ACAGTGTGGGGACAGTGGAGAGTGTTGAGGGCAGTGTGGGTGCAGTTGAGAGTGTGGAGGGCAGTGTAGGTGCAGTGTAGAGGGGCTGACACCGTGTGGT
GGGCCACCTGCTTCCCCTCCTTACTCTGGGCACTGGCCATGATGGGTTACAATGTGGTCAGGGCCTCTCAGGAGGTGCCACTCAGTGAGTGACCTCACCC
GGGCCAGATGGTGACCATAAGCCGGTTGCTACCTCTGGAGTCTTGGTGGGTGGGCGGATGGCACCCAGGGTCACACAGCATTAAAAAGTGGATCCAGGCC
TTTAGTATCTTGATTTTCCACTTCACCAGGTGATTGCATGAAAACATGTTGGAAAGGTAATACATGTGATTGGGGAAGATAAGTTTATTTACTGTGGGAC
ATTTTCATAACTTCTGTTTGAGGGCATTACATATCTCACATAATTACATGCTATGAAGGTATTACCTTTGGTCTCATTCAAAAATTACAAAGTGATATAT
CGAGAAGAATCACCTCTCCCACTTTGCCTTCCAGTTCCTCTCCCCAGAGGCAAGCAGTTTGCCCAGCATTTTTGTGAGCCCTTCGGGGGCAGTCTGCCAT
ATACAGACAYGGACGTTTTCATACCCTCTTTCTTCTGGAGTGTGCATTCGTTTGAGCAGCTTGTTTGGAAAGCTGTATATGCAGGTTGTGAAGTCACTTT
TGGTTTTGATTTCAGCCTCCCATTCTTTCCCTTTCTGCATTTGTGGTATCTAATATCACYTTGACAGCCTCAAGAGCGGCCTGTGTGTGTGGGTTTTGGT
GTCCATGGTGCAGTGGGCGAGGGCCACCCGCAGCCTTCCCAGTGCTTGGTGAGGCCCAAGAGTGGATTTTGTTTTTTGAAGCAGGATTCTTACACAAAAG
GACATCTCTGAAGTAGTTGGGGTTGGGAGCTTGCTTTTTGCTCTATTGTGTTGTCTTCTCTATAATGTGGAATATCTTAAAGATCCAGTTCCACCTGTGC
TACGAAGAGCCCTGGGTGGGATGAGCCCACGCTGGCACCACATGGCCGCTCACCCCACAGGCATTATGGGGAGAGCCAGAGCAGGTGAATGGCCTGCCCG
GGCCCTCCTGCTTGGTGAGTGACAGACAAGACCCAAACCAGGCTTCTGGCCCTAGCCCTGGGCCTTTGTTGTACCTTGATGCCCTGGGAGGCAGCAGACC
CATCTCACCTGGGTGCCATCACCCTGACATTTGGCAGCCTCTCTTTGCAGATTGCCATCAGCATCAGCCTAAGTGAGGTGCAGGAATTTCATAGTTACAG
GTTGGTGTTTTTTAAAAAAATTCTATTTCATGGATAAAAACATCTTCAAATAAGTTTTCTTATGCACCAAACCCATCTGGGGCCCTGGGGGATACAAAAG
TTATTTTTAATTAATCACTTAATAAAAGCTTATTTGGGGCTCCTGCAGTGGCTCAGCTTTGTTAAAGATGAAGAGTTAAAGATGACTTAGGCCCTTCTCC
TAAGGAGCTACAGGAGACAAGGGTGTACACTGTATCAGAAKTTTTTTTTCTTTGTGGCAACAGAAAGGGCCATGTCACAATAAGCAGAGGGTATTTATTT
CTGTCTGGAAGTGGGTGAAACTTTACAGGGAAATTGCTGTTTAAATTGGTCATGTAGCATGAGTACAAATTGTCAAGCAGACAAGAACAGGAGGGGCACT
CTTAAGTGGAGCGGACAGCTGAGCAAAGGCATAGAGAGGGCACTTGTGAGATGCTGTCGGGAGCAGCTTGTGAGTGTGGTACTTAGGAAGCTTGGGAGAC
AGAGGAGGGCCAGGAGATCCATCCTGGGTGCAACTTCATGCTGCATTCTGTGTGTGCCGAGAGCCACAGAGGGGATTTAAGCCASGGAGTTATTAGCCCA
TTAGATTTACAAATTAAGAGAGACCTCTAAAACCCCATGGGCGGTGTTTCAAGTTCTGAGGTCATCTTTCTTTCTCAGCTATTTAAATTTGTCTCTTGAC
CAACCAGGATGACAGATGAGGTAGGAGAGGGAGCATAAGCCTTGGAGGAAAGCAAAACTATGGGTAACACAGAAGTAGTCAGAATATAGTGCAAAATACA
TTTAATCTGGCTGAAATTACTTGTAAAATTTAGCAGGACATTGAACATTTACAGATACTTTGTTTTTTTGCTTTAGGCGTCAGTATTACATTGCATGACC
AACAATGGTTGTAGTCTCCTGCTGTTTGCTGGGGCATGCTGGGCTGTGTGGGCAGGGCTGGGGTTCAGCCACCCTCTCCCTTCTACCTGCTTTTCTCACC
TGGGGTGGGGGCTTTGGGAGGAGGGGAGCAGTACTACCCATAGTGGGCAGGGATGGGCCTCTGGGGCGGGGGGAGCCTGTGTGTCCAYCTTGCCTGCCAC
TAATTTTAAATAACAGTGTGGAATGCTGTTATAATGGTTTTTATTTTAAATTTTTTTCCACAAATGCACTATCTTCTCATTTTTTTATCAAGGCTAATCT
ACAAATGTTTAATCCACCCACAGGTAATCCAGATTTGATGCAGAATTTTACTGAAATCAACTCCAAATAGCTTTGTGGTAACAAGTCTTTGCAATGTGAT
TTTGCCTATGTTTTTCTCCTTAATGAGTCAGACTTGCCACATGAAATTTTTACCATCCCAAAACTTTTTGAAGAATTTAATTAGAATGGGTACATAGGAT
AATGAAGATTCACATTGTAGAAACTTTTAAAATTTGAGTTTCGATTGTTCCTGGAATTTTAATTTCTCTTATTTGGTGCTAGGTGATTCCCAGTTTTAGG
GCCAGGTGTTGCCAGGACACACAAGCCAGTGATAGTTTGACTAAGCTTTAGGGTTGTATATTAAAGTAATGCCTGGCTGGATGCCCAGTCAAACTAAGAC
ATGCTAAGCTCCACATTTGAGCAGTAATGGCCCTGTTTGCTGTCCCTCGGGAGGGTTCACACCCAGGAGCTCAGAGCAGGGACTTTCTCCTCCAGGGTGG
GCCCCTCGCTCTGGGGAAGAGCTCTCCTTCACCAAGCCCCCTTTAGGTATCTGGTCTCCAGCCACAGTCAGGGAGGCTCTCAGCTGGGGTGCTGGGACCC
AGCCCTGGGGTGTGTGTGGGGAGGAGCCCTGCTTGGGGGMGGGGTGGCGCTCCTGGAGACCTCTCCTGGCTCAGAGGGGAGTGATGGGCATTCTGAAGCG
TGTCCAGCAGGGCCCACCTCCCTCTGCGCTCATGGTTTCCACAGTGGTTTGCCTCATTCACCATCACCTGAGAATGGCCAAGATAGCCTTGCCTCCCTTC
CTGTCTTCCAGAAATTCTCATGGGGCCCTCCAGCCCGTTCTCTTCCTGGCCTGTGACGATAGCGGGTTAAGTTTGTACTTTTAACAGTAATTAACCTTCT
TCAAGGCCTTGTTTGCYGTTATAAGTGTTCCCTGTTCTCTGGGTACTCACAGCCCCTTCCTTGCTGTCCTTGATCCAGCGGCATGGCCTGAGTGCCTCCA
TCCCCCTGTTTCTGGATGGCTAGAAGAGCCTCTGGGGTATCTGATTGTCAGATGGGCTTAGCAGGAGTGGTAGTAGTAATAGTGGCAAATACTTAAGTAG
CATTTTTGTGCACTGGGCACATTTAGAGGGATTAAGTCATCTGATTCTTGCAGTAACCCCATGAAGTAGATGATTCTGTAACACCCATTTCAGGAGCAGG
AGACTGAGGAGCAGAAGGTGAAATGAGTTCTCCCTGGGGACGTGTAGCGTGGCGGGTGAGCGGCAGTTGGGGTTGGAGCCCGGATGGTCTGGCTCTGGGG
CCATGCACAGCATGCTGTGTGCAGCTCCCCCGCCGTCCCGTCTCCCTGAGCTGCCTGCTTCAGGCACGCTTCTTGGCTCTTTGTCCTGAATGGTGTGGTG
GTACAGCTTGGTCTTCCTGCCTGGTAGGGAAACCATAGCCATGGGAGTCCTAGTACTGAGCAAGTGACTGTTCCTGACCCGTTTCCAGATTCTAGGGGCA
GCTTTACAGCCTTTCTCTGAGATACTTGGACACCATGTTACCAGACCACAGCCTAACAACAGAGGATGAACCAGAGCCTCAATGTCGGCGAGTCTTGGGC
CATTTTGGCTGTTGATTGCCTCTCTCCTGCCCTGTATCTCCAGGAACTGTCAACGTTGGTCTTGTAGAAACTGCTCTCTCTTTGTGAGTGAACAAGACCA
TGGCTGTCTCAGTCCCTCCGTTAGTGACTATCCTTGTTCAACCCAGAGTCCAGGAGTCTGATGAACAGAGGCTTTCTCCCTCTACCTCACCCTGCCTTTT
ACCTCTCCCTGCCCTGTGTGGGTCTTGCCCAGGAGACAGCGGTTGGATGAGGGAGGAGAGGCTAAGGGCCCCTCTAATGTGGACAGCCTGGGCCCTGCTG
TGGGAAGAGAGCCACATGGCATGGATTGGAAATGGAGAGGGCAGAATTTGAGTCAGGAGGACCACCAGCAGCCGTGCTAGCTCTTGAGGCCTAGGTCTTC
TGGCCTTTAAAATGGGACTGGAGTGGGAGGTGGATTCAGTGCGAGTGCAGTCCCTGCGGCCTACAACCTACTGTTATTGTGCGGTGCTGGTCTCCAAACT
CCAGGTCTATTTTGTAGCCTATTGAGGAACTGCCTCTGATCTCCCTAAAATAGGATGTGCTATTTTGGACACTGCCGTAGGTGGGAGGGATGTGTGTTTA
AAGCTAAAATAGAGCGCACTTTAATTTGCGGGTGTTTCCTTTTTCTTTCTCAGCCACACTGTGTTTAAGTCACAGTGTCCTCCCTCCCACCCAGGAGCAC
AGCCTCAGGCAGGCCCTGCTCTTGGTGGAGGCCTCGTCATGACTGATGAGGGAGGTGGCCACCAGAGAGGAGGATTCCTGTCGCTTGGGACCAGGACTGC
TCCAAGTCCAGGGAGCTTTTACAAGGCTCTGTTCCTGGATGGCTTCTCTGCCGATCTGAGGTCCAGGGTGTGAGAAGCTGAGCCAGCCTTGCAGTCCAGC
TGAGTGCCTCTCCACCAGACCTGCGCTGCTGTTAGAGTCAAGGCGAGGCAGGGCTGTGGGGGTAGGGGTGGCAGAGCACACCCCTGATCCCTAGTTAGTG
GAGTTAACTCTGGGCACTCCCTCCCCCGACTTTCTTTGCAACAAATCATGGTGATCTCTTTTGACCTTTTTGATGGTTACCAATGTGGCTGTGAAGAGGG
TCCCTGCCCCAGCTGGGGAGAATAGGGTGAATGGGAGTAGGAAGGTTGAGGGGGTGAGGGTAGAAGGGTGTGATGGATTTCCGAGAAGGTTGCAGGTATG
TGTCTGTCCTATTCTGTCCTGACTTACTCTGCATTCAGTTCTAGCTGAGCATGAATGCAGCCCGCACCCATGACTTTCTGTGGTGGTGCTATTTTTCTGT
TTTTTGAAAAGAAAGAGGTCCGGTTTTTTTGTAGATTGTTAGGACTTAACTGGAAATAATTGTGTAAGTCTTCAGGCATCTTTCGAAGATGGCAGGCTAG
AGATAGCTACTCCAACTTGAATGCCTAGCAGTCACCTAGAAGACTTGTTCAATGCAGATACTGGGCCCTACCCACAGGGAGTCAGCCTTCATAGGTCGGG
CACTTCCTCCCGGCTCCTGGGTGGTACTGCTACTGCCAGTTCACAGACCACACTTCCAGTTGCCCTAGAGTGCTTGTTCCTGTTCCACTCCCCACTCAAG
ATATTATTCGCTGATTTTTATCACCTTCCCCAAACTAGGCTACTTATTTTGGTGCTAATTGGTGGCACTTCTAATTTTAGAAGTGTGGGGAGGTGCTCCT
GTCCCCATTTGGCTGCAGTGGTGCTGATGGGGGGTATCTGCTGTGCCTTGGGTGGGAACTTCTCCTGTGTGTGCTTCGTGAGATATCCCGAGGCTACCCT
ACTTTGATGAGTTGAGCAAGGTGTCTTAGAAGCCAGGCGCTGACTGCTCTATCATAATTAGAAGACAGTTAGCAATAAATACATAGTCAGTGGCATCTCT
GCATGGGGATGGCTGGTTTGAAGCAGCTTGCTCCAGCCATGGGAAACAGAGTTTTGACCCTACTATTTATGAACTGACAGTGTGGGCTGCATCAGGATCT
TTCCAGGTATGCCAGGAGGCACAGAACCCACGTATAACCTGCAGCCCACAGTTTCTGTGACACAGAAAGTGTGGTCAGGTRCTGGGAAATCATTGTCTCA
TAGATAAAACATCTGACAYGCACCAGCTTTTCTGWAACAACTAATGGTTGCAAATGGAATTCGGGGTACACAGGATAGCAACAGATTTCTTCCTGTCCTT
GAAGAAAACTGTCTCCTTTGTCCCTGTTTGACCAACTTCGATTGAGCTGGAGCCCTTTGTGCCTGGCCCTGGGCTGTCCCTTCTGTCAGGGTCTCTGTCT
GGTACAGGGGTCAGCTCTCCCTTGGGCTGTGCACTTACCTAAAACTGCCTCCCAGACACCTAGTTTGTGACTTCCTAGAAAGCCTGAGACAGGAAGCTAT
TTTCTTAAGGCTTTAGAAACTGCCCCCAAACAGCACAGAATGGCAGGGTCCTGCCCCCAGGGAGTGCTGCTTGAGGTCTGTTTCCTGCAGTCAGGGCTTC
CAGCCAGCTTGCTGTCCTTGCCAGCACCTCCTCTGCTGCCCGCTAGACACGGAGCCTCTGGCTGACACCCTCCCTGCCAGCCCCAGAGGCCTGCCTTCTC
AGCCTCTGCTGAAACTAAAGCTTTTTTTCTGTTTCTGTAGGGCATTGGGTGGAGCCTTGCCAGGGGCTCCTGGTTCTGACTGTCTTGGGTGGGTGGGGAA
CTCAGCCCTGAGAGGTTGGCTCACTGAGCATTTACCATATGCTGGGCATTGGGCCAGATGTCTGTCTAGGATCAGTTTATTAATCCCCAGCTACCTGATG
AGGTAATTATTATTCATTTCCATTTTGCAGAGGAGGGAAGGGATGCTCAGAGAGAGGTGGAGTGACTTACCAGATTTTTATCTGGTGCCCTATCATATGC
TCTTACGACACAGAGCAGCTTTTTGCTGTAGAAAGGACTGTCGTCATTTTACCTGTGTTAGGAACATCATCACTGACTGTGGTTCCCCTGCACTGACATT
CTGGGCATTAAGGGCTGAGTCTGGGCTCTTTCTCCTATGGGTGTCTGTCCTCTCACTTGGCCCCAGGCCTTGGTGACCCTCTGTGCACTGAAGGAGTAAA
TGACTGAGGTGGCCAGCTAGCTCCCGTGCATTTGCACACATGGTCCCTCACTCCTGGCCCCCATCCCTTGCCAGGCAGAATGTGCCCGTCTCCAGTCCCT
TGCATTGCTGGCAGCCTCAGACCGGAGAGCACTGAATCTTCCACTAGCCTGTCTTCTTGCCAGCTGCAGCCCCAGGGCGCGTGTGTCCGTCTCCGCAGCC
AAACTCCCCCTGTGCTGGCCTGTGGAGGGTGAGTGGGGGGCAGGGTGCCGCACACTCTGGACCCTTCCAGCCCCAGGAAGGAGTTGTGGTGCTGCACGTG
CTCCATTCTCACATGCTTCTCAGGCTGCAGGCTGTGCATTACCAGTGTGCAGTTTAGGAAACTGAGGCCCAAAGAGAGCAAAGCAGCACCTGGGGACTGA
CCTTGAGTTACACAGGTGTGCTTCAAGTTCTTCTGCTAGTTACCTTTCAATGCCAACACTGGGGAGGGGGTGTCCTAACAAAACATAATTTAATCAGAGC
ACTGTGAACTTTTCCTGCATCTGACACGTCCCTCTCAAGGTGGAGGGTGTCACCACCTGCTGCCCATTGTAATCCCTCACCCCACAGAGAGGCCAGGAAG
TGAACAGGAGACTTGGAGGAATGTGGACCTGGTGTGATCCTGTGTGGAGCAAGGATGTCTTCCTCTGAAAATTCCCTGGGGGGAAAGAAATGGCATACAT
TTCCTATACCAGTGGGGGCTTGGTCCCTTGGCACGCATAAATCGACCACTCTTGGCAGCCAGAACCCTCGCTCCTCCAGTTTTATTCTGGTTGCCTGTGG
CTCTTGGATAATCCTGTGGTCTCTTTGGGGTGCTGGTTTCTTTAGGGAGCTGCATTTGGCTTAAGGCTGGCATATGTTTTAGCTATCTGAAGTGGTTTTA
GATATAAAGATTCAGTGACAGAATTCTCTATATAAAATGATTATATCACATTGAGCCTCAGTAACAGATTAATGGGGAAGGAAGGATTTATTATGTTTCC
AAGTGATCCAATGTGAGCAAGCAGGCTTTGTACCAGGGGAGAATTCTAAGTGCTTGTCCTCCCTGTGGAATTGTGTTTTGCAGAATCCCAGGAAGACAGG
GAGGCTGTGACAGCCTGTAAATGTGATGCTCAGCTGGCCTTGAGTGTCAGCTAGCTTGCTGGTCTTCAGGGTGCTCCCTGTCCACGCACCACCTCTGGCT
GGGCTTTCCGTTCTCTAGTGAAAGGTTTTCTCAGCAGCACCTTTGCCTCTCCTTCTCCCTTCATTACGAGTTTGCCATGTTGGAGTTGGATTGTTTGATG
TCTTGTCCTGGCTTAACAACTCAACACTGTGTACTTTAAAAGCTCCAAGTTTAGGCTCACACCTGTAATCCCAGTTTTTTGGGAAGCTGCAGTGGGAGGA
TCACTTGAGGCAAGGAGTTTGAGACCAGTTTAGTTGACAGAGTAAGATCCTGTCTTTAAAATAAATATAATTTTTTAAACTTGAAATTTAAGCAGAAGCC
ACGTTAAAGTGGCACAGCAGGTGATGTGAGGGACCCTGTTGGGCCACCTTGCTGTAAAATGTTTTCTGTATCCTGCTTTTTTCCTCTTTGCCTTTACACC
TGTGGTTCCCACATTATTGGGCTGAGACTCTGGAGATCTGGGTAAAATCCCATCCTAGAGGGACAGCAGGTTAAATCACTTTTCCTATCTTGGCCAGCTG
TGGTTTAGCTTATTGGCACCAGTCAGAGCAGGGCCTCAAGGGATGTTAGGATTGGTTGCACCTGGTTCAGAATATGGGGCCCTGCAAGGAGGGCAGTCTG
AAGAAGAGTGGGATTAAAAACGAAAGCAGCCAACAGAAAGGTGGGCACCTAGAGGCAGGTGCAACTGGCTGTCCTGGAAAGCAGAGAGGGGCAGCTGTGG
GCCTCTGTGCAATGGCCCCTCCACTTGTCACACCTGCCAGAATGGAGGTGTCTCCCCAGTGGGCCTGTCACAGGGAGGCCAGCGACCAGCCAGTCAGTGC
TGACAGTAGGCAAGTGTGGTTGACATCCAGGGATGAGCCTCTGAGCAACCCTGGGATGTGATGCAAAAAGATATATGTGTCCTCTTGCATTTAAGAGAAA
TGCAAAGCTTTTGATCTAAGCTTACACTTGAAAAAATTATACTTACATTGCTTTTTTGAAAATAAGTGAAAGCATAATAGAGGTTGAACATCCCTGATCT
GAAAATCCAAAATTTGAAGTACTTCCAAACCTGACACTTTTTTAGCACTGACATGACCTTCAGAGGAAATGCTTATTGGAGCATTTTGGATTTCAGATTT
TTGGATTAGGTGTGCTGAATCTGTACGTATATAATGCAAATATTTCAAAATCTWAAAAAAATTCCAAACCCTAACCACTTCTGGTGTCAAGTATTTCAGA
TAAGGGATACTCAACCTGTGCTAATAATGAYTTTGGCATGTACTCTATAATAATAAAATGTTTATTAGGCAGTCCTTTATGTGAAAAATGATAGGAATAA
CAATACAGTGAATCGCAACTCAGCTTTAGACATTTTCATGACCAATACACTTGAAACTACATATGCCTTCCCACCTTCTCTCTAGGTTACCATTACCCCA
AATTTGCTTTTCATTTTTTCCATTCATCGAATTCTTTGTGTTTTGTGACCCAGTCAGTCCTACTAGTTTTCGTGCTAGGAGACAGGAAGCAAGCATTGCT
TAGTTTCACTCTTGTGATGCTTGTGGTCAGAAACAGGTATTTCTTGAAACTGGGCTTGTGGCTGCAGGGCTGCCCCAGGCGGGGCAGAGATGGTCAAGTG
CAAGGTGGGGCTGCTGTGGGGCCAAGTCCTGATGGATCATGTTCCCCCCCGGTCTTGTCTTTCTAATGTCTTGCTGCATGTGGGATCTGTCGCCACTGCC
AGTGGGAAGGGCAGGCTAGTCTGTGTCCATCTTTGTTGCAGAGTTGGCTTCCTTCAGGCAGGTTCATCCTACACTGAATGTCCCTGTGGTCCATGCCTCA
AAACACCTCATCATTAGTATTACTTCTGAGCCCTGCCTAAACATAGCAGCGTGGACCAGCTCTCAGTCCTTTCTCTTCCTGKCCCTACCCCACCTTCCTG
TTGGCTACTCTGCTCCCATGGATGGTTGAGAGGGAGACCCTCTTCTGTGTGGCTAGCCAAGGTTGCACATTGGCTGCACCCAACAGATGGACTGCATCTG
TAGTCAGTCTAGTGAAGTCCGGTCTTCCTCTCCACCCTCTTGCCTGAGCCTCCACCTTTGCATAAAGAAGCTCCTGCACCCCCATCCCTCCTTGCAGATG
CCCCTGCCCACACCCCATCTCTTCACATAACTGAAAGATGGCTGGTTCTCCCAGAAGAGCCAGAGGCCTCTAAATGGAGTGAGGTCCTTTCTCTGCATGT
CCTGTCTCTCTCCAGAGGTGGGCTTGGAATCTCTTTCGCTTTGACCGGTGACTACCATCCCCTCCACTCCTGTCCCTCCCCTGCATCACTCCATGTTACC
CCTGGCCCCAGAGGTCTCTGAGGTCCCATCACCTTCTGATGACTCTGTCTGCAGGGATGAGTCTGTTGTTACTGAGCCGCTAGCCTTCAGCTTCCTCTCC
CRTGGTCATTCCCGAGGCTGCCCACTCCCCCTAGTTGCCCACAAGCCTTATGAACTCCCATCTCCGTTCCTCCTGTGTGGCCTGTTCTGGTTCCCTCTCC
TCCCTGTCAGGCTCACTGTATSTTTGTTTCCCATGATCCTGCAGTCAGGGAAGACCAAGCCCCAGTTACTTTCCTGATGAGCTCAAAGTCCAGAATGCAG
TCACGTGACTGGGGTGGGAAGCCATGCACAGGGCCCTGAGAGGGTGTGAGGGATTCGAGGCAGCCTGTGGAAGGAGAGCCCTTCCAGCTGAGATGAATTC
AGCCCCAGAGAGGCACTAAACAACCTAAGGATGGTACAGTTCCCCAGTTATTAAAATTTTGCATACTTACTATAAAGGGTTTAGTAAAACATAGTCTAGA
GGAAGAAAACCAGAAAAGCRTGATGTGTCCATCTCCCAGTGCTTAACATTTTTATACGTGTTCTTTTCCTCTCTCCCACTCCGCGTGAGTGCTTCTATGT
CTTTATATTGGTAGATCTTACTTAGAATCTGACTTTTTCGCTTGTCAAGTTGTCATAAAACTGATTTCCATTTCAAATGTCTATATGGTATTCACATATG
ACGGAGCCATTATTTACCATTTCCCTGACAGGCTTGTAGGCTGCTATTTAATCTTTCAATTTATGGTATAAAATCCTTTATAGTACAGGTAATGCTGCAG
TGAGCATCCTTGTCTGAGATCCCACCGAGAGTAGTGGCYTCAGTCTTCCAATCAGTGGCTTTTCTCTCACTTGGCTGGCCTCTTGAAGCGAACAGAGTGT
GTGTGTGTCCTGGTAGCTGAGTAAACTCCAGCTCCGCACATCTGCTTGGCGGGGCGGTTGGGATCTAAATGAGTGTGACCTCAGCTTTTGTGGTAGTGGA
GACCATCCTGATCATGCAGGGTCCTTGCTGCTTGCAGGCCCGTGGCTGCTGAAGAGCTGAAGAAATGTTACTTCTTTGTAAGAAACATTTTAGACTGAAA
TAAAAACCTGTTATAATCATGCGGTCTGGTTGCAGCGTGAAATATGTTCACAGTCTAAGATTCAGGTGAAAAGGCAGGATGCCAAATCTTGTGTACTTGC
TGATCTTATCTGTGTAGAATATCCAAGTCAGAACTGATTTTAGTTAAGGTATCTGTGGGGGGTGGGGTTTCCCTCTCTATATTTTCCAAGCCTGCAGTAA
GAGAACTATGGCAATCATCTTTCTTTTTAACATATCCAGCTTACTGCCCTAGGTTGGCCACAGTCAGATTTCTTGAAAGCCCCTAGGGCTGGGCGCAGGT
GTCTGGTTGTCCCTCCGAGACTCAGGGCTCACTCTCGCTTCGGGAACACTAATGCAACTCTTCTGGTGGTGAGAACCCAGCTGAGAGTTCCTTTATTTTG
TTGATTTCAGGGTGTAGGTATTTAAATATTTGAAAGTATTTTGATTTTTAAATGAGATGTGTGGGAACTTTTTTGATTCATCACCCTTGGAATGGTTACA
GAGTTTTGTTTTTATAATACAAAACTTTCTTGAGGTGAATCTGTGACTGAGAAAATAGACATCTATTTGAAATATCGTGTCTAAAGTACTAAAATATTGC
TGGTTGCTAACCACTTAAATTGAGTATTTTTCTTCATAAACATTAAGTTTTATTGAAAGAGTTGCTGTGATTTCCAGACACTCTTCTTTACTGCTTGTTC
AAATAAGGGGAGGGGGCCTCCAGATGAAAAGGTTAAACTAGAGTCAGGCCTGCTTGAAAGTTTTGAGTCAGGACCTTCAGTGGGAGATTTGCCAGAGTCC
CACACAGTAGGGCACAGGCTACTGCTTCCTTGGGTCTCTGGGAGGAGGTTTCTCCTCTCTATAATGGAAAGTTGGATTTCTAGCTTTTTTTCTGGATACT
TCATGGGGTACTGTAATTGTGTTGACTAATTGATGCTCTTTCCTGGAGTCTCACTCATTAATTGGGCCCATTTCTATGGAAGGCACAAATATTGTAATGT
AAGAATCAGATATATGCTGGTGATGCTGTGTGAAGCAGCAGAGCTGCTGTGAACTCTCTGGGGTCCCAAAAGTCTAGGAAGTTTGGAAAATCCTCYTCCT
TGTCTAGGCCTGTGCTTCCCTGTCCTCTCTGTTTGCTTTGCTTCCTCTGTCTTTCTCCTTTCCTTGCTCTTGGTTATCTTCTGAAAGATGAGGCTTCACT
TTTCCACACCTTCCTGACCCTCCCTGTCCCCAAAGCAGCGATGCATCTGAAATGGCCTAAAAAGGCGTGGAAACCCAGGGGTTCCTRTTCTGGCAGAAGT
TCCTCAGTTGCCCACAGGGCCTGAGGTCTGGGGTGAGGAACACCTGGTCCAGATCAAAGAGCTTTTAGGGTGTGGGGCTGGATTTTTGCATACAGGTTAC
ATCRGGAGTCCAGGAGTAAAATTAATTCTTAGAAGGCCAGATTACATAAAAGGCAAGGCAGAGAGGGTTCTGCAAACACTAACCGCCTCTTGGGTGTCTG
ATGGTACTCCTCTCATGGCCTCAGCCTGGAGGGAGCTGATGTGGGAGGAATCTGTGGGCCCTGACCTGGAATGCTGCACAGTGGCCTCTGCCAGTGACAG
GGGYRGGCAAGGCTGAGTCTAGAAGCAAATGCCAGCCCACAAATGTGCAGTGATTGGCGCCTACAGAGGCCAGGGATAGCTAAGTACTGTGGAGATATAA
AATGTGGCTTACCATCCTTGCTCTTAAAAGAAAAAAGGGGAAAAAAAGCAAAGACTAGTTGATTCAGAGCTAAGGTTGCTTGTTAAATAAACTTTTAAAT
TTTAGAATAGTTTTAGATATACAGAAAAGTTGCAAAGAGTGCCTGAAGTTCTCCCATATGATACCTCCTGCCAGGCTGTTGTTAACATGTTAATCACCAT
GGTACATTGTAGTGTGTTAATTGTAACCAAAATTGATACATTATTCACCAAATTCCATGTTTTATTCACATTTCCCTAGTTTTTAACCTAATTGTCTTTT
TCTGTTCTGGGATTCTATCCAGGATACCATGTTATGTGTATTTGTCATATCTCCCTAGGCTCCTTGTGGTTGTGAGTTTCTCAGAATTTCCTTGTTTTTG
ATGACCTTGACAGTGTTTAGAGACAGAATCAATTTTTATTTTATCTTATTTATTTATTTTTTTTGAGACAAGGTCTTGCTATGTTGCCTACACTGGTCTC
AAACTCTTGGACTCAAGCAATTAGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTTCAGGCGTGAGCCACCATGCCTGGCCTGTCTTATTTATTTAGTCAT
TTATATCAATATGGACTCAATGGTTTTTTTGTTGTTGTTGTTATTTGGGTTATAATTGTCAAAGTTGAGTCAAATATAGAGACAATTCTCTGTTTTATTT
GGGAAGCAAGAATTGCAGTTCTGGGCATATACACAGACTGGATGGTCTTCCATATGTCTGAAGAACAAAGAAGGTTGGAGGTTTTATAAAAAGCAGAAAT
GTTACCCATTGTTTTGAGAGACAGTTCATTGGTACTAGTAATGTTTCGAGGAGCTGGCAAGCTCTGATTGGTGAGTGTAAAACTATTCTTAGACTCACAG
CAGCTTGTTTCAGTAGCTATTAGATAAAACTGGTTTCAGGTCACAATAGGCAGTTTCAGCAGCTGGACTTGCGGAGAATTACCTTCCTGTGGCAGTGTTA
CGTGCCCAGGGTGCTCTGTCCCTGCTTGGCTTCTTGATTCTGTTTTAGTTGGATATGACAGGAATAACCCAATCCATATGATCAACTTTTATGTAATCCA
GTACTAGGGTATTCATTGTGTTGCTCAGATTGTTCCAGCTTTGGCCACTGGGGGCTCTTTCAGTTAGCTCGTGTTCCTCTGACATACCTCCATTATTGTG
GGTTGTTTGATTTTTGAGTACTTCCTTATTGGCACTGCAAGATACTCCAGGCTCATCTTGTGTATCTCCTATCCCAGCCCTAGAATCACCCATTTCTCCA
CAGAACCCTCATCCCTTTTATTGGAGTGTAGTCTTAGAAATCAAGATATGGGTGCCAAGTGGCTAAAGTTATTGTAATCTCAATTTATGTGTACTCAGCT
GAGCAAAAGCAAAGCATCCAAATGGCAGCGGCAGCAAGAACTACCTGAGGATTTCTCTCCATTTGCCAGTTCTGTGTTTCCTTCTTGGGCTTTACCCACA
CAGTTTTCTAGTTGCAGACCTGTTGTGCACCTCATTCGGAGTTCTGTACCCGAAATTGTCTCTGTCACGGTGATGTCTTTATGCACAGGCACTCACTCTG
AAGTCACTCACCCTCTCACCAGCTCATGGTGGAGATGCAGTAAAAAGATCTTGAATAAATGAYTTCTGCTAGTTCCTCTCTGAGTCCTGTAGTGGCTCTA
GGTCAAAAGCAGTAAAACCTAACCAGAGGAAAAAACCAGAGYGGAAAATATTTTGGACACACGAGAAGCTATGTAGACAGGAAGCAAGTGGGAGCTCCTT
GGAGAGGGGAGTTGCTTGAGACTGAAGTTCAGGGAAAGGACCAGGAGACTGGGTTGGTACTGGTTCCTGCGGGCTGGAGGGGGTGGAGTAGGGAGTGTTG
TGAAAGTTTCAAGCACAGAGGACTGAATGGAAGCCTCACAATGCAACCTAAGGACTTTGGATTCTTGCTTTTGAGTACATGCACTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAAATGGTGTAGTTTGTTGGCTGTCAGCCTTACTAGGAGKCTGGTTTGGAGCCTGTTGCCTTAGCTCT
GTGGGGTGATGATGGGAATAGTGAAAAAGAGGGTGACAAAAGCAGAGAGTCTCAAAGAGGGGACAGAACTCAGTGACTGACCAGTTTGGTTGATGGTTGG
AAAGAGGTGTCAGATACATCTGAGCTCCCAAGAATGGTGGTACCTGGAAGGGAGAGAAATCAGGAGGAGCCAGTTCTGAAGGGAATGTGGTCTCGGGTCT
CAGTGGATACCAGGAGTTCAGGGGCGGGTGACTGGGTAACTTGGAAATACAGGACTGGGCCTTAGGAGTGTCATTAGGGCCAGGCCAAGAGGGGTTTTGG
CATCATCTCCTGSATGGCCTTAGTGGATAAAACTGACAAGGCTGCAGAGTGGAGGGATATGCCAACACCCAGCCCTGGCTTGAACCTGTCCCTGTCCCTT
GATGTTGGGAAGCAGAGATTCCCTGTCATGTCAGATGACTCAGAGGGGCCCTRGGATGCTGAGGCAYCAAGTGRGGGCTGTCATTTACACACCGTCTGTC
GATAACATTGGTACCAAGCAGTATAGGGTCTTTTATCCTGGAGATTCTGAACCTCTGTGATGGACCCCTGAGGTCCCCTCTACTATGACAGTCCCATTCT
GAGGGGAATTTGGCCTTAATGCTTCCTCTTTGGCATAGCAAACTCTGCTTCCTCTTCTTCTGGAGAGGGTGCACAGAAATGTTTTCTCTAGTCTGTAACT
ATGGAGAGGTAATTTGTTTCTGGGAGGGAGACGAAGTAGGGCACCTTTAACTATTTGATCTGAGTTTTTGTCCTTGAATCATGTGGAATTACACATAGGG
TTTATATACCCCCCCACCCCCCACCCCATGCAGCTGCAAGATTCTATCTGCCTTTTCTTCTCCTTCCATATGGGATTGACATCCCTGTAGGATCCAAGTG
CTTGTGGAGTGAGGAGGACACTTTAGAAGGGCCTAGGGTGATGGAGCTAATGCAGAACTCCTTGTAACCTCTTAAGGTGTAGTGGCTGGCACTGAGGTTG
GGGCTGTGACCATGGTGAGAGGTGCTCCGGGTCTGGGTGTGCCTCTCAGTCTTGTAGATGGCTTGGGCATGAGGGAGGGAGGGACTGACAGGAAGCAGGA
AGACTCCATGTGTTTGGCATGGCCGCTTACTTGGAGAATGGCAGTGCCATTGCTGAGATGGAGAAGACCGGGGGCAGAGCAGGCTGGACACAGCAACAGC
GAGCATCCCAGAAAATTGGGCATCACTTGAAGGGCTGGGTGTCTCATCCGGTTTCCTTTTTCTGAGCATGCTGCATATCACATGGGAATCTCTACAAGCA
GAGGAGGAGAAGGTGGTTTCAGAAACAGCCCTTGGCCCTGGAGAAAGGCATCTTGTGTGAAGACGAAGGTGCCCTGTGGGAGGAGCTGTGTCCATCCCTC
AGCGGTCTCCTCCATTGGGCCTCACAGAGGTACCTCAAGTCCCTGCACCTGTGGTATCATGGTTATATATGGAGATGGAACCCGGGGTTTCAGGTGAGGG
AGTTTGACACTTCACTGGTTCATATGTGACATACTCCAGAGGTATTTGCGACCTGGTTTAGTCCTGACCCCTTTATTGTTCTMGTGGAGATACTTTCCTT
CCTCTCTTCTTCTGTTTGAAACTAGGACTCCACATCTTGCCCTAGAATTGCCACCCACCTGTGTGACGCCTGGGCCTCCGAGTAGATGAGGCCAGAATCT
CCAACAGTCACCTGCAGCTGGTGGGGATGGAGATCCTCTGCCTGCCTCCGGCCAAACAACAGCTTGAGTTTAATCAGTCCTTTGGCTGTCATAACAAGTC
ATGAGGGGCTTTTGTTTGTTTTCCAAAATTATTATTTTACAACATCTGGACTCTTTCTGCTTTGAAAACAAAACGAAAACCCTTTCCAAAGAAAATAAAC
ATTTTAATGATAGCATTTTAATTTAAAAAATTACAGTAGAAAAAAATAAAATGAGGTTACTTTTTTAAATGTTGACAGAGAAAAAAATTCAAAACCCAAA
CTGGGTCAGACAGACAATAGTAGGAACAACAAGTTCTGCCTATGTCGGCTTGCAGCAGAGACCCAGTTAATCAAAAACAAATTGTATTTCCAAAAAGGGG
GCGGAGGAGGAGCTTTGTGCACTTCCTTAGGATTTTCACATCGTGGGTAGTAACATAGTCAGRTGGCAGATTTTTCTGTTTGGATTAAAGTTTCTATTTT
CAGCAACCACTTCCCTGAAAGCATGCTGCTCCCTGACCCGAGGGTCTCATGAGCAGCCATCCTGGACGCAGCGCCACGTAGGGCCTGGGGAGCAGAAAGT
CAGCTGAGTGCCCTGAGTCCCCATTTACACCCCCAGGCCCTCACCATTGGCTCTTCTTTTTAAAGCATTTACTCATGCTCTCGTCTGGATGATGTGGTTT
CCAGGCCTCCAACCAGGAAGAAGCCGCACGTTTCCCTTGACAGGAAAATTGAAAGCTGATTACCTGGTGGCAAGTGAGGAAGGTGAGCCCATCACAGTGA
ATAGTTTGAAAACTGAAAAGGTGCAGCAAGCCAGGTGCGTTTAATAAGATCTGCAGTCCTGTGCATCCCAAGAGAAGGCACTTTGTACACAGTCACCTAC
CTGAGTCATGTTCATTTTCGTCCCCATATCAGAGATGAGCAGACAATGGAGCGCAGGGAAATGACCCTTAGGGGCACACAGTCATGGGCAGGGTTGGATC
TGTACAGCATTTTAACTGTGTTGTGATTCTCTAGTTCAGAATTGTCTTTAAAATCAGGGAAGGATATACAGATGCTCCTCGACTTAACGATGGGGCTGCA
TCCCCACAAACTCATAAGTTCAAAATATCATATGTCACAAGTGCATTTTTTTTTTTGAGACAGAATCTTGCTCTGTCACCTGGGCTAGAGTACAGTGGCG
CGATCTCAGCTCACTGCAGCCTCTGCCCCCTGGGCTCAAGTGATTCTCATGCCTCAGCCTCTTGAATAGCTGGGATTATAGGCATGAACCACCATGCCCA
GCTAATTTTTGTATTTTCAGTAGTGATGGGGTTTCACCATATTGGCCAGGCTGATCTCGAACACTGACCTCACATGATCCGCGCGCCTCAGCCTCCCAAA
CTGCTGGGATTACCGGTGTGAGCCACCGACAACTGCATTTTTTACTTCTGATGTTTTGGTCTTAYGATAGGTTTTTTGGGATGTAACACCATTGTAAGTT
GAGAAGCATACTGAGTGAATTTCACACCATCCTAAAGTCGAAAAATCATTGAACTCTTGTAAGTTGGGGACTGTCTGTAGTACATGATAGAAAAATTTTC
TCCTAGCATGGTTTGCTTTTTATGAAGTTTCTACCCAAGTTGTATCTCACTGGCCAGGAGCTGCTGCTAGAGATTTTCCTACTATAACATCTCTCTTGTC
TGAAGGGGTTGGCTCTATTGATGTGCTACCCCTGGGAGGGCCAATGCATTAGGCCTTTACTCATTCCTGTCTTACTCATAGAATCGATCCTGCTTTCAGC
TGGCTAGGAGGAGATCTCAAAGGGGTGAGAGAGCGGGGCTCTAGAGACCTGGGAGCCCTTTAGGGATGACTGGATTGGTGTGATCATGAAGGCAAGCACA
CTCAGGTCCCAGGGGGAGGTGAAAGCAGGAGCTGGCTCTAGAAAGGGTGCCCATGGGGCCTGTACAGGAAGCATAACTCTTGGACTGTCTTGTATCAGTT
CGATATCTGAGGGACTCACTGGGAAAACAGAGCCTAGCCAGGACTCCTGTCCAGAGTGATAGCAGCTATGGTTTGCCAAGTACTGACTTTGGATCTTGCA
GGCTATTGAGAATTCCCATTTAATAGATAAGGAGCCTGGGGCTGGAGGGGTCCTGGAGTCCAGTTCAGTTCTGCAGCACCTCCTACATGACAGAGCCAGC
ATTGGAGCCAGTGTCTCTGTTTTCTCCCCTGATATTATGGGCAATGGTTTTATCCTGGAGCTTCAGCCTGAAAGACCCTCCACCAGCTGCCCATCAGGTG
GACGTGGTTGGCTGGTGGCGTCACATTTCCTCCTTAATTTGGATTCTGAGAACAGTCTTCTGTCCTTGAAGATTGGACAACACTTGGGGACTTCCAAGAA
CATGTTGGTGACTCCCTTTGCCCCTATGCTGGGTTCCCTGAGCCCTGTGTTTTTTGGAAAGGGTGAGCCCTTTTTTTGGATGTTGGTTGTGAGTGGGAAC
TGAGCCCCCTACGTGTCCAGGGAGCTACTTCGAGGGAGATGTGGCTTGTCTGCCTACCCCGACTTCCTGGTGACTGATGATCACACACCTCTCATGATAC
TAAGTTTTCCTCTTATTTTCAGCTTATTTACTAATCAGGATATATGTCTGGGTGACTGTTATTTTTCTATTTCTATTTTTTTTTTTTTTTTTTGAGACAG
GGTTTCCCTCTGTCATCCATGCTGCAGCCTCAACCTCCCAGGCTCGAGATCCACTCACTTCAGCCTCCCAAGTAGCTGGGACTACAGGTGTGCACCTCCA
CGCCTGGCTAATTTTTGTATTTTTTTGTAGAGACAGGGTTTCGCTATGTTGCCCAGGCTGGTCTTAAACTTATGAGCTCAAGCAGTCTGCCTGCCTTGGC
TTCCCAAAGTGCTGGGATTACAGCCTCAGCCCCAAAATAATGTCTTTTTAAAAGCACGGTTTAATTCTATCTGGGGAGGCAGAACTCTACATGGAGTGTA
GAGTTCATATTCACCAGGTTAATGCCAGCTTCCCTAACATGGGATATTAAGCAGGAAGGAACTTTGAGTATAACATTTTGTTGATTAAGAATAAAGAAAT
TAAGATTAAATTTTATTGGGATTCACTTCTGGAATGGTGGTGTTAGGGGCTGTGTGGACTTGTTGCTCAGTGAAACAATAACTGATAAAAATTATTTTAA
GAAAACAACCAAACTTGGAAATTTGCCGTATATCCTAAGGGCATACAGCACATGAAGAAACATTTATTCAAGAAAATCTGCTAGATCTCAGTAAGAATAG
CAGATGTCTGTGGCACTTGAGCCAGAACCTGCTCCTTCCTTCTCTTTTCCCATCCGCTGCCCAGCTCAGCATGAGAGAAGCTATGAAGAGTGACCAAGAA
GACTGGGTTCCCTTTCCCCTAAGTTCCCATCAAGGGCTATGGTATCTCCCCAGGAGGGCAGGCTGTCAGCATCCCCCTACCTCCAGCAAGGCTGCATGTT
GCAGAGGCTAAATTCCAGGAGAATGTGGCTAGCCCCTACTCATAGGGCAGAGGTTCTACCTGAGGCTGAGAATAATGGGTCCCCAGTTGCCCTTTGTCAG
TCCAGCTAGTTTGTAGGGCAGAGGTTCCATCCTTGGAGAATCAAGCCAAGAAGAGCAAAGGCTACTGCTCCCATCCAGCACCCTGTTCATAAAGTGGAAG
TGTCACTCCGASAGAAGTGGGACACAGTCTGTGCGCCCAGCTCTAGAACAGTGACTCCAACATTTTCCCAAGTAGGAGAGGTAGGCTATAATAACAGAAA
GCTCTGAAGCTCTCTGAAAGATACTGACTTTGTTTATAAAAGTGTAGGGAAAGTTCAAGCCTAAGGGTGTTCTAAAAAAAAAAAAATGGAGAGTTTGGTG
GTAATTAATAAGAGGCCGATAAGCAATAGGCAAAAGCTTGGGCCAGAGACCAGGAAAGAGACAGTAAAGAGTGTCTGGGATCAGAACAAACCTCAAACTC
TGACATCAAAAACTATCCCTGTGAAAGGTCTCCATTTAATTAGATAAAATGTAGAACAATGTATGCCCTAGGCAGTTGTCAAAAACAATAGAGCAATCAG
GCAGCAATTAGTGGGGTCTAACAGCTGGGTATGAAAACACCAGAGGCAGACAGCTTAACAAAGAGATTAGGGAAGATACAGACAGCCCTGATAAAATGAT
TGTCATCCCAGAGAGAATGTGTGTTCACTCAAGGCTGTGCCCCCATGAGGAGCAAAATCAGAGGTTGGGTGGGGAGGGGAATATACTTCACCACAGGAGT
CCAGCCAAGTCATTGAAAAAATAAGCAAACAAAAACAAGCCCTGGGATAGAGGGGCTTGTAGTATCCAGAGTTGCTACAGTGTCTTAGCTAAGATGTCAT
TTTCAACACAAAATTATAAGATATGCAAAGAAATAATGACAGAAAAATGGGTATGACAGAAAAAAAGCAGGCAACAGAATCTTCCTGGGAGAGGACACAG
ATGTTGGGCTTAACAAAGACTTTAAAACTGCTATTATATTTGTTCCACTGGTCTACGTGTCTATTTTTATACCAKTACCTTACTGGTGCCCAGAAATAAA
TTTATACATTTGTAGCCAACTTATTTTTGACAAAGGTGCCAAGAACAGGCAATGGGGAAAGGACAGTGTTGTCAGTGAAGAGTCAAACTCTGTAAAATAT
TTGAAGAGATTTATTCTGAGCCAAATATGAGTGACCAGCCCCAGGAGATCCTGAGAACATGTGCCCAAGGTGGTCAGGCTACAACTTAGTTTTATATGTT
TTAAGGAGACATAAGATATCAATCAGTACATGTAAGATGTATATTAGTTTGGTCYGGGACAACTTGAAATGATGGGACTTCAGCTTATAGGTGGATTCAG
AGATTTTCTGATTGACGGTTGAAAGTGTTAAGTTATTACYTGAAGACCTGGAATCATAGAAGGGAWTGTTTGGGTTAAGATAAGGGGTTGTGGAGACCAG
GGTTTTATCATGCAGATGCAGCTTCCAGGTAGTAGGCTTTAGAGCTCTTATACGACCTAAAATCGTGCCAGACTCTTAGTTAATTCTCTCCCGGGTCAGG
AAAAAGACCTGGAAAGGGAAGGGGATTCTCTACAGAATGTAGATTTTTCCCCACAAGAGACAGCTTTGCAGGGCTACTTCATAGTATGTCAAATAAATAT
ATTTTGGAGTAAAATATTTTGATTTCTTTCAGGGCCTGCTATCTGTCATGTGATGCTATACTGGAGTCAGGCTGGAATCTGGTGTCTTATTACTGCAGAG
AGTCAGTTTTAAGATCTCTGTTTTATCAGTCTTAAGGCCTCTGTTTTAATGTTAATGCTGGTCAATTGTGCCTAAATTTCAAAGGGAGGAGGGTATAAAT
GAGACATGTCCAACCTCCTCTTCCCATCATAGCCTTAACTAGATATTCGGGTTTACTTTGAAATGCTCCTCTCCAAGAGGAGGGGTCCAGTTCAGTTGCT
TGAGGGGCTTAGAATTACATTTTTGGCTTATAGTCTCCAATAAATGCTGTTGAGAAAATGGGATATCCACGTACAGAAGAATGAAATTAGACCCTTATTT
CTTACCATATACAAAAATTAACTCAAAATCAATTAAATACTTAAATATGAGAACTGACACTATGAAACTGCTGAAGAAAACATAGGTGAGGCGCTTCAGG
ACATTGGTACGGGCAAGGCTTTTTGAATAAGATCTCAAAAGCACAGGCAACMAAAGCAAAAATAGAAAAATGGCATTACATTAAGCTAAAAAGCTTCTGC
ACAGCAAAGGAAACAACAAAGTGAAAAGACAAACTGCAGGATTGAAGAAAATATTTGCAAACTATACRTTAGACAAGGGGTTAACATCAGAAACATACAA
GGAACTCAAACAACTCAATTGCAGGAAACAATCCAATTTAAAAATGGGCAAAAGACCTGAATAGACATTTCCCAAAAGAAGACATGCAAATGGCCAACAG
GTATAGGAAGAAATGCTCAACATCACTAATCATCAGGGAAATGCAAATTAAGGAAACAGCTGTAAAGTGAGGAAGAAGCTTGGGGCCTGGAGTTTATAAT
CTGGGGTTGGAGTGTCCTGGTTCTACTGCTATCTGCTTTATGACCTTGAGCTGGTTGCTTTTCCCTCTCTGACACTGGGTTTCACATGTGGCTCTGAGCA
CTCAGTGAAATTATCACTGGGAAGTGCTTGATGGAAGCTCTTTTCCACCCTACTCTTAGCAGGTCAGATATGGGGAGGAAAGAGAGGGAGTTAGGTTTCT
CTGCTTCACTGTTGATATGGACTTGGTGCCCTGTGTCCCAGCCGCTCTAGCCGTGGCTGAAAGGGGCCAAGGTAGAGCTCAGGCTGTGGCTTCAGAGGGT
GCAAGCCTCAACCTTGGCAGCTTCCACATGGTTTTGAGCCTGCCAGTGTACAGAAGTCAAGAATTGGGGTTTGGGAACCACTGCCTAGATTTCAGAGGCT
GTATGGAAACTCCTGGGTGTCCAGGTAGAAGTTTGCTGCACAGGTGGGGCCCTCATGAAGAATTTCTGCTAGGGCAGTGCAGAAGGGAAATGTGGGGTGG
GAGCCCCCACACAGAGTTCCTATGGGGCACCGCCTAGTGGAGCTGTGAGAAGAGGACCACTGTCCTCCAGAGCCCAGAATAGTAGCTCTACTGATGGCTT
TCACTGTACACACCTGGAAAAGCCACAGACACTCAACGCTAGCCCATGAAAGGAGCCAGGAGGGGGACTATACCCTGCTGGCCATTTGCACATCTTCTTT
TGGGAAATGTCTATTCAGATCTTTTGCCCATTTTTAAATTGGATTATTTGTTTTCTGCAGTTGAGTTGTTTGAGTTCCTTGTATGTTTCTGACGTTAACC
CCTTGTCTAATATGTAGTTTGCAAATATTTTCTTCTGATTTTGTCTTTTCACTCTGTTGATTGTCTGCTTTGCTGTGCAGAAGCTTGGGCGCAACTGCCC
AAGGCTGTGGAAGCCCACCTCTTGCATCAGCATGACCTGGATATGAGACATGGAGTCAAAGGAGATCATTTTGGAGCCTTAAGGTTTGACTGCCCYGTTG
GATTTCAGACTTGCCTGGGACCGGTAGCCCCTTTATTTTGGCCAATTTCTCCCATTTGGAATRGCTGTGTTTACCCAATACCTGCACCCCCATTGTATCT
AGAAAGTAACTAACTTGCTTTTGATTTTACAGGCTCATAGGCAGAAGGGACGTGCCTTGTCTCAGATAAGACTTTGGACTGTGGACTTTTGAGTTAATGC
TGAAATGAGTTAAGACTTTGGGGGACTGTTGGGAAGGCATGATTGGTTTTGAAAATGTGAGGACATGAGATTTGATAGGGGCCAGGGGTGGAATGATATG
GTTTGGCTCTGTGTTCCTACCCAGATCTCATGTTGAATTGTACTCCCATAATTCCCATGTGTTGTTGGGGGGACCCTGTGGGAGATAACTGAATCATGGG
GGGTGGATTCTCCCATACTGTTCTCATGATAGTAAGTCTCATGAGATCTGATGGTTTGATGAAGGGAAACTCATTTCACYTGGCTCTCATTCTCTCTTGC
TTTCTGCGATGTAAGATGTGCCTTTTGCCTTCTGCTATGATTGTGAGGCCTCCCCAACCACATGGAACTGAGTCCATTAAATCTCTTTTTGATTGTAAAT
TACCCAGTCCTGGGTATGTCTTTATCAGCAGCATGAAAACGAACTATTACAACTGTGCATCCTCTGCAAGCAGAAGCAGGCTCTTCTGGCTCTTGGCCTC
TCACTGGCAACACTCACCAATTCAGGTGCTGGATTTGGGTGGTGATAAGATGGAAGATGCAGATACAATCCATAAAGCACTGTGTTAAGGACTGAATTGT
GTCTCTCCTTCAGATTCATATGTTGAAGTACTAACCCCCAATGTGACCGTATTTGGAGATGGCGTCTGTAAASAGATAATTAAGGTTAAATTAGGACATA
AAAGTAGAACCCTAATCTCATAGAACTGGTGTCCTTATAAGAAGAGACCTCATGAAAGAGATGACAGAGAAAAGGCCATGTGAGGACACAGCTAGAAGGT
GACTGTAAGCCAAAGAGAGTGGCCTCACCAGGAACTGAATCAGCTGGCATCTTGACCTTGGACTTCCCAGCCTCCAGGACTGTAAGAAAATAAATATCTA
TTGTTTAAGCCCCCTAGTCTGTGGGATTTTGTTATGGCAACCTGAGCAGACTAATCCACATGTCTAATGTGGAATCTCAATGCTCTTTTTGCCAATTCTG
CCCCACTGAGGAACTAGGAAAGCAGTCCCACTCAAAATTATAAAAGCACAAGCATGAATGATGATTACAAATAAAAAAGACTGTTTTGGAGATTGTCTTC
TTTCTACCCTTCTTCATATATGTTTGCTGACCAGCCTGGTGACAGAAGCCATCTGTCAGCCTGCTGTGGAGTCGGGTTGTGAGCACGGTGATACAGGGGA
ACAGAATCGCATGTCAGCAGTTATCCCAGAAATGCCAGGTTTGCTTCAGATTTTGATTTCCTCCCTGTTTCCTCCCCTCAAACAGTGGTGGTGGATCATC
AAACAGTATTTTTAGAACTGCTTTGCAGCTTCCCTGTAGAAACCTTTCCTCACTACATGGTTTAATCCTCTCATCTAGCCTTGTTTAAGATCTGCAGAAT
GCTATATTTGTTTAACTTTATTTGAGATTTCAAGGCTTTTCTGAATGTTGCTCCAAGTAATCTGATGAATGCAGAACTCCAAAATTTATGCCTTAAAAGG
CTTAACTACTGATATGTTTGGAGGCTTACTTATTTTCTCCCTTTATTCTAAACCACACAGGGCAGGGCAGCTAAAAAATCCCCTTGGAATTAGTGTCAGA
AAGTCCCTTTTTAAAAATTAATAAACTTAAATTTTTTTAGAGCAGTTTTAGTTCACAGACAAATTGARTGGAAAGTACAGAGAGTTCCTATATGTCTCTT
ATCTTCACACATAAAGTCTTTTAATTGGGCTATCGTAACTTTCAAGGACAAAAGGACAGTATTCTCCTTTATGGAGAAGTAGTAAGTTTCTTGGCTAGAT
TGACGGCCTTCAGTGATGGTAGGGGAGGGTGCAAGTGTCAGGCTAACTGACCAGCCTGCAGCTGGAGTGAACCTGAGCCCAGGGTCCAGCAGGGTGTACT
TGTGTCCGTGGGTCTGGCGGAGCCATATAAGATGTCAGTGGCAGACTCATATCTAATTCCGGGGGAAACCTTCCCAGTGGTCACAACCTCAGGCCGTGTC
ATTCTCCAGAGAGAATGTGTCATTTAATCCTAACTCCTACCTTTTTAAGGTAGTTTTGCCCGTGTATCTCATTTGACCCTTAGTAAGGCCTAGTGTCATT
TAACTTAGTAACTTGTGGTATACAGAGTCCTCACGCATGCTTTCTTACTTGAGATTGCAGCGAACTTCTAAGGTGGGAATATTATCCCCACTTTATGACA
TGGGGTGTGAGCTGAGAGCCAGAGGTTCCAACAGCCAGCAGCTGGTTGGTGTCTGTTTGATGATCCGCCACCACTGTTTGAGGGGGGAAAATAGGGAGGA
AATCAAAATCCAGCTGTGGATGGAGATGGCGTGCTGTCCTCCATGCATCCTGCTCCAGGTCCATTGTCTCCCAAAGGGCATGTCTGCTGTTCCAGAGAAA
AGTCATTCAGTGATACTTGTGAAAACATATGAATAAAGGAAGACTTTATCCAGGACCATCACAATAGGTATGGGGACCACAGCAACGGGCTTGCAGTGGT
GGGGGGAGATTGGGCTCAACTCCCAATACAGCACGGGCAAGTGGGAATTTGTAGTCTAGGAACAGGGTAGGGGGTCAGTGGATGGGAACTTACTAAGAGG
AAACATTGAGAGTAAAGTGGATTCTGGCTAAACCCACCTAACAGGATTCTTGCTAAACTGGCCAGGACAATCAGACATCACCTAGGGAATGGTGGTAGAG
GAACCTAATCAGATATTGAGGAGGGGAGGTTTTTGCTAAACTGGCTCAGCAGGGTTCTTTGCTAAAACTGGATTTTACAAAGAAGTGCACAGATGGGCCT
AGAAGGTTCAGGAACCTGACTCTAGTTTGGCCAAGCAGAAAATCTTTGTTACTGCCACTGGTGGAATGGCTGCAAGCCTTATATTTGAAGAGTTAAATTT
GTTTTATATATACTTAAATACTTAGCTAGTTTAAAATATTCCATATAGTAAATTTAAGTTAAAAAATGTGTTTAGGCCAGGTGCGGTGGGTCAGGCCTAT
AATCCCAGCACCGGGATATTTTTGGGAGGCCGGGGCAGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCTTGTCTCT
ACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCATGTGCCTGTAGTCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATCGCTGAGGCAGGAGAATTGCT
TGAACCCGGGAGGTGGAGGTTGCAGTGAGTCGGGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAACAAGACTTTGTCTCAAAAAAAAAATGTATTTA
AAGAAAAACCTGTGGACCACAGTACAAGGTCATGGTAGAAGCAATGATTTCCTGAGTGTCAGTAGTTCAGGAAATACTGTAGTAGTATCCATGCTAGCTT
CGGGAGGTGACAGTGGAAGTCAAAGTCCTGCCCCTTTCCAGCCTTGCTGGTTGTACACAGAATGTTGAGGTCAAGAACCCCCCCAGCCCCCCATTCTCTG
AACCTTGATGCCCTCACTGAGGCAGGGAGTAATGATTTCCCTATGGTGGGGCAGGCCTTGTTTTTAGGAGCAAATGACAAAACAGAATAAACACCATTGT
TACCATTTGGGGCACTCCACCAGCACAGAATCATAGACTGGGGGAGGGAGGTGAGGGCTGGGGAAAGGGACCACATCTGGCAGGGGGCACTGAAGTGCCT
AGTTTGTGATTTCCCTGGAATTTGATAAATTAAAACCTGGACCAGGTCAAGAGCCCAGGGGCTCCAACTCTACATCAGTTGCGTTTCCATCACATTTATC
TGCGTCTCACTAGTGGTTGAAGAACATGTCTGGCCCCTGCACTGCTGAGCTGAGCAGTGCTGTGAAGCGTTCAGCAGCATTAGTGTTAGTCTTGGCCTGT
GCAGGTTTCTCTGACTGATCCTGTGGGTATCTATGACCTCAGTTATCTTCGTACATCAGTGCCCACCTGCTCCCAGGTACACTGTTCTGGAATGATGTGA
ATTTGTTCACACCTTCCTAGTGGGTGTGCATCTGGCCATCCAAGAGTCTGGTCCTCACGGAACCCTGGTTATGGGGCCAGATGATAGTCCTGAGGGCATT
AGGTGATACCTGTGTTCTCCTGGGCTGGCTGAGTTCTCCAGATGAGAGAGAGCATTCCTTCTGCCAGAGGCCTGCCCACAGTGGCTCCACTGTCAGTGTC
CTGGTTTGCATGTACAGAGGCAGGGCTTGAAGTTGGGTGGTAAGTGGGGGCTTGAGGTGGCTACATGTTGGTTTACAGTTTTTAGTTTTTCTATAGGTTT
CTTCCAGTGGGAGATGGGAATACTTCTAAAAAATGAATTCCAAAGTCACATTTTCCCTGATCTCTTTATTTCCCAGCTACCAAGAGTGTTTTAAAAAATG
TAAAAGCACACATAGAGATTTTAATTAGCTTTCACTGTCACTGCTCTTGGTGGTGGTAATTTTACATATGATATGTGACAGGGAGACACTTTGTGAGGGC
CTTTGTTCTCAATGTATTCTCTCCCTCTCATAACTCAGATGTAAAATTTGGAGAAAGAGATAATGGTGAAAGTACCTCAACATTGTCTTATTTTCACATT
GATATTCCTACTCGTTAGCATTTTCCATGGAAACAGCACCACAACCAGATTAGGAATCTTTCTGGAACAAAGGGAAAATAGTTCTTGTGACTTTTGTGAG
CAGTCTCACTACTGCATTGTTTATGGGTGAGGTCACCAAGGAGACCTAGCTCAAAGGCAAAAGATGGCCCTGCTCTAAGGGTTTTATTAATAGACCTGAA
ATTGCTTGCCCTCTTGAATTACCCAAGTGGTTTTAGTTTCTTTTGTTGTTTTTGAGTTATTGGATTTTATTTTATATTTGCAGAATCAGTGCTTCCTTCA
GAGATAGGGAGTTTGGACGGACTAGGTTTAGTTGTGCTGATGACAAATGGACCTTTAGAACCCCTGGAGACCTCCTGGGACAAACGAGTTGCCCTTTATG
TGTTGGTCGTGAATGTTGCCTGTTCATGTGGTGGTGGGTGCCATCTTGACCCAGCTTTGCCAGGTCTGAGCAGGGGTCTGTCTTTGCTGGTGAGAAGGGA
TGCTCATTGCAATTCTTGTGGGCAGGTTCCTCCCTGGTTTGCCCCAAGTGAGAAAGAGATTTGTCTTCAAAAGCCCAGTAGGAGAGTCCAAGAGAGTACC
AGGACTTTTGAGATTGGTTTGAACAATTGAGATCCTAGGGAGTTCTTCACTGCCTGCAAGCTAAAACCCAGCTCTGTGGTCTGGTGTTAAAGGATCTCCA
GAATTGACCTCGTCCTGGCTCTCCAGCCCCATTCTCTGTCCTTGATACACAAGACTTTCCTGTTTCCTGAGTGAGTGCTTGTTGCTGGATGCACCTGTGC
CTGTTCCTTTTGAAGTCAGATCAACTCGCACCTCATCTGGATCATCTTTTGCCAGATTTCAAGCTTCTTCCTTGCCTCTGTAGCAGCATGGGGCATGCAT
CTCATTTTGTCTTGGAGTTGTGTTATCTGAATGTTTTACTCCATCATTAAACTGTTGGATTCTTGCAGGCAGAGATCACTTCTGATTCACTTGTGTGTTC
ACTGTAAGTGCCTAGCTCAGTACTTGTTGAACAGATGAATGGACAGTTCCAGATTACAGACTCCTTTGGACACTCTCATCAGAAGGCATTTCAGGTCATC
AAACCAGGCTTGCGTGACAGGATGACAGAGACTCCTTCTCCTGCAGGCAGGGCTCCTGTCTTCTGCCCTGGTCCCTTCCCTATTAGCCTGATCTTTGCTG
CTGGTTGAGAAGAGGTGCCACATGAGAAGAAGGCAGATGTTGCTGTTGAGCATGAAGGTGCTGCGTGTCAGTTGGCACTTGTSCCTACATGGTTGAACTT
ACTCAACCACAGCTCTGGTGGGTAGCTACAGAGCACTGCCCAAGGAAGGGCATGGGCCTCAGAGGCACAGCTTATTGCACTCTTTTAAAAACTGCATTTC
TTTTTGAGGTTTCATTATTCCAGCCACTGTCAGCTTTGCAATAAAGAGCTGTGGTCAGTTCACTGTGGAAGAGGCCCATGGAGGACTGCCAGTGGGGGTC
CTCCCTCACCAAACACGGAACGCTGAACAACCAGCAACACAGCCGAGTAGCTGAAGCCATAGAACCCTCTCTCCAGGAAGGTCCTATATAAACATCAGGA
CTGCTTGCTGCCCTTTTGATTTGTTTTAATGAGAATAGGGAAGACTGAAGTCCTTTTGTGTCTCTGCTAAGTGTTCACCCCAACACTGAATGTTTCAAAC
AGGATTCCATTTTCACAGCTAAAATAAACAGGTTATACACYACTTTGCCAGAGATCTACATGTAGTAAAGTTGCTGAATGTGTGACCACTTTGTGTTTCC
ATGGGACCTAGAGGACCAAGATGTCTCTCCCTGATTTCAGTTTGTTGTTGAGGAAGCTAGAAACAGCATTGTAACGTTGGTGCTGCCACTTGGAGGCCTT
GGGCAGGTCATCCCCAGTCTCCTGGCTTACTGCCTGGTTTCTAAAATAGCATTGTCTTCCCGGCATTTCATTGATCTGTGATGGTTGCTTCACATTTATA
GCCCTTTATGGAATTTTGTTGCTACTCAGAAAATTTTTTATTTTCTCGTGAAGCCAATTTTGACACTTGCGAATTAGAAGGCAGGCTTTCCTAGTGCTTA
GAAAAATAAACAGAGCCTGCCTGACTCCACTTGTCTGAAGCACGTTATTATTAACTTTCAACTTATTATCASTTCTGCTCTTAACGTGGCGCTGTAGAAG
GAAATGATGTGTGTGGTGTTAATCTTCAGTGCCTCTTCAGGCCCACGTGCCATCCTGCTGAAGGTGCAGGACTGGCAATGGCAAGGGGGATCTACAGCTT
TGGCTGGCCTTGACATTCTGCATCATGTGATTGAGCAAGCCTGAGACCATCTTACCAGATTCACTCTAGGCTCTCTGTCTTTTCTTTGTTTTCCCAAAGC
TCTGTTAGCATGGACTTTTGAAAGTTGCCTGAATATTAAAGTACTATACTAATAACTTGCTTTCTAGTAAACAAAACCAAAAGTTGGCTTAATGGTTGCT
CACTGACCTGGCATAAACTAGAACACAAAGCTTCCCATTTAGAAAAGGTTCAGGCAGCCTCCTGCTGGGATCTGCCCAACCCCTCTAGGAGGTKGCATGG
ATGCCCACCTCTTCTTCCAAGGGTGCACTTTGCCTTTAGGTTTGGGGAAAAGTACTGGGCGAGCCTTTGGGACTGTTGTGTCTCATGAGTGGGCTGACCT
TGGTGGAGGCTTGCGTTTCCCATGTGGGGCCTGACTTTTTATGTGTCCAGCCAGAGTGATGAGCTCGTTCACTTTCCCTGCAGTGCTTCCTTGTTGAACC
TGAAAGAGAGGACGTGGGAGCTTTTGTAGGAGAGAGAGGACACATGCTTTATTCTTGAACTGTGAGGTGTATGTCACCAGAGAGAATTGGAGACAGCGGT
GACTGTTTCTCAAAACAGCTTGCACACTCTTCCCTTACCAAATTAGGATTGAGTAAAACCTGTTGGTAATAGTAAATAGAAGGAAGTTACAAATAAAACA
CAGTAGTCATAAAAGCAGAGCAGAGGAGCCCTGCTCACAGAGCCAGCCGTCACCACAGACGCCTGGGCTTGAGTTGTGTCTTGCTGATTCAGCAGGAGGG
TGCATTTCCCCTTCCACTTTCCTGTTGAAATATATTATTTCTGTACAATATTTATAGAATCCCTGTCTCCACCATTAGAAATACAGAATATTCTTGCTTT
TTCACTTTGCTATTAGTTGATATTGTTGGCTAGGTTTTGTCTGTTTATCCTGTTCACAAATTTTTGTTTTTTAAACTTTATTTTTTAACTATTTTTGACA
GAAACAATAACAATATTTCTTCGAGGGGTTTAATTTCAGCTTAATTTAAGAAAAGAAAATCAAACATGAATGATACAAAAAAGAATCTGCTCTCATCCTA
AAGTTCTGCCTTTTGCTTCTCTAGGAAGCCCTGTTTCCTGACTAGAATTTAGTGTTGCTTGATGGGAAAAGCTGGAGATGGAGTCAGAGACTGAGTAACC
ACAGGAGATGCTTATGAAGACATGGGTGGGGACAGGGCGGGACATAATGAGGAACTCTACAACTGAAAAAGATGATGCCTTTTATTAGCATTTGGTAGTA
GTCGAATTAATGTGCTCTGCACTCTCTTCTGCATATCGGAAAGAGCACTGGACTAGTAAGGCCTGCCTTTAGGTCCTACTTCTGCTGCTGCTGCTGACCT
TGAGGGAGCCCCTCTACCATTGTGAGCCTGGCTCCCAGGCATCAAACTAGAATAGCTGTCTCTCCCAGCCCAGCGGTGTGGTGTGAGGACCAGGCGAGTC
AAAACATGTGGGCAGCATTTGCAAGCTGTGTTGTTGTTGCTCACACTTATATTTCTTCCCCCTTGAGATTTTTTACCTACAGAGACCTCTAGACAAGGTG
TTTCCTCCCATGGAGACCAGATGAGGCAGGTGAGCGGGCAGAAGGCACCTTGGCCTGAGWAGTTCTTGGTCTCCTCCTCTCTTGACCCTCTTCTGTGGAT
TGGAAACATTGTGAGAAACTACGTCCCTTGCTTGCATTGGCAGCAGACACTGTTGAAGTCCTSGGAGAACACGATGCTGTGAACAGACCGAGGGGAGGAA
TGGTGGCTGCTCCTCACAAGAGGAAGGGGTCCTGGGCACATTTGGACTTTGCCTCCTGGAGTGGCCCACAATGCGGGCACTYCCCTGTGGCAGGGAGGGG
GAGTCAAGGAAAGGAACTCAGCATTTTCAGGGCTGCATTTTCACACAGCAAGCCCTAAAGCTGCGTTTGTTTCCTGAAACAATCTTGATTTCATTCAGAG
GAGGAAAACGACATTTTGGAGAGTCTGCGGTCTGGGGTGCTTTGATCCTCGTTCACAGTCCAGGGAGGTGTAGCCACATCCCCCTCCTCTGCCCTGCTTG
GCAACTCACTTTTTTGTGGAATGGTGGCCGCTGGCCACTGCTGTTTTGACCAAATAGCTGGGTGGACCCTGAAGGGGCCATTCTGGCCATTTCTGGCCTC
AGGCTGGGTGACGGTAGAGGATGTAGTGTCAAGGTTATGCGTGACTGATCCTTTCTGTAAAACAGCCCATCCCATCCCTCACATTAAAGGAATATAAACC
CGAGTTCATTTGTGTTGGGGTTTGCTTGTGTTAATTTATAGATCACTTTTTTTCTAATTGTTTAAATGTTCTAAACAAAAGAGTTTATGACTAATTATGT
GTTTATGTTGTGTGTCTGATACAATGTAAAGCCATCTAGTTAACATGAGAGTTATTTGACCATTCTGTTTAAAGTTTAAGAAACACGTGCTGTAGGGAAA
TCTCCATTTGGTTACTGAAAGTTGTGATGGATTGAAGGGGTGGTGGTGCTCCACTGCTTTGTGGGAGCTTTCTCCCACCCAAGCTCATGGGTAGTGTTGA
AGCCCCCATGCTACAACGTGACCCCCACCCCCAGCCTGGGGGGCCTGGCTCAAGCTGGAGAGAACTGGGAGAGCACCCATGCAGGYGGCCTCTGGTGGCT
GGAGCTGGAGAGTTTCAAGTTGGGGGCTGTCTCAGCTCCCACCATGTGGACTGGCTCATTTGCAGAGTGGGAGGATGATGGACATGGGTAAGCAGAGGGG
AAGGGCCACATTTGCTGCCAGCCTTGGAGTCAATGGGCCAGCTCAGCCATGTTCCTGCTGAGGTGTTTAGCTCAGCCCAGACTCCTGAGACAAATACGCC
TTTCTGCCTAAGCTCACCCCCCTGCACAGCRTCCTGGCTGCTCTATATAGTGTCTTAGCCAGGCTAGCAGGAGTTCCCATGACTGTCCTYACCATGATGG
CATCGTCACTGCATCCCCTGGGTTGAGGGGGTGGGTGGTGAGGGCATGGGGTGAATGCAAAACACTGTACGGCAAGGCAAAGGACATTGCTGTGGCTGGG
ATGTGGGCCGCCCACTTTGCATTCTGTCCTGAGAAGCCATGAGCAGCTGCAGCCACACCTCTCCTGAAAGGGAAGAAGGAGAGAAGCAGAGCTYGGGTTA
GAGGCTGTTCTAGTGGCTGGGGCAAGTCAGGGTCCAGCTTCCAGGTGGCCAGCTCTGGGCAAGGGAAGCAGGAGCAGGCACCAGGCCAGGCCTGACAGCT
TTGTGTTTGGGTGGAAGAAGAAAAGGGAAGAGAAATCACCATCTTTGGCAATGAATAAGGCACACCCAGCCTGCTTTGGGGTTTAGAGCCTCCTGCACTC
CCRCCTCCACCATAGAGGAGCCAGACTGGGTTCATGCTCCACAGTCTTCCAGCTGCGTCTCCTGGAATGAACCTTTGAGTAACAACTCTGAGTGAGTGAT
GATACCCCCCTTATTGTGGACCCACACTCAGAGATAAGCCCAACTCACAGGTCACGGGGAAGCCCGTGTCCTTATCTCTTCAGTTCCCGGCCCTCTTGGA
GCAGCATGTCTCCTTTGATGAGGGGGTTGAAATACTGGATGCTTTCCTCGGTCCTTTCATACACTTATTCAGAAATTTATGTGACACGCTGGAAGGACTT
CCTGGACAACAGACGGGCAAACTTTCAGTTAATTGTGTGAGGGCTTCAAGTGGTTTCAAGTGACAATGGAGTAAGAAATGAGACTTGTCAAAGTCCTTGC
CTGTTGTAGGAGAGAGAACCGCGCTGCTCCTGGTGCACGCTGACTGCAGTCCTAACCACGCAGCTCTGACAGCAGACCGCCATGTACAGTGTTCCTGTTG
TCTTTGTCTGTGGTATTGTGAAATTGATGTGGTAATCAAATGACGAATGAGGCCTGGTGCGYGGGAGTGAGAGGGGTCATGTATGGGAACACTGGGTTGA
TTCACCTCAAGAAAAAGCCCCAGAATCCCTGGCTGCAGAACCCAGGGGTGCCGCTGCCTGGAAAGGACAGAGTAGCAAGCCAGCCCCTCACCCAAGGGAA
GGCTTCAGAAGAGGCTTGGCCCCCACCATTGTGGGCCTCAGGTTGTCTACCATTCATCTTTGTTACACTTTGTGATGTAGCTCTGGACCAAGCCTCTTAT
CATCTTTGTATCCCTAAGGCCTGCTCCATAATAGACCCTCAACTGTTTGTTAAAGCAGGAGTCCACAGTCCCCGGGCTGCAGACCAGTACTGGCCTGTGG
CCTGTTAGGAACTGGGCTGCACAGCAGGAGGCGAGTGGCAGGCATTACTGCCTGAGCTCCACTTCTTGTCAATCAGCGGTGGCATTAGATTCTCGTAGGA
GCACAAACCCTGTTGTGAACTGCGTATGTGAGGGATCTGGGTTGCGTGCTCCTTATGAGAATCTAACTAATGCCTGATGATCTGAGGTGGAACAGTTTCG
TCGCGAAACCACTCCCCTTGACCAGCCCCCCAAAATTGTCTTCCACAAAACCAGTCCCTGGTGTCAATAAGGTTGGGGACTGCTGTGTTAAAGAGATTGC
CAGTTTACAGAGAAGAAACAGCATGAGGTGCAGAAGCAAGAAATTGGAGGTGCTGAAGAAAGAGTGGCTGAAGTGTGTGGTGTGGAAGGCAGTCGGCAGA
TCCCCGCCCACCCCAGGCTGCTCCTGGCACCTCCCAGACATTGCGCTTGTGATTATTGACACATCTCACTCATCTCCCAGATTGTGAGCACCTGTTTTGC
TCAGCACAAACATTTTAAAGCACTTTTTTCAGGGCAACTTATTTTCAAACTGCTTCTTACAGAAAATCCCCTGAACGTTCATGGTATATGGGTGAACCAC
AAGGAGCTGAGCTGCAGTTGTAAACTGGGCTGTCCCAAAGAACTCCAGGAGAAGCTGGGAACCAAGAAGGACATAAAAGAAGTGAGGGAATTGCCTGCCT
TGTTATCTGAGGAAGGGCAGTCCCAGAGAGGGTGGCTGATGCAAAGGCCACACCAGATAAAAGTCTAAACAGCAAAGAGGCCAGGGCAGGAGCAGGATGA
AGACACTGCTAGGAGGTTCACAGGCCCCGTCATTGCWGTTGGACACAGACTGTGAGGACTGTGGGAGGGACGCTGGTCAAATTCCCAGGGTATGGGAGTT
GGGGTACTAAGGGAGTTGAAGTCGTACTTGTGGGGAAGATAGAGCTAATAGAGTTGTCAATGGATTGGATGTGGGATGTGAGAGGAGGAGGAGGCCAGGA
TGTTATTTCTTGCCTGGAGCAAGTGGAAGGACAGAACTCCATCTACTGAGATGGGAAACCTTGAGGGGCTGGTGAGGTGAAAGAGGAAGGCTGGAACGGT
CTGGGCTTGTTCTGCTCCTGGAGCATCCTCCTCTGCCCTCTTGTTTACAGGGATATCCATGTCCCTATCCAAGGTATCTCAGTCAGTTCAGGCTGCTATA
ACAAAATAACTGAGACTGGTAAACAGCAGAAATGTACTTCTTAGACCTGTGGATGTTGGGAAGGCGCTGGCATTTAGGGTCTGCTGAGGGCCTTCTTGCC
ATGTCCTCACATGACAAAAGGTGAAGGGCAAAAAGGGCCTACCTAGTTCCCTCCAGCCCTTTCATACAGCACTAATCCCACCTATGAGGCCAGAGCCCTC
AGGGTCTAATCACCTCCCAAAGGCCCCGCTTCTTAATACTATCACATTGATGGCTACATTTCAACATAAGGAATTCTGGGGGACACATTCAGACTGTAGC
ACAGTGACTGACTCCCTCCATTGGAGTCTGGGATGTGCATTTGTATTCTGGTTCAGGCCCTGTATTATAGTAGTAAGCATATTTATTAAACTAATGAGGC
ATGTCAGTTAAGTAAATGAAGTTAACTCATTGCCATTGCTGCCTGTCCATCATCACTGGCAGACAGTAGGGCTTGGGAAATGGAAAGCCAGAGATAAATG
AACATCTCCCAGTGAGCACAAGCTCGGGGGCCCTAAGTCAGGTCATTTGTGTCTGCAGGTGAGAAGGGATACGCATTGCCAGCATGTTACTTCTCTTCCT
GTGCTTGATTCAATTTTTTTTTTTTTGAGATGGAGTCTCGCTTTRTTGCCCAGGCTGGAGTGCAGTAGTGCGATCTGGGCTCACTGCAACCTCCACCTCC
CGGGTTAAAGCRATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACGTGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAAAGGG
GTTTCACCACGTTGGCCAAGATGGTCTCGATCTCCTGACCTTGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACTGGGCCCCTGTGCTTGAT
TTTTCTAAAGCACATTACTTTCCTGTATTTAAGCCCTAGCAGCGTTGGATGGATGTTTTGCAGCATGCTTGGGTGTTAAGTGTCCTTTGAGTCAGAGCTT
TACTCACAGTGACCCTCTCCTGCCCTGTGCAGGTATAGAGAGCTGGGAGGTGGGAGGTGGGAGAGGGCTGGGCCCCAGCTCTGAGGGGAGGAGGAAGCAG
ACCTCTTCAGTACAAGAGGACCATGATGCTGCCCCCTCAGAACATGGATGTCTATCCTGGAGGGACAGAGCACCCACCTCACTTCCCTGGGAGTCCAGGG
TCCACTCACACTCCTCTGATTGGGAGACTCTGAATTCCTTCCAACAGTAGTCGTAACTTCATTTGACAGGCGAGGAAACTGATGCACAGAGATGGGACCC
TGTGGAAGGTCACATGCTTCACAGCGGTTCACCAGGTCTGATGCCATTGCCTGGGCTCCCCTCCCCCATGCCACCAAGCCATATTGCTTCAAGGAACAGG
CCTGTGCTCTCATGTTCCTTTTCAATAGCAACCTTTGGGCCTAATTTTTGGTGATTATAAACTGTAGCGCAAGCAAAGTACCGTGGACCTTGGTGAAAAG
TTCCGGTTGGAGGAACTGGAGAAGGTAGGAAAGTTGGGTAAAACTCACATAGACTTAGCTGTAGAGAAAGGGCTTCCAGGCTCACAGATGGCTCCAGTAC
AAGCGCTGTGGGGGCCAGCCTCAGGGGAGGTTAGGAAAAGCCAAGGTGAGAACCTCACATGCCAAGGTGACAACCTCACAKGGCTGACAGCCCATGTACT
GAGCTCYATGCGGATGTTTTCTGTGTTTCTTCACATATGTGCTTGCTCCTCAGTGTGTCCTGGTGAGACCAGTGTTATTTCCGTTATACAGAAACTGAGG
CTGAGAGAAGCTCAGCAGCTCTTTCACCTATGGGGGAGGAGGGATCTGAAGTGGGATTAGCTGAGCAAGTGGGTGGATTCCTGAGGCCCCACTCTGGGCC
TCACAGGTTGATCCAAGGGTTTAGTCTGCGGAAGGGCAGGTGTTGACACCTGTCTTAATCCATTTTCTGCTACTCCAACAACATACCACAGCCTGGGTAG
TTTGTAAAGAAAAGCAACTTATTTCTTACAGTCTGGAGGCTGGGAAGTCCWGGAGCATGGTGCCCGCATCTGGTGAGGGTCTTCCCATGGTGGAAGAGTG
GAAGGTGGAAGCCAGCATGAGAGACRGAGAGGAAATCGGGCTAAACTCCCGATTTATCGGGAATCCACTCCCCTCACTCCTACAGAAACAGCATTAATCC
ATTCATGAGGACAGAGTCCTCGYGTCCTAATCACCTCTTAAGTGCCCCGCCTCCCACTACTGTTAGAATGACAATTAAGTTTTCAACACAGGAACTTTGG
AGAACACGTTCAAACTGTATCAAGAGCCTTTTGTGGACCAGGGTGCTGGGGGCCTGGTGGGCTTGGAGCCAGAGCCCCGAGAGGCATGAGGAAGGCCTTC
CTGAGACCCCTCCCAGGTCCCCTCCACCTTGTCCGTGTTYCTGCAGCATGTGGCCTTTCCATCCTAGTTAATACCTGGGCCTTTGAGGCAGCATTTTTTG
TTTTTGTATTTTATGCTAGAGAAGCATATTTGACTTTGTTTAAAAGGTTAAGATCTTTCCTAAGCAGATGGCTTTTGTTTGAAAGAAAAAAAAATGGAAG
GCCTGCTTGCTTCCACTATTCCCTTGCACCGTAGGATGGGGAAGGACACCCAGGGTTGGAGTAGTCTCCAAAGTGGGCAAATTAGAATCAAGGACCCCAA
CTGCTGTATCGTAGGCCCAACTCCTCCTGCATCGCCTCCCAGAATCAGTCCTTCTGCTTTTATGACCCATGCCAACCCCACAACCCCTTCCCACTTGACA
TCAGATGGCAGTTTTCTCCAGTGTTCAACATCCTCTTCTTCCTGGGCGGCCCCCTCAAGTTGGCCATATTTAAGGAAGAATGAGTTTTGGTGTGTTCTCA
TCTCATGGTCACACGCTCTTCTTCTCATACCTGTTTTATCATTTGCTTTGCATTAAAAGTTGATTCATAGCACTTAACTTTCTCATTGGTTATGTAGAGA
CATTCATTCACTCACTCACTCACTCACTCACTTACTCACTCATTCCAAATATAAACCAGAGGAAGTTTCTGCTGCCATTGGCTATTGCTCTGGAATACTT
GGAAGCAGGCCTTCCTGGTCTTTGCTGTATGCAGCACGTACCTTGGCTGGTGACAGACCTGAGCGGATGCTTGGGAGCAGAATGTGAGCTGTTGTGGCAA
GCCTGCACACAGGCCAGTGCTGCCTTGTCTTTGGAGTGGAGCCTCCAGTTTGCTGGTCACCTTGGGCTTGGCCATTCTGGAGTTACTGCTCCTGTTCTCT
CTGTTGGCCTTGCCTTGTCCCTGCTGCCCCTCCCTGTCACCGCAGCCATTCTGGCTCTGGCCCATTCAGTTTATGGCATCAGTGGCTGCATTTTACTTAC
CCTGTGCCCATCCCCATGTTTGTGCCATGTCATARAAAGTCCTCCTAGGTGCCCGTTGTTCTCTTATTTGCTGGGCTTCAAGAATTGGTGGCCCTGAAGC
CCCCAAGGGTCCCAGGACCCCTGTTAGGTGTAGACAAGGTCTGAGTAGATCCCTGGGTAGATTCAGTTTCCATCTGGCCCTAGGGGACCCATGGAAACGG
AGGCTGGTCTGGAACACTGTGGTAGAGAGTGGGTCACATTTTCTTTCTAGGTTGGATTAACAGCTCTAGTAGAGCCACTTCAGTGAACCCGTCGTCTTTA
CGTTAAAGTCATCTCACACCATGGAGTCTCCAGAGTGGTGAGGTCCAAGCCTAGCCTAGGGAATATTGGGAGTAGGGGAGGCTCAGGGGATGTGTTCAGG
GTGTTCTGAGCCCCACCTGGAGTTAGAGAGGGGGTGTGGTATTGTGAAATATATACTTGGTCTACCTCCCTCTTTTCCTGAGGTATTCTTAGAATCTCTG
GAGCGGTAAGAGTATCTTTGTATGCTAATGAGAGAATCTCTGGAGCGGTAAGAGTATATCTTTGTATGCTAATGAGATGACTGGTGGCTGGGGGCTCTTA
AATTTAGGATTTGGCTGGTTGCCAGGGTAACCAATCCCATGATTAGAGGGCTGGAATTTACAGTCTTCCACCCTCCCACCTCTGGGGAGGGGAGAGAGGC
TGAAGGTTGAGCTGGTAAATCAATGGCCAGTGATTTAGTTAATTATGTCTATAATGAAGCTTTCATTAAAGACCCAAAAGGAGGCCAGGTGTTATGGCTC
ACACCTGTAATCCCACCACTTTGGGAGGTCAAGGTGGGAGGATTGCTTGAAGTCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACCYCATCTCTA
ATTTTAAAAAATTAGTAATTATCCAGATGTGGTGGCACACACGTGTGGTCCCAGCTACTCAGGAGGCTGAGATGGGTGGATGGCTTGAGCCCAGGAGTTT
GAGGCTACAATAAGCCTGATGTCATTGCACTCCAGCCTAGGAGACAGAACAAGACCCTGTCTCTAAAAGCTGGAAAAAAAAAAAAGTACAAAACCCCAAA
ACTCCAAAGGACTGAGTTCTGGGAGCTTTTGGATAGCTGAGCATGCAGAGGTTCCCGGAGAGTGGCACATAGGGCGGGCAGGGCAGCTCCACGCCCTTCC
CACATGCCTTGCTCTGTGCACCTCTTCCAGCTGGAGGTTCATCCGCATCCTTTGCAGTATCCTTCCTGTCTGTCTGCAGGAAGGTGATATTTGTCTTTCT
GAGGTTATTATTAATAGTAACTTTCAGTGCCAGTGAATGGTGTGACACCTCACTGATCTATGATTTTAGCTGTCTTGGATTTGGGGTTTCTGAGAGTAAG
TCCTTTCCTCTTTCTGCCCCTCTAAAGTAGCCTCTTTCTTAGAGGCTGCTGACTCATGCTCAGCTTCATGCCAGCCTTTCATTTTACTTTCTCTCTTGTG
CTGCCTGTGTTTGGAGAGCAGAGGCACAGTGAAGCTTCTCAGCCCATTTGCTGCCACAGTGACAGCAATAGGCTGTGGTGGGGTAGGACGGGGGTGGGGT
AGGACGGGATCCGGTGGGTGGGGCAGGGAGARGGGCCCCCATTGCACTTGGGCTTTTTCTTTGGGTTGATAACGATAGTTCATATTTCATCTCCATGTGA
CCTTGAAAAAAATCACTCTGAGCATCCGTGACCTCATCCGTGCAACTCCTTTTAAAAATTATTCTTAGAAGAACCCCARTGAATAAGCAAAAGTGGAGCT
CTGATGTGTTAATCCTCACCCCTCAACTCCAGCTCCGGGGAGCCTGAGAGGTTCCTGAGGTGGAGGGACCTGCAGTACTCCCGCTAGGCCTCTGGCAAAY
STTTCCCAGGACTGCTGCTGAAGGCCTTGCCACCTCACTAGTCCTGTGTGAATCCTAACACCCCTCCCGTCCTGCCAGTGCCCTCTCCACCACCCCTTTC
CCTGCCCCCCATGGCTGGAAGGGACATCATGGGAAGTGGGATAGAACCTCAGGGTTTACTGTCCACTTGATGGCCTGCCGCCTCTTGTCGGAGGGGTCAC
ATGAGTGCGCAGAGTGAGGAATGGGAGCTGCTCACTTCATGGGTTATTGCTTCTTTTTTCTTGACYCCAAGAAAAAATTCCAGCCCCCTAGACAGCTCCC
ACACATTCTGTCTCCTCTTCTGCTTAAGTGCAGTTTTTCCTCCTAATGAACTCTGGTCTTCAAATGGAGCTGGGAGGAAAAACAAGGACCTTGGGAATAT
ACGAATCCTTGGTGAATTACCTTATATTAATGAGACCAAGAAGAGAAATCGAGTTCAGCTGTGCAAATTAGCTTTGCGTTCTGGGCCTTGATGACTTAAA
TTGCAGATTCTAATTAAATGTCCCCAAATAACTATGAAGTGCTTCTAAGGTCTTTTTGACCTAAAAGTTTCYGTGACCTGTGAACTCTCTCAAGTGTAAA
ATTAGTCTGTAGATGTACCCCTTTAAGCATTTCTATCTCCAGAAACCTCATGATGCCTAGGATATAAACCACCCTCCTAAGGGCAGAGCAGGCTGGTGGA
GTGGGCAGGGACCCTGCAGGGAGAGGTGGAAAGGGGTAGGCATGGGTGAGTTTCGGAGCTTCCCCAGGGCTGGCAGGATGTTGGGGTACAGATGTGTCCC
TCTGTTAGGTGGCCTGTCTCCACTGTCATAAGTGAAGGGGGTGACCGACACCTTCACTAACAGGCTGAGCAGGGCAGCAAGGCAGGCAATGGAATGCTTT
AGACACACTGGGAAAAGGTTCAAAAGGGAAGAGCCTCTTCTTCAAGCTGAAGTCATGCCTGGGGTGCTGCCCTGCCTCTGGCCAGCATGGGGTGCAAATC
TTCAGTGACACAAGAGTATGGCTGTTAGAGAAGGAGGAAGACAGTTCCCCATGATCACACCCCCAGCATGGCTGTCATCTTGATGCAGCCRCCTGCTGGC
TGTCCCCTCTGTACAGTACCTCTTTAAATGGCTGCAAACAGAGCAAAGGTGGGCTATTTCTTTAAAAACACATGATGCAGAACTCACGTAAGTTTTTTTT
TTAATGCTATGTTGTCTTGTATACACTTTGTATTGGGGTATAAAAATCACCTGTGTACAGCTCAGTGAATTTCACACAGTAAAGTCTGTGTGTAACCCGC
ACCCAGATCATTTCCAGAGCCCCGGAAGCCCTCTCACCCTCCCCAGTCAGTACCCACCCCTTCAGGATACCACTCTCCATACTCTGGATGCCACAGMTTC
GTTTGGCCTGTGCTTGAACTTCGTATGAATGGATTTGCCTAGAATGGTCTTAACTTTTCCCCTTGACGTTGTTTCTGAGACTCATCCCATTGTTTCATCT
GTTCTACTGTTGACGAACATTTAGGTTGTCTCAGGTATCTTGCTACTGTGAATGTTGCTGTTCTAAACCTTCTCTACAGGCTTTTGGTGAGCATAAGTGT
GCGTTTCTGTTAGCAGCTCCCCCTCTGAGTTGTATGCCAGGTCACAGGGTAGGTGCATGTTCAACTTAAGTAGAGACGGCCAGTTTTCCAGCGCGGGTGA
CTATTTACGCTCTACCAGTAGTATCACTTCCAGTTACTCCACGTCCTCATCAACACTTGGTACTGTTGGTCTTTTGTCATTTTTGCTATTCCAGTGCTTG
TGCAGAGGTATCTCATGGGTTCAGTTTGCATTTCCCTGATGACTAATGGGGTTGAAGAACTTCTCCTGTGTCTGTTGGCTTTATTATGATCATTTTGATA
GCCAGATAATAGTGTGTCTTATGGATGTTCCAGAACATTCTTTTCTTACCTATAGCTGGGCATTTGGATTGCTTTATTATTATAAGTAATGCTGCAATAA
GCATTTTTACCCAGTAGTCTTTTCCATGTTCTATACTATTGGCAAGAGTTTTGTTATCATTTACAAATTTTGATAATTAATGCCAGATGGCTTTCTGAAT
GTTTGAACTACTCTAAGATGGAGTAACAATATAGGAGAGTCCTAGACAGCTTCCCCCAGGTCCTCCAGCAATGTGTATTCTCATTGAAGAACAAACAAAA
CTCTTTTGGAGGACGAATTTAGGTGAAGGAAAGCATATTTAGCATTGCGTTACTTAATGAGTTTGGTCACTTTTTCAAAATGTTTACCATGTGTGTTCCT
CATTTATAAATTCCTACCTTTTGCCACTTGCATTTTGGTGAGTTTTTTGTTAATGTGTACAACCATTACTGTAAAAAGCAGATATTAGTACTGTAAGCAC
TTTCCTGTTTTACCAGTCACATTGCACATTGCTTCACTTGTGTGCCTTTTGACGTTAACCAGCAAATCTTCCCCTTGGTGATTTTTATTGTGGCTCCCCC
ACCAGGCCACTGCCGTGTCTGCAGAGATGCCCAGACTGAAGGTCCCTGGGCACCCCTAGTGGGAGGGATAGGAGCATAGCCTGTGAGAGAAACTGAGTCA
GCCCTGGGCTAAGCACTCTGCTCTTGCGGTCATCTGATTCCCCGACCCTGGTGCTTTGAGAGGGATGGCTCATGAGCTGAGCCCTGCCCTGTGGCCTGCC
AAACAGCCCCTGTGGTGCTGGGACTGAGTGGGGCCTGGGGGCCCAGCAGCAGCAGCATTGTGGGAACTCAGTGGAGTTTGCAGAGCCCTCTCCTGTTCAC
GCACATTTGGTTTTCATTGCAGCCCCATGAGATGGGTGCAGCCCATCCATCCTGAAGGGCAGGGCCTTAAGAGGGCCCTGCAGCTTCTCCCAGGGCCTAC
AGTTTGTGAGTGGGGAAACTGGTCTCACATTCTCATCCCCCTAAACCACACCCAGCTGCTCACCTGGCTCTTTAGGACAGGCCCAGACTCCCCCAGCAGA
TCAGCCCTGCAGGGGAGAGGAATATGTGCTTTCTCTTTCTCATTTATTTTGGGTTTGAGCAAAACTTGTATTTTTGAGCCAGAAGGTTGGATTGGGGTGT
GGAGCTCAAACAAACATGGAGTAGCTCTTGGCCTCCACGTTTCTAGGCATTGCAGTCTCTCAGAAACTTCATGTTTGACCAGCTTGTTAAGTTTTCGCTT
TCTTATTTTTAGATGATGGATTTGGACATGCTTCTATGAAGAAATGCCACATGGTCCGAGAGCAAACATGTCCAGTAAGTTGTTTGGTGAATTAACCCAA
GGACAGGAGCCCAGGTCCTTCAGGCACAGGGTGTGGACACCCTTTGAGAAGATCAGGGCTGTCTCTGGAAATATGAAGACCTCTGAGAGAGTGTTTTAAA
CTAGGCTTATTGCTCAGTCTAATTATCTTAACTTGTAAAGGTTGGTTCTTTCTAGAGACAGCAGGAGTTGTAGCATATAGGGTTGGAAAAACCTGAAACA
CCTTCTCGCTGCTTAATCTAGTTYTGAGAGCAGAGTGTGAGCTCTGGAGCTCTGAGCCATGTGAAGCGTGTGACTCAGCCTGTGGCAGTGTTTTACCCAG
AGCCCTCCCTTTCCATAGCACAGCACCCTCCACTTCGCTTAGGCCCAGATTACATGCTTTGCGGGAAGGAAAGCCTGAGACCCAGACACACGTGAAGTTT
ATGCAGCTCTGGGAAGAAAGCCAGCAGGTTAGAGTTGTGAGCTTTGTCTCACTAGTGTTTTGCCACCTGTATGTAGCCCGTGGACAGCAGACTCTTCTGC
AGCTCTTACCCTTCTCACAGAGGTTGTGGTGAATTGATTTAAATRTTTAAAGGTTCTAAGAGACTTGCCAACAGAAGAGCATAATAAAGAGAACAAGAAA
ATCTCGAAAGCCATATTTTATAATTATATGAAAACCATCATTCACTGTGGCATATCTCTGCTGAAGAGGACAGGACATCCTCAAGGGATCCCATGGACAC
CCTGTGTTGGGGAGTGGGGAGGAAGAAGTGACCAGAAGGGGCAGGGAGCAGYGGACAGTCCACCCCGGTTCCTCACATGCTGGGGAACCCTGTCACTGTA
CCTCGCCCCCGGTAGGTCACGTTCTTTCTAAATGAGAGCATGATTTCTCTCCATCACCGTCCCCATGGTTTCTTACAAGTGCTCCTTTTCTCAGGGCTAC
TGCCACTTTAGTGGACTAGGGCTCGGTGCCAGCACTTCCCGGGTAATCAGGCGTGGTCTGACCGAGGATCAAGAAGCACATCATCACCAATGACATCATG
ACAGCAAGAGAGCACAGCCCTCGCCATGGTGCCAGGGCCCGTGCAATGCAGCGGGCTTCCACCATCGACGTGGCGGCCGACATGCTGGGCCTCTCTCTGG
CAGGTGAGCCTCACAGGGCCTGCACCGGGCTCCAGGTATGAGCTCACAGCACCTGGGCTCCACACTGCAGCAGTGCTGGCAGGTACCCAATGATTCCCCA
TGACTACCCTAGACTACAGGGTACCCTGGTTTGGCATCCTTCTGGTTGAACCAGGAAATAGGGAAGGGGGATGTCAGCCCTCTTCCTGTGAACCGCTTCT
GCTGGAGCCTGACTACATTAGTTTTCCAGTTTGGTGGCAGGGGCACCACCAGGGTAGTGTGGGAATGTCCAAGTGTTTTGCTGGCCCATGCCCAGGCCAT
GGTAAAAGCCCTCCCTGTTGTGGATRTGTAGATCTGAGGAGGAGCAGGGGTTTGGTTGTGGGGTCAGGGACTTCTTAGCAATCTCAAAAACAAAATATTT
TTAAAATAAAGAAATTGTCTTGCATGGCAGTTTTTGTTGTTGTTGGGGGGAAGTAGAGGGTCATTTGTGCATTTAATCTGAAAACAGAGAAAAGTTTATT
AAGGATGATTTTTCTGTCATTTCTTTTCTATTCAGGAAATATACAAGACCCAGATGAGCCCATTTTAGAATTTAGCTTAGGTAGGTATCTTTCATTATTT
TTTTGTTTTAAAAAATATTTTACTTAAAAATGAAAACAAAAACACTACCACCAGTGCATGGGCTTGTCTCAGAGAGCTTGCTGCTGCTGCCACCACTGCT
GCAGCGTTTCTGAGAAGACGGAGCCCTCACAGTTGTGAACTTCTGTGGATGGGAAGGCACCTTGGAGCCTCCGTGCCCACAGGCTCCTGTCTCCTCAGCA
TGGGGCCCGCCCCCTTGGGGGTATGCTCTCCACAGGTGGCTGGGGACAGGGAGGTGAGCCCACCTAGAGCTGCCAACAGAGACCCTCCCCACCCCCACCC
CAATGGGGGAAAGGGAAGGAGGGGTTGGGGAAACCGGGCATAGAGTTCAGCTTTGTTGCCCCTGGCTGCAAGGCCTTGTGTTGGCTGAGTTTYGCTCTCT
AGCCCTCAGTTCCCTATTGTATAAAAGGCAACATTGGCACCTGCATGCTCTCTTTCTCAGGATCAGATAAGAATATACTAAAAAGTGGATCAGAATGTGC
TGAGTCTGGGGTCAGCGATACGTGGCATCACTGTGCTTACCCAGGAGGCCTGAGACGCCTCTCCATCAGAGCCCAATGCTACCCAGCGCTCCTCTCCCCT
TTTCCCATTCCTTGGTCAACATTAGTTGGTGGCCTGGCACCAATGTCCAAGAGGTGGTGTGACATAAAAGAGGCACCTCCTGGGGAGTCAGATGACCTGG
ATTCCAGCCCTGACCATGCCAGGCTAACCACATGGCCTTGAGCCTGCCACTCGACCTTGCTGGAACAGTTTCCTCCTGTGCTACGTGAGGATGCTACTGC
TTGTTTGAGAGACAAAGAAGATCAAGGTGGTTAAGCACCCCCCAGCCCCAAAAGACTTGGACAAATTGCAAAACCCATAAAAGTGTAAGTACACTACTGG
CCGGGTACAGTAGCTCACACCTGTAATCCTAGCACTTTGAGAGGCTAAGCCAGGAGGATTGCTTGAGGCCAGGAGTTTGAGATCAGCCTGGGCAACATAG
CAAGACCCTGTTTCTAAAAAAGAAAAAAAAAAAACTTACCTGGCTGTAGTGGCACACGCATGTATTGCCAGCTACTAAGGAGGCTGAGGTGGAAGGAGCC
CTTGAGCCTAGGAGTTTGAGACTGCAGTGAGTTATGATTGGGCCACAGAGGGATACCCTGTCTCTAAAAAATAATAATAAAAAAGAAACAAAAAATAGAA
TTTGGAAGAAACAGAGACATTGCAGAAAGTTTTAAAGAAATAATAATTTATATTGGCCAGGCATGGTGGCTCAATCCTGTAATCCCAGCAGTTTGGGAGG
CCAAGGTGGGCGGATCACATGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTGTCTACAAAAATACAAAAATTAGCCAGGCATGA
TGGTGCGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAAGCAGGGGAATCGCTTGAAGCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCACCATTAC
ACTCTAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAGAAAGAAAGAAATTATAATTTGTATACTCAAGAAAAGATAGTATATCT
ATAAAACAAAACCAGGACACTATAAAGATAAAAAGAACAATTGAAGAACAAGAACAATCTTAGAAGTTTAAAATATGATAGACAAAATTTAAAAAATTCT
ATGAAGTTTGGAAGTTAGTCAAGGAATTCTTCCAGAAAGTAAGATTTTAAAAACAAAGTAGAAARTGGGTAAGAAATAGAAATGGAAATTTTGAGAGTAA
ATCCAGAAGGTCCGATATTTAGAAGAAAAAACAGAAGAGAATGTTAAGGGAGGAAATGCAAAGAAAGAGGAAATCTCCGAGAACTGAAGAATGTGTCTGT
AGGTTAAAAATGTCTACCAAGGCCCAGCACAATGCTGAAAGAGACCCATAACAAGGTGTATTGTGGTGAAATTTCGGATCACAGGGAATAAAATGAAGAT
CCTGAAAACTTCCAGAAAGAAAAAAAAAAACAGGTCATACCCAAGGATCAGGAATAAAACTGGCATGGAATGTCTCAGTGACATTGGAAACTTGAAGACA
GTGAGACAACACCTTTAATTATATTTTCAACCCAGAATTCTCTGCCCAACCAGACTATCAGTCAAATGTGAGTGTAGGAAGAAACTTGTTTCAGCTGCAC
AGAGTTGTACAGCAAAAATTTACTTCCCCTGCATTCTTTCTCCGGAAGCTAGTGGAGGATGTGTTCTCATCCTAAAGAGGGACCACACTGAGCAGAGAAG
TCATGGGATCCAGGAAACAGGGTCATCACAAGAGAGAAGTGGAAGGAATCCCACATGGTTCTTAATGAGTAATATGTGCTTAACTTTCATCATGACAATG
TGGATTTAACACAAATTGAGCTAAAATGATTGCATATGGAGAGAGAATGACAGTTGGTATAATTGAGTTAAAAATCCTCATCCGCCTATAAATCAGGACA
TTTCTGAATCTGGTGAACGAAAAACAGTAATATAGTCATGTTAATTGGGCACATGGAGGAAGAAACTGCTTTAAAAAGTAAGGATTAATTTTATATAAAG
TGAATTTTACCCCAGTTTTTTTTGTTTTGTTTTTGTTTTTGTTTTTTTGTTTTTTTTTTTTGAGACGGAGTCTCTCTCTGTCTCCCGGGGTGGAGTGCAG
TGGCACAATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCATGTCATTCTCCTGCCTCAGCCTCCCGAGTAGTTGGGACTACAGGCACCCACCACCAC
ACCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCGGCCTC
CCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCACCCCAGTTTTTTAAAAAGCGAGGAGTGGGAGCTGGATTATTGAATGGACAAATGTGT
TGACTTTTAAAATAAAACTTTAAATTTTTAAAAAAGTATGTTCATTGTAAAACCTTCAATACAGAAAATGTTGCAGAGAGGTAGTCAGTTATCACTTTGG
TATATATCCTTCCAAATATATATGTTTGACCCTCACAGAGTACTATATGGAGATTTTGAATGATTTTTGGTTGTGGAAGTATGGAATTATTTCCAAACAT
GTCATCCTAGTGCTCTTGACATTCTTTTTTCATGTGGCAAAATACCTTTTTTAATATATATGGGATCTGCTTGATCATTTTAAATGCCTTCATAGAGTCT
CTAATAGAGCTGTGCCATACTTATTTTAGCCAGCCTCCTACTGCTGGACATTCAGGTTCTTCCCAATCTGCCATTATAAACACTATCACAGTGAACGTAT
TCATACATAGATCTTTCATACATGTTGCTGATTATTTCCTTAGGATACACTCTTGAATATAGCATTGTTGAATCAAATATATGCAGTTTACCTCAACAGC
ATTTATTTAGTGTTTATTCAGCTGGGATTACAGACGATCAGGTTGGAGAGACAAGGCTTATATATCAGAGGTGTGTGGTTTCTATGGAAATATGCCAAAT
GAATGACGTAAGTGAGCCTGCAGGCTGCTCAGAGAAAACTTAATGGAAGCTATGGAACTTGAGCCAGGAATCAAACCCTGGTTGAAATTTAGATAGGCTG
GGTTGGGGGAGGAGGCCAGGAGAGATTGTCCCTTGTACGAAGGCATGTTCTGAAGGTGGCCATGGGACCATCAACCCTTAAAGTAATCTCAGTCTTCCCA
GCCTTTGGCCACCTGCTGTACCTTACGTCTGTCTGCCATCATTACTGCCTGAAAGACCTGAATATTCCTACCTTGCATAGGTGTCAAGAAAACTCACACC
TGATAAAAGGGCAGGTAGAGAGAGGCCACAGGTCATTTTAGGGTACTTTGTAACTTAAAGAAGAGACAAGTAGATCAATCAAATTAGGGAATTCCTGTCC
AGGCAGACATAATAGAAGAAACAAAAGAGAACTTAAAATAGTAATAAAACCTTGAAGCCTCTAGAAGAAAAATAGGAGAACTTTCAAACTCAGGGTAGGC
AAAGATTTGGACAGAGCACAAAAAGCACTGTTTGTTTTAGTTTGCTACTGCTGCCATAACAAATTACCAGAAATTTAGCATGTTAAAGCAATATAAATGT
ATTATCTTACAGTTCCCTTAGATTAGAAATCCAGTGTGCTCACTGGGTCTTTGCTTAGAGTCTCACAACACCAAAATCAGTGTTAGCAGGGCTGGATTTA
TTTAGAAGGCCTCTGGGGCCTATTTCCTATCTATTTCCTTGCTCATTCGCGTTGTTGGCAGAATTCAGTTGCTAGTGGTTTTAAATTTTAGGACTCCATT
TTTTTGCTAGCTATCAGTTAAGGCCTGTTCCCAGCTCATAGAGGCCACTCACATTCCTCTTGTGGACTTACAGTCCTCTTCCTCCATCTTCAAAGCTGGC
AGTGGCAGGTCTAGTGCCTTCCATGCTTGGAATCTCTCCTGCCTCTTCTTCCATTGTTATATCTTTATGATTCACCCTAAGGCCTTCCTCTTCTATTTTT
AAGGGCTCCTGTGATAGATTGAGCCCATCTGCATAATCCATCTGAAGATCACTTAATCACATCTGTAAAGTCCCTTTTGCCATGTAATGTAATCTATTCA
TAGTTTCTGAGGATTAGGACATAGGTACTTTTTGTCAGAGAGGGGCTTCTCTGCCTACCACTTCCTAAAATTTAAAAAAGATACATTGAATTTCATCAAA
ATAAGAAATTGCTGTCCATAAGAGACATCACTGAGAAAATGAATAGATGAACCACAAACTGGAAAAAAATATTCACAACACGTATACTTCACAAAGGACA
AATAAATAGTAAACAACCAAATTTTTAAAATGAGCAAAAGACTTGAGCAGACACTAGACAAAATAAGTTATACAAATGAACAATAAGCACATGTTAAAAT
GATGCTTAACAGCATAAGTCATCATGTAACCGCAAATTAAAACACATCTATTAGAATGGGTAAAATTAACAACAACAACAACAACAAAACAAAACACTCT
ACCCAACTGGAACTTTTGTATATTGCTGGTGGGAGTGGAAAATGATACAAACACATTGGAAAACTGTTGGCTTCTCATAAAGTTAAATATATTTTAGTTG
TATGTAATTATGCAGAAGAAATGAAAAAGTGTTCACAAAAAGACATGAACAACAACATTTATGTCACCTTTATTTAATAGTTCAAAACGGAAAACAACCC
AAATGTCTATTAACAGTAGAATAAATAAATTGTACAATGGAATATGACTCATTTTTTAAAAAAGAATGAATTATCAATACATGTAACAACACAGATGAGT
CTCGAAAACATTCCATTTGTATGAAATTCAAGAACAGACAAAAGAATAGTGATGGAAATCAGAAAATGCTTGCAAAACTAGGAGATTTGTACAAGAGGGA
ACTTTCTAGTCTGATGAAAAAGTTGTGCTATCTTGTTTTGATGGTGCTTACATGGGTGTTTATGATTGTTAAAGCTCATTGAACAGAAAAACCTAAGCTT
TTTGTATTTTATTGTATCCAATAAATAATGAAGGTTCATGAAGATACATGAGAAGATATTACAGAGAACCAAAATTAATTTTTGGAAATAAAAATCAGTT
TATTAATTTTAAACCACTAGTTGTCATTTAAAAATAAGAATGATGAGGGCATATATGGCAGAGTGAAGACTTCCAAAAATCTTCTTTTCTATAAAGGCAA
TGAGTATACTGGCAAAAATGGTCAAAATCAATTGGTTCAGAACTCTGAAAATTAACAGAGGCTTACAGCACTCTGGGTAGCATTTATTTAAGAAAAATGG
TGTATTAGTCTGTTCTTGCAGTTCTATAAAGAAATACCTGAGGCTGAGTAATTTATAAAGAAAAGAAGTTTAATTGGCTCATGGTTCTGCAGGCTATACA
AGCATGGCACCAGCATCTTCTCAGCTTCTGGTGAGCCCTCAGGGAGGTTTTATTTATGGCAGAAGGAAAAGCGGGAGCGAGCATCTTACATGATGAGAGA
AGGATTAAACGAGAGAGGGAGGAGGTGCCACACACTTAAACAAACAGGTCTTGCGTAAACTCAGAGCTAGAACTCACTCATCACCAAGGGGATGGCACTA
AGTCATTCATGAGGGATTTGTCCCCCATTATCCAAATACCTTCCACCAGGCCCTACCTCCAATACTGGGGATTACCTTTCAGCATGAGATTTGGAGGGGA
CAAAACATCCAAATCATATCAAATGGGTTCTTAGAGAGCTTTATGATGTTTTAACTTGCCCTGTTGCTATCGTCCTCTCTCTAGCTCCAAGTAGACTTTA
AAGGCAACATCTTTGATGTTATAGTGAAAATCAATAGCCTAAAAGTCCCTGAAGGGGACAGAATGGGGTTGGAGATCCTACAAAAAAGCCCCTTTCTTAG
AGAGTTATCATTATTTGGCCTGTCTGGCAGTTCCCTGGAAAACCCTACATCCTGTACCTGCCTTTATTTGGCTTAACTCAGAATCAGTGACAACAGCTTT
TTCCCTGAGAATGTTTGTCAAAAACAATCACTGTCCATTTTTTAACATTGCAGCTGCCAGAGGTAGTAGTAACAGTTGGAGCAAACAAAAAGCTAACCAA
AAAAACCTTAAAAGGGAAAGCTGGGGAATGAGATATTCACAGGGAGATTTGAAAAGCTCTTTCATATTCCTGGGAACTTCAAAGGCCAGTGAAGGGCTGT
GCACATGTCCAGAGCTGTGTGCATACTCAGGAGACGTGAAAAGGCCCTAAACAATTACCTGAGATTGACCCTGAGGTTCTATGCAAGTGGCAAATGAAGG
CTAAGACAGAGTTATAAACTGCCTTCCTGAACATTGAAAATGCACCCCAGTATACACACAGGGACTCTTAGCTACAGCAAAGGTCTGTGATTCTGGTATT
TAAGGAAATATCTGTCCAACCATTATCTGACTACTAACCTAATGAAGCAGTCACTTCAGTGGCCACACATGACAAAGAGTATTACTTTACAGAATTAGAT
CAGAAAAGGCACTGAAGAAACAGCCACACAAAAGAGCAGCAACAACAAAGCTTGGGGAAGGGAGAGAATCTAATTCCAGAGATCTCACATTATATTATTT
AAAATGTGTAGTTTTCAACAAGAAGTTATGAGATGTTGCAAAAAAGAAAGTATGGCTCATACACAGATRGAAAAAACCCATACAGTCAGTAGAAACCATC
CCTAGGAGGCACAAATGTTTAACTTAGTAGACAAAGATTTTTAAATCAGCTATTTTAAGTATGTTCAAATAACTGAAGGAGAGTATGTCTAAAGAACTGA
GGAAAGTATGAGAACAGTGTCTCACCAAATAGAGACTTGAAGAGATAGAAACTATAAAGATATCTAAATACAAATTCTGGAGTTCAAAATTATAATAACT
GAAATGAAAAATTCATTAAGAGAGGCTCAACTGTAGGTTTGAGAAGGCAGAAGAAAGAATCAGCAAACTTGAAGACAGGTCAATTGAGATTATCCAGTCT
GAGGAACAGAAAGGAAAAAAGAATGAAGAAAAATGAACAGAGCCTCAGAGACCTGTGGGACACAATCAAGTGCACCAATATACATATAATAGGAGTTCCA
GAAGAAGAGTAAATTGAGAAGGGGGGAGATAAAAATGTTTGAATAAATCATGACCAAAAACATCCCATGTTTGATGGAAAACATGAATCTACATATCCAG
GAAGCCCAATGAACTCCACATAGGATAAACTCAAAGAGATCCACACTTGATACATCATACTCAAATCATTGAAAGCCAAAGACAGAATCTTTAAAATAGC
AAGAAAGGAGTGACTTATCATGTATAAGGGATCATCAATAAGAGTAACAGCTAATTTCTCATCAGAAACCATGGAGGTCAGGAAGGTGGTAGGGTGATGT
ATTCAAACTGCTGAAAGAAAAAGACAACCAAGAATTTTCTATTCGGCCAGGCGCAGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGG
CAGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCATCTCTACTAAAAATACAAAAAAAATTAGCTGGGCGTGGTGGCAGGCG
CCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGGCGTGAACCCGGGAGGCGGAGCTTGCWGTGAGCCGAGATCGCACCACTGCACTCCAGC
CTGGGCAACAGAGCGAGACTGTCTCAAAAAAAAAAAAAAAAAAATTTCTATTCATCAAAAATATCTTTCAAAAATGAATAAGCAGTATGTGGTGTGTTTA
TACAATTGAATGTTATCAATAAAAAGGAACGAAGTACAGATATTTGCTAGAGTATGGATAAACCTTTATAATGTGCTAATTGAAGAAGCCAGATACAAAA
AGCCACCTATTGTATGATTCCACTTATATGAAATATATGGACTAGACAAATCTATATAGATAGAAAGTAGATCAGTGGTTTCTTGGGGGACCAGTGAATG
GGGGTAATGGGTTTGGTTTGTTGTTTTTGGATTGATGAGAATGTTCAGGAATTTGTGGTGATGGTTGCACAACTCTGAATGTCTTTAAAAAACCACAGAA
TTGGGCTGGGCGCAATAGCTCATGCCTGTAATCCCAGCACTTTGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGATCCAGACCATCCTGGCTAAACG
GTGAAACCCCGTCTCTACTAAAAAAATACAAAAAATTAGCTGGGCGTGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGG
CGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCTCAAAATAAAAAACAAAA
AAAGACAAAAAATACAGAATTGTGTACTTTAAGAGGGTGAACTTTATGATATGTGAATCATATCTTAAAAGAAACGTAGTAAAAATTAAAGCAATGCTGC
TGAAAACTCTTATTAAATCTGTGAAGGTAAATGAAGGAACCATCTCACAGTTCAAGTACAAAATAACAAGAAAGAGAGATTGTTAATGAAGAGATATGAC
AGATTTGGTAGTTCTAGTATTTGATTGATAGGAGACCTAGAAGCAGAGAGAGAGCTGGAAAGAGGAGTAGCAGCAAGCCAGAAGCAACAGAAGAATTCTT
TCCAGAGGGAAGAATGGACTTAAGACTCAAGAATATTCCAGCTGCCAGGCATCTCCTTATGAGACTAACAAATTCTAAGGAGAAAGAAAATCTTTTTCTA
GATAAATAACAAACATCAAATCTACCATAAGGACAACTAGAAAAAGTGAAAAAAAAAAAAAAATCTGAACTACCTGGTCCATGCTACCAGAGAACTGATA
GGACAATAAAGAATCTGAGAGCAGAGGCTCACTTATTCCCTTGAGGGCTTACAGTGGTTCCCAAGAGAAAGGCCAAGAGAAAGGATTAGATGGATTARAC
ACTAAGTGTCTAAAGACACTTAGTGCTTTARACAGTGTCTYAGTGAGAAGTGGCAGGGATTGCTTTCTAGGGTCCGTTAGGGGAAGGATACTTGTTGAAA
CCCCTCTCACTTTGATCTARAATCCAAAAGGCTAAATCTAAACCTCTAGAGTAAAGGAACCAGAAGCAGGTGTTCATAGGGACTACAGGTTCATTAAGTT
TCTGAAAGTAAATGAAAATATTTTAGAGTGCTAGTGCTCCTTGGAACCTTGCAGAAGTAGTTACAAATCTTGTCTGGAGAAAGCACCATCCTAGACCTCA
AATAATTTCTACAAGCAATTCTTAAAATATAGTGTTCAGCATAAAATCATGAATTCTCAGAAACATGAGGAGATAAGAAATATGAACAGAAACAATAAAC
ATAGAAATAGATCCAAAGGGGCTGTATATATTAGAGTTAAGAGACAGACACTAAAATAACTGTTATTGACTATATGTCTTAGTTAATAGGGGCTGCTATA
GCAGAATATTGTAGACTGGGTGACTTAAAAAATAGAAATTTATTGCTCACAGTTCTGGAACCTGAGAAGTGCAAGATAAAGATGCTAGGATATCTGTTGT
CTGATGGGGGCCAGCTTCCTGGTTTGCAGATGGACGTCGTCTTGTTGTGTTCTCACATGGCAGAGAGCAGAGCAGAGGAAGCAAGCTCTTGTGTCTCTTC
TTTTAAAGGCACTAATCCCATTCATGAAGACTCTACCCTCATGACTTAATCACCTCTGAAAGGCCCCACCCCTAATACCATCACATTGGGATATAAGATT
TCAACACATAAATTTTGGGGTTTGTGTCAGAGGACAGACCTACTTAAAGAAACTTTAGGGGGACACAAACATTCAGTCATAACACTAGGTAAAGAAGAAT
AAGGACATTATTGAACATTTTCAGAGAACTAGAAACCATGAAAAGAACCAAATAGATATTCTAGAATTAAAAGAAAAATTTCAAGAAGSAAATTTACAAA
ATGAAGCCAGAGCAATAAAAATAATGGAAAAAAAAATCAGAGGAGAGTAAAAACAGCRTAGTGAGAGGTCTAATGTTACATTTATTTTGTATCTTTAAGA
AGGAACACAGAAAAGGGTCAGAAGCAATATTTATAGTTGAGCATTTCTCCCAAAGTAATACAACAATTCGCAGAACAAATAAAAACAAATGTACCTAGGC
ACATCATAATAAAACTACTGAAAGCCATACTCAGTGGGAAAATTATAAAAGCTACCAGAAAACACAACACTTAAAGTAGCAACAACTAGACCGACCGCTG
ACTTCATAACAGAAAAAACAGAGGCCTAGGCACAATATATTTAAAGGGCTTAGAGAAAATGACTACTTAGAGAACATTTCCTTCAAGAAGTAAGGTGGAA
TAAAGACATTTTCAAACCTTAAAAGCTGAAAGAATGTCAGCACCACACTTACAGTATAAACAGTGCTAAGAGATGTTCCTAAGTAGAAGGCTGATGATTY
CAGATGGACGTTCACCAATAGAGAAAGCATTGAAAATTCAAAGACATAAGATTTGGGGTAAACATCTGGGTTATAGCTGCATGAATAGCAACTATAGAAA
AACACACACACAAATGTGTATGCTAACAAAGGAGAGACCTGATATGGCAATCTTAATGTCAGAAAAAGTGTAATTAGAACCCAAAAGAGCAGATCGAGCT
GTGAACAGTGGTTAGTTAGATCACCACAGGTCCTTTCAAAGGATGGAGATAGCCAGTAACTTACTCTGAATGAACATGACAAAGATATCTTCCCAGGTAA
ACTCTCCTCAAAACATGCCAAGGTATTGCTCTCCCCCACCCTTCCAAATTCATATCTCCTCCTTCCCTCTTTGTATTTTTCAGTCTTTTAATCTCTCCTT
TTTTCTCCCTGTTCTTTCTTTCATTTTTGTTAGTGTCTTCCTTCATCCCATCACTCCTCCTCTCTCTGAATTTCCTGTGCATTTGTCTCACCTGTTGTGG
ACACAATAACATATTTTTAAATTGGAGTTAATACTTTTTTCTATTTTATTTTAAAATTGCGATAAAATGTACATAAAATTTATTATTTTAACCATTTTTA
AGTATACAGTTTGGTGGCATTAAGTATAGTCGTGTGTCATTTAATGGTGGGGCTACGTTCTGTCAAATGTGTCATTAGGTGATTTCATCCTTGTGTGAAC
ATGATAGAGTGTACTAACAGGATCCCAGATGGCACAGCTTCCTAGGCACCTAGGCTACATGTATAGCCTGTTATTCCTAGGCTACCAACCTGGACAGCTA
CTGTACTAAATATTATAGGCAATTGTAACACAATGGTAAGTATTTGTGTGTCTAAACATAGAAAAGGTAATGTGTTTGTTCTGGGACGTTAGGATGGCTA
TGACATCCCTAGGCAATAGGAATTTTTCAGCTCCATTATAATCTGTGAGACCATTGTCATATATGTGGTTTATCATTGACTGTAAATGAACAATGGCTCA
CTTAAGAAAAAAAAAAGAGCTTTGTTTACTTTGCCATAGAATTCTAATTTTCTTCCAGCATCCATCCATCCACCTGCCAAGACACGTGGAGCACCATATG
CTCAGAGTCAGCCACAGCAGTCACAGGATGCAAGCATGGGTAGCTCTGTCTTAGATTTCGTAGACTCTGTGGCTCCTTCACTCAATTGGTTAGAGTTGGA
ATAGTTACCGAGGTCGGACTTGAAGGGTTGGACCTATATGAGATTTCTGGCTTTGTGTTCCACTCCATGGACATGGGAAGCCCCCGTCAGCGCAGCCTTT
CACTGAAGTTATGACATTGCTGTCTTGGAGGGTGGCGGGGAGGGGGCGTGAAAAGAGATTGTTTCAAATTTAAAAAATCACTTCCCTGTGACAACTGACG
ATGTGATCGTCTCATCTCTTTGAATGTCATTTACTCTTTGTGCTTTCTTTGAATGTGTTTGGAACAGAAAACTAATCAGAGTCTGGTTTTAAAGGATTSA
TTTCTTTCCCGTGTTGATTCTGTAGCTTGCAGTGAGCTGCATACTCCATCGCTAGATCGAAAGCCAAATAGTTTTGTTGCGGTGAGTGTCACCACCCCTC
CTCAGGCATTCTGGACGAAGCATGCACAGACRGAGATCATTGAGGTGGGTGCTGGTGGTCTCTCTCTGAGGGGCTGTGGGACATGCTCTAGTGGTGTCTC
TTGTCCTGATGTTCAGTTACTTGTGCATCTGTAGCTGAAGCTGTATTTACGTGAGTTGTTGCTATTTTCCCATGGGTTTTCAGTACATTGATATTTTTCA
TCACATTTACTCATCTGGGTGGCATTTATATTGCCATATCCTTTACAGTTATTGATTAACTGTTGGCAGCTTGTTTTTGAACARTGATCCTGTAAGCTTC
ATTGCCTTGTAAGAGGTAAGACCTAATTCCTTCTTGTCACCTCCAATTGGCTGCTACTTTGCAAGAGTGGTGCTCATTAATCAAAGCTTAGAAGAGTATT
AACTATTTACCACCCTCTTGTCCAGACATACCCCTATTTTTGTTGGTTTTTGTTTTTACAGCCTTTTGAGTTTTGTGTCACATGTTAACTTTTCCCACTA
AGTTACATGATAAACATTTGTGGATAAACATTTATGGATGATCCTTTTAGATCATCAAGCACATTACATAACACTAAGTGTAGGAGTTGGTGGCATGAGA
TTCTGCAGAGTTTTATTTGTAAAGTGAAGAATTATCAAACTTAAACTGCATTTCTTCTTCTTCACCAGTTGTGCATTTTGGAAGCTAGCCCACCCTTTCA
GTCTCTTAGAAACTTATTTCCAAGTTCACGTCAACAATTCTGCTTTCTAAGCAGTTGTCGAGTGCTACCTACACATCTAGCATAGTGCCAGGCACTGTGG
ATGATACAGAGCCCACCAGGGCACAGTCCCTGCCCTGAGGAATTGACCAGCTGGTGGGTGGGGAGGCAGAAATGAATATGGCTACCCSTGTGCACAGCAG
AGTATGGGAAGTATTGGAGTAGGAAGGTAAGGAGAGCACCAGGAGGCTGGGATCCTATCTGGCTGTGAGAGTCAGAGCAGGCTTCCTAGGGTGGGGCTTC
ATGAAATTCTACTTCAGTATGTCTGGGGTAGGGCCCAAGACTGCATTTCTTACAAGCTCCCAAGTGATGCCCAGGTAGCCAGTCGGGGGACTCCACATGA
AGAGCACGCCAAAGTTCTGTTGTGGCTATGCAAATGTGTGACCACAGGGAAGGATCATGCAGGTTTGGGGTCTAACTGTATCCTGGTCAGTGTGTGAAAG
GCACAAGTAGGAGAGCAAGGAAAGAAAGCCTTGAAGGCCGTGGAGTTTATCAGCAGATGGTAGTGAGCCAGTGTAGGCTTCTGTGCAGGGGAGTCACCTG
ACCAGATGTCCTAACTTGTATAGGACAGGCATTTGGGGGAGTGAGAGTTGGAGGGAGTGGAAAGAAAGGAGCGTATGACAGAGACTTTGAAGGTGGACCT
TGCAAGGGGAGTTCATGATCACTGGATGGTTGAGAACAACAGAGAAGAAGGCACCAAAGTGAATGCCCGGGCTTTTAGCCTGCTTGGAAAGGGAGTCAGA
GGTGGCCTTAGCCAAGGGCRGGTGGAGGGAGAGATGAGTTGGTTGAGGCCCCAGCAGCCCACCCAGGTGGAGCTGTCCAGTCAGCTTGACCACCTGGATC
TGGATCTCCAGAGAGAAAAAGGAGCCAGAGGCCCAGGGAATGGTGGCTGTGATAATTACCTGGTGCCTGAGAGAGTATGGTATTACGGGGCTTTGGAGGA
CATGGCCAGGCTGCCAGGAAATAGTCACCTATGATCAAAAAACTAGTAGCTGATCCTAAAAAAAGGATAGCTTTTGAAAAGTCAGGCTTTAATTATTCCA
AACACAGGCTTCTAGAAATACATAATAAACCACTTAAGCCATTCATTTTCTCTCTTTCATCTGCTTATTTGTACCTCTTAAAGGAATAACTCAAAGTAGT
AGGTTTACATACACATTACACTTTAAGTTATAAAACTAAGAATGCATGTGGACATCCAACTTGTTTCAGTTTTTAAAAATTCCTCCTGTTGAGTGTGAAA
CCCATGAAATGAGTCCTCAGGCACAGCTTGTGTAATGGGCTGATTTATTGYATGTGGATCTGTAATGGTCTATGTCAGACTTCTTTTTTCTCTTTTAAAA
AGCAGAGTTTTTTTGTTTGTTTGTTTTATGTATTTATTTAAGCCGCCTTTAGCATTTGTGTTGATTCAAGGCAGTGAGAATGTTAGTTTCTCATTCTGAA
AATGTTGGTGTATTTCAAAAGCAATTACATTTTAAAAATCCAACCCTGTGTTCTGATTATTTCCTTTTCTGTTCTAGGGAACCAACAATCCTATATTTCT
AAGCAGTATTGCCTTCTTTCAAGACTCTCTTATCAATCAGATGACACAAGTCAAACTCTCCGTGTATGATGTCAAAGATAGATCTCAGGGAACAGTTAAG
TAATGTGTTGTAGTTCGTGGGATTTTCTTCCCTTTGAAAAAATTATATAATCGTTTGAATGAGAGATGAACACAGATTGACTTCACTACTGGCTCACAAG
TTAACTCATGTCTAAATGCATTTGTCTTTGCGAATTGTTAAGCTTTCCCATTGGGCTTCTGACATAAGGGTAAGAGGTGTTGTGGGAAGCAGTCAGCTGG
ACTCTCTGGGGCCATGGTAATTGCATCAGAAGCAAAGCAAGCGCACCAATGCTGCCTCTCTTCCTTCTCTTCCTCAGATGTATTTACTGGGCTCTGGAAC
GTTCATTGTCAAAGATCTGCTCCAGGACAGGCATCATAGGTTGCATTTAACACTAAGGTTGGTATTCAGTTTTATTCCCTTGAAAGGATCTGGAATCATG
AGGTCCAGGGACAGATGGGGAAAGGACCCACTTCTTATACTGAGAGAGCACCCTTCCCTTCCCAGAAGCCAGTCAGCGTGGGGACACTGTGTTGTCTATT
GAGGCGAAACAAATTACTTAGCCTATCAGAGAATGGAAACTTTTAGCATCCATAGGAGATATGAGCACAGCTGTACCAAGCCCTAAAGGAAGGCCTAGAT
ACATATCTAGTAATACTAAGTGTGTTTCTCCATTATTTAGCCCCTCCCCAGTGGAATATAATCTCCCATAGAGCAGGGAGTTTTGTCTGCTTTGCTTCAC
TGCTATTTCCCAGACACCTAGAATGTGTCTGGTGCTCAATAAATATTTATGGAAGGAATGAGTGAATGAAAGGGAAACGCCCACTGTCTCCCAGGATGGA
AAGATGAAAGACATCAGGATGTCAGTCCTTCCAAATCATTTTAGGGGCACTTCCCACCAAAACCCTGACATGGTGGTCTTTTTTCAGAAAAAGGTAAAAA
TTGGAGAACTGTGATCTGGGAAAGTAATCTAGAGTAGCAAGGAAAATTTGACAAACAATTAAGTCCCTGCAGTATTGAGACATTCTGAAGCTACTATAAG
TAAAGACAGTATTGCAGGCATTGGCTGTCTAATCAGTGGACAGGATCAGAGCCCTGCAGCAGCCCTTAGTTTGTTTAGAGAACTTGATTCAGGAAAAAGG
AACCATCTTTGGTAAAATGAGAGGGATCWTGTAAGGGAAAGGGCTTTGAGAAAAATATTTAGTTACGTCAYGTGTCAGAGTTAACTCTAGTTGGGTTAGA
GTTAAATGTACAAAATAGACATCATTCTTTTTAAAGGAGCTAAAGGCGGCTGATGATTGAACAGATAGAGCAGGAAAGGACTTCACAGGCACGAGGACAG
GGCAAGGAAATCACAAAGGAAATGGTCAGTAGATGGGACCAGACAAAAATTTAGAACCTGATTAAGTGAGACCTTGTAAATAGAAAGCCTGAAGTTCCAG
GGTGTCCCCAGGTTCCCTGGATGAATCAGATGAGCCCAGGCYACCATCAGCCACCCTTCGGGATGTCAGGGTAAAGCTGACTGAGGCTGGGGTAGCATCA
GCTGTGTCATATCAGGATTCAAGGGCTTCAGGAAGCCCTGGCTGGATTCCATTACTTGGAGTCCAGGCTTAGGCCTTGGGCTAATATAAGCCTCAAGGTG
GGGTGGGAAGGAACAGAAAAGGGCCCAGGGCCAGAACAAGGTGTTCTGTAGTCCTCACTCTGACACGTGTCCCCCTCACCCTCTGGGCAGGGGTGAGCAC
AGGCACTGGCAGCAGCTCAGGAACAGCATTGGCTCCTCCTCAGGGAGGCCCCCTCTGACTTCACCAGCACGTCCACACTTCCCTGTGGTGCGTGTCCGTT
CAGACACAGCCCTCCACTGTGCCCCATGGTTTCCTTGTCTGTCTCGCCTGAGAGGAGCCCTGTGTGCACAGTGAATGCTGACTGACTGGTCAGTCAGCTC
GGCCCTGCTGCCCCYAGGACCCTGATGACCCAGTACGGCTAGGGCTTTGTATTTCAGCAGAAAAGAAGCACAGTTGCAGCACCACTCATTAAAGCATGTT
GTGCATCACAGGTCTGCAGAGAGTGACCGTGTAGGTAACATCACCGTGATTGGCTGGCAGATGGAGGAGAAGTCAGACCAACGGCCCCCTGTGACCCGGT
CTGTGGACACTGTCAATGGGAGGGTGAGTTACACCACTTTCCTCCTCTCCCTTAGAAAGAGCAAGGGAATTAATCAGTAAAAATGCAGCCCTCGTGGACT
TAGCCTCTGTGCTCAGCAAAGGGCAGGGCCTGCTGCTTGATGCTGCTCCCCACGGACACTCCGGTCCTCCTTAGGCACACCTTGAAGCAGGAAAAAGGGC
TCCTGCCTGTAAAGCCCTGCTGCCCTGGAGCCGGCTTCTGTTCTGGGTGCCACACTGGCCAATTCTAGAGGGCAGGAGTGAGTGGGAAAGAGCCCTACTG
GAAGAACTGCAGTCAGGGGGCAACTTGGGTGTGGAGGGTGAGCAAAGAGGCATTTAGGACCCAGGTCATCTGTCCTGTTTTAATACCTTCCTCTCCCAGA
CACATGCATGCCCTGCAGTCTCCTGGTGCACACCTTCACCTTTTCACATCCTCCCCTCTTCCCTGGTCCTCCTCCCCCTCTCTAGCTACACCCTCCTGCA
CCCACTGTCATGCATAGTCTCTCACACAGACACTCAAAGAAAAATTCTAATTTCAGAGCCCTAGCGCTGGTAAGTAGTCATTGTTGTACAATACAGAGAT
GTCTCATTTCACCCAAAATAAGCCCAGAATGTTAGTTCTGGAAATATCCCTTGGCATCATCTATTCTCTTCCTTTTCGTTTTTACATCAGAACACTGACA
CACAAGGTGAAGTGACTGAGAAACCATGCATGCCTAGAGAATTGTGTGCGCATGAAGTGATTCAACACACTGGGAGGTGAATGACTTTGTGGCTTGGGCA
GCATATTTATTGTAGAGTTCATGGTGGATATTCATCTTAAGACTTCTGTTAYGATGTATTTAGGCCACTGTTTCTGCTGAATGTTCTGGAGTCATCTGAA
TCTCACAGTTTTCTTGTGCATTTCCTTATACATTATCAGATGGTTCTTCCTGTCGATGAGAGCTTGACGGAGGCGTTAGGAATCCGATCCAAATACGCTT
CATTGCGAAAGGACACTTTGCTGAAATCGGGTAAACAGCTTCCTCCTTTGGTATTCTTGCCTCTCTAGTGAGTATCCACTTGGGCCCGCAGTCCCCTTTG
CTCCCCACCTGCTGCGATTGTCCCAGCCATGCACCCTAATTGTCACCTCTCTGCTGCTTATCATTGTGTTCTTTTTGCAGCATATAAAGAGTTATCACAA
AAAACAATTATAATTTTCCTTGAAAGAGGATTAAAAAATAAAAAAGAATTAGTAATACTCCAAGGAAGTAATACTTCATCTCACTCTTTTCTGTTTCACA
TTGGGGTTGGTGACTGACGACAGCCTCCCTGCCCCCAGCTGCTTGCACTTTAGAGTTAGTTACATGTTCTGGGACAGGAAGATTGCATGTTGCTGGGAAG
AAATGTTCAGACCTAGCCACTTGGTGGGTTTTCGGTGTAAGCGTTTTAATTCCCATGAGATGAACAGTGAGAGGACTTGAGGTGTCACCATCCCTGAGGG
CCGGGGGAGGAGAACCCATGAGGCAGGTCTGCAGCCAGTTCATTTGCAGCCTGTCTCCCTTGTCATCCCACCTCAGTGTTCGGYGGTGCCATCTGCCGCA
TGTACCGGTTTCCAACCACTGATGGTAACCATTTGCGGATCCTGGAGCAGATGGCAGAGAGCGTGCTCTCCCTGCACGTGCCCCGGCAGTTCGTGAAGCT
CCTACTAGAGGAAGATGCAGCCAGGTGAGGCCACATGGAAGGACTGACTGTCCATCATACCCATGTCATGTGCCCCTTCCTTTCTGAGATATAGCGGGCA
GAGCACTGGCATCAGATAGACTGGACTGCAAACACAGCCTCTCCCCCTGCAGCTCTGTGGCCTTGGCTTGCCTAAGCCTCAKTTTGCTCATTGGGATCAT
GGATTCCTGTGCAAGGATTTCATAAGACAGTGTATTTGAACCCAGATGTGTGCCCCACACTCAGAACCTCCTCTTTTCTCTTCTTTACTCTTTTTTTTTG
AGACAGAGTCTTGCTCTGTCGCTCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCAATGCAGCCTCTTCTCCCAGGTTCAAGTAATTCTCCTGCCTCAGC
CTCTGAAGTAGCTGAGATTACAGGTGTGCGCCACCAGGCCTGGCTAATTTTTGTATTTTTAGTAGATATGGTGTTTCACCATGTTGGTCAGGCTGGTCTC
GAACTACTGACCTCAGATGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCGGCCTTCCTTCTCTTCTTTTCTTT
CCCCTCTCACTGGTCCTTCAGAAAGTTAGAAATAACTGGTAATTGTTTGATCCTAGCTGCCCAGCAGTAGTTTTCTAGGTTAGGGTCATAGATAAGGGCT
CCAGAAGACTGAGTATAACCTGTCAGCTCACTGTGGTCCCATAAGGGTCTTAACCCTTCTGCATCTCTCAACCCAGGGCATATTTTGTCAGTTCTAAGGT
GAGGAGAAGCCCAACAGGTGGCCCAGGCCGTGCATATTATGTCCCCTGTCTCTCTCTGTTTTAATTTTGTGCTGCTGTAACAGAATGCCAGAGAATGAGT
AACTTCTAATGATCAGAAAAGTATTTGACTCAAGGTTCTGGAAACTGGGAAGTCCAAAAGCATGGTACTGGCATCTGGGGAGGGCCTTCATGCTGCACCA
TCCTGTGGTGGAAGGCGTCACACAGCAAGAGCGCTCTTGAGAGAAGGCCAAACTTGCTTTTATAACAAACCCACTGTTGTAATAACCAACCCATTCCCAT
GATAATGACATCAATCCATTCATGAGGGCAGAGCCCTCATGACCTCGTCATCTCTTAAAGGTCCCACTTCTCAAAACTGTGGCATTCAGGATGAAGTTTC
TAACATATGAACTTTGGGGGATAGTCTCAGATTGTTATTTCTCCTCCTTGTCCTCAAATGGTGTTAATTATAAACACAATATAACAGAAGCGTGAAAGAA
AGCAAGGCAGCCAGAATCCTGCTGTTTTCAAAGAGCTATTTTGTTTAATTTTTTTACTTGGAAAAAACATCAAACTTAAAAATAAAGGGCAAGAGGCCAG
GCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACGAGGTCAGGAGATTGAGACCATCCTGACTAACACGGTGAAAC
CTCGTTTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCAGAGGCAGGAGAATGGCGTGAACCC
AGGAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTTGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAATGCAAGAAG
AATGCAATGAGCACCTAGATATCTTTCACCTAAAATCACCAATTGTTAATATTTTGCCAATTGCTTTCTCTATATATGCACATATTTTAATATTTTAATT
ATAAAAATTTTCATTCAGCTTTGCCCATATTTGTGTATATTTACACAGTGGCAATCTACTTTTCCATGTATCTTCAGTTTTTATGTTTTAATTTCCCATT
ACATGGTGTATTATAACTTTAAAGAGTTTATTCATTTTTTGTTAGCTTGAGACAGGGTATTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACCATCATA
GCTCACTACAGCCTGAAACTCCTGGGCTCAAGCCATCATCCTCTTACCTCAGCTTCCTGAACAGATAGAACTACAAGCACACACCACTATGCCCAGCTAA
TTTTTTCATTTGTTGTAGAGACAGGGTCTTGCTGTGTTGCCTAGGCTGGTCCCTAGCTCCTGGCCTCAAGTGATCCTCCCACCTTGGCCTCTCAAAAAGC
TGGGATTCCAGGCATGACCCACCATTCCTGGCCAAGAGTTCATTCATTTAACAAGTGCTTTAGTTCAAGGGTTTTGTTGTTGTTTTTAGCAACAACCACA
TGTCAGGCACTGTTCTCAGTGTGGGAGGCTTCTTGGTGAGCTCAACGTGGATGTTGGTTGGAAACAGAACTGGGAACCTCACGCAGGAACTCCAGATGTT
TCAGCGTGTGCTGGAAATGAAAAGGGAACTGTGAGAAGAAAGAGGGTGATCGGGGCAGGCCTCTGTGAGATGATGACATTAAACTAACACCTGAAGCATA
GGAAGCCACCACATGAACACGGGCAGACACATTCCAGAGAAACTAGCAGCGGCCTGGCAGACAGCTGCTGTGCTCAGAGCGGCCTGAGGCCATGGGGCCG
GCTGGCCACGTAGCCCTACCTGCTCTGGGTGTCCTTTTATATTAATTTTGCTATTTTAATAATAATAAAATGGCACAGCTTTTAAAAACAATTTAGACAA
GTCAGATTTCCTAAGAACTTATGTAAAATTTAGCTTTTTTTCTTTCTCAAAGGAAAACATGAGTGCAGTATAAAAAAAAAATTGCAGAAAGGTTTTTAAC
TAAAAACAACTCGGGGCTCTACTTTCTGATCTACTTCCCGGAAGCAACCAATTTTTGAGAGTTTTAGTGTTTACTGATGTATTTCCACATATATGTGTAA
AGTGTTCTCTTCATTAATCAATTTCAGGGATTAGCTACCGATTTTCTATGCTGAGGGTTTGGCCTTTTATACCTTCCCAGTCCCCATTTTCCTAATTTGG
TTATGCTTTTTGTTTTTAAATCCATCTTGTGATTTTGCTGTTATGATTGTGTAGCTGTTCTTCATTGCTGAGCTAAGGAATTTATATTTCAGTTCTTATA
CAGGTTTTTTTTTTTGGAGATAACAATTCCTCTTTTTCTTCTCTTCTCTTCCTCCTCTTCCCCCTTCCCCCTTCTGTTACCCTGTGCCTCTGTCAAGCAC
ACACATAAAGACAAGGTCAGGCCTGATTTCATCCACAGTGACACAGCGGGCCACTTTTAGGTTCAGACAGCTCCTCTCTTTTTTTTTTTTGAGATGGAGT
CTCTATTGCCTAGGCTGGAGTGCAGTGGTGCGATCCTGGCTCACTGCAAGCCCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTTCCAAGTAGC
TGGGACTACAGGCGCCCACCACCACGCCCGGCTAATTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTAGCTC
CTCTCTTACATAGACACGGAAGGAAGAAGAATCAGAGGTGCCAGCTCCCATGGTCTTTGTCCCGTACCCAAAAAGGATGGCAATGAGACAGAAGGGCTTG
TGACTGCAGCAGGATCTGTGGTATTCCGCTGCTGAGGAGCCAACTCTAGGCTGCAGCTGAGCGGTTTTAGATTCTGCGGCTCCCCTATCCGGGAGGGCAG
AAGGCCCATACCTCAGGAGAACCTGGGAGGCAATGAGAAGCGCTGTCCTGATAGCCTCCTAGGGGAGATGACGAGGCAAGCAGGAGGTGGCTCATTGCGA
TTACTCACAGCCTGCAGTCCTCTCTGTTCCGGGAGGATCACACGTTGTTTTGCCCAGACTCAGGTGGGCTGTGGTTTGAGCCTGTGCTTGAGGGCACCTG
CAGGTCGTCAGGGTAAAGCTTCTCCCTAGCAGCCTGTCTTCTTCTCCCCACCTCCACTTAGTTTCCCTTGAACATTAGACTAAATTCCCGTGAAAAGCTA
CTCTGGACACACTGCCACGTGGTCAGTGGTCTGCTTTTCATGTAGCTGTCTGTCCTCTCCTCCAACCCAGTTGCCCTTTAGACAGGCAGTGTAACCATTG
TCCTGGCCTGCCCTGGGCATCCATGATACTTCCCCTGCAAATGCTGTTGTCCTGGGTAGACCTCCTGGGCCTCTCTGGGGAAACCAGTTAGCCCACAGCC
TGATGCATCTGTGTCTTGCTTTCAKAGTGTGTGAGCTGGAGGAGCTGGGAGAGCTGTCCCCTTGCTGGGAGAGCCTCCGGCGCCAAATTGTCACCCAGTA
CCAGACCATCATCCTCACATACCAGGAGAACCTGACCGACCTCCATCAGTACAGAGGTGGGTGCACCCCCATGCTGTCACCACACACGCGTGCGCRCACA
CACACACACACACTCTCACTCTCACTCAGTCACTCCCTCTGCTTTCCCAGCCAGGGATCTGGAACACAGGGTCACTTACACATTCCCACTGACAGACACT
TTAATGGATTTTTAAAAATAACTTCTTATGTAGGTGTGAATTCTTTCAAATATGGGTTTTTCTGATCTTAATTAAAAAGACAAATCTGTGAATTGCAGTG
AAGAGTCCTCCTATGGTGTCATCTACCAAAACAGCCACTGTGGAATGAAATTTAGGGGAGGCGAAATCCCGGGCTATTACTGCTTCATGTTGTTTCTTCA
TCTTGGACTAATGTCAGTATAGGATGTACTAACAGAAAGGATGTAGGCCACTCGCCTTGAAACAAAGCAGTTTTTCTTGATTTCCCAGTTTAAAGAGTCA
GTGGTAACTTCTATTAAACATATGAATTGTTAAGGGGTAACTCTGTATTTTAAGGCTCAGAAAACAAAATGGAGTGTGAATGAACACCTCACTGTTTCTC
CTTGAAAGATGCCATTTGATTTTCAAAACACTCTCAGGGCAGATTTGGAAATCTGTTCTTGTTCCTTTTTTATTCCAAGTGGAATGAATTTTTTGGTTTT
TCATTACTCTATATATTGCTTTAGCATTTTGAATTATTCTCTATTTTTGGATTCTTCCCTTTGATTCTTTTACATAATGGAATTTCAGGGTTTAAGGAAA
ACCATAAGCCCTTGATGTGGTTTTGACACAGAACATGTGAACCCATCCATAAACTTGAATGAGAAGAAGCCAAATGCAGGACTAACAAGGAGGTGTTGCT
TAGGCTTGATGTGAGTCTGAAGAGAGGGTCTGAGTATGTCACTAGGAGAAACGGCAACATTTGCCCAGGAAGGAACCAAGGGACTCACCCATGCCTGATG
CCTCTTACCTGGGAAAGTGTGGAACCCACACAACCTTGAGTTTTCTAGAGCAGAGCTTCTCAAATGTCACTGTGCACCCGGATCCCTTGAGAATTGTGTT
GAAGTGGCAGTCTGGGATTGTGCCTTTCTCACAGGCTCTCGGATGCTCATGGTGCGGTCTGTGGACTGCACCCTACGTATCAGGCCATAGAGAGCAGTCT
CCTATGGCAAATTGGAGAACACAGTAGCTGGTCTGTGATTCATATGCTGGCAGTATCAGTGATATTTTTCACTAGATGAAACGTTTATTTCTTCTACTCT
CTGGTTGTCAGTTTAATTTGTAATCCCTTTATTTTGTAGGCATGTGATTCTCCATTTAATTAGTTATGGATTCTGATTATAGAAACAAGATTGTGCATAT
TTGTTATAAAATAGCGTCCAGGCTCCTTAACCAACCAGGCGTAAACAGGGAAACATTGTATTTTGTGTGTCAGAAGGCCGGAATCAATGCTATATTGCAT
TTGTTATCTTGATGGGCCTGCAGGGATGAGAAGGCCTCTTCATCACTTTCGAGAGTTGAGATGTATTGCTCTAGCCAAACCAGATTCTTAGCTCTTTGAT
GATGGCGGTCTCTGGAGTCAGAACAGGCAGTCTCTGGCGTGGACCCCTTTGCTTATTATAGTAGTGCTGACATTGTGCTGCACAGAATCACATTTTTTGT
ATCAGATCTCTCAGTAGAGAGCTGAGTCACGGAAGGCGCAGCATCGTTACCATAGCTTTTTGAAGCCGGTTCTCCCTGGCACCATTCACCACCTGAGCAC
CCAGAACCAGCTCTCCTGACCAGCAGGCTGCCCTTGGCATCTCACCCACCTGCCACCTGGAAATGAAATGTGCTCATGGCAACTCAGAATCTTCTAGGCC
ACTGCCGACATACCTGCTTATATGCCACAGCATCCTCTGAATTCCATTTTCTACTTGCAACTCGTGAATGCAGCATGTATGCTGATGGCCTTTATCTTCT
CCTATTCCATTTCTTAGGGCCCTCGTTTAAAGCAAGCAGTTTGAAAGCAGATAAAAAGTTAGAATTTGTTCCCACAAACTTGCACATACAAAGGATGAGA
GTTCAAGACGATGGAGGATCAGGTACCTATTTTTCTGCTCCCTCTTGTTGAATCACATTTCGCTGCTTTTCTCTGTGGGTACTTGGTCCCTGAGTACCCC
ACATCTGCCCATTTCCCTGTGTGCTCTGGGCRGCTCGGAGGAGAGATTTGTCACAAGGACCTTCAAAAGGTTTCTGATAACAGCCCACACCCCTTCCTTT
TGTCTCTCCTCACTCTAGCTTCCCTTTGTATTTCTGCAGTAGAAAGTTGCCTGTCGGCCCTTCTTCCCAAGGAGGGATGCAAACGGGAGTTACAGGGTGG
CTTCCTGCAGCCCTTGTGGCTCCACTTGAAATGTTTTAAACCCCTTGTTGCTGAGGTGATGGCACTGGGCTCCAGCAGACCCTTGGGCAGCCAGGGCTGT
GGGATCAGGGGAACCAAAGGCTGTACAGCAGTGGGCTGGAGGGTCAGGACCCCAGACTTGTGTGCATATCCCTATAGCTGGCTTGTCCACAGGCCTGAGC
CCAGAGTAATGGAGGAGAGCTTTCTGTCATTCAGATCAGAACTACGACATCGTCACCATTGGGGCGCCAGCAGCACACTGCCAAGGTTTTAAGTCAGGAG
GTCTCCGCAAAAAGCTGCACAAATTTGAAGAGACCAAGAAACAGTAAGTAGCCAGAGAGGGTTTGTGGTCCTTGTACAGCTTTCTGATGCTTCTTTTCTC
AGTTTAAAATAAAATCAAAATATGACCGCAAAAACACCCAGCCATCWGATCTGCTTTTGCGTGGCAGGAGGATCTGCCTTATGGAGCCTGTGCTGCTCTG
TTTATGTGTGACTGAGCTGGGTGGGTGATGAGGGCACTGGATCAATGGTCCTGTCCTGCAAAATGAGGAGCAGATTGTGATCCACCTCAGAAGTGGTGCT
CCAGGCAACCGCCCTATGTAGACTCTGCTGGCTTGGCATCCTTTAGAGTCCCTGGCCAGTCAGTTGAGCACCATAGGCATCGAGCCTGGAGCATGTTGTT
TCCTAGAGGACAGCAGTGGTAAACATTCCCAGTTTTTGAAACATTCAGGGGGCTGTACAGAGCTACTGTCCTGAGCAGGAAATTTCCAGGTAGGGAGGGT
GGTGAAGGGCATTTCAGACAAAGACATGRCAGAAGCATTGCACATGGTGAAATGTGGCCAGGTGCACAGTGCTGGGGGCGGAGAGCTAAGAGGACTGGCC
TTGCTGCCAGCCTGCTCTGTGACCAGAGTTACAGCCCCCAGCAGATCTAGGCCTGGTTCCAGGAGCTCAGGGCCTTGCCTGGGAGTAGACAAGTCAGCAA
GCACCATTTGGCATGAACAGGGCCTGAAACAAGCATGCTGAGGATGCTGGGGTGCATGGAGCAGGGCATCCACCCAGCCCCCAGGGGTGGGAGGGAGAGA
GCCAGAAATAAACCCAAGCTGTTGTGTTAGATGTGCAGGAGGCATTGATGATCTTCCAGAACATCACCTGTGAAGATTTCAGTGGCTCAGGAAGTGGGGG
TGATGAGTGTAGATGACCAGTAAGATCCTTGGACTGTGACCACAAAGTAGAGGAAGTAGCATGAGGTGTTTGGTTTAGGGAGAATAATTATGACTTAGCA
TGTGTTTGGGCTGATAGGAAAGACAGAAGTGGATGAGGTAAGGTGAATGAGAGGAAAACAGTGTTAGAGCCGGGTTCTCACAGGATGGAAAGAGGCAAGA
GCAGGTGTTCATCAGAAGGGCCAGGAGAAGAGGTGGGGCTGCAGAGAGATGTTTGAGGTGGGAAGGAACAAGCAGAAGCATCCGTCGACAGCCTCTGCAG
CATGTGGGCTGGGGAGGGTCAGACTCAGCAAGCAAGCATGGAACAGCGTGAGGGAAGGTGAGCAAAGGCCCAGGGAGCGTCACAAGAATCCCATGGATGG
TCAGGTGAAGAGCTCTGGCATGTGCCATGGAGCTGGTGGTTGGCACCTGACTGTGCTGCCATGGCTGGGAGTCAGGACGTGATCTGAGAAAACTGAAAGA
GGTGAAAGGTCAGATCAGTGGCTGAGKGGGTCAGGGAGGCAGCTAGGGGCGTCACTGATCATGGGCAAGGCTGAGCAGGGAACGGAAGAGCGTACCCTGT
GAGAAGTCACCATTCAGATACGTGCACAGGCTGCCTGGGTGGGCCCAGAGCCCGGTGAGTCCCGGAGGGAGGAGAAACAGGGAAGGGGAATTCAGGCCCC
CAGACAACCTACTTGACTTTGATTCATTCCCAGGGGTGCTTCCCTAAGACAAACCAGGTAACCAGACCTGTCTTAGGATTTGCTGACTCCAGGTCCCTTT
GGGAAATAGGAAGAAGACGCAGCTTCCTGTGCCACCGCAGCTCTGCACAGCCAGCCAGAAAGCGTGTCTGTCGCTCCATTGCATGTTGCCCTGTGGAGAG
TGTGAGCGTGCAGCTTGAGATGGGGTGGGGCCCTGAAGGAGAACCCATAGTAACTCTGGCCAGTCAAGAAGGGGGCCTTCTGGGGGTCTTTGTCCCAGGA
GGCTTGGGGTGTTGATTCCTGATAACTCTGCATGTTAACTTTAGAATTTATTTCTCAAAATACCTCTTAGTATTTTTCAAATATATAAGTTTCTATTTAA
TTTCTCACTAATGCCATCAAGCCACTTATAGATATGGTATTCATGATTTGAACTTTCCTTTAAATGCGGAGGTAACTTGGCCTGAGGTGGGATGTCTCCC
TGGGGCTTGAGCACAGGGAGTGACGCTGCTCTAAGGAATAAGCACATTGGGCTCATGATTGTAGTCATCCCTGTAGTTGGGACCTCAACAAATAATTTTA
AGTATTTTGACAAAAAATAAGTTGGCTTTTTAATTTTTTGTTTTTGCATTTGGTATTTGCTAACAAACTGCTAATATTTCATTTTGGTTCTTTTCTTTAG
CAGTTTTGAGGAGTGTTGGTGAGTTTTCTGTCTGTGGAGAGAGTGTCTGTTTGGGTCTCGTCCTCATGCAGAGAAAGCTTGTGCCATCCCCACACCTCCT
CCTGTGGGCTTCCCCTGCGGTGCTGCCATGGTTCCTAGTTATACACCTCATAAACAGTCCTCCCTTCCAACTGCAATGTTCTTTAATAATGAATAGCCAA
TCTTCAGTCTGCTGTTTTACCTTTAAAACCTGGCAGCTGGGTGTTGTCGTACTCACTCTGAGAAAGGACCTAGTTCTGTTTCTCCCAGGAAGAGGAAGGG
CCCGACCCAGGAAGCCCCTGGGTGCTGGGTTCTCATGTCAGCCCCTGGGTGCAGCTGGGAACTCCTGTCTTCTTATACAGGAGTCTTGTGGCTTTTCAGT
TTTCACTTCACTATTACCTCTTATACAAATGAAGCCAGCCTACATCTTCATGATGCTTATTAATTTATGCTGATTTTAATAACACTGTTACCAAGGTCAG
TTTTACCCCTGGGGGTGGGTACAAACCAAGATTTAATACAACTGAGTGACTTTTTCCACCAGATAATTAGATGACAGTTAGAAACCACGGTGTCTGCTGC
CTGGGCTTCTCTACTGCTTCCCCAGGCTCATAACAGAGGCTCTGCAGTGGTGCTTCATTCAGAGGCACCTGCAGCCCCTCAAGAAATGCTGCTGCCTCAG
AGCCTGTGACCCATGGGGCTCAGGGGCTATGGCTGGGCCCTGCTGGAGGTGTCAGGCTCTGCTGGTGGCATCTGACAGGAGGAAGCACTGAGGACATTCC
CCGATGTCCAGGCTGAGGCCTCTCAACTTCCCCCTGGGGGTCCTTTTCCCTGGGGGTACTTTAGGTACAAGGGAGGGAGGAGGGCATCTAGGGACGGTTG
CTGCTGCTCCTGCCTCCTTAATGGAGCAGACCCATGCTACTTCTGTGGAAGTGGCCTCTCAGCCTCCCCTCCCTGCCTTTTCTCTACTGGGGACTCTTTC
AAGGCCTGATCTTTCCCATAACGGGACAAGTAAAGTACTTAGGGGTTGAGTCTAGCGGGGCAGAGGAAGAGGAATGGGAGGGGAGAGGCCTTTGGCTTTA
CCAAGGAGCTGCCCCCAAGGCCTGCTCCTTGGTAAATCCCAACCCAGGTGTTTTGGGTTGAACCTTGTTCCTGGGGAACTTTCTGCGTTCCTGGGTTCCC
TCTGAGGACCCTCCATAGCCCAATCTGGGCCTGGTCACCCCTTGCCGTCTCCCCCCTGCTCCCCATATACAAGACTGTCCCTGAAGCAGGGAGGGGATGG
AGCGGGGAGGGTTACAGGCAGAAGGAGTGTCCCTGCCTGGAGACTGTGAGGGGCTAAATCCCAGGCAGAGAGGACCCAGCCTCCCAATCCTCCTACCCTT
GCAGAACCCAGCTCCATGGGGGCTCAGCCTCTGCAGAGGTGATCCTGCTCTTCTAATGTCCAGAGTGACTGTTGCTCAGCAGTTACCAGCAGTTCCTGGC
CAGGGCCACAAGACTCCACCCTTACGCTCTCATGGCATCTTCAGTTTAGCCCATGACCCCAGCTCTGGGTAGGTCCGGGTCTGGGGTGGGGGCCTAATGC
AAAGTCCAAGGGCTATACCTAGGATACTGCCTCCTGGGGCTGCCCCTAGGCTTCATGTCTACACCTCCATCCTGCCGCCCTCATGTGGCTGCCTGGTTTT
TAAAACTAGGTAGTTGAGCACACATGCTTGTATTTTCCTCATCATCCTAAACAGCACCTCTTTGAAATTTGCCTTTTCTTGCCCCTGCCATGTATATCCC
ATGCATAAGTCCCAGGTATCATCATTAAAACATGACTTGTGAGAATACAGGGCAAGTATAGGGTAGTGCTTTTCTCTTGGCCTGGGCAGAGGGTATGTAT
TTGTTGAAGGGTACACAGCCACCTCCTTACACAGAAGTAGATCTACATACAGCACATTTTATATATGTACTCTAAATATTGGGGGCCTGGGAAGAATCCT
TTTTTTTTTTCCACTGTTTTTGGAGTCAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCACTGGCACCGTCATAACTCACTACAGCCTCAAACTCCTGGG
CTCAGTTGACCCTCCTGCCTCAGCCTCCTAAGTAGCCAGAACCACAAGCACAAGCCACCATGCCTAGCTAATTTTTAAATTTTTTTAAAAGGTGGGGTCT
CACGATGTTGCCCAGGCTGATCTTGAACTCCCAGGCTCAAGCAATCCACCCACCTTGGCCTACCAAAGTGCTAGGATTATAGGCCACCMTGCTTGGCTGA
ATTGATTTTTTAAAATCCTATTTTGAGATTGTCTTTTTAAGATGAAATGGTCTTAGAAGGCAGCTATTCATTTGGAAGAGTGATTGCAGATTGGAAAGTA
GTGTGCACATCATGCTGTGGAATGACTCCTGTTGTGCCCCACGAGCTTGAGTGCGGTCTGCTGCATGGGCTTCTGGCACATCCATTGTTTTTTACTGTGG
CGTGTGGGCTTGTGGTGGTGGTGTTTCTTTCCGGGGTGCTTTGGTTTTCGGTTTTTGCATGTTTGCCACATAATCCAGCAAGGGAAGGGGTAGTGGTGGT
TTCTTGATGAACCACTTTGGGACTTCCCTGGGAAGGGGCCAATGGGGAAGATTCTCAGCCCTGACCAAGGTGACTGTCATCTCCAGGGGAAGTGATGGAG
GATGTGGTGAGAGGTGCCCTCGCTCCTCCTCTCTCTCTCTTCCCCAGAATTCAAAGGGTAGCCCTTTAGGGACCAGTCAGGACCCCTCATCCCATGAGCG
AAGGGACACCCATTCTACCCAGAGCTCACAATTTCAAATTTTAGGAGGAGACCTCTGCATTGGTGGCTTGTACTTCTTCCTGCTTTCTTCAGCTTCCTCA
GATGGTCTGAAAAATAAATTTATAATATTGGATTGATTGGGATCAGGCTAAGAGACATGCAATTTATCATCACCGTTTAGTTGGACCCAACACACTGGCC
AGGCCCCCACAGCGGGAGGATGTGAAGTTGGTCTTTCAGAGCCTCCTGATTGTGCTGGGAGGGGCTGGGCTGTAGGCTTGGCATCAGATCCCTAGACACA
CACGCTGCTTGGTGGCGAAGAGGTGGGAAGGAGGGAGAGCCAGGGTTACAAAGCCACTGAGGAGTCCGGCTTTGCCTGTGGCTTGGCATGTTCTCCACTT
TTTCTTCATTTGATGAAACGTTATTTTTCAAAGTAGGGAAGTCCTGGAGCGAAGGAAAGGGAAAGGAAACCCCATTTTCTAGGGACTTGCTGGGGTCAGA
CATGAGAGGAAGGACGACTGTGGGTATGTTCACAGGGAGCTTGAATGCCTGATTGGCCAAAAGAAAAAATAGGTTTTGGTTGTTTGGGGACAAAGTCTAA
CACCCACTGCAGTCTCTGCTACACTGTGATAACCTGACCCCTTCTTCTGTAAATGGCCTCTATGTCTCCACTTAAGTACTGCTTATAAGTTAATAGATGA
GGTTGTGAGGTGGAAGATTACGATCATTTGGGTGATTAYGGGATATGATTGTTCAATACCTGTTCATACATTTACATACACAAGTAAAAATACAGATACA
TGCAAATACAGATAAAAGACTGAGTCATAGTTTAATATTTCAAGCTCCTGCCATATAGACAGGAAGAATCTCCTAAGATATACTTTGCTCATCAACAACT
AGAGTAGCTTGAGAGAACATCCCTGAGTCACAGAACACTTCATCTTAGGGTCAATTGTGGCTGGGGTTGGAATGATGCTGTCATCCTTTTCAGATTCTGG
AGAATCCCTTAGAATCCATTCTTATCCTTTCCAGTACATCATCTGGCTGCCAGTCCATAATCTACATACCCCAGGATGTTGTCAGAGCCAAGGAGATCAT
CGCCCAGATCAACACCCTGAAAACCCAAGTGAGTTACTACGCAGAGCGGCTGTCAAGGGCAGCCAAGGACAGGTCTGCCACTGGCCTTGAGAGGACACTC
GCCATCTTGGCAGACAAGGTAGGAGGGGTGCCCTGCTACATATGGGCTGGGGAGTTTCCTTGGGTTTCTGGAAGCCACCAGGCAGCCCAGGTKTACCTAA
GATGGTCCACAAAGAGCGTGACATTGGGATGACTTTGAAGGTCTACCTTAGGTCCATTTCGCACAAAGGCCCAGGGAGGTTTTGTGATTTGTCCGCAGAG
CTGGACAGACCAAGGGCAGAGCCCAGGGCTCATGACTCTTAGGTGCAGCTTCAGGCACATGTGCCCTTCAGCAAGTCCATGGGGCTCATTTTGTTGAGGG
TGATACAGTTCCACTTCTTTCTCAGTAACAGCCTAACTAGCACTTTTTTTTTTTGGCCACATTTCTATTTTAGTTGAATTTGAAAACAGAAACTGAGCTA
TTATACAGACATAAGATAAGAAGAATATAATTTTATTGGCTTACATATAGTCAGTAAACCAGCTTCTACTTAGCCATAACTTGATCCTGGTTTTAAAATA
TGTAAGTATTAATCCCTACTGAGGAAGTGGCTATTATCAGACCCTTTTGATGGATGATACTTTTCCCCATTACTTGGTCTCTCTCTCAGCGCACACAAAC
ACGCTCTCATACACACACACACGCTCTCATACACACACACACACCCCAGATTCTGACTATACCTCCACACTCACACTCACTGTGCTGTTGAGCTGCTGTT
CCTGATCAGAATGTGTTATATCCTTCACAGGTGTTCACACAGCATAGAGTGTGAGGTGGGGATTAGATCCCCTGGAAAAGAAAGATGTAGTTGTCAGCAG
TAACATTATGAACCACAGAACCCGTGTTGCATGCAGAATTCTCCAAAACCAGACATGTTGTGCCAGGAGGCCAGCTACCCAGAACCCAGAACTTGAGGTA
TTAGATGCTGAGGAACAAAAGATAAGACTTACACAATTGAACCAAAGTAAGGCCTGACCCCTGGACACTTGTTCCCTGGAAGGTGGAAGTCTGTCAAGGC
TGGGGCAGTGGGCTCTCTCTGCAGGCCCCTCCCCTAGCAATCACAGGTCAGAGGTAGGCAGGGATCAGAGAATGTCAGAGATTTCTCAACCTCTTCTCTT
CCTTGGTGGGAAATTCTTGTTAAGATTCAGCCCAAGTGGGCCACATGGCAGTCTTTGTACTCAGACATCTTGAGGGATGTAGCCCTTCAGTTGCTTTGCA
CTGTGGAGAAAGGCAGAGGGGTGCAGTGCTGGGCTTTAAGCCCATTCTCCATTTCTGAGATAAGGCAGGGGCCTCCCCAGCCCCTGGCCTGGGCTCAGCA
GCCTTGGTTTGTGTGCAYCTGCAGACACGGCAGCTGGTCACGGTCTGCGACTGCAAGCTCCTGGCCAACTCCATCCATGGGCTGAACGCTGCACGGCCTG
ACTACATTGCCTCCAAGGCCTCTCCCACTTCGACTGAGGAGGAGCAGGTGATGCTTAGAAATGACCAGGACACCCTCATGGCCCGGTGGACAGGGAGAAA
CAGCCGATCTTCCCTGCAGGTGGACTGGCACGAGGAGGAGTGGGTGAGTCTGCTGCTGTGGCTGTCATCCCACTGCTGAACTTGGGCTGAAAACCACAAA
ACCTGTTGCCAGTCTCTGCCCCTCTGAAGTGCCTCAAGGTTCAACTGCTGTGAACAAGCTCCAGGTTTCCTTCCTGGATGGCTCCTTGGCTCCTGATGCA
GGGAGGGAGGAGACTGTTTTCAAACCCTTGTGTCCAGATAGGGGTAGGGCTGTGCTGGGGGCTGGGCCAGCCTCAGACCTGGATGAAGAGGAAGACAAGT
GGGTTTTCCTCCCGTGTTGGAGGTCTCTCCTTCCCCTGCCTCCTGTGCCTTCTATGGCCTTGGGATGCTTGAGACCAGTCAGWGCTCTGTTTGCTGTTAG
ATTTTCCAGGGCTATGTGTATTTGGGGACGTGGGAGCTCTGGTGCTGGGGCAAGTAGATATGGATTTTGGAGCTGCCGCCCTGACATTACATCACATTAT
TGTTCCTCAGAGAATTGGCCCTGGGAGCAGGATCTGTGTTTCTTGAGGGAGTGACACATTGTACAACTTGTTTTTACCATTTATTGAGACTACTGCTTAG
AGGCATTGTTCTACAAGCACTGAACTATTAATCAGCAGCAAAGTCCCATCCTATACACTGTGCGTGTTTCTGCAAATCACTCCCAGACCTTCCTCTCCTC
CTCCCCACCTCCCCTATCGAAATTTCTGTTCCCTTCTATCAAAAGGAGGCCTCCATTTTGTCTGTGTGTGATGATTGTAGGAAGTCTGCAGTGGCAAGAG
GAGGAGATGAGACAGTGCCCTGTGGCCTTTCAGGCAGCACTGGAGGGCCACCTGGCCTCCAGAAGAGTTACTAGCAAACATCTCCCAAACTCTAAAAACA
ATGGCCGCAGGACATCGATTCATCGTTGAAAAGCAAATGCAACTTTAGTGGGGAATTAGGAATCATCTTTATATTTCTAAACTTTGAGGTATTTTAACAA
GTGTGGAAGCCTAGGGCAGGGGATCAGTGGAGGGCGATTTGGTTTGTGTTATGTTTGTGTTTCTGTTCGGGAGAGCTGACCCACATGGGCCCCTTTGATT
TGGAAGGAGAAAGTGTGGCTGAACGTGGACAAGAGCCTAGAGTGCATCATTCAGCGTGTGGACAAGCTGCTGCAGAAGGAGCGGCTGCATGGCGAGGGCT
GTGAGGATGTCTTCCCCTGTGCAGGCAGCTGCACCAGCAAGAAAGGTAACCCGGACAGCCACGCCTACTGGATCAGACCAGAAGACCCCTTCTGTGATGT
CCCCTCCTCACCATGCCCCTCCACCATGCCCTCCRCTGCATGCCATCCTCATCTGACCACACGTGCGTATGCATCCATGCTTCCCATATGCTGCCTCCAT
TTCACCTTGTGCTGCTTCCATTTGTCTGTGTCTCTGACTCCATGCCCTCCTCCCCCATGCAGACTGCAGGGAGGGCTGCCAGGTGGAGCGGGGGCGTCCC
AGTGCATGGAGCAGCAGGCAGTGAGAGCGGAGTCTCCGGTTGCCTTTCCATGTAACTGGAGCCCATGTGTGATTCTGCATCTCTGCCAGTCAGAATCTCA
GGGTCCTCTTGAGATACACCACCATGGCTATAAGGGTTGGGCTCCTGGGCTTTTCAGGTTTGTAAAGCAATCTGAGAACCTGAAGGAGGCCAGGATGCAG
ATGCCTTTCTGATGTGATTGTCTATGGCATTAGGAATTGGTAGAATGAAAGGGGAAAGGGGAATTGTTCAGGGACACAGCTGGATGAGAGATATTGGCAG
GTCCAGTGGACATGTCTAAAAGCTGGTTGGCATTGGCTGGGCACTCTCTTATGCAGCAGAGGCATGTTGCCTTGGGACTTGGTAACACAGAGAATGGGAC
CCTGTTCCTGGGCTTCTGGTGGTCTGAGTCAGGTGGTTTGGCAGRACCCTTCAGGGTAGGACACTGGCATGAAGCAGCATGCTTCAGAACAGTCTCCTGT
CTGCAGAGACACAGCATACCAGGACACTGTCCTGCAGATGGCCTTAAAGCTGGGAAACAGTCCCTGCAACTGAGATGTCTCCGCCTTTTCCTGTAAGAGC
CATAGAGTTACAAGCTAGGCAGCTGAGACTTGCCCACAGACCTAGCTTCTGCCTCCTTTTTGTTCTCCTGTGGGAGTTTTAAGTCATAGTAGGTAAGGCC
CAGATGTGCTGGGATTAAGCTTCATGTGATGAGGGCTTTTAAATTCTGAATTGGAGAACTTCCATTCAAGGTATAAGCGTGCCTCTTGGTCAGAGCCTCT
TGGCAAATCCCCCTTCAGGTTGTAAGATGCCCTTTGCCTCTTTACTCTGCCTGCAGTCTGTTTCCAGGGCACTGTCTCACTTGAGCCTCTGTCTCGACAG
TTATCACGTCACCCATCTCTCCATCTATGGGGGATTATGGTTTCACTTCCCCACACCTGTGATTGGCTCATGGAACTATTTTGTCTCTATTCATGTTCTC
TTTTTTATGTGAATCGTGTTCCTTTTTAAAATTTTCTGAAAATTCATTGTTTATTTCTTTTTACTTTATTATCTTGTTTGTGATTTTAAATTTTTCTACA
GATAATGAAAAGGGTAATTTATTGGCTGTTTTAAATGTGGGAGCTAGTTTATTTCATCAGATGGGATTATATCCCTAACTTAAGTGTCATTTTTTTTCTA
GGCACATCCTGTATTGTTTAAATATAGATACATTTTTATTCAGTTTTAAAGTTAGTTAAGTGAGCATTTATATATGCTATTTAGGGTTTGACTTGCGTGT
GCCATAAAAATCAGCTGTTGTAATAATGGGAATGTGAAGCTTACATTTGAGAGAGTCTAACTCTGCTGATCAGTACTCAAATGTATGAAACCATATGCCA
CCAAATTATCTGTGGATGGTCCTTAATTTAAACATCTTTAGCACAGCCAGGAAGCTGTTCAGTCCTCAGTGTAAGTAGGAGGATCAGAAAGAACCAGTCT
GTGAGCTATTTATTTTGGTGAGTCTTGTCCACAGTGCCACAGCATGGCTCTGTCATGACTTTTTATACCATTCCAAGTTACTGGAGCCATTGTTTTGGCT
TAATGAGCAGGTATGTTCACACCAACATATTTATTATGTGAGAATAACTCTGTACTGCTCTGAAAGGCATCATCACTTTTCATTCCAGTTCTCTACCCTG
TCCTAGGTCCTTGGTTTTTATTTTTCACCAGGGAGCTGCCCTGCCTCAGAGCTGCCCTGCCCTGATCAGAGAGCACTGTCTGGCAGGTGAGGGTCACCCA
GGGCCAAGGCCTTGTGGGGGACCCACTGACAAGTCCCTGCCAGCCAAAACCACAGAGGCTCCTCAAACTTCCCTTCTTCTCATCTCTCCAAAAGTCTCCC
ATCCCCCTCCACCCCCGCCTGCCAAGGTGCACCACTATCGCCCCACCAGGATTTGGTGGCTTCCACCGCCTTCCTCCTGTACACTCTGTTGCTCTCCTCA
TACCCAAAGAGATGGTTAGACCAAGTTTTTCTTAGTCTGGGGTCTATGGGTACACCCAGGTTCTTGTACCCCTGAGATTATGTGCTGGAATTTGCATGTG
TGTACAGAGGAAGTCCAGAGTGGTCACCTATTCTCAACTCCATGACCTAAGACAAGTTACAAGCCATTATTCCAGGAGTACCAGAGAAGACCCCCTTTTT
CTCCCCTTTGATTGAAAGATGAATTTAGCAAATTGGGTTTAATCCCTGATGCCTTCACAGGAATGGTCCCAACCTAGCTGTTTGGGATCACCACAGAAGC
TCATAAAACAGGCTCCTAGACCTTCCTCCTCATTCATAAGCTCAGAATCCTAGAAGAGGGGTTATGGGGAGGCAAAAATCTGTATTTTTTCAAGGCCTCA
CATAACCTGATTAGCAGATCAATATGTAAGAGCCACAGTTCTATATCACTGTGGGTTTCTATCTTTGTTAGCAACATGGTCTCAGGGCATCTGGRTTAAC
GAAGAGGTCGAACTCTTGAACTTGCAGATGCCTTTGTATTCTCTTTCCCCTTTGCCAGTTTGAAAAGTCACTTCCAAAGACGATTAGAGAGGAAGGATCC
TTTGCCCCTTCTTTACAACCTAGGTTGTAAAATCCCCATAAAGCTGGTTCTGGCTGTTCTTGGGGATCCGAGACCACCTCATTTCCACATCCTGAAGACA
TTGTTTGAACTGAAAAGCTCAGACATAAATTAACATAAATGTTTTCTTCCATGATTCCTTTTCAAACTTGTTTTCTCTTAGATGGTGCACCCAGTTAATG
AGAAATTTTGGTTTTTAAGGGAAATACGAAATTGAAGTAAGTACATCCCAGTGTGACTTAGTATAGGTGAAATGGAATCAAAAGTGGTATTCTTTGAGGA
CCTGAAGGGACATTCTAATTGGAGACTACCCCTAAATCACAAAACTTAACATTTGTTTTAAATTTGGGAGATTGGCATAGAGTTTTTTTTGGTATACTGG
TTTCATTCCTGGATCTTAACACTTTGGATCTCAGCAGTCGATCCTGAGCCCAGGCTTCCCCGGTGAATCAGAGCAGTGGGACTGACCGTGGAACACGCCG
TGTACTGGTCAGTCTCTCTCCTTACAAGTTTGCTTCCAGATGCCGCAAGCCAACGCGGGGCTCTGCCACTACAATGTGATTTATGTGGGTGCTTTTTTCT
GTGGCATTTATCACATTGTAATAAGCTAGATCGCACATCCCGAAGAGCATTTTATGTTGAACTATTGGCAACATGAATGTTTAAGCTGGGGAATCTGTCA
TTGTTTACCACTGAGAGGGCTTGGCTGCCTTGGAGCAGCCAGAGTACTTTCGTGAGCCTTCTTGGGGAAGAGGCAGCCAGGCACCCAGACCTCTTTTCTG
TTTGTTAGCCGCCTTACTGCAAGCTGCTGACGCAGCTGCTGCTCTGAGATTGAGTTGCTTGGTTTGAACTGTGTGCTGCTCCTTAATCATCCATGTCGCC
CTCCATTTCTGTGCAGATTGCAGTCCCCCTCCTGAAGAGTCCAGCCCAGGTACGTGGTTTCCGTTCAAGGCTCCTGCTGATGCCCTTTTAATTGATACTC
ARGTAGTGTTTTGTAGCTAAATTACAAAAGATTGCCTTATGATCCCAGAGTTGGGAAAGTATTCCAGGACCTCCTTCGTTGTGAGGCATAAAACACTTTT
CGCAGGTTTGATGAGGGACCAGTTGGGCTGAGGAAATTGTGGCCTGAGGCAGACTACCACATGTATTTGTTTTACTCTTACATTCTAAAGTCTTTACAGA
TGAGCGTGTTGGGCTTCCTGAAGTGGTTGACCTGAGGTAGGGAGGTACACATCTGGACTTCCTGGGTGCAGTTTTAGAATTCTTACCAGACATTGCTATG
GGCCTCAGTTGCAGTTAGTACCAGAAATGTAATCTCTTTGCTTCCTTTGCATGTAGAAACCAATGTTTATGGTTCTAGTTCAGGGGTTGGCAAGCTACAG
CTCTGAGCTAAATCTTGTCCACAGTCTGCTCTTATAAATAATGTTTTGTTAGAAACCAACCTTGCCCACTTGTTCATGTATTGTCTGCAGCTGCTTTTGT
GCAGCAGTGCCAGAGTTCGTTGCAGCAGAGAACCCGTGGCCTTCAAAGCCTAAAATATTTACTGTCTAGCTCTTTACAGAAAATGTGTGCTGACCCCTGA
TCTAGTTCATATTGAGTTTCCTGGGTATGGCTTGTGGTTTTGAGCATGAGTCCCCCAAATAATATGATTTGATGTTCTTTTTCTTACATTCCAAAAATCA
GCTGCATGGTCAGTCTATTGCTTGCATATTTCTGACTGGTTATAAATGTAAGACAGCAGGATACTTTGTTGATGTCTAGAATGTAGCGAGTCCATGACTG
TGGGATTTACCAGGCTAACAAGCTATTCCTGTGCATTGCTAGTGAAGCCTGTCCACCCATACAGCCCCATGAGTCAGCATAGTGTGGCAGCTCCTGGCAG
CAACCCCAGGACGCTCTTAGAAGTTAGCTCATTGGCGGGCTAATCTGATTGGACACCTCATACTCTCCCAGTTTGCTTTCAGCCCCTTCACAGTTTCTCT
TTCCCCAAAAGTCAGTGTCGCTTTGAGCAGGCTTTGGGCCCCACCCCCTTGGACCCTCAAGGTTACTGAGGCCTTGGTAGATGTACAAACAGTTGATCTT
GGTCTCCTCCTCCGTTGCCTCCCCGGGCCCATGCCTCAGCTGACCTCCACGGCAGGCCAGTGCCTTCGGACTGAGCTGGCTGTCGCCTGAGCCTCAGTGG
TGCCCAAGCCTGGGGCCATACCCAGCAGTTAGGGCCAAGAGAGGGCTGGTGGCATGTGCATCTGCCCCCACAGAAGCTCAGGGGGTCTTCTCAGTTCTGG
GCTCCTGAGGGTTGCAGAACTAATGGGAAGTCTCATGGGTCCCCGGGCAGCACACAGACAATGCCTGGCCTGTAGAGCCCTCCTTGTTGTGTGTCAGCTG
GGACATTTCCAGAAGCACTGATGGCTTTTTCACAGTTGATGCTGATGGACTAAAATGGTCCTTGCAAGGAGTTCTTTTGGCTTTTCCTGGAGAACTGCAT
TTAATCTGGGCTAAAATATACACACTTACAAAGGCACACACACTCTCCCTTTCTCCCTCCCCTACTGATGAGGGGAAAATGCAGAAGCAAAGTACGGATT
TGAAAGTGCTCTTCAAAGTTATCTAAATTAGTATGGCCCATGAATTCACTACCGGTCTGCGAACATTACGGGTTAGGAACTAGATAAGGAGTTTTCTACA
AAAACGTGGGTCAGCGACGTCACTCAGGACATTGTTTCACTGAGCTGATTTTTTCTCATAACAAGGCTTTGTCAGTGAAGGAGGCAGAGTATAAACCCTT
CACCGATTCCAGTGACCCAGGTGCCTTTACTTCACTAGATCCTGCGTGGAAATCATGTTACTGCCCAAGAAACTCACTTTGGTTGAACTTTTAAAAAATT
GTTCCAGGCATGTCTGAGTCCTTCTCTGGGCAGATAACGACACTCACCTTCTACCAAGTTCCATATCTCCTCTTTTCCAGGACAAACATCTTAGTGCTTT
TTAGCCATTCTTCCTATACTACAATTTTTTTTCATTTTTTTCCTAATGTAGCGAAGCAATCGTTCTCATAGGAATTTAGTTTAAAGAGATATAGGCAAAG
TGAAAAAGTTGTATGGAGAGAGCTTGTTTAGTCAAGTAAGACCAGTTGTATATTTTGATCATTTTCAGATTAAAATAATCATGATTTTCATGATATGCAT
GACAGCTAGAAGAGCAAAGTAAAATTGGCAACATTTGCTTTAAGAGCATGTACTTCTTAGAGAAGGATAGTCTTAAAGACTGCCTGCCTTTCCCCAAACC
GTTTGGCGAGAAAAACTTGTTTGCCTTTGGCATTTTTAATAGGCACTTCATATAATTGGCATACATTCAACAGAATTCTTCAAAGAAACAAAAACATGGT
CTCTGAGAACTTTAGTGGAGGAAAGAGACTCGGACATTATCTAGTGCCTCTCTCTCATTTTATAAAAAAGGACCCACATGGCTGAGGGGTCGAGGGCCTT
GCCTGTGGTCACCTCTGCTCAGCAGTGGCCGGGGCCGGGCCTCCACATTTTCCACCTCTCAGTTCAGTGTCCTTCGTCACCATGATTCATTTGCTAAGAC
CTGTCTGCTGTGGACTTGCTAAATTTAAGCCTGCTTTTTCCATTACAGATACAAATCCTGTCCACAAACAGTTAGCGTGCCTGCATGTACAATTAGGCCA
CCTCCAAMTTTTGAGCTGCTACATATACTTAAACATTTGCATTAACCAAACACTGAGTGTAGGGAATTCTTTTATATGTTTCAGTATTTCTTTAGGTTGG
TTTCTCAGTGAAGTGCTAACCATCCAGCTTGAGAGAACAGGGCCAAGCCGCCCTTCTCTCGGTCTCTGAGATTCTGTTTATCTAAGACAGAGTTTATCCT
CTGGCAGCCGCACAGCTCCCACAGCCCATGGCCTTCCCTGAGTGCCGTGCCGGGACATGGCCTGGCGCATTCTGTGGCTCGAACCCTCACCCTAAGGGGC
ATGTACTGCCTGGGCTTCACTCCATGACTTCTCACCATGTTTGGTGTGGTGGATTCACCAAGTGGTGATGGTCACATGCCTATTTCTGGTCTTAATCACC
TGTTACAAATATAACCTTAATGAGAGCCTGTCTTCTCTTTTAAATGTCTTCTAAATAGGAAGGAAAAAAAGAGTCAAAACCCAAAATATCTTTCACCCTG
TTTTTCTCCCTTGAGGTTCTATTTTTAAAAAGTTGTTTTGGTATAGGGTCAAAGTTTCCCTATATTCCTAAAAGAAAACTAAGCTAGAAATAGTACTGGG
GAAGGAAGGTGGGGGTGGGGAAGGAAGTGAGTGCAAGGTGGGGCCGTTCTGAGGGCTGAAAACTTGGGAGCTGTRGGGAATAGTCCTCCTCCAGGTGTGC
AGGGGTAAGAATTGAACACAGTTGCACACAAGGCTTGGCAAGGGCAGAGGAGTCTCTGACTTGACTTTATACCCAGGTCAAGAGAAGGGAGATCACAGAG
AACCTTTCTGGGTGTCCTTCCTCTCCGGGTGGAGGTGCTACAGGGCTGTGGAAGGAGATGGGCCTCTGGGGACAGAGCATTTTCTGGCCTCGTCATGACT
TGCAGAAGCTTCTTTGTTGTTTTCCTCCGAAGGCATTGTCTTGAGTATTTCTGTTTAGGGTCCCCAACAGGTTCAGGAGACCAGGCATGTCTTGGAGGTA
CCGGAGTAGAACTGGTGTTTGAGGTTGCTGGAAAGAGCTGGGGCTAGAGGGCTAGAGGGCTAGAGACTGGGTTGGTTCCAGACAGAGCTGGAAGATGAGG
TGGAGATGGGGGAGTGGGAGGACTGCAGTGGTTAGGGGCCAGGTGACTTGTTAAATTGCCAGAACCTAATTCTTAAAATCTCTCTCTCATTGTGATGACC
CCTTCGCTTGTGCCCCAGGTGAATGGAGTGAGGCCCTTTACCCGCTGCTGACCACTCTCACCGACTGCGTGGCCATGATGAGTGACAAGGCCAAGAAGGC
CATGGTATTCCTGCTCATGCAGGACAGCGCGCCCACCATAGCCACCTACCTGAGCCTGCAGTACCGCCGTGACGTGGTCTTCTGCCAGACGGTAGGCCCC
GGGAGCACCCCGAGGGAGACCACGGGCACCTCTCAGCTCAGAAAAGACAGGCTTAGGAAGCCCTTCCCTCTCACTTCACTTGTAAAAGACCCCAGATGGC
CATATTTCCTCCTGGTGGTGCTTTAAAGGTTATTTAATAGAGAGGTCTACATTTCAACACAGTCAGGAGAACTACCTTGGCAGCCCATGCTTGCTTCTCC
CAAGGAACTGGCACCTGCAGAGTCTGCCGATTCTGCACCCAGGAGATAGTGAGGGCATGCATGGGTGGCACAGGCTTCTTTGCTGCGTTTTTTTTTTTTT
TTTTTTTTACTGCACAGAGGTTGAGTGAGGGCAACACAGGTATTTGCTGTCAGTGCAAACATTGCTCGTATAACAGTAGGTGCCTTAGCTCTGCAGCTTG
TTGCAGGACTCTCTTATTGTTGAGAGAAGTGAAGCCTTGAAATGAATGTAACAAGTTTAATAGTTGCCAGTAATCAAATTAGTAAAGTGAACAGTGATTT
GGGGTTGGGCTGGTTCTCTACAGGTTCCCTCACCCATCCTGGAGAGTCCTGTTTCATCCCATAGAAAATCTCCCACTGGGGAAACTTTGAGTGACCATGT
TGTCTCTCACTTCTGTTTTTTGCTGGGGCTAACTCAGTTTCCAGCCAGGGGTGGCATGGCTCTATGAGTAGATAGACCCTTTCACTGTGAGTAATTAATA
ATGGGCTTCCAGAAGTTCCAGCCTAGGAATAAAGCCAGGTATAGGTCAGGTCAGAAGCTGGGCCAAAAACCAAACCCACTTGGTGAGCGACAGGAATAGC
AAGCCCACTGTTGGGCGTCTTCCCATGGCCAGGGCATGCCCCACCTGGGCTTCTCAAGGGATGGGAGGTGCCACTGAAGCCCCTTTGAGCAGTGGCAGCA
GAGGAAGGGGGCGGTGGGGGGCTGGGCATGATCTGACTGCCATTTGGTGAGCAGGCACCTGACCCTGWACCTCTTCACCCCACGCTCCCACAGCTGACCG
CCCTCATCTGCGGCTTCATCATTAAGCTGAGGAACTGCCTGCATGACGACGGCTTCCTGCGCCAGCTCTACACCATCGGGCTGCTGGCCCAGTTCGAGAG
CCTGCTGAGCACCTACGGTGAGGCGCCCGGGCCAGGATCGGGAGCCCCACTTGCGTGTGTGGTTTCCATCCTTTCTTGCTAGGCACTTTTCTCACTATAC
CAGTAATGCGTGCTTATTGAAATAAATCCAAAATATATAACAGCAGACCAGATGGCAGACCTGGCAGTTACACACGCACACGCCTTGGTTTGTTGTTGTT
GCTGGTTGAGGATGGATGCTAATTACTTAACCAGTAACTTCCTGTTGGACTTTGGGTTGTTCCTGAAACACCAGTGCAGCAGTGACATCTGTGCATGAGG
CACTTGTGGGCCTGTTTCTGCAGCTACTGAATGACTGGAAGGAGAGTTGCTGGGTCAGAGGGTAGGAATATTTTTAAATTTAATAGATATTTCCAAATTG
CCCTCTAAAAAGGCTCTCTTCTTCCTACCCTTGTTTATTATTTATTTATTCTGAGAAGGTGATAGAAAGCATTTGTTAATCATTGGAAATTGAGGACATC
GAATAGATATCAAGCCCTGTGTAATGGGAGGGTCTGGCCACAGCAAAGCTGCTTTAGCATCTCTCATTTCGTGTTTCAAGAGCTGGCTTTGCTTTCTGAG
TTTATGTATTTGTTTCCCTCCCTACTATCTGGTGCTTGCCCAAGAAATAGTGGGAAGGGATGGCGCGTGTTTCCACCAGATGCATGTTTTGATGTGGCTG
TGGGATTTCAGAGGCATTGTTGACTCACAGAGGAGTGAGTTGCAGGGGAAGAGGCTCAGAGACTCCCCCTCCACCAGAGCCACACCTGCACCCCTCCTGT
CACAGCCAGGCCTGGGCTTGGCTGCCTTCTGCTGAGACTGGGGAGAGTAGCAGGGCCCTCTGCCTGACAGCCCTGCCCCTCTCTCATGTCCAGGGGAGGA
GCTGGCAATGCTGGAGGACATGAGCCTTGGGATCATGGACTTGAGGAACGTGACCTTCAAAGTCACTCAGGCCACTTCCAGCGCCTCCGCAGACATGCTG
CCCGTCATCACAGGAAATCGGTAGAGTGTTGGTTTAAAATTCTCTGAGCCAGAGAGCGGTTTTCATTTTTGTTTATCTCAGGGAAGGTACTCTTCTGAAT
TTTTTATCCTATTTCATTTTGTTAAATGCTCTGATTACAGCCCCCTAGGTTAGTGCCACTCCCTTAAAGGTCTGTGGTTGGCAGTTTGGCCATCACTAAG
CCAGAGGGCCAGCCTGGGCACTGCAGCCTGCTCGGTGGCCCTCTGGCCTCACACTGCTCTCCCTCTCTCCACCTTTCTCCAGCGACGGGTTTAACGTGCG
GGTCCCTCTGCCGGGCCCGCTGTTTGACGCCTTGCCCCGGGAGATCCAGAGTGGCATGCTGCTGCGAGTGCAGCCCGTCCTCTTCAACGTGGGCATCAAT
GAGCAGCAGACACTGGCCGAGAGGTGCGTGCCGGCTCCTCGGGGCTGCGGGGGTGTGGTGGCCCTGGAGATGATGCAGAAAACGTACTTACCCCTCTTCA
GGCTCTAAGTGCTGGACAGACTTTGTCATCCTTCCTTCCTTTGGCCAACATTTTCATCATGGCCGTGCACCTCACTGTCTTTGGTGCTAGGGACACAGAG
TGACCCAGAGGTGGTCTCTGTCCTCAGGGACTCAGCTGGTGGGAGAGAGAGAGACATGGATGCAATGATGAAGACAGATACAGGGCATTGTGGGATCCGG
AGTAGGGCACCCAGCAAGGTCTAGGGGGTCTGTAAAGGCTTCTTGGAGTTGCAGGGGATGGGGCTTTGAATTGTGAATAGGAGTTGGATGATGAGGTGGA
GGGGAGACATGTCAGATTAAGAAGACTGAAGAAAGGCCTGGCGAGGAGAAACAGCATGGAGTTCAGGGGCACCAGGTTCCAGGCAGGGATTGGCAGGTAA
GGGTAGACAGGCTCTGTGTGCCAGGCTGAGACTCATGCCTGAACCTAAAGGCAACTGCCCTCCAGGGTCACTTGCCACACTGCAGAGGGGAGTTGTGTGT
GCCTGTGTGTGCACGTGTGCCTGTGTGCGCACATGTGTGTGAGGAGATAGGGTAGATTGGGTATATGTACCCTTTACTGGCCTTCCACTAGTACATGAGA
ATGATTCCTGTGTTGTCATTTATCTTCATGTGATATGTGTAGAATAGTCTAAACAGAGATCTTCAAGTACTTGCTGTGAAGGAAATTTGGTTTCCAGAAC
AATATGCCGTGTTCCTGCTGGGCCTTCTGATGTCCAACCCCAGTGGTTGATGTCCATTGACGCCTAGGTGTAGGGTCACACCAACTTAGGAAATATGGTA
TCATTGCTGGGAGACACTGAAGAACTCTCAGTGGGGCAGGACACAATCAGATTTACATTTAAAGTAGGTCGTTTCGCTGGCACGTGCCGGGAGGAGATGA
AGGGGACAAGTGTGAGGAGGAGGCTGCTGGGAGGAGTCCAGGCCAGAGGTGGGAACCTGGATCAGGGCCAGGGGAGTGTTGGTGTTCTGCAGAGGGGTAG
GCTGGGGAACTGTTAAAGTGGTCAGTGGAAGGGTTTGGTCTTCAGTGGGGTTGGGGCTGGGGCTGAGTGGGAGGAGAGTACACCAGACAGACCCACCCAC
TGAGCTCATAAACTGGCAGGAGAGTCGTGTCCAGAGGCAGGTGGTGAGCTGGGTTTGGACTGAGGGCACCAGCCCAGGAAGCAAAGCCCCAAAGGTGTGA
GCAGAGCTGGAGGCGCCTATGTCAGGGAGAGGCGCAGCCTCACTGGAGCCCCAGCAGGGAGGTGGCCCAGGGGAGGGAAAATGATGGTGCCTGCATCCAG
TAGCTGCGGRTCCCACAGACTTGCAGGAGCAGTTTCTAGAGAGGGCTGAGCCAGAGCCAGGTGCATTGAATAGAGGGGAGGGTGGAGGATGCAACACTGA
GGACAGAGAGGACTTGCAAAGGGCAGGTTCTTGACTTTGTTTCTTTATTGGCCCTGAGGTCACTGGTGAGCTGGGCTTGTTTATAAGCTGAGGGAAGAGC
CCTCAGAGGGGAGGCCACAGGCCCAGAGTCAGGGATGGCCCCCAAGGGAGCAGGCGTCTAGAGAAAAGGCCATTGTGGACACCAGGGGTGGATGGGCTGG
GACCCGTAGGAGGGAATCCTGCCCTCTGAGGGATGCTCTCGGGCCACAGAGAAGCTGATGCTCGGAAGGCCCCTCAGCAGGGATGTGTGAGACTGCACTG
GGGCCCAGGACCTGGACTTCAGAGCCTGCATTTCCTAATGATCACCTTGTGCCTTCCTTGCAGGTGGCATTTTATGGCTTTGTTTCTTAGGCATTTGGCA
CATGCTCCTTGTAGCACACTGAGTGTGATCAGGGTGAACCTGCACGATGACGAAAGGGCAAGGGCTTCATGTCAGTCCCGGAGGGGCTGGCAGTCAGGTG
TGTTCATTCTGCACACAGAGAGTGACTTCAGATTGGAGTACAGGGCTGCATCCTCACCTCTCAGCCATACCTCACTGCCGTCCCCCCTCCTAAGTGCCTC
AGATGGGAGGAGACCAGGGACTCTGAGCCAAATGGCTGTGAGGGGGGATCCTGTGCTGCACAGGATCTGTACCACATCATGTTCTGGTCATCTYTCAGGC
ACGCCTGTAACAGTGATACATGATTCCTGCCAATGGAATGCATTTAAACTGATCAGCAACACTGTAGAAATGCCTTTATGCTCGGAAGAGGGAGAGTGGC
TTAGAATTTAGATATGCATAGTAAATGTTTGAGAGAATCAGCATAGTTAGCTTCCATGCAGTTGTGTTCATGTTAGAAGAAAGTGACATTAGCCAACTAA
TGGCATCCCCTATAACCTCCCAAGGTTTGGCGATACGTCTTTACAAGAAGTCATCAACGTGGAGAGTTTGGTGCGGTTAAATTCCTACTTTGAGCAGTTT
AAGGAAGTTTTGCCTGAGGATTGTAAGTATTTCTTCAGTCATGGTAGGTTTCACTTACTCGTCTTTTTATCAGTTTAGATGTCTGAGCTCTGGCTTGCCC
TGCCTCTGTGAGTGCATGCCTGTGCATGTGTGTGCACTGTTCCCTTTCTCCCTAAACACACACACGCAGAGAGAGAGAGAGAAGCTTCCCTTGGCTGTGG
CCCTCATTCATCTCTTTGCTGTCGATTCTCTACTAGCCTATGTGACATGGCTCCTTCCCATGCTGTCGTAGTCACTGACACAAGATGTGTTTGGTGGCAT
GCATTGTGCACCTSCTGGTAGGACTTGGGGGAATCACAGAGGCAGGACCCACCCTCGGCCAGGTGAGCGGCCCACTCACTTCCCTTTGTGGTGCTTAGAG
AGGAAGATGCGGGGCCAACATTGCTGGGTGTTTGGGAGCAAGGTGGCCCCATCTCGGCATCTCCTGGAGGCAGTGGAGATGGTGACAGTAATCTCTCTGC
GTGTCCTGCAGTGAAGATGCTGCAGCTAGGGCTCTGCAGCCACAGAACTAAGGGAGGAACCGAGAGCTGCACAGCACTGTCTACGAGAATTCCCTCTTGA
GTTCAACCCAGTGAATATTCCCTGAGGACCTGCTGTGTGTAAAGTGCTAGAGGATCCGATGGCGAATGAGGGGTGGACCCTACCTTGGAGGGAAAGCTGG
TCCCAGAGTGCCGGCCTCTCTGTGCAGGCGCTGCCACAGCCACTAGGGGGCGCCACGYGTCAGAAGGTATCATCCCCTCTGTGTTACACTAGTGTCCTCT
GATGGGGGTTTCCAAAGAGGGAACCCACATCGGCTGGGCTTTGCATTGGGCAGGCTTCATCTGCATCCTGTTGGACGGTACGGTAGACCTTAGAGTTTAG
AGATAGTCAAACAGTACTGCTGGTGAACCTTCACAGGTCACGGATGTGCCAGACACTGGGCTGGGCTCTACATACGTTTCCACGCTGAATCCACAACAGC
CCTATGGGTCGGTGATAGGATCCATGTCCAGATGAAGAAAGGGGTGCCTGGCTCTGAAGCCCATGTGCTTGGATTGTGGCTGAAGCCGTCCTGCTAGGAG
AGAGTGATGCAGAACACTCCGGGGCTGGGCCAAGAAGTCGTGGCTTCAGCAGGGAAGCAGTGGGAAAAAAGACGCCTCTTCACAGGTTCATCTAGCAAGA
GTGTGCGGTTGGATTGGAAGAGGGGAGGCAAGCCGCTGATGGCCAGAGTGAGGCTGTGACACTTCAGATGAGATGTTGTTTCACTCTGACTCCAGCCTGG
TWGTGACAGTGAGCGTGGAGAGAGGGATGAGGCGTTAGGGGGGTTTGGGCTGAGGATGCACTCCTCAGCGGCCACGTGCAGCTGGCGCTGGGGAGGTGAG
GGCTGTGTCTGCTGGGAGAGCTGACAGACCTGGCTCTGGGCAAGGACGCTGGAGTTGCCGGCAACAGCTGGGGCCGTCCCGCTGATGAGAGAGGCGCAGG
GCTACAGGGGACCGACAGCGAGTGCAGCACTGGCCCCAGCTGAGCTGATGACATGGGCAAATGACTTGTGGGGAGTGCAGATGTGGAGCCACAGAGCAGA
GCCCTTTGGTGGTTGAGGCCACTGAGTGACAAGACGAGAAGGGGCTGGAACAGCATCTGGAGGGGCCCCTGCTCTGGGGGACAGCGAGGAAGAAGGGACT
CAACAGAAGGCGAGAGAGAGCATCACAGGCTAGCAGGAAGAAGGCAGGAGCCAGGAGGGTGTGGGGCGCTGCCGGACACTGGATGTGTGGACAAGGAGCT
GCTGGTGATCTCTCCCATACAGTCTCACTGTGGTGAGGGCTGGGCCAGGGATCAAGGGGTGATGAAATGGTGCTGCCCTGGAATGGACCACTTTGTCCCA
AAGACTGTCAGCAACTTGAGGGATGGGGCTGTGGGCAGGTGGGACACACCCTGGAGCTGCAGGGGCCATGGGAGTGCTCAAAGGTCCGAGGGAAGGAGAA
CACACAGGGCTGGAAGATGCAAGAGGACACCAGAGTCACAGACCAGGCCCTGGAGTGGGCAGGCGGAGGGTGCCCTTGCAGGGAGGGAAGGAGGGAGGAG
AGAAGGTAGGGACATGAATGGAGGAAATATGCTCAGGTTGGGCAGCCTCAGTCTCCCCAGTAAAACAGGTGTTCTTGTCCTGCTCAACATGAGAGAGGTG
AGCACAGAACCGGGGCCTTGAGGGGAGTGGAGGTGACTGGCAGAGATGCAGTTGGAGCCAGAGAGCCTGGAAAAATACAGATGCCTGGGCCCCACCCCAG
AGTGTGGTGGGCAGGACCTGGGCWTTAGGGTTTCAGAAACTCCCCAGGTGGTCCCTGTGTGCCACAGCCAGGGTGGTAAACATAGCATGAAGTCAAGGTC
CTGCGAGGACTTGGCAGCTGAAGGCCATCAGTGCCATGGACGTCAGAACTGTTAAGAAGGTGTCCTCATGCTCTTTAGCAGGGACCGGAGTTCAAACAGC
AGATTTGTCACATGCTCGCCACAAGCTGGGCCCCCTACTAYCCACTTTATGTGGATTCTCTAATCTGATCCCCACAGCAGCCCTGGGAAATGGGCACCGG
TTTCACACCCACTTGGCAGGTGAGGAAACTGAGGCATGGAGGGCAAGTCTCCCCAGGAGCTGGGCCAAGCCCAGGCAGCATCTTCTGACTGCTGTAGGGG
AGAGGATGGGCCCACCGGCAGGGCCAGCCAAGGAGCCACGAAGGTGAGCAGGGAGGGAGTAGGGGGCGCGTGCTGAGGCCTGGAGGAGTGGGAGTGGTGA
GCGGCTGCAGTAAGTAGGAAGGGGGAATTTGTGCCTAGCACCTTAGAGGGCAGGCAGTCTCCAGGGCTCGGGGAGCTGTTACAATGGGCAGTGAAGGCCC
AGGATGGGCGAGGCCTCCGGAAGCAGAGCAGCCAGGCTGGACCACGCAGGCAGGAACTAGTCGACTGGACCATGACCCAGGAAGCTGGGGCAGATGTGAG
CCAGGTACCCCTCCCCTCAGCAGGATGGCTGGTCTCTGAGGCTGAGGAGATGGAGCCCACCAGCTGAATACCCCCAAACTTTGTGTGGTTCCTCAGTGGA
CAGGTATTCATTAAAGCAGGGGCTGCAGGGGCAACCAGCGAGAAGCCAAAGTGCATCTTGGGAGGTGAGATGGTGCTGTCTATGCCAGAGGGCAAATATC
CTGACCTGGCTAAGCTCCCCTCCTCTGGGCTCCCACAGCTTCCGTCTCAGCTGATGCCACCTTTCCATCTTTCTGTCTCTGCCCTGTCCCCTGACCGGCG
TGGTGTGGAGCACTCAGCAGCAACGTGAAGTAATTAGCACAGGACCTGTGTACGCCAGGGCGAGGCTGTGTGGTGGAAACCAGGTGTGCAGTTAGATCCC
AAGTGCTGCCATGTACTTGGTTTGGCTTCGGGGATTCCGGCGCTGTGGCTGTTTTCCTTAGCCATGACCTTGAGGCTCTTCTCTTTGTCTCTGATAATCC
CAGTGTTTGAAAATCCCAGAGTACCTTTCCAGGAGTGGTTGATTTTTCCTCAGTTTTGTCTGGGGTTTCTTGGTAAGGTGACCTGATGGATCTTCAGGCC
CAAGGGGTCCTGGAAGGGCCTAGAGACTGCCAGAGTGGAGGAGGAGCTGTTAGGATGTGGGAGCAGGGGCTTCTCTGGGTCCCGCAGAGATGTGTTCTCC
TGGCATGGGCCAAGGGCCCCCTGGAGGAGGCTGCACTTTCCTGATCCCTCCCAAGGTTTCCAGGCCTGCTCAATGGCTCAGACCCACTGCCCCAGTTTCT
TCTACCCTCGGGAAGTTTTGACGACCAGCTGGATCCCTCTCACTCCCTCCTAACTCCCTCATCTGGGAGGGGTGCGGGAGGCATGGGTATTTACAAGGAG
TCCTGTAGGTGATTCGGTGGCCATTCCCAGCCCCTCAGAAGAACTGAAGGGAGATGAAGGAAATGTCCTTTGAAGGTGGCAGTAAAAGAAATTAAGTGCT
CACCACACCAGCAGCCATGTCCTATCCCCAAACACCTCCATCCCTTCTTCAACCGGGAACTCATTGTTTTACCACTGTGTGCCCCAGCAGCTCACTTGGG
TGGGCTCCCTCTGCCGGGGGAGTTCCTGGGTGCGTCACCCACTCCCACGAACTCCTTTTCTCTTCCAGGCCTGCCTCGGTCTCGCAGTCAGACGTGCCTG
CCAGAGCTGCTGCGGTTTCTGGGTCAGAACGTGCATGCCCGGAAGAATAAGAACGTCGACATTCTCTGGCAAGCTGCTGAGGTACTGGTTACAGAGAGGA
AAAGGAGGCTATTGCGGTGCCCACAGCTGAACGTCATGACAGAAACATTACAAAGTAGAATCTCAGCAGGAGAGCAGAGCTCTCCATACTGGGAGAGGAG
GGAGTCACTGAGTACGTTCTGAAGCTCTGAAAGAGACTGAACAGTTCACAGAGTCCATTCCTTTGGGGCTGCCTGAATTCTGATAAGCTTAACACAGTCC
ATCTCTTGGGGCATTTACTAGCCAGGCTGATGACAGTTGTCACCCTCAGAAGCCTGGCGATCGATACCAGCTGAAAACCACTGTCTACTGCATCATTTAA
TAGGGTCAGAAGGAGGCCATGTGACCTTTCAGGTCTCTTTAAACCATCTTTATCGTCCATTGTGCCTCTGATCTCCTCATTTTCCCAAGCACTTACCCTG
CTCATATTTTCTCCAAAGTTTACTTGTGGAATTCCAAGCCACTGCTCTGAGCCTGGGTAACAGACCAATTTCATAGCTGGTCATTCATTCACCCTTGATG
AGGGGCGAGGTTAATTCTTCTCCACAGCAGCATAACCTGCCCAGCGCTGGGACTCGGGCACACATGGCCCCAGTGGCATTCCCGCTCCCTGCCTGGGCCT
GAGGAGAGGGATGGTGAGCCCAGGAGGGAGGTGGCACTGCACTGCCCACCACACCTCAGCCACCACGCCTCGTCACAGAGCTCGAGCAGCAGAGGGTCCA
GCCCTCCACAGCTTCCCTGAGCAGCTCACTCTGAAGTGTGCCTCTCCGTCTTGTCAGGAAGGTGCTTCTCTCAGCCCCGAGTCTCTTCTACAGCAGCAGA
CCGTCTCAGCTGCTCATGGTGCATGGCCGCCACTTCGGGTTGGTTATTAGTCCTGTGTTCAAGCCGGGCTTCATGAAGCCGCACTTTTTGAATGTGCTCC
ACTTCTGGGTTTGTTAACAGTTGTGGCTGCTGATACCATTTTGTTGAATTCAGCTTTAAAGAGTGAACATTCCCCTCCATCTTTTGAGTTCCTCAGCTGG
TCAGACTTTATCTTTGTGGGAAGCGTGGGGTGGATCAATCTGCAGGTCTCCCCTCTCTGGGCCTGGCTGCCCTCTAAATCTTTTCATTATAACAGAACAC
ATTTTGAAGCACAAAGTGACAGGAAGTTCGGCAGGTTTCTCAGGCCTCATTTTTGAGGTATCCTCTTGGTTTTGGGGCCTCATCTGGCATTGCTTGCTCA
GGCCAGGCCCAGCAAGYGGGGTGTAGGGCAGGGCACACACTGGCTACGGGGGTCTCTGCAGCAGGACAGAGGGGGCTCCCTACTTTTATTTTTCCTGGGG
GGTTGCTAAACCCCCCTGGCCAGGCTGTGACAGCCTCTTACCTAAGTACCTTAAGAGATTTTGTGTGAAAAGCAAGCCTTTCCCACAGGACACGAAGAAT
ACAGAGGGTGGCCGGGCTCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTAGGTGAGTCAGCTGAGGTCAGGAGTTCGAGACCAGCCT
GGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGACGCATGCCTGTAATCCCAGCTACTCGGGCGGCTGAGGTAGG
AGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTAAGCCGAAATCACACTACTGCACTCCAGCCTGGGTGATAGAGTGAGACTCCATCTCAAAAAAAAA
AAAAAAAGAATGCAGAGGGTGACACAGCTAGGTGTCTGAACAGTGGTGGGGGATGTGCGTTCACTGATGCGTTCTCCTTGGAATACACACACAGGCAGTT
TACAGACGAGTAGTGCAGAGACCTTGTGCATATCTTGTTTGGGAACTGTGGTTCTACCTGTCTATTGCCATATAATAGAAAAATCATTAAGTATAGGGAC
AACTGACCATCCCCTGTCACCAGAACAGAAAAGCAGTCCATCAAGTCCTGTATTTCTTGTTCCCAGTAGAGATCTCAGGGTAACAAGCATGAGTGTAGAG
GTGCAAGGCTCTCAGAGACCCTTGGCTGCATGGGTTCTCACGTTGTCCACCGAATCCCAGGCATCCCCTGGGGATAAGGGGTTGTGGGGCAGCAGTGCCA
GCCACTCAGGTACTGAGTCCTTCCATCCCCAGTTTGAGCAGAGCTGCTCTCCTTTTCAGGCWCTTATTTCTTTTTGTTTGTGTGTATGAATAAAGGGTCC
CTGGCTGAATAGCTGGARTATCTTTAGTCAGGTCTAAGCCTATATCTCATGGATGGGGAGACCCAGCAGTGCACCACAAGTGGCTGGTGTCCCTCTGGGA
TGGAAGCCTGGCACTGCAGTGCCCTCTTGGGCAAGGATGCATCACTGGCCATCCCTGCCTGCCTTCCAGAACCTCACGTTAGCTCTGGATGCAGCATCTA
TGAATTTAAAGCTTTTTGAAACCTATAGTTCCAGCTTCCGTCATGTGTTTGGGTCATGAACTCTACAGCCCACAGAATTTAGTGCACATACCAAGTTCAC
TCTTGCTTTGTCAGTTACAACTTTACAAATTTGATTAATTTACTCTCCATTAGCTTAGGGTCTGCTTATCTGCTTAGGGCCTGTTATTTTTTTTTCTTTC
TTTTTGTTGGTCTGTTCTCAGAAGAAGCCTATTCTCCTTCTGATTGTCTTGCCTGAACATTGGGTCTTTTGTTTTGCCTTTCCCTAGACGAGGTTCTTAG
CACTGTACCATGTTCGTGTCTAGTGATGATCCTGGTAGTGACTGGCATGCTCTTTGGCTTTGCTGGCCTGACAAGCAGGTGTTGTGCCATCTTCAGGAGT
TGATGAGACACTGATATTTTTCTGGCATACAACAGATACCCGGAGCCCACCATCATATCACTTGGATGATGTTTCATTAAATACCAGCCTTGGTGTCATA
GTGCAGTATCTGATACGGTGCATAGTCCTTTATCTGAAGCCCCTGTGGCCAGATGCTTTGGAATGCACAGGTTTTCAGATTTTAGAAAGTACTGTGGTAC
ACAGTTGGTGTTTACTTATGTAAGTAATATGGTGCCCATCGCATATGTGTACCATGGTATACATACAGGATTTAACATCCCCGGGGGAGCCTGAGACAGC
ACTCTGCAACCAAGCTCATATTATTGCCACACTGAAAAGTATGAATATTTACATAAAATGGGATAAGTAAAGATTGCAAGTAGTCTTATATCAGCTCAGG
TCTGGTTGTGCTGCCAAATGAGATTGCCACAGATTTACACGAAAAAATTACCTTGTTTCAGAGCTTGATGGATTTGGTGACTGTGTGCCTAGGATTGTAT
CTAGAGGTGCAGGGAAAATGCCCTGAAATCTCCCCATGGGGAGAGGAGGTGCACTCAGGTGGCCTTTTCCCAGTCCAGAGGCTGCCCTGCCCCCTACTCT
GTGAGCCATTCAGTTGTGAGGAGGGAAGTGTGCTGGCAGTAACTCTGCTACCGGGAAAGTATGGCGGGAGGAGGCCTGTGGGGCTGGTGGTCAGGAGGTG
GCCAAAGGGCAGTGCAACTTCTGAGCTGCTCCCGTCTGTTCAGGTGAAAGAGGAGAGTAGAGATAGTAGGTCTGTTCCCTACCTTCCAGGGAGACCTRGA
GACCTGGCCCAGGACTGTGGGCATCCTGAGAGTGGCTCTGGCTTCCCCAGTGGGTCATATTTGCCGCCCTCTTTCCCTGAGGGATCAGCAGTGAAGGGCT
GAACGTGATAAGAGGGCCCAGGCATGGCTTGGAAGGGGACAGCGGACTGCAAAAGAGTGTCCTGTGGGAGAAGGCAGGCCACACAGGGGATGGCAGGGAT
GATGGCAGGCCTACAGGCGGCAGGCCCCCAAAAGGGCTGGTGTCTGTAAGTGACTTGGTTTCTATTGCCAGCTCTGGCAGGGCATGGAGTTGGGGAACAA
AATTGGAGCGTCTGGCCAGGCCTGGGTGTTGAGTTTCTGTTCCTGCCCTTGCTGGGCTGGTTGGGAGCCTTTCCTGTGTGTGAAGGGTGCTGCCTTTCTG
TGGAGCCTCGCCTCTAAGCACGGCCCATGTTTCTGTTGGCAGATCTGCCGCCGCCTTAATGGGGTCCGGTTCACCAGCTGCAAGAGNGCTAAGGACCGTA
CAGCCATGTCGGTGACACTGGAGCAGTGCCTGATCCTGCAACACGAGCATGGCATGGCCCCGCAGGTCTTCACCCAGGCCCTGGAGTGCATGCGCAGGTG
AGTGCCGCAGCCAGGCCGCGCGCCCCGCCTGCCCCGGCCCGTGTAAACTGCAGATGAGCTGGTACCCTGCTCCTGCCTGCAGGGCCTACCCTGCATGAGC
CCCTTGACTCCAGCCTTCACACTTGAGTTTGACAAACCCGTCAAACTATTGGCACTATCAAATTCAGACAGGGTTCTCTTGTAAGGTAAGGTGGGGGGTA
ACAGCTAGCAGGACTTTCTGAGCAGGACTGCCCAGAAAACTGGTAGACTGGTGGGCAAGCCACGGGTCAGGCAGCTAAACGGGAAGCTGGGAAGCAGCCA
TGACATGCAGTGCCCTGTTGGCCACCTGCTGGCCGTGGGTGTGACTTAGGGCCAGTGCTTTCTCAGCAGGCATCTGCTGTTGTCGTCGTGTATATATTGA
TATCTGTACATTTCCAAACTTGAGTGAAGCAACGCGTCTGCAGGTTGCATCGGTCTGCTCTGCTGCTTCTCTAGCAGTCGACACCATTTGCTCTTATGAG
CAAAGTGTCAAATGAGTGTTTTATCATGAGAGCTGTCAGTGTGCTCTGGCGACCTCACCCTAATGATGTTCTGATTCTGAGGCAGCAGGCGTGTTTGCAG
AATGAAACCCGGAACTAAAAGTGTCTACTGTTGATCGATGCCTTGTTTCAAGCACTGCTGGGCAGCCCCCTACCTCACATACCAAAAGAAAGGATAAGAA
ACCTGGTTTCCCGTCTCCTTCGATGTAGTCACCAATGCTGTTAAAGTCTCGTTTCCAACAGTCACTTCTACTAAATGTTCTGTATCATTTGTCCTCTCAC
CAAATTATTTAAAGTGTTCAATTCTCTTATCCTTTCTGTATGTTTCTGCCGTTTGACCTTCTCACAATACTGCACAAAAGCGACGCGTGAGCTCCTGCCT
CTTGATAAGTGCATTTTGTAAAAATGGAATCGTTTTGTCCCGTTTTGTCTTTCCAAGTTCATCTCAACCTCTCTGTTAAAGCTCGCCATCCCTCTGCCCA
GGCTCAGGGAAGCAATGGAGACTCAAAGACCGGTGCTCTGGGGCGCCTTTTTAAAATTTTAATTCCCTGGTCTGCTCCCCAGGAGCCTTGGTGCCATTCA
GGCCTGATGTCCAGTGTGACCCTGGTGCTGAGGGACGGCAGCCACGCCTGTGCCCATTAGCTGCACGGTGGTGGGAGGGGACATTCTGGTGAGCTGCAGA
CCTCAGCCAGTGAAGAAAGGAGAACAAAGTGGACAGGGATCCCTGTGGTAGTGGCAGCAAGGAGCAGGATCAGGGCCAGTCAGGAGCTGGCACCCCAAGT
TAGGCACACAGTCCATGCGGAAACCTCTACTCAGTTCTCGGGCTCTCGAACAAGTTCAACGGAAACAATTCATTCTGACCACCTCTGAACACAAAGACCT
CAGGAGACCAGTGACAAAGTGGCCCCCTGGAGAGCCACMGTGYGATGGCAGGCCTGTCACTGAGCCCAGACCCGCAAGGGCCCCAYCCGCCTGCCCCTAG
CMCACTTGGGTTGTGTGCTCAGGACAGCCGTTACAGTTACAGCTGTTAGGATGTATAGTGCACAAAGCACTTTTTATAACTTTTACTCACATAAGGAATT
GAAAATCCTTGTAGGAAAATTAGGAAATACAGATAAGCCCCTACACWAGTTCCTCAGAACCCTCCCACAAAGAATCCCCCAGTTTCCTAATGTGAACAGG
TAGCGCTGCGGACATTTGGATACATACTGTCTAGATAAGAGACATGCGTACATGCCTATGGGCGTGAGTATGTACACATGGGCCAACCAGTCCCTGAATT
ACACAGAACAAAAACACCCACATGCACAAACAAGTGTAATTATATTTGCAAATAACAGTCTTGTGAGCATTTTTTAGGTTAATAAATGTAGACCTTATCA
CTTTTTTTTTCTTTTTTTTTTTTTGAGATGGAATCTTGCTCTGTCACCCAGGCTGGAGTGCAATGGTGCAGTCTTGGCTCACTGCATCCTCCACCTCCAG
AGTTTAAGCAATTCTGCCCTTGCCTCCTGAGTAGCTGGGATTACAGATGCCCACCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAAACGGGGTTT
GGCCATGTTGGCCGGGATGTTCTCAAACTCCTGACCTCAGGTGATCCGCCCACCTTGGCCTCCCATAGTGCTGGGATTACAGACGTGAGCCACCATGCCC
AGCCGCATTTTACACACTATAATTTATCCAATTTGCTGTCATTGAATATTTAAGCTGTATATGGTTTTCCAGCATTTTAATCAAAGGTGCAGTGAATATC
CTTATACATTCCCCTAGCCACATTGCCTTAGGTTAAAAAGTATACACCTTTGTAAGGCTTTTGAATAATTTTAGTACAGATCACCAAATGGTCCCCACAG
TAGCCACTCTCCTGCCCAGTGTCCCAGAGTGCACGAGGCACTGCCCATGCCGGGCGCTGTCTTTCCTGTCACTCTTGTGAGGCTTCTGAAGCTGTAAGGG
CTGTTGTTTCTCTGCATTAGCAGTAAGGGCCCTGGGGCCTGGCAAAGGGAAGGCCCTTCCTCCTGTGGGAACAGGCAGCATTCCCTCCACCCTGCCCTCT
TCCTTTCTAAACCCCACCCCTGCCTCCAATCATGGATGCCTTTTTTACTTGCTTATTTCTTTGTTTTCTGAAATCTCTACAGTGAACATGTATCACTTTA
ATAGTTTTTAAAGAAGTTATAAAAACAAAACAAAGCTCAATCCTACTTTACCTGTGCCTGCCCCAGAATTCTCGCACCAGCTCTGGGGACATGGCTCACT
GCCACCTTGAGCCAACCCTTGCAGGTCTGAGGCTCTTGTCACAGGCATTTGTTTTAAGGTGACTTCTGTTTTCGATACGATCCCATGAGGGGAAGACATG
TACCTGTTCAGGCGGCTGCAAGCCGAGGTGGCTGGGTCACAAGCTAGCAGCTCTGGCTGCTGGGGTGCCGAGTACCTGCAGTTTAGCTGAGGGCCCCAGA
AGGCAGCATAAACTTCCACCCTGCCCGTGGGTGCAGGAGGACATTTTGGTTCCTGGCTTTCTGGCTTGCATCTTATCAGACGGAAGAGTAGAGCATGCAG
GTGGGGGTGGAGGGGGTGGGGGCCAAGCTGGCACCCAGGCTTTTCTCCTGGAGGCCCAGGGTGAACCATGGCCAGTGCTGTGCTGTAAATGTTCAGCCAC
CAGCTCTCTCCCCAAAAGCCCTGATCTGTAATGTTTGCCATTTCTGTGGCATAAACGCTTCTACCAGGGCCCATTTCAAGCTCCCATGTGGCACCATTGA
ACATGGAGTTGGGAAGAGATTCACACATTTGGCCACTGGGGTGTTCCTGTCCCCAGTCCTGGGGCTGAACCCCTCGAAGTAGGCCTTCCTGAGTAGCCAC
AGGGCCCTGCCAGCCTCTCCTGGCAGGGAATGTGGCAGTGGGTCGGTGCTCCGCAGCTTGGGAATTGTGCCCTCTCAGAATGGCACATTCCAGCAGGGCC
ATGGGGGCTTCGGGGCTCCTCTGGGAGAGCTGGGGAGGGCTCTGTGTGAAGAGGAACCCTGGGCCTCCTGCCTCCCCATCTCCAAGTGGAGCCTTCACAG
GCTGCCTGCTGTGTCCTCAGGCCTCTGATTCTGTGTCACTGCTGCCACTTGGCAGACATAAATGTGCTTCCAGAGTCATGTGGTTCTAGGTACCATCTCA
CCTCAGTGCAGTTCTTCTGTAGCACCAAAAGGGGGAAGAAGCCCCAAATTTCTAGTGTGGTATTGTTTGGATTCCACCCTTGGGGATGCTTTCAGAACCC
TAACTTGCAAAGATGGAAACAGCAGTCGCTCATGCCTGCCACTGCTGAGCCTGGAACCCGAGGCGGGGCTGGTGGGGGCTCTGCGCTTGGTTGGTTGGTA
CCTGAGGTAAATGGTTTTTGTTTGCGTGGTTGATCAAGAGGCAGCTTTGGCCAAATCCTTTGTACCACCCCCTGCTCAGGCATCTGTGAGAAGGTCAAAT
CCCCAATGGTTCTTCATGTTCCGCTTGCTTCTCAGAAATCCCTGTCTGTGCAGCATGTGGGGGCATGGCCGGGCAGCATGGAGTTGTGCTTGGCCAGCCG
AGAGAGTGAACATGGAAAACCATTCGTTCAACCTACATGTGTTTATTTTCAGTAGATTGCAGTATTTTTTCTTATTTTCACTTCTCTTTCTCTCCTTTTT
TCCTGTAACTGTGCTGGTTTTGTTTTGGTCTTCCTCTCATACCCGTTTCTGCATTTCATCTTTTCTTTCTATTGTGACTTCATTTCATTTTTTTTTAACC
TTATCTTTTGTTTCTCTTGTTTATCCCATCCTTTTTGATAAAATCCATCGCATGTGTCTTCTTTTTTTCTTTATTTTCTTTCCTTTCCTTTTTCCTTTTT
CTTTCTCCCAAACTTTTTCCTTTTCACAGCATTGGAACACGGGAGGTAGTCACCCAGAAGAACTTGAGCGGCCTGGTGCCCATCCGAGACTTAAGGCTAG
ACCCCAGCCTCCTCTGTTCCATCCCTTTATTAGCTCTGAGCCCCAATTTACTGATTGTGTGGCTCTTTCTGAGCATAGCATACCTGGTGACCAAATTGCG
TTGCAAATGAATATCATTATGAAAAATTAATAAGTCACAAGAAAAACAAAAGTGCCAGAACATGTCCAGCCACCGTGTACCTAACTGGACAGAAGGAATG
TGTCAAACCGTGGTCTGCCAAGAAATATTTCATGCCTTACATTTTGACGTTTTGTTCTTCTGAACTGTAAATATCTGCCAAATTATTTCACCAAGAAGAC
TTGTTTGTTTAGCTCCTGTAGCATCTTCAGTGCTTGTAACATGTTCTTACGGTGCCCTGTCACTGCATCGTTTAGCTGGCCTGGAATTCCTTGTACCACR
TCTCTACCTTCTGATGTACAACTATTTATCACCTGTACCTCTCATGTGCCCTGTTTCCAAGAGAAACGAGTTCTGTTTAAAGAGAATTTGTATATTTGAT
ACTATTCTTTAAGTGTACTGCTAACCCTTCCTTTCCTTTTGATGACAAACGAAAAGAAAAAAACATGCTTTATAACTGGCTTATCTAGAAAAACCTATCT
AATAGGACATGTACTTTCTGCTTTCATTTCAAAGCGTAGTCCCTGAATTACAGTAGCAAACAGTTTGCAGAATCCTACCATTTCCTTGCTTATGTTTATT
ATTTCCAATTAAGGATGACACAAAGCTGTGAATACAGTAGTACACTGTAGCAAGAGCCAGACACAGTCAGACACAGAAAGATCACCTACTGCATACGCCA
GACACAGAAAGATCACCTACTGCATACGCCAGACACAGAAAGATCACCTACTGCATATGCCAGCCACAGAAAGATCACCTACTGCATACGCCAGACACAG
AAAGATCACCTACTCCATACGCCAGACACAGAAAGATCACCTACTGCATACGCCAAAGAAAGATCACCTACTGCATACGCCAGACACAGAAAGATCACCT
GCTGCATACGCCAGACACAGAAAGATCACCTGCTGCATACGCCAGACACAGAAAGATCACCTACTGCATACACCAGACAGAAAGATAACCTACTGCATAC
GCCAGACACAGATCATCTACTGCATACACCAGACAGAAAGATAACCTACCGCATAAGTCAGACAGAAAGATCACCTAGTGCATAAGTCAGACACAGAAAG
ATCACCTACTGCATAAGTCAAACAGAAAGATCGCCTACTGCATACACCAGACACAGAAAGATCACCTACTGCATAAGTCAAACAGAAAGATAACCTCCTG
CATACGCCAGACACAGAAAGATCACCTGCTGCACACACCAGACACAGATCACCTACTGCATACGCCAGACACAGAAAGATCACCTACTGCATATGCCAGA
CACAGAAAGATCACCTACTGCATACGCCAGACACAGAAAGATCACCTACTGCATGTGACTTTAGATTTACTCTTCACTATGTAAGGATCATTCAGCTGGT
TCAAGGAATTAATGCATATAGTCACCAAAGGCTGTTAAAGTTATATACTTTTATTTATTTTAAAACAGTATTTTTCATTTAAAAAATGGTATCTTTAATT
GCAGATTAAAGTTCCAACATCTTTTCTCTCTTACTAATCAAATATGATTGATAATGAAAAAAAATCAAAGAAAAAATGCCAAAAAAAAAAGTGATCCCTG
ACTTGTGGGCAGTTGCGGTGGATGGAGCTGAGAGAGCAGCAGGGCGCTCTGGTTTCTGCTGGTGCCCCCTCAGTCCTCACGTGGCATTCCCTGCAGCGCG
ATGAAGTGTAACCTTAACACCCATGTAGGGCAGAGGGTAATTGTCCACCTGTAAAAGTAACCAAATAGATCAGGAAAAACTCCCCACACCCTGTGCAGGA
CGGTCAGCAGCTTCTCTGTTTTCCAGTTCATATTATGTTGTGCCTCCACTTTCTATCTCCAGCTGGTTCCCCATACACTGTAGTTTATGAAGACGATTTT
TTTTAACCAGGCCAGAAAAATGGGAATGAATTTAGAGAAGCTTGCTTTTCCAGAAACTTGACACCCATGCATGCCCAGAAACCCAGTCGACCACAAAAGG
CAGCGAGCGACCTCTCTTCATTATCTCTCCAGGACTCCCAGACCTTACCCCGGGCTTTTTCTCATTCAGTATCAGCTCAGAGTCTGGGTCCTAGGAATCA
CAGAAGCAGTTAGCAATGAATGGCAAATGCTAGACTCAACACTTTACATCCTAAAATGTAAGACCATCATGAGCACTGCAGGCTCCCTGGGGCAGGCATC
ACCTGTGTGTCACCCCTGTAAGTGAATCCACGCTTCTCCAAGTGCAGTGTGTTCACTTGTCTCTTCTAAAATAAATGAGGTGGCTGTTGTGGCATAGCTC
CTGGTGGCCTTCAGTAGGGAGTCTGAAGTCACCAAACGCCAGCTCATGGGTGGTGTAAGCTGTGGCAGCATGACAATAGTCCCTGGGCAGTGTCCTGTCC
AGCCTGTGATTATTTGAAAGGCATGTTTGCCATGTTTGCCACTTTCCCTCTTTCACATTGAGGCGTGCACTTCAACTAAGACCATCTTGTTTGCTTTATT
TGAAAGCAAGAGAGCAGAGTCCACAGCCTCATTCAGTTCCCATTACACAGCTTCCTGGTCCTGCTCCTGGTAACGTGGTTCCAATGCCTGTAGTGGTGAC
TTACGTGCACTCCCACTTCCACAGCAGGGCTAGTGGCTAGGCAGAGCCCATGCACAGAGGAAGGCCCTCTGACTGCAGACAGCACCCCTCCCTCTCCCAG
GGCTCAAGGATGCTTCTGTGGCACCCTCCAGGGACGCCTCCCAGGACCCTGCCCCATAGCACAGAGAAGCTGCGGCCAGGCCGAGGAGCCCCTCCCAGGG
GGCCTCAAGGACACCACGGCCTGATCCTTGATTGTCACCACACCTTTCTGCCCATGTGGGCTTGGCCCGTGGGCTGAGAGAAATGAGACCAAAGGGAGCG
AGATAAGGTTCTTTGTTTCTCTCCTCCAGGGTCTGGGTGAAAATCAGTATGCCGCCTGTGCACTTGGAGAGCTAGCAAAAGGACACCATGAGATTAGCCT
AGGTGGTGGGTTGGTTTTGGCTTTTTAAACTTAAAGTATTTGAGAAAAGAAACTCAGTTGCTCTCCCTTTATGCTGAATTTTAATGTCACTAAGGCCTTT
TACTCATGAAATCAGGCCAAATACGTATGCAAAATCTTACTTGCTTTAGTGAGAAATAGGCAGGATGAAACAAAGATGGGAGATGATTCAAGAAAGGGGT
CATTGACATTTAGTGATGGTTTTTAGTTGCTTATACTGTAGTAGTGCTGAGGCATTGTTGATGTCAGCCAGCTCTAGGTGTTCAGATTAAATCAGCTTTC
TGAAGTTAGGGAAACCACAATCAGGAGTGGTTCTCTTTGGATGGTCTTATAAAATTGTTGTATAAGTTTTTTCAACTAGTGTGACAGTCACTATTTACGC
CTATGGCTTGATTCCAGCAGAGATTTTAACACAATGACCTGTTTTCCCTCCACAAAGTGACAGGAGTAGCAGCCACCCCATGCTCAGCCATAGAATCACT
AAGATACTGATGCCTGCAGATGAGTTCTCAAGTGGAAGACCCCACTGGAACCGGAAAACTAGAGGATTCCCTAAAATTATCTGTCACTTGGGGTTTCCAT
TTTAATTTTCATTTCAAAAATGGATGCCCTTGAAAAGAAATAATTTATTGATATAATAAAAGTAATCATGGAGCTTTGAAATAATTAAGTCCCTCTTGCT
AAAATCTAAGACCACCTCAACATGTACCATTGGTTCCTAAAAAGTATGCAGCCGACGTGATCAGTGGAGGTGTCCTGCCTTAGGGCAGCAGCTTGGCCTC
TGCAGCAGGAAACCCCAGTTAGCACAGGCTGTCCTCGCCACCTCTGCATGCCTCGCCCCGGGCCCTCTTGCCAGCTCGTCCGCACAGGCAGGTGGTGGGA
TAACAGTGTCGGCATGTGGATCAGCCACATCAGCCGGATATTGCAAATTCAAACATCTGGGGGAAAGTAAATACAATTTGATTTGAAAACTACGTTGAAA
TGAAAGTATAATCTTTATTAGAATTTCACATCTGATGTGTTCAGCCAGCTAAACTAGGCATTAACTCCTTTAACATGTAAATAAAAGATAATGTCAAAGT
TCACAAATTATTCTGCCTCGCTCCTCACGGCAGTTTAGCATTTATTAGTGACAGGTGGTTTTTAAGCAGTTTGTACATTTCTATATAAATGGAGAAGCCA
TATCTGAAGTAGTTCATTAATGTAAGAGTTTCCAAAGATTAAAGGAGATTAACTGTGTATAGGAACCTATAGCTTCTGCTTTAAGTGGAAGTACGTTTTT
GATTACTGAATGAATGTTAGGCAAACACGATTGTTACTTACTCCAGGGGGCCTCCTGTGGCCTAGGTGTTCAGCTCAGATGACACACATCTAGCTGAGGC
CTTGAGGCTCCGTGACAAGAAAGCATATCCAAGTTACCAAATTAGTTACAACAACCAGGTGGATACTTTTCTAAACTATCGGAGCTTAGCTTTTGAATAA
AAAATACTGTCTTACCAAAAGTATTTTACATGTTCTTSATAATGAGACTGTCATTTTCACTTTAAAAGGCTTGAGCAATTGCCACTGATGTTTTTTTTTT
TTAAATGCGTGACATAATGGTCTTCATACAATTTGAATTTTTTAAAAAATCACTGTTTCTTGGTAACTGCAAATTTTACATCTCATAAGGGGAATTTTGT
ACTAAATTTGATAACTAGTTGATTTCACTGCTAGTCTTAGAACAGCATAAAACCATCAAGTTATACTGTGCTGTGGGAAGTCATTTATGTTTAAAATCRC
TTTTGCTGGTTAGTTTTATGTCTACACCTGAACATTTCCCAGAGAACTCCCCGGACGCGCTCACTGAGTAGGTGAGGCCCCCTGGCTGCTCATCCTCCCA
TGCAGTGTTTGCTTTTGCCCCCTGGATTGCCATGGCAACCCTCCATCAGATGCAGCTGAGGATGACGCTGGTAGTGAGTTCTCTAGGGAAGGGCACCTGT
GGGCTCTCACTGGCTCAGTGGCACCTGTGCAAGAGGGAACACATGGGGGCAGCCCACCTGTGGAAGGGTGGCTGGCTGCTACCAGAACTTGGTGAGATCC
CTCCCTCATAACATTCCAGCCCTGATTGCCAGGCTGCTCTGCAGACAGTGCATGAACCCATTGGATTACCTGGCACCCAGAACAACTGTCCTCCAGGAGA
CAGCAGACCAGAACGCCTTCCTAGCCAGCTGGCTTTGCTACATGTTGAATTCTGCAAGGAAAGTCAGCATTTTGAATTTGATGTGATTACAGCTCTTGCT
AATACAGAAAAGTCCGGCTCTTTAAAGCTCTGAAGTGCAACTTTAGTAAGAGTAGTAATATTTCTTTTTCCACTTCATTTGCTATGTGAGGGAATCTTTG
AACCACAAGTTATGATAGAACCCCAAAAGACATGAGCTACATGAAACCATTCACTTGGAAAAAGTTTGCTTCCACTTAGATACAGTGCTGCTTTTAGGAA
CGCACAACTCACAGCCCCACGCAGCATGTGTCCATCTCTGTGCTTCTTAATTGCCTTGTTCAGAAACCTGCCATCTTACATATGTATTTGTTGTAAATGA
GTCCGGCACCCATTTAAATTAATCTTTTTTTTAATGTTATGAAAATGATCAGTTCATTTCATCTTAGTTTAAGTCTTTTCTTTTTTCCTTTTTTACTGCC
GTCATTTCTTGTGCTTGTTTTTTCCCCAGTGAGGGTTGTCGAAGAGAAAATACAATGAAGAATGTTGGAAGTCGCAAATATGCATTTAATTCCCTGCAGC
TGAAGGCTTTCCCCAAGCATTACAGGCCTCCCGAAGGGACTTACGGAAAAGTTGAAACGTGAACACACGGTTTCCTCTAATTAGCTGTTACATAATAAAT
GTGGGTACCCTCTAGTGTCATATATGAATTCTTCAAGAAGACCTGAAGGATTGGTTTTTATTTTTTGTGGTTTTTTTAAAAAAAACATTTCACTAAAGAG
TCTCTGGAGCATGTTTTTTGTTTTTTGGGTTTTTTTCCCCATTGGAATCAATAGGAGGTAATGTTTGGCTCAATAGTGTGGATAGTAACAACTGCCTATT
TAAATTAAATAGCCTTTGGCTGTAACTACACAGATCTCATCAATAGTTACCTACATGAATCAAGCTAGGTTTGTCTGAAATGCTAGAAGACTTTTTCAAA
TGCCTGCTTGCTCACTTAYTTTTCTACAGAGTAACTCAAAAGTAACCATTGAATTACAATCCACTTTGTAAAAATCTGAATGTAAAACAGTAAATAATAA
ATTAAATAAYTGGATCCTAGGCATACCAATAAATGTTATTTGGGGAAAGAAGCTAGCACTATCTCATGCAGTGAGAATAACGGGTTCTAGTGAATTATCC
TATCTACACTACCACCTGAAGAAGTTGAAAGAAAGATTGATAAATCAACGGGAGATAAGACTTTATTAGAAGGTAACACCTGCAAGGTACCCCACATAGT
TGGGGCCACTCTTTTTTCTGTCCCTTATGASTTACAGAACAGGGAGTCTGCTGGAGACACAAAGCCAGCAGTAAGGTCCCTTTAGCCTGTCTCCTGTTCT
CTGAAGCTCCCTGCCGAGGCTCCCTCACGCCCAGAGGACACATCTCCCCTTCTTCTCTAGATGTTAATGTAGGGCCTCAGATGTGGCATGTCAACACTCC
CATGGGGAATTTATGACCATAGAGATAGTAGAAACCTAAATATTTTCAGAAAAAAAATTTTTTTTGCAGGATTTCCAATTTATCTTTGAAAAGACAGTAC
AATCATGTTTGAATGTCTGATGAAAGTGTCTTATTTTTAGGTTTGCAATAATTGTTACTTTCTTATTCTCATTCTTATGTAAGATGACTATTGAGAAACA
GTTGAAATTTATTCTCCTCAAATGAGATTTTGAAAGGGATTTATGGGCCATAAAACTTAGGAATTTCATAGAAAATTTTGTCTGGTCATCTTTTATAAGA
TGATGATGAGTCTTATCTGCACATAGCAGAGTTTGTTTCTTAGGAGTTTATATGTTTTATTGATTCTGTTTACGATGTTTACATGTTCTTGAAAAGGTTG
TAAAAGAAATACATATGGCACATATTAATGATGCTGATCCTAATGATTTGTGAACCTCTTAGAAATTCTTTTGTCTAAAAGCCTAGAGATTCTTCTGGTT
CCTTTAGAAACATGTAACAAACTTGGGCCAGGGGTGCTGAGGCATGGGGAGGACTGCTTATTGGCAGGAACACAGAGGGGGTGGGCATCAGGTAGGGTGG
AACTGGATGACCTTCCAGACCCCCTCCTACTCAGAAGTCAGCATGCAAGCAGCGCCTGCTGTCTCCCGATGCCTGCAGGGAGGAAAATGTCTGTGAAGGA
CACTTTAATGAAGGACGAAGCTCTCTGCTGCTCCCTCAAAGCTGAGTTCACTGTGGCAGGCAGGAAGCAGAGAAGCTCCTGCCCGCCAAACCCACTGCAC
AGGTGGCTGCTGCTGGTATCAGATTCTCCTTTTTAAGTGTCAATTTCTGTTCACAGACAGTTTGTTTTCAATATGGCTGATTTACCCTTTCACCTCTCCA
CCATCTCATTTAATTTGTAAATTTTTAGTTCTGTCTTTTCTCATTTTAACTTTTAAAAAATCTCCTTGCTTTTTAAAAATAAATATTACCCACATAGTTT
TCAGATCTTTTTTGTCTGGAGAGCATTAAATATCTGCACTCATCAAAGGGAAYATAGCAAATGTTGATCATCTGTCAGCAGTTTTGCATGTGACACCTTT
ATATGAATTATTTTCCCAATTTTTGCTCTATGTAATGGGTCACCATAAAACTGTAAGACTTGGCAAATGCTATAGAAAAGGTTCAGGTTTCAGTATTCTC
TCTGAAGGCATCATTCCTGGGCTTCCGGCAGCATCACACGCTTCCAGTGCCTGCAGGGTGAGGGTGTGTGGCACAGAGGCAAGCAGCTCCTCTCTTCTGT
AGGAGCTTTGGGTTTTCAGAGGTGCAGGGAAGGCAGTTTTACAGGTTACCGTAAAACAGAGGTTCCGTCCAGTGTTCCTTATGATGCCTCCCCATTTAAA
AAGAAAAGAGATCTATGGAAAACTGGGAATGTAATGTGGATTCTGTCAGAGCTCCTACAGAGCACAGTTGCCTTTAGTTTCCTTTAAAGATGTAAAAATA
TTGTATAATACAGTTTTKTCCCTACACAATTGTATTTGCCAAGCTTAGTGCATTATGATACCTTTATTTATTTGTTTTGGGCAGTATTACTATATATATA
TAAACATACAGTTACTGTTTTATATATTCTTAGGTCATTCAAAGCCATGTATGCTGTAAATGTGCTAGTCTTTAGAATGACACATAATAAATAACTGACA
AGATATTAAATGTGGTCTTGCCTGATTCATCCTATTAGGAGGACTAGTTCTATGTGACCAGCCTGTGACTGGACCATTGTTCTTGGGCATTGCATTGAGT
GCTCGGGTGCTGAATACATGTTTGTAAACATGGGACCATGGGAGACTTCCATTTTATAAGCTTGTTTCTGCCTAATTTGAAGCAGAGGGGCAACAGCGTT
GAGGTTAAGAGCACGGACTTTGGGAGCACACAGACCAGGTCCCAATCCTGGTTCTGCCCCTGACTGGCTGGTGACTCTGAGCAAGTTGCTTGACCTCTCC
AAGCCTCCGTTTCCTCATGTGCAAAGTGTGGACAACAACAGTACCTTCCTCATAAGGAACGTGCRACGCGCCTCAGAAGTACGTGTTCATAAATGGTAGC
CATTGTTGTWACCTTCCCGTCTGTGAACATGGATCACATCATCTCTGTGGGTAACCCAGTCCTCGTTGTATGACTTGTCAAAATGCAGTTCCACTTGTAT
TAATATTGACCCTGTTCATCGTCACCAGGACTGCATCTTGCACCACTGTGCCGTCTTCTAGGCACACACGRCCCGTTATCTCCCTTGGAAAAATTCCTCT
CACTGGAAATGTACAATTAAAGGATGATTGAAATGTTTAACTCTTGGAGTTTTTAGTATTACCAAACTCCTAGAAATTTAAGCTACCACCAAAAATAACA
TGTGCCTTTTCCCTTTATTCTCATTGATGGTAGCAGTGCACCTCGTTTCAGTGTCCTGATTCCTTGATTACTGTGAACACTGAACATCTTTTATACCTTT
ATGATATTTCTATGTTTGTGACTTCATTGGAATGTTGATCTATTTCATATAGATTGTTTTTAATATACAATGTATTAGCCCCTGTCATATGTTGCACACT
TTTTAACCTATTTGTCAGCTGTCTTTTGGTCTGTGGTAGGAGTTATACAGTATTTTAAATGGTTTATGTAGTCACATATACCTGTCTTTCATTTTGATGC
TTGTTCTGAAATGGAGTCCTGGCTTCACCATGGAAGGTGGGACATATGGGACAGCCATGTCCTTGTGGGCATGGTGGTGTGGCTGCGTGCCCACGACGAG
GGGCTGGACTAAAGTGCTCACTGGCACCTTGCTTGGTGCATGGGCCATGCTCAGTTTAATATTATTAACAGTTTCTACCTTCACTCTCATGTCTCAGGAT
TATTTTTTCAGCATTTACCTGTTCTTATTTCTAGGATGTTTATGGTTTCAGTCCTACATTTAGATCAATCCATCTGGAATCATCTTGGTGTAAGTCCTGT
GTTGTGCTTACAGTATGTAAAGTCAGAGGGAATCCCTCAAGGTCAGGCCTAATTTTGCTTCTCTTTAAAGTTAAGCCAAGAAGAAGACATGTCAGGACGC
CCAGACATCAGCTACCGTGAGCTTCTTCCTGCCCTCCCTCCGCATGCCATTCTGGTGCTGCGCTTCAGTTTCCTGTTGAGTCTCTGCTTAGTAGATGACT
TGGCACAATCTGGCTGCCCAGATCTAGGGGAGTTGTCCCAGGGAGGCTTTGCGCTGGAGGAAGGTAAGAGGAGCTGGAGGTTGGAGCTTCCCGATTTGTG
ATTTTTCCAAGAACAGAAATGATTAGCCATGTGGGGAGGTTACTTCATTGTACATTGTTCTACTGCATAACCTCCCTCTATTCTTTACCAGCATCACACA
GCAGGTTGGCACCATTTTTGAATAGAGGTTTCTCACAGTATCCTCAGCAGCATTGAGTGTTCCTAATGTTGTAGTAATGAGCAGTAGATGTCTCTCAGTG
GGCAGTGTGACCTCTTTGGTCACTCTAAAGGGCTGCCAGCATTTCTCTTAAGCTGGGGGGAGAAGAGCTGTTCTGTGTATAGGGGTATTGGGAACACATG
GACAGAAGGAACTGGCCTCACATGCCATCGTGTTCCTGGGATGGCTCTTCCAAGACCAGCAGTTCCTCCTGGCAGGCAGGCCCTCACAGAACTCTGCATT
TGGAGATGGACAAACTCTCTTCTTCTTATCACTTTCTCCCCAAAATGTCCTCTTCTACCAGCCCCTCTTAAGAGCCGATTTTCTGTAAGTTATAGTGAGG
GCACTGCTCTGCTGTGCACAGAAGGAACCCCAGCCCAGAAGCACACGCTCCCTGTGGAACCTGCAGGGGTGGCAGTGATGACAGAACCAAGGGGGTCAAG
GAAGATTGGAGAGGAGTGGGCAGCAGGAAACAGCTCAGGCTGCCTGACCTGGCCCCCGGCTGCCCATGAGGGCCTCCAGAGAGGGGCAGAGCTGGCTTAT
CGGGATCCATGATGGTTTTTACACTTTTAAAAGTGCCCTCTTCTCAGAGACCCTGGTTATTTCCAAAAGTAGGAAGTAATCAAATTTACAGTGGATAAAA
TCCAGTATTTGAAATCAGGAAGACAGAAAAAAAAGCAAAATAGCATCCTTTTCTGAGAGGTATATGCTGACCAAAAAGATCTTTCATTCCTGTGAACACC
AAGCAGCGCGGCCTCTGGCAGAGAGAGCGCTGGGTTGTACAGATGGAAACTTGTGTTTAGCAGGCTGTCTGCTCCCAATAGTGGCCCTGGCTGCAACTGA
CCTCCTGATGCCCTGCTGACGCTAACTGTGGGTACCAACCAGCACCGTGGACATCGGCCCCAGGATCAGTCTACGATTTGTCTGGTGGCCAAATGATGAC
TTTTGAGTGGGAAAAGCTGGTGGGGGCTACACCGTGCTCTGCAGTGTAGTGGGATCCTGTGAGCTGGCCTGCACAGGCACTCCCTCCCCTGCCAGGGGCC
CCAGGGAGGCTTCTCCAGCCTGAGGCTGCACCCTCCATACGATTCCACCCCCCATCCTGTGCCAACAGTAGGCAAACGGAGAGTAGCTTGGTCTTGTTTT
TATTAGCTGTTGCCCTCCAGGCTACGACAGGGTTCCCAGGGTGTAGCCTGAAAACACCCATACTCTAGATTCCCTCCACTGGAACCCTGTCTTTGCCATG
ATTTCTTCCTGCATCAGGCCCCTGTGGGCCTTGCAGGCCAGTCCAGGCAGGTCTTTCACACTGTTGTCCCACATAACAGAAAAAGCTGAGCAGACAGGGT
AGGAAACACACTTGCATCTCCATGGCTCCAAAGAGGATGCCTGTGTTAGATGGATGTAGACAGACACAGCACTTCACTGCTTCCTCCTCCTCGCCACCCA
GCCCTCCCTCGGTGTCTGTGGCCTGACTCTCTCCTGGTGGTCCTACGTCTCTGACCATCCCTCCTCACTCTCAAATTTTATGTTGCCCACCACCTGCCAC
TAATGGCGTGGTGTTCTCCTGGGTTCCCTTTCTCACTTAAGATGATCTTCCTGAAAAATCTTACACATTCCTGTTGAACAAATGGTCACTTATATGGTAG
TGACTCCTAAATTTCTAGGTCCATCCCAGACTCTCCCCCAAGGTCCAGATTACCTATACATCTAAGCACCATGCCTGTCTTGCAGGCATCTCAAATACAG
CATGCTCATGCCTCTCCTCCTCCAAGCTGGCTGAGTCTCCCTCTAATAGACGACCTTGGGATCATTTTCTCCTCCACATCCCATCAATCAGCCACTGAAC
CTGTATCTCTTGAGAACCATCCCATAATTTCCATCCATGCACCCCAAGGCCTGGTCTGTATCAGTCCCCTCGGATCTGGACCTCTCCTGAGCATCCTCAC
CCCTCCTGCAAGGCTAGTCTCAGGTCTGCCTTCCTCTATGGTGATTTCTCCCCACAAATGAAGTTGGCCCTTTCAAAAAAACTTCCTCTCCTTCATTGTT
GACTATGAAGATTCTTTCATGCATGTCCTGTCCACTGTCAGTCCCCTCTGTATTCACAAGAGCAAGTGTAATGCCCGCTGTGAAGGAGCTAAAGTTTGTT
GAATAAACACATGAACAAATGGTGGTTTTGTGGTGTTCAACTGAAATATTTCCTATTTCAGCACTGGACCACGCTGTTTTTCTCACTACATAATCGGTTA
CGCTAAATGCATCACGAGCCAAATTCAAAAGGTCAAAGGAGAAGGCAAATGGCAGAGTGTGGTAAAGGGGCGAGTGAGAGGGTCTCTGAAAAAAGTCAGG
CTAAAATTACAGGGGGTTCAGGCAATGTTATCTTGATCTGGATGGCCAGTTACATGACAGATTACTTTGTTCTTAACATACGAACATCCTATTCACTTTT
TGGTATACTGGTTGTTTAACAGTAAAAATTAAATGTTTAAAACCCACCATTACTGAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATG
AACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGCACCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAG
TCTTTGCTATTGTGAATAATGCCACAATAAACATACATGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGAT
GGCTGGGTCAAATGGTATTTCCAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAA
AGTGTTCCTATTTCTCCACATCCTCTCCACACCTGTTGTTTCCTGACTTTTTAATGATTGCCGTTCTAACTAACTGGTGTGAGATGGTATCTCATCGTGG
TTTTGATTTGCATTCCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTC
CTTCGCCCACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGTGA
AAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTT
GTCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTGTGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTTATG
GTTTTAGGTCTAATGTTTAAGTCTTTAATCCATCTTGAATTGATTTTTGTGTAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCC
AGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTCTCAGGTTCATTCTCAGTAAACTATCGCAAGAACAAAAAACCAAA
CACCGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGATCACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTTGTGGGGTGGGGGGA
GGGGGGAGGGATAGCATCGGGAGATATACCTAATGCTAGATGACGAGTTAGTGGGTGCAGCGCACCAGCATGGCACATGTATACACATGTAACTAACCTG
CACAATGTGCACATGTACCCTAAAACTTAAAGTATAAAAAAAAAATAGTCACCAACTACATTCAAACCATGAGAGGGTAGCTGCAGATTTAAATTCTCTG
AAGTAAAGTTGAATCATTATCTCTGTATTAAATAGGTTGACTTCTGAGTGATGAACCTTACTTCTTCCAAGGAGCTTTCCCACGTCCCTGCTACTACATA
ACAAGGTTTATTTAATATGTCTTTTCTTAATTTTCCCATAGCACATTTTAATATTTTTATCAGGGATATGTAATAATACCATTCCATAATTAAAATAGAA
TATGAGACATAAAAGGTAAAACAATAATGATGGTGTAAGTATTATAGAAAACATAATACATGTACTATCTTTGAAAAATTTTAGAGCTGTAGTTTGCACG
ATAGAAAATATATATCAACATTTCATCACATCAGAAATATATGCAATGTTAGATCTATTACATTGTGACATTTTAGGAAAAAAAGAACTGGGATTTTACT
TTTGTATTCCTAAGATTGTGGCCAGATTTTGAATGACTAATATTTATAGAATTGAATTAAATGTATTTCTAAAAGTTTAAAAAAAAAACAACCCACCATT
GTTGAACAATCTCCAAAGGAAATTAAGGAAACAGTTCTATGTACAGTAGCATCATAAAGAAAATACTCAGGAATAAACAACCAAAGAGGCAAAAGTCTTG
TATATTGAAAACTACAAAATTTTGCTGCAAAGAAATTAAGAATGCCAAAAAATGGAAAGACATCTTGCGCACATGGATTGAAAGACCTAATATTGTTAAG
ATGACAGTACTATCAAAAGTGAGCTACAGATTCAATGTACCCCCCCCCCATCAAATTCCCAACTGATTTTTTTGTGTGTGGAAATAGAAAAATCCATCCT
AAGATTTACATCGAATCTCAAGGAACCCCAGGTAGCCAAAACAATCTTGAAAAAGAACAAAGCTGGAGGTCGCATACTTCCTGATTTCAAAGCTTATTAT
TACAGAGCTACAGTAATCAAAATAATGTGGCACTGGCATAAATATGTACAGACAGAAGTGCAGAATAGAATAGCATGCCCAGAAATAAACCCTGGCATAT
ATGGTCAAATGATTTTCCACAGGATGCCAAGACCATTCAATGGGGAAAGAACA


SNP Information

Context             (SEQ ID NO:46690):
TGTCTCACTAGTGTTTTGCCACCTGTATGTAGCCCGTGGACAGCAGACTCTTCTGCAGCTCTTACCCTTCTCACAGAGGTTGTGGTGAATTGATTTAAAT
R
TTTAAAGGTTCTAAGAGACTTGCCAACAGAAGAGCATAATAAAGAGAACAAGAAAATCTCGAAAGCCATATTTTATAATTATATGAAAACCATCATTCAC
Celera SNP ID:            hCV15964842
SNP Position Genomic:     80745
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,386|A,1061)   total(G,386|A,1061) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46691):
ATATCTCTGCTGAAGAGGACAGGACATCCTCAAGGGATCCCATGGACACCCTGTGTTGGGGAGTGGGGAGGAAGAAGTGACCAGAAGGGGCAGGGAGCAG
Y
GGACAGTCCACCCCGGTTCCTCACATGCTGGGGAACCCTGTCACTGTACCTCGCCCCCGGTAGGTCACGTTCTTTCTAAATGAGAGCATGATTTCTCTCC
Celera SNP ID:            hCV15964843
SNP Position Genomic:     80952
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,198|T,521)   total(C,198|T,521) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46692):
GTGAGCTGCATACTCCATCGCTAGATCGAAAGCCAAATAGTTTTGTTGCGGTGAGTGTCACCACCCCTCCTCAGGCATTCTGGACGAAGCATGCACAGAC
R
GAGATCATTGAGGTGGGTGCTGGTGGTCTCTCTCTGAGGGGCTGTGGGACATGCTCTAGTGGTGTCTCTTGTCCTGATGTTCAGTTACTTGTGCATCTGT
Celera SNP ID:            hCV15964844
SNP Position Genomic:     94632
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,21)   caucasian(A,1|G,9)   total(A,2|G,30)
SNP Type:                 UTR 5;SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,387|G,1110)   total(G,1110|A,387) 
SNP Type:                 UTR 5;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:46693):
TGTAGGGCAGAGGTTCCATCCTTGGAGAATCAAGCCAAGAAGAGCAAAGGCTACTGCTCCCATCCAGCACCCTGTTCATAAAGTGGAAGTGTCACTCCGA
S
AGAAGTGGGACACAGTCTGTGCGCCCAGCTCTAGAACAGTGACTCCAACATTTTCCCAAGTAGGAGAGGTAGGCTATAATAACAGAAAGCTCTGAAGCTC
Celera SNP ID:            hCV2185290
SNP Position Genomic:     55612
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46694):
TGAGTACATGCACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAAATGGTGTAGTTTGTTGGCTGTCAGCCTTACTAGGAG
K
CTGGTTTGGAGCCTGTTGCCTTAGCTCTGTGGGGTGATGATGGGAATAGTGAAAAAGAGGGTGACAAAAGCAGAGAGTCTCAAAGAGGGGACAGAACTCA
Celera SNP ID:            hCV2185291
SNP Position Genomic:     50172
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46695):
TACTCCTCTCATGGCCTCAGCCTGGAGGGAGCTGATGTGGGAGGAATCTGTGGGCCCTGACCTGGAATGCTGCACAGTGGCCTCTGCCAGTGACAGGGGC
R
GGCAAGGCTGAGTCTAGAAGCAAATGCCAGCCCACAAATGTGCAGTGATTGGCGCCTACAGAGGCCAGGGATAGCTAAGTACTGTGGAGATATAAAATGT
Celera SNP ID:            hCV2185292
SNP Position Genomic:     48005
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46696):
GTACTCCTCTCATGGCCTCAGCCTGGAGGGAGCTGATGTGGGAGGAATCTGTGGGCCCTGACCTGGAATGCTGCACAGTGGCCTCTGCCAGTGACAGGGG
Y
GGGCAAGGCTGAGTCTAGAAGCAAATGCCAGCCCACAAATGTGCAGTGATTGGCGCCTACAGAGGCCAGGGATAGCTAAGTACTGTGGAGATATAAAATG
Celera SNP ID:            hCV2185293
SNP Position Genomic:     48004
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;JBIC-allele(T,414|C,1083)   total(C,1083|T,414)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46697):
TCAGTTGCCCACAGGGCCTGAGGTCTGGGGTGAGGAACACCTGGTCCAGATCAAAGAGCTTTTAGGGTGTGGGGCTGGATTTTTGCATACAGGTTACATC
R
GGAGTCCAGGAGTAAAATTAATTCTTAGAAGGCCAGATTACATAAAAGGCAAGGCAGAGAGGGTTCTGCAAACACTAACCGCCTCTTGGGTGTCTGATGG
Celera SNP ID:            hCV2185294
SNP Position Genomic:     47804
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2|-,7)   total(G,2|A,2|-,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46698):
GATGAGGCTTCACTTTTCCACACCTTCCTGACCCTCCCTGTCCCCAAAGCAGCGATGCATCTGAAATGGCCTAAAAAGGCGTGGAAACCCAGGGGTTCCT
R
TTCTGGCAGAAGTTCCTCAGTTGCCCACAGGGCCTGAGGTCTGGGGTGAGGAACACCTGGTCCAGATCAAAGAGCTTTTAGGGTGTGGGGCTGGATTTTT
Celera SNP ID:            hCV2185295
SNP Position Genomic:     47687
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;JBIC-allele(A,386|G,1105)   total(G,1105|A,386)
SNP Type:                 INTRON


Context             (SEQ ID NO:46699):
AGGAAGCTTGGGAGACAGAGGAGGGCCAGGAGATCCATCCTGGGTGCAACTTCATGCTGCATTCTGTGTGTGCCGAGAGCCACAGAGGGGATTTAAGCCA
S
GGAGTTATTAGCCCATTAGATTTACAAATTAAGAGAGACCTCTAAAACCCCATGGGCGGTGTTTCAAGTTCTGAGGTCATCTTTCTTTCTCAGCTATTTA
Celera SNP ID:            hCV2185296
SNP Position Genomic:     36485
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46700):
ATGAAGTGATTCAACACACTGGGAGGTGAATGACTTTGTGGCTTGGGCAGCATATTTATTGTAGAGTTCATGGTGGATATTCATCTTAAGACTTCTGTTA
Y
GATGTATTTAGGCCACTGTTTCTGCTGAATGTTCTGGAGTCATCTGAATCTCACAGTTTTCTTGTGCATTTCCTTATACATTATCAGATGGTTCTTCCTG
Celera SNP ID:            hCV25982237
SNP Position Genomic:     99952
SNP Source:               Applera
Population(Allele,Count): african american(T,26)   caucasian(C,1|T,29)   total(C,1|T,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:46701):
TCCTGCAGTGGCTCAGCTTTGTTAAAGATGAAGAGTTAAAGATGACTTAGGCCCTTCTCCTAAGGAGCTACAGGAGACAAGGGTGTACACTGTATCAGAA
K
TTTTTTTTCTTTGTGGCAACAGAAAGGGCCATGTCACAATAAGCAGAGGGTATTTATTTCTGTCTGGAAGTGGGTGAAACTTTACAGGGAAATTGCTGTT
Celera SNP ID:            hCV2185297
SNP Position Genomic:     36141
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46702):
CGCTGCAGCCTCAAACTCTAGGGCTCAAGCAGTTCTCCCACCTCAGCCTCCCAATTAGCAAGGACTACAGGCATATGCCACTGTGCCCAGCTAATTAAAC
A
AAAATTTTTTTTTTTTTTTTTTTTTGTTTAAATGAGGTCTTGTTATGTTGCCCAGGCTGGTCTGGAACTCCTGGCCTCAAATGATCCTCCTGCCTTAACC
Celera SNP ID:            hCV10038353
SNP Position Genomic:     19124
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,10)   total(A,2|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46703):
GTTTGGAGGGGACAAACATTGTCCTCTTGTGCCTGTGCCACACTTGCCCCTCCGTCCCCCTCATCTGCTGATGATTCATCACACTGTTAACTTGGTCTCT
M
CATCTGTTTAAACGCTTTCTCCTTTCCCCTATTATGTTGCTGTTAAGACTGTGAAGCTGTCAGCAATGTTAGCGACACCGTCCACATGTGGGGACAACAG
Celera SNP ID:            hCV2185298
SNP Position Genomic:     28578
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46704):
TTTTCAAAGTGCTGGGATTACTGGTGTGATCCACCATGTCCAGCCAACACACAGACATTTTATTTTTTATTTATTTTTAATTTTTAATTTTTTAAAATTT
Y
TATTCAAGACAGAATCGTGCTCTGTTGCAATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCAAGTGGCTGG
Celera SNP ID:            hCV2185299
SNP Position Genomic:     24025
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46705):
GAAAACTGGGAATGTAATGTGGATTCTGTCAGAGCTCCTACAGAGCACAGTTGCCTTTAGTTTCCTTTAAAGATGTAAAAATATTGTATAATACAGTTTT
K
TCCCTACACAATTGTATTTGCCAAGCTTAGTGCATTATGATACCTTTATTTATTTGTTTTGGGCAGTATTACTATATATATATAAACATACAGTTACTGT
Celera SNP ID:            hCV11462754
SNP Position Genomic:     151118
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:46706):
ACTGAGCTCTAACCACATTAGCACTAATTATTGCGGAAGGAAGGGCACCTGAGGAGGAAACATGCTAGAGAAGGGTCCACACAGCATGTTTCAAAATGCA
R
TGGTTCATGAAATCAATTTGAGGTTGTAACTGGCATTAAAAAGCTTTTTGAAATAGCAAATATCCAAGTACGTTTCCTATGGGAAGGATAAGCATTTTTT
Celera SNP ID:            hCV28010495
SNP Position Genomic:     14486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46707):
TTAAAAAATCTCCTTGCTTTTTAAAAATAAATATTACCCACATAGTTTTCAGATCTTTTTTGTCTGGAGAGCATTAAATATCTGCACTCATCAAAGGGAA
Y
ATAGCAAATGTTGATCATCTGTCAGCAGTTTTGCATGTGACACCTTTATATGAATTATTTTCCCAATTTTTGCTCTATGTAATGGGTCACCATAAAACTG
Celera SNP ID:            hCV15882050
SNP Position Genomic:     150653
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,391|T,1102)   total(C,391|T,1102)   (T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:46708):
CAGTACCAGACCATCATCCTCACATACCAGGAGAACCTGACCGACCTCCATCAGTACAGAGGTGGGTGCACCCCCATGCTGTCACCACACACGCGTGCGC
R
CACACACACACACACACTCTCACTCTCACTCAGTCACTCCCTCTGCTTTCCCAGCCAGGGATCTGGAACACAGGGTCACTTACACATTCCCACTGACAGA
Celera SNP ID:            hCV25983185
SNP Position Genomic:     105196
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,8)   total(A,42|G,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46709):
GAACATGTGCCCAAGGTGGTCAGGCTACAACTTAGTTTTATATGTTTTAAGGAGACATAAGATATCAATCAGTACATGTAAGATGTATATTAGTTTGGTC
Y
GGGACAACTTGAAATGATGGGACTTCAGCTTATAGGTGGATTCAGAGATTTTCTGATTGACGGTTGAAAGTGTTAAGTTATTACCTGAAGACCTGGAATC
Celera SNP ID:            hCV27945277
SNP Position Genomic:     56755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46710):
TGTCACGGTGATGTCTTTATGCACAGGCACTCACTCTGAAGTCACTCACCCTCTCACCAGCTCATGGTGGAGATGCAGTAAAAAGATCTTGAATAAATGA
Y
TTCTGCTAGTTCCTCTCTGAGTCCTGTAGTGGCTCTAGGTCAAAAGCAGTAAAACCTAACCAGAGGAAAAAACCAGAGGGGAAAATATTTTGGACACACG
Celera SNP ID:            hCV27494848
SNP Position Genomic:     49763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46711):
CATCCCCTGGGGATAAGGGGTTGTGGGGCAGCAGTGCCAGCCACTCAGGTACTGAGTCCTTCCATCCCCAGTTTGAGCAGAGCTGCTCTCCTTTTCAGGC
W
CTTATTTCTTTTTGTTTGTGTGTATGAATAAAGGGTCCCTGGCTGAATAGCTGGAATATCTTTAGTCAGGTCTAAGCCTATATCTCATGGATGGGGAGAC
Celera SNP ID:            hCV27481526
SNP Position Genomic:     136262
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,14|T,1487)   total(A,14|T,1487) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46712):
GCAGAGACCATGAGAACAGGAGCTTGTCTTACTTGATAGTGCAAACAGTCTTACAAATAGTGTTCAACCATCGATTGCCCAAAACACGTGTTTTGTGACT
R
TTATTGTAGGTGCCTTTGAACTGTATGGTGTGTTAAATAACTCCATTGGAGGGAGGAAGATCTTTGTGTTTTGAGTTGATTATTTAATTATTCTTTAATT
Celera SNP ID:            hCV27494849
SNP Position Genomic:     17933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46713):
CGTCAGAACTGTTAAGAAGGTGTCCTCATGCTCTTTAGCAGGGACCGGAGTTCAAACAGCAGATTTGTCACATGCTCGCCACAAGCTGGGCCCCCTACTA
Y
CCACTTTATGTGGATTCTCTAATCTGATCCCCACAGCAGCCCTGGGAAATGGGCACCGGTTTCACACCCACTTGGCAGGTGAGGAAACTGAGGCATGGAG
Celera SNP ID:            hCV27481527
SNP Position Genomic:     132341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46714):
GACAAAAATTTAGAACCTGATTAAGTGAGACCTTGTAAATAGAAAGCCTGAAGTTCCAGGGTGTCCCCAGGTTCCCTGGATGAATCAGATGAGCCCAGGC
Y
ACCATCAGCCACCCTTCGGGATGTCAGGGTAAAGCTGACTGAGGCTGGGGTAGCATCAGCTGTGTCATATCAGGATTCAAGGGCTTCAGGAAGCCCTGGC
Celera SNP ID:            hCV27481528
SNP Position Genomic:     98442
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,122|C,1373)   total(C,1373|T,122) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46715):
CACTGGATGGTTGAGAACAACAGAGAAGAAGGCACCAAAGTGAATGCCCGGGCTTTTAGCCTGCTTGGAAAGGGAGTCAGAGGTGGCCTTAGCCAAGGGC
R
GGTGGAGGGAGAGATGAGTTGGTTGAGGCCCCAGCAGCCCACCCAGGTGGAGCTGTCCAGTCAGCTTGACCACCTGGATCTGGATCTCCAGAGAGAAAAA
Celera SNP ID:            hCV27481529
SNP Position Genomic:     96120
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,421|A,1068)   total(G,421|A,1068) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46716):
TAAAGCACTGTGTTAAGGACTGAATTGTGTCTCTCCTTCAGATTCATATGTTGAAGTACTAACCCCCAATGTGACCGTATTTGGAGATGGCGTCTGTAAA
S
AGATAATTAAGGTTAAATTAGGACATAAAAGTAGAACCCTAATCTCATAGAACTGGTGTCCTTATAAGAAGAGACCTCATGAAAGAGATGACAGAGAAAA
Celera SNP ID:            hCV27509103
SNP Position Genomic:     59873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46717):
GTCACCATCCCTGAGGGCCGGGGGAGGAGAACCCATGAGGCAGGTCTGCAGCCAGTTCATTTGCAGCCTGTCTCCCTTGTCATCCCACCTCAGTGTTCGG
Y
GGTGCCATCTGCCGCATGTACCGGTTTCCAACCACTGATGGTAACCATTTGCGGATCCTGGAGCAGATGGCAGAGAGCGTGCTCTCCCTGCACGTGCCCC
Celera SNP ID:            hCV25983265
SNP Position Genomic:     100684
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,25)   caucasian(C,1|T,27)   total(C,6|T,52)
SNP Type:                 UTR 5;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:46718):
CCTAACTTAACGTTTAAACAAGGCTTGAGCCTGGGCAAAATAGTGAAACTTCATCTTTACTAAAAATTAAAAAATTAGCTGGGCATGGTGGTGCACACAC
W
TCTGTAGTCCCAGCTGCTCAGGAGGCTGAGGCAGGAGGATAGCTTCAGCCCAGGAGTTCAAAGTTGCAGTGAGCTATGATTGTACCGCTGCACTCCAGTC
Celera SNP ID:            hCV2185301
SNP Position Genomic:     19367
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,9)   total(A,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46719):
CAGCCTCAAACTCTAGGGCTCAAGCAGTTCTCCCACCTCAGCCTCCCAATTAGCAAGGACTACAGGCATATGCCACTGTGCCCAGCTAATTAAACAAAAA
W
TTTTTTTTTTTTTTTTTTTTGTTTAAATGAGGTCTTGTTATGTTGCCCAGGCTGGTCTGGAACTCCTGGCCTCAAATGATCCTCCTGCCTTAACCTCCGA
Celera SNP ID:            hCV2185302
SNP Position Genomic:     19129
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,9)   total(A,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46720):
GTGTTTGGGTGGAAGAAGAAAAGGGAAGAGAAATCACCATCTTTGGCAATGAATAAGGCACACCCAGCCTGCTTTGGGGTTTAGAGCCTCCTGCACTCCC
R
CCTCCACCATAGAGGAGCCAGACTGGGTTCATGCTCCACAGTCTTCCAGCTGCGTCTCCTGGAATGAACCTTTGAGTAACAACTCTGAGTGAGTGATGAT
Celera SNP ID:            hCV27481530
SNP Position Genomic:     69503
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,390|G,1105)   total(G,1105|A,390) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46721):
ACCTAAAACCAGAGGAGACTTTCAGTGGTGAGGGCCAGTGGGAGTGGAGCTGGGGGCGTGAGGAGCAGGCACAAAGTCCTGAGCCTGGTCCTGCTCTGGC
R
TATTGTTCGTGGTAGTAAGCCATCTGAGCCAAATCCTCCTGATGAGGAGTCCTCTGCACAGCCACACTGACAGACAGGAGAGACAGTGGCAGGCAGTGTG
Celera SNP ID:            hCV2185304
SNP Position Genomic:     14930
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46722):
AAGACTGAAGTCCTTTTGTGTCTCTGCTAAGTGTTCACCCCAACACTGAATGTTTCAAACAGGATTCCATTTTCACAGCTAAAATAAACAGGTTATACAC
Y
ACTTTGCCAGAGATCTACATGTAGTAAAGTTGCTGAATGTGTGACCACTTTGTGTTTCCATGGGACCTAGAGGACCAAGATGTCTCTCCCTGATTTCAGT
Celera SNP ID:            hCV27481531
SNP Position Genomic:     65541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46723):
AATGTAAGAATCAGATATATGCTGGTGATGCTGTGTGAAGCAGCAGAGCTGCTGTGAACTCTCTGGGGTCCCAAAAGTCTAGGAAGTTTGGAAAATCCTC
Y
TCCTTGTCTAGGCCTGTGCTTCCCTGTCCTCTCTGTTTGCTTTGCTTCCTCTGTCTTTCTCCTTTCCTTGCTCTTGGTTATCTTCTGAAAGATGAGGCTT
Celera SNP ID:            hCV27481532
SNP Position Genomic:     47496
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,417|T,1076)   total(C,417|T,1076) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46724):
GTTTTTAAGGAAAATACCATCATGAAGCTAATCCCAGGGAATTTACCTATATTTCTATTCATATGCACATGTTATTCTCTAATTTTTTTTTTTTAGTATT
W
TGATATAGTTTCAGACTTACAGAAAAGTTGCAAGAATAAGCCAAAGGTTTCTCAGATTCTCCAAATGTGGACATTCTGTTACACTGCTTTATCATTCTCT
Celera SNP ID:            hCV2185306
SNP Position Genomic:     8716
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46725):
GAAATGATGGGACTTCAGCTTATAGGTGGATTCAGAGATTTTCTGATTGACGGTTGAAAGTGTTAAGTTATTACCTGAAGACCTGGAATCATAGAAGGGA
W
TGTTTGGGTTAAGATAAGGGGTTGTGGAGACCAGGGTTTTATCATGCAGATGCAGCTTCCAGGTAGTAGGCTTTAGAGCTCTTATACGACCTAAAATCGT
Celera SNP ID:            hCV27967060
SNP Position Genomic:     56866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46726):
TGCTTTTCTCACCTGGGGTGGGGGCTTTGGGAGGAGGGGAGCAGTACTACCCATAGTGGGCAGGGATGGGCCTCTGGGGCGGGGGGAGCCTGTGTGTCCA
Y
CTTGCCTGCCACTAATTTTAAATAACAGTGTGGAATGCTGTTATAATGGTTTTTATTTTAAATTTTTTTCCACAAATGCACTATCTTCTCATTTTTTTAT
Celera SNP ID:            hCV27481533
SNP Position Genomic:     36988
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,227|C,518)   total(C,518|T,227) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46727):
CAGTTTAGTATTCCAGAAAAGTTGCCACAACATCATCAACTACTCATGGTGTCAGGAGGCTTTGACTTTCACTGAGAAAAAAATAGCACAAATCTGCAGC
R
AAAAAGGCTTGATTATGTTGGTGCTTCTGTAGAACTTGATTAATGAGCTGGTCTTGAGAGAGCCTTCGAAACGGCTTTTTTTTTCAGTGTCCTAAAACAG
Celera SNP ID:            hCV2185307
SNP Position Genomic:     8440
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46728):
CTTGATGGCCTGCCGCCTCTTGTCGGAGGGGTCACATGAGTGCGCAGAGTGAGGAATGGGAGCTGCTCACTTCATGGGTTATTGCTTCTTTTTTCTTGAC
Y
CCAAGAAAAAATTCCAGCCCCCTAGACAGCTCCCACACATTCTGTCTCCTCTTCTGCTTAAGTGCAGTTTTTCCTCCTAATGAACTCTGGTCTTCAAATG
Celera SNP ID:            hCV27835947
SNP Position Genomic:     77166
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,40)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:46729):
CCAACTAGATTCAGAACCAAGGGCAGATATTATAGTGCCTCCCTGTTTTCAAAACTGGATATTTTGTAGTATTGCTGTTAAACTGAATATTAGCGTTTTT
W
AAAAAAAAATCACTTTAAGGAAGGATGAAATAAAATAATACACGAGAGCTATTTGTAAACTGTAGAGCACTAGAAAAATGGGATGTGTATGACAGAGAAC
Celera SNP ID:            hCV2185309
SNP Position Genomic:     8005
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46730):
TAGGATGTATAGTGCACAAAGCACTTTTTATAACTTTTACTCACATAAGGAATTGAAAATCCTTGTAGGAAAATTAGGAAATACAGATAAGCCCCTACAC
W
AGTTCCTCAGAACCCTCCCACAAAGAATCCCCCAGTTTCCTAATGTGAACAGGTAGCGCTGCGGACATTTGGATACATACTGTCTAGATAAGAGACATGC
Celera SNP ID:            hCV27479040
SNP Position Genomic:     139947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46731):
TTCTTGGTCTCCTCCTCTCTTGACCCTCTTCTGTGGATTGGAAACATTGTGAGAAACTACGTCCCTTGCTTGCATTGGCAGCAGACACTGTTGAAGTCCT
S
GGAGAACACGATGCTGTGAACAGACCGAGGGGAGGAATGGTGGCTGCTCCTCACAAGAGGAAGGGGTCCTGGGCACATTTGGACTTTGCCTCCTGGAGTG
Celera SNP ID:            hCV27490576
SNP Position Genomic:     67863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46732):
AGGAGACCAGTGACAAAGTGGCCCCCTGGAGAGCCACAGTGCGATGGCAGGCCTGTCACTGAGCCCAGACCCGCAAGGGCCCCATCCGCCTGCCCCTAGC
M
CACTTGGGTTGTGTGCTCAGGACAGCCGTTACAGTTACAGCTGTTAGGATGTATAGTGCACAAAGCACTTTTTATAACTTTTACTCACATAAGGAATTGA
Celera SNP ID:            hCV27479041
SNP Position Genomic:     139802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46733):
CCCTGTGGTCCATGCCTCAAAACACCTCATCATTAGTATTACTTCTGAGCCCTGCCTAAACATAGCAGCGTGGACCAGCTCTCAGTCCTTTCTCTTCCTG
K
CCCTACCCCACCTTCCTGTTGGCTACTCTGCTCCCATGGATGGTTGAGAGGGAGACCCTCTTCTGTGTGGCTAGCCAAGGTTGCACATTGGCTGCACCCA
Celera SNP ID:            hCV27490577
SNP Position Genomic:     44882
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46734):
TCCTTCCATCCCCAGTTTGAGCAGAGCTGCTCTCCTTTTCAGGCTCTTATTTCTTTTTGTTTGTGTGTATGAATAAAGGGTCCCTGGCTGAATAGCTGGA
R
TATCTTTAGTCAGGTCTAAGCCTATATCTCATGGATGGGGAGACCCAGCAGTGCACCACAAGTGGCTGGTGTCCCTCTGGGATGGAAGCCTGGCACTGCA
Celera SNP ID:            hCV27479042
SNP Position Genomic:     136318
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,78|A,1421)   total(G,78|A,1421) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46735):
TTGTTTAGAGAACTTGATTCAGGAAAAAGGAACCATCTTTGGTAAAATGAGAGGGATCATGTAAGGGAAAGGGCTTTGAGAAAAATATTTAGTTACGTCA
Y
GTGTCAGAGTTAACTCTAGTTGGGTTAGAGTTAAATGTACAAAATAGACATCATTCTTTTTAAAGGAGCTAAAGGCGGCTGATGATTGAACAGATAGAGC
Celera SNP ID:            hCV27479043
SNP Position Genomic:     98171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46736):
CTAATCAGTGGACAGGATCAGAGCCCTGCAGCAGCCCTTAGTTTGTTTAGAGAACTTGATTCAGGAAAAAGGAACCATCTTTGGTAAAATGAGAGGGATC
W
TGTAAGGGAAAGGGCTTTGAGAAAAATATTTAGTTACGTCATGTGTCAGAGTTAACTCTAGTTGGGTTAGAGTTAAATGTACAAAATAGACATCATTCTT
Celera SNP ID:            hCV27479044
SNP Position Genomic:     98129
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,384|A,1113)   total(A,1113|T,384) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46737):
GGGTGGATGGCTTGAGCCCAGGAGTTTGAGGCTACAATAAGCCTGATGTCATTGCACTCCAGCCTAGGAGACAGAACAAGACCCTGTCTCTAAAAGCTGG
A
AAAAAAAAAAAGTACAAAACCCCAAAACTCCAAAGGACTGAGTTCTGGGAGCTTTTGGATAGCTGAGCATGCAGAGGTTCCCGGAGAGTGGCACATAGGG
Celera SNP ID:            hCV10038515
SNP Position Genomic:     76074
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46738):
CGGGGTTTCAGGTGAGGGAGTTTGACACTTCACTGGTTCATATGTGACATACTCCAGAGGTATTTGCGACCTGGTTTAGTCCTGACCCCTTTATTGTTCT
M
GTGGAGATACTTTCCTTCCTCTCTTCTTCTGTTTGAAACTAGGACTCCACATCTTGCCCTAGAATTGCCACCCACCTGTGTGACGCCTGGGCCTCCGAGT
Celera SNP ID:            hCV27479045
SNP Position Genomic:     51783
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,26|C,1463)   total(A,26|C,1463) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46739):
CCTGGCTTGAACCTGTCCCTGTCCCTTGATGTTGGGAAGCAGAGATTCCCTGTCATGTCAGATGACTCAGAGGGGCCCTAGGATGCTGAGGCACCAAGTG
R
GGGCTGTCATTTACACACCGTCTGTCGATAACATTGGTACCAAGCAGTATAGGGTCTTTTATCCTGGAGATTCTGAACCTCTGTGATGGACCCCTGAGGT
Celera SNP ID:            hCV27479046
SNP Position Genomic:     50674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46740):
GCCCTGGGGGCCGCTTTGCTCTCCGGAGTCCTTCCCCTGCCCCCCATTCGCCAGCTTGTCCACCCATATAAGTTTCTCAGCCCCCTTGCCTCAAGCTTCT
S
CAGCTCCTCCAAGCATGGCCTGTACTCTCCCTGTACAGCTCGGTGCTAAAGGAAGCAACCTCAGTAACACTCCAGCTCCAGGTCCCTCTCTGGCCTAGCA
Celera SNP ID:            hCV29002445
SNP Position Genomic:     13857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46741):
AGGGATATGCCAACACCCAGCCCTGGCTTGAACCTGTCCCTGTCCCTTGATGTTGGGAAGCAGAGATTCCCTGTCATGTCAGATGACTCAGAGGGGCCCT
R
GGATGCTGAGGCACCAAGTGAGGGCTGTCATTTACACACCGTCTGTCGATAACATTGGTACCAAGCAGTATAGGGTCTTTTATCCTGGAGATTCTGAACC
Celera SNP ID:            hCV27479047
SNP Position Genomic:     50653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46742):
CACGCACCCTCAAAGCGGGGGGTGGTTGGGGGAGGGCATTAATGTATACATGAGGGATCTGCCCCCATGACCCAAATACTTCCCATTAGGCCCCACTTCT
R
ACATTCGGGATTAAATTTCAGTGTGGAGTTTGGAGGGGACAAACATTGTCCTCTTGTGCCTGTGCCACACTTGCCCCTCCGTCCCCCTCATCTGCTGATG
Celera SNP ID:            hCV29002446
SNP Position Genomic:     28450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46743):
GGCTGCTATTTAATCTTTCAATTTATGGTATAAAATCCTTTATAGTACAGGTAATGCTGCAGTGAGCATCCTTGTCTGAGATCCCACCGAGAGTAGTGGC
Y
TCAGTCTTCCAATCAGTGGCTTTTCTCTCACTTGGCTGGCCTCTTGAAGCGAACAGAGTGTGTGTGTGTCCTGGTAGCTGAGTAAACTCCAGCTCCGCAC
Celera SNP ID:            hCV27479048
SNP Position Genomic:     46139
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,376|T,1103)   total(C,376|T,1103) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46744):
CCTTTAGGTATCTGGTCTCCAGCCACAGTCAGGGAGGCTCTCAGCTGGGGTGCTGGGACCCAGCCCTGGGGTGTGTGTGGGGAGGAGCCCTGCTTGGGGG
M
GGGGTGGCGCTCCTGGAGACCTCTCCTGGCTCAGAGGGGAGTGATGGGCATTCTGAAGCGTGTCCAGCAGGGCCCACCTCCCTCTGCGCTCATGGTTTCC
Celera SNP ID:            hCV29002447
SNP Position Genomic:     37740
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46745):
GTGGCCAAAGGGCAGTGCAACTTCTGAGCTGCTCCCGTCTGTTCAGGTGAAAGAGGAGAGTAGAGATAGTAGGTCTGTTCCCTACCTTCCAGGGAGACCT
R
GAGACCTGGCCCAGGACTGTGGGCATCCTGAGAGTGGCTCTGGCTTCCCCAGTGGGTCATATTTGCCGCCCTCTTTCCCTGAGGGATCAGCAGTGAAGGG
Celera SNP ID:            hCV28031346
SNP Position Genomic:     137698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46746):
ACAACCTAAGGATGGTACAGTTCCCCAGTTATTAAAATTTTGCATACTTACTATAAAGGGTTTAGTAAAACATAGTCTAGAGGAAGAAAACCAGAAAAGC
R
TGATGTGTCCATCTCCCAGTGCTTAACATTTTTATACGTGTTCTTTTCCTCTCTCCCACTCCGCGTGAGTGCTTCTATGTCTTTATATTGGTAGATCTTA
Celera SNP ID:            hCV27479049
SNP Position Genomic:     45820
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,26|A,1473)   total(G,26|A,1473) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46747):
TGTGGGCTGCATCAGGATCTTTCCAGGTATGCCAGGAGGCACAGAACCCACGTATAACCTGCAGCCCACAGTTTCTGTGACACAGAAAGTGTGGTCAGGT
R
CTGGGAAATCATTGTCTCATAGATAAAACATCTGACACGCACCAGCTTTTCTGAAACAACTAATGGTTGCAAATGGAATTCGGGGTACACAGGATAGCAA
Celera SNP ID:            hCV29002448
SNP Position Genomic:     40781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46748):
GCACAGAACCCACGTATAACCTGCAGCCCACAGTTTCTGTGACACAGAAAGTGTGGTCAGGTGCTGGGAAATCATTGTCTCATAGATAAAACATCTGACA
Y
GCACCAGCTTTTCTGAAACAACTAATGGTTGCAAATGGAATTCGGGGTACACAGGATAGCAACAGATTTCTTCCTGTCCTTGAAGAAAACTGTCTCCTTT
Celera SNP ID:            hCV29002449
SNP Position Genomic:     40819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46749):
CCAGTTTGGTGGCAGGGGCACCACCAGGGTAGTGTGGGAATGTCCAAGTGTTTTGCTGGCCCATGCCCAGGCCATGGTAAAAGCCCTCCCTGTTGTGGAT
R
TGTAGATCTGAGGAGGAGCAGGGGTTTGGTTGTGGGGTCAGGGACTTCTTAGCAATCTCAAAAACAAAATATTTTTAAAATAAAGAAATTGTCTTGCATG
Celera SNP ID:            hCV15972025
SNP Position Genomic:     81626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46750):
TAAAGAAATGGATGTGGACAAATTCAAAGAGAAAGAAACATTGTGTTTCTACTGAGCTCCTTATAGAATTAGTCTGCTTACCTGGCCACCTTACTCATCA
W
GTAGCTACTTTTTTCATTTAGATTATTCTGTCTCAGGGTGTTTAATCTGCTTGGGTAAGTCTTGTTTCCCAACTAGATTCAGAACCAAGGGCAGATATTA
Celera SNP ID:            hCV2185310
SNP Position Genomic:     7836
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46751):
GTGCTGCCTTTCTGTGGAGCCTCGCCTCTAAGCACGGCCCATGTTTCTGTTGGCAGATCTGCCGCCGCCTTAATGGGGTCCGGTTCACCAGCTGCAAGAG
N
GCTAAGGACCGTACAGCCATGTCGGTGACACTGGAGCAGTGCCTGATCCTGCAACACGAGCATGGCATGGCCCCGCAGGTCTTCACCCAGGCCCTGGAGT
Celera SNP ID:            hCV15972029
SNP Position Genomic:     138187
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,7|T,1)   total(C,35|T,3)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,382|G,1105)   total(G,1105|A,382) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:46752):
ATGAAGAGGAAGACAAGTGGGTTTTCCTCCCGTGTTGGAGGTCTCTCCTTCCCCTGCCTCCTGTGCCTTCTATGGCCTTGGGATGCTTGAGACCAGTCAG
W
GCTCTGTTTGCTGTTAGATTTTCCAGGGCTATGTGTATTTGGGGACGTGGGAGCTCTGGTGCTGGGGCAAGTAGATATGGATTTTGGAGCTGCCGCCCTG
Celera SNP ID:            hCV27966126
SNP Position Genomic:     115983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46753):
AAAACTAAGCTAGAAATAGTACTGGGGAAGGAAGGTGGGGGTGGGGAAGGAAGTGAGTGCAAGGTGGGGCCGTTCTGAGGGCTGAAAACTTGGGAGCTGT
R
GGGAATAGTCCTCCTCCAGGTGTGCAGGGGTAAGAATTGAACACAGTTGCACACAAGGCTTGGCAAGGGCAGAGGAGTCTCTGACTTGACTTTATACCCA
Celera SNP ID:            hCV27496465
SNP Position Genomic:     124075
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,216|G,531)   total(G,531|A,216) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46754):
TTCATATTTCATCTCCATGTGACCTTGAAAAAAATCACTCTGAGCATCCGTGACCTCATCCGTGCAACTCCTTTTAAAAATTATTCTTAGAAGAACCCCA
R
TGAATAAGCAAAAGTGGAGCTCTGATGTGTTAATCCTCACCCCTCAACTCCAGCTCCGGGGAGCCTGAGAGGTTCCTGAGGTGGAGGGACCTGCAGTACT
Celera SNP ID:            hCV27496466
SNP Position Genomic:     76779
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,419|G,1078)   total(G,1078|A,419) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46755):
AAATGGCATTACATTAAGCTAAAAAGCTTCTGCACAGCAAAGGAAACAACAAAGTGAAAAGACAAACTGCAGGATTGAAGAAAATATTTGCAAACTATAC
R
TTAGACAAGGGGTTAACATCAGAAACATACAAGGAACTCAAACAACTCAATTGCAGGAAACAATCCAATTTAAAAATGGGCAAAAGACCTGAATAGACAT
Celera SNP ID:            hCV27908781
SNP Position Genomic:     57768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46756):
ATTCAGAACCAAGGGCAGATATTATAGTGCCTCCCTGTTTTCAAAACTGGATATTTTGTAGTATTGCTGTTAAACTGAATATTAGCGTTTTTTAAAAAAA
W
ATCACTTTAAGGAAGGATGAAATAAAATAATACACGAGAGCTATTTGTAAACTGTAGAGCACTAGAAAAATGGGATGTGTATGACAGAGAACTATCAGCC
Celera SNP ID:            hCV26136462
SNP Position Genomic:     8013
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,5)      total(A,5|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46757):
CTGTTCTTCATGTGTCCTCTGTCCTCTGGAAGATGACTTCCTGAGGGAGAGGCCACAGCACATATGTCTGTGTCCCCTCCCCTAGCCCCAGCCCAGGGCT
Y
ACTGAGGGTCTGTGGTGGGTCTTCAAATCTGTGCATCCTCAGTAGGAAGCATCTGCAGAAAGGAGGAGTGAGGTTTGAGAACCTGATATTCTCCTCTTAC
Celera SNP ID:            hCV27481544
SNP Position Genomic:     33805
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,390|C,1105)   total(C,1105|T,390)   (T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46758):
GAAAGAGGAAAGTGTTTACCCGCTGCCAGCTCCGGTCCTGGGATCCTCCTAGAGCGCTTTCCCTGAGACACCTGGTAGTTTTCCTGACCTCCGGTTGCTG
Y
AGCGCCCCTCTTTTTGCACCTCACTAGGTGGTATTCTGATGTCTCCTGAAAACCCCCTGCCCCTTTCCTGCCCCTCCCATAGCCCTCACGCAGGTGGTGT
Celera SNP ID:            hCV27481545
SNP Position Genomic:     12699
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,20|C,1093)   total(C,1093|T,20) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46759):
GGCACACAAGCCCTTTTGTCCAGGTGGCTGGAACCTAGGTCTGCTTCCACTTCTGGGTGAGAAGGTGCCACACCTTTGGGTTTGGTCATCGTGTGTGTGT
G
GTGTGTGTGTGTGTGTGTGTATGTTTAAAATTAAAAGTAAAAATTTTCCCCATATACATGTACACATATATGCAAGTGTGGTATTATAGGTGCAAGGGTG
Celera SNP ID:            hCV26136463
SNP Position Genomic:     21261
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,5)   total(G,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46760):
TGCCCAAGGCTGTGGAAGCCCACCTCTTGCATCAGCATGACCTGGATATGAGACATGGAGTCAAAGGAGATCATTTTGGAGCCTTAAGGTTTGACTGCCC
Y
GTTGGATTTCAGACTTGCCTGGGACCGGTAGCCCCTTTATTTTGGCCAATTTCTCCCATTTGGAATGGCTGTGTTTACCCAATACCTGCACCCCCATTGT
Celera SNP ID:            hCV26136464
SNP Position Genomic:     58996
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,14)      total(C,1|T,14) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46761):
AGATCATTTTGGAGCCTTAAGGTTTGACTGCCCTGTTGGATTTCAGACTTGCCTGGGACCGGTAGCCCCTTTATTTTGGCCAATTTCTCCCATTTGGAAT
R
GCTGTGTTTACCCAATACCTGCACCCCCATTGTATCTAGAAAGTAACTAACTTGCTTTTGATTTTACAGGCTCATAGGCAGAAGGGACGTGCCTTGTCTC
Celera SNP ID:            hCV26136465
SNP Position Genomic:     59063
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,13)      total(G,13|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46762):
TCTAATTCCAGAGATCTCACATTATATTATTTAAAATGTGTAGTTTTCAACAAGAAGTTATGAGATGTTGCAAAAAAGAAAGTATGGCTCATACACAGAT
R
GAAAAAACCCATACAGTCAGTAGAAACCATCCCTAGGAGGCACAAATGTTTAACTTAGTAGACAAAGATTTTTAAATCAGCTATTTTAAGTATGTTCAAA
Celera SNP ID:            hCV26136466
SNP Position Genomic:     89169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46763):
CAAAAAAAATTAGCTGGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGGCGTGAACCCGGGAGGCGGAGCTTGC
W
GTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTGTCTCAAAAAAAAAAAAAAAAAAATTTCTATTCATCAAAAATATCTTTC
Celera SNP ID:            hCV26136467
SNP Position Genomic:     90169
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46764):
GGACACTCGCCATCTTGGCAGACAAGGTAGGAGGGGTGCCCTGCTACATATGGGCTGGGGAGTTTCCTTGGGTTTCTGGAAGCCACCAGGCAGCCCAGGT
K
TACCTAAGATGGTCCACAAAGAGCGTGACATTGGGATGACTTTGAAGGTCTACCTTAGGTCCATTTCGCACAAAGGCCCAGGGAGGTTTTGTGATTTGTC
Celera SNP ID:            hCV25983857
SNP Position Genomic:     114193
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,1)   caucasian(G,38)   total(G,45|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46765):
ATAGGACAATAAAGAATCTGAGAGCAGAGGCTCACTTATTCCCTTGAGGGCTTACAGTGGTTCCCAAGAGAAAGGCCAAGAGAAAGGATTAGATGGATTA
R
ACACTAAGTGTCTAAAGACACTTAGTGCTTTAGACAGTGTCTCAGTGAGAAGTGGCAGGGATTGCTTTCTAGGGTCCGTTAGGGGAAGGATACTTGTTGA
Celera SNP ID:            hCV26136468
SNP Position Genomic:     91498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46766):
TCACCTCTCCCACTTTGCCTTCCAGTTCCTCTCCCCAGAGGCAAGCAGTTTGCCCAGCATTTTTGTGAGCCCTTCGGGGGCAGTCTGCCATATACAGACA
Y
GGACGTTTTCATACCCTCTTTCTTCTGGAGTGTGCATTCGTTTGAGCAGCTTGTTTGGAAAGCTGTATATGCAGGTTGTGAAGTCACTTTTGGTTTTGAT
Celera SNP ID:            hCV27521527
SNP Position Genomic:     35210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46767):
ATGTGTGACTGAGCTGGGTGGGTGATGAGGGCACTGGATCAATGGTCCTGTCCTGCAAAATGAGGAGCAGATTGTGATCCACCTCAGAAGTGGTGCTCCA
G
GCAACCGCCCTATGTAGACTCTGCTGGCTTGGCATCCTTTAGAGTCCCTGGCCAGTCAGTTGAGCACCATAGGCATCGAGCCTGGAGCATGTTGTTTCCT
Celera SNP ID:            hCV26136469
SNP Position Genomic:     108104
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46768):
TACATTGATATTTTTCATCACATTTACTCATCTGGGTGGCATTTATATTGCCATATCCTTTACAGTTATTGATTAACTGTTGGCAGCTTGTTTTTGAACA
R
TGATCCTGTAAGCTTCATTGCCTTGTAAGAGGTAAGACCTAATTCCTTCTTGTCACCTCCAATTGGCTGCTACTTTGCAAGAGTGGTGCTCATTAATCAA
Celera SNP ID:            hCV15964801
SNP Position Genomic:     94884
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,244|A,1235)   total(G,244|A,1235) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46769):
GACATCCAACTTGTTTCAGTTTTTAAAAATTCCTCCTGTTGAGTGTGAAACCCATGAAATGAGTCCTCAGGCACAGCTTGTGTAATGGGCTGATTTATTG
Y
ATGTGGATCTGTAATGGTCTATGTCAGACTTCTTTTTTCTCTTTTAAAAAGCAGAGTTTTTTTGTTTGTTTGTTTTATGTATTTATTTAAGCCGCCTTTA
Celera SNP ID:            hCV15964802
SNP Position Genomic:     96651
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,13|T,1292)   total(C,13|T,1292) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46770):
GGCTTAACATCTCAAGAGTTCAGTGAGGCAGAGTGGAGGGGGAGGCTTTCCACCAAGACTGTTTCATCCTGTTTTCGTTTTTAAATGAAAAGCTCCTTTT
Y
AGTTTAGTATTCCAGAAAAGTTGCCACAACATCATCAACTACTCATGGTGTCAGGAGGCTTTGACTTTCACTGAGAAAAAAATAGCACAAATCTGCAGCG
Celera SNP ID:            hCV27479050
SNP Position Genomic:     8340
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,360|C,931)   total(C,931|T,360) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46771):
TGACCTTCAGAGGAAATGCTTATTGGAGCATTTTGGATTTCAGATTTTTGGATTAGGTGTGCTGAATCTGTACGTATATAATGCAAATATTTCAAAATCT
W
AAAAAAATTCCAAACCCTAACCACTTCTGGTGTCAAGTATTTCAGATAAGGGATACTCAACCTGTGCTAATAATGATTTTGGCATGTACTCTATAATAAT
Celera SNP ID:            hCV29002450
SNP Position Genomic:     44154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46772):
ATAATGCAAATATTTCAAAATCTTAAAAAAATTCCAAACCCTAACCACTTCTGGTGTCAAGTATTTCAGATAAGGGATACTCAACCTGTGCTAATAATGA
Y
TTTGGCATGTACTCTATAATAATAAAATGTTTATTAGGCAGTCCTTTATGTGAAAAATGATAGGAATAACAATACAGTGAATCGCAACTCAGCTTTAGAC
Celera SNP ID:            hCV29002451
SNP Position Genomic:     44231
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46773):
TGACCTCACATGATCCGCGCGCCTCAGCCTCCCAAACTGCTGGGATTACCGGTGTGAGCCACCGACAACTGCATTTTTTACTTCTGATGTTTTGGTCTTA
Y
GATAGGTTTTTTGGGATGTAACACCATTGTAAGTTGAGAAGCATACTGAGTGAATTTCACACCATCCTAAAGTCGAAAAATCATTGAACTCTTGTAAGTT
Celera SNP ID:            hCV29002452
SNP Position Genomic:     53365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46774):
CAGCTAAAAAATCCCCTTGGAATTAGTGTCAGAAAGTCCCTTTTTAAAAATTAATAAACTTAAATTTTTTTAGAGCAGTTTTAGTTCACAGACAAATTGA
R
TGGAAAGTACAGAGAGTTCCTATATGTCTCTTATCTTCACACATAAAGTCTTTTAATTGGGCTATCGTAACTTTCAAGGACAAAAGGACAGTATTCTCCT
Celera SNP ID:            hCV29002454
SNP Position Genomic:     60868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46775):
GTGCCTCAGATGGGAGGAGACCAGGGACTCTGAGCCAAATGGCTGTGAGGGGGGATCCTGTGCTGCACAGGATCTGTACCACATCATGTTCTGGTCATCT
Y
TCAGGCACGCCTGTAACAGTGATACATGATTCCTGCCAATGGAATGCATTTAAACTGATCAGCAACACTGTAGAAATGCCTTTATGCTCGGAAGAGGGAG
Celera SNP ID:            hCV27944280
SNP Position Genomic:     129494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46776):
AGACGCGGCCGCCCCAGCAGGGAGCCGGGTGCCGAGCGGGCGCGTGGCCGCGGGACGCAGACGCGGTGCCTGCCCGATGCGGCTCCAGGGCTGGGTCTAC
S
GGCTCCTGAAGCTGGAGGCCTTGCCGTGTTTGGGGTGGAAACATAACCGGGTGAAAGTAAACATGCATCTCCGTGTGGGAAATCTGGTCTCCATCCTCGA
Celera SNP ID:            hCV27911503
SNP Position Genomic:     6555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46777):
TTAGCCTGATCTTTGCTGCTGGTTGAGAAGAGGTGCCACATGAGAAGAAGGCAGATGTTGCTGTTGAGCATGAAGGTGCTGCGTGTCAGTTGGCACTTGT
S
CCTACATGGTTGAACTTACTCAACCACAGCTCTGGTGGGTAGCTACAGAGCACTGCCCAAGGAAGGGCATGGGCCTCAGAGGCACAGCTTATTGCACTCT
Celera SNP ID:            hCV29002456
SNP Position Genomic:     65083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46778):
CACTGTGTTGCCCAGGCTGGTCTCAGACTCCTACTCTCGCCATCCTCCTGCGTTGGCCGACCACAGTGCTGAGTTTACAGGCGTGAGCCACTGTGCCCGA
M
TAATGCTGCAGCCTTCTTAATGTATCCCATCAGGAGGCATATGCTGTGATTATCCCATTCTCTGGCCCTGCTAACTTTGATCACTTGAATTAAGGTGGTG
Celera SNP ID:            hCV27911504
SNP Position Genomic:     10151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46779):
AACAGACCGAGGGGAGGAATGGTGGCTGCTCCTCACAAGAGGAAGGGGTCCTGGGCACATTTGGACTTTGCCTCCTGGAGTGGCCCACAATGCGGGCACT
Y
CCCTGTGGCAGGGAGGGGGAGTCAAGGAAAGGAACTCAGCATTTTCAGGGCTGCATTTTCACACAGCAAGCCCTAAAGCTGCGTTTGTTTCCTGAAACAA
Celera SNP ID:            hCV29002457
SNP Position Genomic:     67982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46780):
CTCACAGATGGCTCCAGTACAAGCGCTGTGGGGGCCAGCCTCAGGGGAGGTTAGGAAAAGCCAAGGTGAGAACCTCACATGCCAAGGTGACAACCTCACA
K
GGCTGACAGCCCATGTACTGAGCTCTATGCGGATGTTTTCTGTGTTTCTTCACATATGTGCTTGCTCCTCAGTGTGTCCTGGTGAGACCAGTGTTATTTC
Celera SNP ID:            hCV29002458
SNP Position Genomic:     73281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46781):
ATGGAGCTGGTGGTTGGCACCTGACTGTGCTGCCATGGCTGGGAGTCAGGACGTGATCTGAGAAAACTGAAAGAGGTGAAAGGTCAGATCAGTGGCTGAG
K
GGGTCAGGGAGGCAGCTAGGGGCGTCACTGATCATGGGCAAGGCTGAGCAGGGAACGGAAGAGCGTACCCTGTGAGAAGTCACCATTCAGATACGTGCAC
Celera SNP ID:            hCV27511981
SNP Position Genomic:     109227
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,398|G,1091)   total(G,1091|T,398)   (T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46782):
AACTGACACTATGAAACTGCTGAAGAAAACATAGGTGAGGCGCTTCAGGACATTGGTACGGGCAAGGCTTTTTGAATAAGATCTCAAAAGCACAGGCAAC
M
AAAGCAAAAATAGAAAAATGGCATTACATTAAGCTAAAAAGCTTCTGCACAGCAAAGGAAACAACAAAGTGAAAAGACAAACTGCAGGATTGAAGAAAAT
Celera SNP ID:            hCV27911506
SNP Position Genomic:     57652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46783):
CTGATGTGTTAATCCTCACCCCTCAACTCCAGCTCCGGGGAGCCTGAGAGGTTCCTGAGGTGGAGGGACCTGCAGTACTCCCGCTAGGCCTCTGGCAAAC
S
TTTCCCAGGACTGCTGCTGAAGGCCTTGCCACCTCACTAGTCCTGTGTGAATCCTAACACCCCTCCCGTCCTGCCAGTGCCCTCTCCACCACCCCTTTCC
Celera SNP ID:            hCV27511982
SNP Position Genomic:     76901
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,420|G,1080)   total(G,1080|C,420) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46784):
TTACAGTCTGGAGGCTGGGAAGTCCTGGAGCATGGTGCCCGCATCTGGTGAGGGTCTTCCCATGGTGGAAGAGTGGAAGGTGGAAGCCAGCATGAGAGAC
R
GAGAGGAAATCGGGCTAAACTCCCGATTTATCGGGAATCCACTCCCCTCACTCCTACAGAAACAGCATTAATCCATTCATGAGGACAGAGTCCTCGTGTC
Celera SNP ID:            hCV29002459
SNP Position Genomic:     73726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46785):
CCAGTTAATCAAAAACAAATTGTATTTCCAAAAAGGGGGCGGAGGAGGAGCTTTGTGCACTTCCTTAGGATTTTCACATCGTGGGTAGTAACATAGTCAG
R
TGGCAGATTTTTCTGTTTGGATTAAAGTTTCTATTTTCAGCAACCACTTCCCTGAAAGCATGCTGCTCCCTGACCCGAGGGTCTCATGAGCAGCCATCCT
Celera SNP ID:            hCV27511983
SNP Position Genomic:     52363
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,391|A,1102)   total(G,391|A,1102) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46786):
CTCATGGGGCCCTCCAGCCCGTTCTCTTCCTGGCCTGTGACGATAGCGGGTTAAGTTTGTACTTTTAACAGTAATTAACCTTCTTCAAGGCCTTGTTTGC
Y
GTTATAAGTGTTCCCTGTTCTCTGGGTACTCACAGCCCCTTCCTTGCTGTCCTTGATCCAGCGGCATGGCCTGAGTGCCTCCATCCCCCTGTTTCTGGAT
Celera SNP ID:            hCV27511984
SNP Position Genomic:     38017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46787):
CTTGTTTGGAAAGCTGTATATGCAGGTTGTGAAGTCACTTTTGGTTTTGATTTCAGCCTCCCATTCTTTCCCTTTCTGCATTTGTGGTATCTAATATCAC
Y
TTGACAGCCTCAAGAGCGGCCTGTGTGTGTGGGTTTTGGTGTCCATGGTGCAGTGGGCGAGGGCCACCCGCAGCCTTCCCAGTGCTTGGTGAGGCCCAAG
Celera SNP ID:            hCV27511985
SNP Position Genomic:     35360
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,417|T,1080)   total(C,417|T,1080) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46788):
GCTCCAACAAGGCCTCTTTTTGATCTCCCATGTGACTCCATTTTCTCGTTCTCTCCTGTGGCTGGGCCTGTTTCTGCCTGCCGTGGAGCAGAAGTATGGT
Y
CACATGGGTGGAGACCTACAGGGGCCAAGGAGGGCTGGGCCTTGAAAGTGATGAGCTTGAGTCCCTGTTGGGGTCCGGGGTTGGGGGAAGGGCACAAGGT
Celera SNP ID:            hCV27511986
SNP Position Genomic:     33310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46789):
AAGCTTCTCAGCCCATTTGCTGCCACAGTGACAGCAATAGGCTGTGGTGGGGTAGGACGGGGGTGGGGTAGGACGGGATCCGGTGGGTGGGGCAGGGAGA
R
GGGCCCCCATTGCACTTGGGCTTTTTCTTTGGGTTGATAACGATAGTTCATATTTCATCTCCATGTGACCTTGAAAAAAATCACTCTGAGCATCCGTGAC
Celera SNP ID:            hCV27496478
SNP Position Genomic:     76632
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,242|G,1255)   total(G,1255|A,242) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46790):
GGTATCTCATCATATGTGGAATATTTCTGTTAGACCATCTGAGAATTTTAAGCTCTGGTGGATGGAAGTAAGGTTGCTTTTGAACAGAAGTCTGCCATGC
Y
GCTGCTTCTCACAGGCTGCAGCCTCAGGTTGAGCGCTCAGGAACCAAGGTCAACGCTCAGTGTGTGTTTGCCAAGTAGACTGTGTAGATTTGAAGTGCTT
Celera SNP ID:            hCV27496479
SNP Position Genomic:     32704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46791):
AGGTGGTGTCAGCTGCTGTTATGGAAGCTGTCTATTATTAATTCACCCTAGCATATTGAACGCCCTTCTTTCCCTCTCTCATGTTGCTTGCATCTCTAAA
K
GGTGTATTCTCAAACCAATTAATTTGAATTTTCAAGAAGGATGACCTAAGTGTATAAACTCTGGAAATGTGAAGGAAGTATTTAGGCAGATGGTTGTTTC
Celera SNP ID:            hCV11724702
SNP Position Genomic:     12891
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,8)      total(G,8|T,1) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46792):
CTGGCCCCAGAGGTCTCTGAGGTCCCATCACCTTCTGATGACTCTGTCTGCAGGGATGAGTCTGTTGTTACTGAGCCGCTAGCCTTCAGCTTCCTCTCCC
R
TGGTCATTCCCGAGGCTGCCCACTCCCCCTAGTTGCCCACAAGCCTTATGAACTCCCATCTCCGTTCCTCCTGTGTGGCCTGTTCTGGTTCCCTCTCCTC
Celera SNP ID:            hCV11724703
SNP Position Genomic:     45402
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;(G,-|A,-)   JBIC-allele(G,389|A,1108)   total(G,389|A,1108)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46793):
CGATGTGATCGTCTCATCTCTTTGAATGTCATTTACTCTTTGTGCTTTCTTTGAATGTGTTTGGAACAGAAAACTAATCAGAGTCTGGTTTTAAAGGATT
S
ATTTCTTTCCCGTGTTGATTCTGTAGCTTGCAGTGAGCTGCATACTCCATCGCTAGATCGAAAGCCAAATAGTTTTGTTGCGGTGAGTGTCACCACCCCT
Celera SNP ID:            hCV25984882
SNP Position Genomic:     94499
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,2)   caucasian(C,10)   total(C,30|G,2)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46794):
GGGAGATAACTGAATCATGGGGGGTGGATTCTCCCATACTGTTCTCATGATAGTAAGTCTCATGAGATCTGATGGTTTGATGAAGGGAAACTCATTTCAC
Y
TGGCTCTCATTCTCTCTTGCTTTCTGCGATGTAAGATGTGCCTTTTGCCTTCTGCTATGATTGTGAGGCCTCCCCAACCACATGGAACTGAGTCCATTAA
Celera SNP ID:            hCV11724705
SNP Position Genomic:     59480
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46795):
AGGGTGCTGGGGGCCTGGTGGGCTTGGAGCCAGAGCCCCGAGAGGCATGAGGAAGGCCTTCCTGAGACCCCTCCCAGGTCCCCTCCACCTTGTCCGTGTT
Y
CTGCAGCATGTGGCCTTTCCATCCTAGTTAATACCTGGGCCTTTGAGGCAGCATTTTTTGTTTTTGTATTTTATGCTAGAGAAGCATATTTGACTTTGTT
Celera SNP ID:            hCV29002460
SNP Position Genomic:     74040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46796):
CCCTTGAGATTTTTTACCTACAGAGACCTCTAGACAAGGTGTTTCCTCCCATGGAGACCAGATGAGGCAGGTGAGCGGGCAGAAGGCACCTTGGCCTGAG
W
AGTTCTTGGTCTCCTCCTCTCTTGACCCTCTTCTGTGGATTGGAAACATTGTGAGAAACTACGTCCCTTGCTTGCATTGGCAGCAGACACTGTTGAAGTC
Celera SNP ID:            hCV11724707
SNP Position Genomic:     67760
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46797):
CACTGTGCCCCATGGTTTCCTTGTCTGTCTCGCCTGAGAGGAGCCCTGTGTGCACAGTGAATGCTGACTGACTGGTCAGTCAGCTCGGCCCTGCTGCCCC
Y
AGGACCCTGATGACCCAGTACGGCTAGGGCTTTGTATTTCAGCAGAAAAGAAGCACAGTTGCAGCACCACTCATTAAAGCATGTTGTGCATCACAGGTCT
Celera SNP ID:            hCV15964815
SNP Position Genomic:     98915
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,6)   total(C,38|T,4)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,332|C,941)   total(C,941|T,332) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46798):
TGTCACCGCAGCCATTCTGGCTCTGGCCCATTCAGTTTATGGCATCAGTGGCTGCATTTTACTTACCCTGTGCCCATCCCCATGTTTGTGCCATGTCATA
R
AAAGTCCTCCTAGGTGCCCGTTGTTCTCTTATTTGCTGGGCTTCAAGAATTGGTGGCCCTGAAGCCCCCAAGGGTCCCAGGACCCCTGTTAGGTGTAGAC
Celera SNP ID:            hCV29002461
SNP Position Genomic:     75035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46799):
AGTAGCCAGAGAGGGTTTGTGGTCCTTGTACAGCTTTCTGATGCTTCTTTTCTCAGTTTAAAATAAAATCAAAATATGACCGCAAAAACACCCAGCCATC
W
GATCTGCTTTTGCGTGGCAGGAGGATCTGCCTTATGGAGCCTGTGCTGCTCTGTTTATGTGTGACTGAGCTGGGTGGGTGATGAGGGCACTGGATCAATG
Celera SNP ID:            hCV15964816
SNP Position Genomic:     107947
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,30)   caucasian(T,8)   total(A,4|T,38)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,384|T,1087)   total(A,384|T,1087) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:46800):
TCTGATGTGTTAATCCTCACCCCTCAACTCCAGCTCCGGGGAGCCTGAGAGGTTCCTGAGGTGGAGGGACCTGCAGTACTCCCGCTAGGCCTCTGGCAAA
Y
GTTTCCCAGGACTGCTGCTGAAGGCCTTGCCACCTCACTAGTCCTGTGTGAATCCTAACACCCCTCCCGTCCTGCCAGTGCCCTCTCCACCACCCCTTTC
Celera SNP ID:            hCV29002462
SNP Position Genomic:     76900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46801):
CCCCACCCCAATGGGGGAAAGGGAAGGAGGGGTTGGGGAAACCGGGCATAGAGTTCAGCTTTGTTGCCCCTGGCTGCAAGGCCTTGTGTTGGCTGAGTTT
Y
GCTCTCTAGCCCTCAGTTCCCTATTGTATAAAAGGCAACATTGGCACCTGCATGCTCTCTTTCTCAGGATCAGATAAGAATATACTAAAAAGTGGATCAG
Celera SNP ID:            hCV29002463
SNP Position Genomic:     82293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46802):
GTAAAGAAGAATAAGGACATTATTGAACATTTTCAGAGAACTAGAAACCATGAAAAGAACCAAATAGATATTCTAGAATTAAAAGAAAAATTTCAAGAAG
S
AAATTTACAAAATGAAGCCAGAGCAATAAAAATAATGGAAAAAAAAATCAGAGGAGAGTAAAAACAGCATAGTGAGAGGTCTAATGTTACATTTATTTTG
Celera SNP ID:            hCV29002464
SNP Position Genomic:     92489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46803):
CCAGTTTTTGAAACATTCAGGGGGCTGTACAGAGCTACTGTCCTGAGCAGGAAATTTCCAGGTAGGGAGGGTGGTGAAGGGCATTTCAGACAAAGACATG
R
CAGAAGCATTGCACATGGTGAAATGTGGCCAGGTGCACAGTGCTGGGGGCGGAGAGCTAAGAGGACTGGCCTTGCTGCCAGCCTGCTCTGTGACCAGAGT
Celera SNP ID:            hCV29002466
SNP Position Genomic:     108329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46804):
AAGGTGGGGTCTCACGATGTTGCCCAGGCTGATCTTGAACTCCCAGGCTCAAGCAATCCACCCACCTTGGCCTACCAAAGTGCTAGGATTATAGGCCACC
M
TGCTTGGCTGAATTGATTTTTTAAAATCCTATTTTGAGATTGTCTTTTTAAGATGAAATGGTCTTAGAAGGCAGCTATTCATTTGGAAGAGTGATTGCAG
Celera SNP ID:            hCV29002467
SNP Position Genomic:     112389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46805):
GTACTAAATTTGATAACTAGTTGATTTCACTGCTAGTCTTAGAACAGCATAAAACCATCAAGTTATACTGTGCTGTGGGAAGTCATTTATGTTTAAAATC
R
CTTTTGCTGGTTAGTTTTATGTCTACACCTGAACATTTCCCAGAGAACTCCCCGGACGCGCTCACTGAGTAGGTGAGGCCCCCTGGCTGCTCATCCTCCC
Celera SNP ID:            hCV27477393
SNP Position Genomic:     147699
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46806):
GCCTCACATAACCTGATTAGCAGATCAATATGTAAGAGCCACAGTTCTATATCACTGTGGGTTTCTATCTTTGTTAGCAACATGGTCTCAGGGCATCTGG
R
TTAACGAAGAGGTCGAACTCTTGAACTTGCAGATGCCTTTGTATTCTCTTTCCCCTTTGCCAGTTTGAAAAGTCACTTCCAAAGACGATTAGAGAGGAAG
Celera SNP ID:            hCV29002468
SNP Position Genomic:     119595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46807):
GCTGTAACTACACAGATCTCATCAATAGTTACCTACATGAATCAAGCTAGGTTTGTCTGAAATGCTAGAAGACTTTTTCAAATGCCTGCTTGCTCACTTA
Y
TTTTCTACAGAGTAACTCAAAAGTAACCATTGAATTACAATCCACTTTGTAAAAATCTGAATGTAAAACAGTAAATAATAAATTAAATAATTGGATCCTA
Celera SNP ID:            hCV29002469
SNP Position Genomic:     149119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:46808):
AGTTTAAAATATGATAGACAAAATTTAAAAAATTCTATGAAGTTTGGAAGTTAGTCAAGGAATTCTTCCAGAAAGTAAGATTTTAAAAACAAAGTAGAAA
R
TGGGTAAGAAATAGAAATGGAAATTTTGAGAGTAAATCCAGAAGGTCCGATATTTAGAAGAAAAAACAGAAGAGAATGTTAAGGGAGGAAATGCAAAGAA
Celera SNP ID:            hCV8948097
SNP Position Genomic:     83665
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46809):
ACTTATTCCCTTGAGGGCTTACAGTGGTTCCCAAGAGAAAGGCCAAGAGAAAGGATTAGATGGATTAGACACTAAGTGTCTAAAGACACTTAGTGCTTTA
R
ACAGTGTCTCAGTGAGAAGTGGCAGGGATTGCTTTCTAGGGTCCGTTAGGGGAAGGATACTTGTTGAAACCCCTCTCACTTTGATCTAGAATCCAAAAGG
Celera SNP ID:            hCV15849867
SNP Position Genomic:     91531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46810):
TTAGTGCTTTAGACAGTGTCTCAGTGAGAAGTGGCAGGGATTGCTTTCTAGGGTCCGTTAGGGGAAGGATACTTGTTGAAACCCCTCTCACTTTGATCTA
R
AATCCAAAAGGCTAAATCTAAACCTCTAGAGTAAAGGAACCAGAAGCAGGTGTTCATAGGGACTACAGGTTCATTAAGTTTCTGAAAGTAAATGAAAATA
Celera SNP ID:            hCV15849868
SNP Position Genomic:     91620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46811):
ATTAGCACTAATTATTGCGGAAGGAAGGGCACCTGAGGAGGAAACATGCTAGAGAAGGGTCCACACAGCATGTTTCAAAATGCAGTGGTTCATGAAATCA
R
TTTGAGGTTGTAACTGGCATTAAAAAGCTTTTTGAAATAGCAAATATCCAAGTACGTTTCCTATGGGAAGGATAAGCATTTTTTGGTAAAACATCTAGTT
Celera SNP ID:            hCV27988576
SNP Position Genomic:     14502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46812):
TATATTAGTTTGGTCCGGGACAACTTGAAATGATGGGACTTCAGCTTATAGGTGGATTCAGAGATTTTCTGATTGACGGTTGAAAGTGTTAAGTTATTAC
Y
TGAAGACCTGGAATCATAGAAGGGATTGTTTGGGTTAAGATAAGGGGTTGTGGAGACCAGGGTTTTATCATGCAGATGCAGCTTCCAGGTAGTAGGCTTT
Celera SNP ID:            hCV27988577
SNP Position Genomic:     56840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46813):
CTCTCGAACAAGTTCAACGGAAACAATTCATTCTGACCACCTCTGAACACAAAGACCTCAGGAGACCAGTGACAAAGTGGCCCCCTGGAGAGCCACAGTG
Y
GATGGCAGGCCTGTCACTGAGCCCAGACCCGCAAGGGCCCCATCCGCCTGCCCCTAGCACACTTGGGTTGTGTGCTCAGGACAGCCGTTACAGTTACAGC
Celera SNP ID:            hCV27498660
SNP Position Genomic:     139743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46814):
TGACAGGAAGTTCGGCAGGTTTCTCAGGCCTCATTTTTGAGGTATCCTCTTGGTTTTGGGGCCTCATCTGGCATTGCTTGCTCAGGCCAGGCCCAGCAAG
Y
GGGGTGTAGGGCAGGGCACACACTGGCTACGGGGGTCTCTGCAGCAGGACAGAGGGGGCTCCCTACTTTTATTTTTCCTGGGGGGTTGCTAAACCCCCCT
Celera SNP ID:            hCV27498661
SNP Position Genomic:     135317
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,135|C,1338)   total(C,1338|T,135) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46815):
CCAGGCACTGTGGATGATACAGAGCCCACCAGGGCACAGTCCCTGCCCTGAGGAATTGACCAGCTGGTGGGTGGGGAGGCAGAAATGAATATGGCTACCC
S
TGTGCACAGCAGAGTATGGGAAGTATTGGAGTAGGAAGGTAAGGAGAGCACCAGGAGGCTGGGATCCTATCTGGCTGTGAGAGTCAGAGCAGGCTTCCTA
Celera SNP ID:            hCV27498662
SNP Position Genomic:     95488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46816):
TTGAGGGCTTACAGTGGTTCCCAAGAGAAAGGCCAAGAGAAAGGATTAGATGGATTAGACACTAAGTGTCTAAAGACACTTAGTGCTTTAGACAGTGTCT
Y
AGTGAGAAGTGGCAGGGATTGCTTTCTAGGGTCCGTTAGGGGAAGGATACTTGTTGAAACCCCTCTCACTTTGATCTAGAATCCAAAAGGCTAAATCTAA
Celera SNP ID:            hCV27498663
SNP Position Genomic:     91541
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,391|C,1102)   total(C,1102|T,391) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46817):
ACAAATACGCCTTTCTGCCTAAGCTCACCCCCCTGCACAGCGTCCTGGCTGCTCTATATAGTGTCTTAGCCAGGCTAGCAGGAGTTCCCATGACTGTCCT
Y
ACCATGATGGCATCGTCACTGCATCCCCTGGGTTGAGGGGGTGGGTGGTGAGGGCATGGGGTGAATGCAAAACACTGTACGGCAAGGCAAAGGACATTGC
Celera SNP ID:            hCV27498664
SNP Position Genomic:     69090
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,419|T,1072)   total(C,419|T,1072) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46818):
CCACTCCCCCTAGTTGCCCACAAGCCTTATGAACTCCCATCTCCGTTCCTCCTGTGTGGCCTGTTCTGGTTCCCTCTCCTCCCTGTCAGGCTCACTGTAT
S
TTTGTTTCCCATGATCCTGCAGTCAGGGAAGACCAAGCCCCAGTTACTTTCCTGATGAGCTCAAAGTCCAGAATGCAGTCACGTGACTGGGGTGGGAAGC
Celera SNP ID:            hCV27498665
SNP Position Genomic:     45522
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,24|C,1469)   total(G,24|C,1469) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46819):
AGCTCTGACAGCAGACCGCCATGTACAGTGTTCCTGTTGTCTTTGTCTGTGGTATTGTGAAATTGATGTGGTAATCAAATGACGAATGAGGCCTGGTGCG
Y
GGGAGTGAGAGGGGTCATGTATGGGAACACTGGGTTGATTCACCTCAAGAAAAAGCCCCAGAATCCCTGGCTGCAGAACCCAGGGGTGCCGCTGCCTGGA
Celera SNP ID:            hCV11724710
SNP Position Genomic:     70062
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;JBIC-allele(T,384|C,1087)   total(C,1087|T,384)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46820):
GTGCCCAGAGCAGAAGAGTCTGTGCTGTGAGCACACCCACGGCAGCGTGCACAGACTCGAGTCCCCCAGCAGATTCTCTTGGCTGCCCTGGATGGAGATA
S
GGTGAAACTCTGCTGGGGAGAGCACAGTCCAGTGGAGAAGCCAATCTGATGTGGACAGATGAGCTCTGTGGCAAGTGTCCAAGGAACCAGGCTGGTGGTG
Celera SNP ID:            hCV27498666
SNP Position Genomic:     33559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46821):
CCCACAAGGAGTTTTGTGTTCCATTGTCCAGCTGCATGCTGGCCTGCTGCCAGGCTGTGCTGCAGATTCTTCAACCAGTGCTCTCTGGATGCCTGTTAGC
Y
TCTTTCCAGCCTGTGCTTCACACTAATACGTTAGTTTTGTGAAGGAAGCTGCACCCCCCTTGCTCTGAGGTCTGGGCCTAGGCTCTGGCTGGATTGAGCA
Celera SNP ID:            hCV27498667
SNP Position Genomic:     23053
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,403|T,1082)   total(C,403|T,1082) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46822):
GAGCACCTACGGTGAGGCGCCCGGGCCAGGATCGGGAGCCCCACTTGCGTGTGTGGTTTCCATCCTTTCTTGCTAGGCACTTTTCTCACTATACCAGTAA
T
GCGTGCTTATTGAAATAAATCCAAAATATATAACAGCAGACCAGATGGCAGACCTGGCAGTTACACACGCACACGCCTTGGTTTGTTGTTGTTGCTGGTT
Celera SNP ID:            hCV11724712
SNP Position Genomic:     126007
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46823):
TCATCCCACACTGGAGGGTGTCAGACTTTTTTAAGACTCTTTCATTCTTTTTGTTTGTGTCATTACTTTAAGTGACAGAAGCAGTTCCATAGTCATTTTC
R
TGGTTTGGGGAGACCCTTTCTTGGATCATAGTAATTCTTACAATAATGCCTGTGCTCTAACCACCAGTTTTAGGGGATTGTGGGCCGCGACTTGGCCTCC
Celera SNP ID:            hCV27498668
SNP Position Genomic:     21716
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,59|A,1430)   total(G,59|A,1430) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46824):
GCTCACTTACTTTTCTACAGAGTAACTCAAAAGTAACCATTGAATTACAATCCACTTTGTAAAAATCTGAATGTAAAACAGTAAATAATAAATTAAATAA
Y
TGGATCCTAGGCATACCAATAAATGTTATTTGGGGAAAGAAGCTAGCACTATCTCATGCAGTGAGAATAACGGGTTCTAGTGAATTATCCTATCTACACT
Celera SNP ID:            hCV29002470
SNP Position Genomic:     149210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:46825):
TGGCTGGTGACTCTGAGCAAGTTGCTTGACCTCTCCAAGCCTCCGTTTCCTCATGTGCAAAGTGTGGACAACAACAGTACCTTCCTCATAAGGAACGTGC
R
ACGCGCCTCAGAAGTACGTGTTCATAAATGGTAGCCATTGTTGTTACCTTCCCGTCTGTGAACATGGATCACATCATCTCTGTGGGTAACCCAGTCCTCG
Celera SNP ID:            hCV29002471
SNP Position Genomic:     151665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:46826):
GTGCCACTGAAGCCCCTTTGAGCAGTGGCAGCAGAGGAAGGGGGCGGTGGGGGGCTGGGCATGATCTGACTGCCATTTGGTGAGCAGGCACCTGACCCTG
W
ACCTCTTCACCCCACGCTCCCACAGCTGACCGCCCTCATCTGCGGCTTCATCATTAAGCTGAGGAACTGCCTGCATGACGACGGCTTCCTGCGCCAGCTC
Celera SNP ID:            hCV25984244
SNP Position Genomic:     125768
SNP Source:               Applera
Population(Allele,Count): african american(A,36|T,2)   caucasian(A,6)   total(A,42|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:46827):
TGACTTGTCAAAATGCAGTTCCACTTGTATTAATATTGACCCTGTTCATCGTCACCAGGACTGCATCTTGCACCACTGTGCCGTCTTCTAGGCACACACG
R
CCCGTTATCTCCCTTGGAAAAATTCCTCTCACTGGAAATGTACAATTAAAGGATGATTGAAATGTTTAACTCTTGGAGTTTTTAGTATTACCAAACTCCT
Celera SNP ID:            hCV3266573
SNP Position Genomic:     151871
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:46828):
CAAATTAGTTACAACAACCAGGTGGATACTTTTCTAAACTATCGGAGCTTAGCTTTTGAATAAAAAATACTGTCTTACCAAAAGTATTTTACATGTTCTT
S
ATAATGAGACTGTCATTTTCACTTTAAAAGGCTTGAGCAATTGCCACTGATGTTTTTTTTTTTTAAATGCGTGACATAATGGTCTTCATACAATTTGAAT
Celera SNP ID:            hCV3266574
SNP Position Genomic:     147438
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46829):
GATGGCGAATGAGGGGTGGACCCTACCTTGGAGGGAAAGCTGGTCCCAGAGTGCCGGCCTCTCTGTGCAGGCGCTGCCACAGCCACTAGGGGGCGCCACG
Y
GTCAGAAGGTATCATCCCCTCTGTGTTACACTAGTGTCCTCTGATGGGGGTTTCCAAAGAGGGAACCCACATCGGCTGGGCTTTGCATTGGGCAGGCTTC
Celera SNP ID:            hCV27474785
SNP Position Genomic:     130558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46830):
TGAACACAAAGACCTCAGGAGACCAGTGACAAAGTGGCCCCCTGGAGAGCCACAGTGCGATGGCAGGCCTGTCACTGAGCCCAGACCCGCAAGGGCCCCA
Y
CCGCCTGCCCCTAGCACACTTGGGTTGTGTGCTCAGGACAGCCGTTACAGTTACAGCTGTTAGGATGTATAGTGCACAAAGCACTTTTTATAACTTTTAC
Celera SNP ID:            hCV3266575
SNP Position Genomic:     139786
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,12)      total(C,1|T,12) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46831):
AGGCCTCTTTTTGATCTCCCATGTGACTCCATTTTCTCGTTCTCTCCTGTGGCTGGGCCTGTTTCTGCCTGCCGTGGAGCAGAAGTATGGTCCACATGGG
K
GGAGACCTACAGGGGCCAAGGAGGGCTGGGCCTTGAAAGTGATGAGCTTGAGTCCCTGTTGGGGTCCGGGGTTGGGGGAAGGGCACAAGGTACACAGCTG
Celera SNP ID:            hCV27474786
SNP Position Genomic:     33319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46832):
GAGGCGCCTATGTCAGGGAGAGGCGCAGCCTCACTGGAGCCCCAGCAGGGAGGTGGCCCAGGGGAGGGAAAATGATGGTGCCTGCATCCAGTAGCTGCGG
R
TCCCACAGACTTGCAGGAGCAGTTTCTAGAGAGGGCTGAGCCAGAGCCAGGTGCATTGAATAGAGGGGAGGGTGGAGGATGCAACACTGAGGACAGAGAG
Celera SNP ID:            hCV3266576
SNP Position Genomic:     128710
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;JBIC-allele(G,384|A,1073)   total(G,384|A,1073)
SNP Type:                 INTRON


Context             (SEQ ID NO:46833):
TCCATTTCTGTGCAGATTGCAGTCCCCCTCCTGAAGAGTCCAGCCCAGGTACGTGGTTTCCGTTCAAGGCTCCTGCTGATGCCCTTTTAATTGATACTCA
R
GTAGTGTTTTGTAGCTAAATTACAAAAGATTGCCTTATGATCCCAGAGTTGGGAAAGTATTCCAGGACCTCCTTCGTTGTGAGGCATAAAACACTTTTCG
Celera SNP ID:            hCV3266577
SNP Position Genomic:     120702
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46834):
CAGCAAGAAAGGTAACCCGGACAGCCACGCCTACTGGATCAGACCAGAAGACCCCTTCTGTGATGTCCCCTCCTCACCATGCCCCTCCACCATGCCCTCC
R
CTGCATGCCATCCTCATCTGACCACACGTGCGTATGCATCCATGCTTCCCATATGCTGCCTCCATTTCACCTTGTGCTGCTTCCATTTGTCTGTGTCTCT
Celera SNP ID:            hCV3266578
SNP Position Genomic:     116935
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;JBIC-allele(G,415|A,1066)   total(G,415|A,1066)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:46835):
GATACTTCCCCTGCAAATGCTGTTGTCCTGGGTAGACCTCCTGGGCCTCTCTGGGGAAACCAGTTAGCCCACAGCCTGATGCATCTGTGTCTTGCTTTCA
K
AGTGTGTGAGCTGGAGGAGCTGGGAGAGCTGTCCCCTTGCTGGGAGAGCCTCCGGCGCCAAATTGTCACCCAGTACCAGACCATCATCCTCACATACCAG
Celera SNP ID:            hCV3266579
SNP Position Genomic:     105025
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 ACCEPTOR SPLICE SITE;hmCS


Context             (SEQ ID NO:46836):
TCTCTTATGCAGCAGAGGCATGTTGCCTTGGGACTTGGTAACACAGAGAATGGGACCCTGTTCCTGGGCTTCTGGTGGTCTGAGTCAGGTGGTTTGGCAG
R
ACCCTTCAGGGTAGGACACTGGCATGAAGCAGCATGCTTCAGAACAGTCTCCTGTCTGCAGAGACACAGCATACCAGGACACTGTCCTGCAGATGGCCTT
Celera SNP ID:            hCV27506022
SNP Position Genomic:     117545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46837):
GGGGTGCAGTGCTGGGCTTTAAGCCCATTCTCCATTTCTGAGATAAGGCAGGGGCCTCCCCAGCCCCTGGCCTGGGCTCAGCAGCCTTGGTTTGTGTGCA
Y
CTGCAGACACGGCAGCTGGTCACGGTCTGCGACTGCAAGCTCCTGGCCAACTCCATCCATGGGCTGAACGCTGCACGGCCTGACTACATTGCCTCCAAGG
Celera SNP ID:            hCV25982932
SNP Position Genomic:     115418
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,33|T,5)   total(C,41|T,5)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:46838):
AATTAGAAGGCAGGCTTTCCTAGTGCTTAGAAAAATAAACAGAGCCTGCCTGACTCCACTTGTCTGAAGCACGTTATTATTAACTTTCAACTTATTATCA
S
TTCTGCTCTTAACGTGGCGCTGTAGAAGGAAATGATGTGTGTGGTGTTAATCTTCAGTGCCTCTTCAGGCCCACGTGCCATCCTGCTGAAGGTGCAGGAC
Celera SNP ID:            hCV27506023
SNP Position Genomic:     65972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46839):
AAAAAGATCTTGAATAAATGAGTTCTGCTAGTTCCTCTCTGAGTCCTGTAGTGGCTCTAGGTCAAAAGCAGTAAAACCTAACCAGAGGAAAAAACCAGAG
Y
GGAAAATATTTTGGACACACGAGAAGCTATGTAGACAGGAAGCAAGTGGGAGCTCCTTGGAGAGGGGAGTTGCTTGAGACTGAAGTTCAGGGAAAGGACC
Celera SNP ID:            hCV27506024
SNP Position Genomic:     49842
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46840):
CTTGTTTGTTTAGCTCCTGTAGCATCTTCAGTGCTTGTAACATGTTCTTACGGTGCCCTGTCACTGCATCGTTTAGCTGGCCTGGAATTCCTTGTACCAC
R
TCTCTACCTTCTGATGTACAACTATTTATCACCTGTACCTCTCATGTGCCCTGTTTCCAAGAGAAACGAGTTCTGTTTAAAGAGAATTTGTATATTTGAT
Celera SNP ID:            hCV27514044
SNP Position Genomic:     143200
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,56|G,1445)   total(G,1445|A,56) 
SNP Type:                 UTR 3;INTRON;hmCS


Context             (SEQ ID NO:46841):
CTTTGCGTTCTGGGCCTTGATGACTTAAATTGCAGATTCTAATTAAATGTCCCCAAATAACTATGAAGTGCTTCTAAGGTCTTTTTGACCTAAAAGTTTC
Y
GTGACCTGTGAACTCTCTCAAGTGTAAAATTAGTCTGTAGATGTACCCCTTTAAGCATTTCTATCTCCAGAAACCTCATGATGCCTAGGATATAAACCAC
Celera SNP ID:            hCV27849523
SNP Position Genomic:     77472
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,12)   caucasian(C,30|T,10)   total(C,52|T,22)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46842):
CGGGCTCTCGAACAAGTTCAACGGAAACAATTCATTCTGACCACCTCTGAACACAAAGACCTCAGGAGACCAGTGACAAAGTGGCCCCCTGGAGAGCCAC
M
GTGCGATGGCAGGCCTGTCACTGAGCCCAGACCCGCAAGGGCCCCATCCGCCTGCCCCTAGCACACTTGGGTTGTGTGCTCAGGACAGCCGTTACAGTTA
Celera SNP ID:            hCV27514045
SNP Position Genomic:     139739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46843):
GGAGTGGAGGTGACTGGCAGAGATGCAGTTGGAGCCAGAGAGCCTGGAAAAATACAGATGCCTGGGCCCCACCCCAGAGTGTGGTGGGCAGGACCTGGGC
W
TTAGGGTTTCAGAAACTCCCCAGGTGGTCCCTGTGTGCCACAGCCAGGGTGGTAAACATAGCATGAAGTCAAGGTCCTGCGAGGACTTGGCAGCTGAAGG
Celera SNP ID:            hCV27514046
SNP Position Genomic:     132124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46844):
GGTGCAAATCTTCAGTGACACAAGAGTATGGCTGTTAGAGAAGGAGGAAGACAGTTCCCCATGATCACACCCCCAGCATGGCTGTCATCTTGATGCAGCC
R
CCTGCTGGCTGTCCCCTCTGTACAGTACCTCTTTAAATGGCTGCAAACAGAGCAAAGGTGGGCTATTTCTTTAAAAACACATGATGCAGAACTCACGTAA
Celera SNP ID:            hCV27514047
SNP Position Genomic:     77991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46845):
CCCTTCTTCTGTAAATGGCCTCTATGTCTCCACTTAAGTACTGCTTATAAGTTAATAGATGAGGTTGTGAGGTGGAAGATTACGATCATTTGGGTGATTA
Y
GGGATATGATTGTTCAATACCTGTTCATACATTTACATACACAAGTAAAAATACAGATACATGCAAATACAGATAAAAGACTGAGTCATAGTTTAATATT
Celera SNP ID:            hCV8948101
SNP Position Genomic:     113639
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;(T,-|C,-)   SC_12_T(T,1|C,12)   SC_12_C(T,0|C,15)   total(C,27|T,1)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46846):
GGCTGGGATGTGGGCCGCCCACTTTGCATTCTGTCCTGAGAAGCCATGAGCAGCTGCAGCCACACCTCTCCTGAAAGGGAAGAAGGAGAGAAGCAGAGCT
Y
GGGTTAGAGGCTGTTCTAGTGGCTGGGGCAAGTCAGGGTCCAGCTTCCAGGTGGCCAGCTCTGGGCAAGGGAAGCAGGAGCAGGCACCAGGCCAGGCCTG
Celera SNP ID:            hCV27514048
SNP Position Genomic:     69294
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,62|C,1437)   total(C,1437|T,62) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46847):
CTGTGGACTTGCTAAATTTAAGCCTGCTTTTTCCATTACAGATACAAATCCTGTCCACAAACAGTTAGCGTGCCTGCATGTACAATTAGGCCACCTCCAA
M
TTTTGAGCTGCTACATATACTTAAACATTTGCATTAACCAAACACTGAGTGTAGGGAATTCTTTTATATGTTTCAGTATTTCTTTAGGTTGGTTTCTCAG
Celera SNP ID:            hCV8948102
SNP Position Genomic:     123408
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|C,12)      total(A,1|C,12) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46848):
CAATGGGCCAGCTCAGCCATGTTCCTGCTGAGGTGTTTAGCTCAGCCCAGACTCCTGAGACAAATACGCCTTTCTGCCTAAGCTCACCCCCCTGCACAGC
R
TCCTGGCTGCTCTATATAGTGTCTTAGCCAGGCTAGCAGGAGTTCCCATGACTGTCCTTACCATGATGGCATCGTCACTGCATCCCCTGGGTTGAGGGGG
Celera SNP ID:            hCV27514049
SNP Position Genomic:     69031
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,27|G,1466)   total(G,1466|A,27) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46849):
CTTTGCTGTCGATTCTCTACTAGCCTATGTGACATGGCTCCTTCCCATGCTGTCGTAGTCACTGACACAAGATGTGTTTGGTGGCATGCATTGTGCACCT
S
CTGGTAGGACTTGGGGGAATCACAGAGGCAGGACCCACCCTCGGCCAGGTGAGCGGCCCACTCACTTCCCTTTGTGGTGCTTAGAGAGGAAGATGCGGGG
Celera SNP ID:            hCV8948103
SNP Position Genomic:     130114
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,12)      total(G,12|C,4) ;(C,-|G,-)   Caucasian(C,27|G,51)   African-American(C,9|G,71)   Asians(C,36|G,44)   total(G,166|C,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:46850):
ATAAAGACATTTTCAAACCTTAAAAGCTGAAAGAATGTCAGCACCACACTTACAGTATAAACAGTGCTAAGAGATGTTCCTAAGTAGAAGGCTGATGATT
Y
CAGATGGACGTTCACCAATAGAGAAAGCATTGAAAATTCAAAGACATAAGATTTGGGGTAAACATCTGGGTTATAGCTGCATGAATAGCAACTATAGAAA
Celera SNP ID:            hCV2185275
SNP Position Genomic:     93000
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46851):
ATTCTAGAATTAAAAGAAAAATTTCAAGAAGCAAATTTACAAAATGAAGCCAGAGCAATAAAAATAATGGAAAAAAAAATCAGAGGAGAGTAAAAACAGC
R
TAGTGAGAGGTCTAATGTTACATTTATTTTGTATCTTTAAGAAGGAACACAGAAAAGGGTCAGAAGCAATATTTATAGTTGAGCATTTCTCCCAAAGTAA
Celera SNP ID:            hCV2185276
SNP Position Genomic:     92558
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;CEPH(G,16|A,64)   total(G,16|A,64)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46852):
TTATGGCTCACACCTGTAATCCCACCACTTTGGGAGGTCAAGGTGGGAGGATTGCTTGAAGTCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACC
Y
CATCTCTAATTTTAAAAAATTAGTAATTATCCAGATGTGGTGGCACACACGTGTGGTCCCAGCTACTCAGGAGGCTGAGATGGGTGGATGGCTTGAGCCC
Celera SNP ID:            hCV2185278
SNP Position Genomic:     75892
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46853):
GACAGAGAGGAAATCGGGCTAAACTCCCGATTTATCGGGAATCCACTCCCCTCACTCCTACAGAAACAGCATTAATCCATTCATGAGGACAGAGTCCTCG
Y
GTCCTAATCACCTCTTAAGTGCCCCGCCTCCCACTACTGTTAGAATGACAATTAAGTTTTCAACACAGGAACTTTGGAGAACACGTTCAAACTGTATCAA
Celera SNP ID:            hCV2185279
SNP Position Genomic:     73823
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46854):
GAAAGATTGATAAATCAACGGGAGATAAGACTTTATTAGAAGGTAACACCTGCAAGGTACCCCACATAGTTGGGGCCACTCTTTTTTCTGTCCCTTATGA
S
TTACAGAACAGGGAGTCTGCTGGAGACACAAAGCCAGCAGTAAGGTCCCTTTAGCCTGTCTCCTGTTCTCTGAAGCTCCCTGCCGAGGCTCCCTCACGCC
Celera SNP ID:            hCV8948109
SNP Position Genomic:     149431
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:46855):
TATCTTAACTTGTAAAGGTTGGTTCTTTCTAGAGACAGCAGGAGTTGTAGCATATAGGGTTGGAAAAACCTGAAACACCTTCTCGCTGCTTAATCTAGTT
Y
TGAGAGCAGAGTGTGAGCTCTGGAGCTCTGAGCCATGTGAAGCGTGTGACTCAGCCTGTGGCAGTGTTTTACCCAGAGCCCTCCCTTTCCATAGCACAGC
Celera SNP ID:            hCV15964835
SNP Position Genomic:     80424
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,321|C,956)   total(C,956|T,321) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46856):
TTCTGAGATATAGCGGGCAGAGCACTGGCATCAGATAGACTGGACTGCAAACACAGCCTCTCCCCCTGCAGCTCTGTGGCCTTGGCTTGCCTAAGCCTCA
K
TTTGCTCATTGGGATCATGGATTCCTGTGCAAGGATTTCATAAGACAGTGTATTTGAACCCAGATGTGTGCCCCACACTCAGAACCTCCTCTTTTCTCTT
Celera SNP ID:            hCV3266580
SNP Position Genomic:     100982
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46857):
TGTGCGGTTGGATTGGAAGAGGGGAGGCAAGCCGCTGATGGCCAGAGTGAGGCTGTGACACTTCAGATGAGATGTTGTTTCACTCTGACTCCAGCCTGGT
W
GTGACAGTGAGCGTGGAGAGAGGGATGAGGCGTTAGGGGGGTTTGGGCTGAGGATGCACTCCTCAGCGGCCACGTGCAGCTGGCGCTGGGGAGGTGAGGG
Celera SNP ID:            hCV16084689
SNP Position Genomic:     131102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46858):
CCGCACCCAGATCATTTCCAGAGCCCCGGAAGCCCTCTCACCCTCCCCAGTCAGTACCCACCCCTTCAGGATACCACTCTCCATACTCTGGATGCCACAG
M
TTCGTTTGGCCTGTGCTTGAACTTCGTATGAATGGATTTGCCTAGAATGGTCTTAACTTTTCCCCTTGACGTTGTTTCTGAGACTCATCCCATTGTTTCA
Celera SNP ID:            hCV27987643
SNP Position Genomic:     78297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46859):
ACCCAGCCCTGGCTTGAACCTGTCCCTGTCCCTTGATGTTGGGAAGCAGAGATTCCCTGTCATGTCAGATGACTCAGAGGGGCCCTAGGATGCTGAGGCA
Y
CAAGTGAGGGCTGTCATTTACACACCGTCTGTCGATAACATTGGTACCAAGCAGTATAGGGTCTTTTATCCTGGAGATTCTGAACCTCTGTGATGGACCC
Celera SNP ID:            hCV27514050
SNP Position Genomic:     50667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46860):
GGAGTTCAGGGGCGGGTGACTGGGTAACTTGGAAATACAGGACTGGGCCTTAGGAGTGTCATTAGGGCCAGGCCAAGAGGGGTTTTGGCATCATCTCCTG
S
ATGGCCTTAGTGGATAAAACTGACAAGGCTGCAGAGTGGAGGGATATGCCAACACCCAGCCCTGGCTTGAACCTGTCCCTGTCCCTTGATGTTGGGAAGC
Celera SNP ID:            hCV27514051
SNP Position Genomic:     50513
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,370|G,1071)   total(G,1071|C,370) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46861):
TAACCTGCAGCCCACAGTTTCTGTGACACAGAAAGTGTGGTCAGGTGCTGGGAAATCATTGTCTCATAGATAAAACATCTGACACGCACCAGCTTTTCTG
W
AACAACTAATGGTTGCAAATGGAATTCGGGGTACACAGGATAGCAACAGATTTCTTCCTGTCCTTGAAGAAAACTGTCTCCTTTGTCCCTGTTTGACCAA
Celera SNP ID:            hCV27514052
SNP Position Genomic:     40835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46862):
GCCCCCCATTCGCCAGCTTGTCCACCCATATAAGTTTCTCAGCCCCCTTGCCTCAAGCTTCTCCAGCTCCTCCAAGCATGGCCTGTACTCTCCCTGTACA
R
CTCGGTGCTAAAGGAAGCAACCTCAGTAACACTCCAGCTCCAGGTCCCTCTCTGGCCTAGCAGGGATGGAGTCTACCTGGCTGGTGCTGAAGAGTCCCAA
Celera SNP ID:            hCV27514053
SNP Position Genomic:     13895
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(A,409|G,1078)   total(G,1078|A,409)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46863):
TGTCTTAATCCATTTTCTGCTACTCCAACAACATACCACAGCCTGGGTAGTTTGTAAAGAAAAGCAACTTATTTCTTACAGTCTGGAGGCTGGGAAGTCC
W
GGAGCATGGTGCCCGCATCTGGTGAGGGTCTTCCCATGGTGGAAGAGTGGAAGGTGGAAGCCAGCATGAGAGACAGAGAGGAAATCGGGCTAAACTCCCG
Celera SNP ID:            hCV2185280
SNP Position Genomic:     73651
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46864):
TGTGGGGGCCAGCCTCAGGGGAGGTTAGGAAAAGCCAAGGTGAGAACCTCACATGCCAAGGTGACAACCTCACATGGCTGACAGCCCATGTACTGAGCTC
Y
ATGCGGATGTTTTCTGTGTTTCTTCACATATGTGCTTGCTCCTCAGTGTGTCCTGGTGAGACCAGTGTTATTTCCGTTATACAGAAACTGAGGCTGAGAG
Celera SNP ID:            hCV2185281
SNP Position Genomic:     73307
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46865):
TTTCCTCATGTGCAAAGTGTGGACAACAACAGTACCTTCCTCATAAGGAACGTGCGACGCGCCTCAGAAGTACGTGTTCATAAATGGTAGCCATTGTTGT
W
ACCTTCCCGTCTGTGAACATGGATCACATCATCTCTGTGGGTAACCCAGTCCTCGTTGTATGACTTGTCAAAATGCAGTTCCACTTGTATTAATATTGAC
Celera SNP ID:            hCV8948110
SNP Position Genomic:     151710
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:46866):
AATTTTTTTTTTTTTGAGATGGAGTCTCGCTTTGTTGCCCAGGCTGGAGTGCAGTAGTGCGATCTGGGCTCACTGCAACCTCCACCTCCCGGGTTAAAGC
R
ATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACGTGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAAAGGGGTTTCACCACGT
Celera SNP ID:            hCV2185282
SNP Position Genomic:     72312
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46867):
ATTTGTGTCTGCAGGTGAGAAGGGATACGCATTGCCAGCATGTTACTTCTCTTCCTGTGCTTGATTCAATTTTTTTTTTTTTGAGATGGAGTCTCGCTTT
R
TTGCCCAGGCTGGAGTGCAGTAGTGCGATCTGGGCTCACTGCAACCTCCACCTCCCGGGTTAAAGCGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGA
Celera SNP ID:            hCV2185283
SNP Position Genomic:     72245
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,7)   total(G,7|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46868):
TGATGCAAAGGCCACACCAGATAAAAGTCTAAACAGCAAAGAGGCCAGGGCAGGAGCAGGATGAAGACACTGCTAGGAGGTTCACAGGCCCCGTCATTGC
W
GTTGGACACAGACTGTGAGGACTGTGGGAGGGACGCTGGTCAAATTCCCAGGGTATGGGAGTTGGGGTACTAAGGGAGTTGAAGTCGTACTTGTGGGGAA
Celera SNP ID:            hCV2185284
SNP Position Genomic:     71237
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46869):
CATGGGTAGTGTTGAAGCCCCCATGCTACAACGTGACCCCCACCCCCAGCCTGGGGGGCCTGGCTCAAGCTGGAGAGAACTGGGAGAGCACCCATGCAGG
Y
GGCCTCTGGTGGCTGGAGCTGGAGAGTTTCAAGTTGGGGGCTGTCTCAGCTCCCACCATGTGGACTGGCTCATTTGCAGAGTGGGAGGATGATGGACATG
Celera SNP ID:            hCV2185285
SNP Position Genomic:     68786
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46870):
GTTGTGTCTCATGAGTGGGCTGACCTTGGTGGAGGCTTGCGTTTCCCATGTGGGGCCTGACTTTTTATGTGTCCAGCCAGAGTGATGAGCTCGTTCACTT
T
CCCTGCAGTGCTTCCTTGTTGAACCTGAAAGAGAGGACGTGGGAGCTTTTGTAGGAGAGAGAGGACACATGCTTTATTCTTGAACTGTGAGGTGTATGTC
Celera SNP ID:            hCV2185286
SNP Position Genomic:     66575
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46871):
GGTTGCTCACTGACCTGGCATAAACTAGAACACAAAGCTTCCCATTTAGAAAAGGTTCAGGCAGCCTCCTGCTGGGATCTGCCCAACCCCTCTAGGAGGT
K
GCATGGATGCCCACCTCTTCTTCCAAGGGTGCACTTTGCCTTTAGGTTTGGGGAAAAGTACTGGGCGAGCCTTTGGGACTGTTGTGTCTCATGAGTGGGC
Celera SNP ID:            hCV2185287
SNP Position Genomic:     66394
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46872):
TTTCTGCTCCCTCTTGTTGAATCACATTTCGCTGCTTTTCTCTGTGGGTACTTGGTCCCTGAGTACCCCACATCTGCCCATTTCCCTGTGTGCTCTGGGC
R
GCTCGGAGGAGAGATTTGTCACAAGGACCTTCAAAAGGTTTCTGATAACAGCCCACACCCCTTCCTTTTGTCTCTCCTCACTCTAGCTTCCCTTTGTATT
Celera SNP ID:            hCV25983313
SNP Position Genomic:     107332
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,30)   total(A,1|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:46873):
CAGAATCTTCCTGGGAGAGGACACAGATGTTGGGCTTAACAAAGACTTTAAAACTGCTATTATATTTGTTCCACTGGTCTACGTGTCTATTTTTATACCA
K
TACCTTACTGGTGCCCAGAAATAAATTTATACATTTGTAGCCAACTTATTTTTGACAAAGGTGCCAAGAACAGGCAATGGGGAAAGGACAGTGTTGTCAG
Celera SNP ID:            hCV2185289
SNP Position Genomic:     56475
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON;TFBS


Gene Number:                 234
Celera Gene:                 hCG38474 - 30000054109502
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W3V0(4400397..5585107)
Chromosome:                  Chr16
OMIM number:                 601364
OMIM Information:            CADHERIN 13;CDH13


Genomic Sequence (SEQ ID NO:12394):
TGAATAAATAATACCCCCTGACACAAACACAGGCACTGTCATTTTGGACCTTCACCTAGATGCGATTGTAAAGAATGAACTTCAAATTCTGCTAGAAGGA
AGGGTTGAATTATGAGCTTTCCTTTGCAGTTATTTCTTTTCTCATCAATGGATATGAAAAATACAACATCTGCGAAGTGGAGACCCATGATGGTTTTTGA
CACATAATAGAAACCAGCAGTGAATCCCTTGTCTCTTCTTTTTTATTTTTTATTTATTTATTTTTTCCCTCAGACAGGGTCTTGCTCTGTCACCCAGGCT
GGAGTGCAATGGCACAATCTTGGCTCACTGTAACCTCTGCCTCCCGGACTCAAGTGATCCTCCCACCTTGGCCTCCTGAGTAGCTGGGAACACAGGCATG
TGTCACCACGCCCAGCTAATTTTTGTAATTTTTGGAGAGATGGGTTTTCACCACGTTGCCCAGGCTGGTCCCGAACTTCTGGACTCAAATGATCCACGCG
CCTCAGCCTCCGAAAGTGTTGGGATTACGGGCGTGAGCCACTGCACCCGGCCCCCTCGTGTTTTCTTAAACACATCTTGATCCTTCATACCTCTGGCTAC
CTTGACTGTGTTTCAGCACCCCCTGTAGCACATTATAACATAATTTCTCCCAATTAGTCATATTTTCTTAAGCATACACACCATGCATCATAATTTATTT
CCCTGTTGCTTAACTCAGGGGCTAATATGCAATAGGCACTTTAGGGATACTTTTTAAATGAATAAATAAATATTTGTGAGTGAGTAGTGGAGAACTCTCT
GGAGCATTGGTTTTCAAAGTGTACATTCCAAGGGCTTGTAAAACACAGAATGCTGGACTCCACCCCTGAATTTCCAAACTAGTAGAACTAGGGGCCTGAT
CTGCCTGGGAATTTTTCATTGCTGACAAGTTTCCAGGTGATACTGATGCTGCCAGTCTTGGGCCACACTGTAAACGTCATTGTCATACTAAATTGGCACT
GAGATGATTCTCTGTGTAAAAATAACCCCAGCCACTAATTTTGGGTAAGGGAGACACCTAGAGGGGGGTTTTAACTGCTTCTTGTTCAGAGAATAAAAAT
TGGTGTCTGAATGCCCAGTTTTGCTTCTCATGAGGGACTGAAGTACTAAAGACAATTGGGCCAATTTAACTGAGATGGCCTAAAAGTCACCCCTGGTTTC
ATCTCCATTGCTAGTGTGGAAGTCACGCTTGTATTAAACATATTCACAGAGGACACTGTATTAGGGCAGAACCTAAAAAGATGAAGGAGTATTTTTTGTC
TTATTCTTAGATGTGTGGGCTCTGCCTACATCAAGGAAATTCAGAAGGATATCACACCCTGTGTGTCCTCCACAAAAGATCTTCAGACACCCACAGGCTC
ACACATGTTCTTCACTGTGTCTAGTCCTGGTCTGGACTATTGTGAGAAGACCTTGCATCGTAGGGAGCTACATGTGATGGGCCTCTCAGCATCACACATT
TTTCAACACAAAAGCCAATTAATTCACCCGCTCAAACCAAGTCTTCTAAGCACCTGCCGTGCTCCAGACCCTGTTCTGAGCACGCAGCAGTAAAAATACA
GAAATGAGCTTACATTCCAGAGGAAGAGACAGACAACAAGCCAACAGATGTAATCACTCATTAATTATTGCTACAAAACAAATTACCTCAAAATATAAAG
CAATTGTTTATTTTCAGGTCACATACCTGCTGATCAGCTGAGCTGGGCAAATTTGGCTGGGCAAGCATCTGTGGGCCCATGAGGGGCTCATATTTCCTCC
TAGGACCGGCGGGATAGCCCACAAATGCTCTTTTCAAGGCATCAGTAGGAGCTTTTGCGAGAGTAAGCTAAAACACAGAGGGTCTCTTGGGACCTGAGCT
TATAACTGGTACCCCATCCCTTCTGCTTCATTTCATTTGTCACAGAAGTTGCATGGCTAAACCCAAGGCCAAGGGGCAAAGGGCACAGATGCAGGTTGGA
GTGAAGGATTGAGATGACAACGCAAGCAACAATGCGTAGCAGAAGGTCAAGTAACATAGGGGGCCAGGAAGAAACACGAAGCAGTGTTTGTGGCTTAAGA
GTGATCAGGAATGCTACTTTTGGTCAGCATTCTGGTAGCCAGGGAGACTTGTTGTAGGACGGTGCATTGTCCTAATCTTGGGTGTTTTTAGCAGGTGTTC
CCATTGTAGGGAGTGAGACATTAGCATGAAGGTATGTTGCAGTGCTGTGTGATACAGGCTTCCCTGCATGCTGTCCAAGTGGGTCTCTGTTATCCAGGTC
CCCAGACACGCCTAATCACTGGGTTGTTGCATAAGGGCTCCTAGCTGGATTAATCCCGCTCTATACAAATGCCTCATCATAGCAGCACATTGAAAGCATA
ACAAAATTTGAATACATTATCTCTGCCGGACTATATGCCAGTCACTCCCTCCCCCCAGCACACACACACCCATGTGCTTATATGCATACACACAGGAACA
TGCACGCACTCACACAGCCACATCCACCCACTGTGGAATGCCTTCATCAACATCAGCCAAGGACAGGAAACAAACTCAACCCTTGGCACCCACAGGAGGC
AGCTACTGGCTGTTGGATTATTCCCTCCGTGCCAAAGCTAGGCTGATGCGTCTGGAAAAGGGGTGTGAACCTCGAATGTGTCTAAAGGCAGACACAGCTT
CTTGAGGAGCCCACAGATGCTACAGCAGCTGGGGCTTGGTCGGGGGATGATACGGGGTAGGCGGTGGAGTGGGGATACGTAGGGCTCAACTTTAGTATTT
ATTTGCCACATCAATCAATTAATCAGCCAAAAAACCCTTATTAGGGAACTGAATAAAAAGCAAAGCAAAACGAAGAATGGATTTCTTCTTCAGAAGCCTT
TTATCATTGGAATGAAATAATTTTTCTTCTGTCTTTGTTGGACAAAATATGATCTCTTGTTCTTTGTTGAAGTGCACGTTCTCTGAAAGTCGAGAGGAAT
AGATGATAGAGGGGAAGAGAAACATCAATATTTACAACAGTCCTGGGAGTGTTATCATGTTATCATTCGCATTTTATTGATGACATACTGAGTCTTAGGG
TACCAAACTGACTTGCCTCATATATGTGGAATCTGAAGATCTCAGTTCAGGTCTAATCTTTCTGACAAATCTTTTTCCACCTTAGTAGGCTTGGCATGTT
TTGAACCTCGTGGGATTACAGAAGTGAGCCTCAATGCCTAGGGAGACTCCAGAAGACAACTCCTCTCATTCCTTAAAAGCCAATCTGTGGGGATTGAGGT
GAGGAAGGAGTGAAGACTGGCCCTTTGGGCACACCCACCTGGAATCAGGCAAGGTTTACTGGAGCCACTCTGCCTGCCAGCAGAACAGCCCAGGAAAAAA
GCCTGGGACCTTTGCAAATGCCTGAGCAGGACTTTGCAGGGGACAGAGTCAGCAGGATTTTCACCAAACGACATCCATCTTAATTGGTAGCATCAGACTC
ATGAGGTCTTCTATGGCCTGGGCATCACAGACTCTCATTACTGGTCGTACTGCCAATGGCCTCCTTTTATATATAGTTGATGAATTTGAGGACAAACCAG
AGAATTGCCCTTGGCCAAACCAAGCTGTCTCACCCAAGATTTTTCCCCTCCTTGGGGAAATACTGGGGCAAAAAGCACGTCCAGGGAAACCAATCTGCCT
GACACTGGCAATTAAATGCTCCAGGCTTGAAGGGACATGGCACTTTTGCACATGGCTCATTGGCTAGATGTACACACACTGCCCCACCCCAGCAACAAGG
GGGCCAGTAAATGCAATCCCACCATGATCCCAAAAGGGGAAAAATTGGAAATATTTGGTCATCAGCACTAAGGACAAGGGAATGGGGAGACCACAGAAGG
CCAGCAGAACTGTAAAACTGACAGCACCGAACTGTCCTTAGAACACAGCCTTGAAAACTCCCTCTTCTGAGGGACTGCTTCCCTTAACTGAGCTGCTGCA
GATGGAAACCTAGCTAGATCCTCATCTTCTGCAGTCTAGTCCCTCACTGTGGTTTATCACCTCCCAAGCTGTCCTCTGCTCTCTTTCCCTATCTTTGTGT
TGCTAAGCCATGGACTCAGTTTAGCTGGCCCTGAATTACAAGATGGCACCTTCCCTGGAATGGAGAAAAGTCCGGATATTTCAGGATGCCTTGATTTGAA
GCCTGTTTGACTCCAAAGTTCTCTGGTTTACTCCCACCTGTGGGAAACGTGAGGCTAGATCTCCACACACATGGATTCCAAAGTGTCATGATCTGTGACG
TCATCTGTCGGACCGTATTGATCAGAGGCTCAGGGACAGATGACCCTATTTAGGCAAGGAAATGAGTGGGTGAAGCAGCAAGATTCACCTTTCCCAGTTT
CATCTGGGGGTTGTTTTGCCAACATTGCCATCTGTTGGGCCAGTGCTGGCTACAGCAGCCAAGCTTCAGACATCACTGCATCTTTATCAATGACCTTGGG
ACCACAGGAGGTGACCTTCTGACCAAACAGCAGCCAATGAAGGAATCTTAAAAGGCACATCACTTTATATTTATTCAGTGGTTATGTCATCACTTAATCC
TCACCACAACCTTGTGAGTTCAGTAGAATTTGTGTTTTCATTTTATCTGTGAACAAATGGAGGCAGAGAGTTTGAGTAATTTACAAGTAAGTGGCAGATC
CGGGGGCTGTGCCTAGACAATGTGGCTCCAGACTCCTTGCCCCTCCCTGCCTTCTGCTGCATCTTGATTGAGTCTAGCCATCTATTTCTTTAACACACAC
TAATTGCTGTCTCCATGTTCCAGGCCCTGTGCCAGATGCTAGAAATACATCCCCATCCACTGGATCTTGGCATGGTCCATTGCTCAGTGTCCTGCTATGT
TACGTGTTACATAATGCATTTATTCCGGTATTTAGCCCATGGAAAATAATGCTGAAAGACATTGTATGCATGTTTCTACAACAAAACTATGTAACTTATG
TTTCTTTTATTGCTTTGGCTATCAGGAAGCTCTTATCCAAATCAGAGCAAATACATTAGAATTTGGGCTTGTCATTTCAGTTTGCTGAACTTTTCCTTCT
GGCCCAGATTTTCTATTTTGGTTCATAAATTCTATTGCACAAATGTCCTTTATTGTAAAACACCTTAAATTCTTTCTAAGGGAAGGCTGCATGGAAATGA
TACAGTAAGGTCTTCCCTGCATTTTCTTAGATTCCTATTAGGGAAGGCAGACCTAGATGTCCCTCTTACCCTCAGTCCCAAAGCCCCCCATTTATAAAAT
CCCTTAAGCAGTGACTACTGCTGTTCTGAGTACCTGGAGGTAGTTCAGAGCTTCTGAAAGGTAACATCCATATACAAAAAGAAGTTCCTTCCGATCCAGA
TCCCAGCTTTGGTGCCAGATGCACATTTGAGGAGTAGGTGGCTAGTCAGACTCTCACCTGAGCAGTTAATAAAATCTATTGCCCCTTAATGGAATTTTTT
CTGCARGCTCGAATTGATCTGTCATCTTTGTGATTTGTGAGATGGCAGGGAAGCACCAAACACCATCATGACTTGGGCCACAGTGGGGGGAAAAAAGGAA
AAAAGAAAAAAAAAATCCACTGCCAAGCCTTGCCAGGCGTAGAAAGGGCTGGAACTGCTGGGGCCATTTTATCTGATTTATTGGAAATAGAGTGGATCTT
ATTAACATTTTAATAAAGAGAATCTTTTTGCACTAGGCTGGAAGTGGCCGCCAGTCCCCCGTGCAATTCCATTCTCTGGAAAAGTGGAATCAGCTGGCAT
TGCCCAGCGTGATTTGTGAGGCTGAGCCCCAACAGTCCAAAGAAGCAAATGGGATGCCACCTCCGCGGGGCTCGCTCCTCGCGAGGTGCTCACCCCGTAT
CTGCCATGCAAAACGAGGGAGCGTTAGGAAGGAATCCGTCTTGTAAAGCCATTGGTCCTGGTCATCAGCCTCTACCCAATGCTTTCGTGATGCTGCTGCT
GATCTATTTGGGAAGTTGGCTGGCTGGCGAGGCAGAGCCTCTCCTCAAAGCCTGGCTCCCACGGAAAATATGCTCAGTGCAGCCGCGTGCATGAATGAAA
ACGCCGCCGGGCGCTTCTAGTCGGACAAAATGCAGCCGAGAACTCCGCTCGTTCTGTGCGTTCTCCTGTCCCAGGTAGGGAAGAGGGGCTGCCGGGCGCG
CTCTGCGCCCCGTTTCTGCATTCGGATCGCCCGGCACGGGCAGGGTGAGGGGGCTTTCGGGGGGTCGGGGCCTCCGGTCGCGGCGGCGAAGACAGATCGG
GGCTCGGTAGGGAGGTCATTCCGAGCCCAGAGATCCTAGGCACCCCCCACACACAGGCTCCCACTCTGGCGTGCGTGYGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTACGTTCGTTAACGGGAGGAGGAGAGAGCTCCCAGTCCTTTTTTGCTAGCAGGGGCGACATTCTCGCCCACATCAAGTGGGGT
AACTTTGGTTCCCTCCTCCGGAGGCTCGGTGCATTGGAGAAAGACTCAGTTAGAGGCGACTCCAACGAGCCGCGGTTTTCCCCAGCCCAACGCCCAGCGG
CCGAAGCGCTGCTCGGGTCCGGATTGCGGGATGCGGGGCTGGAGAGGCCGAGCAGGCACCACCGACTTCCCAGGGCGCCCGGGCCCCCTGGTACAGCCCG
GCTGCCCGCTGGAAGGCGCCTCGGGGCAGCAGAGAGCCTCAGCCCGGCTGCTGCTGTCGCTCAAAGGCGCCGGCGCCGGCCGCACCCGCATCGGGGTCCT
TTTGCTCCCAGACCCCGGGCCCGAAAGGGCCGGAGCGTGTCCCCCGCCAGGGCGCAGGCCCCAGCCCCCCGCACCCCTATTGTCCAGCCAGCTGGAGCTC
CGGCCAGATCCCGGGCTGCCGCCTCTGCTGCCTTCCCTGAGCGGGAGCGGAGCGCAGAGAAAAGTTCAAGCCTTGCCCACCCGGGCTGCAGCTGCTTGTT
AACCCTCAGAGCGCCACGGCGCGAGGGAAGGGCACGCCAACCAGGAGAGGGGGCGAGGGAGATGCGGTCCGCCTGCAGTCACCTCTGCACCTCAGAGATT
TCGGGAAGTTTGAGTGCAGGAAAGCAGCGCTCCGAGGCCAGGCCTGGGGTGCTGGCCGCTGCGGGGGGCACGCCCWGCGCTGCTCAGGGGCCTGTGGTTT
CGGAGAGCACCCCGATCCAGTCCCCCATCGCCTCTCTGGCAGGCGTTGGGACTTGGAGTGAGCTGGCAGCCTGCAAGTGGGTGGATAAGAGCCAGGGCAG
GGCAGGGCCGGGCAGAGTAAGGAGGGAAAGAGACAGGGAGTGCCTCAGGGTGCTAGGAATGAGTGTTGAGTTCCTGGCCGGGGTAGAGGCTCAGGTGAGA
GTTTGCGGGTGAAAGGCAGGGGAAGGGAGTTGGGTTCCCAGGTAGGGACTGTCTGGGATGGGGAGACTGGTGCAGACTTCTAAGGGAGACCACTGTTAGA
GCAATGTTGGGTTTAGACTTTGGAAATGGGCTAACATCTCAGAAATGCAGTGATGGGTGATAGTACCAGGGGAGATTCAAGTGCCCGGCTGCTGAGCCCG
CTCCCAAGCTCCTGACTTCTTTCTTGGATATACAGTCCCGATTAAGGACTGCCCAGTTATAGCTCCTTTTCTACCAGGCTTTTCTGGTTGATTATCTTGK
GGTCCCTACAGCCTTGAGTCTTGCCATGGATCCCAAGCCTGGCTGTGAACCAGTTTTCCAGATGTCCTGTACCCTAGAGACCCCAAGGCTGTATGTGTGT
ACATATACCCCAATTTAGCAAGGCGGTTTGGAGCATGCCTCAGACAGAAAGGATTCAGACAGATCCTTCCTGCCATCTGCTAGTGGTACCAACCYGGGCA
AGTTGTTTAACCTCTTTGAGCTTCCAAGTTCTCCATTGTAAAATAATCTGCTGCCTTCCTAGGACTGCTGAGTGGATAGGATTGCATTCAACAGGATGTC
CTATGCAATGCATGCCAGTCTGGGAGCTGTCGGTGTCTGAGAGCACTTACCATTGCCTTGTCCAGGACTTCACAGTCCTCTTTCTTTCTTGGCAGGTTTC
AACCTCAGTTCATATTCCAGGGCTTGCCCAAAGTTATGCCTCCTTTAAAGCAAGACAGACCACGTGACAGGGCCCCAGGATCGATTTTTATGCACTAAGG
GCTCTGCGCACGGTTCTTTTTGCAAATGAACTGGTGTGTCTCCTCACCCAGGGCCAGGCTGGCACAGGTGGGTTCTGAAGGCTCACTCTATTTATTTAGA
TGAAGGAAGCAGAGATTTTGCTGTGAATTGAAATGATTGCCCTGAGAGGCTTATTTCTATTTTCAATTGTTATGCATATCAGAGCAAATGTCCACATTAG
GATAGTAATTGATATCCTGGTAGCAATAGTACCTCACAGAGAAATCATTTTGATGCAATCCAGTTAACCAGCAAGAAGTTCACGTGCAGAACTCTGTGTG
CCATAGAAAAAAGTGGGGAAAGTCTTCGAGGCCTTGAGTCGACGAGCAAAAACACAACTTTCCTGAGGCAGAGAGAAAACAGAAGGGAAAAACAATGTAA
TAAAACAAATTAGTCACTCGGCCCTGGTGGTGTTCAGGCAAGCCTGTATGTTTTTTTCCACCACAGTTGTAAAGCATCGGGTCTGGCTTTGGAAGCCATC
AATCTCTGTAAGCTTATTGGCTTGGTTGTTGTTTTAGGCATTTTGGTAGGAGGTGAGGAATTCTAAGCAACAATGACTGGAAGCTGGCACCGTTGAACAG
TCACCTCTCCTATCCCCTGGGGTGTTTTGGGAAAGTCTGTCCCAGAAGTGGCTTCTGGAATTTGCCTATGATAAGTAATGACTGTGAAACAAATCAAGAA
AGAAATGAGCAAGAAATTCCATGGTAAATGTGATTCCCCTCCCTATTTGGGTAGCACTTACAACTAACCAAAAGTTCTAACAATGAGTGAGTAATCCCCC
AAGAATTAGGAATTTAGGGAGGGGTTCAGGCTTGGAGGACAGTCGCTTGGGAGTGACTGAAAATGTTCCATGGAATTCTGAGATTTCGCTATAAAGTGGG
GAGTTCTCTCTAGGGGTCAGAGTCTTGATTTTCAGGATTTTCAATGAGAATCAGTGTCTTATAGTGCTCCTGCAAATTTGTGTGTTATGTTTTAAGAGCA
GTGTTTATTTGCAGAACTTTTTGGATGAGGAAAAGGACACAGGGTTGAAGAGGGTGCTGCCCCCTCCCCCCCTAGGGTCAATACATGACAGCCTGTAAGA
TTTCCAGAGCACTAGGGAAATGGAATATGTAGTGAAAGGAGTCAGTGATAGAGTTCACCTGTCTGAATATTTTTTTTTAGCAAGTCCCAAAACAGGTTTA
ATAAACTGCAAAGCTGAGTATGTAATCTGGAATTTGTGTAATTCCACAGTCTATACTAAAAGCCCCAACAGTCATCTTAGCTGATCGCTCCTACTCTGCC
TCCCTCCCTTCTCCCCTTTTCTATCTTTAGCCCTTGGGTTTTCCGTTAAGTAAAATCTGTTTACTTCCAGAAGTATCCTCTATGTGTTATAGTGAAATTG
CCCAACAAACCAACATACTCAATAACTGCATTATCTAAAAGCATCAGCACTTGGATGTGTAAACTGAGCCTCAATCTGAAGTTCAATGTTTAGGTTAAAG
TGTAGCTAGGTTCTTGAAAACATCCTTATTTCCTTCCAAAAATACAATTGCTTGGGGAGTCTAGTTAATTTATATTTAGTGGAATGTAGGAAAAGGACAA
ACTATGGATTTAATTTACACCTGAATGACAGTCATATCATCTACGTAGCCAACAGTGTTTCTGTGTGCGCGTCTGAGTGAGTGTGTACATCTCTGCATTT
TGATCTTGTAATACCTGTTGAAAAATTTCTCCAGAAGAGGGCTCCATCCACAGCATTACAAAATTCTGAATCTACAGCTCATTTTAAAGAACTTCAATGC
AGCAACTCCATCAAAACAAAACTATTCTCCTTATTCCACATTAATTGCCACAATCACCCCCAAATGAGAAATCCTGCCATTTTTCACTGTATTTATTTCT
GYGTCTCTCTCTTTCTTGCTTTCCTTCTTTTGCTCTCTTGCTTTCTCGCTAGCTTTCTTCTTGCTTTCTTTCTTTTCCCCTATTGTAGTTGGTTCTGTTC
TAATTCATTCTTTGACTCTGTATCCCCTCTGAGTATTGGAGCAGGGAAAATTTCAAAGATGTTTGTAGACGGTGCAATACGCAATGTGAGGAAGTTCTGA
AATTTCCTGGCATTTGACTTTGGTTGGACTTGATTTCATTCTTTAGGTAGCCAAAAGGCAGGAACAGTTCTGCCTGTGGAAGGAGATAACCTTCCCCCTT
ACATAACCACCCAGAAGGGTGACTCCTGAGCTAGGTCCACTCACTTTCCATCACTCATTGAAAAGGAGAAGGAAATATCCCCCTGTCATCCAATTACAAT
AATCAGCTGGACAGAATCAAACCAAGTGACCAGTGGTTTTGGCATTGTTTCTATTTAGCTGTCAGCCAGGTACCCATGCACCTGTGAGAATCTGACCCTC
CTGAAGGATGCTGCCAATATAATTCCCCACAGCCCGCTTCTTCTGCAGCCACCTGGGATCCCAGGCCTGGCTCCTCAGGTATGAACAGGCTGCACAGACA
ATGAATGGCTGGGCTGTAGGAKCTCTTGCTCCTGCAGTAGGCACTCAGCAGTGGCCTTATTCTAGAGTTAGGGTGGAAAGTCATCTTTCTCTGCTGAGAG
AGGCAGCTTGGGGGAAGGCAGGAGAGGAGAAGAAAGGACATTTCTAACTTGAAGTGCTGACTGAGCCAGGGTCTGTGGAGGTGAATGTGTCACCCTCTGG
CTTAGCAAGTTGAACCTCGAGACATCTGCTTGGTGGTAATGGAACTCATCTATCCCAAACCTGCAACTCTGGCTTCTGGGCAGAGGTTGCCAAGTAGCAG
CCACAGGCTAAATTTAGCCATGGATGCAGTTTGTTTGGCTCAAATGTTTTGCAAATTGTACATTAATAAAAAAGAAATCCAGGTTTCTAGCATTTCTGAA
AAAGTCAGGTCAGGCAACCCTAGATCCACACTTCAACATGGCCGTACTTGACAGGGCTGAGTCACTACTGCCCTCTTTAGGCAGGACGTGCCTCCGTAGC
TTGCCATAATCGTCACCACTCTCTACTACCCAGCCTTCTGTGCTCACTAATTTTGCCTGCTTGCCCCTAGGGCTTTTTGAGTTTGGRACCTCTGCTTTCA
CAAATGTTGAGGTTTGATCAAATTGATGCAGTTTATTTCTCAGTGATGGACTATTTGGAAAGGGAGGGACTGGCCTTTTCTCCTTCCCTGTGATTGAATT
CCATTGATGTGTGCTTTGGAACAGCATGACCAAGGGGACTGCAGCCCCTCCCTGAGCACATTACTGGCAGTACTTTTGGACAGGCACCCAGAGAGACATA
GCACCCAGATCATTGCTTCAGGTGTAAGAGTCATGCAGAGAAGTGACACGCTGCAGCTCTGAGTCAGTACRAGCCCTGGCACACCAGTGTGTTGGTACAA
AATGTCATCACGCACCAGCAGYCAAGGGACTCTGAAACCCTGGGATCATATAGAGGCCTGCATACCCTCTCTGTCAGCAGTCCTCAACCATTTTGGTACC
AGGGACCGGTTTCGTGGAAGACAATTTTTCCACGGACTAGAATTGGGGGGATGGTTTTGGGATGATTCAAGCACATTACATTTATTATGCATTTAATTTC
TGTATTGTTACATTGTAATATATAATGAAATAATTCTACAACTCACTATAATTTAGAATTACTGGGAGCCCTGAGCTTGTTTTTCTGCCACTAGATGGTC
CCATCTGGGGGTGATGGGAGACACTGACAGATCATCAGGCATTAGACTCTCATAAGGAGAAGGCGACCTAGATCCCATGCACGCACACAGTTCACACAGG
ATTCCAACTCCTATGAAAATCCAGTGCCACGGCTGATCTGACAGGAGGCAGAGCCCAGGCGGTAATGCGAGTGCTGGGGRGCCATTATAAATACAGATGA
AGCTTTTGCTTGCTCACGGGCCACTCACCTCCTGCTGTGTGGCCTGATTTCTAACAGGCCATGGACTGGTACTGGCCTGTGGCCTGGAGGTTGGGAACCC
CTGCTCTACGTAGTGTTCTACCAAGAGCATGGCTGTCCTTGGAGAACAGTGACASCTGRGCATCRTCATTCCATGAGTGTTGCTCCCTCACGGTATAGWC
ATAACCAGAACGTCACAATAACTTACTCTACTTAGACTTGCCAAGGCCTCCGGGWACACTGCTCTAATATTCAGCACCTTTGTAACTTCAGGATAAAGCT
GAATCTGCAGCTCTGTCACCTACTTTTTTTCTTTGAGACGGAGTCTTGCTTTGTCACCCAAGCCGGAGTGCGGTGGCGCGATGTCGGCTCACTGCAACCT
CCACCTCCAGGGTTTAAGCAATTCTGTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCCGCCACCAGGCCTGGCTAACTTTTTTATTTTTAGTAG
AGACGGGGTTTCACTGTCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCTGCCTCGGCCTCCCCAAGTGCTGGGATAAACAGACGTGAGC
CACTGCGCCTGGCCAAGTACCCTTATCCATAGGACACTGTCACATCCTAGCACCGTCCTGGAGCTTGTGTGAWGTTTTTATATCTGTTTTAACAGTTAAC
ACCCACGGCCGTTCTACATACAGTGTTAATGCTACAATTAATGCTCTCTGGCTCTGTAAATACTAGACTAATCTGTCTGCCTCATCCCATACCAGCAGGT
GAGCCTCAGATGATTCTTGTTTTCCATAGCTACAGACCCCAAAGATCAGAGTAAATATAACTCCATATACACATATGAAAAAAAGTGATTGTTTTTCCTC
TGCCAGTTGCCAACAGAAGTCAAATTCTAGAAAACTAACATTAACAACAGGCACGTTTTGACTTGTCATGTCTCATTTCAAAGACACCAATGAGCATCAC
CCRATCTGCTGCAGAGGCACAAAGACCCTGTGTCTCCTAGCTGAACGCAGCCCGGGCTGGGGCGGAGGGCAGCAGCTGCTCAGCCATCAACAGCCCTGCC
ACATGCCTGGGCAGGGCCCGGAAATGAGCTCAGCCTCTGGAGGAGCCTGGGGAATGGAAGGAAGGAATGTGGCAGCTTCCATCCTTGCCTTACGGGGCCT
TCAGGCCAATGTCTCTTTCCCTCAAGGTGTCAGGGAACCGCTTTCTTGTGTTGTGTGCTGCAGGAAGAAGGTGGTGGCTGCAGACACCTGAAGCTTGAGC
TTCTGTGATTGTCTCCCTGTGGACTGATTGCTGTAGGGCCTGCGGAAAGTTGCTGGACACTGCCAGCGGAACCGAGGCTGACTCAGACTGCCCGGAGTAT
CCCTCCTCAACTGCCATCAGCCGTCGGGCATCTGGGATCATCTCACTCAGGGGTTGCAAATTATGGCCCGTGAGCCAATTTCTCCCTGCAGTCTGGTTTT
ATAAATAGTTTTATTGGATTATAGCCACACCTATTCATTTATGTAATTGTTTATGGCTGCTTTTGTGCTATAACAACAGAGTTGAGACTGTCTGGCCCCT
GAAGCTGAAAGTATTTACTATTTAGTCCCTAAAAGAAAAAGTTTCCTGACTCTTTATCTAACTTAAAGTTACAGCCAAAGAGGCTTCTGGGCGTCTTCTC
AAATAAGRGGGGCCTGAGAAGTTCAGCCGTTGGGGACTTTTCCTCCTAGGCCCCAAGCACTTGAGCAACTTGACTTCAGGGAGATTCACCTGAGACCAAA
TGGTTCCAATAAATATCTATGATCTCTATGGAGGATCTACTATGTTCCAAGCACCACTTGTGTGTKCAGGATACAGTTGCTCATAAGGCAGACTGAGTCT
CTGCTCTCCTGGGGCTCACAGCTTGGCAGGAAGGATCAATAGCAATTAATGAATAATTTAAGATGGAGACAACTGTGATGAGGGAAGAAAGCCCAGCTGT
GTGAGGTCATGCCGTTCTAAATATTTTGCCTAGGTGTTCTTTGTCTTTCTCCTCCACTAGACTATAAGCTCTGTTGTGGTCCACATTGTGGCTTGATTTG
TTCATTTCTATACTCCCAGGGCTTAGAACAGYGCCTGGCACATAGTACTCAGCAAACATGAATGAACAAATGAATGAATGAATATAAGAAAGACATCAGA
GGCAGATGAAGGATCTGGGCGGCTTCCCTGACAACCTGATGCTTCAGCCCAAATCTGGAGGAGCAGTAGGGCTTACAGACAAAGACACAGTAGAGGGTGT
GGGTGGGGAAAGGCATTCCAGGAAGAAGGCACAGTCTGGGTGAAGCCTCTATTCAGGGGAAACACCACACAGCCAAGGCAGTGATGTGAAGTGTGGCTGG
GAGGTGCCAGAGCCAATGGGGCCATGTCAGCCACTGCAAGAATATTGGTGTTTTTCTCAGAGCAAGTGGCAGCCATTGAGGGTACTGAGGGAAAGGTACA
GAGTGATGTGATCAGATTTGCATTCTGGCTACAAGTAGCAAATGGGTTGGAGCTGGGTAAGAATGGAAAGGAAAGGCCAGTCTAGGGCTGAGATCATGGG
AAGCTGGATTCAGGAACGACGGTGCAGAGATGGGGCAGGTGATTGAAGTAGACTGATATGGTTTGGGTCTCTGTCCCCACCCAAATCTCATGTCATATTG
TAATCCCTAATGTTGGAGGTGAAGCCCAGTGGGAGGTGATTAGATCAGAGGGCGGATTTCTCCTTGCTTTAATCGTGATAGTGAGTTCTCACAAGACATG
GTTATGTGAAAGTGTATAGCACTTCCCCCTTTGCGCCCCCTCTCTCTCCTGCTTGCTGTGTGAAGACGTGCCTCCTTCGCCTTCCCCTTCTGCCACGATT
GTAAGTTTCCTGAGGCCTTTGCAGCCATACTTCCTCTACAGCATGCAGAAGCAAGCCAATTAGACCTCCTGTCTTTATAAATTACCCAGTCCCAGGCAGT
TCTTTATAGCAATGCAAGAATGGACTAAATCCTATTCAGATAATCCAAGAGACATTTAGGTGGATAACTTGACAGGCTTTGATGGTGGCTGGGTATGGAG
ATGGCAGGGCCAGAGAGAGGTGAAGGAGGCCTGCTTGAGTTCTGACTCTTCCAATTGGCAGGAAGAGTCAAACAAGGAGACCAGGTGTTTGACATTGTAA
ACAGGGTCGGTCTGAGGGCTTCTCTATGTGGGAGTGTAATTCAGGCTGCAGAACGTTCCTGGGAGAGGCACCTAAGGCCTGCATTACAGTATTGCCAGCA
GATCCAGTCCATGCCTGCATCTAGGATGGGCACCGTGGGGGCCTGGAAATGCCCTTGAATAAAGTGACCGACGTGCAGCCTGTACAATTAACCAATCTCT
GAGACTTTTCATGCACAAGATATTTGAGAGAAACATTGCCAAGCCCTTTAATCGTTTCTTGAACATTCAATCAGCAGCACTGGAAATATGTCTTACATGA
AGCAAATAATGATCTTCTACCCTCAGCAATCGCTTTGCCAATGCTAACAAGCCTCTGCTTCAGCATGTTGGGTGTAGCCTTGGTGACTTCTGTTTGTGGT
GTAGTAGGAGAATATTCAACTGGGTGCCAGGCAGTGGTATATTGGTAAATGTTTAACAACTGGGCCACTCTAAAGAAACACCCAAACCAGAAAGCAAAAC
CCAAACCAAGAYACAACCAAGTAATTTGTAGCTCTTGCCAATTTCTGTGATGTAAATACTCCCGTCATGGGCAATTTGAATCTRCCAACCTGAGAGTTTC
CTAAAAACTTAACAAGGGGCTCTTGCTACCTGATACTAACTGGCTCCAGCACACCATGGACCTGGATCCTRTTTCTAGCTCACCCCCTCACTCGTGGTAT
GACCTTCAGCAAGCAGCTTGAATGTTTTCATCTGTAAAATGGACCAGGTTACTTGGAGGTTCAAGTGRGTAAAAAGATGTTAGAATGCAGGGAAGTCCAA
TTTGCTGCAAAGATGCATGCAGATTATCTAAATCATTATCACTTACAAGGAAACAGGACCTTTGGCCAGGATCCTACAGCTGTCTAATTGGGCCCTGTAA
AAATACTTTGATTCAGCCACTGAATGAAGTTTGATGTGTGAGAAACAGAGGGTGTACCTCTGCTTCCTGCAGTTCTGCATGTTTTTGCAGTAAGAAAGAT
TATTGCGTTCTGTGGCAGTATTGATTCCGAACGTGTCTATCTTGTTTTTCTGCTTTCCCTTCTTTTCTTCCTTTTCTCAACAAAGATATTTAGTGAGTGC
TGTATGCCAGGCACTCACCTAGGTACTTTATCCTCAGAAGCTGAGGTCTGTACAGTTACTGTGCCTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTGGC
TCTGTCACCCAGGCTGGAGGGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGRTTCACGCCGTTCTCCTGCCTCAGCCTCCTGAGTAGCT
GGGGCTACAGGCGCCCGCCACAGCGCCCGGCTAATTTTTTTTTTTTTTGTATTTTTAGTAGAGACGGGTTTTCACCGTGTTAGCCAGGATGGTCTCGATC
TMCTGACCTCGTGATCCGCCAGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACAGCGCCCGGCCTATCGTGCCCTTTCAACAGATGAAGA
AACTGGTGAGTTTAAGGAACTGACCCAAGATCACAGAATAAYAAGTGGTGAGCTGGGATTTGCACCTGGGTCTGTGCGTGGGCGAGTCCACCTGGGGCCC
GTGTCTTCASTCAGCGAGTATTTATTGAGCATTTAGGGAATTCAGAGGTAAACGAGATGAACTGAATCCCTGTCTCATGGAGCTTACAGTTTTGTGGGAA
CAGCAGATAAAAACAAGTAAGTACTTGAAATAATTACAAATGTGGTAATTGTTACAATAGGAAGCAGTAGAGGCTGAAATCCATTGAAGGGAGAAGAGGC
TGCTGTGCCTTCCTTTGCTCCTTTGCTTCCTTTCATCTGCCTTGCCTCCCTCTTTCTGCTGTCTTTCTTTCTTTCTTCCCTTAAATGTTACCTACCAACT
ATGAAGAACGCTGCAAACCTGGGAACCCAGAGGTGAACACGACAGTCCAGGCCTTCACTAGGAAATGTGCTGGAGCAGAATTAGAGCCTGGGGCTGGCCT
GGACCCAGAGCTGCTGGTGCCTTGGACTGCTTAGGGACTGCTGAGCAGACCTCCTAGCCCTTTAGAAGTGAGCTTGAATCCCTGCCCAGCCATTTACACA
CTGTGTTGCCTCAGATAATTGACTTCATTTCCCTCCTTTTCTGTTTTCCCCTGTATTAAAACAACTGAAAAGGAATATCTATGCTTGCCCTGCAGGATTT
TTGTGAGAATTAAATAAGTGTATGTTAATGATGTCATCCTATGCTTAAGAAATGTTGGTTGTATTACTTTTCACCCTATGCTCCAAGGAATTTTATGKTC
TGAAGGTGTCATGGGGTCTTGGCTTTCAGGATGTGACTCACTTAAGGGGGGAAATGACTGTGCATGTCATAATGCGTGGACATTAAAAAAAATAAAGTTT
GCTCCCCAGGGAGGATTTGCCAATTCCCATATTAGTAGGTCCCCCAAGATTGTTCCCCTYGGGATTCATGCCTCATAAAATCATTTGATCTGGTGGGATC
TCATCTTCTTAATGTGTCTGCCCATCATCTGTTCCTGGGAGGCTTTATTAGGGCAGTGTGTGCGTGTGTGCGTKTGTGTGCATGCACGCACCAGTGCCAT
GAGTACTTGTTTAAAGTACCTCCATGTAACCACAATTCACTGTAGTTGCTATGCACTAGTTACCCATGTTATCTGGAATCCTTCCTGCAACCCTTAGAGG
CGACTCTTATTCCCAATTTTATATACGATGAGAAGAAGTTTTGAGTGGTGGAGTCATTTGCTCAAGGCCACACAGTCACTGAGAACTGGGACCAGGGTTT
GGACCCATGCGTCTTTATTCCTGTGCATATTTATTTTCCTCTATGTTGCACTAGTATATAAAAGTTGCCTTTCCCACTCCCCTCATTATATAAAAATTCT
TTCCTTTGTCTATTTTGTTCTCTACCTCCCTTAAAGTCAAGATAGCTGCCTGGGATGACTACTTTTTTGAGTTCCTAGTCTCTCAAAGTGGGTCTGGGCC
CTGGACTTCCTGTCTGGGCTACTGATTGCAACCTTCAGAACAGGGTCAGCCCRGGGTCATTTGTGTTCTTTGTCTCCATGTCCTTGCTTTTGACCAGGGC
CAAACAACCCACCTGCACTGCATGGTTCCCCCAGCAAGAACATCCCAGTGAGAATGGCCCACAGATGCCTGGGCGTGACYCACCTGCAGCTTCAACCATG
CAGGTAAATTTGCCTGCTGCTGKGTCGTGTGGCTGGATGGAATTCTTCCCTAGGGATGCTAAGAAACCCTGTTGCCTAAGTCAGTGCTTCCTGCAAGCTA
CTCTTTGTAATTCTTTCCCCAAACAAAAAGAAAACAAGAAATATACAGTCTGTAGCTATATAGAGACACCTGGATCTATATTGTGTGGCAATTGGATTGA
ATGTAACTTGAAGTTTATTTTTGTCTTACCAGACTAGTGTTTTTTCCTGTTAATTTAAGTGCTTTAGTGAGGGTTGCCATTGATTGAGCAAACATGTGTT
GAGTGCTTATTATGTACCCAGCTCCATTTTCCGTACTAGCCANAGAGCAGCGAGAGCATGGCCTTTGCCCTCCAATCCTGTTCTGGTGGACAGACACTCT
CTCCCTTGACAGGGTCCTCACCACTGTGTGCACCGTCCCGCCACCTGGTGGCCGTGCCTATCTGTGCATTCCCTATTTGGTTAACTCATTCACTTAACAA
ATATTTACTGGGGGAAGACAATATCTCAAGCACAATTCTCAGCATTGAGGGAGGCAGCAGTGATTAAGAAAGACAAGATTGCCTGCCCCCGTGGAGTTTG
TGTTCTSATAGCAGAGAAAGACAGGAAACAAGAAAAATAAATAAATATGGTAGTTTTGCGTAGTGATAGTGCTATAGAAAAACGTTCAAATGGGGTAGAG
TGATAGACAGTGTTGTTCTGAGCTTGTCCACCACNCCCTCTTGGGACAGAGGATTCTTTGTTCTGATGGAATGGCCTTTCTATAGCATAGAGATGAAATG
TGCTACCGTTTGTGAAAGGAAGTTAGTAATACATACATGGCATTTTTGTCTTCACTGATAAAGTGTTGTTGGTCAACTTTTGTCAACTCTCTACTTTTTG
TTTGTGTTGAAATTTTACTGTTGGGAATTTACGAATATGGCAACTAATGATTTAAACCAGGGGTAGGTATCCTTTTTCTGTAATGAGSCATCTAGTAAAT
AGCTGGTTTCTCTTGAAACTGTTCAATTCTATCCGTGTAGCATTAAAGCAGCCACAGCCGATATGTAAATGAATGGGCAGGGTAATAAAATGTTATTTAC
AAACACAAGCAGAGCTAGATTGGTCCTTCAGGCTGCCATTTGCCAACCACTAATCTAAACCAGTAGCTGCCTTACCAGTTGGTCAAACTTGTTTAAGACA
GGGATAGGGCAGAGGCCAGCGAGGGGAACCAGGCATTCTCTTTGGCCTCAGTTGCCATGAAAATCATGGTACTTCTTTAGGGTCACATATCACTAGATTA
TTTGCATTAACTTTTATCAAGGTAAAGATGCTAATAGTCAACTATGGAACATAATTCTCAGASTAGATCTAACATAGGAATAATTTAGCTTTGTAATATT
TATCTGGACTACAATTTTTAAGGCACTTTTGCTACCCAAAAGTATCTTGGGGTTAAACACGCTCTTGGATTGAATTCCTCTAAATAAATAGAGACACAGA
ATTGGGTTCAGGGGGTTAAGTTGGTAAATGATCTCAAGGTCCATAAGTGAGCGAGTGGGGAGAGTGAGACCAAGAAGAAGGAAAGCCAGCAAGCCAACAG
TGAATGTGTCATTGAGGTGGTCACAGTCATGGGAAACTGGCTTCTTGCTGCTGGGTCTCTACAAAAGCACTGTGTAAAGCTCATTTCCGAATGGTCCCTC
CACAGAATAGGTGGCTGAGGGTGTATTCACTCGCCCTTATCTTCTGCTGGTCAGGGGTGACCCCTGCCGTCATTAACTTCTCTGTGCTTCCCTGCTGAGC
CTTTGCTGTCATGGGGAGCAGTCATGACTTTGGAAGCATCATAGCAGAAAAAATGGAAAGGTATGGCAAGTTGTTGGACTGTCAGGATATGCCCTGGGTA
GGGTATGAATATATGTGATTTCTCTTGCCACCATTACATGTTACTGGAAACTTCCTCAGTAGAGCTAATGGTAACAGAAAGAATTATGGTAGTGGTAATT
TTTAAAACCTTCTGAATTTGGTTAAGCACCCTCCTGCAGATATTCTCTTTCCCACTAGATGGTACCAGTRTGCCAAAGCCCTAGAATGCTACCTTAGGGC
CTCGTCTTTGACATGTGATATATTCTCATTACTTTTCAACAATGAATGAATAAGCCAGTTGAGGTCAAAGGAATCAACTATGGATGTTTTAGGGACAGGA
GATGGGAGAAAAGTGGAGGCTGTCTAAACAGTTACCCTCATTCACGCATTCAGTCATTTATCAACAAATATTATTCAGCACTGACTGAGTGCTCAACACT
TTTCTAGGCACTGGGAATACAGAAATGAGTAAGACAGGCCAAGTCCCTGCTCTGGTGAGCTTATGTACTGGCTGGGAGAGAGMCAATAAAAAAATGAACA
GGTAGGTATGTGATGTCTGCAGGAGGGTGATGAGTGCCATGAAGAATGAGAAAGCAGGCGAGGGGGTAGATAGCGACAGGCAGAGGTCATGGCGCTTGCC
TTCGCTGTTGGCTGTAGGGTGAGAGATTATTTTCATCTGCTTCCCAAACCCAGTTCTTCCATTCACCAACTCCTTATGACACCCCTATGCGGTTTATTTT
TGAAATGAAACTAACAGCTCATGGAGGGCAAAAAAAAAAAAAAAAAAAAAGTGGTGCTTGGCAAATGTGTGTTCACTAGTCGGGGCCCACTGCAGCCTAA
CACCTAACTCATTGGACTGCTTGTTGGCTGATTTAATTTGTCTGGAATATTTCTGAATTACTATTGTTGTTGACACACAATAGAGTTGCATTTAACTCAG
AGGTTAGACTATAAGGTCAGGGTTTTAGGCAAACACAGTTGTCATTAGCCTTGAACTCTTTTAAGTTGCCCATTAAAGTACAGTAGGCGTGGTTTAGTCT
ATGCATCCCCGTATTGTAATCAATAGGGAACAATGTATAATGCACGCAGTAATGTACAGGGCATAATAAAGAATATATGCAAGATATAATTTTATAGCAT
TTAATTGCAGTATTTACATTGKTCTTTTTCTCTCTCTCTTTGGTGGGAGAGCTGGCTTTCCATTAGTTAAATGTRCATATGATGAGACTTGACTATATTC
ATTTAAGCCACATTCCTAATCATACAATCTCCACCAGACTGTGCATTACGTAAGGCAAGACCTGTTTTCTCTGTTGTGTTCTGTTTATCTTTGGATTCCC
ACTACCAGTCAGATGCTTTGGGGTGGGGGAATTGAGGAATAATAATAGTAGAAGTGGCAGTAATAGTAGCTGATATCAGTGTGGTGCTGATTTTGAACCA
GGCCTGGTGTGAGTGCTTCAGATGCATTAATCAGCACATGTAATCCTCATAGTGACTCTATAAAATATCTTCTATGGTTTTAATCCCATTTCATAGGTGG
GGAAACTTCAGGAGAACTTAGTAAAAGAACCTAATAAAGCTTTAGGACTCTAGGGCTGAGATTCAAACTCAAGACAATTCCAGACACACAAGACCACATG
TTGTATGATTCTATGAAATGGAACAAACTGTCCAGAAAAGTCAAATCCAGAGACAGAAAGCAGATTAGAAGATGTCTAGGGCTGGGGGCAGGAGGAAATG
GGGAGTTACTGCTAATGGGTATAGAATTGCTTTGGGGAAGATGTAAATGCTCTGGAGCTAGATAGTGGTGGTGATTACGTTAGCTCTCTGTAAATAAACC
CCAAACCTGGGAATCATATATCTTAACCGGCTAAGCTTYATAGTATGTTACACATGTCTAAATAAAACTGGTATTGAATAGGAAAACAAGCAAACCTTGG
GCAGGTCAGCCTCAGGGCTCCTGTTTGTTCATGAGCACACACCACCTGTCTTACAGTTGTTCACCACCTGCTGGTGATACTCTACTTGCTTTACTTATAT
TAACACTGCGACTCCTCAAAAGATCCCCATTGTCCACCCTACTGAGATCAGAAAGCGGAAGCAGAACGATGTTGAGAAACTTGGGGCTGGCAAGTGGTAG
TTTCAGGATTAAGACCCAGGCTGTTTGGGTCTAATTCCTTCTGGCTACACTGGTTCTTACATGTGTTTCATTCATTAAAAGCAACCTGTGTTATTTGGAA
CTGCAGGTCACCTTGGCCTATTGGAAATAAAGCAAGGGTTCTTCACGTTTGTTTTGCTGATTTGTAAAGTGAATTAAGAACCATCTTTTGCCTCACTGGT
TATTATTCTCATAGTASCCTACCCTGGTGTAGAGTTCTGGCTGCAAAGCTCTCAGAGACTGAAGAAAAGGAGATGGTTTAGTGTTACTGACTTTTTTTAA
GACAGGGTCTTTCTCTGTTGCCCAGGCTGGATTGCAGTGGTGCAATCATAGCTAACTGCAGCCTTGACCACCTGAGCTCAAGCAACCCTCTTGCCTCAGT
TCTGGAAATAGCTAAGTGGGACTACAGGTGTGGACCACCAGGCCCAGTTAATTAAAAAAAAAAAAAAMYTTTAAGACAAGGTCTTGTTATGTTGCCCATG
CTGGTCTCGAACTCCTGGCTTCAAGTGATCCTCCAGGAGTAGCTGGCATTACAGGCTTGGCTGACTTTTAAAAGTAGTAAGTGGTTTAGGATGGGGGGTG
GTATGGAGGTCGGGTGGGGAGAAAGAGGAGAGAAATCTAATTGATATGCTAATTGTCATTGTACTCAAGTTGATAGCAGATTGCTGAAGGATTTAGGATT
TACCCAAATTAACATGAATGTTTGGCACCCTTTGGCTGGTGCGGCTGAAGAATTCAATAGCCTAGTAATGAGAAGTCAATCTAAGGTCTAAGGCTGGGAA
AGGAGCTCCCACTTCTTACATTSAGTGCTCATCACTCTGCAAATCAAGGCCCCCCGAACTCCTCCCACCCCTGCCTTCTGCRTCTCCCTCTGTGCYCTCC
ATCACCCCCCTACGGAGTTCCTTTGATTCTCAGGTCCCTTAACCATGGAACGTACTCCTGTCTGCCCTCACTCGTGGGTTGATGATTTCTATCCTTTGTC
ATGTTGAAAATGCTGAGTGACAAAGCCATTAGCCATGCACAGTGAAACAAGGAAAGCAGCCTAGAGCTGGTCCCCAGACCAGGCCCAGTGCACGAGTTTG
GGTGCTGGAAGGGGAGSCTTTATGGAGGCAAAGCTGAGGGGCTGTACGTGTCTTCAYAGGTCTCCAGTCTGTAAAAGCAACCACGCTTTGGGCTGGGGCA
GAAGTCAGGACTTGAACTGGCTCTGGCTGGGACCCAGGCTCCCAGGTAGCCAGCTCCCAGGTGACAGGAGTCCGCTGGGCTCCCTCTGATTCTTAAAGCC
TTYCCAGGTAGCAACAGGAGATCACGCAAAGCCACGTAAGTGTCTGATTCAGTCCTCCCTGGTCAGTTTTCCAGCAWAGCGTTTTGCAAAATGTGTTCTG
AAGAGATACTGGTTCCATGGGAGGTTAATATGGGTTCTGGGGAAAAAAAATTAGGGGAATCAAAAAATTACTTGTATAAACTAATATTTTGGAAAACTCT
GGAGTTAGAGAAGTGGACCAGATTGGGTTTTGTTTTTTCACAAATGAAAGTCTCTGAGATTGTAGTGTGTTTCAGTTTCAGAGGGCTCTTCCCAAACCCC
TGAGGTTAAGGAAACTCTTGTACACAGTGGGTCTCGGGCACTAACTCACAGATCACACTTCTGAAAACAAGCTSCTAGGATGCCATATCTCAGAGTACGG
GCTTCGACGGGGCCCTTCACMCAGCTCCAGGACCAACTGGGAGCCTGTTAGGACTGCAAATCCTGTCCTCTGGACCTAGAGAATGAAAGCCTCTGGGGGC
AGGCTCAGAAATCTGTGTTTCCAGATTCCAYTGGGTTTTCAACTCCATCCAGAATAATTCTTCTGGTGTCACTGTGAATATTTGCTGATCCTTCTGACGT
CTATCCGTGGTGCTTGTTTCTGAAGTGTAGTCTAAACCGTTGGCTCTCAACTGTTGGGGTGAGGGGGGTTGTGACCCTCGGGACAGTTTGCAATATCTAC
AGACATGCTTGTTTTTCACAACCTGGGGAGGGGAGTGGGCATCTAGTGGGCAGAGCTCAGGGATGCTGTTCAACATCCTACAATGAACAGCACAGCTCCC
ACCACAAAAGGTTATCCTGACCCAAATACAGTAGTGCTGAGGTGGAAAACTCTGATCCAAATGCATAGCTTCATACTCACCCAGCACACACAGGGATTTT
TATCCTTATCTTATCCTGTTATTACTAGGAGGCTGGAATCTGAAGCTGGGGCTGTGAAAAGATACCTCACAGCAAGCCGCTATTCATGTATAATTTTTCA
AAAGGTAAAACCAAGACTCTTGGGTAAATACGCACTTCAACTCATTAATTTATGAAGAAACCAGTAAGATGCCATGGTTATTCCAAAGGGCATTTAAGAA
GCTAAGGTATTYGTAAGGAATTTAGCAAAGAAATGTGAAGACGAGATTGCTGAGTTAGATAAAAAGTGGTTAATGTTCATCATGCCTAAACTTTTGGGGS
TTATCTGTTCTATTAGATAAAAAGTATTTGCATCTCTACTGGACAAAAGTTGACCACTTAAGTGGTGACTTCACAAAGTCTGGGATCTTCAAGAGYAAAC
AATGAGATGAACTAAGAGCATGCTCCTAAACAACTTCAGGTTGTCCCTGACTGATAACCAAAGGAYGTGCCATCAACCATTTGGGCCTTGTTTGCAAGCT
TTGAATAATTTTTCTGGTGCTTTAAACACATTATTGTTAGTATTTTGAGAYGGAGTCTCGCTCTTTCACCCAGGCTGAAGTGCAGTGGCGTGATCTCGGC
TCACTGCAACCTCCATCTCCAGAGTTCAAGCRATTCTCGTGCCTCAGYCTCCCAAGTAGCCAGGATTGCAGGTRCCTGCCATCAGGCCCAGCTAATTTTT
TTTTGTATTTTTCATTGAGATGGGGTTTGACCATGTTGGCCAGGCTGATTTCAAACTCCTGACCTCAAGTGATCTGCTCGCCTCGACCTCCCAAAGTGCT
AGGATTACAGACATGAGTCACCGCGCCYGGCCTAAGCACATGACTTTTAATTTACTGGTGCTGCATGGTCTGTGAAAAGTGGGTCAAAGAAATGGGAAGT
GATGGGAGGAGAGGTCACAGGAGGCCAAGGTTGTAATATGGTTAGAAGCCATTTCTTACCTGTCTTCTATGAAGTGTGGGTTGTGAGCGATGCTTTCATT
CAAMCCTATGAGGTGCATCTTGTCATCATCCCCATCTACARATGAGAAAACTGAGTCAGAGGAAGAGTTAGGTATGTCAGTAGCAGGCATGGGCAAAGGA
AGGAGAAAGYAATGATCAAGATGAYAGAGGGAGAATTGCAATTAAGCCAGAGAGAGGAAGGATGATGTTATAAGCTCGAGGGAAGCCTGAGTCCAGATCT
GAAGCAGATATACTCACAGCACGTTCAGGGGGTAATGAAGAGGCTGTTATGGGTGACTATGAATGTGAAGGCAACGTGAGATTGGATCAGAGTTAGAAAG
ATGACAGTTGTTAATAGCATCAGTGTTATTTTAGCCAAAGGACTTTACTATTGCTGTAGTGCAGTGCCTCGCAGTACACCATGACAGTTAAGAGCCCAGG
CCTCGAGGGAAGGTTACAGTTTGAAGCCCAGCTCTGCCACTGTAGGGCTGTGTGACCATGGGCAAGTTGCTTAACCTCTGTGCCTCAGTTACCAGATCTA
TGAAATGTCGGCAGTGAAACCTAGCTGATATGACTGGGATGGGGATTCCAGAGAACCTTGTAAACACTTGGTCCAGCAAATAATATGGCCTCAGAAAATA
GAAGCTGGATGTGTTTAYGTACATGAGGAAATGGACAGATAGGACTTAACAGACCATGGTTGTGAGTGACTTGGCTGTAAGTGTCACAGTCTCAGTTTGA
GTTTCCTCAAAAGCGGATGCTGTGAGGAGGATTTGAGTGCAATAAATTCTCTTGGGAGGTGGTCCAAGGGGAAGTGTAGAGGAGTGGGAAAGTGAGGCAA
GGAAGGAAAAGGAAACAGACGAGGGGTCTGTTACTCAGGCAGGTACTGCTYTGGGTGTCTGGAGCTTAACTCCCCTGGGAACCTTTGAGARTCAGTGTGG
AATACCTGCTTCCAAGCCATCCCACCTGAGGGGCATGGGAGCTCCAGATTTTATGCCACAAATCTGGTTGGCATTGATTCAAAGCTGCCCCAGGGGGCAC
TGATTTTGAGACTACTGGACTACTCCAGCCTCAGAGAAAGCAGTCAGTGAAGAGGTGTAGATATTTGCAGTTGGAAGTTGAGCCAGCCCTGTAATGGAAA
AGCCAGAAGAGACAGGAGCTTGGGGTTGGGTGGTGAGCTGTCTGTCAGTGTCTAATGTGGTAAGTATCTGATATGGTTTGGCTGTGTCCCTGCCCAAATC
TCATCTTGAATTATAGCTCCCATAGTCCCCATGTGTCATGGGAGGGACCCTGTCGGGGGTAACTGAAGCTTAGGGGCAGGTTTTCCCTGTGCCGTTTTCA
TGGTAGTGAATAAGTCTCACGAGATCTGAGGGTTTCATAAGGGGCAGTTCCCCTGCACAYGCTCTCTTGCCTGCTGCCATGTGAGACATGCCTTTACTCC
TCCTTCGTCTTCCACTGTGATTGTGAGGCCTCCTCAGCCATGTGGAACTGTGTGTCCATTAAAACTCTTTTTCTTTATAAATTACCCAGTCTTGGGTATT
TCATCATAGCAGTTTGAAAATGGACTAATACAGTATCCAAAGGCATAAAAATAGTCATGCACTTTGGGGAAGTAATAYACATCTGAGAAGTTAAACAGAG
GTAAATACAGGAAAATAYGTACAAAATACATTATATTAAATGATATATGAATATTGTATATGTTTTATGCATTGTATGTGAAATAGTAATAATAGCCAAC
GCTTAGGAAGTAGTTGCCACAYGCCTGACTCTCCTAAATGCTCTGCAAATAGGYTAGATTTCCAGMAAATGAAAACAGGTTAGGCAGCTCAATAGAATAT
TACATAAYCATTAAAGAGGATGGTTATAAAGATGATGATAATGGCATGGAAAAATCATATGAATGAGAATTGAATACTAAACAGGAGATTGTGTGTGCAG
TAGGATTCCTACAAAGCAAAACAAGCCTCTAAATAAAGAAAAAGAAGGGTGGAATCTGAAAGGAATTTATCAAAATCCTAACTGCAATTTTGTTCATGCR
TTGGGATTCAGAGTTGTTTTTTCCCCTCTGGTTTACAAGTCTCCATTGATACACTTGCGTTACATCTATAATGAAAAATACAAGAAACTTGAAAAAGTAC
AAGAAGAAAAAACCTTCTAAAAAATAGGTGGTAAGACCCAGTGAAAGTTTTAAAGAAGGGAATAACATAATGGAAAATRTATTTCAGAAAAATTAATCTG
GGGGCAGTGTGGAAGATGGAYTGAATCAGGAAACACCCAAGGTGAGAAGTCCAGCTTGAAAGCTTGTATGAGTTACTGGGAGTATGGAAAAGAAAGAGCC
AATTTTAGATGSTTGATCATGAATGAGATGATGGRGAAGAAAGAGAAAAGTGCCAGAAATGATTCCAACATTTTAAASCATTTTGAATGGAAGAAAATAA
GCAATGGAACTAATATAAATATAGTTAGAGAGTGAGCGCGCACCGGCTTTCTTTACATTTGTTGCTTGTTTAAACCTAACAGCAATCCTATATGCTATGC
TTTTAATATTCCTATTTTACAAATGACATAATAGAAGATTAGAGAAATAAAGCCACTTATCCAAGGTCACACAGGGTCCAAACTCAGATTATTGTGAAAT
GAACTGGCTAGATAGAAGGATRGATGATGGATGGAAGGATGAATGCATAGATGGAGGATGGATGGATGGATGATGGATGGATACATTGATAACTATATGA
AGGGGAAGGAATCTGGTGAATTGTAATGTTATAGTGGAAAATAGGGCATTTCAAGAAGGAAGTGGCAGATAGTCTTAGGCAGTGAAGAAGGAAGGGAACA
GAGAAAGCACTAGATTCAACAAAAAGAACCAGTCACTGGTCCTCTTTGAGAAGGTCCTTCCAGTTAAATAATGGAAAGTGGGCTTAAGCAGCATGGGGGA
CTGAAGGGCCAGGACATGTTGGGGAACCTGTGAAATGGCTAGTCAGAGCATGGCATGTATGAGCTTAAAACCAGATCTGAACCTAAGGAAGAGATCCAAC
AATAGGAAGGAGAGGGGATGTAAGAGAGAAAAATGATGGGGAAGGGAGAGGAGGGTAAGAAGACATGGAAAAATGGAAAGGAAAGAAATTACTGGTTAAG
AACAAGGACACCAGACTGCCTGGGTTTGAGTCTCAACTCCGCTGCCCTGTAACCTTGAGCAAACCCCATAACTGTCTCTGCTTCCGACCCCTCATCTGTT
GAATGGGAAAAGAGTAATAAGCYCTATATCCTGGGGTTCYTGAGAGGAGGAATTGAAGCATGTAACATGCTTAAGACAGTGCCCGGTGTGCTGTAAGTTG
AAACTGTGTAGGGATCCTGTTGCCTTAGTCATCACAACAAGGACCATTTCCTGGGCAACAACCCAAAGCTATAGATTAAGAAACTGAGGCTCAGTCACTT
AAAGAATGTTCTCTGAGAAAGTACACTTGGAGCCTCAACATTGCTCTACCTGCAAGTAGTTACCTCTCCTGTCTTCCAGGGAGAAATAGATTTTGTGTAA
AATAGGATGCATGGCTTTGTTAGTGGAAACTAACCTTCAGCAATTGTAATAAATGAGGTACGTGAGGTTGCATTTTTTTCTCCTTTTTGAAAAAAGAGTT
AATAAACAGAGGCTGTTCAATAAAGCAGAGTTAGAAGGAGTTTAGGAAGCACTGGAGAGTGGCTGAGGAGCAAGGTAGTGAGGACTTGGAGGACCTGGAG
AAGGCAGATGAGATCCATCAGATCCCAGAAAGCTCCATCAACTCAGTGCCCTTTCTCTATTCCAGAAAGTCTTATGCTCATATCATTGATGCTTGGAGAA
GCCTGCACACCACAGACTTGGCATGAGAAGTCCTAAAAGCCTCATTAACCCAACCACTTAGGCTTTCTGAGTGCAACCCCTACCCTATTCTATTTGGGCT
CAGGGTTTGCTGGGCCCCAAAATGTCCCGCTGTTGGGATGAGGAGATTCAGTTAATACCTTTCTTTGGTTGGCTCTCCTCCCACATCCCCCTACCTCTCT
AGCCTTGGTTTCCAGAAAACTGTATCTGTGCTCAGCCTGCTCCCTCCTGCCCTTGGTGATCATGAAACCTGCCAAAGAAGCATTCTCTCTGAGGCTGAGC
CACTGGAGAAGTTGCACATCCAGGATTGATTTTGCATAGTGTAGAAATCAATCYGGTGAACCTGGCAGCATAGGTATCCTCTAAGTTTGGTTGTMAGCCC
AGTGGGGCAGGGCAGTAAAYAGTTTAAATTGGAAAGTTAAAACAATAAACAGGAGAGACAGGTGAAGTTGGGGTTTGAAATTTGCTGGGCTAGAATGGGT
TTTCTCTTTCTGTGTTAATCTTATCTGGCAGCTAATCTTTACCTGTCATGTGGTTTTTGGGGGAGAAAACGGTACCCTCTTTAGACTGCTTCYTTTTCTG
GGAGGAGAACCCTGAGAAAGACTATCAGTTTGAAGTTGTCCCTCCTGGGATAGAAATTTATCTAATTTTAGTGGGTGGCAAGACTATGAACAACCATCAT
TATCTGTGCTCCAATAATTATTAATTTAATGACATTTTAACAAATAAGAAATAACTTTTATTGAGCACTGTCTACATATCAGGCACCCAGCTAAGTRCTT
TCACATGTGATGTCTAATTAAAGCTTCTGAATATGATTAACTTCATTTTATAGCTGAGGAGTCTACAGCCTATAGGGCACACACACATATACCATCTTCA
TTGATCTTCACCCAACCATCAGAAGCCTGGGAAAGACATTTTGCAGTTAAGAAAAGTGAATCTCAGGGACTTGTCTTCTTCAGCAAACAATTGGCAGAAC
CACGGTTTGAATCCAGGTCTTCTGACTCCATATTACTTTGATTTTATTGGGAGAGTATATGGGTGGCGTATCTTCTTAAATTCCTCTGGCCAGGTCCTGA
GAAAAGCATTTACTGTGCATTGTCTCAACACTTGTAATAACCCTATTAGGGAGGTGGTGTTTTTCCACTTTACAGTGAGGAGACTGAGGCTTAGAGAGGG
TAGGTACGCCATTGGAACAAAGCCACTCAGGCAGTTGTAGGAAGTACAGCTGGGGCTTATACCTTCCCATTCTACCCTCCAGGTTTTCCCTGCTATAAGC
ATTTCTTACAGCAGTGCCTTCAATAGGAGAAACAATGACAAGTGATTTTTCCAGTGGGACAGCAAGAAGGTGATTGTGGTCTTGGACCTTGGGATTTAGG
ACGGGCTATTGACATTAACAGTTGGATAGGCTGCTAGGTCAGTCCAGGGAAAAGCAGGAGGGAAGATAAGACATGACTGAGAATTCAGGAAGGGCCAGCR
CCATCCAATCAGAACAAGTTGGAGCTTTTCGTCTTCTTTAAGCCTACTAGTTTCACTTCTCATTTTGAAAGAAACAACTTGCTCGGCCAACCTATTGTTG
CTGCCTTTCTCTGCCTACCACAGCTATGAAAGCAAAGTTATTGGAACATGTGAACGTCACTAGCATCCGAGGCAAGATTTAGGTTCTGAAAAGAGGTCAT
CAGATTGTAGAGTTGGATCTCCATTTCCCTGGAGAGTCTTGTGCTTCAGAAAATCATTATTGGTTTGTCATCCTAGCCTGTCATGGTGGAACCCCTGGGC
TCTGAAAGATTACAGGAAAATAGCTGGTCCTTGGCAGTTCTCAGAAGGTTCTGTTTCTCACCTGGGCCAGGATTGTGCCTGTGGTTTTTGTTCATGACAA
GATGAGAAGAGCTTGGTTAAATAAGGAACGACCTCTCGTTATATATCTTCTATCCTGATTGATTGCATCAGAAAAGCCATTCATCTGGTTTGAAGATAGA
CAGGTGGTTGCTGTCACTGCACCAGCAGCTTTTGAAGTTTGCTCRGTGATATGATTACAGCCCATACTTAAGCTTCTGCTCCAGGAAGTGAGATTGACCT
TTGATCCTACTCCTCATTTAAAAATTACAGATCTTGGAAAATGAACCAATCTAGAAAGATATTGGAAGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGAG
GTTGGCTGTCAAACCAACTTAACTGGCCTGCATTACCTAGAATTGTTTTTTTTTTTTTTTTTCTGGTTAAAACCAATGACCTTTAAAGCCTTTTTATTTT
TCCTCTGACAATCTCTAGTGGACCTMTGGTCTTTTGTGAGTTCTGATGGGAATCCCAGAATCTTTCTGTAACTGTGGGTTCCAATGAGAGAGGCACATTT
AACAAAGACCAGAAGAAAATCAAAACTGTTGCTCAAACTGACAGTGTATGTTCTTCATCCCACTCCTTCATTAGCTCATTCATTCATTGATTCRTTCATT
CATGTGCTGGCTCTTTGTAGAAGTTGGGGGTAAACAGGCGACCAAAAGGTAGTCCGTGACCCCAGGATGTTGTAATTCAGAAGGGTAAACAGACAAGGCA
GTCAACATTGTCCATTCAGTGTGAATGAGCTTGGGAGTACAACCACTTTGGAAACCCATTTTGTTAATTTACCTTTGATAGATACTTATTGAACGGTTTT
TCCAAGYGTCTGTGAAGAAGACATGGTGGTGGTAGGGGGTGGGTGGATGGTTTCTGAGGACCTGATAATGTTTCTCCTTGATTTTAGTGCCAGTTACGTG
GCAACTCATGGAAAACATTGAGCTGAATACTTGGGCTTTTGCACCTTTTTGTAGTGCCTTAGTGTATTTTACACAAAAAAATAAATAAAAGTATGCTCAG
CCTCAGGTGYGTTGGAAATACAGAGGAGAGACCAGCCCAACTTTGGAGGAGAACAGAGAGAGGGACCCAGGAAGGCCTTCTGGGGAATATATTTGACTTG
GGCCCTGAAGGAGCAACAGAAATTAGGCACTGAGTAAAATGGGACTGGATGTACCTGCACAAAGCCAGCAGCAGAAGAAAAGACATGGAGTGGAGGGAGC
TGGCAGTTCATGCTTGGGGGAAGCTGAGAGTTGCTTGTGGGGCTGGAGGCCAAGGTGCAGGGCTGCAGGGGTAGGAGGGAGCAGCCAGGGAGGGGGTGGA
TTGGTTAAGAAACACGATGTGCATGTCATGTTGAGAAACTTGGATTTCACCCTGGAGGCGCAGGAACTAGGGGGGATTTTTCAGCAGCAGTGACAGACGC
TCTYAAATCTGGGTTTTCCWATGATCAGCATGCTTGTGCCTGCACCGGGGCGCAGGATGGGAGACAGATGCCTTTTGCAGTAGTTCCGGAGAAGAAGACT
GAAGACCACATTCAAGGCCCTGAGAGAGAAGAGAAGGGGACAGATACCACAGAGATCATGAGATATAGCACAACAGATAAGACTTGCTAATTAACTGTAC
GGGGTTRCRGGGAGGGACAGGGAGAAATCAGGTTTCTTCCAGCCCAGCTTCTGGTTGGAATCACTCAGGCAGAGACACATGGGCCTGAGAGAGGATTCCC
CTTATGACATAAAGCCKCAAAAATTCTCATTAGTCATTGCAAAAACATCTATTTCCGGCCTACACTGCACCAGCCAGTGGGGGAGGTCCTGAGAGATAGA
GAAAGGATGAATTCTTGCCCTTAGAGAGTCRCCTAGAGATTCTGGGGAGACAGCAGGTCCGAGTCTCTCTGCCTGAAACCTCTGGACAGTGTCTTTGGCT
GACACTTACATGGTGGTCTTGGTTTCTTATTCAAGGTCGGTTTCCCAACTCTCATAGCATCAGCTTTAGGGCATCCCCAAATCTCTTGCAGAAGAGATGG
TTCTTTCCCCTTGAGTTGTTTTGAGCCAAGCATATAACATTGTGTGAATGTTTGAAAACTTCTCTTGGTTCTCAGAATGCAATTCTGACAGTGCTGAAGG
CTGCCAATTAAATGAAGATTTAGATAAAGGCTGTGTGGGAGGTGGAATGCAATATTCTTAAACCTAATAATGGCTTCCTTCTGTCTTTTTGAAGCTCTCA
AATAATCCTGATTGACTGACTCTCTGCTTTGGGCATTCCCATTTTCTGGACAATTTAATACCATTTAAAATGTTTGACAACTTTTATTTGGGGGCAGACA
TCCTTAGGGGATGGGGCCGTGGGCAAAGATACAAATGCTGTACCATCAAAGGAACCATGGATTTAAATAAGGATTTTTTTTTTTTTCATATTCAGAAGAG
GTGGGTACAGAAAGGATGAGGGCAGCTTCTCAGGTTATAGTATTAACCACGTGAAGCAGCTAACAAAGGTRTGTGCCTGGCCTTGTGCTAAAGGCTTTCC
TCGTATCAGTTCTTTCATCCCTCCCAACACTACTGAGGTAGATGGAGTGACTAGATCCATTATACAGGCAAAGTAGCTGAGGCCCACAGCCATAGCAAAT
AAACTGTGGAGCTGGTGGTCCCAGATTTCATGCTTTTAGTCATTCTCTTGGCTCTGGGGTACAGGTAAGCTTCCAGAACTGGAGGATGGAGTCCAAAAGA
AACTCAAGATAATTTCCCTGCCTTTCCCATTGTATCAGGGGATTCATCTGTTCATACATTCATTCATTTTCCCAACACATTTACTGAATGCCCGCAAGCA
CCAGGAAAATAGCAATGGGCACAACCAGGTTCCTATCTTCATGGAGCTATTGCTTTATTGGCAGAGGCAAACAGTAAAGAAAATTCATTAGTAATCAGTG
TTGCAATCAATGAGCCGGTCAATCAAGCACCATAAAAGGGTAAAGTGTGACGAAGGTGCTCCTTGTGATAGGGGTTGGGGGTGAGGGGAGGTGTCCTGGA
GAGGAGACATTTCAACTGAGATCTCTCTGAAGTAGATGAGATGGCCATGTGGATCTCAAAAGGAAAGTGTATGCCAGGAAGAGCAAAAAGCAAGTGCAAA
GTCCTAAAGCAGGAAATAGTGAGGCTACCGCAGTGTCGGGTCCAAGAGTAGGAGATGAGATCAGGGAGGCAGATTAGGCTGCAGGGAGGGTGTGCGTGTG
ATGCTGAGAGTGATGGGAAACCACTGGTGGGGTTGGGGGAGGGCAAGGCAGTGACATCATTTGTTTTTATGTGCAGCAGAGGAAGCCAAAGCAATTCAGA
AGAAGCCTACAGAAGCTTACCTCCTCCACAGGCTATTTTTTTCTTGTTTACATTTGTTAATTTTACATATATATTAACTCAGTCCTCACAACCACCAAAT
GAAATAGGCATTGCCCTTATTATCATTCTTTCCCATTTTAACAATGGGGAAACTGAAGCTTAGAGTAGGCAAGGTCGCCCAGATAGGAAGCAATGCCTTC
GGGTCATGGCTCACTACTCAAGTGCCTGAAATTTCAGCTAGCCTTTAGTGGGCACCTGCTATGTGCCAGGATCTGTATGAGGTTTGGCACCACCTAGACA
GCCCCTTGAACCAGTGGCATGTCTCAGGACAGTGTGAGAGACAGAAACTTCAGCTGAGAGTTACCGTGCAAGGCAGAAAATGCTGGTCTAGCAAAAGGAA
CTCTGATTTCGATTTGGAAGTACAGAGAAWGAGCATCTGCCTTGGACAGAGTTATCAGTGAAAAGATGACATATGAGCTGAGACTGAAAATCATGTTGAA
GATAGTCAAACAAAAGCTGGCAGTGTGGGAGTGGGGGCTTCAAGCAGAGAATCAGTGGTTCAAAGGCACAGGGTAGAAGGAGAATGGCAGCTGGCTCAGT
GTGGCTGGAGAAAGAGGCTGGAGTGCACCTGGTTGCATTTGAATGGTGTGCGTGTGTGTGTGTGTGTGTGTGTGTTAATGATGGTGATGAGATGAGGGGC
TAGAGAGGAAGACAGGTTGGCACCTGGTAGCATTTTTTAAAAAGCAAGTAAACCTTATTTTTTAGAGCAGGTTTAAGTTCACAGCAAAATTTGGTGGAAG
GTACAGAAGTTTCCCAAGTACCTCCTATCCCCACAAATGCACAGCCTTGTCCCACTATCAACATCCCACATCAGAATGGTACATTTGTTACAGTCAATGA
CTCTACATTGACACATCATTATCACTCAAAGTTCACAGTTTACATGAGGGTTCACTCTTGGTGCTGTACGGTGTATGGTGGATACATGACAAATGTGTAA
ATTCATGTATCCACCATTATGATATCACACAGAATAGTTGTACAGCCCTAAAATACTTGCTCTGCCTATTTGCCTACCCACTCCCTTCTCCCTAACCCCT
GGCAATCCACCGATCTTTCTTCTATTTCCATAGCTTTGCCTTTCCCAGAATGTCATATGGTTGGAATAATATAGTATGTAGCCTTTTCAAATTAGCTTCC
TTCACTTGGTAACATGCATTGAAGTTTCCTCCATGTTTTCTTATGGTTTGGTAGCTCTTTTTTTTTTTTTTTTTTAGCATTGAATAATATTTCATTGTCT
GGATGTATCACAGTTTATCCATTGACCTACTTAAGGATATCTTGGTTGCTTCTAAGTTTTGGTGATTACAAATAAAGCTGCTATAAACATTTGTGTTTCC
TCATATAGATCTTGTATATATACAGTAGTTCCCCAGTTTTCATGGGGAATAAGTTCCCAGACACCCAATGGATGCCTGAAACTATGGATTGTACCAAGCC
CTACATACATTATGTTTTTTTCCTGTACATACCTGTGATAAAGTTTAATTTATAAATGAGGCACAGTAAGAGATGAACAACAATTGCTCCATAAAATGGA
ACAATTATGACAATATGTTGTAATAAAAGTTACATGCATGTGGGCTGTCTCTCTCAAAATCTGTTGTAGCGCACTCACCCTTCTCTTTTAATCTGTCAGT
CTGATAACCAAGATGGTTACTGAGTGACTAATGGATGATGGGTAAGATAGACAGGATGGATACACTGAAGAAAATGATAATTCACATTCCCGGCAGGATG
GAGTGGGATGACAGAAGATTTCATCATGCAACTCAGAACAGCATGTAATTTAAAACTTATGAATTATTTTTGGAATTTTTCTATTTAATATTTTCAGACT
GTGATTGACCACAGTTGAGTAAAACTGTAGAAAGCAAACCTTGGAGAAAGAGAGACTACTGTATTTTGTACATTTCATGTACACAGTTTGCTAGATTTAT
ATGTAAATATTCCAATTTGGGGAGGGTAATGTAAATTGTATTGTGTTTTAAATTCCTGATTTCATTCATTCATTGCTGGTACATAGGAAAGTGATTGGCT
TTTTTACATTAACCTCGTATCTTGTAATCTTGGCATAATTACTTATTCTTGGAGTTTGTCAATTTTTTTGGATTTCTTACATAGATAATCATTTTATCTG
CAAACTAAGTTTTGTTTCTTACTTTCCAATCACTATACCTTTGTTTTCTTTTCTTATCTTACTGCATTAGCTAGGACTTCCAGGACGATGTTGAAAARCA
ATGGTAAGAGGGCACATCCTTGCCTTGCTACTGATCTTATCAGGAAAGCTAGTTTCCTACCATGAAGTGTGATGTTAGTTGYAGGCTTTTTGTAGTTGTT
CTTTATTAAGTTGAAGAAGTTTCTGTCTGTTACTAGTTTGTTGAGAGTTATTATGAGTATTGATTTTGCCAAGTGCTTTTTCTGCATCTATTGATATGTG
CATGTGATATCTATTGATATGTGCATATGAGCCTCCTGGTCATCATCCCAGGCTTAGCTCACAAAAGTTGTGAGCAGGGAGGCCACCAGGAATGTGGGGC
AGGTATTATGCTTCCCATTTTACAGAAAGTAATGCCAGAAGAAAACAGTGCACAGTTACTGCTGGTTCCCAATAGTTGATTTGACTCCTTTAAAGATTTA
GCTGTCCSATTTATGTGCTGGATAACATCAATTGATTCTTAAATGTTCAACAAGCCTTGCATACCTGTGATAAATCCCATCATGGTTACATTTTAATATA
CTTACTTTTCTTCATACCTGTCTCAAGAGAGAAAGTAGCTCAGTGGTTAAGACTGGAGTCAGGCTGCCTGGGTATAAATTGCACCTCCRTTGCTTATTAG
CTGTATGAACTTGGGCAAGATATTTAATCTCTCTGTGCCTCAGTTTTCACATCTGTAAAATTATGTCAMATAGTACTGATCTCCAAGGGTGGTTGCGTGG
GTTAAATTATACCTAAAGAACTTAGCACCCCACTCAGCACATGGTGGCTGCCATGATGGTTTGCCGTGACCTCTCTTCATTTGAATGTGTGCCCAGTGTC
TTGTTTCTCTCTGTATTCTCAGTGCCTGGTACAAAGTCGATAGATTTTAAAAGCCCATAGAAGAAAACATACATTTTTCCCTGTTTGTGGGTATGTATGG
AAGATTCTGTAACTTTGACTAGACACTTGATATTCAGATAAAATAGCCCTAAAGAAGGTTCTCAAGGGGGTGGATTTTCTCAGACTATTGTGAGCATAGT
TCCTAAAGCTGACTCTATGTCTTGTGCTGACTCTAATCCCCTCCTGGCCATCATCCCAGGCTTAGCTCACAAAAGCTGTGAGCAGGGAGGCCACCAGGGA
TGTGGGGCAGGTAATATGCTTCCCATTATACAGAAAGTAATGCCAGAAGAAAACAGTGCACAGTTGCTGCTGGTTCCCAATAGTTGATTTGACTCCTTTA
AAGATTTAGCACCTGAGTTAGAATCCGGATGGCAGAACTTCTCTMYTGGAACCTAGTCCCACTATTCCTCTCTCCCTTCATTCAACACTGGGTTTAGAAT
GCTTGCCAGCAGCATTGTGGAAATTACCTCAAAGGTAGAAACACGTAACTCATAAGCACACAYGAATAGGTATAGGTCATAATCCTGGAAAGACGGCCTT
GCCATTGAGAGGGGAATAGCAGGAGCAAGGCTACGGAAGCACGGGACTCTGGTTGAGTCTAGGCACTGTCTGCATGTACTTGGCACATTCCTTAAAAATG
GCAGCAAGCAGTCCATTCTCAAATGGAAATTGGWACAAAAAATAACGTAAAACCATAAATAACAGAAAAGAATATATACTCAAACATGTATAATCCATAT
GCATGAACATAACTCCCCTATTGGGAATTTCTCATAAAGAATCCCCCCAAAATATAATACCAYGTCCACAAGAACCMACCCACAGGCCAGGTACTGTGCG
AGGCACTGGAATACAATGGGGGTAACATGGACTAGGAGACTCATGAAAACGTCATGACAAMCACCTGGGAAATTCTGAACGTTAAATAGTAGGGAAGGGT
TTCTCCACCATGGCATGGTGGCCACTTTGGGCAGGAAGATTGTGGTGAGGCTATCCTGTGCATGGCAGGATGTCCAGAAGCATCCCTGGCCTCTACCCAC
TAGAGGCCATTGGAAGCCCCATCCTCACTGTGAAATCCAAAAATGTCTCCAGACATTGTCAAGTGTCTCCTGGAGGGAAAGGGGGGAAAGTGACTCCCCA
TTGAGAACCACTGCTTTAGGGGAATACTTAAGAAGTTGAGGCATATCTGCTCACTGGAAAATGGAAATGAGCTAATTTGGAGGCTTAAAACAGCAGCACT
GGGAAAATGACATAAATTTTAAAAAGCAGAAAGTAATACTGCATTTATTCTGTGGTTTGGCTGAGGTTTTGGGTTTCAGRGGAAGCTGCTGAGAAAAGAG
AGGGAGGGAAAATGTGACCCAGAAATCACGGGAACCAGGGAATCTCAACAAATTGAGTATCTTGGTTTGTGTAAGATTAGGAACCTGGAGATAAATATGG
GTCAGGCAGATGCAAGTAAAATGATCACACGTGGGGAGCATGGAAATTGGGTCTTAAAAGTGAGTTAAGTCAAGGGTGGTATTTAAAATATGTCATATGT
AAATATGACAGAGAAACCACCAATCAAAACAGCCATCTGCTGAAACCACCCACTATGGGCGTTCCTGTGCCTGCCGGGGCGTGCGGGGAAACCCAAGAGG
GAGCACCAGTTGGTGAACGTCAGTCAATCCACAAACCATCTAACAGAGGCACAGGGATTAAATTCAGAGCAAGACCTGGCAAAACAGAAACAGCCCGAGG
CCAGAGATGAAGTGAAAGAAAGATGACAACCTAGGGCCCAGGAGGGAAGCTTCCAGAAGGTTGAGTTATATTTAAGCCCTTTCACTGTATACCTGGGACC
AAAGACCCTAGAGCAGCTTCAGACATAAATTATGTATATACATGAACAAAGACAGAAAGGGAGCAAAGAAAAATGAAAACAGCTTGATTTGTAGGGCTTT
CAGCATGGCGGGTGGTTTTCTTTCCCCCCTCGTTTTATTTAGACGTCTGCTGCTGCTGCTTCAATTTTGTTCCGGCAATACAAGTAAAATATATGTGGAT
GTTAACAAAGATGTAAAGAGCCTTTTGAAGTATATAACTGATTATAATTTAACATTCATTAAGTTTCTTTTWTCAAAAAAAAAAAACTATTAAGTTCATT
GAAGAAGTCATAAAAACAAACCAAACACCCACCACCYTCTCCCCTCCTGGGGACATGGCAGTGGCCACTTCAAAGTGGGTCAGGTCTCCGTGAAGGAAAG
GGGCTCTTGAGAGAGTGATGGTGGCCCAGGGGCCGGTGTGATGTTTCATGCTGGAGGGATACAGCTGTCCGTTTCCTTTGCCTCTTTTCATCCTGATGGA
GCAAACGGCTCATTGTTTACGCTGACCTAGTGAGGTTGGCTTCAAGCTCTCCCCTCACCATGTTGTAATGAGATAGTCCTGAGGACACACGCTCTGTCCA
TTGAAACAGATTAGCTCTGATCACAGCTTAATTATGTGAAGTACAGCCAAACCCTATTTATGCTTTTCCTAGGGATGGGGTGGAACAGATAGGAACGGGT
AATTGACAGACATTAAGAAATAGACTTAAATATTGYTTGTCCTGCTTTAGTACGCACGATATTAATGAGATGTTATTGTGAGTGCTGAGTAAAGAGGTTG
CTGCCGGCTGGTTCTCATGCCAGGCAGCCAGCAGACCTTCTTCCCAAGCAGGGAATTAGCGCAGGTGTTCCCTTGGTGAAAGCCTGGCTATCAGCATCAA
CACCTTCTAGAAGATCCGTGCCTCTTGGTTTATTTCAGGGAGCCTGTGCAACTCCAAAAGGATGGATGCTGGATGCATATGGAGGTTCCATGCCTTAAGG
CTAGCTTACAAATGTATGAACTCGTCTGTCTTTTATTCCATCAGAAATGAATGTACATTGTAGGAACCAGACTTAGCAGAGAACACGGAGTATTGGGGGA
AACCTCAATTAGGGAATAAAGAGCTAGTACACACACAGATGTGTGTCACATCAGACTATGTAATGGACACAATTTAGGAACAACTAAGGTATGTCCTGTA
ATTAGGGGACTTGTTAAATCTGCACTGTCTAATATAGTAGCCACTAGTTACATGTGACTGTTTACATTTCATTTAATCAAATTAAAGAAAATTGAAAATT
CAGTGTCTTGATCACAGGAGAGGAATTTTAAGGGYTCCTTTGTCACAGGCGGCTAGTGGTTCTCATGTGCAGATGTAGGACATCCCCGCCATCACAGAGG
GATTTGCTGGACACCACTGAGTCAAATAAATGGTAGTATGYCCATAGAATGGAGTATTCTCCATATTCTCAATGAAGTAAATGCAGATATTCTGGCATAG
AAAGGTCACCCTTGTGTATTGCCAGGTAAACAAGTTACAAAACTTTATGATATTAATTTCACTTAAAAAACAGATGCAACACACAGGCACATACTTTTTG
GATAAGAGTGCAAAAAACACAGAAAGGATGCACACCAAATTGTCGGCATTAGTTACCTTGAGGAGGCGGGGGTAGATGTTTACTTTTTATTTTCTTCACA
TGTGTATTGTCTGAACATATTTCAATGAGCATGTGTTACTGTTGTAATTAAAAAGAGATTTATGTGATGAAAACTGATGAAAATGATTGAGAAACATGAA
CAGAGGGTTTTCTCTTTGCCTCTTTAGAGACTGGTTAATGGTGCTACCTGAGTGAGATTGACCAGATGGMTTGTTGGGAGAAGAAGGGAGCTGGTTTGGA
GTAAATCCATSCCCACCACTATCAGGTCTTGCCCAGGCATACCCTGCTTTTCCTGAATGTCCTGAATGTTGTTGTAGGACAACAAATGCRCTTTATAATT
ATTCATAGGACCTCTCACTRCTAATCTTTGAGTCGATAACAGCTTCTGCTATAGAAGGGGGCAGATCACTGGGCTTAAATGTCAAATAGCGCCTGAGAGG
CTTAAACAACCACCAGTATGTGTCCCTYTGGGAGGGCTTCTCTGCCATTTAGAAGATCAATGAGAAGATGTCCTCCAGGCCAGTGTGAGGTGGTAGAGGT
GTGTGCTTGCGTGGGCATGCCTGTGTGTCTGGTACCCTTACCCACTGAAACAGCAAAGGACATGCCTTCTCCCATATGACAAATCGGTACATTGATGATT
TCGAGTTAAAAACATTGGATAAATTGCAGTTTCAGAAAGGGCTAGCTGACTTGTCTCTTCCTACATGTAGCAGGCCAGAAAGATTCCTCTCTGGGAGGGG
CATCCTCCCCCTGCCAGGGCAAGAAAATAGCCCTTATCGCCAGAGACTGCGGATTGCAGGCTGCAGTGGGCTTGAATAAATACCCTTACTGAAGTGGCCC
TTAGCCTCCACTAGGTTTTTTGTTTGTTTGTTTGTTTGTTTTGAGAGGGAGTTTCGCTGTTGTTGCCCTGGCTGGAGTGCAATGGCGCGATCTCGGCTCA
CCGCAACCTCTGCCTCCTAGGTTCAAGCGATTCTCTTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGCATGCAGCACCACGCCCGGCTAATTTTGTAT
TTTTAGTATAGWTGGGTTTCTCCATGTTGTTCAGGCTGGTCTTGAACTCCCGACCTCAGATAATCCACACGCCTCGGCYTCCCAAAATGCTGGGATTACA
GGCATGAGCCACCATGCCCAGCCACCGCCACTCATTTTACACAGTCCCCTGTATGTCTCCTAGTGACTSCCCTAGAAATTCACTGACCCTAGCCAGATCC
CATTTGTCCTGTCTTTGTCAGATTTATCATTCTTTGTCTAAAAAGTTCAAAAGCATCTTGCTTTGGCCGCTTCTTCAGACATCACTCTYTTGTGAAGATC
CCTTGTACCTGGAAAACTATTAAGATCCGTATGCTTTYTTCCTGTTGATCTGGTTGTCTGATTCGTGTCCATTTGGTTTCTAGGTCCAGCCAAAGAGCCC
ACATAAGAACCAAGGTGGGGTTGGGGGTGATCTCTGRTCCCCTTTGTGATCCTCTTCTAGGAGATTTACCTCTCTGCTAGCTTACATACTATGTGAATAT
AGCGTGGGCTTTCTTCTTGCTCTTCAGAAAGTCTTCTCTACCCTCCCTCCTCCTACCATGGCGCATTCTGCAGCATGACAGGCATTCCACTCTGAGGTGT
GAGCCATGTGGGCTCTCAGGACTCTTCTGGCTCCACTTCTGCCTTTGTAGCTGTGGACCACGAGGCAGTGACTTTGAAATTCAGTCTTATTCTGYGGAAA
TATTACTTACTCGTCCCTACCTCATAGGGTGGTTTTTCGAAGTCAGTGAGACAAGGACAGTGAAGGGTTGAGGCAGTGCTCAGCACATAGTAAGYGCTAA
ATAAATGTTAGCTTTTGTTGAAATTAATCTTACTTTTCACTAAATTGTGCTGCAAAGCAACGTGCCATTGCCTGTTCTTCACATGGCTGTGTCTCTCCTC
CTCAGATGGATGGAGTAGGAGGGTTGTTGGAAGACAAAAGCATCCTGCTTCACTCTTGTCTCTCCAGGCTCCTGACAGTGAYTTGCACTAGCTGATTAGT
AAATTCATGGCAGTGCCTGGTGCCTGAGAGAGCGAGGGTTGGGTGCAGCTTGGCTACAGCTCTGAACACAGCAGTGGGGGCTCAGTTGCTTGGAAAAGCT
GCCAGCCAGTGAGCCCAGCACAGTCAGAGTCCTGTCAATGCAGTAGGTGGGTAAAATAAGACACCAGTGTGCCTTTGAAGCATGACTTTCTGAGGGAGAA
GGCTGGGAGCCTTTACATTTGATGACTGGGAGAAAGGACCCAAGTTTTTCCTGTGTGTTTCCTTAAAACAGCCTTATTCTCTAGATGTGATTTGTTTTCT
GTTTTATTTTCAAAGAGAAGAAAATCTTGTTAATACTTGCTTATTAACTAACAATTTCACTTTACTGGTTTGGTATGTAAAACTGAGGGTTTTCTTCTAC
CCAGTGGCAGTTTTTGATATGAAACAGTAACAACAACATCAACGTAACTTGTATTTTTGAATATATTTGATACAGATATTGGTTAAAAGCATTTTGTACA
TATATATTCTTACATATTTGTGGGTATGTATGAATACATGTATATATGCATATATATGTGTGTGTGTAATTGATTCTCATTATTCATGAATTCTGTCTTT
GTGAATTTGCCTACTCAGTAAAATGTATCTGTAGCTCCCAAATCAGTGGTCATGGTAGTGTTGTGGTCACTTGCAGACATATACAGAGCTGTGACAAATT
TGARTCATATGATGTATATGCTTCCAGGTGCATTCAAACTAGGTGAGACTGCCTTCTTGTTTTAGCTTTCATACTACAAACAAATATCCTTTTCATGAAC
CATTTAATGCCACATTTGCCACAATTTTATGCTATTTCTTGGCAATTTTGCTGTCAAAATGGCCCCAAGTGGASTGCAGAGTGCTCTCTAGTGTCTCTAA
GTGCAAGAAGGCTGTGATGTGTCTGACTGAGAAAATGCATGTGTTAGATAAGCTTTGTTYCAGCATGAGTTACAGTGCTGCTGGCTGTGATAAATTTTAA
GTAAGGCRTCTTTAAACCGAGGCGCACGTAAAACAAGGTTATATATTGACTAGTTGACTGAACTGTGACCAGAGGCTCACAGGAACCTAACCSTGCATTT
CTACTAGGAGCAATGGTTCAATATATGTTAAGTATTCATGGTGACTTCATAGAACATAAGTACCATAAATAAGAGAATCAATTGTATGCAGACACTCCTT
GATTTATGATGAGATTTTATCCTGATAAACCATCCTACATCAAAAAGGCGGCTGCATGCCTACCTCAAACATCACAGGTACTCTGCTTCACCTTCCTCAA
CTATGTCATGCCTCAACTCTGCTTGGACTCTGCCCAACTCCAGACAGGGACAATGTGACAGTAGCCAGCTCCTCTCTGAACTGACACCCTGTAAATTGGA
CCTACTGAACAGCAATAGTTTAGCCTAACCTACTTTATAYGTGCTTAGAGCACTTGCGTTAGCCTACAGGAGGGCAAAATCATTGAATACAAAGCCCATT
TTATAATGAAGTGTTGACTGTCTCATATAAGAGTATTGTACCACATATTTCTGGACCAGGAAAAGATCAAAATTCAAAATCTGAAAAATGGTTTCAATGG
AGTAAGTATTTCTTTTGTACCMTTGTAAAGTTGAAAAACTGTTGTCTAGTCATTCTAAGTCAGGGAATATCTGTGTATAAATCGTGTAAAATCCTCCCAG
AACCTTTATGAGAGGGTGTGGACTGTGATTCTTAAGTTAATGGCATCCCTCTCTGCCTAYAACGATCTCACGTCTGTTTTTTTGCCAAAAAATATAGCTG
CTGGGGAACCTGTTCAGGGAAGTTGGGATGTGTTTATCCTTAGGYGTTTATTCATCTTTCCAAGCTCCTGCAATCAACCAGAAACACAGGGGAATGGAAG
GCTTAGTGTTTGTTGTACCAATTATGCCACAGGCAGTATCTTGTGTATTTTAAGTAACAGCACTGCTTTGGTAAGGCAGTTGATCCTACTTTCAAAGGCA
AGGTACCTGAATCATGGACAATGAGGCCACCATCAGCCCTCCCTCTCCAATCAATGGATGACCATACACTGTGCTTGTTCCTTCCACATGGAGACCCATA
CTTGAATACTTGGTGGGTACCTTGAGCTAACCTCTCACTTTGTGTGGAATAGGCAGTGGGCTATAAGGGGAAAGCACACACTTTGAAGCCAGACTCACTT
GCATTGGAATCTGGGATGTCTGACATAACAACAACTACTACTATTTTTTTGGCCATTTACTATAACCTAGTCGTAGGTTAACCATACAACAACCATGGTA
ACTGAGGCACGAAGAACATCTTTCTTATTTGTGGTGCATATCACAATGTAAAGGTAGTCCTGTTGATACACCCATTTTTAGAAATGTTAAATGGTGTGCT
CAAGGTCACACAGATGGAAGCTGGTGAATCCAGAATTTAAAAGTAGAACATTTAATCCCAGAGCCAGCCTGCCTTCCCACCATCCAAACGATGCTATGCC
ACATCTTGAAGAATCAGAACCACCTTGTCAAGATGCGTGACAATTACAACAGAGAAATGATGTAAAATGCAGTGTGTAGTTTCTGCCCCTGAGATGAGTT
CAGGAATGGGTCCAGTTCCTGTTCTTAAACACGCTTTGCCCTACTGCTTGCAAGCCAACTCGGAGCCTTCTGATGTTTCTCTCCAAACTGACAAAGGAAT
CAGCTGTTCCTTCTAGAGGGGGAATACTTTGACTTGGGTCTTTAGAAGTTATCTGATGCCAGCTTATTCACATCGCCTCACCTCCTAGCAGCTGGAGCAG
GAATGCAGCAGYAGGGTATTGAAATTTAAGAGGTTGGCCTTGAGTCACTGACTTAGCTGGGTATCCCATAAAGCAGAGAGCTTATACATTTCTATCGTAT
TAGGGAGACAATTCCAGAGAGTGAGAGTGAAGGAAGAGGGGATTGAGGCAGGTAAGGAGGGGAGGCTTGCKAAGGCGCGTACTGAGCTGGCCATCCCCAA
GTGCAACTGATTGAGAGGTTTGTAGAGCTTTGTCCCTGAGAAGCCTGCCTCACCAGGATGTGGTGTGGGGAGATGAAATAATTCCTCCACTCATTCCCAT
CTGCTATTGGCCATATGTTGGCTCAAGGGGCGTTCCTTTCCTTGCACCGTAGGATTGTGCATGTATGATGGGGCTCCTCTACCGAGTTAAGAAGGAAGCC
CTTGGCAAGGGCGGAGAGGCTCTCAGTTCAGAGAGGAGTTGTCTGATGTCACGTTGCCCCTATCTGAAGTTGGACAGAGCCCAGGCAGAGCTGAGATGTG
AYGTGAGTGAGGAAGGCGAAGCAGTGCACCCATGATGTTTGGTGCAGTCTTGAAAGCGCAGTCACTRTGGAGCCGCCCCCCGCCTCTCCCCTTCTGAGCC
SCCACAGCTCACGCTTGCTTTCTATGTCCTGAGCTTTTCTGTACCTCTGTCTTGCTATGTCAGGCATTCATGGCTGTGCTGTTAGGGAGCCTTTTCAATC
TTCTCATGCTCCAGTTTCAAAGCTGTCTCAAAATGAGATAAGTTAAAGCCTAATACAGTTTTTTAGAAACACCTGTATTTGTCRCGCTGACCTAATATTA
ACACAGGTTCTCGTCTCTACTTGAATGTTACGCATCTATCGCGACACCATTACCAGGACTGCGCTCTGAATCTTTAGAGATTATCTGTGTGCCTGATGTC
ATGAATACCAAGTAGATGATGTAGGATGGCTATACCCTGCCAGGGAGACCTGCCTGGGGTACCAGTGAGTTTACAAAGACTTGCAGGAGGCAGCATACAG
ACCATGGGCTTGTAGCTTTCCAGTTCAACTACACCACCAAACCCTGGCACCTAAGACTTTGGTTGTTCCCCGTGTCCTATGAGCCCTGATCACAAGGTGA
GCAATGCCTTCTAGGCTGGGAAGGCAGAGTTGGCAAGAACTGCCAACCCCAGGGATGGCATCAGGCCCGCTGATAATTAAAGGGTGCCTAGGACATATTG
CCTAAGCTGTTATTGGTTCTAGAGGACTCGACTTCATTCCATGAGGGGTAAAATAAGTAGATAGGGAGGCATTCAGAGCCTGAACTGGTAAAGGGGGGAC
AGTTATAATATTACCCCAAAGCTACAGCTCAGGGAAAACCATTAGGGCAATGTTTTTTTGTTGTTGTTGTTTCTTCCTTAAGAAGGGATCTGTGCTATGT
ACTTTAGCATCACCTGAGATGGTGTGAACAATGATAAGAGTTTGAGGCCCTGTCTTTTATCTACAGATTCAGCATTCCTTGGGGTAAGGTCTGGGAGTCT
GTGTTTTGGCAAGAGTTCTGAGTGATTCTGATGTACACTAAAGTTTGGGAATGACTGTCGTAGGAGTGTTCAGTAACTTGGGCCTCCTGGAATGCTCTAA
GTTGTGTCACAGCCCAGCTGAGTACCTGGGACAGAACAGGGAAAAGCAAGGAGTGACGATGTCAGAGAGGGGCTGTGAGMCCCTGGCTTTGGAGCCAGAC
CTGTACCTTCCTGGACTTCAGCAAGTTCCAGAATTTCTGTGCATGTGAGTTTACCCCTGTGTAAAGTGAAGATGACAACAGGGCTGGCTGTTATTCTAGG
GGGCTGCCCCGGTGTACCTGGCACAGTGCAGTCCTGCTGATTTTCATATTGCTCTCATTGCCATCCACATCCGAGGGAGTAAATTAGCGGGATCCACAAG
CCACGGATGAGCCTTGAACCAGAGAAGCCACAAACTAGCATTTAGGACTTCCTGAGGCTCAGGTATGAGCAATGCTGCCCAAGTGCATGGCATGAAACCC
ACTACAGACCATCGGAAACCTCTTGAGGACACCATTCCTCTCTGGTAGCCTTTGGGSCATCATTGAACATTGGGTCAGCATGTTAGATACGATGAAGTTC
CAGATCCAAGGACAAGCCCTTTAGATGCCTAGTATATGGCTCTGCCCTGGCATTTAACGCCCAGGAGATTATATTACCCTATCAAGCTTATAGAAAATGG
ACGCAGGTACAATATATCTTATCTACTGCCACATTGATAAAGTCTACAGAGAAAATAGTGGGTCTTTTAGGACTTACCCATTGAGCCTTTTATTTTAAGT
GACACATTCTAGTACGGACTTAATTGTAATTCTGATAACATTACTTGTAATACTGTCTCCAGTCCTTGGAATTAATTTGACTGGAAAAAATCCAGAAGGA
CTTAAATGTTTCTCATTAAAAGCATTATAGATAACTTATTAGACATTGTGACTAATTGTAGTATGGCCCAATGTAAAGCCATCCCAATTAAGATGCTGTT
TCTTCTCTTGTGATTAGTTGGCAAACCTTTTCCATACAACTGTGCCCTCTAGAATGTAGATCAATTAAGCATATATAATTGGACGGAACCATTTGCTCCC
CAGTTATCACCCTCTCCAGTGAGATATACCCCAGCCGGGTTGGTAGGCTTGTGAAGACAAATGTCCTGATCTCACTTTAGGGAGTTGACAAATGGATCTC
TATAAGGCAGCTTATGTGCTAAATATTTCTCCTGGCCCCATTGGCAGAGATGTAGTCTGTTTTCCCAGTACAGAGAATTTCTTGCAGCYTGTACATTTTC
CCTTTAAAAGATAAAGAGAAACCATTATGCAGTTTWTATTCCTGACCTGCCTCAAGGAGCAGATACGGACTGGAAAGCAGCCCCTGTTGGATAATTGCTG
CTTGTCTCAGAGTTTGAGATTCTGYCKGGGTTTCTTGAGTCACYGAGCATATGGGGCTTCAGGTTGGACTGCCCACTCCAGTGCCTGAGAATTTACTGGG
AAGTTTTAATAAAGTAGAGCAGAAATTTTCCAGCTGCATCCGAAATATTTGATGTCATGCTGAATTGCAAATCCCTAGTCGGAACATTTGAACATCATCT
AGAGGGATCAGGAAATAACCCAAAGGTTTGGTAGGCGACTTAGAACAATGGCTGCTCTTAAGAGGGAACAATTTAGAGCGATTTCTTTCCTCTTCCTTCT
CTCCACCTTCCCCACTGATTTCTCCTTCACGCACCTATGGGTGTGAAATGAGAAAAAAATATCACTTGAAACCAAATCAAAAGCTACAGCAATTCTGGAA
TTAATAAAAGCTCACRTGTAGAAGGAAGTGTGGGTTTATGGGTAGGGTGACCATGCACTACCCAGGTTTGCTTTACCTGAAGGCAGCGGGGCACACGTAC
TGAGGACTATTGGGTAGAAGGACAGATGGGGCTATAATTAGGGGATGAGCTTCCAACAGATTCTCGGAATGAGCTAGGCATTTGCAATGTTCAGAGTATA
TAGACTGGCACGTAATTTGGGGTAGTCGGGTATGAAACTTATAGACACATCCATGGATTTCCCTTTAATAAATCGTCTCTTCTAGTAGTCATTTGTCATC
AACGAGCAATTCAGTAAAAGTTGGAATTGAGCATAATGTTGCATATCATTTCAGAACATCTGGCCCTAATATGTAGTAACAGCTGTTTAGTACCTGAGAT
ATAAACAAAACATTTTTCCCATGGCTGTCACTGTTCCTCCTCCTGGAGGTGCAGTATCACCRAGGCTTCTCTGTATTTCCTATCATGGGTAATAGTAACA
ATATCAATAACACARTGATGATTATCATGTATTGTTTAACTATGTGTCATACACTATGTCAAGCACTTTTCATATATGATCTTGGTAAATCCTCATGCCA
GCCTTTCGTGGGTATTAGATGGCGAGGGGAAAGTCATCAAGCCAGAGACTGACTACTTTGAAAATTGAATAYAAGTCTGTCCARTGCTACAGCTAACATT
CTTTAAGTACTAAAATAAATTGCTTGTAAATAAAGTAAATGAAAAAAGAACACAACTGTGTAAGTCACAAATGAAGAAGGCAACAAAAGGGAACCCAGAA
GGGTTTTTTATTTTTTGGTGTGGTCTTCCTTTGTTTGGGATGTAAGACACTGATTTTCCTGCTATATTATAGTATGTACACTGTTASGAGGTGGCAGTGC
AGTACCTTGGTCATGTAAGCCAATCAACAAGACTTGTTCTTTTCCTGATGTTCAAGGGAGTAATTCCTTAAGCAAAATCACATTTATACACATGTCTTTT
CAAATTTTTAACCAAATATTTCAAAATCAGTTGTTTAAGAAAACSATTACACCTATACCTTCAATATCAAAGCAGATCAATTTTTAAAACAAATTTACTA
ACSTAGTCTTCAGATACATAGGTTTGTTTTTCTCACTAATCCTTTGTGGTCACTGAAAGAGCATAGGCCACCCCAGTCTTTTGCCSAGATAGTGATGAAA
ATGCTGATCTTCGTGAATCCAACTGAAATTTTAACTTCGTGCCCAAGCTGTTCTAGAACTCAATTTATCAGATCCAGATTTGGTATTCTAAAGACTAGAG
TGTTTTACTTTCTGGGTGTTCTTTGGGCTTCTTTTCTATTCATGACCCTTTGGATTATAAAAGAAGAGAAACACCATGGGGCAGATATGTCCAAGAATAA
AGAAAAGAGAAAGTTGCRSACCTGAGAAGTGCCCCCTGCTGGCCAGCATCATTTCTCTGTGTCTCACTACAGAAGGAGGTCTTTGTTTATGAATTCTGCC
CTCCCCCTCTTGCCCTGASACTATCACCTGCTTTGGAAAGAATGGCATCATTTCCAGAATGCCCCTAGGGGCATTAGCTTCTGTTCTACACTCTCTCTCT
TGCTTTTCAATATGGAAGTTAACAACGCAGTCTTTGAAGCTGGGCCGATTGGATTTCAAATTCTAACTCAGTAACTTCCCAACTGTGAGTTTGAGCAAGG
TATAYCTCTTAAGGCTCAGTGTTTTMATCTGTAAAACAGGAATAAAATAGAAATAATAACAATAACTATCTCATGGGGTTATTATAAGAGTCAACTGATA
TAATGTATGCACACCATTGAGCAGTGTGTCTTCCTCATTATTACTCCTTGATAGATAGCTAGAATTACTGAGCATCCGACTTAGAAGTCTAATTCTCTAT
TTTGATTTTATTCCTAAACTCCCATGTATGCACCACCACCTTAAACTCGGTACATCTATCTAGGCCGTGATGACCCCTCTACTGGCAGCTTTAGTCCCTC
CCTAATCACTGTATTTCTATCATTGATATTAATATTCTTGAAATCACCCGGATTCGAAAYGTCCAGTATCATTCTTGGCTCTTCCCTCCACTCTTCTCTG
ATCCTTTCGCACCATATCATCCCCTACTGCTTCCCCACACCTCTATCTAGGTGATCAGTCACCAACTCCTATTATTTCCTCCTCCATCTGCCTTGTAAAT
CTTAATTCCATTCTCCTCACTGATTCACTGTTCTCCATAGAATTCCTTGTGACTTTCTTGGAGGTGGGGATCTCATGTTTCCTTTAAGAAAGGAAATATA
TATGTGTACACACACACACACACACACACACACACACACATACACACACACACACAAAATATATATATTTGGAGACAGAGCCTCACTGTGTTGCCCAGGC
TGGAGTGCAGTGRCATGATCATGACTCACTGCCACCTCTACCTCCTGGGCTCAAATCTTCCTTCTGCCTCAGCCTCCTGAGCAGCTGGGACCGCAGGATT
KCGTGCCACCATGTATGGCTAATTTTTATAAAGTTTTCTTTTTTTTTTTTTTTTTTTTTTTTGTAGAGATGATGGGGTCTTCCTGTGTTGCCCAGGCTGG
TCTCGAACTCCTGGGCTCAAGCAATCTTTCCACCTTGGCCTTACAGAATGCTGGGATTATAGGCATCAGTCACTGTGCCCAGCCCCAGGAAACATGTTTT
ATTTCTTGTGCCCCCATCAGTGTTCGACGAAGCCCCGGGTAGGAATTTGGTAGATGCAGGTGTTTGATTAATTTCCCCTTCCTTTTGTTTCTCTTCTCAG
CCGTGTGTCTCTTTCCTCTGTCATTCATTCAACCATTCATTCATTCATTCAATAAACACTTACTGAGGTTCACACTCAGTCAAGGAACTGAGAACACTAA
TGCCATTACTAGTTCTCTCTAGAAACTCACTAGCAGGAAATAAAAGTATCCCCAAGGAGAAAGCCTTGGGAATTAAAATTTTTTGCACAACAAACGTTTA
TTGAGCACTGACTGTGGCACTTTGCTTTTTAGTGATGAACAAGATGGACACAACCCCAGCCCTGGTGGAGCTTAAAACCTCACAGGTATTAGATGAGCAT
GAGATAAATAATTCTACGAGCCATGAAAGTCATGAAAGGGAGAATGCAACAGCACAACAAAAAGGTTTTCATTTCTGAGATGGCGAGAGCCTCCCTAAAG
AAATCATATTTAAACCTATGTTGAGAAATCGAGTATAGTTTAGTTAAACCTGTATATGTTGAGGGCAGGAGGCAGAGTGTTCACATTAGAGTGGGCAGAG
AATGATTGCTCCACAACTTTACAGGCATGGGTTCTTGACATATGCATACAAGCTCATCCATGTGGAAGTGTTAGCAACAGAGGCAACTGTATGGGCAGCA
ACTCCAGGTCCTCAAAAACTGAGAAAACTAAAATTCTATCCAGGTCCGGCAATGTGTGCTTTCTGCATCTTTAGTATGTGAGTTGGTTTAGTTTGTTAAT
TAAGCCTATGGAACAAAAGTGTTCTTTCTCCTCCAGACTTTCAAAGGATGTACTCTAGGGCTCGAAGAAGGGGAACAGAGCTGATTATGTTGGTCCTSTT
GTTTGTGTTTTTCTTCCCATTTAAGAACGTACATTTGAAGGTGCAGTCTTGAAATTCTTGATATGGATGGCAGAYACTTGTAATGAGAGAGGAATTAGCA
GAAAATCACACCTCATTTCAATAAATCTTCACCCCTTAAGGCAGCCTGGTGCCCTTCCTGCATTGGCCTATGGAAGTCACCATCTGGACTGGGAGGATTG
ATGACTTCAGTTTCACCCCTTTCTAAATAGTGTTTATGAAGATCCCTTTCTTCAGGTCAGACTAGAGATTGTACCTACAAATAATATTGTAATTGGACCA
CTTAGTTTTCATCTTTGATTTGAGGTATTTGAAATGAATGTGAGATTAAAGCAAATGAAGGGGCATGAGAAGTGTTAGCAATYCTCCAGACAGGGAAAAT
TTCTTTTCATTCTGTCTCCATGATATCAAACTGAAATCCTCAGTTAACCACAGCAGGGGCAAGTGCCTGAGTTGAAAATGTCTTCATCCTTGTATTCTTA
ATTCATCACCTGAGAAGTCCTTGGATCAGGTACGTGAAACCAGAAGAGAGATCTCCCTGGGGATTTCATAGATGGTGGATATTTAAATATGCAAAACATT
ATTGAGAAATATGAGATGTGTCAGCCATCTCCTGTGCTAACATTTTTTCCAAGTCAATTACTTTGTGGATGTTTGAGGTGGGGGCACACTGGAAAGAAAG
AAAGAAAGACAGGAGGAACTAAATTATTTATAATTATGGTATGTGTTGGCGGGACGGGGGCTGCCTTCTGAGACACAAATGGATGACAAAGAATAAGTTA
TCTCTTTATAGATAGAATGTGGCAATAATTGCATTGTCTCTGGATTCAAAAAGTCATAATCTATTAATTTGATGGATATCAAAAAGCTATAATCTGTCAA
TCAGGTGTCAGAAGAAAGAGTCTCTCAAAGCTTTGAAGCATGGCATTTAGAATACCCCTGGATACCTTTATTTCTATTCTAATATTAATAGGAAGGAAGG
ATACAAACATTTTTGGCATAGTTAGGGAATGGATATCATTTTAGCTGTCTTAATAATTTTGCAACTTAAAAATCGTATTGGATAAGGGTGCCGTATTGAA
AAAAATGTGTAAAAGACACACTACAGTGAATTAGAGGGAGATAATTTCATCCTAAGATTTCTCTGACATTASGCATTGTGGCATCGCTTTCTTGGTTTAA
ATGTGAAATAGAACCTGAGATTATTTTTCATAAATTTATCTAGCCCATCTATTATTTCTCTATATTATATGGCTGTATACTTGAAACATACCAATGGGGA
CTGAAGAAAATGCTTAAGTCTATAAATGGAATGTCAAACTGATGGAAGGAGGAAATTGGAGATGTCACACACAGTAAAAACACAGCTTTTCCAGGACCCA
GTAAGCTTGCCATTACCAAGGAATTAAGGTATTCTCCTCTGGTAGGAAAAGAATTTGACTCCTTGGCCCAGCACAGTTTCAAAGCTGCATGAAGTCACGT
TTGCCTCATTACAATTCCTTTGGTTAAAGATGCTTTTCTAAGTACTTCAGAAAATGTATGCAAAAATATTTTTTGGTGCGGAGGCCACCAAACCYGCTGG
ACTCACGTTCCTGCTTTTGGCAAGCAAAGCAAAAGAACCTTCTGGGTTCCCTTYCTGCCTTTCCTACTGAGATCAAGCTGAAGGTGGAATTTTTCTATAT
ATCCAGTYCAGCCTTTGTGACCTCTGCCTTTAACACAAACACCTTGTTTAAAAAGTAGACTTGAGGGAGGGCACTTGAGTTCAGAAGCCAAAAGAAATGG
GTATTGCTCTTTCCGCSSTAAGCAGTTCTGAACCTAGACCATATCCTTGGGAGACCAGAGCAGSTGTAAGCAGCAAACTGCCTCTTTTCTGCCTCCCTGT
GAACCTGCTTCCCTGGAGGGTATGCTCAAACTCAATTCCCTGTTTTATTGTTCAAAGGACAGGGAAGAAAGGAGGGAGAAAAGATTGATTAAGCCCCCAG
TCTGTGCCTGGCAACATTCTAGGTGCTTTGTATCTGAAAATCTATTTTATTTTCACARTGATCTCATCCATGTCCATGGATTCAACTTTATCTACCTGAC
CACCAATAATTCATATATTTGGTCTTTCGGTTTAGTCATCTTGGTGCTCCAGAGCTGTATACCCACTGCCTACTTGACATTCTTCTTACATGTCTCAAAG
GCACCTTGGATTCCACGTTTTCCAATTTAGTGTGTGATCTTCCCTCCTAAACTCAAGGCTTTCTAGTGTTCCCTACCTCATTCTGTGGCACCATTCTCCA
TCCAGTTTTTCCCCTTTCTCACAGTCAATTAAAATTCTGTTGATTTTGTCTGCTAAATATCTCAGCAAGAATCCATCCAGTTCTCTCCCTCTCCATTGCC
AGTATCCTAATCTGAGCTACCATCATTTCTTTTTTTTTTTTTTTTTTTTTGCCTTGAATATCAATCTGGCCCCCCAGATGGTCATACCACAATCACTCTT
ACCTTCTTCCAATCTTTCTCTTCTCCCCAACCAGAATGATTCTTTGAAAGCTTCAGTATGATGCATATGACGATGTCATTCATTTGATCAAAATCCTTCA
GTGGCCTGCCGTTGGTTTTTTTTATGAAATATAAAACAAAACCTCGGACATGAGCTATAAGACCTTGCATGAGATGCACTTTCTGAGACCAGCCCCTCCA
TTCTCCTTTCATGCCACTCTACACTTTCAACTCCAGCCACCCCRGTCCTTGTTAAGTTGCTGAGACTATCATGCACAAAGGTATTTACACAGTTTTGTTT
TGGGTTTCTTTGTTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTTTCAACGGAGTCTCACTCTGTCACCAGGCTAGARTGCAGTGGCGCAAGCTCAGCTC
ACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCAAGTAGCTGGGACTACAGGCACCTGCCACCACAGCCAGCTAATTTTTGT
ATTTTTAGTAGAGACGGGGTTTCGCCATGTTGGCCAGGATGATCTTGATCTCTTGACCTCATGATCCACCCTCCTTGGCCTCCCAAAGTGGTGGAATTAT
AGGAGTGAGCCACTGCGCCTGGCCTACACAGTTTTTATGCATATTGCTCTCTGTACGGAGAAAGGTAATGCAGACTCATTCATCCTTTGTATTTCAGGTC
TATTGCYACTTCTTTGGGAAACATCACCCCTCAGTCTAGATCTGATACCCCTCTTATTCCCTCTTCTGTTTTATACCTCTTCTTCCTAGCCCAGGTGTTT
ACAATTCCCATTTATTTATGGGGAATATGTGATTATTGTATTTTCCCTACTGAGATTCAAAGCTATACAAAGGAAAGGACTCTTCTGCCTTTTTTTTTTT
TTTTTTTGGKTTTTAACTCATTATGAAATCCCCACTGCTGAGCACAATGCTGAACACCTTTGAAGTAATTAATAAATAACGACTAAATTACTGCTGTGTA
GATAAGGCAGWTAGGATTAGGTTCTTTCAACAGTGAGGAAATCAGAGCTCATTCTAACTTAAGGGTTTAGAAGTATCAGAGGCAGGACTCTGACCCGGGT
CTCCAGACTCACAAAACACAATACACTATAAGGTSTACAATAGCACTGACAGATATTTTTTAAAGGTTCCTCTCATCTCACTATACTAACACAAATGTTT
TCARTTCTACAATCTACATTTCCCCCTCCAATTTTTCTCCTCTTTTTTGACTGCCTTGATGGTTTCAGTGGSTCCTGGTTAAGCCTGTCTTTAAGTTTCT
AATCAAACTAATCCAAGTGAATTTGGCTTCTGACCTTGCTCTCACATATTTGCCATCTCTAAATGATTGATGTCTGCTTGATCCCTGTTGGAAAAGCGTC
TGAAGATATGATCCAGAAAATCTATAGTTGCAAATCTAGCATAATTTTAATGAATCGTGGTCAGAATAGTAAGAAGCATTGCACAGAAGGCTTGCATAAA
AAATATGCATCTTCTGTCATCTTCACCCTCTACAYTGGCCTCCCAAGTCCCCATGGAAGGTATCTAGTACGGGAAMCTTTCTTTTCCTGTAAGAATGTTG
TGGCCAAACATGCTGTGTATTGGATGGATGGATGGGAGGATGATTTATATTTTCATCTCGGTATAGTTCATAGGTCTAGGATCAGAAATAAACTAGAATA
AATATAAATATTGCTTTWCTTAAYGTTGGTTTAAAATGCAAATGCATGGCATACAGAAAAAACTTTTTTTTTTTTTTTAGCTCTGAAAGCTCAATTTTTA
CTACATGATTTCCCTAGTAGAAGTACTTTTTGCAGGGTATAAGAATTTTCTGTTTGCTTATCTGTTTTCAGTCTAGAATGTTCACTTCTTAAGGGCAAGG
AATAGGTTATGTTTACCTTCTTATCTCTGGAGACTTGTATAATCCTAGCTGGTCCTAAGTACTCAAAAGTTTTCTTGAATGAAACAAAGCCTTCTCCGGA
TGAGGAAGCTTGTCAGAAGCTTGAGTGACTGGTAAGGAGGGTGAATCTCTGCTGCTGATTTAYTAAGAAATATTTGGATCTTTCCTTGAAGCTAAGGGTA
TATACCTACTTCTGTGCAAAACAGGTGGCATGGCTGGCCCTTGAAGAGTACACAGTTTAAGGAGACAGTAATGGGTACAGTTATCTTCTTAAAGATCTGG
GCCACTTTGTTCCTGAAAAAGTGTGGGAAGTTTCTCTCTTAGGCAGTCTATCTCTTAGAGCCCAGTACTCACAGCAAAATATTTATAAAAGAAAACAACT
CTTTCATCATCCCTGACATAGCCTGCCCTCAGCCTAGAAAGAAAAGGCCAATAATTGGGACTGTGTGGTTCCAGGAGATAGGACAGAAGGATAGGGCCAA
TTCAACAGGTAAGAAAGACAGCACACTCAAGGGAGCAGACTCCAGTTGATCACCGCTGTGGGCAGCTGAGGCACACTCCTCCCAAGACAGCTATAGAAAG
TGCCTCAGAAATGTCTGTCTCTAGGACACGGTTCCCATTATCCATGGGTCAAAGCTTGCCYGAGGAACGCCAGCTCCTTTGCATTCCCAAACTTTGCAAG
CATGWGTCATMCTGCAGGTTCTCTTGGGTATTCCATTGTAAGGAGTCTGAGAAGCTCCAAGGAAGAATGCAGAAATACGGGGTATAGCTGAGGCCAGGTG
CTGTCTGATCATATACCTGGGAAGCTGTTGTTGATCACGTACCTGGGAAGCTGTCTGATCACMTACCTGGGAACCTGGTTGTTATATCCATGGCTGGGGA
GCAGGGTAGCAGGGAGCAAGAACTGTCCAACATAATCTAGTTTACCTRTGGACTTTCAAAGGTTTGCAAAGATTTACCTCCTACTAAAATGGCTTGTGAG
CATGGAAGGCTTAAACATTAGCAGAGCAGGTAGAAAAATAASGCCTGGTAAGATGCCAAATGGTGGAAACCGAGGCAGAAGATAGTCCTCTGGACAAGGT
CAGCATAATCTAGTACATATGAACTCACTCACGCTCCTGCATCAGACTCCCCTGGTTTTGGAATCTGTCTCTGTTGCTTCCCAGTGGAACCTGAGAACAT
TGTTTAATCAGCCTTGGTTATGTATTCGTCGTCAGATAAATAGGGACGTTAATACCAACCTCATACTGTTTAGATTTTGGATCATTTACAATGAGAATGT
GTTCATCTGTTACCTGTGTAACTGAACATAATAATACTATGTTTGAACAGATTTCAAAAATGGGTTTGGATCTGATTTTAAAACATTTGAAACRGATGTG
GAACAAGTTTTTAAAGAAGGAACCCTATCTCATAAGATTGTCAGGATCATTAAACATCACGAGTATGAGCCCACAGGAAACCTTCAGTAYATCGTGATCT
TCTTGACGGTGGTGAAGAAGGACAAGGAAGACCACCACCATAACACACGGGTCTTCTTTGGAATGGAGGTTCCAGGATCTATGGGGAATTTGCTTGTCCC
TATCCACTCTCATCCCTCCACTGGGGAAGAGAGAGTTGGTGCCAGTCTTCCAGCGTAGGTCATTGTTGGCTCAGCATCTGGGAAGAATCTGGGCCTGCAG
GAAGGACTCCTGGACAGTGCCATGAGCAGCTGATAAAGACCAAGAGAGGGGAATGTGGGGCCTGGTCTAATGAGAGTTACTGCCATAACTGGCATTTACT
GAGCACATCCTAYATGTGACTCTGTTCTAAGTACTTTCTGCATGTCGTGTGTTAGACATCAAGAGTCGAGGCACCCTCATTCACATTCTACACATCATGA
AACTGAGACTTGTAGAGGTTAGGTAGTTTGGCCCTCATCACAGTGCCAGGAGGTGCGGGTGTAAGATTTGAACCCAGGAAGTGTGATTCTTGTAGCAATT
GCTGTGTGGTTGAGATSTGGTCTGGGAAGTGGGGCTAACACAGAAGTGTGGATAGGACAGATTATTTCTGCGCTCCAAAGTTATGAATATATATACTCCA
AAATATGCTTCAGTGACTGAGTGAGACATAAATGGGTTACTCTGTCAGTGATCATTATATTACTCCCCATCCCTGCATGCATGTTAGAAAGGCACACACA
AGCTGGAATAATATGAATGACATTTAATAGACTAYTTACAAAAATGTTGGAAGATCTGGGGAAAACTAACGAAGGAACTTTCCGTACTTGAGGCCTATCA
ATAGCAGGAAGTTATTACTACCTCTAGGCCTGAAAGGGCAAGGAGAAGGGGGCCAATGGAACCAGGAGATAGAAGGCTGGTGGAGARGACCGCCTAACCT
GGGTGGTGGCCATAAAGCGAGGGAGCTGGAGAGAAAAAGACACCTTAAACTCACTTGCTCAGTAGCTCCCATGAGCCAAATCTAGTGGAAAGCCAGAGAA
GAAAGTGAGAAGAGAAGGGAGCCCATAAAGAAGACAGGACTGCCTACAAAGGCCAGTGTCTCAGAGCACAAATGAGGATGCAGATGAGAGCAGGTCTGTT
CTGGCATGGCAAAGGGGCTTGCCCAGCACTATCASCAATCTGCAAAAAGATATTCTTGGGAAGACTCTGGTGTCTGAAAGATTAAAGGGAAAATGCATCC
ACGTGATAAAATATTATTCAGCCAGAAGAAGGAATGAAGTACTCTTACATGCAATAACAGGGATGAACCTTGAAAACCTGATGCCGGTGGCAACGACCCC
ATACCGTGTGGTTCCATTTAGATGAAATGTCCAGAATAGGCAATTCCATGGACACAGACAGTAGATTCGTGATTGCCAGGGGCGTGGAGGAGGAGGGAAT
GGGAAGTGGCTGCTACTGGGTACAGGATTTCCATTTGGGGAGGTGGAAACGTTGTGAAGCTAGATAGTGGTGATGGTTGCACAGCATTGATAGTGTTCCA
GATGTCATTAATGGCCAATTTTATGTTATGTTTGTTTTCTGACAATTAAATAAGCAAATACATAAATGAGAAAGAATTTTTCTCTCATAATGTTTGTTTG
CCTCTTACTCATTTTCTGAGCTAGTCACCAAAACGTATCTGACACTTTCTTGCTTAACCTGGCGGGAGTGGTAGCGGATGYTCCTGGTGCCCCCGTTGCA
TTCCCTCACCTTTCTGCCAGCTCAGCTTCCAGTAGCCAGCGCCTGCCTGTGTTTCTCTGCCTGAGGGCTCTCTCCGGCTGCCAAAGCCCGTGTCCACGCA
CAGCAGTACCAGAGAATTACCAGGTCCCAGGAGCAGCACTCGGGTGAGGACTGACATGCGTCAATGTGTAAACACCAACTTCCCTGCACTCCAGGTGGGG
TCCAGAGCTCAGTGCGTCTTGCTGGCTCCCAGAGGCCCCAGCCCGGTTGAGCTCCAGTTGCCTGCAGCAGTTCCCAGGCTTAGTGCACTTGACTGTGCTG
CCACCTCTCCTTTCATTTCCCCTCTTCCCTCCTGGTTTCTCCTTCACCTTCCAAATCAGGTGGGGCTCTCAAGCCCTTGGCTCAGGATTTATAATAACTA
CGGAGTAATAATAGATAACATGTATTGAATTTTTATTGTTAAAATGTGTATGAGAAGACACTGGCTTGTGTTCATTTTGCCTCTCTTGTTCCCAATGATA
AGACTGCCTTCACGCATCAGGCAAATAACTATAATTGGTTCCTGGACATTAGCATAAACAGAATCCCCTAGGGAAAGTGCTAAAAGTGCAGATTCCCAGG
CCCCACCCATCAACATGCTGATTCCATCTGTCTAGGTGTGAGCCTTGGAATCTGCATTTATCAAGCTTTTCTGGTTCTTCTAATGCAGAATAGAGTAGAA
AGTTTTCATTGAAAAACACTGGACACTGGCATGATGAGAAACAGAGGAGAGGCCACCTATTGGAGGCAGGCACTGGCATCTGGTCAGTATTTCAACAAAT
GTGGTCCCTCAAGTTCTGCAGGGAGAAATACTCCATTACATGTATACATTTACTTTCTCTTAAACTGATGGGATCCATATCCAAGTATGAAAGTTAATTT
CGGTATTTAATAATCATTAAGTAAAGAGAGAGTGAAATATCTACACTATGTAATTACATAAAACATGCTTCTGGCARTATTTGCCCCCTAGGAAATTCAA
ATAGGAAGTCTCCAAGGAGCAAGGTTGTATTCTTGGAGGTGGACACAAAGTAATTGAGCTTTGCTAATGGAGATAATTAATTAGGAAACGGATGTGCTTG
CTTCTGAGAAAAATATTGGAAAGATCTTYTGAGAAGGCCTAGCCCTCTGCTCTTGTAATTTTCCGAAGTCTGTGCCACCCTGAGGACTGGTGCTTCCCCT
GAGCCATGACCCAGCCACAGTTAGGAATTAAGGGAGCAGAAAACACACAGCCATTGCCCACAGTTCAGGCTGGTCCTAAGAATGCCTGGGCCCTAGGAAC
ACACTATCTCCAGGAAGCAGCTCTGAATTAGACCTCGGGTTCAAGTTCCAGCCCCCACTTATCAGCTTTCTGAACTTAGCCAAGTTATTCAGTTTCCATG
GAGCTTAGTGTTCTCAGCTTAAAACTAGGGGTTGTAATAGCAGAAACAGTCATCAGTATCCAGTGAAACAATGCTCTGCAGGAAAATAAGTCGTAGATCA
GAAGATGTCGCCCTGGTGTGGTCTTACTAAACCTTCCCTGTCTCAGCCCGGGGTCTTGTTTATTGCATCTGGGTTACCTGTTTGCCCCTTTCTGTCCAGG
TTTGATCTGCAGGAACCTAGCCTTCTGGTCTAACCTTTCTAGCTTGTCTGCTTATCACCCCAACCTCCCCGCTTTCTGGTTCCAGATGCTAGCCTGTTCT
TGCCTTGTATATCTGACTTGCTGAGCTCACTCTTGGTGCTGCAAAGTGGCCATGCCATGAATCTTCCATAGCCCGATGCAATGTCACCCCAGTGACACGG
AAGGATGGCCGTATGGTGAGAGACTGCATTCAGACCACTGAGCCTTCTCTTCCCTAATTATATCATGCCAGAAACAGCTAGACCAAGGAGTCAAGCACAC
AAATATAGTTGGACCAGAAGGACCAGCAGCTCTCAAGGGGTAAGAGAATAAGGAATCATGTGAGCATTCATGGATTGAGGAATGCATCCATTATTCAAGC
AAGTTGATAGAGATAATTAATTAGGAAATGGTTGTCTTACTGTCCTATTCACCAAGCTATCCACACCATCTAGCTCAGTCCATACTTTCTTAATGAGGGA
GAAAATGAGACTCAAGCCAAGAAGGCAAAGACTTGATGTGGATGATATTTTTTCTATTTTTGCTTTCTGGTGATGGTAGACATTATATTACATATTATTA
GGTTAAGGTACCGATGGTTTTGTTTTCTGTGTTGATAAAAATTGTGCGCTTTTTATTCTTTTACAGAACTAATAAAAACATGACACATTAACCTTTGACT
TGTCTAGTCTCCTCTTTTATTAAATCTGCTCTAAGCAGTTGGATGGGGAGTGCCTTTTCGCCTGTCTACSCCTTCCCAAGGACTATTTATATTGAGGCAA
CCAAATGATCMAGGAAGAATTCRTGAATAGCCATGATCAAAGTAACCAGACAGGGAGTTAGAGGTTCAATCGTATTTGGGGAAAATGGTCCAATGATGGG
GAAAGGGCCCAGGTTTTGACACCTGAAGACATCCCTGGATTTCAGGAATTTGAGGCAGATCCCTAGAGCTCAGATCYAGGATTCAGAACGAAACGGTGAC
TGTGAGAGTAAACCATGGTGTCTGACATAAGGGTTTCCTTGATTACCCTTTAAGGGCCCCTATGAATGTCTCTGGGTCATCAGTCCCTTAGATAACATCA
TGTGTCTACAGCTGGGATAGCAAGTAGGTTTTGTTTTGTGGGTCAACTCACATGAAGAGGATGCCTAGRTGTCTGCGGTGAGCAAGATTCTAGAGCTCAT
CAGGAAAGTATGCTGTAGTCAATTAGTGATGTCTGCCATGTGCACGGGTAGAGAAGTTATGTCATGCATACCACAGACTCACCATCTCAGCTTAATAGAC
CATGAAGTCAGGATCTGGGGAGCTACCTTAATGTATGAGGACTGTTTCCAAAATATTTCTGAAAACTATTGATACTAGATCCTACCTGGAGTCTCTACTG
GTTCCATAGCATGGAACTGTTTACAATTGCTTTTGATCCTTTTTCCAAATGATTGAGTGCTTTGGCATAAACAGGTCAGGTACAGAAAGCACGGCATTTG
AGAATTATCCTCTGCAAACATGACTTGCAGGCATAGCCTGAGCCCACTCAGAGCCCATACCCAAGTTGTGCTTTCTTAAGGCCACAGCCTCCTTCTGAGA
GCTGAGGAAGATAAGGGTGGAGGACAAACAACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTAT
TTAATGTGTAGTATTCTTGGAGCTGGGAAATTTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACC
TGCAATAACTCAGTGCGCAGACATTGCCAGGCAAGGCCTTTCTGGGAGAMATGATCCAATGAGGGGAAAAAATACTTCAGTTTTGTTGAGAGATGATCTT
AATCTGTTTGAGCTGCTATATAAAAAAATACCATAGACTAGGTGGCTTAAAAACAATGAATGCTCATTTCACAGTTCTGGAGGCTGGGATGTTCAAGATC
AAAGCGCCAACAGATTTAGTGTCTGGTGAGGTCCCGCTTTCCTCATCCATGGTGCCATCTAGCCGTGTCCTCACTTGGCAGAATGGATGAGGGATCTGGA
TGGAGCCTCTTTTATAAGGGTACTAATCCCATTCATAATGGCTCATCCTCATGACCTAATCACCTCCCAAAGGCCCTGCCTCCTAACACTATCACCTTGG
GGGTTAGACATTTAACATATGGATGTTGGGGGGAATAAATCTTTAGCCTGTAGCAAAGATAATGAGATCAGGTGTAGGTGATTAAGTGACATCTGGAGAA
AGAATTATTAGCTGCTAAGAAAGATGTGTTTGTGCCTGTGTGTGTGCACTTGCACATGTGTGGATGTGTGTGTGTGCATGTGCTCTGTGTGTGTGCTTTG
TACACAAGGCAGAGTTTGCAGTCTGTGAGGGGGCCAGCAGGTGTTCAACCCCGCCTGGCTCAGGCAGCTTTCGCTTCAGTTGGCTTTTATCTCTTCCTAT
GTGCCCTCAGCCCTGTGTCCCAGGGAGAGGTTTAACCAAGTCTAGAATGTTCCACTCTGCTTAGATGCCACTTCAGAGGTCTTAAAACAGAACCTTTGTT
TTAAGCAGAGACAGTCCTCTTTTTGATACGTGGTTTTCAGGTGCTCCCTTTAGGAATGGCCGCCACCCACATATCATGGTTCCTCTAGTGGTTAAATCAT
GATGAATAGGCACAGAGAGCTGATAATTAAGGTAGGAAAGAGTACCATATTTCTCTTCTGCATTATCCCTAGTGAATTACAATTTTTTCTCCCAACTGCA
AGTAGAAATGATAATCACCCTTAGCTCCACTTCCACACCCTTCTCAGAAATTTGGGTAATGCATCCTCATCTTAATTATCAAAATACAGGGTTATCATTT
GCAGAGAACATGTGTTTTGTGTTTGTGGGGTCTGGAGAGAGTGATCATACAATTTCTAATTCAAAGCAGAATACYCTTGAAAGTAAATCAGGACTTTCCT
GTTGAAACTAGAACAGGAAGTCACCTTAGCAGTGGTAGATCTTTGAATTCGTCTCCTCCTGGTTCTGCGGAGAGCCATGAGAGACTAGAACACAATCACC
AGTTAGGATCAATACACTTATAAATGCAGAGGGTCTTAGCATCCATTTGGGTGCCAGCTTCCCTTGTGTGATTGGTTACTGGTGTCAACGGAGATTGTAT
GGGAGAGGAACTAAAGAATGCAGGCTCGGCTTTTCCCAGAGGCAGCAGTGCGATGCATGGGTCACAGAATATGCCAGAGAACAACGAGGCCAGTCGCTCA
CTGACTRTGGAAGATGAGTCCATTATTTAATCACTCTGGCCTTCGGYTTTTCAGCTCTAAAAATGAGAATATTCCTTTCCTCARTGATTATTGTTATGAT
TCCCGGAGATAACGTGCATGAAAGATTTTAGTGCAGGCCTTTCTTCCTTCCGTTGACAACCCAGAATGTTGCTTGATGCACAGGGGAAATAGAGTGATCA
AGAAGAGCCTTTATAAATGAGAGTTGATGTTGAGTAATCATTTTGGGTATTATCAATACCCATGGCCATAACACCCCCACCATGTGGAACAACACAGGGA
ACACGACTTCTTACTCAAGCTACAACAGGAGAATTCTTCCTTGGATCTCTCTTACACAGACAACATTGTCTGTTTTTCATCAAAATGCTAGAAATGAGAG
CTCAACATTTGTAAGCTCTTGCTTCGTTCAATAAAGATTGTGTATGGGAAATCCACTGCTTCTCTCCCTTCGTAGATGTAGGAATCTGCCTCAGACATTG
TACAAATGGGCAGAGAGGGGAATGGAACTGAGTCTTACCCATTACGTTTAGGATTTCAGGGCTGCAGGTCATCTGTTTACCTAAGATGGAGAGGCCAAGT
CCTCTCTCATGGTAGCTTTGAAGCTGGTGTCAGGGAAAGGTCAGTGCCTGTGAACAGTGATGGAAGGTGTGTAAAGGAGGAGGCAGGGTTTAGCACAAGG
GGTAACTAAATCTTAACTTCTGGGATACTGGGTGGTGGTGGGGTTACTATTTCCAATTTATAGCAAGATGTAAGTGATATCAGCTGGAGGACAACTTTAC
TGGTCTATGTGGGTGTATTAGTCGGTTCTCAAGCTGCTAATAAAGACATACCTGAGGCAGGGTAGTTAATAAAGGCAAGTGGTTTAATGGACTTACAGTT
CCACATGGCTGGGGAGGCCTCACAATCATGGCAGAAGGTGAAGGAGGAGCAAAGTCACATCTTGCATGGTGACAGGCAAGAGAGAGCATGTGCAGGGGAA
CTCCCATGTATAAAACCATCAGATGTCGTGAGACTTATTCACTATCACAAGAACAGCATGGGAAAACCCTGCCCCCGAGATTCAGTTACCTCCCACCCAC
TTCCTCCCATGACATGTGGGGATTATTACAATTCAAGATGAAATGTGGCTGGGGACACAGAGCCAAGCCATATCAGTGGGATAGATATCATTTGGAATAT
GGTTGCCTTCCATTCTGATCTCATTCTATCAAAGTTGGTAGATCCTAACATGGTGACCCAGCRAGAGTCTCTTTTCAAACTGGCTGTCCTCGGGGGTAGG
AGCAGAGCCAGGGCAAACCGTCAGGGATGSTAAGTAAGGAGCTTCAAGGGGATCCAAGGCACCTCCTTGGACTCAGACATGCTTGGGACCGCGTTCGTAG
GACAACTTTTACTGTCCATTGCCACAATGAAACATGGCAGTGACAGATGTAGGCCCTCAGTGATCACAGATCTATATGGCAGCAATGGTTCAAGTGCAGA
AATGACAACAGTGTTTGTGATTTTACCTTTTTGTGAAGCTGGGTTACTGGGGTTTCTGTCCTGGAATCTCTAAACAAGTAACCACAGGGTAGTTGCTTGG
CTCTTGCCTCAAGTGAACCAGCCAAGAGATCTCGTCCAACACTGGTATAGCCTGGCAGCAACTGCTACTTCCAGGCTGTGTCTCGAATGCCCTGCTGGGC
TCCATGTGTATCTGGGAACATGGTTTCTGATCTACAAATCTAAGCCCCTAAATACACAAAAGCGCTAAGGCAAACCATATGCCTTAGGCTCACTTTTAAA
CCTCTCTGAGCTTCAGCTTCCTCAGCTGTAAAAAGAAGCCATGATCACAGGCATGTTTATGCACTAAATCAAATAATGAAGCTCACAAGTTCAGCCCTGG
TCATCACCATTCAAGACTCTGAAGTCTATCAAAGCAGAATTCATGTTCTCTGGTTGCATTTTCCATCAATGGAGACTCAGAAATATTTATTGAATAAAAC
ATCAACTATGACAACATATTTTACAGTGTAATAGTGAAAACATCATTCATCTGATGACATGCTTCTTTTGAACCATTTTGGGATGGTTCTGATATTGTTT
GTAACAAGAAATAAAGATCCGAGGATGATCAAGTGAGCATTCAATTATTCTTACCTTCATTTAAAAAATATATTTTCAATATTAAGGAATTTGTTGTTAT
TGTTATTTACAAAGCAATAAAATAAGGTAAGAAAAATGGAGAGGCCTGGGTTGGTGATTTGGTCACCAGGCAGATTGAGAATGGAAAGAAAAGGGAACAG
GGTAACCATGTGACCAATTTGCTTCTTGGAAAAGGGACCAAATAGGACCCAGAGAGGGGCTTGGTCAGGCTTCCTGGTCACTGCCAGTGCTGAGACATTA
AAGATCCAGGCCCCACGGAGAACCAGGGCACCTGGACTTTGATCTTGCCATAATGGYATGCCTCCATTTAAGAACTAGGTCAGCTGTCTTTCACACCAGC
TGTGTTCTTCATGCTTAGGGCAATAACATGTATAAAGTAATGGGTATTTTTCTAGTAGGGTTAACACACTTACTCAGGTTTATTCTTCTAACTTGCCTGC
ATCCAAACATTTTTTTTTTTTTTTCAAGATAAAACCAGCCTGTCAAACTGTGCAGTTGACATTACTTGGTAGGATGCAGAAAATATCTGAATTAGAAATG
GGCCCATACAGGTTCCAGTGGGAATGGCTTTCTCAGCAGGTATGAATCACTGCTATTAAAAATGTATTCCGTAGGTAARTTGTTAGTTATCATATTCATC
CACTCTTACAGAAAGCCAATGTTATCATTTGGGTCCATTATTAAGACTATCATTATCATAGTCAGTTTAGTAACCTCCTTTTACATAACATTGGATTTTT
TGTGGGTTTTCAAGTCTCTTCCAAACTGAATCTCACAATCTAGGTTTATTTTTGAGGCCACCTTGCCTGAAGGCTCGAGGATGACAGGAGTGACTTCCGT
CACTGCCATATTTCTTCTACACTTGAAGATTGTTTTCTGGGATGTTGCTGCAAATGGCAAATGTGTTTGATGCCCTAATGTTTAACATAAATCAGGATCA
TGGATGTGCATAGCCCCCTCCCGTTTCTGTAAAGTATTGTAAAGGGACTCCTGTCCTCAGAGTGCCAGGCCTCACATTTACATTCTGGACAAACTGGGCT
GTCTGCTTGAAAGGGCAGATACCACAGGTTGGAGCAAACATAGCTTCTGAAGAAGATGTAATGCATTTCTGTCCCAGTAAGTTGTGCCTGATTAAGATCT
TCTCATAGCTGGGGGCAGTGGCTCACGCCTATAATCCCAGCACTTTTGGAGGCCAAGGTGGGCTGATCACTTGAGGTCAGGAGTTCGACACCAGCCTGAC
CAACATGGTGAAACGCCATCTCTACTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTAGCCAGGCATGGTGTTGCATGCCTGTAATCTCAGCT
ACTTGGGAGGCTGAGGCAGGAAAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGTGCTATTGCACTCCAGCCTGGGCAACAAGAAAC
TCTGTCTCAAAAAAAAAAAAAAAAAAAAAATCTTCTCATGACCCCGGGTGGGTGGCTGGGGTGGGGTTGGTGGAGGGAAATAAATATGAAGAAGAATGGT
GAGACAACCAGTGGGCATATACTGTGTAGACTACCAGAAAGCTTTGGAAATGTGTCAACCSTAAAGCATTGCTATTTTTAAATATTTAGTTGTATTTTAA
TATTTAGCTATAAATGAAGAACTTGGCTTGGACACAAAAATAACAAAAAATTAATATCTAAGAGTCATGTTCTCTGTGGAATAATCTTAGGGCTGGTCTG
TCTTTACACATTTATTGATGATCCAGAAGAGGAAGCACACAAGTTTGTAGATTAGCCTAAGCTATTCTGGATAGAAAATACACAGGGCCCTAGCACAGCC
TCGTGGGCAGAAGAGTTCATCTCGTGAGAATGAGCAAAGAGACACTTAAGAAAAAAATCTGATGCCCAAAGCCTTTCATATAGGTGACCATTGTACACAC
AGTAATGAAGCAGAACTACTGTGCTCTGGAAGCCACTATGCCCACCGTTGTTCATGAATAAAAGAAACATGGTAGATATCCTTATGCATGTGTGCACATG
CAGCACACCTGGCCTGGCACAACCTGCTCACACCTCTGGGAGTCACCTGGGTGTTGGCTGAYGCAGCCTGGCCTCGGCTGAGCTGACTGTCAACCCCGCA
ACTGCCTGTCCCATCATGGACCAGAAGCAGAGCCAGGGATGAGGATGAACGCTCTAGTTGCCTGTGGCAGATAAAGAATCAGTCATCTAGCTGGGAAGGT
AAAGGTTGAGAGGAAAGCCAGCCAATGTCTATAAAGACACATAGGAAATGGGAGAATAGAGCCAGTGAGGGACATGCAGAGAAACACCTAGATTTTGGAT
TCATTTACACATTCAGCAAATATTTATTGGGCATCTATGGTGTACCAGGCGCTGCACTGGACTCAGARATAWAACAATCAGCCAAATGAACAAGTCTGGA
CCTTCAGGGACCCTCGTGGAGGTGTTACCTACAAGTGAGGAAAGGAAGACCAAAGTGTTTGTTAGTTAGTTACTATGCATCAGGTACTGTGCACCTCAGA
GGCCACCTGCAGTCAGTCTCCCTATATGCCAATGGCTGCCAGCATCTTCCTGCTTTGGGGAATTCTCAGCAGCCAGTAGCAGCTTGCATAGCCTGAGCAT
GTGGCAGGTGGGACTTGATGCAAAATCCATACCCAGGAAAAATCTTCAAGCTATAGGGGTGAAAGTTGGTGAATGGGTGTCCCAGCCTCCCTGCCCTTTG
GTGGGACAATTCTGAGGCCTGTGCCATTAACTTCGGCAGTACCTTACTCATTAATGCACCCTTTACTGACATTTTCTCCTTCTCTGTCTCACTTACTACT
TGGGGAGATTGTCTTCCAAATAAACTACCTGTATCCAGGTCCTTCTTATAGATCCACTCTGGGGAAAGGCAAGCAAAGAAAATACATTATAAGCCTGTTG
TACTATTAGGGATGGTGACTTCCAGAAGCTGACTGTGATAACCTTTCCTCGGGCTTCAGAAGAGGCTAATGGAGAGTTGAAGGGAGAAATCAGGAAAGAT
GGTCTSCCCTCAATATTCTGACATGGGTTAATAAGGAGGCACTGGTTCTTAAATTGGGATCTCGATGATGCTGGACTAGCAGCAGCAATATCACCTGAGA
ACTTGCTGGAAATGCAAACCCTCAGGCTTTACCGAGACCTCATGAATCAGAAAAGCTGCCAGCAACCTGTATTTTCACAAGGCATTCAGGAGATTCTGAT
ATATGCTGACAGTTAGGAAACACTCATGTAAAGCATGTCTATCTTCCCTTCAATTATGTTTTTCATAATCTGCAAATAGTTCTGTCACTTTTAGGGGATA
TGGCTGGACAATGAATTATCTGTGGCTTCATTAGAAAAGTACATGAATTATATTGTGGACAGCAAAGTTATACTGAAGTGCTGAAGGGAAGTCAAATGCT
TAGGAGTGTAAGCTGCAGGAAGAAATAGGCAGAGAAGCTGGGATAGTTTACCCAGCATGGTAACTTCTATGTTATTAGGCTCAAATGTTCACACTCTGCC
TTTGAAATAAGTCATTAGAAACTATATTAGTCTGTTCTCACCCTGCTTAGTAAAGACATACCCGAGGCTGGGAAATTTATAAAGGAAAGAGGATTAATTG
ACTCACAGTTCTGTATGGTAGCGGAGGCTTCACAATCATGGTGGAAGGCGAAAGAGGAGCAAAGTCATGTTTTGCATGGCTGCAGGCAAGAGAGCATGTG
TAGGGAAACTCTCCTTTATAAAACCATCAGATCTCATGAGATGTATTCACTACCATGAGAATGACATGGGAAAGAGCCACCCCCATGATTAATTTACCTC
TCTCTTGTTCCTTCCATGACATGTGAGAATTATGGGAGCTACAATTCAAGATGAGATTTGAATGGGAGCCCAGCCAGACCACATCAGAAACCTTCTGAGA
GGATGCCTTGAATAGGTGATATGGCAGTGTGGTCCTTAGCAATCAGAGGAGAGAGAACGTGGGTTCTCTGTGAATGAAATTTATATTCCTAGTTTCCGTG
GAGCTGTGTGCATGAAAAACCTAGGTTCTCAGTAGCTGGGAGGAGACCTGCACAGGCATTGGTTTTTAGTATATGTGGTAGGCAGCTTCTAAGTGACCCC
GGTGATCCTCACTTCCTGGTCTTCACRGCCTCAGGTAATCCTCTTCCCTTGAGGAACTGGCTTCTAGCCAATAGAGTACCTCAACATTGAGGGAGGTGTC
TTCTGTGATCGTTTTACAAAAGATTTTGCCTTCCACCTTGTTAGATTCTCTCTCTTGCTGGCTTTGATAAAGCAAGTTGTCATTGTTGAGGAGGGCCATG
TAGCAAGGAGCTGGGGGTGGCCTCCTACCAAGACCTCACCAGAAACTAGGAGTCTCAGTATAATAGCCTCAAAGGAAATGAATCTGCCAGTTATCATGCC
ATGGACTTTGAGATGAGACCCCAGACCTGGATGATCCTTTGAAGCCTTTTGAAGCACCTTGAAGCAGAGAAGATAGCTAAGGCATGCCCTGTTTCCTGAC
CCAGTTAACCCATGGTTGAATAAGTACCKCTTTATTTTAAGCTTCTTAGTTTGTGGCAAGATAACTAACACAYACATGAAAGTCTAGGCTTGGGTATCAT
CAAAGGACCTGCTAGCAGAATTCTTGTACATGAAAACACAGTTGTGCAGGACATATCTGTGCACCTCTTTGCTGAAAGCAACATCCTCAGGAAGACCACT
TCCCAGCTTGCGACCTAAACATTTAGSTCTAAACACTTGAGCTCTAAACATTTAGTTACTCGCTCTCCCCTGTATTAATGTATGCTGCATAAAGGACCCC
CATTTTCCTACATTAAACCCTGTATAAGAACCTCCAAGTAGACACTTATGCAAACATGCCAAGATGCAGGACCACATCCAAATGATAAGTTGCTGTCAGT
GAATCATTAATGAGCACTGCTGTGCACCCTGCCACATGTTAAAAGGTAAAATTACATTCTGATGTTTATTTGAGCTATTGCCTATTGCCACTTGAGGCAT
ATTTCATGGAATGATAGGAGTAGAGCAAGGTATTTATTTTGCATTATTGACCCAAGGTGCTATCAGAGTCATGAGGTCCCCATTAAAATTCCAGTGAACT
CTTAGATTCTGCCATTCCTAGAAAATCTTATAACATTCTTGGTTCAAACTTCTCATCTGTGATTTAATGGGATACACTAAGGTACAGTGAAGGCCTGGAT
TAAAATGATGTCATTTATTTGCTGCGTACATGGTCCTGGGCAAGTAATTGAAACAAACTCTGAACTTCAATGTCCACATCTGGATTAAAATAAAAATAAA
ACATATACTTAAACACTATGATCATAAAAAATTCAGTGCCTGGCACTTAGTAGGTACTCAATAATTCTGTCTCCCCAGTTAATTTATTCACTTGCATATA
GAGCTATTTATGCAGAAAAGTTTATGTGACAACTACCAGATATGGATACTTTTATAGAAGAGTATCCATAGGAAATGGCTCAGCCTTCTGTCCTGCAATA
AAAAGTAATGTTTGACTCCAAGTACATGAGATTGAACAGAGTTATTTGAGCTACTTTTGATAAAATGTGACAGGCAGACTTTGGTATTTCACCACCCCAA
CATTTTTTTATGGACTGCTCACTATCACTRCAACATTCAGCACTTTTTTCTGTGTCAATGTGATAGACAATATTCATATTCTTCTTGGGTAATTGCCTTT
TTAGCTGAATCAATGGCTTGCAGGCATGAGAAGGAGGCTGTTTTATCTCAACTTTATTTATCTTATGATTATACTAAGACTATAAAACTGAATCTCCCCT
CCTTCCCTTCCTCCCAGGCCCATTCCCAATCATCTTCTAAAACCTCTGTTAATACTCAGCTTTTTTGGTGAATTTTCCCACTGCCATGCTTCATGTTACC
AAAATATTTCCCTTTTCTGACAACATTCCAAATATAAATAAGGACCTACTGAATGAATGAACCACCAGTATGATTCACCCAATCACTCATTCAAAAAATA
TTCTTTGAGGATTTACTGTGGGCAGACCCTGGAGATATAAGAGGGAGGGAGGAGGATGACTATGCCTACTTGTAAAGTGGACAGCTGTGGTCTCTTCTAG
AAAGGAGGAGTGCCTATAAAGGAGGCGCCTTGGGTATTCTTACTGAGCATAACAGATGGAACTGAGGAGTCAAGGAGGGAAGCCTTCTCTGATTATATGA
CCATGGAGCTAAGATTTGAAGGAAAACACATAATGGTGCATGTGTGTGGGGAGGGTGGAGACAGGAGGCAGTGGAGGAGCTAAGTATCCCAAGGTGGAGG
AGGCAGCGTGGGCAAAGTCCTGTCGGCYGGAGGAAGGGCATGTTCTTGGTACCAGAAGCAGCTCAGTGGAAAGGATCCTGAAGCGGAGGCTGGTGGGCCG
AGTCCAGACCCTGGGGGCCTTGTCAACCTAGCTGCTTTGTGCCTGGGGCAATGAGGAGGCTGTGAAGCATCAACAGGGAGATACAGTATTTAGAGTATCT
CAAAGTCTCCCTCTGTGTGGTGTTTGGATCTTTCTGAATCCTCAGATGTAATATAAATTATTTGAAAGCAAATACCAATTTGCTTCTAATTCTGGATCTC
TTACTCAGGACTTGGTTGCCCAGAGGAGGTTTAATAAATTCTTTTTAACTCTACTTCCCACCAATTTTTCTCCCTTCKATCTGTTCCTATATCTCTACCA
TTCATGGCAGGGTTAGCACGTGGCTCCAATGGTGAGCAGGAAGGACTTCACCTCTTGTCTGTCCCTTAGCTTTGGTGTGTGCTGCTCCTAACGTAGCTTT
GGAGTTGGAGTTAAGAACCATCTCATGGCATTGTTGGGTTAGGTATTCTCTGGGTCCACTCAAGCTTCCTATCAGTTTTTTAGGGACAGAAAGCTACTGT
GCTGACCTCAGTCAAAGCCCCTATCTGAATTCTTGAAAGAGACATGATTGTTAGGTCACTAATTGATTCTCCATAGTGTTAGAACAGCAGGAGATTTGAA
CACAAGGGCATGGTGCTATACCATGCAGCCTGGTAGAGTTGAGCTGAATAACTTTTAGGTTTGTAAGACAGCACATTTAATTTTTAACAGATTATGTACA
AGATATTGAGTGACATTAAACACAGAGTTAAATCAACCATAACCCATTTAAAGCAGCCTTGCAGATAAATGTCTCAAATCTACTAGCCTGCCAAATGTAT
TCCTTATCTACACACATTTATCAATTTTTCYACAACACTAAGCCTTTCTAATGTTTCTCTGACAGTTACTTTCTCTCCCAAGCCTGAAATTCGGGTGACA
TCTACTTTCTGTAAACTAGATGTGCTTGACCAGGGAAAGCCCCTAGATTTGTGTTAATCTTTTGGGGCCACTGACCCTTCTGGGACTCTGATGAAATCTT
TAGTTTGCTGTCTAAGTAAAAAAAGAGGTGATATAAACATACACAGATTTCTTTTTGCATAATTCTATTGTGTTGCTTTTGAAATTGATTTTATTCACGT
TATATATTATTCAAATACATCTTTACTAAAAAGTGTCACTCACTCTATATATTTTATATATAAATGAAAGATTACTTTCTAACAAAAATTAGAAAAAACA
CAGTCAATGTAAGTTAATCAGAAAGTAAACCTTAATTGTATTCAAAAGTAAAACTCAATGGGAACACCGTTGTTTTGTAAGAGTAAGAAATTTTGGTAGT
CACAAGGTCTTTGACATGGCAACATGAATGACAGCTTTGCAGTTAAGTTCTGCACCTTTGGTTTTGATGGCAGCAAATATGTAAAAAAAAGTCATTGATT
CAGGTGATAGAAACAAAATCAGAATGCCCATAGCTCATGTTGCAACGAAGGCTGTAACAGGAAAGCAGGCCCTACATGACTCTTATCATTTCATTTATGT
CCCATGATTTCTTCAACTCAGTTAGKTCAACTGTGGTGGTTTCAGTGGGATGCTATCTATGTATGTTAATTATCTATTGTTGCATTAGAAATTTTCCCCA
AATTTAGTGGCTTACAAGCAAGTATTATTACAGAAACATTGCAATGAGGTACTTGTAGTTCAGAGTCTTTCACGATACTGTTGTCAAGATGTTGGTTGAA
ATAGGAGTCATCTGCAGGCTTGACTGGGGCTGGAAGATCTGCTTTCAAAGTGGCACCCTCACATGGCTGGTGGTAATAGGCCTCAGTTCCTTACCACAAT
AGGCTCTGCATAGGACTCTTAAGGTATTTACACAAAATGGCAAGTGGCTTTCTCCTGTGTGAAATATCCCAGAGAGAAAACCAAGGAAGGAACCAGAACA
CCAGTTATGTCCCAATTTTGGATGTCATATATTGTTACTTTTACCATGCTATATCTATTAGAAATGCATACTGAGTCCAGGTCCACACTCAGAGGGAAGG
GAATTAAACTCTATGTCCTGAAGGGAGAAAGATCAAATAATTTGTGGATATATTTCAAAACCACCACACTATGTCATCAAAGAAGGCGTTGTATATTCAT
GATTCAGTTTTAAGGTGGTTTGGGTAAAGTTAATAGCACAGTTGATCCATATTCCCAGGTACTGGTGATTTCCATCTGAAGAGAACAAGATGAGGCTTTG
TCACTCTCACCCCAGACTATCCTCCAACATCCTTTAATCACCTTTAAGGGGGCCAAGGCATTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACA
GAGTCTCACTCTGTCACTGGGGCTGGAGTGCAGTGGCGTGATCTCGACTCACTGCAACCTYTGCCTCCGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCT
GAGTAGCTGGGATTACAGGTGCCCGCCACTATGCCCAGCTAATTTTTTGTGTTTTTAGTAGAGACGGGATTTCACCATGTAGACCAGGCTGGTCTCAAAC
TCCTGACCTCATGATCCACCTGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCTGGGCCGAGGCATGTGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTAAGTTTTTTCATGAATTCAAAACATAGCCAAATGGTTTTGAATATATAGAATTTATATTTGCACTGCTGATAATAGCTTG
TAATAAAGCTGTGGAACTATACTGTTTATTGTTGCCCCAACATGACAGTGCTGGTGAGGAGGAAACAAAGACTGGAGGATGTAATCTACCCCATAGATGA
GCTCCTTGAGGATATGGCTGCATGTTAATGTTCCAGCGCAGTGATTGGCACATAGGGGCTATAAAGAARTATCTGTTGAATGGATGAATGAATGAATGAA
TGAATGAGTGGAGACTCATGGAATTTAACTTGGACAGGCAGGTTCTAACTGTTGCTGTAGGCCTAGGAATACCATGTTCAAAGTATGGAAGATTGGAGCA
TTGGTAAGAATGAGCTCTTGAATTCTAAGGYAGTGCTATCTCTAGTCTCTTTAGTGTTTTCTGCCAGGTTGGAAGAGTCTTTGCATGTCAAGCATATGTT
TGCCTTCAAAAACAAAGGTGAAAGCTGGTTGGGATTGCTTGCTTTTAGTGAAGACCAAGGCAAAGAACTCTATCTCCTGGGTACTCTCTGTAGATGGTGG
GAAAAAGGAAGAGAATGTATCAGGTAGCTTTTGCTCTGTGACAGACAACTACAAAACCTTGGTAGTATATTAACAAGCAGTGCTCACTGCCCATGCATAT
GGGCTCAGCCATCAGTTAGGTGGCTCTGCTGATCTTAGCTGAGCTTGTTCACGTATTTGAGGTRGGCTTTGCTCCGTGACTTTCCCATATTGTAGCAGTG
TAGCTTGGGCATGTTTTTAGAGCATTGGAGGAGGCATGAGAGACAAGCTCAATTCTACAGGTGATTTTCAAGCCTGTTCAGCAAGCAATCTACTGGCCAA
ACATCCCATGGCTGAGCCCATTGTCAAAGAGGGAGGGCACTGAATAGCTCCATGGCACAGGGGGGCGTGAAGAATCGGAACATTTTTTACAATCTATTAC
AGGAAGCCAAAGAAATAGCTAGTTTTTCTCTGTTTAAGAAGGGTTCACACACATTGCCTTTAAAAGGACAGATAGTAAATATTTTAGACTTTGGGGCCAC
GTACAGGCCCTGTTCTATATTCTTTTTTTACTTCTTTTCCTTTTCTTATTATCCTTTTTCTTTTAATAATCCTTTAAAAATGTAAAAAAACAGAGATATT
CTTAGCTTCCAGGCTGTATAAAAATAGACCGCATGCCACATTTGGCCCGTGAGCCGTAGTTTGTTCATCCCTAGTTTAAGAAGAAAAAACATCTTCATAC
TAATAATAATATACAATATTCTGTTGGCAAAAGACATTTTGATACCTGTCATTTAATTGATCTTCATAGAAGCCTGATTGTTGAAGGTGGATATTTCTAA
TAGCTCCCCTTTCATATGGGGAGAGATGGGAACTTATGTGATGAAACTGGGATTCAGGCTGTAGTAGGGCCAGGGAGGGTCACTGATGATTACCTGAGGT
TGCCCTGCCAAGGACAGCTGCTTGTGTCCTCTGCCTCTGAGAACTAAGCTTCCAGGAGGACCACCGGTAGTAGGGAGTGCATTCAGCTCCATCCTCCTGA
GAACATACACTCTGCAAGTGGAGAGAAGCCATCTCATTATGTTAATTTCAACCCAGCCCAGACTGAGAGGAGGCTGATTTCAAGGGCAAAGAAGGTGAGG
CAGCCGATTCCCAGGTCCCATTTCCCTTGCTCCACTTCATTAACRTGGCCACCCTTAATGCGTGTCATAACTCTGCCTTCCAGCAAGATTTCCTCTCCAC
TAAGAACCTTTTAGAAATGGTATTTAAGAGAATGTGCATAAAACAAGTCTTCATGGTGATTATGACATTTCTSCTGAACCAAAATGTAATCAGTACACAC
ATTTTGCATCCTTACACTTAATCCACAAACATAGCTTTTACTGTTTTACCTTCTCCCACCCACAATCCAAACAGTGCCACAGAACAAACGTAACAGGATA
TTAAGATAATCTCTTTTGTCTATGCCAAATGTCATTTAGCTGTTGAGAGAGGAATGTCCCATCTAGKTTTTACAAACAATAAATAATACAGCTTATGAAG
GTCCACATGGGTGACACTGATGCAATGTTTCAACAGTTTTCCGAAAAAGGAAAATAAAATGAGTCATCCAATTAGTTGGCTGGGCATTTGCCTGCAAGTT
GCCAGAGAGCTTTGTTGATTTATCCCAACTTGGCTAAGATTGGCTTACTCTAGAAGTTCGCCTGTTACAGAAGTTTGGTCTTTACTAGGGTGACACAAAG
TATATTTTATGGATATTAGTTCATCAGGATGCTGAGAAGGGTTATAGCATCAAAGACAAATATGGCTGAACATATTGGGGATCATTTAGGTTAAAGAAAT
TTAAATGAATTTTTCCTGCGGGACTTCTCARAGGCTTTAATCTGTGAATGTGCATACTGAATTTCCAAGAAGGGTTTAGAATGTGCAGCAGTTTCCAAAT
CTACTTGACCTGGGAACCCTTTTGTTCACAGGGCATCCCATGAGAGAACACTTTAAAGAACAGACGATGAGAATCAGTACCATGCGTAAAACGTGACCAA
CGTTCTATGCAGAGGAGATTTTTGAAAGTATCCCCACCAGTGAAGAGTTACCGTGTATGTGTATAATGTACATAAGTGGACATTAGCTTGTATTTTCAAA
TAATAAAGTCAAACTTTATTATTAAGGAAGATACAAGAATTAGGGCTAGTAAGTGTGTGTGTGTGTGTGTGTGTGTCTGTGTGTCTTTCTATGTGTAAAT
GTCCATCCCCAGGGATTAAGAAGTCTGGATTTGGGTTAAACTTAATCATTTCTAAGAATCTGAGGTTTTCAGTCCTGTCCTAGAATTTCAAAAACAGTCA
GAGAAAGCAACTGTGAGAAGATCACAGCTTCTCATCCTGTTTTGAGTCTCACCCTCCTCTTTGCCCTCACRAAGGATTTCAGTGATTATGTTCCTGACAG
GATGCATTTTAATTGTTTTCTGGTATGACTTCCCAATACATCAAGTTGTGTTTTCTATATAGCCGCTATCCCAAATGATTACTATTCAGAACACTAATCT
GATCTCTAAATCTACAAAGAAAAGGCCATGTAATTTGCTTCTCTTTACAGTGCATTACGTGCACCATTGTAAGTGCTGGGAACCCCCCCCCTCCCACCCC
GCCCCGGGCATCTCCAAACTGCTGTCCTGTGGATAGCCCCAGTTGCATGTGCTCAAAAGCAAACTTCTTATCTCCTCCATGAGTCAGTTCCTCTTCCTGT
TTTTTTCTCTCATTGCAGCTAATGACATTACCATCCCCTCAATGTCCAAAGTTAGAAACTTCTGAGTAATTTTTTATTTCTTTCTCTTCCTCACCTTCTA
CTAATATTAGCTGTTAAATCCTGTTGATGCTACCTCTGAAATATTTCTCAAATCCACATCTCCTTTCAACCTTGGGCATGGCCCTAGTTCAAGGTCCTAT
TTTTCTTAGATGGACCACGGGGTCCTTTTGCCATGATCTCTTTTTCCATCCAACTTATAATTTTTCTACAACTTTGACTTCCATCCTGATTACTAAGACT
TTTAACATTTCTGTGTGCTCCTTCTTCTCTGGGTGTTTGACATGCATTGTCATTCTGTCTTCTGATTGCAAGTGATAGAAACCTACTCCAGACTAGCTTT
CAGGGAAAAGAAAGGAGGTGTTTAGTAGATTGCACAACTGGCAAACCTGGAGTTGATTTAGCTTTCATGAAGGCTAGACCTTAGACTTGTCATCAGGAAT
ATGTCCTATTTGCTTTTTCTGTCAGCAGTCCTTCCTTTTTTTTTGGCTGTGCTCTGTGATCACATGTCTCATTGTGGTGATAACGTGGCTTCCAGCAGCA
ATCCCAGACTCACAGCCCATCCTCAGCATTTCCAGTGGAGAGAAGTGTTCTCTCTTCCTAACACTTTCCATACAAATCTTAGAAATAAATTTTATTGGCT
CTTAACATGTCACGTGCCCATCCTTCAACCATTTGCTATGAACAAGGGGACAGGATGCTCTGATTAGCCAGGACTTAGTCACCTCCCCTCTTCTGAAGAC
ACAGAAGTTGGGACTTCATCTCTACCCAGCCACGTGGACTTAGAATACAGGATGGGTGGGTGCAGTTTCCCCGAGGAAATTGGAGGGCTGTTCTTGGAGC
AAGGACATGAATAAGCGGCTTACAAAGAGCAAATAATCGTTGCTTATGGCACTCAAGGTGTTCTGTCACCCCATCCAACTCACCTTTCCCACTTGGCCTT
CTGTCCTTGAATGCGAAGAACCAGAGTCCCCTGCTCTAAATGGCTCCTTTTCTGTGTGTGCTGCGTGTTTGCTCTGCTGCTGAGATCCATGCTTTTCCCT
TGCCTGAAACACCCTCTGTGGCTGTTGCAGATGTGTTCACTCTGTAAACGCAGCTCAAATGCCTTCCACCCCAAAAAGCCTCCTTAAACTTGCCCCTGCT
CCTCTGTGTGAATAATTTTCACAGCACATGATCTACACTTCCATCATGGTTCTTGAAATACATGAAATACCTAATCATAGGATAGGTTTCATATGATCCC
ACCTCCCCTGCTAGACACTGACAGTGTGACAGCAGGGCCMCTGTCTTGTTCGTCTCAGTGCTCCCCAGGGCCCACATGCAGTACCTTGTACACAGTGCAG
GCACCATAAATACCTRTTGATTGATTCTGGACTTGCCATTCATTAAGAGAAGTTAATGGAGGTTTTCTGATTCCCATCAGATGAACAATTTTGGAATGTT
TTATCAGTCAAATTTCTAAGAATCAATAAAACTTCCATTTGGATTATTCTTTCCCCCACTCAAATTGTATTTTAAAAATAGTTTTATTGTAATTGTCCCC
CTCAATTCTGACAATGTGTAAGCATTGCAGAAAATTTGTGAATATAAAAGTATGAAGATGATCAAAAGCTTCTTCCTGACTGATGGCCATTGCATGTATG
ATTTCCTCTGCCTGGAACCCTGTGGCCCCCAGGGTTCAGCTCCCTGGTGCCTCATCAGGCACAGCTTAGTGTGAGCTTCACCTTTGTCTCTAGATCTTCC
TGTGCATTTAGATTTTTAAAAAATCTGGTGTATCCCCTCATTGGTTGGCTATGAAGTAAGCTCCCTGTGTGCAGGGACCTTTTTTTAGCTTGGTGAGGGT
GTATCCTCTCCACTGCTGGAGCTGTGGTCAGCACACAGCCAGTGAGTGCTCTACAAACACTTACAGCATCAGTTCATGAATGCTTGCAAACATGCAGAGG
TTACCATTGCTTATASTTTTTTTTGTTTTGTTCCACTTATATAAACCACTTATATATTCAGATATTTGTGTATATATGCATATATATGTATTTATGCACA
CATAAACATACTACACACACTGGATGTATACTACACACACACACACACACACACACAATGTTATAAGGTGTATGTAACACACTCAGGGCTGCCCCACAGC
CTCTCAGTGCCCTACTTATGTTCCGTCCCCCCACCATTCCTTCTGGCAGCTTCTCACTGTGAACCCTGAGATGTTCTGCCTGAGTGCTTGTTCTAGCTGC
TGGAGCATGGCAGGCCAGAAGTGCTGGAGAACTCGTACCCCCAGGATCAGCTCTCAACCAGGGATGAATACAGATGGAGGATAAATTTCCCCACTCCCTT
GCCCCTTTGGAGATGTATTYGACACCATTTCTCAGAGTCTCCAGGGAGAATGAGCTCCAGTAGCCCACAGTGGTACCTGGACTGATAATGCTTTACTGGC
TTTCTTTTCATATCACTGCCTCCTGGAACCACCTCCTAAATAAGCTACTTACATTCGAGAACTAATTCCAATAATACGCTACTTAAGACAAGGGAGAATG
GTAGAAACAGGTTTCTATACTTCACAAAAATGAGCTTTTGCTCTTCAGAAATCACAGCCAATAGATTGTGCCTTCTGGCTGCCCCCTCTGCTAATGCCCC
CTCTTTGCCCCCTGAACAAGGGCACCCATGTACAACAATGTGTATATACTTCCTTAGGAAGCTGGTCATTCAGAGCCCCGTCAGTGACACCTGCACTCAG
AATGTAATCCTACCCAGCTTCGGGGGCTCCAGGAATTCCTGTGGCATCCGTGTTATAGACTCCTTTGCATTCAGCTTTGCTTTTATCTGTTTCCAATTTG
TGTTTTCAAGGCTTCGGTTTTTCTCCTTTCTGCTTCATCTCCAGCCCCTCCTTTGCAACAGTACCAAATAAAAAAACCCATGACACTGCCACAGCTGAAA
AAGCCTTTGAAAAAGGCAGGTGGCGTGGCTTGAATGTTTCTAAACTCTAAAACTGCAAGCCACAGACAAATAAAGAAAGAGGTGGGGGTGGGCATGGGGG
GTTGTAGTCTTGTGGAAGCAATCCTCAGCCTTCAGCAGGCTCTAGGGGCACACTGCCTCTAGCATGTTTTGAGCACGTTGATTTGGGCATCTGTCTTGCT
GAATTTGAGTTTGAATTATGGATGTTACAGAATGAATCATTAAGGCTGTGTCCACCCGGATTGCTCTGGCTCTCTGGCCTGTTCACAGTGCTGTTCAATT
TTATGTAAGCATTACTTCAACATTTTTGGTGGATGTTCTTCATTTATTCATTCATTCAGTATGCACTGATGGTGACTCTAAGTCTTGGGACTGCAAAGAT
GTCTGAGGCCCATTCTTTACTCCTCCACATCTCAAGACCTAAGGGAGATAGACAGGCAAATCAATAACCACAGTGCCTTGCTATTGKTGCTGTCCAAGGT
GGGTGCTGTGAAGAAGTGCTTAAGGGCAAGTGCTGCAGAGGCAGGCACACCTGGGGTCCTTTTCCTGGCCTGGGGGGTCCAGGAAGGTTTCCCAGAGGAA
GAAGCAGGGCTCAGTCATCAAGAGCTAAGGATATGCCGTCAAATAGCCCTGGCTTATTAGAATCTGCTTTGCACTAAGCCTCCTGAATACTTAATTTCCC
CAAGCCTCAGTTTCCTGGTCTGCTAAGTGGCCAGAATAATATTTACATCGTGGATTTGTATGAAATAAATAKGATAATGCATGAACCATGCTTAGCGTGA
GCCATAACACGCAAAAGCAACATAATCAGTGTTTGTTAATTKTAACAAATCAAGCCCGGGATATTGACAGACACCTAAGGCAGACTTGGGAGACAATGTC
TCTTGCTGCTGCCTCATGAGGAAGGTGAATGACCATGCATTGCCACTGGACGGGAAAATAAACGGTTTCTTCTTTTTATTCTTGTAGACACCAGTGAGGC
CTACCATATACCTATGTCAAAACCTGCAATTTATCAAAAATAAAGCCCGAGATAGTAACAGTCTTGCTGACCACAAAGGCAAAAGGATCCAGGTAAACAG
ATTGCTTCCAGGACTATTATTTCATGATGAGCTTTCAGGTATATAGCACATGAGAGGGAGGACAAGGTGCGGCTGCACTTCAAGAGACCACGTTGGACAG
GTGAGATGTCCAATATATTCTTACTTAAGATCTGATTTCTTCTCCTTCTCTCCAGCAAGGGATGCCCAGAGATATAACAATTAGAATTCAATACGCTAAT
ACAGTGTCTCATTAGCCAAGCCACACAATCGCCTCTAGTGGTCCATATGCACGACAACCCGGGATCCTAGAAATTAGCTCGGCTTCCTGCATCCGTCCCC
ATCTGAATCTTTACTCAACTACTTTTTGATTGTGAAGAGCCAAGCTCATTTGAGCAGTAGGAATTTCATGGGGCTGGTGATCCCAAGACTAATTCAAAAA
TTAATAAGTTTCCCATTCCTTTTCTTATTTATTTTTTTGGTAGGGACACATTTCACCACACACGCCTGCTTCTTTCTTGCCAGTATTTCATTCAAAACTA
GTCCTCAAGTTTTGAAATTTTAGAGACTTAAAAAAAATCAATAATGCTTTAAGAAGATTAAGAGGCTGTGCTTATGTCAGCCTTAGACAATTCTGGAKAG
AAGATAGACTTGATTGTGCTTCTCATTTTGTTTATGATCCTGCAATGTATCACGCATTCTCTGCCAAGTGAATTCTGACTGCATGAAGAAGGGGTAGATG
CTTTTACAACAGGTTTAGTCATCTGGCATATTATTTAATACAATCAGTGGTGTTTTCCTTCGTGAGATGCAGCCTTATATACAGGCTAGGTGTTAAGTTT
ATACCCAGGTTATCTACCCTTCCCCCTCCTGTCCTCTCTCCCACCCTGTTTTTATTCTGTCTTCCCTCCCTTCTTCCCTTCTTCCTTATTCTCTCTCTTC
CTCCCTTTCTTCTTCATCTTCCTGTCTTCCTCACTCCTCCCTTCTCTCCTCCCCATCTTCTTTCCCTTTCTTTCCGCCTCCCTTCTCCCTTTTTCGCTCC
CTCTTTCCCTTCACAAACATTTATTCAAACCCTATTATATACCAGGCACGATGCAAGGCACTGGAAATACACTGAACAGGGCAGATGTGGTTCCCGTTAC
ATGATGAGTAACACAGGTGATAAATAAACAGTTAACAAGATAAGAAAAATGGCCAGCGAGTATTTGGAAGAAATAGACAAGTGATAGGGAATGGCTTTGG
GGAGAATTATCTGCATATAAGGATAAGGGATGAGACAGACTCAGCAGCYGTTTCATGCCAGGGCAGAGTAGAAGGCCGTGGAGCTGCTAGGTGGTTGGCC
TGGAGAAAAAACAAGGAGTTTTTTCTGCAAAGTGCTGGTAGGAGTTTACAGTTCTCTGTAATGTTCAGAAATGCAGAGGTCAGCGGAGGTGGGTGGATCA
CCTGAGGGTCAGGAGTTGGAGACCAGCCTGGCCAACATGGTGAAACCCYGTCTCTACTAAAACTAAAAAAAAAAAAAACATTAGCCAGGTGTGGTGGTGG
GTGCCTGTAATCCCAGCTACTTGGAAGGCTAAGAAAGGAGAATTGGTTGAACCCAGGAGACGGAGGTTGCGGTSAGCTGAGATCATGCCGCTGTACTCCA
GCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAATAAAATAAAAAAGAAGTATAGAGGTCATTTTTAATGTGAGAATGTTCTCAGTGAATTAGGT
ATATGTGCCTGCCACATTTTCCAAACCAATGTTTTTACGAATATTCTAGTTTAGCCCTCTCTTCTAGAGTTATAAAATTATTCTGCCTTCAGTTCTACAT
TTAGGGAGTCCTCTTTTAAGGAAAGGAAAAGGATAGTTAAATCAGGGGCTGTCACAGAAGCCTCAGATTGGAGGACAAGGCGTGGACCATCCCCTGTTTG
GCGGGAAAATAGCTTTAGTCACAGGCAGGTTGTTTTGCTTCCTAAAGCGTAAAGTTGGAAATGTGATAATTTCGTCAAGTAGTTGATTTAGTTGTAYCAA
GCTTAACTAATTAACACCAATTCCATGCTTGATTCTTTTCTCCATTAACTGAACAAAAGCCATTGCTAATGAGGCTATGTATACAAAGCCAGCTGACTCA
TTTTGTTATGGAGATTTCAAAGAGAAGGGAGTTGTAAACATTTGTAGGGAAGAGATAGGGGTAGACATGATCTTACACATATTTAACAACAGGTGCAATA
CAGGCACTGGCCAATGAGAATGAGCAGGGGTATAATGGTGCCACCAGCACATACAGAAGGAGTAAGAAGTATCCTCAAGGCACGGAGAGATGATAGGGTG
CAGGGCCTTTGCACTGGGCTTATTCACAGGCAAAATATTTTTCCTTATTTTAAAGAAATGGAAAGAAGTCTTCCTAGAAGCCAGGGTCTGTGATASATGA
CAGAGTGACCATAGCACTCAGGGGTGCAGAGGGTGTGTGGATTCTGATGACAGATTGCCTGTCTGATTTTGCAGAAKTAGCTCCAACATGGTTTTGGTAA
CACCCGTTGCCCTCTTTAAGCTTGATGTCTCTGTTTTCATGTAATTTGCACAAAGTAGGCACTCACTAAATATTTGTAGGTGAAGACGTGTATCTCAGCA
CAAAGCAGCCTCTTGGACTACCATCTGTGTGGTATTCAAGGTTCTTTTGGTTTCAGAGAAGAGGAACACAGTAAAATTTACCCAAAGAAAGGAGCATATG
TGTCGGTTAGGGAAAGACCAAGCTTCCATAACAAAGAGACTCCCAAATCCAATGGCTTGATAAGATGAGCCTTTATGTCATGTTTTGGTCCCTTGGTGAG
AGGCACCGACTGGCAGGCTGGCTTTGCCCTGTGTAATCATTCCATCTTTTTCCTTCCAGCTGTTGCTCAGACGTCACCTTGGGCATGGTCCTTGTCTGCA
TGGTTGAAGGTGGCTCATGTGTATGTCTGCTTTTCAGTGCACGCATGGAGGCAAACATCTGTCTTTTACATTAGAGATGACTCCAATGTTGCTTACATCA
CACTGTTCGCATCCCATTTGCTCAAATGTGGTCATATGCCACATACAGCTGTGAGTGACGCTGCGAAATCTAGCTGGCTGGCTTTGTGGCATGGCTTGCA
TTCTTCTGCTGTGGGAGAGAAGGAGGAGAGAATGGGTTTTAGTGGACCCACAGGGAGTTACTATAAAAGTGCAAATAGGGCATAAGGGGATGCAAGAAAC
ACTGAACAACCAGGCATCAGAGTGCAGGAGCCTATGGAGTTCAGATGAGAGCTCTCCTTCGTGCTTCTCTAGCTCTCACTCTCCATCTCTCACACTTTCT
CTTTTTCTGTGTGAAGACTCCACTGTCTCTGTCTCTCCACCAGCTTCCTCTGATGTCCTATCTTGGATCTGGCCCCAGATAGTATCCTCTACTTTCTTGA
CCTTGGGTTTTCCAAAGCCAACTGGTATCTTCTTACTTGTCTCTTGATTCTAATTTATCTAAAGGGAAGATCTGATTCGCCCAGCTCAAGATAGTCAGGG
TCTAAAACACCATGACCACTCTAAAAAGAGGGGACTCCGAGTCAGCTGTCTGCGCTTATCCAATCAGATGACGCTGGGCAAATGGAGAAGCTGTCAGTTT
TCTGAGACACCCCTCCCCAGACTGACCCAAACACAACTTGCACAGTGTGAATATCAGAGTACTATGTGAGAAAGTACTCTGTGGAGCTGACCAGCATCAG
AAATTCTGCTAGGGCTCTCTTATAAATTGATAACTTGTTTCTCAGTCTTTTATACATTTGGCAACCGTGAATCTATTCTTTAGAACCAGAAGAGTCCTGA
GTGATGAGTTCATAGATTAGAGATTCTCATACTTCACAGTTGAGAAGTGGGGACAGGCCCAAGGGTAAGAATCAGAGTGAGCTGCCAGTTACATCGCTGG
TCAGCTCCTCTTTCACTGCAGTAGATACAATGAACATAACAATGGATATAAGCTCCAATTCTATCCAGTTTTCCACGAATGAAGATGAGTCTTTGAATAC
GCCCTTAGCAGTTCTCAAAAACCAATCAGCAGAACAAGTCTGGCCAGCTCCCACTTTACATGGACATTATCATCAAAAGCTATTTTAATCCCAGGAACCA
AGAAAAAGAAAAAAATTCTGAACTTGCAATTTTTTTCTGTTTTCTGTTTCATGCCACAGGAATAATTTTTAAGAAATTCTTTAAAATAGACCCAATTCTA
TGTCTTATTTAAAGCAACAGATATGAAGCAGTCTGTGTAGCAGACAAATTTAATGGTTCCAATCAGGGGCTTGGAATTAGACTGCCTAATTTTAAATTCT
AGCTCCATGCTTGCAAGGGATGTAACTCTAGGCTGGTTACTCAGTCTCTCTGATGTTTCTGTTACTTCATCTGAAAGTGTGGATAACACTAATAGGTACC
TTGCGAGGCTGTGGACAATAAATGAGATAATTCATGTCAAGTATTTGGCCCAGCGACTGCGACATAGCAAGTGTTGGCTGAAGATAATTATTAGGACTTC
ACATGAGCGTTGTTGGAGGAGCTTAGCTTGTTTAACCTGGAATAGAAAAGATATGGTAAAGAGGATGCAGGAGCTTCCATTTAGTATCTACAGGGTGGGC
CATCCTGTTTCCTGTGGCAGAGAGAGAAGAGGTAGAACCAATAGGGAAGAAATCATAGGCAGACAGATTTCAGATCAACAAAGAAAGGCAAAACAGATAG
AGCTGTCCAAAGAAGGAATGGGTTTGAAAGAAATAAAGCCCCAGAAGGGCTCTAGATGAGGATGTGAGGTTGGATAAGCTACATAAGGGATGTCCCAAAG
TCAGACCATCTTCTGGGCTTGATAGCATGGGTTAGGATGGGCTGACAAAGACTGCCTTAAATAAAAGTATGCATACACACACACACACTACACACACACA
TACACACAATACTTATATGTAAATACATTTAAATATATTATATAGATTTAATATATAATATATAGTTCTATATAAATATATTTTAAATTTATAAATTTAA
TTTATAAATTAAATTTATTATTTATATATTACATTAATTTATATTTATATTCATAAATTTATATATAAATATATTTATATAAAATATAAAATATATTTTA
TATGTTTAATTATATATAATAGGTGGAGGCAGGTGGATCATGAGGTCAGGAGATCGAGACCATCGTGGTTAACATGGTGAAACCCCATCTCTACTATAAA
TACAAAAAATTAGCTGCGCATGGTGGTGGGTGCTGTAGTCCCACCTACTCGGGAGGCTGAGACAGGAGAATGGCGTGAACCCAGGAGGGCGGAGCTTGCA
GTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAWWATATATATATATATATATATA
TAWAAATATATTTCTATATTTATAAAATATATAAAGTATATATGATATACAAATATATTTACATATAATATAATCATTTTATTTGATTTAAAAATATACA
GTATATTTATATATTTGTATATTTATAAATGTATTTTATATATTGTATGTTTATAAAATATTAGAAAAATATATTTGTATATTTATAAAATATATAAAAR
TATATTTATATACAAATATAACCTATAAGTATATATGTATGTTTTACATACACAAATACTTTTATACATAAATGTGTACACATTTCAGAATCAAACAGCC
CATTATAAGCATATATGAAAGAACAGTTTGATTTGGCATATTTTATAAACTGTCACCTGATTTTTTTTTTACCCCAACATTAAAAAAAAAAGCTAGTGCA
TAAACAAGGTGCAGAAAGAAGCTAGTCATCCATTCATCTCTTCTTGTGCCAGTGTTACAATATCTAGTAGCTGAAAGTCTGGGCCAGTCATTTGCCCGGA
CCGCATTATGTCTGAATACCTCCTGGCAGTTTCTACGTCTTTCTCAGGGCTTCTAAATAGGAATGAACATGAAAGGGCCGCGTGGCAGTGACCGCAGTGT
GGAGGTTCTARTAATGACTATGAGGGACACACAGTTTTCAAGGAGATCTAACAGTGTTTATGAAAGATTCTGTTTCATCTCACCAGTGAAGAGCCCTTCA
TCATCTACCATTCTCTTAAGGATAGAGTCTTAGAATCTCCAGTGATCCTGCAGGACCCTCATCCCGTGGTTTTAAACCTGTGTTCTCCAGAGGTCTAGCA
TTGAGCGGTGGCACTTGGGATTCTGGAATGGGGAGGATGCAAGAGGAACACAGTGAAGTAAACAGCTTGGACTCTGGCCCTTCAAGCATACTTCATCCAC
TTTCATCTGTTTTAGGCATGTGGGTTCAAGAGGTGATGCCACTTGAAAAAAGATTAGAGGGTTCTGAAAAAATCAGGTGTAGAATTAATTCCAACATAGA
CCTACCTTCTTATTGCACAGACAAAGACAYTGAGATCCAGAGACATTGAGGGGCTCTCTTGGGCTYCYCCACCTTGTCCAGGGGAAAGTCAGGACTGGGA
TCCAGCGTATAGTCACTTGCTACGGCTATTCCCATTATGTTTTGCTGCTGCTGAAACACTGGAACACATTSTAAAGTTCAGACACTCAGGAAATACCCCA
CGGTGATAAGGACAACCGGTGATGCCGATGAGTTCCCACCAGGTGTCAGTGCCTCGAGGACTTGTTTAATCTTCACAACGGTGCTCTGAGTTAGGTGCTC
ATATTAGTTCCATTTAACAGTTGGAGAAAATGAGGCTCAGGGAAATTAAATCACTTGCTCCACATCACACAGCTACTAGGCAGTCRATGCTGGTTTTGAG
GCTAGGTGATCTCAGTCCAGAGGCCTCAGCCTTAACCATTCTGCTCTCTCGCCTTCCTGCATTTTATACTCCATACTTCTCTTGGGAGAAAGATACTATC
ATATTATTTCGTCCAAACTTACCATATCTTAAAAAAAACTTACCAGCAAACAAATCATCCAACTGCCTTTCATCTATTGAATGTTCTACAGACTTAACRC
CATTATCTCGCATGACCTTGATGAAGATAGTAACCCTCCCTTTATCAAAATGGTCAATCTTCATTAATTTATTTTACTAATTAGTTAAAGGCTGGTGTAA
TTTAGAGAAAGTCTAAATTATAGAATACATTTTATTCTGTCACTTTGAAGCACAAACCTCCACAAAGATTTGTATAAAAATGCTCCCTTCTGGGACTCAC
TTCAGTGATTTGTAGCTACCATTMATACTGCCTCTATGTAAATGAAAGGGAGGCATAATATCAGCACCTTGCGTATTCTTCTCCATGGTAATAAATCGTG
CCTGATAACCTATGAAAATGGCTTCATTTTTCTCTTACCACGCCTATCATGGTGGCTTTCAAACTCACTACCCTGTGCCCCACCTATCACACCTGTCCTT
TGTCCCTTTCTCACATGGATGTCTACAAAATGCAGCAGTAAAGTGTTCCATAATCCACACTTCAGTCTACATAAATGTTTAATTCCCCTGCCCCTTTTGT
TTTCGTCAGGCCCCCTGAAGCCGCASCTGAGATGGCTGACTCCCTGAACTCTTCTTATGTTCTTGACTGTTYGCATAGCCTTTCCTGGGATTACCTCCCA
GTTCCAAGTTTGCCCATTCTGCAGGCAGTCTTCTTGGGTTCCAGCTTTTCTCCACCATCAGCTTCTCCCCTAGGGCTCTTATTAACTCTCCGCTCTCTGG
GGGCCACTCTCATTTTCAGCTTCATGTGGATCAGTGATTACTTGTCCTATCTCCTCTCCTAGAACGTGAGCTTCATCAAGGAATTTCTCTCTATTGACCC
TCAGGCATGAGCACAATGTCCTACTCCCTGGGTGCTTAGTTAATGCTTATGGAGTGAATAGAACCCCGGCGTGTGTGTGTGTGGTGTGTGTGTGTGTGTG
TGTTTAGGGAAGGCAAAGGACGTTTGGCAAAAAAACAAGTTACCTGAGGGAATAGCAACTCGAAGTCATTGTCCCTCAATTTGGGATCCCGGTACCACCC
GCATAAGAATCTTTTGGATGCTGAATAAACCTGCAGTTTCTCCAGCCTGGCCAAGACCTATCAAAGCAGGGTTCCTGGGTATGAGGTCCAAGGATCTGCA
ACYGGAACATGCTCTCCAGGCAATTCTATACACACTGGTATCTAAGAACCACTGCGCTSAGAACTAGGATATCCATCAAGCCTGATTTGAAGTACCTGCA
TGAGTCCCAGTGTCATGATGAGATCAAGAGAGCTTCTGTGTCCTTGAGGGGCTGGAGTATGCGTCCCCCTGAAACCCTTTCCCTGCCTGCCCCCAGCACT
GTTGGGTGTCCCTTCTCTGTGCTTCCTCTGCCAACACTCTGTGCGGTGTTTCCGGGAGTCAGAATGRCAGGGTGGTCAAGAGTACGGWCTCAGAGGTTGC
AGAAAGATAAAAAGATGATTGCATTCATGATTGTTATGATGTCTTGTACATAGAATATTGTCTTATTTGCTCTAAGACTCCATTAAAAAGCCAGCAAAAG
CAAATGCATACCAGAAAAACAGTGGTGTGCTCTTTGAATATTAGGTGGCCTAGTGCATGTTTCACCTAGGTCTCTGACTAATTCTATGAGCTTGGGCAAA
TTATTTAGCTTCTTTAGGGCTTCTGTATTTGTGAAAAAAAAAAMAAAAAAAAAAAAAGGAAAACAATAGTTTCCCTTTAACAGGGCTATTGTAGGAATCC
AGTGAGATCATATCTTGGAAGTGCTCAGCTGAGGGCCTGGGCGGGATAAGTACTCAAATCATACCCTTAATATCATTATTCTTTTTTGAGATCAAGTTTC
ACTCTTGTCGCCTAGGCTGGAGTGCATGTTGGCCAGGCTGGTCTCACACTCCTGACCTCAGGTGATTCACCTGTCTCGGCCTTCCAAAGTGCTGGAATTA
CAGGTGTGAGCCACTGTACCTGAACAAGTGGGTGTTGTTTTAAGCCACTACATTTGTGGTCATTTCTCCCAGCAGCCACAGGACACTCATACGTCCATAA
AGGCAGCTTCTCTGCTCTTTGATGCCTCTGACTCCACTTAAGCCCTCTTCCCCAGGGCTGAACCAACATACCCGCTTCCAAGTCTATTAAGTATTGAATT
GTGTTCCCCCAAAAGATATGTTGAAGTCCAAATCCCCAGGATCTGTAAATGTAACACTATTTGGCAACAGGGTCTTTGCAGATAATCAAATAAAAATGAG
GTCATTTTGGGGAAGAAGCTAATCTACTGTTACTGATGTCCCTGTAAGAAGAAAAGAGGGTCGGGCATGGTGGCTCAGGCCTGTAATCTCAGCACTTTGA
GAGGCCGAGGCTGGCAGATCACCTGAGGTTAGGAGTTCAAGACAAGCCTGGCCACCATAGGGAAGCCCTGTCTCTACTAAAAATATATAAATTAGCTGGG
TGTGTTGGCATACACCTGTAGTTTCAGCTACTCAGGAGCCTGAGGCAGGAGAATGGCTTAAACTGGGCAGGTGCTGGTTGCAGTGAGCCGAGATCAATCC
ACTGCACTCCAGCCTAGGCGACAGAGCAAGACTCCATCTAAAAAAAAAAAAAAAAAAAAAAAAAAGACWCAACGACACACAGAGAACTTGTGTGATGATG
GAGGCAAAAACTGGGGTGACGCAGCTACAATTCAAGGGACACCAAAACTGCCAGCAATGACCAGAAGCTAAGAGAACAGCATGAAACAGACTGCCATCTA
GAGCCTTCAGAAAGGACATGACTTTTCTGACACTTTGATTTCAGACTTTTTGCCTCCAGAACTGTGAGCGATCACATTTCTCTTGTTTTACACCAGCCAR
TGTGTGATACTTTGTTCCAGCATCCGTAGGAAACTAATACAAAGTCCCAAACTCTTTCCACTATGTCTAGATCCAAAGTCACCAAGAGGCCTGGCTTGGG
GCAGCACTGGGAACTTAGACAGGACCCTAGCTAAGTTCCATTCTGAGTTAATAATTGTTATTAACTCACTCAGTTCATGCCCAGTTAGCAAGCATCATGA
AGCACATTAAGCCAGGATATGGCCTTTCTAAATGTCCTGAGTATCAGGAGAAGCTTTTTCACACTGCAAAAGCCAGTCTAATTCTATGACTTGCAGGCTG
AAAATCAACTATGGCTGCAACCAAGTCACTTAGCCATCATCAGCGCCAATCCTGCAGTGCTTATAGCCAAGTCAGGGCGTCTGTTTGTTGAGAGGCAAAG
GCGGCCCCGCCCCATGCTCTGGTTTCTGCTTGCACCTTATTAACGGGTAATGAAGAGTAGGTTCTGCTTTATTGATSTTGAGACCAGAGCTACGTGCGAT
GCTGCCTAAGAAAAGCCGCAAAGGATTTTATTTGATTTTTGCACACAGCAATAATCTCCCTCACCAGATTAGCTGGTGAACTGGTGGGCTTTTCACCTTG
AAATTGTTGATAGGGTAGCCAAACAGGAATTTCTATATTTGCTAATCCTTCCTCAAATACACATCCCCACCGTCTGTGCCCTGTCAAGTGGGTACCTGGG
AAATAGCAGAGACCACACTGTGGAAGGGGAGACACTCCAGTGCAGGAAAGATCAGAAGAAAGAGGTGACAATGACATGCAGCACGAAGCAGCGATGATGG
GGTTTTTTCTTTGCAAAATTACAAGCCACAGTCTCACCTCATTCCTACCTGCCTTTTTTATTTCCCCTGCTCTCAAAACATACCTGACTAGAAAATCCCC
AGTCCAACTCCAGGAATGCCCTTTCTTCTTTAGCCACATCACAGTGTTACCAGATGCCTTTTATGAGCTCTTTGGTAGAAACTAAGCCATGTGTCACTAC
TGGGTGTTGAAAACTCAGGAGTCAGCTTCCCTGCAGTCTGCTGGCGCTCAGTTCTTTGGCTCTGCCTAAAGTCGGATAAGGAAATGACCTTCCAGGCATG
GTGAGATGAGTCCTTAGGACACAGAAGGGCAGGCTGGCCTGGCCTCAGGAGACTGCAACAGCTGCCAGAGAGCCATGGCACTCCTCAATCCCCCGAGGAG
CCTGGAAAAGACTTCCCTCTTGGGTTCAGGCATGTCCTCTGCTTCCTGCCTTTATGGAAACTGGATTTTCGGGACCTTGGAGGACCTCCTATGGGGAATA
GAAACTAACAGCCCATCCCGAGCCTGCTTTTCCATGGGAAAGGTGGTGGGAATTCTCCATGTCACCTTTGCAGAGAGAGAGAGACAAACATGGATCCAAA
TTAGAGATGGCTTCAGGTTCTGACGGATTCATCTCTCCCAATTGCCTTTGTAACACATMTGCTAAATTTAGATAAGTCACAAATAGAGCCAAAAGAAAAT
CCAGAAGGGAGCCACAAAAAATTATTAAACAGTTGTAAAAGTTGGGGATTATGAGTGGAGGAATCGGGGTTATTTATCCTGGAAAAGAGAAGGCTGAGGA
GGGACATATAAAGACTTCATACTAGATTAATTATGTAAATAAGCAGACACCCAGCTGGCATGGAATTTCAACCATTTGGCAGGGAGAGTGGGTATTAAGG
GGGGTGACTAGTTGTTTTAAAATCATTAGTTGCCTGCACAGGTTTCTGGAGGGGTTCACTGTTGCTGAGTAATACAAGTTATGAATATGCCAGGTCTGTT
TTAATGAGCCCAGACTTCACCCACCAAAAATCCTTTCCAGCCAAGCACGTGATAACTATAGATCTTCTTTGTCCTTTGCCTCAAGCAGAAGCCTTACACG
GGTCCSTCGTAAGATGCACCTCTAGGGCTCATTCCTTCTTCAAGTCCCGGTGTAGAGTTTGGTGTTAGAAGGGACAATTAGAGACTTAGAGATTCCTTCG
TCCAGACAGGAAGATGCTGGAAGGAGTGCCTTTTGGGGAATGAGCTGAGCTTGGCCAGATGCTGCAGTTGTGTCCCCTTGCTGAAGTTAGTCACACTTGG
CTGCTGGAGAAGTCTGCCCAGGTGCACTTCATAACCACACTGCCATCTTCTGCCTTTCATTCAACAGGACATGAATTGAGCACAGGCTGGTCCTCCTGAG
CCCTGGCCCAACAAGGCTCCTGAACCTGGGCCCAGAGATGCATAAGAGGATGCCAAATCACATAAAAAATAAGGGTATGGTGAAATCCCATCTCTACTAA
AAATACAAAAAATTAATAAGGTGTGGTGGTGCKCAGCTGTAATCCTAGCTACTCCAGAGGCTGAGGCAGGAGAATCGCTTGAAACCAGGAGGCGGAGGTT
GCAGTGGATTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTTTGCCTAAAAAAAAAAAAAAAAARAGMGCCCCCCCACTCATCCACA
CTTACTCTCTTACAATCCTGGAAGGCAACTTGTTTCAATGGGCTAGAGGCAAGTTGTTGGCTAGAGGAGATTCCATTGCTGGACTCTTTTAGATCCTGGT
GGTTCCCGACATTCCTTAGCTTATAGCCACATCAGTCTAGTCCCTGGCTCCGTGGTCCCATGACCTTTTGTGTCCAATATTCCTCTGCCCCCCTCTTATG
AAGGAATTTGGGATTCTATTTAGTGGCTACCCAGATAATCCAAAATAATCTCTTCATTTGGAAATCATTAATTWGGCCACATCTGCAATGTCTTTACCAC
AAAAGTTAATATWGATGAGTTCTAGGGATTAGGATTTGGTACCTTTGGGGATCATTATTCAGCCTACTGTAGTAGGGGTTCATCAGTTAGTGGGGGGAAG
TAGCCAGTTTATTCCCAAAATGCATGTGTCATCACAAACCAAGATGAGTTTCCTAAAAGAAAATAAGATACTACTGCGAATGTCACCCAATGAGACCTGA
CCCATTCTGTGTGTGCAGGGATGCTGTTTTAGTTGGGTTCCCACAGAAGCAGACCCTGCAACGATGATTTGTGTGCAAGGTGTTTATTTGAGAGGTGATC
TCAGGAAACCGGTAAGGCAGTGGGGGAAGTGAGACAGGGAAGAAAGGGCAGCCAGTGATGGGAGTTGCTTTCAAGCAGTTGCTTGTTCTTATGGGCAGCT
GGAGCTGAATCCCACTGGGGACTCTGGGAGACAATGAAAACCACATCTCATAGTTATCCCCACTGAGGAATGAGGGACCTGGKGTATTTATCTACCAACT
CCCCTTCTATTATTGGTTGAGTCCCTCTTCTGAYGAGTCACAGGTATTCCYAGTAAGCAGCCTCTGTAGGGCACAGGTGAGTGATGATGGGATTCACCGS
TGACAGCTCTGCTGTAGATTTCCCCGGGCAGGTGACCTCTGAACTGCCACCTGWAGTAGAAGTAGGAAGTAACCAGCAACTGGGGTGGGGATGGTGAAGA
AGAAGGAGAAAGTGTTAAGGAAGGAAACAGAAAGTGCCAAGCCCTGAGGTAGGTGGGGCACAGTGTAGTGTTGTATTAGTCCATTTTCACGCTGCTGATA
AAGATATATCTAAGACTGGGCAATTTAYAAAAGAGGTTTAACAGACTCACAGTGCTGGGGAGGCCTGGCAATCATGGTGGAAGGTGAAAGGCACATCTCA
CATGGCRGCAGACAAGAGAAGAGAACTCGTGCAGGGAAACTCCCCTTTATAAACATCATCAGATCTCGTGAGACGATCACAAGAACAGCATGGGAAAGAC
CCAGCCCCATGAATGAATTATCTCCCACCAGGTCCCTCCCAAAACACGTGGGAATTATGGGAGCTACAATTCAAGATGAAATTTGGATGGGGACACAGCT
AAATCATATCAAGTGTCCAGAGTGAAAGGAGTTGAGATGGAACAGCATCTCACCAGACCTGAGAGCCATTTGGTGCGTGTTGGATGCATGTGGTCCGTAT
CTGTTCTGGTTGATTGATGCCTGTGCCTTGACATTTGTTCAATATTTTGAATATCCTTCACACTGAGGTCAATATCTCTTTCCCTGGGTGGTTATGAGCC
TTAAATCAGCTATGCCATGTGAAAGTTATTTGCAGTTTGTGAAGTCCTGTGGAAAGGTTGTTGCTGTTTTTCTGCTGGGGCTGTTTTAAGATGAAACATG
GTATGGGGRAAAGATGCAAGCTCTGGGTCCCATTCTCAGGAGTTTCCACGAGCAGGAACCTCACATCACTGCCATTGGCCTGTAATATAATTTTGGCCTG
AGTCTATCTGGGACAGGTGGTGTGGAGATGCACTGTTACTAAAGACTTAAAGCTTGGAACTTAAAAGTCTACATTTTCTTTGGAGTCAGGTGGTCCTGTG
TGCAAGTCCCAGTTCCAGGCCCTTCCACTGGCTGTCCAATGGCTTGGAGTCTGAGGCTCAGTTTTCCCACTTGCAGAAGGAAGGAATGATGCCAACTTCG
TAAGTTACATGAGATGTGAAGGCAGTGATGGAAGKGGAGCTGGGGCTCCTTCCCCCTCTGTTTTAAGCATTTGATTAAAACAAGTTAGGATGGGCGCAGT
GGCTTGTGTCTGTAATCCCAGCACTTTGACAAGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAAGGTGGTGAAACCCCGT
CTCTACTGAAAATACAAAATTTATCTGGGTGTGGTGGTGGGTGTCTATAATCCCGGCTACTCGGGAGGCTGAAACAGGAGAATCACTTAAACCTGGGAGG
CAGAGGTTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGAGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGGTCTTACTG
TACCATATGTCCTCACTTAACTTCATTGCTAGGTTCTTGAAAACTGTGACTTTCAGGGAAATGAAATATAATGAAAGCAATTTTACTGTATGCTAAATGG
TATAAACAAGAGTTAAATTCTTACGGCACGTTCCTGGTCACAAAAACATTACCAAACTTCTTAATAAAGACCCAAAACACTTCTAATATTAAACATTGAA
ATAAAGATGAGCTATACATACATTTAAGAAAGATGAATAAAAACAAGTAAGATAATCGTTTGCTCAATTTTTGGTGAATCAGTGAGTGACGGTGGTCGTA
GTGGTGGTGGGTTAAATCAAGGAATAAAGGTTTGCAAAGCGAAAATTGTCAGGGGCACCTCCTGCCACCGTGCAGTTTGAAAACAAACAATTCCAACTAA
TGGCAGACTGACTGAGTGCTTTCTTACTGCATTGTTTTTTATTGTGCATTTTTATGATTATTATACACAGTACTTCATGAGTTTTTGTTTTACAATACTT
CGTATTAATTAATTCACCTTCCAAATTGCTTAGTCTATAATAGTTTAGGGTCTTGGGTGGCCAAAGCCTCTGCTAGCACAGGGTAGGAACTGACCCTGGA
CAGGACATCATTCCATCGCAGGGCACACTTACACCCACGCTCACACTCACTCATACTGGGGCAATTTAGATGTGACAGTTCACTTCACATGCACAACTTT
GGGATGTGGGAGGAAACCAGAGGACCCGGGGAAAACCCACACAAACATGGGGAGAATGTACAAACTCCACACACAGGGTGGTSTGGGCCAAGAGTTAGTG
TTTTTTTTTTTCTCATCAACATTATAATAAAACAACATTGAAGAAAACAGCATTATATGATGTCTGGATGTATTTATTGTTCATGATGGCCAGGTCTTCC
TGCATTGTTGTTTGAGTCAGTCACAGTGAGTTGGCATTGCTASAAGTCACTGAGCAAAAGGCCCTCGCCTGGCTCATTCGCCAATGAGTCTCCTGTGCCT
GAAACAAAGCTTGGTAAATAGTAGATGCTCAGTAAATACTAACTGAATAAATGAGTGAGTGAGGTTTACTGGAGAAGGGATCAAGAACCTGAATTGATTT
AGCTCTCCCCACATGATTATGGGATGAAGCCATGATAATTACTGGCACAAAACATTCATTTTATACATAATGGAAGTATAACCAGGGATGCAAAGTGATT
TGCTCCAAGGGTGCTCAGTTAATTTATTCAATGACCAGTCATTCCTCTCCTTGATTTAACAAACATTCATTGAGCACCTACAGTGTTGCTGATGATATTA
AAACCTCAGTTTCTATCAAAAAGCATAAGACATTGCCCCCACCCTTGATAAGCCATGACTTGGTAGTGGGTTCACATACATAAACAAAGGATCATATTGC
AATGTACCATGATCTAGTATTTACACACATGATGTGCTGAAGGAATACAGATGAAGGAACATCAATTCTGCCTTGGGGCCCAAAGAAACCAGTTGGGAAA
GTTATATTTAGGATGAGTGAGGGACACGGAGGTTCAGAGGTCCTCAGGCAGTTAAAGAGGGAGTAGGGTAGAAGGTGCAGGATAGRTATGGGCACATGGA
AGGTCATGGAACTGGCCAGTCACCCAGTGAGGCTAGAGTGGAACACTGCTCACGTAGGCAGGAAGAAAGGTACTCCAGGTAGAAGTAACAGCAAAGTCAA
AGAAAGCAGTCGGCAAAGAGATTTGTAAGTTTGAAGAATTAAAAGATGAACCATAGGAATGAAGGAGAGTGTGGCAAGAAATGTACTTTGACAGAGAGAA
CTTGTGCCAGGTCATTCTGGTCTTTGTAGGCCATGATAGAGAGTTCAGATTTTGTTCTAAATACARTCAAAGCCATTAGGAATTGTAGGCACTGTACTTC
CAGTGAGCTAAGTTTTGGGGTCAGTCTGGTCACTGTGATGGAGCAGAGAGGGCAGGGAGGAGAGTCATCAGGAGGCTGTAGGTGCAGACCAGGGGAAATG
CCAGTTAGACTACACTATGCTGTGGCRGTGGGAATGGAAGGACCTGATGTGCTTTCCTGAAATGTAGTTGGGGCGTGTCACATGCTTGAGTTCTGTGTCC
CTACCCTCTCTCACTGACCCATAGTCGGACAGACCACACTGCCACTGGGCCCATCGGGAGGCAGGGATGGGATTCAAGGAAGACTTGTTGGTTTGGATGG
AAACACAACAGAGTATAGAATAAACTTTTTTTCAAATGTTGTTTCAATTTAATTCAGTAAGCATTGGAGATGTATTTTCATCAGAACCCTCTCAATTTTA
AGGGGTTAATGTCTAAYTCAAATGGGAAATGTATAGTTCACTTAACTGAAAAGGTCCAGGGAGTTGAGTTTTAGGCAAAACTGAATACAGGGGCTTGAAT
CTTGTTAAATGGTTTCTCTCCATCTCTTGGCTCTACTTTTTTCTATGGTGACTTCACTCTCAGGCAGGGTCTTCCSATGTGATACCGGCTATTGGCAGAC
TCAGATCTGTAGCCTTATAATTTCACAACCCCAGCAGAGAGAGAGAGGGCTGCTATTACTGAACAGTCCTTGCAGAGGGCTGGCAATGATTTGCCCAGTT
TGGGTCCCATGAACACGGTACAGGTACTGTGCCAGATGAACTGCTGGAATTGGCTACGCTAGGGTCACATGGCCAGCTCTGCAGCTGGGGATGGAGTCAC
CCTTATTTTCATGGACCAAGTATGGAGAGTGAGGTGATTTCCCAAAGACCCACTAGGACACTGGTATGTGGAGAACATGAGAGATGGCAGGTAGACAGAA
GGACAGGTACCTACTACGAGCACCTGCCATTGTATGCAAGCTCTGCCTAGTTCTCCTGCAGGAAGTTCAGGAGTGAATAATTCAGTTCCTATCCCCAAGA
TGCTCACAGGGTACCAGGGATGCAGATACATACATATAAGCCTTTTTCACGTGAGCCCACCTGTGAAGAGTGCCCTGATTTGATGGCATGTCCAGCACCA
GGAAGCTCTGACTGCTTTTACTCAAATGGCACCTGGGGCCAAGGCACATGTTTTCTCACATTTCTATTTTAAGAGTCAATAAATCATTTCTGGTACCTTA
ACTGGATATTAAATCAGGGTGTTTTTCTTGTCCCCTAATACAGGGCCAAGATGTCTAAAGTTGACCTTCAGTCTAGTCCAACATCTGGAAATGAGTACTA
AAGCCACCAGCACAGAYAAAAATGGAGAACAGGTGGACCTGGGGAACAGTCTGGGGAAGGAGGGGTTCCACATGAGAAGTTACCTGCAGGGAGCAGTTGG
GTGGCTTGAGTTCCAGCCTGAGAATGATTGTAATGTATCTCCTTAAATCCGTGTATGTAGGTGGCACTCTGTTCCTCCTTATCCTTGTATTTCATCTGCT
CTCAGGGCTGTGTTTCTTTGCTTCTTGTGGGCTTTTGCTTTTCAGTTCAGCACATATTTATTGAACCTTTTTGTGGGGACTGGCTAGTTATTCACCAGCT
CTCTTCCTTCTTTGTCTTGGGAACATAGCTAGGTTATATTCCCCAGCCTCCCTTAAGTTCTCTGTGACTGGATTCTGGTCTGTGGGATGTGGGATGATGT
AAAGTCCACCTTACTTCAGCAAAACCTCCTGTGAAGTTCTCCATGCAAATTTGCCCTATTCCTCTGTCTGCCACCTGGAAGAAGAGGATCTGGTGGGGGA
CAGTGGAGCCACAAGATGGAAAGAGGAGTCTAGGTTCCTAAATGACAGCAAGGAGTTGTCAATCATCCAAACTCCTGTGCAAATACAAAACTCCACACCA
GATTGCGACAGGAGTGAAAGATAAATCTTTACAATGTTCACTTGTTGAAATTTTGGAGTTATTTTCTTTTTGTTTTTGCTTTAGAATATAGAATTTAGCC
TACCTTGAGTAATCAGAGTTAAAAAAAATATAAGAAATTGTGCCATGTGCTAGGTTCTCAGTGTTGAGCAAAGCAGGTGCTGCTCTGGCCTTGATGGAGT
TTTCAGTCTTACCTGTTATTTTTTCTATTCCCACTCYGTCTTCCACTCCTTGCAGGCAATAACAGATGATGTTGGGGGCAATAGTCTTGAAATAACTCTG
GTAAGTGCCCAGCAGAGCCAGATGCTGGGCTGAGTTTTGAAAATGAACAACTTCATTGGTACTCTCTGAGCCTTTCTTGGAGTGGGGCTTGTCTGTGGGT
CACAGCCTGATCCTTTAGGCCTTGTGAAGCTTGAAAGATCCTACAATTGTGCAGGGTAAAGAGGTTTTTTGTTATATACACAAATTGTACTTTTTCTTAT
TTCTCATTTTTGTTCTCAGACAAGTCCTTCTAATTAGTTAGAATTTCATTAATCCAGTCATCCTTCCATCCATCTATCCATCTATGCATCCTTCCGTCCA
TCCATCTATCCATCCATCCATCCATATATTTATTCTTTAGAGGTAGTTTTATTAATAATAGTTGTCTTTTGTCAAATGCTCATTTGCCAGGTGCCATGCT
ATTGATATGACTAGTCCTTTTTAATTCAAATGACAGTCCTACAAGGCAGGTGCCATGATTATCACTTAATAAATGATAAACTGAGGCCTTGAGACATTTC
TTCAGAGTATGATCCCATATATGTTTTGGTAGAGCCTAGATTCATAGTCATGATGCTGTCCTTCATTCTACATTTATTGGGATGCCCTCAAATGCCATGT
CTGATGGAGGCATCCCCACCTAGAGTAGCTGACTTGAAGGAGTTCACACTGTATGTGTGTGCACATGTGTGAAGATGGATAGTCAAAAGAGACTGTCATG
TAAACAAGTAATGCAATTGGAAAGGTGCTGTGCAAAGTAGCTGAGAGAATCACAGGGCCCTRTGAGAGACTGGAAGGCACCCAGATGATCCAAGGTGATG
GCCAAACCTACAAACAGGGGAGCCAGGGACAAGAGCAGGGATGATTGAATCTAGAGTCAGACTGATCGTACACCCTCARTCTTCCAGTTGGATGTCCTTG
GCTGGGTCAGCCATTCTCTCTGTGACTCAGCTTCCCCACCTATAAAATCAGGATAATTTAGCTCATACTTAAAGGGTAGTTTTAAAGATTAAATAAGATG
GCTTCTTAAGGATTAACTGAGATAATACATTTTAAATAGGGCTTGGCAATACTAAGTTCTTGATAAATATTAGCTTATTTTGTGATAATGATGGTCATGG
TGATGGTGATGATGGTGTTGATGGTTGTGCGGATGGTGATGGTGATGTTGATGGTCATGGTGATGGTGATGATGACAGTTGTGCTAATGGCGATGATGAT
GATTTGGAACTAGAATCAAAAGAATGTTTTCCTGCTGTTTCCCTCATTGCAAATAACGTACATATGTCTCTTTCCCCATACTCGTTATTGTCTCTCAAGT
TCTGAATTGTCCCAGCTCTATCACCAAACCAGGTTTGTGGCCTTGGGCAGAGCATAAAAGATGTCTTGGCTTATTGTTCTCTCTATAGTGAGGGAGAATA
GTGGGTTCTGGAGCTGGACTGTCTGGCTTACAAGCTAGCTCCACCACTTAGCAGCAGGATACCCTTGAGGAAGTCATGCAACTCCTCAGAGCCCCAGCTT
TCTCATCTGAAAAATGGGGATGAAAATAGTAACTGCCACATTTAGGTGTTTTAAGGAATGGTAAAATGATCTGCATAAAACTATAAGCCTCATTCCTGGC
ACATGGTGACCTCTTAATGAATGCTAGATATCCTCATTTTGAAATTAAGAGGTGCCTTCAACTTTACTTGGTGGCTTTTCTCTATACATTGTACCTTTAT
TTTTACTTTGGAAAGTTGTATGCAGTGCCCCRAATGCTGACTTGTAAACTGATTTSAACACCATCCTCATTCCTTTTGGCTCTCTGAGAAATGTTCTTTT
TTAATGAATATGATAGCAAGACTTACTTATTACCAGGTTATTTCAGGCAAGAGTGATTTTTAACTCATTAACCAGATAATTATTGCAGTTCTCCAGTTAC
CTTTCTGTTCATAGACTTAATAAGGCCTGAGGTTATGTGGCAGAGTTTTCTTGGCTAAGATGGGAGAATTATTAAAGCTCTCAGGTGAAGGTGTGAAACC
TTTGGTGCACAGAGGGTGGCCGTGCCATTCAAGCAGTCCGTGATGGTGAGAGGGAGCTCAGCTGCTTAGGGAACTGGTACAGGGTTTCATTAATCATGGG
ACATTTCTGGTGTACTTGAAAATGTTAGTTTTACTTATGGGAAAGATATCCAGACGTAAATGTGTGTGTGCTGTGTGCATGTGCGCACGGTAGGTTATAC
AGCACCAAGGGGTCAAATAGACTGGTTGACTGTATCCTGTAGTGGTTTGGAGCAGGTGTTGGCAAACTTTTCCTGTAAAGTAAATATTTTAGCCTTGGCA
AGCTATAAGATCTTCATCACAGCTACTCAATTCAGCCAATATAGTATAAAAGCAGCAAGAAGATACATATAAGTGAGGATGTGACTGTGTTCCAACAAAA
CTTTATTGTGGACATTGCAGCTGGAATTTCATATAATTTTCATGGACCACAAACTGTTAYTTTCTTTTGACATTTTTCTACTGTTTACAAGATAAAAACC
ATTCTTTTCTCATGAGCTGTTCAAAAACAGGTGGTAGGTGGGATCTTGCTGGTGGGCTGTTGTTTGCTGACCTCTGGATTACAGTCTGCATCTGTTGCAG
CTTATTTCAAGCACCGCTTGTTTCATTATTTACTTTATCGCCTTGGGCACACTCCATAAGTAGTCAGTGCCTCAGTCTCCTCTTCTGCAAAAGAGAAATC
AGAGACTTCCTATGTTGGTAGAGAAAATTTGTAAGAGTTAGCAGAGATTAAGTGCCTTAAACAGTATCTGGTGCGTAGCACCCCCTTGAGAAATACTAGC
TTTTATTGTTTTCATTGAATTACTGTCTCATGGAATTCTTACAACTACATCATGAGGAAAATAGTATTAATAGTATTATCCCCATTTCCCAGATGAAAAC
ACTGAGGCACAGAGCTGTAKTCTGTCTGAGGCCAGAGTTAGACCATGACTTACTTATTTACACAAAGCAGCAGGGACCTGTCTTTGATGATGAACAAGTC
CAAATTACTACAAAACTGCTTTTGTTCTTCTTCTAATGAAGTGCCCAGGATTCCCATCCATCAGAAATTGCCTGTGCCTATTAGAAACTGTCATTTGGCA
AGGGGATGAGGGCGGCGGCGGTGGTGGGGTTACAAGATGCGCAGGTGGTATAGGGAAGGAGTGGCAAATCAAATGACAGCAACAGAGCAGCCGTTACTGC
ATTTTATTTTTTTGGCATTTTCTTCCATTGTTCTCCTTTGTGGACACACTCTGGTGTTTGCACTGGGGGCATCCCTGTTGTATTTGTAAATCCCTGGAGG
TTGCAGTTGTAAAATGTGCCTTTATCCTCTCCCATTGCATTTTTTTTCCTCTCTAATGCACCAAATTAGAAGATTGACTGATTTTCGTTTTCCCTGGAAG
GTAAAATTTCAGCTTAAATCACAAATGTCTGTGATGCACTTAGCAGCCACCGCAGCTTCTAACCAGTAACCATTCCTCCTTATTCCCTCTCTACCCAGGA
GAATATTCAGGTCTATTGTGATTTCGAGATGCATTAGCCGCACTTAGAGTTAAGGATCAACTTTGGCTTCTGTGGAAGCTGCTGAGATTTAAAGGGTAAG
AGCTCATCCCATTTAGAACATGGTGTATTCTTTCCCTCCTTGCTCATATCATTTATGAAAGGATAAAAGACTGGAGAAAGTGTCAGAGTAGATTCTGGAG
GTACTTATATTGCTAGGACAAAAAAAAGAAATCACATTACCAGTAGCTGGCTTAGTTCTGCATGTTACTATGTGATCAGTTTCCAAAGTTCTTCGTCTTG
GAAGACAGGCAGCCCCAACCTAYGGGAATCTGCTCACCCTACAATGGTGAGCAGACCCACTCCACCCATCTTTGCCATTCAAGTCTACAGCATTTGAACA
GATCAGCCCGTTCTGTGTCAAGAAACTCCTTATGCATGTTCTGGACACAGCCCTGTGTCTCTGCAGGTTCAAATTCCCCTGAATGAGAGAAAAGTTAGAA
TCTTCCCTTCGTATCTCAGCTTCTCTACTCATTACTCAAACCCTTGGGAAAGCTGCTCTATTACTTATTATGTCTGCTTCCTCTGGAAAATGGCAGGGTA
ATATGAATACCTTATTTATAGGGCTGCTGTGAGAATCAATATTTGTAAAACACCTGGAAGAGAGCTTGACACATACAAAGCACTCCAAAAATGTTCTCTG
GCATTAAAAACATTTGATAATATGGGCTGGGAGGGATCACACTGCTTCTCAGATGCAATCCTTCAATGGCACCCCATTTCTTGTAAAAATAAATACTAAT
CTCCTCAACCTGGCTTACAAGGCCTTGTTCAGTTTACCCTTATGGGCTTGTTCTATCCATCCACTTTTCCTCCCCAGCGACACGGTACAGGCACACCTCA
GAGATATTGCAGGTTTGGTTCTAGACCACAGCAATAAAGTGAATATTACAATAAAGAGAGGCATACAATTTTTTTTTTGTTTCCCAGTGCATATAAATAA
TAAACTACAGTTACGCTGTAGTCTATTAAGTTTGAAATAGTATTATGTCTAAAACGTGTGCATACCTTAATTTAAAAATACTTTATTGCTACAAAATATG
AATGATCATTTGAGCCTTCAGGGAGTCATAATCTTTTTGCTGATTGAGGGTCTTGCCTTGATGTGACATTGATGGTTTCTGGCTGATCAGGGTGGGGGTT
GCTGAAGGCTAAGGTGAATTGGCAGTTTCTAAAAAGAAGACCACAATGAAGTTGTCTGCATCAACTGACTGTTTCTTTTACAAAAACTTTCTGTAAAAAT
TTTGTATAGCWTGTGATGCTGTTTGATAGCATTTTACCCACAGTAGAACTTCTTTCAAAATTGGAGTCTACCCTCTCAAGCCCTGCTACTGCTTTRTCAA
CTGGTTTARGTACTGTTTTAAATCTTTTGTTGTCATTTCAACAATGTTCACAGTATCTTCCCAAGGAATAGAATCCATCTCAAGAAACCACTTTCTTGGC
TCATCTATAAGAAGCAACTCCTYATCTGTTCAAGTTTTATCATGAGATTTCAGCAATTCAGTCACATCTTCARGCTCTATTTCTAATTATAGTTGTCTTT
CRGTTTCCACCACATCTGCCGTTACTTCCTCTACTGAAGTCATAAASCCCTGAAAGTCATCTATGAAGGCTAGAATCAACTTCTTCCAAACTCCTTTTAA
TGTTGACACTTTGACCTCCTTCCATGAATCATGAATATTTTTAATGGCTTCTAGAATGGTGAATCCTTTTCAGAAGGTTTTCAGTTCACTTTGCCCCGAT
CCATCAGAGGAATTACTATCTCTAGCAGCAACAGCCTTACAAAATGTTATTTCTTTAATAATAAGACTTGAAAGTTGAAGTCACTTCTAGATCCATGGGC
TGCGCAATAGATGTTACATTAACAGGCATGAAAAAACTAGTCTCGTACATCTCTATTAGAGCTCTTGGGTGACCAGCTGCATTGTCAATAGGCAGTGATA
TTTTGGAAGGAATTTTTTTTTTTTTCTGAGCAGTAGGTCTCAACAATGGGATTAAAATATTCAGTAAAGCATGCTGTAAACAGATGTGCTGTTAKACAGG
CTTTTTAAAAGTAGCACTGCAAGAGTAATTTAGGATGATTATTTAGGGCCCTAGGATTTTCAGAATGGTCAATGAGCATTGGCTTCAACTAAAAGTCACT
GGCTGTTTAGCCCCTAACAAGAGAGTCAGCCTGTCCTTTGAAGCTTTGAAGCCAGGCAGTGACTTCTCTCTATCTAGGCAATTCCTAGATGGCATCTTCT
TCCAGTATAAAGATGTTTTATCTACACGAAAAATCTGTTTAGTGTAGCCACCTTTGTCGATGATCTTAGCTAGATCTTCTGGAAAACTTGTTGCAACTCT
CTACATCAGCTCTTGCTGCTTCATCTTACACTCTTATGTTATGAAGAAAGCTTTCTTTAAACCTCATGAACCAAACTCTGCTAGCTTTCAACCTTTCTTC
TGTAGTTCCTTACCTCTCTCAGCCTTCAGAAAATTGAAGAGTGTTAGGGCTCTGGATTAGGTGTTGGCTTAAGGGAATGCTGTGGCTGGATTGATCTTCT
ATTCAGACCACTTAGACTTTCTCCCCATCAGCAATAGGACTGTCTTACTTTTATATCATTTGAGTTTTCACTGGAATGGCACTTTTTATTTCATTCAAGA
GCTTTCTTTTGCATTCACAACTTGGTTGATTGGCCTAAGAGGCCTAGCTTTTGGCYGGTCTTGGCTTTCAACATACTTTCCTCACTAAGAAGCTTAATCA
TTCTAGCTTTTGATTTAAAGTGAGAGGTATGCAACTCTTCCTTTTCCTTGAGCATTTAGAGACCATTGTAGGGTTATTCATTGGCCAAATTTCATTATTA
TGTGTCTCAGGTAATAGAAAGGCCTGAGGAAAGGGAGAGAGAGGGAGAGGAAAGGCTGGTTGGTGGAGCAGTAAGGCCATACACATACAACATTTACCTA
TTAMGTTAGCCTTCTTGTATGGGCATGGTTTGTGGCATCCCAAAACAGTTACAATAGTAACATCAAAGATCACTGATCACAGATCACCATGACAGATATC
ATAATAATTTGAAAGTTTGAAATATTGCAGGAAAGACCAAAATGTGACACAGACAAGAAGTGAGCACATTCTGTTGGAAAAATGACACCAATACACTTGC
TCAATGCAGGGTTGCCAGAAACCTTCAATTTGTAAAATATGCAGTATCTGCAAAATGAAATAAAGTGAAGCACAATCAAACAAGGTACACCTGATGTCTT
TCAGTTGGCTTAAGGTAATAATTGCTGCAGCCAGCTCAGTCCAGCCCAGATTTGTTACATTTTCATGAATTTTTCAAATGTTTTGTTAAATACAGCTATC
ATTAAAAATTAAATTGCATCAACTTATAATTAAGTTATATTAAAAGAAGGGTAATATGGGCACAAAACTGACCATTTCCTGATTATTTTACTACATTTTA
CTATTTTCTATGCTTATTTAGTCCTRTTRTTTATGTATGGTGAAATCTATATAATGGGGAACAGCTGCTCATAGCTGCCAGCACTTCATTCAGTGAAGTC
ACATTGGCAGCTTGAAGCTGGCCATGCCGGGAGTATTTATAYGACAGGAACTGGCAAACACCTCAGGGCTAGATGTCTTGTTTTTGAACTAGAATGGCAG
TCAGCAAACTTTTTTCTGTAAAAAGCTAGAGGAGTATCCTAGGCTTTGTGGGCACCGAACCCTCTGTTGCAATTACTCAACCCTGCAGCTGAAGAGTGGA
AAACAGTCATAGAATATACATATATAAATAAATGAGTATGGCTGTGTTTCAATAAAACTTTATTTACCAAAACAACAGGCTCACAGTTTGCTGAACTCTA
GTCTAGACTTACAAAAGTGATAGAGAAAACATAAAGAATGCAAATTAAATTTTAAAAATGTGTTGATTCTGGTAGCTGTTACATTGTATATTGCCCCCCA
GAACACAGGACATAKTCTTTAAACATYTGAAAAGTATTTTGGGATTCAGYAAAGAAGCTGCTCAAGACATTGACAAATAAGTGAAATTCTGACTTAGGTC
ATTGGTTTATTTTCAATCTTGCTTGTTCATTTAAATGGAAATGGCAATCAACATTGATATGGGAACCACACTTGCTCATCAGTTCTAACTGTAAGTTGGC
TACAAGTGTAAGAGTTTGGAAAAAAATCAACAAAAGCATTCTGTGAGAATCAATTGGCTGTGTGTACAATTTACAATATAGAAAATTGTGTGTTTTATTA
TTTGTAAATTATGTGTTACTTATCTTTGATATCAGTGAAATACATAATCAACATATATGTGCCTGGACATGCCTATATTGGTTTTTGTGTAGAGCCAATT
ATTAACATTACCAGAATATCACTGCTTGAATGGGGCATGTTCTCTTTAGCTTCCAGGCCTTTGAGTGGTTCCTCCACCTGAAACAATCTCTTCTTCCCTT
TGCCTACCTAACTCCTCCTTCTTTRATCTGCAGCTTAAATGTGACTTCTTCAAAAAAGACTTCTTTGATCCCTTCAGTACCAAATGAGTTCTTCCYTTTA
TGCACATTTTTCCTTGTGACACTTGACTTAATTATAGTTAAATGATGAATTATGTGCTGGCTTATTACTTCCTTTTTACCAAAAGACTGCACGCTTCCCC
AGGTAGATAGGTCCATCTTCTTTATCATCGTGTCTTTGGAGTCTTACGCAGTTTGTTGAAATATTATGTTTGTAGCTGAACTGAATTGTGATTTAAAAAA
AAATAGGTCTGTATTTAAAAGTTTTAGTGTCAGCTCCATCCAGCCCAAGTTAAGTACTAATTCAGCAAGTTAGTTAAGTAATAAATGGCTRTCAYTCAAC
TACAACATATTTGAATTCAGTTTTGAGGCCCCAGTAGTTGCTAAAAATCAATGCCCACTTTCTCCAGGTATAGTAATTATTTCTCATATTGTTATTGACT
GTCTCTTTAAAGACCAGCCAGGACAAATCTATTTCTGAAGCTGTTGTAAATGATTTGAAACAGGAAGATGAATGGAATGGAATGAGGGTTGTTTAAAAGA
GATTTATCCCTMTTATTCTTGCTCAAGAAATGAGTGGCCAGTTGCTACCAGCCTATCCCAAAAGCCAAGAGATAAAAGCCAGCAGCAGTTAATTTTCTAG
TCCGTGTGCTAGTGACCACAGATATCTAACCACTGATTTCCAAAGGCTTACTATTATTCAKACATATTTACTATGGTAAATAGCTCATGTTTTCAGGAAC
ACTGAGGATCTGTTTAGTCACTTTGGATTTCTGGTTTCATCAAGAGTTTGTGTCCGACATCTGGGGATGAGTGAGGGTTCCGGATACCCATTACAGAGGA
AGAGTCTGATGGGGAAACTAGAGGGAATTCCTATCTGGAATTTAAATTTAAGTTTAGGATCTCAGAAAGACAAATGGAGTTGAAGCTGTGTCAGGCAGAA
GAGATATCTCCATTTGTTTTTCTGCTTTCTCAACATAAGGCAAATGTCAGTAGTAACCAGGTTTATTCCACAGGCATACTCTGCAATGTGTGGGTAATTG
TGCCTATCGATTGTGACAAAGTCTTCAAGCATGAGGCAGAGAAGTTTGCTATCCAACTGGATGCCCTCAACAATGTTTGCATCTCAACAATGTGTCCTCA
CATTGGCTGGCTTTACATATGCAGACAAGTGAGGACATGCAGAAAATCATTTCACTGGTCCTCCCCATTGCATTGTCGATTGTGTGGAGGCTAACATGTA
AAGTTATCAGCCCAGCAGCAGACACGGAGTGAGTTGTCCATAAATAGTCATTCTAATTGTTCTGTTTTTCTTATTATAATTTATTTTTGCTATGTAAAAA
AAAATCAAATGATCTATTGCGTGTATATGTGAGTTTTTGTTTAAAGGCATATGACCCAATTTGTAAACATGATCATTATCTTCTCTGGGAAGAATACTAA
CCAAGGGAAAGAGTTCATGATTTGGCTGTGTAGAGCTCTCATTAAGTGATAGGTGACTGGTTCTGTGCTGAGTGTTTTTCATCATCTTGATCCTATGAGA
CATTCAACATTCCATCTTCATCTTACAAATGAGAAAACTGAGGCTTAGTGAGGTTCTATAGATGCTCAAGGTCACAGACCCAACAGGTGACTGAGCTGGG
GTTTAAATCTCMAGGGGGTCTTTTAGTAAGGCTTATGCTTTTAAGCACCAAACTCTACCAGGATATAAATGGCAAAAGGAACTGCTTAAGATATGAAGAG
AAAAGAAACACACTACTTAACACAAAACAAAAACTGGATAAAATACCCAGTTGCCTGAATATGTATGCACTTATTCTTGCATTCAGCAAATAAGTACATA
GCACCTATCATGAACCAGTGACTTTGCTTAGGAACACAAAGCAAGCAAAATCCCTGCCTYGATGGCACTTACTTCTTAGGGAAAAGAGAGGATGACAGAA
CTGTAGAGAAAACAGAGTATACCAGATAGCAATGAGGGCTGTGGAGAAAATAAGGTGGGAAAGAGAACTAATATTGGAGCTGGGATTTCAGAAGGAAGAA
AGTGTTTGAGTTGAGACCTGAAGGAGGTGCAGGAACCACAGGACCATCTGGGGTCATGGTCAGCAACATGGCCAATGGGCCAACTTTGGCCCACTACTTG
TTTTCATGAATAAAGTTCCATTGGATCTCAGCCAGGCCCATTAGTTTATGCACTATCTGTGTCTGTTTTTGTGTTCAAATGGCAGAGTTAAGCAGTTGCA
ATCCTGTGGCCCAGAAAAACTTAAATGTTTACTATTTGGCCTTTTATAGAAAAAAAAAATGTGTCCACCTACATCTAGAAGAAGAGTTTTCCAGGGAGAG
GGGACAGGCAGCACATAGGAGTCTCAGGATGGGAATATGCCTAGTGTGTTTGAGGAGGCAGGTGCGCCTGCAACAGAATGGGCAAAGGGGTGAGTGGAGG
GCAGGGCCTGGGCACGTGGGGGCCACTGTAGGGGAGAGAGGGAGGATTCTGCAGAGTGTTAACAGGAGGACTCTCGCTCTTTGTGATACATCCACTGTCT
TAGGTTGAAGAAGCAACTCTGAGATGGAGTTTAGCATTCAGGGCCAACACCTATGGAAAGCAGGGGCAGGAAGCAGGAGTGAGCAGAGGGAGAAGTCCAG
CTATGATACAGACCAATGGCAACCTTGGCCACTCTCTAGGAGCTTCAGAATTGACCCTGTTTGGCCCAAGACAGACAGGCCTTTATACTCCAGTGTTGAT
CGGTCATTGAATATAGGTCTTTCAATGGCAACAACAGTTACAAGGAAGGAGCATCACCTGGGTGATTGTTGAGAAGCTGAGAGCCGAGGGCTGCCTGCTG
ACCGCACTCCCAGCAGCTGGTGCCATGGGTCCTGCATTGAAGTAGGATCTTGGGGGCACATCACAATGTCCAGCACATAGAGGATGYAGGGAGTAACAGC
TAAAGCAAGACTAATTAGGAGGCTACTCCGGAAATCTAACTGAGAGATGAAGGTGGCTTGAACCAGGAGGTGGCCAAGAGTTGGCAGACTCTCTCTTTTG
AAGGTAAAGCTTTCATATATTCTCCATGGCCTAAGATCACCTTAAAGGAGCAAAGTAAAAGGAAACAAGCCAAGGGGAAAGGCTTCAAAGATTCAGTCTA
TGTTATTAAATCTCCCCACCCATTGATTATCATCCATGACAGTCTTTGCTTAGCTTAGGTTTACCTGTGCTCATCATTTTCCAGGGTGTACAGAAGGAAC
ACTATTTAATCACAAACGTTCCAATCACAAATGCTTCAGTGACAGGAATAGAAGCTGTCACACCAGACAGGGCAGATAAGTCCTTGTCACATGGCTGGGW
CTGTCCCTGCAGTGACTGTGCTATTCATAGCAAGAATGTTGTGTTGCTAAACTTGGCATGAAACAATACAGTTATTTATGCRACTTCATGRMCTAGAGTA
TCGCCTTGGATTTGAGATTCTGCTAAAGCTACATGAGTGGGCAAATCAAGAAATTGTATTCCATAATTTGTTTCCAATCTGACAGAGTACTATGTGTAAT
AGATGAATAAGCTTATAGATTTTAGCACATTTATTGCAGTGTGATGTGGTTTGACACAGTGTCTATGAGCTGTGTGGGGTGAAATGGAAGGTTTAAATGG
ATTCCAGCTTCATTATCCCACTGTGATCTGAGGAAAGCGAGACCACAATGTTGCCATCCAGTAAAGCACTTTATCACATTCCTTCCCAAGTTGAACAGCA
GCGTTCTGCCAAAGAAAAGCTATTTGCTGGGTAGACTCTTTAGCAAGTTTCATTTTTAACTTGGGTGCCAAGCCAGCCAATRGAATCTAATGGGYTTTGC
TTACAATGTGCATGGCYTGGCTATTTACATGAGATTGACAGCACGAGAAAAACCAGACGSTATACTCACTAGGCTGATTTAGAGGTTTCTCTGCTCATTT
GAATTCAGCCAAGCTAGTCAGTCTAGCCCTGGGAAAACCTGCAAGAGTAAAAAGAGAACCAATAAAAGCGATTCATGAAAAACCTGAAGTGCATAAGAAA
TTAATTCCCCTGAGTTTCCAAACTAGTCAGTAAGCTGCGCTGAGGTTTTGCTTTCTATGTTTCTCCTTTGCTTAGGGACTGGTCAAAATCTCGAAGCCAC
TTGTTGATTTTTCTCTCTTTAAACTGCTTTGATGGAAGAACACCCAGGGTGTAATGGGCACCTGGGTGGGTGGATGCCTAACTAAATATATTTATATAAT
CCTTGAAACATGTTTAACTCTGGAGGTTAAGGAAGGCCCAAAGACAAAGCGGAGTTGTTAAGGGAAGAAAAAAACAGAACTTCTTAAAGGTTGACACGGT
GCCACTCATTAATTCTAGAAAAGTTTGCAGGGGCTGTTACATGTCAGACRCAATGCTAGCCTTCCCAGATGCATTGATGAACAAGTTGCAATTCTTGCTG
TGGTGAGCTAATGGTAAAAATAAACAGAGCACTGCCACACACAGACATAAGAGCCATGGGGCAGCATCCCATTCCAATGCCTGGTACATATTAGGAACCC
ACTAAATACTTGTTAAGGTTCATTTTGTGATGGTATTTTTTTCCTCTCTCCGCTAGCTTAAATCTGTTCAAGTCTCCCATGGTTAATACGATAATTTTTC
TGATGTTTATCACCAATAAATTTTTAGAAAAATCAGGCTACACAGTCACTCTCTCCACCTTCTTAGGATACACTCACTCTCTTACCCTTTCACTCCTTCG
GGCAATTTGATCTGCTATCTTTTCCCACCACTTTAAGAGAAGGACTCTTGATGGGGTTCCCACACCTGGTCAGATGGCCTCTCTTGGTTGTCTTCCTCAA
TCCTTTCATTGTGTTGTAGTTGGGCAGTTCCTCCACCTTTCACTTCTCAGATGCAGCATAATCGTGTTTCTTCCTCCCCTCTGAATATTCCTTTTCTGCC
TCTCTGCATTCCTTTTCCTCTTCCCAACACCTAAGTGATTCTTAAAAATATTCTCTGACTTTCTRTGCCTTCTCSATCAGTGTTAGTTTCAAGTTATCTT
GTCATAGTTTCATTTAGGAGATAATGCCTGAATCTTTATCTTAAGCCTTGAACCCTCTAGAACAATTTCATTTGTGTGCTGGGCACCTGGATGTCCCAAA
GGCATGTGAACTCATCATATCAGGAGTCAAACTCATTCTGACTAATTTTATTTAATGCTATTTCCATTCACTTGGTCATCCAGGTGGAGACCTGAGGGTC
AAGATGGAGCCCTCTCCCATGTCTCTCTCTTTGCTGCTCTCAGATGGACCCAGGGGTCATGTGCTGTCAACTCATCCATCACTATATTTTTCTCCTTTGC
CCTTCCATGTTATTTCCATTTCACCCACCGTTGTGTGATACCACAGCGTCTGTTTTACCTCCCACTGAACAAAAGAAATATAATCCTTGAAACRTGCTCC
TTAGTGTGGAAGAGAGGGGTGGTCTGATGACTTGTTTCAAAATGATCTCAATATCAACCACTGCCCCAACGGTCTTGCATTTCATACTTAAGCAACATAT
TTCAATGCAGAGAAGGTTTATAGTGTGGTGGGGATTTGAGGGTAGCTTTTCAATTCTGCTCTGTTTGATTTTTSACTGATGACCCCAGACACAGAGATTT
GGCCTGGCAGAACCTGCCCTTAGTTCTATAGAGGACACCTTCCCCATACTTTTTTCTCCTTTTCCTCTTCCTCTATAAACTCTAGGTTCTTTCACTGCAT
TTCTTTTTTGTAAACAGCTTTACTGAGGTATAATTGACMTACAAAAAATTGCTCCGGTTTAATGTATACAGTGTGATGAGTTTGGATATATACAAGCACT
GGTGAAACCATCAGCTTCATAATCAAGGCTTCCAATATCATTCACCTCCAAACGTTTCCTTATGCCCCTCCAGTGTTTGTTGATTTGTTTGTGGTAAGAA
CACCCACCATGCAATCTACCCTCTTAATAAAATGTTTAAGTGCACAATGCAGTACTGTCAATTACAGGCGCTGTGTTGTACAGCAGACCTCTAGAGCTTA
CTGATCTTGCTAAACTAGCCACTTGTCACACATTCGTTAGGTTTCATGACAGTCTGTCCTCTGAGATGGGCTAAGAGTTAGTCTGCTCTCAAAGAGTTTC
TTGCAAGAATATGATGGGTGCTTTGTGGTGAAAAGTGAAATAGCAATAAAAAAAATCAGTCACTTCCATTGTAAAAATAAACGTAACTGCATGGCCAATA
TGTTATTCTAAAACAGAAGTTGGCTTCTTACCTGGCTTTACCGTGCACGGAGGACTTTAATTTGTGTTCCTGTCAAACTCTAGGAATGTGAAAATGTGGA
AAGCCCATCCCAAACAAAAATAAGCCTCTTGCCGGAGTCCTCACSTGAAATCTCTCTCATTCTCACCCATTCACCTTTCAAATCTGTGCTTTTAGCACAT
CACCTTTCTGCCCTAAAACGTTTAGTGGCTCACAAGCTAGTTTCCAAATTCCTTAGCTTAGTAGTTAGCCCTCCGCTACCTTTTCTTAAKGCACTTTTAC
ACTTTTCTCCATGCTGTAACTAAACAGCACTACCTACTAAAATAGAAAGATACCTTTCAGGTTCCTGACCTCATGCCAGTATCTACCATTTCCTTTTCCT
AGAATTCTCTCTTTCTCCTTATTTAAATCCTRTGCAWTCTCTAGTGCATTTGGGGGAAAATGTCATCTCTTTCTGTAGGCATTAACTCTCTATGCCCTAA
AATTTCAYATAACCTTGGTGGTTCCTTTTATCTCACACATTTCGCTTATTTCTTTGACTAATGTTATTCATGAACATGTCTTACCATTTATTCTGCTGCA
CCTACAACCCCTGGTGGCCAGTGGCTGTCTTACTAACTTTTGTGTTCCCTGTGCCTCACACATCACAGACTTTCCAGAACCTTTTAGTGGATAAAGTTAA
TGCAGAAATGAGTTAAATATTCAAAGAAGCAGTGAGCAAGATACGTTTTTTATTCTTCCTTTCGGAAATGAATCCTTGCTCTTCCCCACCCCTGGGAACT
GTGCCCTGGTTATGATTGAGATCTCATAGTCACTCATCATTCATTCTTTAGTTAGAATTGCATAACATTTTATTCTTTACAATAAAGATAACTTGTTAAT
TGCTTAACCAGATGTGATTTTACTATTATATTTTTTAGTAATTACATAAATCAGAGGAAAAATCCTTTTCAGATGATATGCCCTTATGTGTGATTTAGAC
AAGCTGACCACCTACTTTTAGATAAAGAAATCATCTTCTGCCAAGATGGGGCTAGATGTGAGGGAAGAGAAGTTTCCTACCAAGAATTTCCATTTAAATT
CAAATTTAGAAGCTTTCTTAGTCCCTGAGTCTTATTCCACTTCAGACTTGTTGAAATTTTCCTCATGAAATATGCTTTAGTTGTCTTGGTAAATTTTAAG
AGTGAGAGAAGACCAAGTAACAGTTTACAAAGGTAAGAATCATTTAAACCTACTTACTCTCCCTGTTTAAGCAATGAGGAGGATTCTGTTTATTTATTTT
TAAAAAGTGTTAAGGGAAGAAGTGCTATTTCAAATTAAATGAAGACACGGGAATTTGCCTTTAATTATTTAAAATAGTTTAAATCTTGTTGTTCAAACAA
CACCTTGTCTCTACAAAAGAAAAAGGAAAATACGATGACACTCAGACTTTGTCAACTTTTTCCAAATATTAGCAAGTTAAAAAAAACTATTGGTTCTGAA
TGGTGAGATAAATATATGCCACCTGTAATATTTACCTGAATAGTATATATTCAGAATGCAATATTGTGTAATCTCTTTTAACTTCAAAATAACCCTTCTT
TGCCCTGCAAAGATACTTGAACTCTTGGTGTTGGCTACCTATGAAATTATGTCAAACACATAGATTCTACATCTCCAGATATTCAAAACTAATTATCCCT
TAATTTGCAAGTGAAAGCAAAATACCACCTAATAGACCATTTCTCTGGTAAACCTTTCTTTATCTTAATGAGCAGAATGTGGACGCCTATTACAACCTGA
TTTTAAAACCTCCGTGCCACTCAACAGCTTACTCATAAGACTGACCAGAAGGAGGCAACAAAGATGTAAATATTCTTATTTACAATATGGACTGAGCTCA
TATCTGTCTATTTAGCATTTTATTATAATGCATGCCATCCCAACAGAATCAATAGTTGATTGATTTCTTATGTAAGAGACTTGAGTACTTTAATTCTGGA
TGGAAACTCATCAGCAACTTCCAGTTGATGAGATGACGTTCTCCATTTGGTGAAACTGGGCTACATTTAATCATCACAAACTTCAAATTGTATTATCCCA
CTTTCCAGATAATGTACAGCGTATTAGCCCAACCCGCTTTCTTCAGAAGTGTCTTTAAACAGAGATGGGCTGTATCTAGATAGGGGTGGAATATGCCAGT
GTATCGGTTAGCCGTTCCTATAATAATGCTGCATAACAAGCCATGCTAAAATTCCATGGCTTACACATTGCTCCATAGGCTGAGGGGTTGGCTGATCTAG
GCTGGGCTCAGCTGGGCTTGACTCCAGACTGTGGGTTTCATTCAGGTCTGCTCCATGGACGTCTCATTCTTCTGAGGACAGCGTGCTCCTTCGGAAACAT
TCTTTTCCTGATGGAGACTGAAAGTTTCCAGGTTAGCATATAGAAACACATGATGCTTCTTGAAGTCTAGGTAGGAACTGGTGCTCAGTCACTTCCACCC
ACTGGGCAAAGCAAGTCCAATATCAATGGGGGAACATTCTGTTTGGAAGAACTTCAAAGCCTCATAGCAAAAGCCTCCATATGGGGAGTAGTGAAAAATT
GGGAAAAATAATACATTCGATCACAGCTGCTTTGTTTTAGGGTTTATATAAAAGAAATAACTTTAAAAGGGGTTACCTCCTTCTCATGCCTATATTTTTA
AAAGTAAGTGTATTACTCTACATTGAATAACCCAAGCTAAAAGTATTTTATAGTTAACCTTGACCTAGTATACATACTCTCTCACTCTCACTCTCCCCAC
ACCCCCAAACCCAACAATGACCACAGATCTTCCTTTCCTTCCACTTTCACAACCCAAAACTTGTCCTGTTCATTCTCTGCTCAAAAGCCCATCAGTGAAT
CCCTGTTGCCATTGATATAGCTCAAACCCTCGGCTAGCTTTACAATAACCTTCACAGTGTGTGGTTTGTCTCTTCCATCATTCTGTGTGAATTTACTTGT
CTGTCTTTCCACATGTTATTTCCTTTGCTGGGACACTCTCTTTTCTCTCTCCCACCTGCCTGGTGAATTGATGTTTATTCGTCAGAGCCCAGCTCAAACT
TTACAACGTCTGCACATCCTTCACTAATCCCCTGCAGGCTTTTCTGTTTCCTTATCTGTGGTTTACAAGCATTTTATACATATGGCTATAAAGCACTTAT
AATAATAGACTGGAATTAGTCATTCMTGCGCCTTTTGCTGCTAGCCTGTGAAATCCTTGAAGATGGGGGTCCATGCCTCATTCATTTTCTATCGTTAGCA
TTCATCTCCATGCCTGTAACATGGTAGGCTTCAAATAAGGTGGTTGGATTGAAAAGAAGGAGATTTTAAAAATAAGCATTTAAGAAATAAAAAGGAGAAA
CAGCCATGGCACAAACAGTTATGTTCAACCTCGCCATTAATTAAAGACACTATAAACAAATAAAAATTATAGATCAATTTTTATTTTTCAAATAGGGAAT
TATGTTTTTAGAAAGACAAGACATAGTATTGAAAAAAACATGGATATCTGGCATTGCCAACTGGAGTCTAACTGACAACTTTCAGGGATTTTTATCATTT
CTCTTTCTCAAGTACTTAAATATATTCATATGTGTTGACCCAGAAATTTGATTTTAAATAATTTATCAAGTGGAAATAAAGATGTGAAAAAATTACATAG
GATTGCTGATTATAGCATCATTTATAGTAGGAAAAAATTGAAACACTCTAAATTTCTTACAATATCAGCCCGGTTATATAAAATCATGGTGTAGATATAA
CATTGGGCCAAAACGTCTGCCATTATTAGAGGCACAGTTAATAAAATGGGAAAAGGTTTACCATGTATGTTCCAACATAAGAAATTAAGAGCACAAGAAA
TGAGAATCTTGTAAAATATAAGGGCTATTGTTAGTTACATCCCATGTACGCCAAAAACTGAATTTGAAAGAAATACAGGAAAATATTAATAGTGATTACA
TTTGGATGTAATAATCACAGGATGATCTTATTTTTATTTTTTTCTTTTTGCCTTTCTCTAGTTTCCAAATTTTCTACAATGAACATACATAGCATTTATA
GTAAATGAAAAGATCTAAAAATATTTTAAAGATATAATTATGATACAGTAACTTGTACTGTTAACTGGGCTTGTGTGAGCTCTAAGTTATTGATTATGTA
TAGCTCTTTATGTGAGTTTCTGCTACTTTTGAGCCTTGACTTGTTTATCTTTAGATTGGGTTCCATTTCTCTTTTGTAATTAACTAAGAACTGAAATGAA
TTTTCTAAATAGAATTGTTCTTAATTTAAATATGAAATTCTGTTTTCTCTAATGTAATTGTACCTGAGTGAAAGTAACTGCAATGAGGACTATAAAGGAA
GATAAAGTAGGAATATGATGTATAATTTCCYTTTGCATAATTGTAACTCTGAAGAACGCATGCTCCCAGCAGAAAAGTAATTTAAATTATATCACAACAA
ATGCCATATTTTAAAATAGAAACTATCCATCATGTACTGAGTAAAGCTGGTGGCAACCTATACATCTCAAAAATATACTGAAAATCYCTCCATGAGTCCA
TTAAAAACAAATTGATTGGTTTAATTCCAGCACATGCTGAAGGAAAGTATAAGTGACATTAATGTAATTTTAAGTGCATAAAATTACTAATTACATATTT
AGAAAAAAATTATGTAAGAGAATAACCATGAGAAATAATTTTTATTATAAAATATTGAAATGTGTACAATGTGAACAGAATAGTATAATAAATCCCATGT
ATGTAGCGCCCACAACACCTTTTATTTCTCAGTACAATTTTTATTTTGGAAATGATTTTTAAAAATGTAGAACAATACTTTTGTCTTTATCTTCTGGGCA
AAACCAGTTTTGAAMAACAGTGAACATTTTAATAATTGTAGACCAGTGCTAATATGTTTTTTGTTTTTGAGACAGGGTCTCGCTCTGCTGCCCAGGCTGG
AGCGCGGTGGCACTCTCTCAGCTCACTGCAGCCTCAGACTTCCCGGGCTTAGGCGATCCTCCCACCTCAGCCTTTTAGGTAGTGGGGCCTACAGGCGCAG
ACCAYGGCACCTGGCTAATTTTTGCATTTTTTTRTAGTGACAGGGTCTCACCGTATTGCCCAGGATAGTCTCAAACGATCCACTCACCCACTTCAGCCTC
CCAAAATGGTGAGATTACAGGCATTAGCCACTGCACCCATCTACTAATACATATTTTGAAGGCATAATTTGAAATCTGTTGGAACAAATGCTCCAGCAAA
GACATTAAAATATATTTTTCACCTAGACAGAGAATAGACATACCTTTCATGTACACAATTTAAAATACAGACCCAACACTCAGCATTCTTTTCCTTGGTC
AGCATAAAGCGTGTGAATATGGAAAACATGTCAAGTGTTGCTYGTCCCCCACTGTTAATGTTTTCTCACATTCCTGTCCAGAGATAGTTCTCTGCATCTT
TTACATTAAAAATCTTGCCATAAGTGTATTTTTAATACAAATATTTTCTATTTTATAAATATGACATAGAAAAATTTCAAGCTATTCAGGTGTATGTAAT
TAAATTTGATTTTTTACAGGAAATTTTGAAATTGTTATAGTGATTAATTGATTTGTTCATCTGGCATGTATTAGGCACCTACTATATACCAGGTGCTCTT
TTAGACTTTGGAGAAAACAGTGAACAAGATGGATAAGGGATCCCATTTTTAAAGCACAAAGTTTTCTCCAGCTATTTCTTAATGGAGAGATTAAAGAAAT
CTTCGCCTCCAAGAAGTCTGGATCTAAGTCATCTCCCTTTACTTGATCAGGCCCATTTCCACCCCCTAGTTCAGTTGACAGAGATMGGATGGCAGCCTCT
GCCAGCATGTTTCAGGATATACCCAGGAAGCAAATACCTGGTTGGAATAACAAAGTCCAAAGCGAAGCAAGAGGGTGATTGTTAAATGAGTAATTAGAAT
AAACACTGAAAAATGRTATCTGCCTGGGCCTCTATTTTTCTCGCTTTTGTAGTCGTTTTTCATAGGTTGGACTTCTTGCCCTTCAGAGATAATGAACCAC
AATATGCATCTATCTGTGGGTAGCAGTAGCTTGAGTTTGGGATTGTTCCTCGGGTTCCTAGGGATTTTTTTGAAAACCAGGAGAGGATTTTCTGAACCCA
ATTGGTCCAGTTAATGTATCTATACGTCTTACTTCTCTCTTTTCCAGGCATAAATCTCYGGGCTGGCTTCTAGAATACCAGGTCCCTTTCCCCTCAGTTC
CTGTGTATCCTGTGTTATAGCTCCAAGAAGGAGCTATAACAGGGTTAGAACAAAGATCTCCCCTCCCTACTACTCCTGGATAAAAATCACAGCTAAGCTG
TGACTTTTGAGTGCTTAGCACATGCTAGGCACTGCAGTGAATACTTCTATACACATGATCGCATTTAAGCTCCACCACCTATTTCGAGGGCTGGATGAAT
TTATGTTTCTTGTGCTACATATGAGGAAACTGAGGCACAAATAGCCTCGGCCATTTGTACAAGGTGCAGAGCCTGTAAAATGGCAGCTTGGCAGTGATAC
CCAGTTGTATCACTCTAATCCCCAGAGCCTGTGGCCACCATACAGGGCTGCCTCTCACAACACACATAAATAGCCATRTGTCTCATAGGTAGCATTGACA
GAGTCAATTCTTTTCCAGTACGGAGAGCGGTGAATTTTGAGAAGTGACTTTTTGGCAGAAATGCAATCTAGTGACAAATCAGCAAAAGGTTAGAGTTCAG
ATTAAAACTCAGAATCTCTGACTTCAGAGTCTACAAGTTAATCTGTGACACTTTAAAGGCTCTGGGAAACAAAAGAATACTGTTGAATCTGGTTACCCCC
TCAGACTCAGGCTGACTTGGAGTTGTGTGCGTGGGGCGATGCCATTCCAATGGTAGCCGCTTTGCTTTATGGGGTTTTAGGAAGAAATCCAAGCTTCAGT
AGCCTTTCCCAACCGAATGCATTATTAAAGATACAACGTGTAACTCAGGACTGATTTTGACATTTTAAACATGATTTTTCTCCATTAATAGAGTACCATA
AAGTCAGCAGTAACAACATTACAGAAAGCTGAGAAAGAAAATACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGC
KCCTGTAACCCCAGCTACTCAGGAGGCTGAGGCAGGAGRATCACTTGAACACGGGAGGTGGAGGTTGCAGTGAGCCAAGATCACGCCACTGAACTCCAGC
CTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAGTCTTACTGTACCATATGTATGTGGTTCCATCATACATCATCGTAGGTCATCGTCACCTTTTTCT
CCCTTAGGTATAAGCCTTTTCTTATGTTATTGTCTCTTTTCATAAATAGGATTTTTCATAGTGACATACACATCATTGAATTAATAAACCACAATTTAAG
TAACTATTTCCACATTACTGAATATTTAGCTTGTTCTTTTAGTCCCCTCCAGTTTGACACTGCAAACACCAAATTTGGTCCTCTGTTATTTTACTTCCAG
AAAATAATTTTTTAGARCTAAGATTACCAAGTCACTAATATTTTTGTGGTTCTTAATGGATATATATTGCCAACTGCTTTTCAAAACTATTGTTATATTT
AATACCATCAAAATATATCCAYTCACAAGTTTAATTACACTGTCTTCATCATTAGTCATAACGTTTTAAAAACATAATTGCCAGCATAAGAGGGAATCTA
TCTATGTCTTTCTATTTCTCTCTCTMTATATATACATACATTTTATATACATATAAGCACACATCAAACATACTATATACTATATACATACTATATATTA
TATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACAY
ACTGTATGTATGATGCATGTATATATACATATTTTAAAYAATTTCTAAGTCATAYTCAAATAGAGATGATAGTACTTTGACATTTCTTTAAAATCTAGGC
AAACCTGAGATGCTTTTATCATTGAAAGTAGAAGGTGTCCCCATTAYTGGCAGGGAAATAGATTCCAGAATTTCATATTCTCTCCAGGTCAGCCACTACA
AATGAGAACTGAAGAATTAATCTAAGACTTTTTTCATTTTTAAAAATCGGGTTATTACTTTAGCAGAAATATGACTTTATGCCTTCATAACTAATTGTAC
TAATTTATGAATAAAGTACATTTTTATTTAAAAAACCAAGAGGCATACTAGAAGAAATTAATCCACTTATTTTCTTCTCAAGTAAGTGGTTTACTTAAGC
ATACATATATATACAATTTCATTTTCCTAAGACCTAGAAAAAATTCCCAAACTGAYTTYTTAAAATTTTTACTTRAAAAAAATTTCAGCTTATAAAGAAG
TTGCAAGAGTCGTACCATAGTTGGAAATACTSTGAATCATTTGCTTTGTTTTGGTGTGATAGAGATTTTTTGTAACGATCACTTATAATGTAACTCCCTG
GAATATTAAAACAATTGTTAAGGACCTGATGTTGTGATTAGAGCAGCCCTGTTTCTTTCGTTTTTATATTCCTGACAGTGAAAATTGCTGTGCAAATAGT
AGAAACTCAGAATGTGTTGTTGAATTGAATTGTTAGATTGTCTTAGTCCTCTTCTATTCAGGCATTTTCTAAGACAATGTGATTGATACAAACAAGTAGA
AAATATGCTTTCTCAATACAATGAGTTTTATTTCCAGTGGGACTGTTTAATCAGAATGAAATGTTGTTGTACCATGATGACTGCCCTGCCCTTAGAAGTC
AATTATTTTATGATGGAGAAAAAACTGTGGTCCGTAGATCAGTAGAATCAGYATACCTGGGACCTGGTTAGAAATTCATAATCTSTAGCCAAAACCTATG
GAATTGGAATCTACAATTAGAAGACCCTCAGGAGTATGCACGTTAAAGTTTGAGGTGTTTAAARTTAAAGTATGCACTTTAAAGTTTGAGGTGYGTTTAT
TCAGGTAGCTTTCCTTTCTTCTCATATAGTTTTTAGGTATAAATGAAAGGTCTGGATTATTTCACGTATTGGCAGATGTGTATTTATTTTTTAGTGCAGT
GCTTCTCAAAGTATGGTCCCTGGACCAGCAGCATCTGCATTACCTGAGAACTTATTTGAAATGCAAATTCTTGGGTCCTTCSTCAGGTCCGAATCAGAAA
CTTTGGAGAATGGCACTACTGTTTAACGAGMCCTTCAAGTAATTCTGATGGCTAGAGTTTGAGGACCACTGCTTTAATGCTTACGAGAGTTGAATTAGTT
GTTTAAACAGAAATCTTAGAGGCTTTGAATCCACTTACAAATTAGTCTTTTCAAAGGTGTACTTTTTAAGTGTCTGCATAATGCGAATGTTGTGAAGTAT
GTCAACTCTTGGGATTTAGGAATAGCAGAGTATTAGTATTCYAGAGGCAAAATTGTAATTGGCCTTTTCACTTGCATTTTCCCCACAAGTGACAAAAGGC
TAAAATTAACAATAGAAAGGCATTTGTTTACATCCAGGCAACCTTCTTTTTTAAAAACCAAGGCACAATTTTAGATAGTTGATAATACCTGGAAAAGCTT
GGGCTCAACTTGAGGAAGTAGATTCCATTTTACTTTTCCTTTATTTCCCAGATACAGAGAAATCCATGTTAAATGCCTTCCGTGGGTCCAGAACTTCTTG
CTTGTTCTCTTTGCCCCCAGTCTCCTATTTGACAGAGCAGCTGCACTATAATAAATGACTCCCTGGCATTTCARCATCATAGCTGGGGACTCTGCCAAAG
CCCTGGCCACGTCTCTGTAGTGGGACGTACAACAACGAAGAAAAGAGGCTGGATCCACAAACCCCACAGGAAATTAGTCTCATTATTGCAACTCAATTCA
TGTTCCCATCCAGAAGAGGGCTTCATTGCACATGGCAATTAATTTACTATGCAGAGTGTGTTTTGCTTGGTATCAGCTTTTATTCTGACTTCCAGGACAA
AATGGTTGCCTGAGTTCTTAATCGTGTGTGTGATTTGACAGTCAAGATGGGCTATGGGAATCATCTCTTGGTAGTGTCATCAGCAGAAAGAAAATTCTTT
TCTGAATTGAGCTTTGGTTGTATGGGATAGATATCTGTTCTGTTGGTGGTGGTGGTKGTGGTGGTTTTGTGTTTTAATTTTTGGATTGTGACCTCAGTTT
GAGTGAGCAATGTGATGAAGCTGCTAACAAAAAAATCAAAGAGAAAACTCTAAACTCTGTTAATAATTGTACATTGTAAGGTAGTAAGGCATGTTAGCCT
CACTGTGCTTGTCACAGATCAGAATCTACCTAGAGARCTGGGRTACACGTAGAAGCCCAAGAGTACTAGATGATCTCCTATAAAGAGCCAGGATGGTAGA
AGACCTGTGGATTGGCCTTCTGCTATGTTTCTGTTTCCCAGCATCTTTTCCCTCCTGCCACTGCCTATTTTAAGCAATTTTACTTGAACTTTCAAATATG
TGCCTTGGTCATCCCAACAGATACCTGCACCTAGTTGGCCAATCAGATCACTAATTGTCCRGTCTCAGCGATTGATCTAGACACATTTATGACCAATATA
TGGCARATGAGAGTTCTTTGGGGGAAATTAATTTGAATGTTGCAGAGTGTTGGCCTTCTCACTCCCCTGAAATATGAGTTCCAAAGACAAGGTGAATCTG
GAATTGTGGGGTCCAATTTTTTTTTCAAATGGACACAGTGAGTTGGATAAAAAGCCCGACAGAGCCAAGAAATGSAGAGAGAARGAGAGAGAGAGAGACA
GAGAGAGAGAAGGAGGAAGGTGGGAAGAGAGTGACAGACCTTACGGTGTTATTCAAATCCCTGGATCCAGCTGTACCTAAAGCCCATACCTTGAGCTTCC
CCATTACATGCACCAATATATTATCTGTTTAATGAGTTTGTTTGCATTACATTCAATGAGGCTTCACTTACATAGCCCAGGAGTCTCACTTACGAGGAAT
AGTTTGAAGAGAGAGGTAACCCTGATGGAGAAAAAATGAAGATTTATCGTGACAGGAGTGGGGCAGGAAAACCCACTTCCCTTCACATATCTCCAGGTTC
GGAACTCATCTATTCCTCCTAACAGTGCTCTGAAGTATTACCTAGCCTGTGCTACAGATACAAAAACTCAATGTAAGGCTCTAACTTGTTTAAAGTCACA
TACAGAGTGAGAGAGCTGGGACTGGAACCCATGTTCATGCGATTGTTTTAAATAGGTGTCCCTACTTCTGAGTTTCCATTGCATTATGTATATATTTTCC
TTGAACCTCCTTAAACTTAACGTATTATAAATGTTTGTAGAGTCTACTAGGCTATGCCTTGACAGTCATTTTTTGCTTCCCTCCTTTCCTTCCTTCCTCA
CTTGTTTCTTTGCCTCCCTCATTTTCTCCCTTCTTCCTCCTTTCCTTTATGTTCACCAGCACCTAACATACATTTATGCCTATTGGAGGTGTCAGTGATG
TTATTTTTGCCAATGACTGAATGAAAGAAAAAAATGTATAAGTTGAAGGCTCCTGTCTCTAGAAACATGGAACTAAAGGCAAGTCGATTTTTGTTTAGGC
ATTATGGGGAGGGTATTCCTGGGTGGGGCCAAAGATCAGATTAAGAATCCCCCATAACCCTTTAAAGTCAACAGTCCATGGAGGAGTTGCACCAAAAAGA
GACTCTCCTTCTAAACATCTGTGTGTGATTCCTGGAGGACATAAGTTGAGCGGGGTGCTTTTGGAGGTTAACTCCAAAAGCAGCGATGCTTCAGAGGGCA
GCGGTTGTAAACAGAAATCAGGAAGCAGATGGTGGGGGTATCTGTGGCCAGAAATAAGAATATCTTTATTGCTGAGTAAATAAACAAGCCACATCCTGAC
TAAATGGGTGGAAATTTCCTGAACATCCAGGAAGGATGTCTGGTCTTTAATCTGTTTTTGGAAAGTCAACCTCAGAGCACTAAGCCCAAGTGTGTGCCTC
TACCAGCCTCAATCTTTATCTTGTGATTTATCACCCACTCTCTCCTTCTTTAGGGAGCTTGTTGGTTATTCTGCTTATGGACTCACAGAAGAGAACAATT
CTTCCTCCCTTTGCCCATTCAATTCCAATCTGAATGTTAGTACCAGACTAATGATCTGACATAGACTGAAGAAGGTTCCAAGGACTTTTCTGAAAGCTGA
GCCCATTTTTGTTCACCATTCTCTTAAAGTCTCAGGTGGAGAAGGAAGACCTTAAATAATAGCTTTTCTTTTATAATGAAAGGGGAAAAATATCTGAAAG
AATGCTTCCAGCTGATAGAGGTTGGACAGAACAGTAAGGAGAAATTCTCTAAGTCCACCTGGAGCTTATTAAGATTGAAAATTGCAAGAGATTGGCTTAA
GCTGATTTTTTTTTTCCCAACAGCCTAGGCAAAGACTCTGATTTCCAATTTTCTGTTATGGTTGAGTGCATTCTTCCGGCAAATATTTAGTAGGCACTCT
TAATGCTAGGACTGGTCACTTAAAACAAGTGTCTTTAAATATTCTTAATTTAGACACATAATCTTCAAACCACAACAGTGATGGAATGAAAGCTAGTCAT
CAGCAGTTTGCAAAAATTATGGCGCTGGTCCTCTCCCCAGCCAACTTAACTGGGCTTCTACCATCCTCCTCCTTCCTGATCTTTCTTTTCTCTTCYTGAG
CATCTWTCCAGTTCCCTATTTAATCATATGTAATCTTCAGTATGTGCTTTTATGTGGAAAGCCAGATGTGTACCAGTTGATGTCACCATGATGGACAAGA
AAAAGGGAAGCTTACAGAGAAGGGCAGATTCATGGGCTTGCAACATGTACAATTGCATAGGGCCCTGTGCTTAACAGGAGGGCCCATGCGTGCGAGTTAA
TGCTCTGTCATCACTACCCTGAAATTCTTAATAGATTTTTTTTTGTGTTTTGTAAATGAAGYCCAAAGGAACAATGGAGCATGAGCTGGGGCTTGGAGCC
TCACTTCACAGACAGCCCCACCTCCTCCTGCCTCCTCACTTCCCTGGGAGAGGTCTTTAGCCACCTGATCCCTGACCTTGCCCTACACAAGGCACACACT
GACCTCCTACTACAGCACCTCATTGCAACTAGCATGGACCAGAGCTCTGGGGCAGGGAGGTTTTTGTCAGGTGCATGTAACCCACATGCAGAATTATAGG
ACAGAGCCCCAGGTTCCTGGAAAGGTCAGACTTATCCTTCATATATTCCATGCCTGAGAGAGCACAATATTAAATAGCAAATAAAAAACACCATGACAGA
TTGAGAGAAAGACCATGGARAACAGGTAAAAAAAAAAAAAAAAGTTTTGTCTGCTTTTTAGACAAGAGATCGCACGTTTTCGTTTTGTACCTAGCTCTGC
AAATTATGTTGCAGGCTCTGGTTACATACAGCCTTTAGTTTATCAGCACACAGTGTTGGTGAGCGGATGAGAAATGTGGATCCTCCCGCAGGTGAGTATA
AGGATGTCTGAATGTACAGAAAGCAGCCTGATGTAGGCCAGCCCCATACTTAACTGACGAATTTATCGGTTGTATCTGTCTTCCAGAAACATACAGGCTA
AACGCCAACAAACAATGACCATGTCTAAGCATCTGAATATTCCTCTAAGAAATCAACTGACAAATTTGGGGGAAACAAGATGATAGCTGAAATTAACAGA
ATATCCCCCAAAGCAGCAGCATGGGAAACAAGTGTTATTTATACCATAAGCTAACAAGGCAGGCCTGGGACAATCAATACATGAGCCTCCTTTCCACCAA
ATTCTCTTCTCATTATGTAAATAGGATGGCCTGAGGTGCAAGAACAATGAATAGAATAATAATCGGAAATGTAATGGAACWAATAGTGGATTTCTCCGGA
CTGTTAACTTCTGTTCAAAGAGYCCGCCAATGATGGATAGAGAGCGGCGTGCARAAAGGAATCTTTCCCTGGTTCAGCTTGGGTGCAYTGCCTTGTGCTG
ACTCTGTCCCCTCCCCTACCCACCACACCCCATGTGTCTAGAACAATCTCCTCTGCARTMCTTCATTTCCTAAATGAATTAGTCCAGAGCCCTGTTTTGA
ACAGATGCCTGTACAGTTCTTGATTGGTTGAGGCAAGTCTAAACTGACATAAGCCCTAACTCTRAAACATGTGACTTTTTACTTTGAAAATGTCCAATTC
TCAGTTGTGAGCTATTCATGTGCAAGTAACAAACACCTACTCAAACAAGCTTAAGAAAAGCAGGGAATTCCTGGGAGGATGCAGGAGCAGGAAATTGAGC
CAGTCSTTCCAAAGGGCCAGAACCAGAAGGCAGACCACTGGGTCCCAGACAGATGGGTCATCTCTTTCCACTGTGATTCAAGCCCTGATTTGTGGCCTTT
GCCTATTTTCATGATATCAATACCTCCACCGTGGCTGATTGCAAGCTACCAATGACGTATCATAGAATGTGGCACTGGGGAGGGATGTGCAGCCGCACCC
CATTATTGTACCCCATTATGTAGTACTTCTGCCATGCAGATATAATAGATAAATAATCTTAAAAGCATAGATAACAGTCAAATACATTTGTAAAAGAGTT
AAGAAGTGATGCATTTTGAGTATTCATTGCCTTTGCTTTTAAGATTATTGAATCATGAGTGCATGTAATGTCTAATAACATCAATGTTTAACTGGCTTAG
AAAAATCCTGAAATTTCAAAAGTGACCTCTTACAAACAGTACGTGTCAGCTCCTACTTATTATTCCTCCTCATGAGTCCATGGAAACAGCCTCTCTGGGA
AGAAGGCAGAGAGCAGGAGACAGGTCGTGGTACAGAAGGAAGTGACTGGCAGAAGTACATGGATGGCATCTCAGTTCAATCTCTCTTTATTATTTTGGCA
TAATTCAAAGTTCATATCTCACTTCATCTCAAAAACAATATGCATATCTGTCCTTGGCTTCATTTTCCTCCTACCTCTTCAGACATCTCTTCTCTGGCTC
TYCCCCTTAACCCCTAACTGGGGGCTTTCTACCCTGTCTTTGCACACCATTTATCCTCTCTATAATGACARCTCCTAAATCTAAGAAATGGGCACATTTC
CCCTGCTAAGCTACAGACCTGTGTATTTACGTACTTCCTAGATATTGCCCCATGCATGGCCCACCATCACCTTAAATTCAAGATATCCAAAACAATTCTC
CATCAAAAAAAAATTCTTTATAGCCAAATGGAAGTGTGCTGTAATGAGAGGCATGGACTTTGATTCTAGTGCCAAATTGTAGGTCTTAATGAGCTTGCTG
ACTGTGAGCACGTCACTGATTCTCCCTCATCTCAGAGTTTTGCCATCTCATAAACAGGCTTGACCTCGATTAATGGGTTTTACTCCACAATCCATGGGGC
CCTTKATTCTGTGGGTCCACCTCAGAAGCTGTCCAAACATCAAGAGAGAAGTGGCCTTGGTCCAGTCCTGGGCACCCCATCTCCCATCACCAAGGGCCAT
CTGTCTTTCATCTTTTCATATGTTAAAGTTCCATGAACTATTTCTTCTCTGAAGTAGTCATCCACTAATTCATTGATTCACTGTGAATCATGAATAAGAT
CATGATCACTCAGGAACCCTCTAGGTCTAGCATTCCGTGATTCTTCGGTTAGTGCTCACGCTTCTGGAATGAAAAGTACAAAGGTACAGGGGCAGCAGCT
GGAGATGACAGCACAGTCTGTTGCCATGTGTAGTTCATGGCGCAGGGTCAGGGCAGAAACTCCTTAATATTAAAYTTAGTGTACAGTAACTCTAATGCCT
GATATTTGATTTGCATTAAGCACTGACAAGAACCTTTCATGTCTATTTCTGCCCTGGGGTCCTAAAACATAAATTTTAACATTCCWTGCTTCTCCTTGAT
GATCATTCCCACATAGAAATGGAACTGCATTAATAATGATTGTTGAAAAAATRAATAAAYGATTGTTGAATGAATAACCGAATGAATGCCACCAGGGAAA
ATTATTGTCTCCAWTTCATTKTAGGGCCTGAACTTTAGGAGAATAAAGTTATCCTAAAGAGAGCTGTTGGAACCTGCCTTTCTAACCAGCTYCCTATTTT
CTAGAAAAGGGGTCACTGTTTGTAGGAATTGTCTAGGATTCCTGAGAACTGCCATCAAACATTCATTTTGCTTTTCCTATTGCTAAGCATTATCAGACAG
AGACACAGCTTCTACACAAAGGAAGAYGGTAGGGCATTGTCTGTTCAGGGCTGCTAGATCAATATTATAGTTTTATTTATCTATTAATTTATTTGGATTT
CTAAGCAGCTCTACCTTTTGTTRYGATGATTATATGGCAAAATGCAAAACAACTTGACAGGACTTTGCTATCTAGACTTTTGATAATGATCTCTAAAAGC
CAACTCATTTCATTTGCRTCCTTTTATGAATAATACAAAAAAATCCAAACCTTAACTAGTGTTTGTCACAGTCAGTGGGTACTTCATGAGCCAAGAGTGC
ATAGAAAGGTATTTTTGGTTCATTACTRGGTTTCTATAATTGACCTGACATTTTGTGAGAGCAATCATGTTTGTTAASGAGAAACTCAAGCCAATGCTGT
AGTTGCAAAGTTCTCCTTACTATTACCCYGGGAAACAAATTCATCAGAAGTGTGCAGATGTGTTTTATGTGTGCGTACACACATACATCCCTATGCATAC
ACAAGCATGTACACACATTGGCATGGGTCGACCTGATAAAATATATGCAGTGTTCTCTTTGTCCAAATCCAGCTGGTCATCTAGGGACTGTATAGAAAAT
TTGCCAGTGCCTGCAGCCCTACTCCATGTTTCCCTTTTTCTCTGCAGCTTGAGCCTCACCTTAAGGCCTAAGTGAGATATGCATTCTGTCCCAAATGATG
GCTCATGGGGACAGAACAYTTCTGAGTCTTCCTTTCTGACCCTCTAGTTATATGGCAGTGATTGCACTGAGGGAAAACCAGGAAATAACAAAGGAAACTG
CTTAAGCAAGTTGTGTTTGGGAAGATTAGAAAAGGGAGTGCACAGGAGGATGAAGCTGAAGTCTCTGAGGAGGTAATCTTGTTCAAATAATAGCTTTTCT
TGTAACYATATTTTGTCAAATTGGTTATTTCTGATGATGTATCCCCAATTTTCTGAAATRTTTTAAAACTTACATTGTAGCTTTCTCTCATTTCCTTATT
CCTATGTTCTCATTCTGGTCCATCATCTGTTCATTTATTCAGTCCATTCTTTGTGTATTCATTCAATTATTCTTTCAAGTGACRTTTACTGATAATTAAA
ACTGTTAAAATCACTGACGTCAAGGTCTATGAGCAAAACTGAACCAAACCAAAACAAGAACTAAACTAGAATCCGTTGTGGCGGGATTGACCACTAGGTG
GTATGTCCATTCTTTGGCCTTACTGGGGATTTAGGCATTTGTTTTGGTTATGTGCCTTGTTAAATATTCATCATGTCAAAATGGTGGTAGTAACATGAAC
ACAATCAAGAAAATATGAAGAGAGTGATATAAATTATATTTGGAGCTCAGAGAGGGGCCAGGAAGACTTTACATGTTGGATTGCTTCTGCCTTAGGCAGA
AAAGAAGTTGCAGAGCGTTCTAGGAGGAGTGAAATACTTGAGTAGGGGCTGGGAAGCAATAAAGCAAGTGGTATTTTCAAGTTTATGCATCCACAAGATC
AGTGTTCAATATTTAAAATGTTCAAYGTGTAAACTCTATCATGGAAAGATTTTTGAGGAAGTAGCTTGTAAAAAGTTGCATATTTCTATTTGTTGCTAGG
GTTACCTAACCAACAGGTTCTTGGCTAAGCAAAAAACTACAGTCTGTAAATTAGATATTCTGGAATAAAAAATTTGGGGAAAGAGGAAAAGGACTCATGC
TCCCAAGAAGGCCAAGTGAAAAGTGATATCCTTCTGATAGGGRAAGAAGTCATGAGTCATTAGTCTGGACTGCTATAGTAATGATAATAATAGTAAGAAT
AATAATAGCCACCATTTGTGGATCACTTACTGCAAACCAGGAACTGTGTTAAATCCTTCTCATRTGCAAGCTGCTCCTTTAACCTGCGTGGCAACCCGGG
GTGACTAGCTGTTAGTATAGCAGTTCCTTGCCCAAGTTTCTCAGTATCTTTCAGCCTCAGTTTCCTGTTGGGCAAAATAGAGATTACGGGACAGTGGGAA
CATTAAATGAGGCTATGCTTGTTATGTGGTTAGCATGGTGTCAAGCAGGGAGTAACAGGTCAGTGAGAATTATAGTATTAGCTACTATTAGCATTTCTCC
TTCCTCGTTAGTATTTTTCCTTCCCTGAGGAGGAAACAGAGAATTAGGAGGACCAAGCTGAATATAAGCAGTACCTGAGAGCATTCTTGGAAGATTATGC
TTTCGTGAGCTCCTCTTAGAACTGAAAATTGATGATGAGAGAGACAGACTGTCACCAATGCATGACTATCACCTTGTCATTATTAAAGCACTTTCCACTA
GTTTATATTATTTTATTCTCATAAGCTCTGTGAGGGCCAGGATTTGGGTCTTCTYTTGTCCCTTGCTACATCCTCATCTATATCAGTGGCTGGCACATTA
TCTTTGTTGACGACTGACCTTTCCTTTTCCTCTTTCTTTGCCTGGCAAACTGTTACTTGCCCATCAGGATCCATGGGGACATTGACGCTCCTCCATCACT
CTCACCTCCAGTCCTCTCTTCCCACACAACTCTTAGTTCATACAGTGGTCACAGTACCTCCATGCTGTATTGTATCMTATCTACTCTCCTGTTTGTCTCT
TGCTGCAGACTCCTCTAAGGCAGGGACCACTTTTCACCACCTTTCCATGCCCCTGGATCCTTGTTCAGRTTTGGCTTGATGTACGCACTTTGAAGATACT
TGAATGAGTGACCACAAATATCTTCATTTGCATCTGAACAATTTTCTTGATATTTGAACTTCTTACCCAAACCCCCAAGTCCAAAGGCCCTTGTCTTGAG
CTTACAGGTTTTCAAAGAATGCTTTACCTGGGTATAGGGCAGCTCTCACATGCCTGGGAGGAAGCCTTGGAGCAAAAACAAATCGATGGCTCTGAAAGAA
TTATGTCAACATTTAATTGCAAGAGATAGCTGCTCTGCCCAGAGGGCTTCCGGAACACCTTAGCTTTTGGTTTAAAGCTCAATTTTAGGTAACTGATCAG
GTAGAAGCTAGTTTGACTACCGCAGCTTGCAAATGCAAGCTTTGGTAATAACGCCATAGCTTTTTTTTTGTTTTTTTTTTTTTTGGGGACAGAGTCTCTC
TCTGTCTCCAGGCTGGAGCGCAGTGGTGCGATCTTGGTTCACTGCAACCTCTGCAGCGGATTCAAGCGATTATCCTGGCTCAGCTTTCGGAGTAGCTGGG
ACTATAGGCGTGTGCCACCACGCCCAGCTAGGCCAGCTAATTTTTGTATTTTTAGTAGAGACAGAGTTTCACCACGTTACACAAGATGGTCTCGATTTCT
TGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGTCACCGCACCTGGCCGCCACAGCTTCTTAAAATGTCACTATCAA
TCCATTCTGAGGCTAGAAATCTCTCTGGCAAGTGTGTGAATGCAAAGGTAATGGCTTTACCTTTCAGGTTAGTTGTAGATAATCTCATCTTTGTTGATGA
CCGGTGAGTGCCAAGCCCCCAGCATTGAGTATGTAGTCTCCAAGGGACATTTTCCTTGGACCAATTGGGAAAAGACCTGGTCAAAATTGAGGAATGGGCA
ATACTCACCTGGTATTTTGAGCTATAATTTGGTTCTTTGAGCTATGAGAAAAAAAAGGGACACGGGCTATGTTGAAGTAACAGGAATTTGAGAAGTAAGG
GTGATGAGAATCTCAGAAAACTTGCAACAGCTGGACATCCAGGTCTCCTGGAAATGGGAAGTTGATTGAGGAACTGGAGGGAAAGTTAAGGTCCTAACTT
TAGTGATTGGGTTTCTGTGTCACCACCTTGGCCCAGGAGACTGTTGATACCCCCCCMMTTTGCTTTGTCTCCCCATTTCTTTTAGTGTCTCTTTCCAGCT
GAGCAGTCTTCTGACTCCCACTAGTTCAAGTTTCTGAGGGAGAAGCTGATTGAGCGGAGCTGTGCATTAGACAGCTTATAGATGGGTGCTCTTAGGTCAC
ATGTTCCCAGTGAGCCAATCAGCAGCCTCTAGAGGAGAGGTCACGCGGCACAGAATATGGCCGCCTATGCTTAAGGCATTACAGAGGGCATCTTCCTCTG
GAGGGGTAGTAAATGTAGGCACTTTCTTCTAAATGGGCTATGGGTGTAACAGGCATTAGGCTGCTTCTATTTTATCAGAGGATGGGGCCATGATTAGCCC
AATGAACATTTACTAATCATTGAAATTTAAGCATGGCAGCCTGGTGTGTAACCATTGTTTGAGTTAGCATACTTCAGTTTTCCCCYGTTGATTTAGTCTC
ATGTAAATCTCTGAAGCCTCGGCCAGTCTTTTCTTAAATACACGTAACAGCTACCATAATTCTCTTTCTGCTAGTCCTTTGGTCCACCTAAGTTCACCTA
GTCAAGGTAGACAGTCTGCAGCCACTATCCTTCTTCACTTTCTAAGGGCTTTCTCAGCATTGGGGGCTTATTAAGCAGCAAGCAAGTCAGTCCTGTAAAT
GTGGGGAAGCTGGCTCCCTGGGGTCTCTCTTAACTGTTGAGAGTCAGTGGATAAATGGCCCGGCTTCCTGTGAGACAATTGTGAGTCAGGTTCCACACAG
CTCCTTAGAGTGTCCCCACTGGGAGTGAGCAGAAACCTGATTTTTAATATAAACTTTATTTGTGTATCTCCCTTCTCTGCCTCATTTTTCACACCTCCTC
ACTTGTACTTCCCAAATATATTCTCTGCTCCAAAATCCTTGCCTCAGGCTTTGCTTTTGGGATTATTCAAACTGAGACAATAAAATACTACACCCATTTT
AGGGAAGATCAGGAGCTAACAGTGTAGGGACCAATGCATTATGGTCTTCATCTAAATGAAGTCTGTTTCTAATATACTGAATGTTTCTGTAAGGCAAAAA
CTCATAGGTAATTGGTTAAATAGGGGATTGTATATTAATATGTAGTAATATATACATATATGTATATGTATAATATAACATGAATATAATATACATATGT
ATACACATATATAATATATATGTATAATATAACATAAAAATGACTTTGGTCCATATGCAGTATTCCATAGAAAATTGATATTTTGCCTTAACAAGAAGCG
GCAATTAAAGGAATGTATACTAATATAGCTGAATGCAGCACACCTCAAAAGAATAGAGAATGGTCTATAGAATTCAAATAGGTTCTGCCTCTTGACTCAC
TTGCCAAATCCTCTGTCTTAGAAGTGCTTATTGAGTAATTCTCCCCTATCCTGACGCACTGCGCCTCTGTTGCCATAATTCAGCAGATTCACCCTTTCCT
TATAACCCGTCTACCAAGCCCCAATCCACATTTTTTAAAGGGAAAGCCTTATATTTACTGTAAGTTTTCATTTATCAACAATTTATGTCTTCTCAAACAC
ACCAGGTTTAAAAATTATGATTATAATTATTATTTGCAATAATTATGTGATTACAAAGTTGCAAAGATCTGGAGCATTCTACTCTAATCTTGTCTTTTCC
AAAATCCTTATGATTTTATTGCACAATTTTCCTAAGCATAGAGTTTTTCTGGAACACAAATATTTTCCAGAACACCTATTTCAGGGCTGCTCCACACATA
GGCATATCTGTGCCAGTTAGACATAAGCACCCGGCTCATTGCGGGTACTTACTGAGGGGGTAGAAGGAACATAGTACCGCCCCCGYAAAAATGCAATTAG
CCTGTTATCAAAATAACAGGGAGAGATGAATTCTTATCTTTTTGCTGGAAGGTCGGAAGAGGCATTGGGCTTAGGAAGTGGCCACATCATAGTCATTTGA
TACACTGTCATTTGCATCTAGTGTAAAATTCACCATTGTTTATCTTATGATTTTATGAGTAGAGACCAACTGAAAAATTTTGTACTTTTATTAATATTAT
GGCATTACAACACCTTACTTTAGGAGATTCATAGTTTGGACCCTGTTTACAAAAATGTACCAGTTATATGGTATTTATTGAGTGTCTTTACTGCATACTA
GGAATCATACAAGAGGGAAACAGAAGTTATTTCTATATGACTCTGATAGCACCTGTATTTGTCCCTTTTGTGTTGCTATAAAGGAATACCTGAGGCCGCG
TAATATTTACAGAAACGAGGTTTATTTGGCTTACGGTTCTGCAGGCTGTACAAGAAGCATGGTGCCAGCATCTGTTTCTGGTGAGGGCCTCAGGCAGTTT
ACAATCATGGTGTAAGGTGAAGGGGGAGCAGGCATGTCACATGGTGAGAGAGAGAGCAAGAGAGAGGAGGAAGTGCCAGGCCCTTTTCAACAATCAGATC
TTGCAGTAACTAATAGAGGGAGAACTCACTCATGATCGCAGGGTTGGCAGGAAGCCATTCAGGAGGGATCTACCCCCATAAGCCAAATATCTCCCACCAG
CCTCCACCTCCAACTCTGGGGTTCACATTTCTTTCTTTCTTTYTTTTTTTTTTTTTTTTTTTTTTTTTGGAGTCTCACTCTGTCACCCAGACTGGAGTGC
AGTGGCATGATCTTAGCTCACTGCAACCTCTGCCTTCCAGGTTCAAGTGAATCTCCTGCCTCATCCTCCCAAGTAACTGGGAGTACAGGCATGTGCTACC
ACACCTGGCCAATTTTTGTATTTTTGACGGGGTTTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCTCCTCGGCCTCCCA
AAGTGCTGGGATTACAGACGTGAGCCGCCATGCCCGGCACATTTCAACACATGAGATTTGGAGGTGACAAATATCCAAATCATGTCACAACCAGTAGGAT
AAATACTACTTATTTTTCATTCCTCAGATGAGAACATTTAGTCACAGAGTGTGGGGCAGCCAGCCAACTTCTGATGTTCAGAGTCAGTGCTGTCTAAACT
TAGCTTTCATGTTCTTTCTACCTCAGAAGGCTACTTCTCAATCAATTATTTGGGATCAGTTGGTTTCATCACATGGCATTGCATCATGAATATGCTGAAC
AAGGCCAAGGGAAGGCAACAATTAACTGGSAGTTTGTAGGCTTGTGATTAGATATAATTAAAAGTCACATAAAGTTCCAAAAAATATTTTTCACTTGTTT
CATATCTCAACAACTTCCACTTGTTTAAGTTAGTGTTTTTCCAAGTTGCATTGTGATGAGGAGAATTTGACATATTTTTGAGGGCTAAGAGTGAGAATGA
TTCAAAGCTGTGAGATTTGAAGTGATGTCTAAAAGATTTTTTTATCATGACTTATGATTTTTTATACACACACACAGACACATACACACACATCCTAGTA
GGAAAAATATCAAAATATAATAACTTTAGATAATAAGAAAAATGGTTTCTGTTTACACTGAGTTTTCACAGGTGAGATATGCATTAAAGGCACAAAAGCT
AAAAGACAAAGAGAAATGGCAATTTAAGCACTTGAAAGCCTTGCTGAATTTTTTACAGACTGTGTCAAGTGGAGCTGGAAAGTGAAACCACAAATCGGAA
GCTAGAAAGGAAGCAGCTAGGCAAGAGAGAGTACCTTGGACTGCTGGCTGCAGTCCCCTTCTTTTCCCCCAAGTGACCTGCACATCGGACTTCACCCTGC
TACTCTCTCTTCCCAAAGATGAAATGAAGAGGTTGAATGTAATGATTACTAAGATTCTCTTTCTGCTCCCACGATGATCTGATGCTGAGGATTTTTAAGA
CTTCTGTGCCGTTAGAATTGATTACTTCTAAATTGTTATCTACTATTCATAAAAAGAAAATTATTCAAGCTTGTACTTCTTGGCACAAAATATACCTGTG
ATTTTCTAAAATATTATCTCTTAATGCACAAAGTTCTCAAGTGCTGTAGCTAAAGGGAGCTACCACAGAGTATTAATAGAAAATGTATGTGAGAGGATGT
TATTTAATAAACCCCTAAGTCAGTAATTCTAATGATTCAAAATGACTTTAACTTTCTACTAATTAGAAGCCAGACTCTCAGCTTTGCTTCTTGATCTGCA
CTTCTCCCCATCTTGGTGTTCTTGGTGATGGTCATGTTCCTGGCTGGGTCACTGCTTCCATGACTGTTTATTAAAATCCCCTGGCCAAACAGTGGGCGTA
CTGGACTTCCTGGAGGGGTTCCCTGGAATGCCTTGAGCAAAACTTGGGTGCCAAAAGCAAAGACCTGCTGTGTTGGAGAAAGAGGAAGAGAAGAGTTCTG
CTGTCTTTGCATGTGTTTGGAAATGTCTTTCTCATCAACAGATTCTCATGCTTGGGGATGCCAGGGGTGGTTTGGGTGGGCACTCTCTTCATTAATAGCC
ATTATTGTGGAGTCCTTAAAGTGGATTAATGATGTTTTTTAGGAAAGATAATTATCTCCTATGCTTTCCGGGAGGTACATGAACTGCTCTAAGATTGCAA
GTACAAAACAGGACATTCGTGGTGCTACTGTGTGAAAAAATAACCAGCAGTACCTTGACATTTATAGATTTTATATAAGCATGTGAGTATGGACCTTGGG
CCTCACCAGCCCCAGAACACCCCAGGCGTCCTTGTACCGCAGGGCCTTTGTATGTGCTGCTCTTGCTGCTTGACCTGCCCCACCCAGTATCTGTAAGCCT
TGCTCTTTCTTTCAATTAGAATCTTTACTTAAACATCCTCTTTTTGCACAGGTTACCCTACATAAATCAACGTGCCTCCTGTCTCCTATCACTCTCTGTC
CCTTTATCCTGCTTTGCTTTTTCTTCACAGCACTTATTTCCTGACACAGTAAATCATTTATAAGTTGCTTATTTTCCACCTCCTCCTCTGGAATACATGC
TCTGTGAATACAGGCTCTCTGCTTGTCTTGGTCTCTGTTTAATTCCTAATCCTGGCAGAGCACCTGTGACATAGTGAACACTCAACAACTGTTTGCTGAA
TGAAAGAAAAAATGAAAAGGTTCACATGGAGATGAGAGCCACTGGCCAACAATTTCAGTCAAAACATATTATTTACTTAAAAATGCAATGTCTGCATATA
TTTGACAATGATAATTTATTGAAAACAACAACAGTGAATACATGAGTTGATATCTGTCTTTTCAATAGATATATAATGAGCCTCTGGATTTTATTTTTAT
TTTTATTACTCACGTATTTTTTGAAACAGAGTCTCACTATTATCACCCAGGCTGGAGCACAGTGTGCGATCACAGCTCACTGCAGCCTCCTCTGCCCAGG
CTCAGGTGATCCTCCCACCTCAGCCTCCCCAGTAGCTGGGACTATAGGTGCACACCACCACGCCCAGGTAATTTTTTGTAGATAGGGTTTTGCCATGTTG
TCCAAGCTGGTCTTGAACTCCTGGGCTCAAGCAATCCATCTTCCTTGGCCTCCAAAAGTGCTGGGATTACGGGTGTGAGCCACTGTGCCTGGCCATCCCT
GGATTTGAAAAGGAAAGGGGTAGAGTGACAAGGACTGGTTGCATCTCACATTCCAAACTGCTTGTTTTAGTATGCGCTAATGCATCAACCTTTTATTACT
GCCCAGACCGTAGACCTGGCTTGTTCCTTTTCACATGTTATTCTCACCAGAAGCTACAAAGTAGGTGTTATTTGTATTATTATTGCTGTTGTTGTTGTTA
GAATACATATTCCTCATTTACAGACAAGTACACAGGCTAAGCATGACTGCAACTTYTGAATTGTCATGCAGCTCAGAACTGGGGGATCTAGAAACTGAAT
TCAGCAGCTGATTATTTGRTTCCCAATACCATGGTCTTGCTACTTACCTACTAGAAAGGATTCTCATTTGTCTATTTAAGTTCTTCTCCTCTACTCTCTG
AGGAGGATTCTTTCAGCTCTTAGTGAAATAAAACTAGAAATGGAAAGGGAAGTCTCAAATCTATGTTCAGAAGAGGGAAGAGGTTTAACCTGGGGGTGGG
AGGGAAGCAGATAGATGTGCTAGCAGAGCAAGCAGTTTGAGATCTAATATACAGCCTTAGTGGGATTAAAAATATGAGGTATAATTTGTGTTCATTTATT
CTACAGATGTATTTTGAGAACATAGTGAAGGCATGATGCCTGGCCCACAGTAGGTGCTCAATAAACGTGTGTTGAATAATACATGAAGGACACGAATAAA
TGTGTGTTGAATAATGAATGAAAGACACAAATTCRGGAGGTAATTTTGTTTGCTGGTTTGTGTCCCTTTATCTCTTTATCTTGTGATGTGGAACCACACT
CACAGAGTCCCTTCATCTTCATTCATTTCATTCATTCTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTCATCCAGTCTGGAGTGCAATGTTGTA
ATCTTGGCTCACTGAAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAAACTACAGACGTGTGCCACTATGCCTGGC
TAATTTCTTGTATTTTTAGTAGAAACAGGGTTTCACCATGTTGGCCAGGCAGGTCTCAAACTCCTGACCTCAGATGATCTGCCTACCTTGGCCTCCCAAA
GTGCACTGCCTTCATTCATTCTTAAATCATTCATTTCTTTGTGGAAGCCCCTTAGCTCCATGTASTTTATGGATGTGTCAGAACAARCTGAATATTGTTT
ATTCTTTTACTTTTTAAAGAGATGAGTATTTGAGTCCTCTGATTCACAGTGAATTTCAGAATTCTATCAGCTAAATACCTCTTGAAGCTCCGATTACCAA
GACTATAAGCCCTTCTACAGCATTAAGGGATTGCTCGTAAAGATACTGCTRTTATGCATCTGGTGTAAAGCCTCCTCATCTTTAGCTCAATTCAACAAGT
TTCCATTCAGTGCCCAGCTCTAAAAGTCTTAAATGGAAATTGATTCCCTACTCCTTCTRTTKTAACTGTCAAAATCATAGACTGCATTGTTTCCAACTGA
AAATCCRCTGACAGCTCCCCACCRACCACCCCGTGAGCCTTCCYAGGGCTGGCGTTGATGATGCTGCTATCAATGGGGAATCTACATTGTGCACGGGTAT
TTATGATGAGAAAATCATGTGRCATAAAAGAGAATAATTGCCTTCATAAGTGTATAATTTTTTATACTATAAGCTTCTCAATGAAAAAGCATTCTAAGGR
AGGCATAATTGCTAATTTTCGGTGTTAAACATACCTCTGAAGAGTATTTCACAGTCTAACTCTCTGAGTGTCATGTCTTCCTGTGGCCCGGGGAAGAGAG
TGGGAAGGAAATAAAATTTCATTGAGCATCTACATAGGACCAGGCCCTGTRAGTTCTTGGATATTGGTTTCTTCTTATAATGACTTGAGAATTACATGGA
ATTATCCCCATTATATGAGAAGACAGAGTCTCACAGGAGTTAAATCACTTCTCATAAAATCATCTCTCATAGTTATGTGAGTTCAGAATGCAYGTCTATG
CTACCCCAAAGTCCAAGCTTAATAGAGAAATCTACAGCAACTCTKTATATTCTGGAGAGGTTTTATTACTAAGCTTAAGAATTGAGGTGCCCTAAGAACG
GGCTGCCCCCAAAATATTTTCCTCACCACCTCACTTCTGTTTCCAGAAGCCCAACATGAAAATCACTCTTCTGAAATAAGKCCTGGAGTCTTCTTTAGGC
TTCTGCTAAAAAGTCTTATKCGTGAGATGTCTAGCGTAACTTCTTTTTTTAAGTCAAGGAAAATGTGTAGAATTTAGGTCAAGATGCACTGAGAATAATT
TGCAAAACCCGTAAATCCGTAGCTGATATATTTAACACCAGGTCCAAACTGTTTCTGAAGGATTRAATCTCTTGCCTGAATACTGAAGAAAATGGAGGCA
TGATCTGAGGTTGGGGAATATTCTACCTTGCCAAGGATAACTGTAGAGTATTGTGACAAAGTGCAAAGATGCCACATGGATTCTGGATCAGTCAGACCTG
GGTTGGAATCCTGATTCTGCCAGTACACCTTTCTGCCTGGTTAGCTTGRAACAAAGCAGTTAATCTATTGAGCTTCATTATCTCTCTCCTGAGGCTCTTG
TGAGGACTAAATGAGACAATACCTAATGCTTCATACAGAGACAGTGGTCACTCTATCATAATAATAGGAGCCCTCATTGTTTATGTCTTTACCATATATC
ATTATCCAATATATTCCTTTATATCATTATCCAAATAAATACATCTGATCAAATCCCCCAAATTGCTTTCTTCTCAGCATTCCTYGGTGCAAAATATGAG
ATGTCCTTTGACTATATAATATAAAATATACTATAACATATAATATTGACCTTATATTGAAGATGTATTTGTACCCRACATACAATATTTTTAGAAATAA
TGTTTCATTATAAAATTTTTTACACGTACAGAAAAGTTTAATTTTGCAGTGAGCACTCATGTACCCACCACCTAGATTCTACCGTTACCATTTAATCCAC
GCATTTTACCACCTATCTTTCCTTCTGTGTGTCTCCCGTCCATCCACTAATCTACCTCATGTTTTCGATTGGACACATTTCAAAATAAATTGTAGATATG
CTCTCCCTCTAAATACTTCAGCATGCATATTTTTCAGTAGAGTTCAATATTTGCTTACATATTGTTTCTCTTTTGATGTAAAATTTACACACAGTGAAAT
GCATAAATCTTAAGTGTGTATTCTGAGTTCTAACAAATACACACATCTGTGTAACCCAAAGCATTGCCAAAATGCAGAATTACTGCAGAAAGTTCCCTCA
AGCCTCTTCCGAGTCAATTCTGACTCCTACCACAGCAAAAGTAACCATTGCTCTGATTGTTTTCTATCTTGGATTAGTTTTATCTGTTCTAGAACTTGAT
ATAAATAGAATCATGCAGCACATACTCTTTTATGTAAGGCTTCCTTGACTCAACATGTTGTTTTTAGGATCCTTGCATGTTGTTGCACCGATGTGCTTTC
TGAATCGGGAAAAACAAATATTTTTGTGTTTGTAGAAGTCTAGCTTACCCTGATGCCAGATTTAAATTCCCTGTGCCAAACACATTGTGTGCTCCTGGTC
CCTGCCCCCTTTAACTTCCCCAGCATAGTGCCTTTGTTCATGTTCTTTCTTTCCATCACTCCCTGGACTCTGGCTGTTCATATTCTGCCCTTCCTCTGGA
GATCAGCTCCAATCCCAAACTTTTCCAAAGTCTGCATTGACTCCCTTGGGTTTCTGCCTGAGCTCTCTCTCCTTTGGACACTGGACTGCCATCCCATTAA
CTGTKGATGTTGTCATCAGTGATCAGCTCCTGGTCATAAACTAAGGAAGAGTTAGGTGGGAGCACTGGCACTGAGGGTCCATGTGCTCACTTAGCTTTCC
AGGGAGGGGCTAGACCACAGGTACTCTTCACCCCACGAGCCAAAAGGAGTGGATCTAGAGTGACCATTGCAAGGCCTCAAAGAGAAACGAAGAGTGAGGA
GTGATGGGGAAAGAGCCAAGGGGACCATCCCTGAGTCATGGGCGTGCCTTGGGTTGAGGCTAAAGGTTCAAGAGGGAGGAGTAAAGAAGGGAAGGAAACT
GTCAGGAGTGATTGCTGTCATGTGGAAGAAGCCTAAACATGAAGTCATGAGAGACGCACCTTGTGGCTGGTGGGAATGCTACACAATCATGCAACATGTG
CCTAATTTTCTCAACTAAATTGCAAGCTGATGTCTTACTATTGACAGGAATAAAGTTTCATAAGGTGTTCCCTGCAGTGGCCTGACTGTGCAAGGTGCTG
ATAGATACYTGCTAGTTGATAATGATGCCTCTCACATGGCCAGTCATTTTAGCAATTAGTTTCATTGATATTGTGGGACTGGGCTTATTGGAGATTTGAC
TGAATTGACCATTTCAGCCACTACAGCCTTTGCAGAATTTGTGTCTGTCAACCTGGCCTTCCCAAGGAAATGGAGGTTAGGCAATAAGGAATGTGTTCAT
TTTATTGCCATTTTACTACCACAGCATGGTAGATTCCAGCTATTAATCCTCATGGTATAAGGTGCTTTTTATATCTTCAAAAATAKGGTATAGCCTTGAT
CTCTCTTCTTGCTGCTCTGGAATTAAAATAGAAATCTTTATCCCTATCTCAAAATCTTTGGGGCAGGTTAGGAGAGCTGGGCTTCAGGATCATCCAGCCT
AGTGCTTAGGTCTGTTTACAGCTCAGCAACATTTCCATTGGTTGAGGGATATTGTTCAGCAGCCACTGAACATCAGGCTCTGACCTCTTGTTTCTTTGCT
GTCTAACCCAGCAGACCATCCTCGGTTAATACTTACTCTGATTCAGCCTAGCAAAGAAGATCAGAAGCAATTCTGTGTCCGCAGGCTCCCTTTCACACCT
TTAATATTTTGTATTTTGCAAACATTTTGAGTTAGTTAGCAGGTCTCTTGCTTTCTCTTGAGGGCTGGGCACAAATGTTCAAGAATAATCATTGTAATGG
CATCTCTCTGATTAAAAAGACAGCTGGCAAGATTGAGATAGAACATCAAATTCTGAAACATCATTAGCAGGATTCTATTTTGGTTAGGTATAATCTTCTG
TGAGGTCATCATGTTGTCTTCGATGAGTCTAACCATTTTATATCATTTAGATCTAAACAGACCCATCATGTCACAGGCAAATGGCTTTATCATATTTAAT
TAACCCAACACCATGTAATAATCTCCCTGGTAATTATCCCTCACTAGTGCTTGAAAGCGTGCTGCAACAAATAAATCATCAAAGTTGCAGGTATACTTAA
ACTGTTATTTGGTGCCGTGGCAGAAGAATATTGACAAGTCACAGTGCAATCCTAATTATACTAAGAAAATGTAAATGGCTTCATCAAAAAAAGAAAGAGC
CAGATGGCAGGTTTTATATACTGTATCCTCCTGTGTTAGAAAATGGGGTATTAAAAAGGCTTCATGCCCTCAGCATCAGGGAAGAAGAAGAAATAAAGGC
TGATACCTMTGTCTTTATGGAGGCCACGTTGAACCTCTAATTCTGGAGAATGGTAACATTGAAGAGGACATTAGTGGCCATTGACRTTTATGTCTCCTGA
TGCCACCCTACATATAAGTGAATGAATATTACCAGGATGAATGCTACTTTTCTTATGATAGGAATTGATTGAGGAGGATAGGAGCAATTCCATGATGCCC
TAGATTTTACTTTATGTTTGCAAATGACAAATTATTCACAGAAAGACATGTGCCCACCAGGTGGTGAATCAATGTGTTTCCATTGACCTGGCTTTTCTAA
TGCATCAGCAAGAACACATTTACCGGAATGCATTGCAATTAAAAAGCAAAATTCAGTTGGAAACAATGGACTTAAACCTACGAAATGTRACAGGATAAGT
CAGAGAGGAAATTTGATTTCAATGGTGAGATTAACGAGCCCATGAATGCATGGTGCATACGGCACAGACAAAGATAACTGAATTGGATTTTCAATAAGCA
TAGAGTTCTAGATTTCCCTGTTCTTGAATTGTGTACCGTACCACCCAGCTGCTGTYCCCAGCTAATTTTGCCAGAGCTGGATGTCAGCCAAAGCACAACT
GTCTATGGCTTGGGAAGTTCTCCTTTGAGTCAGATTATTTAGTTAGCTCAGGCTGGTAACTGCCACAGAACCTGGCTGTGATTTGGTCTTATTAGAAAAC
AAATTTGGAAAGTATTAGAGAATAGTGTTCGAATAGTAATGTTTTCCCTTGCTTTCCTTAATATTTCCTTTGTGTGAGTGTGTGTTTTTGTGCACATTGC
ACTGTTGTTACCCAACCAATCAGAAATTCTGTTTATTATAAAAGTAATTCTCCTTAATTAGAGAAAATTTGGAACRTAAAAAAGGAAAAGGAAGAAAATT
GCTCAAAGTTTGCAGTCCAATTATAATGGTTCTTGACCGTTTAGTTATTTAGTCTTTTTCCTTTATGCATACATTTTGAAATTGTTGGTTTAGTTTTTTT
ATAGTTTGACTCATCAAAAATCATATATTCACTATCCTGCTTAAAAAATCATCATAAGTTTAATCTATATAGTTACATATTCAATCATTATGCTTTGAGT
TATATTGACATTCCATAGACAGATGTCATTTCATGATTTTTAAGCAGTCAATTTTCAATTACTGCATAATATTCTTCCATTTRGAGATACATATTTTAGT
TCAGTATTATTGTGGCACACTTATTTTCTATATTTCCTTTTTTTCTGGAGACAGAGTCTCAGTCTGTTGCCCAAGCTGGAGTGCAGTGGCGTGATCTCGG
CTCACTGCAACCTCCGCCTCCCAAGTTCAAGCAATTCGCCTGCCTCAGCCTCCYGAGTAGCTGGGACTAAAAGCGCACACTGCCATGCCCGGCTAATGTT
TTGTATTTTAGTAGAGATGGGGTTTCACCACATTGCCCAGGCTGGTCTTGAACTACTAAGCTYTGAGCTCAGGCAATCCCCCCRCTTYGGCCTCCCAAAG
TGCTAGGATTACAGCCGTGAGCCAACACACCTGGCCCAATAGTTCCAATTTTTTATGTGTATATTTTTAAAAAATTAAGTTGTGACTTTAGCGTGAATTG
AAATTTGTTTGACTATACTTYATAAACCCTTTTATATTGTTTTATAATTTTTTGCAAACATAATTTTTAACAATGCATAACTTGTTTATCACAAGTCAGA
CCCAGAATATTTAGCTCTTCCTTTGTGTTCATTCACTGAAATCAAGGTGCTTTCCAGTTTTTTACAATGATAAATAATACTTTGACTTATCAATTAATTA
AAATGTGTTATATGTCAATTATATACAGAGCACTGGGCTAAACTGGTTATCTGTGTACATAAACTTTCCAAGTTTGGGATTGTCTGCTTAGAAAGGATAT
ATTAAATTGGTACSATTGGACCCAATATGACTGGTGTTTGTAAGGGTCTAGGTAGAGGCTGCTTGATAGCATTTGTAAAGGGCAATTAATCTATTCTGCC
GTCAGCATTACAGCTCGCTTCACCACACCTGTGCACTCAACGACTCTTCCTCCCCGAAAGTGGAGACAGTGAGGCAAAGGACATGGAGAAACGGAGGCTC
GGAGAGTTTCAGTAACTTTCCCCAGTCCACCAGCTTGTATCGGAATTGGGATTTGAGCTCAGGTCTGTCCAGCTTTAGAATGCAAACTCTTAAGTGCTGC
CTTAAGTTTGMTTCCCCAGAAGAAGGTCCTGGGATGAGAATTTGTGTTAAAGTGATGTATCGGAAAGGTTGCTAGGAAAAACGTATAGGGAAGTGGGAAC
YGAGTTTGGCAAGAGGGAGACTGAGCAAGGGTGTCATCTCAAGCGAAGTTCCATTGAGATAACTTTGGCCTCATCTTCCAGGGAGACTGGGAATGATGTG
ATTTGCACTTCAGTGCTGGCCCCTTTGGGGCAAGGCAACTTGAGTATTTATAACTCTTGACCCACAAGTCCTTGGTTAAAGGCTGCTGGGATAGTGGGCA
GGCAGGGGCACAAGTTGTCAGATGCTTCTGTACTTCATGTGTTACAGACAAAGCAGATCCACTAGATGCAGCCTTTTGGAAAAAGACACAGATGCCCTTG
ATGTGCTGGTGTCGGTTAGCAATGGCTTGGAAGAGCTGGATGTTAAATTGTTAGGAATTTTGCAATCTGGTTGACCCCACTGACAGCTTGAAATCAGCCA
TGGTGAGAGTATCTACACCRTGGAAATTGGCCAACATTACAAATTAGGGCTCCCTTCCCTCCACCCAGAAGTGTTCAGTAAATATTTACTGGCATACTAC
CGGAGCTGCTGGCCTTTGGGAATGGAAGCATACTGGGGGTCCGTGTGCACTAAAATGGCAAAGAAAAYCTAGGGGATGTGGATGGTGCAGGGACAGCATC
TACTGCAGCACTCATGTATACCAGCTGCAATATGGTAGGAAACCTGCCCCTGCCCACACAGGCTAGGCAGAGGTGTGTGAGAAAAAGGGAACTGGTGAGA
GGGARGGGAACATGCTGGATTTCAGAGCAAGGTCTCTCAACCTGAGGTGGCCTGGGTATGAGACATGCTACGCAGAAAAAAACCTAGAAATAACTGAGAT
TAAAATAGCTAACTAAGCTACTGAATACTTGCACTGCCAGGCACTGAGCTAGATGCTTTACTTTGGCTAATCTTCATAGGAGCCCTAGGAGGTAGATTTC
ATCATCATCATCCTCACTSTAACTATTATTATCATCTTTGTCATCCTTCTTCTACAGATGATAAAATTGAGATTTAGAGAAGTAAAGTAATATGTCTAAC
ATCATAGTGGGATGGCTGAGCTCTGAACCCATTCAATCTGACTCCAAATGCAAAGATTGAATAACTTTGACAGAATAGGTCCCACTTCCTATGGACTGAG
TACACATGGTTGTGGGGGCATAGGTTGCTTCAGTGGCCATCAGGATGACCTGGGAGTAACCTAATTTTACGTGATTATAGGCTTAACCATCTGGTTATCA
GGAAAAAAAACCATGTAGAGAGCRCACGAGAGCCCAGAATCAGTAGCTGGGCCTCCTGGTGTGGAAAGGWTAGAACTCAAATCTCATCGAGGGATGGAAG
TCTGGATACACTCCTTTCATCTCTCAGAATCAGCTCCAGGCTGGCCCAAAACAAATGATACAGAGGCTGAGAAAGGCAGAGCAAACCTGGGACATGGGGC
TGAGCCAGCAGAATCATTAGCAGTCAGGCTGTGTGAATTTTTTTGTGGTAAGAGAGATAAATGTCCCTCTTGTTCTTTGYGGTTTCCTTTGCCATAAGAG
CCACTGCTTTGTGAAAGTTCTTCTTTCCTTTCTCTGGCTTGCCCATCCCTGGATTGATGTAGTAGCCAGCAGCAAGGACATATGAAGGGTCTGGAAGTGG
AAGGCTGCCACCCCTGCCCTGCTCCCACTTCTGGGCCCCCAGGGATCCCCTGACATAAACAGTCCTGCAGGAGGAAATAATAGGTGGACTTGTCCCTGTG
ACACAGTGGAGGTAGGTCTGGAAGTTTCCTTTGAACATTAGGTAGGTCTCAGCTTTGTATTTCAGGTGCTTTTATCATGTGTTTTATCCTGTAACAGTAC
ATTCTAGAGCTACCTTTCAAGTGTCATCAATCTCCAATTCATTTTATATTTTCCTCTATGTATGTACATTTGTATGTATGTGTGTTCAGTTACCATTATG
AAGTAACTGACCTGAAGCAAACTGAAAATAAATCTTGCCTTATGTTGCCAACATTGCATTTTTTTTTCTTTTTCTTAATTTATCTGTGAATATTGTTTTT
CTTCTTCTTCTTCTTYTTTTTTTTAAATGGAGTTTCACACTGTCACCCAGGCTGGAGTGCAATTGCGCGATCTCAGCTCACTGCAACCTCCGCCTCCCGG
GTTCAAGCAATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGATTACAGCCACCCACCACCACCCCTGGCTGATTTTTTGTGTTTTTGGGAGAGACAGGGT
TTCACTATGTTGGCCAGGCTGGTCTCAATCTCCTGACCTCGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGACTACAGGAGTAAGACACCGTGCCC
RGCCAGTATTGTTCTTCTTTATACCTRATTACTCATCATTGGAATTCTCTTTAAAAAAAAAATGTGCTTCCCTAATTGGTTGCCAACAGAGAGGCTACAT
CATAGTGGTTAAGAATATAGGCTCTTTTCCCTTGACTGAAGCAGTGATTAAAACAAAAAAATAAGAAAGAATATAGGCTCTGGTGTCATACTGCCTGGGT
TGGAGACCCAGCTCTTCAATTTACATCTGTATGACTTCAGTTCATTTTTTTTTTTTCATTTCTACATGGCTTGGTTTCCCCATCTGTAAATTGTGGATAC
TTACACTAGCTATCTCATAGGTTATTGTGAGAAATAAGTGAGTCTGTATGTATGAAGCCCATAGAAATATACATAACACAGAGGAAGCACTACCTAGTGT
CAGGGTCTACCACTGTGTATTCTTTAGGAGGTTTCAATCTTGACCTTCAGAAAAAGAATTATTTCATTCAACAAGCATTTATTGAAAATTTCCTTGGTGC
TCATCTCTGTGCCATGTCCTTTCATATAGATTTTATCTGACATAACTTAATTCTTACCATCACCCTGTGTTAAAGTTATGGTGTTCATTTTCTAGGGTTT
AAGTTCTGGAAATGCTGTGTGCTCACTGTATCCACCAGGATAGGTGAGGCTCTGCTGCATTCATGAACAGTCACAGATCTCAGAGCCTGTGAGCGGGTTT
AATTCTCCTTCATGAGAAGCCCCCTGGTCAGGGTGTGTTCCTGCACCTGGTGGGGCAGCATGGTGGGCTATCCCCTCCTATGGCTCCTCTGTTACCAAAC
AAGCTCTTCCTATAGCTGCAGCTGAGGAATAAAAATGCTGGAGAATCTTGGCGGTTAAATGCTTTGACTTGGAAATAAAATGGATCAGTTCTACCTGCAG
CCCAGGAGCAAGATTGGGTTGCAGACTCTACCTAATGGCCCTAGAGACTGTAATCCTCCCACGTGCTGGAAGGAGAGTAGAATAGGGTATGGTGAACAGG
AGATGTCTCTACCACTCACTTGGGACTGTGAGCACCTGTCTATACCTCGGCTGTCTTATCTGTGAAATGAGGATGACAGCTGTACCTACTGCATATAGTT
GTGATAGAGTGAATAGATAAATGCATGTAAAGCTCTTAGCACACTATATGGCACTCAGAACATAGTCAAAATGGGGTCACTGTAATCATGATATACAAGA
AAGTCAGCGGAGCCTCCTAATACAGTAAAGTAACCATTGTTTTGAATAGTCACGTGTGGATATCAAGTCCAGTTATATTACTTACCAGCTGTATGTATGA
GCATGGGGAAGTTATTTACCTTCTCTGACTTTTACTTTTCTCWTACGTAAAATGGTGTGGGATCACACTCACCCCATAGGCTGCATCAAGGGTTAAATCG
CTAACATTTACTGACACCTTGGAAAGATGAGCTAAGCGTTTAAAACCTGTTGGCTCATTTATGTCTATGTCAATGCTATGGGAAAGGTACTCTGTTATCC
CCCATTTTATAGCAGAGGAAACTAAGCCTCAGAGASGTTAAGTAATGTACCCAGGCCTCTCTAACTGCTAAGTGGTAGAGCAAAAAGTGAAACCCAGGCA
TTTTGTCTTCTCAATTAATGATCTTAATACGCATTACAGCCTCCCTGAGATCAGTTGGGTAAAGCTCTGAGCACAGGGCCAGGCACAGTGTACACCCTTG
CAAAAATATTAATTTGCCTGGGTGCAAGGTGAGGGWCATAWCCTTTTCCTATTCTGAAACTCTACTCTGCTTAGGATGCATACTGATGGCTCTTTTTTTG
TGAATGGATGGAAGTATGAAAGGAGCAGTAAGAAAGGGCACTATCAGGCTGCATGCAGTGGCTCACRTCTGGAATCCCAGCACTTTGGAAAGCTGAGGCC
AGCAGATCACTTGAGGCCAGGAGTTCAAGACCAGTCTGGCCAATGTGGCAAAACACTCTCTCTCCTAAAAATACAAAAATTAGCTGAGSACAGTGGTGCA
TGCCTATAATCCCAGCTACTTGGGTGGGTGAGGCATGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGTGATTGTGCCACTGCATTCCAG
CTTGGGTAACAGAGCAAGACTGTTGAAGAAAGGAAGGAAGGGATGAAGGAAGGAAGGAAGGGATTAAGGGAGGGAGGGAGGGAGGAGAGGGAAGAAAAAG
AAGGAAGGAAGGAAAGAAGGAGAGAAAAGAGAAAAGAAAAGAAAAGGCACTATCTATGCCATATGCTTTTGTGAGACTATCAAGGCCTGCATGCAAAAAA
ACCCAGTGCAGAGTTGGTGGTCAATTAGCTGGAGTGCTTTATTATTTTTAATAATCAGCCATGCTTAGTGGGAGTCTCTGAATCTGTAGTTATGACTGTA
GTAAATGGGACACAAAGGGAGCAGCTGGACATACCGGCAAGTATTATAATGTGCAGACAACCTGCAAATATGAACCTTCTTTTCAAATAAGAATCTCAGT
GCTGTCACTATTTGTTTTAGGAAGTGCTGGTTTTAACTGAATGAGGAAGTTAAACGCATGTTCTGTTTTTTGTTTTCATTGCGCCCACATGGGTTGACTR
TGGGTTCGGTTTTCTCTCCAGATTGAACACTTAGTACTTAATGGGGGAACCACCTTGGAAAAGCAGAACTGATTTGAGGTGGCTTCATCCCTCTCTTCTC
CCACCAGAAAGAGATGGGAGCTTCCACTTCAACCTGGGGTGAAGACAGAGAACAAGGTGTCCCAGCATTTTGCACAGAACCAAAGCCCTGGAAATTCTGG
TGGAAGCTAGACATTCAGAGTCATCAAGCTAACAGTCACTTCCTGCTATGTGCCAGATACTATGCTTTTCACAGACATCTCATTTACATTTCCCAGAACA
TCAGGTTGGAGTGCAGTGACGTGATGCAATCATAGTTTCCTGCAGCCTTGAACTTCTGAGTTCAAATGATCCTTCTGYCTCAGCCTCCCAGGTAGCTAGG
ACTACAGACATACACTACCACACCTGGCTGAGTTTGTTTGTTTGTTTGTGTGTTTGTTTGTTTATTTTGTAGCAATAGCATTTCACTGTGTTACCCAGAG
TGGTCTCCAACTCCTGGCCTCAAGCAATCCTCTCGCCTCCACTTTCCAAAGTGCTAGGATTACAGGCACGAGCCACTGTGCCCAAAAGTTAAGATTCTTG
TAGCTGCTTTATAGAAGATGAACTGAGGATCAAGAAGGTGAGACTTGATGTGAGTCAGATAGTGAATATGCTATAGAAAACTAAACCCAGTTCCTTTGGG
GACTTGGAATTTGGCATCAATATTGTCACCGGGCTTTAATTTTGCTTAACTCCACACTGTGGTCTTTGTGAATGGTGCCTCCAAGAGTTGTGCCCCTGGG
TGGGCCTGAGCTGAAACATCAGGTAGATGCAATAGGCCTTGTCTTTTGTGACAGTTCTGTACCATCGTCTATAATATATCTGTATTAGTAATCTATGGTT
ATACAACAAATCACCCCAAAACTTAGCAGCTTAAAACCATATTTATTATTCCACAATTTCTGTGCAGCAAGAATATGGGTGCAGCTTAGCTGGGTCTTTG
GGCCATAATCAAGGCTAAAATCAAGGTGTCAACTGAGGCAGCAGTCATCCTAAGACTTGACTGGGCATGGGTTGGCTCCTGAGCTCATTCATGGGATTGC
TGGCAGGATTCTGCTTTTTCAGGCTGCTGGACTGAGGGCTTTGCTTCCTTGCTGGCTATTGGATGGAAGAACCCTTTAATTCCTTGCCTTTTGGACAGCT
CCAGAGGGAAGCTCACAACAGGACAACTTGATTCGTCAGAGAAAATAGGTGAGAAGAGCCAGAAAGCCAGAGGGCCAAGAAAACAGAAGCCACAGTTTTT
GATAACAGTCATAGAAGAGATGCCCTGACACTTTTGTTGCCTTCTATGCTTTAGAAGCGAGTCAGTAAGTCCACCCCACCCTCAGTGGAGGGGATTACAC
AAGGACATGCATATGAGGAGGCAGGGTTCACTGGGAGCCAGCCACTGCCTACTACAAGAACCGTGATTATTTTAACGCAAAATGATGGGTCAAATTCCTT
TTATTGGGTAGAATTGTCCCTCCAGAAAAATCTCTTTTGTCTTGAATATTCATGCATGCTCTGGTACCTCTCTTTCTGTGATAAGGACGTTCCAGTTTGA
AAAACCTGAGTTTATTAGTCAAATTGTGCTGGTGTAGAAATATTCCCTCTCTTTCAAATAACTTTGCATCCACCTGCTTTGACTCATGATGTTGAATCTA
ATTTTATTACAGAGTTTTGGATGGTGGGGGCATTTCCACGTTGCTGCTATGTACTTTCTATACAAATAAGTGTTGACCTTTGAAGTAGTCTCCCTGGAAT
AGAAGGTTTTAAACTCATTGATGATGCAAACTTTGCTTAAGACCTTGTTGTAGCTTCTCTTTGGGAATGGCCTTTGGAATCACGACCAGAAAAAAAAAAA
AAAAAAAAAAAAGGTCTGCTTTATCTATTCTCACTACACAGCATTTATTAGATATGGCTGCCAGGGAGATATCTCCTTCCTCACTGATTGTTATTCTATG
CATTTTCTTCCTAAAACTAGTAGATTTGAACTCATACCTATCTAGAGCCCTCATTATGAACAACAGCTTTAAAGCACGCAAGGCACTAGGAACCCCTATT
TAATCATTTACAGAAAAAACATGGCAAAGACCACCACCTCCTTCCTTAATTCCATGGTGGATTTAAAATGCTTAGATTAGCTGAGTCTTAGGAACTGAAG
TATCCTTGGTCTTTCATTTGTGATAATTTTAAATACAAGTGTTGGTCTGAAGAAAGGAAATGATCAGKAATTAGCCCTGGAGCCTGCTGTGTATATTAAA
TCAATCTCAGATGGAAGAATTGAGATCCCGGAAAGCAAAGAAATGGCTGGACTTAGAGAGGAAAGATAATCTAGAAGTGTAAAGTTAGGGTGGGAGGGAG
AAGGGTAAAGCTTGAGTAATGAGTCCACTGAAAACTATTTTTTAAATGTAATAAATACGTAAGTAGCAGTTACTGTATGCTAGATATCCTTCTAAGTGCT
TGACAAATTTACTCCTTAGAAGCTAAGTACTATTTTCCCCATTTTCTAGATGAGAAAACCGAGGTGCAGGGAAGTTGAGGGACATGTCCAAGATCACACA
GATAGTAGGCAGTCCAGCTTCAGAATCTGTGGTCTCTACCAGTGCACTTTGCCACTTCACAGAACTATCCAGACAGAAAGAGCAGAGGCCGCTTTGAGAA
TTTCTGTGCAGGTCCAAGCGTCCACTTAAATCAGGGCTCCTAACACAGCAGTTCTCCAATGTCCTGTAGAAAACATTCTTGTTCCCTTGGGACAAGAGAA
ATCTGAACTCAGTTGTGCAAAAAAGAGGGTCTGGGAATGAACCAAGAGGGATGGTCAGTGGCTCCAAGGGGCGGAKTGGGAGAAGGCAAAGGAGAGGGGC
CAGGAGAGAATGCCAGGAAAAACCAGAAGAAAGATTTAAACAAACCTCATAATTTACCTGTAACCGACAGCTCTCCTTGGATAGTTTATCTGGGCACTCT
ATTCCACCAGAACCAGATTGTTGGAGTTGTTTCAACAGAGGAATGCAGAGCTTAAGTGTGTCTGTGCTGTGTGAATATACCTTTGTGTATCTGTGTAGCA
GGTAGTGGTAGAAAGATTTTGGAAGTCGAGGGAGATGACTGAAGTAGAGGGAAAGGTGGGAGGTCATGGCTCTCATAGTATTTTGTCACGAGGTAACTTT
GACAACCCCTGAGAATCGATCAGTCCCCCAAGAAGTCAAATACATCTGCACATGTGTATCATGTTACTGCATCTTACCTTGACAGGCGCACTTTAGGGGA
TGCAGTCTCTGCCCTTTTGTGCCAGGAGCAAATCCATTTTGCCCATGATTTCAGGTACACAGGTGATTTCGCCAAACAAAACAAGCACAGCTGAAATCTG
TGACTTAAATCAAGCAACGGTGTCTGCAATASTCTCATTGCAGAGACTTCTGCTCCCTTGTTGCTTGTAGGAATGGGGGTGGGGAAAGGTCAGGACTATA
TATTTAAGAAAAAAACCCCACATATGTCGACCCACAAGTGGTTACAACAAMATTGGTTTACTTGAAAGCTCTGTCTCCACTCTCCCTACAAAAATTCAAG
TAAGAACCTGGAATGCAAGGAGGTGGAAGAGTTTTCTCTCCTTGCCAATCTCTCCSTTGCTCTCTGATAAAAGGTGCGGCAAACAGGGTAGAAATGACTG
CACGGGACCAGAGGATRTAAATATTCAGTCATGACAGTCCCCATAGGATAAATGACAGCAGCCCATGCAATGTGCCTTCTGCACATTTTCAACTGACTCT
TCCCCTCTGCAGCCAAGTTGACATATTAGTAAATTGATTCCAGGTGATGCTGACATTTTGTAATTATCACTATCTATAATTTTCATCTTATCCCATTTAA
TATTTTGATCATTTAAAATAGAGTAGCATACCTAATAGTGGTCATTAGTTTAGCTCAAGGGAAGATTCATGGTTTAATAAACTTACATTAGAAATAACTT
ACTAAAATTACAATTGGCATGATTAGCTACTTTTTTAAATAAAACATAACAGAGTGACTTTACCCATGCTGACAGCTTTTTTCTTTCACGCTGGTTCATT
GTTCTATTGTTGTCTTGGAGGAAGAAAAGACATGTATAACACAGAAGTTGTAATAAAAACTGTAATAACCCGATACACAAAAACAAGGGTTATATTTCAT
TCTACATTTGACAGTAGCTGAGTAGTGTACTTTTTCTTGTTTTCTGACTGGACTGGAGGGAGGAAATCACTGTGACTTTGAATCAGGGTCACATTTGGGG
TAGCTGTCCTCTTCTCCTGCTGTCTGGAGAGACTGTGAGGTTGCCTGAAAGGCAGTGGGATTTAGGCTTGACTTCCTTATTTCCCTAGGCATTGATTTTT
TTTAAGTGTATCTTCTGAAGTTTGCCTCTAGGTTCACTTGAGGTATCATTTCTGAAGAATAAAAGTGGCAGTTTTAATATGCAGGCAATTTTTTAAAACA
ATGAAATAGAGATGTGATTATTGCCAGGGCAAGGCTGTTTAGTTGCCACAGGGAAACATTATACCAATTGGCCTATAGCTTGAAATTACAGCATTCTCTA
TATTCGTCCAGCTTTAGGGAAATGCAGACCACAAGGGTCCTGSCTACCGTTCTGCTTGCTGGTGGTTCAGGTTTTGTGAACTTATACAAGGGCTTGGTAT
TTGAATGCTATCTTAATGAGAATAAGCTTTTTTGTTGTGTACAYTGGCAACTTGATGGCTAAGGTCATTCTCCATCCATTTGTCTAGCTACCCACACACC
TRTACATCCATCTACCCATCTRTCCACCCACTCACCCATCTATTCACCTATCCATCCACCCAGCTATTTATCTATCATCCATCCATCCACCCACCTACCC
ACTTATTCACCAATCCACCTATTAATCTATCCATCTACCCATCCATTCAGCTATTCATCTACCTATCAGTCCATCTATCTATTCAACCTTTCACATATCC
ACCCACTTACCTCCCCTCTCATCCATCAATATAGCCTTGTATCCATCCACGTAACCACTCATCCTTAAACAAAAATCAGTTGGCAAAACTGTAAGCATTG
GTAATAAAGAGACATATAAGTCGCAGTTCTGTCCTTAAAGAGCTTAGGATCTAGTACGGGAGTATATGTAAACCAAAAATTACACAACAGTGTGCTCAGT
GCACCTACAGAGAACTGTGCCGTGTTGCTGTGGGAACTCTAAAGAAAGAATGGTTTACTGTGTCTGAAGGATTCAAAGAAGGAGGCACACATGTGAACCT
AAATGTCATATGTGGTAAAAGAGGAAGTAACCAGCCAGGGGTGAGGAACACAACAGCAGGAAATTAAGTAGCYGATGAATATTCAGACTTGAAGTTCCTS
CTAAAGTGCCCATTTGTTGTTTGGTAGAAATATGGATATGTAGGAGGGGGCCTCTACCAGGGTGCAGAACATATGGTGGTATTATTAGGGCACCAGGCAG
GAGCTGAAGTAGGGGCTCAGAAAGCCAATCACAAGAACCAGGATTCAGGGTGGGCCTGTGGTTTTGAATGGAAGAAAGGAGAAAAGAGTAAACAAATGGG
CTGGGCACAATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACGAGGTCAGGAGTTGGAGACCAGCCTGGCCAACATGGTG
AAACTCTGTCTTTACTAAAAATACAAACATTAGCCAGGCAAGTGCCTGTAATCCTAGCTACTGGGGAGGCTGAGGCAGGAGAGTCACTTGAACTCGGGAG
GCGGAGGTTGCAGTGAGCCAAGATCGTACCACTGCACTCCAGCCTGGGCGACAGTGCCAGACTCCATCTCAAAAAAAAAAAAWAATAATAATAAACAAAT
GGATGCATGAACAAGTGCATARTAGGTAGATAAATACACCTTAGGAGACAGATCAAAATGCAGACTTGAATTTAATTGGCACAGACACTTAATTATGCAT
CTTGACATCTTTGACCAAAAACAAAATGCCAAGAACAAAAGCAGCTTCACGACCAAGCACATGCTGGAATCCGGCCTTCTGTCTGCCTTACTCCCGCTGC
TGGTGAAGCTGCAGGAATCCTGACAGGAGCAGGCTGCCTTTCAGCTCCAAGTTCCTGGCACTAAGTTCTGCGCAGGGGCCTGGGCGAGKTCTTTATGACT
TTCCAGAGGCTTCCAGGTCTCTATTGAAATGCAACAGCTGTTACTAGGGGCAACTCTACTTCCCAAACAAGAACATAGACTTTGTGGAGCTTTCCCAGGT
GCTGTGAACCCAGCATTGCCAAACAATGCCTGGGACCCACAGCGTCTCCTTCCCCCATGGAGTTTAAATAGATTGGAAGCAAATGCTTGTTGACAACAGG
TGTGGCTCAATGTGAGCAAACGTTCCATTCCGTTATTGCAGGGTTGGCACCGAGGGACATTTCCTGTGAAAGAAACAGGCTTCCAGGAGCATGGGCAATC
CATACTCATAGCCAGACCTGCTCAGCTCCTCCCCTTCAGGGCCAAAGACCGCAAAGCTCCGTGAACAGGTGCTCCTAATAAATGCAGAGTTTTCCATAGC
CCAAGCAAGGCTAGCAGGGAGGGGAGGGGTCCCTGGCCACAAAGCTCCAACCAGCCAACTGATCAGGCTTTCTGCGATGATGGAAGTGGCTGCATCATCA
TTAACTCAGCTAGATTAACYTGTTCAGCAGAAGCTTGCAGAGCTGCGTGAGCCTGCCTTCCACTCAGCTTGAATTAAAGAGATTGGGCTGCAAGGACACA
GAGAGGTGAGCCCCAGGAGGTGGGGWCCCAGTCCTGAGATTAGTGACAGCAGCCCTGAGGATGTAGAGAAAAACTTCTTACTCCTTTGAAAAATGTGTGC
AGTGATTCTTTTCCTCCCTGAGCTGTCTTGGAGCCAAAGTAAGTTCTTCACGGAACTAAATGGARTTGCTTGTTCARTGAGATTCTAATTTCAGTGAGAG
GACTTCTCGGCTACATATGYATTGCTTTGGGAAGTCCTCCCTTCCGAGGCAAGGGCTTCTCCACACCTAGGATTTGATGTAGAATTACTAGGGCAGTATG
TAAGGACAGAGAAAGAACAGAGGCAGCGGCAGGCTTCTGACAAGGGAATMCTGGTAATCAGGCTCTCTGCATAATTTTTGGAGATTTGGAGATGGAGTTA
GTGGAGGGAAAGAAAGAAACGGATATAATTAGAAAAAGAAAAAAATACTAATGTCTTCACAATACTTAATGTTAGAAATTCAATTTGTTTTTTTCTTCTA
CCTCCGCAGGCTCTACATGTTCCTGGAGGTGTGTGTGGCTGGGCAATTATCCTTTTTCACTCTTGCCCAGTGCTTGTTTTGAATGCAAATGTATTAGTTC
AGATGGGCCAAGTTGCAGTAAAARAAATCCACCCCCAAATTTCGGTGGTTTAACAGAACAGATGTTCTTATCCTGCTTACCCAACAGCTCTAGTGGGTGT
TTCTTCTATGAAGCTGCTCAGAAACTCAGGCTGATGGGTGACCCTGCCATTTTCAACATCTGGTCTTCAAAGTGACCTTAGACGTTGACATCCCTGTCRG
CCAGAATGCAGAAGTATCACGGCGCAGCATGTGGGAGAGGTTCTTATGGACTGTGCCTGGAAGTGGCAGACATTGTCCCCATCACTTGGTCAAATGACCA
CACCTACCAGCAAGGGCAATGAGGAAATGTGGTCCAGCTGTGTGTGTACAGGAAGAAGGGACAGCGAATGCTCTCCCCCACACCCTGCTTTCAGGGTTTA
TCCTTGTCATTTATTGAGGGCCTGCTATGTGCCCTACATTGTCCTAGGAGCTGAGGATACAGCTGTCCACAGAATACCCACGGTCCTTGCCCACACATGG
TTAGAACCTAGTGAGGGAAGAAGAAGAATTAATACCTCTTTATAAAATTAATTAATTACACTTTGGATAAGGGTCATAGGGGAAAACTTCAGGGCACCAT
GAGAGCTGGTAACTCTCTCTATGGTGAGGTGAAGGGGAAGTAGAGGAGGTTTCTGGGAAACAGTGACATTCAAACTGGCAAAAAGAAAGCAAAACAGACT
TAACCAGGCAGATGCACAGCAGGGTGGCATTTTAGGAAGTGGGACCAGCAGCTGAAAAGTCCTTAGGCAGAAAATAATTTCAAACATTTTAGACCCTTCC
TCCAAAGGGCAGCGAGGCTGATGCACATTGAAGAGGCCAGAGAGCGCCTTGAAATGAGACAGAAGAGCTGCTCCGGGCTGAGATGGAAGTCATCTTCCTG
GACTCAGACAGTTAGGGCTACTCCTTAGCAGTAGTGGGGGCCCGCTCATGGGTGTAAGAAAGAATGTAGCATGATCAGCTGTGCTTGTCAAAAATCTGCT
CTGCCTGATGAAGTCTGAAGGAGGGAGGGTACTGCAGTCTTTCAGGGGAGAGACGGGGGCTTGCGTTCGGGGCTGGCAGTTGAAACGGAGAGACATAAGA
TAGATTGTTGAAATAGGAAGGGGAAGACATGAGACTCTCTTATGTCTAAATGTCTAACATGGGTTGGAAAGGCTGCSCACCAGTCCCAGGTATGCAGGCT
TGGCACTTGGCTCATTTGAAAGAGAGACAACTAAGCCATAACTGGTTTATCCTTTTCCTCTGCAGTTTTATGGCCTTCTTGACTTCAGGCCTATTTAATA
AAATGCAGCTCTTTAAAATGGATGTTCAGTGGAGCTCAAATTCACCCTCAATGTGCACTTCTGCGGACTTTGATTAGTATGCATAATAGAGCAGCACACC
TGATGTCCGCAGCAGGCAGTTCTAATGCCGGTGGAGAGAGGTACRAGATAAATCACTCCAAGTAAATGACTAATTAATCATGCACTTGATTTTAATAACA
TATACCATCTGGCTCAAGATTTGTCTGTCTACAATCTTGTATTCCATTCTAGAGATTTGATAATCAGTAAAACCACCCATGGATTCCTAATTGAGGACAA
TTTCTTTCCTTTCTTTTAGAAAACTTAGGAATCAAAGTGTATTCCAGTAACTGCATGGAARGGGCTGGAGGGAGAAGGTTATTGTTATATATAAAGTCGC
GGTACCGCAAAAGAAATAGCAGTCGAATATAAAATTTTATTTTTAATTCTCAGCAAGKCAAGTTACTTCTATATAGAAGGGTGCACCCTTACAGATGGAA
CTATGGTGAGCCCACATTTGGACAAGAGAGGGGAAGGGGTTCTTATCCCTGATGCACGTGGCCCCTGCTACTGTGTGGTTCCCCTGTTGGCTAGGGTTAG
ACCACACAGGCTAAACTAATTCCGACTGGCAAATTTAAAGAGAATGATRGAGTGAGTGCTTTGGCAGGAGTCAAGGCAGAGCAGGTAGCAAGTAATCTGA
ATGAGTTAGGGTGAGCAAGTGATCAGAATGAGTTAGGGTGGAGCAGGTGATCAGAATGAGTCAGGGTGGAGTAGGTAATGGAAAACGGTTGCTTTACGAG
GAAGTTAAGTTTAGAAGTAGAAGGCAAAGAATTGCACATACTGACATATTCTTTGAAAAGAAATTTAGAAGTCATATCTTACAGTTAAGGTTTGATTTTT
TTTTTAAATCTTAAAACCATCATAGATATTTCAGGATAATTTATGGGACAAAATGGACACTATCCCAATGAAAACGTGTAAAATCACTTCCAAAAGTGTC
TATGCCAGAGGGCTTACTTGCAATGATCCTTTGATCCTCCAAATCAGAAAACAGTTTTTTTTTTTTTTTTTTTTCCATAGTCTCATCTATGCCTTTTTGG
TTTTTCTTCTTCTTTTGTGTGTGTGTGTGTGTGTTTTATTATACTTTAAGTTCTAGGGTACATGTGCACAATGTGCAGGTTTTTTATGTATGTATACATG
TGCCATGTTGGTGTGCTGCACCCGTTACCTCATCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCCCTCCCCCCACCCCACAACAGGGCCCAGT
GTGTGATGTTCCCCACCCTGTGTCCAAGCGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTCTGTCCTTGCAATCGTTT
GCTCAGAATGATGGTTTCCAGCTTCATTCATGTCCCTACAAAGGTCATGAACTCATCCTTTTCTATGGCTGCATAGTATTCCATGGTGTGTATGTGCCAC
ATAGAAAACAGTTGTTTTTAAGGGTATTGGACAAGGGTCATGACTGCTTAGCAAGGAAGCATCCTCTACTTGTGCATGGCTTCAAACGCTTCTAAATTAA
CAGGAGTATGAACCATCTGAGGATTCACAATTTCCAGTGAGTCTTSGCTCTACTTATTTGAAATGGATAGCTTCCTAAAGTAACATATAATTCACCTATA
AAATACTATTTTATCTCATAAGACAAAATGAGTCCATGGTSTTATTATGTAAGACTGTTTTCCATTGGGGCTGGTCTCAGGSTAGGCAAGGTGAGTATCT
GTAGGTGGAATTCTCCTGAGAACAGATGCTCTAAACTTTTTAAATAATTGATTTGACTTCTTCACCATGTCCATGTATATAGCTGAGCATGGCCAATCTA
CTGGTTTGTATTATACTGTCAAAAAACAAACAACTTTCCCTAACAAAATAAACAGTATCTCAAACAGCAGCACATATGTCCTGGGGGGTAAACAGAAAAC
TTGTCCCATTTGACTCATTTCATTATTTGGAAGAAATTTCCATCACAGAAGGCAGATGTCGGTGGACTGATACCAGATAGTAGAGAAATTCTGAGTGTTT
ACTGTGTGCAAAAAAATGCTGCATTGGGGGGCTTTAATCAGAAATCCATGAAAAATAGTGTAAGTACAATTTATCGAGCATTTATTGTAAGCTAGACATA
TGCATCACCTCACTTCAGAATTAGCCTATGAAGTAGAATTATTATTGTCCTAAATGGACAGGTGGGACCTAGGTTGCCCAGAGAGGTGAATGGGCTTTCA
CAGGGTTTCACAACCAGTGGGAAAAGGCTGGACTCAATCCCAAATTAGGCTCATTAATCATGCTCTTGATTTTAATAACAATTTTGTTTGTTTTTTCTCT
AGAAAAGTTACGAATTAAGTTGTATTCCACGGACTGTATGGAGGGGRGTGAAGGGAGGAAGTGTGTGTGTGATCTCAAAAGCCATCATACATCTTTCCGG
AGAGTTTGAAAATAATAATCTGAAAATCCAAAGGCTGACTCACAACTCCTGGGCTGTACCTACGATACAGTAAGTAAGAGGATGGTGTCACTGTGTCCTC
CCTTCTGTCCTGAAGCATTCCATGCTACACACCATTCATAAGATTTAAAATCATCTTCAAGAAGTGCCCTGTTGGAATAATAAGTSAGTGCTCTCTGGAG
GCTATAACCAAATATAATTTGCCACATAAACATGAAATGTGTGTCCAAGAAACTAGTAGGAATGCMTCTAGGAACCAAAGTGTCTCCTTCCTAGAGAGAG
AGGAAAAAAACAAAGTGAGGATGGTCCTCTGCACAGGCGTTGTATATTTTGTTCTCAAATCCAGCAGCCTTGACTTGACATGGGATGGTTGGGATGGTTC
TCCACGTAGCCACATAAGCTCRTTACTRCCCATTACATCTGCCTGTACCTCCAGCAGGTGCCCAGGAGATGGCTGAGTCCCAAGAGCCATGCAGGCCTCC
TGGAYGACCGCCCTGATGTGGTCCACKTGACTCTTAACAGGTATCATGGCCTTGGCACATGTTGGGCATTTTCCAGCGTCACTCTCAGAAGACCCTCCCT
CCATGAGTTCACCACTGCTGGTCTTTAACTCTCAGCTTAGGGAATCAGACTGAATTAGTTCTTTGTGTTATTAACCGGAGGAACACTTACATTTTCTGAC
AACTCTAATCTTGGAGCTCAGGGAATAGCACAGAGCATTTGTATGAAATTACCCCTCGTTCTATCTATAGGCCTAACAGCCAGCATTTGTGAATTTGGCA
GAAGCCAGCAGATCTCACAGTTAATGTCTTCCTCTCCTGCCAGGATCTTTGGAACAAGGTGCTTAGAGTGCCACATGACAAAGAGCCGGACAGATCCTGG
GATGTGGAGCCCAGGTGATGTTATTTGCATCCAATTAAAGAAGCAGGAATGGGTAGCATAATTGACATGCATGACTCTTAATGCCTTTTGGTTCATTAAG
CCTTTGGATCAACTTTTGTAGGAAGACATKTAAAAGAAACTGAGCAGGACTTGGGCACAGGTAGAGGTGAGCTTCCGGGCTGAATCCCCTACTAGGCCGT
TAGTCAATTGTATGTTTCCTTTTTGGACTCAMSTCTGGGTTGCARAGGAGGTTGCTCTGATTGTTTCTTGTTATACCATAAAGATAAGGAGCTTGAGTTA
CTTTCCAGCTGATAAGGCAATTTTCRCCTTTTTCCATTTGTCTTGGAATTTCACACCCYAYCCCATCCTACCCTTAAGGTGCCCTGGAGGGGTTGAAGGG
CCATTCTTGGTCATCCAGTCTCTGTGTGGTTGGGTTGATCACAGAAACTAGAGAAGTCAMGAAGAGTAGGTGTTCCTCAGGTTAATTACACAAAGAACTA
ATTCAGTCTGATTCCTTAAGCTCGGAGTTAAAAACAGTGATTGTGAACTCATGAAGGGAGGGTCTTCTGAGAGATATAAAGAGGCTGATATATGCTCTTT
ATATCTCACCTTTGATGATACACAGCTCACCTTTGATGGTMACTCTGAATCACRTCAAGGCGATGACAAGAACAACTGTCTAGACTTAGTGGTGTGGCTT
TGAAACGACACTTCGCCATTCAGGGATTCAATTGTTTTCCAGTTTTATAATGAGGGAGCTGAGCAAGAGAAATATTTTCAAAGGCCATTCTGGGCTGCAC
AAGGATAGAAACAAATGGGAGGTCCATTGGGCAGGACACACCTGTTTCTACAAGAGCAACCTACTTTTYTGTTTTGTTTTAATCAAGGGAGTGTCAAGCA
ATTGCTTATTTCATAAACAGGGCTGTGCTGCTATTTTTAMACAGTGTGAAGTCCACAGGTCTGAATAATTTCTTCTTGCTCCAAGAGTTCCTAGGTCCTG
TGTTCAGATTTTGAGAGCCTTCATGTCTCAGGTCCCARTAGCAGTTTCTATGACTGACCAGCCTGTCCACAGAGCATCYCCTCRCTGGACAGGCATTGTG
GGCACGCTCCTGSGGAGGAAGAATCAGGGTGGTGAGGCAATTAGTAGGTGTTCTACAATCCTGACRTCTTTCTCAGACCAGCCCCCATCTCTGTCTATTG
GCGAGATTTCTTCTTTAGCTTCTGCTCACTATGACATGAAGGACTTCTTCTTACCTAGATATTCTGGTGCTATAGGGGGGTGCTGATCAGTGGAGCTTAG
AATTACTTTACACACACATGCCTACACCCCCCCTCGCAACACACACACGTACCTTACAAAATTTCTAATTATAGGCCAGGCGCGGTATCTCATRCCTATA
ATCCCAGCCCTTTGGGAGGCCGAGGCAGGCAGATCATGAGGTYAGGAGTTCAAGACCAGCCTGATCAGCAGGGTGAAACCCCATCTCTACTAAAAACACA
AAAATTAGCTGGGCATGGTGGTGTGCACCTGTAATCCTAACTACTCAGGAGGTTGAGGCAGGAGAATTGCGTGAACCCGGGAGGCAGAGGTTGCAGTGAG
CCAAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAGAAAAACAGAAAAATTGCTAATTATGCTGATTACTTTAGAT
AAACATTTCTCAATTTGGGCTTCAAGGCATATTAATAGACATACAAAAAAATTATTTGGTCAAGTGAAAATAAAGCATATCCTGCGTCCCATAGTAGGGT
AGTGTATTAGTCCCTTCTCACGTTGCTTTAAGGAAATACCGGAGACTAGGTAATTTATAAAGGAAAGAGGTTTAATTGACTCACAGTTCACCATGGCTGG
GAAGGCCTCAGGAAACTTACAATCATAGCAGTGGCAGAAGGCAGCCATGATTGTTTWCCAGGCAGCAGGAAGGAGAGTGCCAAGGGAAGAGGGAGGAGTC
CCTTATAAAACCATCAGATCTTGTGAGAACTCACTCACTACCATGAGAACAGCATGGGGAAAACTGCCCCCATGATTCAATTAACTCCACCTGGTCTCTC
CCTTGACATATGTGGATTGTGGGTGAGAGACAGGACTAGCTGGATTTCCTAGGCCAACTAAGAATTCCTAAGCCAGCTGTGCCTGGTGGCTCACGCCTGT
AATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAATTCCGTCTTTACTAAAAATAC
TAAATATTAGCTGGGCGTGGTGGCAGGTGCCTGCAGTTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCCGTG
AGCAGAGATCAYGCCACTGCACTCCAGCCTGGGCGACAAAGCGAGACTCCGTCTCCAAAAAAAAAAAAAAAAAAAATTCCTAAGCCTAGCTGGGGAAGGT
GACCACACCCACYTTTAAACACGGGGCTTGTAACTCAGCTCACACCCAACAAATCAGGTTGTAAAGAGGGTTCACTAAAATACAAATTAGGCTAAAGCAG
GAGGTAAAGAAGTMGTCAAATCATATATCGCCTGAGAACACAGGGGGAGCGACAATGATCGGGATATAAACCCAGGCATTCGAGCAGGGTGTGGTAACCC
CCTTTGGGTCCCCTCCCATTGTATGGGAGCTCTGTTTTCACTCTGTTAAATCTTGCAAGTGAACACTCTTCTGGTCTGTGCTTGTTAGGGCTTGAGCTGA
GCTTTCGCTCACCATCCACCACTGTTGTTTGCTGCCGTCGCAGACCCGTGGCTGACTTCCACCCCTCTGGATCCAGCAGGGTGTCCACTGTGCTCCTGAT
CCAGCGAGGCTCCCATTGCCACTCCCGACTGGGCTAAAGGCTTGCCATTGTTCCCGCAAGGCTAAGTGCCTGGGTTCGTCCTAACTGGGCTGAACACTAG
TTGCTGGGCTCCGTGGTTTTCTTCTGTGACCCACGGCTTCTAATAGAGCTATAACACTCACTGCATGTGCCAAGGTTCCATTCCCTGGAATTCATGAGGC
CAAGATCCCCAGGTCAGAGAACAAAAGGCTTGCTGCCATCTTGGGAGCGGCCCGCCCCATCTTGGGAGCTCTAAGAACAAAGACCCGCCCGTATCATGGG
GATTACAATTCAAGATGAGATTTGGGTGGGGACACAAAGGCTTTCATGGTTTTTGGCACCCGCTGCTGTCCCCTCCTTTTGAGTGTGGGACRGATCTGTG
ACTGGCTTCTAGCCCATAGAATATGGCACCTTCCTTCACATAAACCATCCATCTCTGAGCCATCCCCGGTTCCTTGACTTCATAGACTCACAATTCCAGA
TAAGAGATGATTCTACCACCTTGCTGTCCTGGCATCCCGGGATTCCTGCCGCGTGGGCTGAACTGTCTGCCTTTCCCAGTATGGAAGTCATCACTTACTC
ATTCAATCATTTAGCACCCTTTCTCGCTTGCTTGGAAAATACAAGGTAAAAAACACACTAGCCTACTATTTGATATTTGTGCGTGGGTGTGTGTGKGGGG
YGTCATATATCCCTCTTAGCATCTGATAAAAAAAAGATCAATTCATTACCCAGAAATATGTATCTGCATGTGTGCAAGTCCCAATTCACAATTCAGTACA
ATTCTGGGGGTTCTGGACTCCCTGAGGACCATTTATAAGTTCTCTCCAAGTCATTGACCCCAGGTTTAGTTGSCCCTCTAGACTATAAGGCCCCCTAGAT
AGAAGGCAAGTGTCATATGCCACTGCATCCCCAACTCTGAGGACAAAGCCTGGTGGCAGGTGGACCTTCATTCAGGGTGAATTGAGCTGAATTCGRTACA
TGGCTCTGTACTCAGAAGGCCTTTATTTATTTCTTGTGTTCCTCTTATCTTGTCACACTCCAAAATAGAAATGTATACCTCTGCTAGTTGAATGACTGTT
TATTTGGAAATCATCACCCAATGCCCAACTGCATCCAGGCTGCGTGACATCATTCCAGACTACAAAGTGCCAAGCGCTAATTGATTTGTAAGAAAGTCCA
CATGAAATGCCTGGCACTCTCCCAAAGGCACCCATGGGCTTGGAGGGACRACAGCATTGGACTGTTATGCGAGGAAATAATTCTTGCTTGCCCGCCTGGG
ATGGGGTGACGTTCTGGCCAGGAAGCAGAAGCAGACTTGACTTTGGGCAGCAGTCTGCCCCTGATGGAGTTATTCACAGATGGCTAAGTTAAATGCAGCC
CTCATAGCACTAAGGCATTTCAGGGGCGACTAAACAAGTGGCCCATGAAATGGAGGCACCAGAARCCTCTGGAAGCGGCATCAGTGCATCAYCCAGTGAA
GCCATTGTGTCGCCTGTTAGTAATGAGCATTTGCAAGGGCAGCATGGGGAATTTCAATCAACCTGTGAGAAGACAAGGTGTGCAGACATTGTGGATCKGA
GCGAGATGGGGAGAAAAGGCAATAAAAAGCAGTAGCAAMGGGGAAAAGAAAAGTTYGGGCCAGGAGCCAAGAAGATACTTTCTGTGGAAAAGGGAGGGAA
AAAAAAAATCACTCCACCCCTCCTGTCCAAATGAAAAAGCATTTAATTGAATGTTCTTTATAGAGGTGAAAAAATACCCTGTGGAGKTCCCAGTGTTTCA
TTATCCGATTGAGTTCGGTACCTCAAGTTTCAAAGACCGTTCTCCTGAATGGTTATTCTCATTTCCATGTCAGTCTGCCGTGTGCTTGGTGAACCCCTGC
TGGGCCGCATCATTTAAAACTCAAAACCCTGAAAGTATTTTTATGCCCGATATAGTAACAGAGCAAACCCTGGTATCACTCATTTTATTCTCCGCAGCCT
CCTTCCTCTTGTCTGTGATGTAGATGACTGTGCTGCTCGAGATGCTTGCAATCAACAGGGCGCTCCCCAAGCTCTGAATGAGGTGAATGGCCTCAGAGGA
AAACAGATTAGAAGGCTTAGAGATGACTRCATCTCAGGTGCAACACTTGAAGCAGGAAGATGGGAGTCTCAGAATTTTCCCCTTGCAGTTAGAAAAATAT
GGGACAGGCTGGGGCAGTAGGAGTGGATTTAAGTAAGTGAGACAGTGGATCAGGAAAGGCCAGGCTTTTACTGGGTGGAAATAGCCTGGATGCAATTATC
TGCTACAAGCCCCACCAAGAAGAGCCTCCCTGCTGGAGGAAAGCAGAAAGGGAACTGGGGTATAACCAAGCTTGYCCAATCCGAGGCCCGTGGGTCACAT
GCTGCTGAGGGAGGATGACTTTGAATGAGGCCCAACACAAGTTCGTAAAGTTTCTTAAAAGGTTATGAAATTTTTTTGCAATTTTTTTTCTTTTCTTTTC
TTTTTTTTTTTAGTTCATCAGCTGTCGTTAGTGTTATTTTATGTGTTGCCAAAGATCATTCTTCTTCTTCCACTGTGGCCCAGGGAAGCCAAAAATTTGA
AAACCCCTGGTTTAAATCCTCTCTACAAACTCGCCAGCTCTGCAAAATAATCATCTTTGTTGGTCTTAAGAACACTTTAAATCAGGTTTAAATCATCTGA
ACATCAGAAAGGAATTTTTTTTTCTTTTCTTTTCTTTTGTTTTTTTTCTCCCTTGAGAGGGAAATCTAGGGGTGGAGTAGAGAATCATTTAAAATATTTC
CCTTCAGAGACCAACGGCTAGGAATAGCTGATAAATAACATAAAAGAGCGGTTTAATAGTTTCATGTTTGACCCATGTAATACCCCGCACATTTGGTTAA
TTTAGAAAATATTTGACGACAACGGAATCCAATCTCATTTTCTCAAACAGAAGCTTAATTTCTCTTTGACTGAAATGAATAGTTATGTTGCCATGCCTTA
GCCAAACACCCTATAAATATAATACCCCTTCAGCCTTAATATTTCAAAAACTATGGTTTTCAGTTTGAGCTGTTATRATGTTTTATCTSAGAAGTTGTAG
AATAATTTAAACCAGTTTTTCCTACTTTGSTTCCTTGGAGGCTGATTCTTCTGCCTGAATTCCTCTCACAGAACATATAAACCCCTTTTACCTCCCKCAC
TGGCACAAAAGCAACTTGTTTCCAAGATTCAGGACTTAAAGAAATGGCTGTGGGTTGGTCTACGAAAACCATTATGCTGCATCCTCCCAGTCCYGAGAGA
TTCTGAAGAGAAGCAGGCCCTGGCTTCAGAGTTGAAGAAATGATACCTTCCCTCCTTTGCCTCATAGTCTCATTCATGATGTTTGCTTCCCATACTCATC
TCCAACTGGCTCACACATTCCTTCACCAGATAGTGTGGGAAGGAGTCCATCTTTCTGCAGTTGGCTAATCCAGGTRTTGGCATGGAAGTTTTAGCTCTGG
TCTGAGAGTTCTAGTCATGGACAATTGTCCATGTCTATTGGAATGAATAATTTTCCAATGGACATGGACAGTTGTCCCAGGGGACTGGAAATCAAGGGTG
CTGAGTAAACTCAGCCTCAGTGGACCACCTGTGTGAGTTAATACAGAGACCACATTCTGCATCTTAGCAACCTAAACAAAGGAGAGGCACAGCAAGGTGA
GAAGCTTCAAAAGGCAGTCAGCCAATGCATCAACCTGGGCCCGGAGGGGTCGGGGAACCTCAAATTGTCATCCTTATGTAACAGTGACAACTAACATTTT
TCAAGGCTCGTTACCATGCCCTGGCCACCTGTCCCACATTATTTTATGGAATGCTCAGTCAACCCTATGAATTACATACTATATTATCCCCATTTTACAG
ACTACAAAATGAAGGTTTAAGGAGAAGCTTACACACCTCACCCAAGGTCCTACAGTTGTTAAGTAGGGGGACAGAGACCTGCATTTATCTGTAGACCCTC
CACTCTTAACCACCCTATTGACCCAGTTCCTAATCCAGCTCACTTCTGAGCTCTGGACGTCCACCAGGAAGAAAACAATGGCTGTAGTGGTGCAGTGACC
CTTCTTTGCCAGTTTGTCTTGGGTCCTGATGAGCTGCCAGGCTCAGTCTGGAAAAGTGCCCTCAATCCCTGCATCTCCATCTCTCATWGGCATTGTGGGA
CCCCACAAAGACTCTGTCTCTATTCGCTTAACACAGTGGAAAAAAAGGCCACCCTTCATTCTTTTTTTTTTTTTTTTTCATTCAACAAACATTTATTGAT
CTTCTAATGTTTTTTCAAGAATGCTTTTGGGCCTSGGATACAAACTAATGGACCCAACAGATGAGTCCCTTGCCCTATTGGCACTTACTGGTTCATGTCA
GGTTCCTGTGCCTCTCCTGGAGAAGCAGGTGATAAGGTCTCTGTGTTAAAGGAGGAAACCAAGGTTCTAGGCAGCCTCKTGGGTAATACAGYCAGTAAAY
TGCAAAGCTGGGTGAACTCAATTGACAGGACTCTAGCCAGAAACTGGTTCTTTGCCATTAGTCTCTACTGACCCCTATGGATGTATGGAGGGAGTATGGG
GTACCTGGGAAACATCAAGCCTTACCTAGAATCATCTTTCCAATCTCGCTCTTCTCTTCCATTTAGAACCACCTTCAACATCTCCCCAGGGTACATTCCC
TAAAYAGCCCCGATTATTCATTATTTTATGGAACTACCAGATACTGAATTCCTGTTCTGGGCCATGCAYTCTRGGAGCTGTGATTTCAACAGTGAAGGAG
GACAGGGTGGACCCCACCATCGTGGAATTTACMTTCTAAAGGGCACAGTTTTTCTGTTGAGTCTTCCCAGGAGGTGTCTTTTTATTTCATACCTTTGACC
TTCAGATCCATTCATGATACTTTGGCTTATGGGTGTTCCACACTTGATTCCAAGGGTGATATTCCATATGTGTAATGCCTCGCTCAATCAGAATGGACAC
TGGCCCTAGTGGCCACCCAAGATGGATTCTTGGAGCTTCTTTGCTGTGACAAATAATGACCTTTTAGTTGACGAATTATAAGGAAGTTATGGGAGATCCC
AGAGGAAGGCTTTAAGACAGGGGAATTCAGAGAGCTTGGAGCAGCAGCTCTTTACGTAGGGCCACAGTGTATTTCAGTGTTTCTCCAACGGCTGCACCTG
TGGACCTATGTGTACTGGGAGACTATTGACTCTGCTCAGATTACATGGGTAAGTTTGCTCCTTACAACTAGACTGAATGCCCATTGGAGGCAGGATCCTA
TCAACTTTTTCTTCTGCCAAACCAGCCTGACACAGTATACATTGCATACGATTCTTCCATGACTATGTACTTGTCATGAGTTATTCCTCATCATTCTAAA
ATTTGACCTCAAAGCTGAGCAAAGTCTAGAWGAAATGAGGTTCTAGTTTTTATAATAATGTTCAATAGTTTTTCCTATACGTCACTCTTTCAGTGTGGGG
AGGAATGGTGACTTTTCAGTTGCTTCTGAATACGGTTTGCTGTACACTGTGTGTTACCAGTGTGATTTGCTATAACCCAGCTCTTGGAGCCTCATATGGT
ATGTGGTTCAACAGTACAGTGGTCAGTCAAGAATAAATACAGAGCAAGTACTACGGTAGCTGCAGAAAGAGCATCGCCACCATGCATCATTAGTGCAGAG
CCCTGGACCAAAGGACTCGAGCTGCCGCCAGACCTTTACCCATTCCAAGTGCAGACTTTGCTAATTCATCACTGCCTTCCTCAAGACCCCAGCAAGCTTC
TCATCACATCACTTTTGGCACTTATCTGATCTTTCAATGATCTGAGTTAGCTCAAGAAATTACATCTAGTTACCATACCATGTCAAGACTGCTATTTAAC
TAGAAAACAAAGAGACTTCCTCCACTCCATGCAAACACATGTTGATTCTCATTTACCTGTTTAGGAAAAAAAAATTTAGATTCAGGCTCATATACTAATT
TTATTCAGTGCTTAAGGTATGTCTGTTATTTGGGATAGAATTCAGTGAACAATGCTAAGGTTTACAAGGGCCCATGTATGACTTTAGGGCCGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATACATGTGTATGTGTACATACTTTTCCCCCTGTAATAGGATTTCTTTAGATCTGATGCTTAATA
AGACAGAAAGACACCACAGCCTTCTCAGAAGACCTTTGCAATATGTCCTTACTACTGGTTTGTGCTTTCAAAGTTCATGTGTGTAGTGGTCTCTCCTGTC
ACCACGATGGATCCAGATTTAAGATGTCATTGAGCCATCACAAAGTAAAGAGACACTTTCTACTCCAGGTTGCTCTGGGGTGAGAAAACTTTGATGACTA
AACTAAAGGTAAAATCAATTGCAGATGCAGTGTCTGAATTGGATATGAAAGAAAAGAGGCTGGCATTTATTAGCTGTCTACCGGAAACCAGGTTGCTCTT
GAAACACCGTCTCATTTAATCAGAAAAATGACCGCTTGCAGTGGATATCATCCTCTCCAGTTTACAAATCTAGAAAACAAGTACATCAAAGCAGTTAAGC
ATTTTCGTAGGAGCCGCACACTCAGTAAGCTAATAKTAGAACTCAGGTCTGTCTGATTTCAGAGCTCTTTCCACACTACCTAAAATATTCATGCACCAGA
TGAAAGCTTTCTTTTTTCCCCTAGACTGTTTCTTAAATTTGTAGTTCTGCTTTCAATACAGGGTTTCTTGAAATGTGATGGTGTGATTAGACTTCTGGTT
ATTACTCTCCAACCATCATTTCTAAGAGAATTGGTGTGTGAGGCTGAAGGGATGATAGTAGGGTGAGCCGTAAATACAGGTTAACTGTCTTAATGTGGCC
TGGGCAATGTCTAATTACTCAGGGCTGTTTTTGGAAGACACTTCCCCATTCTAGGATAGGGGTTACAAGCACAAATGTCCATAGGAGCTGGGTAGTTACT
GTGAATAAGTGCCATAGGCTAGCCTGTTTGGGTTTGGGGAGCTGAGTGAGGCTGTACTGGGAAACACATGCCCCAGGTAGAGCTGGGGGTTGGTGTCTTT
GCTCCGTTAAGACGATTGCAAGATCCCAGCAAGGGATCTTGAATATTTGCAGGTTCTGGGTTCTGTGTTGAGTGCTTAAATGGATATCTTATTTAATAAT
AACAGGAACCCTTGGAAGTGAGCACAGGTTTGATTCTCACTTTGCAGATAAAGAAAMTGAGGCCCAGAAASGTGCCCAAGGAAGCAGAGTTATTTAGGAC
CTGACAGAGGTAGGATTCCAACCTGGGCAGTCTATCACCAGAGTCCTTGTTTAATCACTAAATTTTGTACCTCTTAGGACTATTCAAACCCAGCAATTTG
TCTCTGAGAATGATAGATAAACATGAAGATACTGGAGAAGTCAATTATATATMCCCCTAAAATGCCTTCAGCGTGTTCAAAAGCACCGAGCTCTCCGCCA
TGATGTTTGTAAGGGGGTGACGTTAGATAGTGATCAAAGAAAAGTCTAATACATGTTATTTTTTGTTGTACAGTTCAGTTCCTTGTACATAATTCATGTG
TCAATTGATACTCATGAAAGTTGGTCTTGAAATATTGTATACAGCCCAAATTAAGAGCTTGGCACCCAATYCCCACTTGGACTACAAATCACTTCCTCTT
GCCAAATTAGAGTCTAGAGTAATTTACCGTAAGATGGGCTTTTAACCCTAATTTCTAGACATACTCAGCAGTCTGCTTTGAAAGCTCATCAGCTTCTAGA
AGCAGCTCATCGTTAAGGAGATACCATCAGGGTAAACACATCAGTTYAGTCTTTTTTGCAACATTGCTAATTCCACGTTGTAATCAAGGAGAAATAAATG
GAAAACTCTTACTTAGTATTAGTTTATTTAGACCCATTTATTTCCATCAGTGACCTTGGGAGATAGTTGGTTCAGCACATTTTCTCATATTCGGCCTCTA
ATTCAGTGTGGGATTTTGTGTTTTTATAATTAACAGAGACATTTACAAATAGAAAAAAATATATTTGTGCTTTTGGGAAAAGTGCCAACAATGTGGCTAT
GGAATTTGATTTTCTAAATGGAGACTACACAAAGTGTAGATTTTTTATTTCTAATGTATGTCTCTGCCTATCTACTGATGATGGATTTTGGCTTTATGGC
AACCCACTACCAGGCTTTTAGCTGTCAGAATTGGACAACGTATTGACTCCTAGGTAGGAACCGTGGAACCACTGCGTTATCATGATAAGCTGGTACAAGC
AGAGAGGATCTATTTTCTAAGCAGATGTTTACTAAGGGACTACTACACTCGAATGACATCACATCTTTGTTAGCAGTTGTGGTTGGTGCCATGTTTATTA
AAAGACAGGAAGACCCTTTGGTTGGCTGTTAACTATTGCATATTTGTCTGTCTTGTCAATAAGCATTTTTTTAAAGGTTACTTTTCCTTTATGTGTTTAC
TTGGGGTTAAAATTTTGGGATTATGACAAAGGCCATATTTTGAGATTAYGACAAAAAATWATTCAAAAATGAATTATTGAATGAGGAAGTTGGGTCTCAT
TCAGTAGGTTAGGTCTCCTTTAAAATTGTATTTTTCTCGTATGAAGACCCAGTTCAATGGGTTTCATAGCCAGTCTGAGGCAAAAGCTGGCTATTTACTT
CCAAAAGGACTTCTCCTCAAGGAAGAGACCCCCTAGTGATACCCAAATMATAAATCAGAGTTCTTAACTTGGGATCTATGGAACAGAGATCAGGGAGTGA
GTCTTAGAAGGCCCGTTAACCTCCCAGTATGTGGAAAAATGCTTCAGATGTTGACACATTTCACAGAAGTGTCATCACATTAACAAAGGGCTCATAACSC
ATAAAAGTTAAGAACCATTAATTTTCAGGTAATTCTTCTAAATAATGGGTCCTGGCCAGCTCTACATGATTTGGAGCATATTTACATACATTTGCATACT
GCTTGTCCTTGGTCATGCCATTCAACTGCCACACACCTCATTATAGAAAAGAGAAAGAACAGGATTTACCTAAAGCTCAAAGGAATAGTGATCCTGTGCT
AATTAAAATTTGTTCTGGTATTTGGGAGTCTCAGATGAGAAATCTGGAGTCATGTTGAGTTTGGTTATTTTACTCATTTGTAGTCAGTATTCAATTATTT
TAATTTAGCTTGTGCATTTTCATGCACCTTATTTCCTTTTTCCTCCTTTCGACTCCATTTGGTACATTTCATCTCACTAAACAAGGAGAAAAAAAGGGAA
TAGGAGTTCTTGAAACTCAAAAGCAGCATTAAGTTCTTGTCTGTGACCCTTATTGAGCAAAGATTAGGACCAGTGTTTACAAATTTTTCAAGTACTCTCA
GGAGCTCTTGATGCTTAGACTCTAGAAAATGTTGGGTTTGTTCTTAAGAAACAGAAAGTGTCCAAATCCCACTTGGCTTCCTAACCTCTCAGACTCACTC
TCTGCCCTACAGAGCCTTAGAAGGATGGCCACCAACACCTATGAGATTTACTCCTGAATCATTTGTCTCAAGCCATTTCCCACTCTGCTATCAGCCTGTT
TCTGTTAACCTGGCTGGTGATTCCACGAATCATTGTCCCCTTTGAAGATCTATCTAACCTCCTGGCTTGATGCTCCTCGAGGGACCTCTAGCTTCTGTGG
ATTCAAATGCTTTAAGGAAAAATACTCAGTCTAATCCACACTGTCTCTAGAACCAGCTAGCTTTGTGCAATCATTCAGGAACATCTCTGGCCCTCCCCAC
CCACACACTTTCCATCAATCCAGAAATGATCAGATTCAGCCCTTGCTCACAGATGTGAAGCCACAAACGGCAGCTAGGGTCAAGAACAGCAAGGTTACTA
CTGGATGCTGACTCAAGGCAAGAAGAGGAGTCAGGCACAAAATTCTGAAATTAGTCATTGAGGGAAGTACAAAGCTTAACCGTAGACAGGAACCTGGAAA
TGCTGGGTCAGCCTCTTCGTCTACCCGTACATGACATACAAAATTATTCCATGTTACTTCAATACTTTTACCCAGAGCCTTGTAACAATCTTCTTGAACT
GTTGAATCTATACAGGTGTAGATTGGRTCAGGAGATAGCTTTAAAAGTTTGTTGTTCACGTTCGTGCCAACTCCTGGTGTCTTAGATTTTGTTCCCAAAC
ACTCATTATGACAAAAGGATTTAAGTGCATTCTATTTATTTGTGAAGTGATGCAGGAAACTACAGTAAGGAGTGCGGATGTGAATAAGTGGAAGGCAATA
CAGTGTGTGTGAATGGTAATGTCAMCTCCATGGGCGGGTGGGGCTCAGTTCCGTTGAGGATCTCTGGAAGACTACATATAGGCTGGCTCAGAGCTGTGCC
CCACTGGGGCAGCTCACTGGGTTATTTATCTATCATCTCCCTCATTGGTTGGAGCCTGCTTCTAAGGGGCATAATATTCAGGTGCTTTCCACCTGCCAAG
AGAGGAGGCCAAGCATGCTCCAGTGGCCGCAGAAAGTCCTCAGCAGAATCCCAGGGTCTTCTAAGAAGAAGACGTGGAGATCGTGAGAATAGTGAGTGCT
CACAGKATGTAGCGGGGACAACAACAGTGTCTCCCACAACCAGCATTACAGATAACCAGGAGTCGACCCTGATGAAGCTGGTGGCTTTCTCAGCTTTACA
GAATGCTCTTTTCTGCTTCGCCTGGCAAAACAGGAGGATATCTGTCTCAAAGTTTTCAAAGAAAGGACATTCAGTGATCTGTTGAGAGATTCAGAGGTTC
TCCTTTTCTCTGGTGGTGCTCTATCAGGGACAGATWGGTCCCTAAGACTTAGCAGCAAAAGGGACTCTCCCTGCAGAAGCATGTRCATGATGTGAGTAGG
TGTGCCCACAGCCCAGGGTTCATACTCTGGGGCTTCATGCCCTTTTCCTATTCTTTGTCTCCAACCGCATCTTATAAGAAGTGCATGTTAGGAAAGAGTA
CACTAAAGACAGGAACAGTTACTGGATTAATATAACTTTAAAGGTGAGCATACTGGGGAAAAGTGAACAGCAACCCTTACCAGAATGTTTAGGTACATTT
CTGCCTCCCTCTTCAAGCTGCCAGGAAAGTGCACTGTAAGTTACCAAGGAGCAAACTTCAGCGCTTTTCCAACAGTCACAAAGGACTCTCTGCCACCATC
TGTGTTGCATGTGYGCTTTACCTTTGCTGTCCTCCTTACTTTGAAATAAATCCCACCCACTACGGTGTCCCATTTCAGAAACTCTRAAATACTYACTTGA
ATCCCTGGAATGGATTCATCCAACCCTGTTCGGTTTTCTTCCTTCCAGTGTGCTATTCTATAGTAGAAACAGTGCCAGGCCATGGGATTTAGACATCAGA
GGCATTTCCAGGTTTATAAAAAGGCRAAGACTGTATTAAAGTATTTGCTTTTAAGTTTGTTGGCCAGTTCTTCTCACTGACCCTGGATAGGTCTAGGCTA
CTCTCAGCTTACCTACCATGTCTTTGTAAGATGTGTAGTCCATGGTGCTTGAATAGCACCACAAAGAYGTGGAGAGGTAAAAGACATAAGATGATCTCAA
TTTTGAATAATTCTCCTTGAGGGGCAATTATATATTTTTGGAAAGTTCATTCTTATTTATTGGGCCTYCTTTATCTCAGAATTCAGGAAGGGGCAGAGTG
TTTTCTTCCCAAGTTACTGACTTTCTTAGCATGCGAGGCTCAAATGACAATGATTATTTAGAATCTCTGAGCAGCTCAGACTCAGTTTTTTTTGTAATGC
CAGCATATAGGTCAAATGTGAATTCCTTACAATTTTTTCTGAATKGGAAGTTTARGGAACGACTCCAATGTTCCTGTAGTCGCTSTAAGTCGTTTAGGTG
TGCTATAGGATGAAAAGAAGAATAATGAAACTGTGGTATATGCATGCCGTGGGATATCATTCAGTCATACAAAAGAAGAAAGTCCTACCATTTGTGACAA
TATGGATGAACCTGCAGGATATTATGCTAAGTGAAATAAGACAGTCACAGAAGGACAGAAACTGCAGGATTCCACTTATATGAGGTATCTAAAATAGTCA
GACTAATAGAAGCAGAGTAGAATGGTGATTTGGGGGAGCAGAAAGGGGAAATTTATTGCTCAGTGGGTATAAAGCAKCAATTATATGGGAARAAAAAGTT
CTAGAGATGTTTTGTACAACTTAGTGCTTTTAGGTAACAAAACTGTAATGTGCACTTAAAAATGTGTTCAGAGGCTGGGCGCCATGGCTGATGCCTGTAA
TCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACGAGGTCAAGAGATCGAGACCAGCCTGACCAACATGGTAAAACCTTGTCTCTACTAAAAATATAA
AAATTAGCTGGGCGTGGTGGTGCGCGCCTGTAGTCCCAGSTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGC
TGAGACTACTGCACTCCAGCCTGGTGACAGRTRCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTC
AGGTTAGGGGATCTTGCTACACACACACACACACACACACACACACACACACMTGCACACACATACAAATACAAAGAAATACAATGAAGCTTTTAGAGGT
GATGGATATATTTACTACCTTGATTGTGGTGATGGTATCACAGGTATATGCATATATAAAACATATCAAATTGTATACATTTAACATGTGCAGTTTTATT
GCACGTTAAAGATACTTTAATAAAGCTATTAAGAAAAAGAAATAAAAACGTTTGCTTTCATATCCTCAGGTCATCATGGATTCGGATCCTAGTTCTCTTG
TGTGAACATCTTCCTCATTTTCCCCATATGAAAAATAGTGGATTTAATATATGCCTTATCACATCAGTTTGTGGATTAGGAGACACTGTATGTATGAAAC
ACCACAGTCAATAATTGGTAGGAATCTCCTTACCCTTCTTCCCTTGGTATGTAGCAACTTCATGAATGAAAACACTTTCCCCAAATAGGTATCTCACAGA
GAAGAAAACACTATGAATTCATGACCCATTTGCATAGTTTTAGGGGTTAAAAGAGCTGTATATAAATTGTAAAACATATTAAGAAATTTAGAGAAATAAT
CTAAGGGTTATCAAAGAATGTTCAAATTCCCTCAGATTTTGTTTTTCACCTTATCTAAATTCATATTTTCATCCCTATTTTAAGCAGAATTATTCATAGT
TATCTACTTAGCAGATGTTCAAGGATGATATTCTCTTTGTATCCATCTTTCCTTATCCAGAGRCGTAAAGGAAAAGCATGAAGATAAGGGACACGGCATC
GTTAAGTATCCCGGGTTTGTTAACAGTAGAAGAGAGTGTGGACTTGCTTTTCACTTTCATTGTGTGTGTTTCTAGGAGATCCTCTATCTTCATGCTCAGC
CCCCAGGTCCATGTGTCCTTCTCTCTAATAGGACTGTGCTATGATAGCTGTTGGTGGGAGAGAGGTCTTGCAACCTAAAAGGAAGGAGAGCCATATGCAG
AAGAGAGAAGTGATTAGATGATAAAGCTGAATGGTGACTCTGAAAAACAAAGTAACTGTAAATTTGTGGAACTTTTGGTCTTTCTTCTCATTTGATGATT
AGAAATTTTTTAGCTGTCCAAATCCAGTCCTTGTCTTATCTCAGCTATGCAGAGTGGCATGGCTGGTTCAAGCTTTCARTGAAGAAACAGATGTATGAGG
CCAAATCTTGCAAAATGCCAGAAGAGTGTATTTGGGCAGAATACCAAAATGAGTTCGGGGGCCTATATGGAACTGCGGGCAGGGCCAATGACAGATAGTT
GAGGACTGCAATGAGAGATGCCCAAATATAAGTATGACAAGCAGGAATGTCATTCTGTGAGTCAGAGTCAAAGTCAAAAAGACTTTGTAAAAATCTACTT
TGGAGACTAGGTGTGGGTGTCTGATTTAGAACCCTTCTCATAGTCTRGTGATTTCTAATGGTGCTTTTGCCGAAGGAATTCTTAGGAGCATCCAAGTTCC
ATCTTAAAGACATGGCTTTGCCAGTCTGTTGTGGGTGTGCTATACCATATCAGACAGAGAAATAAGGATGTGTGTGAAGGTATGAATCTCCGGTTKACGA
ACTCTAGTGTGCAAATAAGACAACTGTCTGTCTTTTAACATGGTACGCACATTTCTGTTTTGATCACCCTTTCTACCAGTTGGTGAAAACTTTAGCAAAG
TCCATTCATTGTCTCCATAATCCCCTAGGTTTCTATCTAATTTTCATTGAGCTTACAAGGCACATGGCAGGTGGGAGGCACTCTGGCATCCACTGAGATG
TTAGTGAACCCATCTGGTCTTCATTTGTTTCCTTMCAAGCTCAAGGGTGATTGAGTTTGCCAGCCTTCTSTCCACTGTTTTAGTCTTTTCCCAAAGCATA
TAAGGACTCTTCTCTTGCTTCCTTGCTGAACTGGGCTTGGAGATGCAGCTCAGAGAGAAGACATGCCCTTGTCCCTTCATAATAAACCATCAACATGTCC
CTTTTTACATGTCTGCTATTTGTCTCCTCTTCTTTCCAGCCCAGGGAGTCTTTATCTAGATAATAGGTCGAGTAACCTGGACCACAGTCCATTCTTCCCT
GTCTACCATTGAAGGTACAAAACGTATACCAGACACCTTTAAGATTTAGAATTTGAAATACAAGAATGTGGGTTCTTACAAAACAAAACTTGGAATTTTA
AAGTTAATTTTTGTTATTCTTGAGCTCTCTGTTTTTTGTTTTGTTTTGTTTTGTTTTTGTAACATTATCTCTCTCCTGAGGCAATTAAACAGAAAAGGAG
TAATGAGCAGAGTGAAAGTTAAGGAAAGGTCTTATTTAATTCCTGCCCAAACTTTCAGACTGCCTGATGGGAACCCCAGTTGAATAATGGTGGGATTTTT
GTTGTTGTTGTTGTTGTTAAGCAAAGATGATTTCCAAGCTCTGCAGGGCAGGGAGAGCTGGAGAGTTCACATGTTTGTATTTGAACTCACATGAAACAAT
GAAGAGTGAAATACAGTCCTGTTTCTCTAGCAGTGAAATTTCAGATCCACAGAGAAACAAGGCTTTCATTCTACCATAAAGAAGGACAAAACATAACTGA
GAAATACAGTGTAAAAGGAGGAATTTGCAAAGAATAATATGCTCTAGCATATTCCAGCAAGGAGTGATCAGATGTGGGCATAGCAGTCATCATTGGGGTG
AAATCCAAGACAACTATGGGTAGCAAAGGAAGCAGCTATCTTTGAGAAAGTAAGACTGATAAGGTTTTCAGTCCAAATGACAAGTAACTTCTAGTTTCTA
AGTATAAGGTTTTGCAGTTGGGATCATGCCTTTTTTTTTTTTTTTCTTAAGAAAAAACTTAAATTGCTTTTACTGACAACAGACATTGCCAGATTTATCC
ACACAACCAGTGTTACAAATGTCATATAAAAATGCAATGCAGCAATTGGCCAGATTGTTAAGTAACGTGCTATAATTGTTTTTATTTGTTTTAATCCCTG
TGAACAAACATTTTATTTTTTGTCCAAAAGACAAAAAGGAGTTGAAATTTTATCGTTGTTTTTCCAGGCAAAAGAAAATAGGGTATTTGTTGACTGAAGA
AATGAGATATTTCTCTTTGGCMGTTTGGGCGGCCTAATTGATAGGAAGAGGTCTGGTAGCTGAGAATAGCAGGGTTAGAACAATAGAGGATTCCAAGATC
AAGGGGAAGGGTCAGAGGTTCACAATTCCCAACTGGAGTGGGTGAGTGGGAGAGAACTTTACAAAAGAAATAAGAGCAAAACCATCTGGGTAAAAATGAC
ACCATGTCTTGATCTSTGGTGCTAAGGACCCCTGGAAGTGCAACCATTTACACTCGCTCTTGAAAATGCCTCATTGTGGGTTCAGGGATAATAACCCTTA
AGCTAAAGCCTTTATGAGTTGGAAGAAGAGAAAATGTGCTTCCTGTTTCTTACAGAGGATGAAAGAAGCAGTTAATTCCCAAATCCAGCCTCCAAACACC
ACAATGGAGCATTTTATATGTGGAGGAAAATTGCTAAAGGTTATTTACAATTAGATCCATAAAAATAATTACTGGGGACTTTTAACAAACTTTATTTAGG
CTCTTCCATACTTAAGACACAATTCTCAAGAATATCTTGGGTAATTTTCAAACTGTTCTTTTCCTTAAAACGATCAAAGGGAATTGGTTATTATCCAAGG
TCAACTTATTAACGAGAGACAGAATATTCCCCAATTACAGTATTTCTCCAGCGCAGTTCTTACTGAGCTCTAGGCAAGGGGCAAAATGGGGAGGAGAGAG
TGTAGTCAGAAGTCCCAGGGTCTTACTTGGGTCTCCAGCTAACTAGCTCAGTGAGCCTGGGCAACACCCCTGACCTGTCTGCATATGTTTCCTTGTTTGC
AAAATGAAATGAGAGGGGATAATTCTAAAAATCCTTTCTTTGTGCTCTTCCTAATTTTTTTTAGAACTGCTAAATCATTGCACGCATGAAATGATTTGCT
TTTGTTCTCTTTGAAATAATGGAGCTCATTGTCTAGGATCTCCAGCTTCTATTTCTGTGAAGCAAGATCTAACAGCCTTTGATACCTCTCTGTCTACTTT
CTAGGGAATTACAGATATAATTTGTGGAGACACTTAGTCAAAAATTGTCACTGAATGCCTTATGCTTTTCCACAATGCTTTCAGAGCTGAATCCTTATAG
GAGGCAAGTCAGAGATGAAATAAGAAGGACTGACAGGAAGGAGAGGTGTAAACAGAGCTCGTGAACACAMATGAAAAGGCAAGTGATAGGTACACAAGGA
CATCACCAAGAAGAAGGCTCTTTTTCTGCCCTTGMAGTATAAAAATAGTTATTTATTTTTTCATAAGATGATGTTGGAAAAGTTTCAAAGGAAAGGCTTC
TAGTGTTTGATGAGCACCTGCTGTGTAACGGGCACAGGTTAGGCAATTTTATAMAAGATAAAGATGTTTGTACCCACTTAATGGATAAGAAAATTGAGGC
ACAAAGGGGTTAAGCAGTCTTCCCAAACTTACCCAGTTATTCATTTTAACTGCTGTGTCATGTTCCTGGTGTGAGTCTGCCAAAAATTAATTCATTTAAC
CTTTTTACTATTGTTTTTCATGATTACAAGCGTTTCTGTAGTGAGCATCCTTATACCTGCCCTCATGTTTACACATAAGAGTATATTTTTTAGGTAGGTG
CAATAAACTAAGCATGTATCTGTAGATATGTGTATATGTATGGGTATATATACACGTTATATATATGATTGTGAACATGCATATACATATGTATGAATAC
ATATGTGTTTGTATATCAGTGTATGTATCTACATATATGTATTTTTCTAAGATCCTGCCAAATTATCATTGCAAAGTGGCTCTGTAAAATTTCACTCCTC
CCCAACATTGAATGAAAATATCTGTTTCCTCATACTGTCACCAGTGTTTCGTGTCACCATATTTTAAACATTTGCCAAGCTATTATTACATTATTTTTTC
ATGTTCATTTCTTCAATCACAAGTGAGTTTGACCACCTCTCAAGTTATTTACGTCCAAAAAAAAAAAATCACTGTAAATGAAAAATGAGTAGTTTAGCCT
TGCCCTGTGCTGTGCAGAAAGCCGGTGAGTTTCTTCCTGAAGAGGATGCTGCAGGGTCATTTGACTTGGAGAGGAGGGAGTGGTAAGATCACATTATCAT
TAAGAATTCGCTCAGGGCATGTAAAGATGGCTGAGCAGCTTCTTTAAGCRTGTAAGTGATGACGCTCAAATCTATCAGAATACTAACCCTGAAATCAGGT
CTGAGTTTACAGCCATTATATCTTTCTTTGGATTTGGTTTWATGTTTTTACCCTTGATTTATGTACGTACTTCCCTTAGCATCCCATATCTCAAGCAACA
TAAAGGTATTAAAGTGATGGGATTTAGCAAATATGTTATGGTTACCATCTTTGTTCCCAAGAGGGAATTTGGAAATCTGACAAGTATTATACCTTTCATT
TTCAAGACCCGTTTTCTGAGCCGTTTCGCTAACAAGTCCCCTGATTTACCATGCCATTAACAAAAATAATTCTTTCTGGACAGCAGTAAAAGAAGTGGAT
TAGAACAATTTACAGCCTTCTCAAGATACATATAAGGTGCCTGTTAAGAAAAAAAAARGGACAGATTTTTGATTAACTGATACGTAGACTTGCTTTTAAA
ACATGTCAGTTCATTCTCTGTATGCCCATCTATTAAGGGCAATGTCCCTCATGGAGGAAGCCTGCCATCGCCCGGTGCCTTAGCACGCTCTCATGTTTGC
CAACAGTGATTAGGAATTACTTAGTTGCTGACAACCCTCCATCATTGATCGAAGTAAGAAACCTTTTCTGCTTCAAGGTAAGGACATGGTGCCTACTTTC
TAAATGAGATGTTATCCAGAGACAACATTTTGAATCTGTAGGCAAAAACGTATCCAGTTCAACAAAAGAATAACCTGCAATAAGCAGAGATAGAATGGGT
GAGGACCTAGGACAGCGGCTCATTAGGCAGAACCCGTCCTTTCTCTTTGCTAAAGTTAGGGAGGAAACAAATGCCTGCYGAACAGAAGGAGGAGATGAGA
GGATCTGTCAGCCAKGGAGAGGTACAGCTACCAGAAAAGCACTGGACAGTTTCCTCTAATCCTTGGGAACTTTAATCGTCTCSTCAATAATTCTCATTTT
GAGAGGATCTCAAAGTGGAGGGATCCATTAGTAAGTTCCACTTTGGCCTGGAATGAGAGATGCCGAAAATGACAAGGGTGCTTTTCTGTGGTGGTGTAAG
TAGCGTGGCCGTGGATGTGGGCAATTGGCTTACTCCAGTCTGTGGCATTAGTTAGCATCTCTGAAACCCTGAGACATGATTCTCAGCCCCCATGGCTGGT
CAAGGGATTACCAGAGAAGATTTTCAAGTACATGGGATTGGGGGGTGCTCCCAACCCTTCAGTCAGCTGTGGGTTTTGCGTGTGAAGAGCATAAGAGGGG
AGAGAGAGGAAATGAGAGAAGCTGGACCATGCAGAGCCTTGTAGGTGATGGGAAGGATTTTGCTTTYATCCTAAGAAGAGTGAGAAGCCATTAATAGGAT
TCGGGGTGATTGTGAGTCAGGGGGAAATGGGGGGAGGTATCAGGACRTGGAGGTCTTTGCAATTATTAGTTGGAGAACAGCAATGGTTCTTAGCTGCTTC
GTGTGCCCTGGACCCTTCTCTCAGTCTGCTGAAGCCTGGGCAGTCCATCTCAGATCCTGTTCAGGTGCATAGATTAAAATATTTTAAATTACGATATAAG
CTACTTATGCTATACCATATTTATACTATATCATTGTGGTAATAAAGAATTTGTCATAGATTAATAGACAGGCATAGGTGTCCTGGAACTGGTTCTGTCT
TACCAGCTTGTCAAAGCTGATTACGCGAATTTCTTTCCAAATTCTTACTCAGTGATGCCAAATTGGTAGCTTGAAATCAAGCCACGGTGAGAGAATTTAT
ATCATAGAATATGGAAAACATTACAGATCAGGACTTTTCTTCTCAAAAGTCAGCTGTTAAACATTGACCATCATAGCACTGTGTATATACTTATGTATTT
AATAATAGGCTTTGGTGGCAGGTTTAGTAACTATTGCAATTTTGAAGTAGTGATGAGTATGAATCCCATTTCAGGATATTTCCCACAATTGAAATGTGAT
ATAATAACTTTTTTCCTATAACTGGTGACAAACACAGGTTCTGCTAATACTATTGTGATTTGTTATCTACATTCATAGTTGAAGAACCTGCTTAATTTTC
GTTAGAGGGTAATGAAAATAAGGGTGCATTTTTCCATTGAAAGAGCCTCTGAACTACAGTGTCCAGAAAATGAGAAAAAAGAGGGACCATAGAGACCAAC
TAGAAGGTGATAGCAGTATTCCAAATGAGTTGCCATGGTGTCTTGTATTCCAGTGAGGAGATGGAAAGGTGTATATGGAATTGGAAATGGTTAGTAGATA
AACTCTATGASAATTGGGTATGTATAGACATTGGGGTGAAGGAAGTGTCAGGAGTGACTTATAGGGTTATGGCTTACACCACTCAACTTAATAAGGATGA
GAATGCCAGAAGGGCCCAGGTTTAGGGAAGATGACCATGAGTTTGGTTAGGGCCTGTTGAGTTTGAAGTGCCTTTTGAGTATCATGGWAATATTAAAAAG
ATATTGGGACACATGCATTTGGAATAGAGACATGAGTAGGTTCTACCTTCAGCCTTGGGGTGGGACCAGGTTASGAAGGGATGTTATTCTTTGATGGATG
AGCAGACTACAAAAARCTGTGCCACCCTTTGTCTCTATGTATTCACACTGCTTCCCCTAGCACCTCTTCTTTATCTCCTAACAATCATTGTGCCAACAGA
CTGCCTTTAGAAACTGGCAGATGGCCCCTCTTCGAAGGATCCTGTGCATACAGAGTAACTACTTTCCCAGTAGCTGCATGGCTATCTTGCTGGATCTGCA
GGTCCAGAGGAGGGGCTGGGACAGTAGAGGAGCACTAGGAAGTCATTAGGATATTTGCAATAATTGAAGCTTGCATCCTATTTGAAACTTCCCCAAAGAA
AAAAATGAGCGAGAAGAGTGGTCAGCAGKAAGCCTTGAGGAGTTCCAAAATCAGTGGCCAGCAGAGGTGGAGGAGCCTAAAAATGAGACTTTGGAGGGAG
CAGCCACAAAGATAGGAGAAAAGCCAGGTGAGGTGGTGGAGGTGCAGGGAAGACAAGCAGAGAGGGTGCTTCAGTGAGAAGAGAGGAGAGGAGTGAAACT
CAAAGTCGCAAGAGAACACTGGAAGTTCTTCCCTGCATCTAGTGACACGGAGGGTGTTAATTTTACACAGGCTGTGTTGGTGGAGGAAACCAGATGGGAG
GGGAAGAAATGGAGATAACAGTTATAGACACATCTTTTAAGAAGTTTGGCGGCTAAAAAGGAGACAGATAGTGAAGTAGTTGGAGGTGGATGTAGAGAAA
ACAAAGTTTTTTTTTTCTTTCTTTTTTATTTCCTTTCCTTCTCTTCCTTCCTTTTTCCTTCCTTCCTTCCTCCCTTCCTTCCTCCCTTCTTTCCTCCCTT
CTTTCCTGTAGGAGATACTTTCTCATAAGGATTCATTTGAGACAGAGAGGGTAGGAGAGAAGGGATTKATGATGGCATAAAGCTTCTGAGAAGGTGGGAA
AGGATAGACTTCAAAACATAAGAGGGACCTGTTAACTTTTTAAACCTGGGAGTTGAATCAATGAAAAACTGAGTCAATGATGTAACACTTTTAAAGGTAG
TTGTTTATTGCCCCCCATCTTAGAGAAGAGCCTTTTCTGGTTACAGAAGACAAAGTGATTTAATGTGTGCTGAAGTAAGCTGGAAATTCAGGTGTTCAGT
TGATGTTTTTGGAGTAGACTGTGAAATTGAAATTGGAGAGACATTATCCAGGCAGGAAAACTATGAGTTAAGGGCTCTGGACAATAAAAAAAATAAGGGT
GTCATCCTTGGGGAAGGAGATGGGAGATGCTGATGCGTTTAGGGCTTCAGAGCTGCACCTGTGCTCCTCTTGGGATCAGAACTGCAGTATCTCTGCAGCT
GCTGCACCTTGTTTTTAACCCCTGCATCCAAGAGCTGAGTGTTGCATGACTCTCAAGATGCAGATATTAAAACCTTATTGACTGATGTAGACTYTTCTGT
GCATCAAAGGGCTCAGAAGTGGTATTAGCTGGCTGTCTCCTTTTAAGTGCAGAGAGTGCTTTTCTGTAGATAGTGCTATGAGCTACCTGGGGTTAAGATA
AAAGGCTTCAAAAAGGTAGTGTCTTCCCGGAGGCTGCTTGTGGCCACTCGCTGTGTGTCTGTGGCTATACAGACCCCAGATTGCTGGGGCTGGAYTTTGC
ATGTCTCTCTCTATTACCTTCTAGAGCCTGTGAGGCCCAGGCTTTTAAAGATTCGGCACTGAAAGAAACTAAAACCAAACTTTTGAGTTTACAACTGCCT
GAGGCTGCCTCCATCTACAGGACCTTTACTAACTGTGCCATTTTGGCGAAAAGATAGATTTTGAAGTTCAATCAGTCYTGGTTTCAAGTATTAGCTATTC
CTCAGATGATTGTGGGACCTTGAACAAGTCTCTTGCCCTCTCTGAGTCAGTTTTATCATCCATGCAATAGGGATAATATTACCTACCTCATAAAACCATT
GTCGAGACCCATCTATTCAGCACATACTTGAGTTCCTATTCAAATACCGGCTGCTGTGCTTGGCTGTGGAGTCTAACTGCACAAAATGGTCTTGACCCTG
AGGGTTTTATAGTTTGAGAGTGGATATACCAAAGTGCCTGGCTGTGATTATTATATTGTGATATAATAATAAATACATATTTGGTCTCTGCCCCCAGTTC
TAATATTTAGTCTGTGAACCCAGTTCCTGGCACACAGCATCTAAGAGCTTTGTAATTTCCTGAGTGACGGGAACATCTGACACAGAGCTCCGAAATCCCT
TGGTATTTCCTGGCTGATAGGAGCATCTTTTGCTCTAATGAGTTGACTTGTGCTGGGCTCCTGGATACCCCCAGGATGGGTGCTGGTTTCCAGGGGAATC
AACCATGTATTTTTAGAAGGTTGGRGCTTTCATCATCCACCCCACCTCCAGGGAGGAAAGGGAGGCTGAAGAYTGAGTTGATCACCAACGGTCASTGAGA
TACTCAATCGTGCCTATGTAACAAAGCCTCCATGATAACCCCAAAGGACAGGGGTTAAAGGGCTTCCAGGTTGCTGAACCCATGGAGGTTTCTGGAGGGT
GGTGTGCCCACAGAGGGCATGGAAGCTCTGCATACCTTTCCACATACCTTTCCCTATGCATCTCTTGGTGTGACTGTTCATCTATACTCTTTGTAATATT
CTTTATAATAAATGSGTAAATATAAGTAAAGTGTTTTCCTGAGCACTTCTGTGAGTCACTGTAGCAAATTAATAGAAGTCAAAGAGGGGGTTGTGGGAAC
TCCAATTTATAGTGGGTCAGTCAGAAGCACAGGCCACAACCTGGGCCTTGTGACTGGCATCTGAAGTAGGGGACAGTCTTGGAGGACCTGTGGGATGTGG
CTTTATCTCCAGGTAGATATTACTGAATTGAATTGAATCAGAGGATTACCCGCTGGTGTCCACTGAAGAATGGCTTGATGTATTGGGGAAAAACCCACTC
ATACTTGGTGTCAAAACTGTTGAGTGGTGTGTGACAGTAGGTAAAACATTTTGTTTTTTTTTCTATCCTTCATATTGGCCCAGAGAGCTTATTTAATAAA
TATCTCATTCATTTCTTTTTTCTTATCCATTATACCGTAGGCTCAGCTGAAAACATCGTTCATGACCCACCTGAATGCACAGTAGGGTACTTAGAAAGTA
CTGCATGGTTAGCAGACAGCTCTGTAGGGAGTCGGAACAGCCACGCAGTAGAGTCTTGGAAGCAGAAGAGAGTAAGGCACAGAGACCCCGAATGAGGGCC
GAGTGTGGACATCCACATCACAGCTCCACCCATGACTAGTCACAGGAACAGAGACAGTCGACTTGCCTCTCACTCTCTGCCTCAGTTTCCTCACCTGCAT
GATGGAGACGATAATGGTACACAATTCTAAGGTGGTTGTGAGGATTACACGAGCTGGTGGTGTTGCGATTCTGAGGTGGTTGTGAGGATTACACGAGCTG
GTAGTGTGTGTCAGGTGCTCAGAACAATGCGTGGAACATGGAAAACACTCCCTACATGGGAGATATTATTTCCATGTTCAGAAACAAGCTGGTTTCATTA
AAGCCCACTGCTCTCAAAAGGCAATTCCCATGGGAATAGTGATGACTTGAAATTCTGTATCAAAATGCTGGTGGATGCTGCTTCGTTTGTAGTTTCTTTT
CTTTTCCAGTCTCCACAGGGCTCTGTTATTTGGATCCTCTACCATGAAGAACAGTGCCCCTAATCGTAGACTATCACTTTGTTGGCCACTGTGTGTTGTC
CACCCATTATACTGTGAGGTCTCAACAGCTTTAATTTCAATAATTTGAGGTTTGTTCAATGCATTATATTCCAGATAGTTCACGGATGCTTTTAATTTAA
TTATAGGCACTTTAACACCACAGATGACTGTTGGGGAAACGGAAAATGTCATTCTTTCTGAATGCAAGACACGTGTTTAGGACTGATAAAATACATAACT
GTGTTTTATTTCAGAATAAAAAGAAATGTATTACCAAGTATGTGACAGTAGGTAGACTGCTGGGAAGCCTGGGTCTGATACATTGTTGTCAGAAACAGGC
TCAATTTTGGTGAAGCGAAGGGTGTACGGAGGATGAGCCTTGCAAACAAGCTAAGGTGCCCAAAGGACAGCTCCCCCAGTGACCTCAGGGTCAGCCTCTC
TCTTACGTACATACAAGGAGCCCCTCCTGGAAGCAAACCCCACTGCAGCCTTCCAACAGGCACATCCTTGTTCTTCCCACTATCTTATTATTTGTAGCAG
CAATTATTCATTGCCATCTGAATTCACTCAGTAAATATTTATTGAGTACCCTGTATGTGTAGGTAGTGGTGATACAGCAGTGGACACACAGACAAAAATC
CCTACTCTGAAGGAGCTTATATTCCGGGGGRAAAAAGAGAGGAAAATAAGTAAAATGTGTGCTGGTTTTGTGCATGAAGATGGCAAAGGCTATGGAGAAA
TCAAGGAGGATAGAGTTGGGGAGGAACAGTTGTAACTTCCATAGTGTGGGTGGAGAAGGCCTCACTGAGGCATCAACATTTGAGCTAAGTCTTGAAAGAG
GCAAAGGAATGAAAGAGGTGCCAGGCCAAGGTAATAGTTCCTATAAAAATCCTGAGAATGGAGAGTGCCTGGTGTGTCTGAGGAAGCCCAAGGAGGTCAT
CATGGAGTGAGGGGGAGATAATAGAAGATGAACTTCAAAAACGAAGATGTGAAAAATTGCATTGATCCTTGTAGTCCATTTGGAAGGGTTTAGATGTTTT
ATCATCACCGTCGTCACCATCATCACTACCACCTGCTAGAAACTTCGGGGGGCGGGGGGTGGGGGGGAATGACTCATCATCTCATCTCTGCACTCCTGAA
GCTCMAACTCAGCACAGGATACAACGAAAGGATAATGTGATGCTTGGTACCAAGACTTTAAGGACATTCAGGAGCGGACAGAAAACATGACCTAAAAGAG
AGGGAAAAACAGAGACTTTTTACAGGGTCTCCCTTAGGAAAGGGAGCTATCCCTTAGGAGGAGATATCTAAGCCACTATGCAGTTGTGAGGTCTTTAGAA
ATCAACCAAGTGCATTGGTCAGATTGAGGCTAAGTTTTCCAACACAGAGAACCCTGAAGTCCCATTCTGTACTTTGTCTTGACTCTCCTTTCATTTCTCT
TTATCACTCTTCGCCCCCCACTGCAGGTACCTGTTCCTTTTTCTGACCATGTCTCTGGACTTGGAGAAGGTTTTCTCTCATAAGCTTCTATCCAGCCCTA
CACCCAGTGGCCATACAGGTCCACCCCTCTGTATGGCTCTGTGCATTAATGAGCAGCTCTTCTTAGCTCAGCGTGCTCACTGTCTTTAGGAATGGTTTCT
GCTGAATCCATTGACTGCACAATAAGCCCAGTGGAATGTGTACTCTAGGCCCCAGTTACCTCCAAGGAGAAGGGATGATAAATATAACAGTGACAAAATA
CTCTCATACACACAGAAATATATAGTTACACTTAAATGCACACASATATATACATACAAATATAGAGTGGGTGCAGTGGCTCACACCTGTAACTCCAGCA
CTTTGGGAGGCCRAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAAATGATGAAACCCTGTCTTTGCTAAAAATACAAAAAAAC
AGCCAGGTGTGRTGGTGCACACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGAATCACTTGAACTCAGGAGGCAGAGGTTGCTGTAAGCCACAA
TCACACCACTGCACTTCAGCCTGGGCCACAGAGTGAGACTCCATCTCAAAAAATCAAATGAAAAACCACATATAGTTATATATAAAAGCATGCACGCATG
CATGAATATACCTATACATATACATCTATGTTTACATACAAATGCATGCATACATGCACATATGCACACACCTATAATTATAAATGCATGTATATATATA
TATGTATGTATACACACATACATTTTTATAGAAATGCATAGGTATACACATGTATAGAGTTGTAGATGTATGCACATATTTGCATGCATACATACATGAC
TATACGCACAATGCACACATGTTTATATATGAATGTATTCACTCATACATGTATGGTTGTGTGTGTGTGTGTGTGTGTGTKTTTTGGGAAGACTAATTAC
TCCAGGAGATTTACATGTAGTTTCCCTTCTTAAGTAGATCACAACCCTGCTCTGCATTTGCTGCCATTGTTTCTGTTACGTAGATGAGGAATTTGAGTCT
CTAAAACTTGAAGTTGCCCGGCCAAGGTCACGTAGCTAGTAAGTTGTGAAGCTGATATTCAAACTAAGGACTAAAAGAYAAAAAAGACCACTTTCTTCCA
ATGCTTAAAAGATGTTAACAGAAAGAGAGCAAAGCAACAACAAGAAAGAAGGAACCCTAAGTATGTTCATCGAGCTACTCACAGAAAACAGAAAATATGA
TTACAACATAAAGTGATAATTTCCATAAAAGAAAAAGTTAYATGAGCACATACAAGAGGGAATAACATTTGAGGAATCTCTTGAAGGATGGGTAGGAGTT
TTTTAGAAAGGGGTGGGGAAGCAAAAAGATTTTGCTTTTCATTTAAAGTTATGATAGCCAACATTTACCTTTTAGAGGTGCTCAAAAGGCCCACTGTACC
TTTGGCTTCATAGCTGTAGAAATCGGGCATTTTMCAAAAAAAAGGCAGTGACGGTGCCTCACATCTGGCCACAGGCATCTCTCGGCAGCATGCAGGTCAT
CTAGGGCAAGTCTCTGTAAAGGCCTTTCTCTCTGGTGTTGCATTTGCGTATTCATATGTCTGCATACAAACACCAAGTCTGCTGTTAGTGGTGTCATAAC
TTTGCAAAAGGAAGAAAACATGGCTAACGGTAAAATGAGTTATGCCTTTATAAAACATTTTCAATGACAGAACTTGCTCCCCTCTGAGTGCTTTTTGAGG
ATCAGTAATCATAAACTGTGGCTTTGCCAGGAGGTGCTGTCGAAGATTGTGTGGACATTCTTTCAGCAAAATCATCTGGCATGTGTGATTGCTTCTATTT
ATTCAATACTAAAGAACAGAAGATTGAGTTTTATGAGAGAGAGAAAAATGCACATTCCACATAGAGATTGGATAAATTTCATTGTTTAGAGTGTTTTTAT
TGCCACAAAGTAATCTTCTGATTGCTAGGTGAGTAATCCTGTAGTTACAAAAACAATCAATTAATTGATCTAAATTAATCGGATAACATATTTTAGCCTG
CTAAGCATGAAGGCATATTTCAAGTAACTTTCCAGATAAAGGAGGTATTGAACCTTTTCAGCCACCAGCCAGGGACAGTGACACAGATTCTAGTATCAAA
TGCTGATTCTCAAATTAACAAATGCTGGAATTACTATGAGAAAGGCATGGACTAGGGAGTCATGAAGTCCTCCCCCTTTTGTTATACAGGAAGCTTCTAA
GCTGCCTGTCCCACTGTTCCTCCAGCTCTTTTGTCCCAGGCTTGGCCCTACTGGGAAGGAGACTTCCCTAACTTCTGGGCTACCCCTCCCTTTCCCTACC
TCTAGCCACACTGTGTTTCAGGGAGGGCAACATGGGAGACAGAGGAAATTAAGACACCTGCATGAAAGTTGACAGAGTTACCCAAGAGGAGATGCCACTG
GGCAGGGACTGGAGAGCACTCAAGGGAAGGGAGGCAAGTCCGTCCTTTCTCCTCCTTTCTTCTTCAAAATGTATTGAATGCCTATGCTTTTCCAGGCAGT
TTTTAGGCACTTGGAATACATCAATGAATAAATACGGCAAAGATCCCTATGCTTGTAGAACTGACATTCTAGCAGAAGAGACAACTAATATATAAATAAG
TCACATAGTATTTTAGAAGGTGATATATGCAATGGGAATAGAAAAAGCAGAGCCGAATGAGGGCTAGATGGATGCTGGGATCCTAGGTGGAGCAACTGGC
TACTGTTAAAATTTATCTGAGAAGTGGTTCCGAGAGACAGCGGCAGCAGTAGAGGAGAACACAGCAGTCAGACGAGCCAGGAGGGTTCCTGGCTGTTCCC
TGCACATGTCATTAATGTGAACACTCACCAGCATCTCTTAGCTCCTTCATCTTTAAAACAGGGATAAGGATATCTGCAATGTGGGGAAGTGGGAATGATT
AAATATCATTGATTTGTTTTTACTGCTCCTCTTTAAAATGACAGCATCACCACAAAGGAGATGAAATAGTCAATAGTGAATGGAAAGCACCAAGCACAGA
GACTGGCACACAATGGGTACTGAGTACACGTTTACGTTGGTACTCATAAAAGACCAGGAAGAGCTTATATGTGGTGCCCTGGTAATGCCTCAGATACTGT
TCTAAATGCTTCATGGATATTAGCACATTTAATCCTTACAACCCTTTGGGGTAGGAACTAATTTATGTCCATTTTACAGGTAATGAAACTGAGGCACAGA
GAATTTAAGTAACCTCCCCACAGTTTTATAATTGGTTAGTGGTGGAGGCAGGATTTGAACACAGGCATCCTGCTTCTGGAACTGCACTGCAGTTATTTTT
AGAGCCCAGGCTATGGAAAGAAACCATTCATTTATTCACGGAACACATTTTTATTGATTATCTGCTACATGACAGGTCTGTGATCAGCACTAAGGCTATA
GAAATGAAAGACATAGACAGGGTTCCTCCCCCAAAACATTCTTGATGTAAATGTGAGACTCACACTATAACCACCCTAAGGATTTTGGTCTGAAAAGACA
TTCTTTATTAAGGATTATACATTTATGTCCTGGATTTCCTAGATCTGGCCCTGAAGGTAAATATTCCATTTTCTTATTGGAGTATAACAACCAACGTTTG
ACTGCAAAAAATGTGGTAGATTATTTTCATTCATATGAATATGCCTGCCCTTTTCTCTGGTGGAGTCTGGCCCGGTAAGTCTGYGGGACCTGCCTCTACC
AATGAGGGGTAGAGCTTGGTGACTTTTAACAATGATCTCCTCATTAGATGAGGCCATCAGTTACAGCGGAAATGATCATTATTGGAAAGCTGGAGACCAG
CTGCTGTCAGAGAGGGATGGGCTCCTGYGGAAGSTTGCAAACTGATGACTACTTAATCCTTGAACTTCAGCAGCAACAACATTAGCTGAAGGTCTGTAAT
GCATTCACAGTTCTCATCTGACATTTTCCCCACATCATTATTTTTCTGGTTTTACTTTTAAATTCCCTATAGGACCATTGACATGAAATTCTGAGGGGGA
ATTTGGAACATTAATGACTGTTTAAGGCAAAKGAGTAAGTGTTCTTTCCAAGAGGAAATTGTCTTTATAATATTGGCATAAGGCTATTTTTAAAATTTAT
ACTAATGAGACGATTCGAGGCAGATAACTGAATTTCCCAGGCTTGAAGTTGGCCYATGCCCCTTGGTGAATTCAGCCTTAGGGTGAGCTCYGTGGGGCCT
TGCAAGTCTGGCTCTAGATGCAAGAGATCTGCCCTATCCACATTCCTTCTTTCCATAATTGGTTAGAGCCTTGACCATTCAAACCTGGGCTTGGATGTTG
GGCTTACAAGTGGCACAGACAGTCATGGAGCTTGCTGACTACAAGGGAAGAAAGACTTTATCAAATAACACTACTTATGGATGTCTCAACTACAAACATG
AATCAATGACTTGAAAGAAGGAGAGTAATATTCCCTGACCTTAAACAATAAAGGACTATGACCCTGTTTGGGGACTGGGGATGGTCRTTGAGGGCTCCCC
TAAAAATAAATACTTGCTCTGAACCTCAAATGAAGTGTAGGATTTAGAAAGGCAAGGGGCCAGGTGAAAGAAAATGGTTTCAGGAGGAGGGAAGAACAAG
GGCTTGAAGGAATGTATGGTCCCCTTGGACCATCTATGCTTCCTAATCCTGGGGATTGCACCTCCAGTGATATAAGAATGTGTGGCAAAGGGAACCAGGT
TCCTCACTGACTTTGTTCCCATCCATAGAACCAAAAGGGTCTTCCTTAGTAATGCCTATGGCTATTGGGTATTGAGTTCTTACTACAGGATAGACCCTGC
TCCAAGGACTTTGTGTGAATTAACTTATTTGACCTCGACAGACATTTGCCTCACCCCACTGAAACAAGTGACATTAACAGCAATCAAAAGATTACCCGGG
GACACAAGGCTATGTAATACAGCAATATATGCAATATAAAAAAATAAATAAAACTTGAATGCTTCCAAATGTCTATCAAAAGAACACAGGTTGAATAAAC
AATGGAATGTCTACACAAATGAGTACTGTGGAGCTCTAAAAGGGAATGAGGAATAGGGCTATAGGCTATTTGGGATAATGTTCGGATATATTTTTAAGGT
AGAAAAAGTAAGATGGAGAAAATTGTGTGTTATATTACTGCCTGTCTTTGRGGGGATGCACATTCACATACAAATTTACTTTTTTAAAAAATAAAAGTTA
GGTTAAATCATTTTTTTAAAAAAATAGTTACTGTTCCAGTTATCTTTTTTCTTTGTATAAACAGGGTCTCATTCTGTCACTCAGGCTGGAGTGCAGTGGT
GCGATCAAAGCTCACTGTAGCCTTCACCTTCTGCTCAAGAGATCCTCCTGCCTTAGCCTTCTGAATAGCTGAGACTACAGGTGTGCACCGCCACACCTGG
CTAATTTTTAATTTTTCTGTAGAAATTGGGTCTCCCTGTGTTACCCAGGTTAGTCTTGAACTTCTGGGCTCAAGCCATCCTCCCACCTTGGCCTCCCAAA
GTGCTGAGATTATAGGCATAAGCCACCATGCCCAGTCTATCTACTTATTTTGAAGCAAATTAGTGCCTTAAAATGTCAACACCATTTTATTATCGTCTCT
CACAGTGTAGGGATTGTCTGGGCTCCGCTAGGTGGATCTCAGGGTTTCTGATGGGCTTGCAGTCAGTGGCCGAGGCTGGAGTCATCTGGAAGTGCGCTCG
CTCATAGACCTGGGTGTGGAACAGAGAGACAAACCTCTGAGGGTTGAGGCTGGAACTGCTAAGGCTGCCTTGACATCTCTCTATGGTCTCTGCAGCACCA
AGGCTTACAGGTAGCTGTATGTTTTACAAGTTGGCCTGAGGCTCCAAAGATGCCTATTCCAAGAGAGAGGCTGGACAAGCTGTACTACCTTTTATGACTT
ASTGTCAGAAGGCACACAGTGTCACCTTTGCCACATTTCTTTTTTTCTTGGCAGATAATAAGGCCCACCCAGGTTCAAGAAAAGTGGGGCAGCAGGGGAA
GGGGATGGACTTTACCTCCTAGTGAGAAGATGATAAGGTCTGGAAGAGGAGGTATGGCAAAAAATATTGCTGTGGCCGTTACTAGAATATATAATCTGAC
GCAGTTACCTAAAGTGAAAAGCGTGAAATAAAGGCTGAAGAGATAGGGAAAAAAAGTCACATTTAAAAAAAAAGTTGTTTCATGAATTTGAAAACAAAAT
GAAATAAAAAGCCTATTCTAAAATTCAAAAGTCAGAGAAACAATTGAACCTAAGTGTGTACTCAAGATGCTGGCATAACCACTTGATAGGAACTACCCCT
AGTTATTTTAAAACGCAGTTATTTGACTCTGTCCATTAAAGACAATTGAAAACCAAAAACCAAAACAACTGCAAAGGGAAATCTTAAAGTATTTTCAATA
ATACTGCTTTTGGAGGTAGTGTTGRTATATTTATTGWTATATAAAATATAGTATAATATTGTGTGTATTGAAAGATAAATGTATATGTTAATTTGGAGAA
CTAGAATATTGAAGTATGGGAGGAAGAAGATGCAGATATAAGACCAGCGAGATTAATTTAAAATGCTAGAGAATTGGAAGTGGGATTATACATATGAATT
TATTAGGTGTTTTATCTTAGAAATTCATGTATTCTCTTTCTACTAAAAAGCCCTAGAAACAGTGACCAACCCAATAGCAATAAACTTCCTTAGCAAATAG
ATTATGGTCACTAGTGATCATTTTCTAGCAAAAGAAACCAAGCTGTCTTGAGAAAATGATTGAGTTTATATTTGAGGCAGGAAATAAACAAGAAGAATCT
GTAAAATCTTGTCATACCAAGAAGCAGAGAGGCTATGAGATGTCATTAGGGTSATGTCATTTAAAGAAGCCAGTATGAGTAGCTCAAAGATGAGATAATT
TGAGCCTCAAAACAAAATAAGTGATTTCAATGGATTTAAATACACTAAATCTGTTTAAATACATAAGTTCATAATGATAGGGGAAAACAAAATTATTTAT
AGGTTACCTTACAAAGATGATAGAAACCATCTCATTATTTTAGAAACGGAAAGGAAAWAAAAACATAAACAACTATCCTGCCTTTGTTTTCAGAATTCCT
TGTAGAAATAATTAACTAGTGGATGAAGAGAGTTTSTCTTTCTAGGTAATAAGCAACGAMAAAATGGCAGAATTAGAATATAATGAATTTGCAGTTCTTA
CTAAATTAATATATCTAGGCAGTAACCATCAATAAAAAGAAAGACCATATGACATTTGTATGTCCTGAAGTAAGTTCACAACRCCATCTRGTCTTGAGCC
AAAAATACTGCACCTGAATCTGATCCAGCCTCCAGGATGTATCTATTTATAGGAAACACAGTGGACAGGCGAACATGTTAAATGACACCACAGAGATGCA
ATCTGCGAACTTCCACTGTGGAAACAATCCAAATGATTCAACACGATGTTGCAAAGACAAAAGAATTATACATGAACAGGAGGCTGGATGAATTAAAAAA
CATAAGAGATGTATCAATCATAATCTTTGGTTCTAATTTGGATTCTGATTTAAAAATAGACTGCAAAAAAATTTGTTAGAATAATATGAACAAAGACTAG
ATGTTTGCTGCCATTTAGAAATTCTCATTAGTATTTGTTCAGTTATGATAATGCATGSTGCTTCTGTTAAAAAAATACTTTTAATCTTTTACAGATACCT
TCTAAATATYTATAGATGAAATCATATGATATCTAGAATTTTCTTTAAGACAATCTGTGGAAGGGGTGAGTGGATGTGTGCTCAGGTGAGCTAATGGTAG
CCATGAGTTTAATATTGAGGTTGAGCGATGGATACAGAGAAGTTCATCATACGAATCTCTCCACTTTGATGTTTTCTTGAACTCTCCAATACTAAAAATT
TWGCCAAAAAAATTAACAGGGGCAACGAACTTTCTTCTTTTTCCAAGGGCTTTTTATCGATGATTTTAAGAAAATGGTCAGACAGCGCAGGCGTGTTTTA
CYTTAGTCCTTCCAAAGCAGTAAGGTGCACCCACTTCTCAGCCACCCTCCCTGACTTTGTTTTCACAACCCGAATTCACCAGGAAAATACCAGGAGTCTG
CTTTGTATTGTGCCATCTTTTAAATAATGCCTCACTTTCTAGTAGCAAAGTACCTCATTCTTTTTCTTGATACTTCAAAAAAACAAAATGAAACAAGAAC
TTCTCATTAGCTGAAAGTGTTTTTATCTAGTGAGAACTGAAATCTTCTTGGCTTATTTCCTCTTAGATCTAAACAATATTAACTTTTTTTTTTTTTTTTT
TCCCAAACAGAGTCTCCCTCTGTTGCCCCGGCTGGAGTGACTGCAGTGGCACGATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAGGCAATTCTCC
TGCCTCAGCCTCCCAAATAGCTGGGATTACAAGCATGCACCACCATGCCCGGCTAATTTTTTGTGTTATTAGTAGAGATGGGGTTTCACCATGTTGGCCA
GGATGGTCTCAATTTCCTGAGCTCAGGTGATCCACCTGCCTCAGCCTCCCACAGTGCGAGGATTACAGGCGCAAGCCACTGTGCCCAGCCTTAACAATTT
TTTTTTGTTTGTTTTTGAGGCAAACTCTGACTCTGACACCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGT
GATTCCCCTGCCTCACCCTCCCAAGTAGCTGGGACTACACACGCACCCCACCACACCGAGCTAATTTTTTGTATTTTTTTAGTAGAGTCGGGGTTTCACC
ATGTTGGCCAGGATGGTCTYGATCTCCTGACCTCATGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGAATTACAGGCTTGAGCCACCGCGTCTGGCCCA
ACAAATATTTTTAAGATGCATTGTCTACTAACAGGAGATGCCTCTGATTCTGAAGTACTTTGCGATAAACAGCCACACAATAGCCAAATGAAATCTTGAA
ATCAGAGGGTTGCTTTCTCATGAAGTTAGACTGCTTGAGAATTGCAGTGGCTTCTATATGGCAGGTGCTTAAATTGTCCAAGTTGAAATTCTAATTTTTA
TAATGAGTAGGGATGAGTGCATGAAATGGTTGTGTGTTTTTTTATTTCCTACATACAATATCGAATTCAATCCCAAACTTGAAGCATTGATGTAATTGAA
ACATGTTGGTAATTTTAAATCGTGCAGTTCTGTACATGATCAGAATCCTAATCATTATTAAAATAGGTGTTTCTATTATATGCATATGTATAAAAAGTCC
TCCAAAATGTTAAATTACCTTTCTCATCTCAGGAATAGAGTCCCAATCACTTCCAGATTGAAGCACTTACGGGGGGAAAAGGCGAAGNGCTCCAGTAATT
TTAMATTGCTTCGTACAATGAAGAGTGCCTGTAAATTACTGAATGTGGTAATTTGTTCCATAAGCTTTTTTGATTTGTAAGTAACTTAGTGGATTTGCTG
GTGAAACAGTTTGGCAGGTTCCTCAGATAATTTAGAGATATTGAGCATAGACATCTAAATGTGATTAAAATGTGGTATTAGCAGACATTGACCACAGGAA
GGGTGAGGCAGGTTTTCAAGTTACAGCAGCTAGAGAAGCTGAGAAAGACTACAGTCGACTCTCAGGGGACTTGGGAAAGGTACTAAGAATGCACAATTGA
GCTAATTACAGGAAAATGCCACACGGCTGGCTTTGGAAGAATTCATCCAGCCCCTGGCATGTTTTGCTTATCCTCTGCCTGATGATAAAATAGGGGTTAT
TTCTATCAGTGGACACATTTGGCCCAYATCTTAATTCAGGCAACACAGCCTTAGCCTTGTTCTGCTAGTGCTAATTATTTTTTTGAAAAATAATACTGTT
AATATAGTAAAATGTAGTTGTTGGACTCTTAGAAATGGATAAAGTTTAGGTTTGTAATTTCCCAGACAGAGAGAGAGTGGCATAAGCATCGTGTGAATTC
CCTTCTAATAGGATGTCTTCATCTTTACTATTTTGCATAATAATGTATTGTTTGGCCATAAGAGGGATTTAGGTACTGGATCTAGAGGCATTGGGTGTCT
TTAAGGTATGAAGGGGTCAAGCAAATGTCTGCCACTCACAGAGTGAGGGAGGTGGAGCCAGAGGTTCTGAACAAAGAACCTCACCAAATGATGGGGAGAG
GCTGTGATGCATTTCATGAGGCAGTGATGATGTGAGTCTTGGGCTCTGTAAGTGAGGGTGCATAGAAGAGTAGGTCCCGCCCTTTTTAGGAGTATACTGT
GGACTAGAGTCAATCTGTAGACAAAGCTAGGCTAACTTCCTACTGGGCAACRTCTGACCCCTTTCATCTTTGACCTCAAGAAAGTCACTATTGTTGGTAA
AGTGAGGAAGGACATGGAACCTCTGGGGAGAATCTGACCTAAAATGGCTTCATAAAGATTCTCAGCATGAATGCCCTTTTTTACTTGATGAAAATAGACC
TGATAGTGGTTGGGTTATTTGAGCAGAACAATAATGGTAAAGGGAAAATAGTAGTGAGATTTATGGTGTAGGATGGTCAGATGTGGTATGAGTATGACAC
GGAGCCAGAAGTGCCTGGTCATTCACTGATTTGTCACACTAATGGAGTTAGAATACTCTACCTTGCAAGGCAGAGTAGGAGTAGAGTATCCAGTCATCCT
GGTTTGCCCAATTCTGTCCCACTTTTGACACAGAGAGTCTCACACTCCGGGAAACCTCTCAGTTCTAGACAAACAGAGACAGTTGGTCATCCTATTATGA
GAGGTTAGAGAGGAAGCACTTTCTGGATGGGTTGAGTCTGATRGGCTCTGTTGTATTTGATTAGACAGCTTTCTATGAGATCAAGGTTTTCAATACCATC
ACAGAACCATTTCTGGAGCTGTGTTGAGGAAGAGAGGGCAAGGGTTAGAGAAAAGCTTGGGCCGCAGCATTGCCTCTGCCATGAAGACTCTTTACGTCTG
TTTCACACACAGTCAGCCCTTCGTATCCACAGGCTCCACATCTGCGGATTCAATGAACTATGGATCAAAARTATCCTCTGGCCGAGTGTGGTGGCTCACG
CCTGTAATCCCAASACTTTGGGAGGCCAAGGCAAACAGATGACTTGAGGCCAGGAGTTCAATACTAGCCTGGCCAACATAGTGAAACCCCAATTCACTAA
AAATAGAAACCTCAGCTAGGAGTGTTGGCGGGCACCTGTAATCCCACCTAATCCCAGCTACTCAGGTGGCTGAGGCATGAGAATTGCTTGATCCCGGGAG
GCAGAGGTTGCAGTGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAATGAGGGCCTGTCTAAAATAAAAATAAAAATAGATGTGTTTGTGTGTGTG
TGTGTGTKATATATATATATGTATACACAAACATATATATATACATATATACACACACACATTCAAAGAAAAAATAATACAAATAAAAATACAGTACAAC
TATTTTCATAGCATTTACATTCTATTAGGTATTATATAAGTAATCTAGAAATAATTTAAAGTATACAGGAGGATATGTATAGATTATATGCGAATACTAT
GCCATTTTACATAGGGTATTTTKGTATTTGAGAAAAATCCTGGAATCAGTCCCTCACAGATACCAAGGGACAATTGTGCTAACCTTTTAGATAAAGTTTC
ATAGACCAGAGACTTCCACAGTGAACACAAGATTAGATACCTTAGGCTAGAGCGATGGGTTTTAGAAAAAAGGTGGACACATGGAATTCATGKATATGAA
ACAATACATTGTCCAGAAGTAAGGGTGGTCCATGGAGACTGGTTGGAGTGGGGTGGGAGAACCTTTTCTTCATCAGAGTCAAGTCATTCTGGGTTGGCAA
TATATATACATGAGTGGACTGGAGAGACTGAGGAGGCACAAGTCGAGGAGGAACACATCTTTTATTTTGACTTAATTTTCTTTTTATCCCCTYTCCTTCT
RCCCCAGGGTTCTTCTCCGTGTGGATCACATTAAGGGAGCGTATAACCTTTCATACCGCCTGACTAGGATGATGGATRTGGAAATACACASTTTGGGAGC
CCTGTCTGCTTGCCTGTTAAGCCATTGACTGTTATATACTCTTGGGCTTGAAACACCTTCCAGGCTGGAGGGGCCAGTATTGCATTTACTTTTATCCCAT
TTCTGTTTTCACGGCTACCCAAGAGGAAATAATTTGATTTGGGGCTGCAGGGGGTAGGGTGGAAAAGTGCAGTCGGAAGACAGAGAAAATCAGCAAGAAG
ATTACTGAAAGGGAAAGAGGGGRAAACCAACCAGCTATATATTTCCTGCAACATGAGTTAATGAAATTCCGTTCCTTCTTACACAGCTGTATTCGGTTTG
TTTTACATTGTTTGGTATGTRAAAGGATTTGGCTTTGCGTTACAGAACTAATTGCTTACTAGATATTACATGGATATCAAAATACTTTATAAATATTAAT
TAATCTTCACCTAATTCCCTGGCAAGCACAAATAACCAGTGGCATATTTATTGAATGTGTAAGCAATAATCTGATTCTTAAAGATTTGTTTTCTCTGCTG
AAGCTTTCTCATCATTTCCATTTGTCAAAATGCCTCATCTCCTTTGAGGACCATATCAGATGGTACTTCCATAACAATTGTTAGGAAAATAGTAATAAAG
ACGATGTTTAGAGTAACCAACATTATTATTTGCTGAACTTTCTTCCTTTGCCAAGCTCTTGAGTAAACATTTCATAGATATATCTCATTTAATCCTAMAG
CAGTCCTACAATAAAAATGTTATTGTTACTACTTTTTTTTCCCCCAGATGAGGGAGCAAAGTTTTTGAAAGCTGAATGGTGGCAGGGCTGGGATCCATAG
CCCATTCTGTCCACGTGTGAAACTTATAATAAAAGCCACTATCTTGCCCCTTTTCTGATTCACACTACAGGGAGGACACTTGGTACTTATCAATAACTCC
ATTCATTTATCTATTCAAAAATATGTGTTTGAATGCAAGTACTATTAGAGGTACTGTGCTAGGCTCTGTTATGACATACCTGGTGTTGACTCTTGAGTAG
GGATTACAGAGTTGAGCATCTTTTCTCTCCTGAGATTCATCATGGTCCCCATGGGCAGTGAACAGTGTTGTTGTCACACTATGAAATGGGTATAGTGCCT
GGCACAATGACCATTTCTTGAACAAATGGGGAGTGATACAGTGAAAGTAAAAAGAGGATCTACAGTGTCGTTTGCTTGTGAATGGTGAGGGGTGGGAGCG
CTTAGAAGATGTAAGGATGTGCTCTCTTCTTTCCTCACACTCATCTTATWTGTAATGACATTAATTTGTGTTCTTACCTGCTCARTGTCTTCTCAGTTTG
ACATGCCATGATGGCATGGACTATGTCTGTTTCTTCTAGCGCTTCATAGCTGTATTGACACATGTTTGTTGAATAGACCAATACCTTGTTTTATGCATAA
AAGAAGGCCAGTAAAAATAGTCTTACATGCATATTACCATGACCRTGAAAATAATCCCACCCTGGGCATAGCCTGGCTCTTGTTTGAAATGTGTGGTACT
TCTMTGTGACAAGATATAGAATAAGTCATTGGAAGAAAAACTGTCCTATTACTATATTTTATATAAAAGTGTATCTTGTGTTATAATGGGCCTGGTATAC
AGAGGGTGCTTAGCAAATCTTCCGCAGAGCTGAAACTGAGCTGAAGCTACGGCCCCCTTCTCTGCTTGCTCTCCTTTATTCTCTAGAGTGCTGCTTCCCA
ATGCGTGGTCCATGGACCAAGCAGCTTCAGCATCACCTGAGCACTTGTCAGAAATGCAGCACCTAGGCGCYGCACCAGACCTGTTGAATARGAATCTACA
TTTTCACAAGATTCCAGRTGATTTGCATACACAGTGGCATTTGAGAAGCATYAATCCAGGGGCTTCTTTGCAGTCAGTGATGGTGATTTGCCAATCATTA
GCATTTCAGAAACMCCAGGCCGAAACCATACATTTATCCTTAGCTAGGTYGGTATCAAGTTTCTCTGCTTTCAKCCAGAATCCTAACAATTCAGCTTGGT
TGATTATCTAAGAAGCTTCTATTTGATAATTATATATCTTTCATTTTTTTTAAAGTGCTGGGGGTTGGGAGATCCTGGGAAATGGCATAACTATTGCTTA
ATAAATGCAGTTTGCTTGGAAGACCAAAATCTTTCAAGTAATGAGAAGCAGCAAAGGAAACAACTCCAACAATGACACAAAGATTTCCTGACAATAAAGG
GGCTGAGGTGAGGACCCCAGCTGTGGACCACACTACCCGAAGAGAACCAACAACCAAATCAATAYCCAAAAAATAACAATAACRTCCAGGTCATTTCACT
TATGAGACAGAAGAGGTAAAACAAATTCTCAGATACAAATATTTCTGCTGCTCCACATTGTTCCATGGGGCCAGGATTGTGAAGTCAATCTTCCTAATGA
TTAATGGAATTTCTCACCTTTTGTTCAAATGACTTGGCCCCTTTGGTTTTTAAATGACATCTAAGGGCAAAACAGACCCAAGACTTTGTGGAATGACTTT
CCAGGAAACAACCATAYCTAGGTAAACCCATGCTCACAGGTTCCCTCTGTTAATGGTGAAATTACATCAAGGATGACCTTTTGAAAGAATAAAACTCATT
ATCACATGGAATATGATAGCTGTAAAAGAGCAACGCTTGGAAGCCAAAGCAAAGTCCCGCATATGATAAATTAATTAGAAWAGAAGTTACATAAAACCTC
GACCTTCTGTGTGACCCTTATCTTATAATTACCTCTTCTTTAAAAGCAGAATGAAATATTTTATGTATGAAGATGTTACTGTTGACCCTAAATGCATTAA
GAGTCAAGGAGACATTTTTCACRTATTGAAAATAAGATTTGATTGAGTGCTTGCAAGTGGCCTAGTGAAATCTCATTAAACCACTGTTWAATACTTTATA
AATGGCAGAATATTAACCATTAATTATGAACATGAAACCAGTTTGAAAATAAGTTTTGCAATATCTAAGCTTGATTTTCAACCCTTATTAATGCATTGTC
TTTTTCATAGTTTTCAGTGTTTTACAGCAAGTAGGTACTTACGACTTAGGTGTGACTTTTCATCTCTTCTTCCTCCTCCTCCTTCTCTCCTTCCTCCTTC
TCATCCTCCTTATTGTGTTGCTCTACCAACATGGTTGTAAAAATCTGGATGAAAATAAGAAAATACAGTCTATTAAACATAGTTATAGGCTGTCACTATC
CACAGTTATAATTAGATTTATAAATCATGTGCAAGATTCCCAGCAAAAAAAAAAAATGAATCTTAAACATTCTTTTCAACTATTATCACCCCAAAATGAA
ACAAAACAAAATATAGCAACGATATGAAATTGTTTCAGTAACATTGCCATGTTACAGTAAGCTTTTGCATCTGGATCAGTCAGCCTGGTACAAATAACTG
TATATTCTGAAATGTAAATAGATAAAAAGATAATGACCTTCTTGAGCATCTACTGGGTGACAATCGTTGAAATAGTATCTGAATTTAACTGCACCAAGGA
ACATAGGCAGATTTTGATTCAGATGACAGCTTCCATTATTTGGCAGCAGATGCTTAAGAGGCTGCTTTGGGAGGATTCTGATGTTGGATCCAGCCTACAT
CATAGAACTGCAGCCATGGATTAGCAATATGTGTTATGTGAGTGAGCTGCAAAAATATGCCACAAAATTCCCATCTTACAGTTATACCTTTTTACCCTGA
AATGAGTCAGTGTGTTATGGTAACATTCCCAGATGGCAGACAGAAGGAGAGCCAATGTGAGAGACCAGTGAACTCWGACCCGTCTCCCAAGAGCCTTGTG
TAAGTCATCTAAAAAACAAATGTTTCGGATATTCAGGGTTTTCTGATTTCAAATGTGTTCATACCATGAATAATTGTGTAGCACTATCTTACTGTGTGCT
GAGGACATTAATGTGCTTCTTCTTTCATCCTTCGAATGATCCTGCAAAATAATTCTCACTGACATTTTCGTGGAGGTATCCAACTTCAGCTCTTATGGAA
AAGAAAGTGCCTCTGTGGAAGTTGCATAGATAGTAAATTGTGGCGTGGGGACTCAAAGCCAGGTTTGCTTGACTTCACAGTCTAAATTCAACCCAGGAAC
CCAACAGCCTGTTGCTGTGTGATTCTGATCCCCATGAATTCACTATGTTGTCAAATGCTGAGTTTGCAAAGCATGGTCTGAGTGCTTCCCTTCTGGACCT
CCCTTAACCATTCCAGGGCTTTCCATTGCTTGTGCAGTTAATGAAGATGGAAAATGATTCCCTTCCCTCCCGCTCTGTTYTTCCATCTGTCCAGGTAATA
GCCTAATGTCAACCTAGTGACTTCATGGCATCTGTTTTCAATCTACTGCCTCCTTGTCTGGAATTCTCAGGGGACACTTAAGCCAGAACTGGGGTTGAAG
GAAGCCCTGGCTCTGTGCAAGTCCACAGTACAGCAGCTACTGGGGAGGGAAAACGGTGTGTGGCTACGCTGAGGGTTTCTTCCTGGTTGATGMGATTATA
ATGTGAAAAGATCGACATGTGAGCCCAGAGCAGATGCATAATAATGCTACTGCATTTTGTATTTAACAAAACCCCTTTCTCGAGAAATGTATTACTTACC
TTGTGGGTGGGGAATTGTCTCTGAACCCAATCAGGTTAGTCACTGGCCCATGACTATCTMATTTTTAATAAATAATAATTTTCTCAATTCAGCGCTAGCC
AGCTCATCTGCTTTCAAAAGATAAGATATGATTGCTTTGTATTTTTTATATTAATAACCCTCAGCATGAGAGGATTAACTCTTGATGCACTRAAGGCAAA
CTACCGGACCCTGGGAGATCCATTTCTTCTCACCAGATAGGCTGACACATCTTTCAGATGAATTTAAAGGTCAACGCCTTGTGCATGAAAAGCAGGGGCC
TGCATTAGATGGCTGAGCTCTAGTCAATTCTTGGTCATTTGTACTGAAACAGAGGCAAGAGAGAGATTTCAAAACCACCACGAGGARGCCCCTAAACATG
CAGGCATTTCTTTCCTTTATCTGTCGATTCAAAGAGCATCTATTCAGGGCCAAGAAGGAGATCAGGTTTATCTGACTTAGTCATACAGCCATAAGAAAGT
TTCCCCCTCTAAAAAAAAGAAAAGAGAAAAAATAAAGAGGTGCCTTCCATTGGTGAAGCGTAGTCATTCAGAACRCAAGCTTTGCAGCCACCCACAGCCC
ACAGCCCACAGCCCACAGCCACTGTGGGTCGAGTTATACTTTGCCTCTTAGCAGCTGACCAGCTTTGGGTCWGAGCCTGTTTCTTCACAGTGGTCAGCCC
CCTTGTCTGCCTGATAAATGTCTGTCTGCTCACGCACTTGGCTCCGCAGAAGTGAGCTTGCTGGGTCCATGGGGATATTCACTGGAGATTTTGCACAATA
TTATGCTCTGGAAAGGGGTCTGCAAACTCTGATCTGAGGGCCAAATCCAGCCTGCCACTTGTGTGTGGACAACTAGCAAGCTAAAATGGTTTTTACATTT
TTAAGTGGTTGCATCTTAAATGCTTATATAATGGCTACATAAAATCCTTAATTTTGCCTCTTGGCCCACAAAACCTAACATATTTACTACTGGCTCTTTA
AGAAAATGTTTGCTCAGGCCTGCTCTGGAGTCCTCAAAGCCACATATATAATTTTAAATTTTCTGATAGCTCTGCTAAAAGAAGTAAAAAGAAACAGGTG
ACGTTAATTGTAGTGTGTTTTCTTTAACCCAATATATTCAAGTAGTATCCCTGCAACGTGTAGGTAATATAGAAATTGCGAATGAAATATTTTACATTCT
TTTTTCATACCACGTCTTTAAAATCCAGTGTGCATTTTGCACTTAACAGCACCTCTTAATTTGGACTCACCACATTTCAGGGGTTTAAYAGGCACATGTG
ACCGGTGGCTGCCGCATTGGACAGTGGCAGCTCTAGAGAGCTGGAACCAATTTATGCTCCTTCTGACATTCACAGGGAATGCTCYGTATAAATCTTGGTC
TCTTCTTCCTTTTTAAGGTCACATAGCAMCTGGATTTAAACTCCAAAGCTACCCCAATTTTAGCTGGAGGGACCATATTCCAAGCTGCAAATATTGTACC
CACCCAGCAAATTTCCTGGGATGTGCTTCCTGGGGAAAGTGAATTCAGTTGCTGTAGCCCTTGATTTGATAAAATGCTCCTCTTTCTGGCCTTACCCTTG
CTCAATCATTTCCAATTCCGCTGCTGGTTATTTAACACGCCAGGGGCAGTAGGTGCATACAGTCCTATGCTCCCAGCTTATGAGGAAATGCTCTGTCCCT
CCACAGGCTTGATCAGCGGCCTCCCTGCTCCTGTTCTCYAGATAGAAGTTTCCCTAGTTTTGCTGGTCTCAACTCATGCACAGGAGGAAGCCAGAAGTGC
CCTGCTGTGATGATCAATCCATATGCATGTTTGCCTCCAGCAAACCAAGGACATTTAATTCTTGGCCAGAGTCTCATCAGCTCCATCAGTCTATGACAAT
AAAATGAATGTATGTCTTGATCACACCAGGAAGTCTCTGCTACCAACACCCCCAGGAGAAAACAGCTCCAGGCTCTTGAGGCTCCTCAMGTAGCAAAGTC
TCATCGCTCARGTCYCGCATGTCAGAATTTGCCATGATTCACTCACAGCATGTGTCATGTGTATCTGGTAGAATGTCTGAAATGCATTCTTCCCATATGG
CTTTTCAGGGCCCTAAGTGTGAATATGAACTTTGCATGTGAAAGATGCTTCATTTTGCATTTTGTTTGYTTGTTTTTGTTTTTTTGAGATGGAGTTTCAC
TCTTGTTGCCCAGACTGGAGTGCATTGGCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTC
CTCCCTTAGCTTCCCAAGTAGCTGGGATTACAGGTGCCCACCACCACGCCCAGTTATTTTTCTGTATTTTTAGTAGAGACTGGGTTTCGCCATGTTAAGC
AGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCGCTGTGCCTGGCCAAGACGTAA
TTATTAAAATTAACAATGTTCATCTCAGTATACTGCCTAAAATTACGTGATATGCCAAAGTGGGTGTATGTATCCCACTTTGAGGAATACTGATGAGAAA
GGATGTTAGGCCTACAGAGATCTTCATCTTCAGAAGAGCACAGATAAGTTCTGGTATAATGGAAATGACAGCGTCTTGGCATTTTTTACTGCTGCCTTCA
AACAGCAGACATCACAGCCCACGATGATGAGCCTGCTGATGCCGACTTCCTGCATTCTGTGGTACACCTGGGCTCAGCTTAGAAAGGCTCTACCCCAACT
CATACTTCTTCATGGCAAGATGAGGTGAATTCATTTCTACCCATAGTCATTCTAATCTGCATTTTCATAACCCACCTTTCCATTCTCCAAGTGTGACTTT
CATTTTTAGGACAGAGTTATTCAGTCGGTGAATATGCAGTCCCTTTAAAGGGATATTTATCACCCTTGAAGAATCTTATTGCCAAATCTTAATAGTCTTT
STTATAACAAAGGCTCAAATTCACTATCAAGATTAAGAGGTGGAGCTTGAATGAGCTTTGCTGGAGCATCTCATGATAAAATAGATTAAAGTCTTAAAAT
GGGCAACCCATCGAGGTGGAAGTCAAACAAATATGCAAAAGCGTCCCTGTATTTTCCTCAGGCAGTTTGGGCACTGTGGGTGAGCCCAGAGGGTGAATGG
TGGGAAGTGGGAGTTAGGCCACGTGGATTTTCCCTCAGGCTCAGCGGGGTGACCTCCCATGAGAAGCTGAAACTATCTTAATTACTTTGTCTGTAAAATA
GTGGTGGTGAGCATGGGGAGAGCTTGCCTACCTCAGAGGCTTGTGGTGAGGATTACGGGGAAAAGTCCATGTAAAGTGCTCCCCCCTGGTTTCTGGCACA
GAACAAATGAATGAAATTCAGATCCATCATTTATGTCAGAGGTCCCCAAGACCACCCCCAGGTTCCTTGATCCCCAAGTCCTAGGAAGTCCTAGAGGTCC
CCAAGGCCACCCCCAGTTTCCTTGATCCCCAAGGAGGACTCATGGTTAAGATTTATTACGGTGAAAATATACAAAATGAAATCAGCAAAGGGCAAAGGCC
TGTGAGCGAAGTCYGGAGGAAATCAGTTACAAGATTTCCACAATCCCCTCCCAATGCAGTCACACAGGATGTGCTTAACTCCCCCAAGCAACATATGGTG
ACACCGTGTGTGAAATGGTTTCTACGAGGGAAGCTCACTGGAGGCTCAGTGCCCGAGTTTTTACTGGGAGCTCATCGAGCTGGTCACRTAGACAGCCTCT
GCCTGATACATAGCAACATTCCTGACTCCCGGAAGAAAAGCAAGAGTTCAGCATAAACCGAATAGTTCATACAAACATGAGGCACTTGGAGCCACTSTTA
CCAGTTATGGGCATGGGAATACTCTCCAAACCCAAGTTCCCAGATGCCAGCCAAGGGCCAGCCTTTCAGGCAGGCCTTTCCAACATTGCAGTCTGCAATC
TGCTTCGTAACTCTTTTCTGCCCAGGACTAGAGGTCATAAGGCCCCTACTAASTCTCTGGCTTCATCCCCAGTACTACCTGTTAACCAACCTGACATTCC
TCCCATCACYCCGCAGATCCTGGCCCCAAAGCCTTACCTTGGTGCTAGCAGCTGCCTCTGTTTTGAAAGCTCTTCCCCTGAGTTCTCCATGACCAAGTCC
TCACCCYTTTCATTGCAGATGCTTGCGTGTTCCCATCACTGAGTTCTAATTTCTCTAATGGAAGTATCATTCTAAAGTTATCCTTTGTCCTTCTTTTATT
CTTRTTCATGGGTATCTCCACTAGAAGGAGGATATATTTTTCTGGCAGAAGAACATGCCCGTCYTATTTATTGTGTTATCACTAGTGTCCACTATAGGGA
TGGACAGGTGGTAGGTGTTCAATATTTGCCTCATGGATATTGGGAATTACTATATTTATTGTTCTGTGTCCCAAAGAACAAATGAAGCCCCCACAYCCTT
CCTGTTTATTGACTTAAAGTATTGTCTTTGAATGTTGAAAAAAGTTTTTAGAAAATGCTGAACTTACAGGGAAATTCACCAAAGTAATWSTAATATCATG
AAGATGCTCATTGCTTCTGGGCTTTCCAAATCTCATCTTTCCTCAATTGTGCCTTCTCTGCATGAGCCTAATTTGAAAAAAACCTGGTTCACAGAGGGCT
GCTTAAGAAGTTGATGGTTTTGTTTATACYCAAAGTCATTGTGGGGACCTSTATTTTCACSTTTTTTGGCCTAGGTTGTCCCAGTACTTCTCTCATTCTG
TGATTGATGTCATASGTGACAAGTGTGATGGGTCACTTCACTGGCCTCTCCAGGCGGTTTATTCTTTAGCTGACTTCACCTTGCTCTGGCCTTATGTAAA
GGTCCCTGCCCTCTGGCTTTYAGTGGGTTCARCCCACAAGTCTGCAAACTTTCTCAAAGRGCCAGATAATAAATTTTCAGACATTGCAGGCCATCCAGTC
TCTGGGCAGCTACACTACTCTACTCTGCCATTGTAGCATGAAAGCAGACATACACAATAGGTAAASCAATGAGCATGGTTGTGTTCCAATAAAACTTTAT
TTACAAAAACTGACAATAGGCTAAGATGTGGCCCGTGGGCTTTGGTTTGCCAATCAATGGTTTAGCCAGTGGAGGATTGGGACAAGAACTCAGAGGGAGA
GAGGAGAATAAATCTTTGCAGGCTGCTSTGTCCTTCCATTGGGGGTTACAGYTCTTCTCAGGGAGCCCCCTCCATGTGGCCGCGTCTTTTGGGTCTGGAA
ATTGTTTCCTCCCCTGGCCCTCTAGGSTTAGATGTGGGAAAGGTGCCCCATTATTACTGGCATGTTGCTTTATGCTGTGGGCCCCTTTTCCTTGACTCTG
ACTGTACTTTTGCTGGTTCCTGCGTCCATCTCTTGTCACAWAGCTCAATTTGCGTGTGCCATCAATTTCCTGCTGGGATTAAGATACCTGGCAGTGCAGG
GTTTCCTGGGATRTGGGACCTCTAAAACCGAAACCTAGACAGTCCCAGTAAATCAGGAGGATTAATCTCCCTAACTGGAACCCAGCCCTGTCTCCTCCCT
TGGCCCTGCTCCAATTACCTTCATTCTGGCCCTCAGTACCCCCAASTTGGATAACGGCTTTGCTGGCCAGTGACTAAATACAGTGGCCAGATGGGGTCTG
TGGCCATCGCCATGTGCACCTCTCTGCTAGGGCTTATTTGCCCTTGGAACAAAGTCTGTAGCTGATGTTTGACAAGCCAAGGAGACTCTAGTGTAGTCCC
CCAGCCTACTGTAGAGGCTCTTCACATTATCATATTTTATACTGCATAATTTTTGAAGATGATCCCTTTTCTTCCAAATTSTAGTACAGGAGAGGTATGC
TATTTTTCCATAAGAAAAATCAGACTTACTTTGAAAGAGCAGTAGGATTAGCAGACACTTTGAAATATTACATTAATCCAGCTTGGGTTGAAAATATCCA
AAGGACTGACTCATGAAATTTCAAGTAATTGAACTTCTGGACTCAAACAGACATGAGAAGAAAAAGTTATGTTCCTTCAAACTATTTCAGCTCAGATGAT
TTTTTCCTTTTTAGTTCAAAACCTGACAAAGGTTTGCTTGATGAGGAGAAGAGACCACCTTCCCCACAATGAAAGTTAACGCTATAATGATAATAGGAGG
GCTTATGACTGAATCTGTATTCAGATACACCGATTTTGTTTGCTTTTAGTGGCAAGCAGGTTTAGCAGGTTAGAGAAGAGGGTAATGTTTTGATACTGTG
GTGAAGCYRAGGAGGGCGATGTCCTTAGTCTGAGGAGACCAGCATGAAGCCACCTTTATTGCCCTAAAATGTCTCTGCCTTCAAACAAGTGGGCTAAAGA
GGGAGGGCCTGATGCTCTGAAAAGGAAAAAAAAAAAAAAACTTGGCCGGGTGCRGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCCAGGTGGAC
AGATCATTTGAGGTCAGGASTTTGAGACCAGCCTGACCAACATGGTGAAACCTCGTCTCTACTAAAAACACGAAAGAAACAGCCAGGTATGGTGGCACGT
GCCTGTAACCCCAGCTACTTGGGTGGCTGAGGCAGGAGAATCGCTTAAACTAGGGAGGCGGAGGTTGCAGTGAGCTGAGACCACCCCACTGCACTGCAGC
CTGGGTGATGGAGTGAGAATCCATCTCAAAAAAAAAAAAAAAAAAGAAAAAAACTTGCATAATGGAGCAGGCTAATTCAGGTTCCCAGGATCTAGATGAC
AGTAAATATGGAAGCTGCTTTAAGGAGATACTGGAGACATTTTAATGGTGTTGGCCGTTTCATTGTAACACAAATGACTTCTCTGCAGCTGTTCAAGGAA
GACTCTTTTCCTATGAGTGTTGGTAGATGAAGAGTGGAAACTCAGGTGCTTGGCAAGGTYAGAAAGTTAGTGTCAATGAGTGAGGAGGCTTGGGTAGAAG
AAAAGTCTGTATGAAGACATAAGTACAAACCAAAAATCACTTTTAGTTGACTATGAGGCAAACAGCAGTGCAACTGTGATGACAGAAGGCAAATGGTACT
TGCTGGGGACACATGGGATGCATGGCCTGTGGACATCTAGAAATGAGGCCTGTCCATCAGGAGGTCAACCTTACCATCCACGGAGTGTTGCCCTGTTTGA
CTSCAAGCTCAAAGCTGTCCCAAATCCAGATGCTCGGTGAAAATCCCTGATATTTGAATGGCAGCCTCTGCAAGCTAAAGGCCATCTAGCAGATACAGTG
GCCATATGGGACGTGCCAGCCATGATTTTTTGCAGCCTCTCTGTTAGTGCTTGCTTGCCCTTGGAACAAAGCCTGTGGCTGGTGTTTAACTATCATGGGA
GATACTAGTGTGGCTGAAAAGTCTGTGTTCTGAACAGTACTATGGCACTRTAGACAAACTTTCAAGGTCAAATTGATTATCCTGTAGTTTAGCAAAGCAR
CAGCTCCCTAATTATGTCAGGAGGCAGGATTATCTCTGATCATTTGAGCTAGGACTCCAGATAAAACATCAAAAGCAATATTTAAATAACACACAGCCAT
GGTTAAGGATTCATTGCATTTTCTCTTACYATAAAACCAAAATTGTGGTGGCCCATTTTGTTCCATTACTGGAAGGGTTTTCCAGGCTGTTTTAACTCAT
ACATAGTGTAACCCTTTCCCTTATTACAAAATTTCACTCTGGGAAAGAGCAAAGCTGTACTTTGTGGTACAGTGTTATGATGGTTTATGTTCATGAAGGT
CCTACAAAAATTCAGAAACATTCTTAATCCAAATGATCTAGAAATAGGAACTGGAATACCTACTGTGCTGGAGCTGCTTAACCCATGAAAGACAGTTGTA
CACAGCTCTTCACAACTCCGTATTCAGTGATTTCACATTAGTAGCTTGAAATTAGCCATGATGGGAGCATTTATGCCCTGGACATTGTCAAAACTCAGAA
ATCAAGTCATTTATTTCTTGGGGAGCTGGTCATTAAACACTCACTAGGATGCCCTTGGGTACCCCTCACTGCTAGAAGAATTCCCTCCCTCCCTGTATTT
CTCCCTTGAAATCTGAGCCAGTCTTGCATTCTACATATATATATATATATATATGTATATATATATATATATATATATATACATATATATATATATATAT
ATATACACACACACATATATATACACATATATGTATACACACACATTCCTATCTTCTCAAAAATTCTTGCCTTTTAAAAAGTTGTTATCAAAGACAAGGA
ATTTTTTAATCATCAGGGTAGCTCAGTCTTGAGACATCTGAGTCCTTCTGAGTAGTAACCAGTAGCTGCACCGAAGAGACAGTTCAAGGACTACAAATGA
TGGTAGTCCTTGAATTTCAAGTCCTTGGGAGTTCAAGGCCTATCCTCATTTGTAGTTCTTCACACTGTACCACTCTTTATTTGTTTAAAATATAAGAGTG
CACAGGCAAAAATCAGCTAAATGGGAGTTGTCCAGAACAGTGCTTTCTCCAGTGACCTTACTCACCCCTCCATGAGGACTCAGTTAATTCTAATCTCTAT
TTTGCTGTTTCTATGAGGTCAGAAGTCCCCAACTTTTTGGCACTAGGACTGGTTTCATGGAAGACAATTTTCCCATGTACCAGGGACATGGGGGAGGGGA
GGATTTGGGGATGATTCAAGCACATTACATTTATCGTACACTTAATTTCTATTATTATTACCTTATATWATGAAATAGTTATACAACTCACCAGAGTGTA
GAATCAGTGGGAGCCCTGARCTTGTTTTCCTGCAACTAGACAGTCTCATCTAGGGTGATGGGAGACAGTGACAGATCATCAGGCATTAGATTTTCTGAAG
GAGCATGCAACCTAGATCCRTTACATGTGTGGTTCACAAAGCACCTATAAGACTCTAATGTTATTGCTGGTCTAACAGAGGTGGAGCTCAGGTGGTAATG
CAAGTGCTGGGGAGCAGCTATAAATACAGACGCAGCTCCACTCATGGGCCCGCCACTCACCTCTTGCTATGTGGTCCGGTTCCTAAAAGGCTGCAGATGG
ATACCCATCCATGGCCTGGGGATTGGGCATCCTTGTATTAGATTACTAACTCCACCCTTAAACTTTTTAAGTTGTGTTTTCAAAGAAGGTATCAGCATGT
CAGTCTTTCCTATAATGTTCTGTGTTTCTTGAAGATAGGGACCTTGCCTTTTTGTGTATATTGACAATTAGTGTATATTGTCTTGGCACTGACACACAGT
AGGCAGTCAGTAGATGTTACTTGCATCAATGCATGAGTCCTTCAGAATACATCCAATTGGCATTCAGTGAGCAGTTGTTCAAATTCCTTTTAATTCAGGA
TGGTCAAATGTTTGTATGAACATTTGGGGAAACATCTTAACTGTCTACCAGGCAGTTAGATTTTAAAGAAAAGACRTGTATTCATATACTCCGACCCAGG
GGAAGATATGTGGCATTCTGCTTAACATAATCAGTTCCTTGCTTTCCACACCAATTTGTGCTTGATTTRTTTCTTTTCTTCTAGAACTTTTCAGAGTGAG
AACCTTTAGCAGAAAAAAAAAGCTTAACAAGATAGACATTTTAGTTCAATAGMAGAATTTTTCTGGTGTGAAAAAGTAAATTACAAAAAGGACTTTGGTT
CTGAAAGATAATTAATAAAAACCTTYCCATGTGATGACAAATCTGACATCTTGTCTAATGTCTGGCAGAGAAGAAAGTGTTGAGAGCTGCACAGTTGGAA
TAAAATGTTCCACTTTACAGCAAGGCCGGGTAGGATCTGATAATTATTTCTAGGCAACAAAAGTTCATAGTCTAATTGTTCAATTGACACAACACCAGGC
CTGGCTCTGTGACTATGCACCATCAGTGAGGTCTTCGTTTAGGCTTTCCTGATTTCACAGGTAAATATTGCCAGGAATGTGGGTGATCATGGAATGACTC
CCTCGTGGATATTTTGGACTACAGCTGTACTTATAGAACTTTCCTTTCCCTCTTGTAAGCTTCTCATGGGCTGTGGTAGGCTGAGTAATGGTCCCGTAAT
AAGTCTACATCCTCATTTTCAGAATGTGTCAAGGTTACCTGTATGACCCAGATGAGTATGATGTAATCACAAGCTTAYAGAAGGGAAGTAGGAGGAGCCA
GAGTTAGAAACAGAAGACGATGTGATGAAGGAAGAGAGACAGAGAAAAACAGGTGAGAAGAGGCCATGCTGCTGGCTTGAATGAAGAAGGAGGCTGTGAA
CTAAAGGATGTAGATGACCTAGCTGGAGAAAACACATTCTCCTGAAGGAGTTCAGCCCTGTGGCTTCAGACTTTAGAACTATAAGGTAATAAAACTCTGG
GAGGCTGAGGCAGGCGGATCACAAGGTCAGGAGGTCAAGACCATCCTGGCTAACATGGTTAAACCGCCTCTCTACTAAAAATACAAAAAATTAGCCGGGC
GTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGTTTGCAGTGAGCCGAGATCGCGCCA
CTGCACTCCAGCCTGGGCGACAGTGTGACACTCTGTCTCGGAAAAAGAAAAAAAAAAGAACTATAAGGTAATAAAGTATTTTTTTTTTTTTTTTTGAGAC
AGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCGGTGATGCTATCTCGGCTCACTGTAAGCTCCGCCTCCCGGGTTCACGCTATTCTCCTGCCTCAGCCTC
CTGAGTATCTGGGACTACAGGCGCCCGCCACCAAGCCCTGCTAATTTTTATTTTTATTTTTTTTTTTTGTATCTTTAGTGGAGATGGAATTTCACCGCGT
TAGCCAGAATGGTCTTGATCTCCTGACTTTGTGATCCGCCTGCCTCAGTCCCCCAAAGTGCTGGGATTACAGGCGTGAGGCACCGCACCTGGCCAATAAA
GTATTTTTAAGCCTCTCAGATTTTAGAASTTTGTTACAGCAGCATTATGAAATTGATACACGSGGGCATGTTTTCCTGAAATCAGAGCCTGAGAGGAGAA
CCAGGTACAGGTAGTTTTCTTTGGGAGGTGATCCAGGAAGCAGGAGTAAGGAAGGATGAGAAGGCAGGAAAGGAGAGAGAACCAATATATTAAGGAATCC
TTGAGCTCACTGCTGTAGACAGCCAGGGGCCAGTGCACAGGGACCTCGAGAGGCACAGGGAATGACTCTCAGACGTGTCTGTCTGCAAGAAGGCAGGTGG
GAGCATTCAGCCAGCTGTCATTTCCAATGCACTGAGGGCTGTCCATAGGAGCATTAACTCCCCCTCCTTTCCCATCTCTGCTTTCCCTCACATTAGCCAA
GCTCCTGYAGTGTAGGAGAAAGAGCCAAAGCAGAATGCAAAGAGACTGAGGGCASTCTAAGGGGCAAGCCTGACTTCTTTAGAAACTCATCGCAGCAGCA
ACTGAGATCAGAGGTTGGCTGAGGTATTGGCTGCAGCCACCAGCATCATCCTCTATTGGGCTGACCCCTCAGATGACAGACCTATTCATTTACTGTTTCC
CATCTTTTGTCTCTGTGGATTCAAGGTTTCTTGGTGTAGACCAGACAAGGTTCCCAGTGCCTGCCACATGGTAGGCATTSATTATTTTCTCAWTTGAACT
CCCTGAGGCTACTAAGGCCCACCCAAGAGTACCTCATATAGGGGCTCCTTTGTTTGACTTAAGGGAAACAGGTATTATWTGGCATTCGACATCACTAATT
TAATTACAAAAAATTCATAAATAGATGCAAATACCRCCAACCCTGAGCAGGCACATCCTCTGGTTTCTCCTAAGGGCCAGCCAGCAAGCCAGGCATTCCC
AGTGTAGTAACTTAAATTCTTACAAAACTGTATTTTTCCTTTTAAGTTTTCCAAGTGAGCCCAGTGGCTTAATCCTGGAATCTTAATAGTAAAGAGTTAA
TTCCATTTAGACAAAAATTGTGATTTCACTGAGTGAATTGTTCTTGGCTCTGTTTTATCCAAACTGAAGGAGGGCATGCATGAGTCCTATTTTGAGACAA
AACACCTTCAAATAATCTGGAAAACAACCCAGAGTTTATTTCTGCCAAATGGCTCCCTGTTTCTTGAACTGGCATGCTATGGTGTTTGCATTGACCAAAC
TTCTGCGTGGAGCCTTTGTTCTTAGAGGTTGTCATGTGAAAAGTTTCAATCATCTTTCTAATATGTCCTTGTCTGTGACATGGTCCCAGTCCTTATTTTC
ATCCAAAGAGCATGTTGTTCCTTCTTCTTTATTTSCACAATACTTTRTACATACCCTCTATATTAATATAACTATAATATTAATGTATACTTATTATATA
AGAAATATATATCAGCTATCAATATAAATAATAACTAGCACATAACACCTACTGTGAGCCAGTTTCTGTCCTGAAACATTTGATTTGTGTTKACTCATTG
ACTCMTACAACCAATGGGAGTAGACACAATTATTAGTTGTGTTTTGCARATGAGGAAACTAAGGCAAAGAGAATTTAAGTAACTTGCTCRGGGTCACATA
GAAACTAACTGGAAAAATTGAGATTTCRACCCAGTTAGTCTAGCCTGCGAATCTTTACTCTGAGCTACTTTTTAACTGATTCTCAATGTATAGTCACATA
GGTTGTAGTTTATTATATGTCCATGTGTCTGTCTTTCCTTCTAGATAATAAGTTTTTTAAGGGTTTTATTCATTTKTCCATCTCTAGTATCTAGGCCAGA
GCCTGGCAGATAATAGAAATGTTAAATTTTCACTAAGAAAATCAATTTTAAAATGAACCTGATGATGCTGTCATAATGGCAGATCAAAATGTCCCATAAT
TTGAAAGAGGCAATTACTAAAACAATAGCAAAAAATAAAATAAAACAAAATAAAATAAAAAATGAGAGACAATGCTTATTTATGCCAAGGAGAGGAGCAC
TTAGGACACTCATTGCCACATCCTGACTCTGACAGCCTTGTCAAAGCATTCCAAAGCCATGACCTTCCCTTATTCTCCCTTCCTTCCCCACCTCGCCTTC
AAATTCCCTCTCCTATTCCTTTCTAACTCCTCTATTTTGCCCTCTTCATTGGTTTTCCCAAATTATATTTACATGTTAAAATACCAAGTAAAGGGAACCC
ATATTTTCTGAGTGTCTATTGTGGGGCCAGGCTATAGTAGACTGCATTAGTTCCCAATGGCTGCTGTAACAAATGACCACAAATTTAGCAATTTAAAACG
AACATAGTATTGTACAGTTTTGAATGTCAGAAGTTCAAAATGGGCTTCACTGGACTAAAATCAAGGTGTTGGCAGCGATGCATTCTTTTCTGGAGTCTCA
TGGGGAGAATTCCCTTTATGCCATCTCCAGTTTCTAGGGGCCACCCACATTCCTTGACTCCTGGCCCCTTCCTCCATCTTCAAAGTCAGCAATGTGGGGC
TGAGTTCATCTCATAACATATCACTCTGCCCTCACCTTCATCATCACATCTCTTTCTCTTATCCTTTCTTCCATTTTCAAAGATACCTGTGATTACATTG
GGTTTACGTGATTACATAATCCAGGATAAGCATGCTGTTTTAATGTTAGCTGATTCCCAACCTTAATTACCCTTTGCCATGTAATCTAACATATTCACAG
GTCCTGGGGAGTAGGGTGAGGACATCTTTAGGGGACTACTGTCTATTCTGTTTGCGTTATCTCATTAAAGCTTCCCAGTGACCGTTTCTCTAGCAAAGAG
CATGTGAAGGCCATTCACTCTGAATTAATTTACCAAAAGCCAGAGAAATCACCACACAGCCAGAATTTGGACTTAGGTTAGTTTTGGCTTTTTGCCCCAT
GCTTTTCCTTGTTTTATTGTTTTCTTGTGCTTCACTTTTTTTTTTTTTTTGTACTTCACAGATACTGTATGTTTTACAAATTGAAGATTTGTGGTGTTGA
AGTCAAAATAAAAATGTAGAGATGAATCTCTAAATTTAGCATTTCATTTGGGAAGAAAGACTTGCAATTTGGGGCATTTATGCAGATTAAATAGTCTTTG
GTATGTTCAAAGAACAAAGAGAAAGTTGGAGGTTTTGTAACAATGAAAAATGTTATGTATTGCTCTTTGAGAAAGTTCATTGACACTAGTAAGGTTCTGG
GAAGCTGGCAAGCTTCAGCTGGTGAGTGGCATCAGTGAGAAAATTAGTCCTGGAGTTGCAGCAAATTATCTTGAAGCTATAGATAAAACTGGGTTCAGGT
TACAGCAGCCAGGCTTGCAGAGAATTACATTGTTGGAGCAATGCTTTGTGTCCCTAGTGTGTTTTTGCCTGGCTTCTTGACTTTGCTTTAGTTGGGTATG
ACAAGAATAACCCAATTTGTAGGATCAGCTTTCACCTTGACAACTCTGCACTGAGCAAGTTTATGGGTGCTGTTTTTCCAACAGTATGTGATCACTTTGT
GTCTCTGTCTCATGTTTTGATAATTCTCCCGGTTTCTTTCCTTTTTTTAAATTRTTACTTTGTCTATTTTGGTGATGTCTGATCAGTGACCTTTGATGTT
ACTATTGTGATTTTTTTTTTTTTGGGTGGGGGGAGGCACCACAAACTGTGCCCATATAAGATGCCAAACTTAATTGATAAGTGCGTGTTCTGACTGTTCC
ACCAACTGGCCCTTTACTCATCTGTCTCCTTCTCCTCCAAACATCCTATTTCCTGAAACACAGCAATATTGAAGTTAGGCCAATGAATAAGCCTACAATA
AAGTACTTTCTTTGCCTCTAAGTGTTCAAGAGAAAGGAGGAGTTGCATGTCTSTCTCTTTAAATCAAACCTAGAAATGATTAAGCTAAGTGAGGAAGGCA
TGTCAAAAGCTGAGGTAGGCTGAAAGCTAGGTTTCTTGTGCCAAAGAGTAAAGTTGTGAATGCAAAGGAAGAGTTCCTGAAGGAAACTAAAGGTGCTACT
CCACTGAACATATGAATGATAAGAAAGTAAGACAGCCTTATTGCTGACATGGAGAAAGTTTTAGTGGTCTGAATAGATGATCAAACCAGCCGCAACGTTC
CCTCAAACCAAAGCCTAATCCTGAGCAAGGCCTTAACTCTATTCAATTTTCTGAAGGCTGAGAGGTGAAGAAGCTGCAGGAGAAAAGTTGGAAGCTAGCA
GAGGTTAGTGTGTGACATTTAAGTAAAGAAACGATCCCTATAACATAAAAGTGTCAGGTGAAAGCCAAGCACAGTGGCTCACACCTGTGATTCCAGCACT
TTCGGAGACCAAAGCAGGTGGATCACGAGGTCAGGAGAGCAACACCATCCTGGTCAACATGGTGAAGCCCTGTCTCTACTAAAACTACAAAAATTAGCTG
GGTGTGGTGGCACGTACCTGTAATACCAGCTACTCGGGAGGCCAAGGCAGGAGAATCGGTTGAACCAGGGAGTAGGAGGTTTCAGTGAGCTRAGATCACA
CCACTGCACTCCAGCCTGGTGACAGAGTGAGACTCCGTSTCAAAAAAATAAATAAATAAAATAAAGTGTGAGGTGAAGCAGGAAGTGCTGATATAGAAGC
TGCAGCAAGTCATCCAGAAGATCTAGCTAAGATCATTGATGAAGGCGGATACATTAAATAATACATTTTCTACATGGTTAAAACATTCTTATACTGGATG
AAGATCCCATCTAGGACTTTCATAGCTAGAGAGAAGAAGTAAAGGACAAGCAAACTCTTTTGTCTGGGACTAAYGCAACTGATGACTTTAAGTTGAAGCC
AATGCTTATTCACCATTGCAAACATCTTAGGGCCCTTAAGAATTGTGCTGAATCTACTCTGCGTGTGCTCTACAAAAGGAACAACAAAGCCTGGATGACA
GTACATCTGTTTACAACATGATTTATTCAATATTTTAAGCCCACTATTGAGAACTGCTGCTCAGAAAACTATATTCCCTTCAAATCTTACTGTTCATTGA
CAATGTACCTGGACATCCAAAAGTTTTAATGGAGGTATATAAGGAGATTAGTGTTGTTTTCACACCTGCTAATATAATTTCCATTTTTCAGCCCGTGAAT
CCAGAAGAAATATTGACTTTCAAGTCTTACTATCAAAGAAATACATTTTGTAAGGCTACAGCTTCTAAAGATTGTGATTCCTCTGATGGATCARGACAAA
ATGAGTCAAAAACCTGCTGAAAAGGATTCACCATTCTAGATGCCCACTAAGAACATTTGTGATTCATGGGGGGGTGGTTAAAATGTCAAAAATAACAGGA
GTTTAGAAGATGTTGATTTCAATCCTCATGGATGATTTTGAGAGGTTCAAGACTTCAGTGGAGGAAGGAAGTGCAGAAGTGGTCGAAATAGCAAGAGAAC
TAGAATTAGAAGCAGAGCTTGAATATGTGTGTGAATTGCTGCAAGCTCATGATAAAAATGTGAATGGATGAGGAGCTGCTTCTTATGGATGAGCTAAGAA
AGTGGTTTCTTGAGATGGAATCTAATCCTGGTGAAGATGCTGTAAACATTGTTGAAAAGACAATAAAGGATTTAGAATCGTACCTAAACTTAGTTGATAA
AGCAGCAGCAGGGTTTGAGAGGACTGCTTTCTATTTTGAAAAAAAAGTTCTCCTGTGGGTTAGATGCTACCAAATAGCATCACATGCTATAGAGAAATCA
TTCGTGAAAGGAAGAGTCGATAGATTGGMAAACCTCRTTGTTTTCTTATTTTAAGAAATTGCCACAGCCTCCCCAACCTTCRCAACCGCCACCCTCATCA
CTCAGCAGCCACCAAAATGGAGGCAAGACCCTCACCAGCAAAAAGACAACCACTTGTTGAAGGCTCAGAGATCATTAGCATTTTTTAGTAAAAACGTATT
TTTAAATTAAGGTATGTACATTGTTTTTAGAAATAATGCTATTGCATACTTAATAGGCTACATTATAGTATAAACRTAACTTTTATATGCACTGGGAAGC
CAAAAAGTTCATGTGACTCACTTTATTGTAATATTTGTTTTATTGCTATGGTCTGGAACCGAACCTGCAGTATCTCCGAGGGATGCCTGTACATGCAGCT
TCCCTGTTTACAGTTTGAGGAGAATATGTTGGGTAGCATCTTTTAGAAATAAAGTCTAGGATGTTGGTTCAAATTTTGTGTGAAAGCAACAATAGGGCCA
GGTACGGTGGCTCATGCCTGTAATCCTAGCCCTTTGGGAGGCTGAGGCGGGCGAATCRCAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAA
CCCCGTCACTACTAAAAATACAAAAAATTAGCTGGGCATAGTGGCGGATGCCTGTAATCCCAGCTACTCGGGAGACTGAGTCTGGAGAATTGCTTGAACC
CTGGAGGCGGAGGGTGCAGTGAGCCAAGATTGCACCTCTGCACTCCAGCCTGGGTGACAGAGTGAGATTTCGTCTCAAAAAAAAAATAAAAAGAAAAAGA
AAAAGAAAAAAGAAAGCAACAATGGGACCGACGAAACTAAAAGCAGTCTCCCCTTTTACCTCCCCAAGAACTGTAAAACCATTTGTAAGTGTCTGTGACC
TTAATGACCAGMAACGTGTCAGGTTTTCTGTGTTCCTGGGGCTGTAAAACACCAGGAACATTTTAAGGAGGTCAGACTCAGCAGGGGCGTGGACATGAGT
ACATGCACATGTGTGTACGTGTGTGTGTGTGTGTGTGTGTGTGCATGCACATGTCCTGGAATGCTCCATTCCTCCATGCTTTCCCTGTAGGCAGTATGCC
TTTGTAAACCCTTCCAGGACTCTGGGTTTGTGCTCCCTGGGAGGATAAAGAATTAATCAAAATACACTGCTGCGATATTTTTACATCCTGCAAGTCAGAG
GCAGTATCCTTTCTTCCTCACAAATCTAAGACCCTCCAAATTGATCTCAATACACTGACTTTAACAAGAGTAAACCAGAGATGTTTTATGGCAGGGATAA
AGTAACTATCAACCAACACTAATGACAAGAAAGCAAAAAGAGTTGGAGAGAGGAAAGCATAAAGGATCCCAGAGACACTGGGGTGTTGGTTTGGAAAATA
CCTTCTTGGAGCTGGTTTAAGAGGGGATGGAACCTGAGAGTGTTCTCAACCTCGTGAGATTAATTATTTGTGGCAGGAAGTTTCTCTCTTTATTTGTGGC
TGCTTTGGAGACAGTTGTGTCATGTTTTTCTTCAGTCCTGATATTTTTCACTGGCCTCTGGGATATATCTGTGATGTCAGTGGTATCAAAGACTTTTCTG
CCCTTGTTCCATGGATGTTTAGTGTACAATCAGCTGCTGCAACAAACAACACCAAATCTCAGTGACTTTGCACAGCGTTCCGTGGATGTGTCTTGTGGGG
CGGTTCTCCCGAGTAACTGTCTTCTGTGCAATGACTGATTCTGGGCTCTTTCTATTGGATGACTCTGCCACCTTGGGAGTCCTTCCTTCCTATTTCCATG
GATAGGAGAAGAGAAGATATCATGCAGGACATYCAGGGGCCATGTCTAGAAGACGTGAGAATCCTTCCAMCCTTATTCTGTTGGCCAGTGCTTAGTCACA
TGTCTAAAATTGTAATGGAGCAGCAGCACCATGTCCTATTGTGAGAAGTAGCCAGAGACTAATCTCAATGACAGKTCTTATAGCTTGAAAAGGTATTTGC
AAAATCTAAAGCAAAAGTTGCCAACTCGAATGCCTAGATGTCCAAGCAAGTGTTTAACTGAATTGAGTGAGCAGAAACAAGAACCAGGGAGTGGTGCTGA
GAAGGAAAGCTTGGAGAGGGGCACTCTACATAACATGACAATTTAACTTGATGACAGACTTCTCTGGCTAAACTAACCACATCTGCTGGCCACATCCATC
CCTTATGCTGCCAGTTGGCAACCTACAGTATGGGAGAGAAAAAGAAAAAATCCTTTCTCTGGAAGCAAACTCCAAAGTTGGGTATATTCTTGAATCAGTA
CCTGTCAGGATAAAAAAAAACCCTTTCTTTTTAAGAAAGAAMGAAAGTTCTGTACTACAGCAAATAAATGGAAGCTAAAAAGAAAACCTGGTATAAAGAG
TGTGATTTAAGAATTTGCTTTCTGTGCATACATTTAGGGTAGTGGCTCTTGCATGGAAGAGAGATCTCTGAGCTGCTACTTTAAAGGATGCTTGGTGTCC
TACAGAGGTAACACAACTCAATCATATCAGGCACTGATGTTCTGATGGTGCAGCTGATCCTGAGATGCAAACACCCCATGATCTTCTGCTGTCTGATTCC
CTGCTATGTCCCTGTRTGTAGTCTAAACAGTCTATTCACTGAACAGTTTTTTAGTAACAACAAAAGTAATAATATGTTGGTAATAGTTTGTCAATGTCTA
CCCTGGAGAATATCAGTGAATCATGAATATGGATTTAAATATAATACATAGAAATAATAATAGCAAGCATTTATTGAGCAAGTACTATGTACCAGGAACT
ACTTAAGGCTCTTTACAATAATTAACTCACTTAATCCTCATAACGGGTGAGATACCATTACTCCTGCTTTTCAGCTTAGAAAACTGAGACACAGAAGGTT
ACTTGCCCAAGGATAGCCCGCTGGTAAACGAGATTCACACTGAACCAACGTGGCTTAAACCTGTGCTTATAGTCCGTCTGAAACGTGAATCTTTGTAGCA
GGCTGATGGTAATTTTTAGATAATAGAAATCTTTTGTTAATCATAGAAKTTGATTATTGCTGTGCTTTCAAAGGTGTCTTGGTTACCTCTCATTTCTTAG
GTACTCACTGATGCATAAATGGACAAACATGTCATAGAGTAAGACTATGATTGCCGTGGCATTAAAGATAAATTTGGAATGATGCTCAGAGCATATATTC
TAGAAAATTTACAGAGGATTTGGGGAAAACTATGTCCAGGTAGTATTTTTATGCATGTGACATCTCATAATATTGGAGAAAGGGCTTGCCTGGTTTTGGA
GTAATGTCCAAGTTCTAATTCTTACAGCAATGAGGGGTGCTGCTTTACTGCTTTCCATCCCCTTACCRAAGTTACTGTGAATGAAATTGAAGAGCGGATA
TCGGTGGCAAGTTCAAGCATAGATACTGTTTTGAATTCTCTTAAGAAATTAAAGGGCAAGGCTGGGCTTGGTGGCTTATGCCTGTAATCCTAGAACTTTG
GGAGGCCGAGGCAGGCGGATCACGAGGTCAGGATATCGAGACCACCCTGGCCAACATGTTGAAACTCTGTATCTACTAAAAAAATACAGAAAATTAGCTA
GGCRTGGTGGCTGGCACCTGCAGTCACAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAAACCAGGAGGCGGGGCTTGCAGTGAGCCAAGATCGTG
CCACTGCACTCCAACCTGGGTGACAGAGCAAGGCTCTGTCTCAAAAAAAAAAAAAAAAAACAGTAAAAAGAAATCAGAAGACAATAGCAGTAACTAGAAC
ATTCTACTATTATTGACTAGTAAGATATTTAGCTTTTGGGGAAGTCCTAAATTAGCCTGGAATCATTTTTAAATGCAGTTTTGTAATTTCAGTGATGTGT
TACATGAAACTCAAAGAGCCACAAAATAATTCACGTGTAAGCGAAGAGTGTGCTGGTTTAAAAGATGAGTCTGCATTCTTCTCCCTTTATGCAGATAATT
CGTAATCATCTTTGAGATCCCAGCAGAAATGTCTCTTTTGTGGTTTTGCTTTCCTTGATGCTCTAGATGAAGTTAGACTTCCCTATACCCCAACTTTTAC
ATGCTCCCAGAGAGATCTATATTTTCCTTTCCAGTTAAATTTTAATCTTGGTGAATCACTTAAATTATGATTTGTTAATGCCTSTTTTCTTTTTGAGACC
ATAATTATATTTAACAATTATTGACTCCTTATCCTGTGTGGCACCTTTCTCATTGCTTTGGACAATGTGTAGCAAAGTCCTCACTGAATCCCAGGAGTCT
AATAGGTATTTGTGAATGAGGAGTGAGTGARTGAATGAATGATTTGACTAATTCTTACCTCACTAAGTCACCCATGGCCCAGGAGGGTACTGTGTACCTT
TATGTTACAAATCATTTAACTTTAATTTTGACTGGTAGGTGAAGTGTCCCAAGAATTTGTAAAGATAAAACTGTGCCTTTGGGGCTTCTCCTACTGCTCC
CCTCTTCCCTAAGAGTCAGCAGCTGGAAAAGGTTTATTTATTTTTTTTATTTTGTAACTGTAGAGGAATCCTGAATGGGCCCTGCAAAGTAATCTCAGAG
ATTGAGCCACACATAGACAAAGATGGAGAACACAGCTCACCTGCAGAGTGCTGTTTCTCATCACTAACTGTGSTTTCTCTCAGTCCTGACTTTTTATGCT
GAGGATTCTGGGAGAAATTTCACCTTCTTTACTTCCTACAGGATATCCAGTTTCCTGGTCTGGGAGCTGAGAGCAGAATTAGCCAATTGGAAGGTTAACG
CATAATTGTAGGCACTGGGTGTATGGAGGAGACCCTTGACCATTTGCTATTTAACTGAATTAATGTTGGCCAGTTATAGATTTTCTGTTTGCAAAATTGC
CAGCAGATTTTTCTGACTCCTGGATCTGCATCCTGTGTATGTGCCACTTGGGATGCCAGCATTTTGATTGCTTCCAGAGCGATCTAACCAGAGCCTGCTC
TCAAGACAAGGGAATCCATGATTCACAAGYGGAACCGTACAGATGCCAGACCACAGCGTTCTTTTCACTTTGATTTGAGGGAGATGATGTTGGTCAGGGT
GATGACTCCCCCATTTCAATTTCTCTGATGTTGTTCAGGCCAGCCACACGGTGAACCTCCTGAGATTGATTCTTGCTCCCTTCTTTGGGGTTCAGTGCAT
TTCAGAGGGCTGGTATTTAGAGAGAAGCCCTGGTTCCACAGCTTCCAACCTTTTGACACTGCTTTGAGTTCTCTGGTGGGGATGATAATGAATTTTCTTC
AACTGTCTGTGTGCAGTGGTTAGGATTTTGAGGTCTGATATTGAAGTTTTGTTTTCTAAGAAACACACAGAGTCGAGGATTTGAGTGCAAGTAATTTGAG
TGATGGCAGAAATTGGTTTAAGAAAAATACTAGCTGGGGCCGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGYGGGTGGATCA
CGAGGTCAGCAGATCGAGACCATCCTGGYGAACACTGTGAAACCCCGTCTCTACTAAAAATAGAAAAAATTAGCCGGGTATGGTGGCGGGCGCCTGTAGT
CCCASTTACTCGGGAGGCTGAGGCGGGAGAATGGCGTCAAGCTGGGGGCGGAGCTTGCAGTGAGCAGAGATCAYGCCACTGCACTCCAGCCTGGGCAACA
GAGAGAGACTCCATCTCAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAAGAAAAATACTAGCTGGGTGCAGTGGCTCACGCCTGTAGTCTTGGCACT
TTGGGAAGTCGAGGTGGGTGGATCACTTAAGCTCAGGAGTTTGAGAGCAGCCTGWGCAACATAGTGAAACCTCCTCAGTACAAAAAATAGAAAAATTAGC
TGGGCTTGGTGACGAGTGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGAGGTTGGGTCTGCAGTGAGCCACRGTTG
CACTCCAGCCTGGGCAACATGGCAAGACTCGGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAACTTTAAAAGTYAAAAAAAATAGAAAAAATAC
CAATAGGGAATGAGGAAATAAGTCAGGGAAGAGAAGGCAGGTAATGAATRTGAGTTATCAAGCTAGATTCTCTGGTGGACTTTGGCACTCAATCCCAGGT
GGAAACTGGGAGACAAAATGCGTATCTCCAAGTGATCTCACCAGAGGGGTGAGGGAATTGGGATATTTACATACCATTCCCCATCAGTTATTGGTTAAGG
ACCACTCCCAGGATGTTAATTTCCAAACACTCTCTTCTGGCACTATGCTCAGATAAAATACCCTTCCACAAGTTTTAGAGACATATCTCGTACAAAGAAG
AAAAAATGCAAAGTCCTGCACGTTGACACAGAAGGTCTGAGGGGAATGGGTAGGACTCTGACAGAGTTCCTTTGAGGACACTTGAACCTAGATTCAGATG
CTGGCTTCACCCATTCCAACTGTATGATCTTGGGCAAGCTTGTTAACCTTTCTAGAATTTCGAGTTCGTCTTCTATAAAATATACCTTATAACATTACAC
ATTTCATAGGCCTGCTGTGGAGATGATGCATATGGTGAGTTTAGCACATTAATGGCCAAATACTAAGGGCTCAAAAATGGTAGCTTTCATTTGTTAAGTG
TTACGGAGCCTCTTCTCTGTCCCAGTATGTGTGGTAGGTGCTCAGTAGAACCAGTGGTTGGTTGTTGGGGGGAGGTAATACCTGTTTTTATGGCCTTATA
GCCTTTGYGTACTAAACCTTAAGACCATTTCTTATTTCACTAAGTCACACCTTGCCCAGGAGAGAATCGTATACATCTCATACATTATGTTCCAAATCAC
GTAACCTAAATTTTTGACCGCTGGATGAAGTGTCTTAAGCATCTGCAAAGACAGAACTGTGCCTTTGAAAGCAATTGTAAATTTTAAGTTTTATAGTAGC
CAAGTTTGCAAAAGGAATAAGAAACTGGTGAAATTAATTTTAATAACATATATTTAATTTCATATGTAAAATATTRTCATTTCAACATGTAATTAATATG
AAATTATTGACTATTTTACATTCTTTTCCTTATTTAGACATTGAAATCCAGTGTGTATTTTATACTTACAACATGTCAGTTTCAGACCTATGACTGTTAA
AGTACTCAGTAGCCACCGGTGGTTCATGGTCACCATATTGGGCCACAGTGAAGGCTTAACAGGTCCTGGATTCCTTTTAGAAGTAAATTCCAACAGAATA
GTTCCATTTTCTCTTTCCTCCTCTTCATAGATGACAATGCTTCTTTGCTTGTATAAAAATGAAGTTGGTTTTAGCTTAGGCATCATGGAAAATTGACAGT
TTCTGTAATAAAATTTCACACATGGAAACCATGGTGAGAATCTTAGCAGGTGTAAAAATCTGACGAAGTTATTTCTTTAACTGCAATTTAATGGAAACTG
CAGCAGCTGTTCCATTTGCGTATTCTCCAAATCTCAGTGCCAAAAAGAATTGTTGGCAGCCACTGGAGAAGTTTCAACTTACCTCTTCATTTGGGAAATG
AAATCAAAACCTCAGCTTGTTTCTAAAAGTTGCGGATTTGGCGAAAGTTAGCAGGGCAAACACATAAGCCGCTATTAAAATATTGATGGCTTTGGTTTTC
TCAGGTGCTGCTGCTAACATCTGCAGAAGATTTGGACTGCACTCCTGGATTTCAGCAGAAAGTGTTCCATATCAATCAGCCAGCTGAATTCATTGAGGAC
CAGTCAATTCTAAACTGTAAGCAATGTCACTCAAAGATGCTTTTAGACTCTTCTCATATTTGAATTTACTAATGTTTATGACTGTGTCTCAGGATGTGGT
ATTTCCTAAACTAAGTGTTTTCTGATTATTTTTCTTATGTCACTGCTTGACCCAAAGTGGAAATTCTTGAATGAGGGCCTGGCCAACTTAGAGGTTAATA
GAGTGATATGCATCTCTTTTTAGTATTTTATCATCAGTGGGTATCTCCATACTGCTGTCAGAAAAGGGGGCTGTCAGCCTCCAATGAGAGTTGTACACTG
TGCAAAGGAAATGAAATTCATTTCCCCTGGGCAGATCCCCAAAATCAAAATCATTGCCTTCTCGCAGATTGCTGTTCTACCTGTAGTTTCTCATACATAG
CATTAGATCAAAATAATGGTGAGAGTATGACATTGGCTTCTGGGAATTTTTAGACACAGACATCAAAAACTCTTATTCTTAAGGCTAATAAGATGGGTTT
TAGAAAGATTCAAAACCTCTACTGATTATTCTATGGATTAAGCTCAACTCATCCTGAATTCCAATTGATTTATTTAAAATATGCATCTTTCATATCTGTG
GTGATGATCTCTTTTTGTTTTTAATGTCAATATTATATTGCTTTATCTTTAAGAAGTGTTAGGGTACATTGCTAAATGCATAACAAGTACAGTTTTAGTG
CAATAGAATTTAAAATTGGTGGTAGACAAATAGCTATTTCATTGTAGGCTCTTGAGTACCTTGCTTAACAACTGGAAATGAAGAATATGGAAACAACTGA
TCTAAACTGATCAGATGCAGTCGGGTGTGATGGCTCATGCCTGTAATCTCACCACTTTGGGAGGCCGAGGAGGATGGATGGCTTGAGGCCAGAAGTTCAA
GACCAGTCTGGGCAACCTGGTGAAACCCCATCTCTACTAAAGTTACAAAACTTAGCTGGGCATGGTGGCATATGCCTATAGTCCCAGCTACGCGGGAGGC
TGCGGCAGAAGAATCGCTTTAACCCAGGAGGTGGAGGCTGCAGTGAGCCGAGATCATACCATTGCACTCCAACCTGGGTGACAGAGCGAGACTGTGTCTC
AAAAAAGAAAAAAAAAAAAGAAGAAGAAGAAAATTAAAATAAGCTGATCATACGCTCCAAGGTCTTTTCAAGGAAGGTGATTCCACATTGGCTCTTATGG
TCTCAGGTTTACGTTCCACGCTAGCTAAGTTCCTTTAGTCCTATGCTACGTGGCTGACAAGTTTAAAGGAAAGACAAGAAAAAAAAAAAAAAGCACACTT
GACTGGATTATTCTGTGAGGCTGGGACACACTCTAAGAGTCGAAAGGAACACAATAATGAAGATGCACTGTTGAGCATCAAGGGAGCTGTCCAAGGTGAA
GCCCGTGCACCTCCCGATGAAATGACGCCAATGAAATCATTTCAATAATTAGTCTGTAATGACAAGGTGCAGGGCTGGCACAATAAGTGAATTCCAATAT
GTGATTTCCTGCTCATTTGATCTCTGAGTGTGACTCCTGGGTCAGGCCATTAGGAACCCTCCTTTGTCTTTTCATTTTTGTATTTATCAGAATCAATATA
TTTCAAACAGAACTTGATTTGTGAGAACCATTTTTCTGGCTCTCCTCTCCTCTCTTCCTCTRTCTTCCTTTTATTTTTTTTCCAAGTGATTATCCCAAAT
GGCATCTATGTTAACATGCTTGGAAATGCGAAGCGACCCTGAGTATGGAAATTAATAGAGTTGGTATGCAAAGTAGACCTATAAATGTGATTGCTTCTGT
AATCTTCACGATAGCAAACAGTTTTTAATTCGCTGCTGAGAAGCTGGAAACAATCATACTTTGGGGGGATCTTTTTAATTTAAAGTAAGCCATACTGTAC
ATTGCAGTATCACAGTTGTGTGTGTGTGTGTGGGGGGGGGGGCGGCGGTGTGCGTGTGTGCTTTAATCCCCTAAGTAATTAAGTGGGTTATGGTTGTTGC
TTCTGGGTAAGCTAGTAAATGCTAAATGGGACTAGGTTCATTATCAATGATAACACATTCAGAAAAAGTCAGTGATATGAGAATTGAGGACACTTAAATT
TTTATGCTTGTATATGAGTTGTTGGGTCAGCAAAATTTGATTAGCCCCTCTTGGTGAAACCGTATGTCCATGTATATTACTAAGGTAAAAAAAAAAAATC
CAAAGCAGATCTGGTTAGGTACTTTCAAGTTCATCTCAAAGCAATGAACATATTATGAGTATAGAGCCTGCAGATAAGGTTAATGGTGCCTAAATGAGGA
AGAAAATTGTCATAGACTTGAGAATGCCTATTGAAAATAGTTTAGGAAACTCTGGATTTCTAGAAGTAGTAGCAGTGCTTTGCTTTATTCCACTTGCAAG
TAGCGGTTCAATTGAATAAACTTTTATACCTAACCAACCAATATTTTAAGCCAGTYTCACTCTCCCCTCTCTCTCATTCTCAGTTTATTTTGCGTATTTC
TTATAATGCAAAACAAAAACCTTCTGTCTCTGAAAAACGTGATTAATCAAGAAACCAATGAGTGAAGTGTGCTATCAAATTGAAGACTCTACTGGCACAA
GGCTAAATCTGAATGAAAAACGAAAAGAACCAAACAGAACCAGAAAATGTTAAATGCATAGATTCCATTTCCTGAATCATTGTATACCAAAGATCCAGGA
AATGGTTAGGGATGTTTTAGTCTCATATAAATATAGGTCAGTGTTGTACACAGTRAGAAAACTAGATTAGTAGCATCATCTTGTGCCCTACTCATGACAT
TTGCACTTCATATTTTTCCTTTATCTTTRCAATATTTAAGAGCTTTGGTTACCAATCATTGTGAACTTTTGTGTTGCAGGGGGTGTAAACACAGCATAAT
CAATCAATTGATGTCTACRCTCTTCACTTTTCTTTAAAGTTGTCTGAAAGTGCTGTCTCTTTGCCTGACAGACATAGTATATCTACCCCTACCCTAGACT
TGTGTTCATCCAATTGKGTGTTCAGCTTTTAGCAGGTTATGGGGAATGTTTATTCTGTGGATGGCTTCCTGCTATCTTTGTTCAGACAGTAATATTTCCT
TTTATCCTTTTTCATCTTCCTCCTCAATTTTCAATGACTTATCTTTTTCTACTTTAACTGTTACTAATGGTCACCTCCACTCCTTTTATTTCCCTAATAT
TTTATTCACTGTTATCTCTGATACATCTTTCTCTCAGTTGTTCTGAAGCCTTTTATTTSCTTCACATCTGAATCACTCTTTATTCTACTCTCCTTTCCAC
TAACTGGACTTGCTTTTGTCTTAAAAAYGCCATTTTTCAACAATATGCTGGGACCAAAACATAGCATTCAGCTATTTCTTCTAACGTAACCAGTGGGCTC
TTCACTGCATCTTTCAGAGAGTGATGCAAAGCTCCCAACTCAGGGAAACTTGGGTAAAACTTCCTTGGCTTCATCTCAGTCTTGAAAGTTTATCTGGGAA
AATGTGATTCTTCCCATTTGTCAATGAAAAATACAAGAAGAAAGGAGAAGTCAGCTTAGAAGGCAACCACTCAGAAAGGAGGCATCCATTTAAGGTCTTT
GAATTCTGAAARGAATCTGTGAAAAGTTTGTGGGAGGTGTTTTCTGGAGGCCTGGCACCCATATCTCCCTCAAATTGCCCAGCATGGTAGATCTTGCTTT
TCCCCAAACACGACAATTGTGTGATCTGGGAGCTGACATCTTAGTACCACCAGAATTGGACAGCAACCCTGGTTACATCATGACACCCAGAACAGAAGAT
CCCCAGTCTTAGAAGAATAGCTGTCTTGGGCAACTGACCAGCCACCCAGCTGGGATGGGAAGATCCCAAGTGATAAAATCTGACTATCCTATGTTCTGCA
AAATTATAAAACAGGATAGTCTGCTTTGATACCATCAGCTCAGACAGATTTTTTCCAGCAAATGGAAAAATGTGTGGTCATTGAGCTCATTAGGAGAAAC
CATACCCTTGACCTCCAGCCTCTRTTAGCAGGGGATGAGTGCAGTCTTTGGTGTCCAGAAAGAAGATCCTCATTGGCCACATAGCCACCATTAGAACTGT
ACTTTTTTTTTCTTACCCTTGTTCATTCTTTATGRGTCATTCCTCTTAGGCCACCCACATGCAAACATAGACACATAGGTAGAGACAGAAATCACAGCAT
CTGAATTTACCTACAATACAACTTGCATCACATGTTTAGGAAAGAACCTGCATTAACAAGAGCAGGCTAGGCTAGGCCATGGTGTCAAACAACTCTAGTG
ACTTAACACAGTGAAAGTTTATTTCTCACTCAGATCRTGCAGATGCAGTCGGGCTGCTCTCCTGGGTAACTCTCCTCCCAGTGGTTGCCCTCCATGCAAG
AACCTGATGGCCGAGGCTACTTCCAACTTGGTCCTACCATCTTGTAGCTTCCAGCTTTTATCACTGAGCTGGCAGACAGGGGAATAAGAAAGACTATGAG
GAGGTCACTGCAGGTGCTTAAATACCTCAGCCCCAAAGTGGCATGTATCATTTCTGCTCATATTCTAAGATCTAATCATGTTGCCAACCTAACTGCAAAG
GAGTCTGGCAAACGTAGAAGAACACATGGGTATCGATGCAGGATCACAGTCTCTACAAAGATCCTAACAAAATGATGTCGCCTATATCAGAAAGAGACAT
AAATAGAGACAGAAATGGACCACAAAGGAGCCAGCTGTCTTGGAGTAACCAAGGCCTACATAGGATGAAGTTAGTCAGTTTAAGCAGGAGAGCAAGGTCG
TGCACCTGCGACTATGTCCTGCTTTCCTTAGTAGAGAAATATTCCCACTGAACAGAATTAGCTTCTTAGAAACACTATAAGCTCCTCTCCCTGTGCCATC
TTAGAAACACTAGGGGAGGGACAGCACCTACTCATGGACTCCAGTTGCTTCCTCCAATTGGTTACAATACTGTGGTTAAGATCACACAGTTTTAAACTCA
TATCGACTAGAATTCAAATGTGCACACAGTCATCTATTAGCTCTGTGGCCATGAGTGAGTTATTCACATCCTCCAAGTTTGAATTATCTCATCTCCAAAA
GAAGATTAATGGTAGTCCCTGCTTCTAGAGCTAATGCCTCAACTGATGGGAAACATGCTTAGAACATAGTCACAAATAAATGGAAGCTGCTATTATTATT
ATTATTGTCYTTATAATTTCTGCTGTTACTATTATTATCATTACTTTCATTCATAGACCTCAGCTAGATCCACTTTTCTTATAATGGCCATCTGAAATTG
GCTTTAAGAAGAAAAATCATGTTGGCCATTAAAAATACAAACAGGTGAAGAAGCGACTAAAGCAGTGATTGTAGGGCATTTGAACTTCATGGACCAGTAA
TTTTTTTAAATCCTAGATTGATGAGAGTGTATTTTAAAAAATTTGSTAAGACTTGGTATGAATTTTTTAAAAGTAAGTAAATGAAGGGAGGGGAAAACAC
TACCGCCATTTACTTTTGCCAGGCTTTCCTTTTAAAAGGTCACTTGGCATCAAAAATAAACATAAAAGAAGTAAAGACTAGTTACAGAAGAAAAGTCAGT
TCTTTGAGTAAATTTTGCTTTGTGAAAAATGCACCAAATATTCTTATTTACTTCGCTTTTGTGGAAACCATTGATCTAAGGGATTAGGTTGATGTCACCC
TTTTTGCTCTTCACTTTTCTGATACTTTTCTGAAGTTTTAATATGTCGTTGTTTCTGAAGAGGCAGGGGTATTTCTTAGGAGACATTTTCATGAAGGGAC
TCCTGTCCATGYTGACAAAAGAGAGTGAGTGTTTCTAGATAATGTGACAATCATATGCATGTTAGGAGGTGTATTAGCCTATTTTCATACTTCTATAAAG
AACTACCTGAGATGGGGTAATTTATACAGAAAAGAGGTTTAATTGACTCACAATTCAGCATGGCTGAGGGGTGGCCTCGGGAAGCTTACAATCATGGCAG
AAGGTGAAGAGGAAGCAAGGCACCTTCTTCAGAAGGTGGCAGGAAGGAGAAGTGCTGAGATAAGGGGAGGAGCCCCTTATAAAACCATCATTTCTCACGA
GAACTCACTCACTATAATGAGAACAGCATAGAGAAAACTGCCCCCGTAATTCAGTTACCTCCAGCTGGTCACCCCCTTGAAACGTGAGGATTATGGGAAT
CATGGGGATTACAATTCAAGATGAGATCTGAGTTGTGACACAGAGCCAGACCATGTTATTCCGCCCCTGGTTMCTCCCAAATCTCATGTCCCTTTCACAT
TTGAAAACTAATCACACATTCTCAACAGTTCCCGAAAGTCTTAATTCATTCTGGCATTAACCCAAAGGTCCAAGTCCAAAGTCTCAACTGAGACAAGGCA
AGTCCCTTCCACCTAGAGGCCTGTAAAATCAAGTTAGCTGCTTCCTGGATACAATGGAGGTACGGGCATTGGGTAAATACACTCACTCCAAATGGGAAAA
ATTGGCCAAAACGAAGGGTCTACAGGCCCCACGCAAGTCCAAAATCCAGCAGGGCAGATAAATCTTAAAGCTCTGAAATGATCTTCTTTGACTCTGTGTC
TCACATMCAGGTCACCCTGATGCAAGAGGTGGGTTCTCACAGTCTTGGGCAGTTCCACCCCCATGGCTTTGTGGGGTACAGCCCCACTCCCAGCTGCTTT
CACAGGCTGGCGTTGAGTGTCTGTAGCTTTTCCGGGAGRACAGTGCAAGCTGTCAATGGATCTACCATTCTGGGGTCTGGAGGGTGGTGGCTGTCTCTCA
CAGCTTCACTAGGCTGTGCCCCAGTGGGGACTCTGTGTGGGGATTTCAACCCCACATTTCCCTTCTGCACTGCCTTAGCAGAAATTCTCCATGAGGGCTC
TGCCTCTGCAACAAACTTTTGCGTGGACATCCAGGTGTTTCCATTAAGCCTCTGAAATCTAGGCAGAAGTTCCCACACCTCAATTCTTGACTTCCGTGCA
CCTGCAGGCCCAACACCACGTGTAATATGCCTAGGCTTGGGGCTTGCACCCTCTGAAACAATAGCCTGAACTGTATTTTGGCCCCTTTTAGCCATGGCCA
AAATGCAGGGCTCCAAGTCCTGAGACGGCACAAAGCAGCAAGGCCCTGGGTCTGGCCCATGAGACCATTTTTTCCTCCTAGGCCTCAGGGCCTGTGATGG
GAAGGGCTGCCTTGAAGACCTCTGAGATGCCCTGGAGACATCTCCCTCTTACCCACCAGCCCTGTTACACCATTGACTTGGCGATTAACATTTGGCTCCT
TTTTATTTCTGCAAATTTCTGTAGCTGGCTTGAATTTCTCCCCAGAAAATGTTTTTTTCTTTTCTATTTCATCTTCAGGCTGCAAATTTTCCAAACTTTT
ATGCTGTGCTTCCCTTTTAAATAAAAATTCCAGTTTCAAATCTTCTCTTTGTGAATACGTAAAGCTGAATGCTTTTAAGAGCACCCATGTCATGCTTGAA
CACTTTGCTGCTTAGAAATTTCTTCTGCCAGATACCCTAAATCACCTCTCTCAAGTTCAAAATTCTGCAGATCACTAGGGCAGGGGCAAAATGCCGCCAG
TCTCTTTGCTAAAGTACAGCAGGAATTACCTTTATTCCAGTTCCCAGCAAGTTCCTCATCACCCTCTGAGACCACATCAGCCTGGACTTCATCGTACATA
TTACTATCAGCATTTTGGTCAAAGCCATTTTACAAGTCTCTGGGAAGTTCCAAACTTTCCCACATCTTCCTGTCTTCCTCTGAGCCCTCTAAACTGTTCC
AGCCCCTGCCTGTTACACATTTCCAAATTTGCTTCCTCATTTTTGGGTATCCTTATAGCAGCACCCCACTCTACTGGTACCAATTTACTGTATTAGTCTG
TTTTCTTTTCTTTTTCTTCTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTTTGTCGCCCAGGCTGGAGTGCAGTGGCACGATC
TCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGACTACAGGCATGAGCCACCATGCCTGGCTAA
TTTTTTGTAGTTTTAGTACAAAGAGGGTTTAACCATGCTGGCCAGACTGGTCTCGTATTAGTCTGTTTTCATACTGCTGTAAAGAACTGCCTGAGACTGG
GTAGTTTATAAAGATAAGAGGTTCAATTGACTCACAGTTCAGCATGCCTGGGGAGGCCTTAGAAAACTTACAATCATGGTGGAAGGCAGAGAGAAAGCAA
GGCACCTTCTTCACAAGGAGGCAGGAAGGAGAAGTGCCGAGATAAGGGGGAAGAGCCCTTTATAAAACCATCAGTTCTCGTGAGAACTCACTATCACGAG
AGCAGCATAGAGGAAACCACCTCCATGATTCAATGACCTCCCCCGATCTCTCCCTTGACATGTGGGGATTATGGGTATGACAGTTCAAGATGAGATTTGG
GTGGGGCCACAAAGCCTAACCATATTAGGAACATATGTTGGCATGCAAGCTTCTGTGAGTGTGGACAAGTATGGCCTCCCTGGCCTTGATAACTGACAGT
TACTGTGTGCTCYCTAGTGTGTTGAGGGCCACCTCGAACCTCACAACAGCTCTTAGGGGAAAGGTACTCTCATCTKCCCATTTTACAGGTGAGGACATTT
AAGGCTGAGCTAGGTGAAACAATGAACCTGAGATCATACTGCTTATAATTGGTGGTGTCAAAATTTGAACCCAGGATTTTAGGGCCCTGGTTTTCATCCA
TAGTTCTGTGGCCTASTGTCTCTTAGTTTTTTTGATGTTGGTGGTGATACATCAAGGAAATTTGCCGGTGTGTTTTCCCATCACTTTTATCAACCAGGGT
GAGATAGAGAGAACTGCTGCTGCTGYGTATTTGTTGCTTTTCATAGCCAAGCTCATCCTGTCTCTGTATTATAGAAGAATTAGCTTTTTCTATTCTGGAT
GGACCCAGGGCCAGATTGTCCATGACCCTTAACTCTCAGCTTTCCACCCTCTCTGTTAGTTTCTTTCACCAAGACGTTACTTGGTCATGCCACCATGACA
CTGACCTTGGTTAGCAGCCAGGTCCTCCATGGAGTGTGTGGAATCACATTAATCATATTTGTACTTAACATACATGAGTCATGGCTTTTGAGGGTGCTTT
TAATTGACTATAAATCAAGCAAGGAACTTGAAAAATGAAGGCAATTAATGAAAAAGCATGTGAGAGGTGTTTTGCATCCTAAGGGAGGAAATACACTGTC
AGTGAATTWAATGTCACAACAAAGGCTCTTTTGACCCTGCTGAAAAGATTTCATGTGGATAGTAATAAATGGATGAACTTTGCAGCCTCACAGGTGGAGA
AWTGCCTGTTTCCTGAGTTCAAGCTGACTTAGGCTTTTATCTGTCTACATTCTCTATCTTGAGAACTTCCTAGATTCTTTTACKTTTGCTTTCATTTCTT
GTGATTTTTAAAAATAACAATGATAATTCTTTTCCCATTTTCTGGTCATTCTTCACACATCCTTTACATATTTTATACAAGCTTGTATTTACTTTCAGGT
TGGGAGACTGATTAATTGATTAGTGAGGTTATGTAACGTCMCCTGAACTGCAGTCTGGACAGAGCTGGACAAGGTTGGGGTTTCAAGTAGTATATTTGTT
TTAATCTGTTGCGATGTGCCAAGGAAAATTATTCTGGTATTGCCTAATTCACTCTATCATTATGAAGTTGACGATACATCGGGTCAGAATGTGGACTCCT
ATTTACATTAATAAGAGTTTTTCCTATATTTAAACAGAGCTCAGTAGAAATGTTATGCTTTCACAGGTTTTCCCTTCCCTCCTACCAATCCWTTTGTAAC
AATCTAGTAGTAAGTCAATTAATAATGATTAGAAACCTCATAAATGCATTATCCTACCTAACAAATGTGAAATACTATAATAAAATGACGTAAGATAAGA
AATGAACATATGTACACATCAAAGACAGATGTAACAAAATGTTTAGAGATCCTTCCATTGGACTTGGGTCCTAACTTGTTCTTTAAAGAATGGGAAACAC
AAGAAGTAACAGAGTKAGAAGGACTTCTCAGACGAGGAACATGAACACAGGTGGAGTTCCCTTGGCCTAAGTTTTCTTATCAGTAGAATGGAAGAGATAA
ATAGACCAGAGGTATCACACTGTCAGCCTTTGGGCTAAATTTGCCTCACAGATACGTCCTGTTTGGCTGCTTAGTGTGAGAATTTGAGGTGTTTGATAAA
AGGAATTTGTCATTAACATTTAGAATTTCACCTTTAGAAATTCCCAATTTCTGGGTAGTGTTGCGTCTTCAGAGCAGACAGAGATGCCACMGTTCAGCTG
CCTGGGTTCAAATCTAAGGCCGATCCTTTACCAACTAAGTAACTTTGGCAAGTTGGGAAAAACAAAACAAAAAAACTCACTGTGGTTTTATTTTCTCATC
TGGAAAATTAATATTATAATGGCAGCAATCTCAACAGTCTGTTTTGAGGGCTAAATATTAATCTATGTGTGATAACTGCTACATTGTGTAATTATTATCA
TTATTATTTGAGATGGAGTCTCTCCCTGTTACCCAGGCTGGAGTGCAGTGGCGCAATCTCAACTCAMTGYAACCTCTGCCTCCTGGGTTCAAGCTATTCT
CATGCCTCAGCCTTCCGAGTAGCTGGGACTACAGAAGTGCACCACCACGCCTGGCTAATTTTTGTAATTTTAATAGAGCAAAGTTTTGCCATGTTGGCCA
GGCTGGTCTTGAACTCCTGGCCTCAAACGATCGTCCTGATTCGACCTCCCAAAGGACTGGGTTAGGTGTGAACCACTGCGCTCAGCGGGAATTTTTTTTT
TTTTTCTTTTTAAACACAAGTCAAGTGTAGTAGTGAGAAGTGCGGAAGGGGTAGAACAAGGAGTTTGATMTGTAACTTTATCCTTATTAAAATACCAATG
AAATTATTTACAGAAAAAGAAAAAAAATTCTAAAATTTATACAGAACCCCAAAAGACCCAGAACAGCAGAAGCCATCTTGAGCAAAAAGAACAAAATTAG
AGTTATCACGTTATCTGACTTACAGTTGTACTACAAAGCTATAGTAACTAAAACAGTGTGATACTGGCATAAAAACAGATGCATAGACCAATGGGACAGA
ATAGCTAACCCAGAAATCTATGCATTTACAGTGAACTCATTTTTGACAAAGGTGCCAAGAACATACCTTGGGGAAAGGACAGTCTTTTSAATAAATGCTG
CTGGGAAAACTGGATATCCATATGCAGAAGAATGATAATAGAGCCCTATCTCTTGCCATATACAAAAAGCAAATCAAAATGAATTAAAGACTTAAATCTA
AGAACTGAAACTCTGAAACGACTACATGAAAACATTGGGGGAAATACTCCAGGACATTGGTCTTGGCAAAGATTTCTTAAGACCTGAGAAGCATGGGAAA
CTGAAACAAAAATGGACAAATGGGATCGTACCAAGTTAAAAACTTCCTGCATAGCAAAGGAAACAATCAAAATCAAGAGACAACCCACAGAATGGGAGAA
AATATTTGAGAACCACCCGTTTAATGAGGGATTAATAGCCAGAATATATAAGGAAGTCAAACAACTCAATAGAAAAAAAAATCTCATTAAAAATGGGCGA
AAGATATGAATTGACGTTTCTCAAAGGAAGACAAATGGGTAACAGGTATATGAAAAAATGTCCAACCTCACTAATCATCAGAGAAATGCAAAAAAATGTA
TATATAAACATATTCTCTCCCTGCAGTTAAAATGGCTTTTATCCAAAAGACGGGCAATCATGAGTGCTGGTGAGGGGGTGGAGAAAAGGAAACCCTCATA
CACTGTTGGTGGGAATGTAAATTATTACAGCCACTATGCAGAACACTATGGATGGTCCCCAAAAAACTAAAAATAGAACTACTATATGGCCCAACAGTCC
CACTGCTGGATATATATCTAAAAGAAAGGGCTGGAAGGGTCCTGGGGAGGGAGAATAAAGTGGGGTTGGTTAATGGGTACACAAATACAGCTAGAATGAA
TAAAATCTAGTATTTTGTAGCRTAATAGGGTAACAAAAATTAATAATTTATTATATATTTTACATACCCAATAAGATGAAATTGGAATGTCCCTAACACA
AAGAAATGATAAAGGTCTGAAGTGATGAATACTCAATTACTCTGATTTGATTATTACACATAGTATATCTGTATCAAAACATCATAGGTCCCCTCTAAAA
ATATACAACTATTATGTAYCCATAAAAATTTAAATTACTTTTTAAAATATTAATCTATGTAAAGGGTTTTGAATAGTAGCTGACCTATAATGGTCCCTGA
AATATTAGCTGTCAGAAACAGCATAGGGATGATTGTAGCTGAAAGCTTGCTATGGCCCTCCAATATTTATCTTTCTSATATCCAGTAGGCTTCCTAGTTA
ACTCTGCCTGTCCCACATGGGCATCTAAATTCACCTTCAGGAAGTCACTATTACTCCTAAGACTGTTCATGGAGTCAAATGATGTTCCATAGAAGACAAA
ACCATCTTGAAGTTTTTGATGCTGTCTTGTTTCTGTCATATCAGTAACACTATTGACAATACCTGCTATTCACTATCAAGGAAGCAGAATACAGTGCTAA
GGGGTGAGAGGACATGGGCTGGCTGGTGTTGATCAAAGACTTTGAAATCTGTTTTCAGTGTTTTGAATTGTTGATACAGGTAATGTATGAAAAGGGAACC
ATGTGGTCAGACAGGGTGGCTGGCTTTCTGGAAGTTCAGAATAGGAGGAAGGTGAAAAGGATGAGTGGGCATGGCTCAGGCTGCCATGGAGCCATTTCAG
AAGTCCTGAGATGGGGACAGTTTGTATGTATRTCAGAGGAGAGATCAACAAGGGAGATAGGAGTGTTATTGGGGAGCACTTGAACATGAAATAAGTGAAA
GGAGAGCCCCAGGGAGATCCAAGGGTTGACACTAACAGGCATCTAAAAGAGGTTTTCCGAAAGAGAAGCAGAATCACTGGAGTCTAATCCCAGCTCTAAC
TTTGACTTGCATGACAGTTTTCCTCCCTGGACCTTTGTTTTTCTCATTTGTATAATGAGAGCTTGTGAGTTGGGCTGTTTTGACTGTAATCAACAGTAAC
ACAACTCCAACTAGCCTCAGCAAAAACATATAAAATTATCAGCTCACATGATTGAAAATTTCACAGTGTGAGTTGGCTTTGGAAACACTTGGATCTAGAT
GCATTAATGATATCCTCAATATCACCCTTCATCCCCCAGCTTTGCTTTCTATAATATTGATCTCAATCTTCACTCTCAGAGGGTTTCCCTCCAAGATGGC
CACCAGCAATTCCAGTCTTTTATTCTTCTAGCTAAAAGAGCCAGAGCATCTGTTTTCCCAGTGTTCCAGCAAATATCTCAAGGCTRACCGTCCTTGGACC
AACTTGGTTTACGTGCTTATCCCTAAGCCAGTTATTATATCCAAGAAAATTCTGTACTTCTCTTAGCCAGGCCTGGGGAAATGGAGATGAAATTCCCTCA
AGGAAGGAAATGATGCTGGGCTGGCAAAAGTCAGACAGTCCGTTCTAAGGGTATTGTGCTCTGTTGCTAAGGTCCCATTAAGTACTAACGTCTTATGACC
GCAGACTGTGCCCCAAGCCTGAGAATTTTTAGAACCCAGCATACACACAAATGGAAATGTTTTTTAGGTGGCAGGGGATAAGGACAGCCATCACACCAGG
TTTCTTGCTGGTGATGCTGGTGAGCAGATTGCTTAATTAAGACTATCAAATTCTAAGTGCTGCCATATGGCCTCACTCTTCAACCTGTTGAGTGTCTTCA
CTCACTTGGTTCTGGAGCTGGTATAAATCTGTTTCATTTCTGTTTTTCTTTAAGGAATTAAGAATACAGGAACATACGGATGTTACAGGAGCATCTCCTA
ATTTAAGGTATTAGAACTACATAAACTGGGCTGCTTTAATAAGTAAGGCATCAAAATATAAATTGGGAAAGATTAAGCATAGCTTTAAATAGGCTGAGAA
AGCAGAAGTTCTTATTATTCTGTTACAGATCAAATCTACACACATTCTAGTAATAGAGGTGCCCTCTATTTGTTCTTTTCACCTTAATGTTGATGGAAAT
TTTTTTGGCTTGAGAGCAAAAGGGCAAGAGGTACAAATGCTTGCCAGTCAAAATATCCCCAAGGACTTCTGCATTTGACAAAATTCATTCTCCTTCTGGA
GATAGAAATAGGGAATGGAAAAGGAAAAGATGTATATTGAGTCCCTACCACTCATTTAGCCAACTATAGAAGAAACACTGAATGATCACCTAGTTTTTGC
CAGACCCTGTGCTAAGTATAAGGGATAAAGCTTTGAATCAGATAAAAAATGTGCCTCCTGCTGTGGAGCTTTGATGATATCRGAGAGAGAAAAAGGCAAA
CATGATATAATAAACCCTTGAGAACACAGGAAAACGGCACATGACAAGACGATGGTTAAGTATCATGAAGGAAATAASGCAAGGTCATATGATAGAGATT
TCTGCATGGCTGCTGAAGAATGGGTGGTCAAAGAAGATTTTTCTAAGAAGCCAAGTCCTAAACTATGAGAAGAATCCAGTGAGGTAAAAATCAATGGTAT
AAACACTTAGGCTGAGGGAGTAACTCATGTCAAAGCCCTAAAATGAGAGTGGGTTCTTCAGTTTGAGATACTGTGATCCAGGAGGAGGGCTGTCATTTGA
TACATTTAATCATCTCAAATGTCTTGCAAATAGGATTATAAACTCTATGTTATAGATAGGGGTATAAAGATTGACTAAAGAGCCCAAGATCTCACTAAAA
AGTGTCAGTGGTGTTACAATCCTCTGACTCCAAACCCCATTATCTTTCCATATGGAATGSTGTAGCTGGTGTTGGAGTCTTCTTTCACAGTAAAGTGCTC
CTGTCATTGCCTCTGAGAACAGACTGGGGTGTCCTKGATAGTTTCACAGGACAGTGGTGTGGGCTCCTAGGTTATATTGCCTGTCTCTGTCACTCACAAT
GGGTGGTGTTTTTAAGCTACCCAAACTTCCAGCTCCTAATTTTTCTCATCTGTGAAATGGAGATAGTATTTCAAGGATTAAACAAGATAGCACATACAAA
GGAGTGACAGCAGTGCCTGCTACATGCAATATTTTTATTTTAAAAAGTTGGTTGGTTTTATCCTTTAAAAGAATAAGGCTGGGGTGGGAAATCTCTGTGG
GATGATGCTGTTTGAATGGGTAGTGCTGGATGCCCACCAAAGATGACCCACGAAATTTTCAATATAGCTTGGCTCCTCTGAAAGAGAGCATATTTTCTTC
CTACTTCTTCTGAGACTCTCTTTTAAGTATTTTCATGTTCTAGGGATACTTGTTCTCCCCCACCCCTGACCACTTCTCACTCATGCTTGGTCTCTTTGAG
CTAAATGTTAAAAACATACTCTATGAAAAATATTTGAGAAATTAGTACTCCCAATTTTAGGTCCAGATGTGTTCTGGAATTTAGAAAGATAATAAGATGC
ACACATTGTWTTACACGATTCTACGAGCGGGGTCTCGGGCAGCTCCCTGTATTAAAACAGGTTGGCATTTCAATAGTAAAACATATGAATGTTTACCCTC
AGTAGGATAAATAAGGACCACAAATAACATCATGTCAGTTCAGGTTGGGTTTTGCTGCCAAATGAGTTATAAAAACATGTTTGGTATGCTGAGTCTCTTG
RATTTCAGAATTGCAGATTGCAGTCCTTAGAACATTCCCGTGAAAAGTTGCAAACCTTAGTCGTGCTAAGATGTTGAGTTGGCSTCTTCACATCCCGGCC
ACTTCTGGGAGCAGCAGAGTGTGGTGGCTCAGCCCACCCCTCAACCCCTCTACTACTTGTGAACACCTTGGTAAATGATGTCTTGGCAGGCCACCCCCGA
GAAGTGGCCAAGTGCTGCACCAGCTTTTTTCTTTTCCATTTGAAGCCAAAACGATTGTCAGCGATCCAGGCTTCTCTTAACTGTGCCTGTCAGCTGATTC
TGAAGACCTCCCAGAGGATCTATTTTTAGCTAAAACTGGTTTTAAATTTTCATATGTATACATTAAATTCCATAGAGGAAGGGGGGATTCCAAATGAGGA
AACATTGATTCTGAATAACATAAAAGAAATAAGCAGTGCTTGAAAAACAGTTCAAAATATGAGTCAAAACCTCCCAGGAATATGGTTAGCACTGCATTTT
TCCATGGAAGGAAGTCTGTTGAATTGAAAACAGAATGAGAGTAAGTGGGGATAAATTATACTAAGAAAGAGACTCAGCATGAAATTCTAGGTACTGAAGA
GGGGAAGGAGAATAAGAATAGGGAGGACTGAACTTAGAGGGCAGTTGGGATTGCCAGATGGATACTCATGGGGATGTGTGGCCAGGTAATCAAATCGCAT
TGTCCAAAAGGGACATGGAGGCCATGGGCTAGGACCAGGCTTTTGGCCATACTCAAGAGGGAGAGAGAAGATACACCTCCCAAATAAAGGCCTGGAGTCT
GCACATGACAGCTTTGATTATGCTTCCAAGGTTTTGTTCATTTTTGGGGCATGACCAAGGTAGTTCTAGAATGAGTGAGGCCAAAGCTGAAAGTGTCACA
AAGTTTTTGCRTATGACAAAAGTTGCCTGCTTTGCTTTTGGATGCTCAACTCAGACTTCTTGTTTTCATGATGTGCAGTTTTGATCAGGACATTTTAGTG
ATAGGTATAGCCTACTTCTGTACCAAAGGAGAGGTTGGATTATCTGTTGAAAAGCGTTTTGTTGGCTATAATTACAATATGATGACTTAGTTAGGATTCT
GATAAATCCTGACTAACTCAAGACTTTAAAGAAAGATACTTAATTAAAATAGAAGGAAGTTGCATAGTCACAGGTTCATCCAAAGACCTGAATGACAAGG
TCTCAGAAAGGACAGAAACTAGAGAAGTTCCATGGGCTTAAGCAATGGGAACTCATAGAATTAGGACAGTGCTTTTCAAACTTTTACAGTGAATGACGAT
ATTTGTTTCATTTTGTTTTGTTTTAATGTGTCACAGTAACATACTTTTGTTAAAGAAAAATGTCAAATATAGTTTTCAAAAAGTTTAAAACATGACTCAC
ATTCATATCTAAAGTGAACACATCAAAGATTTTATCTATCTCAACAATGCAAAAGGGGACCAATAAAATGATAAGTATGATTCAAAGAGCATTCGAGAAA
CTAGCTATTTGCATGCAATTTAATAGTAAAGGAGTGTTAGAATAAGTTTGCTAGGTTACATACGAAGCTGGTTAATGTCCTGTATTAGTCTGTTTTCACA
CTGCTGATACAGACATACCCGAGACTGGGCAATTTACAAAAGAAAGGTTTATTGGACTTACAGTTCCACATGAGTGGGGAGGCCTCACAATCATGGTGGA
AGGTAAAAAGCATGGAGGAGCAAGTTACGTCTTACATGGATGGTGGCAAAAAGAGAATTTGTGCAGGGGAACTCCTCTTTTTAAAATCATCAGCTCTCAT
GAGACTCATTCACTATCACGAGAACAGTACAGGAAAGACCCATCTCCATAATTCAGTCACTTCCTACCGGTCCCTCCCATGACATGTAAATAGTGGGAGT
TACAATTCAAGATGAGATTTGGGTGGGGAGACAGCTAAACCATATCATGTCCTACAGGACAAAAAACTGTAACCTCTGTGGTTATCTTTTCTACCCATCA
TTACTTGTATCTCTGCCAGACAGAAATCTGTGAATTAACATGTAATGTTGTTAAGCCTGAAACCATCATTGAGTAGTGAAYAGTACATTTTCCTAGATAA
TTAAATAATCTTTGAATTGACAAGTTAATGCCTGTATAYGACATTGAAAGAACATGCAACCCACATTTTTGTCTTATTTTCAAGTTTTGAACCTTTTTTC
TTAGTAATATAATGAAAATCAAGTTTTGTAAAATTAAATAAATCCAAAGACATAAAAGGTAAGCTTTTAAAAAAATAGATGGAACAGGTATAACATTACT
ATGTCACATTGCTTTCAACTTCTGTACTCGTCATGGGCCCCTAACAAGAGGTTGGGCATTGGTCTGTGGACCACACATTTAGTGTTAAGATAGGAATAAC
TTAACTCCAAATACCTTCCAGTTTGGGATGTCTTTATTCAAATTCCTGGTAGAGAAGCTGATTGGCCTGGCATTGGGTCAAGAGCCCACTTTGTGGTCTA
GCAGACAGGTATCATGTTTGGAAGCCCATTCCCTAAACTAGGGACTGTAAACAAACAAAAATCAGAAGCATCCATACAGTTACTGAGTTTGGAGAGGTAG
CCCAAACAAGGGGAGGACTTGGGCAGTGCTGAGCTCTGACCATAGAAAAAAAGTATCTGGGAACTATCTCAAGCGTCATTTAGGCTCCCYCATTTCAAGC
ATGCACCCAAACAGCTCATATACTATACAGTAAATACAACTTCTCAAAGTAGAAGATAACTGGTGTTAAAACAAGACTACATTTATGAGAACTCACTTCC
ATAAGGGCAAATACTACCTTAACAGAATMTCAGCAACATTCCAGAAGATGGAAGTCAGAATAGATATTTATAGGGCTTGTAGGGAGGGTATAGCCTCAAG
CAATTTAAGATAGGAAGATGATTGGTATTGGGTAAATTCATGACATCTTGATTTAAGATTGTTAGACATAGCAAGATGAGTTTACTGAAATAAGTCTGAC
AAGTAGGTTATTGTTTGATAGATGAGCTATTTATCTAGCTAAGGAGACTGTTGTCCCAGATAAATTGATATGCATGGATTGTCCAAATGAAGCAGTGAAA
TTGTTCCTGGTTTAGAGCCTTATGTTTCGTGGACAAAGGTTTCTGTGAACAATTAAGTCAGGTTGACGAAGGTGATCTCAGTTGTTGGTCTTAAGCACTA
CGCCATGTTGATTTAGGTGGTCTGAATTCTCAGGACATGGTAGTTCACATTTGTTCCATGTTAGCATTTCCCAAACTTCTGTCTGTGGAACACTATTCTG
CAGAGTGGTAACAGCAATGCAATGGGGGGAAACATATTTTGAAGTTAAGTAAGTTTGGGAAATTCTGTTTTGTTTTTTAATTTAAACTGTAGGCCCTCTC
AAGTCTTTATGATGTGAAAATGCACAGTAAATATTCCAGAAAGCATGCAAAAATACCCCAGAATCTAACTCCTTTCCAGTCTGAAGAGCTCCTCAAATCT
CTCCTAAAGTTACTTGCTTTACRCACAGCCACCTCTATTCATTTTTTTTTTTTWAATTTCCAGTAGCCAGTGTAACCTGGGGGCCAGGGAAGACCTGAAC
CTCTAGGACTCAAACCCTGTCATGATTCTTGAGGAGAGAGGAAGGTGGAAATACATACATACACATAGACACACACACACACACACACACACACACACAC
ACACACACACTCTATATATGTATATATATTCTCATTCTGCTAAACTAATCGAAAGTAAGATATAGTAAAATGTTTGAAAATACATATGTGCAGCTTTGAA
ATGTCTTCCCATATCATAATGGCTGTGGAATCAGCCTCAGAAGCCAGATTGTCTGAGCCCCAAGGAAACGTCAAACCCCTCTCCCTCTCCAGTAGCATTC
CCCAGTCTGTGTCACCTAGACGAAAAGGATCTCAGGGTGGGTGGCAATGCTCCTTCACTGAAATCTGCMGTTATCTCTACCCAAGGCTTACAGTAAATTT
TTTGCAAATTAGAAAGCCCTTTGCTCTCTCAGTAAACCCTGGCTTTCAAGATTTTTGTTKTAGTAAAGTCTTTAGACTAAATGTTGAATCTTTCACTCTC
TTTGCTCCTAATCATCTCTAAGACAGCAAATGCCTCTAGCAAAAAAGAGGAGACGTCAACTGGGAAAATTTGAAGAGAAAGTCACACAGATACATTTCAG
TAAGGTTGTCTCTGTTACTTGAGGCTTACAAGAAGGAAAGAATTCCCTCTCTAAACACACTCTAAACACACAGGAGTTGAGAACGGGGAGATTTATTCCA
GAACCCCTYCTGTGCGTTGGGGCTTCTGGTAGCTTGCCTTTCTTGGTAACGATTTTCTCARAGACTGGGTAGATTCGAGTGGAGCCTGGGGCATGGTTGT
TGGTCCAATGGCGGGGGTTGGGGAGACACAAGCAGTTGGCAGGGAACTTACAAATCTCCAGGAGGTTATTGAGAATAAAAATTCAGATATTGCCATCTTT
TCCATTTCAAAGCACCAAGAGTCTGTCATCAGCAATTGTGCCTTTCTAGGTGTCACCTGAATATCTAACATTGAGGCATTGAAAGATAGATCAGGACTGA
TTTTACTGAGCATTTTCAAAGGCAGCAGGCAGGCTTTTCAATGCTGCATGAGATCCTCACCTTCTCTGAGGTGACAGGGGCTTCTGTTTTCTTGAGTTTC
CCTGTTTGCTGATGTCATCCCCTCCTACCCCATGACCATGACACCAACTACATCCATGATGTATATTTCCAATGTGTTTCAACTTATGGTCAGCTCCCAC
CAGCTCCATATTCTGGTGGGATAAGCAAGCCTTGCCTTGAGCTTTGCAGGCTGGGCCCATGGTTGTGGACATCACAGCTCTGGTCCTCATAGTATTGGTG
GCAGGCAGATGCCCAGCTCTGGCACCTGAATGCTTGGATTTGGATGCCAGCTCTAATACTTACTAGCTCTGTAACCTAGAAAAAGCTCCTTAGCTTCTCT
GCACTTTAGGTTTCTTTTTTAAGGAACACTGAAGGAAAATCTGAGGCTGGTACAGTCTCTGCTTGGCAAATGGTGGTTATTTCTATCCATTAATGTCATC
TGATCATGGCCCCTCAAACCTCACTTTGAGCCTTGTGAGCAAATGATACATACTGTTTATATRTATATTTTCCTATATATGTAGAAAAATATATATTAAA
TAAATATAAAATATATAATTTAATTAAATATATTTAATATATATTTATAGTATATTAATATTTAATATATACTATATAATATATACATATATTGTATATT
TTATATACAATATTATATATTATATTTATATGTAATTGTATATTTATACATAATATAAAATATCTATTATATGTTACATATATTTAGATATAATATATTT
TACATAAATTATAATATATAATAATATAACCAGTATGTATCATTATATATAATATATAGATACATACTGATTATATATGAGTATATAACATATTTACATG
ATATATAATATATAARTATATAAAATATGAATATATATTATATAATTTATAAATATATATAAATTAWGCAAATTATATTTGTGAATATATAATAGATTTA
TCTAAATATATGTTATATTTAGCTATAGAAATATATATTATATATTTAGATRTTATAGAAATATATAATATATATTATAACATCAGTATGTATCATTATA
TATAGATCCATACAGATTATATATTAATATATAATAGATTATATTAATAGATCATATATAATCATATAATGGATTAATAGATTATATATACTATTTATGT
AATCAGTATGTATATATATTATTTCAAACCTCACTTTGAGCCATGTGAGCAAATGATACATACTGATCATACCTACTGATCAGTGTATATTTCAGTCTCT
TTGTATCGCCCTATATATTTTCCACTTTGCAATGAGAGGCCTTTGCTTCTCAAGTGCAGCGTCCTCATGCTTCTCCCACCTGAACAAATTATTAACCCTG
TAAACCGGCTTTCAGCAAGCTACGTGGATGAGGGGTCTGAAGGTTTTTAGTTTCTTATTAGACTGTCTCTCGTTTCACTTACATGGTACCCGCTGGGTTG
ATTGCTTCATATATCGGTGGTACTAATGTGGATATTGAATGTTTCACCTGCCGAGGGCCTTCATCTAATTCATACTGAGCACATAGAAAGGTGATTTGAA
TGGGGGCATTTGCTCTGTTATTTTGGTGATGGATTTAGGGAAATGGAAAGTAGCAAATTGCTTTGTTTTTGGACCTTTGCCAGGTCCATCCTGGTTATGG
ATAATACTTGCTTGGTTGATTGAAGAAGGCCAGCTGCTACTCTAATAGCCCAAGTCAATGGCCAACGGTGCCTGATTAGCAAGCCTGCTATGCTTACTGT
AGTGAAAAACATCTTATAATTATAAATTAATACCCTTTCTATTATACATCAATATGCTGGTATATTTCATAAGTTGGCCAGCCCTTCATGACTAATATTG
ATATTAAGGTCAACTCTAGTTTTATGATACCAAGGCAAAGAACATCTTTAAGAAAATTTAGATACAACTCCTGACTTTGAATGAGGGAATTCATACTGAG
AACCTCAGTGTTACCATTTGTAAATCAGATTAAATAATGCCCAACATCTGGGGCTTTGAAAACCAATGGGATAAACTTTGTGAGAACAATTTTTAAAGCC
TTTAGACATTACCCCGTGGTGTCTAGTGTCTCTTCATATTTTCCTCTGGGTTTATCTTGACCCTTTCAAATGGAATGCGTGGATGCCATTAGTATTTATA
ACATWCATTTTCAGTGCTTTAGTATTGTTTTTTTCTTTATTGTTGTGTAATATGTATGGAAAAGGCATATAGCAAAGGGTGATCAATGGCTGGGCTTATC
CTAATCTTTGTGCATGTGCTTGGGTGTGTAGAGGCTTCCGTTCGTGTCTCTGGGCCATCTTGCATAGGGGTTCAAGCTCCCATTTGGATGCCATGGGTTG
AAGTCTCCGGAAAGCTGACCTCAGATGAGGATTGGTGTGTAGGAAGTTTATTAGGGAGTATTCTGGGGGTCATCTGCTGTGGGAGGGAGGGGAAGAAAGC
TGGAGTCTGACAGTCTTATCAAAGGCTCAGTCAATATCACAGGGACTCTGAAGCCAGGATGGCTGTTCACAATGGTCCTGAGTTGGGGCAAGGGAGCCAA
GCCTGTATAACTCCATTACAATCTGTTTTTGGATGYGGGCTGTGGGAAGGAGCCATGACCTTAGAGGAAAAGACTGTCTTTAGCCAAGGTAACCCATAGA
GGACTGACAGGTGAAGGCTGTCTGCAGAACCTGGGAAACATAGTCCTTCCGTCCTGAAAAGGAATACAACAGGCACATTACAGAATTCACTACAGTCATC
TAGAAAACAAAGCCATCTGGTATCCATGGAGACAGCTTCCATAGTCACTATTGCCCTTGGAGACAGACACCCACATTCCTAGTGTGGTTGCCTGACAGTG
GTGAGGAGGAGGGGGCTGACTATCTGAGTGTCCCCCTGCGATACGATAGCATGTCACCTGGTTCATGACCCCCACACCCAGGTCTCTTTCCAGAGCTCAC
CCCTTTTTGAGGCTGGCACCACCCTGGACCCACCACCAGCTTCTGTGGCAGTGCTTACTCTGCTGTTTAACCTGCAGTACTAATTCCTGTCTTTCAAGAA
CTCTGTCTTTCAAGTTCCCCATTATTAACTTTAATGTATGATTATTTATGTGTATCTATTCATGCATCTATGTTTTTATTAATTTAGGTATGAGTGAGTC
CTCAGCTCAGTCTGATTCACATCAGAGCTTTTTTAAAAAAATAAATATCAGGAATTTTTAGAGCATGTAAATTATGATTCAATTCACACTTGTCTTTTTA
TGAGTTACTGCCATGGTGTGAATAAAGCACACAAGTGTCACAAAGATATTAACATAATAATAAGCATTAATCTCCACTAGTAGAGTGTTACTAGGCAGGG
TTCCTTCCAGCTGCCATATCAGGAATCCTTCCAGCCTGGGTACTAATGTCATCTTCCTTTGGAGACCAGGCATGAAGAGTCACTCACTTCCTGAAGTCAC
TGGGACTGAAATCCAGGCAGTCTGGCTCTAGTCTCCAACTCCGCTGCCAATGACCACCAGCATTGCAAACCCGTACACATGCGTATCAGGCAGACCTGGC
CGCTGGCAGGCAAGCTAACCAGCTGTGAACCATGGTCACCGCTGCAGGGTAGGGCTCGATGATCAGAATGTGTTCCTTCATTTCTTAACCATGCTGGAAA
AAGTATGTAGAGGGACTAAGGGTGTTTTTATTTTCTTTGGCTTTTTTCCTTCCTTCCCTCCCTTCCTATCACCCTTCCTTCTTTCCRTTCTCCCTTTTTC
CCTCTCTCTCTCCCTTTCTTCCTTCCTTTTAGAAAAAACAAACCTAACAGTATGTATGTCTAATACATACAAAATCTGGTATTTAATTTTAAAAATTTAT
TCATACGCTTGGTAAGATTTTTACCAAGCCATTTGGTTTTTTATTCACTCTCTCTGATGTGGATCATGCCTATTCTCCTTCTTGGGATATTAGGAGAAAA
AAAGGATACTATGATTTTCTTAAAATGGAGCTGTTTAAATGAAGGAAGCATGTATAAGCCTACCCCTTTAATGGGAGGGTTCAATAAATCCTAGAATTTG
CCTGTAATGTGTAGAGGTCTAAAGAGATTTGTCCTATGAGAAAGTTCACTAATTTCAATTATCTGGGTTTTATTATCACCTTCTAAGGGTTAGAGAGACA
GGATTTTAYAGAATGCCATCACCTGAGGCTGTGACAATGGGGTTTCACACCATTAAATTCAGAAAGCATAAGAGAAGAGATAAGAAATGAGAGGGCTTGA
AGTGCATGCCAGTTCCGTTGTGGAAAATATGACCTACTAAGCAGCTATGAGAAATGAAAGCAGGCAGTGTCATCTCATGATCTATTGCTATTGTATGTGA
AATGCTTTCTATATTAGCTGTTGTTAATTACCATCATCCCCACCATCACATCATTGTATTTAATAGCAGGAGAAAGGAAGCAGCTGTTGTAGGCAAAGCT
CTCACACTTGAGTGTCTATCAGAGTCACCTGGGGGAACGTGTGCAAATGCAGATTGCCAGGCCCTTTGCCTAGTGGTTCACAATGAGTATGATCAGGCTG
GAACACAGGAATCTGCATGTTTTCCATCGACTATCTCAGCTGATTCTGATTCAGGTGGTATGAGGATTACACTGAAATAGCAAACCCATGCTTTGTCTCC
TGTTAGTCTAGACAGTAGGCATCTTTCTGTTACCTCTTGGGTGTAATGTTTAGTTTAAATTTCAGTTCCTCATCTCTACGAGGGAGTCATAAATTTGCAT
CTTGCTCACAGAGCTGCTGTGAGGATTAGCTGAGCTCGTGCCCAGAATGGAGCAGCCTCTAATATTTGCTGTGCTGTCTCTAGAGAGCAACAGGGAGGCA
TTTCATGGTCTTCCCCATCTTGGTCCTCACTGTATCTTTCTGTCCTTACTCTGTGCCTGGGACAGCTTTAGGGCTTAATGAACATAACAGAATGCTGAAG
AGCTCAGCCACTGGAGCCCAGCTGCTTGGATGCAAATCTTGGCTCTCCAACTTAATGCCTGTTCATGAGCAAGTTATTTAACCTCCTAGTACCTCAGTTT
CCTCCTCTGTAAAATGGGCTTGATTATCAKACCCCCATCATAGGTGTTTTTTTTTGGGTGTATGAGATGAATTATTATGACTACAACACTTAAAACCAAT
AATGAAGTGCCATGTAGATGTTCATTAGGTGAATAAATACAAATATTGTTGATTGAATGCATGTCTGCATGCACGCTGTTTCTTTCCTTATGCTSTTTCT
TTCCAACATAATACAGATGTATTCTACTAGCTGACAGACTTTTAAAGTAGAGGCCACTTTTAAAAGCCTGGGCTCCCAYGAGAAGGAAATCTGCAGGTAT
AAGATGGGTTTGTCAGTCAGCAGAGGCATGCTATTGAGAAAAGGAGGCAACCTGGGGAGGGGGTGTTAGAAGAGAGCTTGGGATTCAGTTCTTCTAACCA
GGAGAGCTGACAAGTAACAAAATGAGACTCCTTCTGTTGTCTGTTGCAGTAGACAAAGCAAGATGCTTAGTTAACAGCAGCAACCCAGTGCCTGTAATTT
TCAAGTCCTTGGAGGCACACCATGTCACCCAAGGTAAGCCAGGGGACACAGGAGGGAAGCAAGAGAAGCCAGGGAGAATCTATTTCCTGTGTCCCCTGTA
GGTGTTTGACTCACCTAAAGTTAACACTAATAGAACATTTGCTCAGAAATGTCATCGCTGAAATAAACGTGTTAAATTTAAACTTGACTGCCCCAATTCA
TCTGTTATGCAATTGAACTGGAAACAGCTCAGACTTAAAAGGCATCTCCAAGTTTTTCTCAGCCAACAAGACTTAGGCCACTTTGTTTTCTCAGATTKTT
CAGCCTTGTCCAATTTTTGGMTAAAAATCCTTTTTGAAAACTTCAGCAGCCATATTATTTTCTTCTCCAGTCATCAACTTATAACGTAAAGACAAAGCTG
TGGGGAAAATCTAAAGTTGCGTCAAATTTTTATTTTCTAGCCAGCTACAGCTCTAGTCTAAAGCTCTTTCTTTTGGGGAGAAAATCCCATTTGCACATTT
CCTCTTAGTTGGGTGGACTTACCCATATATACTTGGGTGACATTCAGGAGGCTACTTTGTGTTTTGGCTGTGTATTCKAATTTTTCTTCCGGTACTATAT
ACAGCAAGAGAAGGGGATGTTGTTCAGCTCTTGTTCTACCTAGAACCCAACTGCACTTTTGCAAGAGATGGATACAAAGATGGATGCATAATGCATGATA
GTATATTATGAGCACTACTCTTATGGCTTTGCATTGTAAGTAATTTTAATGTAAAACATATTTCTATAGTCTGGTTACAAAAACAAAACATTTTAGAAAA
TTTGGTCATTCTCCTGAAAACAGCAAAAAGAAGAAAAAAAATCATAAAAGATCTGCTGAAAAATAATCAGTTTTATGTTTTTTCTTTCATGACAGCTTCA
TCCATCTATCCACCTATCCATTCTTGTAGCTCTCCATCCACCCACCCATCTATATACACCTCCCACCCCCCCACCCACTCATTCATTCATCCACCTACCC
ATCCATCCATCCACCCATCCAYCCATCCATCCACCCATCCATCTATCCATTCATCCATCCATCCATCCATCCATCCAGCCATCCATCCATTCACTTATCC
TGCCTTGCATCCTACCTTCTATCCATCTGTCCTTCTACCTTTTCTTCTATCTATCTGTATATTCTTTAATCTATCCATCCATTCATCCTGGGAAGAAATA
ATAGTATCTTTAAAATGTAGTGCATTGGTTACAAGCACAAGATCTTCAGTGAATCAYTTTGTGCATTCAAATTCTGTCTGTATGTATCATGCACTTTCTA
TGTAACCTTGGGCACGTTTTTATGCTTCTATGGCCTTTTCAGTCTTTAAAAAATGGGGTTAATAATAGTGCCTACCTCATAGGGTTATGTCAGGATTTAA
TGATATAATCCATATAAGATACTTGACAAAGTGCCTGGCATAGAGGAAGTTCTCAGTAAATATTAGCTGTCTTTATCATTATTATCCTCTTGCTAACTTA
ACAGAGTTTTCAAGATCTGGTGAGAAAACATGTAAAAGATACATAATATAATGTCTATTAAAATTATAATTATAAATGCAGTCATAAATATACACATGTA
TATTTCATTTATGTTAYTGATATCCATCTGTTTCATCAGCTCATTTTAAAGGTTTCTTTAATAGCTGAAAAATATTCTGTAGTACAAATATTTATAATCA
AACTGTTATAGCTATTCATTTAGACTATATCAAATTTCTGTTGTTATTAATAATGCTGCAGTGAACATCCTTATTCAGTTATTTCCTTAGATTAAGTTTT
CAGAAGTGAAATTGGTGGTTACAGAGTGTACACATTGCAAAGCTGAATCATATTGCCACAGTGCCTGGTGTTTGCATTTCCATATGGTTTTGATGGCCAG
GTTTTCTGCACTATTGCCAGTGTATGTGTTATCACTGCAAACGTTTGCCATTTCGGTAGACAAACATGGGATGTTATTGCTATTTTATTAACTTGTTTTT
ATTTGATCACCAGCAAAGTTAAACTTTGCCATGTGTTTTTTGACCATATTCATTTCTGTTTCTTAAAATTATCAACTTAGAATATTTGTGCAATTTTTTT
TTTTTTTACATGTGGAGCTTGTTCTTAATGATTCTGCCAGGGCTTAAAATTTTTACTTTCTAATGAGAAAGTTTTGGAATTTACTCTTTTCCAATTTATG
AAAATTGGACACCGGCTCCATGCACTGTTCTAAGCCTTTTTCTGTGTTCTCTGTGATTCCTTAGAGCTTACTAACTGTGACCCTCCAGTCAAAACCATGT
TTAACCAAGTGCTGATGGGCTTGAGTCCATTCCCAAGTGACTCGGAAGTTGCTTACTTCCCTACCTTTGAGTGGGTCTCATTTTATCTCYGTGATGTTTT
CCTTGTCCTTCTAAGTCATATTCACTCTGCTCATTGAAGAAAAATGGTTGGTAATTGTAGTGGATAACTACTCCATTCTGTATGCCTTCTATGTCTTTTC
TTGATGTGTGCACCTCTTTCTTTATCCTTATTTTTAAACTTGTGCTTATTAGATAGGTTTCTGTACAACCATATCTGTGTAGGTTTCTCACCCTAGAAGC
CTCCTTTTAAATAGGGCAAAGAAGCTACCTAAAGATTTCTCTTTAATATAGGGAGGAAACCACTTYCGAACTTGTGCCCAAAGATTTATCTTCACCAATG
GTCTAGGACAGAGGTCGGAAAACTTTTACTGTAAAGGGCCAAATAATACATACTTTCAGCTTTGCAGGCCAGCTGGCCTGTGTTGTGACTACTACACAAA
AGTARTAAGAGTCTAATTTGGCCCAGGAGTTTGCTGATTCCTGGTCTAAATGAGAGTAAAGAATGGGAAAGGGAATGGTGTGGGAGGAATAGGCATTTTM
ATTCATTGTTGTTAATGAGAAAGAGTCTTCAAACACCAGCATGCCCCTGTGGGTTGGATTAGGTTAGAAAATCCTTGGAGGACTGCCTTTTCCACCCCAG
AGTCCTGGAGAGAAGAATGCAGCCTGACAGGAAGGATCTGGGTAGGTGACATGTGGGGAGAGGATTAAAAGAAAGGAGGGCCAGTGGCTCACGCCTGTAA
TCCCAGCGCYTTGGGAGGCCAAGGTGGGCAGATCACSTGAGGTCAGGAGTTCGAGACGAGTCTGGCCAACGTGGTGAAACCTCATCTCTATTAAAAATAC
AAAAATTAGCTGGGCGTGGTGGTGCACACCTGTAGTCCCAGCTACTCTGGAGTCTGAGGCAGGAGAATTGCTTGAACCCTGCGGATGAGAGGTTGCAGTG
ATCTGAGCTCGCACCACTGCACTCTAGCCTGGGTAACAGAGTGAGACTCCGTCTCAGAAAAAAAAAGAAAGGAGAAGAGTGTCTCAAGGGTTTTTTTTTC
CAGCAGGTGAACCCAGCCTCCCTAGCAACCCAAGGTTAAGAACGTGTTGAAAACAGCATGGAAGCCCATTCTGGAAAGCAGTGGTGATTGTGATTCTGAA
CTTAAACAGCTTCCCTTAAACACACTGTTACTTCAGAAAAGTACGGTTTTGGCCAAAGGGCTGTATGTCAGGTATTTACTTGCTCATCTTGGTGGGTTTT
GTTTGTTTTTGTCTTTTTGGTTAGCCATCTAAGACATTATTTTTCTGAGATCCAAGTTCCAAAAAGCACCGAACAACCTTTTGGGAAGAAAACATACATA
GTGTGTAGGTGCTACCGATTTGTATCCTCTATGACCTTGCCATAGAAAGGCAAATCAGACGGGCGCTCCCATTGCCTCATTGCAGGCTGCCATTTTCATA
TAAGCTTCATGAAATCTGGGAGAATAAAGGCAAAAGGTTTGATCTGGCTGTGACAGGGAATATTGTGAAGCTGCTGGACTGGGSCTGTGGGTTGCCTGTG
ACTGTSATCAAGTTCTTCTTCTCTGGAGGCTTCAAATTCCTCCTCTGTCAAATGAAGGGACTGGACTAGAAACAGAATGGCAAGTACAGGGCAAATGCCC
CAGTGCTCTCTGTCCCTGCTGCCTCTGGCAGCCACTTCTGCTCCCCCACAGCATCTCCTGGTCGCCTGGACAGAAAGCCTCCTCCATGCAGCACTGCTCC
AGGAACTGTTCTCAGCCATTAAAGCAGGGTTCAGAAAAGCTTGGAGGAAGATGGCCTTGTAGACCTCCCCTAGCACTGAAGTTCTGTGATGCTTAGCATA
TGTGAAACTCAAGTTTCTTCTGTTCCTGAATGGGGATTATTTATTGCCTTGGACAGCAGCCCTGAAACTTGATCCATTTAGCTGCCCCTAAGTGTAGTTA
AGCCCCGTGAAATGTAAACTTCGCAAGTAAATGGACCATTGCCATTTGCCTCTGTCTTCTAGATGCAATTGTTTTCTAYAGTCTGTCTTGTGGCCGGTTA
TAAAATGTCTGTCTTGAGCAAGCTGGGGAGGAGGGTGGATAGCTTTCGATTTGCCCAAGTTTGTTAATGTTTCATTGCTTGGGGTGTTTTAAGATCCTGT
GCCTTTAAKAGATTTCCTGAACYARCAGTTTGCCTTATTTACTTCCCTGGGCTATAATCATTATTGTGGCTGACCATGTTGATAAGCTACTCTGTGAAGC
CTTCTCTAATGAATGAGAGTCACTCTTCAAGTGGTTATTCCCCTTAACCTTATTTTCAATCACAGAAAATCATTCTCACAGAAAGTATTCTTTCCTTTTG
TTCAAAAAATACCCCCTTGAATGTTTTAAATGTCACTGTTTTTTCAGTTCTAAATAATTTTTAATTGGTTTTTACATGAAGTTAACTGTAGCACTCTTGA
TTCAGGAAAATTGTGCTTGTCTGTCTCTCTATTATCTCTCTCTCTCTCTCTCTCTCTACCTACCTACCTATCTACCAACCAACCAACCTATCTAAAATCT
ATCTATAATCTATTAGTTTTTCTTGCTTCACAAATGACTTAAGGCAACTCRCTTTCGGGTTGATGGAAGAAAAAATACAAGTAGCAAACTTGGATGAAGT
TGGAAGAAACTTGGCACCCACTGTGTCTGGCATGTGCAGATATGAGTGATGGTCTATAAATTTAGGATCTTATTAACAGCCAAAGCAAAGAGTACAATTT
TTCCATGTATCTGGTTTATAGTATCCACAGGATACAAGCATGCTGGTTGATCAAATGTTGCATCTATATCTTTGTGATTAACACCTGACAGATATTTCTA
TGATGCGTTCTGACAGGGTTACACATGACAGAGTKGGCTCTGTCTATGTTGTACTTAATATTATTGTAGAAAGAAAAATTGAGTATATCTTGTGAAAAAT
AGTTCCATTTGAAAGTCCATTTSTTTCAAATTCAAAGAAAGAAAACAACTAAAATACGTAAGTCTAAAGGGCATGGTTGATTTAGGATTTTCKAGTGGGA
AGACTATTAAAAGAGATGCTTGCTCAAGAGAGTATAGACTCTTCTTTGGAAATTGGCATGGGCCACAGACCTCCATAGGTAATACATTTAAAACACAAAT
GCTTTTTGGGGTACTGTCTCCCAGTACTTTGTTTTTGAAGATTTGTGACTACATGGTTTCAGTGCTATATCTAATAAAACTGGCTTCAAAACGCAGAGCA
CTAGCATTTYCATATGTTTCAGTAAGTCTCCCAGCCTTCGTGATTCTAGAGACACCAATCAGTTGATGCTAGCTGCAGTTGCTAGAGATTCCTTCCTGGA
ATTTTGATGTAGGCTTGTAAGGAGGGACCATACTTAACATGGAAAATTAATGACCTGAGAGCCTGTCCCAAAAGAAATGCTCCAGGCAGGAGATCTTCAA
CAATAGCCATCTAGAGTWTCAGTTATCTAGGATAGAACAGTGTATAGGCTGGAAAGACCCAGCCCTTTCAGTAAGGCATGTGAGTTTGATCACTCACCAC
CATCTCCAGCCTCAGCCTTCTTGGAAGGCCCCAGACTTAATGGTCATTTCCAACCCTCTTTAAAAACGATTCCTTTGCTAGAGTCGGAATAAATAATTGA
GGCAGGCTTCTCCAGAATCTCATTGGTGTCAGCTATGGAGTCATCAACAGATGAAATTATTCCATCAGGATAGTAAATTAAATGGCAGTCTTAGAGTGGA
GTTTTCAAGGTCTTCTTACATTTGTAACATTTGTTGTCCTACATAGTCTTCATACAAACTATAAATTGAGCATGAGAGACATTCTTTTTTTTTTTTTTTT
TTCCAAGACTAACTTTTGCTCTGTAGCCCAGGCTAGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTATCCTGC
CTCAGCCTCCYGAATAGCTGAGATTATATGCATGCACCACCACGCCCAGCTAATTTTTGTATCTTTAGTGGAGACAGCATTTTACCGTGTTGGCCAGGCT
GGTCTTGAACTCCTGACCTCCAGTGATCTGCCCACCGCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCGGCAGCAATTCTTT
TATATACTTGGAGGGTAGGCACTTGAAGCCCAGAAAGGCTAAAAGACTAGGACATTAAGTCATAGAGGAGGGTTTTTTTTTTTTTTTTTAGTTTTGTTGT
TGGTCGTGATGGTRTTATTCAATTCTTTTATTATCTCAGAACTCATGTCATACTGCCCCAGCCTCTGTATCAGCATTATGTAGCAATGATGTTACTGAGC
CTGATCTCTGTAAGAGGCTCTGAATAAAATGAGTTCCATGCTGGAACTTATGTGGAGAATCTATGTTCTGTATCTCTCCCTTGGGGACTCTTAATTTCCT
GGGTAGTGAAGAGGTCCTCTAAGAAAGAAGCAGATTTCGTGGAACCCAGGATTTCCCATCCTCTTTTTATCTGCACTGCATTTTAGGAGCTTTTAAATTT
STGTTCTGGAGTTGGGCATCTCTTCAAGGTTAAGACTCAAGGGCTGTTTGTATTCCTCTTGGATTTGCCTACATTTAGCAAAGCAGAAACTCAACACATT
GTTGAAAATACTGAATTTCACTGGGCMTATATTTTGGGTTGTCTGGAAGATCCCACCTATTGAGTACACTGCACCATCACCCCTCCAACTGCTCATGCAC
TTATCGGACATATGTTGTTATTTTTGGATCAGAAAATACCATCCCAGTAGAAGTAGGAGTGATCAGTGTGACAGAGAGCTGTCTGTATTGCGGCTGTAAA
TGCCAGTGACCATGGCATTGAGCAGACCATAGGTTATACTTACTGTCGTGGTTCTCACCTAAAGTACACATCACACTTTGGGTTTCCATAGGACCAGGCA
ACATAATGACCCACCTGAAGATGAAATGATTTTGAAATACCAGGCCCTTATCATGGGCTAGGGACAGTGTGGACATTCATATATGTGAATGCTCCTTAAA
GCTTCCCTATAACCTTGGATACTGCTGGTCACGTGTCCCTTAAATATAGRTGAGGAAATTACAGCTCTGAGACAATTGTTGTTGGTCAGTATCCTTTTGA
TCCTTTGTTTGTAAATCTTGCCCAGTTGGGGCTGCATGAGGTTGAAAGCTCAGACTGCTTCACTTCCAACCTCAGCTCGTCCCTTTATGAAGGGAGGCAG
CTCAACTGTCTCCCTTCCAACCTCAGCTCATCCCTTTATGAGCTCATAGCCTTGGGCAAATTACTTAACCTGTTGGTGTTCAGTTTCCTCATATGTGAAA
TGAAAATGATGGTATCATTTCCTCCTAATGCTGACTTGAGGATTAAATGAGTTAACACACATAACGCTTAGGATGGTGGTGGACGTACAAAACACTCAAT
AAGAATTTGCTTTTGTTATTATTACTTGTTCACATCYATGCAGCATKTGTGCCTGCATGCTCACACMCTCTAGTCTTACGCAGCTTATTCACCAACATTG
GTTCGGGATGACATTTGACTGTWTTCAAAAGTCAAATCCACTTTTCATGGACAAAGATTTTCCTTCATAAGTGTTATTCAAAAGATTGTGCTGTCTGCCC
TGAAAACAGTTCTTATGGAGGAGACCAAAAGTATTTTTGGTAAATGACAGTCTGTGTAGAGTGAGTCATGTCACTAGATGTGTACTTGGAAGGGCAAAAC
AGTTATTTCAATGTACAAATTATTGCCTCATTACTTTATCACATACCAGAAGAGAGTTTGGGATGGATCTAARAAGTATAACAAAACCACTGCAAGTTGT
TCTGTCATTTAGCATTTAATTAAAAATAACTAGAGAAACAACTATTTGAAATGCTCAGTGTTTTTCTTCTTTTTTTTTCATGTAACAATATGTTTAGTGA
ATTTTTCAAATTACTAAAAGCATTCAGGCAGTTCTAGAAATTTGCATCTTGTAACCCTTTAGTTGTTTTTATTTAGAATGTTGGCATTTTACAGTAGTGT
CAAGTATGGTAATTATTTTTCATAGATATTGAATTTAAAAGAGTAATCCCTAAACACATTTTGACATTTGGCTCTCCAAGACAAAGTTTGTAAAAAAATT
GTGACCTGTGAACGGTAACTTTACTATATACTTGTTTGACCATTATCTAAGAAATATGCCTTTAATGAATAAGAGGGAAAAAGATGAGGTCAGACATCAA
AGTCCCTGTAATTCTAATGTGAACAACCATGATTCCTGAATTCCATGTAAATTAGCACTACAGAATGAAAGCAAACAAACAAGCAAACCTCAAACAGAGA
AACCTCAAAATTACTAGAGCCAATTAGATATTCAAAGGAAAAGTCTCAGTTTTTAATACCTTATAAAATCACACAAATACATACACATATGTGTTGGCAT
CAGCAGTTTTGATAGACATGGCTTAAAATAGGAGAAATCCAAAAATAGATAAAGGCACTTTTAATATGGCCTAAGCCATAGCAGGAAGTATTAATAACAT
GCCGATTTTTTACTCCAAAAAGAACTGAGTGTGCAAAGCAAACCAAGAAAGAAATGTGGACTGGGCCAACTAATGGGTTTCTAATCATTGTTAATSTACA
AGTGTGATCAGTTTATTATAAAGTGTTAATTTTTCCTGTGGGTAATACTTGGAGAAATACAGTATACCACTCATTTCCAAAGTGATGAAATGGCTTTCTG
TTTGGCATGCAGGAAAGTGAACCTCTTTAGTTTAGAATATGGGTTGGATATGCTTGCCAGGTCTGGGCTATTCCCTGCTGCCTCTGAGCGAAARCTCAGG
AAGCCAGAACCTGAATCTCTTCGAGGAAGTTCTACAGCTGACTTTTAATCATTGGGCCATAGCACAACACCTATTAGCTCGCTTACGTCTAGGTCRGTAG
AACCTCCTCTGGACCTCAGCTACTCTTCCCACTCTGCATCTCGAGACACTTGCCTTCTTTCCATGTGACTTATCGCTAAGCTCCTGACTGCATGAACCTC
CTTCCTTCCACTGGTCCAAGTGACATCAYTCCCCCGTCCTCACTCCCAATACCACCACTTCAGTAACCTCCCACATGTTTTCCTGCTCTACTTTAATCCA
GTCTACACAGAGAGAGCAGCCAGCCACTATCCTGTTTTATTTATTTATTTTTTTACTTCCTTAACAGACGTTTACTGGATATGTCCTGAATCCCAGTCAC
TGTGTTAGGAAGTAGCTCAATCCGTTGTCTGTACACCTCCATGCATCCGTTCCTTCATTCAATGATGAGTACATAGGACAGGCCAGTTTTGTTCTCCAGG
CTGGTCTCGAACTCCTGGGCTCAAGCAATCCACCTGTCTTGGCCTTCCAAAGAGATGAGATTACAGGTGTGAGCCACTCTGCCCAGCTCCAGGGCAGGAT
TAAAGGATTGTTCTCCCATGTTGGAAGAAAACAGAGTTCAGGCCCCAAGGCAACTGACATTTTACTGGGCCAGACAGTGCCTTAACAATAATAGGGCAGG
CGTGGTGGCTCAAGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCGAGTGGATCACCTGAAGTCAAGAGTTCGAGACCAGCCTGGCCAAAATGGTGAAA
CGTCATCTCTACTAATAATACAAAAATTAGCCAGGCATGGTGGCGTGCACCTGTAACCCCAGCTACTTGGGAGGCTGAGGCAAGAGAATCGCTTGAACCC
AGGAGACAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGCAACACAGCAAAACCTCCATCTCAAAAAAAGAGAAAAAGAAAACAAT
AATATAATTCAGGTAGTGAAAACATCCCAGAAAAAATAAAATAAAATAGAGACGATGGGAAGTAATGGGAAGGCTGTAGCTAGCATGGCCACGGCAGGCC
TTCCCAGCAGGGCATTTGAGGGAGACAGAAATAAAATGAGAGGCAAGTGACGTGAATATGTGTGAGTGTGCTCTAACCAGAGAGGAAGACTATGGCGAAG
GCCTTGGTGAGTCTGAGAAATGCCAAGAAGGAAGGCCAGGCTAGGGAGTCGTGAGCAAGGTGGCGGATGGGAAAGGTGGGGACACAGAGGTAGGGAAGGG
GGATGATCTTGTGGGGCCTTTTATGCCACGGTAAGGAGGTTGGATTGTATCAGCCATGATGTTTTCCTTCTTCCTGTCAAGGTGAAATTTATATGACGTA
GAATCACTCATTTTAAGGTGAACAATTCAGTGGCATTTAGCGTATTTGCAGTGCTTTGCAATCACCACCTCTACCTAGTTCAAAACATTTTCATCACCCC
AAAAGGAGAGCTCATACTCATTAAGCAGCCGTTCTGCATTCCTCTACCTCCAGCCCTTGACATCCACCAATACTACTTTCTGTCTCTAAAAATTTACCTT
TTTTGATATTAAGAAGAAAAGACACCCACACATATACTCAATTGTGTCCTTCCCTGGCTTGTTACCCTCCCTCCTYCATCACACTTAGGCTCAAACACAA
ATTTGCCACCATCCCCTCATCATCTGGTCCTTTTCCATTTCTTTAGTCTAACTTCCTGCTAGTCTTTTCTTCACTCTTTAAGAGTAAAGGCCCAGACTCA
CTGGTTCTCCTCAAGTGGTGTGTTTGTTACAATTGATGAACCCACATTGACACACAATTACCAACCAAAGATGCCATGCTTTATATCAGGGTTCACTCTT
AATATTATGCGCTGTATGGGTTGGGATAAATGACATGCATTCACCATCATAGAAACTTTGAATTATGTGAGGTAGTAGATGATGAAACAAACATTACATA
CTAGGAAAGGGACGCCTCTCCCTTTTTTTTTTTTAAAGAGGGGTGTTTTCTGCTTGGTTTTGTCCATTATAAACTGTTAGATTAACCATTTGTACAGCCA
ATGAAATAGCTTTAAGGGAGGCACTCAGGAGCTTGAACAYGTCCACAGAAATTCCAAGGTCTCTCCAGTATCAACTTGCAGTACGTCAAGCCAGTACACA
TGGGAGAGCCTTGAAGGGGTACAAGATCAGSCTCCCCTCTGCTCTTTGAACACACTGAGCTTGTGGCTGCCTCAAAGCCTTCGCAGGCATTATCCCTCTT
GCAAATTTTTTCATGGGTAGTGCTTCCTGTCATTCAGKTCTCAGATCAAACACTACCTCTTTAAGAGCTCTTCACTGCCTACTTTAAGGCATCACCCTGT
TTTATGTTGTTTATATAATATTTCACAACCTGACATTCTCTCATTCATTCATTCATATCTTACCTGTTTCCCTGTAGAAGTATAGGCTTCATGGTGAGCA
ATAGCCTTATTTTCCTTGTTAACGGGTGTATTTCCAGCACTTCTTACAACACTGCCAGGCATATTGCAGATTGAGATAGTCTGAGTCTTCTGAGAACTAG
GATTAGGATTTTTTTTTTTTTTTTTTGAAACAAGGTCTTCCTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCTRTCACAGCTTATTGCAGTCTTGGCCTCC
TGGACTCAAGTAATCCTCCCACCTCTCATCCTCCTGAGAAGCTGGGACTACAGGGGTTCCCCACTATGCCTGGGTAATTTTTGTATTTTTTTTTTAGAGA
TTGGGTTTTGCCATGTTGTTCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCGCCTGCCTTGGCCTTCCAAAGAGATGGGATTACAGGTGTGAGCCA
AGGTGCCCAGCTCCAGGACAGGATTAAAGTGTGAAAAAATTATTAGGGGATATACCTGGGAGATCAAATGAGGTGGGAGTTGGGAGACTGGAAGAGCTGT
CAGACCAGATGCAGGTCTGACTCTCAGTAAATAAGAGACGAAAGAAAGAAAGATTGAGTGGAATTATTTTAGACTGCTGTGCAATTCTTTTTTTTTTTTT
TTTTTTTTTTTTTTGAGACGGAGTCTCACTTTGTCACCCAGGCTGGAGTGTAGTGGTGCAGTCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACAGC
ATTCTCCTGCCTCAGCCTCCCCAGTCGCTGGGACTACAGGTGCCCGCCATCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCATCAT
GTTAGCCAGGATGGTCTCAGTMTCCTGACCTCGTGATCTTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCTGCCACAC
TGCTGTGCAATTCTAAAGAATTCTGGGAGTGCTGTCAGAGAGTACTTGAGCCAAAGTYGCCCATCAAAAAAGTTTTAAATTCACAGGAGTGGGTTTGCCT
TAGCATAGCTTTTGAACTAAGTAACTGGCCAGCAGCAGCATGTGGAAGCATGACCTTGGCAAGAAATGTGGCCACAGATATCAGCACACAGCAGCTGGGG
TAGCTGATCAATGTACTTCCTTCAATGAGAGATCTGTGAGGTGCATTTCCATGGCCACCACAGAGATGTATAAGAAATATTAGTTCAATGAATGAATAAT
GAATAAATGAATGAATGAAAGAATTACTCCTTCATGTTATGTTTATAACTGGCTCTTCCTCCAGGTTTTCTGCCTCACTTTTGGCTCTCTCAGCTACTTT
ATTACTGAGAATTTATCTGTACTGTCTAGTTTTACAGCAACGCTGGGAGCTGCTATTATCCATCCCCATTTTATAGATGAGGAAAATAAGCCTCCAGATA
GGTTATGCAACTTACTCAACCAAGCTCAACAACTAATAAATGACTCAGCTCTGTCTTCTGAAGTTGACACTTAAAGCCCATACCCTTAGCTATTAATGCT
GTACATTGCCAATGCAAGGTGGATAAAGACGTGGAGAAATACTCTGCCCTGCTGAGTAGAGTCCTGAAACTGCAAGGGGTGGGGAAATAGCAATGAATCC
TAGGCTTAGGCCAGGTAACTAAGATGTGCCTTTATGAGTTTATCTTGATCATTTCTTTATTCATTCATTTATCATTGGCCATTTATTCATTGTTCACTAG
TCGGCAAACATTTATCAAACTCCTTTGCATGCCAGTCCATGGACTAAGTGTTAATCTTTATGCCTCTGATGCTTATCATCTGCACCGTCCAATACAGTAA
GCCACGTGGAGCTATTGAGCACTTGAAATACAGTTGGCCTCAATTGAGATGTGTTGTGAATATAAAACATATACAGTTCTCAAAGAGTGAATAAAGAAAA
AATTATTTTTAAAATCTCATGAATAGTTTTTATACTGATTACATATTAAAATGATAGTTTTTGGTCATATAATGTTAAACGAAACATATTGTTAAAATTA
ATTCCACCCATTTCTTTTTATAATTATTAAGGTGACATTAGACAATTAAAAATGAACATGGCCGGGCGTGGTGGCTCATTCCAGTAATCTCAGCATTTTG
GGAGGCCAAGGTGGGTGGATCACCCGAGATCAGGAGTCTGAGACCAGCCTGGCCAACATCGTGAAACCCCGTCTCTACTAAAAATACAAAAGTTAGCCGG
GCATGCTGGCATGTGCCTGTAATTCCGGCTACTCAGGAGGTGGAGACAGGAGAATTACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCTCGC
CACTGCCCTACAGCTTGGGCGACAGATTGAGACTCCATCTCAAAAAAATGAACATATGGTTCCTATTATAATTCTCTTGAATTATAGCACTGGTCTCATG
GATGATATAGATAGTGGTCTAAAAGTCCAGAGGTTTCTGAGGTCACAGAGCCCGGAGCAAATGTCTGTGGGGAATGTTTACAGAGGTGGGAGATTTCACC
TGGGCCTTGATGAGAGCACTAGATTTTACCTGATGGATGAAGCAGGGAATGGTCTTCCCAGTGAATGATGGAAGGGTGGAGTAGTGGAGAGAAAAGCTTC
ATCCAGTTATTTGGGGCTGGAATTCTAAGTGAAGTTGTCTCAAGTTGGGTTTTCTAGGAAACAGAGTCTGAGCTGCAGTTTAGCATTTTTATTTATTAAA
GTGCTTGTTTATTAAAGAGTATGCTTAACTTCACTCAGTATGTAGATATGGGCTTCCCTGGAAGGGGCAAAACCTTGGATGAGGCAGCTCTCTGCAGCTG
AGGTAATTCCCAAGAGGACCAGCATTCAGACTGTCCCCCAAGATCACACTCATCAACTAGGATGACAAGTCCTTTTTGAAGGACCATCTGAAGGGTCCAT
CACAGTGTCCACTTCAGTTGTCTAGAGAAATAGAGGGCACAGTGTGCCTTCCTTTACTGCAAGCTCAGTCCACAGGGTCTCACATTAGCTGAGTGTGTGG
GAGGAAGACCAAGTGTCTGTGATGTCAGGTGGGTATTTCGGAGTGTATATAAATTACAGTAAGGGCAGTGTCAAATGAGTATGTGTAATGCATCTACCCA
TGGTCCCTAGAGTCCACTAGAAGACAATTTCTTGGTGTTTAAGAGATTATTCTTTTAATAATTCATTGATCTTAACAATACAATACATCAATGGTTTACG
CAAAAGCCATGTTTTATCTGCAATGCACTTCTAAATTGAAAGGTATCATAAAATGGCACTTAACTTTCAGAATCCTTATGTTATCTAAAGCTCAGTTTCA
GATTTGTTTGATGATAACGAATATCCTGTCTATTTTATTATCTAGTACAAGCCCTAGTTTCGGAACTCAGAAATAAATGAGGCAATGCCTGCAGGTGGGT
GGCACGTGTAGGTGCCTGTGTGTGTGTGTGTGTTTGCGTGTTTTGGAGTATGCATGGATTTGGCCTTATAGTTTATTGAGAGCATTTTTGCACTGGTTTA
TAGTCATGCAGTGAAGCACCTCTGCATTTCTCACCTGGCCCATTTAGTGTGGACACATTCCTTTGTCAACAAGGACATAAAGCCACAATCTCCTCCTCCA
AACAAAACAAAGTGAATCGCTATGTGTTCGGTATAATGGGATTGAGAAGTAGAGTTCTCTTTGCTGTTATTTCTCCATAATAGGCCCATGATTTCCTGGC
CCCTGGCATTCAGGATAGTGAGCATGTGCAAGTGATTACGAGGGCAGAGCAGTTGCCAGTTTTCCCTGTAGCTTTCAGAATGTCATCAGAAATCTACACG
TATGGGCAGTGAGGTCTGGCTCTCCCATGTCTCCCCTGCCCCATCTTGATTGCTCTCTCTCTCTCTTGCTTTCTATTTCCCAGAAACATGAACTTACTTT
GACTTTTCCAAATATACCATGTTCCTTACCACCCAGTGTCCTTGCAGCTGCCATTCCCTCTGCCAAGAGTGATTCTTGCTGGGMCCCTTTTAGATCACAT
CTTTATTCCTGGTGGACAGAAAGAACCAGGACAACAAGCCCATGCCTGTCCCAAGTATAGCTGAGTGCTTGACACTTAGAGAATGTGAATAAGTGAATGA
GCACAGCATAAATGAAATACCACAAACAGGCCAAGCCAAATAAACTCTGAAGTTGAGTTTTACTTGGTTATTAATGATCTTTGGCACAAGAGTTTCAGTG
ACTTGATAAGGCCACAAGCCAAGTGTGGCCTGGTTCAAGAAGTACAGGGATGATGATACAGACAAGACAGAAAGGAAATAAATTCTATCAAAAAGCTCAG
CTGTCTTGAAAAAGCAAGAGATAAGAAATAACTTCAGAGGTGGGTAGAATTGAGAAAAGGATTTCTATTTTGTTATTTTCCCCGAATAAATAAGCCTTAA
ACATGTTTGTAAGCTGCTGTGAAGTAACCAGCAGAGAGGAAGTGATTGAAGATGAGAGAGAGAAACAGAGTAATTGATGAACCAACGTCCCCGAGGAGAC
GGGAGGGATGAAATCAAGAGTATAGGTCAAGAGGCGAGCCTGGGAGAGGCCAGTGCTAAGGCAGGTGATATTTCTGCCCGGCCGTTAGCTTTTGTGCAGA
ATAGTGAAGGAAGAATCAATCACTTCCTTTCTGGCTGGGTAAATGCCAAGAAATTCTATGGCAGAAACTTCCCCAGGCAGGAGACTCAGAATTAATTGTT
AGGATTAAGCATAAACCAAAACGAGCAGGGAAATCCCAAGCACTAAATCCCAGGAATGGGGCCTTCATGGATAAAGGAACTTCATCTGTGAATGATCCAG
GAGCCCAGAATGCCAAGGGAAGTTTCTAGGTTCTTGGAGATCAAGTTAATGCCCCTCATAAGGTTGTTTCACATGAGCCAAAATGTATATTGATTTTTTT
TTTTTTTTGCCTTTATTACACTTCCAGAAAGAGAGCATGATCTCCTGGAATCTGTTTAGGGAATAAAAATGTCCGTACAGAAGAAAAAGGTTGTTTTTTG
ACCTTCTGCTGACACTGTCTTCTTGCTCTCATCACAGCTTATTTTCTAGCAATATGAGGCCCACAAATTAGGAATCTCCTTGCAGGCCTTCAAATATGAT
TTACCTGATTAATAAAATCTTAGTGGAATAGATAGTATTCTCCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTGATGATTGGGGT
TCTTGGATACTTAGGGTGCAGGGATGAGGGCAAGCTGACCTTGTTTTTCATCTAGGAGACCTGACAAAGATGGTGGGCTGAGATAGCCGTGTAAAGCTAA
AACAGAAATACTTAGTGAACAAGCAAGTGTGTGAGTGAATAGATCAAAGAATGAATGAAACTACCCTCTGCACTCTAGGTTCTAGAAGGCACCCTGAAAA
AGGCATGTTGCTTGGGGTATAATAATTGCTCAATATATTTTTCAGTAAGGAATAAAAGAACCAACAAATATTGATTGGATTAAATGGATTAATAACTGAT
AAACACTTACAGGGCTGCGGCATGTGCTAGGTATAATGTATTACATAGATAAAATGGATACGAACCATATACCAGGCCCTGTGCCAATTGCCTGCATGTA
ACTCAAAACAAAAGACAAAGGTCTTGCCCTCATGGAGCCTGAAGTCCAGTGAGGGTTTCGTTAAACTTGTAGGACACCATTTCCATGCCTTCCATCAGTA
GAGCAGATTCTCTGTGCAGATACTTTTCACACAAACAATGCCTAACCATCCCAGAAAATCTGAGCGGTGTTAGCAACCTCACTTTCTCTGAGATAAAGCT
GAGATTTCTTTTAGTGACTTGTCCAAGGTCACATAGCTATTACGTGGCAGAGTCAAGACTCAAACACAAGTCTGTCTCATTTCAAAACTTGGGCTGTTTG
CCTATATCAAACTGCCTTTAATTTGCCCATTTTAAAGCAGGAAAGAACTAAAAGGCTTGCTTTGATGGATGTGAGGTGATTTGTTAAAAGCTTAAGAGAC
TGCCATTTTTCATGATATGCGTAAATGTGCCCTAACCTCCTGAAGCAATATAAAGTGGTTCTTTATGTTCTTAGGGTATTCCCCATCTAAGGTAAAAATT
ATCAAAACTACTGGGGAGAAAGCTTCTCTGGAGATTTGCCTTATAAAATAAACAGAAATCAATTTTGACTTGTTTTCTAATCATGATAAATGAAGCCAGG
TTAGGAGAAAAAAAAAAAAAAGTCCCAGCATTAGTTGAGGATCATTTTGCCAGGATGCATTGGTCTTTGACAAGCAATTAAGAAGTCCTGTGATTGTGCC
TGGCAGTGCCACAGCTCAGCACACTCCTGATTAATTCTCATTTTCTTTCTTTCCTCGGGATTTATTTACTCGTTTCACTTGGAATGTGTTTAGCTTCTTA
ACCTCCCCCACCCCTCTTTTCTCACGTGCTTCTTTGCTTGGCCCCCTACAACTCTACCTATACATTAATCAGTGTCATATTCATTACTGCTGGTGAAATG
CCATACAACATTGGCATTCATTCATTTTTGTCTCTTCTGTTGAGCCATTCATGGTAGATTTCCCCAWCGAAACCTACCATGTTTGTTTTCTGTATTTCCC
ACCAGATGTTCTTTTAAAAGCCAGAAGAWGTCTGCCTTGGTCTGGTTGGTATAAAGAGGGTTCATCCAATATAAACTGCCAACAGTAGGTTGGAAATACT
CATCAGTATGGAAAGGGCGAAGTCTGGGCAAATTGGATGGGTCTTGGAGAAGCTCTAAGAGTTGGAATCTACATCATCATCTTTGTCTTCATGGCTAGCA
ACTGTTGACTCCTTTCTCTAGTTCAGGCATTCTGTCTGACTCTTACATTATTTCTTTGAATCCTTACAACAACTCTATAAAGATGGTAATGGAAAAAGAC
AAGATGACCAAGATTCAGAGACTTTAAAGCACATGAGCAGTAAGTGGTGAAACCACCTCAGGCCTCTGCCTGTTGACTTATTCATAGGATAACCCACAGA
AACACTAATTCAAACATGGTGTCAGAAACAGCAGCAGTAATGAATGCCTCAATGAAAAACATTTGGCCCAGCACCTTGGTTAGGTTGAGTTTGCATGGCA
ACCCTATTGAATCATGGGTTTCTCAGAGCTGGGAGCTGCACCATGCCATCTACCTGCACCTGTCCTCTTTGGAGGCTGGGTTGGTGTTTGACCCTGTGAA
GAGCTTTGGATTGCTTTGCCTACCCGCAGTGGACTTGCTCACACATAAGTGGGAGCCCTAGCTCATGGTCTCCAAATTTTTATCCTCATCGTTTCTTCCC
ACCTAGTTTTTTCCTAATTCTGGCCCTTCCTGGCCACCCACCCTGCCATTATCTTTCTCTGACGCTTAGGACTTGAACCCTTTTTTCATCCTTTTTGTTT
TATTCTGGTGTTTTAGTCGTGAGCTAACTGGAAAATGCTTCTCACAGTTTAATTGCCGTGGAAACTTTCTACTTGGAATCAGACCCTAACGGGTTTTTTC
CCTTTCCTTAGGGGGCTGTGCATATAGGAAAAGGGAACATATATGTTATCCCTCATGTGTTAGGGGCTGTATAGTAACAAGCCTGGAATAACCCTTAGAG
CACCTTCATAGGGAAGGTAGGGTTTATTATCCATGTTTCGTAAATAAGAGCACTGAGGTTGAGAGAGGTGATGCAGATTGCTGAAGTGCCTATAGCTAGG
AAGTGGCAAGTCACAATGGGGCCCCAGTTCTGTCTGCTCTAAAGCCCAGTCTGTCTGTCTGCTTCTCTGTATGTCTCTCTTTTTCTCTCTCCCTATTCTT
CTGGAAGTCATAGAATCCTGTGATTCTCTTCCAAACTGCTTTTTTTTCTATTAAAATTATAACCCGTTATTAAAATATTTAAGCACACAAATTAACTGGT
GCTAATTATGATATTTTGAATGGTAATAAGCAATTAGAGTGAGATTTAAAGAAGAAAAAAACACCTGTATATAACTTGGCATCTTTTGTAATAAATACAA
RCACCTAAATATAACTTGGCATCTTTTGTAATAAATACAAACTTTTGTCAATCATGACTTGATCTAACCGATATGCCTCAGGTCTGCACAGAACGGAAAT
GTTTTTTGGAAATCCTAGTACTTCAGAAGGCTTTGGCATCCAAATCCATTGCAAGTAGCTTTCTATTTAGTCTCTCATTTTCTCTCTAAAGAGAGATTGA
TATGATGATTTTTAGCTTAATTTGAGAGATGTTGAGTTTTCTCCAAGACACCCTCGTTGGTTCACCTTGCTCTGAATCCTTTGTCTTCTCACCCTTTGTG
GCAAATTGAGACGGGGGAAAACTATTAGGTTGGGGCGAAAGTAATTTCTGTTTCTGCCATTACTTTTGCCCCAACCTAATACCTCCCAGCAAAATGCAGG
GGTTGCGGAGAGAAAGGGAGTGATGTATGGAGAGTCAGTCATAGTACATGTGCAATTCAAGATACCTGGGTGGGCATAGTAGTCTTTCCCCTGGAGTTCT
ATGTCATTGCAGCCTCCYCTCCCATCACAGCATAATTTAAGTGAAGCAGGTTTAACGGGTGGTCAGTATTTACCAGAGCCAGCCTTCTGCTTCTGGCCAG
CTGGGTGACTTGACTAGCAGACCATTACTCCATGTGGGCCACCGTTTCCCATGAATAGAGTGCGACATTTGAACTAAATGAACCTAGGTTTSTCCCATGG
AGTGCAGTTTCTCCCTAAATGAACCTAGGTTTCTCCCATGGAGTGCAGTTTCTCCCTAAATGAACCCAGGTTTCTCCCATGGAGTGCAGTTTCTCCCTAA
ATGAACCCAGGTTTCTTCAAAATTCTAGAGGCTCTGACTCTAGCAGCTGCAATTGGACTCTTCCCTAGAAGCATCTCGCTGAGTCTGAGAAAGGCACGTC
AATGATTCTTCAAGGGAAGTAGGGGGAAGCAGAGGCAGTGCCATTCACAATGAGCCACGGCTGCTGACAGCAGTTCTGTAACCATCCGGTGTGTTTAGAC
GGGAGAAAGAGCTTGAGAATCGCGATTATATGGATCATCTCTCTCTAGATGGACTTCTTTTATGGGAGATAATACTGAGGTTAAGAGGTTAAGCAACTTG
CTCAGGTCACGCAGCAATTTATAATATAACAAGATATTTATGAGTAAAACATATATGAACTAATTATATATCTGATAGTCGTTTTTAAGGAGGAAGAAGT
TACCATAAGAAAAAGAAAAACAGGACTTGGGTGTTATACCATGAATCACACGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAAGATAATTTTTT
CAGCAAATTAAAAACAAAGCCTAAGAAAAATGAGAACTTCCTGAACAAAAATATTCAAAATGATGACTAACTAGAAAGTATCAGAAACCACATTTTCCTT
AACCAGTACTGTCTCATACAAATATAACATAAGTCACACAAGTAAGTTTAAATTTTCTAGTAGGTGCATCAAAAAAGCAAAAAGAACCAGGTAAAATTAA
TTTTAATAATGTACTTTAACCCATATCTAAAATGTGACTTCATTGTGTAATCAATATGATAAATTATTCACATATTTGACCTTTTTGTACTAAGTTGTTA
GAATCCAGTGTGTATTTATTTTGCACTTGTGGCATGTCTCGATTAGGACGAGCCACATTTCAAATGCTTAGTAACCACACATGGCTACTGGCTACAGCAT
TGTACAGTGTGGCAAAAGTTTCTCTCCTTTTTCTCTTTTCCCAGGCTCTGTTGAAATTTTTCTTTCAGAAAAATATTTAAATAGGATATACTCTGACTTT
GAAAAAATACACATATGTGTATGTTTATATAAGTATATGAATATATACATGCATATTTCTATCTATCTACCTGTCTAATATCTGTCATCGATCTATCTAC
CTACCTACCTACCTGTACATCTATCTCTCTAGAGATCTTCTCCACAAAAGCAAGGAAAGAGAATCTCTGACACTATATTTTCTTAATGAAGWTGGAGAAG
TTTTTGCAGTTCTCATTATTTCATTTCAGGCTTTCAGATGTTCAGGAGCCCTTTACTAGAAGGTTGATAGATTAATAATCTCCCCACTAAGCTTATAGCT
TAGCAGACCTCCATGGTGGCCATGATGAGGATTCCTTTAACACRTGATTKGCCCTTAGTCCCCATTTCTCTGGTGTGAGTTTTCAGCTTTTGTTACCACA
TCAAAGCTCCGGCAATTTGTGCAGGAARCCCCTTGAAGCAATCATGAACCCACTTGTACTGTAAGAGTTCTTACTTCCATGTCCTAAAAGAATAATAACC
ACAAAAGGATATTTCCTTGCTAATGGACTGGGGAGAATGGACTGTGACAAAGGCTGGTTTCTCATTGCCAGGATTTTAATGAGGGGACTCACCTGAAAAT
GTCTAGTGCACATTAGGCTCTTCTAATAGTTTCCGAGAGCTGGAGTAACAGATTACCACTAACTCAAATGGCTTAAAACAACAGAAATGTGTTTTCTCAC
AGTTCTAGTGGTTAGAATTCCATATTCATGGTTTCGGCAGGGCTGTACTCCCTCCGAAGGCTCCAGGGGAGGATCCTTCCCCACCCCTTCCTAGATGCTG
GTGGCTCCTGGCAGTCCTTGGCATTCCCTGCAGGTGCATCTTGCCAACCTCTGCTTCCATTGTCTCATGACCTCCTCTTCTGCCTCTCTGTCTGTGTGTC
CTCATGTGTTTTTGTAAGGACACCAGTCTTTGAGTTTAGAGCCTACCCTAATCTAAAATGACCGTAACTTTGTCACATCTGCAAAGGCCTTATTTCCAAA
TAAGGTTGCATTCTGAGGTTCTGGRTGAACATGGATTTTGGGGAGGCATCATTTAACCCAGAGCAACTGTCACTAAAATTTTCCTACCAAGATCCCTTAC
TCTAGTTTAATTGGCCTCTTATTCAAGGCCTACTCCATAAGTTATTTTGGAATATAGAATTTCAGAACAGAAATGGGATCTGATGATTGCCTAGTTCAGT
GGAACCCTTTCTTTAAATGGAAATTTAGTCACAGTAAAGGACAGAAAAGAACGCGAACCAAAGCTTAGGTGATATGTTTGCAGGAGGAAGGGGTGGCCCA
CAGTGACCCCCGCTGCCCCCTCCTCTTTACCCCTCACTAGGCTCCCGGAAGACTTCCAGAGCATCCCAAGGGCTCCACAAACCCCTGTTTAATCATAATC
CCTTTACTGTAGGGATTAAAAACTACTGTTTAGGGAGATATAGTGAATTTTCCCAAGTCACACTGCAACTTGAATCTGAGGCTTGACCCATCTATGAAAT
ATCCAAACTGTCGGTCCATTCATTTCTGCATTACCAACAATGGTCAGTTATATATTTTTCTTTGAGAAGAGAAAAGCAAAACAGTCCATGCTTGCAATTC
TTTTCTTCCTTTTTGTAAACTATGACAGAAAATTCATGGTGAGGCCAAAGCCATGACAACACCTGTGTTGCCTCACATTGATTTTCTGTTTCCAACTGGA
GGAAGAGGTTCCCGGAACAGCCACTTTTGAGTCAAGTGTGTGAGKAAGGAGTCTCTCTTGCCAAGGACTGCTGTAGATGATTCCTGCATAGCCAGCGCTG
TGCAGGGCCTCCACTTGAGTGAGYRCTCTGTTCCCATTCTATTTCTCACTAGTATTTTGAGTATKTTCCCCCCAAAGTAGAGATAGTATGTCTTTGAATG
CAAACCATGGGCTGAGCCYTCCAAATTACTTTTAAAAAATTAGCTTCTTCAAAAAATTTTTTTCCACTTCCCTACTGTCTTAAATATACTGGTGCTTCTG
CCCTAAGACCTTTCAGGAAAGGTACATGTTCTACCTGATTTACAACAATAGGTTATTCTGGGTAAATAATATATCTGTTGGATTTATTGTGCTTATTATT
TTATTGGACCACACTATCCTTAACCTAGAGAAGAAGCTTGAGGAAAGGAGCTAGGGTCAGGCAGAAGACAGGTATGTTTTGAAATAAGAAAGGAAAAGGA
AAACGTCTGGAACCTTGACATTCCACAGGATATTGTCCCATGAATACAAAAGGTGATGGGTAGCTAGAACCTGAGGGAGGAGGTGCCTTCTTTTGGAATT
AAAATTCCAGAATGTTCTGGAAAGTGCCAGATGCAAKACCAAGTAGGACCAGCTAGTAATGRAAATTCCTCCCATATTGACAAGGTTGATGAACACATGG
TGGGTGCAGCTCATGGAACACTGGGAGGTCAAAAGCGGTCTCAGTTACCTTTGTACAATGGACATGGCACCCCAGGTTAACACAGGGGCCACCTGCCCAG
CAGGCATGGGCATCAGATGAAGGCATTTTTTAAACACCTTATTTAACAATTCAGAGTCTAGATACGAGTACATTCTCATTTTAAATAGTTCAGAAAAACA
GATATTCCCTTTTCCTCCTTCCAAACATATTCTTCCCTTAGAGGCAACCAACATTATTAGTTTAATGAATCACTTTCCAGACCTTTCTCTCACATTTAGG
TACATACAATCACCCCTCGGTATCTGTGGGGGCCAAAATCCAGAAACCTCTGTGAATAMCAAAATCTGCAGATACTCAAGTCTCTTTTATAATATAGTGT
AATGTTTGCGTAAAACCTAGGCACATTCTCCCTATACGGTTGACCCTTGAACTACATGGGTTTGAACTGAATGGCTCCACTTATCCACATGTTTTTACCA
AATGGCAAATTGAAAATACAGTATTCATAAGATATAAAACCTGCATATAAGGAGGGTCACTTTTTCATACACAAGGGTTCCACGGGGCTGACTGTGGGGC
TTGAGTATGCATGGGTCAGGGTATATATGTGGGGGTCCTGAAACCAATCTTCTCCATATACAGAGGGACAACTATACTTTAAATCATCTCTAGATTACTT
ATGATATGTAATACAATGTAAATACTTTGTAAATAGTTGTACTGTATTTTAAAATTTGTATTATGTTTTATAGTTGCATTGTTATTTTTATTGTTTTAAA
CAATATTTTCAATCCATGATTGGTCAAATTCACAGATGTGGAACCCACAGAAACTGAGGACTGACTGTATATGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTAGACACGTAGAATTTTGTGATCTAGAAGTGTTAAATATAAGAGGTAATTATGTGAGGTAAATAAAATGTGTGCGTTAAATATAACAGG
AATACTACTATATGAATTTTTCTGAAATTTGTGTTTTAACATTTTAAGTTGTTTTTAACTATTCTTTGGTACGGACATTGTATTAGTCTGTTCTCATGCT
GCTGATAAAGCCATACCCGAGACTGGGTAATTTATAAAGAAAATAGTTTTAACTGACTAACAGTTCCACATGGCTGGGGAGACCTCACAGTCATGGCGGA
AGGCAAATGAGGAGCAACGTCACATCTTTTGTGGTGGCAGGCAAGAGAGCTCATGCATGGGAACTCCCATTTGTAAAACCACCGGATCTCATGAGATGAG
GGGAACAGCATGAGAAAGACCCAACCCCATGATTCAATTACCTCCCACCGGGTTCCTCCCACAACACATGAGAATTATGGGAGATCTCATCTTATTCAAG
ATGAGATCTGGGTGGGGACACAGCCAAACGATATCAGATGTACTTCGCATATCATGTATAGATGAGAAAACAGGCATTTCTTCCCAATTTTTGCCCATAC
ACATGTGGTGGACATTTTTCATGTGCACCAATATCTGGTCCTTTTCTGCTTCCTGGTTACAAGAGGTTTTATTAATACCTTCCCTCCCTGCCTTCTTGGA
GTTAGCTGTGGCCATGCCACTGGATCTGACCACTGAAATGTASTTGGAAGTAGTGGCATGCGACCCTTCTCAGCCAAAGTATACAATTGCCGGTGTTCAA
TTCTCCACCCCTCTTTACGCATCCCATCAAATGCCGATGTCTGAGTCATCTGTGTCCCTGGGTGTCTATGCTCATCAGAATCCTGCTGCTGACCTGCATG
CAGCATGTGGCACAGGCAAGAATTAAACCCTTGTTGTTTGACATCATGCAGACTTTGGAACTACTTGTCATCACTACATAATCCAGCCTATTCTGGCCGA
TACTCATAGCTATGAGCAGCCTTGTACATGCTTCTCTCTGCACCTGTGATGACATTTCTCCAGTAATGAATGTCTATTGAAAAGTTAAAACATTAAATTG
CTTTTAAAGTACCTTCTTATCCCTCCAGCCCCTACCTTTTGTCCCTAGGCTCCTCTGCATCTGTTGACTTTAGATTTTTTTTGTATTATTTATTCATGTT
TTATTAGATAAATATCTTCCCCAGACAAACCTTGAACTCCCTGGAGTCAACCGATTCCCTTGCCCAAGCCTCTGGTGTTAGTGATTGTTTCATTAAACTC
TAGTCTCAAGGCTAATCCTTGTTGGAAAATTCGTTCTGTCCTATAAGAAGGCTCCCAGGCTCCTAGTCTCAAACCACTAAACAGGCCGCACAGGTGTTTA
GTGGTACTTATTGGTGGCCATGTGACATTGTTATTTCTCTTTGCATATTTCTCATATGATTCACAGTGTTTAAAAGGATTACCTTTTTGGTTTTGGAGGT
GCAGATTTAGAGAATGGGATTTCCAAAGCCATATTGTCCCTTTCAGAGCACAGTGAGGGTGTTCTTTCTTACCCAGAGGGTCAACAGTGCCACAGGCTTG
CCAGTGGATGAGTTTAATCAACTCTGACTGTGTGGCCAGTGAGCAAAGAACATGACAGGGGTTTCTTTGAGGTGAGCAATGCCCTCCGCCAGAACCTAGA
AGTAGGGTAATGATGCTGAGGTTGGTGTACACTCAGAACTCAGTACTGCCGCAGAGTAAGGCAGACCCATCCCACCTGGGCTGTAGCTCCCACGATGGTG
AGTCCCTAGATCGTAAGTTGATGGGAAGCATAAGAAGGTCAGAACCAAACCAGAGCTTTGAGCGTTCTCTCACTGCATTCCATAGTTTCCCCGAGCGCTG
AAATTCTTTGCAACTTCCATTCATTTGCACATCTCATCTGGCTGTAAGGCATAATGTGGTCTGTGTGAAAAAGAAACTTCTGCAAAAGAGTCAGATTCAG
AGTTTATGGCAACATCAAGGAATAGTTTATCAGTTCAGCTGAGTATAACCACTTGATTTAGCACTTCCTTTTCATCATGCCTCTCCCCTCATCACAAAAC
TGCAAAGGCTCCCTGTGACATCCAAAGCCTCTTTGTCTTTCCCTGTTTAGGAAAAAGTGACCTAGAGGGAACTCTGCAGGGGCTACATACGGAATCTTGA
TGTTGCCTCCTGCCTGCTGTACTGTCCTGGTTAAATCCTTCCTCTTCTCTAACTCTGTGTCTCCATCTGTAAAATGGGGATGGTAATAGAGCCTATCCTG
CAGGATAATTGTCAGGATTAAAAGAGTTAACCCAAAACAGATAATAAGGGGTTCTGAAGATCCACCAGGAGCCTCACTCAGACACCTTGATGCAGACAGC
ACCTGGTAAACATGGGTGTTCAGAAGTATGGTCCTTCCCTTACGGCCCCTTACTCAATGGCCATCCATTGTCTGCTGAGCCTAGGTCCCTCACACCTATG
CCCCAGGCTCCTGTCCTGGAATCCTGGCTTTTACCACCAAATTCCCCAAAAGCCCCGTGAGTGGCTGTTTTGAGCTGAGGGCACCTGCTCCTACTGGCTT
CCTGGAGCCTTAGACGCACCCAGTGCTCTGGACCTCCCACACCTTGTTGAACCACCCGGCACTTSCTGACTCCTCTCCTGAACCTCATGTGCTTGTGACC
CACGATTCAGCCACTGTCTAACCAGCTCTTCCGTGTGCAGCCCTCAGAGCCCCAGCTCCCACGGCTCTAATTCCACGGCCGCCCCTGCCGTCTCYTCAGC
CATCCCATCCCGCCATCACCATGGAAACCTGTGGGAACAGCAGCTTTTCCTCATCCTCTTCTCCCCTTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTG
TCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCTTTTCACACATCTTATTTTCTTAACTATTTAGTGAATTCATCA
TGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGCCAGCTAAATATCCTTTCCTGCTCCATTCTAAACCTTTATGG
GTCTCCACAATAACCAGTAACTCCATGGTTGTAGAGTTCAGATAATCATGACATAAATGTAGGAATGAAGGCAAACAGGCCGGCCCTTCCCCCAGATGAC
TGGGGTCTTCCCAGCTGGTGTAAAACCCTCTTCTAGGTCAAAACATTTCTTAAAGTAAATGAGTGATGACTATGACAGGTGGGAAAGTACATAAAATAAT
GTGATTGAAATACTCTTAGTTGGTTCTGCTCCATTGACCCTAGGGAGGAAGAAACAACTAATTTGTGCTTTCTGTTATTGCATTGAAAGAGAGTGGTGAC
TCGCCGGGCKCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATCGAAACCATCCTGGCTAATACG
GTGAAACCCCGTCTCTACTAAAAATACAAAATATTAGCTGGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCG
TGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTGTGACTAAAAAAAAAAAAAAAAGAG
TGGTGCTTCAAAATTGTGTCTTTTTCAACGTTTGTTGTCTCTACATGGTAAAATCTGAATTTAGGCCTAATTCAAAATCCATGAGATTGGGAATGGGATT
GGGAATCTCATTATTTGCATTAATGTATGAGACTCTCTGAGTAAGTGTTGGTTTAAGTAAATTTTTTTCTTAAAAAACTCAGTAGAAATGGAACTCAGAT
TTTAAAATGGACTTTAAAATGGTCTAAAAAGTGTTTCTAGGTACAAAATGAATTGGASTTTACCTATTTTTTCCAAAGSGCAGGTAGCAGGTCTGAAGTG
AGAGAGGGAAACGTTCGATGCTGCGTTGTTCTGGGAGATGTGAGCCGCCGGCTCATTCAGAATGTGCAGGGATGTCCATTCCCACAGGRGCATGTGTCGT
TCAGCCAGGTGCATGTTTTACCTTGATCTACTGTGCTTGGAGCCTTTTCTTTCCCAGATCTAGGTCTGATACCTGCCCCTCCTCCTTACCCTGGACTGTA
ATTAAAGGGAATATGTGGAAATCCAGGCCACAACTATTTTACYTTCTGTGAATAAGGCCATCAAGTTGATGGCTTGTTACTGTGGGTCGATGGGTCAAAC
ATGAGGCAATTTGGGGAAACAGCCTAAGGTGGCTATACCACAGAGGCCAGCAGAGCAGGTAACCAGGCACAAGATGYGATCGCTGACGAGAGAGCTGCTG
TGACAGAGTAAGGAGTGCATGGGGAGGAGGGACCACTGAGGTTTGTCTGCGTGTGGGTACCCCATGCGCAGATCCTCAACAGCCGTTCCAAGGAAGTAGT
CATTTGGGAGATGAAGGGGGTGCAGGTAGAGGAGTGGGGGATTGAGACAGGGAGGGGAAGCCACCTAGCTAGTGAGGTTTGTGTAGCAAGAAGGTAACCA
CTCGGAGCACCTGGAGTTTAATCCTTAAGGAGACTGCTGAGAAACAGAGTGGTGCACACTTAGGGTTATTTTACTGAGAGGCAGGAGATGTAGACAGCGC
TGGGGGATGTAGACACCACTTGTTAAAATCTGGCAGAAGAGAATTTAGAGAAGAAAGGTATTGCTGTGTGGTAAGAGCAATGACTTGGTCAGGATGAGGG
TGGGCATGGAGCTCTGAGGAAGGGACGTACAGAAACCAGGACAGAACTCTAGCCATTATCTCCTTTCTTCTAGCGATCTGACAAGGTCCTGCTAGATCCT
TCACTAGACTCTAGGGCAGGCTTCTACTTAGTACAACTGATACCACCGCCATGCAGCCATCATGGCCCCTCCCAGGGCCCATTTGTTAGTAATAATAATA
ATAATGCTTAAGAAGCATTGAGTCCTAACTGTGTGTCCTATAAACTATCATAACCCGTATAGTCTTCATAAAGATGCCTTCAAGGAGACACTCTTATTAT
CCCCATTTTACAGGGAGAAAAAAATGAGCCTACGTTCAGCAATTTTAAGCAAATTTTCTATTGTCKCATGACTAGTAAATAGTGGAATAGGCCAGTTTTG
TTTTTTCACCTTGACTGACTGCAAATGTCTCAGTCATGATTCCTGACCATCTTCTAACCCTCTAAGGACCCAGACACTCCTAAGTAGTTAAAGAGTCTGA
CGTTATCAATCAATGGAAATATTTTCAAAAGGTAAAGAGAAAAGAAATTAAAGTTATGATGATCTTTTAAGGCAAATCCTGCTTTCTTGAAGCTTGGTCA
GCCCTGGCACAGGCAAAAGTGCATGTCATTTCAAGGCATGGGGCAGGTGAAATGGAACACGGCTGTCCTGGCGTCCACAACTCACAGGAGAGTGGAGAAT
GTGGAAGTTACATGCTCCATTTAGACATCAGTGTTCTCTACTACAAAATCGTTTCTGCAGTTCATTAATCAGACTCTCCAAATTTGTTTAACTCATTATT
TATAACAGCATTAAATCCAGTGACACCAAACGGTGTCACCATGAGTATCAGGAAGTCTGATTTTAATCCTCAGAAAATGTGTTCAATGTCTTTCCCTCCC
TCCTCCACACTTAACAGGGACAGTGAATGGAAGCCAGTGTTAAATTTGCACGATGTGCAGTGGTCTAAACTTTCACTGAATCCTARTCAACTTAATATCC
TGTTGCCTTTTTGAAATCCAGTGATGAAATGTAACCCTGAGACAGCTTAAACAGAACTCAAGCCTGGATGCTCTCTGCAAAATGGTCTAATTTGGTGGTT
ATAGCGCTAGTATTGTATGTACAATGATCAAATCCTGTGTTTTCAATTGTCCTTTTTATGGTCAATCAAGGCGGTCTTAGGATATAGATTTAATATCGCA
AGAGTCTAATGTAACAGGCTAATGCATGCCCTCCAGTTACAGGGAGAATGTCTTTTTGTGACAGTGGTTCTCTGGGTACGTCTTACAGGCTTCTATTTTT
GAACTTGACTCCAAGGGCCAAAGCAGCACATTTTGGAAATGGTTTTGTAAACTGTAACGAAGGTATCTTTCTTCAGCAGCTTCCTGCCCAAAGACGCCAG
AGTGCTTTACAAACTTATCAAAGTGATATACAGGGATCGTTTTAGCCTCTGCTGAAATACAGGGGCCCAGGGGGGAAATTACAGTCATTGKTGAAAAATC
TTAGATTGTCAGGTCGACAGGAGGAGGGAGAGTGTACAGCACCTAAAATATCCTCCCAAACTGGATGGCATGTCCCAAGGGCTGTGGTCTTATCTACTGC
CTGCTGCAGGTGACGTTTGTGAAAGGGGTCCTGTGAGTTTTGATGATTGTCTCTCTTAGACATGCTGGTAATACAGCTCCTTGTAAAGCTGATTCTTCCC
TTGGATTTGCTCATCTCATATCAGAGACTTTAAGGTACCCTCTGRCATACACCCTCTACAAAATAGGCATGTTGCATTTTTTGGCATACTAGACCATCAG
AAGGGGAACTGCTATATCACAGCCTCTGGAATCCTGGCTAACTACAGGGAAGAGATGTCTGAATTATAGCAGAACATGAAAGAAGGCAGCTTGTGCTTTA
AAGGAGGTGTTCAAAGCATGTCTGAGCAGAGACTTTTGGGCTCTGTTTTAATTAATACTTTAAAATAATTCATATTTAAAATATCAGATGTTTCCATAAA
GAGGAGGATGTTTAAATGCCTCCAGACTACATTCCTTTTTATTCTTGATTTTACCTGGGAGTCCAAAGTTCAATTCCATAAAGCAAGCGTTTATTTGTCA
CTTTCAATATACATCGATTGCCATGCTTAAGATGCAATATGGGCTGCGGAAATAGGTTAACCCACAGGCTCCCAGGGCCCAGTGTAGAAGGTGAGAGATT
CGTGTAAAATGATTCAAATAAAAGGAAGACCCTGGCCGGGTGCCGTAGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAAGCGAGTGGATGACGAG
GTTAGGAGTTGGAGACCAGCCTGGCCAACATCGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCAGGCACCTGTAATCCTAG
CTAGTTGGGAGGCTGAGGCAGGAGAATCGTTTGAATCTGGGAGTTGGAGGTTGCAGTGAGCTGAGATCGCGCCACAGCACTCCAGCCTGGGTGACAGGGT
GAGACTCTGTCTCAAAAAAAAAATAAATAAATAAAGTAAAAATAAAAAGGAAGACCTTGATAAATGCCATGATAGATACATTCTCATAAAGCCCAGTAGC
ATATTCGGGAGGTTTATGAGAACATATCAATAATTTTTATGTTTGTTAAAATATTTTAAACAATATTTTTATGTTTGTTAAAATATTTAGTTGTAGTTTA
TCTTAATTTTAATTTTGAAGTAACAGAGCAGGAGACCTAAAAAATATTCCCTACTAGGAGATAGTTGTGGAATATATAGCATTTGTATTTCTACATTTTT
ATGTGACACATTTAGGTGTTCCTTAAATAAAATGAARTTGACCAAAGTTCTGGTTAGTATGTAGCAAACTAAAATTATGTGAAAATATCCAAAGCCTTAA
CAGAGCTAGGATATTCCCGCATCCACACTCACACAGCTACTCACTGTAAAAGTGATCGTTGACAAACATAAGGAGGCAAATAAAAGGGCATAGCCTTTGT
CTTTTAAACCACTGTGACAGGAAAAGTTATGGGGAGTGGGTCAGTGAGGAAGGAAGTCTGAACATTGCTGCATTCAACAGAGAAAGTAAATGAAAGGAAG
ACGCTTACAAATAAGAGAGAAGAAAGGACCGCATTAACTCTAAAGAAGGGGCTAGCAGGTCCTGTGGAGCCGATGGGGCAGTGCAAAAGCCTGACCATGC
TGRTCTCCATTGGGTGGGTCCAATGGAAGAACGCTCAGGGTTACGTCAGGAAGGTGCCCTAGTTTTGGGGAAAGAACATTTCAACTCAGGTTCAGAGGAA
AATTTAGATATGTTAAAACTTTAGATAAGTTAATAGACAGGGCAGAAATGAAAGAAAGAAAGATTCTTCACAGGGAAGTCCTGGCTATCTAACTGTGAAA
ACCTGAAAGATAGTTGAGAAAGGCAAGAGAGGCAAGAAGGAGTGGAAATGAGGGGGATTCAGTGAGACATACGCAAAGAAAGGGAGAGAATAAAATGATA
CATTCAAAGAAGCGTATTGTGACAAAATGTGAACTTCTCTAATAAACTCAGTTTAAAAGAGAACATATAGGCCAGGTACCATGGCTCACGCCTGTAATCC
CAGCACTTTGGGAGGCTGAGGCAGGCGGATCATTTGAGGTCAGGAGTTTAAGACCAGCCTGACCAACATGGTGAAACCTCGGCTCTACTAAAAACACCCA
AAAAATTAGCCAGGCTTGGTGGCTGGCGCCTGTTATCTCAGATACTTGGGAGGCTGAGGCGGGAGAATTGCTTGAACCCAGGACGCAGAGGTTGCAGTGA
GCCGAGATCTCACTACTGCACTCCAGCCTGGGCAACAGAGAGAGACTCCATGTCAAAAAAAAAAAAAAAAAAGGCATGTAAAGTAAATGGATGCACATGT
GAGGAGCAGCATCCATGACCCATCACAAGTGTATGGGATCCTAAAGCTTCCTGACAATTGCAAATGTTAAATAAGCCAAAGATCACAAAAAGAGGTTTGT
TTTGGCAGTTGTGCACAAACCTGCTGCGAGGCAGCTGGTGCCCTGGTAAAAGGTGGCAGAGCAAATGCAGAACCACACAGGTGCCGGGTACCTCCTTTCT
GTGGTCAAAGAAAATAATCATCACCCTGCAAAAGGGTTGGACAAATATAAATAGGAGAAAATTGAAATCCAAGATAGTTGAGAAGATTATAAGTGTATCC
TACTGATTTAAACGAGTTCACACCTATGAAACTAGATGAATTATTTCTCACAGAAGACMCGGAGAAAATGGTGATTAGAATCTCTGCACCAGTTTCTGTG
ATTTTTTTGASACATCMTGAAGATGAGAGGTGAGTAGACAGCAGATGGGCAGGGCCAGCATGGTTTTTGTCTGGTTATTTATTTCTGTGGAATAAGTTCC
TAGAAATAGGATGTCTCTCTGGGTCAAAAGGTATGYACACTTTCACTTTTTTTTTTTTTTTTTTTTGAGACATAGTGTCACTCTGTCACCCAGGCTGGAG
TGCAATGGCACTATCTCCGATCCCTGGAACTTCTGCCTCCCAGGTTCAAGCGCTCCTCCTGCCTCAGCTTCCCCAGTAGCTGGGATTACAGGTACCCACT
GCCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCAACGTGTTGGCCAGGCTGGTCTTGAATTCCTGACCTCAGGTGATCTGCCTACCTC
AACCCCCCGACAAAATGCTGCTATTATGGGTGTGAGCCCCTACGCCTGGCCCACACTGTAACTTTTGATACATATTGACTAATTGCTCCTCTCCAGAGTT
TGTACCCAAATTATAAAGCCACCCAGAGTATATTAGAGGACCATTTATTATACCTGTTTGATAAAACTATGCATTTTTATCAACCAAATTTTTAAAAATT
AATGTGGCTTTATTGCTCATAAGGTTTAACTTTTTTCATGTATTTATTGGCCATTTACATTTCTTTAGTAAAATACAAGTAATGTTCCTTAGTACATTTT
TCTGTTTGGCTTTTTGTTTTATAGTACTCATAGTAATTGATATGACAAGAATATCAATTTTTTGTTGGCCTATATATTCCAAATGTGTTTTTTAAATGTT
ATATTTCAATCTTACTTTTTACATCTTTGTCATATGGCATCTTTACTTTTTAAACTGTTATTTTAGATTCAGGAGAATATATGCAGGTTAGTTATATAGG
TAAACTCATGTCATAGAGATTTGTTGTACAGATTATGTGATCAGCCTCGTACTAAGCCTAGTATCCAATAGTTATTTTTTTCTGATCCTCTTTCTCCTCC
CACCCTCCACCCTCAAATAGGTCCCAGTGTCTGTTGTTTCCCCTTTGTGTCCATGTATTCTCATCATTTAGCTCCAACTTATAAGTGAGAACTTGTGGTA
TTTGGTTTTCTGTTCTTGTGTTAGCTTGCTAAGGATGATGGCCTCCAGCTCCATCTGTGTTCCTGAAAAGGTCATGATCTTGTTCTTTTCTATGGCTGCA
TAATACTCCACAGTGTACTTGTACCACATTTTCTTTATCCAGCTCACCATTGATGGGCATTTAGTTTGATTCCATGTTTATTGTGAATAGTGCTATAGTG
AACATATGTGTGCATGTGGCCAACATTTTAAAAGAAATGGAGAAGGTAAGTTCTGGAAACTGGTAGCAGAACTTAAGCCGCGGTATAATTCTGAACAGGT
CCATCTGTTCGTCATCATTCATCTACTCTAAATCCATGCATCTCTGTTCATTCAGCAAATATTGATTATGTGCAGTGTGCTAGGCATTAGGAAATATGCT
AGAAAACAAACAGAAATAATAGTCCTTGCCTTATTGAAACTTAGAGTCAAATGAGGGGAATTATTAAACACGTTTTGTGAATTTTAAGAGGGCAATAGTG
AGATTTGTTTGATAGAAAGAGTAATATCGAGATCAAAATGTGTGTGGGTGGGGTCACGATCTTTGTGTTAGTCAGGGCCTTTGCTACTGCAAGTGCCAGA
AACTTAAATCAAAGTGGCTGAAGCAAAAGAACACTGCATGCCTCATGTATGCGAGAAGTCCATGAATAGGGCTGSCTTCAGGCCTGGCTGGGTGTATAAA
TTCAGATGGCACCCTCCACCAGGACTTCGTCTTCATCTCTTTGCTTGGCTTTTGTCTGTGTTGGCTCCATTCCCCATGCGTCACCCCTTCCCAAACCTCT
TACATGTTTTTATTTTCCCATAAGTTCTCCCCTCATAATGCAAAGGTAGTTGCCAGCAGCTCCAGGCTCACATCCATCCTTCAGAGAAACTCCARTGGAA
AGAGTCTAACACAGTTCAAACCAAAGCACAGGATGAAGTTCACTTAAATGAATATGGGTCCTGTGCTCGTCCATGAATCAGTGATGTGGCCAACAAAGAC
AACATACACTGGTGATCATGACCTGGGTCAAAGTCAAATGCCCCTCCTACAACTAGGAATGGAGTCACCCCATCTGTAAACAGACTGAGAGTCTGTGGGA
ACAAGGCAGTTTCCTATGGAAAAGAAAAGAATGCTGTCTGGTGAGGCTGTCTCCACTGCAGGCCCCACTGTGGATGGTGCTGGTCAGAGACTATCAGGGG
TATTAGGATCCATTTTTTAATCTTATATTCTCTCTCACACACTCTCTTTTTTCCCCCTCTCTTGGCTTGATTTCACTAGTTAGAGCCTTCTTTACAAAAT
CAGACAGAAGGGTTAAGAATGGACATCATTGCCTTGTTTCTGATGTTAAGTGGAAAGTATTTCATCTATTAAACATTTATACCACTAAGTATGATGCTCC
CTGAAGGCTTTTCAGATGTGCTCTTTATCATATTGAGTGAGCCCCATTCAATTTCAAATTTGTTAAAAATCTTTTATCATGAATAAGTGTTAGATTTTAT
CAAATTTTTTTTCTGCATCTTTTGAGATGATTGTTGTTTTTGTCCTCTAGTCTATTAATTAAGCTTATTGTATTAATTGATTCTTGAATATTAAACCAAC
CTTGCATACCTTTAATAAAGCCTAGTTGGTTATTTTCCTTGAGGTGTACAATCCTTTTGATAAGTTGTATTAGTTTTCTGTGGCTGCTGTAACAGATTAC
CATAAATTTGGTGGCTTAAAACAAGAAATTTATTTTCTTACAGTTCTGGAGCCCAGAAGTCCAAAATCGGCATCAGTGGGTGGAATTAAGTGCTGGCAGA
GCTACACTCTCTCCAGAAGCTCTCGGGGAGCTTCATTTCTTGCTTCTTCCAGCTTCTGGTGGCAGCTGGCATTCCTTTGCTTGTAGTCACATCACTTTGA
TCCTCAAGGCCACTATCTTCAAGTATCCCTTTTCTCTGGTGTCACATTGCCTTCTCTATCTCTCATAGAATCTCCTTCTCAATTCCATTTATAAGAAAAC
AGTGCTGGCATTTAGGGACCACCTGAATAACCTAGGATCATCTCCCCATCCTAAAATATTTAATTCAATCACATATGCACAGACATTTTTTTCCAATTCA
GGTAGTATTTACAGGTTGCAGGGSTCAGGATCTGACATCTTTGGGACCCATTATCAGTCTACTAACTATGTTATTAAATATAGCTTGCAAATATKTTGTY
GAGGATTTTGTTTTTATATTCCTGAGAGATATTGGTCTTTTTTTCTTTWGATATCTTTAAATGGCTTTGGTAGTAATGTAATAATGTAATAGTGGCCTCA
TAGAATGAGTTGGGAAGTGTTCTCTCCTCCTATATTTTTTGGGAGAGTTTGTAAAATACTGGTATTATTTCCTCTTTAAATGCTTGATAAAACTTACCTG
TAAATCTATCTGGGTCTGAGCTTTTCTTTGCAGAAATATTCTAAATTACTGATTCAATTTATTATTATTATTATTTGTTTTTAACTGTTTTCTGCTATTA
AGATTTTTAATTTCTTCTTGAACCAGTTTGGTAATTTGTGTCATTCTAGAAATGTTTTCTATTTCATCTAAATAGTCTAACTGTTGGCATAAAATTATTC
ATAGCATTTCCTTATAATCATTTAAATTTCTGTAAGATCAGTGGTGGTATGCCCTTTGTTATTTATTAATTTGGYGATCTGTGTCTTCTCTCTTTTATCT
TGGTTAGTTTAGGTAAGATTTGTCAATTTTGTTGACATTTTCAAAGAGCAAATTTTTGGTCTTATTGATTTTCTCTRATGCATTTGTACCTTTTTTGTRT
ACTTCAAAGAAGCCATTGGCAAATTAAATATGACTGGACAACTTTTCACATAAGTAACTAGGAAAGGTWAGGAAAGACACAGAATATAATTCAAGTCCCT
GAAGGCCTGTATTACAGAAGAAGACATAGGCAGATTCTTTCACATGCCAGGGAGTAGAACTCAGATTAGTGTATAGAAGTTTCGAAGAAGCAAACATGAG
TGTTGTTGCCCCCATCCTAGAACACAGACTCTAGAATCAATCAGATTTAGACCCTAATTCTGGCCYTGCCCCTCTTCTTGTTGTATGTATTAATTAAGGT
AATGTATGCTGCTATAACAGGTATGCCTTCAAAACTCAGGATCTTAACAAGTTGGTACTTATTTCCTGCTCTGGAGAGAAAAGCTCACAGAGAAGAATTT
TATGACCCATGCCTGAAAGTGAGAATTCTACTTATGTGCACATTCTGTTGACTAGACCTAAGGGAGGCTAGAAAATTAGTCAAATCATGTGCCCGAGAGG
AAAATAAAATCTCTTTGGTGAGCCACTAGCTAGTCTGTGCCACACTGTATAACCTGGGGTTTAACTACTTTTTGAGCTTCTGATTCCTTAAATGTGAGAA
GGGTATACAGGCCTACCTTGTTGATATTGAGGATTTGATTCCAGACAACGGCAATCAAGGAAATATTGCAATAAAGCAAGTCACACATATTTTTTGTATC
CCAGTGAATATGAGTCATATTTATACTGTAGTCTCTTAAGTGTGCAATAGCATCATGTATTTTAGAAAGTATATACCTTAAAGAACATTTTATTGCAAAA
AAAATGTTGACATAGAGACTCAAAGAACACATGTTTTAGGAAAAATGGCGCCAATAGACYTGCTCAATGCAGGGTTGCCACGAAGCTGCAATTTGTAAAA
ACTGCAATATCTGTGAAATGCAATAAAGGGAAGCATAATAAAAGGAAGTATGCCTGTAATAATTTCTGTCACATGGGTGTGTCCATACTGCTCAGTATCT
GGCACAAGGTGGGAATTTGATGAACATTTGTTCCATGAGTGAAGYGAGTTTAAGGACTGGTGTGCATGGTATGCTCAGAACTACATTTGGTTTATAGTAA
GGGTTCAGTACATAAGCATATTTACTGCTGTTATTGTTCTTAAGACTTTAGAGAGGAATAAAGCCAGACAAGAACATTTTAAGCTGAAGTTTGAAGAGTG
AAGTTTCCATCTCTAAAAGTTTTCAGGCAAAGGCCAACTCTTAGGGAGGTCACAGAGTCCTACTTTTGTACTCTGAGGCTATGGAATCTAGTGGGGCATC
AGACAAACCATAGTTTCATTTACTATCTTGTAACTTCAAGGAAGCCACTTTACTTTCCTGAGTCTGTTTCCTTGGATCCARAAACCTACTTAGTAGGATA
GCCATGAAAATTCAGTGAGATAAATCATATGAAACCAGAACACAGCTGATACATGCAGTGAAGCGGCTCTTAAATATGTGCTTCTTTCCTCTTACTTCGC
TTCCTCTTTATTTTTTCCTGGTCTATGATACAGAAAATCGTCTGAATTAATTGCATTTGAAACGAACATTGGTTGTAATTTAAGATAAAGAGAAAATTCC
TAGGTTGGGAATTGGGATCCTGGTTCTGCATTTTCCCAGCCCTTCCTCTCTGCAAATGATCACAGAATTACATAGTCTGGACCCCAAAAGCAATATCTTC
TGTTACTTAGGATTCAAGGCACACATGTTTGTAACAATTGGCTTCTCAAAACTTGTAAGAACTACTGATGGGTAAACAAGTCATGAATCAGTTTTTTATA
TTCAATCAAAGTTGATGGAGATTACCCAATTAAATAACTGGTATATAACTAGTTTCCCTATTTCCTTTTCCCTGTTTCATAGAAAAACTAGTTATACATT
GCTTTTCTGTAAGAAGGTGGTAAATGTAAATTGAGAAGCTCGAGGTTAGCAAAACAGAAGATAATGATCAAAGGACTCCATGTCTATGTGGTTGCTTTAT
GATAATGCTGAATAGCAGCCTTGTTCATGCAGAGACAATATAAAAGCCTTYCCCCAACTTCTCCCCCTCCTCCAATTCGTAAAAGTCAACRTAATGTTAA
AACAAAACAAGAAGTTTAGAATTAGGATGAAACCCATCTAGTAATACAGTAATGTCAGGAGGACAATATCAAAACAAATATTTATTTACTCAGGTGGTGG
TTGCGGTTTTCGGGCTTTTTCTCAGCTGCGGTGCATTTGTGGCTTTTATTTSTGCACTGCCGCTTGTTACTTGGAGCCATTACTTCCTATCTGTGTTKTC
AATCGTGTCTTGAGGTTATTCTAGCACCTTACRAAAAGCCACCATCCACCTAATTTTAGAGCTTTTAAGATAAAGCCCGGGAGCACTAGGAAGGTGRGTG
AGTTACCGTTATCAATCTGGAATGTGAGGTTTCCAGTGCAGTAGCACCACCTCTTCTAGGTCACCATGGCCAGCCCTTCTCAGAATACAGAATGATGTAA
TAAATAATGCCTGTGTGAAGTGAAAGCTTTGAGCAATGGAACCAGCTAACATCTAGAATTTTATTAGGCACAAACTTTCTCAGATGTTCTCAGTGCTATT
ATTACCCCCTCGTTAAAGCTGGTAATTCTTGTTTTTAAAGCACTTTGGAGACACTCATTGATACATGCCTGAAAAAAAAATAGATGTTTATTTTTTCCTT
AAAAACTTCGCATGAGACTTTAGAACCGTATACGAATAATACTCTGATTACTGAAGTGGGTGGATTTTCCAGTCTTTATTTTTCTTCCATTAATCATCTT
AAGAGATCCAAACTTTCCCTGCCATGAAATGCCAGACTTCATGCTGCAAGATTCCCCTAGTTGAGGGGAAGGGCAGAGCCAACCAGAGCCCCTGGCCCTC
TGTCAGGGGCTGCCTCCTTTAGCTCTCAGTAATACCATCAGCTCCTGGCCTCCTTATCAAAGAGGGAGGAGGTGACATAAAATTAGAGAAATGGCCCAGA
GAGGTGGCCCCTCAGAGCACCCCTAGCTGGTGTTTAAAGGGGAGCAGTTATGACGTTGTTACTGCAGATAATTGCCAGTTGAGTGTGGAGGCCCTGTGTT
GCCAGTCCCACCCACTGATCAGGAAAAGCTGGTAATCAGCCATGGCATTTGTATGCTGGGAAGGAAGAACAATGGGCTACACCAGCTTTATGTCAATCAG
CATTGCCCTGACATCCCCTATCAGACTTCTGCTTAAATCTTTTTGGCTAGAACAGGTCATGCACTAGCTGCAGAGGAGGTTGACAAAGTGAGTATTCGTG
TCCCCAGCCATTGTGGCAGATGAAGATCAGGGGAAGGTTTTTAGGAATGGGTATGGCATGGCCAACCTGAACACTGCCTACCAACATGTAGACATGATAT
TGGCTGGGTATTAAAGGAAACAAACATGTCAGACAGCCAGAAATGGCCCACAGCCCATGAATTTAAAACCTCTACCTAAGAGCAGCCCATTSCTAGCTCT
CGCACCCTCTCTGCCCTTGACCTCAATAATATACCATATCTTGATTCACTGGCTCCAGGTCTCCTACCACCRAGGACTTGCCTTAMTTTTTTTTTGTTGT
TTTCTCCATGGAGTCCATCTGTTGGAACATTCTGTCTACAAACTCCTTTTGTTAGGTAATAATGAGTTTTCCCATTTTAAAAAATTCAGCAAAGACTAGC
AGAGCTGCCAACCAGAGCCTCTGATCAACACAGGATAACCAGCAGGAGAGTTGGTGGAATTCCAGACAGTGGTAAGAAAAAAAATAAAAATAAAAAAGAC
ATTTTAATTAGTCTGTGCAGCTTTATCTTGCATAAATGGATACATTCCACTAGGCCAGGGATTCCTAACTTTTTCTATAAAGGTCCAGGTAGTAAACATT
TTAGACTTTACAGGCCACAGGGTCTTTGTTGCAACTATTACTTCTTGCCATTAGTGTGCAAAAGCACCCTAGACAATATTTAAAATGAATGGACATGACA
GTGTTCCAGTAAAACGTTATTTCCAAAAAAAAAAAAGAAAAAAAAAGGCCAGAAGACCATTGTTTTGCAGAYCTCTTGCATGAGGCTTTTAAAGGTATTA
AAACATTTTCGCACCCCTGTGCCTGTTTTCCTGAAAGTTTAGAGATCCTGAGTTGGAACACTGATTTGCATTATAAACCTTGCCCTGAACAATTCTCAGC
CTGTCCAGATTGCTAAGTTCTGCATGACATTCTTAGTAATGATGTCCCCACTTTCTTCCCTCTGCTCTGAAGCTCATTCTTGTTGAGCTTGATGGCATTT
TAGGCTTGACTTTCTCTAGAAGTCTTCACTAGATTCCTAGAAGAGGGAGGCACAGAAGCTCACAAGCTCTAGGYACAAAAGCCTTGAAGCTTTCGAGAAG
ACAGATAAGCCAGGAAGTGATTCTAGCTCTGCTGTATATCTGTGTAACCATAGTTATTCACCCAACCTCTGAGCAGTGTGAGGCATGGACAGGAGGACTT
CAACCAAACTGGGGTTTTCATCTCAGCCATGTTCATCCAGGGGTATCATTGGTCCATTAGTGATGAAGATGTTGTATTAATACTTTACTATGTGTTTTAT
TCCAGTGTCCGGTTATAATTGTATAAGAAACCATCATAAACTTACCATCTTAAAGCAATAACAATCATTTGTTTTACTCACAAATGTGTCATTTGTGAGG
GCTCAATGGGGACTATTCATCTCTGTTTTTCACGGTGTCAGTTAGGGTAGCTTGAAGGCTGGGGTAACTCAATAGCTGGAGGTTGGGCTCCTTTATTCAT
TCCTTAATGTGCTTGGTGGTTGATTCTGGCTGTTGGCCRCAGTATCCACACATGGCCTCTCCACGTGGCTGCTTGGGCTTCCTCACAGGATGGTAGSTGG
TGCCAAGAGTGAGCATCCCAAGGGAACAAGGTAGAAATGAGTGATATTTTATGACTGAGGCTTGACTTTACCATATTTTATAGCAGTTGGGGCAGTCATA
GATTCCCCTGAGGTCAAGGAGACAGAAAATAAACTCCTACTCACGGAGAGTCATGTCACCATTACCTTGCATCGTGAGCATGAGAGATGTAATATGATGG
CTATTTTGGGAAAATTCAGTCTCCCATACAGAATATAACTTGAGCTATTTTCAGCCCATGTTTTACCATCTTCATAATGCCTTATAGTTGAAGTAATATA
AGGATACCTCACGTGAGTAGAGGCTGCGGGTATTTAGAAGACCCAAAACAGATGTTAAATGTTCATATGTGCCATTTTCTCTTCCTATAACTATTTTTCT
TCTTCTTTCTCTGGGAAACTCCAGCTTACATTTTACTTTTCGGCCTAGAAACTGTTCCTCAAGAACTCTTCCCTAGTAAGTGATCCCATAGAACGCCATG
TTTCCCCATCATATTCCTCATCACACTGTAYTGTCATTGCCAGCTTATGACTTTGGTCGTGAGTGATAACAGGTAAGGAACCATGCCTGTGTTACTCACC
GCTCAGTCCTCAGCCCAGGCACCCTGCCTAACACACAGCCGATCATCAACAATGTACTTATTGAGTGAATGAGTGACCAGTGCTAATGAGTTACTGAATA
TTGAGAGAATTGGTTGGTACTTCATAAACAATTCTTGAACCCTTCTTAAATAGCAGTCATTGTATTAGATATTGGGGCTATAAGACATGGTCTAGTTGGG
GAGATATATGGTTCTAATAATAATTTACATTTAGTAGCTATGTTTTTGCTGTGTATCTCTCATGCTTTTCATGCATTGTGATGGGGATGGTGACATGCCT
CTCAGCGAGAGTAGCAGATTGTTTTATTTCAGAACTATGATCATACCATTTGTACTATTTGGTCATTTTTCTCCATTCAATAATATAAAGTAGGCAGTCG
TGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGKATGCGTGTGTAATCCACATAAGGCTTTTTGATGACTGCATATTATTTCTCATCATTGCTGTCTTCTA
ATTCATTTGACCAGTCCTGTAATTGATGGGCATCCAGGTTGCCTCTAGGTTTTCACTTCTTATAAGCATTGCATAAATGATATTTCTTCATGTGGACCCA
TTGCATGTGGCATTGAATTATAGAAATGATACTGTTGAATTGAAGATAGGCCCAATTAAAATTTTGACACAGACCATTAACTGTCACACAGATTTATATT
GCCACCAGGAGCATTTGAAAGTGTTCTATTCAATTCCACACACCAGGGRTACTATCATCCTTACTCAATATCTGCCAATCCTTTGGGCAACATAGAATAT
TCTACTGTTGTTTTCATTTGCATTTCTCTTAAGACCTTATCTGGAGAATTATGTTTTTTCAACATAAATAAATAAGAATTGTCCAAGGTAAGAGTTGTRT
AGGCTCTGTAAAAACTCCCCAAGTTTCAGTAATTTACAGATTTGAATGGATAAACATCCTTATTGTTCTTAAATACTAAAGTAAGAGCAGATGTAAGAAG
AGCTTACACTTTTTATTATATCTGACATTCAATGGGAAACCACTGGAAAGGTTGGAGATTGGGGTGACCAGTGTTTCTGAGATGAASYGAAAACACTTAG
CCTCTTTTCTTCTTATGTCCATTCTTCTGTGTATTGATAAAGCCTCCATTTTTCTGACATTGGAATGGGAAGAGATGTTTCAGTCTCAGTCTAGGTTCAA
TATTACCAAAGTGCATAACATTATATTCAATTTTTGCCTGGCACTTTCTAAGAGATCTCTGATTTGTAGTTGTAGTGATGACTTTCATAATCTATTTTTG
GAACCATTGTTTGTATTTTTTAAATGATTAGATCACCTTTAAAAAATATGCTATCATTCCAATCAGGTTGATACCATTTGTTTTTAATTGTTCACTAAAG
TATAGCATATATCATAGAAGGAATGTTTGTGCTCCCCAGAATTCATATTTTGAAACCTAGCTTCCAATGTGATGGTGTCTGGAGGTAGGGCTTTCATGAG
GTGGTAAAATCATTAGGACTTTACWCTCAGGATATTATGAGATTAGTGTCTTTATAAAAGAGACCCCAGTGAACTCGCTCGTCCTTTTCTACTACATGAG
GACACAATGAAAAGACAGCCATTGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGGTGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAGA
TGGTCTAGCCAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCTGSGCATGGTAGTGGGCGCCTGTAGTCCCAGCGACTCGGGAGGCTGAAG
CAGGAGAATGGCATGAACTCGGGAGGCGGAGCTTGCAGTGAGCAAACGTCACGCCACTGCACTCCAGCTTGGGGGACAGAGTGAGACTCCATCTCAAAAA
AAAAAAAAAAAAAAAGAAGACAGCCGTTGATGAACCTGAAAAGAAGCCCTCACAGACACCAAACTTGCTGGTGCCTTGATCTTGTACTTCCACCTCCAGA
GCTATAAGAAATAAATTTCTGCTGTTAAAAAGCCACCCAGTCAATCATATCCTGTTACAGCATCCCGAAGAGACCAAGAAACATACCTGTAGAAAGGAGT
AGTCATAACAAATCTATAGATTGATTAGTTTTCACAAACCAAACACATACACATAACAACACTCAGAGAAACAGAGTTATGACTGGCCACCGGAAGCCCC
ATGCCCTCTCAGTCATATTCCACAAGGGAAATCACTATCATGACTTCTAATAAAATGCATTAGTTTGTCTCTTTTTTTTTTTTTTTTTTTTTTTGAGATA
GAGTCTTACTCTGTTGCCCAGGCTGGAGTGTATTGGTGCAATCTCAGCTCACTACAACCTCTGCCTCCCAATATAACCTTTGTATTTTTAAGAGAGATGG
CATTTTGCCAGTTGGCTAGGCTGGTCTCGAACTCCTGGCCTTAAGAGATTCACCTGCCTCTGCCTCCCAAACTGCTGGGATTACAAGCATGAGCCGCTAC
GTCCGGCCTGTTCTTTATGTAAATGGAATCATAGAGAGTGTACTCTTGTGTGTCTGTATGGGACTCTCTCTTTTTGAATACTGTAATAGATCAACAGCTA
ACATTTAACAGAGATGCACCAGGTACTTTTCTAAGCACTTTATATATGTTATATTAAACATAGGTGTCTTAACTATGGATTATATGGGAATGTTTTAACT
TTTTYTTGAAGTAACTTTATGGTTTGTATACGGATGCCAAATATAGATACATATCTAATTTATCTATTTTMTTTTTTTAGAAATAATTTCTTAGAATTAG
GAACCTCTTCAGAGCCATAATTGCAAAAAGAGCTCCCCGTCAGCTCTCTTTGCAGTCGAGGTTTGTAATTATTCTTAAAAAGAAAACATATTAAGATGTT
CTTAGGACTCTGAGTAGTTATGCCCTCAGATAAATGATATTAAACTAAGCACTTAAAATTAAAGCTATAAAGCATTGGTGATGCCCAGATATATCAGTAC
TCCAGTTCACCCTAGGTGAGAAGGGCAGTGGGGATTAATAGCCCCCTCTGTCCATTTCCTTTTTAGGAAATGATGACCTATCAGAGAGGACATAAATCAC
TCCTCTTCCCAAATTAGATTAAAATCCTGAGCTTTAAAACTTGCTTTTACCTGCAGACTCTAATGTTMGACTYGTGGCTTTGTCATTTCCCCACAGGGGC
AGCTTCCGCTGGTTTTACAGGACAGAAAAGTTCTGTTTCTATTACTGAAGAGGTTGAAMCCTCTGCTGAAGCTAATTCCAAACAAAGTAGGCACCATATC
TTCTTTCAAAAGATCCCTTAGGGAATAATTGCAAAGAGATGCTGTGATTAGGTAATTACATGTGTGACTCTGCCCAAGAAACCTGCTTTCTACCTAATTT
ATACTTTGATTTCCCTCTCTCGTGTCAAAAAGCATATCTAGCCTTATTTATCTGACTACCCTGCACAGAATTTTCTCATCATGTAATTGAAGGTCACTAG
AAAATAATACTTTTTTGAAAGCGTGTCTGATAACAAACAAACAAAAAATGGTTAGAATCACTGCTAAATATGAATAATTCTATTTTCCAATGCTAAAAAT
GCACATCTGTTCCAGAAAGACTTGGACTCACATCCTACTTTTCAAAATGCTTCAGCCATTCAACCCTTGATGCTATGGGCATAAATGAAGTCTAGAAGTT
CTATAAGCAGTGGGGAAGCTAGAATTGGACCTTGAGGTCCCCCCCTTTTTTTTTTTTTTGATGTTTGTTAGGAATTAAGATGGCCTTAGGTATTAGTCTG
TTTTCATGCTGCTGATAAAGACATACCTGAGACTGGGTAATTTATAAAGAAAAAGAAGTTTAATGGACTCACAGTTCCATGTGGCTGGGGAGGCCTCACA
ATCATGGCAGAAGGCAAAGGCATGACTTACATGGCAGCAGACAAGAGAGAAAATGAGAGCCAAATGAAAGGAGGAACCCCTTATAGAAACATCAGATCTC
ATGAGACTTATTTACTACCAAGAGAACAGTATGGAGGAAACCATCCCCATGATTCATTATTTCCCAYATGGTCCCACCTACAACATGTGGGAATTATGGG
AGCTACAATTCAAGATGAGATTTGGGTGAGGACACAGCCAAACCATRTCACCTTACAAGTTCCATGTCTAGTACAGAGCTTGACCCTAAGTGGATGTTCA
GAAAGCATCTTCAGAATGAAAAGGGGGGCACAGTTAAGACCTCTGGTAAATTGTACGATAGCTTGTGGGGGGAAAATCACTGTAGTTAGTGGGAAGAATG
TGGCTTCTTTGCTTAGGACAGTTGTGGATTTACTGGCTGAAGGAATCACTCACAGAAGTCATTCTACATTAGTGGTCAAAAGCATATGCTTTTGAGTCAT
ATAGATGTAGGCAAATCATTTTAAAGATTGTTGCTATATTTTTAGTATAAGTGTGTCCTGCCCAACATTGACACACACTTATTCTAAAAAATTGTTTATC
TGAGATTCAAATGTAGCTGGGCACCTTATTATTGTATTTGTTTGTTTGCTTTGAAATCCTAACTCAGTCCCACTAGTCCCATTTTTGTAATGTTTAGCTT
TCAGGCAACAACCGCTGAAGAGGTAAAGAGATTATTTTTSAAGAGTCATGTGATTTTGGCTGCTCCTAGCTGACCTACTAGAGAAAAATCTTAACATTTT
CCACAAACTTTTCCATTAAAATAGAGGATAGGTCATTGCTAAAGAACTGGCAGAGCTTCCCAAGACAAAACTTGTGGATAGAGTGGAAACTATGATCTAG
CCCGTCCAGTGAGGTAGACTCAAGATCAGGTACATAAACTTTACTGAAAAAATGTGTTTTTTCTCATGGGACGTATTTACTTGAGGAAGTATTTAATCCC
TTAGCATAGACCTTTAGGTTTTCAATGAAAATATGATGAGTTGAAACATTTGATATGCTGATGGCATTCTGACTGATACTTTTCATAACAAATTCAGAAG
TGAAAAATAATTTGGTATGCTGAAATGGTGGCCTAAAGTGTGAACGATTAACTTAATAGGAACAAATGTAAGATTCCGTACTTGWTTCTAAACAATGAAC
TTTACTAGTAGAGAAGTTGACTAGTAGAGAATGAAGTTTACTAGTAGAGAAATTGGGAAGCCATGATTTAGTAGAGGCATAAATGAAAGCAAGGGTTAGC
ATTTTAATTTAATTTTAATATCAGTATATTGACTTACCAATTTCATATTTTTTTATATTTTTATGACATATCTTTGAGAAAGGGGTTTGCATGAATCTTT
AGGAAGGCTGAATCAAATGATTCAGGGTTGGGGGAGTGATATTGGCAGTTACATGTTGTATTAGTCCATTCTCATGCAGCCATGAAGACATACTTCAGAC
TGGGTCATTTATAAAGAAAAGAGGTTTTAATTGATTCATGGTTTTGCATGGCTGGTGAGGCCTCAGGAAAGTTACAGTATGGCCGAAGGGGAAGCAAATA
TGTCCTTCACATGGCAGCAGGAGAGAGAAGTGCAGAGCAAAGGGGAGAAAAGCCCCCTATAAAACTATCAGATTTTGGGAGAACTCATTCACTATCATGA
GAACAGCATGGGGAGACTGCCCTCATGATCCAATCACCACTCATGAGGTCCCTCCCCCAACACGTGGGGATTACAATTCAGATTACCATTCAAGATGAGA
TTTGGGTGGGGACACAGAACCAGACCATAGCATTCTGCCACTTGCCCCTCTCAAATCTCATGTTTCTCACATTTCAAAACAAAATTATGCCTTCCCAACA
GTTTCCCAAAGTCGTAACTCATTTTGGCATTAACCCAAAAGTCCAAGTCCATAGTCTGATTTGAGACAAGGCAAGTCCCTTCCACCTATGAGCCTGTAAA
ATCAAAAGCAAGTTAGGTACTTCCTAGATACAATGGAGATACAGGCATTGGGTAAATATGCTCATTCCAAATGGGAAAAACTGGCCAAAACATAGGGGCT
ACAGGATCCGGGCAAGTCTGAAATCCAACAAGGCAGTAATTAACTCTTAAAGCTCCAAAATAATCTCCTTTGACTCTGTGTCTCACATCCAGGTCACATT
GATGCAGGAAGTGTGTTCCCATGGCCTTGGGCAGCTTTGTCCCTGTGGCTTTGCAGGGTACAGCCCTCCTCCTGGCTGCTTTCAWGGGCTGGCAGTGTCT
ATGACTTTTCCAGGTGCTCTGTGCAAGCTGTCCATGGATCTACCATCCTGGGGTCTGGAGGACAGTGGCCCTTTTCTCACAGCTCAACTAGGCAGTGCCC
CAGTGGGGACTATGTGTGGTGGCTCTGATCCCACATTCCCCTTCTGCACTTCCCTAGCAGAGGTTCTGCATGAGGGCTCTGCCCCTGCAGCAGACTTCTG
CCTGGACATCCAGGCATTTCCATACATCTTCTGAAGTCTAGGCAGATGTTCCCAAACTCCAATTCTTGATTTCTGTGCATCTGCAGGCTCAACACCACAT
GGAAGCTGCCAAGGCTCGAGGCTTGCACCCTCTGAAGCCACAGTCTGAGCTGTACCTTGGCCCCTTTTATCCATGGCTGGAGAAGCTGGGACACAGAGCA
CTAAGTCCTTAGGCTGCACACAGCTGGGGGGCCCTGGCTCCAGCCCACAAAACCATTTTTTCCATCTAGGCCTCAGGGCCTGTGATGGCAGGGGCTACCA
TGAAGATCTGTGACATGCCCTGCAATTTCCCCATTGTCTTGGTGATTAACATTTAGCTCCTTGTTACTTATGCAAATTTCTGCAGCAGGCTTGAATTTCT
CCCCAGAACATGGGTTTTTCTTTTCTATTGCATTGTCAGGTTGCAAATTTTCCAAACTTATATGCTCTGCTTCCTCTTGCAAGCTTTGCTGCTTAGAAAT
TTCTTCCACCAGATACCCTACATCATCTCTCTCAGGTTTAAGTTCCACAGATCTCTAGGGCAAGGGCAAGGGCAAAATGCCATCAGTCTCTTTGCTAAAG
CATAGCAAGAGTGACCTTTGCTTCAGTTCTCAACAAGTTCCTCATCTCTGTCTGAGATCACCTCAGCCTGGACTTCATTGTCCATATCACCATCAGCATT
TTGGTCAAAGCCATTCAACAAGTATCTAGTAAGTTCCAAACTTTACCACATTTTCCTGTGTTCTTCTGAGTCCTCCAAACTGTTCCAACCTCTGCCTGTT
ACACAGTTCCAAAGTCACTTCCACATTTTTGGGTATCCTTACGGCAGCACCCCGCTCCCTCGGTACCAATTTGCTTTATTAGTCTATTCTCACACTGCTA
CAAAGACATACCTGAGACTGGGTGATTTATAAAGTAAAGTGGTTTAATTGACTCACAGTTTTGCAGGGTTGGGGAGGCCTCATGAACTTACAATGATGGT
GGATGGGGAAGCAAATACGTTCATCTTCACATGGCAGCAAGATGGAGAAGTGCAGAGTGAAGGGAGAGACAGCTCCTTATAAAGCCATTAGATCCCATGA
GAACTCACTCACTATCATGAGAACAGCATGAGGGGAAGGCTCCCATGACCTAATCACCTCCCATGAGGTCCCTCCCCCAACACGTGGGGATTATGATTTG
GATTACAATTCAAGATGAGATTTGGGTGGGGACATAAAGCCAGACCGTATGACATGGTGAAATAGTTACAACTGTTTTCATGAAGCTTTTTTGGTCTCAA
GATCTGTGTGCTATTTGAATAAATGAGATGCAGCTGGTTTCCAACGTGTTTTCCTAGCATTGGGGTTTAAAGAAAAAAGTAAAAAGGACCTACCTTGGAA
ATCATTTCAGAAAACTGATTCTTAAGCAGTGATTCTCGAACTTGAGTGTATATCAGAATCACGTATAGCAGGGGTCCCCAACCTCTGGGCTATGGACCAC
AGCAGGAGAGTCAGCAATAACCCCCTGAGCTCCACCTCCTGTCAGATTGGTAGTGTCATTAGAGTCTCATAGAAAGTGGCTATGTTGCCTGGGGTATATA
CCCTGGGGTTTCTTGTTGTGTACCAGGAAAATTTAGGTCATGGACACACACGAGGAGTTTAGGAGTGGAGGTTTAACACGTAGAAGAGAAGAGAAAGAGA
AACAGCTTCCTCTATAGAGGAAGTGGTCTTGGAGCAGAAAAAGACCAGCGGGTGGCAGCTGTGCTGAATTTTATAGTCAGGTTTAAAGAGGCAGTGTCTG
ATTTGCATAGTGCTCACCCATTGGTTCTGTCAGGTATGATGTTTACACAGGGCATGGGCAAGGCTGGTCACCCCACCCTAATCTTATGCAAATGGGCTTT
CCAGTTGATTGGCACCATCTTGTCTGCTTCTTACTGTACATGTGGCTGGCAGAGAAAGGAAGAYGGAGCTGCCATCTTGAACATGTCTAGTCCTTAGTTC
CTGCCAGCATTCACCTGTGCAAGTCTCCAGCTTGCTTGTCTATGTCTGCAGCTCAACTTTACATTTTCTTTGTTAGAAAATKATTTGGGGTTGCTTTTTA
TTAAAAAGAAAAGCCTTACCAAGGATTCCCATGCCCTTACCATCTGCCTGTGTAATTTCTTCTTAACTCCTGTATCATCAGGAACGTGAACCCTATTGTG
AATTGTACATGCCAGGGAWCTAGATTGTGTGCTCCTTATGAGAATGTAATGCCTGATGATCTGAGGTAGAACAGTTTCAACCCGAATCCACCCCACCCAC
CAACTTTCCCCATCCCATGAAAAAATTAGCTTCCACAAAACTGGTCCTTGGTGCTGAAAAGGTTGGAAGACTGCTGATCTATAGGGTTTATTAAAACAGT
AGGCCCCCCACCTTCAGCATTTTTAACTCAGAAGTTCAGGGATGAGGACTGAGAATTTGCATTTCTAACTAGTCCCCCGAGTSGTGATGCTACTTTAGAT
CGTAACGTTCATATTGAAACATTTGTCCTACCTACGGATGCCAATGACCAAGGCATATGTTGGACGAGCACTGTGAGAATAGGTAGAATCAACTCTACTT
GAGTGCATTGCCCACACAACTGCTTAGTCTTGTGTGCGTTTAGGGAAAGAACAGGTGGGGAGTGGGGGAGGTACACTTCGCCCAACCATTTGCTTGTAGA
TCTTCATGGACTCCTCCCAGAGTTCACCTTTGAAGACTAAGGTATGGTAGTGCCAAGAGTGGAGATACTCCTTTATCAGGGCCTCTGGGGTCATGGTCCT
GGGCTGTGACCTCAGCACGACATCAGCACAACCAAARCAAACCACAGGCTGGTGTTTAGGTTCTTGTCAAGACCTCATGCATCATTAAACAGAGGGCAAC
TGCAGAGCTCTCCATTCTGTTTTAAGAAAATAGAAATAGTAACTAGCATTAAACTAAACCCACAAACGCCTGTTCCCTCTTGATAGGGTGGTCACGCTAC
TGCTGCATTGTTTTGCTTTTTCTTTTTTTTCTGATGCAGCTATAGTACAAGCCGTGACTCATGCTAGGTGCTAGCCTCACAGATATACATAAACATTCAC
AATCAGGTTTCCAAAGCTGTTTCCTTACTTCCCTTTGTTGCTATTTTACTTTTCATTGGAGGTTGGGCGAGGCARTCTTTAAATGAAGCTATTTTTTCTT
TGTCTCTCTGTCCCTCTGTGTCTCTCTCTGTGTCTCACACACATACACATGCACACACASACACACACAGACACACACACACACACACACACAGTCTAGC
TGAATCACGAATTCCGTGAGAACAGAGTCAGCATTTGTATATTTTCTCAGAGATCTATTCCTAACCTTAATGCCATACCTAGCACATAGCAGACACACAA
AATTTGTGACTGACTGAATGAATAAACATGTATATTATTGCAAGCCAGTTGCAAACAGATATATTGTTGCAAACAGAAGGTTACCTGTTGATCCTTCCTA
TGTTATCTCTGAACTGCAGGAACTTCATTTTTTCTATGAACCAAATGTAGGTCATCATGAATCAAGCGTCCATAATATCTGTTTGTCCACATATAACCTA
TTTTATAGCAGAGCTTATATTCTGATGATTTGTAGATTTAATGTTGTTTATTCATCATATCTATCACATTTGTTTTTTAAATATTTCTAAACAGCTGATT
AAAGTACAATTGGATGGAGGTAAAAATATTTTTAAAGACGTATAATATAAAAGGACAGTAATTGGATATAGTTATTCAAATGTAACACTTAATTTACTTT
GAGTTTTTACTTAACCCTGTAACAATGGAATTGTGTTAGCTTACATAATTTTCATTGTTTAATTGAAAGAAGAAGAAAAAGAAAAAGCAGCTGCAACAGC
GGTAGCAACAACACGCCAAAAAACGGAAAGATAATACTTTTTCCACTTGGCATTTATTTCTGGGAAGAATGTATCTTAAGAGCCTTTACTGAAAAGGGCA
TTGAGTTACACAGGCAATAGCTTTTTCAACAGCTATTTTTCCAGAGGTGTAAAAACAGCCTTTGCCTGGTTACATTGTATATCTTACCTCAGTAAAGWCA
TGAAAAGGAATCGTGATAAGGTGAATGCACTCCTACAGAGCGCTAAGCTTCCTGGCGATTTGACTTGATTCGGGAATAGAACTCAGTAAACTGAGCAGAT
TAAATGATCAATGTTTCTTTTAGATTAGCCCTCTCAAATATCAATGGTCTCTGCCAGCCTTAGATGAGATAATGAGGTAATTTCAATACTGAGCTTTTGA
CAGAGTGTCTGAAGTGTAAAGAGTCTGTGGTATTAGAAACATGTCTCAGCATGGCACTGCCCAGCATCAGCAGGGGCCTTCTGAGAGGCCACCGTTGTCC
AGAGTCTAAGACACTGGTCCAGTGGGGACACATGAGATGACATGGGTTTGTGTGTGTCTTAATTGCAGTCCTCGAGAAGAGACAAGGATGTGAGTGTGTA
TAGTTTATTTAAAAGGTGCAGGAAGCATCAGTACTGCACACAAGACAAGGAAAAAGAAAGGAGAGTCAACGTAGGGTGCAGTATTAAGCTATGGTAGGCA
ACTAAAGTTTAATCCTGTAAGAAAACTCTGGAAGTAATGTAGAAGACACACTTCAGAGTTATCCATCCTGAGGAGGGAGGGAGTTCCCTTCAGCTGGAGG
TACTTATTTCAGTGCTCTTGGTTGAGGACTACTCCCAGAAAAAGGGTGTTGATTTGGGAACACTTCCAACCAGAGGGGCATCACACCTGCCACATACACA
GGAAGATTCATCTTCTGTGGTTCTGGGAAAAGCCTTCAGGCACAGAACTGCACATCCTGCAATGGGAGGTTGTCTGGAGCACAGTGAAGTGGGGTGCAGT
CTGAGGAATTTGGCAAGACACTGACAGCATCTCCTCTGGTGTGGAAAATGGCATTAGAAAGCAGTGGTCACAAGGCTGGGTGCAGTGGCTCACGCCTGCA
ATCCCAGACATTTCAGAGGCTGAGGCAGATGGATCACCTGAGCTCAGGGGTTTGAGATCAGCCTGGGCAACATGGTGAAACCCTGTTCTACTAGAAATAC
AAAAATTAGCCAGGTGTGCTGGTGTGCACCTGTAGTTCCAGCTACTCAATAGGCTGAGACAGAAGGAATGCTTGAGCCAGGGAGACGGAGGTTGCAGTGA
GCTGAGATGGCACCATTGCACTCCAGCCTGGGTGACAGAGTAAGACCTTAGCTCAAAAAAAATTAAATAAAAGGGAGCAAGGGAGAGGGAGGGAGAGGGA
GAGAGGGAGGGAGGGAGGGAGGGAAGGAGGGAGGCCTGTTGACAGAACAATGAATAATTACGCACATACCTAAAGCGAATACTCAGGTGAGATCCCCAAG
TACACTCTTTCAAGTATGGGTTAGATATTCTAACTGAAGCAAATGTAAAAATTGAATGTTAACAGTGGGTCTCTTCTATTAGTGTGGTTGTTTGCTGTCT
TCTCCAGAATGGATGTTTTTAAGAAGTCCTTTCTCCTCACCGGTTCCCACTAGCTGCAAAGGTTACCCTTACATCCTTGAATCTCTGGATTTTTTAAACC
CATTTCTCTAATGCTGCTTATAATATTGTTGATAATATTTGTCACCCCTTGGCTTGTTCAAATATATTTCATTCCACTATAGGTATATTCGCACGTTTTC
ACGCTGCTGATAAAGACATGCCCTCGACTGGGTAATAAGGAAAAAGAGGTTTGATGGACTCACAGCCCTCACAATCATGGTGGAARGTGAAGAGGAGCAA
AATCGTGTCTCATGTGGCAGCAGACAGGAGAGAATGAGAACCAAATGAAAGGGGTTTCCCCTTATAAAACCATCAGATTTCATGAGACTTATTCACTACC
ATGAGAACAGTATGGGGGAAASTGCCCCCATGATTCAATTATTTCCCACCAGGTCCCTCCCAYAACGTGTGGGAATTATTAATTCAAGATGAGATTTGGG
TTGGGGACGCAGCCAAACCATATCAGTAGGTCAAATGCAAAGCCTGAAATATGGAGAGGAAGACRTCAGTATAAATCCTGGTTCCGTCACTTGAATACGT
TGCCTTGAGCAAATTATTCCCTTGCAGAATCTCAGTTTTTCCACCTGTAAAATGGAGACGGCAAAAATTAACAGTCACCTCRGGGAGTAATTATGACACC
AGAATGAGCTAATAAACATCACTGTTTTGCTCGGTGGTGAGGTTGAGTCCAAACCTTAGCAGTTATGATTGTGGTTGTTGCTGTTGTCCTTACTAATTAC
TCCATAGATTGATTTGAGTTTTGCAATCAGTTTGATGCCTTGTTCCATAGTTTCTTTTTTACTTCCAGATTTGGTTCAGGTAAAGTTGGCAAAGCAAGGA
GAGCTGGATTCTTCTTACCTGCTTCACCTTAGCTGGTTCCTGCTTCATACATCTTTCAAGATGTTTGTAGAAAACTAATCAGCGTCTACGTTTGTTTTCT
AATTTTCTTTTGCTCACACATACTGTGGCCACTTGATTACCAATCAGTGCTGTGTTGGCAGGCACATACAGGCCCTATTCCTACTAATCAGAGATGTGGG
AAGCAAATGCTGGTGTTTAAAGGGAACCCTTATTTGAGCTCTTGTCCCATGACTCCTAATTGTTGTATTTCTCAAACTCAACCCAGCTGCAAGCTTTATT
AGGGAAACATTTATTCAGATAAAAGCCTCAGTTATGAAAGAGGGGTAATTATTTTGCAAATGTGTTTGAATCACTGTATGCTGTAGTGCAACTCATCCCC
AAATGGAGAAGGTGCACATTTGGGCTGAAATGTTGCTTTGTAGATGGACAATACRACAAGCATATGACGGGGAACTTCTGGCAAACGATAGGAAAATGGT
CAAATGAAAAGACACCAGTAAAATGAGAGATTGGATGAAAAGTGATCAGGAAGCTCTGAAAGCTGACCAGAGTGAACAAAATGCCTAAATTCCGTTCATC
CACATTCATTTATTTATTCATTCATTAACCATTGAATATTTTGGGGCTCCTATACATAGTTTGCTCTCAAAGAATKTTAGGTTTTAGTTGGGAGAGAGCA
ATGAAAATATGTTAACTGCATGCCAACTGGGATCTCCCATTCAGTGAAATCTAGATAGCGTTGGACCAAAACCCTGTTCTGTGCCTTGAGAATGCTCAGT
GATATCCATGACATTTCTGGAATTTCACGGGGGTGGGTGCTCACCTACCAAAGGTCCCCTCCTAGCTCKAAGATCAGCTTCTGCTTATTTCGTTGTTTTG
CTTCATCATCTTTACATTGCACAATCCACGTGTAGAAAATAGCCCTTCCCTTYCCTTTGTGCGCCAAAATTTACATAAAGCATTGTGTGGATAGCACACT
TTATTGAAATTCTAGAAAGTTGTATTTGGAGATTGTATCAACTCCCAGTGGAATATTAAACACGGCTATTCTTAAATGTCCTCCAGGCACCAGGCACATT
TTCTTTTGTTGCTTGTACCGAGCTCTCTATCTCTAACCACCTCCGAGTTTTCTTTTTCCATCCCTGTTCCCATCTCTCCTTCTCTTAATGTTCTGCCCAG
TATATGGGGGCTATCACATGGCATGATTATTCTATATTCTTGCTCCCTCATTGAGTTCCAGTCTCAAGCACTTATATTCATACCCAGGAAGTTGTTCTCC
AGAATATAACAGTTCTCTTCCATTTAAAAGAAACTTCCCTCAGTGGTAATTCAAGGAGTTCTTCATATATCCTGAATATAAGTCTGTCAGATGCATGAAT
TACAAGTCTCTTCCCTTTGTGTCTTGTCTTTCACTTTCTTAATGGTGTCGTTTGATAAACAGATGTTCTGTATTTTAATGAAGGCTAATTATTTATTTTT
CCTATCAGGCTTATTGCTTCTTGTGTCCTGTTTAAGAAATATTTGCATACCCCAAGGTCACAGACATTCTCCACTAGGTTTTCTAAAAGCTTGCTTTTCG
TAGGTTTCATGATTAATTTTCATCTTAAGTTAATTTTGTGTATGGTGTGAGGTAGAGGTCAAGATGTATGATTTTTCCAGTTGCYGCCGCAAAAYGTATT
GAGAAGATCACCCTTTCCGTCACTGAATTGCAGCCATAAATCAAATAACCAATATGTGTGATCTATTTCCGCACTGTCTTTCCCTGGTCTTTATATTTAA
CCTTGTGCCAATATGAGGGTGGTAAATTTTAATCATCTTCCTTTTTATGTAGGCATTTAAAACTATCCTGTTATAAGTGCTCTGGTAATAGAAATACAGA
CTATAACACACGCCAGAGGATTTGACCTAAGGGAAGAGGGTCAGAGTTGGCTTTCTGAGYGGATGTGYCATTTAGGTGGAGAAGTACTTTGTGCGTCTGC
ATTCTAGGGCATGCCCTGCTTGGCAGTTTTCTCATTTTATGATGGGTCCTGTGATGTGGCCAATGTGAACCATGCTGTATGTGCACTGGCCTGGAATAGA
TAACAACAATAAAAGAAGGAAGATGCCCAAGAAGAAGTSAAATAACCTCATTGTAAAGATGTGAAATTGAGGTTTAAAGAGAACATGTGATATGCCCAAG
GTCACAGAGTTGATGAGTTACAATGCTGGGATTGGAACTCAGGTTTCCCAATAGATCCACCCTCTTCCCATGACCCTGCATTGCCTGTAGGTACAAATGC
TCAAAGTTGCTGAGCTATAATGTGGTGATGCTTGGACTCGTACTCAGTTCTGTTTAACTTCAGAGTCTGTGCTCTACCCCGTATCCTTGATTACCTCCTT
GGAAAAGCTGAATTTATTTGTATGCCTAACTAAGAATGAGCTAATTGATTCCCATTTTAATATGACAGCTCTGCCTTAGCACTATCAATATGTGTCCAAA
AAATCTTATGGTGCATGACTAATTGCACTTTGGAATCGTATACATTTAATTATATATTTGATTTGAGAGTTTAGCATTTACAATTATTGTCATCTCCCAC
TTACTGAGCTTCCATTCTTCCATTCTGATTGTCTCTGTTACAGACTTTTTTTCTCATGCATAGAGAAGAAATAAAGGCACAATTTCCTTTTTCCATATTT
ATGTGTTATATATTCCTTTAGCATCATGAGCCACATATGATAGTATTGCTAGATCAGTTCTCATAATGTACCCTTTGCAGGATAGACTGTGAAAATCTAA
TTTTGGCAAAATGACTGAAATCCCAGTGAATGATTTTTTCTTTTCTTATATAAASCTAAGCATCCAATAGTGAAAGTTTATRTGACTCAAATGGAAGAAG
AATTCATGACAAAAGGTGTGATTATTCGCATAAGACCCTGAAATTCCTTTCTGGGTGAAATAGGCCCTTTCTTCCTTCCATAAGAGGCTCTGACTGATGA
GTTGGCTTTTATTAGGCAATGTATGTCTGRTGCAATATCTGTGGATAAAACCACCAGCCCCTATCAAGTCAATCAAATATTTACTGAGCACTTATTAWGT
CCAAGACACTTTGGAGAACAAAGAAATAYAACCTGGCCTTGCCCTTCAGGCTGTATCAATTGAGATAGAATTTGGACTGCTGCAATCAATTACACAGATG
TCTCTCAAGGTAGTGTCTTGATGCTTGAGGGAAACAAGACAAAATGCKATTAATAATGACTTAGTTTTCTTTGTCAAGCAATCGGCTTGCCACATCATTG
AGGTAACTTCACATTTTCTTGCATCTTTTACAATTAGCAGCTTCAGCTGACTCTGCAACCTGTTGAGAAAGAGGGCCCAGGCAATGTTGTCCTTGGCATC
TTATTCAGGTCTGGCTTCCACTGCAGTGAATGCACTCAGATAKCCCTTTATCARCTGAGTCCCCTTGAGATTAAGTATTTAATGTCTCTTGATCTCCAGC
CTTAGGAAATAACCCAATTCATTACTCAGCCATTATGTAATTCATTACTGTCATTAGAGATCAGGAGAATCGTCTTAGGAGAACTGAGAATACAAGGCAA
ACCACACCTTTCTTTGTCCAGCATGATTAACGGACTGTGGAAGGGCCCTAATTTGGAGTTCCATTCATGGGATTTRGTTTTATGACATCCTCCAGTCCCA
GGCTTCTGGTATGACTTGCAGAGGCATTGGTTAACCTGGTGGAAAATGGATTACTACTCAACGTGTTTACCGATACTGTGTGTCTGTAGTGGGCTTTGGT
GGACTCCTTTATGGGATTGTTGATCTCTCAACAGAACAGAGAAGTTGGTCAGGAAGGTTATTAAGGGAGAATGCATAAGGGAGCTGCTTTTTCTAGACTG
GAGTGAGGGTCATGGATTGCTTCCCAGGGAACATTTGGCAATGTCTGGAGATAATTTTTTGTTGTGACAGTGTGGACCAGGAGTGGGAGGAGAACATGAC
TAGCATCTAGTGGGTGAAGGCCAGGGGTGGTGKTAACATCCTACAATATACAGGACTGCCTATCATAGCAGAATTATCTGGCCCAAAATTTCAGCAGTRC
CACTGTTGAGAAACCCTGGGTACCTGCCCATTACTGCTCCCTTCTAAAACAACACATATTTCTTCATAGGCCCTTGTGAATTTATTTGTTTTATTTGATG
AGAGAGAGAAAGAGAGAGAGAGAGACAGACAGAGACTGATACATTTGTACCTATCTATCTATTTACAACTTCTCCATTCCCTACTTCATTTCACAAGGTA
TTAGGTAAAGCAGGTATATAAATAACACTCAATAAAGTAGTTAAGAGAAATTTTAAAAAAATACACAGGGGGAAATACAAATTAAAGTAGGCAGTAGCAA
CTGTAGAAAATATATTATACTGGTAATCTGACAGTCTGACTTATAATTGCTGTCATTTTCTTTGAGCTTCCTGAGAGCCAAAACAAAAATAGAAACAGTC
ATTATACTTTTTGTTATCCATGAGGAGAAAACAGTGTAGAGAAAGCTTTTAATAACACAAAGACATTTCTCAAGTAGAACTTAATGTAAATAAGTGTTGG
CAAAGGACAAGATAGTAAATATTTTCAACTTTGTGGGCCATGAAGTTTCTGTGGCAGTCACTCAACTGTGCCCGTGTAGTCCCCAAAGTGTCCACAGACA
ATATGGAAACAAATGGGTGTGACTGTGTTCTAATAAAACTTAATACAAAAAAACAAAGGGTCAGATTTGGCTCTTGGACCATAGTTGGTCAAGCCTCAGT
GTAGGTCTTCAGAAACACTCCTGGATCAAGTACGAAATGGATATTAAGATGATGTTTCCTAGGCCACTGACTGAAACCGAGAGCTTTCCCTTACAGGGTG
CTAAACGACTTTCTGCACCATCGGTAGTTTCTACGAGGATGGAAGAACAATAACAATAATAACAAAATATCTTCTTAGGGCATTTACTGTGGTGCATATC
AAGGATTTTGTGTTTTTTTTCTTCGCGGTTGTTTAGTTTTGCTTTGGGTGACACCCCTTCTCATTTGCTGTGAAGATACCGCAGGATGATAAACTCCCTS
TTCTATACTAAGTCCCATCTGCAAGGAAAGGAAACTTCACTCTGCTCCTTCCATCTTGCTGAATATTTAAAGGGTATTGACACAAGGCGTTTTGATAGGC
CAAAAGTATTATTATCCTAAAAAATATTTCCTGTGATTTAGGCACATGGAGAGGCACCGTGTTAGAGAGTCAAGATAAAATACCTACCTAAAGACTCTTC
CTCTGAGTCATTTCCTAGGGACACTCTCAGTTCCTTTGGTGGCCACAGTTTGGCTGTCATTTCCTCTGTGAATTCTTCTACGACTCTTTGGAGGAAGGAT
GTGGTCTTCACCTTTGTCCTTCCGTATGTTTTGTAATTCTGAATTTTATAGCACTTCTCCTGGCGTCTTATAACTTTATATTTCTCTTTCCCCTGATCAA
CTGAGCTTCTTGAGGGGACAGTATAAGTCTTTCTGATCTTTTGCCCTCCCCTGTGTCTTTTGCAACATGTAGAACATACTAGATTTCCATAACTATTTGT
TGATTAAATTAATGACTAGATGGATGGATGGATGGATGGATACATGGATGAATGGAGGGAGGGAGGGAGGAAGAGAGGGATGGATAAATGGATGTGGGAG
GGAAGGGTGGAAGGATGGAATAATGGAAAGAAGAACATCAGCAGCTTCTCAAAAATGTAAGTTCTAACATAAGTAGTAATATTACTTATGAAATATTTTA
TTGATAGTCAAGCACCCTGATTAAACTTGTCCTATTTCATCATATAAAATTAAGCTTAATCTTCATTTAGGCCAGGTGTGGTGGCTGATGCCTGTAATCC
CAGCACTTTGTGAGGCCAAGGCAGGCAGATCACTTGAGGCCAGGGAGTTCAAGACCAGCCTGGCCAAGATGGCAAAACCTCATCTCTACTAAAAGTACAA
AAATTAGCCTGGCGTGGTGGCCTGTGCCTGTAATCCCAGCTGCTTAGGAGGCTGAGGMGTGAAAATTGCTTGAAACCAGGAGGTGGAGGTTGCAGTGAGC
CAAGATCACACCACTGCACTCCAGCGTGGGTGACAGAATGAAACTCTGTCTCAAAAAAAAGAAAGAAAAAACATACTCATTCAGTAACAAAACAAAATCT
CAAGGCAACATATCTGATTTATGGTTCACTAACATAAATACATATGCCTAGAAATTCACTGAACGTCAAAATGATTTATACATACAATCACTAGAGTGAA
GTTGAAAGTGTTTTAAGCAGAATCTGCATTTAAAATGCATATATATTTATTAGAAAGGATGCCATAACAGATTGGATACATACAATCAAATTGTTGCTAA
TAACACTAGGCCAAAGTCTTTATAAGTGCGCACGCCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATGTTGTAAGAAAGTTTAAGGC
TATCTCCCTTCCTTATTCCTCTCTCTGATTACTGTCAATGCTAGCTAGTTGATGTCAGTAATGACAAGTTTGTATTTTAATTTTTAAGMTTGAGTGATCC
ATCACACCTCAACCAGAGTAGGTGGTTATTCCTACTACCTGCTTGGATGTCAAATGCATCAGTTGGCAATTTGTATTTCTTCAGCTTTCTCTCCCTCCTA
TTTTCTGTGTTTATTCTGTCTATCTACTTATTTCTTACACAAGAGTGACCAAGAGTGTGTACCCAGGAGGTGACGGTCAAGAGTATAACGTTTCAGAATT
AAAAAATATTATAGTTGCAAACTGGATATTTTGGATAATACTGGAAAAACGGAAATATTAGATCATGAAATCAGATATTATCCATACTTCTGTGTTAACT
ACGATAATTATCTTAATTTGATGTTTCGGTTTTTCCATTTGCTTATTGTATGTAATTTTGACACATCTGCCTTAATTAATAAGAATGGTACAAAATTAAG
TAAATTTTACAAAAAGACATTTTAAAAGAACTCTTTATTCAAGGAGGAAACTTAACAAATTTAATTTTCTTTGATATAAAATATCAAAAGCCATAACTAG
ATATTTTATTCAAATATTAAGCTTGCAAGTTTGGGAGTAGGGGTGGGAATCCCACTACAGTCAAATTATTTTGATGTTACTTTCCAGGCTTAGAGTTTAT
CTTCCATATTTCCAATGAGAATCARTTCCTCAAGTGGAATTTTATGATAAACTGCTGAAAGTAGTATTTAAAATGGAAACCCTGACAAGAATGAGTGTCA
CAGGGAGTAATGAATTCATGATGGAACTAGTTGGGAGTGTGTGACATTTTAAGTGCCTCATCACTCTGAATTCACTGGGCATTTATTGTAATAGAAAGGA
CCATATTGAATTCATTTGGCATTCATGTGGACTTCACATGTATTTATGGAGATGTAACATGGTAATTTAATATTTATTCTACTAAGCATTCTTTAATGGA
CATTGAAAGATATTGTCATACAATGCTTAGTAAAGCCGGTAACTCTAACGTTATTCTTCTATCAAAACAAAGAAATGAAACACCATTTTGATTCCCAAAG
CACCCGAGTAAGTTATTTGGATAAGCCAACATTATGTATTTACTCCCCCAAATCTGCTTTCTAAATTTTTAAGCCACAAGGTTGACTCTAGGACCAAGAC
AATAAAGCAGAAGTTCAGTTTAGGATTCTTTATATTCTAAAATTGTCTGCAAATACATTAATCTCAGTCTAAAAATATTAGGGGAAGATTTTCTTGGAAC
ATCAGCAGTAAATTTAACACATGGCATGCCTTCAATAGATTTCTCTTCTTCCCCCTTTAGAGTTCAGTTTGYTGTCTTCATCACAGTCCCAAAAAATACA
TTTGTGTTTCTTCCTTGAAGAAGAATTATTTTTAGAACAAACACATCATTATTTGGGAACAATCAAAAGATCAAAGGCATAAGAATCTTTGCTGGAAAGT
GAAGGAAGAGTTCTTCAACCAACCAAAATGACAATCTTTTATTTTTATTCTAAGAACAGAGTTGTTCCAGGACACAGCCTAATGCAAACTCTGCTACTAG
TCACTTTCAAAATGTTGTCTAGAATGCCTTGTTTTTAAATTTTCTCTCAGTTGCCTTCTTTACACCACTCAAAAGCAGAACCTTTATTACAAACACACCA
AAAGGTACCATATAACTAATCTTCCTGGTTTGAATGTAACCAATGTTCAARTATGATTGTAGAGTATTAATTATTTTGACATCAATTTACTGAACACATT
TTAATGAGGACCAGAAGGAAAGACAAAGTTTACTTACTTTCGTGATATATATCTGGTCCAGACCTTGTAAGTAATAGCACTTTCAAACTTACTATAGAAA
ATTCAGTGACTGTAAACATCTTTCAACTCTACATTGTGAGAGAGTTTTCAAATCTTTGGCAAATTACCCTGTGTAAACCTCCTTATGACCCAAAGAGATA
TTTTGAATGAGGGGATGTATTAGTTTCTTAGGGCTGACATGAAAAAGTACTGGGTGACTTAAAACAGAAACTACTTGTCTCATAGCTCTGGAAGCTAGAA
GTCTGAAATCAAAGTGCTGTCAAGGGCCACACTACTTTCAGAGTGTCTAGGGGAGGATTSGGCCTCACCTTTTTTAGGTTCTGGCAGCCCCAGGTGTTCC
TTGGYTTGTAGCTGAATCACTGCAATCTCTGCTTTGTTCCTCACACAGTGTTCTCCCTGCGTCTCTGTCTTCACATGGCATTTTCTTATATGGACCCCAC
GCATACTGGAATAGGTCCACTCTAAYGGCTTCCTCTTAACTCGATGACATGTGCACARATTCTATTCCCAAATAAGGTCACTTTTGCAGATWCCAGGGGT
TAGGAGTTGGACGTTTCTTTTAGGGGGACACAATTCAACCCCTAAATGGGGATCTCCTGACAGTTCTTAATAGGGTCAATATTTCAATGCRTGCATTTGT
TTTTTATAATGATCTTTTCTATGATACTGGGTGAGATAAAAACCAACTTATTTGCCTTTAAGAGCTTCTTTGTTTTCTGCCATTTGTGCTAGCAACAGTC
AGAGAAAACTTTTTTTTTATAGCAAATTGTTTTTCTCAACACATTCTGTCTGGAAAAGAATGTTCTCTAGTTACCACCTCTTTGGTCTAAGGGCATCTCC
TTGGTTTCTGTGTTACAGCCTCTTTGTGTTAATTATAAGTTGCTTTGCTTTACAGACTCAAAATGAATGTTACAGTGACTGATAAAAGCCAGGATCCTGA
GTTCAAGATCCTGACCAATTGGGTGCTTCATTTGAAATCAGAATCTGTGTTCACTGTGGTTTACTTGGGGTATGTGTTAGATTTCTCTTGGTTGCAAGCA
AAAGGAATTCACAATGGTTAGTATCAAGCAGGTAAGAAAAGGGAAGAAAGAAGATTGTTGAGGTGTGTCTTAGTTCACTAGGGCTCCTATAACAAAGTGC
CACAAACTGGGTGGCTTAAACAAAATAAATTTCCTGTCAATCTCTTCTAGAGGCTGGAAGTCTAAGGTCAAGGTGTAGGTAGGGCTGGTTTCTTCTGAGG
GCTGTGAGGGGAATCTGTTCATGCCTCTCTCAGCTTCTGGAGGTTTGCTAGAAACCTTTGGCATTCCTTAGCTTATAGCCGCATCATCCCAATCTCAACC
TTCCCTTTGCATGCCAGTCTCCCTGTGTCTATGTCTGCCTCTGAGTCCAAATCTCCCATTTTTTTTGGTAAGGACGTGGTATGGTTTGGCTGTGTCCCCA
CCCAAATCTCATCTTGAATTGTAGCTCCCATAATTCCCACGTGTTATGGGAGGGACTGGGTGGGAGATAATTGAATCATGGGGGTGGTTTCTACCATACT
GTTCTTGTGGTAGTGAGTAAGTCTCAGGAGATCTGATGGTTTTAGAAGTGGTCTCCCTATTCGCTTGGTTCTCATTCTCTTTTTCACTTGCTGCTGATGT
AAGATGTGCCTTTCGCCTTTCACCATGATTGTGAGGCCTCTCCAGCCACGTGTAACTGTGAGTCCATTAAACATCTTTTTCTTTATAAACATGTCTTTAT
CAGCATTGTGAAAATGGACTAATACAGGATACCAGTGATACTGGATTAAGGTCTACCCATGACTTTATTTTAACTTGATTACCTCTGTAAAGACCCTATC
TCCAAATAAAGTCACTGAGAGTTAGAACTCCCACATCTTTTTTTTTTTTTTTTTTGGTGGTGGTTGGYGGGGACAGTGAAACCCACAGCAGTGAGAGAGT
TGTATGCACATGGACACAAAAGAGCATCTGATCATAAAGAGAAGGAAACCAAACCTGTCTGGGCACTGCAATGTGTGAATCTAGAACTCTCCAACTGMTA
TGCTTCAGCTTAGATGTTGCGCATCACCATATTTCTGTGTCCTGAATTTCACATCTTCGAGAAGAATTTTATTGGTCCAGTTGAGCCCAGATACCTTCCC
TTGGCTCAATCTTCAATGGCCAGGGAGTGAGGGCACAGGTCACAATGGCCATGTTTTGAGGGATGTGCAAGTTTGTGTGTGTGCTTGTGTACATGTGTGA
GGATTTTGTCCTCTACAAAAGTCAGTGGAATCATTGTGAGACTGTGAGCTGGCAAGAGGATATCTCCTTCCCCCACATCCCTCACCCCATCCCAATCTCT
GGAGAGGAAAGACTGCCTGTGCTCTCAAAGAAGAAGTGGCTTTTCATTGATTCAGAAAGAAATGTCAGTTGATATCTGCTTCCTATAAGGTGTTCTGTCC
TGAGCTGGAGGTATAGATACAAGAAATGGGTCCTGATATTCAGCTATTGGCATGGGTAAGACTGAAGTAGGAAAGGACTTTTCATCTCCTCCCAAGCCGA
GGACACAGCTCACCATGAGGTCGTTGGGTACGCTGGCTTCATCTAAAAGAACCACATTTAGGTTCTTATGCGAGACCACGGCATGAGCTCAGTCCATGGC
AATGAGTCCTATTTTGTTGAGATGCCCAAGCAGGAGTTTCCTTACTGCCAGCATCTACAGGGCTGCCATGTGCTCCCCACAACTCTCCCAGGCTTGGCTC
AAGTGCAGGGAGGCCCAGGTAACTCCAAAGAGAGGGTCCATTCATCATGGACCCAGGCTTTCTCTGATGTCCATAACTGTCTCCCCCTGGGGATTTTGAT
GAATATTCAAGGACATAAATTCACACACGGGCTCAGCTGTTGTACACCCATGGGAATCAGGAGGCTCAGTATATCTTCCTAAGTGTTCCATTTCTTTCCC
AGGAGCCACAGAAGTGCAACAAAGAGATGAGCCCCATAAACCACTGCATGTGTGTGTTTGTCATTTTTCTTTAGTGCAAGGTTTACAAGACTCCCTCCCA
ACAGGGTCGTCATCTCAACACATGTCACTTGGCTATACGCTTCACTGGAACATTGTGTTGTGCTGGGGCTGAATTAAATGTGCAATTACTGCACATTTTC
TCGAAAGGAGTTTTGACAATGATAAATGCATAGACATTTTTCCACACTCAGACAACRTGACTVCTTGCTCATCAAGTGGCTCAGGATTCACTTTGAAGAA
CTGGTCTCTTGTTAACAGGAGAACGTGGGTGCTGCCCGAGAAGCGCATGGGCCTGAGTTCAAGTGCCACTTCTACCTGTCATGTACCATCTGAGCGTGGG
CAGCTTTCTTACTCCTGCTAGCCCGAGTTTTCAATGAGCAATCATTGCACCTCTGATAAACCTCATTGGCTATGGTATTTCTATATGCAAAGCTGAGACA
ACACTTGGAAAGTAATTACCATARTCCCTGGTTAATAGTAAGCTTTCAATGAGTGTTGGCTAGCATTCATGCMSGTAAGTTATCCTCTTGCCTAGAGCAG
TGATGGCTCTAATGTGAGTTCAGATCCCTACAAYAGGAGAAACAGTGCTTGTTGCTTTTCAAAAAGCAGAGAATAACCATAACTTTTCTACAGATCCTTG
AATATAATAACAGTAGCTAATATCTGTTTACTTATTACCTGCTAGGCAATGTGATCAATTTTCTGTGGATCAGATGATTCAATTCTCATACAAACCCTGT
GAACTTTTTGGTATTTATTTTACATATTAGGAATCCTGGTGGGCCAACTGCAGCCCACTGGCCCCTCCAGGTCCACTGTCCACCATTCTCTACTCTCTGG
TGCCACAAGATGCTTATCTGTATGAAGCCTTAGGAAGGAAACCAGAAGAACTGACACCCTGTCTTGTTCTCCCTCCACCTCTGATTCCTCACTAGTGCTT
CTAATTTACTGAAGCCAGCTGGAAACCAGAAGACAAGGCTGCCAGGTGCTCTGACAAAGGACGGAGCAGGGTATAGAAGGGAGAGTAAATTCAGAGGACT
AAGCAAATGTACTCAGCACATCTGCTTGTGAACATACTGCCAGCAAGTGCCATTTGTTTTAAGCGATAGAGAATTAGATATCCTSTTTGCTGTACTGTTC
CAAACTGCTTATTTCTTTCTCCTTCTTTTTCCTCATAGACTATGATCTTTTGATATTATAGCAGGAAACTTGGCGTGGGCTAGCATCTTGGTGTAATCCA
ACCTCTCTTAGATTTGTGGATATTTCATTGTGAAAAGGTCAAGATAAAAAATACATTACTAAATATCCATTTATCCTTTATTTTCTCATCATATACAGAA
AGGTTATTGCCAAATATGGCCATAAAGGTTTTATTGCTCCAATTTTTATAGCAAAAACAGATACACTTCTTAATGAATTTTGGTTTATTAGATCASCART
GACCAACATGGGGTTTCTAGCTCTTAGGAGACCCTGATGGTGGCAATGAAGGTCTGCAAGCTATTTTAAATATTTCAGAAAATCTAATATAATCTTACTT
TTACAAATGATAAAGCTTCACAAACAAAAACATCAAGATGTTTTGCTTTTKACTGAAATGATATTAGCTCTGCATGGTGAACTTAGTAATTTAATTCTGA
TCAGCAGCTCTGRTTGGCAGTTATATGTGCCTTTGATTAATAAAACATGGGTGAGAAAATAAATTATTACTTAATCTGTGCAGTTTGCTAGATAAAGTCT
TTGAAAACCTGGAGTCAATTGGATGGAAAATAATGAACTGGGTGCTCAGTGGTGAAATAATAAGCACAATACCAGCTTGGCATGTCTCACATATGTAGGA
AAGCCAAGACAGGCTTCCAGATGGGCCGAGATCTGATAAACAATTCCAGTCAATTATTTGTTTTTAGTAATAACAACGACAATAATAATGATGATAGTAG
GTAACAATTATTAAGTGGCCAGACATAGTGCTGAAATGCTCTSCATGTAATATTTTATTTCTTCCTTCCAATAGACCTAGGAGGAATGCACTCTGATTAT
CCCTTATTTCAGGTTGGTCTCCTTCAGAAGCAGACTCAGACATTTATGGGCTCAGATAGTTTATTTGGGAGGTAATGCCAAGAAGCACTGTAGGGAATGA
AGAAAGTCAGCTGGGGAAGGCAAGGAAGGCAACACCAGGATGCACTGAATGGTAGATTGTCTCTGTGGGCACCTGGGATGCCACCCCCCTTGGCACGTCT
GGGGACAGTGTAGAACACACCTTTGAGTTGTACCACACAATCAGTGAGGAAGCTGGGTATTGCTCTTCCGACTCCTGTTTGTAATTAGTTCAGAGCGGCT
TTCAGGGAAGTCGACTTCCCGGAACTTCCAGTTCACCCTGTGGAAGGGAAGGGGCTGAGCATGTTCTGGTGGCTAGAGAAAGCCCTCAGGTACAGAGATA
CAGGGGTTTCCAGAAAGCCTCTGGTGACGCACAAGGATGTGAGCACACACGAACAGTACCTGCTGCACTTCCGTCCTACAAGAGAGGAAGTCAAGAATTC
ATGAGTTGAAATAACTTATCCAGAGTCACAAAGCGCTTGTGATGGTGTGCTCTTCCAAAGAATTTTTTTGCTCCCTGTGTCTGAAGGCTACCAATGTCCA
ATAATGTACCAAATGAGCCCTTGTTCTTAGAGTTTTTTTAAACAACAGCTTTATTGAGATATAATTCACATACCATACTATTCACTCTTTTAAAGTGTAG
CACTCCATGGTTTTCAGTCTATTCACAGAATTGTGCAACCGTCGCCACAATGAACTTCAGAATATTTTTTAAATCTCCTGGAAAAAAAAAAAAACACTAT
CCTGAGTCATACCTCATTTTCCACCATTACATCCTCAGCTCCTGGCAGCCACAAAATCTCATTCTGTCTCTGTTTCATTCCCTTTTATGGACATTTTATA
GAAACTGAATATAATATCTGATCTTTTGTGCCTGCCTTCTTTCACTTAGGATAGTGTTTTAAATGTTCATCCCTGTTGTAGCGTGTATCAATACTTCAGT
CTTTGCATTGCCAAATAATATTCCATTGCCTGGATATATCACATTTGTTTATCCACTTATTGCTCAATGAACATTTTAGTTGTTTCCACTTTGGGGCGAT
TTTGAATAACGTTGCTGTGAAAATATGCCTATAATCTTTGGTGTGGATATGCACCTACCTAGGATTAGAATTGCTAGGTTATCGGCAACTCTATTTTTAA
CCTTTTGAGGAACTGCCAGATTCTTTTTCCAAGCAGTCTTAGAGTTTATTGATGATTTTAATTTGCTGTTTAATTAAGCAAGATGCCTGCCTTACACTGT
TTGGCAAAGGAGAAAAATCAGCATCAGGCACTTGCAGACATAGATTTCCAGAATTCSTAAAACATTCAAGAAGGRTGTTATCGGTACATGATCAGAGTTG
AGTAGGTTCTGGATTTTAATGCCTGTACTTGCTTTTTACTTATAAATGATTAWTACTTTAGCTTCATAATTATCCATTTAGTTTATGATTATGGGTTGCC
TGGTTAACCCTACTGGGTGTAGTGATGCATGCTTTCATCAGAAACATTTTTGGCCTGCAGTTTCTAAGTAGCCAGATTTTAAAGCATATACAGGTGGCAG
TTCATTAAACATGCATTCGTTTTTGTTTTTATTTGGCACCTACTGTGAATCAGTCACTGTGTTAGGTGCTGTGAATACAGTGGGGGGACAAAAACAKATA
CAATTGTGTTAGAGAAAAATAAACTTTGAAGGAAACTGCACTAGAAGATACAGCATTTAGTCATTGCTGGGATTCTCTTCATTGCAAGCAGCTACTGCAT
TCCGATTATTCACCCTGAATCTAAGGCAAGCTCTGCTCTAAAATGTCACACAAGAAAGAAGTGGAAAACCTCTTCTCCAGGAGGGGTTTGCAATGTAAAT
AARGAGACAAAGAATGCCTTAGGTGTTTCCTCTACCTAGCATAATCAAATACTACTATGAAATATGCAAGAGTCTGTGTCATCACTGACATTCAGTCTTG
GATTTATTTTTTTTAACTCTGTGTACYAGACACTGCCTCTTGGATGTCCCATAGTTCATTGAACTCTCCAAGTGCAAAGTTAAACTCAATCTCCCCACCA
ACCTCTAACCTCAACCCAGCCCCAGACTTTTTTTTCCAGTGTATGCTTTCTATTTTAGCAAATCAAGGGTGCTACTCACCGTGCTGTTGCCAAAACCACA
AACATGGGCATGATTCTCGGTGTTTCTGTAGGCTTCTCTCACCTACCCTCTAGTCAGGCAGGTCTTCATCATTTAACCTTCTACTTCTCTCTGACAGATT
TGCTTCTGTCTATCCTCATCTTCATCCTAGATCTAAACCACCATTATCTCTTGCYTGCAACCTTTTATTCCTAATTCTAGTCTTTAATMTCTAATTTCTG
CTCCAAATGGCAGCTGAAGGATTATTTTCAAGCTCAGATGTATCCTGCCACACCCTTTGGAACTCCTCATGGATCGTTATTACCCCCAGGTTTAAGTCCA
TTTTCTTTAACATATCAGAGCCTTGCTCCAAATGGCAGCTGAAGGATTATTTTCAAGCTCAGGTATATCCTGCCACACCCTTTGGAACTCCTCTTGGATC
ATCATTACCCCCGAGTTTAAGTCCATTTTCTTTAATACAGCAGCGCCTGTCCTTCATGACCCAGCCCCTGATGCCATCTCTGGTTTTATCTTTACCCACT
CCCTTAGCAGATGCTTGTGTTGAGCAGAGCCAAACCAAATCTCTTACTATCCCTAGAATGTGCCAGGTTCTTTCACATTGGAAAGTTTGCATAAGATGAG
CTTTGAAAAGTACTTTTTCAATAACTTGTGTCTCAGTGGATTTCTATTAATTAGGATATGGGTTTGGATGCCATAGCAAAGATTCAAATGTCAGTGGCTT
CAATAAGATAGATGCATATTACTCTCTCAAGTGATGGTTCAGGCAGGAGCAGTTCTAGATTGACATGGTGGCCCCACTGTGTCACTTAGAGACAAAGTGG
AGACAGGGGTGGAGAGACATAAATCTATCTGAGAGATGTGTAGGAAGSTGAATCTTTAAAACCTGGCTTCCCTCTTATTTTATGGCATTTGTGGAATGTA
TCCTGTGTCCTCATGGCCCCAGACAACTCACCACCACATCCACATTCTATCCCAGTCAGTGGGAAAGGGGAAAGGGGAGCCATATCCCTTCTCTTGAAAT
ACACAAGTGGAAAGTTGCATCTACCACCTCTCCTCATATCTTCTTGGCGAGCTGTTGACCATATGACTAAATCTAGCTGCAAGGAAAATCAAGAGCTATT
GGTCTTTCTTTGGGGGACAAATARAAGTTTCTGGTAATTATTTTATGTAAAACTAATCCGAAGAAATAAGTACATTTTCCTTCCAAACATGGCAATCCTG
GCAGGGTTGTGGGCACTGGAATCACACCATTTTTTGCTAACTAAACAAATTTCCAAGTCAACAATGTCAGATATTGGAAGTTCAAGATAGATAAAGGCCA
CTAGTATGTTGGCAATAGCATGCCCTCTTTACAAATGATAAAATTTAGAGAAGTCAGGTGCCTCCCAAGTACCCATAACATGTACACGCCCCCCTGCTAT
CTTCTGAATCCACCCTCTGTGCTGAACAAACATGCAGGGCAGTATACTTTAGTGATTAAGAACACCAGCTTTGGACTCAGAAAGGTCTGGATGCATAATC
ACTTATTATTGTGATATTTACAAATTCCCTAAGTTTTCTGAGCTTTATTTTCCCACAAGGATGTTATATGCATTAAATGGGATAATATCTAGAAATTACC
TAGGAAATATCTGGCCAATGATTAGCACTTAAGAAATGATCTCTAGTATAACTATAATGAATRTCTCTTAAACTTTTTCTGCTATGACCAGTTATTGCTT
CTTTTGGAGACATGATAGCTGGAAAATGTGCACTCATAATTTTGCCAGTGTTTATTTCTTCATAAGGCAAGACAAAAGGAGTCCTGTGGAAGACGCCTCT
TCACTTTCTTCTTAATGTACTTGGTCTAAGGTATCCACACTTGTCTGAGAGATGGCAGAGGTGGGTGAGGCACCACAGCTCTGTCTTTCTCTTAGTAAAC
TCACAGATTCCTAACTAAGTACTCAGAGTCTGCTGTGTGCCATACCTAACCTAAAATCCCAATTCTACCCATTCCTGGCTGTCAGATCTTGGAAAAGATT
CTTGACCTCTCTTAGCACCAACCTCTGCTTCTAAAAATGAGAATAACTTGAATACCTACTTAACAATTGTCCTCGGAGGAATAGCTGAGACGCTTCACCT
AGAAGTGCTTAAAACTGTGTCTGATATATCGTTCATGCTTGATAAATATGAGCTGACTTAAATTCCCCCATTTAAGCATGAATTTCAGCAGAGGCAGTAG
GGGTAAAAAGGAGAGGATGCGGTGAAGAAAAATTTAGAAGGCATAATGGAAAGGACCCAGTGATGGTCCAGTGTCAGGGAGATGGCCCAGATAGAAATGT
AGCAAAATTATCCTGAAAAATTTGATTATTTGATAGAATGGTTCACCAAGATGGAAAACACAGTCGGGGAGGAGAGGGCTTGAGAGGAAGACAATGAGTA
AAACGTTAGGCATGGTCAATTTGAGTGGTCAAGGGATTCACCATGGAGATATTAAACAGGCATTAGATAGCCAGGTCTGAAGCTCTGTAGAGAAGTGTAA
GTTCAAAACATTCATTTAGGAGTCACTTGACCCAGGAGGCACCAGCCGCAGGTCACAGGCTCCATTGTCTTCAGGGACCAGTAGCAGTCATGTGAAAAGC
AGGAAAGAGAGACGGTTAACTTGGGGTCAACAATGCGATGCACGCCCTGCCCAAAGGCCTTCAAGTGCATTCACCTGGGTGAGTACTCAGCCTGAGGTCT
GAATGGAACCTTCCACCTGGGAAGATGTTAAAGTGGTTATGAACGAATGAAATCTACCCCCAMGGTTTTCCTGGTGCAGAAAGAGAAGACTGAAGATCAA
ATTTACAACGTGCTTAGACTTCTACAGTGTTGCTGAAATCTACATCAGACAGTATTTTGGCGAGGAGCAAGGCTTCCCCAGCAGTGTTCATGATCTGACA
GCTGTAACCAATACCTGACATTTCCCTTTTGGATATAAATAATTATCTTTCACAGTTATGGCACATACACAACAAGWAAATTTCCCCTTTTATTTGGAAA
GCCTCTACTTTACAATTCATGTTTACCTTCCTGAATCTTTTCTACATTTCAAAYTCATGTTTTGTTTAAAAAGATGACAGACACAGGAAAGCGTTGGTTA
TGGCAATATAATTAAAGGACATTCATTTCACTCAAACCTGCATGGTGATTTTTGGCAGGGGAGGGGGCTGGCAAATGATGTTTTGCCTCCTGTATTAGTT
TTCTATTTCTTCTGTAAAAATTTATGACAAAATTTGTGGCTTAAAGYAACCCATGGATGTCTGAATGGCTTTGGTTCCTTTCTGGAGGCCCAAGGGCAGA
ATCCACTTTCTTCCCTCTCCCAGTTTCTAGAGGCTCACAGCCCCTTCCTTCATTTTCAAAGCCACAAAAGTTGGATCTCTCCAGCCATTTTCTGAGTAGT
TACATCTCCTTTGCACTCTTTTCGACCTCCATCTCTAATTTTCAGGACCCTTGTGATTGCATTGGGTTCACCTGGGTAAGTGRGAAGACTCTTTTTAAGG
TCAGCTGATTAACAACCCAAATTCCACCTGCATAGGTTCTGTTTGCCATATAAGTTTATAAGTTCCTTTATATCTCCGAGTAGTACTGCGTGGCATGGAT
GTACCACACGGTTGTTGTTGTTTTTAACCCTCTACCTGCTGAAAGACATCTGGTTTGCTTCCAGTTTTAGCATTTATGAGTACGGCAGCTATGCACAATT
GTGTACAGATTTTTCTTTTAATGGAGGTTTTCATTCTCTGAGATGAATTCGCCCAAAAGTGCAATGTCTGGGTTATATAATTGCATGTGTTGTTTTATTT
TTWAAAAAAACATTGCTAAACTGTTTTCCAGAGCGGCTATACCATTTTACATTCTATTGAAGAGTTTTGAGCAGTAAGGTGATGCAATCCTATTCATGTT
TTAAAAACATTCTCTGGATGATGGATCAAGAATGCCAGTAGGGAGGGCAAATGCAGAAGCAGGGAGATCAGAAGGGAGCCTCTGCAGTGGTTCAGGTGAG
AGGTGAGAGAGAGAGTCAAAGCATGGGTGGGTGTGGCTGAGATGATGAGAAGCAGTAGGATAAGGGACATATATTGATGATATAATTGACAGTTGCTGCA
GAATTGTTTGTGGAAATTGGGAGAAAAGATTCAAGGAGGATTTCTGTGCTTTGGGCTTGAGGATGGTGGTTCATGATGGACCTATTTGTCTTGATAATGG
GAGGACAGGGGTGGGAGCTGACATGGGAAAGAGATGAGTGCCTGTTAAATTCTACAGTGGAAATCTTGAGTGGGTGGTTAGAAATAAGAGTCTGGAGCCA
AGGGGAGATGTGGGAAGCTGGAGAGAAAGTGGAAAAGGACTATGTCTATAAATAYGCCCGATGCAAAGCGTGGCATAGTCACAGGCAAAAGCTATCCACT
TGATCTCAAGAACAATCTTTTTTCACCTTCTGGGCTTCACAAACAAAATAGCACCTTCAGTTTCCATTTCGGTATAGCAGGTACGGTAACCACAAGAACG
TGCAAAGCAGAAACAAAGAGCACTTGGCACCCAAGTCTTATAGAGGCTCATTTCTGATATCTTCTAGGGAACTTCTTTGTATAAGGACRTCATAGAGAAG
GTTTGTCTTTCATTTGTCTGTAGCAAGGTCGTAATTTTTTTTAATCTTTAAAAAAAATTATTGTTAATACAAATAAGTCTATTGTGATTTTTAATTCTAG
GAAGAATGCCATACAAATCTTTTTTAGTACACGTTTCTGTTTTATACTGTGATTTGGAGGGGTAAAAAGGGTAATACAAAATATGGATAGTTTTTTCATT
GCTGGAATGTTCCACATTGGGTTCTGCCTTGGCAACGTCTCCTGTGAGCTACAGTTGAGGGCCAAAGCAGATGCTCCGTTTTTATGGATCTGTCGATAGC
CACATGACTCTGCAACTGCCACTGCCTCCCCACACCCCCTGAGCTGGCGCCAGCACGGAGCAGCTGAATCCGACTCAGGCTTCATCCCAGCTCACATTCC
ACCTTCCCGACAAGGACACTGAGGCCCAGAGATGAAGTSGGACTTCCCACCACAAGTCAATGAGGAGATGGGGTAGCCAGGCCTAAAACCCCGGCCTTTG
GCTTACAGCCGCCCKTCATTTTCCCAGGTGCCCACYTCAGAGGCCATCCTTGGAAAAGGAAACGTCACTAACCTATGGTTCTGGGGAAATGGAGACGAGA
GAGGAAGTAATATGTTGTTCTTCTTTTCTTTAGGCTTCTTTCCACTGGGTAAATCTTCTCCATACATAATAAAATGAAGGCCCCAGATGATTTGTGAAAG
AGTTGAAATGAACTTCCTGCARTTGAACAAACTATTATGAAGCCCCTACTGTCTTTATCAGCAATTCACAGTCTTTTGTCCATAAGAATAAGCAGGGGAC
TTAAAAAAAAAAAAAAAAAAMAAAAACTACTGGTACTTGGGCCTTACCCCAGACTAACTAAATTAGACCCTCTAGGGTGGACTTTGCTCTCAGTATTTTT
CAAAGTTACCCATGCTATTCCAACGTACAGCCAGGAATGAGAACAAACTGGTCTATGGTACTGTGCTAATTGATCCTGTCTTTGGTTCTCAAGTTGGGGT
GATTTGGCCTCTGCAGAGGATAAAAGGAAATGTCTGGAGACTTTTGGTTGTCACCGTTGGGATGGGGGCTGCCGTTGGCTTCTAGTGGGTAGAGGTCAGT
GATGCTTTTTAACCTCCTACAATGCACTAGACARCCTCCACCACAAAGAATTATCTGGCCCCAAACATCGATAGTGCCAAGGTGGAGAAACMCTAGGCTT
ATGGATGCCATGGGAAACACCASTTACCTGGATGTAAATCCATGGTAAAATAACATAGATGCTATGACATGTGGCCCACTGGAAGACACCCATGTCAAAT
CCCAGGAGCCAGTGAATGTGAGCTTATTTGGCAAAAGAGTCTTTGCAGAGGTAATTAAGTTGGGGGTCTTGAGATCAAATAATCCTGAATTATCTGAGYG
TATCCTAAATTGAATTTCAAGTGGCCTTGTAAGAGTCATAGAGGAAAACAGATACACAGGGGAGAGGGTGATATAACCATAGAGGCAGAAATTACAGCAA
TATGGCCCCAAGCCAAGGATTCCCAGAGCCACCAGGAGGTGGATGAAGCAAGGAAGGATCCTTTTTTAGAGACTTCCAAAAAAGCGTGGCCCTGCTGACA
CCTTGATTTAGGTCTTCTGGCCTCCAGAGGTATGAGAGAATAAATCCCTATTGTTTTTTTGCCACAAGGTTTGTAGTAATTTGGTATGGCAGCAATAGGA
AACCGATCAGATGCCTGTGCCTTTGTTTGCAAAATTCAACAAAGCACATTAGGAGAGATGGGGTCCATGAGAAGGGATAGGATGCATGCAACTCATAAGG
CTGAAGACAGACGGGAGTGGGAGTAGGAARGTCTAGAAGAGAATCTGACAAAGATGCGGGTGAAACTCTGAACCCCTGGCCAGGGCAGGGAAGTCATGAA
GGCCAAGCAACACATCCAGTGATGATTCTTCTGTCGACATTTCATTTCTGAAAACTGGTTGTTTCATTAAATTTTTTGGTTTTTCAGATCTCAAGGTGTC
AGTATCTTGTAACAGTAATGAGCTTGATTCGCTGTGAAAAGCAAGACGTGTGAAATAGAAACAAACTTAAACTTTTAATAATTTCATTTACTAATGGTCA
CTAATGACCTAGAACCCAAGACACATATCTTTAAAAAAATTAGATTAGGGAAATGATATATAAGCAAAATAATAATTTAGTAAAAGGTGTAATTATTTTT
CTTCCTTTTGTAAAAGTTATTTGTAATTAACAAATGATCATTTGTATATTTTTCTAGTAACACCTAAAACTTCCTGATCTTTATCCGTTTAACCAACATG
TATGGTGTTAAAGAAACAGGCCAGGTGTGGTGGCTCACACCTGTAATCCCAGCAGTTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTCAGGAGTTGAA
GACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAAAAAAAATTGCCAGGTGTGGTGGTGGGCACCTGTAATCCCAGCTACT
AGGGAGGCTGAGGCAGAAGAATCGCTTGAACCTGAGAGGCAGAAGTTGTGGTGGACCAAGAATGCACCATTGCACTCCAGCCTGGGCAACAAGAGTGAAA
CTCTGTCTCAAAGAAAAGAAAAGAAATAACTGGAAAGAAAGTACCAGCAAGGAACGTCCTTTCTCAATACCTCTTACATGATCCCTGTCCCCTACGTCCT
ATGGTTTCACCGTATCACATCCTCACACACTCCCCTCTAACTCCACTTTTTAAGTGACTCTGTTTCCTCTTACATTTTCCCATAGTCTGTCTTCCCCTTA
TATAACTGTCATTATATAACTCATTCTGTAATGATTTACTTAAACCTGACTTCCCCATTAGGAAGTATGCTCCATGGGGAGAGAGCGCATATCTGCTTCG
TATTTCCCCCCTAAATCCTCAACACCTGTTACAATTCCCAGTGTACAGTAAGCAGTCCATAAAGCTGGATGATTACTCTGCATGTGTTAGTGACATGCAT
GAAGTACCCATTTCCCCTTGGCACGGGAAGCCCAGGGGAACAGCATTTTCCTGCCTGACTTCTGAAGCCCTCATACTCATGATCCTACGGGAGCAATGGC
AAGGGCACCGGAAAGCCAGGTCGGAGAATAGAGACCCCCAGCCTGCTCTCACAGTTGGACTCAGCAGTGCAACATCAGTGACTCCTTTGTGGGAGTCCCA
CACACCGCTGTTCACACAGGGAACACCAGTGCCCGGTGGAGCTGCGGGCTTTTGAGACCTCCCGAGTCGCTTTGTGTGCACAATGCCGTGACTCTGGATT
TGTACAGTATGACCCTCAGACGCTGGAACAGGAGCACACGCCAAAGAGAAAAAGGAGTGGAGATGACTGAGATCTCATAAATCCATAATGGGCCTGCTCT
GTATTAATAAAACAATCTCAATGGTGGAGCTCCATAAAAGAGAGGCATAGGCTGATGTAATTTCCTTGAAGTCCCCTATAAAGCATTTTACTCTGTAATA
CAGCTACATTTATGAAGTGGTTTTATCTTGAAAGATCCCAAAGGGCTTACTAGACTGAAAAGGAAAATATCAAGTACACGACATCTCAAAACACCACCAA
TGTACTTCGGTGATAACAGTTGGGGATTCTGTGACAGCAGGTAGCCCTCTTAAAAAGCAGACAGCGGCTTAGCCCATTAAACCTCCAGGGAGAAGTAAAG
AGAAAGAGGAGATAATTGTCCACATTGGATAAGGGCCACACAGGTTTTCTTTATTAATAAAGGCCATGGCTTGTTTCCATCCGCCACGTGGATTTAAGTG
GGTGAGCTTTATCAACATCATTCTCCTTATTTGAAATAAAAGAAAGAAACCAACTTATAACACTTCTTCATAAAGGGACTGAGAAAATATATGTAAAGCT
TCCAGTGGTTAATAGAGGTCAGGTGTAGCCAGTGTAATTTAGAAGCTGTGCATTTTAAAAAGTAAAATATAACCTACAGTTATAAAATATATCCGACAGG
AAAAATATCTTTTCCCAGCCAAATTTTACTGAATCCAGTCCTGTCGAAATGACTGATCCTGGGTTTTTTTCTTCCTTGTTGCTGTCCTGGTTAGGACATG
GTGGCACTAACTTTTAGTGAATTAGCCGAGGATATAGGGGAATGGTTGGCAGGGGCCAGAAGTCCTTCTTGATTATCCTCCAAGAATATCACCCCACTGG
GAGCTAAGAAGGAAGGTGGAAGCACCAGGTGATGTAAGTTTAGCAATCGCTGAGTACTGTCAAAGAAAGCAGTCTGAGACTTCAAAGTAAATAAAAAGTA
GCTCCCCTTTCTTCAAAAATGTTAAAACTGATCCACTCTCTAACCAGGAATACTGTTGTCTCACATTCCCTCTGCAGTTTCTCTCATCCCACTTCTGCTT
CCAGCCCAAACCCCTCACCCGTCTCGTTTTCCCACCAGAAAGTACTCCTTGTCTTTTTACTAATACTTTGCTTCTTCCCTCCCCACACGATCTCTCCAAA
GCCTGGGAACTGAGCTAGCAAAGAGAATGCTCTTCTGAGCTTGGAGCTGAACAAGGAGCCCCTATGGAGGAGACAAAGATGCAAAATTTTTAGTTTGGTT
TTATTCTCATTTAAGTTTTCTATGGAGTATTTTTCTTGTGATTTAATCTTTGGATGAGACTATCAATGTACGTTTCTTCTAATTTTATTTTTCAAATATT
CCATTGCAAACTTATTTAGCATTTATAATTGAATACTGATAAGTGAATTTATTTATTCATTTATTTATTCATTTATTTTGAGATGCAKTCTCACTCTGCC
ACCCAAGCTGGAGTACAGTGGTGTGATCTTGGCTCACTGCAACCTCTACTTCCAGGTTCAAGGGATTCTCCTGCCATGGCCAGTATTATTTTTTAAATTT
TTAGTAGTGACGGGGTTTCACCGTGTTGGCCAGGCTGGTCTCAAACTACTGACCTCAAGTGATCTGCCAGCCTCAGTCTCCCAAAGTGCTGGGATTACAG
GCATGAGCCACTGCTCCCGGCCAGTAAACTTTATTTTATTTTAAAAACCTGTTTTGGAGTATTAGCCCACTGGTTTACATTGTCTTCCTTACATACATCA
CACCCATATGGAGGAGTACTTTAAAGACAAAGTTGCAATCTGGTAGCATAGCTGCCCAGTGGAGAAAAAGTGCACATGTAAAGCCTGAGTAATTCAGGGC
ATGAAAATATCCCTGTCAGCCAATCAGTCAACGAGTTGACCAAGCGTCTTGGCTAGCCTCAGAGGTACCTTGGCAGGCAGGCTCAGGCATTGTGCAGCCC
TGTGTAAAATTTTCCTCATAGTAACTACGTTGTCTTTACATCAACCTGAGAAGTAGATACTATTTTTCCTATTTTTGTTTGTTTGTTTGTTTGTTTGAGA
CAAAGACTCGGTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCCCATGGCAACCTCCGCCTCCCGGGTTGACGCCATTCTCCTGCCTCAGCCT
CCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTGGCTAGGATGGTCTC
GATTTCCTGACCTCGTGATCCGCCCACCTCCGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCAGCGCGCCTGGCCTATTTTTCCTATTTTATTAATG
AGAAAACTGAGGCTCAGAGATGCTAAATAACATATCTGAGTTCATCACTGCCAGTCAATCTGGGCTCAAACATTCCGATCCAGATTGCTCTGATTCTAGA
GCCTTTGTTCTGGAAATCTGTCTTTTATAATACACAGGGATTTTATTTTTAACCTTTTATTTTGAAATGAATTCAGACTTACAGGAAAGTTGCAAAAAGA
ATGTAGGTAATTCCTTTATATTTTTAGTTCAAATTTTTCAAATGTTAACATATTATCACATTTACTTAATGATTCCTCCCTCCCCCAACTATTGAAGAGA
AAATTGCAGACTCGATGCCCCTTTTCCCCTCATCTTCAGTGTGATATTTCCCAAAAACAAGGATGTTTTTTCTCTCTCATAGAATCACAGAACAATGATC
AAATCAGCAAATTAACGCTATTAAAAATTATCTAATCAACACACTTWATTTGGATTTATCCAATTACCGCACTAATGTTTTTTTATTGCAAAAGAAAATA
TTTTGGCCCAGGATCTAATCCAGGATTTAATATTGCCTCAGATCTCATGTCTCTTTAGGTTCCTTTAATCTGGAAAAGTTCTTCATCTTTGTTCTGTCTT
TCGTGACCATGACATAGTTGAAGATTATAGGTTGGTTAGTTTGTTCGGTGTCTCCCATGATTAGATCCAGGTTAAAGAAACAGCTGGAAAGAAAGTACAA
GCAAGGAACTTCCTATGTCAACACCTAAATAATCTCTGCCACCCCCACCCCCATGGCTTTACCCCATCACATCCTCACAAACTCCCCTCTACCTCCACAT
TTTAGGTGATTCTCTTTCCTCTTACATTTTCTCATAGTCTGCCCTCCCTTTATAGCTCTAATCACAACTTGAATTGTATAACAAATTCTATAATGATTTT
TTTAAAACTGACTTCCCCATTAGGGTGTATGCTCCCTGGGGACTGAGCTCATACCTGGTTCGTATTTGCGCCCGCTGAATCCTCAACACCTAGTACAATT
CTCAGTAAGCAGTCCCTAAAGCTARGTGATTACTCTGTATGTGTTAGTGAAATGCATTAAGTRCCCATTTCCCCTTGGCGTGGGAAGCCCACAGGAACAG
CATTTTCCTGCCTTACTTCTGAAGTCCTTGAACTCACGCTCCTACTGGAGTGATGGCAAGGCCACTGGAAAGCCAGGTCGGAGAACAGAGACCCCCCCAG
CCTGCTTTCACAGTTGGTTCCGGCAGTTGTTGCATTTGTGGCAAGAACCTCATGGCAGTATTGTGTCCTTCACAKTGCTTTGTATCAGGCAGCATGTAGC
AGGCTTTTGTGTCCTTACTGGTGACATTAACTTGGACCACTTACAGAGGGTGGTGTCTGCCAGGTTTCTCCTATATAAACTTAATTTTTCCTCCTTTGTA
ACTAACAAGGGTCTTGGAAGGAGATATTTCCAGACTACACAAATACCTTGTTTCTTTTCATATTTTCACCCACTGATTCTAGGCTTCTTTGATAATTTTT
GCCCTCCTGCCCCACCAAAAAATATTTTACCATTATGGTTACCAAATGGCGATTCTCTAATGGCATGAGTCCTTCTACATTTATTTGTTGGCATTCTATT
TTAAGGAAAAGCTCCCCCCARCTTAAGAATTTATTTCCAATTTTAAAAGTTTCATTACTATGGTTTTATGGGTTCTTTTTTTATTCTGTAGGGTAACAAT
CTGTTGCTACCCTTATTTATTCTTGTGCGCCAATTGTCCACCGTTTGTCCAGTGGGAAGCCTAACATGCAGTTTTTATATTSAAGTATCCTAGCACGTCA
ACTTTTATTGCTTCACTTAAAATCTGCCACCTTCCACCTTCATGTCCTGAATCCTTTATCTAGAAAATGTGTAATTTTCCAAGAAGGCCTCAGACCYAGT
GGTCCAGTTACTGTCTGTTTTTGCTGACTAACTCTTGAAATAAGAATTTTTTTAAAAGCTGGTAGTAGGGATGAAGGGGGTTAAGTGACAGTTCTCCTAA
GAAGCATACTCATGGCCCTGCCAGCGGCTTGGAGACATAAGGGAGGTAAACTGAAATCTTTCCTGAACACTTCATGCTTTTTGGTTTCTCTCCACTTTTT
AACACACTGCAGTGTAATTCCCTCCACTATCCTGAAAACATGGATTTAGATTCCAAGACCCATCTCTCCTTCTGTGAAGCCATCCTCCCTGCCCCACCCA
GGCAGGATGAATTATTCTCTTCTTGGCAGCTCTAGAAGCCCTGGTATAGGCTTTTGTTCTAGCATCAGTCATATGGTGTTATAACTATTTTTGACACTCC
GTTCCCCTCAATAGGCTGTGAGCCTTTCACAAATGGGTTTTTACATATATCTGTGTTAAGTAATAATAAGGCTGGGTGTAGTGGCTCACGCCTGTAATCC
CAGCAGTTTGGGAGGCTGAGTGGGGATGATTGCTTGAGCTCAAGAGTTCAAGACAAGCCTGGACAACATGGAAAAACCCCATCTCTACAAAATATACAAA
AATTAGTTGGGCATGGTAATCCCAGCTGCTCAGGAGGCTGAGGCAGGAGAATCGCTTGAAMCCTGGAGGCAGAAGTTGCAGTAAGCCAAGATCGCATCAC
TGCACTCCAGCCTGGGCAACAGAATGAGACTCTCTCTCAAACGAAAAAGAAATAATAAACATTTTTAATTATTTAAAAATGTGTTAGAATCGATATCTAG
GTCATTGTGTAAACCAAAGGCCAGCAAACTTTCCTGCAAAGGGCCAGGTAGGCTTTGTAGGTGATATAGTTTCTCTTATAACTAGTAAACTCTGCTACTG
TATATCTAATGGCCCTATACACGATACATAAAAGAATGAATGTGGCTGTGTTTCAATAGAACTTTATTCATATAAATAGACGTGGGGCTGAATTTTACCC
TAGGGCTATAATTTCCTGACCCCTGATCTCTCCCACCTCAAGGTCTTCCTATTAGCTGAATACCTGCCTTAGGAAATCCCTCATTTTCTCTGGCTATTTT
CTGCATATTCTTTTTTTTTTTTTTTTTTTTAAGCAGCTTTCTAGCTTCTCTCTGGAAGAGTGGAAAGATGATGGGGCTAGCCCATAGTTTCTCAACCTGG
GCAATATTGACAATTTGAACTAGGTAATCTTTTGTTGTGAGGGAGTACATTATAGAATGTTAGCAGCATGCCTGGCCTCTACACACTGGATACCACTAGC
AGCACTGCAGTCATGACAATCAAAATGTCTCCGGACATCGTAAAATTACCCCTGGTTGAGGAGAATCAGGCTAGTCCGTGCACAATATATTTTTAAATTT
TTCTTTAGTTCTTCAAGAGCCTTCCAGGTGAAGGAATGGACTGCCACAGCCAAAAACAAGATGGCTAGCAAACTCTTCTCTCCAGGAAACGTCTTCCTAA
TAAGGCATATTTTATTATTTTGTCAGAAAGTCCATTTCTACACCTTTCTTAATCCTCCATTTAGTATTTCTCTTTTTTTTTTTATTATACTTTAAGTTCT
GGGGTACGTGTGCAGAACTTGTAGGTTTCTTACGTAGGTATACACGTGCTATGGTGGTTTGCTGCATCTGTCAATCCGTCATCTACATTAGGTATTTCTC
CTAATGCTATCCCTCCCCTAGACCCCTACCCATCGACAGTGTGGTGTTTCCCTCCCTGTTTCCTTGTGTTCTTATCGTTCACCTCCCACTCAGGAATGAG
AACATGTGGTATTTGGTTTTCTGTTCTTGTGTTAGTTTGCTGAGAATGTTGGTTTCCAGCTACATCCGTGATCCTGCAAAAGACAGGAACTCATCCTTTT
TTATGGCTGCATAGTATTCCCTGGTATATATGTGCCACATTTTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGGTTTCAAGTCTTTGCTATTGT
GAACAGKGCATATTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGACTGCGGACTGCAGTGGCGCAATCT
CGGCTCACTGCAAGCTCCACTTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCGCGCCCGGCTAAT
TTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCCA
GTGCATATTCTTAAGGGCTCAGCTTAAACCTTACCTGTTTGAGTGTAAGGCAGAGCTCCTTGATCTGCATAATAGATTAAGTTCCAGTGCTGTATTTACC
AAAGTCCCCTCTATTATTTCCCTATTAGAGCATTCATTAGTATTAACTATAATGACTATAATGACTTGTTTTACCTTTGAAATTTTATTAAAATTATTGC
AAGAGCACTTTTTTACCTTCCAATGCCCAGTGCTTCAGTACTTACTCAGAGTGCAGGCACATTTAAAATATTTGTTGAATGTACAAATAAATGTTTAAAA
GGTTTCACATAGACTAGGTTGCAAAATCCATAGCAGACACTGTAGGTRCTCCACCTATATCCTTTCCTTTTACCATTCTGGGGCATACTGGCCTAATTTA
CTTGCAGAAGAACAAACACATTCTGAGAACAGYCAGGCCTCAACCAAAGACCAGCAGGAGCAGGTGCATAAATACCCCAACTCCCTCACCCTTCGAATGC
GATGASTCTAAGGCTTATGTTTTAAACTGGCTTCCATAACTCACCAGCAGGATTCAGTTCTAGTTATCCACATTGACAGCTGATTTGATAACAGCCGTTT
TGTTGGCTGCTTTCCCTGCCTTATCTCATTTCCTATTCTCACTGTCACTCTCATTCCTGTTCTCTTATTCTCATGTAGTGCTCCCATCACCTTCCACATC
AACCCCGCACACTTGAATCCTTGTTGCAAGGTCTGTTCCTAGGACAGCAAAGCATAAGGTTTCCAACAACCCTGTGAGATGTGTATCATCACCTGTATTT
TAAAAGTAAGAAGTGCAGGGCAGAGAGATTATGGCCATCTACCAAGTGCATCGAAGAATAGGCATCTAACCCAGACCTCTGGCTACAAACTCTGGACATC
ATCCAGTTCACCATGTTGTTTCTATAAGGTGTTCAACTAGTGTGCGTTAAATGACAAGATGGCTGGGTGTAGTTCTGATATAAACTCTTCCCAAATTCAA
CCTTGAATTCAAATGGTTTCTTTCTAGTCGTAGTATGGTACCAAATAGATAAGTCTGTTTAGGTAAGAATTAAATGTAAAAAAACACAAACATTTAAGTT
CATTGGATTGTTTCCCCTTAACTGCCTGTGCCCCTTAAATGCTACCTTTTCCTGATCCTATTTGAGGGGGGAAGTATCTTTTGAATCCCAGACTTGCAGG
GACGGATTCTGCATGGCCTGTACCCTTGTTTGCAGCGATTACTCTGCTCAGAGGAGGATGACCTGTGTGGGGAGCCTCTTCAGCTACTTGAGGCACTAAC
CCTCTAGCCCAGGAAGTCCCWTTATTGCTGGGCCCTGCCATAAGCTTATTTGTATTTCACAGCGACTTGCACAGATGTGCCAGATATGTACAGATGGATT
TTTATCAGAAGAGAGTCTACCCAAGTGAAGCAGTGKAGGGTGAGGCTAAATCCCAAAATTGAAATTTGGGGACACTGATTAGGCACAGAGCAGGACCAGG
GGTTAAAACCATGTGGGAAACAGATCAATAGAATGGAGGAAAACAGTCCCTGAGGAGGACCCTATGACAGAAATCTACTATAGAGAAACGGCCTGGGCAG
ACCAAGCATAATATTCAGTGGAGAGTCTGGGTGTGAGAGCTGTGTTTGGGTGAGAAGCAGGGAATGATTGAAAGGTAAGACAAGAGAAAACATTTCCTTT
TGTTCATTCCATTTCTGCAGAGGCTCTTGTATTTCTGAGTCCCATTTTGAAAGTCACACAGCCCAGCATCTCATCTCTTCTTTAGCCGAAAAACATACTG
CATTAGCTGAGTCTCCAGAGCAAGTTGTTGCTAGCCTTGGGACCTGGGGAGGTTATTTCAGCTGTGAGTACCTCACTTCCCTCACATGCAAAGTGCAGTA
GTAACAGCACTTCCATCCTATGGTAGCTGGGACGGAAAATGCATAACTCCATGTGAATTGCCAAGGATAGTGCCTGTCACGTGGTAAGCATTTAACACAT
AGTAGCTGTTTTTAATATTATGTGTGGTAGATTGGCACCATTCCATGAATCCAAGCCATTTGGGTATGATAACTGAACTGGTTGTCAAAGCAAGAATCAG
CCTTGTGTTTACAACCACTGAGAAAGAGCTTGTCAAGCTCTTAGCTGAAATCTGTACAAAATATCTGCTGCAGGTCTCTACCTTTTTACCATTTAAGGTC
CATGAAGGAAACCAGGTCACTCAGGCACAACCTGATTTTAATGAACCCTCGTAGGCGTCTAAAGAATCACCACTTTATTTTTTTAAAGTGTTCAAAACCA
TTACTTTAATGATTTGTTCTGGAGTCTCGACCCAGAACAATGTCAGTCTCGTTACAGAATCTCAGAATTTACTGCCACTTTTTGAAATAGTTGGAGATAC
TTTCTATCCTCTGTCTCAGCATTTCTGCCACTCTTCTGGATTGGATTTATTTAGAACAATTAAATGCTGTCTTACAATCTCTTTCCCCAACTTGGGGTTT
CTCTTCCCTTCTACCAACGTTCACTCTGCATTTTCATTCTGATGCTCATTTTTCTTGGCATTTTGTCTGGAGAAGTTTGAAGCAGAGCAGATGCTCAGAC
GGTCTGCATCCCTCCTCTTTGCCGTCCTTCTCCTTTGCTCACCTGCAAGAATCAGGCTTTACGWTTCAACTTTCTGTTCCAAACATAGCTTTAAAGCCTG
TTTGGGTGTCCTTAGAAATTTTTCTAAGTGTCAGCTCATATGAGACACCCGCTCCAGATGTCTTGTTTTCCCACTGTTCACTGTTCAATTTAACAAAACA
CATATTAGGCACCTACTGTGAGGCAGGCATTGTGCTGCTCTTGAAAGATACAAAGGAAAACAAGGTGTAGTCCCTACTTTCAAGGCGCTCACGGTAAAGC
TAGAAATGTAAACAAACCAACACAARACAGTGTGCAAGAATCCTGTTAAAGACCTGCCCTCACTGAACTGTGCCCCTCCACCTGGAGGCTGCAGCGGGTC
AAGGATGGCTTCACTGAAGGGATGATATTTGAACAAGAVTTATTTTTATTTCTTTTTATTCTTCTATCCCATGACATTTCCTTTTCTAGTCTCCTAGGCA
GCCATCAACAAGGTGCACAAATATGTCTTTTTGCTTATACAGTAGTCATACAAAATGCATGTTGCAGTTTTGTACTCAGCTGTTTCATTGATGTAAATGA
TCCTGTGTCACATACTCACACACCTTATTTTTTGCTTTCCCTCTCTAAGCATTTTTGGTTTTTGGTTTTTTTTGAAACAGAGTTACCCACTGTTGTCCAG
GCTGGAGTGCAGTGGTGTGATAGCTCACTGCAACCTCTGCCTCCCCGGTTCTAGCGATTCTCCTGCCTCAGCCTCGCAAGTAATCCCTGGGATTACGGGC
ACCCACTACCATGCCCAGCCAACTGTTTTGTTTGTTTGTTTTTGTATTTTCAGTAGAGACAGGGTTTCAGCACGTTGGCCAGGCTGATTTTGAACTCCTG
ACCTCAAGTGATGCTCCCACCTCGGCCTCACAAAGTGCTAGGATTACAGGCGTGAGCCACCATGCCCGGCCTAAGCTTTCTTTGTAAGATGCATTCATGT
CAGGGTGCAAACATCCAGGCTGTTATTTCCATTCACTGTGTGTCCTTGCATCTTCCACATCCTTCACTTTTCCATTGTCTCCATGTAGAATGCCCACATT
GTCTCTGGTTCCCAACACCCTGAATAACTGCAGCAATACCCTTTACGATTCACATGCAGATGGGTGTAAAAGGTTCCTTGSCTTATATTTGCCCAGAAAT
GGAATTTCTGGATCACAGGTATGACAGGCAGAATAATGACCCCAATGATATCCACATTCTAATACCTAGAAACTGCAAATATGTGACCTTGGGTGGCAAA
AGGGACTTTGCAGATGTAAYTAGATTAAAATTTTTGAGATTGAGAGATCATGTTGGACGATGTAAGTGGGCCCAGTATAATCACAAGGGTCCTTATCAGA
AAAAGGAGGAGGCAGAAGATCCAGAGTTGGAGAGAGATTTAAAGATGCTCTATTGCTGTCTTTGAAGATAGAGGAAGGGGCCAGGAGTCAAGGAAAGTGG
GCAGCATGTAGAACATGTAAAAGAAAAGGAAGCAGATTTGTCCCTAGAGCCTTCAAGAGTCTCCATGTCAGACTTTTGACCTCAAGGACTATAAAATAAT
ACATTTGTGTTGCTTTAAGCCATTAAGTTCCTGGGGATTTGTTACAGCGGCCGCAGGATGCCCACACATAAACTACGCCCAGACTGACTTTGACTGTAAT
GGCGCTGGGTCAGTCTCAGAATGGCTGTCCAGGCCCACATTTCTGATAGCCGCACATGAAGTCCTCACGTCTGCACACCCTCGGCATCACTTGGCCCAAC
TCGTCTTTCTGATTTCTTTCAGTCCGATGGGTATAAAGCATAAACAAGTCTTGAATAAAGAGTCAGAATTCCTTCCAATAAAGTAGGGTGGTTGAGGTGA
GATGGGGGATGGCCTTGGGGCCCTGGCTGCTGTGGTTGGATGGTCTGGTCTTTGGGAGAGGATGCACAAATCATTAGGAAAGCAGAGATAAGGCTCCCAA
GGGGCTACATGGAGAGTAAGTGGAGACAAAACCCGTGCGCCTTGTGAGGACACAGGGCTGTGTGGACTCCATGGAAGAGAGGGCCCCAGACAGTGGCAGG
CAGTGTGGGGTCACAGTCGTAGTCAGGCCTGGGTGTCAGTCACAGTTCTGCAGCTGCCGTGTGACCCTAGGCATGCTCTTAACCTCTCTGATCCTTGGCA
TCCTTCTCCCTGTGACAGGGATAATAATACTATCTGCTCATAGGACTGCCATGTGGCTTACATGAGATCATGCATGCAAAGCCCCTAATACAGTGAATGG
TATAGAGTTGGCACCCAACAAATAATCATCGTAATGATACTATTTTCATTAGCACAATAATTGTAATAATAATTACAGTTTCTTACATTCCTCAACTCCA
AGAAAATTGGATTTTTCTTGTAATCTGCAGGATCCATTGCTGACCTTGCTCTTCTATCTGGAGAATAATGTATTGCAATCAGTTTCCACATATTTATATG
CAAAGGCCTTTATATATTATTTTCAAGGAGATCTTCCCCTCCTTAACCATTGCCCTTGTCTATACCCCCATCCCTGAAAAATGGGGGTTTCCTTTTAGGG
CTTTTAACAGCATAATGCAGTTGAATACAACTTATTTTACTGACATCTCTCCTCCAAGCRCTCTCCCCCAGCACTTTCCAGGACTAAATAATGCATGAAG
GGAGAGAATAACAGGGATTGCATAAACGACGGAAAACAGCACGGTAAGGATTCTGTGTTGTGAAGAGATGAAAGCCCCTGGTCAGAAGGCCAGTAACAAA
GCAAAGAAGAAATGCAAAGGCATTGACGAGGGAGACAAGAAAAGTATTTTTCAAGATAAGATTTGTGGAGAGTTAAAAAGGAGATGACTCAGGAGACAGT
CAAAGACTCTTCATTAGACAGGAACTCCAGAGTGGGTACACCAGGGGGCCTGGGCTTTTGAAGGGCTGGGGCTCTGAAGAAGTTAACAAACACCAGCTCC
ACTTCCTGGGCCTCTGAAGCCTTCTTTGACGTGCCCAGGTGGGGGCCGATTCTTCTTGCTTGGTGTCCTATGCCTCCCTCTTCCTACCTTTATTAGAGAA
TGTATCTCACTCAACTGTAACGGTGGATTCCTATGTCCTTTTTCTTCACTGTGCTGGAGCTCCAGGCGCTTTTCCAGTTATCCTCATGCTTTTCCATCTT
AGATGCTTTTCCAGTTATCCTCATCATAGATTAAAATAATAATTGTTGGTCATTTAGTCTGTCCCTGTGCTAAGTGCTCCATGTGCATTAGATAAATTAT
GCCTCAAGACAGCCCCAGATACCCATTTTACAACTGTAGAAACTGAGGCAGGAGGAGATTGAGACTTGCTTGCAGATGTGCAAATGGTGGAGAATGTAGG
TGAGATTGGCACTGAGGGGTTCAGACTCCCAAATAGGGCTGTTGAGTTTCTTTTACTCCCAAAACCAAGCACAGTGCTGAGCACGAAAATGCACTAAGCA
AGAGTTTGATTTGTGAACACATTATTCTGCCTGGAACTCAGCTAGCTAGCCAGGTGGTACTCGGAGTTGGCATTTCTGTTGCTCAGGCCGGGCTGCATTT
GGTGAGTTGCGGGAAGGGGATGATGACATCTTCTCCAGTTRACAAAAGACAATGGCTTGTTCTGAGGAGAGGGCCTGGAACTCTTGGTCCATCAGTCTGG
CTTTGTCCTGTCTATTATACACAGTCTAATCACCCCCAACAAATGGTGCTAGGAAAACGAAAACAAAAGCTATATATTTCCTCTTATAGAATTTTTAAAA
CAACTAAATATACCTCTGGAATACACTTTACAAATTTATGCTAAAGGCTTCCACACCAATGTGGCTCCTAAGTTCCCAAAATTGAGCTCCATTTTGAATT
GCCCTTGGCCCTGCTCTCTCTGGGATTGCTAGAGAGTTCCAGCATGGACCCAGTGTCCTTTGTGGGCTGCAGAGCTGGACAACACTGGGATGAGTAAGGC
AGCCAACCCTCAGCCCTGGGAGGCACAGTGAGGGCCAGGGTATTAACCAGAAGCTTAGTAGTCATTTTACCATCAGCATTAAGTCACCCACATGCACACT
GATATGGTTTGGCTGTGTCCCCACCCAAATCTCATCTTGAATTGTAGTTCCCATAATCCCCACGTGTAATGGGAGGAACCTAGTGGGAGGTAATTTAATT
ATGAGTGAGTTCTCACGAGATGTGATGGTTTTATATGGGGCTTTTCCCCCTTTTGCTTGGCACTTCCCCTTGCTGCCACCATGTGAAGAAGGACATGTTT
GTTTCCCCATCCACCATGATTGTAAATTTCCTGAGAACTCCCAGACCTGCAGAACCGTGAGTCAATTGAACCTCTTTCCTTTATAAATTACCCAGTCTCA
GGTATGTCTTTATTAGCAGCATAAAAATGGACTAATACAGCAAATTGGTTCTGAGGGAGCAGGGTGCTGCTCTAAAGATACCCAAAAATGTGGAAGTGAC
TTTGGAACTGGGTAACAGGCAGAGGTAGGAACAGTTTGGAGGGCTCAGAAGAAGACAGGAAAATGTGGGCAATTTTGGAACTTCCTAGAGACCTGGAAGG
CTCAGAAGACAGGAAGATGTGGGAGTTTAGAACTTCCTAGAGATTTGTTGAATGTCTTTGACCAAAATGCTGATAGTGATATGGACAATGAAGTCCAAGT
TGGGGTGGTCTCAAATGAAGATGAGGAACTTGTTGGAAACTGGAGCAAAGGTGACTCTCGTTATGTTTTAGCACAGGGACTGGTGGCATTTTCCCCTGCC
CTAGAGATCTCTGGCACTTTGAACTGGAGAGAGATGATTTAGGGTATCTGGCAGAATAAATCTCCAAGCAGCAGAGCCTTCAAGAGGTGGCTTGGGTGCT
GTTAAAAGTATTCAGTTTTATGTATTCATAAAGACATGGTTTGGAATTGGAACTTATGTTTAAAAGGGAAGCAGAACATAAAAGTTCAGAAAATTTGCAG
CCTGACAATGCAATAGAAAAGAAAAACCTATTTTATGGGGAGAAATTCAAGGCTGTTGCAGAAATTTGCATCAGTAATGAGGAGCAAAATATTAATCACC
AAGACAACAGGGAAAATGTCTCCAGGGCATGTCAGGGGTCTTCATGGCAGCCCCTCCCATTGCAGGCCTGGAGGCCTTGGAGGAAAAAATGGCTTTGTGG
GCCAGGCCCAAGTCTCCCCTGCTTTGTGCAGCATGGGAACTTGGTGCCCTGTGTCCCAGCCACTACAGCCATAGCTAAAAGAGGCCAAGGTACAGCTCAG
GTTGTGGCTTCGGTGGGTGCAAGCCCCAAGCCTTGGCAGCTTCCACATAGTGTTGAGCCTGCAGGTACACAGAAGTCAGTAATTGAGGTTTGGGAACCTC
TGTCTAGATTTCAGAGGATGTGTGGAAACACGTGATGTCCAGGCAGAAGTTTGCTGCAGGGACAGAACACTCATGGAGAACCTCTGCTAGAGYAGTGCAG
AAGGGAAATATGGGGTTGGAGCCCCCACACAGAGTCCCCACTGGGGCACTGCTTAGTGGAGCTGTGAGAAGAGGGTCACCATCCTCCATACCCCAAAATG
GTAGCTCCACYGACAGCTTGCACCATGCACCTGGAAAAGCCACAGACACTCAAAGCTAGCCATGAAAGCAGCCGGGAGGGGGGTTGTACCCTGCAAAGCC
ACAGGGGTGGAGCTGCCCAAGATCATGGGAGCCCACCTCTAGCATCATCATGCCCTAGATGTGAGACATGAAGTCAAAGGGGATTATTTTTGAACTTTAA
GGTTTAATGACTGCCCTATTGGATTCTAGACTTGCATGGGGCCTGTAGCTCCTTTGTTTTGGCCAGTTACTCCCATTTGGAACAGATGTATTTATCCAAT
GCCTGTACCCCCATTGTGTCTGGGAAGTATCTAACTGGCTTTGGATTTTACAGGCTTGTAGGCCTCKTCTCAGATGAGACTATGGACTTGGAGTTTTCAG
TTAATGCTGGACTGAGTTATGACTTTTGGGGACTGTTGGGAGGGCAGAATTGTCTTTTGAAATGTGAGTACACGGGATTTTGGAGAGTAGGGGCAGAGTG
ATATGATTTGGCTGTGTCCTCATCCAAATTTCATCTTGAATTATAGTTCCTGTAATCCCTACATGTGGTGGGAGGGACGTGGGGGGAGACGACTGGATCA
TGGGGGTGGTTACCCTCATGCTGTTTTCATGATTGTGAATTCTCATGGGATCTGATGGTTTTATAAAGGGCGTTTCCCCCTTTTGCTCAGCACTTCTCCT
GGATGCTGCCATGTGAAAAAGGATGTGTTTGCTTCCTCTTCCACCATGATCATAGTTTCCTGAGGCTTCCCAAGCCGTGCAGAATTGTGAGTCAATTAAA
CCTCTTTCCTTTATAAATTACCCAGTCTTAGGTATGTCTCTATTAGCAGGATGAGAACAGACAAATGCACAGACCAACAAGGAGTATGTGGTGAGCTTTT
TCCTGCCTTGCTTTTTTGAAAGAGGAAAACAATAAGATCAGAACAGATTATCACTAAAATTGGCAGGGGGAAAGTGTGGCACAGTCATTAGAAAAAACTG
GACTTTGGAGACCATTTTAGGAAATCTTGGAATACTAGCATTGTTTGGGGCCACTTCCTTGGGTCATGTTTAAGTAAGATTTGCAGCAGCCCATAGATGA
CTCACTGAAATTTAATCATTAATGGAATATTTTATAAAGGGGCAGTTTATAAATGCATAGTTGAAGTACAGGGAAACCACAAGGGATGGCACCACCCCCA
GGGGCTAGTGATGGCAGGGACAGTTATCTGCCCTGGTCTGAAGGGTTAAGAGGAGAGGAGGGAGCCCTCTCTGAAGTGGAGACAGTGAGGTGTGTGTGCA
GAAGGCCACCTGACGTGTCTGAGACCTTCCTTTGAGAGATACAGCCAGCCCTCAGTGACCCAGCAGGGAAGAAGCAAGGATAAACACCTGATTCCTTTTC
TCCCTGCCTTCCCTCTGTAATGAGTTTTGTCTGTTGGTCAAAACTAGAGACTCACAGAGTGCTTTGGCTGGGTCCGTAAAGACCAATCTCCAGGGACCAA
AGAAAGGTGGTGAAGGGAGGAGCTGGGTAAACAGAAGCTATCCAGCCTGGTTTTCATCTATCCAGAGCTGTACACAAGATGGTGGATTGAAGATGATTAA
ACACAACACAGTATTATAAGTTTTAGAGGACCAAATAATGTACTTTAAAACTAATGCAAATGTGATTTTTTTGAAGGCTCATTTCATGGTAACACTGTGC
GGAGCTCTTAAGTCAAACATCTCTTTCAATCCTCCCAACAATCTAGGAAGATAAGTTATGGTCTCCGTGTTCTCTAGTAGAAGAAACAGACTTTAAAGAT
TTTGGTGACATTTTCAAGCAAACTACCATATACAGAGTCAGAGCCCTCAAACTGTGAACTGTATCCTTTTGGGGTTGCCTTTGTCCCCAAGAACCTCCTT
GTCTTCTCTGGTCCTCATTTTTCAACACAGTCAAGAAAATATCTGTTTGTTTCATGACTGAGCATTCATGAGAGCCAAAAGGAAACAATGATTTATTAAA
GTGTCTATGTCAGGAAGTTCTTATTGGCTGCTCCCGTTGTTAATTGAGTGTCTTGAAACCCTTCTGGTGCTTTGTAATTAGTGCTCCAGGACAAAACATG
CTGCTGCTTTTTTCTCATCCCCTAAATTTTGCCATTTCAGCACAAAGGGAGCTCAGGTGCATCAGGAGCCCCAGCCTCCTGCGACTGGMCTGCATACATA
CAAATACCCATTCTAGGTGGTTTCCAAAAGGACTCCATTTCTATGGGAATATTTTCCATTGAGCTGTTTAWGAACTTTCACTTAGTGATTAAAAAATTAT
TCAAAAGGAGGGCAATAGTAATAAACTTCCACTTTCCGTTTCACCAGCATATCTCAAAACTAAATTAATTATCAGCCTGTGTGAATAAAGTTTGTGTCCT
GATAAATGTATTCCCTCAAGAATGCTCAATTCACCTTTCCCCAGGTCTCCAGCTCACACACTGCAGTCCAATTTCAAATTCTTCCGTCTCACCATGAATC
TCCAGTCTTGAAGCMCTCTCCTTGAMCCCCTCCTTGGAGGGTGATGTGGTAAATCAAGTCAGCTCTCTGTGAATGTCTCATCATTCTCCACCTGCCACAG
CAATTTTGCCCCCTCTGCTCTCCTCCTGGGGTAAAGAGTCTTTCCTTGTTAGGGCTTAACCCTTTAAACTAGTCTTCCCCTGCTGGTCCAGGCAAGGAGC
CTGTTCCAGCATTTGGTTCTTTCTTCTCCATCTTCTTCAGGTGTTCTCCTTCCTTCTTTAGGTCAGAAAAGAAATTCATGAAAAACACCATAAAATAAAA
TTTTAAAAAATCCATTTTCTACCTTTCTTGCAAGTGCTTTTATGTTTCTATGCATCTCCTCACATGGGATGCTCACATTCAGCCTTTGCTGCAACATTGT
GCCTTCCTTTTTGAATGTTCTACCCAATTTTCTCCCGTAAGCCCTTCAACAGCTACCAGTGGCTTCCTAATGACCATTCACAGTGTATGCTTCTCAATCT
CTGCAGCTTCGAACACTGTTGACTTTCTTCCTTTCCTACCCCAGCCTTGAAATAGGTATCCATGGCAAAACATTCAGTCCCTACTCTTAACCTTGCTGTC
TGAATGCTGTTGCTTGCCATTGGACTATTCTGGAACAGGAAGTATAGCATTCTAACAGCATGGTATATGAAGCCMTATTTCCCTGAATCAACTTCTAGTT
TTAGCACTTATTAGCTAATAAGTGTATGATCTTAGGCAATTTATTAGGAAAAAAATTAATCTCAGTTTACCCAACTATAAAATGGAGATAATAATGCTTT
GTAGGAAGGTATATGAATTAATTCATATAAACCAATTTCACAAGCTCTGTAAAATAAGAATTTCTTCTTATTTTATAAATAATACTTATCTTATAAATAA
TAAGATGTTATTTATGCCAATAATATCTACAAGTTGACATTTTCCAATATTCTGCTTTTAGAACTGTATTAGGTTCCTATTGTTGTATTAAAAAATTACC
CCAAACTTAGTGACTTAAAATACCACAAATTTATTATCATACATTTCTGGAGCTCCGAAGTCCTAAAAAATCTAAAGTGTCGGCAGAGCCATAGCGGAGA
ATCTGCTTTTTTGCCTTTTTCCTGTATCCCTTGGCTTAGGGACTATTCCTCCATGTTCAAAGCTGCATTTGCATGGCTTCAACTATCAGTTCTATGTGGA
AGATTTTTTCTGATTTTCAGGCCAGTCTCATATCCCCAGAGAAATGCATTCTTATCCCCCCAACTATTTGCCATTGAAAGTAATGGCAAAAACCACCATT
AGTTTTGCACCAACCTAGTAGTTGCAGGTCGTCTCCCTGTGGCTGCACTCCACACAAATACAAGTAAACGCATCACAATCCTATAACTAATTCTGTTCCT
TGTCCTGATGAGCTTCCTTCTACAAATGGCCCTAATATTCCCTCCMTTTCCCAGTATTTATTGAGGGATGAAGAGTCTTTCTGTCAACTTTCAGTGAGAA
GAAGTAAATAAAACAGCTTTGATGGATACCCCCATGAACCKGAGTGAAAGGGATACTCCTTTAAATCATAGTTATTTCGTTTGCTAAGCATGGTGGCCCT
GAGAATATGCCTCCCAGAGCCTCCACCACAGGGAACACGACTGACATGTGACCCCAGATGCTGTACTCTGAAGCCCATGACAGTATTTGGGCTGACGCTR
TGGTTTTTATTATCTTTCCTCACCAAAGACTTCAGCAAGGGAGGGATACTAAGGCAAATCTGTTTCTGGGAATCTTCAAACTCATTCAACAGCTGATCTT
GGCTCCAGGGCTTCCATATGGCCTTGCAGGACCTTTCTTAGACTGCAGAGAAGTCCAGAACACTTTTTACTTAGCCTTCCTTTCCTCTCTCCTTCACTCA
AGGTCAGATTTTCATCTCAGTTTGATAGCTCTCCCCGCTCCTCCCAGCTTYGTCCCCATTTTTTCTCACCCGGCTGTTTCCCCTAATATAATAATTGGTC
TTCAATTTTAACTTGCATTTGCTCCTCAGGAGATCTGAACTTATATGTCATAGTCTGAGTTTGGAGGGTTGAAGGGTCAAGACCTGATGGTGAAGCCCAC
TTCCTTTGAGTTCCCTGGATTCCAGGAAGACAGAATTTACAACTGCCAGTAAGGGAGCAACCAGACGATGCAAACTCCTTGGCACCAAGAAGAGAATGTG
GGAGGAAAATGAGATGTTTTAGAAACAACAGAGGAATCTGTGAGACAGGGCTGCTGTGAGATGATGTCACACTTGACATAAATTGACAGTTAATTGCCTG
GAGATTTGGGAACAGTTCAGSGGTGTGTGTATGAGAGAGATTGTGCATACCATGAACAATGGACACAAATATATATGCCTGCTTCTGTGTTGTGTGTCTC
TCTGAATTAGTGTTCCCTGGTCCACTTCATAGGATATTTCACCAGCACCTGGGACTGACTGTAAGGGGGAAATGGATTTGCTCATGGACCTTTCAGCAGA
GGGAAAAATGGGTAGAAGCTTCTAGGAAGCGGGAATAATTTCATGTAAAGAGGGCTTTTCCTGAAGACACCTGACAGAGTGGGTAGCTGGAGGCATATCT
GCCATAGATACAAGGACTTTCTGCCGTGGGTGGGAAGCTGGACTGGGAAGCCCACAAGACCTTCCACCTCAGACAGTTGTAGAAATTCAAAAGTCCCAGC
AGTTTTCTAAACCTGGCAGGTCACTTGAATCACATGGGAGGCCATTAAACACACCCCARATATTCTAAATTTGGATTTCAAGGGAAGGGCTTGAAAGGAA
GAGCAAGGAACCTGGATAAAACTCTAAAACCTTCTTTCCCTTGCAATTGAATTAGCCAGCCTAATTTGAAAACCACACTGCTTTGTTGAACAGAATTCCC
GGAACCACCCCAGACTTGAAGTATCATTCAGCTATGTCTTCACATGGGAAATGTGTTGTGCTATCAGAAGTTGAATTGCTTGTTTCAATGTGTTTAAGAC
AATGTACCTCCGAATCTGGCAGGAATGAGTTTAAATTCTGACTCTGCTACTTATCATCTGAGTGATCTTGAATAAGATATTCAACTTCTCAGAACCTCAG
ATTTCTTCGCTGTAAAATAAGGATGGTAATGACACCTTTTTCCTAAATTTACTGAAATTATCAAGTGGGATAATGATAACAGTTAACATTCATTTTCAAC
TTGCTCTGTGCCAGTCACTATTTCAACTCATGTATTAGCTCATTTGTTTGTAGCAACTGTCTGAAGAAGGTTCAGCTATGATTCCCGCTTTACAGATGGA
AAGATTGAGGCATCAAGAGGTCACATAACTTGCTAAGGTTTGCACAACTAAACGGGATACAGCTGATATTTAAACCTAGGCAATTCAGTCAAAATCTACT
TTTCAGGATAGTATGCTTTATACACACATACTATGCTATGTGTGTATAAAGCACTTAACCCAGAGCTTGGAACACACTATGTGCTCCATAACTATTAGCT
AATGTTATAATCACTGCTTTTACCCTGGGACTTACAGTGAATTGTCACAACTCTCCAGCATCTGCAATATTCCTACTTAGCTGCTTGCAAAGCCAGAACA
CCTGTGTCTTCATGCCCTCTCCTTTTTGTGCCCAGCCCCTGTCTCAGTGATGAGCAGGACAGCATGCATGGATCATTAACTTACTGAGACTGAGAATGTC
AAATTCAAGACCTGTTGAATAAGGTCAGTAAGTAATAGTAGTTGCTGTATTTCTCATAAGTGTTGAAAAGGAATCCTTACAGAAATACATTACTTTAATC
CTAATGTATTTTGACTTCTTCAGGATGCACAGGTGTCCAGGGAACTGTAGTGTCAGTATCTCTGAGACCTTAGGAGAACTTCTTTTGAATCTAAAGGAGG
GGGAGTTGAAAGGCATCTCTATTATAGCAAAAAGAAATTAGAGGGCTGATTCATCCTATTCTGTAGGGAAAGCAGAACTCTGCTCAGAGATCTTGAAGTA
AGTAAAACATGGTAGTTACTTTTGGAGGAAAATAAAGTACCATCGAATGTAGAATCTGATGGTTTCAGTGAAGGTAATAAATGGTGCTTTGATGACAACT
GTATTCATTAGACATATTTGTGGCTTTCCTCCTCCTTTCTCTTGCAGATAAATTCTCACTCAGGCCCTACAGAGATAGGTGCGTGGTTTTAGAGATCATC
AGATGTGGGTTTAAGATCACTTTTGCCACTTCCCATATGCGAGATCTTGGGCAGGACCCTCACCCTCTCTGAACCTTGGCCTCTTCTTTCTGAAATGTTG
GTAATTGATATGGTTTGGATATTTGTCCCCATCCAAATTTCATGTTGAATTGCAATCCCCAGCATTGGAGGTGGGACCTGGTGGGAGGTGACTGGAGCAT
GGGGACAGATTTCTCCTAAATGGTTTACTACCATCTTGGTACTGTTCTCATGATAGTGAGTGAGTTCTTATGAGATCTGGTCGTTTAAAAGCACATAGCA
CCTCCCTCTTTGCTCTGTCTTGCACCTGCTCTGGCCATGTGTTGTGCCTGCCTCCCTTTCACCTTCCACCATGACTGGAAGCTTCCCGAAGCCTCCCCAC
AAGCAGAGCAGACATTGGCATCATGCTTCCTGTAAAGCCTACAGAACCATGAGCCAATTACACCTTTCTTCTTTTTAAACTACCCTGTCTCACGTACTTC
TATATAGTGACGTAAGAATGGACTAATACAGTAATACTCTTACACTTATTGTAGAGATGTTGTGGGACAACATAAGACAATTGTAAACACAGTCTGTGCC
TGCAAGTTCAGCCAGGCACTCTGTAGAGATCAATACTGTCCCTAGGATGCTGTGAATTTTCATATTGGTACGTCTGAGCCTGAGTAACACTTGGCAACCA
GAGTGAGCCCCAGAACTGGCTCATGTGGAGGTCAGTGACAAACCTTTGACATTTGATACAATCAAMACCAAGCCGCTTTGTTTAAAATGCTCATCAAATA
CCTACCATGCACACTGTGTATATAAAAGTCATTGTCACAAAAGCCCTTTTTCAGAATCTCTAGCTTGCCATTTCTCTCAGATTTCTTATTGTCCTCTGGG
TCAAAAACACTGCAAAATTTCATTCCTTTACCACAGCAAGCTTTTATTTCTGGTGTACACACCCGAGTGTTATCTGGAATGTGGCTGCTCTAAGCTGGGC
CTCTGCTGGATTTAACTCTAGACTATTGGTTGAGCTAAGGTCTTCTTCCTGTGTCTCTTATTTTTCTAGGGATAGCAGAAATGAAAGAGGCAAGTCCAAC
CACACAAACATATCTCAAGCCTTTGCTTGAACTACATCCAATAGTACCTGCTGGTCAAACCAAGTCACAAGGATAACCCAACTGTAAGACCATGGCAAGG
TGATGAATGTCTACAAATACCGCAAATGGGTGAAGAATTGAGACCATATCTCATTCTGTCATACCTGGAACTCCAAATTTCCCAGTTCTTTTAAACTTTT
ATGAGTTAGGTACTTTCAAGTTGTGTAGGACAGACTCACCTGGTTTGGGTGARTTAAGTCTRTGGAAAGGGAACAGAAAACATGTGAGGAAACACTTATC
CCATCTATTCCATCTTATCTTGATGGAATTAGAATTTAGGGATTCACTTTTCAGGGACAAAAAGCATTCAGGAAGGTGCCTCACACAAAATGGCTACTCA
GGAAATGTTTATGGAGAGGACATGTGAATCAGTGAGGAGCGGCTGTAGCACTGGTCACCTTGCCGTTTTCCCAGAAGTAGCCTCCATTGCTCCCTCCTCT
GTGGTCTTCAATATTCTCATGATTCAACTTCCCTGTCTTCTTTGGTTCTTCCAGTTACTGCTGTATCCCTTAAACTCGCCCAAAAGGAAGGATTGTGTTG
CATTAATTAGCTGTCTTTCTATCTACTGGGCAGAGATCTTATGATATGCTGCCTCATTGGCATGAATCAGCCAATTTTTGTTTTGTTTTGTTTTGTTTGT
TTGTTTGTTTGTTTTTGAGACTTTGAGATGGAGTCTTGATCTGTCTCCCAGGCTGGAATACAGTGTCACGATCCTGGCTCACTGCAACCTCCTCCTTCTA
GGTTCAAGCAATTCTCCTGCCTCAGCCTCCTCTGTAGCTGGTATTACAGGCCCCTAAAACCACGCTCAGCTAATTTTTGGATTCTTAGTAGAGACTGAGT
TTCACTATGTTGACCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCCGCTTTGGCCTCCCAAAGTGGTAGGATTACAGGCATGAGCCACTGTGC
CAGGCCATGAATCAGCCAGTTTTAAAAGGCTTCTTTTTAAGTTGCTGGTCACTGGTTGAATCGCAAAGAGTGTAAGGACCATGCAAGGAATTCCCTATGG
CTGCATTCTTCAGCAAGGGTCTGTGGGTTTTGCTATTGCTTAGAGACTCAAGGATTTTGTGTTGGGTTGCCCCATCTCTTGCTTTGTGATTCTGCCTCTT
GGGATTTGGAAAGGTAACCTGGATCTAGCACAGAGAGGTCTTTCTCCCTTTGAAGTGTTCATCATGATCTGATGAGTCAACAGTGCCTCGTCTCATTGTT
TGCTACACTAGCTGGCTGGAACACTACCCTCCCAGCAGAGCACTCCCTGCCAGAGCATGATACTGCCACTGCCAATTGAAGCACGGCTATGTTTTTACAT
CTTGTAGCAATAACCCTCCTTCCTCAATCATTGAAGACTGATCAGCTGGGCCAAAACCAAAGCAATATAACCCAGGGTCGTGTGTGTACATGCATATGTG
GTGTGTGTATGTGCACATATGCATGTAGTGTATATGTATGCACATGTATGTAAGAGCACGCACACACGTGTTCTTTTTAATATAAAGAAATGCCTTTAGA
GAATGAAATGCACTGGGGGCATCCAAGGTGAGGAGACTTGAGGGAATGTTTTTTGTTTTTTTTCTTGGCAAATCAGTGAAAGATGGGCAGATAAGTATGG
TGAACCCCTAGTGTGAAGTAGAGAAATTGGAGGCTGGAGTTATAGAGGCAGATGTTGAAGAACGTGGAAGCTTCTAGAAGAGCTGAAAACGTCCATAGAC
TGAGTAATCGGCCAGGCACAGTGGCTCACACATGTAATCCCAGCASTTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCTGCCT
GGCCAACATGGTGAAACCCCGTCTCTACAAAAATACAAAAATTAGCTGGGCATGTTGGTGGGTGCCTGTAATCCCAGCTACTCTGGAGGCCCGAGACAGG
AGAATTGCTTGAACCCGGCTGGCGGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGAGACAGAGTGAAACTCCAACTCAAAAAAAAA
AAAAAAAATGCGAGTAATGAAGGGCAGATTCAGGACCGGGACTGGATGCTCACTCAGTAGGTTGCTGTGTCCCGCAAGGTAGGAGGTGTTCTGTGGGTGA
AAGGCAAAGACAGAGAGGACATCAGGTCAGAACATTCCAAGTGAGACTCTACGTTCCTTGAAGACTCCATTGTCTCATTTCTTTTTATATCTCCAGTGCC
AAAGACCTAAGTGAGCCCTCTGGATATTAGATAAATAAATTAACTTATTAAAGGATGAAAGAGTGAACTACTAAGTTAATTTGAAATTGAAATATAGGGT
AAGGCCTGCACTTACACAGAGAAAATGAACTTTCAAAAATGTACAAAGCAGACAAAGGGGAGACGGAGAGAGAGNNNNNNNNNNNNNNNNNNNNAATGGG
TATCCAACTGATACCTGGAACATGGCAGTGTGAGTAGCTGAAAAAGGAAAAGACCTCAAGGAATGGGGCTGTCTGTGGGGCCTATATTTATGTTGACATC
ACTCACAAGTACAAGTCTGCATCCCTGGGTGTCCTCAGACAAGCATATAGTTTGCATATCGTATTACCTTTTGTGTTAGTAATCACTGATTTTGAATCTT
AGCTGACTGTGGAGGTGCTGTTCTGCCTTTGACATGGCAGTGTGAGCTGGAGAGGGATGGGGAGATGAAGAAGCCACATGTCCCAGGAATATCAGGATCC
TATAAACTTATTCTGGGTAAGGCAGTGGCAAGGGTGACCAGCAAAGTGGTGCCTGAAGGCTGGGAATCCAGTCATGTCAATTTTCTTGTTTGTTTCTCTC
TGGCACCTTCTCTAGGCCCAGAGCCTAGATGAGGCTGTGTGGACCAGTGATACAATGGAGACTTTAATTTTCTCGATTAGTGCAGAGGATGAAGAAATCT
CAGCAGTCATGCTGTATTCAAGGTGCAGGGTATTGCCTGCTTCTGTTCTCAATGCTGGCTCTCGTAGCTTAACCCACCTATACAGAAGTGACTTGTTTTC
ATCCCCGTCCTGGCCAGTGACTCTTTAACCAGGCAATGTGATTTACGTTTAGATGTTAGTTTAATCCCTTTGTTTCTTAATGAAGCTGCCCTTGTTAAAA
TCCCTGGGACCTAATCATAGAAATTCTCTCTAGCCCCACGTCTCCGTTCAACAACTGCTTAGCAAATTTCTCATCAGTCCCATTTTTTTTTTTACCAGCT
CCCCTCAATAGCCATTTCTTGTCTCCAAGGTTTTTTGAAGCCCAGAGGCTTTTCTTGTCAGGCAATTCTCTTATTTCAGCCCTGCAGTGAACTATCCATA
TACTGTATCACATCATGATTTTTTTTTTCTCTGCAACCTCTCCCTTCCCCTTGAAACAACTTACCTTTATCTGTGTTCCAACCCCAATCTGTTGCGTCTA
GAAGTCAGAGAGCCAACTGCCAATCATTTTAGAATTCAGCATTTTCAAAGTTCATCTTTGAAATGGATAGCCTCTTGTTCTGCAGAAAAGCAAGGATCCT
AGAAAAAACATGCAAACTGCATTTCAAGGAGGATGGCATCATCTTTTTGTTTCYCTTGGAATGACTCAGGAGTGAGGAAACAGGAATACATTACTGTGGT
TCCCACTCATCTTGGCCTACCAATCTCTCCCATCTTTCTAGGTACAGCCCATCTTGTGATGGGCTGGGACCTGGGCCCCTCCTGGACTTACGTTCAGGAT
TTCAAATAACTTGGATGGCAGTCTAGCCAAGGAAGCCAAAAGCTTCCATCTCTTCCTTGTCGTTTGTGTGGGTTTTTTGGTTTGGGTTTTTTTTTTTTTT
TTAGAGACAGAGTCTCACTTTATCATCCAGGCTGGAGTGCAGTGGCACAATCACGGCTCACTGCCGCCTTGAACTCCTGGGCTCAAGTGATTCTCCCACC
TCAGCCTCCTGAGTAGCTAGAATTACAGGTGCATGCCACCAGGACCAGCTATTTATTTATTTATTGTAGAGGTGGGGTCTTGCTATGTTGCCTAGGCTGA
TTTTGAACTCCTGGTCTGAAGTGATCCATCTTGGCCTCCAAAGTACTGGGATTACAGGTGTGAGCCACTGTGCCCCACAGTATATCTTTTTAAAATGAAG
ACTTTCTTATCAGATTTCAGCACCAAGGCTCATACATATGTTGACTCAAGAATTAAAGGGCTTTAGTTTCATGTGCTGGCACTAATCAATGGCTCTGGTT
TGAGAACAATTTTGAAACCATACTCGTCTCATTGGAAAAGAGGGCAGTAGTGGTGCCTACCAGAGATAGGGCATGAGGAAGCAGTAGTAGCATCCCTGCC
ATGCACCTGCCATCCTTGATTTGATAAAGTCCAGAAGCACATCTGATCACACCATCTTGCACAATGGCCTTCTCCCAAGCAACAGTGACAACTTAGATGG
CCTGGAAAACTATTTCAAACTAATAGCAACATGTCTACCAAGAGTGCATTATTAATGACACATTCAACTGAAAAATTGATCACACGCTCTTAGGTATTAC
ATGGGTCACATTTGCAATAATTTTGGTTTTTACWGCTGAAAGGCAAATTTAAGGTAAAAATCAAATACTTTAAAAGTATATATCTTAATATGCCTTCCTC
TTAACATTCATCTAGTAAGGGGGGAGATGTAGAATTTTGATATAAATTGGCCAGCCTTRTGTTGATTTATCTTTAACACAGATTTCAACTCYTTCACTTC
AGTTGCCATGAACTGCAAGGCCCTTGTTCAGTCTGGCTTTTCATCTCTTTCCTGCCCAAGTCCAATTTAGCTCTTATAAAACAACCAGACTACTGCAATC
CCTCATCTCACGGCAACCTCCAGGACATAATATATAAAACTTACCCTTGACATGTGGGTGGGTCAAATAAGTGATCAAAGGGCAAGTCATGATCTGAAAG
CATGGTAATCTCAAGCAACCGCTGATGTGAACATTGCGTGTGGCACAGTGAAACTCAAAGGACTCCTGATTTTGGCAATAAAAACGATTGTGTCTATAAA
CTGAGAGAATTATAGAAGTTTGAGCACAGCTGATCTTAGCCTTGAACATAGTTGAGGAAGAGGGAAGGAGAAATTTAAAACTTTAATTCTGCCAATTTAA
CAAAACCGCTTCACATCATTATCTAGGATGAGAGTGATATAAAGAAATTTACCAGAACTTTTTCCATTAATCAAAAAGAAGGTAGTGAATGAGATGGAGG
ATCAATCATGTCAAAAATTTCAGAAAGGGATGAGGAAATAATTTCTAGCAAATTATATAATAAAAGTATGTTTCCACTGAAAGGAGCATTGAGGAAGAAG
AAGAGTATTTCGTAGAAGTGAAACGGCACTGATTAACCTCATTAAGGACATGACTTCCTCATACTTTAATAGGAAGTGGTAAACTTCAGAATGAGACCAG
CACTATGTTGAAGTATGTCCTAGTCCAGCCTCTGTTGTGAGCTAGCTGGGAAAGCATGGCCTTATCTGTTTCAGTATCCTTATTTGTGAAATGAAGAGCT
TGGCCTGAAATCAGCAGCTCTCAAATTTTCGTGGGCATCAGAATCACCAAGGATGTTTGTAAATGTTTTTAAAAGTCAATTTTCAAGACTCCRTTAAATG
GAGATTTTGATAWATACAATCAGAGTTAAATATGTGTATATATAAAAAATATCTTTAAGCTAGAGTCTCTTATCAGTGAGACTTTGGGCTCTACGTGCAG
AGAGACTGGTTTACAACCAGTCAAGGGGCAGGGTGGGGATAGAATTCAGAACTTTAGAGATAATCTAACATTCTCAGAGACTAGAATTCTGCAGTGTTCT
GGAACAATACCCCAAGGTCAAAAAGCTTTAACTAAATRTTTGTATGATCAATAAATTGGTCTGATTTAAAATTAGCCTATAAAGACATTTTTTAAAAGCA
AATGCTTAACTTCAATACTACATGACAAGAGGGTGATATACAAAAAAWAGTTACTATGTGGTTCTTGGCATCAAGCAGATTAAAGTCTACTTTGAAATAA
AGACCATAATAAGTAGTTGACCCCATAAAAATTAAGCAATAATGGGAAGAAGTTCAGAGGAACAGAAAATCAATTCATGCTGAGATGATAATCAAATTAT
TGGTAAAAATGAAGATGCTGGTTAGGCATGTCCTTGGCTAGAGAAGGGCTCAGGCTTGCAGGTTTAATGACCTTTAGCTGAGACCACCCCACGTGTCCAT
CTGCCTCAGGATACTCTAAGTCTCGTGGCTGAAGCAAAGTCTTCCTTAAACAGGGCTTCCATTGGGCCATGCCAGCTATTTTGTTTGTTTGTTTCCTCAA
GACTTACCAGGCCCTATCTTCTGATTCCACCTTTGATCTTAGGTAGGTTAATTCAGTTAATATATTACTAATAACTGTCTACACTCTTTCTGCCCTCGAT
ATCTGTTTCCTTCTGCTAACATTTTATGACTATTCTTTGTGGGTTAATTTCACATTTTATCTCCCAAAGGCAGCCCAAGTTCCCTCCTTTCCAGATGTCT
TGGGCTCTCCCACCGTAGAGCATTGGTGCTGCCTATACTGTTGTTCTTGATTTCAGAGAACGTTCTACATCATACAGATGCTTACGCTTATTAAACTACT
GATTTAAGTTGTTGCAGGTTTTGAGTTACCACTGGCTTTTGACTCAGTTGAAAAAAAACAAAGAATGGTCCAGGGTGAGAGAGGTGTGTAAATTGACTCC
GTGAGGACTCTAGGAACTGATCTTTGACTTCCTCGCCAGCCTCTTTGCCAAGCCCAAATTCATCATCATTGTGAAGTAGCATTGGGCCATGTTTAAGAAG
TTTTCTATAAGAATTTATTTTGGATTAATAGCAAATAATTGCAGCTGAGTCAGCATTAAAGACATGTTATATCAGACTGTGTCTGCTAGTTCAGAGGATG
CTGCTTCTCGGATGGGACTTAGCTGAACACGTGTTACACCTCTGGGGAAGTGTCTACAGCATTGTACCAAAAAACACAGAAAACAGGCCACTGAAACAAA
CACCAGCAGACATAGCATTGGCAGGATCTAACAAGCAGGTTTTCCTGAAACGTCATTTTGACAGGGTTATAGTCAGGTGGAATCTCTTAACTGCAGTGGT
CACCTGGTGCTTCGTTCTTTGGTGCACAGAGAGGGGGCTGCAGAGGATTAACATGGAAGAAGCAAGCACTCCCCCTCCGTTGTTACCCCTCCCTGCAAGA
TCCTGAAGCCCTGATTCTTTCCCCATCATTATATCCCTTTTCAGGAACGGAAATGTCTTCTGCAGAGCCAGCCCATTCCCTCTGGTGCTGGTCTCAGGGG
AAGTACAGCATCTGGCTCCCACCCTCCATCTAATTACCCATCTGTTTGTGGGGAGGGAAGGGATGTTCTATTCCCCTTCTCTTCCCAAACATTTTAATGT
GCTGATGCATGAAGACGACAGCAGCTGCACCTCAGAACCCATCCTTTGTGCATCACACTCACTGGCTTAGCTTTTCTGTTCAGTTCTTGGATGGGCCTCT
TTATAGCTAGAGACCCACGTCTCTAACTCCTCCTCATCCTGACTTAGTACAACCCTGGCCCTTGCATTAGACTGCTCCAGATTCCATGTTGCTCTCTGAT
TCAGCATCATCAAGCCTCAGCGGGGTGCCTGAGACCCCCTACCTTTAGGGAGGGGCAGGGATTTCCCTGCTCTGCTCTTGGCCTAGGGCTTCTATCAGCT
CCAGCAAAGAGACCATGGAGAGCGTAGCCTTTCATCGTAATCTCCCAACCTTTACTCAGCTAATGGCCCCTTTGGTTATTTCTCTCTCACTCTGGAAGCC
ATGTTTAGAAAGAGCTGATATACTGAACAAATTGCACTTAATAAATATTCACTTATTTTCCCTCTTTTTAAAAATTAATCAAGTTCTTTGTAAGGAAGAA
AAACGTATTAGTCTTTGACAAATGAAACTACCAATCTCCATTGATACCTACGTTGATAGTATTCAAGCCCCAAACAAACACTTCTTAGCTGGCTCAGATG
ATCTGGTTAAGGGGAACTTTGTCAGTTTAGTTCAGCTTTGTGAAATACTGAAGGATTTCAGACCACTATTAATACCTGAGTAAAGTGGTTAAGAGAATAA
CTTTGGACATAGAGACAGATGGGTTTCATTTGGCCACATACTAGCTACATGACCTCGGGCAAGTTTCTGAACTTGATGCGGCTCCATTTCTTCATGGGTA
AAATTGGGGTAATTATACTATTGATCCTGTAGGATTATCCTGAAGATAGAATGCATAATGTTTACAAAGCACTTGGTACAAAGAGGCATAAAGCAAGAAG
TGAGTAAATGTTAACTGCTGCTATCTTTATTCCCGTCATTTTAATCATCACTATCAATTATCATCACAACCCAAGTGGCTCAGGGATGGAGAGACCCCAA
CTAGGACCCTCTCTCCATTCTAGGGGAAACATTTATTCAACTCAACTGTGGCCAGAACTCATAGTGAATCTCGCTATAGTCATCCTCCGTTTTGCAACAG
CAGATTTTGCTGGGCTCGTGGTCACTCAGCTAAAGACTACTTTCTCCAGCCACCTTGCATCTAGGTATGACCATGGAACTGGGTGATGGCCACTAAGACA
TGAGTGAGCGTGATGTTAGCACATTAATCCATGCCTTTGAAAGGCAAGAAGTCTATTTTCCCTTCCTGTTTTTCCCTTCTTCAGCTGAAACGCAAACGTG
GTGGTGAATCATCTTGAATTAAGCTGAAAAGGGTAACATGGAAGAGATGGCATGGCAACAGGATGCATCCCCAATACCATCAAGCCACCATTCCAATTCT
GGACTGCCAACCTAGACTCTTAAATAAGGGAGAAAAAAAGTCCTTTTTGCTTTAAACTACTGAATCTGATATCACCTATTATAACACCATGGTGTATCGT
AAAAACACACCAAACAACTATTTTCAAAATAGATGTGATACTTCTCCCCAGTTATACAACTTCTGGAAGCAGGAAGCCACTGCATTCCCCCACCCAGCTT
GTCATGGTTTACTTCTGATTGGATATAACTAGATGATAACAGGGATCACGCTGCATCCATTGAGGAGAAAGATGATTCAACCCTCTCGCGGGCTGCTGGG
GAATCGATATCGTTTAATTATGAGAAAGTAAACTGTGTTTACATTTTACACAGTGGCAAGAGGAAGGTCAAATCACAATCCTCATACCCTTTATCAAAAC
CATGCATCGCTGTTTGTCAAGTGAGATTCAAAATGGGATGAACTTGGAGAGTTGCCATCTTCCTGTTTTCTCCCTTGTTTGTTCATATGGCTGTGCTTTA
CAAGATTAAAAGGCTTACCGGGCAAAAGCATAGCAGAAGGAAGTAAAACCTTCGGGCAGATGAAATAATTCTTCCATTTTAGGAAAAAAAGGCAATTAGT
TATTTGAGGTTTTCTGGGTGGGGCAGTGAGTAGAAGGTCATTATGTTCCTTTCCTGTTGTATATCGAAAATCAGTTGAGAAGTAATGAAAATGGTAAGAA
AAAGAAAAAAAAAGAGTAAACCCTCTTCCTCTCCCAGTGGCCTCTACCCCATGACTCATCAGCTTCCTGAACTGGAACAACACTGAGCTTTATGACTACA
GAAATGTCAGCTCTGAGCACAGTGCATACTTCTTTGTGTGAAGATCTTAGGCGGTTGTGCAAAAGCCAGCCCAGGACCCAGCATGGTCCTGCTTTATCTC
TCTGCCGGGCTAGTCTCCATGTTCATTAGAAATGTGTGATTTCTTGACAAGCACTCTTTGGATTTGCTGCAGAGTCAGGTGATACATTGAAATCAGCAAA
AACATTAATGATAGCAACAACAAAAACGACCTTGTTTAAGTTTTACGCCTTATAAGGGGGCAATGTTAGCCTTGTAATAAAAATGAGGTAACTGCAACTT
GGAAATATTAGGAAATTTATTTAGGNNNNNNNNNNNNNNNNNNNNAATGTGTAAACTCACAGTGCTCAGTATTGTGATTGACCCTAATACGTTTTCACTA
ATTGTTGGCTTCAGGGCTAGGACTAGAGTGAGGTGAATGAGGTACTCTCTTTGGGTCCAAATTTAAAGGGATACGAAAAATCTCAGTAATTAAAGTAAAT
AATATTTAATGCAATATTTTATAAAAATAAAAATTAGTGCAAAAATCCATGGTAAACAAAATGTCAACATTTTAAATAAAGGTTCTGTACATGCACAATA
TATTCTATTTACCTTCCCCTAATCCCACCCAGTTGTCTCAGCTAATGGCAATCTTATTTTATACTTGATGAAACAAGCCTGAGCCCAGGTTGTTCTTATC
CCTGTTYTATAGGTGAAAATACTGGGCACAAGAGATTTTTCCACAATCACATAGCTAATATATGGAAAAGCTGGGATTTGAGCTCAGCTATATCTAACAT
AGAAGTTCAGCAGTCTATCTGGCTTCTAAGGTAAGTTTCTGTCACAACATTAAATATTCAGTATCATTTTCTGGRCTATTTTTAAATGGTAGGGAGTCAA
AGAGATTAACTACCAGTTGCAGCTCTTATCAGGCCAACAATATCAGCTAAGGTGAATCTGATACTAGTAGAACTCTAAGAATGTGCATTTATTAAGTCAC
TCATATAAATAATATATTTAACCTACTTAGAAACTCTGTATAGAAGATATCAGTGTTGTATTTCATAAATAGAGAAAGAGAATCTCAGAGTTGAGCACTC
ACAGTCATGGYCAATTCATGGCAGAGTTGGTGACCAGCTCAAATTTTCTAGGTTGACATAATCCTGTCCTTTCTATGGCTTCAAAGCCATCCACGTTTGT
CTCTTGATCCTGGAACTTTTTATATTTCGTCATACAGACCTTCCTAAGATCCTCACTTTGCTTGTATCATTTTCCCTAGAATAACTATTTTCTAAAACGC
ATTAATGCATTGATTTTAATAACATCTTGTGTCTTATGTAATTTTAAAAATCAGCATATATTGACTGAAGACATTTTGACAAAAGAGAAAGAAAGAACAT
AGCAAAAAAGCATTTCCAACTTTCATAAATAAGCAAGAGTATCACTTTCGTGAAGTTCTTTTCTATTTTGTTTTGTCCTGTTTTTTTATAGTGACATGTA
ACTTTTTCTTTTTCTGGACAGCCTGTCCTCTTGGTGATAATAAAGCATGATGATAAAACAAATGAGATCTCACTACTAGACTTTTCTGTCCAGGAAATAC
TCTTGACTTCATCTGTCCTCACCTCTGCTTGGACCTTGTTTCATCCAATACCTCATGCCACTCTCAGCTTTCCAATTTAGATCCTTCTCTTGGGTCATTC
TCCTCTGCTATGAATTAGCAGACATTGATCTTGTCCTCTGACAAGTAGTTATCAGCAGTTATTCATAAATGGATTTAGTATGTTCCATATCCTTAGAATA
ACATATACATATAAGCAAAAATTAAATATAATCTTAGGGGTTTCACAGGCTCCCCTAAATCTCATTCATGTACGCCTTAAGCCTGACTTAAGAAACGCTG
CCATGTAATTTCCCCTTGATCCTTTTTTTTTTTTTTTTTGCAGATACTGCCCCTTCTCATTTTTAACTTTCACCAACACTTTTCTTGTTAAAGAAGCTTT
CATTCTCTGCCGCTGTAATTTTCCTTACGCACATGAATATTTATCTTAATCAAGTTTCTCCTCCCAAGAACATCCCTTCAGACACCAAAACGCGTATTCT
TCCACGTTCCATCAGCAGAAACTTTCCTTCATTTGATACTTGAAGTCCATCGCTCTGGTGAAAGCATCCCTCTTCTTGTTTTTCATTATGTTACATTCTT
TGGACTTGTCCTCTTATCTATGTACCTTGTAACTTCCATTTAGCCCTCTTTTCTCTTTCAACTTCCTTATTGTAGATACTYCTTAATGTTACTAGCATTT
AAGTTGTTTTTTTYCCCCCTCCTTTGTCAGTCYCAAAGCTCCTATGGCTCAACTGTTGGTGCACATAACCTTAGGGAGGTGATTTGAAGAAATTTTACCG
AAATGTTGTATGACAAACTCCVAATAACAGGATTTAAGAGAATACCACTTGTTCTTACCCCTTCAGTTCTCTTAACAGGGAAGAAATATCATARCCACAT
AACACATGTTTATATATATAGATATGCCCTTACATCAAAATAAATTCTTGATGATACCAAGATACGTGTTCAAGGCAACCATAAAACACTGGAAAAAAAT
CAATCAGAGGTGAATTTTTTCTTATCTTATGGTCAGGCAGAGTTTAAGCATGACACCAAAAGTTAAAATAAGCTGAAAATTGATATCATTGGCTACATAA
AATTTTAATGCTTCTGTACAATAAAAACTGTATAAGTATTAAACAAATGACATGTTTAAAAACACAGTTTGCACTATATATTCCGAAGGGCAAGGACCCC
TCTCCAGCAGCTGTCGTCCAGCACATATTTAACGTTTCCATATATCTCTGTCCTCATCAATAAGATGAGGCTAATGACGCTGCCTCTGCGGTCCTTCTAA
GAAGCAGATGGGATAAAAGAGTGTGCACCAGTAGCTCTAAACCCGGGACAATTTCACCCCCTGAGGGCATTTGGCAGTGTCTAATGACATTTTTGGTGGT
CATGCTGGGGGATGCTGCTGGCATCTTGTGGGTAGAATTCAGAGATGCTGTTAAACATCTTGCAATGCTTAAGACATCCATGCAGAACAACAACAACAAA
AAAATATCCTGCCCAAAATGTCAATAGTGCTGTGGCTGAAAAACCCTGGTCTATACAGGGTGGAGGATGTTGCGGAGCGTTTGGTACCTGGTAAGTGCTC
AGTAAATGTCAGTCATTTTTACATCTTATTGGGCAATTCTATGTAAATGCCTTGTCCCTAGGAATATCCACAGGTTTAGCTTATTTTTTTTTTTTTTTTT
TTTTTTTTTTTTTTTTTTTTTTTTATGAAACAAAGTTTTTCCTTTTGTTGCCCAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCACCACGCCCAGCTAATTTTTTGTATTTGTCGTAGAGACACGGTTTCACCATGTTGGCCA
GGTTGGTCTCACTACTGACCTCAGGTGATCCACTCACCTTGGGCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCTCACCCGACCCCAAGGTTGTCT
CTTTTTTCTTTTCTCTTTTTTTTTTTTTTTTGTTTTGTTTTGTTTTTTGAGAGGGAGTCTCGTTCTGTTGCCCAGGCTAGAGTGCAGTGGCGCAACTGCA
AGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCTTCCCAGGTAGCTGGGATTACAGGTACCCGCCACCATGCCCGGCTAATTTTTTGTATTTT
TAGTAGAGACAGGGTTTCACCGTGTTAGCCAAGATGATCTCAATCTCCTGCCCGCATGATCCGCCCGCCTCGGCCTCCCAAGGTTCTGGGATTACCGGCG
TGAGCCACCGCGCCTGGCCATTTATCTGTTAAGGACAGAACATGACTTGAGGGACAGCTTACTCATTCTATGCCTATTTGCTTTTCTCTCTTTCCTCAGC
GCTTTTCACTCTCAGCTACCCCTTCCAAACCTCAGCTGATTTTACTACCATTCAGATGTATCACTTGTCTCCTGAAAAACACATAGAGCTTCCTTTGTGA
ATTCTTACTGCTCTACTTACCTGCTTTTAATCTGTTTATGTGAGAATGTTGTCAAGATCTTCTAGTAGATCGTAAGTCCCTTGAAGAAAAAGATGACTTT
ATATTTATTCCAAAAAACCCCTGTGGTGACCACACAGCATAGAAATCTGCACAGAGCAGGCAAGTAACTTACGTTTGCTTCGCAATTCCATCTTCTTAAG
TCGTTCTTGCAATTGAGAATGCATTTCTAGCCTTCTATTGGAGCTGCTTAGCACAAGTAGTGTTGCATTGGTGTGAATTCCTCCAACCCATTTAAATGAG
TTTATTGTGCATTCAAGTGAGGGTTATTCAGCATGTTCAAGCAAATAGTGACCAATAATGATAATGGATATTTTTTCATCTCTTCCTGCTCCAATGGGCC
AGTATTCAAAATGCCATTGCTCACATGAAAACAGAGCTGCCAGACCGTGTCCAGGGCCTCAGCCAGGGAGCTGCCACTTTCATTTTAATTTAAGAAAAAG
AGAAATTGACTGGGAGGTATTTATGTAAATCAGTAGAGTTCTAAGGAGTTATCTGGCAGCCATGTTAATGGATGTGCCACTCTGAGAAGCGAATCTCGCA
TTTTGCTTCTCTTGTCAGAAGGGGTTCTGTGTGACCATTTACACCTACGGATGATTGGCTGTGACCCAGAGGACATTTGATGTAAAGGATATTTTGTGCA
TGTCAATGAGTCCTGTCCAGGTGGTGGGATACAGGCTCGAGACACATGTTGGAGAAGATCACTTTTGACTGCTGGGGAGCTATGGGAAGCCCTTCCAAAT
GGGCAGAATGTGCAATTACTATCTCAGTAAATTTGTCTCAGGAGAGCTGTACACCTCAGGAACATCATATCATAGAAAAGGGAAGACAAAAAAGGAGCTC
ACCTTAAAACTTCCAACCACATTCCAGGGACTGTTTGTATTTGACTCATTCATTTATTCAACAAATGTGAACTGAGCACTTCAACGTGCCATACTGTCTT
CTAGGCACTGAAGATACAACAGTGGATATGATGGGTTGAATGTYGGCCCCAAAAAGATATGTCCACATCCTAATCCCTAGAACCTGTGATTGTGACCTTC
TTTGGAAAAAGGGTCTTTGAAGATGTAGTTAAGAATCTGATAATGAGAGGAGCCTGGATTATCTGGGTGAGCCCTAAATCCATTGACATGTGTGCTTTTA
AGAGACACACAGAGGAACAACACTGCAGGAGGAGGAGAAGGCCATATGAATACGGAGGCAACTCTTGGAGTGATGTGGCCTCAAGCCAAGAAACACCTGG
AGCCACAGGAAGCTGAAAAAGGCAAGGGGTGGAATCTCCTCTAGAACCTATGGAGGAAGTGTGGTCCCATCAACATCTTGATTTTGCAGCTTCCAGAACT
GCTAGAGAAAAATTTCTGTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNTGAGGGAATGTGCCGTGTAGGTATGTGGAGGAAAAGCTGTCTAGACAGAAGGGAATGAAACTGCAAAGGCCG
TGACACTGGAGTGTGCCTAGTGTATTGGAGGAGATATAAGGCAGCAAAGGCTGACAAGACCAGCATTATTTAGGGCTTTTACTTCAATTTACCCATTGAC
TTAACACTTATCTATTGAGCATGTACCAAATATATTGTTTTACGACATTCTTGCAAAAGCCTGGAGAGGTAGGTAACAAAATTCCCACTTTAAAGAGGAA
AACACTGAATACTGGTCCAGCATGACTCAGCTCATATGTGGTGGTACTAGAATAGGAATCTTAATTTGATGCCAACCCCAGTGTCCTTTCCCCAACACTG
GAATGACTTATGTAAATATTTATCTCATTTGTAATTTGTCTGTGTGTTCAGTCCCATATGACAGTCTTGATAAGCCCAGCTGGCCTCTGAGGCCAATGCA
AATATATTTTGAGCTGAGAATTGCTCTTGGGCGGTGAGAGGACTGTAGTTTGGAAAAGGTCAAGGGCTGTGGATTGCCRTCTCTCATGGTGTCTTCAGAA
TGTTTCAGTAGCTTTGTGACTCCAGGTAGCATTGCATTGATAATTTATCTATTTAACTGGCTTAAGTGGGTTTTTTTTTTTAATTTTCTATCTCAAAAAT
CCAGGCTCATAAATAGGGACAGTATGGAAAATGCTGTATAGGGAGAATAAATAAATGTATAATCAGGTTAGTAACATATTATCATTGATGCAGCTACTGA
GCAAGGAAAAGCAAACAAAGAAGGAGCTTTATTTCATACCCAAGCAAGTATAGCTCAATTGCAAACCTCTCAGACTTGAATATATCACATTGGTCAGTGC
ATATCATGTCCTGGAATGTTACAGAAAGCAGTAATGGAGAGACAGGTGGATGAACTAAAACTTAACTTACCTCTCTCTTCACATAGCATTAGAGCACAGA
GAAGATTACTACGACCCTTGGGCATCTGTGACTACTCCATTCAAAGGTTCCTTAGAATGTTTGCTGGAAGCAGTTACAGAAATGTGAACAGGGCTTAACC
AGTGTACTCCATACCCTAAATAATTCTGTATAAATAAGAGCTTACATATCTATGATGCCTCTCTGTCACTTCTTTTATATTCTCCTTTAGTTTGTTTTGG
GGAAAATTCTAAGTGGATTTGCTCCATGTAAATACTGTACTTCCTTATCGTATTAACAAAGGAAGAGGTAGGAGAATCAAGACAATCGAATGTGTCAGAC
TAAAGTAGATAATAAATGCTCTTTGGGAAAAAAATATTCTCAGTCAATGACAGGGAATTCTGATTTGATAAGGAAATTTTCTTGGGTTAATGAATGCAAC
TGTAGAATACTGAGTCCGACCAGCAGAAACCTACAGCCCCAGGCCAGCTGAATCCCATTCCTTATACCGTGAGTATCTGTGTTCCCTTGCAGCGGGTTTT
GTAGGAGTCAGGGATAAAGATAGGGAAGCAGGAGGAAAGGGTCATAGAATGCTGCCAAAGGCTCTGGAGGCTCAAAAGGAAGAACTTTGAATTCACAAAA
CACTATGCCAGCTCAGACCTGGGCATCCAAATCAGTTAGGATATTGGCTAACAGCTGTAATAAAGAATGCTACAAAAACAGAAGCTTAAACCAAATAGAA
TTATACTTCTTCCTCATAAACCACTCCAGGGCAGCAAGGTAACTCTTCTTTTGAATGTCATGCAAGGACCCCTGTTTTGTTTTGTTTTGTTTTGTTTTTT
TCCCAAGACTGAGTCTCATTCTGTCACCCAGGCTGGAGTGTATTGGTGTGCTCACTGCAACGTGTGCCTCCCAGGTTCAAGCGATTCTCGTGCCTCAGCT
TCCCAAGCAGCTAGGACTACAGGTGCCCGCCACCACACCCAGCAAATTTTTTGTCTCTTTAGTAGAGTTTGTCTGTGTTAGTCAGGCTGGCCTCAAACTC
CTGACCTCAAGTGATCCGCCCACCTCAGCCTCCCAAAGGGCTGGGATTACAGGAGTGAGCTACTGTGCCACCCAGCCAAGGACTCATGTTTTGAAAAGGC
TGTGGATTATCATCTCACATTATGTCTCCAGCAAGTTACAGCAGCTTTGTGATTCCAAGTAGCATGGATGGAGATGGCACTTGTCATCCCCAGGGTGGTA
TCCTCATTCCTACCTCCTGCACCATAGCCAGGCTGTAGGAAACAGACTGGGAGGAACAGGAGAAGAGCATCTTCCTTTTAAAGGACATTGACTAGAAGTT
TCTCCTAATGCTCCCTTTCATTSCCTGTTGAGCAGAGCTGAGTCACATGGCTATGGCCMGCTGCAATGGAGGCTGGGAAGTGTAGTTTCTAACTAAGTAG
CCAGGTACCTGAATAAAACCCAGAGGGTAGGAGATGAGATTCTATTATTACAAGAAGACACAATTTCTGCCAGGGCTTTAACCGGTGGCTCTACCCTTCA
CAGCTGGACATTGCTGGATTTTTGGATGATTATTTCATTGTCTCCACTCAAAGATTAAGTTTGGAAAATAGGGAAWTTTTCTACCAAAGCATAGGAACTC
CAGGCCCCAGCCCCTCCTCACTCTTTCTCCCTGTTCATTCTCATCTCTTTCCAGTTCCYTACCTCCTGTAACCTGTGGGCATACTAAAGTACCAAGGTAG
GCTTAGCTGCAGGCACGGTACTTCCATGATTCAGTGCCCCGCCCCCACCACTGAGMTAGGCCACTCCCACCAACAACCTCAGRMCTTCAGATGCCCAATT
TCTGTGTAGAGCTTTGAGCAGTGTTTTCCAGTTGTGAAGGGCAAAGGAAATTCTCCAATTATTTGTGTGTTCATCTTCTCTACCTCCCAGGTAAAAAGGA
GTTGTCTCACCATTATAGCTTGTTTCAGAAACAGTGTCAAATTCTCATCACAGCTCATGCATGCCTTCTCACCAGAAGTACCCTAATTGGTTCTCTGACT
CCAACAAGAGAGCTAGGCTTTTTGTTTCTTTTGCTTTGTTTTGTTTTGATTTGCTCCTTTAAAAATGTTTATGGTGAGCTCAGTTATTTAAAACAATTCC
TGGCAGAGGATTTAAGAGGCCTGGCAGAAATTATGTAAGCTTGTACAGTCATCTTCACTGATAATGAGTAAATCAGATAGCAGACATTAAAAGATTAAGC
ACTGGTGTTTGGTTTTTTGGTTGGTTGGTTTTGTTCACTTGTTTTTAATGTTGCAAAAGTCCTTCATATGTCATTGACAATAGAATTTAAGTATTTTTGA
AATGTACTCAGTTCAGATTCAMCATTACATTTCATGTCCTTAAGGTTGGTAGCTTAAGATAGCTTGTGCTTCAGTTGCACAATACTGGCGTCAGCTCTCC
TTTAACTCAAAGCTTTCTGGTAATTTTCATCTACTGGCAGCTCAGTGGGGGCATTTTCAAGTCTCAATCACATCACTTTAATACATAAACAAAAAAGACC
CAACACAATAGCAAATGACCATGAGCTTAGTGCCATCTTGAGTGTATGCTTTTAGACCCCAGTGATGATACAACCTTTCCTTAATACAGAGAGGAAAACA
ATTTTGATCCGAGAGGCTTTCTCCCAGGTGCATCTGAAAAAACGTTCAGATATGTCTCCTGAATGGTTTTGACTAACACAACTTACTTTCCCCCAGAATA
GCTCCTCTCTAAAAAATGCCAAAGCTTGCCTTTCAGGGACAAATCAAAGGCTAAGCCTGAGGATGATGGGGTGACTTGAAAAAGACTAGCCAAGCGCTTG
ACTGCTCAGTGCAGCCTCGATAACACCATTCTTGGTGGTGCCATTTGCTCCTTGTCCACAGCCCATATCCCAATGAGGGTTATTCACTTTTGTAACCACT
GGTTTCCCTCTGATAGTGTCTAAAGAAGCAAATAATGATGAAGTGAGCTGTACCTCCAACAGAGTTTGAAGCTAGCCAGGAGCCCTTACTGATGTTTAAA
AACTGGTTCTTTTCAAAATTGTGGCAACTTTATTTTCAGAAACAGGTTTCATCCCAATAAGTTATTTGGATGTTTTAGAATAGAATAACGCCATTTGTTG
AAATTCACTGAAGTAAGGAACAATGTAATTTGCCACTAAAATTTTGCACATTTCATTTTTCTTCAAAACACCCAGTTTTGATTTTTTTTGTTTGTTTGTT
TGTTTGTTTGTTTGTTTTTTTTGAGACAGAGTTTCACTCTTATTGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCATCACAACCTCTGCCTCCCGG
GCTCAGGCGATTTTCCTGCCTCAACTTCCCAAGTAGCTGGGATTACAGGCATGCACCACGCCCAGCTAATTTTTTGTATTTGTGGTAGAGACGGGGTTTC
TCCATGTTGGTCAGGCTGGTCTTGAACTCTCGACCTAAGGTGATCTGCCCACCTCGGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCA
GCATGATGACTTAAATTCTAATCATAGTGATGTTATGTTCATTGACACATTACTCTGTGCTAGGCACCGTGACAGGTGATCTATGAATGCTGTCTCATGT
AGTCTTCACTATAATCCATGAATTATATATATTAACATGAAACCCATTTCACACGTGAGGAAACTATGGTTCAAAATGGCAGTTAGCTTCTCCAAGGTTA
TATAACTCTTCAGGTTTTATCCAGAATCAAATCTGAGCTCTGATTCCAGAGTTCTTGCTCTGAACTCTATTGCTTTCATGATAAATTTCCCTAAGGGCTA
AAAAATACCTCGTAAGAAAAATGTCTTAAGGCCGGGCTCAGTGGCTCATGCCTGTAACCCCAGCACTTTGGGAGGCTGGGGCAGGTGGATTGCTTGAGTC
CAGGAGTTTGAGACCAGCCTAGGCAGCATGGCAAAACCCTGTATCTACTAAAAATATTAGCTGGGCAGGGTGGCTTGTGCCTGTAGTCCCAGTAACTTGG
GAGGCTGAGATGGGAGGATCACTTGAACCCAGGAGGCGGGGGTGGCAGTGAGCTAAGATCACACCACTGCACTCTAGTCTGGGCAACAGAGCAAGACGAC
TCTGTCAAAAAAAAAAAAAGAGAGAAAAGAAAAATGCCTTAAAATTATTATGCATGCAACTTTTTCTTTCTTTCTTTTATCCATAGCTATACTTGGCCAA
ACAACATTAAGTCMGGTTATATTTGTCCTTTTCCTCAATTGTTCCTACCTACCTACCGACTTACTTGGCTATTTTCATTCATCATTAAGTGATTGATGGA
TCATAGTTGYTAAGAGAAGACACGGAAATGAAGGAAATCAACCCATTCCTTCATTGATTCATTATGTTTAGAGAGCTACCATGTATGAGGTATTTTCCAG
GACTTTATGATACCTTAAGCTTACATTCTCGTGAAAGAGGCAGACAATAAATAGTATAAATAACAAAAACATACTATGGGATACGTTTTAATAATAAGAA
GTGCTAAGGAGAAAAAAAATAGCAGAGAAATGTCAGGGTAAACATGTATTGAAATGTTAGATGGGCTGTCCAGGAAGGGGCAGATAACAAAGGTGACCTT
TGAGTAGATGCCAGAAGGAAGTTAGGAAGTTATGCAGGGGAGCCTTGGAAATGTGGGGGAATTGCACTGTAGGCAGAAAGTACAGCAGATGCAAAGGCCC
TGAGGCGGAGAATGCCTGGGGGATTGAGGAAGAACTAGGAGACCAGTGGGGCCGAGTGACTGAGTGAGGGTGAGAGTAGCACAAAATGCGTACAACAAAG
TATGTTATGGAGAAGGCTGTAGGTTAGAACAGGAACTTTAACTCCTAATTAGGTGGTTTTCAGTAGACGAGTGACACAAACATAATGTTATACTTGGACC
TTTGCTGTGTTGAGACCACTGGGTGTGGGAGATGGGTGGATGAGGGATTGGGAAATCAGTGAGGAGCTTACCACCGTAACCCAGGCAGAAGATCATGGTG
GCCTGTGCCAGAACGAGGCCTTCCTCTCTTTCTCCCTCCTTCCTTTCATCTTCACAGATTATTCTATATTAGTCCATTCTGACACTGCTAATAAAGACAT
GCCCAAGACTGAGTAATTTATGGAAGAAAGAGGTTTCATTGACTCACAGTTCAGCATGGCTGGGGAGGTCTCAGGAAAGGTAGAATTATGGTGGAAGGGG
AAGCAAACACRTCCATCTTCACTTGGTGGCAGGAGGAAGAATGAGAGCTGAGTGAAGCGGGAAGCCCCTTATAAAACCATCAGATCTCGTGAGAACTCAC
TATCATGACAACAGCATGGGGGAAACTACTGCCATTATTCAATTCCACCCCCACCGGGTCCTTTCTACCCCATGTGGGGATTATGGAAAGTATAATTCAA
GATGAAATATGGGTGAAGACACAGCCAAACCAGATCATAGTCCATGTCTACTTCATTCAAGAGAATGAATGACTGAATGACACTTAATTGGGTCTTTTGA
TATTAGCATCCAGTATTTTGTCATCTTCTGAGAGGGGCTACTTCTGGAGACAGTGACACAGAAAACCAGTGCTCTTGATTTAAGCAGAGTGGATCAGTAA
GAGGTGTCTCTTTCMTTTGTTTAGATTATGATATTTATTCAAAGAGAGGAGCAGTGAACTGTGGTTGAGTTTGTTATTTTAATGAAATTACACTTGCAAC
TATTGTAGGTGTCTTTCTATGTAATGGATGCTTTACATTCTCTCACTTTTTTTCCTCCAGACAATTCTAGACAGCAGGCATCATGATTCCCATTTTATAG
ATCATCAAATTGAGGATCAGAGATACCCTGCAAAGTCTCATATGGCTGAGTAGCAGTACTCTTTACATCTGAACCCAGGACCACTCTGACTCCAAAGCCA
ATATTCTCTCTGCATATTTAATAGCTGTTCTTTTTAAAAAATTGTATCTATTAGTGCATATTTGATGGTGGATAATGTATATTTAATAAACCCAYTGAGT
CATGTAGCTGTACAAGCATTTAGGAGATTATGCCATCTAGGAAATTAAATATTATCAAGTGTTGTCACACTTGAGCATGAACAAATACAGACTGCTGGGC
TCTATCCCCAAAGATTCTGATTAGAATGGCTCAGGCCGGGTGCAGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCTG
AGGTCGGGAGTTCTTGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGCGGCACACGCCTGTAATCC
CAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTCAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGSCTGGGCAACAA
GAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAMCAAGAATGGCTCAGGTAGGGGCCAAAAATCTGCATTTCTAACAAGCT
CCTAAGGCTGCTCATGCTGCTGATCCTGGCACAGCACTTTGAGAATCCTTGGTCCACGCCAATCCCATCATTTTTGCAAGAACAAATTGGAGGTCAGAGA
GGTTAACACTATTTTCAATGATCAGTTAATACCCCTCCCACCTGCATTAACTGTAAGAGAAAGCTTGAATGACAGAGATGCACGACTGTCAGAAATGGAA
ATGTAGGGTTTTTTTGGCCCCTTTGCTTGTTTTAATTCAAGAGTATAAACCATAGGTAATGTTGTGCTCTCACTTTCTCCTGATTTATCTCCTTTTGAGC
ACTTAATGAAGAGGAACCCCACTCATTCACACACACACATTTTATTTCTCCTGCCCTTTTTCTTTCCTTTCCACTTTGAAATTTCTGTTGCACTTTGTAG
TTGTCCAGAATATTTTCAGAAATACCTCCTTGTGGGTGAATCTGCTGCAAACAGGGCTGATGAAGTCCCTAATGGTTGTTACCCAGAGCCCTACTGAATC
AAAAGAAATACTTATTTTTTCTAAAAAAGGAATCAGTGGTGGGTTTGTGAACCTATGATTAGAAACATCCTGCRGGGACATCTACTTGTTCATATTTAAT
GTCATTTACTAGTAGTGGAGCTTACGTGCAGTTGGTTGTAGCAAACAGCTCTTTGGTTCTCCCCATTCTTTAAGGCGAAACTTAAATGTAATTTCTTAGC
ATTTTGTGGCTGAAGCTCAAACCAGATGGCTCCTTCTTTTCTTTCCAGAGCACTTAGTTCACACTTCTAATGCGTAGAACATGCAACATCGTCGCCTAAT
TTTAAATGGCTTACTCACTGGCCAGAGTCATGATAAATAAAGATGGTGTGRAACGTTTCTTCTGTTTCATGCTCATGGAACACAGCACAATCTTTGGGGC
TCAGTTTACTGAGTATGAGACAGCAGGACAAAGTAGTAAGGGGTGTGAGCTTCGAAGCCAAGCAGGTTGTTTGGAGACTAGGTTTTTCTACATCTACCAC
ACAGCTTCACTGTAGGCTCAGTTTCTCCCTCTATTAAGTGGAGAAATAATAGTAATATCACACAGAGTTGTAAAAAGCTCTTAAAATGATGACGTCATGC
TTGCAAAGTCTTAGCACACTGTTGAGCTCATGGAAAGGGCTGAATAAATATTAAATATAAACCAGAACTCATGAGCACATTCAATCCCCAGGGAATTAGT
CTGAAAGAAGGTGAGCCCTCAACTTCTACAAGTAGTGCAAATCGAAAGCCCTTCCTCTCACATATGGTAATCCCCAGGGGCTTGTACTGTCATGACCCAT
GTTGCTTCTGGGTCCTGTGCTTGAAAGGCTGTCTCTTTCCCCATCTGAGTCAACCGGGCGGTAAAACGTGGCTCCTGTACCAGGTTGCACAAGAAACATG
CATACACACATATCACTGAGCAAGGTGAATGCCACTGAGGGTTCGGGGACCAGGGGACACCTGTGTGATCTTCTACCACCTTTCCGGCCCTTTCCTTTCT
TCCCTTCTTCTTCTACTCCCAGTTAAGCTTTCATTTTCCAATGCTCTTCAGCAATCGCTRTTTTACTYTCCCAAACTTCTACAGCCAAACCCAGCAAGTG
TTCAGTTCAGCAGAACAAAGGGTCTTGCTCTTTGCTGGATCTACCTTTCTTTCTTAGAGGGGAGTTGGGGTTGAACAACTGTTTCGTTCATTACAGCTAT
TATTAATATTTTCAAAGTTATTATTAATGAAAGAGTGAGTAACGCTGCCTTATTCTCCTTTTATTTCTCACCCACTCTTTTTGTGTTCAGATCACTAGAT
TTTAATTTTACGCCCTTTCCCCAGCCCAGGACTAGGTCTGTGTTACCCAGGACCATTTGAAAGTTGAAAGAGGAACTCATTGGTGATACACTGGCTTAAA
AAACTTTAGGAATTCAGAAAACTATCCAAGAATAACTTATAAAATTACAGATGAAATATGTGTTATAGTTTAAACACAATATTTTTCTGAGTTCTTTGGA
TTTTTAAGTACTTAAAATACACAGTGACTATCTCTTTTCAATTTTCCAAATATAGCATCTAAATTTAGAGAGATGTTAAAACAATTTGGGGGTTGTTTGG
TTTCTTTCCTTTTTTTTTTTTTTTTTTGGCCCCTTTGCTCAAAGAAATAGTGCTTTGCTTTCTTCTAATGAAGTAAGCCCTGGTCCAAGGAAAATATAAA
ATAAAATCGCTATTTTCCTACCACCTTTGGGCTATGTAATTCCCATTTCATTTTCCAAGAGGCTAAATTTTCAAATGGTTTCACTTACACAGTGCAGAAA
AATTAGACATCTTCGTCATTTGGGGGAAAATAATGACAGACTCTCTACAAGAAAAAACTATATATATATGACAAATCATATTAAAAGATAACGGATCACT
TTAAGTATGGGAAACAGACCTTGAAGACAAACAGTTTTGCACCCGAACTTGATCTAAGCATGATTCCCAGCTAATTGTTTGGTTCTAAATTAAATTATTC
CTTTTGATACCGAAATTATAGATACAGTTCCATTTGGCACTTCAGGGTATATTTATTTTCTCTGTAAGTGCTTGTCCATATATTTAAAGACTACAGATAA
TGGATTTTTAAGTGTATTTAAAAAGTTAAGCCTCTTGAGAATTTATTTTAAATGGAAAATATCTCCCAGCAGATTGTAATTTAAAAAATTAAAGGCAATA
CAATACACATGCATAGAGATAACATTCAGGTGTTTGTGAATCATTTTCCCCACTCTGCTGATTGTCTTTGTGGTTAATCATGGAACTGATGGTGCAGAAT
ACACTGTGGATGAGTTTACTTGCCTGAGCACTTAGGTGGCTTAGAGCAGATCTCTTGCAAAATGCGAGAAAAAATATGACCTTGGCCTACAGCAGTGATC
AACAAACTTATTTTGAAAAGGATTAGAAAGTAAATATTTAAGGCTTATGAGCGAGATATTCTGTTGCAACTATCCAACTCTGCTGTTGCAGTTCAAAAGC
AGCCATATACATGTAGGTGAATAGTGTGGCTGTATTCCAATAAAACTTTATTTACAAAAACAGTAGTGGGCCGGATTTGACATGCAGGTTGTAGATTCCA
GACTCCTGGTTTGGAGGCCTGACTTCACAACTTTGTGTCATCCTATAGGAGTATGAGTTCAGCTCCTGGATTCAGCATCTCAGTTAGGCCCACTCTAGTG
AGTTAGCAGAGCAGCCTTCTTTACGCAGCTGCCATAAACAAACCAAGCAAGCCATGAAGCCCACGCTTCAGTGTCATAATCACATTTCCCTTCCACATGA
TCTGTACACACCTCAAACCCCAATCCTCACAAGTGGGATTAAGAGCCTCAGGAAGAGCTCCAAATAAATCCTCTTCTCCTGTCCATCTCACCACAGAAAA
GCAGATGAACAGAAAATCAGAAAGTCAGTAACTTGTCTATTCCTCAGAGTTAGATGTCAGTGTGATACCTGACATAGAGACAATCTGACAGATCACAAAA
GTCTGATTCATTTATAAAATATCTGGTGAGTGGCTACTGTTTGTCAAGCTCTGTGCTAGTGCGAGAGATACAAGGGTTGCTGGGATGGCCCGGTCTCTGC
AAGAATGGAGGTTTTATTCTAGTGAGAGAGACACAACATAGGGAGGAATCCAAAAGACAGAAGGAGGGTTTGCCCTGAGTTTCCTGTTGGAAATTGGGAC
TCTGGTAAGCAGCTGTGTGATAACAGAAAGAAACATCAGCCTCATCTGTATAAGCACGTCTTCATTCAATAAAACACATATAACAGGCCTTTGCTAAACA
CTCGAGGTAAAATGGCAAACAAGACACTTTCTTCCCTCAAGAAGTTCACAGTCTGATAAGGAAAAAAGCAAAAAGAACAAGTAATGACAAGTTGAACTCT
GAATATTCTGACAGATCAGGCAATTCACACACACAAAAAAAGGAAATAGAATTGCCGATATTATAAAACAATCTCTAACCTTCCCATTCATTGAAAAATT
TTCAAACTAATACTACACTCTCTTCCAACCATCAGATTGGCCAACAAAAATAAACATTGTATTATCAACCGTTAGCGTGAGGARACAACTCTTAGAGCCC
AAATCGATAAAAAAAAAAAAAAAAAAAAAAACTTAGCATCTAACTAAATTTTAACTGACGTTTCATTTGAATCAGCACTTTCAGAATGGCTCTGAACTAC
TTAAATATATGTATAAAAGCCAGGTATAAAGGTATTTGTGGCCGACCATGGTGGCTTATGCCTGTAATCTCAGCACTTTGGGAGGCCAAGACGGATAGAT
CACTTGAGGTCAGGAGTTGAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATAAAAAATTAGCCGAGTGGTGGCCCATGCCTGTAAT
TCTAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCTTGGGCAAC
AGAGGGAGACTCCATCTAAAAAAAAAAAAAAAAATATATATATATATATATATATATGTATATATATATATATTTGTATATATATATGTATATATATTTG
TATATATATATTTGTATATATATGTATATATATTTGTATATATATATTTGTATATATATATGTATATATATATATTTGTGTATATATATATGTATATTTA
CATTTACTACTACACAGTTGGTAATTAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNACTGATGTAAAAAGTATTTAATAGCTATTAAGAATA
AAACCTACCTACTGAACTGTTTAAGTGTATATATAGCTTGCAAATTTGGTAGAATAATTTAATAATCAAAATGTGTGGCTAATCGGGGAAGTCAGGGCTT
GTTGAGATAGTAACAGGCTGCATCTCCCATTTCACTTCAGTTGATTCCATTTTTAATTATTTTTGTATTTTAAAATGACTATTAAATAATATGAGTTAAA
GGATGTATACCTATTTAAAGACTATCCACTGAGAAATCTCACCCTTAATTCTAAAGGGCGCTGCAATTCAGTGATCAATAGAATGACCAAATCTCCACCC
TCAAAGTTCCTTGGTTATTTTGAAAACCGTACTGCTAAAAAGAGAAAAAAAAAAGTGTCATTCTTTTCTGCCTGATATCTTCCCAGCATATGTAAAGTAG
TATTCCTGGTGATAGTATCTGAAAATCAACATAATCCAAAGGTCCTCACTTTGTAATGTTTGCAGTAAGATTCCAGCATCTTAGCATTTAACTGTTTTCA
GATTACATCCATTTAAACATCTGTGATTCATTATCGTAAATATCACAGTTGTGGGGACCATATGCTTCAGCTTGCAGCATATATGTGTGTGTGTGTGTGT
GTGTATGTATATATATATATATATATATATATATATATATATATATATATATATATAAAGAAAAAGCMCGAGCAATAAATCTCAGGAACCTTAGACTTGC
CGTGGGTATGTGCAAAAAGAACATTTCCAAACACATGGGGCTGTCTATAATCACAGTAATGTACTTGAGATCCCATGTAAGAATTATTCAATTGCAAAAG
TTGCCACTTGTGATGGAAAGCTATGATTTACATTTGGCTTGTGCACTTCCCATGATAATTCAAATAGGGTGGAAAGCAGCACAAAAGCCTTCTGCTGCAT
TGGCTTTTACTTCTTAAGGAAATATGTGAGCGCTATTGTTGTCGAGTGGAGAAATCACAGAAAAATGAGATACCTTTAACAAGTGGCAAGGCACTCTTGG
CAGGCATCCTTCATTCCCATGAGACTGGAGCTAGAGATGATGCCATATGGCCTAAGGGATGTAATAAAAATCACTTGGCCACTGGAGGATGAATAGGCAT
GGCCTACAGGGCTGATTATTTTCTTGCTTACACCAGAAAACCCACGTATGCACACAAGAATTAATTGTGCTTCATGTATTGTAAGCCAAATCATTGTCTT
TTAATTTCCTGATAAAGTCTTGTCAACTAGACAGAACCAATCTGTAATCACAGCTGATGAGTATCTCACACACTGCAATTAGGGAGGAGGTAAATGAATT
AATTGGTTACAACCAAAAGGAGTCTGCTAATATTTTTTGATTGCCAACTCTCTTCTAGGGCTAGCACCAAGCCTAGCCAGAGATATGGAGATAAAACTGT
AGGAAGCTCTTGCCCTCAAGGATCTTCCAGATTACCAAAGGGCAGGTTAGGTCAGGAGAAAATTTTCAAGGTGTGGAAGCTGGCCTTCTGCAGTCTGCTG
CAGTTTGATTGGCATCCCTGCTGGTTATTATCAAGCCACCAACCTTGTCAAAGCCTTGTGCATTCCCTTTAGGAAGGAGATCCATTGTTGCCTTAGATGG
TGTTCTTGAGCCCCTAAACACTACCCTGCCATCTAGAAACATTTCTRGACCCTGTCCTGGAATCAAGGTAGCACAAGGCCATCTCTGCTTAGAAGCATTC
TAGATATCCACAAGGAAGGAAGGATGGGGTGTTTAAAATGCTTTTGGATCTTTTTGTACAAAAGATGCTCATCTACATACTGGCTACACGTCATTTATGA
CATTTATGAAAACCAAAATTGACATTCTGAAGTCCTTGGATCAAATTTCTGTGCTGTTCTTTTCTCCTCCATGGTGTTTTATTTGATGCGATCTTGGGAT
GTGTGATGACTTCGTAGTGGAATAGCAGGTGTTGATCCGTAGGAACTTCAAATCTCAAGAGTTATTTGATAAAAGTTATAGACAGATCAATGATAGCAAA
TTTCAAACTTATGTTTCCCCAGTCATTGAAGAAAGAACACTAGTAACAGCTCTTGACTACATTTAGGTGTTCTTGACTATCTTTAATGGGTGCATAAGGA
TTTGCCTGGGCCCCATTCATTCATTTTCCTTGACCCTCTTCAGAGCTTGAGTGTTTCCTAAGCTTTGACACACAGGGTCTTCTGGCATCTGCTGTCTGGA
TTTTTGCTGATGGATTTAATTACTGACTTCAAGATTCTACTCAATTCCATTTTGACACCTTTTTTAGCTCAAGACACAGACTCTTTGACTCCCTGTTATG
TCCTGTGCTGCTAAGCTGTAGAATAACTTCGAACATTTACTTTGGATACCATCATTTGAAGGAATCCACTCTCTTTCCCAAGGACCTGGAACTGGATTCT
ATATTAGTTGTAAAAAGCAATCCAGCTTTCCTACTTACAGATGTGTGACCTTAAGAAATGTTCTTACTCTCTGAGCTTCAGGTTTTCTCCCCTACCTTCA
TGATACTGTTGGAGAATTGAAAGAAATAATGTTTATCAAGTATTTAGTCCACGGACTGACATATAGAAAATGCTTCATAAATGGTAGGTATKATATATGA
TAGACATCAAACATGAAATACTATTAGGGCTCTGTACTATTAGCACTATTAGGGTTTTGTAGAGTGACTTGAATATATAGGGAAACAATTCATGTAATCC
CCAAGGTGTGTTCATATGAACCAACACGCTTTGATGCCACAGCCATTTATACCAGCTGGAAGAGTGCAGAACTAACATAAATGATGTCCTGCTAGCATCT
GCAGCTGGGTYATAAACCAAAGCTTAATGTTTTACAAAGTTTTGATATGCAGTAGTCAATTTATCCATTTTTGTGAATCAAGTAGGTTGGGAAACAAGCC
CAGCAAAACACAGTTTGGTAAATTTTATGTGAAAAAACTCTCTTCTTTTTCACTCAGTAATTTTTGCATTTTAAAAAAATACAGTAATCAAAAGAAATAT
GATGGGCCAGTGAAAAGCCTGGCCTTTGGAGTGTGGTGAACCTGAGTTCAAACCCCAGTTCTACAAGTAAACCTTTGCACTATGGGTGGCTCAGTCTCTC
CCAGCTTATCTCATTTTGCCTCTGTAAAATGGTTGAAATATCGGATTATGGGGATTGGAGTGAAATGGAACACTGACCCTTCAACATGACAGCCCTGCCA
ATAATTATGGGGTCTAAGCTTCTAGACGCTAAGTATCATGAAAATAGATGCTATTCCACATTCACCTTTAGTTGCCGTTTATCCCTTACTGCCTACTGTC
TTGTACATTGTAAGTGAAAAAATGATGTTTTTAATGGGTTAATGGATGAGTATGTTGAACTTTAGAATAACAGAATTTCCCAGTTGTAAGAGACATCATT
CAATGCTGGAATTGCTTCCACAATATTCCTGATGAAGTCATATAGGTTCCACTTGAAAGTACCCAGTGACAAGCACATTATTTCACCCAGAARGAACTAG
ATCTTCCAAATGGTAACCTGAATTGCTTTAGGCCCCTCCAGTATGGTCATGCATTGTTTAACCATAGGGATATGCTCTGAGAATGCACCACTGGGTAATT
TAATCATTGTTGGAACATCACAGAGTAGACTTACACAAACCTAGAGGGTATAGCCTATTACACACCTAGGTGATCTCTTACAACCTATGGCTCCTCGGCT
ACTAACATATATAGCACGGTGCTGTACTGAGTGCTATAGGCAATTGTAAYACAATGGCAAGTGGTTGTGTATCTAAACATATCTAAACACAGAAAAGGTA
TAATAAAAATATAGTCTAAAAGGTAAAATTGGCACACCTGTATAGGGCACTTACTACGAATAGAGGTGGTAGGATTGGAAGATGCTCTGGGTGAGTCAGT
GAGTGAGTGGTGAGTGAATGTGAAGGCCTAGGACATTACTGTGCAGGACTATAGACTTTATAAACACTGTACACTTAGGCTATACTAAGTTTATAAGAAA
AAGCTTTCTTTCTTCAATCATAAATTAACTTTAGCTTACTGTAACTTTTTTACTTTATAAACTTTAATTTTTTAACTTTTTGGCTCTTGTGGTAACACTT
AGCTTACAACACAAACACATTGTACAGCTATAGAAAATATTTTCTTTATATCCTTATTTTATAGACCTTTCTATTTTTAAATGTTTTCTCTTTTTCTTTT
TCACTTGTTGAACTTCTTTGTTAAAAGCTGAGACATGAACACATACATTTGCCTAGGCCTACACAAGGTCAGAATCATGAATATCACTGTATTCTGCCTC
CACATTTTGTCTCACTGAAAGGTCTTTAGGGGTTRTAACACGCATGGAGCCATCTCCTATGATATCAATGCCTTCTTCTGGATACCTCCTGAAGGACCTG
CCTGAGGCTGTTTTACAGTTAACATTTTCTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCGCTCTGTCACCCAGGCTAGAGTACCGTGGCCCGATCTCAG
CTCACTACAGCCTCTGCCTCCTGGGTTCAAGTGATCCTCCTGCCCAAGCATCCCGGTTAGTTGGGACCACAGGCACCAGCCACCCCACCCAGCTAATTTT
TGCATGTTTTGTAGATATGGAGTCTTGCCATGTTGCCCAGTATGGTCTCAAACTCCTGGGCTCAAGCGATCTGCCTACCTGGGCCTCCCAAAGTGCTGGG
ATTACAAGCGTGAGCCACCATGCCCGGCCAGTAAACCTTTTCTTAATGGGTAGAAGGAGGAGTACACTCTAAAAAAAAAAAAAAAAAAACARTAAAAACG
ATAGTATATTAAATATATAAACCAGTAGCATAGTTGTTTATTATCATTACCAAATATTACATATGGCACATAATTTTATGTGCTTGACTTTTATGACTGA
AAGTGCTATAGGTTTGTTTACACCAGCATCACCACAAACACATGAGTAATGCATTGCAYTCTGACGTTATGACAGCTACCTCACTAGGCAATAGGACTTT
TTCAGCTCCGTTATCATCTTACGGGATTGCTATCATATATGTGTTCCTCTGTAGATCAGAACATCGCTATGTGGCACATGACCGAATTTGGACAAATATG
ACGTCATGCAAATATGAATATTTGCATTGTTCTGGCTTGTAGCCCCACACCTGCATAGCTGTAGGACCTCAATGTATTCTCCTTCCTGGCCTTTTATTCT
GGTTATTTCTGGAAGACCTCAGGGCATCTGTCACATGAATTCACAAATTCTTCTTCCATGTCCTCTCATTCTGGCCTCTTTAATTATTAACATTCCTGGG
AAACTCTTGGAGGAAGGGCCTCCCCACTGCCCTCTGTGGGAAAAGTCCATCTCCAGGATCCCCAAAGCCATGTACCCCTCAAGGTGCCAACAGACCCTAT
GACTGCTCTAGTGTTCTCTCTACCAGAACAAAGCCAAGCTGTACTCCACTCAAAAATGGGGCCACCCTGCYGCTCAGCATAACAGTTTGCTATTAGGAAA
CAAAATAACAGTGCTTGAAAATACCTAAGTTGTCTGTGGTTTGTGAATCTTTGAGTTGTGTATGTAGCTTTCTTTTCTCTGAACTATGGATCCATGGGGC
TGGCCTAGGAAACCAATATTGTGTTCCTCTCTCTCTTTCTCCTGGTTCTGCCTCCCTCTCTAGGTGCTCATGCAGAAGTAGTCCTCCTCAGAGGCCCCCT
TCCTCCCCAGGTATATCTGCTCTTGCAATAGAGAGGTAACTGGGAAATCACGAGACTGTCAAGGCATCAAAACACAATCAGGGTCTGAATCCCAATTTAG
GCTTAGCCAGGACACTTTGTCACATGTCCCTAGACAACCCCAACTGCAAGGCCAAACACCCTGAAAGTTGCAGTGGAGTAAAGCTCTCTTCACATTAATT
TACCCTTGAGATGCACATTCAGAAGGAGACTTTTACACATAATTGCTATAAASTTTAAAAACTAAGGGCCTTGTCAGAGACGTGTGCCAGTCATGAAAAT
ACCAAGAAGGGATCTCTGTAAATCCGAGATTTGGTGATTCTCAAACTTGCTGAATCCATGATTTTTCTTTCGCTTAATGGGTGACTTTCAAATCCACTTA
CTCAAATCTTCACTTGAGTTGATGCCATCATTCTCAGTTGTGTTTGGGGAGTTTCAAATCTGCTTAGCTGCCAAGTTGCAGTTCTGCTATTTATTCATTC
AACAAACAGGGTTGAGTATGTACTGTGTCAAGCACTGTGCTATATATAAAGTAATTCCAATTTGAAACACAAATTCGTAGTGATTATAACCACCATGGGA
TAGATGATGCATAGCATTCTATCAGGAAACAACCTGCCATGTTTTAAGGAATCCACGGCAAGAGGAGAACGTAAGACTGACACACATACAAAACAAAGAT
TCAAAGCTAACGGCTCAGTTTTTAATGGTAGGTGGAGAAAATCCCCTGAAAGCAGATGTGGCCTCTGTCTTTTTCCAAGAGGAAGCCCTTAAGGGTTACA
TGGCAAAAATAGGTTTCTGCTGAAGATTGTTGGACTGTATCATTCATTATGRTATCTTCTGCTGACATGATAGAATTGAAACTCTATTTTATCAAAGTTG
GAACTGAAGCATGGAATGGAATTWAGACTGTTTTATGTTTGTTCTGCACTTACCAAATTCTATAAAGCCTTTGGAAGTGAAATTCACTCCTGGGTCAACC
AGTCATGGCTAGAATACTCCCAGAACCTTATAGAAGCTCTGCAATGTCAGTGCTGACTCTAGGCCAAACATGGAACACGGAAGCCCAATACGCATGTTCA
GGAAGCAGAAGAGTAGAAATAATCAAGTCTGTAGGGTGTGCTTCTTGATTCACTCATGGATCTGACCCAATGTGGGTGGAATTGAACGTATGTTAATGAA
GGCTTGAGTGACTAGAATGCTGGTGAAATGAGAGTATTCAGGAAAGTCAAAAGAAATGCTTCCTGTTTCTTCCATTTGGACCAGTCTAAAGAGACTCTGG
ACTAAGCCCTGTGAGTGCTTTAAAAGGAAGGTGGTGCCTCTGGATGCCAGTGGCATACTGAGGGATATGAAAAGCAATTAAGTGATGGCCTGTATCCTGG
AAAGAGTCTGTCTGATATTTCTGAATTAAATGCTACTTTAGTTGTCAGAAAGACATTGTCATGCCCCAGCAAAGGCTTTGCAGATTAACCAATATGCAGG
ACCTTCATGCTGAGGAAGAATTGAATTCTGTTTTTCCAAGTAGGCAAGGAATACCAGGATAGCTGGGTCTCTCCATCTCAGGCAAAACAGACAATCTACA
TTCWTATGCTCTGGGGCAGTTCCTATCTGTGTCATGTCCTTGAGACAGCTAGTATAGGTACTTCTGAGAGCTGGTAAAAATTTTAGAAAAGTTGCAAGCC
AACTGAAGGCACATTGGTACCTTGAAATAAACAACGTGTAGAGCATTTAAACCACAGAAATCGGCAGATGCTACAACTCGAGACTTTTTCCAAGACTAGC
ACATCACTGCAAGTCCTTCTCTTCTGTGTGTGCGTATGAAGATCCTGGAGGTGGATCTGTGCATATCTGTCTGGGGGAGGGCTACAACTTCCAGGGTGAC
TGATTCAGAGCCTGTAATTCTGATTCATATGCATCCTTGCACACATGTACAAGYGGAATCTGACCATCCACTCTGAAAGGGCCCCACAACTTATGTGCAG
ACACATTTGCAAAGCCTCTACAAATACATGCAAACTCTAGGACAATTTACCCATATAAGATGTGAGTGTATAAATCACAGATTGGCCCAAGCACGCTTAT
AAGAATAGCACAAAATTCATATATTAGTTCATACCTAGCTCTGCAAGCAGGACTGTTCTATATTTGGCAGATAAGTTTAAATCCATCTGCATTTCATTTT
TTCTGGGATCATAACAGAGCTTAATTTTCTCCCTTATCCATTTTTAGATGGTAGGAAATCTATGCCTTTTGGATTTTCATCCCCAAGAACCACCTTCAAA
AGAAAGAAATGGAAAAGCATAAAATCAAGGTCGGGAAGATTAAGCCCCTTAATTCACATGTCAAACTTGCCATTTCAATTGTGGTTTTGTCTCCCAGCTG
AAGTTTGTCTTTTTGTGACATTTGCATTAAGCCCAGGGGACATTTTGAGTGGAAAAGCGCTGAAAGCATAATTGAAACTCTGAGTGTTGCCTTTTGTCTA
ATTTGCAATTTCCCCCAGGTGGGGTGTTTTCACTACCCCCCGACTCCACCCCGCCCTCCCAGGGTGTTCTAAGATTATCTCAAAGAATGATGTTATGCAA
TTTATTCCAATAAAWCTCCATGTACAGTATCTTATATGTGTATATTTTTTGCCTTCCAGAAGTTATTTCAAATCCGTGAGAAACTATGTAGGGAAGTCAT
TCATAGGTTCAGAAGAGTACAGATAGTTCATTTCCCCTTTCAGATAGAGGTTTTGAGTATTTGTTCACAAGTTTAATTGTTTAGTCACATCTTTCAGTTA
TCCACATGGTGTCATTCTGAGCCACCCAGGAAGTTGTCTCTATAGAAACAAGCATTTTTTAAATGGACATAAACTGTTCAGTTTTGTCCTTAAATATGTC
TTTGAACTCTGTGCTCAATTCACATATGGTCTTGATATCTACTTAAAAGTTTGAGAATCACTGACACTTTGGTGGCATCAACAAAGTCAATAACATGAAA
CACAATGCAGGGCTGATGTCATCACATGCACCCTTTAATAGGAAATTTAGGATATGATTATAATTGGTGAGAATGTAGAGTCTGTTTTCTCCAGGAGAAA
GAAGAAAACGTAAAAGAAAATGTTGTGGCTTGTTTTTCTTTTGAGTCAATGTCTTCCTGTTTATCAGAGCTGTCCTTTAGATATTGCCAAAGCTATGGCA
ACAGGAGCAATTTAGATTTTGCCCTTTCTAGAATTTCTGTTTTTATCAAGACTTCATTATTTATATTAAATAAATTATTTCTTATCYGATATTTGGATAT
CATAGCCTTCCTGGATTATATACCTGAGTAGAGTGGATGCAGGCATGAATTTGTCTAACTGAGGGTTGGATGGCAAGGAATGTAGTACCAGCCAGCATTT
CCAGAGGGTACAACAAACGTCACTGTGGAGGTTTTAGTGGATACAAGGACAAACTTTTTTAGTGGATACAAGGACACACTTACTTCTTTTGAATTTGGCT
CTTTAGATTTATTTTAATATTTATTTGAAAAAATACCTGGCATATTCAACAGGTATTATAAATACTACATTCAAATAATTTTATAATTTAAAGGGTCAGT
CAGTTAAAAAATATTAAGTAAATAATCGATGTGGTATGAGAGGTGGCAATGAAATTGTGAGTCTGGAAGCTGAATGACTAAAGGAAAGAACACATTCATC
TAGAAAGACTGGCATAGCCCTCAGGAGTGTGGGCTCTAGAACCAGAAACCACACTCCCGAGTTTGGATTTGACCTCGGTTCATATAATGACTTCGTGGCC
TCGGATAACTCATGCAACCTCACTAAGTCTCAGTTTCCACAGAACACCAAAAGTTCCTACCTCAAATTGATGATGTGAAGAAGACGACATGAAGATTTAT
TGCAATCATTAGTGTAAAGCTCACAGTGTAATGTAATGTCATTACTTTAGGAAAACTCTTGCCTTACATTTGTACGAAGTTGTCTTCACCAACAATCCGT
TTGGAGAATATCGAACAAAACTTTGTTGATTCTATTTTGAGCAGGGCTCTGTAATTTCACTCCTTTAATATCGTTTTTCCTTCACAACTGTTCACATGAA
GTACGTAGGGCTTCACCAAAACAAGTGAAGGGATTCARCAATGGGCAAGCCTGAATCAGAATCATCAGCCCCACCCCTTTAACCCTAGCAGTGATGCCTG
TAGTAACCATTTCCATGGCAACAGCCTGAGACTAGCAAGGTACCTGACTAGAAGGAATGACAGAGGAGGAGGTAGAAAAATCAGCTGGAAGAAGGAAGCT
GTGTAGGAAAAGGAAAAGGTAGCTTCCTTAGTGCCCAGAATTATGGCAATAATGGTGATCATTCTCATTCATGGAGCAACAAGCTCTGTCCTAAGTGCTT
TCTGTGTGTAGGCATGCATTATCTTGTTTACACATGCCATAAGGATTATAGTACCTTTCAGGAGGATGCCCACTCTATGGATAAAGATGTCGAGGATTAA
AGAATATAGGTGGTATATTAGTCCAYTCTCATGCTACTAATAAAGACATACCTGGGACAGGGTAATTTATAAAGAAAAGAGGTGTRATTGACTCACAGTT
CAGCATGGCTGGGGAGGCCTCAGGAAACTTACAATCTTGGCAGAAGGGAAAGCAAACACATCCTTCTTCACATGGCAGCAGCAAGGAGAAATGCAGAGAG
AAGGGGAAGAATGCCCATCAGATCTCGCCAGAACTCACTGTCACAAGAATAGCATGGAGGTAACCACTCCTGTGATTAAATTACCTCCCATCGGCTTCCT
CCCATGACACACGGGAGTTATAGGAACTACAATTCAAGATGAGATTTTGGTGGGGACACAGCCAAACCATATCAGGTGGTTTGCCCAACGTCACAGGGCT
CCTACACACAAGCCAGGATTAGAAAAGGGCTTAGAAACCTACCCTTAAAACTTCCCTTTCTTGGGGCACGGAAATAACAGTTGCTGGCATGCCAGTCCCC
AACCTCTACTCTTTTCCAGGAATGGCTGGGAAATGTGGAGACCTGGCACCTTGACAAAGAGTTTATAATGTAAGGTCCTGGTTCCTGGCTCTGTCTGCAT
TAGATTAATCAGGGGGAGCTTTTAAGAGATACTAGTGCACACAGACCSCAACTCAGCACAGTTGTATCATAATCTTGGGAGAGAGTGGGGGCAGGTATTG
CTATTCTTTTTAATGCTCCTTCAGCATTTCTTAGATGGCCAGCCTTGAGAAAGAACCATGGCCTAAAGCACCTRCTCCTGAGTTGGTAAGTGGTATCAAA
AATATACAAAGACCCAATTATGCAACTGTTAGCTATTTGATTTAGAAAGTATTGAGTGCCGGTGATGTGCCAGGTCCTGAAACTGCAGTTGTTMTCAGTG
TGACCTCACTTGGTACCTCTGATGAYCCCAAAGGGGTTTGTGAGATGCCCAAGGGGGCCATGTTGGGGCAACTGTCCTTTCTCCACTTGCCCATCTATTC
CTAGGAAGCAGATGTGCCCAGAGCTTGGGCTGTAGAGGCAGAMTGAACAGATCAGAGAAGGTTCTCGCTYTAGGCCTTTCTGGATATGGGACCACGAGCT
AGTCAGTCAATCTCTCTGAGACTCAGTCTCTTCTCCTGTAAAATATAATATGATGCKTATATATTTATAGACTGTGCATTCTCATTGGGGCTATATTTCC
CCCACAGGGGTGAAATAGGTTCGAGGGTGGGGGGACAAAAAYTGCACTTACAAATGTAAAGTATAGATATACTTGTAGTASCTAAACAGATATAAGTATA
TCTGTGATATTAAAATTTTACAGGAATAKTGGCAATTAGAAAAAAATACTTAAAAGAGCCCTTAGGGGAGTAGATAATGAAAAAAACAAAAGTTAAGCAA
CCCTGCTATAGAATTGCTATGAGGCTRAAAGGAGGTATGGACTTGTACAGTCCTTTGCWTAGAGCGTAGCACTCAGGGACCACTCAATAAATAGTAGTGC
CATGACTGTTGTCTGTCCAAGCATCACTTCATTCAAAATGCACACACTGATTCCAACCATTCTTTGGGGCTATGCAAGTTTTACTGGCATCTTTGGGACA
GATAAGGCACCACCTCTGACTTCACCAATGAGCTAGGTCAGAGCTAAGCAGAGCGGCTGAGTGCCATTCTAAATGGATACACACGGGGTCCAGGGGCCAA
GGGGAGAGCATAGCTGAGTTCTTCATTTCCTTGTACTCCCTGCTGCTGGGTTCAATGAAATCAAGAGGTCACTACGGGCCTCTTATCCCAATTCACAGCC
TTGTCGGCAGCCTCTTGCTCACAGCACAGAAGGGAGACCCCCCCCCSCCACCGCCCCGCCTCCAATCCTCTACCATTACTAAATCATCATTTTGCTCTGG
AGAGTAACTGAGCAAAGTGGAATTATTACTGATGGCCTCCCATGTGGAAAAACATGCTGTTCATTGCTGAAGATGTAAAGATGAATGAAAGAACAAGACT
CAATTTCTGCTCTTGGTTCTGGTGCAAAAAACAAATACATAATATGGACAGATTGATATAATATAAAAGGTTCTATGGGAAGGAAATTCTGGAACACAAA
GAGAATGCTTGAAGAAGTTGCTTGAGTTGAATCTTGAAGAGTAAGCAAGAGTTAACAGGGTGAAGAAGGTGAGAAATGCCTTCTGCAGAGAGGGAGCACT
ATACACAAAGGGTGGGACAGTAGAGTAGGGAGATGCAAGAGTGGGTGAGGTGTGAGSTATGCAGTGAAGACAAAGGCAGAGGGGAGGCTGATGGACAGCC
TAGTCATGGAGGACCTTGAGTGCTAAGTATTGTTTTGCAATGAAGATCCATAATTATATGAGACTCAGGTGGAGAAAAGCTGGTCTTATAGTTGCAACAG
GAGAATCCAAGGCTTCCTCCAGGGAGCAGAGCTGTGTGGCCCCCAGTACCCCACATTGCCTGGGCTTAGCTTATCTCCATTCTAACTTCCTTCAATTCTC
CCTTGCTGTCTGTGCCAATCTAACTGCTTACATCCAGTTCKGTAGATGCCGCAGGACTTTGCATATGTTATGGTTTTCTCTGCCTAAGTAATAGGTCCCC
AATTATTTATAAGAGTAGTAAATTGATGTCTGTCTTCCACATTAGACTTCAAACTAGGGACTGTGCCTGTCTTTGTTCAACATTATAACCTCAGCATCTA
GCATAATGTAGGTTCTCAGTAAATATTTATGGTAGGAAGAAAGGGTGGGAAGAAGAAACTTAGCTGGGAATCCAGAACCCCCACAAACTTTCATATGCCT
TTTCCTCTACCCCATTCACTCCCCAGCTGAGACTGTCTTCTGTGATCCTGTTCGAGGGTTAAGTCTGGAACCTCATGCTGGCGATTGAAGCAGTCATTTC
CTGTGAGGCCTTGTCATTTGAGTAATTTGCCTCCAGTGGATGAATACTAATTGATGATAACAGTGAAAGCAACCTTGGTGTCACTTCTTCATAGTTCACT
TCCAAAAACTGAAACTAAGCATGTTCAATTCATCTGGGCTACCAACATGGTTAGAGAAAGTGAGCAAGTGTCTGAGAACCGCAGGGTCCTGAGAGTCCAC
TTGTGTGTCCATGCAAAGATGGCTCTAAAGCTGACTTAACCACGGAAAGCCTTAGAACCTTTGCAGAGCGATCAAAAGGCACCGCAGCGTGCAGTGCTCT
TCAGGACTGGGCAGGAACATGAAAACAGGACTGAGCAGGGCAATCACAGCTCTCTACAGTAGTCCCTGCTTGTCCTCAGGGGATGTGTCACAAGACCTAC
GTAGATACCTCAGTCCGTGGATACTACCCAACCCTATATATGCTAATTTGTCCTATACATACATAGCTATGTTAAAGTTTAATTTACAAATTGGGCACAG
TAAAATATTAACAACAATAACTAATGATAAAATAGAACAATTATAACAATAATGAAAATGGCACACAATTTGAAACTTATGAATTGTTTATTTCTGGAAT
TTCCCATTTAATATTTTCAGACCTGTGTTGACCATGGGTATCTGGAATTGAAGAAAGCCAAGCCATGGAGATGGGGGAACTACTGTATTCAGGTTTTGAT
AGGATTTCAGAAGGGTTGTATTCTCCATGGGGTATTGTCTTTATTGAAAATGTGCAGTGGTGACAGGCAAATGGTCCAGGGTTCAAATCCTGGCTCATCA
TTTACAACCTGTGTGTACTGGGCACCAACTTTGCACTCCATGAGCCTCAGTTTCCTTATCTAGAAACTGTAGGAGAAGGGGATCAAAATAGTACTTTATT
TGTTGTCATTGTAAAGATTAACTAAGGTGATGTGTGCAAAGTGTGTAGCACCTACCCTTGAATGTGGAAAGTGCTCAATCTGCATTATCCACTATTATTA
TCAGTTAATATGATTATTATCACCCTAAGTATCATCTTCCCAGAGTAGAAATATCAGTTTAGATTTTCAGATATTTATATGGCTTTCACAGTGTGCTAGG
ACCTATGTAGATGAGCTTAGATTCTCAGATATTTATTTGGCTTTAACAGTGTGCTAGGATCTATGTAGCTGTTGTTACCAAAAGATGTACACAARAAAGT
TCCTAGCAACAATATTTGGAGCCCCAAAGTGGAAATAGTCCAGATACCAGTYGAGAGTAGGATAGATAAAGAGACTCAATACAGCCACATAATGGAATAC
TCTATGATGATTAAGATAAAGATAAATATAGTAACCTGGATACTATACAGTGATCAGTGATTATTGTTATAGTGATTAGAATAAACTACCACAACTCACA
GCCACATGATGAATCTCGTGGCATGTAATGTCGAATGAAGAAGCCAAATAGGAGAGAGTGCATACTGTATGACCACATTAGATGCCATGCAAATGCAGGT
AAAACCAATCTGTGGTATTAGAGGCTAGAATAAYGTAGCCTCTGGGGAAGAGGTTAGGAATTTTACTCAGGAAGGGAGGGGACTGGTAATGTGTCATGTT
ATGGCCTGGTTGCTGGACAGTTGGTTGTGCTTACTTTGTAAAAATTCATTGGGTTGTATGTTCTGATTTATGTGCTTATATGTGTCTACATTATGCTTCA
ATTAAAGGTTTRCTAAACAAATAAGCCTGTTCAGCAGAGACCAAAAAGCACGTAGTACAATTCTATGCTTACCCACAAGGGGCCTCAAAGTTTACAGGAG
GAGGCAGACAGGCAAATGCATGCACAGATAATGAGTTGTGATACCCATAATAATAGAATTGTGTACCACATGCAGAATCACCATTGAGGGGAGCATGATC
AGCCGTCACAGCCTCTGCTTGTGTCAATGCCCTGTGCTCCATTTGTTCATGCAGGGGGCCCATCTTCCCTATTCCTTCCCACACATGAATAAGGTATTCC
ATGGCAGGAACTTTGCTCACATCTGTCCACTCTCCATATCAGCACCACTGCCTTCATTTTGTACAGCCATCTTTGATGCAACACTGAACTCGTTGGAACT
GGGTCTCTTGGCCTCTCTTCCTGCCCTTCTTTAAATCACTTGCTATAACCCAGATCTGCCAAATTATAATCATTGTATTGGGTCCTCTGGATTCTTAAAA
AGTACCCTGTGGGCCGGGTACAGTGGCTCACGCCTGTAATCCCAGTTCTTTGGGAGGCCTGAGGTCGGGAGTTCGAGACCAGTCTGGCCAACATGGTGAA
ACCCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGATGGCATGCATCTGTAATCCCAGCTACCCAGGAGGCTGAGACAGGAGAATCACTGGAAC
CCGGGAGGCAGAGGCTGCAGTCAGCCAAGATCGCGCCACTGCACTCCAGTCTGGATGACAGAGCAAGACTCTGTTAAAAAAAAAAAAAAAAAAAAAGCAC
CCTGTGTGATTCTGATGCACCCCAATCCTTGAGAAGCACTCCTCTTCACTGGAAGCAGAGCACACACCTGATCTTGACTCTCTCCACACAACAAATCGTC
CAGGGCTACCAGAAAGCACCATAACTTACTGGCTTTTCCCAACTTGTTTCCCAGAGACATTTTCAGCCTCATTTCCACCCTTCCCTTCTAGATCCCCACC
ATTCTAGATTCCCACCATCCCTGCCCCGTTTTAAGTTTGCCTCTATTCACCTAAAAACATATGGACTATTCCATATGGACTGAGCATGAAAGAAATATAG
TTCCTCAAAGTAAATTAAGGAGCTGTTTTCAGAGGAAAGGAAATGGATGGTGGATAGGCAAGAAAATGTGGCCCACTAGAATTCTATATGGTGCTGCATA
TTGTGCTGTATACATATATGGTGCATGCRTATGTGTACATATGTGTACATGTATACATTACATGCACATATACCATATGTGTGTATATGGTGCTGTAGGT
ATATACATGCGCATGTATACACCATATACATGCGCATGTATACACCATATACATGCGCATGTATACACCATATACATGCGCATGTATACACCATATACAT
GCGCATGTATACACCATATACATGCGCATGTATACACCATATACATGCGCATGTATACACCATATACATGCGCATGTATCCATGCGCATGCATAGGCATG
TATATATATGTATATGTATACACGTATATGGTATATACATGTACATGTATATGTATACACGTATATGTATATACATATACGTATATGTATACACGTATAT
GGTATATACATGTACATGTATATGCATACACGTATATGGTATATACATGTACATGTATATGCACATCGTTAATTCTCATTCCCTGAATCTGTTTTGCTAT
TTAGCCCTCATCCCTGTGCCTTTGAATAGCCTATAATGTCTTCCACATTCTTAAGGGCCTTCTCATCTCCTACTTATCTTCAATACCCAGCTCAAATATT
GACTCTGTGCAGCTCTCCTCAATGGTCCTGAGCACCCTGTGGTTCTGCTCAGTCACCCACACATGCCAGGATTAGATCACTTCCCTCAAATGTCACTCTG
CCAGATCTGACTCTTCACTCCACTGAGAAGGCACTCAAGTSTGCACACTCAGAGCTTAGCACCTGCCTGGAACAYGCGAGTTCGTCAAGGACATGTCTTG
ATTGAGTGAAGTCCATCAGCACAAAGTCACTTGGGCACAGGCATCTTGCTGTGGGATAAAACSTAACATTTGTGAACTCTGGGTTGGGAAACTATGTGGT
AATTCACACTTAATAGGTCAGAGATATCTCAGAGATAAGCTGCCCAACCTACTCATGCTCCTTCTGTTGTTTCGTTTGTTTCCCAGTGACCTTCAGTGAC
TGTAAGGGAAACGACAAGCTACGCTATGAGGTCTCVAGCCCATACTTCAAGGTGAACAGCGATGGCGGCTTAGTTGCTCTGAGAAACATAACTGCAGTGG
GCAAAACTCTGTTCGTCCATGCACGGACCCCCCATGCGGAAGATATGGCAGAACTCGTGATTGTCGGGGGGAAAGACATCCAGGGCTCCTTGCAGGTAAC
ACATCTGTTTGWGATMACTTGGGTTCAAGGAGGACATTAGGTTCTGTCTGTCTTATGTGGAAAATGGGTCTTTAAYTTATTATGTTGGCTAAGATTCCTT
TTGTTATTGTTGTTGCAAATGACAGAAATCCAACTCWAAAAATGTAGATGAGGGGCAGCGGGAATTAATTGATTCATGTAACTAATTGAGGCATAGTTCG
TGGATTAATTCATGGAACTATTTTAGGGATACTTCTGCCTTCAGGCGTGGCTGAAGCTGTCCAAATCAGCTTTAATCCCTGTGCATCTCGTGGCTCCATT
TTCCTTTTATTAGATGTATTGAGACAGTCACATCTCTCCCTGCCTCCCAAGGTGGAGGTCTCAGCAACTACCCTCTTTCTGCTGGTCTGAAGTCGCCTGA
GAAAGCATCTCTTCAAGACGATGCTAGCAAAACCTTGGAATTCAGTCTCGTAGGTTAGATCATGTGTCCACCCCTGAACTAAACATGGTGTCCATTGGGT
TGTGATGTTCTGGTTGGCCACGTCTCGGTCACATTTCTTTTCCTGAAGCCAGGGCAGAGTCAGCCCTATTCACCTGAAAACTCATGGACTGAGAGTGAAA
GAAATGTAGTTCCTCAAAGTAAATTAAGGAGCTGTTTTCAGAGGAAAGGAAATGGATGGTGGATAGGCCAGAAAAGGTGACCCACTAGAATTGTATATGG
TGCTGCATATTGTGCTGTATACATATACGGTGTATGTGTATGTGTACATATGTGTACATGTATATATTACATGCACATATACCACATGTATGTATATGGT
GCTGTATGTGTATATGTTGTACATGTATGTGTATACCATATACAGGCATATGTACCATATACTTATGTGTATATGTACACATACATATGGTATATGTGCA
TGTAATGTATACACATATGTATACATCCACATTTAATRTATCAAAGATATCTCAAAGCTAACCTGCCCAACCTACTCATGCTCCTCCTGTTGTTTTGTTT
TGTTTCCCATTGACCTTCAGTGACTTCAGTATATCTATGTGTGTATATGTATATATGTATATGTAATTGTTTACGGTTCTGTATATATATACRGTGTATA
TGTATGTCTATATGTATACATTTGCATTTAACAGGTCATAGGTATCTCAGAGATAAGCTGCCCAACCTACTCATGGTCCTTCTGTTGTTTTGTTTTGTTT
CCCAATGACTTTTGGTGACTTCAGTATATATATGTGTGTATATGTGTATACGTATGTACAGGCATACACATACTATATATGCGCATATACTGTGTATATG
TATGTGTGTATATACATACACATGGTATATCTGTATTATATGTGTGTGTAATTGCATATCGTGCTTCTCGTTTGCCAGGCAGCAGTGCTTGTTCCCTTCC
ACARGCACATGCATGCAGATCCCTGCACTCCCACACATATGCATACACTTTATAAGTGTCACAAACTGCCATTCAGGCTTCCCGATTGTGCCATTCRGAG
ACTTTTTGCTACTACTGACTCCTGCCTTCTTCACCAGGAGCTCAGGGACTCCACCTTYGTGAGAAAAGGAGGGCAAGACACACAGCAGGATTCCAGCCAA
ACAATGACTTAATGATGGCATGCCCCTGCTTGGCATGCCTAGCCTTCTCTCCTACCTGCGAGCTTGGTCTTCCTCGATTTTTCACAGCCCCTAATTCACA
TCCCTTTTCTCCACCTGCCATATTASCCACATCCCTGCTTGATCTACTCATTTTGTTCAGTGGTGGAGCGAGTGTGGGTCACACAGCTGGGAGCAGAGAC
AGTACAACTGGCAMTGTGAGAGTTACCTTCCCGCCAGTGCTGTCTGTGTGATCTTGAGAGCATCATATAGCTTCTTTATCTGYAGAATAGMGAGGTTAAA
CAGCCTGCAGTGGCAAATAAGTGGCTCATGTGCCACCCTACTGTCACCGTGCTCGTGRCAGATATTGCTAATAACCCCTGGCTTAGCCTGAGTATCCTTC
TCACTGCAATGCTTCTGGAACCTACTATCAATTGATCATTTAGTGGTGTTTCTGAGGGTGGAACCTATCTGCCATTCCTGGGCTGGATGAACTTCACAAT
TCCCCTTCAGCATCTGTGAAGCTGTGAGTTAAGGATAGATGGCAACCTAAAAACSAATGTACGGCACGTCAGTCATGTTTCAGAGSAAACTGGATATTGG
TGAATTCATACCAGTGTGGAAATCCATTGACACCACAAAGGCAAGCTTTTCTCTTACTTAGCCATGACCAATGGTCACAGCATCTCACTAATCTGTGATA
TAAATTATGTGGCAAATATCTAAAGCAACAAAGTTGCCAGGATATACAGCAAAAACAATGTTCCATAGAAACATGGAAATGGTATGGTGAGGGGGTTTGC
CCATGGGCTTGAATGCATTTAGATGGCGATTGTTCTTCGTGAATGGTGGCTCATCTTTCTATCTGGAAAAGATACTGTCATCGTATTTTGCTTCAAAGAG
AGCAGAAGATCTTCTGGGCAGGTTCTCGGGACCAACCCCACCTTGAGGGCCTGGGAGAGCTGGGTTCATTATGAAAACTCAGCCACGCATTGTTTGTACC
TCAAGTTTCTGTGAGATGCCATCCAGAGACAAAGCTCCCCTGAGTCCTGGCTGTTTCTCGCTTGCTGCTGTCTGTACGCATTTTCGACAAAACTTGCCTG
TGATTGTTTTTGCTTCTTATAAAGGGGGCGGAGGCTGCCGTGTCCTTCAGTTTGCCAGACTTCAGCAGAATGGGGCATTCATCTCCCACGTCCAGTAATT
TTATGAGATTTGAAAAAAGGCTTTGTGAAGATGTGTAGCTGTGTCCTTCATAAAAACGCCTCAAAAAAGGAAAAAAAAATAAAAAGAAAATGAAGGAAAA
CAAAATAGATAGCAAAAGAATCCCTCTGAAGAGAGCACATACCTCAATGGATATGCACGTGGTATGTTTGCAGGTCCTACTGTGTGCAGCCAAGTGGGCC
AGCTGCTAGAGAAGAAAATCAGTGAGTGCCTGAGTCAGCTCAGCTCCTGTTGGGGAGGGAATACGAATGTGTGCATTGATGCTTGGGTACCAGGCGGGGA
GCTAACAGTGATGGATGATCTCTGCATTTGGAGAGGGGAGAGGTCAAGGGGAGCTGGGCTGGTCCTCAAAGCACCAACCATGTGCCAGGTGTTGCTCCAT
GGGCTACAAATGCTGACTCACGTAACCTCCTTAGCAACTGGAGGCAGATGCTACTGTGTTCTGCCTCATAGTGAGTTTTTACTGATTTTACTGATGGAGG
AACTGAGGCACAAAGAGCCAAGTGACATTTCCAAGGTCTAAAAATGAATAACAAGCTGGATGGAAGTGAGACTTGAGCCTGGGCAGCCTGGCCCCTGAGT
CCGTGCCTCCAACCCCTGCATGAGCTGGACTTTGAAGGACGGGTCATTGTGCATAGTTGGGAGGGTCTACGAGGGAAATGTTGGCCTGTCTTCATGGTGT
TTCTCTTCTAAGCTGTGTTACCTTCAGTCAATTGCTTTACCTCCTGAGCCTCTATGTAGTTTTGATTTTTTCGTCTGTAACATAGGGATAATAGACTTGT
TTGGATCTTCCTGTGGATTCAATGAGACGATACATGTAGCAGTAATGTATAGCACTCAGCTGATGCTACAGCAATGACCAACACTGATGCTTACGTAATA
CTTACTATGTGCTAAACCCTGGGTTTATTCAAGTCTTTCATCCTCACAACAGTATGCTAAGGGAAGCTGTTACTGTTACTGGTGCTGTTATCATTTGCAT
CTRCTGGGTGAGGAGACTGAGACACAATGGGGCTGTTTCTTGCTCTGGACACTTAGCTAGTAGGTGGCGGAAGAGGGCCTYAGACCTTAGCAGCATGGCT
CTGGCTCTGGAGCTCTCCTCTTTTTTTTTTTTTTTTTTTTTTTGAGATAGGGTCTCAGTCCTGTCTCACAGGCTGGAGTGCAATGGTACAATCTCAGCTC
ACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTTCTGAGTGGCTGAGATTACAGGCACCCACCACCACACCTGGCTACTTTTTGT
ATCTTTAGTAGAGATGGGATTTCACCGTGTTGGCCAGGCTGGTGTTGAATTCCTGACCTTAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATT
ATAGGTGTGAGCCGCAGTGCCCAACCTGGAGCTCTCTGCTTTAACAGTAGGTTCTATTGGCTCACCATCTGGAACAGAGTAAACCTGCACAATGTTCACT
CCCACAAATGCAGTTACAACAGAGGCAAGCAAGGCCTGCAACCCAGAATGCCAGATTGTCAGGACCAGCTCAGTGCCCTTCCCACTTTCCCTCTTCCCGT
GGCTGAACCTGATAGAACACTCCTGTGGCTGCCTGTAAATTCTGACCCTTGATATCTGGCTCCCACTCTGCATCCCTCTCCCTTGCACCCTGTGTTCTGC
TTCTTCCCAGCCCTTTGGTTGGTGATCTTGTCGTGCAGCCTAGATGCAATTCATCTTCTCATTCTCAGGCAGGAAATCTGCAGTTCCCGGAGATGATTTG
GCTCCACCTCAAGGATTAGCCTGCACACCCATACACCCCACRCAAGCCAGGGTCCAGCATCCCAGGGTCCACTTTTCTTGGCCAGAGGAAGCTGGAACAG
AAAGGGAATGCTAAATAAAAGCATGGGAACATGTGGGCAGACAGGATGGAGACAGCATCTGAAGACCAGGAGGAGGGATTCTAGATTGATATGACAGGAG
CTATGGAGCCACTGTAGGTTCTTAAGCAGAGAAACAGGCAGGATAAAAATAGTCCTTGGTGGTGTTCATCCAGGAGCCTTGACTGGAGTAGGGAGAGACT
AGAGCTACTAGTTGAAATAATAGCTACTACTATTTTTTGAGAATTGATTTCATGGAGCTTTCTTACGGTCATGCATCTTAGTCTATGTTTAGCCTATGTT
ATTTCTAATTCTCACAACCTCCCTGTGGGGTTACCGAGATTACCCCTTCCTGCAGATATGGGAACCTTGCCAAGAGACTCTAACTTGAAACTGACAAAAA
TGAGATTGAAATTCTGGCCTCTGCCTAAATACCCATTCTCCTTCCTGCCACTTTGCTGCTAGAAGGCTGTGCCACTGGGGAGGCTGCTGCCATTGCCCAT
GGGTCTAGGAGATGAGAGCATCAGTTAGAGCAACATGGGAGCAATGGAGGGAAACCAGAAGCAAGATTTGCCAGAAAGGAAGAAAGAGCCAGGATCCCGT
ATCTGGATGATTCCAGATTGTCTAGCCTGGAGGATGGAGATGAATTGGACCAGTCAGGAAAGAAATGTTAGGGAAAGACGTCTAGTCAGGCTTGAGTGTG
TTGATTTATATGCTCCTAGGGACATCTTTATAGAGATGTCCAGGAGTCAATGGACAATGTGGGACTGGCTGCTAGAGTACAAATTTGAAGGAAGAACAGC
ATAGTGGTGGGAGTTTTGGCTTATGTTGGACATGAGTGGGTTCAAATTTCTGCTATGCCACTTACTCATTGTGTGACTTGGGCAAGTGACTCAATTATCT
GAATCCCAATATCCTCATCTATCAAATAGGGATAAGAACAGTCTGTGTCACAGAGTTGTTCTCCTGGGCATAGCACCAGACATCAAGGGACAGTTCCCAT
CAATGGTATAATTTTGGAACCTCAGGAGGAAGGATAAGGAACTGAGGGCTAAGTGTATTCACTGAGGCCCTGAGACAGAAGCCAGRGATGGGGAACAGGA
AGAGAAAGTAAAGCCAATGAAAAGAAAGGGAAGGCATGCTCAGAGAGGTAGGTGGGACCGCCAGCCTAACCAAAACAGGGGCGATTTCACACTTGCTCAT
TTCATGTCACTGTGTTTTGGAAGGAAAGATTCTCTAAGGCAAATATAATCACAGTTAAGCCTATTTTAGCTGTGGTAACTGGAGCCTGGCTCTTCTTTAA
TAAAAGGAGCCTGGCCTCTCTTATTTTTACCTGCTACTTATGACCCTGTCTCACCTGCAAAACATATACCCCAAATCTGTGAGGTCTGATTGTTAATGAC
TTAATTATAGACTCACAAGCTATTTCTGCATTTTTAATGGGCTTCCCAGAATCTAGTACCTGCCTGGCTTATGTAAGATCACCTTAGATCTGAGTAGGCA
GAAGAGCAGTTTAATTCCAAGTCTTTTGACAGGCTCTGACAAATTGTTATGGAAGATAGTGAGGTTAACCTTCCGTGCACAAAAGGGCTCTCCTGTCTGT
GGAAGGTCATGATGAACTTGACACACCAAGTTATGTCTGGACAGAATCATGACTTTTCCCCACCAAATCTGCTGTTTCTCATGGCCCAACAAGGATGAAA
CGAAAAACAGTGGATGAGGGGTCTGCGTGTGTGTGTTTGTGTGCACACATGCGTGTTCGCCTTGTATGTAGTTTCAAAAGTTTACACAGAAAAGCTCCAT
GCTTCGTTCCTCACGCAGAAATGTCTTTATCTGCCATATAAATGGGATTCAACAACTTCATTTTCTGGCCTGGCCAACGAAAACACTCACAAASTAAAAA
CACCATACTTACTCTTTCTTTCTGAGTTAAGAAMTTGTAGCTTGCCTGATTATAGATCATGGCAAGTAATTCTGACATCAGTTAACGAACTTGATGAAGT
CAGGTTGGGAAGTGACATCAAGGGGCTTAGAGGAATTTATTCTGACATTGGGTTTGGGAACTAAAGATACTGTACCTCCAGGCTTCGTCTTGAAACATGG
AAGCCCACACACTAAACAGTGGTAGAATTTAGATGCCTACGGCCAGGCAGCTGGTCCTTATGAACAAAGCAAAAGTCTCCCATGGCCCAGGTTCCCACGG
AGAGTTATGAGGGCCACAGGCTATATACGCTTGGATCCAGCTTCACTGCTCCCAGTCTGGAGTTATTCCTCAAATGCACCTGATCACTTCGCTCCTCTGC
TTAATAGGCTCTCACTTCCTGATCAGCTCACCTGGCCTTGGGGATAAATTCTAAAGACAGCATATGTCTGAAAAGGTCCTTTGTGGTTTAGCCTGACTGA
TCTCTGCAGCCTTCTTTCAAGTCTCATTCCTGCTCATCTCTAAGTGGCTTGACCTGCGGAATTGTCACCTTCTCCAAGAGCCTTCCCTTCCTGTCACCCT
CGCCTCTTGTCCCCATCCCAAGAAAGGATCTCCCCTACTGGTCTCACTCTTGGCATCAGTGCTTTTCCTTCCTAGGCTTCTTCTCAATTTGTAATTATGT
ATTTACTTTCTTGTTCAGGTGTTTAATGTCCGCCTTGGATGAATATAGGAACAGTCTCTTCCCTGCCTCCCTCCCTTCCTTGTTTCTTTCCCTTCTTCCT
TCCTGTGTGTTCACCACTCTATCCTCAGCACCCTGCCCAGTGCCTGGCGCAGAGTATTCAGTGGATGCCTTTTGAATACATGGATGAGTGGAGCGAGTTA
CCCCTCTCACACCCTACATTGAACTCTCCCTCCTTCAATACCAAATCACTTGTGGTTTCTTGAATTGGCCAAGCTTTCCCATCCCTTCACACTGGCTACT
CCTCTGTCTGGACATTGTTCCTTCCACTGAGGTTCCACCTACCCTATGGTCAGCACCATTGATGCTTCAGAACCAGCCAAGATTTTCCTTCTTTGGGAAC
AGCTCTCTGAATATCCCCCAGCTGGCTAGGTGTTCTTTCTCCAGGCTCCTGTAGACACCTGCCTGGCTCTCTCTACTCATAGTACTAAACAAAACAGTCT
GCTTTCTTCTGCTTGTGCCTGTCTTAATGCTGAGCTCCTGAGCTGAAGGCCCTCGCTCCCATGCAGCACACTAAGATCACTCTGGGGCCAGACCACCTTG
GCATGAATCCCAGTGCTGCATTTACTACCTCTGCTCCAGGTTCCTCAGCTGGAAAAGGGGTTCATAATTGTGTGAACCTCATGGGGATGCTGTGAGGATT
CAATGAATCAACACGTGTGTATTAGTCAAGGTTCTTTAAAGACACAGAACTAATGTGATAGATGAATATATGAAGGGGAGTTTATTAGGAGAATTGACTC
ACATCATCACAAGGTAAAGTCCCATCGTAGGCCATCTGCAGGCTGAGAAGCCAGGAAGTCAGTCTGAGTCACAAAACCTCAAAAGTAGGGAAGGTGATGG
TGCAGCCTTCAGTCTGTGGCCGAAGGCCCCAGAGCTTCTGGCAAATCTCTGGTGTAAGTCCAACAGTCCAAAAGCTGAAGAACTTGGAGTGTGATGTTCG
AGGCCAGGAAGCATCCAACATGGGAGAAAGATGGAGGCCAGAGACTCAGCCAGTCTGCTCTTTCCATGCCTGGTTTTATGCTGGCAGCTGATTAGTTGAT
GCCCACCCAGACTGAGGGTGGGTCTGCCTCTCCCAGTCTACTGACTCACATGTTAATATCCTTTGGCAACACCCTCACAGAAACACCGGGGAACAATATT
TTGCATCCTTCAATCCAATCGAGTTGACAATCAATATTAGCCATCACAGCATCCAAAGTACTTGGGACAGTCAGTGTCTCACAACAAACTGGAGTTATTC
ATAGTGATTGCATTGTTAAAYCCAGACCTATGATAAATGTTCAGCTAATGAACGAGGCAAACTGAGGTGACCCARTCCTCCATCCATGCCCAACATGACC
AAATTCTATGATTTCTGTAACCTGTATATATTCAGGATTATGGGCGAACTTACACCATCACCACTCTTATTCCTCAGGTGCTCACTGTATAGGAAGCACT
GACTAAACTTCCTAGAGAAGAAATTATTTCTACAGGTCCACTTAACAAACTCCAAAAGACCTGGCAGTATTTAAAAGTTCATTATGAACAATTTACCCTT
CTTAACTGGAAGTCAATACAAGTTGCCTCAATAAAGGGAAACTGGTCTCTTAATCAAGTTGCTTCAATTAAATGCAAAAAAATATTTTTCCCTTTTTTGT
CATTACAAGAATTTCTTAAAAATAAAACAAAGAAGAAAAGTTATGACAGAAGCTGAAAAGGCTAAATTTAAGGCTCGTTTATCATGCTTGTTCATCATCG
TTGCAAACATGCAATTTAAAAGACGTAATTTTGGCTCCTAATCCAGTTTCAAGAATCAGGATGGAAATGGTTCCAAAAAAAAAATAAAAGGAGCAATCAG
TAGAAGGAGCCACTTGGGAGAAACAGTTGTTTTTGTTTTTAATTTTTTTAATAAAAATATAAAATATATCGTCAATTGCCCAAAAGCCAACGACCCTGCT
AATACGTCTCTTACTGCATTGGGTGGTTACAACTTTTAAATCCACTACCTATCAGAATCTCAGGAATTATTTGGTAAGTACCTTGAGGAAAACCTGGAGC
TAATTGCCCCCTGTTTCTACACACATACATTCATGGGGATATTTAGCGAAAATTTTTGTGGATGATACTAAGAGGTACCTGAAATGACCAAAAATCAGAA
ACGAATCACACATTTTTCAGCCACATGATACTGAAAAGTTACGTAACTTCTCTGAGGTTCAGTTTTCTCATCTGTACAATGGACATAATACTCTGGCCTT
GTGTGGATGCCATCATGAGACACATTTAATAAAACAAATGTCATGCTTCATTCAGTGCCTTGCTAATGGATGATTCTTAATCACTGATCAATTATTCTTA
AGTGAAGTAGCCAGTAAGTTGCTATCACTTCTATACATTTTTCCCCTCTTTCCTGATCTCACACGTTCTAGACAAAAATACTTTTGCACATTTGTTACTG
ATGTAAACTGCAATTTTTTTCTACTCTGAGCCAACTGTTTGAATCCTCTGTTTGTTTTGGCCATGATGCCATCTAACCTTCAAGACACCCGACACGCTGC
AGACATGTGACTTTACTTTATTTCTTTAAAACAAGAGTGTCCCCCACCCACCTGTCTGAGTACCAGTCCGTGGCCTGTTAGAAACCGGGCTGCACTGCAA
GAAGTGAGTGGCAGGTGAGCAAGCAAAGCTTCATCTGTATTTATAGCCACTCCCCATTCCCCACATTACTGCCTGAGCRCTGCCTGCTGTCAGATCAGTA
GCAGCATCAGATTCTCATAGGAGTGTGAACCCTATTGTAAATTGCACATGCAAGAGATCTAGGTTGCACCCTCCTTATGAGAATCTAATGCCTGATGATC
TGTCACTGTCTCCCATCACCCCGAGACAGGACCATGTAGTCGCAGGAAAACAAGCTGAGGGCTCCCATGGATTCTACATTATGGTGCGTTGTATACTTAT
CTCATTGTATATTACAATTAACTAATAATAGAAATAAAGTGCATGATAAATGTAATGCACTTGAATCATCCCAAAACCGCCACCATGAACACCCTCAGTC
CATGGAAAAATTGTCTTCCATGAAACGGGTCTGTGGTGCCGAAAAAGGCTGGGGACTGCTGCTCTAAATAATTCCTGAAAATGAGAGCAACAAGCTCGTG
GTAAATTAATTACCTTGTCTCTAAACCGTCTCACATTGACTGGGAGTGACATGGAATCTGTTGACTTGGGTGATTATATCGATCCTGCTTACATGAAATA
TGTTTTACAACAATCCCAGTGGAGAATGAATCTGCACATTTGCTGTGACCATAAAGAAATGATGAGTTAAAGATGTGGACACTTAATATGCCCTGATTTA
ACAAGTGTGATAACTTCAAAAAACCTGTGAAGTACCATGCTCCATGGCAAAAGCCTCCCCAGGTACTGTTAAGGAAAGTTAGTATCCATTTAACTGTCAC
CTAAAKTGGAGAAAATATATAGCTTGAAAATTATTGTACGGATCCAAGAATTGGGCCTAGAATTCAATAATAGGCTGTTACATCTTGACACATGCCTAAA
TTGTTATGTTTATRTGGCTCTTAGCTCCAGGATACTATTCATATATAGATAAAAAGACATCCTTCAATTCATTAATTTAAATAGATAACAGATTACTTTA
AGGATCAGAATCTAAGAAAACTATATTCTGGAGATTAATTTTAATTGAAATTCTTGGGGGAAAAACTGATCCCATAGAAAGTATAGATAACTAAAAATGG
CTTCTTTTTGGCTTTTGAAAATTCTAAATTTTATTTTATACAGGAGCATGGTCCAATAGAAATGTAATGAAAGCCACGTATGTCATTTAAAGTTTTCTTA
TAGTCATGTTAAAAAACGAAACCAGTGAAATTAACTTTAATAATTTATATAATAACTGTATATATGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGKATGTATAACAGATATATCTAACATATTATCATTTCAACAAGTAATCAAGGCCAGGCACAATGGCTCACACCTGTAATCCCAGCACTTTAAGAGGCCA
AGGCAGGCGGATCACTTGAGGCCCGGAGTTTGAGACCAGCCTGGCCAGGATGGTGAAACCACATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTG
GTGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGGGAACTGCTAGRTCATGCCATTGCACTCTAGTCTGGGCAACGGAGCAAGTGTGACTCT
ATCTCAAAAAAAAAAAAAAATCAATATGAACATTATTCATAAGATACCTTTTTACATTCTTCTTTTCATATTAAGTCATTGAAATGTAGTATATATTTTA
TGCTTAAGGCACATCTCAATTTAGAGTATTTAATTTTTAAGTACTTAATAAGCACAAGCAGTGAATAGCTAAGGATTAGATAGGATGCTCTACAGTTCTA
CAGGAATATTGCATTTTTTGAAAGGATGGAAAGGATCATTCACTGAGTTCCTACCACATGTTAGAACATTGCCTTTGGCCTTAGAGCCCCTCACACATCC
ATCTGTTTTTCTCCTATAGCTAGCCTGTTCCTATATTCCAGATGCAGAAGTAGCTCAGGCTCAGAAAAGTTAAGTAACTTAACCAGTGCCATCATCCATC
AGTAAGTGGCAGGACTGGAAGTTGAGCTGGGCCTTCTGATTTTGTGGAGTCATTGCTATTTTGCTAATACTGACATTTATGGCAGAACTATTGTGCTTTT
CTATTTTTCAGTAAATTTCCTGAAATAGCATAGGAAATTAAAAAGTTGTTAGTAATAAAAAATAAATCCAGAGCTGAGCAAAACTCCTAAAGAAATTTTA
GGAAGGTGGGCAAGCCCTGTATTGTCATGACACATTTTAAAAACTTTTCCTGTGAATAGAACCTTTACAAAAAGAACCTTGTGGAAACAGCACGAGGTGT
CTAAATGTAAATTTCTCCCAGGCCAGGGACCTGATCTCATTCATCTTCATAGTCCCATAGGCTAGAGAAAACGTCTTGCGTTTATATTTTTAAAACTATA
ATTTACAACTTTGTTTATATATGCATTACCCGATTTAAGCTCACAACAATGCCTGGATGCAGATGGTGTGTTTTTCGTTTTCTGAGTGAGGACAGTGAGA
CTCAGAGGTGGGTCTTAGGTCGCGGTCRTGGAGTTGGTTGAGTGGCAGCCAGTGCGGCCATCCACAGGCTTTCCCAAGTGCATCGCTGCAGCCATAGTTA
GCTCCCCAGCAGCTGCTCGGGGCTTTCACATAGRTGGAATATAGTGTTGTCAGAGGTAAATTTCCAGCTAGTATATAGGATAGAACAAGATAATGTAATA
AAATGTACATTTTCTAGGCTCTCTGATATGCTTCTACCCTCCTATCTCTTRTTATTACCATAAATCAAATACTAGTCAATTCTAAATGTAAATATAGGGA
TGATAACCTCTTTTTACAATTCCTCTCTTATCTGCAACTCCCAGAGAGATTCACATGGAGATACTTGGTCACTGCCGGCTTTGCGGTCGGCATGACTCCT
ATTAGAGATTAAATGACATAGAGTAATCTCAAAGTAGTTAGCAATAAAAATTAATACAAAACTATGCAAAACTCCCAGAGAAATTTTAGGCAAGTAGACA
AGTCCTGTGTCATCATGACCCATTAATAAAACTTTCCTCGTGAACAGAACCTTTGGAAGTAGAATCTCATGGAAATAGCATGAGATTTCCAAATGTAAAT
GTCTGCCAAGTCTCTCTGTAAGAGATGGGTTGGCTGGGGGCGATGGCTCAAACCTGTAATCCTAGCACTTTGGGAGACTGAGGCAGGTGGATCACGATAT
CAGGAGTTCAAGACCAGCCTGGCCAAGATGGTGAAACCCTATCTCTACTAAAAATACAAAAATTATCCAGGCGTGGTGGCAGGTGCCTGTAATCCCAGCT
ACTTGGGAGGCTGAGGCAGGAGAATCGCTCGAACTCAGGAGGCAGAGGTCACAGTGATCCAAGATCACGCCACTGCAGTGTAGTCTGGGCGACAGATCAA
GATTCCTTTAAAAAAAAAAAAAAAAAAAAAAAAAGATGGGTCTGCATTTCTCAAGGGAAAAAAACATCTCCAATGATGAGAAAATACAGTGTTTGATAAA
GACCATGGATTTTCTCTATTTGATTCTCTGTTCTCAACACCCAAAACTTAGGCAGTAAAGAAACAGGGGAAGAGGTACCATTTATTCAGTCTTTTTCCAC
CCAGCACATGGGATGATCAAATTACATGGTCTCATCCAAAGTTTTCAGGCAGAAGCCTGAATGTTTGTAGAAAAATTAGCCTATTTGGCCCTAGCCAAAT
ACATCCTCCAGTCTACCCATGTTGGGCAGATGCCTGTGGACTTTTGGACCCTTTGGCCTGGGAGTGATGTGTGATAGTTGCCAGGGTGGCATCTGCTGTT
GGGCCAGACTGTTGGTGCTGTTTGATTCTCAGCCCAATTGCTTGTTTAAGCAAAGCCAAGTCTAGTCTCAAGGCCTAATCTCATCATAGTTGATGTTGTC
TTTTTTTGATGGCTTCTAATAAATAAATAGAAACCTCTTTTCCTCTGGTCCATACCCCTTAGAAGTGCCACATTTAAAAAATAAGAGGAAAGCCTTCWTC
TCACTGGGGCCCATAGCAGTGGCAGATATTGTTATTTGCTGAATTGCTTCTATCTTTCTTAATTAGGTAGGAAGTAGCAACCATCAAAAAACAAATATTG
TATGTAGGCGGCCATCAAAACATAAGACAACTGTTTTTCTTCCAGCAGAAAACCAATTTGGCAAACACTTATTTTTCTTTCTCTATCACACAAAGAAAGT
CAATTCTCTAAGAAAAAGGRTAGAAAAAGAAAAGAAAAGAAAACTTTTAAATAATATCCCATATATGTTTTGAGAATTTTATACATCAATACATTAAAAC
ATAGGCAGGAAAATTTCAAATGCAAACAAAAATCACATCTTATAGCTCTTAGCAATTCCTTGTCTTCAAAGACTGGAGGAAATAGCCCACTGGGAAGGCC
TTTAACAGAGCAGGTGCTTCCCTAGGGGAAGGAGTAACTACAGATATTTGAGGGCTACTCAGAGGCAAAAGGGCTCAAAAAACTTCAGACTGTCTTCCAA
GCAACAGCCCCAGAATGCCTCCTAGATAGTGAGGCTGCCTTCAGTTGGCCTGAGATTGTTGCTCTGACCCTGGTGCCACCCTTCCTCTCYAACCTTGTTA
CAAACAATTCAGAAGGGAGGATTGTGAAATCCTTCCTGCTGCTCTTTCTGTCTTCTGCCAATCAGAGAAGAYTGGACATGAGATCCAAGAGAGGGCTTTC
CCTTTCCCCGATGGCTACACTGTGTCTCCTGCCTCCCAGCTGTTTATGGAAATCAGATGGTTTCCTCAACTGTCTATCTTTCTGCAGCAAATCCTTTGAC
AGAGAATGTGCAYTGTCAACCAACCCCTTCATCGAGTCAGGCAAATTAGGATTCCTTTGACAGCAACTTTTTACAACTTCCTTCCTTTGAAGATATAAAG
CTTTAAACAGTAGTAGTTCTCCGTGAGACCCAAGGAAAGGTCTGCAGACTATAAGCAGACTTTATCTGAAGACCACCTCCTGCCCCTCACTCTTACTCCA
GAGGCCTGTGTATTTATTTATTTATTTATTTTTTTGGTAAAGGCCTCTGCTGTGAATTTAAGTCATCTAATCAAAATGCATTATTTCTGTCCTTGCATTG
TCCATTCTCGTAAACCGTGGTTAACACAGATAATTGAGACTTGAGTGCTTTTTTATTCCAAGTCCCTTATTCGATTTGGCCCTTGTTAACAAAGCCTAGT
CTGTAAGAGCGTGACCACCAGTCTTATTTACCTTGTTATCTGTAATTTCCTCTTTCCCTCAGGCCTTTGCGTAATATTTTCTCTGCATGGAAGGGGAGRA
TAAGAAAGAAGACCTAAAAACTGAATTTTTAAAATACAAACAGAAAAAAAGCTCCCTGTATTTTCCCAAATTCTGCATAAATAAAATAATATGCTCCATA
ATGGCAGAGATTTGACTGACTTGTTCGTTGCTATAAATCTAGCACTTACAATATCTGGCTGTGAATAAATAATTTCTTAATGACTTAGCAAATGCTGGAG
ACAGAATGAATATTGATATTAATAATGCAGATCGTAGTCAATTTATTTAGCTCAAACGTTGTGCGGGGCACCACTTTAAGTGCATTTCTTACATTAAGTC
ATATAATCTTTATAATAACTCTATAATATAGGTCCTATTTTATCTTCATTTTACAGGTGAATAAAGGAAGACGGGGAGACTATGTGTGACCAGCACAGGG
TCATACATCTAGAATATTTTGGAGACATATTTTTGCACTCAGACTCCTCAAAAAAACATTTAACAAAATATGTTATCTTTTTTGTCACAATAGAAAAATA
TGAACTGAATATTATTACAGTAAAGTAGATTCAGGTTGGTTGAATAGCTGTATCCAAAAGGGTTAAAATATAATCTGTGTCGTCCTGGAGAATGATTTCC
GCATGCAGAAATCTAATTGAATTTAATTGCTTTCATCTCAGTGATGGAGACCAAGATATGAACACAAGTTGGTTACTTTGAAACTTTCATAACTCAGGTA
TTCCCATTGTACAATAGCCTTGAGTTTTGAAAAGAACTCAAGCATGTATAAGGATTGACTGAAATTAATAAATTGATACTCAGCAGGTATAAATATGAAG
CCCAATAGATGGGCAAAAGAATTTCTGAAACACAGGATGGGGGTGATACGAAAATGACTTGGTTGATGAGGTATTCACRCTCCTGGACCTGTGCCAACTC
CCTCTCTGCAGGTTCCTGCCCTTATTGCTACCCTGTAATTATTCATCTTTAATTTATTGCTCTTCACCTTGAGCACCACTCTAAGGCTTTTCCATTTACC
TAAAGCAGTAAGTTGTACTCTAGTGCCTACAGTTTTCTGTAGCTGGCCTTGCGGGTTCCTCTGCTGAGAAAAGTTCATACCATCCATTTCAGTTCCCTTT
TCCATCTCTGAGTACCCCTAACTCCTTTCCTCCCTCTCAGAGAAAGACCGATTCTTCCTCCTTTTCATGACATATCCCTTCACTTGTACCCTTGAACTCA
CTCTTTTCTGCCTCTTTCTTCATTTCGCATTTCCCCTCACACTCTTACATCTTAAATTTTCCCTCCTCTGTGAATCCTCCCCCAGCCTCCAAACGTGGTC
AAATCTCCCCAGGCGAAACCAAATTATTTCTCCTTCAAATCGCTGCCTCCCTTCCCCAGTCTTCTTGAAAGCCATCTTCACTCAACATCTCTATTTCCTT
GCAAGTTCATACCTTAATACTCCGAAATGGAGCTCCTGTCCTCAACATTTTGGTGAAAATTCTCTCTTTTGAAGGTCGTGGAAACTGAACAGCTGATTTC
CCTCAACTGTTTCTTAGTCCTGAGGCTGCTTGAAGTCTCTGAAGCAATTAATTTTTAATTTTAATTTTATTGAGGTAAAATTTACATAACRTAAAATTAA
GCAAGCGATACTTAATTACTTTCTAATGTTGTGCAACCACTACCTTTATCTAGTTCCAAAATGGTTCTGTTAACCCAAAAGGAAACTGTATACCTGTTAA
GCATGTTCTCCCTTCCCCAGCTCCTGGCTTTATGTATCACCTATTTTTATATATAATATAAATGAAATCATACAATACTTGGGCATTTATGACTGGCCWC
TTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGTTGGGGTTGGAGTGCAGTGGTGCGATCTCTATTCACTGCAAGCTCCACCT
CCTGGGTTCAGGCCATTCTCCTGCCTCATCCTCCCGAGTAGCTGGGACTACAGGTGCCCACCACCACACCCAGCTAATTTTTTGTATTTTTTAGTAGWGA
CCGGGTTTCACCRTGTTAGCCAGGATGGTGTCAATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAATGACT
GGCCTCTTTTACTTTGCATAATGTTGCAAGGTTCATCCACATTATAGCATGTATCACTACTTCATTCCTTTTTAGGGATAAGCAATATTCCTTTATGTGG
ATGGACCACAAATTGTTTACCCATTCATCTGTTGATGGCCATTTGGGCTTTTTTGACTGTTATGAACAACACTGCTACCAACCTGTGTGCAAATGTATTT
GAGTACTAATTTTTTATTTGTAAATACAGTGACAATAATGCCACAAAAACATTGCATACTTACAAGATTTAWGAGTTACATAATTTACAATGATTGAGTG
TGGGCAGCTCTATTATCTGGATTTCATTAAGATGATGCTACAAAAATAGTAATTGTTAGTAATAATAATGCTACAAAAACGTTGTATRCTTGCAAGATTT
ACAAATTACATAATTTATGATGATTGAATGKGGGTGGCTCTCTTATCTGGATTTCATTAAGATACTCAGGATTCTTTACAAACATGCTAGGTTTCCACTT
AGAGCAAGATCTCTTAAAAAAAACCCTGCTTATTGACCACAGCAGCCAGACCCGGGCCTCCTTCTGCCTACTGTCGCCATAACTCKAGTTATAACTTGCT
TTTGGGTTTATACCTAGGAGTGGAATTGCTGGCTCAAATGATAATTCTWTGTTCAACTCTTTGAGAAACCACCCAACTGTCCCCTAGGAGTGGAATTGCT
GGCTCATATGATARTTCTATATTCAACTCTTTGAGAAGTCACCCAACTGTCTTCTACAGCAGCTGAACCACTTTAATTCCCAGCAGAGCATTGGCAGTCC
TTGAAATGCTCTTCCGTTTGCTGTTTAAGACACCATACTGTCCTTGTTCTCCCACTCTTTCTGTATAGAAACCCATATRTTTTCTTCCTCTAGTTCTTCT
TMTTATTCCTCCTGCCATTGGAAGTGCCTGTCCATTTCCTGTCTTGATTTTCCTTTGCTGTTTTCTACCATCCTCAACAATTTTATCCAACCTAGCAGCT
TTAAAGATCTCTTCTTCAGCATGTCTCCAAATTTATAGCTTCATTTCTGACCTCAGGTCCRTCGTGTCTACAGCGCATCTCCASCCGTACATTTCACTTG
CCTCTCGGGGTTAACTGTGTGTTTCTGAACGCTCATACTGGGGTTAACTGTGTGWGTCTGAACACCTGTACCTCATTACCTCATTACTTCCTTACCTCAT
CTTCCTAAGTGCACGGTTTCTTGCAGTGCCATCCTCGTCTTCCCATGCACCTGAACCCACCACCTTGTATTTGTCTTTAGTTCCTCACCACCTGGGAGGT
CAGTGGTACTTCTTATCCTTTCTCTCTCTCCCATGTGGTTTCTACCTGCAAACTCTTCATTACAGTGGTCACAACTGGTTTGAACATCATTTCCTCTTAT
CCAGCCAAGACAGGGCCACTTTCTTTTAAGTTTATCTTTCTCCCTTTTCCTGTGATCCAATCTGCGTGCCTGTTACTATCTAATTGACTTCCCRAAGAAT
AACTGTGATCATATCATGCCCTCTTCAAAGGCTGTCAGTCTTCCCATGCTTACTGAGCCACAACSAAATGAGTCCCAACCTGCTTTGTCACTTTCAGCCC
TCACAATTCCCTGTCATTCATGTGATTCTCCTACCAAAGTAAGCTGCTTATCTTCTATGTTCACTGAAAATGGTATGTTTCCTTCCACATCTATCTCTAA
GGGATGGCATAAGTGGGTTGCAATAGGWTTACAGGAATGAGGATCAGATTAAGAGCTGTGGCATCAGTAAAACCAATAACTCTTGATTTATTATGTAACA
ATGTATATTTTTAGCCAAACAAATGCTAGATACCAATAGGTAAACCTGGTACTAGGAATTTCTTTTCATTTTTGCTTTCTTTGAGATCTGTAATTAATCA
TGGTGAAAATAATGCTACAGAAACATCATATACTTACAAGATTTGCAAATTCCATAATTTACAATGATTGCATGTGGGTGGCTCTGTTATCTGGATTTCA
TTAAGACACTCCGGATTCTTCACAAACATGCCAAGTTCCCACTTAGAGCAAGATCTCTTAAGTAAACCTCTGCTTATGGACCACAGCAGCCAGATCTGAA
CCTCCTGCTACCATCCCTGTAACTCTAGTTATGACTTGTATTATCCATCACATTATTTGTTGTCTTATGAAGGATGAAGTGTTCAAATCCCTGTAGGAAA
CAGACCGAAAACTTTGAGTCTGTTACCCCTAAGAGACACAGCCCTCTTTTCTGAGGCGTCTTTCTTTCCTTGATTTATTTGGACTATGGTTTCTTTGGCC
AACCATTTAATTTTTTTKTTGTTGTTAACTTTGTCCTTGTTAACATTAATTCTCTCATGTCATGTGGAAATGAGAATAATTCAGAWATTGTAAGAGAAGG
AAAATGGTTAGATAAATTAGAAGCATGAATAATTGATAGAGAAATAATTCAAGCAGCTAACTATATCATGCATTCTCTGCTTACTTCATGAATGATCCGT
ATGCCATGTCCATACGACTTAATATTTATTTTTAGAAACCTTTACCAAAATGAGCAAGAAGTAGTAAATGCCTCATTATCCTTTCAGAGCACCTAATGAT
ACATTATTTTCTGTTATAAAACTTCAAGGTTTTTGAATGCATTGTTATAAATCCAGACTGTCAACATTTCTTTGGCAAGAAGCAGCACACCATCCTATAG
AAATAAGATGTAAGATTAACAATTCAGGTTCATATATTTTCATCTGTCCCTGAATTCCACCATACATGGCAGAAAACCACAATCATGTTTTCATAGCAAA
TATGTTATGACAAACTATACAACATTTAAGAACATTTAGAAAAGCCAAAATGGAACTTTCAGAAATAAAACCTTGGCTGTTGTGGTGGCTCACGCCTGTA
ATCCCAACAGTTTGGGAGGCCAAGGCGGGCAGATCACCTGGGGTCACGAGTTGAAGACCAGCCAGGCCAACATGGCGAAACCCTGTCTCTACTAAAAATA
CAAAAATTAGCCAGGCATGGTGGTGCGCGCCTTTAATCCCAGCTACTCGGGAGGCTGAGGCAGAATTGCTTGAACCCAGAAGACAGAGACTGCAGTGAGC
CAAGATCGCACCATTGCACTCCAGCCTGGGTGACAGGGCGAGACTCTAYCTCAAAAAAAAAAAAAAAAAAAAAAARAAAAGAAAGAAATTAAACCTTAAA
TAGCAAAATAGAAAAGACAGATCATCAGCAATGATTAATAAAAAAGCTATTTTATAAAGCGGTGATTGGGAAAGTAAAATAGGTTGTAYAGATTGGGCCA
AAGCCTAAAGATATTCTGGTGATTCTTTCCACGATAGAAGACCGTGAAAGAGGCAATGCAGTGAGACCATAAGCCTTGTGGTTTGGGACACATTCTTTTC
GAAGGCCTAACTTTTTCTGTTGGTGAAATGGGAATAAAAATAGTACGAATTTCCAGGAGTTAAATTAGAGTTGAATGAGATAATTCAYGTGAGGCTCTTA
GAAAGATGCCTGGAACATAGTAAGAATTAAATAATATCATCTAATAAAGTGAGAATGACCACAGAATATGTCTTTATATGGTATTCATTGTTAAAATGCC
TAGGGATGGAGAGTTCTGGCTTTAGCTGTAACTTAATATAGGAGTTAAAAAGGTATCATAACCTTAATATTAGGTCTCGGGAGGTGTCACTAGGACTCTG
TTATCCTTTCTTCCCTTCTTTCTTTTTTGGCTTTCTRTATGTCTTCATTTTCAGACARCCTCTCTCCTGGGGTATCAGAAGACACACTCACATTAGGATA
ATGCAGATAAGATCAATTCACAGTAAGAAGATTTATCAAGGTAAAGTGAAGTATAGGAGAAGCACATGAGAACCCAGGAGCATAAATTGATAAACACACC
AATTGAAAACAGATTGGCTGAATTTTAAAGCAATAGATATATGTTTCTTAAATTAGATAGACCTTGAATGGAAGGGTACAGAAAAATASAAAATGAAAAA
AAGTAAGAAAATATATCCTGTAAATATTAACCAAGAGAAAGTTGATAGAGCTATGCTATTATCAGAGGAAATAGACTTTAAGGAGAGAAGTATCGCTACA
GATAAAGAACGCTATATCATATTTATAGAACTATACAGCAGGCAGATATAATAATTCCAAATTAGGATGCATCCAGTAACATATACAGCAGCCCCCCTTA
TCTATGGGAAACACATTTCGAGACCCCGACCGGGTACCTGAAACCTCTGATAGTAGCAAAGTCTGTGTATGTATATAGTCACGTGTGACATAACAACGTT
TTGGTCAATGACGGACCACATATGTGATGGTGATCTCATAAAATTATAATACCATATTTTTACTGTACTTTTTGTGTTTAGATATGTTTAAATACACAAA
TACCATTGTGTTACAACTGCATACAGTATTCAGCACAGTAACATACTGTACGGGTTTATAGCCTAGGAACAATAGGCTATACCGTATTTCCTAGGTGTGT
AGTAAGCTATACCATCTAGGTTTATATAAGTGCACTGTGTAATGTTTGCACAATGCCAGAATCAACTAACAATGCATTTCTCAGAACATATCCTTGTTAA
GTAACGCATGACTATAGTATGCTTTTCCTATACATATGCAAATATGACAAAGTTTAATTTATAAATTGGACACAATCAGAGATTAAAAACAATAACGAAT
AGTAAAATAGAACAATTACAGTAATATGCCAGCATCACTAATCTTGAACTTTGGGGCCATTAAGTAAAATAAAGCTTACTTGCATACAAGCACTGATATC
TCAGCAGTTGACATAACTACACAGCTACTGAGTAACTAATGGGATAGTATGTACAGTGTGGATACACCGGACAAAGCCATGATTCATGTCCAGAACAGGA
CAGCAGGATATTTAGTCACACTACTCAGAATGGCTCAGAATTTAAAACTTACAAATTATTTCTTTCTGAAGTTTTCCATGTAATATTTTCAGACTGCAAT
TGACTATAGGTAACTAAAACTACAGAAAGCAAAACTACAGATAAGAGGGTGACTGGTGTATAAAATAAAACTAATATATATAATAGAAGTAGTCAAAATA
GAAAAACCCATCATCATAGCTGAAAACTTTAACACATTTCTACATAGCTGATATAACAAGTAGTCTAAATATAAAAAAGAGTAATAAAAATTTCACTAAA
ATCTGTAATATAGATTTTACTAAACAAAATTTGGTTCTAACAAAATTTACAAAAACTAAGGGTATGCATTCTGCAGTGTTCACGTGGAATACTTATCAAT
ATATTGTAGGCTGGTCATAGAGTACATCCAAACAAGTTTCAAAAGATAGAAATCATACAGATTGTATATTCTGACCATTTTAAATTTAAAACAGAAATTA
ATAACAAAAAAACTAAAGGATCCCCACATATTTAGAAACTATGCAATATATGTTGAAATATTCCATGGGTAAAATAAGAAATAATAGTAAGAAGTAGAAA
ATAGTTTGAATGGAATATAATGGAAATACAACATAACAAAACTTGAGAATCCAGATAAAGTAGAGGAAAGATTTACAACCTTGAATGCATATATAAATCA
GAGAACACCAAATTTAACTCTAATAAAATGGAGGGAAGGAAATAACAAAAATACAATTTATAACATAGAAAGTAGACATGCAAGAGGATAAGTCAATAAA
GTTTGTTCTTTGAAAGTTCTGTAACTTGATATCAATAGTCCCTAGTAAGGGTAATTAAGAAAAAAAAAAGAAAAGACACTATGGCTAATTAAACAAATGG
AGACAGCACTAGAGATCTTTCAAGAATAAGAAAAAAGAAGAAGGCATTGTTAATACATTTATAAAAATTAATTTGAAAATTAAAACTGGCAAATTCTGTA
AAATAAATAAAAAATCAGTGTACCAAAGCATACCAAAAAAAAAGAAATATAAAATCTGGTAAGTTCTACATTTATTAAATGAAAACTCTGTAGCCTAAGA
TAATTCCAAGTCCAGATGGCTTCATGGTAAATTCCACCAAACTTTTAAAGAAGAAAATACACTAATCTTATGCAAACTCTTCTGTAAAATAGAAAAAAAA
TGAAACGCTTTCCAGCTTCTTTCTGAAGGCCAACATAATCTTCTTTGCAATAACTGACATAAACATTGAAAGAAGGAAAAATTATAAGCCAGTCTCTCTA
ATGAATGTATATGAGAAGGTAGATAAATTTGACTTCAATAAAAGTAAAAACCTGTGCTCATCAAAATACATCATTGAGAAAGTGAAAAGGCAGGCTATAC
AGTGGAAAAAAAATCTTTGTAATATATGGGTCTRTTACAGGACATTTATCTAGGACATGTTAACAACTCCTACAAMAATATAACAAAAGGGCAGAGAACC
CAACTAACAATGGAGGAAATATTTAACAGGCTTTTAACAAAAGAGGATATCTACATGACCACTAAACATATTAAAAGGTTTTTAGCATCACTAGTCATCA
AGGAAATGCAAAGGAAAACTACACGGAAATTATTCAGATACTATTATACACACATGTGAAAATTAATTAGAATTTAAAAAGTAAGTATAATAACAATAGC
AAGGACGTGTGGCAATCAGAATTCTCACACACTGTAAAGCTGAACATTCTTGACCTAGAAATCCTACTTCCAGATCTATAACTAAAACAAATGTATACAC
ATGTACACTAAAGGCTCTTACAAGAAAGTCCAGAATAACACTTTGTAATAGCTAAAAACTGGAAACAACTCAAAAGTCCATCAAGGGACAAATGGATAAA
TTTTGGCACATATATCATATGTATATACCAAATACATAGCAAAAAAAAAAGCAACTGTTATTATGCTCAAAAATATGGATAAACTTAATAGGCATAACAT
TGCATGAAAGAAGCCAGATAGGGAAGGGAATATCCTATGGAAATGAAGTTCAACAGCAGGCAGAACTAACTAATCTCTGTTGAGCTATAGATGGTGATGT
GAACTAATCTATATTGAGCCAGGATGGTGGTGATATGGTTTGGCCGTGTCACCATCCAAGTCTCATCTTGAAGTGCAGCTCCCATAATCCCCACATGTCA
CGGGAGGGATCCAGTGGCAGGTAATTGAATCACGGGGGTGGGTTTTTCCCATGCTGTTCTCGTGATAGTGAATAAGTCTCACGAGATTTGATGGTTTTAT
AGAAGAGAGTTCCCTACACAYGCTCTCTTGCCTGCTGCCRTGTAGGATGTGCCTTTGCTCATCCTTCACCTTCTGCCATGATTGTGAGTCCTCCCCGGCT
ATGTGGAACTGTGAGTCCATTAAACCTTTTTTACTCTTTTTTGTTTGTTTGTTTGTTTTTTGAGATGGAGTCTCACTCTGTCGCCAGTCTGGAGTGCAGT
GGTGCATTCTCAGCTCACTGCAACCTCTGACTCCCTGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCACGTGCCACCACA
CCCAGCTAATTTTTATATTTTTAGGAGAAATGGGGTTTCACCATGTTGGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCACCTGCCTGGGCCTCCC
AAAGTACTGGCATTACAGGTGTAAGCCACTGCACCCCAGTCTCAGGTATGTCTTTATTAGCAACCTGAGAACAGACTAATACTTGTGGTTACCTTTGAAA
AGGTGATGACTGGAAGGGGCCTGAGGGAGGTTTCTGAGATCATGACAGAGTTGTATGTCTTCATCTTTATGGTGGTGACATAGGTGTGTTCACTCAAAAA
AAATTCACCAAACTGTACACTTACACTTTTGCAGTTTAATATATGAATGATACATGTTATGCTTTAATTAGAAAGTTAAAAGTAAGTTTTTTTCAAAAGT
AGTAATTGGATGACTCCCGCTTTTATTGAGTTAGCAAGTATCTTTTACTGCCACTTTCTATTGTTAAAAAAAAAAAAAGGCTCACCACTGAGGCTGTAAG
GCTAAATCCTTAGCATGACACACAAAACCATCTATAAACCAGTTTCTAGCCTTTCTTCCTGGCCATTCCCTTTGACCTGAGCTGTCTTGAATATTCTTAA
GACTTGACAATACTAATTTTAAACCGTCTAAGATAAGATCACCTCCCACTCCAGAAAAGGGGTGAGGGTAGATGTTAAGACCAGAGTGTGCTTCCAGCAC
ACTTGTATTTTTTATGGTACTAAGAAAGAAAAATGCTGACGCTTAAACCTGCACACAGTAATTCCTTAACATCAATGGTAAGGTTCCTCCCTAATTTTGR
AGGCATTAAAATGGGGTCGGGGAAATGTCTTACAAATGATATTTTTTAAAAAAATAAAATAAAACAAAGATAATCATGTCTTGGATTATCATGACTCACA
GCAACTTTACTTTCAAAAGTAAGAATATTTACTTCTAAAACTATGAAATCTTCACTATATTCTTAAAAATATAAATCGTTAAATGTCATTCTTTAGCTCT
AAATACAAAGTTAGTTTGTTGAACTTCATGAGTTACGTCTTTTATCGGGCTTGGGGTGTGACCTTAGCCCCTCTCCTTTGTGAGGGGAGATGGCAGAACT
CTCAGAAGCTTTTTCTATTCTCATCTTTGTTGGTTACTGKGGAAAAACTGGATTTCGCTGCACTCATCAAATAAAGAGGCCCAGGTAGCAGCGCCTCCAC
GTTTTGTTCAAGTGGGGTTTTCTGCGTGTGCCGCTGGCCAATTCTTCAAGAAAAGTGTTTGTTCTTCTCTGGCGGTTTGGTGTTYCTATGTTTCAACATG
GGGRTACCAAATAATTCATTTCCCCTTTTCCCAACARATGCATTCTTGTGACCTCACTGATGACAGGGGCGTCRTTTATTCTAACAAATGCWCTTGTCCA
MATTCCAACCATGTTGCCAAGAGATGGCATAGCTGGTGAGGGCTGGACTTTAGGGGCCAATCTCCACTCCTGAGCTCCCCTGACCACACAGGAAGAAAAC
RTTAATGATGTTCCCATACTGATGTTGTGGTGTAAGTGTCTCCTGTGTAAATAGAACTAAATATTTAGGAAAGAAAACAGAAGAGTCTTATGTAGTGCAT
TACAAACTAGAAAGCTTTTGAAGTCAGCATCTGGGATGGTCTTAAAAACAAACGTGCAGTCTGAGAGAAAGAATTACTGCTGACACACGCTGACCTCACA
GAAACTATCTGGTGATGAGATTATCTCTCTTCCAGGACTCTAACAAGGCTTTGCAAGGATATTTTCTTGCTTTGCTTTGCTTTTTTTAATCTTCTTAACT
GGTGGAACCTCTTGTTATGTGCAAATCTAATCCATTCTCATTCAAAGATGGATGTCCCGGTTTTACTGTATCTGCCTTAGTTGGAGATTCCCGGGAAGAA
AAGCCCAGGACAAGTGGTCAGGTGCAGGAACTTGATCTGAGAGGTGGTCCCAGGAAGCAGAAGTGAGTTCATGGGGACATTGAGAAGAGGAAGGAGGCCA
ATCAAAAAAGAGCATTTCTGAGGTTGCTTCTGTACACAGGGGCTTCATTTCTTCAATTCTCCCAGATCCTCTGGGAACCCTATGAAATGCTTTTCAGAAT
TCTCAGAGTCATCCACCTGAAAAATAGAGGGACTGGAGCCTTTTTTCCTAGTCTCCCTACTGTCCATGGATTGAGAGTTGCCTGGGAGCAGGGAGAGCGG
GTGTTAACTGCCTTCTGTTTAGAACAAGTTCCTGTATGTGTCAGAGATCTGGGGCAGGATGATTTGCAGTCATGTAAGCTTAGGTTGAACTCTGGGAGAG
CCAGGTGAGTGTGTGCTCAAAAAGAACTGTCCAGTGCAGCTGCTGCTGAAATCAGAGGTGACTGCAAGGATGTAACACTGGCGCTCGGGTGTCTGCCATG
GCCTAGGTTTCTTATGAGAGATTGAACTCTTCGGAGATTCCATCATTCAGAGCAGGCACAAGACGGTTTGGCCACCAATCTGGGTAGAGCCAGGCTGTTG
CATGACAAGTCAGTCAGGAGAAAACTGAGGCTAGCAGGCTGACTTTCTGGTTCCATGACACACATCACATCTGCAATAGAGCTTAAAGACAGGGTGCTTA
TCCCTCAAACCTCCCTGTATCACTAACTTTCTTAATCCAGACTTTTGCCTTTGTTTTTTTTTTTGTTTGTTTKTTKTTTTTTTTTTTTTAGAAGGAGTCT
CGCTCTGTCACCCAGGCTGGAGTGCAGTGGCAGGATCTTGGCTCACTGCAAACTCCACCTCCTGGTTCTCGCCATTCTCCTGCCTCAGCCTCCCGAGTAG
CTGGGACTACAGGTGCCCGCCAGCACACCCAGCTAATATTTTTGTATTTAGAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGGTGGTCTTGATCTCCTG
ACCTTGTGATCCGCAAGCCTCGGCCTCCCAAATTGCTGGGATTACAAACGTGAGCCACCGCACMCGGCCTACTTTTACGTCTCATAACCCAAAAGCTCTA
TGGCTTCAAAAATTCCCAACTSCTCAAAAAGCTGATTTTCTGTTTTATCAGTGCCCCTTTGATTGATAAACAATATATTAATATAAGATGGATATAAAGC
AGATGTATTTTGTTGCCACAACTTCTTTGGTTCAAATTAAAGAATATAGGTCATTTGTCCCAGAGAGTCAGTCCAGCTGAAAAATTGTGGATGTTGATAA
ATGCRTAGGTCTCCATTYTTAAAAATCCAGCATTTTTGTATAGGAACAAAACTTTACTTGGATTATAAATTGCAGGCCTTCTTTGAAAAGACAAAGTGTG
AAAGGGAAGAGAACTGTAGAGTCTTCCTGATGTTTACTGAGCCCTTACTCCAAACCAGGACTTAGGCTTGTTGCATCCCCTCCATTAACTCATGTCATAT
TGCCTAATTCATAAAGAGGCCCAGAGAGGCAGTCGAGGTGTAGAAAGGTTAAGTAACATTCCCACTGCCTCATAACTTGTAAGTAATGAAACTCTCCGGA
AAAGTTGAGCTCAGATCTGAATCCAGAGCCTGCATGCCTAACCGCAGTGCAATGCTATCCTCACCTCACTGTGCAAATACATCTCAGATCTCTGCATTAG
GATGCACAGGTTTACATTTTTTAARAGCAGGTAATAACTGTCTTATTCTGTACCTATTGTCTGTTTTCACAGTCTGCTGTGAACCCTTGCTTTCAGCTGG
GACACTGTTGCCTTCCACTGCCTTCCACAGCCTCTTTACTTCCCCTTAAACAACCTATTCCAACTGGTACTACTTGRTAATAGTCATTTTCTCTCACCTG
AAAGCATGCCTCTGTCAACCAGGCTCTTCCCCTCAATGGCTAATGACTCTCACTCCTACACTCCTGCAGAGGGCCTGGCACATAGTGGGTGCTTAATACA
AGTTCCTTGGCACAAAGAATATAGGAATAAATACGGGGACYAAGGTATTGCGCTCTCCATTTTACAAAGGAGAAATCTAGCCTTGGTCTCTCTGATACCA
CAGTCTTTCCCAAAGTTGCACAGCACAGTGGAGGAGAGTTGGACCTAGGGCCCAGGTTTCCAGGATCCTGGTCTAGTGTAATGTCAGTTTCTAATTATGT
GGTCCACACACATGAATATTTAAATCAGCRTCTCCTGGAGATAACTCAAGAGGTGACTCTAATGGTAGACAATTGAGGCTGTACATCAGGGTTGCAAAGG
GGCTTTGTCCGGATGAGTGGATTTTTTGTGTCCCTTACACCATGTGAATTCCCAGCATCATGGTTTATGCTAATCCTCTTTCCAAAATAGTTTCCTGGKG
ACCTTCTCCCTGTGCCAACCCCGGAATACAATGGGATGAGTAACTGGCAGGTCCAGATACAGAAAATGAGTGAGCAATGCCTTTCCCAGCTAAAAATTCT
TCCAGCTCACCCATGGTGTRCTAGGGAAGATGTTCTCCTATGTCCTGAATGASCAGCAGCAGAGGATTCAGGGCACCCAATGCAAAATTGTCACCAAATG
ACTGTGACACTRAAGTGGCTCATGCTGCTCTTTGCACTGCATTAAGTGAAACCAGACGCCTCCAGTTAAACTCCAGTGAGCTAAAAAGTATAGTGATAAA
TATATGAAATGAGTAGAAAGAACAAAAATAAAGAAGCCTCACCCCAGATACGGCACTTATGAAGAATCTGTGTCTCAGTCTCCCAGCAAAATTGAAACGT
AATTCAACTTCAGATGGTCAATGCCTGCCTTAATGCCCCATGCTAATGTCAGCCCTGAGATGTCACAATAGTCCAGGAGATGCTTACCTGAAGGAGAGGC
CCTCTAGAGAGGCTGTGAGAACTGTGATTTGGAGCTCGAAACTGAGATAGTGAGCTGGGCAGGGTGACAATTTATGGAGAATGGGAAAAGGAAGAGGGAA
GTATTTTAGCAAAACGGATGCTATCAGGATGGCTGAGGCTTTAGAACCAGATGGAGTGCTGTGGCCTCTCTTGGATGGATGCTGTTTCTGAGCTTTGCAT
CTGGAAAGACAGAGCCTGCTCTAGGRATAATGATGTCAAAGATCTTTCTCATTTTACTGTCTGGTTAAATATCACCTCTTCAGAGAAGCCTTCCCTTATC
AACTTACTTAAATTGAGTACCCCCTGTCAGTTTTCTATCACAGTACCTCACTTGTGTGTGTTTTCCATTCATAGCATTTGTTACACTTTCACATTTTTAA
AAGCGTTGTTTCTTTTTTTGTTTTTTGTCCATCTCCAGTTCCTATCAGTGCCCTACCATGTCCTTAACATTTAGCTTAGTGCCTGACACGTAGTGCTTCA
GTAAGAAGTATCAATGTGGTAAGTGAATTTCTAATCGAATAGCAGTTACATCATAAATAGTCAATGATTCTTGTGATGTCTCATGGTCCCAGGGATCATG
AGATACAGAGTGACAGAGGATGGAAGTTCAGTTTTCTTCTCTATGTAACAGGAAGCAAGGAAGTGATCGTCAGAATAACTGCAAGATGACCCTGCTGGCT
GCTGTGTGACAGGGGATTAGAACAGTCATAAAAGCAGGTAGAGAGGTGTTTCAGTTAGCTATGGCTGTGTAACAAACTACTCCAAACTTAGAGACTTGAA
ATAATCATTCTATGTGGTCATGTTTCTGTGGGTCAAGAATTCCAGCAGGATTCAGCTGGTTGTCAACTGGGTCTTTCACATAGCTTTTTTCACCTGGTAA
CTTAGCTAGGCTGGAAAATCCAAGAAAGCTTCACTCATACACCTGGCACCTTGGTGATTCTTTGCATGCACCTTGGTGATTCTATGTGCTRTTTTGTCTC
CCTCATAGCTAATCAGATGTCTTATGTGGTGGTTGGCATTTTTTTTTTTTTTTTTTGAGTCAGAGTATTGCTCTATTACCCAGGCTGGAGTTCAGGGTGC
GATCTCGGCTCACTGCAACCTCTGACTTCCAGGTTCAAGTGAGTCTCCTGCATCAGCCTCCCTAATAGCTGAGACTACAGGCACGTGCCAGCACGTCTGG
CTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGCCTTGAACTCTTGAACTCAGGTGATCCACCCACCTCAGCCTCCCAAA
GTGCTGGAATTACAGGTGTGAGCTATCACGCCCAGCCTGGTGGTTGGCTTTTAAAGGGAGCAGGTCAACCATATGAAAACAGAAGCTATGGCTCTCTTGA
GGCCCAGCCCCAGAAGTTACACACCATCAGTTCCCCTGTGTTCTGTTCGTCAAAGCAGCCCAAGATTATCTCAAAATCAAGAGGAAGGGAAATAGATTCA
GCTCTTCATGAAGATTGGCAAGGAATGTGCAGCCATTTTCAAACCACCCCGCAGAGAGAATGGTTAGGACATTGTTATGATAAACCCAGCCTAAGGTTAT
AGCAATAGAGATGGACAGAGATGATTTAGCTGAAGATATAGCTGTAGTTAGCATGACCAGACTTGCCAATGGTTGTAATAGGGTGTCTGGATTAGGGAGA
TGTTGTTTATCTCTACTAGTTTCCTGTTAATTACTCTATGAACAAATTAGCACAAACTTTGTGGCTTAAAACAACACAAATTTATTCTGTTTTAGTTTTG
GAGGCCAAAAGTTCAAAATGAGTTTCACAAGGCCAAAATCAAGGTGTCAGCAGAACTGGTTCCTTCTGGAGGCTCCAAGGAGCATTTGTTCCTTGTCTCT
TCAGTCTCTGGAGGCAGTCGTGACCCCTTCTTACAACTTCAAAGGCAATTGTGTAACATTTTTGCAGGGAGAGTCCTGGGAACAGTGAGACAAGTTGGGG
AGAGGCAAGTGGAAGGGACAGAATCAAGATTGAAGCAGGCTAAGTATGAAAAATTTGTAAGATGTCCAAGCGGAGATGCCAGAAAAAGTCAGATGAGTGT
ATGAGTCTCACATTTCAGAGCTAAAAATATACACTCTGGATTTATCAATATAAAGTTAGATGAGGGCCAGGTGCGGTGGCTCATGCCTGTAATCCCAGCA
CTTTGGGAGGCCGAGGTGGGCAGACCATGAGGTCAGGAGCTCAAGAACAGTCTGGCCCACATGATGAAACCCCATCTGTATCAAAAATACAAAAATTAGC
TGGGTGTGGTGGCATGCACCTGTGATCCCAGCTATTCAAGAGGCTGAGATAGGAAAATCGCTTGAACCCGGGAGGTGGAGGTCGCAGTGAGCTGAGATGG
TGCCATTGCACTCCAGCCTGGGTGACAAAGTGAGACTCTGTCTCAAAAAAAAGAAAGTTATATGAGTATTGTTGAAGTCATTTAGGAACAGATTTTTTAG
CAACATCATCCAGTAGAAATGTAATGTGAGCCAGAAATGTAAATGTAAATGTTCTGCTAGCCATATTTAAAAAGTAAAAAGAAAAAGGAAAATTAATATT
AGCAATATCTTCTTTAACCTGATTATTATATAATGATCATTCCATCATTTAAGCAACATAAAAAGCAATGAGATATTTTAGATAACTTTTTCCATACTAA
GTTTTAGAAATCCAGTATGTTAGCTCACTTTCCAATTCAGACTAGCCAATTTCTTTTTGATGGAGAAAATGTATTTAATTAAAAGAATTATTCTTACTAT
TATTTTTGATTGGCAAGTCATAATTGTATGCATTTATGAGGTACAATATTATGTTTTGATACATGTATAAAATGGTATAATTAAATCAAGCTAATTAACA
TGTCCATCACCTCAGTTACCTATCCTTTTTTTGCTGAGACATTTGAAATTGACTCTCTTAGTTATTTTGAAATATATAATACATTATTATTGACTGTAGT
CATCATGCTGTGCAATAGTCTCAAAACCTCTTTCTCTTGTCTATCTGAAACTTTGCACTCTTAGCTAAAAAAAATCTCCCCAGTCCCTCCCCTGCACCCC
CAGCCCCAGGTAATCACCATCCTACTGCTTCTAGGAGTTTAGCTTTATTTGATTTCCCATACAAGTGAGATCATGTGGTATTTGTCTTCTGTGCCTTAGC
CATATTTGTATTATCCACTGGCCACCTTTGTCTCCTGGTGATATACTGGACAGCACAGCTTTAGAAAGAAGAGATTCTAGAAGTTATCCCTGAGGAATCC
CAGCATTTAATGGTCGGATATAGAAAAAGCTTGAAGGTAGAAGAAAAACCAGGACAGTGTAGTATTGCACAGGTAGGAAAAGCCTTAAGAAGTGAGTTGA
TCAGCTATGTTGAATGCTGGTACAAAGATGGGTAAGATGGGATGGAGAAGTTTCTACAAAACTGCTGCTAATTCAAAGAAACAGATATAGACCACTTCCA
GGCTGGGCGTGGTGGCTCGTGCCTGTAATCCCAACACTTTGGAAGGCCAAGGTGGACAGATCACTTGAGATCAGGAGTTCAAAACCAGCCTGGCCAACAT
GCTGAAACCCMGTCTCTACTAAAAATATGAAAATTAGCCAGGTGTGGTGGTGCACGCCTGTAATTCCAGCTAGTCGGGAGGCTAAGGCAAGAGAATCAGT
TAAGCCCAGGGGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCATTCTAGCCTGGGTGACAGAACGAGATTTGTCTCAAAAAAAAACAAAAAAACA
AAAAAACAAAAAAAAAAAAACAAGACTACTTTTAGGTTCTCGCTCTTTGGATGTGTTGCTGTTTCCTGCACTCTCTTCCTACTGTCTTTGGGTGGTAGAT
GGAAGGGTGCCACAGGACACACAGCTGGGGAAACTTCCTCTTGCAAAGCCTCTACTAAACCATGCCACACCACTGTATAATAACTGGAAAATGGCTTTGG
GACTTAAAAGCAACTTCATCCAAGAAGAATTGCAGTTTGGATGCAGTCCAGGTATAAAACAACCACCTTCACTCCTGTGTGTTACTGTAAAGCTTGCCTT
CTGTAAAATGTCTTAAGCATAAGAGCTGTAAAGGAAAATACTCATGGATTATATTGTGATTTGAAATCAGGATGTAATAMGATAGTGACAGCTTAAAGAT
TCTTCTAAAACTAGATATGAAATTTGAATGTGGCACCTGTCTATAATTTGTAAAGCACTTTGGCTTTTTCTCAGCTACATRGTGATGATGAGTTCTTCTC
AACAAGTGACTAAGCTCTAGGGGAATCAGTTTCTCAATTTGCATGAGATACGGGAGCTTCCTAAGACATGAGACTTTCAGTTTTAAAACCAGGATAGTST
TGAGAGAGCTGCCCTTGTTTTTCGGAGACATGCAGGCTTCCCAAGATGTGAGACTTTCAGTGCTAATCCCAGGAAAAGTCCTAAACAAAAGGCAACGAGT
TGGTTGCCCAACCAAGCTGGGAGGCCTTCTGACCGAGGACCTCCTGAAGTCATCAACCCAAAGAGAAGAACTGCCTCTTAGGGCTGACTGATGCTTACAA
AAGGGATTATAAAGCCTGAATACCAATTTCTTAATTTGCAAAGAGAAATGATGTGACAAGGACCAGGAAACTCAAAGTCCATATGGTCAGCATTTTCTGT
CTCTGTATAAAGCCWATCTATTAATTTAAAGAACAGAATGATTATCACATGCATTGAAATACACAAAGTCCAAACGATCAGCAAATTCTCGCCCGGTGTG
AAGTCAGTCTTTTAATTTACAAAGAAAAATTACTGTCACAGAGACTGGAATGCTCAAAGTCCACATGGTCAGCACATTTTCTGCTTCTACTCTACCCTTC
ATGGAAGACCAATTCATAATCAGAAGGCTGCTTAGTGAGCATGAAGTGTTGGTTAGAGTGAGTGCTTAAAGGCACTGGACTAAGAAAGCCTAACTTTACC
AAGGGGTTCAGACTGTCTTTGTCACCAAATGCTGAAGTCTTTGCTTCAGCAATTTTTCCTGCCTCTAGGATGAGTACTGCAAAGTTGCCTCCAGGAGGCA
TCTTATTTTCCAAGCTGCCATGGATGACTGACCKTTTTAAGCGTCCTTCATTCTTCAGATGTGCTAATACCATCAATTAGGTAGTAGAGTTTCACTTCCC
TAGGAGCCATTTTGTCTTTGCTACATTTATCTTTGCTCTTATTCCAAAGAGCAGCCTTCATTCTCTTCCTATCAAATCTTTCAGCAGCAGAAGGCAACTG
ACTGTATCTCTGAGTAATGTTGATAAGTATTGTGTTGTGGAGGCTCTGCATAGTACAGTGGTTAACGGCACGGGCTGAGAACTGAGGAATACCTACTGTC
TACTTGTCTACTACCATGCAGAACTATAGTAAGTCACTATATCCCTTTGAGCCATAGTTTCCAGTTCTATAAAATGGGAACCATCCATAGTTGGTTGTAT
CAAGGACTCAATGACAGCAAACAAGTAAAAGAACCCATATAGTGTTTGAGACATGATTGTGCTCAAGAAATGATAGGAAACAAACGTACAAACGACAAGC
ATTTTTTGCTGCAGTTTGGAAGTATTAATGTTTTACAACCTCCACAAACTAAGGTTCATGATCGAAGAACCTCACTGAATATTTAACTTTAGGGATAAAA
TGCACAACCTATAATAATTTTAGTGCAATTGATTTATTATAGTCAAGGGAAACATGACTGAATAACAAAAGTAGGTTAGGAAAATACTGAAACAGAATAG
GATGAAGAAAAGCATTTTAATGAAAAAGGAAAAGCAGAGAGCAGAGTAGTAATCTCTCTTGGTTCCTCTCCTTCCGTCAGCCTGCTGTTCCTGCCCCTCT
CTTCTTCTCTCTGGCCTCTAGATACCGGAATGTCTCAGGCCTCCCATCCCCTCTATCCTCCATTTYGCCACCTGCTCTGGCCAAAAAGTTTGAAGGAGGA
CCTATGAAAAATATCCCTGGCCTGGGCTTAAGAAGCCTTCACCCTCATTCTCAACTCTGAGGCTACCAGAGCATGATCAGYTCATCATCTCAGTCAATCC
TCCCAGCTCCTCTATTAGATCCATATGACTGCCACTTTGTGAAAGATACAAGGAGRACTTGGCAAAACAAGGGCCCCACCTGAAATGGATAGCTGAGAGC
ATTACCACAGTCGGATCTGCTGGGTTGAATTGTACACAGCAGATGCCAACTTCCAATGAAATTAGAATCATATTTCTATACATTTTCTTAAGTGCCAGAC
ATCATTCTAATCATTTTATAGGCATTATCTCACTTAGTGTCTAAAAAACCCTAAGGTTTTGCCATATAACTTTCATCCCCACTTTATTATCTATCTAGAA
TAACTGAGGCTTATGGAGGAAAACTGACTGACTCATTGCTGCTTGGCTATTAAGTGGAACTTCCCAAGACTCTGTAACTTTGGAGACTAGTCACATATGA
AATATGCTACCCTCTCACTTGTGTGATGRCGTTCAGGGTTTGGCRAATGTTGAGCAAGCCAATAAGGTAAGGCTGTATGCGGTACAATTCTCACACTCGT
TGCTCTTTTTGTTGTAACCAGCCTCTTTAAACACTATGGCCTGACCCTCTGAACCAGCCACCTGACCATTCTTCTGACTTCCCAATAAGCCTTTGCCATC
ACCAAACATACTGGCCTCCATGGTCTTCATCTTTAATGCCATTAATTAAAAAAATATGCCCCACAGCTCTGCAAGAAGAATTCAGCAGGCAGTTGGCATA
AAAAGGTTGGGAATGGTTTACATCTTTGAGCTTCAGTATTTTAAGTCTGSAAGTTCATGGAGTGCAAGGGCTGTGGACACCCTGCTTGCCAATTTTTCTG
CCTTAACCGTTCCCTGCCCCCTTGTTGTTCAATTTCTGGCCAATGTCTAMATTTTCCAAAAGGAAGTATGGTCTTTTGCATTATGACACATGATTGCCAC
CCACTGGTTAAGAATGTTTTCACTATGAAGGTTTAGAAGGTTTGCTGTTGAGGCAAAAGTTACCCATTTCCCATGCCCCCAGTTCAGTTGTCTGGATATC
CCAGAACAAGAAGCATTAACTGCTTCAATTTAAGTCAGATTCTCAAAATCCCAAAGGCATGTCTTTCACTTATCCCATAAAACATCTAATTAAATTATTT
CATTTAATTGTACATCTTGAATTATTTGTTTGCATCTTGAATTATTTTTGTCAATGCGCATTTTCCAATAAAGGAGTAATCAGTGGTCTCAATGTCATTC
AGATGAGGCCACCCTTATTTATCAGAGTTCTAACACCAATCAGTATTCATCCACAGGGCTCTTTAGTGGAACTGTGGCACTCTTTAGTGGAAATGTGAGT
TTCAGATTTCTGATTAATAAAAATAATTTGTAAATATGATCACATAATTTTTGCAATACCGTTTTCTTTTCTAAGAATCACCTATAGAAACACCTACTAC
GTGCCAGGCATTGTTTTATGTGAACATTTCATGTATGTAACAGCCCCCCCTAAGGTAGAAATTGTTATTGTCATTCTTATTTTGAAGATGAAAAGCTGAG
GCATGAAGAGGGTAAGTCACCATCCAAAGTCACCTATCTAAAAAATGCAAAGCCAAGATTCAAACTCAGGAAATGTGTTACTAGAATCTTATCTACTATG
CCATGYTGCCTCTCAGAAAGACTATCACTGCTTCCTCCAGCCTCATCCTCTTGTCTTTTCCTGGGCTGGGGCCATCCTCACCCTGATTGGCTCTCCCCAA
AGGCTCACTCTGACACCCATTCCAGTGCTAACCCTGTTCAGAGTGGACAGGAACTGGTCCATGCATCTCCTTAGATTTAACACGATAGGCTCTGTCTCTC
ACAAGGGCAGGCAGCAAGCAATTGTCTTTTAGAGGAAAACAAACCATTTGAACTAAATGTTGATTCTTGCTCTCTCTAGAAATGCAGACAGAAATCGGCA
ATCAGTGTAGTTGATGGATACCAGAAAAAGAAATAAAAGTAAGGAAATGAAGAAAAATTGGGCCAATGGCACTTTAAAAATTTCCCAAAATTTTGAGGAC
AACTTCCCTTTTTTTCAAGGCACTTGATGCTTCTCTAGATAGAAAAATTGTTTTCACCTAAAATATCACACTAGCTGTTCTGAAATCCTCTTGCTTCTTG
GCATGCTTATTAAGAAATTCTGCTCTTGCAGCAACAAATCTCAGCTTTCTTTGCTTCTAGAGAACTTTAAAATCATTAACTATCCTTTAAAAACTCACTC
TTGGAAATACATGTGGTCTCTTTCCCTATAACTAAATATTTGATACAAGCCACTATCAACTTGATACTGACAGTTTAAGGGTGTTGGGTACGATGACCTT
TGAGGTSCCTTCTGGCCATAAGTACCAAGGAATTCATAAAGTTGGATTAAATGATAACAAAAATTGGAACTTTCCCTTTATCTTCTTTTCTTCTTAAAGA
ATAAGTTAAGATACATTGATTTCATTTYACAACTTGCACGGAAATGAGTGTTTTACTGTTGATGTTTTTATGATCTGTAGTTTCCATTCTTTTTAATAGC
CTTGGTGCAGTATTAAAAAAACTATCTTGGTGATAAAAGTTATTTTAGAAGTAAAAGTTGCTTTAGAAAAGCAAACATGACTAATATAATCCAAGTTTTC
TCAGGAAGGAAAGCGCTAGTGTGACTGGACAATGCTGAGACGCCCAAGAAGATGATTGACCTTCAATTACAYTGAAGGGAATGACTGAACTATTTATCTG
TGAGGGATTGTAAATCAGGAGCCAAGGGAAAGCCTTGGAAATTCAAATGTAAAAACCTAGTTCAGCAAAGGAGTTGTCTTAAGCAATAGTATATAAATCA
GGCAGGGTTAGGTTATACTACAGTAATAAACAGCCCCCCCCCCCCCAAATATCAATGACCTAAACAACAGGAGTTTATTTATTGCTCATGATATACAACC
AATTTAAGTTAGGAGGGGAGTTATGCTTCACGCAGTCATGCCACATGAGGTCATGATAGCACCGTCTTAACATGATGCACCTGAGTTCTCCTGGCAAAGG
AAAAGAACATTCCAGATTCTGCATTCACAACTGAAGGCTCTCCTAGGCATGAGACACCATGCCTCTTACTGTGATTTATTGATCATAATAATGTATAGCC
TCATTTAATTGCAAAGGGATCAGGAAAGTGTCATTCTGAACATTCTCAGAAAAGCAGAGACCTGATTATACATGAGTGTTAGAAGCCTCTACARCACAGC
AATTGTGGACTGAATGCTTCATTCAGGCAATAAGCAAAAGCCTCCTTCAGCAGCGTATTATTTAATCCTCACATAACCCTGCAAGGTGTGGGCTTTCATG
ATCCCCCTTTCTCGGATAAGGAGACTGGGAATCAAGGAGGTTAAATAGTCTGCCCAGAGATGCTCCCCTTCCTATTAAGAGCCCAGTTGTAAACCTRTGC
TCCTGACTACCATGTAGCTCTTCCCTGAGAGCTCCTCCAAGCCTTGGTTAAAGGGCCAGACCCTTTGCTCTCTGAGCAGGAGGAGAGCAACGTCTGCCCT
CACTGACCCATTAATAGACACCTGTCAGTGAGGAAGRGAGGCTTGTTCACTTCAGGGAGCTGTGGTCGCTTCCCCTGTGCCACTGGAAAACTAATAATTC
ATGAAGTTGGCTTTCAGGTACGAGCAAGCTGGACTGAATAGTTGTTTSAAGTCATAAACATAGAAAAGTAAGTTGATAGGAGAAGACTATGTGGAGAAAA
TTTAACCATGTTAAATATTTGAATAAACATTTAAAAATACATAGCATATATAGGTGCATATATAATAAATTTGAGACARTAGGCATGACAGAGTTCTGAA
ATAGTTTATAAGTATGTGAGTTGTAAATATCCCATTTATATTATGCATAGATTATAAGTAAAATACACAGAATTGATTCTATGCTCCATCATCTATGTGG
TCATCTAATCATCCATCTCTCTAAACTAACGTCAAAGAGACATATAATTTAAAGCACATATGCAATTCTAAATTTTCTTGGATAAGCTTTTAAAAACTAA
AAATAAATATATAAAATTAATTTAATAGTATATTTTATTTAACCCAGTGCATGCAAATATGATTATTTCAACATTTAGTCAAGTCGAAAATTGTTCCATC
TTTTTKGTACTTAGTTTYTGAAATTGTGCATGTATTTTACCCTTAAAGCTAATCTCAATTTGGGTGCTAAACCTTCAGTGGAAATCCTTGCTCTGTATTC
AGTTTATAAAAGATGCGGTTAAAGAAACCAAACTCACTTGTCCAAGGTGTTCCAAAGATACTTCAAAGTTTGCAATCGTTTAGTTAATCTGTTGACAATG
GTTAGATTGCTGTTGTGTTTATATATAATGCTAGAAATAATGCATATGTTGGGCATGTACATTACAATATGATCCTGTCTTCCAGACCATAAACACAATT
AGTTTTTCCTGGAGGATTCTAACTCACCATTGGGTACCTCTTATATGGAAAATCATTAGAAATGCCTGTCCTCTCTGCAACCAGCTGGGAAGAATTTTCT
GTCAAAAGCTAGAGATGTTTGTGTGTTTTTGTCAATGGGATCACAAACTTGAAGTCAGAACAGTTGGATTCTGGATATGAGTCTTCTTTTACCAGCTGTG
TGATCTTAGGTGTTCTGGGTCCCATTTGGGAAATGAGGGGTTTAATTGCCTCCAAGCTTGATCTGTGCATGGAKCAATGTCGTTATGAGAATTCCCCACA
TTTTGCTCCCTTTTGGACCTCCCTAAAATTCCCCTAAGAACACCCCTCACTAGTAGAARTGTAGAATCCCAGACCTTACCCCAGATCTACTGAATCAGAG
TCTGTATTTTTAACAAGATCCCCTACATTGGAGGAAAGTTGTAGAAAGACTGCCCTGGAGGATTTSTAACATTTCTGTGGGCTCTCATATTCCTTTTAAA
TATACATTAGAATGAAATGCAGATATTTTAAGATGATGTGGCCTTTCAGAGAGTAGTTGCATTTACTAGGATGTGAAAGAAACACTTTTCAAATGGTAAC
GATGTGAAGGTGTCCTAAGTGCTTGTGTTGAGTCCAGCACTGTGCTGGTAGCTCACGAACTCCTCGTGACAACCTGGAACCCCATGAACCCCATTTTACA
GGTAAGGAAGCACAACCTGAGAGACATGAAATTATCCAGGCAGGCTTGCGTGGCTAGTGATTGTGAAGCTTGGATTTGAGTACAGGTCGTCTGGTTCCAG
AGCTTGCACGAAATCACTGTGCTAGTAAGAAACAGAGTTCGAGGTTGAACCCGGGTGACTCAGCATCAAGGAATGGGCTCTCTCTTTGGGGTGTGTGTCT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAGAGAGAGAGAGAGAGAGAGAGCTTTCTTAATTACCACACCATACTACCTCCATTTTATATTAAA
CAGAATATTGGAATCTTGACCTTTTTCTGTATTTAATTAGATGCTGCTGTTTAATAACCTATCACAAAAGTTAGGCAGGCATTCACACACATGGCGATGA
GAATTCCCCACATTTTGTTCCCTGTGAGCCCTCCCTAAAACTCTCCTGAGAATACAACAGCTGCATTTAAAGAAGCTGAATCCCCTATTGCAGATTTTAT
TCCTGTAAAAATATATTGAACTTGACGAAACAGAGAAAATGTGGCCTGCTTAGTCAGTTACCCTGACACTATAGCTCTTCACAAAAGTTTTAAGATATGA
TCATATATTTAATATAATATACTTAGTATAACATGATATATGTGCTATACTATAGCATAGTATGTATATGTAATATATATAATATACAGTACAGCATAGC
AATTGTCTACCAGTGACAGATTTATTTTTAAGTTTTTTATTGACACATAATATTTTTACATATTTTTAGGATATATGTGGTATTTTGTTACATGTACAGA
ATGTGTAATGGTCAAGTCAGGGAATTTAGAATATCCATCATCACAATCATTTATCATTTCTATGTGTTGAGAACATTTCTAGTCCTCCCCTCTAGCTATT
TTGAGATGTACAATACATTGGTGTGAGCTGTAGTCACCGTACTTTACTATTAACATTAAAACTTCTTCCTTCTGTCTACTGCCTGTTTGTACTTAACTAA
TTTCTCTTCACTTACCCTCCCAGACCGACAAACATCTGCATCCTTCCCAGCCTCTGGTAACCACCATTGCGCTCTTTTTCTCCATATTTTAGGTCCCATC
TGTGAGTGAGCATGTGCGATATTTCTCTTTCTGTGTCTGGCATATTTCATTTGACATAACTATCTCCAGTTCCATTAAGGTTGCAGCAAATAATATGATT
TCGTTCTTTTTTATAGCCAAATAGTATTTCATTGTGTAAATATACCACAATTTTTTAATCCGTTATCCATTTATCCACTGATGGGCACAAGGTCCGTTCC
ATATCTTTGCTATCGTAGATAGTGCTACAATAAACATTAGGGTGCATGTATCCCTTTGATAGACTGATTTTCTTTCCTTGGTATAAATACCAAGTAGTGG
GATTGCTGGATCATACGGTAGTTCTATTTTTAGTGATTTTTTAAGAAATATCCATACTGTTTTCCATAATGGCTATACTAATTTACTTTTACACCAACAG
TGTATGAGTTTCCTTTTCTCCACATCCTTGCTAGCATCTGTTATTTTTTGCAATGACTGATTTCTATGAACAGGAGTCTTTGGAGCCTTCCTTCATAGCC
ATCGTCTCACACAGTCCTCACTGGTGCTATTACCAGCTCCATTTGCAGAAAAGGAAGCTAAAGCCAAAGCTTAAGTGAGTTCCTGATAAATAGTCCATAT
TTTACCTCAGGTCTTCTGATTCCAGACATCACGTGGACTGTCTGAAAGACGCAAAATTAGACAAACAGCAAAAAAGAGACCCTGTTGGTGTCCAACACTT
ATAATGAGGCTCACTTCTGAGGACACGTGCAGCCTAAGCAAGGCAGCCACTGCCTCTCACCTTACAGCTTGCTGGGCTGATAATGGCCATAGGGGATCCT
CAGCCAATGAGGGGTAAGATCTGTAGATAAACATCCTTGGGTCCAGCATCCTTGACCCTTAATGGACAATTCTGGGGGATGTTTCTCACTGTCTCTTAGA
GAGTCCCCAGTAGGATTGAGCTCCAGTTGCCCACAGTGGAAGTCTTTCCATGAATGCACCCTTTATTGGCTTGTGTCCACACCCTGTCTTACTTCCCAAC
TCCCTCACTTGTGATTCCTGGCATAACCTCCCAAATAAAAGAGTTTCACCCCAGTTCTTGTCTCAGGGGACCACAAAGAGAGTGACTATGTGGCCCCGTG
AAGATGAACTTGTGACAATGGCATGACCAAGGTTTACCACCTGAGCTCTCCCTGTTAGCGCTAGTTACATGTAGCATGTGAGCTGGGTTCTTCTTTCCCA
GTCATTTTCCTGTCTTAACCTTGGGGTGAAGGACAATGTTCTTGACCTAGAATGGCCTAGGCAGAGTCTGATAAGATTGTTGYGGATGCAAAGGGAACAG
GGTTGTGGTTGCTGAGCATTGCATCCAGTGCGTACCTTGTTCCCTTGCTGCACTCTCATCATGTTTGGATTCAGATGAACTTTGATGTTCTGTGTGAGGT
GGACGTTAGCACTGTATCTGTACTGAGTTAGGCRAGGCGGTCCCGGCAAAGTAATTACAAGGAAATGCTGTATTTTAGATTGTTTGAGTTTTCCAATAGA
GACATATCAATCTTGCTTGGGAATACTTTGACTTGTGCTTTGTGATCAGATTTCCCTGTGCTTCTGGTGAAGCTTATGGATTCATGAGTTAGCTCTGCAA
ATGGAGAGTTTGTGTTAGAAGTCAAATCAGTTAAAGCTCTTTGATACTGCACATATTCATGGGCAGAATTGCTGCAAAAATCCTCTAAACACATACGAGG
AGCTACATTATACCTTTAAGTGGCAGGATCAGCTTCGTGACAAAAACCAAACCAGGAATGAGAGGGGAAAATAATCTAAATGTGTTAAGGGAAGTATGCA
AAATGGCTGAAAGCTGACAAATGGCAGAGCCAGAACGTGAGTTCTGCTGATTCCAGACATCCTGCCTGATGAACATAAAATTGGAAGGAAAAAAAAGTAA
ATGAGCTATGATGAGACCAAGTGGCCCATATGGGTATCAAACTCAACAGGATGGCATGACCAGGCTTTTTTACTCAGGCACAAAGAGCTTTTGAGCATTG
TTTGATAATATTCCAAAAAGAAAATGATAGAGCCAAATTTCCCAAATGTTCCATGTAAAACTAGGAAATGACTGAAGCATTCAYCCTCATTTCTAAGTAT
TGTAAGTGTCTGGATCAGAATCCATTGCCATGGCTTATTCATTCAGAGCTTGTTGCTGGGGATTGGGATGCTTAGACTGGCAGGACTGGTGTCTCCTTGG
CTAGACAAAGATCCTTGCATGGCATTAAGGGAGCCTGTCCTGACATTTCATAAAATCATTTCTGAACCGTGACGTTTCCAGTATTTTATTGTGAACATTT
TCAAACATAAAGTTGAAAGAATTTTACACTAAACCACCATGTGCCCATAACCTCGATTCTACAGTTTACATTTGACATTTCCATATACTTGCTTTATATA
TATAAATATACACATCACACACACACACACACAGTCCCTGCCTCTATACATCCACCTTACTTTTTATGCATTTCAAAGTAAGCAACAGATATGTAACACT
CCACCCCCTAAATAGATCTGCATGCATATTGTTAATTAGAATTCAATATTTGCTTTTGGTTATTTTCTTCTTCAGAGGAAAATTTACATACTATGAAACC
CACAAAGCTTATGCGTCATGTTTACATTTTGACAAACATATATTACTTTGGTGCAAAAGTAATTGCTGTTTTTGACATTAAAAGTAATGGCAAAAACCGC
AATTACTTTTGTGCCAACTGAATACAACTGTGCAACCCAAACCCCCATCAAGATAGAAACCATCATTATGACCTCAGAAAGTTTCTTCATGACCTTCCTA
GAGGCCACCAATATTCTGATTTTTCCCATCATAGACTTGTTTCAAGTTTCATTGGTTCTAGAATTTTATATGAATGAAATCGTATGGTATATATATTTTT
GTTTGATTTCTTTCACTCAGCATAAGATTTTCTTTTTCTTTCTTTTCTTTTCTTTTTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGT
CTCACTCTGTCACCTAGGCTGGAGAACAGTGATGCAGTCTTGGCTCACTGGACCTCTGCTTCCTGAGTTCGAGCGATTCTTGTGTCTCAGCCTTCTGAGT
AGTTGGAATTACAGGTGCACACCACCATGCCTGGCTAATTTATTGTATTTTTACTAGATCTATGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCT
GACCTCAAGTGATCTGCCCACTTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATCACACCTGGCCAGCATAAGATTTTTTAGATTCATTCATG
CTCATACATCAGCATTCATTTCTCTTTGTTGCTAGGTAATATTCTGTCACCTGGTCACTTGTATAGACCATATTTATTATCTACTCTCCTATTGATGGAT
GTCTGAGTTGGTTCCAGCTTTTGATTACAATGAATAAAATTGCTATAAAAACGTTCATGCACAATTCTGTGTATAGACCTGTTTTTCTTTCGCTTGGGTA
GACTCCTAGCAGTAAAAGGGTATGTCATGGGGTAGACTCATATTGAGTGTTATCAGAAGTGTTCACTTATTTTTCTGAATTGGTCGATCCTCTTCCGGAT
AACGCGTGAGAGCAGTGACGGCTTTGCATCCTCACAAACATTTGCTGTTACTGATCTTTTTAATTTTAGCGATTCTGGTGAGTGTGTAGTGGCATCCCAT
TGTGGATTTAATTTGCGTTACCCTAACTACCCATATGTATGCTTATTGACCATTCTGTTCTGTTCTGTTCCTTAAAGGAACATTTTGTTCGTTTATTGGC
TTTGTTTGTTTTTGGCTTGGCTAAAGTCAAACTTGCATCCTCCATCTGACCTGAGATGAGAGTCAGCTCAAATAGGGATACCTGGAGACTGCTCACGCGT
GCATGGTTCGGGGGTCAACATCGGCAGAGTTTTGGGCAGAATTCATACACAGAAGTTGGGGCTTCCTGTCACTGAGTCTCTTCTATCTGGATTTTCCTCC
CTTAATTTCCAACAGCTACTGTTGTCATGAACTCTGTTCTCTGTTCTGTAAACAAGCAGTCCCCAACCTTTTGGCACCAGGGACTGGTTTCATGGAAGGC
AATTTTTCCACATATTGGGGACGGGGATGATGGTTTGGGGGTGAAAGTGTTCCAGCTCACATAATCAGGCGTTTGTTAGATTCTCATAAGGAACGTGCGA
CCTAGATCCCTCGCATGTGAGGATCACAATTGGGTTTGTAGGTTTGTACTTTGTACTCCTATAAGAGTCTAATGCCACTGCTGATCTCACAAGAGGTGGA
GCTCAGGCAGTAATGCTCACTTGTCAGAGGCACATCTCCTGCTGTCCGGCCAGGTTCCTAACAGGCCACAGACCAGTACCGGTCCATGGCCGAGGAGTTG
GGGACCCCTGCTATAAGCCACCAAGACTATGGGTTTTCAGTCAGAATGTAGTTTCCCATCTGGCACTGGTTGGTCCTCTTATCAGGCTGAAAGCCAGAAA
AATGGGAAATTTACCCAGTGTCAAATTCTTCCAAGTGTTTAGCCTCCAGTTTTTTGTTTGTTTGTTTGTTTTGGTTTTTTGGTTTTTTTTGAGACAGAGT
CTTGCTGTTGTCAGCCCGGGCTGGAGTGCAATGGCGAGATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCCAGCAATTCTCCTGCCTCAGCCTCCCA
AGTAGCTGGGATTACACGTGTGCACCACCACAGCAAGCTAATTTTTGTATATTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTC
CTGACCTCAGGTGATCTGCCTACCTCAGCCTACGAAAGTGCTGGGATTACAGGTGTGAGCCATTGTGCCCGGCCCAGGTTTTTCATGCATTGAAGTTCAC
ACTCCACATTCCCCAGGTAGTTGTTTATTATATGTGGCCAAAAGTTTATAGCAGTTTTCTACAGGAGAATTGGTCAAACAGGGGCTACTCAGCTATACCA
GAAGTAGTGTCTTCTGCACTATAAATTTGAATGGCTTTAGAATATTCCATTGTATGAACGAACACACCTTCTTTTATTAACCTTGCCTTCTATGGATGGT
TATTCATATTCTTCTTATTGTTCTCTGTTATGATAACTTTGCCTCTGACACAAAATCAACCTCACTGTGAYGCATACTGGATGTGGAACTGAAGCAAGGG
ACAATTTATCTGAGCTCAAGCTTGCTCATCTGTAAAATGGGATAATTATAATAACAGAAAATATGTGCTTTAATGAGACTTAAATGGAAATAATATTTCC
ACCAAATGCAAGTAGTAATTTAGTGAAACAATGTGTGCAAAGTACCTAGCACTCTCTGGCATGTAATTAACTCAAATTAGGTGCTACTTGGTTCTCTTTG
TAGTTGTCATTGTTACCATTATCCTTGCTGCCTACACTCATAAATGTATAAATAAAAGATTGGAGAACAAATGGCATGTACGCAAATGTGTTTCTTCCTT
TTTATAAATAAACATACCATGAGGATTTTTTATGTCAGTCAAGTTGTTTTTGAGAACATGATTTTAATGACTGCATAATATTTATTTGGATGATCCATGG
TGTTGGAAAATAATAAGTTACATATCTACCTTATATAAATTTCTCTGGGGAAACAAGTCATTAAAAACAAGCTTATTTCTAATTTCAGCCTAATGCTGAT
AGACAATGTCAACTGGATAAAGTTGAGTCGCACATTTCAGTAGCTAGAATGCTTTTTAAAAGTACTTTCACGTTTGGACTAATAAAAATGACATATCTGT
CTCATCCCTTTTCAAGGAAGCTGAAGTGCCTCATCAAATTTATTTTAYTAGGATCCCGACAGCAATCTTGTGGCCTGGGTGAAGGTCAAGGAGGTTTTGC
CTTTTGCAGAAGGGAGTAACAAGTGATGTGATGATAAAGTGTTCTTTCTCTCTCGGTTCATCCATGGTGGGAAAGAGCCCTTCAGCTCATTCTTCAGTTG
GAGGTGGTTCAGGGCCCCATGTTGCTCAAATTGGTGATGACAGCCAGCTGYTTGGTCCCAATTCGCTGAGACTAGGAATTCAAACCCAGGAAAATTGAGA
CACCTGTGTATGAAAAGCATAAAGAGAAAATTTGGTTGCCCTCATGCTCACTCTTATGCCAAGTATTTATTCAASAATTAAATGAATAAGAATAGGGATT
TCAACTAYGTTCTATCCTCCTCCTCCTCCTGCATCTGCCTGACCTTCTTGGGAGCCAGATGTTCCACTGAACACTTTGCATGCACTGTGACTATCTAATG
CAATCCTTGGGACAGATCTGTGAAATAGASTCTGTTATTAGYYCCGTTTTAAAGATGAGGACACTAAGATTCAGATGGTTTAAGTAACCTGTCCAGTGTC
CACAGCTCCTGTATTAGCTGAGAGTCYTGTGCCATTATATCAGAAAAGTCTGCTTGTGTCTTACAGTCTTGATCAGAAACAAGTATATCCCTCAGAACAT
AGAGGCGGCAATGGGGGGTGACTTTGTTCTAACCCACAAGGAAGATTATTACATGAATAGTATGGGAATCTTGGCAGAAAATTAGTGGGTTATTTTTTAG
TCCTTATTAGTAAGGACTCCAGGCAAGATAGAGTTTTGTTTTGTTTTTGTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCT
GTTGTTGCCCAGGCGGGAGTGCAATGGTGCAATCTTGGCTCACCGCAACCTCTGCCTCCCAGGTTCAAACGATTCCCCTGCCTCAGCCTCCCGAGTAACT
GGGACTACAGGCATGCGCCACCAGGCCCGGCTAATTTTTTATTTTTAGTACAGACGGGGTTTCTCCATGTTGGTCAGSCTGGTCTCGAACTCCCGACGTC
AGGTGATCTGCCCACCTCAGCCTCCCAAAATGCTGGGATTATAAGCATGAGCCACCGCACCTGGCAAGATAGAGTCTTTTAACTTTGAAAAGTTAGGATT
CAAATCAGTCTAGCCATTGAATCGTATTTATTGAGCACCTGCTGTGTATCAACCTCAGTAGAAGACCCAAGAGATATACTGGTGAATGGGATAGACATGG
TCTATATTTCAGAGGCCTMCTAGTATACAGTTGAAGACGGGCATTGAACACAGGATCACAGCTATGCTAATAGGGGTGTTACTGCAGGGCCATCCAACCT
AGAACAAGGATCATATTACCAGCGTTTAGAGAATAGGGTATACACATGCTTTTAAATGCACAGAGTGTACCACTTCAGAGAATACTGATTTCTCCTTAGT
TTGGGCTGCTATAACAATACCAGTGACTGGGTAGTATAGAAAACAAACATTTATTTCTCCCAGTTCTGGAGACCAGAAGTTACAGATCAGGTACCAGCAG
GGTAGGGTTTTTGGGGAGACCTGTCCTCTTGGTTCACAGACAGCTGCCTTTTCATTGTAAACTCACACAGTAAAGAGAGAGAGAGAGAGAGAAAGAGAGA
GAGAGARAGAGCTCGCAAGGATCATCTCCTTAGAATGGTACTAATTCCATCATCGGGTTCCACCCTCATGACCTCATCTAAACCTAATTACCTTTTTTTT
TTTGAGACAGAGTTTGGCTCTTGTTGTCCAGGCTGGAGTACAGTGGTGTGATCTCGGCTCACCATAACCTCCGCCTCCCAGGTTCAAGCAATYCTCCTGC
CTCAGGCTCCCAAATTGCTGGGATTACAGGCATGCRCCACCACGCCCAGCTAATTTTCTATTTTTAGTAGAGACGGGGTTTCTTCATGTTGGTCAGGCTG
GTCTCGAACTCCCAACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGCCACTGTGCCCGGCCACCTAATTACTTCTT
AATGGCCCAATCTCCAAATGTTATCACATTGGGGTTTAGGGCTTCAACATAGTAATTTGGAGGAGGACACAGAAGTTCAGCTCGTAACATTCCACTCTGC
CCTCTCCCCACACATTTATGTCTTTCTCACATGCAAAATGTATTCATTGCATCTCAACAGCCCAAAAAGTCTTAACTCGTTCCAGCATCAATTGTCAAAC
AAGCTAGTACAGGAGTTGAACATTTTCCAGATTCAGAAAGATCTCCCTGCCCTTAATCCCAGCATTTTGGAAGGCTGAGGCAGGTGGATCACTTGAGGTC
AGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTATCTACTAAAAATAAAAATWAAAAAAAAATAGCCAGGTGTGGTGGTGGGTACCTGTAAT
CCAAACTATTTGGAAGGCTGAGGCAGGAGAATAGGAGGATTGACTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGACCATCGTGCCACTGCATTCCA
GCCTGGGCAACAAGACAAGACTGTCTCAACAACAACAGAAAAGAAATAAAAACACCAGAAAGATCTCACTAAACTGGAGCAATGGACTAAAGCCTCAAAG
AGGAAATTTCATTTATAAGGTTAGGCTGTAGAAGTAAGTACAGAATCAAGAGATTTGGCATAAGAAAAACCTACGTGGAAAAGATCAGAAAAAGTCCCTC
AAGCACAGAGTCAATATTAATTAGCAAAGCATTCGGTGCTGCTGTTTTAACAGCAACAGTGAATTCGCACGTTTGTTTTTCAGGCCATGCAAAGGGAAAA
ATGATTTATGTCTATTCCCAGACAGTGTGTTTTAAAYGGTGTCTTCCCTTTCAAGAGACTTTTCTAGTAAGAATTTTTTTAATAGGGAAATAAGTAATAA
CTTTGAGAGCAATTTAACTTGATCATGAATCAGAATGATTCAGAACCACAAAAGAAGCTGATATTCTTTCATGTTCTCTAAATATCTTCACTAAATGTAA
AGTAATTGGACATTTATAAGAATTCAGACTCTCCCATAACAAAAGTAATACCAATCATGGGTTGGTATAGGATGCACAGTTTTAAATACAGCATCTTACT
TGATTCTCAAAATACTCTTGGGAGAAGAGCCCAACTGGTGTTTTTATGTGTAGTCACTGTGTGTCCACCTGTTTCAGTAAAGCATTAGGACAATTTACAT
AACTCTATACCGTACAGTATAAACAAGGCTGTGATGAAATTTGAAAGGAAGACAATAAGGATAGGAGAGCTATAAAGAAGGCAAAACAAGTGAACAYAAT
TCCAATCTGTGTAGTCCTGCACATTTGCTGGAGGTGGAACAAAATCCTTGCCCCCATGTTATGCATATGGAAATTGAGATTTGGAGAGATTACTGACATG
CCCAGTATCACAGAGCTAGTGAGTAACAGAGCCCAAAACACATCAGCCCCACCGAAATTCTGTTGTTTTCTCTAGTACTCTATGCTGCCTTCCAATAACA
TGAAATATGGAATTTGTATTGGAAAAGATGCCAACTCGCAGAGAAACTCGATAGAACTATAGTTGGAAGTGTCTTTTCAATATGAGCCTCTAGCTATAAA
TGGATGAAATTTCCACTCCCTCAAAGCTTAGAACTTTCTTRCTCTTAGCAGCTCACTAGTTGYTTAACATACCTAATATTAACCATCTGGTCAGGGAGCT
AAATACAATGAAGGGCATCCAGCTATTATCCMACCCATTTGCCTATCCCAAGTTATGTTTYATTAGGTTGAGTTGTCAATTTTAAATAATCAAGAAAGAT
AGCTCCAGGTAAGTCTCACTATCTCGTTAATAACCCTTTACCAATTGCAGCTGTTTCGAGACCAGACCTTTGCAATGAGTTTAGAAAGCTGCTGTGGACC
TATCATAATTTTTACTACACTTTGTGGCCACATGAACTGGCAGAAGAGGCTGTCCTAAAATCCTAATGTGGCAAAAACCAATTTTCAGAAGTCAATTTGG
AYGTTATAGGTAGCGCTYTTCACACCCAATAAATTGCTTATCTTTGGCTTTGAACTGATGGGCACGTACACAAAAGATTGGAGCCAACTGATTGCATTAT
TAGCTGAGGAAAAAGTGTGTGACTGTGGCGAATTTAGCAAGGGGTAGTCTGGAGAAGGATCTGTGACCTGGGAAAAGTTTGTTTTGACGTGGAAGGTCAG
GAGTTTTTGTTTGTCTCTTGTGTCCCTTTTTACGTTCATGTCTGTCCAGAAGTAYTCATCTTCTCTTTGWGGTTTAAATGCCCTGGGCAGCTGAATTACT
GTGTGACCTCCTATTGTCAGAGCATCTTTGTGGAGGAGAACCCATCACCTGTCTCTCGAAAACAGTTGTCCTTTGAACTTTCAAGATTATGGGGAAAAAA
TGTACTTATTTTCTCAATCATGGAGAGCATGTCCTTTAGAGATACCTTTGGCTGCAGATATGTGACACAGCTGATTTAAAATAGCTTAAGTACCCAGGTG
CAGTGGCTCATGCCTGTAATCCCAACACATCCGGAGGCTGAGGTGGGTGGATCACCTGAGGTTAGGAGTTTGAGACCGGCCTGGCCAACATGGTGAAACC
CCGCCTCTACTAAAAATATAAAAATTAGCCAGGTGTGGTGGCAGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCCCTTGAACCCAGG
AGGCAGAGGTTGCAGTGAGCCGAGATCGCACCATTGCACTCCAGCCTGGGCAATAAGCACAAAACTTCATCTCAAAAAATAAAATAGSTTGAGTAAGTAG
AGGTGTTTTTCTTGCCTAACGAGAAGTCTCAGTGTAGGTGATGCTGGGTTTGGTTCAACTRTTCAACAGTGSTATGAGAAATTCAGGCTATTCCTCTACT
TCATCTCASCATCCTTAATTGTCTGGCTTTAATCTTCATAGTTTTCCCCTTATATTGGTCTGTTTTCATGCTGTTGATAGAGACATAGCTGAGACTGGGA
AGAAAAAGAGGTTTAATTGGACTTACAGTTCCACATGGCTGGGGAGGCCCTAGAATCATGAMAGGGGGCAAAAGGCACTTCTTTCTTGGTGGCGGCAAGG
GAACATGAGAAAGAAGCAAAAGCAGAAACCCCTGATAAACCCATCAGATGTCTTGAGATTTATTCACTATCATGAGAATAGCACAGGAAAGACCAGCCCC
CAKGATTCAATTACCTCCCCTAGGTCCCTCCCACAACACGTGGGAATTCTGGGAGATACAGTTCAAGTTGAGATTTGGGTGGGGACACAGTCAAACCATA
TCACTCCTCATGGTGTGCAAGATGGCTGATACATGTCTAGCTATCATGTCAGCAAGACTGGGAGAATGTGGAAAGGGTGAGCCAGCCAGCCATRCTTGTC
CTCTTTGGAATAAGAAAGTCTTATCAAAAACCACTAGAAGTCTACTGTTTGTCTCTCATAGGCCAGGACTGTGTTATGACACAGCTATGCTTAGCTGCAA
AGGAGGCTGACACAGCAAGCATTTGGCTGTTTTATTTGTGCCTTAAACAAAATACAAGCTCTACAGCAAGAAGAAGGAGAGAAATAAATGTTAGGGAGAT
GAGCAACCATGTCACTATGGGTTGTATAGTCAAATACATATATTTGGGAAACGTTATTTTCTTGCTGACAGAACTTCTCAGAGGTCTCAATATGCTAAGA
CACATTGAAGCTCTTGATGGGGAATAGTCATTATATTTGGCATTTTGCCAGAGTAAACAAAGAACCCTTAATTTATTCTTTAGAATACCTATTAATKCAG
AAGTGTTCTGAATGGCGTCATGAAATACTATGTTAGTGCCAGCTCACATCCTTTGCTGAGAGAGTTAAACRTATTTGTCTCAAATCAGCACAGCCTTCTA
CAGCTAAGGCAGGTGTACTGGCTGCTCCAATTGAGAACAAACAAGGCACCAGGGCCTTTGCATGTACCCCATGATGAAAAGATGGTGGCCTAAGTGCAAA
ATGGTTAATGAAATACCAAACTCAGATACCAGGCCACTGGTGTCTTCCAGTTCACTACATGTTTAAGGCAAAAATAAGAGAGCGGTTTTCTCAGACAGAG
TCTTGAGACTACAAAACAGTCAAGACATTTCCCCAAGCAAACTCAGAAAAATATTAAGCCTAGACAATGTAGAGCGTTAGTAGTTAGGGAATGYAGTATT
TCAATTCCAGATCTACCATTTATAAGCTGTGTGTTTTTGGGTAAGGTACTCTGAGACTTAGTGTTCTAATCTGTAAAAGGGGATAATTCCTTCCACTGGA
GTTCTAATTAAGACTCATTGGGGTGACGATGGTTGTAAAGTGCTTATTGCAGTACAGTGGAGCTGTTTCTGTCCCAGATCCTTTATCAAGGATTGAGCCA
AGCGGAATCCTTGTCTTTGTTAGTCCAAATTGGATTCCCCATTCCTCAAGGTCTTGTATAGCTTAACTTATAACTTTCAAAGCAAGATATCCTGACATTG
CTGTTTTGACCTTGACATTTAAACCATGCTTTGAAATTAAGTTTTGTGTCTTTACCTTGCCAGTAGTATTTGCTCCAAGAAGTAAGTGCACACCACCAGT
CTCAAATTCAGTTCATAATATTGCTGCTAAGAATGATGCACACAAAATAAAACAAGCAATGGCAAAAACTGGGCACAGTAAAATTTGCTGGAGATAGGAA
ATTGGCTAAAAGATCAAATATTGCTGGCATCATGAAAAACCACAAAAAAATCCTATGAAGAATTAGACTTGGCAGAAAGAACGAGAGCAAAATAAAATTA
TAATGGCCAAAACTACATAGAAGAGGTTTTATTATTGACTAGAAATCAATGCAAATATAAAAAAAGACTTCCTGTCAAAAATACACAACTGCAAAACTGG
CTTTGGCGGACTAAGGCTACCAAAGAAAATCCACAAGTCAGCAGTTGCCATTGGTAAAATTTAACTTGGCAAAAAACAATCAATGAACCAAATAGTTGAC
ATAAAATGTACACACAGCACAATTAATCCTGATGAAAATAATTCCAGCAAAGTAAAATTGATTTTTTTAATTCAATTGTTTATGCCATGTAGGAAACTGA
TCAATGACTTAATTTGACTTGATAAAGTTTGCTTTGAGAAACATTGGATGAACAATGTTGGAAAAAGTCTGACTCATTTTATTGCTTTGAAATATATATA
AAAAGCTAGCAAGGTCCAAATGATAGGATTAAAATATCCTATACTCATTTTAAATATACAATGCTTAGCACCGGCTGGACACGGTGGCTCACGCCTGTAA
TCCCAGCACTTTGAGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGTTCGAGACCAGCCTACCCAACATGTCGAAACCCTGTGTCTACTAAAAATACAG
AGATTAGCCAGGTGCGGTGGCATGTGCCTATAGTCCCAGCTACTCAGGAGGCTGATGCAGCAGACTCACTTGAACGCGGGAGCCGGAGGTCACAGCGAGC
CAAAACCGTGTCATTGCACTCCAGCCCGGGCGACGAAGCAAGACTCCCTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGCCTAGCACCAAAGTATT
AGCAAGTTCCTSTTATTTATTAATGTTCTCATACTTTCATTGAATTTTTAAACCTAATGATGTTTATTTTCAAACACTTCAGTCCATTTATTATTGAATA
TAAAATGGGTGCTAATTACAAATGGGTCTTATGTATGCCCTTGGGTTGTCTAGCAAGATGGTTTCATAGGTAGTAATAAGAGCAGCAAGAGAAGAAAATA
GTGTGGCCTTTACCTTTACTGAACACTCAMTTTGGAATAGGCCTCATGCTTGGGACTGCCTCCRTCAGTGTGCAGCCTTCAGCGGCTACATTTGGAAATG
GTACAAGTATTAGGTTGGCGCAAAAAGTAGTTGCGGTTTTGCCACTGAAAGTAATGGCAAATAYTTAGAAATATTYAGAATATTTAGAAAGTACCTGCTG
TTCTGACTATCTTAATTCAGATGTGCACTCACCTTTTGGCTCACGACAACAAAAGCCTTCGAAATTCCTGCCTGTTTAGTTTGTGTTGACACATTGCAGA
TTCAACTCTGACATGTTATTTCCTTATGCTGAGGGTGTCTTGTTGAGTTTCATGGGTTTTGTGCTTCCCTGGTGCCTTATTAGGCTTATAACTCACAGAG
CTATGASTTTAAATGTCAGGGTTGTCACCAAAACAATGGAGCAAAAAGCAAGTTGTTGACATTCTTTGGACGCAATTTGCAATCCCCTTTATTTTCCTGT
AACGTTTTTGTGTTTCCAGGTGACAGTTGCCCACCGAACCACAGAACCACAAAGCCCAGAGTTTTAGTTACATACTGCTGCTCTAGGATCAGTAGCCCTT
AGGTCCAAAAGCCGTTTCTGATACAGCCTTGGGCAAGCTGGTTCCTTCTCTGAGCCTGGGCCCCTGTCCTATAAAGTAAAGGTGTTATTACCCTTCATAG
GATTGTTGTGAGAACAAAGTATTTACATTCTTCATATAATCAGAACTTTTCCAAAAACATGGGATCTTTTACATGGCTCAACATGTTTAAAGCTGTTTAT
GTTCATCTGATATTTTAACATTTTGTAGAGTAGAAAATGCTTCAAGCAAATAAATGAGCTTTATGGTAATTTTTTTTGCCAGCATTTAGAAGCTGGTGGT
TAATAAATACTAATATGTATTTAGAAGTTTAGAACAGAGATTTTTCAGCAACAACCACAGGCTAGATATAGCCCACTACCTGTTTTTGTCAATAAAGCTT
TAATGGAACATAAGCATGGCCATTCATKAATATATGATCAATAGATTTTTTTTGGTACAAGGGCAGAATTGAGTAGTTGCAATASAAACAGTGTGGATTA
CAATGCCTAAAATATTTACTACCTGGTTCTTTATAGACAAAATTTACAGACTCCTGRRGCAGGGTTTTATCAATTSCTTTCCATGTCTATGGATTTAGAT
ATAAGYGTATATTTTGTTAAATATTACAGCAGACTTTGAGGTGGCTATCATCTCCATTTTACAGATGTAGAGGATCAGGCTCACAGGTAGTGAATGGCAG
AACCAAGTATGAATTCCAGCCCACTAACGTCACATCTCTATTTGATCATTAGCGTATAGACTTTTGGTCCTTCATAAATTTTACTTTATAAAGATATTTT
AYGTTGTATAATTGATGTCATGGCCATATTGTTTAATCATCACTCACCATGCACCTATTGTGTGGCAGGCACTATTCTATCCATTAGGGCACAATAGTGA
ASGAAAAACTTGCTGCCATCAGAGAACTTGTGTTCTGGGCTTTCATGCACCTGCCTTGCAGGCGTCAGGAATCTGAATCACACTCATTCCCTCCATCACT
TGGCTCACCAGTGGGACCAGACAGGAGTCCTGCAGTTTCAGCAATGAACCCCAGGGCTTGGTGCCTGCTCTGGAGGTGGGGAATGGGGTTCACAGTTTAG
TGGAAGATTGCCTTTAGGGAGCACTCTTGGTTTCTAGAACCTGATATAGATGAGGGATGTAATGAATTCGAGTCTGAATGTTTATTTGCCATGGACTTCT
ATCTCACGACTTTGCTATAAGGGCTACACGTCGGAAATGGGATCTAAGTAAACGTAGAGTCCACAAGTTTCAGGACTTATATAGATGAGTGAATCTCAGA
TTTTCACGTGCMTACAGATTACCTGAGGATCTTGTAAAAAATGTAGTTTCTGATTTCAAGTCTCTGGGATAGGGCCTAGGACTCAGCATTTATAACGACA
TCCTAAGAGATGCTCTGAGGACCATACTTTGCATAGCAAGAAATGAGAACAGTCCAGGAGCCTCTAAGATCCCTCACATTTGAGGCTAGAAGCATGTAAC
ATGARTGGGTTCTCAAACCTAAAAGTCAGGGCTTGGGCATAAACTAAAACTGTGATCACCTCGCGTAGATTTGAGGCTTTGACTGGTCGTCAACCCCACC
CACAAAAGCCTACAGCTTCCTCCTACCCCAGGTCCCAGCTTCTCCACTTCTCTCCAACTACCTCCCACTTTTCCTCAATTTCAGGCTCTTTCGTGCCTCC
AGCCCAGTCTACAGCATGTTCCCTGGTTCAGACCATCCCAATCAGACCCCTATAGAGATGCCAAGCCATTCGTTTGTGGGCCGGGCACGGTGGCTCATGC
CTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCATGAGGTCAGGAGTTGGAGACCAGCCCGGCCAATATGGTGAGACCCTGTCTCTACTAAAA
ATACAAAAATGAGTTGGGCATGGTGGTGCGCCCCTGTAATCCCAGCCACTTGGGAGGCTGAGGCGGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCA
GTGAGCCGAGATCGCGTCATTGCACTCCAGACTGGGCGACAAAGCGAAACTGCATCTCAAAAAAAAAAAAAAAAAAATAAGTGCTTGTCTCTGCTCAAAG
AGAAGTCAGAAATGGCAGCAACATTCCTAGCCCAGGCTCTGCACTCTCGGTAATCCCTCTGACTGACTCTCAAGTCTTCCCCGTCTGTCTGCTCCGACTG
CACGAGTTGGTGATTAAACTTTAAAACAACAATTAGACCCTTGATTTTCAAAGCAAACTTGGTTTATAGACCAGACTTCAGCATTCATTACAATACAGAC
TAATAAAAACAAATCCGGAAACATACGCTTTTTAAGCTGTGGTGGTGTGAAATCTGTAACAGCATTAAAACCATTTTGAAAAAAAAAAAAGTCATTTGGG
AACCCCCAGCAAAATACTGTGTGGATATTCTTTTCTATTCCTCATTCAAGTATATTGCATATATATAAACATAATATATATGTTTGTTACTGTAATTTTT
CTACTTATTATATAACATTTTCTATGTTGCTACATGATCTTTGTAAATATTATTTTTAAAGACTGTACAATATTTCATGTAGTTGACAAGCCACAATATT
TGTAAACATAAAACATTTCTCCCCTGGGAAATATTTTAGTGATCTCCTTCTTCCTTTCTCTCTCTTCTTCTTTCTTCCTTCTTTCCTTCCTTTCTTTTCT
CCTTCTCCTCCTCTTTGCTTTTCCCCCTACTCCCTTTTTCTCCATCTTCTGCTATCAGAAAAAAAAAAATTCCATGAGCACTTGGTAACCATCTACTTTA
TGTTGAATTATTTCCTAGGGTAAATTCTCAGTCAGTAGTAGGAGGAATATTTTTCCCATTSAATGTAGTTTGAGAAGCCCAATGACCAAATCATGAGATG
TTGCCATTCTCTATGAAAATCACAAAGGATGACTCCCTAAATACATTTTATGTCTACAGAGAAACTGTATAATTCTGACATTAATTTCAGTTCCTTACAA
CTGCCTTCATTCCTTGGGGAGGGTACTGAAATGAGCTCCAGCTGGAGACTAAGTCAGCTCAAGCCACTAAGTCATGGGCTGGTCTTGCACAAATTATTTT
CTGTTTCTCTGTTTCTGTAAGCTTACAATTTATATATTGTATATTTTATAAACATACCTCATCAGATAAGGTTATAGTGAAAAATATATCTGCTAGGGTA
TTCACTTCATAAGGGAAGGCTTTTTTGTCTGTTTTGTTCACTACATACTATATCCCCAGCATCTATAGCAGTGCCTGGCACATGGTGGGTGTATAATAAC
TGTTTGTTTCATGATTCATTTTTTAAAAGATCTAGAAAAAGAAATCTTTACTCCAAAGGGTTTGAAGCAGTGATTCATAAGTATTTTAAGAATAAATGTA
TCTTTCACACCTGTGTGCCTATAAATATAATTTCACAAATAATTCTAGTAAGTTCAGAGAATCTAGAAATTTTTTTCTGTGCATACCAGGCAATGCTGGC
ATTAAAAATTTATTTTGAAAATCCTCTAAGTTCTAATTCACTTGACATTATCCTACCAAGTTAAAGAACCATGAAATAATAAGTAATTCATATCACTGCA
TTCATTTCTCATTATGGACTGTCAAAATTGACATTCTTGTTCCCGTTTTATAGAAGCAAATCTTAGACTCAGAAAATTTCAAAGAACTTATCCAAAGTGA
CACAATTCTTCAATAGAGAGCAGGGACTACAACCTAAATTTTCTAATTCAAGTCCAGTAGGGTCTGCCTTAAATGCCTCCCACTGTCACCGTGTTGATTT
GTATAACCTTTGTCTTCCTAGCATTTGATTGACGGCTACTGTTAGTACAGATCATCTGGGCTCCTTGTAGTGATGGACACATTTTCATGAGGCAAGGTCT
TAGATGATTAAAACAAGGCAGATGCTAATGCCATCCTCACCTTCATCTGGAACTGTCTAACTAGAGTTCGTTAACTTGTCAGCCCTAGTTCCTTTTGAGC
ACCAGGCTGATATAATAAAATATTGCAAATCAATAGAAGCTTTAAACAAGCTTCATCTGTCTTTCTTTGTTACTTTTTTCCTTTCTTCTTCTTTTATTAC
TACTTCTTTCTTTGCCGCTTTAAAGGGAAAACTGCTATCCCTCTTATTGGCTGTACAATTCTGTTTTCTCTGTTTATTTTGAGTTGTTGGAAATTCAGGT
ACATCCAGSTTTTCCCAAATACACCTATTATTACCCCAAAGAGTAGGAAGCCGATCTTATCTAGATTCACTCAGCAAATCTAGAATCTCCCAAGAGACTC
CAAATTTAGTACRTTAATTTTTCTTAAGTATAACATTGCTCAGTAACTATGTGGGTGAAGATCTGAAAGTTCTGCAGCACTGTTTCATTTATAAAAATAA
AGGTAACGGTACTTTTGCSCAAGMTTTGTGTGGAATCTAAAAACTTCCCCAAGTTAGTAAGGAAGGCACTGTGATAGTATCTACTAATGAAAATGTGAGC
ACAGAGATGGTTATAAAATACCTTATTTTTCTCTTCTTCATTATTATTGCTCATTTCATTTGATTAGCAATTTCTAGACTCACTCAACCTCCATCTATAA
AAGAAACCATTAGTCTTTGCCTATGTCTGCTAAAGCGAACTTCTTGTTCTGTCTCATCTTCATTCCCTACTCAGTTTCTGTCTTCTCCAGCCCTTCTTAC
ATTATTGAAATAATTGACTCTATCAGGTGGATTTCTCCAGTTGAACACATTTGGATTTGTCCTGTGGAAACACCATAAGTACTTTTTTTTTTTTTTTTTT
TTTTTTTTTTTTTTGAGGGGGAGTCTTCGTCTTTTGCCCCGGCTGGAGTGCCGTGAGTGGCACAGTCTAGGCTGACTGCAACCTCCACCTCCCGGGTTCA
AGCGATTCTCCTGCCTCAGCCTACTGAGTAGCTGGGATTATAGGCACCCACCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGATTTCAC
CGTGTTGGCCAGCCTGGTCTCGAASTCCTGACCTCAGGTGATCCACCTACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAACCACTGCTCCCAGC
CCACCATAAGTACTTTAATATGCTAATTTATTTCAAACDATATGGGAATCAGTTCAAAGCACATAGTCTCTTCCATGCACATCTTCATGCCGGAATTTGC
TAGGCGCTTGTACCTCCACTCCCTTCTTCTCAGTCCTTTGTCCAAGGAATTCTTCCCTCAAAGAGTTCTCAGTCGGAAAGCATGTATAAGACAAGAAAAT
AAATGGATACCAAAATCAACAAGTGAAGTAAATTCCCAGAAAGCACTTGCAATAGTATATGATAAGAAGTGGGAACTCCGTAAAAGAGGCAGAAAGGAAA
TACCTGAAAAGGTTAAGCAAGCGAGTAATAGCCTGGAGAGAAGAGTTACAGAAATGTTTCATAGAAAAGGTGATCTTTGAGGTGAGCTTTTATGAATAGG
CAAAATTTGGGTAAAGAGGTAGACCCATTTTTAAGAGCAGGGTGACATGAAAATCTCAGGATATATTASTCAGCAATTAATCCTCATTGTTGTAACAAAT
AGTTACAAAATTCTCGTTGCATGGCTCTGGCTTACCTGCAAAGCAAAGTAGAAAATGGAGAAGCTCCCAGGCAAGGCCAACAACGCCTGGTCTGTGCTGC
ACGTGAAGATATCTGAGCACGTGTGACCCCTGCTTTGCCCTCTTTGTCATTGCAATGGGGTTACTGGGAAAGCCTCTCCCATGGTGGTTGACAAGAGGGA
AACTTTGGGAAATGTTCTCAGGAGTAACCCACATTATTTTCAGGCCTGAAAGATGCAAGGTTGGATAGAGAGAGAAGTTGGGCTGTGGTACGCTTACAAC
AGAGATCTCAACTGACCCTGCAGAAAGCTTTAAGATGAGGAGAACCCTTCTGTGTTGTCCTTACTCAGGACAAGGAGCTGAGGTCTTATGTCTCCACATT
GACTAGTCATTGAATGTAGGCTCATTTCAGGAAGGGAGTATAATGTTGGGAGAGGTGCTGTCTTCAGCAGAAGGCAAGGCCTCTTAGTTTATAGCTCTCA
GCCTCCAACTTCCCAGTGGCTGAAAGAATGAATGCTTCAGTTCCAAATAAAGGGATCTGAGCAGCAAATCCCATCGTCCTGTATTTTCATTGAAGTAGCA
TTTCATAACCAGTAACAACTGTCTTCCCCTGAAAGTGTGGTTTAAATTTAAAGTTGGTGACTTCCTTCTGACTTGTCAAGGCGTGGGCATACGCAATTTT
TTCCTCTATGGTTATAGCTTCCAAACTGTTAGCTATATAGATACCTACTTTTTAAGATAAGTGAGACCTCAATCACAATTAACTCTGTAAGTTATTGAAA
ACCGGTTTGATGATGATCATCATCATCCTGTGTACACCTTGTGTGAGCTTGAGGTCCTATTGTAGGATTAATCATCAGAGCAGTATCTGCAGTCTGCAGT
GCATTTCTTCTTCTTTATTTGTTTAGAAAAATCCCACTCTTCCTCCCAAAATTAACTTTATTGTCAACTTGATAAGAAGATTTCTGAACAGAAATAAAAT
AACCCTGATTTGTGGTGTTTGCCAATTACTGTGGTATAAATACTCACACTGTGGCTGATGCCAAGCTACAAACATGACATCATGGAATTGGAAGAAATAG
TAAAAATCATTTATACCTTCTCCAAAACACTCACTGTTCCCAAAACTTTCACCTCAATAATTCTGTCCACTGGTATATCAACATGGTACTGGTGTAGTAA
TGATCCATTCCAGGTACGGACAAAAAAAGATAAATAAAACAACAAAAAACTTACTAAATGCCATATGGTTTTATCATCTTGTGCTGGCAATTTGTAAACA
TCATCAGTGATAAAGTACTTCTCCCAAATGGGGTGAATCATACCTATCCTCACCCTGCTTTTGGACACTGGTATATCCTCTCAAAGGCATTAATAACTAT
GTTATAATGCAAATATCACGTTATCTTTCTATGATTTTTCTAACCCAATAGACTGTGAATTCTTCAAGCTTATGTATTTGGGTACACAACACCTCGCCAA
AATCCTTGGCATATAGTAGATGCTCAACACAGGTGCACTAACTTGTTAGTTGAAGTGACCGGTACAACCTAGTTAACTGAATCAGAACCATGAATTCAGA
GGATAGTAGTAAAAAATCAAGTTCATGAAGTTTTTAATGAGCAGTATGTTTTGCCTAAGACTCTATGATTCTCACTGTGGAATGAACCACATAGACTCCA
GAATGTGTCTTTTCTTAAAGGCAATAGAGGCATGCAGTGAATAAAATGCACTGAGAGAAGCCCATAAAACAATATTCGTAAGTACAGAGAAAGGCAATAT
TAATGCCAATTTCAGGGGATCTGTTCAAGTTCACCGGAAGGCAGAGTTTTTAGCAATTTTTTAAAGGTTGAACATRTCTTTAGGAGGTAGCAACAAGACA
AAGGTCCAGGAAGAGGGTGTGATGCAGTGGGGAAGCATGCAGTCACCTTGTGCCGAACTTAACAGGTCAAGAACTCCGTATGTGAATAATGGTGGAAATA
TGTGGAGTTACAGGTACAACTCTGTAAGGGCATTAGCCTGTACCAGCTATCATTGCGTACCAGGCTATGTGTGGACTTTGTCCTTGTGAATCTGGTAAAA
GTTAATCATCAGGTCTCAGGAGTTCAGCAACCGACCATCATGAGCTATATAGTATTAGTCTGCAGCTCTACCTGAGAGCAGCCCAGAAACCAAATASGAA
TATATCAGACATTATCCCAGAGAGAAGGCTCAGTCAAGGATCTGCAGCTGGGACCTGCATATCTTAATTCCCCTGTTCCTGGGRAAGTTATCCAATAGCT
ACTGAAATACAAGATGGAAGGTATCCTCTCTGTACCATAGCTAAAGGATTGCTCACAAAAATGAAAGTGCAATTACAGAAAAATTATCCTTGGGCTATGA
CCACATCTCCTGAGTATTTTATTGCCACCACGACTCATGATTTCAATTCTCAGGACTGAGTATCTCTGCTGAACSCAAATTTAAATTCTTAATATGARAA
GCTGCRCTTTCCAGTCGTGTGTCAATGCAAAGTGAGYGGATTTGGGTTTAACTCCCTTGGACTGAGTGCAATTATATGTTGGGAGGGGACTAACAAGGTA
GCCYATGTAACAATACTGTCGTAATTATGTGCAATATTTTCATTTTTACTTCTGATCAACCGCAAGAGTAGATTGAATGCTATTGTTCAGTTTGCACTTA
AAAATGATGATTTTTTTATACCTGGAGTTTAACATCTGAGTTTTTGTTTAAAGGAAAAATTGTCCTTGCCTTTGAAAGTTAGGGTCATGTTAAAATATTT
ACTAATTCTCATAAAATATTTTTTTTCTGAGCACGGTTGAAAATAAAAATATCTTGGTCCTGTCCTTTGAATAATGTCAAGATTGAGTGTACCTCTGGAG
AAATGTTGATAGAGACTCAAAGCAATACCACTCTCCCTTGTCACTTTTCTCTGTGTACTGTGGACAAGTTGCTCAACCTCATTCAAACTCAGTTTTTCTC
AACAAAATTTGATATCACCATAAAGGAGGAGACTCGGTTGCCTTTGTTTTTATTATTAAAAGGAAGCATTGAGTCTAACTGATATGAAACATTTCTGYAT
ATGCCTAAGAACTTATGAAGCTCATAGGATAAGAATTCTTGGCAATCCAAATAATCTCACATTGTCTCTAATCTGTTATAATGCTGCTCTTGCCTCATAA
CTTTTGTTCTTTGTATTCCTTAAAAAGACCTAAGAGAGCTCAAGATTATGGGGTGCTGCCAAATATAWCACTAGTCTTCTATTTTTATTTTTAAATAAAA
CTTTGTAATTGGTAAAGTCACAGAATCAGTGTGCATATGATCAAAGTCTATAAAATAATGAACCATGCATAATTGCARCAGAGTTACCAAGGAAGGCTGT
AAGGATGATCTCACTGGTGCAGCCAATACCCCAGTAATCAATATGGATGCCTGGGTGACAACTCCTTCCTTCCTAACTTTCACAGCTTGCCTGACTGGGA
TAGCCAAGGAAGGCATCTGTGAAGAGGCAGCATCTTTAGAGTTTATGTGGGAAGTGCACTCTAGGTAAGACAGATGCTATATACAAAAGCAGGAAAATGT
AAAATTTGTTCGTAAAGAGCAACTAGTTGCATTTGATCTAAAGTAGATGATTCCAGTACAAAAAGGAAATTACAGAAGTTTTCTCAGCTCCAATTTTAGA
GAGCCTTTAATATCATGCTAAGAGGGTAGAGTAGACCACATTCCACAAAGAAGAAACAGTATTTTATTTGTTCATTCCTTCTTACAAAAAATATCCACCT
AGTACCTACTCTGTACTAGCTTAAAGGTAACTTTTGAAAAAAAAAATTTTATAATGCCTAGTCAAGAAGCATATCTGGATGGAATGAAGGAGAATGAGAC
TTCAGGGCAGGAAAGAAGGCAAGTTAGGATACTATTGGGATGGTCCAGATAAGAGAGAGCACCGTCTGAAGGGTCTGGCTTATAACAAAGAGGAAATAAT
CTTTGAGACCAAACAGAAAAGTGTAGCCTCAAGAAATATTCTTTGTCATCCTAGTGGTTGCTTTAGAATTTGTAGTATACATCTTTAACTTATCACAGTT
CRYGTTAAATAATATTATAGCATTTCATAYATGGTATAAGAACCTTACAGTAAAACACTTTCATTTTCTCCTTTCCCAGCCTTTGCACTACTGCTCCTCT
GGTTTTTAGTTGCTCATAGGTTGTAAACTCTACATTACATTGCTATTATTTTTTACTTTAAACAATCAATTTTCCTTCTAAACATAGAAAAAGGCATATT
TTTCCACATATACACCACTTTCTGTGCTCTTCATTCCTTTGTGTAGATTCATATATSCATCCAACATTATTTTTGGTTTGGATGAAGGACTATTGAACAT
TTCTTACAATGAGGTTCTGCTGGTGATGAATTCCTTCGCCTTTTGTATGTGCATCTGAAAAAGTCTTACTTTTGCTTTCAATAATGGGAGATATCTTCAC
TGGATACAGAATTCTGAGTTGACAAATTTTATTTTTCTTTGAGCATTTCAACGGTTCACTCCATTATCTTCTGACTTGCATTGTTGCTAACAAGACATCT
GCTGTCATTCTTCTCTTTTTCCTCTGTGTGCCATGTGTCTTCTTCCCTCTAGCTGCTCTCAAGAATTTATTTTTATTAGTGGTTTTGAGCAATTTGATTA
TGATAAGAAACATTTTTGAGTGGAGAATCAAGGGAAGGTTGAAACAGATAAGACGTCAATGCTGGGAAAAAAGGTTAATTGTGAGACTGGTTGTTCCTTA
TTTGAGCCTGATAATAACAATCTCTTCAGGTACAGGACAAATGTCATGACAGAATGCACTTTAAAAGAAAAATAATAGCTAACACTTGAAGATTGCTATA
TATACCTATGTGTGTGGTGTAAGTCAAGGTAAGAAGACTGGATTTGCTTCCAAGGCAATAGCGAGCCTTTGCAGGCTTCACGCAAAGATGTGATGCTTCG
GGTTTGAGTTCAAGGACCTGAGGGTTATTCCTTTGGAGAGTTTGAAGCTTATATTCTAGACTCAAGATGACATAACCTGGTTCCTTCTAACCTTTATAAC
CCTAAGATTTGCCTGGGATCCTAGTCCTGGATTCACCAAGTCTGCCATAGAAAATACTGCCATTTATTGAGTATTTATTACATGCCAGGCACAGTGCTAA
ACATATTGTACGATTATCTCACTTAATCCATTCAACGACTTGCTGGCAGAACCACCATGGCTGTTTTCCTGAAGTTAAAAGATGTAAAAGACTCATCCCA
AGTCATTCAGCTCTTTGGCNNNNNNNNNNNNNNNNNNNNATACATAAAGATAGTGTTCATACATATAAGATCTAACTTCTAAGATATATAAGATCCTATT
CTAACATATATAATATGTTGCATATATTAGAATATATATTTGAACAGTATCTCATACAAAGTATGTTTACACAAAGTAGGTGCTCTTTAAATGTTAACTA
TTACATAAATGTACACACACACATTTTACACTAAAAACAATTCTATGATGTAGGTAGTATGATAATCTTCATTTTACACATTTTTTTTAAGATGGAGTTT
CACTCTTGTCACCCAGGCTGGAGTGCAACGGTGCAATCTCAGCTCATTGCAGCCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAGT
AGCTGGGATTACAGGCACCTGGCACCATGCCTGGCTAATTTTTGCATTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAAGTCCTA
ACCTCATGTGATCTACCTAACTCAGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGTGCCRGGCCTCTACATATTACTTCTAATCCTTAACATA
ACAGCCCATGATTCCACTCTTTCAATCTCGTTTCTTTTAACTTTGAACCATTCTTTGCCAATTACTTTACCTACCTGTGTCTCAGTTTCTTCATTTGCAT
CATGAAGCTAATAATAAAACCAAAAGGCTGTTTTGAGTATTAAATGAGATAATTCATTTGAAAAGTGCTCAGCATAGCGCCAGACGCGGGAGAGTGCTCA
GTAAGAGTGAGGAGGTGGTACTGTTATCGCTGCTGTTTTATGCTTTCTTCTGCCTGCGAGTTCCCACTTGGTTCATTCAAAGCACCCACACTGTCCTACA
AAGCCAAGTTAGCATGCAGCCTACTGCCCTGATCATGCAGTCACAATCTCTGTTTCTGCTAACAGTCAGTAAACACAATTTAGCATCTCGATGGGTTTCA
TTGCTCCACATAGGCTCATTTAGACTTTTCAACTAGATTAACTCATCACTCATTCAATTCGTGTGCTGTCTGAGGACACACCAGGTGCCAAGGACTGTTC
TGGTTTACTAGGGTTAGAAAGGTAAATAAGAAAGATAAAAATTAAATCCCTGCCTCATGGATCTTATGTATGGGGGTGGGGGAGACAAACAAAAATAATA
TAAATAAGTAAAATATGTGGTATGATAGATGAAAACAAGGGACATAGATACAAATAAAGCACAGAAGGGAAATAGGAAGTGTTGGGGATACCATATATTT
TGGATACCGAGGTCAAATTTCACTGTGTGGGCAGGATTATCTCACCCATTTCAGAAGAGAGGAAACTGATGCTCAGAGAAGGGTGGTGAATTTTTTCATT
TCATGCAGCATTGGTTTAGAGACAAGATAGAAATCAAGATTCTCCAACTTACAGTCCAAGACATATTTCTGTAGCGGGCAGAAGCTGAACTCTATTTGTG
CTCCTAGGTGGAAAACAATGGTCCTGTAGTCCTCATCACCATTTCCCATGTCTGAAACTGTCTTTGTCTACCTCTTTTCAGTTCTTCTCAACTTCATAAC
CYATTCTTGCTGTATCTAAAAAGCATTAATGATCCACTGGCATAAGAATTTTGGGTTAGCTCAAGCCAGGTAGGATAGACTTGACCATATGTTCGTGCAA
GTTACAAACAGCCATCCCCTTAGGGTATACACTTGCAGCACCCATGGGTGTGTGGTTGCAGAACACAGGGTAAATTTCAGCCCTCAGCCACTTCCTGCAR
GGACTTTTGTACAGCGTACAACCTTTACCACCATAAATGGAGGCTTTTTGTATTTCACACATCATTTAACTAGTGAAAGTTGCATAATAGATACTCAGTG
AATCATGGATGATTGAATTCTTTCTCATTTTTCATTTCCTATATGATTCAGATCCTTTATATTTCAGCTCATGGTAAAGGACAAAAATTATTTGTCAAAT
ATTGATTGAGCACCTACTATATGCCAGACACCGGTCTAGGCACAGGGGTACAGCTGTGGAAAACTGACAAAAATCCCTGCATTTATGGGGCTTACATTTA
TAATATATATTTATATATCATTTGTCTCTTCTTAATAGAAAAGTATATAGAGGTATGTATATATACATACATGCACATATACTATATACTATAAGTATAT
ATACTTATGTATACATATACATATACAGATATATACTTTATGTGTATTATATATAGTGTATTGTATACATGTTTATATACTATATATGTGTAGTATATAT
AGAACACCATATATATGCTTATATACTCTATGTCTATTATATATAGTAATGTATATATTTAGTATGTTAGATTGTGATATTGCCAAAAAAAAAAAGAGTA
AAATAAAGCACAGGAGGGGAAATGAAGTTTGAAGGATGTTTTAGAAATACTGGGTAGAGGCTGGGCGTGGTGGCTAATGCCTCTAAGCCCAGCACTTTGG
GAGACCGAGGTGGGTGGAATCACATGAGGTCAGGAGTTCGAGACCAGCCTGGCTAACATGGCCAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGG
GTGTCGTTTTGCATGCMTGTCATCCCAGCTACTGAGGAGGCTGAGGAAGGATAATCAATTGAACCTGGGAGGCAGAGGTTGCAGTAAGCCGAGATCGTGC
CCCTGCACTCCAGCCTGGGAGAGAGAGTGAGATTTCATCTCAATAAGGAAATASTGGGTAGAGTGGCCAGGACAGGGCTCATGGAGTAGGTGACTTGTGA
GGAAAGGTCTGAGGAAAGTGAAAGAACTGCTGTGGAAGACAGAACMAAGGCCCCAGGATTGTTCACATTCTACTCCTTGGAACCTGTGAATGTGTTACCT
TATATGGCCAAATAGACTTTGCAAATGTGATTCAAGTTAAGGATTTTGGATTATGTTGGTGGGTCCAATGTTATCACCAGGGTCCTTATGAGAGGGAGGT
AATGTGTCAGAGCCAGAAAGGGATTTGAAGATGCTACGCTCCTGGCTTTGAAGATGAAGGAAGGGTCCATGAGCCAAGGAATGCAGGCAGCCTTTAACAG
TTGGAGAAGGCAAGGATACCTTCTCGTGTACATCTTCCAGAAGGAACACAGTTCTGATGACACCTTGATTTTAGCACAGGAAGGTCTGTTTGGGACATTC
GACCCCAGAAATGTAAGATAATAAATGTGTGTTGTTTTAAGTCGCTGAGTTTGTTATGACTTGTTATAGCAGCCATTGGAAACTAATACAGCAATTCTGT
GGCTATCTGGCGGAAGAGATACCCAGGCAGGGAGACCAGCAAATCTGCAGGCTCTGAAGTGGGGGTGGGTCTGGTGTGCTCCAGGATGCCAGTGTGCCTG
GACTGAGCTGGAGTGAGTCAGGGGAGCTTGCAGTAACAGGGGCAGAGTGCAGATGACATGAGATTACATGACACACTGTAACCCGGAACAAGGACACTGG
CTTCACTCCAGGTGCTAGGAGATCGCACTGGAAGCTACGAAGCAGAGGAGGGACATCACCCAGTTCACGTTTCAACAGGACCGCTCTGGCCACCCTGGGG
GAGGGTGGTGAGGAAGAGGATGTAGAGGTATAGTCAGGAGATGTGGAGCAGTTAGGAGGATTGTGTTTTGATCCAGGAAAAGATGATTTTGGCTTGGACC
AAGGTGGTGGGAATTGGATAAGGGTAAGAGGGTAAGAAACAGTTATATTGTGAATGTATTTTGAAGATGGAGGTCATTAACCAGAAAAGGGTAAATGTGA
TACATGTAGGCTGAACTGGAGGAGACAGTGAATAAAATTCCTTTGCTAATTAAACTTTCTTTTTTTTTCTTTTTCTTTTTTTTTTTTCTTTTTCTTTTTT
TTTTTTTTTTTTTTTGAGGTGGAGTCCTGCTCTGTCACCCAGGTTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAGCCTCTGCCTCCCTGGTTCAAAC
AATTTTCCTGCCTCAGCTTCCGAAGTAGCTGGGATTACAGGAGTGTGCCACCACGCCCAGCTAATTTTTGTATCTTTAGTAGAGATGGGGTTCCACCATG
TTGGCTAGGCTGGTCTCAAACTCCTGATCTCAAGTGATCCACCCACCTCAACCTCCCAAAGTACTGAGATTACAGGCGTTAACTGAACTTTTTTTTTTTT
TTTTTTTTTGAGACAGTCTGGCTCTGTTGCCCGGGATGAAGTGCTGTGGCGTGAACTCAGCTCACTGCAACCAGTGCCTCCAGGTTCAAGCAATTCTCCT
GCCTCAGCCTACTGAGTAGCTGGGACTACAGGCACGTGCCACCACGCCCGGCTGATTTTTATATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGG
CTGGTGTCGAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTACTGAGATTACAGGCATGAGCCACCGTGCCCGGCTAATTAAACTTTT
AATGTGGAAAGACAGCACATGCAGGAGATAAGAGGTAGAGTGGGTGATGGTCCAGGCTCTGAGYGGAATGGCCTGTGTTCAAATGCTGGCTTCTCTAACT
TACCAGAATTACGTATGTCCTTGAGCAGAGTGTTTAACCTTCCTGTGCCTCACTCTCCTCATCTGTAGTATGGGATACATCACAGAAATTGTGTATCAAA
GGGGGAAAATGTTTGCAAGACTTAGTGCCTAATTCACAGTAAGTGCTCAAAAAATGCACACAGTMAGTGCTCTGTCATTTTCTAGAACACATTGATGTTT
AAAAAAATTTTCCTACTTGTAAAACAGTCAAAGAGTTCAGTGTGAAGTATTTGCAAAAAATTTGAAATAAAAAATTACTCCTTTCCTGTGGGGCAAGTTC
ACAGAATAGCTGGTATGCTGACAATTTTCTCTTGGTCCCATAATAGTTTTTCAGAGTTTCATTATAAAATAGTTGCTGTATTTGCCAATGCAGACTTTGA
AGAAGGAGACTGATCCTTCTGGCTTTTAAAGAAGAATGAGTATTACACGACCATTGAATATTTATAACACTCTCTTCTCTTTTTAAAGCTGTTGTTGTTT
TACCATCCTAACATCAAAACCACTGGGCCCAGGGAAACCTCAGATGTGGGAGAATATCAAATGTGGAACTTTTCCTTGTTTTTCCTGGTGGATCTGACAC
ACCTTGGAACCTTCAAAGAACACAGTAATCAATGACGTGGGGAGACGTGAGACATCGCATACATTATTGTGAAGAATTTATTAATGTAAACTGCATGGTG
TGGAATAGAGGTTGGGGCTGAATGAAAATGTGAGGCTCTGTAATGCGACAAAAAACACAGAGCAGAGAGAAGAGAGAGGCCAATGAAAGACACTTTGCTG
ATTTGGGACTTCACTAAAGAGAGCCACATAAAAGAGAAATTATTGTTTAAGTAGGTTAAGGCAACCCTAGTGTTTTAATTAAAATGTCTTTAGCAAAAAA
GGAAGAAGAATAGTACTTGAGGTTTGGGGAAGGCTTCAGTGAAAGAAGAAATGTACCAGGCGGTGGCGGGGGTGGGCGGGGGAAATAGTGTAATTTAGGT
TAAATATTGTGAATAACTCCCCAAGCCGAATAATGTTGAATTTCAGTCGTAGGAGATATTTAAGAATTGGTTGAACAAAGGGGGCAATTGACTTTGGTGG
TTAGTGTGGGAGACAGCTTTCTAATTTTAGAGTTTGCAGCCATAACATTATGAAGCTAACGAACAAAAACAAGCCATGTAGATAAAACCAGGAGAAATAA
GGATCTGAAAAATGGACCAAATCGATCGAGTTCTGGCAATGAGTGCTTCCTTTTCGTAAATACAAGGGCAGTGCTCTGCATCTTCTCCCTCTCTCATTTT
CTCTGAGAAAGGAACGTGCCATTCTTTTTTCTCTCTCTCTTTTGGCATTCCTTTTTTTAACTTTTAAGTTCCGGGGTACACGCACAGGATGTGCAGGTTT
GTTACATAGGTAAACGTGTGCCATGGCGGTTTGCTGCACCCGTCAACCCATCACCTAGATATGAAGCCCAGCATGCATTAGCTATTTTAAGAGGAGGATC
GATTTCACCCTTTTTGGAAAACTCAATTTGGGGCCTGCTTTCCCCAGGATCACCGTAAGATTCTACCTGAAGAGCTGAGTTTTCCTAAGAATGAAAAAGC
AAAGAGACCCCTGGTTTTGTATTTGATACAAAGTCAAACGCTGTTTTTCTCTGAGTCTGTCCTGGAATAATCCAGTGACATCCACCATCATCTGCATCTC
CCATGGAACCACCACATGTGAAGTCGAGGCTGAGCGCAGGGTGGCTGCACCATCCACATCAACAGCCAGCACTGCCTTCTGCCAGTTTATGAGGCAATTC
GGCTGCCAGGGAGAGGAGAACAGTGTCCCTTCCAATCCGATGAGTAAATGCCTCAGGTGTTAGGTAAAACCCCAAGGTTTTTCTCTTCTCTGGGGCCACC
CTCAGGAAAGGAAAACTCCAAAAACTTCTTTGGGAAAAAGAAAAAAGAGGTTGCCATGTGATATTAGATGGCATGAATTAAATAGATACTACTTATTAAA
GTTAAAAAAAAAATAAAGCCTGCATTTGCATGGTAATGGGACCTGGCAGATGAAACCAGAAGTTGATAGAAACCACCCCCAAATCATCATTTAACCTGTA
CTGAAGAATGACGCACATAATGTACAACAGGCAGCCATTGTCATGTGTGTGTATGTCTGTGTGTATCTGTGTTATCAGGCAGGTAGTGAAGACCAGGAGG
GAGAAAGTAGTGAGTCAGCGAAGATGGTATCCCAGTTAGAGAAACGACACAATGAAGGCATGAAGTCATGAGACAGTGTGGCATGTTTGGGCAACACAGA
TGTGGTTGGGACCACAAAAGTTGTGATCAAGGAAATGTGTTGGAACAATGTCCGCCTTCACAAGATTAAATTTGTTTCCAGTGATGATTTTATTCCACTG
GTGGGTTATTTGTCAATATGTTACAGGACTTTTAAAATGTTCATAACCTTTGATCCAGTAACACCTCTTTTGCTAATCTATTCTAAGGAATTCTCATTAC
AGAAAAACAAGCAAAAGCAAATGAAACTCTACCTACAACGTCACTTTATTTGCCTTTCATTTATAGTAAGAAACAATTGGAAGCACTTAACATACAAGCA
GGCCAGGCACCATGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAAGTGGATCATGAGGTCAGGAGTTCGAGACGAGCCTGGCCAACGTTG
TGAAACCCTGTCTCTACTAAAGATACAAAAAAAATTAGCTGGGCATGGTGGCATGTGCCTGTAATCCCAGCTACCTGGGAGGCTGAGGCAGGAGAATAAC
TAGAATCCAGGAAGCAGAGGTTGCGGTGGGCCGAGATCACGCCATTGCACTCCAGCCTGGGCGACAAGGCGAGACTCCACCTCAAACAAAACAAAACAAA
ACAATACAAAACAAAAAAACAAGCATATCAAGGGAATGATTTAATACATGTTGATACATCCACAAGATGTATTGTGCCGCAACTAAAATTATGTTTACAG
AATCTTTGACGTGGGAGGAAAGAAAACTTGGGAAGTATCATTAGGTTCAAAAACCAAAATACAAAACTGCTCACACCCTTCCACTTCAACTTAAACAAAA
AGTATATTACAACCTGGAAGGAAGTCCACTAAAATGCTATTCTGTTTGTCTGATACAGGATGGTAAATAAATTTACTTTTCTTCTGTGTTTTAATATATT
TTTTGGAGTTTCTCTGATGAACCTATTCTATGTGGATGATTTTTTTTTTAAAAAAGTATAATCTGGTGTGGCAGTATGAGCCCAACATATAGTGCATCCC
TCCTACCGAATGCTAAGCTAAAACTCTGGGCAGACACACACTCAAGTGCATGCACACCCCACACACAGACAGACAGACACACACACACATTTGAAAAATG
TGAAGAGCAAACCAAAGCAGTTGGGTAGGTGGATTGAAGAGAGTCAAAACTTGGAGAGGTGATTTCACTGAGAAGAGTTTCCTACATTAGGTTATTTTTT
TCTTCTTAGGCTTTGCCTTGGGACTGGGTTCTAGTCATACTGCAGGGGGTTGGCCAGGCAGGTAGCTAAGAGTCCCGTTGAATTTCCAACCTTCTGGCCA
GAGAAACCAGGAAAAGGGACCCCTATGGGGAAATTTTGAAAAAGAGTTCGTTGGGGTTGGTGGTGGTTGTGGTGGTGGTGGTGGTGGTGATTCTCTCCTC
AGCTAGTATAAATAGTTTGGTACATAATAGGTGCTCAATAAATACTTGTTGACTAAATGAATTAAATTTTTGAGAAAAAAATCCACCTTGGAGATTGACA
CACTATCTTCCAGGTAGACCAATGCAGCCTTCTTTCCAGTACAGGACAAGTTCTGTTTCTCCACTGGACACCAGAGGAAGTAGTTTGCATTTAGGAGGGT
TTCATCTGAAAAATAGGGAAACTCCTATGTTTACACACTAGAGTCCTCTTCAGTGCAATGAGCATTCACAGTATGAGAGGCTGAGGAACTGAAAACAGGT
GAAGAGACAGCTGAATTCTCTTTCTCTCTGTGTATTGATTCTGGAGCATTTGCGTAGTGAGTGGAATTTTAGGTGGGTTTTTTTTTTTTTTTTACAATCA
CATAATTCATTCCTCTGACTCTTTGTCCCTCCTCTTTTCTTTTCTTTTTTCTTTTCTTTTCCTTTTGCTTTTCTTTTCTTGAGACGGCATCTCGCTCTGT
TGCCCAGGCTGGAGTGCATTGGTGTGATCTCGGCTCACTGCAACATCCGCCTGCTGGATTCAAGCAATTCCCTGCCTCAGCCTCCCGATTAGCAGGAATT
ACAGGTGCCTGCCACCACAGCCACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTGGACAGGCTGGTCTTGACTCCCTGACCTCG
TGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGACATGAGCCACCGCGCCCAGCCCCTCTTTTTCTTTTTATCTCTTTCTCTTCCTTCATTC
CCCGGGTATGTAGTTAAGGCCATGGTTGTGAAGTATCCGCATGATGCATCTCCACTATACACCGTGCTTGTGGCAATGGAGGAGGCAAAGGACCMCAGAG
GAAGGACCCTTAGGTGGAAAAGCCAACTCTGTCCATGCCCCACCTGTAAATGTTTGTGTTGCAGAACTTTCCCCTTAGTTCAGCTAAAACTGAGTTCTTG
TCAAACAACCAGGAAAGACTGGGCTCACAGCCACATAAAAGGGTGAGAAACAGAAGYTATTGGACAAAAAGGAATAATAACTCTCAGCAAAGCGAGAAAG
GGTCCTGCTTGCAGGTCTCCCGCCTCATAGATTGAATCCCAGGTTACCACAGAAACAAGAGAGGCCAGGCTCCTCCCCACTGCAAAGGGCACAAACTTCC
TTAGGCTCCACCCCATCCTCCCAGTGCACAGGTGGGCATTATATAGAAAGAGTTGGTCGGGAAAGGGTGGGCTTCATCCAGGACCAGCAGTCCAGTTTTT
CAGCCTTCAGGCTATTTTAGGCTCGAAGGCAGGGTTTTGCTGGGGACCCTTGGCTGTCTCTTGTCTGTATCACTTAGGCTTTGCAGTTAGAACACATCAG
GCCAGTCTCTGCATTTATTTGCCTTATCACAAGCCTAGAGAATGTGTACCCATCCCTAGGAGAGTCCTCAGTAAATGACTGATGGGAGCTGGGATATAAA
TCCCCCAGCTCCCTTGCCCTTCCGAGTCACAGGTTCTGCCCTGCCTCCTGGAATTCTCCAGTGGGAATGTACTTGTTAATGCTTCCCTCATCAGCTCCCT
TCCCCTCCCTGCCTCACTTCCTCATTCTCCTGCCCACATTTCCTGGGATGACCCACCAATAAAGTACTTGCTGTTAAATCCTCAATCTTAGGGTCTGCTC
CTGGGGAGCACAGACTAAGAGTATTGAGGTCCTGGTTGTCCTGATTCTACTATCCAGTGGGCTCATGTACAAAAAGGAAACCAGAAGTCACGAGGATCCC
TCAGGTGGCCTACAGTAAAGCAGGGAAAAGATGAGGATCATAGCAGGGAATGTGGTCATAAAGAGGGAAGGGATGGATTCCTGGGAAATTTTCCCAGGTG
GAATCTGTAGGACTTGGCAACCGCTCGTGAGTGCAGTATGGTGGGAACCAAAGAAGCCTTTCATACGATGTGAGTGTCTAACCCCTCAACTGCTGAGAAA
AGGGATGCAGGAAACCCCATGGCTTTGGAAGGAGTAAGTGGGAAGGGCCGGATTTTCAGTTAAGTTTAGGATATGTTGAGTTTTAGGTGCCTGTGGATAG
TCATGTATCATTTATGGTGACAGTGCCACAGGGAAGGTATGTGTCAAACCCCTAATAAATACCCACTGAATTGAAAATAATTCTTTTTCCAAGTGCGGGT
TTTCTAACAGGGGCCAGCCAGACATTTATGAGCTCAGGCAGATGAGGAAAGCATGATACCTGGATCACRTGTGCTCACATCTGGAATACATGCGCAAATT
AACACAGCTGTGGAGGCAGGAGTACATATGTGTATTAGAAAAACAAGCCCCACCTGTAGAGCGCTGCAAGATGCCTCCAGCTGGTCACAAGTAGCTATTG
AACATGAATATTTTATCAGTGCCAGAGCAGATAGAGGGAAACTGTATCCATTATATTCTCATCACCATCACATGTGGTTGAAYGGGCTTCCGACTAAAGA
ATCTAAACATGTTTAAAACATTTTTCACCTCCAGTAAAACTAGCAAGTCTTGATTTGTGTTGTTATTGCTCCTGCTAGATTCGTGAAATATTTCAGAGGC
AATTGCATCTTGGAAGTGTGGTTTGGCAAATTTTCATCCAAAGCGTATGTTTTTGTTTTATTTTTTAACTAGCGGTTCAAACGTGGGGAAGTTGACATTT
TAGAGCAAATGGTAGAATATGTGGGGTTATTTTCTGTTGCTGTTTCATTTTTAGGTTCAACTTTTCAAATATAGAGCTGGATTAAGTCTCACTAGTAGCA
GAAAACAAAGTCTGTTTAAGTAAATGTGTTTTCAGGATGGCCCAACTGTACAGAAACTTGCAGATCTCACGTTCTGATCACTCCATCAASTGCTGCTTCT
TTAAAATACTCAAGAGTCACTTACGATGTTTAATTGGCATGTCTGTCTTTCAAAATGAAAAGCTACAGGGTAGCTTGTGTTAACCACACAACAGCTGGTT
TTGGTCACTTGGTAGGTGACAATCCAGTGACCACAACCAAGGAGGATTTAACAAGGGATTTTATGCCTTGCAATGCGGAAGAGCACTGGGGAAAGTTYCC
GAAGGGGTGCCTCCCAGAACACAAATGAAAACAGGGCTTTTACTGGGCTGGCGAGCTGAGTCACTGTATGTAGAGGTGTAGTGAAGGCAGCACATGCTCA
GTCACCGATCATGCTGCTACATACTTGTACATACTTACTGTCTATACATTACTCACTCATGTATAGGCAGTGGTGAATAAGCTCCTCCCTGGGCCTGGTT
AGTAGTATGGTAATACAGATAGATAACCGAAGTACATTTCCAACTCAGACATCTCTGGATCCAACCAGCTTTTGTTTTGCCAGGGTCGGGCTTCTTTCTG
AAATTTTTGAAACAAAAAAAACCAAGGTGTGACAGTTACAAGGGGCTACTTCTTCACAGTGCATACCCCAAAACCTTGGGACCCTGGAGCATACCCCCAA
AACCCTGGGACCTTGGGTTAGACTTGGACTTTTCCTGTTTTCTTGTTACTCAGCAACCACCACAATGCCTGGTCCGTGGAAAATGGTCAATAAATATCTG
TTGGCTGGATAAATTAATCCCTAAATGTATGTATTAGGKTGTTGCAAAAAAAAAAAAAAAAAAAAAAAATTAGCCGGGCGTGGTGTCGGGTGCCTGTAGT
CCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATGACGCCACTGCACTCCAGCCTGGGCKAC
AGAGCGGGACTCCGTCTCAAAAAAAAAAGAAAAAAATAGAAATGGCAAGGAATAAAATTTGCCTTCAATGTGCTTATGGTCTTGGGAGGAGYAGAGTAAA
AAAAATCCCTAATTTCTATTGATATAATATCATTGGATAGWGCCATGATAGAAGAATGTCCCATGTGCAGTGAGAATCTAGAGAGAAAATAAGTGATTRC
ACTTAAAGTAGAGAGTCAGGGAAGACTTCCTGGGAGAGGTGACATTTAGACTAAAGCATAAATAATRTTGATTTGTTTGCCAAATGGAGGAAGCAAAGAA
GGATCCTGAGTGAAAGCATGATGTGTCTGAGGATTTGCAAGTCGATCATGAGGTTGCAGCATACATCACATGGGAGAGAGTTGCTGACTSTTCAGGAGAG
CAGATCATGGTATGCTAGGACAATCAGAGTCTCCACTAGAGCATATGAAGGGCTTAACATAAGGGAGTGTCATAATTACATTTATGTTTGGTCAGAGCAC
TCAGGCATTGGATTGGAGAATGGAGTTGAGATGAGAAGCAGTGAAGCACTTGCTGTAGCCATCATAAAAACCTGGATCATATCAATAGATCRTCATAACT
TGGCTTCAACAAGAATTCATAAAACCAACTCCTCTCTATTTCATAGTTTCATCATTTTATGGAATATCAAAAACCTAAAGAGAAAGAGAAATAAAAATAA
ACTATATGAACTTCTCCCTGATGAAGCATTCAGTCTTGTTTTCCTGGATCTCATGCATGTTAAATACATATTTAGATCTAAGCCACTATATCAAGGAAGT
GAAAAACTCTTATTCCTTAAATATCAATATGTGCACAAATTTTCTTATACCCACATAATTTTAGTAAAACTTTGGAGAAAAAAGTTTCCAGAGTTCTAGG
GCTTTGTTCCATTTTTGGAAACAGTAATTTTAGAACTCTCTGCTTTGCTTTACTTATTCATTTTATCTCCCGCTGGGTTTCCTTCTTGATTTCTATACCT
TTGTGTCTGCATTAATTAATTTTTCTTTCATTTATTCACACATGCAACCATTGTGTATTTGGTCTATGTATCAGTTAGGGCAGGCTAATTACTCTAGCAA
ACCAGCAGTTAACAAGAAACCAATCCCGTTGGCAGGGAACTGCACTGTGTGAAGACATTCAGAGATCCAGGCTCCATCTATCCTAAAGCAAGCAAACAGG
ATCTGAGAGGGAGACAGAGACAGAGACACAGAAAGACAGAGAGAAAAAGAGAGAGGAAGTTCTTGGTGATTAGAAATTTGTGTTTCTGTGCGGTATGTGT
ATACACAGGTGGTATTTTTCTATTTGGAGGGCTTAATGTGTTTTTAGGTGTTTGTGGGTTAGGAGTTAGAAGAAATAGCCAAAAAGGAGGTGTAATTAAC
CCTTTATCTCTTTCTCTTGATGGGTAATGTGGTTACTTCCTTTTTGTTAGTTTCCCCATAATATTATAGTAAATACCTGAGTGTATTATGTGTGTGTATT
TTGATTATTTCTCTGCACTGTGTTCCTAGTAGTTAAATTACTTAGTCAAAAAGCATGAACACTTTAAAGGCTATCAAACATAGTTACATTGTTTTTCAGK
AAAATATCTGTACCTTTTTCTTTAGCATCGAGGTATCTATTTACCAGACCTTCGTGAGCACCRTGCAGTTTATTTTTTAAAAATATTTCTCAACTTTATA
GTCARTATATTTGGCTATTAGGATAATTTCAGGATATTTGAGGAGGAACTTTAAGACCGGCTTATAAATTACAGCACTTATAAAGGAGGAAAACATGTGG
AACTCATGTCTGGTACACATGATTCTAGGAACTGGTGGTGTTTGGATGGCAGAAGTTACAAGGAACGCAAAAGCAGGGAGCGTGAGCCAACACCAGATTG
ACCTCAGGCAGCTGATGCTATCGAAKGAAAAAGGGAGGACTTCCATGCAACTCCAGAAAACAAAACCAAGACACCTGCGGTAGATTCTGGTTTAACAAAA
GGGAGAATTTTCTAAAAATTTTCTATAGATTTGGTTACTTCACAAAGCATTGAGCACCCCAGGATAAAAGAATCCAACTGAGAGTGGCAGCTTTACTCTT
ATTAGAGAGAAGATTTCTCTATTAAAGACAAAATCAAAGCGAAATCACCAACATCTTACTCATTTACTTATTAGACACAATCGTGGAGCAAATACTCTGC
ACCAGCTACTGTGCTAACTCCGTTACCTGGATTACTCAAATTCTTACAATAACTCTATATTTATTTCATAATTGCTTTATTTAGTAATATTTTAAGTGCT
TTTTAGACACCTGCTCTATGCCTGTCTTGTGCTAGGCACCAGGGGGCGTAGCAGCAGACCAGGAAAATGTAGAGTCTGCCCTTACGGAGCTGGGAGCCTT
GCATGAAAGACTGGCACTGAYGACACAGTGGCACTGAATGAACGTGTGATCAGAAGCTGAGACAGGGCTCTAGGGGAAAAAGGCAAAGTGCAGCCAATCC
TCATAGCAAAAGAGACCGAGGAAGCCTAGAAGTGGTGCTTGAGTGGAGAGTAGAAGGATGGGTGGGGGGTTAACCAGGCACAAGAGGGGAGGGACGGGAA
GGGAAGTCACAAGGTGAGAAGCCCTCAGACAAGCACCTGCAATTGGAGGGTGCGTGCASCTGAGAAGCAGAGCCAGGAGGACAGTGATAGCACTTGAGGT
CAGAGTGGTCATCGGGATCCAAGCCTGCTGGATCTTCCTGGCCTTAGGAAACCCAGAGGCTTCATCCTTTGGCAAGGGGAAGCCTATATACCCYGTAGGC
TTAATGACGGGGAGAAGAATGTTTGTAAAAGATCTCGCTGGCTGCTGAAGAGAGAACATCTGGAGTTAACTCTCCAATTTCAGACTCCCCTGATGAAAAC
TGTTACTTCTGTTCTCCACTCCCTTATTTGGGCAAAGCAGTTTATTTTCTACCCGAAGCATATCTACTAATAGAAATGACTGAGATATTCATTACGTTAG
GAATGTAATGTAATGATTCTTAGATGGTGATTCAGATGATTAGTTATTGGACCTTCGATGCATTTTTTATTTTAATTTTGAGATTGGCCGTCCCCAACGC
CTCTGATGTRTGACTTTCATTACTGGAGATGTTGTTTCTGATGTTGCTGGCGGTCCCTACTGAAAAGGATGCATGCATGAAGACTCAAGGCAACAGTGAC
TTGCACCCATTTCTAACAATGACTTGCACCCATTTCTCCYGTATGGGGGTGCTTGATAAGCACTGAGTGGTGTAATTTACAACAGCTTATTGGCTTGATG
CCATCCTATGAATCCACCAACCATCATCTTCTCTGACCCTTTAAAATGACTTCCCTCACACCCCCTGCCATGAGATGATATGAAGAACTAACAACAGATA
ATTTCTATATCACCACATTTTATTATCAGCATAATTCTATACAGTAAATCTGCAGTGGGTGACTTAGTTTTGCTGATATGTGGCCTCTAGAATATTGGGA
AAATAGATACATGGAAATTTAGGRAGCTTGTATCTTGCCTCTCCAACCTTTTAAATTTGCTGCAGAAAGTTGGATATTTGTTGGGTTTTTCTTCCTTAAG
TAGGCAAACTTCAGCCCCAGGAGGCAATGAAGCAAACTTTAAATGTAGCCCCAGGTACTTCAAAGCTGGCTGAACCATGTGTTTGATTGCATACAAAATG
TGAATTGAGTAGCACAGAACTGTCCTCCTAGCAACTTTGTAGCACAATGAGATCAGCTGCAAGAACGGAATAAATTGGAGATTGGCTTCTGCAGTTCCAT
TCATTTGCAAAAATTTGCAGACAATTAAGCTGTCCCCCTGCAGTATAGGTAGCTCCTTTTAGCCAGGGGCTGGAGATTTGTTCTCTCYGGGAAAATGTTA
AAGCTGTGATTATCTAGTTATACCTGARTAAATGGATCAAAGGACCTCTCCAGCCAAGCACAGACCTCCTTGAAAAGGTAGTCTCCAGCAGCAACCCTGG
GGAGGTTTATAGCAAAGTGTTTTTAGAGCAGATGGTTCTGGAGTTACAGAGGCCAAAGAGCTGAATGACTTGGGATGAGTCTTTTACATCTTTTAACTTC
AGGAAAACAGCCATGGTGGTTCTGCCAGCAAGTCGTTGAATGGATTAAGTGAGATAATCRTACAATRTGTTTAGCACTGTGCCTGGCATGTAATAAATAC
TCAATAAATGGCAGTATTTTCTATGGCAGACTTGGTGAATCCAGGACTAGGATCCCAGGCAAATCTTAGGGTTATAAAGGTTAGAAGGAACCAGGTTATG
TCATCTTGAGTCTAGAATATAAGCTTCAAACTCTCCAAAGGAATAACCCTCAGGTCCTTGAACTCAAACCCGAAGCATCACATCTTTGCGTGAAGCCTGC
AAAGGCTCGCTATTGCCTTGGAAGCAAATCCAGTCTTCTTACCTTGACTTACAAGASTGTCCATAATTGGGCTGSGCTGACTGCATGAGTCTCACCTTTC
ACTGTTCTCCCTTAATTCCCTGCCTGCCWGGAAGACGTATTTCAGCTTCTGCAATGCTTTGCCTTGCTRAAAATATCTCCTCTTAGCAAACAAGTTTGCC
CAGAAGTTATGAAAGTAGGAGAGGGAACAAAGATGATAGAGGTTTGTGGTTTGTTTATGAGGTTTTCACTATTTCTCCCTATCACTTTTTCTATTATGCA
AAGCCAGGGTCCAGGAGGGCAGAAAGAGGGAATGAGGACAAATTATCTGGACACTGTTTGTCTGTTTGAATGTCAGCGTATTTAGGAGATCCTCCAACAG
GTGGCCAGCCCGGGTCAAGCTGCGTCTGGCCTTGTGTTCAGGTGTGCAGGAAGTAGGATCATTCCTCTCAAATCTCACCACTTCCTTCAGTTGGCTGTTA
GGGAAGGCTTTTATGCCCTTGGCTGGGTGTGACGGAAAGGGGCAGGGACAGACAAAACTTGGAGTGCGGTCCCAGCTGTAGAATGCCAGTCTGGSAGACA
TAACAAAAGTGAGCACTTCTTCGCTTTTGGGACACCTTCCCCATTTGGTCTTGACATTGAGCACCATGCTTTGGCAGGTGTCAGAGGTTGGCTCCCGGGA
AATAGACCACGCAACCGGGGAGGTGTTATCAGCATCCAYACCTCACGGGGAGGGAGGTCAGGGGGATGGGGCGGGGAAGGAGGCTGATGGAGGAGTTGCT
GACTGCAGGTASCTGGAGGCCTCAGCCTTCCTGGGCAGCAGGGATACGGGCAGGGATGTCCCCTGAGCATGGTCCCACCTGGAAGCCAGGGGGCTGACCT
TGACASACTCCTGACCAGTCAGTGGATGGCGCTGCAGCCCCTTCTGTTTAGTCTTCACATCAGCAATGAAAGAGGGTGAAGTTCATGGAAATAYTGTGGG
GACATATCGCATGGTTTCTKTTCATGAAATGTCCAGAAAAGACAAACATATACAGCCAGTGGCTGTGGTAAAGTGGGAATGACTGCTAATGGGCATGAGG
TTTCATTTAAGGGTGATGGAGATGTTCTAAAATTAKATGTGGTGRGGATTGCACAACTCTGTAAATTTCCTAACAATCACTGTGTTACACACTTAAAACG
GGTGAATTTCATGGTACGTAAATTATACCTCAATAATACTTTTAAAATACTGCAGGCGAGAGGGGCTCCAGCCAGAGAAATTGACTCCAACTCTCCCTTT
CCACAAATCAAATGCTCAGATTTGCATTGTGGGAGGAGCCTGAGTGTTCACTGCAGGACAATGTAGGTTCTTCAGGGAGTGCAGACCACTTTCACATGCA
GCTTCTCATTTCGTTCTGATAACCTAGAGGACGGGCAAATCATCGTAGGACGATGAGCGCTGAGCTACAGTGAATGTAGCTTGTTATCTTACGACAGACC
TGGGAGAAGGAGGAAATCCAACTAATTTATTTACTTTTATCCCTTTGAGTCTATTCTCCACAAAGCAGCTATGATCTGTTTTATTGCAACTGGACTCCTC
AGCTCAAAACCCTTCCAGGGCTCACTSCTCATGCGGAGTAAAAGCCAGGGCCCTCTCCATGGCCTACGTGCCTCTCCAGGGTCTGACTTCCCTTCACCAG
GTCCAGACTGTCTCCTTCACCTCACAGCGCTCACCTTGCCCACGCCAGCAGCTGCCACACTGAAGCTCCGCCATGCCCGGTAGGCTTCTGCTGCTGGCAG
TGCCTCCTCCTCCTGCCCCCTTGGCCCATTCTTCCTCCATCTTCCACTGCCATCCTCCTCGGTGGACCGCTTCTTGCCTCCCTGTCTAAAACATCAGCAC
CCTCTCCCCCTGAGCACTTCCAGCCCTCCTCCCTGCTGATCTTTTTTCTCTTGAGCCATATGTGTTCTCTTTCCCTTTCTGTGGTTTGCCCCCTCTCTCT
ACAATTGAAGCTTCATGAGGGCACTTGCTTCTTTTAGGCACTGCACCATCCGAGATGCCTAGAATTATACCTGGCAGAGAGAAAGGGCTTGGTTGATACG
TTTTGAAGAAATGAATGAAAGAATGAATGAATGACTTAGTTAATATGAATCTATTCTCTCGCTCCTTCTCACGTTCTTTTTCTCTTCCTGCCTTCCTGTT
TCCCTGGGCCTCCACCCTCCCTTCCCACCCTCAACCCCTCCCCTGCCCCTCACTGTTTCAGGGGTCTCCCCTTTATTTCTGATATGTGTTCTTTGGGGCG
AGTGTTGTGGTGCTTCCAGACAGCGTGATACTTGCTTCCCCTGAGATTGGGAAACAGGGAGGAAAGCAAATGAGGTTTTAACCTCAAATGCCCTAAGACA
GGAAGATGAAGACCTTGCTTAGCTGCATGAAACCGGAGATCTTTGTGTAGGGATGACAGTCCTCCTCTAATAGAATCCAGCATGCGTGAGGCTCCCTGAA
GACACAACACTGCCCCTGTGATGGAAGCAAGGCTGGATGAGGCTGCAGCAGGCCTCGGATGACCTAGGSTAAAGATGCTGCGGATCACTGTCCGGAGACT
GCTGTSGGGGGAATCCCACAAGWCACACATGGTCTGGTGTTGGTGGCGGCCCCAGAACCTCACTCTCCTCTGCACACCTCTGCGTGCCTACGTCTGTTCC
TGTGACTGAGGGGATTGTGTTCAGCACACTGGAAGTGCGAAGACGTGTGGCATATGTCCGTGGGTCTAGGCAGCTGATGCATGTCTGTTGCATGTACATC
TGCTCGTGAGTGTGTGTGTATGTGTGTCTATCAGATGGATTCTGGTGTGTGTGTAAACCCGCATGTGCATAAGTGTGTGCATTTGATGTCACAGAGAACA
TTTGACATCTGCACGCGTCTAGTAAATCTGGAAAGCTGGAAGGGGCTGCGTGTCTACATGTGTCTGTGTTTCAGATCTGGCCTTAGGCCATCCACAGCCG
AATTACTCACTCCTGATACAGACTGAGTGGCTCACCCTCATTTTCTCACTTCCTCCGTCCTGGTGTTAATAAGACTCATCCTTCATTTTTCTRCCGTTTC
TGCRGTTCTTTAGAGAGTGCAGACCACTTTCACATGCAGCTTCTCATTTCATTCTCATAACCTAGAGGACGGGCACATTATCCTCCTTTACAGATGAGAA
AATTTCCTTCAAYCCCTCTGTGTCCTGTCTCGAGGGGAGCAGTRTTGGGCCTCTTCTCTGAGGCTGATGTAACTGCTGATTCCTCTCACACCTCCTGTGG
GCATCTCCTCTGCTCTCTTGCATCTTCATTCATTCTGTGTTTCTTTCTTCACCACTGTGCTTTCTTTCCTCTGACCCCTTCTTCCTCAAGGTCAGCCCCA
TTCCTTGTCTCCCATTTAACTGAAGAACTTCTTTCCATAGCTCTCCTTTTCTTCTATGCCAGAGTCCTCACTGTCCATGTAATCGCCTAGCACACACCAA
AAGCTGCTCTTTCTAAATTCAGCCGTCATCTGTTCATGGTCAAGCCTAGCAGCCTCCGTGATTTTGGAGGAGACCTCTGCCTTGTGTAACGTGGCTGTGC
ACTGTTCCTTTTTGGAATTCTCCTCTCTGTGCTTCTGGTTTTTCTGCTACGCTGACTAAACTTTCTGTGGCCTTTGCTGAAACTCATCAGATGGTTACGT
TCCTCCCTTTTCCCTTTTCCCTCTTCCCATAATCTGGGTTGTGCCATTGTCTCCATGTCTTGCAGCTACTCTTGTATATGAGTGATTGTGACATTTGTCT
CCCTCCTGAATGCAATTCCTCATGTCCCCTAGAAATCTCTGCTTCACGTCCAGCAGGCTCCTCAACGTCAACAGGTCTACTCTAGCACTGGTACCCCAAA
ATGCCTTTTTAAAAGCCTTTGCCCACTTGGTAATGGCAACACCAGAAGTCAAGAGATCTTATTACCTCCCTCCTTTACGCTGATCTTCAGTTCTTTCCCA
TACACTGCTCTTCTGCCTTTTGTAACTGTCTCTTGAATTGATTACATTATTTTTGTCACCACCATTTTTGTGTTGTCCTTCTCTGAGTTTCTGGCCACGG
ATTGGCACCCTCACAGGCTTCATGCATGAAATGACAGATGCAAGTACACCACACGCACAAACACAGAGAGTTGTCCCGAAGCAGGGTATATGGATGTCAG
TCAAATCATGTATGATGGTTCTTACACGGTCCCAGTCATACAGAAACATATGGCAGAACACACAAACTCATTAGCACAGACTCGATCAAAGGTGGGTACA
GCCACAAATATAGAAGTAGACACTTGGCCACAAACACATACTTATAGATATACACATAAATCACAGGCAAAGATAGAAGCAGAGCCACAGGCCCAGAAAC
GCAGAGCCATGGATAAATATTCACTGAAGTTTCTCCTAATGTCAGACAAAAACTTAAGCATCAGAAGAAGCAGGATGTCCTGACTTCAGTCGTTCCTTTA
AGATGCCCACCGTGACGGGCCCAGAGAGTCGACATGCACATGGTGACTTCTCTACAATCAATACCTCCAGCAGCCCCCSAACCCTGTCCCTTCCAGGTAC
TGTTTTTCCCGAATCAGAGCYTCCTGCTTCTTTTCTTGGGCACTTTAGATCCACGGATTAACACAATTGTGCCACTTGCCATACTTCTGGGATGCGCCGT
AATAATCAAGGAAATGGATGGGCAGCTGTGGAGTTGATGAGCTGGTGAGCTGGGAGGACACCAGAGGTAGGATGGGGATGGGAYTCAGGGAGCTGACCAC
TCTGGACACCCGTGAGGACAGAAATATCACCCATKTGTGGGTATGAAAACACAAGAAAGCAATTCRTGACACTCTATGCAAGGTTCATTATTGATGACAC
RGTGTGCTTTGTCATTACTTTGGACACATTTAGACATACATTGTCATCATGAACTGAGGCCTATGTTTGCTCTAGGATGAAGCCCATTCACCAGTCCTTT
ACATCTGCACAAAGTTTACGTCTTTTTAAAGTGTTTCTCTAGACCAGCTCTCATCTGAGGCTCAAGATATTTTTTTAATAATGAATGATATTCAGATATT
ACAAATATATTTTACGTATTTCCTATTTTTGCCACCCTTAACAAACCAACAGAATCTTCATAGATGTTAAATATCAGTTTTGTGTAAATACAACGCGCTC
TAATTTTCTTTCTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACCRTGTCACCCAGGCTGGAGTACAGTGGCGCGATCTCAGCTCACTGCARCTTCCATC
TCCCAGGTTCAAGTGATTCTCCTGCCTCATCCTCCCGAGTAGCTGGGATTACAGGCAGGTGCCACCACACCTAGCTAATTTTTGTATTTTTGGTAGAGAC
GGGGTTTCACCTTGTTGGTCAGCCTGGTCTCGAACTCCTGACCTCGTGATCCTCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGATCCGCTG
CGCCCAGCCAATGCTGTTTCTTTGTTTAGTGTTGGGTTCGTTTTGGGTGGTTGGCTTTTTTGTTCGTTTTGTTATATTATTCTTGCTTTTTCTTCTGTCT
TATACAGAATCTAGTTTTCTTTGCCTGCATATTGAGTCCTTTTCACTTCCTAGAGACTAAAGTGTCTCTTACTTAGTCTCTTTCATTGAGATTTTAATAT
TCTTCTGTGATCACTATAGTGTATACAAAATAGAATGCATTGAATATGATATTCTATATTTTCCTACATAGCTTGTCTTAAATATTCTCTCTGCTAGCTA
GGTAAATTGGAGCAGTTTGCATGCAACCTCTCTGAACTTTCTTCATTGATTAAGGAGGGATAAGATTTACTTTGGAGGTCTGTTGGAAATATTTGAGGGK
GCTCATGCCAAGTGCCCAGCACATTGRCCAGCATACGCTTGCTGTATCATTATTATAGTAGTTTAGAGTAGTGATGGTGAGGGCATTGGAGTGATGATGA
TAGTGGTCGGAACATGGTCTTCACAGTTGCCTTATTGGTCATAGCCTAGGAGTATTGCCTACTAACAAACCCAAATGTAACTTTGTCCCTGCTATGGAAC
ATTTAGGATGTTTTCCATTTTTGCCCCTTATAAATCRTGTCTCACTAAACGTCTTCCTTCATACAGTWTTATTCTTCTTTTGAATGTAACGTTTGGATGG
GTTCCTAGCAGTAAAATTACTGAGTGAAGGGATATGTGCATTCATAAAGCTCTCGATAAATGAATATTGCCTGATTACTTTTCACAAGGGTGCTATGAAT
TTATACTCCCACCCAAATCAAGAGAATGGCTATTTATAGATGCTTTCAGAGCCTTAGCTTATCTTGTTTCCTGTTTGAACTTTATTACATAAATTTTCCT
TTAAAACTGTCACACACACACACACACACACACACACACACAMTTTTATGGGGCCTTGGGGCCAAAGATGGAATGAAACTATCATTTATCACATGATTTT
GATAGGAAGCTGTTGTTAGGATTGAGATGCTTGCTTCTGATGATGCAGAAGACAGTTTTAATTAGYATGTGGCATTAAATAAGATCAGTTTGCATATTGG
AAATGATATTCTTTTTCAATTATCTTTCAGTCCTCTGATCAGATCAAAGAGGAAGTCTCAGCTTGGTGCTAACACGCCTTTAACACCGCTCTGGCCCCTT
TTTACCTGTAAGATGAAGAGCTTTCCATAGGCAACAGTTTCTAGCTCAAATTTAATGGTGTCATTAGGTCTCCAGCATGTTTATTTTTATGTTTTCCTTC
TTTTATGTGAAGTGATACTAATGTTTTATTTAAAATGATACAAAGTTTTCATTTTGAACACATTTAATTAAAAATATGAGTTACGCATAGAGCAAACACC
CTGACAGTGTCACTCCAATAACTGAACTTGTGACATGCTACTTGGAGAGTGCATTCCAACAGTTGCCCCACTGATCATATAATAACAACACGTTTCCCTT
GACAATACACTGAATACAAGTCTCCATAATGCCTGACATAGTTTGGGACTTTGTGATTGTCCCTTTATCCCTATTCATTTGTGAGTGTAAGGACCTTGCA
GTGGCTCATGAAGAGAGTTGCTTTTTATTTTTTATTTTTAAAATTTTTTTTGAAGACTCTTAACAAAGTATAACCATTTTGAAAATGCCTATCTATTACC
CTAGATAAAAATTACCTAGTATCGGAAGAGTATCTAAAAAGATATTCAAGGGGTACAAGTGCAGGCTTCTTACATGCACACACTGTGTAGTGGGAAGTGT
GGCCTTTTAGTGAACCCATCACCCAAAGAGTGAACGTTGTACCCAACAGGTGATTTTTCAGCTCTCACCCTCCTCCCACCCTCCCACTTTCCGAAGTCCC
CACTGTCTCTTATTCCACTCTGTATGTTCACAAGTACCCATTGTTGAGCTCCCACCAAAAAGTGAAAATATGCGGCATTTTTCTGTTTGAGTTATTTCCT
TTGGATCATGTCTTCCGGCTTCATCCATGTGGCTGCAAAAGACATGATTTTATTCTTTTTTTAGGCTTGAGTAGTATTTTATGGCATGTGCGTGTGTGTG
TATGAGTATGTGTGTGTGTATATATGTTTTTGTGTGTGTACACATCTTTATAGATATGTTTATATATACGTATAGATATATTTACATATATGTATAGATA
CAAATATATATATATATATCCCACATTTTCTTTTTTTCTTTTTTGAGACTGATTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCT
CACTGCAACCTCTGACTCTTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCATGAATAGCTGGGATTACAGGCATGCACCACCATGCCCGGCTAATTTTGT
ATTTTTAGTAGAGACGAGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCCAACCTCARGTTATCCACCCTCCTCAGCCTCCSAAAGGGCTGGGATT
ACAGGCGTGAGCCACTGCATCTGGCCCCACATTTTTTTTTATCCTGTCTTCTGTTGATGGACACTTAGGTTCATTCCATGTCTTTGCTATTGTGAATAGT
GCTATGATAAACACACAAGTGCAGGTATTGTTTTGATATAACGATTCCTTTTCCTTTGTGTATATACCTGGTAGTGGGATTGCTAGGTTGAATGGTAGTT
CTGTTTTCAGTTCTTTGAGAAATCATCATACTGTTTTTCATAGAGTTTGCACTAATTTACACTCCCACCAACAGTATATAAGCATTCTTTTTTCTCTTCA
GCCTCACCAATATTTGTTGTTTAAGACTTTTTAATCATAGCCATTCTGACTGGTATAAGATGATATCGCATTGTCGTTTCAATTTGCATTTCTCTGATGA
TTAGTGATATTGAGCATTTTTCATATGTCTGTTGGCCCGTCGTACGTGTCCTTTTGAAGAATGTCTGTTCATGTTGTTTGCCCCACTTTCTTTTGTTTGT
TTGTTTGTTCTGAGCTGGAGTCTCGTTCTGTCACCCAGGATGGAGTTCAGTGGTGTAATCTTGGCTCACTGCACTGTCCGCCTCCTGGGTTCAAGCAATT
CTCCTGCCTCAGCCTCCCTAGTAGCTGGGATTACAGGTACCTGCCACCATGCCTGGCTAATTTTTGTGTTTTTAGTTGAGACCTGGTTTCACCATGTTGG
CCAGGCTGGTCTCRAACTCCTGACCTCAGGAGATCGGCCTGCCCTGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGCACCCGGCCTACCCAC
TTTTAATTGGGTCATTTTTGTTGTTTGAGTTCCTTGTAAATTCTGGATAATAGTCCTTTGTTGAATACATACTTTACAAATATTTTTCCCATTCTCTAGG
TTATCTGCTTASTCTGTTGATTGCTTATTTTGCTGTGCAGAAGCTTTTAAGTTTAATTAAATTTGAATTGTCCATTTTTTTTTTTTTTTGGTCATGTTTG
CTTTTGAGGACTAGGCCATAAATCCTTTGCCGAGGCCAATATCTRGAAGAGTTTTTCCTAGGGTTTCTTCTAGAATTTTTATAGTTGCAGGTCTTATGTT
TAGGTCTTTAATCCATCTTGAGTTAATTTTTGTATATGGTGAAAGCTGTGGGTCCAATTTCACTCTTAGGTATATGATTATCCAATTTTCCATATGGGTG
TTTAGGCCAACACCATTTATTGAATAGAGCGTCATTTCCCTATCATATATTTTTGCCGACTTTCTTGAAGATCAGTTGGTTGTAGGTATGTGGCTTTAGT
TCTGGATTCTCTGTTCTGTTCCATTAATCTAGATTTATACCAGTACCATCCTGTTTTGGTTACTATAGCTTTGTAGTATAATTTGAAGTCAGGCAATATG
ATGCATCTAACTTAGTTCTTTTCACTTAGGATTTGTTATAAAACCAATTCTTTATTGGCTGTAAATCAAATAAAATTTTATATCTAAGCAAGTCCTCCAG
ATTCCTGACCAGGTGAGTAATCCAGTAGCTTGGCAGATTAAGAACAGCAATATGCAAGCAATGAGGGATGAGTAAATCAAGACTGTCATTGTGAATAGAA
TGATTTGGAAGTTGGGTGTTCAAATAGCTTAATGATAGTTATAGTGAATAACAATGTCAGCTTTAGTATTATTCTAGTAATGTACTTGGTAATGCTAATA
GGGTTTGATGGAATACAGTGAACACTTTCCAAACAGCTGTATGCTTTCCCAACAAAGGAACTCTATCTCGGAGCAGACTGATACATCATTTCAATGGGAG
ATTTTAATCAATCCTTTTGTTTTCCCTTTTAGGATATATTTAAATTTGCAAGAACTTCTCCTGTCCCAAGACAAAAGAGGTCCATTGTGGTATCTCCCAT
TTTAATTCCAGAGAATCAGAGACAGCCTTTCCCAAGAGATGTTGGCAAGGTAAGTCAGACAAACAGCAAATGACAAAAACATGTTTTTATGAAAAGAYGA
GCACAGCAGACTGAGTATGACTGTCTTGGTGACCAGCTGGAATTAGTCTTCATCTGTCTATGATAAGAGACCAAATGGTTTAGTCATGAAAAGAATGTTG
GAAGATCATTCATATGCAAAAGAGGAAATTGGAAAAAACCAATAGCAGCTTTGAATATTAYGGGATCAACATGGTAGATGATGTTGAAATTAMGCAGGAA
GATGTCAATGGTTAAGAAACAAGGCTCATTGCTTTTATAGATTATATTCAGGTGATCACCAGATAGGGCCCCCTAGGATGGTAGTATGTTGACATGTGGC
CTTCACTGAGATCCTGTTTTTCAAATATTTAGGTCTACGCGTACCACTGGGTCGGTTTTCCAAAAACTAAACCAGATCAAGGGAATAAAATCATACTAAT
CATATCCAGAATCGGATATGGAAAACACTGTCCCATGAATCAGAACAATAGCTTTTCCAGGAAGAAATAGTCACTGTTAAATGTGCCAAAATACGGATAC
TGCCTCATCAGTACATTCTCCCCTCTTTAAGAGAGTCAACATGGAGAATCAAATTTTGAGCAGTTTGTACTTTTTGGTTGTTAGAAACAAGTGCTCAGTG
CCGCAAAGGAGAACCAGCACTCAGGAAAAGAGTTTTCTCAGCAAGGCAATTTACTTCTGCGGAAGGGTGCTGCTTGYACTTCTGGCCACTGGGAGAGCAC
ACCAAACAAAAGAGGGAAGGGGTTTTTATCCCTCACGTGGTTAGTCCCTGCTTCTGTGTCCTGTCCCCATTGGCTGGAGTTGGATTGCACAATCTAAGCT
GACCTGATTGGCTACTGTTTAAAATTGAATATGGCTAATTAGGCAGGAAGGGAGAGGCTGTCTGTTATGGTACAAGGCATGTTTGGGCATGTCAGGGCAC
GGCAAAGGCGGGAAGGGTAGTTTCATTGGGAAGAGCTGTTTTGGCTGGAGGGGCAGTTTACAGAATGGGTAGCCAGGATTAAAGAGGACTCTTTCCAAAT
AAGAAAGAGATGTGAGTCACAGATTGGGACTAATGGGAGAAGTTGTTTATAGAGCAGGTAGCTTAGGAGAAGGGACAAGGAAGTTGATCTCGAGAACAAA
GAACAAGGGAGTCAGAAATTAAACGTTTGAAAAGGAACTTACTGTATCAGACATTGGTGAGCCTGGAATTCGAAAAATGGTGGTTGGTTAAATGAATGAT
CTTAATGGCAGTTGCTGTTGAACTACTAATTCATTAAATACACAGTACATGTGATATGCTGGACTCCAAGCTTTGGACTGGGTGTGAAGAAGCAGATAAT
AAAGCTAACATGCTAGTGGGAAGACAGAAACAAGAACATTGCAGAGTATGACAAATGCTGTGAAAATCAGCAATGGGATGATGTGAAAAAAAGAGCAAAT
GGCAGGATGAAGGAGTAGAGGGAGGAGGGAATCTTCACGCAGATGGCTGTGATGGCTGGTTGGAGGTACTGATATTTGAGGGGAGACTGGAAGGGTGAGA
AAGGAACAGTTACAGGTATATCTGGTTGAACAGCATCTTTGGCAGAGGTGAGTCTACATTGCAAAGGCCTGAAGATGGGAAAGAATAGCATGTAGTAGAG
TCGCAACATGCCTGGGTTGCATGAGAGTAAGCAAGGATGACAGTGGTAAAAGTGAAATCAGAGAGGCCAGCCTGCCCTTGGATGAGGAGTTGGGGTTTCA
TCGTGCATGCAGCAGGGGACCACTGGAAGATTTCCCCAGAAGACTGCATGTTTTGAAAGATCATCCTGGCTGCCTTGTAGAGAATGATTAGTGGTAGCAG
AGCAGTAGAGAGGAGTGGAAGCAAAGAGACCCACTAAGAGGGGAGTTTGGTGGTGATCTGAACAAAGGTGACTTGGACTATTGAAAATTGATCTTGGACG
GGCATGGTRGTTCACGCCTGTAATCCCAGCACTGTGGGACGCTGAGGCGGGAGGATCACCCGAGGTCAGGAGTTCAAGACCATCCTGGCCAACGTGGCGA
AACCCYGTCTCAACTAAAAATACAAAAATTAGCCAGTGTCATGGCACGCCTGTAATCCCAGCTACTTGGGAAGCTGAGGCAAGAGAACCACTTGAACCCA
GGAGGTGGAGGTTGCAGTGAGCCGGGATCATGCCAGTGTACTCCAGCATGGGCGACAGGGTGAGACTCTGTGTCAAACAAACAMACAAACAAAAAATCGA
TCTTTATTGCAAATTGAAAGAAGTGCTAATCCAATATCCTGGTAATCATTATATTTATCATTTTAAACTCCCACTGTGCCAAAGATACCTTTCTCTAAGC
AAAAATCTTTTTAAGAGTCTGGGACATGATACAAAGGGAAGCAGAGCTGCTCTAAAGGGATAGCCCTGTCCCCTTGGGCAGCCCTAGCCACTGTGATGAT
CCTTTTCTAGACAGGTTTCCTGGGAGCCCAAGATGCCAGATGCCAAGGGACCTGACTCCCCACTTCTTCAAAACTCTTCCCAAACAGTTTCTGAGACTCA
AGATGCATTCTCGTTTTTCAGTTTTCTTTTAGATAATCCTGGGCTTCTCAGCTCTCACCATGCATCAGAATCAGCAGAGACACTTAAAATGCAGATGTCA
GGGCTCCACCCTCAGAGATTGATTCCACTGGGGTGGGGGTGAGGACCATGCATCAATATATGTTAAAATATCCGAGGTGATTCAGATATGCAGCCGAGGT
GGAGGACTGCCGGTCTTAAGCAGTCCTCCAAGAGTGGTTGTGGACCAGCTACATTAGCATCGCCTGGGAGCTTGCTAGAAATGCATATTTYCATGTCCCA
CCCCAAAACCACTGAGCCAAAAACTCTGGGGTTAAAGCCAGGAATCTGCGTTTTTACACAGCTTCTAGGTGATTGTGATGCACACTCAAATTTACAGAGG
GCTGACCTGAAATGCACTTTCTCCTCCTGTCCACCACTAGTACACAATACTTTCAGTTGCAATTCCATTAATTAGGTTATAATAAGGACAATCACATTTC
AGTTGCCTGGAAAATCCCAGTTTACACCTGTCGTCCAAATCTGTCATGTCCAGATTTAGACAATAAATTATGTAGCCATCCTATAGTTTTCTTCAATTAC
ACACAATTTCCTCCGGGGTATATTTGGGTGAATTTTCTCACAAGCCTCTTTTCTTGAGCTATTCAATGGGTCCATAAGCATGCAGCTAATTGGGAACATT
CTTCTGCATTGTTTTTTTACTTATTACAGCTTCAAAAAGCAATTTGGTTTGCAAGCTGAGGACTCACTTCTTCTTAGCCCCTTATGTGTTGCCCATACTT
GTTCTCAACTTAGATTCTCTACAAAGCAACTGCTTTTCTAAGTGTGGTAGGCTACTAACTAGACAATGCGCAAGAGCCTTCAAAACCTCTAGAWGTTTTT
TGTAGAATTACTGCACTGCTTTGCAAAAACTATTTATTTGTCCCTGCTTTTTATGCCTTTGAAGGTACGTATTTTCCTTTTTGTTCCTGCTTGTTTCTAT
TTATCTGTCTTACTCTTTATRTCTCCTGTCTTATCCTCATCAACTCCACCACAGCTGACGAGCTGTGCTCTGCAGAGCTGTGGAAGAGGACGTAGGTGTT
TTCAGTGAGTGCTGGGGAGGCAGGGAGAAGGGAAGGAAGACCACAGAGGCAGAGCTCTGGCCTCCAAACACCACCACGCTCCCAAAAAATGTCTAAGTCA
GGACACCTCTAATTTTATAAATATTACGTATTAGACTTCGATATAGAATGCCATTTGAAGAAGAGATTCTGCAGCTCTAAAAGTATAAAGACGTTTGTCT
TTGGCTTCCCCTAGAAGTGGACCGCAAGACAAGAATTCAAATGAAGGCAGTTCATTTCAGAGGTGGAGGAAATATTTGTAATAAAGTAAGGGAGAGACGT
GGAGAAGGGAAGGCAGCTAGGAGAGAAGCTTGTTTATGAAGCCAGCTACCCCTGTGGGTGACTGGATTGTAATGTCAGGGGCTAACTTTAACATGGTGTG
GAACACACTGTCAGCGTTACACCACCCCCAGGGGATGGCACTGGGATACTTTGACACCAGCTGGGGTATTTCTACTCCCAGCAGTCACTGGTGGAGGGCC
GCTTCCAGGGGTGTAAATTCCCTGGCATATCTGGTCTGCCCTGCACTCTGTGCACTGACGCGACAGCCTGCTGAGGTTTGGAGGAGAACCTTAGACAAAA
AGGATTCTGTACAGCAGCCACCAGTCTGCTGGTCTGCACTGAAAAGCTGACACATAGAGGATGTGGACAGGGCACTGATCCCTTCTGCTTCATCACCAAA
ACTAATATATCTATATTATTTTTTGCATACTTCATTTCATCCTCTGCTTTTACCTCATTTCCTGAACTAGCATTCTCATGTCCTGGGCTTTTGAAACCCC
CTGTACTTGCCTCTCTCTCTCCATTAATAAGTAGTTCCTGCATCCCAGGAGGGAAAACCTCTGAAATTCAACCTAATTCATATCAACAAGCATATATTCA
GCATCTGTTTTTATAAGGAACTGTGCTAGGGGCTGGGAATTTAATGGAGGAGAAAACAGACAGAATCATTGATCTTGCGGGATTACAAAAGAGGTGACAA
TATCAGCACATAGTCATTATTTGTCCAGCACTGTGCTAAGCACTTTTCATCTATTATGTTGAATTCTTATGATAACAACCACATGAGGATCATTTTCCAG
CATGCCAATGAAGGTAATGAGACTCAGGGGTGACGTAACCTGTCCAAAGCCACACAGCTAGTTCATAACAGAGCCAAGCTTTGTTACTGCTTTTTGAGAT
TTCAAAGTCTGTGCTCTTAACCAGTATCCTCAGGAAATACTAAGCCCAATCTGAGAATACTCTTCCGTGGAATGAAATATCTTCACTGACAATTTCTCTT
TTTAAAACAGCATTAAAATTGAGTGCAATTCTTGGCAATGCACTCAAAAATAAGGTGGACAGAGGGTTGGATCAATAGATCGATATCTGATATGTGATAA
AGGAAGTATATTAAAATGTTAGTGGTAGAATATAAGTTGGTGAACATATGGGTACTTGCTGTACAATTCTTTCGAGTTTTCTCTGCATTTGGAAGTTTTG
TAATAAAATGTTGGGAAAAATTAAGTTTAACTAAATATAAAATTATCATAAAAGACACAGGAGTTAGCATGCTGGCACAAAAACGCCTTTTAAATCATTT
GTCTTGCATTTCAAGAGGGTGAATGGAGACAAAGTACRTAACTGGTTCTTGATTTTTTTGGTCATATTTTATTACAACCTGAATTCCTGTAAAGAAAGGA
GACTCATATCCTGAAGAATGAAGACATCAAAAGCAAGGTGCTGTGGCAAGTTAGCCCTTGGTGGAGGGTTTTTCACAAYTGGATATCCTGCTGTGTAGAA
CTGAAYACCCACAGCAGGGTTATTCAGGCAGCTCCAGGGATGAGAGAAAGTGTCTTGACTGATACATAATTTATCTGTCTGCCAAGTAATTAGTTGGTTG
GTAAGTAGCTAAACTACTAGAATTTGGGATCTGCTTTTCCGTAATACGAGGGAATCATATTACAACCCTGAGATTCCAAATCACTGCTACTCACTTAGAT
AGCAGGTGGGGAGTATAAGGGGGGGTCATTGGGAACTTCAAATGAGAATGGATGTGAAAATTGTCTGTTTAGCAATTGTGCATCAATAGACCAAGTATAA
CTGGTCATTTTTCATGTGGCAGATCTTCCTTTATCTGGGAAAAAAATACATTGCTGGGCATTCTTGGTGCCTTAAACCTTGGGTCAGTCCGTTCCCAGGA
GGGAGAAACAAGGGTAAGAAACAAAAATCGTGAGGTGCTCTTCATTCATTTTATGTCATGCTCTATGCCTTANNNNNNNNNNNNNNNNNNNNCTTTTTTT
TTATTTTGTTTTGTTAGAAAAAAATAAACGGGCGCGCGCGGGGGGGGGACAGACAACCACCCCCACGAGCAACCGGGCGCAACGCCCAACAAACACACAA
CGGCAAGGGAAGGGGGGAGGGGAGCACAGAAAAACAAAAAGAAGGGGCCGCACACACACATGGGGGGGCGGGGGGGGAGGGGAAGAAAAAACACACCACC
GCAGACCCGCCCCCAGCCGCGCCAAGGGGGCGGGGGCGCGCACCGCAGACAAAAAAAAAAAAAGGGGCCCCCCCAACACGGGGGCGAGCGAGCAAGCGGG
GAGGAGAAACCAAAGGGCAACCACAACCGACGCGGGGGCACGGAGCGGAAACGGGGCCGCCGCGCGGAACGCGACGGGGGAGGAGACGCGCGGGCGGCAC
CCCCCACGCGGCGGGAAAAAAGGAGGCAAGAAGAGGGGGGGGGCGGCGAGGGAGGGAACCGCAGCGACGGGGGCGGGGCGCCCCCCCCCGCCCAGAGGGG
CGGGGCGGGGGGCGACCGCAAAGGCCCCCCCGCCAGCCCTGGGGAAAAAGAAGTAGGCCTCCAAAATTGGGGCTCCTTTGCAAGGGGCATGCAGCCCAAG
ACCATCGGTCAAGGTTTGGAAGACAAGGTAAAACACCCAGTCGTGAACATACTTGCTCAGACCTGTGATTTTCTTTCCATTTTTGAACTCTAGACAGCAG
GGAGGAGCTGACAGTGAGTGCTCTGGAGAGGAACATGCAGATCCCAAAGTGGCTTTTTCCCCTCCCCCTTCAAAGTATGACTATTTCAAAATTTGGGCCA
TAAATAATTTCTCAGTTTTACCAACTTTCACTGATAACTAATTGATTGCATCTTTAAAGATTTTTGAGTTCTTGGGCCCGAYTGATTGAGAGCAGGGGAC
TTTAAATCTGTAAGCCAGCAGGGAGGTCTTTGGGAGATGTATTTTATTCTGTTTTATATTAAGTTTGAAAGACAAGTCATTTATGAAATGCTTATTAGAG
ATTCTGCTTTCATCACAAACCCTTTTCATCAAAACCAATGAAAGTACTTTTTTACAGAAAATCCTGTTTTAAAGACCCTATAAATTGGTAGAATGGGCAT
TTAGAAGGCCATCTTTAACCCAGGATAGAAGAAATATGTAACTGGGCCAAGTGCTGTTTGTAAAGGGAATCAACATTGATCATTAGACTAAATCATGAAA
ACCACTCAACCAGGACTCCGCTTTGATTGTGTCATGAACGTAAGTCAGACATGACGGTAATTTACATCAGCTYTGCCATGTTCCTCAGTGTTCTGTGCAT
CTGATTCTTAGAGGTCTCACTGCATCCAGATACTCTGTACCTGAGATTTATGCCCACCTATGCGAATAGGTGCCAAGGAGTCTGATAGTCTTGGAATTTA
ATTTGTTTTATTCTATTTAATAGCCATTTGCCTCACTTTGAAGACCCACGAAGACCAAGCTATATCCTTAGAGGCTGAACCAGAAAGCTGGTACTGAAGC
CCCAGCACCTCTCCATCACCCCTCTCCTGAAATGCAGACTCAGGGTTACTTGCTGTTGCCTGATTGATTTTATGATCAGGCACTTACTGGGTTGTCTAGG
GTAACCCAGTAATTGCTGTCATCCCTCTACCTCTTTTAAAATCTATTGTTTTGTRCCCTTTATCTATGTCTAACTATATACACTTTTCTCAGAAATTTAC
ATCTGCTTAATTTCTACCCCCCACCCACCCCCCAACACCCCCCCCTTTTTTTTTTTTTGAGACAGAGTCTTTCTCTGTCACCAGGCTGGAGTGCATTGGT
GCAATCTCTGCTCACTGCAACGTCCGCCTCCCAGCTTCAAGCAATTCTCCTGCTCAGCCTCCCTAACTGGGACTACAGGTGGATGCCACCACGCCCAGCT
AATTTTTGTATTTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGACTCATCTGGATCCATCTGCCTCGGCCTCCCAAAGGGTGGGGATTACAAGCA
TGAGCACCTGGCCTTAATTTCCCCCTTTTAAGGCAACTAGCAGTTTTATTCAATAACTGAAACTTACCATAGGCTAGAGTATAGGAGAAAAATTGGAATA
CAGAGTATCTAAGATGCCTAAAGGCTCAGTGCTCAAAAATTCTTCTTGAGATGAACATCACAGTTTATTTCTACATTCAGCAGCCATAGCTACACATAAG
CCTTTCCTATTTCCAAGTCTTTGAACTGTCAGTTCTTCCTGGGATACACCCTCTGTATCCTTATTCCTTAGGAGCAGCCCACATTCACACTCTAAGGCTG
CACTGTCCCATGGAACATTGACATTATTGCAGGAAGTTCTGCCTCTACACAGCCCAATATGGTACCCACTAACCACATGTGGTCAATGCAGTTATAAAGT
CTTTACTAATTTTAATTGGGGCTCAAAAAGTAACACTTCATTCCATTATTGGGACAACTTGGCAGKTGAATGTACCTTTTTCMTGATACATTTTAATCTA
TTTACAGATAAAATATTTTTTACTGAAAACGCAATGTCCACACTGAGATGTTTTGTAAGCGTAAAATACACATTGGATTTCAAAAGCTTATCACACGAAC
ACAAAAAGAATGGAAAATGTCTCCTTAATAAWCTTTGTATTGATTTCATTTGGAAACAAATCCCTTGTATTTCTTTTCACTTTTTTTTTAACGTGGCTGC
CAGAAAAGTATTAAATTATTAATATGGCTCACGTATTTTTATCAGATGGTGCTAATGTAAATAAGGCCTATTTTTGATACAGTCTCTCCTCAGTGGAATT
ATGTTTTTGAGACAGAGTCTTGCTCTGTCACCCACACTGGAATGCAGTGGCGTGATCTGTGCTCACTGCAACCTCTGCCTCCGGGGTTCAAGAGATTCTC
ATGCCTCAGCCTCCCTAATAGCTGAGATTACAGGTATGCACCACCATGCCTGGCCAACTTTTGTATTTTTGGTAGAGATGGGGGTTCACCATATTGGTCA
GGCTGGTCTCAAACTCCTGGCCTCAAGTGATCCACCTGCCTCGGCTGCCCAAAGTGCTGGGATTACAGGTGTGACCCACTGAGCCCGGCCCATGGAATTT
TACTTGATCTCTTTTATACATTGTTTATACATCTTTGATGGCACTTAACACATTTTGAGAGACAATGTCCTTCCCTGCCTTCCCACTAACTGTAATTCAT
CAGATGCGGTGGCCCAGGACAGGGCCTAACACAGAGTAGCGACTCAAATATTCTCTGAATTGAATTCTAGCCATATGTATGGCTGATTAACATAGACATT
CACTGCTTACTGATTAATTAAAGTGATCATAGCCTGCTTTGTTGTTAGAATGGAATTAATAGACCATTATATGATCAGTCTGGATATTTCCAGCAAATTT
TAATTTTCTAAATTGGTAATGAGGCCACCAGATAAATTGCTTGGCAGTCAACTATTATGTCAGGTCATATAAGCATTCTTAGTAGATTTGTTTTTTTTCT
TTGAGACAGAGTCTCGCTCTGTCGCCCGGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAGTTCTGCCTCAG
CTTCCCAAGTAACTGGGATTACAGGCGCCCGCCACCATGCCCAGTTAATTTTTGTATTTTTAGGAGAGATGAGCTTTCACCATGTTAGCCAGGCTGCTCT
GGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGATGCTGTGCCCAGCCAGTAGATCTTGATAGATTT
GATGTTGATGGATTTTATGTGGGGATGGGGTGGGGGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGTGAGTTACATGACTG
TATTTCTGAATTTGCCTATGTATATGATGGTGTTTTAATTCCAATTAAATGAAAACACTCATAACTTTTATCTTTTTTCACAACTGAACACAGTCAATTC
TAACTTATTTTTGCTAAGTCTAATAAAAGCTATGTTCACCATTCGCAAGTGTTGCCCTCCTGCAAATTTTAATTAATGACAAAACATAATCGGGTGGTTT
TGGCTTTTTGCCAAATACATATATATGCAAAACTTCCCTCCATGATCTACATCCCGCAAATAAAGGCATCTGAGCCCAAGGAGGAAGCAATATTTTTAAC
CCTGAGTTTATCACCCTTTCGGTTCTCCATTTTAAAGGTTCCTAGAACTTTATTGTTATTATGAACATCTGGCCTCAGACTGAATTTATATTTAATTATT
TGTGAACATTCAAGGACCWGGCATTTCAGCTTGAATTAGCATCCAGACTCAGGGTTGTTGAAGAATTTTCAAATTGGACTAGAATSTTCACTACCTAATG
AATGTCTGGATCTAAGCCAAACATGGCTAACCCTACTGTCCTGCTTAGTTTTTACAACAGCCYTATAAAGTAGGCAATCCTACACTCATTTCTCAGATGA
GAAAGTGGAAATTAAGAGAGATTAAGTAACTTGCCCAGGGTAACCCTCTTAAAGAACGGCAATGCTGAGACCCAAAACCAAGACTCTTCAATGCCACATC
AGTGATCTGTCCACCACAACGTGTGTGAATGCTTAAAGCTTCCATGGGTCTTTGCTGTTTGCATAGCACACTCACACAAATGGTCATTTGACTCTCATAA
GTACCCTCAGAAATCAATATTATGTCCCCATTGTACAGTGGAGGCTCTGAACTGAGCATGACCAAGGTGCAGAAGCATCTTGCAAAACAGTCTATTTGTG
GTACAAACTGAGTTGCCTTTCTGTGTCACCTGCAATTGTACCAGGGCTCTGGATGGATTTTAAAATAGCACATGGCATGAGTTAAGCCACTATGGAAAAC
AGTGTGGAGATTCCTGAAAGAACTAAAACTAGAACTACCATTTGATCCAGCAATCCCACTACTGGGTATCTACCCAGAGGAAAAGAAGTCATTATATGAA
AAAGATACTTGCACACACACGTTTATAGCAGCACAACTCACAATTGCAAAATCATGTAACCAAATGCCCATCAATCCACAAGTGGATAAAGAAACTGTGA
CATATGTATATATGATGGAATACTACTCAGCCATCCAAAGGAATGAATTAATGGCATTTGCAGCAACCTGGATGAGATTGGAGACTATTATTCTAAGTGA
AGTAACTCAGGAATGGAAAACCAAACATCATATGTCCCCACTGACATGTGGGAGCTAAGCTATGAGGACGCAAAAGCATAGGCATGATACAACGGACTTT
GGGGACTGGGAGGAAAGGATGGGAGAGGGGAGAGGGATAAAAGACTGTAAACAGGATGCCGTGTATTCTGATCGGGTGATGGGTGCACCAAAATCTCACA
TATCACCACTAAAGAACTTATTCATGTAACCAAACACCACCTGTACMCCAACAACCTATAGAAATTAAAAAAAAAAAAAAAGAAATAGACTTTGTCTGGG
CACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACC
CTGTCTCTACTAAAAAATACAACAAAAATTAGCCGGGCGTAGTGGTGTGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAAC
CCAGGAGGCAGAGTTTGTAGTGAGCCGAGATCGCTCCACTGCACTCCAGCCTGGGCGACAGAGCGGGACTCTGTCTCCAAAAAAAAAAAAAAAAAAAAAG
AAATAGACTTCACTAGAGGAAGGAGAAACATACAAGCCAGGGGTGAGCCAAGGATGAGAAGCATAGCTCACCATCCCCCTCATTCCACAGGGAGGTCTGC
CAGGGGAGAAACTGGGCTCTCATAGCTGTTCCTTCTCTGCCGGACAGCTTCAGTACAATCTTGTTAGTGGACAGACGATCAAACACCAGGGATGTTCCGC
AGCCTGAATGCAGACAGCTTCAGTACAATCTTGTTAGTGGGTAGATGATCAAACACCAGGGATGTTCCGCAGCCTGAATGCAGGTTCCCAGATTCGTAGG
AGTGGTCTGAGATTCCAAAGTTCAAAGTCAGATGCTTTGGGTAGGGATGTGCTGGAAAACTGGCTCTCGGAGGCTGGAAGCCTTGAGTTGGAGTGTTTGC
AGCTACTTTGGCATAAATTCTCCCACAGCGGCCAGTTTCAAGCTAGCAGCTTACAAAATCTCTGAATGTTTAACAATGGACTTCCATGAAGGAGTAGGGT
TGACTTCAGCACGGCACTGGCCTTGGGACTCAGGGACCGTGACACTGGAAGGGGTCAGGGGGCACATGGGTCCCAGGGGAGCTACGCTTGAGTGAAGCCC
TCCATTGTGGAGAAGTGGCTTCCACACCCACCTGTTCACCCCGGGTTGCAGCTGGTCTCATGCCCAGTTTAGCAGTGAGGATCATTTTTTGACAACTCTG
CCTGTTGCAGGTGTTAAGTAACTTGTCCAACTTCATGCAGCAAGTGCAACATAAAAGCAAAGCTCCACCACTCTTCTCCTTGGCACAGAAAAATCCAAGT
CACTCTCCTAAGGCTGGAAAATTCTGCAGCAATTGTCCCAGTTCTACCTGGAAAATGAGGAAGGGAGTGATAAAATTCTCTGTGAAGTGAGGAGAAATGA
GGTTAACCTCGCCAACATTTATTTGATGTGCGTGTTTGTGCGCTGAGTCAGGGCCGGAGGTCGTGTCTTCGTTTAACAAATAGACCACATGTTGACAAGC
AAAAAACGGCTTTCTTTGTCTGGCAAGAAAAGCCACTGCCTCGCTTCAGACAAYGCTTTTTTTTGTTGGTGTCTCCGCTGACAACCCTGTTCAAAGAGAG
CCACAAGGAATGAAAGTGAAAGCAGAAAAAGCCAACTTCGGTGTAATTAAGAGATATCACTGCCCGTTTTTCTCAGTGATGAGGCCGCAGCTGACTCAGT
CGATAAGGGCCGTGAAGGAGTGGGGCCCAGGGCGCAGTGGGGATGGACTGGCCTTTTCACGGTCCAATTACTGGTCCAATTACTAGTCCAAGTTTTGAAG
AGGATTGAAGTAGAACTGGATGGAGATGGGAAAGAGACCAATAAAGTGTTTTTTGTTTTTTAGGTTTTTTTTTTAAGAGGGGAGGARTGAATGAAGAACT
TCTTTTATTTTCTTTTCCGGCTTGGAGCTAGCTCTGGTTCCCAAATAGGGTCCTGGGGGAAAGACGTGATGTGAGTCTGGGTGGCTGGGAACAGTCCCTC
CTGGGTATCTGCGCTTGGCCCACTTCTGCAACCAGTAATGGAGGAGACAGAAGAACGCTTGAATGTGGGTTTAATTGTTCCCATCTGTGAGTGTTGCATT
AAAGATGTTGCTGTCTTCTGTTGCATCGGGTGGTTTGGGACAAGTGATGAAGAAAGAGAGTCAGTTGATGCCTCTTGAGCAGGCATACACTCTCCCTAGG
CTGAAAATTGAGCTGCATTAATTCAGAAATATTTACTGAGCAACTACTATSTGTCAAGCACTGCACTGGCTACTGCTTATGGATTCCCCCGAGAAGAATG
CCCGTCCTAGGAGAGGGGGCAGACCTGTAAACAGGCAGACAAGCGCTGTGATGGGGTGCTGTGGGATCTTGGAAAAATCGAGAAGGCAGAAGAAGTAATT
CCGAAGAGGACTCCTGAAGGACGCCTAAGAGCAGGCAACGCGAAGCTGAGATGGGAAGAAAGCGCTCTCCAGGCAGTGGGAAGAACATGATCCAGTATCT
ACGGGCGAGAGGGACGGTGGTCTGTCCAGAGAGGTGAGAATAATTCAAMGTGGCTGTGATGCAAGGAGGAAATTGTCACAAATAAACTTGGAGAAATCAT
CAAAGGCTGGAAGAGGAAAAATTGTAAAAACTACTRTATGGAATTTGGACCTTTTTCTACGGATGACTAAGTGTTATACATTGGGGAATCACACGATCAG
ATTTGCATTTCAGGAAGTTTAGTCCTGTTACGCTGGGTAACACCTGAAGGCTGAGAAAACCAGGAGCAGGGGTGACAAAGAGGGAGGCTGTGACAGAAAT
CCAGGAGGGTGACGAAGGGCTCCCRGGCAGGGGAGAGGCAGAAGGACTGGAAAGAGGGCACAGTGAAGGGCCATGGTGGGGGATACCAGGCAACACTGGC
AAGCAAGTGGACAGTGATGAGTGAGGAGGTAGAGGAAGGTCCCCTCTTAGCTGGGACATTATGCCTCTATAGGACGCTGAACAAAGTAACCTGCGGAGGT
GTTACTTTGTGGGAATGTAGACTGTGAAACTGAAGGAACTGTTTTATCCACCTCCCCGTAGTTTGCTCTGTGCTGAGGCTGCTGTACTGCTCCTCTTTGA
AATAAAAGAGAACTCTTCCCAGAGGTGACAGATCCACCTGCGTGCTGTATGTTGCATGGAGGTGGGCGAACAGGTTATGTGGAGGGTTGTTCTTGGAAAG
ACGGATTCATTTTGCACCAGTGACAGGCTTGAGGGAACACCAGCGTGTCACACGTCTCTTCCCAGTGTCCCTGACTCATCCATGCCTAGGGATTTTACTT
TAGTCCTTCCTTGCTGTGAATTTGAAAACTTTTATTTTATTTTTTTCTACTAGCTAAGAAATGTGTAACAGCTGTGTTCACTGTTGGCCTTCTAGCCTCA
AATTTATTTTAAATACATTTCTTCTTAGTGATCTCTTCTTTGAATGCTGATGTTGGCTATGCATTAGTTTACACAATTCACAGGCTCTGTGTTGCTCAAT
TTTTAGTTCATTTATTTGACAACTTGAAATTCATCACAAGTGGTGCTTTTATTTTGTTATTTGCATCTGGAAATCATTCCTAACATGCCATGAAATACAT
CTGTTTTTTCCTTTTGCAAATCACTTTTTTTTCTTATTATAAGAGTAATATGTGTTTATTGTAGAAATTTTAGAGAAAAATACACATTGAAAAATAATAA
TATAAAAATAYCCGGCCAGGCGCAGTGGTTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGACCGGGTGGATCACCTGAGGTCGGGAGTTTGAGACCAC
CCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGTTAGGCATGGTGGTGCATGCCTGTAAKCCCAGCTACTCTGGAGGCTGAGGCA
GGAGAATTGCTTGAACCCAGGAGGCAGAAGTTGTGGTGAGCCAAGATCATACCATTACACTCCAGCCTGGGCAACAAGAGCAAAACTCCATCTATAAATA
AATAAATATCCCTGAGTCCCACCAYTGGGGATAACCGCTGTAGACATCCGAGGGTTTTRCCTCTCTATTTTTAAAGTGCGTATACATTCATAAAGACACA
GCATCAGGSTGTACCACCAGAGGTTTAGATCCCATAGGTCTGGGGTGACACCTAACAGTTAACATTCCAACAAGCCTCCTGGCACTGCTGACAAGCCCAG
CTCCATGGCCGGCCCACACTTTGAGGAGCTCCACTTCTAATCATACCTATTCCTACACATGACCATCTTGTGCTCATGSATTTTCCACTTGCCAATGTCT
CAGAAACCTTCTTCATGTCCTTCATCAACACGTGGTATGGCAGACCRTTGCTATGGCCAACACTGAGTTTCAGGGCTTCTAATGTGGGATCTACTGCCTC
TGCAGGGACCCANNNNNNNNNNNNNNNNNNNNGGGGGCCACGCCCGAAGCCCAGAACAACGGAGCCGGGCAGGAGAACGCCGAACCCAGAGGCGAAGGGA
GGAAGCCAAGACAACCAGGACACACCACCGGGCAACAAGAGCAAAACCCAGCGAAAAGAAAGAAGAACCCAGAGCCCCACCAACGGGGAAACCGCGGGAG
ACAACCGAGGGGAGCACCGCACGAAACAAAAAGCGCGAAAACACACAAAAAGGACACAGCAGCAGGCCGAACCACCAGAGGGAGACAACCCAGAAGGCAG
GGGCGACACCCAACAGGAAACAAGGCAACAAGCCACCAGGCACCGGAGACAAGCCCAGCCCCAGGCCGGCCCACACTTTGAGGAGCACCGACGCGAAACA
AACCAAAACCCGAACAAGAGCACCAAGGGCCGAAAGCATTTTCCACCCGCCAATGTTCCAGAAACACGGAACAGGACCAAAAACAACACGTGGTATGGCA
GACCATTGCTATGGCCAACACTGAGTTTCAGGGCTTCTAATGTGGGATCTACTGCCTCTGCAGGGACCCACAGATAGGTCTGTTCACTTTCTCATCTGAT
GTATCTTTTTTCTTTTTTTTGAGATGGAGTCGTGCTCTTCTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTACAACCTCGCTGTCTCAGGT
TCAAGTGATTTTCCTGCCTCAGCCCCCAGGGTAGCTGGGATTACAGGCGCCTGCCACCATGCCCTGGCTAATTTTTGTACTTTTAGTAGAGAAGGGGTTT
TGCCATGTTGGCCAGGCTTGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTGGGCCTCCAAAAGTGCTGGGATTACAGGTGCGAGCCGCTGCACCC
GGCCGATCTGATGTATCTTAAGGCATAGAGCATGACATAAAATGACTGAAGAGCACCTCACGATTTTTGTTTCTTACCCTTGTTTCTCCCTCCTGGGAAC
GGACTGACCCAAGGTTTAAGGCACCAAGAATGCCCAGCAATGTATTTTTTTCCCAGATAAAGGAAGATCTGCCACATGAAAAATGACCAGTTATCTTGGT
CTATTGATGCACAATTGCTAAACAGACAATTTTCACATCCATTCTCATTTGAAGTTCCCAATGAACCAGAGTCACTGAAGTATCCACTATTTCCCTTCCT
GTTGCAGAGGAATCCACCTTGAAGCTATGAATACTTTTTTGTTGTATTTATATTTATCAACACTTATATCTTCTCCCTCTCCTGATTCAGTGAGATCAGA
GAATATTAAAGCCGGAGGGGCTCTGGAGGTGGCCTGCTCCAAATACCTCACTTGATAGATAAGACACAAAATGATTTTTCTGGGATCACAAGATGGGAAC
AGTCCTTAATAAATCTCTACTCCCTCACTCTGGTGCCCTTTTGCCTACACCCAGTATTCTGAGCCTTCATTGTCCTAGGAATGGCTGCCCTGAGCCTGGG
GATGTCCCAGGGTTTTTAGGAGCCTCAGCATAAGCTTGACATAATTGATGTCAGCATGTTCACAATCTCTATAGGATCATTTCTACTGAGACTAATCTTA
TTCTTTATATTTTCATTTCTCTTCGCAGTGTTCTTAGAGGTTGATTTTTTGTTTGTTTGTTTGTTTTTACTTTAAGTTCTGGGATACATGTGCAGAATGT
GCAGGTTTGTTACATAGGTATACATGTGCCATGGTGGCTTGCTGCACCTATCAACCCATCATCTACGTTTTAAGCCCCGTGTGCATTAGGTATTTGTCCT
AATGCTCTCTCTCCTTTTGTCCCCAACCCCCAACAGGCCCCAGTGTGTGATGTTCCCCTCCCTGTGTCCATGTGTTCTCATTGTTCAGCTCCCACTTACA
AGTGAGAATATGCGGCATTTGGTTTTCTGTTCTGTCTTAGTTTGCTGAGAATGATGGCTTCCAGCTTTATCCATGTCCCTGCAAAGGACATGAATTCATT
CTTTTTTATGGCTGCATAGTATTCCATGTGCATATGTGCTTTCACTTTAGGAGCTCAACTAGCAACTCCCCCATGCACTCCCTCCTCCAGTGTCAGAGCA
YACTGCAGGACCCACCCAGTCTTTGAATAGGAARGCACTGGCTGAAAAGCCCCAGAAAGTGGGGATGTACCAGTACAAGTTTCCCACCTGTGTATCCCAC
TGTTTTGTTTGGGGAGAACAACGGATATAACCGAAACGGGCTATCTGGTGAGCATAAGTTCTACATTAAGTTGTCCCTGTGCCTGAACCATTTTTGTTTG
TTTGTTTTTGTTTTTTTTTTTTTTTTTTTGAAATGGAGTCTCATCCTATCACCCARCTAAAGTGCAGTGGTGTAATCTCAGCTCACCACAGCCTCCGCCT
TCTGGGTTCCAGCCATTCTCCTGTCTCAGCCTCCTGAGTGGCTGGAACTACAGGTGTGTGCCCCCACACCTGGCTAAGTTTTTTATTTTTTAGCAGAGGT
GGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAATTTCTGTCCTCAGGACCCACCTGGGCCTCCCAAAGTGCTTAGATGACAGGTGTGAGCCACAGTGCC
TGGTTGCCTTGGGCCATTCTTCATCCAGCTGCCTCCTACTCATCCCTTGGGTCTGAGGTTGAACGTTACCTCCTCGGGGAAGCTTTCCTCAATTCCCCAA
ACTGAATCAGGTCCTTCCTCATGTGTAGCCGTTCGCCTAGTCCTTCTCCAGAGCACTGATCACACCAGTGATTAATTAAGTATTTGTTCAATTGATTATG
CAGCAAACCCCAAGATAGCAGAATCTCAGTTTTTCTTATTTACCCTTTTATCTTCAGCATCTAGGATATGTCTGGTGGACTAGGCTCTCAATAAATATTT
TTTGACTGAATGAATGGTCAAAAAAGGCCAACTCCAGTGGTCTCTCTACAAGGTGATAAAAGAGTAAAGGGGCCGGGCGCAGTGGCTTATACCTGGAATC
CCAGCCCTTTGGGAGGCCGAGGCGGGCAGATCACCTGAGGTTGGGAGTTCAAAGACCAGCCTGACCCACATGAAGAAACCCCGTMTGTACTGAAAATACA
AAATTAGCTGGGTGTGATGGCACATGCCTGTCATCCCAGCTACTCAGGAAGGCTGAGGCAGGAAAATCGCTTGAACCCGGGAGGCGGAGGTTGCSRTAAG
CCAAGATCGTGCCGTTGCGCTCCAGCCTGGGCAACAAGAGTGAAACTCCACCTCAAAAAATAAAAAAGAGTTAAGGGCAGGCTGTCTTGGACACATCTCT
ACCCCTATCTTACATGCAGAACGAATGGTATTAATTTTGTGATGAATAAAAAATATTTTTTCTTTGGATATATTTTAAACTTGGATATAGTTCACATATT
ATAAAATTGAGTATATTTGATCCAATATGTCAAGTACCATTAAATGGATAAAATGATAAATTTGGTAGAAGAAAAAATATTTAGGAAAGTCTCAGAAATT
TAAATGTAATAAATGAATATGTATTCATATACATACTATAAAACTCATTATGTAACATATTACATAAAGCACATTTTGTGTTGAGGAGTGAGTTCCCTGT
ATTTAGCTTCATGGAAAAAATAGTTTCTTGTAGATAAATATTACAGGTGACTGAACTAAAAATATTTTGACAATGTGAACTACTTGGATAGCAATATTTT
GAGTTGTTTTATACACTAGTTCCTTATCTTAAACAGAAGTTAACATACTCATTTATCAATGGAGAGGTGGCATTTATCATTAGGACCATCAAAACAATTG
TGTTAAAATCTCAGGGACAAGAATGAGTGCAGGGATTGTAAGCTCCTCTGCTGGGTGCTTCGTTCTGCTCTTCTATRCAACCTGCTCTGCATCCTCTTGA
GTGCTTTTTAAACTTCCCTCGTCTCCTCCTTCGTTTCCAGGCTTTCTCACCCACYACTCCTCTTTGCCGTTCCTCTGCCTGACTCTATTAAGATAAACTA
ATCCTTGGAATTTGCTGCTTTGAAGTTGATGTCGGCTGGGAAACTCATACACAGGCGTGTCCCAGTCCTGTGGTCTAGAATCAACATAGTGAGAMGAGAC
AGAAGGCTGGTGGTTGCTGCTCTGCTGGTTACCAGCTGTTTAACCCTCGGATAGGTCACACTGAAAACCCCTGGGCCCTGTTTGTTCTTGTATGAGATAA
GGCTAGTAACACTCACATTCCACGTTTGGGGAAGGATAAAATGAAATCGCCTGATTGGTCATACTTGACCCACAGCTAGTGCTTGGTCAACGTGCCCCTT
CCTTCTTTCTCTCCCTACCTGGAGAGCCTACAGATGTGGTAAGTGATTCTGAAGGTTTCTCCCATGAGGAAGTGACACAGGCTTGTACTTATTTGGATAG
TCAAGGCACCTTTTGTTCCTGCGGTTGACACTCTTCCAAATAGTTGAAGTTACGTGTAAGTGAACACCACCTAACCAATATGCTACTGTATTTATAAAGG
ATGCTAACTTGAATTAGCTTTGCCCAAGCAGAATATTTTAAAAAATAAAAATAAATAAGAAGCAGTAGTCCATTCTACCTGTCTGCCAATTTCTATGTTC
TAGTTAAGGACATGGGAACACATGATCAGCAATACATGATCAGATATAATCACCAYGAGACAAGGTGTGTTAACAACTTTACGTTCAGGGCCTGGAACAT
AATAGATGCACTGTATTTTTTGACTAAATAAATAGCTATTCCTGGAGGTGTGATGATTATACTATGCCCAGATCCTGCCAAAGGCAAAAAGGCAAAAAGT
TATATTCAGACCAGCTATCTSTCTATTTTTTTCCCTGCTCAGGGCTAAATTTTTCCGAAAAAATCACATAAGAGTCCAACTGTCAGAATGAGTTCATCAC
CTGGGCTGGGGATCCCAGATTCTGTGAGCAGAAGACTTCATCCACCCAGGTGTCTATTTCAAGAACAGTCTCCTCTTTTGSAAAAGCGTTCATGGAAATG
GCCTTCTCTCCTAACAGACAGCAGCTACAGAGCCTCCTTTCCCTGGGCTGCAGAGGGTAGGTTAATGGAGACTGAGGAGCCCTCTGGAGAACAGCAAAAG
GAACACGATTTCACCCTTCTTAGCATCCTGGGGCTTGTGATACAGATGGCCCATGTTGCAAATGGAGACGCCGTGGCTATGTTGCCACTTGCCCTTGCAG
ACACAAGTACGGGGACATTATATTCAATTTTGGGTCTCCATCCATATGCTGCTCCTCCAATTTATTTGTCTACATGAAGGGATATGAAGCCCAAAGCCAG
AGGACATCCAATTCGGCTTTAATTACAGTGATGAGCTGTTTGTCAGGGTGCCATGAGCTGCAACGCCACCTTGGTCGCTGACAAACTCGGAGCAGGGGTG
ACACCAACTCCCCTGTTGGCTGCTGATCATTGAGGCTTGGGCAGCAGCAGCACTTAGTTCAATATTTGTTGTTTGAAACCCAACAGTTATGACTCTGCCA
AGCTTAATGAAAGGGAGAAAATAATTATCAGAGAGCTTATGCAATTTTGAAGACCAGGGGCTTTTAAACAAAGTTACCATGCCAGAAGTGTTCTTGGCAT
GTCATGAGGACTGTTGCCGTTATTAGCGATGACAATGCAGTCATTATTTTTACACTGGCTTAATTGTTCAGCAGACACCAAGGACCGTGTCAACACAGTT
CTGCAAATGGAAACAAACACGCCATCATTCAGGGTCCCACTTTGATATTCTGCCTTTGCACTTGTTTCATTTTTTCYTTGAAGAACATTCTATAGATCGA
AGGAATTATTCCAGACCTCTGATTCATGCTAGGCTTATTCTCTTCCTCATTCAGTCTCTCAATCAATCAATACTTACTGAGTACTTGTCATTGCAAGACC
TGAGGAATAGAGGGGCTAGCAGACCAGCCTGGGTTCTGCCCTTATTGGAATCTTTCACCTTCTACTGCAGAAGGTCCCACCTTTAGGTAGAATGATCAGA
GATCTCTCTGAGGATGTCACATTTAAACTGTGACTCTAAGGATGAAAAGAAGCCAGATTTGTAACTAATGAAAGGATGTTCCAGCCGGATGCTGGAACTT
TGGGAGGCCGAGGCGGGTGGATTACCTGAGGTCGGGAGTTCGGGACCAACCTGGCCAACTTGGTGAAACCCCATCTCTGCTAAAAACACAAAAAATTAGC
CAGACATGGTGGCAGCACCTGTAATTCCAGCTACTCAGAAGGCTGGGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAAGTTACAGTGAGCCAAGATTGT
GCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAGAAAAGAAAAGGAAGGAGGGAAGGAAGGCAGGAAGAAAGG
AAAGAAGAATGGACATTTCAGGTGGAGGGATAGCAACTGCAGAGGCCCTGGTAGTTGAAGACATTATGTCTAGATAACTCCATCACCATGGCTTATGCCA
TGTAGGGGTTTGTCTGTCTCACATAGCAAGAAACCTAAAAGTAGGCAAAAGTTTACCAGTGCAGCCATGTCAGGACCAGCATCTCTGCAATTTGTTTGGT
CTTCCCTTATGGTTACAAGCTGCCTGCAGCAGCTCAGGCCATCCTATCTAAGGCTGGGGCAGGAGTAACAGGAAGGTTTTAAGCTAACTATATCTGTCAT
TTTTTGTTTGTTCTATTTCAAGAAAGCAAGATATTTTCCAGAAACTTTGAGCAGTTATMTGTGTATGTCACGTTAACCAGAATGGTATTCAACAGGCATC
CCTAACTGCAGCAGCAGCTGGAGAAGTAAGATTTAGTTGSAAATACCAATAATTCAARCACAATTGGAGTTTGGTTATCAAAGGACAAAATAGGCCATAG
ATATTTCAAAAAAAATGGTATGTTCAAAGTATTATTTTAAAAAGGCCAGGGATGGGGCCAAGCATGGTGGCTCACGCCTGTAATTCCAGCAGTTTGGAAG
GCCAAGGCAGACAGATTCCTTGAGGTCAGGAGTTCGAAGTTAGCCTAGTCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCTGGTGT
GGTGGCACACACTTGTAATCTCAGCTACCCAGCAGGCTGAGGCAGGAAAATTGCTTGAACTCAAGAGGTGGAGGCTACAGTGAGATGAGATCACGCCGCT
GTACTCTGGCCTGGGCAACAGAGTGAGACTCCATCTTAAAAAAAAAGCCCATGGAGGCTGCACTCCAAAGRTGGAGCGATAGCATAGTGTAACATGATTT
TTGAGATGTGTGAAGAGGTCAAATCCACAGAAACTGAGGGCCGTGATCAGACATCACCAACTGTAGTCAACCACATGTTAAAGTTGAATTGTTCCGTCTT
CTGTTTTCCACATCCACCTTSTTCCGTCCACCCTTTCCTGAAGGTCCGTGTGAGGCCTGACCTTGCTTTGATTCTTGCAGTCCTCTTCTAACTGTGCCCC
TTTGCCTCCACTTCCTGCCTGCACCCTTGCATCTCCTATCTGTGACTTTTAAAGAAAGTAAATCTCAACATTCCTCAGGGCTCCCTATGACGTAAATTCC
AAGCTTCTCTGTGTGACCTCAAGTCATTTCTGATCTGGTGCCTTATCCTGCAGCCACAGCCCCTGCCACTTCCTCCTTTCACGACTATCTTATCACAGCT
GTCCTGTTATTTGTGATTSTCCCAACATCCCTCAGGAACATTTGCCTTCCTTGAAGTCCTTTTTCTTCGGGTCCTTTCCAGAGTCAGAGTGGGCTTTTCT
TGACATCCTTATGGGAAAGGGACAACTCATTCCTTTGCCTTTCCACCCCACTTGCGTTCCACCCCTAGGTTGCTACACATTCCCCTAGAGGGCTTTTGTT
TGTCCACCTGAGTATCTTCTTCCCACTGGTCTCTGGGGTCACAGGGGGCAAAGACCTCACCTCACTCATCTTGGTCTCTGGCTCTGAGCACAGCACCCTG
ACACCAWCATAAGCTGTAACTACAAATTCAATGGAATTAGTATGAAGGTAAGGAGCCAGCAGGTTCTGGTGGCTCAYTGAGGCATTACTGTTCTTGTTTT
TGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTACAGTGGTACGATGTTTGCTTAATGCAACCTCAGCCTCCTAGGTACAAGCAATTGATTCTCCTG
CCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGCGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGGCACRGGGTTTCACCATTTTGGCCAGGC
TGATCCTGAACTCCTGACCTCAAGTGATCCACCCGCCTCAGCTTCCCAAAGTGCTGGGATTACAGATGTGARCCACTGTGCCCAGTTTGAGGCATTGCTG
TTTAAGGGGCCAGAGAGACCACAATAGGCACAGAGGCTGAGACAACATGGGTGGTACCATGTAGACAACATGTAGACAACATGGGTACCATGTAGACAAC
ATGTAGACAACATGGGTGGTGCCATGTAGGCTCATCCCTCCATGATTTGCTGGAAGAACTAAGACGGCAGTAGGAGAAGTGGATAAAATAATGTCTGTGG
AGTCAGACTGCAAGGGTTCAAATCCCAGCCCTGCCATTCACCAGCCAGATGACCTTGGTCAATGTACGTAATGCCTCTGTGCCTCATTTTATGCACCTGC
ACAGTGGAGGTAATAATAGTGCCTGCCTCATAGGATTTTCCAGAGGATTGAATAAGATAATCTTTGAGAGTATTCCAGTACATGGTAAACTSTCGCACCA
TATTAACTATTGCAGTATGGTGTTATTATTATTATGAATATCTAATACAGTTAATATCTTTGTACGTAGGAGTTTTRGCAGGCAGGTGTGAATGGCACTT
TTGAAGATGCAGAGACAGATTTATCCTTATACTCCTAATATTTATCCTCAAAGACACTATTTAACTCATTCAAAAATATTTACTCTTTTTTAAAGACCGC
TTTCAGCTCCTTTTTATACAAAAAAAAGGAATTCTATCCTCATTCTAGCAATAGTAGCCTAAAGAAAATCTTATTACACTCATTATCTTAAATTAAGGTA
ATTGAAAACCACTGTTTAAGAGTAGACCCCAAATGTATCATAAAATTAATTCAATTATAAATAACAAGAATTGACTGTACTTGAATGTGCATGAAGTATA
GAATCATAGTGGAACATTTAAGAAATATGTCCTTATCTTGTTACTATGGCTACAYGTTACTCCAAGATACAGTAGTTCTATGGTAAGGTTGGAATTACAT
TATTTCCTCTCTATATTGAAATATTCAGCAACTAATTTCCTGTAGCTTCATAGTAAATCATGCTAATGACCTCAGAGGTGGAAACCAAGGTGGTGAGACT
KTCTCCCTGCTCTAAGGTTATTCCATTAAACAAAGCAGAGAATACACATTTATACTCATTTGATCAGGAAGCATAAGGAAGCTTATAATGAGAAAGACAT
GGCAATGACATCTCATGAGGCGATGTTAACTTTAAACTCAAGTATTTAATATTATTTATTCATTGCGTCCATGATAGGATCACAACAGTGAGAAAACTAG
AGATTCATATGGGCAGGAACTGAGAGGGGATATGGTACAATTGAATTCAATTCCACAAGTAATTCATGGAAACTTATCATGTGCTAGGTACGTATTAGGT
AGGATACCCCCATACCCTATTCTTTGTCTACTGAAATTATTATAATATTTTTGTGTATATCACTAAACATTCAAARCAGTGGGAATAATGAAGAAAGGAA
GTTACACTGGTTTCTAAAAGCCCTATCATCAGTAGCAATTTCTCAAAAGCTCTTCATGACATCCTAGAGACATCAAAGCATTGGAAGCACTGGGGTGCTG
GGGCTGGCTCACGGCATCTTGCACCAGCGGTACATATCTCTTCCAAACTCTGTATTCAGCGATGTCTTGTTGGTAGTTGAAGTCCACCATGATGGTAATA
TTTACACCACAGAAACAAACAAATATTACAAGTCAGGTCTTTTTTTCTTCTTCCCAGAGAATTGGCTATTAAACAGTTAGCAGCATGCCACTGATTACAA
GCAGCGATGTGAGATTGTATCTTCTTATTTCAAAGACTGCTCTTTCCACTTTATGTGTTTGTTTCCCTTTCCCAAACCTCTTCCACATTCACCTGTAAGA
CTGATTTTTGCCTCTCTAGATGAAGGTGAGATAAGAGAGGTTTGTAAGCTTGTCTCTGTTTACTTCACCCTGAGTCAAGCCACCAACTTCTCTTGCTGGA
CTTTGTCTGTAACTTTCAAATTAGTCCCTTTGTGTTGATGCTTGCTCCCCTCCAATCCAATCTCCATCCACCAATGAGAGTGATCTTCTAAAATTGTAAG
TCACTTAAGCAAACAGAAGAAAAGTAATAATAATGACATCCCTAATTCTCTCTCTCTCTGTCTCATGTCTATGTCTATGCCTATGCCTATATCTGTGTCT
ATATCTCCCTATCCCTACCCACTTTTCTCTCCCTTGCTATCATTATCTCTGTCCCCAATATATGCTTCTGCACATCTCACATTCTGGCTTTTTCTTATGC
TGCTYCCCATAAGACCCTTCACTTCTCTATTGACATCATTTTCACCTTCAACTCCACACTCAGATACTGACTCATACATATGATTGATTCTCACCWGCCT
GTGTCTTGTTGATCCAGGTCTCAGCTTAGAAATTACTTCCTCCAGGAAGCTGTCTCCAAGTCCTGTTCAGATATCTGTCCTTAYAGAGCGTTTTTTATCT
YACTTACTATACTTTTTGTTGTCTTACCTATTTACTATATGCTTATATAGTAAGCAACTCTTAGGAATTAGACAAAAGTTCCCATTTCTGTAAGACAGAT
TTCCAAAACAGGACAGATGCTTGATGAGGAATGCTTGAGCTGGATTTCAACCTTTTCTTCCCAAGTATTTTGTGTGGTGAACAACCTGCATGACTGGCCC
TTCCCCTTAACCATTTCCATTATAGCATACATTCTGTCATTGTAGCACTTAGATGTGTATAGCAATCTTTATTATCTGCCTCTGTCCCTGAAGATTATAT
ACCCCATCTTTTTTTTACATTCCCAGTGCATTGTGATCATATATTATTCATCTTTATGTGAAACATGGTGACAAGCATATAGTAGGTGTGTACATTTTGC
TTGAAGTAAAGTGAAATCAATCTTGTTCCCATACCACTCAACCTTACTACCTTTATTCACCCAGATACTAATCAGGTACTGCTTCATTCCAGATGCTTAG
AAAGATGAGCAAGGCACGGAATATCCCTGTAGGAAACTCGAAGGCCCATCAGAGAGACAGACACATAATTGAACAGTGGTGACACAATATGCTCCATGAC
AAACATGTGTGAGACTAACTGCATTAGAATTCCCTGGCATGCTTTAATGAAGATTTCCAGACTGTACCTCACACCTAATGAATTAACATATTTGTGCTGC
TTCTTCTGTCTTCTCTGTGCCCCTCTTCCCATCGTTTCCAACCAACTCAGCCAGTCACTGCTCCCTCCAGCAGGGAATATGCCCCTGTGAARTGTACCTA
TGGGAGGATAGCCATCATTGGCTAGACCTGGAAACTAGTTATTCTAACCCAGTTAATAACAAACCCAGAACAACTGAACCCCTAAAAGGCGGTGGATTTG
GACAAGAAGTTCTAGAGAGTATTTGCTAAGAGGTGTTGATATGTTGCAAAGAATCAATCACTTATTTTTCAAGGATAGCTTTAAAAAAAAATAAAAGCCC
ACCTACTTAGTCTATTAGAAATAAAGTCAGTAGGCCAGGCACAGTGGTTCACGCCTGTAATCCCAGCACTTTCTGAGGCAGAGGCGAGCAGATCACCTGA
GGTCAGGAGTTCACGGCCAGCCTGACCAACATGGTGAAACTGTCTCTCCTAAAAATACAAATTTAGCTGGGTGTGGTGGCACATGTCTGTAATCCCAGCT
ACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGAAGGTGGAGGTTGCAGTGAGCCAAGATCGCGCCATTGCGCTCCAGCCTGGGCAACAAAAAAA
AAAGAAAAGGAAAAGAAAAAAAAGAAAGTAAATCACTAAGTAGCCTTTTGCAAGACAAACAAAAAAAAAAAGAATATTTAGGATTTAGTCTATAACCATT
GACTTTTGGAAATCCTGTCCTTCCTAAGGAAAATTAGAGGAAAAAAAAGAGCTGAAGTCTCTGTTGCATGAGAAATACCATTTGTGATTAAACTGCTGTG
AAATACATACTCAAAACTGTGGGAAATTCTTGCCACATCTTTCTAAAATTGCTGTTTGATGTCTTACATGCCAAAATGACTGTGAACTAGTGCTCTCTTG
AAAACCACCTAAATGATCCACGACAAGGAAGTCATTAATTAAATAATAAGGTGGATGTGGACTACTATGCAATCATTAAAAATCTATTCTCAAATAATTT
TTAAACATATAGAAAAATGCATAAAAATACTATTAAGGGAAAATATAGGTTATAAAACAATATTATAGCATTGTTCTAGTTTTACTAAAAAATCGTGTGT
ATTCACCAAAATGTTGACAGTAGGGTTTAAAATGGACTGGTACTTAAAGGTGATTCCTTTACATTTTTTTCTACTTGAAATATTTCTATATTTATTTGAC
TTCTTCATAATGGCCATGTTTTATTTTTAGGGCTGCCATTCAATTGGTCATCCAATCTGGGACAGGTTTCAGAGTAAAAGAGGAAACCTTAGCAATAATA
TGGGACTATAGGCAAAAGCAGGACTGTTTTGGACAAACACGCTATGTGGTTGTTACGGGCTGAATTGCATCCCCCAAAACCCATGTGTTGAAGTCCTAAC
CTCTGGTCTCTCAGAATGTGGCTTTCCTTGGAAATAGGGTTGTGGCAGATATAATTAGTTAAGATGGGGTTATACTGAATGATATAGATTGGGTCTTTAA
TCCAATATGACTGGTGTCCTTAGAAAAAGGAAAAATACGSACATAGACACGCCCACAAAGAAAGAACACTGTGTGAGCAGGAAAGCAGAGATTGGGATGA
TGCATCTACAAGGCACGGAATGCCAAGAACAGACAGTAACCACCAAAAGCCGTAACCGCTTAGTGGGTTCACCTTACCTGCTGCCTACCCAGAGCCAACT
TCTCAAGACAGGGGAATTGCAATAGAGAAAAAGTAATTCATGCAGAGCCAGCTGTGTGGGAGACTGGAGTTTTATTATTACTCCAATCAATTCCCCTGAG
CATTTGGGGATCAGAGTTTTTAAAGACAATTTGGTGGGAGGGGAGGGGCAGTGAGTTGGGGAGTGCTGATTGGTTGGGTCGGAGATGAAATCATGGGGTG
TCATGTTCTTCTTGCACTGAGTCAGTTCCTGAGTTGGGGGTCATAAGATCAGATGGGCCAGTGTCTCTATCTGGGTGGTGCCAGTTGATCCATCAAATGC
AGAGTCTGCACAACACCTCAAACAATGACCTTAGGAGCAGTTTAGGGAGGGTCAGTATCTTACAGCCTCCAGCTGCATGACTCCTAAACCATAATTTCTA
ATCTTGTGGCTAATGTTAGTAGTCTAATCCCCAGGCAAGAAAGAGGTTTGTTTCGGGAAAGGGCTGTTATCACCTTTGTTTTAAACTATAAACTAAGCTC
CTCCCAAAGTTAGTTCAGCCTATGCCCAGGAATGAACAGGGACAGTTTGGAGGTTCGAGGCAAGATGGAGTCACTTAAGTTGGACTGTTTTCACTGTCTC
AGTCATAATTTTGCAAAGGCGGTTTCAATCCTATAAGACCAACATACAACAGATTCTCCCTTAGAGACTCAGAAGGAACCAACCCTGGCATTACCTTGAT
CTCAGACTTCTAACTTCCAAAACCATGAGACAGGAAATGTCTGTTTAAGCCACTCACTTTGTGGCATTTCGGTTTTTTGTGGTAGGCCTAGGAAACTAAT
ACAATGGTCATTGTAGTTATTTTATATTTAGAAATTAAGAGCAATTCTGGAGGTGAGAGATGGGCAGGAGTAGGGAAGAATGAAGTTCAGTGCAACAAAA
GAAGCTTGTTCACTCAACTAAGACTGTAAACAATGCTGTTTTTCAAAAATACGTATTCCTTCTTTCTGCCTGGCCCCTCTTTAGAGAGCCATGTCCTGTT
GATATCAAGCTTGACCATGTGACTTGCTTCAGCCTGTGGCGTGTGAGTCACAGTCACATGTTCCATTGAGAAATGGGAGCTTTAAAGACCATGCTACGGT
TCTGCCACCTTTGTCGTTTGCCATGACACGAGCTTATCCTAAGGGAGAGCTGCTTCTTTAGCCTGAAACAGAGTTGAAACTGATCTGCAATGAACCTGTC
ACATGAGATAAAAATGTATCTTTTGGCCAAGTGCAGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCTGAGGCTGGGGGTTCACAAGGTCAGGAGA
TCCAGACCATCCAGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATAAAATAAAATTAGCAAGGTGTGGTGGCATACACCTGTGGTCC
CAGCTACTGTGGAGGCTGAGGCAGGAGAATTGCTTGAAACCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAACCTGGCGACAGA
GAGACTCCATCTCAAAAAAAAAAAAAAAAATTGTATCTTTTACTAGTGTTATTCACCAAGATTAGGAGGCCGTAGTGTTACTGCAGCAGAATGTAGCCTA
AGCTGACTGATAAAACATTGACTAAGCAACTCTCAGGTACCATGCCAGGATGAAAAAATTAATTAGACACAGACCCTGCCAGTGAAGAACTAACATTATA
CTGTGTACCATTGGCCTTTAAAAGATAAAGATTTTTGGCCCCAGGTGTGTTCTATATTTTCTGTAAGACCTGCAAGTAAATGTTAAATGATGTTATTTCA
ACCGGTTTTTCTGTAGCAAAAATCTTTAAAAGCTCTCATATTCAAAGTGGTTCTTGCAATCTTGAACTACATGTACAGATATAAAATCTGCCAATTAAAA
TTTTATGGTTTAGGGAAAAAATCCCCTCTGAAAAATAAACCTAGGTCAATTATTTCATTATTTAATTCTCATTTGGAAAATAAGATGTTCAGACATTGAG
TTATATTAGAAGGAAGAAAACCACTTCTGTGGGAACAGTCAAATTTATTTCATTTACTAYTAGAGAATGTTAATTTCAAGAAGCAATCTTTGAAAGCAAC
CAAATTTGGCAAAGACAAGTAGTCTTCCCTGAGAAATATTGGACAGCAACAGATTATATAAGGAAAGGACAGAGGGGAGAGACATCTCAAGTGTAGGTCT
GGATGGAGGTAGAAGAGTCATGTTCTAGAGTCAGCATTGTAAAGCAAAAATTGCATGGTGTCAAAATTATCCTTGAAAGTCCCTTAAATGGCCCTTAAAT
TGTCTGGACCTGTGCCTTTAGAGGTTGAAAGGCCAAGAATTAATGTCTTTTGTTTCTCTGGGGCAGTGAAGGCCAAGGTCTAATTTGAAAGGGGCAAAGG
ACGATGGGGAAAATAAAGGATCTCTGCCTTTCTTGGTCCATCTTTTGGTCTCCTGTCCTCTCTCTAGGTGACTCTTCCTCCAGCTCTCCTCCTGCTCTTT
CCCCTCAACAGTGCATATAGCTAAAGTCAAACAAGTTAAATGTGCATGTTAGGCAACTCTAGTCCTTACAACTTAAAAACTTTAAAATGGATGCATTGGG
GGCCTATTGTGTACCCTGTCCTAGGCTAGATATGGAAGAGATATAAAGCAGGGATGGGGGTGAGATGAGGAGAGGAAACAACAGACCTCACAGGAGCCAG
GAAGACTGAACTGCAAACAGATGATATAAATACAGTGTAGTCAAGTCAAGGCAGTAGCTCAGGTAAACACACAATGCCACAAACAGGAGTTCTCAAACCT
TGGCTGCATTTTAGAATCACTTGAGCTTCCARAAGCTTCAATGCCCAAGACACACCCCAGATGCACCCCAATTGCCAGTGACCCTGGAATCTTTGGGGAG
GACCTGGTCATCAGCATGTCTTTGAGCTCCCCGGGTGAGTCCACATGCAGCCAAGGTTGAGACTGGGGGCTACAGCTGTGTAGAAGAGCATCTGGTGTGG
GTCTGAAGGCTGGGCAGGAATTAGCTGGTAGCAGTGTGCATTCCAGGCTAGGGGAACCCCAGTACTAAAGCTTCTTCAGCACAAAGWGGCTTGGTTTGTG
CTTTGAACATAGCGTGGTTATAAATTAAAGAATAACCAAACTCCTTGAGTTGAATCAGTACACACCATAATGCATCAGCTCACATTGACATGGCAACCTC
TTTTCATCTCTCTTTGTTAAGGGCCACTGGTTCTTTAAAAGCATGCGTATTAATGGATTCTATCTGATGATGATTCACTCCATAGTTCCATCATGTATGC
ATCTCTAACCAGTATAAGCAAAGCATTTTCCTTTCAAGAGTCTAATCCTAGCATTGTGCCATATCCATGGCCCTCTAAGATACACACCCCATCTACAAAG
GCGACATGTACTCTTAAGGTACAAAGCATTTCCTTTAGGGGAGTGATTGCCTGTGTGTCCAAGCTGATGAAGGGTGCTCTTTTAAGTTGGAGAAAATTGA
TTTTGTTGTGGTTGTTGCACAAAGGTTTATGTTTTCAAAGCCTCCAGATAAAAGGCACCATGGGCAGCTAACAAGCCCCTAATAGGACTACATCAAGTTT
TACTCACCTGCTGCCAGGGCTTGACTTCTGCGTCTTGAYGACATGAAACCAGGCTTTGACAGCATTCATTTTTGCTGAAGGACCCTCCCCCAGCCTCCTT
CCATAAATCCTATGCTCCTTTATTCCGTATTCATTCAGCACAGATGTTTTTATGGCCATAATATATTTATACTAATTCAGAGGCTTGCCATCAGTAGATA
GGCTCATCTCTCTGATCCGGAAGGCGGCAGAGGCACTCCTTCTGACATTGCAGATGAAAATAAGGTCTGCTTTTTTCCCACAGYGCTCTTCAAAGGAGCA
ATTTTCTAAAATTCGAACAAGGGTRTCATAGTTAATAAGATGGAATTCTCCTTTTCTTTTTCTTATTATATTTTCCAAATCAAGGGCAGTAGATTCCAGA
ACTCCAATGACGTCAGGCCACTGTACTTTSAAAATGCTGTTCTCAGTCAGGTTTCTTATTATCTGATCCTGGTTCAGTAGATTGTCTCAGAATTGACTTT
TTAGATTAATTTTGATTCTTAGTTAAATTACTTTTTAATAGCTAATTACCACACAGTCTATCTGATTAACGGTATTGTGATTCAGATCAAGCGGTGAGAT
GACTACAGGTAACAGACCCTTGCTATCATTTGGGTGTTCTYWCAAGGAACAGGAGCCAGGTAGTGAACCATGTGCCTACCCTTTGGGCAGGGAATGGGTG
GCTCTAAGAGATGACAGATGCTGTCATCCGGAATCAGTTCTCATCTTGGTCAATTGGATGAGTCAGAGAGATTTTGGAAACATCTTCAGGCTAACCCAAT
TTACATTATAGTTATATTTTAATTGCCTTTTAAAGTCTAAATGCAGTTGATTGTGAAAACTGTGTCACATCATTTAAGGGAACTAGAGCTTTCTTTTTAT
GGAAACGCAAAAGGACCTAGCAGGAAAATACCACATTGCCTAAGCAGTAAAGAAATATGTCCGGCCGGGCGCGGTGGTTCACACCTGTCATCCCAGCGCT
TTGGGAGGCCGAGGCGGGCAGATCACAAAGTTAGGAGATTTAGAACATCCGGGCTAACAGGGTGAAACCCCGTCTCTACTAGAAATATAAAAAAAAAAAA
AAAAAAAAAAAAATTATCTGGGCATGGTGGTGCTTGCCTGTAGTCCCAGCAACTCGGGAGGCAGAGGCAGGAGAGTAGCTTGAACCTGGGAGGCAGAGGT
TGCAGTGAGCCAAGATCATGCCACTGCATTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAGAAAGAAAAAAGAAAACAGAAAGAAATGT
GTCCTCAAAGCTTCCTCAGATTGTTCTAGAAAAGAGCACTAGCAGCCCCCAACCAATGCATGCCGTGAACTCATTCCAGGTATCATGCACCTTTGATTGT
TTCACTTTCCTTGGGTCAAACCTTTAGAAAGTGGGTTCCCTGTCTCAGGCACTGAGCTAGGTAAATTCAGGGGATAAGATCAGGAAGAGTCCCTTCCTGA
ATCCAGGTACTCCCACTCCCCCCGGACAACAAGGTCAGAGGCAATCCCTCGCCTTCACCTCTCATCTTATTTTTAAATAAAAGTTTCTCTTTCTTTATGT
TCTTCGCTTTCTCCTTCAACAAGATTGTTTCCTGCTCCCTCCCCACCCCTGCTGCCTCTCTGAATGTTGTTTCTCCTCACTGCACTGTGCTGTGCAGTGA
ATCCATATTTCTTTTCCTTTTTTCCTTTTCACACTTGACCACGTCTTTATTCAATAACTCTGCCCCTTCACAGCACAGGGCCCGGTGGAGGCTGCCCTTC
CAGGGAGCCCAGGCTCACGTGTACTTGCCAGGGCTGGCTGTCCCTGTCCAGCAGGKCACAGACCTCTCCTGGTCTGACACTGAGGAGTGACCAGTGCTGA
CTCAGAGCAGCCCATCYACGGGCGCACTGTTCAGAAAGTCGTGGAGGTAGATATACTGCTCCAGCGTTGGGGTCATAAGGCCACAGGCCGGGGACTGCTG
CAGAGCCACGTTAAACAGATCCACGGTACACTCAGTCCCTGCCTGGTGCTGCAGCTGCTCCATGGCCAGGAAGGTGCCCAGCTGGGTCGCACCCTTGCTC
GAGTCACTGAGCAGTGTGCCTGGCTTCTGGCTCTTGCCCTGAGAGCAGCACTGGCCCATGGTAGCCAGGAAGGGCGGCGGGGTGGTCCTTGGTACCTGGA
GCCATCAAATGCTGGGCTCTCTTTGGGCTTCTTCGCAGCAGCCTTCTTTCTTTACTTTACTCACTTCCTAAATAACACTGTTCTCAGGACCTTCATTACT
GCATATATATTAATAATTCACAAATCTGAATTTCATCCTTTGCCTCTCATTTGGTTTYCAAATTTATTTTCACTCACAATTCCTACATAGTCAGACAYCT
TCAACTTCACGTTTCCATTTTGATTCTTTGTCTTGCCTTCCATGTCTTGTAGCTTATCTATTTTTTTCTGTCTCGGTAAAAGTTCCCATTTGCCCACAGT
AGAGGATTGAAAATAATCTGGCTTTTAAAAATACCCTGGGGGAAACAAAAAAAAAGACCATTCATCAGTCTGCTGATTCTATATCTCTGAGTAACACTGT
GAATTCCTGTGACTCTAGTTGAGTTAAATTTATTCCTAGCTTTTAAAAATAAAGCCAATGAAAGACCAGAGAGATTATTACAAAGCCTGCATTCTTGTGA
AGTTGCTGAATCCACAGTTTTATTTTAGTCAAATCACATTTCCATATTGCAAAAATATTTTCTAAACAATTAATGGGTATCATATGGGGTCAGTCTTGTG
GCGTTTATTCTTTTGTAACACTGAGCTAAAGTCTCTATGGGAAAGATAAATAGGTTGTTGGAGAATTAAACTGGTCAAGAAGTGAACATTGATGCCTAAA
CCTCTCCTCTGAAATTTTGAGCACATGTTAACATAGGCACATAAAAAAGAGCCTTAGCAGAAAGAAGAAACGATATTTCCATTGTTGGGTCACAGTGGTC
ACTAAAGGGGATATAACTTTAATTTCTCATTTGAACGTACATGGCATCCATTTAACCAACTCATTTACAGCATAGCCGCCTGTCAAGCATATAAAACTGT
ACCACATTGAGCTGGATCGGTTTTTAAATTCTAATATAATGCACCTGGGCACGGTGGGTCATGTCTGTAATCCTAGCACTTTGGGAGACTGAGGCTAGTG
GATCACTTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAAACCCGTATCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGTGCATAC
CTGTAATCTCAGCTACTCAGGAGGCTGAGGCACGAGAATTGCTTSAACCCAGGAGGCAGAGGTTGCAGTGAGCCGATATCACACCACTGCATTCCAGCCC
GGGTGACAGAGCAAGACTCTGTCTCAAAAAATAAAGAGAAAAAAAAAATTGTTACATAATGCACCCTCGCACATGCTGTTGGATGTACCATGATTCAAAC
TATGAATTCTGTAGGAAAGCTACATTTTAAACATGTTTGGGTGAAAATGATGTGTCAATGTAGGTTCAATGACTGTATCAAATGTACCACTCTGGTGGGG
GTCATTGGTAATGAGGGAGGCTACATGTGGAGGCAGGAGGTATATGAGAAATCTCTGTAGCTGACTTTCAATTTTATTATAAACCTGAAACTGCTCTTAA
AAAAACCGTAAAAAAATAAGTTTGATGAACTTGGTTTTCAAGCAGGTAGCAATTAAGACTGTGGTTGTCATAGAGACAGACCTATGGCAATGGAGATGAA
GGGTGGGAGCTTGGCTTTATCAGAATGGCAATTCTGCATTTTTGTGAATGTCAGCAAATGAATTTGACCCATGACGTATGGACGTAGATCAAAGGGCACA
TTTAGCATACTGTCAATGTGGTGCTCGTGTGGCCTTCCAAAAGGCCAGTTCCACAGTGATAACCACCACTAATAATCCTACAAACCTCTCCAGCTGCTTT
CAGTGACATGACTTCTGATCTGGAGGGAAAGAAAAGAGGGGTGATATTTTATAAATATCAATTTTCAAAAATCTCTGATCTGTTGGTATTAACTGATGAG
CTCAGAGATGCTCGGAAACCTCCTGCCTGCACAACAACTGTAACCATGGCAACCTGCATTTTTAAAGGATGTTAAAGATGTTTTTAAACATCAGGTGAGA
AAAACAGTTTCCACACAAGTGTTTGTCTGGGATGTTATGTCTAATTCCTCCAGTACACATTTTTCCGTTACTGGGACTTGATACAATGCTGGAAGCTTTC
CTGTTAGGGCAGAAATTGGGCAACCCAAGACAGTCACAGATCTTGAGATCGCTGCCATTGCTATGAAAATGAGGCATTCTTATTGCATCTAGACTGAGCA
TCAGCATGCCTGGTGTTCTTATACGTCATACATGAAAGAGATTGGCAACCCTTCCTGAAAGCTTTGAATTTTTGATRTCATTTGTTCCACGTGATTTTCT
AAGGCTATATTGGACCACTATACATTCTAGAACAAATTAATTAAAGCCTCCAGTTTCCAGGGAGATATACTAATATCTCAATAAAGTGCTGGATTTGAGT
AAAAGACAGAGAATCATGTCTGTAATCCTAGCACTTTGGGAGGCTAAGTTCAATGTAGTATTCAGAATTTGAATATTGAGCTTCTATATTAAAGAAATCA
TCAAATAAATAAATAAGGGTCTATCAGTTTTCTGAAGATTCAGATTTTTGTTGTTTTTAAATGAGTAATTCTAATTGTATTTTAAATGAGTATAGGGAGG
GTCCATTTTAAGGAGTCAGAATGTAATCAAAGATGCCTATTACTATTATATTTTCAGATAGAAACAGATAAAGTTCAAGCAGTGCAAATACTAAATAAGC
AAATTAAGCATTATGTCTTTTTTTTATGGTCTGCCACTCATCCACAACCACCAGCATTTGTCTTGASAAACCACCAACATTTCCCTCCCCCGCCTTGACT
STGCATGGATTTGCATATTTATAKAGTTAAAGAATCACCCACCATGGTTCTCTTTCTTATCCACATTCTTGTCTTACCCATCCGTCTCTGTCACTCTCCT
GATATACCTCTTCCCTACTAATTACATTAATCAACAACAAACAACAACTCTAAAAGWTTCCCCGAGATGAGAGTTTCAGAAGCCTGAGACGCTATGTCAA
ACAACCCACCGTASTTATTCAGGGACACTGCAACTCAAAATGAGGTAGCCATCGATCCAGAGAACAAATGATCATTATTCATGTAACTCTCTTCTTTGCT
TAAGAATCCATCTTTTTCTATCAGTGCCAAATTCTCTCACTACTTTCCTGGTTCTAATTCAGAAGTAAGTAAAGTCAGCTAGTCCCTTTGTTTGGGGGTT
AGGCCCATTTTATAAAGAATTAAAGGAAAATAGGTTAAACATGAACTGCTTCTCAGACGTGGCATTTACATGCCTGGTGCTTCCTTAGCTCATCATATAA
CCAAGTACYGGAATCTGTTTTACAGATAATAAGAAACATTCACRTGTTCCATCTTTTACATATGTGAGGACCAGGCACTGACTAGAAAATTTTCATCACC
ATTGTCCTCATCATCACCATCATTAGCATCTTGTCGTCATCATTGTCACGATGACAAAGATGCTTTCATGATGATGAAAGCATCATCATGCTTTATTTAC
GTGATATCATTGAATCCTTCCAACAAGATACCAGACCATTTTATTGTAGACATTTTACAGATATTTACACTGAAGTTCAGAGTTGTTGAGTGGTTTACCC
AAGAATACGTAGCAAGTAAATGATAGAGCTGAAAATTCAATCTGTCTTTCTCTAGTGCTAAGCCTYAGTTTCCCTACCAAGTTTTAAAGGTTGAACAAAG
CAAGGTGTTGAAAGAGCACCCTGAGTCTGACAGTCAGAGGGGAATCAGGGCAGGAAGTATCTACTGAAGWGGTCCTCAAATTTCAGGTTGCCTAAACAGT
TACTGAATGAGCTTGTCAAAATGCATAAAGAAGGCCCTACACCACTACCACTACCACCACCCTCTGACACACATACACACAGATTGTGATTCAATAGGCC
TGAGATTAGTCCAAAATCTGTATTTGTGGCAAACTCCCCAGGTGATTTCAACAGAGACAGTCTGTAGGCCACCCTTGGAGAAATGGTKTTATAGCTGGAT
TGGGGACTGTTGAGATGCCTAAATCCCCAACTTGTAGAGCTAGCTTGGGCTGCTCCCAAGTCYAGCACACTCATTGATATGGTTTGGCTGTGTCCCCAYG
TAAATCTCATCTTGAATTGTAACCCCCACAATTCCCATGKGTCGTAGRAGGAACCTGGTGGGAGGTGATTGAATCATTGAGGCAGGTCTTTCCCATGCTG
TTCTTGTGATAGTGAATAAGCCTCACAAGATCTGATGGTTATATAAAAATGAGAATTTCCCTGCACAAGTTCTCTTCTCTTATCTGCCACCATGTGAGAC
ATGCCATTCACCTTCCACCATGATTGTGAGGCTTCCCCAGCCACATGGAACTGTAAGTCCAATAAACCTTTAYTTTTGTAAATTGCCCAATCTCGAGTAT
GTCTTTATCAGTAGTGCAAAAAATGGACTAATACACTCACCTATGTAGGGAAACCTCTTTGTTCCCTACATAGGTTCTCTGCATTGGTTCAGAGTCCATC
TCTTCCACTGGGATGTCCATCTTGTGGTCAAAACCTGCACCCCAGGTAACATAAAATAAAAATAACAATGGCTATAATTGTGAACCGCCCGCTAACCTCC
TSTTGTAGTGCTCCAGGCCRGACGCTCATCACCTTGTTTTGTTGTCTTTGCCATCAGCATTATAGTAGAGCCATTGGCACTCACCCATGTCCAGCCCCGT
TCCTCCTGGGCACACAGAAATTTCCGACTCTGTTTTCTATTGCCTTTGCAGTCAGATGGAACCATATGACTAGTGCTAGCCAAAGTGTGTCATCTCCACT
CTCTTTCTTTCCTTGGTACCATGGATGTGTTTGATATGGTGCCAGCTGCAAAGTAGTGGAGGCTTCTTCAGYGTGGGTTCTTGAGCTGTCATATAGCATA
AAGCCRCCACCCACCATTCTGAATTCACAGCATGAGCAAGAGATAAACAAACCTTTGTTGWGTTAAGGCTCTGGGATTTTGTTTTATTTTGTTCAGTTTT
TAATTTCTGTACCATAKCCTAACCCATCCTAACCAATAAAACCTCRTCGCTGTCAACATCATCATCATCATCGCAATAATAAAATGTATTAATTATGAAC
ATAAAACCTTACCGTGTGCTGAACATTAGACTAAGCATTTTGCAAACATTATCTAATTTAATAATCACACCAACACTATAAAAAAGACATAGTTGTTATC
TGTRTCTTACCCAGCTGGTAACTGATCGGGAAAAAAATGAAAACCCAGCAGCCTGACTCCAAAGCCCGTGTGCTTATCCAAACACTACAGCGTAGGTTGC
TTAGTGCCAGCTTCAGTGGTTAGTKCTTTACATGCTTATCATAGGTAATCCTCTGTCAACCTGTAGAAGTAGGCATGATTAACTTAATTTTCCATTGTGA
ACACTGAAGGTTGGACAGATTCAATGTCTGGTCTGAGGCCACACATCACACACCACACACTACATACCACACATCACACACCACACATCACATACCACAC
ACCACACACCACACATGGTGGAGTTAGGTCACAATCCACGTCCCTCTGACTCTTGAAGGAAGCATCATTTATTGAAAAACTAGAGTGTCTAAGCAGGTGA
TTTTGATTCCTTCAAGTCTGTTTCAGAAATGTCTAGGGGCCCCACAGATCTCCTGAGGTCAGGGGTTCAAAACCAGCCTGGCCAACATGGTGAAACCCCA
TCTCTACTAAAAATACAGAAATTAGCCAGGCATGGTGGGGGCGCCTGCAATCCCAGCTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACTTGGGAGG
CGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCTAGGCTGGGTGACAAGAGCGAGACTCTGTCTCAAAAAAAGAAAAAAAAAATCATCGTTTTAC
TGATGATATTTACAATAACAGCTTCTGCCAGTAATAGAGACTACCAATAACCAATGCTATTTATTAAATACTAACAGTGTGTATATATATATATGCATGC
TGGCTAGTGTCACGCCCTCACAAAGTGGACATTATTATCTTACAGATAAAAACACTAATGCTTGGAGAGTTTCATTGTTTGCCACAGGGTGCCCAGGTAA
AACCATGGCAGAACTGGAGACAATCCAGGCAGCCTGGCTCCAAAACCTTGCAGTTGGCCAGCACACTCTCTGCCCAGAGCCCAGCCCACGCTCTGATCAC
AGAAAGTGTGTGGGAGATGAGTAGAAGCAGGAGAAAAAAAAAAAAAAAGTAAAATGTAGGCTAAGGGGTTGTCCTGTAAGAATTTAGGAATCCCTAAGAA
GGAGAACTAGAGGATCAAGGGAAAAAGGCCAAGTCCAGTAAGTCCCTCCAAACGTCAAGTGGGGACATCTCAGTAGAGTATACCCCTACAACTGATCTGC
CAAGATGTTCCACAATACAAAAAGGATTCTGTTGGCAAAAACAATGCCCACCCCTGCCTGTCTTGAAGATTCAAAATGCACAGTAGATGATAGATGATGG
ATATTCTAAGATTTGTTGTAGCAAGAGGCTGGTTGTGTGCTTAACTCTTCCTTTCTAATTTGCTTTTGACCACAGCACCCTTTTTATTATGCAAAACCTA
TTAACATCTACTGAAAGGCACTCAGCATTTGAGGGAGGGGACTAGCAGGCTGCAGAGGAGGGTGCTAAGTTCTGTGCTGAGGAAGGTGGTTGGTTGTGGA
AGATGTAGTGGTCACAAATGAGAAGAGTGGACAGTGGGTACAGGGTAGGGATGATGAGACCTGGAATTGATGACCTCAGCAGAGAAGGGGAGGAAGGATA
AGAAGCAAATAWCAGTGACATATGTGTAAGTTAAAAAGATGGAGGTAGAGCTAGTTTCCAAGATGGCTTAAAAATACACATGGGTGCCGGTTTGACCTCA
AAATAGAAATTAGAGACCTAGAATTCAGGAGAGAAGGCAGAACTAGCAAATGGAGACTCTAGGTCACCTTACCTCTCCTTTTCTTGGAGGAATGGTGGAA
AGAGAAGAACAACTGAAAGGCTTCAGCACAATCGCTCTRTAGGACCCAGGAGAGAGAAGAGTAGCCTGGAATCAACAGTGGTGGGAGAGGCTGGAGGGCC
TCAGGAAATTCAAGGCAAAAGAGTAGTTAGCTCTAATGACCATTCTTTAAAAGTAGAAAAAATGAAAGTGGAGATGTGCATTGTTTGTGGAAAGATAGAA
CCTTCCTCAGTCAGAAAGCATTTTGCCATTAGCAGCAGGCAGTGATGCTGACAATTTGCAGTTGGTGRCCAGGTTTTAAACAGTAGTTTGGGCAAGAAAG
GGTATCCAGCAAATCAATTTGCAATAGCTGATCCCTGTCATTAAGGGAGTCAATTCTTGATACTGTAAGTGAATAACCAAGTGCTGCTCTGGTACAATTG
AGGTATGAAATACCAGACCTGACTATTTTATGTAAATCTCTAACATGGTGTTTAAGCAGGACAGAGCAGCGGGGAGGAAGGGGCTTAAGCAGAAATGGGC
TTTGAGGACCTCTCGGCCCAGACAGGAAGAGTAATTGGGCTAAGATGAGAGAGGGGCAAAACTCAGCACATCTCCAAAGCCATCCAAGGTTGCGGACAAT
TAACCTCTTGATTCCTCCCTCCTTTCCTTCCAAGATCAGATTTTTATCGTCTCAGAAACATATGAACTTCAAGAAAATGTGAGGAACACAGACTTTCTGA
GCCAGCTTCCATTGACATGCCATTTGATTAATTTATGTGGTTGGGACAGCAGTTCAGAGGGAATATAGATTGTGCTCTTACCTGCCCCATTTCCATATTT
AATATATTCAGGCATGGTTATGATAGAGCATCTCATGTTTACACTAACTTTGTGTCTTTTGAAGTTCACTTTTAACTTTGTGTTGATAAAATACTATTTT
CTAATTCAGATTTTTCAAAAAATGCCCGTTGGGCATCAAGTAGCTTTTACAGAATGAGGTGTTCTTAGCATTATTATGAAGCAAGGACAAGTGTATTACC
GCCATTCACGGAGACATTTTTGCAGTGTTGCAAATCTCCCAAATGTTTCAAAAAATTACAGCGGTTGCCTGTTGCACCTCACAATTAGCTGCCTAAGATT
CTAGGAGAGAAGCAGTTGGATTTTATATGTGAAAATGCCTCTATTTGCTGCATTTTTACTTTTTGAGAAGTTGCAAGTTACATGAAAATAAACATACTAT
ATAAGRAAACACGGCAGATTTCTCCTGGTGTTTTAATAATTCCCCGAAGGTTTATGAATATTGGCAAACGTATTTGCAGTGGTACTTCCCTGCTATTTAC
TTTGTAGACTTTGAGTCTTAGATTCTTGTCTGTAAGTGAAATGTAGTATTAAAAAAAAAAAAAAGGCCGGGCACAGTGGCTCACGCCTGTAATCCCAGAA
CTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAATCCCGTCTCTACTAAAAATACAAAAATTA
GCTGGGCATGCTGGTGCATACCTGTAATCCCAGTTACTCACTAGGCTGAGGCAGGAGAATCTCTTGAACCTGGGAAGCGGCAGAAGTTGCAGTGAGCTGA
GATCACACCATTGCACTCCAGCCTGAGGGACAGAGTGAGACCCTTTCCCAAAAAAAAAAAAAAAAAAAAAAGCATTACAAGTTGGAGTAGCCTGGGCTCC
CGTGTTGGCTTTATTACTGAGCTGTGTGCAGGTGGATGTTTTGCTAAATCTTTCTATGTTCCACGTTATCAAGACCCTTTCTCTCTTTTCCCAAAGCTCT
CGTATCAATTCCATTTAAGCCAAATCTCATTATTTCATTGCTTTTTTTTTTAATTATCCTATTTTTAAAATTATTCTCCCTCCTTCTGGTTTCCATTTTC
AAATAGTTCAACTGGATAGACATAATAGCAAAGGCATAGAATCAACCTAGGTGCCCAGCAGTGGTGGACTGGATTGAAAAAAAACGTGGTACATATGTAT
CATGGAATACCATGCAGCCATAAAAAAATAAAATCACAAGCTTTGCAGCAACATGGATGCAGCCAGGGGCTATTATCCTAAGCGAATTAATGCAGGAACA
GAAAACCAAATACCACATGTTCTCACTTATAAGTGGGACCTAAACAGTGAATACTCACGGACATAAAGATGGCAACAATAGACAGTGGGGACTACTAGAG
TGGGGAGGGAAAGAGGGGTAYGAGGGTTGAAAAACTACTAGATGCTGTGCTAGCTAGGTGACAGGACCAATGATACTCAAACCTCAGCGCCACACAATAT
ACCTAGGTAACAAACCTGCACWYGTACCCGCTGAATCTAAAACGAAAGTTGAAATTATAAAATAAATAAATAAATGTGGTGCTTATTTTTAAAATAAATG
AACAAAAAAACSCCAAAGAGCTTAGCTAGGTGTTAAGYACCATCCAATGGACGGTGCCATCCATTATATAATATAGATATTTACACACACACTCAAACAC
GCATACATGTATGTATGTGTATATATATACACACACATATATTTACGACTGTAGCCTTCTTTCCAGCAGAAGCAGTTTGCCAAATGCCTCTGCCCTTCCT
TAGCCCAAATGCTAATAGTAGCTATTTCATGAATAGATACAGAATRACAGAGTCAACTTTACCTAACTTCTCCAAAATGCCGACTCCAGTATTCCATTTT
CAAATTAACTTATTCTGATTATAAAAGTAATGTTCAGTATTGTTAGTAAAATAAATTTWAAAAAAAACGAACTTGTAATTTCCCCACTYAGAGATAGCTT
CTGATAMCATATTGGTGCTTTTACTTCTATTTTTTTCTATCCATATGAGTATAATTAAATACATATTCACATCTATATCTATACTCATTCATATATATTC
ATATGTAAGATTAAACTATATGTTCAAATTGTATTCTGCTTTTTAAAATYACACTTTATTTTCTGGGAATGTTCTCTTCATAAAGTTCTTCCAAACCATG
ATATTTAATGTCCACATAAGAAAACATCTCATGGACTCTCAATTTATTGAAACTTTTCCCTAGTTTTGGTTATTCTGTTTCCCACCAGTCATTAATTACT
TTAAACAATTCTGTGAGGACCATTCAGGTACACAGACGTGGGTCCACAGTTATCTATTTTCTTAGCCTCAGTGCTTGGAAGTTGAAATTTGTATTGAATA
ACTAAATTCCTTTGACAATTAAAACATAATWATCAAACTTTTTTGCAAAGAAATAACACTATGGTATATGACATCTATGGCATATGACAGTCCCTGCTTA
CCTTATGCTTGCCGGCATTCAGTGCTTAGGTTTCCTTTTTTTTTTGAGACGGCATCTCACTTTGTCGCCAGGCTGGAGTGCAGTGGCGGGATCTTGGCTC
ACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCCTGTCTCACCCTCCTGAGTAGCTGGGACTACAGGCGCCTGCCACCACACCCAGCTATTTTTTGT
ATTTTTAGTAGAGACAGGATTTCACCATATTGGCCAGGATTGTCTTGATGTCTTGACCTCATAATCTGCCTGCCTCGGCTTCCCGAAGTGCTGGGAGTAA
GGTGTGAGCCACCACACCCGGCCAAGCTTTCTTAAATGGGCCACTTTGATTGATGAAAATGATAAGGTACTGTGGCCTTTTTTTTTGCCATTTAAAAAAC
AGTGGTAAGGTTTTTTTTTTGTTTCTCCATGTCTTGGGAAGCAGCTGCCTGTTCAAGCCCTCTTTCCTTTTCCTATTTGGGTGTTAATGGCTTCCCTATT
GATTCATAAAGGCCCACTACTTATTGTGGATATTAATCTCTTGCCTGTCATATGTTTGTTGCCTTTCTTTTATGCCAGCTAGTTATTTGAATTAATTGGA
TTTGATGTTTTGAAATACTGAATTTTTAAATCTTTAGACAGATACAATACCATTTTTTCCTTATGCGTATTCTCTTGTTTATACAATTAACAATCTTGGC
CTGTTCCAAAATCAAAGTCACATGAATACATATATTTTTCTAAGTTTTTATGGCTTCATATTCACATCTGATTCTTCAGTCCCTCTAGATCTTACTTTCG
ATGTATGGTTTAATGTGAAGTCCCATTTCAAGTTTTTACCCTTCAAATTAATTTTCCTTCCAAATGTTATTTTATTTTATTTTAAATACCCATTCTTTTT
CTGGTTTTGTCACATAGCTTTCATGTGATGTTAAGCTCTAATACATACAACAATTTACTTTGGGACCATCTCATATATTAAATTTTGCAAAAATGCCATA
CTGTTCCAACACTCATAGTTTTATAATGTGTCTTAACACATGACAATAAACCCTTCTAAAATACACACAGGTTTCAGAACTGCCTTAATTATTTTTTGCT
TTGATTTTTCCTCTAGAAAAAAAATGTGATCATTTTCTCAGACTCCCACCCTACTTGTTTTCTCAAAGCTACTGTCACACTCTGGATGTACAAGGTCAGG
GGTGGTGAGAGATCAGGGTGTTTAGGAGTGTTTGCTTGACTGATGGAGACACAGGGTTCCCAAACTGGAAGATGACAACATAGGAGAAGCTTCCAGTTTT
CCAGTCAAAGATACTATGTTTCATGAGGCAAAGCGTGAGAAACTCACCAATACAATTTCCCCCAATTCCACTCTATCAGCCTTTGAGATTTTCCGGACAG
CTATCTGTCAGTCTTAGTACTTAAAATTGTTGGAAGTTTGAACACAATTCTTCAAAGATATTTTAGTGAGGAACAAGAGATTTTGCTTTGGAAGATCCTG
AACAGATTTCCTTACAAAAAGTATTTCTAAGCACCCATCCCTATAATATATCTAAATGTTAAATGCTTATTGATGGAGTAAAATGGAAAGTCCAAGAGTC
GTAACATTATCTGGTAACAGTGTGGATGAGAGGTATGGGAGATGTAGGCATGTGCATGTTTCCTGATTTGACCAAACTTTTCAACATGAGTGACCCTTCT
AACTAGTTTTCCAAAAATAGAGAGAAGAGATCCAGCATCAATGAAAATGACAAAATTGACAAAGTTTTGCCTTGGCCCTCTTCCATCGTCGCTATCCTCT
TCTCCTCTACTCAACCTCCCCATCAGTCTTTTTACCCGCCCGCCTCCTTTTTTTTGAGGGAAGCTGTATTAGGCCATTCTCACATGGCTATAAAGAAATA
CCTGAGACTGGGTAATTTATAAAGAGAAGAGGTTTAATTCGCTCGTGGTTCTGCAGGCTGTGCAGGAAGCATGGTGGCTTCTGCCTCTGGGGAGGCCTTA
GGAAACTTATAGTCATGGTGGAAGGCAAAGGGGAAGCAGGCACTTCTTCCTGGCAGAACATGGCAGAAAAGGGGCATGGCGGAAACAGGGCAAGAGAATG
GGGTGGGGAAGTACTACACACTTTTAAAGGACCAGATCTTGTGAGAACTCTATCATGAGAACAGCACCAAAGGGATGGTCCTAAACCATTCATGGAGGAT
GCACCCCCATGATCCAGTCACCTGCCACCAGGCCCCACCTCCAACATGGGGGATTACAGTTGAACATGAGATTTGGGTGAGGACACAGATCCAAACCATA
TCAAAAGCTTTTCTAATTAGGTTACTCATTCTATGAAAATAGACTGCCCATAAATAATCTTTGTTTTTCAGATGAAGATTTGGCAAGTTCTGTGCCTAGC
ACGATGGCTGACATGAGATAAGTGCACAGGAAATTTTGAAATATCTGTGTCTCTATCTTCATTTCCTTGTTTGTGTCTCCAATTTCCTATATGCCATCAG
GGGATTTAGTGACACTGCAAATAGCATGCTCTTTGGCAGGCACGCCTCTCCCATTTCCCCAGAACCTCTTCGTCTTTCTGAGGCATGGAGTCCCAAGCTG
TATGTTTTCAGGTAGTATTGTAGGAAGATTAACAGTTTCCTGACATCTTTCTTGCAAAGGCATGAATACCTCCACCGGTGCAGATCAACATAAGAAATTT
AATGTTTACCTTGCCATTTTATAATGCTATCAACTTTCTCAAAATCTGTCCCTCTGCACTCTGTTATTTAAGATTTATTGTCATCCTGCATGGTGAGATA
GCTGGTGGACATTAGCCCCATTCTCAGGGGTAGCTGCTATGGTTGAAACATGCTCTACCAAAATTCGTATGTTGAAGTCATAATCCCCAGTAATTCAGAG
TGTGACCTTACTTGGACATAGGATCTTTACAGAGGTAATCATGTTAAACTGAGGTCATTTGAGTAGACCCTAGTATAATATGACTGATGCCTATAAAAAG
AGAAATTTGGAGATAGACTCACACTCAGAGAGAACTCCACATGAAAATAAAGGCAGATGGCCGGGTACGGTGGCTCATGCCTGTAATCCCAGCACTTTGG
GAGGCCGAGGCAGGCAGATCACTTGAGGTCAGGCATTCAAGACCAGCCTGGGCTATAGTGAAACCCCGTCTCTACTAAAAATATGAAAAATTTAGCCAGG
CGTAGTGGTGCATGCTTGTAATTCCAGCTACTCATGAGGCTGATACGCAAGAATTGCTTGAACCCCAGAGGCGGAGGTTGCAGTGAGCTGAGATCACGCC
ATTGCACTTCAGCCTAGGTGACAGAGAGACTCTGTCTCAAAAAAGAAAAAAAAAGCTAAAAACACAAAATAACAGCAGAAATCAGGATGATACATCTATA
AGCCCAAAAATGCCAAAAAATGCAAAACAAACAAACAACAAGAAAAATCCATGAGAAGCTAGGAGACAGGCTTGGAACAGATTCCTCCTCACAGACCTCA
GAAGCACCTTGATCTCAGATTTTCAGCCTCCATCACTGTGAGACAATCAATTTCTGTTGCTTAAGCCACCCAATCTACAGTACTTTGTCATAACAGCCCT
AACAAACAACATAGTAGATAAAAACAAAAAACAAACAATAAAAAAAGAAAACAAAGAAGGCTAAATAGCTTCCTTCTGAATGTGGATCGTTTCATCAGAG
GATTTGATCTACTGAACCTTCTACTGCACTAAAAATTCTCATTTCATCAAGTATAATGAACTGAAGTCAAAGGGATTTATTTGATGCTGAACCAAKCCAA
CACTCTCCCCACCCCACCTTAGTCTACCGTTAACGTGTCCGAAATTGCATGCGTTGTTTTGCTTGGATGTTACTAGCCCTTGCTGGGAAAGGTACTTGGC
ACTAATGTGACTATTTAAACTAATATTCACAAAGCAGTTACCSTGTGCCAGGCTTATATGGATTCATGTAATTCTCACATTAATTCTGTGAGACTGGTGC
CATGACTATGCCACTTACATATGTCCAGCCAGAATCTCTAGTTATAACTTGTTCCTGGTCATACACTCTGCTGGTTGTGAATCCAGCGTTTGAACTCAGG
CAGTCTGACCCTGGGGGTGACATTTAAACTACTTTATTGCTGGGTTCTATGTTCTCAAAAGTTTAGAAGGTATTTGTTAAAGAGAATTGGAATATTTGCT
ATGGAACTTGTCAGAGCTTTTAAATATGCTATTATCTTAGGGAATCTCTGAGAGTGTGGTAAAGTAAGCAGCATTTCTAGCACATAGTTAACCGTGGGTC
TCTTTTTATTAAGGCRAGATCTCTTGGGACTGGTGTTTCTTGAATAGACTTGCCAGACAAAATACAAGACCCCATTATGAAATTTCAGATAAACAATGAC
TAGTGTTTTAGAATAAGCACATCCCAACTATTGCACTGGACATATTAATACTAAAGAATTTGTGTTTGTTTATCTGAAATTCTAATTTTACTAGGGCGTT
CTGTATTTTTATTTGCAAAATTTGGCAAACTATATGAAAGATGCTTCGAAAACTATAGAGWACACAGCCAAAGATCCCTGCCTCTCCCAATCTTCTGGGC
CTCTTTCTTTAGGAAACAAACATAAACCTGCCCAAACTGAGGTTGTACCCKTTTTACCTGCCCTGTTACCTTCCTAGCATCCATCTTGCTGTCCTTCATT
CTGCCACCCTGGGGTTCCTATCAAACTCTGCTTCCTGTCTCTTATGACTTAGAACATGCCATCCCAGACCCAGGGAACAGAACAGGCATATCCCTGGTTA
TTTCAAAGCCAGYATCACACCAGCATGTAGAGATATGACCAGACAATAACAATCCTCCTCCAGTTATCACTCGAGGGAAAGGAGAGGGACTTATGGGGAA
CAGATGCAGATAAAACCCAAATCTGATGCCTTGAGGCTGGTCAGTATGAAGTCTGTCCTGTGGTATCCCTCTGCAACATTTCCATTTCAGGGGAGTTGAG
GGCTTATCAAGCTTAGGAAGCAATGTGTACTGAAAAGGATGAGGTCAGTTCGGGGTCTGTCAAATCAATTGAACATATCTTGAACCCTRAATTCTATCAT
CAATCTCACTTTACAATCCATCCCTTCCAATTAATGCTGCATATAATAACACCACTCAATGATGTTCATACATCCCATCTTCTTACTTGGCACTATCTTT
TTTTTCTTTTTAAGAGATTAATTTGTCTTTCCAATATATTCAAGTTATCTTGACCAATGTTTCAGAGTTACTTAGAGCTTTATGGATTGCAGCAAGACCG
AAGCAAATGACCACTCATAATTCAGAATATTTCTGAGCCAGAATAAAGTTTACACTTCATGACCATAAAGAGGACCCTTTATGCTTGTATGTAGAAGCTC
AATTCAGGTTCCAAACCTGCACTGTCCAGTTAGGTAGCCACTAGCCACCTGTGGTTACTTAAATTTACCCTTAAGCTAATTAAAATAAAGTTAAAACTTT
AGTTTACGAGCCATATGTATTAGTCTGTTTTCACACTTCTATAAAGACATACCTGAGATTAGGTAATATATAAAGAAAAAAGGTTTCCTTGACTCACATT
TCTACATGGTTKGGGAGGCCTTAGGAAACTTAACAATCATGGCAGAATGTGAAGGAGAAACAAGGCACATCTTATCACAGTAAAGCAGGAGAGAGAGAGA
AAAAGAGCCAAGGAGAACTGCCAAACACTTTTAAACCATCAGATGTTGTGTGAACTCACTCACTATCATGAGAACAGCTTGGGGGAACTGCCCCCATGAT
CCAGTCCTCTCCAACCAGGTCCCTCCCCTGACACATGGGGATTAAAATTTGAGGTGAGATTTGGGTGGGGACACAGAGCCAAACCATATCACCATGCTAG
CCACATTTCAAATCATCAGCTACGTATCGCTGGTGGCTATTATATGCAGTACATACATACTGCACAGTGTAGATATGAAACGTTTCCATCATCATAGAAA
GCTCTCTTGGACAGCCCTATTCTAGATGCTTTATTCTCAAACATGCCACAGGATAACACATAAGATATTGGCATGGATACCATTCTATTTGRTTTGGGAC
AGAAGAAATAAGGAAAAATGTTTCTGAAACAGGGAGTCCATTTTAGATTATTTTATATGAAGTTATCAATAGTTTATTAATATATTGATTAAAAGATGAC
AAGTTCTCAACCCCCACGATAGCCCACTGGTGAAGACAGAACCATGCAGACACTATTAATTYGGCTCTGTTTCTTTTTCTAATGAGCCAGTGTGGAGACT
GGGGAAGAGGAAGGGATTGTTTGGAAAGATCAGAGCATCCAGGAGAAACTGTATGGGGATGGGGGCACCACTGACTGAATCAGAGCCTCCAGTTTGCTKT
GGGTGACCACAGAGGGACTGAACAAACMCCTGTGTTGTCAGTCCTTAGTTTTGAGAATAGCCTTGACCAGCACACTTGTTCACTGAGGAAGGATACGAAA
ATGCAGATAAGTTAAAACAAACAAACACCGTCATTCTTACTCTGGCAGCCAGATGAGTCACCAACACATTAAATTCTTTATAGATCTCTATACCTTCCTT
TATGTAAATGTGTATAATATGCTCACAAAAATAAGATCATAATATACATACTGTTTTTTCAACCTGCTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAG
TTTCACTCTTATTGCCCAGGCTAGAGTGTAATGGCGCGATCTCGGCTCACCGCAACCTCCGCTTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCA
AGTAGCTGGGATTACAGGCATGTGCCACAATGCCTGGCTAATTTTTGTTTTTGTATTTGTATTTGGTTTTTTTTCAATAGAGACGGGGTTTCTTAATGTA
GGTCAGGCTGGTTTTGAAATCTTTACCTTAGGTCATGCACTTGCCTAGGACTTCCAAACTGCTGGAATTGATGATGGACGCTTGGATTTTCAGGTCTTCT
GGTTGGTTTGTAGCATACAACGCTATCATATGATTAGGTGAGATGGATGGGACGATAGGATTTGATGTTCGTGACCCGTCTGTATGGACGGACTGGAGTG
TATTTGACGGGAAGCTGTAAACCGGGTCCGGATATGAAGGAGTTGGAGGGCATTGGATGTTGTTTAGATACAGTAATATGGTGCTCGGTGAGATTCGTGA
TAGCGTATCTGAACGCGATTCTACATTGATAGGGAATTGATGTGTGAAAACGGGGTGGGTTTAGGGTAATGGATAGCGCAAGGTGGATAGGGTCGCGAAT
ACCGGTGTGGGTATTTGGTAAAGAGGGTCCCGTTAGGCGGGCGTTAAACATCGTACGTTGGATGTAGAAACCGTAATATGCCCATAGCAAACTCGGGCTC
GAGTTATGTGAAAAGATGAATGCGTGCAATGGCAATATTGGATTAGATGCGCTAGGGCAGCTTGGATAATCGCTGATAATTCGAATTACTGAATTAGCTC
GGAGCGACGGCTTTTCGCGACGATTGTGAGATATAGTTGGCTCGGCGGTGTTGATGGATCAAAGGTGAAGATTGTTGTTGATACGTGCATATACGNNNNN
NNNNNNNNNNNNNNNTATGACACCTACATCCATCCACTCTACCATATCTACTCAACTTGAACTATAATCAGAAAATAAACTGCCAATCTTTATACCCTCA
CATCAATCCTATCAACTACACCTCTCTTATAACCCAGCTATGTGCCACAGTAAATCTCCATCTTACTACCCACCCTCCTACACTATATTCATTACTCGCT
TGAGCGACACATGCTATATATTCAATGCTCTACTATTATGCTGTGTCCCATGAAGGCAACAGACTTTCATCTCCACCTACCAAGAACCCCACTACACTAA
CCCTACATGTTGACGAACCCCATACCCTCCTCCCGAAAGATTCCGCTAACTTCCCTCAGCGGGGTTAGGCACGTACACATCCCGGAAGTGAGGACGTTAT
GTTTTGACTCGAGCGAGTTCCATTTTATAAAGAGACACGGGGCTTTGCAACCTTATACGCGCCTGTTTCTTGAATTATCCACTAGGTTCTCCCCTTTCTC
CGTTCTCCGAAGTGCTCTGGCATTACACGGTGGGCTACCATGCCCGGCCTAAGCCTGCTCCTCAAATTAATATGTTCAACACATTTCCAAGCCAAAATGA
CTTGTAAAACGTTGTACTTAGAGATTGTGGCTACGCTTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGACCACGAGGTCAG
GAGTTCGAGACCAGCCTGGGCAACATGGTGAAACCCTGTCTCTTCTAAAAATACAAAAATTAGCCTGGCGTGGTGGCAGGTGCCTGTAATCCCAGCTACT
CAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGGGGTTGCAATGAGCCCAGATTGCATCACTGCACTCCAGCCTGGGTGACAGAGCAAGAA
TCCAGCTAGAGAAAAAAAAAAAAAAAAAAAAAAGTCCTTGYGCATTAATCTGTTCTATAGGTGTTTTTAGTGGAACATTTAGTGGGGGTCCAGTTCATCC
CCAATTATAAATATAATTCCACTGAGCATCCTCAACTTTGTGCWCATTCCTAATAATCTGCAAGGAATACATTTATGGAAGGAGAATTACTGTCTTAAAA
GGGGGTTGGGGTGGGTATATATTATTAAAGTTTGCGATAAAAGTCTTTAGTTGCTTGATGAAATGGAGGCAGAAGTTTAATCCCTAAGGACCCTTCTAAT
TCCAAAGTTGTCTGAGTGCCGGATTGTAGCTCTGTTGAGCCTGGGTCTTAAGTCTGAGCGAGCCCTTAGTTACCTTCCTCTCCCATCAGCCTGAGCCAGA
GTTAGCCTGAGGTCCCAAACTATGAGCAGGAGAATGTCACCCTAGGAATGGCAACTAGAAAGTTTTTACCCCGGATGCCATGATGAGGCACTGCCRTCCA
CTGGAGCTTGCTGTGATTATGGAAATGTTCTCTATCTGCACATCCAGTATGATAAGCACTGACCACATCTGGCTGCTGAGGACTTGAGATGTGGCTGGTG
TGACCGAATAACTGGGATTTTAAATCTTATTTAATTTTAATAGCCACATGTGGCTAGTGGCTAACATTTTAGACAGCTGTTCTAAGAGCATACCTCTGAG
ACTCAAATACTCAGATCTTTGCCACATTGTTTTATCTTAAATATGACAATTGATAACATTGCTCATGCTCAGCTGCTTGCTTCAAATGACATTTATTTCC
CTCGCTAGTTCTTCAAAGGTAGGGACTAATCACCAAATCTCCAATGATAGTCTGATGCCATCCCCAGGTCTGCTACAGCACAAAGGGGACCCTCAATGAA
TAAGCATGTCAACATCAATCACTTTCCTCAAAGTTTAACTCAGCTATGATAGATCATGGCATATCYGCAAGCCAAGCTACTCATCCAAAATATGGAGATC
TTGTAAGTTGGAGATTGTGATGATAATAGTACCTGTCCCTTAGTATTGTTGTGAGGATTAAATATAAGAAGAGCACTTAATATTAGTGCCTAGTGCAGGG
TGAGTCTCCAGTGAATGGGGACCATTACTCTTGCCTCCAACATTGTAGCAAGGTCCCCTCCACATAGGGATAAGCCTGTCAAGACCCACGCCTGTTACTC
AAAATCTCTTTTAGGGTTATTTAAATACGTGGTCAAGTATTGCATTAGGAGAAATGGCTTAAGAACAAGAGAATGTCAAACCAAATTGAGTTCCCCTTAT
TGTGTGCTCTCATGAAGCACTTACCACAATGATAATTATTTGCAGTAGTATTACCTAATACCTGCTTTTCCCACCATGCTATAAACACACCAGAGCAAGA
CTGTTTATCTTGTTCACTGATGTATTCCCAGTGCTAAACATATAGTAGGTGTTTAATAAATCCTGAATGATAGATTGAGGATGAGTGGGTAGTAGATGGG
CAGGAATAAAGGAGCTACGGGAAACCCTAGCATAGAAAAAAATAGTACCAGAACCCCTGAAATCTAGTCCTGTTTAGGTTCACAGCTAACTATCGGTCCA
CTGAAAAGCCCTGGTTTTGGCTTCTCTGTTTTATAAAGTGAAAAAGGTTGATCCAGATTAGGGTTTTTCAGCCTCAGAACTATAGACATTTGGGGCAGAT
AATTATGTTGTGGGAGGCCGTCCTGTGCTTATAAAAGGATGTTTAATGCACCTGTGGCTGTACCCATTAGCTACCAGCAGYCCTCCTCCSCCAGCTGCGA
CAACTAAAAATGTCTCCAGAAAAATGTTCCAAGCAGGGAAAACTCCCCCGCCGCACCCCAGTTGAGAACCACTGATTTAGATCCTGTCTGAAGTCCCCTC
TGGCACTGATAGTCTAAGATTCTTCTTGGGACCATAATTTCTGAACATGTGAATTTTCTGACATTTCATAGATGGTTATAGAATTATAAGAATATTTCCA
GCTACTCACGCAAATAACTCAGACCTGATTATCAATTTAATATTTGGATCAGTGGGCCATTAAAATGCTGATTTGAAATTCAATTTTCCATTTTTAAAAA
TGATCACTTTGTGAATTCTGTTAGCTGGTTGATTTTATTTAAATGGAGTGTGTAATTTTTCCCGCTCTGTGTTCATGAATAACGCTTTATAGTTGAATGT
CAGAATGCCTGCTAATGACCCTAACAATCATAGCTTATTTCTAGAGAATCCATACAGTCATTGAGGCTTTGTTTTTTTTCATCTTCCACTCKTTTCCTTG
GAATAAGACCTTTAATTAATGCTCATTAAGATGCACAAATAGCCTGGCCTTGAATCCTCCCAGTGTTTGGTTCACTCTCCCCTAACTTATTAAAGTTGCT
TCTGGAAGTYACATAGAGACGYGCAGTTAATTYCTGGAACAGTGTGTTTGTGCTTCTCATTATGCAAAAAATATACACCTTGGTCAAAAAGGAGGTATAT
TTTTACACAACTATTTGTTCATAGGACATGTATGCATTAAGCCTCAACAAATGCGCCACCCTATTGGCAATTATGGAATTCGAGTCTCACATCAGAGCAA
ATGTGGTGGTGGCCTAGTAGGACTTTCAATCCCCTTCCTTGGAAAACTGCCTTAGTAAGGAGTTCAGGGATTCCAGGAAATACAGGAAAGCCTTTGGGAT
GTGTAGTCCCATTCATATGAAATCCACATTTCCCAGAAGACCACAGAACTTTTGTGTTCCATGCAGTGTCCCTAGCACTACAAGCTATTATCTCCTTAAA
TCTCTCAACCCTATCAGGCACATGCTAACAGGACCATGATTTTACTATCAACAAAAGGGAGGATGGGCGCGGTGGCTCACGCCTGGAATCCCAGCACTTT
GGGAGGCCGAGGTGGGTGGATCACCTGAGATCAGGAGATGGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAAAAAAAAAAAAAAAAA
ATTACCCGGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGGGAATGGAGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCG
AGATCACGCCACGGCACTCCAGCCTGGGCTACAGAGCGAGACTCTCTCTCAGAAAAAAAAAAAGAAAAGGGAGCCTCCCTAGAGAGGTGTTAAGTAACCT
GCCTGAAGTCACAGAACCAGAGTTTGAATTCGTCTCCCCAGATTTCTGGAATTGCAGTCTTTTCCAGTGCTACATTGCCCCTAGATTTAGGATAAAATAC
AAATGACTTATATTTTCCACTTAAAAGAAGCATTCCTTAGCATCAAACTAAAGTTAGTTCAACATATATTCCTATCAAAATAGGTTAAGTTTTTTTTTTT
TTAATTTATAAGTGCTTATGAACAGGAAACGATGGGAGAATAGCTTACTTTCAATGACTGCTTTGAGCGTCTAATTTTAATCCATATATTTTCTGTAGGC
CACTGTTTGTAGCTTTTAGAGTAGATTTCCCTCTCTTAAAAGTAAACTTTGTTTTACTTAGAAAACACAGWGACCTTGGAGCATAGTGATTGTTGTGTTT
TTAAATTTCATTGGTTTAATTGTCGTTTAAAAGTAAGGTTTTTTTTGTTGTTGTTGGTTTGTTTGTTTGTTTTTTTTATTAGGAAAACATTCTCTTCATC
ACATAGCCCTAAATCAATCAACATATTTTAAGAGAACTGAAATGGTTTTGGGGTAACTTTATTTTTGCTATTGTAGTCTTTGGAGGAAATAAATGCAAAT
GAAAAAATCAGTTAAGATCAGACGATGGATGTATTTTTTTTTTCACATCCTTTCCTTTATAAGGTTAGGAACAAACAAACTTCCTAGGAACTATCCTAAT
ATGGATTATCATAATCTATGTTTTTACAAAAATAGTGCCAAGGAATGGAACCAATTTAAATGGCTTAGAGCATGAGACTTTTAACGTAGGACTCACCTTT
TGGTGGTAGCTAACTGAAATGACATCAGATCTGTAAAGAAGTGTCCCATCATTTAAGATTTCTTCAGTTACAACCTAAAAGAAGCCATATGTTTGAAGTG
TGTGCTTTGTACATTTTATGTGAAAACATGGTCCCAGCAGTCCATATTATCTTGGAACTATGCAGACTCCCGAAGCCATGCCTCCTTTTCACAGACGTAA
TTATTAGACTATGCATGCCAATTTTAATTCTAGAAAAACGGTCACTCTAGGTAATGTTCTTTAAGACAAACAAACAAAGGCTGCTTAATCCATGATGCTG
TAGTCATTTGTTGGCTTGTTTATTTTAATCCCCAATTTACAACAAAATGTGTTTTTTTTTTCTTACAGAGAACMCACAATCCTATTAACAGCGAACTTCT
CTTGAATGAAGGCATTACAGCAGATTTAAATCCATGCATTACAATTTTAGCAATTTAATGAACATCCTATTTGGCGACATTATTGCTTTAAAGGAATAAA
TCACAAACATTTTACTTCCCACTAGCACTCGGTATTTCAAATCCATTTTCTCTACAGAATGATGTGTTTAAATAAATTGTCCTGTTGACTGAATTTTGAT
CACATTATTGGGTATTTGGGATAGAAATGTGTAGACAGAGAGTCAGAAGTCATCACATCTACTGAAGGCTTTGCAGCCAAGAAATGAGGCCTCAGGCAAG
TCATTTAGTATTAGGGGACTTAATTTCTTCTCAGTCCAAGGCAGGTGTTTAATTGCAACGTGTCCCAACTTGACTAGGGGAGTTTGTTCACAGAATCAAG
CGAATTCCCATCCTCACCCTCACATTTGGATTTGATAAGTCTGCAGAGGGGTCCACTGGACCTCCTTGCTAACAAGCTGTGGGTGGCTCTAGCCTAGGTG
CCCAGGTGCCCCATAAAGGAACCACTATGTGGTTAATACCAGAAGTCCCGTCAAGTTGGAAGCTTCTCTAACCACATCTTGGGCTGTAGTACTTGACAAT
TGGCTTTTCTTCAATAAAGCAAAAATACCCTCAGTTATGTCATCATTAAAATGTACATGAGCTAGAATCTTATGCCTGCCTGGTTCTGTGAGTTCAAAAT
AAGAGAAACTCAGGAAGGTTGAGTTGAGCCKCATGCTGAAAAGAGGGGGAGAAGAGGGGATGACTTGGAGCCAGGAAGGCTTGTGGGACAGAGCTTCTTA
ACCTGGGGTGTTCACCCTTGGTCCCTGGATGGACTTGAGGGAGTCTCTGAATGCCTGAAATCACAGGCAAAGTGAGTGTGTGTGTGCATGTGTGTGTGTA
TGTGTGTGTATTTTTCTGGARAGGGAAGGACCACAGTTTGCATAGATTTCCCATGGAGATGTTGATTGCAGGTTGGTCAGAACCATCCTTCTAACTAGGT
GGTGATTTGGAGCACAGGCGTCGGGCACAGAGACCCTGACTTAGAGCCCATCTCTTCTATTAATTAGCTGCACACAGAAGCTGGATTCCCCTCCAAGCGT
GCTCTACCTGTGGCAAAGTGCTATTGTGGGACTMCTTGGGAACATAGGAAAAGTGYGCATTGTCTGGTACTCAGTAATTGCTCAATAAATACCAGCTACA
TCCTAACAAATATTTTATGGAGGTCCTTAAACTGAGCAAGAGCAATTTTACCTGATGCATTTTGAAAGGAAGTGATGATTAACTAATCCTTCCTGCCTCC
TGCTAGTCACGCCTTACATCACCATATTGTCTCTTTCTCCTCATCTGGATCTTTCGCTAAAGACTGACAAAGAAAGCTTCCTCTGATGGCTCTGGTCTCC
AGCTAAGGCCATAAACTGTGTATTGTTGAGGCTGCAGGAGAAGGTGGAAGAGTCATAATGCCAGGTTCAGACCCCTTGGTCTTCTGTCTGCCATGGGTTT
GCTGTGCTCTGCTAGGGAAAATAATTCATCTTTTGAACCCCTCTGGGACATTTCTGTGAGTTTTGTTGGATGGTCATGTGTGTTCACTTTATGATCTCCA
CGTGAAAGGTGAAGTTCATAACTGCCACCAGTCTCTAAGCTTTGTCCTTTAAAGTCTGCGGACACTTGAAGCCCTCTGTTAGTCATGCCATGCTGTGATC
AAAAGGATTGTGTTTAAGAATGTATAGTCTAAATGCTTATTGTGATCACTAACATTTGTATAGTTCTTTGGGGTTTACCAAGTACTTTACYTGTATTTTC
TCATTTAATCTTCACTTAGGACTAAAAAAGTTAGTAACACTAATGGGAATGAGCGAAAACCAAATTCAGACAGTATTAAATACACAAAATTATAAAGTAA
AATGAGACTGATTTCCCACGTCATGAGGAAAAATGTCTCTTTACTTTGTGATTCTTTTTATCACATAYTTAAAGGCATTTGCATTTTTCCTTTTCTGAAT
TTTCTGCTTTTAGTTTTTCCTCTTGTWTTAGATGTTCAGTGTAACTCACCAATTGTGGCAGTTTTCTGTTTGATTCACAGTAAAAAAGAATAAAAAATAA
AAATTAAAAAAAAACTGTGACCTGCATTGTCCACCTGATTAAAATTAGTTTGGATTTTTCAGATAAGGTTCCTTCTTTTTATTATTATAAACAGACTTTA
TCTTAAGAGTCGGAAGAAACATTTAAGGGAACTATTCGTCTTATTTGTATTTCAACCTGATAAAAGGAAAAGGGATATAGCAAAAATTTTTAGTCGTTTG
AGTGGGAAGTGCTTTATTTGAGATAAACACAAAAGGTTTTAAGTATCGTTGATATTAGTCAAACATAATAGCTTTTGGCTATTGTCTGAAGAGCTCTTGT
CTGTTGACTTGCAGACCTGTGACCTCTAGATAAAGTTTCAAAATGCAGAAAATATTTATCTTCTTGCTATGACCTTCYACGCACACGACGTGAAGCCATG
GATTTGTTTCCTAGGGAACTAGTGAGTGAGGAAGATCTATAATTAAATCTGTGAGTTATATGCTACACATGGGAATTGGGTACGCACCAAGTCCTTTAGA
AAAATCCCATAATATCACCATAGCCTCAACTGGTGGAATTAAACTCAATTTTTCTTCACACATTTTTAGAAAGCATCATTCAGAATCTTAATATGGGAAA
GTTCTTGTGTTTCTTTCCAAAGTCAGGGTGTGTTTAGTTTGGCTTCCATTTCGCTCTGGATCCAGTGTCCCTCCCTGATGGGACGGCACCTGCCATTGCT
ACTCAGGTGAGTGCTTTATATGGAAGTCTTGGAAAAGCGAGTGGTAGTCTAGTCTCAGACATCAGCACGTCAGAGCTGGAAGGGATCCAAGGCAGTGTTT
GGCAAAAGTTTTTTGATGTTCAAAATGTGTCCTTCAAATAAAATCTAATTTAAAAATTCACTGAGTGAAGCAGACATTAGGYGAATTGGTTTTGACTAGA
AGTAAGGGAGAAAGAACCTTTTCATCACCACCCCAATCCCAAAATTCCAGAGCAAGAAGTCTCTAAGGCACCCCCGTTTCTCAACTTGAACATTAACATC
TAAGCCATAGCACTGATTGTAGAGGGGGCAGACTGAGGCTCAAGAGATGTTGCCATTGGTCAGCCATCTCATAGCCTCTAGAGGTTAAACACACACACAC
ACACACACACACACACACACACACACACATACACACACACACAACTAGTAAAAAAAAAAAAAGTCAGAACAATGAATAGCTGTTTCCAAATCTGGCTTGA
ATATATTTTGTAGTAAATTTCCCCATCTAGAGGCTCATGAGGGCCAAGATTTCTCTACGGTGCTTTTATTTTTCACCTTTTGAAACCAATAATCAGCCTC
TTACATTAACTCTAAAAAGTAAAACTCTGTCGACTCTTTGCTTTCAATGGGATTGTCCTCCCCGTATCATTCCTCAACCAACAGAGGGACTCTATGAGAG
GGAAGCAGAACCTCAGGACTACCAGAGAAGAGATATTTCACAGATACCAAGGCTTGACGTAGATGTGAGGCCAGGGGCAGGGTGCGGTGGCTCACACCTG
TAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCAACTGAGGTCAGGATTTCAAGACCAGCCTGGCCAACATGGTGAAACCTCTCCTCTACTAAAAA
TACAAAAATTACCTGGGCATGGTGGTGCACGCCTGTAGTCCCAGCTACTCAGGAGGCTAAGGCAGGAGAATCGTCTGAACCCAGGAGGCAGACRTTGCAG
TGAGCTGAGATCATGCCATTGCACTCCAGCCTGAGCAACAGAGCGAGACTCCATCTCAAAAAAGCAAAGATGTGAGTCCAGGGTGGGTGTTGATGAGGAC
GGTAATAATACCTGATGCTTTCGTAGCAGTCCCTGCTCCAGACTATATATACATTAGCTCATTTAGTGTTTGTGATGTCTAAGCCGTGTGTGTGTGTGTG
TGTGTGTGTGCGTGTGTGTGTGTAGTAGCAGCTTATTTTTTTTCTATTTCTCTTTGATTTTTTAAATACACACTTATAAGTGTACATGTGTGGTGTGTGG
GTATATATACACTTTCCTCTATCTTTCTGATATACCTATCTATATATTTATGATCTTCCCACCAACCTGGTAAGGCCGATACTACTACTATCCCTATTTT
ATATATAAAGAAACTGAGGCACAGAATCCTAAGGGTCCTACAGCTGGTCGTGGCAGCACTGAGATTTGTATCCAAGCAGCCTGGCTTCCAAGTCTGTGCT
CTTTGCTGGTCTACATTCATACCCCATCTTTTATTTTTCTTTTTGAAGTATACGCTATGGGGCTTTGAGCAAAACTTCTGATGTGAAAAAGAAATAAGAA
TAATAACTCCAAAGATTTTTGCTATGAGGATAAAGCACCTGACCTACTGCACCTTGTAATTTCTGGCAACTAATAATTTCTCAGTAAGTTTCTGTGTTGC
TGTAAAAATTGTCAACCATGTACACAAACAGATCTTTAAAAAAAATTGAGACAAATTAAAGTGAAAGACTTCAAAATCAGTTTGTCACATTTGATGCTAA
ACGCTRTATTTTCTCTGAGAATTTTAAATTGTGCAGGTAATTTCTCACCACGGTAAGTCATGATTTTTCATACTTGAACAGTATCACTTCATCTAAGGAA
TTTTCCCCAGTGCAGTACACTCCCACCCATGCCTCTGAAAACGTCTAATCTGTTTCTCCTACTTACCTGTTGGTCCAATTCATTTCTGGAAATGTTCTGC
AGGTTATCATAACGAGAACAGGAGTGATCTATGGAATAAACAGGCACTGTTGTTTGAATTAATTACCAGGAACAGAATCATAAGTGGTGACAACTTACAA
CAGCTCATTCCACATTCTCCTGCCACTGATGGATAGATTTATGCATTTGAAACRTTTTTTACTGATTGCCTGCCCATCTCCTGTTCACATACTCCCTGAG
AACCTCTATGTCTTATCCATGGAGTATGTCCGAAAACCAATTATCATCCCCTTTTTGTTTCTGTATTGTCTAATGGAAGAAAAGAAATTATACCTTAGAG
GAGATATTTTCCTGATAAACAGCATTTAGTCATTTAGTCATTAAATTAGCTCTTTTAAAATTGTATTATTTTTAAAGGCATCTTTTTATTTTATTTTATT
TTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTGAGACAGAATCTCACTATGTCACCAGGCTGGAGTGCAGTGGCRTGATCT
CGGATCACTGCAGCCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCCGACTCAGCCTCCTGAGTAGCTGGGACTACGGGCACATACCACCATGCCAAGC
TAATTTTTGTACTTTTAGTAGAGATGGGGTTTCACCATATTGGCCAGGAGGGTCTCAATCTCTTGACCTTTTGATCCACCCGCCTCGGCCTCCCAAAGTG
CTGGGATTACAGGCCTGAGCCACAGCGCCCGGCCTAATGGCATCTTAGTCATTCGACTTTTCGAGACAGCCTTATCAGTAGCCTCTGATGCTTGAGGTTC
TCTTGTGTTGCTTTTYGTTGTCATAGTATTTTTGTTGTTATTGTTTTGTTTTTCTTTCTTTTTGTTATTTGCTTTATGTTTGTATTTGTCGTACGTTGTG
TTTAATCTACCCCTTCTCTGCCCAAGACTGTAGTATGTCGTCAGGRTTGAGAACCACTGGGTTAAGGAGTTACAAAAAGTTAAATTTCTCAGGGCTAATG
TTGAATTCTTGCATCGGATGAGCTCATTGTAACTTAGGAAAATCAAAAGCTTGACTTGAAAGAATGAGACAAGTCAAGCTCTTGTGAGACAAGCCAACTC
TTTCTCATGTGGAGGAAGAGTTCTGATGGGGAGAAGGAGCTGAAGAAGTGGTGCCCCCATTGAAGCAGGCAGCTGGGATCCCCTGTGAAGGTGGTGAAGG
GCAGATGGGAGACGGAGATATTTTAATGAAAATTGTAACCTATTTTATGAATAAAATTTATTTTTTATTACTGTAATTTTTTTTTTTGAGACGGAGTCTC
GCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTGCACCTCCCGAGTTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAG
CTGGGACTACAGTTGCCYGCCACCACACACAACTAATTTTTATGTTTTTAGTAGAAATGGGGTTTCACCATGTTGGCCTGGCTGGTCTTGAACTCCTGGC
CTCRGGTGATCCACCCACCTCGGCTTCCCAGAGTCTGGAATTACAGGCGTAAGCCACCACRCCTGGCCCCAAACAAAATTTAATTTAATCCTTACAACAG
TCACTCAAAGGAAGAAGGATATTTGCATTATTAGAGCACCTTCATGAGCTTGACATTTTTATGTTGCTCTTTGAATCCTCTCAAATGCCAGCTGATTTAG
GTTTCATTTTTCCCGTCATCAGTGATAAAACCATGACTTGAGGCAAAGGTGACTATTCAGAACCAGGGTTTCTGATTCTACTGCCTTTTTCTACTGCTTG
GATACAGCCTGGCCTGAAGCCTCAGGGACTTTAGGATGTAGATTGGCAGGGGAAATCCCAGGCAGGGGTGTTTTTTGATGGGAGAAGCTGTTTGCAACCC
GCAGCTCTGGAGTGACTCAGAGAGAGAAATGACTAATTTCTCCATTCAGCAAAAATGCATTGAGCTCCAGCTACATGATGAGGACTGCTGTAAATTCCGT
GGACACAGCAGTGAACAGAACAGACCAAGCCCTGTCCTASAGTCCACCTGCTAGTAAGGGAACCTGACAAATCAAAAGTTAATAAAAYACATGGTGTGTC
AGTTGCTATGATAGGTCCTGATAGGGGCTATGGAGGTCAATGGCTAGAGATGAGAGTAGGTTGCAGTTTTCAACAGGGAGGCCCTCAGTGAGAACTGATG
AACTGGGATGAGTGCAGGGATGCATCTATCTGGGGGCTGAGCATCCTCGATAAAAGGAACTATGAGTGCAAAAGCTGGGGGCAGTAGTGTGTCCAGAATA
TTCTAGAAACTGTAGGAAGGCTGGTATGGCTGAAGCAGAGGGAGCAAGGGAATGTTAGATAGGAGAAAAGCTGTGACCAGATCACAGAAGGTCTTGGAGC
CCACCATGAGGACTTTGGCCTTTATTCTAATTGAGTGGGAAAGCCACTGGTGGGCTTTGGTGAAGACAGATGTGATCTGGCTTATGTCTTTATTGAATGG
CTCTGGCTGACGGATGGAGAATAGAATAGAGTGTGGATGGGGCAAGGGTAGGAACAGCTGCAATCACTCAGGCTCTAGAAGCAATGGGGGCTTGGCCCAG
AGCAATGGTGGTGGAAGGGGAGAGGCGTGGTTATGGCCGTATTCTGGATATAATTTGAAAAGATTTGTCGGGGGAAGTGAGGATTTTAGCTCTGTTTTAT
TGAGTGTGGTTGCCTGCAAACCAGGCTCTGCGCCTCTCTGAACTGTCATGCATTCTTTTTGAGTCCTCTTGGTGGTTTTGTAAAGAAGCCAGCCTCGCTG
CCCATCTCCCAGAGGGGGGAAACTGAAGCTCAGAGACATTCARGGATTTGCTTAAAGCCCCATGCCAGGCGTTGGCCATGGTCCTGGCTCCCAAACCTGT
CCTTTTTCTACTGTAACAGGCTGCCTCCCCTCCAAAGTCTGCAGGAAATTTAAGCCTCCTGGAATTTCTTATTGTATCAGCATGAATATTATTAAGTTTC
CTATAAACTCAAATTTTGTGTATTTAAAAAGACTATGAATCTTTCTTTTTAGAAATTGAGGTGGTTAGGATTAATGACCAACCATAAAATTTTATAAGCA
ATTATTACGGTTTACTGTACCTTCTTCAGYTGCTTGTCGCCTTGCCTTCTTTTCTTTCTCCTGTAGTCGGGGTGAGTTTTCACATCACTGACAAAGATAT
TGGGCTGGGAAGAGGCACGCTTGGAGTGAGACCCTTCAGGAAGCCTCTGTTTTTAACTTTAGCTGTGACACTGGGMTCTCAGTCATGGAAGTTCACTGAC
ATCTACTCATCCTGCATTAGTAATATGGGCATGGTGCATTTTCTGTATTTATTAGCTATGTTTAACAGAATCTTTAGAAAGGAACTCRATGCCCTGTTTC
AACAAAGTACATTGATTTTTTGCTTTGTGATAGATAAGGCAAAAGCGGTCACTTTGTTCGGTGTGTGCTCTCATCCTAATTTAGGGCCCCTTTCTGCCTA
GAACTCTGTAGATTYCCGCCGTCTGTGTTTTTCCATCATCCCAGACCCTCAGCTGCAAGCTCAGGCCTCCAGCCCCTCATGCACAACTGCTCCTTTAGAT
CAGGATTACTTTGCCCCCAGTCTCCCTGGGACTTGCTGCAGATTTATTTCAAAGTTGTAAATCCTCTGTGGATTACCTCCTCATGCTATTCTCAACCTCT
GGTTCTTTCTTTTTCTGATTGCCCCCARTATTAACAAAGTGGAGCAAAAATAACTACAGTTGCTGGAAAGTGGTACTGTGTTAGTCAGAACACAGAGGTT
GTATGTGACAGATACACGTTCACATGGCTAAGGCTAAAGGGTATTYATTGACTCCCATAGTCAGGAAATCCAAAGGTGCATCTGGCTTTAGGACAGCTGG
ATCCAGGCCTCACACAGTTGCACTTTGTACTCTCCCTTTGCGTGGTAGCCTGATCTTCTCCTGCCACAGACACTTGGTCAAAGAAGCTGGTCACAAGCTG
CATCCTTCTAGCACTGTGAATATTAAAGGCAAGAGGAATCTTCCCTCTGAGCCTGGTGTGGTTTGGCTGTGTCCCCACCTAATTCTAACCTTGAATTGTA
GTTCCCATAATCCCCACACGTCACGGGAGGGACCCAATGGGAGGTAATTGAATCATGGGGGCGGCTTTTCTCATACTGTTCTCATGATAGTGAGTAAGTC
TCATGAGATCTGATGGTTTTATAAGTGGGAGTTCCCCTGCACAAGCTCTCTTGCCTGCCCCCATGTAAGACGTGACTTTGCTCCTCATTCACCTTCCGGC
ATGATTGTGAGGCCTCCCCCACCATGTGGAACTGTGAGTCAATTAAACCTCTTTCCTTTATAAAGTACTAAGTCTTGGGTATGTCTTTATTAGCAGCGTG
AGAACAGACTAATACACACATCTAACAAGAATACCCCAAGGAGAATACTGTTTGGTATAACATTGGGCAAATGCCCATTGCTGTAGCCATCTCTGAGGCC
AAATAAATGGGTTCCGCTTGGCTAGAAGTACATCTCATTATGAGTGGAAGTGGGGGAATGTCATGGCACCATGATTGTGGTACAGCTGATTGTCATGGGG
CAAGTGGGAGGGTTGATGTAAGAAGGGGTTGGAAAGCCTGCTGGGTAAACAAATCTATAGCTACTGTCCTTCACCATAGTTCTACCAAAGTCAAATTGCA
TTTATAGCACTGGAGTTTCACTTAAAGGGAATGCAGCACTGGGGACAGACCCTAGTATTTTTTCCAATTGTCCTTTATTTTCARTTGCCACCATGTCTTG
AGCGCCTGCCCTATGCCCCCATACTGTTCTAGGTACATATGATGGCAAAATGATGAATAACACATTGACTCTGCCCTCACAAATGCTGTTCATTAGGATG
GGTCTTCCTAAATTATAGAGACTGATCAATTTACATGCCACCCTTTGATGCTAACTAAGACAATGGAGAAATAGCCCCAAGTGYTAATACTCTGTCTCTT
GAATTGAGTTATTTTTCCAAGGCAGTAAAATGTGAAGATTGCAATTAGTTAAMCATTATGAAGACAAATCTTCAAATATTTTTCTCACTGTGGTGACATT
TAAAATGCTTCCTGCTCARCCAAACAGCCAATTGATTTCTTTCCCATCTTCTTATAATGGCTAATTGCTAAGCAATTGATTGAATCCTCTTTTGTTACTA
TGTAATTACTAAGCTGGCCAAAACGACTCTCCCKACCATTTCTCAGTTGGCTCATTTTGGTCACCTATAGGACAGGTTTGGGGTGGGAATGTTCTTATTT
GGTTAAACTTTTTGCAAATAATCAATCAAATTGCTTTATGTAGTGATTCCGAGCAAAGGTCCAACTGGCAGAAAGGCTTACATATTACTTGGATAGTTTC
TTAACCTAAACTTTGGTGAAGTTTTTGTTGTTGTTATTGTTGTTGTTTTGTCTTTGATATGGAAAGAATAAGAACCTGCCTCCTGAAATTTTGGGAAGGG
TCATACGAGATAATACATTTTCAGTGTTTAGCACCACTGGGACAGAATAAGCCTGTAACAAATCACAAGTGTTAATAGTTTGTCTAGGCYACCTCTACTG
CATGCTTATGGGAACATGGTCAACATTGWTAACTTTTGTGCCTCAGTTTCCCAATCTGTAAAGGGAGGATAATAGAGCCACTCATCATCAAATAAATTAG
AGTTTATTTGATGATTGTATTAGTCGGGGTTCTTTAGAAGGACAGAACTAATAGGAAATATAGATATATATATATATATATACATATATATATATACACA
CACACACACACACACACACACACACACACACATATATATATATATATACACACACACATATATATGAAGGGGAGTTTATTAAATAGTATCAACTCACATG
ATCACAAGGTCCCACAATAGGCCATCTGCAAGCTGAGGAGCAAGGGAGCCAGTCCAAGTTCCAAAGCTGAAGAACTTGGAGTTTGATGTTCGAGGGCAGG
AAGCATCCAGCATGGGCGAAAGATGTAGGCTGGGAGGCTAAACCAGTCTAGGCTTTTCACGTTTTTCTGCCTGCTTTATATTCTAGCCATGCTGGCAACT
GATTAGATGATGCCCACCCAGATTAAGGGTGGGTCTGCCTTTCCCAGCCCACTGACACAAATGTTCATCTCCTTTGGCATGATCCTCACAGACACACCCA
GGATCAATACTTTGCATCCTTCAGTCCAATCAAGTTGAGGCTCAGTATTAACCAACTCAATGATAAAAAGAGAGAGCAAAAGCATGTAGAATTGATATGA
CGGTTAAAGGGGATAGTTAAGGCACCTGAAGGACCAAGCCCACCAGCAATCTGCACGGATACTCGGTCACTATTTTGTTATTTATACCACCTGGCACAGT
TCCTRCCTTCTAATTCACACTCAAGCCTCAAGCAAGAGCCRTTCCTTTGCCTCCATTCCTCCCAGAGATTCCCCTTCCCATGCTGAAGCCTTGGAAATTA
TTGTGAATGCAATAATGGTGGCCGCTTCTGTAAACACYGTACTTGACCTTCATGCCCACAGTATTCAGCAGGTAACTACGTAGTGTCTGTTGTGTGTCAG
GRACTGTGCTGTGGATTCACTTCTGCAGAGAGCAGAGGGTAGATGCAGAATAAAGGGTCTTCTCCTGCCTTGAGCCGTTCAGAGTTGTGGCCTTTGGAAG
ACTTGCTCAGAATGATCCAGTGCTTTTTTGACATTTCTGGATATGATCACTAGCTGCAATCTTGCATTTGGTGCTTTTTGTGATTCCCAGCTCTCCCTCC
ACATGCTCTGAGAAAAGTGATAYCCCCAGAGCTGTATCCAAAGAAGAAATGTAAATCCAGAGGCTATAAACTAATAGGATCTGAGTTTCCGTGGTTGACT
GTATGAAAGTAGATTTGGCTTCTCTGTGTTGCTGACTTTAACAGGGAGCTTAAAATGTGAGATGGAGCAGGTGTTTGCGTGCTGTRTCACCAAGCCGTTC
CCATGGCTGTGAATTCCGGGAAGTTGAGGGACTATACAGACACTTTATCTTGTGGTGACCTGATGCATGCACCAGGCCACTGTTGCCCAACAACTGCCCC
CTAAGTKTGGGTGGAACGGCCATTGCAATCGACTCGGGGSGAACAGTGCATCTAAAAGATGAAGGTCTGATTTTCTTTGCAGAGTTTAAATGGTGCATGT
GTCTTTACCCCAAAAACCACAGAAACAATTTCTCTTAAAGAGAAAGAGAGGAACTATGTACTTGGGCTTTGTATTTGGAGATTTTGGCAAAGATGGAGGC
TGCCCATCATGGGTGACGGTAGAATCTGGTGTCAGATGGCACACTCGGAGTTGTCTGACTCACTTGGAGAGTACAAGGGCATCTGCACCTACAGGCATTG
CTGTGAATGACAGAATCATCAACATCCAGGGAAATGCTATACTTGAAAAAAAAAAAAGATCAGGGTATTAGCCGTGGCAGCTATGTGGCTTCTAGATACT
GAGCCATCCTAGATGCTAGCTCTTTACCTGCATGATATCATGCAAATCTTGGAAGCAAGCCTCCAGGTGGATTTTATTCCTATTTTACAGTGGAGGGAGC
TGAGGGCTAGAGAGGTTTAGTAATGTGTTCTCTGACACATAGATTAAAAAGTGGCTGAGCAAGAACTTGAATCGCAAGCCCTGCATGCCAGTTGCGAGCY
CCAAACCCTACCTCCTGGGGAGAAGACACACATTGTATTTCTCTTCTCTTCATGGGGGTTACAGACTCCGTTATTTCAGAGCAGAACCTAGGTTCTCTAT
AGGATGGGGAGGTATAAGGACTCCTTTCTATGCAGTGGAAGCCTGTGTGGTCTCCCTGAGACCTTTTCCCACAATCTCTGAATCCCATTCATTTGTGCAA
GAGTCAAGTTCAAAAGCAGAGAGCTTGAGAGCTCCTGTCTTCATCACATTGTTGACTTATCGTTACATCTGCTCTTCTAACTTAAATCACTGGCTCCTTT
TCTTTCTTCCTCTGCATCTTCACCAAGGAGTGGTAGAAAAAGAATTCACCTTGGCATAGACAAGCCTAGATTTGATTAACAGCTCTTAAAAAAATCATTC
CACCTATTTAGTGTTCTGCTTCCTTCTCTGTGAATAGGGCTAACGATGCCTATTTAGATTATGAAAATTAATATAAAAACAGAATAGAAGTCCCTAGTAA
GTTGCCTGTCCCAAAGCAGACACTTAACTAATGTCAAGTCTCCCTAAACGTTGCCCTCATCCCCACAATACGAGGAGGGAAGAGTCCGAYGTTTTCATTA
GAAAAGCTGCCACCCACACACAGGATGCTTTTCTCTACTTCTGAGTGTTTATAGTTTCAGTGATTCTGTGCCTTACAATTTTCAAGGACAGCTCGTTCCA
ACCTTTGCGAATATGAAGAATGGTTTTTCTAAATTATATAATAGTGTGACCTACAGATAGCCTTGGGCTTTCCTTTCTTCTGGCTGCAGCCTTTGCTAGG
TACACATAGGGACATGCACCCTGACAATCCACGGGGGCCCCCTCTGGCCTGGGTCCTCAGAATGAGAACCTCAGCTTTTAGGACTCACAATGCAAGGATG
ATCACGCTTGCTGTTAGCAGCGCAGATCCAGCGTAATTTTAAAAGCAAAATGACTGACTACATAGAAAGAAAAACCACATTGTTTTCCTGTCTCCCCATG
GAATGCTGCCTCCATTAGAGAAAAAGGAGAAAACCCGATTAGGAAGGATAGAAACATAAATGGAACTGTGTCAGGCCTTCCAAGCTGTCACTGATTATTC
TACCAGGCAGATATTTCTCACCTCCCATTCAGGGCCATCTCCTGTAACAGCCATTTCTATAGCCGAAACAATAAGGGATAAATTAGGCTGGTCAATTTGT
CCTTTCCCTTTCTTGGGTRAAAAGAAAAYGACTTAACTAAATCTTTTTTCTTTAGGATGAAAAGAGATTTTAAAAAACATTCTAGTAGCAAATAACTGTC
CTAAAGTAGGTAAAATGGGAATTGATTTTACTTACCTGACTTCCTAGTTGGGTAGTTGGGAGCATTACCTGAGACGGGTCTGTGGCAACACTTTGTGACG
GCCAGGCCTGGGTGGCTATTACGGTCATCATCATTTCAGGAGGCAAGGTGGCTTCATTATGCTTCATTCCTACAATCTCCTTTTTGTTCATTGATGTGCA
TTCTCCTGCTTTGACATACAAACCCATAACACCATGAAATTTTAAAGCGAATGGTAATATTTTTTCATATAGGTAAAAAAAGTATGAGAATATTCCAATA
GAAATAACCATAAAACATTCTTTCTCTTTGTTTGAGTAACCCCTTTCCTGGGTGTCTATCCTAAGGAATAATGTAAAATGTGGAGAATTATTTTTTTCAG
AGGAAGATGTTCTTTGTAGCTTTATTTACATCATTCACAGTGTTTATAATTAAAACAGTTGAGAGTCCATTATGATTGAAGTGGTTGTTAAATGATGGTA
TATCTGTCTTAAATATTGCATAGCTAAACAAAAGGAGCTGGTAATGATAGAAGAAAATGCTCATGATATAATATGTGTATTATAGTCTGTTCTTGCACTG
CTATAAAGAAATACCTGAGATGAGGTAATTTATAAAGTAAAGAGGTTGAATTGACTCATGGTTCCACAGGCTGTCCAGGAAGCAGAGTAAGCAGCTTCTG
CTTCTGGGATGGCCTCAGGGAGCTAGCTTCCAAGCATGGCAGAAGGCAAAGTGGGAGCAGGTGTCTTACAGGGCAGGAGCAGGACCAAGAGAGAGATGGG
GGAGGTGCYATACAGTTTCAAACAACCAGATCTCCTGAGAACTCTATCACGAGAATAGCACTAGGAGGGTGGTGCTAAACCACTAATGAGGAAACCCCCC
GCCATGATCCCATCACCTCCCACCAAGCCCCCTCCTCCAACATTGGGGATTACAATTCGACATGAGATTTGGGCAGGCACACAGATCCAAACCATAGCAA
TATGTAAAGAATCACCCTAGCAACAGTCATCAAGATAGCATGATACAGCAGGGGAGAGATACATGGATCAGTGGAAGGGAATAGACAACCCAGAGATACA
GCCACACAAACGTGTCCAACTGCTTCTTAGTAAAGATGAGAAAGGAAGTCAGTGGAGGAAGGATAGATCCTTCAGCAAATGATGCTGGAGCCATTGGACA
TCTGAAGGCAAGAAATGAACCTCAACCTAAACCTCACTCTTCATACAAAATTTAACTCAAAGTGGTCCAGGCCCAGTAGCTCACAACTGTAATCCCAGCA
CTTTGGGAGGCCGAGGCAGGCGGATCACCTGAGGTCACAAGTTCGCAATCAGCCTGGCCAACATGGTGAAACCGCGTCTCTACTAAAAATACAAAAATTA
GCCAGGCTTGGTGGTGGGCACCTGTAGTGCCAGCTACTCGGGAGGCTGAAGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCTAGAA
CACGCCATTGCGCTCCAGCCTGGGCAACAGAGTGAGATTCCATCTCAAAAAAGAAAAAAAAACAAAAACAGAAAATGTTAACTCAAAGTGGATCACAGAT
ATAAATGTAAAACACTATGAAACTTTAAGAAAAAAGTAGGAAAAAATCTTAGGGATCTAAGGCTAGGCAGAGTTCTTATACTTGTCACAAACAGGTGTGA
ACCCTAAAATGAAATTTTGATAAATTAGACTTTATCAAAATTTGAAACTTTTGCTATGTGAAAAATCCTGTTAAGAGAATGGAAAGACAAGCTATAGACT
AGGAGAAAATACTTACAAACCACATATCTGAAAAAGGATTAGTATCTAGGATATAGAAAGAACTCTCTAAACTCAACAGCAGAAAACCCCAATCAACCAA
ATTAGGAAATTGACAAAAGACATAAACAGACATTTCAGCAAAGGGGATATRAGGATAGCAAATAAGCTCATGAACAAATGTTCCAACTCATTAGCCATGA
GGGAAATGCAAATTAAAACCACAACAGACTACCGGTACACACCTATTAGAACAGTTAATTTATTTTTAAAAAGCAGTAACATCAAATGCTGGCAAAGATG
TGCAGAAACCATCACTCAGACATTGCTGGTAGAAATGTAGAGTGGTACAGCCAGTCAAGAAACGAGTTTGGCAGTTTTGTATAAAACTAGACACGCACTT
ACCATGGAACCCAGCAATTGCACTCCTAGGCGTTTATCCCAGAAATAAAAACTTATGTTCACACAAAACCTGTACACAAATGTTCATAGCAGCTTGATTC
ATATTTGCCAGAAACTGAAAACAACCCAGATGTCCTTCAACATGTGAATGGTTAAACAAACTGTGGTTTATTCATATCATGAAATATGGCTCAGCAATAA
AATGAATGAATTATTGATACACAGCAACTTGGAAGAATCTCCAGGGAATTATGCTGAATGAAAATGCTAATCCCAGAGGTTGCATACTATATGATTCCAT
TTATATGATATTTTCTTTGAAAATGTTATGTTTATTTTTAATGTTTGTGGGTGTATCATAGGTATATATATATATATATATGCATGGGGTACATTAGATA
CAGACATCCATTGTGTAATAATCACATCATGGAAAGCCGGGTATCCATCCCCTCCAGCATTTATCCTTTGTGGTGCAAATAATGCAATTATGTGATTTTA
GTTATTTTTAAATGTACAATTGAATTATTATTGACTATGGTCACCTGTTCACCCCGTTATGCTCTCAAATACTGGGTTTTATTCATTCTTTCTAATTTTT
TGTATCCATTAAACACCCCTTCGTCTCCCCTCCCCACCCTCAATTAAATGAAAAATTATGGAAATGGAGAACAGATCAGTGGCTGCCAGAATGTGTATCT
GTGAGGGAAGAGGCAGTCTCTGCAAGAGAGGAAGATGTGGTTGTGAAATGACAACACGAAGGATCCCAGTGGGGATGGAATGGCCTTGTATCTCAATGGT
GGTGATGGATACGCAAGCCAATACGTAGATAAAACTGCAAAAAACTAAATACACACACACACACTCTCACACACTCACACACTCATATGCTCACACACTC
TGACACATTCACACACACACACACACACACAAAGTATAAGTAAAATGGCAAATCTGAATAAGATCTGTGGATTGCATAAATGTCAATATTTTAATTGTGA
CATTGTACCACAGTTTAACATTAGGGAAACTGGGTAAAAGAGTATTTTTTGCAAATGCATGTGCATCTATAATTATTGAAAAAGTAATAAAAGTCAATTA
AAATATGTTTATGCAGTTGTATGCATTTAAAAGACTAGAAAGGATTTATCGACATTTTAGTATAGTTAACTATCCAGTAGGACATTGAGCATCTTGCTTT
CTACCTTTTACTTTACTTTCTCTGCCAGGATTTTCCTAGTGAGCATGTGTTAGTTTTGTAAAGAGGAAAAAAAGCAAACCTGGTTTTAAAAAAAAAATCC
CATTGCCAAGTACAACAATTTACAGCACTCTTTTTAGTATATTCTGAAATAGTCTCCTCATGATTTCTTTCTCTTCTGTACTCCAAATGTAACACTAAAT
CACACACATGTMCACACACACACACACACACACACACACACAATCATGACCAGCTCAAGAATAAATATGTGGGGACTAAGCATCCAAAGCTCGACACCAA
CAATTTGCAGSTGAAGACATAATGAACTTTTGTTAGYGGATGGACCAGCTGGGAAGACTGTAAAGTTGGATGTCTTGTTGTGCTTTCTATTTATTATTCA
GATCTCMAGTCCAGTGTACAGACAGAAGGTGCATCTTGATGGATAGTTCAAAAGGGTAAAGACTTAGACAAAATAATGAGAAAGGGACTATTTGGCGACA
TATTTCATCCTCTCCATCCCACTCTGTGGCTTCCTCCCTTTGATGCACACATAATTTCAGGAACCCAGAGTGCAGGATTGGTAGAAACGGAATAAATATA
TAGTCTGTTGTATGGGAACAGGCTCAGAAGCCTATAAAAGATTCAACTCCTGCTTTCCCTTAGGAGAGGTACCCAACCAGTATTAATATTTTAGAAATAC
TGGAAGGTAGAAGAGGAGCCATTATTCATCACTGGCAACTCTGTGGTACTAAAATTAAATAATGGGGTTTTTTTTAAAGACAGAATTGTGAAAGTTGTGA
AACTATAAAAAATATTCCTCTCTTGGGGATGTTGCATTTTTTGCTTTTATCTTTTCTTCTTCTCTTGAGAACATTTTGATTTACTACTGTGATAAGCTTA
TAACAACTAGGGAACTTGGGAGAAAAGACGAGGCAGGCTGGGAGGAGGGGTGTTATGGCAGCTTACAAATGGGCCCGGGTACATTTGCCTGGCTTCAAGT
CAGAAGGTGCTGGARCTGGGCTTGGATTCATTTCCATTGTGTGGCACACATATCTCATGCATGGGCCAGGGACGTGCCTTGTGACAGTTAGCACCCACGG
TGCCATGTGGGCTTGGGATGTGAGCATGCTTGTCTGCTCAGCAGGAACTTTTCATAAAAGGTCTAGTCATCCTTTTCCTGAAGCCTGGAAATAATCAGCC
CTGCTCCTTGAGGAGATGTCTAAGCTGTTAGGACTTTGTTATCCAGGAGTTGGCATCTGACCAGCATCTGGAGTTTTGGATTGATCTGGATGATTTCAGA
GTGTTCTGTACCTGTTCCTCCCCCTGAACTAGCTGTGTAACCCATTGGACAAATGACTTCACCTCTCTGGGTCTCCTTAACTGCATTTGTGAAGTTAAAA
AAAGCAATAGAAACCACCAGGTAAAATGCACACGTAGCTTTAGCACAGTACGTGGCCTGCACAAGGCCTCAGTGAATGCAGTTATTACCTAGGATGCCAC
TTGAAAAACATTTTAAACCCTTTTAATGATAAAATTACTCTCCGTGACTGTTACATGTTGTGTTTCAATGCATACTCATGAGTGTCGTTAACATTTATTG
AGTGCCTACTATGTGCCTGCCACGGTACAATGTGCTTTAGGGATGCAGTTCCATTCTGTCCTCCCGAGGACCTCAGGAATGCAGGTCTATTATTCCCAAT
CAACAGAAGGGAGAACTGAGGCTTAGAGGGGTGAAAAGATTTGCCCAAGGTTAAAACCAAGGGCACATTAGAGCCAGCGTACAAACTGACCCAGAAATCA
TTTTCTAAACCACTGCACCACGGGGGCAGGAATGGTGGCTATTGCTCGGGACCTAGAGAAATGAAGGCACAGGGAATGAAGACGAATCCTTGCTCCACCC
ATGGGGAGACAGTGGCTGGGCCAGATTTAAGCAGAGATCCCTGGACAGCGCCTCATTCCTTACCTGATTCACACGGTGCTGATACGCTTGTTCAGGGCTG
CCTCAAGCTTCAGACTCAGAGTCAGAAGGGACCTCAGAGTCTRTGTGGTGCTGATGGTCTTTGTAACGCCTTAACAGGATGAGGGTGTGAGCCTGGGCGC
TGGGTGGCAGCCTTGTCCATCACCAGATGAGCTTAGCACCGTCGGCCAAGTTTTCAACCCCAGGAAGCCTGCCTCCTTTTGAGCTGAAATCTGTCCATTC
CATAGCTTGCATCGATTGGCTTTTCTGAAAGTTAAGACTAAACCAGTCTCCTTTTCTGCTGGTCTTTAGATGATACCCAAAACTGTACCTCGTGTTCCAT
GTCTCTAAGCATTCAAYCACTTACTGGGTTGGGCTGTGCTCATCTTACACAGAACAGATCTCCTCACTTTTCTCTCAAATGTTTTCCTCCTTAGTCCCCT
GTCTACACGTAGCCTCTATCCATCCCTGTATCCTTGTGGGTTAGAATTCACCACACAACATGATCTCATTAGGAGTCATCACCTACAAAGCAGGTATTGG
GCAATTGTGTTTACCCAGGGTCGTTTTGGGGAATATTAGTAACCGAAACTTGAGAGGAACTTAAATCTACATATACCACCCACCAAAGACTTGCATGGAT
GGTGCAGTTTCCGAAAAACTTTGCCAAAGCATTTATTGACTCACAGCTACTATGATCTTCTCTTGTTGAGCTTCCCTTAGGGAAAACAACAACAACAACA
TATTTTAGGTAGCCAGAGCTTCAGAGGAAGAGAGATATTCATCCAAGTTGATCTCATTGTATCCATGAGCCTGTTAATTTTCAGGGAGCAAGATTCTCTA
GTCTTAAAAATGTGTGTGTGTGTGTKTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTATTGGGATCTTTTAACTAGGAGAATCACTCAGAA
TGACTCTGTTGGAGGATACCAGAATATCTCTTGGAACTCAAGCCCAAGAAGCAGAACTGGTCCTTACCAGAAGTTGGCAAGCCATTTTGAAACCAGGGTA
GCTGTGCCTGTTCATTGATTTATGCATTCATTTTCCTTTTTTCCTGACCATATGGTCTCTCATTTCAGCTTGTCTTAGCATAGCTTCTTTATTTATTAAA
AAATATTTGAGTTTCTACTATGGACCATGCACTGTTCACAGCAGAGAACAAAATGAAAATTCCTGCTAGCACAGTTTATATTTAAATGGTAAATAGAGAC
AACAGATATAAATATGTCAGGAAGTATGTCAGGTACTGAGGGTTCGGTGAAGAAAAATAAGACAAGGATGATGCTGGAAGGAAARGCACTACTTTCTTTC
AATAAGGTGGCCAGGGAAGTCCTCTGCAAAGAGATGAGTATAAATTGAGATTTCTGTAGCAACAATGTAATGAGCCACAGGAGACCCATGTGGTAAGGTC
CTGGCGAATTCAAGCCATTACCAGACACCACTGGGAAAGGGGGCTGGGATACTTCAGTGTCAGAGCATAATTTGGGACCAAGGCTGAGGAATAAGATTGA
GTAACGTTGGCYGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGGTCACGAGGTCAGGAGATCGAGACCATCCCGGC
TAACATGGTGAAACCCCGTCTCTAATAAAAAAAAATTAAAAAAAAAAAAAACACAAAAAATTAGCCGGGCGTGGTAGCGGGTGCCTGTAGTCCCAGCTAC
TTGGGAGGCTGAGACAAGAATGGCGTGAACCCGGAAGGCAGAGCTTCCAGTGAGCTGAGATCACGCAACTGCACTCCAGCCTAGGCAACAGAGCGAGACT
CTGTCTCAAAAATAAATAAAAAAGATTGAGTAATGTCAGAGAAGATTATTTACCAGCTGTAGGGTGGTGTCACCATGTTTGAGCCTGCATGGGATTCATT
TACACAAGCATTAAGAACTCTATTTCAGTTTTCCCTGTAGGCTGTTTTCTTTGCCAAGGTCTCTGCTAATGGCCCCATAGTGTCCCCTGAAAATGGCGGA
CTCGACTTTCAAGCTGGTAAGACTTCAAAGGTCCTCAGTCTCTCCCTGTCCCAATCCCAGGCTTCCGAAAGAAATGATCTTGCCAGGCTCAGCTTTGGAT
AGGACRCTCTGGGTCACAAAGGGCAGCCCGGGACTGACATAGTGCTAGGCCCAAGCATGGCGCTTTTGGGGAAAACGGCTGCAAAATAGGATGAGGGGAT
GTGGACAAACTCAGCAAAAGTTGATGCTGAAGACAGAGGCAGGGATATGGCTATAAAGAGCCTTGCTTTCCTGAGGGGACTTGAATTTTTCYTGAAATCA
ATGGGGTGGGGGGCCCTGGAAAGATTTTAATCAGGGCATGATCCAATTGGAAGAGACAGTAGCGGCTTCACAGAGTGAGAAACCTCAAAGCTGTCTACAC
ATCCTTCCAATGAAGGCACATGCAAGGCAGAACAGAATGTCAGGATTTCGGATGAAAATCATGGAAATTTTATTTATTTTTGATACTATTTACATTTCCA
GGCATCAGTCTTCATGTTAAAATTTGTCCTGAATGATAAGAATAATAAGAGTAAGTGTTAAAACTCTCAGGGAAAGGGCAGTCAACGTGAATTTCCAGCC
AGAAAGTCTTCAGTTGTTCATGTTGATTACTAGCAAATGGGAATAGTGCCAGGTTCATAATGCTGATTTTATTACATTACTTTCTCTGAACTCYGGTTTA
AATAAGTGCGTAAATATTTGGTACAGGGAGATAAACATTGAGTACACATGGACATAAAGACAGGAAAAATAGACACTGAAGACTCCAGAGGTGGGGAGGG
ATGGGGTAGGGCAAGGGCTGAAAAACTTCCTTTTGGGGCCAGGTACAGTGGCTCACGCCTGTAATCCCAGTACTTTGGGAGGCCAAGGTGGGAAGATCAC
CTGAGGTCACAAGTTCGAGACCAGCCTGACCACCATGGAGAAACCCATCTCTACTGAAAATACAAAATTAGCCAGGCATAGTGGTGCACGCCTGTAATCT
TAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGCAGGTGGAGGTTGTGGTGAGCTGAGGTCGCACCATTGCACTCCAGCCTGGGCAACAA
GAGCAAAACCCCGTCTCAAAAAACAAACAAACAAAAACACCAAACAAACAAATTTCCTTTTGTGTACTATGTTCACTATCTGTGTGATGGGATAATTAGA
AGCCCAGACCTCAGAGTCATGCAATATACCCTTGTAACAAACCCACACATGTACCGCCAAATCTAAAATAACATAGTAAAATAAGATTTAAAAATAAGGC
CAGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTCGGAGGCCAAGGCGGGCGGATCATGAGGTTAGGAGATCAAGACCATCCTGGCTAACATGGTGA
AACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGCTGTCGTGGTGGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGTGA
ACCCGGGAGGCGCCACTGCATTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAGATTTAAAAATAAAAAATAAAGCAA
AATCTATACACTAATAAAAAAATTTGGTTTAACCTTTCCCTGGGAACAGTAATGGTCTGAAATGATGGAAAGAAGAATTGAACAACTCCAGGGAAGTGAA
GTTTGGCAAGTTAGCAAGAGAGTAAGCATGTATAGTTCAACAGCATCCGAGGGCATGATTAATTTATTGTCCTTTTAGATGGCAGAATGCACACRAAACC
CTTCAAATTACACCATTATTATGACAAAGCTCAGGGGGTGTGAGAAGTTAAAGATGTTCCTGCCAAGAGTTTGATGTACAGAGGAAACGGGCAACCCACT
GGATACACATAAATCTGGAAATCGAGACTTTGAAGTCCCTCGTCCTGGCTCTGCCACTGACATGGGCCTGAGATGAATGTTCCTGGGCCATGAATGGCCA
TGTCACACGGAGTTCCGATTGGGAGCTCTTCCATCAGTGTCGGGCTCAATGCCTTGTTGGGTCTACTGGGTTGAGTGCTCCTACCCAACTCAGGACACGC
TTATCTGTTGCCCCTATGAAGTATGGGTCAAGACCATGGGCTCTGGGGGATTTGGTTCCAATCCAAAATCTTTATCTAGCAGACTTTGGCAAGGTTTGTG
GGACTCAGTTTCCTCCTCTGTAAAACAGATTATTACCAATACCTACCTCATAGAATTGTTGTGCCTGTAAAATGCTAAGAATAGCATGTGCCGGAGTCAG
TGTTCAGTAAATGGTAGCAGCTGTCATTGTCATCATCACCATCATTTTAAACTGTTGAGCATATTTATGTACCTAAGCATTTCCTATGTCTCAGGTCATT
CACTCACCATGAGCCTTTCCATTATTTTCYATTGTGCAGAAGACAGGAGTGAGGCTCAGAGAGGCCACACAGCTTTCTATAAGTCCACGTTGTCCGTGAG
CCCTGAACTGGGATGCAGATGCGTTTTTATGTGTCTCTAAACCCTGCTCTGCTAAATACTGTGTGTGTTAATCAGGATAGGTTAGGCTTTGGTGACAAGA
AACCCCAAATTTCAGTTGATCAAAAAAACAAAAGCTTGATTAAGCTCCATGCCCTCAGAAGGTTAGGTGGGAACTGTGTTCCTCATTGTCATTGTCCTTT
CTTTGGGACCCAGGTCCATGAAGTCACTACAATTTGGAACATTGCTGGTCACCATGAGGAAGGAAAAGGGAATGTATCTAGGCACACTAGAGTTCCTAAT
GCTTTCGCCCACAATTAACTGAAGTGACACATATCACTTTCACTTACACTTCACTAGCTAAAGCAAGTCCCATGGCCACATCCAGGTCCAAATGGCCAAG
GAAGAACACTGCTGTGTGCCCAGAAGGATAGGAGCCCACAGGGGCTGAGGCAGCCACCATGATTACTTTCTGATACCATAAATCTGATCTGTGAATAGAA
GAGATGGGAGGTACAGGAGATCCAGGGTTTTCACCAGAGATTCCAGGAGCCACCTTGACTTAMAGCAGAACAACCAAAGGCAAAGCCAAGGAGAGTGTTT
TCAAAGGGCTCAGTGATCAGGAGAGTGAARCACACAGCATGCATTAAGAAATCAGAAATTCAGAAAGAGACACTTACAAATACCTAGTTATTCACTGGGA
CAATAAGGGATGTAAAATTATGGTACTGATTGGCAATTAGGGGGGTTTGGGCCCAGCAAATAAAATGCAATGATTGAATGACCCAAAGATGACTCCTCCT
CCTCCAATCTGCTGAGGCATCTTTCAGCGCATCTCCCATGTTATGTAAAATGAGGTTCATAGAGTTTATTGAGCAGTGATCCGTTGAAGGCCATGAGTAC
TCTGGAAGTCAGAAATGATCAATAAGTATTTTGAATGGAAGAAAAGAAGTTGAGGGGAGATAATATGTTACAAGAAATGGTGCCCAAGAGGAAAACCTTT
TTTTTTTTTTTTTTTGAGACAAAGTCTTGCTCTGTTGCCAGGCTGGAGTGCAGTGACGTGATCTCGGCTCACTGCAACCTCTACCTCCTGATTTCAAGCA
ATTCCCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAAGTGTGCACCACCACACCCAGTTAATTTTTTGTATTTTACTAGAGACGGGGTTTCATTATGT
TGGCCAGGATGGTCTCTATCTCCTGACCTTGTGATCCACCCGTCTCGGCATCCCAAAGTGTTAGGATTAYAGGTGTGAGCCACGGTGCCCTGCCAAAGGA
AAACATCTTATTCAAAATCATGAGAGAGAAACTGACCATGAGGCTGAGCGAATGTCAGTGTAGGTTGGGATATATTATTAACAGGCATAGACTGAGCTCT
TACAGTGAGAACAGCCTTGTGCTGGTTACATATTTCATTACGGGGTGGSCTGGTGTGCTTTGGGAAGGACAGGCATGAAAGGGTGACTCATACRTGGCCT
ATGGGTCCTATGAGGAAATTTACCTCAACCAGGGGAGGAGGACTTTCGGCAGCTTTTCCCTTCTCTCTCTGTCTGCTTCTTAATATCACAACCATCTTCT
CAAAAACAAACACAAGTACTGATTGCYTACGAAGCCCTCTGGCCGTGATTTCTCTGACAATCTCAGAATTCACCTAAGACTTCCCTCTGYACCATCTCAT
GCTATCTTCATCTTCATCTCATGAAGGTTCATATTGCAGCTTCTCATGCACATCTCATGTCCCCAGGCCAAGGGGCTGGGCATGAGATCCACTGCACACC
TCCTCCAGTGTCACCCATGACGTGCTGCAATGGCAGATCCCTGAGGAGCTGTGCCCTGGATCTCATGCCCAGCTCCAAGATCAGCATGCCAGCCATTCTC
ACATGCACCCGACAGTTTTGTCCTTTTAGGAAAATGTCGAGATACATTCATTCACTAGATGACAAATGTTTGAGKAATCACTGTGTGCCAGAAACTGGGT
TTGGCTCTGTGGGATACCAGCGAATACAATCAGACGTGGCCACTGCTCCTAGGACCACAGAGTCTAATCAGAGAGATGGCTCTTAAACCACAAGAGTTAC
ATAACATTTCAACAGTTGTGTTGTGTGGGTGAGCTAGAAAATTTCAAAATTATATACTGGAGGAATTTGACTTGGGGGGACCCATTATTTTCTCCAATCA
AGAGACCAAGGACACTGACCAGAGTRTTTTTCTTTACAGAGCCTCCTAGTGCCTACAATTCACAAAAGGGCCTTGACCTTCTCTGTGCATTCAAACACAG
TAGGTTAAACAAACAAACACATTAAGGGAGGACTGGATAAAATCACCTGTACTCAGACTAAAATACTTCGGAATGTGACAGATCTGGAAAGCAACATAWA
AGCAAGGACATAGAGGATCTGAATAGTTTAATCAGTTAATACTAGAAAAGATAGATAAATATGGAACTATGTGGCCTACAAAGAGAAAATACTATTTTTT
TTAATTGTGGTAAAATGTACATGGCAGTGGCATTAAGTMCATCCACATTATTGTGCAACCATCATCCCCATCCATCTCCAGAACGTTTTCATCTTCCTCA
CCTTAAACTCTATACCCATTAAATGCTAACTCCCCATTCACTGCCTCTGGAATCCTCTGTTGCACTTTCTGTCTCTATTAATGTTACAACTCCAGGTGCC
TCTTGTAAGTGGAATCAGACAATATCTGTTCTTCTGTAACTGGCTTATTTCATTTAGCATAATGTCCTCAAAGTTCATTTGTGTTGCAATAGGTATCAGC
ATCTCCTTCCTTTTAAAGTCTAAATAGTATTTCTTTATATTTACACACATGTAGACACATACAATCTTTACATATGTACACATATAGGTACACATACACT
TTTTTAAATCCATTCATCTGTTGATGGACACCTGAGTTGTTCCCACATTTTGGCTATTGTGAGAAATCCTACAGAATGCTTATTCTTTCCGTGTGTCTAT
GGGTCACTTAGTAAAGATGATATTGCACCTGGCCAATAATAAGTTTTAAAATAACATTCAAAGGTAGAACTGTTATTAGCCACATTAGTATATAATTATT
TGGAAAAAAATAAAACCCCTGCAAATACTTAGAAATTAACAAATACTCTCCTTAAAAAAAAAAAAAAAAGACTGAAGCCTAGTGAAAATAACCAGAAAAA
AGGGCACACTCTCAGAAAATAATGCAAAAAACCCAACAATGAACATTGACTTCCTTAGAGCTCAGTTTAAGTTAGACTTAAGCATAATCTTAAGAGTCTG
CTATATAAGAAGGAAACCAGACTGGCAAAATGACCACTAAAAGATGAAGGATCTGGATGGTAGATTCAGATCCCCTCATTGTGTGTTGCTGGAGTTTTAT
TTTTCTTCCCAAGTGCTCCATCTTGCCTGTAACCTTAGCGCCTTCCCTGGGATGATGGGAGCTCCATTTGACCTTGGTGATGAACACAGACAGCCCTAGS
TGGCGTGAGCACYGCTGRTTGATAAGGTGGGTGTGGAGCTTCTGTCCTTCTCAGTGGATTGCGAGAACTTTGGCTCCATGTTTCTTCACCAGGGTATGGG
GACTCTTGGCCATGAGCTTTCCTTAGTTCCCTGGCTAATTTATGACCTAGAGGTTGAACATGGTTGAGCAGCATAAGGGTGAGAGAAAAGCATGGTACTC
CAGCTACCCAGACTGCTGAATGGCTGTGTCTTCAATTTCAAAGGCATGGCAAGGACTAACCCACAGCTGAGAATTAATTAATGCTTACAGATTACCTTAC
AGAAGCAATCTAATGATAAAACACAAATGCCTCTGAACAGCTATAGGTAAAGGCAACAGTGTTTTTTTTTTTCCTATTTAACGTAGAGTAGAAAACATCT
TCTAAATTAGCATATGCATGTAACTCCAATAATTCCTCTTACATGTTTTTAAAAGTTGTCTTTTCCTGTGTAAGTAATATAGGCTCATTTTATAAAACTG
AAAATATTATAAGGTGAAGGAAAAAGTATTACACCTACCTTCATCCTCTAAAGACCAGTGCTGTTCACATGTGATTTGTTCGCTTTGGTAGCCAGGAAGG
AAGGTCTAATTATTTCCTAGTTTTGCACCCTTGTGATAATAATGCATATGTATAGTTATCATCCTCTGAAAATGTGTCCCTTGATTTTCTACATAGAGGA
AAACTAGGCGCATCAATCTGGTTGGATGTGACAGGGAAAGGGTACTAGAATTTATTTATCTAGAAGCTGCCTTGCCTCACAAGCAGTGTTCACTTGGAGG
GTCTCCATTTAAAGGGACCCCTGCAAATTATAAGGATAGGGAGGGTATTAAGTCCCTTTTCAACTCCTAAGCATTACCACTGCCTGGGAASTTCACTATG
GGGATGTTCTGCTGAACCCCTATCAACTCCAGTGGGGGTGGCAGCAGGTTCAAGATGCCAAASAGGAGACCTGGAGCCAGCGATGAGACGAGGGGTTTTA
TTGGATGCTTCCATACAGGGGAATCCAGTGGTGGCAGGCTGAACAGGAGAACCACAACCACCTGTAAARGGCATGCAGTTTATATAGCATTTTCAGTTAG
CACCCTTTCCCTAACATCCTTCACCTGGCAACTTTCATTCCACCTATGAGTCAGGGCCTGGATCTGCCGTCCATGTTCCATGGGACAGGCCAGGGGTTCA
GATGTTCCTCATAGACAAGGAAGGAGCCTCCAGGTCGGCCACTCYCAGATTTCCTAGCTTGGAACAGACATCCGGGTGCATCCTCCACACAGAGTCATTT
TCAGGGTATGCATAAGTTATTGCTATCAGGTGCATTTACCATGCAGGGGAATTGTAAAAAGAGAAATAAAGGTCTGAAAATGTGTCTCCAGGTAAAGTGG
CTGCATTTTCCAAGAAAAAGAAAAAGGAGGTTTGTATGACAGACCTTATTTTTAATTTGTGAGTTTATGAAGCATTTTATAATCATATAAAAACAGGCAA
ATAAAGTTGTACTTCTTCACTCAGAGTGTTAATCAAGTGTCTTCTATGTTCCAAGCCCTGGRAATGTGAAAGAGAATAAGAAAGCAACAGCCTGAGGGAC
AGTTACCACCACCCACCAAGAGGCAAGGTGCTCCCCTAGCTTTAACAGACCTTGCAGGCGAGGAGGGCTAGAGCTCAGGTGGATGAGGTTAAGTCTGCAT
GGAGTGGGCAGGAGAAAGGGTCAGGGGAAGGTTCAGTGGGTAAGTAATCGCCGTCACCAAGTCCAGGAAGATGAGGGCATCCCCAGCAGAGTAGGTGGGG
GATGGCCATCCAGCTAAAGAAAGGCACAGCTCAGAGGGCTGTGCCTCATGCTGGGTTGTGGCTTCGGACTGGAGAAGCAGGTGGAGACCCATCAAAGAAG
AGCTCTGAGATTTTACCCTCTGGCAGAGGGAGCCATTGCAAGTTTTCATGGGGTGTTTTTTGTTTGTTTGTTTGAGACAGAGTCTCGCTCTGTCATCCAG
GCTAGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAACTGGGACTATAGGC
GCCTGCCACCACGCCTAGCTAGTTTTTGTATTTTCAGTAGAGACGGGGTCTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCAC
CTTCCTCAACCTCCCAAAGTGCTGGGATTATGAGCATGAGCCACTGTGCCAGGCCGATTGCAAGTTTTCATATGGGTACTGCCCCAGTCAGATGTGGGTT
TGCATTTTAGAATGACCATTCTGGTTGCAATTAGGACAGGAGATGGGATAAAAGAGAAATCAGAAACATGGAGGCCAGGGAAGAGACTACTTAATATTCA
TTTACGTATTCATTATGCAATGTTTATTTAAAAGCCCACCACGTACGGCATACTGTTCTAGGCTCTGAGGACAAAGCAGACAAAGTAGCTACTTGAGATC
TGGGTTAAGGAGCAGAGGATAGAGGTTGGCAGAGTGTGGGAGGAGGACAGTGACTTGCAGAACTTGGCAACTCTGTCATTCTGATACTTCAAATTCATTT
TCTATACAAGGAAAAAAGAGTAACCGATTAAAGTGCAATTCAAGAAAGTGAGAACCTACAGGGAAGTACCAAAATATACAACGAAACGCCACAGTCACAC
ATGGCAGTGGGGGATCCTGGATTGGATTTTGGATTAAAAAAAAAAAAAGGTTACTAGAGGCCGGGCGTGGTGGCTCATGCTTCTAATCCGAGCACTTTGG
GAGGMCGAGGCAGGCAGATCACAAGGTCAGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCG
TGGTGGCACGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGTCAGGAGAATTACTTGAAACCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCACACCAG
TGCACTCCAGCCTGGGTGACAGAGCAAGATTCCATCTCAAAAAAAAAAAAAAAAGGTACTAGAAAAACTGATGAAATCTGAATACATAAAATCTGGAGTC
TAGTTAATAGTCAAGTATCAGTGTTAATTTATCAGTTATGACCAATGTTCCATTTTTACGTAAGATGTCAACATTAGGGGAAATTGGATGAAGRGTACAT
GGGAACTCTGTAGTATCTTTGTAATAGTTCTGTAAATCTAAAATTACCACCCGAAGTTTATAAATGAATACACACATATACACATACAAACCTCAACCTC
AACCACATTGAGTAGAAATAATTGTATAATTCATATATAATGACCTTATTTATGTAAAACCACTCAAAGCTGCTATATAGTCTATGAGTTCATATGTATG
CAAATACATTAAAAACACACACCACATTGTATCATTCATTACAGCTGAGAATAGAGGTAGGCATGGGACTTTGCAGGGGAACTGAATGGAACATTGGCTT
TGTCCATATTGTGTCACATCTGTAAAAGGCATACCGTGAGAACACCCTTAAAATCAAATCAAGGAGTCACTACCTGCTCCAGGCCTCAGTACTCCCTGCC
CCTGCCCGGATGCAGAAGACACTGGTCCCAGCTATGCGACGCCCACCTCCCCCCCCCAAACAGCCAGCCAGGAAGTCTCTTTACCCAGGTATGAGGCAAG
ACTCCTGTGTGCTATTTACATGCCCTTCCAGAGTGTTGACACCAGGGGCTCATGTTCTTTCTCATCCTTAGCTATTTTTTCCATTCCAACTCAGAGGACA
AGAAAAAAAAACATCCCACTGTGAAAAGAAGTGTGGAATTACAAAGAATAATAGGAAGTTCTCGCTAACTGTGAAGCCCTGCTATGGAGTATATAATGGG
CCTTAACAGCTGCTGCAACAGTCGAGACTCGTGGCAGGGTTTGCTTTGGCCAGAGGAGTGCACTGGATTTCTTATATTTCTTGACATTAAACAACAACAA
AGGGCTGCAGGCTCAGCTGCTGCAGCTGTGGAGTTCCCAGGAGTTGAGCACAGCATAATCAAGGTGGTCTGGAAACACACTTGATTTGCATGGAGTGGTT
TTGAAGCATGGCTGAGTGTATCCTTGGGTTATGGTCATTGCATACCTCCCATCCCCCAGTTCGTGAAGTTGGAATATGCTGGGGTCCCTCTGAAAACCCA
GCTAGGCACCAAGAAGCCAGAGAGGTGGTGGGTAATTCAGAAGGGCTTGAGCTTCCTCCTGGATCTAAACTAAGCCAAGACACTGAGCTTTCCCCTGAAG
AGGGACTTTCCCCACTCCACTTTCATGCTTTCCTCGCCAAGCTTCCTCCAAGCCATGGGGTGCCTTTAACACACGTAGAGATGTTGCATCTAGTGACTTT
AAGAAAAACCAACTCTGCTTTCTGAGGTCTTAGAAACAGGTTTTTAAAAGACTTCCTGTTAGTGTTATATGTTTAAAATAGGTCTAGAAAGAAGGTGGCA
AACAGACCCAGCCTATTTTTAGCAGAGGGCTCCAAACAGTAGCGGTGGAAACCAGCATCAGTGATACTCAACAGGGATGGTGCTGAAAGCTGCCCAAAGC
AGTGGTCTTCAAACTTGGGTATGCGTGAGAATCACCTGGGGAGGGGGGATTGTTAAAGCTCAGATTGCCAGCAATTCTCCCCCTACCCTGATTTCTGATA
CAAGAGGCTTGGGGGAAGCCTGGGAATTTGCGTTTTTAATGAGTTCCCAGTGATGCTGATACTGTTCCAGTGAATCATATCTTGAGACCAATTAGTCTAG
AGAAAGCAAGGCCCCTACTGGAAGTGACACCCACCATTTCCCTGTGCTGGTGGTCCCATAGGGCCTCTCACTCTGGGAACACCATTCTTGGCTGTGGGTG
TTTCTTCAAAGTGAACATAGCTCTGAGGAGCAGGAGGCAGGTTCARCAGCCACATCCTTAAGAACATAAAAAGTTGAAGAGAGACAGAAGAGAGACAGAC
GTGTGCAGTGCKAAGCTGGGGCCCTCACAATGGGGACTGGCTTCTTTCCTGGGGAATAAGTAATTTCAATTCAGCAGCAGGAGCCAACTCAGCTAGGTCC
TGCCTCTAAGACCTTTGTGTCTGTACCACCAAGTGGCTCAAGCTCTCTGAGAGAGGGCAAGAAAATGACTGAGACCCACCCTTGGCAGCAGAAGGGAAAG
TCACCCTGGGATAATTTCTGGGTCTAGAATTCAGCTTTCTGTGCCGAGTGGCAGGCAGAGAAACGGGAGGGTGGTGATGTTTGTYCCAAGAGGCCCATTC
CCCCACCCCCTCCTTGTTTCTTCTAGAAGGTCTGGGTGCTGTGTTCCCAACTTTTTCTGAGCAGAGAAGGGTCAAGAAAAGATAACTAACAGCCCRGAAG
GCTTTTCCTGGCAGGTCTTCACCAGCGGGGCCTGTGTCTGGCAGATAGATGGGTCAGAGAAGCCCATTCTTGGGAAGCATGATTGCTTCATAGCTCTTGT
AGAATTCCCATGTTCGTTGCTCRTCAGAATGCATTGTATGTTAATAGAATCTTCAAAAAGGACCTGCTCATCTCAGGTGTGCTTAGGAGAACAAGAGGAA
GGAGTTTTAATCCATATTTGGGCAAAGGTGGTAATGAGAGGTGAAGCCAGCTGGACTTCCTGGGTGGAGTGGGGACTTGCAGAACTTTTCTTAGAAGAGG
ATGGTAAAATGCACCAATCAGCACTCTGTAGCTAGGATTGTAAAATGCACCAATCAGTGCTCTGTAGCTACCTAGAGGTTTGTAAAATGCACCAATCAGT
GCTCTGTAAAAACGCACCAATCTGCACTCTGTGGCTYKCTAGAGGTTTGTAAAATGGACCAATCAGCACTCTGTAAAGTGGGCCAATCAGCACTCTGTAA
AATAGACCAATCAGCAGGACATGGGTGGGGACAAATAAGGGAATAAAAGCTGGCCACCCCCAAGGCAGCAGCGACAACCTGCTCGGATCCCCTTCCACAC
CGTGGAAGCTTTGTTCTTTCGCTCTTCACAGTAAATACTGCTGCTGGCAGAGAGGGGTGAAGCAATAATGACCRCAGTGACAGAGAAGAGGTGAGTGTGC
TTGGTGACCCCTTCCCACGCAGGGAGCTGTTTCCAGAGCACTTCTCTTCTGGGAGGCCTGTGAATTTTGTTATTAAAAAGGAAACCTAGGCCGGACGTGG
TGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACATCAAGTCAGGAGTTCGAGATTAGCGTGGCCAACATGGGGAAAACCCA
TCTCTACTAAAAATATAAAAATTAGCCAGGCATGGTGGCGTGTGCCTGTAGTTCCACCTACTTAGGGGGCTGAGGTGGGAGAATCACTTGAACCTGGGAG
GCGGAGGTTGCAGTGAGCCGAAATTGCACCACTGCATTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAGGAAA
CCACCTATTCCCTCAGAAAAGGATAGAGATACCATTCTTACCCATTAACAACAGTGTAATTTTATTGTGATGATTAATATTGGAATTATTAGCTTTGATT
AACTGAGCTCCTTCTGTGTGGCAGGACATGTACTTTATAGATGCCATCTCATTAAACCCTCGGCAATGCTGGGAAGTAAGTGGTGTCATCTGCACTTTAA
AGATGAGGCGATGGACCGTGTTCATACTCACACAGTGGATCACTGGGAAAGCTAGGATTGCAACATATAGCTGTCTAATCCGTGGAGTTCATTCTCGCTA
CTTGCCAGCCACAGGGATCCAATGGTGAGCCCAGTAAGCTGTGGCTCTTGACCTCATGGGGCTTCCAGGCAGCAAGTAGAGGGGTCAGTGGAAAAGTATC
AGTTGGATTAATCAAGTCAAGCAATGACTGAAAATTATTTTCATCAGAGAGTATCAAACACCTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGG
AGTCTTACTCTGTCACTCAGGCTAGAGTGCAGTGGAGCAATCCCAGCTCACTGCAACCTATGCCTCCCAGATTCAAGCGATTCTGCTGCCTCAGCCTCCA
GAGTAACAGGGATTACAGGTGTGCGCCATCACGCCCAGCTAAATTTTCTGTAGTTTTTGTAGAGACGGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAA
TTCCTGACCTCAAGTGATCCGCCCACCTTGGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCGGCCCACATAGTTTATTTTTAATTTTC
TTTTGTATCCAATTTTAACTTACTCTTAAAAATACAAACATATGTAATTGGTGTTTAGTCAACACTCAGTGTATTTTAATAAACAACATTTTTTAATCGG
AAAAAAAAAAACCTGTAATGCCTTGAGTGATCCTGCCAGATGAACCCTGGCGTAAAGTTCATGCTGCCTTAGGCACCATTGCCACCTGGTGTCAGACATC
GGAATTGCAGGCTTGGCGGCAGCTAAAGTGGCGGGGGTGGTGGGGTGGTGGAGCAGGGGGCGCGCAGGACCCATTTTGATTAGGAGAGGGCAGGTTTCCT
GTCTTAGCCACCTAAACCCTCCAGGCGCTGTTGAGTATGTGTCAACAGGTGCCTGTTCGTTTGTAATTTGGTGACAGCTAGATCTGTATCAGCTTTCTTT
TATCTGTGTGTCCTGAATGATTATTGTGTTCATGRCCTTTCAATTGTTTTGTTATAATCAAATTAACGTTTGAAGGTTCTGATGATAAAGTGACATAAAT
ATAGATGAATACTTGAGGGTAAACTCTAGATTCCACTTATGCCAATAATAGTTCTCTTTAGTTGCACATCTACATAAAAAGACCMCCCCCCATACTTTGA
CCCCAACTGCTTCTCAGCCTAACCCTCTACATGCTTAAGCATATGCCAGTAACTCACGATTTGCAAAACTTTCCAGACTCTTCCTTGTCTGCCTGCTGCC
TTTGTCTGTGCTGTTCCCTCTGCCTGGAACTACTCTCCTCCACCTTTCCCTTCCAAATTTATTCTTCAAATGTCAAATCAAGGTCGACAATTTGTAGGAA
AATTCCATAAAGTAAATTCAGAAACGACAGTGTTGTATGTTGTATTGCAGTGTCTCTAGAGAATGGAAGATGTGGTTCTGAACCCATTTTTATCTCTTTC
ATAGCTTTGGCCATGGCCAGCTTGCTGACTCATTCTATCTCAGTGGTTTCATCCATTAAGTGGAAATAATAATGTCCTCTGCCTCCAGCATTGAATATAT
ATATATATATATATATATATATATATATATATATATATATATATATAAATATATATATATATATACACAACCCTAATTTGAGGTTTATATATAACATATA
TATTTTATTTATTATATATATTTAATACATAGGGATTTAATATATGTAATATTTAATATATATAATGGGGTTTAATATATATAATATGTAGGGTTTAATA
TATATATTAATATATAATACATAGGGGTTTAATATATATAATACATAGGGGTTTAATATATATATTATATATCATATTTAGGGGTTTCACATATATAAAA
CCCCTAAATTGAGGTATCTATATATAATATTGATGCATATATATTTAATATATAGGGGTTTGATATATATAATATTTAGGGGTTATATACATATTATATA
TATAAGCCCCCTAAATAGATGTGTGTATGTGTATATATGTGTATATATGTATATGTATAAACCTTTTCTGATGAGACAAAGTGCTTCCTCTGCACCATGC
CTAGTACCTAGTAGAAGTGACAGGGCAGGTGACACTGGATTAGTGGATATATGTAAATACCTGGAATCTTGATCAATGCATGCGCAGCAAATGGCTTCCA
TTACCTTTTTTGTTTTGTTTGCAGATAAATATTTTTTTGAAAAAAATATATTTCGTGGAGTTAAAAATAATAAAATGTCCAACTTTGACTGAACTGGCAT
TATTGCCCTCCTTGATCCATCACTGTATGTCACCCGAGTGCTGGTAAGCTTCCTCAGCTGCCAGCTGCAAAGACGTGGATATTAGGATGAAAGGCGTTAG
GCAGTGATGCTATTTCTGGTGCTGTTACTTTAGTCAAATMTGTGTTCACCAGGTACCCATGTGCTGGCACCTGTGATTAGTGAATTGCTCATGGGAGTAT
GTTTGCAATGTGCTTTCTCTGTGTTTTCCAGGCAGTTTTAAATGTCTCTCTGTTTTTCTGACTAGGTAGTCGATAGTGACAGGCCAGAAAGGTCCAAGTT
CCGGCTCACTGGAAAGGGAGTGGATCAAGAGCCTAAAGGAATTTTCAGAATCAATGAGAACACAGGGAGCGTCTCCGTGACACGGACCTTGGACAGAGAA
GTAATCGCTGTTTATCAAGTGAGTACCCCTCTCCCATGCCCACCCTGTGCGCAGAAATGTGGCTTTCAAAGATTGTTTTCTTCCCACTGAGCTCATTATT
TCTGTGCCTCATCAAACCCGGGACTRCATGGCTTTAGGGTGTTTCTGTGGGAGCTGAAGTGGATGGAATTGAACMCTGACAGGGCAACAGTGGGGGGTCT
TTATCTCATCAGTAGAGCCCTCCAGGCCTGCATCAGACTTTGGGTACCAGAGACCAAGAAGGGAGACCCTGGGGGCATCTCAGAGGAGGTCAGAACCCTT
AGGGCAACTTTGGCTTTCCAGAGACCAGCTTGATGATCTAGAGCTGGAAGAGGTATAAACCCCAAGACCTGATATAATTAGCAAGACATGGTCCTTAGGG
TGAAAACAGTTGCTAAATATTCAGCCATAAAGGAGTAGTTAAATTATGGCAGATTTTGCAAGGCAGTTTTCTCTAGCCATTTAAAATGCTTCTGAAGAAG
TTGTGTTATATGGGAGAGATTCAAGATATTGAATGAAAACAACATACAGACACATRTGGTATCCTCATTACCAATGGAGTATTTGCACATATCATGAGGT
GTATATGTTTAACAAAAATGATAAAGAAAAATCAGTGGGTTAATGGTTGTATTTGGAAGTGATTGATTGATTGATTGATTTGGTTTTCTTACCTACTTAA
ATGCATTATTGTGAGTTTGAAGTGAGAAGATACTATAAGGGCRTTGGAGGCATAAAGTGCTGGACAGACATAGAGCAGTAGCATGATGGTAGGTAGTAAA
GTCCCCACCCTCCAGCAGAACCCTTACTGGGCAATGCRCTCAAGGGTCTCAGGCCCTGGGAGGATGCGGGTGCTTTCCAGATGTCCATCTCGGAAGCCTT
GCCAAAGCCTTTTCTGAGCATTTGCTGGGGGAGTCACCTGTCAATGAGAACTGAAACGTGAGCCATGAGTCCCAACTTATACTCAAGGGGGAATCAGGTA
GTTGTATAAATTGAATGTTGGTGACCTCAGAAATACCCAGTTCCAGCTGGCCTTGACAGTAACCAGAGGTGACCTGGCAGCTATTGGGGTCCAGCTCCTG
TAGGAACAACCAGCAGCAGACTATGGATAGATGCCCTCTTGTCTTTCTGTGCCCATCATGGGAGTCTCCAAGAAAGTTCTGGCACAAAAAACTAAGGAAA
GATACAATAAATTTCATAATTTCTTARCAGAGTGATCAAGAGCTGTGGGATCTGATATGGTTTRGCTGTCTCCCCARTCTCATCTTGAATTGTAGCTCTG
AGAATTCACACGTGTCATGGGAGGGACCCAGTGGGAGGTAATTGAGTCATGGGGGTGAGTCTTTCTCGTGCTGTTCTCGTGATAGTGAATAAGTCTCATG
AGATCTGATGGTTTTATGAATGGGAGTTCCCCTGCACATGCTTTCTTGCCCACCGTGTAAGAAGTCCCCTTGTTCTTCCTCCATCTTCTGCCATGATTGT
GAGGCCTCCCCAGCCATGTGGAACTGTGAGTTCATTAAATCTCTGWCCTTTRTAAATTACCCAGTCCCGGGTATGTCTTCATTAGCAGCATGAGAACGGA
CTAATACAGCATCTGAGATCCTCCATTCAGGTCTCAGTGCTGCTGCGTACTGAGCTGTGGGACCTTGAGCAACACTCTTACCCTCCCTGATCTTGGGATT
CTTGTCCATAAAGTATGATTACAGCTAACGCTTCTGAGGATTATAAAAAATGAAATTACTAGTTTTTGCTAACTAGTAATTGCTAAACAGCTAATAAAAC
AGAGCTTCGGTTGCAGCTTGGAGCTTCCCATACTTTTAAAAACTGAGGCCATATAATATTACGGTMGTTAAAAGCATGGATTCTGCACACAGCCAGATTG
GCTGCATTCAAATCATGGCTATCATGTACTAGGTGTGGAAACTTGACAAATTGTCTGCCTCAACTTCTTATCCTGGAAAATGGGAAAAATAATAATGATG
TCATAGGATTTCATAAGGATTAAATGAGTTAATACATATGAAGCATTTAGAAAATGCTGGAAACATAGTAAGCATCATATAATCTTCCTACATGGGTGAC
AATAATCAATGATATTAAAGGTGAAGGAAGGTAAGTGAAAACCCAAAGGATTCCAAGTTATAGCCCAATCTCTCATGTCCAGCACAAACTTTCCTTGAGT
AGTCTTGAGTTTTTACTATACTTTTATAGTCTATGTCATAGCATATGGATTGATTGAGCAATTCATTCATTTTACATACATTTAATTGAGTGCTTATAGG
GTAAGGGACACGCTTCAAGGTGTTCGGAGGATACAGTAGCAACAAGAYACACTGGGTTCCTTGCTTTCATGTATCTTTTATTCTAGTTCTTTGTTTCRGA
ATAAACTGGCTTGAATTCCTCTCTTCTGTGTGTAGGTGACATGGCAGGAAGTTGTGCCTGGTTTGTAACATGGCTTGTTGATAACACCAGCACAGGGTCA
TATACCCTCATTGGAAAGGGTACTGGTRTTTAGTSGGAATGCAGTTTCTTACACAAGTACTTGGGTTACTTACGACTGGCAGACTGGGGCCCAGCCCTTG
GCAGCGCACTCTTCAATGGGCTCATGAGGGCCTACTTTCTGATGCCGTTTCCCTCCGTGCTTCATGCACTTCARTTCGGTCATTGTCCTGTTTWCATCAT
ACCCGCACTGAAGCTTCTTACAGTTGCTGAAGCTTCTTCCTTGAAGAAGCAAGTTTGAGGAAGAGCCCCGATCATTCTGCGGTTCTTTATTTTTAGATGA
TGAGAACTGGGTTACTCTCATGTTGGTCTACTTTGGGCACAGGAATGTTGCAATTTCCGTTCATTCCAAGTGCCTGTTTAAGAATAAGTTACTATTTTAG
TAGTACAGCTAGATCCATGGTATTCATGGTAGTCAACACGGTTGGGAGCAAATGTGGTTCTTCAAAGAGGAGAATCCTGGGTCTCCAAATCCTCACATTT
TAGTTTCTAGTCTTGCAAGTTTAAAAAGGAGAGAGCCGGGTGCAGCACACCAACATGGCTCATGTATACATATGTAACAAACCTGTACGTTGTGCACATG
TACCATAGAACTTAAAGTGTAATAATAATAAAAAATAATAAATAAATAAAAATAAAAATAGAAAAACAGAGCAAGAAAAAAAAAAGAAAAAGAAAAAAAA
AAAAGGAGAGAGCCTGCAGGTGAATGTGTTGCCATCATAATAGCGCCAATGTTTCTGTTGTTTAAAGTTAAGTGCTRCTCACATGCAAGTACATGTTGAT
GTATTAACGTTTTCCAAATCCAACAAGAAATATTTTGATCTAAACCTCAGGGATTTGTATGATAAGAAATAATCTGGAATACATTTGTCCTTGGGCCCCT
GAAAGTGCATCACCATTGAAGCTCCTGTTTATTGAACACTGCATGGCAGATATTATGCTAAACACTTTGTATAATTCTCTTATTTAATCCATTTCACACA
AGAGACTTAAGAAGTAGGTGTTAACACCATTTCACAGATAAGCAAATAGCTGTTAAACAACTTTTTCAAGGTCTCACAGCTGGCATGTATTGGATTTGGG
ATCCATATCCATTTCTTTTCAGCTCCAAAGCCCCACATTTTCAATCACTAAGAAACACTCTTCCTATTTTATCCCCAGCTAGATTTTATATCTAATCTGC
AAATTCCTTAGCTCCTTTCCTAGGAACTCTGCTTACCGGGGCTGGGAAGGGAGTTTGGCTGGCTGGGTGATCTATTACTTTTTAAAAACCATCCATTTCC
GTGACCCACTGCCATCTTGCCACTCCTCCCTGCCCCAGCCCCCAGAAAAACTTCCCCAGCTTCTGACCCAAAGTAGCACCTGGCAAAATAATTTATCTCT
TGCAGTATTGGAAGCTGACATACTAATGCAAAGCCTCCTGAAATATTACTCATTATTATGCATTTTGCCAGCATTTGAGTGATATGTGAACTCTTCACTG
GAATAAAGTACTGTAAATGATTCATGAATGACCAAGTTTATGAAATTCTATAAAAATATTAGCAGGTGGTAATGATTCCCTCACACTGTGAATATGATCT
ACTGGCTGCAAATTTGCCAATATGGGATGACGGGAGTGGAGTGGGAGACCATCTGTTAGGCGAGTGGGGGAGGAAGACGGTGGGGGGGCGGTTGGGATGG
GCTCTGCAGGAGGTGCAGGGCAAAACAGGAAGSATGGCCAAGACCATGGTAGCAGGCAGGTGTCCTTGGCAGGAGACCTTCACACTGATCTGTTGTCCAG
TGGGAGATGCTCAGATAACTGGGAATGTCAGAGCTGGGTGGGAGAAGAGAGGAGCATATGGAAGAAGAGGCAAAACTAACTTTATTGAGCATCTATTAAG
TGCCCAAGAATTCCCTAGATCCCTGACATACACAGACCTATGAAAATGGTTATCTTGTCTTCACTGATGAATTAGATGAGGGCTAAACAGGTTCCCAAGA
TGTATTTTTACTATTAATGTTGGGGTGAACATGTCTTGAACATTTACAGTGTGCCAAGGCTCCATGCCAAATACTCAGATGATGGTCTCATCTCATCTTC
ATAAAGATAACCTTGATACGTCTATCACACTCAATTCTAGAACAGGTAACTGGAACCACCTGTGTTCCTGGCCTCAGAACATGGAAAGGACCTCACTGCC
ACCTTCTGAGTATTTGCTCACATTTCATACTATATAACTTGTTCTTTTTTGAGCCAATTTCTTGGTCAAGTTTTGAATTTGTGGTCAAGAATGTTGTCAT
AAAATTGAAATACAACTGGCATTCAGAGGTATCCTTGCTCATATATTTTCTTTTGTTAATGTGGCTCTACCCCWATTCTAACCCATCTGTAGCTCCATGA
CAATTTGGCAGAATACACATTAAAGTGAAAGCTGCTGCCGTCATGCGGAAATAGGTGTATCATAATGTCAGTGCTTATAAGACGATTGGGAGATATAGAT
GTACCCATATTAGAGAGTTATTTAAGTGATTAACCTGGTTATAAAAACGTTCATGTTATGAACAAATGATGCACATATTACCTTGATGGGATTGTACTAC
ACCTGATTAGACTTGTACTTGGAAAGGACCCCAGCCCTCACTAGTAGGGACATGCTATGTAAGTCTTCTTTGTCCTCTACTCTGGTCTMCCCCATTGCTA
CCTTTCTTAGCCAGGGTTCTTGGTGGCAGTCAACAAAATCACCTCCAACTAGTTTACAAAGGAAGAGATTTATTAAAGAGTACAGGTAGCCAGTAGGATT
GCCCAAAGTGCCAAGTAACCTAGCTGACAAGGCCAGATGAGGTGGTGCTACAGGAAATACCCACATATGAAACTATTCTAGGGCAAGGTTTTTCAACAGT
GGCACTATTGAAATTTGAGGCTGGGTGATTCTTTGTTATGGGGGSCTGTCCTGTGAATTGTAGGAGGCTTAGCAGCACCAAYGGCCTCTACCCACTAGAT
GCCAGTACCACCACCCCCCACCCACACACACACCTAATCTGGACAATCAGAWATGTCTGCTGATATTGCCAGTTGTCCTATAAGGGGCAAAATTGCTTCC
ATTTGAGAACCACTGTTAGAGAGAAGTGTCATAGTCCATTTTGTACTGCTGTAACAAAATATCGGAGCCTGGGTATTTATAAAGAAGAGAATCRTATTGG
CTGTCATTTCTAGAGGATGGACAATCCAAGGTCAAGACACCAGTAGGTTTGGTRTCTTGTAAGGCCATTCTCTTCTTGCAATATGGTGCCTGGCACCTTG
CACCCTCCAGAAGACAGGAAGGCTGAATTCTCATATGGCAGAAAGTGGAAGGGCCAAAAGACAGCACCTATTCCTGAAAGCCTTTTAAATTAAGGCATCA
AACCTACCCATGAGGGTGGAACACGCATGCTCTAATCACCTCTAAAGGGCCCCACCTCCCAGCACCATTACATTGGCTATTACATTACAACAAGAGTTTT
GGAGGTGACAGGCATTTCAACCATAGCAAAGAGTCAAKGTCGCTGCTGGCTCTTCCTGCCACTTTGCTCTGATGCTCACAACTGGATGTGGCAGCCCTGC
TTGGGTTACCTAAAAGAGCCAGGTGACTTTGCCAAGCTCAGAACCTCTGATCTGCAAAGCACAGCTGTGGCCTCCCGCCACTCACTTCCATCCAGTCTCA
CGCTGGTGCATCTGCAGGAAGAACCTAGACYGTAAGCAGGACTCTAGGTGCAAGAGAGCTGGGTCAACATAGTTTTTAGTTTTTCCAGCTCCCTGGTACA
GGAAAGTCCGCTTGCCAGAGGACTGGAGTGGTGGTTGTCATCTACCACATTGTGATGACATGAGTGCWATTTTTTTAATTCCATGGGTTTTTGGGGAACA
GGTGGYGTTTGGTTGCATGAGTAAGTTCTTTAGTGGTGGTTTGTAAGATTTTGCTGCACCCATCACACGAGCAGTATACACTGAACCCAGTTTGTAGCCT
TTTATTCCTCATTCCCTTCCCACTCTTCCCCCTTGCCAAGTCCCCAAAGTCCATTGTATCATTCTTTTGCCTTTGCATCCTCACAACTTAGCTCCTAATT
ATGAGTGAGAACATATGATGTTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAAKAGTCTTCAATCCCATCCAGATTGTTGCAARTGCCATTAATT
CACTCCTTTTGACKGCTGAGTACTATTCTACCATATATATATGTATGTATACACACACCACAGTTTCTTTATTCACTCATTGATTGATGGGCATTTGGGC
TGGTTTCATATTTTTGCAATTGCGAATTGAGCTGCTATAAACATGTGTGTGCAAGTATCTTTTTCGTATAATGACTTCTTTTCCTCTGTGTAGATACTCA
GTAGTGGGACTGCTGGAGTGCAGTTTTATTCCAAGTGAGAGCYTGTCAGTGAGAAGCTTAGTTGCCCAAAGGCAGGTAACAGGCTCACACCTAGGAGAGT
GTGTTCTCAAACCTGTGATCTTCACTTCTGTCATCATTATGGTCCTATCAATCAATAACACACATGTGACCTAAGCAAGAGCCCTGAGTGGGACAAAACA
AAGGATTTGGGTTAAAAGCCCAGGCTTTGGAGCCAGACCTACRGAGGGAAGAATCTCRACTCTCCTATCACGTGAACCATATGAAATTGCCATTCTTACA
GGTGAAAAAGAGGTGAACATTGGCAATTTCATGGTTCATTCTAATACTCTGACACCTTTAGCCAGTTACTTCTCAGCCTCTGTTTTCTCATTTTTAGAAT
GAGAGTGAGATTACAGTATCATCTCCTAACAGTGTTATCRTTAGTGGGTGTTTATCACTCAGCCCAGTCACTTAGTAAGTGTTCCGGAATTGGGAGCCAG
CCTGCCACATATCGGTTTTATAGTTTAAGCTCCCTGCAAGTACAATGGAGTTGAAAGCACTTGTGAGGGAGCAGCTAGCAGGTAAACAGTTGAATGTCAG
TAACTCTCTGTAAAAGGGAATCATCTCACTGGGCAGTTTCAAACTGTGGCCCCAGACTAACAGCGTCACCTGGGAACTTGTTAGAGATGTAAATTGTTAG
GTGCTTTCCCAGGCCTGCTGGATCAGAAACTCTCGGGGTGGGTCTCTCCATCTGGGTTTTAGCCAGCCCACCAGGTCATCCTGASGCTCACTGTAGTTGG
AGGAACACAGGTCTAAATAATCACACTCTTGGGTATTAACATCATGGCAGCTGACCTGATCACTAATTGGCCTTGATGAAGATGACCTTTGAACCTGTTT
CGTTACAGTTCTGGTGGGGTAACATGTGCCTCAACTGTGCTTATTTCTCCTGGTGCTCCGGTGTGCCATTTGAAAGCCCTCTCCATCCAATTCCAACTCT
TCCAAACTGCTTTCTTTTTGTTTCATTAGTGGCACCTGAGAGCCAGGCAAATTTGTCCCAGGCTTCCTTGCTGCATCCTGCCTAGACTTTGGATGACTGT
TAAATGCCATGTTACTGCGTGTTTGCTTGTTTCTCAGCCAGAGATGAAGATGTCCTCAGAAGATTGGAGTTGGAACAGGCTGATGTAATTCCYGATAGGG
GAAATTAGCCTTGGGGTCGGCAGAACCAGCTTTATCTGCCTTAGTAGATCTGTGACCTTGAACAAAGCATTTGTGGTTYTTGAACTTTGTTGCCCTTAGA
ATCATCTGGGGAGCTTTGAAAACCCTGAATGCCCAAGCTGCACTCCAAACCAATTAAATCAGGATGTCTCAGAGTGTGACCAGGTGTCAGTATGTTTATA
AAATTCTCCAAGTTTTTCCATTGTGAAGCCAAGTTTGAGAAACTGTTGTGTTACTATAACTTGTCTGTACCCCAGTTCGTTCATAATTAGGAATTAATAT
AATGATACCAACCAGCTAGGTGTGTGTTTGAATATCAAGCGAGACAATGCAGGGGTTTCTAACACAAAATAAAAGTCAAAGATCTCATTTCTCCCAACTG
CTTCACTCTGAGCAAACATCTGAGGCTGCTTTCTAATGCCTCCTTGGACACAAACACTTAAAAATAGGAATTCTGAGAAACAGAATTTAATAAACAAACG
CTTGTCTTCTGAGTGCTTGTGAAAAAATAATTCGAGGTTTGTTCACAGCCCCTCCCTACCCCTGCACCTCTGATCACCTCCACCTGACTTTTTCCAGTTC
GTCTCTTCGTATTTCCAAGCACTTCATTTTATTACAACCCGGCCTTATCTGTCAGGTGCAGCTGGCGAAACTGAGGCATGAAGAGGTTAAACGACCTTGT
GGAGGCAGCYACATACCTGGATTAGACTGCTGAGTTGCTTCTGACTGATTATTTATTTGGTCCACTAAGCAAAGCTGCTTCCTCACTCAGGGCTATGGAA
ACATATTTTTCTCTGAACTTCATTAGCACAAACTCCTCAGAAGAGGTTCAACTTGAATCTTGGCAGGTGGGAGAACCCCACRTTCCTTAATTTTCTCTTC
TCCACCCCCACACTGGTCTTTGCACCTGYGGCACCTGGCCCACACTCGGTACTTAGCACACATCCATGGAATGAATAAATGACAGGATGGCTACCCTTTT
TTTTCTGTTTTAGTTGTCTAACTACAACCAGGTCTACTTCATCATGCTGATTCTTCAAATTACTTGGCGGCATTTTCTTTCCCAAGGTGCGGAAGCATCG
CAATACRTTGGGACTGCAAGAGCCTTAGACCCATTTTGTCCAGCCCAGCAGCCCAGCGAATTTACAGGGAACAAGTTAAATAACGGGGCAACTGCTCAGA
CTCCCAGGACTTGAGATTCCCTGGCTATGACGAGCATTGTGAGTGACACTCTGGGACCAGATCCCCAAATGCAGGGGCACGGTGGGGGACCATCCATTCC
AGCTCCCGCCACCCATTAGCCATCTATATGCCTTCAGCTATCAGCATAAAGATATTTATTTTTATTTGGTAAAAATGAGAAGGGAGAGGAAGAAGAAGTG
CATTAGTGGTGTGGACTGGAAGACAGAGGAGCGAAASAGGGGATACGGACAGGTTGTCCTCCTACGCTGGGACCCTGAAGTGTGTTGAAGACCCTTGGGT
TCGAGAACAGAAAATGATTGAAGTCATGTTTTACGAAAGACTGCAAGATTGAAAGTGAAGGCCAGAAGCTAATTAAATTGATCACAAAYGATTGGGTCAG
AACCCGGATGCAAGCACCACAGCTATGGGAACAGGTGGCCAAGGATTACACAGTTGGAAAGAGAGGCCCCCTCTGACACCTGTAGCACTGTGGCATGGGA
RGTGCTGGTCTTCAGGGGTGGGTCACCGTGGTGACATCTCCCGCAGTGGYCCTGATAAGGGAGGAGGCAGCAGCAGTTGGCACATGGTATGGAAGCTGAC
ATTGATCAGGGGGCCCTTGTGAAGCCAGCCTTGGGCCTCCCAGGAAATACCTGGGGAATAATGTTGTGATGGGGGCTGAGTTCCTGTGGAGCAGGTTGGA
AGCTGGTGGTGCCTATGATCAGGGAATAAAGGCAAATGTGTCCCATGTCGTCATGCAATGCTGGGAAGCCAGCCAACCTCCGTGTTACCCATCTCGATTC
TGGCCTGCCCACTGCTTCCTGTTTAATTGAAGCAGATGCGTGACTGCTCTGGATATGAAATACGGATAACCTGTGAGCAAAACCCCCAGGTAAAAAGCAC
GTGGGGGAGCATGCTTTTTGGCCAGCTGAGTCTTCTCTTCCAGTCTAGAGAAGTGGAGGAAAACAGGGGAGCATCTGGGGACCATAGAGCCAGCGTCCAC
GCCAGGCAGTGCARACTCGGCAGCTCCATCAGAAAGGGATTCAGCTCAACCTGGGGGCCGATTCATTCAAAGGACATTGATCTGGCACCCAACTTGTGTT
AGCCACTATTTCACAGTGCTGGGGATACAGCAGCAAACAACCACCAAATCCCTGCTTCATGGAGCTCTGTCAATCTACAGGCATTAGTGAGTATGTGACG
ATCAGGTGGCCCTAAGTGCTGGGAATAGACACGGAGCCGAYAAAAGATATAGGGTGGTGGGAGACACTGCTTGGTCCAGGAAGGCCCTCCTGGGAGGGGC
CGTGAGAAGGGAGGCCAGATGGAAAGTCTCCTGAGGGCAGGAATGAGTGCTGTCCTTATCTCTCATGTACCCCTGACAGCTTTTCTCAACCATGGATGCT
TCAGTCCCCTAGCAGATGCCTGGCAGTGTCTGCATATGTTTTTAGTTGTCACAACTGGGGCTGTTATTGCCATCTGGTGGGTCAGGCATGCTGCTCCACA
TCCTGCTGTGCACAGGACAGTCCCCACACGTCCGCAGGGCCGTGCTCTGCAGGCTCCTTGCATGGCGTTGGCCACTCAGAGGGTCTAAAATTATTGCATG
GTTTGTTTGCTCAGTATTCATCAGGTTTGGATAGTCAAGAAGTCTGTCTTCATCTCTGGGGCACCAGAGATGAAGGAAGGGACACTATCACTGTTCTTGT
AAAGTCCACACGCTAGCTGGGGCRATGATTTGCAACAATCGACTRTATTATCTTGTGAGGAGGGTCATGTTACAGGTTCAGCCTTCGGAAGGACATGAGG
TCAAAGCAAATTCTCAAGARTGAGGAATGACAGGAGACAGAGACGCGGACGGGGCAGGAAGGGTTTTGTGAGAACAGCTGATGGAAGAAAGCATTTAATG
GCACCTCCAGCGGAGTGCGTGCAGTTTAGAGCAGACGAGGGTGGGGCCATGGCAGGGCTTGACTAGGAGCAAAGGTGGGACTCGCATGCTAAGGAGTGAG
CTTAGACATGATACTCCTGCGGCGAAAGGGACAAATGRTGGAGGATTTTAGGCTGAAAGTGACATGATCAGATTTGGATTTTACAGGGACTGATCCGGTT
GACATGCAGGGGATGAATGGGAGACAGTGAGTTCTGTCTCTGGGTCTTTGAAGCCAGAGTGACACACATCAGATAGATGCAGTTTTCACCCAAGAAGACC
TGGGTAGTGAATGGGATTAGTCYAAACTCATAGTGAAGATATTAAATATACCTTGGGATGAAAAGAGTAGCAGGAATGYGGACTTGTGGGAGGAGGGCAG
GCCATACCGGGCCTCACAGGGCAGGATAAGGTGCTTGGATTTTACTCTAAGGAAGCCTCAGCCTCAGAGGGTTCTCAGGAAGGGAGTGACATCCAATTTG
CATTTCAAGAAGATAAGATTTATTTGAGCAAGTCAACAATAACATTCAAATTGTCATGAAATAGAAATTAATTCAAAAATGCATTCATTTATTGAGGCCC
CACTACCAGGCACTGGGGAAAAGAGATCAAAGAGAAAACTTTGCTTTCCCTGGAGCKCTGCCTTCAAGTTTCCCTCTACACATAGCAAACCAGAAAACCT
TTATTTTTTAATTCACAAGTAGAGGGTTGGGGAGCATTTTATGCACTGACTCGTTCTCCCCATTTAGTCTGGCATAATTTCCATGCCAAGTAAATATTCT
CTYTTAAAATTTTAAATTTTGAGGGTTTTTTTTTTCTTCTACGGGGGTTTATCAGTGGGCTCTCTCAAAATTTATTAAACACAGTTGGCCAGAGCTGTTA
GCTGTTGATTTCTTTGATTGGTATCTGTTTTAAGATCTTTATTATCCAGAAGGCGTATCTTTTCTCCCAGTGAGGCATTAGGTAGTAAAAGAGATCATTT
CCGTATTTTTCTTTCTTCCAAAGGTGCAGATGTTTGCATAATAGGCTCCTTTAAGTAAAATCCACCTTTTCTGGAATCATGTTGGAAAGCCTGCAGGCCC
ACGATGAGGGACTATCTTATATTCTTTAACTCAGGAATCCTCGTTYCTGTTTCTGCATGTGGGACCAAACTGAGCCATGTTCAGTGTGCCAGACCAAACA
CTCTGAAGCTGGACTAGAGTAATAGCAAACTGGAGAGTCGCATCCTCGTTAAATGATGGCTTAGCATGTAAAACATTCGTGTGACTGGATWGTCAGTGTT
TGACAATAAGATGCTGGGAGGAGAGCCCTGTGCTCTTTTGAAATTGATTGTGTCCTCCTTCAATGGATCATTAATAGTTGGGGAATCCACATTTAAAAGG
GGTAGACCCACAGCAGAGGTCTTGGTCAGAGGTCAGAAAGGCTGAGAAAAATGGGCAGCTGGCATTTCACAATTAGTCGTGAATGCRTTTTCTATTCCTT
TCGAGTTTTTATTGCAGAACCTAATCATGAACTCCACCAAAGTCACATTAGTTCCTGTTCAGTGTTTCTTATCTCCTGTGATGTGAGGCTCTGGTAATTA
GCAGGGCTGTTTCTGCTCCCAAATAAAAAGGAGATATATTTAGAAAATGGATGTGTTAACCCGGGAAAGCAGGCACAGGAAGGGCTGCATGAAGTATCTT
TCTCTTGGTGAGGTAGGCTGCAAGTTGATGTGGAAGAAGTTCTAGATCATACTGTGTGTTCCCTGCCTGACCACCCCCGCAAGCCTCTTGACTCCCTATT
CCCAAATCTGGAATTATTTTTAGAAAGCTGTCCCAGGCCGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCTGGAAGATCACCT
GAGGTCAGGAGTTTGAGACCAACCTGGCAAGAGTGGCCAAAACCCCATCTCTACTAAAAACACAAAAATTAGCTGGGCGTGGTGGCAAGCGCCTGTAGTC
CCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGTTTGAACCCAGGAGGTGGAGGTAGTGGTGAGCCAAGATCATGCCATTGCTCTCCAGTCTGGTGACAG
AGCGAGACTCTGTCTCAAAGTTATCCCAGAGGATATCAAACTGAGAAGACAAGTATTTCTTGGGAATGCCACAATGTGGATGACATAATTTTGGGTCAGC
CCAGGAAATCYGGGCCCTAAGATAGAAAGAAAGGAAAACTGTGAATTCTGTATTTGGAATGTGAACCAAGCATATGCCGGGAGACATCCTCGAAATACCA
TTTCCATTCAGAATGGTTGCTCCCTTTGTCCACATGCCTTCATCTTCCTCGGGCTCTGACCTTCGCCCAGCTCTCTAAACTTGAGCAAATGCTCAGAGCA
AGACCTGGTGCTAGGATCGGAACAGGGAAGACACATGGAAATGAATAAGGTCACATTCTAGATAACTTGCAYATCACGGCCCCATTTTTGTAATAATCCC
TTTCTCCATCCTCCACCCCTATCCTCACTTCCCTCTTCTCTATGAAGAATTCAGTTTAACTGTGTAGGTTGGATCATGGCATGCCGGTACCCTGGGGTGA
TGGAGAGTTGCCTTCCTACTGAAGGTCAGCTACTGAAAGAGCATCTGTGCGTTGGCAAATCTGCTAGGTTCAGGGCTCTCCGAGGGAATAGATAGGAGAA
AAATTTTGGATTCACCTTTGATTGTACTTCCTGATGGAGTCAGGATTGGGGTGAGGAGAATTGCACGTTAACAAGCATAGATYGCACATGGAGTGGCTGT
CCTTTGAGGTAGTGAGTCCCCTCATGGTTGATGTGTTMCAGCAGGAGCTGGTGAGCACCTTCAGGAAGAGCACAGAGGGATTGTTACTTTATGTAGTTAC
ATTAGAAGTAGGGGGTCTGCAAACTGTGGCCTGCAGGCCCACTCCATTTTCACCCACTCATTGCATATTGTCTGTGGCCTCTTCCACCCTGCAGCTGCAG
AGTTGAATAGTTGTCAGAGTGTGGCCTGCAAAGCCAAAAGGACTTACTCTGCCCCTCTACAGAAAAAGCCTGCCAACCCCGGACTAGATGAACCCTGGTA
TGGGTTGGATGTTTGTCCCCTCCACATCTTATATTGAAATGCGACCCCCAGCACTGGAGGTGGGGCCTGGTGGGAGGTGATTGAATCATGGGGGTGGACC
CCTCCTGAATGGTTCAGTGTCATCCCCTTGGCGACCGAGTTCTTGCTCAGCTATTTCACATGAGATCAGGATGTTTATAAAAGAATGTGACACAGAAACA
GAAAACCAAATACCRCATGTTCTAACTTATAAGTGGGAGCTAAACAATGAGAACACATGGVCACAAGGCGGGCTTTTCAGAGGGTAGAGGGTAGGAGAAG
GGAGAGGATCAGGAAACATAACTAATGGGTGCTAKGCTTAATACCTGATTGATGAAATAATGTTTACAACAAACCCCCATGACACAAGTTTGCCTGTGTA
ACAAGCCTGCCCTTGTACCCTTGAAATTAAAAGTGTTTTCTTTTTTTTTTTTTTTTTTTTTAAAAAAAAAAAAAAAGGCTGGGCACGGTGGCTCATGCCT
GTAATCTGAGTGCCTTGGGAAGCCRAGCCGAGCAGATCACTTGAGGTCAGGAGTTCAAGACCAACCTGGCCAACATGGCGAAGCCCTGTCTCTACTAAAA
AAACAAAAATTAGCCAGGCATGATGGCGCATGCCTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAAGTTGCA
GTGAGCCAAGATTGCGCCAGCTGCACTCCAGCCTGGGCAACAGCAGGACTCTGTCTCAAAAAAYGACAACAACAACAACAAACAAAMAAAMAAAAAAAAA
AGTGTGGCACCTCCCTTCCCCCACACACTTTGCTCTTGCCTTTGCCATGTTATACGCCTGCATCCCCTTTGCCTTCCACCATGATTGTAAGTTTCCTGAG
TCCTCCCCAGAAGCTGAGCAGATGCCAGCATCATGYTTCCTATACAGCCTGCAGAACCGTGAACCAATTAAACCTGTCTCTTTTATAAATGACCCACTCT
CGGGTATTTTTTTATAGCAATGCAAGAACAACCTAACACAAACCCTCATATTTAGGAATTGATAGCTCCAGCCCTTTTATATCTAATTTTAAGAGCTTTT
GAGACTATCGTAGTTTATGCCTTAAAGGAAGCTTATAAGTTTCCCCTTTTCTGGGTATTTCCAAGGAAAGGCAAAAATGTGTCACCCTGAAATGATGCTG
ATGTTGTCTGACCTAGAGATGAACTAAGTCCAGTCTGGGACAGGCTCCCCAGGGAGCATTTTCATGGAGGTCAGTGTGAACCCCCTTTTCCAGATTGGYG
GCAGGGCCAGCTTTAGGTCCCTTGAGATTGTCTGCATCCCACTTCCTAAGTAAACAAAATAATGACTAGAAAAGTCTTTTCAGGAAAGGGAAAATGTGCA
AATWTACGAGACAAAATTGCTTTTCTTTCCCAGCAGTTTTCTCCCTTAGGACCATTTCACAGGCCTGAGCTACCCTAGGRGTCTGTTTTGCCCACAGGCT
ATGCGTGAAGCCGACCCTTACCCTCTCACCCAGTGACGACCACGACAMTGTTGATGATCATAAGCAGTGCTTGCAGGCTTGGCTAGTCCTTCACAGATGC
TACGTCACCAGTCCTTGTGCTGACTCAACGAGTAGGTGGCTGTATTAGTTTTCTATTTCTGCCCAAACAAATTACTGCAGGCTTGGTGGCTTAAAACAAC
ACAATTTTTATCTTACAGTTGTTTAGGTCAGAAGTCCGACATGGTTCTCACTGGGCTAAAACCAAGCTGTGGGCAGAGCTGGCTTCTTCTGGAAGGGAGC
ATCATTCTCCGACCTTTTCCAACTTTYGGGGGCCACCTGCATTCTTCAGCTCATGACTGCTTCCTCCATCCTCAAAGCCAGCAATGGAAGCAGCTCCTTT
CACACTGACATCTTTCCTATTCTCCCATCCCCAGCCCTCTTTCCTTTATAAGGTCCCTTATGAGTCCATTGGGCCCATCTACATAATCCAGGATCCTTTC
TTTAATTTAAATTTATCTAGTTCACAACATTAATCTTCTTTACCATGTAACCTAACATAGTCAAAGTTTCCAGACATTAGGAGGTGGGCATCTCTGGGGG
CCGCTATTCTACCTACCACCACACTCCTTGTATAGATGAGGTAATGGAGAGACAGAGTGGGTTAGGAACTTGTTCAAGGTCACACAGTGCTAAGTGATGG
ATGATCTTAACCTTTGACCCCAGCTATTGTCATCTTTGGAAAGCAGGGATGGATAATGTGGCCAGCACAGTGTCCAAGGGGTTCCCCTCTTCTGCTGGCT
TCAAATAGGGTGACGGCCGGAAGGAGAAGTAACTCTGGATGAACCCCCAGGGGCAACCCTAGATTCTTGCTCTGAAAGCTCATAGGCAGTGTGTGGCAAC
ACTGGTGTCTCTGATAGGTTTTCTTTCCAGAGTGGGAGTGCCCCAGTCTTTTGCAAATCTTCCTTTTCTCATAAATGTTACCTAGGTGCTTTGCGGGGAT
GATTTTCTTCAGAATGAGTGAGTGTCACAAAACAGCCGGCCACTTGATTTTTATTCCTGTTTGGCACAGTCCTGGGCACAGAGCTCCTTTCCATTCGTTG
CTTAGCAAGAAGCAGGCCCCAAATAACCACCTGCCCCAAGGCCCTTTTGTCCACTGGAGAGGATAGGTGATTAGATGGAGGGTAATTGATAACGCAGGGT
CAGTAGGGAGAGGGAAACCCCTTGAGGTTGGACCTAGGCAGCTCCAAGTCCAGATTCCTGCTCCAGTGCAACTGATGCTAAACAACAACAGCTAGGCTTG
ACTGAGCACCGCTGGGGTTCAGGTGTGGCGTGAGTGTGTTTCCTGAATGATCACTTAGAAGTTAAGTCTCCCCTGCCATGCCGGGGGCATTGTTCTAGGC
ACAAGGGATTTTAGAGTGAACAAAACACATTTGTAGCCCTACCCCCAGCCCCTCTGGAGCTTATAGTCCTAAGGACCTTAAAGGTAAAGATTGTTTTTGT
CCACTTTGCATGTGGAGAAACTGAGCTTAGGAAAGTGTCTGGAAAAAGGTTACATGGTAGCTGATAGTGAAAGAACCAAATGACAAACCCACGTCCTCCC
CTCCAGAGCCCAAGCTCCACACACTGACTCTGTTAACTGCTTGGTTTGGGCCGGGCACCGTGGCTCACGCCTGTAATCCCAGTGCCTTGGGAGGCCTAAG
CCAGAGGATTGCTTGAGGCCAGGAGTTCAATACCAGCCTGGGCAACATAGAGATTCCATCTCTACAAAGTAAACAAATAGATAAATAAATTAGCACGGTG
TGATGTTATGCACCTATAATCCTAGTTACTTGGGAGGCTAAGGTGGGAGGATAACTTGAGCCTGGGAGTTCAAGGCTGCRGTGAACTATGATTACATAAC
TGCATTCCAGCCTGGGTAACAGAGTGAGACCCAGTCTCAAAAAAGTACATACACACATATATAAACAAACACTTAGGTTTGCAGGGAAGCACCCTCCAAT
GCACAGGTCAGCCCCTGCCCCAGAGAATGACGCAGSTCCGAGTGCCAATAGTGTCACTGCGGAGAAGCCCCGGTGTAAAATGAAAATAATAAAATCCACC
ATAGAGCGTTGCTATGAGTTTTGAAAGCCCTATYATGTGAGCCTTCATCTAACCGAATCATGTTTTCACTGACTGGATTTTCAGCTGGAATCGTGGCATG
TCAGGGCTCTGCCTAGCCGGGCCCCACTCCTACCCCGACCCAAAATCTGAGAAATGACCAGTAACACGGTTCTAGAGGAATTTGCCAATGCTCATTTTTT
ATTCTATGTGGTGGTGTTTTTTTTTTTTTTTTTCTCATTGCAGAAGACARATTCTATTTCCTTACTCCTGAGGGAAAACTAATTCCAGCAAAGGCCATTT
GTCTTTGGTACCTTAAGATCTAGATAATTTACTGCAAGTTTATTTTTATTGAAAATTATGTAGATAYTATTCAGAAACACAATTTTCAACTATACGGCAC
ACTTAAGCACGTTATATTTTAAGTGTTAATACATAGACTGAGGATATATGCTAGAATGTGCATTTCTCAAAGACACTTTTTTCTTTTTTGTCACTCACTG
CATTCGAGGTCCTTAAACTTGTGTGCTATGAAGTGCTAAAGGATTAAAATATTTTCAAATGGATATTGTGCTGTAAGTTTTGAGTTGTTACCATTTGACT
GCAATTGAAACTCATGATGCTTTATATAGCTTAGATGATTAATTCAGAAATAATTTGCATTTAAATGCGTTTAAGATATTTAACTTATGATTCCAAATGT
GCCTATTTTAAGCCTGGTAGAAGTACTTTAGTCTCCAAAGTATGYGGACGCTCTACTTCTCCCTAGTTTGTGGACCTGAAAAGGATTTAGATATTAATAT
AGAATAACTTTTCCAAACTAGTTCTGAAAACATAAGAACTGAGAGATAGCCCCCTGCAACACACACGCACATGMACACACACACACACACACACACACAC
ACACATAGGTTTTGTGCTSTCTTGGGAGCATTTAAGATACWCTGCAAACTACAATTGCTTCCTTAAAATGTACAGTGGACGTTTGACATAGTAAAGATAT
TTTGAAGATTTGMAGGCCAGAAACCTGTTTAAGCCAACATATTACACACTTTTAAGAAAGAAAAGCTCTTAATAACATCCTATAAGAAAATCTTAACCAT
TATAGAAGTTACTCTTTGAATAATATTGTGAGAAAAAATTTAATTAGTGAAACCCTAAGGAAGTTATCAGCATGGAGATTTGTGATGGATGCCAATGTGC
CTTCCTAAAATGCTGCAAGGCTATTCTGGAAAAACAGTTCTGGAGACAGATTCTGGCATTAACTATCTCTGTTAACATAGTGGTARCTAGGTTCTTCCCA
CTTCTGCTTGTTTCAGCTAAGTAAAATATAAGGGAGTCCAGTAATTCATGAATGGATAAACAAATTGTGATACATCCTTGCAATGGAATATTATACAGCC
ATAAAAAGGAATAGAGTAGGTTAAGCCATAGAAACACAAGTTAGATGAGTGGCAGGGGTGGGAAGGAGGGCCTACTTATAGGTCTGGGTTTCCCTTTGAA
GTCATGGAAATGTTTTGGAACTAGACAGAGGTGGTGKTTCTACAACATCATGAGTACACTAAACATGACTTTAAAAAYGTTTCATATGTGAGTTTCACCT
CATTTTAAAAATCACAGTRCACAAAAAGAGGTAAGGGAGGCCAGAGAAACTGGRCAGGAAAACCCAGGTGTGAGGACCAGGAGGAAGAGGGTGGGGCAGA
GGGGACAAGGCAGATTCGAGGGGATGTTCCGCCACATTCTTCAGGGTGGCATGGGCAGCTTTTATGTAGATGRAAACAATTTTAGGAAATTGCAGCCTAA
AGCGGTGTTCAGTACACAAGAGAGGCCCTCAAGAGAAGGTCACCAAGGGAAGGCAGAAGAGCAGCCTCTGCCTGTCTCAGCAAAGAGCTGAGTGGGCACC
CACCCCATGGTGATGCTCACGGTCACAGCCTAGTGACCCACACTTGTGTCTTTGCTGTCAAGCAGAAGCTAGTGACCACGAAACTAAGCTTAACTTCTGG
TGTTCTTTACTTGTGTAAAGGATCGTACCTTACATCGTAGAGAAGGAGTAGACCAACACTGTGTAATAGACCTCTCTGCAATGATAGAAGTGTTCCATAA
CTGCACCGTCCAATAAGGAAGCCAAATAGATAGTAGTCCACGTGGTGACTATTGAGCATTTGAACTGCAGCTAGTGCAGCTGTAGAACTGAGTTCTTAAT
TACTGTTTTTTAAATTTAAATAGCTGCATTTGGCTGATGGCCTTACTRTTGGAAAGCATAGGTTTTGAATGTCACAGGTGAAAACTGTCTTTAGCATCAC
GTGGGCCTATGTTTTAACACCAATTTTGCCTCTCCCTTGCTATGTAATTTGAGGCAAGTTGTTTAATCGTGAACTTTAGTTCCTCATTTGTAGAAAGGTA
GAAATGAGAGAATATGCTTCCTAGAGTCACTGTCGAGATAAAATGAGGTATAGCATATGAAGTACGTGGAACTGGGCAAMTAATAAATACTTGATAAACA
TTATTTGTGTCTTTGGGTATTGWTAACTTATATATGTCTTATGCAGTGGTGCTTTGAGAAAATGAGGTACAGAGAGGTGAAGTAACTATGCTCACGTCAC
ATAGCCAGAAGGCAGAGGGCTAGGAATTTAATCCCAGATGTTCTGATGCCAAAGCCCATTTGCTTGCTACTGCACTGGGTTTCCCTTGGAATCCTGGTTA
CCAAATTCATCTCAGCCTGTAGCATTAGACTGGGACTGAGGAGTGGATCTCATTTTTCCTACAAGTTCGTCCATTAAGTATGAACTGTTCTGGTCTTTGC
TGAGATGGTGTATTAGTCCATTTTCATACTGCTATGAAGAAATACCTGAGACTGGGTAATTCATTTAAAAAAAAAAAGAGAGATTTAGTGGACTTAAAGT
TCCACATGTCTGGGGAGGCCTCCCAATCATGGTGGAAGGAAGGAACAAAGGCACATCTTACATGGAGGCAGGCAAGAGAGCGTGTGCAGGGGAACTGCCC
TTTATAAAACCATCAGATCTTCTGAGACTTATTCACTATCACGAGAACAGCATGGGAAAGACCCACCCCCATGATTCAATTACCTCCCACCAGGTCACTC
CCATGACATGGGGGGATTGTGGAGCTACAATTCAAGATGAGATTTGGGTCAGGACACAGCCAAACCATATCAGATGGGATTTCTTGTAGGACTTGAAACC
CTGGGGAAACATGTGGTTGTGTGATGGATTTCTATGTCCATAGTGGTCTTTGTTTCTTACCTAGGTTGGTTCTGGGTAGGTTCTGGACTGGATTGGCAGG
GGAGATCCTGGTCTCTTTCATCTCAGGCACCTRAAGTCAAATCTTTCAGAAATAACATTTAACCGGTACCTCCATATGTGTTTTTTTGTTTGTTTGTTTG
TTTGTTTGTTTTAGCGTTGAACACTTCTTGTTGAATGCCTTCTTTTTCATTCTATATGAAAATATCTCCAAGTCATGGAGAACTTTGTCTGGCATGGACA
AGGGCAAGACAGTCTTCTTCTGTCCTGATGTTAGTTGGAAGGACACATCCTATTCTCCTCACCTTTGGGCTAAGAGCAGAGTTTGGGTTTTTAATGAAAA
TTTTGTCCTGACGAGAGATAAGTCAAAGTCAGGCATTGCAAAGTGCCTTGCATGTGCTGTTACTGGCATCTCAGTTACATTCTCCATGGGCGCTTAAGAA
GCTAACACTCACTGTTGGTCAGGGGACTGATGCTCTACTTCCTACTCTAAATATAGCSCCTGTCTTGTCACACTTGCTGTTTAACAGCCTTACCATGCCA
TTCTTGAGAGAAATAAAGTGAGGTTTCATTAATRTGAGAGATCAAYAGTAGTTCAGTTATRAGTTATCACTGCAGAGGGAGAGCAGCAGGTTCAGCTCCT
CAAGTTGGAAATAAAAAAGATGAATGGGAGGAGGAAATGAAGTTAGTGATCTACCGCCTGGGCACTTTGTCAAGGGTGCGTGAGGAGAGAGGGGAAAGCC
CTTTCTAAACACAGATTATACACCAAAGGCAATTAATAATTGTTTAATCCTTCTGGAGAGCCATTTGTTGTGGTGATATTCACATGACTGTCTTTAACAC
CATGACACCAGGAGGGTCTTAYTTCGCCAGCCACCAAGCTGGGGRCATCATGCTGGGTAATTGTCTGCAGGTGCATTTAACTGAAAACCTTTCTCTAAGA
TTCTGGAGTTCACAGCACACAAAGAAAATAGGCATAGCATCATTCCAGTCTGTCTACTTTCTGTGACTGAGGTGATTTTTTTCTGGAGCTAAAYCTGTCT
TTTCCACTTGTTCTACTCTCATTCACTCACTGGCTAATTCAACAGATACCTACTTGGCTCTTACTACCTATCAATCACTATTCAAGGCACTCAGTAACAG
CAGTGAACCAGAGTTTCCACCCTCAGGGAACTTACAGCAGAAGAGCAGGCAGGTGATGAGAAATGCCCCTGAGTAAAGTTAAACAGGACCAGGAGGATGG
GGAATTTGTGGGGGGCAGGGGAGCTGGAGGAGGTGCATGATATTSTAGTCTATACATGATGATCAGAGATGGCCTTTCTGAAAGGGAGACATTTAAACAG
AGATCTGATGAAAGAGAAGGTCATGAGCTATACAAATATCTGTARAGAGAGAAAGCCCCACAGGTGTACAGCCAGCAAGATGGTGGAGGATGCAGGAGGT
TGGGTGCAGGGGAACTGTTGCAAATCGTAGGGCCCCAGAGTCTGACAAGCTCAAGGCAAATCCTATGGAAAGATTTTTTTCTTTTAGCTGCTCTGCCTTT
GTTGGTGTACCCCTCATTTCTTTTTTCAGCAGGCCGTGACCCCTTCTTGGCAACCCTGGAAGTAGGTGCAAAGATCCGGAGGTCAAAGTGGGCTTAGCAT
GTGTAGGGAACGTAGGCCTGGGAGGGGGTGGATCACTCAGGGCCTTGGAAACTTTGCATGGATTCTGGCTTCTGAGTGAAATGGGAAGCACTGAAGGTTT
TGGACAGAGGCAGGATGTGTTCAGATATCTCTTTCACCAGGAATGCTGTAAACAGATTGGAGGGGAATTCAGTGGAAGTGAGGAGCCAAGCTGGAGGTTA
CTGAAGGAAACCAGGTGAGAAAGAGGAGAACTTGGATTAGAGAGTGAGGCTAGAGTGCCCATGGCCAAGGTGGAGGTGATAAAAAGTGGTTGGATTTGCA
GTATGTCTTGAAAGAGGCATCAGAATTTGCTACTGGATTAGGTGCAGTATGTGATGAAAGAGAGGAGGGTTKAGGGTAGTGGGAAGATTTTTTAAATATT
TCAACTTTTTTAAATTGTAAAAAAAAAAAAAACATGACTTTAAAWTTACTGTCTTAATCCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGAAACAAGGTTT
CACTGTGTTGTCCAAGCTGGCTTCTAACTCCTGTGCTCAAGTGATCCTCCTGTCTCAGTCCCCCAAGAAGCTGGGCCTACAGGTGTGGACCTCTGTGCCT
AGCTTCTTAACCATTTATAAGTATGCAGTAAAGTAGCATTAAGTCCACTCACATTGTTGTGTGACAAATCTCCAGGACCTCTTCATCTTGCAATAGTAAA
ACTTTATACCCATTAAACACTAATTCTCTTCCCCCAACCCTCTGATCTTAGCAACCATCTTCTCACTTTCTGGTTCTGTGATCTTGACTGCTTTAGATAC
TTTGAATGTGTGGATTCATACAGTATTTKTCCTTCTATGACTGGCTTATTTCACTTTGCATAATGCACTTGAGGTTCATCTATGTAGTCTCATATGACAG
GATTTTCTTCTTTTTCAAGAATGCATCATAGTTCATTGTGTGGRTATACCACATTTTCTTTTTCCATTATCCATTCATCTATCAGTGGACATTTGGGTTG
CTTCCACCTCTTGACTATTGTAAATTACACTTCACTGGGTATGCAAGTATCTCTTTCAGATCCTTCTTCAAATTCTTTCAGATATGTAGCCAGGAGTGAG
ATTGCTAGATCATATGGTAATTSTCTTTAGCTTTTTGAGAAACCTCCATGTTGTTTTCTGTAATGATTGTGCTATTTTATATTCTCACCAAGTGTATACA
AGTGTGACAATTTCTTCATGTCTTTTCAATACTTACTCTTTCTGTTTACTTGATAGTGGACATTTTAATGGCTTTGTGCAGTGACAMCTCATTATGGTTT
TGATTTGCATTTCTTTTAGGATTAGTGATGTTCAGCATTTTTTCATATGCTCATTAGCCATTTGTATAACTTCTTTGGAGAATTGTCTATTCAGGCCCCT
TGCCCATTTTTTAATCAGTTTATTTGGATTTTTGTTGGATKAAGTTGGGGAAGTTCTTTATATTTTTCTGGATTTTAACCCCTTATCCGATATATRTCTT
GCAAAGATTTTCTCCTATTTAGTAAGTTGCGTTTTCATTCTGTTGATTGTTTCCTTTGATGAGCRTAAGTTTTTAAGTTTGATGTAGTTTCATTTGCCTA
GTTTTGCTTTTGTTGTCTGTGCTTTTTGTGTCATATATAAGAAATCATTGTAAAATCCAATGTCCTGAAGCTTTCCCATTATGTTTTCCACTAGCAGTTG
TATAGTTKTAGGTCTCACATTTAGGTCTTTAATCCATTTTGAGCTGATTTTTRTATAYGGCATGAGGTAAGGGTCTAASTTCAGTTTTGCTTGTGGATAT
TCAGTTTTCCAAACACCATTTGGGGCTGCTCATTTCCCATTGTGTAGTCCTGGCACCTTTGTCAAAAATAATTCAGCCATATAYRTAAGGGTTTATTTCT
AGGTTCTCTATTCTGTTTCATTGAGCTAKATATTTGTCTTCATGTCAATACATACAATTTTGATTACCATTGCTTTGTAGTATGTTTCTAAAACAGGAAG
TACGAGGACTCCAGGACTAAGAGATTTTGCTCTCTTGAACCAAAAGATGGACAGATTGCCATTTACTGAGGTGGCAATGACTGAGAGACACAGGTACTCT
GAAGAATATAAGGAATTTTCTTGTGCCRTATGAAAGTGCCGTTAGAAAAATAGGTTGGTCATTTTCTGACATCAAAAGATTTTTTCCCCAAATTGTCTGA
GTTGCAGCCAATATAAACATAGGCCAAGTTTTTCTAAATCACATGTGTTTGGAGAGGGTGGAATGGCTGTCAGAATGGGCTGGGCTTATAGGGTGACATA
CAGRTCCAGGCAGAGTGAGCCAACCAACATCACTTGCAAGATTGAAGAAGGCTCATGGAGTTAGATCAGTGGAAGAGAAGATCCTCATAGAAGAGGCAAA
ATTCTCTGTCTTAGGGACAATGGCAATACTTGGGAAAATTCCCAGAAAGTGATAGTTTTAGATGATTGTCTTCTTGGAGACCGATGTTGGGGAAGACTCT
GAGGCTGCTTCCAGATGCAGCAGGATGGAGAATGACTGTCAGTTGGCAATGTCCACCTTTGGAGACAGACATATCAGTCACTTTCTCACTTCCCCTGACT
CAGCTGGATTCTCATCTTCTCTGGCTCAGAGGGGAGTATCATCAAGTACAGSTAACATCTTTGAGCATATACCATGTGTCAAAAACTATTCAGCTTTTCT
TACTCTTTATAAGAACTCGGTGAAGTAGGCACTATTATTATTTTCATTTGAATGTTGAGGAAACTGCAGGATTGACAGGTTAAGTAGCTTACCTAAGACA
TGGTGAGTAATTGGTACAGCCAGGACTGGAACCCTGGCCACTTGACTCCAGTGTCCAGGCTATTAACCACCATACCGCCAAAGAGTGGCCTCGTACCAGG
GCCTCGAGCTGCCTGGGGCTTCAGGAGCTTCTCTCATCTATGGCTGTACTAGTCTGTTTCACGCTGCTGATAAAAACATACCTGCGACTGGGTAATTTAT
AAAGAAAATGAAGTTTAATGCACTTACAGTTCCTCATGGCTGGAGAGGCCTCACGGTGATGGTGGAAGGTGAGAGGCACATCTTACATGGCGGCAGGGAA
GAGAGAGAACTTGTGCAGGAAATTTCCCTTTATAAAAGCATCAGATCTCATGAGACTTATTAACTATCATGAGAACAGCACAGGAAAGACCTACCCCCAT
GATTCACTTACCTCTCTCACCTGGTCTCTCCCACAACACATGGTAATTGTGGGAGCTACATTTCAAGATGAGATTTGGGTGGGGACACAGCCAAATCATA
TCAATGGCTAAGACTCCATCTCTGTACAGGGGGCTGGGAGATTCACTKGGCAATTTTTGTTCCTCTTGGCTTCAAAGGACTCAATCTAGGATCATCACAA
AATGTATTTATTGTCCAAAACTGGAGTGCTTTTGAGAGCAAAAAGGACTATGTTAATATTTAGGCTAGGACTACAAACATAAACCAGTCTTGTCCGGAGC
AAACTGGAATATGAGGTCATTATACTTATGGTCAGTTAGTAAATGAGATCTTAGCCTCAGTGAAAGTGAAATTTTACTGGAATGGGCAACCTATTGAACA
CACACTTTATCCAGATGGCTTAGATTTGGATCTTTTAAAAGAGTAACATCACCATTTKAAGTGTTTTCTTCTTCATTAACTATGAAGCCCTTTCCCATAT
GGGTTTATCAGCATTGTAGGAAGGGCTTTCATGGAACCATATAAATTCATCTCTCTAGAAACGAAGARTTCTAACGTCCATCCTCACTTCTGCCACCAAA
ATTAGMAACATACATAKRTGTCGAGCTTTCTGCTTGGTGAAGGTGCAGTGACCCCTCTTTTTTTCAGCATCCATTTATTTCTGCTYGCTGAGCTTTCTGT
CTGCATTTTCATCTACAGCTCTGTTCTTTATTGATAGTGTTTGTTTTAGACTTGTGAGCTCCAAGAGGGCTGAGACTGCACACTTTAAATGGGCTTTACT
GTGTTGGCACAGCACTTTGCAAATAAAGGCTTTACAATTTATTTAACAAACATCTAGTGATGGTTACTGTGTGTGAAGCAGTATACATAGCACATGGAAG
ATACTCAAGGGTATGGCAAAAAGGATTTCTATTTCCCATAAGTTTATCAGCAGTAAGAAGTAACACTGCTAATGTCTATTATGTATAGATGCCATCTTAT
CTGTCAGAAACTGTGCTCAGTGTTTAACATACATTCTCTAAGTCTGTGCCACTGATCAGTGTTTCTCTAAGTAGTTCCCCTGGAACACTAGTTCTTGCAA
ACTGTTGATGAATGCTATGTGTGTCATTGGTCCCCAACACCACCCTCAGATTTGGTGATTTGCTAGAAAGACTCATGGACTCTACATCTAGTTGCATTTG
TTGCTAAGGTTTGTTACAGTGAAAAGATTCCAAGCAAAATCAGCATTAAAGGCACATAGGCAATGACCAACAGAAACCAGGCAACAGCTTTCAAGCGGAG
TCACACGGGACACACTTAATTCCCCCAGGGAGAAATAGTGACAACGAGTATAAAATGCTGTCTAATGAGGGAAGCTCATTAGAGACTTACTGCCCAGAGT
TTTTCCTGGAATCTGGTCACATAGGCACCCTTTGCCTGATAGGTTCCAAATCCCTGACCTCCAGAAGGAAAAACGGTGTTCAGCATAAGCCATATCTATT
TGTACGGTTTAGGCACGTTGAGCCACTCTTATCAGAGAATGGTAGGAACCTTCCCCAAATCRTCATTCCCAAATACCAGCCAAGAGCCAACCTTGCAGGC
TGGCCTTTCTAGGGATAGCAGTCCCACACTTGCTATGTTGGCTCTTTTCTGGATAGTATGCAAAAAAAAAAAAAGTTTCATATTCAGATAATTTTGAAAA
CCTTAATCAACCAATTTTAAGCTGCTTTCTTTACCTCTGGACTCTAAATTCCCAGACTTATCTGGCTCTCTGCCACCCCCCACTGTACATCTTAGAAGAT
TTTTGCTTTGTAGGGAACAACCACAAGAAGTTCTCGTGGGGAAATGACATCAGTCCTATTCAATGTAGCATCAAATGCTGAGAAAATCCATAGCAGGAAA
GGACAGTTTAAAAATTTATGAATTATCTTTTCCTTTACACTTCAGCATTGACAGATAAGTGTTAAATTGAAATACTGTCTCATACTTTGATCACASAAGC
TAAGGAAAGCAAGTGCTGAAGCCGCACTGGCCTCCTTTGGAAAGTAAAACCCGAGAACTCCATCTAGGCTTCGAGTTAATAGATGTGGTGGTCTTTACAC
ACCTGTAGTCAAGGGGTCATCTGTTAAGTAATCATTAGCTTTTTCATTTGAATTGTAAATTCAAATTGTTTCTCAATGCAGTAGACTTAGATTACATAAG
GTTAGAGCTTAAGCTTTGAAAAGTAATTTAAATTTGTTTTCAGCATGTTAAAGACTTAGTCAATTTTTTTCCTTTTATTTTAGTTTATTTTTATTTTTTT
CCTGAGGCAGGGTCTCACCCTGTCWCCCAGGCTGGAGTGCAATGGTGTGATCATGGCTCACTGCAGCCAAGACCTCCCTGGCTCAAATGATTCTCCCACC
TCAGTCTTCTGAGTAGCCCGGACTACAGGCACGCACCACCATACCCAGCTTGTATTTTTTGTAGAGACTAGGTCTTTCCATACAGCCCAGGCTGGTCTTA
MACTTTTGAACTCAAGCTATCCACCTGCCTTGGCCTCCCAAAGAGCTGGGATTGCAGGTGTGAACCACTGCGCCTGGCCCAAATTCCTATTTCTTGTTTG
ACCAGGATGTCTTTTGTCCCAACCAGAATTAGTTCTTATTTATTGTTACAGTCAAGATTTAGAATAGGGTTTTATTAATTATATATTTGGACTAGAATTT
CTTTATTCTGCAAGTGCATTAGTTTTGGAATCACTGATAAAAACCAAAAGTTGATTTCCACTAACWTTTCCAAGAGGGAGCTTTAAAAATTCACCTGTGG
GAAATTTTATGCAAAAACTTGAACAAGACATAGTATTTTTCTGTTAGCAAATTATAATTTTCCCCCTGATTCAGGGGGGGTCTGTGATTGTTTTCTTCCY
TGGCTGCTCCTTCCATTTGCATTTGCAAAGATCACATTCCTAATCTTYACCTCATCAGAAGCCTCATTTTGATTTTCTGCTTTGCTGACTTCTGTACTCC
GAGAGATTCACTAGCTCTTAATCCTATCRTTGGCCTGGCATTCTTCCTCTTCTCTATACTTTTCCATGGTTCATTCATCTCCATTTTATTCCTTCTAGAA
TGTATTTTTTTAGAAGCAATTACCAATTCTTATTGGTTTGAGCTATGAAATATTTCTTCTTTGGTTGCATCTTYAGTGTGGTTTTCTTCTGACTGKCATT
GTCAWTCAMTTGAACGGGTGAAATTAACCTCTGCCTTTGAGGCCCCTATGTTTACTCTTCGCCGGTGTTGCTGCCAGAAGCTTAAAGCTGGATCTAATCA
CTTCCTTGCTGAAACCATTGATGCTTCTCTGTCGACTTCAAGATGTGTTCAGTTGGGACATTGCCGTCTGTTTCCTTCTTCMGTTCTCCTTTCCCTTCTA
CTCCAGTCCTTACAARTGACATCTTCTGTTCCTGCATGCTAAAATGCCCGTGACTTCTCTAATGCAGCTCTCTGCCTTGGTGCCTTTGCGTATCCATCTC
TACTGAGGAACTGGGATGACTTCAGCATCCGGGGTAGATGCCTGGCATGAACCAGAAAGGATATCWGATTAGATCTGTAGGTGATGGTGAGAATGGATAC
AGGACTGTTTCAGTCAAGTACCTACCTCTAAACAGGAGGGCACTGTGGATTTTAGGATTGGAGATCATTGGTACCTGTGCCATCCTGGGGAGGTGGGAAG
AACCAGTTCACAGATCTAGTTTTGAGCAAAGGAACATGGGGTTTTAGCAGGTCATTTAGTGTAAGCCCACTAGAAGGAGGCATGTGGTGTGGGGTCCAGG
ACAGGCTGTGAGTACATGTTCTGCACCAGACATAATTTACWTGGAGGCTTGGGGAGAATAAGCTTCCAGGTGAGGAACTCAGTGGCTGAGTTGCAAAGAG
CTGGAAATGAGAGAAGCAARCTTAATGACTWTGTACGTGCTTCAGTTTAGTGCATATCCCACTCTTGTGTCCTAATCCAGTTATTTTTATTTCTGCTGAA
CTCTGTACATCCTGAGGATGAAGCCCATGCTGTCACCACTTTTTTTTTTAATTAACAGTGTCTGTTAAACATGCATGTGATTCAGAATTAGATATCACTC
CCCACCCTCATGAAATCMTCTTTAAATACTTGATTTATTATTTATTTTCCACTAGAATACTTCTGGATTTTTCATGAAGCCTGAGGGAAAATGAGAAGTT
ATTATCTACATCATTTTTCACTGTTTTAATGTTAATCATTGATACRGGAATTGGCTTTCACCATCTTGGAGTCCACCCCACCTATAATTAATTATAAATC
CTTTCAKTGGACAAACCAATAACACTTCTATATTGAACCAGGAACCAGAGAGCCTAAATGCATCCCCTGGATATCATCTAGTGAGTCAGAGGCACAGAAC
AAAATGTGCTTCCAAAGGACAGATGATTCTTCAAAGAGAGCTACTGTTCTTTAAATGTCACCCATGTGTTAGAGCCTTTTGTTCCGCTCTGTTTCTGCAC
GCTCCATTTCTGAAGTCCAGGAAGCCCCAGGCTGTTGAGTGGAAAGAGTAGAAAGGCGAGAGTGAGAAGGCAAGATGAATCTGGAGGGGAAGATTCATGT
TTTCTGATTTCTGAGGGTCCCTCCTGATCAGCGGGGTGCTAATGARATCAGAGACAGGGGATGTGAACACCACGGGAACCTGCTGGCTTTCTTCCACTCA
CAGCRCCAGAATGTTCCCACCAGCTGGGACAAAGCACAGGGAGAGCATCAAGGAGGGGATGAAAAAAGAGATCAGGAAGGAAGAGAATAGTGTGCATGAG
CTCACGCGTGGGTGAGAAGAAGGAGAAACAGAGGCAGGGGGGTACATAAAAATCCTACCCTCTAGCTATGTCCTTCAGGAGCGGGTCTATCTGTTGTTGT
TTGCTACTTTTCCTATGCTCTTGGGAGCTTATCAGAAACTTCCCCTAGATCAGCAGCCGCAAATCAGCAGCAGGAAGCCCTGTCACATGCAGGTGTCATT
GTATCATCATAAAAATTACTTCCCAGGGTTAGTAACTTAAAATGAAAGTCAGGCTCAAGGGTCATCAGGTAGTTAGTAGATCAAGAAGATTTCTACAATG
TAGTACATCTCTTTTCTCTTGGCTTCTGTGATACTAAGTTTCCTGGTTCCGTTTCTGTCTCTCAGAATACTTTTCCCCTAAAGGTGTAAAGTTCTCTCCT
TCATGTACTTCTCTTTCATGARCTTCTCTCCTTCTAATCTTAACTGAGCCTTCTCCAAGTTCCTTCCCTATCTCATTATCTTCCATTTCTCATTATGTTC
CCTCACAATCTTAACCACACCCGTAGCTTCACCCATCACTTTCTGCAGGAAATTGCCTGTCTACCACAGAACTCTCCCCTGGAATTTAGTGTAGGCAATT
GTCCACTTGAATCATCCTCAAATGTGATGTGATGTGATCTTCCCCTTGGTGCATATCCAAACTGAACTCAACACTTAACTCGTGCCCTGAATTTTGGCAA
GGAAGTTATCACCAGCTTTCACTCTTTGARTGCATAACCTTTCACTCTGTTTCTTRTACTCAGGGACTGTAGTGTGTGTTGCAGTCTCTTATCTGACTCT
CAGAAATAACTTTGAGTAGAGCAGTACTACTAAAACACAAATTCACCAACTTTTCTCTGCTGGACCTTCATGTCGTTCTCCCTGAGTGAGTCCCTTTTGC
AAGTTATTAATATATGTCACACAGAGCCTGTTTCTCATATTTATTGACCAGACTAAGGAGAGAACATCGTACCCTCTAACCCAGTGGTTGGCRCGCTTGA
GCCAGCTCATACCAGCTYTCGTGAGACCGTTGTTAATGTCTCTTTCTCACTCTGTCTTCACTGTAGCTTGATATCAGCCATGGCAGGATTGTCTTCACCA
TGGCAATGGGCAACACCAAGGATTGTCTTACTTCTTCACAGAGCTGGTGGTTAAGTTACAGCAGATAACTGCCCCACCACACCCATTATGTCCTGTGCAG
TTATCGATGATATTAACTTTCTCTGCTTGAGGCACTCTGATAAAACTTCACTGATTTATCTCATTTAATCCCAATAGCTACTTCATGAGAAAGGTGCCAT
CATTCTATCTGTTTTACAGGTAAGGCAAATGGRCACTCAGAGAGGTAAGATCTGACACCGTGTGTCTGAGAGCAGGTCCATGCCATCGAAGTAGATTTGT
AGCAGAAACCTGGCTGGGGGTATTTTTCCCCATATTAGGGATATCTCTGTCTCCAATTCATGTCCATTCTAAGACAATGCTACTGGTAACTGTGATGGAT
CAGACTTTGCACGTTTTTCTTTCTTGGAACAAACAGGATTTGGAAGCTTTGACGTTGGTGTTACAGATCATTTACCAAAAAAACTGCTCATAAGACAGGC
CCAGTTTTCTGTTTGGATGATAGCTTCTCATGATGGTCCTCATGTGTTAATTGAATAATATTTGAACTTTAAATTCTTTCTACAAATGTTTGACTAACAA
TCTCCCCAAAATAGCCCTATTGGTAACCAACCAAGTAGTTGTTTCATTGCAATAGGAGTGTAATGAGAGACAACAGATCCTAAGTTAATGAGTTATCCAA
GACCTTTAGTTGCAAATCCTTTAGCCAAATGACCATACCCATGGGTGTCAGAGCAACAGTAATTGTGAATTATTGCTATGTTTAAAATAAAACAATTTTG
GTCTAGATTAGATTTTGTTTATAAACCTGAATAAATATTCAGATTGCCACTATCAGAAAAAAAACTCATTGACCCAATGAGCATTCAAAAAAGTCATTTT
TCCTCCTTTTTACTTTTTCATTCATTAATTTAATATTCAAAGAACACCTGATTTATGCCAGCCACCGTTCCAAGTGTTGAGATTAGAGGGATGAAGAATA
TAGGCAAGATCTTAGCTTTCACGGTTCACATTCTAGTTAGGGAAGATAGGATAAAAAATAAATAAAACCAGAATTTCGGGGCGTGATGAGCCCTAGGGAA
AGGAAGTGATAGCAGAAGTATGCAGTCAGAGGCTCTGCTGAAACAGAGCTGACAAGGTGTTTGAGCAGAGAAGCGAGCGTTCATAAGGAACCAGCCATGC
AGAGGTATGCACTGAGACGCACCCAGTCGAGGGAACAGTTTGGAGACTCCAGCAACCTTGGAGTAATCAAGAAATAGAGAGTTGGTCGTGGTGGTAGAAG
TGAAATAAGGGAGATAGGATTGTTTAGTGAATAAATCCAAGAGGAAAGCAGGACCCAGATGATACAGAGTCTCAGAGGTTATGAGTTGGGATTTATTCTA
AGTGCACATAGGAAGCACTGTAGAATTCCAGGCAGGATACAGAYTTTCCCATCTGTGCTTAGGAGTCTAAGCTGCACTCTTTCTTTCTTCAAGTGATATG
GGAGTGACTTAAATTCTTTGTTGCAAAACCAGTGACACTGTTATGCAAACATGAAGTATTGAACTATATGGAAGTATTTATCTGTTTAAACAYTGGGGGA
AGAGACTTTTAAAATATGGTTTATATKCTCGGTGGTTCGGTAAAGGTTTTTCTCCTGCTCCTCATCCCCCAGCCAACCTTCTCCAATATATTCAGCCATG
GCTGACTTTGGAGGATAATGAAAGCCACAACCCAGGAACTTCCTGATGGAGATGGAACTGTTTCACATCTTGATTGTATCCTAGTTGGGAAGTCATTTCA
TAGATTTGTAAGATATTGCCATTGGGGGAAAATGRGTAAAGGGTATATAGGATCTCTGGGCACTATTTCTTAYAACTGTGTGTGAATCAACAATGATCTC
AAAATAGAAAGTGTAATGAGAGAAAAAGCTCTATTTAAGTGTTTTATTAGGTACCAGACATCATGTTAAGTATTTTACATGAATTATCACGYTATCCTTA
CAAGAAAATTGTGAGTTCTAGCATTGCCCCATTTTAAAGAGAAGGCACCTGAGGCTCTTAGAAATTAAGGGATTTGCACAGTTACCCAGCTGGTAAGTGG
TGAGGCCAGAATCATTCCAGATGGTCTGTCTCCAAAGCTGAGATTCCCAACCTCAGCCCTATGGGACACATGTCTGTTCTGTCCTCATTCTGATGGGTCC
AATCTGGAGGTGACTGAATCCTGAATGTCAGGAGGCAGCAGAGGGTGGGGYCAGTTCTAGAGAAGGCACATCACCTGTCTCTCCTGCAGGATGGTCTGTG
GCCATTGGCGTAGGCCTTCGTTGACAAGCCAAGCCTCTGACATCTGAATAGCTACGCTGAGAAAGGTAGACCTTGTCTTTCCACCTTGGGAATCACAGTC
TGATGGCAGGCAGGGGCTTTGTGCCATCAGGCAACCCAAAATCAGGGTACCCTGCAAAGTCACCTGGCAGAGGTAGCAGGGCTGGGTCCACCTAGAGGCA
GGGAACATTCTTCTTCACACAAAGAGGCCTTCCCCTCACCAAGCTGAGCTTTTTAAAAGTTTAATCTATAGCCCCTGAGGGAGTGCCTCTTTCTAATCCC
TACAAAGACCCTTATAGGTCAGCAGTGTCCTGTATTGACTGATCCCCGGGATGCATTGGATTTTTAAGCTCCGAGATTATCCCAGCTTTTACCTCTTTTT
TAAATAAATATATATATATAGTATATATGTATATATGTATATATATATTATACACACACACACACACACACATATATATGTATATATATATATATATATC
TTTAAGTTACTGTGCTAGGCATGCCTGGAAGTCTCCCCACCCCTAATGCATTTTTATTTTAAGATTTGACTGGCATTTTTTAGATTCTCTTGATGTGTTT
GCTACATCTTTTTTTTCTTTTTTTTTTCATTTTTATTTATTTATTTTTATTATACTTTAAGTTTTAGGGTACATGTGCATCTTTAGGCAAGAATTTATTA
GGATGTTATGGTTAATATAATCATGGCCATAACTTCCTAATGAATGCAAATGGGGAAAATAAGATTTTATTAACCAAAGATGGTGACCTTAAAACCATTA
TATCTTCCTTGTGCTTATGGAGAACATTTTAGGAGCACGCCTATTCTTAAAGTGAATTCCGTTATCTTTCCTCATGCTAAGAATGGAAGGGGGCTTAGGC
TGAGCCAAGTSACATGTTGCAAGCAGTTGTATGATGTCACCAAGTGCTGGCCGTTGGTGTCTCAGCCACAGTGGGAAGCTCAGCACATGGATTAAGGGCC
AACCTGGGGCGAAGGTGATTACCTTCTTAGAAGACACTTGGTGGAGATGTTTTTGAGTGTCATGACTAGGGAGGAGTGCGCCTGACTTCTAATGTGTAGG
AATGCTGCTCAGTATCCTACCGTTCACAGCACAGCCTGCCCCCCACCCCAATAAGGAATTTCCTAGCCCCAAAAATCCATACCATCAAGAATAAGCGTAC
AGAGTTAACATCATGGGACTCCTGAGTCAGAGCAACTTGTTTTCAAATCCTACCTGTGTCCTTGGATGGTTGACCTTAATTAACTTTCTGAACCTCTGTG
TCCTCTCTTCTAAAGTGTGTCTCATCATTATACCTATTTTATAGGGTACTAAGAGAATTGAGGTATTGCGTGCCAAACCCTTAGCACAGCACCTGGCACA
GAGTAAGTACTCAATAAATAGTGGAGATTGTAACTCTTACTAATCTGGTGGTGGTGTCCTCCTCAAAGTAAAATAACAAGGCAAAGGCTTCAAATCAAGC
TGCATTTKAAAAGTTGCATTTTTTGGTATCAAAGTCCTCCAAGATGGATTTATTTTTCTATTTTATGATTCCGTAAAAGGCTTCCTATAAGACTTGTTTG
TTGGGGGTGGGACTCCCTCTCTGGTGCTGCTAGGGCGGGGTACCTGACATTAGTCGCACCTGCAGTGGATTCGACACATTAAACCTCAGAGCATTGCGTG
AGTGTGGCTCTAGAAAGCCGCCTCAACTGCCCAGGTTTCTTAGCGATCAGTCATCTTGATCAAAGTAAGAAGCAGCCAGTGTCCAAGGCAAAATCTGTGT
GGTCGTGTTGAGAGAACCAGGCAYATTCGCCACAAGATACCTGTGCCTTCTGCCATTAAGCAGGTCTGACAACGTGAAAGCTGGCTGAGCTGAGGGAGTT
GATGAGCTGTCAACCTCAGGGGCTGCTCAGCCCTTCGGGGGTGCTTTGCAAGCCTGGTTGCCCTCCAGGTGTCATTTTGCTAGGGGTTGACAGAGCAGGC
TACTGCCCTTCTGCAAATACTCTTAAGATCATGTGAGTTAATACACAGGACRTGCTTAGACAGGGGCTGGCACTGTTCTCAGTGTTCTGTTAGCAATTAT
TACCATTATTTTCACTTAGATTTGTCATTATGTACACACAGCTGCCTGTGGACATGTGCAGGCACATCCATRTAATATATTAATATAATTAGGAAAGTGG
GGGCATTCAGTACTTTCTAGGTATACACATGAACAGACACACAAATATACATAGGACGTGCAGATGTAATGGGATTTAATGTTCCCAAACTCTTGCAGTC
ATAACCGTCTGCCCAGAGTYAATCTTAGATAGAGAGCCAGCACCGTGAGGCCAAGAGAATGTCTTGCTCCTGGATCTGGCTGGTGTTCCTGAGAGAAGGA
CAAGACGCCGCAGTGTTCCTTTGACCCAAAGATGGAAGCAAGACAGATAACACTCCGAAGTGTGGTAGCAAGCCAAGCACCCTGGAGTTAGGGGCTTAAA
TCCAGGCATCAGGTGGTTATGAGTCCTGTGACCCTGTGCAAATTAGCCTCCCCACCTGGGGATTGGGAACCACAGCGAAGTCACGGAGCTGCTGTATGGT
GCATAAGAAAGCGTATAGCTCACTGCTTAGCATCATGATCGTTCCTTAAAATGAGATTCAGGGCTCATGGTGCCAAGGTCCTCTTGGAAGCCTCATGCAC
AGAGTGTCTTCAGACCTAAGATTGAGGAACCTGTTTGAGAAAGTTTCAGGTGTTCTTCCTCACCACCATCACCATGAGCAAAATGGATTATTCACTGGCC
ATATTTCTCCTTTTTACCTCAGCCAACAAGGCACGCAGGATCAAATGTGTGGTTCTACCMTAATGACTCTATGGACAGGATCCCCTGTGGCTGGCATGCT
GTCACCATCTCCTCCTCCTTTTCTTTTTTCTCTGATCCTTGTTTTTATCTGCTTGTACTTCTGCCTTATTGTGCTTAGTTGTGCAAGCCACCGCAAATCC
AGTATGGATTGATGTGGGGTATAAATAAATTTTTAAAAAGTTGAACCTTGAATCTGTTCAATAATTCTCCAGGATTTTGCTTAGCTTTACTGTGCTGCTT
CCAATTTCAGACTCCCTAGCTTTGCCTATTGGCTGACTGTAACCATAAAGATAACTGATTCCTGTACCAAGCCTAATAAGATCAATTAAATTMCTTGTAA
AAATGGTCYCTACTAGGGGAAATGCTAGATGAGATGCTAAAACTCATCTGTCTAAAAACAAGAGACAAGCTCTTTCTTGGATTTTTTCTTTTTCTYTTTC
TTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTTGCAGCTGATCAGTGCTCCTCATGCATTTTGAAGCTTCT
TTGCCCAAGGTGTCTGTGACAGATGGCTCGTGAAGCAGCAGGAATGCACAAAACCTCTGCTATTATTTTTAATAAAAAAATACTGACTCTAGAATAAATT
GACTATTGAAAAGGCTGAGAATTCAGTCCTTGAAACTAATTGTGCCAAGTATGGGCACATTATAACTTCTCCAGCATGGACTATGTGGCCATGATGGTAG
GCTTGGCAATTAAAAAGACAAGKGGAGAGATGCCCCAAACTGCCGGGCCTCSTGCTCCATCCTCCAGGTTTGAACTACGGCTGGTTGCAAGGAGTGTATT
TGTGCTTGCATTAGAAAATTAGGAACRCCTGCAGAAAATGGCTTTCCCACASATAAAAGACTATTAAGTCTCTTAAATGCTGGAAAATGTCTTCATGAGC
ATATTCAGTGATTTGGCACTTACTCCACATGAGAACGTCCCTACCATGATGTCCASTAAAGAATGGGCTACGTGTCCCGCARACTTGATTACCTCCCTGC
TCCAGCTTGGCTCTTTCTACAARGGCTGTGCTGGCCCAAACATCAATGTCTCATTTAACTTTTGAAAATCGTCCTCTTGGCATCTAGACCTGTTGTTTTC
CTGGCCTGCTAGGATAAATACGGAATTCTAGGGTGACTTTTATTATGCTCTTTTCAATATTGGTAATAAAGTGGCACTATGCTGTGGATAGGACTGGGTT
CACATCCCAACTCTGCCTTTTCCTGATTGAGCTGCTGAGTAACTCTTCTGCCTCCTGATTTGCAAAATAAGGATACTGGCTTTTAATTCCTAAGGTGGTT
CTGAAGATGACATGAGACAATGKCAGTAAAATACCTAGCACTAAGCTTGGCACATAGTWGGCATAGAAAAGGAGGAGTTGGCAGCTTGATTATGGTCAAA
TCTAAGAAGATTTGATGCAGACCCAACTTCCTAGGGCCACTGAGGATTAAATAGGTATATATAAATTAGCTCAATAAAAGTGATTATTTTTTTCTTGAGA
CAGGGTCTCATTTTGTCACCCAGGCTGAAGTACAGTGGCACCATCTTTGCTCACTGCAGCCTTGACTTCCTGAGCTCAAGTGAGCCTCCCACATTAGCCT
TCCAAGTAGTTGGGACTACAGGCGTGTGCCACCATGACCAGCTACTGTTGTACTTTTTGTAGAGATGGGATTTTGCCATGTTGCCCAGGCTGGTCTGAAK
CTCTTGAGCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACGAGCATGTACCACTACACTTGGCCCATAAGTGATTYTTTAAAAATAA
GTAAATATTTACAAGAAATTAATTCCCTGAGATCGTCAGGACCCAACCTTGTCTTCATTTTAAGTATTGTCAGCTCAGAGTTCTAATGAGGCTACAAGAG
CATTAGAGATAGACTTTCAAAATATTAAAAGAAAAAATTTCCTAGGCACCTCCAATGAAAAGGATATGTTCCCTGACCTCAAGAAGTTTCCAGTGGCCAG
GCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGAATCACGAGGTCAGGAGATGGAGGCCATCCTGGCTAACACGGTGAAAC
CCCGTCTCTACTAAAATACAAAAAAAAAAAAAAAAAAAAATTAGCCGGGCATGGTGGCGGCTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAG
AATGGCATGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACGGAGCGAGACTCCATCTCAAAAAAAAAAA
AAAAAAAAAAAATAGTTCCCAGGCCCCTGTTAGACTTCATGCTCCCTGGCTTTCCCTCTCTCCTACAAATATTAGAATTTGTTGCTCGCCTGCTATATST
TGGGGCCTGCATGCTGTGTGTTGTGAGGAGGGCAGGCAAAGCTCATTGCCCTTGGGATTTGTTACCTGGCAAGAAAGCAAACACTGAACCAGTAATGATA
AGTAATGACTGATTTTGAAGGAACCATACAGGCACCTAGGAATACAGAAAGGGATTTCCTTCCTGAGTTGGGGGATGGAGGAAGGTTTCTTTGAAGAAGT
AGCATTTGAGCCTGCTTCCTCGAGGGTGAGTAGGAGAAAAGACAGTAGGGCTTCATGGACAAAGAGACAGAATATACACAGGCGAAGAGGAGAGAAAGCG
ACGGTGAGCTTGAAAGGTTCAAAGAAGCCGAGACAGCTGCAACTCAAGTAGAATTCATCGTATTTTTTTTCTTTTACTAAAAATAGAATGACAGAATAAG
AAATTTATATAAGGAGTATTCAAGCAGACCCCAAAGGCCAAAGTTCATGGATGAGGTTTCCTCTTTCCTCTCCGCTCAGCTTTTAGGTTTCTTTCTTTGT
CCCACCCATCTTCGTTCCCTGATGGTAGGTCCATGATGTAGAAAGTTTACAAAAGAAAATGTCTCAGGGAAAGGTTCCTCCATGAATCTGTTAGGAAGAA
AAACTCCAGTGAGGCTGCACACCAGCAGCACTAATCATTTTATTTTATTTGTGGCTGTGTAGTAGTATTGTGTGGCGTATATGTACCACCTTTTCTTTAT
CGTGTCTACCATTGATGGGCATTTAAGTTGAATCCATGTCTTTGCTATTGTGAATAGTGCTGCAATGAACATACATGTGCATGTGTCTTTATAATAGAAT
GATTTATATTCCTTTGTGTATATACCCAGTGATGGGATTGCTGGGTTGAACGCTATTTGTATTTTTAGGTCTTTGAGGAATCGCCATACTATCTTCCACA
ATGGTTAAACTCATTTACACTTCCACCAACAATGTATAAGCAGTCCTTTTTCTCTAATACCTCACCAGCATCTGTTATTTTTTGACTTTTTAATATTAGT
CATTCTAACTGGTGTGAGATGGTATCTCAATGTGGTATTGGTTTGCATTTCTCTAATGACACTGATCATTTTGAAGAATTTATTCTTGCATACTCTTGGT
TAAATGCATAAAGTGATAAATTAAACTGAGTCTTTATAAGCAAGTATAAATTAGTGGTTATTTGGGGGCTATTTCTGATTTACACAATAACGTATACTAA
TCACATTCATTAAGATGAGTGAAGAAATTGATTTAGCTGGAAAGCATAGCTCTACAGAGGCATAGCCAAAGTCTGGCTATATAAAAACATTTTTACCACC
AATATTTTCAGGCAAATGTGCCAATAAAAGGTATATTCTATGTGAAATTGCAGCACCCTATTGGAAATGGCCTGCTTTAACAGTCCTGGTTCCTGCTTAT
TAAGATGCACCTTCTTAATGTATGCAATAAAAATTAGACTCAAAGATATCTAGTGATRTTTAGCCAGCTTCAGTGACTGGTCTAGAAATAAAAAGATATG
CCAGTAAAACCCGAGTGTTGCAAATACTGTTACTGATGATGATCAAGAAGAGAGGAAGGCACTCTGTGAAAGATTGGGTACACAGTGTTCTGTCTGATAT
GTGGCTTTTTTGGCATCAAATGTGCACTGCGGACCATTGGCACTTTTCAGAGGTGGCCAACACATAGGTGCCAGGGACAATTAACAGAGACGTGGTGGCA
AACTCATTAACGCAAGAAGAGAATCTGCCATTCAGAGACATTAATTTAACATGACACCAACAGGGGTGTTTGTATGTGCGCGTTGTGGTGTCAGACATTC
TGCTCTAATTGAGTTAATTAAAAGTTAATGGCACAGAGCACATCGTGACGCTATAAATAACAGGCACGTGACCAGTCCTTATACTCTCATTTGAATAAAC
CTTTAGCTCACCATCACATTCCACTTCTGAAGGATTCATTCCACATCACTGCCTCTCCTTCCACCTTTGAAGAGGGTGAGTGCTATTCCATTTGATACAT
AAACAAAAGGAATTGGAAAAGATAAAAGGAGGCTTGTGTGCTATGTCATAAATATCACCCATCATTGCCAGCCTTGTACTTAAACTTCTTGCTGGGAAGG
GGGAAAATGTGTCCTCCTAGCCAGGGCTGTGGTAGGATGTGGGGAGAGCAGGGAACCTCCTGCTGCTCATGGTGGATGGGAGGCCGGCTGAGGGGGACAG
TCACTAAGAAGATGAGTTGGAAGTAAGATTGATATAAACCTTATGGATGGGAAAGCTGTTTTCCTCTCTGAGCTTCAGTTTCTCATCTGTGAAGTGGAGC
TAATGAGAATCTGGTATCCACGTCATTGAATGCTTCTCAGCATGAAATGGGAGAAATCTCTAAAACACTTGACACAATGTTGGGCACACAGCGAGTCTTC
CATAAAGGTTAGATGGTGCTGCTTGGAAAGTCTGTCTCCTGAGCGTGGGGAGAACAGCCCCTCAGGTATGGCTGTACCCACCTCCCTTTCTCAGCATCCT
TGTTTGGGTGGCCAGTGGAGTTCTCGACGTTCGTTTTTAAGTGTTGGTTTGGTTGATTACATTATGTTACAAATGCATCCAAAAAAGGAAATGTGCGACA
TAGTACTTACATAGATTACAGGCAGAGAAACACTTGAAAATCATTCACTTAAGACAAAGTCAATAGAAGACTTCTCAGTCTCAAATTTTTTTTTATTTTA
TTATTATACWGTAAGTTTTAGAGTACATGTGCACAATGTGCAGGTTAGTTACATAGGTATACGTGATTTTGACTGAGGAAACTCGCTTCAGTTTGCTTAA
AACTGAATGCTGAGCCTTCTAGCCCTGAGGCAAAGAGGTATCCATGGCAGCTTACCTACCTTTCATGTTTCCAGCACCATGAACCACAGCACCCCTTCAA
GTGAAAGAAGCAAACTTCTTTGGGGGCCTAAAATCATGGGAGAAATTCAGATTGCTCATCGTGCAACCAAATGAACATCATTCTTGAGTGATTCTAACAA
TTGAAAGAGGACAAAAATGCTTCTTACKTGGCTCTCTCGGAAGAATTTCTGGTAATAGTCAAAGATGAGGACTTTCAAACTTTTTGGCAGGTTCTCACAG
TATATAATAGTTTTTTTTTTTGTAACCATGTACCCCCAATACACACACACACACACACACACACACACACACACACACACACACACACGCTCTCTCAAAA
CAAAGTTTACAAATAATACTTAGTCTATGTGGTGCTTTGTAGTTTCTCTTCTACTGTCGCTTGTTACTTAAAATACTGGTCATGACCTATAAATTGATTT
TATGATCTAAAAATGAATTGTGAAACCTGGTTTAAAAAATGCTGATGCAAGATGTTAGGTAAGAACATATTTCTGCAAAAATACTTAAGTGGAGGGACAG
GAATGAGTGGGGCTAGGTGTCCAGTGTTCTGGAAAGAATTAAATTTTTTATTAGTATCTATTTCTCATATTTCTCCCCAGCACAGTCAGTTCKGCGTGGC
GCAGCCATCCTACCAAGGGGAGTCTGWGGGAACCAGGACACTTGATTGCTTTTTAGCTCAGTCTTCGMGGGAGTGCTGGAGCAACTCTGTGCATCGGAAT
CACCCGGGATCCCAGCAGGTCTGGGAGGGACTGAGATTCTGCTCYCAGGTGATGCTGATACTGCTGCTCCCCAAAGTGCGTTRGGCCATACACTGAACAG
CAAAGGAAGAGAAAAATGCAAAGTTGGAACCTTGTGTTTCCTGGCCTCCACCGACAGCCCCATCCAGTAATGCCTCCTTTCTCCTTCAAGGGCATCTTAT
TGTCTCATTACTCACATTTAGAGACTGATTATGTCATTTAGTAAGCCTTCGAYTGAATATTTAAAAGCCACTTGGATGAAGTTAAAAGTCAGCAAAGAAT
GTATTTGAAAAGCATGCATAGCTCATAGCTCCTAGAACTGACAGTGAAATGGATGCACCAGGTCTTGGGGGGCGGCCATGTATCGGGGGAGCTCTGGGCT
TTGGTAGCAGGAACTGGTGGAGATCTTTTTATGTGAGGCCATTGGACTGAAGCAGCATCCCATGTCCTTTGGCCCTTGCAGTAGACCCTCACATTTCAGG
GAAAGGATTTAAGAGGCCCCTTGGCTCACAGGTCCACTCCTCAGCCAAGGAGAACAGGGCATCTTGACTGACCCACCAAGACTTTGTTATGACATAGTGA
CCACGGTTCAGTTTCCATGCAAGGGGGCGTGCATGCGGAGTGGGCAGATACAGCCACAGCACATGGGTTGCTGAAAACTAAGTGGCTTTGAGAGGAAGGT
AAGTGCTTTTGCTAAACACCAACTCTGTGGAAAGCTCATTACCGATACGTTAACTTCATCCCCTCGATAAGCCAGCTGTTCTCAATTGGGGATGACTTTA
CCCTTCAGGGGAGAACTGGCAGTGTCTGGATGAATTTTTGGTTGTCACAGCTGGGTTGGGGGGTTGGGGGTGCTCCTGGCATCTGGTAGGTAAGAACATA
TTTCTGCAAAAATACTGAAGTGGAGGGACAGGAATGAGTGGGGCTAGGTGTCCAGTGTTCTGGAAAGTATCTATTAGTATCTATTTCTCATATTTCTCCC
CAGCACAGTCAGGGATGTGGCTCAACATCCTGCAATGCCCAGGACAGCCCCCATGACAAAGAAATTATCCAGTACAAATGTCACTAGTGCCAAAGCTGAG
AAGCCCTGCAAAAAACTTGCATGATAGTGACGGTTTTCTTTATTTTCCTCTTTTTTTTTTTTTTGATGACAGAAAGTTAGATAACAGTCACAAGATCAGA
AAGCGAATAAGTGGCAGAGCTTGAACCCAGATCTGTGGGGTACCAGGACACCCTGCCTTCTTGCTGTACCTCTCAATACTGGTCTCTTGTGCCTGCCTGC
CAAGGAACAGAGGCAGTGGGAGGAGGCACTCAAAGAGTCTTATGAGCCTGATAACAAATGTGTGAGTTCCCTCCCTTTGCTGATCAGATTTGTTCTGTTC
CATTCCGGAGTCACTGCAAACTACCAGGTTTTAATTCAACCGTAACCTGTGGGAAGGCTTCACGTCTGAGGTTACCTGGTGCAGCTGTCTTCACGCTGGC
ACACTGAGAAGTTACCAAATGATTAATAGCCGTGGAGTTTCCCAAAACATCCAGGTGGAAGACACACAACTGGCTTATTGTCTTTTAATATTCAGTCATA
TAAATTGAATATAAGAGGGTAACAGCAGGCACCCCTGGAGACCTGGGCATGAGGTTTAGCTTCATGCAATCCCCTGTAAGTATAATTTCCCCAGACCACA
TGGGGTAAYGGGCCTCCATGTCTCTGATTTGCCCATGGGGGGAGGACATTAAGTCTGCACAGCTGTGGTGTAATCAGATGTGTAGGGAGACTCTGAGAGC
CAGAGGAATCTCTTTTCCATGCTGTCTCACCTGAAATGCTTGTCAATTAATGTAGACTTGTGGTAGACATTTTGTTTGAAAAGAAGAAATTTCATTTTCT
TTCAAATATTATATGGTGCAGGTGAAGCACCTGGGGTTTTTCTAATTATACCGTGAGCCATTGGGAAGTATGAACATATTTTACACATTAAAAGACCTGG
ATTTTGCTGGAGACCCTAGAGAATGTTCTCATTGGAGTCCCCCTCATTTACCTTGGAAAGGACTGTCTGAAKTTGAAAAGAAATCTGAAGCAGGAAAAAC
ATATAAAGAAATATGAAAAAATGGTATAACTTTCAAGGGAAAGGGTTTCCTTAAAAATTCATGAGATGGGTTATAATAAATGCACTAGAATAACTTGTAA
CAAAAATACCAACAGTGTTTCTTTGGCAGATGTTTCTCAAATATTTGGGGTGGTTTCAATGGTTTTAAAAGCTTTCTCCCAACGCTTTTATGTTGCCTAT
TTGGACCACCAATTGAGTAAGAATTTGGCTAATTAGTGTAAATTCATTAGGCTTTAGCATAATTATATTTCAAACCAACCAGCTAAATTGATATGATGTT
GTTTGTCCTGAGAATGACTAAATGACTGATAGGAAATGGGATATATTCTTTGAAACTCGATATTCTTAGAGCTTGGCAAACCGTCTGGTGTTCAAATACA
TTTTGTTATTTGAATGAATACATATTAGCTATGGATATAAACAAGGAGGGAGAGATGGATGGGCTGAGTGTGATTATGCCAGAAAAACAGGAGTCGAGCT
CATCGCAAGACCTAGCAGTAATTTTTAGGAATCAAGTGATACAGGTGTTTTCATAAGTTCTCAGATGGGAAACAATTAGTGAAAGCAACAATTCCACCTT
TTTGTACAAAACATCCTTTTGCTTAGTTGGTTGTCTGCTTGCTCCTCAAACATTCGGAACATTTCCAGGATCAGTGAATATATAACAGCGATGTTTTGTT
TTCAGAAAATCAGGCTGATAGTGTTGTACTGAACTCAAATCTGCCTTTTAGGAAATATCCATTTCCTCCTGGTTCTTCCTCTTGAGATATGCAGAGATCT
ACCAACCACATCACAGAATGGAACTCAGATCATTAAAGGACAGATTCCTTGACTTGGTTCATAGGAATGGTCTTGACTCCTCCCTAGCCACCGCCCACTG
AATGGTTTGATATAAAAAAAACAAAACAAAACAAAACTTAAAATATGATCTTCGTGATGTGGTTTGGCCAATGTAGAGGATTAAAACCATTACCACTGCT
TCTTCTGCTTATGAGGCTTTTGACTGGCTTCCTCTTTTCTGTCATCCAGGTTCTCAAACCCCATGATGAACGGTGCAGGCAGGGAGAGTGGCAGAGACAG
CAGGCTGCTGCCATGGCCTCAATCCCAGCCACTTAAGTTGGCTTCACCATTTTCCTGCCCATGTGTACTACAGGTTGAYGGCTAGAGACACTGTGAACAT
CCCACTACTTGCCACTGAGGCTGAATTTTWWAAAAAAAAWAATGATAGCAGAAACACCTCAGACAGTCTTTCATGCAGAGACTCAATTTAACACTTCAGA
AAATTTTTGTTCTTATGTCAAGATCCTAAAGTTCCTAGATAGATTCCAAGATAGAAGTACCCAACCTATTGTGGCTCTACATCCAATTTCCATTTTTTAT
TAGCATGTGATTTTCTTAACATACTGCCATTATCATAAGTTGGACACCCCATTTTCAAGGCAACTGAAGTGAATCAGAGTTATAGATAGCAGACATAGGG
TATAAATTGCTGCTGCCCAACCCTGAATACATTTTTTTTCATCCAGTATGATGCTCTCCTGATAAATACCACCTGTTCAATGGGAATTTAAGACAGGTTG
TCATTTTAGCAGTCAAACTTTCTGTTGGATCACACTGAGTTTATGGTCAGCTTGAACTCTCAAATCTTTGTTTATGAATTTTTATCAATCTCTGACTTTT
CCAACTTGGTTTGGCCAATCGCTTTTTGAAATAGAACTTTATATTTAACTTCATCAATAACATATGTAGAAATATATATACTTATATGTGGATATATACA
TCGTATATATGTATATATAGTATTTGTGTGTGTACATATTATACACATGTATGTGTGTGTATATGTATATATGTATATGTGTGTGTATATATATGTAKGT
GTGTGTGTGTGTATACATATGTGTATATATATATATGCCCTTTAAGACTAATGCAATAACTTTTAAGGTTCTTTTTGATTGAAGAAATATATGTAATTAA
TATCAAATCATATCTATGGCTTGCAGCTTACCCCTCTGCCTACCCCTAATTTCTAATTCCTAGAGACAACACCCCTCTAAACTCCTTTGGCTGGTTTTTT
TTTTCTGGCATTTGTGTATGCATTTCTCAATACATAATTATACTATCATCATACTATTATAATTTTCACTTATAAACATTTATTTCTCCTATTAAAACTA
AAGATATGGCTGTCAAACTRTGCACACATTTATTATCCCTTTATATTCTAGGTTTATGTTATTGTGGYTATAAGAATCTGCTGTAAATAATTATATGAAA
TACGACTCTGATAGAATTTTCTTTGTCACCTATCATTTTGTTTTTCCAGGTGTTAATAATTATTTCTTCATTTGTTTAGTGTTCTATGTATTTTTTATTA
AATCCTATGCCAAACATTCCAACAGAGCTGTGAGATACTTGTCAATGTCTTTAAATGTCTCAAGTCGTCTGTTTGTTTGTTCTTATTTTCTTGGAATTTG
TTTTTCTTGGAATTCTCTGTATTTCTGCTCTAGTTTCTTCCTCTAAGCCTGCTTCTCAGCSATCACCCTGACTGGCCATCAAACTGGGAACTCTGTTTGC
CTTTGTCCTGTACTGAGTCTCCTCTTTCCCAAATCCTTTCTCTTTTTCCTTCCTGGTTAACCTCTGGATTATGTGTGTATTTCGCATGCCTGAAAATCCT
TTTTCTACTTTTAGACTTGCAAATTTGGCTGGATATAGAACTCTAAGTTGAATATATTTTTCAATAGATGATGAACTTGGAAGATTCATTATCTAATTTT
CTTTCAACTCCCTTTTACATAACTGTCTTCTCTTAAAAATACTTCGTACATTTCTTCAACTTTATCTTATGACCACTCTGTTGTTGTATTATTGTTTAAT
CTTTGCCATCATAATTTCAATTTTAATGGTTTTTTTTGTTCTCTCAATGTTCATTTTTATAGTAATCTTTGTTTTGTGAATACAGTATCCCCTCTTAGCT
CTTCAAGAATATCATTTACAGGTGTTTGGGTTTTAAAGATTCACCTGTTTTCTGTTGCTTCTAAATTTCTGCTTTTTTTTTTTTTTTTTTTTTTTTTTGG
TCTGTGTCATGTTAGAAGGGTTGTTCACATTCTTTGTGAATCTTTGCTGCCGTTGTCCTCTGAGTGAAGCACTAAAGGCTCTTTAGGAGTTTTGCATGGA
CGTGCATGAAAACTGATGAGCCTCAAAATGGGTGATGGGGTTGGGACTCCACCATCAGTATCTGTAGTTATTTTCGGTTTTTTGTTTATTTCTGTTTTTT
AGATGGATTCTCGCTCTGTCGCCCAGGCTAGAGTGCAGTGGTGCAATCTTGGCTCACTGCACCCTCTGCCTCCCAGCTTCAAGCGATTCTCCTGCCTCAG
CATCCCTAGTACCTGAGATTACAGGCGCCTGCCACCACGTCCGGCTAATTTTTGTGTTTTTAGTAGAGACGGGGTTTTTACCACATTGGCCAGGCTGGTC
TCAAACTCCTGACCTCAAGTGATCAACCCACCTCAGCCTCCCAAAGTTCTGGGATTACATRCAGAAGTCACTCTCACACACATACTCATATTTGCCTTAC
CATTTGTGCAGGAAATCAATACCATTACTACCCAAGACCAAAGGTTTCACTGGATTTAAGCACTGACATGAGGCCAAGACCATAGCTCSTTCCATGGATA
TATGGTCCACTTTAATTTTTATGAATTCTACCCTAAGAAGGGGGAAATGTTAATTGAAATTGTAGCCATTGTTAACATTGAATTTATCACTTAATGGCAG
TTACTTATTTTAATTATAACATCTGTGTCCAAGTCAGTGTGTTCATTGTTGTATTCCTCAGAAAGTCTTATCAGGAACCCACTCCCACTGTAACTAACAC
AGATAAAGTCTTCTGCTGGCATCATCTCCCCTCTTCACACTCCAGGGAATACCTAAAAAATGGAAAAGGTAGACTGTGCCCTTTACTAACTCTTAAGGCA
AAGAAGTTTAAGTAAGGACAAACATTAAGCCAATATTTCCGATATGGATGTTAAGGTTCACAGCACAACAAACATCACAACCTGTGGCTGTCTTTTACCT
CATTCATGGAGGCTTATGAAGTACACTTTTCTTCTGGAATCCTCTCTTTTCCCCACCTCTCAGGGCTTCTTGGTGAGGTCCACACTCTTCACTCACCATT
CCTGGTCTSAAGTCGGGATGTCTTGTCCTAACTATCAATGACCCACAGTTACCTCTACCTCTCAGCTGAGCCCTCAGCCTATTTTCTTTTTTTCTACTCA
TGTTCTGATTGCAAATGACAGGAGTTATGACTGTTGTTGCCCCAGATCTCATCATCTACTTAAACATCGTCATCTGCCAGTATTCTCAGCCTTGCTTTTT
TTTCTCAGTGTTAAGAATTTGTTAGGGAGGAGCTGGTGAAATCCTGAAGTGCAGCAGAGACATGCATGCCTCATTCTTTGCTAAAACAGAATGCCTTCAG
AAGCAAGTACCAGAAAACCCCAACCCAACTGTTGTAAACAAAGAGGAAAATTTATCATTTCACAAAACACAAAGGCTGAAGGTGCAGGGAAGCTCCAGGG
ATGGTTAATTCCCCACCTCCGCAGCATCAGGGATTGGGTTCTCTCCCTCTTCCTGCTTTATCATTCAGAGCCCGGCTGGATTATCCTCAGGCTAATTCAC
TCCATGTATGCAGAATAGCTGTACAGCTACCAGTGTCAGAGGCAGGCACATCGGCTTATAGGAGAAAGAGAGAGCAGCTCTCCCTTTCTGTGTTTGCGAT
GATTTAAATGCCCTCTCCAAAACTCACGTTGAAATTTAATTGCCACTGTGATGATATTAAGAGGTAAGACCTCTAAAAGGTGATTAGGTCATGGGGGCTC
CACCCTCATGAATAGATGAATGCTGTTATCTCAGGAGAGTGTCTGTTACCGCGGGAGTGGGCTCCCGGTAAAAGGATGAGTTCGGCCCCCTTCCCCTTGC
AAGCTCACTCATCATATGATGCCTTTCACAACATTACGATGGAGCAAGGAGGCCTCGCCTGTTGTGGCCCCTCAATCTTGGACTTCCCACCCTCCAGGAC
CATGAGCCAAATAATTTTTTTTCATTAGAAATGACCCAGTCATTTTATTTAACAAGATATTATGTTGTCATAGCATAAAATGGACTAAGACATCTTTTAT
CACCACTTTCCCAGAAGTTCCCATGCCCCACACATGTGCTCTCATACCTCATTGGCCAGACCAAGTGAAGTGTCTCTCAGTCACAGGTGAGGGAAATGAG
ATGACCATGAATGGCAAATTAATCAAGCTTTACTCATTTAGAGAAGTTTAGAGGAGGATACCTTCTTTGGCCACATGACTGTATGGGAAATGGTGGACAC
TGACACACACAGGTGTATATAGATACACCTGCCCCTATGTGCACCACTGACACATGGATATTAACTCAGTGGTAGGACCAGAGTAAACCCCTGATCATAG
TAATTGACATAATTATAAGTGCAGACATTAACTGTACTGCAGTTTGTCTTTAGAACAGTGGTGTATATATACCTATACTCATGTTGTATACAACCTTCAC
AATATGTAGGAGAGGAACTTCCATGGAAGTATGAACAGAAGATCAACTGGACAGTTACGCTGCTGGTGAGCTGTGTGTAGCCTGAGGGATCTGGCACATC
CTTAGTTCTTTTCGCACAAATGCTGCTGCCAGTTGGCTCAAGCATTTCAGGGCAGTTGCCACAGTTGTTACTACAGTTACCACATTTTTTCCAAACCAGC
AGTCAGCATACACAATTGGATAGGTACTTCTTTCCAATCTGTGAATTATTTGATGTCATATGAGTTACAGAAGTTCATCCCGGGTCATGTTTAAGGATAT
ATAAATTACATGTTGTAGACAAAGTCTACGTTTCTACGTTTTTTTGACAGCACAAGTGACATGAAGTGAAATGCACATTTCAATGGGTGTCGCATCCTGG
TCTCAATAGTTTTAGTGCAGACATTCTTCCTACACAAAAATGTTGTGAAAATTTGAATTGATCATAATGTGATTGATGTTGAGAAATAGGATTTATATAG
TCCATGAACTACTATTGGGTATAACCACTTGAAGCTGGGCACAGGTTCCTAAGGAGTGAGTGTCTGAGGACACCACAGAGAGGCCAGAGCTGCTCTGCTC
ACCTACCCAGTTCTTAGGTTCTACCTGGCATTCTTTAGCTCTCTGTTGTTAAAGGTAAACTCTGCCACAAGCCAAAGACCAGAGCAGAGAGATGGGAGGC
TTGTCAAAGAAGCATGAAGGTGCTTTTATTTCCTTCTGACCAGACAACTTGCTCAGCCTTAGCTTCAGCAATCAACTACATCTGTAAAGACGCTTTTACT
GTTGGTGTTTTAAACAGAAAAACAATGACTTCATAATCTAGAACTCTCTAGAACCTCCTTTTCTATTACAAAAGCAGCTGCTTTTCTCTCCTAGTTTTTG
GAAATGTGAGGCTTCTTAGAAATTCAAATGTTGTGTCATAACCTAACATAGTTTGCATAATTGCAGAGAACTCACCAGATGACTGTTGTATCTTATGAGG
CCCCTCCCCAGAACTCCTGGAGAGACCTAAAGTGGGGGGCAGATCCTATCACCACAGCTTTGTATTACAAAACTTCATTAAATATATTATGCAATGCATT
ACTGCTGTATGCATCATAAATAGACACACCATCCTTCATGTCTCAAATATTGATTATCTAAACTATCCCACATCATCTATTTGGACCTAGGGATATGAAG
ATACAAAGATGCAGTCTGTTGGCAGAATAAAATTCTTAAACAGATCTTAGAATAGTGTGAGTTGTTCCTGGAAGGTACAGAGTGCCRTGGGAACTCAGAG
AACAGATTCCCACCCCAGTAAGAATTCTGGGATCACTCCACCCCAAAAGAATGAGGGTTATGTTGTCCTTAGTGGGAGGTGGTAGTTGTGGATTAGGTCC
TRTCATTTCACACACTGACCATCTCTGCCCAGTACCCTGAATGAGTGCTCCATGACATCATCCTCTTTGACCTCTGGCCACCTTCCCTTCTCCTAGCCTT
GCTCCTCACCAGGTAATCCTAGACATATGGACAGCTCACTATCAAGAGGAGGATTGGTCCACTGGAGAACCRTTAATCCCTTCTGCACTTTGGGGATGAT
CTCATCTGATTTGTCTGTCCTGCTTCCTCAAAGCCCCTAAAATGCATTTCTATGCTAAGTTAAACAGAATTGATTGCGGCTAGATTTACTGAGTCTTTTG
AAATGGTTCTATTATTTTGAATGTAAGAAAATAATGTACTACACCTCCTGAGAAATAGATCTTCTGCAACATTTTCATTAATCTCTTTATTAAATGTAAC
TGGTTTCTCTTTGGAAATTAATTACTGAAGTAGTATTGAGAATTTTAATTTCCACAATATACCAGCAAGAGATACTGCTGTTTCTTTATACACTGTTACA
CAGCAGGGCAATAATCTATTGAAATAAGCCCAAAAAGGGGGCAGCTTGTAATTAAAACAGTATAACACGAGTGTTTGATGACTCTCTTAGTGCTAAAATG
GCCCTGTCATGCTGTGTTTGGGTGGAATAAAATGTATATTTAGGAAACAGCTCTATATGGAGAAGTCGACAGACTCAGGTTTTACAGTCTGGGATGTGGC
TGTGTTTCACTGCAATAATATGCCCACGAGGAAATACGGTTTGTTTTTGGCATCTGAGAATTACAACCATTGCTGCACAATAGGAAGCTTCTTCCCTTAG
TAAGCCACCCCCATTGTGAAATTTAAAATATTTAAATGATGAAGCAGAGAGCATCAATTATCAATGTCGGTATCCATGGAAAAGACATGAGTATGCAAAC
ACCTGAGTGCACGCACAGCTCACGTGTAGGTGCAAGTCCACGAATGGATGCGGATCCTGTATGTGTGCATGAAGGCCCTCATTGACACAGATTCAGCACT
CAATAACTCTCCCTCACGCTTAGAGGAGGCTTCATATTTTTCAAGACACGTTCCTATCTGTCATCTTCTATCCTCCCAGACGTGTTTTCYCATGATAAGA
ATTATTTACACATCATTTACATTTACAGATTTGCTTTTTTTGTTGTTAGTGTCAAAGACATTTTTGCAGATGCTGTGTTGCTCTTCTCTTTTCTCCTTCC
TCACTCTCTTCTTTCCTGCCTTCCCTCCCTCCCTCCCTTCCTCCCTCCTTTCCTTCCTCCCTCACTCCTTTCCTTTCTCTTTCCCTTCCTCCCTCCCTCC
TTTCTTCCTCCCTCTCTCCTTCCCTTCTTTTCTCCCTCTCTCATTCCCTTCCTCCCCCTCACTCTAAGTGCTAAGTATACAGCCATGAACACCACCAGCT
CCCTGCTTTTAGGGAGCCCAAAGTCCTGCCCACTCAGCATATAAAATCCTATAATTGCCTCTTCTTGGAAAGCAGTTTATTGGTTTTGACCACTGATACA
TGTACCTTTGAGGTCTATGCCCTATCCCCAGAAGCTCCTCAAAGAAAACAGTACAACTGAATCACATATTGTATCCTTTCTGGATGAAGTCTGTTAACTA
AAACTTGCTCATCTTCTTGTATTTCCAGTAATGTGGGTGAGTCTTATGGATAAGTGATCAGGGCAGATCCCAGGCTGGACTTCTCCTTATCCTGGCTTAA
GGCCACCAGCAGCATTCTTGTGTTGGATCTAGACACCAGCTCTACCGCACATTGAGGCAGAGTTCATAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTC
ATGGTTGCTGTTAGAGCCCCAATCCTGCATAATGGGCTTTTATTTAAAAAAAACAAAACAAAACAACAACAACAAAAAAAAACGCTGTACCTAGAAGTAA
CTGTCCAGAAAAGAATAATATAATGCATACCCAAGATCATAAATACTGGAAATCATACAACTGCTGGTTTCTCAATTACAGTAAGAAAATAATTCACAAT
ACTCAAGGGGAAGGTAGCACTTGTGAGCCAGCATTATTTATAGAAACCTTTCTTTTATCTTTCTTTGCAAAGTCTTTTACTAGAATTATTTATTTAGGAT
AATTAGAGAAAAATTCTGTAATTTCAAGTAAATATTAACTACAAATCAATTCCARTAAAAATGCTGCTGTCCAATCATCTGTGTCACTGCACTTGGGAGA
AAACAWTTTATGTTCAAGCCTCTTTAGCTGGATTAATCTCTTCAAACCTAAGTGATCCATATGAAGATCTTGTCACCGGAAATTACTTTTGATCCAATAC
ATCTCACATATCATAATGGTAATAAACATTTGTCTTGTGCCTTACAGCTTAAAAAGTGTTTTTCATCCATTATCTCTCTTAATTTTCATATTGATTTTTA
GAAAATTAATTTGTTCAACCAGTGTTTGGGTGCTTCTTGTTTGTTTATTCCACAAAAATTTATGGAGTACCTCTCTCAGTCCTCACCACTGGGGATGCAA
TGGCAAATAAGATGAAGTCTCCAGCCATAAAGAAACTATATTCTAGTGAGGGAGATGGATGATAAAATTAAAAATTGTGCAAGTGCATGATCCAGTGTCA
GGGAATGATAAGACCTGTGTAGAATTAAGAGGCCAGGGGTTAGATCTGGACAAGAAATGCTTGTTCTTGCTACATAAAGAGTTAAAGGCTGAGCATCCCT
GAGTAATGTGAGACTGTGAACCAGGAGGACAGCGTTCCAGGCAGAGTGAATATTTGGATCATGCCTCACATATCGTACTGCAGTTAGCACTTACTACTTA
ATACCACACGGGTATTTTCCCATGTTGTTCAAACTTGAATTTTTAAAGTCTGAAAAATATTCCATTTATGGATGTCCTTATAGATTTATAGATATCCAGC
GTTGCAGTCCGGGGCTCATCAAATTTTTTCCACTCCTTACTGAGCTTCAGACCCACCGGGCTGCAGAGAAACATCTCTAGCAAATCATAATCATTTGCGT
TAATAGGTCTGTGTGGCCCCTGAAGATTTCATAAGGTGGAAAAACTACTCCCAATTCATGGGGATTGGGCTGGACACACTTCAGTAGCTTTCCTTGAAAA
CTGGAGGAAAGGCAGAGCTGTGGCAGAGTCAACGTGGGAAATGTGGTCTGTTGAGTGGTCCTAGGAGTTTCAAGAACAACCATTCTGTGCAGATCAGTCA
GCCCTGTGGGGATTTTAGACGTGGATTGTACTCTGAGAGCTAATGATGAGTTTGCTGGAAATAATTTTTCCATTTCCATTTCTAATTGTTAATATAGTAC
AGTGAGCTCGGTAAGYACAATCTGCTCAGATAACCCAATCTGCAGTGTGACTGGTGCCTGTGGCTGGTGCCTACACAACAGGCTTTTGTTTCGTAACTTC
AGCACTTGTTGTGGGGGGAAGCACCACAAAGCTGCTATCCATTGAGCAGTCTTTCACCCTAGTTTTGGTGCATATCACTTCTTTAATCAAGCAAAATGGC
TCTAAAATAATATCAATTTTTTTTTCTTTTTTAAACTTTTAGGTGCAGGGGATACATGTGCAGGTTTGTTACGTGTATAAATTGCATGTCACAGAGGTTT
GGTGTACAGACGATTTTGTCATCCACGTACTAAGCATAATACCCAATAGGTAGTTTTTTTCAATCCTCTCCCACCCCCAACCCTTCACCCTCAAGTAGGC
CCTGGGGTCTTTTGTTCCCGTCTTAGTGTCTATGAGTGAGTACTCATAGACATAGTAGTGTCTATTAGCTCCCACTTATAAGTGAGAACAAGGGCATTTG
CTTTTTTCTTCCTGCAAGTTCCCATAGGTGGCAGCTGGATAAAGAAAATGTGGTACATACACACCATGGAATACTATGAAGCCACAAAAAAGAACGAGAT
CATGTCCTTCATGGCAACGTGGATGGAGCTGTGGACCATTATCCTAAACAATATGAATTCTTAAGAAGCCAACAGGGAGGCCCATTTAAAAGCAGCCACA
AAGGGGTACATAAAAGTGAAGACAGGTTTTAATGACATAGGTTTCAAGTTAACTACTGTTTGTTGATCTCTTGTGGTTTCCGTGGGAGGGGCATTTCAAT
ACTACATAGGTATCGTGTTTTTATTTTCGTAACTACGCAGCGAGGTAAGTTTAGTTATCTCCACAAGCAACATGTAAGAAAATTGAGGCTCAGAGGGGTG
AAAAGGCCACCCTTGATCAAACAGTTGGTACTGAACCTGGTTTCTAGCCTCACATGCAGGACCTCAGAGCTCTTAATGATTCACCCATACTAGTCTATCA
TAGGCGGCAGTGCAGGTTTTGCCTCTGACCACATTGCTTACACTTTCCATCTTCCTCTCCACCACTTACCTGGGGTTAAGCTCTCTTCCAGCCTGCACTA
TGACAACAGCCTCTTCAAGCCAATCTTACACCCTCTCGCCTTCCCCSAGGCCAGGCCGTYTYCTCCATCCCAACACCAAGGTCCCTSAAAGGAAAGACCA
GTSAAGTCTCAACCCTGCTTAAAAGCCTCAGTGACAACCATTCTGCTGGGTGGGATTGCTGGCAGGAAGGTGGCCTTAGGGAAAGGCTGGTTTCAGCCAA
GGCTGGAGGTGGAGAGAATGTTCTAGAAAGCACTGGTTGCTGGAAGGGTTTGTGGATCAGAGACCTCTCAGTTAGCTCAGGCCCTTGGTACATGCTCTTC
TCTCTGTTTATAATGTTCTTCCTGCCACTCATTATTTGGCTCCTACCCTGAGTGATCCCTTGCCTCCCTCACCTGCTAGAGACCCTCTGCCACAGGCTTC
AGTTAGTTATTCCAGCCTCCTGAAAGCACTTACCACAGTTTGAACTTACCTTTGTGAGGTTATCTGATTAGTGTCTTTAGAGCTCTCTAAGTAATGTATT
CCTTCAAGAAAGGGATTCTGTCTTTCCCCCCAGAGAAACYCCCACATGCAGCACAGAGCCTGATGTGTGAAACTTGCTGAATGAGTTGAAAATAATAAGC
TAATGATTTTATAAATTCATTTAAAGGATCCTCAGCTTCTACTGCAATGGTTCTCAAACACCTGGTGGCAGGGGGGGTGTTTATTAAATATGCACATTCT
TGGGCCCCACGCCAGATCTACTACTAAGAACCTCCATGGGTGTGAACTATAATTTGTAAGCAAAATGTATAAGCAAGCTCCCAGGRTGAATTTTGATTTG
GATAAGAGTTTGGGGACTTCCTTCTTAGCACACAAAATCCAGTCTTTATTCCATTTAGGTGTGTTCAAATGGTGTCATCTCAGTGAGCCCTCCTCTGYCC
CTCTTATTTAAAATTCCATACTTCCAGCCCTGTCTGACCCGGCACTCCCTATAGACACATGCTTTATTTTTATCCAGAGAACTTGTCTGTCACTTCCCAC
TATTATACATGAGGGCAGGGATCGTTGGTCACTCCTACTATATTCCCATTTCCTAGAACAGTGCCTGGTACACATTAGACATCCAATACATGTTTGAATT
AATGCCAAGTTTGCCCCATAGAGCATTTATGATGTTCAAGGCCTTAAGCAGCTGGGAAAGGAGAGATGCTGGGCCACATAACTTGAGATAATATTGACAT
TCTTTTTTGCTATTTTTCTTTTTTCCTTTTGATTAGATGACACTTGAGAAATTAGGTCAGCCATCATACTTTCTGTCCAAATGGCTGTTGGGTCATGTCC
ACCTAATAGAAAGGCAATTTTGGCTGCTAATTTCCTGTCTGATCAGATTAATTGAATTCAGACAGTGAGCACAGAGCCCCCTTTCAGAGTAAAGAAGACA
GCACTGACATTAGTGCTCATGCAGGCTTCTTAGTTTTTCTCTGATGAGGAGCTGTGTTTTATTTCCTTGATCTTGGAATTACTGAGAGAGATGGAGAAGA
TGCAGGGGAGCTCAGAAAGCGTGTATAGGAGGGGCTTAAGGAGGGGGCACCATTTTCCTCCTGGCATTAGTAAAACCTCAGGAGTGAGCCTTATGACTCT
GGCTTGGAAGATAAGGGGGGCCTGCTTTGTCACTTGTGACTACAGGATTAATGACTTGGTTATACGTCATTTCTGAACCCATAGTGTCTGTCGCCCACTT
TATGGGAATTAAACCTTCCATTCAGAGCAAATAAGTTCCCCGGATGCCGGGCACAGTGGGTAGCGGTGCAGGGAAGGAAAGAGGGGTGAGGGAAGGGTCA
CAAATGAGCCATGAAAACTGCCCTGAAGAGCTTATAAACTAATGAAGCACTTTCGTTTTTATGCTTTATGTTCTATAATAGAAAAAATCGAGGTGGCTTA
TAATGAAGACTACAGATTAATGATGGTCATTTAAACAATTATAACAGAAGGAAAAAATGTACAAGGAAAGGAGTTAATTAGAACCTGAACACCTAGGCCA
AGACTGATTTACAGGATCATAGCACATCAGGATTGAACAGGCTTATGAGGAGCACTCAGTTCAAACTCGCCCCACACTCTCAGGCTGTTGTCCGAATCCT
TTCAAGGGACAGCCCAATCCATCCCAATCACTCCAACTCTGAGAAGTTCTGCTTGATATATTTCATTTATCAAGCTGATATCTGTTTTTCCCTTTGGTCC
TAGCCCTATCCATTAGGAGCCCCCCAAGAGCAGCCCTATCATTCTACAAGATGGCCCCTCATTGAATAAGTTGAGGGTTTCCTCTTGTTCTCTGTCTTCT
CTTCACCTGTGTCTTTGGTGTTTCCCATATGACTTGCAAGCACCTTGAGCCAGTGATTGCCTCTCAAACACCTTTGAGTTGCAGAATGTATGAGTTCATT
TTCACCCTGCTAATTAAAATATACCCAGGACTGGGCAATTTACAAAAGAAAGAGGTTTAATAGTCTTACAGTTTCCCATGGCTGGGGAGGCCTCACAGTC
ATGGCAGAAGACAAGAGCATGTCACATCTTGGGCCAGGCGTGGTGGCTCGCGCCTGTAATCCCAGCACTTTGGGAGGCCAAGTCGGGAGGATCACGAGTT
CGGGAGATCGAGACCATCCTGGCTWACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTACCTTGGCATGGTGACAGGCACCTGTAGCCACAG
CTACTCGGGAGGCTGAGGCAGAAGAATGGCATGAACATGGGAGGTGGAGCCTACAGGAGCCAAGATCAGGCCACTGCACTCCAGCCTGGGTGACAGAGTG
AGACTCCATCTCAAAAAACAACAAACAAAAGCATGTCACATCTTATGTAGATGTTGGCAGGCAGAGAGAGTATGTGCAGGGGAACTCCCCCTTATAAAAC
CATTAGATCTCATGAGACTTACAATCATGAGAACAACATGGGAAAGACCTGCCCCCATAATACAATTACCCCCCACCAGGTCTCTCCAACAACATGTGGG
AGTTCAAGATGAAATTTGGGTGGCAACACAGCCAAATCATATCACAGAACTACCACAATACCTGTTACAAAATGGGCACTCAATAAATACTGGATAGGTG
GATTCATTGGTACCTGTCTTCTTAAAAGAAGAAAGGCAGGATAATCAATGAGAGGTTTTCTCACTCATGGTTATGACCTTGCATTTGGATGGAMAGTCAT
CTACAAATATGTTTTCACCTTCTCAGGGCAGGCTGAACAAAGCCTGTCTGAAGGTTGTCASATAACTATGTTCTCCAAAGTATGGGGAGTTTATTAAAAA
CTCAGATGCCTAAACYATACTCCGAACCTACTGAATAAGGATCTCTTTCTGTGGGGCCCAGGGAATCTGCATTTTAACAGATTCCTAGGTACAATTCAGT
TTGGGAATCCTACAAAGGCTTTAAAAGGGCAAAGATTTCTTAAAGTGTGATCAGTGAGAATCCCTGAGACTTTTTCAGGGGCTTCATGAGGTCAAGACTA
TTTTCATAAAAATACTGAGGTGTTTTGTGCGTTCATCCCTCTCATATCTCATGTATATATCATGGAGCTTCCAGAGGCTTCCTGGTGTACATCATTGAAC
CAGACTSAAAGTAGCAGATAAGAGAATCCAGCGGATTCCCTTAAGTCAAACGTGAAAGCCCTGCAATAGCCACTCTTTCTACTATATTTTCTTTTGTTTA
GGAAAATACAGTTTTTAATTTAAAAATATTTTTATGTTAAAAAGCTATGAGTTTATTTTTTTAGTAATTTGGTAATCTTTTTAGGTTTTGTAGAAATATA
AAGGATCCTGAAACCAAAAAATTTGASAAGTTTGTTTGCTATTGGGCAACAAACTAAATAAATGTATTTAAAAAGTAGATTTCCTATCTTTATTCAGTGA
AATGCTATATCAAGTAGTTGATCCCATGTCAACTTAATTTGTTAAAATTATGATTTCTATTGATAAAAGGTCTCATAGTTCCTATTCTCCAAGAAGGCCA
AGGTGTTTTTGCAGTATTGCAGCATGAGCAGGAATCAGGCGCTAAGTATTGCTTTCCTTTAAAAAAAAATGCATTATATTTCCCAGATTTCTGGCAAATT
TGCAGTTATTCAATTTTAAGTAGCGGGAACCAAATCCATCTGGATTTTTAAAAAGTACAACCCCAGGAATTTTGTGATCATAGATATGACTCCTTTATCT
CTCATTCCCAAAGCTTAAACCAGATCCAGCTTAAAGTCATCTGATTTTCTTTTAGCTCTTCCCCATTCACCATGGGCTCCTTAAACCAAAGATACCTTCT
AAGCAAAAGGCACCTTCTAAGCTCCAAGACAACCCTCTGAAATGGGGAAAGGTAGCAGTATTGTGGTAAAGGTTTAATGAATGGCTTGGAGGACGTGCAA
AGCCAAGCCCTGACTTGCCAGTTTCCATGGTGTGAAGAATCCCGTTATAGTTGGTTTTGAGTTGAAGCTATCAACCCGGCATCACTAAACACGGTAATGG
GAAGGGAAACATACAACAGGCTCTGGAGGAGACAGCAAGAAAAACTGTCTAAATCCGTTCTCTCTTTCAACCATCCAGAGTTTACTCTGGATCCTGGCAA
TGCCGGTTGAGGTGGCATTATTCCAGGGTAGTCTTTCATATGTCAGCAGAGAAGAGAAGGATACAAGTGTGGCCAAATATGTTAGAGGCTGGAGCAAACT
CCTTGAGAGCATYTGATTCGCATTCTGTGAAGAACCTGTATTCATAGCAAGAAATGAGGCTGAAAAGAGAAGCAGTGAATTTAGAACATGACTACCTTGC
CTGGAGAGGGGAAAGGGCAGGATGTTGAACCTTAGTCTCATAATCAGTCTTATCAGAATAACAATAGCCAGCATGCTAAGCCTGGATAGAAATACAGAAA
GCACACAGCACTCTGCCTGCCTTATACTGTAGTAGTGACATCTTTCCTTTTTATTTATTTATTTTTTATTGTAATGGGTGCTCTTTTGGGAAGAATGAAT
CAACTACTTTTGTGCAGGTTCGTCTCATTTTAACTTTTTTTTTTTTCATTTTGTGAATTTGAATTGAATATTTAGTCACAGGAAATAGTTTTAAGTTCTC
TGGGAGGCCAAAGGTAAGAATTCCATGTCATAGATACAAACGAGTCTAATATCAGGGCTAGATTTATTCTGATTAAATCATTGTAAGTCAGCTGTTTTTA
TAGATCTGAAGTAGAAGAGAAAGTAAATATTTCATCCCCGAGGATTTGTTAGTAGAGATTTACATGCCTCCATTCCACTCTTGAGTTTGAATTTAAAATA
GTCACAATGCCGAGGGGCTCCTGGATGCACGCACAAAGTAATTGTTTTACAATTCTGTTAGACAAAACCCATAGCACAATAGCTGCAATGCAAGTGTCAG
AGGTTAGGGGGAACATTAAAATCATTCAAACGCTGCACATATCTGCCGCATTCTGGAAACCGCTGCTAAAAATGGGTATTAAATCTCACCTTAAAGGTCA
GGGGCAATTTACCCATCTTTATTAATGAGTCGAAATTATCCTGGAAGGAACCGGCTATTAAATATGTGGAGTTGAGACAATCGGCTATACATCTGGGAAA
AACATCATTAGCTTCCTCTCTCACAACATGTAGTGACACACATTTCTAGATGGATATGAGATCTAAAAGTGAGAAGCAAACCATAAAACATACCTAAAGA
TAATATAGGCGTAGCTCAGAGATATCAAAGGTTGATTTCAGACCACCACAATCAAAGGAATATCACAATGAAGTGAGTCACATGATTTTTTTTTTTGCTT
TTCCAGTACATATAGAAGCTCCRTTTATACTATACTGCAATGTAGTAAGTATGCAATAGTTTCATGTCTGAAAAATGTACATACCTTAATTAAAAATACG
TTATAACTAAGAAAGTGCTAACAAACATCTGAATCTTTTTGCTGGTAAAGAGTCTTGCCGCAATGTTGATGGCTGCAGATTGATCAGGGTGGTGGTTGCT
GAAGGATAGTATGCAGGGTACTGCAGCAGTTTTTTAAAATAAGACAACAATGAAGTTTGTAACATCAAACAAGGATTTCTTTTCCAAAATCTTTCTCTGT
AGCATGTGATGCTATTTGATAGCATTTTACCTACTGCAGAACTTGTTCCAAAATTGGAGTCAGTCTTCTCAAACCCTGCTGCTGCTTTGTCGACTAAATT
TCTGTAATATTCTAAACTCTTTTTTGTCATTTCAACTATGTTCATAGTAKCTTTACCAGGAGTAGRTTCCATCTTGAGAAATGTCTTTCTTTGCTTATCC
ATAAGAGCAATTCTTCATCCATTCATGTTTTATGATGAGATGGCAGGAATTCATTCACATCTTCAAGCCACACTTCTAATTCTAGCTCTCGTACTGTTTC
CATCACATCTGCAGTTCCTTCTTCCACTGAAGTCTTGAGCCCCTCAAAGTCATCCATGAGGGTTGGAATCAACTTCTTCCAAACCCCTGTTAATGTTGAT
ATTTTGGCCTCTTATCATGAACCAAGAATGTTCTTAATGGCATCTAGAASAGTRAATTCTTTCCCGAAGGTTTTCASTTTACTTTGCCCAGATCCATCAA
AGAAATCATATGCCAGCTATGGCCTACAAAATGTATTTCTGTATCTCATAAGCTATAGTTTTACAAAATGTCTTTTGAAAGTCAAAATTACTCCTTGATC
CATGAGTTGAAAAATAGATGTTGTGTTACCATACACAAAAACATTACTCTTGGACATTTCCGTCAGAGCTCTTGGGTCACTAGGTATATTGTCAATGAGC
AGTAACATTTTGAAATGAACCTTTTTTTCCTGAGCAGTAAGTCTGAGCAGTGGGCTCAAAATATTCAGTAAACTATGGTGTTAACAGATGTGCTGTCATC
CAGATTTTGTTATTCCATTTATAGAGCAAGATTAAATTTCAGAATGGCCAATAAGCATTTGCTTCAATTTTACCCCCTAACCAGAGAGTCTGCCTATTCT
TTGAAGTTTTGAAGCCAGGCATTGACTTAATCTCTAGCTATGAAAGTCCTACACGGCATCTTCTTTCAATTGAAGGCTGTCTCATCTACACTGAAAATGT
ATTGTTTAGTGTAGCCACTTTCATCAACGATCTTAGCTGGATCTTCTGGATATCTTGCTGCAGCTTCTATATCAGCACTCGCTGCTTCGCCTAGCACTAT
GTTATAGGGATGGCTTCTTTCCTTAAACCTCATGAACCAACCTCCGTTAGGTTCAGACTTTTCTTCTGCAGATTATTCACCTCTCTCAGCCTTTATAGCA
CTGAAGAGAGAGCACTTTGGTCTGGATTAGGCTTTACCTTAAGTGAATGTTGTGAGTAGTTTGATCTTTTATCCAGACCACTCAAACTTTCTCCACATCA
GCAATAAGGCAGTTTCACTTCCTTGCCATTCATGTGTTTACTGGGGTAGCAAGTTTTGTTTCCTTCAAGAACTTTTCCTTTGCATTCATAATTCAGCTGT
TTGGTACAAGAGGTCTGGCTTTCAGCTATCTCAGCTTTCAACATGTCTTCGTCATTAAGCTTAATCAGTCTAGGCTGAGTGGTGGCTGACACCTGTAATC
CCCGCATTTTGGTAGGCTGAGGTGTGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGTAAAACCTCATCTGTGCTTAAAAAAAAA
AAAAAACGTAGCCAAGCGTGGTGGCGYGCACCTGTAATCCCAGCTACTYGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAAGAAGCAAAGGTTGCAGT
GAGCCGAGATTGCACCACTGCATTCTAACCTCGGCAACAGAGCGGGACTCCGTTTCTAAATAAATAAATAAATAAAATTTTAGGGAAAGCTTAATCAGTG
TAGCTTTTGATTTAAAGTGAGGGCCGTGTGTCTCTTCTTTTCACTTGAACACTTAGAGACCATTGTAGTGGTATTCATTGGCTTAATTTAAATATTGTGA
TATCTCAGGGAATAGGGAGTCCCAAGGAGAGGGAGAGAGATGGGGGAATGGCTGCTCATTGCAGCAGTCAGAGCATACACCACATTTATCAATTACATTT
GCCATCTTTTGTCTTCTGCGGACATGGCTCATGGTACCCCAAAACAGATACAATAGTAACATCAAAGATCACTGATCTCAGATCATCATAAGAGACATAA
TAATAATGAAAAATGTTAAAATATTGCCAGAATTACCAAAATATGATACCAAAACACAAAGTGAGAATATGTTGATAGACATGCTCAACGCAGGGTTGCC
ACAAACATTCGATTTGTAAAAAACGCAATAGCTGAAAAGTAGAATAAAAGCAAAGCACAATAAAATGACAATGACTTATCTGTGAATAGGAGAAGCTAAA
AATGTAACGTTGGACCAGAGAGGGCTAGTAAGCAAGGCTCCAACCCAAAAAATAGTAAATAAAAATATAAGTCACTAAAACCCCTGTCTATTTGGGAGAT
CATAAGGTTATAAAACAAGTGACAACAGGACAGAAAAATTTTGCAACATACATGCCAGACAGTTACTGTCCTTAGTGTAAAAAGAGCTCCTGTAAATCAA
CAAGAAAGAGACAAATAGGAAATGGAAGAAAGTTGGCAAAGAAATAAGTTCTTCCAGTGCCTTGAGAGAATAAGTTTTCCTTTCCAGCAAACCTGGACAC
CTTAGGGGCTTCTGAACACATTGCATTGCTTCCTCATTCAGGGCTGCTGATGGGTGGATTTTCATCAAAGCATATTTTCATCCTGTTATTCTATTGAGCA
ATTGACCTCTGTGGGTCTCCATGGTTGATAGGCTAACATGTAACCTCATCATGGTATTTGATATTTAATTAAATGAGATAATTTGTATAATGCTCTAGTA
CAGTTTTAGGCCATGGTAAACTCCGAATTAATTCTGTTCTTCACTCCTTATTTATAGCATTGYTGAGAAAATTAGGTGAGATTCTGTATTTAGAAGAAGA
AAAGTTCCCACTTAATGATGGGGCTGCTCAATAAATGTTGGTCCTCTTCTCTAGAAACCCTGACTCATTCAGCACAATCCCTTAGATCTTCACAGATTTT
TAAATCTTTAATTAGGGCTCCTCCATCCTGGCTGAATGTTTGAATTACCTGTGGAGTTACTGGATGATACCARTGGCCAGGCCCTACCCCAGACAAGTTG
AATATGAACTCCGAGTGTGGGACCCAATGTATTTTAAAAAGTTCCACAGAATGGCTGGGTACGGTGGCTTACTCCTGTAATCCTAGCAATTTGGGTGGCC
GAGGAGGGTGGATTGCTTGAGGCTGGGAATTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAATTACAAAAATTAGCTGGGCGTGGT
GGTGCACACCTGTAATCCCAACTACTTGGGAGGCTGAGACATGAGAATCACTTGAACCCAGGAGGTGGAGTTTGCAGTGAGCCAAGATTGCGCTACTGCA
CTCCAGCCTGGGCAACAGGGCTAGACTCCATCTCAGAAACAAAAATTTCCACAGGAGATTGTAATGTGCAGCCAGGGGCAATATCTACCTGAAATGTCCT
TTAGTGTTCTTACAGTGGTGCCTTTATCCCTGAGGTGCCTTTTCCCTTCCACCTTGCCATCATCGGCCTCTCTGTGTATTAAGGTCTTAGTTTGAGCTGG
AAATAACCTTCTTTTTGGAACCCCTGCAGCATTTACATCCTTTGGTCTTAGAATAGCCTTTTTTGGTAATAATATCTACTTGTAATAATATCTTTATATC
CAGAGTTGTAAGCTCCTGGAGGCTGGGGATATAATTTTATTAATCATTACATTTTTGTAATGTGTGTTTCAGCATTTGACACATAGCAAGTTCTCAAAAA
CTGTTGAATAAATAAATGAATGTAAGTGAATGAGGATAGACATGTATCTTTACACAAGCCTAGAGCCAAACCATTCTCTGTGAGATCTGAAACCAAGCCC
CTGTAGTCTGTGTGTTATCAAACACAGTAGTTAGCTTCACAGACAGCCTTATTAACTAACTCATCCCACAGTTTTCAAAGAGCATGTATTTCTTGTCATT
CATGAAGTTGTTAGTTCTGGGGAAGTGTTGGACTTTGGTAAACACCCTCTCTTTCGGCTTCTCACTTGGATTTTCAATCCTGAGCAAAGAGACCACTCAG
GAGAAGAATCTGAGTAGTCAAAGCAGAGAGTTGGTACTAGATGGCGCTGGACTTACTAGCTGTTTGACTTTGAGCAAATTGCCTGTTAGACCATAAAATC
CTTATCTGAAAAATGAGATACGATACTACCACCTGTTTCACAGGTAAAAGTAAAATGAGACCACTCATTAAAATATATTTACTCTAGTGCCAGCTACTTA
GTGAACTCTCAAAAAATGATGGACTCCAGGAAATAAAAATTAGATTAAGATTAAAGAGTACAGGCTACTGTGAAAAGAATTGAGCATTTTTTAGTGGAAG
GAGGGAGGAAACTAACATTTCCTAACTACCAGCCGTGTCTGAGGCTGAGAACTTCTCTGGTCAACTCAGTGCAGAAAAAAATGGCAAAGTGTTTAAATAT
ATTACATAACATAACATAGCGTAATATAATAATATAGTAAATATAAGTATAGTGAATATAATTACTTTGATTACATAAGTATGATTAGTAATAAATGATA
GATATAAAATAGTGTTAATATAATACAAAATACTATAGTATAATACAATATAATGTGTATGTTTCTTTTTAAAACCTTTTCAGTATACGTTGAAGGAAAC
AAAGACCCAAGTTTAATASGGAAATGATTTTTGTAATAAAGTGAACAAACTGGATAGGTTCTCTTGAGCTGGTTACAGCTGTTTTCTGACTGAATTTTAA
TTATAAAAGATCTAGCCAGCTTCTATACACACTCTCCCTGCACAAATGTTAACTCTGGTTCAGACACCTTTTCTGCACCCAGTTATTCTCACTCATAATT
TCTTTCTCCTTGGGTTTTTGTTTTATTTTGGAACGGCTTTTTAACCTTCAGAARTACATTTTGTCTGGAGGACCAGAGYATCGATGTGATCCTACCTGTA
GATTCTTGGCAAGAGAGAAAATGTTCTTATTAATGCAGAAAGTCCTACCCAGAAGGAAGAAAACGTCTCACCTAGAAAAAAGTCATTATGTAGTTTTTTC
TGGGCTCATGGTTTCCTGAAGAGACCTGGTCCTAGTCAATTTCTCCTTGGTATTTTATTATTTTTGTCCATTTGAGGTGAAATCCGGAGGAAGTAATTAT
GAGGTTGTTTTAGGGGCACAGGTGGCATTTTCATGGATTGGCTGAGCTGACTGCCTGCAGTTGATTTGGGGATGGGGTCTACTTTAGGGTTTCACTGAGT
ACAGGTGGTCACAGATATCCACAGGTTCCAACCAGTGATGGAAAATATTCAGGGAAAAAAAAACAGTAAAAATAAYACCATAACCATAAAAAAAGCAATG
TAATAACTATTTACATAGCATTTACATTGTATTAGCTATCATATATAAGTAATCTAGAGATGATTTCAAGTATACAGTGGATGTTGGAAGGGTGTTCATA
GGTTGCATGCCGATACTTTGCCGCTTTATATAAGAGACTTGAGCATTCCAGGATTTTGGTGTTTGTGGGGRAGGGATGTTGAAACCAATATCTGCGGGTA
CCAAGGGACAATTGTAACTGGATTCTAGAGCACATTCTGAGTTTGTTGGCAGTTTTATTAATCATATTTGTATTAAAATGCATAACGAATTATAGAGGAA
AAAAAATAAACTCTACTCATTGTGGCCAGGCATCACAGAGAAGTGGGACAAGGGTGTGGACCAAAGAAACAGACCAAGGAGCGTGGGCGAACTGGAGGGT
TCCTGCCCATGTCCTGCCCACTTTCTGTYCCAGGTTTCAGAGGAGCAAAGAGCCGTTGCCCAAGAAATAATGGCTCAGCCATCTTTACCCTGTCTCAAAT
GCAAGTCTCTAAATTTGTTCCTCCTCCTTGTCTGGCAAGTCTGAGCAACGTTCCTGCTTCAGCTCTCTCCCCAGTGTTTGAGGCATGAACTGGATTCCAG
GTGATGACTTACCCAAACACCTCAAGGAGTTTCGCCTCTAGGACCTGGGTGGACCTTCACTCTTCCCACATCAGCCCCAGGCAGACCTCTCTGCACGATG
CCAGTTGCATCCATATTACAGCTGACATTTGCAGTTGACTTTACTTTGACAAATATTTTTCCATTTTTATGGTGAACCCAAAGAGTTCTATCCTCAGGGC
ATCTGCTAGCCCCTGTGGTATGTTTGTGTAGAATTTAAAAGGCATGCTCCCTCTGGTCAGAGGCAGCTTTACAGATGTACAAATTTGGGTGATAGAAGTT
TCCGTTGTCAAATTTAAAAATATATCCTATTCTTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGACGGATTGCCTGAGCTCAGGAGTTCAAG
ACCAGCCTTGGCAACACAGTGAAACCCTGTCTCTACTAAAWTATAAAAAATTAGCCAGGCATGGCAGCATGCGCTGGTAGTCCCAGCTACTTGGGGGGCT
GAGGCAGGAGAATTACMTGAACCTGGGAGGTGGAGGTTGCAGTGAACCAAGATGGTACTACTGTATTCCAGCCTGGGCAACAAAGTGCGACTCTGTCTCA
AAAAAAAAAAAATGTATATATATATATATTTATATATATATACACACACACATATAAATATATTTACATCTATCTATCTATCTATCTAGATATATACCTC
ATATTCTTGTGAGTGGACTGAGGCTCATGCCATGTGGAAAGTGAAGCAAGGGCTGGATATTTGATTCCTMCTTGTCCCCCTGCCATGCCCGTGCTCCTAT
GTGTATTATAACCTGTACCCCATAGATGGTTCTTGAGATTACTCCTCCTTTCATCTGGAAGATAATGTTCATCTTTTTTAGGGCCACCTTCATGAGCGCA
TGCTGAAGGTACCCATGTAAAAAGGCCATAAATGTTTGAAAAGCCTTCAGGTACTTTATAGGCCATGTTCATTCTGCAAATGTCAGTGGAATGTTCAGGA
AGTCCAACGTAGAGAAAGGCCCAGGATGGCTAGAATRAAATCAGAGATATCCAGTAGGACCTGATCACTGGCAGAACCCAGACTGGGGCCAGCTGATGAA
GCCAGAGAGGCATTCGCTTCAGGGACCAAAACTTTCATTCAGTAAGAGCGGGGGTCCTCAACCACGGGCCACAGGCCAGTACTAGCCTATGASCTGTTAG
GAACCTGGCTGCCCAGCAGGAGGTAAGTAGCAGGCAAGCAAGCAAGCCAAGCTTCATCTGTATTTACAGCCACTCCCCATCGCTTGCACTACTGCCTGAG
CTCCACCTCCTGTCAGATCAGGGGCAGCATTAGATTCTCATACGAGCATGAACCTTATTGCAAACTGTGTGTGCAAGGGATCTAGGTTGCATGCTCCTTA
TGAGAATCTAATGCCTGATGGTCTGTCACTGTCTCCCATCACCCCCGGATGGGTCCCTCTAGTTGCAGGAAACCAAGCTCAGGGCTCTCACTGATTCTAC
ATTATGATGACTTATATAATTATTTCATGATGTATTATAATGTAATAATAATAGAAATAAAGTGCACCATAAATTTAATGTGCTTGAATCATCCCCAAGT
CATCCCCTCACCTCCTCCTGGTCCATGAAAAARTTGTCTTCCATGGAACCAGTCCCTGGCACCAAATAGGTTTGGGACCTCTGATCAAGAGTGATAGCAT
TGTAATGTAACATTTTTGAAACTCAAAATTAATGYATAGAAGTCCATGAGAAGTAAAATGTTAAAGACAGGATCAAAATCAATGCAGAAAATCCATAATG
AGCAAAATATSAACATGTTTTAAAAAGAGGGCATCAGTATTACTGATTTCTTTCGTTTGACTCAGGCTCCAGTACAGCTTATGTTGGCACTGTGATGTAT
CCTGTCTGTATTTAAAATTTTTAGGTAGTGTCCATCATGACCTTTTTGCAGTAATTGCGATTTTTAAAAATATTGCGTTAAAATAGTACATATCTTGATT
ACTGAGTTTTTTGGTGCCTCCTTTGAGATGGTGCAGAAAGCAAGCTCCTCACTCATCTCCTCTAGCCCAGCCCCAATAGCTAACTCACTCTTAGCGCCTG
YCCTTGAGTGCTGTGTGAGCCATTGTGTTGCACCAGCTTGTTTTAAGTCCCAACAATCTTGTTCCATGGTGTCTTTTAATAATGGAAGAGCAAAGAGGTT
AAATGACTAGCCCAAGGTCTACATGAGGTGGAGGAGGAGGGAATCAAATTAGGCATAAAGCCTATTGCTTGGATCATGTTTAGTAACAAGGAGACGGAAG
GTGGAGGATATGAGAGGCTGATCAAGGTCGCAGGAGCAAGTGCAGGGCAGAGACAGGGTGGCAGCTCCCTGTGCCTTCTGGAAGCCAWCCCCCAAGCTGA
AGGAGCCACACAGAGCCAGCTGTCCAGGCAGGACCTCTCTGCGGTGACATTCACATGGCAGAGTTACCAAGAAGAAAGCTTGTGTCCCCAAGACTTGTAT
TTGAAAGTTAATTGCTTAACCTTTTCCCAAAGAATCGTCAGCAAATATTGCACACACCCACAAAAATTATTTTGCCTTTCATAAAGCACAAGTGGACATG
TCTTTATTTCTCTGCAAAACGAGCCGCTGCAGTGCAATCACTTGAAATGTAGGGTCTGAATGAAAATTAATGCTGTTGATGAAACCAGCAGTCTAAAAYA
TTACAGGATATTAGACTGAAAAGACAGTGGTATTTGCATCCTTTTGAACATTCGCCTGGATTTGCATAATGGAGATGTCACTTRTATTGCAGGAGAAAAA
TCAAGTTACCTGGGCTCCCATTAACTGCCTGCTCGCTACAGTTCCCGTAAGGGRTTGGAACACCACCTTTTTGAAATAGAAAATGTGAAACTCCTACATT
CACCAAGTGAGTCTTTAGTGAAACAGGAGTGAAAAGAATCATGGGCTATTGCTTGCTCCTGGCCTACAAGAACCAAAAAAGACACATTTCTGCTGGAGGC
GAAGACCAGGAAGAATTCACTGTCTGCATATGAATGTGCGTGAACTTGGTTGTCAGGAAATGAACAGTACATAACCCAACCTGGGACCCTTTTGGCCTCT
ACAGCTTGAAATTGTAACACCAGCTTCACTACCCGGTTATATTAATCTCATGTATTTTTGGTATCTGGTGACAGCTTCTTTCTGAAAGGCTTCTGTTTAG
GGCGGTGTGTGGTAACTGTGGGTGTACATCACAATCATCTTGGATGCTTTATAAAAATGCAGATGCCCAGGCTCCACTTTAGTGTGGAACCCAGATATTG
ATATTTTTTCAGCACTCTTAAGGTGATTCTAATGTGCAGCCTGCGTTGAGAAGCACTGCTCTAAAAGATCTCTGCTGCATTTTATCCTTCTCTTATTTGA
GGCTGTTTTAATGGAGTAAACATACAGGATTCAGCATAATATAAATTTAATATTAATAATGCCAGGGACATCTAAGGGCACATTCACCCCAACAGTAGAA
ACTCAGAATGGGGACAGTCTAGCTGGACCATTTATCAGCTGCTTGGGCTTGGGTACGTGGTTTAGCTTCTTGGTGTCTCAGTTTTCTCACTTTGAAATGG
GGATAATAATTTCCTTTCTGATCATATGTAAGGATTTATGACAATGTCTATCATACAGTTAGCCTGTAAATGATACGTTCTRTTTTATGTAACCATTAAA
ACAATTTCTTTGTGGGCTGTACTTTCATCCAGCTGGATGGATTTTAACCAAGTGATCCCACCTCTATAGCCAGCACCCAGATTAAGAAGCAGAACAAGWC
TCTTCCTCTTATAGCCCCTTCTAATCACCAGCTTCTCCCCAGAGGGAACCACTCTTCTGACACTTAACTGTACARATTAGATTGGCCTGTTTGGGGACTT
TCTACTGATGGACCCATGCTGTGTATACTCTTTTSTGTCAMCTTCTTTCAGTCATCAYGGTTAGTCAGATGCATGTTGTTGTTGCATATCGTTTGTTCAT
TCTCCTCCTTGCTGCTGTGCAATATACCATTACGGGAACTAACCACATTCAATTCTATTTTAAYTGTTAGTATTTACAATGGCTCCCTAACTGGGATCTC
TTTTCAAACAATTCACTCTTCAGTCCCTGATATGATTTGGTGCTGTATCCCCACCCACATCTCACCTTGAATTGTAATAATCCCCTCGTGTCATGGGAGG
CATCCAGTGGGAGGTAATTGAATCACGGGGGGCAGGTTTTTCCCATGCTGTTCTCATGGTAGTGAAGAAGTCTCACGAGATCTGATGGTTTTATAAGGGG
AGTTCTTCTGCACACGCCTTCCTGCCTGTGACCATGTAAGACGTGCCTTTGCCCCTCCTTTGCCTTCCACGGTGATTGTGAGGCCTCCCCACTCATGTGG
GACTATGAGTTCATTAAACTCCTTTTTCTTTATAAATTATGCAGTCTCAGGTATGTCTTTATTAGCAGTGTGAGAACAGAGTAATATATTCCCTCTTATC
GAATGACTTCTACACAGTGTGAATGAGATCAGATTCCTCTTCAGTGCGGAAGAAAACTAGACCTCTTGGTCCTGTGTTCAGGGCCTTTCTCGGGCTCCAA
GGCCCTCGTTGTGACTGTCCACTGTCCATGCACGTGCACTTTTTTTCTTTCTGACCATGCATCTTCACTCAGGGCCGCCTTTCACCTTGCTTTTCCTGAC
TGTTCTCTCTGCCTACTGCCTAGAATGTTTTTTTCCCATCTCTACGCAGGGAACATCTATACATTTCTCAAGATCTGGAGTTCAGTTTGTCACCCGTGAG
GAGCCTCCTTCCACTTCGCCTTTGCTAATCCATCCTGTCTTTTGTGCACTCATGCAGCATGTCACGCAGACCTTTGTTAAAGGTCTTATCAAATGGTATT
TGACAGTACAGGTCTATTTCTCTATGAGACTACCCGTTGTTCAAAGCGGCAAGCTACCAACCTGATCTCATTCATCTTTGCATCCTTCATGCTGATTATA
GTGATYGGCTGTTCTCAATTAATGAATGGAAGAATTAATGGATAAGTGGATAAATCACTTAATAAATCAGAAATCTTTTAGACTTTGCTGCTCTTCCTCG
AAGCATAATTCTGGTTAGAGGTCACGTAGTAAATATATTCAGGGGGTTCTACTTCTTCATCTTCCAGGGAGAATTGTCGCTTTTCTCATTCAACTTTTCA
GCTTATTGTACCCCCGCTTTGTACCCCACCTCACTCCCAGCTTCTAGATACCTGAGGTTTGGCGACCCAGCTACGAGACTGTCCCTTCCTTCCACCACCT
GATAGTGCAAAAYTGGGACAAAGTCATCATTAGGCAGCGTAGTTAGTAGCAAGATATTAGAAGTCCTCAGAATAGCATTTGCGTTTTCATATACTACTTT
GTTAACCCTATGCAAAAATAATCCAAGATAGAATTTTAGTAGATTTATTTCCACAGAGACCAAGATAGTTTTCTTGGTGGCCGTCATAACTGTTTGATGT
AACTAAAAATAAAACTAGCCCTGACTGCTAATAACTCAAAACCGGTGGAGATTAGAGCAAGGGAAATGTGGTTAATTCAACTCCAGCTTGCTTTGACCTG
AATTTATGCCAACTGGGACTTTTGCCTGAATTATTCGGGAAAATGCCCTGAGCTGCCCMTTAATTCATCTTGTACGTTTGGTCTCTTACATATTGAAAAA
GTGTGTTCTATGATTCTTTTCCATATAGCTAATGTCATCTTGACCAGGTCAGAGTTCCTCCAAGTTGTTTTTAACATACAAATTTATCACATCACGTTTC
ATCATGCCTGCTCCCAATGGTCATGAGTTATTGAATTTGTATAGGAGAGTTAATTTGTAATGTCCTTGAGGTAYCATTTTTCACTATTGGCCTATGTTGG
CCACCTTTGTTTACATTTAGTTCAGAAAGCACTAATTTAAGAAGTGTCAGGTTGTAACAAAACATAAGATCAATGCAGTTAGTTTCTGTTCAGACTTTAA
CAACTTGGTATCTGTCAACTGAAGCATGAACATAGATATGGGCAAAACCCAATTAATACACAGTTGTAATCACAGTGGGACTTAGTGGTACTTTCTCCTT
TGCACAGTGGGACTCTTAGAAGTGGCTTCATTAATGTTGCATTTGTAGTTTGAGTTCTGCTCTTCTTCTCATATTGCCTAGTTCTGGGCCTCCCTGTCCT
CTGTCCTGTGGCCACTTTTCCATGTGGGGACTTTTGGGGCCTGATGGCTTTTTGGTACCTCTGCTGTYCTGCTAGCTGCCAAGAACTCTCCATTACTCCM
CCTTTGATTGCTTGGGACACATTTTTAAATAAAGCAGCTTTGGGCCACAGCGACAAAAAGTGTAGAGCCATCTTTTTGTTTTGCAGCCTCTATTTCTGTT
TTGAACAGGTCTTTTCAAATCAAGCGGTAGGAGCTATACCTCTCCCAGATGAGGCCCATCACACACTCTCACTAAGTAGGCAATTTCTTTGGGGTGATAA
AAATGATTACAAATATTTGAATTGGAATCGTTGGGAATCTCATTAAAAACAACAACCATGATCAGGTGACATTGTATTTGTGAATATCCTCAGGGTATGT
TCAGAAAATCAGTGTTATAAGAGCTTGAACGATTATATTAGTTTAGCTTGATAGTGCTCTGTTTCTTTTCTCTTTACACTTGCATGGCATAATATATTAA
TAAAAATTAAGAAATTTTTAGTGAAACCAATGAATTTGCTTTCAGAAAACAGCATTTTACAATATCTATTGGGTAATTATATCAAATACTCGATTCCATG
KTTKCTGGTATTGGATAAATGACTAAATTTGTAATTAAACACATCTTTTGGACTAAAGTTACTAAACAGATAGTTGAGTCAATTACATAACAGCAATGGG
CATTACATTAGATTTTATCACAACAGTAATTACTGTGTGATGTTAGATTCTATTTTGAATTGCTCTTTCTAAAGATGGGTTATCAGCAACAGAATATGCA
TTGGGCTTTTATGAGCGGTCTTTGCACTACTCATATCTGATAAGGGCCAAATCCTATGATAAGAGGTCAGAGACTGGTCTGGCAGTAAAGAGCCTTCATT
AAATTATTTTTAATAGTAAGCATTTATTGAAGCTTATTACGTTAGAACCTGAAGAGTCACAGACATGTAACCTTCCCCATGCCTTCTGGGGTCCTTGCTC
TAATTTGGGAGATACAACACATAGAGAAAAAGGTACATGAGGCAGCCTTGCCACYGGAAGAAAATGGCACTCAAATTCCCAGCTGTCATCTGGGAAAGGT
CAATTGTTTTCTTTACAAAGCCACCTTCATAGCAAGACTTTATCCATGTCAGCAGTCTAGAATGTCGTCATCTTTATAGACTCAGAAGCTTGATTTGGTG
TCTATATTCAGAGGTTATTTCTATCTCAGGGATAGTATTTTACTAATCAAATACATAACAGATATATACATAAACCAGAATGAAAACATATTATAGTGAG
AAATGTAATTATTGATTGAACTGGATATTTGTSTTTTCATGTCAACTTATTCATTCAGAGCAGGTGTGGGAAAACAAATTTTAGTCATGAACCGGGTTGG
AAAGTATTAAAAACGAGGATTTGGTCATCTTAACAAAGTGTTTCTCAGCTACAGTTTCTTCCCAACAGAGTGGGAGCTAACAATAGGAATAACAATCAGA
GCCATAATCTCTAAGGGCTTCACTGTTTACCAGGAATTATACTATGCCCTTAGCATGTATTATCTCATTTAACTCCCATGATAACTTTTCATACAGGTAT
TATTGTTGCCCCTGTGAGCAGGAGGAGAAGATTGAAAAAAATCAATAACTACCCCAAGTTGTGTAGCTAGGACATAGCATCAAGGATTCCAAGCCAAGGA
TTATCTGACTTCTGTTTATAAACTATTTTTCTTTTAGAATTTTTTCCTTTCTTTTCTAAAATTGACATAAAATTGTAGTTTTTACTGTGTACGACATGAT
ATTTTAAAGTATCTATACATTGTGGAATGATTAAATCTAGCTAATGAACATATGCATTATGTCACAGTTACTATTTTTGTGTTAAGAATATTTTACATTC
ACTCTTTTAGCATTTTTAGGAATACAATATATTGTTATTCATTGTAGTTGCCATATTGGACAATAGTTCTCTTGAGCTTATTTTTCCTATCCAATTGAAA
TGTTCTATCTTTTGGCCAACATCTCCCTAACAACTCCCAATTCCCTGCAACCACCCCAGCCCCTGGCAACCACCATTCTACTCACTACTTCTGTGAGCTC
AACATTTTAGCATTCACATGGGAATGAGACTATGTGGTATTTGCCTTGCTGTGCTTGAGTTACTTAACATAATGTCCTCCAGGTTCATCCATGTTGTCAC
TARTGATAAGATTTCCTGTCTCATATAATATATACATATATATGTGTATGTGTGTGTGTGTGTATATATATATATATGTGATATTCATGTATTGATGGAC
ATTTAGGAACAAATTGAACAAGGGAAGTGAATGATCTTTACACTGAAAACTATAAAACACTGATAAAAGAAATTGAAGAAAACAAAAATAAATGGAAAGA
CATCCCATGTTCGTGGATTGCCGGAATAATATTGTTAAAATGCCCGTACTACCCAAAATGATCCACAGATTCAACATAATCTATATTAAAATATCAATGA
CATTATTCACAGAACTAGGAAAAATCATCCTAAAAATCATATGAAACCACAAAAGACCATGGATAGCCAAAGTAATCTTGAGCAAAGAGAACAAAGCTGT
AGGTATCACACTACCTGACTTCAAAGTATACTACAAAGCTGTAACAACCAAAACAGCATGGTACTGTTATAACAACAGACACATAGACCAATTGAACAGA
ATAGAAAACCCAGAAATAAACTCATGCATCTATGGCCAACTAATTTCCAGCATAGTTATCAAGAACACACAATGGGGGAAAAAAACTCTTCAATAAATGG
CATTTGGGAAACCGCATATCCATATGCAGAAGAATGAAATTGGACTCCTATCTGACACCATATATAAAAATCAACTCAAAATGAAATAAAGATTTAAATG
TAGGACTTGAAACTATGAAACAACTGGAAGAAAACATAGGGAAAAGTTCCATGACATTGGTCTAGGCAAGGATTTTTTGGACATAACCTCAAAAGCACAG
GCAACAAAAGCAAAAATAAAATGATTATATCAACTAAAAAACTTCTGCACAGCAAATGAAACAACAGGGTAAAAAGACAACCTATGGAATTAAAAGAAAA
TATTTGCAAACTGTACATCTGATAAAATAGAAAAAACAATGAATAATTGAAAAATGGGAAAAGGAACTGAATAGACATTTTTCTAAAGAAGACATAAAAA
TGGCCAGCAGGCRTATTTTTAAAATGCTCAACATCACTAATAATAGAAATGCAAATTAAAACCACAATGAGATATCACCTCATACCYGTTAATATGGCTG
TTATCAAAAAGATAAAATATAAATGTTGGCAAGGATGTGGAGAAATGAGGAACCCTTGCCCACTGTTGATGGGAATGTAAGTACAGCTATAATGGAAAAT
AGTATAGAGATTCCTCAAAAATTTAAAAGTAGAACTATCATATGATTCAACAATCTCACTAGGGTTATATATCCAAAGAAAATAACATCAATATGTCAAA
GAGATGTCTGCACTTCTGTATGTATTGCAGCAGTGTTCACAATAGCCAAGATATGGAATCAACCTAAAAATTCATCAGTGGATCAATGGATCAATGGATA
AACTATTTTTAATTGAAAGAATTAAAATTGTATCTTTATGAGCCTATTGATGTTTCMGAGAAATAAACTCTGGTCATTGAATGAAATCTCTGTGTTGCAG
AAACCTCTATAAGCTCCTATGTACAGATAATCTCACAGGGTAAATTTCTCTGACTAGCTTTCCACATTCTTAGCATTCTTTTCTCAGAGAACATGTGTAT
AGTCCTTGTATAGGGCCATAATTTTCAGATACACTTTTCCCACTCTTCTTTGTGCTTCTCTGTCCTYAGTTGCTTTTCTCATTTAATCTTTATAATTTCC
CTGTGATTTAAATTATACTTTCATTTTACAGATGAGAAAATTGAGACACTTATATTCACATATCCCACTCTAGGTCAGTCAGTAGCAGAGTCGGATGATG
CATTCTGTTGTTAGTGCCTGGMCAATTAAGTACCAAGAAATGCTATTGATTATAGGAGTTCATGGTAGGGAAGAATAAGGCTGATAAGTAATGAGTATAG
TTTAAGGGCAGACGTATTTGGAAAGGGGAGAGGCATAAGACAGGAGACTAGGAAATGGTAGACCTCTGTAGTTTATTAGTAATGTCTGCCTCGGAGTGAC
TTGGAGGATGTGGTAATAAAAGCATCTGCATGTACCCTTGTGGCTATAAGTTTCAGTTAATTAGTACAACACAAGTACACACACACACACATAAGTGGAT
CTCAGCCATCTAGATGGGACACAGAGTTTTTATGACAGGCAGGGTTAATGATTTCATAATGGTGAACTTTTGCCAATCTCACTACTATTTGAATATTTCA
CAACTTGTTCAAATTGTTAAGTACAACARCAGATTGCATGTACACCCAATAACACGGGTTTATGTAATGTACATGGGTAAATGTACATCTTCCAAGGGAG
AAAGGGTGCTCTGTGTTTCCAGCATGATGGAACYCAGTTTCAYGATGGATTGGCATATTCCATAGATGAAGAATAATTACTGGAAAGAATGCAGAGCCAT
TGGGGACTTTCTAAATAGAGGAATGATGAGATAAGATATTTGTTTGGGAAATYGCTCTGAAGAAGATGGAATGAAGGAGAGAGGGACTTCTGGAAGGCTG
TGGATCTATTTTCATTTTAATAAGCATGGGGGGAGAAGGGTAGGAGAGAGGATGGTCAACAGGTACAAAGCTACAGTCACATAGGAGGAATAAGCTCTGG
TGTTCTATTGCATAATAGGGTGACTATAGTTTTCATTATTATATTGTGTATCTGAAAATAGCTAGAAGGGAGGATTTTGAATGCTCTCAACACAAAGAAA
TGGCAAGTGTTTGAGATGATGGATATGCTAATTACCTGGATTTGATCATTATACAATGTATACATGTACCAAAAGCTCACATTGTACCACATAAATTATT
AATACAATAATTGTACGTCAATTATTATGTGTCAATTAAAAAAACAAAACTTAAAAAATAGTACTAATGGGAGGTGAAGAAGGTGTGAATAAGGGCAGAA
AGACTGAGTGGGACGCAAGTGAATGTAACAAATGCTGTTCTCAAATAGCTCTAACTTATCTCTCATGCACCAGAGCACTCTTGTTTCTCACTGAACACTT
TTTGAATGCCTCTTTCATGTTGGGCTTGGGCACYGTTCTCAGTGGTCTTTGTAGTTAGATGTTTTTGCCAAAATGTTGGAAAGAGTCCTTGATATATGGA
AACTGACAAAGACATAACTTCAACCAGTCAAGGAGATTTCAGTGTCAGATAAGGCTTTGATGTGAACATGCCTGGCACATAGATGGTTAATATATATCCT
ATGGATGAAGAAACATACAAATGACCAAAGGAATGGAATAGGTAGACTAATCGAAGGACATTCAAGATAGACTTCTAAATGCCCGAAACTTTTCAAAGTG
AGATCCAGACCTTTCTTGAGGAATGATGTTTCTCTACTCTGATCTGTACAGTTGGTGAAAATAAGAAAGAAGATGGAACCCAGCACGGCAGCTCACACTT
GTAATCACAGCACTTTAGGAGGCCGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTCTAGACCAGCCTAGGTAACATGGCAAAACCTTGTTTCTACAAAAA
AAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAGAAAAAAAAATTAGCCAGGTGCAGGGGTACGTGCCTGTGGTTCCAGCTACTCAGGAGGCTGAGGCGGGA
GGAAAGCTTGAGCCCAAGAGGTCGAGGCTGTAGCGAGCAATGATCGCCCCACTGCACTCCAGGCTGGGTGAGAGAGCAAGGCCGTGTCAACACAAGACGA
GACAAAATGAGATGAGACGAGAKGAGAAAAGAAAAAGAAAAGGGAAGAAGTGAGGGAGGGAACATCAGTGCAGGTAAAATATTATTTTTCTTAGAATGAA
ACCAAGCCAGCAAGAATAATAACTTTTGAAAGCAGTATTTCTCCCTGTGTAGCCCTTAGACAATAGGCATCAAAATTTCTTGAGTGTATGTGACGGATTC
CTAGGCCCTACCTCAAGCCTGCAAAAATAATCTCTCACAGAGAGAAAGGGAACTTTAAGCAAGCTCCTCATTTCCTTTTGCTGCAGTAAAAATTTCTAAG
AATCAGTGGGTTAGAGCTTCCTAAGCACTTAAAAACTCCAAGAAGTAAGGACCTGTTATTAGAGGTAACAAGTATAGGCTAATTTGATTTCCTTAGAAAA
CCTTCAAAACAGCAGTGTCACAGAATCACTCTTGATTAACCACTGGACTTGGAAAGGCCTAAGGTTGAGAGGCTCAGATGGCCCCAGMGTAAAAGCCCTC
AGTATGCCTGCTTCACTGAGCATTACATGAGACTGTTCCAGCTCTGTGATGATCAAATAAGAAAAGCTTGTGAGGATTTTCACTCTTCACAATGTGATGT
CTTTTCCAATAACAGCATTAATAGAGAAGTGTTATCTTTAGGGCATCTTCCTTGCTTTATGTATTTTGCAATAAATTTATATAATTTTTACTGTTTCTGA
GTGTAAAAGTAATGCATGCTTGTTTTAAAAATTATAAAATACTATAAAGCATGAGTAAAAATAACCAATATTCCTACCACCAAAAGATAAGCAATGTCAG
TATATCTCCTTTCAGACATTTTTAGTATGTACATATGCATATAATTTTACCAAAATAGAATCATACCATATACACTGTTTTGCAACCTGTTTTATCTAAT
CTGAATGGAGATAATATCTTTCTGAATCATGTATATTTTCATTTTTTAATGGCTGGAGAAGATACCACAGTGTGGATGTTTCTCTTTGTTTTATTATTCC
CTTATTTTGGATGCTTGCTTGGATTGTTTATCAGGCCATGAAAAAAAAAAAAAAGATGAATTCCCCAGAACATTATAAGGAAATCTAGGGAAAGACAGCA
STACCTTACCTTAAACTTTCTGGCTCATGTCACAAATCAGTAGGTTTGGACTCCTCATGCTTGCAGCACATACACTCTTGCTATCCTCATTCTCTCTAGG
AACCACCATTCTTCCCCCAAGTCTCCATCACTCATCTGCTTTTCCGTGGCATGTCATTCATCCTCACTAGAGATCATCTTACTTCCCTCGATTATTCTTT
GTTCATTCCACATAAGTGTATTGAGTACCTCCTCTGTGTAGGAATTTTAAAAGACCCTAGCTTTATTTAGTGTTTGTTAAAGCATCTCTTAACCTCCTCT
CATTAAGGATACAGATTCATGATAAAAACCAAACACCTTGACCAAAAGGCTAACTTGGAAAATGCCAGTTGTTATTACTGCAATCTCAAGTAATGAAAAT
TCATGGAGTTTATATAAGTTATTGCAGCATAACACTTTATCCCAACACTTAGTGGCTGAAAACAGTACATAATGATGAGCTCACAGCTTAGTGAGATCAG
GCGTCTCCTCATGGCTTAGCTCTGCTGGAGGCCTCAGGCTGTAATCACGATGCTGACCAGGGCTACAATCATCCCAAATTCAGATGAGGGCAAGGTCTAC
CTGCAAGCTCACTTGATTGTTAACAGAATTGAGTTCCTCATAAGTTGTCAAATGAGAGCCTCAGTTTCGTCACAGGAGTAATATCCCATCACTTTTGCCA
TATTCTGTTCATTAGATGCAAGTCACTAGTTTTAGCCCATACTCAAAGGGAAGAGATTACCCAAGAGGGTGAGTACCAGGAAGCTGGGATCATTAAAGAC
CATCTTTGAAGTCAAGGATATGCTCATAGAGCTGATAGACAGTGATAAAACCTCAGCAACTGACCAGAAAAGGTCAACTTAGAAAATGAGATTTTGTAGT
TTAAACTCCTGGAAATTCATAGATCATAACATTTCAACTTACTTTTAASTTGAGTGACATGAAGAGATAGGTCAAAATATTTACATTTGCTAAATGTGTA
CTTACTGTTCTTTATATAGAGCTTTGCAGCTTACAACATACAGTTCTSTGTCAATATTTTCATTTGATTTTCTCAAACCTGGAAGGGAGGAATGGAAGAT
GTTATCTCAAATTTAAAGACAAATGAACTGAGACCTGACAAGTTACCAGCTGAGTAGGTTACATCTTTCTGCCAGTTCATGTGTTGGTTCAACAAACGTA
TACAAACAAATCTTATGTGCTTGGCACCATGCCAGGCAGGGTCTGGGGACGCAGTGTTGGACAACATGAATGTAGTTCTGCCCTCCCAGAACCTAGTATC
TTGTCAAGATGAGACGTTAATCCAATTAAATCTTACATAAAATAAGACTGCAAACTTTAATATTTTCTAATGGTTGAAAAGGTTATAGATCATGATTTAT
GCAGTTTATATATGCAGGTTTACATATTTTAAAATTATCCAGCTGCATTCTTAAGATTTGTACATTTTACTGTGTATGTGATGTTTTTAGAACATCCTGG
GAAGGAAAGCTACATAGCGCTAAGGTAGTTCGTTAAAGAAGACGTGGCTGAGAGCCAGGAAACAGGGATTTAGATTTCCTCTTCACCAAGTGGCACATGT
GTCCTGAAAATGTTAAACTGTGGGCATTTTTAATATTGCACATGTTGAACTGATACATATAACTTTCTGGGGTTTTTTTTTTTTTTTTTTTTTTTTTTTT
GAGACAGAGCCTCACTCTGTGGTCCAGACTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCGGGGTTCGAGCCATTCTCCTGCCTCA
GCCTCCCAAGTAGCTGGGACTACAGGCGCCCACCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAAGATGGT
CTCGATCTCCTGACCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCAGGGATTACAGGCGTGAGCCACCGCACCTGGTCAGGGTTTTATTTCAGAACC
GTTTATTTCCCCAGTACATTTATCCACTCTACCTCCCTCTCTGTGATTTTCCATTTTCAGGCTGTGCCGTGCTGGTTTTACCCAGCACCTTGTTTAATGA
TGGAGCTCATCATTTCGGAGTTTTTCTCTCCGTGATGCTGCCACATGTGTCAGGGCTGTGTGGCTGTTACAGAGGAAGGGTCTCGTGGGGAGGGAGCAGT
GAAACTGGTGGAGCAAGCAAGGTCGGACYGACAGACTATCTTCTCGGATGTAAGAGAGGTTGTTCTAGGGAAGCCGTGTTCCTGGCGCTGGGAGGCTTTA
CGAAGAGTTTTTGAAATCTCCAGCTTGAACGTTAGTGTACCTTATTATGGCTATACTTGGTCTCAGGATGCCTTCTGCCCTCTTATTTTTTCCTTCTTTG
ATGTTCAAAAATTTACATCATTTCCTGTAATTTTTTTTTCTGTAAAGTTTTGGCAGACACAGAGTCACCACTATTCATTTTACAAAAATACATTTATGCT
TAATTTAAAGAAATAGGCAGGGAGAGGGGTGCTCTGGTTCTTGTTTTCTGGCAGATACTTAAGAAAATTGGAAGAAATCACTTTGAAAGATCAATGAGAC
TTCAATAAAGTAAATTTAAGAAAAAAAAAAAAGAGTTAAGGAATGAAGTAAAACTTGCTAGGGTTAAAATCCCAGCTAGTCCATTCCTTACCTTTCTTAC
CTGAAAAATGAAAGTGGGGATCGTCCTTASCTCATGTTGTTGTGAGTACTACGTGATGTAACACACAGAGAATGCTTAACAGAGTTCTCAGTGTAGAGTA
AGCTAACAAAGTTGACAGCTGTTGGCCTCATGACATCATAGAAAATGTGCCTAACCTAAAGTCAGAATCCCTAATTTTAAGCCCYGCTTTTACTTCCCGG
ATATTCATCCTTTATTGGTTACTTTTAACCTCCTGTTGCTTCAGTTTTCTAAATCTGTAAAAGGGAATGTAATACTGACATTATAGATAATTCCATGGCA
ATCAAATCATGGAAAATATGTAGAAGTTCTTGGCACAGAATAGCAGCTCTGTAAATATTAGTCGAATCTGACTTGTAACATTACCAGGACCCAACATTTA
TGTCAAGAAGGCATTTTTCACACTGCACAAATGGGGCTCCTTATATTCTAGAAAATAAATATCATGAAAGTCACAACATAAATGTCCTCTCACTTCTTAT
CCCTTAATTCAGAGCTATTCAACAAAGTCAATTTTGGGAAAATGTTGCAAACATCTGATATTTACCAGGAATTAGGGGAGAAACAGTGGATACTACCATG
GTTCCTGCTTTTAAGGAGCTCATAGTCTAAGAGTGGAGTCAGATAAGTCAAYAAGATTACAAAATAAATGCCAGAAGAGGAAAAAGTGGGAGACGCCAAG
GAGGCAAGGAGGGACACCAAGCCCAGCCACAATAAGAGTGGGAATGTCAGAGCAGGTGACACAGTGAGGTTGCTTTAGCTTCATGTGACAGATATCTCTA
ACTCAGACTGATCTAAACTTCAGTGAGAAAATAAATTTCATCAAACTGGGAGGTCAGAGGAAGGGCAGACTTCCAGGTGCAGTCACTACAGTTGCTCAAA
AATCTCATCAAGGTATTCGGTTCTTTTCATGTCTCTGATCTATCATGGCTGCTGTCATTTCCAGTCCAACAGTAGCTCTGTTTCAGTATCATGATGGCTC
CAGCAATTGCCCACATGATGGCATCAGAGAGACAAGGGGCATCTCTTTTATCTGTCATCTTTGGGAGGAGAAGGAAGGAAAAGAGAATTTCCTATGTTCT
TTTCAGCATGGGCCAGTGTTGGGGCCAAGGGAAAGCTTCCCCTTCACCTTCCGAAGGTTCACCTTCTGCCCTCTGAAAAAGAACTAATGTTAGGAAGATG
AATAGGAGAAAAGGCACACAAATTTATTTAATGTGTATTAGCCTAGAAAATCAAAGGAGGATGATCACGCAATAACCCAGTAGGTCCAGATGCTTATACA
ACTTTCTTCATTGGGGAAKGAGAGATTGAGTCAATGTGTCTGTCAATTTGAAGGGGAGTAAATAACTTTTAGGGGGAATGAATAAGCCCAGTGCTGAGAC
AATGGTTAGTAAATAATGTTCTCTTTGGGAATTGAACAGGATTGGAGACAAAGTTTGTCTGGGCTGTAGGTGTGATGTTTAATTTCCAGGCTCTTTGTCA
TAATAGGAGTTTTAATCTTCTGGTTAATGAAGTTACAGGGAGGGGGTTGAAGGCCATTTGTTCCTTTTGCTGGGTATGGTTTGTAGGTAGATAAGGAAAC
TTCAACGAACAGCCTTATCCTGTGCTTTGGGAGTGAAAGGTGATTGAAAGATGAAGGAATAGGGGGAAGGTCAGAGAAACCTTGAGGCTACTGCTTCAGT
TTAGCATATCTCAAAGAGCCATATTTTGGAGTGTTGTGTTCTGATCCCCAATACCAGAATTAAATCATCTACCCACCCTTAAACTACACCTTGGCAAGGG
CACAGGATTCTCATGACAGGCTTAGTGGGGCATCTTGGGTGACAGGTGCATTGAGGGGTTGACCTCCACAATGACCAGGGAAGGTTTTCCCAGGGGATCT
CAGACTTTGCCTATCTGATAGGATGAATTGGGCTTTTTCTAGTCTCTATGTGTTAGAGGTAGACAGAGAAACATCCCAGGGTGTGCAATGGTATTGAGCA
TAAAATATTTTAATTATTCATGGAATTCCAAGTACTTTTATTTGACTAGACTATGGGGGTAGCGCAGAGTCCAAACTAGTAATAGGAGATAAGGCTGGAG
AGGTAGGTGAGGGCTGGATTATGAAGACTCTTACCAGCCATAAGAAATGTGGGTTTTATCCCACAGAAACTGGGAACACGCTGAAATATTTGAAGCTGAG
AAGTACATGAAATTGGATGTGTCAGTTCCATCTTGAACCATCCACTAAATGGAAAGGGGAGTGAGGCAAGATTGGAATCTTGGGAAAAAAGACTGTGTTG
GTAATTTTAGAAGGAGTCTGAATGGGACCATATAGCTGGTTAAGTGGGTGGGTTGGGGAATGAGAAGGAGCTCAAGGTGATTATTCTGTTTTTTTTTCTG
GGATTTTCAAGCTTCCCTAGAAGTCTACATAAAAATAGATATGGGAAAATCAGAATCTAAGAGCTGGCTACTCAGATTTGATGTAGTTAATACAGAATGA
CTATCAAATAATAGATATTTGTCCTCGATACATATGGGATCTTGGCCAGCTGGATAAATAAATGAGTATTGTTTTAATAAATGCCCATTGGAACAGGTTC
TTTACTGAAAGGAGGAATAATGATAATATTGTGTTGTACGAGAGAGTGTGGATGAGATATTTATAAGCAAGGCATTCAGCAGGTGTCCTGTGGGTTAATA
GTCTGGGAGTAAATTCATGTTCATGTCATGTAATAACCTTGGTGAAGCTGCTAGTAAGAGTGAATTAGGCTTCAGTAGCAAACTCTCTCCCTCTCTCCCC
CACCTTTCCTCTCTCTGTCTCTCTCCCGTATGTGTGTGTGTAGTGTGTAGTTTATTAAGTCTTTAAGTATTTTATTCATAGCAGAACTTTCCCACTTTTC
ATATTTTACAAAGGAGCATTTTATTTAAGCTCCAAGTATGTGTAATTGCAATGAGCCATATACGCATTCCCCACAGACCGGGAAGCTTTGCCACCTAAAA
CAGAATGCTCTCAATGTAAGCCCAGGTGAGAGTTCTAAGGGGCTGTCCTGGGGGGACTCTCCTGCTCTGAAGGGGGCCATCCTGGTCTAGGGGAGCTGTC
CTGGTTTGGGAGTTGGTGGGGCTCTCCTTGTCTGAGAGCTGACTCATTTGTAGGCATCCTCATTTCAGTGTCAGAAGGACTGTCCTGCTGTTGATGACTT
CACTTTACTTAAGCATGGTTCAATCAGAAGCAGGGGAGTGAGGAAATTCCTTAACATATTTATCAACATSTGTTTCTAGGCATCCAGCTATGTACAGGAA
GGAACTGTTGACCACAGAAAGCATCCTGCTTGGGCATTTCTGTGCAATGTCTCTTTGCTGGAAGGACCATTTTTAATCTACCCGTGTAGCCAGTATGTCC
TGAGGTTTCCATTCTAATCCCAAAATATGTATATGTCATGGCACTTTTGGAGGGTTTTGTCTTTCTTTGTACAGCGTTGCGGTATTATCATAAGAAAAGT
CTAGAAGTTGSAATTATATCTTCCAAGTTGGCATCCCAGTTCTTCCACGTAGCAGCTATAACCTTGATGCAGTGGAATACAGGCGACATGGCATGTGACT
TGGAGCCAGATGGGAGTTTGTATCTTAGTGCTGCCAATTAATAGCCATGTGATCCCGGGGGCAAATGATGTTCCATTTTCTTTCATCTGTACAATGGGAT
TAATACTACTTACCTTAGGATGTTGGTGAACAGATATTATACTGTAAAGCTACCTAGTAGGAGGCCAAACGCATAATAGATACTCAATAARTTGTAGCTG
TCGCAATTATTGACCTCCTGGACTCTGTGTCCTAATCTACAACATAGGAATAATGACAGTGCCTAACTTGCAGGTTTGGTGTGAACAATACAGTGATCAT
TCTAATCTAGAACAGGGTTTCTCAATCTCATTCTTGGCACTATTTTCATTTGAGGCTGCCCTGTGCACTACAGAATATTCAGCAGCATCCCTTTMCTGCA
CCCCCTAGATGGGTGTAGATRCCTGTAGCATTCTGCAGCCCAGGTTGTAATAACCAAAAATGTCTCCCGACATTGCCAAATATTCCCTGGCTGGGGAAGG
TGGGGAGCTAACGTTGTCACTGGTTGAGAACTACTGTTCCAACATATAGAAGAAAGTATTCTATAAACAAGGGTAGGTACCGTATCTGTGCTATGGTTTG
GAGGTGGTTTGTTCTGGTTCCCACCAAGGCTTATGTAGAAATTGGATCCCCAGTGTGGGGGTGTCGGGAGCGGGGAGGCTAGCAGGAGGTGTTTGGCTTA
TAGGGGCAGATGTCTCACAAATGCTGTTCTGGAGTTTGAGTGAGTTCTTGCTTTTGAGAGCCCAGATTCATTCTTGTGGGGATGGATTAACTCCCCTGAA
AGGAGGCTGTTATAAAGCAGGATGCCCCTTGGGTTTCATTCCCTTGGCATGTGCCCACTTCCCCTTTGACTTTCTCTACCTTGTTGTGACAGCTCAAAAG
TCCTCCCTAGAAGTCAGCGCCGAATCCTTGAACTTCTCAGCCTGCAAACCTGAGCTAAATTATAATAATTCTGTAATTATTCATGGAATTCCAAGTACTT
TTATTTGACTAGACTATAGGGGTAGCACAGAGTCCAAACTAGTGATAGGAGATTAGGCTGGAGGGGTAGGTGAGGGCTGGATTATGAGGACTCTTGCAAG
CCATGATAAGAAATGTGGGTTGTATCCCACAGAAACTGGGAACCCACCAAAATATTTGAAGCTGGGAAGCACATGAAATTGGAAATTAGACTCTTCTTTG
GAAATTACCCAGTCTCAGGTATACTTATAGCAACACGAAATGGGCTAAGACAATCAGACCTATCCGTAAAGTTGTGGAAAGAAATGCAGACAGGAAAAAG
AAAATCATGTTTGTTTCCTGAGCCTCTAGATAGTAATGCATACATGAGAATAGTGGAACAAATTAAACCTCTTTCGGCATGAATAAGCTCTTCAAAGTTC
AGCTCCACATATAAGCTACAGTTGGGTGGGGCTGTCAATTTTCAGGAAAAACTTGTGGTAACAACACAGGGTTTGCAGTCACTTCTGCTATAAGCCATGG
TGTCCTGGGAATGTAAGTGGTAACGCCTGTTCCCTACCCCCGTGGCTGAGGAACACCAGCCCTGCCCTATTCCTCTGTGGGKGATTGTGGCGATAATTCT
AGTTCCCTGGAAAGCACACATCTGAGATTCAGCATGATGTATCTTATCCCCAGCACGATTATTTTCCCCCTCATTTTTTCTTAAGCCCTTCTCCTGGGAA
GATAAAGGTCAACTTAAACCTGAGCTCCAGGCAGTGCTACCTCACTTCCTCTTCACTGATCAAATCTTAAAGCAACAGGAATGTTCCAGAATTCCTCTAA
GTGAATTGCACTTGTCTGTAGTTGTGTGGGCAGTTCTGAAGTAGCTCTCACCTCACATTTTAAGGCAATTTTACTAATAGGAGCACCAAATCCTTCAGGG
CCAGGAAAGCTCTATTTAACCATGAATTTCCTCCCTTGGGGTTTCGTTATGTTTGGTTACAAAGTAAAATAAACCCACACTGCTTCAGAGTCTGGAGAGG
CACAGGGGCATGATTTAGCTATGTTAATAATAGAAATTGAAAAGTATTTTAAAAGATAACACACCACCTGTGCCTTCTTTTGATTGTGAGACTAAATGAA
GAAGAAATTTTTTCCCCGGAAATGTTACTGCTCTGAACAGCATTTTAGCACTATTATCCCATGATAACATCAGAGCGGGGGAGTAATTATTTGCCGGTAA
TATGCGTGCTGCCGTTAGCTGAATATGGCAGCACTTCCATGCTGAGATCTATGAAGTATAGATTATACATTTCCATGCTCATTCAAAATATGTATTTTTT
ATGATTGAYGAGGACATTGCAGCATGCCACCTTCATAATTTGCATTTTTAAATGGTTCTGTGTGTAAATCATTGGCGTGTATTACCTCAATCAGAAGCCA
AATAACTAATTGTAAAAGCTCTAAAATATGCTTTTCTTAAATATGTTGTGCGGGAATCAGAGATAAATATACCTTAACACATTTTTATATTTCATTACTA
TTCAATATATTTTTTTTGTTGTTCTAACRAAGAAAACCTCCAGCTTTTATAATACCATTACCGTCAAATTAAAGACTAGCCTTCATCTTTCCAAACATAT
ATTTTGTGCTTTGCTCAAAGCCAGGAATGACCTGGCTCATGAAGGGGTTCATTAGCAAGAWGCTTGAAGGAAAGGAAAAATTTGCTAGTTGMTCGAGAAA
ATATAAATGATGAGGCTAAACTCATATTTGAGATGTTCTAGATTTTCCTGGTGAGATTTCAAGGTCCAACACAGGATTCTAATATTCTCAGAAGATCTCC
TACATGAATTCCTTCAAACTTGAGAAYTACATTTACTCTCCACACAAAGGGAGTAGGAATTTTTCAGTATAAGGCAAATGGCAACAAAAACACACTAGAG
ATTACAAAGCCAACGTCACTATTATTTTTAAAAGGCTTTATGAAAACATTAGTGCTGAGCCTGGGTGATTTATGGCACARATCCATGGAAAGAACCTTTC
CTAAGCCCACATTTCAGCTAGGGCTTTGCCTGGGAGAAAAAAGGAARCCCTTGCTTCTGGAAGGCTCCCCTCACCGCCGTCTCCATATGTGGGAAGTTCA
GAGCTGAGGTAAAATGAGGAAGGAGAATCAAGACMCTGGAAACATATGCCCAAGAGGGAGCCTGAGAATCTTTGCAGAAGTTGAAGTTGAAACAGAAGTT
TACTAAGATGCTGAAACTTAAAGAATGAAAACCATCAACTAGMAGAGAGTAGGGGATTCGGGAAGCCTCCAAAGAATTCACAAGAACATTCAGATGAAGG
GAAAGAGGGCACCAGGTCACACTGGGTTGGTTGCCGAGGGAAATCCCTCCCCTTGTGTCCTAAATCATTCCCTTGTCACCTTGTTATGCCTCAGTCCTCA
GAACCACTCCTTACTGTGGCTTGGTGCTTGTCCCTCCATATCGTAACTCTGTTTTATATTCTTTTGACTTTCCTGTTTCTTCTGCATGTACATGAGCCTC
ATTAGCATTGAGCTTGTGTCTGTTTTGTTTGCAGCGTTATACCGAGTGCTTGCCTACCAGTGGGCTCCAAAGGGATTTTTGCAATGACTAAGGTGGAAAT
TGAATTTGGGAGTACTGGGATCTTTGGGAAAAGATCTATATCGAAGTCAGATTTATATGGTGAGAGCACTGTCTTCAGCAGATGTCCTTTGAGGGTCCAG
GTCAGTCTCTGGAGGCACTCCCCTCTCTCCCTTCTTTTTTTTTTGAGACAGAATCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTC
ACTGCAACCTTCTGCCTCCCAGCTTCCAGCAATTCTCCTGCCTCAGCCTCCTGAGGAGSTGGGATTACAGGCGAGTGCCGCCACGCCCAGCTCATTTTTG
TATTTTTAGTGAAGATGGGGTTTCACCATGTTGGTCAGGCTGATCTCGAACTCCTGACCTCGTGATCCACCCACCTTGGCCTCCCCAAGTGCTGGGATTA
CAGGCGTGAGCCGCCRCGCCCAGCCCCCTCCTTCTGAAACTTGGAATGTCCTGTTGCAATCCTTAGAGCACCTGTACTCAGGGTATGGAAGCACTCATGA
GGACATGAGCCTCAGCCTTCTGGAAAAGAGGACTTTTCGCTTGCTATAACTCCCATGGGATTTTTTTTTTTTTTAACTTTGTCTTTGTGGACTTCAGAAG
TCCTTCCAGACAAATGGCTGCTTTATTTGTGAGGTAGTGATTTATATCCCTGGCAGAATAATCCTGGGTGAAAGTGGCTCTCCSTCASCATAAAGGAATA
GCAAAACATTTATGAAAGGGAGACAGAGCTTCAGATGAGTGGGTACAAAAGTTCCGCACAATATCAATGGTTGAAAGAATATGCATATATTAATTAATAA
TTCCGACATACTTCTTTTATAAGGTCCCTTATGAAAGATAGACTATTTTCCACATTTACTKTGCATTGGAAGTGACAGATGAAATTAATATGCTTCATAA
ATTGCCATCACAGAGGGTCAATTAACAAGTGAACTAACCTTGTGAAAGTCATTTTGAAAGACTAGTTATGTCTGTAATATTCCCTGTCAAATTAGGTAAA
AGTGGGAAAATTAGATGCCTGTCAAATAAATAGCAGTCTAAGATACGGAGTAATTGCATTTTTGATAAGGTAAATTAGTTTCTGTGATTGTTGCTTGAGA
ACAGAAAATGAGTAGTGGAAATAGTAAAGATCTGAAAATTCTGTGTGTGGGTACATGTGTGCACATACATACAAATATATGTAACAGATGCATATTTGTG
TGGATGTACACACATACGTACAGAGAGGCAGAGAGGAGAACACTGAAGATTCAAATTGGAAGTAAGACAGGTCCACACTCCTTAGCTAAACCATCACCTC
CTCTTCCACCAAGGCTATTGCCTTTTAGGTCCTTCACACGTACCTGGCCAGCTCCCACCTTTCTGCCTTTGCTCACTTGGCTTCCTTTTTAGTTATGTCT
GCCTCTACTTCATTCCATCAAAATGAACCCTGGTGCTTGTACAATGGGTTGGACAGTGTTTGGGCCATGCATGGACCAGCACAATAGTGTCTGCTGCCCT
AGAGCTAAAATTCCCTCCAGGAGAGAACAATAACCTAGGACCCTGAAGCTGAGATTCTTGCAGGTGACTTGCTTCTGCCTGCAAAAGGACTAGAGAAAGG
AACCCTCCTAACAAACCCAACTGAGCCAGTTTGGAGGCTGAAGGAATTAATGTAGCAGTCAGATCACATGGCTGTTTTCACCCAATCCACCTGACAGGAA
GTTCCAGAAAGACCACACAACACACACAAAGTACTCCCACATAAAGGTTATCCTCTTCCAGGACAGATGTGGTGGGAGCCTCCCCACTTCCTTCCTGATG
TAAAAGTTCCATATGGAGTTTTACTGCTCTCCTGCTCCTCTGACGTCTCGGTTCTGTTCTTCAAAACTCTGCCATGTCTGTGATGAAATTAAATCCCTGA
CTGGGTCTCAAGTTCCTACTTGTCATATGAATCAGTAGAGCTTAAAATTCATCTGAAGTCTTGGTTGTCTGTCCCCATTCCTCCATGACCTCCTTTGGGG
CTTGGAGCAAGTCAACTTCTTATCAGGATGTGTGTCCCGGTGTGTGAAAGGAGGCTGCTTTGCAGCAAGGAGATTGTTAAAAAAAAAAAATTAAAAAGTA
AAAGTCGTTATATTTTTGTGTATACCAGAGCCCAGCTACACATATGTAATGTAGAGAAAATACTTTCTCTCCAATCCTTTTTCTTCCTCTGAGTTTTCTC
CTTATACCTTTTAATTGTCAGCGAATTCCCAAAGGCATATGTACTGAATCTGCATGTGGATTTTGTATATACATATATATTCACAAATGCATATGCTATG
ATTTGTGATTCCCATTTTACAGAGTTTAAAACTGAGTCTCAGTGAGGGGAAGTAAACTGCATGCAGTTCATGCAGTTACTAACAACGTGCCTTGTTGTTC
TGTACATAGCATAGGAGGTTGAACCCAATTAGTCTGACTCAAGGCTTGTACTCTCTATGATATCCAGAACGCTCTTTTCTTCAAAGCCAATTTTATTCCA
GCTTGGACAAATTCTACGCATCTTCCTAATAAAAGAAGAACCTTGCCAGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGT
GGATCACCTGAGGTTAGGATTTCGAGACCAACCTGACCAAAATGGAGAAACCCCGTCTCTACTGAAAATACAAAATTAGCCAGGCGTGGTGGTGCATGCC
TGTAATCCCAGCTCTCGGGAGGCTGCGGCAGGAGAATCACTTGAACCCGGGAGGCGGAAGTTGCAGTGAGCTGAGATTGTGCATTGCACTCCAGCCTGGG
CAATAAAACTCCATCTCMAAAAAAAAAAAAAAAAAAAAGAATCTTGGGAGACAGTGTGCCTCCACTTTTTTGTCTATTGGTTGTATTACAAGTTCTTTTT
CATTTTCTGCCCTTGATTGCACAATCTCCTTCTCTCCCTGGTCTGCCCAGTGCAGACAGATACAGATGAGCCGGCTCAGTCTGTGTCCATACAGATGCGG
ACCAGCTCACAGTACTGCTCTTATGTGAGCTGCTCAGAGTTCTGTGATTGAAGGACAGGGAAAAACTGCCAACTAAAGCAATAGAATCATTGGATGGACA
CTGGCCATATTTTGCAAATCTAAAAGCTGACAGCTGGGTCTCAGAAAGGACAGGAGCAAGTTCAGTTCTGGGGATCCCAGCGAGCATACTGTCTCTTAGG
CAGAACCAATGGAATAAGTCCTCTCCAACCACCTTCAATTCATGTGCCCTTTGTTTCTTGGTTCCTGTTGCCAGGAGAGAGCTTCTGATTGGCTTAGGTT
GTAWCATAAGGCCACCCTTCTTGGGCAGGTTTGGAGGAAACAACACTGTGACTGACACCCCTGCCAGGTCTACAGGGAAACACAGAGAGGTAATGGCCAA
AGATAAGCAGAATGCTGCTGATGTTAGAAGAGGGACAGGAAAGCTAGCAAGTCACAATCTATAGGCATCTCCCACACCATGTAATTACATAAAATAAAAC
CACAAAAGCTCAATCACTTGTCTCTTGCCTCCAAACCTAAATTGCAAATCTCCATGCAAAAGTCAGCAAAAATAAAGGCAGCAGCTTGTGAGTGTGGGGA
AGGCCAGGAGAATTTGACCTCAGAAAATCTGCACTTAAATCCCAGTCCTGGCACCATAGCTGTGTTGCCTTGGTATTAGATACACCATTCCAAAGCCCGC
TGTAAAGCATAAGTTTTCCCAGTGCTTGCAGGGAGTCACTAGAAGGATCACATGAGATGCAGCTTCTACAAGTGCATGGGGAATCAGCACCCACTCAGCT
GAATCTGCTGTAGAAAGGATTGGCAYCAGGGTTGCAGATAGCAAGTGAAGCTCATGCACATGCTCATGAGTTTGCAAACTGTTTTAAACACTTGTAAAAA
TCTCTCCTGAGCCATTTATTTAAGTAGAGCTGGGAACATTGAATAAATGACAGCCCTTTCTTAAGGGGGAGTCTTTGAATTCTGAGTGACTGGCAGATTT
CACAGCCATTGATATTTTGAAAGGTGCATTGGTGACTTGAAATCCTTGAGAGCAGTTATCTTTGAAATTGTGGATTCTGCAAATGTAGATATTGATATCC
AACTCAATATATGCAGCTTTCTCTATATACCATTCAGCATATGTTAGCCATCTGTCATAAGCATCATGCCCCTAAACTTTCAGCTATCCAGAAATCTAAC
AACTGCCTTTTCAGTAAGGTTACTCTGTGCTAATAATTGAATAAAGCAATATAAGATTCAGCCAAATAGAGTGTGTCTGCCATTTTTAGAGGTTCTCAAC
CCAAAGTTGAAGGGCCCCAGGCCATGGTAGATTTTTAAAAGAAATTTTGACATGGGCAGTGCCAATAAATGACTCTCAAGAACCCTTACCATTGTAAAAA
AAAAAAAAAAAAAAAAAAGGGAGGTCCTTGGTATTACCAATTTAAAATGTGAGCATTCTAGAGGGACAAAACCTATAATGAATTACAATTGCCTTTTTTC
CCATTATTTTAGTTAATGTTGTTAAACAATAGTGTCTGGAATTGGCTAAGGAAGAACAGTTACTTGAAATATGTGCTGTTTTGAATAAACTGATCCTGTC
TTAATGAGCTTTTATAGGGTTTTATGCATGACTTACTACCCATATTACATTGCTAAGGTAACCTACTTAAAACTGTGGTGCAATATGATGTTTTTCAGTT
CATTTGTCTGTTTCATTAATGATGGAATGTATTTTCCAGCACRCAAATCCTATTTATGATCAAGACATTGTTGTTCTGTATATCAACTTAAACTCTTACA
CTGTGTAATTTACCTGCTGTCAAATCTCATTTGAAGAGCTGTTGTCTAGCATTGCTCTAATCAAAAATATGCCCCACTGTAATGAGCTATGCATGTTGTG
TCTAGTATTATTTATTTTTAATAAACTTTATTCACTCCCAACACACTTTGGGAAACGGACAATCTATAATATCTTCTCTCTTCTTCTTCTTTTTTAACCA
ACTATCTTTCCAGCTAGGGTGATGATTCACAAAAATGTGATTTTTTTTTCTTTCAAATGTGTCTTAATGGGTAACAGCTGATTAGATAAATGTACAGGAG
AAATATAAAAATAATTTGGTATTTAAAACAAGACTAATCATTAATAAGACAAGCAGTTTTCTAAACTAAAATGGCTAGAATAATATGTGAAATTAGACTT
CCAGGACAGAGCACCCTCTGTGATTTGAGGAGCCCAGCTCATTCATTAAATATGATCAATATGCCTCATCATGGAAAGACTATTCCCTGAGATGGCATGT
CAGTGTGTTAAAAAAAAATACGGTATTTTTTTCATCTACACTCTGTAAAGACAAGCCCACAACTTCATATGGGGCTCAGCTGAAGGTCAGCCATCTCTTC
CRACACAAGAAAAGAAAATGGCGGTGTTGGACTTAATGAGACATGATTCTGTACTATACTTAATAGGCGATTTTACTGATTTCATGGGTACATCATGCTG
TAGTTTTCTCTTTACATGTTGACTTTACATTCCAAATTCCACATTAGGTGCAACTTCATTCTAAGAGCTTTGGGATGCTTGTATGTGAAACAGGTTTTAT
GCGCAGCTCTTTTCCAACCTATTCTTCTTTAGTCAGTGGTTCCTGTGGGTTCTTGGGCCTTTGCCTTCCTGTCTTCAGCCTCTTCTCTGAGCAGTGTGAT
ATAGCCTTGAAAAGACTTGGGAGGTGGGCAGAACGGAGTTTGAATCCTGGCTCCACCCTGTGTGACTTTGGACAAGGCACTTATATTCAACTACAAAAGG
GTCACCCATGCTGACGTTACAAAGTGATAGTGAGGAATAACAGAGTTACAGAATGCAGAAGAACAACCAGCACAATAGTAGCCTGTCTGTGTATGATGCT
TATAATTGTGATCATCATTTATCCTAAGCTCATATGTGGAAGCCCACATAAGTATGGCGTCTTACCAGTARACTCCGCTGAATCCGAGGAAGGGCCTTAG
GCCTTCTGGCAAGGTAACATTCAGAGTGCTGAGAATGCTGCTGCAAGTGGAATTTACTTATCAGAAGGTCAGTTAATTCCACTAAACTCTGATGTCATAT
CTAGCTTGTACAGGAGGCAAACAAACAAATGCTAAACAGTAGTGCAGAACCTTGGAGTTAACTGTGTGCACATTTAAACCTCACCTCCAACCCCACTGTG
TGTACAGTAATTATTTCCAGTGAAATCACTGCTTTCTTTCCGTGAATGACTAACTGGTGATGATATTGTCTGGTATGATAGTAACTGCATAAGACCTATA
GGCACATAGTTCATCACCAATTTGTGCTTTGTGCAATATTTGCTTCGGGGGAAAAATAAAAGAATCACCAAATATGTTACAAACTCTGGATTTAAAAAAA
AAAAACAGCTCTAAGAAAATTTTTAWTTTTTTTAGTGTGTTCTCGCTATCTTGGAGTTATTTCTAGTCATCGGGATCTTGCATGATTTAAACAAGGCCCT
TAGGTGACCATCAATTTATATCTAAATTATTAGTGTGCTTGTTAYAGTGGGTGAATGTTCTTTCAGTTCATTTGCTCATTCACCACCAGGATTCTACACC
AGGAACTATGCTAGGTTCTAGTGTTATAGGGAGGTTAATATATGGGAGTATATATTGAAACACATTGTATTAGTTGATTTTCACACTGCTCTGAGAAATA
TCCAAATAACCCAAATTACTGGGTAATTTATAAAGGAAAGAGGTTTAATTGACTCACAGTTCTGCAGGGCTTAGGAGGCCTCAGGAAGCTTACAATCATG
GTGGAAGGGGAAGGAAACACGTCCTTCACATGGTGGCAGGAGAGAGAAGTGCAGAGAGAAAAGGGGAAGAGCCCCTGATAAAGCCATCAGATCTCATGAG
AACTCACTGACTATCACAAGAAGAGCATGGGGGAACCACCCCCATGATCTGATCACCTCCCACGAGGTCCCTCCCCAAACACGTGGGGATTACAATTCGG
ATTTCAATTCAAGGTGAGATTTAGGTGTGTGACACAGAGGCAGACCATATCACACATACACACACATACTGAATAATTGCTACCGTAATTGATACACTGG
CCTAGTGGAGGGGGAATCTAGTTTGAACTATTTCATATGTGTCACGAGCCTGGATTTCCAGCATCATAAACTGGGAGAAACGGGGAGCGATGCAAAAGAC
AGTCAGTGCTACCGCTAGAGCTGGAGATCAGCATGGTGGGGGATGCTGGCTCCTAAAGCAGAAGTGGGGCAAATGTAGGGTAGTTGGATGCAGTCACAGA
TGTGCTAGGGAATGTGGTCTAGGGAGCACAGTAGTGAGTGCTGCTGAGGGTGGTAAGGGGTTAATGCTGCAGGAGAGAGGTGAGATGCGTCACAGGCAGC
TCATTATCTGATGCAGTCTATGCAGAGTTTAATGTTAGAAATACCAGCTGCGAGTGCCCACACTCTGCATGGCATTCTGTAATGCATTTGATTTTACTCC
TCACAGCTAAGATATTAGTTGGGTTACTTTTGCTGTAAAACAAACAACTTCAAAATCACACTGGCCTAAAACAACAGATATTTATGCTTGTCTTCCACAT
GTATGTTGATCAGCTGAGCTTCATCTGGGCTGGGCTGGGCTGGGCTGGGCTCCAGGCTGATCTGGGTTCTGGTGGATTCCACGGCTTCGCCTTTCTTCTT
GAACAAGCGGCTACCCATCTATGAGAACATAGCAGAGGGGTTCCTAACCTGGGCTTTGATGGCCCCCTGGGATTATTTGGCAATGTCTGCAGACATTTCT
GGTTATCACAACTCAAGGGAAGATGTTGCTATTGGTATCCCATGGATGAAAATCAGGGTTGCTGTGAAACATCCTACAATGCCCAGAAAAGTCACCCACC
ATTAATTATCTGGTCCCAAATGTCAGCAGTGCTAAGACTGAGAAACCCAAAAGCCCAAGGCAAACTTCTATAAACTTATCACTCATCCTGAACTCGAGTC
TGGAAGCCCACATAAGGTAGGCATGGCATCTTACCAGCAAGTTCTGTTGAAAGCCTTTGCTGGTGTCACATCTGCTTGAATGTGATACAAGCAAAGACTT
TGAATGTGGAACTTACCAGCAAGCTCCAAGGTCAAAGCCTATGCTTGTGTTACATCTGCTTGAATTTCATCAACCAAAGCAAATCATAGGGCCACATCTA
AAGTCTTTCTGGTTGGGCTTTCCATCCTGGAATCCACGTTTGCTGGGGGCACTTCAAGCTACATGGCAGTGAGCGCCAGTCAAGTGCTGCAAGTAAGAAT
CCAGTACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTGCTAAAAATACAA
AATTAGCCAAGCATGGTGGCATGCACCTGTAATCCCAGATACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCC
AAGACTGCACCATTGCACTCCAGCCTCAGTGACAAAGCGAGACTCTGTCTCAAGAAAAAAAAAAAAAGGAATCCAGTCTGCCACATCAATGCTCCCCACT
CCCAAGTGGGGAAACTGAGGATCACAAATACGAAGTAATCTGCTGAAAGTCACCCAGCTTTTAAGCAACAGGGCGGGGACTAGCACCCAAGTTTTACTTC
ACATCCTTCTCAGGTGGACTGCACTGCTTCTGCTTAGATTTGGCTTGTAGAGTTTAGCCAAAGGAAAAACCACTGGAGGAAGCTGTAGTCAGCCTCAGTT
TTCCCTCTGTGAAGTAGGGGTAATAATGATACCTATCCCATAGAGTAACTAGAAAGATTGAAAAGATCCAGTATTTGTAACACAGTGTCTAAAACATACT
GAGCATTTAATAAGCTTAAGCTGCTGCTGCTTTTGCCATTGAGAAAAGACAAGATTATGTAGGGCTCATTTCCAGTAAGGAAGGTCTTACTGTGTTTTCC
TGAGTGTGGGTTGTCTAGGGAAATTGGGCCCCTTTCTCTTTTCTTTAAACTTTTAAATCTAATCACTCCATTTTCTTGTGTCTTTTTGGTGAACTCTAGT
ATTTGGAGGCTTTCTGGCCTTCAGCTATTAATTAAAGTCATTTCTACTGTTAAAACTGAATTATCTGTTTTTCTTCTTCTAAAAGCAATGAACCAGGGAT
TCACACAGACTTTAGGCAATCATAATCTTCTAAGGTTTGATTTGAATGAAAGATCCCACATGAAACCTGATTCTGTCTGCTACACGTAAGCTGTTGCTTT
CATTCTGTTACTCAAAATTGGCCTAGGACATCTAGAAAGGAATCTCTGTGGCACGTTGATGCCTACTTAGTGGCAGTTCGTGGCTTTAATGAGTCTGTTA
CACAGTGCACCTTCCTCCTGTGGCCTACGGAAATCGAAGGAGGGATTTGCTTGGTGGGTTCCAGTATGTATTTCTGAGTCTCAGAAGGTCTGCCAGGAAC
AAATGGCGAGGCACTGGTATTCGGATAAAAGCAGTTTTCTCTCTTAGTGACCAGACAATGGTGCTGTCTTTCTTTTGAAGTCACTGCTGGGATTTTATGG
GCATAGTTGATCGAATCCTGTGCTAGATGCTAGAAAATCAGAGATAGGGAAGACCTTGTCCCTACCTCTGGAGAGCTCACAGGAGTAAAAAACAAAAAAA
GCAAAAATATAATAATAATAATTCAATCATTATTCATTAAGAAATCTATGAAAATATATATTATACAAAATATATATATAACATATATATACATAGACAC
GCAGTAAAATAGATGCACCTGCAAGTGAAGCTTAGGCATGGGTTGAAGGATGAGTAAAAGTTCTTTGGGCAAACATCTTACAAAGTAATATTCTTTTCTT
GCTGCTTGTTGTCTCTTATAGAACTATAATTTAGAAAGATATTTTGTATTGTGATGCTCATGTTTACCTACTAATGTAATAATTTCTGTTGTCTTTTAAA
AATATTGGCATGTTTGGATATCAAATATTTGACCTCTAGGATTCTCTTTGGCATTCCTTCCGAAGGCGTTTATTCCTCGGTGTTTCTCTGCCAGCAAAGG
TAGCATTCCGGTTTTCCTGTTTGAGATGCAGACACCTAGATGTCATCAAAGCCAGAGACGGAAAGCAGCTGCAGCTATATCCAGTGAGCTGGTTTCTTTT
TTGCCAACCTAAGAAGGCTTTGTTGTTGTTGTTTCTAGGCATGTGAAAAACAGGCCGAATTGAATATCGGAGAACAGTAAATCACGACTTTACGATTTAC
TTCTTGGAGAGAAAAATATGAAATATTGAAATCCTCAATATTTTTCATTTAGAACAAGGAGAATAAGTTTTAAATTACTAAACAAAACTAGTGATAAAGG
AGTGTAGCGAGTTTCATAAAACATCATGTCATCTATGCAAAGTTGTGACAGGAACGGAGAAGGAAAAAAATATGCTGGGTGAGGAAGACAGGTGACAAGA
AAGGAGTTGTGAATGGCATGAAGAATGAGAACACAGGGAAAGCTTGAATGGGCTCTAAGTGAATAATCAGGTCATAGCTAAATTTCAGGGGATAAGTGAA
CAGCTCACTGTTTCWGTTCTTCACCTGCTCGTTCAAAATTTTCAAAAGCCCAACGTAAATGAAATGATTAATACAGCCCACAGACAGTAGACGTTAGGCA
TCATGGAAAAACGAGGTTCTAAGTAATTCTAGGATTATTCTGCAGCACGTGACACAGGTGGTCACACCTCAGTTAGACTTGGACTGTCTTGGACTGCCCG
TTTGTTTATGAGACAGGGTCTCATTCTGTCACTCAGGCTGGAGTGCAGTGTCATGATCATGGCTCACTGCAGCCTCGACCTCTCAGGCTCAAGTGATCCT
TGCATCTCAACCTCACRAGTAGCTACGACTACAGGTATGCCCCACTATGCCTGGATAATTGTTCCTTTTTTTTTTTTGGTAGAAACAGGGTCTCATTCTG
TTGCCCAGGCTAGTCTCAAACTGCTGGACTCAAGTGATCCTTCCAACTCGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGTCACAATGCCCAGCATGG
ATTGTCCTTTTCAGACCCAGACCAAAGAACAGGACTTATTGTCCCAAGACCAATCTAGGARAAGTATAAGCTGTGTTGTCACCCAGGCATTGCTAGAAAG
TGGTAGGCTGGACACAGGATGAAACAGTTGCCTGATTTTAAAGTAAGAGAAATAGATCAAAACAAATGACAGAAATCAGATAATCGTCTAAAAATGTTTA
TTACCTATGAGAGTGTTTTCTTGCTCACCTCAATTAGAGCAAACAACCACTATTTCTACAAGAACAGATTTTTCCCCCATTAAAATATTCTGAAGATAAT
TTTGTTCAGATCATCAGTGCTGCAAGTCAAAAAAGGAGGAAATCGGGCTGCTTGTGAAATTCTCTTGTCATTAGTTCCGGTTGCTTATTAGAGTGTGTAG
ACCAAGCGCAAGGAATGAGAAWAAGCACACATCACCGTCAGCCAACAATCAGCCACAAAGTGGAGCCCATTAGATCTCTGGCTTAGGCTACGAGAGTTGG
AAGTTACCGAACAGATTTTAGGGATGGAAGAATTTAGGAACTGCTGTGGAATAAACCTGAGAAGAAGAAAAGAATCCCAAGACCAAAATCTTAGTCTGAA
TGTGAAGTCTTTGGAAAATGCTAAGTAATGACAAATATCTAAAGGAAACTGAGACCATGTGATGCTACCAGGTGATAGTTTAATGAGAACTGAAGGTTAA
TGAAACATTTCATAGAGTTCATTGATGAAGTATGGAATACAAATAGAAGGAGATTGAAATTAAGGGGGCCTTCCTGATGTCTCACTATTTTGAAAACTAG
TTTGTGCTAAGACTGAGCTGGCAGACACAGACATCAATCTCTTGTGAAACAATTGTCTATTATTAACGTGCTAATTCAGGTCAGATGGCCTGGAATTAGT
GTCTCAAGTTGATTTCCTTTTACACCACTTCCTTTGCAGAGCTGGACAGAAAGCTCGTGGCAATGTGTACTTTAATGGAATTAATTAGTATCACAGCAAG
TYGATCAACTTGGAGGCACGTCACTCACCCTTCATTGGCATCGGAATTATTTAAGTTGGCGCGGCCTCTATGTTAACTACACAGTTATTTTTCATGCAAW
ATGCTATGGCATTAAAGACAACGACTAGGCTGTCATACCTCCTCATTTTTTTTTCTGGAAAATATGGAAATCTGGAATTTTTTTTTTTTTTTTTTTTTTT
GAGACGGAGTCTCACTCTGTCGCCTAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCCAGCTCCACATCCTGGGTTCACAACATTCTCCTGCCTCA
GCCTCCTGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCATCGTGTTAGCCAGGATGGT
CTCGATCTCCTGACCTCGTAATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTCTGCGCCGGGCCAGAAATCTGGAATTTTGTTA
AACACTTCTGTCTTAAGGTGTCAGCAGACAAGTTTTTAAACATGTGAGGACAAATTCTGTGTGACTATCTTGGGGCCAGATTCAGTCCATGGAGCACTGG
TAGGTGGGAGCCTGGTTCAGAGCCAGAGTGAGATGGTGAGAAGGAGCCACAGAGGTAGCTGTGCAAGGCCACTGGAGACAGCAGGGACTTCAGCAGGGCT
GGCTGCAGACTGGAAGTCACTTAATAAAAATAACTAGCTTAAGGAAAACAAGGGGCTGTTACTAGGAAGCCCAGAGCCCTGGGATCGTTGAGGGGGGTCA
GGAGCACAAAGAGGAGGGAAACTGAGGCCTCCAGCTACAGACACATTATGTCGATGAGATTAGAGCCTTTGGTGTTGCCGGCTGGTGTCTCTCTGGAGCA
GCACTTGCTACCCTCCAAGGAAGTGGAAATGATKTGCGAGGCAGAGCGTGTGCACCCTGCAGTGAGACCATTGCTTCAGTGGTTATGGAGCAGCCAGAGA
ACATAAATGAACTGCTAGCTTTAGGGGATATTACTGTGGTCTTRTTTCTCCAAAACTAAAACGAAAAGTTCTAGTGCACTCACTCGGTGATGATTCATTT
GTTCATTGATTCATTTCTTTCATTTGTCATTCAACCAACAAATTAATGAGCACCTCATATACACTAGACACTGGGGAGACAGAGACAAAGCCATTTTTAC
ACCCAAATAATTGAGGTTCTTATGGGGGGGTGCAGCAGTATATACCTGCACACAGTGTCCCACGGGCCATCATAGAGGTCTCTGCAGTGAGCAGGGGGTG
CCCAGATGAAGGATGAACTCTGGGACTGTCAAGAAACCTGGCAGAAAAGGCAACATCTAGACGTTCTTTTACTAATGTATTCAGGTTTAAAGATTCATCC
GGTCTATGACTCTACAGTCATTATAATGTCAGGACCATCTCCTACTTTCTCAGTACCTACAGGTTATAATTAATCATTGGTGTTCACAACAATGATTCCA
AGGCCGTCAGGAACTAGAACCACCTTCTGATTTTTTAGAGAAGGATGACACTTTGTTATTTAATTGATACTGAGTGTTTATCGTTGACTTTTAATTCTGA
GAAACCTGGCATCCCCATGGAACATACTACTCTGAAAAGTACTTTCATACCCATTTGTTTGATTGGCCCCCTACCCTGTAGGGGGCCACAGGTTACTCTT
GCTATCGTGCAAATGAGCGAATGGAGGTGGTGGTTAGCCCACGGTCCCAGAATCAATCAGCTACACCTGTGGCAGATTTAGGATTAGAATGAAGACCTCC
CTACTTCTTTCTTTCTTTCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCTTCCTT
CCTTCTTTCCATCTTTCTTGTTTTCTTTTTTTCTTTTTTTTTTAAGAGGGAGTTTCGCTTTTTTTGCCCATGCTGGAGTATAGTGGCACGATCTTAGTTC
ACTGCAAGCTCTGACCCGCCTCCTGGGTTCAAGTGATTCTCATGCCTCAGCCTCCTGATTAGCTGGGATTACAGGTGCCTGCCACCACATCCGGCTAATT
TTTGTATTTTTAGTATAAATACGGTTTCACCATGTTTGCAGGCTGCTCTCAAACGCCTGACTTCAGGCGATCCACCTGCCTCAGCCTCCCAAAGTGCTGG
GATTACAGGCATGAGCTACCGCGCCTGGCCAAAGACCTCTCTACCTTAAACCTCTGGAAAAAAACAAAAACAAAAATAAACAAAAAATAAAGCAAAACAA
ACAACAAACTAGAACATTTTATTTTCTACCTGTCTGAATAAGCAGTTTTCTTCACCACTATTCCATACAAAAAGTGACCACCATAGTACAGGCCATCACA
CTCTCCCTGCACCCCTCTAGTAGATTCTTCACTAGCCCATACAGTTTCCTCTTGTTCCTCTTTAGTACATTCTTTCTACATGTTTCAGAAGGATCTTCGA
AAATTCAAATCTGAGATAGTTATTTCCTCACCATCCTCCCTTACCTCTTGACCCCTTAGAGGTTTTAAACAGCCTTATTAAGATATAATTCACACACCAC
ATAATTCACCCATTGAAAGTGTACAGTTCATTGGTTTTTAGTATATTACCAGTCATGCAACCATCATCACAGGTTTATTTCTTCTTCTTCTTCTTTTTTT
TTTTTTTTGAGGTGGAGTCTCACTCTGTTACCCAAGCCGGAGTGCAATGGCACAATCTTGGGTCACTGCAACCTCCACCTCCCAGGTTCAAGTAGTTCCT
TGCCTCAGCCTCCTGAGTATCTGCGATGACAGGCACCTGCCACCATGCCCAACTAATTTTTGTGTTTTCAATAGAGACAGGGTTTCACCATCATGGTCAG
GCTGGTCTTGAACTCCTGACCTCGTGATGCACCCGCCTCGGCCTTGCAAAGTGCTGGGATTACAGGCATGAGCCACTGCTCCTGGCCTCTGCAGTCAGTT
TTAGAACATTGTCTTCACCTCAAAAGAAACCCCATCACTCTTGGAAGTAGCATCCAACACCCCCTCTTTCCTATCTCTAAACAACCACCAGTCTACTTCT
TGTCTCTGTAGATGTGTCTGTTCTAAACTTTTTTAATGAAAGGAATCATGCAACACTTGCCCTTCCATGAGTAGCTTCGTTCACTTAGCAAGATGTTTTC
CAGGTTCCCCCATGTTGTAGYTGATGTCAGAGCTTCATCCCATTTTATARCTGAGTAATATTCCACTGCGTGAATATATCACGTTTTGTTCATTCATTCA
CTGATGGACAGTTGGGTTGTTTCTACCTTTTGACTGTTATGAATAATACTACTTTAAAATGCGTAAGTGTTTTGTGTGTGGGGACACATGTTTTTATTTC
TCTTGGCTATTTGTCTAGGAGTGGAACTGCTGCATCATATCATATGCTMACTCTAGGCTGAACTATTTGAGGAACTGCCAGACTATTTTCCAGTTTTAAT
GCTGTTACGTTGCCCTTAGGAAAGAGATCAAAATGCTTAACATTGTTTACAGGGACCCATCTGATTTGGCCCCACTCACCTCTTCAGGCCCAGCCCATGT
CACCTTTCCCACTTCTGTCACTCTACTTGGTCCCCCTGGATTTTGTGCAGTTTTTCAAAGGTATGGGCATTTGCTAAGGCTSTCTCCCTCCTCTTCCCCA
TGAACTTCCATCAGACAGACCTTCTCTGAACAGCCTTCATCCGCAATCTAAATGGGATCTCGTTATTATATTCTTCCATGTTTCATAAGTTCTTAAGTGA
TTCTTCTTTAATCCCACTAAATCRTGACTCCAGATGAGTTTAAGAAATCTTAAGACTATTTTTTAATTATTACAAACCAAAAGTCTCACACTGAACTTGA
GCTACAATAGGGGCACCTTATCTATCTGTTGAATGAATAAATAACAATGAGAGARGGGGAGGGAGGAAGAGAAATTAGTTTAAGAGGCCTCAGGTTGCCA
CGTTGGGTTTGAAATCTAGATGAAGATTGACATTTCACCCCAAATCTTTAACTACTTCTTCCTTTTTCACTGAGTAATATAGCATATGGGTTGGAAAACG
TTTTCTGTAAAAGGCCAGATAACAGGTACTTTAGGCCTTGCGAGTCATGCAGACCCTTTCTGCTGTTACTCAGTTCTGCTTTTCTAGCACGAGAGAAGCC
GTAGACAGTAGATACATGAATGAGCATAGCTTTATTTTAATACTTTATTCACAAAATCAAGCAGCAGCCTCGATGTGGCCTGTTAACCATAACTCGACGA
CCTCTATTCTAGRGTATTTTGATACTTGATACCTTCACRCTCTCTGTTTTCTCTCCCCAGAATCCCATATTTCCTTCCACCTTTGTTCTCCTAGAAGATT
CTTCTCAGGGAACAAATACCTTATTTAGAAAATTTTCCTTGACCTGCAAAACAGAATTAAACACACTCTATCTCATCACTGAATGAGGCATATTCTTATG
TTGCTGCATGCCTTCGGCTGTGTTAAATTAATTGAATATGGACTCACTTACAGAACGAAGTCCACAATGTCCCTTCTTCTCATCCAGCATCAAATATGTG
ATATGCTCAGTAAATGCTAAACTGAAAGAGAAAAAAGGTGACATGAACCAAATGGATTATCTATACAAAGTACGCAGGCAAGCAGATGATAGAATCAAGA
CTTTAAAATAGAGGGAAGGAGAAATAAGTCATCTGAATTGATAGCAATACCAGAACACAGTATTGGGGATAAGCCCAGTGTCAGTGTGCAGGGTCTAGGT
CTTTTATTCATCTTTCCAGAACATGAGATTTTTTTCCTCTTTTTAACCAGAATTTTTCGCCGGACAACAACAACAAATTACTTTATTCTTCCTGGAAATT
TCTTGGTAGCAATGCCTCTGCCAACATGTACCATACCCATACTTCTTCTATCCCATCACTATCTTCTCTCTTACCTGGGGCATATTCTTTAAGGGGTAGC
ATAAATCATTAGTATCTCAAGGATTGGAGAAACATCATTGTCCTAATGATTCACTACCATGGACACCACACTTGGTGCTTTTTTTTTTTTTTTTTAACTT
TTGAATGAGAATATTGCTCTGAACTCTATGGGAGTACAATATTTGTTTATGTGTGACCTACAAGAATGGCAGGACTATATAGTTCAACCGAACAAAATTC
AGAAGAGAAGGGAGATGACTCATAAATTATCAGTGGGACTTACACTTTGCCTGGTAGTGGCATGCTTGCTGTGCCCTTTGCTGCACAGTCTGGGTGGTGG
GTAGGACTATATTTACACTTTGTCTCTGCATGGCCCGCAAACATGCAGAAGGGATGTTATGAGCAAAGGAACAAGTCACTAAGACACTTTAATTCTGGGC
TGGCCAGGACACTTAAGAAAGTTGGATGACACTGTGCCAGGAGAGTCTAGAGGTCCTATAACAAAGCCAAATGCTGGCTGGTTGTCATGTGCCCTGTCTG
TACTCCTAAGCCCAGAACCTATGCATCAGTCTGCAGTGGGGGTATCTGGCCAAAGGAGAGAAAATGGTGCAATATGTGTTAAGTCCAGAAGAAACTAACA
GAATGCATCTCATCCGGCCACAGTCATGTCTGGCTGCTGAAGACCTCTTTTGTGCACAAGTGAAAGAAAAGATGTTGAGCTAGGGTTGTAAGAATGGCAG
AGGGATTTATGTAAGAAATATGAGTCTATTTCCATGACTTGTGTCATTTATAAAGGCAGGGACAGATGGAATCACTTCAGTGAGCTAGAATTTGTATTAA
GTTCTACTTGCTTTATTTTCCTYCATTTACATATGCTTATTAGTAATACACGTGTGAGAACAAAATCATATAYTATCAGTCACTGCCACACAATGAATAA
TCCCATGTAAAATATTTTTGCACACTTTTGAGAGTGACAATAACTTCACTGAGCTTGGTTTCTTCCTTTGAAACAGGCAGACAGGCTTTTGCTGAATCTT
TAATGCATTGTCTTTTGGCTGGGTTCATTCACCTTCAGGGAATTCTCAAAAGACAAGCGTCATTTCTTTTTGTCTATTGATCTGTCCTCCAGAAAAAAGG
GACTTCTTTATAAACTCAAAGCCCTTAGCTAATTCATTGTTCATTTGTTACATTTATTGAAAATCTACTGTTTGAAAGGCACTTGTTCTATTGTGCTATG
GAAACAAGACAGACAAATTCCTAGTCGTTGAGAGCTTACCTTCTAGTAGGCATTACAGACCAGAAAAATGGCTGTTCAGTAGGCCTGTAGCAATAAGAGC
CGTGAAAACAAGGTTGGGATTAAGGATGAGTAATGAGAAGGAGTTACTCTTTTTGATCAAGAAGTCAAGGAAGGTTTCTGTTTTGAGGACAGACGTGAAT
GAAATGAGGGAGCAAGTCATGAAAACTCTTTGGAAAAGAAAAAAGTCTTATAGGTGAGGAACCAGCAAATGCAAAGACCCCAAAATAAAAATTAACACCT
GTTGGCTGGGCGCAGTGGCTTACGCCTGTAATCCCAGCACTTTGGGAGTCCGAAGCGGGTGGATCACGAAGTCAGGAGATCGAGACCATCCTGGCTAATA
CAGTGAAACCCCGTCTCTACTGAAAATATGAAAAAATTAGCAGGGTGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGGGGCAGGAGAATG
GCGTGGACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATGGCACCACTGCACTCCAGCCCAGGAGACAGTATTGTCAAAAAAAAAAAAAGAAAAAGAAAA
AAAATTGAGACCTCTTTTGTGCACAAGTGAAAGAAAAGATGTTGAGCTAGGGTTGTAAGAATGGCAGAGGGATTTATATAAGAAACAGAAGTCCATGCTT
GGAATCTCAGCTGTTTTCTAGTTCTCAGAATTTATGAGTGAGATTAAAAGAGAAGCTTCAGAGTGAAATAAAAATTAGCTTAGCTATCTTGAAGAACACC
AAGAAGGAATATGTGGCTGAACTAGAATGATTTTGGGGAGAGTGAAATGWTCAAAGTTACATCCAAGGTTCACATCAGGACCTTGCAGGCCACAGTGAGA
ACTTAGAAGACAATTGACATAGGATGATTGGAAAGCAGAATACTGAAAGGCCAATTTACRYATTCAAAGATCGTGTGGAAACCTGTGTGGTGAATAGAGT
GGGAGGACAAGAGCAGAAAGAGCAACTCAGAAACAATTTACTAAGCTGGGTAAGAGATGGTGGCTTGGCYGAGAAGGTAACCAGCAGATGATGAGAGATG
GTCAGGTTCAGGTTGTARTTTGAAGATAYAGCTGATGGAAGCAGCTGATGGAGTGGATGTRTATAAGGAGCATTGGGCACCCTGTTAGCAGGCTTTAGGC
TTCTTTGACTCAGGCATTGTACCAACATTCACCTAGTAGCTGATGTTGATTCCTCTCTCACAAAGACAGTATCTTAGTTTGAAATRCTTAAGAAAAAAAA
ATGTACCTGATCCAAGGGGAAAATGGAGCTCCACACTAGCAGGGATAAAAGGAAGGTGGTTCTGATTATTTGTGCTGCTCATTTCCATGAAGGTCTTGTT
CACAGTAAGCAAGTTTGTCAAACCTATGCCTAGGTAGTCAAATTTCCCTAACCAGGGATAGTCTCTACTGGGCCTTAGCACCTTCCATTCAGTAATAAAA
TGAGGCATCTTGAGCTTCCCCGAAGCACAAATCTCTGGGCCACTGTATCAGAATTATGTGGGATGAGTTAACTCACAGATTCCGGAGAACCTACTAAATG
CTTGTGGTTGAATTTCAGAAATCTGCATTCTTGCAGTTTTCAGATGAATCCCATGCAAATTAAAGGGTTTCTTGTTTTGTTTTGTTTTGTTTTTGAGACA
GAGTCCGGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAGTCTCAGCTCACTGCAACCTCTGCTTGCTAGGTTCAAGTGATTCTCCCACCTCAGCCTCC
TGAGTAGCTGTGACTGTAGGCACGTGCCACCACACATGGCTAATTTTTGTATTTTTTTTTTTTTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGC
TGGTCTCGAACTCCTGACCTCAGGTGATGTGGCCACCTCGATCTCCCAAAGTGCCGGGATTACAGGCGTCAAATTAAAGGTTTTTGATTGTGATGAAAAA
CACACATAAAATCGATCAGCTTCATCATTTTAAGTGTATATTTCAGTAGTGTTAAATTTTTTCATGCTATTGTGAAACACATCTCCGGAACCTTTTCATC
TTACTCATCTGAAACTCTATAGCTACCCTTTGCCCCCTTYCTGTGTCCTTGAGAGTCACCATTCTACTTTCTATTTCTGGAAATTTGATTACTTTAGAGA
GCTCATATAAGTGGAATCACACAGTATTTGTCTTTTTGTGATTGGCTTTATTTCAGTTAATATAATGTCTTCAAGGTTCACTTATATTGTAGCATGTATC
CAAATTTCCTCTGTTTTAAAAACTGAATAGTGTTTGTATTGAATGAATATACCACATTTTGATTATCCATTCATCTGCTAATGGACATTTGGGTTGTTTC
TATTTTTTAACCATTGTGAATAGTGCTGCTATGGACATGAGTACGCAAATATATCTTTTAAGACCCTGCTTTCAAATCTTTTGGATGTATATCCAGAAAT
GGGATGCAAATTAAAGATTTAAAAGCATTGCCTTCAAATAGAAGAGATTCTTGTAGAAAATGAATTATTATGTATCTGGACTGTGGTGGTGGATACAAGA
ACCTGCACATGTAATAAAATTATGTATAACTAAATAGACACACACATACACATGTAAACACACACACACATGCACACACACAGGTGCAAGTAAAACTAAG
GAAATCTGGATACCAGAATTGTATAAATGCCAATATCCTGCTTGTGATACTGTCCTATAGTTTTGTAAGATGTTTCCACTGGGGAAACTAGAAAAATAGC
ACATAGTTTCTCTCTGTATTATTTCTTACAACTGCACGTGAATAAAAAATGATCTCAAAACAGAAAGGTTGCCCTTGAGGTTAGAGTGTGCCACTGCAAG
AGGAGACCCATCTAGAAGGGCAAAGAATTCTTGGCATTGTTCCGAAGGAGAAAGTGGAACAGGGATAGAGGCCAACCCAAAGTGCTAAGTTAACTCTGGG
TCCCAAGGGACATGGCATCCCCAACCCCAGACAGTAGGACCAATGTAGCACAGATAGGGAAATGGCAGGGAATGAGAGCCAGAAAAACAGAGGCCAACTC
AGTGCTGAATCCCCAGAGTGTGGGCCTGGAGCTGGTACTGACCACCTTCCTCAGATTGCACTGGTCCTGGGAATGGGGTGGCGTGGGGTCCATGACCTCA
GCCCAAATCACTCCTCATACGAAGGTTGGAACAGGGGACTTGGTCMCATGAGCCCTATGCTTCCTCTTAATTCTGAATGAGTTTCAGATTCCTGCAGGCA
GCATCAGCAACATGCAAAAGACGCTTCTTAGATGCTTGAGACTGTAAACCCTTATCAGGAACATAATGCGATGGGATGTTTCTCTCTCTTTAGGCAAAAT
TTAAGGATACTGGTGGATAAWATTTACTTAATGATTGCTATGTGGCAAGTGTTTTGCTAAATGCTTTACAAATATTTATTTTCTGTGAGATGGTTCCTGT
TCTTCCATCTCAAAGATGAGGAAATTGAGATTCTGAGAAGGTGACTGAGTACCTTAAACAATCACACAGCTGATAAGGGACGGACTTGGGCCTTAAAGTA
CAGTCTCCCTGAATCTAAAACCCACCTTTGGAATCTCAGCTGTTTTCTAGTTCTCAGAATTTATGTGTGAGATTAAAAGTGAAGCTTCAGAGAAGAAGCA
GAGAGTGATAACAGCGATGGCTCCAAAAATAAAGCTGAGGAGACCAAGTTCTGTCAGGTGCATTGAGACTCTTTTTATAATCCCAAAACTGTAGAACTGT
AAAGACTAGAAAAGCCAGCCACACTCTGTATGGTACTATAATACTGATGATGTCCTATGTACTTAATGTGTGTTTCTTTCTCATTAATCATCAATGCTGA
GGGATGTTGCATGTCTTAGAGTTTAACAGCCACCCATAGCTCCCCATTTGTAATAAACTSTAGTCAGTGTGTAGTCACTGCCTGAACAAGTTACAATCTT
AAAATAAAAACCTTATTGATTTCTTTTTTAACTTTGAAATTAACACATGCCTAGAAAAATCTAGAAAGTATAGCAAAGCAAAGAAAAATCACTCAATAAA
ACCACTGTTAATATTTTAGCATAATCTTGATAGTGGAATGCCTTTATTTTTTAAAAATTGCATTATGTATACRCTARTTTTAGTCAGAATTTGTACTTCT
TAACATGCATACTATACCATTAGTATATTTTTACATTCTCTAAAGTGTGTCTGCAATGCAGTGTTSTACTTTCTGCAGATACCATAGTTTCTTTCATCAA
TCTTTTATAACATTGTGTTGATTGTAGTTTTTTCTATCTTTAAGCAATATTGTAATGAGTATACATGTTGCTACACACATACACACACAACCACACACGC
ACATATCAGGCTAAATTTCTACAAGTGAAATTTTCAAAGCTTGTGATGGGTGYTAACAAATTGCATTTCGGAAAGATTTTTTCATGTAATTGATAATATA
TGAGAGTTTATTTCCTCATAAGTCTGTCAAACACTATGAACTTTTTCTAATTATTGTAACAATTTTATAAATTGTTACAATATATAACATGCTATAAATA
TATGTGATGCAAATTTTTTTACAGTTTTCTGTTTATTTTCATATAATATTTTAGTTGTTGTAAAACCTGCATTTCAGTAGTTTAATCTGTCAGTAATTCA
CGCAATAAATTAGAGCTCTAATGGTGGCTTAGAARGGCCTTCTCCCCTGTATTACTTAAATATTCAATGACTTTATTCCTCCTAATACTTAAATCCATCT
GGAATTCATTAGACTATACTTTAAATTTGTATGTATCAACCCTAATTTTTTTAAGAACATCATGTTTGATAAAACACATTTTAACACTTACTTAACAAAA
TGACTTTAAAACTGTAAACTTAAAAAAAAGGTATTGCATTTATTTCTATTCCTCTGAATTTCACATTAGGAAAGGAAAAAGGGCACGTAAAAATACAATC
CCCAGTAATTTCTCTCTGCTGGCTTTGTTTTCTAAAGTATTATATTTCCCATCTTTGCACAAAAATCCCCTTAACCCTTGTACATATCCTTAATAGATCT
GGCATAATTCCATCATCCAAGAGTTATATAAGTTCTACTTGAACCAATTAAAATTTTTAGCCTGTGTCACCTCTTGAGGCAGAGGATATTCACTAGGACT
TTACTCAAGCTGCTTACATAAAATTATTTYGAATATCTGCATAGATTTCTTCCACATAATTAAAGTTACTTCAAAAGTTAAATGTTTAAGAATGCCCTGA
AAGTCTAGTGTGATTGTGAGCGTGCATACACATAAGAAAAAATGTTTTCATTATGTTTGATGAAACAAAAATTTTAAAGTAAAATTTCAAATTCATAAAG
GAAATACTGTACCTCTAAGCAGAGCAGGATTTTCAAAGAACATTTGATAATAGTATCAAGATCTTTAATTAATAACCTAACAAGTAGGAAACTTTTATCG
CCCCTTTGATCGTTTTTATAAGGAGATATAAACACCACATCCAGTCTGTCAAGCGGGGGATAAATGAAGGTGGAGGAATGTTACAAAGGGCTTAAAATGT
CTTTTCCCTGGGAACTCTCTAGGAGTTGGTCCGTAATGACATTTAACTTGAATAAGTGAAATAAAACTAAGAAAAATAGCTTGAAATGCAAGTTGTTGGC
GTCAGAGAGAAACCTGGATTACGGTAATAGAAAAGCAATTTCAAAGGAATAATGGCTGACAAATAGGAATTGAATCTAGTATACTGCATCCACATTTGCA
GGTTTCTACATAAAGATCTACTGGGAATGACTGATTTCCTTACGGAGCGGGGGTGGTCCTATGGGGATGATTKGCACCTCTCTCAGATTGCCCARCCTCC
CCCTGCTCTTCTGGGAGACTGTCAGGGTGCTGCTCTTTGGACTACCTTTGAAATCTTGACCTGTGACRAGGCTGTGGCTGGTAGTGATGTTGCCAGGAAG
ATGGCATTCCAAGGTCACCATACTCCCGCTAAGGTCTAACAAAGCTTTGTTTAGTATTTCTACTTGCTGGGAATTTCTGTGTACACRTGCTCATTTATCT
TTTTATTTATTTAACAATAAAACCGAGAGTGGTATTCTAAACACCATATGTTGCTATGGTGGAAACTAAAACCTGGAAAGCTGAAGTTTCTTAGTAAGAG
AGCATGATCACATGACCCAATTTGCCCAGGACAGCTTTGGTTTGCACCTGTTGTTTCGGCTTCATTGTTAATGGTACCTACTTTTATTCTAAGAAGATTC
TGGTTTGGACAATAAATTATGTGGCCACTGTATTAATGTCCTATGGCTGCTGTAGTAAATTACCACACAGTGACTCAAAACAACACAAATCTTATCTTGC
AGTTCTGTAAGCTGAGAATCCAACATGTGTCAGGGTAAAATCAAGGTGTCCGCAGGGCTACCTTCACTCCTGGAAGCTCTTGGGGAAAAACCCATTTCCT
TGCCTTTTCTAGCTTCTAAAGGCCACGCACATTCCTGGCCTCATGGTACCTTTCTCCATCCTCAAAGCCAGCAACAGCTGTTCATGTCCTTCACATATCC
CATCACTCTGACCTTCGCTTCTTCCTCCCTCTTAACGACTCATGATTATATTGGGCCTAGCCAGATGCCATATAATTCATGCTAGTCTTTCTGTCTGTCT
GTCTCTCTCTCTGTTTCTCTCTTTCTTCCTCCTTTCTCTCTCTCTCCCTCTCTCTCCCCCCTCTCTCCCTATCTCCCTCTCTCCCTTTCTCCCTCTCTCT
CTCTCTCTCTCTCTCTCACACACACACACACACACACACACACACACACACACAGAATCTCCCTCTGTCACCTAGGCTAGAGTGCAGTTGCACAATCACA
GCTCCCTGCAGCTTCAACCTTCCGGGCTCAAGTGATCCTCCTACCTCACCCTCCTGAGTAGCTGGGAGTACAGGCATGCACCGCCACTCCTGGCTAGTTT
AAAAAAAAAAAAAATACAGAGATGGCAGTCTCTCTACATTGCTCAGGCTGGTCTCAAACTCCTGGGTTCAATCATTCCTCCCGCCTTAGCCCTCCAAAGT
GCTGAGATTACAGGCATGAGCCACCATACCTGGCCCAATCTCTGTTTTAAAGCCAGCTGATCAGCAACCTTAATTCCATTGGCAACCTTAATTTGGGAGG
TGGAGAGAGTATGAGAATTGTAGACCGAAACTTCATGAAAAGATTTATCAGTATGTCTTTGTTTAAGGCACTAAATTTTAGAAAGGATATGTAGATAGAG
TACTCTTACCCACACATCGTGATGATCTAATTGGACCATGAGTATATTTTCATCTAAATCTGCCTACCAAGCCTGTACATATATTGATAATATATTCATA
TGTAAGGACTCAGGTGTAAAAAGTAAGGGCAATGTAAGTGTCACATTAATAAACTGGGTTAGGATTAATGTTATCATTTCCTGTCTTATCACAACAAACA
TTGTATCCATGGTGGAAAATATCACTTAAAAAATCTTCCAATCACACTCTACCTTGCAAGATTATCTGTTATAAATAAACAATATAGTATACTGACACAA
AAATCTTTGTGGGCTTATTTCCATGGAATCTCTGCAGAATTTTGTTTTAAKCTTTGAACATCTCTGTGGTTCTTGAGACATACTTTCAGACTGCCTTCCA
GGAAGATTGTATCAAGTTGAGATTCCACTACGGTGATCCTTGTGTTTGTGTCACTGTACCCTTAACAATTACCGGCTCTTAACTTTTCTTTATCTGGGGG
CAAATGCTGGCATGTTATTTTTCATGTGCATTTCAAGGTTTTGTGTGAGTCAAACACACACACACACACAGTTCCTTTGTCTGAACTTACAGTCATGTTT
AGCTGGAGAGATGGCAGTGTTAAGACTTGTACATCCCTGCTTGCATGTAGTGAGCTTCTGATGATCATTTTATGTTTCTTGCCCTAAGGGAGGAGACCAT
CCCTCATATTGTCTTATGCCCAATTTCTGCCTCCAAAGAAGGAAAAAGTAAAAACTAAAAGGCAGAAATGAAATCCGCAAGCAGACGGCCCAGCGCCACA
CCCTGGGCCTTGTAGTTAAAGATTGACCCCTGACCTAATCMGTTATGTTATCTATAGGTTACAGAAATTGTATAGAAAAGCACTGTGAAAATCCCTATCC
TGTTTTGTTCCGATCTAATTACCGGTGCATGCAGACCCCAGTCACGTACCCCCTGCTTGCTCAATCGATCACGACCCTCTCACGTGCACCCCCTTAGAGT
TGTGAGCCCTTAAAAGGGACAGGAATTGCTCACTTGGGGGGCTTGGCTCTTGAGACAGGAATCTTGCCGATGCCCCCGGCTGAATAAACCCCTTCCTTCT
TTAACTCGGTGTCTGAGGACTTTTGTCTGCGGCTTGTCCTGYTACAGCCCTACAGCTATATTCTATTACTAGATATTTGGGGCCAGGCATGGTAGCTCAC
ACCTGTAATCTCAGCACTTTGGGTGCCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCCGCCTGACCAATATGGTGAAACCCCGTCTCTGCT
AAAAATACAAAAATTTGCCAGGGGTAGTGGTACATATCTGTAATCGCAGCTACTCAGGAGGCTGAGACAGGAGAATCGCTTGAACCTGGGAGGCAGAGAT
TGCAGTGAACCAAGATCACGCCACTGTACTCCAGCATGGGTGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAGAAATTTGGAATGAAAGCAA
TGAGATTCCTTCTTGTTTGTGACTTATAGACGGGTTCCAATAGAAGTTTCTGAAGAGGTATTCCAGAGATAACGGCAGTGGCAGCATCTACGCTAAAAAA
CATTTTAGTGCCCCAGAGAGGTAATTTGGAGGGAAAATACTTATTCAGGTGAGAGATATCTTATCTGTCTGCAAAATAGAAACGGAGTCACATTGTGTTA
GAGATGTAACTACTGTGTGCTTTGATTCTGTGTGATTTGAAAACTTACATCTGAAAATCCTGTGCACACACAATCCATTGATCGAATGTTGAACTATATC
ATCTCAAAAAAGCTCTGTGTGTGTGTGTGTTTTGCTTTATTTGCATATTTTGCCCAAAGAAGAATCATCAGAGTTAAAGAGGTCATCAAACTGTTTTCTA
AATCATTTCTCTTCGGAATGACTCACAAGTCCATGGACTGTGTGTCATGCTTTGTTTCTGATTCTGTTGATCTAGATTTTGCATGTGTTGCTTGGGTCAT
CTCATATTACAAAAAATATTGGCTTTTAAGAGCCAGCTTCTGCATTTTGGCCTTCACCCAAGAAACCTTGTAACACATTTTGTTTTTCATCAGTACATCC
CTTTGGGTAAGATCTCAGTGTCAAATTTTGTCGGACTAAATTGTGTCTTTCATGGCTGAAGATGAGAGGATGACTCAAATGAAGGGCAAGCTGTTAATAG
TTCGCCATGAAGCTGAAGGCCACGCAGGCTTTGTAATTTGGTTCATTATGTTCTTGCATTTTTAAGGGATTCTTTTCAAAGCATTTTACGTACAGCCAAT
TCCTATTAGTGTGGTGAATTAATTGGCTTGAAGAATCATTGTTTTGCGTACTGTGACTTGATGGTTCACATTTCTACTGGATACCTGCTCACCCAACCCC
CCACAGTATGGAAAGAGAGTAGAGGAACCCAGGTGCTGGGATGCCAGGAAGGGTGGACAACAGGGCCCTAAACTCAAGGCTGAAACTGCTCTCCAACTTA
GCTTCCCTTCTGGCTCCTGTGGTTTTTCTTTAGCTCCTTCTCCATTTCAGGAGTTGAGCCCCTTTTTTCCTCCCATTCTCAGGACTCAGAAGATCAGGGC
TAACAACCTAGTGCCCATCTACCATGCCCCCTTGAAGTACAGAAAATATTCAGGCGGTATCTTAGTGTCTCCACCTTTGGATAAAGTATTTTTGCTTTAA
ACAAATTAGAGGTGATTTGCATCCTCTGTCTCCCTCACCATATTATTCACTGTTGTCATTTGAGAATTAAATTGACAAGCGTATTTTTTTTTTTTTTTTT
TTTTTTTTTTGCTTTTCAGAAAGTGTGTAGTGTCATGGAAGGAACTATGTGGTAGCTAGGCTGATACTATAATATTTCGCAGCCTTTAGTTTGTGGCAGG
ATGCTACATAATATACAGACGCTCATTGTGTGGTTTAATGTGTAGCTTCATGTGTATTAATAAAAATATATAAGAAACTCATTAAGCTCCTCAATTCATG
GATGATTTTGCCACAAATGAGGCAAGAGTAAAAAGTAGYAATCAATGTAAAGCAAAGCTACTAAGYAAATAGCTTAGTAAAGATAATGAAACAAAAAAAA
TGTAAGGGAGTCCATGCAAAAACATTCAGCAAGTGTGAGCACAGTGAGGGGAATGTGAGTGTTACAGTCGGACCTAAGTTTGAGTTCAGGCTGATGACAA
ATCAGCTTTGACACCATGGACCAGGTCCTTAAATTTCTTTGCTGCGATGAGTATTTGTTCAGATTGTTTTAAGCCAAATGAGACAGTGCAAAAAAAGGCC
AGACCTGTATGGGACACCAAATCAATGTTAGTCCTCTTCTTTTTAAAAAAAAAAAAAAAAAAAACAAGTAATCAGTTTAATGTACTCTGATATTGTTTAC
CACTGGGATTCTTSTTCATCAWTTAAGGCTACAGAGTCCACCAGCCTAGAGTCCATGGAGTCAGACCAACTGTCAGCTGTAATATGCCGGAGATGGAGAG
AAAGGACAGATGGCCAGAGCTCAGGCCAAAACTTTGGATTCCAGTCTCTTAAAGAGGCATAGCCTCTTCCAAAGAGGGCTCTCTGCAGTSAATATCATAT
CAGCTACCTGTTTGGCACCAGGCATTGGGTCCAGGCTTCAGGATTTGCTAATAAACTCCCGTCCTCATGTGGCCAGACAGAGAGGTAGACGTAAATTGAA
TTATCACACCAATAGGTAATAACCCATGGGAAGTGTTACAAAGCAAGGAGGCTGACGCCATGGGAATGTAAGCCAGGGACACCCTAGCTGTTCTGGAGGA
GTAAGGGAGGCTCTTCTTGATATTTGGGCCAAGATCTGAAGGATGAATAGCGGCAGCAAGGAAGCGTAGGTAGGAAACCCATGGTTGGTAGGAGGGTTGT
ATGTAAAAATACCTGCAAGAAAGGATGTGATGAGTTGGAAGAACTGAAAAAAGATGAGTGTAACTGGATAATAAGGAAGAAGAGGGATTCCTTGTAACAT
GAAATGAGTGTGAGGAAGTGGGCTGTGGCCAGATTACAGAAAGACTTGTCAAAGCAAAGGTATTTGCTGTTTTTCCTAAGAGTGATGAGAAACCATTGAA
AGGTATCCAATAGAGGGTGACATAAATCAATAAACATTGACAAAGACACCCTGGAAGCCCTATAGAAAACAGATGGTGGCAGGCAGTCATGGCTGTGCAG
GAAGACCCACAGGGCGCCTTGCACAGTWGCCCTGGTGAGAAGTGACAGAAGCTAATCTCAAGGAGTGTTGAGGGGGATGGAGAGAAAAGGGGACATTCAG
GAAGTGAAACAATGGATGTGGGCAGGATATGTTGATAGAGTGGCTGCGGATAGAAGAGAAGGTTTCATTTGAGGAAGAGAATGACTCATGAGTTTCTCCT
TCCTTGATCCCTGAGAGAGGAGCCATCCTCTAGACAATATTTAGAGCAAAATGATAAACATGCAACTGTATTTATCATACTTTCTGGTTGCTCAAAAATC
CTTGCCTCCAATGATGTCAATAATATTTTAATTAAGTTATTATAAATGTAAAATAGTTTTGCCCTCTCTAGGAAAGGATAAAGCTGGGCCCCTAAAAACT
GGGGAGTAATATTTGACTTCAGACTCAGTACCAGCTTTGTATCAGACACTTTCATGTGTTATTTTAGTTAATCTGCACCAAGATCCTGCAAAGTCACCAT
GGTGGGCTCTTATTAATAACACAAAAACCAGGATACGGAGAGGTGCATGCTCTGCTCAGGGCCCGGATCTGGTGTGTCAGCAGGATTCAGTATCAGGTCT
CCTGAATCCAGGTCCAGTGCTCTTTCCACAGCTCCTTAAAGCCCTCCAGTCAGCCTTTCACAGATGTCCCCCACCTCCAGCAATTCTCCCCTCCACCTCT
CCCACCAGTGCAGGTGGCATCTGGATCTCCCTCCCATGATCAGCCAAGCTTTCCACCGTGTGAGCAGGAAACCACTAGCACTAGAATCTCTCAAAGTGCT
GGTTTAAACATAAATTCCTAAAGAATCTGATTTTACCCACTTCCCTGGATGATCCATAGGCCCACTGTGATAAAGCTGAATGAGTTACTCCTCCCTGGGA
TATTTCATCTCAATGGAGGAAAATAATTCTGTTGGGGTCCAAAAATCACACCAAGGCTAAGGCAATACAGGGCCCCCCAACACTCATCACCATTCTCTGT
GACCTTTCCCATCTCTGGGACCTCTCCATTATACTTTGTTTTCTGCAATGTTTCACTTTTCAATTAATAACCAATTTCCTTCTACTTTTGTATTTGACAG
CTTCTCAAAAAGTGATCAGACAAAATATGATTTTTAAGCATTCAGCATGCACAGTTGAAGATTAGAAGGACATTGGAAAAAATTGATGTTTATGGGAAAT
GTATGTGTATATTTGTATGTGTGTGCTATGTCTGTGGTACATGTACATATGTCTGCCTGCATCTGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGC
GCATGTGCGTGCTGCTCCAGATAGACCTACAAACATCTGTCTTCCTGGCCTGTGTACTTGGGAGTGGTGAATGAGTCCAACAGCCACACAGTGAAATTCC
TAGCAGGTGGCAAGACTCAGCCTCCTGTTTGGAGCTTATTTTATTTTCCTATAGCTGAACCTGGGAATACAGTTCCCAAATTCCACAAGACCCTTGGATT
TCCATCTCCAACCCCTGTGTCTCAGTACAACATCACTCAAACAGTAATGTGCACCYGAATTCTCTAGAAACAATGTTAAAATGGGTTTCCTCTGTAGGAT
CTAGACAGGACCGAGGAGCCTGCATTTCTAACCAGCTCCTGGGGGATGCCAATGCTGCTGGCTTGGAGACTGACCTTTGAATAGCAAGGTACTAGAACAC
ACAGCACAGACATTGGTCAGATGTGTAATTGCTCGGAGTTCAGGCTACCTACTATGGAATTAGTTATTAAAATCCTGCAACATTGGATAACTGTTTCTAG
CTGTCATTTGTTGAGTGCCCCTCTCATCTGCCTCCACAGTGGACTTTTTTTTTAATATCACACCTTGTTATTCCCATGCAGGTCAACCATTGAATCTAAG
AATAGAAATCCTCATGTCTGAAGGGGTGGTCTTGAAGTAGGCAATGAGGGCCTGGGTGGTTTCCATTTCCTTTGAGCAAGTATTTCATTGCCTTCTGCCA
TGCCTACCTATTTGTTTTTCTCACAGTAGGTTTCTACCAAGTGGCATCTCACTTCTAACATAAAGAACAAGCATCAGWATGCCTCCCTTTGAATGCATAT
GAGGTTGTTTTGTTTTTAGAACCCAAACACAGCCACTTGAATCTATCATGTAATTCAAAGGAAACAAGCATTATTCCAGTCTTTTCAAACTAAGGTTTTG
TGTGCTTTGGGTATTTCAATTAGGAAGAAAGAAGGCAGGCAAGAACGTTATTGAACATTTATTCTCTGATACTGGAGGATGCGCTGGAATTCAAGAGCCT
GACTTCAGAAAGTTTGGCATTTGCTAACTGTGGGTCTGACCTTCGTATGAGAACAGTGATGAAAACTCACGGGAATGTCAGATTTTGTTACGGTATGTGA
TTGGGTGGATAAGGCTGTATTTACTAACAACTTCCTCATGCATATGCATGTGCTTAATTTTCATCCACATCATTAATAAGATGATTTTAAAACTGGATGA
AYCTCTGCATAAAACACAAACATTTCCTATTATATATTTTATTCAGTCTACTATGTTTTCCTCTGTGGGGATCAAGCATGATATACTTCTTTCTCATCTC
TGCCTTCCCAGGGACTCATAGGAAGAAAATGTCTTCATTCTTCACTTGGTTTAGATTGTTCTACGCAAAAACTCTTGTATGGACATAAGCCTTAACTTAC
TCCATTYGGAGTTGAGCAGAGTCCTAATTCTTTGACTTGATCTTATACCATTCCCCACTCCTAAATTAGTTCCAATTAGTTCCAAGTTCATCCTTACCTC
AGAGTCTGCTATTGCTATTCCTGCGGTCTAGAAATCATTTTCCATGTGTTTTGTATGGCTATCTCTTTCCACTTTCTTGTCATTCAAGCCTCAGCTGAAA
CATTCCCTCAGCAATAAGGTTTTCTCCACCATTTATTTTGAATAGGTGTCCCCTGCCACCCACACACACACACACACACACACACACACACACACACACT
TTGTCAATCATACTCTACCCAGTGATGGAAATGTTCTACATCTGTGTTGTCTAATATGGTAACTACTACCTGCATGTGGCTACTGAGCACTCAAAACGTT
CCTAGTTTGACTGGAGTACTGAGTTTTTTCATTTTAATAAATGTAAATTGCAATAGCCATATGTGGCTAGCAGCTACAGTATTGGGTAGTGAAGCTTTCG
TATTCAAACCTGTCTCATATCCTTCATAGCCCTCATCTGTGACTGAAATTATCTTGTTCATATCTTTTTCTCTTGTTTATCACCTGTCTTTCCATGCTGG
GTTATCTTTTCTGCTAACCACTGGATACCAGGGTGTTCAGCGTGATGGCTGACATGTAGTGAGTCCTCAAATAATTTTTATTAAATTAACTTTAAGAAAA
TCCCACTTAACAGCCCTTCACTGTTTTTAGAGACCATTCCAAAGGTCTTGACTTSTGTTGATATTATTGTCCTCTGAAAAGTCTGAGTCAAACTCTGATT
AGTTTTGTAACATAAAATACCATTGGATTGTCTGTTTGCATAATTGGTTTTCTGAGATTCAGCTCCACATTCTGTATTCATCCTAATCAATGGTGTCTCC
TTAGTTTCTGTCTTTCTTTCCATTGTGTTAAGATGGATCTGTTGTCTGCCCTTCCCAGTTTCAGCATATTTGAATATTTGGCAAATGTGAATTCTGATTA
CCTATCCTACTTGTAGCTTATGATACTGGCCAAGTCTTATAGAATGTAGAATCTTAGGATTCAGATCCAAGATATTTGTTATCTTTAGGCACAGTGTTTT
TTTGTTTCTGTTTTTTTTTTTTTTTTTTTTTTTTGGTTGAGTTAAAGTCAAGTCCTTGGCTATTTTGGGAAGATGAAAAACCAGACCTATGTTATTACAT
AAAATTGCCTCAGAGCTTTATTTTGATTGATTTCCTTTGTTAGCAGTATTCTCATAATAGCTTAAAAAAAACATAAAAGTATAAAATTTCACTCTCTGTG
AGATCTCCTTTGTGTGCAGATATTACGAGGCTCTGTTCACTTCATTTTTTCTTATTACATGCATTATTTTATCTGCACCAGAAATCAAGTATGTATGTCT
GTGTGTGAATTTGCTGGTAAAAGGATGAAGTAATGTTAAAGAAAAAAATTWAAAAATTATCTACCCACACATACCTGGTTTCATTTTGCTCACTGCCTTC
AAATTCTATCCATATTTGTAGGTCATGTATGATGATGCTCATGTTATTTTGTGTATTTTTACTCAATATTCTAAGTAGATCAATAAAGTTTAAAAATTAT
TGTATTGTAATATGTTGTTACACAAACATTCCTTCAACTAGTTCCCTTCCACTGGATGTTCAGGCAGATGCCAGTGTAATTTTATTTTGAGAAATAACAA
TGCAGTGAATAGTTCCAAATATGTAGTGCAAACTTATATAGGATCAGGAGTGGTATAAAAACGGAACAAAAGTATGAGTCTTTCGTGGTTTCTGTTGAAT
TTTGCCATGCTTTTGAAAAGGATTATACTGGTTTACAATACCATCAGGTGGAATGTGACTCTMCTGATTTATAACAAGAATGTTTGTCTTTCATTTTTCT
AATTTGGGCTCTTTTTTGACAATAGTATTGATAATAACTGTAGCAACAATAGCAGCAGTTAATATTCTTGAGACATATTATATGATAGACCATATTTAAA
TGCTTTAGAAATATTGTTTATAGTGGTTAAAAAAGTGAGCTCTGGAGGCAGACTTCCCAAGGTCAAATCTGGACTCCACCATTTATCTTCTCTTTGCTTT
CATTCTCTCCTCTGTAAAAAGATCCAAAGGGTTGTTATGACAATCAAGTGAGATAATATAGTATAGAGCTAAAGTAAGCACTGGATAAGTGTTTGTTATT
ATTCCTAATAATGAGTGTTTTTGTTAACCCCACTTACAGATGAGAAAACTGAGATCCAGTGTCTTGCTCAAGGTCACACAGATAGGAAAGAGTTGTACTA
GGATTCCAAATGCAGATGCCCTTTTCTGATCAAAATACTCCTATGCGGGGACCAACACTTATATCCAAGAGGAAGTATTACTCTTATCGCTGAGTTAAAT
CAAGGTTGAATTACGCACAGAAAATGTGCGCATAAGGTCCCCGTGATTCACTGGAAATGCCATGACATAATTCTTCGTTTCCAAGACAAACAAAAAAGTT
GTTTTTTTATGCTGCCTTCTTCATTGAGATCTGAAAGTAGTTCCCTATGGAAGTGATTCATGGTGTTGTGAAATCCTMCGAAATTGTAAACAGCCTGGTG
GGCAGGAATCCCGASGTCTCATTCAGGCCCCCTGCAAATTCTGAGTTCCTAGCCTGAGGAAAGCCCCCAACAAATACTGACCTGACTTTCTCCTAAAAGA
TTGCCATAAACACTTTTGGTTATCTCTTAATGTACTTGGTTCATAACTGCTTAGTCARTTATTTTTATTAGCATAACATTCCTTTTAAGCATAATGATAT
TGGGAAAACAGAAATGATACAAGCGTAATTTCTTGGCTATGACTGTTTATGTTTTGAGTTTTTTTGTTTTGTTTTAACTTTCTTTGCCGATTTGATGAAT
TAATTGTAAATTTCCCAAGGGGGATCTAAAGTGAACTGATCTTTGCCTTTTATTCTGGAATGTTCAATTTCTATTCTAGTCCCAGTGACTATCCTCTGAG
ACCAAAATTTCAATATTGCCAAGGGCTCATAAAATTGTCGATATAACCTACTTTCTCTAGAGAACCTTATTTGAATTTTCATAATGAATTAATATCTTCT
TTCTCYCCCAATCTCTTTGCTCAAATAGCTATTTGTGGAGACCACTGATGTCAATGGCAAAACTCTCGAGGGGCCGGTGCCTCTGGAAGTCATTGTGATT
GATCAGAATGACAACCGACCGATCTTTCGGGAAGGCCCCTACATCGGCCACGTCATGGAAGGGTCACCCACAGGTATGTCACATTGGCTTACCTTTAGCG
TAATGGCTTGGAAAGAGGCACACTTTGATCTTTGTGGATTCTAGGGACTGTCTTATGGCTGTTCCAACTTGTCAGCTCGTATCAGCRTCGACTTAATACT
TCCCTGCGTAGAAGCCAGGTTGGAAAGCTAAAGTGCAAAGCTTGACCGAGGTGTTGCAAGCTACGGAAATCTCTTTCATTGTCTCTGAAGATCATCCTCC
AAGGATGACTGCCATCTAAGTCTCTAAGGCATGGCCGATGTTGGGCACCATGTAAATATCCAGCTTACCTTTGTGAAAGTCCAAGGCTAAACTTTGTGCT
ATAGCAGGGCTTTGATGAGAATTGGGTCCCCATTACAAACTCCTCAGTTCTTTCTTTTCACAGTGGCCTTTTAATAAGAACTATTTTAGTAAAATAGGTA
GGACTTCTTCCCTTCCCTTAGAAGATGTGCATGAAGAAATCTTTTGTCTTCAGTCAGAGGACCAAAAGGAGGATGTTTGATATCTCTCTCTGGAAATGCG
TAAATGCATGTGCCTACTGTTATAGAAGTCACTCAAGGTTACTATAGAGCTCCCGCTGTCTTTTCCCATGTTTAACCTTTCTATCAGGGACGGTTTTAGA
ATTTAGAGCTTCCTTTTTTGCCCCAATACATACAAATTAAAGTATCCCACAGCCAGCAGCTGAAGTCACTCCTAAGTATAATGCTTGAGAAAATGAAAGA
ATAAAACAGAAAAATTCCTCTTCGGCTCACTTTGATTTTCAGCTTTAAAATACACTTGAGTGAAAAAAAACACCATATTAAGAGTATCATATTAAGAGTA
TCATGATACTCCTAGATTATGCCCAAATAGGTAAAATAGTGATTCGTCAGACCAGACAGGAGATGAGAGCGGCTTTTACTATTTTTCCCCCTTTTCTGAA
TTGATGGGATCTATCAGTGACATGTAGATACATGAGGCTCTGGAAATGTTGCCATGGTAACCTTCCCAGACAACCAGGTGGATAATTGTATGCAAGATGC
CTAAAACCTCCCGTCAGCTTCAAGGAGCTGGGTCTTTATGCACTGCATCAGATCCCCCAAGGGCAAGAGCGACCCTCTTCCTTCCCAGCTTTAAATGCGC
TCCGTAAAAATGAAAGCAAATGCACTGCGTGTGTGCTGGAGGGTGTTTAGGGGAGTGTTGGAGGCAGATGGCAGAGGAGCAATGACAGGTCTGGAGAGAA
GGAGAGAGGGCAGGTGAAGGGAGGTCAGGTCACTTCAGGGCAGACAATCCACGTGGCCCCTCTCTGTGAGCTGCTTTTGATGGAAAGATGGCTTCTGGTG
AGAAACACCCTAGAATTTCGGTTTGATGTTTACAGAAATCTTCTTAAACGAGCTGATGTGCAGAACACATTTGGAGAACCAATGAGGAAAGCGATTAAAG
AGGCCAAAGTTTGAGCAGAACAGAAAAATGATTCCCAATTGCTATCTGTGGTACTCGGGCCCCATGAGTGAGTGACTAGAATTCAGATGGGCTGGGAAAG
TGTTCTAAATGTAAATGACAGTGCTTACATTCGGGATGGCTGTGAGCTTGCACATGTCTTTGTATATTATGTGTGTATATGATTAGACGGTGTCCAATTT
TCCTCCCACTGTGCCTGTCCTTAAAGTTTAGAAAAGAATTTCAGATACATGTAATATTTTTTGATACATGTATATACATGTAATATTTTTTGAAGAAAGA
GTTCTTTTTGCACATTGAATTCTTTATGCACATGTTATTTTGTGTATTTTTTATGTATGTTTTTTGTGTATTTTTTAGATAGAGTTCTTTATGCACATTG
AATTTCTTAAATCACAGAGTTATTCAGTTAGAGACAGTTCTCCAGCAAAACATAAACCACCTCAAATATCTATTTATGATTGGTATTATCCTATAAAAAT
ACATAAAGACTCAGGTGTCTGTATGGATTCATTGTTTTCTTTCTCAGCACCCTCTGGGTTGGACTATAAAGCACGCAGTGAAATAGAATCAGTCAGATTT
GGGATCCAGAATGTGGAAATGTTGCAAAAGACTTTCAAACAAAAAGCCACTTAGATTACTTAGCACCCTGTAAGAGAGTTGCAGGCAAGATGGCCCCCGA
AGCATTCATGAGGCCAGTGGGAATCTGATGAAGAAGACGGTATCCTCTTTCCAACCTCTTCTTCAACTTAAATCGTTTACAAGTAATAACAAACCCTAAC
TGGCTATAAAAATGATCGTCTCTTGTATTTCCATTATGCTCTGCTCATCTGTGGCTCATAGGATCCCATGTGTTGTAGAAATTATTCGACACCCACTGGG
AGTAAGGGTGGGGGTAGGGGTGGGGTTTGGGTGGGGGTAGGGGTTGGGGTTGGGGGCTGACTCTGGAAAGAGTTCCATGATTTTCCATGCTCTCACAAAT
AAAAGATGGGAGTCAGTGCATAACCTGCCTTCAAATCATATGCTCTTTCACCTGTCCCGCTGAATTCATGGTGAACACAGCCATCAGGTATCATAGCACT
GCGTCGAGTACTTACTGTGTGCCAGCAGCCATATATGTACAACATCATTTCATCCATGATCCCACTTCCTGCCCTGAGAGGTGGCTACCACTATCCCTAT
CTTACAGATGAGAAAACTGAACATCAAAGAGGCTCAGGAACTTGACAAAGTTACCTGGCTGGGGAAAAGGCACAATCAGTGTCTACGTCTCCAGCTTCAA
AATTTGGTGAATGGTTGATTACTTAGCTGGTAAGAGGCTGCCACATCTGCCTTAATTCTCTGCAAATTCTGGCCACATCTGCACTGGCATCATGCTCAAA
AGACTAGTCCGGGTCTGTCTACAATAGCCCGCATTTCTTCCTGGGCCTTGTGTGAGCTACAAGAAACCCAAGAACCAGCTGGGTGGAGTGGCTCAAGCCT
GTAATCCCAGTACTTTGGGAGGCTGAGGTGTGTGGATCTTGAGGTCAGGAGTTGGAGACCAGCCTGGACAATGTGGTGAAACCCCATTGCTACGAAAAAA
ACAAAAATTAGCCGGGTGCGGTGGTGGGTGCCTGTAATCCCAGCTAGTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAAGTTGCAGT
GAGCCAAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGAAAGACTCCATCTAGGAAAAAAATGAAACCTAAGAGCCACGTGACCCACTGGGTCTGC
TCTCTTGTTTCCATGTTTTACACCACAGACTCTTTGCAGGCCCAGCTGGGGGAAGTATTTGTGCAGTTCTATCAGATGAACTGATTTAGATCCTCACAGA
AAATGACTAGTTCTTCGGATGAAATAGCCAGGCCCATTGAATCACCTCTAGGGTTCAACGGTGTTAAGTGTTGAGGCCTTTGTCACCACTCATGTCACTT
TTTTCTGAGCCTACATAACCAAAGGCAGCTTCATGGGGCACAGCCTTTGTGGCCTCACACAGCCAAGGGAACAGAAGGGTCCCATGCTCAGAAGGGCCTG
GGGCTTGGTTTAGCGTTCTGCTGTCACCATGTTGAAATTCTTAATAATTGTTGAACAAGGTGTCTGCATTTTCATTTTACACTGAGCGTCACAAATTATG
TGGCTGTTCCTGCTCACAGCATTGTAGCCTAGAGCTGTGTTTGACGCTGTGCTCAGCTATTTAACACGGTGTGATATTGGGCAAGTTACTGAACCTTCTA
GGACCCTCTGCAAATGGGGATAGAATATAACAGTAGCTACCTTAGAGAAGTATATGTGAGGATTCAGTGAGACAACATGCTTCACCCAGTGCTTAGGGAA
CAGTAAATGTACAATGAATGCCTTTGTATTGTTAACAGTGCAATTATTATTTTTATTCTGGAAGAGTACCCTTTAGCAAAGGTAAAGCAAAGAGACACAT
GAGTTGTGTGAAGACAAATTCATCTTCCAGCAAACCACGCGTCATTTTCATGTCCCCATGTGTTCGAATGCCCTCGGCACCAATCTATCACAAAGGAAGG
TCACCCATATTTATCTGTATGTGCAGACAGGAGACCATTCCGGCTGCTCAGCACTGAACTCCGGGGTATTGTTTTGGTGAATCATTCCTGGATGAAGGAA
GATCAGCAGAACATAATGGTCTTTGACTTTGCAGATCGTGAGCTGTTGCTTTTGCAGAGCCACAGACATTGATTTATGAGGCCCAAGCCAAGGCTCTGGC
TGCTCCTTGGGGGCATACAGATCTCTGTGTGAGTTTGGTGTTTTCTGATGGCCAAGACATGGTGTTCATGAGTAGGGGGTAGAGGGTGAGAACTCTTGAA
ATTCCTGGAGGGCACTAATTCCAAGGCCCCATCATGTCTTGTTGGCATCAATTCATGGGTGTTTTGCCCTCTGGTGGTTTCCTGGGCACCTTTGAGAATG
GCTGACCATGAGGAATGGCATGTCAGGCTCCCACAGAAGCAGGCCCTGAGATGAAGATTGAGGCCTGCCTGTGGTTTGCTTGAGAGGTACAGGGACAGAT
ACCAGGTAAGGTGAGGTACAGAAAAGGAAGTCAGACAACTTGAGGTGCATTATTATTATTATTATTATTATTATCACTATTGAGACGGAGTTTTGCTTTT
GTTGCCCAGGCTGGAGTGCAATAGTATGATCTCAGCTCACTGCAACCTGCGCCTCCTGCATTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGG
ATTACAGACACCTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCACATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAG
GTTATCCGCCCACCTTGGCCTCCCAAATGCTGGGATTACAGGTGTGAGTCACTGCACCTGGCCCTTGAGGTGCATTATTAAAGCAGCTCCCAGAGTGGGT
AACTGCAGCTTTATCCTTTTTGGGGAGCTCAAGGAAATGACATTAAACACATACGTTAGAGTTATCTCAGCTAAGGGGCAGGTAGCTAGAATATCTACTC
CCCCAAGTCTGATAATGAGACATAGGTTCAAAGCTGTCCCCAAGGATGGGGGGCTTTAATTTCCAGGCACTTGCCGCCAGCTGTGYGCAAGGGAAACCTG
GGATCCATCAGCTCCAATATCCTGTCYTCTTGAGGCCTCGGCCTTCCAACAACATCAGGAGCTGGCTGTAGGTTGTGTTCGCTCTCCTGGCTTTTAGCCA
CCCCAAATGGCAGCCAGGRCAGCTGGGAGAATGGCAGCCCCCCACCCTGGACGGGTGGGGCAGCTTTGAGAAAGATAGGTGGTGAGAGGTCACAGAAGGA
AAGAATTAGCTCCCAAACTGCATGACTGACAAAGATGAATGTGGCATTTACCTAAAGGTGCACGTTCTGTGTCCTGAAAGATGCACATTGCTTAGGCATG
TCTGATCCTTCTTCTTGAGGCTGTTGAAGACAAGCAGAGATTAGCAGTTACGTCCTCATTGTCTAACTTCTGAAAGCCCAGCCACTTTCCCTCCCTCTCT
TTCCTGTCTTAGTCCCTTTAATTTTTTTTTCCATCCAGTATGCTTAGCAAGCATCTACTCTGTGCTGGCGCTATTCTAAGCTCTGAATGTGCAACACTGG
ACCTGGCAGGTGCTGCTTGTTCCCTCCTGGTATTCATAGCTGAGGAGGGAGGATAGCATCCAATAAATCAGAAAGAAAATTGCGGCAAGTGCTACAACAT
AGTTGTATGGGAGGCTCATCTCGGGAGGGGCCAAACCTAGTCTTGTAGTGAGATAGGAGGCCGCTCTGAAGAGATGATGTAGGGAGTTTTTGTCTTTTAT
TTTTCCTCCAGGATCCACCTGAGTTCCTTTTCAAGACACAGTTCCTTTAATTTTTAAACACATCCAGCCATTCCAGACATAAGAAAAAGCCAGCCGATCA
AGTCGCCTTTGGGACTAATGGCTATCCTGAGAGCTCAGCTTTGCTTGGAAGTTGCTATTTTCCAAAACAGCTTGAGCTAAATAAAGATGGCTGGGATAGT
TGATAGTTGATATTTGACACCTAGSTCAGCCGATGGTGTTCAGGTTGTTGCTATGGCCTGGTAGTAAAGTCCCTTTTCTGGTTACTTTTTACTTGTTGCA
GTAACTGTGATGTGGCTTTTCAACCCATTGACTGTTAATTTTTTTTTGCTGATATTTTCAGACTTTCATGCTGTAGGTTCCTCCATTCTCAACTGCCCCA
ACCAATCCTATGTGTTTCTGGAATATCAGGCATGTGGCTATTTCTTTTTTTTTTTTTTTCCTTAGGTAGATATATTTTTTAAAAAATAAATAAAGCAATT
CTGTTCTTTTCAAGTGAAAGAAAATGCAGTCACTCTCCAGTGCCACCATCCAGAGATAACCACAGTTGACATTTTAGTGAGTGCAGTTCTGGGGTTCTCT
CCTGGCATCTCTACACAGAGAGATGCAGGTGCACAGTTTTACAGAATGGGAGCTCTATGTGCTTTTCCGTAAATCYCTCTCTTCACTCCTCAGGGTCCTA
TGGACATTTTTGTAAATCAATAAACATCAAGCAACATCATTGTTTCAAACAGCTAGAGTCTGGATCTACCATCGTCTCCTTAACCAATTTCCTATCGATT
TAAGTTGTTTTCACTTTTCTACACTTCCATCAATTCTGCAGAAGAGAGCTCATCTCTTCCCATGTTTGTGACAATTTCTATAGRATATATTTACATGAGC
TGGATTAATGGGATGGCGGATATGCCCTGTTATGTTTTGATCCCTATTCAGGTGATGCTTCTAATCAGAGGATTTTAGTCTGTATCTTGGCTAAGCTTGT
TCATGCAGCAGGATACAATAGTCTTTCTTTTCACACACAAACATACTGATGGATATTTTTGTTTGTTTCTCCAGATGACACTCAGTATCTACAAGTTTTT
GTGGTCATTTCACTAGCTGTTTTGTAGATTGTGGATGGCCTTGCTATGGAATCCTTGCTGGATATTGTGGTGGAGGCAGAGGAATGCAGTGGTTGAGACT
GGCCCCTTTCCTTAGGTCATCACTGGAATTTTAGTGAAGAAGTGCTGCCCAGGGATGGCATCATTAACATGCTGCAGAGCCCTTGAGCTTGGAGGAGACA
GCACTTGARTTATGGTACAATTCACTGTAAATGTGTTTTATGGTCGCCTAAAATGTGTTTAGGTGACCATAAAACACGTTTTATGAAAGAGTTGCATAAT
CCAATCAGAGACCATTTCCCAAAAGGAAAATTCACAGCTAAATGGAATGAAAAGTATTATCTGAACTTCACTAGCTATTGACTCCACCTAGTCGTTCAAG
AGGAAAGCGAATGCTTATACATTGTTAGTGGAAATGTAAACAAATACAACTGTATGGAAAGGAGGATGGATAGTTCTCAAAAAACTTAGAATAGAACTAC
CATTTAATCCAGCAATCCTGCTACTACTGGGCGTCTACACAAAGGAAAAGAAGCCACTGTATCAAAAAAACACCTGCACTCATGGTTATCACTACGTATA
TTCATCACCACACCATACATACATACACACACACAATGGAATACTATTCAGCCATATAAAAGTATAAAATCAGCCGGGTGCGGTGGCTCACGCCTATAAT
CCCAGCACTTAGGGAGGGCGAGGCAGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAA
AAATTAGCCAGGTGCTGTGGCAGGCACCTGTAGTCCCAGCTACTCAAGATGCTGAGGTGGGAGAATGGCATGAACCCGGGAGGCGGAGTGTACAGTGAAC
CGAGATCGTGACACTGCACTCCAGCCTGGGCGATAGAGCGAGACTCCRTCTCAAAAAAATAAATAAATAAATAAAGTATAAAATCATGGCTTTGGCAACA
ATGTGGATGCCATTATCTTTGGTGAAATAACTCAGAAAGTCAAATACTGCATGCTCTCACTTATAAGTCAGAGCTAAATCATGTGTACACATGGACATAG
AGTGTGGAATAATAGACTTTGGAGACTCAGAAGGGTGGAAGCGTGGCAAGGGTGTAACGTGTGAGAAATTGCTTAATGAGTACAATATATGTTACTCAGG
TGATAGTTACACTAAAAGCCAAGACGTCAGCACTCTGCCACATGTCCGTGTAACRAAACTGCACTTGTACTGTTAAATCTATACAAATAAAAAAGAAACT
GAATCTTTGCCAAGTTGCTCCTAACTATGTCTGAAGGTCCTCTGGTGATATCTCACACCGGCTCAGAACCAAGACAGTCGGCTCCCTTGTCATAGCCATT
GGGATTTCCCTCCTSCATATCCCAGGCCCCCACCCTGATGGGCACCATTGCACATGTCAGGCCCGCCCTGATGGGCACCATTGCACATGTTAGGACCCTT
GGCTGCTGGCTCATGGGAGCTGGATACCAAAGCATCTGCTGGGACAGGAGAGAATGCCTGAACCCCTTTATTCTGGTAGAAGAGTATCTAACCAACCAAC
AGAACTGTATGTTTCTTCTTTAATGTGAATAACTGTGAAAACAACTCTTTTCATTTTTATTTATAGCTCTCTCTCCCCCTAAATTCACACATGCATCTCT
GGGGCTGGAGATCAGCTCAAGAGATGGACACCCCATTGTTTCCTGAAACACTCTCCTCTCTAACCATGAAGTCTTATTCCTGGACTAGCCTATGTATCTG
CCTCTCCTCTGCCCATCACCCATGCTCATATCATTCACATTAGACCTTTGTATTCTGGGTGAACTGGGGAGATGTGGCCCTTGGGTTCACTTTGATTACT
TCCTTGTAAAAATAAACGCTTAATAGCCCTGCCCACTAATTTTTTGGATATGATATTTTAGGCCCAAGCCGGGAGTCATCCTTCCATCACTCTATATTTG
GAAGAGGGAAGGATTTGTGGCATCAAATATTTAAAAATAAAAGTAAAAATATTAAAATTAATTGAGTAACTTAATTAAAATAATAGTTTAAAGTGGCAGC
AGGGCAAAGGAGCATTTGTAGCTTCAGAAATGTAGTGATCATTCTACAGTCTTTTGAAAAGATAAACCTGACAGGAATTTCTAGCSAAAATGAAAATTGG
TGACGGTTGAGCAGCTGCAAAGCAAAAGTGAAAAAGTCCTTGAGTTGTCCTAGCACAGAACGTGCTCACCAGCGCCGTTGGATCCTATCCCTGATACCAA
AGGATCCACTGTGAATAGCCCAGCAATTTTTAGCACTGCAGCTGAGTAAAACAGAGTGGCAGATCCAAATGTCATTAAACATTTATAATTTCGGGGAAAC
CCTTATTTCAAATCAATTCTTCATAACCATTTCCTCAGTAAATTCATTCAACAAGTATTTATCGGGSAGTTTCTATGAGTCAGATAATATTATAGGGGCT
GGGGATATAGCAGTGACCAAGACCATTTAGAACTCTATTCTTAAGACATTGCCACCTTCCTGGGAGGAGAAAGGTGCCAACAGAAATGGATAAGCCAGAT
AATTTAAGTTTYGGATAAAATAAAACAAGGTACATTGTTTTATTGACATAAGGTCAAGAAAAGTCCTCTCTAAAGAGGTGATGTTGAAGCTGAGCCCAGT
GAAATAAAGGAGCCTACCAAGTAAAGGCATGGAGAAAGGATGTTCCAGACGCAGGGGCCAGGAAGTGCAGAGACCTGAGGCAGGAATGACCTGAGGGACG
GTAGTACCAGGTGAGACAGGGAGATGGGCAAGGGCAAGGGCAAGATCGTTCTGAGCATGAGTCAACAAACTATGGGCCATGGGCCAAATGTGTCTCTCTG
CCTGTTGTTTTTTAAATAAAGTTTTATTAGAATACACATGTGCCCCTTCATTCATGTATTGACTATGGCTGCTTTCGCACCATATTGGTAGAATTGGGTA
GCGGGGACACAGACTGWATATTCCACAGAGGCAAAAGTATGTAATACCTGATCCTCTGCAAATAAAAAGTTTGCAGACCCCTGGCTTAGAACTCCATACA
TTTTGATTACATTTTAAACTTAGTAGGAAGCCCTTGGGTGGTTTTAAGCAAGGAAATAGATATGATTTTACTGCTGAAAAATGACTTGTGCTATTCTGTG
GAGAGAGAAATAGGGAAACAAGGCATTTCAATGTTCTAGGCATGAGAAAACCATGGCAGCTACGGAGATGGAGAGAAGAGATCACATAAAATTTTTACAG
CAAGTGTGTGACAAATCGGAAAATTCTAAATATTGAGTCATTTTATGATGCCAGCTTATTATAACTGATGCCATCTATGTGGAATTACAATAATACTGTA
AGCCTTAATAGGTTTATAAATTTTCTGCAAGTATAAACCAGAATCTACCTTCAGTTCTCTTTCTCAGCAACACAGTTAAGACCAGGAGAACTGAATGGTT
TTCTCTTCATCCTTCAACTTCCAACATTTAGCAGAGTCCCAGGCACAAATTATCCACCCAATAAATTCCACTGGATGAACAAATGGCTCCAAAGGCCAGA
AAGCCTGAATCCCGATAAACTGTTTTTTAATTCAATTTTTAAATAAATGGTTGTATTTATTGAAAATGTATTCATTCTTTCAACAAATACCTTTAGAGTA
CCTGCCGTATACCAGGTATGCTGTTTAATGAGGATGGGGTTGGAGGGGGTGAATGCATGAAACAGAATGGATGCTGACTCTGTAGAGCTTGCAGACGAAA
GAGGAAGTCAGTAAATAAAGCATCACTGTTACACAGGGGAACGTCAGTTTTCAACTGCTACACAGGGGAGCATCTCTCTAGGATTAAGGGAGGGAGATGA
TGCCTGTCCCAGGGTAACACAGCAGTGGTAATCAGCTGTATATTTTTCTAGCACTATTATGTACTGGATACTGGTCCAGGTTCCACACCTACCTTTTAAA
GCAGTCCTTACAAACGTTTGACAATTGAGGAAACAGACACTCAGGGAGGTTAGGTGACTCCGCCGTGGTCACACAGCTGGTGGGTGATGAAGCTCAGATC
GAAACTCAGACCTGTATGACTCTAATTCTTGTGCTTTTTCATTTCATCCCCATCCACAACACCCACTGTCCTTTAACTATTTCACCCGTGATGATGTTGC
AAGTAATTCCAAAGTTGCTACCTTAAATGTAAGAGAGCATTTTCTTACACAGATGAGTGAGTTTATTTATTTTCATGTGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTRTGTGTGTGTAGATGAGAAAGAGAAAGAGAAAACCACCAACCTTCCTTAGTCATTTTATAGTAGCCCAGCTTGCCAGGTAAC
TCCACGCAGCCCATCCTTACTGGTGGTAACCTCAAATAAAGCCAGATTCTCCCCCTAGCGGTAGTTTGAGAGATGCTCAACAACTCGAAGATTCATAAAG
CATGCTGAGCCATCCATCAGTCAAGACAGGCCACAAATGTCAGAAAAGATTGATAATCAGCAGGGAGCTTGATAAAGCAGCTTTTACTGCAGCACCCTTG
CTCTAAGACTCCCATCCCTTCTGAGAACGCAGTCTAGAGCTGCTGCTTCCATTTATCTATACAAATACCTTTGAATCACTTCACCTTAATATATATATAC
AGTAAGATTTTTTTAAAGCCCTGAATAATTTATGTATAGAATCACCTCCCTTCTTAACCAAATGGAAGAGATTCAGTATGCTAAGTTCAATGGGAAGAGG
GTATATAAAATCCCTTTCAAGTATATGTCTTATAAAATATAGGTCATGAATTGAGTTTTTCAGTATCAAAGAAAAAAAGTTTAATAGACTTACAGCTTTS
TTGCTTTAATTATGGGTGCATTTTTTAAAAACCAAGTATAGTACCCAAGCTATTTTATTATTCAGAAGACTGGCTCTTTTCAAAGAAGTGTCAAAAGTTT
GGTTTGGGGAATTCTTGTGTTTTCTTTCTTGMTSCAGTTTTCCACTTTTCTTTAGTGTGTCACCATCTTTATCTCCTATGATACTAGTTTATAAWAGGCT
TCTAACATGGATGCCTTCCTCTTGGAAGTGGGTTGGGGTTCGTGTTTCTATAGTCAAGCTCTGTATCCTTAAAAAAAGGCCTGCTTTTCAGAATGATGGA
GGACCTCGCTGGCCTGTTTCCCTGGCCCATCAMATCCAGACTCCAGAGCTGCTTTGCCATCTGTTCCTCTCCTTCCTTCTCATTTCTGCAATTTTACCCT
CTATCTAGCTGAAGAGGTTCTATGCTTGTTGGCTCACACTAAAGTCATAAGCCAGGGCTAGAGGGGATGACTTGAATAGTAACATGTGTGTACATATACG
TGTGTATGTGTCTGTACATTCACATACACACACATGAAATCAGCTTCGGTCTGTGATGCACCATTCAAAAATGTCTGCGTAGATTTTCACTAGCTTTGGA
AACCACGTTTGATGTGGTTTAACTGGAAATATTGACCCACGCAACTAAAACTCAGGTAACCCAAGAGACTACTACTGCTGGCAGAGTCGTGTTTGSTGAT
TTCAGACACCATGGAGCAGTGGTCCAAGTTTGAATGATTTTGTTCCCAGGAGACACTTTGGGTTCCACACTGGGGAAGAAGAGGGTACMACTGGCATCGA
GCGGGCCAAGGTCAAGGACTGGTAAACATACGTCAATGCATAGAACGGCCTCCACAGCAAAGAATCATTTGCCTCAAAATGTCAGTAGTGCCAATGTTTC
TCCCTAAATGGAGAAAATGTGGAGTTTTAGTTATAAAGCCCAAATGTAAAGTTGGCAGGAGAGATGCTACAAATTGTAGGCATTGGTTGGTACCTTTTTA
TAGTGAGCCACAGGAACCCATTCCTCTAAGCAGGATCRATGGACATGGAGCTCGTTTTAACAGTGAGCATTTTGCGAGTGGGAGATGTTGCCAGGCCCTC
TGCTGAGGGCTTCCTGTGTGTTATCTCATTGACTTGCCACAGCAGGCTAGAGGCGGATGCTATGATCATCTCTATGTCCCAGTGAGGAAACTGAAACTTC
AAGAAGCTAGAAAACAAACTGTCCAGCAGAGCAGAAGCATTTTCCTCAAAATCCATTCTGCTGTCCTTTAGTAACAGACCTCAGTATACCTTAGCAGCAG
GTGTCCGTATGAAGACTGTATTGCTCAGCCTCCCTGGCAGCTAAATGTGGTGATGTGAGGAAGTACTGACCAACAAGCTAGAAGCAGGGGTCTATGTTAG
ACTTCTAGGATGGATTCTGAAAGGAGCCACCTCACCTAGGAAGAGTACCCTGTATTCTCCTCCTACCACCTATTTCTTTTGCTGTCTGGAGTAGCGATAT
GATGGCTAGAACTCAAGCAGCCACCTTGCTCTGTGACACGGCCTCAAGGGTAGAAAATATGTGCTAGGAAGGCAGGACAAAACACAGAATAAGACCTGAT
TCTGTTGCCTGCGGAATGCCATGGCAGCCCTGGATTGCTTCTCTCCAGAATTATTTTACATAAGAGAATTATGAACTTCTGTCTTATGTAACTCAGTGTT
ATGTTGAATTCCCTGTATTTGTAGCCAAATCTAATAACWGCTGAAATATGCAGCATCACTCAACCAGTAAAAATTAGAGCCCAGACTATATGACGTTGAG
TCAAGCCACGCTTTTTAACCACTGTGCTTTGCTGCTTGAGACATAAGCCCACTTACACCTCTGTATGCCTTTCATGCACCAGTTTTCCTATGGTAATCAG
AAAATTGAGTCTTTATTGGAACAAAAATGGTCTTTGTCTCCTCTGTTATCTTAGAGTTCCTTCCAGAAAGCATTCTAAGRCCTCTTTGACATTAGACATT
TTTATTAGGTTAAAAAAAACCCCACTGCCTTATGATGGGAACTTTCTTAGTGTAGTTATTTTGATTTCCTAGTATTACTGTAATTTCAGATCACAGTCTA
GTACTAATAATCTGAAGAGATTCCAATAATGCACACCATGATGGGGCTGCCATTTATGTCAGTGTGCTGGCTTCGTGTCCACATTCCAGGGGCCAGAGAG
GAAAACTTTAAAGGGCTCTAGAAGGTTTTCAGAGAATATTAATTTTTTTCTTGCCAGTGAATCAAGTTGAAGTGCATCATGAGAAAGTACCTGTGAGTTC
ATCAGGGAGATCAATGTATTCTGACAAGGGTACAGCACAAGGGTTGAGATGGCTGATTCCCATCTCCAAAAGATCTGGTTTTCAGCTATGTTTCCACTGT
GATTATGAGACCTTAAACATGTTATCTTACCTCTCTGGGCTTTGAGTAACTCTTTTGATCATGAGGCTAATAACAATGCCCCAAAAGGATGGCTGTGAAG
GTTCTGTGAGCAAGTAGATATCAGGCTTTGAGCACCATGACCAACAAAATGCCACGTGGGTCACAAATACTGGCAGCCAGCAATGGCTTCTTTTCAGTGG
TGCTAGTTCAGGAGGGTCTTAGTGTCGTCACCCAGCAGCTTGCAGGAGTTGGAAAGACTCTAGAGACCCATGGAGCTGAATTCTAGTCCTGGCTCCTTCT
CTTATCAGCTGTGTTAATTTGAGCCTCTATTTCCTCTACTGAATTGGTGATAATCTTCTGTGGCAGCACTTTGTACGAGTTTGAATTGGGCACATTCGAA
ATGATTCATTATAGAAATATAAATAAAATTTTATTTGTGCACAGAATTAGAAACAGTGTRCTCTCCAAATTTTAAATATTTGTCACAAATTTGCAATTTC
AGAGTGGTTGTCAGGATTCTCTCTCTCACTCTTTCTCAGTTTTAATGAGATATCATTCATATACCATACAATTTACCAATTCATCCATACAAAATTTGTC
ATTCGGTGGTTTTTAATATATTCACAGAATTGTGCGATCATTGCCACAGTCAGTTTTGAACATTTCTATTATCCCAGAATGGAACCCTGTAGCCATTAGA
CGTCGTTCCTTATAGTCTTAGGACACCACACATATACTTTGTGTTTCTATAAATTTGCCTTGCTGGGCATTTCATAGAGAGAGAGTACATAGTACGTGAT
CCTTTCTGCCTGGTTTATTTTACTTAGCGTGTTGTTCAGGTTTCATCCATGTTCTGTGTAGCAGGTAACAGTACCTCCTTCAGTTCTATTGCCAAAGATA
GGGCTTCCTTTTAAAATAAATTTGCTCTCGCCATAGGAAATATCGCTTTAGCTTGTGCAGATGAATATGCACYATTCTTCGTCAAGATTAGTCTTGAGTT
ATGCAAATTCTGAATTATCTGAGATATTCGACAATGTACCACGTACGGAAAATACATCTGTGTTCTGTGTACCTTGCAGTTTTGTTATGAGAATTAAATG
AGATAATACACGTAGCAGCAGGGCTCAATATATGGGAGGGGGTTCCTCAAGAAATAGAGCCTTCTACAATTTTAGTTGGTTTGATTGTTTCATGGTAGAT
CTATTTTTTATCTGCTTTTTCTATAATCTCAACCTTTTTTTTTTTGGATTTGGGCATACACATGCAGGCTTATTGTATGGATATATTGTGTGATGCTGAC
GCTTTGAGTATGATTGAATCTGTCACCCAGGTAGCACCATAGTACCTAACAGTTAATTTTTCAACCCTTTCTCACCAGCACCCTCCGCTAGTCCCCAGCG
TCTGTTATTGCCATTTTTATGTCTAAGAGTTCCTTATGTTTAGCTCCCACTTATAAGTGAGAATGTGCTGTTTTTGGTCTTCTGTTCCTGCATTAATTCA
ATAGGATAAAGGCTTCCAGCTGTATCCATGTTGCTACAAAGGATATGAGTTCATTCTTTTCTATGGCTGCATAGTATTCTGTGGTGTATGTGTACATTTT
CTTTATCCAGTTCACCATTCATGAGTACCTAGGTTGATTCCATGTCTTTGCTATTTGAATAGTRCTGCAACAAACATATGAGTGCATGTGTCTTTTTGGT
AGAACAATTTAKTTTATTTTGGATATATACCCAGGAATGAGATTGCTTGTTTTAAGTGCTTTGAGAAATTGCCAAACTGCTTTCCACAGTGCCTGAAGTA
ATTTACATTCCCACGAACAGTATATAAGCTTTCCCTTTTCTCCACAGCCTCATCAGCATCTGTTGCTTTTTGACTTTTTAAAATAGCCATTCCAACTGGT
GTGACATGGTGTCTCATTGTGGTTTCAGTTTGCGTTTCCCTGATGATTAGTGATCACAATTTTTCATATGTTTTTTGGATACTTGTTTGTCTTCTTCTGA
GAAGTGTCTGTTCATGCCTTTGCCCACATTTTAATAGGGTTATTTGTTTTTCGCTTGTTGAATTATTTAAGTTCCTTATAGATTCCAGATGCTGGACTTC
CATCAGATGCATAATTTGTGAATATTTTCTCCCATTCGGTTTGTTGTCCATTTACTCTGTTGATAGTTTCCTTTGCTGTGCAGATCTTTAGTTTAATTAA
ATCCCACTTGTCAATTTTTGTTTTCCTTGTGATTGCTTTTGAGAACTTAGCCATAAATTATTTCCCAAGGCCAATGTCCAGAATGGCGTTTCCTAGGTTT
TCTTCCAGGATTCTTACAGTTTGAGGTTTTAAATTTGAATATTTAATGCATCTTGAGTTAATTTTTGTATATGATGAAATGTATGGGTCATTTCATTCTT
CTGAATATGGCTATCCAGGTATCCAGAACCATTTATTGAACAGAGAGTCCTTTTCCCATTGCTTATTTGTATCGGCTTTGTGGAAGAGCAGATGCCTATA
GGTGTGCAGCTTTACTTCTCAGTTCTTTATTCTGTCTCATTAGTCTATGTGTCTATTTATGTACCGTACCATGCTGTTTTAGTTACCGTATGCTTACAGT
AGAGTTTAAAGTCAGGTAATGTGATGCCTCTGGCTTTGTTCATTTTGCTTAGGATTGCTTTGGCTATTTGGGGTATTTTTTGGTTGTATATGAATTTTAA
TAGTTTTTCTAATTCTATCAAAAATGATCTTGGTAGTTTGATAGGAATTGCATTGAATTCATAGGGAGCTTTGGGCAGTATCTCATCTGTTTTTGTGTTT
ATCTCACTTTAAGGAATCTCCATCTATGAAAATTCCAACTGATTAAATAAAAAATTAGTCATAAGTCCCCTCTAACAGACCTGCTCATCAAGTGTCTCCA
AGATGCTGTTTAAAAAAATCTGGTTTCTTCCAAAGTGTCAGGCTTTCAGGAGCCCACCAGTGATTCAAGTTACATACCCCTTCATAAATTTCCACGCACA
TCCACATATTCATGAGGCAATCTGAGACCTTTACCTTTGTCAGCCTGAGTACATTTCTATTATGGCAATGTCACAGCCGCGTGTATGAGCTGTAATGAAA
GACAGCTTTTGAAAACTCCTATTCTAAGGTCTTTCCTGACCTATTTCAGCAAAATGTGTAAGTGAAAGACATTTAGACACCTTTTGTCTTTATCTCTTTT
TGCCCTAGGCAATTAGGTGCCACAACAAATGACATTTTTGCTCCTTCAGCAAGCCATCATGGCTCACCTCATAGGTGGGAGACACCAGGATGAACACTTT
CAAATTCTTTATCCCATTCCATCCCCCCAGTGAGATTGGGTATTACTGTCTCCATGTTTCATGTGAGGACACAGAAGCTCAGAAAGGTCAACACCCATAA
TCAGAGGGGGAACCATGTAAGTCTGCCTTTGCCTGACCTCAAATACCATCTTCCTTCAAGGATACTGCATTTCCTCTGTCTCATTGTGGGTTAATTACTT
CTTAGTATGCCTGCTTGTCCTCTATGATAAGGCACTTTTATACTTATTCGGCGGTCTCTAACATAAGCATTCAGTCCTGCTCCCCAGCCAAGGCTGTGCA
TATAAATAGGAAATGTTGATTTTATTGCTTATGGGAGATGCAACAGGCAAGCATCAAAAACTGTGGTGGGGTTTCAGCTGGAAGTGTGCACGTTAAGAAG
CTGCTCTAAGTCATCCCTGTCCATGGGGTTTTTCCTTACAGCATGAGACAGTCCGGCTATGCCTTGTCCTAATTGCAACTCAAAGGATAAGGTCAAACTA
CATTTTAAAAAGGGCAAACATCACCAGGAGGAAATTTTCTAGAGTTAGAAAAACTGTAACCAGGAATCTAGAGATGACATTTATCTTTTAAAGTATCAAT
CAGAGATGCATTCTGTTTCAGGCAACAAAATAGCAATCAGCACAGCTTAAACATCACAGGTTGATTTTCCTCGTATTTCTAGAAGCTGGGAGATGGGTGG
CTGCTTCTTGTGCTTCATTGACTTGATAGTTGGCATCTCTGTGAGTCTTTGGACTTTCCTTTGTGGCTCCAAGAAAAAGAAAACATATAAAGCAGTATTT
AWATATGTGTAAGCACATATGTGAGTATGCATGTGTGCAAGTATGTGTGTATACATGCATTGTGGGCTAGGGAGGAAGGAATTTGGAATGGATTTGGGGT
TAGCCTGTGAGTGGTCCTCACACTGTACCCAAAAGTTAAGAGACCACTAAATGAAGAAGAAACCAGCATTTCCCAAGCTTTTATTATGAATTTGAGAATT
AGTTGGTGGTGAGAGGCATCACTGAAATGGTCAATTGGTTAAATAAGAGAAGGAATCAAAGTGAAACTGGCTTCTTTACTGGCAGAATTTTGAGAGACTT
CAAGATGTGAATAGGCATGTCAGTTTCCAAGATGATGTCACACCAGAGAATCTGTTATGAGCAGGATGTTCCGTCAGCCTGGCACATGGGAGGTGGCAGA
TCCTTTGGAACGGCAGCTCTCAGATCCTGAGCTGCTAGGTATCATGGGATGCTGAGTGGGCGTGCTCCTCCTCCATAGAGGAGTTATTAAAGCCACAGAG
TTAAAGTAAAATGGCCCGAGAGCAAGACAATGAATATCAGAGAGGGTCACAGGAYATCAAGTGGACTTGTGACCTTGGGAGTGTAAGCACCTACAGTGGA
CAGAGGGGAGTTTGTGAGCAATTTTGGGATAGGAGCCATGACATTAATACTTCTTGAATCTCATTCCCTCCACACTCACCCCTCCAATTTAGCTAGCTTT
CTCTGAAAAGCCGATACTCAAAGAATAAAATGTTTACCGAATGAATTAACATGTTATATAAATGTCAACGCAAGAATTTTGGAGGGTCATTTATTTCACT
GCTTCTCATGGGGACCAAGCATCCATCTAGGTTCTTGGTAGGAAATTGACTATCTGGGATCCTTAAGATAGACATAATAAGTCCACATACAAAATGGCAG
ACAGATTTTCTGCCTGTGGATCTACCCAGAACTGTTGGTAGCTGTGTTTTGGGTTTCCAGGTAGTCTCTCCCTCACTTTCCTGTTGACTAGTAAGTGCCT
GGCTTTGATGTAACTGTACTGTGCAAGATACAGAGCCATGATTTTCATACATATCACCTCATTTCAGCCTTGCATTATCCCGAGAAATAGATAAAGGAGT
TCTCATTTACAGATAAGGACCTGAACCTAGTACACAGGAAACTTACCTAAGTCTCACAACTTCCCTTCACATCTTCTCTAAGACCATGTGAACCTGTCTA
TATAAAATAGAGCTCAAGATGGAAGAGGTGACTTTAAACTCATAGGTTTTTACCATTGGCCCAGAGGAAAAATGGAGCTGGAACTCCATTACTTGGTTAG
TCTAGGGACCAGTGAAAGTAGAGTGATAATTTGGGACTTTTATGAATGTTTCTTTTATAGATGTTTGTATCAGCCACTGTTCTCTAGGGAAACAGAAACA
ATGGGAAGAGAGTGTGGGTTGGAGGAGGCAGACAGAAGGAAGAAGAGAGAGAGAGATTCATTGTAAGAAATTGGTTCTTCCAAACACCACATGTTCTCCC
TCATAAGTGGGAGTTGAACAATGAGAACACATGGACACAGGGAGGGGAACATCACACACTGGGGCTTTCAAGGGGTAGGTAAGCGGCAAAAGGAGGGAGA
GAATTAGGACAAATACCTAAGGCATGCGGGGCTTAAAACCCAGGTGTTGGGTTGATAGGTGCAGCAAACCACCATGGCACAGGTGTACCTATGTAATAAA
CCTACACGTTCTGCACATGTATCCCAGAACTTAAAGTAAAATTTAAAAAAGGATATTGGTTATTATGATTATGGAGGCTGACATCTGCAGTCAGTAGCTG
GAGAGCCAGGAAAGCTGATGTGTGGCTCCAGTCTGAGTCTGAAGTCCTGAGAACCAGAGAGCTGATGGTATCATTTCCAGTCTAAACGCCAGCAGGAAGG
GCCAATGTATTGTTTAAGTCCGAAGGCTGGAGTGGACTGATGTTGTAGTTCAAGACAGGYCTCTGACTCAGCTTTTTGGTTCTGTTCAGACCCGTAAGTG
AGTAGATGAGGCCCACCACATTAGGAAGGGTCATTTCCTTTTCTCAGTCTAATAATTCAAATGGTAATCTCTTCCAGACATGCCCTTACATCCAGAATAA
GAGTTGCCCAAGTACCTGGTTACCCCATGSTCAGCTGAGTTGACTCATAAAATTAATCATCCAACTGTTGTAGGCCAAATGTTGGCCCCATGATCTCCAC
CTCCTGGCATTACTCCTGCAGTTATGTGGCCTCACATGGCAAAGGAGACTTTCTTAGTGTAATTAAGGTTATTAATCAGCTGACCTTAAAACAAGGAGGT
TACCCGGGATTATCCAGGTGGACCCAGGTAATCACATGGGCCCTTTAAAGCAGAAGAGGAAGGCAAGAGAGTGAAGAAGAGAGATGCAGCAGCAGAGAAG
AGTTAGAGAAATGAGGCCAAAGTTAGTTCAGAGGGTTGCCAATTCTGAGATCCTGAGGATTCAACCTGCTGCTGGCTTGCAGATGGAATTGGGCTGCATG
GGAAGTGTGAGAAATAAATCCATTCTGCCAGCACCCCAAATGATGCTGGAAAAGGATTTTTCCCCCCAGGGACTCCAATAAGGAACACTGCCCTGCTGAA
ACTGAGATTTTGGCCTTATGAGCCCCTAAGCAGGAAACCTACTGTGAACCCCACGGAGGTCATACTTCTCACCCACAGATACTGTTGTTGTTTTAAGCCA
CTTAATTTATGATAATTTTTTACAATAGCAATAGAAAAMTAATACAGAATGTGGTTACATTATCTTACATACCATTTAAGAGTAAAGCTGCTTTTCACAA
CAAAATAACAGGGATTTTTTTAAAAAAGCACACACATTCATAAACTGTTGAACAGCTATCAAAAGTTCGTTTTCAAATGAATTACCAACTTACAATTTTC
AAGTATTCCCAATACCAACATCATTCTTAAATTAAAACAGCAACGGAAGCAATCTCAGGGACATGTTTAGCAACACTTCCTAGTGAAGCTCCCAGAATTA
TGAATACTTTTGGTATGCGTGCGATGCCACTCATTACCACGAACCGTCTTTTGAGGAGGTTGCGCTGACTGCATTAAGGAGCTTTACGTGCGAGTCCCCA
GCCCACTCAGCTTTCAGAAGTCACATCGCTGCTTGCCACAATTCACCTCGCTTTCCCAGAGTAGACATCTTTCATAAGATGCTGGGATTTGAAGTGGAAA
TCACACTGACAGAACGACATCATCCCTGCGATTGGGATAAGCTACCATCATTAAGGAAGTCACAGTTGCTGGTTTAAGGCTTGTACAAGCTTTTCGATAT
TCTCCAGATAGTCTCCTGACACCTACACCTAGAACACATGTGTTGGAAGTAATCCTTTATGATAGGTCCCTTAATGTACTTGTTTTGGAATATGACCTTC
TCCTGACCTGTCTTCATTGCAGAATTGCTGGAAAGTCTGAAATGGGGAGCACAGAAGGTCATGGTGTGGTGGTTGACACTTAGGAACTCTCAAAAAAGTG
TATAAATTGCCTTGATTTATCACATACTGTGCGTAAGTTATGCTGTTCTCATTCAGCCAACAGTRTGTTTAATACCCAAAGCCCTCTTTTTTTTTCTCCT
TCTTTGTTTTTGGCATATAACAGCTTATTGCAGTATAATTCATMGACTGTATGATTCACCCATTTAAAGTATATAATTCAATGTTTTTTGGTCTATTTAT
AAAGTTACACAATCRTCGCCACAATCAATTTTAGAMCATTTAATGACTCCCAAAATGAAATTCTGGGCTCATTAACGATCATTTCTCATTTCCTCGAAAA
CTCTTTGGTACTAGACAACCAATGATCCACTTTCTACCTCCATGGATTTGCCCATTCTGGACATTTCATATAAATGCAGTCATGCAATATGTGGCCTTTT
GTGTGTCTTCTTTCACTCAGCATCATGTTTTCAGGTTTTATTCATGTTGTAACATTTATCAGCACTTCATTTCATTTTATTGATTATTAATATTGTATGG
GATTATATTTTATTTTAAGTTTTTACGTTATATTTTATGACATTTATCCATTTAAAAGTCCATGGACATCGGGTTGTTACTACTTTTTGGCTACTATGAA
TAATGCTGCTCTGAACATTTTTGTGTAAGTTTCCTGTGGATATATGTTTTCATCTTTTTCTTAAGTATATATCTGGGAATGGAATTGCTGAGTTATAAAG
TGACTCTGTGTTAACCTTTGGAGAAACTGGCAGACTGTGTTTCAAAGCAGCTGTTCCATTTTACATTTCCATCAGCAGTGTATGAGGGTTCTAATTTCTC
CACTTTTTACCAACACATTATTATTGGTCTTTTATTATAGCCTCCTTGCTAGGTGTAAAGGAGTATCTCATTGTGGTTTTGATTTGATTTCCTTTTTCAA
GATTGCTTTGCCTAGTCTGGGTTCTTTGTATTTCCATATAAATTTTGAAATCAACGTTTCAATTTCTGTGAAAAAAGAGAAAGGCAGCTGGAATTTTGAA
AGGCACTGTTTTGAATCAATCTGTAGATCAACTGGAAGAGTATTGTCAGCTTAACAATATTGAGTCTTCCCATCCATGAATATAGAATGCCTTTCCATTT
ATTTTTGTTAATTTCCTTCAACAATGTTTTATAGTTTTCAATAGACAAGTCTTGCATTTATTCTGTTAAATTTATTCCTAAGTATATTTGATGATATTGT
AAATTGAATTATTTTCTTAATTTCTTATGTGGATTATTCATTGTTATTATATTTAATCAATTGATTCTTGTATACTGATCTTGTGTCCTTTAAACTTGCT
GGGAGCTCTCTTTTAACATAGACRTTATTATGCTTATTTTATGTCTTCATTTATTTGCTCAAATCTCGTAGTAGAGCTACTGGAGCCCAACATTCATATT
CTGTTTGTTATACACTCATAATTATACAAGTACATGTGCACAAGTCAAATATTAAACAGATACATACTGAGGTAGCATTGTTCCAAATCCTCATCTATTT
GAGCTTACCTTTCTAACGTGTGAACTAATTATGGAAAGAATTTGGTTGCTTGCTGTAGCTCATGACTTAGGACGCATTTTCCCCTCTTCAACTGTCTTTT
ATTTGAGCCATGATTGAATTATTCACCATGCCTAGTTGTTTTCCTTTTCCTAAACATTTAAAAATTAACTCATTTTCTTTTTTTTCTTTTTTTATTTCAA
TAGGTTTTTTGGGAACAGGTGGTGTTTGGTTACATGAGTAAGTTCTTTAGCCGTGATTTCTGAGATTTTGGTGTACCCATCACCCGAGCAGTGTCCACTG
TACCCAATGTGTAGTCTCGTATCCGTTGCCATGCCCAACCCTTTCCCCAAGTCCCCACAGTCCAATACATTATTCTTATGCCTTTGCATCCTTATAGCTT
AGCTCCTACAGGTGAGTGAGAATATATGACATTCGATTTTCCATTCCTGAGTTACTTCACTTAGAATAACAGTCTGCAATTCCATCCAAGTTTCTGTGAA
TACCATTATTTCATTCTTTTTTATGGCTGAGTAGTAGTATTCCATGTTWTATATATATATATATATATATATATATATATATATATATATATATATATAT
ACTAGGTTTTTTTAATCTGTTCATTGATTGATGGGCACTTGGCCTGGTTCCATGTTCTTGCAATTGCAAATTGTGCTGCTATAAACATGCATGTGCAAGT
ATCTTTTTCGTATAATGACTTCTTTTCCTCTTAGTAGATACCTAGTAGCAGGATTGCTGGATCAAACAGTAGGTCTACTTTTAGTTCTTTAAGGAATCTC
CACACTGTTTTTCACAGTGGTTGTACTTGTTTACATTCCCACCAAGAATGGTCATGATCAAAAAATGAAAAAATAATAGATGCGGGGAAAAGGGAACACT
TTTTACACTGTTGGTGGGAAAATTAGCTCATTTTCTAGTAGCAGTATATCTCTCCAACAAACAAGTCACCTGTTTTTTTTTCCTGAACACACCATCTCTC
RTCATTCTTGATGCTAAAATATAAGCATGTAGGTCCAAACCTGTCTCTCCTCCTTTCAGAGTGACCAGAGAGACCCTTCTAGTGTTTTGTTTTGTTTTTT
TGAGYTGGGGTCTCCTGTGTTGCCAGTCTAGAGTACAGTAGTGCAGTCATGGCTCACTGCAGCATCTAGCTCCAAGGCTCGGGTCATCCTCCCACCTCAG
CCTCCCCAGCAGCTAGGACTACAGGTGTGCACCACCAGGCCCTGCCAATTTTTTTAAATTTATTTTTCGTACAGATGGAATCTCACTGTGTTGCCGAGGT
TGGTCTCACATYCCTGGCCTCAAGTGATCCTACCACCTCAGCCTCACATAGTGTTGGGATTACAGGCATGAGCCACCATGACTGTCTTCTTCTAGTCTTG
ATGCCTCTCCTCTCCATCTGTAGACCCCACTCCTCCTAGGTCACTTCCTGTGACCCCACACCAACATCCTTTCTCTAGAAACGGCCATTCCCAAACTGTG
AGCCTCGTGTTTGTATTCATSACACATATGTAGCATCCACTGTGAAGTCAAAATTAAGGTGAATGGTAAACTCAACCACCTGGCTTCATGTTGACCTTGT
CCCTAGACTCCCATTCCCTGCAGCTGGTCTTGCTCTCTACTTTGAAAACACAGTTGATGCCATCTGAAACGATCTCCTCCACTTGGATCTCTCTGCCCGT
ATTTACCTGTATCTCCAATATCTCCTGCTACTCAAGTATCTTCTTTTTATTAAAACTTTCATATCGTTGGCTAGGCGCGGTGGCTCACGCCTGTAATCCC
AGCACTTTGGAAGTCTGAGGCGGACGGATCGTGAAGTCAGGAGATTGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAAATAGAAAAA
ATTAGCCGGGTGCGGTGGCGGGCGGCTATAGTCGCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCA
AGGCTGCGCCRCTGCACTCCAGCCTGGGTAACACAGCGAGACTCCATTTCAAAAAAAAAAAAAAAAACTTCCATATTTTCAGTTCTATCTTCTTTTTATT
CTTCCTTTACCTGTACCTTTATTGATTTATTTTAACTTTTGTTTTAGGTTCAGGGGTACATGTGCAGGTTTGTTATACAGGGAAATTGTGTGTCACAGGG
GTTTGGTGTACAGATTATTTCATCACCCAGGTAATAAGCATGGTACCCTATAGGTAGTTTTTTTGTTCTCACCCTCTTCCCACCCTCCACCCTTAAGTAG
GTAGGCCCTGGTGACTGTTGATCCCTTCTTCGTGTTCTTGTGTACTCAGTGTTTAGCTCCCACTTATAAATGAGAACATGTGGCAATTGGTTTTCCATTT
CTTTGTTACTTTGCTTAGGATAATGGTCTCCATTTCCATCCATGTCACTGCAAAGGACATGATCTTGTTCTTTTGTATAGCTGTGTAGTATTCCACATTA
TATATGTACCATATTTCTTTAATCCAGTCTACTGTTGATGGGCATTTAGGTTGAATCCCTGTCTTTACTACTGTGAATAGTGCTGCAGTGAAAAAATGCT
CAACATCACTAATCATTAGAGAAATGCAAATAAAATCCACAATAAGATACCATCTCACACCAGTCAGAATGGCTATTRCTAAAAAGTCAAAACGAAACAS
GTGCTGGCAAGGTTGCAGAAAAAAAGGGAACATTTTTACACTGCTAGTGGGAAWGTAAGTTAGTTCAGACGCTGTGGAAAGCAGTTTGGTGATTTCTCAG
TGAACTTAAAACTACCATTCAACCTAGCAGTCTCATTGTTAGATATATACCCAAATAAATATAAATCATTCTGCCATAAAGATGCCTGTACTTTTAATTC
TATTTTCTGTTGACTGCCCCATGGCCTTTCTTTTTAAATCATTACCCTCTCCTTCCTGCATCTTCAGTCACATTCTCCATCATTTCTTTTGCATTAGTGG
AGAAACATATCCAGGTCTCCCAATCCTAATATGAGAGAATCCACTATACCCCTGCCTTTTTGTTCTTGCTTACTGCCCATTATAAGCCCTTTTCCTCTTT
CTTGGCATACTTATACTTTCTGAAAATGCAATGTTTATTATGTCAGCCATGTATACATCTGCTGTTGTGAAAGATAATTTTAGGTGGCATAGAGGTGATC
TTTTATAATTTTAATAGCTATTTATTTTGATGTACAACKAAGCAATACCTGGTACGTTTCCATAATTTAAATCATATCATTGCTTAGAAGTAAGTTAAAT
TTCAAAAATCAATTTAAAGTATATTGAAAGTAGATTAATAGTGGTACTGTCAATACTTACATATGAATSACTGAAATACTGGAAGGCTTTGCATGTAAGA
AAAGCAGAACTTTAAAGACAAACGGAACTCAGAGTGGATAGTACCCCTGAATGGACAGTGCTTCACGAGTCTTTTCTGGATGACCCTAAGAAAGTTAGTT
GTCTACATTGCAGAAAGGCTATGAAGATTAGAGCAATGTATTTAAAGGAACAAGAACATTGTCCAGAAAAAAAATAGGTGTTTAATAAATGGTAACTAAT
CATCCCCCGGACCGTATATACAGATATATAGGGATACCTTTGGGGAAAGTAGAATGGCCCAATATGTAGGTTATTCAGTTCCACGTAAGTGGGTGTTCAC
GAGATGCTTCCTGATTTGAAACATCACCATCATCAACAATAACAGCATTGATGAGAGGTCATCATGGGCCACCACTGTACTACGCCTTTCAGATGTACAC
CTCACTCATTCCCAGTTTGCAACAGCTTTGTATGGGAGGTTCTGTAACATCCCCACTTTATAGGTGAGAACACTGAGTCTCAGGGAGGTGAAATATTTTA
CACAAGATTGCTCAACTAGTGACAGGTGAAGCAGAGATTCAAATTCCAGAAGTCTGATTTCAAAGTTGTCTCTCTTAACCACTGTGTTGTATCTCAAATC
ATGACAGTTCTAACTTCATGTGTCATGGTACTTGGCATAAGGACGTTTTTCTCCCCATTCTTCCCCAAATTCAGTGCAAAAAATATATATGCTGAGTTTT
TCATGGGCCAGGTCTACTCTATTCTTAGAGAAAGGGTCGGGTGCGGTGGCTCATGCCTGTTATCCTAGCACTTTGGGAAGCTGAGGCAGGTGGACCACGA
GGTCAAGAGATTGAGACCATCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATATAAAAATTTACTGGGTGTGGTGGCATGCAACTGTAGTCCCA
GCTACTCGGGAGGCTGAAGCAGGAGAATGGCTTGAATCCGGGAGGCAGAGGTTGCAGTGAGCCGAGGTGGTGCCACTGCACTCCAGCCTGGTGACAGAGC
GAGACTCGGTCTAAAAAAAAAAAAAAAAAAAAAAAAGACAATGACAGAGAGCGACAACTCATCTCTGCATCTCTGCTTTCTGTGGGGAAACTTGCAAGTA
AAGGAGACTGACAAGTGATGGCGTTAAACTGTGCTAAGTTGACAAAACACAGAATCCTCACTGCCTATGAATATGGATCTAGGGAAGCCAGCAATGGACC
TTTGGCAGAGTCAAGTGAAATCTTTATAGGAGATGAACTGAAATAGTTTAGAAAGAATGCATTAAGATAGTTTTACCTAAATAGTTTATCGTCATATCAA
TAAAATTGATCATCTCTATCACCAGTTTTAAAGTTGGCTTTGACAACTTTTCCAAAGCCAGAGTTTGGGCATATTTGGGTATTTCCATAATATTGAGCAA
ATGTTTAAACTATATTGAAAACGTTTGCCGTGCATAACAGCATCCCAATAGGAAGCAGACGGCATGCTCAAACTAGGACAGTTGTAGGAGGACCTATTTT
TAAAAGGGCCTAGTTACAAAGGGGAATTGCAAAGGATAGGAGCATAACCTTGGGCAGTAAGAACTGAGTAGGAACAGTGCTCCACAGAGAGTGCAAAGTA
AGCTGATGGGTTGAAGCTAAGGAGCAGGGAAAAGATCTAGAAGGCTCCCAGGCAGAAAGTGATTGGTAAGCTGAGTCTTGAAGGAATCCCTTCTGGATAG
CATGAGAAGCTTGTTCCGGAAGAAGGAACCTATGTACGAAGACCTGAAAGAGTAAGGCATGATCTGAGAATACAGGTAGAGGGGGTGTGACTTGGGCATA
GGCTATGGGGATGGCAGGGAGTAGAAAGGGCTGGAAAGGCCACCATGATACAGGTGTTGGAGAGAGGCAGGCATCATGCAAAGTGTATGTGTTAAGACTA
TTAGGAACAAAATATTTGTGGATTAAAGATATAACACAGTGGTTAAGAGAGGCAGCTTTGAAACCAGACTTCTTGGATTTGAATCTCCGCTTTACCTTTC
ACTAGTTGAGGGATCTTCGATAAAATACTTCACCTCCTTGAGACTCAGTGTTCTAACCTATCCCTAGACCTGAGGAATGAAGGAAGAGTCACTGATCTGG
AAGGCGTGAGTCCCATAGAGAGCCTCGTGGGAGGAACAGAGACCACCAGCATGGGATACATCCAACCGCAGGCAACCCGAAAGGGAAGGATCCAGGGGAA
TGAGCATGCTGACCTTACTCAACCACCACCTTCTGATCTCCAAACGCAACAGGAAGTCGAAGGTCTTTCTCTATTCAGGCCAGCCTCTAAGGACAGAGGG
GAGGCAGTGGAGGGTACTAAGGCGTGCTAAAGGGTCACACTAATGATGCTCCGCAAAGAGTGCAAACTTTCTTATATGTTCTTGCTGCTGTTCCATAAAG
CAAAGACTGGATCCACATAACCTGATGGAGCAAAGTCTTAGTCCAACCCCTTAGCCTGCAAACTCTGGAATTTTAGAAAAGTCAATAGTGTGCCCCAGAC
ATATTTCAATATACCTCCATTTTACTCMAGGTAAAAGGTTTCTTGCATCCATTTAACTATTGTAAATGAATAACCATGTGACCCTCAAGAAGATTCCAAG
CCAAATTCCATTGGTTTCTAAGGTCTTAGGKTTGCTTGCTTTTGGCAAAGAGTGTACTTATCTTTTCATGCATGCCTTTAAAGAGACCATATTTTTTCTC
TGATAAAGTCAATTATCAGTGTATGTGCTGCTCTGTTCACAGTTTTGACTAAATAGTGCAACATCTACGTAGAAAACATACCCCAAACTTGAGTTTTCCT
GGGTTGTGCATTGTACATTGTCAAAGCGTAAAGAACATCTGAGTTGGAACTCGTACCCACTTCAGGATATGAGAAGATGCAGGTCAGTGATTTGTTTCGA
GGCGGAAGAAGCTTAAAGAAAGTACCTTGCGCTGTGTGTTCCTCCATTAGCATTTGTTATTATGAAAGCATTAGACTATCTCTGGATGTTTTCCACACAC
CTGAGAGTGTSAAAGAATGACAGGTACCTCATTAAAGATGCATAATATCTAGYCTCCTGTTCTCACACAGACTCCAACCACTGGTATGAATATACTGCTT
CCATATGAGCCTGCTGCAAGCCAGCCAGATCCTATTCAGAATATCTCCTTTCTACCACATCCAAATGTGGGCAGCMTATATATACAGATTTGAAGTGCAA
AGGGTTTGAGTCAACTTTTTGATAACCGTGGGGATTTTCCATCTCAAGAAATTCCGAAAATGATGTAATGATATAATGTAGCAGAATTTTAATTTAGTAG
GTAGGATTAAGAGCTGACAAATTTCCTCTCTTTAAGTTTCTTTAATTCTGTCTGTGCAAGTCAGAGCATTCGGTRTATTCCCACCCTCCCAGCTGATATG
CTAAAATTGGTTTCACTGTACTACTCTCAGGCATGCAATGAGCTAGGCAAAGCTGTTTAGTTACTTGCGATCTGTTTACATTACATAGAAGGTTGGTTAA
TTAGAAATAATCATGTTTCTTAATTAAGGAACAAATTGATTTTTAAAGAAGTGCTGAGGCCCCCTTGGGCCACAGCAGATAAGGGACTGAGCTCATGGTT
TGTGGTTGTCTGTGTGATTCTCTTTAAGGAGGGTCTGAAGTGTACAGTGACACAGCTATCAGTGGCTATGRAATCAAATATTTGTAGATTAAAAATTGTA
CTCATTCTGCTGACATCTTATGAGTATCTGTTGTGTGCAGAGAAATATGTTGGAGRACTCTGGGAACTTGAAGATAAGTAAGACAAAATCAGATCTTTAA
TGGAGCTGAGGGTGGCATGGTAAAAACAGKCTTGTATGTTGTATATTTAGCAAACTGTGTTAAGTCCTAGAAGASAGATGGGTAAATATCCCAGGAAAAC
ACTGAGAGCAAAGTAAGCTGATGGGGTGAGGCTAGGGAGAAGGCAAAAGATCTAGAAGGCTCCCAGGCAGAAAGTGATTGGTAATCTGAGTCTTGAGGGA
ACCCCTTCTGGATAGCATGAGAAGCTTGTTGCAGGAAGAATGAACCTGTATACAAAGACCTGAAAGAGTAAGGCTTGATCTGGGAATACAGGTAGAGGAG
ATGTGACTTGAGGGTAGGCTATGGGGATGGCAGGGAGTAGAAAGGGCTGGAAAGGCCATGATACAGGTGTTGGAGAGAGGCAGACGTCATGCAGAGTGTA
TGCATTAGGACTATTAGGGTGAGTTTAAGCAGGGAAAAAAAATTGCATCAGCTCATTTATTTAAAGGACCAAGAGGAGCTTTAGGGATAGCAGTATCTAG
GTGTTCCAACTGTATTGTGAAGAATCTTTCTTACTTATTCCTTGGCTCTGCTTTTCTCTGGGATAGCTTTCCCCAGGTGATAGCAAACAAAAATGGCCAC
CTGGCATTTTCCCTACTATTTTAGCAAATGAAGCTGCCCCTCGCCCTTCATAAAAGTATTGTTCCCATGTAACTCCCTTTAAAGTTTTAGGTATGCCTCT
GTTGGCCCAGTTTAAGTCATGTGCCCATCCCTGAATTAGTCTCTGTATGCACAGATGTGGAAGACTCAAAGGGGCTTGTGCCTACACCTAGAGCCAGGTA
TGGGGGAAAGGTGATACCAGCCCTTCCTCAACTTCAAGGACTAAGAGTGAAAGAATGGTGGTCGCTTAAGGGAAAAGGAGAATGCTGATATCAAGAGCAA
GGAGAACAGACGCAGGACAGAAATAAATAGATAGCTAGTATGCAAAGATGTCAAAGTGACAGCTCTTGATGAGTTTTGAGTAAAAACGACATGGACACAT
TTTCATTAGAAAAAAATTATTCTGGCTTTGGAGAATGGGTAGGAGAGAGGAACATCTAACTCGGTGAGATGCTAGCATGATGACAAGGGCTTGGTCTCAG
GTGGTTGTGGTAGAGATGGTGAGCATGAGACATGCATARTCTAGAGAGAGTTAGGAGGTACAAAAGATGGACTTGGGGGTTTCTGATACATTACAAAGGG
CCAGAAATCTTTGAGCATCTTGTCCCCTCCCCTTGATTCTAGGTGAGGAGGGGACATTGATTTGACCAATACAATATGTAGAAGTGACACTCTGCCACTT
CTTTGATCCAGGCCTTAAGAAATGGGTTGATTTAATTTACTGTCTCTTGCAACGTTCACTCTGATAGAAGCCAGCACCACATAAGAAGTTTGGCTACCTG
GAGACTGCCCTGTGTGGAGATGCTCAAGCTATATGAAAGGGCCTTGAAGGATGACATACTGTATGAACAGAGAGGTCAAGGAGGAGTGAAGCACTATTCA
TGGGAATAAAGGAGCTATATCAGAATTAGACTCTCCAACCCTGGCTGACCTCATGAGAATCTGAGATGTACCACCCAGCTGAGTCCTTCCTGAATCCCTA
ACCCACAAAATCATAAACACGATAAAAGTGACAAAATGTTTAGATGTTTTCATTCTACAGCACTAAATAACCAGAATAAGAACTGAATTAAACATAAAAA
GGAGGGAGGGGTTTATGTTATCAGCCAATGGCAAGCACCACTGAAGTTTTTAACAAATATAAGACAAAAGGTTAAACCACACATCTGGCCCACACCCAGC
CCCCAGTTCCTAAAAAGCCTGGTCCATCTCTTCCTCTTCTTGCCACATCTCAAAGGCTATCTCTCTATGTGGATATAAATTATAGATTTAGGTTATAGTT
TCCCTTCCTCCTGGGGTTTCCTCTTTGATGGGACTGTCAAACTCTTGGGTGAGCTTTATTGTCAGTCACAGGGTCTGTCAGTTTTCCCATAGTAGTATTA
TTTCACTCATCCTTTAATGTGCCCATTGGTGGTGACAAATTTTCTAACATGCAACCACAGGCCATAAATGTAAAAATAAAGCAAAAGTCATTGAATTGAA
AAGCAGGAGACACTTTGCAAGGCTCCAACCAGTGAGCTTCCATTTCTTCTGCCTGATAATGACTCCCACACTTATGCCATTTCTTGAGAACTGTAACCAG
AAACCCATGTTTTGGGAGTCAATAGAATAGATCAGAGCAAAGACAAAGGCAAGAGAAGTGAGATTGGTCTTTGTTCTGGTGTTATCTGGTAGAAAGACCA
TAACACACAGCTAACCAATAAGGTACTTTGCAAAAATTAGAAAAAGGTGTCCCCTTCAAGCAGATAAGTTCTGAGAAAGTACCCCTCTGGAAAGAAGCAG
ACCATTGAGGTCTTGGCTTAATGAGTAGAAGATGAATTTGCATGTAAAACAAATATATCCCTTCTTCCAGAGAGCTGAGCAAGAGGAGGGCAGGCTGCTC
TCAGTACCCTTTGGACCCGCTACCATGCATGGTGGCTTTGAAAAAGCCAGGCATTTGCTTCCTAAGAGCACACCTTGCAGAAGCAGCATCACCATCATCA
CTAYGATTTATCCAGCCTTTGCTCTATGGTAGATGCTGTGCAAGTGCTTTCGGTCTCATCCTGAAACAACTATTGATATAGATGCCACATAGATGACAAA
ACAACAACTGAGAATCTTGATGCCTTGCCCTGAAACACACAGACTAGGAGTGGGAGAGCTGTAACTTACACCTGACCTTTCTAGCTCACATGTGGCCTCC
TGTTCAGCGGAGAGGGACTTCTTGGAGAGGTGCCCTGAGAAAAACACATCCCTTGACCATGAGTTTTTAACAGTATCAGCTCTCATCGGGACATTATTAT
GTTCTAGTTGTCTGCAACGATAATATATGTGACTGTTATTTTGTCTCATATCTCCAATAAAGGGGTCCCCKTCAGTTGGATTGGCCATACCTTCAGGTGG
GATGCAACTGTGAGTCTGTGTACATGGCCCAGAAGCAAATGCAGCACAGTGGAGTGATTAAGACTCTGATATGATCCAGTTATTGCTGGACTGGATCTCT
GTTTCTTATTATCATATTTGCATGACCTTAGGCAAGATACTTGACTGCTCTGAGCCTTAGTTTCTTCCTCTTTAAATTGGGATGACTGTAGTTTGTTATA
AAAATGCTGTAGATAATTCCCAGACTTGTAGGTAACACATATTATTAAACAGTAGAACTGTCGTGACCATTACCAGAAAGATTTTACAAACACCCTAAAA
TCATCATAGGATTCAGCTAGTGTTCTTAGCCTTCTAAGCTCACACCATTGTCTCATGCTAAACTTGTGGTCCACCAGAAACTTAAGTGCATATTTCTTAT
AATTATTTCCAAGATAGGTTTCTCCAGTTTAGAAATTGTATATACACATGCATCTATATATATATATATACACACACACACACACACACGTGTGTGTATA
ACATATGCTTATCCTTGATGTCATATTTACCCATGATTTTTATTTTAATTAGCTTTACCCCATGGGAAGAATACAATGTCTTTTGTCTTCAACCTGGTTT
GTTGGCAATTATTCTTAGCCTTTTTAAAATATTCAAAATCTCATAAGCATGCATTCTGCATCTTCACCAAAGTAATAACAACTGTATATGGTTTAGAAGG
GCACTGACTACCTCTCCCTCAAGTGTCAACTAAAAAATATTAGATACGAAGCTTGAGTCAAGAACTGTCCTGGGTGCTGTTGACTCTTCTACGTCCGGTG
TCTTCCATGGCCTATGGTACAAAGTCACTCCAGAACATTGGATGGATGGATGGGTGGAGAGACGGATGAGTGGATGGATGGATGGTAAGGTTATTGAATA
GAATAGAATTATATATTTATGTTTACCTTTGCCTAAAAGGCAACCATACAGTGTTTTGGTGAGGTTGATCAACCAGTTATATATTTACCTAAGAGTTTGA
TCACTCAGCCCACGTTTTCCCATGGTATGCACAACTTGATCATGAGAAGGTTTTCACAGGCCTTCCTGAAATCATGATACTATATATTTGCCAGGCTCCT
GGTTTATCAGTTACACAACAACAGACTTGAAGAAGAAAACCAGCTCACATCTGTGCACAAGGAGACACACAGTTGTTCATTACTGCATTGTTTGAAAACC
ACTACGTTGTAAATTGCATAAATGTGTATCAATGGGTGAATGGCTAATAAAAACTTTAAAAATAAATATAAAACTGCMATTCAAAGGAATGAACGAAATA
TTATATAAATATATAACCCAATAATTTCTATAAAGATTATATGTGTGTGTATATAGATATATGTATTATATATGTGTGTGTGTATATATATATATATATA
TAGAGAGAGAGAGAGAGAGAGAGAGAGAGACTGTCCCAGAACAAGGAAGCCAATTTTAGGGCATATTCCATATAATACAATTTTTAAACAATTAATAAAC
ATATACATAAAATATACCATATTATTCTCAGAAACAAATATATGCCTAAGATGATTCAAAATGGACATTGGTATTCTTGCGTGAGGATGAGAGTGGTTGT
CATTGGTAAAAAGGTTGAAAGTCATAGAACAGGATATGAYGGATCAAAGATCTTAAGCTTTATCTGTAATATTTTATTTCTTTTAATAAAATAAAGACAA
AGCAAATGTGACAAAGTGTTACCAGTTGGCAATTCCAGATGGTGGGTGTGCTGATTTTCATACTATTGTTCTTTGTGCTTTTCTGTGTTTTCTTAAAATT
CCCAAAATATGAAACTGAAGAAGGAAGGTAACCATCATTGGTTGCTGACTGTCAGCCCATTCATTCTATTTTTGCTCCCAGCTATTTTTTATTTGAAGAT
AAAAGACGTGACAGATACACGTGAAACCTTTCTATCTACCTACCTAATTTAGGATTAGACTTAGCTGCATGTAAAAGAAAAAAAAATCTCAAGAGTGAGA
CATTTCTTTTTATCACATAAAAGACATTCAGAGGTCTGTATAGGGCAGTCTGGAGACGTCATTTGGGACAAAATTCTACCATTCTCAGCACGTAGATTCT
GCCCTCCAGGCCACTTCATGGCTCAAGGTGGCTGATTGGAGCTCCAGCCTTCACCTCCATATTCTAGACCAACAGTACCCTCCCTTCCCAAAATTACCTC
TGCTTACAGCTCATGGGCCAGAATTCATCACATGGCCATGTAACTGCAAGGGGGACAGAGAATATCATGTTTCATTAGGGCACATTACCCAAGGTTTTTT
TTTTTTTTTCCTTTAATTAAGGAAAAAGAGAAGAGTGTATATTAGGAAGTAACTAGCAGCCCTGCCACAAAAATGCCCTCATCCTCACTGCCCTCCCTCC
CTTCTCAGAGGAAGGCACTCTCTTARAGTTAGTATATAACCTTCTTGTCTATGTTTCTATAATTAAATAACTATGTTCCTATCCATTTAAAATACATGGT
TTTATTGATCTTAAAGTTTTAATAAATTCTGCAATTATTGCTTTCTTGTTCCAGGAAACATGCTAAGTACTTCATGCTTATTATTTCATTGTGTCCTCAA
TAGATGGTAACAACTACCTATTTAATAGTTGCTTGCTTTTTTCACATTTTAGCAAATGTACCTTTTTCTAATTTCTAAAGTTGATGTTCCCTCCTTGCCA
TCTGGAGTGAGCACATCTCTTTAGCCTCCACCAGTTCCTAACTGCCTGAAATTTTCCCAGAAATCGTGGACTCCCCCTTTCCCTGCCCCTTCATGTCTTC
CTGGATTTCTGACATCTGGCTTCTCCTGCCTGTGCATTAAGAGTTCCAAACCTCTCTGACTTAAGCCAACAGTGACTTTCAGTGTTGTGCGTTCCCTATC
CATGTTCATGATTTTTTAGCACCGAGATCGCATCAGCAAGAACCCTCAAAGCCCTGGGATGCAGTTCTTCTGGATCTCAAGTCTTGAACACATTAAATGA
TAAGCTCTTTACAGACTTTCTCTTCCCAATTATTAAGCAGSAATTACCCTTCACATCACCTTCTCCCATATCACCTCTATAATTCCAACCACTCTCACCT
AAAAAAGCTCACCTAAACCCACCACTTGTCTATCTGAGTCAAATCATTCCAAACCAAAGCTGCACATGCCTGAAATTAGGGATTAAAAAAAAAAAAGTAC
CAAGAGGATAAACACCTTCCTTCCTTTACTAGATCCAGGGTATTTTTCAACTGAATGCAGCCATTGCCACCCTATATTTGGCTTTTAGAGACAGACTGAA
GTCTAACAAGWTGCTCCTTATACTTGAATTCACAAGTAYAAAATCATATGGATGACTTGTGCACCTTGCTGTCATTCTGTGCAGAGCTCYGCCTGTGCAC
TCCTTCCCTCACTTACCGAGKGCCTAGTTCATCCTCCACCTCTGTGGACACAGGAACGACKAAAAAGTCTCCCTTATGACCTAACGGCTTAGAGCATGGG
TCCCATAATCCAATGTGAATGGGCTTCCACCCCAACTCTACCAGCTACTTMTTGTGTGGTTGTGAGTAAGTCACCTACCTTCTCAGAACTTCTGTTTCTT
CATCTATAGTAGAAGGATACTAATTCCTCCACCATAGGGATGATTTGAGGACAGCACTGACTAATAGCCATAAAGTACTTAGCTTGCTGCCTGGCACATA
ATGAAGACAAAAATGAACATTGACCAATACTAGCATCATCTGCATCTCCACCATTTCCACCATCATCCTTAATTGGTTGTGCAAATAAATCCACAAGTAC
AATTTAATCAGGTAAATTAATGGAAATATTTTATTCTGGGGTTATTTTAAATGTACAGAAAAGTTGCACGAACAGAACAAAGAACTTCCATACCCCCTCA
TGCTGATCCCCAGCTATTCACATTTCACTGCGTACACTCTATCTCCCTATGTATGTATCTATGTGATGTCCCTTCAACCCTCAGTGCTCCATCATATCTG
CCTCCCCAAGTACACCCTCCTGCATAACCACCATGCAAACCCACAAGTCAAGAAATGAGCACTGAAACAAAACCCAGTGCATCAATACATTGATGCAATG
TCCAATCTCCACACCCCGTTCAGGGTTTTTCTAGCCCTCCTACCTTTCCCTTCTTAAAAATACCTTCTGCAACAGTGAGAAATCTTCATTAACCTCAGAT
CTGTCCAGCTGTCCTAGTGATGTCTCTTTTTCATATCTGGCCCAGGATTCCATCCAGTTACACCAATGGTTCTCATCTGGAGCTGACTTTGCACTCCCCT
CTGACCCCACCCATGGTACATTTGGTAATGTCTGGAGACATTTGATCACACAAGTGGGAATTGGTATTGACATCTAGGGCTTAGACACCAGAGATGATGC
CAGACACCGTGCAGTGTGCAAGACAGACCCCAAGAATTATCCAGTCAAAAATCTTGAAAGAGCTAAAGTGCAGAAACCCCGAGTTACACATTGCATTTAA
TTGTCACATCTTTGCAGTCTGCCCCAGTTTGGAGCATTTCCTCAGTCTTTCCCTGACTTTCATCGTCCCAACAGTTTGGAAGAATGCAGCCCTACATTCT
GCAGTGTGATGCTCAACGTGGTCCATCTGATGTTTCCTCGGGACCAGTTTCAGGTCATACGTTCTGGGGAGAAAAACCACAGAAATGATGCCATGTTATC
AGTGTTCCACCTGCTGGGGCACACACAACCAACCCTGCCCAAGGCTCAGGAATGTTAGCCTCTTTCACCTGGTCATGTCAACATCCTCAGGTTTCCCCCC
AAAAAAGTCACCATTTTCCCCTTTATAATCAAATTTGCAGCAAGATATTCCAGATCATCGATCTTGTGATATGCTGCTCTCATGAGACCTCAACTCACAA
GCCTTGACTCACCTGCCAGTTCTTAGCTGAGCATCTGCCCTGATGGTGTGGAGTGATTTCCTTTTTCCATGGCTCCTTGTACATTTATGGTTGGCATTCT
ACTGCAAGGAAGACTGTTTCCTCTTCTCCCATTARTATATTCATTCATTTATTTTTTATATCAGAATGGACTCATGTGGTTTTAATTCTTTGGRTTGTTT
TCTGTTGCTGTCTTTCTTTTTTAATGCTGTGCTTAAATTGTGTCATATTTGGCCAGGGGGAGCCTGGGGCTTTTGATAATTCCTCATTTATTTTTACCGC
TTACTTTCTTATACAATGAGATATTCTGAACTCATGTTGTACCTTCCTGCCCAACCCTGGATTGAGTGACTTCCTCAAGGAACCTTGGTTTCTTTTCATG
GAGGGTGGTCTTTARAAATCAGTGTCTGGGTATTTGGTGAGGTTGTGGCTGCTGGAGTGTCACTGCTGCTAGGTSCTTTCAGCAGACAGAGCAATGATAC
AGACACACACATATACATACACATATACATCCACACAAATATACGTACATATATATGGGTGTAYACATATATACACATGGGTACATCTATATGTACTCAT
TTATACATGCTTGCACATATGTCTACAACTMCTGTATCTCTCTGCATTGTTCATACATTAAATTTAAAACACAAGTTCAAACTGATATCTCCAATTCCAA
TCTAATATCTAAGGGTTTTTCTAGCCCTCCTACCTTTCGTGTTTATCAATACCTTCTGCAACAGTGAGAAACCTATTATTATTCTCAATATATCTACTAA
TTGATTTGATGAAATCACATGATGTAACCAGCCTCTCAACCATGCCAGCCATCTCTGCTGACTGCCACCTCTGCCTGACTTCCCAGAGCCCCATATCCCA
GGCTACCAGCAGGCACTGGTCCTTCCTTTCTTCCCTCCAAGTCCCCCAGGCCAGTGAAAGAAGGAAATAGACTACCGAGGCGAATTTATGGACAGAACAA
TAGGGTCAAGGGTTAAGCCAAGAGGCTTATTACAAGAGGTAATGCAAAGAGGCTTTCTGCAGGAATCAACACCTTGAGCTGCCCCAAGGGCATAGAAGCA
TCAGCAAGGTTAACACCCTGTGGGAACACGAGCAGAAGGAATGGTTCTGCCAAAGGCATGGAGGAAGAGAGCCTGGTCACTCTGGCACTTGCATGTGGGT
CAGCAGCATGGGATCCGAGGGTATGGAGAGGGGAGAGTGGTGAAGAGGAGGCTAGACAGGTGTGCAGGGCCACATGGCAAAAGGCCTCATGTGGATCAAT
GTGGACTAATGATGAATCTTTCCTGTCTCACTCTTCAGGCATGCGCTTGGCTTTTGGATTCTTTAAGTACTCTCAGATAAATCCACCTGTCCTTTCCAAA
GTCATTTCCATCTATTATATACAAGTCTCATGAGTTGTCGTGTGTAACATGGTATGTCCAACTTCTAGGAAAGTATTTTGTACATAGTATATGCTCAGTA
AGTATTTTAAGGCACCAATGTATATTTTTATCTCAAATAAGCTCTCCTGGCCCTCTTTCAAACAAAGATGGTTGGCAAACAGCAGCCAGCTCCCAGCACA
GGTGGCCCCTACTGTCTCTACATTTGTATGGAAAATGTAATGGGTCATGAAATTGCATGCATTAGCATGCGGATGCTTAGACATATATATTTTTTGCAAA
CATTTCATCCTATAAAAGTAAGGGACCAAAGTATAAAATTCTTTAGAGGCATCAGCTGGAGGTAGTAGTCAATGAGAGAGAATCATTGTTTCCATTAAAT
AGTACCAGTTTTTGTAAGGCAAGTAAGATCTTCATGTTAATTCTAAGAAACTGTATGCCTCATTAGGCAGCTAAGGCATATTATGATTTGGATGCAGAAT
AACCCCAGTGATAAATGAATCTCCCAGCAGARTAGCTTCCAGATTATAATTTCTTTCTTTGCAAGATTGCTATAGGCAAGGTGGCCTGATCACTTTTCAG
AGGCCCATCTTAATAGTCAGAGTAAGCTCAGCTATGCTGTAGTAACAAGAAAATCCCATAATCTCAGTGTCTTAATAAATTAAAATAACTTATTTATAAC
AAAATGTCTAATGCAAATAGGGCTCCTTCATCTTGTAGTTACTCTAGAACATGGGGTCTCTATGGTCACCTATGGCATGGGAAAAGGGATTGAGGTGACA
TTCAGCTCTTTGCTCAGCCCAAGAATGAAACTCATCACATCTGTTTTCAGTCCAGTGACCAATACTAGTCATGTGGCCCCAGCATAACTACAGGAGMGGC
TGGAGAATATATGGGAACCTCCTCACATTCACCAAATGGAATCTTTGGTGAATTYTAAAGATTCCCGGCATGTCCCACTATCTCCTTTTGGGGCTGAGAA
AATGAAAGAAAAAACTGACAGGCCAATGTACTGACTGCTCTCTCACCTGGGTCTGATCCCATCTGAAGCTACTTTGGGTGGTTATCACAATGTAGTTTAT
YATAGTGCTRTGGAATATGAACTATGACCATAGCCAGCCCTATATTYTAGAACCAGCATCTCCATTTGTAGCTATGGGTGCTTGGACAAACACTTCAATG
TTCTCCATCTCAGTTTCCTCATCTGAAAATAGAGTAAACAACAGTACCMACCTCATAGGGTTGTGTGGATTAAGTAGTTAGAAACATGTCGCTGTTGAGG
AAACATGAGCTGCTGTTGTATTTGAAATGGTGCTGAATTCAGAATCCCATGGAAATCTTCACTATGACAAGAATTAACCAGCCCAGAGCCACATGGAGAA
AAGATGTGTGGCCAYGATCTCTTGACCGAATCCAGCATCAGAATCCACCAGACAAAACCAGCATCAGGACATTGGCCACAAAGGGATAGGCGTCCCAGGA
TGCTGGAATGTTGGGGGCAGCGCTATTATTAGAGACACCTGGTCACTGACCCAGCTTTCTTYCCATGGCTCAAGCTGAGACTTGATAGTAAAAACTGCCT
TAAATGGAAGCAACTATATTTTTGATGTATGCTCTTCTAGGATGATACTAAAAGCCATATATAAAAGAGGTGTTGGTTCAAAATAAGTGGGATTTTTCAG
TTCCACCTATACCCGGATAGTATTACCCACCCTACTTGAGGACTCTAGGAGGCAGGTAAGCTACAGTGAAATGTGCTACCCTTGCTAGTTGTGGTCACTT
CATTTAAGGTAAGAGGTTGTATCTTCATTTAACTTGATGAGGAATTTTCCATCATACAATTAGTTTTGACTGCAAGTATAAGAAAATCTAACCATGGTGG
CTTAAACAGTTTGGGGGATGTTTGTTGGCTGCTGGTATTGATTCAACATCATGATGATGTCAGGGGTGTCCCCACTGTGATTCTCTTAGCCTTTTCTGCA
AGACAGCTGCCTCTGCTCTAGTCATCACTTCTGTATTTAAGGAAGAGATAAGGGGAAGAAGTAAGGTCCACCCCACCTTTTCCATTGCATCTAGAAAGCC
AAAGTTTCCCTGAAACATCATCTTTAGCTCCCTGCTGCAAGAGACTTTCGCCTACATTTTCTTAGCCAGAATTGTGTTATATGCCCATCCTTAGTGACAA
GGGAAGTTTGGAAAATTAAATACTTGTGTTCATAGACTCTATTATAGAGGCAGGGGAGGAAAACAGGGGCCAGAAATGAGTGTTAGGTCAACCAAGTTAC
AATGTCTGCCCCAGGAACTTATCCAAGAATAGTATATGTGAGAAGGAGGAGGAGGAGGCAAGGTACCCATTCTTATGCTCACTTGAGATGCCATATTTGA
TCCTCCCTAGCATTCCTCAACTTAAGGGCTGTTCTTTCTTCTGCAGGAAGAAGGCTTAAGATGTGAACTGGAAAGTTCTTATTCTCCACTGAGAACTAAT
TGCCTGCAGCAGGTTTCGGCTCACTTCTAGTTGTTTACTATTTTCCAAGTCACTGTGATTCCAGAAGGTATTGGGCCTCAGTGGAGCTCAAAATGGATAT
TAGCTCTTGGGTGTGTTTCATCGATTTGGGCACAGGAGGGAAATTATACACAGAGGATTGTCATCCTGGACAGTTAAAAATTTAAAGTAAATGAACTGAA
CAAACCTCCTCCCTTAAATAGTGCTCAGAAATCAAAGARCTGAAAAAATGTAAATGGGATTCATTAAGAGCTACAAAATTATCTTCTTGTGTTGCTTTGA
TAAGTTTTTCTTGCAAATCTCTAGAAGTTTAGCTCAGGGCAAGTCTTGGACATGGTTGAGAATGTCTGCCTTATGAATGGCGAAGTGGACAATGGGGACC
AGTGAGAAGAGGCTCTTAATATGTGACCATCTTAGGATGCCACTGGCTCCTACAGCAGTCCCCCTGGCACTTTCCCCTTGCTGTCTCTTTCTTTGCCTTG
GTTTGCAGTGTTTACACAGCATGTCCAAGTGCTAGTTTGAGTTAATTTTCATTATGCTCATTTTAACACAAAGGACTTGAGTATTCAAGAATTTCTGTAG
TGCTGGGTTTTTACTTTCTCTGTTGGCAAGAATTACCTTTGGTTAACCTTTGTCTTATAGACTCATTGGGTTTCAGTTATCAGGACTGGGGTAAAAGACC
TCCTAGACATGACACCTACTCTGACAGAGACCAAGAATCCGGCATTGACACCCTGAGGCTGTACTTGGCTGGCAGGTTTTTTATTGTTGTTTGGACTGTG
CAGTGTTTTATAATATTTAAGAATCACATTTCTGGGCTAGGCATGGTGGCTTATGGCTGTGATCTCAGCACTTTGGGAGGCAAAAGCAGGCTTAAGTCCA
GGAGTTGGAGACCAGCCTGGGCAACATGGAATAACCCTCTCTCTGGAAAAAAAAAAAAAAAAAAATGTTAGCCAGGCATGGTGGTAATGCCTGTAGTCCC
AACTACTTGGGAGGCTGAGGTGGGAGGATCGCTTGGGCCCAGAAAGTCGAGGCTACTTTGAGTCGTGATTGTACCACTGCACTCCAGCTTGGCCAACAGT
AAGATCCTGTCTCAAAAAAATCACATTTCTGGCTTTTTTTGATCAACGAGATTTGATGATATTGGACAAGTGTTTGGAGGTGGCACCATGGGCAGGAGCT
GAGGAGCAGCTGCCTGTTTGGATCATGGCAGCTACAGTCCTCACCACACCCTATTGCCTTGCACTCTTCCCATGATGCTGATTTACCAATCTCTGCATGG
CCACTTTAGGCCCTGCGTTGGTGTACCCCATCCAGATTGTCTCCATTGTAAAGCCATATAKTTCCAAGSGCACAGCAGGTGTGTGTGGTATGCTGAGAGT
CCCCTTCTATCTCTCCACCACCCTCTCCATACTTGCTCCCCAGGATGGCCATGGATACAGCTACATTAGCCTCACCTGGGTGCTTCTTAGAAATTCAGAA
TCTAAAGCTCAGCCCAGACCTACTGAATCAGAATCTGCCGTTTAATAAGATCCACAGGTGATCTGTGTGCTCATAAGGTGGGAGAAGCGTTGGTCTAAAG
CACAATTTTCAAACTTGGCTGATGATAGGAATGACCAGGGCGCTTGTGAAAAACCCATTCCCAGGCACCACCCTAAAACCAGTCAGAGCCGACAGGGAAG
GGCTCTGAGAATCCACAGGCTTAACATGTGCCCCAGTGATTCTAAGACAATGGTCAATTAAAAAGACTTGGCTTGAAGACTTAGTTCTCAAACGGGTATG
CATCAGAATCACTCAGATTGCTTTTCATTTTTTAATTAAAGAAACATAATTTACAAAAATCACATTATTGTAAGAATTTTAAAAAGTCAGATATGCAAAA
TATAAAACYATAAAATTGCCATAGTTGTTATTTTAGCGTATCTTAACGTTTTAGTGTATAAGCATTTTTTTAGGTGTTTGTGTGTGTATATTTTTTACCA
AAATGAGATCGTACCATAACGTTATTTTCAAATCTGATTTTCTCAGTTAACAATCTCTATCTTTCTATAAGAATAATTTTCCCATTTGACCCCGAATTCC
AATTTACAGTGAATTGTTCTGTCTAAACTAGGAGCCAATCCAGATGGATCTGGTTATTCCATCCTTTATGTTTTTTATAAACAAGCACATTCTTCTCCTC
CTCAATCCCTTTATTTTATTCTCCACATAATGCTGCCTTATTGATGGACTGGACCATTTATTCTGCAGATAGTCCCACCTTTTAGACTTATCTGGTCACT
TCCTTATGGTGTCACATAGCTTGTTGCTSTGTCCTGGGGTGCCTTTGTTTATTCTCTTTAATGCATTTTCCAAGACTCCCCTCAAACTCCAATGAATTAA
AGTTTTCAGAGTTTGGGGCCTGGGAATCTGAASTGGTTCCACTTTGCCAGGTGAGTCTGAGTTTGAGAGGAAAGGTGTCCTAGATCATTCAGCAGCAGCA
GAAGAGTTGGCCCTTAAATCTACGAAGAACATTGCCCTGTGCATCTGCATGCAGACAGGGTCTGATAACATCAAAGCTGGGAGTCTCTSCAAYGCTTTAA
CTAATGGGATCTGAGCTCGGCTGTTTATTTATAGTCATTCAGTGATAAGAAAGTCAACTTGGTTGGAAGGAGCTTCTGTCCTAGGCTTGCAGCTGGGGCC
TTAGCTAYCCTTGTAATTTTCCCAGAAAAAAAAATGCACATCTCTTTGAGTCCTGGGCCATGTGTAAATCAGTGGTAATACAAGAAACATGGAGCACCCC
AGAAAATCTTCAGACCCTGAGTTTGGAGCTGAGGAACTCAGAAACACTCAATTTCATCGAAGCCCCTTCATACAGCTTTGAATGCATACATTATGGGGTC
TGTGGCTCAGAGGTACCAGTGCTCAGAGCAGTATCTGCTTTCCTAGTATGGCCTGTGGGCAGTGGTCTCAGCATGCAGCATCACTGAACAGAACCCTGCA
TATGCCATAATTTACGTAGATACTATGGAGGTGGAACCATGTATGGTTAAGTCCCGGGGCCCTGGAGCAGTAGATCTTAACCTTATTGGACACAGTAWCC
CATTTCTATTTACAAATACTTTTTTTTTTTTCCATGAGAACAACCACAGGGACTTTTAACTTGCCTAAAGATAATGTGTGATTTTGAGATGTGATTAGGG
ATTATCATTCCCACAGTGATCCTACTATCAACAGGAACTGCTGTTTCTATTATCAACAAGAATATGCCTCCAAGCCAGGAGTCCTGCTGATCCCACTGTC
TCCCYACCCCAACAGCCATGGYCCGAGATCAGATTGTCTCCATGGATTCTAGTGCTCAGGGAAGTTAAGAAAACTCAATTCACGGTGCTCAGTTCAACCT
TAGACATGCATCAGAATCACTCACATTGCTKTTTAATWTTTTAATTAAATAAAAATATTTATTCAGCCGAGGTAGCTGAAGCAGGAGAAGGAAGAGCCTC
AACTCAGGGGAAGATTTGCTGTCACCCCCTGACACTGAGCAGAGGCCAGTCAAATCCACTGGAGCTGACCTCTTTGATGTCAGGCTCAGCAGAGGCCTGG
CTCTTAGCAGGCCAGCTTCCTGTGCTTGGGATTGCTTGTCTTAGCTTTCAGAGGATTTAATTGCTGATTCAAACCATACAAAGTACAACGAACAGTATCT
ACTGGTGGGTTGAACAAATGGGTTCCAATGACTCAGGCCCGAGTGACCTCTGCTGCCTCTAACCTCCTTCACCATCTGCTGCCCAGGGGGTCCTGAGAGG
CCAATAAGTATCTGCCAAGATGCTCTTTAGTATCCTTCTGTGACATTCATAAGATGTTAACCTGCCTACACACTTTTTTTTTTTTTTGAGACAGCGTCTT
ACCCGTCGCCCAGGATGGACTGCAATARCATGATCTTGGCTTACTGCAACCTCTGCCTCCCGGGTTCAAATGATTCTCCTGCCTCAGCCTCCCGAGTAGC
TGGGATTACAGGTGCCTACCACCACACCCAGCTAATTTTTGTATTTTTCGTAGAGACGGGGTTTCACCATGTTGGCCCGGCTGGTCTCGAACTCCCGACC
TCGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCAGCCACACATTTAAAATAATGATAATAGTAAGCCCCAAT
TATACTATAAAGGAACAACTAATTTAGAATAGGAGGTCTAGGTMAATATGCAAATGCAAATACTCTGGCGCAACCCCCCTGGAAAACATAATGAAGTGGT
CCCGCCAGAGTATCCTCACACAGGGTCACCACCAACACATTGCATCAGCTGCCATGCAGAYGAACACAGGTCTGTTTTGCATTGTCACCCAAGTGACATT
CAGTATTGCCATTGGTTAGGCAATTTTCCAGAATTGGTGAGATTCTGAACCAAACAAAAAACAAGATCACCTCTTTTGACACAGGGTCTGCATTGTGGTG
ATGTGTGGAATATGTTCATCTGTACRAAAATATTTGGGGTTTGAGTGTAAAATCGAGTTGGGTTCTAGACTCAGATAAACAAGATTTTTTTTCTCCCCCA
CCCAAAGACTGTTTATCAGGGTCATTCGAAATGTATGTGGGGCAACTCTATGTAGTCAGGAGCTCCATGCATCGCGGGGTGTCTAACACCTAATTGTCAC
CTCCCACTAAATGCCAGTAACACCCCCGATTATTGTGACACTCAAAAATCGCCCCCTCGCACTTCGAAAGCACACCCCTATASACACTGATCTTCTGTTA
ACCCTGCCTTGAATGACWTCGGTAGCCTGAATTCCCATCCTGGCCCCACTGCCTCATAGCTTCGTGGCCCTGGGCAAGCCCACAACCCCCAAACCTCAGT
TTCCTCATCTGTGATATGGGTGCATGGAGGAGGTTAAATAACAGCTCCAATCTTAAAGCCTCCTTAGCGCCGTGMCTCACGAGCTGTAAGTACTAAATGA
ATGCYGGCTATTATATATAACTTATATTGTATATTATTTATGATTGTTCCTAAAATTATCACTAATAAGTGCTTCACAGCAATGAGCTAAGATTCTGAGT
GCTATTTCATGGATTTTAGAGAAATAATTAGATTCTAGAACCTCAATTATCATCGTAATGACTCCCCTGATAGAGTTCCAAAACTGTTTCTTTGTGACCA
CTCACAGTAAGAACATCACACGAATGAATATTCCACCTGTCTTAGGTGTGCACACAGAAGGTACTGACGGTTCTCTCTGAGCAGTTCCAAGCCCTCATCT
GGGACCACGTCTTCCCAAGACCAAGCCCTAAGTCGTGATATAAAACAAGAAAAGACGCTGGGAGTACAGTCAGCTTCAAAGACAGAACCAGCGCACGAGG
CAGAATCACAGTGTCAGAGCTTCTGTAATTACACGCTAAATTATGCGGTGCCATCTTTAAATTATGTAGGAAATAGAAAAAGGAAAATCTCGGTGGAGGA
TGGAGGTAGCTTCTAGAAGGAGGTGGGCCTGAGCCGCCCCTGAAGAATGTTGGGAATCTGGGTCAGGCAAGAGGCTGGAGGAGAGAGGTGAAGARCTGGA
AGGAAGTTGGGAGGGGAGAGGCCCAGGGGAGGGCATAGATGGAGGGTGATGGGGTGTGGGTGCCCAGGCCTGGGAATTCAGACCTGCCAATAGCCCTTTC
AAGGGCCAGAGACAGTTCCCTGCCAGAATAAATACATAGATAAATACTATTTAAAGCAAAAACAAAGTGTCACCAATATCTAGATAAAGTGTCCCCAAGG
ATACATCTGGTGCTATTCCGTGAGACCATGTCACCCAGAGCTGGTGCTAAACTGATGCCAAGGGGTGCCCATGGAAATGCCACCTTTGGGTGGGCAGAGG
CATTTGGCTCTGCACTGGTTTTTATGGTGTGGGAAAGGAAGCATTCTCGTGGGAATATTGTTCTTGCCTCCAGGAAGGGCTGTGGGAACRTGCAGTTACT
GCAGAGGGACATTTCTGAGCATACATGCTTGTTTATGATGATGGATGACTGGCTCAGGAGAGAGCTAAAATGATCCTTTCCCTAGAGATGTGARGAGAAG
CCAGCCCAGAATTTCTGTCACAATCTGCTGCCCGAGTCCAGTGACTCAGAAACAAAGTTCATCTTTACTGACGTGCCATGGCTGCCAGGAACCAGGGCAG
CTGCTAAGCCACCAATCCCCAGCCCACAGTTTTGTGYGGAGGAGACATAGACATATATGTTATTGCAATTATGGCTCTACTGAAAGAATGAATGAATTTA
ATCGAATCAATCATTCATTCAATTCAGTTGAATCATTCAYTCATTGAATTGAATCATTCATTCAATGAATGAATCCCCTGGTCAAGGAACCAGGCTCAGC
CCACAATGTATGCATTTATTCATTCATTCATTTAACAAGCAATGCCAGGCTTCTGGCCTCAGGGAGTACATGTTCACCCCCTAGTGGAGGGAGACACACA
GTAAACATAGAATACATTAGGCAATGAGAACTGTAGAGAGAAGCAAGCATGAAGAGGAACATAGAATACTATGCAGCCATAAAAAAGAACAAGATCATGT
CCTGTGCAGGAACATGGATGGACCTGGAGGTCATTATCCTTAGCAAACTAAGGCAGGAACAGAAATCCAAATACCGCCTGTTCTCGTAAGTGGGAGCTAA
ATGATGAGAACACATGGACACAGAAGGCAACAATGAACACTGGGTCCTACTTGAGGGTGGAGGTTGGGAGGAGGGAGAGGAGCAGAAAAAAATAACTATT
GGTTACTAGGCTTAGCACTTTGGTGAGGAAATAATCTGTACATGAAACCCCCATGACACAAGTTTACCTATATAGCAAAACTGCACATGTACCCCTGAAC
CTAAAAGTTTTAAAAAAAAAAAACAAAAAAGAGTGAACAGTACTGAAGTGAGAGTGGCAGGGGTGCGGTTTTCAATTGCGTGCTCAAGGAAAGCTGCTTG
TCTGGGAAAGCAATATTTGAACACAGCCTGAAAGAGGCGAGAGAGTGAGCCACGTGGATAACTGGAGGTACAGCAGGCCAGACAGAGGCAACAGCACATG
CAAAGTCCCTGAGGCAGGCACACGTGTGGTGTACTGGAGGAATTGTAAGGATGTGGGATGGATGAAATAAAGTGAGAAGGGGAGCAGAAGCAGGGGGAGC
AGATCACATCCAACTGTGCAGGCGTAGTAAAGAACCCAGCGTTTACTCACAAGGAATGGTGAGCCGCCAAGGTTTTGAGCAGAAGCGTGACATGACCTGA
CTTGCATTTTATAGGACCTCCCTTGCTAGTGTCTGGAAGAGATCAAAGTGGATGAGAACAAAAGCAAGGCAGCCATTGAGGAGGGTGGGACAGTTACATA
GGTGGATTGAGCCAGACTGGTAGCAATGGAGGGATGAGAAATGGTTAGTATCCGCAGGGGTTTGAAAGGGCTGACTGATTTGCTGATGGATGGTGTGTGT
GGTTCAAGAGAAAGAAAAGTCAAGGAAGGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAACACTCTGGGAGGCCAAGACAGGCGGATCACCTGTGGTC
AGGTGTTTGAAACCAGCCTGGCCAACATGGTGAAATCCCGTCTCTACTAAAAATGCAAAAATTTGCTGGGCATGGTGGTGGGCACCTGTAATCCCAGGTA
CTTGGGAGCCTGAGACAAGAGAATTGCCTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGACGACAGAGCGAG
ACTCCATCTCAAAAAAAAAAAAAAAAAATAGCTGGGTGTGGTGGCATGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTGGAACC
TAGGAGGCGGAGGTTGCAGTGAGCCAAGACTGTGCCACTGCAYTCTAGCCTGGGAGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAGTCAAGGAAGA
TCAAATACTCAAGGCTCCTAGTGATCATCARTTAGACATCCGAGTTCTTCTGGGAGGTCCTGTTTGCCRGTGGTCATCCTGTCATTTCCATCAGTGATGT
CTGGAAGGTTTGATACCAAGAAGTTACCTCCTTTCAAAGTGGCTTCTTCTTCCAGCTACTAGGTTTGACCTCCTGGAGGCCAGGAGTGCAAGGTACAACT
ATTACTCTTCCAGAAGAGGCTCTCCCCAACCCTCCCACATTGAAGGGTTGACATTGAAGTGTTGAAGTTTTCCTTCAGCCTGGTCATTGCTCAAAGGTGG
TAGAATATAGATGTAGGTCAGTAGTGATAGCAGGCTACAGCCAGCCGGTGGTCACCACAGGGTAGATATCACATAGTGGTTGAAACTGAAGGCGGCYGAA
ACCTGAATTCTAATTAATTTCTTTGTGACCATGGGAAGTTATTTCACCTTTCCGTTCTTTTTTTTAACTTTTAAGTTGAGGAGTACATGCACAGGATGTG
TAGGTTTGTTACATAGGTAAACGTGTGTCAAGGGGAGTTGTTGTAGAGATTATCTCATCACCCACACATTAAGCCTAATATTCAGTAGTTATTTTTCCTG
ATCCTCTCCCTCCTCCCATCCTCCACCCTCCTGGTGTGTGTTGTTCCCCTCTATRTGTCCACGTGTTCTCATCATTTAGCTCCCACTATGAGTGGGAACA
TGTGGTATTTGGTTTTCTGTTCCTGTGTTAGTTTGCTAAGGATAATGGCCTCCAGTTCTGTCCATGTCTCTGCAAAGGACATGATCTTATTCCTTTTTAT
GGCTGCATAGTATTCCGTGGTGTATACATACCAGAATTTGTTTATCCAGTCTATCGTTGATGGGCACTTAGGTTGATTCCGTGCCTTTGCTATTGTGTTT
CACCTTGTTGAACATCAGTTTTGTGAGCTATAAAATGGGGGTAATCCATTCTCTACCTSSTAGGATTGTTCAGAGTATGATAAAACACTGTGTCTGGCAC
AGGAATGTCAATGATCAGCTATTGAGTAAGCAAAGTGAATTAATGATCTTTATATGCCATGTGTCATGTAATTCTATCCTCTCACTTCCAGGAGATTTGG
AAGGCAKCCAGGAGTCCCTCTTTCCTCTCTGTTGCCTGGCTGACCTCCTTCCTTTAAAACCCTTCTCCTCTTTTTTGTATCATAATGACCTTATTTTGAA
TTATGGTGGTACTTTAAATTTTATGTCCCTGAAGGGTTAAGCTCTATGTTGGCTTTACSTGAACTCTCTCATCCTCACCCACCASCAAGATGAAGGTAGG
GTGGCCACTGAYAGGTGACGTTCGTGAGGTGCATGGCTTTTCTGAAGATAAGCAGTAATTGAAGGAGGAGAATCAGATTTAAAGCCTGGGGCTGCAAGGA
TATGAGATTCATCACAAATGATGATGATGATGATGATGATAGGAACATTAGGGGAGGAGCAGGAGTAGGGGGAGACTGGGAGACACAAAACATGTGTTAC
CAGACTTTGTCAGTAGCATTTTTCATGGTTTCACATTTTTAATTCTCACAATGACCCTTTCAGGTAGCTTCTATCATTGTCCCAGGTTCCAGTTGAGGAA
GCTGAGGCTCTATGAAATCAGATAACTTGCCCATGGTTACACAGCTACTAGTGGTGGTGCAGAATTGGGAAGCCAAGCAGCCTTGGCTAAAAAGCCTGCA
GCTGTGATCTATGTCCTCGCTCTGGCCCTTTCTCCTGGCTTTCCTGATCTCACCGCCGCCCCCTTACCCCCACTCCCCAGCATGTCCCTCCTCGGCCGTG
GGCAACCCCTCCTTCTTTGGGGACACACCTCTCTCACCAAGTTGTGTTTCCCCAAGGCCTTTGAGGGTCACAGTAGTACATTTCTCACTTTGATTATGAG
GGGATACACCCTCTTAATCTAAGACAAACCACCACCACCATTATACTGAATTTAAACCAGTCAAGAAGTTCAACCCTTCCAGCTATGGAAGCCAAGGTAT
GTTCTCACTTTGTCTTGGTGCATTTGATTTCTCTGAAGATACCCTCAGATGCTCTAATTTGAGAAAATACTAGAAAGTGTGCATTTACAGGTGACCATCC
CTCTGCTCTGTTGTGACTTTTATAAGGTCTAGTTGTTCTTGATATGCAGACTAATCTGTAAGGAAGATGAGCATGGGGGAGAGAAGAAAGACGCATTATT
CACTGGAAAACAGCATCGTGTATTTTAGCAAGGAGAGCGTGCTGGTGTTGATCTGATATCACCCCAATACTTAGGAGGAATTGAGTTAGAGATACATTTG
TAGCTTGAAGAGTTGCTTATTTGATAAGTTATCGGAGTGTGTTTCAAAGACATTATGCCTATGTRAAAGTAAAGATGGAGTTGTTTATCTCTGTATCTCC
TTGTCCTGTTTCTCCCAGGACTTGGCAGAACTCTTGATGGCAAGAATCWAATCTTTGTCCTACTTGTAACTGCAGTGCCTGGCAGTTTGCCCTGTCCATA
TTCATAGAGCTAAAGAAACATTTGTTATAAATGAAGAAATCCCCCAGAGAGAAAGCTATAGAGAACTGACCTGGAACAATTTACTTACCTGCTGGGAGAC
GCTAGTCTTGCCCCAGATGTTCAATGCCTGCACTGGTCTATTTGCAGGTGCAGGGGAGGCTTCTGCTGTCCTGGGGAAAAAATACCCATGTCTTCAGCCA
GCCACAATTCAATTACTCTAGACCAGTGTATCCGAAGCTTGAGTGTACAGCAGAATCCCCAGGAGGATTTGTTTAAGTACTCATTGCTAGGCGTACTACC
CTGGTTTCTAACTCAGTTAGGTATATTAATTTCCTAGGGCTGCCRTAACAAATCACTGTAATGTTDATGTTTAAAGCAACAGAAACTTATTCTCTAGCTT
CTGGAAGCCAGAAGCCAAAATCAAGGTGTTGCCAAGGCATGCTCCCTTTAAAGGCTCCAGGGGAGGATCCTTCCTTGCCTCTTCCAGCTCCTGGTGGCTC
CAGGGATTCCATGGCCTCAGCTGCATCATTTTCATCTCTGCCTTTGTTTTTACGTGGCCTCCTCCTCTTCTCTTTCTCAAATGTCCCTCTGCCTTTCTGT
TACAAAGACATTTGCTATTGGATTTAGGACCTTCCTAGATAATCCAGGATGGTCTCATCTCATCTTGAGATTCTTCATTACATCTGCAAAGACACACCCC
CACTTATTTTCCAAATAAGATTCATGCACAGGTTCCAGGGATAAGGACATAGAGGTAYCTTTTAGGGAGCCACCATTCAATTCATGGCAGTAGACCTGGA
ATATGGGGCCTGAGATTATGCTTTTTTGTACTTCTAACATGTTCACAGTTGATGCTAAAAGTTGCTCAGAGGTTGGAATATGAGAGCTTGGACTGCTGCT
CCAAAGAGAGAGAAAATAATACAATGCCTTCTTTGAAATAGCACCTTTTCAGAAGAGTTCTTAAAATAGATTTTATCTCATGGGATTGATTTATTGTGCC
CATTAAGCCAGATGCATAGCTCTTCTACTAGAATTAATTTTAAAGTTGCTAACCCTTAATTATTTGCAGAGATAGGACAAAAAATGTTGGAAGCAATTTG
GAAATAGTCTTTATGTTCAGTCCATAATGGATGCTATTTACAACAATGGCTGTTTCATATTCTCATATAAATGATGAAGCTAACACTCAAAGCCATAGAC
CATTCAAATGCTTTATATCCTAAAAAGGATACAAAGACCATCAGACCATAAATTGTGATTTTTCATTGCCATGGCATGTTTCAATAGATGGTTTGTTTCT
GTAGAAAGAACAGTTAATTCTGGACTCAGATCCTGAACATGCTCCTTTTTTGGCTATGAGAATTTGGGTCTTAGTTTTCTTGTCTAAACAGTGTGGGTGA
TAATATTTTGTCCTAATAATTAGCAGGCTTATTATGATGATCAATTAAGAGTACTTTGTAAACTGTCAAGTGTTTTGAAATATGTTACTTCTGTAATGAC
AAGGTTGAAAATAAATATAACTGGAGCTAATTCATAGAAATCTGTGTACTAAAGATAGATCTTAAGAAAAATTTTCGTCCAAAGTGTATTTGCTTACTGC
AGCCCTTTCAGCTTCTCCCATCTGTCAGATGGCCTTTCTCAAATGTGACCACTATGTCTCTCTCCCATCCCACATGGTCTTCTTCAGTGTGACCTTGACG
ATCTTTCATTGAGATATGGGGACTTTGTCTCATCCTCTTGGATCTCAGTGGATCAAGGACTCACTCGTAACCAGTAGAATGATGTGTGACTTCTGAGATG
AGGTCATAAAAGGCCATGCAGCTTTCTCCTTGTTCGCTGGGAATCTTGCTTTTGGAGTCCGTCTGCTTGAAAGCCACCATGTTGTGAGGAAGCCCAAACT
AAACCACGCTAGACTCTGGGCTCCAGGAGAGCACAGACTCCTTTGCTTTGTCCTCACCATTTTACCCCCCGCCGCATTTAGCACAGTGCCTCACACAAGC
AGGCATTCAAACAGCTGTGAGAGTGAAGAAACAAAAGGAGGTTGTACCCAACTCATTCTAATATGCTCTCAAGTTTAAATATGTGATGTAAATAGGACAT
TATAAGAACAAACACCAAAAAACCACCTATGTGTTGCAAAAGTTAACATTATTAATCCTCTAGAATTGTATGGTGCCTAATGGTTACATCTGTTTTCTTA
ATCGTTCCCTTATAATGCCTGTCTTATAGTACTGCCAAGAATTAGAAGGGAAGGAGCATGCTGAGGCCTAGATAATTCTGATGGGTTTTTTTTTTTCTTT
TTTGGAAAGGATTTAACAGATATTAGAGAAAACTTAGAGGGAGTCTTGGGACTCCTTGATGGCCACRAAAGGGRTGACTTTTAAAGAAATCGATCCAGAA
ATGTCTRTGTGGCTGCCCTTTCTCTTCTCGTTGTAAATTTTCTCACAGTGAACACAGGTGTTAGAGATCAAGTGTTTGGCTTTCTGGTGCTCTGATGCAG
GAAGTTTGTTTTCTCAGGCAGGCTTCTCAGCTCTTGCACAGTAGCCTATGGGTTGGGACGGCTACCGGATGGCCCAACTCCAGGATGGGGTCATAGTGCG
GAGCTCTGTGAGTGGTGCCCYCTAGAGRAAACTTCCTGAAGGAATGAAGCTTCCTGAACTCATGCAATTTGGCAACCCTGGGTTCTCCCCAATGCTTTCA
AGACATAGTAGGTTGGAGCAAAAGTAATTGCAGTTTTTGCCATTGAAAGTAATGTCAGTTACTTTTGCACCAACCTAATACAAACCATCCCATATCTGTG
TTCTCCATCCTTTCATCCTTTATCACAGTGGGGTTGTGATAGATCCCTGAAAACACAGGATCAAGTATAGGTAAATGCAAGATGGTACATAGAATCAAGT
GTGAAAGTGAGTCCCATCAACCCACACTCTTTCCATTTGGCCCAGTTGCTGCCCTTGTTGTTTAGAATGGCACGTACCTGGCCTTGAAATGCACTGAAGC
CTATGGGGATTACTTTAAAATTCGGTCCTGTAAGCCAGTCTGTTAGTATCATTGCTCCTACTAATGAYAGAAATTGCTGGTGTTGGCCGGGTGTGGTGGC
TCACACCAGTAATCCAAGCACTTTGGCAGACGGAGGTGAAGGSATCACTTGAGGCCAGGAGTTCGAGCCAGCCTGGCCAACGTGGTGAAACCCCGTCTGT
GCTTAAAAAATACAAAAAATTGGCCAAAYGCAGTGGCTCACACCTATAATCCCAGCACTTTGGGAAGCYGAGGTGGGTGGATCACCTGAGGTCAGGAGTT
CAAGACCAGCCTGGCCAATATGGCCAAAGCCCGTCTCTACCAAAAATACAAAAATTGGTGTGGTGGTGTGTGCGCCTGTAATCCCAGCTACTTTGGGGGG
CTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTAAGCCGAGATCACGCCATTGCACTCCAGCCTGAGTGACAGAGTGAGACTCCATCT
CAAAAAAAAAAAAAGAAAAAAGATTATATAAAAAATTAAAAAATTAGCCAGGCGTGGTAGGCGTGGTGGGAAGCTGAGGTGGGAGAATCGTTTGAACCTG
GGAGGCAGAGGTTGCAGTGAGCTGAGATCGCATCACTGCACTCCAGCCTGGGTAACAGAGCAAGACTCCGTCTCAAAATAAAATAAAGTAAAATAAAATA
AAAATAATCTGTGGTTTTTCCTCAGCATGCCCTTTATGAACTGAATTATACAAATTATATACTTTAAACCTCACAACAACCTCATGAAGTGTATATACCA
GTAATATTCCCATTTTATGGACAAAAAAAAGAGAAAAAAAATAGAGGCACCAAGAGGATCTTACCCAAGGATGCGTGACTGGTAAGTAGCAGAGCTAGAA
TTTGAACCCAATCTGTTAAACAGTTCCCTCAACAAAGAATTATCTCATTTTGTGCTTGACTCTCAAGCATTCATGTAGGTGAAAAACTTCTTTAGAATTC
TCTGAGCCAAGAACCTAGCTCTWTGTATAAACATTTTTTGTATGATTTTAATCTGCACTGAATATATTCGTTTCAGTCTCATATTCATCTGGAGACCCCT
CCAGAGCTTGAGGTCTTGAGAAGTCCTGGGGCTCCAGTGGCCACTAAAGCAATGACTTTTCAAAAGAAAAGAAATGTTTCCTGAGTGTAGATGTTGCTAT
CTTTTTTCTTTCTCATTGTATACTTCCTTGTAGAGTACATAGGTGTTAGAGGTCAGATCTGGAGGGATTTTGTATCCAGGAGGTTACCTTGAACTTTGAT
GCTGTACACTAGCCTAGTATTATTATTATTGTTGTTATTATCATTACTCCTACTATTACTCCTCCTCTTGCTGCTGCTGCTAAAGTAGCAAAACTGTCTG
GCTCCCGGAGCGCCACCTATTGACCWTATAGTTTGCCACCTGTCTCAGTTTTGTGCCATGCATGAGCTCATCCTCACCAATTATTGGCAAGATTATAGAA
CAGGACACAGAGTGATTCACCTTCAGTATAGCTCCCACTAGTGTGTTGCTCTTATCCCACAAGAACGTGACTATCCAGGATTCCTTAAATCCACCAGGCT
YTGAGCCAGACTGCATTTACCAATCCACAGAAATAGTGCAGACCAATTCCTTTTGTGAAAATTAACATATATTTTGTCTATGGCCTTCTCTTCATCACTT
RCCCCAGCAAGTCTCTCCTCAAAGGATAGTCAGTTTGGCATGATTTATGTATGACGAACCCAGGTAGACTACCATAACTCACTGTTCTCATTGATAAATC
GTTGATAATATATGCCTTGTAAGTTGGTGCTGTTTGGATGGCATGACTAAAGTCAAGCATTAGCATAGTGCCCAACACTCAGGAATCTGGCAGAAAGTCA
AAAGTTACACCGATCAGTGTCATTATTAGTATGCAWTTTCATTCTTAGTCTTCTTGGGATTTAATTGTATTACCTAATTTATGTAATGAGACTATATTTT
CTTTTCTGTCCCATTTCTATTAAACTTAGATACGTCCCCTTCTCCTTGCTTATGGAATCAAATTTTTAAATTAATTTGATTTGGGTTCTATTTTCTAATC
CCATCAATAACCAGCTACAATCTGCCCTTCAGGAGGACGCTGCTTCTTAAAGCATGTCTGAGCTCCCCTAGCCACCCTGATTTATAATGTGATATTTAAC
ACCCTCAGCTGCTTCTGAAGCCCAAGGGGCAAACTGGTTACCTAGCAACCACATACACACACTAGCTCATGGCGCAGGTTAGCCCCATTTTGTTATAATG
AAATAATACGTCTTGTGAGAATGAAAAGCTAAGGTACACTATATGAGGTTAGTGTTTTGGAGAAAAATGGGCTCTTTAGGACAGATTAGCAAAGCAGGAG
TTGTGTGGGTCACCCCCTGCTTCACAGTGACTCACCACTTCCTAGAATGGAAGTCACGACCTTGAAATCCTGAGACTTGGAGGAAATAGAGGATATGTTT
GATGTACTGAACTGTCTTTAAAAATAATGTAAATTTAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGAGCATCCTGGCTAAC
ACGGTGAAACCCCATCTCTACTAAAAACACAAAAAATTAGCCAGGTGTGGTCGCGCGCGCCTGTAGTCCCAGCCACTCAGGAGGCTGAGACAGGAGAGTG
GCGTGAACCTGGGAGGCAGAGCTTGCAGTGACCCGAGATGGCACAATTGCAGTCCACTCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAWAATAATAAT
AATAATAATAATGTAAATGTAGAAACCTTTGGGGGAGTGAGCAGTCCCCAGTGGAAGTATAATTTCCAGGCTATCTCACACAAGCCTGCTTGGCCCCAGG
ACATCCTGTTGTGATGGAGAACATCATAAAGCTCCTCCACCAACATGGAATCCATAGAGAATATTCTTACCTAGATACAAAAAGTTCAGTATTCTATCAT
GACTTTAATATAAGGGAAAAATAAAAGGAAGGTGATTTACAATAAAAGAATGCACACTTGAAATGTTCGGGCATGACTACACAAGAAGATATAATGACAC
AGCCAAATGTTTGCACCTATGTGTAATAAATCAACTTGAATTTAGGAGAAGTAAGATGATTCAGAAATGCATTTCTTTTTTTCCAGTGTCTCTTCTRCAG
AATATTTTCTGAATCATAATCATTGCAGATTAAAAATCCCACAAAAAATGTTCATACAAGGAGTCAGGCTCTTGGCTCAGAAAATTCTGAAGAAGTTTCT
CGCCTCCATGAATGCTTAAAGAGTCAAATACAAAATGAGATAATCCTTTGTTGGGGGAACTGTTCACGTTTCAGAACTTTTGGCATCCTTTGCTCCACCT
GCAGAGAGCCAACAAAATCCTTCACTAATTTTAGGAACCAAAAAACAAATTTCCCCACTTCTCAGTACAGCCTTCAATACTGGTCTGTCATTTCTGCCTG
ACCTTGTTTCTTCTCCCAACACATCTATCCATTTGTTGATTCATTCACTGGTTATGCTTATAACGTTGTCATTATATCCTTGTCTCAGTTTTCTTATCAG
TAAGGGTAAGCAGCTTCGCAGAATTTTAGGAAGGATTAAGTGATGCGTGCAAAATACTTAGAGCCCACAAGAAGAACTTGATTAATGTTGTTCTTATTAT
TGCTGTATTGAATGTATCCTTTAGTACTTTCTTTTTGTATAGTACCATATGGCATAGATGTGTGTGCACACACCCCCTCACACACAAATACACACACCAA
ATATTTCAAAGGAATATATAGTGAAAATTCCTCCTATGTGCCTAAATCTTCCTCGGTACCCTTCCCCAGAACAGCCACTGTGTCTTCCCAGAAAKTGTGT
TAAGAAACAAAYRTGTATATCCTTTTGTGCTGTGTTTTGTAGAAGTGGAAGYTTTCTGTGCAGCCAGTTTTGCATTGTGTTCCTCACCAACAGGATCTGT
CGGACGCCGTGTATATAGTTCTTCCTCATTCTCTTTAATGGCTATGTGATGTTGCATTTTATGGATGAACCATAATCCTCAAAAACATTCGTTAGGTTGT
GTTGATAACATAGAAATGTCTAAAGCAGTGAACAAAGTAGCCCATTATCTCAGGACCCAGATAACCAAGTTAACATTTTTTTAGCAAAATAAAAGTAGAA
GATGCAGATGATAAAAGTAAAAGCAGGTCAGTAACAGTACAGTAAGAAAAGTAGAAATCTCCTGTCATTTTCTGAAGTCCCAATCCCTCTAGCTCTCAAA
AAAAAAAAAAATCTTAACAATTCTATGTGCATTCTTTCAGGAAAAAAGCAAGATAGAATATGGATATACTAGCTGTGTAAGTAGCTGTGTAAGTAGCTTT
GTAGGCTGAAAAAAGCTTATCCCCCATCCCCCTGGAAGATGTGCAAGTACTAATTCCTGGGGCCTGTGAATGTTAGCTTAGATTGCAAAAGGGACTGTGA
AGGTGTGATTGAGTTAAGGATCTTGATTTAAAGAAGTTAGTCTGATASGCCCAATGTAACCACAAGSGTCCTTATAAGAGGCTCACCAGTGGTCAGAGAG
GAAAGGTGATGTTGTCCTGCTGGCTTTGAAGTTGGAGGAAGAGGCCATGTGCCAAGAGATGCCAGCAGCACCTAGAAGCAGGAAAAGGYAAGGGAACCTC
ATGTCACTAGAAGGAATGTAGCCCTTTGGAYTCATTTTAGACTCCCGACCTCCAGAACTGTCAGAGAATACATTTGTGTTGTTTTAAGCCACCAAATCTG
TGATAATCTGTTACAGCCGTAGGAAGGTAATATTTTAGCGAATATTTTTATTTGCATAAGTACCACACTCTGTATGTGCACTGAGTTGTTCTTTACTAAT
AKTGCCATGTTATCTAATTTTTCACAGGCATATTCCTTTCTCCCAAATTAGGTTTACAAGCACCTTGGAGGCAGAGGCTGTGGTTGGTATCACKTTGCAT
TCCTCCCGGCTCTTCTCTCAGCAGGAGGAAATATAGCTGCTTAGTTAAAAATAAAAAAGGATTCTGAAGGCACACAGTTCAAAGTTAGAACAGGCAGCCA
ATGCGTTTGATGYCCTTGAGCCACATGCCCTCAGCCCACCTGGATCTCGGCTGCAGCTGCATTGGGCACTCCCACCTTCTTCCAGCAGCTTCTCCCCGCT
TTTCCAGGACCAAGAAAATTCTTTGCCAGCACATAGTAGCCCCAAATCAAGGAAGCTAATGTCCTCAGAGGTGACCTCCAGCCAGTGGGGACAGGGGTCA
GTGGATCAATGCCCAGGCCCCTGTCTATGAAAGGGCAATTCTGAGATGTGCTCTCTGCAGGTCCCCAGTAGGACTGAGCTGCGGTAGCGCCCGGTGGTAA
CCAGCTTAGCCACACAGCTGTAAGAAATAGTTTTCTCCTTCCTTATCTCCCTCTTCTGCCTTCTCCTACCTGCTTCCTGAATCTCCCACCATCCTCAAAA
GCACGCCTACACTCAAGTCTTTGTCTCAGGCTCAGCCTGGAGGAGCCCAAGTTAGAATGGAACCCCAGCTCTCTTTCTTTCCCCCCCCKCCTCTCTCTCT
GTCTCTCTCCCCTTTCTYTTTTTYTCTCTCTCTCTTTCTTTCTTTCAGTGGAGTCTTGCTTCATCGCCCAGGCTGGAGTGCAATGGCACAATCTTGTCTC
ACTGCAACCTCTGCCTCCTGGGTTCCAGCGATTCTCCTGCCTTAGCCTCCCAAGTAGTTGGGACTACAGGCGCACATGCCACCACGGCCAGCTAATTTTT
GTATTTTTAGTAGAGATGGGGTTTCACCATATTGGTCAAGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCAACCTCCCAAAGTGCTGGGA
TTACAGGTGTGAGCTACCACACCCAGCCAGCTCTGCCTCTTTCTAGCTGAGGATTCTGTAACAAGCCAGTCTTCTAAAACTGAATTTTTTTTGTCTATCA
ATGAAGATAGCAGAATCTACCTCAATAGAGTATTGTACAGTTTGAAAGAGATAATGTATACAAAGTATCTTATACATTGTCCATAGCTACTATTGTTAAA
ATTAGTTTATGACTATTACATCATAGTAATTGCTTTCTAAAAAGTAACTTAATGAAACRCATACATCAAATGCCTGATGAAAGCTGAATTTTCTAAAATT
GGTCTTGGCCTTCAAAAGATTTCTCATTCCTTCTACCATGTATATTCAACAGATAATTTTGAGCGCCTACTGTGTGCCAGGCAGCCCTCTGGGAGCAGGA
AGACTGCAGTGAGCAAAGYAAACAAAACTCCCATTTTCCTATGTCASATGCAAGTGGACTCATTCAGCACATGCTATTTGCATCCTGGAGGTATCAAGGC
AAAGAAAACACAGTTTTTGCCTCCAGAGGCATAATCTTACCTCCTGCCCGTTTATTTGAAATACACACAGTTGAAATATTGTTGTAGGTTTATCGATTTT
CTATATGTTTATTAGGCTCCTGCTATATGCCAAGTACTGTGGTTAGCACCATCCTCATATAAACATTATCATCTTAGCCCCTGARCTTAAGGAAATGTCC
AGGCTGCTAAAGCAGATCTGTGAAAAAGCTCAGCCTGCTTTTTTTCAGCTAGACTACTATGACTCTAGCTCAGAAAAAAAATTATTTCTAATCACTGGTT
CTAATACAAATAAAATGTAGTGATTCATTAATCTCCTTAGCCTATAATTGCAAATTGAGTTTTCTTTCAAATATACCTAAAGAAGGTAGGTGCCCACTAA
ACATTTCAGGGGAGTTTTATTTAAGCTGCAAATAAAATTAGTTTACTCATTTTTAATTTAATTCCCAGGAGGCATTTTGGAAACCTTCCCTCCTCATTTG
ACCCAAAATCATTTTTAAAAATTATTGTTSTCCTAAATTGAAGCCCTTTCCAGCATTGCRCATTAGAAGTCTTAAAACTCATCTGTTTTCTTTTYGTAAT
TGACTTACAAATGCGTAATCGACTCACAAATGTATAACTGAGTATGCATGGCATTTTAAAAGGGCAGAGTTTCCATTTGCTTCTTGATTTCTTTGGGGGT
TCTCATTTTCCTAAGCCCTCTTCCCACAACATTCCCAGTCATTCCTTGGGTCATCTCTCAGGTGTCACCACCCTGCTAGCATCTTAATGGAGCGGCTGTG
TCTCCTCCCAGCAGCAGTGGCACCAGAAGATTTAGCTGTGTTGGGGACAACGTTCAGAATCCTCATTTGCTGCTAAAGATGTACCCGGTCTCATTCTCCT
GACACATGGATGATGATCTTGTGACCCGTGTGACTATGACTGTATCACTCTGATCATCACTAGAACAATAAGTAATCTAAATAATAAGAAATTCTGCATG
TTCCATTGACAAAACTGGGAACACTGCACACACATACACATATTCACACAAACCATATACAGTCACGTGTCACTCAACAATGGGKATACCTTCTGAGAAG
GTATCATTAGATGATTTGTCATTGTGCAAACATCATATAGTGCACTTACGCAAATCTAGATGGTATATTCTGCTACATGCCTATCCTGTATGACATTGCC
TCTTGCGCCTAGGCTACAAACCTGTACGGCTGTTACTCTATTGAATACTGTAARCAATTATAACACAACAGTAAATATGTGTGTATCTAAACATAGAAAA
GATACCATAAAAATACAGTATAAAATATTTAAAATGGTATCCCTGTATAGGAAAGCTCGATTATAATCTAATGAGACAACTTTCCTRTATGTGGCCCRTC
ATTGACTGATATATTGTTATCCAGCAATGACTGTACTTAAGTAACTTTAATAGAAGCATKAAGAATGTAGTAGTTGTCATTTGAAAAGGGCCTTGCTAAA
TGTAACCTTCAGTTAAAGCAAGTCAGCCTAGTGGAGGATGGTGGCTGCTCATGTTGTCTTATGTGGATATAAACCTATATATCCCCACTAAGTGTGAAAA
GATGTCATGCACCAGGAAGCATGCAGGAGACTTGGTAAGGAGACAGAGGGATGCAGAGACTAAGCCCAAGGCTGGGAGCACAAGGCTTCCTTCCTTGGTC
CAGGTGTTTCTGCATGGGAACAGAAGATTGGTGTCTGCTTTTCAGTGACGTGGCTGAATCAGAGTGAGTGAGTGGGTGGTTTATTGTTGGTTTCCACAGA
TGCTGATGCTGAGGCAAGAAATCAAGTCAAAATTGGTTTATTTTGGGAGGTACAGGAAACACCAGTAGAAAAGTGAGGAAATAAGACAGGGGASGGAAGG
CAGCCAATAACGTAACCAGCCAGCTGCTTTCATGAGAGACTGGAGCATCGTCCCACCRGGAAAYAATAAAAAATAGTGTAAAAACGCATAAGCTTCAGAG
AAAGATATGGGAGCTGGGGAGTGGATATGCCAATCCCATTCTTGACTGATTGAAGGCTGCTGCTAGGGACATTAATCCCCCAGCACTCCTGGGCTACCAT
GTGCCAAGCAGAGCTGCCTGCTGTGCCTTTGGGGAAAGCCCTCATGCAGCGACACGGGGCAATGGTAGTTGTCTGCCTTGTGAAGGAGTAAGACCCGGGG
CTATGACTAGGGTATCAGCAGAGCCTGYTCCAAGAATGGTTAAGGGTTTGGTTTGGGACATGTAGAGTTCAAGCAACCTGGGAGGCACCTAGGTGATGTG
ACTCAGACCTCTGTCAATACTGGCTGGAGTTTCACCATCAATATTGATCTGTTGAGTAATCTACCCATTGTATGTGCTTTATAGTGACTGAATTACCAAC
ATGCATCTGCCTAGCCTATTTCCCTCTTCAAAATGGCATCTCCCACACATGAAACTTCCTCCTTGATTATATCAAACAGGACCAATAAATCATTCAGCTT
TTCCCCAGAAGTGGGATGTTGAGTGGTACAATCCATGATGTGCCATTTCTCAACAAGGCAGATGATATTTGATTCTTGGGATATCAGTAAGTCTGGGTTA
TTTAACTGGCTTTTTTTCTAAATCCTGACTTGTGTCCAGTTGCTTAACCAGATTTAGAAGAAGCCATGTTTACATGGAATTTCTGAATTACAAGCTGAGA
AATGTTYCCAGAAGATATTTTAAAGCCTCCTTAAGAAGGCTAGTGGGCCTTATTTCCTGTGTGAAACAACTTTTATCAAAATGTATTTGACACTGGGAGT
GTGGGTGAACTGGTGAAAAGGTCCCTGAGAGTTCGGGTCCCTGAGAGTTSCAAGCACAAATCCTGTTAACAGGTAATAAGATTATGAGCAYAGCCCATGT
AGAGCRCATGGTTTTATCAGCTGAAGTGAAGCACCAAGATGCCAAGTTGTTAATGGAATTCAGCATCTGTGTCTTTCATGGGTCTCTAAATAGACAAGGT
TCAATGCTACCCAAATTTCCTGCAGAATCAAAACCACGTTCGCCTTTGGAATGGGTATTTATTTATTGCTTTTACTCTGGGGAAAAAGGCTTTTTTACTT
TATAACCTTTTTATCTCTTATACAGCAATTTCCTTCCATCTTCTAAAAATGTTAGAAAATAAAGCAAATATGAAAATTCATGTTGCATTTCTAAGCATCT
GACCACAATCTATAGATCAAGATAATGCCAGACTCTAATTTCAGTGTTTAGCAAGGTTACTGGCAAATAGCATTTGAGAAAAGAGAAAAAATAGTATATT
GAAGGCAATACCCACCCCCTATATTTTGTATTACCATCTTTTGTAAGCTCTGGTCATGCAATGCTATCATAGGATATTTTTCCTTCCTTCTTTTATGTCT
TTTTGGGTCATTTTAAATATACCCCATTTATATATGCTACTCATAGAAATTAGTTCTTTATTCTCCATTGAACTTTTCTGAAAAGTATTATAAAGAAGGT
TCAATTTAATTATGTTCAAGTAACTGAGTCGTTGGCAATCAGCTGCCAACATTTTGATTGTTTTCTTGTGGGATTCAGTCCTAGTATTGAGTGCCCACTA
ACAACTGCCAAATTTAGTCATCCAAATCACCACGACAATAAGCTCCAGGTATTGAAACATCAAGACTGAAGCCACCACTTACGATCCARTCAACCTTTTT
AACTGTCAGTGCTTCCAGTCTTTGCCSAAATACACAGCATTAAAATTCATAAGTCAACCCATGTCCGTGCGTSCTTTTTCTCTCCCATATCCAGTTGGTC
ACTTGCTTCATGCTGATCCATCYATAGCGGTCGTGGTCCACACTCCAGCCCTCCTTTACATCCTCCAGACAGATAGGGTTCTTTMTATGGCTTAAAGGTG
CCAACCTCATTCCTGTCTCAGGGACCTCACACAATTGCTCCTTTAGCCTGAAACAATCACCCACTAATCTCTGCATAGCTGAGACCACCTTGTTATTCAG
GTCTTACCTGAAATGTAGCTTCCTCAGAGAGGTCTTGTCTGGTTACCCCACTGAAATTAGCATCCCCCTTTACTGTGTTCCATTAAACCTCCCACTTTTC
TTTCTTTTGAAGCATTTACCATCATCCACAAGCATCCAATGTRTATCACCGTTGTGTGGTTTATTGTTGGCTTCTTCATTGCTAGACCAAGAGCTCCATG
AAAGCATGGGCCTTGTCTCTCTTGTTCTCAGTGAAATCATATGTGCTCAATATGGGGGTTAGCACATAGTCAATGAATATTCAAATTCATTCATTTAAAT
ATTTAAATATTTAAAAAATAAATATTGAGAYACACTACCATTCATTTGGCACACAGCACATGCTACTTTTAATTGTGATGGCTCAAATAACCTATGATAC
TGCAAAGACCATTTTTATGCCCTTATAGGTCATGTAGTACCTTTTRTTCTCTGATATGTCCCTAGTACACATTACAGTGTTTCACACAGAGTAGGCACTT
AAACATACCAGCTAGTGGATAGTGTGATGATGCCAGGAAGTAATATACAAGGGTAGGAAACTAACAAGTATGGAGCATCTCATATGTGTACTGGCATCTG
ACTTCTCATTTAGTCCTCATAACAAGTTTATAAGGTAGATAGTRACATCCCACATTACAGAGGAAAAACACGAGCTTGTAATTGCATGATAAGCGCATAA
GGAGCAAATCTGGAATCCAAGCCTGTGTTCTCTGCAGGGTGCCATTGTGCTACTGACAGTGTGCTAAGTTTAGGTTCTCTGTGGATGTTTGTGAAGGAGG
CACAGGGAGGCAAGGAGAGCCACAAGCTCATGGCTCTATGGCTGGAACTTCATACCATTAATGACCACTTAAGAACGTGCTGAATGCACCTATGCATGTG
GAATCATGTACTTCCTTTTCACATTGTAAATGTGTCTACAAAGGCCAGGCATGGTAGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCTGATG
GATCACTTGAGGTCAGGAGTTCGAGACCAGCTTGGCCAACACRGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGTCAGGCATGGTGGCAGACGTC
TGCAGGCTCAGCTACTTGGGATGCTGAGGCAGGAGAATCGCTTGAACCTAGGAGGCAGAGGTTGCAATGAGCCAAGTTCACAGCAATGCACTCCAGCCTG
GGTGACWGAGTTAGACTMGGTCTCAAAAAATAAAAATAAAAATGAATAAATAAATAAATGTGTCTACAAACAGAGGTTTTTGAGAGTCAGGCATAAGCCC
CCACCTTAGTGATACTGATGCAGCCACCTCGAAATGGGAGGTGGGTCACCCATCTTTATTTGTGGTCCCSGAAGAAAGAAGATCTCAGCGGGGAGAAGGT
GGGGTGGGGCACATCAACTCCTTGCAGGTAGACACTCTGACAAGAATGTATGCACTACTCAAAATGTTTCTTACCCATGGTTCCTAATACGGTGAAGTCA
TGAGCCCCCTTAAGACCCAGTGAAAGTGGAACAATTCCACGTGCACATAAGCCATGCATTTACGATTTCAGGACATCTTTGAACCCAGGGCAAGAACTGC
AGCTTTGGGAAATTCCCAGAACAGTAAACAGTGTAAATTCTCAAAAGGGGGTTTATTTCATGTTACTTCCTTTTTTAAAGAAATGTAACTGTGTTGYATT
ACCATTAGACGTAATTGGGTGAGAAATTACTTATAAACCTGTCATCATAACATAGCTATTGTTTTCTTTGTCCAATATATTGACATTTTATTCCACTGTG
CACRTAGAGTTCTGCATTTGGCTGTTTTTACTTAATACATCATAGCATCAAACAGTGGTAATGCCATTTCACAGTCTGTATTTAATTGGAAGTGTTTTAG
TATAATGTTATTGTAATACTCAAATGCAAAGGCACGGTGATGCAGTGAAGATTGGTTTCTGTTTTGTCTAAAATTATTGTAGAACCCATTAAATTTTGTA
ATGCACATTCTCTTCCATCTACAGGTCTCCCATAAAATAGCTTCAAATCTCACAATCAATGATATTTTAAAGCAGCACATAAGAGTATTTAGCTTTAATG
TGATCATTGCCTCAGGCTGTAATAAAAACAGAATTTTTCCCCAATTATTATCMGTCACTCCTCCTCCATAGTCCATCATGATAARACCGAGCGACTTTCA
TTCCTCACCAGGCAACTAATCATCCCTTTGCTGAGCATTCTTCATAAATGGAATGGAATAAATTTCATTATGCAATGCGGTAATGTTCCCCAACTAGAGA
TCGGGGTGTAGCAATCTTGGGGAAAGTTACAGTCAAGATTATTAAAATATATGAAACTTAAAGAGAAATAGTGTCCTAATCATGCAGCCCATAATAGGCT
GTGCCAACCCCACTTATCCTCAAAACAGCCCTCCCTTACCTTGCCGGCCTCATCTAAATGCTGCTGTCTGCAGKGCACGGTGGCTCATGCCTGTAATCTC
AGCACTTTGGGAGGCTGAGGCGAGAGGATCACCTGAGGTTGGGAGTTCGAGTCCAGCCTGGCCAACATGGTAAAACCCCGTCTCTACTAAAACTACAAAA
AAAATTTGCTAGGTGTGGTGGGCACACACCTGTAATCTCAGCTACTAGGGAGGCCAAGGCAGAAAAATTGCTTGAACCTGGGAGGTGCAGGTTGCAGTAA
GCTGAGATCACTCACCACTGTACTCCAGCCTGGGCAATAGAGCGAGACTCCATCTCAAAAAAAACAAAAATRCTCTTCTCTCTTGTTGTCCTTTGTAAAC
TTCTGAAAATTAGACAATACTTGATTCTTTTACTTCCCTAACAAGTACCTGCTTACCAACCTGCTATAGTTTTATAGAAGTACTCTCTGAAAAGGTACCA
AAAATATTCTCATTCCTACATCCAATAGCTGTTTTTCTTATTTGGTTGGAATTTTCCATATGAATCAACATGCTCAACCATTTTCTTGAGGATCTTTTTG
TSGTAGCAGTTGTTGTTTAAAAAACAACTTTATTAATACATAATTCATATACTGTATAATTCACCCATTTAAAATGTGCAATTTAATYTTTTAAAGTATA
TTCACAGGGTGATGCAACCACCACCACAGTCTGATTTTATATTTTTAGAGGAAACAAATATATATGTTTATATTTAAATTTTATTTTATTGTGATAAGGA
CACTTACCTGAGACCTTAATAGATTTTAAGTGTACAGTAGTATTGACTCTAGGTACAGCATTGTATGGCAGATCGCTAGAACCCCTTCATCTTGTTTAAT
TGAAACTTTATGSCTGTTGATTAGTATCTCTCAAGTTTTCCCTCCCCCTAGACCCTGACAGACACCAATTCAGTCTTTGGTTTGGGTTAYATGACTATTT
TGAGTACTTCATGTAAGTGGAACCATGCAGTATTAGTCTTTCTGAGACTGGTTTATTTCACGTCACATAATGTCTTCAAGATTCATCCATGTTGTTGCAT
ATTGCAGAATATCCTTCACTTGTGAGGTTGAATCATATTTTATTCTATGTATGTGTCATATTTATCCACTCATCCATCACTGAACATTTAGGTTGTTTGT
ACCTCTTGTGTATTGTGAATAGTGCTGCAGTGAACGTGGTAGCTCTCCAGTAATATCTTCAAACTATCTCTTGAAGATCCTGATTTCAATATTKTTGGAC
AAATACCCAGAAGTGGGTTGCTGGGTCATATGGTAGAAAAGTTGGTTTTTTGAAAAGATAAGCAAAATTGACAAACCCTTAGCTAGACTAAGGGGAAAAA
AGAGAGAAGATTCAAATAAATAAAATTAGAAATGAAAGAGGGAACATTACCACTTATACCACAGAAATAAAAAGGTTCATAAGAGACCCCTATGAACAGT
TCCCTGCCAAAAARAATGAAAAAAAAACCTAGGTAACCTAGAGAAAAATGAGTAAATTCCTAAAAACATACAACCTACCAAGATTAAATCGTGAAGAAAT
AGAAAGTCCGAACGGACCCATAACTCATAGGGAGATTGAATCGGTAACCACAAATTCTCAACAAAGTAAAGCTTAAGACCAGATGTTTGGCCCACCAAAC
ATTTAAAGAAWTGATGAGAATCCTTCYCAAACTCTTCCGAACAGCTGGAGAGGGAGTGACACTTCCAAACTCATTTTATAAAGCTAGTATTACCCTGACA
CCAAAGCCAGACAAACACCACAAGAAAAGAAAACAAAAGACCAATATCCCTGATAAATGTAGAAGCAAAAGTCYTTAACAAAATACTAGCAAACTGAATC
CAGCAGCACATTAAGAGGATCACAGGTCATGATCAAGTGTGCATGGGAGTCAGGAATTGTTCAACACACAGAAATCAATCAWTGTGATACACCACATTAG
CAGACTAGAAAATAAAAACCACATGATTGTCTCAGATGCAGAAAAAGTACTTGACAAAATTCAGTGCCCTTTCATGATAAAAACTCTCAAAACTAGGAAT
AGAAGGAAAGTACCTCAACATAATAAAGGCCACATATGAAAAGTCCATAGCTAACGTCATACTCAACAGTGATAAAACTAAAAGCTTACCTTCTAAGATC
AGAAACAAGATAGGGATACTCACTGTCACCAGTTCTATTCAACATAGTCCTGGAAGTCCTCACAGGAGCAAGTAGGCAAGAAATAGAAACAAAAGGGATC
CAAAACAGGAAGAAGTAAAATGTCCCGGTTTGTAGACAAAATGATCTCACATATAGAAAATAACTGAAGAACCCATTAAAAACTATTAGAATTAATAAAT
GAATTTAGTAAATTTGTGGGATACAAAATCAACAAACAAAAATTAGTTATGTTTCTATACACTAACACTAACTGATCTAAAAAGGAAATCAAGAAAACAA
TCCCTTTACAATAGTACCAAAAAGAMTAAAATACACAGTCATAAACTTAACTAAGACAGTGAAAGACATGTATTCTGAAAACTACAAAACATTGACGAAG
GGAATTTTAAAAGACACAAACAGATAGAGATCTTGTATAGATGGATTGGAAGACTTACTATTGTTAAAACATCCACATTACCCAAAATTATCTACAGATT
TAATGCAATCAGAATTTCAGTGGCATTTTTTACAGAAATAGGAAACTCAGTGGAGCTTCTTCCTTCTTTTTGACTCTCATGACCCTGTCCTCAGCAGATT
CACCTGTGACTATATCTGTTTCTCTTTCTGGGTCTTATCTCTTCTTGTGCCKCTCATGTTTAAGTATCTCCCAATATTCAGTTAATAACATTTTCTGTTT
TCTGTAGGTAGAAACTGCCATGCCCACAGGTCGAGCTATGACATGCATACTGATGCCTCCCAGAAGTACCACTTCAATCTCTGACCTCCCTCCTGAGCAT
CCAGATTTGAATTTGCATCTTTCTGTGAGCATCTCCAAGTAGATGTCCTTCAGGCACTATTCATAGGTTGAAAAGAGTGCAGAGCAGAAAGATGAATAAA
AGCACAAATGCTGGGGTCAAATCTCTGAGATTCAAATCCTGGCTCTGCCACTAAATAGCTATATGTCTTTAAGCCACCTAATTAACCTCTCTGTGCCTAA
GGATTCTCATCAGTRAGATGGGGATAAAAATACTTGCCTTATAAAATTATTGAAATGGTTATGCTAAAAAAAATGTGCAAAGTCTTTAGAACAGTGCCCG
GCACATGTTAAGTACTGTTTAGCTATCAGCCATAATYTTAAAAATAGTGTTTTTAAAATCAGTAATATTATTGACAACCTTTTCTGAATATTGTCCAAGT
GCTTTACAGGGATTATTTMACTTATCATGGGAATGATCCTATGAGATAGCCACTGTTATTATTCCTACTTTACAGATGAGGAAAAGAGAGGTTAATTAGC
CCAAGGACACACAGTTTCCCCAAGATCAAAGAGTCAGTGGTGGGGCCATAATTTAAACCAGGGCAGTCTGACTTCAGATSCACACTTTTGACCTGGGCTT
CCCTGCTCAATTACAAATACCAAATTGACTCCTTATCTTCTCCCCAGAACAGCCTCCCTTTCCGGTTTTCTCCCCTTTCCCCAAGATTACCATTACAGCC
CCTTTCTTTTTCACCTGTGAATTAGCAAATGCTGCACCCAGAATCTTTCCTCCACCTCTACCCCATTCTCTTCTTGCTGCCCTGACTAGTTGAACTRTCC
TCTTTATCTTAACCTGTCGTGACACCACCTCCCTGGTCACCGTGCTCTTGCCTTCTTGCCTTCTTGCCTTTCCAATTTATCCTGCTCACTGACACCTCAG
TTGCCATTTGGAAACGAAAATAGAATTTTCAGCTTGATAACATTAAGGCAGAGATGTTGCAGCAAACAAACACTTCAGCAGGCAAGACAAATATGTTTCA
GATATTTTTTAGCAGCTAGAGAAACTCCAAAGCAACAGCCAGTGATTTAGAACAGAGGCTCCTCTTACGAAGCAGACAGGCTGTAGAGATAGAATTCAAG
GCTCAGCAGACATGTATCTCCTGTTATATAAGCAATCAGAATTCTCTTTTCCAATTGAACAAATCCCTCTCTGCTTTGATGGGGAAACTGGGATGTCAGT
TTCSCTAAAATGAAAATTCTATTTCACAGCAAAATGGTTCCAGTCAACTGGAGAGAGAGAGAAAGAGAAATCATAACTGTTTTCCCCTCCCCAGCCTAGC
ATCCTCCCCACCCCCTTAACATGGAAAACTCCTATACATCCTTTAAAGCCCAGGGAAAATGTGYCTTTTCTGTTGAAGCCCTTTGTCAACTCTTCCAGAC
ACTTTCTCCTTTTTAATCATGCAGTAGAACATGGCAGTTAGGAAAATGGGCTCTTTGGAAAATATTCAGTGTTCAAATGCTGATTTTGCTATTCATTAGC
TACATGGCTGTCAGCAAGTTGCCTCGTCTTACTGTGCTACACTTTTCCTCATTTGAAAAATGGAGGGCGGTCTCACCTCTCTTTTTATATGTGATTATTT
GGAGGATTAAAAGGGAAAAATTATGAAAAGCATTTAGCTCAGCAGCTGGCACTTGTCAGTACCCAGTAACTGTTACCAGCTGAATTTTATAGCCATAAAA
TAAATACAAGCATCCTAGAAAATTATAATACCCATAGGAAGCATGAGATTTTTTTTCCAAATTAAGAAAAAAGATATAGTAGTCTTGGAGTAGTTTCTCT
TCCTCTTAAAGGAAAAATAAAATGTCAGACTTTCTTACATTCTCATAGGTCAGTAGGTTGTTCCTATAGCTATGGGGACAATATAGTGAGGGTATGAGGC
AGACTTCAAGTTACAAGTTAGGGTTTGATCCGATGTCTTGGACATTTGCTTGGATCTGTACAAACCAGGATTCTGTCCAAGAACTCCTTTGATGAGGAAG
TGTTGCTAGAACTTGGCCTATGAGCTCTGCCTGCTGGGAATTAGTTTTAGCAAAGAGAGAGAGAGAGAGACAGAGAATATCATGGTGATGAGTGCTAGGA
CATTGTCAAGGCTCTTTTAAGTGTGACCACCAGGKGACAGCAGGAAAGAYAGGAGAAGACCTAGAGTTCAACTTGGAGTACTGAAAGCCTTCCCTTTCCT
TCTTTTCTCTCTGTGAAGGTTGTTTTCCTTCTTTGGGGAGTTGCAGGCCCATTTGGTAAATGAAGTGTCATATGGAGAATTTTCAGCAGATGCTTCTCTT
CTGATAGGGAATGGCAAAGCCCCCTAAATTCATGAAACATATRCAGGTGCCAGCCAACTTTGCACTGCCTTCATGACACCTCATCTGTTTTCTCAAACAG
CCAAGCAGCACTCTGTGCCCTTAGTGAAGTAAGGGGGAATAGGGGCCAAAAGGGCAGCGTGAAGACCTAACTGTTGTCCTCCCTGACAGCTGTCGTTTTG
TGATGCTGCTGCTTGCTTTTCATGAAATCTGTGACCAGCTCCATCCCTATCGTGCCCCCTGCCTCTGTAACCAGATTTTTGAGTCTACATATAGGTTTAC
TGAGATGACATTTACTTATTCATTGATTCTGTCTTTGGAAGATGCCTCTTCCACCCATACAAGGTATGCTGAATAATTGGTACTCAGAAGTGTAATTAGC
CACACATATAAGACATCAGAACTACTATATGGGAGGCCCAATGACTGATCATGAATATACACAGTGAGAGAAATGTCAGTCTTGTGTGAATTATCTTATT
TAAACCCCTCAGCCACCAATAAGTTACCTTCTACTTTTACATCCTTAGATCAGGAGTAAGATTCCAAGTTCTATAATGATAGCCAACCAAGACATTACAG
AACAATTGCCATGCTCTACCAGTAGTAATACCTGACATTTATTGAGCCAATAATATCTAGACCATGGCTGTAGCATATTTCCTACATAGAGGGGAATTTA
CTCAACACCATTCTTGATCAGCTGCCCAAACCCCGCAGTATTATATAAAGTGACTTCCCTGACAAGTTGCCCCAAGGCATTCCCATAAGTGTACTGGCAT
TGTGGTTATATACTATGAAATATATATTATAAAATGCATTTTTCTCTGCTCATGTTTTCCAGCAGGTTTAGGAGTCACCTAAAATTATTGAACATCTTGC
TTCCAAACAAAATAAACTGTATTACACATTCAGCTCTACATAATAACAGGAATTTCTTTTCTCTGAATCGTCCAATCTTTTTTTTTTTTTAAAAAAAGTT
TTGTATGTATGTGTGTTCTGAATACTATATGCATAGATTTTAGCTTGAGAGAACTGATTAACTCACATTGCATCTTGGGAGGCAGATTAGCTAGGCATCA
GTTTTAAAGAATTAGATTTAAATAGAGGGCAAAGAATTTCCCAGAAAAGATGAGCAGAATAAAAAATATAAAAGAGAAATTCTCAAGATCAGGACATAGA
GCTAGGTTCCATAGATGCTACAAATTGAAATGAACCTTGATCCTACTCTCAAGGAACTAAATCGAGCTGTCACAATCTCTATGAAGCAATTGTAGAGGTA
ATTAAAAATATGACTGAGGTAGTCACAATTGAGAGCATCAACTAAGGTCAGTGAAAATTGGAGCAGGAGGTCTGGCTAGACACAAATTTGGGAGATTCGA
AGCAGTTGAATTCTCAAGCAGCGTTCAGACACAGAGATTAATGCTGGTCAAAGGAAAAATTGTTCAGTACCAAGGACAGCTCCCTAGAAAGCTTTTATTC
CCATAGATCTCTGGGCAGAGACCACAGGAGTATTTTGGTAGCTGTGCTCTCTCTCGTAATAGTTCATTGCACAAGCATTCTCATGTGATAATGTGTGCAC
ATGACAGCATCTTTTACGTACCGATTAAATTACCAGTGGTACCATTATCATTGTATTACGGTTCTGCAGAGGGACAGAGCTAATAGGATATGTGTATATA
TAAAAGGATATTTATCAGAGATAATTCACCCACGTGATTACAAGGTAAAGTCCCACTATAGGCCATCTGCAAGCTGGGGAACAGAGAAGTCCATAGTGGC
TCAGTCCGAATCCGAGAGCCCCAAAACTAGGGAAACCAACAATGCAACCTTCAGTCTGTGGCCAAAGGCCCGAGAGCTCCTGGCAAGTCACTGGTGAAAG
TCCCAGAGTCCAAAGGCTGAAGAATGTGAAGTCTGATGTTCAAGGGCAAGAGGAACAGGAGGAAGCATCTAGCAGGGGAAAAAGAAGTAAGACGGAAGAC
CCAGCAAGCAAGGTTATCACACCTTCTTCTGCCTGCTTTGTTCTAGCCATGCCGACAGCCAGCTGGATGGTGTCCACCCACAATGAGGGTGGGTCTTTCT
CTCCCTGTCCACAGTAAAAGCTGTGTAASTGGATAAGATTAATAAGGGATAATGTGAAGGGAGATGAGAACAAGGGCTACATCTAGAACCTAGGAGGAAC
ACTCATATTCCAGTACTGGAGGAGAAAGTGGCATAAGTCTAGAACCSTTCCAGAGAAGGAGAAAACTCTCAGGAAAGTATAGGATTAGTGAGGTGAAGAG
AAGAATAAATATCCAGAAGAGGGTTAATTGTTTAAGCTATATTAAGCTGCAAATAAATGAATTCCAGTACTAGATTAAACAATAAATAAATGTAATTAAT
TCATATAAAGTGATTGAAGGTAGGCAGTTAAGAGTGTTTCAGCAGTGTTTCAGCAGCTCATCATAATATTATGAATCTTAGCTCTCTACATCTTTCCAAT
TAATTATCCTCTGCATGTTGACTTCTTGTCCCTGTGTTTATTGCCTGATGGTTGCAAGACGGCTGATGCAACTCTAGACACATCAAGATCATGTTGAAAT
GAAATGAGATGAGAGTGGGCAATGGAGAGAAGATTCATGATCTTTTCTTCCATCAGGAAAGAAAATCCTTTCCAGAAGTTCCTATAGACTTCTTATGATT
TTTAATTATTCAGGACCAGATTACATGGCCACCCCTACTGTTGAGGAGACTAATGAAGTATTTGGCTTTTCCAGGCTTTGTTGTTAGCSTCCAGTAAGGA
TGCAATTGGAAATGGACTTTGTGGTGAACAGCCAACAAGATTGGCCACAGTGGAATTAACGACATCAGTGTTCTTTCAGACATTGAAATGCTTTTTCCAT
AATTAGTTCTTTTGAATAAGCTGATAAAATAGTCAAGATTACCCAAAGCACCTTCTCATGAAAGCAGGAAACAAAGTTTTGGCAATCCTTAGCCATGATA
TTTTGGTTGCTAAAATTGATGGCATTTCTTACTTTTTAAAAAACTGTCATATGAACAAGTGTTTAGTTCATCTTTTTCTCATATGAAAGTTAAGTTCTGA
CTTATTCATGTTGGTCTCAGTTTTTAAGAATCAATCATACAGAAAAGTTGGTAGATTTTGTGGATTTATAGTAGAACTACTTAGCTAAAAATTTGTTTAT
CATTTGAAGGCCATGTTCCCCTTTAATTAGATATTCTAGAACCTCTGGATTTTTCCATAATACTATTTTTCGTAAGTTGTACTGTATAAAAATAATTCGT
TTTGAAGATGTTGTATCATTGAACTAAAAATCATATTAATACTCATCCAAAGAATTACACAGTCATTCTCTTTAATAGGGGAACTTAAGAAMCAGAACTG
TTTCCTATGATGTTTAGGAGACATTCAGTGAATTTTGATCATGATGAACTAGAACATCCAATTCTAAGTTGGACACTGGTCTCAGAAAGAATGCTGGCTG
CAGAGGTCTTTGAGATAATGAATCATCTGGTTTCTTATAGTATTAATGCTTATAATTAGAGACAGAAAAGAGTTTAATTTCTTGCACGAATTAATTAATA
CTTACGATAAATGTCTTGAAAGCTCTTTCTGGTGTCTGGTTCAAAAATTGCAGTTCTTGAGGTCTGTTAATTCCTTCTAAAATGGAAAAGCTGGTAAAGG
TTGTGACACTGCTGCTAAAGTGATCTGTGAATTAGAGGACGTTTGACTTCTCCTCTGACCTCTAAGCTCATGTGGCCATTTGCTTGCATGACCTCTCATT
GAGATTACCCAAAGTTGCCCCAACTTTAAAAGGAAGATAATAACAGTACTTTCCTCATGAGCCTGTTTTGATAATTACATAAGATGCTTAGAAAAGTGCC
TGGGACACAATGAACACTCAGAAATGTTGGGTAGGAACAATGGTTATGATGATCATGATAAAGGAGGAGGAGGAGAATTTGGCAATTATTTCCTGAGTAC
CCACTATATGTAAAACACTATGCCAAATACTAGGAATACAAAGGTAAATTAGACATGCAAGATTTAYGTTCCAGAAAGCTTCATTTTTGTGTTCTCTAAT
TCTGTACATGTCTTTCTTCCATTTATAATGTAGATTTACATGTAACAGCAAACTCACTGGAAATGTGTTTCCCCCCATTTTCTGCTATATTGACCCTGTA
TGTAGAAATAACCAGGGTCCCACAAAAATCTGTTTTGTTTTCTTTATTGATGAGCACAGTTTAAGAATTGTGTAAGTCCTCAGTAGCCTCTAAAGTATTT
CAGGCATTTTCAACATGACATGTCAACACTCACCCAAGAGACCATCTTTTAACTAAGTCGTTATTGAAAGTTCTCATTTTGTTCACTTCTTCAGAAAATT
CAAAGAAGAAAAAAAGCCTAAAGCCACTCACTCGTTGCTCTTTCAATGGCATCACCATTGTGTGATCTRTCTTCTTCTGCTAGAAGGAAATTCCAGGAAT
CCTTGATCTCGCATCTTTTAAACTGATTTCACAGAGGGTATCCCTGACAGCATTTAAAAAAAAAAAGCAARCAAGAAAAACCTCAAATGGGTAGAATTTT
TCTAAAAGTCTGAAATAAAAGTTTATAACTGATTTTCAGGTTTCCTATTATTACCTAGGCACACCTAAATGAATACTTGAAGAATGGGGTTGTAAATACT
CCCAGAGGCAACTGCAGCAATCATGATCATATGTCTGTTGCAGTGGAATTCTTTAGTATAAATTATTGTATATTAAACCCTAATAAATATGTAGGATCAA
AACATGTGTTTCTGGTTGTGGGGACTGCAAGATGTGCAAGTCCCCTTGTCCCTGTTCTGGTGGCCCTTGAGCATTCCTGCCAATCTTTGGAACTTCAGAG
AATGCCAGAGTTGTGGGGAAAGATAATTCTTACTTTCTACCCCCATTTCCCTCCGTCCTATGGCAGTCTGGGACGTGGCTGTACACTATAACTAAACTTT
AAGACATCTACAAGTAAGAAACGTGAATAAGAACTTCACCTGGGAAAMCAGTCTAGAAGAGGGAAATCCAACATGGACTGAACAGTCTAGAAGAGGGAAA
TCCAACACGTACTGAACAGTCTAGAAGAGGGAAATCCAACAGGGACTGAAAAGTCTAGAAGAGGGAAATCCAAAACGTACTGAACAGTCTAGAAGAGGGA
AATCCAACATGGACTGAAAAGTCTAGAAGAGGGAAATCTAACACGTACTGAACAGTCTAGAAGGGGGAAATCCAATGTGGACTGAACAGTCTAGAAGAGG
AAAATCCAACATGGACTGRACAGTCTAGAAGAGGAAAATCCAACATGGACTGGACAGTCTAGAAGAGGGAAATCCARCATGGACTGCTGTGCACCAGCCT
ACATCATAGTCACGTGGTTAGCATTGGTTGCATATCTGCAGTAGCCTAGAGTTTAATCACACAAGCAGCCTTGGAGCTTTAGTTAATTTCAGTTGTTCAA
ACTAGTTGGATTTATGAAGGCCTTGCCATGCCCTTCATCCCCCACTTTTGAAGCCTCTCTTGATTATTTTTTTTAAGCTGCTGTGGTAAGAGGTAATTCT
GGATGGAATATTAGTTAGACTGAGGCAAACTAATATAAATAATATTGGACTATTAATTTTGGAAGGGTCACTAAGCCCCCTCAAAAATAAAAAGGAAGAA
ATTACACATTTTCATAAATGGTTTTGCAAGAATGAAAAAGTAATCTTTAGTCCTAGACAAATGCTCTTGGAACATTATTGTATAATTTCTGGTTCTTTTC
TCTCTCGACTGTAGTTATTTCACACACATTACAGATGAAGCCACTGTATCAGTCAGAGACCAATTTTAATCCCAAGGTTGATTAGACAGGTAGCTCTTCG
CAGCTTGTGCACTCTCCCTTTGTTCTACAGCCCTACACTCACACAGACAAAGATTTACACACAAGTAAGGATTTGGCCTGATTCGTTAGTGGAACATCCT
GATGAACACTTGGTTGCATTTAACCTTTTGCTGCAACAAAAAGTCCCAAGGTTGCCATAGTAATGGGAAATTAAATCCACAGAGCTATTCCTTTTCCCTT
AGTGGTTCTGGCATGCTATCACACCATAGCATGCTTACAACCTCGGTCAAGAAAGAGCTGTGATCCCACCGTTTGTCCATCGAGTTCTAAGCTATGGTAT
TTGTAAAAGGTCATTCTGCTCKCCCGACATTAACCTGAATGGAACAGCTGGAACGTAAATTGGAAGGAGGAGTGATGATTCTCCCTTTGGCCATTTGATG
ACTTGGGAATTAAATGGGACCCAATATGTCATCTAACGTTAGTTCCAGCCAGTGTTTCAGCCACAGGACATCTCGGAAAGGTGGTCATTTGGCTCTTGCC
TGAAGCAWTCGAGGAAGGAGAGCCCAGTTCTGGAATTAGACAATTATTGTTCTTACCCTTGAACCAGCCACTTACCTGCTGCGTTCCCACTCTTGGCCAG
GGGCCAATTAATGAATGAAACAAGCTCCCTGCACTCAGGAGGCTCACAGAGAAGATGATCCAGTTTATGCTACCGCATCTCCACCATAACTCCCCTTTTA
GCTCATTAACTCCCTCAAAAATATCCTTCTGCTAATTCSTCTCCCTTCCCCTCTCTTCCACTGTTGCCTTTGGAGCTTTCACTTTATCCTAAACTTCTTT
ATGTCTTTRGTCATCTCCTAGAACACACATTTCCTCACCTTTAGAGAAACTTGACTCTTTCTTCAACTAATCTGCAGTGTTCAAATATGAATACCTTTCT
GTCTTTCCTTCTTTCTTTCTCTTTTTCTTTCTTCCTTTGTCTCTTTCTTCTTCCTCCTTTACTTCCTTTCTTTTTTTCTTTCTCCCTTCCTTCCATTTAT
TCATTCAACAATTATTTATAAGGGACTTAATATGTGCCCAGCACTGTTCTAGGCACTACAGATACAGCATTGAACCACCCYAATTAAGCTTGCATTCTAY
TGGGGAGAATGAAAATAAAATTAAAATTAAAATGAGATATATAGTAAATTAAATTAGAAATGCAGTAGGGTTTCTTTTTAAGTGGAGGTGGTCCTTTCTC
CTATCCTCCCAACTTCTTAACTCCAATRTTTCAAAGCTAGGAGGAGAAATCAGTATTCCCAGGGACCCTTTGGAAGAACCTTTCTTCTTTCACCCTCTTT
CATCCATTCCTTCTCTGAAGCTCATGCCATCTGATTAATCACACTATGTTCACTCCTCCCAGCCTCTGGGTTTCCACCCTAATGCATTGAGATTCTAGGG
CTCTGGATTCTGGTTCAGTTTTCCTGTCTCCTTTCAGCATTTGAGTGATTTCTGCATCCGATTTRAAGGGTCAGTTTCTTGRTTTTCATTATTCCAATAA
TGTTTCTCTCCCCCTCATTTGAGAAGCCAACTCATAAGACTAAACTCTAGTCCTTGCTAATATGCCAACTACTCTAATTCCAATATTTCCCACCATAAAT
CTCCTCCTGGACCATAACCTTTTGTTTCTCCCAATTTTCTCTCTCATGGAAACAACTCCCATGGAAACAATCACACAMACACACACACACACACACACAC
ACACACACTCAYGTGGTTACCTTTTTGCCAGTTTTCCAGCCTCCTGGACTGAACAGTCTAGAAGAGGGATCCAACATGGACTGGAAGAGGGGAATCCAAC
ATGGACTGCTGTGCACCAGCCTACATCATAGTCTGCCTACATGGTGCTTGGCATGTAGATAGAATGAGAGATGCTGAATGATAGTCCTCATTCTCCCTAA
GCCCTTAGTGATTATGAGCCCCTCCCACTTGTCCTACCAAACTTAAACTTCTTATTAACATGACCCATCTCTTTTCTCCTCTCTTGCTGTTAAGGTGTGT
GGTGATCACAGTAATGGCCCCCCAAATATGACTTTGTCCTAATTCTCAGAATCTATAAATATGTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
TTTGAAGACGGAGTCTCGCTTGCTCTGTCGCCCAGGCTAGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTC
CTGCCTTAGCCTCCCAGGTAGCTGGTACTACAGGCGCCCGCCACCCCGCCTGGCTAATATTTTGTATTTTGGGTAGAGACGGGGTTTCACCGTGGTCTCT
ATCTTCTGACCTGGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCGGCCTAAATATGTTTCTTACATGGTCA
AAGAAACCTTYTAGATGTGATTAAGTTAAGGATCTTGAGATGGAGACAGTGTTATTGACTATCTGGATAGACCCAATAGAATCAGAAGTGTCCTTACAAG
AGGGATAGAGGAGGGTCAGAGAAAGAGATGTGGCAATGGGGACAGCAGTTAGAGTGATGCAGCCCTGAGCCAAGGAATGTGGGTAGCCTCAAGAAGCTGG
AAAAGGCAAGAAACGAATTCTCTTCTGGAGCCTCCTGAAGGTACCAGCCCCACTAACACCTTGACCTAACCCCCATGAGACTGATCTCCAACTTCTGACC
TCTAAAACTATAAATCATCAGAGTTGTTTTAAGTCACTAAGATGGTACAGTTAGTTACTGCAGCTGCAAGAGACTCATATAAAATACCAGCACCACTAGA
TAACACAGCAAGGGAGTGCAGTGATTATGGTGCCTTGTGCCTTCAGGATTCTCCTCCACCCTCGGCAGGCCTGGTGCTACTAAGCACCTCTGCACTTATG
GTCTGCTGTCCTGTTCCACCATTCTCTTTCCCAGCACATCAAGAACCAACCACAGAGTTGACAAGAGGCCACTTGTAACAATGTGAGCTTCTGTTCCCCT
AATAGTATTAACAATTACATTCCTGTGACTCCTTTCAGGGCCGTGAAGATGTTCCTTGGACCCAGGCAAAGGCAGAACTGCTGACAGCTTTGGCTGCTCC
ATGTCACCTCAYTTGTGAATGGCGACAGAAAAGCCAGGGTGATCTGTAGCTGATCCTCTGGTCAGTTCCACTGGCTCAAATTAAAATTTTAGAGAATCGG
TCTCTGGTATATTTCCCCTTTGCAGATGACACAGAGAGGGTCATTTATGTTCATAAGTTGGGGCGAAAGCTCCACTGGCTAGTAGCAGCATTTGAATAGG
GGGAAATGGCACCTTTTGACTGCTCATGTTTATTATGGGAGGGGAAAAATGAGTTTTATTATTGAACTTCATGTGACCTTCCATGGGATCCAAGAGGGAT
TCAATGACTGAGAAACACAGGAAAAACAGCAGGCAGCAAAAACAGTGAACTAGCTCAAGAAATATGTTTTTTTGTTTTTAAAAACATTGGAAACATACTA
CAAGTCCCTAATTAGTTTGACCTCCATGGTTAGATTTTTTTTTTTTAACTCCAATATTTTCCTGAGTTGATTTTAGCTTTGTTTGTTTTTCCATTGACAA
GATTCATTTTTAATTGTGTTGTCAAGTTAGAGAATAGGATTCTGCTTTTGAAAAAAGTGCTTCGTGGCATGGAGATAACAATAACTTTTCATAACTTGTG
ATGTTTTGTTAAATAACTTCCTGAACGAGCCATGGTAATAAGTGCTAGCCCAAGAAATCAGAACTTTGGTGCTTGGCATGTAGAGAGGATGAGAGATGCT
GAATGAATGAGAAATAAGTAGATATACTAGAAATTAGTCCGTAAGACAAGGGGATGGATGAGATTCTGTATCGGTTTGCGATTCTCTTCTTGCCTTTGTT
CCTTTGGGGAATAAGCTACACATATTTATTTGTTGATGTTTTATGGAAAATCTATTTGGTGCGTGAATTCTGTTGTTTTCTTGTGAAGTTCATTGTTTCA
AATCTCCCCATCTTCCARTGCATTCAGGCACTATTCTTGGTTTATTTGTTAAAATAACTGTTGCACTGGGCCAATCCATTACATTTATCTTTAATAACCA
ACTCTAGGSGTTTGTTCGGTCATCACTTTCCCTGTCAAGGGGCACAAATATCTTCTCTCATCCRTTTCCTAGGGGGAAGTATCTTCTTTTCTTGTCTTGA
TAAGACAGTTACCAAAGGAAGAAAGAGGAAAGCCTTATCCTTTGAAAGAYGGCATTAATTCATGTGCATTTGGCAGTGGGAGAGGATATTGCAGTCTGGG
GTCAGCTATGACTTAAGACTTTCTATAAGACTGGATCTGAACAAGCCATAGCATTTACGAGAAGGTCCTTTTGTGTGTTGTGACACAGACTGGTATCCCA
TTTATGACAAGAGTGGCCCATTTTCTAAGATTGGTCCAGAGCAGGACACTCTTTGACCAATCTCAACCACCTGATTTCCTCATGAGGTACAGGGGACTTA
TGCAAACCTCTCCTTTAATATGGAAACCTCTCCTTTGATGACCCATCTTTAAGGAAAGGGTTAGAACCTTCAGTCTGGATTTTATTCATTATCATGTCCC
CTATGCCAGGCTCAGAGACTTCCTGTGATTATATTTGTTGCATGACCATTACATATACACTAAAAGACAATGAAGACACACACACACACACACACACACT
CACACAGCATTGAAGATGACCCAAAAGAGAGAAAATGAAGCTTGAGAAAAATAAAAATAAATTACCTGGTCTCCAGCCAAACAACCTACTCAGAATGCTG
AGGGGAAGGTGACCAGTTGTGGCTAATCTTTCCTTAGAACTTGTGCTCTGCTTCTGTAACTTGGCAAGCACAGGCCCTTTTGTAAAATACCTTTATAATA
TTCCACTATGACATGAACCACGTTTTTATTTTATTTTATTGTGGTAAGAACACTTAACATGAGCTCTACCCTCTTAACAAATATTTTTGAGTAGACAATC
CATTATTGTGTACACAAGCTATCTGGAGCTTATTCAGCTTGCCAAAAGCTATCTAGAGCTAATTCAGCTTGCCTGGCTGAAAACTGATGCCCATTGATTA
TTAATTCCTCATTTCCCCTCCCTTCAGCCCCTGGCAACCACCATTCCCCTCTTTGAGTCTATAAATTGGACTGTTTTAGGTACCTCATCTAAGTTGATCT
GGTACAGACACTATGGGACACACTATGGAGTTTCCTCAAAAAATTAAAAATAGASCTACCATGTGATCCAGCAGTTTCCCTTCTGGGTATTTAAAAGAAT
TGATATCAGGATCTTGAGGACGTATTAGGGCTCCTGTGTTCACCACAGCAGTACTCACAACTGGCAAGATGTGGAACCAGCCTAAGTGTTTCCTGACATG
CACTCTCTTTTCCAGTTTGATTAATTTACAGTGATCATGTTTGTTGCATGAAGATTAACTATACAGTAAAAGACAATGGAGAAATACACACACATACTCC
CACACAGCATTGAAGAGGACTCCAAAGACAGAAAACAGGGCATAAGGAAAATGAATAAATGAAAAACCTGATTTCTTGGCAAACAACCTAATTGATGGGA
GCTAAAGTAGTTGACTCTTATTTACTTCCACTTTATTCTTTAACATTACAAATAAYAGACTCCCTGARTTGAAAGCAAAATTAAATGTGATTTTATCAAA
CCTTTATTCTTCTTTTTGAAATCCTGCTTTTCTATGTCTTATCCATAGAATTTCCAAGTCTCTGCTTGAGCATTTTCAGTGGTAAAGAATTTACACTCTC
ATGAAAGAGATCATTTCACTGTTGGTAGGTTGAAATTGTAAGAAAGTTCTTTCTCAACAAGGATCTGAAATTATTCCTATAGTTTCACCCAGTAGTCCTG
TCTCTACTTAATGGTAGATTCCACATTCCAGATTTTTAAAAAAGTTTATTCTGCTTTCTTGTCTACTTTAATCTACACASCAGTTCTTTTTTTTTTATAC
TTTAAGTTTTAGGGTACATGTGCACATTGYGCAGGTTAGTTACATATGTATRCATGTGCCACACTGGTGTGCTGCACCCACTAACTCGTCATCTAGCATT
AGGTATATCTCCCAATGCCATCCCTCCCCCCTCCCCCCACCTCACAACAGTCCCCAAAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTC
AATTCCCACCTATGAGTGAGAGTATGCAGTGTTTGGTTTTTTGTTCTTGCGATAGTTTACTGAGAATGATGATTTCCAGTTTCATCCATGTCCCTACAAA
GGACGTGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCAYATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGG
TTCCGAGTCTTTGCTATTGTGAATAATGCCGCAATAAACATACGTACACACCAGTTCTTATAATTGTTGCATAGTTGGCTGCGTTGAGGAGACAACCATA
GGTTAGAGTTCTTTTACGATCCTGGTCCTATCTCCTTATCATTTATTTCATTCATTCATCCAAGCAGGAGATGATGGCAGAGAGGAAACAGAGCAGAAGT
CATTGTGCAAATCATGGAGGTCTTTGTAGGTCATTGTATCAGTCCGTTCTTGCATGGCTATAACTAACTACCTGAGGATGGGTAATTTATAAAAAATTTT
TTAAAAAGGCTTAATTGGGTCACAGTTCTGCAGGCTGTACAGGAAACACAATGCTGGCATCTTCTGGGGAGGCCTCAGGAAGCTTCCAATCATGCACGAA
GARAAAGGAGGAATGAGGTATCTCACATGGTGAGAGCAGGAGCAAAAGAGAGCAAGAGGGGAAGTGCCACACACTTTCAAACAACCAGGTCTCATAAGAA
CTCACTCTCATGAGGATAGCACCAAGGGGATGGCACTAAACCATTCGCAAGAATTCACCCCCATGRTCTAATCGCCTCCCGCCAGGCCCCACCTCCAACA
CTGGGGATTACTATTCACTGTGAGATTTGGGTGGGGTCACAGATCCAAACCATATCCATCATTACGTGAACTTGGAATTTTTGCAGTGATACATACGGCC
ATTGGCAGATTTTGAGCAGAGGAAAGAGGGATTCATGTTTTAATGGATCCTTCTGGCCACTTTGTTGAGGGATAGACTGGAGAAGGAGGAAGGGGAGAAA
CAGAGAAACCAGGTAGAAGGCTTCTGCAATTACCCAGACCCAAGGGGATAGTGTCTTGGACTTCAGTGGAGGCAGGGTTGCTGTTGAGAGTGGTCAGATT
GTGGTATATTGCCAGTTGCACAGCTGGAAATTTCAGATTCCCTGTGACGTGGGAATCTTTTATCCACAAGGTTGTCATGCATTTGGAATAAGAGAAATGA
ATTACCAACATGAGCTGCTGGGACACCATGGATCCGTWCGAGGAGTATCAGTAGCTGCAGTAGCTCCTTCTAGTGCTGTGCCAGGCACAGAACTCATACC
ATGTCATCCTATAATCTACCCCAATGGTAGTTAATATACCCCTATCACAGATGAGGAAACTRAGGCCAGGCTCAGAAGTAGGCTTCAAGTGGAATGYCTA
GCAAGTGGCAGAGTGGGGACCTATGCCTACTTCCACGCTTGAGATGTTCTTCTGGGGCATGGAGAACAGTGGCAAGGATCCCCTCCTCTCCTCACCACAG
CTGCTGTAAACAGAGTGGGTGAAACGAGCTTCAAGAAAAGCTTTTAGACTGAACTTGAGAAGAGTGCTGGCCTGGGACTGGAGCCACCACRTGTCACTTC
ACTCTGGGTGGAGAAAGGTGTAGCCGGCTCTCAGGCTCATGCAGATGTCATGAGCTTCCCCAAAGGGCCCCAAGAAAATTCTAGAAGGCAGAGTTGGATG
GCACAGGCAGCTGGGTCTCTGAGATGCATCTTGCACACAGCCTCAGAGCATCCCTGATCAGGAAGTGCAAACAGGTTGCTAGGAATATTTTCCTCGATTT
AAAAATCACCACCACACCATAAATGTGTAGTGTTCAAAGAAAACTTGCATGGTCCTGTTTGACATAACATTTATGTTTCTTCTTCATGGTTAGGGTTGAT
AAGAATTACTTTCACTTTACAAAACAGAAGCCATGGGCTAAGGAGTATTACTTATCCATGCTGTTGCAGGAGGTCTCCTACTGAACTGGGGTAGAACTTT
CCAGCTCCCTTGGCTCTCTTACTGTGTCATGCTTCTGGGGAATGAGAGGCACAGAGAAGCCATCAGCAGGTGTTTACTGAGCACCTACTATGTGCCAGAT
ACTAGACTAGACAGACCAAGTCCCCGTCTTCCTGGAACTTACTGGTAGAGTGTTGGGACCAGAAAGGGGTTGCCCTGAGTTCTCGTCCTGGCTCTTGTGT
GAATTAGTCCATGACTATTTGCTTACCCAACATCTCATAGCTTSAGTTTCCTCAACTGTAAAATGAGGGAAATAAGAGTGCCTCTGCCTTCCCCTTGAGG
CTTGTTGAGTAGTTCCAATGAGTCAGCAAAAAATGAGAAACACGAAAAAGCTTTGTGACTTCTAATTCAGCATTTATGTGAATGTGGGCTATCATTCATT
ACTGGGAAAATGCATGACCAGCGGATAAACCACAATGACCCCATGTAAAGAGCATCATTGTTTCCTTGGTGCACCTACTAATTTTACCAAAGGCAGCTGG
CCTCACTCCCTGTGACTGCAAGAAGTTTTCATGTTCATTTTTGTGAGCTTGGGGATGAGGGTGGTTTCTCCTATTGACTCAGGAGTGTAACCACCAGAAG
ATTCATTACCCCAGCAGGAAAGAAAGGGGAGCCCTCTCAAGTCCAGTTGTGTGGACCCGGTGACAAATGTGGCAAACAGGCTGATGTAGATTCCTTGAAT
GTACCATTAGCTACTGCCATGTCACATTACACTTGTTTATGCAAGAACCRTGCAGCAGATAAGAGTGTTTAAATGCCTTTATTACATGGCATCATGGTAT
TGGTAGTAGTTGGTAATGATTTTTTTTTCCTCAGTGCAAAGCACACTCTTAATCTAAAAATATGAATTATGCTTAGTGGCTCGTTGGAAAGTATTTCCTT
TGCGTTGGGGGGGAATCAATCTTTTCTATTACTTATTTTTCTTTCCTTTCTAGCAAGGTTAATATGCAGAACATTATCTGATGGACTTTATTTTATAAGG
TGAGAGGTTTCCCAGAAGTGCAGTACAAGGCTCATTACTCCAGTGCAGAATAAATTGTCCAAAGTAATTTGAAGGGGCATCGTTAATAGCCCAGTCTTCT
ATGTACCTAAGCTGAGGTACCACCTTGCCGCTCAGGTTATTGAGAATTGTCCAGCATCTCAACGAACTCTGCTCCAGTTTCAAGATGGACCCCATTAGGG
CCAGGTCATGGTACAACATGGGAGAATCATAGGGCTTGGAATTTTGAGACCTGCGTTCTTGTCCTACCTGCTCCATCCACTGGCTAGATAGCCTTGGCTC
TGAACCTACTTCCCCATTTGTGTGACAGAGATGACATGCAAGATGACTTCCTCAAGGGTCATATTCCCTGTTGCCTCTGAAATATAAAGCAGTGTCTATC
TCTGGCGTGGTCCAGCCCTGCCACCTCTCTTCACCCCATCTCATTCCACTCTCCCATGCCCACTGAAGTGCCAATGATTCAAGTCCACATGCTGAAAAAT
CTAACCTAGAGTCCCTCCTCCACTCCCTCCATCTCAAACTCAATTAAAAAAAGAAAAAACAGATCCATCCAGTGTGCCACAGTGAGATACCAATCAGTAA
TCATGTACATAGCCCTTCCTCTTATCCCTGTCTTAGAGCCAATCCATGTCCCAGCCCTGCCGATGTCACCCCTCAATATGTCTGCAATCTGTTGTTTTGT
CTTTGGTTCCTCTGCTGTCGCCCTAACCAAGGATATGCCCCAATTTCTCTCTTGGACTCTTTCAACAGCCTCATACCTGGCATACCTGCACCTATTTAAA
ATATATATATATGTGTGTGTGTGTGTGTGTGTGTGTATGTGTATTTAAAATAAACCCCTATTTTATTTATATATATAATATATAAATATATTTTATTTAT
ATATAAAACATAGGGGTTTTATTTATATAAATAAATAAATWTATATATATATATGTATATATATACACACACACATATATGAAGGAACATAGGGTTTGGA
ATTCAGAGAGAGATATCGAGAGAGTTTCGCTCCTGTTTTTCTCTCAGGCTGAAGTGCAACGGCACAATCTCGGCTTACTGCAACCTCCACCTCCCCAGTT
CAAGTGATTCTCCTGCCTCAGCCACCTGAGTAGCTGGGATTGCAGGAGCCTGCTACCATGTCCGGCTAATTGTATTTTTAGCAGAAACGGGGTTTCGCCT
TGTTGGCCAGGCTTGTCTCAAACTCCTGACTTCAGGTGATCAACCTGTCTCAGCCTCCCAAAGGGCTGGGATTACAAGAGTGAGCCACTATGCCTGGCCC
CCTRTTTGACATATTTTTAACGGTGTAGGCAAAATGATCTTTTTTCCAAACACTGCAATCGTGTCATCCCCTTCAAAGCCTTCTGTGGCTCCCCGTTGCC
CCAAAGCAACATCTAACTCTGATGTGGTCCAGCCCTGCTGCCTCTCTGATGTGGTTCAGCCCTGCTGCCTCTCTTCACTCTGTCTCATTCCACTCTCCCA
CGCCCACTGTAGTCCACCCTGGTCTCCCTGAACGTGCCACGTGCTCTCTCCCTGATCTCAGGGTCTTTGTTCATACTGTTCTCTCTGTCTGAGTTGCTTT
TCCCTGTACCTCACATCTAAGTCCAGATGACTGTTGCTCAGCCTCCAGCTTCAGCTCAGCTGTCTCTTCCTCTGATAAATCTTTGCTGTGTCCCTAGGAG
AGGCCAAGCCACTCTGTTACTCCCTCTCTCCGTGTTCACTAGAGTTGTCCTTCTGCATTTCCTGCTGTCTCTGGTTGGCTGTCTGTCTCCCTCATTGTAT
TGCAGACTCCGCTGTGTGAAGAGAGGAATTGTGTGGCTAACACCAGGCCTGGTACATAGTAGCCACTCAGTATGGGGAATGAATGTCTTACTTTTTTAAT
TCTTCAATTTAAAAAGCTATTGAGAGTTTGTCCATGATCCCCAAGGATACATTTGACAATGTCTGGAGGGTTGTCATGACTCAGGGATGCTAGTGGCGTC
TCGCAGGTCAAGGCCAGGAGTGCCGCTTCATATCCTGTAGTGCAAAGGGCAGCACCCGTCACAAAGAATGATTTGGTTCCAAATGTCACCAGTGGCAAGG
TGGAGATGCCCTGCTCTAGAAACTGCCAAAGAAGCTGTTGCCAAATAAAAACTATAGGGAACAATGCAACAAATGACTCTTGATCTAAATTCCATTTCAT
TGGTTGTTTCATTCTGGGGCAATTTCGCTACATATGTTTCTTCATATTGGAGCTTATAATAATGCTTATGTCATAGTAATTCTGAAGGAGTTGTCTTTTT
TAAAAAAACGTACTCTCTCTAGAGGCTGGAGAGGGAGGATCGCTTGAGCCTGAGAGTTCAAGGCTGAAGTGAGTTATGACGGTACCAGTGCCTCAAGSCT
GGGTGACAGAGTGAGACCCTGAATCTAATTAAAAAAAAAAAATTATACAATGAATAATGACCCAAGTACTGTGTTGTCTTCATGCCATGGACACCTTAAT
GCTTTCTTCAAAGCAGTATGAGGTTGTTAATCTGAGAATGAATCTGTTAGMCTTCCCTGAACTCATAAAGTTTGCTTCCTCTTTGAAAGAACTTAGTGCC
TTTTAATGCCTATGCAGCCGTGATGTGCCAAGTAATATGTTCCATGTGTAATCCCAGTTTTCTGATAGTAAAAAGAAAAGTTGGAAACCTTTGGCCAACT
TTGGTGCCTGTGGCTGGGAGACCTTGCAGAGGTTTTCAAGGTCTGCTGTGAATGTATGATTTAGACCACAGCTCAGTTGTGACATTTAATCCATAGAGAT
AAATCATCACCTGCCATTGGTAGGGYTCTTTATGGATAAACAGGCCTAAAATAGTTACCTGTAAAACTCCATCAGAGTCTCCATCAGAAATCACCACCAT
TTTTTTTTAATGTAGGAGACTGGGATGGTGAAASTCTTTCTTGATTTTGGTGCTTGAGAACAAATTAAATCAAAGTCAAAACAACTAACTTTCCCTTGGC
TGTCCTTGAGGCATGCTTGGTACTGTTTTGTKTGGGTTTTTTTTTCCCAGTAGTAGGCTGGAGTTCTTATGGATTTGATTCTGACATCAGCCTCCCAGGA
GAGGCCATGGTGTATAATGGTTAAAAGCACAGAGTCCAGAAGGTGACTCTCATTTATCAGCTGTGTGACCTTGGGTGAGTTACTTGACCTCTCTGTGTCT
CAGTTTCCTTCTTTGTTAGATCGGATAATGATAGTCCTTACCTCATAGAAATATTATAAATATGAAATGAATTAATATCCATAAAGCGTTTAGAACAGGG
AACGTACTCAGCTTAATAATGTACATATTCGATTAATAAGATAAAGGCTGGCCRGGTACGGTGGCTCATGCCTGTAATCTCAGCGCTTTGAGAGGTCGAG
TCAGGTGGATCACCTGAGATCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTACAAATACAAAAAATTAGCTGGGCGTAGTGG
GACATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACT
CCAGCCTGGGAGACAGAGCAAGATCCTGTTCCAAAAAAATTAAATTAAAAAAAATAAAGGCTTCACATAATATGCAGCCAAAGTCAGAAAAAAAATAACA
TTCTTGACTGCCCTTTTCCCATGAACCCCAGATCCACTTGATATAATATGCCCTGATGTATAATAGTTTGGCCAAAGGGTAGAAATTAATGTGGAATTCA
ACTTAGGAGAAAAAGCAAATAAAGATTATTTGTTCCATGTCACTCCAAGATGGCCAGTTATCGCCCAACTCTCTTCCTTCTGCTTCCTCAAGATCTCTTC
CATCTGCTTCCCTCCATCCATCCTCCTGGCCACTCCCATKTGYATGCTYCTATCCTCTCTGCTTCAGCCACCCACCCCTCACCGGTCTCCCTACTCTCCC
CTGTGCTAGAGTGGACTCTAAAGCACACACCTGATGATGCCACTGTCCTGCTCAAAACCCCTTTCATGACTTAAGAAGCAGTGTGCATCGAAATCGCAGA
CCCTAGATTCCTTTATCAAACTGCCTACAGGAGAGCCTGAGGGACTTGTCTGCAAAGCTMTTCTGGAGTCAGATGAAACTGGAATATTTGGTCTTTGGTA
TTCACCATGCTCCATCACCCCAACTGCAGGAATCATTTGCAGCTCATGGACATTTTGGATCACAGGGTGGAAGGGAACTGAAGCTCCCCATTGTTGCCTA
AACCTAATGGCACCAGGTGTATATTGCTGACTTACCTTCCTGTAGGTTGATTTAGGAATTGAAGTATGTTAAAGGAATACATTTGAGATGGCACAGACAA
TAGCACCTAGGGCAGGGCCCGGTCACAGTTGTCTCTTCATAACATTCTAAGTCGAGGTATGTTTATTCATTGACCARCTCCCTGGAGTCTTYATTTCTAG
TACAGCTGCTAAATTCAGTCATTCATTAGTCATGTTTTAAGGACAATGGATAGGAGACATTATTTAAAAAGCAATAATACAAAATRCCAAGAGCTATTCA
GCTCTTTTATACTAGAGCCTGTATATAGTACGTTCTTTCCCACAAATCCCTGTTTTTAAAYATTTTCTCCATTTCACAATTATAATCCCCCAAATGACAG
AATGGTTGTCTGACAATATTTCTTCTGATGTTGAACATATTTTGTACGTTTGAGACTGTGCCAGAAAGTCTATGCAGCAGTGACATTGAAAGAACAGAAC
AATCTAAACTGCAGATATTCACAGAGGGCTGAAAACCTACAATAACTATTGGGAATGTTAATCATTTCAAATGGAGGAATTATTAGAGGCAGCACATTTA
TCATGCATATCCTCATCACTAGCTTAGAGCACCTGRCATAGTTTTTAAAGGAAAGGGAGAAAAAAAAGAAACACTATAATAATGAGAAAATATGCAAGAT
TTGAAGTCAGGAAAATGTGGGTTTAAACTGCAGCTTCTTCCAATAGCTATGTGATCTTGGAAAGTTACTTCTCCAGTCTGAACCTCCATTTCTTCAACTT
TAAAATCAGAGTAATAATAGTAATACCTATAYTCTAATGTTTTATTGGAAAGAACGGTGTCTGGCACATAGCAATTAACCCAAGCAATTTACATAGCAAT
TACTYGTGAAAAAGAAGCTATTAATACTATTTATTGTTATTTTCCCACTGCTGTTGCCCTTCAGCCAAAGAGCACCAGGAACACATCCGTAATTAAGAAG
TTGGGTTGATTGCTCATTGCAATGGGAGAGAATATACTATAGGGAACTATGGGATGTCTTAGTAAAAGTGTGTTAGAAAAGACATATAATTTGGGCTTGC
ATTATTAGCTGCTTTGGCGGAAGGGTCACAAAACTGAACCATTTCTCTGAATTGGTTGCTATTCGGAAGCATGGGTAGTTCTATGACCAGTGCTAAATCT
CATCTTTAGGTAGGACAGCCTARGGTGAGGCTACAGCCGTAATTGGCAAAGAAGCAGCTATTGTTTTAGCCAGGAAAGGCGAYGGCTTCGGCAATGTTCR
GGTCTGTCTGTGTTCATGCATAATTACGGAATGGCCTTCTTTATGGTCTGATTGACTGTGGTCATAGAGTGGCCTTATCTGATGTTGGTATTCTCTGAAA
TCATGTTTGACAGGAGAACACCAACATCTAATTAATGTCCCAGGCCAGCTCCTGGAGGTCAGTGGCTACTTTTCTTTTCCCCATCATATTTATTCATATA
TTTAGTGAGTAGAGTACTGTCAATCCTTCGTGTCCTTTCTCTAACAAAGTCCAAATTCTATGTAAAAAATTCTATGTAGGTCAACAAAACTTAGTAACTT
GGGTGTCAAATGTAAAGAAGAAAAGATAGGCTCAAAGGAGAGAGTAGGGYTGATGTGGTAGAGGGTGGACCCACGGTGTCTGTGCAGGCCAGGGTAGGGA
GGCTGGCTTTCATTTTAAATGACATCTGAAAAGTTTGTCATTTTAAAAAGTTTGCTTGGTCCCAGTAAGGATGGAGAATGGCTTGTTGGGGATGGAGAAA
AAGGGAAAGGAGGTTCAAAAAGTGAAGTAAAGCTTTTATCATTTAAATGTGGCAGCATTAGATGTGGGTCACAGAGTTGTAGACAGGCTTAGGACACGGA
AAGGAGTTTGGTTATTCATCTGGCCCAGTTGCCTCCTTTACATGTAGGAAAATCAGCACTGACCAGGACAGATGAAGTGGCTTGTCCACACCCAAATATT
TAGTTAGTGCAGAGTGGAGAGCTCCAAGTGGGGGCCAGAGCCCAGAAGACTCCTTCAGCCTTGTGCCCCCAACACTGTGGAATGGGAACTGAATCAGTCG
TGGGGAGGAGGGGTCTCTGCAAACGTGGCAGGTCACAGAAGATGGACAGCAAGGGCCAGSCACGGTGGCTTATGCCTGTAGTCCCAGAGCTTCAGGAGGC
CAAGGCAGGCAGATCTCTTGAGTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCGTATCTCTACTAAAAATACAAAAATTAACTGAG
CATAGTGGCGCACACCCGTCGTCCCAGCTACTCAGGAGGCTGCGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGCTACAGTGAGTTGAGACTGAGCC
ACCGCACTCCAGCCTGGGCAGCAGAYTGAGACTTCATCTCAAAAAAAAAAAAAAAAAAGCGGGGGAGGGAGATTAATCCTGGTGCCCTTCTAGAACTACC
ACCTGGCCTTTCTTAATTGTCYACTTGGAGTGTTTGCCAAGCGAAGAAAAGATGAACCCATGACTGTGACCTACCTGGAGGGTAGACATTCTGGAGAGCT
TCCCCTCCAACAATGTCCCAAATCTGTGTTCATCCCTGAACACAACCACTGCAGTTCTAGGAAACCAACTTTCTAATATATTTAAGGATGCTTGTCAAGA
TTTTATTATCTGTTCTTTCATCAGAGAGATGTTTACAACAGCAGAAAAATTTAAAAATAAAAATGAAATGTTTTGAATAAGAAAATAATTAAATTATGGC
ACAGCCAGGGTCAGTAGTCATCTGGTCGACTGTGGATGGATCTTCCAGAGACTCCTCTCGCCTGTCATTTGTTGGCACTCAATCTCTACCTGTTGTTCAA
TACTTTGAGTACCACTCTGGTAATGAAATAATAAGAGTGATGGAATACTGTATATCCATTTGAAAGATGACAATTCAATTACTTGGGAAAAACACAATAC
ATTTACAATTGGCAAAATACAAGCTCTAGAACATCAGCTTAATCTATATCTATGTTAAATGTATGTAAAACTTATGTTCCTACCAAATATTAACAGTGAC
TTTCCCCGATTGGTAGAATTAGGGATGGTTTTAATTTTCCCAATTTTTGGTCAGTGATATTTTCTTAATGTTTAAAAAGGAACATTAACAGTTTTTATGA
TAAATGAGGARAGTTTCTTTACAACATTTTTTTGCATGCCATTCCTTAGAGTTGGGCAGCTTTTGCAAGCTGTGAGAAGCCCAGCTCCTGCTTTTCCTGA
TACGGTTTATGACTCACAGCTGCCACCAAGATGTCAGTTAGCTCTGTGACAGTGAAATGACTTCATTTCCCTGAACCCGGATAGAAACGGTGTCTGGGAA
GAGAGAGAGTACCTGGTGGAGCCCTATGAGTAAATGTGATGATGATTCAGCTCTGGACCCTATACTCTACTCCAAAARGAAATGTTTCAGGGCATCAGAG
GGCATGAATTCATGAATGTGTATACGAGGCTTTGTTCAGGATATTTTTAAATATAGAAGTTCATTGATACAACATCCCTATGAGGTAGGGATTATTAAGA
GGGCTTTATCTATAAGGAGGCTGGGATTGAGAGGGTTTGAATGATTTGGCCCAGGTCACACCATAAGAGCTGGGAGCGAGATGACAGAGTCTTTTTTGTC
CACAAGCAAAATAGCCATGCCTGTACTTGCAGTCGGACCGGAGGAACACACAGGCCAACTCTGACGCAAAGCATGGTTATCACCATGCTCCTCCAATGCC
ACCTGCGTCTTAGCTCTGGGTTTATTATTCACTGAGTGCCTTAATGGGCACCTATCGTTTATTTTCCCTGGGCCTCAGTTACCTCATCCGTAAAATGAGA
CAAGAAGGTATTTGAGGTAGATGAACTTCAGGATCCCATCAGCCTTGACGAGTGCAGGATTCTATGTGAATCTAGATGAGATTTATCCAAGGACCTCCAC
ATCCTGCCTCCCACCTCCATGAGCAGCTATTCCAAAGCTACCAGTCTGGTGATTCAGCCAAAGACCCATCATTAAAGAGCACAAAGACATCCTTGGCCAG
TATCTTTCTGGATGCTGATGCTTTTCTCCTGAATTGCATGTCACCTTGGAGAACKCAGTGATGGATGAGAGAGATCCAGCTTTGACCTGGAAAACWTTSA
CATTGCAAGTTTTTTTTTCTTTTTCTTTATAGATTTATAGKCAATACTTCAGCCTTTCTATGACAAGAAGCTTATATTTTTCTGGASTAGATGTAACAAA
CGACTTTCCAAGTGATCAGTGACATCCCAAGTTAGGGCTGCATTTTGAAATTGTTCTTTAGAATCTCTAACTTCATTGGGAACAGTGATATCAGAATGTT
ACCTTAATACTCTGCCAGAAAGGCATGGAGAAGATGTAAAATGTTTATAAATGAACATCCAGTGATGTGCACTTGGTAATTTCATTCAAAGATGTAAAGG
AAGAGATACTATAAGGGACATTTCTGTTATTTTGTCAAATGCTATTATTTACTGAAAAATAAAATTTCACCCTAYATGCTTGACCTTCAGGGACTTATTT
TAAGATCATATGGCTTTTCCTAAACAGCTGAATTATTTAGTGAGATTGAACTCTCAAAGACTTTAAAATAAAGCCCACCAAAATACCAGCCACTCTGCAG
TGCTACAGCTGTTCAGACCTCAATCTGCATATTTCATCTCAGCAGACTGAAGTTTGCAACTGAAAAATTGCTCAGAAAATACTTATCACCTTCCATGCCA
AACGCAGAAAGGAATTTATTTGAAGCTGAGAATGTGATAGGGTGGGTGACTTACTCCCACAGTGATGCTTAGAATGGTGGATGGAGTTCTAGCTGCGTTT
TTGCTGCTTCACCCCTGGGGAGGCCACGCCTCTGAGAAAGAGGCTGGGAGGCCCTTCCGCAACAGGTGTTCAGGTATGAGTGAAAGAATCTAAGGAGTGA
GCTTGGAGCACTGCACCCACAGACAGGACCATCATTAGGAGCACATTCTCAGTGCGTGTTGAATGTTACGAAAAGGTTTGATTTATACATTTTTGACCTA
AATAGAATTTAATCAAAATGTCTAGAGAATTTTTACGGGTTACTAGCCCCTCACTTTTTCTGAAGTACTAAAAGCAGAATCAGGAATTCAAGATTATCAT
GTTGAGTACAAAGCACTCTAGTCTTCCTAAAGGAATCAGTGTCAGACTGGGCTGGTGGTTCACACCTGTAATCCCAGCACTTAGGCAGGCTGAGGCAGGA
GGACCACTTGAGCCTGGGAATTTGAGGCCAGCCTGGGCAACAGAGTGCGAAGTCCCTACGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATATATATA
TATATATATATATATATGGAGAGAAAGAGAGAGCGAGAGCAAGCCAGGCTTGGTGGCATGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGG
ATCATTTGAGCCCAGGAGGTTGAGACTGCAGTGAGCCAAGACTGCACCACTGCACTCCAGCCTGGGCAACAGAGGAAACCSTTTCTAAAAAAAAAAAAAA
ATCAATGGTACCTCCTATAGAGTCAGGTGATGGTGTTGATTATGATGATGATGGCAAAGACGGTGGTGAAGGTGATGGYGATGATCATGGTGATGATGAT
GGGCTGATGATGACTGTGATGATCATCATGGCAAAGATGACAATAGTGAGGTTGATGATGGTGAAGATACCAATAGCAACAATGAAGATGTGGCTGCTGA
TGTGACAAAGATGATGATGGTGATGGTGATGATGGCAACAGTGATGACAATGATGATGATGATAATGATGACCATAGTAATGATGATGATGATGACGATG
ATGGTAGAGGCTTACATTGATTGAACCCTTGCTAGGTAACAGATATGTTAAGCACTTAAGCCCTGAGTGTTCATTATCTTATTTAATCTTCAGCACCATC
ACATGAAGTACATGCTGTGATTTTCCCATTTTAAAGATATTGAAACTGAAGTTTAAACTCGGTAAGGAACTTGCTCAAGGACAATACTTCTTAAATTTTG
CTATACATTAGAATCACCTGGAAAGATTTTTWAAAATCTTGACCCAGAGGTTGAGTAATGTGCTCAAGGGCACCCACCTGATGAGTGGCAGAACCAGGCT
TTACAACCCAGTCACTGAGCACCAGAACCATGTCCTCTCTTGTGAAGAGCCAGTCATAGTGCCCAAGGAATTTTCAGGGCCATCATTGCTCATGTCCCTC
CGGTGATGCTGTTTTTAATAATAGTAACTGGCGAGCTGGAGTATAATGTTTTGGGTAGCATGGCAGATCTTTGTGGGGCAGTGTGCTGAAACCAGCTTAA
ATCTCTGACTGCCGAGTTAATTTATTTCATTCATAATATTCTGTTCGAAATGAAAATATTCTCATGGTTGGTTTTGCCTGAAGGTATAAAATTCCAACCA
GTATTAGCTGCTTTTAAAGTGTAGCAGTTAGAAGCCTGAGTCCCTAGAGATGGAGATAGAAGTCCATGGTGCAAGCAGTTCCCCAAATCAGCAAATCAGC
AAATCAGCGCTTTCCTCTGATGAAGAGGGAGTTCACGGAAGACTCCAAAAATGGACCAAAATGCCTCTGTTCCCACGTTGCAGGTAGGAAATTAAAGCTC
TTAAGAAACGATGGCATTGTTTATCCATATTCAGAAACCACAGGGCTGGGATTTTTTTCAAATGAGGCCATGCTAGTTAATTANNNNNNNNNNNNNNNNN
NNNCCAGTCATAGTGCCCAAGGAATTTTCAGGGCCATCATTGCTCATGTCCCTCCGGTGATGCTGTTTTTAATAATAGTAACTGGCGAGCTGGAGTATAA
TGTTTTGGGTAGCATGGCAGATCTTTGTGGGGCAGTGTGCTGAAACCAGCTTAAATCTCTGACTGCCGAGTTAATTTATTTCATTCATAATATTCTGTTC
GAAATGAAAATATTCTCATGGTTGGTTTTGCCTGAAGGTATAAAATTCCCCAAATCAGCAAATCAGCAAATCAGCGCTTTCCTCTGATGAAGGGGGAGTT
CACGGAAGACTCCAAAAATGGACCAAAATGCCTCTGTTCCCACGTTGCAGGTAGGAAATTAAAGCTCTTAAGAAAGGATGGCATTGTTTATCCATATTCA
GAAACCACAGGGCTGGGATTTTTTTCAAATGAGGCCATGCTAGTTAATTAAGACTTTGCCTTTCAGGGATTATTTATATTCTTAATTTTTGATATTTTTC
ATGGCAGTGGAGTCTGAATAAACTCACAGGTGTGACCTCCTTCCATGCCAGCTACTACTCTCTCATTTAATCCTCATACAACACTGACATTTGAGTAATA
GTTTTCCCATTTTGCAGCTGAGGAAACTGAGGCTGCGAGAGTTTATAATTTATAAAAGCTTTTATAATTTATAAAAGCTTTTATAATTTATAAAAGGTTT
TATAATTTATAAAAGGTTTGCATCATTTTCACCTACCCGAATCATTCTTCTACAAAAGAAGAAAAGTTATTTCAGAAAAGCTTCCTAAGTTTTCCCTAAA
ATGAATTTCTGGCCTAGAAAATCAGATCCTGCTGTGTTCACACTTGGCCTCAATTTCCTCAGGCTTCTGGGTCATTAAGGAGGAGCTTTATCACCTGGCT
GCAGGGTGGAGGAAGCCAAGATTCTGGACCGATAGCCTCCCACAGCTGCRTTAGTATTCCACAAAGGCGCAACCAGAAGATAGCAAGGAACTTTCACACT
TGGCTTTAATTTCTCTCTGCACATTTTGTTAGCGATAAAGACCATCATGTTTTTTCTTTCTCCACCTTTTTTGCTTTTAGAATTCTGAATAGATGTTTTC
ATCACGTGGCTAAGTAAAACTGGAATAGCTGAGATTTCCAGAATTCAGTTAGAAGATCTGATAAGCATCTAAAACTTGTCCTAAGGTAGGGGGAGAAGTG
TTTAGCTTGGAAATATAASTCGGAGTTCCCAGTCTTCCTCAAGTAGGTACTTGGGGAGATACTGAAGTAGGAGGAAGATGATTCCTACAAACCACGCCGA
ACAACAGACAGTTCAGAGATCTTTGTGCCTCTTGACTCAAAAAGGCAACTAAAAGATTTCTAAAGCATTATCCCCATCCCTCCCCCATCAAACTTTTTTA
TTGGGTATAGAAAAACATGAGGAAGGTCAGGTGCTGTGGCTCAGGTCTGTAATCCCAGCACTTTGGGAGGCTGAGGTRGGGGGGCAGATTACAGGAGGTC
AGGAGTTCAAGACCAGCATGGCCAACGTGGTGAAACCCCATCTCTACAAAAAATACAGAAATTTTCTAGGCATGGTGGCATGTGCCTGTAATCCCAGCTA
TTTAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGCAGGCAGAGGTTGCGGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGTGAG
ACTGTCTCAAAAAAAAAAAAAAAAGAAAGAAAGAAAAAAGAAAAAATTAGAAAGTACCTTCACTAGATTTAGAAGTAAGCCCTTAGGCATAGATGGTCAG
CTGAGCCTTTTTAAAAAAGGAAGTTGCTTAATGAGATCGGTTTCCACCACTCAGTGTTAGAGTTTTGTGCCTCCAGTTTTATAAAATAATGTAAATTATT
CCCAGCCGCAGAGAAGAAAGGACAGAAAATGAAAATTAGCAGGGTACAGAAGTCCATTCTGCTGAACAATGGAAGAAAAACCACACAGGGATTTGGTACC
ATTAAACTCTGGGGCAATTTTCTGCTCATTTCTCCATCTCCTCTCTTTCTGGTGGTAATCAAAGGAACGAGCTCCAGATAGGAAAGTCTTCCCTGTAATT
AATTTAAACAAGTTCAGTAGACTCCAATTATCTAGTCTGCTACAACWTGGAGAAATGACTGGGAAAGGAACTCCTGGGCAACTGGAATGAATTCCATGAT
GGCTTTATTAAGGAGTACATGTAACAAATCCAAAGTCTTTAAGCTTATCCTTTTGGGGGGCTTTTAAAAGTTATGTCTTTATAATAAAATAAAAGCTGGG
GACCATGTTTACCTCTATCTCAAGTGTTAAGCTGAACCATTGATTTATTTCCTTAGAGTGATGCATTACTGCCACCTAATGGTCATGTACCTGCATTGAA
GGGGTTAAGAAGTAAGGAAATGATTTAAATAGACTTACCACCACCACTGGTCACCCGTCTTAAAAAAAAAAAAAAAAAAAAACAAAAAACMCCTTATAGT
AACCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGTTTGTGCTGGATGCGGTGGCTCACGCCTGTAATCCCAGCTCTTTGGGAGGGCGAGGCAGATGGA
TCACCTGAGGTCAGGAGTTCGAGACCAGCCTAGTCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGTGGGTGCTTC
TAATCCCAGCTACTCAGGAGGCCAAGGCAGGAGATTTGCTTGAACCTGGGAGGCAGATGTTGCAGCGAGCTGAGATCACGCCACTGCACTCCAGCCTGGG
CTACAAGAGCTAGACTCCATCCCAAAAAAACAAAGAAAAAAAAGTTTGATGGATGAAGCAGATGAGTTACTGTGGATCAGGACTGTGGAAAGCCCGCCAG
TTAGACAAGGGATGTTGCCCTCACCCAAAGAGCAGATAAACACCATTGGTGCTGTTTGAGCTGGGCGGGGCAGATGATACCAGATCTTTAGCAAGATGAG
TTTCACACCTGTGTACAGGAAGAAGCGTGTGAAAACAGGTCAAGAGGATCCTGAAATAAACCAAGTGTGAGAGTATCAAGGTGACAAAAGGGTAATGGAG
GCTGGAATGTGAAGTTAGAGATAATCATTTTTTTAAATTATATTAAATTATATTTTATATTATATATATTAAATATTGATTTATTTTTTATAATTTATAA
TGATTTATATTAAATATCGACTGTTTGCCAGGCACCATAGTTAAAATGAGATAGACCAGTTCTCTCTCTCAAGAAGCTCCCACATCAAGTAGCCCTTGAT
GTGATTCACTCTGTGGTCTGCAGAAGTTGCCCCACCTCTCTGGTCCCCAGTCTCCTCTGTTACAGGGAAAAAGATTGCTCTGGGAGTTTTCAGAAGCCCC
TTTGACTCCCAATAGGAACTTGCCTGGAGCAGGTACTTCCAAGGGAATGAGAGGAAAAGCACAGTGTTTAGCTGAGATAGGGGTAAATATGGTCCCCATC
TTTTATTTTATTATAGAGATATAACTTTTAAATGATAGCTTTGTGTAGGTGATAGTGGAGCTGAGTGAGCTAAAGATTTTTTTTTTAATCTCATGATCTG
AGTCTAGCTATCTGGAGTGGAGCAGGAAATGTGGTATCACTGATATGTAAAGAAATCAGTAAGGAGGGGCTCATTTGCAGATAAAAGGGAATAAAACCAG
GGCAGGCATGCAGACACCATCATGGTAGCTAGACATATAAATGCAGAGATCCAAGATACCAACTTCAGCTTGGAGGGAGAAACAAGATCAAAGGAAGAGG
GTTCAGCAGTTCTGTGCATGACACTGGGTCAGATCTCTTCCCTAGAACAAGATGCTCAATGGCTGTGTGCCCCAGAACAAGGTGCTCAGTGTCTCTGAGC
TTCATGTCACTGTTGTGTAAAAGCAGCACTATGATAGGGGCCTCTTCATAGAGCAGCATTGAGTATCTTTGGTTTAACATGAGAAGAGTGACTGGCCCTG
TAAGCTTCAGCAGATACTAACTAGTATCATTATAGCTCCTCCTCCTCTTCATGATGATTTATAGAATTGGTCAATTTTTCCAGGGAAAAGCAGTAGAGAT
GAGAGTAAGAGGATGCATTCATTCCATGCCTGCAAGACAGCCCAGCTGGGGAAGGTGAACTTCAGTGGTGGGGAGGAGTGAAAGGAATAGAAAATAGAGA
TTTGGGGAGGATAGGGTGGACTGGTTCCACACCTCTGAGACAGCAAAGACTCCAAGAAGTTTCTGAGCAAAGGTCACAGGACTTGATGATTTGGAGGTTA
CTGATGACTTTCGAAAGAGCAGCCAGTGAGGAATACAGGATTCTTCGTATGGAGACAGATTACAGAAAGAAGTCAAGTGAAGCAACAATATGCTCCTAGA
TACCGAATTTCCACAGCCTGGCAATCCTCAACAAAAGGGAGACCTGGGCTAGTTTTAGACTCGAGAATAGATCAAGGGCAATGTGTGTATGATCAGCAGG
CTGCAGCTTCCATATTAACCTACGTTTTAAATGTCTTACATTCCTCTGGACAAAATAAATCAGCCCGGATGGAATTCGTTGCCACAATGATCTATAATGA
TCTATGATATGTCTTCTCATTTATAATGTCAAGCCCTTGGAGATAGGAGGCCCTCAATGTTTCTTTGAGACCTGAGATGAGAGGATGATCAATGAAAGTA
AACGAAGAGGATCATGGTAAAGATCTCATGGTACCAAGAGGAAAACAACTGATAAACAGGGCTCATGGAAGTCCCTGTCCGCTGGGCAAAGGAGAAACGG
CTCCCTTACCTGATCACACATCTTCGTCATGTCCTTCAGGGCCCCAGATCCTGTTCTAATGCAGAGCAGGAAGATGGTGACTTTTTGAAATTTCTGGAAA
TAKCACTCGGTGAATCAAAGCAAATTAATTCTCTCTTTTAGTCACTCTGAGCCTGGATTTCCAGTCCTTGGAATTTCGCTTCTACCAACAGTTCTTTCAG
AGTCATTTATGGTTCTAAATACACAGGATGCAGTTCCCACATCACCTCCCCTCATAACACCATGGGATGAATAATCATGGTGAAGACAAGGATCTGTGGC
CAAATGATGGTTTCAAGTCCCTGTTCTGCAACTTGCCTAATGTGTCATCTTGGACAAATCCTTTATCCTCACTGCACCTTCGTTTTGTAAATAGGGACGT
TAACGCTGGGACGTACTCTGCTGGTTTGTTTTGAAGAGAAAATGAGSTAATGCAAGGGAGAGGGAGCTCAGACCACAGATTTGTGCARAGAAAGTGCCGA
ATAAGTGACGGCTGCTGTTTYTGTTTTTATTCTGCGAGGAACTCTAATAGAAGAAAAAGAGCATTTGATGACTGAATCACCGGTCTTCGCTAGCAGGGCA
GAGGCAGATAGTTCCCCCGCCCCGACCCCGGGCCCAGCTGCTCATCACTGGGGTTGCAGAGTTCAATGCCGACATCCCAACTCTGACCCAGCACGGTGCC
TACTGGGGAAGGCAGATATGGATAAACCACAGCAGCGCCCTGTGATTGATTCTTTGCCAGACGGTGGAGAAAGTGCACATTCCCAGATAGCTCCTGCAGG
GAGGTTGCATGATGCCCACAAACCCACCTGTGAGGCCCATAAGCCTGGATGTTCTCTCTTAGCTGCTTAGGCTCTGCCCCTCAAAAGCGGAAATGTTGAG
TGTGGAGTGCAGCTTGTTCTATGAATTTGAAGTACGTGGTCCCTGGGGTTGGACCAGCAACAAGTGACTCAGTCCCTCTGAGACTCTGTTTGCTCCTCTG
AAAAATGGGTGGTGTTGTGGGGGACAATTTTCTACCTGATGAGCTCCTCATGAGGATCTATGTAAAGGGTAGTATCTGATTCATTACCAGGATTTTGTAT
GCTTTATAGGCATGCCAAATACAGCTGTATCTTACTTTATTAAATCGAACGGAAAAAAATGTGAAAATCAAGTTGTGTGTTAAATTTGATAAAGAGGGCC
AGGGGCGGTGGCTTATGCCTGTAATCCCAGCAGTTTGGGAGGCCAAGGCAGGCAGATCACGAGGTCAGGAGATCGAGGCCATCCTGGCTAACATAGTGAA
ACCCTGTCTCTACTAAAAATATAAAAAATTAGCCAGGCATGGTGGAGGGCGCCTGTAGTCCCAGCTCCTTGGGAAGCTGAGGCAGGAGAATGGCGTGAAC
CCGGGAGGCGGAGCTTGCCGTGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCTGTCTCACAGAGAAAAAAAAATTGATAAA
GAGAGTTCATGATGTAAAACAGTAGTTCTCAGCCTTGTGTGTGCGTCGGCATCCCCTGGAGGGCTTGTGAAAATCCATATGGCTGAGCCGCACCCCCAGA
GTTACCAATTCCATAGGTCTGGGTAGAGTCTGAGAATCTGGATTTTTAATAAGCGCCCCCAGTGATGCTGCTGGTCTGGGGACCACACTTGGAGAAACAC
CTTCTTCAAGGAGTCACATGTTTCTGAAGCAAAGGAGAATCATTTGTCTTTGTATTACTCTGTTCTCACGCTGCTAATAAAGACATACCTGAGACTGGGC
AATTTATAAAGGAAAGAAGTTTAATGACTCACAGTTCCACATGGCTGGGGAGGCCTCACAATCATGGCAGAAGGCGAAGGAGGAGCAAAGTTACATCTTA
CATGGCAGCAGGCAAGAGAAAGCATGTACAGGGAAACTCCCCTTTATAAAACCATCAGATCTCATGAGACTTATTCCCTATCATGAGAACAGCATGGAAA
ATACCTGCCCCCATGATTTAGTTACCTCCCACCAGGTCCCATCCACAACCTGTGGCAATTGTGGGAGCTACAATTCAAGATTTGGGTGGGGACACAGCCA
AACCATACCACTCTTTTTTTCTTTTGTTTTTGTTTTTGCTTTTTTGAGACAGGCTCTTCCGCTGTCATCCAGGCTGGAGTACAGGCACTATCACAACTCA
CTGCAGCCTCAACTTCCTGGGCTCAAGAGATTCTCCCACCTCAGCCTCCTAAATAGCTGGGACCACTGGTATGCACCACCATGTGCAGCTAATTTTTTAC
TTTTTTGTAGAGACGAGGTCCCACTATATTACCCAGGCTGGTCTTGAACTCCTGGACTCAAGTGATCCTCCTATCTTGGCCTCGCAAAGTGCTGGCATTA
CAGGCATGTGCCACACGATGCCCAGTCCATTTTATTTCGTACTGAAATATTCTTCCTCCTATTTTTTCTTTTCAAACTGAACATCTTTATATTCGAGGTT
AATTTAAAATGGAGCCTTCAGTGCATCTGGTATGTGTGTGAATTGGACCCAGCTCAGGGATTTTGCTCTTCTGTTTAATCTTTGCTTTTCCTGTGGACCC
ATGAGTGTCAGGACTGATATTTCTGATTTTTCCTTTGTGCCAAATTGAGCCTCATCTGCCCGGTCAGCCCTAATGTCACACGCACTCCCCACCGCCTGAG
ATTACAGGACAGGAGATACATTTCGATTCAAAGTTCTGAAAATATGATTAATCTCAAGACTGGAGAGAGAAAAGTTATTGGAAATATTTTCATAAAAATT
AATGTTTATAGTCAACCTTGTGACAGTCGGTAGTATGTCAGCAATTCAGGTAAGGTTGTGTTTGTGTTTTCTTGTGCAGAGGATTTAGCTGCCTATAATC
AGTTTCATGAAACCTTGCTCTTACATGACTCATTTTTTTCATTTATTCACTCATTTGTTCAGCAAGTGTTTATATTGATTATCTACTTGGTGCCAAGTTC
TATACTAGGCTGTGAAAACAGAGACAAATATAGACATCCTCTGTTCAGGCAATGAGAGCTTTGTAATAAGTTTCTTGTTTTTTAAGGACAAAGGCTTTTA
TGATTTTAGCATCACGTGGCTCCTCACTTTCTCGGTTCGTTTTGTGTTTGGTTGATGTTTTCGTTGTTGTTTTGCTTGGGGATGGTACTTGTTTCCTGCC
CAGCAATTCTTGTAAGTAAGTAATAATATAGAATAACCAGATTTGTTGGGTTCCTGCAAAGACAAACATGATATTTAAAGAAGCTTGCAATTAAATAGAG
AAAATAAACATCTAAAAATAGATGTACAATGCAGTGTGATGAGGAACAAGAGAAGTACCTCGGTGAAAGAAATAATGTATGTGTTTGTGATGTCTAGAGA
AGTATTCGTGGATGAAGTGATACTGGAGGTGGGTTTTGGAAGGAGAAATCTCTTTCTCATATTATTAGTCTCAGTCAGTTTCCCCTCCTTTTGTTCCAGG
AACACCAGCATTTCATTAGACTTAGACCCACTGTAAGCAAAGGGCTTAAGCACAAGTCCCTGGGGGAGAAACTCAACTCTGCCATCTTCTAGCTGTGTGC
CTTTGGAAATCACTTAATTTTTGAGCCTATATGATGGAATACTACTCAGCCCTAAAAAGGAATGAATTGATGGCATTCACAGCCACCTGGATGGGATTGG
AGACTATTATTCCAAGTGAAGTAACTGGGGAATGGAAAACCAAACATTGTGTGTTCTCATCTGTGGGAACTAAGCAATGAAGATGCAAAGACATAAGGAT
TGTACAATGGATTTTGGGGATTCAGGGGAAAGGGTGGGTAGTGTATGAGGGATAAAAGACTACAAATTGAGTTCAGTGTACACTGCTCAGGTGATGGATG
CACCAAAATCTCACAAATTACCACTAAAGAACTTGCTCAGGTAACCAAATACCACCTGTTCCCCAAAAACCTATGGAAACAAAAAAATTAAAAATAAAAT
GAAAAACAACATTGATCATGAAAAAAACATGAATAACATTACACCCCACACAGGATTGTTGAAAGAAACAAAAGAAAATATTATTTAAAAAGCACTTAGC
ATCGTGTCTGACATGTTATAAGCACTTAATAAAATCATAGTTGCCTTAGTTATTATAATTATCACAATGTTGATGGGTGTCCTACAATACAAAGTGGACG
GAGTCAGGGCTGGGGAATTGAGTCTATCTGTGGGGTGTGCGTCTGTTTAATGGTGGGGTTCTCAGATCCTTGCATGTACAAGGGCATTGTGAATTGGCTG
TATGTGGGCAATGTTCTCTGCCATACTCCCGAACTTGTTTAAAAAGGAAACTCTTTATCCACCATGTATCTGTGAGAGCTGGGACTCTGCAGATCACTTA
TTGGTTCACAGCCTCCCCAAATCAGCCTGCTCTGTTCAGGGGACCATATGTGCCTGATAATGACCCTGCCTTTGTAGTCCATGGTCAAAAGCTTGCCATG
AGTCTGTAGTGCCAGCTCAAATGGCATCATGCTGTGCTCCTGCCTTCCCAAGCAGGGTGTGCACGCAGGCACCCTCTGAAGGCTAGGYTCTAGATATCCT
CTCATCTTTATCTTTGCAACTTTATCCTGGCTTCTAAGGGGCATGGGTGTTTCACTGTCACTATCTGTGGAAAAATTGATTCAGTCTGCATGTTCCGTGA
AACACTAGGAGATTCTCCAAAAGAAGCCTCAGTTAGCAACTGCAAGTATGCAAAACAGGTATATTAAGGGGTGATGACTCACCTCAGAAAAGGAACCTCT
GTTTATAGAAAAGATTAACCAGAAGACGTCTTTAAATTACATCCATCTCTGGGCATAGCTTGTGGGTGTCTGAGAAAATGATTGAGAAGTAAAATCTGTT
TTGTGTGCATGATACACATTCCCAAATAAGCCCAAAAGAAATCAAAGTGACAGTTTGATTTACCTTTTTTAATTCAGAAAATACCTTTTCAATATTGACA
CTAGAAATCAGCCCTAATTATTCCCCTCTGACTTTGCTACTTTGTCTTTCCTTCTCATCTGTGTCCACTTGCTTCCTATTGCATTATATATTTTACTTTG
CATTTAATGTATCATAAGCACATCCCAGATTGCTGTATGGTCCTTATCATTATAATTTTTAATGACTGTGTAATGGTCCATCAAGTAGCTGAGTCTAATT
TATTTGGCCATTTTCCTATGGTTAAACATCTAGGCCATCGATTTTCTGCCATTTTTAGCTGTAGAAACTGTGTTTTAAGAAACCATATGTAGAACCTAAA
TATGTTCTATTGATTTTTTTTTTTGATATAGAGTCTTGCTATTACACAGGCAGGATTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCTCCCGGG
TTCCAGCAATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCCCCTGCCACCACACCTGGCTAAGTTTTGTATTTTTTTAGTAGAGAATGGGG
TTTCACCATGTTGACCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGAGATTACAGGCATGAGTCACCATG
CCCAGCTCTCTATTGATTATTTGTGAATACTTCAGCTTATTTAATTTTCAAAGTAATCTTTAAAATCGGARCCATTGTTATCACACTTTCTAAGTGAAAA
TTGATGCTCAGAGAGATTGTAGAGTTTGCTCAAGTCTGGATACCTAGCAGGTTATAGACCTGAGACATGAACCCACGTATCTCTGACTTTCAGAGGGTGG
ATTTTTCATCAGTGAACAATACAACTTGGACCATGTGGAGTGAGACAAGGAAACTGGCAAGGCCCAAGAGATTCACTAACCCCCTCTAAACCTGCCCCTG
ATGAATGGCAGATGGACATTCAACCAATGACAGCTGTTTCTGAGCATCTAAAATGCAGGGAGCCTGGTGTGATCACTGGCCCACCTGAGGCTCTGGGGGA
TGAGTCGCAGGTTCCATCCATTGCTGCCGTGTCTCTGTTTGGTTTAGAAGTGGCTTTCTCCAAGGACGTGAATGTTCATTTTAGTGCACCTTCTGGATTT
TCTCCTCTTCCCTAGATATTTGCTTTTGTGTATTCCCACGCAGGAGCTTCAGCCATTGCTACACGTGGCTCCTTCTTGTGCTCTTCTCTGCTTCCAGCTG
CGTTTTCCTCAAAGGCTTTCTGGTRTCCGTCAATCCCTAGATCTCTAAGAACCTTGAGCTTTGCAATTTATSCCTCTTCAGAATCCTATATGTCAGTGGC
ATTGGCGGAGTGGGTGGACACCTGGACAACTGTTCCTGCTTTCCATTCGTTTTCCTTTGTCACTTAAAGTGCAGGGCCAGGGCAGCATCTCTTCTGTTAG
TGGCGCAGCTTTCCCTGTGGACAAGTCTCCCTTTCCTTCTCTGTGCTAGCTGGAAACAAATCACTAATTAAATTTCATCTCTCGCAGCTCTGGAAAAACG
ACAGACTAGTGCTTCCAATTAATTTCATCAACAGTGTGGAATAAGAGGCATGTTGCATCCTGTAAAGACAGCAGGGCTGAGGGGAGGAGGCTCCCACTGC
TGTTACCCTGCTGTCTGTCTTCAGCGAGGCTGGAGTTCTGAGCCTTTCTCACCTGCGTTCCAATATCCAGCCCTGGCTTGCTTAGAGGGTGAGAAGACTG
CATTTCTTCATCCACCAAACACCAGTGGGGAGTCACCTGTGTGCCAGGCACCACGAGCCTCCCACTGTTGATAGAACAGCAAACAAGGCAGACACATTCC
CTGCTCTGGAGATAGTGCCAGACAAAAATAAGGATGTCGGGATGTGGCAGTTACAGGTGTCTCTGAACATTTCACTAAATCGAATGGACCAGGGCCAACG
ACCTAGAGACAGGAAAGGGACTGGTTGAGCACAGTGAGGCCCCGTCTTAGGTAAAGAGGATACAGAAATAGATCAACATGGTCCCGGGCTTTGGAAAAAT
CCAAACTGGTGAGAAAGTTACCTGAGGGGTCAGTTGCAGTACAACGTGAAAGACGTCATGACAGTAGAATGCACGGGGAACCCTGGGTTCAGGGGAGGGG
ACTTTTGCCCTTTGTGGGTTCAGAGGCAACTGCAAGGAAGAGCAGATACTTGAGCCATTTTCAAGAGTGTGCCAGATGGGCTAATGGAAGGAAGGGCATT
TCAGACGCTGAGAAGTCCGGGGCAGGCTATGTTTAGGAAGCAGTGAATGATGTGTTGCATCAGAAAGATACCCTAGGGGGCTGGGCGCAGGGTTCATGAC
CGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGCAAAACCCCGTCTCTACTAAA
AATACAAAAATTAGCCAGGCATGGTGGCACACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAGTCACTTGAACCTGGGAGGCGGATGTTGC
AGTGAGCTGAGAAGATGCCACTGCACTCCAGCCTGGGTGACAGAGTAAGACTCYGCCTAAAATAATAAAAAGAAAGATCCCCTAGGGCATGTCCCTGATG
GAGCTGAAATGCCAGGTAAGCAAGAGGCAGGTTACTAGGGGTCTGATATGGCTTGATTTTGACTTTGGGCTTCATCTCAGAGGCGATGGAGGATGGAGTC
CAAGCCAAAACACCTGGGCACCGGCCCAAGCTCTGCCACGTCCCTGGTATGACCTTGGCGAGCTCCACAGTTCCTTTAATCACTGGGGGTAATAAGAGCA
CTGACACCTTACGGTTGTTTTGGGGATTAGACCCAAGAATACACATGAAACACTCAGCACGTGCCTGGGCTTTAAGCGTTTGATAAACATTACCTCTAAT
TGTTACAGCTTAGTAGTGTCTGTGTTAGTATTGATCACCATGGTGGGCAGCCAGGCAGGGTGGGCACTGAAGGGCTTTGAAGTCAGAAGGACATAGGATC
TATTCTGCCTTGCCATCACTCATTACATAGCCCCAGACACGTCACTTACCTCCCTTACCCCCTCTGCTTTTCAATTAAGGATTGTGTGTGTCTGCCACCC
AGCCCCAGCTTCAGCACATGGATCCTCAATAAATCACAGATGTTGTCGTTGTCATCATCATCATCTACCTCTATTATCCTCAACAACAATGACATCCACA
GTAGCAATAAGCAGGRGGAGCACCTAAGGCAGACTCTGCTTTAGAGAGATGAGTTCAGRGCTTGAGGCTGAAAGACAGGGAACCAGCAGGCCAGGCCATG
CAAGCCTTGCAGCTAAAAGACAGGGAACCAGCAGGCCAGGCCGAGCCAAGCCAATAGTCACTGACCCACTCYGCATCCAAGATCCCTGAGGCAAAATCTG
AAAACACACATGTTAGGAAAGACATTTGTCTCTCTCCCAGATTTCTGATTTGACAGGTCATGGCACCCTAAATTTGCATTTTCAAAAGCTCCCCAGGGAA
TTTTGCTTTTCCAGCAGGCGTCTGAGAACCCTCATCGGACATACRCAGTGATGCTGGTAAAGCCTGAGCAGAAACAAAASAGGGTCCCGGGGGCAGAATG
GGAGGCAGCTCTGGGTCTCTTAAGATGGCCCTGGTGTGCTAAGTGCACCAGAGGTAGGAACTCACCCACTGTCGCCATTACAGACAGAACGCTCCTAACA
GAGAGCTTCCAAGAAACCCCAGGGCTTTCCTCGTCTGCTGGGACGTCTCTGTCTTCCTGTGCCTGCTCCTGCTGGATCCAGGATCCCAGGCTGGCTCCAA
CTCAAGATCTGCTGYTTCTCCTGTACTTGACACCTGGTTCTTTGGGCTGTTCCTTTGTTGATCTGTTATTGTTTACTTTTTAGTYGCCTTTGAATTACCA
AACTAAGTCATTCTTGTAGCAAAATCTCAAGCACAGAAATGACTACATTAAAATGAGCCTTCCACCTCTCCTAATTCCTCCCCAACACTTCCCAACATCA
TCGCCATTAACAACTGTGTGTAGTCCTCTTATATTTTCCTTTCCTTAAATATAACTACATRTCTACAGACAGGTCTTTGTTTTGATATGATTTTACAAAC
CTATGGAGTTATAGAATGGAGTTCATCTTATAACTCATCTCCCCCCACTACAAAAAATCTTGTGGTCATCTTTCCATGACAATACAAATTCTTACTATTT
TTTCATAGCTATGGTAGCCTTGTAACTTATTTACTGATTTCCCTTTTTCAGCCATCTTCCTGTTGTTTTGCAAACCCAGGCCACCCAGCAACAATCTTCT
TTATATACTGTCTTTTCATACTGACACTTCTCAGTCCTGTTGGATGAATTCCCAATGGTGCGATTGCTCATTTCTGACATTCTGTCTGCTGATCGTGGGC
CACAGCACCGGTTGTCTCTTTCTCTGACTCAACCCAAGTCTGATGAGATTTCAGTTTCACTGCAGCATTGCAGCAATGAGAAAACATCCCATCATGCACT
GCTTCTAGATATTGTCAAGAGAAGGGTATATTATTATGCAAAAGCAGTGTCTATTTACAGATGATGAAACRACAATTTTTCATGGGGTTTTTCTTTTTAT
TTAACATCTTAACTGTCAATTCCAACAAACACRCTTGTTTTCCTCTATGACTAATCTAAGAACCAAGATGGCCAACAGCACAATACCAACTTTTTGTTTG
TTTGGTTTTTAAATATGGCAAAATTAYATATGAGCTTCCCATTTTACAGGTTTCTAAGAACATCTTAATGAAAATAACAGAACTCAGAAAATCCACTGTC
ATTTTGTCCAGAAATATTTTGTTAGCATTGGGATGCAGCAATGCCAYTGACAAGAAACCCATGTGGACCACCTTTTAATGCTTAATGAGCCTTTCTTCCT
AGCATGCATTCCAGTGGGAGAGAGGACAGAATAAACGTGATTAAATTATCGGACAGAAACACATGACTATAAATAATTGACTCTCCCATGTTTCATGAGC
CTTAACCTCACACTTCAGAATGTTTATTTCCTTTATTTCAAAATGTTTGTTTACTTTTCTCCATGGACTTTAATTAATTTTGCCTTTGGCTTATAAACGG
GTGAAACTAAAAACTTTTTTATTTGCATTTTTATCTTGAAGCAAGCTAACTAATTAAACTTTGCAATTTGGTTTCACTGTGCTGTACCAGAGCCATAGGA
AAATGGCTGACAGATTCGCAGATTTGTGACCGTTTTTCTAATGAAGGAGATTTTGGAAATTTTGATGGTTTCATGTAAATGCTAAARGTAAAACCTGTAT
TAAGAGTCACTTGATCACAGGAAGAAAAATAACCAAATGACTCAACTGCATAAGGAGGTGAAAGGAAGGATCTAGAAACTACATACCAGTAAACGTCCCC
TGAGTACCACAAAAAGTGTAGAATGGAGTATGAGCATTGTAGTTTTCAATAGTGTTACTCAACTGGTAGAAAAGAGGAATGCCCAAGGCATAATTCACAT
AGATTTCAGTCTGATATGCAACAGGTTCTTCCATGAGATGTGAGGGCTTAAAAGAAAAGGTAGAGATTGAAGACGTTATCTTTTAAAAGATACTCACAGC
ACATTTAATTGATAGGGGATCAGTAACAAGATTATATAAAGAACTTYTAAACTCAATAAGATAGCAAAAAAAAGTAAAAAATAACTAAGAGATAAAAACA
GTCATTTCACAGAATAAGAAAAATGACTAATGTATAAAAAACTGTTCACACTCATTGGCCATTGCTAAAATTCCAGTAACAATTAGATGTATTTATATAA
TTTTATGTCTTCCTGATTGGTAAATATTAAGCCTAGAAATGCCAAGCTTTGGCAATAACAGGAAAACAGAGACCCTCGCTGACTGCTGTTCAGAGAGTAA
ATTTGTACAACAACTTTGAAGAACAGTTTGTCATTATCTACCAAAGTGGAAGATGTGTAACCTATCCCTAAGATAATCTCTGCAAGGAATTCTCATTTAT
GCCCCTGGGCACAGAGACAAGAACACTCCTAGAAGCATTTCTAGCAATAGCAAAATAGGAAATGGCCTACATGCTCATTGATGGAAGCATAGCTCCGTAC
CCGGCAGTGTGTACGTCTGATGAACTGCAGCAAGGATGGTGGATCTCCAGGACATGCATATGTGGAAAACACAGTCTGCAGAAAAATACAAACAGATGAT
TTCATTTATATAGAGTTCAAAAAAACAGGAAAAACTATTAGGTTTAGAAACAGATAAGAAGTAAAACTATGAAGCAAAACAATGAATAATAGATTTAAAA
TTGCAGATAGCCTGAGTGCAGTGGCTTGCACCTGTAAACCCAGCATTTTGGGAGGCCGAGGCGGGAGGATTGCTTTAGCCTAGGATTTTGTCCAAGATCA
GCCTGGGCAACATAGCGAGATGTTGTCTCTACAAATAATTAAAAAAAAAAAAAAAAGTTGGGCATGGCGGCCCATGCCTATGGTCCTAGCTGCTTGGGAT
GCTTAAGCCTGGGCAGTCGAGGTTGCTGTGATCACTCCACTGCACTCCAGCCTGGGTGACAGAATTAGACCTTGTCTCAAAACACACACACACGCACACA
CACACACACACACACACACACACAGAACAAACACTGCAGATAGCCATTTTCCTAAGAGGAAAGGTAGCAGGCTAAGATCATGGAGGAACACACAGGAGCT
GCAGTGGTATCGTAATGTGATATTTCTTAAGCTGGGTGGTGGATACAAGTGTTGACTGTACTATTTATTATACCTTGCTATATGTTGTATATGCATGTGT
GTATATAGGTACATATACACATACATGTATATGTACATATTCCTATTTATATATAAAATATATAGCTTTTAATGGAAAAGAGGAAGTATCAGCTATGTAA
CATTTATCAGGCATGAATCTTATCTCATTCAACATTTTTATCAATAATTTATTAAAATCTGGCTCATCCAGAGCAGGTGAGGGATGATGATGATTGAATC
AGGTTTTCTGAAAGGCATGGACAAGCTCCAGCCATGAACTGATTATTTAATGGAACAGAGGTGAAGATGAAATCTTCCCCTTGAGATTCTTAAAAACCAG
TTCACTAAATTGAGGTGAGACCCCCGCCTTTGTTAAACAGCAATTCATGCACAAACAATATTGGGGTCTTAGTTGACAAGTTCAAAAGGAGCCTTCTGTA
CAAGTGTCTGCCCAGAGAGCTAATTTCCACTCTAGGAAGAGTGATCATCCTGCAACAGCTAGCATGCATCAAGGTGTATCTTGTATAGTTTTCTCCCAGC
ATCTTGATTTGAATAGAGAGTTGACAAATCAAAGCATGGTCAGAGGGTGGTAACTAGCAATGTAAAAGATCAGCTTGTAAGTTTGTAGCTCATCGGAGGG
GAATGTATAAGAGCTATAGTGGAACTTCGAGGTTTCCAGAAGATCGATTCTGGCTCTGTGTACCCAAGATCTCACCAAAGCCAAACATACCCCAGAAAGC
AGTGGCCTGCCTTGTAAGGTATGAGCTCAGGTCCCTGGATGTGTTTAGGCAAAGGCTGTACACCTCCCTGTCCCTACATGTGTGCTGAAAGGTGGGCTCC
ATGGCTCCAACATCCCTTCCACTTCGTGGCTCTCATGAGTCTATAAGAGTAACCCAAGAGAAGTCACCAGCAGAAACTTGGAAATCGTTTTAACAGGGGC
CAAGAGGGAAACATGGGGCAGTGCATGACTGACAGCTGTGCTCTGTCACTTCTACATCTGCCTTGCAGTTCTTCAAGCAGCCATGARCCCCTGCAGGCAA
ACCTGTGGTCTGTTCAGCAGGACCTGTCTCTGCTGCCTTAGCCCCTGGGAAAGGGAAGCAATGCTGTGGCTCCATTTTCAGCAGCGGGCAAGGAAAAGAA
CTTGGGTTCGAGAGTTTCACAACTTGAGATTGAATCTCCTTCTGCCTCCTTTCAKTTATATAGTCTCAAGTGCTTATCTTCCTTTCTCTGAATTTCAGTT
TCTAGCTCTTTAAACAAGGGTCAGGGACAGCTTACTATTGCAGAAGGTGGTGAGATCAAGAAAGAAATTAGAGGCAAGGTGCAGTGGCTTACGCCTGTAA
TCCCAGCACTTTGGGAGGCCAACGCGAGCAGGAGTTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTATTAAAAATACA
AAAAAAATAAATTAGCCAGGTGTGATGGCCCATGCCTGCAACTTGCTACTCAGGAGGCTGAGGCAGCAGAATCACTTGAACCTGGAAGGTGGAGGTTGCA
GTAAGTCAAGATCAYGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGATTCTGCCTCAGATAAAAAGAAAGAAATTGGAGCACCTGGTATATATTGCTT
TCTCAATGCCCAACCCTGAAACATCTCTAATACTATTTGTTCACTTACTCATCAATTTGTCCAATAAAAGTTTATGTAATACCTAGATCCTAGGTACCTG
GTGGCCTCTGAGCCATTGGGAATATGCTTGTGGAAATACACCCTCCTCTCGAGGAAGCTATGGTCTTGTAGCTGAGACTGATCACCCARCAGACAATGGT
AAACCCAGTGTGCCAAGCTCTAGGCAGAGGATAAAACCACGAAGACAAGCAGAATGGAAGAGGAKGAAAATRTAACACTGCCTCGGGAAGGAGTGTTGGG
GCAGACTTTCTAGTGTAATGAAAGATGAGCAGAAATTATTTGAGATGAAGCAGGAACAACCTGGGGCAGGGGCATTGAAGATTCTATTGCTGAATGAACA
GCAGGGACCAAGGCCCAGGCGTSAGATAGCACAGCCAGCTGGTGAAAGTTCAAGTTAAGTGCATCAGCCAGGATGGGCCAGCTTATGCTGTCATAGTAAA
GTACCCAAAATGCAGCGATTCACAATAAAAACAGTTCATTTCTTCCCATTATCTCTATCCTCCAGGGACTGGCTGGGGGCTCGGCTCCATGTCAYCCTCT
CTCTGGCATTCAGGCTGACAGAGTGGCCACTTTGCAGAACAGCGGCAGTGGTTGTGCAGAGGAAGATGGCATACCACACTACACACAGGCTCTTGAAGCT
TTCACATGAAAGTGGCATGCAGGCCAGGTGCAATGGCTCCTGCTTGTAATCCCAGCGCTTTGGCAGGCCACAGCAGGAGGTTCACTTGAGCTTAAGAGTT
CAAGACCAGTCTGGGCAACATAGTGAGACCCCCATCWTTATAAAAATTTTAAAAATTTAACCGGGCATGGTGGTGCACACCTGTGGTCCTAGAAACTTGG
GAGGGGCTGAGGTGGGAGGACCACTTGAGCCCAGGAGGTCAGGGCTGCAGTGAGCTATGATCACATCTCTGCATTCCGGCCTAGGTAACTGAGTGAGACT
CTGTCTCCAAAAAAAGCAAAGAAAGTGGCTTGGAGCACTTCGGATTCTGTTTCATAGGCCAGGTAAGTCACAGGGCCACTCGTAAATCCAACAGGGGAAG
ACAGTGCAGTCCTTCTGTGTGGCCAGAAGGAGAACTAGAAGTATCAGTTGACAGCACTAAGGACCACCACTTTTGTAGCAGGAGAAGGGGGTCGTCTGGA
GTGGGAGAGGGTGAGAAAGAAACATCAGCCAGATTCGGAAGCTCCTTTATGCTATGTTCTAGGGGGATTTTATTGTTTTGTTTTGTTTTGTTTTGAGACA
GAGTCTTGCCTTGTTATCTAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCTACCGTCCTGGTTCAGGCAGTCTCTTGAGTAKCTGGGAT
TACAGGCACACACCACTATGTCCGGCTAAATTTTGCTGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCATGTG
AAGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTTTACTAAAAATACAAAATGAGCCGGGCGTGATGGCACATCCCTGTAATCCCA
GCTACTAAGGAGGCTGAAGCAGGAGAATCGCTTGAACCGAGGAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGCAACGAGA
GTGAAACTCAGTCTCAAATAAATAAATAAATTTTGTAGTTTTAGTAGAGATGGGATTTCACCACATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGT
GATCCACCCGCCTTGAGCTCCCAACATGCTGGGATTACAGACATGAGCCACCACACCTGGCCCTCCTCTTATTACAAGGATACCCCAAGGCTGGACGGAA
TGCCTGCCCTAATCCACCATAACCTCATTTTAACTAATTACATCCGAAAAGACACATTCTGAGATTCTGGGTAGACGTGAATTTGGGGAGGACCCTAGTC
AACCTAGTACAGAAAGTGATAATGTATTTTTGATGGGGTTTCACCAAGTTGCCCAGGTGGGTCTTGAACGCCTGACCTCAAGTGATCTCCCTGCCTCGGC
CTCCCAAAGTACTGAGATTACAGGCATGAGCCACTAGWTTTTTTACTGTATCTAGCAAGGGCCATTGCAGGATATCAAGTMTGGGAATGACACAGTTTCT
CATTTCAGAACCATTGAATTGGATACAGCCTGAGTAGTATTCATTCAYTTTTTCCACAAGCATTTGGGTGGTGACAGAAGGCGGCAGACAAAGTCCCCCC
ATCACATTTGGCAAAGAGGGTTGCGGGGATTCATTAATCAACGAGCTAAACAAATGAATTTGTAATGTTTCAGATGGTGATAAGTTGCAAGAGTAAAAAT
AAAGATGGGATAACAGGAGCTGACAGCCTGTTAGAGAAAGCCAGAAGTGTTAAGGTGTGAGGAGCGAATGGGCTAGACAGCTACAAAGGCGACAGAAGCA
ACATAACTGAGTGAGCTTCTAGAATTACAAGAGGGTCCCTGAGATAAAATCTATAGCAACGCCTAGGGCAGGAGGCTTTGATAAACATGATTTGCATCTG
AGTTTGGAGTTGGAATAGCTCTTTTGAAGCACTCTGTCCCCATGGACATAGATGTAACACCAACCCTTTCCAGGAGAGTGGGTAACAGACAAGCCACTCA
GCCGGTTTTATTAAGATGGAAATTTTCACAAGGGCTAAAATAAAGATTCAAGTCAATGGAAGCYGCCTTTTTAATTGATAAGAGCAGCTCAGCAGTAAAG
GAAATAGGAGATGCTTGATGCCTGTGTCGTTCTAGTGTTGGGGAATTATATGGAACACTCAAAGCAGACCTCCCCATCAGCTCAGAGACAATTGATGGTC
TGTGCATGTCCTTGTGAGGCTTTCTGTGGGGTAGGATGAGATTAGAAGCAAAGTTGCCTCTTTTACTCTTCTGGTTTCATTCTTCACTCTGGCAGTCAGC
ACAATTCACAGGTGTATCAGCCGAGGAAGCATCTCACAAACTCTATTCTCTCTTACTTCCATGCCATTTTGGCACCGTGAACTTGAAATCACTGGTGGTG
TTCTCTTTACCCTGCTGGAATCACAGACACTGCAAGTTGAAAGTCACCCAGAGGCGATCTGATGTTTTCCTTCCTCTACAGGGARGAGAAGTCTCTTCTG
CTTTTCACAGCAGGTGTCATTCAACCTACACACATGTGCTGAACCACAGGAGCTTGTGGTCTCTCGAGGCAGGACCACCCCCSGCAACCCCATGGTCAAG
CAGCCCCTGCAGTAGCCTTGTTCTTCCCCAAGACCCATCACCCGTCCTAGCTGGGAGCCACGTGACGTTACGCTGTTTCCGTTTAAGCATGAAGTCATTC
AAAAGTTGGAAGGTAGCACGCTCCCATTTTAGAACTGTTGTGCCAAACCCTATTAACCTCAGTAAGGAAGACACCAGGTTCAAGAGGCTGAAGAAGAGAC
CCAGAGCCAGCAAAGGAGGCATGGGGTTTTATTAGGGGCTTACATCCAGGCRAGAGAGTCTAGCGGCAATAAGCTGGACATTAGAACCGCCTTATATACA
GAAACAGTCCAGCAACAGAGGGCTGGATAAGATTTCACCTTCCTATGATCCACTGTCAGCAGGCTAGATGACATAMRCACACAGYCTAGTGGCAGTGGGC
TGGGKAGGAAAACTGCAAACATCATGCAATTTATATAACATTTTCCCTTAACACASTCCCCCTAATGACCTCCACCTGGCAACYTTCATCAACCCAAAAC
TCAGGGCCTCAATGTGTACAGCTCATGTCCCATGGAATGAAACGGAGTSGGGGGCTCAGATGTTTATCATAGACAAGGAACAAATCTCCTGGTCGACCTC
TCCTGGATTCCCTAGTTTGGAACACACATTCAGGTGCATCTGCCATCCTGGGTCATCCCAAGGGTATGCTTAAGTCACTGTTATCAGRTGCATTTACCCT
ACAGGAACACCTTCACATCATGTTAGCCCAATTCCTTTCTTTCTTTGTATCATTGCTTCCCTTTAAATCTAAAAAGAAGATTAAGTCTTCCATGCCAAGC
CAAGCCCAATTACTACAAYCAGTCTTTATATGGCAGTACCCCACCATCTAGACTGCCGACTAACTTCTCTCCTCCTGATAGTCTCTGCTTTATGTATTTT
CCTTAAAAACCACAGGAACCAGCTGGATCCAGGACTCCAGCCACAATCCAAGGGCCAGAGTAGAGGGTTCTAAAATTTCTCCATAAAATTTACTTCTCGA
TACAAGAAAGCAATATAAGCCATAATGGCTGACATTCCAGAAAAACACTCTTACCAAGCCCCGGCTCTCAGTAAACTCAAACGCATCTCTCTGCTCAAAC
GTTTTGTGGTTCCAAGAGAAAACAAATACACCGTGCACATTTTTCTTTCTTTAAAGATTGGAAAGAAATGAAGAAAAGACTTGTCTTGTCCATGTTTTTA
TAGAAAAATATAAAGCATGTCTCCTCTGTGACAGATTTCTTTTCCTGTAAATCCAGCAAGCCCATGAAAGAGCTTATGTGTGAGCGGATGTCACACATTC
ATCTTCCCCAGCCACTTTGCTGCGTTTCTGAAAAGATAACATAGATGCCTGGAGTGCAGACATCTTGAGATTTAGGAGCTGGCSCCTTACAGCTCTTTGT
GAATTGAGCCTAGAAAACGTGTCTGTTTTTAGCTGACCCCAAGAACAGAACTGGCAACCGCTTCGTGCAGAGGAGTCTTCCTCCACGGAGTTGGTTCTCA
AGAAACTGACGCTGAAACTTTCTTTGGGCACGAGACACCTGTGTGCTTCTCATATTTGGACCCAATGCTGTTCCTTCTGCCCTCTGCTGTCTGTGTCGTT
CCTGGCTGCAGAACACAGCCCCCAAGCAGAGATGCTGAGTCCTCAGGACCCAACCCACCACACACCGGCTGTGTAACCCTGAGCCAGTCACTTCTGTTCT
CCCACTAACCAAACAAGGACAATAATGGAGTCTTCCTGGGGTCCGATGTGCACACTGGTACTCAGCACAGTACCCTGGGCAGCATAAACAGTCCGTTTGA
CAGGGTGAATCAAGGCTTTCTGTCATGAGGCTTTCTGTGAGGTAGGATGAGGTTAGAAGCAAAGTTGCCTCTTTTTCTCCTCTGGTTCCATTCTTCACTC
TGGCAGTCAGCACAGTTCACAGGTGTATCAGCTGAGGAAGCATCTCACAAACTGTCTTCTCTCTTGCTTCCATGCCCTTTTGGCACCGTGAACTTGAAAT
CACTGGCATGATGAGATCAAGTCCTATTCCTTGGACCTTGTCCATGTGATCTGATTTGGAAGAAGAGTCTTTGCAGTTGTGATTTATTGAAGGGTCTGGG
GATGAGAGTACTGTGGATTATCCAGGTGGGCCCKGAATGCCATCACAGGTGTTCTTAGAAGAAAGAGGCAACAGGAGAGAACACAGGTGCACAGAAGCAC
AGGCAAGGTGAAGGCAGGGCAGAGAGAGATGTGGCCGCCAGCCAAAGAATGTAGATAGCTACCAAAGCTGCATATGGTAAGGAAGAGACCTCCCCTAGAG
TGTCCAGGGAGCACAGCCCCGCCCACACCTTGACTTCTGACCTGAAGCCTTCAGAACTGTGAGAGACCAAATATCCGAAATCCTAAGCCACCCAGTTCGT
GGTATTTGTTACAGCATCCCCAGGAAATAGATTTAGTGAGTGAAGGGTGAGCCATTTGCATTAGCAGAACACAGAACTGAGGAGACAGAAACCCAGCCAC
ACTTGWGTGAGGCGTAGGGCAAATCTTTCCTAGATAATAACTCAAATCATTCAGACTGCTGCCTCTCTGCCTCTCCCTTTCTGTCTCTTTTCACCGCCTC
TCCTTCCCTTCTTTGTTCTTGATGAAGTTGAGCTGCCTATAAATCATCGTCCTGTGTAAAGTTTTTAAAATTTTATTTTAAGTTCTGGGATACGTGTGCA
GAATGTGCAGGTTTCTTACATAGGTAAACGTGTGCCATGGTGGTTTGCTGAACCTATCAACCCATCACCTAGGCATTAAGCCCTGCACGCATTAGCCCAG
TGTAAACTTTGATCTCCCTTTGGATGCCAGCTGATTCTTTCTTCCATTGCCCGTGGGTTTCTGATTGCCCACCATTGCTAAAGCGAGTTGTATAGGCTGC
AGGAACAGGTGCACAGGACTCTACGGCTTTCCCTGGTATATCTTTTCTCTGCTGAGGTCAGACTTTTAGATGGCAATACTTTTTAGTTTTGCTGGGCCAG
ATGTGTTTCCAGGAGGTGGAATTCAGCAGAAGCAGAAAGTTCAAGGCCGTGGAAGATAGCAGTTCAAGTGGCAGCTGCTAAGGGCTTTTCAACTCAGTGT
TTTTTCAGCTTGACTTGCAAATAGAGCCTGAAAGTTCCCAACTCTTAAAAATGTTCAGTGTGTCCAGTCTTATAGCAGGAGGAAGAATTTGAAGATGGCC
AGYGTTGCTGTTTCTCAGGCCCTAATATTTCTTTGTGCTCAGTGAACGGGCAAGTTATCCTGAGGAAGAAAATATTTCAGAGGCTTCRGTGCTAAGTATT
AATCAAATAGGTCGGGGGTCGAGCAGGCCTTCCACAGTCATTCATACAGGAAAAACATATTGAGGCTGGCCCCACCCTATATCTCAGCGGGGAATAACTA
AAGCTATTCAAGAGTCACCTTACATCCACGGTGAGCCACATTTCCTGATACCAGATGCTTTCAGGGCAACCTTGATCATGGGTTTTTGTCTATTGCATCT
TCATGCTGCAAGAAAATTCTGTGTGTAAGCATCTYTGTCTCCCAGCAAAATGTGGCCAGTGGAAGGTCCACATGAGGCCTTTTCAGTCTGGCATCCACAG
CACTAGCACAGGGCCTGCCACAAAATAGGCCCCCATAAAGACTGGGGTTGAATAAAATGCATTGTTTGCAACACGTAGGCATGATTTCTTCTTTCCTGCG
GTGGGGGATGGGACTGACCCATCAAAGCACATCTCATATTTGAAATGTATGAGATTCTTGGATAGTGCAAAATACAATGTGTGCRTTACACACTGAGGAG
GCTGCTGCAGTTTCTCCAAACCCCTACAGGCTGGGAGACTTTTAAGAGACCCTTAGAGAGTGTCACCTTTGTTWATGCAGTTTTCATAAATTTCTTTTAC
TTGGCCGTAGTCTCTGGGTGATACTTGTTGTAACAGGCAACTATTACAGTACAAGATATCCTGCTTCAGATCTGTGCAGCTCTCCTGGGCTCTTAGTTGG
AGTGAATCAAAGCCCCTGCACACACATACACCTGTGTGCACACTCTCGCTTTGACATTCACCTATCCCTCTACTTCCCACCTCCAGAACCCTCTGCTGCT
GGTGTTTTTCTGTGTGTTTGTTTTAGATTTTTGCTTTTTTTAGAGAAAGGTGTCTCACCATGTTGCCCAGGCTAGTCTCGAACTCCTGAGCTCAAACAAT
CCTTCCGCCTCAGTCTCCCAAACTGCTGGGATTACAGATGTGAGCACTACACCCAGCCAATCTCTGCTGCTTCTTGCTCATGGCACCATCCCTTTGGCTA
TCAAAAGGTAGCTCTCCTGGCCATCCCTTTGCATAGGCCATAGTGGAAGCTTATAATTTGATCTTGGTTTTTTCCTTTAGCTTTGTCCTTTCTGAAATTC
TTCATTTTAGCCTAGATTCCTCTTATAATAGAGCATAACATTCCAGCAGTGCTCAAGGATGATTCATTGCCTCAAAGTTGCCACCTCTGAAAGAGTGTAA
TATGTCCACCCTACTCATTGGCAGGAGGGAGAATCTGATTCTTCTACCCCTTCTGCTGCTCCAAATGATAATAGCAGCCACCACAACCACAGGCTCAGCA
GATAACACGCCTAGCCCAGAGCTGCACGTCCTCTGCCTCTCATTTGCCCACCACAGATACCCAATAAAATAGACACCGCTAGTATGAGCTTCCTTTTGTG
GCTGTGATGAATTGCTACATATTTATGGTTTAAAATGTGCAAGTTTATCTTTTTACACTTGGGTCAGAAGTCCAAAATCGGTCTCATTGGGTTAAAGTCA
AGGTGTAGGCAAGGCTGGTTCCTTCCAGAGGCTCCAGGGGAGAATCCACTTTCTTGATTTTTCCAGCTTCTCGGGTCACCTGCACTCCTTGGCTCCTGAC
GCCTTCCTTGGTCTTCAAAGCCAGCAGTGTGGCGTCTCCAGATATCTTTCTTTGACTTCTGCTTCCCTGTTCACATCTCCTTCTCTGACTCCCATGTCTC
TCTCTTACAAGGACCTTGTTGGGCCCACCCAGATAATCTAGGATAAGCCCCTCATCTCAAGATCTTTAATGACATTGACTAAGTTTCTTTTACCCTGTAA
GATAACATGGTAAGATATTCACAGTTGTTGGGGATTAGGATATAGGAATGTTTGGGACCATTATTTTTCTAACCACCCTTTTTTTTTTTTTTTTTTTGAG
ACGTAGTTTTACTCTGTCACCCAGGCTGGAGTGCAGTGGTATGATCTCAGCTCACTGCAACCTCCACCCTCCGGGTTCAAATGATTCTCCTTCCTCAGCC
TCCTGAGTAGCTAGGACTACAGGTGSCTGCCACAGCGCCCGGCTAATTTTTTGTATTTTTAGTACAGATAGGGTTTTACCATCTTGGCCAGGCTGGTCTT
GAACTTCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCTCGCCTGGCCTTTCTAACCACACTTTTATGCC
TGCCTTTGTAACTGTGAAGCGACTTTTGCAGCTCAGAGAGGCTGCCCCATGTGTCCAGCCTCCCCAGTGAGTAAACTGAAGGCAGGGTTTGAAGCAGGCA
GGATTTGATCTTGGAACCTGGGCTCTAAACCACTACTACACCATATGCTCACCCGAGCAGTGCCTAAATACCCAGCTTCTTAGCCAGGCTCTCAGCAACT
TGCAAGGAAGAGTCATATTTTAATTACCTCTTGAGTCTCATCGAGCACATGGAGGAGACCTTGGGATATTGTTGAGGCTTAATATTGAGTTAAAATGGTG
ATTGTCTCCCTTGTACAAATCTACTTCTATTTAGACAACCTAAGGTTACTTTGGTTTTAAAAAATATCATTTCACACTAACCTTGCTTTCATTGAAGACT
TCTCTTCTGCTTCTTTATCAAAMGTGGTGCTTCTGGGCCATGCCTCTCCCGTCTTTTGATAACAACAATATTCTCAGAGAACACAGTRTCCTGGGCTGAA
TGTTACATGTAGTCACTCACTTAATCCATGCACCAACCCCATCAGGTGAAAACCATTACTGTCCCCACTTAGTACCGTTATACCTCAGGCTCACTGTTGT
CCAGAGTGGAGCAGCTGTTCAGTGGCAGAGCTGGGACTGAAACTGGGGACTCTGTCTCCTGTGGGCATGCTGCTAACCCTCTGAGTATTGTGAGTCTGGA
TGGGAGGCCAGTGGGGATTTATGTTAGACGGTGCCCTGTGGTTGCAACAAATGAAAACCAACCCAGACTTTCTTTAACAAAGGGGAATTGATGAATAGAT
CTCTCCCCTAACAAGAGGCTGGAGATRTGAGACTGGGGAGAGCAGGAGCCATGATGACTCTGGAGCCCTGAGGTCGGCCCCGGGAGCTGGCTTGTAGCAG
AGGCAGTGGAGTCAGGGCACCGCCGCTCAGGGGCGGGACTCACAACCCCAGATCCGAGGGAGCATCTAGTGCAGCTCTCTTAAGTTGTGTCCATTGGCCC
TTGGGGTGTGGGGAGCAGGTGCCTTTGGTCTCTCTTCTGCCAGGTTGTTTCTAAGAGAAGAACATTGCAATCTGGAAAAGCAGTATTATTGTAGGGTAGA
AATGAACACATGGGGAAGAGCATTTAAAACCAAAAATGAAACAGATTATTCATACAGAGTGTGCCAGAAGCTACTGGATCGAATCTCCTTTTGCTCCTTA
AATATTTATTGAGCACCTACTGTGTGGCTGGCCCTGTTTCATTCAGAGGATACGAGGGTGAATCAAATGTGCATTGTTAAGTTTTATGGATCTAAGTTAT
CCCTTGAGTGGTGGCCTGATGGCTTGGAAGAGGTAATACATCTGTCAGTTCTGACATCCACGGTGGAGAGAAATGAATCCTGCCAAATGGAAATGACTCT
CCAGTTCCATGGGGGCACAGGTGGCCTGGAAAAAGCTACCCCAGTCTGTGAGCCCAGACAGTCCAGAAGGCCCCCTCTTAGATSTCAATCCCAGCACATT
TAATTTCAGTTTTGTGTGACCCTAATAGAGATCCTTCATCAAGTTTTATTCTTCATAAAAGATCCATTTCCATAGACTCATAAAGCAACTCCTTCTAATT
CAGTGTTATTTTATACATACTTTCATTGCTCGCATCAATCACAGGCAGCCGACTTCCCAGCCATGAAACAACAGCTTGCAACATCACCATGTTACCCAAT
ATGTATTTACTTATCAAGTTGGAGAACACATGTTTGCAAAATCAGCAACATTACAGCTTTACTAGCAATTTGCTAGCACTTTCTTCCCGTTGAACACGGA
GTCTGAATTGTGTGGTATTTCACTATCCTGGCTCATTTGTATCTTGTAACTGCAGTAGTCACCAGCACCCTGAAACCTCCTGGAGATCCTTGTTGATCAT
ACCTGGAACTTCAGCCAGGTCACTTACCTARCAGGTGTGGTTCTGGAGTCATCGATCATCTGTCCTGCACTACAACTCAAGGATATAGGTCCTATATGTC
CCTCGGGCTTCTGGACCTAGCCTAAAGATGCCCCAGACAAGCTGTAATGCAGGGCAAGGTCCTCAATAGCCACTCTGTAGGGAGAATTCTGGAAAATTAT
CCTACCTGCAAAATGTAATGTGAAATATCTGACATGAGCTGTGTGGAGCTGAGTAGGGAAGTKGGGAGAATAAACCACACTTCCTGGGTTTGCCTCTCGT
CTCAGCCACTTACCAGCTAGATAACTGAGGTGATGGGCAAGCGGCTTTACCTCCCTGGGCCTCAGCTTCCCTSTCCATAAAATGGGCTAATGACACCTGC
CTCATAGGGTTTGTGGGATGATTAAATGCTTGCAATGCCCTGAGTCATCTGCTATGGTACGAACCCTCATAAAGGTTAGCTCCCCATCACTCCTGCACCA
ACTTTTGTATTCATTCAGGATTATGCTTTTGTGTGTCCCTCTGAGCCCATACTCAGCCACTTGCCAGTAGTGATGATGGAGTGGTTATTTGACTTCCCTG
AGCCTGAGTCTCTTTCTTTTAAAATAGAGATGATCTAATTACCCTGGCAGGGCTATTAGAAGAACTATTTCTGGTGCACAGTCCACACATGTATCTCCTC
CTCCATGGAATTACTGCAAAGGTCTCCTCCTCAGTGCCCCCTATATTTTACCTGCATCTTTAAGCCAACTTTACACAGTCATAGGTGTCAGCCCATTTTA
CAGATAAGGAAATTGAGCCTCTGTAAGGTTGTGTATGTTGCTCAGATCATGTAGCCAGTAAGTAAGGTGCCAGAGTCTCCATCTGTTCAGCTTCTATCAT
TCCAAGGATTCCACTCTCAAGGCCCCAYACCAGGCCAGTAGAATAAAAATCTCTGGGGGAGAGTCTCAGACATCAAGAGAATTTTAAAATATCTTCAATG
AGCAGCCAGGGTTGCAAGGCATACCCCCAGGCCATGTTTGCTCAACCTCATTCTCATGTACGGCCCACATCTGGTGGGTCCCACCAGAAAAAACAAGAGG
GTGGGGGAAATTTAGCAGAAGTATTTCATTAAAAAGGAGGATGTAGCTTAGAATTCAGCAAATTAAAGCAGAAGCCAAGGAAATAGCAGTTCTCTGGTGT
CCAAAGCAAGGTCAAGAGCTGGGAGCCCGAGGAATAAACTGTGAAGCCAGCACAGATCTCCCAGAACAGGGAACCCAGAGCTTAGGGCTGGAGAAGGCAC
TCCCAGAGAAGGTCCAAGCCTAGAGCAGTGACTGTTYGACTTCTGCCCAGGTACATCTTGCTTCTCACCCCATAGGGAAACAACCGCTGGAGGAGCCAAG
TGTTCAGTGAGCCGGTGCAGTTCTGGGGCCATAATGATGAAAAGGAAGGCATGTGCATTGTTGCCTGCGCAGCTGAGTATAGGCACTGAGGCCGAGACAC
TGAGTGTCCAGGTGACCCCCTGTGTTTCCCAGGCCTTCCGCCATCTGGCTCCTGGCTCTTGACCACGACTGGCTGCGTGATTTGCAGAGCCCRTTGTAAA
ATGAAAACTCAGGGTCCCTTGTTCAACAACAATTAAGAATGTCAAGAGGGTGACARCAGAGCACTAAACCCAGCACAGGGACTGTCTGAGCAAGGGGTTC
TGTGCAACTGTGCAGGTCACACGTTCATGAAGTCCACCTGCTCTTGAGCTTGCCTTAGACACCAGGTCTGGCCGCTGAAGTGCAGGCAAGAGTGCTGTGT
GTCRTTTCTGACTGAAGCGTTCAATGAGTCAGCATGTGAGTTTGCAACTCTCTGCCGCTCCTGCAGCAGTCAGGAAGCTGCATGTTCAAGGTGGCCTGGC
TATAAGATGCAAGGGTCTGGATCCCTAAGCTGCCACTTGGAGAGAGGATCTGCCCCTTGAAGTGAACCCCCAAAGTGGACTGAATTTGAGTGAGAAATTA
ACTTTATGTGCTAAGCCACTGAAATGATAGGGTTGGACTGTTATCTCATTCTAGCCTAGCCTAATATAGTCTATGTGGTTTTTGTTGTTGTTGTTACTGT
TTTTGAGACAGGGTCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCCCTGCAGCCTCCGCCTCCCGTGTTCAAGCAGTTCTCACAC
CTCAGCCTCCCCAGTAACTAGGATTACAGGGACATGCCACCACGTTTGGCTAAATTTGTTTGCATTTTTAGTAGAGAAAGGGTTTCACCATGTTGGCCAG
GTTGGTCTTGGACTCCTGACCTCGGGTGATCCACCCACCTCGGCCTCCCAAAGTGATGGGATTACAGGCATGAGCCACCATGCCTGGCCTATGGTCTGTG
TTTTTAAAGAGCAAATTGCTGCGCCTTTGCCCTTAAATAGATATAAATGATAGCGACAATAAGCCCATTGTTCAGAATTAACCCAGGAGTTCATTAATAT
TTAGTGTCAGTTAAGTATCAATTATTTACCTGCTTCCTACTCCAGCTTTATATTACCTTAAGCTGTAAACGAAGAAAAATGATAAAAACTCATCTTTTAT
TTATTCACTTATTCATGTATTTATTCACTTGTGCATTTGGCAAATGTTTACTAGACTCTTAATACATGCAAAGCATTATTCTGGTGCCTTTGAACATTTT
CATATTTGTCAGATATAGAGCAGCATCCTTGATCTCTACCCACTAGATGCCAATATCACATCTCCTGCCCCAGTTGTAACAACCAAAAGTATCCCCAGGC
ATTGCCAAATGTTCCCTAGAGGGGCTAAAATACCCCTCATTGAAAACCACTGCTGTAAAAAGGACTAGGCTTGCCATTTAAAAATCTCTTAAATTGGCTG
GGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGAGAGGCCAAGGTGGGCAGATCACTCGAGGTCGGGAGTTTGAGACCAGCCTGGCCAACATGGTAA
AACCATATCTCTACTAAAAATACAAAAATTAGCAAGGCGTGGTGGCGCATGCCTGCAATCCAAGCTACTTGGAAGGCTGAGGCATGAGAATCACTTGAAC
CTGGGGGACAGAGGTTGCTGTGAGCCCAGATTACGCCACTGCACTCCAGCCTGCACTCCAGTGACAAAGCGAGACTGTCTCAAAAAAAACTCTTAAATTG
GTTAAACAAACAAAAAAAACCACACCGTGTCCTTTTGTTGTTTYTAAGGGTTTATGGAAAAATATATTGGAGAGTTACAAYTACTTCAGGCTAATTCAAT
ATAAAGAGTATTTTTATTATTAGTTTGGAATATTAAAGTTTCCACTTAAAATTGATTTTTTGAARTGTTTTCAGGCAACATCATTTAATTCAGCATAGAG
TATCCTATGTCTTTCAAAAAGAACTTCATGGGAATGGTAGATAAAAAGATTAAGTGGAATTTTTAAGGGGTGTAAGAAAAATCTTACTGTCGAAGTCTGG
ATAAAAGGAAGAAATTAGGACAGTAAAATGAATCATGATGGGGGACCCCAGTTTTGGCCATGTSTCACCTAATATGTCATAAACAGTTCTTCAGCTTCAT
TAAAGAATAGCTTACCAGAAAGAAGGGCAGACACTGGAGGCTGAACTGCAGCGAATGAAAACCTGAAATAATCACAAGGTGGTCCTGTTGCCATCATCTC
TTTATCAGTATAAARATAAACAACCTTTGAAAACAGATGGAGACAGTCATTGCTCAACTTGTCATAACTTATTACATATTTGGCTGTCAATTTGTACTTA
AAAAACCAACTAGCTCCAGGGAGGCAAAGCAAAGTGGAGAGGAGAAGCGAAGCCTGTTGCATTTCARTTCAAGCCTGTGGTAATTTCAGCTGCATGGAGA
CACTTAGGACTGTTTTTAAATGAAGTCAGCAACTGTCCCAAAATTTAAGGCATTCTCATTTTAAAGAGCACAGTTGTGTTCCTATGGGATGGCACTTCCT
CACCTCAAACCTGTATCAGGAGTATATATATCTCGTGCCCGTTTAGTCAGTGCTGCTCTCCCACAGGGTGAGATCTCTCTGAGCCAGATCATTCTCGGAC
AGATGATGAATTTTTCTGTTCCAAACAGGGAGGTGGGAGGARGAAGGGCAAAATGTTTCCCATGGATGTACCACTTTTTAAAGTTGTAATCTGGAGTACT
CATCAACAACATYTAATTCRTGCCTTTGGGGGAAAGAATGGCTCTACCAACAGACAAGGTCAAAAGCTGGTGGGCCTCAGACCGAAGCTTGCCATAACCT
CTTTTGTTTGGCCTTCTAGTCCCACTGAGTGATCTTTTATTTTTTAAATTTGAACTAGTGTCTAAAAATCCAAATTCCCACCTTTTCTTAAAAAATCAAA
AGATGGCTGGACGCGGTGGCTCAYACCTGTAATCCCAGCACTTTGGGAGGCCGAGTCGGGTGGATCACGAGGTCAGGAGATCSAGACCATCCTGACTAAC
ATGGTGAAACCTCATCTCTACTAAAAATATAAAAAATTAGCCAGGCTTGGTGGTCCCAGCTGCTTGAGGCAGAAGAATGGCATGAACCCAAGAGGCGGAG
CTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAACATCAAAAGATCTGGCTAGTCC
AGACTTGTATTTCAGACATGCAGTAATTCCTTTGAGCTAAAAGGCAGCTGCCGCCTGAGGCAGGAGGCACACGCTCCAGTTTGCCACCAACCCCACCTCT
CCCGGTTGCCTTGAGAGCGCTTTACTCATGTGAAGCTACCTGTATGGGCACTGGGTGAGTAGGTGAGCTTCTCACTCCTGGCCCAGCTCCCAGTCTGACC
ACAGAGAGTCCCACCTTTGAGGCCAGTGGAACTAGGCTCCTGTTAGAGGACTGACCAAAGGTCATTAGCATCTTCATCAAAACTCACATTATCAAGCACT
TTCTGGATCAAATGCACAGCTGGACCACCATATGAAAATGTGGGAGGGGTCCTTGTGCTGGTGAATAACAACCCCTGGATAACTGGGCAACCCAGGGAAG
GGCCGCCAAAGGAGCAAGGGTTACAAAGCCAAATCTCCCAGACCTTGCCTTAGGCCTAAGCCTGCTTCCTTCTTCTCTTTTCCCCAAAATTGGGCTGGAA
TCACCTCTTTTCTCTGCCACTCTGCAGTTCCATCCTCCTACCCTCAGAGTACAGGGGCAGGGATTTCTTTAACAGTCTTCACACCCAGAACTGAGAACCA
ACCTCCCACCTRGCTGGCCAGTAGAGTCTTTTGAAGATGAGAAAAAAAAAAAAAAAAAGAAAAAAAGAAAAAGCTGAATGATGAGCAGTGGCCTCCAATT
GGACATCCCCTCAAATGAAAATAAAGCCAGTCCAAATGTAAGCCAGTGGGAAAATGAGACATTATTTACAATTCATCACATGGGTAGCTTTCCAGGAACG
CATGCCCTGCCAAACGTGGGCTGCCTCTGGATCCCTATCAGGTTGGTTGGTTATCTTTCATCAACTAGTCATTCGACAGTTTCCCTATCAATTGCTGTCT
ACTCAAGAATGTCCACAAGACCAGAGGAAGCGGATGCATGCATATGTGCACTCAACAGAAGTATCTAGGCTTGTCTAAGGGAAGAAAGGAATTGTTTCCT
AACAAGATTTTAAGTAACTCCTGTTTCTGTAGATCCTGAGAGTGAGTCCTAGAAGCAGTRTGTCTTAAACCCTAAGTGGTTGGGTCCCACAAGCTATTTC
CCTCGTCATGATTGCACTCAGCAGTGGGTCCTCACAGAACTGAGTTCTAAATTGTGAGAGTCAATGAAAATAACAAACTTACATTTCTCAGCTGGGCGCG
GTGGTTCACACCTGTAATCCCAGCACTTTGACGGGCAGATCACGAGTTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAA
AATACAAAAAAATTAGCCGGGCGTAGTGGCAGACRCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTT
GCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGTGGACTGAGTGAGACTCCGTCTCCAAAAAAAAAACTTACATTTCTCCATTACTTACCATCAT
CCTGGCATTGGACTTTATATAGATTAATTTGTGCATTCTCAAAGGGGGTAATATTACTTCTAAGCAAGAGAAAGTTGGTCATTAGGAGAGAGGGGTTTAT
CACATCAGATGTATTAGATATTACAATGGCTTGTGCCCTGCAAGGGGCCATAGCACATAAATAGATACACGGTATTCTATAGAATTAACGTTTTGTGATG
GAGTGAGAGGGTGTCAAGTCGAATAAATGTCTGAAAATATTCTTGGGGGAAGGTGTTAATGGAAACACARGAGGCTCAGAGAGCATTGATTCACTCAATG
CCTCCAACAACCCATGAGAGAAGAGCCATTTTGTCAATGAAAAGTTGAGGTGGGGCGTGATGGCTCACATCTGTAATCCCAGCACTTTGGGAGGACAACG
TGGGCAGATCGCTTGACTCCAGGGGTTCAAGACCAGCCCAGGCAACATGACAAAACCCCATCTCTACAAAAATTAGCCAGGCATAGTGGTGCGCACCTAT
AGTCCCAGCTAATTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCTGGGAGGTCAAGGCTGCAGTGAGCTGTGATCATACCACTGCGCTCCAACCTAGGT
GACAGAGGGAGACCCTGTCTCAAACAACAACAACAAAATYTGGGGCTTAACTGCCCAGAGAAGCCCAGCAGGTGAGGCCAGGTTTTAAAACTAGATAGCC
CAGGTCCTCAGCCGGGCCACTGGCTTGATTCTGCTTTGGTTTTGCACACCAGGGTCTCTTTCTTTGTTACTGAGGACGGTTAGGAGASAACTGGCTCATG
TCCACCTGCTTGGTCAGGAAACAATTTTAGATTGGTGTGTTTGGGGTGGCCAGTTGAGTGAATGGCTGTAGGCTGTGTCCCAGGCACTACAGTCACATTT
GCAACAATTCTCACATTGGCAGTCTGCTGCTCATGACGAAGAGACGTGTCTACAYCTGAAAGCAAAACTTGGCCTGCAGGGTGACCACCTCATTCTGGTT
KGCCCAGGAGTGTCCTGGAATCCCCTCAGTCCTGGGAGAACTATCTGGTTCTCATTTGGAACCAGGAGGCCMCAAACCCATTCAAACTAAAGAATCTTCA
ATGGAAATTTAGTTTCCAATGAGAATCGTTCCAACTAGATATTCCCCAAAATGCTAGAATTTAAAATAGCAGCTTCTACATCTGTCTCACCTGGCTAAGC
ACCCTAAGCTGCTGCTGGTCTAAGGCTTGTCTTCTGACACAGGGGCAAACACACAAGTAACGTTGTGCACTACAGGATCCATGACCACATTCTCCTTTTG
AAGCACCACTATTAGATCATTCGGTCACAGAAAGCATGGTTTGATTGGAATTAGAACTCACTGCCTCCTCTGGTGAGTTTGATGCTTGACAAYGATGTGC
CATTTTGTCACATCAAAGAGGTTCACCTGGTGACATCTGCCATCTCTGCTCATGTTTGCTTTAACATCACACTTCTCCCTGGAAAGCACACTGTTGCCCT
AACTGTGCTATCAGAAATCCAGTGCTGAATATAGATCTGAATGTCTATGTCTCAATACGTGATTCGCTTATAGGAATAGCATTTTGTAAAAAATGAGCCT
GACACTTTTTGATCAGGCAAAGGAAATGTTTAGGGATGGAGTCAAAGAAATGTTAAGAACAGCATAATTTTGTCACTGTCTTTTGGAGCATCCCCATCCT
CATGGCCAGCTGAAAACCCCCCGTCACTCTCAGATCTGCGCTCTCCTTTCTCAAGGGGTTGGYCGTGCTTGAAGTCACAGGAAAGCAAAACTTCAAAGCT
GGCTTTCAAGGTCAAGAAACCAGGCGGCACTTGCTTTAATGAGAGAGCTGCAGTCAGGAGGAAGGGGCTACCTGGCCACAAGGAAGCGATCACACTTGTT
AATCAGCCTGTCAGGCTGGCGGCCGTGTCCTTCGGCAAAAGAAAATGACGGCCCAACTTGAGACTTTCAACCAGGAACCTGGGATGTTTTYTTCCCCCTT
TGGAGGAGCTGCTGCTAGTTCATCTGGCTCAGGGAGTGACAGGGTGATTATAATTTATTTTGTCACTCAGGAGAGTATTGTGACGGGGGAAAAGACAGAA
ATGTACTGTGTGGAAGCCCCAATGCGTGTCTGTCATATAATTACCCTTTCTCTGCTGTCTGGAAACACAAGACAAGCCCGGATAGGAAGCTGCATGAGCT
GGTGAAAACAAAGTGGTGGWCATGGAGTCCAGTGTGTGGGACTGCATAAGAGGAGAGGCACAGGCATCACCCACAGGCAATTGGAGCAGGTGCACTGAGG
CCCACCTGCTGCATGTCAGCCCTGGGCATAGCATTGGTATGTGACCCAGGAATCCCATTCCAGCAAGGACCTCCAAGGCGCATTGAACAGGGAGCTCAGA
GGCAGTCGTGGAAAATCTCCAGGCACGTTGCTCAGTTGTTCATTCTTCTTGGAAGACAAGGTACTGGTGGCTCTGGTCAGTGTGGAATGAGGCAACACTA
CAGTGAATGGCAAGAAGCCAATTCAACCCAAAGAACACTGATGAGGACCTACCGCGTGTCAGACACTGGGCTTACAAAATGAACACAACAGTCTATACCC
TCCAAGAGCTCACATCTAGGACCATGTGGCCCATCACAAAAAGATAGACAGTTCTGAAATAAAGAGGTTCCATCAACAGCAAAGTTTGGTGAGTGCTGCA
GAGAGACACCCTCTCTTGGAGATTGATGCTGTAAGCGTGCTTAATAGAGGCACTGAAGAGTCCTCTGGGGAAACCTTGCTTTGCGGTGTTTGCCACGTAT
TTCCCAAATCTGTTTCTCGACTGAATCTATGGAGCCAGAGTTCCTCGGAACCAATTTAGAGAATGCTGGTTTAGGAGGTTTATCCAGCCTTTGCAGAACA
CAGAAGTAAGGAAACCATGATCCAGCCTCCAGGGGAAGGTACTGGCAAGAGCCAAGCATTGCACTCAGCAGATAGGTTGGGGTTCAAAGTAAAGCCTGGT
CTTAGAGGCCRACTAGAGGACCACGTGGAGACATGGTGTAGACTACAGAATGTGTGTGTGCACGTGTGTGTGTGTTGTTGTGATATCCACAGTAGAAACC
CAGATCTGCACACTAAGACCATGGGCAGGGTGGGAGAAGGGACCCGGTGAGAGAGAGGGCTGTCCTGCRACCCTTTRTCCCACATTYTTTGGACAACTTA
ATCCTAGTCTCCTGTATCTGAGGCCTTTGCCTGCACTGCCATAATTGGCTCAGAACCCAGGACAGAGTTGGATAATGCAAGGCTTCCTCTCTGAACACTA
ATGTACTAGGCACTGTACCAAGTTCTGAAAATAGGTCATCCCATGAAATCCTCACAACAACCAAAGGGGAATGTTGAAAACAGGGAAACCGAGGCTCAGA
GAGAGATGAATAATGTGGCCACGGTCACGCAGCTTGAAAAGACTTGAACCCAGATAYGTCACCTCAGAGTCGTTGTCTTCAATGCTGCAAACCTATTTAC
ATAACTCAGGCACAATGCGGTTCCYTCAGAGGCGCGATTTCCTCCAGAGTAAATCCAGTGATGCATTCGTGTCTGGGTGAAGACAAACACGGGGCTTAAG
ACCGAGTTCACCTGTTCCCTAACAATCCATTAAAATAAAAACCATTTTCTGTGTATGCTTGGGAATATTCCAGSATAATTTTGTGTTACATCATGTTATC
CAACCTGTAAACAAAAAGATATCCTCAGTGAATTTCCTGATGAAAACTAAAGACTCATCAACCTGAAAGGTCTTTTTTTTTTTTTCTTCCTCTAATCATT
TTAATGCATATGTCAGTTGCAAGCCATGATGACTTCATTTTTATACCTTCCATGACTTCAATTAAAGGCAGATTAAATAGGGCACAAATCCAATCAATCG
AGCATTCATTAGACATTAACTAAGTGCAAGGCCCTGGGTCAAGTGTACTTAACTGGAGACTGGTGTGGAATTGATGGGGTTAAGGCCTCCTCCTATGTCT
TTGGCCACATGGAGCTCCCTTTAGCATGTCCCTGGGTAAGATCGCAGGCCTGAAATCTGCCTCTGATTTCTGATGGGGATATCCTYAAGTTTGCCTAGAT
CAGGAAGTTTAATATGTGTCACATTTCACATCAGTTTCCATAGACTGTGAGTGGCTGCCTAGACCACTGTTGGATAACACTAATTCTGTAGCATGTCAAT
GGGAGACAGAGTCATGCTGTTCCTGCTGTCTTCCAGAGACAGGGGGGCTGCATGGGCCAAGAATGTTCTTTTCTGAAGCTGAACCTTGAAGCTTGCCCTG
AGACCATCTCACAGGGCAAAGAAGCTAGGTGGATAGGAAGTGCACCTTGAAGCATGTGGCCGGATGGCACCATTGGTGAAAATAGCTGAGACTGCCTAAC
AAATCAATCCAACCTYGAGGGTGGCCAGATCTTCGTTGTTTATCTGATCAATCAGGCCTAATGACTGATACTCTGATTCCAGTGGTGGGGGAAAAAAAAC
TGGCTTTGATGATTAGAGAAGCATTGCTATGGAAGGAAAAGGAATTCTGGGTGGTGGTAAAACCAGATGAATTCTATCTTTCCTTTAGGCTTCAGTGTTT
TCTTTGTATGACTATTCCTGCTGCTTTGTTGAATAGACATCTGCGGCTTTGATCTCTTCYGGTTAGGTCACACTTTGTGAGTCCAGACAGATTCAAAATC
AGAAGATGGGCCTTATATTTGTAGAAGACTATATTGGGATAAAAAGTTATGGTTAGGCAGGATGCCCTAATCCAAATGTGRTAGCAATACAATTGCTATT
GTCARTCATCAAAACCAGCAGGCATGTTTTTGTTGGTGCTTATAATTATGCTCTTTGTAAATTAAATTTTAATTGCCAAAGCAATACATTCACCTTGTAA
AAATAAACAAAATGTTATAGATGAGGCCAACATCTTTCCCGATGACCATGCCAAATCCCAATCCCCTCTCTTCTTCTCCAGATTTAACCACCATTACCAG
GGAGAAGTTCTCCTTATAGASTTGTTCTATGCACTTATAAACTGTACCTGTAAAACATGTGAATAAAGTATTGTGGCATGTTCTGTGTGTAAGCATGTTC
ACAAAAATGRTATCACTATCCCCCTGTGGGTAAGGAAAGTTAAAACGTGCCACATTTCACATCAGTTTCTGTATACTTCAAGTTGYTACCTAGACCACTG
TTTGAGAACGCTGATTCCATGACAAGGTCAATGGGAAACAGAACCATGTTGTTCCTGCTGCCATCCAAAGGCAAGGGGGCTGCATGGGCCAGGAATGTTC
TCTTCTGGTGCTGAACCCCAAACATTCCTCAACCTAACATTTTTACTAATTAATATATCTTGAAGAGTTTCCCACATTAGAACCCATTAGATCTACAGTC
TTTTTAAGCTGCTGCAAAATATCTCAGTGTGAGAATACTATCATTTTGGCAATTCCCCTGTTGATGAACAGCTAGGCTGTTTCCAAATTTTTCACCTTGA
CAGATAATTCAGCTAGAAATTTATTTGCACAGATCCCTTGCGGACACGTGCAGTTGTTTCTGAAAGTAGATGCCAAGGAGGCGAAGGCATTGTTTTTACT
CTTTGCTGCCCARTGGTCCTTGACAATGGAYATACCAGTTTCCCTTTATATCAGCTGCATGGGAGGGAGACCCATTWTCTGACACCCTTATCAATCATTG
ACATAATCCAACACTCCACATGCTTGTTATAGAATCAGGTCCTATTTGTATGACTCTTGCTTGTTTGTGAGTGAACCCAACCATGTTACCCTCATTTTAT
ATTGGAAGTCCCTAAAATAACACGGCTGCTACATAGTAGGTACACATTAGTGTTTGCTCTCATTCCCTTTAACTGGAATGCCTTTTTGCTCTGAGGTCCC
TTTGACTTGTTCCTGCCTACTCTCTTCTTACGGGTCCTCATCAGACACCTTTGTGCAAACCCCAGACTAGATAAGGTTGTTCATCTCTRTATTCATAATG
CCCTCTCTCAGTGTGCCTGATAAGTCTTATTGTTTGTTATATATTTATCTCTTCTACTGATTTCTGAGCTCCTGCACACCCAGGAGCATGCCTCTTTGTA
CTCCTGTTTCCCCAACACGCAGCCCAGGCACATGGAGTTGGCATTGAATCAGAGCTTTAAAAATGAAGGCCATGGCTAGATGGAATCTTGTAATCCCAGC
ACCCTTGGAGGCCGAGGCAGGTGGATCAGCTGAGGTCAGGAGTTCAAGACAAGCCTGGCTAAAATGGTTAAACCCCATTTATACCAAAAATACAAATATT
AACTGGGCGTGATGACACACAACTGTAATCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTAAGCCAAGA
TCACGCCGCTGCACTCCGGCTTGGGTGACAGAGCGAGACTCTGTCTAAAAAAATGAATGTCCCTGTCACAAAGCCACATCCACAGTGGAATGAAAGCCCC
TGAAAATAAACAGTGTATCACCAGAGGGAAAAATTAAGCAGTCACTCTGCTGAACAGCAAAGATGTTTTCTTCTTTATTTCAGGTCTTTTCATGGAATGA
AACAGAGAGGGAAAGGAGGAAGAAAAGCTGAAACATAGCAAAGCTTGGGAAATACTTTTCTTTTTTAATTTGGAAAGTGATGGGCACACTGCTGCACTGC
TATTGCCCAGGTGGGGAAGGGGCTCTGGCCGTTGTTGACCCATTGATAACCATTCCGTGCCTTTCTGTCTTGCCCCGRTAGGCACCACAGTGATGCGGAT
GACAGCCTTTGATGCAGATGACCCAGCCACCGATAATGCCCTCCTGCGGTATAATATCCGTCARCAGACGCCTGACAAGCCATCTCCCAACATGTTCTAC
ATCGATCCTGAGAAAGGAGACATTGTCACTGTTGTGTCACCTGCGCTGCTGGACCGAGAGGTGAGCTGAAAAGAATACACTTTCTTTTTCACGAGAAYAG
AATGTGGCTTTCATGCAAGGGATGATGTGGGGCTCCAGTCARTGGTTTWTTTTAATACTGTAAAGGCAGAAATGAGGTGTTTACCATGTTTTGGTGGGGA
AAATCTATAAAGGGAAATGGGATATTATGTGACCCAAGAAAASACGTGCTCTAAAAGGCTAAAGCGCCTGGAACTGTTTGTATTCACTCAACCTGATGCC
TATTTCCTCAACAGCCACTTATTCTCTAGGCCCTGGTGATTCTAGACTCTGCCTCTGGCCCCTGCTTTAATGCTAGAAGGGAGAGGGAAGGACAAGGGAA
GGAGGGGAAGGGAGGAGAGGTGGCTTCATCCAAGATCACACAGGCTGTCCTTGTTGCAGAGTCAAATGCCCATGACTCCTTTCTCCAACCCTTTGCTGCA
GGCATCCTGCATTCCCCCTTGAACCCCTCTCTTCCTCCATCTCTGTTCTCATCCCTTTAGGCTTTCTCCGTGAAATCTCCCCCGTCTCCTGGGTCACATG
TCACAAACAGGTGACCCCTGGCCCAGTCAGTCCACATGCCTGCTCTTTCGTTTTGCCTGCAGTGTTTTACAGCTTTTAGAATTAGTTGTCATATCAAAAT
ATTTAGATTTCACGTTTCTGTTTTAAAAATGCCAATTTCCAGTTTTTCTGGACATCAGAAATCCTGGAGACATCAGGTCCACTTTCCACATGTGCACTAT
CGGTGGTGTGAGGYGTGATGCTCCAGTGGATCCAGGGTCKGCTGTCCCCTTTAGATGGGACATGTGCTCCCACCTCGATTACGTTTCCACGTGCATGGGC
CCCTCTGGTCCTGCCCTTTCCTGAGTTTGAGGTCCACCSTGTAGCTTACCATAAGCTACTTTAAGTAGAAGACCCTCGCGGACCTCCAAACACAGCATCC
TTAAACCAACTCGTGGATTCCTACCCATCCTTCACTCTCCATCCACCCTAAACCTGCTACCATTCTGGAATTCCCTGCTCCTGACATCATCCCACAGGCG
TGGGGCCTTGGAGTTGTCCTTGACCTTCTGTAAGAACCATCAGCTCCACGTAACTGCTGGGCTTCCCTCRGGGGCTCTGTGCATTTCCCCCTCAGTGTTT
TTGATGAAATAAATCCATGGTTCGGAGTGTTGTTTCCTCTGCYTTCTCCTCTCTTATGTGCTATAGTTTCTCAAGAGATTCTGGATTACATCAACCCCTT
CTAAGAAGCTGTCCTCATCCACCTGATTCTTCCACAGTCTTGTTCTTCCTCCCATCTCTGACTACTCTTGCCTGTAGCCATCATATAGCAGTTGGCATGT
GCTAATTAGGTTGTCATTTGTCTCTGAAGAAGATTCTCTTTCTCTTGGTCTAGACCTGAATTGTCCAGTAGAGTAACCACTAGTCACATGGGGTTATTGC
AATTTTAAAGTATATTAATTGAAATCAAGATGTAAAAATCAGCTTCACAGTCACAGACACATCTCAAGTGCTCAGCAGTCATATGTGGTTGGTGGCTATT
GTACCGGACAGTGCAGACCTAGAACACTTCCATCACCCCAGAAGGTTCTACTGGGCAACAATGGCCTAGACTGTATGTTTCCTGACAACAGAGACTGTGG
TCATATGCATGTTTATATTTCTACTGCCTAGCATGGTTGAAGTACTTCTAAAAATCCTAATTATRTGTTTGTTGGCATAGAGGGAAAAAAAGGAAAAAGA
GTTGGAAATAAAACTAAGATCTTACATAAGCTGTGAGAAACAGAAGCTAGAAATAGGTAATTATTGAAAGGGAGAGACAGAGAAATTTGCATTGAAACTC
TGATTGTCCTTTGGAAAATGTAATCGTTTCTAGTTAAAGAATAGGGAAGTAGAAAAAGTAATGAGTCCATTATATTCATTTCATCTCCCATTCTCTTTCC
AACCCTCCCTATTTTTTTATTTTTTTATTTTTTTTATTTTATTTTATGAGACAGAGTCTTGCTCTGTCRCCCAGGTTGGAGTGCAGTGGCACGATCTCAG
CTCACTGCAACCTCCACTTCCCAGGTTGAAGCAATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGAATACAGGCGCCTGCCACCACACCTGGCTAATTTT
TATATTTTTAGTAGAGATGGGGTTTCACTATATTGGTCAGGCTTGTCCCAAACTCCTGACCTTAGGTGATCTGCCCACCTCGGCCTCCCAGTGTGCTGGG
ATTACAGGGATGAGCCACTGCGCCCGGCCAATGCTCCCTATTTTTATGACTGACATATTTTCTTCTTTTGGAGGCCAGTGATGACTTCCCAAGGCTCTCT
ATTCCCCACTTGACACGTGTGTGCAGGTGCACACACACATGCCAGCTTTTCTATAGTCCTTAATGCTCCCAAAGCTTCTCACAAGATCCTTTCACAAGAA
AAAGATGAAGCATGGTGATTTCTCCGTTTCAGCTTCTCTTTGTTCTGAGAGAAAATATTTTATAAGTCTCTATTTATAAATCAAAGTGATAATGTAGTAA
ATTATCCCATTTTTAAAGTTTATTTTAGGGGACAAATGTGTTTCCAGCTCATGATCTTTTCATTTGGGCTTTCATTAAGTTGTAATAAGTATGTAATTAT
GGAAGTTGAATTAAGCATTTCTAGTCACAAAACATCAACAGCCCCCCAAAAAAGATCAACTCAATTTAACCGAAATTGGAAAATCAATGAAAATGAATAA
AGAGTGTCACTCTTCTGTGAGGGTTTCCAGAGTTCATTGCTGATCCAGGCAACATCAGTGCAATCCAAAGGAAAGAAATGTCCCTAAATTTAGGCAAGCT
TTGGCTAGTTCCTTGTGCTGTGATAAGCTTCACTTCAGCATGTTTGCTGAGGAGGTGGAACGTGATTCCAAGTTCTTGTCTTTGAGGGTAAAAAACTTGC
ACATCAGATGTCCAGTGGAGTTCCCCAGAGTTTGCAATGTTTTCCTCCCATTGAGACTTGGCACTTTTTGTAGGATTCACATGGATGCGATACTTTCTTC
AGCAGGTTTGTGAGATTTTATTATTAATATTATTTCTGAAGACCTTCTGAGAAGGCCTGTCTTAGGTGTGGTTTTAAAGTCTACTTCTCAGCCAGATGGG
CAGAAAAAACATTTAATACAGACTTTTGCAGCATTCATTTAAGAAAGTATCCCATTTGGGACCCTGTGGACTTTGAGATGATTCAAGTTGATTTTAAGGT
TTGTTACCTTGTCTCCTGTCTTCATTCGCAGTATCTCAAATTGCKTGTTGGAACAATGAATATAGTGATTCCAGTTCTGTCACAAACTCCTTCAAGAGCA
GGAGCTGCAGAAACCACACACACACACACACACACACACACACACACASACACACARCTCACCAGCACCTCTGGCTCTCACCTGAATGAGGGACAAAGCA
AACGTGTGTTTCCTGGCTTGTTGGGAGTGGATACTCTGGAATCCCATTGGGTGACACGAGCTAAGTTGACACAATAACAATTTTTCATCTTTATTTTCCA
TTTAGTCAATTTCCTTTCTTAAGTGCATCTACCAAGGAGGACCCCAGCAGGAAGTGTTTAACCAAGGGAGAGGCAGATGATGCAAGATGAGTGGGGAGGT
GGCAGGCACTGGGAATTTTCTGTGAATCTGCCTACCTAATCATCTTCCCTGCCTTTTATAGATTCACTTTGTAACAAGGCTTGTAACTGAGGATAGTCAC
ACAGGGCAGTGTAGAAATGATCCTTACTATGTTGTCACTTTGGTTGTTATCCTTTCTTCTTCSCACCCTCCTCCCTTCCCAGGATGTCTCACATGGAGCC
ATCTGAGGCAGGTGCACTCATCTAATCTGCTCCTCTCCTGCTCCAAGGATTGGCAGCCACTATTCTTGAAAGAGTCTATGGCCTATCTGCYTGCACTCAC
CATAGTCAATGCTCAAACATGCAATTTGTGGGATGATGTTTGGCTTGCCCATGACCTATTGCCAGTACCTAGCACATGAGAGATGCTCAAAGAAATATCT
GTTGAGAGTTGAAAGGCGGGAAGGAAGTGAGGAAGACAGCGTGATTCACACTGGCTTGAAAGCAGGTGAACTGGCCATTTCTTCCCCTTCCATATCTTAA
GCTCCGCATTAATAGATATCAAGTTTCCCCAAGACATGTGCGTTTTCCATTACACGCTCATCCATTTACTTGTTCKGAAAACCCTACCAGAACATACGCT
TCTGGAAGAAAGGGACCTTGGATTTCTGTTCTCTCTCTCTATTCCCATTGCCAAATATAGCACCAGATAAATAATAGGCACTGGATAAAGATCTGTTAGG
TTATCAGGGTGGATGAGTGGATGACCTGTGTTCCTTAAGTTTGTATTATCTCAGAACATTCTGCAGGATCCACATTCTGGCATGGATATATAAACAGAGG
AAGTTACTTTATTATAGGTGAAAGCTTAGTCTTACCCTTGTGCAATCATCTGGTAATCTAATTTATTCACTTTATGTTTACCTTCTGCAGGAACTGCTTT
AAGAAATAGTGTCTTGGTCCACTGGGTGAATAGGATGGACAGGAGTATCTGTGCCTCTTGCTTAAGTGTTTGGGGAGATGTTTGCGGAAAATAAGAGCCA
TATATTCCAGTAAATGAAATTAGGTTCATTTGGGGCACTTTTTTATTATTTTCTATAGCCATACTTAGCCCCCCATTTCTGGCATCTCTGTCTATGTTTT
TAAACTATGTCTGGCTGCACTACAAAATAAAATCAGATAAAGGTCTCTAACGTTTGATAAATGTTTTATTTAGTTGATCATCTTGGCTGCTAGACTGAAA
TTCATCTGCTGGAATCTGCCAGCTTTCTGAACACAGCCACAATTTGCAACTACTCAGAGTAACTAATGGTCAGGGTTTTTTTTTTTTTTCTTTTTTAATG
GAAATAGTTTCCAAAATAGACTCATAAAAAAGCAATCTTAACATTTGCATTGAGAAAGTATCATTAGTCTTTTTAAGGGGTTTGAGCTGAGCACTTTTCT
GTCTTTGTTTGAATTTGCCTTTACCTTATTATCTATTATCTTCCAGATAATCTAGGGAAAGTGATAGCCTGCCCGTGAAAATGTACATAYAATACAAGAT
ATTAGGGCTGTGAATGTAATTTGTTTTGTATTTTCAGCTGGTAACGCACTTTCTGAAACTTTATAATGCCCAAATTTTTAGGCCAGATGTAAAAATGGAG
AKAATTTCTTTCTTTCTTTCCATGGTAAGTGTTACATAAGGACTTAGTCTTAGATTTATGTGCATTTACTTGCTATGAGATATTCAAGAGTCCTTGAATA
TGTCAGAGAAGAAAACTGAAGAATGTTAGGGAGAACATCCTATGCCATCTAGCCAACGAATTTGGATGTGTAGCTGCAAGCCCAAAGAGAACTATGTATT
TGGTCAAAATGACCCATGTTAAAATATTGTCACGTAGCATGCATCTCCAGAAACATACTAAAGACATCTGTGAAAATGATGATATCAAATCAAGCTGCCA
GAAAAGAACAATGGTAAAAAAAGGATAGCATTTCCTCCAGTGCCTTCAATGAAAGATAGAGGTAGTAGTCATACTCTTAGGAAAATAAATGTTTTTAGGC
CTTTCTGATTTAATGCTAATACTTTTCTCATTATCATCATGTTTAAAACATTGGCAGTAATTACACACAATTCAATCATGCTGTCAGGAATATTATCTTG
CTTTGTTTTGGTGGGTGGGACCAGAATGATTCAGATAGTAGCATCCTCACAATTTCTTSGAGCTATTTACTCATAAATATTTCTGTTGGGGTAATTTTCC
CCATTTTTTTTATCACTTGCTGCTGTGAAAATTGAGATGGAAAAAGTAGATGTAAATAAATTGCCTTATTATTTTTAAAATAATGCATTATCCTTTCAAA
TGAAACACAGCTAACCACCCTATGCTAATTGCACTTGCTCCGTTGTTTCAGCAAATAAAGTAGAATAGGACATTCAAAAGGCAGAATGCTAAGTCCTGGG
GTCTGAAATTTAGTTCCATGAGTGCAGGCCTCCTGCTGATGGCAATGGGGATTGGTGGGAGGGTTAGAGATGGGGAAGGCCAGGGTCTTTATCTTGTGGC
CTYATTTGCTCCTCCACTCTGGATAAATTCTAGAAGAAGACCTTGATGAGTCTCAGGACTCCACTGGTAACCGTAACCACTTCCCCCATCCCTCTAAGTG
TGACCTATCAATCCATTAAAGCTAAGACCGTGGCTAGTCTCTTAGTATGACCGCAATTTAGTTGAAACCTGGCTTCAGAGAAATGGGCCAAGGGCATAGM
CTACCTGTGTTTTTTGTTGTTGTTGTTGTTGTTTTTGGTTTTTTGTTTGTTTGTCAGTTGTGAGACCTCTCTAAACCTCGATTTCTTCATCYGCCACAGT
GAGAATAATCACAATCCCAATCTCATTGGCTTATTGAAAAAATTCAAATAAGATGTGCCAAGTACTAGCGTGATACTTATCTATAAGCACTCTGTAAATA
TTAGTTGGTATTAGATGTTTCCATGATTGACAATGAGACTGAAGAAGCAGAAAGAAGTTGGAGTTTCTCCTACAGGACGTACATTTACACTTTGCCCACA
CGGCAGAGACTATGGCAAGTTTCTTTAAATTGAATGAAAGACAGAGCTAATCCAGCCTACAAAATTCAGCAATAAAAGCTAGTAAATAAGTATTGAGCAC
CACAAATGTCTGCTGAACTCATGGTGCTGGATATCAGGACGCAAAGATTGAGCTGCCTGCATTGGAGGTAAAGCAGATATGTCGACAGCACACGCATGCA
AAGATGTGCTGTTCAAACCGAACCTTGATRGCTGTGTGGAAACCTGGAGTGCGGAAGCAGAAGGAAGGGCATCGTGGGGAAAGGAGTGGCATGGACAAAG
GCATGGCATATTCACATGCTACTTAAAGACTCCAGAGATGAGGCTGTGGTATAGAGAGATACCAGAAAAGGGCAGGGAGTTTGAACAAGATTGCAAAAGG
CTTCTAATGTCATTCAAACGATTATAGCTATATCCTACTGTAAATGGGAAACCACCATTATTTAAACATTAAACACAGCTCTGTTCAACACAGCATTCAC
AGAGCTGTGACTTGGACAGAAAATGAGTTAAGCTAAAGGAGAGATCGTCAGTGGCAAAGTTCAGGCGTTTTGGAGACAGGTTGAGACTGACAAGTTGRTT
CTCGACATTTCTAGCCTGATGGAGAGAAGAGCTGAGGAGCTACCACTTGAATCTAAATTCTGAGCTTGTTAAATAGATTAATAAACCTCAGTCCRTAGGT
ATTTTCTTTCTTCTGTTCTTGGGCTTCTTAAAGTATCAGACAATCAGTAGTTACTGGGCACATGTTGAATCAAGAGACACTTAACTTTATCATGAAGAAA
GATTCATCTTTTTAGATTTAACAAATGTTTAATTCTCTAAGATATTTCTTTTCTTTTTGGTATTTTATATGGTAAAGATAATTTGCAGAGTGATGATGAA
TTTAGAGTACTTCTCTTTTTTGTCATTTTAAATTTCTTCATTTTATTTTATATGAAGTACCCTAAAAAGCTAAAGAATGTTTTCATTTTTGGAAAAAGTT
CTTTTCGAGAGCTGTTTATTTTTCTTTATCAGCCAAAAAGTATGATTACTATGTTAATGCAGGTTTTGCTTCATCAAGAGATTTTCCAGTTATTGAACTT
AAATAACATTGTTCTAAACCCCAARTCCTCTAAATTCCTGTTGTCAGTGAAAGAGGTACCTTCTAATTTGGAAAGAATATCTAGTTCAGTTCTGATTTCA
AACCAGCAGAGAAAAATAAGAAAAATGTTGCTCCTGCCATATGGAGAATGACCATCATTTAAGGAAAGAAAAGTTGGTTGAGAGTTTTTGGGAAGTAACT
GTTTTGTACTTCCTTTAATGTACTCAGTGTCCAGAGCAGGAACTGGGTGGTTAGAACAGCTGCAATATGATTCCACTGGAAAGCAGTTTGCAGAGAGGCA
ATCAAAAGCTGCAACACTTAGATTAAGGCAAACTAATGATAGACCATTTCAAGACATGATGACATCTCAAAATGCCTGGGATCCASATTTCTTTCACTTT
TGTTTTAAGAGGTATCTCATTTGCTGTGCCTTTTCATAGGATAAAAGCTTGTTGATCGTATTATTTAGTTGAACACTTTGGGGTTCTAAAAGCCGTGATC
AACCTTATTGGACATATGGCACTATGATGTCACATTCAACAATGAAAGGCACTTCAAGTTATAGGATCAKCTATTGCATTGGAGGTCAGGAAACTTTTTT
TTTAAAGGGCCAAATAGTAAATCGTATAGACTTTCTTGGCCAACAGGCAAACTTGAAGATATTATTATCAACAGAAAGAGTCAAACTCTATAAAATTTGA
AGAGATTTATTACTTCATTCTGAACCAAATATGAGTGACCATGGCCACTGACTCAGCCCTCAGGAGACCCTGAGAACATATGCCCAAGGTGGTCGGGCCA
CAAATAAGTTTTATACATTTTAGGGGGACATAAGCCATTAATCAATACTTGTAARATGTACAATGGTTCGGTCTGGAAAGGCAGGACAACTGGAGGAGGG
TGTGTTTCCAGGTTATAGGTGGATTCAAATATTTTGTTTGGCAATTGGTTGAAAGAGTTTAAAGACCTGGAATCAATAGAAAGGAAATGTCTAGCTTAAG
ATAAGGGGWTGTGGAGACTGAGGTTCTTACTATGTAGACGAAGCCTCCAGGTAGCAGGCTTCAGAGAGACTAGATGGTAAATGTTTCTTSTCAGACTTTA
AAAGGTATCAGACTCTTAGTTAATTCTCTCTTGGATCAAGAAAAAGGCATGAGAAGGGGAAAAGGGATTTTCTACAAAATATAGTTTTTTTCCCCCATAA
GAGACAGCTTTGCAGGACTATTTCAAGATAGGGCAAAGAAACATATTTGGGGTTAAAATATTTTTATTTCCTTCCTTATCTGTCATGTGATGTTATTGCC
AGAGTCAGGCTGGAAAGTAAGCCACATTATGTAGGGTTAAATGAAAGCCCTCTTWTGAGACTTTTTGGCTTGTAGAGCATGATTCCCCAGATGTCTTAGA
TAGGAATTTGGGCAAGTGAAGAAAAAAGGTCAGAGTTTAGTCCTCATTATGCAGGTACTTATATAACCATTAACAGACAAACAGAGAGCSAAATCATGAG
TGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTGACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTG
CTCAAGGAAATAAAAGAGGATACAAACAAMTGGAAGAACATTCCATGCTCATGGGTAGGAAGAATCAATATCGTGAAAATGGCCATACTGCCCAAGGTAA
TTTACAGATTCAGTGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTAAGTATGGAACCAAAAAAGAGCCCG
CATCGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAACAGCATGG
TACTGGTACCAAAACAGAGATATAGATCAATGGAACAGAACAGAGCCCTCAGAAATAACGCCGCATATCTACAACTATCTGATCTTTGACAAACCTGAGA
AAAACAAGCAATGGGGAAAGGATTCCCTGTTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACC
TTATACAAAAATCAATTCAAGATGGATTAAAGACTTAAACGTTAGACCTAAAAACCATAAAAACCCTAGAAGAAAACCTAGGCTTTACCATTCAGGACAT
AGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGACAAAATTGACAAATGGGATCTAATTAAACGAAAGAGCTTCTGCACA
GCAAAAGAAACTACCATCAGAGTGAACAGGCGACCTACAAAATGGGGAAAATTTTCGCAACATACTCATCTGACAAAGGGCTAATATCCAGAATCTACAA
TGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCGAAGGACATGAACAGACACTTCTCAAAAGAAGACGTTTATGCAGCC
AAAAAACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCGATCA
TTCAAATGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACGCTTTTACACTGTTGGTGGGACTGTAAAGTAGTTCAACCATTGTGGAA
GTCAGTGTGGCRTTTCCTCAGGGATCTAGAACTGGAAGTACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGACTATAAATCATGCTGC
TATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGA
AAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATGTCGTTTGTAGGGACATGGATGAAATTGGAAGTCATCATTCT
CAGTAAACTATCACAAGAACAAAAAACCAAACACCGCATATTCTCGCTCATAGGTGGGAACTGAACAGTGAAATCACATGGACACAGGAAGGGGAATATC
ACACTCTGGGGACTGTTGTGGGGTGGGGGGAGGGGGAAGGGATAGCATTGGGAGAAATACATAATGCTAGATGACGAGTTGGTGGGTGCAGCGCACCAGC
ATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTAAAACTTTAATAAAAAAAAAAGTGACCATTAAAAATTATAAAAAGCAT
TTTAAAGCTCATGCGTCATCAAAACATAGACAGCAGGCTGGATTTGACCAACGGGCCATAGTTGGCCAGCACTGGTCTATTAGATCATTGGCCACAATGC
TCAGATAGGAGCAGTTTTATGTACTGACTGCAGCATGTTATCATATGTCTATATCTGAAGTCCACTCTCAAAATATTAACTCACACTTATTAATCATCAC
CTTGAAGTTTGATTATAGGGACAGAAACTAATCATGGGTGATGGGTCTGATTTCACATTTTGACAGCATAGTTCATTTCTCCCACCATTAAGAAACAGGC
AACCTCAGACAGACACTTGGTAATTAAATCTAGCTCAAAATTTGGTTACAGTAATTTTTAAAAAGCAGTCCAACAGAAAAAGAGTAAACGAAAAAGTGCC
ATCTAGACATTGACTAAATATTGGAGGGAACCATCTTGGAATGGCTACTTTCATTATGTTAGAGCCCTGATAGGTGAGAGGAGAGGGGGCAAGGGGAGAC
GGAGATGGGAACAGAAGATTTCCCAGATGAGGGGCRCTCCCTGGAGCTGAGTCTTGGAGCCAGATGGACTTGTTCACACCAGCATGGASTGAAATAAGGA
GAATCAGAGGACCTGGGCTCATACCCTGTCTCTAGAGGCTCCAAAGGAGTCCCTGAGGTAAAACTGAGATTATTCTAGAGCCACCTGGAAACAAAAAGAC
ACTCTGGACCAGGCTTGGGACATTTTCCTGAAGGTTTCTTCCACCTCTCATTGCCCTTTCTGTCATTCCTGAATTTGAGAATGGGGCTGTGATAACAAAG
AAACTGAAAGAACAGTGTCACCATGTGTCTTACATATCACCATGTGTCAGTCCCTAGAAAACGTACTTTATATGGCATTTGACTTTGATAGGAATCTAAT
GAGGTCAGTAAAGTGCCCTGGTTACAGAGATAGAGACCTCAATGTCACTAAGATTTAAACCCCTATCAGCCCATCTCCAAAGCCCATGCATTTTTTCTCC
CACTATACAAATCAATATTATTGATATTTATATGTGTGRTAAGCTTGCAGAATAAATAGATTTTGAACTTTCTTTTTAACACAGAAAAGCAAAATACAGT
GAAGTTTTGGTGGAACTTTCATTCTCATCAGGSCATAGGCTTCAGTGCCGCATTATCATATGGGCCAGGTGGGCTTTTTCCAGGTTACTGAGCCCAGTGG
CTTCTATAGCTCGGTTTTAGGAGGCTATGGAGAACAGACTCTCTCCTGCCCTTGGGGGGAAATGCAAATCAATACWGGTCATTTGTTGAGTATTTTGTCA
ATAAGAATCAAATGGCTTTTTAAAGTACCCCTAGTGTTTTTTGATGCAGAARTTTCTTGTGATCAAATACGTGTGCAAAGATCCAGCAACAAGGGTTTTT
GTYGGATCTTTGTTTAAAGCACCAAATGAAATGGCCAACCAGTGGGGGTTTGTTCAATAAATTATGGTATATTCCTACACTGGTATTCTATTAAATCATG
TAAAATGATGTGGCAAAATGTTTAATAATATAGAAAGATGTTCACCATGTATCAGCAGGTGGTTTGCAAAATACTCCTTAAGCTGTGATACTTCTTTGTT
TATACACGTAGAGCATCTTGGTCCAAGGTACAAAAGGATTTGTGTGATGTTTTAGGAGTGGTCCTGTTGGGACTATGGTTGATTTTAACTTTYCCACAGT
GCAGTGTCTGAGATGACCGTCTTCAGATCTGGGTTGCTTGAGTCTGAACTTTAACTTCACCTTTCACCAGCCTTGTGCTAGAGAAACATCATTAGCTTGA
ACAACCAGTAACCATAATTATGATTTGCATGTCATAAAACATTCTTCTCTCATATCATTGTTAATGCTCCCTGAGAATTCCCTTATCATAATATGGAGAA
CAAATCCCTTTTGGTTAAAACTATGCCTTGGTTTCTTCAACTGTAAATCACAGTAATGCCTCTCTCAAAGGGCTGTCATGAAGAGCAAATGAATTAATAC
AGCACATGCTTAGGAGGGTAATAGCTGAGCATGAGCTATTGCTGTTATCTGTATTTTCTAGTTTGGRTGCAGTGGCCACATGTTATTTTTGTAATTTAGA
AAACCAATTCTGTTAATCTTTTTTTTTTGAGACGAAGTCTCGCTATTATTGCTCAAGCTGTAGTGCAATGGCACGATCTCAGCTCACTGCAATCTCCACC
TCCCGGGTTCAAGCAATTCTTCTGCTTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCTGCCACCACGCGCAGCTAATTTTTGTATTTTTAGTAGAGAT
GGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCATGACTTCAGGCGATCCGCCCACCTCGGCCTCCCAAAGCCCTGGGATTACAGGTGTGAGCCAC
TGCACCCRGCCCAATTCTGTTAATCATTTTAAAAAGCAGTTGTATCAGTGGTCGTAAGGCAAGAGAAAGGTTAGGATATAACACCATGATGGGTCAAGCA
ACACTATCACATTTGACTTCAGACACTAGTTTNNNNNNNNNNNNNNNNNNNNCTCCTTTTCTTTCTCTCTCCTTCTTTCTTTTCCTTTCTTCCTTTCCTT
CTCTCTTCTTTCTCTTTCCTCTCCTCTTTCCTCCCCTCTCCCTCTCTTCCCTTCTTTTCTTCGTATTTTTATACTACAAAAAAACAACCAAATAATACTC
TCCACTTCCCTTCCTCCCTTCTATCCTCTTCTCCTCCCTCCGCTCTCATCTCCTTCTTCCCCCCCTACTTGTGCGTCTCTTTCTGCCTCTCTTCGCTTCT
TTGTTCTAGTTCTTGTGAGACACAAGGCCGGAGTGGGTTGCTCCCCCTCCTCCTTTTTCTTTGTCGTCCTTCGTTTGCTTCCTCTTTCTCTCTGTTTTTC
CCTTCTTTTCTTTGTCTTGTTCTCCTCCTCTCTTTCTCTTCTTTTTTGTCTCCTTCTCTGTCTCTTTTCTCTCCTCGCGCTGCTCTCCTTCCTTCTCCCT
CTTCGTTTCGTCTGATCTCTGCTTCGCGTTCTCCGTCTCCTTCTTGCTCCTTCTCTCTTCGCCTCTTCTCGTCCTTGTTCCTCTCTCCCGGCTGTCGTCT
TCTTGTCCTCTCTCTCACTCCTCGCTCTCCTTTCTCCGTCCTCTCTCTCCTCCTTCTCTTCTGCCTCTCCCCCCCGCTCCCTCGTCTCTGTCACTCCCCC
CCCCCCTCCCCCGCTCCTCCGGCTGCTCTCTCTCTCGCTCCCGCCGCTGGCCCTGCTCGCTCTCTCGCCTCTCTCTCTCCCTCCCTCTCCCTCTCCCCCT
TCCCTTCCTCTCTCCTCCCTCTTCCTCTCTCCTCTGCTCCCCTTCTCTCCTCGCGCTCCCTCCTCATTTGTTGTGTTTGTTCTTTTGTCGTTGTAGTCAA
GTTAGCTATGAGTCTGTCTCTTCATTCTGTCTTGTCTGTCGTCTCTCTTCCTTCTCTTCGTTTTTTCTCTTGCTTCTTTGCTTGGTTTGTTGTGTTTTCT
TCTTTCCTCGTGTCTCCGTCCCCCGTCCTCTGTCTCGGTGGGGGGGCGGCGGCGGCATGCGGTGGTAGGCGGAAGGCCGCAGTCGTAGGGCGCGGGCGGT
GTCGCGGTCGGGGCGTCGTCGGTGCCCCGTCCCCGGTCGTGCGTGCCGTGCGTCGTCCCCAGTCGTGCCTGCGTGTCCGGTCGTCCTGCGTGTCCCTCCT
CCTCCCTCCTCCTCTTTTTTTTTTTGAGATGGCGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCACGATCTTGGCTTACCACAACCTCAGACTCCT
GGATTCAAGCAATTGTCGCACCTCAGCCTCCTGAGTAGCTGGGATTACAGGAAAGGCACCCACCATCTTGCCCGGCTAATTTTTGTTTTATTTTTGTAGA
GACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGCGATCCACCCGCCTCGGCCTCCCAAAGTATTGGGATTGCAGGCATAAGC
CACCACAACCGGCCTAGAGACTGGTTTCTATATGAGCCAGTTTATTTGTTGACCAAACAGAGGGAGTTGTGCCAGGAATCATGGCCTCCGTTAATATTTT
TAAGATTGCAGGGGAAGCATTCCAAATGTTTTCAAAGGTGTGTTAAGGTAAGTCTTGTCAAAACATTCCCACTTGAAATAATAAGCATTCTTATTTCTTT
AAGTGACAGAGACATAGCAATGGCTTTCCTGGCTAAACGTGATCATCACAGACACACTGACCAGCTGTTTAWCTTTGCTTCCACAAATTCCAACAGGCAA
CTTAATAGACATTTTGTGGTTATATGTTTCTAAGACAGCCATGGGAAATGAATTTATTTCTACCTTTGTGAAGAACAGCTATAGAAATGACCATTGAAAT
TCAGTGAATGGCATTTCTGCTTATGGGCCTTAAAACTGGGAACCAAAATTAAATTCTTTTAGGTATTTTCTCTCCCGTGTCTTCTAAATTGTTGTGTGGG
CTGATTTTTCTCCATGAAAGACTCTCAGAGTCCTAAATTCAGGTTTTCTGTCTCCTTGGGCTCTAGCATTCTGGAATAAGCAAGAGTCAAGAGACTTCTC
CATTCTTATTTCCTCTGCATGTTAGAATATCTAATAGGTGTGAGACAGTTTATGTTGTGCTCAGCATTGGACAGCCACCATGTAAACAATTACGGCGTTT
TTTCATCCAGGCATTACATTAGGTCCATAACACTCACAGGAGCTCTGTAAGGCTGAAATTGCCACATCCATTCTACTAGGASGGTTATGGAGTTCCCAAG
GGCTGACCTGCCTTTCCTGAGTCACCCACTGGAGAGCCAGGGCATTGGATTTGACCTCATAGCCGCTGCTCTATCCACTCCCTTGGGCTATTAAAGAAAA
GCACGGGACATATTGATGGAAAAAATCTGACAGATGTCTCAAGGACAACTTTATCTTTTATCAGACTCATTTCAGGGATTTCTGTATTCATTGCTCCTGG
ACTTTTCACATATTTGGGGAGCTTGATTGAGTTYCCCTCAGCTCTTCCATTAGAAAGCCCATGTGGTACAGTGRCTCAGAGCTTGGGCTTAGGAATTCAC
AAATGTGAATCTGTGAATCTGAGCTCTGCATCTTATTACTTGTGTGGCCTTGGGCAAGTCACCTCACCTACCTGAGCCTAGGTTTCTTTGGCTGTAAAAT
GGAACTCATAGCACGGCCTGTGTGGAAGACAGAATAATGGCTCCTCCCCTTCAAAGAAGTCCTCATCCTAATTCCCAGAACTTGTAAATATGTTACCTTA
CAGGGCAAATGGGACTTTGTAGAAGTGATTAAGTCAAATATATTGAGATTGGAAGATTATTCTGAATTATCCAGATGGGCCTGATAYAATCACAGGGTCT
TAATAAGGGGGAGGTGGGAATGGCTGGGTTGGAGATTTAAAGATGCTCTAGTGCTGGCTTTGAAGATGGAGCAAGGGCCCACCATGCAAGGGCTGTGGAC
AGAGCTTCTGGCATCTAAAACAAAAAAGGAAAAAAAAAGGCAAGGAGAGAAATTCAGAAGGATTGCAGCTCTGCCCACACCTTGATTTTAGCCCACTGAG
ACCCACTTTGGACTCCTGTCCTGAAGTGTAAGAGAATAAAGTCACATGGTTAAGTCACTAAGGACATGGCAGTTTGTTACAGCAGCAATAGGAAATGGAT
GTAACCTTTTTTRTATGGTTTGTGGGCTTGAAAGAGATGACGTGTTAAATACAGTAGCTTTTGACCTTGAAAGAGACGATGTGTGAAATACATTAGTTTT
GGGGGCTTGAAAGAGATGACAGGTGAAGTACATTAACTCTTGGGCATGAAATACATTAGCTTCATGGCCGTTAGCATTGGCCATGAAGAGCTCTTGACCA
ATAGTAGCTGGTGTTACCAATAATAAAATAATGGTGAGACTTGAGATGACACAGGAGTGTTCTAACAGAGGCACAGTCCACTTGACCAGATCTTTCTCAG
GCATCTCCATCGACAGTGGGRTCTCCCTAGAAGGCTGGGTGGCTGCCATCCCACCCAACCAGCCTGCCTGAGTTGGTAAAAGTGCATGAAAGTGTTCCTC
TCAGGGGGTGGCCTTCCATTGGCCCTCACAAGGGCACAGCGGAGCTCGTTGGTTATGCTTCAGTTACATAAATCCAGCCTTACAAAGGCTACACAGRGAG
AGGGGCTCCTTGCCTCSTAGATSTGTACCTTGTAGGTGCTCAATACACATTGGTAAGAATGTTCACATCATCAGGTAAGCAAGGGGTATAAAGTGAGGCC
TTGAATCGCTCACGTAGATTCAAGTAGTGTTGAGAAACTAAGAAGTGGTGAATTGTACCCTTTTTTCCCCTCCCAAATTAGAACTCCTAAGAAATACAGG
ACAACTGGAGACCAAACCGTAGGTTTCATTACCTATGAAGCTGATTAGGAAAGCCTTGAGTTTGTACCCAAATAAATTTGCTAATACTTTTACCTAAATT
AGAGAGATTCGGATGGGGTGGGATAACAACASGCCACATCTACCTGGGTGGAGCCCATCTCAGGATGCCTCTGCCCAGGAGGAGGGGCAGTGAGAAGGAG
GCCGGAAGGGGAAGAGAAACAGGAGAGGGAAAGGAGGAAAGGAGACATAGCTAGGGAGATGCCACTCAGCAATCAGAAACCTCCATTCCTTTTCCTGGGG
TGGAGTGGAGGAAAAGGGAAGGGGCAGGGAGGCTCCTAGCCCACAAGCCACTTTTGTGCAATAGGAAAAGATGCTTGACCAGTGACGATGAGCTTTTTTC
CAAATGTTTTTTGGCCACAGAAGTGTCTTGAGAAGTGTCTGTTCATATCCTTCRCCTGCTTTTTAATGGGGTTGTTTGTTTTTTTTCTTGTAAATTTGTT
TAAGTTCCTTGTAAATTCTAGATATAAGACCTTTGCCAGATGGGTAGATTGCAAAAATTTTCTCCCATTCTATAGGTTGCCTGTTCATTCTGATGATAGT
TTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCCATAGTCAATTTTGGCTTTTGTTGCAATTGCTTTTGGTGTTTTAGTTGGGGGGTGGGGG
GCAAGGGAAGGGACAGCATTAGGACARATGCCSAATGCATGTGGGGCTTAAAACCTAAAATATGGGTTGATGGGTGCAGCAAACCACCATGGCACATGTA
TACCTATGTAACAAACCTGCACAGTCTGCATATGTATCCCAGAAGTTAAGGTAAAATTTAAAAAAAGGAAATAAAAGATGCCCGTTCCTCTGAATGGACA
TAGCCCATGCCAAGGGTAAGGCTTGGTGAGTGGAACAGGCTGGATTTTAATCCTCAGGTTGCTGCACCCTTGGTGAAGCACAGGGCACTAGAGAAGAGTG
TTCACAACCTCCAGCCCCTCCACAAAGAAGCCTGATTCTGGAAAGACAGAGGTTCCAACCTCACCCTTACTTCTCTTCYGAAGATCTGCTGTGCATGAAG
CATTTTGGAGGTATTTCTTSAGCTCAGAACACAGCAACTTTCCTATGAAAGAGAGCACAAAGGGTTAATGCCACCAGAAGACACTCAGCCTGTCCAGTGT
CGCTACCACTGGGACGGGCAATGGGAGGCATCTGAGGCTTTGCTGACAACTTCTTCTGCTGTGAGGGTGGAAAGCAGGCCAGATCTTTATGACCTGGACT
YCACGTTTTGGGATTCTAGCAAGATGGGACCCACTCCGGGTGCTGTGCCCATTCTCAGTGCCAGTGGGGCTGATATGGGGTCATGGCAGGTAGCGGGAGA
TAACAGCCTCATCCTCAACACTAGACATCCAGACAGAGTGGCTCAGGCCCTGTAAGCAACTGGTGTTAGGGCAGATAATGAGATTTTCTGGTGTCTGCTT
GGTGACAAGAGTAGTGGCTTCAAGGAATKTTTTTAAAAAATAACATTTGTTTATAGTTGTGTTTTTTAAAGTAGAAAATATATTCATACGAGCAAGTAAT
TAGTGTCCTGCCAGGTAAGTCTCATGGTGACATGTCAACGTAATTATTTTTTAAAGTCTGCCTCAAATAAAGCATCAAAATTTCCTGCTTTAAATCTCCT
TTCTCTGTAAAAATGGTTAAGAGGAGTGAAAAGAGAGGATGGGAGGGGTCTGAGAGCATTGATGCCTCATCATAGTCAGCCAGCTGTGGCACCACCTCTG
TCTTTGCCTGTCACTCTCATACAAAGGATGTGCATAGGAAATGTGATCCTACCCATCCTCAAATTCTAGATTTGGACTTGAATTTGGTGCTCTTATTTCC
ACATTAAGTTAAAATCTAGCCTCCAGATCCCCAGGCTTCCCCTCCCATTGTACCCAGAAGAAACAAGAATTGTTTCTCAGTTCTAACTGTCATAATGCCT
AGCGGGCGTTAGCCTACAACGAAGGATAATTCAATSTATCCTCACCTTAGTGTACGCTGGACAACACTAGGACTCAGAAGTGCTTTGCTCTTGATCTTGA
AAGGCCAGTGGAAATCCATGCAGATTCCTCCCCCAGGACCCTCCCAGCCAGCCTGATAATGAATTCATGGGAAACAGCCTACATGTGAGCACCAAAGGGA
ACACATTTAGTAAACTCTGCCAAAGGAGCACAGTTCTTGTAAAGCTGATGAGGTTTGTGATTAATCCTTTTTTTTGKTTTTTTTTTTTTTTTTTGAGAAG
GAGTTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGGAATCTCGGCTCGCCACAATCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCT
CCGGAGTAGCTGGGATTACAGGCATGCGCCTCCACGCCCGGCTAATTTTTTATTTTTAGTAGAGACGGTGTTTCTCCATGTTGGTTAGGCTGGTCTTGAA
CTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAATGCCTAACCCAGTTTAAAGAGATCCAGGAAGCAGATTGTGAGCTGCAGATATGATGTGA
TTATTAAAAGCAGCCTCCATTGCCAACATTGCAAACGCATCAGCATRTTCCTTCCTTCAACATTCCATAACGTGGTGGTGGTATTCCCACCTTACCCCGG
GAGAAGCTGAGAGTCACAGGGAGYATTTACTTTCCAAGTTCACACATTCAGGGMATGGGTAGAAGTGGAATTCACACCCAGGTCAGTGTAAGACCAAAGA
GGCTGTCAGAATGGTTTGCTGTTCCACTCATGGCRAACAGSATTTGAAGTTGTTCCAGTCCAAGGGAGACCATCAGGCCATGCAGGAATAAAAAGGCCAA
GGGGAGGAAAGAAGATGCTGTCTTCATTAAGGCCTGAAGGAAAAGGCTGGTCAGAGTGAAGAGTATAGACAAGCTCCTCTGTATCCTCTCAAAGATTTGG
AGCCACTGATCTCTCTGGGGGTTGGGGAATGGGGCAGTTCCTGGGAAAGGGACTTATTGGTGGGAATCCAGTTCTGCTATGAATGCTCCTGACTCCTGCA
CTCAAATCCCAACAGATGAAASGGAGGAGAGACTGACAGATGCAGTGCCTTCCTTTATGTAACCTCCTTGATCCAAACTACAGTCTGACCCATGCTTTCT
GGCTTTATATTGTACCACTACGTTCCTAACTCACCCTCGTTCCAATGGCATCAGCATTTTCTCTTCCCTCAAAGATAATGCACTTCTGACTTTTGCATAT
TATGGTAGCCAGCCCCCAGGAGGGCTCCCAGTGATTCTCACCTCATGGTACCCATGCTCCTGCGTGGTCCCCTCCCACATCGAATAGGAATGACTTGTGT
AGCCAAATAGGACATGGCAGAAATGACTTTGTGTGAATTCTGAGCCTTGTTTATTCTTGTCCTTTCTTGCTACAGGCAAAGCCAAATGCCGTGTTGTAGG
GAAGCTCAAGTAGCTTCATGGAGAAATCCACATGGCAAGGAACTGAGGCCACCTACTAATAGSCAGCATCAATTCTTTAGCCGTATGTGTGAGCCACCTT
GGAAGTAGACCTTCTAGCCCCCATCAAGCTTTTAGATAACTGTAGCCTCACCAACATCCTGACTGAACTACACAGCTGAGCRGCTTCCATATCTCCAAGC
CACAAACACTGTGTGCAATCATAAATGTTTTTAGTTGCTTTAAAGCACTAAGTTTGGGGTAATTTTATTCAGCATTAGATAACTAATACACATAGTCTGT
TTCACCAGCTAAAATTGCTGCTCATTTCTCTGTTACCCCCCAAACCTGGTGTGAGCAGCCCCTCCTCTGTGGACTTTTTCTGGTCTTCTTTGCATGACTC
AATCCCTCTTTCTTCATTTTCTCACACAGATTGTTTAGCATTCTATTAATGCCACTGTCACAAGGAAAAGCAATAYTTTTATTACAGTCTCTCTCCTCTG
TCRATTCTAGGCTTCTTGAGAAAGTTTGTAATGTATGCATTCTTCAAAGAGGTATTGTTATTAATAGAGGCTCAGAAGATGGCTGAATGAATGAAGAGTG
TGTGTTAGAACCTGGGGAAATTTAAACCAAATACATTTAAAGCCAGTGACATTTTCAAAGCATATTTGGCTAGAAAGACTAAGTTCTTTAAAGTAGTTTA
GAAGCAGTATTAATGGTACACAGTCTTTGTCCCATTCTTAACAGTACAATAATGATAATTGGTTGCTACTCTGGAAACAAATTAAAGAGCCCAGGAAACG
TTTCCAAAGGTGACTGGAATGCTTAACTGAGCTAGACTGTTAATATCTAATGCTAGCCTTCCTGTGGGCATAGCACCCTGAATTGCCTGATCTCATCTAA
TGGCACATGCTCAGACATCCTTGGTTTTAAATAAAAATTGTCTTATCACTTAGTTTAAAAATGTTTTGCTTAGTAAAAAATTTATGAGGGCAGGTGCGGT
GGCTCATGCTTGTAATCCCAGCGCTCTGGAAGGCCGAGGCAGGCAGATCATGGGCTCAGGAGTTCGATGCCAGCCTGGCCAACATRGTAAAACCCCGTCT
CTACTAAAGATACAAAAATTAGCAGTCCGTGGTGGCGGGCGCCTGTAATTCCAGCTACTCAGGAGGCTGAAGCAGGAGAGTCGCTTGAAACCGGGAGGCA
GAGGGTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCTTGGGCAACAAGAGCAACATTCGGTCAAAAGAAAGAAAGAGAGAAAGAGAAGAAGGAAGG
AAGGAAGGAAAGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAAAGGAAGGAAGGGAGGGAGGGAGGAAGGAAAGGGAAGGGGAGGGGA
NNNNNNNNNNNNNNNNNNNNGAAAGGAAAGGGAAGGGAATACATTTAATAAATGTGGAGTCTGCCAAATCAGGTCGGCAGTTTACTTCTCCTGTCCCCGG
TTCAATAACTCACTTACTGGGGTTCTGGAGGATAGCAGTGAGAAGATGGGGTAAAAAATTAGAGAGAAGTTTTGCGTTRCCCCATGGCTGCTTCTGTAGT
GTAGTCCGTGCATCCGCCCTTCGATGCTTGGGTTGGATCATAGAGCAGTGACTGTTGATGGCTCACCCAGATCCCCAGGAACCCACCACTCCCATAYAGG
CTTTCAACCTGTTAATCCCTGCAGCTGCCTGCCTGGACTTTCCTCTGACCATGGGAGTGTGCTCAGTCTTACTGCCCAGGGAACAGCCATCAGCCTTTGA
GTGGCAAGAGTTGGTAGATTACCATCCCTTCTTGACCCTTGGAATAGGACAACTTCGAGATRTGTTCTCCCGAGTCTCCCAGATGACCCCAGTGAGTTTG
AACACCAGTTGTCCACAGAGATAATCTGCCCATTGCCACCTGTGTATTGACTCTTTTACATATTCTGTCTCACTTCTCTTTCTCCCTCACTTGTGCTTCT
TAAGATTGTATCCTGAATAAGCTATTTGCACTCAAATAGGCAGAGAGCTAGCTGGATCCATTATTCTCTCTTGTCTTCTATATTTTAGATATCTTGTAAC
AGGCACAAGGTACCGTGTAGAGCTGAGGTGTAATGACCCAGCTGATCTGTTTGTACTTTCTCATGCTGCTAATGGGTACCTGGAGTTGAGAATTTATGCA
TAGGTGTGTACATGCCRTCRCAGCTCTGTGTGCATGAGTGCCTGTGGGGTCTGCRTAGCATGCACACATCACAGAAACCCTCTGCCCTCCCTTCTCATTC
CTCTATTTGAAGCCAAGTTTCCATAATCCCTCTACTCAACCCCCTTCTTCCCCAGCCCCCAGGGGCTTCCCATACTTAGGGTCACCCTTTCTTACCTCAG
AGTTTCAAAGATGTAAGAGCTGATGCCCACCTTGATGGTATTCACAAAGTATAGCAGGGAGGCGGCCATGGAAATGACTCTTTACAGCAGGATGATATGT
GGAACATGCCATGGCCAGGGAAGTAACTTTGTCTCAAGGGGATCAGGAAGATGCCCAGGTATGGGATAACTTGAGCAAAAGATTTTTGAGCACTGATCTG
CAGATTTTACTCTCTGTAAAGGGCCAGATAGTAAGTATTTTAGGCTTTGTGGGCCATATGGTGGCTGCTGCAACTGTGCAACTTTACTTTTTTGTAGCAC
AAAAGCAAGCATAGATACCACATAAATGAATGAGCATGGCTGTGTTCCAATAAAACTTTATTTACAAAAGCAGATGGTGGGCCAGATTTGTCCCATTAGC
TGTGGTTTGCTGACCTCTGATTTAAAGAGTGGGAAGTAGATTTCTGGAAAGSGAGAAAGGAAGACTATTTCTAGCAGAGAGAAGAAAACATATAAAGGCA
AAGAGTGGGAAACCAGAGGGAATAAGACAAATTTGATTTACCAAAAAGTCCTTTTTGGTGGTAGTAAAAAATACTAATAATAAAAACTAAGTTTTATTAA
AGCCTTATTATGAGTCAAGCATTGGGCTAAATATTTTGTGGATTCTCATTTAATTATTACTCTCTCTGAGTTTGGAGGACCTTGTTTTCCTCATGGCACA
CACGAGGAGTAAATTAAGCTCAGAGAGGGTAGATGACTGGCTCAAGGTCACACAGCTMCCAGCTGGCCAGGTGGCAAGACCCCGGACAGAGGATTGGGAG
CATGGTATWGTAGCCAGCGTACCTCCTTGTGTCTATCATTAGCCCTGCTTTAATGGACTTTTTCAGAAGTGTTTTTGCTTGTGTTTTACAAGTGGAATGT
GATTCCTTGACTCAGCCCAGTAGCCCTGTGAATGGATGGCTGAAACGAGTCTGACGGCTTTTTCTCCTGGGGCCATTTTGTAAGAAATAAAAGYAAAACA
GTGAGATATTTAAATTCTTCAGGGATATTATTTTCGAGTRGATAAAGTGAAGAACATTTTTTATTCATATTAGAAGTGATAGTTGGATGTGTGTAATTTT
TTTGCTCTCCGAGATGGAGAGAGAACACAGCACAGATCTTAGAATGTAAAATATGAATTTAGATGACATTTTGAGAAAACTGATAAACACCACCATTCCA
CAATTGGACTTAACTTGCCTGTGAAAATCCTTCTGCAGCCCACAAAATGATAGAGATAGGTGGACTACGTCTAATGGATATTAAAAATACACAACACACC
AATGAAGGAATAATTTTCTTTTGCAAAGTTTTCATTTCTCAAAATGCTACCAGGAAAAGAGAGATACCTTGACAGCTGACAGTAACCCTGGGAATAAGGA
TATGTTAGAAGAGAAGGGCTGCAGTAGTTGTGAAATCCTACCTGGAATCTACCCCTGGACAGGAGACCCAGGGATCAAGACTCAAAGCTGATGCTCTCAA
CACCAATGTTTCATCTCCAGTGTACCACGAGGTCCTTGTCCACCTACTTCTAGATAGAGCCAAACTGTCTAAGCCAAASGGGGTTTGGGTTTCTTTCACC
ACCCACCTGTGCACATGATTAGTTTGAAAAAGTATGTCTTAAAGAAAAATAAATGCAGACAACTAAGTGAGAACAGTTACATGTACTAAAGGTCTTTCAG
AAAATCAGTAATGTAGGTCAGTGCATTTCAGGATTTGGAATTTCACACAAAATTTACCCTTGAAAACTTTAGACTGAGAGAAGACTACCATGCCTATTCT
GTCATGTAAGGACATCTAAAGAAGAACTGCACACATTGGTATTACCATCTTCCCACACACATACACGGACACGCACGCATGCACACGTGTGTGCACACAC
AGACACGCACACACATGCACGCATGCACACACACATGCACACGTGCACACATGCACGCATGCACACACATGCACATGTGCACACATGCACGCACATGCAC
ACACGCTCACACACACAGAATGGTTCGTGGCCGGGTGCGGTGGCTCACACCTGTGATCCCAACACTTTGGGAGGCCTACAAGGGCAGATCAACTGAAATC
AGGAGTTTTAGACCAGCCTGGCCAACATGACAAAACCACATCTCTACTAAAAATACAAAATTTAGCCAGGTGTAGTGGCAGGTGCCTGTAACCCCATCTA
CTCGGGAGGCTGAAGCAGGAAGATTGCTTGAACCAGGGAGGCCAAGGTTGCAGTGAGCTGAGATCACGCCACTGCACAGCAGCCTGGGGGACAGAGTGAG
ATTCCATCTCAAAAAAAAAAAAAAGTTTCATACTTTCACTCACATATACACTCACACACTCGCACATACACCTACACATACACTCATACATTCCCATAGA
AACAAGTGAGTTATAATCTCAGAGTGAACAAAATTGAGTAAATTTTACCATACAAACATATTTATTATGCTTGTCTCACTAAAAAGCAGTAAAAATTCTG
ATATGAGCATCACACAGGTTAATGTAAGATAGTAAGAAGAAGAAAAAAGTATAATTATCCTAGAAGTCCTATTGAAGAATGAAATCGCAAAATAAAAATG
GAAGGGGCAAAGGTAGGATCCTTAGAATGCTTACAATGGGAATCTGAATGTTTAATGAGAAATAAGCCCGACACCCATAGCACATAAGGACTCAGGCTTT
GGGATCTCTCCCTTCCTAGCTTTGAGGCCTGGGCATGTTATTTAACCTCTCATACCCTCGAAAGGGGCTCATAAAAGCAATCACTGCATGGGGCTTTTGC
TTGGTGAATAGTTCCAGCACATGGTTAGTCCTCAGTAAGTGTTAGCTAATAGCATTAGAAACTAGCTTTTTTAAAAAATAAAGGAAGGGGCCAGGCGCGG
TGGCTCACGSCTGTAATTCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCTGGAGGTGGAGACCATCCTGGCTAACACGGTGAAACTCCATC
TGTCCTAAAAATACAAAAAATTAGCCAGACATGGTGGCGGGTGCCTGTAGTCCCAGCTACTCGGGAGTTTGAGGCAGGAGAATGGCGTGAACCCGGGAGG
CGAAGCTTGCAGTGAGCGGAGATTGCACCACTGCACTCTAGCCTGGCGGACAGAGTGAAACTCCGTCTCAAAATAAATAAATAAATAAATAAATAAATAA
ATAAATAAATAAWTAAATAAAATAAAAATAAAGGAAGGGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCA
CGAGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGATGAAACCGATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCATGCGCCTGTAGTCC
CAGCTGCTCAGGAGGCTGACACAGAAGAATCATTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTTGGCAACAG
AGTGAGACTCCGTCTCAATAATAATAATAATATAATAATAATAATWGTAATAAAGAAAGTACATGGGGAAGGAATATGTTCTACATGAGCTTTCACAGGG
GCACCGATCTAGACCAGTGTGGACTAGAAGTAGCCACATCCCCTGAGATCCTGTCGGTAAAACACATTCTCGGGCCTCCCCACAAACCTCTTGATTTGGA
ACCCTGGGAGGTGGCACCCAATAACCTGTGTTTTCAACAAACCCTCTAGATGATGCCAAGCCACACTAAAATTTGAGAACCTCTGATCAAGCCCTGCAAG
CTTTTTAACCCTGGTCCTGGGCAGTCAGCTAAATCCAGGAAGTATTTCGCAGATTGGGAATAAATARGAAAAAAAAAAAGGCATAAGTGTCTTTGGGTTG
AATCTCATTTTAAGCCCCAGAATTAGGCTTGTGAAAACAATTCAAGAATTGTCTTCGAGCCTATAATGCCTGCTAGTCCCATGAGAAAAAGATTTTGAAA
CAAAATAAGTTGAGGTTGGATTTGCTTTTTTTCCAAGCTTCAAAGCATCAAACAAAGATCCATGTTCACATCTGAATATCTGAGTTCACATCTGAGTCAG
CCGCTGACTCAGCCCCTGACCACAGAGTGATGAACAGAGAGGCAGGCATCATGGGACCTGAAATGGCATTTTCTCCAAAATATTAGAACGTCCTTAGATC
CCTTAGATCAATGGTGATCGTGGGCCTGGAAAACTTCTCCAAAAAGTGCAAACTTCTCCTGTAGTTAGCATATTAGTTTGTTCTCATGCTGCTATAAAGA
CTTACCCTAGACTGAATAATTTATAAAGGAAAGAGGTTTAATTGACTCACACACAGTTCTTTGTGGTTGGGAAGGCCTCAGGAGACTTACAATCATGGCA
GAAGGGAAAGTCAACCGTCCTTCTTCACAGGGTGGCAGCAAGGAGAAGTGCTGAGCAATGCGCAGGGATAGCCCCTTATAAAASCGTGAGATCTCTTGAA
AACTCATTCACTATCATGAGAACAGCATGAGGGTAACTGCCACCRTGATCCAATTACCTCTCACCAGGCCCCTCCAACAACACATGGGGATTATGGGAAC
TACAATTCAAGATGAGATTTGGGTGGGGACACGGCCAAACCTTAACAGTTGGGTTCAAAGACAAATGCCACCATAATAGGCCGCAGATCACCTTTATTGC
CAGCCTCTCTAGTCCCCAAGTAGCTGATAAAAACATAGACAAAAATTATAGAGAATGAAGGARAAAAAGTAAGGGGTTATTTTGAGAGCAAAGTTTGCCT
CATCTGTCCAATAGAGACTGTCTTGTATGTTAAAAGTTCATCATCAGGAGCTGAAAGAATTGAAAGTAAAATGAAACTATCTTGTGTGCCTCGTAGGAAT
ACAACCTGGACGTAGTGTCCATTACTAATTAAAGCCAATGTGTATTGTACTTTCACAGTGAGACAGGCCCTGCTCTTTGTTCTCTATATTTATTTACATG
CACTTAATCCTCACAATTACTCCATGCAATAAATCCCATTATCACTTTCTGTACTAGGTTGACTAGGGTCCTCCCCAAATTCATGTCTACCCAGAACCTC
AGAATGTGTCTTTTCAGATGTAATTAGCTAAGATGWGGTTATGCTGGATTAGGGTAGGCCCTACGTCCAGTATGCCTTGGAGTATCCTCATAAGAAGAGG
AGGGCCGGGTTCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGATGCCAAGGCAGGTGGATCACCTGAGTTCAGAAGTTTGAGACCAGCCTGGCCAAC
CTGGTGAAACCCAATCTCCACTAAAAATACAAAAAATTAGCCGGGCATGGTGGTGCTCACCTGCAGTCTAAGCTACTCAGGAGGCTGAGGCATGGGAATT
GCTTGAACCTGGGARGTGGAGGTTGCAGTAAGCCAAGATCATACCACTGCACTCCGGCCTGGGCMACAGAGTGAGACTCCATCTCAAAATTAAAAAGAGA
AGAAGAGGAGAGAGACAGAGACACACAGAAGATCCAGGAGAGAAGGCCAAGTAAAGTTGGAGGCAGAGAGTGGGATGATGAGTCTATAAACCAAGAAATA
CCACGGGTCACCAGCAAACAACTAGAAGCTAGGATAGAGGCCGGGAACAGATGTTCCCCCAGAACTTCCAGAAGGAAGGACTCTTGTAGATGTCTTCTTT
TGTGCTTTTGGCCTCCAGGACTATTAGAGTAAATTTCTGTTGTTTTGAGCCCCTCCGGTTTRTGACGTGTAGTTACTGCAGCTCCTGGACACTGAGATGC
CCCTGTTTCTTGATGGCGAAATGGAGACTGAAAGATCATGTCTTACCCAGGTGCACACAGCCAGCTTTTGGAGGTTTAGGGTCAGAGGCAGCTTCGGGGG
TAGGAATCTAGAATCTGGTTTCCTCATCTTGTGCTGTGTCGTAGGTCTGCTGGGTTCAGGTTCTGGAGACGTCATTCCATGTTTCTGAGCTCTCTTTTCT
CCCCTGCAGATGTAAGAACTCTGTACTTGAGGACTCATGCCTCAGCTGGGTGGTGGGATTGGATTCCTTTTAAGGTCTCTCCAAACCAACCCTGAGCCTC
TTTGATTAGAATTCTAGAAGCTTTGAAACCACCACTACAAAATTCATTTGCACGACATTTCTCTTTTAAGCATTACACTTCTCTCTGCAGTAACTTTGAA
GTTACTGTCGTTTTATGCACTCACGAAGAGTTAACAAGCAATAATAAACAGTCAAGACTGCTTTTCATTTCACATATCTGCATGTGTTCAGTCTTTTCCG
TGACACAATTGAAGGAGCTTCTGTAATCAGGAGAGAAACTTTATATCATGCTGTAATTTCCCTTGATACAAGCTAGAAAAAGATACTGGTTTAGATTCAC
TGGGGTGATTGACTAGAAAATTGCCCCAGCTGTCAAAGTTTCCAGTGTTAAAAASCAGTGTAAAATTTCTCAAATGCTTAGAATTTCTAGATGTCACAAC
AGAGATGTTACCAAAATATGAGAATCAAGTTTTTTATAAGCAGGACAAAAATACATTATTTTTCTCAAGTTCTCAATATTTGGTTGAATTCATGAAGAAA
TTTTTAAAACACACCAAGCAAAGCGTTCATTTTGTTTAGAAATAAAATTAATARGTTGTTTTTTGATATTGTATTAATGTGTCCTGCCACATTAAAAGAT
TGCCTATATATTTATAAATTTAATCTTTATATAGGAATTAAACAGACAAGCCAGAAAAAGAAAAGAAATGATAAGCTGATATTTGGGTATAATATTATCT
TGTTATCCATGTTCTTTGTATTAGCTGAATTATTTCCATTTCTGCTCCAACCAAGAAAATCARTTCAAACATTGTTCCTCGTGATTTATTCAAAAATTCG
CTTTTCCAAGTTTCCGTCTAAGAGCATGTGGTGGGTTCTTATCTTCATCATAAAAGTGTATAACRTAAAGAGATGTCCTCAGATAGCTCATGGCATTTGT
TAGCTCAGGGGGGTTGTAGAAAGTTTCCTGTAAGCGTTTTACACTCAAAGTTTTCYTTATAGTGCCAAAGAATGAGAAGCAAAAGCAATTCAGCACTGGA
ACCGTTTGGGGAGTGTGGCTCCATTCTGAGGTTCTCTTCTCATCAGAGTGGGGGCACCCTATAATTTTGAGACCTTGAGCCAGGCTTTCATGTCATCTCT
CTTTATGAACACTCCACTAGTTTCTAGCCTATAAAAATAGTGTCAACATTACAGTAAGCTAAGTATAAGGCAGAATCAAGAAGCCAAGGATCTGATTTTA
TTTCAGAGTTCTGAAATGGAACTAAGTGTTACAGAAAGCAATTTGTGGGAAACAATTCTCTACAGTATGACTTATAGACTGCTTCAAAGGAGAGGTGTCT
TCTCTTCCTAGACCTGGGATTTTAATGTGAGAGCTCCCTTATCATGTTGAGGAGAATGGCTGTCTGAATTGTTCTCCCTCTTATTTATAAAGGCAATGAT
CAGAAGATAATTTGTAAGTACCTACTCTCTTCCAGGCACAGTATTTAAAATGAATATATAGTAAAAAAGCCAGCTGCCTCCCCTGTCATCATGGAATTTA
TAACTTAGTAGAGAAGATGTCAAAAAGATATTGCAAATGATCTGAGTGTTTTTTACAATGGCATTGTTGTGTACAACAGGTGGATTCCCACCTTGTTGGG
GAAAGCAAGGAGTGCTCCCTGGAGGAAGTGGTATTTATTTTGAGACCTGGAAATTGTTAGCCAGGAAAGGAGATAAAGTGGCGGGAGTGAGAGCAAAAAT
ATTGTCACCAGAGAAATCAGTGAGTGTAAGAAATTGCTGGTGTAGTTAAAAACTGAAAAAAGTCTGGATACATTGACTGTCGTGTTTTCCCAGTTGTAGG
TCTTGTAATTCTGGCAAAGGGAAATATGAAGTGAATTCCTGGAATCTCTTGCTGATCCCAGAGAGACTACAGTTCTAGCATAAAAGGAAGCTCAACAGGG
TGACTGTAAGAGGTTCCAGAGCAGCAGGTCATACTCAGCTTAGAAGTGCTTGCAAGACAGTTTAAGGATGTAGACTGTCTAAAAGAGGCTCATAAAGAGA
TTATCAATCTAAAAGCAAACTTGAAATATTAATCAGGGCTAGATTAGGTTATGCTGCAGTAACAAGTTAACCCCCAAATTTTAGTAGGCATAGCGCAACA
AAGTTTCTTTCTTGCTCAAGCTGTGATTCCAACATGGGTCTGCTGGGGAGCTCTGTTCCACGTAGTCATTAAGGGATCCAGGCTGACAGAGGCTCTGCCA
GCTTGCAGCATGTGGAGCACTGGCCTCCTTTGTGCCTGTGGCAGAAGAACAAAGAGTTACAGTATCAAAAGCAGCCCTTAAATGCTTCAACCATCCCTTT
GGCTAGAACTAGTCATGTGGCCCCACCTACCTGAAGGGAGGGTGAGAAATGTGAGGGAACACGTGGGCAATCACCAGGAAGTTCCTTTGTTTGTTGCAGT
GACAGTCTGGAAAACAATGTGAACTGGTTGASAAGCTTAAAAATGGATCTAAGGGCAAAAATGCTAAAGGAGAGAAAGAATTGTTGACAGTGTATAAGAA
GATGATTAGGAACAAAGTGAGATGGGCAGTTTGGAGGCTCTTTTTTTAGCTTTAATGGTAATAGAATACACGTGGCACTCTCACTAAATGCAAGGCATTG
GGCTTTATGTAGATTGTCCCATTTAATTTTCACAGCAACTCTGAGGTCGATATTATTATCGTTCTCATTTTACAGATAAGAAAACTGAGCCCTGGGGTGA
TGAAGTGACTAACCCCAGTGATATGGTCTGGCTCTGTGTCCCCACCCAAATCTCACCTTGAATTGTAGTTGTCATAATCTCCACATGTCATAGGAGGGAC
CTGGTGGGAGGTAATTTTATCATGGGGGTGGTTAACCTCATGCTGTTCTCATGATAATGAGTGAGATATCATGAGATGTGATGGTCTTTTGTTTTGTTTT
GTTTTTTTGAGATGGAGTCTTGTTCTCTCACCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAGCTCTGCCTCCCAGGTTCATGCCATTCTCC
TGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACATGCCACCACACGTGGCTAATTTTTTTGTATTTTTTAGTAGAGACGGGGTTTCATCGTGTTAGC
CAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACCGCRCCCGGCCAAGATGTGAT
GGGTTTTTTTTTGTTTTTTGTTTTTTGTTTTTTTTTGAGACGGAGTCTGGCTCTGTCTCCCAGGCTGGAGTGCAGTGGTGCAATGTTGGCTCACTGCAAG
CTCCGCCTCCTGGGTTCACGGCATTCTCCTGCCTCAGCCTTCCGAGTAGCTGGGACTACAGGCACCTGCCACTACACCCGGCTAATTTTTGTATTTTTAG
TAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTTTGA
GCCACCGAGCCCGGCCGATGTGATGGTTTTATAAAGGGCTTTTCCCTGTTTTGCTCAGCACTTCTTGCTGCTGCCATGTGAAGAAGGATGTGTTGGCTTC
CCCTTTCACCATGATTGTACGTTTCCTGAAGCCTCTGCATTCATGCTGAACTGTCAATTAAACTTCTTTTCTTTATAAATTACCCAGTCTCTGGTATGTC
TTTATTAGTAGCTTGAGAACGGACTAATATACCAGACTCTACAGTTTGTAACGTAGGCACTAGGATTCACAGATCCTAGGCASCTGGTTCTCAGATTCGC
TAAACTTTACCATTGTTCTTTGTCCGTAGCCTGGAAGCTTAGAATCTGGAAGGATAGAGAATAGAGTTTTATAGGGACTGGGACACACTGGAAATTTGAG
GAATTTTAGTTAGGTTAGGAGGCAGTTCCTACATATAGRTGGAAGGAGAAATACCAGGAGTCTTGTCTTGTCTCAGCCTAACAAGATGACTTCTGAGAAT
ATGATCAGGCCTGTTTCCGSCCTAGCATTGGAGTCCAGTGATATCCAAGGGCCTTTATCAGGAAAACTGCAACATATGAACACAACACAGCCTCTGTTTT
GGAGTCCCCAGAAGACAGCTGATTGGTTTAAGTAATAGTCTAGGGACAAAGAAAGAACTAATACTTCAATGAAAAAGAAACAAATACTTCAATGAAAATG
AATTTCATATCGCACTTCTACATTCCTTATTTGAGGGTATTTGAGCAAACTAACAGAGGAAGAAAATTAGCCACTTTAACTATAATACCTTGAGTATTAG
ACTAATCCAGTTATAAGTTTACAGACCCTTTGATCAGAAGTCAGAGAAGTTGCCTAGGAAATGAGTTAAACCTATTTCTAAAATGTCCAAAATTAGCTGT
TCAAAGAAATCTTTTTTATAGAGCCTAAAATATTCTAGGCAAGAGATAATGAAGGATGCTCTAGGGCAATGGTGCGGGGAGAGGAAAGAAAGGTGCCTCA
ATACAAGCAGCATGGCAAAGGTACAATCCTCCCAGTGTGAATGGTGGGGGGAACAAGGGGAACTGAAAAACATGCATGAGGACRTTAGCTTTGAATGGGT
TTCTTAGAGCTGGGGGACAAAGGAAGAGTCGCAGATGATCAGAAAGGAGATGTGAAATCTTCTGCTTGCTATGTTGAGTTTGAAAAATAAATGAAAAAAT
TTCAGGTAAAAACAGCAAATCRTAGCAAATAAAGATCTCATATTCAGGAAAAGGGCTAGGCCTGGGTAACTTCATGATATAAATGTTCACCATTGCTAAA
ACTTAAAGGACTGACAATATCAAGTGCTGACAAGTATGTAGAACAACTAGGAGTCTTGCAATGTTTTTCAAAATGGTAGCCCCAGTCTTGAAACAATACA
TATGACTTCTAATGACAGAATAAGTCAATGACTAGAGGTAAACAGTGATGAAAAAGAATGAATATGGTTGACACTCACAGGCTCTAAGTGGAGCAAAAGA
AGCCAAGTGTACAAAAAAGTACATTTTGTATGATTCCATCGTTTATGAAGTTCAAGAAAAAACAAAAAGGATTTATGGTGATAGAGATCAGAATAGTGAC
TACCTTGCAGAGATGGCAGTTAGGAGAGGACATAGGAAAGCCTGCTGGAGACTGGGAATGTTCTCTCAGTCTGGGTATTAGTTACATGGATATATACTTA
AGTGGGCTGCAGGGTTTGCTCTGAGGGAGCAAACACAGCTTGGGCTGTGTTTGGCCTTGAATATTGTGAATAATATGTTTAGGCAAAAATCCTCTGTGTC
TCGACGTCATTGCATGGATCCACTCTATGGTTGGCCTTAGAGCCAGGTTCTTGTTTGCATATAATTTTGCGGAAGTGTTTATGTTTGCCGCTCAATTGCC
AATTTTGATTACAGCTTCTCAGCCTGGAAAATTGTCCTGGAAGGGCTTAATGGAACACTTGCAGGAATGTGGCATCATCAATTTTAGAGCCAGAACAGGA
CGTGGCTAGCTTTTCAGCTGGCCGGGAAGAGCCTGGAGAGTGCTGAGGGACACCAGCCAGGGACAGGCACAGGATCCACCACATGGCTCTGGCCTCAGTT
CTGCCCAGCTCAAAATCTTCATCCAAGTTTTATTTAAAAATCCTTTGAAGGGAGAGCAATGGGCTGCCCCACCAAGAGAAGTGTTCACAGGAAGTGCCTC
TCCTCAGGTTTCAACCATCGCCTCCCAAACTTCAATTTTTTAAATTTCACCTTTGTAATGTCTGCTATTTCTAACATCTGTTCTAATATATACTTCATGT
GCTTTTTAAAGCAACATGCTCTCTTTTACTTCAGTAAACATATTTAGGTAAGACATACCCCATCACCACAGTGCCACAGTAAATGGAAAACCAGCACTTT
GCTAACACGTTTTAAATTTAAATTATTGCATGTACTGCCTTGCGTGTTAGCTCTCAGTAATTATTTTTCATCCTCTTARGTTTCTTCCAGCTTTAAGGCT
TTATTATTTTAAGTTATAAAGTAATCGGCCACCCTGTATGACTGTGAGGTCCTTCAAGAGAGAAGGTACTCTTTGCTCTTTGAAATTTAGGAAAAAAAAA
AAGAATGGAAAAACCAATAATGGAAAAAAAATTGTATTTTTATGCTAATAGAGTAGTAGCGGCCAGGTGACCTTTAGCAGGTTCCTTAATAGTGTGTCAC
CACCAACACAGTGTAAACACCAATACGGTGTCAACAACAGCAATAAAATGCAGKTTAAAGACAGCTTATCCCAGGGTATGCTATGAGAATTGGATGAGAA
TATTGTTAAATCCCTTGTGAGTTTTAAAGGGATGTAAAAGTCTTAGAAATATTGATGTGATCATTGGCAAATGCAGATGGATATTAGAGAAATCAATCTA
AATTGTATATGTAGACACCAGCCACCCCCGGAAAAGAACATGAGTGGGTAATTCTTCCACSTATGGGTTTTCCCATGGGATGCAACCTGGGTGCATGGAA
CCAGCCCTGGCTTCAGAGTTAGAGGGGCCTGGCTAGTGCTGGTTCTGCCACTGACCTTGACCTGAGTGACCTTGAAAAAGAAATCTAACCTCTTGCATTT
TCAATAACTTCACCTATAATACAGGGCAAATCATCCTACTATATGAGGTCGTTGAAGTTTAAATGRAAGAGTGTAGAGTCTGCCCTTGAAACACGTTGTT
ATTTTTCAAGCGATTTTCTGAAGCTAGAGCCCCTCATGTGAGGGATGGAGAGATGAATCCATCAGCTGTTAAATGCCTGCATTCGGGTGCCAGGCCACCT
TCCTTCCTAGGTAAGGTCTGCAAATCCAGTTCTCCCCTGCTGCGCAGAGTGCAGGTCCAGCTCTCTGCCCACCGGGTGCTGTCTGTTTAGAGGAGCCAGC
TCTGGCTTGCGCTTTAATGTCATGTTTAATGCCTGCTCTGCTGCAGCCTCCACATGTTTATTGAATCTTTATGGAAAGGCCATAACAGCTGCTTCGGGTC
CATTATAATGGATCACGTCAAAATGTAGCCTGCCATTGTTTTAAAGTCATGTATTATTCACTTGATGGAGTGTATACGTCCATCTTATGTCAATTTGTGT
TATGGACTGTCAAAATTAACATGAGTATATGAGGTAAGGCATATTGGGGAAGAAAGTTCCACAGCGCAATATGCAACCGTGGAGTTTCTARTCTTAATAA
TTCAGTGGGTGCCAACAAGACGTGGTCTCTATTACAGACTTGAAGCTGGTAATACTTCATTTTTAAAAATGTAACCATTTTTGAGTTACAGGAAAACAAA
AATGGTCTGTGGCCAATAAATGTCTAGTTTTATACCGTTCTATAAATGAAAGTAATAAAGCACAGCAAAGTTGCCGAGYGCAGTGGGTTCTTAAACACCT
GCAGCGTCATTTCTCATCAGCMGGTGGGCGGCAGAGTTCACATCCCTGGGCCCTGTCGGGGTCTGGCCATCTCCAGGTGGTGACAGGTGGCATCAGACTG
GCCTGAATTCAGCCTTGGGGCTGTGCATTCTCCTGGGGCTTATTACAGAGGCTCTGACCTCCACCTATAGGTTCAATTCCCCTCCACCCCAAGGACTTAA
AGAATTTTTCCAGACACTTTATGACTCACCACCTAGTGGCTCTTCCCARTGTGACTCCAGCTAGCCACACCAAGTCCCTTTCAGACTCATGACCTTAGCA
GGTGCTGTTCCCTCTGCCTAGAACTTTCTTCCTTTATGTCCTCACCTGGCTGAATTATACTCACCCTTCAGTTCTGCTGAAATGTCACTTCTCCAAAGAA
GCATTTCTGGACCCCCGGCCTCCCTATTCCACCCTCCTCTGGTACCCCTTTTATAGGTGCTTCTTCCTCATGCACCTGTCCAGGTTGTATCTAAATTAGT
AATAAAAGTTTGATGTCATCCTCTCTACCCACAAATAATGAGTGCAGGATCCATGTCTATGGCGTCCACCCTGTAGCTGTAGCACTTAGCATTGTGCCTG
TCATGTCCATAATAGGTGCTCAGCTAGCATTTTTGAATAAATAAATGAGTGCATGGATGGAAGAAAGCAAGGTTGTCTGGCAGACTGTCTTGGTTGAACA
TGATTTCCTATTCATGATRACCTAGCCCATGCTCTTCAATCCTGATAGCTTTTTTAGATTTTTTAAGCCCAAGGCTCTGTCTTGTCATATGTACCCTACC
CTTTTCATTATCCTTGAAGAGAAACTCACCTCCCACCCTGGAATCCACTGGAGCAGCCTGTACCCTGCCAACCAGTGCCCCCCAYACCAGGACTCTCTGC
CACGTGTGTGTACTCACCAAGTGCTCCTCCATTTCCCATTCCTGAGTTGGATCTACTCCAGGGTCACTCCCTTGCTTCATGGTAGACCCTTGATGTCAGT
TCCCTGGCAGCTGGCTTGGGCTCTTCCTAGCGCTCAGATTCCACCTCAGTGGGCATRTCCGGTTGCACATCCCAGAAGTATATATCTTCCCCATTCTGTG
GCATGGTTGCAAGGACAACATTGAACATTGGGAAAAGGAGGCAAGAACGACAACAGTCCCCATTTCAAACACTTCAGTCCCTCGTTATGCAGCTCCTAGA
AGTATCCATTGTTCTGGGAAAGATGAAGCATCCAGAACCTGTGTCAGGACTCTAGAATGAAGATTCACCTTCTCTGCACCAGCCCAGATGGAGAGCGTCC
TGGGCAACCAAAGTCCCCAGGAGTATTTGCACCTCTCAACCAAGATTCTTAGATCACAGCTCTTAATCAYTTACCCTGCAGTCCACCCACAGGAGATGAG
CTTTATTTCAGTTGTGTAAATTAGTGAAACAGAACCCCGAAGAGCTGAAATGTCCTCATATCTGTCACGACCTTACCATGCACTAGATTTGTTTCCACAG
ATAAGCTTGTGGGTTTGCACGACAACCAAGAGAATTTGCAGTTAAGAGAATAAATAATGCATTATTAGAAGAATAAATCAGCATGCAGTGTACATGAGTA
ATATATTCATACCAGGCCCAGTGAAGGAGTAGACACTTATTTAGTKTGTTTATGCAGACATAGATTTAAAAATSTATAACCACATTATTATGGGTTCTTT
ACAATTGTAGGAGCAGGAAGTTCACACAGGTCTTCCAGCCTGTCTAGCAGGTGGACTGAGAGTCATGAATTTCATGTCTTTTTCTTTTTTCTTTTTTTTT
TTTTTTTTTTTTTGAGATGAAGTCTTACACTGTTGCCCAGGCTGGACTGCAGTGGCGCGCTCTCGGCTTACTGCAAGCTCCGCCTCCTGGGTTCACGCCA
TTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACCTGCCACCACACCCAGCTAATTTTTTGTACTTTTAGTAGAGATGGGGTTTCACCATGT
TAGCCAGGATGGTCTCGATCTCCTGACCTGGTGATCCGCCCGCCTCGGCCTTCCAAAGTGCTGGGATTACAGGTGTGAGCCACCTCGCCCGGCCAAATTG
CATGTCTTAACACCCCCTCTTACTAGCTGAGAGGTCTTGGCAAACCTGTAGCACTGAGAGTGTCAAGTTTATCCATCTTTAAATGGGGCCACCATCTAAC
ACAGAAAAGCCACAGGGATCAGAGAAGAAATCATATGAGTGGGTTCCGTGGGCTGTAAATCCTGAATGCGCATGAGATGGGAAGGTCAGTAGACCAATGA
TTTTCTCATCATAGATTCTTGCTGTGTCAACTTGGACAAAAAACTTAATTTTCGGGGACGCTGATTCTTTTTCTCTGTAAGGAGAAGTTATTGGTCTGAT
GCACACAGTGGAATCAAACGGCAATTTACTTGKAATGAAAACCTCTCTCTCCCGGTGTCCTTATAGCAACCCCAGGGACAGACTCCAGTTGGCTCTATCT
GTGCCTCATGTCCATCCTTTGAACCAACCACGGGCCAGTMGAATGTAGTACTCGGATTGACCAGGCACCTGAAGTCTAAGACAGCTTCCATCAGTTTCCT
GATAACTGGCATTTACTGAGCAYTTTGTCTGCACTAGATCCTGTGTGTCATGCACACTGACTTATTTAACCTTCTGGACAACAACGTAAAATAAGCTTTA
GTACAAAGAGAAGTTCTATAACTTGCCTGTGGTCACATGGTTAAAAAGTGGTGAAGCTGGAATTTGTAAACAGGTTTCTTGGACTCCTAAGCCTAATTTG
TAAATGCTATGTTATACTGACTTGGTTGCAGTATTGGTGGGAGAGGGCATCCTAAACAGCACCTGCTTGTTGCCAAGCCCTTGTGGATTTAAGCTCAGTT
CCTTCCCCAGACCTTGTCGTGTGAACCTCCATTCTGACTTCACATCCATAGTAGGCAAGATAATGGCCCTCCCAAAGGTGTCCATGCTTTAGTGCCCCAG
AAGCTGGGACTATGTTGCCTACCTGAGGGACATTGCAGATGTGATTAAGGAGTCCTTGAGTCGGGGAGATGATTCTGAGTTATCKTGGTGGATCCACTCT
AATCCAATGAGTCCTTAAAATCAAAGAATTTTTTCTGGCTCAGAGAAAATGTGAAGACTGAAGAAGAGAACGGGACAGATTGCAGCATAAAAACAACTTT
GTCCAGCACTGCTGGCTTTGAAGACAGAGGAGGGGCCACAAACCAAGGAACATGGGCAGTCCCAAGAAGCTGGAAAAAGTGAAGAAATGGAGTTTCCCCT
GGAGCCTCTGGAAAGGAGTGCAGCCCTTCCAGTAGCTAGATGTTAGCCCAGCATCCTGTGTTGGACTTCTGATCTGCAGAACTATAAAATTTACAGATGT
GTTAAGACACCGTGCTGTCGTAATTTGTTACAGTAGCAATATGAAAGGGATGTAACATTCAAGGCAGAACCAAAAACACCAGGAAATGCTGCAGCCACCA
CCTTCGAACCAGCTTCAAAGGTCAGCCAGTCATCAGAGTCAGAAGTTTTGTTTTGTGGGGGCGGTGGTKGTTATTGTTTTGTTTTGTTTTTTTCCTCTTT
ATTCTGAAAAGTGCCAGCTCTCAAGCTGGGGCAAAAATAGCTTTGTGTTGTAGCCTCAATCAATAGTCCGCAACCTTTTTGGCACCAGAAACCAGTTTCA
TGGAAGACAATTTTTCCAGTGGGATTGGAGGAGGATGGTTTCCGGATGAAACTGTTCCACCTAAGACCATCAGGCATTAGTTCTTTAGATTCTCATAAGG
AGCATGCAAGCTAGATCCCTTGCATGCACAGTTCACAATAGGTTTTGCACCCCTATCAGGATGTACTGCCATTGCTGATCTGACAGGATACCGAGCTCAG
ATGGTAATGCTCGCTTGCTAGCCCACTGCTCACCTCCTGCTGTGTGGCCCAATTCCTAACAGCGTACAGACTAGTTCTGGTCCGTGGCCCGGGGGCTGGC
GGCTCCTGGCTTAAATGATGAAATTTGCTGCCACTGTTTAAACACTGACTCTTTCACTTCCCCAGCCCAGCCTGTACAATCTTCTGCTTTACCTTCTTTA
CCTTAGCCCTTTGTCCCAGTTTGGGAACAGTGAAACTGCTGGCAATCCCAGTAATTGTCTTGAAGCAGGCAGGCAGACAGAATGGGAATTCAGGCCAGGG
ATGGTGGCTCGTGCCCGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCATGTGAGGTTGGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAAC
CCCGTCTATACTAAAACTACAAAAATTAGGCAGGCGTGGTGGTGCGCACCTGTAATCCCAGCTATTTAGGAGGCTGAGGCAGGAGATCACTTGAACCCAT
GAGGCGGAGGCTGCTGTAAGCCGAGATTATGCCACTGCCCTGCAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAAAATTGTTTTAATTAAAGA
ATAATTTAAGGCTGGGCGTGCTGGCTCACACCTGTAATCTCAGTGCTTTRGGAGGCTGAGGCAGGCAGATCACGAGGTCGGGAGATGGAGACCATCCTAG
CCAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCAGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGA
GAATGGCGTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGATCTGGCCACTGCACTCCAGCCTGGGYGACAAAGCGAGACCCCATCTCAAAAAAAAAA
AAATTAAAAATTAAGAATGGGAATTCAGATACAAAAAGAGTTGTCTTCTGCGTTAACCGCAGCACAGGGAGAGAAAAACTACATCTACCCACAGCATTAT
AGAAACGGCCCAGGGCAACTACATCCGTTTGATGGCATTATAGAGATGGCCCAGGGCAACCTGAGTCTGCTTTTTCATTTGTAAGTTAGTGATGATATAT
ACACCTGACCCAGGTGCTACGAAAGGACCCAGTAAGCAAATGCTGAGACAACACCCAGTCTAGGACTTGGCATCAAATAAGCAACCCTATAAATGCCAGC
ACCTATTACGGTTGTTGTTGTCATTTGGGTGATAATGGCACTCACCAAATTAAAGACTTTTGAGATCACTGGTATCCATATCACACTGTAAAGTAGAAAG
AAGTCTATATTTTCTCAGTACCACTTTAATGTTAATTTATTACTTAAGTACCAACAAAACTTCAAACAATATTAGAGCCAGAGGAAATATTAGAGATCTT
CCTCGAATGAGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAATGAGTTCGGTGACTTTCTAAGGGCACGCAGGGA
GTTTATCGGGAAGGCCAGGGCTAGACAATCCAAGTTCCCACAGAGCTGATAATGAGCCAGAAGTGGGCCCCCTACACACAGGCATACCTACTTAGCCCCA
TCTGTATATCCCAAACTCACACAGCCTCTTTAATAATCCTCTTAATAGCAGTGATAACTAAACATATTCAGCTTTAATCACACTTGCACGCATGCCTTCT
TCCTTAAATCTAAGTAATATCCCTGCAGCTATTCCAAAAGGAACACTATAACTGGCTATTTGMCATAATAAGGATGAGGAAATTTTGGTTGAYCACATTT
TAAATGGGAAACTGTATTTAGAGAGATTTTAAACTGCAAAATTAAAAATGCAAACGTGAAATTATTTTTCCATTAAGTCTTCTCCTTGGGGAAATCTCTT
CCTCTGTTGCAGTTGGGCGGTCTGGATGGGCTGGTTACCCTTGTGTGGGGTGTATAGTKAAACATCAACTCCCATGAGGCTCATTCTCAGGGGTTGAGAT
AATAGTAGTCCCTAGTGGGGTCGTCTAAGAGCCCTTGGGAGGGCACTTATCTTCATGTATATATTACATAAATCTTATTTCAAAAGGGATTTCTACTATA
AATATTAGAYCATCTGTCTCTAAATTCTCCAACTGTTTCCATCTATCTCTAAATTTCCCAACTATCTCCATCTATCTCTAAATTCTCTGACAGTGCTGAG
ATGTAACGAACAGCATTAAAACACTAAGCACTGAAAAAGAGTTATCATGCTGAACACAGTGTTGTTTTTATTCTAATTTCTAAATCCATGTCTCGTTTAG
CATTGGTTGTAGTCAAGAGAGAGACTGTTCAATCCCAGTCTCCCCATGCCTTTTTTCTTTGTTCATTATGGTGAAGGGATCATGGCTATATAACTGTTTA
ATTAGCAGGAGTCACCTTGAGAAATGTCACCAGGGTGGTCCTGCTCAGTTACTAATGGGGTAGTTATATATAAATTGCTTGGTCCACCTGACTGAAATAT
AGTGGATTCAGTTTAGGGAGTATGAAAATCTCAGATTAGAAGAGAAGATGGAGGTCATTCCACCCAAACCCCCTCCCCATGAATACCTCTGTCTTTTTTT
TTTTTTTCTTTTTCATTGTAGATCTAGGCGAGCTTGCTTCTTCAGGAAGTTAAGCCCCATTGTTAGGCATCTCTGAAGTACAAGCAGTACATAGTATTTA
TGGTTGGAGGTCAGACTCTGAAGTCCAGTGTACGTGGATTGGAATCCTAGCTTTGCAGTGTACAAGCTAATTGGATGACATATATTAAACTTATTAACAG
GCTTTGTCTTTTGCCCAGAAATTTTACTTCTGAAAACTAGCCTAAAAAATAATAAAACCTTAATATTTGAGTTTATATGTATAAGGATGTTTGTTGAAGC
ATTGTTTTTTGTAGGTACAAAAAATAAAAGGTTAGATCTCCATTCACACTACACTGTACTACATCCATTCTAGGAAATACTATATGGCTTTAAAAAATAA
CTGATAATATCTATGATTTACTAGCCCAGAGCAATGTACACAGCTTACATAAAGAAATGTGCATGCCATTTTTTTGTGAAAAAAATCATAAAAATTCCCT
GTGTGTGTTTTTATAGGATTCTGTAAGGATAGTAAAAGACATGGATGATCTGTACTACTGTTTTCTGAGTAATATAAATGGAAATAGAGATTTTAATACA
AGCACAAAGGAAAATTATGCATAACAGAATTTTATCTATTAAACGACCACATAAAAGAAAAATACAATATTGATATTGATTTTAAAAAAGATGAAAATAA
ATGTCAACATATTGAACATTTGGTCAGGTGATTATGGAGCGCTAATGTTTTTCTTACATTTCTGTTATTTTCATATGTATTTGTAATAAAATAACGTTAT
TAAAATCACTTATAAAGGAAAATTAGAAACTACAGTCCTAGTTAAGTAGGAGTGCAAAAGAACTTGTGAAATGGGGTCGGGTAAGAATCTAGTGACTTCT
CTGGAKTTGCAAGCAGAGGGTGCCTGATGCAGACACTGAGCTGGACATGAAGCRTGTTCTCTGAAGATTATTGTCTGTCTTCCTTCTAAACCCATGGCTC
TGCGTACCTGTTCCTGCTGGCCCTTGAAGAGGTTCATATATTTGAAATGAGCATTTTGGGGRTGTTCAGCTTGGTGCTATTCATGATAATTTGTAATAGG
TTAAATGCTTTCAATTAAAGCTTAAGTCAGTGAAGCTCTCAGTTGAGAAATATCAGAAAATTGAGTGCACTGTAAAGTCAGTCTCTGTAGGTCTCCATAG
CTTGAATTTTGTGGAGTCACCACTGAGCTGACCTTGTGCTGAGTTTTATGATTCTCATATTAGACACCTTCTTACACATTCAGATGGCATTTCCAGCTGG
CTGTCTAAAGTTGCTTCGTAGTCACGGAATCAGGACCCCAGAACAGAGAGCCAAAATTGAGCACTGTTTCCTGAGAGCACTGTGGCTCTGTCCTTGAGGA
CAGATTTGGCCTGTGTTAAGTTGTTGATGAGCAATTGTTAGGATTAATGGTCTCTGTGAGTCTACTCCTTCTATAACCCAGCACCCAGGCTTTCACATCA
ACCACGCACCAACCATCACAGCAGCTGTTTTCAATCTGCCCATCATCTTAACCACACACACAAGGCTGCAGAATTCATCTCATTAACTTCCTTATTTTGT
AATGGAAGACTGAGGTTCACAGAGGGACAGTGACTTTCCCAAGTCACTCAACTGGTCCTGACAAAGAAGGACTAGCCTATGGCAATCTCAGATTGCCACC
TCTATGTTGAAATGACATTTACCAGTAACTAGCCCCTTGGCAGAGAGGAACCCATCAGGCAGGCGGTCTGTGCATGGTGGGTCAGAGGCAGAGCTGTGCA
TTCACACAGACTGGATTCAAATATCGGTTCCTTCATGTTTTAGCTTTGTGACTTTCGCTGGGTCCTTTGATGTCTCCACTCCTCCATTTCCTGTCCTCTA
AAGGGGGAATGCTGGCAGTGTGTTTTCATGGGATAGTTACGAGCATTAAATAACTTTCTTCCGGTAAAGTTCTTGGTGTTGTTTCTGACATCTAATAAGC
AATCAAATGTTACAACTGCCACCACCATGGTAGCACRTCCTCTTCTGGGTAACACCTATGTTAAATCAACGTACATGGCTTGACTCAGGTGATATCTGTA
ATCTTGACTTTGTCTGTTTACATGTAACTAGGCCTCTGGTCTCTGCCATCCTATMAATCCATTCAGCCTTTCAGCCTCAGTTTCTCCTGGTAGAGCCTGG
CATGGCCTGAAGGCAGCACAGTATAATAGAAATAGGAAGGTGTGTGTGATAGACTAAAAGATGGCTCCCCCAGACACCCAAGTCCTGATCCTGGTACCTA
TGACTATGTTACCTTACACAGCAACAGAGACTTTGCTGGTGTGATTAAGTCAAGGATCTTGAGATGAGGGGTGAGGGGCTTATAAAGCGGAGTTTCCCTG
CACAAGCCCTCTTCTCTTCTCTGCCGCCATGTGAGACATGCCTTTCACTTTCCACCATGATTGTGAGGCCTCTCAGCCAGATATGCTCAATTATCTAAGT
TGTCCCTAAATGTAATTACAAATGTCCCTACAAGAGGGAGGCGAGTGGTATTGACTGAAGAAGAGGGAGGAGGCAATGTGATGTGGCCACTAACCCAGAA
ATGAATTCAGTCTCTAGAAGCAAAAAAGGCAAAATATACATTCTCTCCCGGAGCCTTTGGAAGCAGTGTGGCCCTGCTGCCACCTTAATTTTAGCACAGT
GAAATGGATTTTGGACTCCTGGCCTCCAAAACTGTAAGAGAGTAACTTTGTGTTATTTCAACCTAACAGTTTGTGGTAATTTGTTAGGGCAGTCACAAGA
AGCTCTGATATGGTTTAGCTGTGTCCCCACTCAAATCTCATCTTTAATTTTAGCTCCCACAATTCCCATGTGTTATGGGAGGCACCCGGTGGGAGGTAAT
TGAATCATGGGGGCAGGTCTTTCCTGTGCTATGCTTGTGATAGTGAGGAAGTCTCATGAGATCTGATGGTTTTATAAAGGGGAGTTTCCTTGCACAAGAG
CTCTTCTCTTGTCTGCTGCCATGTGAGATGTGCCTTTCACCTGCTGCCATGATTGTGAAGCCTCCTCAACCACAAGGGACTGTGAGTCCATTAAACCTCT
TTCTTTTGCATATTGCCCAGTCTCAGGTATGTGTTTATCAACAGTGTGAAAACAGACTAGTACAAGCTCATACAGTGTAGAAGTCACTCCTCAAAGGTGA
CTTCTGTCACCACCCTCACCCCAAGRTTAGAAGAGTTCCCATTGCACCTTGAAATTCATTTTCAAAGCATTCATTGCACTTGGGACTATTAGTTTAATGC
CCAGCACCTGGAACCAGTGCTTGRAACATGGGAGTCCCTTAATAAAATGTTACTGGATAAATGAATATTTGTCTTCCCAGAGAGACAGTGAGCTTCCTAG
AAGCCACATGCGGGCTCTTTGCTGCTGCATCCAGAGTGCCTAGCTCAGCGCTAGTGCATGGTAGSTTCTCCATAAATATTTGCTGAATGAATAAATGGCT
GCTTGTCTCCTCAAGTAGCCTATCAGCTCCACATTCGCCATGTCAGTTTCTTCCTCTGCAAYCTCTGCAGTGGCTTGCACCATGCCTGGTGCCTTGTAAG
TTCTTTGCAAGCAATCATTGGCCATCTGCCTGAGTAGTCACGCTGGTCCGGACTTGAGCGATCCTCTCCCTCTGTCCCTTTGCACTAGAGCAGTTGTCCC
ATTAAGCCATGTGAACCCTACCGGTGTGTGTTATGAGCCATGCGTTGTGCCAACATCCCGGCAGACGGAATTCAGCAGTGCCACGGGAGAGAGCCAGCGG
CCTCCCCTGCATCTGAGCAGCSTGGCTTGTTAGTTCCCAGTCCTTCAGCCACCAGCTGTTTCTAACACAAACTCGTGGTGACAGAGCTCTCTGTAGGAGA
AGCTAACTACAATTGTCAGTCTGCAGAGCATCAGGCATCTCTAAAAGGATTCCAATTATTGTTCTGTTCTGCCTGCTCCTATTACAGTCTACCTCAACAT
CAGCTCTTATTCAGGGAGAGGAGAGCGAGATGCTAACTCTGTCTCCACTCACTCTTATGCCAGAGGACCAGCAGATGCCAGCAGCTGGTGTCACGCTGGA
GAAGGGTAAACATAGGTAAACTTCCCCTCAATGCGACGGCTCACTTTTCATTGGTGTGTATTGCACTTAAATGTGCTCGGAAAATCTCAACTCAGCGTGA
CTCGCAACCTCACCACTGAGCGGAAGATAAATACTGAGATGCCCAGAGGTGAGTCATTTTTACAGGGCATTCCCCAAAGACAAGATGGGAGGTGCCTCCC
ACACTCTTCACCTCCTCCTCTGTGGGCAGCAGGTCCCTGCCTGAAGCCGACAGACAGGAAGTCGGATCTGTGTAGGTAGAGTTGGCAGGTTTCTCAGCTC
TCATAATAGCTCATGGGCATTGCAGTAAGGACCCAGCACAAGGAGGTGGTGGAATGGCACGGCCCACGGCTTCCTTAGTTGTGGAAGTTGTGAGGATTTA
AGTATAATTTACATTATCTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCA
ACCTCCACCTCCTGGGTTCAGGTGATTCTCTTGCCTCACCCTCCTGAGTAGCTGGGATTACAGGTGTGCACCACCACGCCCAGCTAATTTTTGCATTTTT
AGTAGAGATGGGATTTCGCCATGTTGCCCAGGCTAGTCTCAAACTCCTGACCYCAAGTGATCCGCCCACCTCAGCCTCCCGAGCTGCTGGGATTACAGGC
ATGAGCCACAGTGCCTGGCACGTTAATCTATTTTAAAAATCTAGTTGGACTTATTTTTAAACTTGTTTGTCAAGGCAAAATTCACATGACATAAAAATTA
ACCATTTTAAAGTGAACAATTCAGTGCCATTTAGTGGATGGACAGTGTTGTATAAGGCACCACCTCTATCTATATTCTCATCGCCCCCAAATGAAAACCG
CATACCTGTTAAGTAGTTGCTCCCCATCCTCCATCCCCCATGCCCTTTGTAATCATCTACTTTCTGTCTTTAAGGAYTTACCTATTCTGGATGCTCCATA
CAAATGAAATATRCAAAGAGGAGCGCATTAGGAAGGTGGTCTGTTCATGGTGGTTCAGAGGCAGAGCTGTGGATYCTCACAGCCTGGATTCAAATACCAG
TCCCTTCATTTTTCAGCTTTGTGATCTTGGCTAGGTTCTTTGACCTCTTCATTTTTCCTTTTCCTGTTCTACAAAGGGAAAATGCTGGCAGTGCATTTTC
ATGGGGCCGTTACAAGCATTAAATAACCTTCTTCAGGTAARGTTCTTGCTGTTGAATCTGACRTCAAATAAGCCATCAWATGTTACAACCACTACCTCCT
CTTCCKGGCTAGCACCTATGTGAAATGAATGTACATGGCTTGACTCAGGTGATGCCTGTCTTTTGTGGCCTTTTGCGATTGGCCCCTGTCACTTAGCACA
ATGTTGTAAGGTACGTCATAGTGTTTACTGATCCATATGATAGCAGAGGTCAGCRCTTCTTTTCATAGCTGAATAGTATTCCACTGTATGGATAGGCCAC
ATTTTGTTTGCCTATCCTTTCACTGATGGACATTTGAGCTGCTTCTACTTCCTCACTATTATGAGCAATGCTGCTATGAGCATGCATTTGCAAACAGTTA
TTCTTATTTAAATGTGAATTAGCAGTGCRTATACACACCCAAAATTGGGTCATCAAAGCCATGATTTTATTGATAATGATCAAGGATTTCTTCTTTACAC
AAATTCATTAGAGCACAAATGTCAATGTCTAGGACAATTTTATAGGACAATCTGAAGAAAGCAACAGCTCAGCTGGAATGTGGATATGGTTGAAGTCATY
AGTTTAATCATATCTGCAGAGTTTCTTTTGCCATATAAGGTAACACTCACAGGTCCTGGGAATTATTAGGATCAGGATATTGTTGGGGTCCTTTTTCAGT
CTGCCATATACACTGTGGCCTGAAGGTTCATTAAGAGTTAACTGGGAGACCAGAGCATAAGGGGTGCTCCAGGCAGAGGGCACAGCATGTGCAGAGGCCC
TGGGGCAAGAGGCAGCCTGGTATGTGCAAGAAGAAAAGAGATGCACGGCTGGAAAGAGACACAGGCTTTTATTGGCCAAATTAAGGACTTGGGTCAGCAT
CCAAAGGACAAAGAGATGCCACTAAAGAATCTCAAAAAAAGGAGTGATAAGTTGATTGGCATTTTAGTAGATGCTGTGGCCACATTGTAGATGGGCAAAG
TAGAGGGAAATAATTGTGGATTCAGAAGAAGTTAGGAAGCTGTTGCAATAGTTCTGGTGAGAGGTGGCCAAGGCAAAGGTTAGTGTGTGACCGTGAGGAC
CAAAGGAAGAGGACAGTCACAGGCATCTGTGACTTACAGCTGACCAGCTCTGCTTTGCTACTTCATTCGTTGATTCCACAAGTGCGTATTGAGATCTCAA
CATGGGGAAGGTGTTATGCATGGTGCTGGGAATGAAATGCTGAGCCAACTGTGCAATCCTGGACAGGTTAATTAACATTTAGGCCTCAGTTTCCCCAAGA
TATGATAATGTTCATTTTTTTTGGAGTGTCATGAATATTAAGTGAGTGAATGGAAGGAAAGAGCTTAGGACAGTGCTTGACACAGAGGAAGTATTTGGAG
CAGCAAGCAAGAGAAAAAGAAGGAACGAAGGAAAGGAAGGAAGGGAGGGAGGGAGGGAAGGAAGGAAGGAGAGAGGAAGAGAAAGAGAAACAAAGAAAAG
AAAAGGAAAAAAAGGAAAGAAGGAAAGAAGGAAGGAAAGGAAGGAAGGAAGGAAGAAAAGAAAAGAAAAGAAAGAAACCCATGGACACCCACAGAAACAA
CCACCCTGGCTTTGGCCCTCCTCTCTCTAGAGTAGTCATTGAAAAATTCACCCAGGACAACATTTGCATGAACACCCAGGAAATGGGTGGCATATGGCAT
TTGGCATTATGAGGCATTGAGAAATCCTTTCCGTAATATCCACTGAGTATATACTGTGAGCCAAAACTATGATAGCKGCTATGGGGGAAAAATGAGTAAA
AACCAACAGTCATTGTCTTCATAGAGCTTACAATGTAGTTGGGGGGACCAATATTAGTCAAATAAGCATARTAAGAAAGATAGTACAAGGTAAGAGGGGG
AAGACCATGTTGCAAGAGAGTCTTTGGTGGGCTGAGTTGACCTGACCACGGTAGTCATGGAAGGTCTCCTTGTGGACGTGATCCTTGGGGTGAATCAAGA
GGATGAGGTGGTGTTAACTGAGCAAGAATGGGTAGAAAGAACATCACAGGGAGAGAGAAAAGGGTGAGCAAAGGTCCTGTGGCCAGTGGGAATGCAGTGA
GTGTGGGTGTAGATAAGGCTGGAGAGGCCACCAAGAGCTGAACACCCATGGAACCTTGTAGAACAGGCTGATGGGTTTTGTCTTTATACTAATGGAAATG
GGAAATCCTTAAAGTATATTAAGTTATATGGAGATATATACAGAGATGCATCTTTGGAAAGATGATTCTGGTTTGAGTGTTAAGGGGAGATGGAGAAGGA
GATAAGAGAAATGTCCACTAGGGGACTACCATATTGGTTCAAACAAGAGACAGCAATTAGGTGGTAGAGATGGGGAGAAGGTGCCACTTCGAGGGCTGTT
TAGGAGAGAAAATCAACAGYAGCACTAGTGATAAATTGAGCAGAAGAGGTAATGGAGGGTCAGGTGGCCAGGATAACACCAGCATTTCTTGACTGGTGCA
ATCGAAATTGAAATGGGGATGTTGCGGATGGAGGTAACTCATGCCACAGGTGTTTCATCTTCTCAGTAAAGCAGAAGCCTGGCTCATTTGCTGAAAAAGA
GTGCATTGAGAACTAAGGCAGAATTTTAAGGACGTACAAACATTTTTGAATGGCAGCTGTGGGGATTCGAGCAACAAGAATGACTTGCAGAAGTGATGAC
TTAATTGAAATCAAATTGAAATACATAGAAACCACAGATTTGGAGTAGGCATTTCATTTGATATGTCTCAAAGGCCCAGCAGGATGCTCTATCTACAAAG
AAGGTACAGAATAAGTATTTGTTGAGCAAGTAGATAAAACCAAAGAGCGATTTTGCATGACTTTCCTGAGCCAACTGGGACAATGAATTGGCTGATCTAT
GCACAAAAATTTGTCCTGCTATATTTCTTTCCATGGCAATCCCTGTGTAGAACTTTAGGCTGCAACCTAAAGGTGAAATGCACTTAATTTGGCTTGAATA
ATTTACTTGGATTCTTCCTTATCAACAAGACTTGAATATATAATGTATTTGAATTTGAATTTGGTAGTTATATGATTGTTTAATTCTTGGGGATTGGAAT
ATGAGGGAGATAGGAAGAAAAGGAAAAGGAACCATTTGCTCACACTCTGGCAGATCTAAAGAAGGTTTCATTACTGTAGGGCTTCTCAGAACYTTCAGTA
CCCTAAGACAGAAGCTTCTTAGACATTATTTGTTCTACAGGAAAAAAAAAGTGTTGCAAAGAATAGCTACATATAGTTMTTATCTAATATAGTGGCATTC
TATGGAAAGAAATAAATCTATATTAGATTACCTTGAATTTGAGAATATCACATTTTAGCCCCTTGGAAGGAATTGTACTCTGGAATTATATCTTTGGAAT
ATCTGATCAGGCCATTATACCAATCTTCCCATGTTTCCTACCATATTTCTAAAAGAATATTATTTTATACCATAACTATATTCAACATAGTGCCTATTTC
TCTATTGCCTTCCTAGGAATTTAATTTTGTTGTCTAAATGGGGGAAGTCTGTTTCCTTTCCCAGTTACGGCCCAAATAATAAATGTTGATGTTACCGTGC
TATAAAAATATGTCCTCTATAAATTGCTTTGCTTGTCATTAAGATGTTTCCTAAACAAGTTGAATATGCGCTATGTTTTTGCCAGACACTTGAAGCAATC
TTAAATTACCTGCTGTGTCTACACATATTCAGAAGGCCATAATAGAAATGTGCCGAGTGGCTCAGGAGAAAATCATTTATAAAGATTAGAGGAGGACTTG
GGAAGCTCTGCCTCTTGTTGCTTGGATTGTGCACAAATACATTTATTTCTGGGTATGTTTAGGTTATTTCTTTTCAGATTTMTTTTGGTTTACACCGTTT
CCCAAGCATTAGTCATCACTGTCCCCTGAAGCAGTCACACTATACTCATCTCCGTAGATGATCAATCAGAATCTTGAGAGTGAAATGACCAGTTAAGACA
GACCAACAATTTGTTGATCTAGTGGAGGCGGAAAAAATGSAGTCTGAATTGAAATGACTTTTATGAGATTTCACCCAGGTGGTTGTTTCTAAATTTATAC
TCAAAATATAGAGTGAAACTTGAGAGAACATTTGCAAGAAGGAATGTGATCCTAAAATAATAGGATGTCCTTGTTGGGTGAGTTGAGGAAGTATGATAGA
GCCATAGAGGAAAAGGGTAGATTGGCRTCGACTTAGTAGCGCTGACGATCATTTTTATCAGGGATGTGGATGTAGGCACAGAAAGAAAGGCATAGCTCTT
AGATTAGCAGAAGAGACAAGGTTGGAAGGAATAATTGTCCAGTTAGAATGCATAATCTGTTTTTAAAGACATATTAAACTGGAATAACCCATGTACAAGT
ATTTATCCAGCTTRGATACCTGGAAGTGGAATTCCTGGTTGAAAGGTATATTAATATAAAATTTTGTAAAAAAATATATGTTAGATAATGCTTAGTCATC
CTTCGCAAATATCATGCCAATCTACATTTCAACTACCAGGGCACACACTTGAACCCATATAAACAGTGGTCTATTCTGAGGACTTTTCAGAACTTTTATT
AAACSAAGATWCATTGTAAATCTTTGAGGGAGTCATCTGGCATACAAAGTGTTTTCGAAACTTTGATTTTAAAGGAACTCATACTAACATCTTGAGAATC
TAGTATCCTTAGAACAGTGGTCCCCAACCTTTCTTGGCACCAGGGACCGGTTTTGTGGAAGACAATTTTTCTGTGGGCAAGGGTGGGGGATGGTTTCAGG
ATGAAACTATTGCACCTCAGATCATCAGGCATTAGTTAGATTCTCATAAGGAACATGCAACCTAGATCCCTCACACGTGCAGTTCACAGTAGGGTTCACG
CTTCTATGAGAATCTAATGCCATGGCTGATCTGACAGGAGGCGGAGCTCAGGTGGTCATGCTCACTCACTTGCCACTCCCCTCCTGCTGTGCGACTCGGT
TCCTAACAGGCCATGGACCAGCACTGGTGTGTAGCCAGGGGGCTGGAGACCCCTGCCTTAGAACACAATTCAAGAAATGCTAGTCCACATGAAAGTGAAA
GGCTGAAAACTTGCAGAAAAGGAAAACCGAAACATTGAAAGAGGGAAAATCTGACAGGAGAAGGCACAGAGATGAGCATGAGGGCCATTTGTTGAAGTGT
TGGTAACAGYGATAATGATAATTCTAGCTGATATTTTCAGAGCATTTTCTACGTGTCACTCATGGAGTCCTCACAAGAACTTCACGAAATAGGTACTGTA
ATTATTCCCATTTCATAGATGAAGCAATTGCAGCATAGGGAGATGAAGTACCTTGTCCAAGGTCATGCGAATAGGTTAGACTTATTCACTCTGTGTGGCC
CCAGAGGAGGAATGGTTCTAGAAAGAAATATTTTAGCTTAATATTTGAAGAAGGGCTCCAGCAGTCAGAAACTGGGCATCATCTATTAGGGATATCTCCC
TGAGGGAGAATTTGAGCGTGATTAATTCCCTGACATTCCATTGGTGGAACTCATTCTTTGACTTTAGATAAAATTCTCTTGCTTCTGAATCTCTGCTAAT
TTAGGTGGTTTGTCCTGGACAAGACTGATTTTTAAAATTCTTTATGTTATTGTCAATAAATTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCA
CCAGGCTGGAGTTCAGTGGATCCATCTAGGCTAACTTCAATCTCCGCCTCCCAGGTTGAAGCCACTCTCCTGCTTCAGCCTCCCGAGTAGCTGGTGTTGG
AGGCCGAAAGATTGAGGGTCGTGATCAACTCAGTATACCACTGGAGGCTATATGAGTAAGCGCCAAACTGGTCTTCATAAATGCAGAATGTTGGCAGACC
GACAAACTGCGTCTGCTGCCCYGAAGGAGTGCTGAAGACAGTCACCCCCGATGCGCAGTGTTTCTTGTGATTAGGTACATCTGAAGCCTGTTAGTAATAA
TATAAACCTGTGTTCAGTTAAGCAGCTGACCAGTCATTACCACCTCCTCCTTGCTCTTTCTACCCAATAAATACAAAGGGCTCTAGAAGCTCAGGGGTGC
CTTTGCTCACTAGAAGCAGGGAGCTCTCTTCTTCTTCCCCAGACCSTTCCTTTAAAACAGTTTCTTTTGTCTTAAGTTTCCATTTCTACGTTTGTCCCTT
TGTTCAGTCTCGTAATGACACTCTCAAGTAGTAACAGTAGTAACTGTCCTAATGACATCTCAAGTAGTAACTGTTGTCATGATGGTCTCAAGTAGTAACA
GTAGTAACTGTTGTAGTGACTGGTCTCAAGTAGTAATTGCGGCAGTCAGCCACAGCTGGAATTACAGGCATGCACCACCACACCCAGCTAATTTTTGTAT
TTTTAGTAGAGATGGGTTTTCACCATGTTGGCCAGGATGGTCTTGATCTCCCAACCTCAAATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTAT
AGGCGTGAGCCACTGCACCTGGCCTATTGTCAATAAAATATTTTTATATCCATGATGCCAGTTTGTTTGGTAAATGTGACTACAGAGCCCAGGGTGAAAA
GATGTAGAAATTGTCTTGGGATCATCTTGACGTCTCCTGGTTGGAGTATTCATGTTCACTCCCRCTCAATCCCCAGGTCATATGGCAGTCTAATCTCAGA
CTCTCAGCCCAGCTGCCACCTCCAGCCTCTGGCCTACACTAGTGCCCAGTGGTGAGCAAAGATGTTGGGAAGAAATCTGGATGCATCTAACCCTGCTGCC
TGTTGAGTATCAGGAAGCTGCCCAACACTCTTCCTTAGAAAGGTTTTAACATGTCATAATATTGAGGCATTGAAAATCTAAATGAATTCTTCTGATTGTT
CCAGAGAAGCTATGGAAATATGATCACTTCATTATCCTTTACCAAATGTTCATTGCATGTCTTCAGTCCCTCACATTCCCACCAGCTCCTCTCTTCTTTG
CCTGACCAACCTTACTCATCCTTTGAGGCATGTGGCAGAGATCGTGTGTTCACTAAACTCTGTTTGTTTTCACTCTTGGCCATAGTTAGACTTAATTTTC
CAAAGTTCCTTGCAGTTAGGCAGGGCCATGAAACAGACAATGGAATTTGGTAGAAGTCATCAAACCACTCCTTCCTCTCCTCACCTTCTTTCCCCATCCA
CAAGCTGAACCAAGGACTCCAAAGGTCTAGAGGAAGGCACAGCCCAAGATGGAAGGACCTGAATCCCTGACTCCCCCAAGACATTGAGCAAAGTGGAAGA
AATTCATGGTTGGTTTTTAAGCTCTTTAGAAACAGTGGTTTATTTGTTGCAGCAGTTAATGTTGCTCTGCCTAACATAAGACTCTGCTCTACCACATCAG
GTTTCTTCATGGGTAAAGTAAGGTCTTCTCCTATGAGAATGYATAGAGCCCTAGACAGAGCTTGCATCATAGCTTTAGAATGCAAGCCCCATGGGACAGA
GGCTGTGTCTTTCTTATCCATCATTGTACCCATTCCCTAGCAAGTGTCCAGCATTTGGAAGMAAGTCAATAAATACTAGCTATTATTGCTATTAGTATTA
ATGTGTTAGCGTTGTCTGACCCTTGCTCCTTACAGTGTAGGCCATGGGCCACCATGGCATCACCCCAGAGCTTGCTAGAAATGCAGAGCCTCAGGCCTCA
TGCTAGTCTTATTGAATTAGCATCTGCATTTTAACAAGACTCTCAGGTGAGGCCATTCCTGCTGAGGTGCACATACTAATATTTGAAAGACATCACTCTA
GACCAGCAGTTCTGAGCCTTGGTTGCACCTTAGAGTCACCCTATCAGAATTCCTATCAGAATCTGGTTTTGTTTTTGTTTTAAGGCTTCCCAGATGAATG
TAATGTGCAGCCAGGATTGCAAACTACTGCTCCATCTCAGTAGTTCTCAAACACTAGCCTGCGGCAGAATCCCCTGGGTGTTAGGTGCGTATCACAACAC
AGATTGCTGGATCACCTCCCCACACTGCCTGATTCAGTATGTCTGGCATAGGGACCAATAACGTGCATTTCTCCCAACTTCCCAGGTGCATTCGTTTGCA
ACGGCTGTSGTAACAAAGCATCATAAACTAAGTGGCTTACAACAGCAGAAATGTATTCTCCCATGGTTCTGGAAGCCAGAACTCTGAAATCAAGGTGTTG
GCAAAGCCATGCTCTGGCAGCTAGTCCAGGGGAGAATCCTTCCTTGTGTCTTCCAGCTTCTGATGTTTGCCAGCAACCCTTGGAGCTCTTTGGCTTGCAG
AAGCATCCACCACTCCAGTCCTCTGTCTTTACACGGCTGTCTCCGTGTGTGTCTTCACATTGTTTTCCTYGTCTGAACATCTGTCTCTGTGTCCTAATTT
CTCATTTTTATAAGAACACCAATCATATTGGCTTAGGGCCCGTGCTCATGACCTCATTTTATCTTGTTTACCTCTACAAAGACTTCACTTTCAAATAAAG
TCACATTCTGAGATATTAAGGGCTAAGACAATCAACATAAGCTTTTTGAGGGGACATAATTCAACTTACAACAGCAAGTGATACTGATGCTGCTGGTCTA
GCAACCCCAGCTTGAGAACGACTGCCTTGTTGTGAGCTGCAAAAGTGCAAAGACAACATTCCTTTCTTTCAGTACATCCTACCCAGAGTGTAGCTTGGCG
CTTGGCACATCGTATGTTTTAAGTAACTATAGGTTGAATTAATTAATATTCTTTCCACACAGCAATTTGGCCTGCATAAAAGACTTCRATATTTTCYTGA
TGTTGCCAGAGGCTTAATGTGTGACATTTCGTATAGCAAATGCTCAATAAATGTTGGGTGAGTGAACATAGCTGTCACTCCTCATTACATATTTTAAAAA
CAACCTTAGTGGGCCTTCATGCTTTTATTCCACCTTATGGAGCCCAATGACAGAATGCTGATTAAATGACATGGCTCCTTTAATGGGAAATTAACAATCT
ACAAAATGTTGTGGATTCAGTAATAGGCATTTGAGGCGCTGACTATGATGATTTGTTGCTTGCCTTGCCTTGATTCCCCAGTGAGAATTCATCTCTATTT
AGCAAGTGCTGTGATCTACTCCAGTAAAGGAGATCTCTTTCTTTGAATCCCAGCAACCTCTAGCTTGGTCTTTAGCTTCATATATCACTGTTAATTTTCA
CCTAAGTCAGTGGTTCTCAACTGGGGGTGATTGTGCTCCTCAGGGGACAGACATTAGAGACATGTTTTGGTTGTCTGTCGTGAGAGCAGAGTGTATTCCC
ATTCCCCAGCTGGGACCAGSGGGTATGCTGCTCTCATCTAATGGACAGTGGCCAGGGGTGCTGCTGAACATCCTACAGTACATAACACAGTTCTCATCGC
TACAGAGAATCTCTGGCCCCAAACGTCAGTAGTGCCAGCGTAGATAAACCCTGACCTAAGCAAAGACAAAATGGACATGAAGTTGCCTCAATGGGCAAGA
CCAAGACTTCTGAGCCACCCCATCAGTGACACTTGATGTAGCCSGTAGCAGGAGTGCCAGGGAGAACACAGCTTTGTTGTTCCATATCCAGCTGTTTGGA
TCAGAGGGAAATGGGATCTTTCAATCACTRCTGCAGTATGAGAAAGTGAGCTGCACCCAGTGGTTACTAGGTGGGGTGCTCTGTGCAGTGTGCTTCGAGC
ACACCCTCTCACTGAATGTGAGATGATGCTCCCACTCGCAGTGTCTCTGAGGTGAGAACTATTACAGTCCCCACATTGCAGAAGAGGAGTCTCCAGCACT
GAGACTGAGTAGTTCACCCAATGTCATATAGGGTGGAGTGTTAAAGTCCTAAATAAAACCCAGTCTRTAGGACGATTGAGTCTGTGATTTTAATCCCTGT
GTAGTCTGGGTTTACATTTCCATTCAGATTCCTGCTCCAACATTTCCTATAGATGCTCCTCAACTTACGATGGGTTTATGACCCGATAAACCCATCGTAA
GTTGAAAATTATCATTAAGTCAAAAATGTATTTAATACACATAACCTGCTAAACGCCATAGCTTAGCCTACCCTACCTTAAACACACTGAGAACACTTCC
AGTACAGTATTCAATAAATTACATGAGATGTTTAACACTTCGTTATAAAATAGGCATTATGTCAGATGATTCATCCCAACATCACAAGAGGATATGGCAC
CACATGTTGCTAACCCAGAAAAAGACTAGAATTCAAAATTTGAAATACAGTTTCTATTGAATGCATATCACTTTCATACTATTGTGAAGTCAAAAAATTA
TGAGTGAAATCATCGTAAGTCAGGGACTCTCTCTAGCTGCATTGTGYTGGGCAAGGGATTTAACCCTCACCGTCTTTGTTTCCTCATCTGCAAAATGAGG
ATTTATAACAGTTCAAAGGGTATCTACTAGGATTAAAAGATACAAAATACATCTAACAATGTCTGGCCACAGTATAAGCTCAATAAATGTTAGTTCTTCT
CCCCGTTAGCCGTCATTACATTCACAGGTATTAAGAAAGAGAAATGTATAGGTATGATATGTAATTCTCTTAGTTAATGAGACTTTCCTTAAACTAACTA
GAAGATTCCATTCACTGGAAACATACTTAATGATGAAGCTTTTATTCTGTTCATCTCCTTCAGGGAGTACTTAAAAATAACTCACAAGCCCATTGTTAGA
GCTCATGTTCTTTACCCAACCAGGATTTAATTAGTCCTTCAGCTCCTTAGCCCTTCTTAGAAGTTGTTCGATGTTAAATCCCACATGACCCTTGGGTGGG
AAGGTGTGGAAACCCTCCAAGCACCATCTGACATACCCAGTGACTAGGAAGACTTCACAGTAAGAGTTAAGGATTTTTAAAGATTGCCGATGTTAATGAA
GAAGGAAAAAAAATAGTGGATGTGCTAAATTAGATATTTACAAATTATGTTCCTCTCTCCAGGGGAAGATTCATTAATTTTCACCGTAACCAGCTTCATT
CTATTGGGACACCAGAGGAGGATTTGCAGATTACAGATCCAGCCACATCTTTCTCATGCTTAAAGAAGTCTCATTGTCTGCACTGTCCAGAGAGGGGAAA
GTCCACTGCCTGGACAAGGCCTTCATGGCTGTTCACAACCTGCCCCAGCCTCCAGTCCATTACCCTTGCCTATTTTGTTGCAGTGATGGAATTAAAGTMC
TTCTAATGAAAAAGGCTGTAGGTGAATTTTAATCCATTAGCCATCTACCAGACCTCCTCTGCCATCCTTTAGACTCTCCATACAGTTCCTCTCCCTGCCG
TATCTTCTTGTGTGTCAATATTTATATCAAGCAAGCCCTCCTCATCTGCCCACCCTTTATCTGCCAGGCTAAGTCCAACTCCTACTTCAAGACCGCATTC
AAATAATGCCTCCTGTCTGCAGCTTTCCTCAGCTTCCCCATGGAGAATTGATGGCTCCCTTTCTTTGAGCRTATTCATTCATTCATTCATTCATTCAATG
ACAACTATCTACCAGGAGCTGTTCTAAGCATTGGGGTGTGGAGGTGAAYAAGAAAGCATAGAGCCATTGTTCTAGCTGGGGAACCAATATGAAGTAAAAC
ATAAGCTAATACTTAAGTCCAGAAGTTCAGAAGTGATAAGTGCTCTGAGGAAAATATGGAGTGATGAGGAAGAGTGAAATTGGCAGAGTGAAGAGTGATA
TTTGATGAGGCAATCAGAAAGAGCCATTGTGAGGTGAGGTTTGGGCTAAAACCTGCAYAATGAGAGGGAAGCATCCATCCTCCAAGTGTAGAGCGTGGGA
CGTCTTGGTAGATACCTCACCAGCTCTTCCCTTCTCAGAGGCTCTGAACTCCTRGAGGGTGGCACTCTTGGCATCCCCAGACTCTTGGCATCCCCAGTAC
TTTGTCCGGAATTCATGCATAGCAGCAGATAGCCACAGGTGATGGCTCAAGTGCCTTCATTTAATTTAACTTAAAATTTTATTTTCGGTTGTACCTGTTA
TGCATTTGTTAGCCATACTACTGGTTTTTTTTTTTTTTAATCAAAGAAGAAAATAGCTATTGCTTCTTTTTTTTTTCTCTGGGTTCAAGACGTTCTGGAA
ACAAAGTTTGAAAAATCCATTTAGGAAATGCAATTTAAGTGCCAGATAACATCTTGGGATTGGCGCCATGATCGATGAGGTCTGGGTGTAACCAACGTCT
TATGCCATGTCTCTGATCTTTACTCAAATTCACCTCCTATTCTGGGTAGYGAAGTTTGGGGAGACCCAGTGGTGTGGAGAGAGGGTTGTGTTTAGCTTCT
CTTTCCCTGACCTCAGAGTAAACACCAGCCATCTGCATAACAGCAGTGCCCTTYCATAGTACTTATTAGGCTATTGTTACTCAGTTGATGTCAGTTGGTG
CCACTAGACAGAGGGCACTGCAGCCCCATGGCCATGTCTGTCTTTCTGAAAGATTCAAGTGCCAGTCTCTTTGCATCTGGCACACAGTAGGTACTCTGAA
AAGACTTGCAAAATGCAGAAATGAATGAATGAAGGCACAACAAAAACACGGACCGGAAGGGACACCTCCGGTCCTGAACAGCCTGGCTTCAACTTCAAGG
ACCACAGTTGGCTTGAATTTTAATCCATCAGGTCATCTCCATGTGTTCACTTTCTTCCATAAAGGTGAATGTGTCAAGCACTGTGCAAGCTGCCAGGAGA
ATGGTGGAGTATGATAACCATCTAGTGGGGGAGGCAAACTTGAATCGAATGATGGCACAAATAAGTGTGGAATTATAGAGTATGGTAAAAGCTAAGAAGG
AAAGGCAAAYAGGGCTTCAAGAGTACACAGCAGTGAGCCTGGACCCAGGGGGATGTGGGAAGCCCAGGAACCTGGATAAGTGGCTGTTGTTGTTTAATCT
ATTTTTTAGCTTTCATTTTAGTTTCAGAGGTACATGTGCAAATTTGTTACATAGGTAAACTCATGCCATGGGGGTTTGGTGTACAGATTATTTTGTCACC
TGGGTACTAAGTATCCAATAGTTGTTTTTTTCTGATCTTCTTCTCCCACCATCTACCCTCAAGTAGGCCCTAGTGTGTGTTGTTCCCCTTTGTGTGTCCA
TGCTTTCTCATTATTTAGCTCCCACTTATAAGCGAGTACATGCAGTATTTGGTTTTCTGTTCCTGGGTTAGTTTGCTAAGGATAATGGCCTCCAGCTCCA
TCCATGTTCCTGCAAAGGACATGATCTTTCTTTTTTATGGCTGCATAGTATTCCATGGTATATACGTACCACATTTTCTTTATCCAGTCTACAGTTGATG
GGCATTTAGTTTGCTTCCATGTCTTTGCTATAGTGAATAGTGCTGCAGTGAACATATGCGTGCATGGGTCTTTGTGGTAGAATGAAGTCACTGTTGAGCC
TTGACCTCCAAGGCTGAAATAGATAAAGGAGTGAGGAGGGTGTTGTAGTGGGAAGCTGTGGCCTGCAGAAGCTATCCTGGGGCATCAGGAGCTGCTGGGG
GAGGGAAATGGTATAAGACAGCAGACSAGGCAGACCAAGACTGGGTTCTGTAAGCTCTGCTAGGAATCTTCCTTGGTATCTGCAGAGCACAGGAAAGCTT
TTGAGAGATTTCAGTGGGGAGATGATATATGCAGAGCTGAGTCTGGAATTATCACCTGGGCTGCTTGCTGCCAGATAGATTGGAGCAGGAAGGGGGGGAT
GGGAAGCTAGCCAAGAGCAGGTGTCCAGGTGGGAGAGAATGGTCACTTAAACCTAGTGGGGGTGCCAGGGTGGGGAGAGGTAGACAGATTGAGGTGATAT
TTAGGAGGCAAACTCAACAGGCCTTGGTGATGGCTTATTTAGCTCAGTGGTCCTAAACCAGGGACAGTTGTGTCTTCCAAGGAACACCTGGAAATATCCA
GATATTTTTTGGTTGTTGCAACTGGCTGGGAGATTGGTGGGAAGGGGATGCTACTAGCATTTCATAGGTAAAAACTAAGGATGTGGCTAAATATCCTACA
ATGCAAAGGGCAGCCCCTCCCCCAACAGCAAAGCTTTATCTGGCCCCAGTGTCCRTAGCGCAGTGGTTGAGAAACCTGGCTTCAGATGTAGAAACATCAG
AGATGCAGTGTCAGAGGTGATCTTTGGGTCTTGTCTTGCTAACAAGGTGAAAGGTCATGCCATTCTCTGAGATATTGGGACCCCGGATAGCCAGTTCTTT
TACAAGGGGTATGTGGTGTCAATGGAGACCAGAAGATGGGTTCCTGAGGCATTTGGAGACATCCAAGTGAGGAGATGGCTTGTTTTCTTCCTAAATTTTC
ACCATCCCCCACAAGRCAGCCTTTTTTTTTCTCTGTTAATGAAGTTTCCAGCCACCTTACCCTGGATTCTCACCTTCCAACCCCCTGCCTTCCAATATTC
CACCCCTCTTTTTTCTGCCCTAGAAGAGAAAMCTATGATCCTTGCATTAGAATGGTTTTCCTGCCATCASTATTGCAAAATAGACAAGGGTAAAAGAAAG
CCTTCAGTAGAATTTCATCTGAGTATTTTCTTTGCCCCCTTGTGTGTCATTTTCTCCTTAAGAAAACTGAGGAAGAAGTGYGATTTAGTCCCCTCATCTG
CATAATTTTCTTCCCTGTGTGGCTGTGTGCTTGTCAGTGCTCTGACAGATCAAGAGTGCTCTGAAAGCTCAGAGGAGCAGGAAGAGACCCAGGTGACCTG
GTGAGAGCCACGCTGAATCTCGGTTCACATGTCRTTAACGGAGCTTGGTCCTTGGAGGGCCTTGTGGGGAAGGACGCAGACAAGCTGTGATGGAGTCCTT
GGGTCTCACCTGGGAGAGCCCACGGGAGCACCTGTGAGTTGGTTCCGAGAAAACATCCCACTCTCCAGGTCACCTCTCTGTGCTTCACCCCACCTCTCAT
TCTTCTTTTGTSCAAAGCACCTATTTGGAAGTAAAATATCAGCTAGAAAGGAAAGGAGTTTCAGAAGAAAGTACCACATCAGCGTTTTGAACAAATTAAG
TTGTGTGCAAGCTGAGCAGCCTGTATCAAGGGGAACGTGGTAGAGGGATGTGAGCCTCAGGCTGCCTGCTGCCGGTTGCAGGCTGCCATATGCTTCACCT
GCTTGTGCCCTCGAGGGTCCCCTTCTGGGGTCCCCAGTCTGGCTTATGATCATATTCCAGCATAGAGCACTCCCTAASCSCACTCCCGTAGCACTGGGAC
TATAGCTTTATTTCTTGCATCATTTTTCTCTACGCTCAAAAAAAAAAAAAAGCAAAAACAAACAAAAAAAATCTGCTCAGCATGAGAAATCAAGTTAATG
AAAACGCTACCGCATTGAATTTCCAATAAGAGAAAGGCAAAGCAAAACTTGTYAACTAAAGAAAGGGGCATTCACTGTAATCCCTTCGAGGAGAGGTGGA
AGCAGGAGTAATACAAAAGCTCATTACTGTAATCAAGGCATTTGTAACTGTTGGTGGCAGGAGGTGAAAGAGAGAGAGAGACAGAGAGGGGAAGACTCTG
ACGGAGGTTTTAACTGTATGCATGCCAGTCTTTCCCACTCGTCTTGCTGGTACAATCTGGATCGTTCATATAGAAAGGAGACAGGGTTTGCCAAACTTGG
CTGACCAAGCCAAAAACACTAATTAGCAGCAGCTGCTCAAAATTGGGGATGCTCTTGCCTTCTAGTGCAGGGGTGATGACTTGTTCTGACTCTTCAAGAT
TCACAACCTTAGACTGCAGGATGCACTTTGCCAGGGGAAATGTATTCTCCAACGTGGCTGTGTGCATTGGTGCTCAAACATTGGTGAAGCCCCAAGTACT
TGAGAGGGACAAACAAAACACCTGTGGAATCTCTTGGTCAGCTGGCCAGCAGGAGTTTGAAGYCAGGGTGAACTCAAAGCATTCTCCCAAAGAAGCCTTT
TTCAACCAGGGGGCRCTGACAGAAGTTGTCAACACGTCTGGCAAAGCTTTCCAGCATCTGCTATGATGTCTTAATCCTCCTGTGAGGAGTGACAGAGGTA
ATGTGTGGCATGGAGCCATCAGTGACATTTGGTGATTGAATGTTGCTGGTGGCAGTGTCTTAATGATGGAGACAATTSATTGATAGGAGGTCAACTGCCA
AGCAGTTAATCCGATGGCAAATTCCGCTCATAATGGAAGAGCTGGCCCATGCATGCAAACCAGCATGGTGGGGGATTCCTGCTGATGCAGCTGTGGGCAC
ATGAGGAGGGGGAAAGATATCAATGCCTCTGATGAATGTCTAGCAAAGTTTTCCTTGTGAAACCTCATGGAAAGTTCCATGAGGYCAGAGATCACATCTA
CTTTGTTCACTGTTCTATCCTTTGTTGCTGACACATAGTGGCCATTCAGTAAACATCTGTTAAATCGAGGAAGCAGTGAATGAGTTGGAAGCTGCCTTCC
TTARGCTGTTTTACTTCCAGAATTCTACTTTTTCACTGACAGTAAGCCTAACCTCTCARGTTAGAAATCTAAGTTGCCTTGCATTCCTCCCTCTCTCTTC
CCCACCAAGCTCTGCATATTCCATCTCARGAATAAATCTCTAACATTTCTCCCTTGTCTTCTTTCTCTGAAGCCAATTTGCATCTCCCAAGTAGTCTTCT
GATGAGTAAGCCTACCCCCATCTCTGTTCCATGGCCCCCTTAAGTCATTTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTTT
GAGACAGCTTCTCACTCCATCATCCAGGCTGGTGTACAGTGGCATGATCTCAGCTCCCTGCAAACTCCGCCTCCCGGGTTCAAGTGATTCTCGTGTCTCA
GCCTCCCAAGTAGCTGGGATTACAGGTGTACACMACCACACCTGGCTAATTTTTGTGTTTTTAGTAGAGACAAGGTTTCACCATGTTGAGCAGGTGACCC
CAAGTGATCCACCTGCCTCGGCCTCCCATAGTGCTGGGATTACAGGCATGAGTCACCGCCCCTGGCTTAATTCTTTTAACATGTAAGTCTCATCATGTTA
CAACCCTGCTTTACATAGTCAAAGTCAACAAGTGTTATTTGGCCATAGATATCTCTTAGGCCATGACAACCCACCTCCTAGTACCTTCCCAGCCTTGGGT
TAACTTCATGTCAGTGCTCRCATTGGTGCTTCACTGTGTGCTGTGTCTTACCTTTCAAACACCCATTCTGCATCTTCTTGTTTCCTAATCTTTGCTCATG
TATTCACTCAGGCTGGACATCCAAGCTTCTCTTTTTTTTCCTAGCAAAACACTGTCTTTGTTTAAGATGTGTCATCTGGGGACCTTTTTCTGATTCTTGT
CCTCCCTTGGAGAAATAAATGCATCTCCCTTTCCTTTCTTCCATTTTTCATCACTTTGTACTTGAATTGTCGATTTGTCTACCCATCTCACCTGCTGGCC
TATGAAGGTGTCAAGTCAGGGGCCATAACATCTTTTTCACTGTTCCTTCCAGCAACTAATATGGTTCCTGGCACATAATTACTTAATGTTAGTTGAAAGA
AAAAATGGATGGATGAATGGATGGATGGATGGATGGGTAGATAAGTGGATAGGTGGATGGATGGGTTGGTTAGCGGGTTAATAAGTAATGGGTTAGATGC
ATGACAAAATGAATGGAATAAGTAATTGAATGGATTCATAAACTGATTCATTCCAGGGGAATACTAAGAAAATAGCAACTCCACCACCTCCCACCTTGGG
ATAAATGATATGGCCCTGTCCAGGGAAGGCTGAGTGCCCTTTGTCCTCAGACAGTGAATTCTGGAGTTCCAGGTACATGAGCATCAGGGTGTGATCTAGA
AAGSAGCCTGTGGACCTAGTTGGGCGTATTCTCTTGGTCCTGGGGATTCTTTGTGCCATGGAGAAGAGCATAGTTTGAGGGAGGTCAGAATGGGAGGCCA
GAACCCAGCTGCTTATGTCTAAAGCCATTATCTTACCAGGAAATGACTAAGACATATGGGAAAGGAAATGCCAATCTGGTAACTCCTGTAACTGTCAGTT
CCAGTGGAGGATGCACCAATTGCTCGTGCTCACATGCTAAATCCTTTCTCCAGACATCACCCTGGCATGGCMCTCCGTCTCCTAGTCAGGCATTAACTAA
TAGGGGAAATGCAAAATGTTGATACCGCAGAATATAGAGACAGAAGAGATTCACACTGAAAGTGCAAATTACTTTTTYTGCAGTGAATAGAAAGTCACAT
TACTCTAAGAAGCTGCCTAATTATCTGTAATTATGCCCAAAATAGTCAAGCTAGTTTGCTAGCCAGTTGAAGAATTGCATCTTAAATGAATTTGTCACTA
AAGAAAGAATGTTGAAACCTGGCAAAAGAGATTACTGTATTTCAGGGGAAAGATTAGAACATATCATGCCTGTGTTCAGTCTTTCAAAGACGTGGTTATT
GGCTGGGCGCAGTGGCTCACACCTGTAATCCAGCTCTTTGGGAGGCCAAGGTCGGCAGATCACAAGGTCAGGAGTTCGAGACCAGCCTGACCAATATGGT
GAAACCCTGTCTCTACTAAAATGACAAAAATTAGCCGGGAGTGGTGGCACRCACCTGTAATTCCAGTTATTCGGGAGGCTGAGGCAGGAGAATCGCTTGA
ACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGTCACTGCACCCTAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAGTGACT
GTGGTTATTGTAAACATTTTTGCTTAGGAAGCATTTATTACAGCTGTTCAATGTAGCATTTTACGGTATTCGGTGGAAACTCTAATGTAAGTTCGGAGCA
GTCCTAACATTCCAAGAGTTAAAATTATCCATGATTGGGATGTAATATCTAAATTGAAATAAATAAACTGTTTTTATATGAAGGATTTTTTCCTGATTSA
AATAAAGGAATCTAGTTTCATTGTAGGCAACACAGGAAATACAAAAGTTATAAAATTCACATCTGTAATCCCATCAACCAGAGAAAACTCTTAGTAACTA
GTGGGTGTTTCTTGCTAGCTCTTTTCTATGCATATGTTTTTCTTATAACACTGGAATTTTAATATATACAACATTGTTTAGTTACATTCTTCCATGTAAC
TTTCATGAGCATTTTTATCTGCCCTGTAGGAATCAAAGTGATGGGTTTTTTTTGTTGTTGTTGTATTTTTTTCTCAGATGGAGTATCGCTCTGTCGCCCA
GGCTGGAGTGCTGAGGCACGGTCTTGGCTCACTGCAACCTCTGCCTCTTGRGTTCAAGCCATTTTCCTGCATCAGCCTCCCAAGTAGTTGGGATTACAGG
CACCCACCACCACACTTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCATAATGTTGGCTAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCA
CCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCAGCCCAAAGTCATGGTTTTTAAATGCCAACATAATATTCACCATTTTT
ACATACTGTTGTTTACTTAACCACCAATTTATTGTAGATAATTTTGTGTCTTTTATAGGTATTTATAAACGATTCTGCAGTGAACATTCTTGTACAGATA
TAATTGCCTGTGTCTCTGTCTGTTTTCTTAATAATGCCTAGGAATGGAATTACTAGGTCAAAAGGTATGATCATTTTAGGAGGTTATAGATTAGACCTCA
ATGTAGCAGTGCCATTTCTGTCTGTGAATCTTTCTTTCTAGATCTTTCTAAACCAGGGTATAGAAATAGAAGGTAAAATCCTCTTGGACAGAAAAGAAAA
GAAGCAGTGAACACTTACTTAAAAAAAAAATAGGCAATGGAGGAGAGCCAAAATTTGAACTCCAGCCTGAAAATCACAGGATCCCTGGAGACAGGAATAT
GCACTGGCAGGCAACAGAAAGCCAAACAGAAATGAGATCGAAGAAGAGRTAGGAAAACAAAACATTTCAAAGGAGGCATAGAAAGGAGCATATAATGGTG
ATGGAGGCAACGATAAGTAGGCAATGGAAAGTAGAGAAGAAAAATAGCAGCATGGCTGTGAAGGAAGGGAACACGAACTTCTGCAAAAGCTGTCAGAATC
AAAATGAAGCCACTTATGTTAAAATTTTTTTTAATTAATAATCAATTTAAAACCCTGAAAAATGAGCTGAGGARGGTTATGAAGAGGGGAGTCTCACACT
TGGTTGCCTGATAACAAAAACTGTCACAAAAGACTGCAAAAACCACAACCTTGCACAAAGGCCATCACAACCTTACACACACACACGCACACACACAAAT
ACTTCTGCAAGGACATCTGCCCAGCAACTGCCTGTCCAAGTACAGACTGATGTCACCCTTATTATTGATCTTTGTAGCCARCAATAACTACTTCAAAGCC
ATTATGTAATCTTCCTCATTTTTTCCTTCAAAAACATTTGTCTTTCTTTACCTCCCTGCACACACATACAAAGTTACTGCAGCACATGTATTCCCATTGC
AATGCCCTACTGCTGAATCTTTTTTTTTTTTTTTTTTTTAGAGAACCTCTCCCTCTTTGTTATTTAGGTTGATGCTTCCTGAGGCCACCCCTGTGCCACA
CAGACAGAACCCTGCGGGGCCAGAGGTGGAGGGTAGGAGCCATTGAGTGAAAAAGCAAGTCAACATCTACCAGCTTGCAGCCCCTCACTGACCATGTTGT
ATACAGAGAGAGCGAGCTACTTTGGTACTTCATCAACCAGACAGTTCAGCAGCTTGAAAGAGGGGAGATTTTTCCATGTTGCAGAGTGACAAGTTGATAT
ACAATGTTTATGGAGACCATGGTTTGTACAGTGGTAAACTCAAGCACAGAAACAGGCATAGGGGTATCTTAGAACCTTGCTGCTCAAAGTACAGTCCATG
GACCAGCAGCATTGAAAACACCTGGAAGATTTTTAGACTTTCAGAAACCAAGACCCTGCCTGCCCCAGGCCTGTGGAATCATAGTTTGCAGTTTAACTGA
TTCCCCAGGTGATTCATATACACATTAAAATTTGAGAAGTGCTGTCTTAAAAGACATCTTTTTATATGAATTTCAGACTTTGCTGGTGCTTGGATTTCCA
GTGTTCACTGGAAAAGCCGAAAGATTTATGTGAGCACTTAGTTGACTGAATTGCATGTGATTTTAGAAGAGGGATTTCCAGATGTAAAGTTAAAACATGA
TGTGTGATACTTAGCATAAGTGGAGAAAACCAATTGATAAGCCCAAGGCTAAGTGGAACCATTCTGACTTTTTGAGAAACGCAATCTGTTTGGGGGATAG
TTTCTAAAGTTCATCAGAAGAGGTGTCATTAAATCAGATTTTAAGCAGAATATAGCAGTTTGGCTAATGTTGGATAGTCTGTCTGCTCCCAATTCCAGAA
AGTAAAATATTTTGCAATTGAGGATTGTAAACATCTTAGACAGTTGCAAGGACTGTACATGACATATCCATGCAAGAGTATTCYGTTCTGTTTCTATCAG
CTTCTTATGCTTTTTCAATGGGAAATAGTTTTGGAATAATGGGCTCATTAGAGATAGACAAAGCTATGGCCTGGGGGAAGTAACACTGGTACCCAGAGGG
TTTTAACTGTTTCACTMCCTTTCCCAGTGACTCAAACTATGCACCAGTATTAATTTTAAATGACTTTACAAAAAGACTTAATGAGATAAATCGTGTAGGC
ACAGTATAAAAGTTAGTCTTTCATGTTGTGTCTGCCTGCAGCAGCGTTCTAACTCAAACGTTAGGAGAGGCTTAGAGACAATTTGGGTCTAGCATCAAAT
CAGATAAACTATCATTTTTAATTATTGTTATTTTGATAAGGACTTCATAGTCTCTTAAGTAAGCCAGCCCTAAAAATCCTTGCTCATGTTTTTAAATGGT
AAGGGAGATTCTGCAAAGATAGTATGAGGAAGCAGGAGGAGGAGGCAAATACTGGTTAAATGCCTTGTCTAAATCCACCACAGTCCTCAGCATCATCATG
AACAAATTGCAGCAGTTATGCACCAAGCAGGATGCAAAGCAGGAAACACACATTCTCACATGCGGTGGTCAATCAGCCAAGTAAAGCCAAAGTTGTTGTT
GTTCCCAGTTCAAAGATGAGGAAATTGAASCTCGGAGGGGTCAAATAACTCATCCCCAATCACAAAGCCATTAAGTGGTTCTGTCAGGATTTGAATCCAT
AGCCTAAGTTCATCACCACATTCTTCTCCTTGTCTCAGTTTCGGTATTTCTCASAAATCAAGGGACMTGGAGAGAAACAGAAACTATTTCCACAACATCA
AGAATGTCACTTAGAATCAATATTGGCCTGGCTTCGATAACTTACCTAACAGAGAGGTAATCTTTTCATGGGGCACCCCAYACTTCACGCCACACTTAGG
CAAGAAGAAATGTTCACAGTCTYAGCTGATGCCAGGGAACTTTACAGCAAAGGAAACGTTGAAGCGYCTCCTGGGCTGTGTCCCTCCATCCCTGTGCCTC
TGTCATCCTGTCTACAGATTCTCATGACAGCAATGACAACTCTCAACCGATTTTCTACATAAGGGGTCCCCGACCCCCAGGCCTGTAGGAACCAGGCCCC
ACAGCAGGAGAGGTGAGCAGTGGGTGAGCGAACRAAGCTTCATCTGTGTTTACAGGCACTCCCCATTGCTCSCATTACTTCCTGAGCTCCTCCTCCTGTC
AGATGAGTGGCAGCATTAGAGTCTCATAGGAGTATGAACCTTATTGTCAACTGCATGTGAGGGATCTAGGTTGTACGCTAGTTATGAGAATCTAATGCCT
GATAGTCTGTCACGTCTCCCATCACCCCCAGATGAGACCATCTAGTTGAAGGAAAACAAGCTCAGGACTCCCACAGATTCCACATTATGGCGAGTTGTAT
AATTATTTCATTATACATTAGAATGTAATAATAATAGAAATAAAGTGCACAATAAATGTAATGGGCTTGACTCATCCCAAAACCATCCCCACTCTGGTCC
GTGGAAAAATTGCCTTCCACAAAACTGGTCCCTCATGCTGAAAAGGTTGGGGACTGATGTTCTATGTATATGATAGAACATGTTACTGACATGTTACATT
ATATGTACTATTCTGTGTTGAAGCAAACGAAGCTCTCTGTAAGCCTTTCGGAAATAGTACAGATACGGAAACAGGGGCATCTAAAAGTCGGCCATCAGGC
ACTCAGGGTGASATACTCTGCTTGCCCTTTGTTATAGGAAATGCCCTGGAGTTGAGTCTGGGAGGTACTGGGAGGTGTCTCAGCAGGAGATAAGCAGCGG
GGACTTGCCGTCTTCCTAGATAGTACTGTTACTTGGTTGGTACCTTTCATCTCAATGCCCATTTGTGATACCAGTTTGACCCCAGTAGCACCCAATTTCA
GACTTCCCCAGCCACCTGTGACTTAGAGTGAGTAGAGAGGCAATTAGGGCACATGCTTCGATCATTTTGAGTGACAGAGTCTTCCAGATAAAAACAATAT
AAAAGAGAGACTGCTAAGGGTCTCTGGGGTGAAGGGTCTATAGATCCGTCACTTCCACAGGGAAGATTGCTTTTCTTGGTTGTTTGCTGAGACCTGGGGG
GCATTGAGCACTGGGAAATCAATGATTGTACAGCTTTATATAAAAAGGGCACCCAGCAATGCTCACACAGTCTACAGGGCTCATTTCTTCCTGAGGCAGA
AGAGTTTTGCTACACTGACAAGAATCCTTCTGGCTGGACACAGTATGTCACCTGTTGTAGAGGGGCTAGAGTTTGAGACCATCACATTTGCTTTCTGCAA
GCCCTGAAGATTTAAGAGTGAACCTACATTGTTTATTGGGATGTTCGCAGGTTGTAGTGGTAAGATTGGATCAGCGCGGTACCAGTTAGCAGAGAGGGAT
GATGTTTTTAAAGAGTCTTCCAGCAGCCACAAACATCTATGAAAGATACTTCCATCAAAAACAAAGCTTGAAGTCAAAAAAAATGGGGAATTTAAGAGCA
TCTAGATTTATCTGTTATGTGCAACAACTTCTTACCTGACTGGTTGTGCCTTGGGTAGTATCACTGGTGCCTTATGCATGAATAATGTATGTATAATGTA
TGTGTCACTGCCTTAGAATAAGCAACGTGGACCACAGGTCTTGGGCACCTTAAATAATTTATATTTAAAATCTACATCTAGTCAGAGATGCATCTGCATC
TACATGTAACATTTATGAATGCAAGTGGAACTTTTTTTCCCTTTTTTTTCAAAAGCTAAATTGCCTGTATTTGAGTGTTAGTGTTCCAATTAATTTAGTT
GACATCATTTCAACTTTGTTGGAATACCTACTACTTACAGTAAGTTATGTGGGCCCTTGTTATGAATTAATGAGAGCAACAGAGAAATAACTTCAGGGAA
AGGGTACATCTTTAAATAATTTACCCAYGTGGGTAGGTAGGAAAACTGGATCTGTGGTCATGCGTAGTGTGCGGGTATCCGAAGCTGGGTGTCCACAGTC
ACATCGGGTCCTCTGTATCTGTGGCACRAGGGCAGACAGAGAGGTCAGTGTCCAACACCRTGGGAGGACCACAGGCTCACCTCCCTCARTGGGGTCAGCA
TCTCATAAATTAGTCATGCTGGAGYCCTCTCCAGGAGTTCCTGGTGGGAGCTAAAGGGAAGGTGAACTCCTTTCTTTTAAACACTGCTATCATGTKAAGA
TCCACTGCCAGGAACTAGGAGGGCAGAGTGAAGACAGAGAAATGCAAAGACTGTATTCYGAAAAGTTAAGGAAGCAGTTCTGTGGGTRAGGATAGTGAAT
AATAATRTTGTGAGTTGTTTTGATGAGCCAGGCAATGTGTTGATCACYTCACATGTAGTATGGTCTTTAATTTTTATTTGAAAAACTGAAGGCCAGACAT
GGTGGTTCACACCTGTAATCCCAACACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTTGTGAGTTCAAGAGCAGCCTGAGCAACATGGAGAAACCC
TGTCTCTACTAAAAATATGAAATTAGCTGGGCATGGTGGYGTGTACCTATAATCCCAGCTACTCTGGAGGCTGAGGTGGGAGAATCACTTGAACCTGGGA
GACAGAGGTTGTGGTGAGCCAAGATCATGTCATTGCACTCCAGCTTGGGCAACAAGAGCGAAACTGTATAAAAAGARAGAGAGAGAGAGAGAGAAAAGAA
GGAAGGAAGGAAGGAAAGAAAGAGAAAGAAAAAGAGAGAGAGGGWGGGAGGGAGCGAGGGAAGGAAAAATTGAAAACCCTGAGGTAGGCACCTTAATTCT
ACCCATTTTTCACCTTAATTCTAACCATTTTCCAGATAACAAGCACAGAGTGGCCAAGCAACTTTCTTACTGTCACAAAGAACAGGGATTGGAAGCCAAG
AAGCCGAAGGCACTACAGCGTCTTTTTGAAACTTGGTGCTTTCGTGCCTGCCCAAATTCTCTGATTAAGAAAGAATTAGTTTCCTAATTCTTTTATTTTT
AAAATAAAAATAAAAGATTAAATCAGATCAAACAGTTGGCCAATATACATGTTGGTTATTCACACGATGGAGGCYTCATTGCCTGATACATCCCATACTG
ACAGTAGCAGATTTGGAACTCATGAAACCCTCATCSCTTCAACTTCCTGCAACACCCCAGCTCCTTCTAATAGAACCCAGTGTCTCCTTAATTCTTTATG
TGATGAATACGTATTGAGTAGCTACTCTGTGTTAGTCCCTGGACAAGAGCAGAGCAAAGGCAAGAACGAGATAGGAGAGGTCTCCCTCTCACAGAGTTTG
GAATATAGTAGACATATTCATAGTTCTGACTGGGCAAAATTCTTCTCTCTTACTTTTATCCATAGTTTCCAGCTCTGAAACCTAATGCTACAAAGATAAA
AGTTGCATTTGATAGATAATGCAATGGAACACTACTCAGCCTTTAAAAAGGAGAAAATCCTGCCATTTGCAACATCATGGATGAACCTGGAGGATGTTAT
GCTAAGTGAAATAAGGCAGACTCAAAAGGACAAATATTGCACGTTACCACATATGCAGTGAATCTAAAATGGTCAAACTCATGGAAGCTGCATGGGAAAA
TGGTTGCAGGGGCTTGGGGGAGGGGATTGGTGTGGTATTAGACAACAGTACAAAGTTTCATTTATACAAGATGAGCAACTCCTAAAGACCTACTATTTAG
AGTTTCACTTAACATTGTTTCTCTGTAATGTTGATGAGAAAACAAAAATGGTCATTGGTCCCTGGGCCTCCCTTCTGTGTGCTCTGCCGTTGATGTTACT
TAGCTTCTTTCTCTGTATTGACATCTTTTTGCCTTGCTACCTAGTTACTAAGTCTCTCCAAGTTTCTATTCCAAATTCCCAAGAGATCACAATGATTGAC
GCAACCTTAATCATATGAGTTGGTTCCCCTTTGGGGTATGCCCACCTCTGGCCCAGTAAGCCATGGTGCTGTGGCAAGGACAAGTGTACCATAAGGTTGG
CCCCCCCCCCCGCCCCAGGGGCTGAGGGTTGGGCAGATTAACCTGGAAGGGAAAGGGTATGTCTAGCAAATTAGAACAAGTAAGAAGTATGATCACCTGT
AAGTTCATGCTACATTTTCTGGAGGTTTTTTTTAATTATTTAATTCTCCTCTCAGACCTTCTGTGACTCCCAAACCAATAAACCATTTTTGTTTGGATGT
TGTTCTTTTCTTCCCTTGAAAAATACTCATTCAGGTTCTTCTCTCATTCCTTCAAAAGAGACTTCAGGCCGGGCGCAGTGGCTCACACATATAATCCCAG
CACTTTGGGAGGCTGAGGTGGGCAGTTCACCTGAGGTTGGGAGTTTGAGACCAGCCTGACCAACATGGAGAAATCCCATCTCTACTAAAAAAAAAAAATT
AGCCAGGTGTGGTGACGCATGGGAGGCTGAGGCAGGAGAATTATTTGAACCTGAGAGGCGGAGGTTGTGGTGAGCTGAGATTGTGCCATTGCACTTCAGC
CTGAGCAACAAGAGGGAAACACCATCTCAAAAAAAAAAAAAAAAAACTTCAAGCAAGGGAGGCCATGCTATCAAAGTATATTTTCCTCCTCTTCTGCAAG
GGGTCTACATTTAAGTCAATAGTAGCACAATATAAGAAGAAAGACTATTACCAGCTAACATTTATTGAGTATTTACTAGGCTATCAGCASTGGTCTAAGC
ACTTTACAGGTTAAATTCATGTATYTTCTACAATGATCTTAAGCAGAATTTCCTTCATTTTCTTATTTCCAAAATTATACTACCTAATATAGAAGGTGAT
GATGAATTTTGAGAGATAATGTACCTGAATTTCTTATTGTTCATGGTATATGCRGAATAAATTGTGCCTGCTGATTGCTGTAGTGGTATCATCAACTACA
ACATTGTTCCACAGCTGAGTGGCATCACTGTTTTGTAGTTCCTTAAAAGAGACCACTGCTCTGAATCTGACTAAACTGAAGACAGAGCACCAAAATCAAA
TGGGGATTCAGATGTCCAAAGGATGGGAGGTGAATGATAAAAATGGTTAGAGTCACAAATTGGAATCCAGTGGAGCGATAGTGCCGCAGAGTCAAGATCC
TAGAGAGCAGAATTCTGAGAAACCCATGTCCAGAGAATGTGGTCAGGACCTTGGAGAGCTCATGGTGATGTCCAAGTGTCTTCCACAGTTTAGATCTCAG
ACTAGTGCAAAAGTCTGCATGGGGCTCCAGCCTTGTAAGGGTCTCATCTTGTTTTATTTGGAGGCTCTGACATAGTGGAASTCTGGGTGCCAAAGGGATA
GTTCAGAACAGGAATCTTCTGACCTGGATAGGGCAATCAAATTCTTGATTGTGTTAGTGCATCAGGATCCTTGTCAGATAATAAGAACTTTTCATCTTCC
TGTGTCAGCAGAGTTCAGCTCTACTACCAGAATAGAAAAAAAAATTGCAAAGTATATAGCAAAAAATTAGCAAACAGCACCAACTTCTTTTCTTATGTAA
CCCACAGTGAACAAGAGGCAATTGTCTCAATCGGATTCAGGAACAACACTGGGTTACATTTGGATTCTATGTATTTTTAGATGTTTAATTTCTATTTGCC
TATTTCATGAAAGATTGGTAATCACACAYAAATCTGCATGAGTAAGAAGAGACCCATGAAAATAAATAGTCCTACAGATGTAAGATTTGAGATAAAACAT
ATCTTAAGTGAATAGATTGTCTKTGTTCTTCATGAACCTTCAACCTTCATGCCACATAGGTTTGGTGAAGAACGTTTTTGATGTCTGTTACCCACATGGA
GGGTTTCTGCCTGTCTATTTTGGGTAGAAGATACTTAGAACAAAAGTMGTCTTGAAGGGAGGAGAATATCAAGAAATAAATCATGTCTGTGTTCCTATAA
AACYAATAACAAACTTGGTAAACATGCATCTGAAAAATAACTAGAAGTGCTATTCTACTGTTACTATAAAGGACCCTGAGTACTGTAGATTTGGTTAAAC
TGTGGGTAGCCAAGAGGGACGAGGACCTGGATTTTGTCCTGAGCTTTTGGCAGGCTGGTAGAGGGACAAGTCCCCTTTGGATAAGTCCCCTTTTCTCTCT
GGGTGTGTCTCCTCATCTGTAGTAGAAGGACCATTGGATTAGCTGGTCTACAAGATTCCTTTCATGATCAGAAGTACAGAGTAAGTATATGAATGATGCG
TGAATTAATGAACAAACTTCTCCCTGTTGCSACATTCCAGGAATAGCCCATGGAYTTGCAAAGAGAGGCAAAAAATGGCAWCTACCAGCTGCTTCCTCTT
CTTAGGAGTCTCCAACAGAGCCTAATAACATGGGGAAGCATTACTAAATTATGACTTTGTGCAAGATTATTAACTCGGAGTGAATGGCTATTCTTTTTGG
AGATTTTAAGCAGTCATGGAACCAGGATGGACTCCTGAGATGGACAACTGCATTTATTCACTTCAAACACAACATGATAAAAATGTTTTTGAAGCTGTAA
TTTTACATCCTGAAAAAAGGTTAAATTTAAGGCAATGTACAAAGACAAAGAATGACTTTGAGCAAATGCATTAATTWGGTTTGAGATGTTCAGARTTTAA
TGTTGACTAAATTGGTTAATCTGAAGTCTTTTGGGAGTGGTGACAGTTATCCTGTCCTTACTGTAATCAATGTGCTTGATTTGGTGGAAATTTTACATAT
AGCCTTACGAATCCTTTTGACTGAAGTGCAAGTTTCCTCTAGAAACGACCAGTTTTAGGAGGGCGTGTGTGTATGTGTGTGTTTGTGTAAGAACACATAC
TGGACAAGACTTCTTGAAAAACAGACTCAGTAGTGTCAAGCAGCATATAACTCTCCCCAAACCAAAGCCTCCTGCCCTATTTTCTGCCTTTCCTCTGCTC
CCTGGCAGAGCTGACCTACCATCTCTCTCGGTAACTTGGCACCACTACTATCCAGAAACTGAAGTGGGATGGGTCGTTTTGTTTATTCCGTGAAGTTACT
GTGAGTGCACATCCTGGAATCTGAGAGATCCAGATCTGAATCTCAGTCTCTTGTGTCTTCACAGCCTGCCTGTATGACTGGGATAAACAACCTTAACCAT
TAGTTTCTTCATCTGCAAAATGGGGATGTAGTACCTTCCTCACAGAGCAGTTATGAGACTAAATGAGGTCAAATACGTGAAATGATTAGCACCTTGCCTG
GTGTTTTGCAAGTAAGTGTTCAACATCTGAGAGGCACTACTAGTATCAGTAGTACTGTTGGTATTTATCAGGTGCCTTCTGTGTACCAGGTACCAGGTGA
ATCCCCAGAGATGAAAATTGGACCGAGTCTGTATTTTCAAGTAGCTCAAAATCTAGCAAGAAAAAATGGCAGGCAAGCAAGTAATCAGGGAACAATTGGG
TAAGTGAGGTGACAATAAGGCATTAACATAAACCCAGACAAGGGGCAGTAAGGAGGGGAGGGGCTGCTTCTTGAAAAAGGTGACATATGGGATGACTCTT
TTTTTTTTTTTTTTTTTTTGTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCACAATCTCAGCTCACTGCAACCTCTGCCTCCTG
GGTTCAAGTGATTCTCCTGCCTCAGTCTGCTGAGTAGCTGGTATTACAGGCATCTGCCACCACACCCAGCTAATTTTTCTATTTTTAGTAGAGATGGGGT
TTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCTCCCTCGGCCTCCCAAAGTGCTGAGATTATAGGCATGAGCCATTGCGC
CCAGCAGGGATGAATCTTAAACCAAGTGACAAAAAGGTAAGAATAATGACTGATACATTCAGGGATCAGGGATAGTCTGTGCAGAGGCCAGAGAGAAGAG
TATGGAGGTTGGAGAAAGGCAGCCCTCCTCTGCCCTGGCTCCAGAGACCCCATGTCTGCCACAGCACAATTGTCTGAGTCCTGCAGTAAATGCTGTAAAC
TGTTGTTGTTGGTTTTGTTGTTGTTGTTGTTGTTTTGTTTGTTTGTTTGTTGTTTTCAGTTAGAAGCAGTGTCATTCATACAAATGAAATACCAAACAGG
ACCCCCATGGCAGAGGCAACTTCTYATTTTATCTCTTGCTCCTCAGCGCTTTTGAGTCTCTCCCTGCATCACTTCCCTGCCCTACACCTGCCAGGTCTGT
GGGTCCTCTTTCATGTTTGTAGTTCTCCMATACTCTTCAGGCCCAGTGATCCTTTTCAGACTCTTGTCCTCTAGAAAAGCAATTCAGATCTCGCCCAAGG
CTTACTTCTCGGTTTCTGGCTATAATTGCCCTCATAGTACCCTGAYCCCAGACTCCTACTGGATGCCRTCCGAAAGAGTTCTCGAAGCCCTCATCTGCGC
TATAGGCACAGACCACTCTCCCCAGCCCTGACAACCCTGACCTCACATGCCCTTGGSATTTCCGTTCCTCTTCCACTGTTCTTTTTTTTTTTTTTTTTTC
TTAGTTGCAGAGTTTTTCGGAAGGACTGATTACCGAGTCTCTTCTTTCCCCAAGAGTACTTCTTTGTCACAAATGATTCCACTCCTTGAGGACATTTGGT
GACATTTAATTCATCTCCTGTTCTCTGCTTGGATGAATTCTGGGAACTCCCTGAGAGGAAGGACAAGGCAGTGGAACATCTGAGCAATGCGATCTTTATG
TGGTGGGTGAAGGTGATGGATTTTCATCTCCTTCTTCACGTTTTTTCCTGCTGCATGGGGACCTCTGGGCATTCTCCTTTCTCTTCCTTGCTTTTAACTG
ATTTATTCTTTTCAGGCTTATGACTTTTCTTTTGTGATAACTGATTTATTATTTTCTGATAAGTTATTCTTTTGTGATAACTGATTTATTCTTTTCTGGC
TTCTGACTTTTCTTTTGTGATAACTGATTTATTATTTTCTGATAACTTATTCTTTTGTGATAACTGATTTATTCTTTTCTGGCTTATGACTTTTCTTTTG
TGATACCAGTTTGTAAATGTGTAACTTGTCTGATCTTTCTTCTTTCAGCACCCACCTCTCATGCTATAGCGTTTGCACTCCATTGCATATTGTTTAAGAC
TGGGACTCATTTGAGTTGTAACGCAGGTGTGAGAAGCTTTGCAAGGCTACAGAACTGTGTTCATCCGTCTCTTGACTTGGACTATGGAAGTTGCCACCTG
CTCAGATGCCCTGAATGGTATGTTGGGCTCTAAATTGGCCTGACAGTACCACAGTCCTCTTCCRATTTCTTGGGGATGTCCAGGCATTGGATAATGGCAG
CCCAGTTGCTTCTGCTTGCAGTGGAAGGAAGGGTTGGCATCGTTCCCCAGCACCCACCRTTTGCTGGGAAGGAAGGACTGTTCTTCCCTTTCTTTAACTT
GCACCTCAATGCATAAAGAATATCTGCCCTTTCCCCAACATGGGGCAGGGGTGGCCTGCTGGAATGGGAGTTCCAGCTTCTTTCTCAATCCCTTATTCAC
TCCTGTCATAGGAAGACAAGTTGCTAAATGACTGTGGGAAACCGAAACACCCTTCCAGCCACATATACTGTTAGATAAGGTTCCTGGCTCTCAAAGGCAG
AGCCCCACCTCCATTCTCCATTCTCCATTCTCCCTCTTCCACTCTCTCCATCCAGGTGCAGCAAGCCRTTTTGTGCTTCCTGTTCCCTGGACCCGCCCAA
GCCCTGAGCAGGCATGGGTTTACCCTCCTTGTACCATCTAATGAGGCCGGGCAGAGCATCAGATGGGAGGTTCTGGTCACTCTCAGGCAAAGCCCTGCTC
TCCAGCTCACTTTATGACAGCACTCTGCCTTCAGGGTTGTCATCACCTGTTCAGATAATAATCTAGCTCATCATTTTTCATCTGCCTGGTGTTCTTTGCR
TGTTGCTTCCAGAGGCAGAATCCCAGAGAAGAGAGGGAACTGTCAGCTCCTAAGAATCACTCCTCCAGAAAAGCTCAGCAACCAAGAGGAAAAAAAAGAA
GAAACACAGTGAAAGAGGAATGCTTTCCTTATTCCCACCCTCATCCCTCACCTATTCTTTCTCTACTTCCTCACGTTCCCTCCATCCCTGGGAGATTTAC
CATCTGCCATTCCCTGTGTGTCATACAGTTCTAGGCTCTGTGCTTCTGTCCTGCCTGTGCCTGAAATTCCTTACAATTTTCCCCATTTGCCATCCAGCCA
ACCCCTGCTTATTCAAAACTCAGATTCAGCCTCCCTTCTTCCAGGAGATCCTTGACTCCCCAGCCAGGCTTAGCTGCCACTCTTCTGGGCTTTCCCAGTG
CCCAGTCATGGCTCTCATCAGTGTATTCTCTAAAACCATTGACTTCTTCGCCTTCCCTAGCAATCTGTGAGTCTGTAGAAGAAAAKGCCATATCAATCTA
ACTTTGTATTCCTGGTTCTTGGCACATAGTGGGTGAACTCACACAGACTAGAGATAAATCAGAGATGAATGAGTGCCCCCTTGAGTCCAGGGCGTACCTG
TAAAATTGCAAATATCTGCATGTACGAGTTGCAGGCAGGGAAACTGAGTCACAAGAAGAGTTGCTTGCATAAGACTTCGCTAGTAAATGGCAGAGCTGGT
GCATGTGAAAATTTCTAAGGCAGAAATATGTACTTATTTAAAAATTTTTTAAAAAGCAAGAAATTGTCTAGACAAGTTTTTTCTTTGTTCGTCTGTTGTT
TTTTGTTTTTGTTTTTGTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTGGGCTCGCTGCAAGCTCTGCCTCCTGGGT
TCACGCTATTCTCCTGTCTCAGCCTCCTGAATAGCTGGCACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTT
CACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCGG
CCTAGACACAAGTTTTAACCCTGTAAATTCTGTTGCCTCTAACTGCAACCAAAGCCCCAATTCATCGCATTCTGCAGAGTGCTGCCCACATTCACTTGGG
GAATCAGCAGCATGTACACCTCATTACTTCACCTCCAAACCCAGCTCACAAGCAGGCAGGATGCGCACCAACTGTCCGGTTAGCAGAGCTTCCCATTTAA
ATCAAATTCTCTTCTCCTCCCAAGCTCATTTCAAAGGCATTCATTGGTCTGAATACATGTGCTGGTGGAACGAAATGACACTCACCCCAAAACAAAAGGA
AAAAAAAAAGCTGATCTGATGTAAAATCTGTCTGCATTTCAGAGCTGTCGAGATGAAAAATGAAGCCACGAGTTTGGCCTTTAAAAATATTAATTTCTTA
TAAAGATGAACTGGAGAGTGGTAACTAGAAAATTCCCTTATCTCCTAGGAAGAAAACACAGGATGAAATTCTGGTCCTTCTTCTTGAGTCTTGTATGTCA
TTTCCAAATTCAACGATTACTTGTTCACGGTTCATTTATGAGGTTTCTGAGCATAATGAATGTCCGCACATGTCACTGAGTTATTGATGAATCATTGTTT
CTATTCTGAGCTCAGTTCACGTAGTTCAATGTGCTTTGGCTTGGCTGTCACTTTAGGRGATGATAGTTAACCCAACGGAGTAAATCTGGCCARTTCCCGA
GTGGGGGCAGGGGGTTGGGCTCAACTAAGGGCACCAACAATAAATGCCTCCTTGCTGGTAGATGGGAAGGACTGAGAAGACAGAGGRGAAATTGCTTGCA
TTCTGCTAACATCTGCAACGTCTGTAACAGTGTCTYTTCCAGCAGTTGTAAAGGATCCTCACTCTCCCTTTCCTCCCTCAGTCCCAGTTCCTCCTCCAGA
GCTCCTCGTGATCATCTCCCAAAGCCACTCACTTGCTGTTCTGTCCTTTGAGGCCTCTGTCCACTTCCAGCTCCTGCCTCTCTTTCCTGGACCATTGCAG
AGTCTCAGAACTGCCTCTCTGCTCCCACTTCCATCCATTCTCTCACTGCCTCCAGAACATTCTCCTTTTCTGAAACACTCTCCTCTGCTTGAAAGTACTG
AAGGCTTCATCTTGCCTAGTGCAGCAATTCCAMATTCCTTATAATCTAGTCCCAAACCACTGTCTGGCCTCCTCTCCTTTCCCTCCTTCTGAACACCCTA
GATTCCTGCCAAATATAATGTTATTCCACAAACCTATGAGGACCTTGMCTGCCCTCTGTSCTTTGCACATGCTCTTCCTYCAGCCTTTGCACTCTTTCCT
TCCCTCGTCCACCTGGGAGACTCCTGCTGATCTTTTCAGACTCAGCTTAAATGTCCCCACCAAACCTCCCCTCCCTCTCCCCAYTGGAACCAGCTCCACA
CTGCACTCCACCATGTTGGCATGTACAGTACATGTGGCTACCAGTTGATTGACAGATTGTCCCTGTAAGCCAGTCTGCTCAGGGCTATCTCTGACAAAAT
AGTGTGTTCCCCTTCCTTGGGGAGTAACTTTAGACAATTTGCAGTGGATACTGGGCTGCAGCCTTGATGCTGTTTTTTCTCTGGAAACTATGCTTGAAAT
ATATTTGAATGAATAAAATAATACATCTAGTAAAAATACATTTTYCTATTTTTTTCTAAAAGTATCTTACACATTTTCCATCAGGCTCAATTGWGAAATC
CCTCCAGATTCCTAATTATCTTCTTCCCAAGATAACAAGATTTCTGTCCTCTCTTCACAAAGACATAGGACATGGGCTCAGAGACGTCCAGGCATCTAAC
TCTCTGCCTGTCTGTCTCTCTGGGGAAGCCAATGGTTTTTTTGTTTTTGTTTTGTTTTGTTTGAGATGGAGTCTCACTCTGTCTCCCAGGCTGGAGTGCA
GTGGTACAATCTCCGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTTCCGAGTAGCTGGGAMTACAGGTGCACGCCACCA
TGCCAGGCTAATTTTTGTATTTTTAATAGAGACAGGGTTTCACCATATTGGCCAGGTTGGTCTCGAACTCCTGACCTCGTGATCTTCCTGCCTTGGCCTC
CCAAAGTGCTTGGATTACAGGAGTGAGCCACCGTGCCCAGCCAGGAGCCAGTGGTTTTAAACTGATCATCATCCATTCCCTTTCTCAGACTTAGGTCCCT
GGTCCTGTGTAGCCCCTGTTTTCTTACAAAACAGGAAGAAGCTCTATTGTTGGCCAGAAAGCAAAGCAAAGGAACCTGAGCACACAGGATTCTAACTCAT
GCTGTTGATTTCATTAGTATAGGTCTTGCATCGTAGATGCCAAACAGAGTATCCACTTACCTTGGTGGCCACAAAACCACCTTGAGGACTAGCAAAAGAG
CCATATGGGGTCTTTTCTGTCTGTTCACCCCACCTTCTAAAATCCCCACCTCTCACACCTGGTSTCTGATGACACTTGTCTCGGATGTGACTCTGTGTCT
GCCCCACAAGATGATGTCTTCATCTGCCATTTAACCCAACCCTTTCTGAGTTCTGATCATGTTCCTGCACCAGGGAGTGAGAATGGCAAAGCCAAGGAAA
AACGTACTGCTGCCCTCACCGTACTCATGGTCTAGCGTGGAACAGCCTCGCTGCTTTACTGGGCTGCTGTGGGAAGGAACTAGCACAGTGTATGCAATCA
CTGGAAAAGACGGCTGGGGAGCTCAACAGCAGGAGACAAAGTCCATCCTAGTATTCCCAGAGATTCTTTCTCATCCTTTTATATATATAAAAAAAAATTT
AAATTTATTATTTATATATTTATATAAATTATTATATATTTTCTATATATTTTATAAAAATTATATATTTATATATATGAATAAAATATATTTTATATTT
TATATTTATAAATATATATATTTATAAATATAAATAAAAATTTATATTTWTATATAWAAATATAAATATATTTATATATTTATATTTATAAATGAAACTR
TATAATTTTTATATAAATTAATATTATACATTCATATATTTATAACTCATCCATATATATATATATATATATAAAAACCTTCTGGCGCCACCCAAGGGCC
AGCACCTCCAGCTAAACATTCAAAAGCAGAGGAGCTGCATTCCTCTCCAGCGTGAGGGAACCACACTCACCAAAGAAAGCCAAAACAGACCCCGTTGACA
TGCACATATTTCCACAAACATCATAAAAGTCCTTTTCACTTTATTTCATTACCAGACTATCAGGGAGAATTTCCCAGTGGAAATCTTCACCCAATTTGCT
CCATATGGATTTTCTACCTTATTTTACTACTGAGAAAGCAGTCTACATGTTTTATTTGCAAGAGAATCAAAAGATGGAAAATTGTCACATGAGGGACAGT
GAGAACAGGTAGCTGATAGAAATACAATTGACAGTTGCATCCTGGAAGAAGCTCTAACGGTCTTCATTTCTCTCAGCTTGATGTTGGGCCAAGTTTTTAC
TTCTTTAAAAGAAAAAAAAACTGGCCCTTAAAGCAATAAGATATTGATCCCTTAAATTATCTGTGTATTGAATTAGGCTAACAGAATCTAAGTTTAAGCA
AATTTGAAAGAATGATCTTGAACACGAGATAACAGGCCCCGAGTTTGTACTCCCAGGTAATGGTGACCATACACTTTTACCATACCAGATAATCAAGAAA
TATTGGGTCTGCCACTCCTTAATGTAACGCTGGCATGTGCCTTGAGAATCCAGCACAGGCARTTTGCTCCTGAGGAGGACCAGGGGTAAAGTTTATTCTC
CCTTTTTCCTTCTCAACTGTAATTCACCCCTCAATTACTCCCTCTCTTGTATTCCCAAACTGCATTTTCTTTTCGCTCATATCCTGTGGTTTGTCTCAAT
TCTATGCAGCTAGGTGCCTGAGCTAGAAACTACCTACCAAACTGGTGCCTCATTCCCCTGGCTCCTCACATGAAACGTGCACTCCGGCCACAGAACTTAG
CAGTCGCTCTGCATGGGGACAGATCCTGGCTCTGTCATTTCCTCTGGACTAACTAGGGGAAGTCATTTAACATTCTGAGCCTCAGTTTTGTCATCTATGA
AGTGTGTCAGATGGTGAGGACCATGTCACAGGTTGCGGTGAGAGTCAAATAGGGATAACTTCCAGAAAACTCACAAAGGCTGACATGTGTTAAGTGATCA
GTAGATGTTATTTATTTTTACAGTCATCATCAAAACCCTAATTGATAAGTAGGTATTTTTTATTCCACTTTCCTGTGGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGAGTTTCACTATTGTTGCCCAGGTTGGAGTGCAATGGCGTGATCTTAGCTCATTGCAATCTCTGCCTCCTGGGTTCA
GGCGATTCTCATGCCTCAGCCTCCCGAGTAGCTGGGAAGAGACAGGGTTTCATCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTACC
CATCTCGGCCTCACAAAATGTTGGGATTACAGGCACAAGCCACAGACCTGGCCTTTTGTTCCACTTTCTAAAACTCGCTTTCATTCCTCTGCTACTCTCC
CTCCTGGACCATCTCGTCTCACCTGGATGGATATACTGTCAGTGTCAGGTTCGCCTCTTAAGTCCTCAGTACTGAGCACAGTGCCTGGCAACATATGGCC
CCAAAATAAATCCCTGATCCATTGAATTGAATATTCTAGCCCTCGCTCACCAGTTAATTGATGTTATTCCTGGCCACTTCCGGGACATGGGCAGAGGAAA
AGCTATTGAACATGTATAATAGCCAAACATGGCATTCGTGATTTAGAAGAATTCGGAACAGACCCAAAATATGCTTTGGAAACTCAAATCATCCATCATT
TCTCCTATAAATTTCAGTAATCATTTCTGTTTGGTTTGTTTTAAGGATTTGATGCATTTAAAATTTAAATGTGGGAAAGTTACGCCTTTTGTTTTATTTC
CTAGTAGTATGACCAATGAGGCAAAGAATCCAAACTCATTAAGTTTCACACATAAAGGATTGAAATGTGTACAGTACTTACAGCGAGCACAGGCTGAGTG
ATGAAGCTCTCTTTTTAGGCCTTGAACACGTTGACATACGCAATATTTTTCATCCACAGAATATAGTAAGAACATCATCTCACACCATGAAACATTAATA
TTGGTTTTATGACTGTGCACAATGCAGTAACACATTGCTGAGCTGCCAAGAAATTTAAAGAATAAAAAAGATTTAGACACTGAAAGAACCTTGAATCATT
GAATTTGGGGAGGTAGGGAGGAAGGTTGGAGTATGCCTAGGAGCTGATTATGTGGCTTCCAACAAGTGAACTAGAGCCAAACTATGTGTATTTTAAATGA
TTTGGATCCTTAGGTTTAGTACTGGTGGGTGTGGCTCAGTTCTGCCTAGTCACCATTCAGTGGTGGGTCAGGAAGCCAATGGGTTCAGCAAAAAAACCGG
AATGACAGTCTGTCAGCATGGAGGTGACCACTGAACCTGTGGAAGGTAAGGAAACTACTAGAGGAAGGACAGTGACCAGCACTTGTGACACATGCTATCT
CTTCCCTTTTTTGTACCCATAGTAGACATCACTAATCAATGGCGGCACCTTTGCCCTTTGAGTCCAGATATAACCTTGGGATCCTACTTAACAAAGGGGC
CTATGCACAGTTGCCATAATTGATACAATTTGCCATATAAACTGAAATGTAACATTCCTAAAATTTTTAAAAATAAAAAACAAAGGTAGAAGGAAGCCCA
AGTTTTGTCAATGAGGCTGCATTTTTAAAATGTAGGTAACTCTTTTCTTATCACCCAGTAGATTCTTTAATGGCAAAAAGGCCAGGCTTGCTTAACTACT
GTAGTTCTCTGTCAAATCACTACACTCATTTATTTGGTAACTATTGAACACCTGCTTTGTGACAGCAACATACATGCTAATTGGTAGCTGTCCCATTATT
TTGGCAGTTCTCAGTTCTGAGCCTTGGGACAGGGAAGCCTGGACCATCTTGCTCCAGATTTCAGTAAATTGGGTCCCCGGGATTTAAAGAGGAGATGAGG
ATCCCCGGATACGCTTGGAGGTATAAAGGTATCTCCAAGCCACAGTTTTCCCGAGACAGTCCTTAAGCGCCGTGCCCCTCAATTTTCCCAGCTGCGAAAT
GGGCAGCTGCTGAAAAAGAGACCCTGCAGCATTGTCATGAGGTTCAGATGAGAGAGATAAGTGCCTGGGTCATAGAAGATGCTCTGGAAATGGCAGCAGA
TATTGTCATTATGCTGATGTTGCTATTGTCGTCATTATTTTTTGTCTCAGTGTACACCCCTGATGCATCGGATGGGAGCACCTTGCTCTCCATTCTTAGA
AACTGTGCTCATGCACTTGAGCTTGCCTCCAAAGTCTAGAGCCTCAAGGTCGGCCTGATTATTGACACGTTTGACTACCTAGCTCCAAGCAGGGAGAGCC
CTCCAGGCCCTCAGTGGTGGTGTTCTTCTTGAAGCCTGTGCNNNNNNNNNNNNNNNNNNNNTGCTCAGTGTCCTCATTTGCATCACAGGGATGGCATTCC
GTGCCTGCGATTCACTATGGGTCTTAACAAATCTATTCCTTCTCTTCCCCTCCCACTTCAGTGGTAGCTTCGCGAATTACGACCAAGTCATACCAGGCCC
TGTTAAGATTCCCATGTAACAACAACTTTCTATGAAACAAGAATTTCACATACAACTTCTGGGGCCAACAGGGCTCCAGAATTTACTCCCTGCAATATCC
ATGAACTCCAGTTTTAAAACTCCAACCCATGAAAAGTAATTTCTAAAGGGAACAATGTGAAATACCCAAGAGAAATGAAAACACACATCCACAGAGAAAC
CATGAACATGAATATTAATAGCAACATTACGATAATAGCTAAAAAGTGGGAACAACCCGAACGCCCATCCACTAATGAATTCATAAACAAAATGGGCCTG
TCCATACAATAGAATATTATTTGGCCATAAAAATGAACGAAGCACTGTGAGATGACGTATTTTTGTTGCTGAAGCCACSTGGCTTGTGGAACTTTGTTCC
GGCAGCCATGGAAAATGAAKGCAGATGGTGACTGCTGATGGATATGGAATTTTTCTTTGGGGTGATGAAAATGTTCTAAAATCAATTATGGTGATGGTGA
TGGTTGGACAACTCTGTAAATATGCTAAAAACAATTGAATTGTACACTTTAAATAGGTGGATTGTGCACTATGTGAATTATATYTCAGAAAGCTGTTACA
AAAACAAAAACAAAAACAAAAAGTGTCCCACACTATAGCCAGAATAATCTTATCAAGTCAACCGCCTGGTTAAATCACCACCGCAGGGATCCTTTTCCTC
TCAGGAGACCAATCTGAGCCTGTCCATAGATCTGTAAGACAAGTACCATCTGACCCATCTCCATCCAGCCCCTGCTCACACCACGTGTCCCTCTGTCTCG
GCCCTCCAGCCCGGGGGTTTCCATCTTCACCCATGCCCATCCCAGGGCCTTTGCACATGCTATTCATGACCTGGAGTATTTTTTCACCTTGCTCCATCCT
ATTGTCCTCATTACCTCTTAACCTCCCGTCAGATTTTAGCTCAACCATCAGTCTCTTGAGAAGCTTCCTGGTCTCTGAGAGACGGTCAAGTCCTTCATGG
AGGTGCTTTCATTGCACCCGAACCTCTTCAGCTATCATTTCACCATTAGAATTTAGCATAAACTTATATGATTAATATCTGCCTCCCACACTGGGCTATA
GTTTGTGTAAGAGCAAGGTCCAGGACTATTTCACTCACCTTTGTACCCCCAGAAACTAGCACATAGTACTCTTTATTGTATTTTTTTAATTGATGTAAAA
TTCACATAACATAAAATTAACCACGTTAAAGTGAACAATTCAGTGGCGTTTAGTACGTTAATTGATGTRAAATTCACATAACACGAAACTAACCATGTTA
AAGTGACAAGTTGAGTGGCATTTAGTACTTTCACGATGTTGTGCATCCACCACCTCCAGCTGGTCTTAAAATATCTTTATCATCCCAAAAGGAAACTCCA
GAGCCATTAAGTAGCCTCTCCCACTTCTTCCTCCCTGACCCCAGTCCCTGGCWAAAAACAACCTCCTTTCTGTCTCTRTGGATTTATCCATTCTGGACCT
TCCATATAAATGAACTCATTCAATCTGTGACATTTTCGTGTCTGGAGTTTTTCACTTAGCATAATGTTTTCAAGGTTCTTCCATGTTGTAGCATGCATCA
GTATTTCATCCCTTTTTATGGCTGAATAATATTTTCTTGTATGGGTRGAGCACATTTTGTTTATCCATTCGTCTGTTTATGGACATTTGGCACTGTTTCT
ACCTTCTGGCTAATGTGCTGTTCTATGAASGTGTGCATACATGTATTTCTTTGAGTGCCTGTTTCTAATTCTTTGGGGTATATATCTAGAAGTAGTAGCT
CTATGTTTAACTTTTTGAGGAACCATCATACTAGCACCATATGTGGTATTACACATAGCAGTGATACCATTTTATATTCTAACCAACAGTACACAAGAAT
TCCAGTTTCTCCACATCCCTCCCAGCCCTTGCTATTTTCTGTTGTTGCTGTTTTTTATGCTAGCCATTCTAGTGTCTATGAGGTGCCATCTCATAGTTTT
GACTTACATTTATSTCATGATTAGTGATACTGAACATTTTTTCATGYGTTCATTGGCCATTTGTATATCTTCTTTGGAGAAATGTTGATTCAAGTATTTT
GCCTACATTTTAACTATGTTGTRGAGTTATAAATGTTGCCTACATSTTCTGGATAGTAGACCCTTATCAGATGTATGATTTGCTGAATATTTTTATTCCA
TTCTGTAAGTTGTCTTTTCACTTTCTTTATAATGTCCACTTCATTGTATTTTTAACCAACTAAATAACTAATAAGTCCAGTGACAGGCATTTAGATGACA
TTTGTGGGCAAAACAATCAAGGACTCCCATATGCAATTACTAATTTATAGCTCCCTGGATACCTGGGGGTCAGGAATCAGTCTGTTGATTGGCTGCGGGC
TTTCACTTCCATCCAAGCATCAGGTCACATGGTGCCGTCATAGCTGCAGACTCACTTGTGAATAATGGATGTCTTCATATAGGAAGGGTTAAACAGCCCC
TGTCCTACTGTGTCCACTGACCAAGTCCCCTTCATGATTTATGGATGATCACATTRAAGGAAGAAGAGAGGAATAGGARAAGATGAGGTTTCCCAGCACG
TCCTTTTCAGGACCTCCATGTCACGCCTCASTGCCAATTAACATTTACTTGAATTCTTGGTTCCCTCCCCAGCAGCTGTTGGGTCCAGCTCTCTGGGGAT
GTCTGAGATATAAATGCTCAGACCTGCACACTGACATTTAAAGAGCCAGTGAGGGGTCTGCAYTCTTTATTTAACACCTTCTTTCTGTTGCAATATGAGG
TCCTCCCAGATGCCCCTATGGGAATTACTAATGGCCATCACATCTTGGTTCAGGGAATGGTTGTCTGCTTTTAAGCAAAGCCTGAGACTCATGGGTTTGT
ACTGCTTCCCAGAGGGCTGAGGAGGAGAAAGGGGTAGGAAGGCCACATCCGTCACCCTGTGATGGATGCACCTTGTGATACATCCCCCTCGAAATCACGT
AGATGCATCCAAAAGCCCTTAACCATTATATTTTGCTCTGATAATAAAGCTTAGTCTTTTATGACCACTAAATAATACGTGTTTACTGTAAGGAAAGGAC
ACAAAGGATAAAATGAACATTGCATAACTACATCACCCAGAGATAATTGCTGTTAATATCTTGCTGTATATAATTCTCCTGCTCTATTTATATATTGTAA
TACATAAATACCTTTTYCACAAAAATGAGAGTTCACTATTCATACAGTTKCATAACCTGCCTTTGCTTCTCAACARTATAATAGAAACATTTTCCATGTC
ATTAAATATTCCCCTACTAAGCATTTATTTTTAATGTGGGTGCCTCTGGCTTAAACAGCAGCAATCTTCAGTGCTGCAAAGAGCTATGCTTGGTGGATTT
GAATACATTCTTCTGCTCAGAGTATTATGAGTTTGTTTAAATGGTACCCGGGTGAAAATATATCGCTGGCTAGCCATTCCTGGAGCAGGAAGAGTGTCTA
GTCATTCTTGACTTGCTCAAATCCTGTAAAATTAACCATTTCTCACAGCCGCGGGCTACTTTTCTGGATGGGAAAATTTGCTGGGACTTAAGGTTCCAGG
GCACAGACYGGGCGGTCAATCCCTGGCAGATCTGTAGCTCTGTTAAAGGAGACAGGGCTGGTTAAAATTTAAATAACCCTGGAAGGTCCCAGGCTGAAAT
ATGCTACAGGGAGACACAAATAAGAGAGACGCACAAATGTCATGAGTGTTCAAAAGCAGAAGAGGTCACATTCCACAGGAAGCAAAAGGGGAGGAGAAGC
CTKWGCTGACCCTTCAAGGGCAGGTCCAGTTTGGAGAGGTWCTAAGGGCAGTAAATATTCATTCAGGCATTGRCTSCACTGATGTTTAATGAGCATCTAT
TAATACTGCATGCCCAGCAGTGCCCTTGCTGTCAAGGATATGACAATGAACATACATAGATGGTCTCCAACTTCAAACACCTTACAGATTGGCACAATTC
AGAGCAATAGTTAGCACAATAGGAGAGACTACTGGATACAGTAATATTAATAACTGCTCAATAAATGTCCACTATTCGGTGTCCTATGTGTATCATTTCA
TTAGTGCTCACAACAATGCGGTGAGGCAGATTCTATTATTCTCCCTATTTGCAAACTGAGGCTTAGTGAGGTTAACGTACCTAAAGTCCTATGTGCAGGT
AGTTAGTAGCGGAGTCAATCTTTGAACACTTTCCGCCTACTGAGTGTCTGTTCCTGTTATGAAAAGCATTTTGCACATTTCCTCTTATTTAATCCTTCTG
ACAACCTTGCAAAGGCAATGATAAAATTCCCATGTTTAAAGACAGTGTTATAAACACAGAGAAAGTTGTCATTTGTCCAGGCCCACAGTAAGAAGTGGAG
CAGGGCTGTACCTACTGTGGCCTGAGGACCACTCCATGCCCACTCTACCTCACTGTTACCACCTCAGTGAGGCAGAGATCCTGGCTGGACTAGGGGAGAG
TGAATCACCCCAGGGAGAGCCATCCTAAGGCTGACTTCCTACACTGTCATTGTGTTAGTTCTCATATTCCTATAAAGAAATACCTGAGACTGGGCAATAT
ATAAAGAAAAGAGGTTTAATTGGCTCACAGTTCCACAGGCTGTACGGGAAGCATGGCTAGGGAGGCCTCAGGAAACTTACAATTATGGCAGAAGGTGAAG
GGGAAGTAGGTATGTCTTACATTGCTGGAGAAGGAGGAAGAGAGAGAAGGGGGAGGCACTACACACTTTTAAACAACCAGATCTCACAAGAACTCACTAT
CATGAGACCAGCAAGGGGGAAATCCACCCCCTTGATCCAGTCACCTCCCACCAGGTTCCTCCTCCCACATTGGGGATTACAATTCAGCATGAGATTTGGG
CGGTGACCCAAATCCAAACCRTATCAATCATTTATTTCATTCACAAGTGCGTATTCAGCACCTGTCATCCCTGSAGCTGTACTGATGTGAATGGAGTCAC
AGCCCTTGATAGGCTCACAGGACACAGGAAGCCAAATGTGCCATTGTGATAAGTCAGATATTATGTTAAATGTAGGCATGGGTATAACACAGTGTGGGGG
CAGAAAACTGGACTCCCAGTTAGACAGGGACAAATTAGGGCAGGCTTCACAGGGGAGTAACATTTGAGCTGACACTTAAACTATGAGCATGTGCTTACCT
GGGAGACACCTGGACGGAGGCTGTCCCAGGCAAAGGGAATGGCGTTTTCAAAGGCTCAGAAGTAGAGAGAGCATGGCATGTTTGGCTAACTACGGCCAGG
AATTAAGTACTGCTGATAGATAATGGATGAGGGGAGGAGTGGGAGGAAATGCAGGCAGAGGGGGACAGATCTCCAAGGGCCTATGGTGCTGTCCACAGAG
TTTAAATGTTATCCTGGTAGCAACAGGGAGTCATGCAAGGTTGTAGAGAAGTGTAGCAGAGTGATTGGCATTGAGTGTCAGCAAGATCATTTTAATAAAT
ATGTGCGTGAGGTGATGCTATGGAACCACTGGGGCTATTTTTTGTGGCCTGACTTACAGGAGAGGTAGTGAGAATAGAAAGAAGACAGGTGTGAGCAAAT
TAAGGAGGTAGAATTGATCAACTTAGTAATTGATTAAATTGGTCCAGGAAGGTCCAAAATCTAAGACTCTAAGATCAAGGTAACTCAGCACCCAGTTTTC
ATTTCTGTTCATTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTAAGTCAGGTCAGGGTCTCCATCTGCC
ACCCAGGCTATAGTGCAGTGGTATGATCTGAGTTTACTGCAGCCTCAAACTCCTGAGCTCAAGCAATCCTCCCACCTTAGCCTTCCAAGTAGCTGAGACT
ACAGGCATGCGCTACCATGCCCTGGCTTATTTTTATATTTCTTTGTAGAGACAGGGTTTTGCTGTGTTGCCTAGGTTGGTCTTGAACTCCTGAGCTCAGG
TGATTCTGCCCGCCTCCCAAAGTGCTGGTATTACAGGCCTGCACCACCACACCCAGCCTGTTCATTTCTAGTAAGTCCATTATTTTACTTCTTTTATTTG
TTCTTATTAAAGTTTCCATGCTGTTGGAGTTAAYTGTAAGTAGAAAGTTGAGAACGGCCAAATGTTTGGTTGGTTGCTGAGCAGAAGAGCAATACTTAGC
ATCTTTGTTACATAACAGATCTCTATTTGTGGGAGTTAATATTTATAAAAGAAAGAAAGATGCATTACCCATAGATGGTGCCATTTATTCTGTTTATTTT
TAAAATGCTTTTATGTTGTTAAAATCCTAGCCTTTGGTTTTGCATCTATAATGAAAGTTGGGCAGATTGTATTTCAGCTGGCATGGAAGGAGAAGATCTT
TTCTCTTTTACAAAAATCATTACTGCATTTGTTCATTGATCCAACAAATGCACGTGGGCATTTGGAAAGCAGGTATGGTCTCTGCCCTTCCGAAGCTGAC
AGTTGAGTCATTTATCCCTGAGTACAGCCTCAGTATTTACCCCTGTTTTAAACAGCTACTCTTCCTTAAACATTGATAGAATGTCAGAAATTAGTCATCA
AGAACCAAGGGTGACTTTCAGTGGTTATTTAATATTTCAGACTTAAATATTCTTCCCACATGCTCCTGCCTCAAGACTTTTGCACTTGCTACCTCCTTTT
TCTGAAAGTTTCTCCTCCAAAATATCCACATCTCCTCCTTATTCCTTTCATGACTTTATTCCAGTGAAGTCTTCTCAGGCCACCCTATTTAAAACAGAGC
CTTGGCCAGGCACAGTGGCTCACACYKGTAATCCCAGCACTTTGGGAGGCCAAGGCAGTGGGTTGTTTGAGTCCASGAGTTTGAGACCAGCCTAGTCAAC
GTGGTGAAATCCCGTCTCTACAACAAAATGCAAAAATTATCCAGGCGTAGGGGTATGCCCTTGTAGTCCCAGCTGCTAGGGAGRCTGAGGTGGGAGGATC
ACTTGAGCCCAGGAGTTCAAGGCTGCAATGAGCCAAAATCATGCTATTGCACTCCAGCCTGGGTAACAGAGCAAGACCCTGTCTCAATAAATAAATAAAT
AAATAATAAAAGAAAACTGAGTCTCCACCCTAGAACTTTCTCCCTTTTTATTTCATCTCCTCATTAGCACATACCACTGTTGATCTTCTTTACAATCATT
CTGCTCATCCAGAATGCAGGCTCTAGGATGAGGGCATCTTTGTGACCTTGTCTATGGCTCTGTCCACACTGGCTAAAAGATTGCCTGGTCCTGGGTGGGT
GAATGTTTGTGGAATTAATGGATGACCCCTCTCTGAGCCTTGAGTTTCTCTCCTGAACACAGGGTTGTCAGGGGGGTGGTTAGTAGGGTGTAAGGGAAAA
AGAGTAGCAGGGTCCCAGGATCCTTGGCTCTGTGAGGGCTGCTCMCAGCATTTTAGGCTGATCAGACTACTTCTGCAGGGCAATGCTGGGCTGGAGTTGG
TCTTGCTTTACGCAGATRTTTCTGGGTTACACAACACTTGGCTTAATMCWTTTTTTTTTCCATCAGGCCCATAAGACAATTTAAAGGAATGAAAAAATAT
GTATGTTTTAAGGGTCTAGACCTAATGCTAGCAGCATCCCTTTGGAGAGGTTTTTTTTGTTTGTTTTGAGGGGTCTTTTGTTTGTTGAGACACTGTGCCT
TTCAAAATTTAAGGTACTGCCTTGTTATGCAAATCACACATGTTTCTAGTAGAAAAAAAAGTAAAAGATGTAGAGAAAGCAAAGCAGGCTTCCCATGGAG
GGATAAATGGATCCTTCCCAGCCCACCCACTGTTCTGAGGCTGCTGCCCATAAGGGTTGTTAGGACACACRGGAGCCTGAGTGGCCAGGTCTCTCAGGAG
TGGAGACATTCACTTCCCAGCCGTGGGACATTTACCCAAACCACTGCAAAGAGCCACAAATAGCATAAGACYGTGTGCTGACGGCCAGTGGAAATGGAGC
TCAGCGTTGACAGAGCTTCCTGAAGACTGAGCTCTCTTGAAAATGTAAAATTGCTGAGGACCTTAAGCAGAGTCCGATCAACCGTGTTGGCCCAGTTGGA
CTTTCAGCCTGAACTCTAAGAAGCATGGTCCATCCACTGAGCAGAATGGCCATTGGTGGAGTTTGCACTTAACCATGTTTGTTAACTTCCTAGGGATCCT
GAAACAAATCACCACCAACTAGAGGGCAAACAACAACTGAAATTTATTCAGTTYATTGACAATCCTAGAGCCCTGAAGTCCAAAATCAAAGTGTTGGTAG
GCCTTGCTGTCTCTCGTGGTCCCAGGGAGGATCCCATCTGCTTCTGCCAGCATCTAGAGGCCCCAGTTCCTTAGTTTCCAGCTGCAAAGCTCCAGTCTCT
GCTTCCACCTTCAGGGGCCCTTCTCCCTGTGTCTTCTCATCTTCTGTCTCCTATAAGGATACTTGTAGATTTAGGGCACACCCAGCTAATCCAAAATCAT
CTCGTCTCCAGATCTTTAACTTAATTACATCTGCAGAGACCCATTTTTCCAAATAAGATCACATTCGCAGGTACTGGGGGTTAGGAGTTGGATGTATATT
TTGGGCGACCACCATTCAACACATACAAGCCCGTGGAGATAGCACTCACTTCACTTTGAGGAGCTATCATTCTTAGTTCCTTTGATTTTAAAGCTCATAT
CTCTGTCCAGGATTTATTGCACATCTATTCTGTAGTTTTAACTGTAATAGCTTCCACTTGCTGATTTTGTTCTGTGCACCAGGTCACATSGTCAACGATG
TATAGGGATTATCCCATTTTATCCTCATAATAGTGATGGAGGGAAGGTAAGATTGCTTTATTTTGCAGAACCAGGATGTGTGGGCATCAAAGAGTGTGAT
TTGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTTSAGACCAGCCTCGTCAACATGGTGAAAC
TCCATCTCTACTAAAAATACWAAAAAGAAAAAAAAAAGCCGGGCATGGTGGCATGAGCCTCTAGACCTAGCTACTCCAGARGCTGAGGCAGAAGAATCAC
TTGAGCCCRCGAGGGAGAGGTTGCAGTGAGCTGAGATCGCACCACAGCACTCCAGCCTGGATGACAGAGCAAGACTCTGTCTCAAAGAAATAAATAAATA
AACAAAAATTTAAAAAAGCAGAGCTGAGATTTGTATCCTKATTTTGGCTTAAAGTCCTTGCTGTTTTCACTATGCCATAAGTGAGCAAAAGCAGAGAGTT
AAAGCATGGTTTCTGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGATGGGCGGATCACGAGGTCAGGAGATCAAGACCAT
CYTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAATTAGCCGGGCATAGTGACAGGTGCCTGTAGTCCCAAACTAAGGAGGCTGAGG
CAGGAGAATGGCGTGAACCCRGGAGGCGGAGCTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCCGGGCAATAGAGCAAGACTGCATCTCAAAAA
TTTTTAAAAAATGCATGGTTTTTGCTTCCAAGCACCTCATAAGCAGAGAGGAAGGGACAGAGAACTATCTATGGTTTATTGGGACACGATGTAATATATG
CTACAAGGGAACTGTGTCAAGAGCTCTGCAGTCTTTCTACCCTGGAAATTTTAGTAAAGGCTTCAAAGAGAAAGTGACCCCTGAGGCGGTCATTTGGGAA
CAGCAGGACTTGGCTGCGTCTGAATGTAGAGAATTGCATTCTGGGCAAAGGGAACAGCATCTGTGAAGAAAGGCAAAAGTGAGTGGACCACCCACATGAT
CCCTCGATAGTGTCCAGGAGCTTCTGTAGGATGTAGTGTTATGATGCTGAGACACTGTATTAGGCTATTCTTGCATTACTACAAAGAAATACCTGAGACT
GGGTAATTTATAAAGAAAACAGGTTTAATTGGCCCATGGTTCTGCAGGTTGTACAGGAAGCATGGTGCCAGGCATCTGCATTGCTTCTGATGAGGCCTCA
GAAAGCTTACAATCACGGCAGAGGGCAAAGCGGGAGTGGGCACSTCACATGGCAAAAACAGAAGCAAGAGATAGGGGGAGGTGCCAAATTTAAACAACCA
GGTCTTAGGAGAACTCACTCACTACTGTGGGGGTGGCACCAATGAAAGCTCTGCCCCAAGATCCAAACACCTCCCACCAGGCCCCACCTCCAACACTGGG
GGTTACAATTCAACATGAGATTTGGTGGGGMCACATATCCAAACCGTATCAGATGCTCCYGAGCCATGACTTAGATTTGAATTGCTGCAGACACGTGTCT
CTGGTGGCTTCCTGTGTGCCATACCCTAAGCTGGCGTGGGTGGCCTTCCCTTCCTGAACAGCGTGATGCTGGTAACCTGGGACCTCCTTCCACCTTCCTG
CACTCTATAACTACTTCCCAGATCACTCCGAATTTATATTTGCCATCTCAGGATATGGCAAAGTAAGACACAACAGTAACCCAAACTAAGGCAAGGGCAG
TGGGGATGAGGAGGTTGGAGTCGTGTGAGAGTCTGTTTGGAGAAGGAAATCAGTGATACTCTGTTCAGTGGGTGTGGGAGAGGAGGCTTGACACGAGGGG
GCCCCAGTTTTGATGCATCTACCAGAACAGGGAAGGACTGTGCTTGGCTGGGGAGCTGCTGAGCTTGCTTTGGGCCATGCTGTGTTTGCAGTGCTCGTGA
CACATTCAGCTGGAAATGTTGAACAAGCAGTTAGAAGTGTAGATCTGGGAATTAGGAGACAGTTGGTAATGGAAGCTGTCAGAGTCCACAGGGGTGGGTG
GAACCAAAGCTGGAGGAATAAGCAGGATATCCAAGAAGAAGGCTGACCATTAGAGACTCGGTGGAGATTGCTTAAAGAGCTGCCAGGAGTGGCAACCTAC
CAAAAAAAAAACTTATCATTCTCCCAGCCCAACCCATACAGGGCTCGTGGAAAGAGCTGGGAAATGGGCTCCCACGTGGAATCTTTGGACTAGTACCAAC
AGGGGTTTTGGCTACTGGGGAGGTGAAGAATAGTACTGTGTATGCCCCAGGGTGTAGCAGTTGAGAGTATAAGGTACAGACCCAAGAGGTTGGGTTTCTA
TCCCAGTGCCACCACATAGGAGCTATGTGTCCCAGGACAAAAGAATCCTCAACTGCACAATGAACACAGCAACCACAGCAACTTCACAGGGGTATGTTGA
AGACCAACTAAGGTAACCCACCTAAAGGGTTGAATACTATTTCCAACATGTAGTAAGTGCTCTGTGCACGTAGCCATGATTATTATAATGACAGCGTGTC
TGAGTGGAGCCCGGATGAACTGGCAAGCGATGACCACCTGTGGACTGCAGCGGGAAGGTCCGCAGCYTGGGGCTAGAACCACAAGGGAGCGTGATGCACA
CAGGTGTGCTTGCACCCACGGCTGAGGTTTTTCTTCCCACCGGCACAGGGCGMTGAGGCAGGGATTTCCTCCCAGAGAGAGGGCGGTTGAGTTCAGTTCC
CCTCCACTTTGAAAATGGCTCTGGAGGAGGGGCGGAGGAAAGGCAGAGACTCCGTTTATTGTTATTTTTAAAAATAAAATGAAAAGGAGCCCTCCAAGGG
CTTGTTTATGGGTTTTATTATTGGCGAAGAAGAGCACACTTGTCTTTATCAACATCCTGTCTGTCTGGGAGTMTGAGCCGAGAAGGGCAAGACCAAATGT
TAAGTCGTAACATCTGACTTGTTGTTCCTTGCTCTGCTAACGATCCAGGCTGTTAAGAGGCTTAGCCCTTGTCAGCAGAGCCAATACAATTTCAAGAACA
AAATGACTGCTGGAGCCCAGATCAGAAAAGGGCTGCCTCGTGGGAGCAGGTCAGGGCAGTCTATTAGGCATCTTGTGCAAATAATGCTGAAGAAAGGTGG
TCAGAGAAGCTGACTGTACCAGGCATAAAATCACGGGGGGAGCCTTCCAGAATAATCTGTGGCCGGGTTATTCTCACTGCTTTTTCTCCCTGGTCCACGA
ATTAGCTTTTGGACAACAGCTGTGGTGTAAYTGGAATCCATCTTGTGTGATTTTTTTTCCCTCAGATGATTTAGAATTAGTTCAATTTATTTTCAAAAAG
TATAACCCAATGACAGCAGAAAGGCCATGTCTCAAATTGCTTTCCTGTCCATGGCTAGAGTGGGTGGGTGTCATTTGCTGATTTATTACTCTCTCMGTGG
GCTCCTTTCGTTTCTAAAGCCACCTGGAATTATGGCCAGCAATAGAACTCTAAACCAAAGTCAGCTTTGCACGAAAATGCATTTGACTTAAGAGACCACG
GAAAATGCTGATTAAAAGTAACCCTGCATGGCAAAATTTGATTAGGAGATCACATCTGAATGGGAACAGGTTCGAGGGAACGGAGGATGAATCAGGCTCA
GCAAAGCCAACTTTGATTGCRCTTTTCTAAGGGGAGGATGTGGTGCTGATTAAACGTCTGAAATTAGTGGGCAGGGACCATTAACATGCAAAGGACTGAT
ATTAGGCAAAGGTTGTAAAGCTGGAATGGCTGCAAGTCRTAGACATTTAAAACCTAGTTTTAGAAACATCCACCGACCCCTCGGTGAGCTCCTGTGCTTC
TGTCACTGGGAGTCAGTAATTGAATTTTCTGGACATTTTGACCAGTATGTAACTKTGTGGAGCCGATTACACAGCAGAACGCAATTTTTAGCCTGACCTT
AAAAGCATTACCTTCTGCTGCGTGATTAGAAAACATACAGAGAGTGCCGCCCTTCTAACTGCACTTGATTTGGGGAAGAAGAAAGAAAAAGAATCACCTT
GCTATTTTATGAAACCTGGTAAGATTCATTTAGATTCCACACAGATCATTTAATAACAGATTTTGTAAAATCTTAACATACGGAGCCACCATAAAACGTA
TTATCTTTTATTACCCATACAGAGAATGACATTTTAGATGGTAATAAATTGAAACCCMAGGAAAGCTATTTGCTTTCGGAGAGTGCTTGGCGAATGACAG
GAATAGCAGTTTCCCAATTTTACACGGTGGCAAATATGGCCCCCCAGGGTCATTGGAGACAGCCCCCAGCTGGCTTTGTTGAGATTTATCTGAGCAACAT
TCTCTTATACCTCTTTTTTTTTTTTTTGAAAGATCATTTCCGTCCAAACCTCACCACATGAGGACCCAGTTGTCATACCATAACATCCCTCCTTCCATCC
CGTACACCTGGAGATGTGTGGCTGGCCTAGGGCTGAGCCTGGGGCTGGGACCAGCCAGTGGGGCATCTGCCTCAAGGTGGAAAAGAGCCCAGCCYATCAG
CTCCAAAGCAGCCACAGCCTCCCTCTGCATAGACACCTCTCCAAAGGAGAAGGACCTTCCCTGCACACTCTTGGACAGCCAAAGCCTCATCACCCTGCCA
CGCCCCGCAAAACCAGGCTTTCTAGAGACTGATTCAGCCTGTCTAACATTGCCCATGCCTGCCTTTGGACCTGTAACATCTGCAGACCATGAGAGCAACC
TGAGGCCAAATTTGCTGTGTGGTGATCAMCATAACCGTTTCTTGATTTACTCATTCATTGAACATTTACTGAGAGTGACTGAGAGTGAACTAGTTTGTGT
GATTTTTCCCCCAGGAGATTTAGAATRAGTTCAACTTGTTTTCAAAGACTATAACCCGATGACCACATACAGGCAGTGTCTTGGGACCTCAGTGTCTCAA
GGGGCAAGGCACTGGGGCTATGGCAGGAATAAGTTAAAGACAGAATCCTTGCCCTCACCAAGGGCTGTAATAAATACTTAGAAAGTGACTGACACATTGG
AAACCACAGGCACCAAAGGGAAGCTTCTCCGGTACTTGATATTTACCACTTTGTAGATGGCAGGACATTCATCTTCCCACTAGACAGATTTTGAAGGAAA
AGGTCTGGTTGACATCACACTTCAAAGGATTGAAATGGAAATATTTTCCAGAGAAATGACAGAGGATGTCATCCTGGGAAGGCAGGCCCCCTGGGAAGCT
GGCAGGTGGGCGAGGAATGAGGTGCGGCTGGTGAGGCCACGCACCACGTGGAGCCAGGAGGCTGCTGGGCGTCTCAGTGTTCCAGGAAACTCAGCGGTCA
CCCCCCAGAGAAGGTGTACTCGTTTCCTGTGGCTTCCATAACAAATGACCACAAAATCCGTGGCAGACAGCAGCACAATATATTATCCTACAGAGCTAGA
AGTCAGAAGTCCAAAATAAGTCTCACTGGGCCAAAACCGAGGTGTCAGCAGGTCTGGATTATTTGTGAGGGCTCCAAGGGAGAATCCATTTTCTTGCTTT
TTCTATCTTCTAAAGGCCCCTGGAATTCCTTGGCTCATGGCCTCTTCCTCCATCTTAAGGCCAACAGTGTAATGTCTCTCCTCGTCTCCCTGTCTCCCCA
TCCCCCTCCCTCTTCTCTCTCTTTCCCCTTATTCTTTCTCCCTTTCCCCCCCCCGGACCCCTCTCCCTCCCTTCTTCCCCTCTCCCCCTCCCTCTTTCTC
TCTGTCTCCCTCCCTCCTCCCTCCCTTGCCCTCTCCCTCTCCCCCAACACCATCTTCTCTGCTTCCATCACCCATCTACTCCCGCTGACACTGATGTTTC
TGCCTCCCTCTCATGAGGACTCTCGTGATCACATTGGGCCCATTCAGTTTTCCAGGGTGGTCTCCCCATTTCAAGATCCTTAACAAAGCCTCTTGTGCCA
CCTAAGGTAAAATATTCACAGATTCCAGGAATTAGAACATGGCCATCTTTGATAGATGTTTTTCTGTGTGCCATAGAAGATACGAGAGCTTCTAGATCCA
AAAGCCTGRTGGCATTTAGAGCTCACTTCCACTGTGCTCGATACATGAACCTGACATTGAGCATCTCACAGCATAATCACAGGACGGACGTGTGAAGGGA
AAATTGCTATACAGTGTCATTATCTCAACCAAGAGAGAAACACTCACCGTGCCATACAGCCAGGGCTAATGCAGGGAAGGCAGGAGTGACTCTGGGAAGA
CAAACCTTCATGATGGAGGCAACCTTCAAGCAAGTGATTGTTTGATTATCACTTGCTTGAAGTGATTATCYTCCAAAGGATAAGTGATTGTTTCCTGGGG
CTTAGGAGGTGGGGGCGGGAAATGTGCAGGGAGGGCAGAGGGTACAGCATAAGCCAAGCTGCAGAGATGCGGAGGAGTGAAAAAGCCTAAGAAGGTATGA
ATTACAAATAGCTCAGCTTTACAGAATATAACACTGAGTRAGGAGAACAAACAGATGAGGCCATGAAGAGTTTGTCTTTCATGCTTGAAAAACTCAGACA
TTATCCTGTAGCCACTGAAGGGTTTTAAGGAGAGTCCTTGGTCAGATGGTAGCTGGACAGTTCGCTCTGGCTGGCTTTGGGGTGGAGAGGRGCATAGAAG
AAGGCAGGGGGACCAACCTGGAAGCTGTTGCATAAGTCAAGGAAGAAGAGATGGGGACTTGACATCATGTGCACACAGAGGTGGTGGAGAAAAGAGGACA
GACTCGAGAGGAAGGGGAGGTAAAATCAGGAGCACTGGATGAGCAGTTGTTTGAGGTAAGAGAGAGGGAATTGCTACAGAGACTCCCAGGGGCCGGCTGG
AGATGATCCCTCCGGGAAGAACGGCCAGGTTGTGGGGAAGATGGGTTCTGATATTGGCCCATGGAGGATAAGGGAGAGCATCTAGTGGAGACATCCATAA
CAAGATTGAAAGCAGGCGAGATGCTGTTTGGTGTCTTAGAGAGAGTCTGTTTTTTCTCGAAATGGACGTAAAAAAAAAGAAAGTTTCAAAGAGAACTTTT
GGAAAACTATGATTTTCATTTTTCATTTAAATTGCATCATAAATGGGTGAGTTTTAAAGTAAAACATCTAAGGGTACATCTTGACCTGCATTGAGTCATA
CATTCATTCAGAACAATGCTAACCGAAGTGTGCCCCTAAATCGACGACATCAGCGTCTCCAAGAAACTTGTGAGAAATTCAGATGCTTTGGCCCTGCCCT
GAACCTTCTGAATCATAAATGCTGCAGGTGGGCTGTCAATCTGTGTTTTAGTACACCCACCAGGGGATTCTTTTTTTTTTTTTTTTTTTTTTTTGAGAGG
GAGTTTCGCTCTCGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTTAGCACACCGCARTCTCCACCTTCTGGTTTCAAGTGATCCTCCTGCCTCAGCCTC
CCGAGTARTTGGGATTACAGGCACCTGCCACCACACCCAGCTAATTTTTGTATGTTTAGTAGAGATGGGGGTTCACCAGGTTGGCCATGCTGGTCTTGAA
CTCCTGACTTCATGATCCACCTGCCTCTTCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCAGCTGGACAAGCACTTTCAAGAAGCAGTG
ACTCTGACTCTATGTCTTACGTACCTGCTATGTACCAGGCATAATGTTGCTATGTCAGGGCCCAGGTCTAGAAAACAAAAGCTAATGTGGCAAATAGTAC
TTGAGCATCTCAATTACTTTTTATTTTACTTCAGTGTTACAATCTGTACTTCCTTGTCTGAATCTAACAGATTAGCCTGTTCTGTTCTGCTCCTAAGCAG
CCATGTGCTCCTGGGATTCACTCTGTTTCCTCTCACTGTGAGTTCCTTGAAGGTAGGGCAGGACGAGAAGGCCTCGAAGGTACTTTTGAGAACTTGTGTC
TCTTCACCTCACAAACCTTGACTCCAGGCACGCTGGTGGCCCTGTYGCAGCCTGATGTCTCCACTCTTATTCCCAGGCCCTTCTTCCTTCTCTGAATTCT
CTCCCCTCACACCCATCCTTCAAAGCTCAGCTGCAGTCTTACATTAACCTGAAGCCACTGAAAAGCCACCGAAGCACTCCCAGTTAGTAGACAGCTAACT
TAGCACAGGCTGCCTGCTGCCCTGGGGAGCCACTTATATATCTTTTATCTTCACCCAAGCCGTGGCTTCCTTGAAGGTCGAGAGCGTACTTTTTCTTGTC
CCTTTGGTGTCCTGAACAGAACCAGAATCAGCCTTCCYTTCTTATTCAATGACTACWTTTAATAGAGTTTAGGGATTAAAGGTCTCCCACCTTCTTCCAT
AKAATTTGACTTTCAGTCCAAGACMCCATCTCTAATCCTATGGTAGGGTATGCCCTTCTGCAGGAATCACTGCTTAATCTCTTCCGGCCTCCACCTCTCC
ACCTATAATGTCTAAGTCAACTGKCCCCTCCTTTGTAATTCCACAGAACTCTGTGCTTACCCCATCTCATTGTGCTGAGCTCATCAGGGTGTTGGTCTCT
CCCACGGGACTTGATTCCTGTTACTTCTTCGCACCATCCCGCACAATGCCTAGCACACAGTAAGTGCTCAATCAATGTCTSATGAATTAAATAAGCTCCA
TATAGCTTTCCTGAGCACCCCACATTCTGACCCCCTTCATGTAAACCTTAATTGKTATTAATACCATTCTGATAACACTTATCTCATCTGACCTTACGTA
CTTGCCTTTTGTTCATCTCTCTGGACCAGAAATGCACCAAAAGCAGAGTCTGTATCATTTATCACATCCTAGCAGTTATTTGAGCCTAATAGACACTAAA
TAAATGTTTCAGTGAACTCACACTGAATGTCAAGTATTTGCCACCTTGAGCCTACAGGAGATGCTTTTTCCAGGGGTTCTAGGAACGCCATTGGCAGTTT
ATTTACTGTAACTCATCAGTGGCAGCAGAAGATGCACACATTGCCTGGAAATGTTTTATTTGATTTTGGTGTCCCTCAACCGCAAATCTATCATTTAGGC
TATTCCAGCCACATATGTCTAAGAGACAGTGTTTATTTCCCCTGCTGCTTCTCCACCCTGCCAGCTTTGTCGCAGCCAGTAAATCTGGAGAAATGAGCGC
TGCCTTCTCCTTGCCCACCAGCCCCCAGCCACGAATGCAAAAATAAATAAATAAAAAATAAAAAACAGCAGGTGACAGCCAAGAATGTGAATGTTCACAT
TCGTACCAAGAGGTAAGGTGAAAAGAGGCCTAAAGACAAACACAAGTCAAACCAGGCTCACCCTGCTGCCTGGGAAGATGGAAGAACATCGCTCGACCTC
TGCAGTGGGAATAAGGCACATTTTATGAGGATGTGTAAGCGGTTCCTGCTGGATTTATGGACTACCTATTCCCAGTRTTATGTGGCCAGAGTGGTTAAAT
CAAACTCCAGACAGACAACAACTCGTTCTGCTTCAGATAGTGTTTTCACCAATCTTTTGCAATATTTATAGACTAGGTGTCAGGTGCAGCCAGCCCGGGG
AAGAATGTGGTCCCTGTTTAGGCTTCATATTGCAAGGACGCTTGTGATGCCCAGCTGATCGGGACAAAGCTAAAGAGGAAAYGAATGAATGAATTCCATT
ACATCTTTGCTATGTAGCTCATGTTAAKGTTTCTCATTAACGATACCTTAAATGTTAGACTAGAAAGGGATTTGYTAACAAAAATGCCTTCTTACAGCCT
TCCTTGACTCCTAGAGCAGCATGTGTGTGCTGGAGCCCATTCTCACTGGCTCACAATAGCCAACTGGTGTCTCTGTTTCCAACTAAGTGCTTTTGGAGTG
GAATCATCTGGGTAGCTTGAAATCAGCTATGGTAGGAGTAGTTAAACCACCAAAATTGACAACAGTACAAATCAGGAGAATCTGTTCTTAAACAGCTACA
GGTATACCACTCTATTCATTATTTTTTATATATTATATATAATTGTATATTTATRTAATAGTGTATAAACATACAGTATATAAAACATGTTATTTGTCCT
GTAATAATTGTAATCAATATTATGCAATAATATGTAATCATATTTATGTAATAGTGGGCTAATTGTGTTATAATATGACTAATTGTTACATAGCTMTGAT
GTCCCAGGCAGTGAATTTTATCTCCCAGGCAGAGACATAAAGCCTCTAAACAAGAAAAGGCCCCTGATCTCAAGAAGCTCGGATTGTCATAGCCACGATA
GCCACTAAACAAGTAATCAGTAAACAAGCACATTAYAGACTGTGGTAGTGGTAGGTGCTGGGGAAAACGGTACTCATTATCTATTGCTGCATGAAAAATT
GTCTCAAAACTTAGTGACTTGAGACAAGAAGCACTGATTATCTCACAGTTTCCCTGCTCAGGAATCTGGGCATTTCTTAGCTATACTCTGTGCTTAATGG
GCACTCACAGAGCTACAAGCAATGTGTTCAGAATCTGCTGTCTTGCTGGAAGATTTGTCTAAGGAAGGCTCCACTTCCAAGTTCACTCAGTGGCTGTTGG
CAGCATGGTTGGCAATTGCTTTTGGCTCTTCCTGAAGGCCACCCTCAGTTTCTTGTTACATCTTCGAAAGACTTCCCAAAAATTCTACTAAATAATAGCA
GTAGCATCTCTCCAGCATTTACATATGCCAAGCTCTGTATTCAGCACTTTACCTCTTTTAATTCTCACGTATCCTATAAGGAKTATTCTCCCCCACTTTA
CAGATGAGGAAATGGAGGCAGTGAGAACATAAGCAACTTGGCTGGGATCACTCAGCTACTAAGTCATGGAGCCAGGGTGATAATAATTGATCACATATTG
ATTGACTCCTTCTTAAATGTCAACCATCCTATTGTGCACCAAGGTCCCTGCCTTCGTGGAGCCTCTGTGCTGTGAATAATGACCATCAGCAAAGGAGCAG
GAATTCACCTGGAGCAAGAACTAGAGGTGAAACATTCGATATGGAAAAAGTGGGGTACCATGGAAAGAAATTCGGTCTAGACAAACTGTAAAGAGAGATG
TAGAGTGCAGTTCAAGACCAGGCGAGAGAGAGATGGGGTACTGTGTGGGTTAATGGGAAAACCTTTTTCCACATCACATCTATTTGTTGATTTTCCCCCC
ACAGCTACCACTATGCTTGTTATTAGTGATAAATGTTCTGTTAAATGCATACCTGTGTGGAAGTSATTGTAGCTGTGCAAAACGTCGAGGGTCTGGTGAT
GGATTAAGTGCCAGATTTAATGACATGGCTTGATTCTTTTTTCAAGATGAGATGTTTGCTTTTCAAATCAGTGTGATCAGTGAACCTGGCCTGTGTCTGT
GGAGATTCACTCGAGGCTTYTTCTTGCAGACATACCATCTTKCTTTTGTTTCTAGAATATATATTAGCTGGTAGCTAGTYGACACCCAGGAGGAGACAGC
AAATGCAATAGAAATGCATGACTGCAGAACTCAAACCAGGAGAGCAGCTTGACTCTCTTAGATATGTCTTACAAATCAGATAGCTTCAAATAAAATCAGA
GGAGCCAATTTAAGTTTTCCAGTTTTGACACAGTGCATTTCTTCCTCCAAATAAAATTCTATCTCCTTGAGCTGCAGTTCCGCAAAGTATAAGTCATTCC
CTGAGAATAAATGACTTTGCTTTGGAAATGCCACTGATATGCTCAGACCTTTGAGACATAATTTAGTTCAGGGAAACAGTAATATATCATCATTATCAAT
AATGAAAGTAAATCGCCCACCTTGTGTGCTGACTACTGGCTAGGTGTTGCAGCCAAAGGCATGGTCCTTGCCCTTGAAAACTTTGTCATSCACTTAGGGA
GATAGTAAATGGGCATTCAAAATAAAGCAAAATGGGACACATAGCCTTCATATTAAACAAGGTAAGCTAAGCACAGTCATAAGCAGCCCTTAAACCTAAA
AAATGGCTTATGTCTTGCTCACATCACAGTCTAAAGCAGGTCACCAAAGGGGCTTTGAGCTATATAGTCATTTGGAGATCCAGGTTTCTTCCTTTTGAGG
AAATAGAAAGTGTGAGAGGTTACATGGGAGGTTTAAGAACCACACCAAGTACATAACTTCTGCTCACGTTCCWCTGACCGCAATCAGCCACACAAGTCCA
TTTGACTGCAAGGACGCCTGAGCTGTACAGTCTAGCCCTATGCCCCTGGAACCCAAGGAAATAGRATCCAGTGAACATACAACATTGTTTTCACCACAAG
TTCCTTTGCTTGCAAGTAACTGAAACTCATTCAGGCTGGTTTTGGTACCTAAAAGGAGCTCTTGAGTATACAGTGGAATGAGTTACAGAATCAACGAAAG
CGTTGAAGTCAGGGGCCATCAAAGCTCCAGTCCTTGGCAGCCAAGCTGCTTCTTCCCGGCAGAGCAGCACCTTTTGCAAAATTCAGCTCAAAAGCTGTTT
GGAGTTGCAGTTGATTACATTCGTCTTTCCTCTGAGCCTTGAACCAAAGAAACACAGAATCAGGTGAGGCCCAGGGAGAATACAACTTGATCTTGAGAAT
GGGGTTGACCTTGATAATGGGGCCCCCTTCTCACTGATGAGTTCACTCACCTAGTGACAGGGCAGCTGGACAAGTGAAAGTGAACCTGGACAAGTGAAGA
GGCAGGTTGCCTTCCTCATGGGCAGAGAGAAGCACAAGGGTGGTGAGTTTCCTCCCAAAACATTCAAGGCAAAAATCCCTCTATTGGTCCTAGGAGTTCG
GGGTTTACCCTACATTCCTGTTTTCCTGACTCTCAGTCCCACATTTCCTCTTTTCAGAATCCAGTTGTCCCAGCTTGAATTAGGGAGTTACCTGTGAATT
TAGTCAATTCTTGGCAAGAGAGACAAACATGACAAGTGGCCACTGGGATCTCTTTCTCTGCATCAAAATTTCCTCCTGGAGAAAGGGCATCTGTGGGCTG
GACACCTAAAGAGCATCTCTTCCAGCAGAGTAACAAATGCAGAGTGGCCAGCGAGGGATACAGAATTAAAAATACATGTGTATATTTCAAGTAAGAGTGA
CTCCGAGAGCTAGGAAATTAGGGGRTGACTTTCTGGAAAAGGCTCTGAGGATCGGGAAGTAGGTCAGAGGCAAGTGGAAGGTATTCTGATCATGTATGAG
CAAGGGAGTTCATGTGGCATTTTCTCTAATTTTCAAGTGCAAACTGGGTGTTGTACATTCCAAAGGAGGTTACTTTCATTATCGGTTTTGGGGATTTTGT
TACTGWTCTCCTTGTGAAAGCAATAATGTTCATTACAGAAAAATCCCCAAATCATAACAGGCCAATAAACTTTTTATATTAGAATTGCTTTTAAAAGTGA
AAACTTGGGCAGGGCACGGTGTCTCATGCCTATAATCTCAGCACTTGGGGAGCCTGTGGTGGGAGGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGG
GCAATACAGGGAGACCCTGTCTCTACAAAAAATACAAAAATTAGCCAGGTGTGGTGGCACATGCCTGTGGTCTTAGCTACTTGGGGTGCTAAGTTGGGAG
GATCTCTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGCTGTGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGACTCACACACACACA
CACACAAAAAGTAGAAACTTRGAAGCAACCCAAATGTTCATCCAGTAGGGATTGACTAAATAAATTATAGTGGATCTGTACATTGGACTATTAGACAGCT
GTTAAAATGAACAGCTCTGTAAACACTGAGATAAAAGTGATATGGTAAAACAAATTGTGTCGCTATGTAAACAGTATTACTTTGATGAAATGTGTGTGTA
TATAAATGTGTATATTAAATATGTGGGTATTTAAAATGTACCTCCGTGTGTGTCCACTTGTATAGGAAAAAGGAGATAACTATCAATATTTACCTCTCAC
AGGTGGGGTTGGGCAAGGGTGGAGGAGAGTTCTTTGAAATGACTGTTTTATTTTTATGTTGCTTACAATAATTGGATATTACTTCAGTACTAAAAATATT
TTTAAGGTCAGCCTTAAGTTTGCCAGAAAATTTAGACTTTTGAAACCTCATCRCAAACTTTGCARTTTATCTACATAACAGTCTAATTGATTCTCTACTA
GGTTAATCAGTCTATTTCTCATTATAGGTGCAAAGTTTTATTTACTTCAGGAGATAGAAATTGGTTCATTTTCTAAAATTATTTATAAAATTTGTTGAAC
TACGAGAGTTATGCCAATGTATCCTTCCCTTGTGCTACCGTAAGAATTTGTACATACCYCTGCTAAGCTTTGATTTATTTTATTGCACTCATATGTGAAT
ATGACTGTCCTCAACGCTAAACTTTGACCTCTTTGGAGAAAGAGACTTGTTTTTTGATCACTGTATCTCTAGTATCCAACACGAYATTTAGACAAGAAGT
TCATTAACTGCCAATTAAATAGATGCATAAACTAGTTAAAGAAAGAATTAGACCAGGTGCAGTGGCTCATGCCTATAATCACAGCACTTTGGGAGGCCAA
GGTGGGCAAATTGCTTGAGCTAAGGAGTTCAGGACCAGCCTGGGCAACATGGAGAGACCCTGTCTCTACAAAATTACAAAAATTAGCTGGGTGTGGTGGC
GTGTGATTATAGTCCCAGCTACTCAGGAGGCTGGAGTGAGAGGATTGTTTGAGCCAGGAAAATAGAGGCTGCAGTGAACCATGACCACATCACTGCACTC
CAGCCTGAACGACAGAGTGAGACCCTGTCTCAAAATAAATAAATATTTTTAAATAGATAATTACAGTAACTTTCCCTGGSTACAAAAAATTTTCTGTTTA
AGGGAAAGTATTAAAAGAGAAAACGATGTATTCATAAAATGATAGGAATACTGTTTTGAAGAACCTATTTTGATGCTATTGTATGGTGTGATAGCTCCTA
TGCTTTCTTGCTAATCAGAGAATTGATCATAGTGTTATTGCAATAGTTGCAATATTAGTCAAAACTGCCTTATTCCTACCTACGGAACATCTGAATCAAG
TGTCTTGAGGAAAGCCAAAATGTATTAGCTCATAGAATTCACAAAATCTAAGGAATAAATTCTGGCTTCAAGGATGACAACTCATCCTTGAATGATGATT
AACAACAACAACAACAAACTCCATCTCTACCTCTTAGTCTGTGTTTCCTTCATTCTCAGGTTGACTTTCTTTGTGTGGTTACAGGTGGCCAYTACTAGCT
CCAGATGGATGCCCTAACCACCTCCAAGTTTAACAGAAAGATAACTTCYTTTCCCTAAGCGTTCTGAAAGAACTAAAGGACAATGTCCTGGAATTGAATT
TCACTCCCAGGRTGGACTCACTTAGGTTATGTCCTCATCGCATGATGATAGGAATGGAAAGCCCTGATTGGCCAGGCCTGAACCATATGACCATCCCTAG
ATCAGGAGTGGGGTCAGCCCCACCCACCTGAACTGTACCTGTACYGAGGGTGAGGAAGGGGTGATGCCCGAGGGAATTATAAHATAGGTACCAGAAGAAG
AGGGAGTGGGTATCAGGACAGTTAAGCAGCATACTCCTGCTATAGTTAGTGCTTGAGGCAGTCCTGTAGCACATCCCCACAGCAATCTGTACTGSAAGTT
GAAGAATGAATGCTATGAGAACTTTATCTCCTTCTTATGCCACCATCATAGAGTCACCCTAGTCTCCCAATTTGCTTCACCGCGCAATGTCAGGAGCTGT
CCTTTAGAGACCAGCCCTGTCTGAGATCAAAAGCTAAACATTCTCGTAGGACTGGTATAAAAGTTAGTAACATCCTCTTGGATAAAAACATTGAAATATG
AATAAAAAGCCTGAAAACATTCATACTCTTTATCCTAGTAATTCCACATCTTGGGATCTATCAGTCAAAAACAAACCAAAAAAATTTTTAAAAAGCAGCC
AAAATGTATATAAGCCTTCATGAATAAAGATGTTAATTGCACTGTTATTTAAAATTGTCAACATTTTGAAAACCACAAATAACCAAAAGGCCTAATAATA
GAAGACAAGTAAATTATAAAATATACATATGATTATATTGTAGGCAACCCTTAAAATAACATCTAGGAATTATATTGGTAAATATTATATGTGAAAAATA
ATATGATATTTACCATAATCTCTTCAATATTGGGGGAGAATCCACATAATTTTTTGTCAGTAATTGTGTGCTTTCAAAAATAAGTAACAATGTTTTATGA
CAAAAGTGAAAGCGTTATGCAAGAAATTAGACCTGTGCTGTCCAGGGTAGTGGTTCACATGTTCAGAGACACTCGGGAAAGATTTTAAAGGTAGCCAATT
TACTGGTTTCATATGGTCCAGCTGCAGAAATTATAGCCAATAGTACATGCAGTCCAGCTCGTCAGTGATGACAAGCAGAAAGCCACTTCCATTAGGCTCA
AGTTTTCCAGCTTCAGCCTGAGAATAGATGGGATTTCAAGCATCTATACCGAGAGATGCCAACGAAACCAGCCAGGAGCAAAATTACCAGAATTCTTGAA
CCAGGCAGAACCAGGGCAGATGGCATCTSAAGCACCTTCGCAGACCAGCGCCGGCTGACCCAGCCAGAACTGGAACTGGGTACGGTGTCAATTCCACTTG
TACTCAGCAGTCAGAGAACYGTGTGACCTTCGATCCTGGCGGAGCTGGAATTGAAACCGAAACATGAGGCGTAGAGCCATCACAGGAGCACACTAACTTC
CCACTCATCACCGTGAATTGAAGTGGAGGGCCTTAACAAACCACCCAGCAGAACCAGGACTCCTTAAAATAGTAGCTCAGAAACCACTCAGAAGTTAAAG
GAACAGCAATGAATGGTGTCCCTATGAGCAGACAGCCAGTTGCACTTCAAAATACTTAAAAGTTTTTGAGAGAGCTAGCGTTGAGCTATTGAAATTTACC
ATGTAAACTTAGGACTTCAGAAGAAAATTGGACATCCTCCATTGCTTTTTTGTTCCTTGCTTCCTGTGGTATTTCTTAATTATTGGTTGGTATAACCAGC
TGTTTTTGAAGCTGTCATACTGGTAGGACTATTTATGTGATTGTAAACACCTATTATTTTTGTTACTAAAGGTAGTTCAACTCGGACTCTCTGTGTGATG
ATTAAGAAATCTGTCCAACGTGAGTTAAGCAAATAAGGGAAATTATTGCCTTCATTAGCTGAAAAGTTCACAGGCGGGTCTGGCTTCAGGAGTGGCATGA
TGAAGCGGCTCCAGTACAACCACTAAGAACCATTTCTTTTCTGAGATTCCAGTATAATTAATTCTCTTAGGATATTGCCTTTGTTCTTGGATGCAGGGTC
TTCTTCTGCATTACCCCTCCTGTGGTCATGAGATGACTCCTCTAGCTCCCCCTGCCAAATGCTTCCAGGTCCACACCACAGGGAAACAGAACTTCCTTCA
CCTAACTGTCAAACACAGGGCCTGGACTTAACATTATATCACTGGAATAAGATGCRCTGACTGACTTCTTCTAATTAGGACTCATTCCAAAAGTTCAATC
GGTAGGAGATAGAGAAAGGCAATCCTAACCCAAACCACATGAGCAGAGAAGAAGTAAAGGATAGGTCCCCAAAGGAAATGCGGGGTGCTGCCTTACCAGA
TGAATGGTATGATTGTGGACCAATTCAAGCAGAAACCTACTACCAAAGATAATTTAAATATAGGGGCTGTTATTTACCAATGACTGCACTCTTCTTCATC
TTAGGATCAGGGCTATTTGGCTAGTTGTTTTGAGTATATAAACATGATAGCCAAATCTTTGTCAAATATTGAGATGAAAAACACTTATGTGAAGAGAGAG
AATAGTGCAATATTGCTTGTGTTAAGTTTATCAAATCATTATTGGATTAAATGCGTCTTCCACATGTGACAGCCTGTGCGACAAAAAAGACATGAAAGAA
GTGTGGTATAAGTGACTCTAAACTTCAGTGGGGTTTCTTCCCCATCTGTAAAATGGGAACAATGATTGCAAGTTGAGCTGCTTGTTGAAAAGATTAACAA
GGATTTCTATAAAGTGAGGTAATGCAATGCCTGCCTCATCAGATTTTCAGTAAATGTGAGTTCCTAAAGCTGCCATCTTTGTCCTAAGCTCATCATCAAA
GGTAACCTCATTTTCAGATCAGCTTCCTGAGGTCTCTGAAATAGCAGATATGGATGTAAACATTAAAGGACAACGTAGGGGCCGGGCGTGGTGGCTCACA
CCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACGAGGTCAGGAGTTCAAGACCAGCCTGACCAGCATGGTGATACCCTGTCCCTACTAAA
AGTACAAATATTAGCCRGGCATGGTGATGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGARTCGCTGGAACCCRGGAGGCGGAGGTTGC
AGTGAGCCGAGATTGCGCCACTGTACTCTAGAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAGAACAACAACAAAAAAAAAAAAAAAAAAAAAAAAAA
AAAAAAAAAACCCAAAGGACAATGTATACCCAAGCCCAGGAAATGGAACATTCTGTGATATATCAAATGTCTCCCTAAAAAAGAACAGTAAATATATTGT
CCCCATGGCAAACTCCAGTCTTTGAATAGTGACTGTCTTATATTGAAGAGATTCCAAAGGCACATTTATACACAATAGGTAAAAATGTTATCACTCTTTA
AAGATGCCTACCCTAGATGGAGGAGGGGGAGAGACAGCTCCAGCAACACGCCTGCCACCTTTCCAAAGCAGTAACCCAAATCTAAATGTCATATTATTTC
TTTGTGCTTGTGCTTTGTAGACTCTGGAAAATCCCAAGTATGAACTGATCATCGAGGCTCAAGATATGGCTGGACTGGATGTTGGATTAACAGGCACGGC
CACAGCCACGATCATGATCGATGACAAAAATGATCACTCACCAAAATTCACCAAGAAAGAGGTAAACCCCTGTGCCAAACACCAACCACCACTGTGGTCA
CAGCTRCAATTACTGATTGATGTTAATTCACGTACCACAGCACCTGCTGGCCCCCCTTTCAAAATCAAAATACTCCTTTGTGGGAGAGACGATGGTGTTT
TGCTGGAATTCTTTCTCACATTTTTATTTTGTGTTTGTGTGTGAGGCTAAAATACTAGAGCACGGTGAGAACAAGAGCACTGAATCTTGTTAAAGTCCAT
AAGAAAATAACTTTTAATGCCCAAGTGCCATTTTCATAGTTTTATTGCTGTTATTTAGCAGTGAGTTATGAGAGTCCCACTGTGATTTTAGCATAACAAT
AACTATTTTTTTCCAGCAAGTGCAGATTGAGAGGCCAGACGGAACAGTAGCAAGGAGGTAAAGCAGATTTCCTAGTCCATAACAATGTGGCCCAGGAGCT
TATAAATAACAACAAAGTTAGCTCATCCAGGAGAGCCATTATTCATTCTCAGTCCCTGTGCTTTTATGATTATGGATCATGGTTGTTGTTTCCCATTTAT
TCCAAGGGAGCGATGTTTGGGGAAGGGCTGAGTACASAAGATCACATTCAGTTGCTAAATTTKTACCCAAACCAGGAAGCCATTTGCACTAAGCACATTC
TGATGGAAATGTGCTAAGATTGTGGCTTCTTTAGGGGCCTGGGCCAGGGCATGGATTTGATGCCCTTCTTACTGACCAAGTGAAGAATATGGAATAGGTA
CGATGGCCCCTGACTTTTGCAGAGTCTTTACTGTATCTACCATGGTGTCTCCCCCTGRGATCTGTTGCCTGATTTGACTGTGTGAGCCTGGCTTTACCAT
TTTACAAATGAGCTTACTGTGATGCTCAGAGAATCCAGAGAACAAGCTCCAAGGTCATGGACAGAAAAAGTGGCAGAAACAGGAAGTGAMCCAGGTTCCT
GTGATTCAAAAGCTGCAGTCCTAACTGTGATGCTGTGCTTTCCTCATCTGCCATCAATGCTTCCAACCTCCAGGGTGTTTGGAGAAAAAAACCTATATAG
GGACCTGCAGTTGCCCCACTGCTCTCTGGAGGAATCTCAAGGCTACCCAGGGTGGCTTGAGACAGATGGATCCTCTCAACCCCCGAGTTCCCCAATGGCC
TCTGTATTAGTTCATTCTCACACTGCTATAAAGAACTACCTAAGACTGGGTAATTTACAAAGAAAAGAGGTTTAATTGGCTCATGATTCTGCAAGCTGTA
CAGGGATCCTGGCTGGGGAGACCTCAGGAAACATTCAGTCATGGCAGAAGGCAAAAGAGGAAGCCAGCACATCTTCACATGGAAGAGTAGGAGAGAGAGA
GCAAAGGGGAAGGTGCCACACACTTTTAAGCAACCAGATCTCATGAGAATTTTATCATGAGACAGCACTAGGGGGGTGGGTGCTAAACYATTAGAAAGCA
CTCCCGTGATCCAGTCACCTCCCACCAGGCCCCAACTACAACACTGGGAATTATAATTCAACATGAGATTTGGGTGGGGATGCAGAACCAAGCCACATCA
GCCTCTTCACCTCGGCATCCCCCTGCATGGCTCACTCAGGAGGTAGACGTCCCCCTTTCTCCCTGTGGTGTCTTGGGCACTCAGGATTCCAACCTCAAAA
CAGCAAAGTCCACGGGAGCTTGATTTGCTCCATTCTCTGACTTCCCATGRCAGGGTTCCTCTAGCTGCTAATACAGACTGCTCACTCTTGCCATGGTTCC
AAACTGGCATTTCAAGAACACCAGTTCTAATTAGTTCCAAACAATTCTAATTCACTTCCAAGAAATTAGTCACAAAAATTACACCACCGGGGTGGGGATA
GGAATGAAAAAAATATACTTCAGGGTCAAGTAGATGTGGGAAACACTGAATTGATTACTTTTAAATGGTTTATTTAACTGCAGGATTTCTGATTAACTTT
AAAATGCTTTGTGTTTCTCTAACAGGGTTAGGTATGGTCTGTGGGGTTTCTCATTCTTCTTTGGCCTGGGGGCTTTTTTTTCTAGGCYACCTTATATGGC
TTATGGAGCTGGTGTTTCATGGAATGTTCACTGGGGGATTTTTGTTTATCTTTATAATTTCTTTTCAACCTATTTCAAAATAAAAACTCAGAGCACATTG
TAATATTCAATATAAACKTAACRATGGGAACAAAAATAGGATAACCCCAACCCAAAATATGAAGATGGATCTGTGTTACCAGCTGTGTGAGATTAATTAG
TTACTTCAATGCCACTGTGAATTTGGGTCCTGTGACTTAGGAAAAAAAGAAATCTTTGCTCAGTTGTGGACTAAACACTGTGAATGACAGACTATTGTTT
TTAATGTCATTGAATCCAAGGAATAATTTAACATGGACTCTAAAGGTTAGCTACCATTCCACAATATCATATTGATTTCAAAATATCATATTGTAAACAC
TAAAAGCATACAATGTTATCTGTCAATCTTAAAAAATAAATTTTGAAAAAAGAGACACTGAGTAGCATAAGGAAAATGTATCTGCCTGTAAATACCAGCA
AAAGCACACACATTTTCTTCAAATGGAGATTAGACAATGAGTTTGAGATTCCCAAAAGGCAGAGCTGATACCTAAACTCATAAAGAGAGATAAGTAATCA
GATGAAAGGAAGTGATAACAAGTACACTAGACTCTCATTTGGATATTAAATGTCCCAAAGGAGTCTTTGCCCAATGTTTGATAATTTAAATTCATGATTA
AACTTTCTGTCGTGTTCCTGAAAGGCTGATGTTCTTTGTTGAARGGGATTCATACACTTTGGATAGTAACACTGCTGGGGGTAATGTGATTGAGAAGTAA
GGAGGGGGCGCTGGAGCCGGAATTGGGTTCACATCCCACTGACCAGCCATGTGGTGGGAGCATGTTAAGTGCTCTACATCCCAGTCTCTTCACCTGTTAA
CGGGCTGATCGCAGAGCCCACCTCATTAGGTCATTGTGAATGAGCTAATGACTAAAAGAAMCTAGATAGTGCCTGTCGCCCAGTATTTTCTAAAGTATAG
AGATGAGGACAGTGGTGATGACACCGCTGATGAGGATGGTGGGAGGAAGGCCATGATGAAGAAGAAGATTGTRATGAGAAAGATATTATTATGACARTGA
TGTTTCCAAAATGTCAGAGGCCAAATTGACATTCTTATCGAAAGGGCCACCTCCCCTCCAGGTTAAAAGGCTACTCTTTTCCTTTAAAGTGACATATGAA
TCTGCTCAAGCACTTCAAAATACATGGTTAGGACCCTAGAGTTCTAGGGGAGAAGCARTTCTGCAGGAGAGGTGGCAGAATCTGTAAAATGCATCACTAT
GAGATCAGGCCTCGGGACAAAAGCGAGAGAGACCAAGAGAAACCTGCTGGGGAGAGGAGAGCTCCTAATGAGGACTGGCTCAGATGCAGTGGCCTCTAGG
ATATGGAAGAGGTAGGAAAACAGGATGCCCTAGAAACAGAGAGGAAAGATGGGGCTTATGATCTTGAAGTTGAAACAAATTTTAGAGATGAAAATCAAGG
TTTAGTCATTCCAAAATAGAAATGGTGATCATTTGGAGTTGAGGATGTCCAGAAAGCTCTCTAAGGAGATGTTGTCCTAAGTAAATTTTTTCATATCTTA
GGACATTTCGAAGTTGATAAGAATACATGGTTTTTGGGAATATATGAGGTTTTTAAATTCTATCTTACATGACTTTCCCTCTCCGGAGAGATGTATCCTT
TTATCTGTTTTTGAAATCTATATAAAAGAKGAGTTATGATTGATCACAAATAATAGAGACTAGAAATAACACTGTTGAACAAAATAGAGGTAGTTTCTCT
CACTTAAAAGTTTGGAAGTGAAGGCTGGGCGTGGTGGCTCGTGTCTGTAATCCCAACACTTTGGGTGGCGGAAGTGGGAGGATTGCTTGAGCCCAGGAGT
TCAAGACCAGTCTGGGAAACATGGTGAAACTCTGTCGCTACAAAAAAAAATACAAAAATTATCCAGGCATGTAGTCCCAGCTACCTGGGAGGCTGCGGTA
GGAGGATCATTTGAGCCTGGAAGGTCAAGACAGCAGTGAGTCATGATCACACCACTGCACTCCAGCCTGGGTGACAGAATGAGACCCAGTTTCAAAAAAA
AAAAAAAAAGTTTGCAGGTAGACAGACCCAGGCCAGTTTGGTAATGACATGATATCAATTTCCCAGGTTCCCCTTAGCTTTCTGCTCCGCCGCCCTCACG
GCTGCCTTGTGGTACAATAGGGTCACTGCAGCACCAGGTATAACAGCCAGTAACAGGAAGTAAGAAGCAGGGAATGAGAAGAACAAAGGAGAACCGGCCA
CCTGAGTAAATGTCACTTGAAAACTTCCCCAGAAGACTAAGTGACTTCTGCTTGCATCTCTGTAGCCTCCCTTACCTGTAAGGGAGGCTGAGAAATAACT
ACAGTTGTCTTCAGTTGGTATGTTGCATTTATAGTGTTTGTTTAAGGAAGGAGATACTTTAAAGGTTACTTTTAAAAGTAAATTCTTATTGCAAAGTAAG
CTCATCCAGGCACGGTGGCTCACRCCTGTAATCCCAGCACTCCGGGAGGCCGAGGTGGGTGGATCCCCTGAGGTCAGGAGTTCGAGACCAACCTGACCAA
TATGGTGAAACCCTGTCTCTACTAAAAATACAGAAAGATTAGCTGGGCATGGTGGCACATGCCTGTAATCCTAGCTACTTGGGAGGCTTAGGCAGGAGAA
TTGCTTGAACCAGGGAGTCAGAGGTTGCAGTGAGCTGAGATCACACCAGTGCACTCCAGCCTGGTGACAGAGCAAGACTCGGTCTCAAAAAAAAAAGAAA
AACATGTAAGCTCAATTCTTTAGTCCTCTCGTGTTCATTTACAATGACTATACACTTGCTGAGAAGCAACAGCCACATCTCTCCTATCCTCTGTTGTATC
CCGGCAGGCACTCAATAACAGAGCATTTGCTGAACGCTTCCTGAAGATAATTTTAACTTCAGAACAGCTTCACTGCATACGATGAACGAAGATTGTACTT
AAAATTGCCGCTGATACATGAAATCAATTTTCAGTCATTGATGTTCATGCAAATTTAGGTTGGAAACGCTAGTTTTTCTCTGTGGAGAGTTTTCTATAAG
TTTTCCTAATAGCTTGTACGTATGACTTCAACTAACTGTTAGTTTTGAACTTCTTACATAAGGTATTTTGAAATGATCTGAGAAAATCTAGTTAAACTCT
TCAAATACAGACTTTGAAATATACATGAAAACTTCAGCAGCCCCATTTGTGGCTTTTTCATTCTTGTCTCTTAGGTTATTTTATTAAAAAAAAGATTTCT
GATTTGTAGCTAGAACATGGTTGATGCCCAACAAATACKGATTGAATAAGTCATATTTTCACATAAATCTCAGGTCATGGGGATTAATAAACTCGCTATT
AATTAAAGAATGTGTTTGCAAGTGATTATAAAATTTAAAAAAAACAGAAAATTTCAAATTTCATTTTCCAGTTSTACCTTAAAATGGCAATTGGTCATTT
AGATTTAATAATTTAGGACTTTTTGGCAATTCAATGAGTTCTTTCTAAGGTAAATGTTTTGGTGTTTAARCTATAACATTATCATACCTATAATAAAAAC
GACATAAAACTTRTAAGATCCTGTCCTCCAGCTGGAAAATGAGAGATGGGCAAATGCTCCAGTTTTCACAAAGGGACAAAGGTAAATGGTAGGAGTTAGG
AGCTGTCAAGCTGCAAGTGAGCCATAGGCAGAAATTCACATCAGGTTATCAAATGAATGCTGGAGTCCAGGCTCCAATTTCTAAAAGTCAGTGTGGAGTC
CTGAAGAATACATGGTGCCTCAAGTATCTTCTTTTCCTGTGGGGTATTAGCATTTTTTGTTTTTTGAGACAGGTTCTCATTCTGTCACCCAGGCTGGAGT
GCAGTAGCACAATCATAGTTTCGGCTCACTGCAACCTCAAGCTCCTGGGCTCAGTCAGTCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTTCAGGCAT
ACACCACCATGTCTGGCTAATTTTTGTATTTTTTTTTTTTTTTTTTTGGTATTTTTGTAGAGGCGAGGTTCTGCCATGTTCCTCGGGCTGGTCTTGAACT
ATTGGGCCCAAGCAATCCACCCACCTAAGCTTCCCAAAGTGCTGGGATTAAAGGCATGAGCCACTGTGCCCAGCCAGTATTCGCATTTTTAATTAAAATA
TTGTGTTAATTAACTGCCTAATACAACCTCTAATAGTTTTTCTCTTCCATGTCTGGCTGCAAACTCTATGGTCACTTCTTCATATAACAATTACATAAGA
TCATTGTCTATAGAAATATAAGAACAAAAGGTATAGGCTTTCTTCTAGCAGGGTTGATAGAAATTTTCTCTGTGTCATCAAGAGTTTAGAAACTTTTTTT
TTGTTTTTGCTTTCACAACACATTTTATTATTGGAAAACTTGTGCACATTTTGAGGAATATCATCAAATTTAAGGACGTTTCTGTCATATATATGAGCTA
TGCCAAGCTTGTTCAACTTGCGGCCTGTGAGCTGGCAGCATGCAGCTGAGGATGGCTTTGAATGCGGCCCAACACAAATTCGTAAACTTTCTTAAGACAT
TATGAGATTTTTTTTTTAGCTCATCAGCTATCATATTAGTGTATTTTATATGTGGCCCAAGACAATTCTTCTTCCAGTATGGCCCAGGGAAGCCAAAAGA
TTGGGCAACCCAGAACTATGCAATTTCCAGTCTTCTTGTGTAAAAACTAATCTTTAAATCAATGACACATATTAGCTAAGTTGTCATCCACATCCTCGTA
TGAGGCATATTATGAGTTTTATGTTATCTTTATTGGAGTGAGCATGGAAGATCAAATCGGCAAGAATTTAAATCTTTTTCCAATGTGTTTATTATGATTC
ATTCTTCTTCATTAGTGGCTTTATTAAACAATCAAGAAGCTATTTTATTTCTTGTGTTAGAAATTTACCTTTTCCTCTTAATAAATTATTTGAGGCAGAA
TGATGTCAGGATACCTGTTTATTTCATTTTTTAACTTTATCACTTTTGATTATAGGCCATTCAAGTTTTTTACTAACAGCTTTATTGAGATATAACTCAC
ATGCCATAAAATTCACACTTTTAAAATGTACAATTCATTGGTTTTCATTATATTCACAGAGTTGTMGAATTATCATTACTGTCTAATTTTAGAACATTTT
CATCGTCCCAAAAAGAAACCCGAACCCATGAGCAGTTACTCCCCATTGCCCATTCCCCCACGCTGGCCACCACTGATCTACTGTCAGCCTCTATGGATTA
GTTTATTCTGGACATTTCATATGAATGGAATCATACAATACGTGGTCCTTTGTGACTGGCTTCTTTCACTTAGCATTATGTCTTCATGGTCTGCCCATGT
TTTAGTGTGTCTTAGTACTTCATTTCTTTGTGTGGCTGAATAATACTCCATTCCATGGTTATACCACATTTTATGCATTCATCCACTAAGGGACATTTAG
GCAGTTTCAGTTTTTGGCTATTGTGAGTAACGCTGCTGTGAACATTCATGTAMAAGTCATTAAGTCTTTATCTGCGTTTTCTCTCACATCCTAAACAGCT
AGAATAAAAAAAAAAAGTACCCATAATATCACTCCAAATTAGTAATCTGTAATTCCTCAGTTGTTTTATTGAAACATTTCAAAATGCGTTTCTAAATTGC
AGTTAATATGACTTATTCAAGACTTATCAACTTCTTTTTGTCATGTAACTTCCATATGAAAAAAGTACACAAATCCTGAGTGATTTAATTCTCAACAGAT
CAAACACAAAACCCAAATCAAGACACAGAATATGATCAGCAACTCAAAAGCTTCCTAGGGTTCCTGCTAGTCCCACCACCTGCTCGGTAAAACAGCTCCT
CTCCTGACGTCTTTCACTATAAACTAATTTTTTTCCTATTTTTACCTTATTTATATAAATAATCATAGTGTGGACCCTTGGGACTAACTTTTGTGAGACT
TATCTATGTTGTTGCACATAGCCGTAATCTATTCATGTTCGTTACCATGCAAATATATTTCAGTTTACTCCTTCATCCTACTACATGTGGGCATTTGGGT
TATTTCCAGTTTGGGGATAATTTAGGTAATAGTGGAATAAGTATTCTTGAATGTGTCTTTTGGTGCATATTTGAAGCTTATATGTGTTTCTGTTTGGGGT
ATATCTACAGGTGAAATTGCTAATTCAACTTCGGTTGATTCCACCAGAGTAGTTAACTCCAGTTTACAGTGGAACACTCACTGAGAATCTTGACTGCTAT
ATATTTTCCCCAACATTTGGTTTTATCAGTTTTTTGGTTTGTTATTATTTTTAGCCTTTCCAATGTGTATGTAGTGACATTTCCCTGAGGCTTTAATTTG
TATTTCTCTGGTGGCTGATGAAGTTGACCATCTTCCATCCACTGGCTGTTGGGATTCTACTTTTGGGTAATACCTTTTCAAGTCTTTCAACCATTTTTTA
AGTTGGGTTATTAGTCTTTCTCTTATCGACGTGTTTATCTTTATTCTGGATGTGAGTCCTTTGAGTTATATACATGTTGCAATTTTTTTTTTACACTCTG
GCTTTCCTCTTCTCTCTCTGAATGAAGGTAGAGTCCCAATTTTAATGAATTCCAATGTTGGTTGATGGTTAATGTCATCTGTGCTCTATTTTTGCCTACC
CCAAAGGTTTAATTTCATTGATGGATATGAAACTATGTATATTTCAATTTGCCAATTTGTGTTTTTCCAGGAATTTGTCCATTTCATTTTTTTTCTCTAT
TTTTCTTGGTTGGTCCTGCCATGGAGTCATTCTATCCACTTTATTAATCTTTTCAAAGAAACTACTTTTTGTTTTGTGGATTTTTCTCTATTGGGTGTTT
CTTTGTTTTTTTCCTTCTATCTCTTTGGGTATCTTTCACCATTTATTTTTCAAACCCCTCCCTAGAAATGATACTTTAATCATTGATTTTCAATCTTTCT
TTTTTTCTAATGTATGGATTTAAGACTATATAAATTTTCCCTTAAGCATGACTATAGTTGCATTACATAATATGTGCTATGATGTATTTTCATTATCATT
CAGATCAAAAATATTTTTGAATTTTCTTGGGTCCCTTTTGTGACTTGTGGTTTTCTAGAAGTATATTGCTAAATGTGACATATTTGGGAGTGTTTTTTAT
TCTTTTCCATTAATTTCTATCTTAATTCTACAGTGGTTAGAAAGCATCCACTATATGATTACAGTCCTTTGACATTTGCTGAGACTTGCTTTACAAGCTC
ACATGTAATCAATTTTGATAGATGGCCCATGAATGCTTTAAAATAATGTTAATTCTGTAGTTGTTTAGTATCGTGATCTATATACATCAGTTAGGCCAAG
GTTTACAATTTTGTTGTTCAAACCTTCTATATATGTTTTATTAATCTGCTTATTGTATCAGTTACTGAAAGAGTGATATGATATCTATAATTACAGATCT
ATCTATTTCTCCTGTTGGTACTATTAAATTTTTAAAAACTTAATTTGAGGCTGTCTTATTAGATGTATACAAATTTAAAATTGTTATATCTTCCTAATGC
ATTGACTCTTTACCATCATGAAATGTACCTCTCTATCTCTGCAAATGCTTTCTGCTTTAACATTTATCTCATCTCGTATTAGAATAATTATCTTACCTTT
CTTTTGGTCAGTGTCATCATGGTATATTTCTTTCTGTCATTTTTTTCTTTCTGACTTTCTGTAATCTTATATTTAGTCTGTGTCTCTTTTAAGTGGTGTA
TGTATGGGCTTTGATTTTTTAAAATCAATTCCAATAATGTTATTGTTACTGGAATTATTTTGCCCATTTACATTTAATGCAAGTACAACATATTCGGGTT
TCAATCTACCAGTCTAAGTATTTGTTTTCTATTTGTTGCTCCTTTTTGATAAATTTCTTTTCCTCTTATCTCTTATCTTTTTCACATTTACTTGGGTTTT
TTTATAATTTCATATTCAGCTCTAATAACTTATTAGTTATACTTCATTTTCATATTCTTGTAGTGGGTTCTGAGAAATTGCAATATATATTCTCAACTTT
TGGACTCTAACATCAAGTAGAATTTTTAGGACTTACTGGATAATCCAAGGACTTTAGAAAATTTGAGCTCCTTTTATCATCCTCCTACCTTCTGAGATAT
TGTTGTTATGTTTTAATTCTGTATCAGTTTATGTTTTTCTACTTATTTACCCTTTGTATTATTATTTATTTATCCCTGTTTTTGTGCTTCCACATGGAAG
AATTTTCCCCTCTGATTAAAAAATTCCTTTTATTTTAAAAATACTGCAAGTCTGCTGGTAATAAGTTCTCTCATATATTATCTAAAAAATGTCTTTTTTG
CCAGAATTTTTGAAGAATATTTTCACTGGAGGTAAAATCTTGGTTGCCAGTTATTTTCTTAGAGAACTTCAAAGATAACATTTCATTGTCTTCTGACATC
TATCATGTTTGTCAAAAGGTCAGCTGTCAGTGTTACTTTTATTTCCATTGAAAGAAACGTGTCTCTTTTCTCTGGCTGCTTTCAAAAACATTCTTTGTCT
TTACTTTTCAGCAGCTTAACTGTGACATGCTGAACTGTGGTTTAATTCGTATTAATTATACTTGTTCCTTAAATATCTCAATTCATAAACCCATCTCTTC
AAATATTTCTTCTGACTCATTTTATCTTCACTGGGACCCTAATTTTATATATGAATGTGTTTGTGTTTGTATGCACACATACATATACAAACATACATAT
ACACACACACATAAATATATATATAGACTTTCTATGCTTCTGTTGAGCTATTTTTAAGCTCACCAATCCTCTCTTCTGTCTAATCTACTATACCCATTTA
TTGATTTAATTACACTCAGGCCAGGCACGGTGGCTCACRCCTGTAATACCAGCACTTTGGGAGACCSGTGGGCAGATCACTTGAGGTCAGGAGTTCAACA
CCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAATAAATACAAAAATTAGTCAGGCGTGGTGGCGCCCACCTGTAGTCTCAGCTGCCTTGGAGGC
TGAGGCACGAGAATCACTTGAACCCCAGAGTTGGAGGTTGCATTGAGCTGAGATCATGCCACCGCACTCCAGCCTCCATGACAGAATGAGAGTCTGCCTC
AAAAAAAATTTTTTTTAATTAATAAATAATAATTACACTCATATTTTAAATTATGTAATTTCAAATTCTTTTTTGAATAAAATTATCAGCTGAAATTCTA
CATTTTACCTATTTTCATGAATATTTTAGTCAAATTATTTACAATTCAATGTCTGCTAACTCCAGCATCCATTAATAGATACTTCTGAGTCTATTTCTAT
TATCAGTCCTTTTCTCCTGGTTTTTGGTCATTGGTTATAGTCGCCTGGCATACCTAGGAATTTTTTAATTTAATTTTGGACAACATATATGAAAATGTTT
AGAGATTAGTAGAGGCTCTGGCTGATGATTCCCCCAGAGAGGATTCCCTTTTGCTTTCTGTAAACAGATAAGAGTAGGACAGGATGACTTTAAGTCAGTC
TGAGATGGAGTTGGTTTGTGGTGGGACTCAGGCTTTTTCAAGGGTGGGTCTACTTCCCAGTGTTCCCTTCTCCTCGGATGCAGCTTTCCTGGGGTCCTAA
CTGAAAGTCTGGTATGTTTCCAGGGCTCCTCCACTTTGGCCGACCTTGCATTTCACTTCTCAGTCCCTTGTCTCTGCTGAAAGCTCTCCTTGGCCCTCTG
GCCTCTTAGACAGCACCTTCTGCTCAGATGCTTAGCCTGCTCTTCCTCTGCCCTCACAATCTGGGAAATGCCTTCAAGGGTAAAAGTTCTATGGAATATT
GGCCTCGCTTCAGTGAATTTTCCTTCTCTCCAGGATCCTGGACTCTCAAGTATTGGCTGCCTTACCAGCTCTTCGGCACTTTCAAATAAGTGGGGGGTTT
TATATTAAATCCATATCCTGGTTGTTCTAGATTTGAGGGTTGGTCAGGAAGAAGCTTTCCCCAATCATCATAAAGAGAGAAAAAATCTGGATTAGCTTTT
TAATCTGGAGTATCAGGAAAATATCAGTAGACATGGTGCGGATATAATTCCTGTGGCAGAAAGCATAATWTTTTCATTTAAAATGTGGAGAAATATAATT
AAATGGCTTCACAGTACCCACTCCATCTCATACCATTTGCTTCAAAATCAACTTATTTCARTAAAAGTTTAAAATGTTTGAAGTGTCTCCTACTTGATGA
TATCGATAAGCAAGAAGGGAACTCTAAATCCAAGAAAGCTAAACTTTKCTTTCTGATTCTTCACTTGATTTGACATGAATATCTACAGTTCCCTTAACTC
TTTGGGATCTTTTCCTCTGTTTTTGATAGTTTGGTGACYCCAGCTATGAAGTTAGAAGACACACCTTTGTGCTTCCACCCTTTGCCAGAAGTCTAATTGA
AGTAAATATATTTATCCAGTCCTCCAGGATTCCGTGCAATATATTTGAGTGCTTCAAAGAAAAGCCTCCTACTTGGATAAGCGTTTACTTCCTTTAGGAG
AAGAGCTCTTTAACATCAGATGCACTTGTGTCTAAACCCCGACCACGTAATTACACATTCTGCTTGCTCCAAAGAGATTAATCCAGAAAGCCAACCACAT
ATTTCTTAGAAGATGGAACACATTTCAATTATCTGACTCAAGTGACTTTTCTGGAGGGTGGAGTCCAAGACATTTTAAGTACCAGATAAATCTTTGAAGC
CGATTAAATGTTTTTCCAAATAGTCTAGACTCCCTCTTCCTATGAGGCTTTTTATAGCTATTATAGTGATATATGTGAGGCTTTTTTTTCCTGATACTGT
AAAATCACATATCTGACAGTTTTCAGTGTGGCTGAGGTTTTAAATCAACCCAACTATATGCTACTGGGATCTCTATCTCATATTTTGTACAGAATGGTGG
GGAATATCAATATTTAAAGAAATGGTATTTTTGGAGAGAAGAGAACAGTGTGATTTCAGTGCATGGGTACTAGCAGTTTCCAACTCTGTAAACAGTGCCA
TCACTCATGATTACATCATTTCCTGTTCTTTCTTGTCCTGGCCAACACTTTGTCCAAGGACTCTAAGAGATCATCTACTGCAAATTGCATTCCCAACTTC
CCATCACATAATCGAAGAGAGGTTTGCTGCAAAACCGCCAACACCTTCATTTCACATTTATCTTCACTTGAAAGGGGTGAGTTCATCACTTTTTTCTCCT
GCACCAAGACCATAGGAAGACACRAAATCATCAACTAWATCTTCCAGCGTTCAAATATCGGAGGCCCTGGAAACAGCAGGTATGCCGCTGAATGTTTTTG
AATAAAAGAGAGTGAAGGGAAACGTTTGTACAAATATAAGCAACGATCTACAAATAGAAGCCATCATCCAAGCAGTACAGTTCCAACTAAGGAAAAGGGT
GGTATGTGCATTCCTGGATTTAATTGTTCATACACACAAGGATGAGCTGTCTTGCGTTGTTGGAAATGCCCACGCTGATTATAAACTCTGTGTGGAATGT
CAAAACATCTGGATTTTTAAGTGAAAAAATATATAATCTACCATGTGGCTGTTTCTTCAAGTCACTCCTAAAGGTAGACAAGGCAGCCAGATGATTTATT
GCATTAATCACTCTTTCATAATTATATTCGTGATGTGTTGATCCCCATCATCCCTGTGTGAACCTCTATGCGAATTCCGTGCCTTTGCTAAACCTCTGGT
TATGCTCAAGGGTCAGTGGCAACTCAGTGACAATAAAAGCAATTTTTCACTATAGCTGGCAGAGTCTTACCACCGAGCCACTCCATAGCACAGTGGCCTC
TGAAGACTTCATCCACCTCCTTCTATTCAAAGATAATATCCTCATACTAAGAGCAACAACCACAAAGCCATAAAACATCTACTTTTTTAACTCTAAGAAT
ATGACATGACTACACCTCCATAATGCAGTGTGCAGAATGAGAACACAGGAKTTCAGAAATAGAAAGCCAAGAGCAGCATAAATGGAGCCTGTTGGAAGAT
GAAACGTCCAGGTCCACACTGCACCTGGAAGCCATTTTGTACTGAACAATTTTAGAAGTAAGATCATGGGTCTGATGCATACATGGTTTCAAACACTGTC
CACCTGGCTACAGCCTGCCTTCGTCTTAGGCCACACGGGAGCTCTGTTTACCCCTACGTGCCAAGCTTTGGCRTGTCTTTGTGCCACTACACACTCTGTT
CCCTTCTTCCCGGAATGCCTTTTCCTTCCTTTGTGCCTGAAAAATTCCAATTTATCCTTCACCACCCAACTTATAAATCCCCCAGGCACTTTGTTACTTC
CTCTTCCTTGTCCCAAAACATGTTAGCCCCCTTCCTAGCCTAGAGTTACCACATTGCCTTTCGCTTGTGGACTCACAACCCCTCTCCCTAATCCGCTTGG
AATGCTTTGCTCTTTAAGCCCATCTCCTTTTCATCTCCGCCTCTAGGGCCAAGCACAGGGGCAACATCAAGTGTTTAATTAGAGATGAGTTTATTATTCA
TGCAGCAAATACTTATTACAGAACTGTGTTTTGGCTTCTGATGTACTATTAACTATCCTTTCATTCACTATTATATACAATGTTACCTGTATACCATTAT
ATGCTGCGTATAAGTAATACTCTATTATGTATGCTATTCTATTCTAATATGCACATACCCTAATATGCACATATTCTAGTCTAATATATAAATCTATTGT
AATATGCACATATCCTAATAAGCACATTTTCTATTCTAATATATAATATCTATTGTAATAWGCACATATCCTAATATGCACATATTCTAATATATAATAT
CTATTCTTTTCTCATATGAACATATCTCARTATGCACATATTCAATTCTAATATATATCTATTCTAATATGTACATATCTTAATATGCACATATTCTAAT
ATATATTTCTAATATGCACATATCCTAATTTGCACATAATATCTATTGTAATATGCACAAATCTTAATATCACATATTCTATTCTAATATATAATATCTA
TTCTAATATGCACATATCCTAATATGCATATATCTATTCTATTCTAATATGCACATATCTTAATATGCATGTATTCTGTTCTAATATATAATWTTTATTC
TATTCTAATATGCACATGTCCTAATACGTACATATTCTGTTCTAATAATATATGACATAAAATATTAAATATGCAATATTCAACTTCTGGTGTGCTATAT
AATTATTTAATTGCTTATTGCCACTCTCACTAAATTAGAATGTAAGCTCCTCAAGGAAAGAAACTATCTGTTTTGTCATCTGCTGTGGTCCCGCACCCAG
CCTGCCGTGTAGTGCATGAYCAAATAACTGATGAATGAATGAATAAATGGTCGATGCTTGACAACAAAGACAATCAGAATCTCTGAGTCATGTTGTTGCA
AAGCACTTGCGGCCAGGCATGGTGGCTCATGCCTGTAATACCAGCATTTTGGGAGGCCGAGGTGGGCTGATCGCCTAAGCTCAGGAGTTCAAGACCAGCC
TGGGCAACATAGTGAAACCTTGTCTCTACTAAAATACAAAAAATTAGCCAGGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTTAGGGGGCTGAGGCAG
GAGAATTGCTTGAACCCAGGGGTTGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGAGCTTTAGCCTGGAGAACAGAGMGAGACTCCAAAAAAAAAAAAA
AAGAAAAAGAAAAGCACTAGGAAGGCATCTCATTCAATACATAGTTTTATAGATGAGGGGTCCTGCTCAAGGTAGAAAACAGATCCCAGACCAACCTCAC
TGTGGCACAAAATGCTGCTGCCGATGAGAAACCCAGGCTCCAGCCCTGCACTAACATAGCAAGTCACAGGATCATCCCCAAGATTTATCATTGCACTGTA
GTCTGCCAAGAGCCGAGACAGTTGGAGTTAAATTCCATCTCAGAAGTGAATAAATGAATCTACATAAACTGCAGAGATCCCTGAATCTACTTCCCTATCG
GTCAAGTAAAAAGAAAAAAAAATCAAGAAAACTCAATGTTAATAAATAATACATAAAGGAATCGTTAGAGTGGAGACAGGTTCAACTTATCCTGTGAGTT
AAAAAAAAAAATGAAAGCAAGAAAATATTCCACAGTTCCAGTGTGCTGAGCTCATTCTTGTGAGATTAAACAAAATAATTCAGGATTAATATATTCATTT
CTTTGCAAACTACTATCTATTTCAGTTACAGACTGAGTATCAGTTTTTCCAGTGTTGGCACTTTATTTTTGCTGTTGACCGGCTCAGATCTGAAAGACAG
GATTTTATGAGAAGCGTCACCTTCAGCCTGCTTTGCCTGTGTGTGCCTGCGTTTGTGTATCACACGTGATAACGTTATGCTGTCGCTTTCCAAAGTACAT
TCATTCATTCATTCATCCACCTGCTTGCCCATCAGACATGTATGTGCGCTATGCCTCCTCTTTTCCAGGCTCTGTGATAAGCTAGAGYGCAGGGCAGTGA
GTGAAGTGAACAGGGTCCCTGACCTCACGAAGCATGGCTGGGGACAACCAGCCAACCAGCACATCGATCCTGAATGACCCCTCATGATGAGATGGAAGAG
GGTAAAGTCATAACAGAGGGGGACTGCGAGGGCACTTGGCATGGAGCTCAGGGAGGGCTTCTCAGAGGAGGTGACTGTATTCATTTCCTGGGCTGCCATA
ACAAGGTATTACCAGCCATGTGGCTTCAACAACAGATGTTTATTACCTCACAGCTCTGGAGGCAGAAGTCCAAGAGCAAGGCACTGGCAGGGTTGGTTCC
TTTGGAGGCTGGGAGAGAGAATTGGTTTGATGCCTGTCCCCACACTTCTGGTGGCCGCCGGCAACCTTTGTGCTCCTGGGCTTGTGCATGAGCACGAGCA
TCCCCCCAGTTCCTGCCTCCATCTACACCTGGCTTCTCCCCGTGCCCATGCCTGTGTCCACATTTCCTCTTTGCAGAAGGACACCAGTCATATTTGACTA
GGGCCTACCATAGTAGCCTCACTGTAACTTGATTCTCTCTGTCAAGGTCCTCTTTCCAAATAAGGTTACAGTCTGAGGTCCTGAGGGTTCAGATTTCAGT
GTATCCTTAGGGGGAGACACAATTCAAAGTCTAGCAGTGACACAGAAGTGGAGGATGCAGATGGAAGCGTCCGTGGGAAGACCCCGGCCTGGGAAGGGCA
TGTCTGGCAGGAGGAACTGAAAGCCACCCAGGGTGACCAGAGCAACATGAAAGAGTCAGGGAGGGTGTGAGGCTGGAGAGGGCGGGAGGGGCCAGATCTC
ACCCACAAGACGAGGAGGCTGGATTTATTCCAAGTGCATGGGGAAGACATTGGCAGATGTTAAAAGAGATAGGGAGGGGGGCCGGGCTCAGTGGCTCACG
CCTGTAATCCCAGCACTTTCAGAGGCCAAGGTGGGTGGATCACGAGGTCAAGAGATGGAGACCGGCCTGGCCAACATGGTGAAACCCCGTCTCTACTGAA
AATACAAAAATTAGCCGGGCGTGGTGGCATGTGCATGTAGCCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGTTTGAACCCAGGAGGCGGAGGTTGC
AATGAGCCGAGATCGCACCACTGCACTACAACCTGTCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGATATAGGGAGGAACATTCCA
AGACTCAGAGCCCCCATGCTGCTTAGGAATACTGTTAGTCCACAAGAGTGAGTCAATGGCTAGGAGATTGCTGGGGATGCCAACAGCATGAGACCCAACA
CCTATGTCCTTCACCCAAGTGGGAATAACGCCAACCACAGGCAGCCAACATGAGTAGACGTTTATGTAGTAAGTTTCAAGCTTAGGAAGCCCTTCCACAC
GCCACATGCTCTCTCTCACCTAATACTTGCACCGTCCAGCAAAGAGGGTCTTGTTGTCCCTCCACGTAGATGAGGAAACTGAGGTTAAGTGGCACCGATT
CCTTCCCTGAGGTCACTGGGAGCTACATGGTAAGAGTCTGGCCTCTGCATCTGCTTTTCCCTTGCAAACTCAAAGAGACGTCTCTCCTTCAAGTTGCAAG
TGTCCTATCAAGAACGGCAATTGTGTCGTGAGTTTCTGTGAAAAGCAAGACTGGTCATTCCATCACTTCTGTCTGTCCAACATGCCCCAGACTTGCTMTT
TTGGGGCCCCATGCTGTTAAGTAAACATCCCCCAGCCAGTGTGAATATCTGAAAGCACCTGCTTTGTACGCAGCAGGGTCAGAGACCTTTATATGCACGC
CCTCRAGCCCTCCTCCTGCCAGCACTGAGACAGGTACCATGATCGTAATACCCCTTTCGTGGGTATGGAGATGAAGGCTCCGACAGCTGAAGAACTTACC
CAGGCTCCAGACCCCAACTCTCAACCCTCTGCTAAGCTGCTTCTGTCCCGTGAAAGGATTAGCAATTTAYCAGTCCAGTGCCAGTAGAGCCCACTATTCA
GGCATTTCTGCCGGATTCAGTGGCAGCCATTATATGACTCTCCAGTGGTCTAGCCCTTGGGGTCAGCTCTGTAGGATTCCTTGCCAGGGCTATTCCTCGG
GGAATACCTATCCTGTTTTTCTTGTTACACTTGTGCACCAAGGGTTTGCTGAAGCAGCCCAGGTCTATTACCACCGTTTTCCACTCTGCTTGAACTTGCA
AACTTCAACTTACTGCTGGCCCTCTTGCTCTCACCTCACCTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTGTCACC
CAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACCGCAAACTCCTCCTCTTAGGTTCAAGCGATTCTCCTTCCTCAGCCTCCTGAGTAGCTGGAATTACA
GGCATGTGCCACCATACCCGGCTAATTTTTGTATTTTTAGTAGAGACGAGGTTTCACCATGTTGGCCAGGCTGGTCTGGAGCTCTTAACCTGAAGTGATC
CACCCGCCTCGGCCTCCCAAAGTGCCGGTATTACAGGTGTGAGCCACCGCACGCAGCCACCTCACCTGCCTTTCTGTTCAAATCAGGACAATGTTTTGTG
CAAGGCCTGGATATAACTACAGCACACAAAAGATTTCTCTCCTGGGTTCATTAGGATAAGTTCAAGTTACCCTCTGTCCCTCCGTCATTTCTTCTCATTA
TAAAAGGGTTGGAGGGCTTCTTTCAATAGCCAGTGAAGTTGATTAGCAACCTTGTATCTTTATTTTGATAGGTCCAATGGGAAAATATACTAATCATTTC
TTATGAGCAAAGAATAGATAAAAAAATTCATCCATATAAATAACTTTTCGAAAGCTAATTATTATCAAGTGCTTATCTGTGTGAGGCACTGTTCGAGATG
CTTTGGGAACTGTAGCTCATTTAATTCTCACAACAGCCCTATGACGTAGGTACTCTTATTGTGCCCATTTCACAGATGAGGAAACTGAGGCACAGAGAGG
TTTAGGACGATACCTGAGACTTCAGCGTGGTGGGGCAGGAATGTGAGGTGTGAGTCAGAGCACCTGGTTCCAGAGGCAGCTTTCAAACACAGCACTGCAC
TCCCCTGAGCTTCTACACACTCTTCCGGCCCCATGGGATTCCGAAATGAGAGAAATCAGGCCCCCAAAAGACCAGCCTTCATCAGGAGACTCGGACGAGA
AAGTCAAAAAACCTATGTTGAAYACAGCACCATTCTTGCAGCAGTATTAACTTTTCCACACTTCAGTATATTCATGTGCGTATCTACTTTAAAATCTTCC
TGCATCACCATCAATAGCTTATAATTGATACTCCAATAATTAKATATCATAATTGAAATCCAGGTTTTACTCACTGGAGAATTTGGGCAAAGTCCTGCAA
AGCAAGAGAAACTTTAGTTCATTAWTGAGGCTCATTTTTACATTAGCCCGCTCTCGCTACATAACAATTTTTAAATCTTTTTACATTTATGATAGTCGTT
ACTGCAGTTTCAGAATCATTARTGAGATAATGTGCTTCTTCAAGTTCACCAGTCTCTGTGAATTTGATATACTTGTTCTGAGTTAGCAGGGTTGCAGCGG
CCTCAGCTTTTTGGTTCATGCAGTCACCGCATGCCTACCAAACACAGGCTGCGGGCTGAAGGCTGGAGATTGAAATAAGGCAGCAAATTCTTGCTTTCAT
GAGGCTTAGCAGGGAGGACAGGTATAAAAATAGTACAAGGGTGARTCTTACAAATAAATTCAGAGTGCTTTGGGAACATGACCTAAGGGAAATGGACCCG
AAGTCTGGGAAGKTCAGCTCATGAAGTGACATCTTGTCCTTTAAGACTTGGCTCTGCTAGGTAGAGTAAGAAGGGGTGGTACAAGGTTAGCACAATCCAG
GAAGAGCAAACATTGTGTGCAGATGCCCTGAGGCATACAAGAGCCCGGTTGAGGGGCTGAGAGGTGGGGCCAGGGCKGGKTGGGAGAGGTGGCACACACC
CAGGGACTCWGTCCCCTATTACAGACTCCAGGAAGCCATGCATTTCCCTCGAGTTCCCCCAAATCACTCCCCAGTCACGATTAACGGGCTCTCTTTTCTT
TCACTTGGGCCCTTTCAGCGCCTTGTTTCTCCCTGGATCTCAGCATCCTTCCCAGCATGCACTATCGGCTTTATTGCAATCGGTTTCTGCGTCTTCTGGG
CAGCCCCTCTTCTGGGGCTCCTTGAGGGCAGACAGAGCTTCACTCATCATGGTCGTCCCCTTCGGCCTCGGAGCGGTGTGCACAGAGGGAGCACAAAGAA
TGTCCGTTGCATTAAATCAAATCTAACAAACAGCACTTTTTCCCGGCAGCTCTACAAATAGGAACAGRTGTCTTTGCTAATCGCCCCTGAATGCACGGTT
CAATTCAGGGCTGTAAATCCATATATCAGAGCCAGAACCAGTTAGCTRTCTGGTCTATAATAACCAYGCACTGGCCTCTCACATCATGGGCACTGGACCC
TGTGGCTGAAAAGAAAGTCTCAACAAACCCAAACAAACTGAATTGTCCACTTGTACCAGCCTCACACAGGAATGGTCAAAATACCTCTTTTCCTTCAGCT
CTGGGAAATTGAAAAGACAAATCASTTAGCGGAAGCCTAAGACTAGAGGCTCACCCTTCGACAAGGAAATTCACTTGTATTTTCTCCGGAGTCAAGGATC
CCCTGTTTGCACTCATTTCGTTGTTAGGAACAGAAATCCACTTTCAACCAGCAGAAACGAATTTCCTGGAAGGCATTGGTACTCATCACTGGGGGAGGTT
CCGGGGCTTTCCAGCTTCAGGTGCAGCTGCGTCTAAGCCCKCAGACAATGTGGACGGGATGCTCCTTGTCTGCAGCTCCAGCTGTCAGCTCTGCCTGTCT
CTCTATGTTGGCTTTATTCTCTGCTAGGCTCTCTCCTTGTGGCAAGAAAGGTGACTTCTGACAGCCCTGATGCCTTATACACAAAGGCAGGAACACCCAC
ATCCTCTCTCCCAGATCCAAATGCTACTCTCATAGAAAGACTTTTGGTCTCTCTGGGTCACAGTACCCCCTCAGACCGGGCATTGATTCCCAGGAAATGA
TGAGATAACGCCCCCACCCCTGCCCCAGGTCAGCAGTCCCCAGCCTTTTTGGCACCAGGGACCGGTTTCGTAGAACACAATTTTTTCACAGATGGCAGGG
GTGGTGGGGGATGGTTTCGGGATGACACTGTTYCACCTTAGATCATCAGGCATCAGTTAGATTCTCTTAAGAAACGTGCAGCCTGGATCCCTCTCATTCC
CAGTTCACARTAAGGTTTCCGTTCCTATGAGAATCTAATGCCACCACTGATCTGACAGGAGGCGGTGCTCAGGCGGTCATGCTCACTCACAGGATGCTCA
CCTCCTGCTGTGCTGCCTGGTTCCTAATAGGCCATGGATCAGTACAGGTCCGCAGCCCCAGGGGTTGGGGACCCTTGCCCTAGATCACCTGCCCACCTCT
GGGAAACAAGATGGGGAGAAAATGAGGCCTGTGGTTGACTGCACCAACGTGACCTCAAGGAGCAGGTTGTGGTGGTTCCCTGAAGAAAGCAATGCCCCCA
GATCAAAGCTACATTTCCCATCTACTSCAGATCCTATTCAAACAGAACCAGTTCCCTTGAGCCTGGCCATGATTTGCATGTGAAAAGCTGGTGTGTTGCA
GCCAGTCTGCACCAGCTTTGGGAGAGCTGATTGCCGCATGTCTTGCCGGTTCTGCATGTGTGCGGTGATATCGAGTACATAGCTTGAAATTGGCCATGGG
GGGAATATTTAAGCASAAAAATGGACACAAGCTACAAATCAGGGCTTTTCCCCCTGAATTGCCATTAAACATTTACCAGCACAATACTGTGGGTTAGTTA
TGGTGTTTGCCCACCTAAAGAAACTCTGTGTGTGTGTGTGCTCATGTGTGTGTGTGTGCTCATGTGTGTGTGTGCATGTGTGTGTGCACACGTGTGTCTA
TGTGTGTGTGTGTGTAATTTAAGCCAAAATGACGGACCCTGTGTTATCTTTGSAGATCCGTGGTCTCAGGCCATGCTTAATTCTTCCACGCTGGTTTATT
GGTTCCTGTGTTCCAAAGCTCCGCATGTACCCTGTTTAAAGGACGGTCCACTTCCACCCTATACAGTTGGAGGGTCACCCATTCATTTGATTTCTTCAGG
TCCATTTTCTTCATCCTCCTTCCACATGCTACTGACCATCGCTAACAGGACTGCGTGCTGAGAGCCGAGCCTGTTACCTGCTTTCCCCATGACAGGGCTG
TCTGCTTCCTCTCCCTGTCCCAAGATTTGTTCTTTACCTCTCAGAACTGCAGAAAACAAGTTATTTTCTCTTGGCATTTGTGCCGCTCTTTTTCCTCCCT
CTTTTGGCTTCGAAAAAGTGGTGGGTCTCATGCACTTGTAATTAGCTGGAGCACATCTGACCCATCGTCCCCTGRGGGAGGGCAGCTTGGTGGTCCCTAG
CTCAAGAAGGGGCAGCCCCCACCCCCTGMAMTTAGGGAGGGGAGGTCTACAGCTTTTTCCAGGAGGTACCTCAGCCCAAAGTCTGTGAATCCACAAAAGC
AAGGTCGGCCTACCCTTTTACGTAAGCCACGCGGTAGCCAGAGACAAATGCAAGCAATAGTGTGATGTGAGATAGGGCAGAAACACTGCACCCCAAAGTC
AGGTGTATTGGGGTCTTTCCCTGGGAGTCCGATGCAGCAAGCAACACTGTCACAGGTAAAACGTGAGGAAACAAGCTTGCTTCTTTTTTTTTTTTTTTTC
AAAGCAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGKGGAACAATCACAGTTCACTGCAGCCTCCACCTCCAAGGCTCCAATGGTCCTCCTATGTCA
GCCTCCTGCGTAGCTGGGGCTACACAAGTTTGCTTCTTATTCCTGAGCTTTTTAAATTTCTTCAGCTGATTTTGCCGTACCGCGTGTGCCGGTTTCATCT
TCCTCCTCGTTGTAATTGTTTCATGACCGGAGTCAATGCTAGAGGCCCCGAGGAATGCAGGAAAGCACCAGCCATCAGGACGTGTTGATGAGACACACAC
TGTCTGGGACCTTCTGTGAATAACATGATTGGCGTTGTCACCGGGATAACTGCAGGAGAGATGTGAAAGTGCTTAGGATGTAGTTGGCGCTCAGGTCATT
CTGCAGGCGTTAATGAAGCACGTGCTATGAGCCAGGGTCTTTGCTGGGGACCTAAAGATGAGTAGGTCAGTGGACAATATTTGAATGCAAGTCACAAATG
TGTGGTTTCCAAACCTGGACTGGGTGGGGCTGACAGGGATTTCTTCCATTTTTTCTGTTTATCTCTGAATGGTTCCTTTAGCTGCTSACTTGGCAACTGA
ACTCAACGTTGTCCTCTGCCCCCAAGGCTCTCTTTTGTCCATTCTCTCTTTCTCGGAGGATGACTTTGCCTCCTACTTCCAATTCAAAATAAATCCTGCT
GGAAGAAGCAACGGAGCCATGACCAAAAGCAGACTTTGGGTCGAGACTGCCGAGTCTCTACTTTTACTGAATTTAGTCCTGAATCCCACACAGACTCCCT
GTACCCGCTCTSCCTAGGACGCCTCRGAATGGTCCTCCGTGATGCCGCTGCGCCTGTGCTGTCTGGACCACCTTCTGCCTTGGTGTTCTGACAACATCCT
AGAGCATCTCACCTCTCTCGGCTCTTTCCCAGTTCTCATGCTCCCTGATGGTCCTTAAAAAGATTCCTATTCAGCCAGGCGTTGTGGCTCATGCCTGTAA
TCATAGCATTTTGGGAGGCCAAGGCCGATGGATTACCTAAGCTCAGGAGTTCAAGACCAGCCTCGGCAATATGAGGAAACCCCATCTCCACTAAAAYACA
AAAAAAAAAAAATGAGCTGAGTGTGGCAGCCTGCACCTGTAGTCTCAGCTACTGGAGGGGCTGAGGCAGGAGAATTGCTTGAACCCRGGAGGCAGAGGTT
GCAGTGAGCCGAGATTGTGCGCCTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCCGGGGAAGAAAAAAAAAGATTCCTATTCATGGACCTAAT
ACCCCACTTCTAGGAGTGGAGTGGGATAAACTAGACAGAGATGAACATACATACAGCGAAGCAGAATTCCTGAGAGGCCTCTGATCTGAATAGTGCCAAC
TCCAGGCATTAGCTACAAAAGACCTTAATTGCAAAACTTTCTGGGGACTTTTATCTTTCCTCATCTGGAGTATCCACACCATTGTCCTGCCTGCGAGGAA
TTTGGATAGTTTATTTTGTTTTTCATTTTGTTTTGTTTTTTAGACAGGGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCAACTCACTG
CAGTCTCGGCCTCTCAGGCTCAAGCAATCCTCTCACCTCAGCCCCCCAAGTAGCTGGGRTTATAGGTACACGCCACTGTTACCGGAAAGAGGTCCCAATC
YAGACCCCAAGAGAGGGTTCTTGGATCTTACACAAGAAAGAATTCGAGGCAAGTCCGTAAAGTGAAAGCAAGTTTTTTGGGAAAATCAATGAATACAAGT
AWGGSTACACCATAGACAGAGCAGCCCCAAGGRCCAAAGGACTATTTCTTGACTGTGTGTTAAACAAGGAGCAGATTATTCAAGACTTTTCCAGGAAATG
GATGGGCAATTCCCAGGGCTTTTTAGACCGTATAGGGTAACTTCCTGACGTTACCATGGCATTTGTAAACTGTCATAGCGCTGGTGGGAGTGTAGCAGTG
AGGACGACTGGAGGTCACTCTCATCGCCATCTTGGTTTTGGTGTTTTTCCGGCTTCTTTACTGCAACCTATTTTATCAGCAAGGTCTTCATGACCTGTAT
CCTGTGCCAACCTCCCATCTTRTCCTGTTTATGTCTAACCGCCTGGGAACGCAGCCCAGTAAGTCTCAGCCTTATTTCAGTCAGCCCCTGTTCAAGATGG
TGTTGATCTGGTTCAAACGCCTCTGACACTRCCATGCCAGGCTAATTTTGCATATTTTTTGGAGAAGCAGGGTTTCCCCTTGTTGCCCAGGCTGGTCTCA
AACTCCTGAGCTCAAGTGGTCTGCCCACCTCAGCCTCCTAAAATGCTGGGATTACAGATGTGAGCCCCGGGGCTCTGCCTGGATAGTTTATTTTTTATGT
TTGTCACATCGCTCTTCTCTGTCTCCACTGATAAGTCACATTCCAGACCCTTTTATCCATGTGATTTCTTGAGATATCAAGATTCCTACAGACCTGGGAG
GAAGTGTCGTACATCTTTGGGCAAAAGCTGACCTGAGACAATAGGCAATTGCCCTTGATGCTAAGACTAACCACAAGCTCTTCCCAGTCTGTAGTTTTTA
TTTGCACATTTGCAGGCTGGAGTGTGTCCTCTCTATCTAGTCGGTATTTYAATAGGAGGCGAAGATCTCTGTGAGGCAATCTGGGGTTTTTCTAGCTGGG
CCCGTGTTATTCATGGCCAGCCAGCTCTCCTGGTTTGTTTATACCTTTTTCCCACCTGAAACCTTGATGGTTGATTTGTGAAATAAAACCAAAATTGCTC
AATCTGTCTAAAAGCTTTCTGTGGGTTTTAAACTTACCTATTTTTTAAAAGAAATTTTAATAATGCTTCTGGCTTTTAGAATCAGCAGGAAACCTACAAT
CAGGATTGTTGTATTTGCACCAATATCAAACATAAGGAGCATAAGTAATAAGGAACCCAGTGCCCTTTGTTGAATACGTAAATTTTCATGGTAACTGGTA
ATTGCTGGCCTATAAAAGCTCTCTTCCTTATGTTCCTGCTACTGAGTAAAAATGATTTTTGTATTTGTAACAGACTAGATTCATTTCAAATGGAAATATT
AATCTGTAATTGTTCTTATACGAGAAACACCAAGTTCAAGGCAAAAATAACAAAGCCAGTTAAGCATATGTTTCATACCTGCACAATTTACCTAAATAGA
GATTGCCCAAAGAAGTTTTGCTGGCTTCTGAAAACTTTCTCATAAGATTTTAAWAATATATTTTATGGTCAAGAGGTTGTAGCATCCTCCCAGGACTAAT
TCATATCTAGCCAAGAAAAATTACATTTTCCCATTTACATTCCAAAGTCTGAACTGTTATTTTATAAATGAATTTTCCCTCCAATTCAGAAAGCACTGGC
TACATTACAAATTTTAATGCTACTATTMTAGGATCATAATTTTAAAAACCCAGGGTTCTCCAAGGGCTTCAGCAGCATGCCATCTCTCCACTTTATTAAA
ATGAATGAACAGATGTACAATTTATTTCTGCCRAGCCATCATCTAAATTCATAAGCTATTTCTCATGTGTCTGAAATCCACGTTGGTTTCCCATTTTCTT
TGCCTTAGAAAAAAAATTACACTCCCTCATTTATCACTCTGGGGACATAAACGAGAAGTCTACTCTCCACTTCATTCACTTTGGACTAATATCCTCGACA
CAATTTAAATCCCATCTCTTCMAGACTATTCAATGAGAGCAAGGCAGTGGAACACCCAGCATCCAATTGGAAAACTCCTTGGCCATCAATGTAGAAGATT
GACAAGCTCAGTCACATGAGCTTACACCTTGGCAGATGCAGGGGAAGAGAGCTTACAACAGCGTTGAATCCATTCAGGTAGATGGGACAGTCTAGAACCA
TCACACTTAAAAGTCAACGTCAGTAACAGAAATGTATTTTAGCTGCCGTATTTCATAGAGCCCTGATACCACCCTTACTTCCCACATGACCTGTCATCTG
ACAGCAGGCTGGCAGACAGSCATTTAACAGATTCATCTCGGGTTGGCAAACATCTAGCCTAGCTTTGAAAACCCACGTGTTGATCTCAGACCTGCCTTTA
CATCCCTGCACCACCATTTTCTGATGGTGTGAGATCAGGCATAGTTTTTAACCTCTCTGAGATCTGGGTTATTTTTCAGTATGATGGAGATAAGTGGACC
TGCTTTGTAATAAAGGTTAAATAAAGTGCAACATTTTGATGCTATGAACCTAAAAGTATCTGGGACAGGTCTCAGTCAATTTAGAACGTTTATTTTGCCA
AGGTTAAGGACATACCCATAACGCAGCCTCAGGAGGTCCTGATGACACGTGCCCGAGGTGCTCAGGGTATAACCTGGTTTTATGCATTTTAGGGACACAT
GAGATATCAGTCAATGTGTGTAAGATGTATATTGGTTCAGTCTGGAGAGTGGGCGATCAGGGAGCTTACAGGTCATAAGTAGGTAACAGACAAATGGTTG
CATTCTTTTGAGTCCTTGATCAAAGACGGCGGTAGAGGAATAGTCACTTATGTCTTAGTCTAGCTCAGTGAATCTGCATTTTTACGTAAACARTCAGACT
GAGGAAGCAATTAGATATGCATTTGTCTCAGGTGAGCAGAGGGATGACTTTGAGTTCTGTCTGTCCTKTGACCTGCACCTGTGAAGATGAGCGATCAGTT
TAYGTTGCCCAGGTGAAATTCAACAGAAGTTTTTAGAGTAAAGATCTTGAGGCCCACAAGGAATTTCCTTGCAGGCAAATTGTGAGGGAGATATTTTCTA
TATTTGTAGCTATCTTATTAAAAATAAAATGGGAGCAGGTTTGCCTCCCATAGGTCCCAGCTAGACTTTTCCCTTTAGCTTAGTAATYGGGGGTCCCAAG
ATTTATTTTCCTTTCACAATGCCAAGGTCAATAATATATGGCAAGCACAGTGCCTGACATGTGGTTCAGTAAGGGGGCCATTGTGATGAAGATGGCATCC
CGGAGATACATCTCTGCCGCAGAACAGCTGGGCTAAAAGAGCTSTCCTCTTCCTCAGTTCTGCATTTGCTGGCATGGTTCTAGTGAATGTAAGAAAGGCA
TTTTGCAGCCAGCAGATGCAGTCAACGAGCGCAASTTGTAAAGGCTGCAGAATGAAGCCCTCAGGTTATCTGGCAGAATTCTGCTCCTGGAAGAATTCTA
TTTATGAGATGCTGCTGGAATTGAGCAATAAAACTTGCCGGAGTCTCTAGTTTCACATGGAAAACTGCCCTGTGTCCATAAATGCTTCTTGGGTTTGGGG
CTTTAATCAGATTTTGAGTGTTTGGTTTGTTGTTGTTTGTTCTTTCGGTGGCCCTGTTGCTTGGAGAAGAAACATCATGTTAACTTCATTTGCTTGAACT
CTGTGACCATCCTGTGATTTCAAACACAGCTTGTCTTTTTCTCATGTAATGTTTTTGGGAGGGGAAGGTGGGTTCTCCTGATCTCGGGAAGATCCACAGC
AAAATGATGGAGTTCTTTCATTTAGCAGAGTTACAGCTTGAGGTGGACAGTGTCAAAATGGCAAGCTCCCCAAAGAGGAAAGGAAAGAGGGATGTCACTC
YAGGATGCGCCAACGAGATGCTCCTTAGGAACCACRGAAGTGACACTTGTCAGCATCCACACAACAAAATGTTGATGAGGGGAGCCAGCCTTGGTGACTC
CTAGCAGCTCCCGGCAGCAGTCTGTCTGCCTGTGTTGTCAACAGTCCCTGAATTAAATCAGTCACTGCTGCCGCCAATGAACTTGTAGGTTGTTGTGGGA
TAAGGGGCCCTMGGCAGTTTCTTCATCTCTGCTTGACCAAACCACGCATCAAGGTCATGGATCCCAGGTGCCCCTGAAGACATTCAAGAAGTCTCGTTCG
CCAGCTGAGCAAAGTCATGAGACAAACTGTCCATATGACAAGCCTGCTTTTAGGCTTTGACATTCCAGCAAGGAAGCAGGTGCTGCTGACAGAAATGTGG
TAGTTTGAGAGAACAGGATTTTAAAGAAGAACGAACCCAATTATTTKGATCCACAGAGTCTTAGAAGATAGAATGCAGGGAGGAGGCAAGCAGGGAGGAA
AGAGAAGGAGCTTTTATGTTTCCTCATTGTTACTCCATCACACTGTCAGTTTGACTAGAAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGA
GTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGTCCTACAGTGARRTWMGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGC
CCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTGTCCTCACTTACAGAATAGGGATTTTGGTAATGAAGGCCASCAGCTCCGTGCAT
GACAAGGTGCTGAATGCTTTCTGTTTATTATCACGCCGAATCCTTATGATTTCTTTGTGAGGTGCATTCTACTAGACCCTCCAGTTCTCAGATMAGGAAG
CTGARGGTTAGAGAGCTAAGGTAATGCACCCAGGTTACAGCAGGTTATCCTCAAGTTCCCCACGGAGTAGTGACATTTTGTCACCATTGATGCTATATTA
CTGATAATGATCAATAGATAGGTTACTGGAAAGGGGTCCAGATCCAGATCCCAAGAGAGTGTTCTTGGATCTCATRCAAGAAAGAATTCAGGGCGAGTCC
ATAGAGTAAAGTGAAAGCAAGTTTATTAAGAAAGTAAAGGAGGCCGGGCGCGGTGGYTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGG
ATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGCGGTGGCGGGCGCCTG
TAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAAGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCG
GCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAATAAATAAAAAAAAAAAAAAAAGAAAGTAAAGGAATAAAAGAATGGCTGCTCTATAGGCA
GAGCAACAGCATGAGCTGCTAGTTGGCCATTTTTATGGTTATCTCTTGATTATATGCTAAACAAAAGGTGGATTATTCTTGGGTTTTCCGGGAAAGGGGT
GGGCAGTTCCCAGAACTGAGAGTTTCTCCCCCTTTTAGACCATATAGGTAACTTCCTGATGTTACCATGGCATTTGTAAACTGTCATGGCACTGGTGGGA
GTGTCTTTTGACATGCTAATGTATTATAATTAGCATATAATGAGCAGTGAAAATGACCAGAGGTCACTCTTGTTGCCGTCTTGGTTTTGGTAGGTTTTGG
CCAGCTTCTTTACTGCAACCTGTTTTATCAGCAAGGTCTTCCTGATCTAAATCTTGTGCTGACCTCCTATCTCATCCTGTGATTAAGAATGCCTCAACCT
CCTGACAATGCAACCCAGTAGGTCTCAGCCTTATTTTACCCAGCTCCTATTCAAGATGGAGTTGCTCTGGTTCAAAGCCTCTGACAGATACTGCATCCAT
GAGGTGAATAAAGGTGGCACCGGTGTTCATTTTATTGGCTAAGAACCCCGAAATTGTCACATTGCGTGCAGTGGTTCCGGAGGTTTGACCTCACCGTAGA
AGAGCACATCTGAAGTTAGTTTTGAACATATTGACATCAGTGTTTTGAAACTCCTCACCGCTTTCTAACAGTCTTTCCAGTTAGCTGAGTCAGCACAAAA
GGCCTTAGCCAGGTCTGAAAGGAGTTTGTTTTCATGTTGCAGGGAGTGTTTTCTAATAAGGGTTTTTTTCTCCATTGAAAACATCTCTTACTTTGCGTCT
ATCATTATGATCTTACTCGGAGAGAAAATGGTATCTTCCTGGGCTGATTGCTCATTGGTGGAGGCTTGGCTTCCAGGAAGAYGCACACTGGCTTTCCGTA
GCACTTTCTCTCGTTTTTGTTTCCAAAATCACTATTTATTGCCCTTCAAAACAGGTTGCGTTTGAATTAGGGTTCTGGGCCTGTACAGTCTGTGGGAGCS
CAARTGCAAAGTAGATTCCATCATAAACAAGGTATCCCCCCTCCAAATTAACAGTAAAATAGGCCATGTGATCCCAGAATGCATCATTTCAGGCTTATAA
AGAAAAGCAACTTARTTTCCTTATTTTTCCATTKTTCCATGATCACAGGCTCACAGAAGTTGCAAAAATAGTGCCAGAAGCACCTTGAACCCTTCTCTCA
GCTTCCTCCRTAGTAACATCGCCTATAACTGTAGTGCAACAATACCAAGAGCAGGAAGTTCATGTGGGCACAATACTATTAACCAGACCTCACGAAGTCT
CCACCCATTTTTGTGTGTTTTSTGTGTGTGTGTGTGTGTRTGTGTGTGTGTGTGTGTGTGTGTGTGGTCCTACGCATTTGATCACACGTACAGATTTGTA
TGACCACCACCACCATCATGATACAGGACAGCTGCATGGTCACAGAAGGGCTACCTGTCTTGCTACTCCTTATTAGTTGTATTAACCTTCCCCTTACTCT
TGGGCTTCTCCCCTGGCAATTATTAACCTGTTCTCCACCTGTAGTTTTGTCACTTCAAGGATGGTACATAATGGAATCATACAATATGTAACTCTTTGAT
ATTAACTCTTTTTTTTTTTTTTTGAGACGGAGTCTTTCCCAGCCACCCAGGCTGGAGTACAGTGGCACAATCTCGGCTCATTGCGACCTCCGCCTCCCAG
GTTTAAGCCATTCTCCTGCGTCAGCCTCCTGAATAGCTGGGACTACAGATGCCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTT
TCACCATGTTGGCCAGGTTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTACCACACC
TGGCTGAGATGAGCTCTTTTCACTAAGCATGATGCCCCTGAGATTCATCCAAGTACTCACATCARCCGATAGCTGGTTCCTTTTGATTGCTGAGTGATAT
TCSATGGTATGGTATGCCAGAGTTCGTTGAACCATTCACCCACTGAAGGACATTTGACTTTGTTGCTAGATTGAAGCTACTGCAGWTAGAGCCACCCTGA
ATATTTGTGTAAGGCTTTTGTGTGAACATACATTTCCATTTTTCTGGGTACCAGCTGCTGGATCATATATTAAGTGCATGTTAGTTTTATAAGAAACTGC
CTGTTTTCCAGAGTGGCTAAACCATTTTCATCCTTATCAGCAATAGAGGAGAAATCCAGTTCTTCCACATTCTCACCAGCATTTGGTGTTATCACTCTTT
TTCATTATAACCATTCTGTTCAGCATATAGTAATAGCTGCTCTCTGGTTTGGTGTATAGCAATATGATGTTAATTTGCATCTCCCTAATAACTAATGATA
TGAAACATCTTTGCATGTGCTTATTTGCCGTCAGTGTTCTCTTTGGTGAAATGTCTAACTATGTCTTTTGCCTATTTTTTGTTTTGTTTTGTTTTACAGG
CCATTTTCAGGACTTTAACTTTTGCCCATTTTCYTTCYTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGT
CCAGTGGTGTGACCTCGGCTCACCACAACCTCCGCTTCCTGGGGTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGATTGCAGGCACATGCCA
CCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGCGGTTTCACCATGCTGGCCAGGCTGATCTCGAACTCCTGACCTCGTGATCTGCCTGCCTCGGC
ATCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCCCATTTTCTAACAGAATCTTTTAATGTTTGAGWGTTGAGAGTCTTTTATGTAGTC
TATATGCACATCCTTTGTCGGAGATGTGGCTTGCAAATATTTATCTCAATCTGTGGCTTGTCTGTTCKTTMTCTTAATAGAATCTTTCACAGAACAAAAG
TTTTTAATTTCATGCAAGTCCAATTTATACTTTTTTCTTCTATAGATTGTGCTTTTGGTGTCAACTCTAGGAATTCTTTGCCTAGCCCTAGGTGTTAAAG
ATTTTATCCTCTGTTTTCTTCTACAAATTTTTATAGTTGTATTTTTACATCTAAGTCCATGATCCTTTCGGAACTGATTTTTTTATGTAAAGTGTAAGGT
TTAGGTTGAGTTCATTTATCTGCCAGTGGACACACAGYTGCTCCAGTAGCCTTTTAGAAATAGCTATCCTTCTTCCATTGAATTGCTATTGTCCCCTTGA
TTAAAAAAAAAAAAATCATGTGGGTGCAGGTGTATTTGTGCAGGTCTATTCCGTGTCCTCCGTTCTGTCCCATTGATCTATGTCTCTGTCTCACCAGTAC
TGTACTGTCTTATTACCGGAGCTGTAGAGTAAGGCTTCACATCAAGTAGAATGAGTCCTCTGCTTTATTCTTCTTTTTCAAAAGTATTTCAGAAAACATT
TTTTTTCCTTTTTCGACTTTTACTTTAGATTGCAGGAATACATGTGCAGGTTTGTTACGAAGGTATATTACATGATGCTAGGGTTTGGAGCATGATGAAC
CCTAGCACCCAAATTGGTAGTTTTTCAACCTTTGCTCCTTCCCTCCCCACTTTTGGAGCCCCCAGTATCTATTGTTGCCATGTTTATGTCCATTTGCACC
CAATGTTTAACTCTCACTTCGGACTGAGAACCTGCAGTGTTTAGTTTTCTGCTTCTGTTCATTAAGACAAAAGCCTCCAGCTCCATTCATGGTGCTGCAA
AGGACATGATTTCATTATTTTCTATGGTTACATAGTATTCCAYGGTGTTTTCTAACCCACCATTGATGGGCACCTGGGTTTGTTGCATGTCTTTGCTGTT
GTGTATAGTGCTGCAATGGATATATGGGTGCATGTGTCTTTTCAGTAGAGTGACCTATTTTCCTTTGAGTATCTACTCAGTGATGGGATTGCTGGGCCAA
ATGGTGCTTCAAGTCTTAGGTCTTTGAGAAATGTCCAGACTGCTCTCCGCAATGGCTGAACTAATCTACATTCCCACCAGCAGCATATATGTGTTCCCTT
TTCTCCTAGTTCTACCAACATCTGTAATTTTTTGACTTTTGAACAAAAGCCATTCCAACTGGTGTGAGATGGTAACTCATTATGGTTTTGATTTGCATTT
CTCTGCTGATTAGTGATGATGAGCATTTTTTCATTTGTGAATTGGCCATTCATATGTCTTCTCTTGAGACATGTCTGTTCATGTCCTTTGCCCTCTTTTT
AATGGTTATTTGTAGAAAACCATTTTAAATACAGTTTGAACTCAACAGCTTTTTATCCCCTCTAAAATTATTTTTCTGATTAAAACATAACTCATTTCCA
TTGTAAACAACATTAAAATATCATAAACGTCTAATAGAAAAATTTAACAGATCTCGGGAGGAGCCAAGATGGCCGAATAGGAACAGCTCCGGTCTACAGC
TCCCAGCGTGAGCGCTCCCAGCGTGAGCTACGCAGAAGACGGTGATTTCTGCATTTCCATCTGAGGTACCGGGTTCATCTCACTAGGGAGTGCCAGACAG
TGGGCGCAGGCCAGTGTGTGTGCGCACCGTGCGCGAGCCGAAGCAGGGCGAGGCATTGCCTCACCTGGGAAGCGCAAGGGGTCAGGGAGTTCCCTTTCCG
AGTCAAAGAAAGGGGTGACGGATGCACCTGGAAAATSGGGTCACTCCCACCCGAATATTGCGCTTTTCAGACCGGCTTAAGAAACGGCGCACCACGAGAC
TATATCCCACACCTGGCTCGGAGGGTCCTACGCCCACGGAATCTCGCTGATTGCTAGCACAGCAGTCTGAGATCAAACTGCAAGGCGGCAACGAGGCTGG
GGGAGGGGCGCCCGCCATTGCCCAGGCTTGCTTAGGTAAACAAAGCAGCCGGGAAGCTCGAACTGGGTGGAGCCCACCACAGCTCAAGGAGGCCTGCCTG
CCTCTGTAGGCTCCACCTCTGGGGGCAGGGCACAGACAAACAAAAAGACAGCAGTAACCTCTGCAGACTTAAGTGTCCCTGTCTGACAGCTTTGAAGAGA
GCAGTGGTTCTCCCAGCACGCAGCTGGAGATCTGAGAACGGGCAGACTGCCTCCTCAAGTGGGTCCCTGACTCCTGACCCCCGAGCAGCCTAACTGGGAG
GCACCCCCCAGCAGGGGCACACTGATACCTCACACGGCAGGGTATTCCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAACCAG
AAAGGACATCTACACCGAAAACCCATCTGTACATCACCATCATCAAAGACCAAAAGTAGATAAAACCACAAAGATGGGGAAAAAACAGAACAGAAAAACT
GGAAACTCTAAAACGCAGAGCGCCTCTCCTCCTCCAAAGGAACGCAGTTCCTCACCAGCAACAGAACAAAGCTGGTTGGAGAATGATTTTGACGAGCTGA
GAGAAGAAGGCTTCAGACGATCAAATTACTCTGAGCTACGGGAGGACATTCAAACCAAAGGCAAAGAAGTTGAAAACTTTGAAAAAAATTTAGAAGAATG
TATAACTAGAATAACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAACCAAGGCTCGAGAACTACGTGAAGAATGCAGAAGCCTCAGGAGC
CGATGCGATMAACTGGAAGAAAGGGTATCAGCAATGGAAGATGAAATGAATGAAATGAAGCGAGAAGGGAAGTTTAGAGAAAAAAGAATAAAAAGAAATG
AGCAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAATCTACGTCTGATTGGTGTACCTGAAAGTGATGTGGAGAATGGAACCAAGTTGGAAAA
CACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATCTAGCAAGGCAGGCCAACGTTCAGATTCAGGAAATACAGAGAACGCCACAAAGATACTCCTCG
AGAAGAGCAACTCCAAGACACATAATTGTCAGATTCACCAAAGTTGAAATGAAGGAAAAAATGTTAAGGGCAGCCAGAGAGAAAGGTCGGGTTACCCTCA
AAGGAAAGCCCATCAGACTAACAGCGGATCTCTCGGCAGAAACCCTACAAGCCAGAAGAGAGTGGGGGCCAATATTCAACATTCTTAAAGAAAAGAATTT
TCAACCCAGAATTTCATATCCAGCCAAACTAAGCTTCATAAGTGAAGGAGAAATAAAATACTTTATAGACAAGCAAATGTTGAGAGATTTTGTCACCACC
AGGCCTGCCCTAAAAGAGCTCCTGAAGGAAGCGCTAAACATGGAAAGGAACAACCGGTACCAGCCGCTGCAAAATCATGCCAAAATGTAAAGACCATCGA
GACTAGGAAGAAACTGCATCAACTAATGAGCAAAATCACCAGCTAACATCATAATGACAGGATCAAATTCACACATAACAATATTAACTTTAAATATAAA
TGGACTAAATTCTGCAATTAAAAGACACAGACTGGCAAGTTGGATAAAGAGTCAAGACCCATCAGTGTGCTGTATTCAGGAAACCCATCTCACGTGCAGA
GACACACATAGGCTCAAAATAAAAGGATGGAGGAAGATCTACCAAGCAAATGGAAAACAAAAAAAGGCAGGGGTTGCAATCCTAGTCTCTGATAAAACAG
ACTTTAAACCAACAAAGATCAAAAGAGACAAAGAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAGGAGCTAACTATCCTAAATATTTATGC
ACCCAATACAGGAGCACCCAGATTCATAAAGCAAGTCCTCAGTGACCTACAAAGAGACTTAGACTCCCACACATTAATAATGGGAGACTTTAACACCCCA
CTGTCAACATTAGACAGATCAACGAGACAGAAAGTCAACAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAAGCAGACCTAATAGACATCTACAGAA
CTCTCCACCCCAAATCAACAGAATATACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATAGTTGGAAGTAAAGCTCTCCTCAGCAA
ATGTAAAAGAACAGAAATTATAACAAACTATCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAATCTCACTCAAAGCCGCTCAACTACA
TGGAAACTGAACAACCTGCTCCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAACGAGAACAAAGACACCA
CATACCAGAATCTCTGGGACGCATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCTACAAGAGAAAGCAGGAAAGATCCAAAATTGACAC
CCTAACATCACAATTAAAAGAACTAGAAAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAAGCAAGAAATAACTAAAATCAGAGCAGAACTGAAGGAA
ATAGAGACACAAAAAACCCTTCAAAAAATCAATGAATCCAGGAGCTGGTTTTTTGAAAGGATCAACAAAATTGATAGACCGCTAGCAAGACTAATAAAGA
AAAAAAGAGAGAAGAATCAAATAGACACAATAAAAAATGATAAAGGGGATATCACCACCGATCCCACAGAAATACAAACTACCATCAGAGAATACTACAA
ACACCTCTACGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTCGACACATACACTCTCCCAAGACTAAACCAGGAAGAAGTTGAATCTCTG
AATCGACCAATAACAGGCTCTGAAATTGTGGCAATAATCAATAGTTTACCAACCAAAAAGAGTCCAGGACCAGATGGATTCACAGCCGAATTCTACCAGA
GGTACAAGGAGGAACTGGTACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATGAGGCCAGCATCATTCT
GATACCAAAGCCGGGCAGAGACACAACCAAAAAAGAGAATTTTAGACCAATATCCTTGATGAACATTGATGCAAAAATCCTCAATAAAATACTGGCAAAC
CGAATCCAGCAGCACATCAAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAATATACGCAAATCAATAAATGTAA
TCCAGCATATAAACAGAGCCAAAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAAGCCTTTGACAAAATTCAACAACCCTTCATGCTAAAAAC
TCTCAATAAATTAGGTATTGATGGGACGTATTTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAA
GCATTCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCGCTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATCAGGCAGGAGA
AGGAAATAAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGACGACATGATTGTTTATCTAGAAAACCCCATCGTCTCAGCCCA
AAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAGCATTCTTATACACCAACAACAGACAAACA
GAGAGCCAAATCATGGGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGG
AGAACTACAAACCACTGCTCAAGGAAATAAAAGAGGAGACAAACAAATGGAAGAACATTCCATGCTCATGGGTAGGAAGAATCAATATCGTGAAAATGGC
CATACTGCCCAAGGTAATTTACAGATTCAATGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGG
AACCAAAAAAGAGCCCGCATTGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACACTACCTGACTTCAAACTATACTACAAGGCTACAG
TAACCAAAACAGCATGGTACTGGTACCAAAACAGAGATATAGATCAATGGAACAGAACAGAGCCCTCAGAAATAATGCCGCATATCTACAACTATCTGAT
CTTTGACAAACCTGAGAAAAACAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTG
GATCCCTTCCTTACACCTTATACAAAAATCAATTCAAGATGGATTAAAGATTTAAACGTTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCA
TTACCATTCAGGACATAGGCGTGGGCAAGGACTTCATGTCCAAAACACCAAAAGCAATGGCAACAAAAGACAAAATTGACAAATGGGATCTAATTAAACT
AAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAACATGGGAGAAAATTTTTGCAACCTACTCATCTGACAAAGGGCTA
ATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCGAAGGACATGAACAGACACTTCTCAAAAG
AAGACATTTATGCAGCCAAAAAACACATGAAGAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACTATGAGATATCATCTCACACC
AGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCCGGAGAGGATGCGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTA
CTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAATG
AGTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAAT
GATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATATCCTTTGTAGGGACATGGATGAAA
TTGGAAACCATCATTCTCAGTAAACTATCGCAAGAACAAAAAACCAAACACCGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGATCACATGGAC
ACAGGAAGGGGAATATCACACTCTGGGGACTGTGGTGGGGTCGGGGGAGGGGGGAGGGATAGCATTGGGAGATATACCTAATGCTAGATGACACATTAGT
GGGTGCAGCGCACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTATAACTTAGAGTATAATAAAAAAAAAAAAAA
AAAAGAAAAAAAAAATTTAACAGATCTCTCCACACACCTGAGAGAGGACTATGTTCTTTCCCTTCGTATATATCAAGTTCTACTTTTTTATTTACAAACG
TGTGATCACACTCTCTTCAGTATATTGCCATCTGTCTCACGATTTGTATCTTTTTCCTTGTCTGTAAAAAGGGAGAACTATTAATAATACTCTATTTCTT
TAGTCTTTGGTGAGGATCAAATGATAAAACACATGCAGAGAGTTTAACCCAGCACCTGCTACATAGTAATGTCTTTGTTGATGTTATTTTTATTGTTCCC
CCTTCAGCTTATGCTACCTGCTTTGGGTGATCTTGGCCTTTCTTGGTGGCAATAAAGGGCAGAGAAACTCCATAATGTTTAGTAATCCAAGTCAGTTTGC
AGAAGCAGTCAGGAGAATGGGTTCTTCCATCACTCAGTCCAGGTTTCCTACCAAATAGAATGAATGAGACAGGTAGTACTGCAAATTCATAGTTTACTTA
CGTTAATSATAATGTCMAACATGTCAACAGCATCCTGKAGAGCCCCCCAAGTTTCCTGTCCACTTGTCCACTGTACAGCCACCTACCCACRCTTTACGTA
CTACCCAGCTCTTCCTCTAAGTGGGATCCTCCCAGAAAGCCAGAGCTCCGCTCCTAGAGAGCGTTTGAGGAACCTGCATGTGGTTTGTCTTATCTTCAKA
TCTTTAACATAAGCTGTAACGAGGGCAGCTAGAAGCAGAGCCTATCAGATCAGCCCCCGCCAGCTCCAACTAGTGAAACCCAACAGAGTCCTTGGACCCT
GCAGCCTAAGAACATAAAAATTCTGTAATCTCCTTCTCTTTATCTCWSCTCTGCCTTCAGATGTGTCCCTTGAATGGCCCACATTCTCCCAATTTCATTA
ACTTAGCACATTTTATTTCCACTAAGTAAACCCAAGGTGCTTCCATGGTCCAATATAACGGATTTCCCTTCTGATCCATAATGCCAAACAATATGCTACT
TCATTCCCTTTAATGGCTTTGTATTGTGTTCTGTTTTATAGATGTCCCACCATTTGACCAACTTCACATAAATGGACATTTTGATGGTGGTTCCTGGTTT
TCCCTTTTATAAACATTACAGCAATAAAAATGCTTGAATGTACATCTTCACGTACATATATGAAAGTCTTTGTAGGATAAACTCCCAAAAGCAAAATGCC
TGGCCCAAAAGTATGAGCACTTTACATTGCAGTTTATAGCTCTTTTTCTAATATGATTAAAGTATTTTTAAATTACCTTCACTTTTGTCATCCCTCAGTT
ACGCTGGTTTCTGTATTGCATAGATTCCTAGCCTGCTCCACTGCAAATGGGCTGCCATACAGAGGATGAGGTTCATGGTCCAGAAACGCATCTGGTACTC
RAGCGCAGAGCAGAGGTGGAATTCTAGGCCTGTGAATGGTTCACATCAGCAGTGGGGGTCCCCAGTGAAGTAGGATCCCAAAGGCCACAGCAATTGGACG
GATACTAATATCCTTCATGCTTCCAYGGGCATGAACTTGAACTTGCAGTGGAAGCCTCTAAGGCACAGCAAGGCAGGAGCAGATATGAAGTATGCTTTGC
AGCTGTAGCTTCTCTAGAATCCAGGGGCTAATGATCAGGAGGGAGGTGCTAAATATTCTGGGCTCCTCGCTTGGACTTCAAACCTACAAGCTCCCCACTC
TTGAACCTAACCCCATTCCTGAGTTTYCTTCTATGCTCACATCCACTCCCAAATCCTCTAACCACCCTGAGCTACATTATATTAAAAGGGCTACTCCTCA
TATGTTCACCACAGCACTATTCACAATAGCAAGGTCATGGAACCAACCTAAGTGTACATCAACGRTTGACTGGTTAAAGAAAAGGTGGTGTATACACAGG
TGAAATACTATGCAGCCATARAAAAGAATGAAATCCTGTCCTTTGCAGCAACATGGGTGGAGCTGGAGGCTATTATCCTATGTGAATTAACTCAGAAGCA
GAAAATCAACTACTGCATGTTCTCACTTGTAAGTGAAGGGTAAGCAATGGGTACACATGAACATAAACGTGGAAACAATAGACAGTGAGGACTCCAAATG
CAGGGAGAGAGAGAGATGTTGGGGATGAGGGCTGAAAAACCACCTATCAGGTACAGTGTTTGCTGTTTGGGTAATAGGTGTGCTAGAAGCCCAATCTTCA
CCAAGAGACAATATACCCATATAACAAACATGCACACATGCCCCCCCAATCTAAAATAAAATAATTTTTTTAAAGGTACTCCATCAGAACACCCCCMACC
TCCCGCACCCTCAGGTGTGGCATTACAGAAACCTCAGCAGCAAAGCCCCTTCCCCATCCTTCTCCAATCACCAGAGCACTATGCTGACTCCCAGAAAGGC
CACATGAGAAGAACTTGCTAGCCCCTGCAGGTGGCCCGTTCTTGGTGGTAGAGCATAAGGGAAGGGGCAGGGAAAACAGGAGGAGAGGAGGCATCATTTC
CTGTAAATCTAGCACAGGCTTGGTTTGCTTAGACAGTGGAAATACTAAAAAAGTCAAAAAGATCCTTCATCATACACAAGAAAAAGGGAGACGAAAATTG
AGGTGAAAAATCATTCTGCCATTACTTAGAAAACCAATTGTGAATCCTTTCCTGGTTTTAAACCATAGCTACATAAACTGGGGGAAATGTCTGCTGTAGG
TTTGCTCCACATCCAGCCTCGCCCCGTTGGGAGAAGCCTTGGAGCTGTATGGGTTGGAGCAGTGTCTGTGTAGAGTACTGATGCTCTCCCACTGGGCCCT
AGTGTGGGACCATACGTGAAAGCCACCAGGTAGGGTTGCACATAGACTCTAGACTCAGACCAACCGGGGTCTGAATCCCATCTCTCCACTCCCTAACTCT
GCTACCCTAGGCAAGTGCTTGTACTTCTCTGTGCCTCAGTTTCCTCACCTGTAATTTGGAGCTCATGACGGTAACCTACCCCACTGGGTGAGTAGCGTAC
CCGGGTCATGACATGAAGGATGTATGTAATCGTTAGCTGTGATTATCACCATTCCACTAATAAGCTTTCTGTTGCTGCCGTTCTGCAGGGCTCAACTTTC
TTTAGAAAATAGTTGTGTTGGCCGGACCCAGTGGTTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCA
AGACCAGTCTGGCCAAAATGGTGAAACCCCATCTTTACTAAAAATGTAAAACACTAGCTGGGCGTGGTGGCGCATCCCTGTAGTCCCAGCTACTCAGAGG
CTGAGGCAGGAGAATTGCTTGAACCCGGGAAGCAGTGAGCTGAGATCACGCGATTGCACTCCAGCCTGGGTGACAAGAGCAAGACTCCGTCTCAAAAAAA
AAAAAAAAAAAAAAAAACACACACACACACACACACACACACACMGTTGTGTTTGCATCCTGTTATTTGAGTTAGCTCAATTCTACCAAATTCCCATCCT
ACAGCCTGTTCCAGTAACCGCAGAGCCATGAGACCTGGTCTGATGGCTTCTTCTCTAGCTGCTTGTATCAAAAGAAGGCAACTCCCCCCTTTCCCCTTCA
CCTGCTAATGAGGCCTGGAACTTGCAGTCCACATCACAGCATCATTTACGTTTTGTCCTTTCCTGGAGGTCTACACCAGGCACCTGGGACTGCAGGCTTT
CTCTCTCCCCTGGGTCTTAAATTACAGTAACATCGGCCAGGCGCGGTGGCTCACGCCTGTAATCSCAGCACTTTGGGAGGCCGAGGAGGGCGGATCACGA
GGTCAGGAGATCGAGACCATCCTGTATAACACGGTGAAATCCCGTCTCTACTAAAAACACAAAAAATTAGCCAGGCGTGGTGGCRGGCGCCTGTAGTCCC
AGCTACTCRGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAACCGAGATCATGCCACTACTGCACTCCAGCCTGGGTGAC
AGAGTGAGACTCWGTCTCAAAAAAAAAAAAAAAAAAAATTACACTAGCATCCACTCTTACCCTACCTGTAGGAAGTACCGTGTTGCTCACGGGTGACCCC
AGGAGGCTTACCTTTCTGTTTTSTTTGTGAAAGTTTCTCCCCCATTTTGCTTGTGCTTCCAKAGCAATGATGCTAGAYGTTGGCTCACTTTGGAAACACT
CCCTTCCTACAACATAAATGTGTGTATGTGTGTGCATGCATGCGTGTGTGTGTTGAACTGAGTTACTTATGAGCTGGGCTTCTGCAAAACCTGATAATCA
AGGGACTCTGTTTCCATTCAGAAATAGCTGTTTTTGACAGAGAAGGAAAATTSACAGATTTTTCCATATTCGGRGATTATCTAGAATATGATTCCCCTCA
AATGGCCCATCTTTTTATCCTCAACAATCATAGGATCTGTGACACGTGAAGAATAAGTGTTATCTGGTTGGTGGGTACCAGCAGTGGTGCTGGTAGGACC
AAAGGGGAAGAGATTCTGTCCAGGAGTCTCCTTGACTGGTCAGTCCTACCTGGGTCCAGAAAGTTGATAGCCACGATCCCCATTATGATCCCTGTTAAAA
TCCCCATGCCATGGGGATGTGTTATAAGCACACATGCAAGATGCATTACAAACCTGATCCTAAAGCCCCACAACTGCCTGATAAGGTAACAGCATTATCC
CAGTTCTTCGCCTAAGGAAACTGGAGTCTAGTGACCACACCTTTTTTTGGTTCCCTGACTTAGAACCTCTTAAATRTTCCSTCAAGGTGTGTTTGAATTT
GTTGCTTTGTAAAGGCAACAAAGCAGGAGTTAAGGGAAACCAAAGCCATACCTTGGAAGGACCAAGGTATGGGGTTAATAAAACACGGATGTTTCATCAT
CCAGGCRTGTAAATTACACATGTCTGGCCGTGTGTTCTCAGAGTCACATGTGTATTTTACATGCAAGAACAAGCCAGTGGGTGGTCTCGAGGCAGAACAA
CTCCCAGGAGAACTTTCCATATGGACTGTTTTGGAGACTTAAGGGTCACTTTGATTCAACGCAAGTTTGTGTGATGCAGTGATTTTAGAAACTGTAGCAA
GAAGGTAAGGCTTCATGGTAGTTAATGCAGAGGCATCACCGTGACTTGCCAGAATCCTTCCTGGGTGGTGTCCATGGTTCCTGCCACCCCTCCTCCCTCC
CAGAAGTCCCAGGCTTAGTCTGAATGCTCAGTCTTTCTGCAGCTGCCCAGAGTGGTCAGTGAGTTACACTGGAGGCTTCAACCACTGGGTTTCCATAGAC
ATGGAAATTTCCATTCATGGTTTCTACTGACACCGACCCCCTGGGAATGCTGAAAACACTAGAACACAGCTCTTGATTCGCTCAGATTTTCTTATTTAAG
ACAAAGAAAATTTCTTGTGCAAAAATCGAGTCAGTATCATTCTATCTTTATTCTCTATTCTCTCTCTCCCTCTCCCCATCTCTGTCTCCTGTCTTTATTT
TCTTCCTTATCTATCCCCCTTTTTCTCTTTCCCTCGCTGTTTCTTTCTTCTTCCTTTSTTTGTCTCTTTTCCTAACTTTTTTGCATATGTAGCTGTGTCT
TTTCCTGCCTTCTTTTTCTGCACTSTATCCCCAGCTCTCTAGCTTCCCCGCAACACACATACACCACCTACTATGCTATCTGGCAATTCCCACTGGGGAA
CTGTGGCAAGACATCTTATCACTGGGGAAGGAAATTCAAGCTGAAAGAATTCACCTTTTTACTTAAAATTTCTTAACTCTGTGACTATTCCTGTTTTCTA
CTTATGAAGTCCAGCCTCCTCGCCCCCCATTCCCCTCAGGTGTGGCAGTGAGGTTAAAGTGGCCACASGCTGCTGTTGGAGTGAGCCTTCCTGCTCCATG
TGGGTTCTATAAAATGTGCCCTTGGCACCTGTTCAATCAGACCCAATGAGGATTTTGGAACAGTATGTTTTCTACTGTAATTACATCTCAACAGTGACCA
TTTATATTATTCCTTGATTGCAAATAAATTTACAGTGCTTATTTTTGTGCTCCCTACCTTCATTGCATTTTTCAATATATTTAATACACTTTAATCACAC
AATGGGAGGTGAGGAAATACGGGCCCCTCTTGTGAAGGGAACGAGAGGGTGGTTGGGCTCAGAGCTGCTTTTTCTTTGTTACRCATGTTGTGGTTGTTTT
CTAATTGGAGAGTCATGAACATGTTTATGGACCTGCAAGGAGAAATAAGTTGATGTGCAGGGAAGGAGGGCAGGAAGGGGTAAGGCACTGAGGAGTACAT
AGCGGGTGGGAGCCAGGGACTGGAGTTCACTTTGAGCAGCAAGGAAGATAGCCTCCTGCAGCCAGGGGAAGGAGGCAAGAAAGAGGCAAAGGGAGGGGGC
CTGTGGGTTTCCAGGTTGGGGATGCTGAACACGGAGAGCACCTGCCTTCTCGCACTCTTCCCCTGTGGGTCAAGCAGCAAGGTCTGCTGCTGAGAGAAGC
AGGGGTCTAGAGCCCACTTTGCAGCTTTGCTGAAGCACCCAGCCACCTGAGGACCTGATTCAAAAGGTGGGCCCAGGTTGTACCTTTCTAACCAGCTCAC
AGCTAAGCTGGTCCAAAGCCCACACTTTGCATAGGGAGGGGAAAATGGACGACATGCCATTTTTTCTTCATTGTCAAGTAAGCTGGAGTCTGAACACGTT
CTAATTGGACAAAATGGAAAATGCCGTGTTTTAATTTTCTGAGGCCCATTGAGACAGCCCCAAGGGTGACACAGCTGCCTCCTTTCAAGCCTCTGCTCCT
TTGTAGGTTGATGGAACTTGACCCTGGCTGTAGGACCAGAATCAATTTGTTGCACCTGCATCCACTTGGCACCCACAGGTATAAAATGTATTTATTGAAA
AGCAGCAGGAAGTACAGAAAGCAGGAAAAAAAATACCTTTCTTCTTTTATAAAAGGGATTATCAGCTGCTAATTCAAAAATTGTAGGGTAATGAAAACTA
CATCAATAATTTTCATAATAATTATAGTCTTTGGTTTTACCCTTGMATGTTTTTCTGGCAACATCTGATTCAATTACCCCAGAAAATGTTACTATGCTCT
TCCAGCATTTTCCTATGAGGTTTGAATCTATGACCAAATAAGTGATAACTCTTGTCCTAGGGGAGCTTGTGGGCTGCCGTACACAGGCAACTGTCATGTA
GGGAGACCTGACACACACATCTTAGCTGGATTAGTGGTTCTCAACCCCAGAGGGTTTTCCACACCCCGCTGGGACACCCAACAATGTCTGAACACATTTT
TTATTGTCACAGCTTGGATGGTGCTACCAGCATCTAGTAGGTAAGAACTAAGGATGCTGCTCAGCATCTCCCAATGCACAGGGCAGCCCCCACCCAATGA
ACAATTATCCAGCCCAGAATGTCATTAGTGGCGAGGTCGAAAGACTCTAAGTGAGATTAGGATTACGATTAGATTACAATTCGAAAGGAAAAAGCAGGGT
GGATTCGGTGGCTAATGCCTGTTATCTTAACATTTTAGGCGGCTGAGGCTGGAGGATTGCCTAAGGCCAGGAGTTCAAGACCAGCCTGGGCAACATAGTG
AGACCCTGTCTCTATAAAAATTATAAATATATAAAATATATTTTAAAAATTTAAATATATATATAGTGTGGTGTCACATGCCTGCAGTCCCAGCTACTCT
GGGGGCTGAGGCAGAAGGCTCCATTGAGCCCGGGAGGTCAAGGCTGCAGTGAGCCATCATCACGCAAGTGTATTCCAGCCTGGGCAACAAAGCAAGAGCC
TGTCTCAAAAAATAATAAAATAAAAATAGTTGATCAGAACACTTCTGGTTATAAGAGACCCCTAGCTCTAAGTAGTTTAGATAACAAGGGGACTTTCTAT
TGGTAGGAATATTAGGTAGTGAGAGACTAGGGTACTGTAACAAAAAGTTCCCAAAAGAACAACGTGTATTTCTTTGCTCATGAAATTCCTTAAAATGATG
TTCAGTGCAACAAACATCGTTTCTTTATGTATTTTATTTATCCATTTTCATTATAACAATGTGCATTTTATTGCTTATGTGCTGGGCATTCATGTAAGCA
TTTTATAAATTATTTAATCCATCATAATCCTGTAAGGGTAGGTATTATTATTATTAATTATTCCCATTTTGCAGATGAGAAAATGGAGACACGGAGAGGT
TAAATGACCTGCCAAAAGTCACAAAGATAACAAGATGCAGCTTCCTGTGGCTTTCAACATGAATCACTTTCCTCATTGGTCTTTTATTTTCCTCTTTTTT
TTTTTTTTTTTTTTTTTTTGAGATGGAATCTTGCTCTGTCACCCAGGCTGGAGTGCAGTAGCACAATCTTGGCTCACTACAACCTCTGCCTCCCAGGTTC
AAGAAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCACTACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCAC
CATGCTGGCCAGCTGGTCTCAGACTCCTGACCTCAGGTGATCTGCCTGCTTCAGCCTCCCAAAGTGCTGGAATTACAGGCGTGAGCCACCACACCCATCC
CATAGGTCTTTTTTAATGTGACAGAGTGCCACTGGAGTGCGTCTCTCCTCACGCAGATTTTCATTATGTTACTCCACCCTGTGATGAGAGCCCAGGAGGG
ACAGAGAATGCTTTTTAATCCTCCTTATCTCATTGAGCCTGATTCCCAAGGGAACGATTCTCATCCATTTATTCTCCCTCTGGGACTCAGAAACTCCATC
AGCCACCTCTGGAAGGAATATGCGACGTGCTCATGGGAATTACAGTCGGGCCCAAGGGGTCTATTTGAAATGGGAATCAGTGGTGCAAACACAGAGAATG
GATTTAGAGCAGTTTCTTCTGACTAAGACATTTGGAATTTAAATGCAAATTAGAAGCTGTAAGTCAATTCCGTGTATGAATTTATACAAATCCCTTGTAA
TGAAAGCAGAAGGTTTCTCTTGTCCTTGTTTGTGCTGTGGTGTTAGCATCACGAGCCTAACCAAGTGTGTCAATCTCCCTACAGCTCTGGAGATTAGACM
TGTGCTTTCTCCASTTAGAGACGGCTGTGAGTGCCATGCTGGGGGTGGGATTCTCCATGGGCTGCAGGGGTCTGTGTAGTTTCTCCATTAACTTCAGCAA
CACCCCATGGAAATTGGGAAGAAGGAGGGTCCTCGTGGTTTAGCCAAAGGTTTTGAAAGAGACAAGGCTCTCATTGTACCCCCTCTTTACTGGCCCCTCA
TGCCATTCACAAAGCAAGCCCTCATTCTCAAATATTGCCTTTCCTCACTCAGGAGCTGGAGGCTGGGCTCTGGGAAGCTGACAGGCCACGGTCTCTTGTA
TTTGAAAGGAGCAACCCAAGGGCTACATATGGGTTAACAAATGACTTGAATCCCCAGCGCCTGCAGCCTGGAGTCCCCATATGACCCAGCAGCTCCACTC
CTAGGTGTAAACCGAAGAGAATGAAGGCATAAGTCCTCCCAAAACTTGCAGATGTGAACATTCACAGCAGCATTATTCCCCATAGCCACTAAGTGGAAAC
AGTTCCAGGTCCATCAACTGATAAATGGAGAAACAAAACATGGTCCATCCACATGACGGAATGCTTTCAGCCACACAAAGGACTGAAGTACTGATCCACG
CTACAGTGTGGATGAACCGTGAAAACACGATGTTCAGTGAAAAAAGTCAGACAGAAATGGCCATATATTGCGCAATTCCATTTCTATGAAATGTCCAGAA
CAGGGAGATCTCCGGGGACAGAAAGCCAATTAGTGGTTGCCAGGGGCCGGGAGTGGGTGAAGAATGGGGAGTGGCTGCTCCTGGGGGTGGGGTTTCTGTT
CGAGGTGTTAAAAAAATTCTAAAATTGATTGTGGTGGTGGTTGCACAACTCTGTGAATGTACTGGAATCCATTCATATGTACAATTTAAATTGATGAATT
TTTTGGTATGTGAATCATAGCGCAATAAAACTGTTAGCAAAGAAAAAACTGCATAGCACCATGTCTAAAGACTATAGGGGATGTCACCCAAAGGGTCACC
TTTTTAGGCAGAACTTGAGCTCTTGTTAAGGTTTGAAAAATCACAAGCTGTTTTTTTTTTTCCTCCATAGCTCAGAAATCAAACCAGATTGAGGAAAATC
TTTCTAGGGAAAAAAAACTCACAAAAGCTGAGAAAATTAAAATATATAGAGCTCCTAGAATCAGGAATTGTAGCTTACTTTTAATATCATCAGCACTCTA
GCATAGTTCTGGTACTTAGGTGTTGAAGAGTTGACAGGAAACAGAACCCAGGAGGTAAATGAAGAATCAATCTGTTGGGAAGAGGTTTAGAAAGGAAGAA
ATCACTTAGGAATTCTCTTACCCTGCTTTATTTTTCTTCAAATAATCCAACAAGCTGGGTATTTKATTATTTATGTATCTATGTAGCATCTCACTCCCAC
ATAGGGACAACACTCATGACAGAAGGGGCCTCCTATGGTTTGTCCGCTGCTGTGTCCGGCATTAAGAAMGGCGCTCAGCACGGCGTCATCAGCCATAAAT
ATTTGTGGAATGTACAGACAGGGGATTGAAGGCTTGGATAGGGGAATATGTCCTTGGAGAGTGAAATGAACGAGTGGCTAGGAACACACACATGGGTGGG
GGAATTAACATACTGACAGGGAATGAACAAATGGGTGGGGTAATRAATGCACAAATCAGAGACTTAATACATAGTATAGACAGGGATGGGCATGTGGCTA
GGGGATGATGGATGGAGGATAAAAGTGTGGATAGAGGATGAATGAATCATTCCAGCAGAGACTTGTAGGCAGCCAGCATGACTGAATTTGTTCCGGTTCT
TTCTATCAGGCTGGTGCAAAAGTAATTGCAGTTTTTGCAATTAAAAATGGCAAAAAATTGCAATTACTTTTGCACCAACCTGATACATCTATAAGCATGT
CTGGGGGAAGGGTCCCTCCTGCACCCTCACGTGGTGGGGTTTATCTGAACATTAGGGTATAGGCCATAGTTAGGAACAGCCCCTGAATTTAACAGAGAAA
GACCCTGAAGCAAGTAAGGCAGGTCAGGAGACCAGGATGGGCAGAGGTCCTGTATAGGACAATGTGCAAGAAAGGACCCAACAAGGCAGCTTTGCAAGAT
GTCGGGATCAGGGGCCAAGAGGAGAAGAAGCACAAGAGGTCAGACGAAGAATCCTGCAGATTGTTAGCCCCAGGATGAGGAAACAGGCCTGAGAGTCTCA
TCTGTTTCATCAGAGAGCAATAAAAGAAAATTAAAATATAATAATGCCAGGATGTTCCAAACAGCTCTTTATTGCTACAGAACTACCATGCCTGTACTTT
CGTCTCCAGGCAAATATACTCAAAATAGTTTCCTATTGCTCCACTCACCCCATCATTCGTCCCCTTTCTGCATTAGGCCTACGGGTTAATGGATGCTGCC
ACCTGATCCCTGCATGATTTCCCACCAACCCTATGACTCTGGGTTCTGGAGAGGTGAAAGAGCATCTCCAGGTGGCTCAAAACTGTGGCTCCAGGTACTA
CTCCTCCAGGCGGGCTGCTCCCTGGGGCACGTGTTCTCAGTCCACCAGTGGGCCATGCCGCATCAGCCCACCTGCTTCCTGGCACATGGGATGCACAGCC
CATGACCTTGGACCCAGCAGTAGGCAGCATGCTTTCCAGTTTTGAAGGCAAGGACGGAGGCATACAAGGCACTACTTGAGATCCTGTCTGATTTAGAATT
TTGTAGGACGGATTCCTGTTGTTGAACACACTGAGTGATGAGAAACTTGGCAAATCTTGTTGGCAAATCTCTCACCTTGATTCCSTTTGGCATCCTTTGT
GTCTGTCTGATCCTTCCAGCCTGGCCTTTGGATAGCAGGTACCCACTTCTTAGGATGTGCCAGACACCACGGTAAGAGTTTGATCTGCACTTGTTCATTT
ATTCACCAGAATCACCTATGGAGTTAGCAGTGACCCTATCCCCATTTTACAGATAAGGAAGTACCGAGGCTTACAGAGGTGAAGTTGCTTGTGTCAGGGC
ACCCAGCTGTTGAGTGACAAAGCCAGACCCTCTGAGGTGGGGCACTGAGCAGAGGCCCGAATGGCAAGATGGTGCCAGTACATGAAGACAAGAGTCTGTC
AGAGAGAACGACACAGGTAGAGTCCTGCAGCTTGAGCAACTGYTTACAAACCCATGGCAGAGCCCATGTGAATGAGGGAGAAAAGGCAGAGATGGGCAGA
TCCCAGAAGGCCTGGGAACCCATGGAAAAGGCTCTGGATTTTGTAAAGTAGAAGCTGTTGCAGGGCTGCGAAGACAGAGGAATGTCAGCTCCATGAGGGC
AGGAATGTGTGTCTTCTTTGTTCAGTGAAGACTCCCAAACACCCAGAATCGAGCCTGGCATGTAGCAGGTGTTCAGTGGCTTCATTGAATCAAYGAATCA
TGTTTAAATTTGTAACAAAATGACTCTGGCTGCTACTATGCAGAGGACAGGTTGTAGAGAGAAAGTGGCAGGGGGGAAAACAGAGGAGGAGTCAAACACC
CCTGTAGGAGATAATCAAATTACCTGAGCGGAGCTTCTGATGGCTCCACCAAGGTTGGTAGGGGTGGGACACAGAGAAATAGGCCTATTCAGCACATATT
CTGCATGCATGCAACCATTACCACTATCTAAGGCTGGAACTTTTTCATCACCCGAGGGGAAACTTTACACCCATTAAGTGGTCATTCTCCATTCCCACCC
CTCACACCCAGCCCCTGGCAACCATAAGTCTGTTTTCTGTCTGTCTGAGTTTGCCTCACAGATATTTCGTAGAAATGGAATCATATAGTTTTTAAGAGTT
GTTGCTGATGGACTGGATGTGAGAAATGAGAAAAGAGAGGAATCAAAAGATGACTCCTGCATTTTCAGCCTTCACAACATGAATAAATGGTGGTGCTCTT
TGCCAAGAAAAGGGAGAAGGGGGAAAGATGAGATTTGTTTTGGTGGAGTCGGGAGGTGGAAAGGCCTCTGTTTCGATCATGTTAAGTTTGAGGTGCCTGT
TAGACACCCAGAAGCAGATGCTGGCTGTGACTTGGCACTTACAATCCTGGATACAGGGCAGAGTCCAGGGTTGGGGGTGTGAGTGTGTGATTCCTCAGTA
GAGAGGCAGGGCATGGAAGTTCTCATCCAGGTGCTGACTGATGAAGAGCTGCCATTGCCCAAGCTGGGACCAGAACCCCTGAGCCATGTTAAGAAAAAGT
CAACCAGATCCAGGCATTGTTACCCTTGAATGGTAAAGGTGATTTAGTGRAATCTTGATCAAGGCTCCTGAGCCATTTCCTGTGGGAAAGTAGACATCTT
TGAATGACTGCACAGAGAATCGTGGTCTTTGCCACTCTCCCCTACAGTTTTGGCAATATCACAGCCAATTTTAGGGCACAAACACAAACCATTCCCAGTT
ATCCTTTGCCTGTAATAGGAATAAGACAGCATGGTGTAAGGAATTACTTGATTTTAGAAGGCATTTCATCTCTCCAAGTCAATCTTTAGGGATCGACACT
RCTGGTGGCTTATGAATTTCAGATGTGGTACATTCTGGGAATGCCAGCTCTTGGGCTCCAGGAAAGGTGATTAAAGGACAGGCTGATGCCAACATTTATG
GAGAATAAAACTTGCACTTCAGGTACAGTAAACTCAGGGCACTCAGTTGGGCTTCACTCTTCCATATTCTTAGGAAAGACTAAAGTCACATGAATAAGAT
CTCAGCCCTGCATATGTAATGGCAAAATGAATGATGTAGGCTCTTCCTTTGAGAAACTAACAGACTGTGGATSCAGCTCATTGTAAAGAAACAGCCATAT
GAGTGATGTAAAGGGTATTAATCCCTCAATACAGGATCATTTATCTGTAGTACCACTCCATTGCTACATTGTTCCTGAGCCAAGTGTCCTGGCCACCATG
TCTCTGGGACAGTGAGTGACATTATGAGGTCAAACAAGGTGTCCCCCATAGACCGTCAAGAAGACAGGCTGCTGCTTTTCAGGGATCTCTACTCTGATCC
CCTTGGGATAGCTTCTAGGTTCATGAGTAGGCAGAATCCCACTGAGTTCCTAGTTCCTCTTTGACCCCCAGAGCAGCACTTTAGACATAAAGTTCATCTA
TGCTCAGGATGACAGCCAACCAGTAGCTCCAAAGTGTTCCTTGACAATCATTTTCTACTTTACTGAACAGCCCACCTTCCTCTGCARCAGACCGCTTCTT
TGCTGGAGAGGCTGTGGGCTGGGGATATGGAGAACAAACTGATGAGTGAGGGATGTGTCTGCAGAATCAGTCAGTGGAAGAGATGACCTCCAGGAGACTG
TGATTTCCTTGGCAAAGGTACTGCATTTGCTTGCTTAGCAATATYTGTGAACTSCTTGCCATAGAACAGCAAGAATTCGCAACATTCCCTGCCAGTGGCA
TCCTTCAGCACTGCCAGCCACATGTCCTCACCAGCAAGGTCCCATGTCCTCACCAGCAGGTCCCATATCCTCACCAGCAAGGTCCCATATCATCACCACC
AGGTCCCATATCCTCACCAGCAAGGTCCCATGTCCCCACCACCAGGTCCCATATCCTCACCAGCAAGGTCTCATGTCCTCACCACCAGGTCCCATATCCT
CACCAGCAAGGTCCCATATCCTCACCACCAGGTCCCATGTCCTCACCAGCAAGGTCCCATATCCTCACCACCAGGTGCCATGTCCTCACCAGCAAGGTCC
CATATCCTCACCACCAGGTGCCATATCCTCACCAGCAAGGTCTCATGTCCTCACCACCAGGTCCCATGTCCTCACCAGCAAGGTCCCATATCCTCACCAG
CAAGGTCTCATGTCCTCACCACCAGGTCCCATATCCTCACCAGCAAGGTTCCATGTCCTCACCACCAGGTCCCGTATCCTCACCAGCAAGGTCTCATGTC
CTCACCACCAGGTCCCATATCCTCACCACCAGGTCCCATGTCCTCACCAGCAAGGTCCCATGTCCTCACCACCAGGTCCCATATCCTCACCAGGAAGGTC
CCATATCCTCACCACCAGGTCCCATATCCTCACCAGCAAGGTCCCATGTCCTCACCACCAGGTCCCATGTCCTCACCAGCAAGTTCTCATGTCCTCACCA
CCAGGTCCCGTATCCTCACCAGCAAGGTCTCATGTCCTCACCACCAGGTCCCATGTCCTCACCAGCAAGGTCCCATGTCCTCACCACCAGGTCCCATGTC
CTCAACACCAGGTCCCATGTCCTCACCAGCAAGGTCCCAACACAAGTTAGAATGTGCCATCAGGTTTCTTTTATCATTTGATCTTAGAACTAAAAGGGAC
CTCAGTGGTTACCTCAAGCTGTTGTTCTCAGCCCTTGGCTGTTCATTAGAATCACAGGGGGGTGTTTTCAGAAATACGTATGCCTGGGCCCCATCCAAGA
ACGATCTCTGAAAGCAGGACCCCATATCATTAGTGGGTTTGTTTTAAGGCTTTCAGGTGTTTTAATGTGTAGTCAGGGTTAAGAATGACAGCTTTAGTCT
GATACCCTTTTCTCAGATAAGTGAACTGGGACTCAGAGATCTTGCAGAATTTACCAGAAAGGTACCCATGAGTTAGAGCAGCAGTCCACAACCTTTTTTT
TTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCAYGATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAAT
TCTCCTGTCTCAGCCTCCCAAGTAGCGGGGACTACAGGCACCCGCCACCACACCCAGCTAATTTTTGTATTTTTTGTAGAGACGGGATTTCGCCATATTA
GTCAGGCTGGCCTCGAACTCCTGACCTCAGGTGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGAGATTACACTCAGAAGCCACCACGCCCAGCCAATCCA
CAACCTTTTTGGCACCAGGAACTGGTTTTGTGGAAGACAGTTTTTCCACGGACCAGGATTGCGGGGATGGTCTTGGGAGGATTCAAGCACATTACATTTA
TTGTGTGTTTCATTTCTATTATTATTACATTGTAATATACAATGACATAATTATACAACTACCATAATGTAGAACCAGTGGGATCCCTGAGCTTGTTTTC
CTGCAACTAGACGGTTCCATCTGGGGGTGATAGTAGACAATGATAGATCATCAAGTATTAGATTCTCATGAGGAATACACAACCTAGGTCCCTCGTGTGT
GCAGTTCACTATAGGGTTTGTGCTCCTATGAGAATCTAATGCCACCACTGATCTGACAGGAGGTGGAGCTCAGGTGGTAATATGAGCAATGGGGAGCAGC
CGTAAATACAGATGAAGTTTCACTGGCTCTCCCACAGCTCACCTCCTTCTGTGTGGCCCGGTTACTAACAGGCTACAGACCAGTAGTGGTGGTTGGGAAC
CACTGAGTTAGAGGCCAACTAGAATTTGCCCCACTTCATTGAATTCCCTACTCCTTTAAATATGCAGAATTGCATAAGCCAAACTCCAGTGTCTTTAGAA
AGCAGACTATGTTAYTGTTTCTTGAAAAGCCATTCTTCCTCCAGATTCAGATGTTGGTGGTCAAATGARTATCTCTACAGAAAATCTCTCTGCTTCTCCG
AATTAAACTATTTTCAATTATCTTGTCAGATGAACAAATGTGTTTTGCATTTTCTTTCATTTTTTAAAGAGAGAAACTCAAGTGAAGGAGAGCTACTAAC
GTCCAATGAAATAAAGTATCCAAGCCTGAAATTSAAGAAAAAAAAATGTAGGCATATTTGCTCTTTGGTTTTTATTTTTCTGTCACCATCTAATGTAATA
TTTATTTMATCATTCCCCTAAGGCAATGATTTTCAAACTCTCTTTAGCAGCAAAACTTTTTTTTTTTTTTCAAACAAAATCCCAGGCAGGAATTCTAATA
TACAAAACAGATAAAATATAATTAACAGATTCCTCAGGCAGTTTAAATTCTTATTATTTGAAGGAAAATGTTTGATGCCTTGGTAGGACTCCTGTACCAT
CTCAAACATTCTTGCTGGACTCAGTGGCTCACACCTATAATTGCAGCACTTTGCGGGACCAAGACAGGAGGATCACTTGAGCCCAGGCATTCGAGGCCAG
CCTGAGCAGTATAGTGAAACCCTGTCTCTACACAAAATGTAAAAATTAGCTTGGCGTGGTGGCACATACACACCCAGCTACTAGGGATGCTGAGGCACAA
GGATCACTTGCACTTAGGAGGTCAAGGCTGCAATGAGACGCAGTCACACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACCCTGTCTCAAAAAAAAAA
AAAAAAAATCTTGTTCTCAGGAACACAGTTTAAGAACCACCGTTCCACTGCATCGTTTTCCTGTCAGTCTTCAGTGGCCATGTCTTTTCATTTTGTTTTG
TAGGGCAAAGACCTGCTTTGTTATGCAAGCCTCTTCTCCGTGAAAATGCATTTCATTTTTAGTTTTGCATATGTGCAGTTCTGTATTTGGTGTAGACAGG
GTCATGTAGAGGAAGAGTACAGTCACTGGAAGGTGGACTGTSCCAGGTGGGCATCTTCCTCAAAAGCCATGGACTCAGCACCTTCTGTGTATCTGCAGCC
AACACATGGAAAYATCTCATAGGAAATGAATCAGAGAAGTGTGCCCTGAGGGGAAGAGGGAGCAATTCCTGCCAGGGCATGCAGTGAATGTTTCCCTTTC
TTGCCCTTTGGTTCATTCCCCAGCACCTGTAGAGCCAGGAGGTTGAGGGATGCTTCATTTTCTCTCTCAGTGGAATGGGACCCACAGACAGCTGCTGCCT
AGGAACATCATTTTCCTTTCAACCCAGGATCACCCTGGGTGGGTGGGTCACATGGGGCAGGACATCAGTGAGGGGGACATTAGTATCAGTCCAGGATCAR
GAACCACACTACCWGGGATGCCAATGGGTTTTGGAGAGGACTCTTCACTCAGGACGTTTCTTTCTTGTTGAGATGCTATTCCTTATTATTTTTGAACTAT
TTCCACATTCGAGTTTTGCATTTTCTCACCTGTTTAGTAATGGTGGATGGCTTCAGACATTTAACTGGGAAGACTCTGGATGTTTAGTAGACCTTTCTGT
CACTGTCCATTACCATAGCTAGTAGGTACTCTCTCTTTGCATGATGGAGATAACATGCAAATCCTTTTAGCAAAGCATCTGGCACAAAAGAGAAACACAA
AATTGTCCGTAGAAGAAATTAATGTTAGTTGGACCAAGAAAGGACTTTGATTATGTTTTCTTAAAAAGAATCTCTGTGTTTTAGACTGAAATCTTTACAG
ATGCAATGGCATGTCTGGGATTTGCTCCAAACAGTGCAGAATCGGGGCGGGGTGGCTGCGGAGATGAACCACCAGGAGCAGGGAGTTGAGGATCTCTAAA
GCCTGAAGACAGGCATGTGGGGGGTATTATCCTATTGTACATGCTTTTATACATGTTTAATATTTTTCATAACAAGATGTGAAAAAGAAAAAATACTTGA
GAAAACATCTATGAAACCCAAAGCACCATCAAAGGGACCACTCACCTGATGAGATCAGTAGACATCTTCAGAGTTGTTTTCCCCAGGGCGCCATTATTGC
AAGGAATAGAAACCTGCTCAAGGCAGCTGGAGTGAAAATGAGGTTGTTGATGGGAACAGAGGTTCCAACAGACAAGAACACAGGGAACCTCGGAGGATTG
AGAGCAGGACTGGGAAACCAGTCAGCGACTGAGAGCACTTCCTATTTGTCTTTTGTCTTTGAGTCCCAGAAAAAAATCTCTTTTGTAAATTTTTCTCTCA
ATTTCTCCATTCTTTTGCTTCTCCATGCATATTGGATTTCTCTGATAATTTATCCTTATCCAAATGACAAAAAATGGYCACCCCTTGCACAAATGCTGGG
AAACCTATATTTCTCTTAGTTCAAATTTATCAAAGAAATAATCCCATTTTTCATGAATCAACTGATGGAGTGGTTACCCCGGAGTCAGGTAATCAGCTCT
GGGTCCAATCAGCTATGGCCAAGGAAGCTAGGATCACATGATACAAAATGACTCCCTAGTACCACTGTTTTCAGCAGGGACTGGGGGTAGGTTTAGGTCC
CTCAAATGTTTTATGGATTATGCAGGCACCCTGAGCTATATCTACTCAAAACCGCTAAGATTTTCAGGAAAGAAATATTCTAATTTGCCATTTAGAAATT
ATATAATCTCTGTCATTTGGACTACAGTTGAGTCCACTTTCCTTTTTCTTAGGAGAAATAGAGAAGAACTGGTTACTATTCTCATTGGGAGACTCTCAAA
CACATGTACGTTGTTTTCTTTCTACCTTGTGTTTTTATTCTTGAGACAAAATAACCCGAAAAGTTAGTGTCTACTTACAGTGCTCTTACTTTATGAAAGA
TGTGACATTCAGCATTTTGGGGAATCAGAGACATGACTCCGACTCTTCAGGAGCTCAACAATGGGAGAGGCATGCCCCAGGTTGTCTGTGTTTGAGAGGC
AGGGAAGTCTGTGCCAAGTTCTTTCTGTTCATGGTTACTGGAATTCTCACCTCTAGCATCTGATTTCTTTCTTTCCTGTGTGAGCTACCTCCCATGGGCA
TTAAAAATCAAGTCTCTGACACCACTCCRCATCTTCAAAGAAAACAAATCATTTACAGAATTTTAATCAGATAAAGAGAGGAGAAGGCTGGGCACAGTGG
CTCATGCCTGTAATGCCAGCRACTTGGGAGGCCAAGGCAGGAAGATCACTTGAGCCTAAGAGTTTGAGACCAGCCTGGGCAACTTAGTAGGACTCCCATC
TCTACAAAAAAAAAAAAAAAATTTAAATTAGCCAGTCATGGTGGTTTAGGCCTGTGGTCCCAGCTAAGGCAGAAGGATCACTTGAGCCTAAGAAGTCAAG
GCTGCAGTGAGCCGTGATCATAACACTGCATTCCAGTCTAGGCAACAGAGCAAGATCTGCTTCAAAAAAAAAAGGAGAAGAAAAAGATGCTCACCAATGA
CTAGGACTATGATGATCTGGTGGGTTCCTGAATATTCTTTCATCTGGCTCCTGTAGTCACTTCAGGGCCTGACTATGCCTTTTCTACTGTGACGTAGCTA
GGGAAGGACTTAGTAGGTTCCAATCATCTTGAAGACTTGCCAGTGAACAGACCATAGTTCTTAGGCAAGCAACCACAGGTCCCTTGAGTGGCTCTGTTAT
TAATCTCTTCTGAGACATCGGGCTTTCTTAAAACATTGAATGAGCTTTATGTAGAACTCTGTACTGTATACTGTTTAAAATTTTTATGTAAATATATATC
TTATGTATATTTTATATAATTAGTTTTTATTTTTATATTATATTTCATATTATATATGTGTGTGTATATATATATATAGTGCACACAAACATGATGTGGA
GGCTGAATGAAAATGTTCTCATACGTTTTCTTCTAAGAACTTTACTGTTTACATTTCACATTTTGTGTATGGTGTGAGGTAGGGGTCAGGATTCATTGTT
TTCTGCAGATGGATATCCAATTGATCTAGCACCATTTACTGAAATGACCGTTACCTGGAAATTAAATCATGTCAAAACATAAAAGCATCCATAATTGGCC
ACAGGTACAGCCTTGGATGTATGACAGTGAAGGAAATGGTTTTAGAAGTGGTAGAAAGCAAATTGTCAGATATGTTGTAGATGTACAGTACCTACAAAGA
AAGGGGACACCCAGAGGGAATACTAGCCCTCTCACTTACTGATGTATTTTTGTGCCTAGTGGAGTCTCCAGCATGCAACAGACACAACAAATATTTATTA
AAATGAATTGTTGTATCTTTCCGCCATGAGATAAATCCTAATCATAGAAGAAAACCAGATATCTAATGCCGCTTTCCCTTCCAAATGTGGACATGATAGG
ATTGMCATCATTTGCCTCATGTCTGTTGTTGGAGCATAACAAGAATGAGCAAGTGTGTGAGTGCCAGGCATACATAACTGAAAAAAAAAAGCTTCTTCCA
CACCACTCGAGGAAAATAAAATACATATATACATAACTACATTATATGGCAGACTGTGATAAGAGCAGAAAGAGTCACAGGGGTTTAAACCAAATTCTCC
AATTTCTTAGTAAGAATTTCATATGATACAGGGCAAAATCCATCATCATTATCCTTGCTAACAAATACTGACTCCTTGTTATACATATGCCAGGCTATTT
GCCAAGCTCCTTAAATGCATTATTTATATCAGTCWCAGTTGCTACCCATTAGACTATTGGGAAGAGCCTTCCAATAAGCTGTATCTTTTATGTAAACATA
GACTCAAAAATGTTTGCAAGTTATATTTCTGATGGTCTCTCCCCTACCCTTTTATCATCACAAATAGAAATTAGTGAGACCCTATAATTTTTTTAAGCTA
AGGGCCAGATGACTACATCCCAGCTTTTCAAGTTCCATATTAGTTCTCTGTGAAACTTTAGGGTTAATGGCTCGTGAACTTAGTCTAGTATTCAGGTCAA
ACATGCAACTAGTCAAGCATGCAAGCTTGCATATGTGCAGTCCTTTAAACTTGTCCTCTGTCACTTCTTTCCCATCTGTGTCTTTCCAGCCTTCTGATCA
TTATTTCCATCTTCCATGTTAATCTAAAGGTCAACTTTCTGCTCTTGGAGGAAGAACATGCATTCTTGGTGTATAATAAAATTCAAGTCCCTCTTCCYAC
TTGTGATTGTCTTTGTGGCTCATCCAGGCAGCCTCATCCTGAATGTCTATGATGTAAGTCAAAGAAAAGAAAATAATCAGTCCTGAATTTGGAGGGAAGA
GATCAWAAGCCCAGTACATAGTCCCAACAGGCCACAGTGATTGTGTAAAAATACGTTTTATATCTTGTATTTGATTTGCCACACAGTTTAACAGAAAAGT
AACTTTATCTATTTTTTCCAATTAAAGGTAGTAATAGTACAATCAATAATTCCTCCTGCTCTAGTGTGGTAAATTAATGTCTTTCTATTGTTTTTAAATC
ACAAAGTGAGCATTGCTATAGAAATGTAAAATGGTACCATTTCATTTTAATCTATTTAATTTTCCTTTCTTGAATTATATAATGGGGTTAAAACATTGAA
TAGAATTAATAGAATGAGTATTTAATTAAGGAATAATGAGCTTCTAAATGAATGCTCAAAGAAACTGCTTCATAGTTTATGCAGAAATCAGATAATGGGC
TTAACAAATACTATAATAATTGTGTTGAATGTTTTCCATATTTAAAGATTTTTTTTTTCTGTATTCTCTCAGGAGTAGATTTAAACGTAACCCAGTTCCT
TGATTAGGCTACACTTTGCTTTCATAGTAAATCCCAAATGCCTTCCCATGGCCCACAGGGCCCTGCATAAGGTGACTCTACCACCTCTGGAGTCTGATGT
CATAGAGTTCTCTCTGGCTCTCCCCTTCATTCCAGCCACACCCAGCTTGCCTTTGTTCTGCAAAGCCACCTTTGGCTCTTCCCGCCACCTGGCCTTTGCT
CTTCCTCTTTCAGATGCCAGGTATGTTCTCACCCCCTTCACCTCTCTAAGGCCTCCTCTTCTTTCAGTTCTCAGGGAATTTTTCCCTGATGATCCTCTCC
AGACTGGATCAGATACCCACCTCCACACATACACACACACACATACACACACACACACAGACTCCCCAAGAACTGTAATTTTATTTCTTGACAATTAACA
CGTTGTTATACATTTCTTTCCCATCTGTCTCTCCTTTCAGCCTGTAATCTCCCTGAGGAAATATATCATGTCTGTTTTGTTTAGTGGTGTAACCCTGGAT
GGATGGATGGATGGATGGATGGATGGATGGATGGATGGGTGGATGGATGAATGGAAGGATGGATGGATGATGAATGGAAGGATGGATAGATGGATGATGG
ATGGATGGATGGATGGATGGATGGATGGATGGATGGATAAATAGATAGATGGATGGCAGGTAAATGCCGTTGTGGACCCATCCAAGGACATATGAGGGCC
ACAATGCACATCTCTGAGAATTCCTAGCACATCAGCCCCTTTCCATTCTACTTGAATTCATTTGCCCACACACTAAAAAGGTATTCTATACCAGCCCCTT
CAGCAGGTGCTGCAGACATAAAACTATCAGTGTCATGGAAGAAGCTGCACAGGTTTGTCTCACTTATACATGGCCTAAATATTAATTTTATTAATTCATT
CATCCACCCATCCACCCACCTACCCATCCATCCATCCACCACCCACCCATCCATCCACCCATCCGTCTATCCATCTATCTGTCCACCCATCCATCCATCC
GTCCCATCTTCAGACCTGCTCATGTGTTGGGCACTGTGCTGTTTACTAAGGATCAGGGCTGAGTCATCCATTAGGCACCATTATCACAGTGCTAGGACCC
TAAAATCGAAAGAAATAAAAAGAACTTTTAGGGTAAAATAAATTTTTAATTCTTTTCTTCACATCACAAAAATAATTTTTTCTGAGACAGGGTCTTGCTC
TGTCACCCAGGCTGGAGTGCAGTGGTGTAATCATAGCTCACTGCAGCCTCAAACTCCTACACTCAAGAGATCGTCCCACCTCAGCCTCCTGAGTATGTGG
GACGACAGGCACGTGCCACCACACCTGGCTAATTTTTTACATTTTTTTTTAGAGAGATGGGAATCTCACTATGTTGCCCAGGCTCATCTTGAATTCCTGG
GCTCAAGTGATCCTCCCACYTCAGCCTCCCAAAGAGCTAGGATTACAGTGTTAGAATACCATGCCCAGCCCCCAAAATAAATTTTTTAAAGCACATTACT
CTATTATGATAGGAGGGGTTGATGAAGGCAAAGGTGACTGGGGTCCACCAGCCATGACGCAGCTCTGCTGGAGCACAGGGAAGATCAGTCCATCCCTGGT
CTTCTGGAACACTCAGGCAAGTGGCAGAATCAGGTGTCAGTCAACAAGTCAGTCCCTCTTAGTCTTGCTTCTGTATGGCTTTGTCCCTTCACATTCCCTC
AGGCCTCACCTCTGCTGCCAGATCCCACTTCCTATACTTAAGATCATTCATTCATTCAACAAATATCTACTGAGTTTCTTCTGTGCACCTAGCACCATGC
AAGAGACTGGAGATAAAGCCATGAAGAGACAGGTGCACATAGAGCCTCCAGCCTCCTCAAATCATGATTTCTCACAGTGTTTTCATCTTGGCAATGACAC
TCATCTGCTTTGACAGAGCAACTTCTCACTTATGCACTGGACATGACAGCGTTTCTACCTGACTGGTGGTTCCCAGCATCCTCTAGCCTTAGCCCATTTC
ATGCCCACATGATTGATACCTGGTTTTCTAAGGTACAGGTGTCAGAAGAACCACAAGGACGGGTTATGAGCTGACATCCACTTTGATAAGCAGGGGCAGA
GAACCAGTCCTTTGGCTCTGGACCGCAGCAAGAGGGTGAAGGAAGGACTGGCCTAAGCCATGGGGATCTAAGGTGGGCAGGAGTGGCAGAGCAAAGATTA
CTGGAAACCAGGAGACTTAGGTCTGATCTTTGGGTCACTAAACGACTTTGGGCAGCACTCTTCCTTCTTCCTTCCTTCCTTCTCTGTGCAATCATCTTCA
TCTGTAATATGAAGGGATTAGATCACACATGTGTCACCAAGCCCCCTCCTGACTACATGGCAGGTAGCATTAATTGATCACAGCATTCTTTCCTGCTGAG
CCCAGATGTACTGCAGGCCTGTCCACACCAGGCTCAGGCAGCTTCACCCATTCACAAGGGTAGGTCATGTCATTGACACCTGCCTGCCGTCCTTAGACTG
GGACTCTATCCTGCTTCTTGCCCCGACTACATATTGGAATTATCTAGGCAGGTGAATAAAATGCTGAGTCCTAGGCTTTACCCCAGAGCCTGGGGAATCT
GAATTGATCTGGGGAGTCTGAATCTGAATTGATTCCCTGACTGATGCCTGATTCTGCCACTTGACTGCGTGTCCCAGAAGACCAGAGATGGACTGATCTC
CCATGCGCTCCAACCTGGCTAGAGGACCCCGGGCAGTTTCTCYTTCATCAGCCCCTCCAACCATAATAACCATAATAGATTTTCATGCGCTTTAACCCTG
GGGAATCCTGAATTGGAATAGGACTCGGGAAGTTTTTCAAAGCCTCTGGGAGATTCTAATGTGCAGACAGGGCTGAGAACCGTTAGTATAGTTTTCTTGC
TCAAGAATTCTATGATTTTTGTGAGAAGAGAAGATAGAAGATAGGTAGACATTAAACAAGAATCACACGAATCAGATCAAAATAATTGCACCCTGGAGTT
GTTTCTGTGTTACAGCAGCCTCAGTATCCCTTCTCATTCCCACTATTTTCTAGCCTCCATGCATGTTCTAAGAATTTTCCAGCTCTCCTTTTATGGAAGA
CAACTCGCCCAGGTTTGCCGAGGCGCAATAAACAAATTAGTTGCAGTCCCCGCCCTGTCCCCTGAGAGGCCTCAGGATTAAGGTTTATGATTAATGATTT
CCAAGTCAATTAATCAGCCACTGCTTTTGAAACCTCATTTCTCAAATTACTTTTCTTTGAACACAAGGGCTTTTTGATATCACCTTACTGTCTCTAGATT
CACTTTCCTACTAATTGAAATTCCAAGATATTTCTTCTTTTTGTCAGCTTATTGGTGTTACTTGTTTATAAAATATTTGCAAACACATTACTATTCACCT
GTAGTGTGTCAGAGGTAAGCACCAAAACAATACTTTATGCTTTCGGCTCAAAGGAATGTGCTAATGAAAGCTCATGAAATTCTCTATCTATGAGAAAGTT
GATTTTTCATTTATTGATTTATTTTCACCACACCTACTTGAAACAAGAATTTGAGATGTATTACAATAGAAACACAGGTACATCAAGGCTCCAAACAATT
CATGTAGATGATTTCTTAGAAAATGGTTTCTAAGATCATATTAAAACTGGATATGGAGTGGGAAGGATGGGATTGGTTTTCTTCATTAGGGAAAATAGCA
GTATCTAGCAGAGGATCTGGGGTCAAATCCCAGTCTCTCCACTTACAAGTCTTAACGCTTGACTCATCTGATTATGTTGTTATTTTGGGGAGGCAAGGCT
GCGAGAACAAATGCAAACAAAAATGGCTTGAACTCAATGAAAATTTGTTTCTCATTCAATGATAGTTCAGGACAGGTGTTCTTGGCCACCAGGTTGCTCC
CCTCCATGTGGTGACTCAGGGACACAAGCTCCTCCTTCCTTGTAGCTCCCTGCTTCCCTGGGGTTTTGTGGTCCTCTGCATTCAGGTAGGCAGAGGGTGA
AAAAGCACAGAGAGGAGGCACAGCTGTTCTTTTCACCCTCCCACCACAGAGCAGCACAGCACAGCCATGGTCAGTATCATTGCTGCCCACATTCTGCAGG
AGAGAAGTTAGTCTCGTGGCCTCACCTAAGTTCAAGGAAAGCTGAGAAGAAGAGCATAGTATCTTCCAACCGTAATCCTCTTATGTTATTATTTATTTTT
AAGTGAGATGATGTGTGTAACATACCCAATGCAAAGCATGTAGTAAATGACTATGTGTTTTCAAAATAGTGACCATTACCATCTGCTTTGTYTGCAGTTT
CAAGCCACAGTCGAGGAAGGARCTGTGGGAGTTATTGTCAATTTGACAGTTGAAGATAAGGATGACCCCACCACAGGTGCATGGAGGGCTGCCTACACCA
TCATCAAYGGAAACCCCGGGCAGAGCTTTGAAATCCACACCAACCCTCAAACCAACGAAGGGATGCTTTCTGTTGTCAAAGTAAGGGTGCTTCCAATTGC
CTCTTTCTCCTCATGCGAGCACGGAGGGCCCCATGAGGCAGCTCATAGAATCATTGAGTTTAGAAGGCCRCAGATAAATTCCCCCAGTCTCCTCCTTCTG
GGAATTAACAAAGGAAAAGGCTCATGGCTTAAGGGTGCACTCGTATCCTCAGCAGCATAAACAAGCAGCCATAAAACAAACCTGTTTTATAGGTTCTAAA
ATACCCAAACTTATGTGTAACTTTAAGAAAACCAAACTTAAGTGCATTTTTTATTTTGTTTTCATTTTTGTTTTTTGAGACAGTCTCACTCTGTCACCTA
GGCTGGGGTGCAGTGGTGTGATCTCAGCTCACTGCAATCTCCGCCTCCTAGGTTCAAGTGATTCTCGTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGC
TGCCTGCCACCATGTCCGGCCAGTTTTTGTATTTTTAGTAGAGATGAGGTCTCACCATGTTGCCCAGGCTTGTCTCAAACTCCTGGCCTCAAGTGATCCA
CCTGCCCTGGCCTCCCAAAATGCTGGAGTTACAAGTGTGAGCCACCATGCCTGGCCCAAACTTAAGTTTTAAATGAAATTCTTTATACATTTGCTAAGGA
ATTATTAACAGATATGCCAAAATGAGATGTGTGAAGGTGTTTTTAGAGATCTGTGCTCAAAACGTGGGCTACGACATGACTTCTTAATCTTCCTTAGTGA
GCTCAATTATTCCTTAAAAACACACACAACATAGTTATTGGTGTGAAACCCTCTGTGACCCTTGCTAACTCRCACACTGACCCTCTCTATGGCAACAAGT
AGAACAAGGAGGAAATGTAATTATAAATGTAAAACCTCTAGCTCATGCTGGTAATCCAGAAATATTAGTGGGGGTGGTAGCACAGAAGGCTTGCTACAGG
TGGCCTTGGTATTCTGGSAGAAGGCATTTCTACACAGTTTCACTCTTTCTGGGAAGTTCTGGGGAGAGTTTCTGCCAGAGACCAGGACCTTCATGGGAAC
ACATTTTCTTTTCTAGTGGATGAAGCCATTTGCCTGAGCAGCAGGGATCAATTGTATTTATAGTGATAGTACCAGTGGGCAGAGCAGGGAAATGGCTGCC
CACTCCCTGTGTGCCCTTGGCCAAGACACCCATGTTTTCTGTGCACCAGTTTCCTCATCTGTAAAATGAGAATGTTAATGTAACCTCCCTCTTAGGGTTG
TTGTTGTAATCCATTGAGTTGYTATAATGAAGTACTGTAGGCTGGTGGCTTATAAACCACAGACATCCATTTCTCACAGTTCTGGAGCTTGAAAAGTCCA
ATATCAACCTTCCAGTAGATTCTGTGTCTAGTGAGGACCCACTTTTTGATAGATGTCCATCTTCTTCTCTCTCTATCCTCACATGGTAGATAGAGTGAGG
CAGCTCTCTGGATTCTCTTTTTTTTTTTTTTTTTTTTTTKTTTTTTTTTTTGAGACAGAGTCTTGCTCTCTCACCAGGCTGGAGTGCARTGGCCTGATCT
TGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGTCTCCCGAGTAGCTGGGATTACAGGTGCATGCCACCACACCCAGCTAAC
TTTTGTATTTTCAATAGAGACGGGGTCTCACCAGGTTGGCCAGGCTGGTCTTGAACTCCTGACTTCAAGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCT
GGGATTACAGATATGAGCCACTGCACCCTGCCAAATCCTGTTTTGCTCATATCTATTTTCCTTGAGCTGTAGCAAACACATTTTGGGGAGGCCTGAGCTC
CAGGATATGTGATGGAGATGTCTATTTACCCAAGTTTTATCTTCCAAACTTCAGGTCTGGAAAATTGYCTGACAGATTTTATAGACTCAGGACTAGCCAC
GGAGGACAGCCAGTGGCTATGTCATTCTATGACTTTTACAGCTTCGAAAGTGCAACAGCCATGGACACAGAGGGCCAGTGCCAGGGTTTCCTAATAACTT
TGCCATTGCCCAATACATTAGTGCTTTTATGTACTTCGTGCATTACTGCTAGTCCCCATGAATAATATACAGTACTATAATTGCTTATTCATACATAGTA
CATTCATATATAGGAGTACATTACAAACCTAGTCTACATACACATAAGCACGTATTAACAATCCCTTAATTAACTATCRCACATCTACTGTTGTCAAGTA
CACAATAAAACCTAATCCATACGAATACTGACCCGTACTAGAAATCCTTAATATTACGTAGTACATACATTCGTTCATCGGACATAGCACATTGCAGTCA
AGAAATCTCTTGCCAACATGGATATCCCCTACCAAATTTTGGCCTCTGAATCTACCAATCTCCGAGAAATCATCCCCGCTCAGGAGTACTACCCTCCTCG
CTCCAGACCTATAACACTTGGGGGTGACTATTCTGAAACTATACCTGGCATCTGGCTCTTACTTCAGACCCATAACATTAAGATCACCCACATGTTACCC
TTAAATTAAGACATCTCGATGGACTAGTGACTACCAGCCTATTAACCAACCTTGGCAACAGAGTGAGACTCTGTCTCAAAATAACAACAACGAAAAAAGA
AAAAAAAGAAAAACCAGACTTGCAGGAAGGAGCCATTCTCCTCTCCCTACATTCCTGTGCTGGTCCACAATGCAGTGGCTCTCAAATGCTAGCATATATA
AGAATCATCTGCAATGTTAGTTAAAATGCAGATTTCTGGGCTTGCCCCAGACYTGCTGTGTCAGAATATGAGAGAGAGGTGTGCCAGGTGGTTCTGTTGT
TCACAGGGCACACCACTTGTCAAGGGGCATGGCCTTAGGGGAAGCAGTTTCCATCAGCTTGTCCGCCCTCCCTGCAAATTCCAGGGGAAGAGGTGCCCAC
AGAGGCTGATGCTCTTGCTGACTTCAGCTTTGCTAGTGAGTGGACTTTCTTTGCTTTGGAATTGGGATGCAGACTCTCCCTCACCCCACATTGGCTGCCT
CCCAGGTCAGTAGGAAGGGCCTTGAGTTCTATCTGTCTCTCAGCACATGTGAGGCAGAGCCCCAGAACACCTTCTAGAAGCCAGCTAGGCCATGCTCTCT
GCTGCTGTCCACTGTGCCAGCCACTGGTGCAACCATCAGGGATGCATTCTGTTGCAAGTAACAGAATGTTAGACTAATAGTGGCTTAACTAATGAAGGGA
ATTTAAGAATTTTTATAACTAGATGAAGGTAGGCCAGTCCAGGATTGGCCAACAGTTCCAGGTGGCAGAGAGCCAGCAGTGGGGTGCCTCAGATGCTTTT
GACATTTTCCTCTTGGACATAAAGTAGCTGCCAAAGCCCCAGGCATCATATCTTCCCATGATGCTGCATCCTAATGCAGGAAACAAGGAGGCAGCCAGGC
AAATGAGAGAAGGTGCTCTTATGAGACCCTCTCCTCTTATCGGGGCAGAAAACATCCTTTCTAAGGGTCCCCCGGCCAATTTCCCRTGATGTTTCATTGA
CCAATGACATACGTTCTTCCTTAACTTCAAGGAAAGCTGAGAAAGTCCAAATCTGGCCTTTGGGCCTTTACAGTGCATAAGGCAGAGGGGGGCTGGTGAT
TGCTGTTGGGCAGTCAAGCACAAGCAGGTCTGCCCTAACCAGTTAGCAATCCAACATACAGAAGAACTATTTGGAGTCTCAGGATGCTGCTGGTTTCCAG
CAAGGTCCTGCCACTTAAAAGGACCAAATCCCAGTGGCTCTGACAGATGAGTGTCGGCTTCGTCTTTAAAACCTTCAGATCAGAAGCACCCTTAGCTGCT
TTCTAAACCGATTCTAAAACCACCAGAAAGTTATTCTTTCAGCTGAATATAATCAACCCTACATTTTAAGTTTATTTTCTATTCTGTCCTCAAAGAARGT
AGTATCCAGAAAGCATCCGTTATTCCCCAAACCTTTCACAGGCCTAAACATAGCTATTCATTCAGTTCTGGATCCTCCCTCTTCCAGCCAACAAACCCAG
GTCCTCCATCCTTCCCATGTGGGTCAACTTTTCCAGGCTTTAAATTTCCCAGGGCAGTGGTTTACACCCTCTCTTGTCACTTGAAAAAATATTAATTGAA
TTGCCTCTCTGTAGCTTCCATCAGGAGTATTTTCAATTTCCTCCTGTCCCTGACACAGAGGCCCAGCAACAGACAAAGCACATTAGTAAGATTGTGTGCT
TTRTGAGATCTTGGAGGGCTTCTTAATCCAATTACAGCACTCSGAGGGGATTAGGAACAGAGACCCATGTGTCAGCARCTCCAGGTGGTCTGGCCCTGGG
CATCATACAGCTGGAGTTAGTAGATCCCACCTTAGGCAAATGGAAATAAACATTAGCATGGCCCTGCTCCCTTCCTAAGGCCAGCCTCACATTGTATGGC
TCCCTCCCTCGCTGCTCCCCTCCCTCTGTGGCTTCCTGCATGGCATAGTTCCTCTGAAGCCAGCGTTCCGTTCAGGGAGTGTCAGCCTGGGAACATAGGA
GAAACACTGGGGCCGGGGAAATGACTCTTGCAGCTCTTGCTTCCCCACTCTTCTTCCTCACCATCTTAACAGCTTCTTGTTATTGATACCAACACCAGGC
CTAGCTCCATGGGAAATATTCAACATTCATCCTGTCCGCTGATCTTTACAACAATCCTCTGTACTAGGATTTTATTGAAGAGACAGCTGAGACTTCASGG
GAGGCAGTGACTTGCTGGTGGTCCCAGAGTTATGATGCATCAGGGCCAGGACTTGACTGCCACCCATCTTTCTATCTAATAAAAAAATAGGGAATTTAAA
AGGCAGAAATATCCAAGAATGTTAGATTTTTGCACAATCAAAATAATAGATAATTGTGTTGCACAAGTCTAGTGCTAGAGAAAAGCACAAGAATTACAGT
CAATTCATTCATTCATTCATTCATTCATGCAATATTTATTTAGAGCCCACTATGGTCCTGACACTGTGCTAGGTGCTGTGTATTCACTGGTGAAAGAAAT
GGTCTCTGTCTGCAGCCTCCCAGGCAGCTTATAGTTATAAGAGCAAGAACTTTTGCTGCAAATAATGATATCCCCAGGAAAGAAGGAGAGGAGGAGGGAG
GGAGGGAATTGTCTCCTTGGGAAAAAACAACCAGTTGTCCCCAGCCGAGGAAAAGGAGCTGAGCGGCACAAATTGGTTATTTCCAAGCATTTTGACTGTC
TCACTTGTCAGCAGATGGCTGGATTCCCCAGAAACCCCACTATCCTCCTGCTTGTGCATACGTCTCCGGCTGTGGAGAATCAGATGTCAGACCAAACTAG
GCCAAGATTGTGATTAGTGCTGGTGTGGGGTGGAAATGGCCCTTGGGGGACTGGGGTGCTCTGCATCTCACTGCTGTTCAGAGGGCCCACCCTCAGCGTC
GTCATGGCCCAGCAAGCCAAAGGCTCTGTCCCCTCCAGGATCCTAATTGAGATGAATAGCTGTATTTTCCAAGCATGGCAGCTCCCTGGCCCTGGTTTGA
GGTTTACTTTACCGAAGTTGCACATTCTGGCATCACTTGGGATGGACAGAGATCCATTATTAGGATCCATAGAAAGAAGGATAGAATGGTGAATTACTGC
TGTGTTACAAGGATTGAACCGACACATCACTGTGCAGCCACTCAGCACTAAGAGCTTTGCATCTGTTAACTCTTAAAATCCTATTACTGACCCTGCTGGG
AGTTGTTCTAGGTGAAGAGAGGAAGTCCAGTTACAACCAGGAAGCATCTCCAGTGTGTGTATGTGGGCACACACTCTCCCATGTGTGGCGTGCTTAGCAC
TGAATACATGTCAGCCGTAATTATTRTGAAAGTGACTTTATTTGCCTAAAGACACTCTGACCCAACCTGCCAGATTCCATTCCCACCTCRGTGCCAGCTS
TTTCCCCAGCATCAACGGTCCTTATCTCTGCTTTCATTTTCCCATGTCCACTGCAACCTCTACAACTGTTGTTGCTTACTTTTAGTTGAGTGTAAATCAA
ATCTCTTGACTTATTTAGTCTTGTCCTTCTTGCAAGAATACCCATTACGGCATGGGTCTGATGGGTTAGCTRTTTGTTCCAGTAAGCATTAGGAACTTGA
TAGAAGCAGTATGCCCTCATCTTACCTAAATGTCTCCCCATGCACCGCTGACAGAGACCCACTCTGGGAAATGCTGCACCCACCACATCATGTGCTCTCG
TGGTTGGGAAAGAGAGTGACAGACACTCAATTGGCAGCGCCATTGTATTACCAATGTTTATCATGGAGTTTCTTTGACATCCTCTGGTTTAGTCCACACA
GTGGCTGGGGGAGGTAGATACTATCAGCCCCCTTTGCAAAATCACCTAGAGTGGTCCTCATCAACGCTGCCCATTGACACTGGGGTAGGACAATCCACCA
TTGTGTGGGACTGTCCTGGGCATGGCCTTGAGTCTAGTATTGCTGTCCCCCGCCCGGCAAATGGYTGTAGAGCCCTCGAGTCAATTGAAAATGCTCCCAT
ACATTTTCACATGCCCTCAGTTGGGCCAGGGCCCAGCGGCTTAACTCCATGTGGCTCAGACTTTCAAATCCTTTTCCCTACATCATACTCTACTAGAAAC
CATGCACCCAGGCTATACTTGAAGGGACATAGAGACCCTTTAACTTCATGGCAAGTGAGTGAGAAACATTAAATATAAAACTTTGGTTTTCCTGTTCCAT
TTGATCCACTGTGATCACAGAGGCAGGGTTATCTTGCTATAAAGCTACTGAGGATTGGGCGTTGGAGTCTCRTTTACCAGAGCCCCCGTGGGTGTCGGGG
GTACGGAGTTACAGGTTCCAGGCAGGGAGGCTTTAGGCATCACCATTGCCAGGGAGTTGCCTAACGATATCTCAGAGGGAGGCTCACTAAGGTTCAAGTC
ACTCACTGCCCAGATCACTAAGGTTCAAGTCACTCAGTGTCCGGATCACTAAGGCTCAAGTCATGTGTTGTCATTCATTTCTTAATCAAAAACACAAAAA
CAAAAAAAAACCAACATCCATACTTAATCTCACATTTTCATGTTTCATATTCTTTATCTTAAAGATAGCCCCCCAGTTACACAGGCTTAGCCTCCAAAGC
CCAGCTCCATCCCTGAAGGCCCACTGTTGCTCGTGGAATTTCAGAGGAAGTTGATGCAAACCACCTGCCTTTTGTGGCTGGTGTGCATCCTGAGACCCTT
CTGTCTGCTTTCCAGCCATTGGACTATGAAATTTCTGCCTTCCACACCCTGCTGATCAAAGTGGAAAATGAAGACCCACTCGTACCCGAYGTCTCCTACG
GCCCCAGCTCCACAGCCACCGTCCACATCACTGTCCTGGATGTCAACGAGGGCCCAGTCTTCTACCCAGACCCCATGATGGTGACCAGGCAGGAGGACCT
CTCTGTGGGCAGCGTGCTGCTGACAGTGAATGCCACGGACCCCGACTCCCTGCAGCATCAAACCATCAGGTGGGTGAGTGGCTCCGGAACCACAGACGGG
AGGTGGGCAGGAATGGCTTTTCCTTTCCAGTCGCAGAAGCTGGTTGTCAGGAGCAGACACCATTAAATTAAACTTGTTAACAATCTCAGCAAGTGGGAGG
AAAGCGTCATAGAGAGGAGGTTGTGGCTGACGGCTGCAGAGGGCCAGGCTCTTTGGTGAGGATGCTGCTCCCACCTGATTCCAGCCTGGGAGAAGAGTAG
CTTCAGTGCTGTGTTCCCAAATGACCAGCCGGGTCTGCTGGCCCTGAGCACAGTCCTTGAACGGAGAGAGAAGGGAGCCACTCTGGGTGACCTCCTGCAT
CTCAGAAACTTGCCTACTTTGTCATCAGCACTGCTTTRTGACAAAGGTTTTGCTAACTCCGTTTACAGATACAGGTATTGTGGATTCGCAGATTCGTAGA
GGTTCGGTACTTGCTCAAGCAGCCCAGCTTGGTGGTAGAGGAATCASGATGGAAACAGGACACTCTGCAAAGTTCATGCTCCTTCTAGCTGCTCAATGCT
CACTGACTCTGAGCTGCCAGAAGGGGAAGGAGCAAAGTCACTTCCTGGTGCTTGGAAATAGACCATTGGGATTGGCGTTCTGCCTGATGAGGGGCAGGCA
AAAATTAATAATAATAATAATAATGTCTTCAGAAATTTCTGTCTTCATTTCTTAAGCTCTGCCCAGTGCTTAGATAGAAAGCATTTTCGTAATGAGATTT
AATTAAATGGTCGCTATCCACCCGTGGTGCATCTAATGCTCACAAATAAAAGATGCCCTCGTTGGTACATGGTTTCACAATAAACTTAAATCAGCGTGCA
GATCCAAATGCACGCCTGTCTCTGCAGAAGAAAGTTATTAATGTTCCTCCTCCAAAATCTAATCTTCTTCTCATATGAGGTACAAATAATCAAGTATTGG
ACACACTTAAAACGAACATGTGTCTGATTTTCCTGATTTGAAACACCTGAAAATGTGCAACAGGGACTGAGTCAACCACTTTACTTTAGAGCAAGCYGGT
GGAGAAGAAGCAGAAGTTATTTTCCAACACCAAAAGTGGATTTATTTTTACGGCTAAGCTTTCTGAATGCCAGATGAACTAGACAAGCGTGTGAAATAAT
ACCAAATCCTATAATAATGTGAATCTGAAATAGCCATTCTTTTTTTTCTTGTTGCTATCTGACAATGGAAACATGCAATTTAAACATCAAAGAGAGAGTC
TTTCTTAAGTACTTAGATGGGAAAACTCGTAGCTTAACAGACTACAAGGTAGTTGGACAAAGGTAGGATGTCTCCAGGTGAGCTTAAGTGTCATCTTGTA
TTTCTACAATTGGAGGTGAAAGCAGGGACCCTGGAGGCAATAAAATGAGTTAAATCAGGTTGATGTTTTGGACCCTGTGTCTCTGCCATTGCTGGGACAA
CTTGGGATGCTGCCAGTCATGAAAGAGCTAATGCAATGGGKAGGGGTGGATGGAGGTGTCTGGGACCCAGGACTAGATGTCCTACTAAGATGGGACAGAC
AGTGGGAGAGGAAGGTCAGGCTGGGTTGTTTGATTAAGACCAGCTCTGCTGACTTGGGCAAAGAAAGAACGTGCTGGAGGACCCTATGGATACTATATAC
GATGGAGGAATATCTGAAGAACCCGCTCGAGATAGCACAGGAGCTAGGGCATCCTTCAGGCTCTAGGTCACAGGAACAGACAGACTTGCAGTTCAGGATC
TCACAGTGAGAATAAACCAGCTCCAGCTGTTTTCCATTCTAGTGTCACTCGGCCCATGGTCACATTCCCAGGGCAGCTCTGCCTTGCTGGAGCTGGGGTC
ATGCACCTCCCTGCTCCAGGCACCTTGGCTAGTGATCAACYGGGATGATGTTCCCAGATACACAGCACAGAGGGCCGCTGACTGAGAAGGAGGGATGAAC
ATCCTGTCTGGCAAATGAAGCTTACTGCTGGGAGTATGGAGGCAGCCCATAGGTGCAGTCCCAGCAAACTGAGTTAGGAACAGGATTCCAGCCTGGGGAG
GGAGGGGTGCCTGGGAGAGCTGAGACATTAAGGAACATCCAGGCCAAGATTTGAGCCATGGGGAGCAAAGGTCACCTTACTATTAAACAGCACAGGCAGA
TAAGGGACTTCATCCTACCGCTGTGTGAGAGAAGAAGGAGGTCAGAGAAAGCAACCTAGAAATGACTTGAGGTGGCACCTGTGGGGAGAAGCTGGAACGC
AGAAAGTTCTGAGGATCTTCCTGTTTCTCTAGCCAGTGTAATCATCACAGCTTTGGCCTTCCATCACAAATGACTAGTACCCAACTCACAGTGACTTATG
CCAAAAGGGGTCCTGCTTACTTGCATAGGTCAGCGCACCTAATGGAAAAGTCCATGGGAACAAAGGCCTCCAGCATGATGGAATTCAGGTGCTCAGAACA
TATTCCTTCTCTATATCTGGCTCTGCTCTCCCCTGGGTTGTCTCCATCCTCAGCCATATTTGCACATCTGTAGAGGGAAGAGGGAAGAGGCACCAGCAAA
CACCTCTCCTTGATCCTASCAGAGGAAAGCAACATCTTCCTTCCTAATCAATAGCCCAGCCCAAGGCCCAGGTTGAGTCACAAGCACAACTCTCTGAACC
AAGCAGAAGATGAGCAGGACAGATTGTGCCACGAGTCCTGGTGCCTGAGCCTGCCACAGACCCCAGCACCCAGCTGTGAGGGCCTGCAGGGGCGGCTACC
CGAGGAAGTGCGGGAGGCTAGTCCCAGAGGATGGGAACAAATGCTGTGTAATCAGGAACCACAGAGARCCCCTGGCCCAAAGGTGAACCTTGTGAACCCC
ACAGAAAATAGAGCTGCAGTGTGTCTCTGCAGCTGGTCTAAGAGTTCTAGCATTTACAGATTGGCCTAGCTGAGTGATGGCAGGACCAATCCCTTTCCCA
GCCGTGGAGCAAAGTAAATGTGTGTGTGCATGTGCATATGTGTGTGCTGCACACATTTCTCTCTCTGGCCTCACTCCTCAGGCATATTCCTTCCTGCTGG
GAGCCACAGCGGCCCACACGTGACTCTTTCTCAGCCTGGCACTGGCTGGACACCCCCTTTCCCCTCCTCCGTTCTTCTCCCCTTCACTCCCTCCTACCCA
CCTTTCCCTCCTTTCTCTTTCTTCCCCTCCACCCCTCTCCTCTCCTGGAGTAAAGTCGGGATAACATCACCGACAGGTTGAGCTATTGTCATGGGAGCTC
TTTGGGAAAAAGAGGCTCATTAATTATTTGCAGCCTTTGATCCTGCACACTGAGAAGTGCTCTCCCTTGGGGCCTGTGTGTGCAGAGGAGGAGTGGGGCT
GCAGAGAGGGGCCAGGATGGGAGACACTTTTCTAATCTAATCATCTGCGCTGGGCTACCCCGGCTTCTCAGACAGATGCAACGGCCTTCCAAGTTGTGAT
GTTACTGCTGTTGKGATGATTCTTCAGGGAGCAGGCACTGGAAGRAGAAACTTAGCTSGAAAAGAACTCTTCCTTCTTCTCCTCCTCCTCCTCCACAAAA
CAGGAATCAGGTGTCTCCTRATAACATTTTAGTATCTCTAATATCTTTTTCTTCTTCTTCCTTGTGTTGACTGCTGATGTGATACCTCTGTTCTTGTCTT
CTTAGTTTAAAAGAATTTAAACAAGAGACACACACCAAAAGAAGTGCAGCATAGAGTAATYTACTGCAACAGAAAAAGAATATGTTGAAAGTTAGGTGCA
GAATAGCAGTATCCTCTGAGAGAGATGATTCCGGGCAGGCTGCTCACAACAATGAGGCAGCAAAGACCCACACCAGGGAGGCTCCCTTCTGGGAGTCTTC
CATGATTATTCATAAGGAGGTGGGAAGAGGCGTTACTAGGAAGCTGTTCTGGGTGGTCTTCCGGGTGCACATGTGCAGCAGCTGTACAAGGTCGTTCATA
AGTCGCATGTCTCTTTAGCATCTAAAATCTCCACCCAGGGCTGTGTTTTTCACAATTATGATGAGCAGAGTCAGTTTGAGGACAGGTAAAATTAAAATGT
GCATGTTCTGTAGAGGGGAAAGTCGCCACTGAAGACAGCTTTGCTTGAATGAGCTCACTGACTGTGCGCATCCTGAGATTGACTGTGTTGGCTGTGCGGT
CACCACAGTTGCTGCTGTGTCCCGAGAACACGGTCACTTCCTTAACTACCTATCCGGCCTCACTCCTCCTCCTTCCTCTGTCTCTTTGCCTGTCTGTCTC
TCTGCTGCTCTGTCTCTTTTTCTCTCCCCACCCCACCATCTCTGTCTTTTCTGACATTCCCTGTGACTCAGCTCCAACAACCCCATCTCATGTCACATTA
GTCACCAGGCCCTCGAAACTAAAAGCCCCCATGAGAGACCGGGACCCTGAGATCCTGCAGCAGGGCCTGCCCATCCTAATGGCCACTGTCACCTCCTCCC
TGAGGGGGCTCCTTCCATGGTCAACATGGGAAGCCTTCTCCCCAACCCCAACCCCRCTGAAACTTAGGAACGCACTTCCAGCTAAGTCCAACTCCTGGGC
CAMGTCCTGCCTCGCATGAGGAAATGCACTTCTCAGGCACCACTGCTCCTCGGCTGACCGYGGCCAGACACCCTTTCATCTCCCCAGGGAATGCTCAAGT
CAGCAAAGGGCGCCTTGATCTCCAAGGAACCTGTGACTACAAAGACAAGGGGTGTCCAAACATCAGAGGGAATCTTCTCACTAAAAAGCCTGGGTTATTA
AGACTTGTTAAAAAGCCCTTCACATTGTGTTGTTAGTCAAATCAAAATGAACAGCAGTGGTCTAGTGACAGATGAAATTCTTCTTTTTAATGACTTTTAT
CTTCTTATCCTTATTATAAAGTTAAGATAGTTTCTGGAAGAAACTTTTGAAAAGACAGGTAAGAATAAGGAAGATAATAAAGTATCTGTCATCATCTCAG
ACAAGGAAATCCCTTTTCCACAGCTTGGATCTGTCTCCCTCAATCACGTATGTGAGTATTCTGTTTTTCATTACCAAAATTGGCTTGCATTATCCACCCT
CAAACCTCACCATTTTTATTTCCCAGTATACGCTGAACAGCTTTCTGTCCCAAGAAATAGCCATTATTTTTCGTCGCTGAATAGTGTGCTATTATTCCAY
TACAGGGATATACTCATCTGTTTATTTATTCCCTTGTTGTTGACTATTTACATTGTTTACACTTGTTTGCAGTTTTTTAAAACATTAGTGGGTATGCTTA
TAGTGAAATTGTTTAATGCATCATTAATATCCTGAAGACAAGTCCCTGAAAATACTTTGGTTGAGCAAAAGTATTACTGTGTATTGTTAATGTTTTTTGG
CATATACAGAATTCTTTGTTTTTATGTCTAGGCAGTCAAATTTATATTTTCCATCATTTCTAAATTGATGTCACAGTTTAGAAAGTCCTTCTCCTCTCCA
AGATCATGTACATCAGGTTCTAAAACAGATCAGGTTCCCACTCTGTCGTCTCCAGGTGAGATGATGATAAGACTTGCTTCCACTTTCAGCGTAGCAACCG
TTCCTCCAGGTGCACAAGGTAAAATATCCTGATGATATTCGAGTATCTCTAATGAGGAGAGGACTTATGTAACTGAACTTGTTAGAAAGAGTAACCCAGG
CTGGGCACAGTGGCTCACACCTGTAATCCCAATATTTTGGGATGCTGAGGCAGGTGGATCACTTGAGATCAGGAGTTCGAGACCAGCCTGGCCAACATGA
CGAAACGCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGTACCCCTGTAATCCCAGGTACTTGGGAGGCTGAGGCAGGAGAATTTCTTG
AACCTGTTAAACCTGGGAGGCAGAAGTTACAGTGAGCAGAGATGGTGCAACTGCACTCCAGTGTGAGCAATAAAGCGTGACTCCATCACAAAAAAAAAAA
GTAGCCGAAAGATAATTATGCAAAATGGAAGTAACTACATTTGCTAAACCTTCTCCTACAGTGAAATGAAAYATGGGAACTAACGCTTCCATCAGATCCC
TGATTTGGTTACATTAGGGAGGCAGCCGGCAGCTAAATCCTTCTGAATAGCTGGGAGGACTCACTTCTTTCTCTCTACAATCAAGGGCAACCAAGTAGCA
ATTCCTATTCCAAACATTTTTCAGACAGAACTCATCTTGCCCAGGATCTATAGTAAACAATTCCACAGCAGAGACTTCTGCCTACACTTTGAATATAGAA
GATATGTGTTGAAGAAAAATATTGTTCCTACCCATGTAAAATTTCATATCACTGCTCAACACTTTTTTTTGGAAAGGGTCATTCATCCAGGGAGCCCTGC
GAGTATATGTCAAGCATTTTATCTGTGGGGACTAAGTTTGGCTGAACATAACAGGAAAATTCAAAATGACAGTGGCTCAGAGCAGACGGAAGTTSATTTT
TTTTTTCTCACATAAAGTAGGTCTAGAGCAGGCATGACAGTTCAGGGACAGTGGCAGCCCCACACGGCCCCACACAGGGTTCTACTTGCTCACTATTTTA
CCACGTCTAGGCTGGCACCCTCTTCCTCATGGTCTGTTATGGTTGCTAGTGCTCCAACCTTCATATCTGCATTCCAGACAGCAGGATGGGAAATGGAGAA
AGAAGAGGGATACTCCCTCTCTTTTAAGGAGACTTTCTGGAAGTCATCCACATTTTTATTTAAATTTTATTGGCCAAAATTGGTCACAGGGCCATACCTA
GCTGCAAGGGATTATGGGAAGTATGGTCATTTGACTGGGAAGCAATGTGCATTGTTTTTTAAACCAAGGTTCTTCACTAAGGAAGAAAGGAAGAATGGAT
AGTGTAAGGTAGATGGCACTTTCTGCCATGAATGCCTTTTTAAATGGAACCTTTCTGCTTAATAAATAACTACAGGGTACATTTTAAAAGGGAAAAATAT
CCCATGATACTAGATATTTGCATAATCAAAATAATAGATGATGTTGCTAAAGACTAGTGCTAGAGAAGAGCATATGGATTACAGCAATTCATTCATTCAT
GCCATGGTATTTATGTAGAGCCCACTGTGGGCCTGACGCTGTGCTAGGTGCTGTAAATTCACTGGTGAAAGAAATAGTCTCTGTCTGCAGCCTCCCAGGG
AGCTTATYGTCATAAGAGCAAGAACTTTTGCTGCAAATGATGGTGTCCCTATAAAGGAAGAAAGAAAGGGAGAGAGGAAGGGAAGAAGGAATGAAATAAA
TTGCTTCCTTGGGAACTAAGAACCAATGATCCCAAGTCGAGAAGAAGGAGCAGAGTGGCACAAATTGCTTCTTCCCCTGCACCATGCCCGGCTGACTTTC
AGCAGATGGCTGGATTCCGCCAGAAACCCTGCTTTCGTCCTGCCTGTGCACAGGCCTCTGCCTCTAGGGAATAGGGTGCCAGACCAAACTAGGCCAAGAT
TTTCACAACGCCCTGCAGACATGGGTTTTGAGAATGATGGTAATAATATGGCTACTAGGATGATTAAAATACCTAACATTTTTATGTAGAACTTTACCAA
AAGCACTGTTACCAGTCTTCTTGTATTTTCATAACCACCCTGTAAATGAGAACATCTTGTTCTCCCTTTTTACTGATGAGGAGAGAGAACCTCCCTGAGC
CGTGGTTAAAGGAGGAAAGCACACAAGCAGGGTTTACAGAGGCTGAGTTAATGTGAATCAGAACGCCGGAGCTTCCTCCGYACCACTGCGCCTACTGCTG
ATGTTGGCTTAAGGCTTTTTGAACATGTCTTAGTGTAACTTCACCAAGCTTCACACTTCCTCAATCCTTGACATCATTGTCCATCTTCCCACGAGACTTT
GTGCTCAGGGAGAGTAACAATCATCTTTATCTCCTTCCCTAATGAGCCACCAGAGCTTCCTCAGTACCATTGAGTTAGTTAAGCACTTTAGGCACAGGAC
TAAGACCTTCAGACTTTCCACGGGCCTACAAAAATGTCAGGGACCTGAATACATAGTCTATTGACTCCAAAATTCAAAAAGAAAGCAGCAAAATTGAAAT
TAATAAATATCAACTGCCCACGGCATCATGACAACTTTAGCAGGCTAAACCTAATATTTGCAAAAGTGTCTTTACATTTGCAAACTATTTGTAGCTCTCA
CCTTGCAAGAACGGTGGATAAATTATAAGTGATTATTAGCAGAATATTTCTTATGGCACAGTAATTCCAAAAGCAAAAGTATAAAAATAATTTCAAACAT
GTGATAGGAAAAAAATGTATTTTTAGTGTGGGTACATTTTAGTACATTTGATACAGTTTGGGGTGAGGCCACCAAAGACAGAGAAAAATTTTTAAGGGCT
CAAATGTCTGGAAACAGCCCAATCCCAGCATAAGGACTGGTGCATGACCAGTGCTCAGTAACCAGGTGGAATAGATTAATGGCAGCTGGGTTGGGGGTGA
CTGCATGCACACATTTTTCTGCATTAAGTAGACATGGGTTGACCGAATGCGGTGGCTCATGCTTTGTAATCCCAGCACTTCGGGAGGCCAAGGTGGGCAG
ATCATTTGAGGTTAGGAATTCAAGAACAGCCTGACCAACATGGTGAAACCCCATCTSTACTAAAAATACAAAAAAAGTTAGCCAGGMATGGTGGTGCTTG
CCTGTAGTCCCAGCTACTAGGGAGGCTGAGRCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCCCTCCAACC
TGGGTGACAGAGTGAGACTTCGTCTAGAAAAAAAAAATGTAGACATAGCTTGCATTAGTCCATTCTCAAATTGCTACAYAGAAATGCCTGAGACTGGGTA
ATTTATAAAGAAAATGATTTAATTGTCTCATGGCTCTGCAGGCTATATAGGAAGCATGGCAGCATCCACTCAGCTTTTGGGGAGGCCTCAGGAAACTTAA
AATCGTGGCAGAAGACAAACAGGGAGCCAGCACTTCACATGTCCAGAGTAGCTGGGCCGAGGTGCTACACACTTTTAAACAACCAGATCACGCAAGAACT
CACTATCCCGAAGACGCCACCAAGGAGGGATTGCGTTAACTCCCCTGATCCCATCGCCTCCCACCAGGCTCCAACATTGGAGATTATATTTCAGTATGAG
ATTTGGGTGAGGCCACAAATCCAAACCACATCATAGGTTTTGTTTTCTTTTAATCTTCAAACATTGACTAATGTCTACCAACCATGAAAACATTTACATT
TGGCCTTGTTTTAAACCAATCCCAGGAAGGGTAGCCAGTGCTAGCAGGGAGACTTTAGAAGGATGTGCAGGTCTCTCACAGAACTTTCCAAGTCCATGAA
AGTTACATTGAAGAGCCATTGCCGTCAGCCAACCCTTCTTCCGAAGCCTTGATCCAAATTGAGCCTATTCTTTGAACACAGAATATCTGAATCAGATCCA
AATTAGATACTCATCTCTTTGAAAACTACAACTGCTTTGTCCTGATTTCTTTGGGGCTCTGTCTTTTTTAAGTCGTTTCCTTCCTCCTCATCTTTCTGAC
CTGGATGCTTTTTAACTTTACAGTAGAATTCATTCATGCATTCAAACTGGTAAAGAATACAACATAGAATAATGATATTTCAGCCCCAAAAGATTTGTTA
AAATGCCCAATTTCCATTTTTACTGGTCTTCCCATGATTCATCAAGTCCTTTTCTTTAACACCTTGTTTAATCTAATATTGGAGCTCATTCAAAGGAAAT
CACAAAAAATGTTGGGAAATTAAGCAAAAACCATCATTGACTGGCGATGGGACATTTTATTCTGTATCTTCTAAGACCTTTGGAAGAAAAAGGCAAAAAT
CAGCTCTCTTGAAAATGCAAATTTTGTCATSACTGGCATTCTCAGAAACACAGGGGTTCARAAATATGTAGTAGCCTACCATTTATTGGGAGGAAGGAGG
ATTTCTAATCCCAAAACCAGGTTTCAAAACCAGATTTAAGAGTTTAAATTGGGGTGACTCCCACCTTTTAAATTTTAATCAGAAGTTAAAGGCCAAATTG
TAACATTTCTACCTGGGGAAATTAAGAGAAGGCCTTCATCTTCTAAACTATATTATTAACACTTCATCTTAATTAAATGTGGTTACTGACCTCAATAACA
GGATCTGGGATGAGGTCATTTTTTTGGTTCTTGTTTTTAATGAGTTAAGATTTTTTTCTTTTTTAAGTCAACAAACACAGAGTTTGAAATGTAAATGGAT
TGTTTACAGTGGTGTCTTTGTAATTTTTAATTAAAGCGGTGTTGTTCCATTGTAAGTTTATGGTAGCAATACATTTTATTGCCTATTCTGCTGTGGAATT
TTTAATTATTTATGCAAATATATTAGCACAGATGACTCTTGTTTTTAGTGGTCAGATGTTCTGTTATGAAGATGCTGGGGGAAACAAAGCCTCACAAATT
AAACTATGGGATTTTTAAAGTTTTAAGGGCTTCACTGGCTAAAAATAGAATCCTGGCTTTTATAATGATCCAGAGACTGAAGATTTTCATTATTCATGTC
AATTAAAGGTGCTCAGTTTGGCTAATATGAAACATCTGGCCGTTTGGGTAAATGGATGAAAGGCTATTTTACAAATCGACCACCTTTTTAACATCCATCT
ACATATGTTGTTATAAATTTGCCATAGGCCAGACTTTCATTATTGAAAACATGGTTTCAAATTGGCTATATTTGAATATAATTATCAGGGTCCTTCTTGT
CAGCCTTAGAAATTAATCCTCAGAACCAATATAGAAAATATTGACAAATGTTAATATTGTTCCTTGACCAATATTTTCTAAGCTGTTAAATCTACTTAGC
TTTTTTTTTAATAAACCCATTTGAAATAGATAAGGATTGCTATATAAGCTACTAACATAGCACTGATTGAAAAAGCCACACATTTCAGGATTGCAACAGA
AGTCASTTGCATAGGGAAAATAGCTGATTTATTATCTGAGTTTGTCTATCAATCACTAACACCAGTCAGCCAGCAAGCACGAGGAGCTTATCATGGCATT
AACCCTAACACGGGTAATGAAACCACAGGCAGTGAGTCATGTAACTAATTCAAGAAATGCATTTCATCATCTGCTCCCAATCTGCTTTCCAAATGAATCT
CAAAGCTTGTATTTTCAAGTGATGAGGCTCTAAACTACAGTCCTCCTACAAATGCTTAATTTGGGGATTTCCTCATGCATTCCAATAGCGTTGGCAGGAA
TCTCACTAGAAGATCCGACCTTATATGGCTGCTTCTAAGTATTCTTGGGTCCCTGAGTGTAGGCTGCACATGTGAAAGGAGGACCTGGGGATTTGGATTA
GGGCTATGACCGGAAAACCTCTCTCTCCATTCATTCATCCCACACCTGCAACATACTGGGTGCTTTTCTAGGCATTGGGGGATAAAGTAGCCCCAGAAAC
AATTAAAAATATCTGTTGGYCGGGAGCAGTGGCTCACACCGGCAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAATTTGAG
ACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAATTAGCCGGGCGCCTGTAATCCCARCTACTTGGGAGGCTGAGGCAGAAGAAC
CACTTGAACCCGGGAGGCGGAGATGGTGGTGAGCCAAGATCACGCCACTGCACTCCAGCCTAGGCAACAAGAGCAAAAACTCCGTCTCAAAAAAAAGAAA
AAGAAATCTGTTATCATCGAAATCATATTCCTGTGGAAGAGAGAAAATGAATGAGAGAATTAATAAATACAATAAGTAGCATAGTAACTGGTGATTAATG
CAAAGAAAGGAAGCAGAGAAGGAAGGAGGGGAGCCATCACTCTAGATAGAGGGTCAGCAGAAGCCTCACCAGTGCTGTGATGCTTCAGTGAAGAATTGGA
GGAAGTGGAGGTGAGCCACACAGCTATCCCGGGTGGAGAGGTCCAGGTAGAGGAAGCAAGTGGGAAGGCCCCGAGGCAGAGTGTGCAGGATTGTGCCCAG
CGCACAGCAAGTTGGGGGATGGTGGGAAATGAGGCCGATGCTCCGGAGAAGATGGGGAAAGTGTTAAGCATGCTAGTGGGATTAGGAAAGGGGGCAATTA
AGGGAAAGGGAGACAGAGGCAGAGCAGAGGACTGGAGTGTAGGGTAGCCATAGTAATCCAGGTAAGAGGCCATATGGGTCTGGGCAGGGATGGTTGCAGT
GCAGGCAGTGAGAAGCTGCAGACACTGAATTTGTTGTTGTTGTTTTTATTTTTGAGACAGAGTCTGGCTATGTCTTTCTGGCTGGAGTACAGTGCCACGA
TTTTGGCTCACTGCTACCTCTGCCTCCCAGGTGCCAGTGATTCTCGTGACTCAGCCTCTGGAGTAGCTGGGATTACAGGCATGCRCYACCACRYCCAGCT
AATTTTTGTATTTTTAATAAAGATGGGGCTTCACCATGTTGTCCAGGCTGGTCTGGAACTCCTGGCCTCAAGTGATCCACCTGCCTCGGCCTCCCAAAGT
GCTGGGATAACAGGTGTGAACCACTGGGCCAGGCCCTGAATGTTTTGAAGGTACTGGTGACAGGGATTTGCTAACCAACTGTGCCGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTCAGAGAGAGAGAGAGAGGAATAAAGATTGACTCCAAGATTTTTGTCCCAAACAAATGGAAGCACAGAGGGCACATCT
CTGAGCTTTGCAAGCTCGCTGGAGAAGTGGCAAAGTAACTTGTGGGAGGAAAGTACAGGAATTCGGTCTTGTTCTTGTTGAGTTTGAGGTAGACAAAGGG
AGCACATGAGCTGGGTATCAGGGGGCGTTTGTGCTACAGATAGAAGCCTGGGTGTCATCAACATCCAGATGGAATTTAAATCCTTGAGACTATGATCCCC
AAAGAGGGAAGTGAACGTAGGGCTGTGGCCAAGCCCTGGGACACTCTCATATTGGGAGGAGTGGCCCTGCCTGGTGCTGTTTCACATGAGGCACTGCTTC
CTGAGAATCCCCTTACAGCCTTGCAAAGAAAAGTACATAGCCAGCCAGGTGCGGTGGCTCACACCCACCTGGCACTTTGGGAGGCCAGGGCAGGTGGGTC
ACAAGGTCAGGAGTTCAAGACCAGCACAGTTCCGTACAACGGTGCTGTTAACTTGGCAGCCCGACCSCAAATCAGCATATCCTGAGTCTATGCAGGCCCC
AGGGTAGAGTGTACATTGTCCCCAGGAGTCGAACGGACCTGGGCCATCCTGCCTCCTTCCATCTCCTGTYTTCTTTCACTAGCATGTCTGATCCACTTCC
CTAACACAGCCAGGCTAGGTTGGCCGCTTTCTGCTATAGCTACACCAAATTGCTCAAGGTTACGATATAGTAGCTGGCATTTACTTTGTCCCAGGCACTG
TTCCCTGAGCCTTCTGCATTAGATCACCCCTCATTTCACAGCAACCCTGTGGGTCTCTGATTACCCCTTTTATACAGGGGAAGACAATAAGGMTTAGGAA
GATTCAGGAAATTACCCAAAGAAATTCACACTCAGATTCACACTCAGGAAATGTGACTCAATGACAGCCGTCSTCACCTCTCTGCTCTTCTGCCTCCCAA
ACCAAACTGAAGCCAGAGAAGCGTGCCCTGTGTGTGCARTTACCAGACCCAATAGCTTGCTCTCTCCAACTTCTGTTTTTCAGAATAAAATTGTTTGTTC
CATTTCTGATTTTAGTTGATGGATTTATGACAGCTTTCATTGCTGATAGCCACAGCAAAAATCATTGCTGCCAGATGCCTGTAAGAGCATGGGGAGGGAG
TCTGGCCARATCTCCATGGACTCAAGGTTGCTCCCTGGACTCAAGGTTGCAGGAGGTCCCTAGGGATGCATTCTTCCCGGCTTGCTCTTTCCATAGCACA
GAGGCTCTTCCTGCCATCATCTGATGACAGGGATGGCTTTGCCTGCTGGACATCCACCTGTTGCACGGGTTGATGATGCGAAATGTTTTTACAGACTCCG
TCTGTCCCGGTTTCTTTCCATTTAACTCTTTCATGCCCACTTCCCTGTGCATTCTATTCCTGTGATTGCCTTAAGGAGAACAAGGATCTGTCATAAACTT
CCTTATTTTGCCAAACTTACTATAGGCAAATAGAGACTTTCGGACTTGAAGGATGTGTTTTCCTTATGGAAGCAAAGGAAACTGACCTTGACTCTTTTTA
TTTCATCCTAGATTCAGGCTGTCTCTAGAAACTACCCCAGAGCAGCTGCATGGGAAATGGCAGACCCCTGGTCTCTTACAGCCTTGCAAAGAAAAGCACA
TAGCCGGCTGGGCACGGTGGCTTACACCTGTAATCCTAGCACTTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGTTCAAGACCAACCTGGCCAA
TATGGTGAAACCCCGCCTCTACTAAAAAATACAAAAATTAGCCAGGCATGGCGGCATGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAAGAGAAT
CACTTGAACCTGGGAGGCAGAGGTTGTGGTGAGCTGAGACTGCACCACTACACTCCAGCCTGGGTAACCGAGTGAGACTCCATCTCGAAGAAAAAAAGAA
AAGAAAAGTACATAGCCAAGTGGCCACAACTGCCAGACTAGTGCCAGACTTCCTGAGCACAAATCCCCACTTGTCCATCTTCCAGAAGTGTAACCTTGGG
CAGATTTTTAATCTCTCTGGGCCTCAGTGTCCCCACCTGAAACATGGGGAGGAATAGTAATATCTAGGTTATGGAGTCACTGTGATGGATACAGAATAAA
AGAATTCAGGGAAAGTGTTTAGAACACAGTGCACGGTACATAGCATTAAATTAACTGATTCGCATTTTTAGCAAAATGAGCATAATGCGTAGTCATTTAC
TAAAGGTGTCTCTTTGAGACTGATAGGGGTGTTTTTCTAGAATATTTGGTTTTCATGCCTTGTGGATTAGTTTATTTTTATTTTCCACAAGCCAGCCCCG
GGTACCTCACTGCTTAAATCTCATGATAACAGTCTCTTCCTCATTCCTGGTAAAATCCAAGGGAGCAGATAGGAGTTTCTAAATATTAAGTTTTGCCATC
TGCTGTTTGCTTGCCTGTAAGCAAGCACTCAGAGATGACAGTGCCAGTGAATGAATGGCGAACTGCTATTAAATGTAGGAGTTGAACAACTGATTTATGA
ACGTTTGCAGCTTGGCCCTTTGGTGGAGGTAGGCTTGATTTTGCAATTTTTCTAGAGCACACATATAACTAGTCATATTTTCTGCTAGTAAAACTGTTCC
TAGTTTGGGCATTGGGATTAAATTTATCAGTATTTTAAGATGCTCTGCAAAGTACCTCACACTATGCAAATAACACCATGAGTTGTAGATACTCTGTCAC
CCAAACAAGTTTAGGATCTGGTTGAATGTTTGAAGTGAAATGAATCAGAGGAGACTGTTCCTGTGAGCAAAAGAGGACGTGACAATTCAGAACCTCTAAT
CATACCTAGTCCACTATCTGTCAGGATTCATGGTCACAAGCAACAGAAACCAGCATGGGCTATGTTAGGTGGAATAAAACAAGAACAGACAGGGTTGACA
TTAGGCATCACAGAATGGATAGAAAACCAGAAGACAGACTGGAAAAAATGAGTAGCCGCCAGATAGAACTCAAGGGGAGGGAAGGAGGGATTAGGGACCA
CCACAAAGAGAACAGCTGAGTTCTCATGTTAKGCTTCCCATGCAATGAACATGACCTGTGTTCACCCCCACATCACTCATGCAAGAGCATCCAGTTTGCT
GGAGTTGTCTCATGTCCCATATCYACTCCTGCTGCAGTGGGAGAGAATGGGAGTGGGTTACTACCTCCCACCAACACTGCACAAAACAGGGTTTTCTCCA
AAAGAGGGGTTGGGATGCTATGAGGGATGATAAAGGATGGGGAGCAGTCAGGAATGAGAAACATCCACTCCAAAACCCTTCCACAAGTGTGAGTCTTCCA
CAGTGCTCGTGATGACCTCCACAGCAGACTTGCTGTTATGACTGTCCCCAGCTGCCCTCTGTGAGGATGGGTGCTTATGAGGTGAGAGGTAAACATTTGC
ATATTCAGTTCCCACACTAAAGAGTGTCTCTGTCACAAAGCAGGAACAGGTGACATGGGCCAGCAACCAGGTAAATCTCTGCAGGGCATGAAGAGCCAAG
AATGCTACAGAACAGGGCTGTGGCTTGCAGAGGGCAGGGTGTGGCTCTGGGCAGACCATCAGGGCAAGAGAAGGCACTCTGCCCCAATACCTCCCTTTGG
GCTGGACTAGGGAGAGTCAAGCCAGGCCCTCATCTTGGTCATAAGCTTTAAGGGGATACCGAAAAACTCAATCATCCAGATAGATGTTTTAATGCAGTAT
TTTAAAAATCAAAACTAATGCAAAAATTAGCCAGGCACGGTGGTTCACGCCTATAATCCCAGCATTTAGGAAGGCTGAGGTGGGCAGATCACTTGAGATC
AGGAGTTSGAGACCAGCCCGGCCAACATGATGAAACCCCGTCTCTATTAAAAATACAAAAATTAGCCAGGTGTGGTGGCGCGTGCCCATAGTCCCAGCTA
TTCAGGAGGCTAAGGCAGGAGAATCGCTTGAATCCGGGAGGTGGAGATTGCAGTGAGCCAAGATCATGCCACTGTACTCCAGCCTGGGCAACAGACTGAG
ACTCTGTTTCAAAAAAAAATTATTGCAAAAATTCATAATAAGCAAAATACCAGCTTTTTAAGTAAAGCAGGATCATTGTTACTGATTTTTCATTTTGTGT
CCAGCTCACATATGACTCAGCATGGCGCTGCTGTGCGCAAGCTCCTTTTCCTCTTTGGGCCCATTTCTTCTTCTGTAAACTTAAATAGGATCGCAAATGC
TGTGACTCTGTGGATCCCTGGATCAAGAGTAGAAATGAGTTCAACCTGCGTGGCAGATGCTCTGGGCCAAGCCTGTGCCTACAACCTGGTGGACTAGGCG
AAAGCAGGTGCCCTTTCTGCAACAGACAGTTAGCAATGTTGAGTAAACTGTGACCCTTTCACCCATGGAAACCCACAGCTAGGCTCCAAAGAAAAAGAAG
ATAAATCTCTGAATTTAACAAATAACTAGAATATAAAATAGTTATGTTTAAAATGATTAGGGGAAAAGAATAGGGGCCAGGAAGAAAGGATAAAACATAA
TGAAATAGAAAAGGCAGATGTGAACAGTAACTAAATAGAAAGTCTAGAAATCTGATAGAGCATTATCTCATTAATACTTCGGACACAACTGTGAGATGGG
TGTGATCATCCCTGTTCTATAGATGAGGAAGGGAGGTCGAACCTTTCGTGAGTGAAAGAGACGGAATTCAAATCCAGATATATTTATGCCAAAGAACTTT
TTTTTTTTTTTTTGAGACTGGGTCTGTCTGTCACCCAGGATGGCCTGCAGTGGTGCAGTCTCGGCTCCCTACAACCTCTGCCTCCTGGGCTCAAGGGATC
CTCCCACCTCAGCCTCCTGAATAGCTGGGATCACAGGCATGCACCACCATGCCCAGCTAATTTTTCTATTTGTTTGTAGAGATGGGGTTTCRCCATGTTG
CCCAGGTGGTTCTCAAACTCCTGGGCTCAAGCAATCCACTYGCTTCTGCCTCCCACAGTGCTGGGATTACAGACGTGAGCCACCACAACTGGCCTCAAGG
AACTTCTCAACAGGGAAACATTTCTTTCCTTTGTTTTGCAAGAGAAAACACTATTTTTTTAAAAAGTCATGCTCAGTAGAGTGTGCAGGTTCGTTAAACA
CCTGTGATATCTTTTTATAATTCTGTGTAAGATGGGGTCTTCATGTGCAGCGGGCCCATTTCATCTCTGTTCCCCATTCATTCATGTTCTTTGTGTCTGG
GGCTTCTTTTGAAATCTGTAAAGGTGGGAGGACCAGGGAATCCAATAGAGTGAGCACATGAAGAGAYGTCCTTCRAGCCCACACTGGATCCACCTGGAAC
TCCCACCAGGGAGTTCACTGGGAGTGGGGACTTGGCAGCTGCCAGGGAGAATTCTTAGGCAAGTGGTTACTGTTTGATGCTTCACCCTAAAGTTATAAAG
ATGCAACATTTTACAGCTCAACAAGTAAACATTTCCCAAATACTTAAAACATAGATTACCTAGTCACTGGTAAAACACAGCAACTGGCCTTCATCTCCAA
AATATATCTAGAATCTCCGCAGTTCTTGCAACTGCACTACATAAACTTTGTCTAAGCCACCACCATCGTTCACCCAGATGACAATAATTGCCCTAACTTG
TCTCCCATTCTTACAAGGCACCATCCACATCGCGGTGATCCTCTTAAACTGAAGCTCAGATCCCGTCTCTCCCCTGATGAAGCCCTTCAGTGCCTCCCAT
TTCACACTGAAGTAAAACCCAGACCCCCTGCCCTGGCCCAGGAAGCCCCTGGCTGGCCTCGGTGCTGAGCTTCCTCTCCTCTCGCTCCTCTGGCAGTCTC
TCCTCCAACCACACGGCCTTTCTTCCTCAAACTTCTTTCCCATTCAGGAACTGTGCAAACATCATTCCCTCTGCCTTGAATTCCAGTCGATCCTTATTAT
TCACAAATTCCATATTTGTGAGCTCACCCACTCAATAAAATGTATTTGTCACCCCAACATTAATACTCATGGCGCTTTCATGGTTATTCTTGGAGGAGTG
CAGAACAGGGAAAAATTTGAGTTCACCTGACGTGCACATTCACAGTTGAGCTCAAACAAGGCCTTCTTTTGCTTTGCCTTCTTATTTCAGCTCTCATAGT
ACAAATAAGTGCCCTTTTTGTGATCTGTTTAGTGCCGTGATTTTTATTTTTGCACGTTTTGTTCGCAATTTTGCTGTTTGAAATGGCGTTGAGCACAGTG
CGGAAGTGCTGTCCAGCGTCTCTGGGCACAGAAGGCTGCGCCATGCCTTACAGAAGAAACAGGTGTTAGGATAACCTTCCTTCAGGCATGAGTTACAGCT
CTGCTGACCGTGAGTGCAATGTTAGTGATCAACTGTATACGTTAAGGAAGGTGTGTTTAAGCAGAAGTGCACATAAGATAAGGCCGTGTATTGATGAGTT
GACAAAAATGTTGTGACCAGAGGCTTGAGGAAACCTAACCGTGTATTCTTCCCGAGAGCAATGGTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTG
GAGTGCAGTGGTGCAATCTCGGCTCACTTCAACCTCCACCTCCCACGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGC
GCCACCATGCCTGGCTAATTTTGTGTTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGATCTCAAACTCCTGGCCTCAAGTGGTCTGCCCCGC
CTCGGCCTCCCAAATTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCTRCAGTAGTTTTATAGGACATAGCTATGGTGAGTAACAAAGATCAAGTG
TGCTTGCTTGCCTGAACATTCACTACCTGTCTCCCCACACTAAACTGTAAACCCCTTGAGGGCACGGACCATGTTGGTCTTCAAGTGGGCCTGGCAAATA
ATAGGCACTCAATACATGTTTGTTAGTTAACGAATGAATTGCAAATAAATTATTTCCAAAGACAGTTTTTAACCAGGCTGTACTGTACAGGACTGTAGTG
TGTCCTGTTCAGGAGTTAATATTTAATATGTCTTTGCAAAGGATAACAAAGGATTTCCATCAGGGACTGACTTTAATATAAAGAGTGCAAATGAATGCTA
ATTAAATATCTTCACTTAATTATTATTTGATGCACTTCCTTGGTTTGGGCCTCCCCTTTGGGCTTAAAAAGATACAAGAAACTGCTTCTGTTTCTTTACT
TTCTCCCAGTGTCACTGACTAGGCACCGTTGGCTTTGATGAACCTCCCTGAGGCCACCATGGGGAGATGGTGTTGCCTGGTTCCCAGTGCTGAGGCTCTC
AAGACACTGCTTTCTTGGAAAGTTGATGCGGCCAGGAGCATCTGTTTTGTGCTTCCTCCTGGGCAGACAGGGGCTGCTCTTGGAAGTCCATTCTGCTTCT
TGCTAACTCACACAGGCGGTATGAGGAGGATGCTTAGCCCTAACTGATCTTATGATCTAGCCTGGAACACTGAGAGCTGGGTTTGCTAACAAGCCGGGTC
AGTAACCCCAACCTTCTTACTTCAGTCCAGCGTCTTGCCCTGTATTGTCTTCTGTTAGAGCACGGTTGGCAAGTTTCTTCTATAAAGGGCCAGATGATAA
ACAATATAGGTTTTATGGACCACACAATCTGTGTCTCAGCTACTCAACTCGACCATCGTAATCCAAAAGCTGCCACATCTGTGAATAGGCATGGCTGTGT
TCCAATAGAACTGTGTTGACACAGGGAGTCAGAGGGCCAGATTTGGCCCATGGGCCATAGTTTGCCAACCCCCATGGTACACCCCTACCRGCATTATGGT
ATCTTCATTTGTGTGTGTTCTACTCTGTGCTGCGAGCTCTTTAGGGGAAGGCCTGAATCTCATCCAGTGGTTTCCTCTCAACATCTTGTGTAGTGCCTGC
CCCRTGACAAGCCCTCGGCCAATGTTTGCTAAATGCATGACTTATAAGACATGGCCCCCAAAGCACGGGCATTGTGAAACATGCTAACCAGATGAAAGGT
GACCTAAGCCCCAGTGGCAGCCCATTCATCATCATTCTGCCTCCTGTTGCCAATATTCAAAATAGCACCAGTTGTTTTTCTGTCAACAAATCAAAATAAT
ATTCCTGCATTTGTTCAACAAACAGCCACTGAGTGTGGGAGCAGCATCCAGATGTCAGCTGGGATCTGCCTGCCTTTGAGAACTAAATAAATRTGTGATA
AGTTGATAAGTCCTGACTGCATGCCCCGTAGCAGCCCAGAGGCTTCCCAAGATTTCTGCAAATTCCAGAGGATTGGAGAAGGAAGCCTTGACTTTCCAGA
GGTCACATCTGGCTTCAAGCTTCCACTTCTGCAAGCTAGTTCCATTTCTTAGCTGTCTCAATCTCCTGCCTGTGCCAGCCTGTGGCATCCCATGTCGCCC
TTCTCCCCAGTCCTCCCTTGGCACACATATGCACACACACGTGTATGTGCACACGCACATACACACACACTCACTGTCATCAGAATTGGTTGCATGTGAT
CTAACTCACTGAGGATGTTTAGAGGCATGGAAAGGGCAGTTACATCACATCACATCAAACAACTTCAACCTGAGACCCTGGAAAGCCCTCGATTTTCCAT
CCTTCTCAGCATCCCATCCGTCTGTATTTCTCACAAGGCACATCATCCCAGCATGTACCCAGCCTCAGCACATATTGGGACTCTTCTCTCCAATTTCTCC
CTCTCCTCTGCACTTTCTCTTTTTAAACAGCTCCATGGAGATGTGATTGACATGCAAAAGTGCACAAGTTGATGAGTTCTGACATATGTGCACTCCCTTG
ACGCTATCACCGTGATCTAGATCGTGCATGTGTCTAGCATCCTCAGAAACGTCCTGGACTCCTTTGGCATCCTCCTTTCTGCCCCTCCTTTCCTTTACCT
CAGCCCCAGGCAACCACTGATCTGCCTTCTGTCATTGTAGATTAGTGTACATTTTGTAGAGCTTCATATAAATTGAATCATAAAGTATGCCCTCTTTTTT
GTCTGGCTCCTTCTGCTCAGCACAATTATTGTGGGATTCATCCGTGTTGTCACCTGTGTCACCAGTTACACAGAGACAAAGACCTTCTGCAGAAAGATTC
AATTCTATGCAGTCCCCACCTCGAAAGAACTTCAGATTCCCTTTTAACAGACGGAAACATGCCAGAAGACCAAAAGGGCTCTCTGTCTTTAGAAACCCAT
GGTTGTTAAATAGCCATTTTTCTCCCGATTAAAAATAGCTATTTTTCAGTTGCCTCAGCAGCTGCTTAATAAGCACCTACTATGTGCCAGGCACTGTTGT
TAGGGACAGAGTGGGAATCAGGAAAACATGGCCTTCCTCTTGGGGAATSATCAGAGAATGGGCAGGTGAACTGCTAAAAAGTTGCAACAGGTGTACATAT
ATTTCTTTTGTTTACAGGTTTTGGGAATGCAATCCCATATTTCCTTTTTTTACACATTGAAGTACTTTTTTATGAGCAATGCATGCTCGTCACAAAAAAA
TTAACAAACATGGAGCAGCATAAAGAAGTAAATTAAAAATCACCTTTAATCCCACTGCCCAGATATGGCCACCATTATATTTCATTTTGTTAATTCCACA
GGCGAGGAGTAGAGGAATATGTTTTGTTTCATTTTGTGTAATTAAACGGGCCACGGGAACTACTATCAGCTTCCTGGGGAGCTGAGTTGTGTTTATTTTT
TTTAAGAGCTACTAATTTTTGATTAACAAGGATGAATGTAATGTTTAAGAGGAATCTATTTACACCCTCTTCCCCTTCTCAATAAAACAACATTCTTCCC
CACCAAGTGTGGAGTCGAGACTCTGAGGATGTATGGCCCTGAGCTGGRGGATTCTAGGGACATTTTTCATGTCACTACCTAGACAGTCGTGTGAGTGCTC
CAGCAGTGAGGGATCTYGGCTGCAGGTTACATTCCTTGCCGAAGCCAGGGCTGGATGATAATTCACTTTGTCATTACTTAATTCTGTGATGGCTGAAACG
ACTGAGCCAGAATAAAASTCTCAGTCCCTGAAAAGATGAGAGACTCAGTGTCAGGATGTTTAGGAACAGAAAAAGCAAGAGGGCAGCCGAATGGGGCCAT
CGGGTGGCTGCATAAAGAAGTCTGATGATGGATGCAGCGCTCCCAATTCATTTCTTTTCTAAATGACATATTTGTATGTTTCCTTCATCATTTCATTCGG
TCCACACGTATCCATGCGGTGCACTCTGTGTGCCAGTCATAGAGGCCACATCCGGTCGTAGGCCGTACCCCATGCACAGCTGTCCTCTTGGCACAGTTGA
CTGAACATGCTTTYGCYGTGTGGGAGACYGAAGCTATATCTGTTTGAGCTACAACTAAAACCCTGGAGTCTCTGCATGCCTTTGCCAACATCTGGTGGTT
CCCCAAATGTGTCAGGTTCTTCTCTGCCTCTGTGCTAGGGTTTCTACCCTGACCGCCACCCAACAACCCCTGCGCCCTTATCCTCTCTTCTTCCTCAGGA
CGTTACTACGATCCAGCCCCACTTCAGCACCACGGTCAGCACCCACCAATTGCCCAGCACTCCTGCTACTGGGTTGCTAGGTATTTCGCACATCAGCCCT
TCTCTGTGCCTCTGCCCAGTTTGCTTCCTCTGCCCTCTCTCCCTCCAAATAACAGCTGCCTGGCTAATGTCTGCGTATTTGCTGGCAGCAGAGTAACACT
GAGGTTGATGTCCAGCTCTGCCATTGAGGGTTGTGGGACTTTGGGTAAGTTACTTAACCTCTCCAGACCTCATTCTCTCCAGGTGTAAAGGGAGATAATA
CCTAGAGGATTAAATAGGCTAATCTAGCAAAGCTCTTAGCACAGTGTCTGGAACATAGAAAGAACCCAATACATATTAACTATTATTGTAATCTGTCAAG
AATCATCCCAAATATACCTTGTGCTAAGAACCTTTCCTCATCATTTCCTTGGGGTGTAATACAAAAATCTGACRTATTCCAGAGGCTTGGATACCCTCCT
TGGTACTCACTTGGCATAGCTTCCATCACACTGTATTTTGTAATTGCTCATGAGTGTGCTAGTTAGGATAAGTAATAATAGCTTCTGTGATAGATAACCC
CTCAAATCTCAATGGCTTAACACAAAACTACATTGCTCACTCCTATTACAGTCGAACTGCAGATGGTGGGGTGGGATGGCTCTGCTCCATAACGTTCAGA
GATCCTTGGCACCTTCCATTTCATGAGGCTGCCTCTTCAAGGTGTAGCCTCCAGGGTTGCTGTGGAAGGGAAAGAGAGAGCAAGGAGGGTCTTGCAGGGG
GTTTGCAGCCAGGCCCAGAAGTGACATTATCACATCTACCAACTTTGCTCTATCCTAATCTAGCTGCATTAGAAACTGAGAAGTTCAGCCCGCCTGTATG
TTCAAAAAGAAGATAAAATTATCTCTGACCACAGGAGTGCTTCTCATCTCCCCACCAGGCCATGAGATGCTCAAGGTCGGTGGCCATGTGCCTTGGGTCT
CTTATCCAGTGTTAGCTCCCTTCTGCATTCCCTGGTCACCTCCAGAGCTGAGCAGGTGGCACTGTGGGGAGGGGCTTTCCAAGCACAGATGATAGGAGAT
GCAAAGGTACAGAGGGTCTGGGAGAAAACTGGCCGCTTCAGGGAACCACAAGCCACAGCAACATTTGCTTGGGCTGCACACATATTACTGCATAAAAATA
GCTCGTTACCACCTTAGCATAGGATGCATGTGGAGGTGGGGCAGGGATGAGCCAGGGCAGCCCAGGAGAGCAGAGCTTACAGTMCTCTGGGTAGAGGCCA
GCATTTCTGATCCTGTCTGCCTCTGCTATGGAGCCTATGTTTCCTTGGTTCCAATGGCAAGGCTAACAAGAGCGTTCCTCCTTGGGTCATGTATCTCTTT
GAATAGAGCTGCATCCCTAAGCCAAGGAAACATATTGTATTGAGTAGTGCTTTAAAGAACAGGCAAGGAATGGAAATTGGCATAAACTTTCTAAAAGACA
CGCTGCAGTATGTATTAACTTTTTTCCAACAGTCACACTCTTCCATACCCGTAATTTCATTCCTAGGAATATATCTCGAAATAATCAGAAATGGTGTCAA
AAATGTATACACTCAGGAAACAGATTTATGTGCGGAGTTGTACACTGAAGCCTTATTTATGGTAGCAAAAAGTTAGAAAACAGCCCCAGTGTCCAACAAT
AGGAGGCTGGATAAATATATTACAGAGTTGCCATATGATGGAATAATATGCAGTGATTAAAATTTTTGAAGCCAGGAGAAATTGTTTCTGATATAAACTG
AAGTGACAAAAGTGGGACATCCAAGTTGGTAAACGGTACGATTCCAATTATACAAATCACACGTGGAGAAGACTTTGAATAAAATGTCTAAGGATAGGAG
CGGGCTTTCAGGCTCCTGGAATTATTTGGTGATTTTTCATGTTTTCTTCACACTSTCTTGTATTATCAAGTTGTTAATGTTGAACACATACATTACTTTT
ATAAACAGAAAAGTACTTTTTAAGAAACAAGGGGCAAGGARACTAAGAAAACCATCCTTTCTTGGCAGACTCCCTCAGAGGTACTATGTTTCTTTTCTAC
AGTTCTCTCAGGACTCAAATGCTTGCCTAGACCAACAGGCCTCTGACTCCATAATAGGCACGAACTCGCAATTACTCCCTGGTACACAACCTTTTCAGCC
ACCGTAACATCCATTCAACTGCACAAAATATGTCATCTAAAACCTCATCCAGATAACCCTGCACATTGCACTTTTTTATATATGGAGAAATGAAAAAGGC
TTTTTGCTTTGTAAGTTCCATAAAGACATTTCTTGGCATCTAGAAAATGACAAGAACCCTTCAACCCAGACTTCACCTCACACCCATCCCTAACTTTGGT
TACAGTTCAAAAGTGTTCATGGAAGTTTGAAAAGTGGTTTCCCTTTTCACCTGAAGCTGTGATTTCCAGTGTGGTCTGGAGGAGAAAACTGCCTCGAAGG
AAGCTAAGGGATAGAAAGGTGTTTTCAATGTCTTCTCTTAGGTGGGGTTTTCATTCAGTCAGGTTAGGTTGTTAAGGCAAGAGAGATAATGAACAAAAAT
AACAATCTTACCCTCAAAGATACAATAAAATGCACTCATGTTCTCATTTCGATGCCAGAATATGAACACCGAGATGGTTCTCCAACTCCCATGCACCAAG
CCCCTTACAAGCTTAGACTCGGGTCAGGTCCTAGAAAAGAAAGTTTAGGGTGTTTAGGGAAATGTTTGCAGTGTACCCAGTGAGTGGATTTAACCAAATC
TGTATCTCAGAGCAGGCACCACTCCCATATCCCACCAGGAAGCCATTGTGAGATATAGTCTGCCCACAGCCCCGCTGCCACAGGCTCCAATGCCAGGGAA
AGCTGTGTCTCCCCATCAGTGCAATTCTAAGAATTAAGTACTCCTTCCTTGCCAATTACATGGTCACTATCCTTAGAATTGAATTTAAGCTCTGATAGAA
AATTGTTGAAAGCCTTCAGTGCTCATTTTTCACCAAACTGAACTCTATAATGGTACTAYAATAGAAAAAAAAWTTCCAAAGTTCAATTGGAATTTTTTCC
CAGTAACTTAATAATAAGGCTCCAATTTCAGGAAAATAGYTTCAGCATGAGTGAAATCACACTGTTTGTTATGCAGCATCAAAGCTGTCCTCCAACACAG
GGCAGAGGCCAGTGCTCCCTGGAGTTGAACTCCAACAATCATTTAAAAACTTTTGTTTCCAATCATTTAGAAACTTGTAGATTTTTCTGGCAACATCCAA
GAATAAGTTATCTCACTTAGAWGAGTTTTCTGTGAAACTGAAGCTCACCACTTCAAGTGCTRTATCTTTCTATATATTGACTTCAYTTCTAAAACATAGG
TTTCCCCGATTCTTAAATAGAGTATGGGAAAGGAATTTAAGGTCATTTGAGGTAATCATTCTTATAGGTTAATAAGTGAACCAAGACAATGCTTTACCTG
ATTTTGAGTTTTTTCTGTCTTTTATGCTTTCATACAAAATGTCATGCTCTAATCACTAAACCTGACTCCAGAAATCCACCTGGAAAACAAAGTAGACAAC
CAAGCTTTTTGAGAATTTTGACTTTTTTAAAAAAAGAAAAAGAAGCCCGGGCCCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCRGG
CAGATCACGAGGTCAGGAGATKGAGACCATCCTGGCTAACACGGWGAAATCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGATGGTGGGYGC
CTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGRGAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCGT
GGGGGCCAGAGGGAGACTCCGTCTCAAAAGAAAAGAAAAAGAATGATATTAGCAGGAAGAGAGAATTAAGCTTTATTGAGCAACTACTAAGTGCCAGGCA
TTTTTCTGTGCATTTTATCATTTCATCCTTCAAACAACCCTAAAGCTGACCTTACTGTCAAGCATTCACCATTCATTCTACATCTGACTCTCAGGAGAAG
AGGAGGGAATGTTGGGTCAAGTGATCCCCAGGGTTCCTTCAAGCACCAACAATCTCTATGTCTCCCATCCTAACTTAAATTTTATAAAACAAAGGATTTG
TTTAGGTGGGAGAGTAGATAAGTCTGCCCTAGGGCTGGTTGCCTCTTTCAGCCCCCATTCATGCATAACAAATCACACACAAACTTAGTGACTGGAARCA
ACATCGTTTTCGTGTCTCTGTGGTTTTAATGGCTSAGGAATGTGAGCAGGGCACACTGGGAGCAGCCTATCTCTGTGCCTCAATGTCTGAGGCCTTAGCT
GGAATCCCCAAGGCCTGGGAGCTGATGTCATCTGAATGCTTATTCAGTTGTTTATCTGGCAATTGTTGATTGCTGTCAGCCAGAACATCTACTTGTGGCC
TCTCCACGAGGCCTGGGCTCTCTCACAACATGGCGGCCAGGTTCCAAAGGTGAGCATCCCAAAAGCCAGCTTGCAGTGGTTTCTCTTTCGCCTTTTATGA
TCCAGCCTCAGAAATCATACAGTGTCACTTCTATTGCACTCATTCATGAAGGCCGTCATAAACGCTAACCCACACTCTAGGGGACAGGAACTAGACTCCA
CCTGTGAACGAGAGGAGCGTCAGAAATATTAKCATGGCCATTTTTGGAAAATGCTATAGAGCCAAARTCTGCATGAAGAGAGAACAGATTGGGAATCAGA
GGTACYTGAGTTCAGATTCCAGCTYCATTGCTCAYTAGCTCTGTGGCATGGGGAAATCAGTGAACYCTTTACTGCTGWGTTATTTGTAAAATGACTGTGA
TTGCTGACTGATTATGTCAGGCTATACAATCATTTCTTTGGTTGCAAGCCATGGAAACCAAACCTTATGAAGAGAAGAAAACACATATGCAGGCATGTGT
GTGCACACACACACAAGACATAGAGAAGCAAAGAAAAATAGGATGAAGCAAGCTTCAGGAATGCCGGAAAAAGCTGCTTCAGCGATCTAGGTTCCTGGGA
TGAATGGATGATATTTTTAGGCTCTCACGATCAGGACAAATCAGCTCCAAGTATTTTCCATCCTTATGTCTCTCTGAAAACATTGTACGCTCCCAGCATA
TTAAGTCCTGGGTGGCCTGTCTTGAGTCGGACTCACTTCATCCCTTCACTATAGGAGAGAGAGGCACCATAATGGAAAGTCTCAGCAAGGCTACATGAAG
AATGGGGTAAACTCATGGGAAAATGCAGGTGTCCCCACAAAGAAGGAGAAATGGATAAACAGCACATCTACTCTGGACATTTGCAGGACTAAGAAGGATA
CAAGATGGAAAGCAGAATATGGGTGTACTGTTCCCGCTTCCCAATATGCCATGCATGTTCACGCTCCAGAACTTGACTGTCAGTCACTCTTCCTAAAATA
TTTCCCTTCCTGCCTCCACCCATCACAATCCTGTTGGTCTTTCTAGGTCAGTTTCAAATACTGCATGGTCCGTAACACTTTCGGTGAGTAGGAAGTAATC
TCTTTCTCCTTGAATTCCTCCATTCTATTTTATAACTTTCTTAGGCCATTATTACCTCCTTCTTTGTCTTAGCCATTTCCATTTTGCTTTATCCAAAYAT
TTCCAAACACCAGGCACCTTCATCTCCTGTAACCTATCTGCTCTCTGTGTACTGTCATTCACTGAATGCTTTTAAGTTGACTTTAATTTGACTTGTCTTT
CTTTTAACTTAGCAATAATATCTGTGATATGCCAGCTATATTTTTACCATTCACTTTAAAACAAATATTATTGAAATGTTTAAAATAATTGCTGATCCCC
TGTTCTACTACTCTTCCCTATTCTGGCTGAGTTCCTATAAGAYAGAGATCAGCTCTTAGATTCCCCGTGTATCATATCCCTGACATGCYGCACTGTGCTA
TTGATCTGGTGGCCGTTCAATAAAAAGTCATTGAGTGAACAAATAGAAAGCGAGAAAGAGGGAAGGAGAAAGAGTGAGATGAAATAATGAAGTTAAAGTG
AACTGAGTGGGACTCATCTTTGGTGAGAGACCCTAAAGGCAAAAAAAAAAAAAAAAAAAAAAGAGCTGGGAAAGTTGAATTTTGAGGAGAAGGCAAGAAT
ACTTTATTTTCCTTCTACCCTAATGACASCTTCTCTTTGGACTCATCCTCCTGTGAGTTGGCAAGGGGAATGGGGAGCAGCTTAAGCAGCAGCTGCCACC
ATGACCATTATTCCCAAGCAACTTGCCCAGGGCACCAGAAGGCATGAGCTCCATGTTTCCCAGCCAAGGCTCTTCCAGCCAGCAGTGCTGATGGGAAGAA
CAGGCAAGCCAGAGTGCCTTATCAAGTGYAAGACTCACCACCCATAGAGGMTCCACCCAAAGCCACCGGGAGAACCAACACATCCCTGCAGACGACAAAA
GCGTCCTTTTGCTCATGGCCACATGCCTTGCAGCACAAGCTCCTCTCARATRCTTCCCAGGACCTCACCGTAAGGGACAGTCAACCAGAYGTGTGCTTCC
ACATGTTCTTCAAATGTGTTTTTCATTTGCTTGGGTTCAACCTCATTATAATGGCATTAGCCAGAGGAGGTAGCATGGTGGTTCAGGTTTCTGGAAGTGG
GGTTRAGSCAGTCCTTTCACTTTCTTAACTGAAATTCCCCAACRCCCTTGGCTTACTCACCCCTCAGCATGCTTTGTTCTCTTTCTGTCTTTTTCTGTCT
AGGTTCTCTATCATGAGTGTCCTCTTCTCTGAATTCATAGCCTTTGTGGCCTCTCTTCCTGCTAACCATGCTAGGCTAAGTAACGCCCACACCGCCTCCA
CTCCCCAAAGCTGTCCACATCCTAGTCCTTACCTTATACAGTAAAAAGGACTCTGCAGCTATGATTAGATGAAAGGTCTTTAGACGACCTTAGATSATCA
GGATASACCCATTTTCACCATAAAAGTCCTTATAAGAAGGAGGCAGGGCCAAGCGCGGTGGCTCAYGCCTGTAATTCCAGCACTTTGGGAGGCTGAGGTT
GGTGGATCACTTGAGGCCAGGAGTTCAAGACCAGACTGGCCAATGTGGTGAAACCTATCTCTACTAAAAATACAAAAATTAGCTGAGTGTGGTGGCATAC
ACCTGTAGTTTCTGCTACTCAGGAGGCTGAGGCAGGAAAATGGTTTGAACTCAGGAGGCGGAGGTTGTGATGAGCCAAGATCATGCCACTGCCCTCTAGT
CTGGGCAACAGAGCGAGACCCTGTCTCAAAAAATTAAATTAAAAAATAAAAATTAAATTAAAAAATTAAAATGGAGGCAGGAGGGTCAGAGTCAGAGAAG
GAGATGCAATCACAAAAGCAAGTCATTGGAGCCACATAAGGAAGAATCCAGAGGTCAAGGAATGCAGGCATCTCTAGATTCTGGAAAGAGCAAAGAAACA
AATTCTGCCCTGAAGATTCTAAAAGGAACACAGCCCTGCCAACATCTTAATTTTAGACTCTGACTTGTGGGACTATAAGAATAAATCTGASTTGTTTTAA
TCCACTAGGTCTGTGGTCTTTTGCATAGCAGACACAGGAACCTRAGATATTAACCYTCATCTACTTTCTCTTCCARTCYATGAGGGTTCCCCCAGCGGAC
TCCCTCTATAATCAGTACGGTCCATTCAGCATTCATCCATGCACACCCCAAGTTTTCCACTCTAGGGGTGCCGTGTGTGCACCATTTGAGAAACACGGCC
TCTGCACAGGAATTGCATCATAATCATCCTTGCATCCACCATGTTGCCCACATGGGCTTTATACATAGCAAACACCCTGTAAACATGTATTTAATTGCAT
AGAAAGCCAGTATTCCATTGCCATCCACAGTGAGCCTCTTAAAATACATTCTTCATCAGACCCATTTATATTTGTCCAGAGCTAGTCATGCATGATGGTA
GGAGAATGAAATGAATAATTTTATTTTTGCCATCAGGAAGTAAACATTTTATTCATAGACTTTGTCATCCTGTGTAATAGGGTCTGAGTATTCACTCTGC
ATTTTAGAACATCAGACATATGGAAAATCTATTTGATGTGTAGTTCTCAGTTCCTGACCTTATGTCTTTCTCAGTTCATTATTTCCACCTCTCTCTAGTC
ATTGGATTTGTAGAAAGAACAGAGATATTTAAGAAACATTATTCRTTCCTTCAGAGTCTTGGATTTCTCCAAATAGTCCAAAAAATGGCCTATTTTTAGA
TGATTGAATTATACTAGAAAGGTGGTGATCTTGCCCCCAGATGACATTTGTCAGTGTCTAGAACATTTCAGGGGGTGCGAGGGGAATGCCACTGGCATCT
AGGGGGCAGAGGCCCGGGTTGCTGGTAAAGTTCYCACAATGCACTGGACAGCCTCTCTGCAACAAGAATTATCCAACCCCAGATGTCAGGGGGGACAATT
GAAGTTGCCGCTTCTCCACTCTCCCCAATTAGAAGTATCTGCTTAGGTGGAGAAATCCTGGGCTGGAACAACAGGCTGCAACTTGGCCAAATGACCTCTG
ATTAAAAGCAAGAGAGCTGGCTTAAAACCTGTTCAAGGCCATTTCGAAAAACCTGGAGGCTTTCCCTGACTGCAAGCTTGGTCTTGGGCAAAAGTGCCTT
ATGACTGCTAGAAAAGCTAAGAGCATCTCAAAGTTCAAGTGCTGGCATGGAACTTGGGCYATAGCATTGCATGCTGGCCTTCTGCATTCCTCTTGGTGCC
TCTTTTTAAGAGGGATGTTGGCAAATTCAGGTGTGTTCAAGGGAGGCAACCTGGAAAAAAAAAAAAAGAGTGTTGCGGGGAGCTGAAGAAGGAGGACTCT
GGAAGCACAGAAACCCAGATTCCTCCAGCCCTGTTACTGCCACTTAGCAGCCATAAGACCTCGAGAAATTGACTCACCATCTCTAAACCAGAGTTTCCTT
GTCTTGGGAATTAACAGGAAGATTGTAATGAGTTAAAGTTCATGTGTGAAGCGCTTAGCACCGTSACTGCCACCTCTAAGCACTCAATAAACAGGGCTGT
TTATGCTTGTTATTCGGAACGGGAGAGGGCTGCAACTCGGGCACCTGAGGCACAATGGGAAGWGCTGGAGCTGGAAAAGGAATGAGTGATGGACAGACTC
GATCATCGTTGTGTAGCATTTGAAGGAGGCTGTCTCTGGTGGGCTGAACTACGATGAATGTTAGCAAAATTCTACAGGCATACTGGGACTCAACCTGGGG
AAGCCCCGCAGGCTGCTCAGCATGGATCAGTGATCCTCATTCTGGCCACCAGCAGAGGTGCCTTGCTACACGCCACCACCTTGGGGCAGGTGCCACTGGA
CAGTAGCCTGCGTGGACAACTRAAGCTGTCCCTTCTCCACTCTCCCCAGTTAGAAGTATCTGTGACTTCAGATGCAGGGAGATTTTGAAGCTATCCCATT
AGAAAGTCAATAGTCTGCCTACCTCATTCTTTAGCAAGGATGCCCCATAATTAATCAAGTGGGCTGAAGGAATAAAAGCCTCCTGTGCTCATTGCATTCT
GTGAGCAAACAATAGCGGGAAACAAATGCCAGACGGGCTGTGGTAGGCATAACAGATGACATAGTAGGAATTGGTTTATCTTGGCATCTTGGGGGGCTTT
ATCTTAGTGTAATCAGTCAATTAGCAAACTTTCCTAATGGCTGAGAGGCACACTGGCTAGCATGTGTGTGGTTGTTTGTTTGTTTGGTGTTTTGGGGTTT
TTTATTTTTTGGTTTTTTTGTTTTTTGTTTTTTGTTTTGAGAAAGGTCTTACTCTCTTACCCATACTGGAGTATAGTGGCGCAATCTTGACTCACCACAA
CCTCTGCCTTCCAGGCTCAAGCGATTCTCGTGCCTCAGCTTCCCAAGTAGCTGGGATTACGTGTGCATACCACTACCACCTGGCTAATTTTTGTATTTTT
AGTAGAGACGGGATTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTTAAATGATCCACCGCCTTGGCCTCCCAAAGCACTGGGATTACAGGCG
TGAGCCACCACACCCAGCTGGCCAGCATGTTTTTAGGTGCTTAGTAGACATTGCATTCTTTCTCCAGGGTTGCCATAACAAAGTACCATAGACTGAGCAG
CTTAAGTAGCAGAAATTTAATTTCTTACAATTCTGTAGGTTAGAAGTCTGAGATCAAGGTGTTGGCAGAGTTGGTTCCTTCTGAGGCCTCTCTTCTTGGC
TTGTAGATGGCTGTCTTCTCCCTGTGTCCTCACAGAGTCTTCCCTCTCTGTCTGTCTGTGCCCTAATCTCTTCTCATGAGGACACCAGTCATATCTGACT
AGGGCCCACTATAGTGATCTCCTTTTAACTTACCTGTTTAAGACAATCATACTGTGAGGTGCTGGAGATTAGGACATCCACATATATATTTGGGGAAACA
CAATTCAGACCAGAACAGGCACCACTAAAATTTGGCAGCACCTTTTAAAAGGGCCTTGAATGGAAAGGAGAGAACCTGTGGTTTACAATAGCCGCCAGAG
CACTGGGGGCTCTTGCGATCTCATGAGACCAAACTCCAGGTCTAGGCACACCTGGTTTGGGACAGGCCTGCTTYAGCATTGAAAACAGGATCTTTGCCCA
ACAGGAAGGTTGGAGAATGAGGCATGCATCTAAGAAAAAAATGCAAGCAAAATAAAAATTCCCACATATTGCCTTAATTGTCTTTASAGAAGGAAATATC
CCAGGGCAAGAATCATCAGGGCATGCTCTGYGCCCTGCATTTGATTTCATGTTTTCAGGAGCACCCCTCAAGGTCTGGAGAAGCACAGGTGCTGTACCTG
TACAAGCCAGCAAGGCAAAGAGGCCTGGTTGCAAGATGTGAGGCAACATTTTATATTTTACTTATGTTATTCAATTTGTCTACACATCYATCCTTTTCTG
GAAAAAGACCATATTGCCACTTGAGTTTCAGTATTACAGACATTGTTTTCCTCTAAGTGACTAGACTCTCTGTTTAGCTCGCCACACAACATCATATCTG
CCATGTGCTGTCACACACTAATAAAAGCATAGAGGAGTATGTAAAACAGCATTGCTTCTCTAAAAATTCAGCCCTATTAAGTTTGTTGGTACATCACCTG
GATTTTTATTAAAGTAGTAAAAATGTTCCGCAAAGTGACTTTGAAGTAACAGTACGATTMTGAGCCACGTTAAAGAAATGTTAAGGTGGAGAGCTCTGTT
GCTTTCAAATACTAGTATAATTCTGGCCAAATATCCCTGTTTAAAATGATCTGAGCACTTTAGGCCTTTTACTAATGTATGGATTATAGTTCAAGCCAGT
AGCTAGGGAGCTGTGTGTTTGAGCCTCCATCTCTACCACCTAGCAGCAAACAGATCAACCTGGGAAAGGAGCAGCTGCCTGCACTTCATTCACTGAGGAT
TCTTCCAACCCTCTCTCCGTCTAACGGGCTGGGGTCCTTCATGGACGCATTSATAGATGACAGTGTGCCAATCCAGCACACACCAGAAATGGTTACTCCA
CCAGGGAGCTCACCTCATCTTCTGCCATTGGCCTCCCACCCCACATTTTTCCAATGAGGTTCTTTGAGTCYGACTTATTTTTGACAAAGCCACACTGGTT
TGTAATGAGMATTGCATTCTTTTATACAGAGTTGGGGAGGGAGGGAGATTTTGAAGGGGGAAAACACGAACCAAGTAGGTAGATATTTGCATCTCTCAAC
TTTTCTCGTCACCAAAAAAAAAAAAAATTTCCTCTTCAAATTTGTAGGTAAAAAGACGTGTTTCTTTAACTTTACCTCYCACAAATGGTATGTTCATCTA
TCGKCTGGGACTCTTTTAGTTAAAAAGGAAACCTAACTCAAACCAGAATGGGGGTGGGGAAAGTGAATTGATGTATCTCACATAACTGGGAGATCCAAGG
GTGGATGTGGTTTTAACCAGAACTCSATCTGAGGGTTTGTGGGAAATATTCAAATTAGAACAGTTAAGAGCAGACACCAGCCAATCAAAACAGTCCATGC
CAGTGACGTCAGCCCTGCATGTGCCGTCAGGGTGGGGCTATCAGGAATCTCTCTCCCTCTTGACTGCCTTCCTCATTGTCAACATTACTCTCAAAGAGGC
TTTGGTCAGGTTTCAAAAGGCCAGCAGTAGCTCTGGGTCTACAGCTCCCCAGCTCTGCACCCCAGAGAAATGCCTGTCCAGTATTCTCCAAAATTCCTGG
GCTCAYGCTCACTTGTCCAGAGTAGATCTCTAGCCCACCCTATACCCATCGCTGGCCACTGGCCCCATCCAAAACTCTGGGGCAGTGAGTGGAGGGGGGG
CTGCCCTACGCCAAATCAGGTGGTCTTACAGGAAGAAGTGAAAATAGATGCCGCAGAAGCCACAACAATCCCATCCACTGCAAATCACACGATAGTAAAT
GGCACTTTAGACCCCTTCTATAGTTTCCAGAAATGTAGAGAGGATCACRTTGCTTTAGTGTCTTGCCCCAAGTGCTATTAATATCCCTGTCCCTAARAGA
TTGATTTTTATTATCGGTAGAAATACTTAATAGAAATGAAATCTACGCTCTCGGTCATAGATAGCTGGCATAAAAATTAAACAAAACACTGTGAAGCATA
CTTCTGAAGTGACCGCATACCTAGCTATGCTGCCCCAGTGAGCTCAAGTGTGTTTTCATTAGGGCATTTGGTAAGCCTGGGGGAAACTGTTTCTGCCCCA
CAAAGGAATGTTCTGCAAACRTTCAGTAACTAACCATGTGATGCTTTCTACCTCTGTAACTAAAGCTAAAGACTTTTACCTATTGACTTGGATTCTCAGC
TATCAGTAGGAGGGACAGTTTCAAAACATTGTCTATAGAGACTGTAACATATGACTATCACAAGACAGACTCAGGAACTGTTGAATATTCATGAGTTAAA
TGGGCAAAATGTTTGACATCCTGGCATCTTTGGATGTGTTTGTTTTACATTTAGTAGCTTTTCTATAGAAGACAGAAATGGGAAATGCCTTCTTAATCTG
CTTGAAGGAGAGGGTTCTGATGATACTCATCTATCTTCGATGAGAATGGGTCTTTATCTTTAATTCCTAATTAACGGTTTTGCCAACTACCTTTATCTAT
TTCCCTTGTGATTTTAAGAGAAAGGAAAAGTCTTGAGTGTGTTGCCTCTGCCCATCTGTTTCTTTACATCATTTGCGAGCTCAGGTACTTGTTATTTGCT
GAGCAAGGACTTTCCAGCTAGGATTGGATAAAGCAGTAGCTAGGTTCGAGAGTAAGAGTTTTATTGCTATCATTTAGAGTATTTCTTCATTCGTTCATGC
ATGCCTTTGCTCATAAATACCCCCACCTTATTCCACAAAAGATATGAAATGGAGCTTTATTGCTATGAGTTCATGCTGGCATAAATATTAAGCTCTGTGT
AATAATCACTTGGGCTATTCCCGTACATAGTGCAGAGTTACTTATGGCCAACGCAAAGTCTATTTTCCCATCAGAGGTTAACGTTCCCATTTACTTGATC
AGGGTTTGGATAATGCTTCATTCACAGCTGTTTTTCGCTTGCAAGAATCCRTCTACTTTATCCTCACTGACCTTACCCTGGCAGGTGGTGCCAGGATTTC
CTCAGGCAGTTGTTTGTTTTAGCATTTTCGAGTATTTATACTGGCTGCGGTAAGGGAGCCAGGATCCTGGGGCTTGTAAGTACCAGGTCTTGGTAAGTCT
CCTTCCTGGCAGCAGCAGCAGCGTTAGTAAAATGCATTTTCCAATACTATCCTGTGTCTTAAATGGTATTTTTATCCATTAGAGTTGAGTGCAAGCAATA
GAAATTAACTCTGAAGAACGAATGCAAAAACAGTGTCTTTGAGGGCTGTGTGTCGCTGACAGGCAGGCGGGTCCCTCAGGGGAGCCCTGGTGGACAGTCT
GATGCTCGGTGCCAACTGTCAGCCCAGGCCAGGAGTCAGAGTTGGGAGAGATTGTGATGCCTTGGCTTGGGTCAGGGCCCACTTCCTAGCTCGGGGATGG
TCAACCTTGACAACAGCGTGTGACAAGGGTGGAGTCATAGCAATTAGGGTGTTTTTACCAAAGTGAAGGAAGACGAAATGCCTTCCTGGGTGGGGAAAAA
AACAACAGATGTCCACTACCCTCCCCTTTTGCAGTAATTTTCTCTCCATATTTGATGACTATTCTATCAGATATTGTTAAAATCTTTCCCCAGTATATGC
AATTTACCTTTAATGTCATCTTCTTGGTACAGTCTTCCATTTTGCTGAGTTCATTTTGTTTTCCATAAAGCTAGGAAAACTTAGACTTGCCCACTTTTTT
GTTTTAATAGACTTTGTTTTTTAGAGCAGTTGCAGGTTCACAGCAAAATTGAGCAGAAGGTACAGGGAGTTCTCACATGCTTCCTGCCCCCACACATGCA
CAGCCTCCCCCATAATCAATATCCCCCACCAAACTGGGACATTCGTTACAACTAATGAACCTACCTTGACACGTCATGATCACCAGAGGCCATAGTGCAA
ATTAGGGTTCCCTTTTGGTGTTGGAAATCCCGTGGGTTTGGGCAAATGTATAACAGCATGCATCCACCATTGTAATACCATGCAGAGTAGTTTCAGAACT
CTAAATATCCCGTGTGCTCCACCCGTACATCCCTCCTTCCCGCCAACCCTTGCCAGTCATTAATCCCCACTCTGCTGTACCTCTTACTGGCTTTTTTTAT
GTCTTGAGTCACAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAGTCTCAGCTCACTGCAACCTCCACCTCCTGGACTCAAGCAATCCTCCTG
CCTCAGCCTCCRGAGTAGCTGGGACTACAGGCACGTGCCACCACACCCGGTTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCGGGC
TGGTCTCAAATCCCTGACCTCATGATCCGCCCTCCTCAGCCTTCCRAAGTGCTGGGATTATAGGCATGARCCACCGCACCCGCCCTGGCCTCTTTAATGA
TTGTTTACTTGGGTAGGTAAAGTCTTCCAGTCCTTTTCATTCTCTCTAAAATCAGAAACTCTTTGGAAATATCTGAATTTTCAGATCAACATCATTGCCT
GTAAAACTCTTTAAGACCCTCTTTGAAATGGGGTAACAGCCATTAAAAAAATGAGAAGGCCAGACTCAGGCTGGACATGGTGGCTCATACCTGTAATCCC
AGCACTTTGGGAGGCCGAAGCAGGTGGATTAGTTGAGGTCAGGAGTTCAAGACCCGTCTGGCCAACATGTCTGGCCAACATGGTGAARCCCCGTCTCTAC
TAAAAATAMAAAAATTAGCCAGGGGTAGTGGTGCACAYCTGTAGTCCCAGCTACTTRGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGACGGAGG
TTGTAGTGAGCCAAGRTTGCACCACTACCCTCCAGCCTGGATGACAGAGCRAGATACTATCTCCAAAAAAAAAAGAAAAGAAAGTGAGGCAAATGAAGAC
TTGTAGTGATTGCTTTACTATAATCCCCTAATCTCCCCTGACTTCTTCCCCACTTTTTGTATATATTTTCCATCTTCTCCCATTGGGTTCAGTCTGAACT
GAATCTGTCTGAACTGCCTGGTTCACCGCACGTGAAAGTCCCTGTCTCCACTTTCTTCTGTCTCAGGAAACAGGCTCAGGGCAGCTGAGAAACAGGCCCA
GGCCATCCTGCTGAAGGACGACACCATCAGGAAGAAACAGGTAGTGACATGAAATGGGCACCTACTATGAGCCAAGGGCTGACTCTTGGTGTCTATTTCT
TCATTTAATGATCACGGGGACGCTGTGAGCTCCTTTCACCTCTCACTGCCTCAATTTCCTTACCTGTAAGTGGCGACGATAATTCCTTCCTCCAGGACTA
TTGTGAGAGTTTGAGAGCTAGTTTGGAGAAAAAGTAGGCCAATTAACCAGCTCCCCTGCATGCAAAGCTTGTTATTTCTCTGTGACAGAGGCAGCTCTTT
AAAATCTTACCGTGCACGTTCTGCAGGACACCTTTCYCTGGATTTTTCTTTCACGCAAACCCCATTCAGTTCCTACTGTGCTCTGCTTGCCTCTCCTGTT
GTTGAGAGGCTCAGGAAAAACAACTGGAACTAATTCACCACTCTGGCTTGATGAAGTCACTTCCTGCTGCTCTGGGCATTGGCCTCTGGAACAATCAACC
GCTGTCTGGTGGGAATTCTATTAACATGACTGTGACTGTCTTACTTTGGACAGTCTTACTTTGGATTGCCCCCGAAGCAGATGCTGAGACAAGGGTTAGG
GTGAAAATAGTTTAGTTGGSAGAAAATCCCATAAAATACCAGCGGGAGAGCAGGAAGTGGGACAGGAGAGGAACACAGCCCACACACTCTGCATTGTCCA
TCCAGCCACCACTATGCGTACAGGAGCTGAATCCCAGAGGAACACACTCCTGGGCTTATTCCATCCAAGTAATATCGTAGGCTGGGGGAGGTCCCCAAAC
GCCAGTGAGTCCTTGACCCCAGTCATTGTCCAGGCTCTTGACTGTGAGAAGAAATTCAAGAATGAGTCAGAAAATAGTGAAAGTATGGTTTATTGCAAAG
CAAAAAGTATACACTCAAGAAAGGTGAGTGTGAGCGTTTTCAAGAGTGAAGGAATCGCTCTCAAGGGGGATTGGGGTTGCTACCTCTATGGATTTCTTTA
ACCAAGCAGTGGAATGTTCATGAAGATTCCTGGAAAAAGGTGGAGATTTCTCATAACTGAGGTGTCACCCATTTTTGCACCAAATATGGGTGTTCCTGGA
ACCATCGAGGTGCCGGTGGGTGTGTGATATAGTATGTTAACGAGCATATATTGAGGTCCTAGGGAAAACCTAAGTGAAATCCACCACCACGATGGGTCCA
RTTGGTCTTAGCCAGCTTGGCCCACACTCTTGTTTTTTCAGGGTCTTATCAGCCCCTAGCTTCTGCAGCTATTTCAACATTTTCCTTTTGCTAATCATGT
GAAACTACTGCCTGGAATTTTCTATTCTTCTATGACCACCCTGTATTCTTCTTGTCTCATGGGGAGCAAGGGAGCTGAGGTATAAGTACCCCAGTCATTG
GGTGAGGGTTGCTCCTGAGAGAGGTGCTGATTCTCATCGCATTCAGCCTGCTGCATAGATGAGCAAAGGCCTTTGGCTGCTGGTGCAAGTTCTCTGGCAA
AGGAATGCAGGTGCTGACAGGTGCATTTGGCCTGATATGCACTGTAGGGGGATGGCTTCCAGGGCACCCTCAATGCCTCTTAAAATCATTCTCTCCTTAA
AACCAGCYCATTCATCTCTTGGGGGCTTCTGCCTCTCTTTCAGACAAATTATTGCAGAGAGTCCAGTAGCCAAGTAGAATTGCATTGAGCAGGCACATTT
GACAATGACATTTGATTCCAGAACTTGTCAAGCTTTGTTCTCAGAATATGACCAGATCCTAATAATGTCTGTCCACTGTTGAGGGACCACTGCGTACCAG
ACCCTATGTGGGATCTGTGAAGTCTATTACCTCATTCAGTCATCCCAGCAACCCTGTGAGGGATCCCCCACTGTCTCCAATTTCTGCACTAGGAGAGGGC
GACATGGGGAGGTTAYGCCACACTCCACGTCACTCACCCACGGCCCTCTCAGTAAACGGTGGACACAGGATCCGTAGCCTGAATGTCTGTGTCATGGTCA
AGCTCCAGGTCTTTTCCAGCGCCACATTTTCCAGCACAACAACTAGATTAGTAAGTGTTCGCTTATGAGGATGTACTAGGAGCGTAGCTACCGAGCGCTT
CCTGCATACCACGTGCAGTTATACACACCTCACATGTAAGAATTTAAACCCCCACGGTGACGCTAGGAGGTATGCACGGTTACTTCCATTATAAGGTGAG
GAGGCTGTGGCATACCATGTTCTGTGCCATGTCCTCAGATACCATTATACCAGRTGCCATTCCTTAAGCCCCTGAGTACCAATCCCACTCCCTCTCCATC
ACACACAGCCACTATGGAATACACTCACATCAGCGTCAGTTGGCCCCACTCACTGTGGGGCAGAATTTCCCTGGTCTGATGCCTGGCATCTGCCCAGAAG
GCACTGCAGCRTAGGGGACAGTGGGGTCAGACTCCACTGTAGGAATCTACATCTCCCTGCACACACTGTGAGGCCTTGCAAGGGCTACTGCACATCAGCG
AGCCTCCATTTTCCTCATATTCAAGATGGAATCAAGCTTGTCTTCCTGGCGGGTTGGTGAAGATGGCACTAAATGAGAAGGGAACAGGGTAGGCACCAAA
TGGTTGCTGCTGCCGAATTTGGGACCGGGGTGCTGGTGGTCATCTGAGTGCCAGCTCTGCCTGACCTTGATCCAGTACATACGTACACACACACACACAC
GTTCACACACTTGTGCATGTACACATGTGTACATCATGCACATACATGTCCACACATTCACACACCACTCCCACATCTGCACCCACATGCAAGTACTCAT
ACATGCACTCATGCACACACATGCACACACATTCACACATGTGCACTCACACATGCACACACTCTCCAGTAAGCTTTTTGGAGTTCATCAATATTACACC
CAAGTCAGCATTTATTGAGCACCTACTGCATACCAGCATTATGCCAAGCACAAGAGATTAGGGGAAGTTGGGCGTAATGGCTCACGTTCATAATCCTGCT
CTTTGGGAGGCTGAGGCAGGAAGATTCCTTGAGCGTAGGAGTTCGAGGACAGCCTGGGCAACATAGTGAGACCCCGTCTCTGTCTTTAAAAAAAAAAGAC
ACAAGGGGAGCCCAGAAATGAAACAGCCAATGTATCATTTCAGGCAGACCATCTCGTTTTCACAGGAAGCAGCAAAGACAGGGTGCCAGACACCTTTGCC
ACGCTCCACTGGCTTCCATACTCTGAGAAAAGAGGGAATCCGACTCATGAGAGCCAGAAATGAAATTGATGCAATCCCAAACCCAGGGCCAGTCCATCCT
GGAAGGTAAGCCCCATGGGGCCTTGTGACTGCCTCTTCTTTCAAGCAAGGTCCTGTCATAATTTTCTCCCTGGCACAACCTTTATGGAGTGGGTTATAAC
TGTGCCTGAAATGGACTGGCCTCTGGCAGAGCATTCCTCGGTGTGGGAGCCATCAGGCCCTCAGGAACGAGTCTTCCTGCCACCAGGAGGTTTCATGTAT
GCACCTGTATCATCAGTAGTGTGGTGTTTCYGTATCGTCAGAACTCAGCACACCATTTCTGGCCAGCATGGTTGTTTGATGTAGACTGAGAAGTGGGTTC
AGTAATGAGCACCTGGCACACTCAAACTCTGCTAGGGTTGGGTGGCCACACTCCTTTGAGGCTTGACCAATGTCACCTGAAGGTCACCACCAGTAGCCAT
CCAGAACAGTTTAATTGGGGGTTGGCAGTCCATCTGCAGTGACACACTGCCTGTGTCCTCCAAAACTCAGTGGATTGGAGAATTGAGTCACGATGAATCT
TGTAACCCATACCCAGAGCCCTGAAGAACKCAGGTTGTTTGCACGCCCAGCCACAAAGAAGTTGCCTTCTCTTGATCTTTGAAGCAATTAAATGTCATTT
AGAGAGGAGAGGTTTGCTGTTTAAAAATATTTTTTAAAACAGCTTGAGTTTATTCTTGTAAGGCTGCCATTGGGTCTGAGACCCCAGAGGAGCAGTGCRC
TGCCTTGCAGTTACTCCGCAGTGGGCMAGACAGGCATGTTTTGCTCTGGGAAGAGTTGCTGAACACCTGTCTGAGCAAGGGACTCTTTGTGGCTGTCTGG
TCGTTATGTACACCACTTGGTCCTACCTCCAAGTAGCTTGTGGTCTCCTGGGAGCTGTAAGAAATCCAAACCAGCAAACAACATAGTTTTTGTTTCCAGT
GTTAACCACCTGGCGAATGGTCCAGATAGGAATGCTGTAGAAGCTCCAGGGAGGAAGAGACTCCAGGGGCTCAAGTGGTTTAGCAGGGCTAGCAGGACTA
GCAGGACAAGACAGAGTTYGAATGAGATCGTTGCATCTAAGTGGAATAAGGAGAAGCTGATAATGCAAGAAGGTCAACCRTCTCACACACATCTAGGGAC
CGTGGGGAAACCCATTTTGCTAGAGTAGAGAGATTGGATGAGGAAGTACAGGCTGCACCCTGGAGCCAAGCTAAGTAAACTGGACTTCATTCTGAACTGG
GAGTGGAGGGGTCCATGTGCAAAAGAGCACTGTGGGAGGATCCAGGGGACACTGGAGCCCTGGAGCTTGTTAGGAAGCAAGCTACTCATTCCCAGGGAAG
AAAGAGGAGGACTCAGAGTGGGGAGGAGTGTGCCACATGAAAGGTGCCCACAGTATTCAAATCCCAACTTCGCTGCCTGCTAATTATGTGAACCGATGCT
GGCTACACAATCTCTCTGAGCCTTGCTATTCTCATCCCTGAAATGGCAATAGTAATCCCAGCCTCAAACAATGATAGTTAAGATTATATGAAATATCATG
CATGTAGTGCCAGCTACATATGTACAGTGTCCAACCCCACAAAGGGGATCCCTGTTATTCGTAGGGAGATGGTGTAGCAGTGTTGCCCTAGAGCCAATTC
ATAGCAGTTTGCAGGRGCCAGTTGTTACCATCTCTTTGTAGCTGTGCATTCAGTGACATCGTGGGAGTAACTCGAAACTGGCCACAKTGGAAATACTTCT
ATCATGGAATTAGACAAACACTATTAATTCAAGCTTTCCCCACCTCCAGAGAATCAGATGTTAAACATTTGCCAGTGTTCCTCTGGCAAAGAAAAGGAAA
ATAGCCAGAGGTARGTGAAATCAAATGAGAGAAGTCYAACCTTGCAAAACTGAGCCAACTGCACTGATGTATCCTGTTGTCTGTCCCACACCCTCGCAAG
GCTTTTGGTCTTTGTCCAGCAGAGTCACCACGTCTTATTCAGGTTACAGTGCTGAGCTATTTGGAAACCAGGCTGGGGGGGTGGATTTCAATGTCATCTT
ACTAAAAAAGYTCACTAATGAAAAGTGTATTGCTAAGACAGCAGCTTCATATTTCTCCCAGTCTTTATCAGCAGCCATGGATTGAATCGTTGACTTGATT
TTACTACACTGAGGTCCCACTGAGGAAGGCCAAGTTCCTAAATCATGCACCTGACAGGTGCCATATTTCTGAGCACAGAGCTGAGCTGTGACCTTCTAGT
TTCACAGTAACTAGAGCTGGGTGACATGCTTAATAAAGGGAGTACATGGTGCATTTTTAAAATATGGAATGAAGGTGGAATCATGCAGACATGTCAGTCT
GAAACTGGTTACCAGAAGCAAGGTGATCAATCTTCCTGCCTGTCTTAGGATGCTGATGTGAGAAGCACGATGACTTTCACTTGGCAGAAGGATTTGGAAG
TATCTGGGCTTGATAAGCTACCTCATGCCAAGGACCATGCTCTGTATACGAYTTCATCTTTTCACCCACCCTATGAGTGAGGTTTTAGTGTCTCCATTTC
ACATATAGAGAAGTAAAAGCTTGGAAGGTTAGCACCTCTCTCCATGTCCCACAGATACTAAAGGGCTGAGCCAAGATTTGAGTGTGCTTTTGTCTGATTC
GCCTCTGCTTGGCCCTCTGTCTCCAAGCTGCTGCTTAGCTGGAGGCTCCTCAGTGACATCAGCTCACTGTGGCTCCCTCTGCCTGGAATGTTCTCCCTTG
CCCAGGCCTTCATGTGACTGTCTCCTTTTCACTTCAGTCTCACTATCRTCTCCTTTGCAAGGCTTTCCCTGATCACCTTCGCTAAAGAAGCCCTCCTCAA
CTCTGCCCACCTGTCACTGGTCACTCCCTGTACTGTTGCCCAATGGGACGGCTTTCAGAGCACATACCACTCTCTGAAGTTATCGTATTGTGTGTTAACT
AYTTTTATGRTCTCCCTTCCTCTTGTRGAACAGAAGCTCCATGAGAACAGGAATTTCATGCCTTGTTCTCTTTCATATATGCAGAGTAAAGAAGAATGTC
TGACATATAATAGCTACACAATAAATATTGAAAGAATGAGGGGATGGGTGGACAGATGCATAGATCCATGGAAGAATGGATGGATGGATGGATGGATGGA
TAGADGGATGGATACATGAATTGATGGATGCATGGATAGACACATGGATGAGTGATGAATGCCTGGGTGGGTGATGAATGCATGGATGAATGTGGAATGC
ATGGATGGATGATGAATGCATGGGTGCGTGATGAACGCATGGGTGAGTGGTGAATGCGTGGGTGAGTGATGAATGCATGGGTGAGTGTGGAAAGCATGGG
TGGGTGATGAATGTATGGGTGAGTGATGAATGCATGGGTGGGTGATGAATGCATGGGTGGGTGATGAATACATGGGTGAGTGATAAATGCATGGGTGGGT
GATGAATGCATGGGTGGGTGATGAATGCATGGATGAATGTGGAATGCATGGGTGGATGATGAATGCATGGGTGGGTGATTAATGCATGGGTAGGTGATGA
ATGCATGGGTGAGTGATGAATGMATGGATGAGTGTGGAATGCATGGCTGAGTGATGAATGCATGGGTGGGGGATGAATGCATGGGTGGGTGATGAATGCA
TGGGTGAGTGATGAATGCATAGGTGAGTGAGGAATGCATGGGTGGATGATGAATGCATGGGTGGATGATGAATGCATGGATGAGTGTGGAATGCATGGGT
GAGTGATAAATGCATGAGTCGGTGGATGAATGCATGGRTGAATGATGAATGCATGAATGGATGGATACATGGATGGATGAAGTTGTACAAGCTCAAACCA
GCTCAGATTGGAGGAAGCGTCTTACTTGAAGCCCCCTGTGACTATGTTSGGGCTTGTCTCCTACCATCTCACTGAAGGAGCCTATCTCCTAAGCTCTCTC
CTAGACACCTGTATCCTTACTTTCCCCTCCCTTCCCAGCCTGAGCAGTGTCAGCGTCAGGAGCAAGATGATTGATGAAGTGTCAGCAGGGACACAACCAG
CTGGGTGAGCAGGGGCTATATTGTAACCTGCAGCCAGGAGCTGCTCCCTTGAGATGGCCTTTGGGTACAACTCTATATGGCTTCCCAGCCTTTCTTCCAG
CTGCAGGATCATCCTACCCCTGGGACTCCCTTATTGGTGTCCTCATTAGGCCAAYCAATGCAAATTAASCCCTGATTCACAGATAGTGGGGATATACAGT
CACCACGACACATATGGCCTCTGTCATCCAGTTTCACTCAGTCTAGAGAAAGAAAGAGATGAATAAACAGACCCTTTTAGTATAAAAGCTATGATGAAAG
TGACATTTGAGGTGAAAACACTACAATATAACAGCAGCAGAGAGAAAGGCACATCAGTCAAAGTCAAGGAAGGAAGGGACAGCTGGGCTCAGACTTGCAG
GTAGACCAGGRCAAGGATGTTCAGGCAGAGGAAATGGGATAAACAAAGGCATGGTGGCCAAGAGAGCTAGATCCGTTCACTCAACACACAGGCAGGAYTG
CAACGGGTCTTGTGTATCCTGTGGATCTAATCTATCCTTAGGCRTCAGTCTGGGAAACATGAGTTCCGTCTTCTCCACTAATCTGGGAAGGAGGGTCAAG
TGGTACCTCTGTCTCCACCTCCTCCAGGCCTACACAGTTTGTGACTGACATACTGAGCACCAGGTCTGCATCACCCACCTTATCACAYGTGGGCACAGGA
TCTCTGCCGGGGGCAAGCGGTATGATGTGTCCTGGTCACGGTCTGGCTGGTGATTTGGTTACATCCAGACACGGAAGTCGACCTAGAATAACCTAAGACA
AAGGCAGTCGTTTCTCTGGCTGACATTGTCAGAACGTTAAACAACCAAAAACAGCAACAAAGTGATGGGCCAAGCAGGCAAGTTTGGGAACAGCTTTAAT
GACTAATTTCTAATGAGAGTTTCAAAACACTAATTTTCCAGAACAGAGAATCAAGTTGTGCTCATTTATAACCCGTCATCTGCAATGAGACAGAGGATAT
TTCTTTCTGTGTTGTCAGTTAACTTTCTGAGCTGGACAGAATACAAACTAGAAGAGGTGGGCCGTAAATCAGCTCCTTTGGAACTGATAAATGGATATTG
TACAAATCCTGCATTTGCATTGGCTCTGAGGACATAAATCAATTCTCATGATCTTACTTTGGAAAAAAATTTCCCTTTGAAGTCAGASTGAGCGATTTAT
GTAGCATTCTTTCCTGACTTTATTTTTCTCAGCTTTTTAATGATTGTCTTTTCACTTTCTGCACTTACACAACATTGTAAAGTGTTGCATTTTCATRTAG
AGAAAACTGGACCTTGGTCTGAATCTTCCCACAAGGGATAATTTTATAACTTTTTTGCTCAGCCATTGAATAACAATTGCTTTTGGAAAGATTGTCATAA
TGTATCAGTTAGAAGGCACCTTAGAGACCATCATTTCACATGACCTCTGTTTTTYAGATGGGGAAACTGAGGCCCAAGAGTGACAGTCATGTGCTGCAGG
TCACAGGCCAAGTTTGTGACAAGACCRGGGTGTCTGTTCGGGTTTTGGAGAAACAAGGACCCTAGATAGGGTCCATTCATTCRTTCATTTATTTATTTWT
TTGTTCATTCTCCAGACAAATCGTTATCTTGGCCCCTTCTGCTGCAGCCATTGCCACTAAGAAGGCAGGCCCTGCAGGGGAGACTCTGCACGTCTTTTGT
TTGTTGAGTATTTGCTAAACGGGCAAAAAATGGAAGAAAAATCAAAACATCACTGTTGGCTGGGCACGGTGGCTCACGCCTGTAATCCYGGCCCTTTGGG
AGGCCGRGGCGGGCRGATCACGAGGTGAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACMAAAAAAAATTAGCCGA
GCGTGGAGGCGGGCCCCTGTAGTCCCAGCTACTCGCGAGGCTGAGGCAGGGGAATGGCGTGAACCCGGGAGGCGGAGCTTGTAGTGAGCGGAGATGGCRC
CACTGCGCTCCAGCCTGGGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAATCACCGTCCTTTTTTGGCGTTCTGTCAGTCAAGAGTATTCTGAAG
ACTAYCGAGGGAGGAGTGTTTGGTTTGTGCCTTGTTTTGTTCTGTTTTAGCAGCCCTGGAAATCATGGATACCTCCCTTCCTTGAAGTTATCTTTCCCAT
GTATAACAGCTGTATTGATTTATGAGATATAATTCACATACCGTACAATTCACCCATTTAAAATATACAATTCAATGGTTTTTAGTGTAGTCACAGAGTT
GTGCAACCATCACCGCCCTCGATTTTAGAACATTTTCAGCACCCTAAAGAGAAGCCCCATCCCCCTTAACCGTTAACGTGCTTCCTTCTCCCCACTGCTC
TAGTGACCACTAACCAGCTTCCTGTCTCTGTGGGTTTGCCTAGTACGGACATTTCATCGGAATGAAATCAGCTAACATGTGATATCCTTAATGGTTTTGT
AGCAGAAAGACATCTACGTGGGAAGGGACGCTGCTGAGTGTTTAGAGAAMAGACACATTCATCATTTTATTGTATTTTCTCAACTTTAGAACAGTTTTCA
AACATGTGGAAACGTTGGAAGAATTTTATAGCAAGCACCCTTTGCCCCATCACCGAGAYTCTCCCAGCACATCTTCTTCTGCTTGCTTTATTTAGTGCAC
ACCTATCCACCTGTTCCAGAGATCACCACTGCGGCAGTGGGTTCTCAAAGGAGAACCTTCCAACCTTCCCGCATTGAGAAAGAAAAATATCAGTTTTACT
AAATGAAATATCAACATTGGAGATTTTATAAGCCGAGAATGTTAGTACATCAACATTAGAAGCCCTAAAARATAAAATTGCATTCAAAGGCCAAAAAAGT
CTTAGGCTTGCTAGCTCTCCAGGAAAGGCCTGTGTGTTCAGGACAGGAGGACTAAGGACCAAACAGGTTTGGGAATGACAGATCCCTTGACGGAACTGGC
TGACAACTTTGCTCACCAGTCACAGCAGGGCAGCCCAGGGAGTGAACAGGGGCGTTGGCGGGGAGGGCAGCCATTCCCGCCCGCTGCTAATGGGCTCGCT
TCTCAAAGGAGCTTTTGGGATTCAAGGGTTTAAGTATCAAGTTTGACTGATGGATTTGGAGGGAAGAATTGAAAACTGCCTGAGGGAAGGCGCTTTGCTT
TTTCTTTTGTGRGGCAAAAGCTTTTGAAAACTGTGACTGTACAAAGAGCCACAGCTCCTCTGAGGAGTCTGTTATGCGGCAACACATACTCAGATGTGGA
CAGCAGTGAGCACGCTGCCTGGAAAGGGGGAACAGCACCGCGGGCAGGCTTCAGAGYCACACACCACRTCTCTGTCTCAGAGTCTATCCTCGACCACAGG
GTTTAAGTCYTTGATGTGCACACTGGGCCCTGGAGAGAAGGTGCCTGTTCTCACSGGCTGACCCCACAAGCYTGTGAGCCGTAAGCGGTGTGATTCGCTA
ACAGTTGAATGGCACTGGCTATGTGTGTATGTGTATGTGTGTGYGTGTRTGTGTRTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTGAAGATACATTTA
GTTTGAGTCCCTATGAARCGAGGAGAAAAGGTCTTGACRAACAACAGTTCAATAGCTCCTGCCAATATGTGCAATGCAATTCTTTTTAGTGAGTGAATTA
GGCTTGATAAGAACTACATTAAAGCTTCTGTTGGAAGAGGAATTCAAAATGCTCATCTTTGTAATTTACCCACTCAGTCACCAGTGTTTACCAAGTGCCA
ATGGAAGCCTGGAGAGAAGAGAAAGCAAAGATAAATAAGCGTGTCTCTCGGCCTTCAAAGCACTGTGCCCAGCAGGAAGGAAAGCACACAATTACGACAT
GCCGTTTTTATTGTATATATGTTTATATATTAGGTTGGGCCATGTGAAATTGCTGATGTGACGGGTTTTGACGAGAGAAATGGCAACTGTGTGGTTCAAC
CTAATATTTAGATAGTATTGTCTTAGCTCAGGCTGCCATAACCAAATACCACRGACTGGGCAGCTTGAATACAGACATGTATTACTCACAGTTCTGGAGG
CTGGAAGTCCAAGATCRTGGTTCTAGCTGGTTCAGTCTCTGGGGAGGGCTCTCTTTCTGGCTTGCAGACAGCCACCTTCTTGCTGTGTCCTCATGTAGCC
TCATTTCCTTGGGGCATGTACCTGGAGGGTGGGGATTAGGGAGCATACAGGGTCTCCTTTTATAAGGATMCTCATCCTATCRGATCAGAGCTCCATCCTC
ATGACCTCATGTAACCTTAACTTCCTAAGGAGAGGCCCACCTCCAAGTACTGCCACAATGGGGGTTAGAGTTCTATCAACATCCGAATTTGGGGGGAACA
GMAACAAATGTTCAGTTCACAAGTATAAAATGGATATATTATTTATGTGCATATACATCATATACTGTTACATATCATAGATAAGACAWGCATATTATAC
ATATGTGTATGTATATATAGTAAATATACCATCTATAGTAATAAGGTTTCACAAAGAAGAGAAAATGGAAATGTAGAGATATAAAGGAAATCATCTTTGT
ATTACTAGTCTTTTTATTGCCAAAAAAATTTTATTTGCAAAACAAATATAGGCTCATGGTAAAAATTTTAGCAACTGAGATARGCAAAACTAAGAAAGAT
GTAAATCCCACTAGCCAGATACCACTACTCCTAAGACCCAGGTCAGACAGYGAGGCATCACTGTTAAGAGCATGGGCGCTATGGTTGGACAACTCTATCA
CTTACTAGCTGTGTGWCCTGGASCCAGCTACTTAGTCCCTCACCACCTCTGTTTCTTCATCTATATAATGGGTCAGTAATCCCAMCCACATGAAGTTATT
GTTAGACTTAAATAAGCTGACCCATGTAAAGTGCTTGGAAAKTCCCTGGCACAAAGCAAGTGCTCAATAAATATTATCTGTGACTCTATTATTATCATCA
TCATGATCATAATTATTACCGCAACTGCCACTAGCATTCCCTTCCAAGGTATTTTCTCAGCCAGCAGCAGCAAATCKGTTTGGGATTGTATGTCAAGCCC
TGTGAAAAAGAAGGGTTTGGCACACAGGGCTTCATACAAAGAGGGGTTTTGAAGCTGACCTGGCCATTGCCAAGTCATTACCGTGCTTGTGAGAAGGGGG
CAGCGAGCCTGCCACATGTTTGCATGTGGACCCTCACGGTGCTATACACATACCTACCTACTATAAAGATTTACTTCGTATGTGTTGTCATCTTGTCATG
CTGTGTTCATCATGGCTTTTAATGTCTACGTAGCATTCCATTATCACTTTTGATCAACAGTTCCCTGATTKATTTTTTATTTTTCTAYAGTAAACATTGA
AGGAGAAAATATAATTGTYGCTAAAYATTTCAGCCAAATAAGTCTGAGCTATGCATTATTCTAAGGCCCTCTCTCAGATCTTCACAATGCAAATCTGAGT
ATTAAAGGCTCTGAGAATTCTTGCGCAAAGGGGGACCTCATTTGATGTTATTAACCTGGCATTCCCCAGTTTTGGAATGTGCTCCCTATAGCTATTTCTT
TAAGCTAAATAATTAGAGGAAGAATTTCTGGGTCAAAGAATATGTACAGTTCCAAGAGATTTTCATTTGTTTCCCTCTAGAATGTTGTTTTAGGAACTGA
CAAACTTGGAGATACCTCCTTCTGGGCTAAACTGTGACTTTTTAAAATCACAATTCGATGAAAAGTTCAACACACTAAAATATACGGTGGTATTCTTTTA
AAAAATTCATACAATTGAACCGGGTACAAAGRATCACCTGGGTTTTTTGTTTGTTTGTTTTTGTTTTGTTTTYGTTTTTTGGTTTKTGGTTTTTTTGAGC
TTTTAGATTCAGGGGGTCCATGGGCAGGTTTATTACCTGGGTCTATTGCGTGTTGCTGAAGTTTGGGGTATGAGTGATCCCATCACCCAGACAGTGTGCA
TARTACCCGATAGTTTTCAACCCTTACACCCCTTCCATGCTCCCCCTTCTAGTAGTCCCCAATGTCTATTGCTCCCATCTTTGTGTCTGTGTGTACTCAA
TGTTTAGCTCCCACTTAGAACTGAGAACATGCAGTATTTGGTTTTCTGTCCCTGTGCTAATTCRCTTAGGTTAATGGCCTCCAGCTGCATCCATGTTGCT
GCAAAGAACACAATTTCATCCTTTTTCACAGCTGCATAGTATTCCATGGTATACRCRCACTGCATTTTCTTTATCCATTCCACCATTGATGAGCACCTGG
ATTGGTTCCTTGTGCTTGCCATTGTGCATTGTGCTGTGATAAACATACAAGTGCATGTGTCTTTTTGGCAAAACAATTTATCTTCTTTTGGATAAACACC
CAGTAGTAGGATTGCTGAGTCAAATGGTAGTTCTGTTCTAAGTTCTTTGAGAAATCTCCAAACTGCTTTGRACAGGGGCTGAACTGATTTACATTCSCAC
CAACAGTGTRTAAGAGTTCCYTTTTCTCTGTAACCTGRGCAGCATCTGTTATTTTTTTGACTTTTTAATAATAGCTATTCTGACTGGTGTGAGATGGTAT
CTCATTGTGGTTTTGATTTGCATTTCTCTGAGGATTAGTGACGTGGAGCATTTCTTCATATGTTTGTTGACCGCACGTATGTGTTCTTTTGCAAAGTGTC
TGTTCATGTCTTTGACCATTTTGTAATGGGGTAGTTGTTTGCTTGTTGAGTTGTTAAAGTTACTTATAGATTCTGGATATTAGACCTTTGTTGGAAGCAT
AATTTGTGAATATTTCTTTCCATTCTATAGGTTGTCTGTTTATTCTGTTGATAGTTTCTTTGCCAATTTTTGTTTTTGGTGCAATTGCTTTTGGGGACTT
TGTCATAAATTCTTTGCCAAGGTCAATGTGCAGAWTGCTATTTCCTAGGTTTTTTCCAGCTGGATTCTTTTCTCGTCTTCTGGCAAGTCAGTTTAGAAGA
GGTTGATTTATTCAGAAAGTATCCATTTTCTTTTTCTAGACTTCAGACAGGAAAATGTAAAATGAGCAAAATTCTCGTGTATAAACTAGCTCAAAGGTTT
GTGGAAGATTTAAATGCTGCATGACAGGTAGCAGGTAGTCGATAAATGCCAGTTGTGAATATTGCTTTTCAGATTAAATAACAAGGCTGAAAGTAAATGT
TTTGGACAGGCTAGCTATTCTTCATACATCCAACCTAAAGGTAATCATCCTGGTTTATTTATTTATTCAAAAAATATTGAAAAATTCACACTGTGAGCCG
GGTCCTAACTAGCCCTGAGGATAGCAGTGAACRAGACAGTGTGGAGTTTCCATTCTAGTGGGAAGACCGGCAATGAACAAGCCAATGAATGTCTGATCAC
ACAACCGGTGTGATTACAGCTTACAGCTCTTTCCCATGGGAGAGTCAACAGCTTAATGGGATGGAGAGTAACTGGAGAAGGCCACCTTAGATGGGCTGGT
TAGGAGGGAGATGATGTGTGATCTGAAGAGTGATAATGAACCAGCCAAGGGGAGAGGTGAGGGGGAGAAACCAACAGCTAATGCAAAGGCTGGGACGATG
GGAGAGCCTGGCTAGCTTTGGASTGGGGAACAGGGTGAGTTGATGGTGGGAGGTGAGCAGKGATCAGTCCCCAAAGCCACAAAGGTTTTGAAGCCTGAAA
GGGACATGACRTACRTTTTTTAAATCTCACTCTCCTGTTCTGTGAGCAACAGAATAGAGGACCCGGAAACTGTAGTAGGGTTCTGTTTCTACACTAGTGC
TAATGTAGAACCTCCTACATCCAGAAAGATGATAGCAGAGCTGAGCCACATTCTTCCTGGCAACTGATGTTCCCACACGTAGAAACAGCTGGCATCCTCA
TACAGAGGGAGGCTTGCAGGCCCAGGATACATCTCATCCCCCTTGCTAATCTCAGTACTTGACACCCCTGACCTCACCAGGGGCACCAAACCCAACTGCT
TCCTGCAGGGATTCAGCTGCACTTGTCATCACAGAGCCTTGAAATCCCTGGGGATATCAACTCCTTGGAATTCCAGKCTGCTCTTCCACTTGCTTCTGAC
ACATTGACTTTTCTGCCCATTCACTCACCCATCTTTAACCAAGGCCTGTATGGCCAGACATGAGGCCACTCACTGCCTACATGAAGAGGGAAAGACAAAG
TGTATCCCTGGGAGCTCRCTACCTTGTGTGAAAATTACAACATCAGATAGTAAATGCCTTGGTGAAGATACGCATCCCAAGGGCAGGAAGCTCCCCACCT
TGATCACTGCAAACTCCCCAGTCCCTAACAGARTACTGGGAAGATAGAAGGTGGTCAAAGCRTATGTATGGAATGAACACTGGAAATCARTACACAGGGC
TGGGAATGTGTGATTCTGAGCACTCMGTGATGGAAATAACCCTCCAGCTCCTTYACAGAACAGCCAGCAGCATCACCTGTTTTGGTGATGGTGCCTCCGG
ATGATGATCCGTGAGCGCACACTGGACTCGTGCTCCTGGGTGAGCTCTCTCCTTGTGAAACCCAGATGCTTCTGTCTCCCAGGGACCCTGCAGCCCTCCC
GGTAACCTGGCCTCCATCACGAATGCAGTCTCTATAGACGGTTGTCTATTAGGATGCCACTGGAGAGGGAGGTCCCGTCATCACCTAAGCTAAGCACAGC
TGCCTCTAAGTACCTCCTTGCTTGGCAGCYGGCCAGACCACATTCACTGASCTTCAAGTCATAATGCGAGGCTCAGCCATCTATCTCACTGTGGTCCCCG
CTGCAGCTGGCTTCATTTATTGACTTCTTGAAAGTGSCAATATCCATGCTCAGCTTGGTCTGAGCTGGACTCAGAGACCCAGGTGCCAGAGCAAAGGCCA
TGGTGTGTCGGTTAATCACCCAATAAAAATAAACTCTGAGAACAAAYACAGAGGGGTGATTAACTTTCCCATTCTGGTCTTCTGACATCCCRGTTTGCTC
TCCCAGTGAGCSTGTTTCTTTGAGATAAACCACCCTGGGAAACTGATCACCTGTCCAGACACCACCATGCCTTGGCGTAAGTGGACAAAAGTGGAACGTG
ACCTGCAAGCAGCGCAGCCTGAGACTTAGGCAGAGAGCCCCCTGCCCCAGGTTCCATGCTGCTGAGGGCCTTATCAGAAACTCTGAAGCAGAGCACCAGA
CTATTTTATTCTGCTTTTTGCTCTTGTAATAAAGTGTTATTAGTGTTTAGTCACCAGATTAAACCCCAAAGCCTTACCTCCCCTCCTGTGACCATCCATG
TACTCCAAATCATGAACCAAAAAACAGGGACCACCAACAGCCCTTACCAAAAGAAGACTGGAAGCACAAAAAAGCAACTTACCATGAATCAATTTAAAGT
GAAGACCAAAGTGTGACTCAAAACTGAAAAAATATATGTATTTGGTTAAGATGTAATTGTTACCRAAGCACCAGGGGTTTGGTCTGGGTCCTGCTGTTCA
CTGCACAGAAAGCCAATCACTGAGAYAAGACAAAAGCCAGGGAAGAAGGCTTTAATCGGGTGCTGCTGCAGCCAAGGAAATGGGAGGTCAGTCTCAAATC
CATCTCTGAAATGAGGGGTTGATGCACCAGAGAGGAAATGTAACCGTGTTTGGGAAAACATGGATGAAATTGGAAATCATCATTCTCAGTAAACTATCGC
AAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGATGGGAATTGAACAATGAGAACACATGGACACAGGAAAGGGAACATCACACTCTGGGGACT
GTTGTGGGGTGGGGGAAGGGGGGAGGGATAGMATTAGGAGATATACCTAATGCTAAATGACGAGTTAATKGGTGCAGCACACCAGCATGGCACATGTATA
CATATGTAACTAACCTGCACATTGTGCACATGTACCTTAAAACTTAAAGTATAATAATAATAATAATAATAATAATAATAATAATAATAAAAACAGGGAT
TAAAGCRGGGCAAGGAAGAGAAGTTGGTCAGTAGGAAGCAGGTGGTCCTTTAGGCAATCCTGATGGATGAGGGGTCTGGCTCCTCATTATCCAGAGGCAG
TGGTCTGGTAAGTTTCAGCTCCTTGATTTTATCTGGGAGACCTGATGGTTGGCTTCTTGAGAAAGGAACTCAGATAAGACAATTGTAACTTTCTCAAGTT
TTAAAGTCTGGAAGGAACAATTTCTGTGGTTATTCAAAAAAAAAAAAAACATAAGCGTCAGTTCTGTGGGACAATTTGATCACTTTATTTTGGAGAAAAA
AATGATGAAYAGAAGTTTGTTTATAAGTTTAACCCCAATAATAGGCTAGTCTCACAGTGAACACAGATGAACCAAGAATTGCTTTGCTTTTGACATAATT
TTTACAACATCCCACGGCAGTACATGCCAAACTTCACCTTGTGCTCAGCTTATGCCCYGCATTTATAAAGAGATTGTCTTTCCTAACCATTCGAGGGYTT
TGTCCATTTCCCAAAGGACCTCTCCCCAGTCCTTTGCCAGTCAAATCACTCTTTCGAAGCAGTTGTAAATCCACTGTCCTTTCTCTTCTTCAATCATTGA
TTCCCTTCTCTCCATTGCGTTTTCACTTGTCATGGATTTACTTATGATTCCTTTTTTTCTTCTTGTATTGCTTTACTTGTAATTAGCAAATAATAATTGT
ATATATTTATGAGGCATAATGTGATGGTTTGGTCTTTGTATACATAGAAACTTTGATCAACATCTCCCCCTTCTTCAGCCCTCTCCCTGCTGCCATGAAT
TTGACTCTTTTAGATTCCACAGATACATGAAATAATAAAGTATGTGTCTTTCTGGGCTTGGCTTATTTCACTTAGCGTAATTCTTATACTCTGAGTATCC
TCGTAGAACCCTACATCTTTTGTGAGATTGACAGTCATACTTTGTGCTGGACTGGTGCATCTTTGGGATGGTTTTGTCACTGGGCGATAACTCATGAGGT
CTGCTGACCAGGTAGATACCAGGAGTAAGCAGGATATTTGGCTGCAAGAGAGAATTATAGGCCTGGTCGGGAGTTCATTCAGGATGTTGTAAATGGAATA
CTGGGGTGATGAGCAGTCCTTGTGGGTCTTGTTCATATTTGTATATATTCAGGCCTAGGAATGCAGGGAAAAAAGGGATAAAACACACTGAATGAAAAGA
GTGTGAACAAATGGATGAAGAGCCTCACACCAAGKAAAGCTTACGTTGCTACCAACTGGTACCAAACTCCAAGTCGTCCTGTTCTTTTCCAAGCGCCATT
TCTRCTGCTTAGAAAAAGCCACCCAATCTGGATACATGGATGTAGCAAATTTAACCYTAGACCTAGATTACCTATAGGATCAGACTTGATCAGTCATTAA
TAATGATAATGAAAATTAATCATGAAAGCTRTCTTGTGGTTGCACCTTAAAGCATCTGTGTAATGCTTTTACCCATACTAAGAGTGTTCAATCCCTGTTT
TCACCTAGGATTGATAAGTGTRTTTCTGGATTTCAGAAATCGGATAGCTTCTGAAGTCTCAGCCTGTTAATATGGTAACTAAATATGTTAAGGTCCTAGT
CTCTCAATGTTTAATTACTGTTTAATTTTTTATTTCCTAATTTACTCAATGTGTATGATATTGTTAAATTTGTGGCTTTATACCCTGAATCTCTTTGTCT
GTATTTCTCTGTATTGCTTGGCAGTCAATTTGGTCAAAAGCAACAACGAAATGACCCTTACGAAGTGTCAAATGTCCCTTTATRTGAGATATAAATGTCT
TTGCAAAGACACTTATAAAGTTGTGAAGACGTTGTTTCCTTACTCTAATAGCTGCTGTATTCACGTAGGTTTCAAAAATGGGGTGGGGGAGGGCAGTGGC
AGTGAGCGCCTAGCGGAAACTATGTCAATCACCCCTGGAAATAAATCTGCAAAATGGACTAGCAAGCCCTGACTAGGAAGAGCCCGGCCACAGCAAAATC
TTATTGCAGGCACAAAAAGGTCCTATTGCAGCAGTTGGGAGACCTTTGGTAAATTCTAACAAAGAATTAATGGCCTCGAACAAGACGCCCGGTATGACCT
TTGCCAGAAGAAACTAGGAGCAGACTTGCTTGCCTGGAACAGGTGGTGAGGAGGTTTTCAGAGAAGATGTGTGCAGTCCCTGGCAAGTAGCTGGTGCCCA
GGAAATGTCAGTTCCATTGTTTGCCAGGGAAGGCTCGGTGCAYGTGGGGCTCACACACAAAGGAAGAGGTTAGAGAGTCCGCAGAAAAGGGTGGGAGCTC
AAAACAGTGGTTCTTAGGCGTTTGTCTGCAGGCACGCTGGTAATTCATGCTGACCATGCCCACAATCAGTGGCACCTAGCTGTGGCCCCACCCCTTTCCT
GCCCACTATTGAAAGTGACTACATGGCAAAGAGCGCCTATTTCCTAGACTAAATCATTCTCAGACTTAAGTTATTAGTGAGCGYTGTTAGACTCAAGTTC
CTTGATATCTACATCACAACTGAGTAGTTTATCTCAGTGGTAAGTCTCGAAGTTTGACTTCGAAGTTACTAAGAGCCTTCCAATAAAAGAACAGTTTAAG
CCAATATTGTTTCACCATTGATAGTGATGAAGATATTAAATTCACACACATGTGCTGTGTGATTTTAAACCTTTCTCAAATGTGTATGATTTTTATAAGC
AGAAATATAATTTTAAGAAAGCTTTATATCTATGTAATAGGGTTCTTTTTTTTTTGGGAAATATTGCCATCCTGTAAATTCCAGTCCTATGTTCCTGAGT
TATTCCCCACTAAGGAAAGCCCAGCTGTGGGACATAGACCTGGTTTCCACCTCAGAGTTTAAATCATTATTCTCAGAATGGTGGTTCTCAAACTTTGGTG
AATCAGAGCCACCTGGAAAACATGTTAAAAATGGAAAGGTCCCATCATATCATCAACAGCCCTGATCATTCTGATACACWCCCAAATTGGAGAACCAGTG
GCACAAACAAATGCCCAACCCTCGTGGGCTATTCACAAGGCAAACAAAAATCAAGCTATGCTTGGGAGGCAGAGATCCACATTGGAACCACACTTCTGCT
GCTGGAAAGCTGCATGACTCAGGCAASCTCCTAGACCACTCTGAGTCTTTGTTTTCTCATGTGTAAAATAAGGTGGTAATATCTACCTCCCAGGTTGATG
AGGCAATGGCAGACAGTAATGTATATGAATACATACATCGTACGCCACCTCCTCAGTGATCAATGAATGTGCGCTTCCAGTTGTAGACACAACAGCAGAA
AGTTAATGCTGAAAAATAGGAAAACACTCACAATGCATGATTTACGATGTGAGGGAGCCTGCTGGCATGGCCCTTGTCACGAGAGTAATTAAATAACCAT
TTGTGTAATTACTAATTTATATCCTGTCTCCCTGCTGGAGTGTAAGTTCCAAAAACTGGAGGGAATACACTGCTGTCTTCCCAACACCAAGCKCGGTGCC
TGGCATGAAACAGACACCCAGCAAATGTTTATTCCAAATGAGCGAGTGAACAGTACGTCACATTAAAAACGTGYGTGTTTATGTATACATCGATACATAG
GCTGGAAGCCTCTAGGCAAAAATGTTAATAGTGCTTATCTCTGGAAGTGGATTAGGGTGATTTTAATTTTTTTCTTTTTTCTCCTCCGTATTGTCTGAAT
TTTCTGCAATTAACACAGAGGACCAAACTAGCATTTCCTTGGGTAAATGCGAGTGGAGTTGGAGCCACCCCCTACCACTGTGCCTACAAGAGCATGTTTT
CTTGTGATTCCAGCTTCCTTGGGGGTTTCAATATGTAGTCTCTAGAATTAAAAGGGTTTTGGGCCAGGTGTGGTGGCTCAAGCCTGTAATCCCAGCACTT
TGGGAGGCCAAGGCAGGTGGATCACAAGGTCAGGAGTCTGAGACCAGCCTGGCCAACATAGTGAAACCCCATCACTACTAAACATACAAAAATTAGCCGG
GCATGGTTGCACATGCCTGTAATCTCAGCTACTTGGGAGCCTAAGGCAGGAGAATYGCTTGAACCCAGGAGGCGGAGGTTGCGGTGAGCCCAGATTGCAC
CACTGCACTCCAGCCTTGGCAACAAAGGGAGACTCCGTCTGAAAACAAAAAGKGGGGGTTTAGGAGAAATAGGAATTTAGTGATTTCTAAAGATAAGTAG
AATTTGTTCTTATTCACCATTTCCTTGTCCTGATCATGGACTATGCAAAAAAGAGCTCACACAACAGGCCTGAGACTGCTGTTCCTAGAAAGACCTGCCT
ACAAGGTTGGCCTCAGCTGGTATGTAGAATCTTGGATGTGGGGAGGGCTCCCACTCTCTTAGCTGATAAGAGTGACTCACTGCACCTAAACTGCTTGCGC
GAACAAATGTGGTTTATGCTGAATATCTGTTTTCCYYCTGGGAGTCAAGAATTTTGCTAATGCCATGTGGAGGGTGTCTACGTGACCAGCCCCCCAAAAA
AAACCCTGAATGTTGAGTCTTCGGTGAGCTTCCCTGATGGAGAACATTTCACATATGTTGTCACAACTTGCTCCTGGAATTAAGCACGTCCGGTGTGACC
CCACTGGGAGCAGACTCCTGCAAGCTGGTACCTGGTTTCCCCAGGATGTTGCCCCATGTGCCTTTTTTCTGTGCTGTTTTCCCTGCGTATTTTCCCTGTG
ATAAGTTTTAACCATTGAATATGACAATRTGCTGTGTTCTGTGGGCCTTCCTGGCAAATCACTGAACCTGGGAGTGGTCTTCGGGACCCCCAGCACACAA
ACCCACCTAACTAAGCCCCCTTTGACAGCATGTATCAGATCCAAGGCAACTAAAGGGATGGGAATGTCTGGAGCAGCATAGAAGTGGGAGTTTGGCTGGG
ACAAGAGAGACAGGTGGCTCTTTTGAGAGACCTGCCTATGGGGGAKGGATGAATGAGCACTTTAGAATTCTGGGTCACCCAGCACATGGGTCAACCAATG
CATGTTAAAGAAGGTTTCTACTCTCATTCATTCCCTCATGCATGCATTCAACAACTGAGTACCTACCCACTCAGTGTGTGCGGGCCACTCTTCTAGATTC
TATGTATGAAGGGTTAAGTAAGATAGATGAGGTCACTGCCCCTTGGAGCTCACATTCTAAGTTGTAGAGCTGGCCAGGGAAGGAGGCAGACTTCAGAGAG
ACCATCCRGAGTGGCTTCTCTAGGGAACACAGAGGCCTTGGTGTTGGAGCTGAGATCCTACAAAGCACAAGACACACATGAGAAAATCTAAGACTTATCC
GATGAGGCAAGTAGAAATGTGTTGAGACCAGAAATAATTTACTAATTTCAAGGAATGAAAGGAAGGCCAGCGAGTCTGTAACTTAGGGAGGCTGAGGAAA
GAGGTAGAAAATGCAGGTAGAAAGTCAGGCAGGTCCAGATGGATCCTCTAGGACCTTAGAGACCATGGTTAAGAGTTTGGATTTTATTCTATACMCCATG
GGAAGTCATTGGTGGGTTTTAAGYCGGGGATTCACACTCTGTGATTTAACACTGGCTGCTCTTTGGAGAATGGACTGTAGCAAGCAGAAGAGAAGCAAAG
AATCAGGTGCATTGCAGTGGTCTACACAAAAGACGATCCCTAGTYRTCTTACCACCTRCCTCCTACAATAACCAAAGAAAGTGGACCCACACCACAGCTA
CCTCGGTCCACTGCATGTGTGGAAGGTGATGATTCTCTTGGGCATGATATATATTACTTGTTGTCATGGTAGGGATCAGAATGTCTGTAAAAAGCAAAGT
TTTGGTCCATGTGCCATCAGAAGATGCCAGCTGCCATATGCCAGTCAGAATTGTCATGTGCTAGAGCCTCATGCAGATGTCCACAGGATTTCACCAGGAG
CTCTGGGATGCCTGGGAAGGGGATCCAGGGAAGGGACTGGAGATGTCAAGAGCTCCTGCCCTGTTCTCAGCTGTTATGGAGTCACAGAAGGTCATRCCTA
CATGAAAGGCAAGGCAAGAAGTATCCCATCCTCCCAACCCCAAGAGGCCCTGCCCAGGCCACTCACTGGACAACTCTTCTTGTCCACATCTGCTGGTTGT
GGCACCCCATCCCTGGGAAATTTGCTAATTTCAAGGAATTAAAGAAAGGCCAGTGAGTCTGTAACTTCGGAAGGCTGAGGAAAGAGATAGAAAATGCAGG
TAGAAAGTCAGGCAGGTCCAGATGGATCCTCTAGGGCCCTAGAGACCATGGCAGTCCTTTCTGTTTACTGAGACTGCTTTCTTTGGCTCTGGTTTCCTGG
GACAGGAAGAGAACAGTACCCTGGACTGTGATGGGCTGTGACTGTCTAACTAATCTAGGATTCTGGAATTCACTAGCCATTCAATTTTATCCATACATTT
TGTCAGAAGATTTGAAATATGCCCTTTACTTTACACTCAGGGCCATAGCTACATGAGCTATTTTAAGATAGTGTATTTCCTTCAATTGGGAGTTCTGTCT
CTTTCTGGTTCTGCTTTTAATAATAAATACGGGGTCCAGTGGACTGAAATTAAATAGGGTGTGAAGAATTCCCCTACTGTTTCCCTTCTTTCCTACAGTT
TTACAGGGTTGTTTGTATCCTTCAGCAGGAATATAAAAATACCCTGTATCTCCTCTCCTTTCGTAGTTTTTATTTTCTACGTTTCTCATAGTCTTTCCTA
TCCTACTATATATRTGTGTGTGTGTATATATATATATATATGTGTGTGTGTGTGKATATATATGTGTGTATATATATGCCATATATAGAGATAGATCCAT
CTTCCATCTATTACTATATCTATAATCTCCCTATATATAAATTTGATACGTATATAATCTGTGCCATGTCTAGTGCTCTGCTATATTGCATTGATCCATT
TGGCTATWGTGCACTAATTGCCCAATATTACTTTATGACATTTTTAAGTCTAAACTGAAAGGAAAGCTATGCTCAGTCATGTAATGYTGGCAACCATGCT
GCGCAAACATGGGTCCCCTACATCAGGGGTCCCCAACYCCTGGGCCACGGACGGCCCCAACCCCTRGGCCACAACATCAGATTGTTATTGGAGCACAAAT
CCTATTGTGAACTGCACACACAAGGGATCTASGCGGCACACTCCTTATGAGAATCTAATGCCTGAACTGAGGAGGAACAGTTTCATCTCCAAGCCATCCC
CCACMTGTTCATGGAAAAATTGTCTTCCACGAAACCAGTCCATGGTGCCAAAGAGGTTGGGGACTGCTGCCCTACCTCACAGAAAGCGAGTGACCCCAAG
AAGCCTGCAGRAGGGACTTGTCAAACCTTTGATCTCTTTCACCTTCCCACCAATACTTGAGCCCCTGAGGGCAGARGCTGGCAGCCCTTGGCTCTGGAAG
TCCTTCCAGGTCAACAGCTGGCCCTGGCCACTTGCCTGGAAGCTTTCTTCCCTGCTCYGAGGGGGCCCTGCTGAGAGTGAGCCCSCCTTCCAGGGTGGCG
CAGGCCCCAGTAACCCCCACTGCGCTGCCTGCGACTCGAATTCTGTTAATCAGTTTGCCTTGCGTCTCCCAACACCGACACCCAGAAGAGGCCGAGGCTT
GGCAAGCACTCAGAGCAGCTTCTGTGAAGCTACATTACAGGCTGAAATGAGCTCAGCTTTTAATTTGATTTTTTTTTTCCTGTAACAAGCAAAGTTCACA
TTACAGATAAATTGCCCGGAAATTCCAATTTAATAAGGCGTATGCATTTTTCAGGCCTAGAAGCATTGAAAACATCTTGCACGCTAGTATTTTTACACTG
AAAGGTTTATTAAAAAGACAGCTTTGAAAATGTCAGAAATTTACATAGCGCGCCTGGCCGATTGGTCAAAAAGCCTGATTGGACAAAAGCGCACGGAAGC
CAGGAAGCGGGAGAGCAGGCTGTTCCGTGGTCTTGAGCTGTTCTCCCTCCACATCGGGAACGATGGCTCCACCGTTCATTGTCTCCACCCAGCTCTTAGT
TCATGTTACATGGGTGCTCAGCAAATGAGTGTCCGTCTGTCCTCCTCTGTCTGCAGGTGTGKTTCTGAGTAGGAGCAGCAAGCTGTCCTTCCAGGGCATC
TGTGGGGCAGGCATACCTCCTTGAGGTCTCCCATGGGAGGAGGCACCAAACAAAATAAGCAAACTGGCCAGGTGCRGTGGCTCATGCCTGTAATCCCAGC
ACTTTGGGAGGCCAAAGCAGGTGGATCGCTTGAGGTCAGGAGTTCGAGACYAGCCTGGCCAACWTGGTGAAACCCYGCTCTACTAAAAATAGAAAATTTA
GCCAGGCATGGTGGCAGGTGCCTATAATTCCAGATATTTGGGAGGCTGAGGCAGGAGAATTATTTGAACCCAGGAGGCAGAGGTTGCAGTGGGCTGAGAT
CGCTGCCACTGCACTCCAGCCTGGGCRACAGARCAAGACTCCGTCTCAAAAAATAAAATAAAATAAGCAAACAGAGGGGAGCAGAAAGAGTCCTGTGAAA
ACTCAGTTAAATAGCACAGCTCTGGATACTTGATTATTTTTTTAAGGAGGAAAAAGAGTGASACATTGTCCTGTAAAATCAYCCAAACCCTGGCTTTCCC
TGGAAATGTGGCGCAGGCAGGCCTAACCGTGCTGAGTATTGTTTCTGAGGACTGCCTCCGAGTTCATGTCTCTAAGCATTTTATTGAATACAACTGCTTC
TTTGACAAGAAACAAGCAAACATGCTAATTGTACAACAAAATTATGGCATCATGGGACAAAAAAGGAATGACAGAGGGAGCATCAAAGAGCATTGCTTGT
ACGCCAAACATGAAAGCCAAATTTATTTAATTCAGTTTTTATTTATCTTCTAAACTGAGTTGAGTAATCAGGCAATAGAATGCGGTTCATTTAAAACTTT
CATTATTTCAAATATGTTGAACCACTACCAATCACTCCTGGATCAACAGGAAACTTGCTACCTGATGAGTTGCCTTTTTTCTTTTTTCTTTTTTTTTTTT
TTTTTTTTTTTYTTTGCTTTTTCCATCCCCATGATTGTTCCAACAGAAGGAGAAAAGATGTRATAAACCTTTACCGGGCACCGTCTGCGTCCAGRCACTC
TACTCGGCCCTGGGGGTGCAGAGCACACCACCCCAGCCTTAGGCATGAAAAACACTGTGTACCGAGAAGCCCAGCCCCTGGAATCCAGCATGCTGGTGCT
ACATTCCAGCTCTGTCTCTTATTAACTGGGCCGCTTTTGAYAAGTTGCTAAGCCTCTCTGATTCTTGGTTACCTCAACCTTAAAACAAGGATGATACCCA
CTTCATCAGGTTGTCATGAGTCACAAAAATAAATGTAGTGATGYTCTTAAAGGGTTTAGCACCAAGCTGGGCCCAAGGAAGCATTCTGTGTGTCTRTTGA
CCAACTTTTACCTAYCCTGACACCAAGGAGCTTAGAGTTTAGTGGAGATGGCAGAGCCGTCAGGGCCCGTGTTAGGCTCCCAAAGGCATTTTTACCAGTG
CATGTGCCTCGCACAGACCTAGTGAGGTGATTAATTCTACTGGGAAAGTCACACTGGATGAACGAGAGGAGACGTAYGAGTGGGGTCTTGAAACAGTAAA
AATTTGCCAGGTGGAAGCATAAATGACTCTTTAAATGAAAGCCTGGTGTTTTTAAAGCAGTTCATTCTCATGAGTAATTCATCGCTTCTGTTTTCACAAA
ATAGTGAAAGGATCATTGCAGCAGCAAGGGCATGTGGAAGCCCTGCGTTCGCCTCATCCGTTCTCCCCATCTGTCCCCTGTCACAGTTGCAGCATMAAAA
CATTGTTCCCCTAGGCTCTGCTGAGTCGGATGTTTCTGAAACATTCCAGGGGACCGTGTGAGTCACATCAGGGAGGACACACAGGGCCATGACCCCAGTG
AGCCATTAACACACCCATAGCCTGACTCTGCAACGGCTSCCCCGAGGGCGCCCCGCACAAGACCAAGCCCTTTGTGTCAGCTTCAGTTTGCCCTCACAGC
TACCCCAGAACACCACTGGGACTGTCCCCRAGTCACAGAGGAGGAAGTAGAAACACAGAGAAGTAGCTTGCCAGGCTCACTGTTAGAACCCAGGTCCTTT
CCTCTCCAGAGTCCATGACTCTAACACTCATGTGATGCTGGCAATGTGAACGGCTGGGGGGAAGCAGCAGAGGGTGACAGCAGGCCTTGGCACCAGAGAT
CCAGCCTGCGAATCCCAACCATGCCCCATATTAGCCAATGATCTTGGCAAAGTTCACATAWCTCTAGGCCTCTCAGTTCCTCATCTGTAAAAGGGGAGGA
ATAATATTATCAACCTCCCAGGGCTGGTGTGAGGGCTGAAGGCATAGATGCTGGAAGCTCCTGGAGCGGTGTCCAGCCGGCGCAATGTAAGGCTCGATGC
TGCTGCAGCTGTRTTACTATTAATATTAAAGGGAGGCTGCACCCCGAGGCTGTTTTAGGAAAGAACAGGCCAGACGCCTTCCAGGAAGCATCAGCAGGAG
CCTCTCCTGGCGTCCTTCTGCAGTTTGGGGGTCTGGTACATCCACTTTGCAGGACAAAAACTTGATTTGATTCTCAGGTCAGTTCACATGACCCCAACAC
AAAAAGGATTGATACCAACCCAGACCGCCTCTGTGTGAATTAAATTTACAACAGCGCTGTATCAGAGCATCTGTCAATGCTGACTGGAAGCCCAAAGACC
TCCAGATGRTTGGTTCTGAGACTCCAGGAGAGGCTGGGAACACTCGGAGGGGCTCTGGATGGTGGCCAGGCGAGGGTGGTAGGTGAATTGCTGTCTGTCC
TGGGTCGCCATGAGGCTTGTGGTGACTGCATAGATGCCCATTCCCTTTGTCAGCCAGMAATTTCTTATTCCCTGGCTCCCCTTCTCAACAACCCAAGTTG
ACCATCCCTTCTTCAGTGACCACAGCCTCCCCCAGGTAACAATCCCATTGCAGCCCCCAAGATGACCTTTAAGTCATGGACAAGGGCAGTTCTTCTTCTC
CTTGGCCACACAGGAGGCATCCCTCTGGCTTCCACCTACATCTGAATAATCCCACCCACCACACTTCGATTCAACTTAACTCTATCCTCAGAGGCCACCT
TTTCTCAGAATTCGTATCTTCTTCGAAGTAAGATCCTTCAGGTGAAACATACCTGCTGACCACCCACCCTGAGTCACTAAGTTAGCTGGGAAGCAGCAGT
TTTGAGTGTGGGTTCAGGGTCGCAGCTCCAAGGTCAGACCACCTGGGCCCACGTCCTGACTCTACGATTTGCGTAGCTGTTGSTTTGTGCCTCAGAGTCC
TCATCTGTAAGTGGGGATAYTATACCTACTATAATAAATTAGTAAWGCCACGGTAACAAAGTATTGCAAACATGGAGGCTAGAAATTTATTCTCCCACAG
TTCTGGAGGACAGAAGTCCAAAATCAGTCTAACTGAGTCAAAACCAAGACGTTGGCAGGGCCACGTTCCATCTAGAGGTCTAGGGGAGGGTCCTTCCTGC
CACTCCCCACTTCTGGTGGCTGCAGCATTCCTTGGTTTGTGGCCACATCACTCCAATCTCTGCCTCCACGGTCGTGTGGTCTTCTCCTTTTCTGTGTCTC
AAATCTCCTCTGCCTCCCCCTGAGGACACTTCTGATTGCATTTAGCAAACCACAAACAACCCCAAGATAACTCAAAATAATCTCATCTCAAAGACCTTAA
CTCAGCTCTGCAAAGTCTTTGCTCTATGAAGTAACATTCCCAAGTTCCAGGATTAGGAGGTAGATATCTTTTTCCCGTGAAGACTCGGGGTTAACTTGCT
CCAAGCSCTTCAGTTGGAGATTTTCAATCCTGTTGGTTAAATCAGGTTTTAAACATCCTTAGACCCAAATCTGGCCATACAAGGCAGAGAAAATCAACTT
CATGCATCTTTACCAGTGTAAAGATTCCCATGTCACTTCATGGGGATGTACTTCAAAGATGGGTAGGAAATGGCAGCAAAGTGCCAACAGCATCTTTCTG
GCTTAGGTCTGCAAGTGGCACATTATCCAAGCCACCCAATTCAAAGAAAGCTGAGTCATGCCCAGTTGAGTCTCCCTGATAGATAAGACTATTATTTCTT
ACTCTATGCATCTATATTGTTTAAATCTCAAAAGAGCAACCTCAAAACAAGTAACATTTTAAAATCTTGGATGGTTTCCCATTATCCAAAGTCAAAACCC
CTTAAAACAGTAGTTCAGGTTCTCTATAATATTGTCTAATCTGTTTCTCAAAACTCATTAACTTTTAGTTCCCTTAAAGAAACTGTTTCAAACACAACCC
TCTACTTTCTAGTCCCTAAATATCTGTATATTCAACAAATATTTAGTGTCGCATATGGGCTAAGCAGTGTTCAAGCAGCTGGTGTCACAGCAGTGAACAA
ATTTCTTGCCCTCGCGTAAMCTACATCCTAATGARTGTTTCTGTTCCATCTGTAATAGTTTGGCTGTGTCCTCACCCAAGTCTCATCTTGAATTCCCACA
WATTATGGGAGGGACCCTGTGGGAGGTAATCGAATCATAGGGGCGGGTCTTTCCCATGCTGTTCTCGTGATAGTGAATAAGTCCCATGAGATATGATGGT
TTTATAAAGGGAAACCCATTTTGCTTGGTTTCACTCTCTCGTCTGCCACCACGTAAGACRTGCCTTTCACCTTCCGCCATGATTGCGAGGCCTCCTTAGC
CACATGGAACTGTGAGTCTATTAAAACTCTTTCTTTTGTAAATCACTCAGTCTTGAGTATGTCTTTATCAACAGTGTGAAGATGGACTAATACAATTTGT
TAACTCATATTCTCTCTTCCTGGTTTGTCTGTCCTCTCACTCTCTGATGACATCCTATCTATTCCTCCTGTCTTGGTTTGGATGCTGCATTCTCTGTGAG
GTGCCCAATATTGCCCTGGATCAGAGGTAGTGAGTTCTTCCTCCAAGCATTGATGTGCCCTGCTTGTACCTTCACAACAGCACTTCTCCCACTAGTCCAC
ATACGAGATACATCTGAGGTGTGAAAGAAACAAGACTGGACGTGGACTCAGGATTTGGGCTGTGAATTCTGCTTTGCTTCTGTGAGAGCTTGGCAGATGG
CAAGAACATCTTCCTCCTGGGAGTGTCAAGAGGAATAAAGGAGGCACACATGCAAAGTGCTTAACACAAAGCAGACCCAGAGTCAGTGGCCTCTTGACTT
TGTGAATGAGCAACTGTAACAGAAATGATGGTTTTGGATTTTTGTTACCTAGGATCCAGCACCTAGCCTAGGAGCTCATGCCCTGCACTCTGTAAATGTT
TCTTGAATCTACTTTGAATGCAGAGTCTGACATTGTGGGGATTTTTTTCAGGTATTCTGTTTACAAGGACCCAGCAGGTTGGCTGAATATTAACCCCATC
AATGGGACTGTTGACACCACAGCTGTGCTGGACCGTGAGTCCCCATTTGTCGACAACAGCGTGTACACTGCTCTCTTCCTGGCAATTGACAGTGGTGAGT
ACTTGACAAAGACCATCAAGGGTATACTTTTCTGCTACAAATATACTTTTACATTTTYAAATTTCTTCTGATACACCCAGGGGTGTTCTTGGGAAGAATG
TAAGTGTGTGGGAACAGCAAAGTAAATGTTTAAMTATACACATGTTGAGTTCAGTAATATCTCCAAGTCCCAGAATCCTCAGATCTTTTTGGAAAGTGAA
TAATGTCTGGTGAGAGGTCAGAGCAATGAACTCACCCTGTCCCATCTTGGGCAGGCGTGGAGGTTAGAAAGCCACGCTGATGTGCTTTGTCTTGGTGTCA
TGCTCTCATTTGCAAAGAGGCTCTTGGACTTAATACAAGTTGAAAGTAAGTCCCAGAGGACATCACTGACCCTGACCATTGAATTGTTCTTGTAGCTTTT
ATCCTATTATGACACGCTGCCAAGGAAAGGCATCAGGTACMCTCAGTTAGTGGCTGCACAACCACAAAGCAATTGCTGTTCGTTCAAAAGATGGTAATGC
ACTATCCATATGCCAGCCCCTGATTAGATGCTGGGGGCGCAGCAGTAAACAAAAAGAAAGCTGTCCTCATGGAGCTGAYGTGCAGAAAGGAGGCAAAGTT
CAAAGTGCCACGATTGTTCTCTGCTCCTTTGAGATCAGACTGTAGGGCACAAGGGYAGAAGGAGGGCAACCTCTTAGGAGAGTGCATGGTAATCTATGCA
AGATGGTGGCCTGGACCAGAGACTAGGAGGGGATGAGAAAAAGAGAGTTCCTATATACTTYGAATGCAGAGCTGACAGGATTTGCCGTTAACTGAGATGA
GGGGATTCCAGTTGGTTTGGGGACATGTTAAGCTGCAATGTGTATTGTGTCAATCACACAAGAAGTTTTGTTCTCCCTATTATTCCTAAAAGCCAGCTGT
TTATGGCTAAAGATTCAGTTTTGAGTCCTTYCATATCAAGATGAATATTTATAGGTGCCCATTGTTATACTCMACAAGGGTGAACYAAGAGTTCTCAGTC
CTGGTCCTCGTATGCCGGCTACTCACACAAACCATTAGGAGACAAGTCTAAGAAGTGAGCAATCCATGTGACACACAATAAGTAGAGAKTGCTTCAAAAT
AAAGGTGAGCCTTGGGGTTAGCCTTGAAAGACGGGTAGGATTCGGATGAGTGGCATTACCCAGAAATCCAAGGCAGAGGAATCAAAACTAGAAGGGGGCA
CAGCACAGGAGGTAAGAAAAGGAAAAAATAACTGTTGTGTCTGCTATAAGTGCRTATGTAGGAATCTATTTGGATGTATGTGGAAAAGTCACATCTTCAA
AGCCAGATGATTCATTTGATAGAACAGGGAACCAGGAGACCCTGAAACTTCTTGAGGAGGAAACTGACACGATGAAATATCAGGTRGACAATGTTCAGCA
ACTGARAGCTGGACCAGATCTTGTGCTTGGTCCWGGAGACTCATGGATGAATAATACATGGTCCTTGTGTTCAGAGGGCTCATGARTTATTTGGAAGGTT
AGTCAAGTACACAGAAGATCACAGTAGAGTGTCCTAACTGTTCTGATGGAGCTAAGCCCAGAGAAGCCCCTGTCCAGCCTGGGGGGTAGTCATGGAGAGC
TGCCTGAGAGAGGGGACATCTCACCTGCRTGATGAAGGATATGTGGATTAAAGGTAGGGCATGCTAGTTCTGGTGTTGAGTTAGTTGGCAGCTTCTGATT
GGTTAGCCTTAAGTTTCGTTTTTCTTTAACATAGTCATTTATAAGAAATAGCTCATGTTGGCYGGGCACGGTGGCTCATGCCTRTAGTCCCAGAACGTTG
GGAGGCTGAGGTGGGTGGATTACAAGGCCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACCCCATCTCTRCTAAAGATACAAAAATGAGCTGGGC
ATGGTGGCACACACATGTAGTCCCAGGTACTCAGGAGGCTGAGGCAGGAGAATCTCTTGAACCTAGGAGGCAGAGGTTGCAGTGAGCCGAGATTATGCCA
CTGCACTCCAGCCGGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAGAAAGAAATAGCTCACGTTCAGTTTTGCTTATGTTTGCAAATCAAGCAAGGT
TAAGGTGACTTATGACACCTAACTGGCTTTTTCTGCCCAGTGGTTCTTCAGGCCTAATTTCCATTTTAATTTACTTTAACAATTGWTATGACTGAACTGT
GTCCTCTCAATGTTGAYGTATTGGAGTCCTAATCCCTGGTTCCATAGCATGTACCTTATTTGGAAGCAGGCTTGTTGCGGATGTGGTTAGTTAAGGTGAG
GTCATGCTGGAGTAAGGTGGGCCCTGATCCAATATGATTGATGTCTTCMTCAAAGGGGGAATTTGAAGACAGGCATGCACACAGGGAGAACACCACATAA
AATGAAGGCAGAGATCAGGGTGATGCTTCTGCAAGTCAAGGAGTTCCAAAGATTCCCTGTAAACTTCCAGCAGCTGGGGGAGAGGCTGGGAGGAGAGCCT
TCCTCACATCCCTCAGCAGGAACCAAACCTGCAGATGCTTCAGTCTTGGACTTCAGGCCTCCAGAACTGTAAGACAATAGATTTCTGTCGTGTAAGCCAC
TCCTTTGTGGCACTTTGTTATGGCAACTCTAGCAAAGTAATGCAAGATTTAATGGAGTCATTACCTATAAAGCATTTGGAACAGTACCTTGCTTGTAGCA
AGTGCTTAACTTAACTATTTAAAAAAAAAAAAAACAGGTAAAGCATTCTAGTAGAATAAAGATGTGAGAAGTTGGGAAGTTGGTCAGCATTAGTGGAAGC
TAGCATGGCAGGTTCTTTGTGTGCAAAGATAAGGGCAGAGAAGCGTRTGGATACCGGACTGTTCTAAGGTTGGAACTGGGTCTTGTGCTGAATGCCCAGC
ACCTACCATGGTGCCTGACTTAGAGCAGGCACTCACATGCCTGTAGAATAAGTCATGAAATCAATCGTGAAATGCTCCACATGCTATGCCATGGACTTTG
GCCTTGAAAATGTCACTCACTTGCCTCCAGAATAAACATTGTGTTTTACAAAGATACACAGGCACAGTGGCTCATGCCTGCAATGTCAGCACTTTGGGAG
GCTGAGGTGGGCAGATCGCTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAAAAAAATATACCTCCCCTCCA
CARAAAAGAAAGATACATCCTATAGCAGCATAGAAAATGGACGCGGTGATGGCAAGATGTSAGGAGGGAGGCATTAGGCAGCTGCYGCAGAAATACAGGT
AAGAGAAAAGAGAGGACCAAGCCAAGGTAGTGAAGTTAGTTGGGGAAAAGTCAGCCTGCAGTGGGTAAATGTGTTAGAAACCATAGCAGGTATCTTAGTT
GATGGGGTCAGAGTCTGCGCAAGCATAACATAAACGGACCAGAGGGGAARAACCTAGATAACATCTGAAAGGAAGAAACAAATCTTTGTCAAGAGCTTAT
ACTGAACATGAGCTAGAGAAATGCAATATTCAGGTTTCTGGTCCAGAAATCAGGAATGACTATTTCATCAACGTAAACAGGGAGTGAGTTTCAGAGGACT
GGTCCTTCTTGTTTTCGGAGGGTGGGTGTTGAGATTACGTCCCAGAAGAAGCTGRCAAGATAGAAATGGAATAAGGAGAGATTTTGATTAGSGAGTTGCC
CATGCAGAAGAGATGCGACTTATCAGAACAGAAAAGCTTTCCAAAAGGAAGAGGTCTGGACAGAGTACTGAGTACAGAATCAGGGATGAAAATAAGCCAA
GATTGTTTAAAATTCTGTGTAAAATGAAAAGTATCCATTACTGATCAGCTAAAGTAACAATGGCAGGGTTCTGTAGTATGTAGAAGTRTCTGTATCTGTG
GAGAAATTTCTCAGCAAAGAATGTCAAGAAGCATGGATGAAATATAGCGTAGCATGGCTGGCATTTCTTTGTGAAATTTTTTGTGCAATTATAAATCCAA
AGAAACTAGAAATGCGGTATACTTGAATTGTTACCAGAAGCGAGAGCCTTCTTTACATGTATGCAGTAATCAGTTAAGTGACACTGTGTGCGTATAYACC
GTGTCCCGAATATTAAGAAGAACAAAACCAAAATTTGCAGATTAAGAAACAGACACCAAATTTAGTTGGCTTTCTAAAAGTCGTATCATTAGGATAGCAT
TTTTCTACCTTTAGTTTCTTGCATTTTTAACAGTCTTTAAAATTTCTGTGTGGAAGCAGCAATCTGGTCTAAACTTCCGCCATACCACTTACTAGCTATC
TGATTTTGAAGAAATAATTTACAATGTAGTCAGGACCTAATGATACCTTACAGCTGTTTCTCATCTTTGAGACTCATTGAGTCTCATCTATGTTTTCTCA
ACATTCAGCRTACACCTGTATGAACTGTCTGGCTGTGTAACTGTGAAAGCTTCTCACAGACTGTGAGTCTCATTTTCTACRTATACAAAATGAAGAAGAT
AATTCCTACTTATAACGTTGTGAGAAATGAGTGAAGTGCTGTACCCTCTAGATTCTCCATCAAAAGCCATATTAAATGTTCACTACATGTTAATCCCACC
CAGGTGGGGGTTTCAGAAAGGAAAGAATAGAGCCAGGAATGATCCTTCCATGACCCAAGAAATATACAGCTTGAAATCCACTTGTTGTCTAACTCTGTTA
ACGCTAATATCAGACACGGAAATTTAAAATCTGGTACCACAGATGTTTCCAGAGAGCTAAAATGTCCCCAAAGGTGTAATGGTAAATAGAAACCAGGTTG
GCATTAACATACAAAACCATCGTTAGGAATAATAATCTCGAACAAGACCCAAAGGACTTACAGCAAAAAGAACATAAATTAAAAAGCCCTTATAAATCAG
AGCAACTTTTATTTAAAAGCTCCTTTTTGCCTCACCAAAAACTTACCTCTAGTATTATGTTTAACCCRGAAAAGCCAACACTATCTATTAGATCAAAGTT
AGTAGGCCAAGCAAGGTGGCTTACACCTGTAATCCTAGCACTTTGGGAGGCTGAGGTTGGCAGATTGCCTGAACCTAGGAGTTCAAAACCATCCTGGGCA
ACATGGCAAAACTCCATCCCGAAAAAGAATACAAAAATTAGTCATGCACAGTGGCACATGACTTGTAGTCCCAGCTACTCAGGAGGCTGAGGAAGGAGGA
TCACCTGAACCCAGGTAGGTCAAGGCTGCAGTGAGCCAAGATCACACCGCTGCACTCTAGCCTGGGCAGCAGAATGAGACCCCGTCTCAAAAAAAAAGTA
AATAGTGCTAACTGATCTCTCAACTTTATCCAAAGTGAGCATTTGTTTTTATTAGTTTTATAGAAATTTAATTTATTTGATGGAAGGAGAGAATAAGGAT
TTTTGGCATATAACACTAGGAAAGCTGAACCAAAATAAATTGATTTCTCCAAACAAAGAGTAACTCAGGAATTTATGCCAAAACATGTTGATAAAATATA
TGGCTTCGGGAACTTCCATGTAGGATACAGTAYGGAAGTGTCCCCACTGTRAAACTAGAAAAATCTAGWTAAATTATAAAAATCAGATAATATAAAAAAA
TCTTAATTGTAAAGGAATCAGGGAGCTGCAGAAGCAKTGACAACTAGATAAACTAAAATACCAAAGAGGGAAAAGTCATTTCAAAAAGAAAACCTTTTTT
TTTCTCTGGGTGCATTTTCTGATTCTAGGTGAGAGTCAGGCTTGGCCCATGCAGAGAGCCTARGATGGAGGGAAAGAAATTAGAAACGAGTGTCAGAATC
ACAGGGAGCTTTTGTGACAAACTGGAAACTTGAGGGGCTGCTTTTCCTCTGTGGACAAATGCCCTAAAGGACAGAGTGAAATCTCCTTGGGTCTCACAGA
AAACAGAGACCTACCAAAGGAAGCAAGCTCTCCTCAAATACATAGCCATTCTCTCATTTAAGATATTTGCCAGATTTTGAAGGTACAAGGAGTTAAAGGA
TGGGGTGTGGGATGGCTGGAGAGTTAAGATGGTAACCACTGAAGGGAAGAATTGGATTTCCTGGAGCCTTTCAGACTAAGATACTCCAGACTTTCAATCA
AAATCCCAGTAGGGCCATGCCCAGCAACAGGAGTAAGCCAGAAGTTGAYTCAGTCTTGTTCAACTTGCAATGCGGCCTGACCCTTTTCAAGCCCTTACTA
AGTTGATGAAGCAAGGCTCCATCTGATACAGTTTGGCTCTGTGTCCCCACCCAAATCTCATCTTGAATTGTACTCCCATAATTCCCATGTGCTGTGGGAG
GGACCCAGTGGGAGATAATTGAATCATGGGGGCRGTTTCCCCCATACTGTTCTCATGGTAGTGAATAAGTCTCARGAGATCTGATGGTTTTATCAGGGGT
TTCCACTTTTGCGTCTTCCTCATTCTCTCTTTGCCTGCTGCCATCCCTGTAAGATGGGACTTGCTCCTCCTTGCCTTCCACCATGATTGTGAGGTTTCCC
CAGCCATGTGAAACTGTACATTCAATTAAACCTCTTTCTTTTTTAAATTGCCCAGTCTCTGGTATGTCTTTATCAGCAGCATGAAAATGGACTAATACAT
CATCCTATCTGAYTAATACAGGAGAGGGAAAAACTCATAGCASCATATGTCATCYGGAGCCTCTCCAATCTTTTTTTTAATAATGCCCAATTTACAGTTT
TATAAAAATTACTTGACCTGTAAAGAAGCAAGAATGTGTAAGTGATGAACAAGAGAAAAATCAGACTACAGAGGATCCAGATATTTGAATTAGCACACAA
GAACATTAAAATAAACATGATTAGTATGTTCAAGGAGACAGAATAAAAGATAGATTCMAGCAGAGAGAATTACACAAGAGATYTGAAATCTTTAAGAAGG
AATCAGATAGATATTCCAGAACTGAAATACATATTATCATATTAAAAACTCAGTAAGTAGACTTAACAGCAGAACACAGGATTTTTAACCTGGAATATGA
ATCTATAGCAAACACCACAAGGGAAGCACAGTGAGGATAAAGAACGGGAAAAAATCTGCCAAAAGACTAGTGTGTGGAATTGGAGTTACAGAAGGATAGG
AGAGTGCTAATGGAGCAGAAAAAAAAATTTGAAGATGTAATGTCCAGGAATTTTCCAAAACTGATGAAAGACATTCTCCCTATTAAATCAAAAAGTTTAG
CAAACCACAAGCTGGATAAATTTGAAGAAAAACACACCTCARACACTGAAATCAAACTGATGAAAAACAATATCAAAGAGAAAATGTTAAAAATAGCCTG
AGAATAAAAGAGGCATTTACCTGCAAATGAGCTACAATATGACTTATGGCTGACTTCTAGATAGAAATAATGGAATGTGGAAGGCAATGGAATAACATTT
CTCTGAGCACTTTAAAGATGCCTACCAACCTAGAATTCTTTAGTTCTCAAATTTTTCCCTTCAAAATCAAGGTGAATTAAAGACTTTTGGGGCAAAAAAA
AAAAAAATGGAATTGTATTGCAAGCAGGTTTATGCCTTTTACTGAAGAGAATATTTCAGGCAGAGGGAAAATGATGCCAGAGAGGCATAGAAACACAAGA
AACATAAATAAAAATAGAAAGTTAAATATGTATAAAGTAAAAAAGTAAATGAAGTAAAATTGTAAGGACATAAGGAGTTAAAAATATTTATAGAACTAAA
ATGCATGACAGCAGTAACAGAAAAAGTGAGAGGCTATAAACATAGTTAAAACAGTTTCTGCAGCATTGGAGATGTAGTTAAAGCAATACTTTGTATTAGA
CTCTAATAAGTCAAGTATCTATATTGTATAACCCTTAGGGTAATCACTAAAAGAATATAAAAGAAAGTAAAACTAACAAATTAATAGAAGGAAATAGGTT
TGACTAATCCAAAATAAGAAAGGAGGGGGAACAACATTAAAAAGATGGCCAAATAGAACAACAAGGTGATACAGTAAGTATATACCTAATTATACCAYAG
TAAAATGCAAAATGTAAACAGATTAAATATTTCAAGTAATATTATCAGACTATTTTTAAAAATCAGCAAACTGGATGCTACATACAATAGACACACTTTA
AATAAAAGAACAAAGAATGGAAATAAAAGAAAAATATACCTTKATAGTACAGTCTCTCCTAAAAACACATGAAAGTATTTTTTAAAACAAGCTTGTCCAA
CCCACAGCCTGTGGGCCATATGTGGCCCAGAATGGCTTTGAATGCGGCCCAACACAAATTTTTAAACTTTCTTTAAACAACATTATGAAATTTTTTGGCG
CTTTTTTTWTAGCTCTTCAGCTACTGTTAGTGTTAGTGTATTGTATGTGTGGCCCAAGACAATTCTTCTTCCAAYGTGGCCCAGGGAAGCCAAAAGATTG
GACACCCCTGTTTAAAACAAGAAACATGACAAGAGGTAAAGAGGCCATTTCATAATGATGAAGGGAGGTATCAAAAAGAAGGACATCACAGTCCTAAATC
TGTATGTACTGGACAGCACAGATTCCAAATATACAGAGCAGAGAAAACTAAAAAGAGAAGTAGACAAATCTACAATCATTGTGGGAGTCTTAAAACATCT
CTCAYATCAGCTTCAAGAAAAAACAACAAGGAGTAAAGCTGTAAAAGATTTGAACAAAATAATTAACAAATTTCATCAACTAACATATATAGAACTCTGA
ACTCAACAACTGAGTTCATTCTTTTCAAATTCCCAAGGAAAATTACCTAAATTGTTTGCATGCAGAGCATATAGAAAAGTCTAACAAACGTTTTTAACTG
CAATTATTTCTAGTATATCCTCCAATCACAATGGAATTAAACTAAGCATTAGTAGCAAAATATAACCAGAAACACCCTAACTGACTGAACATAAAACAGT
ACACTTCCAAATAACTCATAATCAAAAACAAAAATAGAAATATGAAATGTCAAAACTTGTGGGATGCACTAAACCAGTGCTCAGAGGAAAATTCTAGAAA
ATAGGAAACAAATATACAAGACAAAATCAACAAATCCAGGCTGGGCACGGTGGCTCACTCCTGTAATCCCAGAATTTTGGGAGGCTGAGGCGGGTGAATC
ACCTGAGGTCAGGAGWTCGAGACCAGCCTGGCCAACATGGCAAAACCCTGTCTCTACCAAACGTACAAAGATTAGCTGGATACAGTGGCATGTGCCTGTA
ATCTCAGTTACTTGGGAGCCTGAGGCAGGACAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAACCAAGATCGCACCACTGCATCCCAGCCTGGGTG
ACAGAGCGAGACTCTGTCTCTAAAAAATTTTTAAAAATTGAAAATCAACAAATCCAAAAGTTTGTCCTATAAAAAGATTGAATAAAATTGTAAACTCATA
TCRAAACTGTTGGGCAAAAAAAGAAAAAARCACAAATTACCAACACTGGGAATAAAAAAGGGAAAATGACTATAGCCATCAAAAAGATACAAAGATATTA
TGAACGGCATTATGCAATATATTTGACAATTTGGACATAATGGACAAGTTTCCCCAAAATTAAAACTTATCAAAAATAACCTAAAAAGAGGCTGGGCATG
GTAGCTAATGCCTGTAATCCCAGCACTTTGGAGGCCGAGGCAGGAAGATCACTTGAGGCCAGGAATTTGAGACCAGCCTGGCCAACATGACAAAGCCCCT
TCTCTGCTAAAAAATACAAAAATTAGCTGGGTATGGTGGTGCACGCCTGTAATCCCAGCTGCACTCTGTCCCAAAAAAAAAGAAAGAAAAAGAAAAGAAG
AAAATCTTAACTAGCCCAGTGCTTATGGAAAAAAAAAAAATGTTCTTGAAAACCAAAAAGAAAACTACAGATCCAGATGGCTTTGCTACATGTTTCCAAA
TATTTAAGAAAGAAAAACAATTTTATACAAACCCTTCCAGAAACAGAAATAGAAGAAATACTTAATCCCTCTTTTTATGAGACAAGGTTTTTCCAAAACC
TGACAAGATCTTACAAGAAATTAAAATTGCAGACCGATCTCACTCATGAGCATAAATTTTTAAATTCTTAACAAAAATATTAATGAATCCCACAAAAATG
ATATGATCATCTCAAGAGTTGCATTTGAAAAAAATTCATGTTGATTTCTGATTTTTTTAAAATAATGTTTAGCAAACTAGGAAACTTTTTTAGTCTAGTT
TTAAAAAAAAAATAACAGAAGGAGCTGCTGCTACAGCAAACATCTTCCTCAATGGTGAAATAGTAAAAACTTTTTTTGTGACCTSAGTCCCAGCCAGAGC
GAGAAGGCAAACAAAAGAAATACTAGGCTTAGGAATTAAAAGTAAGAAATCTCTTTATTCATAAATGATATGCCTAAAATAATCTAAAAGAATTTTCAGA
GAATCTATTACTGATTTTAGTAAAGGTCATCAGGTATAAGATCAGTATACAMAATTAATTGTTTTATATACCCCAGCAGTAAGCAAATGGAAAATAAAAT
TCTAAAAGATACTGTTTGCAATATCATCAGAAACACCAAATAGCAAGGTATAAATTTAAAGAAAGATATGCAAGTCCTCTACAATGAAAACTACAAATGA
CTGCCTAAGATAATTTTTKTCTCCCTATTTAAGCCCACATTAACGGAGAGATATACCATGTTCATGGATTGGAAGKCTCAATGGTATTGAAATGACAATT
CTTTTCAAACCGACCTGAGGGATTCAATGCAATACCATGCAAAGTCCCAATCCCAGCATGGGGATCGGGGCAGAAATTGATACACTGATTATAAAATTTA
TATGGAAATACAAGGAGTGAAAAATGGCCAAGGCAATCTTGAAGAATAAGTTGTAGAACTTACACTACCGTACATATATCCAGACGTATTAGAAAACCAT
AGTAATTGAAACCATGGTATTTGCACAAAGATGGGAACAAGCTGACCAATGCAATAGAATAGAGAATTCAGGAAGAATTCCACACATACCCAGTTTCTGA
TTCTAACAAGGAAAACACAACACAGCAGTGCAGGTGAGAAAGCATGGTCTTTCAATAAATAAGGCCAAGTTGATTGAATAAACATATTTTTTAAAATGCA
TCCTGACCCCCTCTTAAACCATATACAATAATTAATTCTAGATATATTACAGATCAAAATATAGAAGGAAAAAATGCATATTTTAGAGAAAAACATATGA
GAACATATATGTCCTTTGTGTAAGCAAAGCTTTTCGTAATTAGGATACAAAAGTACTAACCACAAAAGAAAAAAAAAAGATAGATTACATTRAAATTAAG
AGCTTTGATTCTTCAAATGACACAGTTAAGAAAGTAAAAAGTAACCTACAGAGTAGAAGATATTTATAATACAAAGAAATGCTGCAGGCCTGGTACAGTG
GCTCATGCCCTATAATCCCAGCACCTTGGGAAGCCAAGGTGGGCAGATCACTTGAGCCAAGGAGTTTGAGACCAGTGTGAGTAATAAAGCAAGACCTTAT
CTTTACAAAAAATAAAAAAAATTATCCAAGTGGTGTGGCACACACCTGTGGTCCCAGCTACACAGGAGGCTGAGGCAGGACGATCACTTGAGCCCAGGAG
TTCAAGGCTGCAGTGAGCCATGATCACACCACTGCACTCCAGCATGGAGGACAGAGTGAGATCCTGTCTCAAAACCAATAAAAAAAMAAAAAAAAGAAAG
AAATCCTATAATCTGTAAGCAAAAGACACAACCCAAAGAAGAATAGATAAGAGACTTAAACAAATACTTCACAGCAGAAAATACACAAATCCTAACAAAT
GTATGAAAAGATGCTCAACTTAATTAAATAAAGATATATACATTAAATTATACAAATATAAATTAAAACACAAATTAATCAAGGAAATACAATGAAGTGC
AGTACAGCAGCATACCTATAAAATGGCTGAAATGAAAAGATGAAAAATACCCAGTGCTGGCAATGGTGTGAAATAATTGGAACTCTCCTACACAGCTGGT
AGAAGTGTAAATTGGGTACAGCCACGTTGGAAACATAGTATCAACTAAAGCTGAACATACATATGCCCTATGTTCCAGGAATTACATGCCTAGGTATTAT
CTATCCAACAGAAATGTGTTCCCCAAAACACGAGTGCCAGAATATCCACTATTCATAAGAGCCCAAAGTTGGAAATTATCCAGATGCCCAGCAAAAGTTG
AATAATAAATTGTGATACATTCACAAAATGGCRTCTGTACAATAATAATGAGTGAATGAACTGCAACTATTCACAACATCATGGGTGAATCTCACAAACA
TAGTGTGCAGCAAAAGAAGGCTGAAACAAGAACACACATGCTAAATGACTGCATTTATATAAAGCTCAAASCCAGGCGAAATTAATCCTAGCCAGCAGAT
CACCTTGTGGATGGGTTTCTTGATCTGGTAGTACTAGACTACATGGGTGTGTTCAGATTGTGAAAATTCTTCAAACTGTGTGTTTGATACATGAAGATTT
CTATGTTTCAATAAGAACCTAACAAAAAATGCATGGCTGCAGAGAGAGAGCACGTAGCTAGTCCTGTAACCATTCACATATTCTCAAGTACCTTCTGAGC
ATTTAGACAGACTCTCAGCATCTTGTTCCAAGGAAGGGCAATCCCTGTTTGCTGATGGGCCAATTTTGCCAGGAAAGGTGAGTGATAAGAGTTCTACATA
AGGAACAAAGCAAAGCAAATCATGTTCCCTGCAGTCCCTACCATGCTTTGCAACGGGCAGAAGTGACACCATCGTTAACTTGCTACACACAGCTCAACAT
ACTCAGTTTATAACAATTTTAAGATGGTAGCAAACGATAACTTTCCTTTAAATACCCCTTAGAGGATACAAACTGTCAGATCAGAATGGAGTGATGTCAA
AAGAGCAGGACTGAAAACCTGATCTGAGGTTAACAGAAATAAAGAGCCCTTTGGACCTATTTGCTTGGGGCCCCAGAGCTAGTCTAGATAATTTCTAGAA
TCGTGCTTCATAATAATTTTGATAATGCCTAGGTTGCAGATGACTTGAGGAGGAAAAGACACGTTGTAACCAACAGAATATTCAAGGTACTTTCTTTAAA
CTTAAAAGAAAATCCTTGGCTARATTASATTTCACTGAGTTTAGTTGAGCAAAGAACAATTGGTGAATTGGGCAACCTCTCAAGCCAAAGTAAGCWGAGA
GAGACTCCAGCGCAGGCATGTAGTGGAAGAAGATTTATGGACAGAAAAAGGAAAATGATGTACAGAAAATGGAAATGAGGCACAAAAGCAGCTGGATTGG
TTACACTCGGCATTTGCCTTATTTGAACGCTATTTGAACAGTTGGCCCTTTGATTGGCTCAAACTCCGAGACTGGCACRAGAGTAGGTGACAGTCTGTTT
ACACCTCCATTCAGATTATAGTTCACTATGTACAGRGAAACCTTTAGGCGGAACTTAGCATATTTAAGAAGGCAGCTTTAGGCTAACTTGATTTTACAAA
CTGTTATCAGTAATTTTAATGCACTATAACCAGCAAAGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGGTCACTTAAGGTCAG
TAGTTCGATACCAGCCWGGYCAACATGGTGAAACCCCKTCTCTACTAAAAATACAAAAATTAGCCAGGCRTGGTTGTGCATGCCTGTAGTCCCAGCTACT
CAGGAGGCTGAGGCAGGAGAATCGCTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCTAACGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACCCCAC
CTAAAAAATAAAATAAAAATAAAATAAGTAATTTTAATGAGCTGTAAATTACCTAAGAACATTGTTTCAATAAAACAGAAATGCTTTTGTTTTGCTACAT
CAAAACTGGCTGTGGCCAAATGACTTGATGAGTAAAGCCTTTAATCCTATAGATTAATAAGTTGTGACCTTTAATGCTGGCATTTTATCTTTAGAGATGA
ATATCGTCATTTGCCTTATATGGTCCAGATTTTCTGAAAGGTCAAAATAGTGCCTTCAGAGTACAGGCACTCTTTTAYGGAAGACTTCAATGAACACAGA
ATTGCTGCCCTCTCTTAAGAAAGGATAAAATAAAAAAAACTGTTAAGGAAAAACCCAAGCGGTAGAGAGAACATTCGGGAATGCAATAAAATGGAATCCC
TTTGGGGATGTGCTGGCAGTGGAGCAAGGCAGTAGCAATTAGCACTGGCCAAATCCCAGTGTCAATACCACTCCTGCCTACAGGTAATCACCAGAAAGGT
CAAATGTTAGTCGCCCTGTCTTATGTGGGCTGAAAACTGTCACAGGCGATTTMTCGTAAGGGTTCTGGAATCCCACTGGGGACGGCCACAGRCAGGAAAG
GCATCGTTGGCCGCTGCTTCTTGGCTCACTCACTCCACGCTCACTGCTCAGAATTCTCTGAGACTGGTCTTCCTGCCTCCTTCTTACTGGTAACCTAATC
TTTCCCCCTCCTCTTGCTTGAAAATTGTGTAGGGTTCATTGTTCCATGATTGTTATTGAATGGGGCTCTTATGCTCTCACAGAAGACCTAAATGATGACT
GCAAACAATGAAGACAAATATTTTGCTCCAGGAAGCCCAAATGCCCTCTCACACTCTGCCAAGTTTAAAGAAAGACGAAAACAAAAGGTGTCCCTGTTAG
TTCCCCCTAAGGCTCAGGGCATATGAAATAGTTTGAACCTGGCAGCCCAAACCATCTCTACGGGGCCCGTATTAAGTCTTTATATGATTATCAAACGCGT
CATATTCCCCATCTATTTCCATTTAAAAGAACGGGGGAGTGATGGCTTTTAAAACAAGCCAAATTACCACTAAATTCAGCAGCATGTTTTCATGACTTAG
CAACTTATATAAAGTATGTTTGAGCCTGCCAGTGAAAAATGTGATGTGGGTTGCCAAGAAGACACACAGATATAGAACCAGGCATAACAGCTGTAAAATT
AAAATGGAATAGACTAAGATAATGATTTTTCATAGGCTAAGATATATCATGTCCCAGCCTGTCTTCTCCTTCAGTCCTCTGTAAGATAGATGTTCCAATA
ATGCCAGCTGATTCAAAATTGAAATATTGTTCAAAATATGYTTAGATTGWTTTTTTTWAAAAATKGTTATTCAGCCCCAGAGTGAAATGACTACTGAACT
ACTGAATTTATAGCCCCCAAACTGAGGGTGGGAGGGGCTCTGAACTGAACTTCAGAAAGATACCTCAGCCTGTGGTCTTTCTCTTTTCATAGCTCAACCA
AGCTCTAGACTGCAGGGGGGATATAGTAAGRTTATTTAGATTGATTCTACTTAAAAGATGCTAGTTTGGATAAAATGAAGCCATTAGTTATGATGGCAAC
CCAATCAAGCCAGTTTAACACCCCTTATCTCAGCTGTGATATTAATTGAGGAGGAAAAATAAATTGATGACCCAGCCATCATTCCGCCTTACTTCAAGCA
CTCGCAAAATATCAGTCATGTTGAAAATACTACCTACAGTTTGTCACTGACAAAATGGCCCAATAAAAGAACTCTTAAGATCTGGTAATAGTGAGGTGTG
ATCAGAGCCATTGGAGGGGCAGCACACTGGGTCCACTGAGATAATGGAGCCTAGTGCCATCTACACCTCAGGATGAGTTCAGCTCCGCATCTTAGCTGTG
CAATGATAGCYGAGAGACTTACACTCTCTCAGCCTCAATTTCCCCACCTGCAGAATGAAGATAATGCCATCTGCCTGCTGGGTTGTTAGAGGGTTGGAAA
TCATGAATGCACAATTCCCAGTACTCCTAAGCATATAAGAAATGYTTAAGTGAACTGACTTGAACTGAGTCATGGACTGATCTTCTAAGCATGTCATTAC
AGAATCATGAGTGCTGAGGCAAACTATGAAAAGGCACTTATGACCACCGTGGTGGTGATCTGAGCATTTTTCTAGGGAATGGATGGGCCATGGACCCCCC
CACTTGGACAAGGATGCTAAATCCAATTAGCCAGAAAAGGTGTCCTTGGACGTTGGCATCAATTCATGSAGCTTGTCTCTGGCTGAATGGGCAGGTGGAA
GCCTGACAGCAGGACATTTCTACATTGATCAGGCAAATCAACTATCTTAAACAGAACATTTTCATTCATTTTTTATGCAAAAGAAACTGATTTTGACATT
AAAATACTGTCAGTGATGCCCATCTCAACCAGTTCATCCTGCCAAAGTGTCTTTTAGCTGGTCCCCCACTGGAGTCCCCCTTCCCCAGCTTTATATTGGC
ATTGCCATCTACCCAGTCCTCAAGCAAGACCCCTTCCTCTGTGAGGCTCCCACCCCCTCAGCCTGCTCAGCCTCCTGAAGTCAGCCCTTTACTCTTGCAT
CCTGCCTGCCTTCCCTGAAGCCCTCGCAATGGCCTCCATGACAGTCCTGGCCTCCTCACTCAAGTCCATTCCTGCCTGTGCGTCTGCATCCTCTGCTTTG
TATCAAAGCCATTCTCCTGCTTTAAAGTCTTTGAACTTCTCACAAAATAGCCACACCACTTCGTCCCCCTACAACAACCTTCATCCTCTCTACAAGGTAT
TCTCATTTCTAGCACACTCAAATGCCATCTCTTCATGAAGCCTTCTGATCTATCCCCAGGCAGTTAATTATCCCAAGCCACAAGTATTTTATTATCACCT
CTCTTCCTGTGCTTGTAACACCATCCCACATCTGCTTACATATCTGTTCCTGCCATAGCATTAGCGTTTCAAGAGCAGGCACCTGTACCATTGACATTAG
CACATTTCCATCCAGGCAGAGGGTAGAGTCCYAGTAAATGGTTATTGACTGAATGAATAAAATGAAACTGTCATGTTTAAACATGGCCTCAAAATTAATT
ATTTCCCTTTTTTTCTTTTMTCTAAAGTCAGTGGAATGGAAAAAAAACCAAAAAGTTGAATTTTTGTACAACAGTTTAGTTTTACATTATTGTCTCTTCT
AAAATAATTTTTCAGCCCAAATTATGTGGATAATTGCTTCAGTTCTACATCAAGTATAGTATACACGGAAACCTGGCGTTATATTATTGCAAACTTATTT
TCCACCAGACTTTTTGTTGGCTTACTATTAACATTTTTCTATATATATATACACACACACAAAGAGAGAGAGAGAGAGAGAGAGATTTCTGAGATGAAAT
TGGCAAGATCTCTATTAGCAAAGCAATAAAACTGATCTTAAGTTTAAAAACAATGAGATTCTCAGCTTATAGAGCTGATTTGTAAAATACTGGTGCTGAA
AAACCATATTAAAGAGAACACAAAGTATAAAATAAAACAAAGGATAACCTTAGAAGACTCCTGGTTCACTTACAGCTTTCTTTTTTTTTTTCTATTTTTA
TCTTAAACAGGAGGTACACGTGCAGGTTTGTTACCTGGCTCACTCTCAGTTTTAAAGCAAAGGTGAAGGTACATTTAGAGTCCTGTTCAGATGACATAAG
AGGCCTGGCATGTATTTGCTCACAGCTGCTTATTGAAGGTTCAACAGATGCACAGCTACCTAGAGGGAATTTGGRGCCATAGATTGTACCGCTCTTGTGT
CCATGCTCAAGATTGCTCATTAGCTCACATCTAAATTGTGGCTCCTCTCAGATGGGCCCATCTTCCTGATTAYCCTCCCAGAATGTGGGCCTCAGGCTTC
CTTGGGACACTAGYCAAGGTCCCTCTCTATGTCCCTGGTATGGGCACCCTGTTCTGAGTCCCAGCTCTGCAGACCTCTGCCCCACCACACACTGTTTTCT
CCCCAAGGGTTAGATWAGGAAGGATTTGAATTTAGACAGAGCCACTACTCTCAAAATAGAAGCAAACTTATGGAAATACAAACATATATGATTACATTTA
CAGGAAGAGCCATACATATTTGTTTTTTAAATCAAATTATAGGTTGGCACAAAAATAATTGTAGTTTTTGCCATTGCAAGTAATGGCAAAAAACCACAAT
TACTTGTGCATCAACCTAAGAATTCAAACATATGCTGAGCACTTATTATATGGGCTTCCTGTTTTCCCTGTTCTCTGTCTTCCTACATTTCATTGTTCAC
ACAGACAACCTCACTTTGCACACTGTTTCCAAATAAAACCACTTGTACTCATAACTTCCAAGGTAAGACATATGCTGCATGCCTCTGGGCCTACCTCTGG
GAAGATTTGGGACAAGTGGCTGGAAAAGTCTACTACTTTCTAAGACTTCTCAGAGCTAACTTCTGAAAGTTTGTGWTGAGATCCTAACATTCTGTGCCTA
TGAAACCAACCCATCTGATATGGTTTGGCTGTGTCCCCACCCAGAATCTCTTCTTAATTGTAATCCCCACATGTCAAGGGCAGGACCAGGTGGAGGTAAC
TGAATCATGGGGGCAGTTTCCTTCATGCTGTTCTCATGGTAATGAGTGAGTCTCACAAGAACTGACTGTTTTATAAGCATCTGGCATTCCCCTGCTTGCA
CTCACTCTGTGCTGCCACCCTGTGAAGAAGATGCCTGCTTCTCCTTGTCTTCTGCCATGATTGTAAGTTTCCTGAGGCCTCCCCAGCAACTCGGAACGGT
GAGTCAATTAAACCCCTTTCCCTTATAAATTACCCAGTCTCGGGCAATTCTTTATAGCAGCATGAGAATGGACTCATATACCATCTCACTGTGGCAAGAC
CAGGGATCCTATTCTTCTAATGGGACCCTCTTGGGAGAGGCATTTGGAGTCTTGTCTTACTGGTCTAGAAATTTTGTAACATGTATATCTAGTCCTTTGT
GTTCCGATGTGGATAGCAGCTGATGAGGTTTGGCTGTGTCCCCACCCAAATCTCACCTTGAGTGGTAATAATCCCCAAGTGTCGAGGGTGGGGCCATCTA
GAGTAATGGAATCATGGGGGCAGTTTTCCCCGTACTGTTCTTATGGTAGCGAATAAGTCTCAAGAGATCTGATAGTTATATAAACGGGAGTTCTCCTGCA
TGAGCTCCCTTGCTTGCTGCCATGTAAGTTGTGACTTTGCTTCTCATTCTCCTTCTGAATGATTATGTGGAACTGTGAGTCAATTAAACCTCTTTCCTTT
ACAAATTAGCCAGTCTTGGGTATATCTTTATTAGCAGTATGAGGATAGACTAATACAGAAACATTATTCGTAATAGACAAAAAGTGGAAACAACTCCAAT
GTCCATCAGCTGGTGAGTAGATAAACAACATGGTCTATCCATACAATGGATTATTATTCAGCCATAAAAAAGAATGAAGTATTAATACACACTGCAACAT
GTACAACCCTCAAAAACATTATGCTAAGTGAAAGAATCCAGACCCAAAAAACTACCTACTATATGACTCCATTTATATTAAATCTTCAAAATAGGCGAAT
CTGTAGAGACAGAAAATTGATCAGTAGTTGCCAGGGGCTGGGAGTGGGCATGAAGAGTTAGTACAAATTGGCCCAAGGTTTATTTTTGGGGGTGATGAAA
TGTTCTAAAAGTAGGTAGTGGTGATGGTCGCACAACTCTGTAAATGTACTAAAAATTAATAGTCGCAAAAATAAAGAGTAAGAAAAAAGTAAAGTAGAAT
TAGAAAAAAATATTTTTAATCCCTGCATAATTCTGAGTTTAACATGTTCATGGTTATTGTAAAGAAAATTAAAAATAGATAAATGTATTATTTTAATGTT
AATTACCTAGRGAAATAATCACCACTTACATTTTTATATATGTCTTTCTAATTTTTCTCTAATCATATGTAGATTTTTAAATTAGGATCACACTATGTTT
TTAGTTAYGTCTATTAATGACAAGATATAAAGCACTTATATATATAGCTACTGAACAACAGAACCTGTGAAAAAAAAATCTCAGTGTTTTTTAGCTAAGT
GGAAATCCTGTTTGGTCAAGGTTTTTCATGAAATAAAATCCCTGAAATTTAAATAGACAAAAAAACACACACACAAATTGTAATCGCAATAGGTTTGTTA
ACCAATGCACACAGCAAATCAATATGCCATGACACCAGGTTGCAGCAGAGAAACAGGTTTAATCATAGTGTTAATGGAAAGGGGTCATGATCCAGACCCC
AAGAGAGGGTTCTTGGATCTCATGCAAGAAAGAATTCAGGGCTAGTCCACAGAGTAAAGTGAAAGCAAGTTTATTAGGAAAGTAAAGGAATAAAAGAATG
GCTACGACATCGAGCAGCCCCAAGGGCTGCTGGTTGCCCATGTTTATAGTTTTTTCTTGATGATATGCTAAACAAAGGGTGAATTATTCATGYCTCCCCT
TTTTAGACCATATAGGRYAACTKCCTGATGTTGCCMTGGCATTTGTAAACTGTCATGGTGCTGGTTGGAGTGTAGCAAYGAGGATGACCAGAGGTCACTC
TCATCGCCATCTTGGTCTTGGTGGGTTTTAGCCRTCTTCTTTATTGCAACCTGTTTTATCAGCAAGGTCTTTATAACCTATATCTTGTGCTGACCTCCTA
TCTCATCCTGTGACTTAGAATGCCTTAACCGTCTGGGAATGCAGCCCAGTAGGTCTCATCCTCATTTTACCCAGCTCCTATTCAAGATGGAGTTGCTCTG
GTTCAAACACCTTGACCACAGGGTCACAGAACGAGAAGATGGGAGGGAACCTCAAAGCCATTTCCCCAAGGAAGTTGAGGCTTGGGTTTTTGAGGGCTTT
GGAGTGGGCAGAAGTGTGGAGATCAAGAGTACAGGGTGAAGTCATAGGAAGGGGAGAGGAAGCAGCTGTGTTCTCATGCTGATCCTGTTCCCCTGTGGGA
GACTTCCAACTGGTGGCTGGAATTCTGGGGAGGTGTGTCTGAAAAACATCTTAAGTGTCTATAGGAACAATGGGGATGCAAATCAATTCTTAAACAGTCT
TCTGGCCTTAATGTCAGAGATCCTATCTAGGGGAACGGTGGGGAAGCAAATGTCAGGATCTAGTGCTACTGTAACTGAGGAACTGGTTAGCCACTCACTG
CAGCAGAGTCCAATTAACAAGATCCAGGCCTGGTACAAGAAAAGTGAATTTATTTTTGAAGCTAGCTTGGAAAGACACAAAGTGTCCTGCTTTAAGTGTG
CTGCTTCATCTTTGGAGCAAAAAGCAGACATGTTTATAAGGTTAAAGGGGAAGWGAGCAAGGGCAGGAAGTCCCCCTGCTAGCCTGGTGTCTTATCTACC
AAACAGCTGAGTTGGCATACAGTTGAGTTGGTGCCTTCCTGGGCAGAAATAAGTTGTAAAAGTGGCCAAGTGGGCGTGTTTTCACCATGTCCTCCTGAGG
CCACCCCAGAAGTGGGAGTTCCGTGGAGATGTGCTTTGATCTGCAAATTGACTGTCAATTCTGGAGAAGAGATCAYTGGGGCACGTAGATGACCTTGCCT
TGTAGGGAATGTGTGGTGAGGGGGAGGTGAGAGGTTATTTTGCATTTCAAAAAGGGCTAGGTAGGAAGCAGGCTGAAAGGGGAAAGGAGAAGAGAAGAGA
AAAAAGTAATTAAACCACCTCAGAAAAATCAGGGTACTTGGTTACGGTACATGACCTACTGCAACAAGGAACTGGGCCAGGGTGCAGCCTGATTAACGCT
GAATTATAACTGTATTTGTACCCAGAACCTGGCATGCAATTCCCGTCAACCCTGTGGGGATGGTTTCAAAACCTGACCCTGTTTCTCATTGCATCCACAC
CCACAGCGTCAAAGCAATGCCAGGAGAACCACGCGTGGCTCATGTTTCTTGGAGGAGTCCTGGTTCAGTTCTACAGGCTTCCCACACAAAGCAATATACT
GTTGGCCATGTAGGTAAGAAAAGCACAGGAAACTGTTTTTTACCCTTTCTACCAGTGTTTAGTACCAACCACAAGCACCAAAATACTCAAACTTCGAGCT
CTGTGGCTCTGGCTCTTATGGACGGGGMAGTGCTTTACAATTGCCAGGCATTCCATTCACTTTATAGAATAGCCAGAAAGCTCCAGGGATGGGGATGCCC
TGCCAGGGGGCCACAGCTCTTAAACAGGTGACATGCTTGTGACTGGAAAGAGGTCCCGATCCAGACTCCAAGAGAGAGTTCTTAGATCTCACGCAAGAAA
GAATTCAGTGCGAGTCCATTAAGTGAAAGCAAGTATATTAGGAATGTAAAGGAATAAAAGAATGGCTACTCCCCGTAGACAGAGCAGCCCCAAAGGCTGC
TGGTTGCCCATTTTTGAGGTTATTTATTGATGATATGCTAAACAAGGGGWGGATTATTCATGCCTCCCCTTTTTAGATCATAGAGAGTAACCTCCTGATG
TTGCCATGGCATTTGTAAACTGTCATGGTGCTGGTGGGAGTGCAGTAGTGAGGACCACGAGAGGTCACCCTTGTCACCATGTWGATTTTGGTGGGTTTTG
GCCAGCTTCTGTACTGCAACCTGTTTTATCAGAAAGGTCTTTATGTCCTGTATCTTATGCTGACCTCCTATCTCATCCTGTGACTTAGAATGCCTTAACC
ACCTGGGAAGGCAGCCCAGTAGATCTCTGCCTCATTTTACCCAGCACCTATTCAAGATGGAGTTGCTCTGATTTCAATGCCTCTGACACACTAATGTTAG
AGCACCTTGGACATKTTCCTTAATCTGAGTGTCTAGTTTTCTTTTCTAGAAAATGAGAAAAAACTAGAATGTAGACCCCCATGTGCTCAAAGCAACARCC
TGCCTGGTTTGCTTGGACTTTTCCTAGACTGTATGATAACAGGTGCTCGATTCCTCTAYGTAAATCTTCACCTTTTATTAATCATATTACCCTGCTTCTC
TTAGAAAACGCACAGTTCTGCCCTCCCTACACCAAGATCACAAAAGGCTAAGTGTAAGTCATGAGCCAACCAGACCAAGAGTAACCCAGGCAGGCCAGGT
GGCCAACTTGGCCATCTCATAGGCAGTTATCACTGCTCAACTTGAAGAAATACAAGGTTAATTATTGGAGTTTGAAATCCAGCAGTGGAATCCATGTGGT
CCTATCGTGGTCATRTAATGTGCTGAGGCTCTTACAAGTTGTCAGTGCTGAGTGGGAACGACAAAGCCAGAAACAAGGGCAAGCAGAGGTTGAATGCCAG
GAAGACCGTGGCAGGGTGCCAAGTCCATGAAGCAAAAGCACCGCCATGGTCTAAAAGGCATAGTCCTCTAGAGCAACAGAGCCAGTAACTCAGATCCAAA
GGAAAGAAAATGATAACCCTTTCCCCCTCAAGACTTGCCATTGTATGGCAGCAGGAGGGCTGCTTGCAAAATAAATAACCCACCAACATTTGTAGGTTGG
AGATCTCTCAGTCAAGAGTGACAGGCTGTCACTGAAAATGGGTCGGAAGGAAAACTGTCATTCCTACTAAGCAATTTTAAATAGGCTTTGTTTCCAGATA
TCTGTGCCTACAAGTCCTCATTTCCTCATTTGGAAATGGGATTTGATATGGTTGTATTAGGAGGTAAAATTAAAAATATCTCCTTACATCCCATTCACAC
TGCTGCATGATGGAATTGCCAACCTTGTAACCAAAACACATGTCTTTCTAATAAGAAGTCAATGACACAAGAGAAAAGAGATTCCTGCAGCTAAGGTTTG
CTCCTGGTATTTTCCCCATGATATCACCCAACACAATGTACACTCTGTGGGTGGAGAAGGATGGGGGGTGACTTTTTAGCTTGTATACTTATTTGAGAAC
CTTAAATGAGATGCCTATTAAACTATCCATGTATACAAATAGACTCAATATTAAGAAAAGAAGTAGTATAAGACTGAAAGACATGCTTAAGAGAAAGGAG
GGAGCCATACTTCAGGAATGGAGAAATGAAGAAAAATCTATACTGGCTAAAGTCAGGTTAGCTAGGAGGGAACATATGAGGAARGCCCAAGTCTTATGCT
GCTAGAAGCCAGGGCAGAGGCAGTAGGCTGGAAAGGACCAGTGGTCRTCTTGGAAATATGTGCTCCACTTGAAGCCATTTGGATAAAAAATAAGAATTCT
TAGAACACTGGACATCCCAGAAACACGATAAATTAGCAGACCAAATGCCAGTCTGCAACTGCTGGTTAAAAAGAAAAATCCAATTACTTATAACACTGAA
TATAGGTCAGCAGAAACTCCCGGCATCAAAGAAACTCTGACCATAAAGACTTAGTGTATATTTTTACAAAACACTTCACAGGGCCTTGTGGATCAATCAT
GGATTCAATTTTGTTCTACAAATTAAAATCAAGCCATGTTTAAAGCAATCTCATTAAGTCGCTTGCCAACGGGTGCACACAGTACCACACTCCTGGTGTG
ACATGACCATTCTTATCATTCATTTTTGGAACCCTCCTTTCATGGATACACCACCCCTCACCTCACTTCCCTGCTTCTGCCTTACCTGTGCTTTCCCTGT
GGCTTACCTGGATTATCACAACCAGATCCCCTGCAGTTTTCAGCCTTGCCAACATCTGAACATGTCAAAGAAAAATGGGCAGGACAGAGTTTGAAAGGCA
AAGCCTTTATTCAAGSCTACAATAAGGGAGAGAGATTGAACTAACTCTGCTGAAACAAACAATGGGACGATTTTTAAGAGCTGGGATGAGCTAATGGAAA
AGTACTGGAAGATGTTTGTGGGGAGGTTGGTCCATGTGATTAGGCATCTGTGTTTGCTAATGGGTGTTTACTGGAGTTAGGCTCCAACCCTTCCACAGAG
ACTGAGAGACAGAGACACTATTCCTTTCCATGATTACATTTCAAAGAGATGTCAGGTCCTTGAGAAAAGTGGTCCTGGGTTGCAAAACTAGCAACAGGTT
GGAAGATTTACATCTCACAGGGACAGAGAAAGAATTTACAATTGCAMGTTTCTAAAGTAAATGCTTCAAGAAAAGAGAAGTCAAGGCCTATATTAGTCCA
TTCTCATACTACTGTATAGCTACTACTCGATACTGGGTAATTTATAAAGGAAAGAGGTTTAATTGGCTCATAGTTCCACATGGCTGGGGAGGCCTCAGGA
AACTTACAATCATGGTGGAAGGCAAATGGGAAGCAAGGACCTTCTTCACATGGTGTCAGGAGAGAGAAGTGCTAGCAGGTTAAATGCCAGACACTTATAA
AACCATCCGATCTCATGAGAACTCACTCACTATCAAGAGAACAGCATGGGGGAAACCACCCCCATGATCCAATCATCTCCCTCCCTCAATATGTGGGGAT
TACAATTGGAGATGAGATTTGGGTGGAGACACAAAGCCAAACCATATCAGGGCTCTAGAGTCTGAAAGAAGCCCATCTAAAGTGTAGTCCAGCACAGGGG
AAGGTTATGGCCCTCTTGGTCAAGCCTATCTATCCTTAGGAGGTAAGGAAGTTCTTCTAGCCTTGCCTCAAACCCAGGGTGAGCATTAGTATATGGTGAT
TCTCCTGGTGGCTGAGCCACAGGCTCCAACACTGTTCCCCAGTCATGAGGCTCTAAACCACTACCCCACAGAGGCCCATTTCTATAATAAGGTCCTGCTC
CCAAGCTTCCTCCTTTCTCTCCATCCTTATCCCTCCCCCTTCCCTGCCTGGCATGGTCTTGTAGCTGGAAGAYGAGGCCTCAGCTCTGGGGTCTCATTTC
TGCTTCACAAACCTCCATCAGCACAGACTGTCCCCATGTGGAGCCCAGCCCCCTGCTGTTATCTCTGAAAAAGATCTACTCAACTCTATAATCATTTTCG
GCTACTGAGCTATTCGTCCTACAGAAATAGTAAATGCTATTTTACTGTGCATGGCCGGTGATACCAGCAAGCCTAGGACATTGGTCCCAGCGCCTATCCT
GCCTATTGTCCTACTACAGGGACAACTATGACTATGCTAGCTGGAAATGATGATTCCTTGGGTACCCAGCCTGACTATGACACAGGCTGTCATAGTCATT
TCCAGCAAGCAAAATAGGAACAGGAAGCTAAGAATCTCAAATACATTTAGAATGACCTAGTCAAATGCCATTTCTTTTTTTTTTTCTTTGAGACAGAGTC
TTGCTCTGCTGCCCAGGCTGGAGTGCAGTGGTGCAGTCTCAGCTCACTGCAACCTCTGCCTCTTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCAGAGT
AGCTGGGATTACAGGCACGTGCCATCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCCAGTGTCAAACTCCT
GACCTCAAGTGATCTGCCCACTTCAGCCTCCCAGAGTGCTAGGATTATAGACCTGAGCCACCACACCCGGCCTACCATTTATTTGTGAAAAAAAAATAAA
AAATTCCACTTACATGGGTTCCCCAGAGTCGTCAGATTCATAGAGACAAGGAGTGGAATGGTGGCTGCCAGGGGCCAGGGGAAGGGGAATGGGGACTTGG
TGTTTAATGGGTCAGAGTTTCAGTTTTGCATGGTGAGAAAGTTCTGGAGATGAATGGTGGTGATGTTCCCACAACAATTTGAATGTACTTAACACCACTG
AACTGTACACTTCAAAGTGGTTAAAAATTGTCAATTTTATGTTATGTATATTTCACCACAATGAAAAGAACAGCTCATAAGAAGGAAGCTGTAAATAGTA
ATAATAATAACCTGGAATTATGGTTTAGGGATTATAGCTTGCTTTCATGGTTAAAATGAGAGCCTGTAAGACTCAAGCTATGTAATAAAAATTCTGGTGG
AGAAAGTATAGGTTAATGCTTGCTCTAGAGAAGGAGGCCTGACACTCACRGTGTCCATTTGAGCCTGTCCTAAATCTCTCTGGACCTCAGCCTCACCATA
CCTACAATGAATTGGCCTCAGATCTTCTGCTCTGATCTTGCACCAAGCCTGGGCTTGCAATCTGCGTGTCTGTGGACTCTTCAGGTATATTTCTGAATGC
AGGTGCGTTTCTCTGGAGGCAGGGGCCATGACCTTCAGCAGATTCCCAATTGGAAACTCACCTCCCAACCACGTTGAAGACCTGAAAGCTGGAATGGTTC
ATCTGTCAGCAGTCCTTACAGCTCCTAACATTATAAAGACAGAAGCCCCTACAAACTCAGCCAGACCCCCACATGTTTAGAAGTTAGACTTCTCTGATCC
TTAAAATGGCTACCATGAGAACATGGCCCCTGGGCTCCCTCCAGAAGGGAGCTGCAAAGAGGGAGTCMCATTCTAGCTCCATTTCTGGGTGTTTTGCTCA
AATTGACCTGTTTTCCCTATTGAAAGAGAAAATTCCGGCCAGGAGTGGTGGCTTATGAGCCAAGATCGTGCCACACTGCACTGCAGCCTGGGAGACAGAG
CGAGACGCTCTGTCTCAAAAATAAAAAAAAAGAAAAAAGAAAGAAGKAAAAGAAAAGAAAGAGAAAATTCATAAAGGAGGGACCCCGTCTTCACTGTGCC
TTGGTTTTGATTCTTGGTTATGAGTGGTTCCATGGTGGTGGAGGCTGCTGATGGAAAGAGGAACAGAGGGGTGAGGGATTTTTGCTGAAAATCTAGAGAA
TACTTAGAAGCCCCTATATTTCCTGGGCCCCAGAAATGATTGGAGCCAAATGGGCTTGTGAGGAATTTTGAAATTTTGAATTTCACCTGAATTTTGGATG
TGATTTTTCTCTATCCCGTGCATAGAAACTGAGAGAGGCTCTTTCCCTCAGGATTTTGTGAATCTTGTCTTTAACTCATCGCCCAAAGTAACAAACTCAT
CTTACTAACTTCAGAAAAAGACATCACCAGCCTGGCCTGGGAATAACACATAGGAAATTGAAGACAGTAGTATACTTAAGTTCACAAAAGGCCAATTCTT
AYGGCCRTATTTCAAATGCTCATAACGCCTTCTCATCCATTCTACCAAATGACTTGTCTTCATAATATATTCAGAGTGAAAAAACATAATGGATTCTTCC
GAGATATTCARTTAGTTCAATAAAAAGAGAAAAATAATTTTTCARTAAAGAAATTTAACTAAATGACTAAAACTGACAGTGAAAAACCAACTTCAAAGTA
ATTATGCATTTCTTTTGAGTTTGCGCTCTAACGAAAGTTGATGATATGCCACCATTAGAAATAGCCATCCTTCAAATGATCAATTGCATTTGTGTTGCTA
TTTTAGCAGACATTTATTTGAATGTTTACTCTGTAGCTGTCTTTGGGTGTTGATATATTTAAATTTCCACCAGCCCCGCTAAAGAGTATCGGCTCGCACT
TCTTCATGACTCACTGCTCAGCTTCCTTTAAGCTGGTTTTTTCCCCGTTAACAGAAACCTCTTCCMAAAGTGTCACCAGTAACATTCTCCTTACAAAATC
CGGTTACTTCTCTTCACTTCTTATCCTCGTAGGGGTCATGACACATTTAATTATGGGTCATTGACTCCTCTTCCAATTCTCTCCTGCAAAACTAGCATCT
GCTCTTTAAACTTTGGGGTCTCTCAGGATTCCGTATTCCACCCCTCTGGCATTCTGAACTTTCACCCTGGGTAACCACTTTGTTAGAGAAGTTTCAAAGC
CATCTATGTGTTGATGACTTCCCAACCCCTAACTCAGCCTGGGCACTTCYGCCAAGCTGCACAGGTGCATTGAATTCAAGGGGTCGTTAGCACAATCAAG
ACTGAACCGCTGGTCTTCCCACTTCCCACTGCACTCTGCTCTTCGGGCAGCCTCATCTGAGTGCTTGATCACCAAGAAAAGACASTGCTTTCCTGCTCGA
GCTGCACACATCATGCCTCTCTTCATCCATGGCTGGTCCGCCTGCCTGCAGGGTCTCACATTTCCTATCAATCCAATCGTGTGCTTTCTGAAGATAAGTC
AGATCAGATTGTTCCTGGATCACTGCCTTTCCGGAAAGCCTCTGGTGGCCTCGTGCACTCTGTAGAATTGGTACAGGYCCCTTGTGATGCTWCTCAAGGC
CCTCCAGGAGCCCATGCCATCCTCAGTGCCCTCAGCTCTGGAGGAGCAGCTCCACCACGGCACCCCATGACTTTGCATGTAGAGCCACATGGGGAGGGTA
TGACCTGCAGCTGCGCTGAGTCTTGGCAGAACACCCTGCGGTCCCCCAGCCAGTTTCTCATTGCCTTCCGGGTTCTGTGAGGTGCGGGGGCTTTCTGCCT
GCCCCTCTCAGGACACAGCTGCTGCTGTAAAACTGCTGAGAAGCAGCTTGGAGTTGGCTCTACTGCAACATCCCTTCTTTCTGTTGCAGTTGTCCAKTCC
CTTTTATTCTGCCATGWCCTGCGCCAAGGCCATCATGCCCACGCCTGCTTCTACTGTCTAAGTAATAAGCTGTCTGCATCTAAAGAGGTCTCCTTGCTTC
TTTGCTAGGACTTGCCTGCGTCCTGTATGCCAACTTCAAATACTCACTACCCTTCTAACCCCCGTGTAACCTGATAGCCTAACTGCAAACTTAATATGCG
TTTCAAAACATAAATATAGTACAAGAGAAAATAAAATTATACTTGGAAATCTGGCTAAGTGAAAATAAGGATTAGAAAAATAAAAGAAAGCCATAGGTTA
GATTAGTACTGTATAGTATTAGTTTATTAAACTGATAAGAACAGATCTGTACTTCATCTTAGCCAAGAGGCCAAGAAACGATTGTACTACTGTATAAAAT
TATGGTGCTGTAATTTTAGAGGTGCTTCAAATTRTTTTGGGAATAAGGCAAATCTGTATACTTAAAATGTGTGACCTATGAATTTGGCTCTAACCTTTCT
TGCAGAAAATTAGAAACTACTAACAAATGGTTTGTCCCAAGAGCAAACCTCTAATGCACAAATGATTAAAGATGAACTCAGAGAAAAATGAAGGCAAGCT
GAGTTTTATTAACATTGTTTAATGTTTAAGTGAAATACATTATTAGGGCTGGGCACAATGGCTCATGCCTGTAATCCCAACACATTGGGAGGCCGAGGCA
GGTGGATCACTTGAAGTCAGGCGTTTGAGACCAGACTGACCAACGTGGTGAAATCCCATCTCTACTAAAAATACAAAAATTAGCTGGACATTGTGKTGCA
CACCTGTAATCCCAGCTACTTGGGTGGCTGAGGCATGAGAATCMCTTGAACCSAGGAGGCAGAGGTTGCAGTAAGCCGAGACCACACCACTGCACTCCAG
CCTGGGTGACAGAGTGAGACTCACCAAAAAAAAAAAGAAAGAAAGACATTATTAGATTGGTGATTATGAGGGCCATTATCTTAAAATAGTATTTCCTAAA
ATGAAAAACATTTCAGGAAGTAGCTGAAATATCAGGAAAAAAACAAGGCTTTAAAAATAAGGYCCAAAGATTATATGATGATTGCTTCTATGCCCCTGTA
GCCAGCTAGTGATCTCATTTCTCATCACTAACCCAGCTTYCTAAATCTGTCCTGTCCAGCAGGGTCAGCCATCCCAGCCCCCAGTGGCACCATCAGCCAT
CTGAGACTCTTTTTCACCCCCAGAAGAAAATGTCTTGGATTTAATCTTTCCCTCTTTAGTCAACTCCTCAGTTAGAGTAGAGCTACAGCAGTGAAACCAT
GGCCATCTCTCACGGAGACTCCGTCCTCCCCCTGCCACCAACATGTGTGAATACCTGGCTACTTATGTAAAAGATTTAATTTGATAAGTGAGGAAAAGTC
ATATTTATCTCCATTCTTTGAATAGATTTCAGTGTGTGAGAATGACTTTTTAGTGTGTGTCAGAAGCTTAGTATTCTAAGGGTAAAGTATTAAGCCTAAA
GAACTTCAATCAGAAGTCTTAAGGCCGGATGCGGTGGCTCATGCCTGTATTCCCAGCACTTTGGGAGGCCTAGGCAGGCGGATCACGAGGTCAGGAGTTT
GAGACCAGCCTGGCCAACATAGCGAAACCCCATCTGTACTAAAACTACAAAAAAATTAGCCGGGCATGATGGCAGGWGCCTGTAGTCCCAGCTACTCGGG
AGGCTGAGGCAGGGGAATCGCTTGAACCCGGGAGGYGGAGGTTGCAGTGAGTCGAGATTGCGCCATTGCACTCCAGCCCGGGCGACAGCGCGAGACTCCA
TCTMAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTCTTATATATGATAAAGGGCTTTGTAAACCACTAAACTTTATACCAAAAAAATCTATTATTGT
TAGTCTTGTTTGCAACTATTAATAACAACTGAGAAATGGGCTGGGCATGGTGGCTCACGCCTGTGATCACAACACTTTTGGTGTCTGAGGCAGGATGATT
GCTTGACGCCAGGAGTTTGAAATCAGCCTGGGTAACRTAGTGAGACACCGTCTCTACAAAAAATACAAAAATTATCCTCTTAGATGYAAATGCTAAAAAA
ATAAAGTTAGCCAGGTGTGGTGGCGTGCACCTGTGGTCCCAGCTACTTGGGATACTGAGGTGGTAGGATTGCTTGAGCCCAGGAGGTTGTGGCTGCAGTG
AGCCATGATCGCACCACTGCATTCCAGTCTGGGCGATAGAGTGAGACCCTGTCTCAAAAAATAAAATAACTGCAAAATATACTAAGTTTACAATGCAAAA
AGTGCTATGGTAAATTGCTCTCGCATATACCAGTTGCATACCAACATCTTCCCTTTTTCCCACAGGCAACCCTCCCGCTACGGGCACTGGGACTTTGCTG
ATAACCCTGGAGGACGTGAATGACAATGCCCCGTTCATTTACCCCACAGTAGCTGAAGTCTGTGATGATGCCAAAAACCTCAGTGTAGTCATTTTGGGAG
CATCAGATAAGGATCTTCACCCGAATACAGATCCTTTCAAATTTGAAATCCACAAACAAGCTGTTCCTGATAAAGTCTGGAAGATCTCCAAGATCAACAG
TAAGTCTGGCTAAAGCATTTCTGCCTATKCTTCCAGSTTTCAGTTTATTTTCTCTTTCCCAAAATGCTGTTTCTCTACTGTTCTCTCAAGTATTCTCATT
TGGTTCATTTTAAGTTATTGGCATATTATAAATACTGAGAATTTTCCCACCAACAAACAAATGCAATTTATAAAAATATTGAATATCTGTTTCAAACACA
GACATTTTCTCTTCTGCTTCCTCTCTGATATTTTCTATACTGTACACCCTGTGTTGTATATCCTAACCWGTCTGCTACATACACTATTTAGTATAACTCC
AATATTCTATCTTTAAAATTTTCATATATTTAGGGGGCACAACTGCAGGTTTTTACATACATACATTGCATAGTGGTGAAATCTAGGCTTTTACTATCCC
CATCACCCAATAGTGAACTTTCTCTTAACTAATCTGTAGTTTCTGCCATCCCAGAGTTCCCAGCCACAAGACTGTGATTCTTTGTTCTTCCTCTTTCTCT
TCCTTTTTTCTTTTAATTAAACTCCACAGATTCTTTGTTTGTAACTAGCTTACAAAGAATATTGGCCAACCTGCCCAGTCTCAGACCTTSAAAAGATAGG
AGTCTCTGCTTCTCCCCAGCTATCTCTTGGCTCAGCTGTCTTTCCAGTCTCAGAGACAGAGAACTGTGTTAACATTAACTTTCACCAGCGCATTGGAGAG
RCTTTTCGTGGTGTACCTGCTGTCATAAAASACTAAAGGAAAGAGAAGTGCTAGGATAAGAATCTTTATAGTCTTCAACCTCCAACCTTCCATAGTAYGC
TGCAGACCTCCTCAGACTTGACTTGGTTTAATGATGACCTTGGGTTTTTTTTCAAATCCTTGGCCACCATTGACTTTGATGTCTTCTTCCATGCATCTTC
TTTCTCCTTTATAAAACTTSCAAGCAATGTCTCCTCCCACAAGTCCTTCCACATAGGCAGGTGGAATTCAAAACTTAACCCAACTTCTATCACTTGCCTT
ATTAAGACTGAAACACCAACATATTAATATGGAGTATCCCTATATCCACAATCTCACCCACTTTCTTCCCCAAATGTAAACTAACTACCAAGTTCACCTT
GTCTTCCAATAAAGTAAAAGAAAAAAGAAAAAGAAAGACATTAGACACTATGTCTTCAATAATATACTTATCCTGCTGTTGACCCCGTCAGGGTTCCCAC
TTCTTATGTCAGTGGTAGAACTTTTGAGGGAGACAGAGAATTACSCATTTCATTAGGTTTTGCAAATGTATTGTACAATTGTGCATAACATTTTSTATTT
AAAAATCTCATATCTATTGTTATAGCCCTATCTCATATCTCATTTTTTTAGTGCCTTTTGCTTGTTATTGATTCTATTTGCCTGTTTGTCTATTTTATTG
CTTTTTAAATAATGAATTCTGTTATACTGATTATTTTTAATTAAAACAGACCTTCTCTTGTTTGAGGGGTTAGTGTTTTATTTGCTAGTTTTTATGGCTA
TAGCCTATTTGAATAATCATCTCCAGTTCTTTCCAATTGGAACTTTCTCATTCAAGAGTTTCTTTTTTGGGGGCRTGCAGAGGGGGGTGAGCATCAGGAT
AAATAGCCAGTGCATGTGGGGCTTAATACCTAGGTGATGGGATGATTTGTGCAGCAAATCACCATGGCACATGTTTACSTATGTAACAAACCTGCACATC
CTGCTCATGTACCCCGGAACTTCAATTAAAAAAAWAAAGAAGAAAAAAAAAAAGATTGTATCCTCTACTMAAGGAAGATRGGAAAATGCTGTTTGATTTA
ATCTGCCATCTCACTAGGTGAGCATCACATTAGTCATTGCTGCTCCTGTCACCTTCTGGTAATGATCATGCTTCATSTATTTTTATTTCCCTGTCATTAC
TCTCTTGTTTTTTCTCCTGGTTTTACCTAATAGATAAATGCCTTCTAAATGATTTTGTTGTCTCACAGTTTTTTTTTCTGAATATTTAGCCCTGTTTATT
CCCAGAAAGGGGCACTTAAAAATACATATGACCCTAATCATGTGAGTGACTTTATCTCAAGGCTAAAGAATAGGCCAGCTGGTGCAGCCACTGCCAAGTG
TCACCCAGGGGCCTGGGTGATGGTGGCTATTGCCACCGCACATGACATCAGGGAAGTGGAGGGGAAGCTTAAAGATCCAGTCTCTATGTTGCGGGTTCCC
ACCCAAATGTAGAGCTGTGGACAGAGGATTGATCAAAAAAAACAAAAACAAGGCTGGACTCAGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCCG
AGGCAKGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCATGGCCAATATGGTGAAACCCCATCAGTACTAAATATACAAAAATTAGCTGGGCATGGTA
GTGTGYGCCTGTAATCCCAGCTACTCGGGAGGCTAAGGCAGGAGAATCRTTTGAACCCAGGATGCGGAGGTTGCAATGAGCCAAGATTGCACCACTGCAC
TCCAGGCTGGGCAACAGAGTGAGACCCTGTCTCGAAAAAAAAAAAAAAAAAACTAAAGACAAAAAATGTAGGCTATAGAACCCATCTCCATGATAACACA
TTAGGGTCCTGCCCACATTGAGAGCAGGTGGATTTTCACCTTAGCTTTCTAGATGTGGAACGCAGTCTTTGTCAAGATGGCTTTTTCGTGTAATAAATTT
GCAGGGAGGAGTTCTTGGTAATCAATCATCTTCATGAAAGGAGCTCTCCTTGAAACYGATTATAATCGCGCCGAGGCACAGAACTCTGGTGATGGAAACA
CTCTGTCTCTGTGYTGTTCATTACAGGAGCCAGCAGCCATGTGTGGCTTCTGGGCACTTGGAATGTGGCAGGTGCCACTGAGGATCTGAACTGGTATTTT
CACTTGATGTTAATGAATTTAAATGTAAGCATTCGCACAATTATAAATGAAAATGCAATGCCTGTTTGGTGTGACTTTCATCACCAAAACCTCACTCTTT
TATTGGAAAAAGTCTCATCCRCTCTCACCAGAACCCTCCTTGCCTTTACAGATACACACGCCCKGGTAAGCCTTCTTCAAAATCTGAACAAAGCAAACTA
CAACCTGCCCATCATGGTGACAGATTCAGGGAAACCACCCATGACGAATATCACAGATCTCAGGGTACAAGTGTGCTCCTGCAGGAATTCCAAAGTGGAC
TGCAACGCGGCRGGGGCCCTGCGCTTCAGCCTGCCCTCAGTCCTGCTCCTCAGCCTCTTCAGCTTAGCTTGTAAGTTGACCTAACTCCAGTGCATGCACA
AACAGGAAATTGTAACTTCACTGGGTTCGTGAAGCCAGCATTTTCCCATATACCTTTCCAAGAAGATGTTTCCCAGAAGAATCATTCATCTTTAGTGTAT
GTCTGTATGATAGAACATGTTATATGTAAAAGTGCTCCCACTGATGTTTAAAGGCATCTTAACAATCCCTGCCAGCCAGTCTGAGGGATTGTGCAAAGGT
GTTCATTGCTAGCCTGCAAACTAGGTGGTAAGCAAAACTTCCTACAGCTGCCACTCAACTTGAGCTAATGAAAATGCGCCCAGATTAGTTAACTAGTCTA
TCAGAGGCCTGTTTCTCTCTACATTATGCAGAATAATCTTTTGCAAGGTTAAAACAGATATTATGAGACTTTCTGAGAATAGTCGTGRGAATTTATGGAT
GGAGGGTGGGCYGCAGGGAAAATGATAAATGCATAATTTACACTGTTTTTTCACTGGCTAGTAATAATGACTATAATATCATGAAACATTGTTTTTAACA
AATGAATTATTATGCCAAGTAGTATAGATGTGAGGATAAAATTAATAAATACATGTCTCAGATATTCCTTATTTATGAAATACTAGTCCAATGTTAACTT
TAGCCGTTATTCATATATAACTGTTACCATCCAAAAGCCTTTTGGGCCTTGCAATTTACCTTTTGAGAACGTATCGGTGTAATTGTGAATTAGGAAGTTG
GGAAATTGACAGAAAAAGAAAACAGAAGGTTTTTTATCCTACTGACAGTGGTGAGCTGCCAGGAAATCACATAGTACAACATTGSACATTCACGTATATA
AAGCTCTGTGCAAGACCAGAGTCCTGTGAGTAGAAGGAAAAATGAAGGGCCAGGCACGGTGGCTCACACCTATAATCCCACCACTTTGGGAGGTCGAGGT
GGGTGGATCATCTGAGATCAGGAGTTCAAGACCAGTCTGGCCAACATGGTGAAACCTTGTGTCTACTAAAAATACAAAAATTAGCCAGCCATGGTGGCAC
ATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGCAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCATTGATCTCCA
ACCTGGGYGACAGAGCAAGGCTCTGTCTCAAAAAAAAAAAAAAAAAGGAAACAAGAAGCCATTATAGCATTTCACTGGCCCTTCAGACTGGGCATTTCTG
AAAGCGAACATATCATCTTCCCCTCCTGACCTGCCCCTCTGCCTGACTTGTCTCTGATGACTGTACCACCACCATCATCATCACCATCATCTCCATGTCT
CCTTCCTGGTCTTCCCACTGCAAAGCCCAACAGAGTCTAAGGGTCCAACACTTTCCATCCATCCCTGCCTCCACCCTCCTGTCTCAGGTACTAATGTCAC
TTAACCTCGATTATCTCACTGGCTTTCTAACTTTATCTTCTGCAAAGAGAGAGAGAAAATAGAAATCAAGAGGCCACCCCTCGGAGGCTTCTCCTGAGTC
TTTTCTGTAAAGCAGAGACAATTTCAGATGAAGGGTTAGAGATGGGAGTGGGGACTGAGAAGAAATTAGGAAACCTTGTCAAAGCACAGATAATTCGGCT
GTACAGCAATTGGGCTAAACGTTGAGCAGGGGTGGTCCAGAGGAGTTTGTATACTGTCTTAGTCCATTCGGGCTACTATAACAAAATACCATAAACTGGG
TGGCTTATAAATAACAGAGATGTATTGCTCATGGTTCTGGAGGCTGAGAAGTCCAAGAATAAGATGCTGGCAGATTCATTGTCTAGTGAAAGCCCACATT
CTGGTTCACATATGGCGCCTTCTCCCTGCATTTTCACATGATGGGAGAGGCAAGGCAGCTCTCTGGGGCATCTCATCCCATCCCATCCATGAGGACACTG
ACTTCCTGACCCACTAATTTCCCAAAGGCCCACCCTCGTAGTACCATCACCTTGGGGATCAGGTTTCAGCATATAAACTTTGGAGGGGCACAAACTTCAG
AGCATAGCAGATACCATGAATTTATAGCAACACATTATGCTTGTTTGCCCCCTTGCTTTGCTGACAGATATYCTAGACCTAGATTTCTAGAGTGTAGGAA
TGTTCCCTTCGTGAGGGTATGCTGTCTGGGGCCTGGTTTGCTGAGTCATCACTAGCAACCTGCAAGTCACTCTTGCATAGTATCAGCTGGGGAGATGGTG
GTGGATCTCAAGTCTGGCTGCACAACAGAAGCACCTGGGGAACTTTTAAAAGTAGCTACCCATACCTGAGCCCTACCCTATGGCTGGAAGGGCAGCTTAG
ACATTTGTCCATTTTAAAGCCTCACCAGGTGGTCCGAAGACACTGGGAAATCAGGACCGTCCTGGTGAGTGACTCCAACGTTTAGGTACAGGCTCCTGGA
CATTCTAACAGTGTCCTCCAATCTTGTCCCCACCCTAAAGACGTGCTGGTTCCTTCGGTTCACAACTCAATAGGAAACAGGTGGAGGAGAGTAAAGTTAA
GAATACAAGTGTGAAGATGTTTGCTACCGATGGTGCCAGAAAACCTGGCACCATCCCTCCTCCAGAGAGGAGGGTACGGTGAGATGACAGAACACATCCA
GTATGAGAATTTCTATAGCACCAACTTTCCAGAAAGTGTTTCAGAAGCTTASAGAATTAAAATGTGAACCAGACAGGAAGTTAAACTTGACAAGGAAGAG
AAACCAACTAGGAAGAGWTGGGGATGGAGTTAACTGACACTAAATTTGGCCTGAGCTTCTCRTTGGCTTGCCGTACACAATTGCCACTGTGYGATAAGAG
CAACGTGTTAATTGCAGTGGTAGTTCCTAAATGCTGCTGCACGTCAGAACCACTTAGGAAACATTTTCAAACTACGAATTCCTGAGCTCAGTGCCCTAGA
AACTTTCATTTGTGCTCTRGATTACGACTTGAGSTTGAGGAATAGGGCGTTGGGGAATGGTAATGAATGGACGCATGGACAGACAGATGGATAAATGAAA
GGAAACATATTTCTCCCTCTTTTCTTTTGTTCTTTTTTTCTTCYTTCCTTTGTCTTTCTTTTCTTTTTTTCCTTTATTTGTTTACTTATTTATTTATTTT
TTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTACAGTGGCGTCATCTCAGCTTACTGCAACCTCCGTCTCCCGGGTTCAARTGATTCTCCTGCC
TCAGCCTCCCAGGTAGCTAGGATTACAGGCATGCACCACCATGCCCGGCTAATTTTTSTATTTTTAGTAGAGACGAGGTTTCACCATGTTGTCCAGGCTG
GTCTCAAACCCCTGACCTCAGGTAATCTGCCTGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCACACCCAGCYCCTTCCTTTCTCTTT
CTTCAGAAAGTAAAATATTACAGGCAAAGGTAAAATTGCCTATGTTTCTCTGCCCAATTTTATTTTCTGTTCTCTCTCCTCAGAAACAATAGCTACCATG
AATTAGCTATTCATGTGTGTGTCCAGATGTTTTATCCTTTTACTACACACAAACTGACACATACACTCACTCACACACATTCACACATGACACATACAGT
TCTATTTTGTGCAGTTTGTAAAACCTCCTGTAATTCATATTATATTGGGCATACCATTCTGCGACTTACTTTTCTTCCTACCTGTGTTACATTCACAAGG
TCCATCCACGTTGCTCTAATTCAGCGTTCAGCAAACTTTTTCTGTAAAGGGCCAGGTGGCTTTGTGGGCCATATTAGTCTCTGTCACATATTCATCTTTA
TTGTTTGTTTGTTTGTTTGTTTCTGTCTTTTGTACCACCCTTTAAAAACGTGAAAACCCTTCTTTGCCTGGGAGCTATCCAAACACGGACTTGAGGTTAG
AGTCAGCCCACAGCGTTCCTTGGCTGAACCCCGCTCTGCTCCATTTACTCCTYCTGCTGGAGGATCCTGTCATTTGAATACGGTGCAGTGGATTCCCTTA
TCAGCAGACACATTCGAATCATTTACTATGACCAACGCTACTACAGTAAGAGATCTACGTTTTCCACCAGCTTCTGGAGTGAGCGCCAGACAGACCACAA
GCCCAGCACTGCCCAAAGACCAGCACTTAGAAGCCACTGCTCTACAAGCAATGCTTGCAGCTAGGTGCGGTGGCTCACCCCTGTAATCCCAGCACTTTGG
GAGGCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCCAAACCCCGTCTCCACTAAAAATACAAAAATTAGCCAGG
CGTGGTGGCAAGYACCTATAATCCCAGCTACTCKGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGCCAGGCAGAGGTTGCAGTGAGCCGAGATCRCACC
ACTGCACTCCAGCCTAARCGACAGAGCAAAAAACAACACCTGCAGAGATCCAGGAGCAACTGGAACTCAAGAATAACAGAGTTTGGATAAATCGGAGAGC
AGTACTTCCTATGTGATTGCAAAGAGATAAAAATTCTATGTGTGTGTAGTGGGAATGMATAYACACACGTACATGTATGTTTGTGTGCACGCACGTGTGT
GTACCCAGAAAGTAGACAATTAAGGGGGTTACATCACACATTGCCCTCTGTAAATCCAATTTCTGAACATCAAAGCCTCACTCCGTGACATCTCTTTGAA
GAACRAAGGCACTGCAGGACCCTGCTCACGGTTCAGCTACTCGGGACTGGAAATGAGTGTTTTAAATGGAGACCAGAGCCGCTGTGCACCTGCTTGTTAA
AATACAGATTTCCAGGCCCATCCAACCTATGGCATCAACATCCCAGGTGACAGGGGCCTCTAGCTCAAAGCCCAGTGTTTGGTTATTTTTATACAATATT
TTTATAATAATACACATTCTGCTACCAACACTCCCCATATATTAAGTATTAGTAAACATTGAATTTTTTTTTTTAGATTAAAAAAAAAAGACTTGGCAGT
ATTTTTTTCTTACCAACAAGGGATTTTCTTGTGGTCCTCACTTTGAGACTCCTGATCTACAGATGACAATCATCAGCAGGTTGCCAAGGATTTCCCACTT
CTCATCTCTCAACTGAGCTCTTGGGTCAAGTTAATCTAAGGCAGAATTGCCTGATAATCCCTAAAGAATTGCTTCACAGTTGGTATCATTGATAAAASAC
AGGCACAGGTACACTAGCTGTGAAATACCAAATGTGCTTTATGTGCTCGTCTAAGGGGAGCCATCCCATCTAGCATCTGATGATTGTATCTCACTGTAAG
TAGGGGCACCTGTGTGTAAAGTCGAAATTATTCCCACAGTGAAACTCTGGATCTCCTTGTGTAGCTGGAAAGTATTCAGTTGACACTCCAATGGTTTGCT
GTACAAAGACAGTAGTTTCAGCCCCCAAAAAACAGTTAAAARCAGGTGTTACCACTTACCTTCAAAAACACACTTGGTCTGGTCATGTGTAAAAGGYATA
AGATTTTCTAATATTGTTCATTTAAATGTTAGAGATGCCTGCCAAATGTCATGATTTACGTTTYATTATATACCTAGTCCAAGACATTCTTCCTAACCAA
AAAGGGATGGACATAATAAGACATGTAAGAATCTGGGTCAGAGGTAGCAGGAACAGGTAACYACCAGTGCCCAACCACTCAAATGCATAAAAGCAGACAT
CAAAGTGGCCGACCCACGTGTGCTACCATTTATATGACATTGAGAAGAGGCTGCACAGAAGTGAGCTTAAACCCTTAAGCAAGGATTGGAGAAGGAGGAG
GGTGATTTCAAAAAACACTGAAATTAGTAGCTTTCTTTTTTTTTKTTTKTCTGTTTTGTTTTAAGACTGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCA
AGGGCGCGATTTTGGCTCACTGCAACTTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCYTCTGAAGTAGCTGGGATTACAGGCACCTGCCACCA
CGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTGAAACTCCTGACCTYAAGTGATCCACCCACCTCAG
CCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCAGGCCTGAAATTAGCTATTAAAGTACATAACTTCCTAACTCAGCCATAGTCCTTACAAG
AATTTTGGGAGCAAGGAAATCAGCTGGTAGAATCTCTTTGATGTTTCTTTAAAGCAGGGTCAGCAAASTCTAAGACACAGACCAAATCTGGYCTACTGCC
CATTTTTGTAAATAAAGTTTTATTGGAACACAGCCGCGCCTATCATTTCCATATCGCCTGTGCCCGTTCTCTGCTGCAGTGGCAGAGCTCAGTAGCTGCC
ACCGAGACCAGCTGGCCCAAGAAGCCGAAAATATTAACTCTCTGGCCCTTCCCACTTCAAAGCATCATTCATAAAACTTCAGTGTGATGTAGGAGAAGAT
AATCACGTCACATTCATGGCAAGAAAAAATACTCAGATCCAAGTAGACTGGCAGCAACCAAACATGCTGATGTGTGGGGCTGTTTTCTGTATTTTCTTCA
GTGGTCTGGCAGTTGTCCCATTTTCTAGATGAGAAAACTGATCCTCAGAAAGGTCTCCAGGTGAGTAATCAGCGAGGCCAGCATTCACCATTGACTGCCT
CCCTTACAGAAAAGGATAATAACAACATTTCAGTTTAGTATGACCTGATCCTGTAGGTGGCTTTACTGCAACTGAGAGTTGAACTGAAGGATCTGCATTT
CTTTCTTTGACATCTGAAAATAAAGGAAATAAAACTACTGATATTGAAAGTAATAAAAAATGAAWATGAAATGATTTTTACTGTCAGTTTTTTTTGTTTT
GTTTTGTTTTGTTTTTTCACAGAGTCTTGCTGTGTCACCCAGGCTGGAGTGCAGTGGCATGGTCTCTGCTCACCGCAAGCTCCACCTCCCGGATTCACGC
CATTCTCCTGCCTCAGCCTCCCGAGTGGCTGAGACTACAAGCGCCCGCCACCATGCCTGGCTAATKTTGTTTTTGTATTTTTAGTAGACATGGGGTTTCA
CCGTGTTAGCCTGGATGGTCTCGATCTCCCGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCTGGCC
CGGTTGTTGTAGTATAAAGTGCATGTCAGTGGCATGAAGTGGATGTGTAATTCTTCCCCTAGCACCCTCCCAGTGAGGCAAGCCGGCATTGCCATTAAGC
TGTTTCTGTGGTTTTTCTAGCACGACTTTTATGGTATGGCAAGTCTCAAAAAAAGAACTTGTCGGGAAACCATTTCTGACCATTGCTTTCWGCTTAATTA
ACCAGTATTAGCAAGAATGTAAAAGGACAGATCAGGTGAACTATCTTAACAAATACCAAAAGTAAATGTCTCTATATGGAGGGTAAGATGTAGACAAACT
CAGACACAATAAAGAAATTTAAAGAGGKGAGTGGGCAGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACTGAGGTGGGTGGATTGGATA
AGGCTGGGAGTTTGAGACCAGCCTAGGCAAGATAGTGAGACCCCCATCTCTGAAAAAAAGAAAAAAAAGCCCCACCCCATGTCAGCTAAAAATTAACATT
AAATAAAATGTGGACCAGGCACGGTGGCTCACGTCTGTAATCCCAACASTTTCGGAAGCCTAGGTGGGCCGATCACCTGAGGTCAGGATTTCGAGACTAG
CCTGACCAACATGGTGAAACTCATCTCTACTAAAGCTATAAAAATTACCTGGGCACGGTGGCACACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCA
GGAGAATCGAGTGAGCTTGGGAGGCAGAGGGTGCAATAAGCTGAGATCATGCCACTGTACTCCAGCCTGTAGGACAGAGTGAGAATCCATCTCAAAAAAA
TAAAAATAAAAATAAAATATGCATGCCTGGCTGGGTGGGGTGGCTCATACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACAAGGTCAG
GAGTTCAAGATCAGCCTGACCAACGTGGTGAAACCCCATCTCTACTWAAAATACAAAAATTAGCTGGGTGTGGTGGCACACGCCTSTAATCCCAGCTACT
CAGGAGGCTGAGGCAGRAGAATMGCTTGAACCCAGGAGTTGGAGGTTGCAGTGAGCCAAGAYTGCRCCATTGCACTCCAGCCTGGGCAACAGAGCAAGAC
TTTGTCTCCAAAAAAAAAAAAAAAAAAAAGCCAAGATGAGCAAAAGATAGCCAGTAAACACTTTTAAAATTTTATTTTTCAACGTATTGTTTGCATAAAA
CAAAATGCATCCGTTGCAAGTGTACAGTTTGATGCATTTTGGTAAGTGTACAGAATTTTATACCACGCCCTAGTCAAAATACAGTTTCCTTTGCTATTGA
TCCCCTTTCCGCAATCCAGGCTCTCATTGATCTGCTTTCTCTAATAATGGYTTTGTCTTTTCTAGAATGTCTTAAAGYGTACCAGTATTTTGTTCCTTTC
TATTGCGAAACGTATTATGGACAGACACGGCCTGCAAAGGCATTAAACCCAGGTAGAGTGGGCTGTCTTCGGCCTGCAGACGGCCGCGGTCATGCTTTGC
AGAGGAGCTGTGGCCCCTTAAAGTGACATGACATTATGGACAATGACAGTTGATCCTTGGGGGCTTTCCATGCACCTTGCGCATGCAAGCTAAGGGCTTT
ACATAAATTAAATAAATTTCCTCAAGTAACCATCTCAATAGCCCTGGGACGAGTCACTTATGTTATCATCTAAATTGACTTAAAACAGGAATTTGAGACT
STAATTTGAAAACAAGAGATTGGAGCCTATTTAGTGGATTTTATGCAGCCAAAGATGTTTCTTGTTGTTGTTGTTGTTCTTGCTTTTAACTAATTTGCCT
CCCAGGAGACAGTTGAAATGTCTAGAGACATTTTGATTATTATGCCTGGCAGGACGCCACTAGTGGCATCTAGTGGATGGAGGGTAAGGGTGCTGCTAAG
CGTCCTCCCATACACAGGACAGCACCCCCCACAAAGAATTATCCAACCCCAAATGTCAGTAGTGCTGAGGCTGAGAAACCCCACTCTGCTCTCTAACCAA
AATTAGACACAGAAAGTGGAGACATTCTACCACCCTGACAACATCAATGGCTTTTGCCCATTTAAAACAAGAAAGAGGAATATGTATCCAACCCAAAACA
ACATCTTAACATTCTTTCTAATAGGCTTTTGCAAAAATAGTTCATATTTTATAACTGTCTTGCAGCATGGGGTATAAGTGTAATCATTGTAAAAATGAAA
CCTAATCATTGTAAAAATGAAACCTAATCATKGTAAAAATGAAAAGAGTGCCTCAAAACATCTGAAGTTCTTAGCAGAGGGCAGCCTGTCTTCAGTGGGC
ACTTTTGGATGGAGGCAGGACTAGGGTATCAGTAGGAGTGAGAACAAAGGTCAGAAAAATGAGTACACAGCACATGTATACTGATTAATTTCTTTCTTTT
TTCCTTCTTTTGATGGAGCAAGACTGTAACAGAAGCCTGAGAGTGAGGAAGGGCTTTGSCAACTATTACTGTAGACACAGTAGTTTACTCAATTTTATGA
ACTCTTAGTCCTGGGCTGGAATTCACGCCTCTGCTGGAATTGCACAGACAAAACGTGCTTGCGAGGAGTAAGGTGGCAACAAAAGAAAAATGCAGGCAAA
AACACGCCTCATTTTGAAACCGGATCTGAGCATCCTAGAGCCAGAGCCTCTCCCAGCCAACATTGCTGAGTTGAGCAGAGTGACAGACTCCACACTGGAG
CCAGCCCCGCAGCTGGCCATAAGGAGGAGCCACGAGCAGGTGCTGGGAAGACAGGCTCTTGAACGCACACTATGCTGATGTCTCTTTCTGTGAAGTTTTC
TACATGAGTGACGTTCTCAAAGTCTGCAACACAGTCTGCCATGAGATGCCTTTTTTCCTCTGGGAACACAATGCTACTTTCGTGATTGGCTGAGTAATGG
CCCCCAAAGATGTACTCTTCATCCTAATCCCTGGAACCTGTAAACATGTTACCTTATATGGCAAAAGAGACTTCGGGCAGGCACCTGTCATCCCAGATAC
TCAGGAGGCTGAGGCAAAAGAATCGCTCAAACCTGGGAGGCGGAGGTTGCAGGGAGCCAAGATTGTGCCAATGCACTCCAGCCTGAGCAACAAAGTGAGA
CTCTGTCTCTAAAAAAAAAAAAAAAAAATTTCTCAGATGTGACTCAGTGAAGGATTTTGAGATGGGGAGAGTATCTTGGATTAGCCAGGTGAGCCTGATA
TAATCACAGAGTCCTTATAAGAGGGACAAAGGAAGAGTCGATTAGAAACAGACCATGTGATGACAGAAACAGAGGGAGGTCAGAGGTGAAAAAGAGAAGA
TGCTGCAGTGCTGCCTCTGAAGATGAAGGAAGGGGCCATGAGCCAAGGGATGCAGGCAACCCTTAGAGGCCAGGAAAGGCAAGGGAACGGATGCTTTCCT
AGAGCCTCCAGAAGGAGCACAGCCTGGTCAACACTGATTTGAGCCCCATAAGACTGAGCTCAGTCTTCTGACTTCCAGAACTGTAAGAGAATASATTCGT
GTTGTTTGCACTTTATGGCCATTTGTTACAGGAGCAACAGGAAATTAACATACCATGTTTGGGCCAGGTGCAGTGGCTCACAGGTGAGCCTATAACCCCC
AGCACTTTGGGAGGCCAAGATGGGAGGATCGCTTGAGGCCAGGAGTTCAAGAACAGCCTGGACAACATGGCGAAACTCCATCTCTATAAAAAATGCAAAA
ATTAGCCAGGCATGGCGGTGCATGCCTGTAGTCCCAGCTCCYCCGGAGACTAAGGTGGGAGGATCGCTTGAGCCCAGGAGGCAGGGGTTGCAGTGAGCCA
AGATTGTACCACTACACTCCAGCTGGGGCAACAGAATGAGACCCTGTCTCAAAATAAAAACATATCATGTTTGAAGAACCACCAATAGGTATCTTGCTCT
GTGACTTGTGATCCTTAAGTCAACATATATATATATATATWGTCACAGGAAGTCGATACATATATGGGATAATCACCAATCTCTAAGATACATAGCATGC
TCATAAAATAGCCAAGCTCTGTGCTGAGAGACAAAGACATAAGGCTCATTGGTAACGGTGGTAATAGCAGCTCTCGGTCTGAGCGATGTTTGGCATCTGA
AGTCACCATTAGCATTTTCAGAGAAGTCCAGCTTTTTACCATATARCCATTCATTCTGTCTTCCAATGTGATCCTTAAGGAAAAAAAAAATTCCCCCATA
GTCGTGTGATGTTTAAAATGTGTTTATTATACCTTGCCTGTCATTTTTCTGGCTTTTAGCTAAAATGTTTTGAATTGAGTGGTGATATTCCCGACTTAAC
TCTGAACCCTCTCTATTCAGGTCTGTGAGAACTCCTGACGTCTGAAGCTTGACTCCCAAGTTTCCATAGCAACAGGAAAAAAAAAAATCTATCCAAATCT
GAAGATTGCGGTTTACAGCTATCGAACTTCACAACTAGGCCTCAATTGTTCCGGTTTTTTATTTTCTTTACAATTTCACTTAGTCTGTACTTCATCATTT
TGACAGCATCTTCCTCCCTCCTTTAATTAATGGAATCTTCTGAATTTTCCCTGAATGTTTAAAGATCATGACATATGACTTGATCTTCTGGGAGCAGGAA
CAATGACTACTTTTTCTGGTGTGTTAACATGTCGCTAGCCAGTGCTCCAGGCACCCAGCTTTGTCTGTGGGTTAGTATTGGTGTATGTATGAGTATCTGT
ATGTRTATAYRCACGGTATTTATAGAGAGAGACTATCCTGGAGAAGCCTCGTTTTGATGCCATTCTTCCTTGCAAGGTTAAGCAAGGTGGGTGGAAACTA
AGACACCTGAACCCTCCAGGGYCTCCCGCATCAAGGTCAGCATGAGGACAGACCACAGAGCTGTCACTTTTGCTCCGAAGCTACTTCTCCACTGTCCCGT
TCAGTCTGAATGCTGCCACAACCAGCCAGGCAGGTCCACAGAGAGGGAGAGCAGAGAAAGAAGTCCTTTCTCTTTATTGAGTTCGAGGACTACAACCAAT
TTACACTGCCATCTGATGCCGTGATCCTGAGCCAAGGAGGTGAGGAGCAGAGCAGGCAATTTCACCACCAAATGCCAAGAAAAGGGCTGACATTTTCTTT
CATGGGCACCAACCTGCATTTGTATGTGTCCCGAATCCACAGTCGTACTGATTCTAATGGGGACACAGATCATGGTAGAGAATCTCTCCCTCCTCAGTAA
ATGTACAACTGCACCTGTYATCATGGAGGTCATACATGSATACAAAGAGGTGTACAGGTACCATCTTGTATACACATATATACCCACATGTACAGACATA
CATTTATGCACATTCACGCTGTTTGTTTCATATATACAGGCATAAAATAGAGTAAATACAGGTAGTTTTAAAAGTACCCTTTTGTGTGAATTGACTACCG
TTGTTTGCAAACCCGAAAATAAAAGACGTTCATTATGTAYGAAAAGTAACTGATTTGTATTCTGTGAGCATGTAAAAGCGGAAAGTTAGTGCTTGTTCTA
AGATTACCTYCTTGTTGATAAACCATAAATGAATCATCAAAGCTCACACCAAATTTTTCTATCAAATAAAACTAGTGACAGCTTGTGGCTTTTTATTAGA
GCTCGCCACGAACTAGGGTAAGGTGAGTGTCTTAGCATATTTTAATGCAGTTGCTTACTAAAGGTTTTAACCGCACATGCACACACACACGCTTTCTTAT
GCAATCTATGTTTGCACTTGTGCTTTCAGTTAGCCTTCTGTAGGAAGTAGAAGTCATATGTTGTCTTTGTTGTAGTGAAATTATACAGATAGAGTTCCAT
ATATTGTATTTGTTTCAATGGTAAATCCTTTTGGAACATATAGAATGCAGAGATTTTTTTTTCCATTAAAATAAATGGGTATTGGTGGTTAAAACTGCTG
GACAGTAACTGTTCTCTGATTTCTATCTTGTGTCCAATGTCACTGATGTTGGGTCTTGTCTTAGTGCAAGTTCACATTTTTGACAGACCATTTGGGGTCC
GTCGTACATCTCTGGTTGGTGAGTGAGTCTATGAAGACAGAAGTACCAGTTCTCAGCATGGGCCATGGACTCATCTTGTCCACCTCATGATATGATCTGA
GGGTGTCATAATCAGCTATAAAGGTAATTGCATACTCAAAGATGAGACGGACCATTCTCAGTTGATGACCACATTAAGCATAGTCATGGCCATCTGTCAA
CAGTCCCAAGACCTGGGGATTTTTCTCTGGAACAAATCCTGTTGCTGGATCAGGAGATGCCACACCTTGAACTTGATAGGGTCATTCTCCACGAGCACAT
GCCCCCGACTCAGGGACAGGGGAATCTAAGCCTGTGCATTCACACTCCACAAGATTTCCTCTACTGGCTTTACAGGGCACTRTCACGCGTCTCCCGGGCG
CACCTTGCTCCCCTCTTCCTGCAAGGCAGGGGGAGAACGTTCATCCTTGAACAAACAAAGAGCATCCTCAGCCAGTCAGGCGGCTGGTAGCCGGACACAT
ATGCTAACTGGCAATCAGGAAGTCACCCTCCAATGTAAACTTCAGCCACATGCAGGGAGAAACACAGCAGCTGAGTGGCCATTCACTCAAGGAAACAAAT
ACAGCATGACTCCTTTTCTCTCAAGCTGGTAGGCTCTCCTGCACTTTGTGAACCGAACCAGAAGATTAACTTCGCTGAAAATTCAGAAAAATAGGAGTAA
AGTGCACACTTCATTAATAAATAGAATATGCCTCAACTTTCCCTTATTTAAACATATTCTCTGTCCCCACAGTTCTAATCAGGACAGAGATACTTCTGTC
ATGTTGTTCCTCCTAATAGTTTCCAGAAAAAAAGGAAAATAAACCAATTCTTATAGGCCAAAGTGGTAGCATTTCCTGAATCATAAGATGTTTTGTTCAT
TTGCTGGAATATATTACATTGTTTACTGAAAACCATAGTAGAATCAAAATGTTATTTCATTATTACCTATGCATTTTATCTGAGTCCAACTTATTAAAAA
ACGAAGTCAAGTAAGGACCAGAAATTGCTTTTCCCAATTACTGAGCACWGGTCTGAGGGTTTTATTTCCACTGAGCAAATAGTCACACCTTCACTTCTTT
TTATTAATACTCAACCAACTTAGTTGATTAAAAATCACATTTTCTCCCTCATTTTACATACGATAAATTAATTATTTTGGATAATTTGTTTTAATAAGAA
TATGCACACATTTTCTAATTTCAATAAAAGTCACCTTCAATACCGCCAGTTCTCTCCAAATGAGCATCATTCCAGGCAGATATACCTGCTGTGCCTCTTG
GCCGACACCAGCAAATCTAAGCATTATAACGAAATAAATCCAGCCAGATTTCATGGTAGGTATCAAATAAGACTTTGGCTCTTAAAGAACATCGTTAGAA
ATTTTGATAGCTCATTCCAGAGTTTCAGAATGTCATTTAAAACAGTCTGATAAATGGAACAACCATCTACCATCACACTCATAGAGTAGCTCAAATTGCA
TTTTACCCAAATAAATACACTGGGTCTTAATCTTAAGATGTGACAACTAAAAAATTTTTAACAAGTCTGTGTTTGATCCTGGATTTAGTGCAGTTGCACC
CAGGCACGAGCTCTCCAGATGATTCTGAGGAAAGGAGTCTACAATTTTCCTAGGGGGTGTATGAACATGGTACCAAAAAGGTGATTAATAATTATAATAA
TGGTTTATATTTATCAACTGCTTATTATGTGCCCACACTGTACAAAATCCTTACAGATAGTAACTCATTAATCCCTCCAGTAACATATGAGACAAGCACT
ACTATCTTCTCCAACTCACAGATAAAGAAGGCTGAGGCTCAGAAAAATTGAATGGCTTGCCCAAGGTAAGTGGCCTCCAGAACCAAACCTCAGGCTATCT
GGCTCCAGGGTTCATGTTCTTCCGACAACATCACAATGCCACTCTCAACCCAGGAGCAAAACCAGACAAAGTGCCTACTGCAGACCGGAAGWCCCTMGTT
TGAAGCCTCCATTAGCGTGACTATGCAGCTAGACCAACTTACTGTTAAGCAACAGTACCTTTTACTATGAGGTACCCTTTACTATTAAGTACCTTTTACT
AACAGTATCTTCTGTTACCTATTATTAAGTTCATGCTATACTTCTTCAATCTGAAAGCTTTCTGTTAAAAAAAAAAATGTTAACATCGTTCTAAATTAAT
ATTGAGACCTTAGAAATTTTTCCTGTGCAAGATAACGTAATTATTTGCCCCTTCCCTTCCATGGCTTGTTAGCAGGTAGATGAGGGGCTTCTCCTAGATT
AATTTAACATCTCAGTTAATCAAAAGTAGCCGGGCATGGTGACTCATGCCTGTAATCCCAGCCCTTTGGGAGGCAGAGGCGGGTGGATCACTTAAGGTCA
GGAGTTCAAGACCAGCCTGGCCAGCATGGTGAAACCCTATCTCTACTAAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACACCTGAAACCCCAGCTA
CTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGTTTGCAGTGAGCCATTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCGTCAAA
AAAAAAAAAAAAAAAAAGAAAGAAAAGGAAATTTATGAACTCCAGAGTACCCATTCACTACCAAACCAACTGAGGGGAGAGAAAACTGAGGGAGAAAGTG
GGGTGGGGTCTCAAAGGGTTTGCGCTGTGCTTTGCTATAAATCATTCAAAGGGGCAAATTCTAAAGGATCTCTAAGTAGTTGCTGATTTTGTAAAGGTAG
CCCATAAATCTGTTTACGTGTAGCTGCCTTAAACATGAGTCAACAGGGTAAGTCACACCAACAGGAAACCCAAGCACTAAAAAAGCCACCTACCTTTTCT
GTTTACCAAATACTAAGAATAATAATCTAATAATCTGGCTACATCTTTCATAAAGACCTCCATCTTCTCTCCTTAACTGACTGTTGAGATTTGATAATTT
TCACAGTCTAATGATAAAATGCTTTCAAAATGGTTCATCTAACACAATTAACAATTCTTTTACTATATGCAATGTGTTACCCTTACTATATTTCCTATTG
CTAATAGATTAGCCCACTATTGAAAAAATTCTGCAGTTGTGACCGTGTTCACATGAAAGCATATACAAGACATGGAGAGACAGCAAAAAATGGTGGGAAT
GGGTGTGTGTATGAGGGTTTCAGATAAGAACTTCAATTATATAATTTAAGAAGAGTCAGTCTATAATTTAAGCAGAAATAATTGAGATACTCATCAAATT
AAGTAAGCGGAAAAATTTCCTCTCTCTCATACTATGTTGCTATCATCACATCTATCGTTGGAGGGTTGCTGAGCTTGATACGCCTTTGAACCATTTTATT
TGACTTTCCACGTGCCGTCTCATTGGTAGGGAGATGGTGAAAAGCGTTGGGTGGTGTAGGACGAGGGAGGTTTTCACTCTGAAGCTATGAAGATTTGGAG
AAAGGGGCTTATAGAAGCACTATGAAAATAAACTGGAGACTATTTTTTTGCTACTTTTTAAAAAGCTTTTTCTTTAGAGAGTACTAAAGCCATTCTATAT
CTGTCGTACACATGAATTCAGACTATTATTAGAGAGTTATATCTGTGTTGTCATGCACATGTCAACACTGTCCTGATGACAAAATTTTATGTATCCCCCC
AGATAAAAATTTTAAGAAATTTTAAATGCTTTTTATTCACACACACTTTTCAAAAGGGATAAAAGTTAATCATGTTAAAATATTCAGTCTATGGCAGATG
TCGCTCCTTTGGGCCCTCACTGCTGAATTGCTTACAGTTTCTGAGCTGTAAACTAACATTTGCTTTACTATGTAGTTACAGAGAAATGTGCAACTTGTTT
GTGAAACATTCAAATAAAGCTTATCTGGGATTTTTAACTTGTGTGTTTAGTCTTAGACCATCTTTAGTACAGTCTGGTCTAAACACTGTGACAGAGCAAA
GGGACCTTTTTTTCCAATGGTGCACAGTGTCATGGGTGCAACTGGCTGGTGCCGGTGTTGTGGATGGTAAAAGAATTTACCGGCAGGGCGTGGTGGCTCA
CGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACCGGAGGTCAGGAGTTCGTGACCAGCCTAGCCAAAGTGGTGAAACCCCATCTCTAC
CAAAAATACAAAAATTAGCTGGGCACAGTGGCGCATGCCTGTAATCCCAGCTACTCAGGAAGCTAAGGCGGGAGAATCGCTTGAACCTGGGAGGCGGAGG
TTGCAGTGAGCCGAGATAGCGCCGCTGCACTCCAGCCTGGGTAACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAGAAGAAGAAGAAGAAGAAGAAG
AATTTACCAATTTACCAAGACAGTTGTAGGTAAAGAAAGGCTGATTATTCAAGGGAAAGTACGTTGCAAGGAAGCAACAGGCAGCACAGCAGAGAAGGGG
ATGTCTGGAAAGAGGCAGGGGCTGGAGGGAAGTTTTATAGGGTTGTGCTGGAGGATGTTACACTTGGAGTGAGGTAGTTGTGCCAGCGGCTTGTTTGTGA
TTAGCTGTCTCTTGGAACAGTTGTTCCCTACCTGGGACCCCCCTTCCTCATTGTTGCTTACTTATCAGGACTCCACACCAGGTTAGCCTATGATGTTTAA
AAACCAAGACTAAAACCAAGTGCTGCCTGCTTAATAATTGGCTCTCTTCTGCTTCTTTCATAAAAGTCAATCATTCTGATTTGGAAAAACAGATATATAG
ATGATAGAAGGATAGATGGATAGATGATAGAGAGAGAGAGATAGAAAGAGAGAGAAGATAGCAAGAAGGTTAGTGAGATCATTTTGTAAAAAAAGGAGGG
GGCCAGATGTGGTGGCTCACGCCTGTAATTCCAGCAATTTGGGAGGCAGAGGTGGGCCGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACAT
GGAGAAACCTCGTCTCTACCAAAAATATAAAACTAAGCCAGGTGTAATGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGACTCTCT
TGAACCTGGGAGCCGGAGGTTGCAGTGAGCCAAGATAGTGCCACTGCACTCCAGCCTGGGCAACAGAGCAGAGCAAGACTCCAACTCAAAAGCGAAAAAA
AAAAAAAAAAGGGAAGGGGGTATTCGTTAAGTGCTTCCTACGGGCCGGATACTTTACGTATCTATATAGATGTGTATATACATATTACCTTGTAGTTATA
TTTGTAATTTATGTGTAATACATAATTATATATCATATACATAATTTATGTAATAGACATTAGCACCATTCTATAGATGAAGAAACTGAGGTTCACACAG
TTAAAACTATCTCACAGTAGGTCTCACGACTACTAAGTGATATGCATGGCCCCACCCTGGCACTTTTCTTGCTATATGCTAAGGCAGCACCACCCCATTT
ATCTCCAGGAACAAACTGTGTCATCACAAACAATGCATGAAAGTGCTGAGGACTAAGCAAGTTGTCAATGATGGGGGATGAAGCAGAGGAAACCCAAACT
TGCAAATCTGGTCTATAAGAAAACTTTCCTTCCCCCTAGGCAGTCTGTCTCCAGGAAACTGCTAGTTTGGGTAAATAAATAGCAAACGGATGCCTTGGCA
GCCAGTCATAGAGACGCTAATTTGGAAATTTGCCTCAAAAGAACATAAGAAACAGAAACCAATGCTTCAATCCGAAAGCAAGAGAACGTGAAATTGTCAG
AACAACCACCGATCACACCATTCTCCCCGAGAAAAGCAATTTTCTAGGTTTTTGTTTGTTTGTTTGTTGTTGTTTGATTTTTTTACAAACAAGTCCTCAA
AGAGACCTCC


SNP Information

Context             (SEQ ID NO:46874):
GACAGAGTCTTGAGACTACAAAACAGTCAAGACATTTCCCCAAGCAAACTCAGAAAAATATTAAGCCTAGACAATGTAGAGCGTTAGTAGTTAGGGAATG
Y
AGTATTTCAATTCCAGATCTACCATTTATAAGCTGTGTGTTTTTGGGTAAGGTACTCTGAGACTTAGTGTTCTAATCTGTAAAAGGGGATAATTCCTTCC
Celera SNP ID:            hCV359701
SNP Position Genomic:     464794
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46875):
TAGCTCCTAATTATGAGTGAGAACATATGATGTTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAATAGTCTTCAATCCCATCCAGATTGTTGCAA
R
TGCCATTAATTCACTCCTTTTGACTGCTGAGTACTATTCTACCATATATATATGTATGTATACACACACCACAGTTTCTTTATTCACTCATTGATTGATG
Celera SNP ID:            hCV2852417
SNP Position Genomic:     605489
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46876):
TTTGTCAATAAAGCTTTAATGGAACATAAGCATGGCCATTCATTAATATATGATCAATAGATTTTTTTTGGTACAAGGGCAGAATTGAGTAGTTGCAATA
S
AAACAGTGTGGATTACAATGCCTAAAATATTTACTACCTGGTTCTTTATAGACAAAATTTACAGACTCCTGAGGCAGGGTTTTATCAATTCCTTTCCATG
Celera SNP ID:            hCV359703
SNP Position Genomic:     467485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46877):
ATGTGTGTGCAAGTATCTTTTTCGTATAATGACTTCTTTTCCTCTGTGTAGATACTCAGTAGTGGGACTGCTGGAGTGCAGTTTTATTCCAAGTGAGAGC
Y
TGTCAGTGAGAAGCTTAGTTGCCCAAAGGCAGGTAACAGGCTCACACCTAGGAGAGTGTGTTCTCAAACCTGTGATCTTCACTTCTGTCATCATTATGGT
Celera SNP ID:            hCV2852418
SNP Position Genomic:     605743
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46878):
TTGCTATAAGGGCTACACGTCGGAAATGGGATCTAAGTAAACGTAGAGTCCACAAGTTTCAGGACTTATATAGATGAGTGAATCTCAGATTTTCACGTGC
M
TACAGATTACCTGAGGATCTTGTAAAAAATGTAGTTTCTGATTTCAAGTCTCTGGGATAGGGCCTAGGACTCAGCATTTATAACGACATCCTAAGAGATG
Celera SNP ID:            hCV359704
SNP Position Genomic:     468312
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46879):
TCCTATCAATCAATAACACACATGTGACCTAAGCAAGAGCCCTGAGTGGGACAAAACAAAGGATTTGGGTTAAAAGCCCAGGCTTTGGAGCCAGACCTAC
R
GAGGGAAGAATCTCGACTCTCCTATCACGTGAACCATATGAAATTGCCATTCTTACAGGTGAAAAAGAGGTGAACATTGGCAATTTCATGGTTCATTCTA
Celera SNP ID:            hCV2852419
SNP Position Genomic:     605943
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46880):
AAAAAAAAATTCCATGAGCACTTGGTAACCATCTACTTTATGTTGAATTATTTCCTAGGGTAAATTCTCAGTCAGTAGTAGGAGGAATATTTTTCCCATT
S
AATGTAGTTTGAGAAGCCCAATGACCAAATCATGAGATGTTGCCATTCTCTATGAAAATCACAAAGGATGACTCCCTAAATACATTTTATGTCTACAGAG
Celera SNP ID:            hCV359705
SNP Position Genomic:     469861
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46881):
TCCCAAATACACCTATTATTACCCCAAAGAGTAGGAAGCCGATCTTATCTAGATTCACTCAGCAAATCTAGAATCTCCCAAGAGACTCCAAATTTAGTAC
R
TTAATTTTTCTTAAGTATAACATTGCTCAGTAACTATGTGGGTGAAGATCTGAAAGTTCTGCAGCACTGTTTCATTTATAAAAATAAAGGTAACGGTACT
Celera SNP ID:            hCV359706
SNP Position Genomic:     471313
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46882):
TAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCCAGCCTGGTGACAG
R
TGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCTACACACACACACA
Celera SNP ID:            hCV26379850
SNP Position Genomic:     183231
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2|-,4)   total(G,1|A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46883):
GTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCCAGCCTGGTGACA
G
ATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCTACACACACACAC
Celera SNP ID:            hCV26379851
SNP Position Genomic:     183230
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46884):
TGAGTAGCTGGGATTATAGGCACCCACCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGATTTCACCGTGTTGGCCAGCCTGGTCTCGAA
S
TCCTGACCTCAGGTGATCCACCTACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAACCACTGCTCCCAGCCCACCATAAGTACTTTAATATGCTA
Celera SNP ID:            hCV359707
SNP Position Genomic:     472025
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,7)   total(G,4|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46885):
TGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCCAGCCTGGTGAC
A
GATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCTACACACACACA
Celera SNP ID:            hCV26379852
SNP Position Genomic:     183229
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46886):
GCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCCAGCCTGGT
G
ACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCTACACACAC
Celera SNP ID:            hCV26379853
SNP Position Genomic:     183226
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46887):
GTGTGGAATGCATGGCTGAGTGATGAATGCATGGGTGGGGGATGAATGCATGGGTGGGTGATGAATGCATGGGTGAGTGATGAATGCATAGGTGAGTGAG
G
AATGCATGGGTGGATGATGAATGCATGGGTGGATGATGAATGCATGGATGAGTGTGGAATGCATGGGTGAGTGATAAATGCATGAGTCGGTGGATGAATG
Celera SNP ID:            hCV2844259
SNP Position Genomic:     1106632
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46888):
TCTATTTTTATTTTTAAATAAAACTTTGTAATTGGTAAAGTCACAGAATCAGTGTGCATATGATCAAAGTCTATAAAATAATGAACCATGCATAATTGCA
R
CAGAGTTACCAAGGAAGGCTGTAAGGATGATCTCACTGGTGCAGCCAATACCCCAGTAATCAATATGGATGCCTGGGTGACAACTCCTTCCTTCCTAACT
Celera SNP ID:            hCV359709
SNP Position Genomic:     475978
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46889):
CGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCCAGCCTGG
T
GACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCTACACACA
Celera SNP ID:            hCV26379854
SNP Position Genomic:     183225
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46890):
GCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCCAGCCTG
G
TGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCTACACAC
Celera SNP ID:            hCV26379855
SNP Position Genomic:     183224
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46891):
CGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCCAGCCT
G
GTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCTACACA
Celera SNP ID:            hCV26379856
SNP Position Genomic:     183223
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46892):
ACAAAGGCTGCTTAATCCATGATGCTGTAGTCATTTGTTGGCTTGTTTATTTTAATCCCCAATTTACAACAAAATGTGTTTTTTTTTTCTTACAGAGAAC
M
CACAATCCTATTAACAGCGAACTTCTCTTGAATGAAGGCATTACAGCAGATTTAAATCCATGCATTACAATTTTAGCAATTTAATGAACATCCTATTTGG
Celera SNP ID:            hCV208781
SNP Position Genomic:     562174
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(A,1|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46893):
TGCGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCCAGC
C
TGGTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCTACA
Celera SNP ID:            hCV26379857
SNP Position Genomic:     183221
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,3)   total(C,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46894):
TCAGTTATGTCATCATTAAAATGTACATGAGCTAGAATCTTATGCCTGCCTGGTTCTGTGAGTTCAAAATAAGAGAAACTCAGGAAGGTTGAGTTGAGCC
K
CATGCTGAAAAGAGGGGGAGAAGAGGGGATGACTTGGAGCCAGGAAGGCTTGTGGGACAGAGCTTCTTAACCTGGGGTGTTCACCCTTGGTCCCTGGATG
Celera SNP ID:            hCV208782
SNP Position Genomic:     562931
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,7)   total(G,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46895):
TGGTGCGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCC
A
GCCTGGTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCT
Celera SNP ID:            hCV26379858
SNP Position Genomic:     183218
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46896):
GTGGTGCGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTC
C
AGCCTGGTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGC
Celera SNP ID:            hCV26379859
SNP Position Genomic:     183217
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,3)   total(C,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46897):
GGGTGCAGGGCCTTTGCACTGGGCTTATTCACAGGCAAAATATTTTTCCTTATTTTAAAGAAATGGAAAGAAGTCTTCCTAGAAGCCAGGGTCTGTGATA
S
ATGACAGAGTGACCATAGCACTCAGGGGTGCAGAGGGTGTGTGGATTCTGATGACAGATTGCCTGTCTGATTTTGCAGAATTAGCTCCAACATGGTTTTG
Celera SNP ID:            hCV10075941
SNP Position Genomic:     86596
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46898):
AAAAACATTAGCCAGGTGTGGTGGTGGGTGCCTGTAATCCCAGCTACTTGGAAGGCTAAGAAAGGAGAATTGGTTGAACCCAGGAGACGGAGGTTGCGGT
S
AGCTGAGATCATGCCGCTGTACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAATAAAATAAAAAAGAAGTATAGAGGTCATTTTTAAT
Celera SNP ID:            hCV10075942
SNP Position Genomic:     85774
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46899):
CAGTTCTCTGTAATGTTCAGAAATGCAGAGGTCAGCGGAGGTGGGTGGATCACCTGAGGGTCAGGAGTTGGAGACCAGCCTGGCCAACATGGTGAAACCC
Y
GTCTCTACTAAAACTAAAAAAAAAAAAAACATTAGCCAGGTGTGGTGGTGGGTGCCTGTAATCCCAGCTACTTGGAAGGCTAAGAAAGGAGAATTGGTTG
Celera SNP ID:            hCV10075943
SNP Position Genomic:     85649
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46900):
AACCCACACTCTAGGGGACAGGAACTAGACTCCACCTGTGAACGAGAGGAGCGTCAGAAATATTAGCATGGCCATTTTTGGAAAATGCTATAGAGCCAAA
R
TCTGCATGAAGAGAGAACAGATTGGGAATCAGAGGTACTTGAGTTCAGATTCCAGCTCCATTGCTCATTAGCTCTGTGGCATGGGGAAATCAGTGAACCC
Celera SNP ID:            hCV29182920
SNP Position Genomic:     1088667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46901):
AAACAAAGAGTAACTCAGGAATTTATGCCAAAACATGTTGATAAAATATATGGCTTCGGGAACTTCCATGTAGGATACAGTACGGAAGTGTCCCCACTGT
R
AAACTAGAAAAATCTAGTTAAATTATAAAAATCAGATAATATAAAAAAATCTTAATTGTAAAGGAATCAGGGAGCTGCAGAAGCATTGACAACTAGATAA
Celera SNP ID:            hCV2392520
SNP Position Genomic:     1136051
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46902):
TATTGCACTCATTCATGAAGGCCGTCATAAACGCTAACCCACACTCTAGGGGACAGGAACTAGACTCCACCTGTGAACGAGAGGAGCGTCAGAAATATTA
K
CATGGCCATTTTTGGAAAATGCTATAGAGCCAAAGTCTGCATGAAGAGAGAACAGATTGGGAATCAGAGGTACTTGAGTTCAGATTCCAGCTCCATTGCT
Celera SNP ID:            hCV29182921
SNP Position Genomic:     1088632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46903):
AAGAACATAAATTAAAAAGCCCTTATAAATCAGAGCAACTTTTATTTAAAAGCTCCTTTTTGCCTCACCAAAAACTTACCTCTAGTATTATGTTTAACCC
R
GAAAAGCCAACACTATCTATTAGATCAAAGTTAGTAGGCCAAGCAAGGTGGCTTACACCTGTAATCCTAGCACTTTGGGAGGCTGAGGTTGGCAGATTGC
Celera SNP ID:            hCV2392521
SNP Position Genomic:     1135468
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46904):
CTGGTTGCCTCTTTCAGCCCCCATTCATGCATAACAAATCACACACAAACTTAGTGACTGGAAACAACATCGTTTTCGTGTCTCTGTGGTTTTAATGGCT
S
AGGAATGTGAGCAGGGCACACTGGGAGCAGCCTATCTCTGTGCCTCAATGTCTGAGGCCTTAGCTGGAATCCCCAAGGCCTGGGAGCTGATGTCATCTGA
Celera SNP ID:            hCV29182922
SNP Position Genomic:     1088235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46905):
CAGAGGACTGGTCCTTCTTGTTTTCGGAGGGTGGGTGTTGAGATTACGTCCCAGAAGAAGCTGGCAAGATAGAAATGGAATAAGGAGAGATTTTGATTAG
S
GAGTTGCCCATGCAGAAGAGATGCGACTTATCAGAACAGAAAAGCTTTCCAAAAGGAAGAGGTCTGGACAGAGTACTGAGTACAGAATCAGGGATGAAAA
Celera SNP ID:            hCV2392522
SNP Position Genomic:     1134192
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;(C,-|G,-)   (C,-|G,-)   Caucasian(C,29|G,55)   Asians(C,7|G,75)   total(G,130|C,36)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46906):
TTGTTTAGGTGGGAGAGTAGATAAGTCTGCCCTAGGGCTGGTTGCCTCTTTCAGCCCCCATTCATGCATAACAAATCACACACAAACTTAGTGACTGGAA
R
CAACATCGTTTTCGTGTCTCTGTGGTTTTAATGGCTCAGGAATGTGAGCAGGGCACACTGGGAGCAGCCTATCTCTGTGCCTCAATGTCTGAGGCCTTAG
Celera SNP ID:            hCV29182923
SNP Position Genomic:     1088198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46907):
AATGACTATTTCATCAACGTAAACAGGGAGTGAGTTTCAGAGGACTGGTCCTTCTTGTTTTCGGAGGGTGGGTGTTGAGATTACGTCCCAGAAGAAGCTG
R
CAAGATAGAAATGGAATAAGGAGAGATTTTGATTAGGGAGTTGCCCATGCAGAAGAGATGCGACTTATCAGAACAGAAAAGCTTTCCAAAAGGAAGAGGT
Celera SNP ID:            hCV2392523
SNP Position Genomic:     1134155
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46908):
GTTTTCTTCACACTCTCTTGTATTATCAAGTTGTTAATGTTGAACACATACATTACTTTTATAAACAGAAAAGTACTTTTTAAGAAACAAGGGGCAAGGA
R
ACTAAGAAAACCATCCTTTCTTGGCAGACTCCCTCAGAGGTACTATGTTTCTTTTCTACAGTTCTCTCAGGACTCAAATGCTTGCCTAGACCAACAGGCC
Celera SNP ID:            hCV29182924
SNP Position Genomic:     1085941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46909):
TCTAGTAGAATAAAGATGTGAGAAGTTGGGAAGTTGGTCAGCATTAGTGGAAGCTAGCATGGCAGGTTCTTTGTGTGCAAAGATAAGGGCAGAGAAGCGT
R
TGGATACCGGACTGTTCTAAGGTTGGAACTGGGTCTTGTGCTGAATGCCCAGCACCTACCATGGTGCCTGACTTAGAGCAGGCACTCACATGCCTGTAGA
Celera SNP ID:            hCV2392524
SNP Position Genomic:     1133347
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46910):
AATTACAACATCAGATAGTAAATGCCTTGGTGAAGATACGCATCCCAAGGGCAGGAAGCTCCCCACCTTGATCACTGCAAACTCCCCAGTCCCTAACAGA
R
TACTGGGAAGATAGAAGGTGGTCAAAGCATATGTATGGAATGAACACTGGAAATCAGTACACAGGGCTGGGAATGTGTGATTCTGAGCACTCCGTGATGG
Celera SNP ID:            hCV7624554
SNP Position Genomic:     1115333
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46911):
AATCACACGTGGAGAAGACTTTGAATAAAATGTCTAAGGATAGGAGCGGGCTTTCAGGCTCCTGGAATTATTTGGTGATTTTTCATGTTTTCTTCACACT
S
TCTTGTATTATCAAGTTGTTAATGTTGAACACATACATTACTTTTATAAACAGAAAAGTACTTTTTAAGAAACAAGGGGCAAGGAGACTAAGAAAACCAT
Celera SNP ID:            hCV29182925
SNP Position Genomic:     1085855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46912):
ACCTAACTGGCTTTTTCTGCCCAGTGGTTCTTCAGGCCTAATTTCCATTTTAATTTACTTTAACAATTGATATGACTGAACTGTGTCCTCTCAATGTTGA
Y
GTATTGGAGTCCTAATCCCTGGTTCCATAGCATGTACCTTATTTGGAAGCAGGCTTGTTGCGGATGTGGTTAGTTAAGGTGAGGTCATGCTGGAGTAAGG
Celera SNP ID:            hCV2392525
SNP Position Genomic:     1132717
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46913):
CATTCACTCACCCATCTTTAACCAAGGCCTGTATGGCCAGACATGAGGCCACTCACTGCCTACATGAAGAGGGAAAGACAAAGTGTATCCCTGGGAGCTC
R
CTACCTTGTGTGAAAATTACAACATCAGATAGTAAATGCCTTGGTGAAGATACGCATCCCAAGGGCAGGAAGCTCCCCACCTTGATCACTGCAAACTCCC
Celera SNP ID:            hCV7624555
SNP Position Genomic:     1115218
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46914):
CAAATCAAGCAAGGTTAAGGTGACTTATGACACCTAACTGGCTTTTTCTGCCCAGTGGTTCTTCAGGCCTAATTTCCATTTTAATTTACTTTAACAATTG
W
TATGACTGAACTGTGTCCTCTCAATGTTGATGTATTGGAGTCCTAATCCCTGGTTCCATAGCATGTACCTTATTTGGAAGCAGGCTTGTTGCGGATGTGG
Celera SNP ID:            hCV2392526
SNP Position Genomic:     1132686
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|T,2)      total(A,1|T,2) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46915):
TACAGGGGAAGACAATAAGGCTTAGGAAGATTCAGGAAATTACCCAAAGAAATTCACACTCAGATTCACACTCAGGAAATGTGACTCAATGACAGCCGTC
S
TCACCTCTCTGCTCTTCTGCCTCCCAAACCAAACTGAAGCCAGAGAAGCGTGCCCTGTGTGTGCAGTTACCAGACCCAATAGCTTGCTCTCTCCAACTTC
Celera SNP ID:            hCV29182927
SNP Position Genomic:     1074273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46916):
ACACACATGTGACCTAAGCAAGAGCCCTGAGTGGGACAAAACAAAGGATTTGGGTTAAAAGCCCAGGCTTTGGAGCCAGACCTACGGAGGGAAGAATCTC
R
ACTCTCCTATCACGTGAACCATATGAAATTGCCATTCTTACAGGTGAAAAAGAGGTGAACATTGGCAATTTCATGGTTCATTCTAATACTCTGACACCTT
Celera SNP ID:            hCV2852420
SNP Position Genomic:     605958
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46917):
AGGCACTGTTCCCTGAGCCTTCTGCATTAGATCACCCCTCATTTCACAGCAACCCTGTGGGTCTCTGATTACCCCTTTTATACAGGGGAAGACAATAAGG
M
TTAGGAAGATTCAGGAAATTACCCAAAGAAATTCACACTCAGATTCACACTCAGGAAATGTGACTCAATGACAGCCGTCCTCACCTCTCTGCTCTTCTGC
Celera SNP ID:            hCV29182928
SNP Position Genomic:     1074193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46918):
ATGACTGTTAAATGCCATGTTACTGCGTGTTTGCTTGTTTCTCAGCCAGAGATGAAGATGTCCTCAGAAGATTGGAGTTGGAACAGGCTGATGTAATTCC
Y
GATAGGGGAAATTAGCCTTGGGGTCGGCAGAACCAGCTTTATCTGCCTTAGTAGATCTGTGACCTTGAACAAAGCATTTGTGGTTCTTGAACTTTGTTGC
Celera SNP ID:            hCV2852421
SNP Position Genomic:     606893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;(C,-|T,-)   African American (pooled) - WICGR(T,40|C,60)   Asian (pooled) - WICGR(T,4|C,80)   Caucasian (pooled) - WICGR(T,8|C,88)   total(C,228|T,52)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46919):
AATCAGCATATCCTGAGTCTATGCAGGCCCCAGGGTAGAGTGTACATTGTCCCCAGGAGTCGAACGGACCTGGGCCATCCTGCCTCCTTCCATCTCCTGT
Y
TTCTTTCACTAGCATGTCTGATCCACTTCCCTAACACAGCCAGGCTAGGTTGGCCGCTTTCTGCTATAGCTACACCAAATTGCTCAAGGTTACGATATAG
Celera SNP ID:            hCV29182929
SNP Position Genomic:     1073970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46920):
GCTGATGTAATTCCCGATAGGGGAAATTAGCCTTGGGGTCGGCAGAACCAGCTTTATCTGCCTTAGTAGATCTGTGACCTTGAACAAAGCATTTGTGGTT
Y
TTGAACTTTGTTGCCCTTAGAATCATCTGGGGAGCTTTGAAAACCCTGAATGCCCAAGCTGCACTCCAAACCAATTAAATCAGGATGTCTCAGAGTGTGA
Celera SNP ID:            hCV2852422
SNP Position Genomic:     606979
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46921):
GATGATTCATTTGATAGAACAGGGAACCAGGAGACCCTGAAACTTCTTGAGGAGGAAACTGACACGATGAAATATCAGGTAGACAATGTTCAGCAACTGA
R
AGCTGGACCAGATCTTGTGCTTGGTCCTGGAGACTCATGGATGAATAATACATGGTCCTTGTGTTCAGAGGGCTCATGAATTATTTGGAAGGTTAGTCAA
Celera SNP ID:            hCV2392529
SNP Position Genomic:     1131906
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46922):
TATTTCCAAGCACTTCATTTTATTACAACCCGGCCTTATCTGTCAGGTGCAGCTGGCGAAACTGAGGCATGAAGAGGTTAAACGACCTTGTGGAGGCAGC
Y
ACATACCTGGATTAGACTGCTGAGTTGCTTCTGACTGATTATTTATTTGGTCCACTAAGCAAAGCTGCTTCCTCACTCAGGGCTATGGAAACATATTTTT
Celera SNP ID:            hCV2852423
SNP Position Genomic:     607610
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46923):
CTCACTCAGGGCTATGGAAACATATTTTTCTCTGAACTTCATTAGCACAAACTCCTCAGAAGAGGTTCAACTTGAATCTTGGCAGGTGGGAGAACCCCAC
R
TTCCTTAATTTTCTCTTCTCCACCCCCACACTGGTCTTTGCACCTGTGGCACCTGGCCCACACTCGGTACTTAGCACACATCCATGGAATGAATAAATGA
Celera SNP ID:            hCV2852424
SNP Position Genomic:     607782
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46924):
CAAACTCCTCAGAAGAGGTTCAACTTGAATCTTGGCAGGTGGGAGAACCCCACATTCCTTAATTTTCTCTTCTCCACCCCCACACTGGTCTTTGCACCTG
Y
GGCACCTGGCCCACACTCGGTACTTAGCACACATCCATGGAATGAATAAATGACAGGATGGCTACCCTTTTTTTTCTGTTTTAGTTGTCTAACTACAACC
Celera SNP ID:            hCV2852425
SNP Position Genomic:     607829
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46925):
ACAGTCATGTGCTGCAGGTCACAGGCCAAGTTTGTGACAAGACCGGGGTGTCTGTTCGGGTTTTGGAGAAACAAGGACCCTAGATAGGGTCCATTCATTC
R
TTCATTTATTTATTTATTTGTTCATTCTCCAGACAAATCGTTATCTTGGCCCCTTCTGCTGCAGCCATTGCCACTAAGAAGGCAGGCCCTGCAGGGGAGA
Celera SNP ID:            hCV2844260
SNP Position Genomic:     1108583
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46926):
GTTTTAGTTGTCTAACTACAACCAGGTCTACTTCATCATGCTGATTCTTCAAATTACTTGGCGGCATTTTCTTTCCCAAGGTGCGGAAGCATCGCAATAC
R
TTGGGACTGCAAGAGCCTTAGACCCATTTTGTCCAGCCCAGCAGCCCAGCGAATTTACAGGGAACAAGTTAAATAACGGGGCAACTGCTCAGACTCCCAG
Celera SNP ID:            hCV2852426
SNP Position Genomic:     608007
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;WICGR7_african_american_pooled(G,3|A,97)   WICGR8_asian_pooled(G,5|A,78)   WICGR6_caucasian_pooled(G,15|A,80)   total(G,23|A,255)
SNP Type:                 INTRON


Context             (SEQ ID NO:46927):
CTTTTTGGCCAGCTGAGTCTTCTCTTCCAGTCTAGAGAAGTGGAGGAAAACAGGGGAGCATCTGGGGACCATAGAGCCAGCGTCCACGCCAGGCAGTGCA
R
ACTCGGCAGCTCCATCAGAAAGGGATTCAGCTCAACCTGGGGGCCGATTCATTCAAAGGACATTGATCTGGCACCCAACTTGTGTTAGCCACTATTTCAC
Celera SNP ID:            hCV2852427
SNP Position Genomic:     609114
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46928):
AGGGTGGGGCCATGGCAGGGCTTGACTAGGAGCAAAGGTGGGACTCGCATGCTAAGGAGTGAGCTTAGACATGATACTCCTGCGGCGAAAGGGACAAATG
R
TGGAGGATTTTAGGCTGAAAGTGACATGATCAGATTTGGATTTTACAGGGACTGATCCGGTTGACATGCAGGGGATGAATGGGAGACAGTGAGTTCTGTC
Celera SNP ID:            hCV2852428
SNP Position Genomic:     610138
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46929):
TTTGGATTTTACAGGGACTGATCCGGTTGACATGCAGGGGATGAATGGGAGACAGTGAGTTCTGTCTCTGGGTCTTTGAAGCCAGAGTGACACACATCAG
A
TAGATGCAGTTTTCACCCAAGAAGACCTGGGTAGTGAATGGGATTAGTCCAAACTCATAGTGAAGATATTAAATATACCTTGGGATGAAAAGAGTAGCAG
Celera SNP ID:            hCV2852429
SNP Position Genomic:     610273
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46930):
GGTGGTGCGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACT
C
CAGCCTGGTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTG
Celera SNP ID:            hCV26379860
SNP Position Genomic:     183216
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,3)   total(C,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46931):
TGGTGGTGCGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCAC
T
CCAGCCTGGTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTT
Celera SNP ID:            hCV26379861
SNP Position Genomic:     183215
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46932):
GCGTGGTGGTGCGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTG
C
ACTCCAGCCTGGTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGAT
Celera SNP ID:            hCV26379862
SNP Position Genomic:     183212
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,3)   total(C,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46933):
GGCGTGGTGGTGCGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACT
G
CACTCCAGCCTGGTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGA
Celera SNP ID:            hCV26379863
SNP Position Genomic:     183211
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,3)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46934):
GGGCGTGGTGGTGCGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTAC
T
GCACTCCAGCCTGGTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGG
Celera SNP ID:            hCV26379864
SNP Position Genomic:     183210
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46935):
GTAACTCTAATGCCTGATATTTGATTTGCATTAAGCACTGACAAGAACCTTTCATGTCTATTTCTGCCCTGGGGTCCTAAAACATAAATTTTAACATTCC
W
TGCTTCTCCTTGATGATCATTCCCACATAGAAATGGAACTGCATTAATAATGATTGTTGAAAAAATGAATAAATGATTGTTGAATGAATAACCGAATGAA
Celera SNP ID:            hCV16150124
SNP Position Genomic:     133286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46936):
CTGGGCGTGGTGGTGCGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACT
A
CTGCACTCCAGCCTGGTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGG
Celera SNP ID:            hCV26379865
SNP Position Genomic:     183208
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46937):
CTACTCCATGTTTCCCTTTTTCTCTGCAGCTTGAGCCTCACCTTAAGGCCTAAGTGAGATATGCATTCTGTCCCAAATGATGGCTCATGGGGACAGAACA
Y
TTCTGAGTCTTCCTTTCTGACCCTCTAGTTATATGGCAGTGATTGCACTGAGGGAAAACCAGGAAATAACAAAGGAAACTGCTTAAGCAAGTTGTGTTTG
Celera SNP ID:            hCV16150125
SNP Position Genomic:     134319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46938):
AGCTGGGCGTGGTGGTGCGCGCCTGTAGTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGA
C
TACTGCACTCCAGCCTGGTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTA
Celera SNP ID:            hCV26379866
SNP Position Genomic:     183206
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46939):
GTCAAGAGATCGAGACCAGCCTGACCAACATGGTAAAACCTTGTCTCTACTAAAAATATAAAAATTAGCTGGGCGTGGTGGTGCGCGCCTGTAGTCCCAG
S
TACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCCAGCCTGGTGACAGATGCACTCCA
Celera SNP ID:            hCV26379867
SNP Position Genomic:     183140
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46940):
CTGCATAGTATTCCCTGGTATATATGTGCCACATTTTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGGTTTCAAGTCTTTGCTATTGTGAACAG
K
GCATATTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGACTGCGGACTGCAGTGGCGCAATCTCGGCTCA
Celera SNP ID:            hCV26379868
SNP Position Genomic:     349407
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46941):
CAGTTCAGTTCCTTGTACATAATTCATGTGTCAATTGATACTCATGAAAGTTGGTCTTGAAATATTGTATACAGCCCAAATTAAGAGCTTGGCACCCAAT
Y
CCCACTTGGACTACAAATCACTTCCTCTTGCCAAATTAGAGTCTAGAGTAATTTACCGTAAGATGGGCTTTTAACCCTAATTTCTAGACATACTCAGCAG
Celera SNP ID:            hCV26379869
SNP Position Genomic:     178371
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:46942):
TAAAAATACTGAGGTGTTTTGTGCGTTCATCCCTCTCATATCTCATGTATATATCATGGAGCTTCCAGAGGCTTCCTGGTGTACATCATTGAACCAGACT
S
AAAGTAGCAGATAAGAGAATCCAGCGGATTCCCTTAAGTCAAACGTGAAAGCCCTGCAATAGCCACTCTTTCTACTATATTTTCTTTTGTTTAGGAAAAT
Celera SNP ID:            hCV7623900
SNP Position Genomic:     659007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46943):
TCACTCATGGTTATGACCTTGCATTTGGATGGAAAGTCATCTACAAATATGTTTTCACCTTCTCAGGGCAGGCTGAACAAAGCCTGTCTGAAGGTTGTCA
S
ATAACTATGTTCTCCAAAGTATGGGGAGTTTATTAAAAACTCAGATGCCTAAACCATACTCCGAACCTACTGAATAAGGATCTCTTTCTGTGGGGCCCAG
Celera SNP ID:            hCV7623901
SNP Position Genomic:     658661
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,2)      total(G,1|C,2) ;(C,-|G,-)   African American (pooled) - WICGR(C,39|G,61)   Asian (pooled) - WICGR(G,12|C,72)   Caucasian (pooled) - WICGR(G,21|C,75)   total(G,94|C,186)
SNP Type:                 INTRON


Context             (SEQ ID NO:46944):
GCTTTGTGCAATATTTGCTTCGGGGGAAAAATAAAAGAATCACCAAATATGTTACAAACTCTGGATTTAAAAAAAAAAAACAGCTCTAAGAAAATTTTTA
W
TTTTTTTAGTGTGTTCTCGCTATCTTGGAGTTATTTCTAGTCATCGGGATCTTGCATGATTTAAACAAGGCCCTTAGGTGACCATCAATTTATATCTAAA
Celera SNP ID:            hCV15848239
SNP Position Genomic:     697026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46945):
CCACGCCCGGCTAATTTTGTATTTTTAGTATAGATGGGTTTCTCCATGTTGTTCAGGCTGGTCTTGAACTCCCGACCTCAGATAATCCACACGCCTCGGC
Y
TCCCAAAATGCTGGGATTACAGGCATGAGCCACCATGCCCAGCCACCGCCACTCATTTTACACAGTCCCCTGTATGTCTCCTAGTGACTGCCCTAGAAAT
Celera SNP ID:            hCV11672031
SNP Position Genomic:     42479
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46946):
TTGGATAAGAGTTTGGGGACTTCCTTCTTAGCACACAAAATCCAGTCTTTATTCCATTTAGGTGTGTTCAAATGGTGTCATCTCAGTGAGCCCTCCTCTG
Y
CCCTCTTATTTAAAATTCCATACTTCCAGCCCTGTCTGACCCGGCACTCCCTATAGACACATGCTTTATTTTTATCCAGAGAACTTGTCTGTCACTTCCC
Celera SNP ID:            hCV7623902
SNP Position Genomic:     656298
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46947):
CCAGGGAAAATTATTGTCTCCATTTCATTTTAGGGCCTGAACTTTAGGAGAATAAAGTTATCCTAAAGAGAGCTGTTGGAACCTGCCTTTCTAACCAGCT
Y
CCTATTTTCTAGAAAAGGGGTCACTGTTTGTAGGAATTGTCTAGGATTCCTGAGAACTGCCATCAAACATTCATTTTGCTTTTCCTATTGCTAAGCATTA
Celera SNP ID:            hCV15983510
SNP Position Genomic:     133492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46948):
ATGGCCAGCGAGTATTTGGAAGAAATAGACAAGTGATAGGGAATGGCTTTGGGGAGAATTATCTGCATATAAGGATAAGGGATGAGACAGACTCAGCAGC
Y
GTTTCATGCCAGGGCAGAGTAGAAGGCCGTGGAGCTGCTAGGTGGTTGGCCTGGAGAAAAAACAAGGAGTTTTTTCTGCAAAGTGCTGGTAGGAGTTTAC
Celera SNP ID:            hCV10075953
SNP Position Genomic:     85449
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46949):
ACCTGGCACTTTGGGAGGCCAGGGCAGGTGGGTCACAAGGTCAGGAGTTCAAGACCAGCACAGTTCCGTACAACGGTGCTGTTAACTTGGCAGCCCGACC
S
CAAATCAGCATATCCTGAGTCTATGCAGGCCCCAGGGTAGAGTGTACATTGTCCCCAGGAGTCGAACGGACCTGGGCCATCCTGCCTCCTTCCATCTCCT
Celera SNP ID:            hCV29182930
SNP Position Genomic:     1073867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46950):
AGTCTCTGAGGAGGTAATCTTGTTCAAATAATAGCTTTTCTTGTAACTATATTTTGTCAAATTGGTTATTTCTGATGATGTATCCCCAATTTTCTGAAAT
R
TTTTAAAACTTACATTGTAGCTTTCTCTCATTTCCTTATTCCTATGTTCTCATTCTGGTCCATCATCTGTTCATTTATTCAGTCCATTCTTTGTGTATTC
Celera SNP ID:            hCV15983511
SNP Position Genomic:     134560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46951):
CATTACCCAGAAATCCAAGGCAGAGGAATCAAAACTAGAAGGGGGCACAGCACAGGAGGTAAGAAAAGGAAAAAATAACTGTTGTGTCTGCTATAAGTGC
R
TATGTAGGAATCTATTTGGATGTATGTGGAAAAGTCACATCTTCAAAGCCAGATGATTCATTTGATAGAACAGGGAACCAGGAGACCCTGAAACTTCTTG
Celera SNP ID:            hCV2392530
SNP Position Genomic:     1131754
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46952):
TAAAATGAGTTAAATCAGGTTGATGTTTTGGACCCTGTGTCTCTGCCATTGCTGGGACAACTTGGGATGCTGCCAGTCATGAAAGAGCTAATGCAATGGG
K
AGGGGTGGATGGAGGTGTCTGGGACCCAGGACTAGATGTCCTACTAAGATGGGACAGACAGTGGGAGAGGAAGGTCAGGCTGGGTTGTTTGATTAAGACC
Celera SNP ID:            hCV29182931
SNP Position Genomic:     1062141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46953):
TTTACATCGTGGATTTGTATGAAATAAATAGGATAATGCATGAACCATGCTTAGCGTGAGCCATAACACGCAAAAGCAACATAATCAGTGTTTGTTAATT
K
TAACAAATCAAGCCCGGGATATTGACAGACACCTAAGGCAGACTTGGGAGACAATGTCTCTTGCTGCTGCCTCATGAGGAAGGTGAATGACCATGCATTG
Celera SNP ID:            hCV10075954
SNP Position Genomic:     83942
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,10)      total(G,10|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46954):
GGAGGGCAACCTCTTAGGAGAGTGCATGGTAATCTATGCAAGATGGTGGCCTGGACCAGAGACTAGGAGGGGATGAGAAAAAGAGAGTTCCTATATACTT
Y
GAATGCAGAGCTGACAGGATTTGCCGTTAACTGAGATGAGGGGATTCCAGTTGGTTTGGGGACATGTTAAGCTGCAATGTGTATTGTGTCAATCACACAA
Celera SNP ID:            hCV2392531
SNP Position Genomic:     1131261
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46955):
TTGGACACACTTAAAACGAACATGTGTCTGATTTTCCTGATTTGAAACACCTGAAAATGTGCAACAGGGACTGAGTCAACCACTTTACTTTAGAGCAAGC
Y
GGTGGAGAAGAAGCAGAAGTTATTTTCCAACACCAAAAGTGGATTTATTTTTACGGCTAAGCTTTCTGAATGCCAGATGAACTAGACAAGCGTGTGAAAT
Celera SNP ID:            hCV29182932
SNP Position Genomic:     1061697
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46956):
GGGACTGCAAAGATGTCTGAGGCCCATTCTTTACTCCTCCACATCTCAAGACCTAAGGGAGATAGACAGGCAAATCAATAACCACAGTGCCTTGCTATTG
K
TGCTGTCCAAGGTGGGTGCTGTGAAGAAGTGCTTAAGGGCAAGTGCTGCAGAGGCAGGCACACCTGGGGTCCTTTTCCTGGCCTGGGGGGTCCAGGAAGG
Celera SNP ID:            hCV10075955
SNP Position Genomic:     83587
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,8)   total(G,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46957):
GAAAGCTGTCCTCATGGAGCTGACGTGCAGAAAGGAGGCAAAGTTCAAAGTGCCACGATTGTTCTCTGCTCCTTTGAGATCAGACTGTAGGGCACAAGGG
Y
AGAAGGAGGGCAACCTCTTAGGAGAGTGCATGGTAATCTATGCAAGATGGTGGCCTGGACCAGAGACTAGGAGGGGATGAGAAAAAGAGAGTTCCTATAT
Celera SNP ID:            hCV2392532
SNP Position Genomic:     1131156
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46958):
TCCAGTTACAACCAGGAAGCATCTCCAGTGTGTGTATGTGGGCACACACTCTCCCATGTGTGGCGTGCTTAGCACTGAATACATGTCAGCCGTAATTATT
R
TGAAAGTGACTTTATTTGCCTAAAGACACTCTGACCCAACCTGCCAGATTCCATTCCCACCTCGGTGCCAGCTCTTTCCCCAGCATCAACGGTCCTTATC
Celera SNP ID:            hCV29182933
SNP Position Genomic:     1059026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46959):
ACAAATATTTAGTGTCGCATATGGGCTAAGCAGTGTTCAAGCAGCTGGTGTCACAGCAGTGAACAAATTTCTTGCCCTCGCGTAACCTACATCCTAATGA
R
TGTTTCTGTTCCATCTGTAATAGTTTGGCTGTGTCCTCACCCAAGTCTCATCTTGAATTCCCACATATTATGGGAGGGACCCTGTGGGAGGTAATCGAAT
Celera SNP ID:            hCV2392533
SNP Position Genomic:     1129435
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46960):
GGCCTAGCTCCATGGGAAATATTCAACATTCATCCTGTCCGCTGATCTTTACAACAATCCTCTGTACTAGGATTTTATTGAAGAGACAGCTGAGACTTCA
S
GGGAGGCAGTGACTTGCTGGTGGTCCCAGAGTTATGATGCATCAGGGCCAGGACTTGACTGCCACCCATCTTTCTATCTAATAAAAAAATAGGGAATTTA
Celera SNP ID:            hCV29182934
SNP Position Genomic:     1057898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46961):
AAATATGCACATTCTTGGGCCCCACGCCAGATCTACTACTAAGAACCTCCATGGGTGTGAACTATAATTTGTAAGCAAAATGTATAAGCAAGCTCCCAGG
R
TGAATTTTGATTTGGATAAGAGTTTGGGGACTTCCTTCTTAGCACACAAAATCCAGTCTTTATTCCATTTAGGTGTGTTCAAATGGTGTCATCTCAGTGA
Celera SNP ID:            hCV7623908
SNP Position Genomic:     656186
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   (A,-|G,-)   African American (pooled) - WICGR(A,3|G,97)   Asian (pooled) - WICGR(A,11|G,73)   Caucasian (pooled) - WICGR(A,3|G,93)   total(G,263|A,17)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46962):
GATGGTGGCCAGGCGAGGGTGGTAGGTGAATTGCTGTCTGTCCTGGGTCGCCATGAGGCTTGTGGTGACTGCATAGATGCCCATTCCCTTTGTCAGCCAG
M
AATTTCTTATTCCCTGGCTCCCCTTCTCAACAACCCAAGTTGACCATCCCTTCTTCAGTGACCACAGCCTCCCCCAGGTAACAATCCCATTGCAGCCCCC
Celera SNP ID:            hCV2392534
SNP Position Genomic:     1127858
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   JBIC-allele(C,104|A,1179)   total(A,1179|C,104) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46963):
TTACTTCGTATGTGTTGTCATCTTGTCATGCTGTGTTCATCATGGCTTTTAATGTCTACGTAGCATTCCATTATCACTTTTGATCAACAGTTCCCTGATT
K
ATTTTTTATTTTTCTATAGTAAACATTGAAGGAGAAAATATAATTGTCGCTAAATATTTCAGCCAAATAAGTCTGAGCTATGCATTATTCTAAGGCCCTC
Celera SNP ID:            hCV7624564
SNP Position Genomic:     1112371
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46964):
GCACATTAGTAAGATTGTGTGCTTTGTGAGATCTTGGAGGGCTTCTTAATCCAATTACAGCACTCCGAGGGGATTAGGAACAGAGACCCATGTGTCAGCA
R
CTCCAGGTGGTCTGGCCCTGGGCATCATACAGCTGGAGTTAGTAGATCCCACCTTAGGCAAATGGAAATAAACATTAGCATGGCCCTGCTCCCTTCCTAA
Celera SNP ID:            hCV29182935
SNP Position Genomic:     1057478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46965):
GCATTTCTCAATACATAATTATACTATCATCATACTATTATAATTTTCACTTATAAACATTTATTTCTCCTATTAAAACTAAAGATATGGCTGTCAAACT
R
TGCACACATTTATTATCCCTTTATATTCTAGGTTTATGTTATTGTGGCTATAAGAATCTGCTGTAAATAATTATATGAAATACGACTCTGATAGAATTTT
Celera SNP ID:            hCV7623909
SNP Position Genomic:     646220
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;WICGR7_african_american_pooled(G,15|A,85)   WICGR8_asian_pooled(G,10|A,73)   WICGR6_caucasian_pooled(G,23|A,72)   total(G,48|A,230)
SNP Type:                 INTRON


Context             (SEQ ID NO:46966):
TGCAGGAGGCAGCATACAGACCATGGGCTTGTAGCTTTCCAGTTCAACTACACCACCAAACCCTGGCACCTAAGACTTTGGTTGTTCCCCGTGTCCTATG
A
GCCCTGATCACAAGGTGAGCAATGCCTTCTAGGCTGGGAAGGCAGAGTTGGCAAGAACTGCCAACCCCAGGGATGGCATCAGGCCCGCTGATAATTAAAG
Celera SNP ID:            hCV11672039
SNP Position Genomic:     47282
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46967):
ACCTCCCAGGGCTGGTGTGAGGGCTGAAGGCATAGATGCTGGAAGCTCCTGGAGCGGTGTCCAGCCGGCGCAATGTAAGGCTCGATGCTGCTGCAGCTGT
R
TTACTATTAATATTAAAGGGAGGCTGCACCCCGAGGCTGTTTTAGGAAAGAACAGGCCAGACGCCTTCCAGGAAGCATCAGCAGGAGCCTCTCCTGGCGT
Celera SNP ID:            hCV2392535
SNP Position Genomic:     1127413
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46968):
TTGGACAACTCTATCACTTACTAGCTGTGTGTCCTGGAGCCAGCTACTTAGTCCCTCACCACCTCTGTTTCTTCATCTATATAATGGGTCAGTAATCCCA
M
CCACATGAAGTTATTGTTAGACTTAAATAAGCTGACCCATGTAAAGTGCTTGGAAATTCCCTGGCACAAAGCAAGTGCTCAATAAATATTATCTGTGACT
Celera SNP ID:            hCV7624565
SNP Position Genomic:     1111885
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,8)      total(A,2|C,8) ;no_pop(A,-|C,-)   ;(A,-|C,-)   Caucasian(C,84)   African-American(C,84)   Asians(C,84)   total(C,252)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:46969):
GCCTCTCTGTAGCTTCCATCAGGAGTATTTTCAATTTCCTCCTGTCCCTGACACAGAGGCCCAGCAACAGACAAAGCACATTAGTAAGATTGTGTGCTTT
R
TGAGATCTTGGAGGGCTTCTTAATCCAATTACAGCACTCCGAGGGGATTAGGAACAGAGACCCATGTGTCAGCAGCTCCAGGTGGTCTGGCCCTGGGCAT
Celera SNP ID:            hCV29182936
SNP Position Genomic:     1057403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46970):
CATGAGTCACAAAAATAAATGTAGTGATGCTCTTAAAGGGTTTAGCACCAAGCTGGGCCCAAGGAAGCATTCTGTGTGTCTATTGACCAACTTTTACCTA
Y
CCTGACACCAAGGAGCTTAGAGTTTAGTGGAGATGGCAGAGCCGTCAGGGCCCGTGTTAGGCTCCCAAAGGCATTTTTACCAGTGCATGTGCCTCGCACA
Celera SNP ID:            hCV2392536
SNP Position Genomic:     1126415
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46971):
AGGTGCTGAATGCTTTCTGTTTATTATCACGCCGAATCCTTATGATTTCTTTGTGAGGTGCATTCTACTAGACCCTCCAGTTCTCAGATAAGGAAGCTGA
R
GGTTAGAGAGCTAAGGTAATGCACCCAGGTTACAGCAGGTTATCCTCAAGTTCCCCACGGAGTAGTGACATTTTGTCACCATTGATGCTATATTACTGAT
Celera SNP ID:            hCV12111849
SNP Position Genomic:     1015205
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46972):
AATTGCTTATTCATACATAGTACATTCATATATAGGAGTACATTACAAACCTAGTCTACATACACATAAGCACGTATTAACAATCCCTTAATTAACTATC
R
CACATCTACTGTTGTCAAGTACACAATAAAACCTAATCCATACGAATACTGACCCGTACTAGAAATCCTTAATATTACGTAGTACATACATTCGTTCATC
Celera SNP ID:            hCV29182937
SNP Position Genomic:     1055379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46973):
CTCCTTTAAGTAAAATCCACCTTTTCTGGAATCATGTTGGAAAGCCTGCAGGCCCACGATGAGGGACTATCTTATATTCTTTAACTCAGGAATCCTCGTT
Y
CTGTTTCTGCATGTGGGACCAAACTGAGCCATGTTCAGTGTGCCAGACCAAACACTCTGAAGCTGGACTAGAGTAATAGCAAACTGGAGAGTCGCATCCT
Celera SNP ID:            hCV2852430
SNP Position Genomic:     611146
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46974):
AGGCATGAAAAACACTGTGTACCGAGAAGCCCAGCCCCTGGAATCCAGCATGCTGGTGCTACATTCCAGCTCTGTCTCTTATTAACTGGGCCGCTTTTGA
Y
AAGTTGCTAAGCCTCTCTGATTCTTGGTTACCTCAACCTTAAAACAAGGATGATACCCACTTCATCAGGTTGTCATGAGTCACAAAAATAAATGTAGTGA
Celera SNP ID:            hCV2392537
SNP Position Genomic:     1126241
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46975):
AAAATCCATCATCATTATCCTTGCTAACAAATACTGACTCCTTGTTATACATATGCCAGGCTATTTGCCAAGCTCCTTAAATGCATTATTTATATCAGTC
W
CAGTTGCTACCCATTAGACTATTGGGAAGAGCCTTCCAATAAGCTGTATCTTTTATGTAAACATAGACTCAAAAATGTTTGCAAGTTATATTTCTGATGG
Celera SNP ID:            hCV29182938
SNP Position Genomic:     1047635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46976):
CCACATTTAAAAGGGGTAGACCCACAGCAGAGGTCTTGGTCAGAGGTCAGAAAGGCTGAGAAAAATGGGCAGCTGGCATTTCACAATTAGTCGTGAATGC
R
TTTTCTATTCCTTTCGAGTTTTTATTGCAGAACCTAATCATGAACTCCACCAAAGTCACATTAGTTCCTGTTCAGTGTTTCTTATCTCCTGTGATGTGAG
Celera SNP ID:            hCV2852431
SNP Position Genomic:     611487
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46977):
ATATGTTGAACCACTACCAATCACTCCTGGATCAACAGGAAACTTGCTACCTGATGAGTTGCCTTTTTTCTTTTTTCTTTTTTTTTTTTTTTTTTTTTTT
Y
TTTGCTTTTTCCATCCCCATGATTGTTCCAACAGAAGGAGAAAAGATGTAATAAACCTTTACCGGGCACCGTCTGCGTCCAGGCACTCTACTCGGCCCTG
Celera SNP ID:            hCV2392538
SNP Position Genomic:     1126012
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46978):
AAGAGTACAGTCACTGGAAGGTGGACTGTCCCAGGTGGGCATCTTCCTCAAAAGCCATGGACTCAGCACCTTCTGTGTATCTGCAGCCAACACATGGAAA
Y
ATCTCATAGGAAATGAATCAGAGAAGTGTGCCCTGAGGGGAAGAGGGAGCAATTCCTGCCAGGGCATGCAGTGAATGTTTCCCTTTCTTGCCCTTTGGTT
Celera SNP ID:            hCV29182939
SNP Position Genomic:     1044013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:46979):
AACCTCTCTCTCCCGGTGTCCTTATAGCAACCCCAGGGACAGACTCCAGTTGGCTCTATCTGTGCCTCATGTCCATCCTTTGAACCAACCACGGGCCAGT
M
GAATGTAGTACTCGGATTGACCAGGCACCTGAAGTCTAAGACAGCTTCCATCAGTTTCCTGATAACTGGCATTTACTGAGCACTTTGTCTGCACTAGATC
Celera SNP ID:            hCV174876
SNP Position Genomic:     907940
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46980):
TGTCTCAAAGTTATCCCAGAGGATATCAAACTGAGAAGACAAGTATTTCTTGGGAATGCCACAATGTGGATGACATAATTTTGGGTCAGCCCAGGAAATC
Y
GGGCCCTAAGATAGAAAGAAAGGAAAACTGTGAATTCTGTATTTGGAATGTGAACCAAGCATATGCCGGGAGACATCCTCGAAATACCATTTCCATTCAG
Celera SNP ID:            hCV2852432
SNP Position Genomic:     612211
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46981):
CAGAAAGAGTCCTGTGAAAACTCAGTTAAATAGCACAGCTCTGGATACTTGATTATTTTTTTAAGGAGGAAAAAGAGTGAGACATTGTCCTGTAAAATCA
Y
CCAAACCCTGGCTTTCCCTGGAAATGTGGCGCAGGCAGGCCTAACCGTGCTGAGTATTGTTTCTGAGGACTGCCTCCGAGTTCATGTCTCTAAGCATTTT
Celera SNP ID:            hCV2392539
SNP Position Genomic:     1125582
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46982):
TAAATCAGCATGCAGTGTACATGAGTAATATATTCATACCAGGCCCAGTGAAGGAGTAGACACTTATTTAGTGTGTTTATGCAGACATAGATTTAAAAAT
S
TATAACCACATTATTATGGGTTCTTTACAATTGTAGGAGCAGGAAGTTCACACAGGTCTTCCAGCCTGTCTAGCAGGTGGACTGAGAGTCATGAATTTCA
Celera SNP ID:            hCV174877
SNP Position Genomic:     907074
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46983):
TCTCTAAACTTGAGCAAATGCTCAGAGCAAGACCTGGTGCTAGGATCGGAACAGGGAAGACACATGGAAATGAATAAGGTCACATTCTAGATAACTTGCA
Y
ATCACGGCCCCATTTTTGTAATAATCCCTTTCTCCATCCTCCACCCCTATCCTCACTTCCCTCTTCTCTATGAAGAATTCAGTTTAACTGTGTAGGTTGG
Celera SNP ID:            hCV2852433
SNP Position Genomic:     612472
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46984):
GAGAATAAATAATGCATTATTAGAAGAATAAATCAGCATGCAGTGTACATGAGTAATATATTCATACCAGGCCCAGTGAAGGAGTAGACACTTATTTAGT
K
TGTTTATGCAGACATAGATTTAAAAATGTATAACCACATTATTATGGGTTCTTTACAATTGTAGGAGCAGGAAGTTCACACAGGTCTTCCAGCCTGTCTA
Celera SNP ID:            hCV174878
SNP Position Genomic:     907046
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46985):
AGGGAATAGATAGGAGAAAAATTTTGGATTCACCTTTGATTGTACTTCCTGATGGAGTCAGGATTGGGGTGAGGAGAATTGCACGTTAACAAGCATAGAT
Y
GCACATGGAGTGGCTGTCCTTTGAGGTAGTGAGTCCCCTCATGGTTGATGTGTTCCAGCAGGAGCTGGTGAGCACCTTCAGGAAGAGCACAGAGGGATTG
Celera SNP ID:            hCV2852434
SNP Position Genomic:     612783
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46986):
TTCTCTGCACCAGCCCAGATGGAGAGCGTCCTGGGCAACCAAAGTCCCCAGGAGTATTTGCACCTCTCAACCAAGATTCTTAGATCACAGCTCTTAATCA
Y
TTACCCTGCAGTCCACCCACAGGAGATGAGCTTTATTTCAGTTGTGTAAATTAGTGAAACAGAACCCCGAAGAGCTGAAATGTCCTCATATCTGTCACGA
Celera SNP ID:            hCV174879
SNP Position Genomic:     906770
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:46987):
AGTCAGGATTGGGGTGAGGAGAATTGCACGTTAACAAGCATAGATTGCACATGGAGTGGCTGTCCTTTGAGGTAGTGAGTCCCCTCATGGTTGATGTGTT
M
CAGCAGGAGCTGGTGAGCACCTTCAGGAAGAGCACAGAGGGATTGTTACTTTATGTAGTTACATTAGAAGTAGGGGGTCTGCAAACTGTGGCCTGCAGGC
Celera SNP ID:            hCV2852435
SNP Position Genomic:     612838
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46988):
TGTATTTGTTTCAATGGTAAATCCTTTTGGAACATATAGAATGCAGAGATTTTTTTTTCCATTAAAATAAATGGGTATTGGTGGTTAAAACTGCTGGACA
G
TAACTGTTCTCTGATTTCTATCTTGTGTCCAATGTCACTGATGTTGGGTCTTGTCTTAGTGCAAGTTCACATTTTTGACAGACCATTTGGGGTCCGTCGT
Celera SNP ID:            hCV2844271
SNP Position Genomic:     1178705
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,7)   total(G,1|-,7) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:46989):
GGGAGCTAAACAATGAGAACACATGGACACAAGGCGGGCTTTTCAGAGGGTAGAGGGTAGGAGAAGGGAGAGGATCAGGAAACATAACTAATGGGTGCTA
K
GCTTAATACCTGATTGATGAAATAATGTTTACAACAAACCCCCATGACACAAGTTTGCCTGTGTAACAAGCCTGCCCTTGTACCCTTGAAATTAAAAGTG
Celera SNP ID:            hCV2852438
SNP Position Genomic:     613435
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46990):
AATCACTAAATTTTGTACCTCTTAGGACTATTCAAACCCAGCAATTTGTCTCTGAGAATGATAGATAAACATGAAGATACTGGAGAAGTCAATTATATAT
M
CCCCTAAAATGCCTTCAGCGTGTTCAAAAGCACCGAGCTCTCCGCCATGATGTTTGTAAGGGGGTGACGTTAGATAGTGATCAAAGAAAAGTCTAATACA
Celera SNP ID:            hCV26379870
SNP Position Genomic:     178153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46991):
GATACTTTCTGTGGAAAAGGGAGGGAAAAAAAAAATCACTCCACCCCTCCTGTCCAAATGAAAAAGCATTTAATTGAATGTTCTTTATAGAGGTGAAAAA
A
TACCCTGTGGAGTTCCCAGTGTTTCATTATCCGATTGAGTTCGGTACCTCAAGTTTCAAAGACCGTTCTCCTGAATGGTTATTCTCATTTCCATGTCAGT
Celera SNP ID:            hCV26379871
SNP Position Genomic:     172474
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:46992):
CTCCCACCTCAAGGTCTTCCTATTAGCTGAATACCTGCCTTAGGAAATCCCTCATTTTCTCTGGCTATTTTCTGCATATTCTTTTTTTTTTTTTTTTTTT
T
AAGCAGCTTTCTAGCTTCTCTCTGGAAGAGTGGAAAGATGATGGGGCTAGCCCATAGTTTCTCAACCTGGGCAATATTGACAATTTGAACTAGGTAATCT
Celera SNP ID:            hCV26379872
SNP Position Genomic:     348530
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46993):
GCCACTGCACTCCAGCCTGGGCGACAAAGCGAGACTCCGTCTCCAAAAAAAAAAAAAAAAAAAATTCCTAAGCCTAGCTGGGGAAGGTGACCACACCCAC
Y
TTTAAACACGGGGCTTGTAACTCAGCTCACACCCAACAAATCAGGTTGTAAAGAGGGTTCACTAAAATACAAATTAGGCTAAAGCAGGAGGTAAAGAAGT
Celera SNP ID:            hCV26379873
SNP Position Genomic:     170313
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,8)   total(C,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46994):
TATAATACAAAATACTATAGTATAATACAATATAATGTGTATGTTTCTTTTTAAAACCTTTTCAGTATACGTTGAAGGAAACAAAGACCCAAGTTTAATA
S
GGAAATGATTTTTGTAATAAAGTGAACAAACTGGATAGGTTCTCTTGAGCTGGTTACAGCTGTTTTCTGACTGAATTTTAATTATAAAAGATCTAGCCAG
Celera SNP ID:            hCV15848240
SNP Position Genomic:     666219
SNP Source:               dbSNP
Population(Allele,Count): WICGR7_african_american_pooled(C,2|G,98)   WICGR8_asian_pooled(C,1|G,82)   WICGR6_caucasian_pooled(C,1|G,94)   total(G,274|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46995):
AACCCGGGAGGCGGAGCTTGCCGTGAGCAGAGATCACGCCACTGCACTCCAGCCTGGGCGACAAAGCGAGACTCCGTCTCCAAAAAAAAAAAAAAAAAAA
A
TTCCTAAGCCTAGCTGGGGAAGGTGACCACACCCACCTTTAAACACGGGGCTTGTAACTCAGCTCACACCCAACAAATCAGGTTGTAAAGAGGGTTCACT
Celera SNP ID:            hCV26379874
SNP Position Genomic:     170276
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46996):
TGGGCGTGGTGGCAGGTGCCTGCAGTTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCCGTGAGCAGAGATCA
Y
GCCACTGCACTCCAGCCTGGGCGACAAAGCGAGACTCCGTCTCCAAAAAAAAAAAAAAAAAAAATTCCTAAGCCTAGCTGGGGAAGGTGACCACACCCAC
Celera SNP ID:            hCV26379875
SNP Position Genomic:     170212
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46997):
GAAATATTTTCAAAGGCCATTCTGGGCTGCACAAGGATAGAAACAAATGGGAGGTCCATTGGGCAGGACACACCTGTTTCTACAAGAGCAACCTACTTTT
Y
TGTTTTGTTTTAATCAAGGGAGTGTCAAGCAATTGCTTATTTCATAAACAGGGCTGTGCTGCTATTTTTAAACAGTGTGAAGTCCACAGGTCTGAATAAT
Celera SNP ID:            hCV26379876
SNP Position Genomic:     168669
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:46998):
AGGCTCATTAATCATGCTCTTGATTTTAATAACAATTTTGTTTGTTTTTTCTCTAGAAAAGTTACGAATTAAGTTGTATTCCACGGACTGTATGGAGGGG
R
GTGAAGGGAGGAAGTGTGTGTGTGATCTCAAAAGCCATCATACATCTTTCCGGAGAGTTTGAAAATAATAATCTGAAAATCCAAAGGCTGACTCACAACT
Celera SNP ID:            hCV26379877
SNP Position Genomic:     166847
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:46999):
CAAGGGCTTCTCCACACCTAGGATTTGATGTAGAATTACTAGGGCAGTATGTAAGGACAGAGAAAGAACAGAGGCAGCGGCAGGCTTCTGACAAGGGAAT
M
CTGGTAATCAGGCTCTCTGCATAATTTTTGGAGATTTGGAGATGGAGTTAGTGGAGGGAAAGAAAGAAACGGATATAATTAGAAAAAGAAAAAAATACTA
Celera SNP ID:            hCV26379878
SNP Position Genomic:     162850
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47000):
GCAAGGGCTTCTCCACACCTAGGATTTGATGTAGAATTACTAGGGCAGTATGTAAGGACAGAGAAAGAACAGAGGCAGCGGCAGGCTTCTGACAAGGGAA
T
ACTGGTAATCAGGCTCTCTGCATAATTTTTGGAGATTTGGAGATGGAGTTAGTGGAGGGAAAGAAAGAAACGGATATAATTAGAAAAAGAAAAAAATACT
Celera SNP ID:            hCV26379879
SNP Position Genomic:     162849
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47001):
ATTGCTTTTTAGCTCAGTCTTCGAGGGAGTGCTGGAGCAACTCTGTGCATCGGAATCACCCGGGATCCCAGCAGGTCTGGGAGGGACTGAGATTCTGCTC
Y
CAGGTGATGCTGATACTGCTGCTCCCCAAAGTGCGTTAGGCCATACACTGAACAGCAAAGGAAGAGAAAAATGCAAAGTTGGAACCTTGTGTTTCCTGGC
Celera SNP ID:            hCV7623911
SNP Position Genomic:     641945
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47002):
TGATTTCTCCTTCACGCACCTATGGGTGTGAAATGAGAAAAAAATATCACTTGAAACCAAATCAAAAGCTACAGCAATTCTGGAATTAATAAAAGCTCAC
R
TGTAGAAGGAAGTGTGGGTTTATGGGTAGGGTGACCATGCACTACCCAGGTTTGCTTTACCTGAAGGCAGCGGGGCACACGTACTGAGGACTATTGGGTA
Celera SNP ID:            hCV11672041
SNP Position Genomic:     49516
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47003):
TTCTGGAAAGAATTAAATTTTTTATTAGTATCTATTTCTCATATTTCTCCCCAGCACAGTCAGTTCTGCGTGGCGCAGCCATCCTACCAAGGGGAGTCTG
W
GGGAACCAGGACACTTGATTGCTTTTTAGCTCAGTCTTCGAGGGAGTGCTGGAGCAACTCTGTGCATCGGAATCACCCGGGATCCCAGCAGGTCTGGGAG
Celera SNP ID:            hCV7623912
SNP Position Genomic:     641827
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47004):
TTTCCCATGGCTGTCACTGTTCCTCCTCCTGGAGGTGCAGTATCACCGAGGCTTCTCTGTATTTCCTATCATGGGTAATAGTAACAATATCAATAACACA
R
TGATGATTATCATGTATTGTTTAACTATGTGTCATACACTATGTCAAGCACTTTTCATATATGATCTTGGTAAATCCTCATGCCAGCCTTTCGTGGGTAT
Celera SNP ID:            hCV11672042
SNP Position Genomic:     50015
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47005):
CCCTAGTGGGGTCGTCTAAGAGCCCTTGGGAGGGCACTTATCTTCATGTATATATTACATAAATCTTATTTCAAAAGGGATTTCTACTATAAATATTAGA
Y
CATCTGTCTCTAAATTCTCCAACTGTTTCCATCTATCTCTAAATTTCCCAACTATCTCCATCTATCTCTAAATTCTCTGACAGTGCTGAGATGTAACGAA
Celera SNP ID:            hCV132639
SNP Position Genomic:     911410
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47006):
CATAGATTACAGGCAGAGAAACACTTGAAAATCATTCACTTAAGACAAAGTCAATAGAAGACTTCTCAGTCTCAAATTTTTTTTTATTTTATTATTATAC
W
GTAAGTTTTAGAGTACATGTGCACAATGTGCAGGTTAGTTACATAGGTATACGTGATTTTGACTGAGGAAACTCGCTTCAGTTTGCTTAAAACTGAATGC
Celera SNP ID:            hCV7623913
SNP Position Genomic:     641010
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   African American (pooled) - WICGR(A,20|T,80)   Asian (pooled) - WICGR(T,84)   Caucasian (pooled) - WICGR(A,9|T,87)   total(A,29|T,251) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47007):
GAAAATGCATTTCATTTTTAGTTTTGCATATGTGCAGTTCTGTATTTGGTGTAGACAGGGTCATGTAGAGGAAGAGTACAGTCACTGGAAGGTGGACTGT
S
CCAGGTGGGCATCTTCCTCAAAAGCCATGGACTCAGCACCTTCTGTGTATCTGCAGCCAACACATGGAAACATCTCATAGGAAATGAATCAGAGAAGTGT
Celera SNP ID:            hCV29182940
SNP Position Genomic:     1043942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47008):
AATAAGCAAACAGAGGGGAGCAGAAAGAGTCCTGTGAAAACTCAGTTAAATAGCACAGCTCTGGATACTTGATTATTTTTTTAAGGAGGAAAAAGAGTGA
S
ACATTGTCCTGTAAAATCATCCAAACCCTGGCTTTCCCTGGAAATGTGGCGCAGGCAGGCCTAACCGTGCTGAGTATTGTTTCTGAGGACTGCCTCCGAG
Celera SNP ID:            hCV2392540
SNP Position Genomic:     1125562
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47009):
GGAAAGACTAAAGTCACATGAATAAGATCTCAGCCCTGCATATGTAATGGCAAAATGAATGATGTAGGCTCTTCCTTTGAGAAACTAACAGACTGTGGAT
S
CAGCTCATTGTAAAGAAACAGCCATATGAGTGATGTAAAGGGTATTAATCCCTCAATACAGGATCATTTATCTGTAGTACCACTCCATTGCTACATTGTT
Celera SNP ID:            hCV29182941
SNP Position Genomic:     1040173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47010):
CGTGCATGACAAGGTGCTGAATGCTTTCTGTTTATTATCACGCCGAATCCTTATGATTTCTTTGTGAGGTGCATTCTACTAGACCCTCCAGTTCTCAGAT
M
AGGAAGCTGAAGGTTAGAGAGCTAAGGTAATGCACCCAGGTTACAGCAGGTTATCCTCAAGTTCCCCACGGAGTAGTGACATTTTGTCACCATTGATGCT
Celera SNP ID:            hCV12111854
SNP Position Genomic:     1015194
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47011):
TGCCATTGCCCAAGCTGGGACCAGAACCCCTGAGCCATGTTAAGAAAAAGTCAACCAGATCCAGGCATTGTTACCCTTGAATGGTAAAGGTGATTTAGTG
R
AATCTTGATCAAGGCTCCTGAGCCATTTCCTGTGGGAAAGTAGACATCTTTGAATGACTGCACAGAGAATCGTGGTCTTTGCCACTCTCCCCTACAGTTT
Celera SNP ID:            hCV29182942
SNP Position Genomic:     1039650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47012):
TCATATGTACCCTACCCTTTTCATTATCCTTGAAGAGAAACTCACCTCCCACCCTGGAATCCACTGGAGCAGCCTGTACCCTGCCAACCAGTGCCCCCCA
Y
ACCAGGACTCTCTGCCACGTGTGTGTACTCACCAAGTGCTCCTCCATTTCCCATTCCTGAGTTGGATCTACTCCAGGGTCACTCCCTTGCTTCATGGTAG
Celera SNP ID:            hCV174880
SNP Position Genomic:     906285
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47013):
AAAAAAAAAAAAAATAGTTCCCAGGCCCCTGTTAGACTTCATGCTCCCTGGCTTTCCCTCTCTCCTACAAATATTAGAATTTGTTGCTCGCCTGCTATAT
S
TTGGGGCCTGCATGCTGTGTGTTGTGAGGAGGGCAGGCAAAGCTCATTGCCCTTGGGATTTGTTACCTGGCAAGAAAGCAAACACTGAACCAGTAATGAT
Celera SNP ID:            hCV7623916
SNP Position Genomic:     638299
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   African American (pooled) - WICGR(G,18|C,82)   Asian (pooled) - WICGR(C,84)   Caucasian (pooled) - WICGR(G,5|C,91)   total(G,23|C,257) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47014):
AGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGTCCTACAGTGAAATT
M
GAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTGTCCTCACTTACAG
Celera SNP ID:            hCV12111855
SNP Position Genomic:     1014960
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47015):
AATATGTCCTTGGAGAGTGAAATGAACGAGTGGCTAGGAACACACACATGGGTGGGGGAATTAACATACTGACAGGGAATGAACAAATGGGTGGGGTAAT
R
AATGCACAAATCAGAGACTTAATACATAGTATAGACAGGGATGGGCATGTGGCTAGGGGATGATGGATGGAGGATAAAAGTGTGGATAGAGGATGAATGA
Celera SNP ID:            hCV29182943
SNP Position Genomic:     1037045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47016):
AGGCTCTGACCTCCACCTATAGGTTCAATTCCCCTCCACCCCAAGGACTTAAAGAATTTTTCCAGACACTTTATGACTCACCACCTAGTGGCTCTTCCCA
R
TGTGACTCCAGCTAGCCACACCAAGTCCCTTTCAGACTCATGACCTTAGCAGGTGCTGTTCCCTCTGCCTAGAACTTTCTTCCTTTATGTCCTCACCTGG
Celera SNP ID:            hCV174881
SNP Position Genomic:     905649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47017):
GGAAAATGTCTTCATGAGCATATTCAGTGATTTGGCACTTACTCCACATGAGAACGTCCCTACCATGATGTCCAGTAAAGAATGGGCTACGTGTCCCGCA
R
ACTTGATTACCTCCCTGCTCCAGCTTGGCTCTTTCTACAAGGGCTGTGCTGGCCCAAACATCAATGTCTCATTTAACTTTTGAAAATCGTCCTCTTGGCA
Celera SNP ID:            hCV7623917
SNP Position Genomic:     636882
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47018):
ACCATCATTTCACATGACCTCTGTTTTTTAGATGGGGAAACTGAGGCCCAAGAGTGACAGTCATGTGCTGCAGGTCACAGGCCAAGTTTGTGACAAGACC
R
GGGTGTCTGTTCGGGTTTTGGAGAAACAAGGACCCTAGATAGGGTCCATTCATTCATTCATTTATTTATTTATTTGTTCATTCTCCAGACAAATCGTTAT
Celera SNP ID:            hCV7624573
SNP Position Genomic:     1108527
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47019):
AAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGTCCTACAGTGAAAT
W
AGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTGTCCTCACTTACA
Celera SNP ID:            hCV12111856
SNP Position Genomic:     1014959
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4)   total(A,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47020):
AATCAATCTGTTGGGAAGAGGTTTAGAAAGGAAGAAATCACTTAGGAATTCTCTTACCCTGCTTTATTTTTCTTCAAATAATCCAACAAGCTGGGTATTT
K
ATTATTTATGTATCTATGTAGCATCTCACTCCCACATAGGGACAACACTCATGACAGAAGGGGCCTCCTATGGTTTGTCCGCTGCTGTGTCCGGCATTAA
Celera SNP ID:            hCV29182944
SNP Position Genomic:     1036765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47021):
GTCTAGTTTTATACCGTTCTATAAATGAAAGTAATAAAGCACAGCAAAGTTGCCGAGCGCAGTGGGTTCTTAAACACCTGCAGCGTCATTTCTCATCAGC
M
GGTGGGCGGCAGAGTTCACATCCCTGGGCCCTGTCGGGGTCTGGCCATCTCCAGGTGGTGACAGGTGGCATCAGACTGGCCTGAATTCAGCCTTGGGGCT
Celera SNP ID:            hCV174882
SNP Position Genomic:     905422
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,4)      total(A,4|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47022):
AATATTGTAATTGGACCACTTAGTTTTCATCTTTGATTTGAGGTATTTGAAATGAATGTGAGATTAAAGCAAATGAAGGGGCATGAGAAGTGTTAGCAAT
Y
CTCCAGACAGGGAAAATTTCTTTTCATTCTGTCTCCATGATATCAAACTGAAATCCTCAGTTAACCACAGCAGGGGCAAGTGCCTGAGTTGAAAATGTCT
Celera SNP ID:            hCV11672048
SNP Position Genomic:     53483
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,10)   total(C,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47023):
TTTCTCTTGTCCTTGTTTGTGCTGTGGTGTTAGCATCACGAGCCTAACCAAGTGTGTCAATCTCCCTACAGCTCTGGAGATTAGACCTGTGCTTTCTCCA
S
TTAGAGACGGCTGTGAGTGCCATGCTGGGGGTGGGATTCTCCATGGGCTGCAGGGGTCTGTGTAGTTTCTCCATTAACTTCAGCAACACCCCATGGAAAT
Celera SNP ID:            hCV29182945
SNP Position Genomic:     1035414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47024):
GATGGCTCCACCGTTCATTGTCTCCACCCAGCTCTTAGTTCATGTTACATGGGTGCTCAGCAAATGAGTGTCCGTCTGTCCTCCTCTGTCTGCAGGTGTG
K
TTCTGAGTAGGAGCAGCAAGCTGTCCTTCCAGGGCATCTGTGGGGCAGGCATACCTCCTTGAGGTCTCCCATGGGAGGAGGCACCAAACAAAATAAGCAA
Celera SNP ID:            hCV2392545
SNP Position Genomic:     1125062
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47025):
ATGAAAGCAGAAGGTTTCTCTTGTCCTTGTTTGTGCTGTGGTGTTAGCATCACGAGCCTAACCAAGTGTGTCAATCTCCCTACAGCTCTGGAGATTAGAC
M
TGTGCTTTCTCCAGTTAGAGACGGCTGTGAGTGCCATGCTGGGGGTGGGATTCTCCATGGGCTGCAGGGGTCTGTGTAGTTTCTCCATTAACTTCAGCAA
Celera SNP ID:            hCV29182946
SNP Position Genomic:     1035400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47026):
TTTTGAGTTACAGGAAAACAAAAATGGTCTGTGGCCAATAAATGTCTAGTTTTATACCGTTCTATAAATGAAAGTAATAAAGCACAGCAAAGTTGCCGAG
Y
GCAGTGGGTTCTTAAACACCTGCAGCGTCATTTCTCATCAGCCGGTGGGCGGCAGAGTTCACATCCCTGGGCCCTGTCGGGGTCTGGCCATCTCCAGGTG
Celera SNP ID:            hCV174883
SNP Position Genomic:     905379
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47027):
CCCTTGGCTCTGGAAGTCCTTCCAGGTCAACAGCTGGCCCTGGCCACTTGCCTGGAAGCTTTCTTCCCTGCTCCGAGGGGGCCCTGCTGAGAGTGAGCCC
S
CCTTCCAGGGTGGCGCAGGCCCCAGTAACCCCCACTGCGCTGCCTGCGACTCGAATTCTGTTAATCAGTTTGCCTTGCGTCTCCCAACACCGACACCCAG
Celera SNP ID:            hCV2392546
SNP Position Genomic:     1124485
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47028):
ATTTCTTAACTCTGTGACTATTCCTGTTTTCTACTTATGAAGTCCAGCCTCCTCGCCCCCCATTCCCCTCAGGTGTGGCAGTGAGGTTAAAGTGGCCACA
S
GCTGCTGTTGGAGTGAGCCTTCCTGCTCCATGTGGGTTCTATAAAATGTGCCCTTGGCACCTGTTCAATCAGACCCAATGAGGATTTTGGAACAGTATGT
Celera SNP ID:            hCV29182947
SNP Position Genomic:     1032168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47029):
CAATTTGTGTTATGGACTGTCAAAATTAACATGAGTATATGAGGTAAGGCATATTGGGGAAGAAAGTTCCACAGCGCAATATGCAACCGTGGAGTTTCTA
R
TCTTAATAATTCAGTGGGTGCCAACAAGACGTGGTCTCTATTACAGACTTGAAGCTGGTAATACTTCATTTTTAAAAATGTAACCATTTTTGAGTTACAG
Celera SNP ID:            hCV174884
SNP Position Genomic:     905191
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47030):
AATTAAAAGTGTTTTCTTTTTTTTTTTTTTTTTTTTTAAAAAAAAAAAAAAAGGCTGGGCACGGTGGCTCATGCCTGTAATCTGAGTGCCTTGGGAAGCC
R
AGCCGAGCAGATCACTTGAGGTCAGGAGTTCAAGACCAACCTGGCCAACATGGCGAAGCCCTGTCTCTACTAAAAAAACAAAAATTAGCCAGGCATGATG
Celera SNP ID:            hCV2852440
SNP Position Genomic:     613625
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47031):
TGAAGAAGCGACTAAAGCAGTGATTGTAGGGCATTTGAACTTCATGGACCAGTAATTTTTTTAAATCCTAGATTGATGAGAGTGTATTTTAAAAAATTTG
S
TAAGACTTGGTATGAATTTTTTAAAAGTAAGTAAATGAAGGGAGGGGAAAACACTACCGCCATTTACTTTTGCCAGGCTTTCCTTTTAAAAGGTCACTTG
Celera SNP ID:            hCV15983528
SNP Position Genomic:     242946
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47032):
TGAGCCCCTGAGGGCAGAAGCTGGCAGCCCTTGGCTCTGGAAGTCCTTCCAGGTCAACAGCTGGCCCTGGCCACTTGCCTGGAAGCTTTCTTCCCTGCTC
Y
GAGGGGGCCCTGCTGAGAGTGAGCCCCCCTTCCAGGGTGGCGCAGGCCCCAGTAACCCCCACTGCGCTGCCTGCGACTCGAATTCTGTTAATCAGTTTGC
Celera SNP ID:            hCV2392547
SNP Position Genomic:     1124458
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47033):
TTCACCAAGAGACAATATACCCATATAACAAACATGCACACATGCCCCCCCAATCTAAAATAAAATAATTTTTTTAAAGGTACTCCATCAGAACACCCCC
M
ACCTCCCGCACCCTCAGGTGTGGCATTACAGAAACCTCAGCAGCAAAGCCCCTTCCCCATCCTTCTCCAATCACCAGAGCACTATGCTGACTCCCAGAAA
Celera SNP ID:            hCV29182948
SNP Position Genomic:     1028597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47034):
AAGAGAAGAGTGTATATTAGGAAGTAACTAGCAGCCCTGCCACAAAAATGCCCTCATCCTCACTGCCCTCCCTCCCTTCTCAGAGGAAGGCACTCTCTTA
R
AGTTAGTATATAACCTTCTTGTCTATGTTTCTATAATTAAATAACTATGTTCCTATCCATTTAAAATACATGGTTTTATTGATCTTAAAGTTTTAATAAA
Celera SNP ID:            hCV16163242
SNP Position Genomic:     762326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47035):
CAGATGTAAGAAGAGCTTACACTTTTTATTATATCTGACATTCAATGGGAAACCACTGGAAAGGTTGGAGATTGGGGTGACCAGTGTTTCTGAGATGAAG
Y
GAAAACACTTAGCCTCTTTTCTTCTTATGTCCATTCTTCTGTGTATTGATAAAGCCTCCATTTTTCTGACATTGGAATGGGAAGAGATGTTTCAGTCTCA
Celera SNP ID:            hCV15983529
SNP Position Genomic:     307888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47036):
CTCACAGAAAGCGAGTGACCCCAAGAAGCCTGCAGAAGGGACTTGTCAAACCTTTGATCTCTTTCACCTTCCCACCAATACTTGAGCCCCTGAGGGCAGA
R
GCTGGCAGCCCTTGGCTCTGGAAGTCCTTCCAGGTCAACAGCTGGCCCTGGCCACTTGCCTGGAAGCTTTCTTCCCTGCTCCGAGGGGGCCCTGCTGAGA
Celera SNP ID:            hCV2392548
SNP Position Genomic:     1124376
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47037):
AGGCCTGTGAATGGTTCACATCAGCAGTGGGGGTCCCCAGTGAAGTAGGATCCCAAAGGCCACAGCAATTGGACGGATACTAATATCCTTCATGCTTCCA
Y
GGGCATGAACTTGAACTTGCAGTGGAAGCCTCTAAGGCACAGCAAGGCAGGAGCAGATATGAAGTATGCTTTGCAGCTGTAGCTTCTCTAGAATCCAGGG
Celera SNP ID:            hCV29182949
SNP Position Genomic:     1027826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47038):
CCCAACCCCTGGGCCACGGACGGCCCCAACCCCTGGGCCACAACATCAGATTGTTATTGGAGCACAAATCCTATTGTGAACTGCACACACAAGGGATCTA
S
GCGGCACACTCCTTATGAGAATCTAATGCCTGAACTGAGGAGGAACAGTTTCATCTCCAAGCCATCCCCCACCTGTTCATGGAAAAATTGTCTTCCACGA
Celera SNP ID:            hCV2392549
SNP Position Genomic:     1124132
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47039):
TTGCCTTTGCCATGTTATACGCCTGCATCCCCTTTGCCTTCCACCATGATTGTAAGTTTCCTGAGTCCTCCCCAGAAGCTGAGCAGATGCCAGCATCATG
Y
TTCCTATACAGCCTGCAGAACCGTGAACCAATTAAACCTGTCTCTTTTATAAATGACCCACTCTCGGGTATTTTTTTATAGCAATGCAAGAACAACCTAA
Celera SNP ID:            hCV2852446
SNP Position Genomic:     614036
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47040):
TGATGTTGTCTGACCTAGAGATGAACTAAGTCCAGTCTGGGACAGGCTCCCCAGGGAGCATTTTCATGGAGGTCAGTGTGAACCCCCTTTTCCAGATTGG
Y
GGCAGGGCCAGCTTTAGGTCCCTTGAGATTGTCTGCATCCCACTTCCTAAGTAAACAAAATAATGACTAGAAAAGTCTTTTCAGGAAAGGGAAAATGTGC
Celera SNP ID:            hCV2852448
SNP Position Genomic:     614399
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47041):
GGGCCAGCTTTAGGTCCCTTGAGATTGTCTGCATCCCACTTCCTAAGTAAACAAAATAATGACTAGAAAAGTCTTTTCAGGAAAGGGAAAATGTGCAAAT
W
TACGAGACAAAATTGCTTTTCTTTCCCAGCAGTTTTCTCCCTTAGGACCATTTCACAGGCCTGAGCTACCCTAGGAGTCTGTTTTGCCCACAGGCTATGC
Celera SNP ID:            hCV2852449
SNP Position Genomic:     614504
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,4)      total(A,2|T,4) ;(A,-|T,-)   African American (pooled) - WICGR(T,41|A,59)   Asian (pooled) - WICGR(T,4|A,80)   Caucasian (pooled) - WICGR(T,18|A,78)   total(A,217|T,63)   no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47042):
GGCAAGGGCTTCTCCACACCTAGGATTTGATGTAGAATTACTAGGGCAGTATGTAAGGACAGAGAAAGAACAGAGGCAGCGGCAGGCTTCTGACAAGGGA
A
TACTGGTAATCAGGCTCTCTGCATAATTTTTGGAGATTTGGAGATGGAGTTAGTGGAGGGAAAGAAAGAAACGGATATAATTAGAAAAAGAAAAAAATAC
Celera SNP ID:            hCV26379880
SNP Position Genomic:     162848
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47043):
CACTTGAACTCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGTACCACTGCACTCCAGCCTGGGCGACAGTGCCAGACTCCATCTCAAAAAAAAAAAAAA
A
TAATAATAAACAAATGGATGCATGAACAAGTGCATAATAGGTAGATAAATACACCTTAGGAGACAGATCAAAATGCAGACTTGAATTTAATTGGCACAGA
Celera SNP ID:            hCV26379881
SNP Position Genomic:     161585
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47044):
TTCTGCACATTTTCAACTGACTCTTCCCCTCTGCAGCCAAGTTGACATATTAGTAAATTGATTCCAGGTGATGCTGACATTTTGTAATTATCACTATCTA
T
AATTTTCATCTTATCCCATTTAATATTTTGATCATTTAAAATAGAGTAGCATACCTAATAGTGGTCATTAGTTTAGCTCAAGGGAAGATTCATGGTTTAA
Celera SNP ID:            hCV26379882
SNP Position Genomic:     159577
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,8)   total(T,8|-,5) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47045):
CTTCTGCACATTTTCAACTGACTCTTCCCCTCTGCAGCCAAGTTGACATATTAGTAAATTGATTCCAGGTGATGCTGACATTTTGTAATTATCACTATCT
A
TAATTTTCATCTTATCCCATTTAATATTTTGATCATTTAAAATAGAGTAGCATACCTAATAGTGGTCATTAGTTTAGCTCAAGGGAAGATTCATGGTTTA
Celera SNP ID:            hCV26379883
SNP Position Genomic:     159576
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,8)   total(A,8|-,5) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47046):
CCTTCTGCACATTTTCAACTGACTCTTCCCCTCTGCAGCCAAGTTGACATATTAGTAAATTGATTCCAGGTGATGCTGACATTTTGTAATTATCACTATC
T
ATAATTTTCATCTTATCCCATTTAATATTTTGATCATTTAAAATAGAGTAGCATACCTAATAGTGGTCATTAGTTTAGCTCAAGGGAAGATTCATGGTTT
Celera SNP ID:            hCV26379884
SNP Position Genomic:     159575
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,8)   total(T,8|-,5) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47047):
GCCTTCTGCACATTTTCAACTGACTCTTCCCCTCTGCAGCCAAGTTGACATATTAGTAAATTGATTCCAGGTGATGCTGACATTTTGTAATTATCACTAT
C
TATAATTTTCATCTTATCCCATTTAATATTTTGATCATTTAAAATAGAGTAGCATACCTAATAGTGGTCATTAGTTTAGCTCAAGGGAAGATTCATGGTT
Celera SNP ID:            hCV26379885
SNP Position Genomic:     159574
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,8)   total(C,8|-,5) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47048):
TCTCATTTACATTTCCCAGAACATCAGGTTGGAGTGCAGTGACGTGATGCAATCATAGTTTCCTGCAGCCTTGAACTTCTGAGTTCAAATGATCCTTCTG
Y
CTCAGCCTCCCAGGTAGCTAGGACTACAGACATACACTACCACACCTGGCTGAGTTTGTTTGTTTGTTTGTGTGTTTGTTTGTTTATTTTGTAGCAATAG
Celera SNP ID:            hCV26379886
SNP Position Genomic:     156078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47049):
CAGCATTTTCCTGCCTTACTTCTGAAGTCCTTGAACTCACGCTCCTACTGGAGTGATGGCAAGGCCACTGGAAAGCCAGGTCGGAGAACAGAGACCCCCC
C
AGCCTGCTTTCACAGTTGGTTCCGGCAGTTGTTGCATTTGTGGCAAGAACCTCATGGCAGTATTGTGTCCTTCACATTGCTTTGTATCAGGCAGCATGTA
Celera SNP ID:            hCV26379887
SNP Position Genomic:     346698
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|-,7)   total(C,4|-,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47050):
AAAAAATAAGAAAGAATATAGGCTCTGGTGTCATACTGCCTGGGTTGGAGACCCAGCTCTTCAATTTACATCTGTATGACTTCAGTTCATTTTTTTTTTT
T
CATTTCTACATGGCTTGGTTTCCCCATCTGTAAATTGTGGATACTTACACTAGCTATCTCATAGGTTATTGTGAGAAATAAGTGAGTCTGTATGTATGAA
Celera SNP ID:            hCV26379888
SNP Position Genomic:     153356
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47051):
CCCAAAGTGCTGGGACTACAGGAGTAAGACACCGTGCCCGGCCAGTATTGTTCTTCTTTATACCTAATTACTCATCATTGGAATTCTCTTTAAAAAAAAA
A
TGTGCTTCCCTAATTGGTTGCCAACAGAGAGGCTACATCATAGTGGTTAAGAATATAGGCTCTTTTCCCTTGACTGAAGCAGTGATTAAAACAAAAAAAT
Celera SNP ID:            hCV26379889
SNP Position Genomic:     153162
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,8)   total(A,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47052):
AGACAGGAGAGAATGAGAACCAAATGAAAGGGGTTTCCCCTTATAAAACCATCAGATTTCATGAGACTTATTCACTACCATGAGAACAGTATGGGGGAAA
S
TGCCCCCATGATTCAATTATTTCCCACCAGGTCCCTCCCACAACGTGTGGGAATTATTAATTCAAGATGAGATTTGGGTTGGGGACGCAGCCAAACCATA
Celera SNP ID:            hCV2810202
SNP Position Genomic:     319122
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47053):
TATAAAACCATCAGATTTCATGAGACTTATTCACTACCATGAGAACAGTATGGGGGAAAGTGCCCCCATGATTCAATTATTTCCCACCAGGTCCCTCCCA
Y
AACGTGTGGGAATTATTAATTCAAGATGAGATTTGGGTTGGGGACGCAGCCAAACCATATCAGTAGGTCAAATGCAAAGCCTGAAATATGGAGAGGAAGA
Celera SNP ID:            hCV2810203
SNP Position Genomic:     319163
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47054):
ACGTGTGGGAATTATTAATTCAAGATGAGATTTGGGTTGGGGACGCAGCCAAACCATATCAGTAGGTCAAATGCAAAGCCTGAAATATGGAGAGGAAGAC
R
TCAGTATAAATCCTGGTTCCGTCACTTGAATACGTTGCCTTGAGCAAATTATTCCCTTGCAGAATCTCAGTTTTTCCACCTGTAAAATGGAGACGGCAAA
Celera SNP ID:            hCV2810204
SNP Position Genomic:     319265
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47055):
AGTTTACTTACGTTAATCATAATGTCAAACATGTCAACAGCATCCTGGAGAGCCCCCCAAGTTTCCTGTCCACTTGTCCACTGTACAGCCACCTACCCAC
R
CTTTACGTACTACCCAGCTCTTCCTCTAAGTGGGATCCTCCCAGAAAGCCAGAGCTCCGCTCCTAGAGAGCGTTTGAGGAACCTGCATGTGGTTTGTCTT
Celera SNP ID:            hCV29182950
SNP Position Genomic:     1026891
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47056):
TTCCGTCACTTGAATACGTTGCCTTGAGCAAATTATTCCCTTGCAGAATCTCAGTTTTTCCACCTGTAAAATGGAGACGGCAAAAATTAACAGTCACCTC
R
GGGAGTAATTATGACACCAGAATGAGCTAATAAACATCACTGTTTTGCTCGGTGGTGAGGTTGAGTCCAAACCTTAGCAGTTATGATTGTGGTTGTTGCT
Celera SNP ID:            hCV2810205
SNP Position Genomic:     319382
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47057):
TGCATTGATCCATTTGGCTATTGTGCACTAATTGCCCAATATTACTTTATGACATTTTTAAGTCTAAACTGAAAGGAAAGCTATGCTCAGTCATGTAATG
Y
TGGCAACCATGCTGCGCAAACATGGGTCCCCTACATCAGGGGTCCCCAACCCCTGGGCCACGGACGGCCCCAACCCCTGGGCCACAACATCAGATTGTTA
Celera SNP ID:            hCV2392550
SNP Position Genomic:     1123987
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(C,518|T,979)   total(C,518|T,979)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47058):
CTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTGTCCTCACTTACAGAATAGGGATTTTGGTAATGAAGGCCA
S
CAGCTCCGTGCATGACAAGGTGCTGAATGCTTTCTGTTTATTATCACGCCGAATCCTTATGATTTCTTTGTGAGGTGCATTCTACTAGACCCTCCAGTTC
Celera SNP ID:            hCV29182951
SNP Position Genomic:     1015087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47059):
TCGGACATGAGCTATAAGACCTTGCATGAGATGCACTTTCTGAGACCAGCCCCTCCATTCTCCTTTCATGCCACTCTACACTTTCAACTCCAGCCACCCC
R
GTCCTTGTTAAGTTGCTGAGACTATCATGCACAAAGGTATTTACACAGTTTTGTTTTGGGTTTCTTTGTTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTT
Celera SNP ID:            hCV11672055
SNP Position Genomic:     55844
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47060):
TGCAAATGTGTTTGAATCACTGTATGCTGTAGTGCAACTCATCCCCAAATGGAGAAGGTGCACATTTGGGCTGAAATGTTGCTTTGTAGATGGACAATAC
R
ACAAGCATATGACGGGGAACTTCTGGCAAACGATAGGAAAATGGTCAAATGAAAAGACACCAGTAAAATGAGAGATTGGATGAAAAGTGATCAGGAAGCT
Celera SNP ID:            hCV2810206
SNP Position Genomic:     320055
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;(A,-|G,-)   Caucasian(G,27|A,55)   African-American(A,40|G,42)   Asians(G,15|A,67)   total(G,84|A,162)no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47061):
CTATTACTATATCTATAATCTCCCTATATATAAATTTGATACGTATATAATCTGTGCCATGTCTAGTGCTCTGCTATATTGCATTGATCCATTTGGCTAT
W
GTGCACTAATTGCCCAATATTACTTTATGACATTTTTAAGTCTAAACTGAAAGGAAAGCTATGCTCAGTCATGTAATGCTGGCAACCATGCTGCGCAAAC
Celera SNP ID:            hCV2392551
SNP Position Genomic:     1123908
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47062):
CTTTTAGGCTTTGACATTCCAGCAAGGAAGCAGGTGCTGCTGACAGAAATGTGGTAGTTTGAGAGAACAGGATTTTAAAGAAGAACGAACCCAATTATTT
K
GATCCACAGAGTCTTAGAAGATAGAATGCAGGGAGGAGGCAAGCAGGGAGGAAAGAGAAGGAGCTTTTATGTTTCCTCATTGTTACTCCATCACACTGTC
Celera SNP ID:            hCV29182952
SNP Position Genomic:     1014747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47063):
ATGATGGGTCCTGTGATGTGGCCAATGTGAACCATGCTGTATGTGCACTGGCCTGGAATAGATAACAACAATAAAAGAAGGAAGATGCCCAAGAAGAAGT
S
AAATAACCTCATTGTAAAGATGTGAAATTGAGGTTTAAAGAGAACATGTGATATGCCCAAGGTCACAGAGTTGATGAGTTACAATGCTGGGATTGGAACT
Celera SNP ID:            hCV2810207
SNP Position Genomic:     321739
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47064):
TTTAACACTGGCTGCTCTTTGGAGAATGGACTGTAGCAAGCAGAAGAGAAGCAAAGAATCAGGTGCATTGCAGTGGTCTACACAAAAGACGATCCCTAGT
Y
GTCTTACCACCTGCCTCCTACAATAACCAAAGAAAGTGGACCCACACCACAGCTACCTCGGTCCACTGCATGTGTGGAAGGTGATGATTCTCTTGGGCAT
Celera SNP ID:            hCV2392552
SNP Position Genomic:     1122645
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47065):
AAAAGAGCTCTCCTCTTCCTCAGTTCTGCATTTGCTGGCATGGTTCTAGTGAATGTAAGAAAGGCATTTTGCAGCCAGCAGATGCAGTCAACGAGCGCAA
S
TTGTAAAGGCTGCAGAATGAAGCCCTCAGGTTATCTGGCAGAATTCTGCTCCTGGAAGAATTCTATTTATGAGATGCTGCTGGAATTGAGCAATAAAACT
Celera SNP ID:            hCV29182953
SNP Position Genomic:     1013835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47066):
CAGTTCTCATAATGTACCCTTTGCAGGATAGACTGTGAAAATCTAATTTTGGCAAAATGACTGAAATCCCAGTGAATGATTTTTTCTTTTCTTATATAAA
S
CTAAGCATCCAATAGTGAAAGTTTATATGACTCAAATGGAAGAAGAATTCATGACAAAAGGTGTGATTATTCGCATAAGACCCTGAAATTCCTTTCTGGG
Celera SNP ID:            hCV2810208
SNP Position Genomic:     322455
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;(C,-|G,-)   Caucasian(G,17|C,53)   African-American(G,36|C,40)   Asians(G,15|C,65)   total(G,68|C,158)no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47067):
GCAACTAAAGGGATGGGAATGTCTGGAGCAGCATAGAAGTGGGAGTTTGGCTGGGACAAGAGAGACAGGTGGCTCTTTTGAGAGACCTGCCTATGGGGGA
K
GGATGAATGAGCACTTTAGAATTCTGGGTCACCCAGCACATGGGTCAACCAATGCATGTTAAAGAAGGTTTCTACTCTCATTCATTCCCTCATGCATGCA
Celera SNP ID:            hCV2392553
SNP Position Genomic:     1121946
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47068):
AGCACAGTGCCTGACATGTGGTTCAGTAAGGGGGCCATTGTGATGAAGATGGCATCCCGGAGATACATCTCTGCCGCAGAACAGCTGGGCTAAAAGAGCT
S
TCCTCTTCCTCAGTTCTGCATTTGCTGGCATGGTTCTAGTGAATGTAAGAAAGGCATTTTGCAGCCAGCAGATGCAGTCAACGAGCGCAAGTTGTAAAGG
Celera SNP ID:            hCV29182954
SNP Position Genomic:     1013744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47069):
CACTGACAGTGTGACAGCAGGGCCCCTGTCTTGTTCGTCTCAGTGCTCCCCAGGGCCCACATGCAGTACCTTGTACACAGTGCAGGCACCATAAATACCT
R
TTGATTGATTCTGGACTTGCCATTCATTAAGAGAAGTTAATGGAGGTTTTCTGATTCCCATCAGATGAACAATTTTGGAATGTTTTATCAGTCAAATTTC
Celera SNP ID:            hCV10075977
SNP Position Genomic:     81516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47070):
ATAAGACCCTGAAATTCCTTTCTGGGTGAAATAGGCCCTTTCTTCCTTCCATAAGAGGCTCTGACTGATGAGTTGGCTTTTATTAGGCAATGTATGTCTG
R
TGCAATATCTGTGGATAAAACCACCAGCCCCTATCAAGTCAATCAAATATTTACTGAGCACTTATTATGTCCAAGACACTTTGGAGAACAAAGAAATATA
Celera SNP ID:            hCV2810209
SNP Position Genomic:     322630
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47071):
GGCTATTCACAAGGCAAACAAAAATCAAGCTATGCTTGGGAGGCAGAGATCCACATTGGAACCACACTTCTGCTGCTGGAAAGCTGCATGACTCAGGCAA
S
CTCCTAGACCACTCTGAGTCTTTGTTTTCTCATGTGTAAAATAAGGTGGTAATATCTACCTCCCAGGTTGATGAGGCAATGGCAGACAGTAATGTATATG
Celera SNP ID:            hCV2392554
SNP Position Genomic:     1120127
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|G,2)      total(G,2|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47072):
AGAAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGTCCTACAGTGAA
R
TTAGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTGTCCTCACTTA
Celera SNP ID:            hCV12111867
SNP Position Genomic:     1014957
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47073):
GAGATATTTTCTATATTTGTAGCTATCTTATTAAAAATAAAATGGGAGCAGGTTTGCCTCCCATAGGTCCCAGCTAGACTTTTCCCTTTAGCTTAGTAAT
Y
GGGGGTCCCAAGATTTATTTTCCTTTCACAATGCCAAGGTCAATAATATATGGCAAGCACAGTGCCTGACATGTGGTTCAGTAAGGGGGCCATTGTGATG
Celera SNP ID:            hCV29182955
SNP Position Genomic:     1013588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47074):
TCCATCATGGTTCTTGAAATACATGAAATACCTAATCATAGGATAGGTTTCATATGATCCCACCTCCCCTGCTAGACACTGACAGTGTGACAGCAGGGCC
M
CTGTCTTGTTCGTCTCAGTGCTCCCCAGGGCCCACATGCAGTACCTTGTACACAGTGCAGGCACCATAAATACCTGTTGATTGATTCTGGACTTGCCATT
Celera SNP ID:            hCV10075978
SNP Position Genomic:     81440
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,12)   total(A,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47075):
GGCCCCACCCCTTTCCTGCCCACTATTGAAAGTGACTACATGGCAAAGAGCGCCTATTTCCTAGACTAAATCATTCTCAGACTTAAGTTATTAGTGAGCG
Y
TGTTAGACTCAAGTTCCTTGATATCTACATCACAACTGAGTAGTTTATCTCAGTGGTAAGTCTCGAAGTTTGACTTCGAAGTTACTAAGAGCCTTCCAAT
Celera SNP ID:            hCV2392555
SNP Position Genomic:     1119484
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47076):
TAGAAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGTCCTACAGTGA
R
ATTAGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTGTCCTCACTT
Celera SNP ID:            hCV12111868
SNP Position Genomic:     1014956
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47077):
ATCATAATTTTAAAAACCCAGGGTTCTCCAAGGGCTTCAGCAGCATGCCATCTCTCCACTTTATTAAAATGAATGAACAGATGTACAATTTATTTCTGCC
R
AGCCATCATCTAAATTCATAAGCTATTTCTCATGTGTCTGAAATCCACGTTGGTTTCCCATTTTCTTTGCCTTAGAAAAAAAATTACACTCCCTCATTTA
Celera SNP ID:            hCV29182956
SNP Position Genomic:     1012233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47078):
AGTCCTGTCCTAGAATTTCAAAAACAGTCAGAGAAAGCAACTGTGAGAAGATCACAGCTTCTCATCCTGTTTTGAGTCTCACCCTCCTCTTTGCCCTCAC
R
AAGGATTTCAGTGATTATGTTCCTGACAGGATGCATTTTAATTGTTTTCTGGTATGACTTCCCAATACATCAAGTTGTGTTTTCTATATAGCCGCTATCC
Celera SNP ID:            hCV10075979
SNP Position Genomic:     79771
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47079):
CCTGAATCTCTTTGTCTGTATTTCTCTGTATTGCTTGGCAGTCAATTTGGTCAAAAGCAACAACGAAATGACCCTTACGAAGTGTCAAATGTCCCTTTAT
R
TGAGATATAAATGTCTTTGCAAAGACACTTATAAAGTTGTGAAGACGTTGTTTCCTTACTCTAATAGCTGCTGTATTCACGTAGGTTTCAAAAATGGGGT
Celera SNP ID:            hCV2392556
SNP Position Genomic:     1118784
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47080):
ACAAACACTATTAATTCAAGCTTTCCCCACCTCCAGAGAATCAGATGTTAAACATTTGCCAGTGTTCCTCTGGCAAAGAAAAGGAAAATAGCCAGAGGTA
R
GTGAAATCAAATGAGAGAAGTCCAACCTTGCAAAACTGAGCCAACTGCACTGATGTATCCTGTTGTCTGTCCCACACCCTCGCAAGGCTTTTGGTCTTTG
Celera SNP ID:            hCV7624586
SNP Position Genomic:     1104814
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47081):
CTAGAAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGTCCTACAGTG
A
AATTAGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTGTCCTCACT
Celera SNP ID:            hCV12111869
SNP Position Genomic:     1014955
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47082):
TGCACTTGTAATTAGCTGGAGCACATCTGACCCATCGTCCCCTGAGGGAGGGCAGCTTGGTGGTCCCTAGCTCAAGAAGGGGCAGCCCCCACCCCCTGAA
M
TTAGGGAGGGGAGGTCTACAGCTTTTTCCAGGAGGTACCTCAGCCCAAAGTCTGTGAATCCACAAAAGCAAGGTCGGCCTACCCTTTTACGTAAGCCACG
Celera SNP ID:            hCV29182957
SNP Position Genomic:     1008431
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47083):
GATAAATAAATTAGCACGGTGTGATGTTATGCACCTATAATCCTAGTTACTTGGGAGGCTAAGGTGGGAGGATAACTTGAGCCTGGGAGTTCAAGGCTGC
R
GTGAACTATGATTACATAACTGCATTCCAGCCTGGGTAACAGAGTGAGACCCAGTCTCAAAAAAGTACATACACACATATATAAACAAACACTTAGGTTT
Celera SNP ID:            hCV2852450
SNP Position Genomic:     616480
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47084):
ATGAAAGCTATCTTGTGGTTGCACCTTAAAGCATCTGTGTAATGCTTTTACCCATACTAAGAGTGTTCAATCCCTGTTTTCACCTAGGATTGATAAGTGT
R
TTTCTGGATTTCAGAAATCGGATAGCTTCTGAAGTCTCAGCCTGTTAATATGGTAACTAAATATGTTAAGGTCCTAGTCTCTCAATGTTTAATTACTGTT
Celera SNP ID:            hCV2392557
SNP Position Genomic:     1118522
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47085):
ACATATGTACAGTGTCCAACCCCACAAAGGGGATCCCTGTTATTCGTAGGGAGATGGTGTAGCAGTGTTGCCCTAGAGCCAATTCATAGCAGTTTGCAGG
R
GCCAGTTGTTACCATCTCTTTGTAGCTGTGCATTCAGTGACATCGTGGGAGTAACTCGAAACTGGCCACAGTGGAAATACTTCTATCATGGAATTAGACA
Celera SNP ID:            hCV7624587
SNP Position Genomic:     1104616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47086):
CATGCACTTGTAATTAGCTGGAGCACATCTGACCCATCGTCCCCTGAGGGAGGGCAGCTTGGTGGTCCCTAGCTCAAGAAGGGGCAGCCCCCACCCCCTG
M
ACTTAGGGAGGGGAGGTCTACAGCTTTTTCCAGGAGGTACCTCAGCCCAAAGTCTGTGAATCCACAAAAGCAAGGTCGGCCTACCCTTTTACGTAAGCCA
Celera SNP ID:            hCV29182958
SNP Position Genomic:     1008429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47087):
GATACATGGATGTAGCAAATTTAACCTTAGACCTAGATTACCTATAGGATCAGACTTGATCAGTCATTAATAATGATAATGAAAATTAATCATGAAAGCT
R
TCTTGTGGTTGCACCTTAAAGCATCTGTGTAATGCTTTTACCCATACTAAGAGTGTTCAATCCCTGTTTTCACCTAGGATTGATAAGTGTATTTCTGGAT
Celera SNP ID:            hCV2392558
SNP Position Genomic:     1118431
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47088):
CATTTGTGCCGCTCTTTTTCCTCCCTCTTTTGGCTTCGAAAAAGTGGTGGGTCTCATGCACTTGTAATTAGCTGGAGCACATCTGACCCATCGTCCCCTG
R
GGGAGGGCAGCTTGGTGGTCCCTAGCTCAAGAAGGGGCAGCCCCCACCCCCTGAACTTAGGGAGGGGAGGTCTACAGCTTTTTCCAGGAGGTACCTCAGC
Celera SNP ID:            hCV29182959
SNP Position Genomic:     1008375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47089):
AGAAATGACCAGTAACACGGTTCTAGAGGAATTTGCCAATGCTCATTTTTTATTCTATGTGGTGGTGTTTTTTTTTTTTTTTTTCTCATTGCAGAAGACA
R
ATTCTATTTCCTTACTCCTGAGGGAAAACTAATTCCAGCAAAGGCCATTTGTCTTTGGTACCTTAAGATCTAGATAATTTACTGCAAGTTTATTTTTATT
Celera SNP ID:            hCV2852452
SNP Position Genomic:     616950
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47090):
TGGTACCAAACTCCAAGTCGTCCTGTTCTTTTCCAAGCGCCATTTCTACTGCTTAGAAAAAGCCACCCAATCTGGATACATGGATGTAGCAAATTTAACC
Y
TAGACCTAGATTACCTATAGGATCAGACTTGATCAGTCATTAATAATGATAATGAAAATTAATCATGAAAGCTATCTTGTGGTTGCACCTTAAAGCATCT
Celera SNP ID:            hCV2392559
SNP Position Genomic:     1118357
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47091):
TGGATGCCAATGTGCCTTCCTAAAATGCTGCAAGGCTATTCTGGAAAAACAGTTCTGGAGACAGATTCTGGCATTAACTATCTCTGTTAACATAGTGGTA
R
CTAGGTTCTTCCCACTTCTGCTTGTTTCAGCTAAGTAAAATATAAGGGAGTCCAGTAATTCATGAATGGATAAACAAATTGTGATACATCCTTGCAATGG
Celera SNP ID:            hCV2852454
SNP Position Genomic:     617986
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47092):
TCCGTGATGCTGCCACATGTGTCAGGGCTGTGTGGCTGTTACAGAGGAAGGGTCTCGTGGGGAGGGAGCAGTGAAACTGGTGGAGCAAGCAAGGTCGGAC
Y
GACAGACTATCTTCTCGGATGTAAGAGAGGTTGTTCTAGGGAAGCCGTGTTCCTGGCGCTGGGAGGCTTTACGAAGAGTTTTTGAAATCTCCAGCTTGAA
Celera SNP ID:            hCV27942681
SNP Position Genomic:     682929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47093):
TTGGGGAATGGGGCAGTTCCTGGGAAAGGGACTTATTGGTGGGAATCCAGTTCTGCTATGAATGCTCCTGACTCCTGCACTCAAATCCCAACAGATGAAA
S
GGAGGAGAGACTGACAGATGCAGTGCCTTCCTTTATGTAACCTCCTTGATCCAAACTACAGTCTGACCCATGCTTTCTGGCTTTATATTGTACCACTACG
Celera SNP ID:            hCV29090462
SNP Position Genomic:     889122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47094):
ATAGGTCTGGGTTTCCCTTTGAAGTCATGGAAATGTTTTGGAACTAGACAGAGGTGGTGGTTCTACAACATCATGAGTACACTAAACATGACTTTAAAAA
Y
GTTTCATATGTGAGTTTCACCTCATTTTAAAAATCACAGTGCACAAAAAGAGGTAAGGGAGGCCAGAGAAACTGGACAGGAAAACCCAGGTGTGAGGACC
Celera SNP ID:            hCV2852455
SNP Position Genomic:     618278
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47095):
CTTCAGGCCCAGCCCATGTCACCTTTCCCACTTCTGTCACTCTACTTGGTCCCCCTGGATTTTGTGCAGTTTTTCAAAGGTATGGGCATTTGCTAAGGCT
S
TCTCCCTCCTCTTCCCCATGAACTTCCATCAGACAGACCTTCTCTGAACAGCCTTCATCCGCAATCTAAATGGGATCTCGTTATTATATTCTTCCATGTT
Celera SNP ID:            hCV27942682
SNP Position Genomic:     706382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47096):
CACACATTCAGGGAATGGGTAGAAGTGGAATTCACACCCAGGTCAGTGTAAGACCAAAGAGGCTGTCAGAATGGTTTGCTGTTCCACTCATGGCGAACAG
S
ATTTGAAGTTGTTCCAGTCCAAGGGAGACCATCAGGCCATGCAGGAATAAAAAGGCCAAGGGGAGGAAAGAAGATGCTGTCTTCATTAAGGCCTGAAGGA
Celera SNP ID:            hCV29090463
SNP Position Genomic:     888841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47097):
AACTAGACAGAGGTGGTGGTTCTACAACATCATGAGTACACTAAACATGACTTTAAAAATGTTTCATATGTGAGTTTCACCTCATTTTAAAAATCACAGT
R
CACAAAAAGAGGTAAGGGAGGCCAGAGAAACTGGACAGGAAAACCCAGGTGTGAGGACCAGGAGGAAGAGGGTGGGGCAGAGGGGACAAGGCAGATTCGA
Celera SNP ID:            hCV2852456
SNP Position Genomic:     618319
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47098):
GCAAAGCAAAGAAAAATCACTCAATAAAACCACTGTTAATATTTTAGCATAATCTTGATAGTGGAATGCCTTTATTTTTTAAAAATTGCATTATGTATAC
R
CTAATTTTAGTCAGAATTTGTACTTCTTAACATGCATACTATACCATTAGTATATTTTTACATTCTCTAAAGTGTGTCTGCAATGCAGTGTTCTACTTTC
Celera SNP ID:            hCV27942683
SNP Position Genomic:     713073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47099):
CCTTCAACATTCCATAACGTGGTGGTGGTATTCCCACCTTACCCCGGGAGAAGCTGAGAGTCACAGGGAGCATTTACTTTCCAAGTTCACACATTCAGGG
M
ATGGGTAGAAGTGGAATTCACACCCAGGTCAGTGTAAGACCAAAGAGGCTGTCAGAATGGTTTGCTGTTCCACTCATGGCGAACAGGATTTGAAGTTGTT
Celera SNP ID:            hCV29090464
SNP Position Genomic:     888754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47100):
GTACACTAAACATGACTTTAAAAATGTTTCATATGTGAGTTTCACCTCATTTTAAAAATCACAGTGCACAAAAAGAGGTAAGGGAGGCCAGAGAAACTGG
R
CAGGAAAACCCAGGTGTGAGGACCAGGAGGAAGAGGGTGGGGCAGAGGGGACAAGGCAGATTCGAGGGGATGTTCCGCCACATTCTTCAGGGTGGCATGG
Celera SNP ID:            hCV2852457
SNP Position Genomic:     618354
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47101):
TCCCTCTTTCTTCATTTTCTCACACAGATTGTTTAGCATTCTATTAATGCCACTGTCACAAGGAAAAGCAATACTTTTATTACAGTCTCTCTCCTCTGTC
R
ATTCTAGGCTTCTTGAGAAAGTTTGTAATGTATGCATTCTTCAAAGAGGTATTGTTATTAATAGAGGCTCAGAAGATGGCTGAATGAATGAAGAGTGTGT
Celera SNP ID:            hCV29090465
SNP Position Genomic:     890003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47102):
AGGACCAGGAGGAAGAGGGTGGGGCAGAGGGGACAAGGCAGATTCGAGGGGATGTTCCGCCACATTCTTCAGGGTGGCATGGGCAGCTTTTATGTAGATG
R
AAACAATTTTAGGAAATTGCAGCCTAAAGCGGTGTTCAGTACACAAGAGAGGCCCTCAAGAGAAGGTCACCAAGGGAAGGCAGAAGAGCAGCCTCTGCCT
Celera SNP ID:            hCV2852458
SNP Position Genomic:     618473
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47103):
TTTTCTGGTCTTCTTTGCATGACTCAATCCCTCTTTCTTCATTTTCTCACACAGATTGTTTAGCATTCTATTAATGCCACTGTCACAAGGAAAAGCAATA
Y
TTTTATTACAGTCTCTCTCCTCTGTCAATTCTAGGCTTCTTGAGAAAGTTTGTAATGTATGCATTCTTCAAAGAGGTATTGTTATTAATAGAGGCTCAGA
Celera SNP ID:            hCV29090466
SNP Position Genomic:     889976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47104):
ACTATTGAGCATTTGAACTGCAGCTAGTGCAGCTGTAGAACTGAGTTCTTAATTACTGTTTTTTAAATTTAAATAGCTGCATTTGGCTGATGGCCTTACT
R
TTGGAAAGCATAGGTTTTGAATGTCACAGGTGAAAACTGTCTTTAGCATCACGTGGGCCTATGTTTTAACACCAATTTTGCCTCTCCCTTGCTATGTAAT
Celera SNP ID:            hCV2852459
SNP Position Genomic:     618948
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47105):
GTCACAAACTGCCATTCAGGCTTCCCGATTGTGCCATTCAGAGACTTTTTGCTACTACTGACTCCTGCCTTCTTCACCAGGAGCTCAGGGACTCCACCTT
Y
GTGAGAAAAGGAGGGCAAGACACACAGCAGGATTCCAGCCAAACAATGACTTAATGATGGCATGCCCCTGCTTGGCATGCCTAGCCTTCTCTCCTACCTG
Celera SNP ID:            hCV28019890
SNP Position Genomic:     412258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47106):
CTTCTGGGATGCGCCGTAATAATCAAGGAAATGGATGGGCAGCTGTGGAGTTGATGAGCTGGTGAGCTGGGAGGACACCAGAGGTAGGATGGGGATGGGA
Y
TCAGGGAGCTGACCACTCTGGACACCCGTGAGGACAGAAATATCACCCATTTGTGGGTATGAAAACACAAGAAAGCAATTCATGACACTCTATGCAAGGT
Celera SNP ID:            hCV29090467
SNP Position Genomic:     499184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47107):
AGTAGAGACAAGGTTTCACCATGTTGAGCAGGTGACCCCAAGTGATCCACCTGCCTCGGCCTCCCATAGTGCTGGGATTACAGGCATGAGTCACCGCCCC
T
GGCTTAATTCTTTTAACATGTAAGTCTCATCATGTTACAACCCTGCTTTACATAGTCAAAGTCAACAAGTGTTATTTGGCCATAGATATCTCTTAGGCCA
Celera SNP ID:            hCV52334
SNP Position Genomic:     934163
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47108):
CCAGAGAGTCGACATGCACATGGTGACTTCTCTACAATCAATACCTCCAGCAGCCCCCCAACCCTGTCCCTTCCAGGTACTGTTTTTCCCGAATCAGAGC
Y
TCCTGCTTCTTTTCTTGGGCACTTTAGATCCACGGATTAACACAATTGTGCCACTTGCCATACTTCTGGGATGCGCCGTAATAATCAAGGAAATGGATGG
Celera SNP ID:            hCV29090468
SNP Position Genomic:     499021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47109):
GTACAGTGGCATGATCTCAGCTCCCTGCAAACTCCGCCTCCCGGGTTCAAGTGATTCTCGTGTCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTACAC
M
ACCACACCTGGCTAATTTTTGTGTTTTTAGTAGAGACAAGGTTTCACCATGTTGAGCAGGTGACCCCAAGTGATCCACCTGCCTCGGCCTCCCATAGTGC
Celera SNP ID:            hCV52335
SNP Position Genomic:     934034
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,6)   total(A,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47110):
AGCAAACTGAAAATAAATCTTGCCTTATGTTGCCAACATTGCATTTTTTTTTCTTTTTCTTAATTTATCTGTGAATATTGTTTTTCTTCTTCTTCTTCTT
Y
TTTTTTTTAAATGGAGTTTCACACTGTCACCCAGGCTGGAGTGCAATTGCGCGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCC
Celera SNP ID:            hCV26379890
SNP Position Genomic:     152816
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47111):
CCTGACTTCAGTCGTTCCTTTAAGATGCCCACCGTGACGGGCCCAGAGAGTCGACATGCACATGGTGACTTCTCTACAATCAATACCTCCAGCAGCCCCC
S
AACCCTGTCCCTTCCAGGTACTGTTTTTCCCGAATCAGAGCCTCCTGCTTCTTTTCTTGGGCACTTTAGATCCACGGATTAACACAATTGTGCCACTTGC
Celera SNP ID:            hCV29090469
SNP Position Genomic:     498979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47112):
ATGCAGCTGTGGGCACATGAGGAGGGGGAAAGATATCAATGCCTCTGATGAATGTCTAGCAAAGTTTTCCTTGTGAAACCTCATGGAAAGTTCCATGAGG
Y
CAGAGATCACATCTACTTTGTTCACTGTTCTATCCTTTGTTGCTGACACATAGTGGCCATTCAGTAAACATCTGTTAAATCGAGGAAGCAGTGAATGAGT
Celera SNP ID:            hCV52336
SNP Position Genomic:     933485
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47113):
CCCGGCTAATGTTTTGTATTTTAGTAGAGATGGGGTTTCACCACATTGCCCAGGCTGGTCTTGAACTACTAAGCTCTGAGCTCAGGCAATCCCCCCGCTT
Y
GGCCTCCCAAAGTGCTAGGATTACAGCCGTGAGCCAACACACCTGGCCCAATAGTTCCAATTTTTTATGTGTATATTTTTAAAAAATTAAGTTGTGACTT
Celera SNP ID:            hCV26379891
SNP Position Genomic:     149988
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47114):
TCCTGTGAGGAGTGACAGAGGTAATGTGTGGCATGGAGCCATCAGTGACATTTGGTGATTGAATGTTGCTGGTGGCAGTGTCTTAATGATGGAGACAATT
S
ATTGATAGGAGGTCAACTGCCAAGCAGTTAATCCGATGGCAAATTCCGCTCATAATGGAAGAGCTGGCCCATGCATGCAAACCAGCATGGTGGGGGATTC
Celera SNP ID:            hCV52337
SNP Position Genomic:     933278
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47115):
CATGCCCGGCTAATGTTTTGTATTTTAGTAGAGATGGGGTTTCACCACATTGCCCAGGCTGGTCTTGAACTACTAAGCTCTGAGCTCAGGCAATCCCCCC
R
CTTCGGCCTCCCAAAGTGCTAGGATTACAGCCGTGAGCCAACACACCTGGCCCAATAGTTCCAATTTTTTATGTGTATATTTTTAAAAAATTAAGTTGTG
Celera SNP ID:            hCV26379892
SNP Position Genomic:     149984
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47116):
AAAACACCTGTGGAATCTCTTGGTCAGCTGGCCAGCAGGAGTTTGAAGCCAGGGTGAACTCAAAGCATTCTCCCAAAGAAGCCTTTTTCAACCAGGGGGC
R
CTGACAGAAGTTGTCAACACGTCTGGCAAAGCTTTCCAGCATCTGCTATGATGTCTTAATCCTCCTGTGAGGAGTGACAGAGGTAATGTGTGGCATGGAG
Celera SNP ID:            hCV52338
SNP Position Genomic:     933115
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47117):
GAGTCTCAGTCTGTTGCCCAAGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCGCCTCCCAAGTTCAAGCAATTCGCCTGCCTCAGCCTCC
Y
GAGTAGCTGGGACTAAAAGCGCACACTGCCATGCCCGGCTAATGTTTTGTATTTTAGTAGAGATGGGGTTTCACCACATTGCCCAGGCTGGTCTTGAACT
Celera SNP ID:            hCV26379893
SNP Position Genomic:     149854
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47118):
TGCATTGGTGCTCAAACATTGGTGAAGCCCCAAGTACTTGAGAGGGACAAACAAAACACCTGTGGAATCTCTTGGTCAGCTGGCCAGCAGGAGTTTGAAG
Y
CAGGGTGAACTCAAAGCATTCTCCCAAAGAAGCCTTTTTCAACCAGGGGGCACTGACAGAAGTTGTCAACACGTCTGGCAAAGCTTTCCAGCATCTGCTA
Celera SNP ID:            hCV52339
SNP Position Genomic:     933063
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47119):
GATTTAAATTCCCTGTGCCAAACACATTGTGTGCTCCTGGTCCCTGCCCCCTTTAACTTCCCCAGCATAGTGCCTTTGTTCATGTTCTTTCTTTCCATCA
C
TCCCTGGACTCTGGCTGTTCATATTCTGCCCTTCCTCTGGAGATCAGCTCCAATCCCAAACTTTTCCAAAGTCTGCATTGACTCCCTTGGGTTTCTGCCT
Celera SNP ID:            hCV26379894
SNP Position Genomic:     146659
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,11)   total(C,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47120):
CTTGGCCTCCCAAAGTGCACTGCCTTCATTCATTCTTAAATCATTCATTTCTTTGTGGAAGCCCCTTAGCTCCATGTAGTTTATGGATGTGTCAGAACAA
R
CTGAATATTGTTTATTCTTTTACTTTTTAAAGAGATGAGTATTTGAGTCCTCTGATTCACAGTGAATTTCAGAATTCTATCAGCTAAATACCTCTTGAAG
Celera SNP ID:            hCV26379895
SNP Position Genomic:     144187
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,10)      total(G,7|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47121):
CCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACT
G
TGTTGGCTAGGATGGTCTCGATTTCCTGACCTCGTGATCCGCCCACCTCCGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCAGCGCGCCTGGCCTAT
Celera SNP ID:            hCV26379896
SNP Position Genomic:     345381
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|-,5)   total(G,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47122):
GTTGGCAGGAAGCCATTCAGGAGGGATCTACCCCCATAAGCCAAATATCTCCCACCAGCCTCCACCTCCAACTCTGGGGTTCACATTTCTTTCTTTCTTT
Y
TTTTTTTTTTTTTTTTTTTTTTTTTGGAGTCTCACTCTGTCACCCAGACTGGAGTGCAGTGGCATGATCTTAGCTCACTGCAACCTCTGCCTTCCAGGTT
Celera SNP ID:            hCV26379897
SNP Position Genomic:     140043
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47123):
GAAGTTGATTGAGGAACTGGAGGGAAAGTTAAGGTCCTAACTTTAGTGATTGGGTTTCTGTGTCACCACCTTGGCCCAGGAGACTGTTGATACCCCCCCC
M
TTTGCTTTGTCTCCCCATTTCTTTTAGTGTCTCTTTCCAGCTGAGCAGTCTTCTGACTCCCACTAGTTCAAGTTTCTGAGGGAGAAGCTGATTGAGCGGA
Celera SNP ID:            hCV26379898
SNP Position Genomic:     137458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47124):
GGAAGTTGATTGAGGAACTGGAGGGAAAGTTAAGGTCCTAACTTTAGTGATTGGGTTTCTGTGTCACCACCTTGGCCCAGGAGACTGTTGATACCCCCCC
M
CTTTGCTTTGTCTCCCCATTTCTTTTAGTGTCTCTTTCCAGCTGAGCAGTCTTCTGACTCCCACTAGTTCAAGTTTCTGAGGGAGAAGCTGATTGAGCGG
Celera SNP ID:            hCV26379899
SNP Position Genomic:     137457
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47125):
TGAGTTGGCTTTTATTAGGCAATGTATGTCTGGTGCAATATCTGTGGATAAAACCACCAGCCCCTATCAAGTCAATCAAATATTTACTGAGCACTTATTA
W
GTCCAAGACACTTTGGAGAACAAAGAAATATAACCTGGCCTTGCCCTTCAGGCTGTATCAATTGAGATAGAATTTGGACTGCTGCAATCAATTACACAGA
Celera SNP ID:            hCV2810210
SNP Position Genomic:     322698
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,5)      total(A,5|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47126):
GGTGCAATATCTGTGGATAAAACCACCAGCCCCTATCAAGTCAATCAAATATTTACTGAGCACTTATTATGTCCAAGACACTTTGGAGAACAAAGAAATA
Y
AACCTGGCCTTGCCCTTCAGGCTGTATCAATTGAGATAGAATTTGGACTGCTGCAATCAATTACACAGATGTCTCTCAAGGTAGTGTCTTGATGCTTGAG
Celera SNP ID:            hCV2810211
SNP Position Genomic:     322729
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47127):
AGGCTGTATCAATTGAGATAGAATTTGGACTGCTGCAATCAATTACACAGATGTCTCTCAAGGTAGTGTCTTGATGCTTGAGGGAAACAAGACAAAATGC
K
ATTAATAATGACTTAGTTTTCTTTGTCAAGCAATCGGCTTGCCACATCATTGAGGTAACTTCACATTTTCTTGCATCTTTTACAATTAGCAGCTTCAGCT
Celera SNP ID:            hCV2810212
SNP Position Genomic:     322848
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47128):
TCAGCTGACTCTGCAACCTGTTGAGAAAGAGGGCCCAGGCAATGTTGTCCTTGGCATCTTATTCAGGTCTGGCTTCCACTGCAGTGAATGCACTCAGATA
K
CCCTTTATCAGCTGAGTCCCCTTGAGATTAAGTATTTAATGTCTCTTGATCTCCAGCCTTAGGAAATAACCCAATTCATTACTCAGCCATTATGTAATTC
Celera SNP ID:            hCV2810213
SNP Position Genomic:     323043
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47129):
TGCAACCTGTTGAGAAAGAGGGCCCAGGCAATGTTGTCCTTGGCATCTTATTCAGGTCTGGCTTCCACTGCAGTGAATGCACTCAGATAGCCCTTTATCA
R
CTGAGTCCCCTTGAGATTAAGTATTTAATGTCTCTTGATCTCCAGCCTTAGGAAATAACCCAATTCATTACTCAGCCATTATGTAATTCATTACTGTCAT
Celera SNP ID:            hCV2810214
SNP Position Genomic:     323054
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47130):
GATGGTTTCGGGATGACACTGTTCCACCTTAGATCATCAGGCATCAGTTAGATTCTCTTAAGAAACGTGCAGCCTGGATCCCTCTCATTCCCAGTTCACA
R
TAAGGTTTCCGTTCCTATGAGAATCTAATGCCACCACTGATCTGACAGGAGGCGGTGCTCAGGCGGTCATGCTCACTCACAGGATGCTCACCTCCTGCTG
Celera SNP ID:            hCV29182960
SNP Position Genomic:     1007210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47131):
AACCAGTGACACTGTTATGCAAACATGAAGTATTGAACTATATGGAAGTATTTATCTGTTTAAACACTGGGGGAAGAGACTTTTAAAATATGGTTTATAT
K
CTCGGTGGTTCGGTAAAGGTTTTTCTCCTGCTCCTCATCCCCCAGCCAACCTTCTCCAATATATTCAGCCATGGCTGACTTTGGAGGATAATGAAAGCCA
Celera SNP ID:            hCV7623934
SNP Position Genomic:     632327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   (G,-|T,-)   African American (pooled) - WICGR(G,11|T,89)   Asian (pooled) - WICGR(G,1|T,83)   Caucasian (pooled) - WICGR(T,96)   total(G,12|T,268)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47132):
ATTTGGCAATGTCTGGAGATAATTTTTTGTTGTGACAGTGTGGACCAGGAGTGGGAGGAGAACATGACTAGCATCTAGTGGGTGAAGGCCAGGGGTGGTG
K
TAACATCCTACAATATACAGGACTGCCTATCATAGCAGAATTATCTGGCCCAAAATTTCAGCAGTACCACTGTTGAGAAACCCTGGGTACCTGCCCATTA
Celera SNP ID:            hCV2810215
SNP Position Genomic:     323633
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47133):
TGAACAAATGGATGAAGAGCCTCACACCAAGGAAAGCTTACGTTGCTACCAACTGGTACCAAACTCCAAGTCGTCCTGTTCTTTTCCAAGCGCCATTTCT
R
CTGCTTAGAAAAAGCCACCCAATCTGGATACATGGATGTAGCAAATTTAACCTTAGACCTAGATTACCTATAGGATCAGACTTGATCAGTCATTAATAAT
Celera SNP ID:            hCV2392560
SNP Position Genomic:     1118304
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47134):
CTGTCAGTTTGACTAGAAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACG
T
GTCCTACAGTGAAATTAGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTC
Celera SNP ID:            hCV12111873
SNP Position Genomic:     1014943
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47135):
CTTTCAACCAGCAGAAACGAATTTCCTGGAAGGCATTGGTACTCATCACTGGGGGAGGTTCCGGGGCTTTCCAGCTTCAGGTGCAGCTGCGTCTAAGCCC
K
CAGACAATGTGGACGGGATGCTCCTTGTCTGCAGCTCCAGCTGTCAGCTCTGCCTGTCTCTCTATGTTGGCTTTATTCTCTGCTAGGCTCTCTCCTTGTG
Celera SNP ID:            hCV29182961
SNP Position Genomic:     1006741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47136):
GTTTTAGCAGGTCATTTAGTGTAAGCCCACTAGAAGGAGGCATGTGGTGTGGGGTCCAGGACAGGCTGTGAGTACATGTTCTGCACCAGACATAATTTAC
W
TGGAGGCTTGGGGAGAATAAGCTTCCAGGTGAGGAACTCAGTGGCTGAGTTGCAAAGAGCTGGAAATGAGAGAAGCAAACTTAATGACTATGTACGTGCT
Celera SNP ID:            hCV7623935
SNP Position Genomic:     628641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47137):
ACTAGCATCTAGTGGGTGAAGGCCAGGGGTGGTGTTAACATCCTACAATATACAGGACTGCCTATCATAGCAGAATTATCTGGCCCAAAATTTCAGCAGT
R
CCACTGTTGAGAAACCCTGGGTACCTGCCCATTACTGCTCCCTTCTAAAACAACACATATTTCTTCATAGGCCCTTGTGAATTTATTTGTTTTATTTGAT
Celera SNP ID:            hCV2810216
SNP Position Genomic:     323699
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47138):
ATATTTGTATATATTCAGGCCTAGGAATGCAGGGAAAAAAGGGATAAAACACACTGAATGAAAAGAGTGTGAACAAATGGATGAAGAGCCTCACACCAAG
K
AAAGCTTACGTTGCTACCAACTGGTACCAAACTCCAAGTCGTCCTGTTCTTTTCCAAGCGCCATTTCTACTGCTTAGAAAAAGCCACCCAATCTGGATAC
Celera SNP ID:            hCV2392561
SNP Position Genomic:     1118235
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47139):
GGTCCAGATAGGAATGCTGTAGAAGCTCCAGGGAGGAAGAGACTCCAGGGGCTCAAGTGGTTTAGCAGGGCTAGCAGGACTAGCAGGACAAGACAGAGTT
Y
GAATGAGATCGTTGCATCTAAGTGGAATAAGGAGAAGCTGATAATGCAAGAAGGTCAACCATCTCACACACATCTAGGGACCGTGGGGAAACCCATTTTG
Celera SNP ID:            hCV7624591
SNP Position Genomic:     1104019
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47140):
TACAAGGTTAGCACAATCCAGGAAGAGCAAACATTGTGTGCAGATGCCCTGAGGCATACAAGAGCCCGGTTGAGGGGCTGAGAGGTGGGGCCAGGGCGGG
K
TGGGAGAGGTGGCACACACCCAGGGACTCTGTCCCCTATTACAGACTCCAGGAAGCCATGCATTTCCCTCGAGTTCCCCCAAATCACTCCCCAGTCACGA
Celera SNP ID:            hCV29182962
SNP Position Genomic:     1005880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47141):
AGCTCTCTGCCTTGGTGCCTTTGCGTATCCATCTCTACTGAGGAACTGGGATGACTTCAGCATCCGGGGTAGATGCCTGGCATGAACCAGAAAGGATATC
W
GATTAGATCTGTAGGTGATGGTGAGAATGGATACAGGACTGTTTCAGTCAAGTACCTACCTCTAAACAGGAGGGCACTGTGGATTTTAGGATTGGAGATC
Celera SNP ID:            hCV7623936
SNP Position Genomic:     628366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47142):
ACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGCCAGGCAAGGCCTTTCTGGGAGA
M
ATGATCCAATGAGGGGAAAAAATACTTCAGTTTTGTTGAGAGATGATCTTAATCTGTTTGAGCTGCTATATAAAAAAATACCATAGACTAGGTGGCTTAA
Celera SNP ID:            hCV11672066
SNP Position Genomic:     64150
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,12)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47143):
CAAGGATTTTGTGTTTTTTTTCTTCGCGGTTGTTTAGTTTTGCTTTGGGTGACACCCCTTCTCATTTGCTGTGAAGATACCGCAGGATGATAAACTCCCT
S
TTCTATACTAAGTCCCATCTGCAAGGAAAGGAAACTTCACTCTGCTCCTTCCATCTTGCTGAATATTTAAAGGGTATTGACACAAGGCGTTTTGATAGGC
Celera SNP ID:            hCV2810217
SNP Position Genomic:     324700
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47144):
CACAAAAAAGCAACTTACCATGAATCAATTTAAAGTGAAGACCAAAGTGTGACTCAAAACTGAAAAAATATATGTATTTGGTTAAGATGTAATTGTTACC
R
AAGCACCAGGGGTTTGGTCTGGGTCCTGCTGTTCACTGCACAGAAAGCCAATCACTGAGATAAGACAAAAGCCAGGGAAGAAGGCTTTAATCGGGTGCTG
Celera SNP ID:            hCV2392562
SNP Position Genomic:     1116465
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47145):
TGGTACAAGGTTAGCACAATCCAGGAAGAGCAAACATTGTGTGCAGATGCCCTGAGGCATACAAGAGCCCGGTTGAGGGGCTGAGAGGTGGGGCCAGGGC
K
GGTTGGGAGAGGTGGCACACACCCAGGGACTCTGTCCCCTATTACAGACTCCAGGAAGCCATGCATTTCCCTCGAGTTCCCCCAAATCACTCCCCAGTCA
Celera SNP ID:            hCV29182963
SNP Position Genomic:     1005877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47146):
ACCTAAAGGTAATCATCCTGGTTTATTTATTTATTCAAAAAATATTGAAAAATTCACACTGTGAGCCGGGTCCTAACTAGCCCTGAGGATAGCAGTGAAC
R
AGACAGTGTGGAGTTTCCATTCTAGTGGGAAGACCGGCAATGAACAAGCCAATGAATGTCTGATCACACAACCGGTGTGATTACAGCTTACAGCTCTTTC
Celera SNP ID:            hCV2392563
SNP Position Genomic:     1114333
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47147):
GATGAAGGCTCCGACAGCTGAAGAACTTACCCAGGCTCCAGACCCCAACTCTCAACCCTCTGCTAAGCTGCTTCTGTCCCGTGAAAGGATTAGCAATTTA
Y
CAGTCCAGTGCCAGTAGAGCCCACTATTCAGGCATTTCTGCCGGATTCAGTGGCAGCCATTATATGACTCTCCAGTGGTCTAGCCCTTGGGGTCAGCTCT
Celera SNP ID:            hCV29182964
SNP Position Genomic:     1003870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47148):
AAAGTTTAAGGCTATCTCCCTTCCTTATTCCTCTCTCTGATTACTGTCAATGCTAGCTAGTTGATGTCAGTAATGACAAGTTTGTATTTTAATTTTTAAG
M
TTGAGTGATCCATCACACCTCAACCAGAGTAGGTGGTTATTCCTACTACCTGCTTGGATGTCAAATGCATCAGTTGGCAATTTGTATTTCTTCAGCTTTC
Celera SNP ID:            hCV2810219
SNP Position Genomic:     326189
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47149):
GTCTATTGCTCCCATCTTTGTGTCTGTGTGTACTCAATGTTTAGCTCCCACTTAGAACTGAGAACATGCAGTATTTGGTTTTCTGTCCCTGTGCTAATTC
R
CTTAGGTTAATGGCCTCCAGCTGCATCCATGTTGCTGCAAAGAACACAATTTCATCCTTTTTCACAGCTGCATAGTATTCCATGGTATACACGCACTGCA
Celera SNP ID:            hCV2392564
SNP Position Genomic:     1113164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47150):
GTAGTCTATACATGATGATCAGAGATGGCCTTTCTGAAAGGGAGACATTTAAACAGAGATCTGATGAAAGAGAAGGTCATGAGCTATACAAATATCTGTA
R
AGAGAGAAAGCCCCACAGGTGTACAGCCAGCAAGATGGTGGAGGATGCAGGAGGTTGGGTGCAGGGGAACTGTTGCAAATCGTAGGGCCCCAGAGTCTGA
Celera SNP ID:            hCV7623939
SNP Position Genomic:     621345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47151):
GCCCATAGCTCATGTTGCAACGAAGGCTGTAACAGGAAAGCAGGCCCTACATGACTCTTATCATTTCATTTATGTCCCATGATTTCTTCAACTCAGTTAG
K
TCAACTGTGGTGGTTTCAGTGGGATGCTATCTATGTATGTTAATTATCTATTGTTGCATTAGAAATTTTCCCCAAATTTAGTGGCTTACAAGCAAGTATT
Celera SNP ID:            hCV11672068
SNP Position Genomic:     75726
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,8)   total(G,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47152):
TTAGGACTTTTTGGCAATTCAATGAGTTCTTTCTAAGGTAAATGTTTTGGTGTTTAAGCTATAACATTATCATACCTATAATAAAAACGACATAAAACTT
R
TAAGATCCTGTCCTCCAGCTGGAAAATGAGAGATGGGCAAATGCTCCAGTTTTCACAAAGGGACAAAGGTAAATGGTAGGAGTTAGGAGCTGTCAAGCTG
Celera SNP ID:            hCV29182966
SNP Position Genomic:     990913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47153):
CCAAACAGTGCCACAGAACAAACGTAACAGGATATTAAGATAATCTCTTTTGTCTATGCCAAATGTCATTTAGCTGTTGAGAGAGGAATGTCCCATCTAG
K
TTTTACAAACAATAAATAATACAGCTTATGAAGGTCCACATGGGTGACACTGATGCAATGTTTCAACAGTTTTCCGAAAAAGGAAAATAAAATGAGTCAT
Celera SNP ID:            hCV11672069
SNP Position Genomic:     78867
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47154):
CCAGGTTAAAAGGCTACTCTTTTCCTTTAAAGTGACATATGAATCTGCTCAAGCACTTCAAAATACATGGTTAGGACCCTAGAGTTCTAGGGGAGAAGCA
R
TTCTGCAGGAGAGGTGGCAGAATCTGTAAAATGCATCACTATGAGATCAGGCCTCGGGACAAAAGCGAGAGAGACCAAGAGAAACCTGCTGGGGAGAGGA
Celera SNP ID:            hCV29182967
SNP Position Genomic:     988558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47155):
TTCCTCATTTGTAGAAAGGTAGAAATGAGAGAATATGCTTCCTAGAGTCACTGTCGAGATAAAATGAGGTATAGCATATGAAGTACGTGGAACTGGGCAA
M
TAATAAATACTTGATAAACATTATTTGTGTCTTTGGGTATTGATAACTTATATATGTCTTATGCAGTGGTGCTTTGAGAAAATGAGGTACAGAGAGGTGA
Celera SNP ID:            hCV2852460
SNP Position Genomic:     619180
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47156):
GAAACCAGGAGGCGGAGGTTGCAGTGGATTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTTTGCCTAAAAAAAAAAAAAAAAAAAG
M
GCCCCCCCACTCATCCACACTTACTCTCTTACAATCCTGGAAGGCAACTTGTTTCAATGGGCTAGAGGCAAGTTGTTGGCTAGAGGAGATTCCATTGCTG
Celera SNP ID:            hCV15983548
SNP Position Genomic:     96481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47157):
CACTAAAATATACGGTGGTATTCTTTTAAAAAATTCATACAATTGAACCGGGTACAAAGAATCACCTGGGTTTTTTGTTTGTTTGTTTTTGTTTTGTTTT
Y
GTTTTTTGGTTTTTGGTTTTTTTGAGCTTTTAGATTCAGGGGGTCCATGGGCAGGTTTATTACCTGGGTCTATTGCGTGTTGCTGAAGTTTGGGGTATGA
Celera SNP ID:            hCV2392567
SNP Position Genomic:     1112873
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47158):
CTGTCGCCCAGTATTTTCTAAAGTATAGAGATGAGGACAGTGGTGATGACACCGCTGATGAGGATGGTGGGAGGAAGGCCATGATGAAGAAGAAGATTGT
R
ATGAGAAAGATATTATTATGACAGTGATGTTTCCAAAATGTCAGAGGCCAAATTGACATTCTTATCGAAAGGGCCACCTCCCCTCCAGGTTAAAAGGCTA
Celera SNP ID:            hCV29182968
SNP Position Genomic:     988373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47159):
AGAGTCACTGTCGAGATAAAATGAGGTATAGCATATGAAGTACGTGGAACTGGGCAAATAATAAATACTTGATAAACATTATTTGTGTCTTTGGGTATTG
W
TAACTTATATATGTCTTATGCAGTGGTGCTTTGAGAAAATGAGGTACAGAGAGGTGAAGTAACTATGCTCACGTCACATAGCCAGAAGGCAGAGGGCTAG
Celera SNP ID:            hCV2852461
SNP Position Genomic:     619223
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47160):
CTGTGACTTTTTAAAATCACAATTCGATGAAAAGTTCAACACACTAAAATATACGGTGGTATTCTTTTAAAAAATTCATACAATTGAACCGGGTACAAAG
R
ATCACCTGGGTTTTTTGTTTGTTTGTTTTTGTTTTGTTTTCGTTTTTTGGTTTTTGGTTTTTTTGAGCTTTTAGATTCAGGGGGTCCATGGGCAGGTTTA
Celera SNP ID:            hCV2392568
SNP Position Genomic:     1112832
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47161):
CATGTTAAGTGCTCTACATCCCAGTCTCTTCACCTGTTAACGGGCTGATCGCAGAGCCCACCTCATTAGGTCATTGTGAATGAGCTAATGACTAAAAGAA
M
CTAGATAGTGCCTGTCGCCCAGTATTTTCTAAAGTATAGAGATGAGGACAGTGGTGATGACACCGCTGATGAGGATGGTGGGAGGAAGGCCATGATGAAG
Celera SNP ID:            hCV29182969
SNP Position Genomic:     988261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47162):
ACCAAAGGCAATTAATAATTGTTTAATCCTTCTGGAGAGCCATTTGTTGTGGTGATATTCACATGACTGTCTTTAACACCATGACACCAGGAGGGTCTTA
Y
TTCGCCAGCCACCAAGCTGGGGACATCATGCTGGGTAATTGTCTGCAGGTGCATTTAACTGAAAACCTTTCTCTAAGATTCTGGAGTTCACAGCACACAA
Celera SNP ID:            hCV2852462
SNP Position Genomic:     620822
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47163):
CACTACTCCTAAGACCCAGGTCAGACAGCGAGGCATCACTGTTAAGAGCATGGGCGCTATGGTTGGACAACTCTATCACTTACTAGCTGTGTGTCCTGGA
S
CCAGCTACTTAGTCCCTCACCACCTCTGTTTCTTCATCTATATAATGGGTCAGTAATCCCACCCACATGAAGTTATTGTTAGACTTAAATAAGCTGACCC
Celera SNP ID:            hCV2392569
SNP Position Genomic:     1111823
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47164):
TACTCACTCCTGATACAGACTGAGTGGCTCACCCTCATTTTCTCACTTCCTCCGTCCTGGTGTTAATAAGACTCATCCTTCATTTTTCTGCCGTTTCTGC
R
GTTCTTTAGAGAGTGCAGACCACTTTCACATGCAGCTTCTCATTTCATTCTCATAACCTAGAGGACGGGCACATTATCCTCCTTTACAGATGAGAAAATT
Celera SNP ID:            hCV29090470
SNP Position Genomic:     497504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47165):
GCTTATTTCACTTTGCATAATGCACTTGAGGTTCATCTATGTAGTCTCATATGACAGGATTTTCTTCTTTTTCAAGAATGCATCATAGTTCATTGTGTGG
R
TATACCACATTTTCTTTTTCCATTATCCATTCATCTATCAGTGGACATTTGGGTTGCTTCCACCTCTTGACTATTGTAAATTACACTTCACTGGGTATGC
Celera SNP ID:            hCV2852463
SNP Position Genomic:     622544
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47166):
AACATATACAGCCAGTGGCTGTGGTAAAGTGGGAATGACTGCTAATGGGCATGAGGTTTCATTTAAGGGTGATGGAGATGTTCTAAAATTATATGTGGTG
R
GGATTGCACAACTCTGTAAATTTCCTAACAATCACTGTGTTACACACTTAAAACGGGTGAATTTCATGGTACGTAAATTATACCTCAATAATACTTTTAA
Celera SNP ID:            hCV29090471
SNP Position Genomic:     495545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47167):
AATTACACTTCACTGGGTATGCAAGTATCTCTTTCAGATCCTTCTTCAAATTCTTTCAGATATGTAGCCAGGAGTGAGATTGCTAGATCATATGGTAATT
S
TCTTTAGCTTTTTGAGAAACCTCCATGTTGTTTTCTGTAATGATTGTGCTATTTTATATTCTCACCAAGTGTATACAAGTGTGACAATTTCTTCATGTCT
Celera SNP ID:            hCV2852464
SNP Position Genomic:     622723
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47168):
GAAAAGACAAACATATACAGCCAGTGGCTGTGGTAAAGTGGGAATGACTGCTAATGGGCATGAGGTTTCATTTAAGGGTGATGGAGATGTTCTAAAATTA
K
ATGTGGTGAGGATTGCACAACTCTGTAAATTTCCTAACAATCACTGTGTTACACACTTAAAACGGGTGAATTTCATGGTACGTAAATTATACCTCAATAA
Celera SNP ID:            hCV29090472
SNP Position Genomic:     495536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47169):
CAAAAACAAACAAAAAAAATCTGCTCAGCATGAGAAATCAAGTTAATGAAAACGCTACCGCATTGAATTTCCAATAAGAGAAAGGCAAAGCAAAACTTGT
Y
AACTAAAGAAAGGGGCATTCACTGTAATCCCTTCGAGGAGAGGTGGAAGCAGGAGTAATACAAAAGCTCATTACTGTAATCAAGGCATTTGTAACTGTTG
Celera SNP ID:            hCV52340
SNP Position Genomic:     932553
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47170):
GGGCTGGGCTGACTGCATGAGTCTCACCTTTCACTGTTCTCCCTTAATTCCCTGCCTGCCTGGAAGACGTATTTCAGCTTCTGCAATGCTTTGCCTTGCT
R
AAAATATCTCCTCTTAGCAAACAAGTTTGCCCAGAAGTTATGAAAGTAGGAGAGGGAACAAAGATGATAGAGGTTTGTGGTTTGTTTATGAGGTTTTCAC
Celera SNP ID:            hCV29090473
SNP Position Genomic:     494569
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47171):
GCATCACATCTTTGCGTGAAGCCTGCAAAGGCTCGCTATTGCCTTGGAAGCAAATCCAGTCTTCTTACCTTGACTTACAAGACTGTCCATAATTGGGCTG
S
GCTGACTGCATGAGTCTCACCTTTCACTGTTCTCCCTTAATTCCCTGCCTGCCTGGAAGACGTATTTCAGCTTCTGCAATGCTTTGCCTTGCTAAAAATA
Celera SNP ID:            hCV29090474
SNP Position Genomic:     494475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47172):
CTTGAACTCAAACCCGAAGCATCACATCTTTGCGTGAAGCCTGCAAAGGCTCGCTATTGCCTTGGAAGCAAATCCAGTCTTCTTACCTTGACTTACAAGA
S
TGTCCATAATTGGGCTGGGCTGACTGCATGAGTCTCACCTTTCACTGTTCTCCCTTAATTCCCTGCCTGCCTGGAAGACGTATTTCAGCTTCTGCAATGC
Celera SNP ID:            hCV29090475
SNP Position Genomic:     494457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47173):
AGGCTGCCATATGCTTCACCTGCTTGTGCCCTCGAGGGTCCCCTTCTGGGGTCCCCAGTCTGGCTTATGATCATATTCCAGCATAGAGCACTCCCTAACC
S
CACTCCCGTAGCACTGGGACTATAGCTTTATTTCTTGCATCATTTTTCTCTACGCTCAAAAAAAAAAAAAAGCAAAAACAAACAAAAAAAATCTGCTCAG
Celera SNP ID:            hCV52342
SNP Position Genomic:     932380
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47174):
TCTGCAGTTCCATTCATTTGCAAAAATTTGCAGACAATTAAGCTGTCCCCCTGCAGTATAGGTAGCTCCTTTTAGCCAGGGGCTGGAGATTTGTTCTCTC
Y
GGGAAAATGTTAAAGCTGTGATTATCTAGTTATACCTGAATAAATGGATCAAAGGACCTCTCCAGCCAAGCACAGACCTCCTTGAAAAGGTAGTCTCCAG
Celera SNP ID:            hCV29090476
SNP Position Genomic:     493888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47175):
GCAGGCTGCCATATGCTTCACCTGCTTGTGCCCTCGAGGGTCCCCTTCTGGGGTCCCCAGTCTGGCTTATGATCATATTCCAGCATAGAGCACTCCCTAA
S
CCCACTCCCGTAGCACTGGGACTATAGCTTTATTTCTTGCATCATTTTTCTCTACGCTCAAAAAAAAAAAAAAGCAAAAACAAACAAAAAAAATCTGCTC
Celera SNP ID:            hCV52343
SNP Position Genomic:     932378
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47176):
TGCTCTCTTGAACCAAAAGATGGACAGATTGCCATTTACTGAGGTGGCAATGACTGAGAGACACAGGTACTCTGAAGAATATAAGGAATTTTCTTGTGCC
R
TATGAAAGTGCCGTTAGAAAAATAGGTTGGTCATTTTCTGACATCAAAAGATTTTTTCCCCAAATTGTCTGAGTTGCAGCCAATATAAACATAGGCCAAG
Celera SNP ID:            hCV2852469
SNP Position Genomic:     623728
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47177):
TGGGTGGGGGGTTAACCAGGCACAAGAGGGGAGGGACGGGAAGGGAAGTCACAAGGTGAGAAGCCCTCAGACAAGCACCTGCAATTGGAGGGTGCGTGCA
S
CTGAGAAGCAGAGCCAGGAGGACAGTGATAGCACTTGAGGTCAGAGTGGTCATCGGGATCCAAGCCTGCTGGATCTTCCTGGCCTTAGGAAACCCAGAGG
Celera SNP ID:            hCV29090477
SNP Position Genomic:     492659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47178):
GGGAGAGCCCACGGGAGCACCTGTGAGTTGGTTCCGAGAAAACATCCCACTCTCCAGGTCACCTCTCTGTGCTTCACCCCACCTCTCATTCTTCTTTTGT
S
CAAAGCACCTATTTGGAAGTAAAATATCAGCTAGAAAGGAAAGGAGTTTCAGAAGAAAGTACCACATCAGCGTTTTGAACAAATTAAGTTGTGTGCAAGC
Celera SNP ID:            hCV52344
SNP Position Genomic:     932112
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,3)      total(G,3|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47179):
TCCTAGGTGGAAAACAATGGTCCTGTAGTCCTCATCACCATTTCCCATGTCTGAAACTGTCTTTGTCTACCTCTTTTCAGTTCTTCTCAACTTCATAACC
Y
ATTCTTGCTGTATCTAAAAAGCATTAATGATCCACTGGCATAAGAATTTTGGGTTAGCTCAAGCCAGGTAGGATAGACTTGACCATATGTTCGTGCAAGT
Celera SNP ID:            hCV29090478
SNP Position Genomic:     479502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47180):
TCAGTGCTCTGACAGATCAAGAGTGCTCTGAAAGCTCAGAGGAGCAGGAAGAGACCCAGGTGACCTGGTGAGAGCCACGCTGAATCTCGGTTCACATGTC
R
TTAACGGAGCTTGGTCCTTGGAGGGCCTTGTGGGGAAGGACGCAGACAAGCTGTGATGGAGTCCTTGGGTCTCACCTGGGAGAGCCCACGGGAGCACCTG
Celera SNP ID:            hCV52345
SNP Position Genomic:     931934
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47181):
AGAACCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGGGATCATGCCAGTGTACTCCAGCATGGGCGACAGGGTGAGACTCTGTGTCAAACAAACA
M
ACAAACAAAAAATCGATCTTTATTGCAAATTGAAAGAAGTGCTAATCCAATATCCTGGTAATCATTATATTTATCATTTTAAACTCCCACTGTGCCAAAG
Celera SNP ID:            hCV29090479
SNP Position Genomic:     506584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47182):
TAGACAAGGGTAAAAGAAAGCCTTCAGTAGAATTTCATCTGAGTATTTTCTTTGCCCCCTTGTGTGTCATTTTCTCCTTAAGAAAACTGAGGAAGAAGTG
Y
GATTTAGTCCCCTCATCTGCATAATTTTCTTCCCTGTGTGGCTGTGTGCTTGTCAGTGCTCTGACAGATCAAGAGTGCTCTGAAAGCTCAGAGGAGCAGG
Celera SNP ID:            hCV52346
SNP Position Genomic:     931781
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47183):
TCACCTTCCAACCCCCTGCCTTCCAATATTCCACCCCTCTTTTTTCTGCCCTAGAAGAGAAACCTATGATCCTTGCATTAGAATGGTTTTCCTGCCATCA
S
TATTGCAAAATAGACAAGGGTAAAAGAAAGCCTTCAGTAGAATTTCATCTGAGTATTTTCTTTGCCCCCTTGTGTGTCATTTTCTCCTTAAGAAAACTGA
Celera SNP ID:            hCV52347
SNP Position Genomic:     931670
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47184):
TCTGTTAATGAAGTTTCCAGCCACCTTACCCTGGATTCTCACCTTCCAACCCCCTGCCTTCCAATATTCCACCCCTCTTTTTTCTGCCCTAGAAGAGAAA
M
CTATGATCCTTGCATTAGAATGGTTTTCCTGCCATCACTATTGCAAAATAGACAAGGGTAAAAGAAAGCCTTCAGTAGAATTTCATCTGAGTATTTTCTT
Celera SNP ID:            hCV52348
SNP Position Genomic:     931632
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,9)   total(A,3|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47185):
ATTTACCTTCCCCTAATCCCACCCAGTTGTCTCAGCTAATGGCAATCTTATTTTATACTTGATGAAACAAGCCTGAGCCCAGGTTGTTCTTATCCCTGTT
Y
TATAGGTGAAAATACTGGGCACAAGAGATTTTTCCACAATCACATAGCTAATATATGGAAAAGCTGGGATTTGAGCTCAGCTATATCTAACATAGAAGTT
Celera SNP ID:            hCV11773381
SNP Position Genomic:     376107
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47186):
GTGTCAATGGAGACCAGAAGATGGGTTCCTGAGGCATTTGGAGACATCCAAGTGAGGAGATGGCTTGTTTTCTTCCTAAATTTTCACCATCCCCCACAAG
R
CAGCCTTTTTTTTTCTCTGTTAATGAAGTTTCCAGCCACCTTACCCTGGATTCTCACCTTCCAACCCCCTGCCTTCCAATATTCCACCCCTCTTTTTTCT
Celera SNP ID:            hCV52349
SNP Position Genomic:     931516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47187):
TACCAGGGGTTAGGAGTTGGACGTTTCTTTTAGGGGGACACAATTCAACCCCTAAATGGGGATCTCCTGACAGTTCTTAATAGGGTCAATATTTCAATGC
R
TGCATTTGTTTTTTATAATGATCTTTTCTATGATACTGGGTGAGATAAAAACCAACTTATTTGCCTTTAAGAGCTTCTTTGTTTTCTGCCATTTGTGCTA
Celera SNP ID:            hCV2810220
SNP Position Genomic:     328591
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47188):
GCAGGCAGGTGATGAGAAATGCCCCTGAGTAAAGTTAAACAGGACCAGGAGGATGGGGAATTTGTGGGGGGCAGGGGAGCTGGAGGAGGTGCATGATATT
S
TAGTCTATACATGATGATCAGAGATGGCCTTTCTGAAAGGGAGACATTTAAACAGAGATCTGATGAAAGAGAAGGTCATGAGCTATACAAATATCTGTAA
Celera SNP ID:            hCV7623940
SNP Position Genomic:     621245
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   African American (pooled) - WICGR(G,7|C,93)   Asian (pooled) - WICGR(C,84)   Caucasian (pooled) - WICGR(C,96)   total(G,7|C,273) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47189):
TCTAAGATTCTGGAGTTCACAGCACACAAAGAAAATAGGCATAGCATCATTCCAGTCTGTCTACTTTCTGTGACTGAGGTGATTTTTTTCTGGAGCTAAA
Y
CTGTCTTTTCCACTTGTTCTACTCTCATTCACTCACTGGCTAATTCAACAGATACCTACTTGGCTCTTACTACCTATCAATCACTATTCAAGGCACTCAG
Celera SNP ID:            hCV7623941
SNP Position Genomic:     620994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47190):
GCTGAGAAGGGTTATAGCATCAAAGACAAATATGGCTGAACATATTGGGGATCATTTAGGTTAAAGAAATTTAAATGAATTTTTCCTGCGGGACTTCTCA
R
AGGCTTTAATCTGTGAATGTGCATACTGAATTTCCAAGAAGGGTTTAGAATGTGCAGCAGTTTCCAAATCTACTTGACCTGGGAACCCTTTTGTTCACAG
Celera SNP ID:            hCV10075990
SNP Position Genomic:     79231
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47191):
TTTTAACTTGATTACCTCTGTAAAGACCCTATCTCCAAATAAAGTCACTGAGAGTTAGAACTCCCACATCTTTTTTTTTTTTTTTTTTGGTGGTGGTTGG
Y
GGGGACAGTGAAACCCACAGCAGTGAGAGAGTTGTATGCACATGGACACAAAAGAGCATCTGATCATAAAGAGAAGGAAACCAAACCTGTCTGGGCACTG
Celera SNP ID:            hCV2810222
SNP Position Genomic:     329868
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47192):
AGTTGTATGCACATGGACACAAAAGAGCATCTGATCATAAAGAGAAGGAAACCAAACCTGTCTGGGCACTGCAATGTGTGAATCTAGAACTCTCCAACTG
M
TATGCTTCAGCTTAGATGTTGCGCATCACCATATTTCTGTGTCCTGAATTTCACATCTTCGAGAAGAATTTTATTGGTCCAGTTGAGCCCAGATACCTTC
Celera SNP ID:            hCV2810223
SNP Position Genomic:     329998
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47193):
TATTAAATGTCCCAAAGGAGTCTTTGCCCAATGTTTGATAATTTAAATTCATGATTAAACTTTCTGTCGTGTTCCTGAAAGGCTGATGTTCTTTGTTGAA
R
GGGATTCATACACTTTGGATAGTAACACTGCTGGGGGTAATGTGATTGAGAAGTAAGGAGGGGGCGCTGGAGCCGGAATTGGGTTCACATCCCACTGACC
Celera SNP ID:            hCV29182970
SNP Position Genomic:     988044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47194):
TTTAATTTGCTGTTTAATTAAGCAAGATGCCTGCCTTACACTGTTTGGCAAAGGAGAAAAATCAGCATCAGGCACTTGCAGACATAGATTTCCAGAATTC
S
TAAAACATTCAAGAAGGATGTTATCGGTACATGATCAGAGTTGAGTAGGTTCTGGATTTTAATGCCTGTACTTGCTTTTTACTTATAAATGATTAATACT
Celera SNP ID:            hCV2810225
SNP Position Genomic:     334357
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47195):
AAAGGAAATCATCTTTGTATTACTAGTCTTTTTATTGCCAAAAAAATTTTATTTGCAAAACAAATATAGGCTCATGGTAAAAATTTTAGCAACTGAGATA
R
GCAAAACTAAGAAAGATGTAAATCCCACTAGCCAGATACCACTACTCCTAAGACCCAGGTCAGACAGCGAGGCATCACTGTTAAGAGCATGGGCGCTATG
Celera SNP ID:            hCV2392570
SNP Position Genomic:     1111683
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47196):
TCCCCCTTTCTCCCTGTGGTGTCTTGGGCACTCAGGATTCCAACCTCAAAACAGCAAAGTCCACGGGAGCTTGATTTGCTCCATTCTCTGACTTCCCATG
R
CAGGGTTCCTCTAGCTGCTAATACAGACTGCTCACTCTTGCCATGGTTCCAAACTGGCATTTCAAGAACACCAGTTCTAATTAGTTCCAAACAATTCTAA
Celera SNP ID:            hCV29182971
SNP Position Genomic:     986950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47197):
TAAGCAAGATGCCTGCCTTACACTGTTTGGCAAAGGAGAAAAATCAGCATCAGGCACTTGCAGACATAGATTTCCAGAATTCGTAAAACATTCAAGAAGG
R
TGTTATCGGTACATGATCAGAGTTGAGTAGGTTCTGGATTTTAATGCCTGTACTTGCTTTTTACTTATAAATGATTAATACTTTAGCTTCATAATTATCC
Celera SNP ID:            hCV2810226
SNP Position Genomic:     334375
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47198):
ATTGTCTTAGCTCAGGCTGCCATAACCAAATACCACGGACTGGGCAGCTTGAATACAGACATGTATTACTCACAGTTCTGGAGGCTGGAAGTCCAAGATC
R
TGGTTCTAGCTGGTTCAGTCTCTGGGGAGGGCTCTCTTTCTGGCTTGCAGACAGCCACCTTCTTGCTGTGTCCTCATGTAGCCTCATTTCCTTGGGGCAT
Celera SNP ID:            hCV2392571
SNP Position Genomic:     1111117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47199):
TGATGCCCTTCTTACTGACCAAGTGAAGAATATGGAATAGGTACGATGGCCCCTGACTTTTGCAGAGTCTTTACTGTATCTACCATGGTGTCTCCCCCTG
R
GATCTGTTGCCTGATTTGACTGTGTGAGCCTGGCTTTACCATTTTACAAATGAGCTTACTGTGATGCTCAGAGAATCCAGAGAACAAGCTCCAAGGTCAT
Celera SNP ID:            hCV29182972
SNP Position Genomic:     986058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47200):
TAATCCTTCTGGAGAGCCATTTGTTGTGGTGATATTCACATGACTGTCTTTAACACCATGACACCAGGAGGGTCTTACTTCGCCAGCCACCAAGCTGGGG
R
CATCATGCTGGGTAATTGTCTGCAGGTGCATTTAACTGAAAACCTTTCTCTAAGATTCTGGAGTTCACAGCACACAAAGAAAATAGGCATAGCATCATTC
Celera SNP ID:            hCV7623946
SNP Position Genomic:     620845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47201):
AAGTGCATTCACCTGGGTGAGTACTCAGCCTGAGGTCTGAATGGAACCTTCCACCTGGGAAGATGTTAAAGTGGTTATGAACGAATGAAATCTACCCCCA
M
GGTTTTCCTGGTGCAGAAAGAGAAGACTGAAGATCAAATTTACAACGTGCTTAGACTTCTACAGTGTTGCTGAAATCTACATCAGACAGTATTTTGGCGA
Celera SNP ID:            hCV2810227
SNP Position Genomic:     337963
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,7)   total(A,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47202):
CTGATGTGACGGGTTTTGACGAGAGAAATGGCAACTGTGTGGTTCAACCTAATATTTAGATAGTATTGTCTTAGCTCAGGCTGCCATAACCAAATACCAC
R
GACTGGGCAGCTTGAATACAGACATGTATTACTCACAGTTCTGGAGGCTGGAAGTCCAAGATCGTGGTTCTAGCTGGTTCAGTCTCTGGGGAGGGCTCTC
Celera SNP ID:            hCV2392572
SNP Position Genomic:     1111053
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47203):
GCACTCATATGTGAATATGACTGTCCTCAACGCTAAACTTTGACCTCTTTGGAGAAAGAGACTTGTTTTTTGATCACTGTATCTCTAGTATCCAACACGA
Y
ATTTAGACAAGAAGTTCATTAACTGCCAATTAAATAGATGCATAAACTAGTTAAAGAAAGAATTAGACCAGGTGCAGTGGCTCATGCCTATAATCACAGC
Celera SNP ID:            hCV29182973
SNP Position Genomic:     980685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47204):
TATGTCCATAGTGGTCTTTGTTTCTTACCTAGGTTGGTTCTGGGTAGGTTCTGGACTGGATTGGCAGGGGAGATCCTGGTCTCTTTCATCTCAGGCACCT
R
AAGTCAAATCTTTCAGAAATAACATTTAACCGGTACCTCCATATGTGTTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTTAGCGTTGAACACTTCTTGTTG
Celera SNP ID:            hCV7623947
SNP Position Genomic:     620033
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   African American (pooled) - WICGR(G,34|A,66)   Caucasian (pooled) - WICGR(G,96)   total(G,130|A,66) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47205):
CCCAGCAGTGTTCATGATCTGACAGCTGTAACCAATACCTGACATTTCCCTTTTGGATATAAATAATTATCTTTCACAGTTATGGCACATACACAACAAG
W
AAATTTCCCCTTTTATTTGGAAAGCCTCTACTTTACAATTCATGTTTACCTTCCTGAATCTTTTCTACATTTCAAATTCATGTTTTGTTTAAAAAGATGA
Celera SNP ID:            hCV2810228
SNP Position Genomic:     338177
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47206):
ATGACATGGCTTGATTCTTTTTTCAAGATGAGATGTTTGCTTTTCAAATCAGTGTGATCAGTGAACCTGGCCTGTGTCTGTGGAGATTCACTCGAGGCTT
Y
TTCTTGCAGACATACCATCTTGCTTTTGTTTCTAGAATATATATTAGCTGGTAGCTAGTCGACACCCAGGAGGAGACAGCAAATGCAATAGAAATGCATG
Celera SNP ID:            hCV29182974
SNP Position Genomic:     977620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47207):
GAGAGATAGCCCCCTGCAACACACACGCACATGCACACACACACACACACACACACACACACACATAGGTTTTGTGCTCTCTTGGGAGCATTTAAGATAC
W
CTGCAAACTACAATTGCTTCCTTAAAATGTACAGTGGACGTTTGACATAGTAAAGATATTTTGAAGATTTGCAGGCCAGAAACCTGTTTAAGCCAACATA
Celera SNP ID:            hCV7623948
SNP Position Genomic:     617641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47208):
AGTTATGGCACATACACAACAAGTAAATTTCCCCTTTTATTTGGAAAGCCTCTACTTTACAATTCATGTTTACCTTCCTGAATCTTTTCTACATTTCAAA
Y
TCATGTTTTGTTTAAAAAGATGACAGACACAGGAAAGCGTTGGTTATGGCAATATAATTAAAGGACATTCATTTCACTCAAACCTGCATGGTGATTTTTG
Celera SNP ID:            hCV2810229
SNP Position Genomic:     338254
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47209):
TTTTCCACATCACATCTATTTGTTGATTTTCCCCCCACAGCTACCACTATGCTTGTTATTAGTGATAAATGTTCTGTTAAATGCATACCTGTGTGGAAGT
S
ATTGTAGCTGTGCAAAACGTCGAGGGTCTGGTGATGGATTAAGTGCCAGATTTAATGACATGGCTTGATTCTTTTTTCAAGATGAGATGTTTGCTTTTCA
Celera SNP ID:            hCV29182975
SNP Position Genomic:     977465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47210):
CTTTGGTGTCCTGAACAGAACCAGAATCAGCCTTCCCTTCTTATTCAATGACTACTTTTAATAGAGTTTAGGGATTAAAGGTCTCCCACCTTCTTCCATA
K
AATTTGACTTTCAGTCCAAGACCCCATCTCTAATCCTATGGTAGGGTATGCCCTTCTGCAGGAATCACTGCTTAATCTCTTCCGGCCTCCACCTCTCCAC
Celera SNP ID:            hCV29182976
SNP Position Genomic:     974602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47211):
CTTGAAGGTAGGGCAGGACGAGAAGGCCTCGAAGGTACTTTTGAGAACTTGTGTCTCTTCACCTCACAAACCTTGACTCCAGGCACGCTGGTGGCCCTGT
Y
GCAGCCTGATGTCTCCACTCTTATTCCCAGGCCCTTCTTCCTTCTCTGAATTCTCTCCCCTCACACCCATCCTTCAAAGCTCAGCTGCAGTCTTACATTA
Celera SNP ID:            hCV29182977
SNP Position Genomic:     974246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47212):
AACTCAGACATTATCCTGTAGCCACTGAAGGGTTTTAAGGAGAGTCCTTGGTCAGATGGTAGCTGGACAGTTCGCTCTGGCTGGCTTTGGGGTGGAGAGG
R
GCATAGAAGAAGGCAGGGGGACCAACCTGGAAGCTGTTGCATAAGTCAAGGAAGAAGAGATGGGGACTTGACATCATGTGCACACAGAGGTGGTGGAGAA
Celera SNP ID:            hCV29182978
SNP Position Genomic:     972891
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47213):
TCCACCTTTGGAGACAGACATATCAGTCACTTTCTCACTTCCCCTGACTCAGCTGGATTCTCATCTTCTCTGGCTCAGAGGGGAGTATCATCAAGTACAG
S
TAACATCTTTGAGCATATACCATGTGTCAAAAACTATTCAGCTTTTCTTACTCTTTATAAGAACTCGGTGAAGTAGGCACTATTATTATTTTCATTTGAA
Celera SNP ID:            hCV2852471
SNP Position Genomic:     624252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47214):
CACCATAACCGTTTCTTGATTTACTCATTCATTGAACATTTACTGAGAGTGACTGAGAGTGAACTAGTTTGTGTGATTTTTCCCCCAGGAGATTTAGAAT
R
AGTTCAACTTGTTTTCAAAGACTATAACCCGATGACCACATACAGGCAGTGTCTTGGGACCTCAGTGTCTCAAGGGGCAAGGCACTGGGGCTATGGCAGG
Celera SNP ID:            hCV29182979
SNP Position Genomic:     971127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47215):
TGTGGGAGCTACATTTCAAGATGAGATTTGGGTGGGGACACAGCCAAATCATATCAATGGCTAAGACTCCATCTCTGTACAGGGGGCTGGGAGATTCACT
K
GGCAATTTTTGTTCCTCTTGGCTTCAAAGGACTCAATCTAGGATCATCACAAAATGTATTTATTGTCCAAAACTGGAGTGCTTTTGAGAGCAAAAAGGAC
Celera SNP ID:            hCV2852472
SNP Position Genomic:     624948
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47216):
TCTAGCTTAAGATAAGGGGTTGTGGAGACTGAGGTTCTTACTATGTAGACGAAGCCTCCAGGTAGCAGGCTTCAGAGAGACTAGATGGTAAATGTTTCTT
S
TCAGACTTTAAAAGGTATCAGACTCTTAGTTAATTCTCTCTTGGATCAAGAAAAAGGCATGAGAAGGGGAAAAGGGATTTTCTACAAAATATAGTTTTTT
Celera SNP ID:            hCV16072804
SNP Position Genomic:     877390
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47217):
TAAAATTATCATAAAAGACACAGGAGTTAGCATGCTGGCACAAAAACGCCTTTTAAATCATTTGTCTTGCATTTCAAGAGGGTGAATGGAGACAAAGTAC
R
TAACTGGTTCTTGATTTTTTTGGTCATATTTTATTACAACCTGAATTCCTGTAAAGAAAGGAGACTCATATCCTGAAGAATGAAGACATCAAAAGCAAGG
Celera SNP ID:            hCV29090480
SNP Position Genomic:     509638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47218):
CTTCTTCATTAACTATGAAGCCCTTTCCCATATGGGTTTATCAGCATTGTAGGAAGGGCTTTCATGGAACCATATAAATTCATCTCTCTAGAAACGAAGA
R
TTCTAACGTCCATCCTCACTTCTGCCACCAAAATTAGAAACATACATATGTGTCGAGCTTTCTGCTTGGTGAAGGTGCAGTGACCCCTCTTTTTTTCAGC
Celera SNP ID:            hCV2852473
SNP Position Genomic:     625368
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47219):
CCTCTCTGAACTTTCTTCATTGATTAAGGAGGGATAAGATTTACTTTGGAGGTCTGTTGGAAATATTTGAGGGGGCTCATGCCAAGTGCCCAGCACATTG
R
CCAGCATACGCTTGCTGTATCATTATTATAGTAGTTTAGAGTAGTGATGGTGAGGGCATTGGAGTGATGATGATAGTGGTCGGAACATGGTCTTCACAGT
Celera SNP ID:            hCV29090481
SNP Position Genomic:     500327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47220):
TATCAGCATTGTAGGAAGGGCTTTCATGGAACCATATAAATTCATCTCTCTAGAAACGAAGAATTCTAACGTCCATCCTCACTTCTGCCACCAAAATTAG
M
AACATACATATGTGTCGAGCTTTCTGCTTGGTGAAGGTGCAGTGACCCCTCTTTTTTTCAGCATCCATTTATTTCTGCTTGCTGAGCTTTCTGTCTGCAT
Celera SNP ID:            hCV2852474
SNP Position Genomic:     625406
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47221):
AGGTAAATTGGAGCAGTTTGCATGCAACCTCTCTGAACTTTCTTCATTGATTAAGGAGGGATAAGATTTACTTTGGAGGTCTGTTGGAAATATTTGAGGG
K
GCTCATGCCAAGTGCCCAGCACATTGGCCAGCATACGCTTGCTGTATCATTATTATAGTAGTTTAGAGTAGTGATGGTGAGGGCATTGGAGTGATGATGA
Celera SNP ID:            hCV29090482
SNP Position Genomic:     500300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47222):
AGGAAGGGCTTTCATGGAACCATATAAATTCATCTCTCTAGAAACGAAGAATTCTAACGTCCATCCTCACTTCTGCCACCAAAATTAGAAACATACATAT
R
TGTCGAGCTTTCTGCTTGGTGAAGGTGCAGTGACCCCTCTTTTTTTCAGCATCCATTTATTTCTGCTTGCTGAGCTTTCTGTCTGCATTTTCATCTACAG
Celera SNP ID:            hCV2852475
SNP Position Genomic:     625418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47223):
AGTAAATACAACTTCTCAAAGTAGAAGATAACTGGTGTTAAAACAAGACTACATTTATGAGAACTCACTTCCATAAGGGCAAATACTACCTTAACAGAAT
M
TCAGCAACATTCCAGAAGATGGAAGTCAGAATAGATATTTATAGGGCTTGTAGGGAGGGTATAGCCTCAAGCAATTTAAGATAGGAAGATGATTGGTATT
Celera SNP ID:            hCV29090483
SNP Position Genomic:     256129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47224):
TAGCATTTCATAGGTAAAAACTAAGGATGTGGCTAAATATCCTACAATGCAAAGGGCAGCCCCTCCCCCAACAGCAAAGCTTTATCTGGCCCCAGTGTCC
R
TAGCGCAGTGGTTGAGAAACCTGGCTTCAGATGTAGAAACATCAGAGATGCAGTGTCAGAGGTGATCTTTGGGTCTTGTCTTGCTAACAAGGTGAAAGGT
Celera SNP ID:            hCV52350
SNP Position Genomic:     931255
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47225):
ACTTCTGCCACCAAAATTAGAAACATACATATGTGTCGAGCTTTCTGCTTGGTGAAGGTGCAGTGACCCCTCTTTTTTTCAGCATCCATTTATTTCTGCT
Y
GCTGAGCTTTCTGTCTGCATTTTCATCTACAGCTCTGTTCTTTATTGATAGTGTTTGTTTTAGACTTGTGAGCTCCAAGAGGGCTGAGACTGCACACTTT
Celera SNP ID:            hCV2852476
SNP Position Genomic:     625486
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47226):
CCCATTATCTTTCCATATGGAATGGTGTAGCTGGTGTTGGAGTCTTCTTTCACAGTAAAGTGCTCCTGTCATTGCCTCTGAGAACAGACTGGGGTGTCCT
K
GATAGTTTCACAGGACAGTGGTGTGGGCTCCTAGGTTATATTGCCTGTCTCTGTCACTCACAATGGGTGGTGTTTTTAAGCTACCCAAACTTCCAGCTCC
Celera SNP ID:            hCV29090484
SNP Position Genomic:     252536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47227):
AGGAGTGAGGAGGGTGTTGTAGTGGGAAGCTGTGGCCTGCAGAAGCTATCCTGGGGCATCAGGAGCTGCTGGGGGAGGGAAATGGTATAAGACAGCAGAC
S
AGGCAGACCAAGACTGGGTTCTGTAAGCTCTGCTAGGAATCTTCCTTGGTATCTGCAGAGCACAGGAAAGCTTTTGAGAGATTTCAGTGGGGAGATGATA
Celera SNP ID:            hCV52351
SNP Position Genomic:     930727
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47228):
CAGAAGGAAAAACGGTGTTCAGCATAAGCCATATCTATTTGTACGGTTTAGGCACGTTGAGCCACTCTTATCAGAGAATGGTAGGAACCTTCCCCAAATC
R
TCATTCCCAAATACCAGCCAAGAGCCAACCTTGCAGGCTGGCCTTTCTAGGGATAGCAGTCCCACACTTGCTATGTTGGCTCTTTTCTGGATAGTATGCA
Celera SNP ID:            hCV2852477
SNP Position Genomic:     626362
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47229):
TGTACTGGACAGCACAGATTCCAAATATACAGAGCAGAGAAAACTAAAAAGAGAAGTAGACAAATCTACAATCATTGTGGGAGTCTTAAAACATCTCTCA
Y
ATCAGCTTCAAGAAAAAACAACAAGGAGTAAAGCTGTAAAAGATTTGAACAAAATAATTAACAAATTTCATCAACTAACATATATAGAACTCTGAACTCA
Celera SNP ID:            hCV16251486
SNP Position Genomic:     1139105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47230):
GCTAGCTAGCCAGGTGGTACTCGGAGTTGGCATTTCTGTTGCTCAGGCCGGGCTGCATTTGGTGAGTTGCGGGAAGGGGATGATGACATCTTCTCCAGTT
R
ACAAAAGACAATGGCTTGTTCTGAGGAGAGGGCCTGGAACTCTTGGTCCATCAGTCTGGCTTTGTCCTGTCTATTATACACAGTCTAATCACCCCCAACA
Celera SNP ID:            hCV29090485
SNP Position Genomic:     355941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47231):
CACTTTTCTGATACTTTTCTGAAGTTTTAATATGTCGTTGTTTCTGAAGAGGCAGGGGTATTTCTTAGGAGACATTTTCATGAAGGGACTCCTGTCCATG
Y
TGACAAAAGAGAGTGAGTGTTTCTAGATAATGTGACAATCATATGCATGTTAGGAGGTGTATTAGCCTATTTTCATACTTCTATAAAGAACTACCTGAGA
Celera SNP ID:            hCV29090486
SNP Position Genomic:     243312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47232):
TAGGTTCTCCATAAATATTTGCTGAATGAATAAATGGCTGCTTGTCTCCTCAAGTAGCCTATCAGCTCCACATTCGCCATGTCAGTTTCTTCCTCTGCAA
Y
CTCTGCAGTGGCTTGCACCATGCCTGGTGCCTTGTAAGTTCTTTGCAAGCAATCATTGGCCATCTGCCTGAGTAGTCACGCTGGTCCGGACTTGAGCGAT
Celera SNP ID:            hCV147378
SNP Position Genomic:     915462
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,13)      total(C,1|T,13) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47233):
GGAAAGGACAGTTTAAAAATTTATGAATTATCTTTTCCTTTACACTTCAGCATTGACAGATAAGTGTTAAATTGAAATACTGTCTCATACTTTGATCACA
S
AAGCTAAGGAAAGCAAGTGCTGAAGCCGCACTGGCCTCCTTTGGAAAGTAAAACCCGAGAACTCCATCTAGGCTTCGAGTTAATAGATGTGGTGGTCTTT
Celera SNP ID:            hCV2852479
SNP Position Genomic:     626796
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47234):
CTATACCCCCATCCCTGAAAAATGGGGGTTTCCTTTTAGGGCTTTTAACAGCATAATGCAGTTGAATACAACTTATTTTACTGACATCTCTCCTCCAAGC
R
CTCTCCCCCAGCACTTTCCAGGACTAAATAATGCATGAAGGGAGAGAATAACAGGGATTGCATAAACGACGGAAAACAGCACGGTAAGGATTCTGTGTTG
Celera SNP ID:            hCV29090487
SNP Position Genomic:     354960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47235):
CTGGGGACACATGGGATGCATGGCCTGTGGACATCTAGAAATGAGGCCTGTCCATCAGGAGGTCAACCTTACCATCCACGGAGTGTTGCCCTGTTTGACT
S
CAAGCTCAAAGCTGTCCCAAATCCAGATGCTCGGTGAAAATCCCTGATATTTGAATGGCAGCCTCTGCAAGCTAAAGGCCATCTAGCAGATACAGTGGCC
Celera SNP ID:            hCV29090488
SNP Position Genomic:     220203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47236):
TCATTGTAACACAAATGACTTCTCTGCAGCTGTTCAAGGAAGACTCTTTTCCTATGAGTGTTGGTAGATGAAGAGTGGAAACTCAGGTGCTTGGCAAGGT
Y
AGAAAGTTAGTGTCAATGAGTGAGGAGGCTTGGGTAGAAGAAAAGTCTGTATGAAGACATAAGTACAAACCAAAAATCACTTTTAGTTGACTATGAGGCA
Celera SNP ID:            hCV29090489
SNP Position Genomic:     219960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47237):
AATCCACCCCCTTGATCCAGTCACCTCCCACCAGGTTCCTCCTCCCACATTGGGGATTACAATTCAGCATGAGATTTGGGCGGTGACCCAAATCCAAACC
R
TATCAATCATTTATTTCATTCACAAGTGCGTATTCAGCACCTGTCATCCCTGCAGCTGTACTGATGTGAATGGAGTCACAGCCCTTGATAGGCTCACAGG
Celera SNP ID:            hCV118239
SNP Position Genomic:     962321
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47238):
TTGTGAACTCATGAAGGGAGGGTCTTCTGAGAGATATAAAGAGGCTGATATATGCTCTTTATATCTCACCTTTGATGATACACAGCTCACCTTTGATGGT
M
ACTCTGAATCACATCAAGGCGATGACAAGAACAACTGTCTAGACTTAGTGGTGTGGCTTTGAAACGACACTTCGCCATTCAGGGATTCAATTGTTTTCCA
Celera SNP ID:            hCV10075207
SNP Position Genomic:     168441
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47239):
TACCCATTACATCTGCCTGTACCTCCAGCAGGTGCCCAGGAGATGGCTGAGTCCCAAGAGCCATGCAGGCCTCCTGGACGACCGCCCTGATGTGGTCCAC
K
TGACTCTTAACAGGTATCATGGCCTTGGCACATGTTGGGCATTTTCCAGCGTCACTCTCAGAAGACCCTCCCTCCATGAGTTCACCACTGCTGGTCTTTA
Celera SNP ID:            hCV10075208
SNP Position Genomic:     167427
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47240):
CTGAGCTGGCGCCAGCACGGAGCAGCTGAATCCGACTCAGGCTTCATCCCAGCTCACATTCCACCTTCCCGACAAGGACACTGAGGCCCAGAGATGAAGT
S
GGACTTCCCACCACAAGTCAATGAGGAGATGGGGTAGCCAGGCCTAAAACCCCGGCCTTTGGCTTACAGCCGCCCGTCATTTTCCCAGGTGCCCACCTCA
Celera SNP ID:            hCV2810231
SNP Position Genomic:     340239
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47241):
TAGTTCTGAAAACATAAGAACTGAGAGATAGCCCCCTGCAACACACACGCACATGCACACACACACACACACACACACACACACACATAGGTTTTGTGCT
S
TCTTGGGAGCATTTAAGATACACTGCAAACTACAATTGCTTCCTTAAAATGTACAGTGGACGTTTGACATAGTAAAGATATTTTGAAGATTTGCAGGCCA
Celera SNP ID:            hCV7623951
SNP Position Genomic:     617619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47242):
GACACTGAGGCCCAGAGATGAAGTGGGACTTCCCACCACAAGTCAATGAGGAGATGGGGTAGCCAGGCCTAAAACCCCGGCCTTTGGCTTACAGCCGCCC
K
TCATTTTCCCAGGTGCCCACCTCAGAGGCCATCCTTGGAAAAGGAAACGTCACTAACCTATGGTTCTGGGGAAATGGAGACGAGAGAGGAAGTAATATGT
Celera SNP ID:            hCV2810232
SNP Position Genomic:     340315
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47243):
CAGAAATAATTTGCATTTAAATGCGTTTAAGATATTTAACTTATGATTCCAAATGTGCCTATTTTAAGCCTGGTAGAAGTACTTTAGTCTCCAAAGTATG
Y
GGACGCTCTACTTCTCCCTAGTTTGTGGACCTGAAAAGGATTTAGATATTAATATAGAATAACTTTTCCAAACTAGTTCTGAAAACATAAGAACTGAGAG
Celera SNP ID:            hCV7623952
SNP Position Genomic:     617445
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47244):
AGTGGGACTTCCCACCACAAGTCAATGAGGAGATGGGGTAGCCAGGCCTAAAACCCCGGCCTTTGGCTTACAGCCGCCCGTCATTTTCCCAGGTGCCCAC
Y
TCAGAGGCCATCCTTGGAAAAGGAAACGTCACTAACCTATGGTTCTGGGGAAATGGAGACGAGAGAGGAAGTAATATGTTGTTCTTCTTTTCTTTAGGCT
Celera SNP ID:            hCV2810233
SNP Position Genomic:     340336
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47245):
CCTGAGGGAAAACTAATTCCAGCAAAGGCCATTTGTCTTTGGTACCTTAAGATCTAGATAATTTACTGCAAGTTTATTTTTATTGAAAATTATGTAGATA
Y
TATTCAGAAACACAATTTTCAACTATACGGCACACTTAAGCACGTTATATTTTAAGTGTTAATACATAGACTGAGGATATATGCTAGAATGTGCATTTCT
Celera SNP ID:            hCV7623953
SNP Position Genomic:     617067
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   African American (pooled) - WICGR(C,28|T,72)   Asian (pooled) - WICGR(C,84)   total(C,112|T,72) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47246):
TCTTTTCTTTAGGCTTCTTTCCACTGGGTAAATCTTCTCCATACATAATAAAATGAAGGCCCCAGATGATTTGTGAAAGAGTTGAAATGAACTTCCTGCA
R
TTGAACAAACTATTATGAAGCCCCTACTGTCTTTATCAGCAATTCACAGTCTTTTGTCCATAAGAATAAGCAGGGGACTTAAAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV2810234
SNP Position Genomic:     340522
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47247):
TAGTTTTAGAAACATCCACCGACCCCTCGGTGAGCTCCTGTGCTTCTGTCACTGGGAGTCAGTAATTGAATTTTCTGGACATTTTGACCAGTATGTAACT
K
TGTGGAGCCGATTACACAGCAGAACGCAATTTTTAGCCTGACCTTAAAAGCATTACCTTCTGCTGCGTGATTAGAAAACATACAGAGAGTGCCGCCCTTC
Celera SNP ID:            hCV29182980
SNP Position Genomic:     970155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47248):
GGTGAAAACACTACAATATAACAGCAGCAGAGAGAAAGGCACATCAGTCAAAGTCAAGGAAGGAAGGGACAGCTGGGCTCAGACTTGCAGGTAGACCAGG
R
CAAGGATGTTCAGGCAGAGGAAATGGGATAAACAAAGGCATGGTGGCCAAGAGAGCTAGATCCGTTCACTCAACACACAGGCAGGACTGCAACGGGTCTT
Celera SNP ID:            hCV2392580
SNP Position Genomic:     1107411
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47249):
TGTGGTGCTGATTAAACGTCTGAAATTAGTGGGCAGGGACCATTAACATGCAAAGGACTGATATTAGGCAAAGGTTGTAAAGCTGGAATGGCTGCAAGTC
R
TAGACATTTAAAACCTAGTTTTAGAAACATCCACCGACCCCTCGGTGAGCTCCTGTGCTTCTGTCACTGGGAGTCAGTAATTGAATTTTCTGGACATTTT
Celera SNP ID:            hCV29182981
SNP Position Genomic:     970039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47250):
CTGGAGACTTTTGGTTGTCACCGTTGGGATGGGGGCTGCCGTTGGCTTCTAGTGGGTAGAGGTCAGTGATGCTTTTTAACCTCCTACAATGCACTAGACA
R
CCTCCACCACAAAGAATTATCTGGCCCCAAACATCGATAGTGCCAAGGTGGAGAAACCCTAGGCTTATGGATGCCATGGGAAACACCAGTTACCTGGATG
Celera SNP ID:            hCV2810236
SNP Position Genomic:     340934
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47251):
AACTCTATATGGCTTCCCAGCCTTTCTTCCAGCTGCAGGATCATCCTACCCCTGGGACTCCCTTATTGGTGTCCTCATTAGGCCAATCAATGCAAATTAA
S
CCCTGATTCACAGATAGTGGGGATATACAGTCACCACGACACATATGGCCTCTGTCATCCAGTTTCACTCAGTCTAGAGAAAGAAAGAGATGAATAAACA
Celera SNP ID:            hCV2392581
SNP Position Genomic:     1107169
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47252):
TCACGGGGGGAGCCTTCCAGAATAATCTGTGGCCGGGTTATTCTCACTGCTTTTTCTCCCTGGTCCACGAATTAGCTTTTGGACAACAGCTGTGGTGTAA
Y
TGGAATCCATCTTGTGTGATTTTTTTTCCCTCAGATGATTTAGAATTAGTTCAATTTATTTTCAAAAAGTATAACCCAATGACAGCAGAAAGGCCATGTC
Celera SNP ID:            hCV29182982
SNP Position Genomic:     969531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47253):
GAGGTCAGTGATGCTTTTTAACCTCCTACAATGCACTAGACAGCCTCCACCACAAAGAATTATCTGGCCCCAAACATCGATAGTGCCAAGGTGGAGAAAC
M
CTAGGCTTATGGATGCCATGGGAAACACCAGTTACCTGGATGTAAATCCATGGTAAAATAACATAGATGCTATGACATGTGGCCCACTGGAAGACACCCA
Celera SNP ID:            hCV2810237
SNP Position Genomic:     340992
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47254):
TGGCCTTTGGGTACAACTCTATATGGCTTCCCAGCCTTTCTTCCAGCTGCAGGATCATCCTACCCCTGGGACTCCCTTATTGGTGTCCTCATTAGGCCAA
Y
CAATGCAAATTAAGCCCTGATTCACAGATAGTGGGGATATACAGTCACCACGACACATATGGCCTCTGTCATCCAGTTTCACTCAGTCTAGAGAAAGAAA
Celera SNP ID:            hCV2392582
SNP Position Genomic:     1107155
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47255):
AATAAAATGAAAAGGAGCCCTCCAAGGGCTTGTTTATGGGTTTTATTATTGGCGAAGAAGAGCACACTTGTCTTTATCAACATCCTGTCTGTCTGGGAGT
M
TGAGCCGAGAAGGGCAAGACCAAATGTTAAGTCGTAACATCTGACTTGTTGTTCCTTGCTCTGCTAACGATCCAGGCTGTTAAGAGGCTTAGCCCTTGTC
Celera SNP ID:            hCV29182983
SNP Position Genomic:     969173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47256):
GACTACTTTTTCTGGTGTGTTAACATGTCGCTAGCCAGTGCTCCAGGCACCCAGCTTTGTCTGTGGGTTAGTATTGGTGTATGTATGAGTATCTGTATGT
R
TATATACACGGTATTTATAGAGAGAGACTATCCTGGAGAAGCCTCGTTTTGATGCCATTCTTCCTTGCAAGGTTAAGCAAGGTGGGTGGAAACTAAGACA
Celera SNP ID:            hCV27475593
SNP Position Genomic:     1177505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:47257):
GACAGTGAGTTCTGTCTCTGGGTCTTTGAAGCCAGAGTGACACACATCAGATAGATGCAGTTTTCACCCAAGAAGACCTGGGTAGTGAATGGGATTAGTC
Y
AAACTCATAGTGAAGATATTAAATATACCTTGGGATGAAAAGAGTAGCAGGAATGCGGACTTGTGGGAGGAGGGCAGGCCATACCGGGCCTCACAGGGCA
Celera SNP ID:            hCV7623957
SNP Position Genomic:     610323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47258):
TGCACTAGACAGCCTCCACCACAAAGAATTATCTGGCCCCAAACATCGATAGTGCCAAGGTGGAGAAACCCTAGGCTTATGGATGCCATGGGAAACACCA
S
TTACCTGGATGTAAATCCATGGTAAAATAACATAGATGCTATGACATGTGGCCCACTGGAAGACACCCATGTCAAATCCCAGGAGCCAGTGAATGTGAGC
Celera SNP ID:            hCV2810238
SNP Position Genomic:     341023
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47259):
CCTCAGTGACATCAGCTCACTGTGGCTCCCTCTGCCTGGAATGTTCTCCCTTGCCCAGGCCTTCATGTGACTGTCTCCTTTTCACTTCAGTCTCACTATC
R
TCTCCTTTGCAAGGCTTTCCCTGATCACCTTCGCTAAAGAAGCCCTCCTCAACTCTGCCCACCTGTCACTGGTCACTCCCTGTACTGTTGCCCAATGGGA
Celera SNP ID:            hCV2392583
SNP Position Genomic:     1105748
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47260):
GGAAGGTCCGCAGCTTGGGGCTAGAACCACAAGGGAGCGTGATGCACACAGGTGTGCTTGCACCCACGGCTGAGGTTTTTCTTCCCACCGGCACAGGGCG
M
TGAGGCAGGGATTTCCTCCCAGAGAGAGGGCGGTTGAGTTCAGTTCCCCTCCACTTTGAAAATGGCTCTGGAGGAGGGGCGGAGGAAAGGCAGAGACTCC
Celera SNP ID:            hCV29182984
SNP Position Genomic:     968953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47261):
TGTCTTCATCTCTGGGGCACCAGAGATGAAGGAAGGGACACTATCACTGTTCTTGTAAAGTCCACACGCTAGCTGGGGCAATGATTTGCAACAATCGACT
R
TATTATCTTGTGAGGAGGGTCATGTTACAGGTTCAGCCTTCGGAAGGACATGAGGTCAAAGCAAATTCTCAAGAATGAGGAATGACAGGAGACAGAGACG
Celera SNP ID:            hCV7623958
SNP Position Genomic:     609845
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47262):
ATCCCAGGAGCCAGTGAATGTGAGCTTATTTGGCAAAAGAGTCTTTGCAGAGGTAATTAAGTTGGGGGTCTTGAGATCAAATAATCCTGAATTATCTGAG
Y
GTATCCTAAATTGAATTTCAAGTGGCCTTGTAAGAGTCATAGAGGAAAACAGATACACAGGGGAGAGGGTGATATAACCATAGAGGCAGAAATTACAGCA
Celera SNP ID:            hCV2810239
SNP Position Genomic:     341199
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47263):
GCTGATGTGAGAAGCACGATGACTTTCACTTGGCAGAAGGATTTGGAAGTATCTGGGCTTGATAAGCTACCTCATGCCAAGGACCATGCTCTGTATACGA
Y
TTCATCTTTTCACCCACCCTATGAGTGAGGTTTTAGTGTCTCCATTTCACATATAGAGAAGTAAAAGCTTGGAAGGTTAGCACCTCTCTCCATGTCCCAC
Celera SNP ID:            hCV2392584
SNP Position Genomic:     1105452
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47264):
GGGTGGCACCAATGAAAGCTCTGCCCCAAGATCCAAACACCTCCCACCAGGCCCCACCTCCAACACTGGGGGTTACAATTCAACATGAGATTTGGTGGGG
M
CACATATCCAAACCGTATCAGATGCTCCTGAGCCATGACTTAGATTTGAATTGCTGCAGACACGTGTCTCTGGTGGCTTCCTGTGTGCCATACCCTAAGC
Celera SNP ID:            hCV29182985
SNP Position Genomic:     967731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47265):
CCACCAAATCCCTGCTTCATGGAGCTCTGTCAATCTACAGGCATTAGTGAGTATGTGACGATCAGGTGGCCCTAAGTGCTGGGAATAGACACGGAGCCGA
Y
AAAAGATATAGGGTGGTGGGAGACACTGCTTGGTCCAGGAAGGCCCTCCTGGGAGGGGCCGTGAGAAGGGAGGCCAGATGGAAAGTCTCCTGAGGGCAGG
Celera SNP ID:            hCV7623959
SNP Position Genomic:     609341
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;WICGR6_caucasian_pooled(C,1|T,94)   total(C,1|T,94)
SNP Type:                 INTRON


Context             (SEQ ID NO:47266):
TTTGTCCAGCAGAGTCACCACGTCTTATTCAGGTTACAGTGCTGAGCTATTTGGAAACCAGGCTGGGGGGGTGGATTTCAATGTCATCTTACTAAAAAAG
Y
TCACTAATGAAAAGTGTATTGCTAAGACAGCAGCTTCATATTTCTCCCAGTCTTTATCAGCAGCCATGGATTGAATCGTTGACTTGATTTTACTACACTG
Celera SNP ID:            hCV2392585
SNP Position Genomic:     1105011
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47267):
GCAGGTTGTACAGGAAGCATGGTGCCAGGCATCTGCATTGCTTCTGATGAGGCCTCAGAAAGCTTACAATCACGGCAGAGGGCAAAGCGGGAGTGGGCAC
S
TCACATGGCAAAAACAGAAGCAAGAGATAGGGGGAGGTGCCAAATTTAAACAACCAGGTCTTAGGAGAACTCACTCACTACTGTGGGGGTGGCACCAATG
Celera SNP ID:            hCV29182986
SNP Position Genomic:     967544
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47268):
CCTAGAGCCAATTCATAGCAGTTTGCAGGAGCCAGTTGTTACCATCTCTTTGTAGCTGTGCATTCAGTGACATCGTGGGAGTAACTCGAAACTGGCCACA
K
TGGAAATACTTCTATCATGGAATTAGACAAACACTATTAATTCAAGCTTTCCCCACCTCCAGAGAATCAGATGTTAAACATTTGCCAGTGTTCCTCTGGC
Celera SNP ID:            hCV2392586
SNP Position Genomic:     1104687
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47269):
AGAATTGCTTGAACCCAGGGGTTGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGAGCTTTAGCCTGGAGAACAGAGAGAGACTCCAAAAAAAAAAAAAA
A
GAAAAAGAAAAGCACTAGGAAGGCATCTCATTCAATACATAGTTTTATAGATGAGGGGTCCTGCTCAAGGTAGAAAACAGATCCCAGACCAACCTCACTG
Celera SNP ID:            hCV12111898
SNP Position Genomic:     1001102
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47270):
TAGAGAAAGCAAAGCAGGCTTCCCATGGAGGGATAAATGGATCCTTCCCAGCCCACCCACTGTTCTGAGGCTGCTGCCCATAAGGGTTGTTAGGACACAC
R
GGAGCCTGAGTGGCCAGGTCTCTCAGGAGTGGAGACATTCACTTCCCAGCCGTGGGACATTTACCCAAACCACTGCAAAGAGCCACAAATAGCATAAGAC
Celera SNP ID:            hCV29182987
SNP Position Genomic:     965271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47271):
AATTTAAATTTGTTTTCAGCATGTTAAAGACTTAGTCAATTTTTTTCCTTTTATTTTAGTTTATTTTTATTTTTTTCCTGAGGCAGGGTCTCACCCTGTC
W
CCCAGGCTGGAGTGCAATGGTGTGATCATGGCTCACTGCAGCCAAGACCTCCCTGGCTCAAATGATTCTCCCACCTCAGTCTTCTGAGTAGCCCGGACTA
Celera SNP ID:            hCV2852480
SNP Position Genomic:     627125
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47272):
TTAGAGAGGAGAGGTTTGCTGTTTAAAAATATTTTTTAAAACAGCTTGAGTTTATTCTTGTAAGGCTGCCATTGGGTCTGAGACCCCAGAGGAGCAGTGC
R
CTGCCTTGCAGTTACTCCGCAGTGGGCAAGACAGGCATGTTTTGCTCTGGGAAGAGTTGCTGAACACCTGTCTGAGCAAGGGACTCTTTGTGGCTGTCTG
Celera SNP ID:            hCV2392587
SNP Position Genomic:     1103699
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   JBIG-allele(A,180|G,1309)   total(G,1309|A,180)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47273):
GCTACTTAGGGGGCTGAGGCAGGAGAATTGCTTGAACCCAGGGGTTGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGAGCTTTAGCCTGGAGAACAGAG
M
GAGACTCCAAAAAAAAAAAAAAAGAAAAAGAAAAGCACTAGGAAGGCATCTCATTCAATACATAGTTTTATAGATGAGGGGTCCTGCTCAAGGTAGAAAA
Celera SNP ID:            hCV12111899
SNP Position Genomic:     1001079
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47274):
ATTTTAGGCTGATCAGACTACTTCTGCAGGGCAATGCTGGGCTGGAGTTGGTCTTGCTTTACGCAGATGTTTCTGGGTTACACAACACTTGGCTTAATCC
W
TTTTTTTTTCCATCAGGCCCATAAGACAATTTAAAGGAATGAAAAAATATGTATGTTTTAAGGGTCTAGACCTAATGCTAGCAGCATCCCTTTGGAGAGG
Celera SNP ID:            hCV29182988
SNP Position Genomic:     964950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47275):
TCAGTCTTCTGAGTAGCCCGGACTACAGGCACGCACCACCATACCCAGCTTGTATTTTTTGTAGAGACTAGGTCTTTCCATACAGCCCAGGCTGGTCTTA
M
ACTTTTGAACTCAAGCTATCCACCTGCCTTGGCCTCCCAAAGAGCTGGGATTGCAGGTGTGAACCACTGCGCCTGGCCCAAATTCCTATTTCTTGTTTGA
Celera SNP ID:            hCV2852481
SNP Position Genomic:     627301
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47276):
GCATTCCTCGGTGTGGGAGCCATCAGGCCCTCAGGAACGAGTCTTCCTGCCACCAGGAGGTTTCATGTATGCACCTGTATCATCAGTAGTGTGGTGTTTC
Y
GTATCGTCAGAACTCAGCACACCATTTCTGGCCAGCATGGTTGTTTGATGTAGACTGAGAAGTGGGTTCAGTAATGAGCACCTGGCACACTCAAACTCTG
Celera SNP ID:            hCV2392588
SNP Position Genomic:     1103231
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47277):
CTACTTTAAAATGCGTAAGTGTTTTGTGTGTGGGGACACATGTTTTTATTTCTCTTGGCTATTTGTCTAGGAGTGGAACTGCTGCATCATATCATATGCT
M
ACTCTAGGCTGAACTATTTGAGGAACTGCCAGACTATTTTCCAGTTTTAATGCTGTTACGTTGCCCTTAGGAAAGAGATCAAAATGCTTAACATTGTTTA
Celera SNP ID:            hCV28029681
SNP Position Genomic:     706149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47278):
GCATTTTAGGCTGATCAGACTACTTCTGCAGGGCAATGCTGGGCTGGAGTTGGTCTTGCTTTACGCAGATGTTTCTGGGTTACACAACACTTGGCTTAAT
M
CTTTTTTTTTTCCATCAGGCCCATAAGACAATTTAAAGGAATGAAAAAATATGTATGTTTTAAGGGTCTAGACCTAATGCTAGCAGCATCCCTTTGGAGA
Celera SNP ID:            hCV29182989
SNP Position Genomic:     964948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47279):
AGGGTTTTATTAATTATATATTTGGACTAGAATTTCTTTATTCTGCAAGTGCATTAGTTTTGGAATCACTGATAAAAACCAAAAGTTGATTTCCACTAAC
W
TTTCCAAGAGGGAGCTTTAAAAATTCACCTGTGGGAAATTTTATGCAAAAACTTGAACAAGACATAGTATTTTTCTGTTAGCAAATTATAATTTTCCCCC
Celera SNP ID:            hCV2852482
SNP Position Genomic:     627566
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,8)   total(A,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47280):
TGTGAAGTCTATTACCTCATTCAGTCATCCCAGCAACCCTGTGAGGGATCCCCCACTGTCTCCAATTTCTGCACTAGGAGAGGGCGACATGGGGAGGTTA
Y
GCCACACTCCACGTCACTCACCCACGGCCCTCTCAGTAAACGGTGGACACAGGATCCGTAGCCTGAATGTCTGTGTCATGGTCAAGCTCCAGGTCTTTTC
Celera SNP ID:            hCV2392589
SNP Position Genomic:     1101616
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47281):
ATAATAAATTTTCAGACATTGCAGGCCATCCAGTCTCTGGGCAGCTACACTACTCTACTCTGCCATTGTAGCATGAAAGCAGACATACACAATAGGTAAA
S
CAATGAGCATGGTTGTGTTCCAATAAAACTTTATTTACAAAAACTGACAATAGGCTAAGATGTGGCCCGTGGGCTTTGGTTTGCCAATCAATGGTTTAGC
Celera SNP ID:            hCV29090490
SNP Position Genomic:     218066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47282):
CAAATTATAATTTTCCCCCTGATTCAGGGGGGGTCTGTGATTGTTTTCTTCCTTGGCTGCTCCTTCCATTTGCATTTGCAAAGATCACATTCCTAATCTT
Y
ACCTCATCAGAAGCCTCATTTTGATTTTCTGCTTTGCTGACTTCTGTACTCCGAGAGATTCACTAGCTCTTAATCCTATCATTGGCCTGGCATTCTTCCT
Celera SNP ID:            hCV2852483
SNP Position Genomic:     627748
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47283):
CATTTTTAGGACAGAGTTATTCAGTCGGTGAATATGCAGTCCCTTTAAAGGGATATTTATCACCCTTGAAGAATCTTATTGCCAAATCTTAATAGTCTTT
S
TTATAACAAAGGCTCAAATTCACTATCAAGATTAAGAGGTGGAGCTTGAATGAGCTTTGCTGGAGCATCTCATGATAAAATAGATTAAAGTCTTAAAATG
Celera SNP ID:            hCV29090491
SNP Position Genomic:     216001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47284):
AGATCACATTCCTAATCTTTACCTCATCAGAAGCCTCATTTTGATTTTCTGCTTTGCTGACTTCTGTACTCCGAGAGATTCACTAGCTCTTAATCCTATC
R
TTGGCCTGGCATTCTTCCTCTTCTCTATACTTTTCCATGGTTCATTCATCTCCATTTTATTCCTTCTAGAATGTATTTTTTTAGAAGCAATTACCAATTC
Celera SNP ID:            hCV2852484
SNP Position Genomic:     627829
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,6)   total(G,6|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47285):
GGCATTGTGCTGCTCTTGAAAGATACAAAGGAAAACAAGGTGTAGTCCCTACTTTCAAGGCGCTCACGGTAAAGCTAGAAATGTAAACAAACCAACACAA
R
ACAGTGTGCAAGAATCCTGTTAAAGACCTGCCCTCACTGAACTGTGCCCCTCCACCTGGAGGCTGCAGCGGGTCAAGGATGGCTTCACTGAAGGGATGAT
Celera SNP ID:            hCV29090492
SNP Position Genomic:     352626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47286):
TTCATCTCCATTTTATTCCTTCTAGAATGTATTTTTTTAGAAGCAATTACCAATTCTTATTGGTTTGAGCTATGAAATATTTCTTCTTTGGTTGCATCTT
Y
AGTGTGGTTTTCTTCTGACTGTCATTGTCAATCACTTGAACGGGTGAAATTAACCTCTGCCTTTGAGGCCCCTATGTTTACTCTTCGCCGGTGTTGCTGC
Celera SNP ID:            hCV2852485
SNP Position Genomic:     627974
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47287):
ATTAATCCAGGGGCTTCTTTGCAGTCAGTGATGGTGATTTGCCAATCATTAGCATTTCAGAAACCCCAGGCCGAAACCATACATTTATCCTTAGCTAGGT
Y
GGTATCAAGTTTCTCTGCTTTCAGCCAGAATCCTAACAATTCAGCTTGGTTGATTATCTAAGAAGCTTCTATTTGATAATTATATATCTTTCATTTTTTT
Celera SNP ID:            hCV29090493
SNP Position Genomic:     210350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47288):
TAGAATGTATTTTTTTAGAAGCAATTACCAATTCTTATTGGTTTGAGCTATGAAATATTTCTTCTTTGGTTGCATCTTCAGTGTGGTTTTCTTCTGACTG
K
CATTGTCAATCACTTGAACGGGTGAAATTAACCTCTGCCTTTGAGGCCCCTATGTTTACTCTTCGCCGGTGTTGCTGCCAGAAGCTTAAAGCTGGATCTA
Celera SNP ID:            hCV2852486
SNP Position Genomic:     627996
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,8)      total(G,3|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47289):
AGCCAAAAAAATTAACAGGGGCAACGAACTTTCTTCTTTTTCCAAGGGCTTTTTATCGATGATTTTAAGAAAATGGTCAGACAGCGCAGGCGTGTTTTAC
Y
TTAGTCCTTCCAAAGCAGTAAGGTGCACCCACTTCTCAGCCACCCTCCCTGACTTTGTTTTCACAACCCGAATTCACCAGGAAAATACCAGGAGTCTGCT
Celera SNP ID:            hCV29090494
SNP Position Genomic:     204302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47290):
TCTCCCTTCCTTCCATTTATTCATTCAACAATTATTTATAAGGGACTTAATATGTGCCCAGCACTGTTCTAGGCACTACAGATACAGCATTGAACCACCC
Y
AATTAAGCTTGCATTCTACTGGGGAGAATGAAAATAAAATTAAAATTAAAATGAGATATATAGTAAATTAAATTAGAAATGCAGTAGGGTTTCTTTTTAA
Celera SNP ID:            hCV16072818
SNP Position Genomic:     807281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47291):
TTTTTTTAGAAGCAATTACCAATTCTTATTGGTTTGAGCTATGAAATATTTCTTCTTTGGTTGCATCTTCAGTGTGGTTTTCTTCTGACTGTCATTGTCA
W
TCACTTGAACGGGTGAAATTAACCTCTGCCTTTGAGGCCCCTATGTTTACTCTTCGCCGGTGTTGCTGCCAGAAGCTTAAAGCTGGATCTAATCACTTCC
Celera SNP ID:            hCV2852487
SNP Position Genomic:     628005
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,8)   total(A,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47292):
AACTTTTGAGTTTACAACTGCCTGAGGCTGCCTCCATCTACAGGACCTTTACTAACTGTGCCATTTTGGCGAAAAGATAGATTTTGAAGTTCAATCAGTC
Y
TGGTTTCAAGTATTAGCTATTCCTCAGATGATTGTGGGACCTTGAACAAGTCTCTTGCCCTCTCTGAGTCAGTTTTATCATCCATGCAATAGGGATAATA
Celera SNP ID:            hCV29090495
SNP Position Genomic:     192878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47293):
TTTAGAAGCAATTACCAATTCTTATTGGTTTGAGCTATGAAATATTTCTTCTTTGGTTGCATCTTCAGTGTGGTTTTCTTCTGACTGTCATTGTCAATCA
M
TTGAACGGGTGAAATTAACCTCTGCCTTTGAGGCCCCTATGTTTACTCTTCGCCGGTGTTGCTGCCAGAAGCTTAAAGCTGGATCTAATCACTTCCTTGC
Celera SNP ID:            hCV2852488
SNP Position Genomic:     628009
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47294):
AAGATAAAAGGCTTCAAAAAGGTAGTGTCTTCCCGGAGGCTGCTTGTGGCCACTCGCTGTGTGTCTGTGGCTATACAGACCCCAGATTGCTGGGGCTGGA
Y
TTTGCATGTCTCTCTCTATTACCTTCTAGAGCCTGTGAGGCCCAGGCTTTTAAAGATTCGGCACTGAAAGAAACTAAAACCAAACTTTTGAGTTTACAAC
Celera SNP ID:            hCV29090496
SNP Position Genomic:     192695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47295):
TTAAAGCTGGATCTAATCACTTCCTTGCTGAAACCATTGATGCTTCTCTGTCGACTTCAAGATGTGTTCAGTTGGGACATTGCCGTCTGTTTCCTTCTTC
M
GTTCTCCTTTCCCTTCTACTCCAGTCCTTACAAGTGACATCTTCTGTTCCTGCATGCTAAAATGCCCGTGACTTCTCTAATGCAGCTCTCTGCCTTGGTG
Celera SNP ID:            hCV2852489
SNP Position Genomic:     628182
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,8)      total(A,2|C,8) ;WICGR7_african_american_pooled(A,37|C,63)   WICGR8_asian_pooled(A,1|C,82)   WICGR6_caucasian_pooled(A,35|C,60)   total(A,73|C,205)
SNP Type:                 INTRON


Context             (SEQ ID NO:47296):
TGCAGCTGCTGCACCTTGTTTTTAACCCCTGCATCCAAGAGCTGAGTGTTGCATGACTCTCAAGATGCAGATATTAAAACCTTATTGACTGATGTAGACT
Y
TTCTGTGCATCAAAGGGCTCAGAAGTGGTATTAGCTGGCTGTCTCCTTTTAAGTGCAGAGAGTGCTTTTCTGTAGATAGTGCTATGAGCTACCTGGGGTT
Celera SNP ID:            hCV29090497
SNP Position Genomic:     192494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47297):
GATGGGAAGGATTTTGCTTTCATCCTAAGAAGAGTGAGAAGCCATTAATAGGATTCGGGGTGATTGTGAGTCAGGGGGAAATGGGGGGAGGTATCAGGAC
R
TGGAGGTCTTTGCAATTATTAGTTGGAGAACAGCAATGGTTCTTAGCTGCTTCGTGTGCCCTGGACCCTTCTCTCAGTCTGCTGAAGCCTGGGCAGTCCA
Celera SNP ID:            hCV29090498
SNP Position Genomic:     189947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47298):
TAACAAAAATAATTCTTTCTGGACAGCAGTAAAAGAAGTGGATTAGAACAATTTACAGCCTTCTCAAGATACATATAAGGTGCCTGTTAAGAAAAAAAAA
R
GGACAGATTTTTGATTAACTGATACGTAGACTTGCTTTTAAAACATGTCAGTTCATTCTCTGTATGCCCATCTATTAAGGGCAATGTCCCTCATGGAGGA
Celera SNP ID:            hCV29090499
SNP Position Genomic:     188958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47299):
CAGGCCTGCACCACCACACCCAGCCTGTTCATTTCTAGTAAGTCCATTATTTTACTTCTTTTATTTGTTCTTATTAAAGTTTCCATGCTGTTGGAGTTAA
Y
TGTAAGTAGAAAGTTGAGAACGGCCAAATGTTTGGTTGGTTGCTGAGCAGAAGAGCAATACTTAGCATCTTTGTTACATAACAGATCTCTATTTGTGGGA
Celera SNP ID:            hCV118241
SNP Position Genomic:     963534
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47300):
CAAGTTCACACATTCAGGGAATGGGTAGAAGTGGAATTCACACCCAGGTCAGTGTAAGACCAAAGAGGCTGTCAGAATGGTTTGCTGTTCCACTCATGGC
R
AACAGGATTTGAAGTTGTTCCAGTCCAAGGGAGACCATCAGGCCATGCAGGAATAAAAAGGCCAAGGGGAGGAAAGAAGATGCTGTCTTCATTAAGGCCT
Celera SNP ID:            hCV27991386
SNP Position Genomic:     888835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47301):
CCACAGTAGAAACCCAGATCTGCACACTAAGACCATGGGCAGGGTGGGAGAAGGGACCCGGTGAGAGAGAGGGCTGTCCTGCGACCCTTTGTCCCACATT
Y
TTTGGACAACTTAATCCTAGTCTCCTGTATCTGAGGCCTTTGCCTGCACTGCCATAATTGGCTCAGAACCCAGGACAGAGTTGGATAATGCAAGGCTTCC
Celera SNP ID:            hCV1178900
SNP Position Genomic:     864787
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47302):
CCTCTCAGGGGGTGGCCTTCCATTGGCCCTCACAAGGGCACAGCGGAGCTCGTTGGTTATGCTTCAGTTACATAAATCCAGCCTTACAAAGGCTACACAG
R
GAGAGGGGCTCCTTGCCTCCTAGATCTGTACCTTGTAGGTGCTCAATACACATTGGTAAGAATGTTCACATCATCAGGTAAGCAAGGGGTATAAAGTGAG
Celera SNP ID:            hCV27991387
SNP Position Genomic:     885797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47303):
TGGGTGAAGACAAACACGGGGCTTAAGACCGAGTTCACCTGTTCCCTAACAATCCATTAAAATAAAAACCATTTTCTGTGTATGCTTGGGAATATTCCAG
S
ATAATTTTGTGTTACATCATGTTATCCAACCTGTAAACAAAAAGATATCCTCAGTGAATTTCCTGATGAAAACTAAAGACTCATCAACCTGAAAGGTCTT
Celera SNP ID:            hCV1178901
SNP Position Genomic:     865274
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,10)   total(G,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47304):
GCAAAGAAGCTAGGTGGATAGGAAGTGCACCTTGAAGCATGTGGCCGGATGGCACCATTGGTGAAAATAGCTGAGACTGCCTAACAAATCAATCCAACCT
Y
GAGGGTGGCCAGATCTTCGTTGTTTATCTGATCAATCAGGCCTAATGACTGATACTCTGATTCCAGTGGTGGGGGAAAAAAAACTGGCTTTGATGATTAG
Celera SNP ID:            hCV1178902
SNP Position Genomic:     866016
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47305):
CGTAGCCACATAAGCTCATTACTACCCATTACATCTGCCTGTACCTCCAGCAGGTGCCCAGGAGATGGCTGAGTCCCAAGAGCCATGCAGGCCTCCTGGA
Y
GACCGCCCTGATGTGGTCCACGTGACTCTTAACAGGTATCATGGCCTTGGCACATGTTGGGCATTTTCCAGCGTCACTCTCAGAAGACCCTCCCTCCATG
Celera SNP ID:            hCV10075215
SNP Position Genomic:     167405
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47306):
AAAAAAAAATAGGTCTGTATTTAAAAGTTTTAGTGTCAGCTCCATCCAGCCCAAGTTAAGTACTAATTCAGCAAGTTAGTTAAGTAATAAATGGCTGTCA
Y
TCAACTACAACATATTTGAATTCAGTTTTGAGGCCCCAGTAGTTGCTAAAAATCAATGCCCACTTTCTCCAGGTATAGTAATTATTTCTCATATTGTTAT
Celera SNP ID:            hCV7624904
SNP Position Genomic:     111395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47307):
GGAGGCGAAGGCATTGTTTTTACTCTTTGCTGCCCAATGGTCCTTGACAATGGATATACCAGTTTCCCTTTATATCAGCTGCATGGGAGGGAGACCCATT
W
TCTGACACCCTTATCAATCATTGACATAATCCAACACTCCACATGCTTGTTATAGAATCAGGTCCTATTTGTATGACTCTTGCTTGTTTGTGAGTGAACC
Celera SNP ID:            hCV1178903
SNP Position Genomic:     867277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,5)      total(A,5|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47308):
TCTGCACAGGCGTTGTATATTTTGTTCTCAAATCCAGCAGCCTTGACTTGACATGGGATGGTTGGGATGGTTCTCCACGTAGCCACATAAGCTCATTACT
R
CCCATTACATCTGCCTGTACCTCCAGCAGGTGCCCAGGAGATGGCTGAGTCCCAAGAGCCATGCAGGCCTCCTGGACGACCGCCCTGATGTGGTCCACGT
Celera SNP ID:            hCV10075216
SNP Position Genomic:     167328
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47309):
CTTCAACTTTACTTGGTGGCTTTTCTCTATACATTGTACCTTTATTTTTACTTTGGAAAGTTGTATGCAGTGCCCCGAATGCTGACTTGTAAACTGATTT
S
AACACCATCCTCATTCCTTTTGGCTCTCTGAGAAATGTTCTTTTTTAATGAATATGATAGCAAGACTTACTTATTACCAGGTTATTTCAGGCAAGAGTGA
Celera SNP ID:            hCV7624905
SNP Position Genomic:     104756
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47310):
CTCTGAGGTCCCTTTGACTTGTTCCTGCCTACTCTCTTCTTACGGGTCCTCATCAGACACCTTTGTGCAAACCCCAGACTAGATAAGGTTGTTCATCTCT
R
TATTCATAATGCCCTCTCTCAGTGTGCCTGATAAGTCTTATTGTTTGTTATATATTTATCTCTTCTACTGATTTCTGAGCTCCTGCACACCCAGGAGCAT
Celera SNP ID:            hCV1178904
SNP Position Genomic:     867589
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47311):
GCCCTGTTGGAATAATAAGTCAGTGCTCTCTGGAGGCTATAACCAAATATAATTTGCCACATAAACATGAAATGTGTGTCCAAGAAACTAGTAGGAATGC
M
TCTAGGAACCAAAGTGTCTCCTTCCTAGAGAGAGAGGAAAAAAACAAAGTGAGGATGGTCCTCTGCACAGGCGTTGTATATTTTGTTCTCAAATCCAGCA
Celera SNP ID:            hCV10075217
SNP Position Genomic:     167166
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,8)      total(A,8|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47312):
GGGTGTTTTTCTTGTCCCCTAATACAGGGCCAAGATGTCTAAAGTTGACCTTCAGTCTAGTCCAACATCTGGAAATGAGTACTAAAGCCACCAGCACAGA
Y
AAAAATGGAGAACAGGTGGACCTGGGGAACAGTCTGGGGAAGGAGGGGTTCCACATGAGAAGTTACCTGCAGGGAGCAGTTGGGTGGCTTGAGTTCCAGC
Celera SNP ID:            hCV7624906
SNP Position Genomic:     102117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47313):
GTTTCTGTTTTAAAAATGCCAATTTCCAGTTTTTCTGGACATCAGAAATCCTGGAGACATCAGGTCCACTTTCCACATGTGCACTATCGGTGGTGTGAGG
Y
GTGATGCTCCAGTGGATCCAGGGTCTGCTGTCCCCTTTAGATGGGACATGTGCTCCCACCTCGATTACGTTTCCACGTGCATGGGCCCCTCTGGTCCTGC
Celera SNP ID:            hCV1178905
SNP Position Genomic:     869314
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47314):
CAAAATTCAACAAAGCACATTAGGAGAGATGGGGTCCATGAGAAGGGATAGGATGCATGCAACTCATAAGGCTGAAGACAGACGGGAGTGGGAGTAGGAA
R
GTCTAGAAGAGAATCTGACAAAGATGCGGGTGAAACTCTGAACCCCTGGCCAGGGCAGGGAAGTCATGAAGGCCAAGCAACACATCCAGTGATGATTCTT
Celera SNP ID:            hCV2810240
SNP Position Genomic:     341630
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47315):
CCTAGACTGTATGTTTCCTGACAACAGAGACTGTGGTCATATGCATGTTTATATTTCTACTGCCTAGCATGGTTGAAGTACTTCTAAAAATCCTAATTAT
R
TGTTTGTTGGCATAGAGGGAAAAAAAGGAAAAAGAGTTGGAAATAAAACTAAGATCTTACATAAGCTGTGAGAAACAGAAGCTAGAAATAGGTAATTATT
Celera SNP ID:            hCV1178906
SNP Position Genomic:     870265
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47316):
ATTATATTCATTTCATCTCCCATTCTCTTTCCAACCCTCCCTATTTTTTTATTTTTTTATTTTTTTTATTTTATTTTATGAGACAGAGTCTTGCTCTGTC
R
CCCAGGTTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCCACTTCCCAGGTTGAAGCAATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGAATA
Celera SNP ID:            hCV1178907
SNP Position Genomic:     870569
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47317):
AAGTATCCCATTTGGGACCCTGTGGACTTTGAGATGATTCAAGTTGATTTTAAGGTTTGTTACCTTGTCTCCTGTCTTCATTCGCAGTATCTCAAATTGC
K
TGTTGGAACAATGAATATAGTGATTCCAGTTCTGTCACAAACTCCTTCAAGAGCAGGAGCTGCAGAAACCACACACACACACACACACACACACACACAC
Celera SNP ID:            hCV1178908
SNP Position Genomic:     871845
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47318):
GTGTATGCTCCCTGGGGACTGAGCTCATACCTGGTTCGTATTTGCGCCCGCTGAATCCTCAACACCTAGTACAATTCTCAGTAAGCAGTCCCTAAAGCTA
R
GTGATTACTCTGTATGTGTTAGTGAAATGCATTAAGTGCCCATTTCCCCTTGGCGTGGGAAGCCCACAGGAACAGCATTTTCCTGCCTTACTTCTGAAGT
Celera SNP ID:            hCV2810243
SNP Position Genomic:     346525
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47319):
TATTTGCGCCCGCTGAATCCTCAACACCTAGTACAATTCTCAGTAAGCAGTCCCTAAAGCTAAGTGATTACTCTGTATGTGTTAGTGAAATGCATTAAGT
R
CCCATTTCCCCTTGGCGTGGGAAGCCCACAGGAACAGCATTTTCCTGCCTTACTTCTGAAGTCCTTGAACTCACGCTCCTACTGGAGTGATGGCAAGGCC
Celera SNP ID:            hCV2810244
SNP Position Genomic:     346563
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47320):
GGATCCTTGGCTCTGTGAGGGCTGCTCCCAGCATTTTAGGCTGATCAGACTACTTCTGCAGGGCAATGCTGGGCTGGAGTTGGTCTTGCTTTACGCAGAT
R
TTTCTGGGTTACACAACACTTGGCTTAATCCTTTTTTTTTTCCATCAGGCCCATAAGACAATTTAAAGGAATGAAAAAATATGTATGTTTTAAGGGTCTA
Celera SNP ID:            hCV29182990
SNP Position Genomic:     964918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47321):
TTTCTCTCCTGAACACAGGGTTGTCAGGGGGGTGGTTAGTAGGGTGTAAGGGAAAAAGAGTAGCAGGGTCCCAGGATCCTTGGCTCTGTGAGGGCTGCTC
M
CAGCATTTTAGGCTGATCAGACTACTTCTGCAGGGCAATGCTGGGCTGGAGTTGGTCTTGCTTTACGCAGATGTTTCTGGGTTACACAACACTTGGCTTA
Celera SNP ID:            hCV29182991
SNP Position Genomic:     964845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47322):
AGGTCGGAGAACAGAGACCCCCCCAGCCTGCTTTCACAGTTGGTTCCGGCAGTTGTTGCATTTGTGGCAAGAACCTCATGGCAGTATTGTGTCCTTCACA
K
TGCTTTGTATCAGGCAGCATGTAGCAGGCTTTTGTGTCCTTACTGGTGACATTAACTTGGACCACTTACAGAGGGTGGTGTCTGCCAGGTTTCTCCTATA
Celera SNP ID:            hCV2810246
SNP Position Genomic:     346775
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,7)      total(G,5|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47323):
ATTAACATGACTGTGACTGTCTTACTTTGGACAGTCTTACTTTGGATTGCCCCCGAAGCAGATGCTGAGACAAGGGTTAGGGTGAAAATAGTTTAGTTGG
S
AGAAAATCCCATAAAATACCAGCGGGAGAGCAGGAAGTGGGACAGGAGAGGAACACAGCCCACACACTCTGCATTGTCCATCCAGCCACCACTATGCGTA
Celera SNP ID:            hCV2392591
SNP Position Genomic:     1100320
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47324):
CTGTTAATATCTTGCTGTATATAATTCTCCTGCTCTATTTATATATTGTAATACATAAATACCTTTTTCACAAAAATGAGAGTTCACTATTCATACAGTT
K
CATAACCTGCCTTTGCTTCTCAACAATATAATAGAAACATTTTCCATGTCATTAAATATTCCCCTACTAAGCATTTATTTTTAATGTGGGTGCCTCTGGC
Celera SNP ID:            hCV29182992
SNP Position Genomic:     960650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47325):
ACAGTTGGAAAGAGAGGCCCCCTCTGACACCTGTAGCACTGTGGCATGGGAAGTGCTGGTCTTCAGGGGTGGGTCACCGTGGTGACATCTCCCGCAGTGG
Y
CCTGATAAGGGAGGAGGCAGCAGCAGTTGGCACATGGTATGGAAGCTGACATTGATCAGGGGGCCCTTGTGAAGCCAGCCTTGGGCCTCCCAGGAAATAC
Celera SNP ID:            hCV7623966
SNP Position Genomic:     608650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   (C,-|T,-)   Caucasian(C,60)   African-American(T,2|C,78)   Asians(C,70)   total(C,208|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47326):
GGACAACATGGAAAAACCCCATCTCTACAAAATATACAAAAATTAGTTGGGCATGGTAATCCCAGCTGCTCAGGAGGCTGAGGCAGGAGAATCGCTTGAA
M
CCTGGAGGCAGAAGTTGCAGTAAGCCAAGATCGCATCACTGCACTCCAGCCTGGGCAACAGAATGAGACTCTCTCTCAAACGAAAAAGAAATAATAAACA
Celera SNP ID:            hCV2810247
SNP Position Genomic:     348061
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,6)   total(A,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47327):
ACATTGCATAACTACATCACCCAGAGATAATTGCTGTTAATATCTTGCTGTATATAATTCTCCTGCTCTATTTATATATTGTAATACATAAATACCTTTT
Y
CACAAAAATGAGAGTTCACTATTCATACAGTTTCATAACCTGCCTTTGCTTCTCAACAATATAATAGAAACATTTTCCATGTCATTAAATATTCCCCTAC
Celera SNP ID:            hCV29182993
SNP Position Genomic:     960617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47328):
AGACCCTTGGGTTCGAGAACAGAAAATGATTGAAGTCATGTTTTACGAAAGACTGCAAGATTGAAAGTGAAGGCCAGAAGCTAATTAAATTGATCACAAA
Y
GATTGGGTCAGAACCCGGATGCAAGCACCACAGCTATGGGAACAGGTGGCCAAGGATTACACAGTTGGAAAGAGAGGCCCCCTCTGACACCTGTAGCACT
Celera SNP ID:            hCV7623967
SNP Position Genomic:     608489
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;(C,-|T,-)   Caucasian(C,28|T,56)   African-American(T,29|C,53)   Asians(C,11|T,71)   total(C,92|T,156)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47329):
CTAGCTATGCTGCCCCAGTGAGCTCAAGTGTGTTTTCATTAGGGCATTTGGTAAGCCTGGGGGAAACTGTTTCTGCCCCACAAAGGAATGTTCTGCAAAC
R
TTCAGTAACTAACCATGTGATGCTTTCTACCTCTGTAACTAAAGCTAAAGACTTTTACCTATTGACTTGGATTCTCAGCTATCAGTAGGAGGGACAGTTT
Celera SNP ID:            hCV2392595
SNP Position Genomic:     1096721
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47330):
TGCCGCAGAAGCCACAACAATCCCATCCACTGCAAATCACACGATAGTAAATGGCACTTTAGACCCCTTCTATAGTTTCCAGAAATGTAGAGAGGATCAC
R
TTGCTTTAGTGTCTTGCCCCAAGTGCTATTAATATCCCTGTCCCTAAAAGATTGATTTTTATTATCGGTAGAAATACTTAATAGAAATGAAATCTACGCT
Celera SNP ID:            hCV2392596
SNP Position Genomic:     1096449
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;JBIG-allele(A,191|G,1310)   total(G,1310|A,191)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47331):
CAACCGGGGAGGTGTTATCAGCATCCATACCTCACGGGGAGGGAGGTCAGGGGGATGGGGCGGGGAAGGAGGCTGATGGAGGAGTTGCTGACTGCAGGTA
S
CTGGAGGCCTCAGCCTTCCTGGGCAGCAGGGATACGGGCAGGGATGTCCCCTGAGCATGGTCCCACCTGGAAGCCAGGGGGCTGACCTTGACACACTCCT
Celera SNP ID:            hCV27951829
SNP Position Genomic:     495212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47332):
CATTGATGCTTCTCTGTCGACTTCAAGATGTGTTCAGTTGGGACATTGCCGTCTGTTTCCTTCTTCCGTTCTCCTTTCCCTTCTACTCCAGTCCTTACAA
R
TGACATCTTCTGTTCCTGCATGCTAAAATGCCCGTGACTTCTCTAATGCAGCTCTCTGCCTTGGTGCCTTTGCGTATCCATCTCTACTGAGGAACTGGGA
Celera SNP ID:            hCV2852490
SNP Position Genomic:     628216
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47333):
AGGAAACCTAACTCAAACCAGAATGGGGGTGGGGAAAGTGAATTGATGTATCTCACATAACTGGGAGATCCAAGGGTGGATGTGGTTTTAACCAGAACTC
S
ATCTGAGGGTTTGTGGGAAATATTCAAATTAGAACAGTTAAGAGCAGACACCAGCCAATCAAAACAGTCCATGCCAGTGACGTCAGCCCTGCATGTGCCG
Celera SNP ID:            hCV2392597
SNP Position Genomic:     1095926
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47334):
CATAATTTACTTGGAGGCTTGGGGAGAATAAGCTTCCAGGTGAGGAACTCAGTGGCTGAGTTGCAAAGAGCTGGAAATGAGAGAAGCAAACTTAATGACT
W
TGTACGTGCTTCAGTTTAGTGCATATCCCACTCTTGTGTCCTAATCCAGTTATTTTTATTTCTGCTGAACTCTGTACATCCTGAGGATGAAGCCCATGCT
Celera SNP ID:            hCV2852491
SNP Position Genomic:     628731
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|T,7)      total(A,7|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47335):
TCACCTCATCTTCTGCCATTGGCCTCCCACCCCACATTTTTCCAATGAGGTTCTTTGAGTCCGACTTATTTTTGACAAAGCCACACTGGTTTGTAATGAG
M
ATTGCATTCTTTTATACAGAGTTGGGGAGGGAGGGAGATTTTGAAGGGGGAAAACACGAACCAAGTAGGTAGATATTTGCATCTCTCAACTTTTCTCGTC
Celera SNP ID:            hCV2392598
SNP Position Genomic:     1095610
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47336):
TTTCCACTAGAATACTTCTGGATTTTTCATGAAGCCTGAGGGAAAATGAGAAGTTATTATCTACATCATTTTTCACTGTTTTAATGTTAATCATTGATAC
R
GGAATTGGCTTTCACCATCTTGGAGTCCACCCCACCTATAATTAATTATAAATCCTTTCAGTGGACAAACCAATAACACTTCTATATTGAACCAGGAACC
Celera SNP ID:            hCV2852492
SNP Position Genomic:     629046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,10)      total(G,10|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47337):
TAAGAAAAAAATGCAAGCAAAATAAAAATTCCCACATATTGCCTTAATTGTCTTTAGAGAAGGAAATATCCCAGGGCAAGAATCATCAGGGCATGCTCTG
Y
GCCCTGCATTTGATTTCATGTTTTCAGGAGCACCCCTCAAGGTCTGGAGAAGCACAGGTGCTGTACCTGTACAAGCCAGCAAGGCAAAGAGGCCTGGTTG
Celera SNP ID:            hCV2392599
SNP Position Genomic:     1094731
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47338):
TACATCATTTTTCACTGTTTTAATGTTAATCATTGATACGGGAATTGGCTTTCACCATCTTGGAGTCCACCCCACCTATAATTAATTATAAATCCTTTCA
K
TGGACAAACCAATAACACTTCTATATTGAACCAGGAACCAGAGAGCCTAAATGCATCCCCTGGATATCATCTAGTGAGTCAGAGGCACAGAACAAAATGT
Celera SNP ID:            hCV2852493
SNP Position Genomic:     629107
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,8)      total(G,8|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47339):
GAGTAGAAAGGCGAGAGTGAGAAGGCAAGATGAATCTGGAGGGGAAGATTCATGTTTTCTGATTTCTGAGGGTCCCTCCTGATCAGCGGGGTGCTAATGA
R
ATCAGAGACAGGGGATGTGAACACCACGGGAACCTGCTGGCTTTCTTCCACTCACAGCGCCAGAATGTTCCCACCAGCTGGGACAAAGCACAGGGAGAGC
Celera SNP ID:            hCV2852494
SNP Position Genomic:     629446
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47340):
TGATTTCTGAGGGTCCCTCCTGATCAGCGGGGTGCTAATGAGATCAGAGACAGGGGATGTGAACACCACGGGAACCTGCTGGCTTTCTTCCACTCACAGC
R
CCAGAATGTTCCCACCAGCTGGGACAAAGCACAGGGAGAGCATCAAGGAGGGGATGAAAAAAGAGATCAGGAAGGAAGAGAATAGTGTGCATGAGCTCAC
Celera SNP ID:            hCV2852495
SNP Position Genomic:     629505
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47341):
GCTTCTGTGATACTAAGTTTCCTGGTTCCGTTTCTGTCTCTCAGAATACTTTTCCCCTAAAGGTGTAAAGTTCTCTCCTTCATGTACTTCTCTTTCATGA
R
CTTCTCTCCTTCTAATCTTAACTGAGCCTTCTCCAAGTTCCTTCCCTATCTCATTATCTTCCATTTCTCATTATGTTCCCTCACAATCTTAACCACACCC
Celera SNP ID:            hCV2852496
SNP Position Genomic:     630022
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47342):
TGATGTGATCTTCCCCTTGGTGCATATCCAAACTGAACTCAACACTTAACTCGTGCCCTGAATTTTGGCAAGGAAGTTATCACCAGCTTTCACTCTTTGA
R
TGCATAACCTTTCACTCTGTTTCTTGTACTCAGGGACTGTAGTGTGTGTTGCAGTCTCTTATCTGACTCTCAGAAATAACTTTGAGTAGAGCAGTACTAC
Celera SNP ID:            hCV2852497
SNP Position Genomic:     630330
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47343):
GTGATATGGGAGTGACTTAAATTCTTTGTTGCAAAACCAGTGACACTGTTATGCAAACATGAAGTATTGAACTATATGGAAGTATTTATCTGTTTAAACA
Y
TGGGGGAAGAGACTTTTAAAATATGGTTTATATTCTCGGTGGTTCGGTAAAGGTTTTTCTCCTGCTCCTCATCCCCCAGCCAACCTTCTCCAATATATTC
Celera SNP ID:            hCV2852498
SNP Position Genomic:     632293
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47344):
TTATTGAGGCTCATTTTTACATTAGCCCGCTCTCGCTACATAACAATTTTTAAATCTTTTTACATTTATGATAGTCGTTACTGCAGTTTCAGAATCATTA
R
TGAGATAATGTGCTTCTTCAAGTTCACCAGTCTCTGTGAATTTGATATACTTGTTCTGAGTTAGCAGGGTTGCAGCGGCCTCAGCTTTTTGGTTCATGCA
Celera SNP ID:            hCV27932165
SNP Position Genomic:     1005422
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47345):
GGAACTTCCTGATGGAGATGGAACTGTTTCACATCTTGATTGTATCCTAGTTGGGAAGTCATTTCATAGATTTGTAAGATATTGCCATTGGGGGAAAATG
R
GTAAAGGGTATATAGGATCTCTGGGCACTATTTCTTACAACTGTGTGTGAATCAACAATGATCTCAAAATAGAAAGTGTAATGAGAGAAAAAGCTCTATT
Celera SNP ID:            hCV2852499
SNP Position Genomic:     632535
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47346):
AAAGCTCATATCTCTGTCCAGGATTTATTGCACATCTATTCTGTAGTTTTAACTGTAATAGCTTCCACTTGCTGATTTTGTTCTGTGCACCAGGTCACAT
S
GTCAACGATGTATAGGGATTATCCCATTTTATCCTCATAATAGTGATGGAGGGAAGGTAAGATTGCTTTATTTTGCAGAACCAGGATGTGTGGGCATCAA
Celera SNP ID:            hCV27932166
SNP Position Genomic:     966190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47347):
TGTGTGATAAGCTTGCAGAATAAATAGATTTTGAACTTTCTTTTTAACACAGAAAAGCAAAATACAGTGAAGTTTTGGTGGAACTTTCATTCTCATCAGG
S
CATAGGCTTCAGTGCCGCATTATCATATGGGCCAGGTGGGCTTTTTCCAGGTTACTGAGCCCAGTGGCTTCTATAGCTCGGTTTTAGGAGGCTATGGAGA
Celera SNP ID:            hCV27932167
SNP Position Genomic:     880733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47348):
CAATAAACATTGACAAAGACACCCTGGAAGCCCTATAGAAAACAGATGGTGGCAGGCAGTCATGGCTGTGCAGGAAGACCCACAGGGCGCCTTGCACAGT
W
GCCCTGGTGAGAAGTGACAGAAGCTAATCTCAAGGAGTGTTGAGGGGGATGGAGAGAAAAGGGGACATTCAGGAAGTGAAACAATGGATGTGGGCAGGAT
Celera SNP ID:            hCV29034900
SNP Position Genomic:     720428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47349):
TGAACCTGGGAATACAGTTCCCAAATTCCACAAGACCCTTGGATTTCCATCTCCAACCCCTGTGTCTCAGTACAACATCACTCAAACAGTAATGTGCACC
Y
GAATTCTCTAGAAACAATGTTAAAATGGGTTTCCTCTGTAGGATCTAGACAGGACCGAGGAGCCTGCATTTCTAACCAGCTCCTGGGGGATGCCAATGCT
Celera SNP ID:            hCV29034901
SNP Position Genomic:     721956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47350):
AGAGCCTTCAGAAAGGACATGACTTTTCTGACACTTTGATTTCAGACTTTTTGCCTCCAGAACTGTGAGCGATCACATTTCTCTTGTTTTACACCAGCCA
R
TGTGTGATACTTTGTTCCAGCATCCGTAGGAAACTAATACAAAGTCCCAAACTCTTTCCACTATGTCTAGATCCAAAGTCACCAAGAGGCCTGGCTTGGG
Celera SNP ID:            hCV7624911
SNP Position Genomic:     94000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47351):
TGGGTGGATAAGGCTGTATTTACTAACAACTTCCTCATGCATATGCATGTGCTTAATTTTCATCCACATCATTAATAAGATGATTTTAAAACTGGATGAA
Y
CTCTGCATAAAACACAAACATTTCCTATTATATATTTTATTCAGTCTACTATGTTTTCCTCTGTGGGGATCAAGCATGATATACTTCTTTCTCATCTCTG
Celera SNP ID:            hCV29034902
SNP Position Genomic:     722902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47352):
TGCCCCCAGCACTGTTGGGTGTCCCTTCTCTGTGCTTCCTCTGCCAACACTCTGTGCGGTGTTTCCGGGAGTCAGAATGGCAGGGTGGTCAAGAGTACGG
W
CTCAGAGGTTGCAGAAAGATAAAAAGATGATTGCATTCATGATTGTTATGATGTCTTGTACATAGAATATTGTCTTATTTGCTCTAAGACTCCATTAAAA
Celera SNP ID:            hCV7624912
SNP Position Genomic:     92588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47353):
TTCACTTTGTAACAAGGCTTGTAACTGAGGATAGTCACACAGGGCAGTGTAGAAATGATCCTTACTATGTTGTCACTTTGGTTGTTATCCTTTCTTCTTC
S
CACCCTCCTCCCTTCCCAGGATGTCTCACATGGAGCCATCTGAGGCAGGTGCACTCATCTAATCTGCTCCTCTCCTGCTCCAAGGATTGGCAGCCACTAT
Celera SNP ID:            hCV1178911
SNP Position Genomic:     872363
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47354):
AAATGTCATTAAACATTTATAATTTCGGGGAAACCCTTATTTCAAATCAATTCTTCATAACCATTTCCTCAGTAAATTCATTCAACAAGTATTTATCGGG
S
AGTTTCTATGAGTCAGATAATATTATAGGGGCTGGGGATATAGCAGTGACCAAGACCATTTAGAACTCTATTCTTAAGACATTGCCACCTTCCTGGGAGG
Celera SNP ID:            hCV29034903
SNP Position Genomic:     735767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47355):
ACATGGAGCCATCTGAGGCAGGTGCACTCATCTAATCTGCTCCTCTCCTGCTCCAAGGATTGGCAGCCACTATTCTTGAAAGAGTCTATGGCCTATCTGC
Y
TGCACTCACCATAGTCAATGCTCAAACATGCAATTTGTGGGATGATGTTTGGCTTGCCCATGACCTATTGCCAGTACCTAGCACATGAGAGATGCTCAAA
Celera SNP ID:            hCV1178912
SNP Position Genomic:     872491
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47356):
TAAAGTTTTATTAGAATACACATGTGCCCCTTCATTCATGTATTGACTATGGCTGCTTTCGCACCATATTGGTAGAATTGGGTAGCGGGGACACAGACTG
W
ATATTCCACAGAGGCAAAAGTATGTAATACCTGATCCTCTGCAAATAAAAAGTTTGCAGACCCCTGGCTTAGAACTCCATACATTTTGATTACATTTTAA
Celera SNP ID:            hCV29034904
SNP Position Genomic:     736317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47357):
TTGGAAACCACGTTTGATGTGGTTTAACTGGAAATATTGACCCACGCAACTAAAACTCAGGTAACCCAAGAGACTACTACTGCTGGCAGAGTCGTGTTTG
S
TGATTTCAGACACCATGGAGCAGTGGTCCAAGTTTGAATGATTTTGTTCCCAGGAGACACTTTGGGTTCCACACTGGGGAAGAAGAGGGTACAACTGGCA
Celera SNP ID:            hCV29034905
SNP Position Genomic:     738896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47358):
AACATATAATTCACCTATAAAATACTATTTTATCTCATAAGACAAAATGAGTCCATGGTCTTATTATGTAAGACTGTTTTCCATTGGGGCTGGTCTCAGG
S
TAGGCAAGGTGAGTATCTGTAGGTGGAATTCTCCTGAGAACAGATGCTCTAAACTTTTTAAATAATTGATTTGACTTCTTCACCATGTCCATGTATATAG
Celera SNP ID:            hCV10075227
SNP Position Genomic:     166182
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47359):
AGACTGGAGGATGTAATCTACCCCATAGATGAGCTCCTTGAGGATATGGCTGCATGTTAATGTTCCAGCGCAGTGATTGGCACATAGGGGCTATAAAGAA
R
TATCTGTTGAATGGATGAATGAATGAATGAATGAATGAGTGGAGACTCATGGAATTTAACTTGGACAGGCAGGTTCTAACTGTTGCTGTAGGCCTAGGAA
Celera SNP ID:            hCV7624916
SNP Position Genomic:     77069
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47360):
TTGATTCTCGACATTTCTAGCCTGATGGAGAGAAGAGCTGAGGAGCTACCACTTGAATCTAAATTCTGAGCTTGTTAAATAGATTAATAAACCTCAGTCC
R
TAGGTATTTTCTTTCTTCTGTTCTTGGGCTTCTTAAAGTATCAGACAATCAGTAGTTACTGGGCACATGTTGAATCAAGAGACACTTAACTTTATCATGA
Celera SNP ID:            hCV1178915
SNP Position Genomic:     875895
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47361):
ACCTCCTTCAGTTCTATTGCCAAAGATAGGGCTTCCTTTTAAAATAAATTTGCTCTCGCCATAGGAAATATCGCTTTAGCTTGTGCAGATGAATATGCAC
Y
ATTCTTCGTCAAGATTAGTCTTGAGTTATGCAAATTCTGAATTATCTGAGATATTCGACAATGTACCACGTACGGAAAATACATCTGTGTTCTGTGTACC
Celera SNP ID:            hCV29034906
SNP Position Genomic:     741573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47362):
GTCTTGGCTCTACTTATTTGAAATGGATAGCTTCCTAAAGTAACATATAATTCACCTATAAAATACTATTTTATCTCATAAGACAAAATGAGTCCATGGT
S
TTATTATGTAAGACTGTTTTCCATTGGGGCTGGTCTCAGGCTAGGCAAGGTGAGTATCTGTAGGTGGAATTCTCCTGAGAACAGATGCTCTAAACTTTTT
Celera SNP ID:            hCV10075228
SNP Position Genomic:     166141
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47363):
AATCAACCATAACCCATTTAAAGCAGCCTTGCAGATAAATGTCTCAAATCTACTAGCCTGCCAAATGTATTCCTTATCTACACACATTTATCAATTTTTC
Y
ACAACACTAAGCCTTTCTAATGTTTCTCTGACAGTTACTTTCTCTCCCAAGCCTGAAATTCGGGTGACATCTACTTTCTGTAAACTAGATGTGCTTGACC
Celera SNP ID:            hCV7624917
SNP Position Genomic:     75031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47364):
TTTATCAGCCAAAAAGTATGATTACTATGTTAATGCAGGTTTTGCTTCATCAAGAGATTTTCCAGTTATTGAACTTAAATAACATTGTTCTAAACCCCAA
R
TCCTCTAAATTCCTGTTGTCAGTGAAAGAGGTACCTTCTAATTTGGAAAGAATATCTAGTTCAGTTCTGATTTCAAACCAGCAGAGAAAAATAAGAAAAA
Celera SNP ID:            hCV1178916
SNP Position Genomic:     876325
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47365):
GAGCAAAGTCTTAGTCCAACCCCTTAGCCTGCAAACTCTGGAATTTTAGAAAAGTCAATAGTGTGCCCCAGACATATTTCAATATACCTCCATTTTACTC
M
AGGTAAAAGGTTTCTTGCATCCATTTAACTATTGTAAATGAATAACCATGTGACCCTCAAGAAGATTCCAAGCCAAATTCCATTGGTTTCTAAGGTCTTA
Celera SNP ID:            hCV29034907
SNP Position Genomic:     755628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47366):
TACCCTTGTTTGCAGCGATTACTCTGCTCAGAGGAGGATGACCTGTGTGGGGAGCCTCTTCAGCTACTTGAGGCACTAACCCTCTAGCCCAGGAAGTCCC
W
TTATTGCTGGGCCCTGCCATAAGCTTATTTGTATTTCACAGCGACTTGCACAGATGTGCCAGATATGTACAGATGGATTTTTATCAGAAGAGAGTCTACC
Celera SNP ID:            hCV2810251
SNP Position Genomic:     351021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47367):
GCTTAGCAAGGAAGCATCCTCTACTTGTGCATGGCTTCAAACGCTTCTAAATTAACAGGAGTATGAACCATCTGAGGATTCACAATTTCCAGTGAGTCTT
S
GCTCTACTTATTTGAAATGGATAGCTTCCTAAAGTAACATATAATTCACCTATAAAATACTATTTTATCTCATAAGACAAAATGAGTCCATGGTCTTATT
Celera SNP ID:            hCV10075229
SNP Position Genomic:     166046
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47368):
ACATAATGGTGCATGTGTGTGGGGAGGGTGGAGACAGGAGGCAGTGGAGGAGCTAAGTATCCCAAGGTGGAGGAGGCAGCGTGGGCAAAGTCCTGTCGGC
Y
GGAGGAAGGGCATGTTCTTGGTACCAGAAGCAGCTCAGTGGAAAGGATCCTGAAGCGGAGGCTGGTGGGCCGAGTCCAGACCCTGGGGGCCTTGTCAACC
Celera SNP ID:            hCV7624918
SNP Position Genomic:     74128
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47369):
GTTTGCAGAGAGGCAATCAAAAGCTGCAACACTTAGATTAAGGCAAACTAATGATAGACCATTTCAAGACATGATGACATCTCAAAATGCCTGGGATCCA
S
ATTTCTTTCACTTTTGTTTTAAGAGGTATCTCATTTGCTGTGCCTTTTCATAGGATAAAAGCTTGTTGATCGTATTATTTAGTTGAACACTTTGGGGTTC
Celera SNP ID:            hCV1178917
SNP Position Genomic:     876686
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,9)   total(G,3|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47370):
GTAGGAGAGAGGAACATCTAACTCGGTGAGATGCTAGCATGATGACAAGGGCTTGGTCTCAGGTGGTTGTGGTAGAGATGGTGAGCATGAGACATGCATA
R
TCTAGAGAGAGTTAGGAGGTACAAAAGATGGACTTGGGGGTTTCTGATACATTACAAAGGGCCAGAAATCTTTGAGCATCTTGTCCCCTCCCCTTGATTC
Celera SNP ID:            hCV29034908
SNP Position Genomic:     758039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47371):
CAGGTTATAGGTGGATTCAAATATTTTGTTTGGCAATTGGTTGAAAGAGTTTAAAGACCTGGAATCAATAGAAAGGAAATGTCTAGCTTAAGATAAGGGG
W
TGTGGAGACTGAGGTTCTTACTATGTAGACGAAGCCTCCAGGTAGCAGGCTTCAGAGAGACTAGATGGTAAATGTTTCTTCTCAGACTTTAAAAGGTATC
Celera SNP ID:            hCV1178918
SNP Position Genomic:     877309
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,4)      total(A,4|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47372):
GAAGCAAAGAAGGATCCTGAGTGAAAGCATGATGTGTCTGAGGATTTGCAAGTCGATCATGAGGTTGCAGCATACATCACATGGGAGAGAGTTGCTGACT
S
TTCAGGAGAGCAGATCATGGTATGCTAGGACAATCAGAGTCTCCACTAGAGCATATGAAGGGCTTAACATAAGGGAGTGTCATAATTACATTTATGTTTG
Celera SNP ID:            hCV27951830
SNP Position Genomic:     490390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47373):
ATATGCCTAAGATGATTCAAAATGGACATTGGTATTCTTGCGTGAGGATGAGAGTGGTTGTCATTGGTAAAAAGGTTGAAAGTCATAGAACAGGATATGA
Y
GGATCAAAGATCTTAAGCTTTATCTGTAATATTTTATTTCTTTTAATAAAATAAAGACAAAGCAAATGTGACAAAGTGTTACCAGTTGGCAATTCCAGAT
Celera SNP ID:            hCV29034909
SNP Position Genomic:     761540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47374):
TACTTTTGGACAGGCACCCAGAGAGACATAGCACCCAGATCATTGCTTCAGGTGTAAGAGTCATGCAGAGAAGTGACACGCTGCAGCTCTGAGTCAGTAC
R
AGCCCTGGCACACCAGTGTGTTGGTACAAAATGTCATCACGCACCAGCAGCCAAGGGACTCTGAAACCCTGGGATCATATAGAGGCCTGCATACCCTCTC
Celera SNP ID:            hCV15818504
SNP Position Genomic:     11571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47375):
GATGTCTTAGATAGGAATTTGGGCAAGTGAAGAAAAAAGGTCAGAGTTTAGTCCTCATTATGCAGGTACTTATATAACCATTAACAGACAAACAGAGAGC
S
AAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTGACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTA
Celera SNP ID:            hCV1178919
SNP Position Genomic:     877790
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47376):
AATGCAGCCCTCATAGCACTAAGGCATTTCAGGGGCGACTAAACAAGTGGCCCATGAAATGGAGGCACCAGAAGCCTCTGGAAGCGGCATCAGTGCATCA
Y
CCAGTGAAGCCATTGTGTCGCCTGTTAGTAATGAGCATTTGCAAGGGCAGCATGGGGAATTTCAATCAACCTGTGAGAAGACAAGGTGTGCAGACATTGT
Celera SNP ID:            hCV27951831
SNP Position Genomic:     172192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:47377):
TAGAAATGGAACTGCATTAATAATGATTGTTGAAAAAATGAATAAATGATTGTTGAATGAATAACCGAATGAATGCCACCAGGGAAAATTATTGTCTCCA
W
TTCATTTTAGGGCCTGAACTTTAGGAGAATAAAGTTATCCTAAAGAGAGCTGTTGGAACCTGCCTTTCTAACCAGCTTCCTATTTTCTAGAAAAGGGGTC
Celera SNP ID:            hCV27951832
SNP Position Genomic:     133414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47378):
AAGGCTGTGATGTGTCTGACTGAGAAAATGCATGTGTTAGATAAGCTTTGTTCCAGCATGAGTTACAGTGCTGCTGGCTGTGATAAATTTTAAGTAAGGC
R
TCTTTAAACCGAGGCGCACGTAAAACAAGGTTATATATTGACTAGTTGACTGAACTGTGACCAGAGGCTCACAGGAACCTAACCCTGCATTTCTACTAGG
Celera SNP ID:            hCV27951833
SNP Position Genomic:     44408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47379):
CATAGTTTTTAGTTTTTCCAGCTCCCTGGTACAGGAAAGTCCGCTTGCCAGAGGACTGGAGTGGTGGTTGTCATCTACCACATTGTGATGACATGAGTGC
W
ATTTTTTTAATTCCATGGGTTTTTGGGGAACAGGTGGTGTTTGGTTGCATGAGTAAGTTCTTTAGTGGTGGTTTGTAAGATTTTGCTGCACCCATCACAC
Celera SNP ID:            hCV7623976
SNP Position Genomic:     605168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47380):
GCCAAGCTCAGAACCTCTGATCTGCAAAGCACAGCTGTGGCCTCCCGCCACTCACTTCCATCCAGTCTCACGCTGGTGCATCTGCAGGAAGAACCTAGAC
Y
GTAAGCAGGACTCTAGGTGCAAGAGAGCTGGGTCAACATAGTTTTTAGTTTTTCCAGCTCCCTGGTACAGGAAAGTCCGCTTGCCAGAGGACTGGAGTGG
Celera SNP ID:            hCV7623977
SNP Position Genomic:     605031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47381):
ACTTTCTCATGCTGCTAATGGGTACCTGGAGTTGAGAATTTATGCATAGGTGTGTACATGCCATCACAGCTCTGTGTGCATGAGTGCCTGTGGGGTCTGC
R
TAGCATGCACACATCACAGAAACCCTCTGCCCTCCCTTCTCATTCCTCTATTTGAAGCCAAGTTTCCATAATCCCTCTACTCAACCCCCTTCTTCCCCAG
Celera SNP ID:            hCV27526800
SNP Position Genomic:     891755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47382):
GGGAGGCAGAAGTTGCAGTGAGCCAAGATTGCGCCAGCTGCACTCCAGCCTGGGCAACAGCAGGACTCTGTCTCAAAAAACGACAACAACAACAACAAAC
A
AACAAAAAAAAAAAAAAGTGTGGCACCTCCCTTCCCCCACACACTTTGCTCTTGCCTTTGCCATGTTATACGCCTGCATCCCCTTTGCCTTCCACCATGA
Celera SNP ID:            hCV26217000
SNP Position Genomic:     613884
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47383):
AGGCAGAAGTTGCAGTGAGCCAAGATTGCGCCAGCTGCACTCCAGCCTGGGCAACAGCAGGACTCTGTCTCAAAAAACGACAACAACAACAACAAACAAA
M
AAAAAAAAAAAAAAGTGTGGCACCTCCCTTCCCCCACACACTTTGCTCTTGCCTTTGCCATGTTATACGCCTGCATCCCCTTTGCCTTCCACCATGATTG
Celera SNP ID:            hCV26217001
SNP Position Genomic:     613887
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47384):
AGAAGTTGCAGTGAGCCAAGATTGCGCCAGCTGCACTCCAGCCTGGGCAACAGCAGGACTCTGTCTCAAAAAACGACAACAACAACAACAAACAAACAAA
M
AAAAAAAAAAGTGTGGCACCTCCCTTCCCCCACACACTTTGCTCTTGCCTTTGCCATGTTATACGCCTGCATCCCCTTTGCCTTCCACCATGATTGTAAG
Celera SNP ID:            hCV26217002
SNP Position Genomic:     613891
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47385):
CCAGAAGCTGAGCAGATGCCAGCATCATGCTTCCTATACAGCCTGCAGAACCGTGAACCAATTAAACCTGTCTCTTTTATAAATGACCCACTCTCGGGTA
T
TTTTTTATAGCAATGCAAGAACAACCTAACACAAACCCTCATATTTAGGAATTGATAGCTCCAGCCCTTTTATATCTAATTTTAAGAGCTTTTGAGACTA
Celera SNP ID:            hCV26217003
SNP Position Genomic:     614107
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47386):
GCCTTCCTCTTAACATTCATCTAGTAAGGGGGGAGATGTAGAATTTTGATATAAATTGGCCAGCCTTATGTTGATTTATCTTTAACACAGATTTCAACTC
Y
TTCACTTCAGTTGCCATGAACTGCAAGGCCCTTGTTCAGTCTGGCTTTTCATCTCTTTCCTGCCCAAGTCCAATTTAGCTCTTATAAAACAACCAGACTA
Celera SNP ID:            hCV28951143
SNP Position Genomic:     370492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47387):
TCAGGAAAGGGAAAATGTGCAAATATACGAGACAAAATTGCTTTTCTTTCCCAGCAGTTTTCTCCCTTAGGACCATTTCACAGGCCTGAGCTACCCTAGG
R
GTCTGTTTTGCCCACAGGCTATGCGTGAAGCCGACCCTTACCCTCTCACCCAGTGACGACCACGACAATGTTGATGATCATAAGCAGTGCTTGCAGGCTT
Celera SNP ID:            hCV26217004
SNP Position Genomic:     614580
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47388):
TCACTCAGATTGCTTTTCATTTTTTAATTAAAGAAACATAATTTACAAAAATCACATTATTGTAAGAATTTTAAAAAGTCAGATATGCAAAATATAAAAC
Y
ATAAAATTGCCATAGTTGTTATTTTAGCGTATCTTAACGTTTTAGTGTATAAGCATTTTTTTAGGTGTTTGTGTGTGTATATTTTTTACCAAAATGAGAT
Celera SNP ID:            hCV29034910
SNP Position Genomic:     770609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47389):
ACCTGAAAAGGATTTAGATATTAATATAGAATAACTTTTCCAAACTAGTTCTGAAAACATAAGAACTGAGAGATAGCCCCCTGCAACACACACGCACATG
M
ACACACACACACACACACACACACACACACATAGGTTTTGTGCTCTCTTGGGAGCATTTAAGATACACTGCAAACTACAATTGCTTCCTTAAAATGTACA
Celera SNP ID:            hCV26217005
SNP Position Genomic:     617574
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5|C,5)   total(A,2|C,5|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47390):
AATGCTGCCTTATTGATGGACTGGACCATTTATTCTGCAGATAGTCCCACCTTTTAGACTTATCTGGTCACTTCCTTATGGTGTCACATAGCTTGTTGCT
S
TGTCCTGGGGTGCCTTTGTTTATTCTCTTTAATGCATTTTCCAAGACTCCCCTCAAACTCCAATGAATTAAAGTTTTCAGAGTTTGGGGCCTGGGAATCT
Celera SNP ID:            hCV29034911
SNP Position Genomic:     771029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47391):
CCTGAAAAGGATTTAGATATTAATATAGAATAACTTTTCCAAACTAGTTCTGAAAACATAAGAACTGAGAGATAGCCCCCTGCAACACACACGCACATGC
A
CACACACACACACACACACACACACACACATAGGTTTTGTGCTCTCTTGGGAGCATTTAAGATACACTGCAAACTACAATTGCTTCCTTAAAATGTACAG
Celera SNP ID:            hCV26217006
SNP Position Genomic:     617575
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47392):
GAATAAAATACCTAGGAATCCAACTGACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAATAAAAGAGGATACAAACAA
M
TGGAAGAACATTCCATGCTCATGGGTAGGAAGAATCAATATCGTGAAAATGGCCATACTGCCCAAGGTAATTTACAGATTCAGTGCCATCCCCATCAAGC
Celera SNP ID:            hCV1178920
SNP Position Genomic:     877930
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47393):
CCTGGGGTGCCTTTGTTTATTCTCTTTAATGCATTTTCCAAGACTCCCCTCAAACTCCAATGAATTAAAGTTTTCAGAGTTTGGGGCCTGGGAATCTGAA
S
TGGTTCCACTTTGCCAGGTGAGTCTGAGTTTGAGAGGAAAGGTGTCCTAGATCATTCAGCAGCAGCAGAAGAGTTGGCCCTTAAATCTACGAAGAACATT
Celera SNP ID:            hCV29034912
SNP Position Genomic:     771133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47394):
CCCTGACTTAGAGCCCATCTCTTCTATTAATTAGCTGCACACAGAAGCTGGATTCCCCTCCAAGCGTGCTCTACCTGTGGCAAAGTGCTATTGTGGGACT
M
CTTGGGAACATAGGAAAAGTGTGCATTGTCTGGTACTCAGTAATTGCTCAATAAATACCAGCTACATCCTAACAAATATTTTATGGAGGTCCTTAAACTG
Celera SNP ID:            hCV26217007
SNP Position Genomic:     563334
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47395):
GTAAACAATTACGGCGTTTTTTCATCCAGGCATTACATTAGGTCCATAACACTCACAGGAGCTCTGTAAGGCTGAAATTGCCACATCCATTCTACTAGGA
S
GGTTATGGAGTTCCCAAGGGCTGACCTGCCTTTCCTGAGTCACCCACTGGAGAGCCAGGGCATTGGATTTGACCTCATAGCCGCTGCTCTATCCACTCCC
Celera SNP ID:            hCV1178921
SNP Position Genomic:     884382
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|G,8)      total(G,8|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47396):
GATTGAACAGAGTTATTTGAGCTACTTTTGATAAAATGTGACAGGCAGACTTTGGTATTTCACCACCCCAACATTTTTTTATGGACTGCTCACTATCACT
R
CAACATTCAGCACTTTTTTCTGTGTCAATGTGATAGACAATATTCATATTCTTCTTGGGTAATTGCCTTTTTAGCTGAATCAATGGCTTGCAGGCATGAG
Celera SNP ID:            hCV7624922
SNP Position Genomic:     73430
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47397):
TCTATTAATTAGCTGCACACAGAAGCTGGATTCCCCTCCAAGCGTGCTCTACCTGTGGCAAAGTGCTATTGTGGGACTACTTGGGAACATAGGAAAAGTG
Y
GCATTGTCTGGTACTCAGTAATTGCTCAATAAATACCAGCTACATCCTAACAAATATTTTATGGAGGTCCTTAAACTGAGCAAGAGCAATTTTACCTGAT
Celera SNP ID:            hCV26217008
SNP Position Genomic:     563356
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47398):
AGGGATTTCTGTATTCATTGCTCCTGGACTTTTCACATATTTGGGGAGCTTGATTGAGTTCCCCTCAGCTCTTCCATTAGAAAGCCCATGTGGTACAGTG
R
CTCAGAGCTTGGGCTTAGGAATTCACAAATGTGAATCTGTGAATCTGAGCTCTGCATCTTATTACTTGTGTGGCCTTGGGCAAGTCACCTCACCTACCTG
Celera SNP ID:            hCV1178922
SNP Position Genomic:     884674
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|G,7)   total(G,7|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47399):
AAGAAACATGGTAGATATCCTTATGCATGTGTGCACATGCAGCACACCTGGCCTGGCACAACCTGCTCACACCTCTGGGAGTCACCTGGGTGTTGGCTGA
Y
GCAGCCTGGCCTCGGCTGAGCTGACTGTCAACCCCGCAACTGCCTGTCCCATCATGGACCAGAAGCAGAGCCAGGGATGAGGATGAACGCTCTAGTTGCC
Celera SNP ID:            hCV7624923
SNP Position Genomic:     69862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47400):
CAAGAAATATTCTTTGTCATCCTAGTGGTTGCTTTAGAATTTGTAGTATACATCTTTAACTTATCACAGTTCGCGTTAAATAATATTATAGCATTTCATA
Y
ATGGTATAAGAACCTTACAGTAAAACACTTTCATTTTCTCCTTTCCCAGCCTTTGCACTACTGCTCCTCTGGTTTTTAGTTGCTCATAGGTTGTAAACTC
Celera SNP ID:            hCV27955042
SNP Position Genomic:     476730
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47401):
CAGCAGCAGAAGAGTTGGCCCTTAAATCTACGAAGAACATTGCCCTGTGCATCTGCATGCAGACAGGGTCTGATAACATCAAAGCTGGGAGTCTCTCCAA
Y
GCTTTAACTAATGGGATCTGAGCTCGGCTGTTTATTTATAGTCATTCAGTGATAAGAAAGTCAACTTGGTTGGAAGGAGCTTCTGTCCTAGGCTTGCAGC
Celera SNP ID:            hCV29034913
SNP Position Genomic:     771293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47402):
CAGTATGTGATGAAAGAGAGGAGGGTTGAGGGTAGTGGGAAGATTTTTTAAATATTTCAACTTTTTTAAATTGTAAAAAAAAAAAAAACATGACTTTAAA
W
TTACTGTCTTAATCCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGAAACAAGGTTTCACTGTGTTGTCCAAGCTGGCTTCTAACTCCTGTGCTCAAGTGAT
Celera SNP ID:            hCV26217009
SNP Position Genomic:     622045
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,9)   total(A,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47403):
ACGAGGCCAGTCGCTCACTGACTATGGAAGATGAGTCCATTATTTAATCACTCTGGCCTTCGGCTTTTCAGCTCTAAAAATGAGAATATTCCTTTCCTCA
R
TGATTATTGTTATGATTCCCGGAGATAACGTGCATGAAAGATTTTAGTGCAGGCCTTTCTTCCTTCCGTTGACAACCCAGAATGTTGCTTGATGCACAGG
Celera SNP ID:            hCV7624924
SNP Position Genomic:     65684
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,13)      total(G,1|A,13) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47404):
TCGTAAGTACAGAGAAAGGCAATATTAATGCCAATTTCAGGGGATCTGTTCAAGTTCACCGGAAGGCAGAGTTTTTAGCAATTTTTTAAAGGTTGAACAT
R
TCTTTAGGAGGTAGCAACAAGACAAAGGTCCAGGAAGAGGGTGTGATGCAGTGGGGAAGCATGCAGTCACCTTGTGCCGAACTTAACAGGTCAAGAACTC
Celera SNP ID:            hCV27955043
SNP Position Genomic:     474476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47405):
GATCTGAGCTCGGCTGTTTATTTATAGTCATTCAGTGATAAGAAAGTCAACTTGGTTGGAAGGAGCTTCTGTCCTAGGCTTGCAGCTGGGGCCTTAGCTA
Y
CCTTGTAATTTTCCCAGAAAAAAAAATGCACATCTCTTTGAGTCCTGGGCCATGTGTAAATCAGTGGTAATACAAGAAACATGGAGCACCCCAGAAAATC
Celera SNP ID:            hCV29034914
SNP Position Genomic:     771408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47406):
GGGGTACCAAATAATTCATTTCCCCTTTTCCCAACAGATGCATTCTTGTGACCTCACTGATGACAGGGGCGTCGTTTATTCTAACAAATGCTCTTGTCCA
M
ATTCCAACCATGTTGCCAAGAGATGGCATAGCTGGTGAGGGCTGGACTTTAGGGGCCAATCTCCACTCCTGAGCTCCCCTGACCACACAGGAAGAAAACA
Celera SNP ID:            hCV27955044
SNP Position Genomic:     437001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47407):
GTGGTAGAATATAGATGTAGGTCAGTAGTGATAGCAGGCTACAGCCAGCCGGTGGTCACCACAGGGTAGATATCACATAGTGGTTGAAACTGAAGGCGGC
Y
GAAACCTGAATTCTAATTAATTTCTTTGTGACCATGGGAAGTTATTTCACCTTTCCGTTCTTTTTTTTAACTTTTAAGTTGAGGAGTACATGCACAGGAT
Celera SNP ID:            hCV29034915
SNP Position Genomic:     777097
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47408):
TAATAAAATAATGGTGAGACTTGAGATGACACAGGAGTGTTCTAACAGAGGCACAGTCCACTTGACCAGATCTTTCTCAGGCATCTCCATCGACAGTGGG
R
TCTCCCTAGAAGGCTGGGTGGCTGCCATCCCACCCAACCAGCCTGCCTGAGTTGGTAAAAGTGCATGAAAGTGTTCCTCTCAGGGGGTGGCCTTCCATTG
Celera SNP ID:            hCV1178925
SNP Position Genomic:     885621
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47409):
TTTCTTGCTACAGGCAAAGCCAAATGCCGTGTTGTAGGGAAGCTCAAGTAGCTTCATGGAGAAATCCACATGGCAAGGAACTGAGGCCACCTACTAATAG
S
CAGCATCAATTCTTTAGCCGTATGTGTGAGCCACCTTGGAAGTAGACCTTCTAGCCCCCATCAAGCTTTTAGATAACTGTAGCCTCACCAACATCCTGAC
Celera SNP ID:            hCV27947963
SNP Position Genomic:     889563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47410):
TTTAAACAATCAATTTTCCTTCTAAACATAGAAAAAGGCATATTTTTCCACATATACACCACTTTCTGTGCTCTTCATTCCTTTGTGTAGATTCATATAT
S
CATCCAACATTATTTTTGGTTTGGATGAAGGACTATTGAACATTTCTTACAATGAGGTTCTGCTGGTGATGAATTCCTTCGCCTTTTGTATGTGCATCTG
Celera SNP ID:            hCV27955045
SNP Position Genomic:     476957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47411):
GATGGGCACTTAGGTTGATTCCGTGCCTTTGCTATTGTGTTTCACCTTGTTGAACATCAGTTTTGTGAGCTATAAAATGGGGGTAATCCATTCTCTACCT
S
GTAGGATTGTTCAGAGTATGATAAAACACTGTGTCTGGCACAGGAATGTCAATGATCAGCTATTGAGTAAGCAAAGTGAATTAATGATCTTTATATGCCA
Celera SNP ID:            hCV29034916
SNP Position Genomic:     777659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47412):
ATGGGCACTTAGGTTGATTCCGTGCCTTTGCTATTGTGTTTCACCTTGTTGAACATCAGTTTTGTGAGCTATAAAATGGGGGTAATCCATTCTCTACCTC
S
TAGGATTGTTCAGAGTATGATAAAACACTGTGTCTGGCACAGGAATGTCAATGATCAGCTATTGAGTAAGCAAAGTGAATTAATGATCTTTATATGCCAT
Celera SNP ID:            hCV29034917
SNP Position Genomic:     777660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47413):
CCCTCACAAGGGCACAGCGGAGCTCGTTGGTTATGCTTCAGTTACATAAATCCAGCCTTACAAAGGCTACACAGGGAGAGGGGCTCCTTGCCTCCTAGAT
S
TGTACCTTGTAGGTGCTCAATACACATTGGTAAGAATGTTCACATCATCAGGTAAGCAAGGGGTATAAAGTGAGGCCTTGAATCGCTCACGTAGATTCAA
Celera SNP ID:            hCV1178927
SNP Position Genomic:     885823
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47414):
GAAAGGGCTGGAGGGAGAAGGTTATTGTTATATATAAAGTCGCGGTACCGCAAAAGAAATAGCAGTCGAATATAAAATTTTATTTTTAATTCTCAGCAAG
K
CAAGTTACTTCTATATAGAAGGGTGCACCCTTACAGATGGAACTATGGTGAGCCCACATTTGGACAAGAGAGGGGAAGGGGTTCTTATCCCTGATGCACG
Celera SNP ID:            hCV10075239
SNP Position Genomic:     164858
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47415):
GACATTATGCCTATGTGAAAGTAAAGATGGAGTTGTTTATCTCTGTATCTCCTTGTCCTGTTTCTCCCAGGACTTGGCAGAACTCTTGATGGCAAGAATC
W
AATCTTTGTCCTACTTGTAACTGCAGTGCCTGGCAGTTTGCCCTGTCCATATTCATAGAGCTAAAGAAACATTTGTTATAAATGAAGAAATCCCCCAGAG
Celera SNP ID:            hCV29034918
SNP Position Genomic:     779149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47416):
TGTCAATCGTGTCTTGAGGTTATTCTAGCACCTTACGAAAAGCCACCATCCACCTAATTTTAGAGCTTTTAAGATAAAGCCCGGGAGCACTAGGAAGGTG
R
GTGAGTTACCGTTATCAATCTGGAATGTGAGGTTTCCAGTGCAGTAGCACCACCTCTTCTAGGTCACCATGGCCAGCCCTTCTCAGAATACAGAATGATG
Celera SNP ID:            hCV29090800
SNP Position Genomic:     303697
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47417):
ACCTCTAAAGGGCCCCACCTCCCAGCACCATTACATTGGCTATTACATTACAACAAGAGTTTTGGAGGTGACAGGCATTTCAACCATAGCAAAGAGTCAA
K
GTCGCTGCTGGCTCTTCCTGCCACTTTGCTCTGATGCTCACAACTGGATGTGGCAGCCCTGCTTGGGTTACCTAAAAGAGCCAGGTGACTTTGCCAAGCT
Celera SNP ID:            hCV7623981
SNP Position Genomic:     604838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47418):
CCTATGAAGCTGATTAGGAAAGCCTTGAGTTTGTACCCAAATAAATTTGCTAATACTTTTACCTAAATTAGAGAGATTCGGATGGGGTGGGATAACAACA
S
GCCACATCTACCTGGGTGGAGCCCATCTCAGGATGCCTCTGCCCAGGAGGAGGGGCAGTGAGAAGGAGGCCGGAAGGGGAAGAGAAACAGGAGAGGGAAA
Celera SNP ID:            hCV1178928
SNP Position Genomic:     886132
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47419):
AGTGCGATGCATGGGTCACAGAATATGCCAGAGAACAACGAGGCCAGTCGCTCACTGACTATGGAAGATGAGTCCATTATTTAATCACTCTGGCCTTCGG
Y
TTTTCAGCTCTAAAAATGAGAATATTCCTTTCCTCAATGATTATTGTTATGATTCCCGGAGATAACGTGCATGAAAGATTTTAGTGCAGGCCTTTCTTCC
Celera SNP ID:            hCV7624929
SNP Position Genomic:     65647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47420):
TTTTACTTTTCGGCCTAGAAACTGTTCCTCAAGAACTCTTCCCTAGTAAGTGATCCCATAGAACGCCATGTTTCCCCATCATATTCCTCATCACACTGTA
Y
TGTCATTGCCAGCTTATGACTTTGGTCGTGAGTGATAACAGGTAAGGAACCATGCCTGTGTTACTCACCGCTCAGTCCTCAGCCCAGGCACCCTGCCTAA
Celera SNP ID:            hCV27947966
SNP Position Genomic:     306731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47421):
CATTTGACCCAAAATCATTTTTAAAAATTATTGTTCTCCTAAATTGAAGCCCTTTCCAGCATTGCGCATTAGAAGTCTTAAAACTCATCTGTTTTCTTTT
Y
GTAATTGACTTACAAATGCGTAATCGACTCACAAATGTATAACTGAGTATGCATGGCATTTTAAAAGGGCAGAGTTTCCATTTGCTTCTTGATTTCTTTG
Celera SNP ID:            hCV29034919
SNP Position Genomic:     789195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47422):
TTGTGCAATAGGAAAAGATGCTTGACCAGTGACGATGAGCTTTTTTCCAAATGTTTTTTGGCCACAGAAGTGTCTTGAGAAGTGTCTGTTCATATCCTTC
R
CCTGCTTTTTAATGGGGTTGTTTGTTTTTTTTCTTGTAAATTTGTTTAAGTTCCTTGTAAATTCTAGATATAAGACCTTTGCCAGATGGGTAGATTGCAA
Celera SNP ID:            hCV1178929
SNP Position Genomic:     886454
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47423):
ATGGAATCTAGTGGGGCATCAGACAAACCATAGTTTCATTTACTATCTTGTAACTTCAAGGAAGCCACTTTACTTTCCTGAGTCTGTTTCCTTGGATCCA
R
AAACCTACTTAGTAGGATAGCCATGAAAATTCAGTGAGATAAATCATATGAAACCAGAACACAGCTGATACATGCAGTGAAGCGGCTCTTAAATATGTGC
Celera SNP ID:            hCV27947968
SNP Position Genomic:     302681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47424):
CTCCACATGAGAACGTCCCTACCATGATGTCCAGTAAAGAATGGGCTACGTGTCCCGCAGACTTGATTACCTCCCTGCTCCAGCTTGGCTCTTTCTACAA
R
GGCTGTGCTGGCCCAAACATCAATGTCTCATTTAACTTTTGAAAATCGTCCTCTTGGCATCTAGACCTGTTGTTTTCCTGGCCTGCTAGGATAAATACGG
Celera SNP ID:            hCV7350
SNP Position Genomic:     636923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47425):
AAAGACTATTAAGTCTCTTAAATGCTGGAAAATGTCTTCATGAGCATATTCAGTGATTTGGCACTTACTCCACATGAGAACGTCCCTACCATGATGTCCA
S
TAAAGAATGGGCTACGTGTCCCGCAGACTTGATTACCTCCCTGCTCCAGCTTGGCTCTTTCTACAAGGGCTGTGCTGGCCCAAACATCAATGTCTCATTT
Celera SNP ID:            hCV7351
SNP Position Genomic:     636856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   (C,-|G,-)   Caucasian(C,22|G,56)   total(G,56|C,22)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47426):
GAGATGCCCCAAACTGCCGGGCCTCCTGCTCCATCCTCCAGGTTTGAACTACGGCTGGTTGCAAGGAGTGTATTTGTGCTTGCATTAGAAAATTAGGAAC
R
CCTGCAGAAAATGGCTTTCCCACAGATAAAAGACTATTAAGTCTCTTAAATGCTGGAAAATGTCTTCATGAGCATATTCAGTGATTTGGCACTTACTCCA
Celera SNP ID:            hCV7352
SNP Position Genomic:     636727
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_C(A,14|G,68)   total(G,68|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47427):
TGGGCACATTATAACTTCTCCAGCATGGACTATGTGGCCATGATGGTAGGCTTGGCAATTAAAAAGACAAGTGGAGAGATGCCCCAAACTGCCGGGCCTC
S
TGCTCCATCCTCCAGGTTTGAACTACGGCTGGTTGCAAGGAGTGTATTTGTGCTTGCATTAGAAAATTAGGAACGCCTGCAGAAAATGGCTTTCCCACAG
Celera SNP ID:            hCV7353
SNP Position Genomic:     636652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47428):
CCCCTTGCCCATTTTTTAATCAGTTTATTTGGATTTTTGTTGGATTAAGTTGGGGAAGTTCTTTATATTTTTCTGGATTTTAACCCCTTATCCGATATAT
R
TCTTGCAAAGATTTTCTCCTATTTAGTAAGTTGCGTTTTCATTCTGTTGATTGTTTCCTTTGATGAGCGTAAGTTTTTAAGTTTGATGTAGTTTCATTTG
Celera SNP ID:            hCV26217010
SNP Position Genomic:     623096
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47429):
TCAGTCCTTGAAACTAATTGTGCCAAGTATGGGCACATTATAACTTCTCCAGCATGGACTATGTGGCCATGATGGTAGGCTTGGCAATTAAAAAGACAAG
K
GGAGAGATGCCCCAAACTGCCGGGCCTCCTGCTCCATCCTCCAGGTTTGAACTACGGCTGGTTGCAAGGAGTGTATTTGTGCTTGCATTAGAAAATTAGG
Celera SNP ID:            hCV7354
SNP Position Genomic:     636623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47430):
GCAATGACTGAGAGACACAGGTACTCTGAAGAATATAAGGAATTTTCTTGTGCCATATGAAAGTGCCGTTAGAAAAATAGGTTGGTCATTTTCTGACATC
A
AAAGATTTTTTCCCCAAATTGTCTGAGTTGCAGCCAATATAAACATAGGCCAAGTTTTTCTAAATCACATGTGTTTGGAGAGGGTGGAATGGCTGTCAGA
Celera SNP ID:            hCV26217011
SNP Position Genomic:     623774
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47431):
GCAGCCAATATAAACATAGGCCAAGTTTTTCTAAATCACATGTGTTTGGAGAGGGTGGAATGGCTGTCAGAATGGGCTGGGCTTATAGGGTGACATACAG
R
TCCAGGCAGAGTGAGCCAACCAACATCACTTGCAAGATTGAAGAAGGCTCATGGAGTTAGATCAGTGGAAGAGAAGATCCTCATAGAAGAGGCAAAATTC
Celera SNP ID:            hCV26217012
SNP Position Genomic:     623904
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47432):
ATCATTCCCAAATACCAGCCAAGAGCCAACCTTGCAGGCTGGCCTTTCTAGGGATAGCAGTCCCACACTTGCTATGTTGGCTCTTTTCTGGATAGTATGC
A
AAAAAAAAAAAAGTTTCATATTCAGATAATTTTGAAAACCTTAATCAACCAATTTTAAGCTGCTTTCTTTACCTCTGGACTCTAAATTCCCAGACTTATC
Celera SNP ID:            hCV26217013
SNP Position Genomic:     626462
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,6)   total(A,5|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47433):
TGCTGTGATCAAAAGGATTGTGTTTAAGAATGTATAGTCTAAATGCTTATTGTGATCACTAACATTTGTATAGTTCTTTGGGGTTTACCAAGTACTTTAC
Y
TGTATTTTCTCATTTAATCTTCACTTAGGACTAAAAAAGTTAGTAACACTAATGGGAATGAGCGAAAACCAAATTCAGACAGTATTAAATACACAAAATT
Celera SNP ID:            hCV26217014
SNP Position Genomic:     563991
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47434):
TAATCAGTAAAACCACCCATGGATTCCTAATTGAGGACAATTTCTTTCCTTTCTTTTAGAAAACTTAGGAATCAAAGTGTATTCCAGTAACTGCATGGAA
R
GGGCTGGAGGGAGAAGGTTATTGTTATATATAAAGTCGCGGTACCGCAAAAGAAATAGCAGTCGAATATAAAATTTTATTTTTAATTCTCAGCAAGTCAA
Celera SNP ID:            hCV10075240
SNP Position Genomic:     164761
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47435):
TAAGAAATTCTGCATGTTCCATTGACAAAACTGGGAACACTGCACACACATACACATATTCACACAAACCATATACAGTCACGTGTCACTCAACAATGGG
K
ATACCTTCTGAGAAGGTATCATTAGATGATTTGTCATTGTGCAAACATCATATAGTGCACTTACGCAAATCTAGATGGTATATTCTGCTACATGCCTATC
Celera SNP ID:            hCV29034920
SNP Position Genomic:     789685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47436):
AGACAGTATTAAATACACAAAATTATAAAGTAAAATGAGACTGATTTCCCACGTCATGAGGAAAAATGTCTCTTTACTTTGTGATTCTTTTTATCACATA
Y
TTAAAGGCATTTGCATTTTTCCTTTTCTGAATTTTCTGCTTTTAGTTTTTCCTCTTGTATTAGATGTTCAGTGTAACTCACCAATTGTGGCAGTTTTCTG
Celera SNP ID:            hCV26217015
SNP Position Genomic:     564168
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47437):
CCCTCAATGTGCACTTCTGCGGACTTTGATTAGTATGCATAATAGAGCAGCACACCTGATGTCCGCAGCAGGCAGTTCTAATGCCGGTGGAGAGAGGTAC
R
AGATAAATCACTCCAAGTAAATGACTAATTAATCATGCACTTGATTTTAATAACATATACCATCTGGCTCAAGATTTGTCTGTCTACAATCTTGTATTCC
Celera SNP ID:            hCV10075241
SNP Position Genomic:     164545
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47438):
GGAACTAAAGAATGCAGGCTCGGCTTTTCCCAGAGGCAGCAGTGCGATGCATGGGTCACAGAATATGCCAGAGAACAACGAGGCCAGTCGCTCACTGACT
R
TGGAAGATGAGTCCATTATTTAATCACTCTGGCCTTCGGCTTTTCAGCTCTAAAAATGAGAATATTCCTTTCCTCAATGATTATTGTTATGATTCCCGGA
Celera SNP ID:            hCV7624930
SNP Position Genomic:     65607
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,13)      total(G,1|A,13) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47439):
TTAGCTATCAGCCATAATTTTAAAAATAGTGTTTTTAAAATCAGTAATATTATTGACAACCTTTTCTGAATATTGTCCAAGTGCTTTACAGGGATTATTT
M
ACTTATCATGGGAATGATCCTATGAGATAGCCACTGTTATTATTCCTACTTTACAGATGAGGAAAAGAGAGGTTAATTAGCCCAAGGACACACAGTTTCC
Celera SNP ID:            hCV29034921
SNP Position Genomic:     798419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47440):
GGAAAAATGTCTCTTTACTTTGTGATTCTTTTTATCACATACTTAAAGGCATTTGCATTTTTCCTTTTCTGAATTTTCTGCTTTTAGTTTTTCCTCTTGT
W
TTAGATGTTCAGTGTAACTCACCAATTGTGGCAGTTTTCTGTTTGATTCACAGTAAAAAAGAATAAAAAATAAAAATTAAAAAAAAACTGTGACCTGCAT
Celera SNP ID:            hCV26217016
SNP Position Genomic:     564227
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47441):
TGGGGAAAATGGTCCAATGATGGGGAAAGGGCCCAGGTTTTGACACCTGAAGACATCCCTGGATTTCAGGAATTTGAGGCAGATCCCTAGAGCTCAGATC
Y
AGGATTCAGAACGAAACGGTGACTGTGAGAGTAAACCATGGTGTCTGACATAAGGGTTTCCTTGATTACCCTTTAAGGGCCCCTATGAATGTCTCTGGGT
Celera SNP ID:            hCV7624931
SNP Position Genomic:     63277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47442):
GACAGCCCCATCCAGTAATGCCTCCTTTCTCCTTCAAGGGCATCTTATTGTCTCATTACTCACATTTAGAGACTGATTATGTCATTTAGTAAGCCTTCGA
Y
TGAATATTTAAAAGCCACTTGGATGAAGTTAAAAGTCAGCAAAGAATGTATTTGAAAAGCATGCATAGCTCATAGCTCCTAGAACTGACAGTGAAATGGA
Celera SNP ID:            hCV26217017
SNP Position Genomic:     642153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47443):
TTAGATCCCCATAGTCAATTTTGGCTTTTGTTGCAATTGCTTTTGGTGTTTTAGTTGGGGGGTGGGGGGCAAGGGAAGGGACAGCATTAGGACAGATGCC
S
AATGCATGTGGGGCTTAAAACCTAAAATATGGGTTGATGGGTGCAGCAAACCACCATGGCACATGTATACCTATGTAACAAACCTGCACAGTCTGCATAT
Celera SNP ID:            hCV1178931
SNP Position Genomic:     886733
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47444):
GGACAGCGCCTCATTCCTTACCTGATTCACACGGTGCTGATACGCTTGTTCAGGGCTGCCTCAAGCTTCAGACTCAGAGTCAGAAGGGACCTCAGAGTCT
R
TGTGGTGCTGATGGTCTTTGTAACGCCTTAACAGGATGAGGGTGTGAGCCTGGGCGCTGGGTGGCAGCCTTGTCCATCACCAGATGAGCTTAGCACCGTC
Celera SNP ID:            hCV29034922
SNP Position Genomic:     581443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47445):
CCATGACAAAGAAATTATCCAGTACAAATGTCACTAGTGCCAAAGCTGAGAAGCCCTGCAAAAAACTTGCATGATAGTGACGGTTTTCTTTATTTTCCTC
T
TTTTTTTTTTTTTGATGACAGAAAGTTAGATAACAGTCACAAGATCAGAAAGCGAATAAGTGGCAGAGCTTGAACCCAGATCTGTGGGGTACCAGGACAC
Celera SNP ID:            hCV26217018
SNP Position Genomic:     643051
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47446):
CACAGGGCACTAGAGAAGAGTGTTCACAACCTCCAGCCCCTCCACAAAGAAGCCTGATTCTGGAAAGACAGAGGTTCCAACCTCACCCTTACTTCTCTTC
Y
GAAGATCTGCTGTGCATGAAGCATTTTGGAGGTATTTCTTCAGCTCAGAACACAGCAACTTTCCTATGAAAGAGAGCACAAAGGGTTAATGCCACCAGAA
Celera SNP ID:            hCV1178932
SNP Position Genomic:     887079
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47447):
AGTTCTCATTTTGTTCACTTCTTCAGAAAATTCAAAGAAGAAAAAAAGCCTAAAGCCACTCACTCGTTGCTCTTTCAATGGCATCACCATTGTGTGATCT
R
TCTTCTTCTGCTAGAAGGAAATTCCAGGAATCCTTGATCTCGCATCTTTTAAACTGATTTCACAGAGGGTATCCCTGACAGCATTTAAAAAAAAAAAGCA
Celera SNP ID:            hCV29034923
SNP Position Genomic:     804769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47448):
GAACATATTTTACACATTAAAAGACCTGGATTTTGCTGGAGACCCTAGAGAATGTTCTCATTGGAGTCCCCCTCATTTACCTTGGAAAGGACTGTCTGAA
K
TTGAAAAGAAATCTGAAGCAGGAAAAACATATAAAGAAATATGAAAAAATGGTATAACTTTCAAGGGAAAGGGTTTCCTTAAAAATTCATGAGATGGGTT
Celera SNP ID:            hCV26217019
SNP Position Genomic:     643972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47449):
CCACAAAGAAGCCTGATTCTGGAAAGACAGAGGTTCCAACCTCACCCTTACTTCTCTTCTGAAGATCTGCTGTGCATGAAGCATTTTGGAGGTATTTCTT
S
AGCTCAGAACACAGCAACTTTCCTATGAAAGAGAGCACAAAGGGTTAATGCCACCAGAAGACACTCAGCCTGTCCAGTGTCGCTACCACTGGGACGGGCA
Celera SNP ID:            hCV1178933
SNP Position Genomic:     887120
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47450):
TGGCTTTTCTGAAAGTTAAGACTAAACCAGTCTCCTTTTCTGCTGGTCTTTAGATGATACCCAAAACTGTACCTCGTGTTCCATGTCTCTAAGCATTCAA
Y
CACTTACTGGGTTGGGCTGTGCTCATCTTACACAGAACAGATCTCCTCACTTTTCTCTCAAATGTTTTCCTCCTTAGTCCCCTGTCTACACGTAGCCTCT
Celera SNP ID:            hCV29034924
SNP Position Genomic:     581717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47451):
CTTCCCCTCCCATTGTACCCAGAAGAAACAAGAATTGTTTCTCAGTTCTAACTGTCATAATGCCTAGCGGGCGTTAGCCTACAACGAAGGATAATTCAAT
S
TATCCTCACCTTAGTGTACGCTGGACAACACTAGGACTCAGAAGTGCTTTGCTCTTGATCTTGAAAGGCCAGTGGAAATCCATGCAGATTCCTCCCCCAG
Celera SNP ID:            hCV1178934
SNP Position Genomic:     888036
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47452):
AAGTCTAGAAGAGGGAAATCTAACACGTACTGAACAGTCTAGAAGGGGGAAATCCAATGTGGACTGAACAGTCTAGAAGAGGAAAATCCAACATGGACTG
R
ACAGTCTAGAAGAGGAAAATCCAACATGGACTGGACAGTCTAGAAGAGGGAAATCCAACATGGACTGCTGTGCACCAGCCTACATCATAGTCACGTGGTT
Celera SNP ID:            hCV29034925
SNP Position Genomic:     805619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47453):
TAAAATGAGATATATAGTAAATTAAATTAGAAATGCAGTAGGGTTTCTTTTTAAGTGGAGGTGGTCCTTTCTCCTATCCTCCCAACTTCTTAACTCCAAT
R
TTTCAAAGCTAGGAGGAGAAATCAGTATTCCCAGGGACCCTTTGGAAGAACCTTTCTTCTTTCACCCTCTTTCATCCATTCCTTCTCTGAAGCTCATGCC
Celera SNP ID:            hCV29034926
SNP Position Genomic:     807428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47454):
AACCCAGTTTAAAGAGATCCAGGAAGCAGATTGTGAGCTGCAGATATGATGTGATTATTAAAAGCAGCCTCCATTGCCAACATTGCAAACGCATCAGCAT
R
TTCCTTCCTTCAACATTCCATAACGTGGTGGTGGTATTCCCACCTTACCCCGGGAGAAGCTGAGAGTCACAGGGAGCATTTACTTTCCAAGTTCACACAT
Celera SNP ID:            hCV1178936
SNP Position Genomic:     888647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47455):
GGTAGAGTGTTGGGACCAGAAAGGGGTTGCCCTGAGTTCTCGTCCTGGCTCTTGTGTGAATTAGTCCATGACTATTTGCTTACCCAACATCTCATAGCTT
S
AGTTTCCTCAACTGTAAAATGAGGGAAATAAGAGTGCCTCTGCCTTCCCCTTGAGGCTTGTTGAGTAGTTCCAATGAGTCAGCAAAAAATGAGAAACACG
Celera SNP ID:            hCV29034927
SNP Position Genomic:     814644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47456):
AGAATGTGTTCATCTGTTACCTGTGTAACTGAACATAATAATACTATGTTTGAACAGATTTCAAAAATGGGTTTGGATCTGATTTTAAAACATTTGAAAC
R
GATGTGGAACAAGTTTTTAAAGAAGGAACCCTATCTCATAAGATTGTCAGGATCATTAAACATCACGAGTATGAGCCCACAGGAAACCTTCAGTATATCG
Celera SNP ID:            hCV7624938
SNP Position Genomic:     58894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47457):
CCAGCCTCCTGCGACTGGCCTGCATACATACAAATACCCATTCTAGGTGGTTTCCAAAAGGACTCCATTTCTATGGGAATATTTTCCATTGAGCTGTTTA
W
GAACTTTCACTTAGTGATTAAAAAATTATTCAAAAGGAGGGCAATAGTAATAAACTTCCACTTTCCGTTTCACCAGCATATCTCAAAACTAAATTAATTA
Celera SNP ID:            hCV2810271
SNP Position Genomic:     360171
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47458):
TCACTCCAAGATGGCCAGTTATCGCCCAACTCTCTTCCTTCTGCTTCCTCAAGATCTCTTCCATCTGCTTCCCTCCATCCATCCTCCTGGCCACTCCCAT
K
TGCATGCTTCTATCCTCTCTGCTTCAGCCACCCACCCCTCACCGGTCTCCCTACTCTCCCCTGTGCTAGAGTGGACTCTAAAGCACACACCTGATGATGC
Celera SNP ID:            hCV29034928
SNP Position Genomic:     819340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47459):
TTACCTATGGACTTTCAAAGGTTTGCAAAGATTTACCTCCTACTAAAATGGCTTGTGAGCATGGAAGGCTTAAACATTAGCAGAGCAGGTAGAAAAATAA
S
GCCTGGTAAGATGCCAAATGGTGGAAACCGAGGCAGAAGATAGTCCTCTGGACAAGGTCAGCATAATCTAGTACATATGAACTCACTCACGCTCCTGCAT
Celera SNP ID:            hCV7624939
SNP Position Genomic:     58542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47460):
TGAGAATATGCCTCCCAGAGCCTCCACCACAGGGAACACGACTGACATGTGACCCCAGATGCTGTACTCTGAAGCCCATGACAGTATTTGGGCTGACGCT
R
TGGTTTTTATTATCTTTCCTCACCAAAGACTTCAGCAAGGGAGGGATACTAAGGCAAATCTGTTTCTGGGAATCTTCAAACTCATTCAACAGCTGATCTT
Celera SNP ID:            hCV2810272
SNP Position Genomic:     362100
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47461):
CTCCAAGATGGCCAGTTATCGCCCAACTCTCTTCCTTCTGCTTCCTCAAGATCTCTTCCATCTGCTTCCCTCCATCCATCCTCCTGGCCACTCCCATGTG
Y
ATGCTTCTATCCTCTCTGCTTCAGCCACCCACCCCTCACCGGTCTCCCTACTCTCCCCTGTGCTAGAGTGGACTCTAAAGCACACACCTGATGATGCCAC
Celera SNP ID:            hCV29034929
SNP Position Genomic:     819343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47462):
AGAAACAACAGAGGAATCTGTGAGACAGGGCTGCTGTGAGATGATGTCACACTTGACATAAATTGACAGTTAATTGCCTGGAGATTTGGGAACAGTTCAG
S
GGTGTGTGTATGAGAGAGATTGTGCATACCATGAACAATGGACACAAATATATATGCCTGCTTCTGTGTTGTGTGTCTCTCTGAATTAGTGTTCCCTGGT
Celera SNP ID:            hCV2810273
SNP Position Genomic:     362721
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47463):
GTATTTTGTTGCCACAACTTCTTTGGTTCAAATTAAAGAATATAGGTCATTTGTCCCAGAGAGTCAGTCCAGCTGAAAAATTGTGGATGTTGATAAATGC
R
TAGGTCTCCATTCTTAAAAATCCAGCATTTTTGTATAGGAACAAAACTTTACTTGGATTATAAATTGCAGGCCTTCTTTGAAAAGACAAAGTGTGAAAGG
Celera SNP ID:            hCV12106600
SNP Position Genomic:     438805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47464):
ACAACTTCTTTGGTTCAAATTAAAGAATATAGGTCATTTGTCCCAGAGAGTCAGTCCAGCTGAAAAATTGTGGATGTTGATAAATGCGTAGGTCTCCATT
Y
TTAAAAATCCAGCATTTTTGTATAGGAACAAAACTTTACTTGGATTATAAATTGCAGGCCTTCTTTGAAAAGACAAAGTGTGAAAGGGAAGAGAACTGTA
Celera SNP ID:            hCV12106604
SNP Position Genomic:     438818
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47465):
ACATCGTATATATGTATATATAGTATTTGTGTGTGTACATATTATACACATGTATGTGTGTGTATATGTATATATGTATATGTGTGTGTATATATATGTA
K
GTGTGTGTGTGTGTATACATATGTGTATATATATATATGCCCTTTAAGACTAATGCAATAACTTTTAAGGTTCTTTTTGATTGAAGAAATATATGTAATT
Celera SNP ID:            hCV26217020
SNP Position Genomic:     645898
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,2|T,2)   total(G,2|T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47466):
GGCAGGAGAATTGCTTGAACCTGGGAGGCGGGGGTTGCAATGAGCCCAGATTGCATCACTGCACTCCAGCCTGGGTGACAGAGCAAGAATCCAGCTAGAG
A
AAAAAAAAAAAAAAAAAAAAAGTCCTTGTGCATTAATCTGTTCTATAGGTGTTTTTAGTGGAACATTTAGTGGGGGTCCAGTTCATCCCCAATTATAAAT
Celera SNP ID:            hCV26217021
SNP Position Genomic:     557812
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47467):
GCAGGAGAATTGCTTGAACCTGGGAGGCGGGGGTTGCAATGAGCCCAGATTGCATCACTGCACTCCAGCCTGGGTGACAGAGCAAGAATCCAGCTAGAGA
A
AAAAAAAAAAAAAAAAAAAAGTCCTTGTGCATTAATCTGTTCTATAGGTGTTTTTAGTGGAACATTTAGTGGGGGTCCAGTTCATCCCCAATTATAAATA
Celera SNP ID:            hCV26217022
SNP Position Genomic:     557813
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47468):
CAGGAAATGGGTGGCATATGGCATTTGGCATTATGAGGCATTGAGAAATCCTTTCCGTAATATCCACTGAGTATATACTGTGAGCCAAAACTATGATAGC
K
GCTATGGGGGAAAAATGAGTAAAAACCAACAGTCATTGTCTTCATAGAGCTTACAATGTAGTTGGGGGGACCAATATTAGTCAAATAAGCATAGTAAGAA
Celera SNP ID:            hCV27964960
SNP Position Genomic:     918977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47469):
CTAAAAATACAAAAATTACCTGGGCATGGTGGTGCACGCCTGTAGTCCCAGCTACTCAGGAGGCTAAGGCAGGAGAATCGTCTGAACCCAGGAGGCAGAC
R
TTGCAGTGAGCTGAGATCATGCCATTGCACTCCAGCCTGAGCAACAGAGCGAGACTCCATCTCAAAAAAGCAAAGATGTGAGTCCAGGGTGGGTGTTGAT
Celera SNP ID:            hCV26217023
SNP Position Genomic:     565994
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47470):
AGGATGGCTGAGGCTTTAGAACCAGATGGAGTGCTGTGGCCTCTCTTGGATGGATGCTGTTTCTGAGCTTTGCATCTGGAAAGACAGAGCCTGCTCTAGG
R
ATAATGATGTCAAAGATCTTTCTCATTTTACTGTCTGGTTAAATATCACCTCTTCAGAGAAGCCTTCCCTTATCAACTTACTTAAATTGAGTACCCCCTG
Celera SNP ID:            hCV12106608
SNP Position Genomic:     440626
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47471):
CCTTTGCACTCTTTCCTTCCCTCGTCCACCTGGGAGACTCCTGCTGATCTTTTCAGACTCAGCTTAAATGTCCCCACCAAACCTCCCCTCCCTCTCCCCA
Y
TGGAACCAGCTCCACACTGCACTCCACCATGTTGGCATGTACAGTACATGTGGCTACCAGTTGATTGACAGATTGTCCCTGTAAGCCAGTCTGCTCAGGG
Celera SNP ID:            hCV27964961
SNP Position Genomic:     952084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47472):
GGGGGTTGCAATGAGCCCAGATTGCATCACTGCACTCCAGCCTGGGTGACAGAGCAAGAATCCAGCTAGAGAAAAAAAAAAAAAAAAAAAAAAGTCCTTG
Y
GCATTAATCTGTTCTATAGGTGTTTTTAGTGGAACATTTAGTGGGGGTCCAGTTCATCCCCAATTATAAATATAATTCCACTGAGCATCCTCAACTTTGT
Celera SNP ID:            hCV26217024
SNP Position Genomic:     557841
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47473):
CTGTCTGGCCTCCTCTCCTTTCCCTCCTTCTGAACACCCTAGATTCCTGCCAAATATAATGTTATTCCACAAACCTATGAGGACCTTGCCTGCCCTCTGT
S
CTTTGCACATGCTCTTCCTCCAGCCTTTGCACTCTTTCCTTCCCTCGTCCACCTGGGAGACTCCTGCTGATCTTTTCAGACTCAGCTTAAATGTCCCCAC
Celera SNP ID:            hCV27964962
SNP Position Genomic:     951960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47474):
GATGGCCAGTTATCGCCCAACTCTCTTCCTTCTGCTTCCTCAAGATCTCTTCCATCTGCTTCCCTCCATCCATCCTCCTGGCCACTCCCATGTGCATGCT
Y
CTATCCTCTCTGCTTCAGCCACCCACCCCTCACCGGTCTCCCTACTCTCCCCTGTGCTAGAGTGGACTCTAAAGCACACACCTGATGATGCCACTGTCCT
Celera SNP ID:            hCV29034930
SNP Position Genomic:     819349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47475):
GATTCAGCACTCAATAACTCTCCCTCACGCTTAGAGGAGGCTTCATATTTTTCAAGACACGTTCCTATCTGTCATCTTCTATCCTCCCAGACGTGTTTTC
Y
CATGATAAGAATTATTTACACATCATTTACATTTACAGATTTGCTTTTTTTGTTGTTAGTGTCAAAGACATTTTTGCAGATGCTGTGTTGCTCTTCTCTT
Celera SNP ID:            hCV26217025
SNP Position Genomic:     652090
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47476):
AAGCTGTCTGATCACATACCTGGGAACCTGGTTGTTATATCCATGGCTGGGGAGCAGGGTAGCAGGGAGCAAGAACTGTCCAACATAATCTAGTTTACCT
R
TGGACTTTCAAAGGTTTGCAAAGATTTACCTCCTACTAAAATGGCTTGTGAGCATGGAAGGCTTAAACATTAGCAGAGCAGGTAGAAAAATAACGCCTGG
Celera SNP ID:            hCV7624940
SNP Position Genomic:     58448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47477):
CCTTTCATGACTTAAGAAGCAGTGTGCATCGAAATCGCAGACCCTAGATTCCTTTATCAAACTGCCTACAGGAGAGCCTGAGGGACTTGTCTGCAAAGCT
M
TTCTGGAGTCAGATGAAACTGGAATATTTGGTCTTTGGTATTCACCATGCTCCATCACCCCAACTGCAGGAATCATTTGCAGCTCATGGACATTTTGGAT
Celera SNP ID:            hCV29034931
SNP Position Genomic:     819560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47478):
CACAGACAATAGCACCTAGGGCAGGGCCCGGTCACAGTTGTCTCTTCATAACATTCTAAGTCGAGGTATGTTTATTCATTGACCAACTCCCTGGAGTCTT
Y
ATTTCTAGTACAGCTGCTAAATTCAGTCATTCATTAGTCATGTTTTAAGGACAATGGATAGGAGACATTATTTAAAAAGCAATAATACAAAATACCAAGA
Celera SNP ID:            hCV29034932
SNP Position Genomic:     819892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47479):
CTTTCAAGCTGGTAAGACTTCAAAGGTCCTCAGTCTCTCCCTGTCCCAATCCCAGGCTTCCGAAAGAAATGATCTTGCCAGGCTCAGCTTTGGATAGGAC
R
CTCTGGGTCACAAAGGGCAGCCCGGGACTGACATAGTGCTAGGCCCAAGCATGGCGCTTTTGGGGAAAACGGCTGCAAAATAGGATGAGGGGATGTGGAC
Celera SNP ID:            hCV29034933
SNP Position Genomic:     583506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47480):
AAGAATGCAGAAATACGGGGTATAGCTGAGGCCAGGTGCTGTCTGATCATATACCTGGGAAGCTGTTGTTGATCACGTACCTGGGAAGCTGTCTGATCAC
M
TACCTGGGAACCTGGTTGTTATATCCATGGCTGGGGAGCAGGGTAGCAGGGAGCAAGAACTGTCCAACATAATCTAGTTTACCTATGGACTTTCAAAGGT
Celera SNP ID:            hCV7624944
SNP Position Genomic:     58363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47481):
CGGATAGAAACGGTGTCTGGGAAGAGAGAGAGTACCTGGTGGAGCCCTATGAGTAAATGTGATGATGATTCAGCTCTGGACCCTATACTCTACTCCAAAA
R
GAAATGTTTCAGGGCATCAGAGGGCATGAATTCATGAATGTGTATACGAGGCTTTGTTCAGGATATTTTTAAATATAGAAGTTCATTGATACAACATCCC
Celera SNP ID:            hCV29034934
SNP Position Genomic:     823178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47482):
GGCAGCTGAGGCACACTCCTCCCAAGACAGCTATAGAAAGTGCCTCAGAAATGTCTGTCTCTAGGACACGGTTCCCATTATCCATGGGTCAAAGCTTGCC
Y
GAGGAACGCCAGCTCCTTTGCATTCCCAAACTTTGCAAGCATGTGTCATCCTGCAGGTTCTCTTGGGTATTCCATTGTAAGGAGTCTGAGAAGCTCCAAG
Celera SNP ID:            hCV7624945
SNP Position Genomic:     58161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47483):
TGAGGGGATGTGGACAAACTCAGCAAAAGTTGATGCTGAAGACAGAGGCAGGGATATGGCTATAAAGAGCCTTGCTTTCCTGAGGGGACTTGAATTTTTC
Y
TGAAATCAATGGGGTGGGGGGCCCTGGAAAGATTTTAATCAGGGCATGATCCAATTGGAAGAGACAGTAGCGGCTTCACAGAGTGAGAAACCTCAAAGCT
Celera SNP ID:            hCV29034935
SNP Position Genomic:     583692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47484):
CTCATCTCACTATACTAACACAAATGTTTTCAGTTCTACAATCTACATTTCCCCCTCCAATTTTTCTCCTCTTTTTTGACTGCCTTGATGGTTTCAGTGG
S
TCCTGGTTAAGCCTGTCTTTAAGTTTCTAATCAAACTAATCCAAGTGAATTTGGCTTCTGACCTTGCTCTCACATATTTGCCATCTCTAAATGATTGATG
Celera SNP ID:            hCV7624946
SNP Position Genomic:     56872
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,8)      total(G,8|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47485):
AGTGAAGTTTGGCAAGTTAGCAAGAGAGTAAGCATGTATAGTTCAACAGCATCCGAGGGCATGATTAATTTATTGTCCTTTTAGATGGCAGAATGCACAC
R
AAACCCTTCAAATTACACCATTATTATGACAAAGCTCAGGGGGTGTGAGAAGTTAAAGATGTTCCTGCCAAGAGTTTGATGTACAGAGGAAACGGGCAAC
Celera SNP ID:            hCV29034936
SNP Position Genomic:     585195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47486):
TCATCATCACCATCATTTTAAACTGTTGAGCATATTTATGTACCTAAGCATTTCCTATGTCTCAGGTCATTCACTCACCATGAGCCTTTCCATTATTTTC
Y
ATTGTGCAGAAGACAGGAGTGAGGCTCAGAGAGGCCACACAGCTTTCTATAAGTCCACGTTGTCCGTGAGCCCTGAACTGGGATGCAGATGCGTTTTTAT
Celera SNP ID:            hCV29034937
SNP Position Genomic:     585830
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47487):
GAGGAAATCAGAGCTCATTCTAACTTAAGGGTTTAGAAGTATCAGAGGCAGGACTCTGACCCGGGTCTCCAGACTCACAAAACACAATACACTATAAGGT
S
TACAATAGCACTGACAGATATTTTTTAAAGGTTCCTCTCATCTCACTATACTAACACAAATGTTTTCAGTTCTACAATCTACATTTCCCCCTCCAATTTT
Celera SNP ID:            hCV7624948
SNP Position Genomic:     56735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47488):
CCAAGATCAGCATGCCAGCCATTCTCACATGCACCCGACAGTTTTGTCCTTTTAGGAAAATGTCGAGATACATTCATTCACTAGATGACAAATGTTTGAG
K
AATCACTGTGTGCCAGAAACTGGGTTTGGCTCTGTGGGATACCAGCGAATACAATCAGACGTGGCCACTGCTCCTAGGACCACAGAGTCTAATCAGAGAG
Celera SNP ID:            hCV29034938
SNP Position Genomic:     587875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47489):
GATAGAATTCAGAACTTTAGAGATAATCTAACATTCTCAGAGACTAGAATTCTGCAGTGTTCTGGAACAATACCCCAAGGTCAAAAAGCTTTAACTAAAT
R
TTTGTATGATCAATAAATTGGTCTGATTTAAAATTAGCCTATAAAGACATTTTTTAAAAGCAAATGCTTAACTTCAATACTACATGACAAGAGGGTGATA
Celera SNP ID:            hCV8093123
SNP Position Genomic:     371638
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47490):
ATTTATTTATGGGGAATATGTGATTATTGTATTTTCCCTACTGAGATTCAAAGCTATACAAAGGAAAGGACTCTTCTGCCTTTTTTTTTTTTTTTTTTGG
K
TTTTAACTCATTATGAAATCCCCACTGCTGAGCACAATGCTGAACACCTTTGAAGTAATTAATAAATAACGACTAAATTACTGCTGTGTAGATAAGGCAG
Celera SNP ID:            hCV7624949
SNP Position Genomic:     56510
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,14)      total(G,1|T,14) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47491):
TGGGTGAGCTAGAAAATTTCAAAATTATATACTGGAGGAATTTGACTTGGGGGGACCCATTATTTTCTCCAATCAAGAGACCAAGGACACTGACCAGAGT
R
TTTTTCTTTACAGAGCCTCCTAGTGCCTACAATTCACAAAAGGGCCTTGACCTTCTCTGTGCATTCAAACACAGTAGGTTAAACAAACAAACACATTAAG
Celera SNP ID:            hCV29034939
SNP Position Genomic:     588126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47492):
ATATATGATCTTGGTAAATCCTCATGCCAGCCTTTCGTGGGTATTAGATGGCGAGGGGAAAGTCATCAAGCCAGAGACTGACTACTTTGAAAATTGAATA
Y
AAGTCTGTCCAGTGCTACAGCTAACATTCTTTAAGTACTAAAATAAATTGCTTGTAAATAAAGTAAATGAAAAAAGAACACAACTGTGTAAGTCACAAAT
Celera SNP ID:            hCV10076201
SNP Position Genomic:     50172
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47493):
GGCCCTAATATGTAGTAACAGCTGTTTAGTACCTGAGATATAAACAAAACATTTTTCCCATGGCTGTCACTGTTCCTCCTCCTGGAGGTGCAGTATCACC
R
AGGCTTCTCTGTATTTCCTATCATGGGTAATAGTAACAATATCAATAACACAATGATGATTATCATGTATTGTTTAACTATGTGTCATACACTATGTCAA
Celera SNP ID:            hCV10076203
SNP Position Genomic:     49962
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47494):
GACAGGGAAGAAAGGAGGGAGAAAAGATTGATTAAGCCCCCAGTCTGTGCCTGGCAACATTCTAGGTGCTTTGTATCTGAAAATCTATTTTATTTTCACA
R
TGATCTCATCCATGTCCATGGATTCAACTTTATCTACCTGACCACCAATAATTCATATATTTGGTCTTTCGGTTTAGTCATCTTGGTGCTCCAGAGCTGT
Celera SNP ID:            hCV7624950
SNP Position Genomic:     55158
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47495):
AGTAGGTTAAACAAACAAACACATTAAGGGAGGACTGGATAAAATCACCTGTACTCAGACTAAAATACTTCGGAATGTGACAGATCTGGAAAGCAACATA
W
AAGCAAGGACATAGAGGATCTGAATAGTTTAATCAGTTAATACTAGAAAAGATAGATAAATATGGAACTATGTGGCCTACAAAGAGAAAATACTATTTTT
Celera SNP ID:            hCV29034940
SNP Position Genomic:     588299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47496):
TTCATTTTCTTATTTCCAAAATTATACTACCTAATATAGAAGGTGATGATGAATTTTGAGAGATAATGTACCTGAATTTCTTATTGTTCATGGTATATGC
R
GAATAAATTGTGCCTGCTGATTGCTGTAGTGGTATCATCAACTACAACATTGTTCCACAGCTGAGTGGCATCACTGTTTTGTAGTTCCTTAAAAGAGACC
Celera SNP ID:            hCV80100
SNP Position Genomic:     944554
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47497):
ATGCAGTTTTTATTCCTGACCTGCCTCAAGGAGCAGATACGGACTGGAAAGCAGCCCCTGTTGGATAATTGCTGCTTGTCTCAGAGTTTGAGATTCTGCC
K
GGGTTTCTTGAGTCACCGAGCATATGGGGCTTCAGGTTGGACTGCCCACTCCAGTGCCTGAGAATTTACTGGGAAGTTTTAATAAAGTAGAGCAGAAATT
Celera SNP ID:            hCV7624951
SNP Position Genomic:     49127
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47498):
ATACTAGAAAAGATAGATAAATATGGAACTATGTGGCCTACAAAGAGAAAATACTATTTTTTTTAATTGTGGTAAAATGTACATGGCAGTGGCATTAAGT
M
CATCCACATTATTGTGCAACCATCATCCCCATCCATCTCCAGAACGTTTTCATCTTCCTCACCTTAAACTCTATACCCATTAAATGCTAACTCCCCATTC
Celera SNP ID:            hCV29034941
SNP Position Genomic:     588439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47499):
CCCCATTGGCAGAGATGTAGTCTGTTTTCCCAGTACAGAGAATTTCTTGCAGCCTGTACATTTTCCCTTTAAAAGATAAAGAGAAACCATTATGCAGTTT
W
TATTCCTGACCTGCCTCAAGGAGCAGATACGGACTGGAAAGCAGCCCCTGTTGGATAATTGCTGCTTGTCTCAGAGTTTGAGATTCTGCCGGGGTTTCTT
Celera SNP ID:            hCV7624952
SNP Position Genomic:     49036
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,10)      total(A,1|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47500):
AGTTTATGAAGCATTTTATAATCATATAAAAACAGGCAAATAAAGTTGTACTTCTTCACTCAGAGTGTTAATCAAGTGTCTTCTATGTTCCAAGCCCTGG
R
AATGTGAAAGAGAATAAGAAAGCAACAGCCTGAGGGACAGTTACCACCACCCACCAAGAGGCAAGGTGCTCCCCTAGCTTTAACAGACCTTGCAGGCGAG
Celera SNP ID:            hCV29034942
SNP Position Genomic:     590962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47501):
GAGCTGTCTTGGAGCCAAAGTAAGTTCTTCACGGAACTAAATGGAGTTGCTTGTTCAATGAGATTCTAATTTCAGTGAGAGGACTTCTCGGCTACATATG
Y
ATTGCTTTGGGAAGTCCTCCCTTCCGAGGCAAGGGCTTCTCCACACCTAGGATTTGATGTAGAATTACTAGGGCAGTATGTAAGGACAGAGAAAGAACAG
Celera SNP ID:            hCV10075264
SNP Position Genomic:     162720
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47502):
CAAATGGATCTCTATAAGGCAGCTTATGTGCTAAATATTTCTCCTGGCCCCATTGGCAGAGATGTAGTCTGTTTTCCCAGTACAGAGAATTTCTTGCAGC
Y
TGTACATTTTCCCTTTAAAAGATAAAGAGAAACCATTATGCAGTTTTTATTCCTGACCTGCCTCAAGGAGCAGATACGGACTGGAAAGCAGCCCCTGTTG
Celera SNP ID:            hCV7624953
SNP Position Genomic:     48989
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47503):
GCAGCAGAAGGGAAAGTCACCCTGGGATAATTTCTGGGTCTAGAATTCAGCTTTCTGTGCCGAGTGGCAGGCAGAGAAACGGGAGGGTGGTGATGTTTGT
Y
CCAAGAGGCCCATTCCCCCACCCCCTCCTTGTTTCTTCTAGAAGGTCTGGGTGCTGTGTTCCCAACTTTTTCTGAGCAGAGAAGGGTCAAGAAAAGATAA
Celera SNP ID:            hCV29034943
SNP Position Genomic:     594685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47504):
CTTACTCCTTTGAAAAATGTGTGCAGTGATTCTTTTCCTCCCTGAGCTGTCTTGGAGCCAAAGTAAGTTCTTCACGGAACTAAATGGAGTTGCTTGTTCA
R
TGAGATTCTAATTTCAGTGAGAGGACTTCTCGGCTACATATGTATTGCTTTGGGAAGTCCTCCCTTCCGAGGCAAGGGCTTCTCCACACCTAGGATTTGA
Celera SNP ID:            hCV10075265
SNP Position Genomic:     162677
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47505):
CATTCCCCCACCCCCTCCTTGTTTCTTCTAGAAGGTCTGGGTGCTGTGTTCCCAACTTTTTCTGAGCAGAGAAGGGTCAAGAAAAGATAACTAACAGCCC
R
GAAGGCTTTTCCTGGCAGGTCTTCACCAGCGGGGCCTGTGTCTGGCAGATAGATGGGTCAGAGAAGCCCATTCTTGGGAAGCATGATTGCTTCATAGCTC
Celera SNP ID:            hCV29034944
SNP Position Genomic:     594796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47506):
GAGAAGAATGCAGCCTGACAGGAAGGATCTGGGTAGGTGACATGTGGGGAGAGGATTAAAAGAAAGGAGGGCCAGTGGCTCACGCCTGTAATCCCAGCGC
Y
TTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACGAGTCTGGCCAACGTGGTGAAACCTCATCTCTATTAAAAATACAAAAATTAGC
Celera SNP ID:            hCV11672428
SNP Position Genomic:     266610
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47507):
AATGACATAATAGAAGATTAGAGAAATAAAGCCACTTATCCAAGGTCACACAGGGTCCAAACTCAGATTATTGTGAAATGAACTGGCTAGATAGAAGGAT
R
GATGATGGATGGAAGGATGAATGCATAGATGGAGGATGGATGGATGGATGATGGATGGATACATTGATAACTATATGAAGGGGAAGGAATCTGGTGAATT
Celera SNP ID:            hCV7624955
SNP Position Genomic:     28322
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47508):
GTGCTCCATCTTGCCTGTAACCTTAGCGCCTTCCCTGGGATGATGGGAGCTCCATTTGACCTTGGTGATGAACACAGACAGCCCTAGCTGGCGTGAGCAC
Y
GCTGATTGATAAGGTGGGTGTGGAGCTTCTGTCCTTCTCAGTGGATTGCGAGAACTTTGGCTCCATGTTTCTTCACCAGGGTATGGGGACTCTTGGCCAT
Celera SNP ID:            hCV28011692
SNP Position Genomic:     589413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47509):
CAGCGGGGCCTGTGTCTGGCAGATAGATGGGTCAGAGAAGCCCATTCTTGGGAAGCATGATTGCTTCATAGCTCTTGTAGAATTCCCATGTTCGTTGCTC
R
TCAGAATGCATTGTATGTTAATAGAATCTTCAAAAAGGACCTGCTCATCTCAGGTGTGCTTAGGAGAACAAGAGGAAGGAGTTTTAATCCATATTTGGGC
Celera SNP ID:            hCV29034945
SNP Position Genomic:     594923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47510):
GGGAGTATGGAAAAGAAAGAGCCAATTTTAGATGGTTGATCATGAATGAGATGATGGGGAAGAAAGAGAAAAGTGCCAGAAATGATTCCAACATTTTAAA
S
CATTTTGAATGGAAGAAAATAAGCAATGGAACTAATATAAATATAGTTAGAGAGTGAGCGCGCACCGGCTTTCTTTACATTTGTTGCTTGTTTAAACCTA
Celera SNP ID:            hCV7624956
SNP Position Genomic:     28078
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47511):
ACCTGGAGCCAGCGATGAGACGAGGGGTTTTATTGGATGCTTCCATACAGGGGAATCCAGTGGTGGCAGGCTGAACAGGAGAACCACAACCACCTGTAAA
R
GGCATGCAGTTTATATAGCATTTTCAGTTAGCACCCTTTCCCTAACATCCTTCACCTGGCAACTTTCATTCCACCTATGAGTCAGGGCCTGGATCTGCCG
Celera SNP ID:            hCV28011693
SNP Position Genomic:     590469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47512):
GTATGTGTCAACAGGTGCCTGTTCGTTTGTAATTTGGTGACAGCTAGATCTGTATCAGCTTTCTTTTATCTGTGTGTCCTGAATGATTATTGTGTTCATG
R
CCTTTCAATTGTTTTGTTATAATCAAATTAACGTTTGAAGGTTCTGATGATAAAGTGACATAAATATAGATGAATACTTGAGGGTAAACTCTAGATTCCA
Celera SNP ID:            hCV29034946
SNP Position Genomic:     597135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47513):
ACCCAAGGTGAGAAGTCCAGCTTGAAAGCTTGTATGAGTTACTGGGAGTATGGAAAAGAAAGAGCCAATTTTAGATGGTTGATCATGAATGAGATGATGG
R
GAAGAAAGAGAAAAGTGCCAGAAATGATTCCAACATTTTAAAGCATTTTGAATGGAAGAAAATAAGCAATGGAACTAATATAAATATAGTTAGAGAGTGA
Celera SNP ID:            hCV7624957
SNP Position Genomic:     28035
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47514):
TTGCAAGGCAGTTTTCTCTAGCCATTTAAAATGCTTCTGAAGAAGTTGTGTTATATGGGAGAGATTCAAGATATTGAATGAAAACAACATACAGACACAT
R
TGGTATCCTCATTACCAATGGAGTATTTGCACATATCATGAGGTGTATATGTTTAACAAAAATGATAAAGAAAAATCAGTGGGTTAATGGTTGTATTTGG
Celera SNP ID:            hCV29034947
SNP Position Genomic:     599356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47515):
GTTTTCTTCCCACTGAGCTCATTATTTCTGTGCCTCATCAAACCCGGGACTACATGGCTTTAGGGTGTTTCTGTGGGAGCTGAAGTGGATGGAATTGAAC
M
CTGACAGGGCAACAGTGGGGGGTCTTTATCTCATCAGTAGAGCCCTCCAGGCCTGCATCAGACTTTGGGTACCAGAGACCAAGAAGGGAGACCCTGGGGG
Celera SNP ID:            hCV28011694
SNP Position Genomic:     598975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47516):
AGGGCGTTGGAGGCATAAAGTGCTGGACAGACATAGAGCAGTAGCATGATGGTAGGTAGTAAAGTCCCCACCCTCCAGCAGAACCCTTACTGGGCAATGC
R
CTCAAGGGTCTCAGGCCCTGGGAGGATGCGGGTGCTTTCCAGATGTCCATCTCGGAAGCCTTGCCAAAGCCTTTTCTGAGCATTTGCTGGGGGAGTCACC
Celera SNP ID:            hCV29034948
SNP Position Genomic:     599638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47517):
TTTTGTTGTCTGTGCTTTTTGTGTCATATATAAGAAATCATTGTAAAATCCAATGTCCTGAAGCTTTCCCATTATGTTTTCCACTAGCAGTTGTATAGTT
K
TAGGTCTCACATTTAGGTCTTTAATCCATTTTGAGCTGATTTTTGTATATGGCATGAGGTAAGGGTCTAACTTCAGTTTTGCTTGTGGATATTCAGTTTT
Celera SNP ID:            hCV28011695
SNP Position Genomic:     623308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47518):
GTCTCCAAGAAAGTTCTGGCACAAAAAACTAAGGAAAGATACAATAAATTTCATAATTTCTTAACAGAGTGATCAAGAGCTGTGGGATCTGATATGGTTT
R
GCTGTCTCCCCAATCTCATCTTGAATTGTAGCTCTGAGAATTCACACGTGTCATGGGAGGGACCCAGTGGGAGGTAATTGAGTCATGGGGGTGAGTCTTT
Celera SNP ID:            hCV29034949
SNP Position Genomic:     600064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47519):
ATGTCTTTCCCTCCCTCCTCCACACTTAACAGGGACAGTGAATGGAAGCCAGTGTTAAATTTGCACGATGTGCAGTGGTCTAAACTTTCACTGAATCCTA
R
TCAACTTAATATCCTGTTGCCTTTTTGAAATCCAGTGATGAAATGTAACCCTGAGACAGCTTAAACAGAACTCAAGCCTGGATGCTCTCTGCAAAATGGT
Celera SNP ID:            hCV29090839
SNP Position Genomic:     294086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47520):
GGGCCTCCTGGAATGCTCTAAGTTGTGTCACAGCCCAGCTGAGTACCTGGGACAGAACAGGGAAAAGCAAGGAGTGACGATGTCAGAGAGGGGCTGTGAG
M
CCCTGGCTTTGGAGCCAGACCTGTACCTTCCTGGACTTCAGCAAGTTCCAGAATTTCTGTGCATGTGAGTTTACCCCTGTGTAAAGTGAAGATGACAACA
Celera SNP ID:            hCV10076210
SNP Position Genomic:     47880
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47521):
ACGTGAGTGAGGAAGGCGAAGCAGTGCACCCATGATGTTTGGTGCAGTCTTGAAAGCGCAGTCACTATGGAGCCGCCCCCCGCCTCTCCCCTTCTGAGCC
S
CCACAGCTCACGCTTGCTTTCTATGTCCTGAGCTTTTCTGTACCTCTGTCTTGCTATGTCAGGCATTCATGGCTGTGCTGTTAGGGAGCCTTTTCAATCT
Celera SNP ID:            hCV10076212
SNP Position Genomic:     46801
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47522):
AAGTTGGACAGAGCCCAGGCAGAGCTGAGATGTGACGTGAGTGAGGAAGGCGAAGCAGTGCACCCATGATGTTTGGTGCAGTCTTGAAAGCGCAGTCACT
R
TGGAGCCGCCCCCCGCCTCTCCCCTTCTGAGCCGCCACAGCTCACGCTTGCTTTCTATGTCCTGAGCTTTTCTGTACCTCTGTCTTGCTATGTCAGGCAT
Celera SNP ID:            hCV10076213
SNP Position Genomic:     46767
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47523):
TTGGCAAGGGCGGAGAGGCTCTCAGTTCAGAGAGGAGTTGTCTGATGTCACGTTGCCCCTATCTGAAGTTGGACAGAGCCCAGGCAGAGCTGAGATGTGA
Y
GTGAGTGAGGAAGGCGAAGCAGTGCACCCATGATGTTTGGTGCAGTCTTGAAAGCGCAGTCACTATGGAGCCGCCCCCCGCCTCTCCCCTTCTGAGCCGC
Celera SNP ID:            hCV10076214
SNP Position Genomic:     46702
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47524):
TCTAGAGGGGGAATACTTTGACTTGGGTCTTTAGAAGTTATCTGATGCCAGCTTATTCACATCGCCTCACCTCCTAGCAGCTGGAGCAGGAATGCAGCAG
Y
AGGGTATTGAAATTTAAGAGGTTGGCCTTGAGTCACTGACTTAGCTGGGTATCCCATAAAGCAGAGAGCTTATACATTTCTATCGTATTAGGGAGACAAT
Celera SNP ID:            hCV10076215
SNP Position Genomic:     46212
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47525):
ATCCCTCTCTGCCTATAACGATCTCACGTCTGTTTTTTTGCCAAAAAATATAGCTGCTGGGGAACCTGTTCAGGGAAGTTGGGATGTGTTTATCCTTAGG
Y
GTTTATTCATCTTTCCAAGCTCCTGCAATCAACCAGAAACACAGGGGAATGGAAGGCTTAGTGTTTGTTGTACCAATTATGCCACAGGCAGTATCTTGTG
Celera SNP ID:            hCV10076216
SNP Position Genomic:     45245
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47526):
TCAGGGAATATCTGTGTATAAATCGTGTAAAATCCTCCCAGAACCTTTATGAGAGGGTGTGGACTGTGATTCTTAAGTTAATGGCATCCCTCTCTGCCTA
Y
AACGATCTCACGTCTGTTTTTTTGCCAAAAAATATAGCTGCTGGGGAACCTGTTCAGGGAAGTTGGGATGTGTTTATCCTTAGGTGTTTATTCATCTTTC
Celera SNP ID:            hCV10076217
SNP Position Genomic:     45160
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47527):
CTCATATAAGAGTATTGTACCACATATTTCTGGACCAGGAAAAGATCAAAATTCAAAATCTGAAAAATGGTTTCAATGGAGTAAGTATTTCTTTTGTACC
M
TTGTAAAGTTGAAAAACTGTTGTCTAGTCATTCTAAGTCAGGGAATATCTGTGTATAAATCGTGTAAAATCCTCCCAGAACCTTTATGAGAGGGTGTGGA
Celera SNP ID:            hCV10076218
SNP Position Genomic:     45022
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,7)      total(A,7|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47528):
CCAGACAGGGACAATGTGACAGTAGCCAGCTCCTCTCTGAACTGACACCCTGTAAATTGGACCTACTGAACAGCAATAGTTTAGCCTAACCTACTTTATA
Y
GTGCTTAGAGCACTTGCGTTAGCCTACAGGAGGGCAAAATCATTGAATACAAAGCCCATTTTATAATGAAGTGTTGACTGTCTCATATAAGAGTATTGTA
Celera SNP ID:            hCV10076219
SNP Position Genomic:     44840
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47529):
TTGCTAACTAGTAATTGCTAAACAGCTAATAAAACAGAGCTTCGGTTGCAGCTTGGAGCTTCCCATACTTTTAAAAACTGAGGCCATATAATATTACGGT
M
GTTAAAAGCATGGATTCTGCACACAGCCAGATTGGCTGCATTCAAATCATGGCTATCATGTACTAGGTGTGGAAACTTGACAAATTGTCTGCCTCAACTT
Celera SNP ID:            hCV29034950
SNP Position Genomic:     600666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47530):
AGGGTAAGGGACACGCTTCAAGGTGTTCGGAGGATACAGTAGCAACAAGACACACTGGGTTCCTTGCTTTCATGTATCTTTTATTCTAGTTCTTTGTTTC
R
GAATAAACTGGCTTGAATTCCTCTCTTCTGTGTGTAGGTGACATGGCAGGAAGTTGTGCCTGGTTTGTAACATGGCTTGTTGATAACACCAGCACAGGGT
Celera SNP ID:            hCV29034951
SNP Position Genomic:     601198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47531):
GTGTGTAGGTGACATGGCAGGAAGTTGTGCCTGGTTTGTAACATGGCTTGTTGATAACACCAGCACAGGGTCATATACCCTCATTGGAAAGGGTACTGGT
R
TTTAGTGGGAATGCAGTTTCTTACACAAGTACTTGGGTTACTTACGACTGGCAGACTGGGGCCCAGCCCTTGGCAGCGCACTCTTCAATGGGCTCATGAG
Celera SNP ID:            hCV29034952
SNP Position Genomic:     601328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47532):
GCTGGTAAGCTTCCTCAGCTGCCAGCTGCAAAGACGTGGATATTAGGATGAAAGGCGTTAGGCAGTGATGCTATTTCTGGTGCTGTTACTTTAGTCAAAT
M
TGTGTTCACCAGGTACCCATGTGCTGGCACCTGTGATTAGTGAATTGCTCATGGGAGTATGTTTGCAATGTGCTTTCTCTGTGTTTTCCAGGCAGTTTTA
Celera SNP ID:            hCV25472913
SNP Position Genomic:     598540
SNP Source:               Applera
Population(Allele,Count): african american(A,11|C,27)   caucasian(A,9|C,31)   total(A,20|C,58)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47533):
GCCCTTGGCAGCGCACTCTTCAATGGGCTCATGAGGGCCTACTTTCTGATGCCGTTTCCCTCCGTGCTTCATGCACTTCAGTTCGGTCATTGTCCTGTTT
W
CATCATACCCGCACTGAAGCTTCTTACAGTTGCTGAAGCTTCTTCCTTGAAGAAGCAAGTTTGAGGAAGAGCCCCGATCATTCTGCGGTTCTTTATTTTT
Celera SNP ID:            hCV29034953
SNP Position Genomic:     601494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47534):
AGAGAAAAACTTCTTACTCCTTTGAAAAATGTGTGCAGTGATTCTTTTCCTCCCTGAGCTGTCTTGGAGCCAAAGTAAGTTCTTCACGGAACTAAATGGA
R
TTGCTTGTTCAATGAGATTCTAATTTCAGTGAGAGGACTTCTCGGCTACATATGTATTGCTTTGGGAAGTCCTCCCTTCCGAGGCAAGGGCTTCTCCACA
Celera SNP ID:            hCV10075275
SNP Position Genomic:     162665
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47535):
TGAATTTGTGGTCAAGAATGTTGTCATAAAATTGAAATACAACTGGCATTCAGAGGTATCCTTGCTCATATATTTTCTTTTGTTAATGTGGCTCTACCCC
W
ATTCTAACCCATCTGTAGCTCCATGACAATTTGGCAGAATACACATTAAAGTGAAAGCTGCTGCCGTCATGCGGAAATAGGTGTATCATAATGTCAGTGC
Celera SNP ID:            hCV29034954
SNP Position Genomic:     603674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47536):
AGGGGAGGGGTCCCTGGCCACAAAGCTCCAACCAGCCAACTGATCAGGCTTTCTGCGATGATGGAAGTGGCTGCATCATCATTAACTCAGCTAGATTAAC
Y
TGTTCAGCAGAAGCTTGCAGAGCTGCGTGAGCCTGCCTTCCACTCAGCTTGAATTAAAGAGATTGGGCTGCAAGGACACAGAGAGGTGAGCCCCAGGAGG
Celera SNP ID:            hCV10075276
SNP Position Genomic:     162420
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47537):
GAAGATGGATTGAATCAGGAAACACCCAAGGTGAGAAGTCCAGCTTGAAAGCTTGTATGAGTTACTGGGAGTATGGAAAAGAAAGAGCCAATTTTAGATG
S
TTGATCATGAATGAGATGATGGGGAAGAAAGAGAAAAGTGCCAGAAATGATTCCAACATTTTAAAGCATTTTGAATGGAAGAAAATAAGCAATGGAACTA
Celera SNP ID:            hCV7624965
SNP Position Genomic:     28012
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47538):
AGATGTAAATTGTTAGGTGCTTTCCCAGGCCTGCTGGATCAGAAACTCTCGGGGTGGGTCTCTCCATCTGGGTTTTAGCCAGCCCACCAGGTCATCCTGA
S
GCTCACTGTAGTTGGAGGAACACAGGTCTAAATAATCACACTCTTGGGTATTAACATCATGGCAGCTGACCTGATCACTAATTGGCCTTGATGAAGATGA
Celera SNP ID:            hCV29034955
SNP Position Genomic:     606485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47539):
TACTCCCGCTGCTGGTGAAGCTGCAGGAATCCTGACAGGAGCAGGCTGCCTTTCAGCTCCAAGTTCCTGGCACTAAGTTCTGCGCAGGGGCCTGGGCGAG
K
TCTTTATGACTTTCCAGAGGCTTCCAGGTCTCTATTGAAATGCAACAGCTGTTACTAGGGGCAACTCTACTTCCCAAACAAGAACATAGACTTTGTGGAG
Celera SNP ID:            hCV10075277
SNP Position Genomic:     161889
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47540):
AAAATAGGTGGTAAGACCCAGTGAAAGTTTTAAAGAAGGGAATAACATAATGGAAAATGTATTTCAGAAAAATTAATCTGGGGGCAGTGTGGAAGATGGA
Y
TGAATCAGGAAACACCCAAGGTGAGAAGTCCAGCTTGAAAGCTTGTATGAGTTACTGGGAGTATGGAAAAGAAAGAGCCAATTTTAGATGGTTGATCATG
Celera SNP ID:            hCV7624966
SNP Position Genomic:     27921
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47541):
GCTATCAGCATAAAGATATTTATTTTTATTTGGTAAAAATGAGAAGGGAGAGGAAGAAGAAGTGCATTAGTGGTGTGGACTGGAAGACAGAGGAGCGAAA
S
AGGGGATACGGACAGGTTGTCCTCCTACGCTGGGACCCTGAAGTGTGTTGAAGACCCTTGGGTTCGAGAACAGAAAATGATTGAAGTCATGTTTTACGAA
Celera SNP ID:            hCV29034956
SNP Position Genomic:     608337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47542):
TACAAGAAACTTGAAAAAGTACAAGAAGAAAAAACCTTCTAAAAAATAGGTGGTAAGACCCAGTGAAAGTTTTAAAGAAGGGAATAACATAATGGAAAAT
R
TATTTCAGAAAAATTAATCTGGGGGCAGTGTGGAAGATGGATTGAATCAGGAAACACCCAAGGTGAGAAGTCCAGCTTGAAAGCTTGTATGAGTTACTGG
Celera SNP ID:            hCV7624967
SNP Position Genomic:     27879
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47543):
GGTTTGGATAGTCAAGAAGTCTGTCTTCATCTCTGGGGCACCAGAGATGAAGGAAGGGACACTATCACTGTTCTTGTAAAGTCCACACGCTAGCTGGGGC
R
ATGATTTGCAACAATCGACTATATTATCTTGTGAGGAGGGTCATGTTACAGGTTCAGCCTTCGGAAGGACATGAGGTCAAAGCAAATTCTCAAGAATGAG
Celera SNP ID:            hCV29034957
SNP Position Genomic:     609824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47544):
GGGCAATGATTTGCAACAATCGACTATATTATCTTGTGAGGAGGGTCATGTTACAGGTTCAGCCTTCGGAAGGACATGAGGTCAAAGCAAATTCTCAAGA
R
TGAGGAATGACAGGAGACAGAGACGCGGACGGGGCAGGAAGGGTTTTGTGAGAACAGCTGATGGAAGAAAGCATTTAATGGCACCTCCAGCGGAGTGCGT
Celera SNP ID:            hCV29034958
SNP Position Genomic:     609920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47545):
TGAAATAGAAATTAATTCAAAAATGCATTCATTTATTGAGGCCCCACTACCAGGCACTGGGGAAAAGAGATCAAAGAGAAAACTTTGCTTTCCCTGGAGC
K
CTGCCTTCAAGTTTCCCTCTACACATAGCAAACCAGAAAACCTTTATTTTTTAATTCACAAGTAGAGGGTTGGGGAGCATTTTATGCACTGACTCGTTCT
Celera SNP ID:            hCV29034959
SNP Position Genomic:     610657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47546):
AATTTTAAGTAAGGCATCTTTAAACCGAGGCGCACGTAAAACAAGGTTATATATTGACTAGTTGACTGAACTGTGACCAGAGGCTCACAGGAACCTAACC
S
TGCATTTCTACTAGGAGCAATGGTTCAATATATGTTAAGTATTCATGGTGACTTCATAGAACATAAGTACCATAAATAAGAGAATCAATTGTATGCAGAC
Celera SNP ID:            hCV10076220
SNP Position Genomic:     44493
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47547):
TGGCCCCAAGTGGACTGCAGAGTGCTCTCTAGTGTCTCTAAGTGCAAGAAGGCTGTGATGTGTCTGACTGAGAAAATGCATGTGTTAGATAAGCTTTGTT
Y
CAGCATGAGTTACAGTGCTGCTGGCTGTGATAAATTTTAAGTAAGGCATCTTTAAACCGAGGCGCACGTAAAACAAGGTTATATATTGACTAGTTGACTG
Celera SNP ID:            hCV10076221
SNP Position Genomic:     44360
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47548):
AATTTGCCTACTCAGTAAAATGTATCTGTAGCTCCCAAATCAGTGGTCATGGTAGTGTTGTGGTCACTTGCAGACATATACAGAGCTGTGACAAATTTGA
R
TCATATGATGTATATGCTTCCAGGTGCATTCAAACTAGGTGAGACTGCCTTCTTGTTTTAGCTTTCATACTACAAACAAATATCCTTTTCATGAACCATT
Celera SNP ID:            hCV10076222
SNP Position Genomic:     44104
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47549):
CATGGCTGTGTCTCTCCTCCTCAGATGGATGGAGTAGGAGGGTTGTTGGAAGACAAAAGCATCCTGCTTCACTCTTGTCTCTCCAGGCTCCTGACAGTGA
Y
TTGCACTAGCTGATTAGTAAATTCATGGCAGTGCCTGGTGCCTGAGAGAGCGAGGGTTGGGTGCAGCTTGGCTACAGCTCTGAACACAGCAGTGGGGGCT
Celera SNP ID:            hCV10076223
SNP Position Genomic:     43382
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47550):
CGGAAATATTACTTACTCGTCCCTACCTCATAGGGTGGTTTTTCGAAGTCAGTGAGACAAGGACAGTGAAGGGTTGAGGCAGTGCTCAGCACATAGTAAG
Y
GCTAAATAAATGTTAGCTTTTGTTGAAATTAATCTTACTTTTCACTAAATTGTGCTGCAAAGCAACGTGCCATTGCCTGTTCTTCACATGGCTGTGTCTC
Celera SNP ID:            hCV10076224
SNP Position Genomic:     43195
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47551):
AGGTGTGAGCCATGTGGGCTCTCAGGACTCTTCTGGCTCCACTTCTGCCTTTGTAGCTGTGGACCACGAGGCAGTGACTTTGAAATTCAGTCTTATTCTG
Y
GGAAATATTACTTACTCGTCCCTACCTCATAGGGTGGTTTTTCGAAGTCAGTGAGACAAGGACAGTGAAGGGTTGAGGCAGTGCTCAGCACATAGTAAGC
Celera SNP ID:            hCV10076225
SNP Position Genomic:     43095
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47552):
GAGATAGTCTGAGTCTTCTGAGAACTAGGATTAGGATTTTTTTTTTTTTTTTTTGAAACAAGGTCTTCCTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCT
R
TCACAGCTTATTGCAGTCTTGGCCTCCTGGACTCAAGTAATCCTCCCACCTCTCATCCTCCTGAGAAGCTGGGACTACAGGGGTTCCCCACTATGCCTGG
Celera SNP ID:            hCV11672440
SNP Position Genomic:     275373
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47553):
TTTTCCTGTTGATCTGGTTGTCTGATTCGTGTCCATTTGGTTTCTAGGTCCAGCCAAAGAGCCCACATAAGAACCAAGGTGGGGTTGGGGGTGATCTCTG
R
TCCCCTTTGTGATCCTCTTCTAGGAGATTTACCTCTCTGCTAGCTTACATACTATGTGAATATAGCGTGGGCTTTCTTCTTGCTCTTCAGAAAGTCTTCT
Celera SNP ID:            hCV10076226
SNP Position Genomic:     42837
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47554):
CTAAAAAGTTCAAAAGCATCTTGCTTTGGCCGCTTCTTCAGACATCACTCTCTTGTGAAGATCCCTTGTACCTGGAAAACTATTAAGATCCGTATGCTTT
Y
TTCCTGTTGATCTGGTTGTCTGATTCGTGTCCATTTGGTTTCTAGGTCCAGCCAAAGAGCCCACATAAGAACCAAGGTGGGGTTGGGGGTGATCTCTGGT
Celera SNP ID:            hCV10076227
SNP Position Genomic:     42738
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47555):
CTAGCCAGATCCCATTTGTCCTGTCTTTGTCAGATTTATCATTCTTTGTCTAAAAAGTTCAAAAGCATCTTGCTTTGGCCGCTTCTTCAGACATCACTCT
Y
TTGTGAAGATCCCTTGTACCTGGAAAACTATTAAGATCCGTATGCTTTTTTCCTGTTGATCTGGTTGTCTGATTCGTGTCCATTTGGTTTCTAGGTCCAG
Celera SNP ID:            hCV10076228
SNP Position Genomic:     42689
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47556):
ACGCCTCGGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCACCATGCCCAGCCACCGCCACTCATTTTACACAGTCCCCTGTATGTCTCCTAGTGACT
S
CCCTAGAAATTCACTGACCCTAGCCAGATCCCATTTGTCCTGTCTTTGTCAGATTTATCATTCTTTGTCTAAAAAGTTCAAAAGCATCTTGCTTTGGCCG
Celera SNP ID:            hCV10076229
SNP Position Genomic:     42569
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47557):
ATTTTTTAATTCACAAGTAGAGGGTTGGGGAGCATTTTATGCACTGACTCGTTCTCCCCATTTAGTCTGGCATAATTTCCATGCCAAGTAAATATTCTCT
Y
TTAAAATTTTAAATTTTGAGGGTTTTTTTTTTCTTCTACGGGGGTTTATCAGTGGGCTCTCTCAAAATTTATTAAACACAGTTGGCCAGAGCTGTTAGCT
Celera SNP ID:            hCV29034960
SNP Position Genomic:     610803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47558):
AGGACCATTTCACAGGCCTGAGCTACCCTAGGAGTCTGTTTTGCCCACAGGCTATGCGTGAAGCCGACCCTTACCCTCTCACCCAGTGACGACCACGACA
M
TGTTGATGATCATAAGCAGTGCTTGCAGGCTTGGCTAGTCCTTCACAGATGCTACGTCACCAGTCCTTGTGCTGACTCAACGAGTAGGTGGCTGTATTAG
Celera SNP ID:            hCV29034961
SNP Position Genomic:     614648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47559):
GTCAGAAGTCCGACATGGTTCTCACTGGGCTAAAACCAAGCTGTGGGCAGAGCTGGCTTCTTCTGGAAGGGAGCATCATTCTCCGACCTTTTCCAACTTT
Y
GGGGGCCACCTGCATTCTTCAGCTCATGACTGCTTCCTCCATCCTCAAAGCCAGCAATGGAAGCAGCTCCTTTCACACTGACATCTTTCCTATTCTCCCA
Celera SNP ID:            hCV29034962
SNP Position Genomic:     614927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47560):
TAAATGTCATATGTGGTAAAAGAGGAAGTAACCAGCCAGGGGTGAGGAACACAACAGCAGGAAATTAAGTAGCTGATGAATATTCAGACTTGAAGTTCCT
S
CTAAAGTGCCCATTTGTTGTTTGGTAGAAATATGGATATGTAGGAGGGGGCCTCTACCAGGGTGCAGAACATATGGTGGTATTATTAGGGCACCAGGCAG
Celera SNP ID:            hCV10075284
SNP Position Genomic:     161100
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47561):
CTGTTTTGAGCTGAGGGCACCTGCTCCTACTGGCTTCCTGGAGCCTTAGACGCACCCAGTGCTCTGGACCTCCCACACCTTGTTGAACCACCCGGCACTT
S
CTGACTCCTCTCCTGAACCTCATGTGCTTGTGACCCACGATTCAGCCACTGTCTAACCAGCTCTTCCGTGTGCAGCCCTCAGAGCCCCAGCTCCCACGGC
Celera SNP ID:            hCV11672446
SNP Position Genomic:     290965
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47562):
CTCAAAAAAGTACATACACACATATATAAACAAACACTTAGGTTTGCAGGGAAGCACCCTCCAATGCACAGGTCAGCCCCTGCCCCAGAGAATGACGCAG
S
TCCGAGTGCCAATAGTGTCACTGCGGAGAAGCCCCGGTGTAAAATGAAAATAATAAAATCCACCATAGAGCGTTGCTATGAGTTTTGAAAGCCCTATCAT
Celera SNP ID:            hCV29034963
SNP Position Genomic:     616636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47563):
TCAAAGAAGGAGGCACACATGTGAACCTAAATGTCATATGTGGTAAAAGAGGAAGTAACCAGCCAGGGGTGAGGAACACAACAGCAGGAAATTAAGTAGC
Y
GATGAATATTCAGACTTGAAGTTCCTCCTAAAGTGCCCATTTGTTGTTTGGTAGAAATATGGATATGTAGGAGGGGGCCTCTACCAGGGTGCAGAACATA
Celera SNP ID:            hCV10075285
SNP Position Genomic:     161073
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47564):
GTGACCCACGATTCAGCCACTGTCTAACCAGCTCTTCCGTGTGCAGCCCTCAGAGCCCCAGCTCCCACGGCTCTAATTCCACGGCCGCCCCTGCCGTCTC
Y
TCAGCCATCCCATCCCGCCATCACCATGGAAACCTGTGGGAACAGCAGCTTTTCCTCATCCTCTTCTCCCCTTAATCTCCAGCCCACTCCTCCTCCCTCT
Celera SNP ID:            hCV11672447
SNP Position Genomic:     291095
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47565):
AGCTCCGAGTGCCAATAGTGTCACTGCGGAGAAGCCCCGGTGTAAAATGAAAATAATAAAATCCACCATAGAGCGTTGCTATGAGTTTTGAAAGCCCTAT
Y
ATGTGAGCCTTCATCTAACCGAATCATGTTTTCACTGACTGGATTTTCAGCTGGAATCGTGGCATGTCAGGGCTCTGCCTAGCCGGGCCCCACTCCTACC
Celera SNP ID:            hCV29034964
SNP Position Genomic:     616734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47566):
GTAGGATTCCTACAAAGCAAAACAAGCCTCTAAATAAAGAAAAAGAAGGGTGGAATCTGAAAGGAATTTATCAAAATCCTAACTGCAATTTTGTTCATGC
R
TTGGGATTCAGAGTTGTTTTTTCCCCTCTGGTTTACAAGTCTCCATTGATACACTTGCGTTACATCTATAATGAAAAATACAAGAAACTTGAAAAAGTAC
Celera SNP ID:            hCV7624975
SNP Position Genomic:     27700
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47567):
CAAGTTAGATGAGTGGCAGGGGTGGGAAGGAGGGCCTACTTATAGGTCTGGGTTTCCCTTTGAAGTCATGGAAATGTTTTGGAACTAGACAGAGGTGGTG
K
TTCTACAACATCATGAGTACACTAAACATGACTTTAAAAATGTTTCATATGTGAGTTTCACCTCATTTTAAAAATCACAGTGCACAAAAAGAGGTAAGGG
Celera SNP ID:            hCV29034965
SNP Position Genomic:     618237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47568):
TTGTATATGTTTTATGCATTGTATGTGAAATAGTAATAATAGCCAACGCTTAGGAAGTAGTTGCCACATGCCTGACTCTCCTAAATGCTCTGCAAATAGG
Y
TAGATTTCCAGCAAATGAAAACAGGTTAGGCAGCTCAATAGAATATTACATAACCATTAAAGAGGATGGTTATAAAGATGATGATAATGGCATGGAAAAA
Celera SNP ID:            hCV7624976
SNP Position Genomic:     27454
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47569):
TGTTACTGGCATCTCAGTTACATTCTCCATGGGCGCTTAAGAAGCTAACACTCACTGTTGGTCAGGGGACTGATGCTCTACTTCCTACTCTAAATATAGC
S
CCTGTCTTGTCACACTTGCTGTTTAACAGCCTTACCATGCCATTCTTGAGAGAAATAAAGTGAGGTTTCATTAATGTGAGAGATCAATAGTAGTTCAGTT
Celera SNP ID:            hCV29034966
SNP Position Genomic:     620458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47570):
CAAAATACATTATATTAAATGATATATGAATATTGTATATGTTTTATGCATTGTATGTGAAATAGTAATAATAGCCAACGCTTAGGAAGTAGTTGCCACA
Y
GCCTGACTCTCCTAAATGCTCTGCAAATAGGTTAGATTTCCAGCAAATGAAAACAGGTTAGGCAGCTCAATAGAATATTACATAACCATTAAAGAGGATG
Celera SNP ID:            hCV7624977
SNP Position Genomic:     27422
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47571):
CAGTGAAAGTGAAATTTTACTGGAATGGGCAACCTATTGAACACACACTTTATCCAGATGGCTTAGATTTGGATCTTTTAAAAGAGTAACATCACCATTT
K
AAGTGTTTTCTTCTTCATTAACTATGAAGCCCTTTCCCATATGGGTTTATCAGCATTGTAGGAAGGGCTTTCATGGAACCATATAAATTCATCTCTCTAG
Celera SNP ID:            hCV29034967
SNP Position Genomic:     625258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47572):
TAGGAAGGGCTTTCATGGAACCATATAAATTCATCTCTCTAGAAACGAAGAATTCTAACGTCCATCCTCACTTCTGCCACCAAAATTAGAAACATACATA
K
GTGTCGAGCTTTCTGCTTGGTGAAGGTGCAGTGACCCCTCTTTTTTTCAGCATCCATTTATTTCTGCTTGCTGAGCTTTCTGTCTGCATTTTCATCTACA
Celera SNP ID:            hCV29034968
SNP Position Genomic:     625417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47573):
GGAAATTTTATGCAAAAACTTGAACAAGACATAGTATTTTTCTGTTAGCAAATTATAATTTTCCCCCTGATTCAGGGGGGGTCTGTGATTGTTTTCTTCC
Y
TGGCTGCTCCTTCCATTTGCATTTGCAAAGATCACATTCCTAATCTTTACCTCATCAGAAGCCTCATTTTGATTTTCTGCTTTGCTGACTTCTGTACTCC
Celera SNP ID:            hCV29034969
SNP Position Genomic:     627700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47574):
CCTTTTCTTTCCCAGATCTAGGTCTGATACCTGCCCCTCCTCCTTACCCTGGACTGTAATTAAAGGGAATATGTGGAAATCCAGGCCACAACTATTTTAC
Y
TTCTGTGAATAAGGCCATCAAGTTGATGGCTTGTTACTGTGGGTCGATGGGTCAAACATGAGGCAATTTGGGGAAACAGCCTAAGGTGGCTATACCACAG
Celera SNP ID:            hCV29090850
SNP Position Genomic:     292543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47575):
AGGTCTGAAGTGAGAGAGGGAAACGTTCGATGCTGCGTTGTTCTGGGAGATGTGAGCCGCCGGCTCATTCAGAATGTGCAGGGATGTCCATTCCCACAGG
R
GCATGTGTCGTTCAGCCAGGTGCATGTTTTACCTTGATCTACTGTGCTTGGAGCCTTTTCTTTCCCAGATCTAGGTCTGATACCTGCCCCTCCTCCTTAC
Celera SNP ID:            hCV29090852
SNP Position Genomic:     292389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47576):
TCAGTAGAAATGGAACTCAGATTTTAAAATGGACTTTAAAATGGTCTAAAAAGTGTTTCTAGGTACAAAATGAATTGGAGTTTACCTATTTTTTCCAAAG
S
GCAGGTAGCAGGTCTGAAGTGAGAGAGGGAAACGTTCGATGCTGCGTTGTTCTGGGAGATGTGAGCCGCCGGCTCATTCAGAATGTGCAGGGATGTCCAT
Celera SNP ID:            hCV29090856
SNP Position Genomic:     292279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47577):
TAAATTTTTTTCTTAAAAAACTCAGTAGAAATGGAACTCAGATTTTAAAATGGACTTTAAAATGGTCTAAAAAGTGTTTCTAGGTACAAAATGAATTGGA
S
TTTACCTATTTTTTCCAAAGGGCAGGTAGCAGGTCTGAAGTGAGAGAGGGAAACGTTCGATGCTGCGTTGTTCTGGGAGATGTGAGCCGCCGGCTCATTC
Celera SNP ID:            hCV29090857
SNP Position Genomic:     292258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47578):
GCCTCCTAGGTTCAAGCGATTCTCTTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGCATGCAGCACCACGCCCGGCTAATTTTGTATTTTTAGTATAG
W
TGGGTTTCTCCATGTTGTTCAGGCTGGTCTTGAACTCCCGACCTCAGATAATCCACACGCCTCGGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCAC
Celera SNP ID:            hCV10076231
SNP Position Genomic:     42412
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47579):
TTGAGTCGATAACAGCTTCTGCTATAGAAGGGGGCAGATCACTGGGCTTAAATGTCAAATAGCGCCTGAGAGGCTTAAACAACCACCAGTATGTGTCCCT
Y
TGGGAGGGCTTCTCTGCCATTTAGAAGATCAATGAGAAGATGTCCTCCAGGCCAGTGTGAGGTGGTAGAGGTGTGTGCTTGCGTGGGCATGCCTGTGTGT
Celera SNP ID:            hCV10076232
SNP Position Genomic:     41828
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47580):
TATCAGGTCTTGCCCAGGCATACCCTGCTTTTCCTGAATGTCCTGAATGTTGTTGTAGGACAACAAATGCACTTTATAATTATTCATAGGACCTCTCACT
R
CTAATCTTTGAGTCGATAACAGCTTCTGCTATAGAAGGGGGCAGATCACTGGGCTTAAATGTCAAATAGCGCCTGAGAGGCTTAAACAACCACCAGTATG
Celera SNP ID:            hCV10076233
SNP Position Genomic:     41720
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47581):
TCTCTTTGCCTCTTTAGAGACTGGTTAATGGTGCTACCTGAGTGAGATTGACCAGATGGCTTGTTGGGAGAAGAAGGGAGCTGGTTTGGAGTAAATCCAT
S
CCCACCACTATCAGGTCTTGCCCAGGCATACCCTGCTTTTCCTGAATGTCCTGAATGTTGTTGTAGGACAACAAATGCACTTTATAATTATTCATAGGAC
Celera SNP ID:            hCV10076234
SNP Position Genomic:     41611
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,9)      total(G,3|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47582):
AAAACTGATGAAAATGATTGAGAAACATGAACAGAGGGTTTTCTCTTTGCCTCTTTAGAGACTGGTTAATGGTGCTACCTGAGTGAGATTGACCAGATGG
M
TTGTTGGGAGAAGAAGGGAGCTGGTTTGGAGTAAATCCATCCCCACCACTATCAGGTCTTGCCCAGGCATACCCTGCTTTTCCTGAATGTCCTGAATGTT
Celera SNP ID:            hCV10076235
SNP Position Genomic:     41570
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47583):
CAGAAAAGAATATATACTCAAACATGTATAATCCATATGCATGAACATAACTCCCCTATTGGGAATTTCTCATAAAGAATCCCCCCAAAATATAATACCA
Y
GTCCACAAGAACCCACCCACAGGCCAGGTACTGTGCGAGGCACTGGAATACAATGGGGGTAACATGGACTAGGAGACTCATGAAAACGTCATGACAAACA
Celera SNP ID:            hCV10076236
SNP Position Genomic:     38663
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47584):
AACGAGTTCACACCTATGAAACTAGATGAATTATTTCTCACAGAAGACACGGAGAAAATGGTGATTAGAATCTCTGCACCAGTTTCTGTGATTTTTTTGA
S
ACATCCTGAAGATGAGAGGTGAGTAGACAGCAGATGGGCAGGGCCAGCATGGTTTTTGTCTGGTTATTTATTTCTGTGGAATAAGTTCCTAGAAATAGGA
Celera SNP ID:            hCV11672451
SNP Position Genomic:     297411
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47585):
TATTCCTCTCTCCCTTCATTCAACACTGGGTTTAGAATGCTTGCCAGCAGCATTGTGGAAATTACCTCAAAGGTAGAAACACGTAACTCATAAGCACACA
Y
GAATAGGTATAGGTCATAATCCTGGAAAGACGGCCTTGCCATTGAGAGGGGAATAGCAGGAGCAAGGCTACGGAAGCACGGGACTCTGGTTGAGTCTAGG
Celera SNP ID:            hCV10076237
SNP Position Genomic:     38363
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47586):
TGGGTATAAATTGCACCTCCGTTGCTTATTAGCTGTATGAACTTGGGCAAGATATTTAATCTCTCTGTGCCTCAGTTTTCACATCTGTAAAATTATGTCA
M
ATAGTACTGATCTCCAAGGGTGGTTGCGTGGGTTAAATTATACCTAAAGAACTTAGCACCCCACTCAGCACATGGTGGCTGCCATGATGGTTTGCCGTGA
Celera SNP ID:            hCV10076238
SNP Position Genomic:     37669
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47587):
ATGCTTCCCATTTTACAGAAAGTAATGCCAGAAGAAAACAGTGCACAGTTACTGCTGGTTCCCAATAGTTGATTTGACTCCTTTAAAGATTTAGCTGTCC
S
ATTTATGTGCTGGATAACATCAATTGATTCTTAAATGTTCAACAAGCCTTGCATACCTGTGATAAATCCCATCATGGTTACATTTTAATATACTTACTTT
Celera SNP ID:            hCV10076239
SNP Position Genomic:     37408
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47588):
TCCAAACTGAACTCAACACTTAACTCGTGCCCTGAATTTTGGCAAGGAAGTTATCACCAGCTTTCACTCTTTGAGTGCATAACCTTTCACTCTGTTTCTT
R
TACTCAGGGACTGTAGTGTGTGTTGCAGTCTCTTATCTGACTCTCAGAAATAACTTTGAGTAGAGCAGTACTACTAAAACACAAATTCACCAACTTTTCT
Celera SNP ID:            hCV29034970
SNP Position Genomic:     630356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47589):
AAATGGACTAATACAGTATCCAAAGGCATAAAAATAGTCATGCACTTTGGGGAAGTAATACACATCTGAGAAGTTAAACAGAGGTAAATACAGGAAAATA
Y
GTACAAAATACATTATATTAAATGATATATGAATATTGTATATGTTTTATGCATTGTATGTGAAATAGTAATAATAGCCAACGCTTAGGAAGTAGTTGCC
Celera SNP ID:            hCV7624981
SNP Position Genomic:     27318
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47590):
CACACAGAGCCTGTTTCTCATATTTATTGACCAGACTAAGGAGAGAACATCGTACCCTCTAACCCAGTGGTTGGCGCGCTTGAGCCAGCTCATACCAGCT
Y
TCGTGAGACCGTTGTTAATGTCTCTTTCTCACTCTGTCTTCACTGTAGCTTGATATCAGCCATGGCAGGATTGTCTTCACCATGGCAATGGGCAACACCA
Celera SNP ID:            hCV29034971
SNP Position Genomic:     630618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47591):
CTTCTTCTGCTAGAAGGAAATTCCAGGAATCCTTGATCTCGCATCTTTTAAACTGATTTCACAGAGGGTATCCCTGACAGCATTTAAAAAAAAAAAGCAA
R
CAAGAAAAACCTCAAATGGGTAGAATTTTTCTAAAAGTCTGAAATAAAAGTTTATAACTGATTTTCAGGTTTCCTATTATTACCTAGGCACACCTAAATG
Celera SNP ID:            hCV15983933
SNP Position Genomic:     804871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47592):
TAAATTACCCAGTCTTGGGTATTTCATCATAGCAGTTTGAAAATGGACTAATACAGTATCCAAAGGCATAAAAATAGTCATGCACTTTGGGGAAGTAATA
Y
ACATCTGAGAAGTTAAACAGAGGTAAATACAGGAAAATATGTACAAAATACATTATATTAAATGATATATGAATATTGTATATGTTTTATGCATTGTATG
Celera SNP ID:            hCV7624982
SNP Position Genomic:     27278
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47593):
TTCACACCTATGAAACTAGATGAATTATTTCTCACAGAAGACACGGAGAAAATGGTGATTAGAATCTCTGCACCAGTTTCTGTGATTTTTTTGAGACATC
M
TGAAGATGAGAGGTGAGTAGACAGCAGATGGGCAGGGCCAGCATGGTTTTTGTCTGGTTATTTATTTCTGTGGAATAAGTTCCTAGAAATAGGATGTCTC
Celera SNP ID:            hCV11672455
SNP Position Genomic:     297417
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47594):
CACTCTGATAAAACTTCACTGATTTATCTCATTTAATCCCAATAGCTACTTCATGAGAAAGGTGCCATCATTCTATCTGTTTTACAGGTAAGGCAAATGG
R
CACTCAGAGAGGTAAGATCTGACACCGTGTGTCTGAGAGCAGGTCCATGCCATCGAAGTAGATTTGTAGCAGAAACCTGGCTGGGGGTATTTTTCCCCAT
Celera SNP ID:            hCV29034972
SNP Position Genomic:     630933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47595):
ATATAGAAAGAACTCTCTAAACTCAACAGCAGAAAACCCCAATCAACCAAATTAGGAAATTGACAAAAGACATAAACAGACATTTCAGCAAAGGGGATAT
R
AGGATAGCAAATAAGCTCATGAACAAATGTTCCAACTCATTAGCCATGAGGGAAATGCAAATTAAAACCACAACAGACTACCGGTACACACCTATTAGAA
Celera SNP ID:            hCV486176
SNP Position Genomic:     577951
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47596):
ATAGGGAGATTGAATCGGTAACCACAAATTCTCAACAAAGTAAAGCTTAAGACCAGATGTTTGGCCCACCAAACATTTAAAGAATTGATGAGAATCCTTC
Y
CAAACTCTTCCGAACAGCTGGAGAGGGAGTGACACTTCCAAACTCATTTTATAAAGCTAGTATTACCCTGACACCAAAGCCAGACAAACACCACAAGAAA
Celera SNP ID:            hCV15983934
SNP Position Genomic:     796727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47597):
AGTCAGGACTTGAACTGGCTCTGGCTGGGACCCAGGCTCCCAGGTAGCCAGCTCCCAGGTGACAGGAGTCCGCTGGGCTCCCTCTGATTCTTAAAGCCTT
Y
CCAGGTAGCAACAGGAGATCACGCAAAGCCACGTAAGTGTCTGATTCAGTCCTCCCTGGTCAGTTTTCCAGCATAGCGTTTTGCAAAATGTGTTCTGAAG
Celera SNP ID:            hCV7624983
SNP Position Genomic:     23803
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47598):
AGGTGGTAAATGTAAATTGAGAAGCTCGAGGTTAGCAAAACAGAAGATAATGATCAAAGGACTCCATGTCTATGTGGTTGCTTTATGATAATGCTGAATA
G
CAGCCTTGTTCATGCAGAGACAATATAAAAGCCTTTCCCCAACTTCTCCCCCTCCTCCAATTCGTAAAAGTCAACATAATGTTAAAACAAAACAAGAAGT
Celera SNP ID:            hCV11672456
SNP Position Genomic:     303315
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,4)   total(G,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47599):
GAAAGCAGGACCCAGATGATACAGAGTCTCAGAGGTTATGAGTTGGGATTTATTCTAAGTGCACATAGGAAGCACTGTAGAATTCCAGGCAGGATACAGA
Y
TTTCCCATCTGTGCTTAGGAGTCTAAGCTGCACTCTTTCTTTCTTCAAGTGATATGGGAGTGACTTAAATTCTTTGTTGCAAAACCAGTGACACTGTTAT
Celera SNP ID:            hCV29034973
SNP Position Genomic:     632144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47600):
TACACACACACACACACACACACACACACACAATCATGACCAGCTCAAGAATAAATATGTGGGGACTAAGCATCCAAAGCTCGACACCAACAATTTGCAG
S
TGAAGACATAATGAACTTTTGTTAGTGGATGGACCAGCTGGGAAGACTGTAAAGTTGGATGTCTTGTTGTGCTTTCTATTTATTATTCAGATCTCCAGTC
Celera SNP ID:            hCV486177
SNP Position Genomic:     579711
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,9)   total(G,4|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47601):
ATTGTATCCTAGTTGGGAAGTCATTTCATAGATTTGTAAGATATTGCCATTGGGGGAAAATGGGTAAAGGGTATATAGGATCTCTGGGCACTATTTCTTA
Y
AACTGTGTGTGAATCAACAATGATCTCAAAATAGAAAGTGTAATGAGAGAAAAAGCTCTATTTAAGTGTTTTATTAGGTACCAGACATCATGTTAAGTAT
Celera SNP ID:            hCV29034974
SNP Position Genomic:     632573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47602):
CACACAATCATGACCAGCTCAAGAATAAATATGTGGGGACTAAGCATCCAAAGCTCGACACCAACAATTTGCAGCTGAAGACATAATGAACTTTTGTTAG
Y
GGATGGACCAGCTGGGAAGACTGTAAAGTTGGATGTCTTGTTGTGCTTTCTATTTATTATTCAGATCTCCAGTCCAGTGTACAGACAGAAGGTGCATCTT
Celera SNP ID:            hCV486178
SNP Position Genomic:     579737
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47603):
GCTATTGTCTGAAGAGCTCTTGTCTGTTGACTTGCAGACCTGTGACCTCTAGATAAAGTTTCAAAATGCAGAAAATATTTATCTTCTTGCTATGACCTTC
Y
ACGCACACGACGTGAAGCCATGGATTTGTTTCCTAGGGAACTAGTGAGTGAGGAAGATCTATAATTAAATCTGTGAGTTATATGCTACACATGGGAATTG
Celera SNP ID:            hCV29034975
SNP Position Genomic:     564678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47604):
GCAGCTGAAGACATAATGAACTTTTGTTAGTGGATGGACCAGCTGGGAAGACTGTAAAGTTGGATGTCTTGTTGTGCTTTCTATTTATTATTCAGATCTC
M
AGTCCAGTGTACAGACAGAAGGTGCATCTTGATGGATAGTTCAAAAGGGTAAAGACTTAGACAAAATAATGAGAAAGGGACTATTTGGCGACATATTTCA
Celera SNP ID:            hCV486179
SNP Position Genomic:     579807
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47605):
GCCTGGTTGCCCTCCAGGTGTCATTTTGCTAGGGGTTGACAGAGCAGGCTACTGCCCTTCTGCAAATACTCTTAAGATCATGTGAGTTAATACACAGGAC
R
TGCTTAGACAGGGGCTGGCACTGTTCTCAGTGTTCTGTTAGCAATTATTACCATTATTTTCACTTAGATTTGTCATTATGTACACACAGCTGCCTGTGGA
Celera SNP ID:            hCV29034976
SNP Position Genomic:     635052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47606):
CTGATTGAGCTGCTGAGTAACTCTTCTGCCTCCTGATTTGCAAAATAAGGATACTGGCTTTTAATTCCTAAGGTGGTTCTGAAGATGACATGAGACAATG
K
CAGTAAAATACCTAGCACTAAGCTTGGCACATAGTTGGCATAGAAAAGGAGGAGTTGGCAGCTTGATTATGGTCAAATCTAAGAAGATTTGATGCAGACC
Celera SNP ID:            hCV29034977
SNP Position Genomic:     637223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47607):
TTTGCAAAATAAGGATACTGGCTTTTAATTCCTAAGGTGGTTCTGAAGATGACATGAGACAATGTCAGTAAAATACCTAGCACTAAGCTTGGCACATAGT
W
GGCATAGAAAAGGAGGAGTTGGCAGCTTGATTATGGTCAAATCTAAGAAGATTTGATGCAGACCCAACTTCCTAGGGCCACTGAGGATTAAATAGGTATA
Celera SNP ID:            hCV29034978
SNP Position Genomic:     637259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47608):
CAGCCTAGAGCTGGTCCCCAGACCAGGCCCAGTGCACGAGTTTGGGTGCTGGAAGGGGAGGCTTTATGGAGGCAAAGCTGAGGGGCTGTACGTGTCTTCA
Y
AGGTCTCCAGTCTGTAAAAGCAACCACGCTTTGGGCTGGGGCAGAAGTCAGGACTTGAACTGGCTCTGGCTGGGACCCAGGCTCCCAGGTAGCCAGCTCC
Celera SNP ID:            hCV7624989
SNP Position Genomic:     23657
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47609):
GGGATCCAAGGCAGTGTTTGGCAAAAGTTTTTTGATGTTCAAAATGTGTCCTTCAAATAAAATCTAATTTAAAAATTCACTGAGTGAAGCAGACATTAGG
Y
GAATTGGTTTTGACTAGAAGTAAGGGAGAAAGAACCTTTTCATCACCACCCCAATCCCAAAATTCCAGAGCAAGAAGTCTCTAAGGCACCCCCGTTTCTC
Celera SNP ID:            hCV29034979
SNP Position Genomic:     565182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47610):
TCAATTCACCTTTCCCCAGGTCTCCAGCTCACACACTGCAGTCCAATTTCAAATTCTTCCGTCTCACCATGAATCTCCAGTCTTGAAGCCCTCTCCTTGA
M
CCCCTCCTTGGAGGGTGATGTGGTAAATCAAGTCAGCTCTCTGTGAATGTCTCATCATTCTCCACCTGCCACAGCAATTTTGCCCCCTCTGCTCTCCTCC
Celera SNP ID:            hCV29090862
SNP Position Genomic:     360426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47611):
TCATCACCCACACATTAAGCCTAATATTCAGTAGTTATTTTTCCTGATCCTCTCCCTCCTCCCATCCTCCACCCTCCTGGTGTGTGTTGTTCCCCTCTAT
R
TGTCCACGTGTTCTCATCATTTAGCTCCCACTATGAGTGGGAACATGTGGTATTTGGTTTTCTGTTCCTGTGTTAGTTTGCTAAGGATAATGGCCTCCAG
Celera SNP ID:            hCV11673401
SNP Position Genomic:     777355
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,8)   total(G,5|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47612):
AGGACGATGTTGAAAAACAATGGTAAGAGGGCACATCCTTGCCTTGCTACTGATCTTATCAGGAAAGCTAGTTTCCTACCATGAAGTGTGATGTTAGTTG
Y
AGGCTTTTTGTAGTTGTTCTTTATTAAGTTGAAGAAGTTTCTGTCTGTTACTAGTTTGTTGAGAGTTATTATGAGTATTGATTTTGCCAAGTGCTTTTTC
Celera SNP ID:            hCV10076240
SNP Position Genomic:     37082
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47613):
CTGCAAACTAAGTTTTGTTTCTTACTTTCCAATCACTATACCTTTGTTTTCTTTTCTTATCTTACTGCATTAGCTAGGACTTCCAGGACGATGTTGAAAA
R
CAATGGTAAGAGGGCACATCCTTGCCTTGCTACTGATCTTATCAGGAAAGCTAGTTTCCTACCATGAAGTGTGATGTTAGTTGTAGGCTTTTTGTAGTTG
Celera SNP ID:            hCV10076241
SNP Position Genomic:     36998
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47614):
CTTGGGAGAAAAGACGAGGCAGGCTGGGAGGAGGGGTGTTATGGCAGCTTACAAATGGGCCCGGGTACATTTGCCTGGCTTCAAGTCAGAAGGTGCTGGA
R
CTGGGCTTGGATTCATTTCCATTGTGTGGCACACATATCTCATGCATGGGCCAGGGACGTGCCTTGTGACAGTTAGCACCCACGGTGCCATGTGGGCTTG
Celera SNP ID:            hCV486180
SNP Position Genomic:     580415
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47615):
GGATTTTTTTTTTTTTCATATTCAGAAGAGGTGGGTACAGAAAGGATGAGGGCAGCTTCTCAGGTTATAGTATTAACCACGTGAAGCAGCTAACAAAGGT
R
TGTGCCTGGCCTTGTGCTAAAGGCTTTCCTCGTATCAGTTCTTTCATCCCTCCCAACACTACTGAGGTAGATGGAGTGACTAGATCCATTATACAGGCAA
Celera SNP ID:            hCV10076245
SNP Position Genomic:     33871
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47616):
TAGTCATTGCAAAAACATCTATTTCCGGCCTACACTGCACCAGCCAGTGGGGGAGGTCCTGAGAGATAGAGAAAGGATGAATTCTTGCCCTTAGAGAGTC
R
CCTAGAGATTCTGGGGAGACAGCAGGTCCGAGTCTCTCTGCCTGAAACCTCTGGACAGTGTCTTTGGCTGACACTTACATGGTGGTCTTGGTTTCTTATT
Celera SNP ID:            hCV10076247
SNP Position Genomic:     33231
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47617):
ACAGGGAGAAATCAGGTTTCTTCCAGCCCAGCTTCTGGTTGGAATCACTCAGGCAGAGACACATGGGCCTGAGAGAGGATTCCCCTTATGACATAAAGCC
K
CAAAAATTCTCATTAGTCATTGCAAAAACATCTATTTCCGGCCTACACTGCACCAGCCAGTGGGGGAGGTCCTGAGAGATAGAGAAAGGATGAATTCTTG
Celera SNP ID:            hCV10076248
SNP Position Genomic:     33117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47618):
AACGGACCCATAACTCATAGGGAGATTGAATCGGTAACCACAAATTCTCAACAAAGTAAAGCTTAAGACCAGATGTTTGGCCCACCAAACATTTAAAGAA
W
TGATGAGAATCCTTCTCAAACTCTTCCGAACAGCTGGAGAGGGAGTGACACTTCCAAACTCATTTTATAAAGCTAGTATTACCCTGACACCAAAGCCAGA
Celera SNP ID:            hCV15983941
SNP Position Genomic:     796711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47619):
CATTCAAGGCCCTGAGAGAGAAGAGAAGGGGACAGATACCACAGAGATCATGAGATATAGCACAACAGATAAGACTTGCTAATTAACTGTACGGGGTTAC
R
GGGAGGGACAGGGAGAAATCAGGTTTCTTCCAGCCCAGCTTCTGGTTGGAATCACTCAGGCAGAGACACATGGGCCTGAGAGAGGATTCCCCTTATGACA
Celera SNP ID:            hCV10076249
SNP Position Genomic:     33009
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47620):
AAATAAATAAATATGGTAGTTTTGCGTAGTGATAGTGCTATAGAAAAACGTTCAAATGGGGTAGAGTGATAGACAGTGTTGTTCTGAGCTTGTCCACCAC
N
CCCTCTTGGGACAGAGGATTCTTTGTTCTGATGGAATGGCCTTTCTATAGCATAGAGATGAAATGTGCTACCGTTTGTGAAAGGAAGTTAGTAATACATA
Celera SNP ID:            hCV7624990
SNP Position Genomic:     19235
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-|G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47621):
AACTCTGTGCATCGGAATCACCCGGGATCCCAGCAGGTCTGGGAGGGACTGAGATTCTGCTCCCAGGTGATGCTGATACTGCTGCTCCCCAAAGTGCGTT
R
GGCCATACACTGAACAGCAAAGGAAGAGAAAAATGCAAAGTTGGAACCTTGTGTTTCCTGGCCTCCACCGACAGCCCCATCCAGTAATGCCTCCTTTCTC
Celera SNP ID:            hCV29034980
SNP Position Genomic:     641983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47622):
CAACTTGACTTCAGGGAGATTCACCTGAGACCAAATGGTTCCAATAAATATCTATGATCTCTATGGAGGATCTACTATGTTCCAAGCACCACTTGTGTGT
K
CAGGATACAGTTGCTCATAAGGCAGACTGAGTCTCTGCTCTCCTGGGGCTCACAGCTTGGCAGGAAGGATCAATAGCAATTAATGAATAATTTAAGATGG
Celera SNP ID:            hCV7624991
SNP Position Genomic:     13966
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,11)      total(G,11|T,2) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47623):
ATATAAGAGGGTAACAGCAGGCACCCCTGGAGACCTGGGCATGAGGTTTAGCTTCATGCAATCCCCTGTAAGTATAATTTCCCCAGACCACATGGGGTAA
Y
GGGCCTCCATGTCTCTGATTTGCCCATGGGGGGAGGACATTAAGTCTGCACAGCTGTGGTGTAATCAGATGTGTAGGGAGACTCTGAGAGCCAGAGGAAT
Celera SNP ID:            hCV29034981
SNP Position Genomic:     643609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47624):
CCTCACAGATATACATAAACATTCACAATCAGGTTTCCAAAGCTGTTTCCTTACTTCCCTTTGTTGCTATTTTACTTTTCATTGGAGGTTGGGCGAGGCA
R
TCTTTAAATGAAGCTATTTTTTCTTTGTCTCTCTGTCCCTCTGTGTCTCTCTCTGTGTCTCACACACATACACATGCACACACACACACACACAGACACA
Celera SNP ID:            hCV11672465
SNP Position Genomic:     316375
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47625):
ACTTATAAACATTTATTTCTCCTATTAAAACTAAAGATATGGCTGTCAAACTATGCACACATTTATTATCCCTTTATATTCTAGGTTTATGTTATTGTGG
Y
TATAAGAATCTGCTGTAAATAATTATATGAAATACGACTCTGATAGAATTTTCTTTGTCACCTATCATTTTGTTTTTCCAGGTGTTAATAATTATTTCTT
Celera SNP ID:            hCV29034982
SNP Position Genomic:     646268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47626):
ACTCAGGTGAGATCCCCAAGTACACTCTTTCAAGTATGGGTTAGATATTCTAACTGAAGCAAATGTAAAAATTGAATGTTAACAGTGGGTCTCTTCTATT
A
GTGTGGTTGTTTGCTGTCTTCTCCAGAATGGATGTTTTTAAGAAGTCCTTTCTCCTCACCGGTTCCCACTAGCTGCAAAGGTTACCCTTACATCCTTGAA
Celera SNP ID:            hCV11672466
SNP Position Genomic:     318681
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1)   total(A,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47627):
CAAGTCGTCTGTTTGTTTGTTCTTATTTTCTTGGAATTTGTTTTTCTTGGAATTCTCTGTATTTCTGCTCTAGTTTCTTCCTCTAAGCCTGCTTCTCAGC
S
ATCACCCTGACTGGCCATCAAACTGGGAACTCTGTTTGCCTTTGTCCTGTACTGAGTCTCCTCTTTCCCAAATCCTTTCTCTTTTTCCTTCCTGGTTAAC
Celera SNP ID:            hCV29034983
SNP Position Genomic:     646561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47628):
TTATCTTTCTTTGCAAAGTCTTTTACTAGAATTATTTATTTAGGATAATTAGAGAAAAATTCTGTAATTTCAAGTAAATATTAACTACAAATCAATTCCA
R
TAAAAATGCTGCTGTCCAATCATCTGTGTCACTGCACTTGGGAGAAAACAATTTATGTTCAAGCCTCTTTAGCTGGATTAATCTCTTCAAACCTAAGTGA
Celera SNP ID:            hCV29034984
SNP Position Genomic:     653155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47629):
TATTCGCACGTTTTCACGCTGCTGATAAAGACATGCCCTCGACTGGGTAATAAGGAAAAAGAGGTTTGATGGACTCACAGCCCTCACAATCATGGTGGAA
R
GTGAAGAGGAGCAAAATCGTGTCTCATGTGGCAGCAGACAGGAGAGAATGAGAACCAAATGAAAGGGGTTTCCCCTTATAAAACCATCAGATTTCATGAG
Celera SNP ID:            hCV11672468
SNP Position Genomic:     318986
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47630):
TAGACGTGGATTGTACTCTGAGAGCTAATGATGAGTTTGCTGGAAATAATTTTTCCATTTCCATTTCTAATTGTTAATATAGTACAGTGAGCTCGGTAAG
Y
ACAATCTGCTCAGATAACCCAATCTGCAGTGTGACTGGTGCCTGTGGCTGGTGCCTACACAACAGGCTTTTGTTTCGTAACTTCAGCACTTGTTGTGGGG
Celera SNP ID:            hCV29034985
SNP Position Genomic:     654316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47631):
AGCTAGAACCTGAGGGAGGAGGTGCCTTCTTTTGGAATTAAAATTCCAGAATGTTCTGGAAAGTGCCAGATGCAAGACCAAGTAGGACCAGCTAGTAATG
R
AAATTCCTCCCATATTGACAAGGTTGATGAACACATGGTGGGTGCAGCTCATGGAACACTGGGAGGTCAAAAGCGGTCTCAGTTACCTTTGTACAATGGA
Celera SNP ID:            hCV29090875
SNP Position Genomic:     287362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47632):
CCCATGAATACAAAAGGTGATGGGTAGCTAGAACCTGAGGGAGGAGGTGCCTTCTTTTGGAATTAAAATTCCAGAATGTTCTGGAAAGTGCCAGATGCAA
K
ACCAAGTAGGACCAGCTAGTAATGGAAATTCCTCCCATATTGACAAGGTTGATGAACACATGGTGGGTGCAGCTCATGGAACACTGGGAGGTCAAAAGCG
Celera SNP ID:            hCV29090877
SNP Position Genomic:     287337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47633):
GGACAAAACATGCTGCTGCTTTTTTCTCATCCCCTAAATTTTGCCATTTCAGCACAAAGGGAGCTCAGGTGCATCAGGAGCCCCAGCCTCCTGCGACTGG
M
CTGCATACATACAAATACCCATTCTAGGTGGTTTCCAAAAGGACTCCATTTCTATGGGAATATTTTCCATTGAGCTGTTTATGAACTTTCACTTAGTGAT
Celera SNP ID:            hCV29090878
SNP Position Genomic:     360089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47634):
TGGAGTCTAGTTAATAGTCAAGTATCAGTGTTAATTTATCAGTTATGACCAATGTTCCATTTTTACGTAAGATGTCAACATTAGGGGAAATTGGATGAAG
R
GTACATGGGAACTCTGTAGTATCTTTGTAATAGTTCTGTAAATCTAAAATTACCACCCGAAGTTTATAAATGAATACACACATATACACATACAAACCTC
Celera SNP ID:            hCV28542
SNP Position Genomic:     592594
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47635):
CACATTCAAGGCCCTGAGAGAGAAGAGAAGGGGACAGATACCACAGAGATCATGAGATATAGCACAACAGATAAGACTTGCTAATTAACTGTACGGGGTT
R
CAGGGAGGGACAGGGAGAAATCAGGTTTCTTCCAGCCCAGCTTCTGGTTGGAATCACTCAGGCAGAGACACATGGGCCTGAGAGAGGATTCCCCTTATGA
Celera SNP ID:            hCV10076250
SNP Position Genomic:     33007
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47636):
GTTAAGAAACACGATGTGCATGTCATGTTGAGAAACTTGGATTTCACCCTGGAGGCGCAGGAACTAGGGGGGATTTTTCAGCAGCAGTGACAGACGCTCT
Y
AAATCTGGGTTTTCCAATGATCAGCATGCTTGTGCCTGCACCGGGGCGCAGGATGGGAGACAGATGCCTTTTGCAGTAGTTCCGGAGAAGAAGACTGAAG
Celera SNP ID:            hCV10076251
SNP Position Genomic:     32804
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47637):
CACATTTAACAAAGACCAGAAGAAAATCAAAACTGTTGCTCAAACTGACAGTGTATGTTCTTCATCCCACTCCTTCATTAGCTCATTCATTCATTGATTC
R
TTCATTCATGTGCTGGCTCTTTGTAGAAGTTGGGGGTAAACAGGCGACCAAAAGGTAGTCCGTGACCCCAGGATGTTGTAATTCAGAAGGGTAAACAGAC
Celera SNP ID:            hCV10076252
SNP Position Genomic:     31994
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47638):
GCCTGCATTACCTAGAATTGTTTTTTTTTTTTTTTTTCTGGTTAAAACCAATGACCTTTAAAGCCTTTTTATTTTTCCTCTGACAATCTCTAGTGGACCT
M
TGGTCTTTTGTGAGTTCTGATGGGAATCCCAGAATCTTTCTGTAACTGTGGGTTCCAATGAGAGAGGCACATTTAACAAAGACCAGAAGAAAATCAAAAC
Celera SNP ID:            hCV10076253
SNP Position Genomic:     31826
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,12)   total(A,12|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47639):
ATCTTCTATCCTGATTGATTGCATCAGAAAAGCCATTCATCTGGTTTGAAGATAGACAGGTGGTTGCTGTCACTGCACCAGCAGCTTTTGAAGTTTGCTC
R
GTGATATGATTACAGCCCATACTTAAGCTTCTGCTCCAGGAAGTGAGATTGACCTTTGATCCTACTCCTCATTTAAAAATTACAGATCTTGGAAAATGAA
Celera SNP ID:            hCV10076254
SNP Position Genomic:     31545
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47640):
TCATTATCTGTGCTCCAATAATTATTAATTTAATGACATTTTAACAAATAAGAAATAACTTTTATTGAGCACTGTCTACATATCAGGCACCCAGCTAAGT
R
CTTTCACATGTGATGTCTAATTAAAGCTTCTGAATATGATTAACTTCATTTTATAGCTGAGGAGTCTACAGCCTATAGGGCACACACACATATACCATCT
Celera SNP ID:            hCV10076255
SNP Position Genomic:     30297
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47641):
GAATGGGTTTTCTCTTTCTGTGTTAATCTTATCTGGCAGCTAATCTTTACCTGTCATGTGGTTTTTGGGGGAGAAAACGGTACCCTCTTTAGACTGCTTC
Y
TTTTCTGGGAGGAGAACCCTGAGAAAGACTATCAGTTTGAAGTTGTCCCTCCTGGGATAGAAATTTATCTAATTTTAGTGGGTGGCAAGACTATGAACAA
Celera SNP ID:            hCV10076256
SNP Position Genomic:     30093
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47642):
CCAGGATTGATTTTGCATAGTGTAGAAATCAATCCGGTGAACCTGGCAGCATAGGTATCCTCTAAGTTTGGTTGTAAGCCCAGTGGGGCAGGGCAGTAAA
Y
AGTTTAAATTGGAAAGTTAAAACAATAAACAGGAGAGACAGGTGAAGTTGGGGTTTGAAATTTGCTGGGCTAGAATGGGTTTTCTCTTTCTGTGTTAATC
Celera SNP ID:            hCV10076257
SNP Position Genomic:     29920
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47643):
CTGAGCCACTGGAGAAGTTGCACATCCAGGATTGATTTTGCATAGTGTAGAAATCAATCCGGTGAACCTGGCAGCATAGGTATCCTCTAAGTTTGGTTGT
M
AGCCCAGTGGGGCAGGGCAGTAAACAGTTTAAATTGGAAAGTTAAAACAATAAACAGGAGAGACAGGTGAAGTTGGGGTTTGAAATTTGCTGGGCTAGAA
Celera SNP ID:            hCV10076258
SNP Position Genomic:     29895
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,11)   total(A,11|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47644):
CTGTCATGCATTCTTTTTGAGTCCTCTTGGTGGTTTTGTAAAGAAGCCAGCCTCGCTGCCCATCTCCCAGAGGGGGGAAACTGAAGCTCAGAGACATTCA
R
GGATTTGCTTAAAGCCCCATGCCAGGCGTTGGCCATGGTCCTGGCTCCCAAACCTGTCCTTTTTCTACTGTAACAGGCTGCCTCCCCTCCAAAGTCTGCA
Celera SNP ID:            hCV377000
SNP Position Genomic:     569843
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47645):
TGGTGATCATGAAACCTGCCAAAGAAGCATTCTCTCTGAGGCTGAGCCACTGGAGAAGTTGCACATCCAGGATTGATTTTGCATAGTGTAGAAATCAATC
Y
GGTGAACCTGGCAGCATAGGTATCCTCTAAGTTTGGTTGTAAGCCCAGTGGGGCAGGGCAGTAAACAGTTTAAATTGGAAAGTTAAAACAATAAACAGGA
Celera SNP ID:            hCV10076259
SNP Position Genomic:     29854
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47646):
GAAGTTCACTGACATCTACTCATCCTGCATTAGTAATATGGGCATGGTGCATTTTCTGTATTTATTAGCTATGTTTAACAGAATCTTTAGAAAGGAACTC
R
ATGCCCTGTTTCAACAAAGTACATTGATTTTTTGCTTTGTGATAGATAAGGCAAAAGCGGTCACTTTGTTCGGTGTGTGCTCTCATCCTAATTTAGGGCC
Celera SNP ID:            hCV377001
SNP Position Genomic:     570388
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47647):
GGGACTTGCTGCAGATTTATTTCAAAGTTGTAAATCCTCTGTGGATTACCTCCTCATGCTATTCTCAACCTCTGGTTCTTTCTTTTTCTGATTGCCCCCA
R
TATTAACAAAGTGGAGCAAAAATAACTACAGTTGCTGGAAAGTGGTACTGTGTTAGTCAGAACACAGAGGTTGTATGTGACAGATACACGTTCACATGGC
Celera SNP ID:            hCV377002
SNP Position Genomic:     570728
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47648):
AAAAATAACTACAGTTGCTGGAAAGTGGTACTGTGTTAGTCAGAACACAGAGGTTGTATGTGACAGATACACGTTCACATGGCTAAGGCTAAAGGGTATT
Y
ATTGACTCCCATAGTCAGGAAATCCAAAGGTGCATCTGGCTTTAGGACAGCTGGATCCAGGCCTCACACAGTTGCACTTTGTACTCTCCCTTTGCGTGGT
Celera SNP ID:            hCV377003
SNP Position Genomic:     570846
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47649):
ACCAAAGTCAAATTGCATTTATAGCACTGGAGTTTCACTTAAAGGGAATGCAGCACTGGGGACAGACCCTAGTATTTTTTCCAATTGTCCTTTATTTTCA
R
TTGCCACCATGTCTTGAGCGCCTGCCCTATGCCCCCATACTGTTCTAGGTACATATGATGGCAAAATGATGAATAACACATTGACTCTGCCCTCACAAAT
Celera SNP ID:            hCV377004
SNP Position Genomic:     571784
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47650):
GATCAGAGCATCCAGGAGAAACTGTATGGGGATGGGGGCACCACTGACTGAATCAGAGCCTCCAGTTTGCTGTGGGTGACCACAGAGGGACTGAACAAAC
M
CCTGTGTTGTCAGTCCTTAGTTTTGAGAATAGCCTTGACCAGCACACTTGTTCACTGAGGAAGGATACGAAAATGCAGATAAGTTAAAACAAACAAACAC
Celera SNP ID:            hCV158191
SNP Position Genomic:     555728
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,5)      total(A,5|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47651):
TGCTGTTCATTAGGATGGGTCTTCCTAAATTATAGAGACTGATCAATTTACATGCCACCCTTTGATGCTAACTAAGACAATGGAGAAATAGCCCCAAGTG
Y
TAATACTCTGTCTCTTGAATTGAGTTATTTTTCCAAGGCAGTAAAATGTGAAGATTGCAATTAGTTAACCATTATGAAGACAAATCTTCAAATATTTTTC
Celera SNP ID:            hCV377005
SNP Position Genomic:     571984
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47652):
CTGGGGAAGAGGAAGGGATTGTTTGGAAAGATCAGAGCATCCAGGAGAAACTGTATGGGGATGGGGGCACCACTGACTGAATCAGAGCCTCCAGTTTGCT
K
TGGGTGACCACAGAGGGACTGAACAAACACCTGTGTTGTCAGTCCTTAGTTTTGAGAATAGCCTTGACCAGCACACTTGTTCACTGAGGAAGGATACGAA
Celera SNP ID:            hCV158192
SNP Position Genomic:     555699
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47653):
AACTAAGACAATGGAGAAATAGCCCCAAGTGCTAATACTCTGTCTCTTGAATTGAGTTATTTTTCCAAGGCAGTAAAATGTGAAGATTGCAATTAGTTAA
M
CATTATGAAGACAAATCTTCAAATATTTTTCTCACTGTGGTGACATTTAAAATGCTTCCTGCTCAACCAAACAGCCAATTGATTTCTTTCCCATCTTCTT
Celera SNP ID:            hCV377006
SNP Position Genomic:     572053
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47654):
GTTATCAATAGTTTATTAATATATTGATTAAAAGATGACAAGTTCTCAACCCCCACGATAGCCCACTGGTGAAGACAGAACCATGCAGACACTATTAATT
Y
GGCTCTGTTTCTTTTTCTAATGAGCCAGTGTGGAGACTGGGGAAGAGGAAGGGATTGTTTGGAAAGATCAGAGCATCCAGGAGAAACTGTATGGGGATGG
Celera SNP ID:            hCV158193
SNP Position Genomic:     555562
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47655):
AAGGCAGTAAAATGTGAAGATTGCAATTAGTTAACCATTATGAAGACAAATCTTCAAATATTTTTCTCACTGTGGTGACATTTAAAATGCTTCCTGCTCA
R
CCAAACAGCCAATTGATTTCTTTCCCATCTTCTTATAATGGCTAATTGCTAAGCAATTGATTGAATCCTCTTTTGTTACTATGTAATTACTAAGCTGGCC
Celera SNP ID:            hCV377007
SNP Position Genomic:     572119
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47656):
GATTTCTTTCCCATCTTCTTATAATGGCTAATTGCTAAGCAATTGATTGAATCCTCTTTTGTTACTATGTAATTACTAAGCTGGCCAAAACGACTCTCCC
K
ACCATTTCTCAGTTGGCTCATTTTGGTCACCTATAGGACAGGTTTGGGGTGGGAATGTTCTTATTTGGTTAAACTTTTTGCAAATAATCAATCAAATTGC
Celera SNP ID:            hCV377008
SNP Position Genomic:     572234
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47657):
GTGAGCACTCTGTTCCCATTCTATTTCTCACTAGTATTTTGAGTATGTTCCCCCCAAAGTAGAGATAGTATGTCTTTGAATGCAAACCATGGGCTGAGCC
Y
TCCAAATTACTTTTAAAAAATTAGCTTCTTCAAAAAATTTTTTTCCACTTCCCTACTGTCTTAAATATACTGGTGCTTCTGCCCTAAGACCTTTCAGGAA
Celera SNP ID:            hCV29090883
SNP Position Genomic:     286919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47658):
GGACTGCTGTAGATGATTCCTGCATAGCCAGCGCTGTGCAGGGCCTCCACTTGAGTGAGCACTCTGTTCCCATTCTATTTCTCACTAGTATTTTGAGTAT
K
TTCCCCCCAAAGTAGAGATAGTATGTCTTTGAATGCAAACCATGGGCTGAGCCCTCCAAATTACTTTTAAAAAATTAGCTTCTTCAAAAAATTTTTTTCC
Celera SNP ID:            hCV29090884
SNP Position Genomic:     286865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47659):
TTTTGAGTCAAGTGTGTGAGGAAGGAGTCTCTCTTGCCAAGGACTGCTGTAGATGATTCCTGCATAGCCAGCGCTGTGCAGGGCCTCCACTTGAGTGAGC
R
CTCTGTTCCCATTCTATTTCTCACTAGTATTTTGAGTATGTTCCCCCCAAAGTAGAGATAGTATGTCTTTGAATGCAAACCATGGGCTGAGCCCTCCAAA
Celera SNP ID:            hCV29090887
SNP Position Genomic:     286825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47660):
CTTTTGAGTCAAGTGTGTGAGGAAGGAGTCTCTCTTGCCAAGGACTGCTGTAGATGATTCCTGCATAGCCAGCGCTGTGCAGGGCCTCCACTTGAGTGAG
Y
ACTCTGTTCCCATTCTATTTCTCACTAGTATTTTGAGTATGTTCCCCCCAAAGTAGAGATAGTATGTCTTTGAATGCAAACCATGGGCTGAGCCCTCCAA
Celera SNP ID:            hCV29090888
SNP Position Genomic:     286824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47661):
GCAACACTTGCCCTTCCATGAGTAGCTTCGTTCACTTAGCAAGATGTTTTCCAGGTTCCCCCATGTTGTAGCTGATGTCAGAGCTTCATCCCATTTTATA
R
CTGAGTAATATTCCACTGCGTGAATATATCACGTTTTGTTCATTCATTCACTGATGGACAGTTGGGTTGTTTCTACCTTTTGACTGTTATGAATAATACT
Celera SNP ID:            hCV28008014
SNP Position Genomic:     705950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47662):
AAGATACATATAAGTGAGGATGTGACTGTGTTCCAACAAAACTTTATTGTGGACATTGCAGCTGGAATTTCATATAATTTTCATGGACCACAAACTGTTA
Y
TTTCTTTTGACATTTTTCTACTGTTTACAAGATAAAAACCATTCTTTTCTCATGAGCTGTTCAAAAACAGGTGGTAGGTGGGATCTTGCTGGTGGGCTGT
Celera SNP ID:            hCV10075600
SNP Position Genomic:     105460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47663):
ATTGTGCCATGTGCTAGGTTCTCAGTGTTGAGCAAAGCAGGTGCTGCTCTGGCCTTGATGGAGTTTTCAGTCTTACCTGTTATTTTTTCTATTCCCACTC
Y
GTCTTCCACTCCTTGCAGGCAATAACAGATGATGTTGGGGGCAATAGTCTTGAAATAACTCTGGTAAGTGCCCAGCAGAGCCAGATGCTGGGCTGAGTTT
Celera SNP ID:            hCV10075601
SNP Position Genomic:     102937
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47664):
CGCTGCCCTGTAACCTTGAGCAAACCCCATAACTGTCTCTGCTTCCGACCCCTCATCTGTTGAATGGGAAAAGAGTAATAAGCCCTATATCCTGGGGTTC
Y
TGAGAGGAGGAATTGAAGCATGTAACATGCTTAAGACAGTGCCCGGTGTGCTGTAAGTTGAAACTGTGTAGGGATCCTGTTGCCTTAGTCATCACAACAA
Celera SNP ID:            hCV10076260
SNP Position Genomic:     28940
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47665):
AGTGAGGCAAGGAAGGAAAAGGAAACAGACGAGGGGTCTGTTACTCAGGCAGGTACTGCTCTGGGTGTCTGGAGCTTAACTCCCCTGGGAACCTTTGAGA
R
TCAGTGTGGAATACCTGCTTCCAAGCCATCCCACCTGAGGGGCATGGGAGCTCCAGATTTTATGCCACAAATCTGGTTGGCATTGATTCAAAGCTGCCCC
Celera SNP ID:            hCV10076261
SNP Position Genomic:     26591
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47666):
AACCTAGCTGATATGACTGGGATGGGGATTCCAGAGAACCTTGTAAACACTTGGTCCAGCAAATAATATGGCCTCAGAAAATAGAAGCTGGATGTGTTTA
Y
GTACATGAGGAAATGGACAGATAGGACTTAACAGACCATGGTTGTGAGTGACTTGGCTGTAAGTGTCACAGTCTCAGTTTGAGTTTCCTCAAAAGCGGAT
Celera SNP ID:            hCV10076263
SNP Position Genomic:     26318
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47667):
AGAGTGTGGCAAGAAATGTACTTTGACAGAGAGAACTTGTGCCAGGTCATTCTGGTCTTTGTAGGCCATGATAGAGAGTTCAGATTTTGTTCTAAATACA
R
TCAAAGCCATTAGGAATTGTAGGCACTGTACTTCCAGTGAGCTAAGTTTTGGGGTCAGTCTGGTCACTGTGATGGAGCAGAGAGGGCAGGGAGGAGAGTC
Celera SNP ID:            hCV10075608
SNP Position Genomic:     100766
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47668):
AAACCAGTTGGGAAAGTTATATTTAGGATGAGTGAGGGACACGGAGGTTCAGAGGTCCTCAGGCAGTTAAAGAGGGAGTAGGGTAGAAGGTGCAGGATAG
R
TATGGGCACATGGAAGGTCATGGAACTGGCCAGTCACCCAGTGAGGCTAGAGTGGAACACTGCTCACGTAGGCAGGAAGAAAGGTACTCCAGGTAGAAGT
Celera SNP ID:            hCV10075609
SNP Position Genomic:     100486
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47669):
TATTGTTAGTATTTTGAGACGGAGTCTCGCTCTTTCACCCAGGCTGAAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCATCTCCAGAGTTCAAGC
R
ATTCTCGTGCCTCAGCCTCCCAAGTAGCCAGGATTGCAGGTGCCTGCCATCAGGCCCAGCTAATTTTTTTTTGTATTTTTCATTGAGATGGGGTTTGACC
Celera SNP ID:            hCV10076265
SNP Position Genomic:     25332
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47670):
CAAACACCCTGAAAGTTGCAGTGGAGTAAAGCTCTCTTCACATTAATTTACCCTTGAGATGCACATTCAGAAGGAGACTTTTACACATAATTGCTATAAA
S
TTTAAAAACTAAGGGCCTTGTCAGAGACGTGTGCCAGTCATGAAAATACCAAGAAGGGATCTCTGTAAATCCGAGATTTGGTGATTCTCAAACTTGCTGA
Celera SNP ID:            hCV8098419
SNP Position Genomic:     399453
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,11)      total(G,1|C,11) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47671):
CTGATAACCAAAGGATGTGCCATCAACCATTTGGGCCTTGTTTGCAAGCTTTGAATAATTTTTCTGGTGCTTTAAACACATTATTGTTAGTATTTTGAGA
Y
GGAGTCTCGCTCTTTCACCCAGGCTGAAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCATCTCCAGAGTTCAAGCGATTCTCGTGCCTCAGCCTC
Celera SNP ID:            hCV10076266
SNP Position Genomic:     25251
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,11)      total(C,11|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47672):
TGACTTCACAAAGTCTGGGATCTTCAAGAGCAAACAATGAGATGAACTAAGAGCATGCTCCTAAACAACTTCAGGTTGTCCCTGACTGATAACCAAAGGA
Y
GTGCCATCAACCATTTGGGCCTTGTTTGCAAGCTTTGAATAATTTTTCTGGTGCTTTAAACACATTATTGTTAGTATTTTGAGACGGAGTCTCGCTCTTT
Celera SNP ID:            hCV10076267
SNP Position Genomic:     25166
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,9)   total(C,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47673):
GGGGGTTATCTGTTCTATTAGATAAAAAGTATTTGCATCTCTACTGGACAAAAGTTGACCACTTAAGTGGTGACTTCACAAAGTCTGGGATCTTCAAGAG
Y
AAACAATGAGATGAACTAAGAGCATGCTCCTAAACAACTTCAGGTTGTCCCTGACTGATAACCAAAGGATGTGCCATCAACCATTTGGGCCTTGTTTGCA
Celera SNP ID:            hCV10076268
SNP Position Genomic:     25096
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47674):
TAGCACCACTGGGACAGAATAAGCCTGTAACAAATCACAAGTGTTAATAGTTTGTCTAGGCCACCTCTACTGCATGCTTATGGGAACATGGTCAACATTG
W
TAACTTTTGTGCCTCAGTTTCCCAATCTGTAAAGGGAGGATAATAGAGCCACTCATCATCAAATAAATTAGAGTTTATTTGATGATTGTATTAGTCGGGG
Celera SNP ID:            hCV377010
SNP Position Genomic:     572629
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47675):
AATAGTAAGCTTTCAATGAGTGTTGGCTAGCATTCATGCCCGTAAGTTATCCTCTTGCCTAGAGCAGTGATGGCTCTAATGTGAGTTCAGATCCCTACAA
Y
AGGAGAAACAGTGCTTGTTGCTTTTCAAAAAGCAGAGAATAACCATAACTTTTCTACAGATCCTTGAATATAATAACAGTAGCTAATATCTGTTTACTTA
Celera SNP ID:            hCV648187
SNP Position Genomic:     331534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47676):
ATTCGTAAAACATTCAAGAAGGATGTTATCGGTACATGATCAGAGTTGAGTAGGTTCTGGATTTTAATGCCTGTACTTGCTTTTTACTTATAAATGATTA
W
TACTTTAGCTTCATAATTATCCATTTAGTTTATGATTATGGGTTGCCTGGTTAACCCTACTGGGTGTAGTGATGCATGCTTTCATCAGAAACATTTTTGG
Celera SNP ID:            hCV11672484
SNP Position Genomic:     334453
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47677):
AGCTAAGGTATTCGTAAGGAATTTAGCAAAGAAATGTGAAGACGAGATTGCTGAGTTAGATAAAAAGTGGTTAATGTTCATCATGCCTAAACTTTTGGGG
S
TTATCTGTTCTATTAGATAAAAAGTATTTGCATCTCTACTGGACAAAAGTTGACCACTTAAGTGGTGACTTCACAAAGTCTGGGATCTTCAAGAGCAAAC
Celera SNP ID:            hCV10076269
SNP Position Genomic:     25000
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,8)   total(G,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47678):
CGAGTTTTCAATGAGCAATCATTGCACCTCTGATAAACCTCATTGGCTATGGTATTTCTATATGCAAAGCTGAGACAACACTTGGAAAGTAATTACCATA
R
TCCCTGGTTAATAGTAAGCTTTCAATGAGTGTTGGCTAGCATTCATGCCCGTAAGTTATCCTCTTGCCTAGAGCAGTGATGGCTCTAATGTGAGTTCAGA
Celera SNP ID:            hCV648188
SNP Position Genomic:     331424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47679):
CTGGGGCTGAATTAAATGTGCAATTACTGCACATTTTCTCGAAAGGAGTTTTGACAATGATAAATGCATAGACATTTTTCCACACTCAGACAACGTGACT
V
CTTGCTCATCAAGTGGCTCAGGATTCACTTTGAAGAACTGGTCTCTTGTTAACAGGAGAACGTGGGTGCTGCCCGAGAAGCGCATGGGCCTGAGTTCAAG
Celera SNP ID:            hCV648189
SNP Position Genomic:     331163
SNP Source:               Celera;dbSNP
Population(Allele,Count): (G,1|C,9)      total(G,1|C,9)Caucasian(C,1|G,59)   Chinese(A,0|G,18)   Japanese(A,0|G,40)   African(A,0|G,60)    ;(C,-|G,-)   Caucasian(G,1|G,4|G,14|C,59|C,70|C,80)   African-American(G,6|C,60|C,78|C,82)   Asians(C,58|C,84)   total(G,25|C,571)
SNP Type:                 INTRON


Context             (SEQ ID NO:47680):
CCAAAGCCATGACAACACCTGTGTTGCCTCACATTGATTTTCTGTTTCCAACTGGAGGAAGAGGTTCCCGGAACAGCCACTTTTGAGTCAAGTGTGTGAG
K
AAGGAGTCTCTCTTGCCAAGGACTGCTGTAGATGATTCCTGCATAGCCAGCGCTGTGCAGGGCCTCCACTTGAGTGAGCACTCTGTTCCCATTCTATTTC
Celera SNP ID:            hCV29090890
SNP Position Genomic:     286745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47681):
GAAAACAGCATTATATGATGTCTGGATGTATTTATTGTTCATGATGGCCAGGTCTTCCTGCATTGTTGTTTGAGTCAGTCACAGTGAGTTGGCATTGCTA
S
AAGTCACTGAGCAAAAGGCCCTCGCCTGGCTCATTCGCCAATGAGTCTCCTGTGCCTGAAACAAAGCTTGGTAAATAGTAGATGCTCAGTAAATACTAAC
Celera SNP ID:            hCV10075610
SNP Position Genomic:     99843
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47682):
AGTGCTGGGATTACAAGCGTGAGCCACCATGCCCGGCCAGTAAACCTTTTCTTAATGGGTAGAAGGAGGAGTACACTCTAAAAAAAAAAAAAAAAAAACA
R
TAAAAACGATAGTATATTAAATATATAAACCAGTAGCATAGTTGTTTATTATCATTACCAAATATTACATATGGCACATAATTTTATGTGCTTGACTTTT
Celera SNP ID:            hCV8098421
SNP Position Genomic:     398292
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47683):
CAAGACTCTTGGGTAAATACGCACTTCAACTCATTAATTTATGAAGAAACCAGTAAGATGCCATGGTTATTCCAAAGGGCATTTAAGAAGCTAAGGTATT
Y
GTAAGGAATTTAGCAAAGAAATGTGAAGACGAGATTGCTGAGTTAGATAAAAAGTGGTTAATGTTCATCATGCCTAAACTTTTGGGGGTTATCTGTTCTA
Celera SNP ID:            hCV10076270
SNP Position Genomic:     24912
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47684):
GACCAACTGGGAGCCTGTTAGGACTGCAAATCCTGTCCTCTGGACCTAGAGAATGAAAGCCTCTGGGGGCAGGCTCAGAAATCTGTGTTTCCAGATTCCA
Y
TGGGTTTTCAACTCCATCCAGAATAATTCTTCTGGTGTCACTGTGAATATTTGCTGATCCTTCTGACGTCTATCCGTGGTGCTTGTTTCTGAAGTGTAGT
Celera SNP ID:            hCV10076271
SNP Position Genomic:     24331
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47685):
TACACAGTGGGTCTCGGGCACTAACTCACAGATCACACTTCTGAAAACAAGCTCCTAGGATGCCATATCTCAGAGTACGGGCTTCGACGGGGCCCTTCAC
M
CAGCTCCAGGACCAACTGGGAGCCTGTTAGGACTGCAAATCCTGTCCTCTGGACCTAGAGAATGAAAGCCTCTGGGGGCAGGCTCAGAAATCTGTGTTTC
Celera SNP ID:            hCV10076272
SNP Position Genomic:     24221
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,8)   total(A,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47686):
CATTTTAGCATTCACATGGGAATGAGACTATGTGGTATTTGCCTTGCTGTGCTTGAGTTACTTAACATAATGTCCTCCAGGTTCATCCATGTTGTCACTA
R
TGATAAGATTTCCTGTCTCATATAATATATACATATATATGTGTATGTGTGTGTGTGTGTATATATATATATATGTGATATTCATGTATTGATGGACATT
Celera SNP ID:            hCV16150589
SNP Position Genomic:     675903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47687):
AGTTTCAGAGGGCTCTTCCCAAACCCCTGAGGTTAAGGAAACTCTTGTACACAGTGGGTCTCGGGCACTAACTCACAGATCACACTTCTGAAAACAAGCT
S
CTAGGATGCCATATCTCAGAGTACGGGCTTCGACGGGGCCCTTCACCCAGCTCCAGGACCAACTGGGAGCCTGTTAGGACTGCAAATCCTGTCCTCTGGA
Celera SNP ID:            hCV10076273
SNP Position Genomic:     24174
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47688):
GTGACAAAGCCATTAGCCATGCACAGTGAAACAAGGAAAGCAGCCTAGAGCTGGTCCCCAGACCAGGCCCAGTGCACGAGTTTGGGTGCTGGAAGGGGAG
S
CTTTATGGAGGCAAAGCTGAGGGGCTGTACGTGTCTTCATAGGTCTCCAGTCTGTAAAAGCAACCACGCTTTGGGCTGGGGCAGAAGTCAGGACTTGAAC
Celera SNP ID:            hCV10076274
SNP Position Genomic:     23617
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,13)   total(G,13|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47689):
TAAGGTCTAAGGCTGGGAAAGGAGCTCCCACTTCTTACATTCAGTGCTCATCACTCTGCAAATCAAGGCCCCCCGAACTCCTCCCACCCCTGCCTTCTGC
R
TCTCCCTCTGTGCCCTCCATCACCCCCCTACGGAGTTCCTTTGATTCTCAGGTCCCTTAACCATGGAACGTACTCCTGTCTGCCCTCACTCGTGGGTTGA
Celera SNP ID:            hCV10076275
SNP Position Genomic:     23382
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47690):
TGGCACCCTTTGGCTGGTGCGGCTGAAGAATTCAATAGCCTAGTAATGAGAAGTCAATCTAAGGTCTAAGGCTGGGAAAGGAGCTCCCACTTCTTACATT
S
AGTGCTCATCACTCTGCAAATCAAGGCCCCCCGAACTCCTCCCACCCCTGCCTTCTGCGTCTCCCTCTGTGCCCTCCATCACCCCCCTACGGAGTTCCTT
Celera SNP ID:            hCV10076276
SNP Position Genomic:     23323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,8)      total(G,1|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47691):
AATAGGGAACAATGTATAATGCACGCAGTAATGTACAGGGCATAATAAAGAATATATGCAAGATATAATTTTATAGCATTTAATTGCAGTATTTACATTG
K
TCTTTTTCTCTCTCTCTTTGGTGGGAGAGCTGGCTTTCCATTAGTTAAATGTGCATATGATGAGACTTGACTATATTCATTTAAGCCACATTCCTAATCA
Celera SNP ID:            hCV10076277
SNP Position Genomic:     21522
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47692):
AATACAAAATTAGCTGGGTGTGATGGCACATGCCTGTCATCCCAGCTACTCAGGAAGGCTGAGGCAGGAAAATCGCTTGAACCCGGGAGGCGGAGGTTGC
S
ATAAGCCAAGATCGTGCCGTTGCGCTCCAGCCTGGGCAACAAGAGTGAAACTCCACCTCAAAAAATAAAAAAGAGTTAAGGGCAGGCTGTCTTGGACACA
Celera SNP ID:            hCV506377
SNP Position Genomic:     523195
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47693):
GCTTATACCTGGAATCCCAGCCCTTTGGGAGGCCGAGGCGGGCAGATCACCTGAGGTTGGGAGTTCAAAGACCAGCCTGACCCACATGAAGAAACCCCGT
M
TGTACTGAAAATACAAAATTAGCTGGGTGTGATGGCACATGCCTGTCATCCCAGCTACTCAGGAAGGCTGAGGCAGGAAAATCGCTTGAACCCGGGAGGC
Celera SNP ID:            hCV506378
SNP Position Genomic:     523085
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47694):
AGCCACACACCACGTCTCTGTCTCAGAGTCTATCCTCGACCACAGGGTTTAAGTCCTTGATGTGCACACTGGGCCCTGGAGAGAAGGTGCCTGTTCTCAC
S
GGCTGACCCCACAAGCCTGTGAGCCGTAAGCGGTGTGATTCGCTAACAGTTGAATGGCACTGGCTATGTGTGTATGTGTATGTGTGTGCGTGTGTGTGTG
Celera SNP ID:            hCV27496190
SNP Position Genomic:     1110455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47695):
TCTCTACTTTTTGTTTGTGTTGAAATTTTACTGTTGGGAATTTACGAATATGGCAACTAATGATTTAAACCAGGGGTAGGTATCCTTTTTCTGTAATGAG
S
CATCTAGTAAATAGCTGGTTTCTCTTGAAACTGTTCAATTCTATCCGTGTAGCATTAAAGCAGCCACAGCCGATATGTAAATGAATGGGCAGGGTAATAA
Celera SNP ID:            hCV10076280
SNP Position Genomic:     19488
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,12)      total(G,2|C,12) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47696):
ACTGGGGGAAGACAATATCTCAAGCACAATTCTCAGCATTGAGGGAGGCAGCAGTGATTAAGAAAGACAAGATTGCCTGCCCCCGTGGAGTTTGTGTTCT
S
ATAGCAGAGAAAGACAGGAAACAAGAAAAATAAATAAATATGGTAGTTTTGCGTAGTGATAGTGCTATAGAAAAACGTTCAAATGGGGTAGAGTGATAGA
Celera SNP ID:            hCV10076281
SNP Position Genomic:     19107
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47697):
TTTCCTGTTAATTTAAGTGCTTTAGTGAGGGTTGCCATTGATTGAGCAAACATGTGTTGAGTGCTTATTATGTACCCAGCTCCATTTTCCGTACTAGCCA
N
AGAGCAGCGAGAGCATGGCCTTTGCCCTCCAATCCTGTTCTGGTGGACAGACACTCTCTCCCTTGACAGGGTCCTCACCACTGTGTGCACCGTCCCGCCA
Celera SNP ID:            hCV10076282
SNP Position Genomic:     18843
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   ;no_pop(A,-|C,-|G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47698):
TAAGCAGCCTCTGTAGGGCACAGGTGAGTGATGATGGGATTCACCGCTGACAGCTCTGCTGTAGATTTCCCCGGGCAGGTGACCTCTGAACTGCCACCTG
W
AGTAGAAGTAGGAAGTAACCAGCAACTGGGGTGGGGATGGTGAAGAAGAAGGAGAAAGTGTTAAGGAAGGAAACAGAAAGTGCCAAGCCCTGAGGTAGGT
Celera SNP ID:            hCV10075627
SNP Position Genomic:     97454
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|A,9)      total(A,9|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47699):
TGGTTCCCCCAGCAAGAACATCCCAGTGAGAATGGCCCACAGATGCCTGGGCGTGACTCACCTGCAGCTTCAACCATGCAGGTAAATTTGCCTGCTGCTG
K
GTCGTGTGGCTGGATGGAATTCTTCCCTAGGGATGCTAAGAAACCCTGTTGCCTAAGTCAGTGCTTCCTGCAAGCTACTCTTTGTAATTCTTTCCCCAAA
Celera SNP ID:            hCV10076283
SNP Position Genomic:     18523
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47700):
TTGTTCTTATGGGCAGCTGGAGCTGAATCCCACTGGGGACTCTGGGAGACAATGAAAACCACATCTCATAGTTATCCCCACTGAGGAATGAGGGACCTGG
K
GTATTTATCTACCAACTCCCCTTCTATTATTGGTTGAGTCCCTCTTCTGACGAGTCACAGGTATTCCCAGTAAGCAGCCTCTGTAGGGCACAGGTGAGTG
Celera SNP ID:            hCV10075628
SNP Position Genomic:     97283
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,10)      total(G,10|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47701):
GGATGACTACTTTTTTGAGTTCCTAGTCTCTCAAAGTGGGTCTGGGCCCTGGACTTCCTGTCTGGGCTACTGATTGCAACCTTCAGAACAGGGTCAGCCC
R
GGGTCATTTGTGTTCTTTGTCTCCATGTCCTTGCTTTTGACCAGGGCCAAACAACCCACCTGCACTGCATGGTTCCCCCAGCAAGAACATCCCAGTGAGA
Celera SNP ID:            hCV10076284
SNP Position Genomic:     18353
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47702):
GTTTAAGGAACTGACCCAAGATCACAGAATAATAAGTGGTGAGCTGGGATTTGCACCTGGGTCTGTGCGTGGGCGAGTCCACCTGGGGCCCGTGTCTTCA
S
TCAGCGAGTATTTATTGAGCATTTAGGGAATTCAGAGGTAAACGAGATGAACTGAATCCCTGTCTCATGGAGCTTACAGTTTTGTGGGAACAGCAGATAA
Celera SNP ID:            hCV10076285
SNP Position Genomic:     16910
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47703):
CTGATTCAGCCTGTCTAACATTGCCCATGCCTGCCTTTGGACCTGTAACATCTGCAGACCATGAGAGCAACCTGAGGCCAAATTTGCTGTGTGGTGATCA
M
CATAACCGTTTCTTGATTTACTCATTCATTGAACATTTACTGAGAGTGACTGAGAGTGAACTAGTTTGTGTGATTTTTCCCCCAGGAGATTTAGAATAAG
Celera SNP ID:            hCV391476
SNP Position Genomic:     971029
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,8)      total(A,4|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47704):
ACCCTGCATGGCAAAATTTGATTAGGAGATCACATCTGAATGGGAACAGGTTCGAGGGAACGGAGGATGAATCAGGCTCAGCAAAGCCAACTTTGATTGC
R
CTTTTCTAAGGGGAGGATGTGGTGCTGATTAAACGTCTGAAATTAGTGGGCAGGGACCATTAACATGCAAAGGACTGATATTAGGCAAAGGTTGTAAAGC
Celera SNP ID:            hCV391477
SNP Position Genomic:     969921
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47705):
AAAAGTATAACCCAATGACAGCAGAAAGGCCATGTCTCAAATTGCTTTCCTGTCCATGGCTAGAGTGGGTGGGTGTCATTTGCTGATTTATTACTCTCTC
M
GTGGGCTCCTTTCGTTTCTAAAGCCACCTGGAATTATGGCCAGCAATAGAACTCTAAACCAAAGTCAGCTTTGCACGAAAATGCATTTGACTTAAGAGAC
Celera SNP ID:            hCV391478
SNP Position Genomic:     969696
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47706):
CACCACAGCACTCCAGCCTGGATGACAGAGCAAGACTCTGTCTCAAAGAAATAAATAAATAAACAAAAATTTAAAAAAGCAGAGCTGAGATTTGTATCCT
K
ATTTTGGCTTAAAGTCCTTGCTGTTTTCACTATGCCATAAGTGAGCAAAAGCAGAGAGTTAAAGCATGGTTTCTGGCTGGGCGCGGTGGCTCACGCCTGT
Celera SNP ID:            hCV391479
SNP Position Genomic:     966640
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47707):
GTTTGGAAAATAGGGAATTTTTCTACCAAAGCATAGGAACTCCAGGCCCCAGCCCCTCCTCACTCTTTCTCCCTGTTCATTCTCATCTCTTTCCAGTTCC
Y
TACCTCCTGTAACCTGTGGGCATACTAAAGTACCAAGGTAGGCTTAGCTGCAGGCACGGTACTTCCATGATTCAGTGCCCCGCCCCCACCACTGAGATAG
Celera SNP ID:            hCV28951548
SNP Position Genomic:     383659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47708):
ATTCTATTTAGTGGCTACCCAGATAATCCAAAATAATCTCTTCATTTGGAAATCATTAATTTGGCCACATCTGCAATGTCTTTACCACAAAAGTTAATAT
W
GATGAGTTCTAGGGATTAGGATTTGGTACCTTTGGGGATCATTATTCAGCCTACTGTAGTAGGGGTTCATCAGTTAGTGGGGGGAAGTAGCCAGTTTATT
Celera SNP ID:            hCV10075635
SNP Position Genomic:     96813
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,9)   total(A,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47709):
AAACCAGAAAGCAAAACCCAAACCAAGACACAACCAAGTAATTTGTAGCTCTTGCCAATTTCTGTGATGTAAATACTCCCGTCATGGGCAATTTGAATCT
R
CCAACCTGAGAGTTTCCTAAAAACTTAACAAGGGGCTCTTGCTACCTGATACTAACTGGCTCCAGCACACCATGGACCTGGATCCTGTTTCTAGCTCACC
Celera SNP ID:            hCV10076291
SNP Position Genomic:     15884
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47710):
ACTAAAGTACCAAGGTAGGCTTAGCTGCAGGCACGGTACTTCCATGATTCAGTGCCCCGCCCCCACCACTGAGATAGGCCACTCCCACCAACAACCTCAG
R
CCTTCAGATGCCCAATTTCTGTGTAGAGCTTTGAGCAGTGTTTTCCAGTTGTGAAGGGCAAAGGAAATTCTCCAATTATTTGTGTGTTCATCTTCTCTAC
Celera SNP ID:            hCV28951549
SNP Position Genomic:     383783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47711):
CCAATATTCCTCTGCCCCCCTCTTATGAAGGAATTTGGGATTCTATTTAGTGGCTACCCAGATAATCCAAAATAATCTCTTCATTTGGAAATCATTAATT
W
GGCCACATCTGCAATGTCTTTACCACAAAAGTTAATATAGATGAGTTCTAGGGATTAGGATTTGGTACCTTTGGGGATCATTATTCAGCCTACTGTAGTA
Celera SNP ID:            hCV10075636
SNP Position Genomic:     96774
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47712):
ATATTCAACTGGGTGCCAGGCAGTGGTATATTGGTAAATGTTTAACAACTGGGCCACTCTAAAGAAACACCCAAACCAGAAAGCAAAACCCAAACCAAGA
Y
ACAACCAAGTAATTTGTAGCTCTTGCCAATTTCTGTGATGTAAATACTCCCGTCATGGGCAATTTGAATCTGCCAACCTGAGAGTTTCCTAAAAACTTAA
Celera SNP ID:            hCV10076292
SNP Position Genomic:     15812
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47713):
AAAGTATTTACTATTTAGTCCCTAAAAGAAAAAGTTTCCTGACTCTTTATCTAACTTAAAGTTACAGCCAAAGAGGCTTCTGGGCGTCTTCTCAAATAAG
R
GGGGCCTGAGAAGTTCAGCCGTTGGGGACTTTTCCTCCTAGGCCCCAAGCACTTGAGCAACTTGACTTCAGGGAGATTCACCTGAGACCAAATGGTTCCA
Celera SNP ID:            hCV10076293
SNP Position Genomic:     13808
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47714):
GCTGGGCATCATCATTCCATGAGTGTTGCTCCCTCACGGTATAGACATAACCAGAACGTCACAATAACTTACTCTACTTAGACTTGCCAAGGCCTCCGGG
W
ACACTGCTCTAATATTCAGCACCTTTGTAACTTCAGGATAAAGCTGAATCTGCAGCTCTGTCACCTACTTTTTTTCTTTGAGACGGAGTCTTGCTTTGTC
Celera SNP ID:            hCV10076294
SNP Position Genomic:     12355
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,8)   total(A,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47715):
ACTGGTACTGGCCTGTGGCCTGGAGGTTGGGAACCCCTGCTCTACGTAGTGTTCTACCAAGAGCATGGCTGTCCTTGGAGAACAGTGACAGCTGGGCATC
R
TCATTCCATGAGTGTTGCTCCCTCACGGTATAGACATAACCAGAACGTCACAATAACTTACTCTACTTAGACTTGCCAAGGCCTCCGGGAACACTGCTCT
Celera SNP ID:            hCV10076295
SNP Position Genomic:     12265
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47716):
CAGGCCATGGACTGGTACTGGCCTGTGGCCTGGAGGTTGGGAACCCCTGCTCTACGTAGTGTTCTACCAAGAGCATGGCTGTCCTTGGAGAACAGTGACA
S
CTGGGCATCATCATTCCATGAGTGTTGCTCCCTCACGGTATAGACATAACCAGAACGTCACAATAACTTACTCTACTTAGACTTGCCAAGGCCTCCGGGA
Celera SNP ID:            hCV10076296
SNP Position Genomic:     12255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,7)      total(G,7|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47717):
CACGCACACAGTTCACACAGGATTCCAACTCCTATGAAAATCCAGTGCCACGGCTGATCTGACAGGAGGCAGAGCCCAGGCGGTAATGCGAGTGCTGGGG
R
GCCATTATAAATACAGATGAAGCTTTTGCTTGCTCACGGGCCACTCACCTCCTGCTGTGTGGCCTGATTTCTAACAGGCCATGGACTGGTACTGGCCTGT
Celera SNP ID:            hCV10076297
SNP Position Genomic:     12080
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47718):
TCCATGCACGGACCCCCCATGCGGAAGATATGGCAGAACTCGTGATTGTCGGGGGGAAAGACATCCAGGGCTCCTTGCAGGTAACACATCTGTTTGAGAT
M
ACTTGGGTTCAAGGAGGACATTAGGTTCTGTCTGTCTTATGTGGAAAATGGGTCTTTAATTTATTATGTTGGCTAAGATTCCTTTTGTTATTGTTGTTGC
Celera SNP ID:            hCV25619591
SNP Position Genomic:     410716
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,40)   total(A,77|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:47719):
CGTGCCTCCGTAGCTTGCCATAATCGTCACCACTCTCTACTACCCAGCCTTCTGTGCTCACTAATTTTGCCTGCTTGCCCCTAGGGCTTTTTGAGTTTGG
R
ACCTCTGCTTTCACAAATGTTGAGGTTTGATCAAATTGATGCAGTTTATTTCTCAGTGATGGACTATTTGGAAAGGGAGGGACTGGCCTTTTCTCCTTCC
Celera SNP ID:            hCV10076298
SNP Position Genomic:     11287
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,10)      total(G,10|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47720):
TTCGTCCATGCACGGACCCCCCATGCGGAAGATATGGCAGAACTCGTGATTGTCGGGGGGAAAGACATCCAGGGCTCCTTGCAGGTAACACATCTGTTTG
W
GATAACTTGGGTTCAAGGAGGACATTAGGTTCTGTCTGTCTTATGTGGAAAATGGGTCTTTAATTTATTATGTTGGCTAAGATTCCTTTTGTTATTGTTG
Celera SNP ID:            hCV25619592
SNP Position Genomic:     410712
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|T,1)   total(A,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:47721):
GTTTGGTGTGACTTTCATCACCAAAACCTCACTCTTTTATTGGAAAAAGTCTCATCCGCTCTCACCAGAACCCTCCTTGCCTTTACAGATACACACGCCC
K
GGTAAGCCTTCTTCAAAATCTGAACAAAGCAAACTACAACCTGCCCATCATGGTGACAGATTCAGGGAAACCACCCATGACGAATATCACAGATCTCAGG
Celera SNP ID:            hCV25619593
SNP Position Genomic:     1165364
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,35)   caucasian(T,40)   total(G,1|T,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:47722):
CTCCCTAGTAGCTGGGATTACAGGTACCTGCCACCATGCCTGGCTAATTTTTGTGTTTTTAGTTGAGACCTGGTTTCACCATGTTGGCCAGGCTGGTCTC
R
AACTCCTGACCTCAGGAGATCGGCCTGCCCTGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGCACCCGGCCTACCCACTTTTAATTGGGTCA
Celera SNP ID:            hCV319556
SNP Position Genomic:     503114
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47723):
ATTCCCCACAGCCCGCTTCTTCTGCAGCCACCTGGGATCCCAGGCCTGGCTCCTCAGGTATGAACAGGCTGCACAGACAATGAATGGCTGGGCTGTAGGA
K
CTCTTGCTCCTGCAGTAGGCACTCAGCAGTGGCCTTATTCTAGAGTTAGGGTGGAAAGTCATCTTTCTCTGCTGAGAGAGGCAGCTTGGGGGAAGGCAGG
Celera SNP ID:            hCV10076299
SNP Position Genomic:     10722
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,13)      total(G,1|T,13) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47724):
GAATGTTGGAAGATCATTCATATGCAAAAGAGGAAATTGGAAAAAACCAATAGCAGCTTTGAATATTACGGGATCAACATGGTAGATGATGTTGAAATTA
M
GCAGGAAGATGTCAATGGTTAAGAAACAAGGCTCATTGCTTTTATAGATTATATTCAGGTGATCACCAGATAGGGCCCCCTAGGATGGTAGTATGTTGAC
Celera SNP ID:            hCV319557
SNP Position Genomic:     504593
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47725):
TCAAATTTGAAATCCACAAACAAGCTGTTCCTGATAAAGTCTGGAAGATCTCCAAGATCAACAGTAAGTCTGGCTAAAGCATTTCTGCCTATTCTTCCAG
S
TTTCAGTTTATTTTCTCTTTCCCAAAATGCTGTTTCTCTACTGTTCTCTCAAGTATTCTCATTTGGTTCATTTTAAGTTATTGGCATATTATAAATACTG
Celera SNP ID:            hCV25619594
SNP Position Genomic:     1162337
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|G,1)   total(C,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:47726):
GTTGTTAGAAACAAGTGCTCAGTGCCGCAAAGGAGAACCAGCACTCAGGAAAAGAGTTTTCTCAGCAAGGCAATTTACTTCTGCGGAAGGGTGCTGCTTG
Y
ACTTCTGGCCACTGGGAGAGCACACCAAACAAAAGAGGGAAGGGGTTTTTATCCCTCACGTGGTTAGTCCCTGCTTCTGTGTCCTGTCCCCATTGGCTGG
Celera SNP ID:            hCV319558
SNP Position Genomic:     505077
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47727):
TACTAAAAATACAAAAAAGAAAAAAAAAAGCCGGGCATGGTGGCATGAGCCTCTAGACCTAGCTACTCCAGAGGCTGAGGCAGAAGAATCACTTGAGCCC
R
CGAGGGAGAGGTTGCAGTGAGCTGAGATCGCACCACAGCACTCCAGCCTGGATGACAGAGCAAGACTCTGTCTCAAAGAAATAAATAAATAAACAAAAAT
Celera SNP ID:            hCV391480
SNP Position Genomic:     966509
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47728):
CCTCGTCAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAAAGAAAAAAAAAAGCCGGGCATGGTGGCATGAGCCTCTAGACCTAGCTACTCCAGA
R
GCTGAGGCAGAAGAATCACTTGAGCCCACGAGGGAGAGGTTGCAGTGAGCTGAGATCGCACCACAGCACTCCAGCCTGGATGACAGAGCAAGACTCTGTC
Celera SNP ID:            hCV391481
SNP Position Genomic:     966481
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47729):
AGACCAGCCTAGTCAACGTGGTGAAATCCCGTCTCTACAACAAAATGCAAAAATTATCCAGGCGTAGGGGTATGCCCTTGTAGTCCCAGCTGCTAGGGAG
R
CTGAGGTGGGAGGATCACTTGAGCCCAGGAGTTCAAGGCTGCAATGAGCCAAAATCATGCTATTGCACTCCAGCCTGGGTAACAGAGCAAGACCCTGTCT
Celera SNP ID:            hCV391483
SNP Position Genomic:     964384
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47730):
CAGGCCACCCTATTTAAAACAGAGCCTTGGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGTGGGTTGTTTGAGTCCA
S
GAGTTTGAGACCAGCCTAGTCAACGTGGTGAAATCCCGTCTCTACAACAAAATGCAAAAATTATCCAGGCGTAGGGGTATGCCCTTGTAGTCCCAGCTGC
Celera SNP ID:            hCV391484
SNP Position Genomic:     964276
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47731):
CAGGAAGCAAAAGGGGAGGAGAAGCCTTTGCTGACCCTTCAAGGGCAGGTCCAGTTTGGAGAGGTTCTAAGGGCAGTAAATATTCATTCAGGCATTGGCT
S
CACTGATGTTTAATGAGCATCTATTAATACTGCATGCCCAGCAGTGCCCTTGCTGTCAAGGATATGACAATGAACATACATAGATGGTCTCCAACTTCAA
Celera SNP ID:            hCV391485
SNP Position Genomic:     961276
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47732):
CCACAGGAAGCAAAAGGGGAGGAGAAGCCTTTGCTGACCCTTCAAGGGCAGGTCCAGTTTGGAGAGGTTCTAAGGGCAGTAAATATTCATTCAGGCATTG
R
CTGCACTGATGTTTAATGAGCATCTATTAATACTGCATGCCCAGCAGTGCCCTTGCTGTCAAGGATATGACAATGAACATACATAGATGGTCTCCAACTT
Celera SNP ID:            hCV391486
SNP Position Genomic:     961273
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47733):
CATGAGTGTTCAAAAGCAGAAGAGGTCACATTCCACAGGAAGCAAAAGGGGAGGAGAAGCCTTTGCTGACCCTTCAAGGGCAGGTCCAGTTTGGAGAGGT
W
CTAAGGGCAGTAAATATTCATTCAGGCATTGGCTGCACTGATGTTTAATGAGCATCTATTAATACTGCATGCCCAGCAGTGCCCTTGCTGTCAAGGATAT
Celera SNP ID:            hCV391487
SNP Position Genomic:     961241
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,5)      total(A,2|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47734):
ACCTCTTACATGTTTTTATTTTCCCATAAGTTCTCCCCTCATAATGCAAAGGTAGTTGCCAGCAGCTCCAGGCTCACATCCATCCTTCAGAGAAACTCCA
R
TGGAAAGAGTCTAACACAGTTCAAACCAAAGCACAGGATGAAGTTCACTTAAATGAATATGGGTCCTGTGCTCGTCCATGAATCAGTGATGTGGCCAACA
Celera SNP ID:            hCV28034939
SNP Position Genomic:     299395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47735):
CTACAGGGAGACACAAATAAGAGAGACGCACAAATGTCATGAGTGTTCAAAAGCAGAAGAGGTCACATTCCACAGGAAGCAAAAGGGGAGGAGAAGCCTT
W
GCTGACCCTTCAAGGGCAGGTCCAGTTTGGAGAGGTTCTAAGGGCAGTAAATATTCATTCAGGCATTGGCTGCACTGATGTTTAATGAGCATCTATTAAT
Celera SNP ID:            hCV391488
SNP Position Genomic:     961204
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,6)      total(A,2|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47736):
CAATACCAAGAGCAGGAAGTTCATGTGGGCACAATACTATTAACCAGACCTCACGAAGTCTCCACCCATTTTTGTGTGTTTTCTGTGTGTGTGTGTGTGT
R
TGTGTGTGTGTGTGTGTGTGTGTGTGGTCCTACGCATTTGATCACACGTACAGATTTGTATGACCACCACCACCATCATGATACAGGACAGCTGCATGGT
Celera SNP ID:            hCV11951058
SNP Position Genomic:     1017140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47737):
GCTACAGGGAGACACAAATAAGAGAGACGCACAAATGTCATGAGTGTTCAAAAGCAGAAGAGGTCACATTCCACAGGAAGCAAAAGGGGAGGAGAAGCCT
K
TGCTGACCCTTCAAGGGCAGGTCCAGTTTGGAGAGGTTCTAAGGGCAGTAAATATTCATTCAGGCATTGGCTGCACTGATGTTTAATGAGCATCTATTAA
Celera SNP ID:            hCV391489
SNP Position Genomic:     961203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,6)      total(G,2|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47738):
CTAAAGTACCAAGGTAGGCTTAGCTGCAGGCACGGTACTTCCATGATTCAGTGCCCCGCCCCCACCACTGAGATAGGCCACTCCCACCAACAACCTCAGG
M
CTTCAGATGCCCAATTTCTGTGTAGAGCTTTGAGCAGTGTTTTCCAGTTGTGAAGGGCAAAGGAAATTCTCCAATTATTTGTGTGTTCATCTTCTCTACC
Celera SNP ID:            hCV28951550
SNP Position Genomic:     383784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47739):
ACTTAATTTCCTTATTTTTCCATTGTTCCATGATCACAGGCTCACAGAAGTTGCAAAAATAGTGCCAGAAGCACCTTGAACCCTTCTCTCAGCTTCCTCC
R
TAGTAACATCGCCTATAACTGTAGTGCAACAATACCAAGAGCAGGAAGTTCATGTGGGCACAATACTATTAACCAGACCTCACGAAGTCTCCACCCATTT
Celera SNP ID:            hCV11951059
SNP Position Genomic:     1017010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47740):
ATTTTGTCATCTTCTGAGAGGGGCTACTTCTGGAGACAGTGACACAGAAAACCAGTGCTCTTGATTTAAGCAGAGTGGATCAGTAAGAGGTGTCTCTTTC
M
TTTGTTTAGATTATGATATTTATTCAAAGAGAGGAGCAGTGAACTGTGGTTGAGTTTGTTATTTTAATGAAATTACACTTGCAACTATTGTAGGTGTCTT
Celera SNP ID:            hCV28951551
SNP Position Genomic:     387615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47741):
CCTGTGTGATCTTCTACCACCTTTCCGGCCCTTTCCTTTCTTCCCTTCTTCTTCTACTCCCAGTTAAGCTTTCATTTTCCAATGCTCTTCAGCAATCGCT
R
TTTTACTCTCCCAAACTTCTACAGCCAAACCCAGCAAGTGTTCAGTTCAGCAGAACAAAGGGTCTTGCTCTTTGCTGGATCTACCTTTCTTTCTTAGAGG
Celera SNP ID:            hCV28951552
SNP Position Genomic:     390060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47742):
AGGGCTGCTGGTTGCCCATGTTTATAGTTTTTTCTTGATGATATGCTAAACAAAGGGTGAATTATTCATGCCTCCCCTTTTTAGACCATATAGGGTAACT
K
CCTGATGTTGCCATGGCATTTGTAAACTGTCATGGTGCTGGTTGGAGTGTAGCAATGAGGATGACCAGAGGTCACTCTCATCGCCATCTTGGTCTTGGTG
Celera SNP ID:            hCV26613300
SNP Position Genomic:     1150823
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47743):
ATCTTCTACCACCTTTCCGGCCCTTTCCTTTCTTCCCTTCTTCTTCTACTCCCAGTTAAGCTTTCATTTTCCAATGCTCTTCAGCAATCGCTATTTTACT
Y
TCCCAAACTTCTACAGCCAAACCCAGCAAGTGTTCAGTTCAGCAGAACAAAGGGTCTTGCTCTTTGCTGGATCTACCTTTCTTTCTTAGAGGGGAGTTGG
Celera SNP ID:            hCV28951553
SNP Position Genomic:     390068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47744):
CCCCAAGGGCTGCTGGTTGCCCATGTTTATAGTTTTTTCTTGATGATATGCTAAACAAAGGGTGAATTATTCATGCCTCCCCTTTTTAGACCATATAGGG
Y
AACTTCCTGATGTTGCCATGGCATTTGTAAACTGTCATGGTGCTGGTTGGAGTGTAGCAATGAGGATGACCAGAGGTCACTCTCATCGCCATCTTGGTCT
Celera SNP ID:            hCV26613301
SNP Position Genomic:     1150818
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47745):
GCCCCAAGGGCTGCTGGTTGCCCATGTTTATAGTTTTTTCTTGATGATATGCTAAACAAAGGGTGAATTATTCATGCCTCCCCTTTTTAGACCATATAGG
R
TAACTTCCTGATGTTGCCATGGCATTTGTAAACTGTCATGGTGCTGGTTGGAGTGTAGCAATGAGGATGACCAGAGGTCACTCTCATCGCCATCTTGGTC
Celera SNP ID:            hCV26613302
SNP Position Genomic:     1150817
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47746):
CTTATGTGGATTATTCATTGTTATTATATTTAATCAATTGATTCTTGTATACTGATCTTGTGTCCTTTAAACTTGCTGGGAGCTCTCTTTTAACATAGAC
R
TTATTATGCTTATTTTATGTCTTCATTTATTTGCTCAAATCTCGTAGTAGAGCTACTGGAGCCCAACATTCATATTCTGTTTGTTATACACTCATAATTA
Celera SNP ID:            hCV11673461
SNP Position Genomic:     749524
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47747):
AAAGAATGGCTACGACATCGAGCAGCCCCAAGGGCTGCTGGTTGCCCATGTTTATAGTTTTTTCTTGATGATATGCTAAACAAAGGGTGAATTATTCATG
Y
CTCCCCTTTTTAGACCATATAGGGTAACTTCCTGATGTTGCCATGGCATTTGTAAACTGTCATGGTGCTGGTTGGAGTGTAGCAATGAGGATGACCAGAG
Celera SNP ID:            hCV26613303
SNP Position Genomic:     1150793
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47748):
CTTCTCCTTCAGTCCTCTGTAAGATAGATGTTCCAATAATGCCAGCTGATTCAAAATTGAAATATTGTTCAAAATATGCTTAGATTGATTTTTTTAAAAA
A
TTGTTATTCAGCCCCAGAGTGAAATGACTACTGAACTACTGAATTTATAGCCCCCAAACTGAGGGTGGGAGGGGCTCTGAACTGAACTTCAGAAAGATAC
Celera SNP ID:            hCV26613304
SNP Position Genomic:     1145663
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47749):
CCTGTCTTCTCCTTCAGTCCTCTGTAAGATAGATGTTCCAATAATGCCAGCTGATTCAAAATTGAAATATTGTTCAAAATATGCTTAGATTGATTTTTTT
W
AAAAATTGTTATTCAGCCCCAGAGTGAAATGACTACTGAACTACTGAATTTATAGCCCCCAAACTGAGGGTGGGAGGGGCTCTGAACTGAACTTCAGAAA
Celera SNP ID:            hCV26613305
SNP Position Genomic:     1145658
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47750):
TGTCCCAGCCTGTCTTCTCCTTCAGTCCTCTGTAAGATAGATGTTCCAATAATGCCAGCTGATTCAAAATTGAAATATTGTTCAAAATATGCTTAGATTG
W
TTTTTTTAAAAAATTGTTATTCAGCCCCAGAGTGAAATGACTACTGAACTACTGAATTTATAGCCCCCAAACTGAGGGTGGGAGGGGCTCTGAACTGAAC
Celera SNP ID:            hCV26613306
SNP Position Genomic:     1145650
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47751):
TTTCTGAAAGGTCAAAATAGTGCCTTCAGAGTACAGGCACTCTTTTATGGAAGACTTCAATGAACACAGAATTGCTGCCCTCTCTTAAGAAAGGATAAAA
T
AAAAAAAACTGTTAAGGAAAAACCCAAGCGGTAGAGAGAACATTCGGGAATGCAATAAAATGGAATCCCTTTGGGGATGTGCTGGCAGTGGAGCAAGGCA
Celera SNP ID:            hCV26613307
SNP Position Genomic:     1144631
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47752):
AGGCTGAGGCAGGTGGGTCACTTAAGGTCAGTAGTTCGATACCAGCCTGGCCAACATGGTGAAACCCCTTCTCTACTAAAAATACAAAAATTAGCCAGGC
R
TGGTTGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCTAACGCCACTGCAC
Celera SNP ID:            hCV26613308
SNP Position Genomic:     1144170
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47753):
AGAGGAGTGGAAGCAAAGAGACCCACTAAGAGGGGAGTTTGGTGGTGATCTGAACAAAGGTGACTTGGACTATTGAAAATTGATCTTGGACGGGCATGGT
R
GTTCACGCCTGTAATCCCAGCACTGTGGGACGCTGAGGCGGGAGGATCACCCGAGGTCAGGAGTTCAAGACCATCCTGGCCAACGTGGCGAAACCCCGTC
Celera SNP ID:            hCV319560
SNP Position Genomic:     506309
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47754):
GTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGGTCACTTAAGGTCAGTAGTTCGATACCAGCCTGGCCAACATGGTGAAACCCC
K
TCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTTGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGACCCTGGGAG
Celera SNP ID:            hCV26613309
SNP Position Genomic:     1144138
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47755):
GGTGGTTCACGCCTGTAATCCCAGCACTGTGGGACGCTGAGGCGGGAGGATCACCCGAGGTCAGGAGTTCAAGACCATCCTGGCCAACGTGGCGAAACCC
Y
GTCTCAACTAAAAATACAAAAATTAGCCAGTGTCATGGCACGCCTGTAATCCCAGCTACTTGGGAAGCTGAGGCAAGAGAACCACTTGAACCCAGGAGGT
Celera SNP ID:            hCV319561
SNP Position Genomic:     506406
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47756):
CAGCCGAGGTGGAGGACTGCCGGTCTTAAGCAGTCCTCCAAGAGTGGTTGTGGACCAGCTACATTAGCATCGCCTGGGAGCTTGCTAGAAATGCATATTT
Y
CATGTCCCACCCCAAAACCACTGAGCCAAAAACTCTGGGGTTAAAGCCAGGAATCTGCGTTTTTACACAGCTTCTAGGTGATTGTGATGCACACTCAAAT
Celera SNP ID:            hCV319562
SNP Position Genomic:     507191
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47757):
CCCGGCTAATTTTGTATTTTTAGTAGAGACGAGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCCAACCTCAAGTTATCCACCCTCCTCAGCCTCC
S
AAAGGGCTGGGATTACAGGCGTGAGCCACTGCATCTGGCCCCACATTTTTTTTTATCCTGTCTTCTGTTGATGGACACTTAGGTTCATTCCATGTCTTTG
Celera SNP ID:            hCV319563
SNP Position Genomic:     502386
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47758):
AGATGGAATGAAACTATCATTTATCACATGATTTTGATAGGAAGCTGTTGTTAGGATTGAGATGCTTGCTTCTGATGATGCAGAAGACAGTTTTAATTAG
Y
ATGTGGCATTAAATAAGATCAGTTTGCATATTGGAAATGATATTCTTTTTCAATTATCTTTCAGTCCTCTGATCAGATCAAAGAGGAAGTCTCAGCTTGG
Celera SNP ID:            hCV319565
SNP Position Genomic:     500966
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,9)   total(C,4|T,9) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47759):
TGACTTGCTCAAATCCTGTAAAATTAACCATTTCTCACAGCCGCGGGCTACTTTTCTGGATGGGAAAATTTGCTGGGACTTAAGGTTCCAGGGCACAGAC
Y
GGGCGGTCAATCCCTGGCAGATCTGTAGCTCTGTTAAAGGAGACAGGGCTGGTTAAAATTTAAATAACCCTGGAAGGTCCCAGGCTGAAATATGCTACAG
Celera SNP ID:            hCV391490
SNP Position Genomic:     961009
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47760):
CTCCTGCTCTATTTATATATTGTAATACATAAATACCTTTTTCACAAAAATGAGAGTTCACTATTCATACAGTTTCATAACCTGCCTTTGCTTCTCAACA
R
TATAATAGAAACATTTTCCATGTCATTAAATATTCCCCTACTAAGCATTTATTTTTAATGTGGGTGCCTCTGGCTTAAACAGCAGCAATCTTCAGTGCTG
Celera SNP ID:            hCV391491
SNP Position Genomic:     960676
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47761):
ATCCCCCCTCCAAATTAACAGTAAAATAGGCCATGTGATCCCAGAATGCATCATTTCAGGCTTATAAAGAAAAGCAACTTAATTTCCTTATTTTTCCATT
K
TTCCATGATCACAGGCTCACAGAAGTTGCAAAAATAGTGCCAGAAGCACCTTGAACCCTTCTCTCAGCTTCCTCCATAGTAACATCGCCTATAACTGTAG
Celera SNP ID:            hCV11951060
SNP Position Genomic:     1016934
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47762):
ATTCCATCATAAACAAGGTATCCCCCCTCCAAATTAACAGTAAAATAGGCCATGTGATCCCAGAATGCATCATTTCAGGCTTATAAAGAAAAGCAACTTA
R
TTTCCTTATTTTTCCATTGTTCCATGATCACAGGCTCACAGAAGTTGCAAAAATAGTGCCAGAAGCACCTTGAACCCTTCTCTCAGCTTCCTCCATAGTA
Celera SNP ID:            hCV11951061
SNP Position Genomic:     1016915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47763):
GCGTTCATTGGCCATTTGTATATCTTCTTTGGAGAAATGTTGATTCAAGTATTTTGCCTACATTTTAACTATGTTGTGGAGTTATAAATGTTGCCTACAT
S
TTCTGGATAGTAGACCCTTATCAGATGTATGATTTGCTGAATATTTTTATTCCATTCTGTAAGTTGTCTTTTCACTTTCTTTATAATGTCCACTTCATTG
Celera SNP ID:            hCV391493
SNP Position Genomic:     959546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47764):
AGTGATACTGAACATTTTTTCATGCGTTCATTGGCCATTTGTATATCTTCTTTGGAGAAATGTTGATTCAAGTATTTTGCCTACATTTTAACTATGTTGT
R
GAGTTATAAATGTTGCCTACATGTTCTGGATAGTAGACCCTTATCAGATGTATGATTTGCTGAATATTTTTATTCCATTCTGTAAGTTGTCTTTTCACTT
Celera SNP ID:            hCV391494
SNP Position Genomic:     959523
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47765):
TCGGAGCGGTGTGCACAGAGGGAGCACAAAGAATGTCCGTTGCATTAAATCAAATCTAACAAACAGCACTTTTTCCCGGCAGCTCTACAAATAGGAACAG
R
TGTCTTTGCTAATCGCCCCTGAATGCACGGTTCAATTCAGGGCTGTAAATCCATATATCAGAGCCAGAACCAGTTAGCTGTCTGGTCTATAATAACCACG
Celera SNP ID:            hCV11951063
SNP Position Genomic:     1006268
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47766):
AATGTTCACTGGGGGATTTTTGTTTATCTTTATAATTTCTTTTCAACCTATTTCAAAATAAAAACTCAGAGCACATTGTAATATTCAATATAAACTTAAC
R
ATGGGAACAAAAATAGGATAACCCCAACCCAAAATATGAAGATGGATCTGTGTTACCAGCTGTGTGAGATTAATTAGTTACTTCAATGCCACTGTGAATT
Celera SNP ID:            hCV11951064
SNP Position Genomic:     987423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47767):
GCTGTTTTTTATGCTAGCCATTCTAGTGTCTATGAGGTGCCATCTCATAGTTTTGACTTACATTTATCTCATGATTAGTGATACTGAACATTTTTTCATG
Y
GTTCATTGGCCATTTGTATATCTTCTTTGGAGAAATGTTGATTCAAGTATTTTGCCTACATTTTAACTATGTTGTGGAGTTATAAATGTTGCCTACATGT
Celera SNP ID:            hCV391495
SNP Position Genomic:     959447
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47768):
CAGTGGATGGCGCTGCAGCCCCTTCTGTTTAGTCTTCACATCAGCAATGAAAGAGGGTGAAGTTCATGGAAATATTGTGGGGACATATCGCATGGTTTCT
K
TTCATGAAATGTCCAGAAAAGACAAACATATACAGCCAGTGGCTGTGGTAAAGTGGGAATGACTGCTAATGGGCATGAGGTTTCATTTAAGGGTGATGGA
Celera SNP ID:            hCV27532706
SNP Position Genomic:     495420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47769):
CATGGAATGTTCACTGGGGGATTTTTGTTTATCTTTATAATTTCTTTTCAACCTATTTCAAAATAAAAACTCAGAGCACATTGTAATATTCAATATAAAC
K
TAACGATGGGAACAAAAATAGGATAACCCCAACCCAAAATATGAAGATGGATCTGTGTTACCAGCTGTGTGAGATTAATTAGTTACTTCAATGCCACTGT
Celera SNP ID:            hCV11951065
SNP Position Genomic:     987418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47770):
CATCCCTCCCAGCCCTTGCTATTTTCTGTTGTTGCTGTTTTTTATGCTAGCCATTCTAGTGTCTATGAGGTGCCATCTCATAGTTTTGACTTACATTTAT
S
TCATGATTAGTGATACTGAACATTTTTTCATGCGTTCATTGGCCATTTGTATATCTTCTTTGGAGAAATGTTGATTCAAGTATTTTGCCTACATTTTAAC
Celera SNP ID:            hCV391496
SNP Position Genomic:     959414
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47771):
TATTTTCTTGTATGGGTAGAGCACATTTTGTTTATCCATTCGTCTGTTTATGGACATTTGGCACTGTTTCTACCTTCTGGCTAATGTGCTGTTCTATGAA
S
GTGTGCATACATGTATTTCTTTGAGTGCCTGTTTCTAATTCTTTGGGGTATATATCTAGAAGTAGTAGCTCTATGTTTAACTTTTTGAGGAACCATCATA
Celera SNP ID:            hCV391497
SNP Position Genomic:     959130
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,8)      total(G,8|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47772):
GTTTTTCACTTAGCATAATGTTTTCAAGGTTCTTCCATGTTGTAGCATGCATCAGTATTTCATCCCTTTTTATGGCTGAATAATATTTTCTTGTATGGGT
R
GAGCACATTTTGTTTATCCATTCGTCTGTTTATGGACATTTGGCACTGTTTCTACCTTCTGGCTAATGTGCTGTTCTATGAAGGTGTGCATACATGTATT
Celera SNP ID:            hCV391498
SNP Position Genomic:     959047
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47773):
TATCATCCCAAAAGGAAACTCCAGAGCCATTAAGTAGCCTCTCCCACTTCTTCCTCCCTGACCCCAGTCCCTGGCAAAAAACAACCTCCTTTCTGTCTCT
R
TGGATTTATCCATTCTGGACCTTCCATATAAATGAACTCATTCAATCTGTGACATTTTCGTGTCTGGAGTTTTTCACTTAGCATAATGTTTTCAAGGTTC
Celera SNP ID:            hCV391499
SNP Position Genomic:     958878
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47774):
TAATGCACTATAACCAGCAAAGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGGTCACTTAAGGTCAGTAGTTCGATACCAGCC
W
GGCCAACATGGTGAAACCCCTTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTTGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGG
Celera SNP ID:            hCV26613310
SNP Position Genomic:     1144117
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|T,4)      total(A,2|T,4) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47775):
CTTGAGCCCAGGAGTTCAAGGCTGCAGTGAGCCATGATCACACCACTGCACTCCAGCATGGAGGACAGAGTGAGATCCTGTCTCAAAACCAATAAAAAAA
M
AAAAAAAAGAAAGAAATCCTATAATCTGTAAGCAAAAGACACAACCCAAAGAAGAATAGATAAGAGACTTAAACAAATACTTCACAGCAGAAAATACACA
Celera SNP ID:            hCV26613311
SNP Position Genomic:     1142187
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47776):
AGAGCGAGACTCTGTCTCTAAAAAATTTTTAAAAATTGAAAATCAACAAATCCAAAAGTTTGTCCTATAAAAAGATTGAATAAAATTGTAAACTCATATC
R
AAACTGTTGGGCAAAAAAAGAAAAAAACACAAATTACCAACACTGGGAATAAAAAAGGGAAAATGACTATAGCCATCAAAAAGATACAAAGATATTATGA
Celera SNP ID:            hCV26613312
SNP Position Genomic:     1139903
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47777):
ACAAGACAAAATCAACAAATCCAGGCTGGGCACGGTGGCTCACTCCTGTAATCCCAGAATTTTGGGAGGCTGAGGCGGGTGAATCACCTGAGGTCAGGAG
W
TCGAGACCAGCCTGGCCAACATGGCAAAACCCTGTCTCTACCAAACGTACAAAGATTAGCTGGATACAGTGGCATGTGCCTGTAATCTCAGTTACTTGGG
Celera SNP ID:            hCV26613313
SNP Position Genomic:     1139616
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47778):
AAACAACATTATGAAATTTTTTGGCGCTTTTTTTATAGCTCTTCAGCTACTGTTAGTGTTAGTGTATTGTATGTGTGGCCCAAGACAATTCTTCTTCCAA
Y
GTGGCCCAGGGAAGCCAAAAGATTGGACACCCCTGTTTAAAACAAGAAACATGACAAGAGGTAAAGAGGCCATTTCATAATGATGAAGGGAGGTATCAAA
Celera SNP ID:            hCV26613314
SNP Position Genomic:     1138875
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47779):
CTGTGGGCCATATGTGGCCCAGAATGGCTTTGAATGCGGCCCAACACAAATTTTTAAACTTTCTTTAAACAACATTATGAAATTTTTTGGCGCTTTTTTT
W
TAGCTCTTCAGCTACTGTTAGTGTTAGTGTATTGTATGTGTGGCCCAAGACAATTCTTCTTCCAATGTGGCCCAGGGAAGCCAAAAGATTGGACACCCCT
Celera SNP ID:            hCV26613315
SNP Position Genomic:     1138809
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47780):
GTCCAGGAATTTTCCAAAACTGATGAAAGACATTCTCCCTATTAAATCAAAAAGTTTAGCAAACCACAAGCTGGATAAATTTGAAGAAAAACACACCTCA
R
ACACTGAAATCAAACTGATGAAAAACAATATCAAAGAGAAAATGTTAAAAATAGCCTGAGAATAAAAGAGGCATTTACCTGCAAATGAGCTACAATATGA
Celera SNP ID:            hCV26613316
SNP Position Genomic:     1137742
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47781):
AGTGAGTGCAGTTCTGGGGTTCTCTCCTGGCATCTCTACACAGAGAGATGCAGGTGCACAGTTTTACAGAATGGGAGCTCTATGTGCTTTTCCGTAAATC
Y
CTCTCTTCACTCCTCAGGGTCCTATGGACATTTTTGTAAATCAATAAACATCAAGCAACATCATTGTTTCAAACAGCTAGAGTCTGGATCTACCATCGTC
Celera SNP ID:            hCV11673474
SNP Position Genomic:     732876
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47782):
TGGCTCTGTGTCCCCACCCAAATCTCATCTTGAATTGTACTCCCATAATTCCCATGTGCTGTGGGAGGGACCCAGTGGGAGATAATTGAATCATGGGGGC
R
GTTTCCCCCATACTGTTCTCATGGTAGTGAATAAGTCTCACGAGATCTGATGGTTTTATCAGGGGTTTCCACTTTTGCGTCTTCCTCATTCTCTCTTTGC
Celera SNP ID:            hCV26613317
SNP Position Genomic:     1136834
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47783):
AAATAAATTGATTTCTCCAAACAAAGAGTAACTCAGGAATTTATGCCAAAACATGTTGATAAAATATATGGCTTCGGGAACTTCCATGTAGGATACAGTA
Y
GGAAGTGTCCCCACTGTGAAACTAGAAAAATCTAGTTAAATTATAAAAATCAGATAATATAAAAAAATCTTAATTGTAAAGGAATCAGGGAGCTGCAGAA
Celera SNP ID:            hCV26613318
SNP Position Genomic:     1136033
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   ;(C,-|T,-)   (C,-|T,-)   Caucasian(T,21|C,63)   African-American(T,4|C,80)   Asians(T,8|C,76)   total(C,219|T,33)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47784):
GTTGGCAGCTTCTGATTGGTTAGCCTTAAGTTTCGTTTTTCTTTAACATAGTCATTTATAAGAAATAGCTCATGTTGGCCGGGCACGGTGGCTCATGCCT
R
TAGTCCCAGAACGTTGGGAGGCTGAGGTGGGTGGATTACAAGGCCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACCCCATCTCTACTAAAGATA
Celera SNP ID:            hCV26613319
SNP Position Genomic:     1132284
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47785):
AGGAGCTCTGGGATGCCTGGGAAGGGGATCCAGGGAAGGGACTGGAGATGTCAAGAGCTCCTGCCCTGTTCTCAGCTGTTATGGAGTCACAGAAGGTCAT
R
CCTACATGAAAGGCAAGGCAAGAAGTATCCCATCCTCCCAACCCCAAGAGGCCCTGCCCAGGCCACTCACTGGACAACTCTTCTTGTCCACATCTGCTGG
Celera SNP ID:            hCV27953864
SNP Position Genomic:     1122996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47786):
CTCCACTCCCCAAAGCTGTCCACATCCTAGTCCTTACCTTATACAGTAAAAAGGACTCTGCAGCTATGATTAGATGAAAGGTCTTTAGACGACCTTAGAT
S
ATCAGGATAGACCCATTTTCACCATAAAAGTCCTTATAAGAAGGAGGCAGGGCCAAGCGCGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGAGGCTGA
Celera SNP ID:            hCV27953865
SNP Position Genomic:     1090896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47787):
GGCCCCATGCTGTTAAGTAAACATCCCCCAGCCAGTGTGAATATCTGAAAGCACCTGCTTTGTACGCAGCAGGGTCAGAGACCTTTATATGCACGCCCTC
R
AGCCCTCCTCCTGCCAGCACTGAGACAGGTACCATGATCGTAATACCCCTTTCGTGGGTATGGAGATGAAGGCTCCGACAGCTGAAGAACTTACCCAGGC
Celera SNP ID:            hCV27953866
SNP Position Genomic:     1003705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47788):
TGGTGGAGTTTGCACTTAACCATGTTTGTTAACTTCCTAGGGATCCTGAAACAAATCACCACCAACTAGAGGGCAAACAACAACTGAAATTTATTCAGTT
Y
ATTGACAATCCTAGAGCCCTGAAGTCCAAAATCAAAGTGTTGGTAGGCCTTGCTGTCTCTCGTGGTCCCAGGGAGGATCCCATCTGCTTCTGCCAGCATC
Celera SNP ID:            hCV27953867
SNP Position Genomic:     965654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47789):
TTGTGAATAATGGATGTCTTCATATAGGAAGGGTTAAACAGCCCCTGTCCTACTGTGTCCACTGACCAAGTCCCCTTCATGATTTATGGATGATCACATT
R
AAGGAAGAAGAGAGGAATAGGAGAAGATGAGGTTTCCCAGCACGTCCTTTTCAGGACCTCCATGTCACGCCTCACTGCCAATTAACATTTACTTGAATTC
Celera SNP ID:            hCV27953868
SNP Position Genomic:     959956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47790):
AAGGGAAATGTGGTTAATTCAACTCCAGCTTGCTTTGACCTGAATTTATGCCAACTGGGACTTTTGCCTGAATTATTCGGGAAAATGCCCTGAGCTGCCC
M
TTAATTCATCTTGTACGTTTGGTCTCTTACATATTGAAAAAGTGTGTTCTATGATTCTTTTCCATATAGCTAATGTCATCTTGACCAGGTCAGAGTTCCT
Celera SNP ID:            hCV16102108
SNP Position Genomic:     673159
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47791):
AATTTCCCTTGATACAAGCTAGAAAAAGATACTGGTTTAGATTCACTGGGGTGATTGACTAGAAAATTGCCCCAGCTGTCAAAGTTTCCAGTGTTAAAAA
S
CAGTGTAAAATTTCTCAAATGCTTAGAATTTCTAGATGTCACAACAGAGATGTTACCAAAATATGAGAATCAAGTTTTTTATAAGCAGGACAAAAATACA
Celera SNP ID:            hCV8094187
SNP Position Genomic:     898355
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47792):
TCTGATTAACTTTAAAATGCTTTGTGTTTCTCTAACAGGGTTAGGTATGGTCTGTGGGGTTTCTCATTCTTCTTTGGCCTGGGGGCTTTTTTTTCTAGGC
Y
ACCTTATATGGCTTATGGAGCTGGTGTTTCATGGAATGTTCACTGGGGGATTTTTGTTTATCTTTATAATTTCTTTTCAACCTATTTCAAAATAAAAACT
Celera SNP ID:            hCV11951070
SNP Position Genomic:     987288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47793):
CCTATTGGAAATAAAGCAAGGGTTCTTCACGTTTGTTTTGCTGATTTGTAAAGTGAATTAAGAACCATCTTTTGCCTCACTGGTTATTATTCTCATAGTA
S
CCTACCCTGGTGTAGAGTTCTGGCTGCAAAGCTCTCAGAGACTGAAGAAAAGGAGATGGTTTAGTGTTACTGACTTTTTTTAAGACAGGGTCTTTCTCTG
Celera SNP ID:            hCV16195703
SNP Position Genomic:     22717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47794):
TTTATGTTGCTTACAATAATTGGATATTACTTCAGTACTAAAAATATTTTTAAGGTCAGCCTTAAGTTTGCCAGAAAATTTAGACTTTTGAAACCTCATC
R
CAAACTTTGCAATTTATCTACATAACAGTCTAATTGATTCTCTACTAGGTTAATCAGTCTATTTCTCATTATAGGTGCAAAGTTTTATTTACTTCAGGAG
Celera SNP ID:            hCV11951072
SNP Position Genomic:     980353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47795):
CACGTTCCACTGACCGCAATCAGCCACACAAGTCCATTTGACTGCAAGGACGCCTGAGCTGTACAGTCTAGCCCTATGCCCCTGGAACCCAAGGAAATAG
R
ATCCAGTGAACATACAACATTGTTTTCACCACAAGTTCCTTTGCTTGCAAGTAACTGAAACTCATTCAGGCTGGTTTTGGTACCTAAAAGGAGCTCTTGA
Celera SNP ID:            hCV11951076
SNP Position Genomic:     978465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47796):
ACATCCAGGTCACATTGATGCAGGAAGTGTGTTCCCATGGCCTTGGGCAGCTTTGTCCCTGTGGCTTTGCAGGGTACAGCCCTCCTCCTGGCTGCTTTCA
W
GGGCTGGCAGTGTCTATGACTTTTCCAGGTGCTCTGTGCAAGCTGTCCATGGATCTACCATCCTGGGGTCTGGAGGACAGTGGCCCTTTTCTCACAGCTC
Celera SNP ID:            hCV26380111
SNP Position Genomic:     312985
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47797):
TCATTATCAATAATGAAAGTAAATCGCCCACCTTGTGTGCTGACTACTGGCTAGGTGTTGCAGCCAAAGGCATGGTCCTTGCCCTTGAAAACTTTGTCAT
S
CACTTAGGGAGATAGTAAATGGGCATTCAAAATAAAGCAAAATGGGACACATAGCCTTCATATTAAACAAGGTAAGCTAAGCACAGTCATAAGCAGCCCT
Celera SNP ID:            hCV11951079
SNP Position Genomic:     978090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47798):
GCTAGTTCTGGTGTTGAGTTAGTTGGCAGCTTCTGATTGGTTAGCCTTAAGTTTCGTTTTTCTTTAACATAGTCATTTATAAGAAATAGCTCATGTTGGC
Y
GGGCACGGTGGCTCATGCCTGTAGTCCCAGAACGTTGGGAGGCTGAGGTGGGTGGATTACAAGGCCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAA
Celera SNP ID:            hCV26613320
SNP Position Genomic:     1132263
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47799):
TAGGAACTGGTGGTGTTTGGATGGCAGAAGTTACAAGGAACGCAAAAGCAGGGAGCGTGAGCCAACACCAGATTGACCTCAGGCAGCTGATGCTATCGAA
K
GAAAAAGGGAGGACTTCCATGCAACTCCAGAAAACAAAACCAAGACACCTGCGGTAGATTCTGGTTTAACAAAAGGGAGAATTTTCTAAAAATTTTCTAT
Celera SNP ID:            hCV213328
SNP Position Genomic:     491926
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47800):
ACTCAGTCTTGAGTATGTCTTTATCAACAGTGTGAAGATGGACTAATACAATTTGTTAACTCATATTCTCTCTTCCTGGTTTGTCTGTCCTCTCACTCTC
T
GATGACATCCTATCTATTCCTCCTGTCTTGGTTTGGATGCTGCATTCTCTGTGAGGTGCCCAATATTGCCCTGGATCAGAGGTAGTGAGTTCTTCCTCCA
Celera SNP ID:            hCV26613321
SNP Position Genomic:     1129845
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47801):
TATCTGTACCTTTTTCTTTAGCATCGAGGTATCTATTTACCAGACCTTCGTGAGCACCGTGCAGTTTATTTTTTAAAAATATTTCTCAACTTTATAGTCA
R
TATATTTGGCTATTAGGATAATTTCAGGATATTTGAGGAGGAACTTTAAGACCGGCTTATAAATTACAGCACTTATAAAGGAGGAAAACATGTGGAACTC
Celera SNP ID:            hCV213329
SNP Position Genomic:     491705
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47802):
CACTCAGTCTTGAGTATGTCTTTATCAACAGTGTGAAGATGGACTAATACAATTTGTTAACTCATATTCTCTCTTCCTGGTTTGTCTGTCCTCTCACTCT
C
TGATGACATCCTATCTATTCCTCCTGTCTTGGTTTGGATGCTGCATTCTCTGTGAGGTGCCCAATATTGCCCTGGATCAGAGGTAGTGAGTTCTTCCTCC
Celera SNP ID:            hCV26613322
SNP Position Genomic:     1129844
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47803):
ATTTCTTGCCCTCGCGTAACCTACATCCTAATGAATGTTTCTGTTCCATCTGTAATAGTTTGGCTGTGTCCTCACCCAAGTCTCATCTTGAATTCCCACA
W
ATTATGGGAGGGACCCTGTGGGAGGTAATCGAATCATAGGGGCGGGTCTTTCCCATGCTGTTCTCGTGATAGTGAATAAGTCCCATGAGATATGATGGTT
Celera SNP ID:            hCV26613323
SNP Position Genomic:     1129501
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47804):
GATATTTGGGAGGCTGAGGCAGGAGAATTATTTGAACCCAGGAGGCAGAGGTTGCAGTGGGCTGAGATCGCTGCCACTGCACTCCAGCCTGGGCGACAGA
R
CAAGACTCCGTCTCAAAAAATAAAATAAAATAAGCAAACAGAGGGGAGCAGAAAGAGTCCTGTGAAAACTCAGTTAAATAGCACAGCTCTGGATACTTGA
Celera SNP ID:            hCV26613324
SNP Position Genomic:     1125433
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47805):
ATTCCAGATATTTGGGAGGCTGAGGCAGGAGAATTATTTGAACCCAGGAGGCAGAGGTTGCAGTGGGCTGAGATCGCTGCCACTGCACTCCAGCCTGGGC
R
ACAGAGCAAGACTCCGTCTCAAAAAATAAAATAAAATAAGCAAACAGAGGGGAGCAGAAAGAGTCCTGTGAAAACTCAGTTAAATAGCACAGCTCTGGAT
Celera SNP ID:            hCV26613325
SNP Position Genomic:     1125427
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47806):
AGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAAGCAGGTGGATCGCTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCC
Y
GCTCTACTAAAAATAGAAAATTTAGCCAGGCATGGTGGCAGGTGCCTATAATTCCAGATATTTGGGAGGCTGAGGCAGGAGAATTATTTGAACCCAGGAG
Celera SNP ID:            hCV26613326
SNP Position Genomic:     1125276
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47807):
CAAAATAAGCAAACTGGCCAGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAAGCAGGTGGATCGCTTGAGGTCAGGAGTTCGAGAC
Y
AGCCTGGCCAACATGGTGAAACCCTGCTCTACTAAAAATAGAAAATTTAGCCAGGCATGGTGGCAGGTGCCTATAATTCCAGATATTTGGGAGGCTGAGG
Celera SNP ID:            hCV26613327
SNP Position Genomic:     1125251
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47808):
AGTCTATTTCCATGACTTGTGTCATTTATAAAGGCAGGGACAGATGGAATCACTTCAGTGAGCTAGAATTTGTATTAAGTTCTACTTGCTTTATTTTCCT
Y
CATTTACATATGCTTATTAGTAATACACGTGTGAGAACAAAATCATATACTATCAGTCACTGCCACACAATGAATAATCCCATGTAAAATATTTTTGCAC
Celera SNP ID:            hCV11673486
SNP Position Genomic:     708523
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47809):
CAGCAAGCTGTCCTTCCAGGGCATCTGTGGGGCAGGCATACCTCCTTGAGGTCTCCCATGGGAGGAGGCACCAAACAAAATAAGCAAACTGGCCAGGTGC
R
GTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAAGCAGGTGGATCGCTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCT
Celera SNP ID:            hCV26613328
SNP Position Genomic:     1125176
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47810):
CACCTGAGCTCAAGCAACCCTCTTGCCTCAGTTCTGGAAATAGCTAAGTGGGACTACAGGTGTGGACCACCAGGCCCAGTTAATTAAAAAAAAAAAAAAA
Y
TTTAAGACAAGGTCTTGTTATGTTGCCCATGCTGGTCTCGAACTCCTGGCTTCAAGTGATCCTCCAGGAGTAGCTGGCATTACAGGCTTGGCTGACTTTT
Celera SNP ID:            hCV11440116
SNP Position Genomic:     22969
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47811):
CTCCTTTCGTAGTTTTTATTTTCTACGTTTCTCATAGTCTTTCCTATCCTACTATATATATGTGTGTGTGTATATATATATATATATGTGTGTGTGTGTG
K
ATATATATGTGTGTATATATATGCCATATATAGAGATAGATCCATCTTCCATCTATTACTATATCTATAATCTCCCTATATATAAATTTGATACGTATAT
Celera SNP ID:            hCV26613329
SNP Position Genomic:     1123755
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,7)   total(G,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47812):
TCAAAAGTTTTCTTGAATGAAACAAAGCCTTCTCCGGATGAGGAAGCTTGTCAGAAGCTTGAGTGACTGGTAAGGAGGGTGAATCTCTGCTGCTGATTTA
Y
TAAGAAATATTTGGATCTTTCCTTGAAGCTAAGGGTATATACCTACTTCTGTGCAAAACAGGTGGCATGGCTGGCCCTTGAAGAGTACACAGTTTAAGGA
Celera SNP ID:            hCV16195715
SNP Position Genomic:     57663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47813):
TTTAAAGGCTATCAAACATAGTTACATTGTTTTTCAGTAAAATATCTGTACCTTTTTCTTTAGCATCGAGGTATCTATTTACCAGACCTTCGTGAGCACC
R
TGCAGTTTATTTTTTAAAAATATTTCTCAACTTTATAGTCAGTATATTTGGCTATTAGGATAATTTCAGGATATTTGAGGAGGAACTTTAAGACCGGCTT
Celera SNP ID:            hCV213330
SNP Position Genomic:     491663
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47814):
GAAATCTATATAATGGGGAACAGCTGCTCATAGCTGCCAGCACTTCATTCAGTGAAGTCACATTGGCAGCTTGAAGCTGGCCATGCCGGGAGTATTTATA
Y
GACAGGAACTGGCAAACACCTCAGGGCTAGATGTCTTGTTTTTGAACTAGAATGGCAGTCAGCAAACTTTTTTCTGTAAAAAGCTAGAGGAGTATCCTAG
Celera SNP ID:            hCV16195716
SNP Position Genomic:     110142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47815):
TTTGATTATTTCTCTGCACTGTGTTCCTAGTAGTTAAATTACTTAGTCAAAAAGCATGAACACTTTAAAGGCTATCAAACATAGTTACATTGTTTTTCAG
K
AAAATATCTGTACCTTTTTCTTTAGCATCGAGGTATCTATTTACCAGACCTTCGTGAGCACCGTGCAGTTTATTTTTTAAAAATATTTCTCAACTTTATA
Celera SNP ID:            hCV213331
SNP Position Genomic:     491600
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,6)   total(G,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47816):
GCAGTGAGAATCTAGAGAGAAAATAAGTGATTACACTTAAAGTAGAGAGTCAGGGAAGACTTCCTGGGAGAGGTGACATTTAGACTAAAGCATAAATAAT
R
TTGATTTGTTTGCCAAATGGAGGAAGCAAAGAAGGATCCTGAGTGAAAGCATGATGTGTCTGAGGATTTGCAAGTCGATCATGAGGTTGCAGCATACATC
Celera SNP ID:            hCV213332
SNP Position Genomic:     490267
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47817):
AAAAAAATCCCTAATTTCTATTGATATAATATCATTGGATAGTGCCATGATAGAAGAATGTCCCATGTGCAGTGAGAATCTAGAGAGAAAATAAGTGATT
R
CACTTAAAGTAGAGAGTCAGGGAAGACTTCCTGGGAGAGGTGACATTTAGACTAAAGCATAAATAATATTGATTTGTTTGCCAAATGGAGGAAGCAAAGA
Celera SNP ID:            hCV213333
SNP Position Genomic:     490199
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47818):
AATGGCAAGGAATAAAATTTGCCTTCAATGTGCTTATGGTCTTGGGAGGAGTAGAGTAAAAAAAATCCCTAATTTCTATTGATATAATATCATTGGATAG
W
GCCATGATAGAAGAATGTCCCATGTGCAGTGAGAATCTAGAGAGAAAATAAGTGATTACACTTAAAGTAGAGAGTCAGGGAAGACTTCCTGGGAGAGGTG
Celera SNP ID:            hCV213334
SNP Position Genomic:     490141
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,8)   total(A,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47819):
CTGGGCGACAGAGCGGGACTCCGTCTCAAAAAAAAAAGAAAAAAATAGAAATGGCAAGGAATAAAATTTGCCTTCAATGTGCTTATGGTCTTGGGAGGAG
Y
AGAGTAAAAAAAATCCCTAATTTCTATTGATATAATATCATTGGATAGTGCCATGATAGAAGAATGTCCCATGTGCAGTGAGAATCTAGAGAGAAAATAA
Celera SNP ID:            hCV213335
SNP Position Genomic:     490092
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,8)   total(C,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47820):
ACATAGTGAAACCCCATCACTACTAAACATACAAAAATTAGCCGGGCATGGTTGCACATGCCTGTAATCTCAGCTACTTGGGAGCCTAAGGCAGGAGAAT
Y
GCTTGAACCCAGGAGGCGGAGGTTGCGGTGAGCCCAGATTGCACCACTGCACTCCAGCCTTGGCAACAAAGGGAGACTCCGTCTGAAAACAAAAAGGGGG
Celera SNP ID:            hCV26613330
SNP Position Genomic:     1121056
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47821):
TTTCTTGTTACTCAGCAACCACCACAATGCCTGGTCCGTGGAAAATGGTCAATAAATATCTGTTGGCTGGATAAATTAATCCCTAAATGTATGTATTAGG
K
TGTTGCAAAAAAAAAAAAAAAAAAAAAAAATTAGCCGGGCGTGGTGTCGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGA
Celera SNP ID:            hCV213338
SNP Position Genomic:     489839
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,7)   total(G,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47822):
TTGGCTTCTTGAGAAAGGAACTCAGATAAGACAATTGTAACTTTCTCAAGTTTTAAAGTCTGGAAGGAACAATTTCTGTGGTTATTCAAAAAAAAAAAAA
A
CATAAGCGTCAGTTCTGTGGGACAATTTGATCACTTTATTTTGGAGAAAAAAATGATGAACAGAAGTTTGTTTATAAGTTTAACCCCAATAATAGGCTAG
Celera SNP ID:            hCV26613331
SNP Position Genomic:     1117249
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47823):
GTTTTGGTCACTTGGTAGGTGACAATCCAGTGACCACAACCAAGGAGGATTTAACAAGGGATTTTATGCCTTGCAATGCGGAAGAGCACTGGGGAAAGTT
Y
CCGAAGGGGTGCCTCCCAGAACACAAATGAAAACAGGGCTTTTACTGGGCTGGCGAGCTGAGTCACTGTATGTAGAGGTGTAGTGAAGGCAGCACATGCT
Celera SNP ID:            hCV213339
SNP Position Genomic:     489298
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47824):
AACTATGGATTATATGGGAATGTTTTAACTTTTTCTTGAAGTAACTTTATGGTTTGTATACGGATGCCAAATATAGATACATATCTAATTTATCTATTTT
M
TTTTTTTAGAAATAATTTCTTAGAATTAGGAACCTCTTCAGAGCCATAATTGCAAAAAGAGCTCCCCGTCAGCTCTCTTTGCAGTCGAGGTTTGTAATTA
Celera SNP ID:            hCV26380125
SNP Position Genomic:     309571
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47825):
ACAGGAAAGGGAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGAAGGGGGGAGGGATAGCATTAGGAGATATACCTAATGCTAAATGACGAGTTAAT
K
GGTGCAGCACACCAGCATGGCACATGTATACATATGTAACTAACCTGCACATTGTGCACATGTACCTTAAAACTTAAAGTATAATAATAATAATAATAAT
Celera SNP ID:            hCV26613332
SNP Position Genomic:     1116870
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47826):
TTAACAGAGATGCACCAGGTACTTTTCTAAGCACTTTATATATGTTATATTAAACATAGGTGTCTTAACTATGGATTATATGGGAATGTTTTAACTTTTT
Y
TTGAAGTAACTTTATGGTTTGTATACGGATGCCAAATATAGATACATATCTAATTTATCTATTTTATTTTTTTAGAAATAATTTCTTAGAATTAGGAACC
Celera SNP ID:            hCV26380126
SNP Position Genomic:     309505
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2|-,7)   total(C,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47827):
ACTCATAGATGGGAATTGAACAATGAGAACACATGGACACAGGAAAGGGAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGAAGGGGGGAGGGATAG
M
ATTAGGAGATATACCTAATGCTAAATGACGAGTTAATTGGTGCAGCACACCAGCATGGCACATGTATACATATGTAACTAACCTGCACATTGTGCACATG
Celera SNP ID:            hCV26613333
SNP Position Genomic:     1116832
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47828):
TCTGTTTATTCTGTTGATAGTTTCTTTGCCAATTTTTGTTTTTGGTGCAATTGCTTTTGGGGACTTTGTCATAAATTCTTTGCCAAGGTCAATGTGCAGA
W
TGCTATTTCCTAGGTTTTTTCCAGCTGGATTCTTTTCTCGTCTTCTGGCAAGTCAGTTTAGAAGAGGTTGATTTATTCAGAAAGTATCCATTTTCTTTTT
Celera SNP ID:            hCV26613334
SNP Position Genomic:     1113935
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|A,3)      total(A,3|T,2) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47829):
GGCGGGGTGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAGATGGTCTAGCCAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCTG
S
GCATGGTAGTGGGCGCCTGTAGTCCCAGCGACTCGGGAGGCTGAAGCAGGAGAATGGCATGAACTCGGGAGGCGGAGCTTGCAGTGAGCAAACGTCACGC
Celera SNP ID:            hCV26380128
SNP Position Genomic:     308554
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47830):
AAACAATTTATCTTCTTTTGGATAAACACCCAGTAGTAGGATTGCTGAGTCAAATGGTAGTTCTGTTCTAAGTTCTTTGAGAAATCTCCAAACTGCTTTG
R
ACAGGGGCTGAACTGATTTACATTCGCACCAACAGTGTATAAGAGTTCCCTTTTCTCTGTAACCTGGGCAGCATCTGTTATTTTTTTGACTTTTTAATAA
Celera SNP ID:            hCV26613335
SNP Position Genomic:     1113471
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47831):
CTAATTCACTTAGGTTAATGGCCTCCAGCTGCATCCATGTTGCTGCAAAGAACACAATTTCATCCTTTTTCACAGCTGCATAGTATTCCATGGTATACAC
R
CACTGCATTTTCTTTATCCATTCCACCATTGATGAGCACCTGGATTGGTTCCTTGTGCTTGCCATTGTGCATTGTGCTGTGATAAACATACAAGTGCATG
Celera SNP ID:            hCV26613336
SNP Position Genomic:     1113257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47832):
TGCTAATTCACTTAGGTTAATGGCCTCCAGCTGCATCCATGTTGCTGCAAAGAACACAATTTCATCCTTTTTCACAGCTGCATAGTATTCCATGGTATAC
R
CGCACTGCATTTTCTTTATCCATTCCACCATTGATGAGCACCTGGATTGGTTCCTTGTGCTTGCCATTGTGCATTGTGCTGTGATAAACATACAAGTGCA
Celera SNP ID:            hCV26613337
SNP Position Genomic:     1113255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47833):
GTGCTGGGATTACAGATGTGAGTCACAATGCCCAGCATGGATTGTCCTTTTCAGACCCAGACCAAAGAACAGGACTTATTGTCCCAAGACCAATCTAGGA
R
AAGTATAAGCTGTGTTGTCACCCAGGCATTGCTAGAAAGTGGTAGGCTGGACACAGGATGAAACAGTTGCCTGATTTTAAAGTAAGAGAAATAGATCAAA
Celera SNP ID:            hCV11673496
SNP Position Genomic:     701761
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47834):
TTAGATTCAGGGGGTCCATGGGCAGGTTTATTACCTGGGTCTATTGCGTGTTGCTGAAGTTTGGGGTATGAGTGATCCCATCACCCAGACAGTGTGCATA
R
TACCCGATAGTTTTCAACCCTTACACCCCTTCCATGCTCCCCCTTCTAGTAGTCCCCAATGTCTATTGCTCCCATCTTTGTGTCTGTGTGTACTCAATGT
Celera SNP ID:            hCV26613338
SNP Position Genomic:     1113003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47835):
GGTGGTATTCTTTTAAAAAATTCATACAATTGAACCGGGTACAAAGAATCACCTGGGTTTTTTGTTTGTTTGTTTTTGTTTTGTTTTCGTTTTTTGGTTT
K
TGGTTTTTTTGAGCTTTTAGATTCAGGGGGTCCATGGGCAGGTTTATTACCTGGGTCTATTGCGTGTTGCTGAAGTTTGGGGTATGAGTGATCCCATCAC
Celera SNP ID:            hCV26613339
SNP Position Genomic:     1112886
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47836):
TCATTTCATTCTCATAACCTAGAGGACGGGCACATTATCCTCCTTTACAGATGAGAAAATTTCCTTCAACCCCTCTGTGTCCTGTCTCGAGGGGAGCAGT
R
TTGGGCCTCTTCTCTGAGGCTGATGTAACTGCTGATTCCTCTCACACCTCCTGTGGGCATCTCCTCTGCTCTCTTGCATCTTCATTCATTCTGTGTTTCT
Celera SNP ID:            hCV27865676
SNP Position Genomic:     497644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47837):
CACAGCCGAATTACTCACTCCTGATACAGACTGAGTGGCTCACCCTCATTTTCTCACTTCCTCCGTCCTGGTGTTAATAAGACTCATCCTTCATTTTTCT
R
CCGTTTCTGCAGTTCTTTAGAGAGTGCAGACCACTTTCACATGCAGCTTCTCATTTCATTCTCATAACCTAGAGGACGGGCACATTATCCTCCTTTACAG
Celera SNP ID:            hCV27865677
SNP Position Genomic:     497493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47838):
AACACTGCCCCTGTGATGGAAGCAAGGCTGGATGAGGCTGCAGCAGGCCTCGGATGACCTAGGCTAAAGATGCTGCGGATCACTGTCCGGAGACTGCTGT
S
GGGGGAATCCCACAAGACACACATGGTCTGGTGTTGGTGGCGGCCCCAGAACCTCACTCTCCTCTGCACACCTCTGCGTGCCTACGTCTGTTCCTGTGAC
Celera SNP ID:            hCV27865678
SNP Position Genomic:     497006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47839):
AATAGAATCCAGCATGCGTGAGGCTCCCTGAAGACACAACACTGCCCCTGTGATGGAAGCAAGGCTGGATGAGGCTGCAGCAGGCCTCGGATGACCTAGG
S
TAAAGATGCTGCGGATCACTGTCCGGAGACTGCTGTCGGGGGAATCCCACAAGACACACATGGTCTGGTGTTGGTGGCGGCCCCAGAACCTCACTCTCCT
Celera SNP ID:            hCV27865679
SNP Position Genomic:     496969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47840):
CTGGGTCTGATCCCATCTGAAGCTACTTTGGGTGGTTATCACAATGTAGTTTATCATAGTGCTGTGGAATATGAACTATGACCATAGCCAGCCCTATATT
Y
TAGAACCAGCATCTCCATTTGTAGCTATGGGTGCTTGGACAAACACTTCAATGTTCTCCATCTCAGTTTCCTCATCTGAAAATAGAGTAAACAACAGTAC
Celera SNP ID:            hCV15815619
SNP Position Genomic:     767347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47841):
ACCTACTAAAATAGAAAGATACCTTTCAGGTTCCTGACCTCATGCCAGTATCTACCATTTCCTTTTCCTAGAATTCTCTCTTTCTCCTTATTTAAATCCT
R
TGCATTCTCTAGTGCATTTGGGGGAAAATGTCATCTCTTTCTGTAGGCATTAACTCTCTATGCCCTAAAATTTCATATAACCTTGGTGGTTCCTTTTATC
Celera SNP ID:            hCV16195723
SNP Position Genomic:     117732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47842):
CTAAAATAGAAAGATACCTTTCAGGTTCCTGACCTCATGCCAGTATCTACCATTTCCTTTTCCTAGAATTCTCTCTTTCTCCTTATTTAAATCCTATGCA
W
TCTCTAGTGCATTTGGGGGAAAATGTCATCTCTTTCTGTAGGCATTAACTCTCTATGCCCTAAAATTTCATATAACCTTGGTGGTTCCTTTTATCTCACA
Celera SNP ID:            hCV16195724
SNP Position Genomic:     117737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47843):
CAAGTTTAATTACACTGTCTTCATCATTAGTCATAACGTTTTAAAAACATAATTGCCAGCATAAGAGGGAATCTATCTATGTCTTTCTATTTCTCTCTCT
M
TATATATACATACATTTTATATACATATAAGCACACATCAAACATACTATATACTATATACATACTATATATTATATGCATGGTGTGTGTGTGTTTATAT
Celera SNP ID:            hCV16195725
SNP Position Genomic:     125126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47844):
CACTAGTAGCAGAAAACAAAGTCTGTTTAAGTAAATGTGTTTTCAGGATGGCCCAACTGTACAGAAACTTGCAGATCTCACGTTCTGATCACTCCATCAA
S
TGCTGCTTCTTTAAAATACTCAAGAGTCACTTACGATGTTTAATTGGCATGTCTGTCTTTCAAAATGAAAAGCTACAGGGTAGCTTGTGTTAACCACACA
Celera SNP ID:            hCV213340
SNP Position Genomic:     489090
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47845):
GGTCACAAGTAGCTATTGAACATGAATATTTTATCAGTGCCAGAGCAGATAGAGGGAAACTGTATCCATTATATTCTCATCACCATCACATGTGGTTGAA
Y
GGGCTTCCGACTAAAGAATCTAAACATGTTTAAAACATTTTTCACCTCCAGTAAAACTAGCAAGTCTTGATTTGTGTTGTTATTGCTCCTGCTAGATTCG
Celera SNP ID:            hCV213341
SNP Position Genomic:     488683
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47846):
AATTGAAAATAATTCTTTTTCCAAGTGCGGGTTTTCTAACAGGGGCCAGCCAGACATTTATGAGCTCAGGCAGATGAGGAAAGCATGATACCTGGATCAC
R
TGTGCTCACATCTGGAATACATGCGCAAATTAACACAGCTGTGGAGGCAGGAGTACATATGTGTATTAGAAAAACAAGCCCCACCTGTAGAGCGCTGCAA
Celera SNP ID:            hCV213342
SNP Position Genomic:     488469
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47847):
ATTCTACTGTTGTTTTCATTTGCATTTCTCTTAAGACCTTATCTGGAGAATTATGTTTTTTCAACATAAATAAATAAGAATTGTCCAAGGTAAGAGTTGT
R
TAGGCTCTGTAAAAACTCCCCAAGTTTCAGTAATTTACAGATTTGAATGGATAAACATCCTTATTGTTCTTAAATACTAAAGTAAGAGCAGATGTAAGAA
Celera SNP ID:            hCV26380133
SNP Position Genomic:     307699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47848):
CAGATACCACTACTCCTAAGACCCAGGTCAGACAGCGAGGCATCACTGTTAAGAGCATGGGCGCTATGGTTGGACAACTCTATCACTTACTAGCTGTGTG
W
CCTGGAGCCAGCTACTTAGTCCCTCACCACCTCTGTTTCTTCATCTATATAATGGGTCAGTAATCCCACCCACATGAAGTTATTGTTAGACTTAAATAAG
Celera SNP ID:            hCV26613340
SNP Position Genomic:     1111816
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,7)   total(A,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47849):
GGCCCAATTAAAATTTTGACACAGACCATTAACTGTCACACAGATTTATATTGCCACCAGGAGCATTTGAAAGTGTTCTATTCAATTCCACACACCAGGG
R
TACTATCATCCTTACTCAATATCTGCCAATCCTTTGGGCAACATAGAATATTCTACTGTTGTTTTCATTTGCATTTCTCTTAAGACCTTATCTGGAGAAT
Celera SNP ID:            hCV26380134
SNP Position Genomic:     307549
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47850):
GTGCTTCCTTCTCCCCACTGCTCTAGTGACCACTAACCAGCTTCCTGTCTCTGTGGGTTTGCCTAGTACGGACATTTCATCGGAATGAAATCAGCTAACA
T
GTGATATCCTTAATGGTTTTGTAGCAGAAAGACATCTACGTGGGAAGGGACGCTGCTGAGTGTTTAGAGAACAGACACATTCATCATTTTATTGTATTTT
Celera SNP ID:            hCV26613341
SNP Position Genomic:     1109478
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47851):
CGTGCTTCCTTCTCCCCACTGCTCTAGTGACCACTAACCAGCTTCCTGTCTCTGTGGGTTTGCCTAGTACGGACATTTCATCGGAATGAAATCAGCTAAC
A
TGTGATATCCTTAATGGTTTTGTAGCAGAAAGACATCTACGTGGGAAGGGACGCTGCTGAGTGTTTAGAGAACAGACACATTCATCATTTTATTGTATTT
Celera SNP ID:            hCV26613342
SNP Position Genomic:     1109477
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47852):
GAGCGTGGAGGCGGGCCCCTGTAGTCCCAGCTACTCGCGAGGCTGAGGCAGGGGAATGGCGTGAACCCGGGAGGCGGAGCTTGTAGTGAGCGGAGATGGC
R
CCACTGCGCTCCAGCCTGGGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAATCACCGTCCTTTTTTGGCGTTCTGTCAGTCAAGAGTATTCTGAA
Celera SNP ID:            hCV26613343
SNP Position Genomic:     1108999
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47853):
AATCCCGGCCCTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTGAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATAC
M
AAAAAAAATTAGCCGAGCGTGGAGGCGGGCCCCTGTAGTCCCAGCTACTCGCGAGGCTGAGGCAGGGGAATGGCGTGAACCCGGGAGGCGGAGCTTGTAG
Celera SNP ID:            hCV26613344
SNP Position Genomic:     1108884
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47854):
GGTCACAGGCCAAGTTTGTGACAAGACCGGGGTGTCTGTTCGGGTTTTGGAGAAACAAGGACCCTAGATAGGGTCCATTCATTCATTCATTTATTTATTT
W
TTTGTTCATTCTCCAGACAAATCGTTATCTTGGCCCCTTCTGCTGCAGCCATTGCCACTAAGAAGGCAGGCCCTGCAGGGGAGACTCTGCACGTCTTTTG
Celera SNP ID:            hCV26613345
SNP Position Genomic:     1108599
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,5)   total(A,3|-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47855):
AACTATGATCATACCATTTGTACTATTTGGTCATTTTTCTCCATTCAATAATATAAAGTAGGCAGTCGTGTATGTGTGTGTGTGTGTGTGTGTGTGTGTG
K
ATGCGTGTGTAATCCACATAAGGCTTTTTGATGACTGCATATTATTTCTCATCATTGCTGTCTTCTAATTCATTTGACCAGTCCTGTAATTGATGGGCAT
Celera SNP ID:            hCV26380138
SNP Position Genomic:     307233
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,10)   total(G,2|-,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47856):
CTGACCTTGACACACTCCTGACCAGTCAGTGGATGGCGCTGCAGCCCCTTCTGTTTAGTCTTCACATCAGCAATGAAAGAGGGTGAAGTTCATGGAAATA
Y
TGTGGGGACATATCGCATGGTTTCTTTTCATGAAATGTCCAGAAAAGACAAACATATACAGCCAGTGGCTGTGGTAAAGTGGGAATGACTGCTAATGGGC
Celera SNP ID:            hCV27865680
SNP Position Genomic:     495394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47857):
ATGGGTGGATGATGAATGCATGGGTGGATGATGAATGCATGGATGAGTGTGGAATGCATGGGTGAGTGATAAATGCATGAGTCGGTGGATGAATGCATGG
R
TGAATGATGAATGCATGAATGGATGGATACATGGATGGATGAAGTTGTACAAGCTCAAACCAGCTCAGATTGGAGGAAGCGTCTTACTTGAAGCCCCCTG
Celera SNP ID:            hCV26613346
SNP Position Genomic:     1106738
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47858):
CAGGTAGCTGGAGGCCTCAGCCTTCCTGGGCAGCAGGGATACGGGCAGGGATGTCCCCTGAGCATGGTCCCACCTGGAAGCCAGGGGGCTGACCTTGACA
S
ACTCCTGACCAGTCAGTGGATGGCGCTGCAGCCCCTTCTGTTTAGTCTTCACATCAGCAATGAAAGAGGGTGAAGTTCATGGAAATATTGTGGGGACATA
Celera SNP ID:            hCV27865681
SNP Position Genomic:     495306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47859):
GAATGCATGGATGAATGTGGAATGCATGGGTGGATGATGAATGCATGGGTGGGTGATTAATGCATGGGTAGGTGATGAATGCATGGGTGAGTGATGAATG
M
ATGGATGAGTGTGGAATGCATGGCTGAGTGATGAATGCATGGGTGGGGGATGAATGCATGGGTGGGTGATGAATGCATGGGTGAGTGATGAATGCATAGG
Celera SNP ID:            hCV26613347
SNP Position Genomic:     1106523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47860):
CCCCATTTGGTCTTGACATTGAGCACCATGCTTTGGCAGGTGTCAGAGGTTGGCTCCCGGGAAATAGACCACGCAACCGGGGAGGTGTTATCAGCATCCA
Y
ACCTCACGGGGAGGGAGGTCAGGGGGATGGGGCGGGGAAGGAGGCTGATGGAGGAGTTGCTGACTGCAGGTAGCTGGAGGCCTCAGCCTTCCTGGGCAGC
Celera SNP ID:            hCV27865682
SNP Position Genomic:     495139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47861):
ATATAATAGCTACACAATAAATATTGAAAGAATGAGGGGATGGGTGGACAGATGCATAGATCCATGGAAGAATGGATGGATGGATGGATGGATGGATAGA
D
GGATGGATACATGAATTGATGGATGCATGGATAGACACATGGATGAGTGATGAATGCCTGGGTGGGTGATGAATGCATGGATGAATGTGGAATGCATGGA
Celera SNP ID:            hCV26613348
SNP Position Genomic:     1106105
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3|T,3|-,4)   total(G,3|A,3|-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47862):
CCTGTCTTGTGCTAGGCACCAGGGGGCGTAGCAGCAGACCAGGAAAATGTAGAGTCTGCCCTTACGGAGCTGGGAGCCTTGCATGAAAGACTGGCACTGA
Y
GACACAGTGGCACTGAATGAACGTGTGATCAGAAGCTGAGACAGGGCTCTAGGGGAAAAAGGCAAAGTGCAGCCAATCCTCATAGCAAAAGAGACCGAGG
Celera SNP ID:            hCV27865683
SNP Position Genomic:     492421
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47863):
ACATATAATAGCTACACAATAAATATTGAAAGAATGAGGGGATGGGTGGACAGATGCATAGATCCATGGAAGAATGGATGGATGGATGGATGGATGGATA
G
ATGGATGGATACATGAATTGATGGATGCATGGATAGACACATGGATGAGTGATGAATGCCTGGGTGGGTGATGAATGCATGGATGAATGTGGAATGCATG
Celera SNP ID:            hCV26613349
SNP Position Genomic:     1106103
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,5)   total(G,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47864):
TCAGAGCACTCAGGCATTGGATTGGAGAATGGAGTTGAGATGAGAAGCAGTGAAGCACTTGCTGTAGCCATCATAAAAACCTGGATCATATCAATAGATC
R
TCATAACTTGGCTTCAACAAGAATTCATAAAACCAACTCCTCTCTATTTCATAGTTTCATCATTTTATGGAATATCAAAAACCTAAAGAGAAAGAGAAAT
Celera SNP ID:            hCV27865684
SNP Position Genomic:     490592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47865):
AGTTACAAACAGCCATCCCCTTAGGGTATACACTTGCAGCACCCATGGGTGTGTGGTTGCAGAACACAGGGTAAATTTCAGCCCTCAGCCACTTCCTGCA
R
GGACTTTTGTACAGCGTACAACCTTTACCACCATAAATGGAGGCTTTTTGTATTTCACACATCATTTAACTAGTGAAAGTTGCATAATAGATACTCAGTG
Celera SNP ID:            hCV27865685
SNP Position Genomic:     479700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47866):
TTGCCATGTTGGCCAGGCTGGTCTCGAAGTCCTAACCTCATGTGATCTACCTAACTCAGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGTGCC
R
GGCCTCTACATATTACTTCTAATCCTTAACATAACAGCCCATGATTCCACTCTTTCAATCTCGTTTCTTTTAACTTTGAACCATTCTTTGCCAATTACTT
Celera SNP ID:            hCV27865686
SNP Position Genomic:     478467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47867):
TGTCTGGAGAAGTTTGAAGCAGAGCAGATGCTCAGACGGTCTGCATCCCTCCTCTTTGCCGTCCTTCTCCTTTGCTCACCTGCAAGAATCAGGCTTTACG
W
TTCAACTTTCTGTTCCAAACATAGCTTTAAAGCCTGTTTGGGTGTCCTTAGAAATTTTTCTAAGTGTCAGCTCATATGAGACACCCGCTCCAGATGTCTT
Celera SNP ID:            hCV27865687
SNP Position Genomic:     352364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47868):
AGTGCTTAAATGGATATCTTATTTAATAATAACAGGAACCCTTGGAAGTGAGCACAGGTTTGATTCTCACTTTGCAGATAAAGAAACTGAGGCCCAGAAA
S
GTGCCCAAGGAAGCAGAGTTATTTAGGACCTGACAGAGGTAGGATTCCAACCTGGGCAGTCTATCACCAGAGTCCTTGTTTAATCACTAAATTTTGTACC
Celera SNP ID:            hCV27865688
SNP Position Genomic:     177971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47869):
TTCATGTCAGGTTCCTGTGCCTCTCCTGGAGAAGCAGGTGATAAGGTCTCTGTGTTAAAGGAGGAAACCAAGGTTCTAGGCAGCCTCGTGGGTAATACAG
Y
CAGTAAATTGCAAAGCTGGGTGAACTCAATTGACAGGACTCTAGCCAGAAACTGGTTCTTTGCCATTAGTCTCTACTGACCCCTATGGATGTATGGAGGG
Celera SNP ID:            hCV27865689
SNP Position Genomic:     175192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47870):
GGAATCATCTCTTGGTAGTGTCATCAGCAGAAAGAAAATTCTTTTCTGAATTGAGCTTTGGTTGTATGGGATAGATATCTGTTCTGTTGGTGGTGGTGGT
K
GTGGTGGTTTTGTGTTTTAATTTTTGGATTGTGACCTCAGTTTGAGTGAGCAATGTGATGAAGCTGCTAACAAAAAAATCAAAGAGAAAACTCTAAACTC
Celera SNP ID:            hCV16195731
SNP Position Genomic:     127557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47871):
AAATAGTCAGACTAATAGAAGCAGAGTAGAATGGTGATTTGGGGGAGCAGAAAGGGGAAATTTATTGCTCAGTGGGTATAAAGCAGCAATTATATGGGAA
R
AAAAAGTTCTAGAGATGTTTTGTACAACTTAGTGCTTTTAGGTAACAAAACTGTAATGTGCACTTAAAAATGTGTTCAGAGGCTGGGCGCCATGGCTGAT
Celera SNP ID:            hCV16195732
SNP Position Genomic:     182892
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,11)   total(G,11|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47872):
GATATGAGTCTTCTTTTACCAGCTGTGTGATCTTAGGTGTTCTGGGTCCCATTTGGGAAATGAGGGGTTTAATTGCCTCCAAGCTTGATCTGTGCATGGA
K
CAATGTCGTTATGAGAATTCCCCACATTTTGCTCCCTTTTGGACCTCCCTAAAATTCCCCTAAGAACACCCCTCACTAGTAGAAATGTAGAATCCCAGAC
Celera SNP ID:            hCV27516707
SNP Position Genomic:     451174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47873):
TCCCCACCTCCAGAGAATCAGATGTTAAACATTTGCCAGTGTTCCTCTGGCAAAGAAAAGGAAAATAGCCAGAGGTAAGTGAAATCAAATGAGAGAAGTC
Y
AACCTTGCAAAACTGAGCCAACTGCACTGATGTATCCTGTTGTCTGTCCCACACCCTCGCAAGGCTTTTGGTCTTTGTCCAGCAGAGTCACCACGTCTTA
Celera SNP ID:            hCV26613350
SNP Position Genomic:     1104837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47874):
TTAGCAGGGCTAGCAGGACTAGCAGGACAAGACAGAGTTTGAATGAGATCGTTGCATCTAAGTGGAATAAGGAGAAGCTGATAATGCAAGAAGGTCAACC
R
TCTCACACACATCTAGGGACCGTGGGGAAACCCATTTTGCTAGAGTAGAGAGATTGGATGAGGAAGTACAGGCTGCACCCTGGAGCCAAGCTAAGTAAAC
Celera SNP ID:            hCV26613351
SNP Position Genomic:     1104080
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47875):
AGCTCCAGGGAGGAAGAGACTCCAGGGGCTCAAGTGGTTTAGCAGGGCTAGCAGGACTAGCAGGACAAGACAGAGTTTGAATGAGATCGTTGCATCTAAG
T
GGAATAAGGAGAAGCTGATAATGCAAGAAGGTCAACCATCTCACACACATCTAGGGACCGTGGGGAAACCCATTTTGCTAGAGTAGAGAGATTGGATGAG
Celera SNP ID:            hCV26613352
SNP Position Genomic:     1104042
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47876):
ACCATCGAGGTGCCGGTGGGTGTGTGATATAGTATGTTAACGAGCATATATTGAGGTCCTAGGGAAAACCTAAGTGAAATCCACCACCACGATGGGTCCA
R
TTGGTCTTAGCCAGCTTGGCCCACACTCTTGTTTTTTCAGGGTCTTATCAGCCCCTAGCTTCTGCAGCTATTTCAACATTTTCCTTTTGCTAATCATGTG
Celera SNP ID:            hCV26613353
SNP Position Genomic:     1100901
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47877):
TACCTGTAATCCCAGCACTTTGGGAGGCCGAAGCAGGTGGATTAGTTGAGGTCAGGAGTTCAAGACCCGTCTGGCCAACATGTCTGGCCAACATGGTGAA
R
CCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGGGTAGTGGTGCACACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCC
Celera SNP ID:            hCV26613354
SNP Position Genomic:     1099288
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47878):
TAGAGATGGGGTTTCACTATGTTGGCCGGGCTGGTCTCAAATCCCTGACCTCATGATCCGCCCTCCTCAGCCTTCCAAAGTGCTGGGATTATAGGCATGA
R
CCACCGCACCCGCCCTGGCCTCTTTAATGATTGTTTACTTGGGTAGGTAAAGTCTTCCAGTCCTTTTCATTCTCTCTAAAATCAGAAACTCTTTGGAAAT
Celera SNP ID:            hCV26613355
SNP Position Genomic:     1098970
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47879):
TGGCACTTACTGGTTCATGTCAGGTTCCTGTGCCTCTCCTGGAGAAGCAGGTGATAAGGTCTCTGTGTTAAAGGAGGAAACCAAGGTTCTAGGCAGCCTC
K
TGGGTAATACAGCCAGTAAATTGCAAAGCTGGGTGAACTCAATTGACAGGACTCTAGCCAGAAACTGGTTCTTTGCCATTAGTCTCTACTGACCCCTATG
Celera SNP ID:            hCV27865690
SNP Position Genomic:     175179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47880):
CAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAGTCTCAGCTCACTGCAACCTCCACCTCCTGGACTCAAGCAATCCTCCTGCCTCAGCCTCC
R
GAGTAGCTGGGACTACAGGCACGTGCCACCACACCCGGTTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCGGGCTGGTCTCAAATC
Celera SNP ID:            hCV26613356
SNP Position Genomic:     1098812
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47881):
TTGTTTCTTGTTATACCATAAAGATAAGGAGCTTGAGTTACTTTCCAGCTGATAAGGCAATTTTCACCTTTTTCCATTTGTCTTGGAATTTCACACCCCA
Y
CCCATCCTACCCTTAAGGTGCCCTGGAGGGGTTGAAGGGCCATTCTTGGTCATCCAGTCTCTGTGTGGTTGGGTTGATCACAGAAACTAGAGAAGTCACG
Celera SNP ID:            hCV27865691
SNP Position Genomic:     168161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47882):
GTACCATAGACTGAGCAGCTTAAGTAGCAGAAATTTAATTTCTTACAATTCTGTAGGTTAGAAGTCTGAGATCAAGGTGTTGGCAGAGTTGGTTCCTTCT
G
AGGCCTCTCTTCTTGGCTTGTAGATGGCTGTCTTCTCCCTGTGTCCTCACAGAGTCTTCCCTCTCTGTCTGTCTGTGCCCTAATCTCTTCTCATGAGGAC
Celera SNP ID:            hCV26613357
SNP Position Genomic:     1094183
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47883):
ATTGTATCATATCTACTCTCCTGTTTGTCTCTTGCTGCAGACTCCTCTAAGGCAGGGACCACTTTTCACCACCTTTCCATGCCCCTGGATCCTTGTTCAG
R
TTTGGCTTGATGTACGCACTTTGAAGATACTTGAATGAGTGACCACAAATATCTTCATTTGCATCTGAACAATTTTCTTGATATTTGAACTTCTTACCCA
Celera SNP ID:            hCV27865692
SNP Position Genomic:     136269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47884):
GGGCAGATCACGAGGTCAGGAGATGGAGACCATCCTGGCTAACACGGTGAAATCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGATGGTGGG
Y
GCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGC
Celera SNP ID:            hCV26613358
SNP Position Genomic:     1087698
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47885):
TATAGCCTCATTTAATTGCAAAGGGATCAGGAAAGTGTCATTCTGAACATTCTCAGAAAAGCAGAGACCTGATTATACATGAGTGTTAGAAGCCTCTACA
R
CACAGCAATTGTGGACTGAATGCTTCATTCAGGCAATAAGCAAAAGCCTCCTTCAGCAGCGTATTATTTAATCCTCACATAACCCTGCAAGGTGTGGGCT
Celera SNP ID:            hCV8095165
SNP Position Genomic:     449694
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47886):
TCTGGACTGCTATAGTAATGATAATAATAGTAAGAATAATAATAGCCACCATTTGTGGATCACTTACTGCAAACCAGGAACTGTGTTAAATCCTTCTCAT
R
TGCAAGCTGCTCCTTTAACCTGCGTGGCAACCCGGGGTGACTAGCTGTTAGTATAGCAGTTCCTTGCCCAAGTTTCTCAGTATCTTTCAGCCTCAGTTTC
Celera SNP ID:            hCV27865693
SNP Position Genomic:     135464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47887):
GCCCGGGCCCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGGCAGATCACGAGGTCAGGAGATGGAGACCATCCTGGCTAACACGG
W
GAAATCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGATGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTG
Celera SNP ID:            hCV26613359
SNP Position Genomic:     1087645
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47888):
GGAGTGAAATACTTGAGTAGGGGCTGGGAAGCAATAAAGCAAGTGGTATTTTCAAGTTTATGCATCCACAAGATCAGTGTTCAATATTTAAAATGTTCAA
Y
GTGTAAACTCTATCATGGAAAGATTTTTGAGGAAGTAGCTTGTAAAAAGTTGCATATTTCTATTTGTTGCTAGGGTTACCTAACCAACAGGTTCTTGGCT
Celera SNP ID:            hCV27865694
SNP Position Genomic:     135126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47889):
TGGTCACTGTGATGGAGCAGAGAGGGCAGGGAGGAGAGTCATCAGGAGGCTGTAGGTGCAGACCAGGGGAAATGCCAGTTAGACTACACTATGCTGTGGC
R
GTGGGAATGGAAGGACCTGATGTGCTTTCCTGAAATGTAGTTGGGGCGTGTCACATGCTTGAGTTCTGTGTCCCTACCCTCTCTCACTGACCCATAGTCG
Celera SNP ID:            hCV27865695
SNP Position Genomic:     100927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47890):
GCGTCTGTTTGTTGAGAGGCAAAGGCGGCCCCGCCCCATGCTCTGGTTTCTGCTTGCACCTTATTAACGGGTAATGAAGAGTAGGTTCTGCTTTATTGAT
S
TTGAGACCAGAGCTACGTGCGATGCTGCCTAAGAAAAGCCGCAAAGGATTTTATTTGATTTTTGCACACAGCAATAATCTCCCTCACCAGATTAGCTGGT
Celera SNP ID:            hCV27865696
SNP Position Genomic:     94477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47891):
AGGGAGCCTTTTCAATCTTCTCATGCTCCAGTTTCAAAGCTGTCTCAAAATGAGATAAGTTAAAGCCTAATACAGTTTTTTAGAAACACCTGTATTTGTC
R
CGCTGACCTAATATTAACACAGGTTCTCGTCTCTACTTGAATGTTACGCATCTATCGCGACACCATTACCAGGACTGCGCTCTGAATCTTTAGAGATTAT
Celera SNP ID:            hCV27865697
SNP Position Genomic:     46984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:47892):
TGGTTTTTTTTAATACTGTAAAGGCAGAAATGAGGTGTTTACCATGTTTTGGTGGGGAAAATCTATAAAGGGAAATGGGATATTATGTGACCCAAGAAAA
S
ACGTGCTCTAAAAGGCTAAAGCGCCTGGAACTGTTTGTATTCACTCAACCTGATGCCTATTTCCTCAACAGCCACTTATTCTCTAGGCCCTGGTGATTCT
Celera SNP ID:            hCV25472259
SNP Position Genomic:     868743
SNP Source:               Applera
Population(Allele,Count): african american(C,23|G,3)   caucasian(C,40)   total(C,63|G,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47893):
GTCCTTGCTTTTGACCAGGGCCAAACAACCCACCTGCACTGCATGGTTCCCCCAGCAAGAACATCCCAGTGAGAATGGCCCACAGATGCCTGGGCGTGAC
Y
CACCTGCAGCTTCAACCATGCAGGTAAATTTGCCTGCTGCTGTGTCGTGTGGCTGGATGGAATTCTTCCCTAGGGATGCTAAGAAACCCTGTTGCCTAAG
Celera SNP ID:            hCV27865698
SNP Position Genomic:     18480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47894):
CCTATGTTAAATCAACGTACATGGCTTGACTCAGGTGATATCTGTAATCTTGACTTTGTCTGTTTACATGTAACTAGGCCTCTGGTCTCTGCCATCCTAT
M
AATCCATTCAGCCTTTCAGCCTCAGTTTCTCCTGGTAGAGCCTGGCATGGCCTGAAGGCAGCACAGTATAATAGAAATAGGAAGGTGTGTGTGATAGACT
Celera SNP ID:            hCV43231
SNP Position Genomic:     914055
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,6)   total(A,6|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47895):
AGGTTCACAATTCCCAACTGGAGTGGGTGAGTGGGAGAGAACTTTACAAAAGAAATAAGAGCAAAACCATCTGGGTAAAAATGACACCATGTCTTGATCT
S
TGGTGCTAAGGACCCCTGGAAGTGCAACCATTTACACTCGCTCTTGAAAATGCCTCATTGTGGGTTCAGGGATAATAACCCTTAAGCTAAAGCCTTTATG
Celera SNP ID:            hCV16195744
SNP Position Genomic:     186616
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47896):
ATCATTTGTTTTACTCACAAATGTGTCATTTGTGAGGGCTCAATGGGGACTATTCATCTCTGTTTTTCACGGTGTCAGTTAGGGTAGCTTGAAGGCTGGG
G
TAACTCAATAGCTGGAGGTTGGGCTCCTTTATTCATTCCTTAATGTGCTTGGTGGTTGATTCTGGCTGTTGGCCACAGTATCCACACATGGCCTCTCCAC
Celera SNP ID:            hCV26380153
SNP Position Genomic:     306064
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,7)   total(G,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47897):
CTTTTTTAAAAAAAGAAAAAGAAGCCCGGGCCCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGGCAGATCACGAGGTCAGGAGAT
K
GAGACCATCCTGGCTAACACGGTGAAATCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGATGGTGGGCGCCTGTAGTCCCAGCTACTCGGGA
Celera SNP ID:            hCV26613360
SNP Position Genomic:     1087622
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47898):
AACCAAGCTTTTTGAGAATTTTGACTTTTTTAAAAAAAGAAAAAGAAGCCCGGGCCCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGC
R
GGCAGATCACGAGGTCAGGAGATGGAGACCATCCTGGCTAACACGGTGAAATCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGATGGTGGGC
Celera SNP ID:            hCV26613361
SNP Position Genomic:     1087598
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47899):
TTAGAATTGAATTTAAGCTCTGATAGAAAATTGTTGAAAGCCTTCAGTGCTCATTTTTCACCAAACTGAACTCTATAATGGTACTACAATAGAAAAAAAA
W
TTCCAAAGTTCAATTGGAATTTTTTCCCAGTAACTTAATAATAAGGCTCCAATTTCAGGAAAATAGTTTCAGCATGAGTGAAATCACACTGTTTGTTATG
Celera SNP ID:            hCV26613362
SNP Position Genomic:     1086973
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47900):
ACTGGGCCAGGCCCTGAATGTTTTGAAGGTACTGGTGACAGGGATTTGCTAACCAACTGTGCCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
CAGAGAGAGAGAGAGAGGAATAAAGATTGACTCCAAGATTTTTGTCCCAAACAAATGGAAGCACAGAGGGCACATCTCTGAGCTTTGCAAGCTCGCTGGA
Celera SNP ID:            hCV26613363
SNP Position Genomic:     1073323
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47901):
CACTGGGCCAGGCCCTGAATGTTTTGAAGGTACTGGTGACAGGGATTTGCTAACCAACTGTGCCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TCAGAGAGAGAGAGAGAGGAATAAAGATTGACTCCAAGATTTTTGTCCCAAACAAATGGAAGCACAGAGGGCACATCTCTGAGCTTTGCAAGCTCGCTGG
Celera SNP ID:            hCV26613364
SNP Position Genomic:     1073322
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47902):
GCCACGATTTTGGCTCACTGCTACCTCTGCCTCCCAGGTGCCAGTGATTCTCGTGACTCAGCCTCTGGAGTAGCTGGGATTACAGGCATGCACCACCACA
Y
CCAGCTAATTTTTGTATTTTTAATAAAGATGGGGCTTCACCATGTTGTCCAGGCTGGTCTGGAACTCCTGGCCTCAAGTGATCCACCTGCCTCGGCCTCC
Celera SNP ID:            hCV26613365
SNP Position Genomic:     1073094
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47903):
TGCCACGATTTTGGCTCACTGCTACCTCTGCCTCCCAGGTGCCAGTGATTCTCGTGACTCAGCCTCTGGAGTAGCTGGGATTACAGGCATGCACCACCAC
R
CCCAGCTAATTTTTGTATTTTTAATAAAGATGGGGCTTCACCATGTTGTCCAGGCTGGTCTGGAACTCCTGGCCTCAAGTGATCCACCTGCCTCGGCCTC
Celera SNP ID:            hCV26613366
SNP Position Genomic:     1073093
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47904):
GTGGGGTTGGTGGAGGGAAATAAATATGAAGAAGAATGGTGAGACAACCAGTGGGCATATACTGTGTAGACTACCAGAAAGCTTTGGAAATGTGTCAACC
S
TAAAGCATTGCTATTTTTAAATATTTAGTTGTATTTTAATATTTAGCTATAAATGAAGAACTTGGCTTGGACACAAAAATAACAAAAAATTAATATCTAA
Celera SNP ID:            hCV11440154
SNP Position Genomic:     69361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47905):
GTACAGTGCCACGATTTTGGCTCACTGCTACCTCTGCCTCCCAGGTGCCAGTGATTCTCGTGACTCAGCCTCTGGAGTAGCTGGGATTACAGGCATGCAC
Y
ACCACACCCAGCTAATTTTTGTATTTTTAATAAAGATGGGGCTTCACCATGTTGTCCAGGCTGGTCTGGAACTCCTGGCCTCAAGTGATCCACCTGCCTC
Celera SNP ID:            hCV26613367
SNP Position Genomic:     1073087
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47906):
TTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACTGGGGCTGGAGTGCAGTGGCGTGATCTCGACTCACTGCAACCT
Y
TGCCTCCGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGCCACTATGCCCAGCTAATTTTTTGTGTTTTTAGTAG
Celera SNP ID:            hCV11440155
SNP Position Genomic:     76561
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47907):
GAGTACAGTGCCACGATTTTGGCTCACTGCTACCTCTGCCTCCCAGGTGCCAGTGATTCTCGTGACTCAGCCTCTGGAGTAGCTGGGATTACAGGCATGC
R
CCACCACACCCAGCTAATTTTTGTATTTTTAATAAAGATGGGGCTTCACCATGTTGTCCAGGCTGGTCTGGAACTCCTGGCCTCAAGTGATCCACCTGCC
Celera SNP ID:            hCV26613368
SNP Position Genomic:     1073085
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47908):
ATTTCAACCCAGCCCAGACTGAGAGGAGGCTGATTTCAAGGGCAAAGAAGGTGAGGCAGCCGATTCCCAGGTCCCATTTCCCTTGCTCCACTTCATTAAC
R
TGGCCACCCTTAATGCGTGTCATAACTCTGCCTTCCAGCAAGATTTCCTCTCCACTAAGAACCTTTTAGAAATGGTATTTAAGAGAATGTGCATAAAACA
Celera SNP ID:            hCV11440156
SNP Position Genomic:     78545
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;(A,-|G,-)   Caucasian(A,84)   African-American(A,84)   Asians(A,84)   total(A,252)
SNP Type:                 INTRON


Context             (SEQ ID NO:47909):
CTGACCAACATGGTGAAACCCCATCTGTACTAAAAATACAAAAAAAGTTAGCCAGGAATGGTGGTGCTTGCCTGTAGTCCCAGCTACTAGGGAGGCTGAG
R
CAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCCCTCCAACCTGGGTGACAGAGTGAGACTTCGTCTAGAAAA
Celera SNP ID:            hCV26613369
SNP Position Genomic:     1069331
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47910):
TCTCTCATTTCCTTATTCCTATGTTCTCATTCTGGTCCATCATCTGTTCATTTATTCAGTCCATTCTTTGTGTATTCATTCAATTATTCTTTCAAGTGAC
R
TTTACTGATAATTAAAACTGTTAAAATCACTGACGTCAAGGTCTATGAGCAAAACTGAACCAAACCAAAACAAGAACTAAACTAGAATCCGTTGTGGCGG
Celera SNP ID:            hCV26379900
SNP Position Genomic:     134684
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47911):
CTGCCTTCCAGCAAGATTTCCTCTCCACTAAGAACCTTTTAGAAATGGTATTTAAGAGAATGTGCATAAAACAAGTCTTCATGGTGATTATGACATTTCT
S
CTGAACCAAAATGTAATCAGTACACACATTTTGCATCCTTACACTTAATCCACAAACATAGCTTTTACTGTTTTACCTTCTCCCACCCACAATCCAAACA
Celera SNP ID:            hCV11440157
SNP Position Genomic:     78673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47912):
TGTGAGCTATTCATGTGCAAGTAACAAACACCTACTCAAACAAGCTTAAGAAAAGCAGGGAATTCCTGGGAGGATGCAGGAGCAGGAAATTGAGCCAGTC
S
TTCCAAAGGGCCAGAACCAGAAGGCAGACCACTGGGTCCCAGACAGATGGGTCATCTCTTTCCACTGTGATTCAAGCCCTGATTTGTGGCCTTTGCCTAT
Celera SNP ID:            hCV26379901
SNP Position Genomic:     131706
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,7)      total(G,7|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47913):
AGTGCTGGAGAACTCGTACCCCCAGGATCAGCTCTCAACCAGGGATGAATACAGATGGAGGATAAATTTCCCCACTCCCTTGCCCCTTTGGAGATGTATT
Y
GACACCATTTCTCAGAGTCTCCAGGGAGAATGAGCTCCAGTAGCCCACAGTGGTACCTGGACTGATAATGCTTTACTGGCTTTCTTTTCATATCACTGCC
Celera SNP ID:            hCV11440158
SNP Position Genomic:     82520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47914):
AATCTTTCCCTGGTTCAGCTTGGGTGCACTGCCTTGTGCTGACTCTGTCCCCTCCCCTACCCACCACACCCCATGTGTCTAGAACAATCTCCTCTGCAGT
M
CTTCATTTCCTAAATGAATTAGTCCAGAGCCCTGTTTTGAACAGATGCCTGTACAGTTCTTGATTGGTTGAGGCAAGTCTAAACTGACATAAGCCCTAAC
Celera SNP ID:            hCV26379902
SNP Position Genomic:     131460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,8)      total(A,8|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47915):
GGAATCTTTCCCTGGTTCAGCTTGGGTGCACTGCCTTGTGCTGACTCTGTCCCCTCCCCTACCCACCACACCCCATGTGTCTAGAACAATCTCCTCTGCA
R
TACTTCATTTCCTAAATGAATTAGTCCAGAGCCCTGTTTTGAACAGATGCCTGTACAGTTCTTGATTGGTTGAGGCAAGTCTAAACTGACATAAGCCCTA
Celera SNP ID:            hCV26379903
SNP Position Genomic:     131458
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47916):
GGATTTCTCCGGACTGTTAACTTCTGTTCAAAGAGCCCGCCAATGATGGATAGAGAGCGGCGTGCAGAAAGGAATCTTTCCCTGGTTCAGCTTGGGTGCA
Y
TGCCTTGTGCTGACTCTGTCCCCTCCCCTACCCACCACACCCCATGTGTCTAGAACAATCTCCTCTGCAGTACTTCATTTCCTAAATGAATTAGTCCAGA
Celera SNP ID:            hCV26379904
SNP Position Genomic:     131388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47917):
ATAGAGGTTGGACAGAACAGTAAGGAGAAATTCTCTAAGTCCACCTGGAGCTTATTAAGATTGAAAATTGCAAGAGATTGGCTTAAGCTGATTTTTTTTT
T
CCCAACAGCCTAGGCAAAGACTCTGATTTCCAATTTTCTGTTATGGTTGAGTGCATTCTTCCGGCAAATATTTAGTAGGCACTCTTAATGCTAGGACTGG
Celera SNP ID:            hCV26379905
SNP Position Genomic:     129815
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47918):
GAAAACTCTAAACTCTGTTAATAATTGTACATTGTAAGGTAGTAAGGCATGTTAGCCTCACTGTGCTTGTCACAGATCAGAATCTACCTAGAGAGCTGGG
R
TACACGTAGAAGCCCAAGAGTACTAGATGATCTCCTATAAAGAGCCAGGATGGTAGAAGACCTGTGGATTGGCCTTCTGCTATGTTTCTGTTTCCCAGCA
Celera SNP ID:            hCV26379906
SNP Position Genomic:     127743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47919):
AAGTCATACTCAAATAGAGATGATAGTACTTTGACATTTCTTTAAAATCTAGGCAAACCTGAGATGCTTTTATCATTGAAAGTAGAAGGTGTCCCCATTA
Y
TGGCAGGGAAATAGATTCCAGAATTTCATATTCTCTCCAGGTCAGCCACTACAAATGAGAACTGAAGAATTAATCTAAGACTTTTTTCATTTTTAAAAAT
Celera SNP ID:            hCV26379907
SNP Position Genomic:     125447
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47920):
TATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACACTGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATA
Y
TCAAATAGAGATGATAGTACTTTGACATTTCTTTAAAATCTAGGCAAACCTGAGATGCTTTTATCATTGAAAGTAGAAGGTGTCCCCATTACTGGCAGGG
Celera SNP ID:            hCV26379908
SNP Position Genomic:     125355
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47921):
TTTATATATATGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACACTGTATGTATGATGCATGTATATATACATATTTTAAA
Y
AATTTCTAAGTCATACTCAAATAGAGATGATAGTACTTTGACATTTCTTTAAAATCTAGGCAAACCTGAGATGCTTTTATCATTGAAAGTAGAAGGTGTC
Celera SNP ID:            hCV26379909
SNP Position Genomic:     125339
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47922):
ACGGTGACGCTAGGAGGTATGCACGGTTACTTCCATTATAAGGTGAGGAGGCTGTGGCATACCATGTTCTGTGCCATGTCCTCAGATACCATTATACCAG
R
TGCCATTCCTTAAGCCCCTGAGTACCAATCCCACTCCCTCTCCATCACACACAGCCACTATGGAATACACTCACATCAGCGTCAGTTGGCCCCACTCACT
Celera SNP ID:            hCV7624600
SNP Position Genomic:     1101954
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47923):
CAGGTGCTGACAGGTGCATTTGGCCTGATATGCACTGTAGGGGGATGGCTTCCAGGGCACCCTCAATGCCTCTTAAAATCATTCTCTCCTTAAAACCAGC
Y
CATTCATCTCTTGGGGGCTTCTGCCTCTCTTTCAGACAAATTATTGCAGAGAGTCCAGTAGCCAAGTAGAATTGCATTGAGCAGGCACATTTGACAATGA
Celera SNP ID:            hCV7624601
SNP Position Genomic:     1101308
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47924):
AGGCAGATGTTGAAGAACGTGGAAGCTTCTAGAAGAGCTGAAAACGTCCATAGACTGAGTAATCGGCCAGGCACAGTGGCTCACACATGTAATCCCAGCA
S
TTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCTGCCTGGCCAACATGGTGAAACCCCGTCTCTACAAAAATACAAAAATTAGC
Celera SNP ID:            hCV26380160
SNP Position Genomic:     367546
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47925):
CCCATTGCTAGCTCTCGCACCCTCTCTGCCCTTGACCTCAATAATATACCATATCTTGATTCACTGGCTCCAGGTCTCCTACCACCGAGGACTTGCCTTA
M
TTTTTTTTTGTTGTTTTCTCCATGGAGTCCATCTGTTGGAACATTCTGTCTACAAACTCCTTTTGTTAGGTAATAATGAGTTTTCCCATTTTAAAAAATT
Celera SNP ID:            hCV26380161
SNP Position Genomic:     304886
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47926):
GCGGTGGCTCATGCTTGTAATCCCAGCGCTCTGGAAGGCCGAGGCAGGCAGATCATGGGCTCAGGAGTTCGATGCCAGCCTGGCCAACATGGTAAAACCC
C
GTCTCTACTAAAGATACAAAAATTAGCAGTCCGTGGTGGCGGGCGCCTGTAATTCCAGCTACTCAGGAGGCTGAAGCAGGAGAGTCGCTTGAAACCGGGA
Celera SNP ID:            hCV512234
SNP Position Genomic:     890596
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47927):
CCCTGCGAGTATATGTCAAGCATTTTATCTGTGGGGACTAAGTTTGGCTGAACATAACAGGAAAATTCAAAATGACAGTGGCTCAGAGCAGACGGAAGTT
S
ATTTTTTTTTTCTCACATAAAGTAGGTCTAGAGCAGGCATGACAGTTCAGGGACAGTGGCAGCCCCACACGGCCCCACACAGGGTTCTACTTGCTCACTA
Celera SNP ID:            hCV26613370
SNP Position Genomic:     1067095
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47928):
GAGGGCAGGTGCGGTGGCTCATGCTTGTAATCCCAGCGCTCTGGAAGGCCGAGGCAGGCAGATCATGGGCTCAGGAGTTCGATGCCAGCCTGGCCAACAT
R
GTAAAACCCCGTCTCTACTAAAGATACAAAAATTAGCAGTCCGTGGTGGCGGGCGCCTGTAATTCCAGCTACTCAGGAGGCTGAAGCAGGAGAGTCGCTT
Celera SNP ID:            hCV512235
SNP Position Genomic:     890586
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47929):
CACTTTTTGATAGATGTCCATCTTCTTCTCTCTCTATCCTCACATGGTAGATAGAGTGAGGCAGCTCTCTGGATTCTCTTTTTTTTTTTTTTTTTTTTTT
K
TTTTTTTTTTTGAGACAGAGTCTTGCTCTCTCACCAGGCTGGAGTGCAGTGGCCTGATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTC
Celera SNP ID:            hCV26613371
SNP Position Genomic:     1054640
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47930):
AGAATCACACGAATCAGATCAAAATAATTGCACCCTGGAGTTGTTTCTGTGTTACAGCAGCCTCAGTATCCCTTCTCATTCCCACTATTTTCTAGCCTCC
A
TGCATGTTCTAAGAATTTTCCAGCTCTCCTTTTATGGAAGACAACTCGCCCAGGTTTGCCGAGGCGCAATAAACAAATTAGTTGCAGTCCCCGCCCTGTC
Celera SNP ID:            hCV26613373
SNP Position Genomic:     1051759
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47931):
CACACCTGGCTAATTTTTTACATTTTTTTTTAGAGAGATGGGAATCTCACTATGTTGCCCAGGCTCATCTTGAATTCCTGGGCTCAAGTGATCCTCCCAC
Y
TCAGCCTCCCAAAGAGCTAGGATTACAGTGTTAGAATACCATGCCCAGCCCCCAAAATAAATTTTTTAAAGCACATTACTCTATTATGATAGGAGGGGTT
Celera SNP ID:            hCV26613374
SNP Position Genomic:     1050120
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47932):
TGGTCATCCCAACAGATACCTGCACCTAGTTGGCCAATCAGATCACTAATTGTCCGGTCTCAGCGATTGATCTAGACACATTTATGACCAATATATGGCA
R
ATGAGAGTTCTTTGGGGGAAATTAATTTGAATGTTGCAGAGTGTTGGCCTTCTCACTCCCCTGAAATATGAGTTCCAAAGACAAGGTGAATCTGGAATTG
Celera SNP ID:            hCV11440162
SNP Position Genomic:     128006
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;(A,-|G,-)   Caucasian(G,22|A,60)   African-American(G,11|A,71)   Asians(G,18|A,56)   total(G,51|A,187)
SNP Type:                 INTRON


Context             (SEQ ID NO:47933):
ATGCAACTAGTCAAGCATGCAAGCTTGCATATGTGCAGTCCTTTAAACTTGTCCTCTGTCACTTCTTTCCCATCTGTGTCTTTCCAGCCTTCTGATCATT
A
TTTCCATCTTCCATGTTAATCTAAAGGTCAACTTTCTGCTCTTGGAGGAAGAACATGCATTCTTGGTGTATAATAAAATTCAAGTCCCTCTTCCTACTTG
Celera SNP ID:            hCV26613375
SNP Position Genomic:     1048003
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47934):
TGAGTTCCAAAGACAAGGTGAATCTGGAATTGTGGGGTCCAATTTTTTTTTCAAATGGACACAGTGAGTTGGATAAAAAGCCCGACAGAGCCAAGAAATG
S
AGAGAGAAAGAGAGAGAGAGAGACAGAGAGAGAGAAGGAGGAAGGTGGGAAGAGAGTGACAGACCTTACGGTGTTATTCAAATCCCTGGATCCAGCTGTA
Celera SNP ID:            hCV11440163
SNP Position Genomic:     128175
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,9)      total(G,2|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47935):
GAAAGGTACCCATGAGTTAGAGCAGCAGTCCACAACCTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCA
Y
GATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGTCTCAGCCTCCCAAGTAGCGGGGACTACAGGCACCCGCCACCACACCCAG
Celera SNP ID:            hCV26613376
SNP Position Genomic:     1042057
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47936):
AAGACAAGGTGAATCTGGAATTGTGGGGTCCAATTTTTTTTTCAAATGGACACAGTGAGTTGGATAAAAAGCCCGACAGAGCCAAGAAATGCAGAGAGAA
R
GAGAGAGAGAGAGACAGAGAGAGAGAAGGAGGAAGGTGGGAAGAGAGTGACAGACCTTACGGTGTTATTCAAATCCCTGGATCCAGCTGTACCTAAAGCC
Celera SNP ID:            hCV11440164
SNP Position Genomic:     128184
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47937):
ATGTCTAAAGACTATAGGGGATGTCACCCAAAGGGTCACCTTTTTAGGCAGAACTTGAGCTCTTGTTAAGGTTTGAAAAATCACAAGCTGTTTTTTTTTT
T
CCTCCATAGCTCAGAAATCAAACCAGATTGAGGAAAATCTTTCTAGGGAAAAAAAACTCACAAAAGCTGAGAAAATTAAAATATATAGAGCTCCTAGAAT
Celera SNP ID:            hCV26613377
SNP Position Genomic:     1036461
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,11)   total(-,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47938):
AAAAAAAAAAAAAAAATTACACTAGCATCCACTCTTACCCTACCTGTAGGAAGTACCGTGTTGCTCACGGGTGACCCCAGGAGGCTTACCTTTCTGTTTT
S
TTTGTGAAAGTTTCTCCCCCATTTTGCTTGTGCTTCCAGAGCAATGATGCTAGATGTTGGCTCACTTTGGAAACACTCCCTTCCTACAACATAAATGTGT
Celera SNP ID:            hCV26613378
SNP Position Genomic:     1030423
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47939):
GATCGAGACCATCCTGTATAACACGGTGAAATCCCGTCTCTACTAAAAACACAAAAAATTAGCCAGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTC
R
GGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAACCGAGATCATGCCACTACTGCACTCCAGCCTGGGTGACAGAGTGAGA
Celera SNP ID:            hCV26613379
SNP Position Genomic:     1030209
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47940):
ATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACA
C
TGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATACTCAAATAGAGATGATAGTACTTTGACATTTCTTTAAAATCTAGGCAA
Celera SNP ID:            hCV26379910
SNP Position Genomic:     125302
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,10)   total(C,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47941):
TATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACAC
A
CTGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATACTCAAATAGAGATGATAGTACTTTGACATTTCTTTAAAATCTAGGCA
Celera SNP ID:            hCV26379911
SNP Position Genomic:     125301
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47942):
ATATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACA
Y
ACTGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATACTCAAATAGAGATGATAGTACTTTGACATTTCTTTAAAATCTAGGC
Celera SNP ID:            hCV26379912
SNP Position Genomic:     125300
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47943):
TATATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAAC
A
CACTGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATACTCAAATAGAGATGATAGTACTTTGACATTTCTTTAAAATCTAGG
Celera SNP ID:            hCV26379913
SNP Position Genomic:     125299
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47944):
TATATACTATATACATACTATATATTATATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACACTGTT
T
ATATATATGTGTTTATATATAAACACACTGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATACTCAAATAGAGATGATAGTA
Celera SNP ID:            hCV26379914
SNP Position Genomic:     125274
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47945):
CTATATACTATATACATACTATATATTATATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACACTGT
T
TATATATATGTGTTTATATATAAACACACTGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATACTCAAATAGAGATGATAGT
Celera SNP ID:            hCV26379915
SNP Position Genomic:     125273
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47946):
ACTATATACTATATACATACTATATATTATATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACACTG
T
TTATATATATGTGTTTATATATAAACACACTGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATACTCAAATAGAGATGATAG
Celera SNP ID:            hCV26379916
SNP Position Genomic:     125272
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47947):
TACTATATACTATATACATACTATATATTATATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACACT
G
TTTATATATATGTGTTTATATATAAACACACTGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATACTCAAATAGAGATGATA
Celera SNP ID:            hCV26379917
SNP Position Genomic:     125271
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47948):
CATACTATATACTATATACATACTATATATTATATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACACA
C
TGTTTATATATATGTGTTTATATATAAACACACTGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATACTCAAATAGAGATGA
Celera SNP ID:            hCV26379918
SNP Position Genomic:     125269
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47949):
ACATACTATATACTATATACATACTATATATTATATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACAC
A
CTGTTTATATATATGTGTTTATATATAAACACACTGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATACTCAAATAGAGATG
Celera SNP ID:            hCV26379919
SNP Position Genomic:     125268
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47950):
GTTTTGCTAACTCCGTTTACAGATACAGGTATTGTGGATTCGCAGATTCGTAGAGGTTCGGTACTTGCTCAAGCAGCCCAGCTTGGTGGTAGAGGAATCA
S
GATGGAAACAGGACACTCTGCAAAGTTCATGCTCCTTCTAGCTGCTCAATGCTCACTGACTCTGAGCTGCCAGAAGGGGAAGGAGCAAAGTCACTTCCTG
Celera SNP ID:            hCV27485070
SNP Position Genomic:     1061147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47951):
GGCTCTGCTCTCCCCTGGGTTGTCTCCATCCTCAGCCATATTTGCACATCTGTAGAGGGAAGAGGGAAGAGGCACCAGCAAACACCTCTCCTTGATCCTA
S
CAGAGGAAAGCAACATCTTCCTTCCTAATCAATAGCCCAGCCCAAGGCCCAGGTTGAGTCACAAGCACAACTCTCTGAACCAAGCAGAAGATGAGCAGGA
Celera SNP ID:            hCV27485071
SNP Position Genomic:     1063219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47952):
GAGACTCTGAGGATGTATGGCCCTGAGCTGGGGGATTCTAGGGACATTTTTCATGTCACTACCTAGACAGTCGTGTGAGTGCTCCAGCAGTGAGGGATCT
Y
GGCTGCAGGTTACATTCCTTGCCGAAGCCAGGGCTGGATGATAATTCACTTTGTCATTACTTAATTCTGTGATGGCTGAAACGACTGAGCCAGAATAAAA
Celera SNP ID:            hCV27485072
SNP Position Genomic:     1083317
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,58|C,1441)   total(C,1441|T,58) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47953):
GCTGAATGACTTGGGATGAGTCTTTTACATCTTTTAACTTCAGGAAAACAGCCATGGTGGTTCTGCCAGCAAGTCGTTGAATGGATTAAGTGAGATAATC
R
TACAATGTGTTTAGCACTGTGCCTGGCATGTAATAAATACTCAATAAATGGCAGTATTTTCTATGGCAGACTTGGTGAATCCAGGACTAGGATCCCAGGC
Celera SNP ID:            hCV27973459
SNP Position Genomic:     494160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47954):
TCAGGTTTCAAAAGGCCAGCAGTAGCTCTGGGTCTACAGCTCCCCAGCTCTGCACCCCAGAGAAATGCCTGTCCAGTATTCTCCAAAATTCCTGGGCTCA
Y
GCTCACTTGTCCAGAGTAGATCTCTAGCCCACCCTATACCCATCGCTGGCCACTGGCCCCATCCAAAACTCTGGGGCAGTGAGTGGAGGGGGGGCTGCCC
Celera SNP ID:            hCV7624616
SNP Position Genomic:     1096206
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47955):
CCATCTGCAGTGACACACTGCCTGTGTCCTCCAAAACTCAGTGGATTGGAGAATTGAGTCACGATGAATCTTGTAACCCATACCCAGAGCCCTGAAGAAC
K
CAGGTTGTTTGCACGCCCAGCCACAAAGAAGTTGCCTTCTCTTGATCTTTGAAGCAATTAAATGTCATTTAGAGAGGAGAGGTTTGCTGTTTAAAAATAT
Celera SNP ID:            hCV27485073
SNP Position Genomic:     1103530
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,136|G,1153)   total(G,1153|T,136) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47956):
GGAGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGTATAACACGGTGAAATCCCGTCTCTACTAAAAACACAAAAAATTAGCCAGGCGTGGTGGC
R
GGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAACCGAGATCATGCCACTACTGCAC
Celera SNP ID:            hCV26613380
SNP Position Genomic:     1030185
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47957):
CCAGGGGCACCAAACCCAACTGCTTCCTGCAGGGATTCAGCTGCACTTGTCATCACAGAGCCTTGAAATCCCTGGGGATATCAACTCCTTGGAATTCCAG
K
CTGCTCTTCCACTTGCTTCTGACACATTGACTTTTCTGCCCATTCACTCACCCATCTTTAACCAAGGCCTGTATGGCCAGACATGAGGCCACTCACTGCC
Celera SNP ID:            hCV27485074
SNP Position Genomic:     1115077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47958):
GGAGGTCTACACCAGGCACCTGGGACTGCAGGCTTTCTCTCTCCCCTGGGTCTTAAATTACAGTAACATCGGCCAGGCGCGGTGGCTCACGCCTGTAATC
S
CAGCACTTTGGGAGGCCGAGGAGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGTATAACACGGTGAAATCCCGTCTCTACTAAAAACACAAAAA
Celera SNP ID:            hCV26613381
SNP Position Genomic:     1030065
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47959):
ATCACGCGATTGCACTCCAGCCTGGGTGACAAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAACACACACACACACACACACACACACAC
M
GTTGTGTTTGCATCCTGTTATTTGAGTTAGCTCAATTCTACCAAATTCCCATCCTACAGCCTGTTCCAGTAACCGCAGAGCCATGAGACCTGGTCTGATG
Celera SNP ID:            hCV26613382
SNP Position Genomic:     1029745
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4|C,4)   total(A,4|C,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47960):
TTCACTATGTTGGCCAGGCTGGTCTCAATCTCCTGACCTCGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGACTACAGGAGTAAGACACCGTGCCC
R
GCCAGTATTGTTCTTCTTTATACCTAATTACTCATCATTGGAATTCTCTTTAAAAAAAAAATGTGCTTCCCTAATTGGTTGCCAACAGAGAGGCTACATC
Celera SNP ID:            hCV11440170
SNP Position Genomic:     153101
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47961):
TCATTATTTCCATCTTCCATGTTAATCTAAAGGTCAACTTTCTGCTCTTGGAGGAAGAACATGCATTCTTGGTGTATAATAAAATTCAAGTCCCTCTTCC
Y
ACTTGTGATTGTCTTTGTGGCTCATCCAGGCAGCCTCATCCTGAATGTCTATGATGTAAGTCAAAGAAAAGAAAATAATCAGTCCTGAATTTGGAGGGAA
Celera SNP ID:            hCV8875217
SNP Position Genomic:     1048098
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47962):
GCTTGAACCCGGGAAGCAGTGAGCTGAGATCACGCGATTGCACTCCAGCCTGGGTGACAAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAA
A
CACACACACACACACACACACACACACAGTTGTGTTTGCATCCTGTTATTTGAGTTAGCTCAATTCTACCAAATTCCCATCCTACAGCCTGTTCCAGTAA
Celera SNP ID:            hCV26613383
SNP Position Genomic:     1029717
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47963):
AAAGCTGAGGCCAGCAGATCACTTGAGGCCAGGAGTTCAAGACCAGTCTGGCCAATGTGGCAAAACACTCTCTCTCCTAAAAATACAAAAATTAGCTGAG
S
ACAGTGGTGCATGCCTATAATCCCAGCTACTTGGGTGGGTGAGGCATGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGTGATTGTGCCA
Celera SNP ID:            hCV11440171
SNP Position Genomic:     155089
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,8)      total(G,3|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47964):
TTTTCTCTGATGCATTTGTACCTTTTTTGTGTACTTCAAAGAAGCCATTGGCAAATTAAATATGACTGGACAACTTTTCACATAAGTAACTAGGAAAGGT
W
AGGAAAGACACAGAATATAATTCAAGTCCCTGAAGGCCTGTATTACAGAAGAAGACATAGGCAGATTCTTTCACATGCCAGGGAGTAGAACTCAGATTAG
Celera SNP ID:            hCV26380177
SNP Position Genomic:     301369
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,7)      total(A,7|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47965):
GAAATAAAGTATCCAAGCCTGAAATTGAAGAAAAAAAAATGTAGGCATATTTGCTCTTTGGTTTTTATTTTTCTGTCACCATCTAATGTAATATTTATTT
M
ATCATTCCCCTAAGGCAATGATTTTCAAACTCTCTTTAGCAGCAAAACTTTTTTTTTTTTTTCAAACAAAATCCCAGGCAGGAATTCTAATATACAAAAC
Celera SNP ID:            hCV8875218
SNP Position Genomic:     1043208
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47966):
TCACAATAGCAAGGTCATGGAACCAACCTAAGTGTACATCAACGGTTGACTGGTTAAAGAAAAGGTGGTGTATACACAGGTGAAATACTATGCAGCCATA
R
AAAAGAATGAAATCCTGTCCTTTGCAGCAACATGGGTGGAGCTGGAGGCTATTATCCTATGTGAATTAACTCAGAAGCAGAAAATCAACTACTGCATGTT
Celera SNP ID:            hCV26613384
SNP Position Genomic:     1028221
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47967):
CAGGACTTGGGCACAGGTAGAGGTGAGCTTCCGGGCTGAATCCCCTACTAGGCCGTTAGTCAATTGTATGTTTCCTTTTTGGACTCACCTCTGGGTTGCA
R
AGGAGGTTGCTCTGATTGTTTCTTGTTATACCATAAAGATAAGGAGCTTGAGTTACTTTCCAGCTGATAAGGCAATTTTCACCTTTTTCCATTTGTCTTG
Celera SNP ID:            hCV11440172
SNP Position Genomic:     168045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47968):
ACGCTGGTTTCTGTATTGCATAGATTCCTAGCCTGCTCCACTGCAAATGGGCTGCCATACAGAGGATGAGGTTCATGGTCCAGAAACGCATCTGGTACTC
R
AGCGCAGAGCAGAGGTGGAATTCTAGGCCTGTGAATGGTTCACATCAGCAGTGGGGGTCCCCAGTGAAGTAGGATCCCAAAGGCCACAGCAATTGGACGG
Celera SNP ID:            hCV26613385
SNP Position Genomic:     1027701
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47969):
CTTGGTTAGTTTAGGTAAGATTTGTCAATTTTGTTGACATTTTCAAAGAGCAAATTTTTGGTCTTATTGATTTTCTCTGATGCATTTGTACCTTTTTTGT
R
TACTTCAAAGAAGCCATTGGCAAATTAAATATGACTGGACAACTTTTCACATAAGTAACTAGGAAAGGTAAGGAAAGACACAGAATATAATTCAAGTCCC
Celera SNP ID:            hCV26380179
SNP Position Genomic:     301299
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47970):
AATAACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAACCAAGGCTCGAGAACTACGTGAAGAATGCAGAAGCCTCAGGAGCCGATGCGAT
M
AACTGGAAGAAAGGGTATCAGCAATGGAAGATGAAATGAATGAAATGAAGCGAGAAGGGAAGTTTAGAGAAAAAAGAATAAAAAGAAATGAGCAAAGCCT
Celera SNP ID:            hCV26613386
SNP Position Genomic:     1021510
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47971):
AAAATGTTAAATTACCTTTCTCATCTCAGGAATAGAGTCCCAATCACTTCCAGATTGAAGCACTTACGGGGGGAAAAGGCGAAGGGCTCCAGTAATTTTA
M
ATTGCTTCGTACAATGAAGAGTGCCTGTAAATTACTGAATGTGGTAATTTGTTCCATAAGCTTTTTTGATTTGTAAGTAACTTAGTGGATTTGCTGGTGA
Celera SNP ID:            hCV11440174
SNP Position Genomic:     205704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47972):
CTCTCCTTCTGCCCCAGGGTTCTTCTCCGTGTGGATCACATTAAGGGAGCGTATAACCTTTCATACCGCCTGACTAGGATGATGGATATGGAAATACACA
S
TTTGGGAGCCCTGTCTGCTTGCCTGTTAAGCCATTGACTGTTATATACTCTTGGGCTTGAAACACCTTCCAGGCTGGAGGGGCCAGTATTGCATTTACTT
Celera SNP ID:            hCV11440175
SNP Position Genomic:     208391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47973):
GCCGAAGCAGGGCGAGGCATTGCCTCACCTGGGAAGCGCAAGGGGTCAGGGAGTTCCCTTTCCGAGTCAAAGAAAGGGGTGACGGATGCACCTGGAAAAT
S
GGGTCACTCCCACCCGAATATTGCGCTTTTCAGACCGGCTTAAGAAACGGCGCACCACGAGACTATATCCCACACCTGGCTCGGAGGGTCCTACGCCCAC
Celera SNP ID:            hCV26613388
SNP Position Genomic:     1020537
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47974):
GAGGAAATAATTTGATTTGGGGCTGCAGGGGGTAGGGTGGAAAAGTGCAGTCGGAAGACAGAGAAAATCAGCAAGAAGATTACTGAAAGGGAAAGAGGGG
R
AAACCAACCAGCTATATATTTCCTGCAACATGAGTTAATGAAATTCCGTTCCTTCTTACACAGCTGTATTCGGTTTGTTTTACATTGTTTGGTATGTAAA
Celera SNP ID:            hCV11440176
SNP Position Genomic:     208623
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47975):
TCTCTTTGGTGAAATGTCTAACTATGTCTTTTGCCTATTTTTTGTTTTGTTTTGTTTTACAGGCCATTTTCAGGACTTTAACTTTTGCCCATTTTCTTTC
Y
TTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTCCAGTGGTGTGACCTCGGCTCACCACAACCTCCGCTTC
Celera SNP ID:            hCV26613389
SNP Position Genomic:     1018338
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47976):
AAATGCAGCACCTAGGCGCCGCACCAGACCTGTTGAATAGGAATCTACATTTTCACAAGATTCCAGGTGATTTGCATACACAGTGGCATTTGAGAAGCAT
Y
AATCCAGGGGCTTCTTTGCAGTCAGTGATGGTGATTTGCCAATCATTAGCATTTCAGAAACCCCAGGCCGAAACCATACATTTATCCTTAGCTAGGTCGG
Celera SNP ID:            hCV11440177
SNP Position Genomic:     210252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47977):
TCAGACTTCCCGGGCTTAGGCGATCCTCCCACCTCAGCCTTTTAGGTAGTGGGGCCTACAGGCGCAGACCACGGCACCTGGCTAATTTTTGCATTTTTTT
R
TAGTGACAGGGTCTCACCGTATTGCCCAGGATAGTCTCAAACGATCCACTCACCCACTTCAGCCTCCCAAAATGGTGAGATTACAGGCATTAGCCACTGC
Celera SNP ID:            hCV26379920
SNP Position Genomic:     122434
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47978):
TAGAATTGCATAACATTTTATTCTTTACAATAAAGATAACTTGTTAATTGCTTAACCAGATGTGATTTTACTATTATATTTTTTAGTAATTACATAAATC
A
GAGGAAAAATCCTTTTCAGATGATATGCCCTTATGTGTGATTTAGACAAGCTGACCACCTACTTTTAGATAAAGAAATCATCTTCTGCCAAGATGGGGCT
Celera SNP ID:            hCV26379921
SNP Position Genomic:     118253
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47979):
CACCCCGCAGATCCTGGCCCCAAAGCCTTACCTTGGTGCTAGCAGCTGCCTCTGTTTTGAAAGCTCTTCCCCTGAGTTCTCCATGACCAAGTCCTCACCC
Y
TTTCATTGCAGATGCTTGCGTGTTCCCATCACTGAGTTCTAATTTCTCTAATGGAAGTATCATTCTAAAGTTATCCTTTGTCCTTCTTTTATTCTTGTTC
Celera SNP ID:            hCV11440179
SNP Position Genomic:     217207
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47980):
TTAGAATTGCATAACATTTTATTCTTTACAATAAAGATAACTTGTTAATTGCTTAACCAGATGTGATTTTACTATTATATTTTTTAGTAATTACATAAAT
C
AGAGGAAAAATCCTTTTCAGATGATATGCCCTTATGTGTGATTTAGACAAGCTGACCACCTACTTTTAGATAAAGAAATCATCTTCTGCCAAGATGGGGC
Celera SNP ID:            hCV26379922
SNP Position Genomic:     118252
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:47981):
GTTAGAATTGCATAACATTTTATTCTTTACAATAAAGATAACTTGTTAATTGCTTAACCAGATGTGATTTTACTATTATATTTTTTAGTAATTACATAAA
T
CAGAGGAAAAATCCTTTTCAGATGATATGCCCTTATGTGTGATTTAGACAAGCTGACCACCTACTTTTAGATAAAGAAATCATCTTCTGCCAAGATGGGG
Celera SNP ID:            hCV26379923
SNP Position Genomic:     118251
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47982):
AGTTAGAATTGCATAACATTTTATTCTTTACAATAAAGATAACTTGTTAATTGCTTAACCAGATGTGATTTTACTATTATATTTTTTAGTAATTACATAA
A
TCAGAGGAAAAATCCTTTTCAGATGATATGCCCTTATGTGTGATTTAGACAAGCTGACCACCTACTTTTAGATAAAGAAATCATCTTCTGCCAAGATGGG
Celera SNP ID:            hCV26379924
SNP Position Genomic:     118250
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47983):
TAGTTAGAATTGCATAACATTTTATTCTTTACAATAAAGATAACTTGTTAATTGCTTAACCAGATGTGATTTTACTATTATATTTTTTAGTAATTACATA
A
ATCAGAGGAAAAATCCTTTTCAGATGATATGCCCTTATGTGTGATTTAGACAAGCTGACCACCTACTTTTAGATAAAGAAATCATCTTCTGCCAAGATGG
Celera SNP ID:            hCV26379925
SNP Position Genomic:     118249
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47984):
CTTGCATTTCATACTTAAGCAACATATTTCAATGCAGAGAAGGTTTATAGTGTGGTGGGGATTTGAGGGTAGCTTTTCAATTCTGCTCTGTTTGATTTTT
S
ACTGATGACCCCAGACACAGAGATTTGGCCTGGCAGAACCTGCCCTTAGTTCTATAGAGGACACCTTCCCCATACTTTTTTCTCCTTTTCCTCTTCCTCT
Celera SNP ID:            hCV26379926
SNP Position Genomic:     116674
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,5)   total(G,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47985):
GTGATATTTTGGAAGGAATTTTTTTTTTTTTCTGAGCAGTAGGTCTCAACAATGGGATTAAAATATTCAGTAAAGCATGCTGTAAACAGATGTGCTGTTA
K
ACAGGCTTTTTAAAAGTAGCACTGCAAGAGTAATTTAGGATGATTATTTAGGGCCCTAGGATTTTCAGAATGGTCAATGAGCATTGGCTTCAACTAAAAG
Celera SNP ID:            hCV26379927
SNP Position Genomic:     108595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47986):
ATTTCAGCAATTCAGTCACATCTTCAGGCTCTATTTCTAATTATAGTTGTCTTTCAGTTTCCACCACATCTGCCGTTACTTCCTCTACTGAAGTCATAAA
S
CCCTGAAAGTCATCTATGAAGGCTAGAATCAACTTCTTCCAAACTCCTTTTAATGTTGACACTTTGACCTCCTTCCATGAATCATGAATATTTTTAATGG
Celera SNP ID:            hCV26379928
SNP Position Genomic:     108147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47987):
ATCCATCTCAAGAAACCACTTTCTTGGCTCATCTATAAGAAGCAACTCCTCATCTGTTCAAGTTTTATCATGAGATTTCAGCAATTCAGTCACATCTTCA
R
GCTCTATTTCTAATTATAGTTGTCTTTCAGTTTCCACCACATCTGCCGTTACTTCCTCTACTGAAGTCATAAACCCCTGAAAGTCATCTATGAAGGCTAG
Celera SNP ID:            hCV26379929
SNP Position Genomic:     108073
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47988):
CTGGTGAGAAAACATGTAAAAGATACATAATATAATGTCTATTAAAATTATAATTATAAATGCAGTCATAAATATACACATGTATATTTCATTTATGTTA
Y
TGATATCCATCTGTTTCATCAGCTCATTTTAAAGGTTTCTTTAATAGCTGAAAAATATTCTGTAGTACAAATATTTATAATCAAACTGTTATAGCTATTC
Celera SNP ID:            hCV27973460
SNP Position Genomic:     265117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47989):
GCCACTCTCACTAAATTAGAATGTAAGCTCCTCAAGGAAAGAAACTATCTGTTTTGTCATCTGCTGTGGTCCCGCACCCAGCCTGCCGTGTAGTGCATGA
Y
CAAATAACTGATGAATGAATGAATAAATGGTCGATGCTTGACAACAAAGACAATCAGAATCTCTGAGTCATGTTGTTGCAAAGCACTTGCGGCCAGGCAT
Celera SNP ID:            hCV12111900
SNP Position Genomic:     1000720
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:47990):
TCTTTCTTCTCATTTGATGATTAGAAATTTTTTAGCTGTCCAAATCCAGTCCTTGTCTTATCTCAGCTATGCAGAGTGGCATGGCTGGTTCAAGCTTTCA
R
TGAAGAAACAGATGTATGAGGCCAAATCTTGCAAAATGCCAGAAGAGTGTATTTGGGCAGAATACCAAAATGAGTTCGGGGGCCTATATGGAACTGCGGG
Celera SNP ID:            hCV27973461
SNP Position Genomic:     184479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47991):
CACAGTATACATTGCATACGATTCTTCCATGACTATGTACTTGTCATGAGTTATTCCTCATCATTCTAAAATTTGACCTCAAAGCTGAGCAAAGTCTAGA
W
GAAATGAGGTTCTAGTTTTTATAATAATGTTCAATAGTTTTTCCTATACGTCACTCTTTCAGTGTGGGGAGGAATGGTGACTTTTCAGTTGCTTCTGAAT
Celera SNP ID:            hCV27973462
SNP Position Genomic:     176131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47992):
GGACATTGACGCTCCTCCATCACTCTCACCTCCAGTCCTCTCTTCCCACACAACTCTTAGTTCATACAGTGGTCACAGTACCTCCATGCTGTATTGTATC
M
TATCTACTCTCCTGTTTGTCTCTTGCTGCAGACTCCTCTAAGGCAGGGACCACTTTTCACCACCTTTCCATGCCCCTGGATCCTTGTTCAGATTTGGCTT
Celera SNP ID:            hCV27973463
SNP Position Genomic:     136177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47993):
CTAAAAATTCAGCCCTATTAAGTTTGTTGGTACATCACCTGGATTTTTATTAAAGTAGTAAAAATGTTCCGCAAAGTGACTTTGAAGTAACAGTACGATT
M
TGAGCCACGTTAAAGAAATGTTAAGGTGGAGAGCTCTGTTGCTTTCAAATACTAGTATAATTCTGGCCAAATATCCCTGTTTAAAATGATCTGAGCACTT
Celera SNP ID:            hCV7624620
SNP Position Genomic:     1095160
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47994):
GGAACTGCATTAATAATGATTGTTGAAAAAATGAATAAATGATTGTTGAATGAATAACCGAATGAATGCCACCAGGGAAAATTATTGTCTCCATTTCATT
K
TAGGGCCTGAACTTTAGGAGAATAAAGTTATCCTAAAGAGAGCTGTTGGAACCTGCCTTTCTAACCAGCTTCCTATTTTCTAGAAAAGGGGTCACTGTTT
Celera SNP ID:            hCV27973464
SNP Position Genomic:     133421
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:47995):
GCTATGCCATGTGAAAGTTATTTGCAGTTTGTGAAGTCCTGTGGAAAGGTTGTTGCTGTTTTTCTGCTGGGGCTGTTTTAAGATGAAACATGGTATGGGG
R
AAAGATGCAAGCTCTGGGTCCCATTCTCAGGAGTTTCCACGAGCAGGAACCTCACATCACTGCCATTGGCCTGTAATATAATTTTGGCCTGAGTCTATCT
Celera SNP ID:            hCV27973465
SNP Position Genomic:     98209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47996):
ACAGAGCTGATTATGTTGGTCCTGTTGTTTGTGTTTTTCTTCCCATTTAAGAACGTACATTTGAAGGTGCAGTCTTGAAATTCTTGATATGGATGGCAGA
Y
ACTTGTAATGAGAGAGGAATTAGCAGAAAATCACACCTCATTTCAATAAATCTTCACCCCTTAAGGCAGCCTGGTGCCCTTCCTGCATTGGCCTATGGAA
Celera SNP ID:            hCV27973466
SNP Position Genomic:     53175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:47997):
ATCTGTGTCTTCTCTCTTTTATCTTGGTTAGTTTAGGTAAGATTTGTCAATTTTGTTGACATTTTCAAAGAGCAAATTTTTGGTCTTATTGATTTTCTCT
R
ATGCATTTGTACCTTTTTTGTGTACTTCAAAGAAGCCATTGGCAAATTAAATATGACTGGACAACTTTTCACATAAGTAACTAGGAAAGGTAAGGAAAGA
Celera SNP ID:            hCV26380180
SNP Position Genomic:     301277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47998):
GTCTAACTGTTGGCATAAAATTATTCATAGCATTTCCTTATAATCATTTAAATTTCTGTAAGATCAGTGGTGGTATGCCCTTTGTTATTTATTAATTTGG
Y
GATCTGTGTCTTCTCTCTTTTATCTTGGTTAGTTTAGGTAAGATTTGTCAATTTTGTTGACATTTTCAAAGAGCAAATTTTTGGTCTTATTGATTTTCTC
Celera SNP ID:            hCV26380181
SNP Position Genomic:     301175
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:47999):
GTGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTGAAGATACATTTAGTTTGAGTCCCTATGAAGCGAGGAGAAAAGGTCTTGAC
R
AACAACAGTTCAATAGCTCCTGCCAATATGTGCAATGCAATTCTTTTTAGTGAGTGAATTAGGCTTGATAAGAACTACATTAAAGCTTCTGTTGGAAGAG
Celera SNP ID:            hCV11441123
SNP Position Genomic:     1110639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48000):
GCTATGTGTGTATGTGTATGTGTGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTGAAGATACATTTAGTTTGAGTCCCTATGAA
R
CGAGGAGAAAAGGTCTTGACGAACAACAGTTCAATAGCTCCTGCCAATATGTGCAATGCAATTCTTTTTAGTGAGTGAATTAGGCTTGATAAGAACTACA
Celera SNP ID:            hCV11441124
SNP Position Genomic:     1110618
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48001):
GTGTTCTCTTTGGTGAAATGTCTAACTATGTCTTTTGCCTATTTTTTGTTTTGTTTTGTTTTACAGGCCATTTTCAGGACTTTAACTTTTGCCCATTTTC
Y
TTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTCCAGTGGTGTGACCTCGGCTCACCACAACCTCCG
Celera SNP ID:            hCV26613390
SNP Position Genomic:     1018334
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48002):
GGGCTGACCCCACAAGCCTGTGAGCCGTAAGCGGTGTGATTCGCTAACAGTTGAATGGCACTGGCTATGTGTGTATGTGTATGTGTGTGCGTGTGTGTGT
R
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTGAAGATACATTTAGTTTGAGTCCCTATGAAGCGAGGAGAAAAGGTCTTGACGAACAACAGTTCAATAG
Celera SNP ID:            hCV11441125
SNP Position Genomic:     1110555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48003):
ACATTTTTAAGTCTAAACTGAAAGGAAAGCTATGCTCAGTCATGTAATGCTGGCAACCATGCTGCGCAAACATGGGTCCCCTACATCAGGGGTCCCCAAC
Y
CCTGGGCCACGGACGGCCCCAACCCCTGGGCCACAACATCAGATTGTTATTGGAGCACAAATCCTATTGTGAACTGCACACACAAGGGATCTAGGCGGCA
Celera SNP ID:            hCV27485085
SNP Position Genomic:     1124038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48004):
GGTGGGAGGCACTCTGGCATCCACTGAGATGTTAGTGAACCCATCTGGTCTTCATTTGTTTCCTTACAAGCTCAAGGGTGATTGAGTTTGCCAGCCTTCT
S
TCCACTGTTTTAGTCTTTTCCCAAAGCATATAAGGACTCTTCTCTTGCTTCCTTGCTGAACTGGGCTTGGAGATGCAGCTCAGAGAGAAGACATGCCCTT
Celera SNP ID:            hCV29090500
SNP Position Genomic:     185170
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48005):
ATGAGTACACAGCACATGTATACTGATTAATTTCTTTCTTTTTTCCTTCTTTTGATGGAGCAAGACTGTAACAGAAGCCTGAGAGTGAGGAAGGGCTTTG
S
CAACTATTACTGTAGACACAGTAGTTTACTCAATTTTATGAACTCTTAGTCCTGGGCTGGAATTCACGCCTCTGCTGGAATTGCACAGACAAAACGTGCT
Celera SNP ID:            hCV2394994
SNP Position Genomic:     1175259
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48006):
ATTGCATAAGCCAAACTCCAGTGTCTTTAGAAAGCAGACTATGTTATTGTTTCTTGAAAAGCCATTCTTCCTCCAGATTCAGATGTTGGTGGTCAAATGA
R
TATCTCTACAGAAAATCTCTCTGCTTCTCCGAATTAAACTATTTTCAATTATCTTGTCAGATGAACAAATGTGTTTTGCATTTTCTTTCATTTTTTAAAG
Celera SNP ID:            hCV8875225
SNP Position Genomic:     1042969
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48007):
CCTATAACTGTAGTGCAACAATACCAAGAGCAGGAAGTTCATGTGGGCACAATACTATTAACCAGACCTCACGAAGTCTCCACCCATTTTTGTGTGTTTT
S
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTCCTACGCATTTGATCACACGTACAGATTTGTATGACCACCACCACCATCATGAT
Celera SNP ID:            hCV26613391
SNP Position Genomic:     1017122
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48008):
TTTTTTTTTTTTTTTTTTTTTGCTTTTTCCATCCCCATGATTGTTCCAACAGAAGGAGAAAAGATGTAATAAACCTTTACCGGGCACCGTCTGCGTCCAG
R
CACTCTACTCGGCCCTGGGGGTGCAGAGCACACCACCCCAGCCTTAGGCATGAAAAACACTGTGTACCGAGAAGCCCAGCCCCTGGAATCCAGCATGCTG
Celera SNP ID:            hCV27485086
SNP Position Genomic:     1126095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48009):
GTTCCATCTTAAAGACATGGCTTTGCCAGTCTGTTGTGGGTGTGCTATACCATATCAGACAGAGAAATAAGGATGTGTGTGAAGGTATGAATCTCCGGTT
K
ACGAACTCTAGTGTGCAAATAAGACAACTGTCTGTCTTTTAACATGGTACGCACATTTCTGTTTTGATCACCCTTTCTACCAGTTGGTGAAAACTTTAGC
Celera SNP ID:            hCV29090501
SNP Position Genomic:     184896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48010):
CAAAAATAGTTCATATTTTATAACTGTCTTGCAGCATGGGGTATAAGTGTAATCATTGTAAAAATGAAACCTAATCATTGTAAAAATGAAACCTAATCAT
K
GTAAAAATGAAAAGAGTGCCTCAAAACATCTGAAGTTCTTAGCAGAGGGCAGCCTGTCTTCAGTGGGCACTTTTGGATGGAGGCAGGACTAGGGTATCAG
Celera SNP ID:            hCV2394995
SNP Position Genomic:     1175032
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48011):
CCCTGAGCTACATTATATTAAAAGGGCTACTCCTCATATGTTCACCACAGCACTATTCACAATAGCAAGGTCATGGAACCAACCTAAGTGTACATCAACG
R
TTGACTGGTTAAAGAAAAGGTGGTGTATACACAGGTGAAATACTATGCAGCCATAGAAAAGAATGAAATCCTGTCCTTTGCAGCAACATGGGTGGAGCTG
Celera SNP ID:            hCV8875226
SNP Position Genomic:     1028165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48012):
GAGTGTTCTTGGATCTCATGCAAGAAAGAATTCAGGGCGAGTCCATAGAGTAAAGTGAAAGCAAGTTTATTAAGAAAGTAAAGGAGGCCGGGCGCGGTGG
Y
TCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAAGGTGAAACCCCGTCTCTA
Celera SNP ID:            hCV26613392
SNP Position Genomic:     1015457
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48013):
GTTGCTAAGCCTCTCTGATTCTTGGTTACCTCAACCTTAAAACAAGGATGATACCCACTTCATCAGGTTGTCATGAGTCACAAAAATAAATGTAGTGATG
Y
TCTTAAAGGGTTTAGCACCAAGCTGGGCCCAAGGAAGCATTCTGTGTGTCTATTGACCAACTTTTACCTATCCTGACACCAAGGAGCTTAGAGTTTAGTG
Celera SNP ID:            hCV27485087
SNP Position Genomic:     1126344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48014):
CACCATCTGTGTTGCATGTGTGCTTTACCTTTGCTGTCCTCCTTACTTTGAAATAAATCCCACCCACTACGGTGTCCCATTTCAGAAACTCTAAAATACT
Y
ACTTGAATCCCTGGAATGGATTCATCCAACCCTGTTCGGTTTTCTTCCTTCCAGTGTGCTATTCTATAGTAGAAACAGTGCCAGGCCATGGGATTTAGAC
Celera SNP ID:            hCV29090502
SNP Position Genomic:     181994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48015):
CTGGTTCCTGCGTCCATCTCTTGTCACATAGCTCAATTTGCGTGTGCCATCAATTTCCTGCTGGGATTAAGATACCTGGCAGTGCAGGGTTTCCTGGGAT
R
TGGGACCTCTAAAACCGAAACCTAGACAGTCCCAGTAAATCAGGAGGATTAATCTCCCTAACTGGAACCCAGCCCTGTCTCCTCCCTTGGCCCTGCTCCA
Celera SNP ID:            hCV11440180
SNP Position Genomic:     218513
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48016):
GTCAGGAGAATGGGTTCTTCCATCACTCAGTCCAGGTTTCCTACCAAATAGAATGAATGAGACAGGTAGTACTGCAAATTCATAGTTTACTTACGTTAAT
S
ATAATGTCAAACATGTCAACAGCATCCTGGAGAGCCCCCCAAGTTTCCTGTCCACTTGTCCACTGTACAGCCACCTACCCACGCTTTACGTACTACCCAG
Celera SNP ID:            hCV8875227
SNP Position Genomic:     1026808
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,10)      total(G,4|C,10) ;(C,-|G,-)   (C,-|G,-)   Caucasian(G,22|C,62)   African-American(G,26|C,50)   Asians(G,29|C,49)   total(G,77|C,161)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48017):
TTTTGTCACCATTGATGCTATATTACTGATAATGATCAATAGATAGGTTACTGGAAAGGGGTCCAGATCCAGATCCCAAGAGAGTGTTCTTGGATCTCAT
R
CAAGAAAGAATTCAGGGCGAGTCCATAGAGTAAAGTGAAAGCAAGTTTATTAAGAAAGTAAAGGAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGC
Celera SNP ID:            hCV26613393
SNP Position Genomic:     1015376
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48018):
GCAACGGCTCCCCCGAGGGCGCCCCGCACAAGACCAAGCCCTTTGTGTCAGCTTCAGTTTGCCCTCACAGCTACCCCAGAACACCACTGGGACTGTCCCC
R
AGTCACAGAGGAGGAAGTAGAAACACAGAGAAGTAGCTTGCCAGGCTCACTGTTAGAACCCAGGTCCTTTCCTCTCCAGAGTCCATGACTCTAACACTCA
Celera SNP ID:            hCV27485088
SNP Position Genomic:     1127030
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,492|G,1003)   total(G,1003|A,492) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48019):
CTCTCTGCCACCATCTGTGTTGCATGTGTGCTTTACCTTTGCTGTCCTCCTTACTTTGAAATAAATCCCACCCACTACGGTGTCCCATTTCAGAAACTCT
R
AAATACTTACTTGAATCCCTGGAATGGATTCATCCAACCCTGTTCGGTTTTCTTCCTTCCAGTGTGCTATTCTATAGTAGAAACAGTGCCAGGCCATGGG
Celera SNP ID:            hCV29090503
SNP Position Genomic:     181986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48020):
CAGTAAATCAGGAGGATTAATCTCCCTAACTGGAACCCAGCCCTGTCTCCTCCCTTGGCCCTGCTCCAATTACCTTCATTCTGGCCCTCAGTACCCCCAA
S
TTGGATAACGGCTTTGCTGGCCAGTGACTAAATACAGTGGCCAGATGGGGTCTGTGGCCATCGCCATGTGCACCTCTCTGCTAGGGCTTATTTGCCCTTG
Celera SNP ID:            hCV11440181
SNP Position Genomic:     218646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48021):
CAGATCAGGTGAACTATCTTAACAAATACCAAAAGTAAATGTCTCTATATGGAGGGTAAGATGTAGACAAACTCAGACACAATAAAGAAATTTAAAGAGG
K
GAGTGGGCAGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACTGAGGTGGGTGGATTGGATAAGGCTGGGAGTTTGAGACCAGCCTAGGC
Celera SNP ID:            hCV2394997
SNP Position Genomic:     1173128
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48022):
TGACTAGAAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGTCCTACA
G
TGAAATTAGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTGTCCTC
Celera SNP ID:            hCV26613394
SNP Position Genomic:     1014952
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,4)   total(G,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48023):
TTGATACCAACCCAGACCGCCTCTGTGTGAATTAAATTTACAACAGCGCTGTATCAGAGCATCTGTCAATGCTGACTGGAAGCCCAAAGACCTCCAGATG
R
TTGGTTCTGAGACTCCAGGAGAGGCTGGGAACACTCGGAGGGGCTCTGGATGGTGGCCAGGCGAGGGTGGTAGGTGAATTGCTGTCTGTCCTGGGTCGCC
Celera SNP ID:            hCV27485089
SNP Position Genomic:     1127709
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,22|G,1471)   total(G,1471|A,22) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48024):
GGATATCTGTCTCAAAGTTTTCAAAGAAAGGACATTCAGTGATCTGTTGAGAGATTCAGAGGTTCTCCTTTTCTCTGGTGGTGCTCTATCAGGGACAGAT
W
GGTCCCTAAGACTTAGCAGCAAAAGGGACTCTCCCTGCAGAAGCATGTACATGATGTGAGTAGGTGTGCCCACAGCCCAGGGTTCATACTCTGGGGCTTC
Celera SNP ID:            hCV29090504
SNP Position Genomic:     181536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48025):
ACTGAATCTGTATTCAGATACACCGATTTTGTTTGCTTTTAGTGGCAAGCAGGTTTAGCAGGTTAGAGAAGAGGGTAATGTTTTGATACTGTGGTGAAGC
Y
GAGGAGGGCGATGTCCTTAGTCTGAGGAGACCAGCATGAAGCCACCTTTATTGCCCTAAAATGTCTCTGCCTTCAAACAAGTGGGCTAAAGAGGGAGGGC
Celera SNP ID:            hCV11440182
SNP Position Genomic:     219308
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48026):
GCCATTAAGCTGTTTCTGTGGTTTTTCTAGCACGACTTTTATGGTATGGCAAGTCTCAAAAAAAGAACTTGTCGGGAAACCATTTCTGACCATTGCTTTC
W
GCTTAATTAACCAGTATTAGCAAGAATGTAAAAGGACAGATCAGGTGAACTATCTTAACAAATACCAAAAGTAAATGTCTCTATATGGAGGGTAAGATGT
Celera SNP ID:            hCV2394998
SNP Position Genomic:     1172991
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48027):
TTGACTAGAAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGTCCTAC
A
GTGAAATTAGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTGTCCT
Celera SNP ID:            hCV26613395
SNP Position Genomic:     1014951
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48028):
TGGGTTCTGTGTTGAGTGCTTAAATGGATATCTTATTTAATAATAACAGGAACCCTTGGAAGTGAGCACAGGTTTGATTCTCACTTTGCAGATAAAGAAA
M
TGAGGCCCAGAAAGGTGCCCAAGGAAGCAGAGTTATTTAGGACCTGACAGAGGTAGGATTCCAACCTGGGCAGTCTATCACCAGAGTCCTTGTTTAATCA
Celera SNP ID:            hCV29090505
SNP Position Genomic:     177957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48029):
CTGAATCTGTATTCAGATACACCGATTTTGTTTGCTTTTAGTGGCAAGCAGGTTTAGCAGGTTAGAGAAGAGGGTAATGTTTTGATACTGTGGTGAAGCT
R
AGGAGGGCGATGTCCTTAGTCTGAGGAGACCAGCATGAAGCCACCTTTATTGCCCTAAAATGTCTCTGCCTTCAAACAAGTGGGCTAAAGAGGGAGGGCC
Celera SNP ID:            hCV11440183
SNP Position Genomic:     219309
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48030):
TTTGACTAGAAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGTCCTA
C
AGTGAAATTAGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTGTCC
Celera SNP ID:            hCV26613396
SNP Position Genomic:     1014950
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,4)   total(C,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48031):
TTGTGATCCGCCTGCCTCAGTCCCCCAAAGTGCTGGGATTACAGGCGTGAGGCACCGCACCTGGCCAATAAAGTATTTTTAAGCCTCTCAGATTTTAGAA
S
TTTGTTACAGCAGCATTATGAAATTGATACACGGGGGCATGTTTTCCTGAAATCAGAGCCTGAGAGGAGAACCAGGTACAGGTAGTTTTCTTTGGGAGGT
Celera SNP ID:            hCV11440184
SNP Position Genomic:     224029
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48032):
GTTTGACTAGAAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGTCCT
A
CAGTGAAATTAGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTGTC
Celera SNP ID:            hCV26613397
SNP Position Genomic:     1014949
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48033):
ATGATGTTTGCTTCCCATACTCATCTCCAACTGGCTCACACATTCCTTCACCAGATAGTGTGGGAAGGAGTCCATCTTTCTGCAGTTGGCTAATCCAGGT
R
TTGGCATGGAAGTTTTAGCTCTGGTCTGAGAGTTCTAGTCATGGACAATTGTCCATGTCTATTGGAATGAATAATTTTCCAATGGACATGGACAGTTGTC
Celera SNP ID:            hCV29090506
SNP Position Genomic:     174176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48034):
CAGTTTGACTAGAAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGTC
C
TACAGTGAAATTAGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGTG
Celera SNP ID:            hCV26613398
SNP Position Genomic:     1014947
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,4)   total(C,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48035):
CCCGCACTGGCACAAAAGCAACTTGTTTCCAAGATTCAGGACTTAAAGAAATGGCTGTGGGTTGGTCTACGAAAACCATTATGCTGCATCCTCCCAGTCC
Y
GAGAGATTCTGAAGAGAAGCAGGCCCTGGCTTCAGAGTTGAAGAAATGATACCTTCCCTCCTTTGCCTCATAGTCTCATTCATGATGTTTGCTTCCCATA
Celera SNP ID:            hCV29090507
SNP Position Genomic:     173994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48036):
TCAGTTTGACTAGAAGGGCTGTTTTTATTTCCCTGAATCCCAGTTCTGTTTCTGAGTTCTTATTCACAGGGCAGGATGGGCTGACACTGTAGAGACGTGT
C
CTACAGTGAAATTAGAGATGACTCCTAATTTCAGTCACATCTCCATCAGTCAGCCCCTCTTAGGTATTGCACAAGTTCCTTAGATGCTTTGGGCCTCAGT
Celera SNP ID:            hCV26613399
SNP Position Genomic:     1014946
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,4)   total(C,4|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48037):
GTAGAATAATTTAAACCAGTTTTTCCTACTTTGGTTCCTTGGAGGCTGATTCTTCTGCCTGAATTCCTCTCACAGAACATATAAACCCCTTTTACCTCCC
K
CACTGGCACAAAAGCAACTTGTTTCCAAGATTCAGGACTTAAAGAAATGGCTGTGGGTTGGTCTACGAAAACCATTATGCTGCATCCTCCCAGTCCTGAG
Celera SNP ID:            hCV29090508
SNP Position Genomic:     173897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48038):
TCTTTTGTTGTCATTTCAACAATGTTCACAGTATCTTCCCAAGGAATAGAATCCATCTCAAGAAACCACTTTCTTGGCTCATCTATAAGAAGCAACTCCT
Y
ATCTGTTCAAGTTTTATCATGAGATTTCAGCAATTCAGTCACATCTTCAGGCTCTATTTCTAATTATAGTTGTCTTTCAGTTTCCACCACATCTGCCGTT
Celera SNP ID:            hCV26379930
SNP Position Genomic:     108023
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48039):
GAAAAGGGAGGGAAAAAAAAAATCACTCCACCCCTCCTGTCCAAATGAAAAAGCATTTAATTGAATGTTCTTTATAGAGGTGAAAAAATACCCTGTGGAG
K
TCCCAGTGTTTCATTATCCGATTGAGTTCGGTACCTCAAGTTTCAAAGACCGTTCTCCTGAATGGTTATTCTCATTTCCATGTCAGTCTGCCGTGTGCTT
Celera SNP ID:            hCV29090509
SNP Position Genomic:     172487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48040):
GCATGTGATGCTGTTTGATAGCATTTTACCCACAGTAGAACTTCTTTCAAAATTGGAGTCTACCCTCTCAAGCCCTGCTACTGCTTTATCAACTGGTTTA
R
GTACTGTTTTAAATCTTTTGTTGTCATTTCAACAATGTTCACAGTATCTTCCCAAGGAATAGAATCCATCTCAAGAAACCACTTTCTTGGCTCATCTATA
Celera SNP ID:            hCV26379931
SNP Position Genomic:     107909
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48041):
AAGGTGAATTGGCAGTTTCTAAAAAGAAGACCACAATGAAGTTGTCTGCATCAACTGACTGTTTCTTTTACAAAAACTTTCTGTAAAAATTTTGTATAGC
W
TGTGATGCTGTTTGATAGCATTTTACCCACAGTAGAACTTCTTTCAAAATTGGAGTCTACCCTCTCAAGCCCTGCTACTGCTTTATCAACTGGTTTAGGT
Celera SNP ID:            hCV26379932
SNP Position Genomic:     107811
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48042):
TTGCTTACTTTTAGTTGAGTGTAAATCAAATCTCTTGACTTATTTAGTCTTGTCCTTCTTGCAAGAATACCCATTACGGCATGGGTCTGATGGGTTAGCT
R
TTTGTTCCAGTAAGCATTAGGAACTTGATAGAAGCAGTATGCCCTCATCTTACCTAAATGTCTCCCCATGCACCGCTGACAGAGACCCACTCTGGGAAAT
Celera SNP ID:            hCV27481889
SNP Position Genomic:     1059272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIC-allele(A,62|G,1417)   total(G,1417|A,62) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48043):
AGAATAAACTTTTTTTCAAATGTTGTTTCAATTTAATTCAGTAAGCATTGGAGATGTATTTTCATCAGAACCCTCTCAATTTTAAGGGGTTAATGTCTAA
Y
TCAAATGGGAAATGTATAGTTCACTTAACTGAAAAGGTCCAGGGAGTTGAGTTTTAGGCAAAACTGAATACAGGGGCTTGAATCTTGTTAAATGGTTTCT
Celera SNP ID:            hCV26379933
SNP Position Genomic:     101217
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48044):
AACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGAGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAA
A
GGTCTTACTGTACCATATGTCCTCACTTAACTTCATTGCTAGGTTCTTGAAAACTGTGACTTTCAGGGAAATGAAATATAATGAAAGCAATTTTACTGTA
Celera SNP ID:            hCV26379934
SNP Position Genomic:     98890
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,10)   total(A,10|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48045):
TATCTAAGACTGGGCAATTTACAAAAGAGGTTTAACAGACTCACAGTGCTGGGGAGGCCTGGCAATCATGGTGGAAGGTGAAAGGCACATCTCACATGGC
R
GCAGACAAGAGAAGAGAACTCGTGCAGGGAAACTCCCCTTTATAAACATCATCAGATCTCGTGAGACGATCACAAGAACAGCATGGGAAAGACCCAGCCC
Celera SNP ID:            hCV26379935
SNP Position Genomic:     97707
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48046):
CAGAAAGTGCCAAGCCCTGAGGTAGGTGGGGCACAGTGTAGTGTTGTATTAGTCCATTTTCACGCTGCTGATAAAGATATATCTAAGACTGGGCAATTTA
Y
AAAAGAGGTTTAACAGACTCACAGTGCTGGGGAGGCCTGGCAATCATGGTGGAAGGTGAAAGGCACATCTCACATGGCGGCAGACAAGAGAAGAGAACTC
Celera SNP ID:            hCV26379936
SNP Position Genomic:     97628
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48047):
TCCCCTTCTATTATTGGTTGAGTCCCTCTTCTGACGAGTCACAGGTATTCCCAGTAAGCAGCCTCTGTAGGGCACAGGTGAGTGATGATGGGATTCACCG
S
TGACAGCTCTGCTGTAGATTTCCCCGGGCAGGTGACCTCTGAACTGCCACCTGAAGTAGAAGTAGGAAGTAACCAGCAACTGGGGTGGGGATGGTGAAGA
Celera SNP ID:            hCV26379937
SNP Position Genomic:     97400
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,13)      total(G,1|C,13) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48048):
GAGGCGGAGGTTGCAGTGGATTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTTTGCCTAAAAAAAAAAAAAAAAAAAGAGCCCCCC
C
ACTCATCCACACTTACTCTCTTACAATCCTGGAAGGCAACTTGTTTCAATGGGCTAGAGGCAAGTTGTTGGCTAGAGGAGATTCCATTGCTGGACTCTTT
Celera SNP ID:            hCV26379938
SNP Position Genomic:     96489
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|-,8)   total(C,4|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48049):
TTGAAACCAGGAGGCGGAGGTTGCAGTGGATTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTTTGCCTAAAAAAAAAAAAAAAAAA
A
GAGCCCCCCCACTCATCCACACTTACTCTCTTACAATCCTGGAAGGCAACTTGTTTCAATGGGCTAGAGGCAAGTTGTTGGCTAGAGGAGATTCCATTGC
Celera SNP ID:            hCV26379939
SNP Position Genomic:     96479
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,9)   total(A,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48050):
ATATTTTTTAAAACAGCTTGAGTTTATTCTTGTAAGGCTGCCATTGGGTCTGAGACCCCAGAGGAGCAGTGCGCTGCCTTGCAGTTACTCCGCAGTGGGC
M
AGACAGGCATGTTTTGCTCTGGGAAGAGTTGCTGAACACCTGTCTGAGCAAGGGACTCTTTGTGGCTGTCTGGTCGTTATGTACACCACTTGGTCCTACC
Celera SNP ID:            hCV27522233
SNP Position Genomic:     1103727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48051):
GAAGGGTTAAGTAAGATAGATGAGGTCACTGCCCCTTGGAGCTCACATTCTAAGTTGTAGAGCTGGCCAGGGAAGGAGGCAGACTTCAGAGAGACCATCC
R
GAGTGGCTTCTCTAGGGAACACAGAGGCCTTGGTGTTGGAGCTGAGATCCTACAAAGCACAAGACACACATGAGAAAATCTAAGACTTATCCGATGAGGC
Celera SNP ID:            hCV27522234
SNP Position Genomic:     1122208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48052):
TTTGGGAGGCTGAGGCAGGCAGATCACGAGGTCAGGAGTTCAAGACCAGCCTGACCAGCATGGTGATACCCTGTCCCTACTAAAAGTACAAATATTAGCC
R
GGCATGGTGATGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTGGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCG
Celera SNP ID:            hCV12111910
SNP Position Genomic:     984617
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48053):
CACATGTGTGAAGATGGATAGTCAAAAGAGACTGTCATGTAAACAAGTAATGCAATTGGAAAGGTGCTGTGCAAAGTAGCTGAGAGAATCACAGGGCCCT
R
TGAGAGACTGGAAGGCACCCAGATGATCCAAGGTGATGGCCAAACCTACAAACAGGGGAGCCAGGGACAAGAGCAGGGATGATTGAATCTAGAGTCAGAC
Celera SNP ID:            hCV11672103
SNP Position Genomic:     103762
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48054):
TCTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGCTGTGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGACTCACACACACACACACA
C
AAAAAGTAGAAACTTAGAAGCAACCCAAATGTTCATCCAGTAGGGATTGACTAAATAAATTATAGTGGATCTGTACATTGGACTATTAGACAGCTGTTAA
Celera SNP ID:            hCV12111912
SNP Position Genomic:     979905
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|C,7)   total(C,7|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48055):
AGGATCTTTGCCCAACAGGAAGGTTGGAGAATGAGGCATGCATCTAAGAAAAAAATGCAAGCAAAATAAAAATTCCCACATATTGCCTTAATTGTCTTTA
S
AGAAGGAAATATCCCAGGGCAAGAATCATCAGGGCATGCTCTGCGCCCTGCATTTGATTTCATGTTTTCAGGAGCACCCCTCAAGGTCTGGAGAAGCACA
Celera SNP ID:            hCV2392600
SNP Position Genomic:     1094687
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48056):
ATGGATCAGTGATCCTCATTCTGGCCACCAGCAGAGGTGCCTTGCTACACGCCACCACCTTGGGGCAGGTGCCACTGGACAGTAGCCTGCGTGGACAACT
R
AAGCTGTCCCTTCTCCACTCTCCCCAGTTAGAAGTATCTGTGACTTCAGATGCAGGGAGATTTTGAAGCTATCCCATTAGAAAGTCAATAGTCTGCCTAC
Celera SNP ID:            hCV2392601
SNP Position Genomic:     1093322
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48057):
GAATAAATCTGAGTTGTTTTAATCCACTAGGTCTGTGGTCTTTTGCATAGCAGACACAGGAACCTGAGATATTAACCTTCATCTACTTTCTCTTCCAATC
Y
ATGAGGGTTCCCCCAGCGGACTCCCTCTATAATCAGTACGGTCCATTCAGCATTCATCCATGCACACCCCAAGTTTTCCACTCTAGGGGTGCCGTGTGTG
Celera SNP ID:            hCV7624631
SNP Position Genomic:     1091579
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48058):
ACCCAGATGATCCAAGGTGATGGCCAAACCTACAAACAGGGGAGCCAGGGACAAGAGCAGGGATGATTGAATCTAGAGTCAGACTGATCGTACACCCTCA
R
TCTTCCAGTTGGATGTCCTTGGCTGGGTCAGCCATTCTCTCTGTGACTCAGCTTCCCCACCTATAAAATCAGGATAATTTAGCTCATACTTAAAGGGTAG
Celera SNP ID:            hCV11672106
SNP Position Genomic:     103879
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48059):
GTGACTGCCACCTCTAAGCACTCAATAAACAGGGCTGTTTATGCTTGTTATTCGGAACGGGAGAGGGCTGCAACTCGGGCACCTGAGGCACAATGGGAAG
W
GCTGGAGCTGGAAAAGGAATGAGTGATGGACAGACTCGATCATCGTTGTGTAGCATTTGAAGGAGGCTGTCTCTGGTGGGCTGAACTACGATGAATGTTA
Celera SNP ID:            hCV2392602
SNP Position Genomic:     1093063
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48060):
TAAGAATAAATCTGAGTTGTTTTAATCCACTAGGTCTGTGGTCTTTTGCATAGCAGACACAGGAACCTGAGATATTAACCTTCATCTACTTTCTCTTCCA
R
TCTATGAGGGTTCCCCCAGCGGACTCCCTCTATAATCAGTACGGTCCATTCAGCATTCATCCATGCACACCCCAAGTTTTCCACTCTAGGGGTGCCGTGT
Celera SNP ID:            hCV7624632
SNP Position Genomic:     1091576
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48061):
ATGGTGATGGTGATGTTGATGGTCATGGTGATGGTGATGATGACAGTTGTGCTAATGGCGATGATGATGATTTGGAACTAGAATCAAAAGAATGTTTTCC
T
GCTGTTTCCCTCATTGCAAATAACGTACATATGTCTCTTTCCCCATACTCGTTATTGTCTCTCAAGTTCTGAATTGTCCCAGCTCTATCACCAAACCAGG
Celera SNP ID:            hCV11672107
SNP Position Genomic:     104233
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48062):
GAAATTGACTCACCATCTCTAAACCAGAGTTTCCTTGTCTTGGGAATTAACAGGAAGATTGTAATGAGTTAAAGTTCATGTGTGAAGCGCTTAGCACCGT
S
ACTGCCACCTCTAAGCACTCAATAAACAGGGCTGTTTATGCTTGTTATTCGGAACGGGAGAGGGCTGCAACTCGGGCACCTGAGGCACAATGGGAAGTGC
Celera SNP ID:            hCV2392603
SNP Position Genomic:     1092965
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48063):
AACCCCATCTCTACTAAAAAAAAAATATACCTCCCCTCCACAAAAAAGAAAGATACATCCTATAGCAGCATAGAAAATGGACGCGGTGATGGCAAGATGT
S
AGGAGGGAGGCATTAGGCAGCTGCCGCAGAAATACAGGTAAGAGAAAAGAGAGGACCAAGCCAAGGTAGTGAAGTTAGTTGGGGAAAAGTCAGCCTGCAG
Celera SNP ID:            hCV27485090
SNP Position Genomic:     1133761
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,157|G,1346)   total(G,1346|C,157) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48064):
CCTCATTTTGAAATTAAGAGGTGCCTTCAACTTTACTTGGTGGCTTTTCTCTATACATTGTACCTTTATTTTTACTTTGGAAAGTTGTATGCAGTGCCCC
R
AATGCTGACTTGTAAACTGATTTCAACACCATCCTCATTCCTTTTGGCTCTCTGAGAAATGTTCTTTTTTAATGAATATGATAGCAAGACTTACTTATTA
Celera SNP ID:            hCV11672108
SNP Position Genomic:     104732
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48065):
CTTTCCCTGACTGCAAGCTTGGTCTTGGGCAAAAGTGCCTTATGACTGCTAGAAAAGCTAAGAGCATCTCAAAGTTCAAGTGCTGGCATGGAACTTGGGC
Y
ATAGCATTGCATGCTGGCCTTCTGCATTCCTCTTGGTGCCTCTTTTTAAGAGGGATGTTGGCAAATTCAGGTGTGTTCAAGGGAGGCAACCTGGAAAAAA
Celera SNP ID:            hCV2392604
SNP Position Genomic:     1092660
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48066):
CCCCCAGATGACATTTGTCAGTGTCTAGAACATTTCAGGGGGTGCGAGGGGAATGCCACTGGCATCTAGGGGGCAGAGGCCCGGGTTGCTGGTAAAGTTC
Y
CACAATGCACTGGACAGCCTCTCTGCAACAAGAATTATCCAACCCCAGATGTCAGGGGGGACAATTGAAGTTGCCGCTTCTCCACTCTCCCCAATTAGAA
Celera SNP ID:            hCV2392605
SNP Position Genomic:     1092334
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48067):
GACTCTGACTTGTGGGACTATAAGAATAAATCTGAGTTGTTTTAATCCACTAGGTCTGTGGTCTTTTGCATAGCAGACACAGGAACCTGAGATATTAACC
Y
TCATCTACTTTCTCTTCCAATCTATGAGGGTTCCCCCAGCGGACTCCCTCTATAATCAGTACGGTCCATTCAGCATTCATCCATGCACACCCCAAGTTTT
Celera SNP ID:            hCV7624635
SNP Position Genomic:     1091556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48068):
CCTGTTCTCACGGGCTGACCCCACAAGCCTGTGAGCCGTAAGCGGTGTGATTCGCTAACAGTTGAATGGCACTGGCTATGTGTGTATGTGTATGTGTGTG
Y
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTGAAGATACATTTAGTTTGAGTCCCTATGAAGCGAGGAGAAAAGGTCTTGACGAACAA
Celera SNP ID:            hCV11441133
SNP Position Genomic:     1110544
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48069):
TCTCAGTTCCTGACCTTATGTCTTTCTCAGTTCATTATTTCCACCTCTCTCTAGTCATTGGATTTGTAGAAAGAACAGAGATATTTAAGAAACATTATTC
R
TTCCTTCAGAGTCTTGGATTTCTCCAAATAGTCCAAAAAATGGCCTATTTTTAGATGATTGAATTATACTAGAAAGGTGGTGATCTTGCCCCCAGATGAC
Celera SNP ID:            hCV2392606
SNP Position Genomic:     1092145
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48070):
ATCTTAATTTTAGACTCTGACTTGTGGGACTATAAGAATAAATCTGAGTTGTTTTAATCCACTAGGTCTGTGGTCTTTTGCATAGCAGACACAGGAACCT
R
AGATATTAACCTTCATCTACTTTCTCTTCCAATCTATGAGGGTTCCCCCAGCGGACTCCCTCTATAATCAGTACGGTCCATTCAGCATTCATCCATGCAC
Celera SNP ID:            hCV7624636
SNP Position Genomic:     1091544
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48071):
AATGATCTCAAAATAGAAAGTGTAATGAGAGAAAAAGCTCTATTTAAGTGTTTTATTAGGTACCAGACATCATGTTAAGTATTTTACATGAATTATCACG
Y
TATCCTTACAAGAAAATTGTGAGTTCTAGCATTGCCCCATTTTAAAGAGAAGGCACCTGAGGCTCTTAGAAATTAAGGGATTTGCACAGTTACCCAGCTG
Celera SNP ID:            hCV2852500
SNP Position Genomic:     632692
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48072):
CTGTCTCAGAGTCTATCCTCGACCACAGGGTTTAAGTCCTTGATGTGCACACTGGGCCCTGGAGAGAAGGTGCCTGTTCTCACGGGCTGACCCCACAAGC
Y
TGTGAGCCGTAAGCGGTGTGATTCGCTAACAGTTGAATGGCACTGGCTATGTGTGTATGTGTATGTGTGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGT
Celera SNP ID:            hCV11441134
SNP Position Genomic:     1110472
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48073):
CAAAGAAACAAATTCTGCCCTGAAGATTCTAAAAGGAACACAGCCCTGCCAACATCTTAATTTTAGACTCTGACTTGTGGGACTATAAGAATAAATCTGA
S
TTGTTTTAATCCACTAGGTCTGTGGTCTTTTGCATAGCAGACACAGGAACCTGAGATATTAACCTTCATCTACTTTCTCTTCCAATCTATGAGGGTTCCC
Celera SNP ID:            hCV7624637
SNP Position Genomic:     1091491
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48074):
CATTATAATGGCATTAGCCAGAGGAGGTAGCATGGTGGTTCAGGTTTCTGGAAGTGGGGTTGAGGCAGTCCTTTCACTTTCTTAACTGAAATTCCCCAAC
R
CCCTTGGCTTACTCACCCCTCAGCATGCTTTGTTCTCTTTCTGTCTTTTTCTGTCTAGGTTCTCTATCATGAGTGTCCTCTTCTCTGAATTCATAGCCTT
Celera SNP ID:            hCV2392607
SNP Position Genomic:     1090644
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48075):
CTTCAAATGTGTTTTTCATTTGCTTGGGTTCAACCTCATTATAATGGCATTAGCCAGAGGAGGTAGCATGGTGGTTCAGGTTTCTGGAAGTGGGGTTGAG
S
CAGTCCTTTCACTTTCTTAACTGAAATTCCCCAACGCCCTTGGCTTACTCACCCCTCAGCATGCTTTGTTCTCTTTCTGTCTTTTTCTGTCTAGGTTCTC
Celera SNP ID:            hCV2392608
SNP Position Genomic:     1090608
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48076):
GTGACCTATCAATCCATTAAAGCTAAGACCGTGGCTAGTCTCTTAGTATGACCGCAATTTAGTTGAAACCTGGCTTCAGAGAAATGGGCCAAGGGCATAG
M
CTACCTGTGTTTTTTGTTGTTGTTGTTGTTGTTTTTGGTTTTTTGTTTGTTTGTCAGTTGTGAGACCTCTCTAAACCTCGATTTCTTCATCCGCCACAGT
Celera SNP ID:            hCV8875234
SNP Position Genomic:     874900
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48077):
TGGAGTTATTCACAGATGGCTAAGTTAAATGCAGCCCTCATAGCACTAAGGCATTTCAGGGGCGACTAAACAAGTGGCCCATGAAATGGAGGCACCAGAA
R
CCTCTGGAAGCGGCATCAGTGCATCACCCAGTGAAGCCATTGTGTCGCCTGTTAGTAATGAGCATTTGCAAGGGCAGCATGGGGAATTTCAATCAACCTG
Celera SNP ID:            hCV29090510
SNP Position Genomic:     172165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:48078):
GTTCTTCAAATGTGTTTTTCATTTGCTTGGGTTCAACCTCATTATAATGGCATTAGCCAGAGGAGGTAGCATGGTGGTTCAGGTTTCTGGAAGTGGGGTT
R
AGGCAGTCCTTTCACTTTCTTAACTGAAATTCCCCAACGCCCTTGGCTTACTCACCCCTCAGCATGCTTTGTTCTCTTTCTGTCTTTTTCTGTCTAGGTT
Celera SNP ID:            hCV2392609
SNP Position Genomic:     1090605
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48079):
TCATTCCAGACTACAAAGTGCCAAGCGCTAATTGATTTGTAAGAAAGTCCACATGAAATGCCTGGCACTCTCCCAAAGGCACCCATGGGCTTGGAGGGAC
R
ACAGCATTGGACTGTTATGCGAGGAAATAATTCTTGCTTGCCCGCCTGGGATGGGGTGACGTTCTGGCCAGGAAGCAGAAGCAGACTTGACTTTGGGCAG
Celera SNP ID:            hCV29090511
SNP Position Genomic:     171950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48080):
TGCAAGTCCCAATTCACAATTCAGTACAATTCTGGGGGTTCTGGACTCCCTGAGGACCATTTATAAGTTCTCTCCAAGTCATTGACCCCAGGTTTAGTTG
S
CCCTCTAGACTATAAGGCCCCCTAGATAGAAGGCAAGTGTCATATGCCACTGCATCCCCAACTCTGAGGACAAAGCCTGGTGGCAGGTGGACCTTCATTC
Celera SNP ID:            hCV29090512
SNP Position Genomic:     171573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48081):
GTGCTTATGGAGAACATTTTAGGAGCACGCCTATTCTTAAAGTGAATTCCGTTATCTTTCCTCATGCTAAGAATGGAAGGGGGCTTAGGCTGAGCCAAGT
S
ACATGTTGCAAGCAGTTGTATGATGTCACCAAGTGCTGGCCGTTGGTGTCTCAGCCACAGTGGGAAGCTCAGCACATGGATTAAGGGCCAACCTGGGGCG
Celera SNP ID:            hCV2852504
SNP Position Genomic:     633911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48082):
ACCCAGCTGTGAGGGCCTGCAGGGGCGGCTACCCGAGGAAGTGCGGGAGGCTAGTCCCAGAGGATGGGAACAAATGCTGTGTAATCAGGAACCACAGAGA
R
CCCCTGGCCCAAAGGTGAACCTTGTGAACCCCACAGAAAATAGAGCTGCAGTGTGTCTCTGCAGCTGGTCTAAGAGTTCTAGCATTTACAGATTGGCCTA
Celera SNP ID:            hCV27481890
SNP Position Genomic:     1063468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48083):
TACTCATTCAATCATTTAGCACCCTTTCTCGCTTGCTTGGAAAATACAAGGTAAAAAACACACTAGCCTACTATTTGATATTTGTGCGTGGGTGTGTGTG
K
GGGGCGTCATATATCCCTCTTAGCATCTGATAAAAAAAAGATCAATTCATTACCCAGAAATATGTATCTGCATGTGTGCAAGTCCCAATTCACAATTCAG
Celera SNP ID:            hCV29090513
SNP Position Genomic:     171396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48084):
TACTCAATAAATAGTGGAGATTGTAACTCTTACTAATCTGGTGGTGGTGTCCTCCTCAAAGTAAAATAACAAGGCAAAGGCTTCAAATCAAGCTGCATTT
K
AAAAGTTGCATTTTTTGGTATCAAAGTCCTCCAAGATGGATTTATTTTTCTATTTTATGATTCCGTAAAAGGCTTCCTATAAGACTTGTTTGTTGGGGGT
Celera SNP ID:            hCV2852505
SNP Position Genomic:     634508
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48085):
TGCAGCAGGGCCTGCCCATCCTAATGGCCACTGTCACCTCCTCCCTGAGGGGGCTCCTTCCATGGTCAACATGGGAAGCCTTCTCCCCAACCCCAACCCC
R
CTGAAACTTAGGAACGCACTTCCAGCTAAGTCCAACTCCTGGGCCACGTCCTGCCTCGCATGAGGAAATGCACTTCTCAGGCACCACTGCTCCTCGGCTG
Celera SNP ID:            hCV27481891
SNP Position Genomic:     1065156
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,87|A,1392)   total(G,87|A,1392) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48086):
TCCACAGAGCATCTCCTCACTGGACAGGCATTGTGGGCACGCTCCTGCGGAGGAAGAATCAGGGTGGTGAGGCAATTAGTAGGTGTTCTACAATCCTGAC
R
TCTTTCTCAGACCAGCCCCCATCTCTGTCTATTGGCGAGATTTCTTCTTTAGCTTCTGCTCACTATGACATGAAGGACTTCTTCTTACCTAGATATTCTG
Celera SNP ID:            hCV29090514
SNP Position Genomic:     168966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48087):
ACTGTTCTCAGTGTTCTGTTAGCAATTATTACCATTATTTTCACTTAGATTTGTCATTATGTACACACAGCTGCCTGTGGACATGTGCAGGCACATCCAT
R
TAATATATTAATATAATTAGGAAAGTGGGGGCATTCAGTACTTTCTAGGTATACACATGAACAGACACACAAATATACATAGGACGTGCAGATGTAATGG
Celera SNP ID:            hCV2852506
SNP Position Genomic:     635172
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,10)      total(G,10|A,5) ;(A,-|G,-)   African American (pooled) - WICGR(A,10|G,90)   Asian (pooled) - WICGR(G,84)   Caucasian (pooled) - WICGR(A,5|G,91)   total(G,265|A,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:48088):
AAATGGCACTTTAGACCCCTTCTATAGTTTCCAGAAATGTAGAGAGGATCACGTTGCTTTAGTGTCTTGCCCCAAGTGCTATTAATATCCCTGTCCCTAA
R
AGATTGATTTTTATTATCGGTAGAAATACTTAATAGAAATGAAATCTACGCTCTCGGTCATAGATAGCTGGCATAAAAATTAAACAAAACACTGTGAAGC
Celera SNP ID:            hCV27481892
SNP Position Genomic:     1096497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48089):
GGTATACACATGAACAGACACACAAATATACATAGGACGTGCAGATGTAATGGGATTTAATGTTCCCAAACTCTTGCAGTCATAACCGTCTGCCCAGAGT
Y
AATCTTAGATAGAGAGCCAGCACCGTGAGGCCAAGAGAATGTCTTGCTCCTGGATCTGGCTGGTGTTCCTGAGAGAAGGACAAGACGCCGCAGTGTTCCT
Celera SNP ID:            hCV2852507
SNP Position Genomic:     635320
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,8|C,9)      total(C,9|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48090):
CCTCTGAGGAGTCTGTTATGCGGCAACACATACTCAGATGTGGACAGCAGTGAGCACGCTGCCTGGAAAGGGGGAACAGCACCGCGGGCAGGCTTCAGAG
Y
CACACACCACGTCTCTGTCTCAGAGTCTATCCTCGACCACAGGGTTTAAGTCCTTGATGTGCACACTGGGCCCTGGAGAGAAGGTGCCTGTTCTCACGGG
Celera SNP ID:            hCV27481893
SNP Position Genomic:     1110357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48091):
AAGGGAGGGTCTTCTGAGAGATATAAAGAGGCTGATATATGCTCTTTATATCTCACCTTTGATGATACACAGCTCACCTTTGATGGTCACTCTGAATCAC
R
TCAAGGCGATGACAAGAACAACTGTCTAGACTTAGTGGTGTGGCTTTGAAACGACACTTCGCCATTCAGGGATTCAATTGTTTTCCAGTTTTATAATGAG
Celera SNP ID:            hCV29090515
SNP Position Genomic:     168454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48092):
TCACCACCATCACCATGAGCAAAATGGATTATTCACTGGCCATATTTCTCCTTTTTACCTCAGCCAACAAGGCACGCAGGATCAAATGTGTGGTTCTACC
M
TAATGACTCTATGGACAGGATCCCCTGTGGCTGGCATGCTGTCACCATCTCCTCCTCCTTTTCTTTTTTCTCTGATCCTTGTTTTTATCTGCTTGTACTT
Celera SNP ID:            hCV2852508
SNP Position Genomic:     635860
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48093):
ACCCCATCCTACCCTTAAGGTGCCCTGGAGGGGTTGAAGGGCCATTCTTGGTCATCCAGTCTCTGTGTGGTTGGGTTGATCACAGAAACTAGAGAAGTCA
M
GAAGAGTAGGTGTTCCTCAGGTTAATTACACAAAGAACTAATTCAGTCTGATTCCTTAAGCTCGGAGTTAAAAACAGTGATTGTGAACTCATGAAGGGAG
Celera SNP ID:            hCV29090516
SNP Position Genomic:     168260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48094):
GATTGTTTCTTGTTATACCATAAAGATAAGGAGCTTGAGTTACTTTCCAGCTGATAAGGCAATTTTCACCTTTTTCCATTTGTCTTGGAATTTCACACCC
Y
ACCCCATCCTACCCTTAAGGTGCCCTGGAGGGGTTGAAGGGCCATTCTTGGTCATCCAGTCTCTGTGTGGTTGGGTTGATCACAGAAACTAGAGAAGTCA
Celera SNP ID:            hCV29090517
SNP Position Genomic:     168159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48095):
GTGTAGAGGTCTAAAGAGATTTGTCCTATGAGAAAGTTCACTAATTTCAATTATCTGGGTTTTATTATCACCTTCTAAGGGTTAGAGAGACAGGATTTTA
Y
AGAATGCCATCACCTGAGGCTGTGACAATGGGGTTTCACACCATTAAATTCAGAAAGCATAAGAGAAGAGATAAGAAATGAGAGGGCTTGAAGTGCATGC
Celera SNP ID:            hCV11440196
SNP Position Genomic:     262109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48096):
GACTCACCTCTGGGTTGCAGAGGAGGTTGCTCTGATTGTTTCTTGTTATACCATAAAGATAAGGAGCTTGAGTTACTTTCCAGCTGATAAGGCAATTTTC
R
CCTTTTTCCATTTGTCTTGGAATTTCACACCCCACCCCATCCTACCCTTAAGGTGCCCTGGAGGGGTTGAAGGGCCATTCTTGGTCATCCAGTCTCTGTG
Celera SNP ID:            hCV29090518
SNP Position Genomic:     168126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48097):
CTTGAAACCAGGAGGCGGAGGTTGCAGTGGATTGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTTTGCCTAAAAAAAAAAAAAAAAA
R
AGAGCCCCCCCACTCATCCACACTTACTCTCTTACAATCCTGGAAGGCAACTTGTTTCAATGGGCTAGAGGCAAGTTGTTGGCTAGAGGAGATTCCATTG
Celera SNP ID:            hCV26379940
SNP Position Genomic:     96478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48098):
AAAGAAACTGAGCAGGACTTGGGCACAGGTAGAGGTGAGCTTCCGGGCTGAATCCCCTACTAGGCCGTTAGTCAATTGTATGTTTCCTTTTTGGACTCAC
S
TCTGGGTTGCAGAGGAGGTTGCTCTGATTGTTTCTTGTTATACCATAAAGATAAGGAGCTTGAGTTACTTTCCAGCTGATAAGGCAATTTTCACCTTTTT
Celera SNP ID:            hCV29090519
SNP Position Genomic:     168033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48099):
AGGTGCTGGTTGCAGTGAGCCGAGATCAATCCACTGCACTCCAGCCTAGGCGACAGAGCAAGACTCCATCTAAAAAAAAAAAAAAAAAAAAAAAAAAGAC
W
CAACGACACACAGAGAACTTGTGTGATGATGGAGGCAAAAACTGGGGTGACGCAGCTACAATTCAAGGGACACCAAAACTGCCAGCAATGACCAGAAGCT
Celera SNP ID:            hCV26379941
SNP Position Genomic:     93769
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48100):
GGTGGCCTAGTGCATGTTTCACCTAGGTCTCTGACTAATTCTATGAGCTTGGGCAAATTATTTAGCTTCTTTAGGGCTTCTGTATTTGTGAAAAAAAAAA
M
AAAAAAAAAAAAAGGAAAACAATAGTTTCCCTTTAACAGGGCTATTGTAGGAATCCAGTGAGATCATATCTTGGAAGTGCTCAGCTGAGGGCCTGGGCGG
Celera SNP ID:            hCV26379942
SNP Position Genomic:     92844
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48101):
AACAAACTATTATGAAGCCCCTACTGTCTTTATCAGCAATTCACAGTCTTTTGTCCATAAGAATAAGCAGGGGACTTAAAAAAAAAAAAAAAAAAAAAAA
A
CTACTGGTACTTGGGCCTTACCCCAGACTAACTAAATTAGACCCTCTAGGGTGGACTTTGCTCTCAGTATTTTTCAAAGTTACCCATGCTATTCCAACGT
Celera SNP ID:            hCV26379943
SNP Position Genomic:     340626
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|-,8)   total(A,7|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48102):
AATTGAACAAACTATTATGAAGCCCCTACTGTCTTTATCAGCAATTCACAGTCTTTTGTCCATAAGAATAAGCAGGGGACTTAAAAAAAAAAAAAAAAAA
M
AAAAACTACTGGTACTTGGGCCTTACCCCAGACTAACTAAATTAGACCCTCTAGGGTGGACTTTGCTCTCAGTATTTTTCAAAGTTACCCATGCTATTCC
Celera SNP ID:            hCV26379944
SNP Position Genomic:     340621
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,7)   total(A,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48103):
AGGCATGAGCACAATGTCCTACTCCCTGGGTGCTTAGTTAATGCTTATGGAGTGAATAGAACCCCGGCGTGTGTGTGTGTGGTGTGTGTGTGTGTGTGTG
T
TTAGGGAAGGCAAAGGACGTTTGGCAAAAAAACAAGTTACCTGAGGGAATAGCAACTCGAAGTCATTGTCCCTCAATTTGGGATCCCGGTACCACCCGCA
Celera SNP ID:            hCV26379945
SNP Position Genomic:     92103
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48104):
CAGGCATGAGCACAATGTCCTACTCCCTGGGTGCTTAGTTAATGCTTATGGAGTGAATAGAACCCCGGCGTGTGTGTGTGTGGTGTGTGTGTGTGTGTGT
G
TTTAGGGAAGGCAAAGGACGTTTGGCAAAAAAACAAGTTACCTGAGGGAATAGCAACTCGAAGTCATTGTCCCTCAATTTGGGATCCCGGTACCACCCGC
Celera SNP ID:            hCV26379946
SNP Position Genomic:     92102
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,6)   total(G,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48105):
AGTATATTTATATATTTGTATATTTATAAATGTATTTTATATATTGTATGTTTATAAAATATTAGAAAAATATATTTGTATATTTATAAAATATATAAAA
R
TATATTTATATACAAATATAACCTATAAGTATATATGTATGTTTTACATACACAAATACTTTTATACATAAATGTGTACACATTTCAGAATCAAACAGCC
Celera SNP ID:            hCV26379947
SNP Position Genomic:     89800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,7)      total(G,7|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48106):
GAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAATATATATATATATATATATATA
W
AAATATATTTCTATATTTATAAAATATATAAAGTATATATGATATACAAATATATTTACATATAATATAATCATTTTATTTGATTTAAAAATATACAGTA
Celera SNP ID:            hCV26379948
SNP Position Genomic:     89603
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,7)   total(A,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48107):
ACCCAGGAGGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAA
W
ATATATATATATATATATATATATAAATATATTTCTATATTTATAAAATATATAAAGTATATATGATATACAAATATATTTACATATAATATAATCATTT
Celera SNP ID:            hCV26379949
SNP Position Genomic:     89579
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48108):
GGATGCAAAGCAGGAAACACACATTCTCACATGCGGTGGTCAATCAGCCAAGTAAAGCCAAAGTTGTTGTTGTTCCCAGTTCAAAGATGAGGAAATTGAA
S
CTCGGAGGGGTCAAATAACTCATCCCCAATCACAAAGCCATTAAGTGGTTCTGTCAGGATTTGAATCCATAGCCTAAGTTCATCACCACATTCTTCTCCT
Celera SNP ID:            hCV28008447
SNP Position Genomic:     939330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48109):
ATAAACCCTGACCTAAGCAAAGACAAAATGGACATGAAGTTGCCTCAATGGGCAAGACCAAGACTTCTGAGCCACCCCATCAGTGACACTTGATGTAGCC
S
GTAGCAGGAGTGCCAGGGAGAACACAGCTTTGTTGTTCCATATCCAGCTGTTTGGATCAGAGGGAAATGGGATCTTTCAATCACTACTGCAGTATGAGAA
Celera SNP ID:            hCV28008448
SNP Position Genomic:     926744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48110):
TCCACCCAAAGCCACCGGGAGAACCAACACATCCCTGCAGACGACAAAAGCGTCCTTTTGCTCATGGCCACATGCCTTGCAGCACAAGCTCCTCTCAAAT
R
CTTCCCAGGACCTCACCGTAAGGGACAGTCAACCAGACGTGTGCTTCCACATGTTCTTCAAATGTGTTTTTCATTTGCTTGGGTTCAACCTCATTATAAT
Celera SNP ID:            hCV2392610
SNP Position Genomic:     1090452
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48111):
CATAAAGCCTCTAAACAAGAAAAGGCCCCTGATCTCAAGAAGCTCGGATTGTCATAGCCACGATAGCCACTAAACAAGTAATCAGTAAACAAGCACATTA
Y
AGACTGTGGTAGTGGTAGGTGCTGGGGAAAACGGTACTCATTATCTATTGCTGCATGAAAAATTGTCTCAAAACTTAGTGACTTGAGACAAGAAGCACTG
Celera SNP ID:            hCV12111923
SNP Position Genomic:     976536
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48112):
CAAAGCTGTCCACATCCTAGTCCTTACCTTATACAGTAAAAAGGACTCTGCAGCTATGATTAGATGAAAGGTCTTTAGACGACCTTAGATCATCAGGATA
S
ACCCATTTTCACCATAAAAGTCCTTATAAGAAGGAGGCAGGGCCAAGCGCGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGAGGCTGAGGTTGGTGGA
Celera SNP ID:            hCV7624641
SNP Position Genomic:     1090906
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48113):
GGATCCACCCAAAGCCACCGGGAGAACCAACACATCCCTGCAGACGACAAAAGCGTCCTTTTGCTCATGGCCACATGCCTTGCAGCACAAGCTCCTCTCA
R
ATACTTCCCAGGACCTCACCGTAAGGGACAGTCAACCAGACGTGTGCTTCCACATGTTCTTCAAATGTGTTTTTCATTTGCTTGGGTTCAACCTCATTAT
Celera SNP ID:            hCV2392611
SNP Position Genomic:     1090449
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48114):
GTCCTGTAATAATTGTAATCAATATTATGCAATAATATGTAATCATATTTATGTAATAGTGGGCTAATTGTGTTATAATATGACTAATTGTTACATAGCT
M
TGATGTCCCAGGCAGTGAATTTTATCTCCCAGGCAGAGACATAAAGCCTCTAAACAAGAAAAGGCCCCTGATCTCAAGAAGCTCGGATTGTCATAGCCAC
Celera SNP ID:            hCV12111924
SNP Position Genomic:     976396
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48115):
CCATGTTTCCCAGCCAAGGCTCTTCCAGCCAGCAGTGCTGATGGGAAGAACAGGCAAGCCAGAGTGCCTTATCAAGTGCAAGACTCACCACCCATAGAGG
M
TCCACCCAAAGCCACCGGGAGAACCAACACATCCCTGCAGACGACAAAAGCGTCCTTTTGCTCATGGCCACATGCCTTGCAGCACAAGCTCCTCTCAAAT
Celera SNP ID:            hCV2392612
SNP Position Genomic:     1090351
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48116):
TTTACCATTCACTTTAAAACAAATATTATTGAAATGTTTAAAATAATTGCTGATCCCCTGTTCTACTACTCTTCCCTATTCTGGCTGAGTTCCTATAAGA
Y
AGAGATCAGCTCTTAGATTCCCCGTGTATCATATCCCTGACATGCCGCACTGTGCTATTGATCTGGTGGCCGTTCAATAAAAAGTCATTGAGTGAACAAA
Celera SNP ID:            hCV2392613
SNP Position Genomic:     1089843
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48117):
CCCTTTGCCTACCTAACTCCTCCTTCTTTGATCTGCAGCTTAAATGTGACTTCTTCAAAAAAGACTTCTTTGATCCCTTCAGTACCAAATGAGTTCTTCC
Y
TTTATGCACATTTTTCCTTGTGACACTTGACTTAATTATAGTTAAATGATGAATTATGTGCTGGCTTATTACTTCCTTTTTACCAAAAGACTGCACGCTT
Celera SNP ID:            hCV11672118
SNP Position Genomic:     111096
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48118):
GAGTTCATGTGGCATTTTCTCTAATTTTCAAGTGCAAACTGGGTGTTGTACATTCCAAAGGAGGTTACTTTCATTATCGGTTTTGGGGATTTTGTTACTG
W
TCTCCTTGTGAAAGCAATAATGTTCATTACAGAAAAATCCCCAAATCATAACAGGCCAATAAACTTTTTATATTAGAATTGCTTTTAAAAGTGAAAACTT
Celera SNP ID:            hCV2392614
SNP Position Genomic:     979506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48119):
GAGGAAACGAATGAATGAATTCCATTACATCTTTGCTATGTAGCTCATGTTAATGTTTCTCATTAACGATACCTTAAATGTTAGACTAGAAAGGGATTTG
Y
TAACAAAAATGCCTTCTTACAGCCTTCCTTGACTCCTAGAGCAGCATGTGTGTGCTGGAGCCCATTCTCACTGGCTCACAATAGCCAACTGGTGTCTCTG
Celera SNP ID:            hCV12111927
SNP Position Genomic:     975975
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48120):
GCAGAGTAACAAATGCAGAGTGGCCAGCGAGGGATACAGAATTAAAAATACATGTGTATATTTCAAGTAAGAGTGACTCCGAGAGCTAGGAAATTAGGGG
R
TGACTTTCTGGAAAAGGCTCTGAGGATCGGGAAGTAGGTCAGAGGCAAGTGGAAGGTATTCTGATCATGTATGAGCAAGGGAGTTCATGTGGCATTTTCT
Celera SNP ID:            hCV2392615
SNP Position Genomic:     979325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48121):
TATTGCAAGGACGCTTGTGATGCCCAGCTGATCGGGACAAAGCTAAAGAGGAAACGAATGAATGAATTCCATTACATCTTTGCTATGTAGCTCATGTTAA
K
GTTTCTCATTAACGATACCTTAAATGTTAGACTAGAAAGGGATTTGCTAACAAAAATGCCTTCTTACAGCCTTCCTTGACTCCTAGAGCAGCATGTGTGT
Celera SNP ID:            hCV12111928
SNP Position Genomic:     975928
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48122):
AGCACTTTTCTGTCTTTGTTTGAATTTGCCTTTACCTTATTATCTATTATCTTCCAGATAATCTAGGGAAAGTGATAGCCTGCCCGTGAAAATGTACATA
Y
AATACAAGATATTAGGGCTGTGAATGTAATTTGTTTTGTATTTTCAGCTGGTAACGCACTTTCTGAAACTTTATAATGCCCAAATTTTTAGGCCAGATGT
Celera SNP ID:            hCV8875241
SNP Position Genomic:     873690
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48123):
AGGTGCAGCCAGCCCGGGGAAGAATGTGGTCCCTGTTTAGGCTTCATATTGCAAGGACGCTTGTGATGCCCAGCTGATCGGGACAAAGCTAAAGAGGAAA
Y
GAATGAATGAATTCCATTACATCTTTGCTATGTAGCTCATGTTAATGTTTCTCATTAACGATACCTTAAATGTTAGACTAGAAAGGGATTTGCTAACAAA
Celera SNP ID:            hCV12111929
SNP Position Genomic:     975882
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48124):
CATTTCTTCCCCTTCCATATCTTAAGCTCCGCATTAATAGATATCAAGTTTCCCCAAGACATGTGCGTTTTCCATTACACGCTCATCCATTTACTTGTTC
K
GAAAACCCTACCAGAACATACGCTTCTGGAAGAAAGGGACCTTGGATTTCTGTTCTCTCTCTCTATTCCCATTGCCAAATATAGCACCAGATAAATAATA
Celera SNP ID:            hCV8875242
SNP Position Genomic:     872776
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48125):
AGATCCCTTGCGGACACGTGCAGTTGTTTCTGAAAGTAGATGCCAAGGAGGCGAAGGCATTGTTTTTACTCTTTGCTGCCCAATGGTCCTTGACAATGGA
Y
ATACCAGTTTCCCTTTATATCAGCTGCATGGGAGGGAGACCCATTATCTGACACCCTTATCAATCATTGACATAATCCAACACTCCACATGCTTGTTATA
Celera SNP ID:            hCV8875243
SNP Position Genomic:     867231
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48126):
TTCCAAGTAGTTGGGACTACAGGCGTGTGCCACCATGACCAGCTACTGTTGTACTTTTTGTAGAGATGGGATTTTGCCATGTTGCCCAGGCTGGTCTGAA
K
CTCTTGAGCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACGAGCATGTACCACTACACTTGGCCCATAAGTGATTTTTTAAAAATAA
Celera SNP ID:            hCV2852511
SNP Position Genomic:     637600
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,5)      total(G,5|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48127):
AAAAGAAACTGAGCAGGACTTGGGCACAGGTAGAGGTGAGCTTCCGGGCTGAATCCCCTACTAGGCCGTTAGTCAATTGTATGTTTCCTTTTTGGACTCA
M
CTCTGGGTTGCAGAGGAGGTTGCTCTGATTGTTTCTTGTTATACCATAAAGATAAGGAGCTTGAGTTACTTTCCAGCTGATAAGGCAATTTTCACCTTTT
Celera SNP ID:            hCV29090520
SNP Position Genomic:     168032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48128):
GCTGGTCTGAAGCTCTTGAGCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACGAGCATGTACCACTACACTTGGCCCATAAGTGATT
Y
TTTAAAAATAAGTAAATATTTACAAGAAATTAATTCCCTGAGATCGTCAGGACCCAACCTTGTCTTCATTTTAAGTATTGTCAGCTCAGAGTTCTAATGA
Celera SNP ID:            hCV2852512
SNP Position Genomic:     637689
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48129):
TCCAATTAAAGAAGCAGGAATGGGTAGCATAATTGACATGCATGACTCTTAATGCCTTTTGGTTCATTAAGCCTTTGGATCAACTTTTGTAGGAAGACAT
K
TAAAAGAAACTGAGCAGGACTTGGGCACAGGTAGAGGTGAGCTTCCGGGCTGAATCCCCTACTAGGCCGTTAGTCAATTGTATGTTTCCTTTTTGGACTC
Celera SNP ID:            hCV29090521
SNP Position Genomic:     167930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48130):
CTATTGGAAATGGCCTGCTTTAACAGTCCTGGTTCCTGCTTATTAAGATGCACCTTCTTAATGTATGCAATAAAAATTAGACTCAAAGATATCTAGTGAT
R
TTTAGCCAGCTTCAGTGACTGGTCTAGAAATAAAAAGATATGCCAGTAAAACCCGAGTGTTGCAAATACTGTTACTGATGATGATCAAGAAGAGAGGAAG
Celera SNP ID:            hCV2852513
SNP Position Genomic:     639758
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48131):
TGGTCCTCTGCACAGGCGTTGTATATTTTGTTCTCAAATCCAGCAGCCTTGACTTGACATGGGATGGTTGGGATGGTTCTCCACGTAGCCACATAAGCTC
R
TTACTACCCATTACATCTGCCTGTACCTCCAGCAGGTGCCCAGGAGATGGCTGAGTCCCAAGAGCCATGCAGGCCTCCTGGACGACCGCCCTGATGTGGT
Celera SNP ID:            hCV29090522
SNP Position Genomic:     167322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48132):
TGTCACTGTGTCCTCCCTTCTGTCCTGAAGCATTCCATGCTACACACCATTCATAAGATTTAAAATCATCTTCAAGAAGTGCCCTGTTGGAATAATAAGT
S
AGTGCTCTCTGGAGGCTATAACCAAATATAATTTGCCACATAAACATGAAATGTGTGTCCAAGAAACTAGTAGGAATGCATCTAGGAACCAAAGTGTCTC
Celera SNP ID:            hCV29090523
SNP Position Genomic:     167086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48133):
CAGTTGAAACGGAGAGACATAAGATAGATTGTTGAAATAGGAAGGGGAAGACATGAGACTCTCTTATGTCTAAATGTCTAACATGGGTTGGAAAGGCTGC
S
CACCAGTCCCAGGTATGCAGGCTTGGCACTTGGCTCATTTGAAAGAGAGACAACTAAGCCATAACTGGTTTATCCTTTTCCTCTGCAGTTTTATGGCCTT
Celera SNP ID:            hCV29090524
SNP Position Genomic:     164277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48134):
TGATGGGCACACTGCTGCACTGCTATTGCCCAGGTGGGGAAGGGGCTCTGGCCGTTGTTGACCCATTGATAACCATTCCGTGCCTTTCTGTCTTGCCCCG
R
TAGGCACCACAGTGATGCGGATGACAGCCTTTGATGCAGATGACCCAGCCACCGATAATGCCCTCCTGCGGTATAATATCCGTCAGCAGACGCCTGACAA
Celera SNP ID:            hCV25471656
SNP Position Genomic:     868378
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(A,8|G,32)   total(A,11|G,63)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,138|G,1359)   total(G,1359|A,138) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48135):
TGGAGGTGTGTGTGGCTGGGCAATTATCCTTTTTCACTCTTGCCCAGTGCTTGTTTTGAATGCAAATGTATTAGTTCAGATGGGCCAAGTTGCAGTAAAA
R
AAATCCACCCCCAAATTTCGGTGGTTTAACAGAACAGATGTTCTTATCCTGCTTACCCAACAGCTCTAGTGGGTGTTTCTTCTATGAAGCTGCTCAGAAA
Celera SNP ID:            hCV29090525
SNP Position Genomic:     163124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48136):
AGCAGAAGCTTGCAGAGCTGCGTGAGCCTGCCTTCCACTCAGCTTGAATTAAAGAGATTGGGCTGCAAGGACACAGAGAGGTGAGCCCCAGGAGGTGGGG
W
CCCAGTCCTGAGATTAGTGACAGCAGCCCTGAGGATGTAGAGAAAAACTTCTTACTCCTTTGAAAAATGTGTGCAGTGATTCTTTTCCTCCCTGAGCTGT
Celera SNP ID:            hCV29090526
SNP Position Genomic:     162526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48137):
ATAAGCTTTTTTGTTGTGTACATTGGCAACTTGATGGCTAAGGTCATTCTCCATCCATTTGTCTAGCTACCCACACACCTATACATCCATCTACCCATCT
R
TCCACCCACTCACCCATCTATTCACCTATCCATCCACCCAGCTATTTATCTATCATCCATCCATCCACCCACCTACCCACTTATTCACCAATCCACCTAT
Celera SNP ID:            hCV29090527
SNP Position Genomic:     160522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48138):
TGAATGCTATCTTAATGAGAATAAGCTTTTTTGTTGTGTACATTGGCAACTTGATGGCTAAGGTCATTCTCCATCCATTTGTCTAGCTACCCACACACCT
R
TACATCCATCTACCCATCTGTCCACCCACTCACCCATCTATTCACCTATCCATCCACCCAGCTATTTATCTATCATCCATCCATCCACCCACCTACCCAC
Celera SNP ID:            hCV29090528
SNP Position Genomic:     160502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48139):
AACCCAGGAGGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAA
W
AATATATATATATATATATATATATAAATATATTTCTATATTTATAAAATATATAAAGTATATATGATATACAAATATATTTACATATAATATAATCATT
Celera SNP ID:            hCV26379950
SNP Position Genomic:     89578
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48140):
CTACCGTTCTGCTTGCTGGTGGTTCAGGTTTTGTGAACTTATACAAGGGCTTGGTATTTGAATGCTATCTTAATGAGAATAAGCTTTTTTGTTGTGTACA
Y
TGGCAACTTGATGGCTAAGGTCATTCTCCATCCATTTGTCTAGCTACCCACACACCTATACATCCATCTACCCATCTGTCCACCCACTCACCCATCTATT
Celera SNP ID:            hCV29090529
SNP Position Genomic:     160444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48141):
TCAGATATTTGTGTATATATGCATATATATGTATTTATGCACACATAAACATACTACACACACTGGATGTATACTACACACACACACACACACACACACA
A
TGTTATAAGGTGTATGTAACACACTCAGGGCTGCCCCACAGCCTCTCAGTGCCCTACTTATGTTCCGTCCCCCCACCATTCCTTCTGGCAGCTTCTCACT
Celera SNP ID:            hCV26379951
SNP Position Genomic:     82258
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48142):
CTGGAGCTGTGGTCAGCACACAGCCAGTGAGTGCTCTACAAACACTTACAGCATCAGTTCATGAATGCTTGCAAACATGCAGAGGTTACCATTGCTTATA
S
TTTTTTTTGTTTTGTTCCACTTATATAAACCACTTATATATTCAGATATTTGTGTATATATGCATATATATGTATTTATGCACACATAAACATACTACAC
Celera SNP ID:            hCV26379952
SNP Position Genomic:     82116
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48143):
GTGGACATTAGCTTGTATTTTCAAATAATAAAGTCAAACTTTATTATTAAGGAAGATACAAGAATTAGGGCTAGTAAGTGTGTGTGTGTGTGTGTGTGTG
T
CTGTGTGTCTTTCTATGTGTAAATGTCCATCCCCAGGGATTAAGAAGTCTGGATTTGGGTTAAACTTAATCATTTCTAAGAATCTGAGGTTTTCAGTCCT
Celera SNP ID:            hCV26379953
SNP Position Genomic:     79576
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48144):
AGTGGACATTAGCTTGTATTTTCAAATAATAAAGTCAAACTTTATTATTAAGGAAGATACAAGAATTAGGGCTAGTAAGTGTGTGTGTGTGTGTGTGTGT
G
TCTGTGTGTCTTTCTATGTGTAAATGTCCATCCCCAGGGATTAAGAAGTCTGGATTTGGGTTAAACTTAATCATTTCTAAGAATCTGAGGTTTTCAGTCC
Celera SNP ID:            hCV26379954
SNP Position Genomic:     79575
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48145):
GTACAGATTTTTCTTTTAATGGAGGTTTTCATTCTCTGAGATGAATTCGCCCAAAAGTGCAATGTCTGGGTTATATAATTGCATGTGTTGTTTTATTTTT
W
AAAAAAACATTGCTAAACTGTTTTCCAGAGCGGCTATACCATTTTACATTCTATTGAAGAGTTTTGAGCAGTAAGGTGATGCAATCCTATTCATGTTTTA
Celera SNP ID:            hCV26379955
SNP Position Genomic:     339003
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48146):
TAACATGTATAAAGTAATGGGTATTTTTCTAGTAGGGTTAACACACTTACTCAGGTTTATTCTTCTAACTTGCCTGCATCCAAACATTTTTTTTTTTTTT
T
CAAGATAAAACCAGCCTGTCAAACTGTGCAGTTGACATTACTTGGTAGGATGCAGAAAATATCTGAATTAGAAATGGGCCCATACAGGTTCCAGTGGGAA
Celera SNP ID:            hCV26379956
SNP Position Genomic:     68224
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,7)   total(-,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48147):
GAAAGGTCAGTGCCTGTGAACAGTGATGGAAGGTGTGTAAAGGAGGAGGCAGGGTTTAGCACAAGGGGTAACTAAATCTTAACTTCTGGGATACTGGGTG
G
TGGTGGGGTTACTATTTCCAATTTATAGCAAGATGTAAGTGATATCAGCTGGAGGACAACTTTACTGGTCTATGTGGGTGTATTAGTCGGTTCTCAAGCT
Celera SNP ID:            hCV26379957
SNP Position Genomic:     66335
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48148):
TCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTGGGAAATTTAGCCAAG
G
TGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGCCAGGCAAGGCCTTT
Celera SNP ID:            hCV26379958
SNP Position Genomic:     64041
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,10)   total(G,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48149):
ATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTGGGAAATTTAGCCA
A
GGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGCCAGGCAAGGCCT
Celera SNP ID:            hCV26379959
SNP Position Genomic:     64039
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48150):
GATGGAAGAACATCGCTCGACCTCTGCAGTGGGAATAAGGCACATTTTATGAGGATGTGTAAGCGGTTCCTGCTGGATTTATGGACTACCTATTCCCAGT
R
TTATGTGGCCAGAGTGGTTAAATCAAACTCCAGACAGACAACAACTCGTTCTGCTTCAGATAGTGTTTTCACCAATCTTTTGCAATATTTATAGACTAGG
Celera SNP ID:            hCV12111930
SNP Position Genomic:     975677
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48151):
GAGAGAACAGATTGGGAATCAGAGGTACTTGAGTTCAGATTCCAGCTCCATTGCTCATTAGCTCTGTGGCATGGGGAAATCAGTGAACCCTTTACTGCTG
W
GTTATTTGTAAAATGACTGTGATTGCTGACTGATTATGTCAGGCTATACAATCATTTCTTTGGTTGCAAGCCATGGAAACCAAACCTTATGAAGAGAAGA
Celera SNP ID:            hCV7624650
SNP Position Genomic:     1088778
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48152):
TGGCCATTTTTGGAAAATGCTATAGAGCCAAAGTCTGCATGAAGAGAGAACAGATTGGGAATCAGAGGTACTTGAGTTCAGATTCCAGCTCCATTGCTCA
Y
TAGCTCTGTGGCATGGGGAAATCAGTGAACCCTTTACTGCTGAGTTATTTGTAAAATGACTGTGATTGCTGACTGATTATGTCAGGCTATACAATCATTT
Celera SNP ID:            hCV7624653
SNP Position Genomic:     1088735
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48153):
AATATTAGCATGGCCATTTTTGGAAAATGCTATAGAGCCAAAGTCTGCATGAAGAGAGAACAGATTGGGAATCAGAGGTACTTGAGTTCAGATTCCAGCT
Y
CATTGCTCATTAGCTCTGTGGCATGGGGAAATCAGTGAACCCTTTACTGCTGAGTTATTTGTAAAATGACTGTGATTGCTGACTGATTATGTCAGGCTAT
Celera SNP ID:            hCV7624654
SNP Position Genomic:     1088725
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48154):
CTAGAAATTTATTTGCACAGATCCCTTGCGGACACGTGCAGTTGTTTCTGAAAGTAGATGCCAAGGAGGCGAAGGCATTGTTTTTACTCTTTGCTGCCCA
R
TGGTCCTTGACAATGGATATACCAGTTTCCCTTTATATCAGCTGCATGGGAGGGAGACCCATTATCTGACACCCTTATCAATCATTGACATAATCCAACA
Celera SNP ID:            hCV8875250
SNP Position Genomic:     867213
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48155):
GAACGAGAGGAGCGTCAGAAATATTAGCATGGCCATTTTTGGAAAATGCTATAGAGCCAAAGTCTGCATGAAGAGAGAACAGATTGGGAATCAGAGGTAC
Y
TGAGTTCAGATTCCAGCTCCATTGCTCATTAGCTCTGTGGCATGGGGAAATCAGTGAACCCTTTACTGCTGAGTTATTTGTAAAATGACTGTGATTGCTG
Celera SNP ID:            hCV7624655
SNP Position Genomic:     1088706
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48156):
CTCCTTATAGAGTTGTTCTATGCACTTATAAACTGTACCTGTAAAACATGTGAATAAAGTATTGTGGCATGTTCTGTGTGTAAGCATGTTCACAAAAATG
R
TATCACTATCCCCCTGTGGGTAAGGAAAGTTAAAACGTGCCACATTTCACATCAGTTTCTGTATACTTCAAGTTGCTACCTAGACCACTGTTTGAGAACG
Celera SNP ID:            hCV8875251
SNP Position Genomic:     866710
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   ;(A,-|G,-)   Caucasian(A,11|G,71)   African-American(A,10|G,72)   Asians(A,7|G,77)   total(G,220|A,28)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48157):
ATGAGGCCAACATCTTTCCCGATGACCATGCCAAATCCCAATCCCCTCTCTTCTTCTCCAGATTTAACCACCATTACCAGGGAGAAGTTCTCCTTATAGA
S
TTGTTCTATGCACTTATAAACTGTACCTGTAAAACATGTGAATAAAGTATTGTGGCATGTTCTGTGTGTAAGCATGTTCACAAAAATGGTATCACTATCC
Celera SNP ID:            hCV8875252
SNP Position Genomic:     866621
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48158):
GCAGGGAGAGTGGCAGAGACAGCAGGCTGCTGCCATGGCCTCAATCCCAGCCACTTAAGTTGGCTTCACCATTTTCCTGCCCATGTGTACTACAGGTTGA
Y
GGCTAGAGACACTGTGAACATCCCACTACTTGCCACTGAGGCTGAATTTTTTAAAAAAAATAATGATAGCAGAAACACCTCAGACAGTCTTTCATGCAGA
Celera SNP ID:            hCV2852520
SNP Position Genomic:     645179
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;(C,-|T,-)   (C,-|T,-)   African American (pooled) - WICGR(T,49|C,51)   Asian (pooled) - WICGR(C,20|T,64)   total(C,71|T,113)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48159):
ATCATTTAGAAACTTGTAGATTTTTCTGGCAACATCCAAGAATAAGTTATCTCACTTAGAAGAGTTTTCTGTGAAACTGAAGCTCACCACTTCAAGTGCT
R
TATCTTTCTATATATTGACTTCACTTCTAAAACATAGGTTTCCCCGATTCTTAAATAGAGTATGGGAAAGGAATTTAAGGTCATTTGAGGTAATCATTCT
Celera SNP ID:            hCV7624658
SNP Position Genomic:     1087262
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48160):
GTCAACTTTTATTGCTTCACTTAAAATCTGCCACCTTCCACCTTCATGTCCTGAATCCTTTATCTAGAAAATGTGTAATTTTCCAAGAAGGCCTCAGACC
Y
AGTGGTCCAGTTACTGTCTGTTTTTGCTGACTAACTCTTGAAATAAGAATTTTTTTAAAAGCTGGTAGTAGGGATGAAGGGGGTTAAGTGACAGTTCTCC
Celera SNP ID:            hCV29090530
SNP Position Genomic:     347397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48161):
ATAGGTGGATTCATTGGTACCTGTCTTCTTAAAAGAAGAAAGGCAGGATAATCAATGAGAGGTTTTCTCACTCATGGTTATGACCTTGCATTTGGATGGA
M
AGTCATCTACAAATATGTTTTCACCTTCTCAGGGCAGGCTGAACAAAGCCTGTCTGAAGGTTGTCAGATAACTATGTTCTCCAAAGTATGGGGAGTTTAT
Celera SNP ID:            hCV26216878
SNP Position Genomic:     658594
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48162):
GAGTTGAACTCCAACAATCATTTAAAAACTTTTGTTTCCAATCATTTAGAAACTTGTAGATTTTTCTGGCAACATCCAAGAATAAGTTATCTCACTTAGA
W
GAGTTTTCTGTGAAACTGAAGCTCACCACTTCAAGTGCTATATCTTTCTATATATTGACTTCACTTCTAAAACATAGGTTTCCCCGATTCTTAAATAGAG
Celera SNP ID:            hCV7624659
SNP Position Genomic:     1087222
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;(A,-|T,-)   (A,-|T,-)   Caucasian(T,84)   African-American(A,15|T,69)   Asians(A,5|T,79)   total(A,20|T,232)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48163):
TTGCCACAGGGAAACATTATACCAATTGGCCTATAGCTTGAAATTACAGCATTCTCTATATTCGTCCAGCTTTAGGGAAATGCAGACCACAAGGGTCCTG
S
CTACCGTTCTGCTTGCTGGTGGTTCAGGTTTTGTGAACTTATACAAGGGCTTGGTATTTGAATGCTATCTTAATGAGAATAAGCTTTTTTGTTGTGTACA
Celera SNP ID:            hCV29090531
SNP Position Genomic:     160343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48164):
GGCTTCACCATTTTCCTGCCCATGTGTACTACAGGTTGACGGCTAGAGACACTGTGAACATCCCACTACTTGCCACTGAGGCTGAATTTTTTAAAAAAAA
W
AATGATAGCAGAAACACCTCAGACAGTCTTTCATGCAGAGACTCAATTTAACACTTCAGAAAATTTTTGTTCTTATGTCAAGATCCTAAAGTTCCTAGAT
Celera SNP ID:            hCV2852523
SNP Position Genomic:     645240
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,3)      total(A,3|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48165):
TATCAAAGGTTGATTTCAGACCACCACAATCAAAGGAATATCACAATGAAGTGAGTCACATGATTTTTTTTTTTGCTTTTCCAGTACATATAGAAGCTCC
R
TTTATACTATACTGCAATGTAGTAAGTATGCAATAGTTTCATGTCTGAAAAATGTACATACCTTAATTAAAAATACGTTATAACTAAGAAAGTGCTAACA
Celera SNP ID:            hCV26216879
SNP Position Genomic:     661223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48166):
ATCCATTTTGCCCATGATTTCAGGTACACAGGTGATTTCGCCAAACAAAACAAGCACAGCTGAAATCTGTGACTTAAATCAAGCAACGGTGTCTGCAATA
S
TCTCATTGCAGAGACTTCTGCTCCCTTGTTGCTTGTAGGAATGGGGGTGGGGAAAGGTCAGGACTATATATTTAAGAAAAAAACCCCACATATGTCGACC
Celera SNP ID:            hCV29090532
SNP Position Genomic:     159132
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48167):
TTAGGGATGGTGACTTCCAGAAGCTGACTGTGATAACCTTTCCTCGGGCTTCAGAAGAGGCTAATGGAGAGTTGAAGGGAGAAATCAGGAAAGATGGTCT
S
CCCTCAATATTCTGACATGGGTTAATAAGGAGGCACTGGTTCTTAAATTGGGATCTCGATGATGCTGGACTAGCAGCAGCAATATCACCTGAGAACTTGC
Celera SNP ID:            hCV15949640
SNP Position Genomic:     70806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48168):
TAGTAGAGACGGGGTTTTTACCACATTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCAACCCACCTCAGCCTCCCAAAGTTCTGGGATTACAT
R
CAGAAGTCACTCTCACACACATACTCATATTTGCCTTACCATTTGTGCAGGAAATCAATACCATTACTACCCAAGACCAAAGGTTTCACTGGATTTAAGC
Celera SNP ID:            hCV2852525
SNP Position Genomic:     647561
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48169):
TATTTAGAATCTCTGAGCAGCTCAGACTCAGTTTTTTTTGTAATGCCAGCATATAGGTCAAATGTGAATTCCTTACAATTTTTTCTGAATGGGAAGTTTA
R
GGAACGACTCCAATGTTCCTGTAGTCGCTGTAAGTCGTTTAGGTGTGCTATAGGATGAAAAGAAGAATAATGAAACTGTGGTATATGCATGCCGTGGGAT
Celera SNP ID:            hCV15949641
SNP Position Genomic:     182555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48170):
TTCTTGTTCCCTTGGGACAAGAGAAATCTGAACTCAGTTGTGCAAAAAAGAGGGTCTGGGAATGAACCAAGAGGGATGGTCAGTGGCTCCAAGGGGCGGA
K
TGGGAGAAGGCAAAGGAGAGGGGCCAGGAGAGAATGCCAGGAAAAACCAGAAGAAAGATTTAAACAAACCTCATAATTTACCTGTAACCGACAGCTCTCC
Celera SNP ID:            hCV29090533
SNP Position Genomic:     158576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48171):
TATTTGCCTTACCATTTGTGCAGGAAATCAATACCATTACTACCCAAGACCAAAGGTTTCACTGGATTTAAGCACTGACATGAGGCCAAGACCATAGCTC
S
TTCCATGGATATATGGTCCACTTTAATTTTTATGAATTCTACCCTAAGAAGGGGGAAATGTTAATTGAAATTGTAGCCATTGTTAACATTGAATTTATCA
Celera SNP ID:            hCV2852526
SNP Position Genomic:     647689
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48172):
GTTTTTTTTGTAATGCCAGCATATAGGTCAAATGTGAATTCCTTACAATTTTTTCTGAATGGGAAGTTTAGGGAACGACTCCAATGTTCCTGTAGTCGCT
S
TAAGTCGTTTAGGTGTGCTATAGGATGAAAAGAAGAATAATGAAACTGTGGTATATGCATGCCGTGGGATATCATTCAGTCATACAAAAGAAGAAAGTCC
Celera SNP ID:            hCV15949642
SNP Position Genomic:     182585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48173):
GATGGGCCTTATATTTGTAGAAGACTATATTGGGATAAAAAGTTATGGTTAGGCAGGATGCCCTAATCCAAATGTGATAGCAATACAATTGCTATTGTCA
R
TCATCAAAACCAGCAGGCATGTTTTTGTTGGTGCTTATAATTATGCTCTTTGTAAATTAAATTTTAATTGCCAAAGCAATACATTCACCTTGTAAAAATA
Celera SNP ID:            hCV8875259
SNP Position Genomic:     866405
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48174):
AGCAAACCTGGGACATGGGGCTGAGCCAGCAGAATCATTAGCAGTCAGGCTGTGTGAATTTTTTTGTGGTAAGAGAGATAAATGTCCCTCTTGTTCTTTG
Y
GGTTTCCTTTGCCATAAGAGCCACTGCTTTGTGAAAGTTCTTCTTTCCTTTCTCTGGCTTGCCCATCCCTGGATTGATGTAGTAGCCAGCAGCAAGGACA
Celera SNP ID:            hCV29090534
SNP Position Genomic:     152280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48175):
GAGGCTTATGAAGTACACTTTTCTTCTGGAATCCTCTCTTTTCCCCACCTCTCAGGGCTTCTTGGTGAGGTCCACACTCTTCACTCACCATTCCTGGTCT
S
AAGTCGGGATGTCTTGTCCTAACTATCAATGACCCACAGTTACCTCTACCTCTCAGCTGAGCCCTCAGCCTATTTTCTTTTTTTCTACTCATGTTCTGAT
Celera SNP ID:            hCV2852527
SNP Position Genomic:     648209
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48176):
CGTGATTATAGGCTTAACCATCTGGTTATCAGGAAAAAAAACCATGTAGAGAGCGCACGAGAGCCCAGAATCAGTAGCTGGGCCTCCTGGTGTGGAAAGG
W
TAGAACTCAAATCTCATCGAGGGATGGAAGTCTGGATACACTCCTTTCATCTCTCAGAATCAGCTCCAGGCTGGCCCAAAACAAATGATACAGAGGCTGA
Celera SNP ID:            hCV29090535
SNP Position Genomic:     152070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48177):
CTAGGGATATGAAGATACAAAGATGCAGTCTGTTGGCAGAATAAAATTCTTAAACAGATCTTAGAATAGTGTGAGTTGTTCCTGGAAGGTACAGAGTGCC
R
TGGGAACTCAGAGAACAGATTCCCACCCCAGTAAGAATTCTGGGATCACTCCACCCCAAAAGAATGAGGGTTATGTTGTCCTTAGTGGGAGGTGGTAGTT
Celera SNP ID:            hCV2852528
SNP Position Genomic:     650887
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   African American (pooled) - WICGR(G,35|A,65)   Asian (pooled) - WICGR(A,27|G,57)   Caucasian (pooled) - WICGR(A,48|G,48)   total(G,140|A,140) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48178):
GTTGCTTCAGTGGCCATCAGGATGACCTGGGAGTAACCTAATTTTACGTGATTATAGGCTTAACCATCTGGTTATCAGGAAAAAAAACCATGTAGAGAGC
R
CACGAGAGCCCAGAATCAGTAGCTGGGCCTCCTGGTGTGGAAAGGATAGAACTCAAATCTCATCGAGGGATGGAAGTCTGGATACACTCCTTTCATCTCT
Celera SNP ID:            hCV29090536
SNP Position Genomic:     152024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48179):
CTCTGGCCACCTTCCCTTCTCCTAGCCTTGCTCCTCACCAGGTAATCCTAGACATATGGACAGCTCACTATCAAGAGGAGGATTGGTCCACTGGAGAACC
R
TTAATCCCTTCTGCACTTTGGGGATGATCTCATCTGATTTGTCTGTCCTGCTTCCTCAAAGCCCCTAAAATGCATTTCTATGCTAAGTTAAACAGAATTG
Celera SNP ID:            hCV2852529
SNP Position Genomic:     651172
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(T,21|C,63)   African-American(T,23|C,61)   Asians(C,26|T,56)   total(C,150|T,100)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48180):
GCAGCACTCATGTATACCAGCTGCAATATGGTAGGAAACCTGCCCCTGCCCACACAGGCTAGGCAGAGGTGTGTGAGAAAAAGGGAACTGGTGAGAGGGA
R
GGGAACATGCTGGATTTCAGAGCAAGGTCTCTCAACCTGAGGTGGCCTGGGTATGAGACATGCTACGCAGAAAAAAACCTAGAAATAACTGAGATTAAAA
Celera SNP ID:            hCV29090537
SNP Position Genomic:     151505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48181):
GAAGTGTTCAGTAAATATTTACTGGCATACTACCGGAGCTGCTGGCCTTTGGGAATGGAAGCATACTGGGGGTCCGTGTGCACTAAAATGGCAAAGAAAA
Y
CTAGGGGATGTGGATGGTGCAGGGACAGCATCTACTGCAGCACTCATGTATACCAGCTGCAATATGGTAGGAAACCTGCCCCTGCCCACACAGGCTAGGC
Celera SNP ID:            hCV29090538
SNP Position Genomic:     151368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48182):
TATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTGGGAAATTTAGCC
A
AGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGCCAGGCAAGGCC
Celera SNP ID:            hCV26379960
SNP Position Genomic:     64038
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48183):
CTTAAGTTTGCTTCCCCAGAAGAAGGTCCTGGGATGAGAATTTGTGTTAAAGTGATGTATCGGAAAGGTTGCTAGGAAAAACGTATAGGGAAGTGGGAAC
Y
GAGTTTGGCAAGAGGGAGACTGAGCAAGGGTGTCATCTCAAGCGAAGTTCCATTGAGATAACTTTGGCCTCATCTTCCAGGGAGACTGGGAATGATGTGA
Celera SNP ID:            hCV29090539
SNP Position Genomic:     150801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48184):
GTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTGGGAAATTTAGC
C
AAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGCCAGGCAAGGC
Celera SNP ID:            hCV26379961
SNP Position Genomic:     64037
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,10)   total(C,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48185):
GGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTGGGAAATTTAG
C
CAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGCCAGGCAAGG
Celera SNP ID:            hCV26379962
SNP Position Genomic:     64036
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,10)   total(C,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48186):
TGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTGGGAAATTT
A
GCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGCCAGGCAA
Celera SNP ID:            hCV26379963
SNP Position Genomic:     64034
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48187):
TTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTGGGAAATT
T
AGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGCCAGGCA
Celera SNP ID:            hCV26379964
SNP Position Genomic:     64033
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48188):
CTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTGGGAAAT
T
TAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGCCAGGC
Celera SNP ID:            hCV26379965
SNP Position Genomic:     64032
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48189):
ACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTGGGAAA
T
TTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGCCAGG
Celera SNP ID:            hCV26379966
SNP Position Genomic:     64031
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48190):
AACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTGGGAA
A
TTTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGCCAG
Celera SNP ID:            hCV26379967
SNP Position Genomic:     64030
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48191):
AACAACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTGG
G
AAATTTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTGC
Celera SNP ID:            hCV26379968
SNP Position Genomic:     64027
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48192):
AAACAACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCTG
G
GAAATTTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATTG
Celera SNP ID:            hCV26379969
SNP Position Genomic:     64026
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48193):
AATCCCCTGCAGGCTTTTCTGTTTCCTTATCTGTGGTTTACAAGCATTTTATACATATGGCTATAAAGCACTTATAATAATAGACTGGAATTAGTCATTC
M
TGCGCCTTTTGCTGCTAGCCTGTGAAATCCTTGAAGATGGGGGTCCATGCCTCATTCATTTTCTATCGTTAGCATTCATCTCCATGCCTGTAACATGGTA
Celera SNP ID:            hCV11672130
SNP Position Genomic:     120526
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48194):
AAAATAATATTCCTGCATTTGTTCAACAAACAGCCACTGAGTGTGGGAGCAGCATCCAGATGTCAGCTGGGATCTGCCTGCCTTTGAGAACTAAATAAAT
R
TGTGATAAGTTGATAAGTCCTGACTGCATGCCCCGTAGCAGCCCAGAGGCTTCCCAAGATTTCTGCAAATTCCAGAGGATTGGAGAAGGAAGCCTTGACT
Celera SNP ID:            hCV7624660
SNP Position Genomic:     1081593
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48195):
AAAATTGGAGTCAGTCTTCTCAAACCCTGCTGCTGCTTTGTCGACTAAATTTCTGTAATATTCTAAACTCTTTTTTGTCATTTCAACTATGTTCATAGTA
K
CTTTACCAGGAGTAGATTCCATCTTGAGAAATGTCTTTCTTTGCTTATCCATAAGAGCAATTCTTCATCCATTCATGTTTTATGATGAGATGGCAGGAAT
Celera SNP ID:            hCV26216880
SNP Position Genomic:     661650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48196):
TTCTCAAACCCTGCTGCTGCTTTGTCGACTAAATTTCTGTAATATTCTAAACTCTTTTTTGTCATTTCAACTATGTTCATAGTATCTTTACCAGGAGTAG
R
TTCCATCTTGAGAAATGTCTTTCTTTGCTTATCCATAAGAGCAATTCTTCATCCATTCATGTTTTATGATGAGATGGCAGGAATTCATTCACATCTTCAA
Celera SNP ID:            hCV26216881
SNP Position Genomic:     661666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48197):
ACCTTAGAGGAGATATTTTCCTGATAAACAGCATTTAGTCATTTAGTCATTAAATTAGCTCTTTTAAAATTGTATTATTTTTAAAGGCATCTTTTTATTT
T
ATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTGAGACAGAATCTCACTATGTCACCAGGCTGGAGTGCAGTGG
Celera SNP ID:            hCV26216882
SNP Position Genomic:     567392
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48198):
ACTGAATATTTAGCTTGTTCTTTTAGTCCCCTCCAGTTTGACACTGCAAACACCAAATTTGGTCCTCTGTTATTTTACTTCCAGAAAATAATTTTTTAGA
R
CTAAGATTACCAAGTCACTAATATTTTTGTGGTTCTTAATGGATATATATTGCCAACTGCTTTTCAAAACTATTGTTATATTTAATACCATCAAAATATA
Celera SNP ID:            hCV11672137
SNP Position Genomic:     124917
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48199):
CCTTAGAGGAGATATTTTCCTGATAAACAGCATTTAGTCATTTAGTCATTAAATTAGCTCTTTTAAAATTGTATTATTTTTAAAGGCATCTTTTTATTTT
A
TTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTGAGACAGAATCTCACTATGTCACCAGGCTGGAGTGCAGTGGC
Celera SNP ID:            hCV26216883
SNP Position Genomic:     567393
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48200):
GATTACCAAGTCACTAATATTTTTGTGGTTCTTAATGGATATATATTGCCAACTGCTTTTCAAAACTATTGTTATATTTAATACCATCAAAATATATCCA
Y
TCACAAGTTTAATTACACTGTCTTCATCATTAGTCATAACGTTTTAAAAACATAATTGCCAGCATAAGAGGGAATCTATCTATGTCTTTCTATTTCTCTC
Celera SNP ID:            hCV11672138
SNP Position Genomic:     125022
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48201):
TAACAGAGTACTGGGAAGATAGAAGGTGGTCAAAGCATATGTATGGAATGAACACTGGAAATCAGTACACAGGGCTGGGAATGTGTGATTCTGAGCACTC
M
GTGATGGAAATAACCCTCCAGCTCCTTCACAGAACAGCCAGCAGCATCACCTGTTTTGGTGATGGTGCCTCCGGATGATGATCCGTGAGCGCACACTGGA
Celera SNP ID:            hCV650112
SNP Position Genomic:     1115426
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48202):
GTCCAGACAGATTCAAAATCAGAAGATGGGCCTTATATTTGTAGAAGACTATATTGGGATAAAAAGTTATGGTTAGGCAGGATGCCCTAATCCAAATGTG
R
TAGCAATACAATTGCTATTGTCAATCATCAAAACCAGCAGGCATGTTTTTGTTGGTGCTTATAATTATGCTCTTTGTAAATTAAATTTTAATTGCCAAAG
Celera SNP ID:            hCV8875260
SNP Position Genomic:     866381
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48203):
CTTAGAGGAGATATTTTCCTGATAAACAGCATTTAGTCATTTAGTCATTAAATTAGCTCTTTTAAAATTGTATTATTTTTAAAGGCATCTTTTTATTTTA
T
TTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTGAGACAGAATCTCACTATGTCACCAGGCTGGAGTGCAGTGGCG
Celera SNP ID:            hCV26216884
SNP Position Genomic:     567394
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48204):
TCTGTATCTTCTAAGACCTTTGGAAGAAAAAGGCAAAAATCAGCTCTCTTGAAAATGCAAATTTTGTCATCACTGGCATTCTCAGAAACACAGGGGTTCA
R
AAATATGTAGTAGCCTACCATTTATTGGGAGGAAGGAGGATTTCTAATCCCAAAACCAGGTTTCAAAACCAGATTTAAGAGTTTAAATTGGGGTGACTCC
Celera SNP ID:            hCV7624665
SNP Position Genomic:     1070561
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48205):
AAACCAGATGAATTCTATCTTTCCTTTAGGCTTCAGTGTTTTCTTTGTATGACTATTCCTGCTGCTTTGTTGAATAGACATCTGCGGCTTTGATCTCTTC
Y
GGTTAGGTCACACTTTGTGAGTCCAGACAGATTCAAAATCAGAAGATGGGCCTTATATTTGTAGAAGACTATATTGGGATAAAAAGTTATGGTTAGGCAG
Celera SNP ID:            hCV8875261
SNP Position Genomic:     866260
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48206):
TTAGAGGAGATATTTTCCTGATAAACAGCATTTAGTCATTTAGTCATTAAATTAGCTCTTTTAAAATTGTATTATTTTTAAAGGCATCTTTTTATTTTAT
T
TTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTGAGACAGAATCTCACTATGTCACCAGGCTGGAGTGCAGTGGCGT
Celera SNP ID:            hCV26216885
SNP Position Genomic:     567395
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48207):
CCATCATTGACTGGCGATGGGACATTTTATTCTGTATCTTCTAAGACCTTTGGAAGAAAAAGGCAAAAATCAGCTCTCTTGAAAATGCAAATTTTGTCAT
S
ACTGGCATTCTCAGAAACACAGGGGTTCAAAAATATGTAGTAGCCTACCATTTATTGGGAGGAAGGAGGATTTCTAATCCCAAAACCAGGTTTCAAAACC
Celera SNP ID:            hCV7624666
SNP Position Genomic:     1070531
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48208):
TAGAGGAGATATTTTCCTGATAAACAGCATTTAGTCATTTAGTCATTAAATTAGCTCTTTTAAAATTGTATTATTTTTAAAGGCATCTTTTTATTTTATT
T
TATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTGAGACAGAATCTCACTATGTCACCAGGCTGGAGTGCAGTGGCGTG
Celera SNP ID:            hCV26216886
SNP Position Genomic:     567396
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48209):
AGGGGGCTCCTTCCATGGTCAACATGGGAAGCCTTCTCCCCAACCCCAACCCCACTGAAACTTAGGAACGCACTTCCAGCTAAGTCCAACTCCTGGGCCA
M
GTCCTGCCTCGCATGAGGAAATGCACTTCTCAGGCACCACTGCTCCTCGGCTGACCGCGGCCAGACACCCTTTCATCTCCCCAGGGAATGCTCAAGTCAG
Celera SNP ID:            hCV7624667
SNP Position Genomic:     1065203
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48210):
GAGAAAAATTCTGTAATTTCAAGTAAATATTAACTACAAATCAATTCCAATAAAAATGCTGCTGTCCAATCATCTGTGTCACTGCACTTGGGAGAAAACA
W
TTTATGTTCAAGCCTCTTTAGCTGGATTAATCTCTTCAAACCTAAGTGATCCATATGAAGATCTTGTCACCGGAAATTACTTTTGATCCAATACATCTCA
Celera SNP ID:            hCV2852531
SNP Position Genomic:     653206
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48211):
GAGGAGATATTTTCCTGATAAACAGCATTTAGTCATTTAGTCATTAAATTAGCTCTTTTAAAATTGTATTATTTTTAAAGGCATCTTTTTATTTTATTTT
A
TTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTGAGACAGAATCTCACTATGTCACCAGGCTGGAGTGCAGTGGCGTGAT
Celera SNP ID:            hCV26216887
SNP Position Genomic:     567398
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48212):
CATACGGCACAGACAAAGATAACTGAATTGGATTTTCAATAAGCATAGAGTTCTAGATTTCCCTGTTCTTGAATTGTGTACCGTACCACCCAGCTGCTGT
Y
CCCAGCTAATTTTGCCAGAGCTGGATGTCAGCCAAAGCACAACTGTCTATGGCTTGGGAAGTTCTCCTTTGAGTCAGATTATTTAGTTAGCTCAGGCTGG
Celera SNP ID:            hCV29090540
SNP Position Genomic:     149056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48213):
CCATCTTCCTCTCCACCACTTACCTGGGGTTAAGCTCTCTTCCAGCCTGCACTATGACAACAGCCTCTTCAAGCCAATCTTACACCCTCTCGCCTTCCCC
S
AGGCCAGGCCGTCTCCTCCATCCCAACACCAAGGTCCCTCAAAGGAAAGACCAGTGAAGTCTCAACCCTGCTTAAAAGCCTCAGTGACAACCATTCTGCT
Celera SNP ID:            hCV2852532
SNP Position Genomic:     655447
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48214):
TCATCCATGAGGGTTGGAATCAACTTCTTCCAAACCCCTGTTAATGTTGATATTTTGGCCTCTTATCATGAACCAAGAATGTTCTTAATGGCATCTAGAA
S
AGTGAATTCTTTCCCGAAGGTTTTCAGTTTACTTTGCCCAGATCCATCAAAGAAATCATATGCCAGCTATGGCCTACAAAATGTATTTCTGTATCTCATA
Celera SNP ID:            hCV26216888
SNP Position Genomic:     661950
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48215):
TATTGTGACAAAGTGCAAAGATGCCACATGGATTCTGGATCAGTCAGACCTGGGTTGGAATCCTGATTCTGCCAGTACACCTTTCTGCCTGGTTAGCTTG
R
AACAAAGCAGTTAATCTATTGAGCTTCATTATCTCTCTCCTGAGGCTCTTGTGAGGACTAAATGAGACAATACCTAATGCTTCATACAGAGACAGTGGTC
Celera SNP ID:            hCV29090541
SNP Position Genomic:     145549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48216):
CACCACTTACCTGGGGTTAAGCTCTCTTCCAGCCTGCACTATGACAACAGCCTCTTCAAGCCAATCTTACACCCTCTCGCCTTCCCCCAGGCCAGGCCGT
Y
TCCTCCATCCCAACACCAAGGTCCCTCAAAGGAAAGACCAGTGAAGTCTCAACCCTGCTTAAAAGCCTCAGTGACAACCATTCTGCTGGGTGGGATTGCT
Celera SNP ID:            hCV2852533
SNP Position Genomic:     655460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48217):
CCATGAGGGTTGGAATCAACTTCTTCCAAACCCCTGTTAATGTTGATATTTTGGCCTCTTATCATGAACCAAGAATGTTCTTAATGGCATCTAGAAGAGT
R
AATTCTTTCCCGAAGGTTTTCAGTTTACTTTGCCCAGATCCATCAAAGAAATCATATGCCAGCTATGGCCTACAAAATGTATTTCTGTATCTCATAAGCT
Celera SNP ID:            hCV26216889
SNP Position Genomic:     661954
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48218):
CCACTTACCTGGGGTTAAGCTCTCTTCCAGCCTGCACTATGACAACAGCCTCTTCAAGCCAATCTTACACCCTCTCGCCTTCCCCCAGGCCAGGCCGTCT
Y
CTCCATCCCAACACCAAGGTCCCTCAAAGGAAAGACCAGTGAAGTCTCAACCCTGCTTAAAAGCCTCAGTGACAACCATTCTGCTGGGTGGGATTGCTGG
Celera SNP ID:            hCV2852534
SNP Position Genomic:     655462
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48219):
TCCTCACCACCTCACTTCTGTTTCCAGAAGCCCAACATGAAAATCACTCTTCTGAAATAAGTCCTGGAGTCTTCTTTAGGCTTCTGCTAAAAAGTCTTAT
K
CGTGAGATGTCTAGCGTAACTTCTTTTTTTAAGTCAAGGAAAATGTGTAGAATTTAGGTCAAGATGCACTGAGAATAATTTGCAAAACCCGTAAATCCGT
Celera SNP ID:            hCV29090542
SNP Position Genomic:     145220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48220):
TCCAGCCTGCACTATGACAACAGCCTCTTCAAGCCAATCTTACACCCTCTCGCCTTCCCCCAGGCCAGGCCGTCTCCTCCATCCCAACACCAAGGTCCCT
S
AAAGGAAAGACCAGTGAAGTCTCAACCCTGCTTAAAAGCCTCAGTGACAACCATTCTGCTGGGTGGGATTGCTGGCAGGAAGGTGGCCTTAGGGAAAGGC
Celera SNP ID:            hCV2852535
SNP Position Genomic:     655487
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48221):
CACACTTGTTAATCAGCCTGTCAGGCTGGCGGCCGTGTCCTTCGGCAAAAGAAAATGACGGCCCAACTTGAGACTTTCAACCAGGAACCTGGGATGTTTT
Y
TTCCCCCTTTGGAGGAGCTGCTGCTAGTTCATCTGGCTCAGGGAGTGACAGGGTGATTATAATTTATTTTGTCACTCAGGAGAGTATTGTGACGGGGGAA
Celera SNP ID:            hCV8875268
SNP Position Genomic:     863591
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48222):
ATTGAGGTGCCCTAAGAACGGGCTGCCCCCAAAATATTTTCCTCACCACCTCACTTCTGTTTCCAGAAGCCCAACATGAAAATCACTCTTCTGAAATAAG
K
CCTGGAGTCTTCTTTAGGCTTCTGCTAAAAAGTCTTATTCGTGAGATGTCTAGCGTAACTTCTTTTTTTAAGTCAAGGAAAATGTGTAGAATTTAGGTCA
Celera SNP ID:            hCV29090543
SNP Position Genomic:     145181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48223):
ACAACAGCCTCTTCAAGCCAATCTTACACCCTCTCGCCTTCCCCCAGGCCAGGCCGTCTCCTCCATCCCAACACCAAGGTCCCTCAAAGGAAAGACCAGT
S
AAGTCTCAACCCTGCTTAAAAGCCTCAGTGACAACCATTCTGCTGGGTGGGATTGCTGGCAGGAAGGTGGCCTTAGGGAAAGGCTGGTTTCAGCCAAGGC
Celera SNP ID:            hCV2852536
SNP Position Genomic:     655503
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48224):
AGTATCTAGGCTTGTCTAAGGGAAGAAAGGAATTGTTTCCTAACAAGATTTTAAGTAACTCCTGTTTCTGTAGATCCTGAGAGTGAGTCCTAGAAGCAGT
R
TGTCTTAAACCCTAAGTGGTTGGGTCCCACAAGCTATTTCCCTCGTCATGATTGCACTCAGCAGTGGGTCCTCACAGAACTGAGTTCTAAATTGTGAGAG
Celera SNP ID:            hCV8875269
SNP Position Genomic:     861160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48225):
TCACTTCTCATAAAATCATCTCTCATAGTTATGTGAGTTCAGAATGCACGTCTATGCTACCCCAAAGTCCAAGCTTAATAGAGAAATCTACAGCAACTCT
K
TATATTCTGGAGAGGTTTTATTACTAAGCTTAAGAATTGAGGTGCCCTAAGAACGGGCTGCCCCCAAAATATTTTCCTCACCACCTCACTTCTGTTTCCA
Celera SNP ID:            hCV29090544
SNP Position Genomic:     145045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48226):
TTGAACTTACCTTTGTGAGGTTATCTGATTAGTGTCTTTAGAGCTCTCTAAGTAATGTATTCCTTCAAGAAAGGGATTCTGTCTTTCCCCCCAGAGAAAC
Y
CCCACATGCAGCACAGAGCCTGATGTGTGAAACTTGCTGAATGAGTTGAAAATAATAAGCTAATGATTTTATAAATTCATTTAAAGGATCCTCAGCTTCT
Celera SNP ID:            hCV2852537
SNP Position Genomic:     655940
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48227):
TACATGGAATTATCCCCATTATATGAGAAGACAGAGTCTCACAGGAGTTAAATCACTTCTCATAAAATCATCTCTCATAGTTATGTGAGTTCAGAATGCA
Y
GTCTATGCTACCCCAAAGTCCAAGCTTAATAGAGAAATCTACAGCAACTCTTTATATTCTGGAGAGGTTTTATTACTAAGCTTAAGAATTGAGGTGCCCT
Celera SNP ID:            hCV29090545
SNP Position Genomic:     144993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48228):
TCGAGACCAGCCTGGCCAACATAGTAAAACCTCATCTGTGCTTAAAAAAAAAAAAAAACGTAGCCAAGCGTGGTGGCGCGCACCTGTAATCCCAGCTACT
Y
GGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAAGAAGCAAAGGTTGCAGTGAGCCGAGATTGCACCACTGCATTCTAACCTCGGCAACAGAGCGGGACT
Celera SNP ID:            hCV2852538
SNP Position Genomic:     663149
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48229):
CCAACCACCCCGTGAGCCTTCCCAGGGCTGGCGTTGATGATGCTGCTATCAATGGGGAATCTACATTGTGCACGGGTATTTATGATGAGAAAATCATGTG
R
CATAAAAGAGAATAATTGCCTTCATAAGTGTATAATTTTTTATACTATAAGCTTCTCAATGAAAAAGCATTCTAAGGGAGGCATAATTGCTAATTTTCGG
Celera SNP ID:            hCV29090546
SNP Position Genomic:     144622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48230):
TCAGTGCCCAGCTCTAAAAGTCTTAAATGGAAATTGATTCCCTACTCCTTCTATTTTAACTGTCAAAATCATAGACTGCATTGTTTCCAACTGAAAATCC
R
CTGACAGCTCCCCACCAACCACCCCGTGAGCCTTCCCAGGGCTGGCGTTGATGATGCTGCTATCAATGGGGAATCTACATTGTGCACGGGTATTTATGAT
Celera SNP ID:            hCV29090547
SNP Position Genomic:     144507
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48231):
GGTGTAAAGCCTCCTCATCTTTAGCTCAATTCAACAAGTTTCCATTCAGTGCCCAGCTCTAAAAGTCTTAAATGGAAATTGATTCCCTACTCCTTCTATT
K
TAACTGTCAAAATCATAGACTGCATTGTTTCCAACTGAAAATCCGCTGACAGCTCCCCACCAACCACCCCGTGAGCCTTCCCAGGGCTGGCGTTGATGAT
Celera SNP ID:            hCV29090548
SNP Position Genomic:     144462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48232):
CAAACAACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGCT
G
GGAAATTTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACATT
Celera SNP ID:            hCV26379970
SNP Position Genomic:     64025
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48233):
TCTGGTGTAAAGCCTCCTCATCTTTAGCTCAATTCAACAAGTTTCCATTCAGTGCCCAGCTCTAAAAGTCTTAAATGGAAATTGATTCCCTACTCCTTCT
R
TTTTAACTGTCAAAATCATAGACTGCATTGTTTCCAACTGAAAATCCGCTGACAGCTCCCCACCAACCACCCCGTGAGCCTTCCCAGGGCTGGCGTTGAT
Celera SNP ID:            hCV29090549
SNP Position Genomic:     144459
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48234):
ACAAACAACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAATGTGTAGTATTCTTGGAGC
T
GGGAAATTTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAATAACTCAGTGCGCAGACAT
Celera SNP ID:            hCV26379971
SNP Position Genomic:     64024
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48235):
AGGAAGATAAGGGTGGAGGACAAACAACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTAA
T
GTGTAGTATTCTTGGAGCTGGGAAATTTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCAA
Celera SNP ID:            hCV26379972
SNP Position Genomic:     64005
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48236):
GTAAGTATATGAATGATGCGTGAATTAATGAACAAACTTCTCCCTGTTGCCACATTCCAGGAATAGCCCATGGATTTGCAAAGAGAGGCAAAAAATGGCA
W
CTACCAGCTGCTTCCTCTTCTTAGGAGTCTCCAACAGAGCCTAATAACATGGGGAAGCATTACTAAATTATGACTTTGTGCAAGATTATTAACTCGGAGT
Celera SNP ID:            hCV28955172
SNP Position Genomic:     945981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48237):
GAGGAAGATAAGGGTGGAGGACAAACAACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCTATTTA
A
TGTGTAGTATTCTTGGAGCTGGGAAATTTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAACCTGCA
Celera SNP ID:            hCV26379973
SNP Position Genomic:     64004
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48238):
CACACATAAATCTGCATGAGTAAGAAGAGACCCATGAAAATAAATAGTCCTACAGATGTAAGATTTGAGATAAAACATATCTTAAGTGAATAGATTGTCT
K
TGTTCTTCATGAACCTTCAACCTTCATGCCACATAGGTTTGGTGAAGAACGTTTTTGATGTCTGTTACCCACATGGAGGGTTTCTGCCTGTCTATTTTGG
Celera SNP ID:            hCV28955173
SNP Position Genomic:     945423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48239):
GAGCTGAGGAAGATAAGGGTGGAGGACAAACAACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCACCT
A
TTTAATGTGTAGTATTCTTGGAGCTGGGAAATTTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAAAC
Celera SNP ID:            hCV26379974
SNP Position Genomic:     63999
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48240):
TTGGCCAATATACATGTTGGTTATTCACACGATGGAGGCTTCATTGCCTGATACATCCCATACTGACAGTAGCAGATTTGGAACTCATGAAACCCTCATC
S
CTTCAACTTCCTGCAACACCCCAGCTCCTTCTAATAGAACCCAGTGTCTCCTTAATTCTTTATGTGATGAATACGTATTGAGTAGCTACTCTGTGTTAGT
Celera SNP ID:            hCV28955174
SNP Position Genomic:     942836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48241):
GAGAGCTGAGGAAGATAAGGGTGGAGGACAAACAACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCAC
C
TATTTAATGTGTAGTATTCTTGGAGCTGGGAAATTTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTAA
Celera SNP ID:            hCV26379975
SNP Position Genomic:     63997
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,9)   total(C,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48242):
ATTAGTTTCCTAATTCTTTTATTTTTAAAATAAAAATAAAAGATTAAATCAGATCAAACAGTTGGCCAATATACATGTTGGTTATTCACACGATGGAGGC
Y
TCATTGCCTGATACATCCCATACTGACAGTAGCAGATTTGGAACTCATGAAACCCTCATCCCTTCAACTTCCTGCAACACCCCAGCTCCTTCTAATAGAA
Celera SNP ID:            hCV28955175
SNP Position Genomic:     942775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48243):
TGAGAGCTGAGGAAGATAAGGGTGGAGGACAAACAACTTGGGTATTCTTTGAGGAAATATAAATCACATTTAAGTAGTCGCTTGAAAATGAGTAAATTCA
C
CTATTTAATGTGTAGTATTCTTGGAGCTGGGAAATTTAGCCAAGGTGGGCACCACTTGAGACAGTGTTTGCTGTGGAGCAACATGTGTGTCTGGCCGGTA
Celera SNP ID:            hCV26379976
SNP Position Genomic:     63996
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,9)   total(C,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48244):
CAGCATCTCATAAATTAGTCATGCTGGAGTCCTCTCCAGGAGTTCCTGGTGGGAGCTAAAGGGAAGGTGAACTCCTTTCTTTTAAACACTGCTATCATGT
K
AAGATCCACTGCCAGGAACTAGGAGGGCAGAGTGAAGACAGAGAAATGCAAAGACTGTATTCCGAAAAGTTAAGGAAGCAGTTCTGTGGGTAAGGATAGT
Celera SNP ID:            hCV28955176
SNP Position Genomic:     941896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48245):
ATTCTTGGAGGTGGACACAAAGTAATTGAGCTTTGCTAATGGAGATAATTAATTAGGAAACGGATGTGCTTGCTTCTGAGAAAAATATTGGAAAGATCTT
Y
TGAGAAGGCCTAGCCCTCTGCTCTTGTAATTTTCCGAAGTCTGTGCCACCCTGAGGACTGGTGCTTCCCCTGAGCCATGACCCAGCCACAGTTAGGAATT
Celera SNP ID:            hCV26379977
SNP Position Genomic:     61829
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48246):
GTGTCCACAGTCACATCGGGTCCTCTGTATCTGTGGCACGAGGGCAGACAGAGAGGTCAGTGTCCAACACCGTGGGAGGACCACAGGCTCACCTCCCTCA
R
TGGGGTCAGCATCTCATAAATTAGTCATGCTGGAGTCCTCTCCAGGAGTTCCTGGTGGGAGCTAAAGGGAAGGTGAACTCCTTTCTTTTAAACACTGCTA
Celera SNP ID:            hCV28955177
SNP Position Genomic:     941789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48247):
CAGACTCACAAAACACAATACACTATAAGGTGTACAATAGCACTGACAGATATTTTTTAAAGGTTCCTCTCATCTCACTATACTAACACAAATGTTTTCA
R
TTCTACAATCTACATTTCCCCCTCCAATTTTTCTCCTCTTTTTTGACTGCCTTGATGGTTTCAGTGGGTCCTGGTTAAGCCTGTCTTTAAGTTTCTAATC
Celera SNP ID:            hCV26379978
SNP Position Genomic:     56804
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48248):
ATGCGTAGTGTGCGGGTATCCGAAGCTGGGTGTCCACAGTCACATCGGGTCCTCTGTATCTGTGGCACGAGGGCAGACAGAGAGGTCAGTGTCCAACACC
R
TGGGAGGACCACAGGCTCACCTCCCTCAGTGGGGTCAGCATCTCATAAATTAGTCATGCTGGAGTCCTCTCCAGGAGTTCCTGGTGGGAGCTAAAGGGAA
Celera SNP ID:            hCV28955178
SNP Position Genomic:     941760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48249):
TGACCTCTGCCTTTAACACAAACACCTTGTTTAAAAAGTAGACTTGAGGGAGGGCACTTGAGTTCAGAAGCCAAAAGAAATGGGTATTGCTCTTTCCGCG
S
TAAGCAGTTCTGAACCTAGACCATATCCTTGGGAGACCAGAGCAGCTGTAAGCAGCAAACTGCCTCTTTTCTGCCTCCCTGTGAACCTGCTTCCCTGGAG
Celera SNP ID:            hCV26379979
SNP Position Genomic:     54918
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,11)   total(G,2|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48250):
CGTGGGTAGGTAGGAAAACTGGATCTGTGGTCATGCGTAGTGTGCGGGTATCCGAAGCTGGGTGTCCACAGTCACATCGGGTCCTCTGTATCTGTGGCAC
R
AGGGCAGACAGAGAGGTCAGTGTCCAACACCGTGGGAGGACCACAGGCTCACCTCCCTCAGTGGGGTCAGCATCTCATAAATTAGTCATGCTGGAGTCCT
Celera SNP ID:            hCV28955179
SNP Position Genomic:     941728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48251):
AACATACTATATACTATATACATACTATATATTATATGCATGGTGTGTGTGTGTTTATATATAAACACACTGTTTATATATATGTGTTTATATATAAACA
C
ACTGTTTATATATATGTGTTTATATATAAACACACTGTATGTATGATGCATGTATATATACATATTTTAAACAATTTCTAAGTCATACTCAAATAGAGAT
Celera SNP ID:            hCV11672142
SNP Position Genomic:     125267
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48252):
TTCCAAACCCCTGTTAATGTTGATATTTTGGCCTCTTATCATGAACCAAGAATGTTCTTAATGGCATCTAGAAGAGTGAATTCTTTCCCGAAGGTTTTCA
S
TTTACTTTGCCCAGATCCATCAAAGAAATCATATGCCAGCTATGGCCTACAAAATGTATTTCTGTATCTCATAAGCTATAGTTTTACAAAATGTCTTTTG
Celera SNP ID:            hCV26216890
SNP Position Genomic:     661977
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48253):
CAAGACACCCATGTTTTCTGTGCACCAGTTTCCTCATCTGTAAAATGAGAATGTTAATGTAACCTCCCTCTTAGGGTTGTTGTTGTAATCCATTGAGTTG
Y
TATAATGAAGTACTGTAGGCTGGTGGCTTATAAACCACAGACATCCATTTCTCACAGTTCTGGAGCTTGAAAAGTCCAATATCAACCTTCCAGTAGATTC
Celera SNP ID:            hCV7624671
SNP Position Genomic:     1054422
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48254):
CAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGTAAAACCTCATCTGTGCTTAAAAAAAAAAAAAAACGTAGCCAAGCGTGGTGGCG
Y
GCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAAGAAGCAAAGGTTGCAGTGAGCCGAGATTGCACCACTGCATTCTA
Celera SNP ID:            hCV26216891
SNP Position Genomic:     663127
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48255):
CTCAAGAATGCTCAATTCACCTTTCCCCAGGTCTCCAGCTCACACACTGCAGTCCAATTTCAAATTCTTCCGTCTCACCATGAATCTCCAGTCTTGAAGC
M
CTCTCCTTGACCCCCTCCTTGGAGGGTGATGTGGTAAATCAAGTCAGCTCTCTGTGAATGTCTCATCATTCTCCACCTGCCACAGCAATTTTGCCCCCTC
Celera SNP ID:            hCV7624672
SNP Position Genomic:     360415
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48256):
AATAGCCTTTTTTGGTAATAATATCTACTTGTAATAATATCTTTATATCCAGAGTTGTAAGCTCCTGGAGGCTGGGGATATAATTTTATTAATCATTACA
T
TTTTGTAATGTGTGTTTCAGCATTTGACACATAGCAAGTTCTCAAAAACTGTTGAATAAATAAATGAATGTAAGTGAATGAGGATAGACATGTATCTTTA
Celera SNP ID:            hCV26216892
SNP Position Genomic:     665252
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48257):
TATGACAGGCAGAATAATGACCCCAATGATATCCACATTCTAATACCTAGAAACTGCAAATATGTGACCTTGGGTGGCAAAAGGGACTTTGCAGATGTAA
Y
TAGATTAAAATTTTTGAGATTGAGAGATCATGTTGGACGATGTAAGTGGGCCCAGTATAATCACAAGGGTCCTTATCAGAAAAAGGAGGAGGCAGAAGAT
Celera SNP ID:            hCV7624673
SNP Position Genomic:     353620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48258):
TGTAATCCCAGCACTTTGGGAGGCCAAGGCAGACGGATTGCCTGAGCTCAGGAGTTCAAGACCAGCCTTGGCAACACAGTGAAACCCTGTCTCTACTAAA
W
TATAAAAAATTAGCCAGGCATGGCAGCATGCGCTGGTAGTCCCAGCTACTTGGGGGGCTGAGGCAGGAGAATTACCTGAACCTGGGAGGTGGAGGTTGCA
Celera SNP ID:            hCV26216893
SNP Position Genomic:     667941
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,6)      total(A,6|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48259):
GGATTACAATTCAGCATGAGATTTGGGCGGTGACCCAAATCCAAACCATATCAATCATTTATTTCATTCACAAGTGCGTATTCAGCACCTGTCATCCCTG
S
AGCTGTACTGATGTGAATGGAGTCACAGCCCTTGATAGGCTCACAGGACACAGGAAGCCAAATGTGCCATTGTGATAAGTCAGATATTATGTTAAATGTA
Celera SNP ID:            hCV12111957
SNP Position Genomic:     962374
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48260):
TTTAGTCAGTGCTGCTCTCCCACAGGGTGAGATCTCTCTGAGCCAGATCATTCTCGGACAGATGATGAATTTTTCTGTTCCAAACAGGGAGGTGGGAGGA
R
GAAGGGCAAAATGTTTCCCATGGATGTACCACTTTTTAAAGTTGTAATCTGGAGTACTCATCAACAACATTTAATTCATGCCTTTGGGGGAAAGAATGGC
Celera SNP ID:            hCV8875270
SNP Position Genomic:     859542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48261):
CAGTGAAACCCTGTCTCTACTAAAATATAAAAAATTAGCCAGGCATGGCAGCATGCGCTGGTAGTCCCAGCTACTTGGGGGGCTGAGGCAGGAGAATTAC
M
TGAACCTGGGAGGTGGAGGTTGCAGTGAACCAAGATGGTACTACTGTATTCCAGCCTGGGCAACAAAGTGCGACTCTGTCTCAAAAAAAAAAAAATGTAT
Celera SNP ID:            hCV26216894
SNP Position Genomic:     668017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48262):
AGGATTCCTTTAACACATGATTGGCCCTTAGTCCCCATTTCTCTGGTGTGAGTTTTCAGCTTTTGTTACCACATCAAAGCTCCGGCAATTTGTGCAGGAA
R
CCCCTTGAAGCAATCATGAACCCACTTGTACTGTAAGAGTTCTTACTTCCATGTCCTAAAAGAATAATAACCACAAAAGGATATTTCCTTGCTAATGGAC
Celera SNP ID:            hCV345787
SNP Position Genomic:     285428
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48263):
CTTTCCTAGAGCCTCCAGAAGGAGCACAGCCTGGTCAACACTGATTTGAGCCCCATAAGACTGAGCTCAGTCTTCTGACTTCCAGAACTGTAAGAGAATA
S
ATTCGTGTTGTTTGCACTTTATGGCCATTTGTTACAGGAGCAACAGGAAATTAACATACCATGTTTGGGCCAGGTGCAGTGGCTCACAGGTGAGCCTATA
Celera SNP ID:            hCV15984282
SNP Position Genomic:     1176294
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,15)      total(G,15|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48264):
ACCTGAACCTGGGAGGTGGAGGTTGCAGTGAACCAAGATGGTACTACTGTATTCCAGCCTGGGCAACAAAGTGCGACTCTGTCTCAAAAAAAAAAAAATG
T
ATATATATATATATTTATATATATATACACACACACATATAAATATATTTACATCTATCTATCTATCTATCTAGATATATACCTCATATTCTTGTGAGTG
Celera SNP ID:            hCV26216895
SNP Position Genomic:     668115
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48265):
AGTCTTTGAGTTTAGAGCCTACCCTAATCTAAAATGACCGTAACTTTGTCACATCTGCAAAGGCCTTATTTCCAAATAAGGTTGCATTCTGAGGTTCTGG
R
TGAACATGGATTTTGGGGAGGCATCATTTAACCCAGAGCAACTGTCACTAAAATTTTCCTACCAAGATCCCTTACTCTAGTTTAATTGGCCTCTTATTCA
Celera SNP ID:            hCV345788
SNP Position Genomic:     286025
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48266):
AACATATGAGAACATATATGTCCTTTGTGTAAGCAAAGCTTTTCGTAATTAGGATACAAAAGTACTAACCACAAAAGAAAAAAAAAAGATAGATTACATT
R
AAATTAAGAGCTTTGATTCTTCAAATGACACAGTTAAGAAAGTAAAAAGTAACCTACAGAGTAGAAGATATTTATAATACAAAGAAATGCTGCAGGCCTG
Celera SNP ID:            hCV15984283
SNP Position Genomic:     1141792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48267):
CCTGAACCTGGGAGGTGGAGGTTGCAGTGAACCAAGATGGTACTACTGTATTCCAGCCTGGGCAACAAAGTGCGACTCTGTCTCAAAAAAAAAAAAATGT
A
TATATATATATATTTATATATATATACACACACACATATAAATATATTTACATCTATCTATCTATCTATCTAGATATATACCTCATATTCTTGTGAGTGG
Celera SNP ID:            hCV26216896
SNP Position Genomic:     668116
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48268):
ATCCCCTGTGAAGGTGGTGAAGGGCAGATGGGAGACGGAGATATTTTAATGAAAATTGTAACCTATTTTATGAATAAAATTTATTTTTTATTACTGTAAT
T
TTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTGCACCTCCCGAGTTCAAGTGATCCT
Celera SNP ID:            hCV26216897
SNP Position Genomic:     568278
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48269):
TATTATAATGTAATAATAATAGAAATAAAGTGCACCATAAATTTAATGTGCTTGAATCATCCCCAAGTCATCCCCTCACCTCCTCCTGGTCCATGAAAAA
R
TTGTCTTCCATGGAACCAGTCCCTGGCACCAAATAGGTTTGGGACCTCTGATCAAGAGTGATAGCATTGTAATGTAACATTTTTGAAACTCAAAATTAAT
Celera SNP ID:            hCV2852541
SNP Position Genomic:     669133
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48270):
CCTGGGGTCCTAAAACATAAATTTTAACATTCCTTGCTTCTCCTTGATGATCATTCCCACATAGAAATGGAACTGCATTAATAATGATTGTTGAAAAAAT
R
AATAAATGATTGTTGAATGAATAACCGAATGAATGCCACCAGGGAAAATTATTGTCTCCATTTCATTTTAGGGCCTGAACTTTAGGAGAATAAAGTTATC
Celera SNP ID:            hCV29090550
SNP Position Genomic:     133353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48271):
GTACATCTGATAAAATAGAAAAAACAATGAATAATTGAAAAATGGGAAAAGGAACTGAATAGACATTTTTCTAAAGAAGACATAAAAATGGCCAGCAGGC
R
TATTTTTAAAATGCTCAACATCACTAATAATAGAAATGCAAATTAAAACCACAATGAGATATCACCTCATACCCGTTAATATGGCTGTTATCAAAAAGAT
Celera SNP ID:            hCV26216898
SNP Position Genomic:     676913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48272):
TGTCTTCCATGGAACCAGTCCCTGGCACCAAATAGGTTTGGGACCTCTGATCAAGAGTGATAGCATTGTAATGTAACATTTTTGAAACTCAAAATTAATG
Y
ATAGAAGTCCATGAGAAGTAAAATGTTAAAGACAGGATCAAAATCAATGCAGAAAATCCATAATGAGCAAAATATCAACATGTTTTAAAAAGAGGGCATC
Celera SNP ID:            hCV2852542
SNP Position Genomic:     669235
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48273):
CCATGTAGAATGCCCACATTGTCTCTGGTTCCCAACACCCTGAATAACTGCAGCAATACCCTTTACGATTCACATGCAGATGGGTGTAAAAGGTTCCTTG
S
CTTATATTTGCCCAGAAATGGAATTTCTGGATCACAGGTATGACAGGCAGAATAATGACCCCAATGATATCCACATTCTAATACCTAGAAACTGCAAATA
Celera SNP ID:            hCV7624679
SNP Position Genomic:     353481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48274):
CGAGGCTGTAGCGAGCAATGATCGCCCCACTGCACTCCAGGCTGGGTGAGAGAGCAAGGCCGTGTCAACACAAGACGAGACAAAATGAGATGAGACGAGA
K
GAGAAAAGAAAAAGAAAAGGGAAGAAGTGAGGGAGGGAACATCAGTGCAGGTAAAATATTATTTTTCTTAGAATGAAACCAAGCCAGCAAGAATAATAAC
Celera SNP ID:            hCV26216899
SNP Position Genomic:     679623
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48275):
ACTGAGTTTTTTGGTGCCTCCTTTGAGATGGTGCAGAAAGCAAGCTCCTCACTCATCTCCTCTAGCCCAGCCCCAATAGCTAACTCACTCTTAGCGCCTG
Y
CCTTGAGTGCTGTGTGAGCCATTGTGTTGCACCAGCTTGTTTTAAGTCCCAACAATCTTGTTCCATGGTGTCTTTTAATAATGGAAGAGCAAAGAGGTTA
Celera SNP ID:            hCV2852543
SNP Position Genomic:     669601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48276):
AATTCAAAGTTCATATCTCACTTCATCTCAAAAACAATATGCATATCTGTCCTTGGCTTCATTTTCCTCCTACCTCTTCAGACATCTCTTCTCTGGCTCT
Y
CCCCTTAACCCCTAACTGGGGGCTTTCTACCCTGTCTTTGCACACCATTTATCCTCTCTATAATGACAACTCCTAAATCTAAGAAATGGGCACATTTCCC
Celera SNP ID:            hCV29090551
SNP Position Genomic:     132402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48277):
ACTTATTACATATTTGGCTGTCAATTTGTACTTAAAAAACCAACTAGCTCCAGGGAGGCAAAGCAAAGTGGAGAGGAGAAGCGAAGCCTGTTGCATTTCA
R
TTCAAGCCTGTGGTAATTTCAGCTGCATGGAGACACTTAGGACTGTTTTTAAATGAAGTCAGCAACTGTCCCAAAATTTAAGGCATTCTCATTTTAAAGA
Celera SNP ID:            hCV8875277
SNP Position Genomic:     859267
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48278):
GAATAATAATCGGAAATGTAATGGAACTAATAGTGGATTTCTCCGGACTGTTAACTTCTGTTCAAAGAGCCCGCCAATGATGGATAGAGAGCGGCGTGCA
R
AAAGGAATCTTTCCCTGGTTCAGCTTGGGTGCACTGCCTTGTGCTGACTCTGTCCCCTCCCCTACCCACCACACCCCATGTGTCTAGAACAATCTCCTCT
Celera SNP ID:            hCV29090552
SNP Position Genomic:     131354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48279):
TGTCTTTATTTCTCTGCAAAACGAGCCGCTGCAGTGCAATCACTTGAAATGTAGGGTCTGAATGAAAATTAATGCTGTTGATGAAACCAGCAGTCTAAAA
Y
ATTACAGGATATTAGACTGAAAAGACAGTGGTATTTGCATCCTTTTGAACATTCGCCTGGATTTGCATAATGGAGATGTCACTTGTATTGCAGGAGAAAA
Celera SNP ID:            hCV2852545
SNP Position Genomic:     670199
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(T,26|C,56)   African-American(T,18|C,66)   Asians(T,12|C,66)   total(C,188|T,56) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48280):
GCAACTGTGCAGGTCACACGTTCATGAAGTCCACCTGCTCTTGAGCTTGCCTTAGACACCAGGTCTGGCCGCTGAAGTGCAGGCAAGAGTGCTGTGTGTC
R
TTTCTGACTGAAGCGTTCAATGAGTCAGCATGTGAGTTTGCAACTCTCTGCCGCTCCTGCAGCAGTCAGGAAGCTGCATGTTCAAGGTGGCCTGGCTATA
Celera SNP ID:            hCV8875278
SNP Position Genomic:     857204
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48281):
AGGATGGCCTGAGGTGCAAGAACAATGAATAGAATAATAATCGGAAATGTAATGGAACTAATAGTGGATTTCTCCGGACTGTTAACTTCTGTTCAAAGAG
Y
CCGCCAATGATGGATAGAGAGCGGCGTGCAGAAAGGAATCTTTCCCTGGTTCAGCTTGGGTGCACTGCCTTGTGCTGACTCTGTCCCCTCCCCTACCCAC
Celera SNP ID:            hCV29090553
SNP Position Genomic:     131323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48282):
GTACAGGTCTATTTCTCTATGAGACTACCCGTTGTTCAAAGCGGCAAGCTACCAACCTGATCTCATTCATCTTTGCATCCTTCATGCTGATTATAGTGAT
Y
GGCTGTTCTCAATTAATGAATGGAAGAATTAATGGATAAGTGGATAAATCACTTAATAAATCAGAAATCTTTTAGACTTTGCTGCTCTTCCTCGAAGCAT
Celera SNP ID:            hCV2852546
SNP Position Genomic:     672506
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48283):
GACGGTGCCCTGTGGTTGCAACAAATGAAAACCAACCCAGACTTTCTTTAACAAAGGGGAATTGATGAATAGATCTCTCCCCTAACAAGAGGCTGGAGAT
R
TGAGACTGGGGAGAGCAGGAGCCATGATGACTCTGGAGCCCTGAGGTCGGCCCCGGGAGCTGGCTTGTAGCAGAGGCAGTGGAGTCAGGGCACCGCCGCT
Celera SNP ID:            hCV8875279
SNP Position Genomic:     854327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48284):
GCATCTGCATTACCTGAGAACTTATTTGAAATGCAAATTCTTGGGTCCTTCCTCAGGTCCGAATCAGAAACTTTGGAGAATGGCACTACTGTTTAACGAG
M
CCTTCAAGTAATTCTGATGGCTAGAGTTTGAGGACCACTGCTTTAATGCTTACGAGAGTTGAATTAGTTGTTTAAACAGAAATCTTAGAGGCTTTGAATC
Celera SNP ID:            hCV29090554
SNP Position Genomic:     126631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48285):
ACATACAAATTTATCACATCACGTTTCATCATGCCTGCTCCCAATGGTCATGAGTTATTGAATTTGTATAGGAGAGTTAATTTGTAATGTCCTTGAGGTA
Y
CATTTTTCACTATTGGCCTATGTTGGCCACCTTTGTTTACATTTAGTTCAGAAAGCACTAATTTAAGAAGTGTCAGGTTGTAACAAAACATAAGATCAAT
Celera SNP ID:            hCV2852547
SNP Position Genomic:     673374
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48286):
ATTTATTTTTTAGTGCAGTGCTTCTCAAAGTATGGTCCCTGGACCAGCAGCATCTGCATTACCTGAGAACTTATTTGAAATGCAAATTCTTGGGTCCTTC
S
TCAGGTCCGAATCAGAAACTTTGGAGAATGGCACTACTGTTTAACGAGACCTTCAAGTAATTCTGATGGCTAGAGTTTGAGGACCACTGCTTTAATGCTT
Celera SNP ID:            hCV29090555
SNP Position Genomic:     126582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48287):
CTCATATTGCCTAGTTCTGGGCCTCCCTGTCCTCTGTCCTGTGGCCACTTTTCCATGTGGGGACTTTTGGGGCCTGATGGCTTTTTGGTACCTCTGCTGT
Y
CTGCTAGCTGCCAAGAACTCTCCATTACTCCACCTTTGATTGCTTGGGACACATTTTTAAATAAAGCAGCTTTGGGCCACAGCGACAAAAAGTGTAGAGC
Celera SNP ID:            hCV2852548
SNP Position Genomic:     673768
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48288):
ACCTATGGAATTGGAATCTACAATTAGAAGACCCTCAGGAGTATGCACGTTAAAGTTTGAGGTGTTTAAAGTTAAAGTATGCACTTTAAAGTTTGAGGTG
Y
GTTTATTCAGGTAGCTTTCCTTTCTTCTCATATAGTTTTTAGGTATAAATGAAAGGTCTGGATTATTTCACGTATTGGCAGATGTGTATTTATTTTTTAG
Celera SNP ID:            hCV29090556
SNP Position Genomic:     126394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48289):
TCTGTCCTGTGGCCACTTTTCCATGTGGGGACTTTTGGGGCCTGATGGCTTTTTGGTACCTCTGCTGTCCTGCTAGCTGCCAAGAACTCTCCATTACTCC
M
CCTTTGATTGCTTGGGACACATTTTTAAATAAAGCAGCTTTGGGCCACAGCGACAAAAAGTGTAGAGCCATCTTTTTGTTTTGCAGCCTCTATTTCTGTT
Celera SNP ID:            hCV2852549
SNP Position Genomic:     673800
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48290):
CTGGTTAGAAATTCATAATCTGTAGCCAAAACCTATGGAATTGGAATCTACAATTAGAAGACCCTCAGGAGTATGCACGTTAAAGTTTGAGGTGTTTAAA
R
TTAAAGTATGCACTTTAAAGTTTGAGGTGTGTTTATTCAGGTAGCTTTCCTTTCTTCTCATATAGTTTTTAGGTATAAATGAAAGGTCTGGATTATTTCA
Celera SNP ID:            hCV29090557
SNP Position Genomic:     126364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48291):
CCTGCCCTTAGAAGTCAATTATTTTATGATGGAGAAAAAACTGTGGTCCGTAGATCAGTAGAATCAGCATACCTGGGACCTGGTTAGAAATTCATAATCT
S
TAGCCAAAACCTATGGAATTGGAATCTACAATTAGAAGACCCTCAGGAGTATGCACGTTAAAGTTTGAGGTGTTTAAAGTTAAAGTATGCACTTTAAAGT
Celera SNP ID:            hCV29090558
SNP Position Genomic:     126285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48292):
GTGACCTCTGCCTTTAACACAAACACCTTGTTTAAAAAGTAGACTTGAGGGAGGGCACTTGAGTTCAGAAGCCAAAAGAAATGGGTATTGCTCTTTCCGC
S
CTAAGCAGTTCTGAACCTAGACCATATCCTTGGGAGACCAGAGCAGCTGTAAGCAGCAAACTGCCTCTTTTCTGCCTCCCTGTGAACCTGCTTCCCTGGA
Celera SNP ID:            hCV26379980
SNP Position Genomic:     54917
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,11)   total(G,11|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48293):
TTGGCCTGGCTTCGATAACTTACCTAACAGAGAGGTAATCTTTTCATGGGGCACCCCACACTTCACGCCACACTTAGGCAAGAAGAAATGTTCACAGTCT
Y
AGCTGATGCCAGGGAACTTTACAGCAAAGGAAACGTTGAAGCGCCTCCTGGGCTGTGTCCCTCCATCCCTGTGCCTCTGTCATCCTGTCTACAGATTCTC
Celera SNP ID:            hCV28955180
SNP Position Genomic:     939623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48294):
CAGAATGAAATGTTGTTGTACCATGATGACTGCCCTGCCCTTAGAAGTCAATTATTTTATGATGGAGAAAAAACTGTGGTCCGTAGATCAGTAGAATCAG
Y
ATACCTGGGACCTGGTTAGAAATTCATAATCTGTAGCCAAAACCTATGGAATTGGAATCTACAATTAGAAGACCCTCAGGAGTATGCACGTTAAAGTTTG
Celera SNP ID:            hCV29090559
SNP Position Genomic:     126252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48295):
ATCTTCCTTCTGCCTCAGCCTCCTGAGCAGCTGGGACCGCAGGATTGCGTGCCACCATGTATGGCTAATTTTTATAAAGTTTTCTTTTTTTTTTTTTTTT
T
TTTTTTTGTAGAGATGATGGGGTCTTCCTGTGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGCAATCTTTCCACCTTGGCCTTACAGAATGCTGGG
Celera SNP ID:            hCV26379981
SNP Position Genomic:     52055
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48296):
CCCCAATCACAAAGCCATTAAGTGGTTCTGTCAGGATTTGAATCCATAGCCTAAGTTCATCACCACATTCTTCTCCTTGTCTCAGTTTCGGTATTTCTCA
S
AAATCAAGGGACCTGGAGAGAAACAGAAACTATTTCCACAACATCAAGAATGTCACTTAGAATCAATATTGGCCTGGCTTCGATAACTTACCTAACAGAG
Celera SNP ID:            hCV28955181
SNP Position Genomic:     939454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48297):
TGGAGTGCAGTGACATGATCATGACTCACTGCCACCTCTACCTCCTGGGCTCAAATCTTCCTTCTGCCTCAGCCTCCTGAGCAGCTGGGACCGCAGGATT
K
CGTGCCACCATGTATGGCTAATTTTTATAAAGTTTTCTTTTTTTTTTTTTTTTTTTTTTTTGTAGAGATGATGGGGTCTTCCTGTGTTGCCCAGGCTGGT
Celera SNP ID:            hCV26379982
SNP Position Genomic:     52001
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,6)   total(G,6|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48298):
CAAAGTCAACAAGTGTTATTTGGCCATAGATATCTCTTAGGCCATGACAACCCACCTCCTAGTACCTTCCCAGCCTTGGGTTAACTTCATGTCAGTGCTC
R
CATTGGTGCTTCACTGTGTGCTGTGTCTTACCTTTCAAACACCCATTCTGCATCTTCTTGTTTCCTAATCTTTGCTCATGTATTCACTCAGGCTGGACAT
Celera SNP ID:            hCV28955182
SNP Position Genomic:     934320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48299):
CCACCTCTCCTCATATCTTCTTGGCGAGCTGTTGACCATATGACTAAATCTAGCTGCAAGGAAAATCAAGAGCTATTGGTCTTTCTTTGGGGGACAAATA
R
AAGTTTCTGGTAATTATTTTATGTAAAACTAATCCGAAGAAATAAGTACATTTTCCTTCCAAACATGGCAATCCTGGCAGGGTTGTGGGCACTGGAATCA
Celera SNP ID:            hCV26379983
SNP Position Genomic:     336324
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48300):
TATGATAACCATCTAGTGGGGGAGGCAAACTTGAATCGAATGATGGCACAAATAAGTGTGGAATTATAGAGTATGGTAAAAGCTAAGAAGGAAAGGCAAA
Y
AGGGCTTCAAGAGTACACAGCAGTGAGCCTGGACCCAGGGGGATGTGGGAAGCCCAGGAACCTGGATAAGTGGCTGTTGTTGTTTAATCTATTTTTTAGC
Celera SNP ID:            hCV28955183
SNP Position Genomic:     930010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48301):
TGTATATATACAGTAGTTCCCCAGTTTTCATGGGGAATAAGTTCCCAGACACCCAATGGATGCCTGAAACTATGGATTGTACCAAGCCCTACATACATTA
T
GTTTTTTTCCTGTACATACCTGTGATAAAGTTTAATTTATAAATGAGGCACAGTAAGAGATGAACAACAATTGCTCCATAAAATGGAACAATTATGACAA
Celera SNP ID:            hCV26379984
SNP Position Genomic:     36213
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48302):
GTCCCCACATTGCAGAAGAGGAGTCTCCAGCACTGAGACTGAGTAGTTCACCCAATGTCATATAGGGTGGAGTGTTAAAGTCCTAAATAAAACCCAGTCT
R
TAGGACGATTGAGTCTGTGATTTTAATCCCTGTGTAGTCTGGGTTTACATTTCCATTCAGATTCCTGCTCCAACATTTCCTATAGATGCTCCTCAACTTA
Celera SNP ID:            hCV28955184
SNP Position Genomic:     927067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48303):
TTGTATATATACAGTAGTTCCCCAGTTTTCATGGGGAATAAGTTCCCAGACACCCAATGGATGCCTGAAACTATGGATTGTACCAAGCCCTACATACATT
A
TGTTTTTTTCCTGTACATACCTGTGATAAAGTTTAATTTATAAATGAGGCACAGTAAGAGATGAACAACAATTGCTCCATAAAATGGAACAATTATGACA
Celera SNP ID:            hCV26379985
SNP Position Genomic:     36212
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48304):
CCAGCAACCCTTGGAGCTCTTTGGCTTGCAGAAGCATCCACCACTCCAGTCCTCTGTCTTTACACGGCTGTCTCCGTGTGTGTCTTCACATTGTTTTCCT
Y
GTCTGAACATCTGTCTCTGTGTCCTAATTTCTCATTTTTATAAGAACACCAATCATATTGGCTTAGGGCCCGTGCTCATGACCTCATTTTATCTTGTTTA
Celera SNP ID:            hCV28955185
SNP Position Genomic:     925570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48305):
CAGTGTGAGAGACAGAAACTTCAGCTGAGAGTTACCGTGCAAGGCAGAAAATGCTGGTCTAGCAAAAGGAACTCTGATTTCGATTTGGAAGTACAGAGAA
W
GAGCATCTGCCTTGGACAGAGTTATCAGTGAAAAGATGACATATGAGCTGAGACTGAAAATCATGTTGAAGATAGTCAAACAAAAGCTGGCAGTGTGGGA
Celera SNP ID:            hCV26379986
SNP Position Genomic:     35130
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,10)      total(A,10|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48306):
ATTTGTTGCAGCAGTTAATGTTGCTCTGCCTAACATAAGACTCTGCTCTACCACATCAGGTTTCTTCATGGGTAAAGTAAGGTCTTCTCCTATGAGAATG
Y
ATAGAGCCCTAGACAGAGCTTGCATCATAGCTTTAGAATGCAAGCCCCATGGGACAGAGGCTGTGTCTTTCTTATCCATCATTGTACCCATTCCCTAGCA
Celera SNP ID:            hCV28955186
SNP Position Genomic:     924642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48307):
ATTTGGGGGCAGACATCCTTAGGGGATGGGGCCGTGGGCAAAGATACAAATGCTGTACCATCAAAGGAACCATGGATTTAAATAAGGATTTTTTTTTTTT
T
CATATTCAGAAGAGGTGGGTACAGAAAGGATGAGGGCAGCTTCTCAGGTTATAGTATTAACCACGTGAAGCAGCTAACAAAGGTATGTGCCTGGCCTTGT
Celera SNP ID:            hCV26379987
SNP Position Genomic:     33786
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48308):
GCCGTTACAAGCATTAAATAACCTTCTTCAGGTAAAGTTCTTGCTGTTGAATCTGACATCAAATAAGCCATCAAATGTTACAACCACTACCTCCTCTTCC
K
GGCTAGCACCTATGTGAAATGAATGTACATGGCTTGACTCAGGTGATGCCTGTCTTTTGTGGCCTTTTGCGATTGGCCCCTGTCACTTAGCACAATGTTG
Celera SNP ID:            hCV28955187
SNP Position Genomic:     917306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48309):
GTAATATGGTTAGAAGCCATTTCTTACCTGTCTTCTATGAAGTGTGGGTTGTGAGCGATGCTTTCATTCAAACCTATGAGGTGCATCTTGTCATCATCCC
C
ATCTACAGATGAGAAAACTGAGTCAGAGGAAGAGTTAGGTATGTCAGTAGCAGGCATGGGCAAAGGAAGGAGAAAGTAATGATCAAGATGATAGAGGGAG
Celera SNP ID:            hCV26379988
SNP Position Genomic:     25733
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,9)   total(C,2|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48310):
AGATTAGAAGAGTTCCCATTGCACCTTGAAATTCATTTTCAAAGCATTCATTGCACTTGGGACTATTAGTTTAATGCCCAGCACCTGGAACCAGTGCTTG
R
AACATGGGAGTCCCTTAATAAAATGTTACTGGATAAATGAATATTTGTCTTCCCAGAGAGACAGTGAGCTTCCTAGAAGCCACATGCGGGCTCTTTGCTG
Celera SNP ID:            hCV28955188
SNP Position Genomic:     915224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48311):
CAATACTTAGGAGGAATTGAGTTAGAGATACATTTGTAGCTTGAAGAGTTGCTTATTTGATAAGTTATCGGAGTGTGTTTCAAAGACATTATGCCTATGT
R
AAAGTAAAGATGGAGTTGTTTATCTCTGTATCTCCTTGTCCTGTTTCTCCCAGGACTTGGCAGAACTCTTGATGGCAAGAATCAAATCTTTGTCCTACTT
Celera SNP ID:            hCV16195038
SNP Position Genomic:     779065
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,451|G,1044)   total(G,1044|A,451) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48312):
CTGAGCTCAAGCAACCCTCTTGCCTCAGTTCTGGAAATAGCTAAGTGGGACTACAGGTGTGGACCACCAGGCCCAGTTAATTAAAAAAAAAAAAAAATTT
T
AAGACAAGGTCTTGTTATGTTGCCCATGCTGGTCTCGAACTCCTGGCTTCAAGTGATCCTCCAGGAGTAGCTGGCATTACAGGCTTGGCTGACTTTTAAA
Celera SNP ID:            hCV26379989
SNP Position Genomic:     22972
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48313):
GGTATGTGTTTATCAACAGTGTGAAAACAGACTAGTACAAGCTCATACAGTGTAGAAGTCACTCCTCAAAGGTGACTTCTGTCACCACCCTCACCCCAAG
R
TTAGAAGAGTTCCCATTGCACCTTGAAATTCATTTTCAAAGCATTCATTGCACTTGGGACTATTAGTTTAATGCCCAGCACCTGGAACCAGTGCTTGGAA
Celera SNP ID:            hCV28955189
SNP Position Genomic:     915126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48314):
GTAAAAGGTTTCTTGCATCCATTTAACTATTGTAAATGAATAACCATGTGACCCTCAAGAAGATTCCAAGCCAAATTCCATTGGTTTCTAAGGTCTTAGG
K
TTGCTTGCTTTTGGCAAAGAGTGTACTTATCTTTTCATGCATGCCTTTAAAGAGACCATATTTTTTCTCTGATAAAGTCAATTATCAGTGTATGTGCTGC
Celera SNP ID:            hCV16195039
SNP Position Genomic:     755731
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,105|T,1395)   total(G,105|T,1395) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48315):
AATCCTGTTAAAGACCTGCCCTCACTGAACTGTGCCCCTCCACCTGGAGGCTGCAGCGGGTCAAGGATGGCTTCACTGAAGGGATGATATTTGAACAAGA
V
TTATTTTTATTTCTTTTTATTCTTCTATCCCATGACATTTCCTTTTCTAGTCTCCTAGGCAGCCATCAACAAGGTGCACAAATATGTCTTTTTGCTTATA
Celera SNP ID:            hCV7624680
SNP Position Genomic:     352739
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(C,5|G,55)   Chinese(A,0|G,20)   Japanese(C,2|G,38)   African(C,11|G,49)      total(G,162|C,18) ;(C,-|G,-)   Caucasian(G,5|G,6|C,55|C,76)   African-American(G,11|G,15|C,49|C,69)   Asians(G,2|G,3|C,58|C,77)   total(G,42|C,384)
SNP Type:                 INTRON


Context             (SEQ ID NO:48316):
TGCCATAAGCTTATTTGTATTTCACAGCGACTTGCACAGATGTGCCAGATATGTACAGATGGATTTTTATCAGAAGAGAGTCTACCCAAGTGAAGCAGTG
K
AGGGTGAGGCTAAATCCCAAAATTGAAATTTGGGGACACTGATTAGGCACAGAGCAGGACCAGGGGTTAAAACCATGTGGGAAACAGATCAATAGAATGG
Celera SNP ID:            hCV7624681
SNP Position Genomic:     351136
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48317):
ACAAAGTAGGTGTTATTTGTATTATTATTGCTGTTGTTGTTGTTAGAATACATATTCCTCATTTACAGACAAGTACACAGGCTAAGCATGACTGCAACTT
Y
TGAATTGTCATGCAGCTCAGAACTGGGGGATCTAGAAACTGAATTCAGCAGCTGATTATTTGGTTCCCAATACCATGGTCTTGCTACTTACCTACTAGAA
Celera SNP ID:            hCV11672156
SNP Position Genomic:     143256
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48318):
ACCACAAGAACGTGCAAAGCAGAAACAAAGAGCACTTGGCACCCAAGTCTTATAGAGGCTCATTTCTGATATCTTCTAGGGAACTTCTTTGTATAAGGAC
R
TCATAGAGAAGGTTTGTCTTTCATTTGTCTGTAGCAAGGTCGTAATTTTTTTTAATCTTTAAAAAAAATTATTGTTAATACAAATAAGTCTATTGTGATT
Celera SNP ID:            hCV7624683
SNP Position Genomic:     339789
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48319):
AGTCACAGACATGTAACCTTCCCCATGCCTTCTGGGGTCCTTGCTCTAATTTGGGAGATACAACACATAGAGAAAAAGGTACATGAGGCAGCCTTGCCAC
Y
GGAAGAAAATGGCACTCAAATTCCCAGCTGTCATCTGGGAAAGGTCAATTGTTTTCTTTACAAAGCCACCTTCATAGCAAGACTTTATCCATGTCAGCAG
Celera SNP ID:            hCV2852550
SNP Position Genomic:     674755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48320):
TGTAAATTTTAAGTTTTATAGTAGCCAAGTTTGCAAAAGGAATAAGAAACTGGTGAAATTAATTTTAATAACATATATTTAATTTCATATGTAAAATATT
R
TCATTTCAACATGTAATTAATATGAAATTATTGACTATTTTACATTCTTTTCCTTATTTAGACATTGAAATCCAGTGTGTATTTTATACTTACAACATGT
Celera SNP ID:            hCV3044719
SNP Position Genomic:     236776
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48321):
AGAAGACATAAAAATGGCCAGCAGGCGTATTTTTAAAATGCTCAACATCACTAATAATAGAAATGCAAATTAAAACCACAATGAGATATCACCTCATACC
Y
GTTAATATGGCTGTTATCAAAAAGATAAAATATAAATGTTGGCAAGGATGTGGAGAAATGAGGAACCCTTGCCCACTGTTGATGGGAATGTAAGTACAGC
Celera SNP ID:            hCV2852552
SNP Position Genomic:     676987
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48322):
ACCTAGAAAAAATTCCCAAACTGATTTCTTAAAATTTTTACTTGAAAAAAATTTCAGCTTATAAAGAAGTTGCAAGAGTCGTACCATAGTTGGAAATACT
S
TGAATCATTTGCTTTGTTTTGGTGTGATAGAGATTTTTTGTAACGATCACTTATAATGTAACTCCCTGGAATATTAAAACAATTGTTAAGGACCTGATGT
Celera SNP ID:            hCV29090560
SNP Position Genomic:     125832
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48323):
AATCAACCTAAAAATTCATCAGTGGATCAATGGATCAATGGATAAACTATTTTTAATTGAAAGAATTAAAATTGTATCTTTATGAGCCTATTGATGTTTC
M
GAGAAATAAACTCTGGTCATTGAATGAAATCTCTGTGTTGCAGAAACCTCTATAAGCTCCTATGTACAGATAATCTCACAGGGTAAATTTCTCTGACTAG
Celera SNP ID:            hCV2852553
SNP Position Genomic:     677357
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,8)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48324):
TTGTTACAGCATCCCCAGGAAATAGATTTAGTGAGTGAAGGGTGAGCCATTTGCATTAGCAGAACACAGAACTGAGGAGACAGAAACCCAGCCACACTTG
W
GTGAGGCGTAGGGCAAATCTTTCCTAGATAATAACTCAAATCATTCAGACTGCTGCCTCTCTGCCTCTCCCTTTCTGTCTCTTTTCACCGCCTCTCCTTC
Celera SNP ID:            hCV8875286
SNP Position Genomic:     850506
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48325):
TTCTCAAGTAAGTGGTTTACTTAAGCATACATATATATACAATTTCATTTTCCTAAGACCTAGAAAAAATTCCCAAACTGATTTCTTAAAATTTTTACTT
R
AAAAAAATTTCAGCTTATAAAGAAGTTGCAAGAGTCGTACCATAGTTGGAAATACTCTGAATCATTTGCTTTGTTTTGGTGTGATAGAGATTTTTTGTAA
Celera SNP ID:            hCV29090561
SNP Position Genomic:     125775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48326):
CATTTTACAGATGAGAAAATTGAGACACTTATATTCACATATCCCACTCTAGGTCAGTCAGTAGCAGAGTCGGATGATGCATTCTGTTGTTAGTGCCTGG
M
CAATTAAGTACCAAGAAATGCTATTGATTATAGGAGTTCATGGTAGGGAAGAATAAGGCTGATAAGTAATGAGTATAGTTTAAGGGCAGACGTATTTGGA
Celera SNP ID:            hCV2852554
SNP Position Genomic:     677722
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48327):
GACCTTGTCCATGTGATCTGATTTGGAAGAAGAGTCTTTGCAGTTGTGATTTATTGAAGGGTCTGGGGATGAGAGTACTGTGGATTATCCAGGTGGGCCC
K
GAATGCCATCACAGGTGTTCTTAGAAGAAAGAGGCAACAGGAGAGAACACAGGTGCACAGAAGCACAGGCAAGGTGAAGGCAGGGCAGAGAGAGATGTGG
Celera SNP ID:            hCV8875287
SNP Position Genomic:     850134
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48328):
TAATCCACTTATTTTCTTCTCAAGTAAGTGGTTTACTTAAGCATACATATATATACAATTTCATTTTCCTAAGACCTAGAAAAAATTCCCAAACTGATTT
Y
TTAAAATTTTTACTTGAAAAAAATTTCAGCTTATAAAGAAGTTGCAAGAGTCGTACCATAGTTGGAAATACTCTGAATCATTTGCTTTGTTTTGGTGTGA
Celera SNP ID:            hCV29090562
SNP Position Genomic:     125759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48329):
GCTGTTCTCAAATAGCTCTAACTTATCTCTCATGCACCAGAGCACTCTTGTTTCTCACTGAACACTTTTTGAATGCCTCTTTCATGTTGGGCTTGGGCAC
Y
GTTCTCAGTGGTCTTTGTAGTTAGATGTTTTTGCCAAAATGTTGGAAAGAGTCCTTGATATATGGAAACTGACAAAGACATAACTTCAACCAGTCAAGGA
Celera SNP ID:            hCV2852555
SNP Position Genomic:     678934
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48330):
GCGGATGTCACACATTCATCTTCCCCAGCCACTTTGCTGCGTTTCTGAAAAGATAACATAGATGCCTGGAGTGCAGACATCTTGAGATTTAGGAGCTGGC
S
CCTTACAGCTCTTTGTGAATTGAGCCTAGAAAACGTGTCTGTTTTTAGCTGACCCCAAGAACAGAACTGGCAACCGCTTCGTGCAGAGGAGTCTTCCTCC
Celera SNP ID:            hCV8875288
SNP Position Genomic:     849384
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48331):
AATTAATCCACTTATTTTCTTCTCAAGTAAGTGGTTTACTTAAGCATACATATATATACAATTTCATTTTCCTAAGACCTAGAAAAAATTCCCAAACTGA
Y
TTCTTAAAATTTTTACTTGAAAAAAATTTCAGCTTATAAAGAAGTTGCAAGAGTCGTACCATAGTTGGAAATACTCTGAATCATTTGCTTTGTTTTGGTG
Celera SNP ID:            hCV29090563
SNP Position Genomic:     125756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48332):
AAATACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGCGCCTGTAACCCCAGCTACTCAGGAGGCTGAGGCAGGAG
R
ATCACTTGAACACGGGAGGTGGAGGTTGCAGTGAGCCAAGATCACGCCACTGAACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAGTCT
Celera SNP ID:            hCV29090564
SNP Position Genomic:     124539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48333):
ACCCTTCTCCTCTTTTTTGTATCATAATGACCTTATTTTGAATTATGGTGGTACTTTAAATTTTATGTCCCTGAAGGGTTAAGCTCTATGTTGGCTTTAC
S
TGAACTCTCTCATCCTCACCCACCAGCAAGATGAAGGTAGGGTGGCCACTGACAGGTGACGTTCGTGAGGTGCATGGCTTTTCTGAAGATAAGCAGTAAT
Celera SNP ID:            hCV27489710
SNP Position Genomic:     777959
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,234|G,1237)   total(G,1237|C,234) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48334):
AAGTCAGCAGTAACAACATTACAGAAAGCTGAGAAAGAAAATACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGC
K
CCTGTAACCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACACGGGAGGTGGAGGTTGCAGTGAGCCAAGATCACGCCACTGAACTCCAGCC
Celera SNP ID:            hCV29090565
SNP Position Genomic:     124501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48335):
AACCTCAGCAACTGACCAGAAAAGGTCAACTTAGAAAATGAGATTTTGTAGTTTAAACTCCTGGAAATTCATAGATCATAACATTTCAACTTACTTTTAA
S
TTGAGTGACATGAAGAGATAGGTCAAAATATTTACATTTGCTAAATGTGTACTTACTGTTCTTTATATAGAGCTTTGCAGCTTACAACATACAGTTCTGT
Celera SNP ID:            hCV2852558
SNP Position Genomic:     681649
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48336):
TTATATCACAACAAATGCCATATTTTAAAATAGAAACTATCCATCATGTACTGAGTAAAGCTGGTGGCAACCTATACATCTCAAAAATATACTGAAAATC
Y
CTCCATGAGTCCATTAAAAACAAATTGATTGGTTTAATTCCAGCACATGCTGAAGGAAAGTATAAGTGACATTAATGTAATTTTAAGTGCATAAAATTAC
Celera SNP ID:            hCV29090566
SNP Position Genomic:     121887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48337):
AGTTGAGTGACATGAAGAGATAGGTCAAAATATTTACATTTGCTAAATGTGTACTTACTGTTCTTTATATAGAGCTTTGCAGCTTACAACATACAGTTCT
S
TGTCAATATTTTCATTTGATTTTCTCAAACCTGGAAGGGAGGAATGGAAGATGTTATCTCAAATTTAAAGACAAATGAACTGAGACCTGACAAGTTACCA
Celera SNP ID:            hCV2852559
SNP Position Genomic:     681748
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48338):
TCCCCTCTGAATATTCCTTTTCTGCCTCTCTGCATTCCTTTTCCTCTTCCCAACACCTAAGTGATTCTTAAAAATATTCTCTGACTTTCTATGCCTTCTC
S
ATCAGTGTTAGTTTCAAGTTATCTTGTCATAGTTTCATTTAGGAGATAATGCCTGAATCTTTATCTTAAGCCTTGAACCCTCTAGAACAATTTCATTTGT
Celera SNP ID:            hCV29090567
SNP Position Genomic:     116075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48339):
CTTGGGTGCCAAGCCAGCCAATGGAATCTAATGGGCTTTGCTTACAATGTGCATGGCCTGGCTATTTACATGAGATTGACAGCACGAGAAAAACCAGACG
S
TATACTCACTAGGCTGATTTAGAGGTTTCTCTGCTCATTTGAATTCAGCCAAGCTAGTCAGTCTAGCCCTGGGAAAACCTGCAAGAGTAAAAAGAGAACC
Celera SNP ID:            hCV29090568
SNP Position Genomic:     114960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48340):
CCACCTGAGCTCAAGCAACCCTCTTGCCTCAGTTCTGGAAATAGCTAAGTGGGACTACAGGTGTGGACCACCAGGCCCAGTTAATTAAAAAAAAAAAAAA
M
TTTTAAGACAAGGTCTTGTTATGTTGCCCATGCTGGTCTCGAACTCCTGGCTTCAAGTGATCCTCCAGGAGTAGCTGGCATTACAGGCTTGGCTGACTTT
Celera SNP ID:            hCV26379990
SNP Position Genomic:     22968
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,7)   total(A,7|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48341):
CTCTTTCCCTCGCTGTTTCTTTCTTCTTCCTTTGTTTGTCTCTTTTCCTAACTTTTTTGCATATGTAGCTGTGTCTTTTCCTGCCTTCTTTTTCTGCACT
S
TATCCCCAGCTCTCTAGCTTCCCCGCAACACACATACACCACCTACTATGCTATCTGGCAATTCCCACTGGGGAACTGTGGCAAGACATCTTATCACTGG
Celera SNP ID:            hCV11950834
SNP Position Genomic:     1031925
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,2)      total(G,1|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48342):
TTACGAGCATTAAATAACTTTCTTCCGGTAAAGTTCTTGGTGTTGTTTCTGACATCTAATAAGCAATCAAATGTTACAACTGCCACCACCATGGTAGCAC
R
TCCTCTTCTGGGTAACACCTATGTTAAATCAACGTACATGGCTTGACTCAGGTGATATCTGTAATCTTGACTTTGTCTGTTTACATGTAACTAGGCCTCT
Celera SNP ID:            hCV28955190
SNP Position Genomic:     913937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48343):
AGGGCTGCCTGCTGACCGCACTCCCAGCAGCTGGTGCCATGGGTCCTGCATTGAAGTAGGATCTTGGGGGCACATCACAATGTCCAGCACATAGAGGATG
Y
AGGGAGTAACAGCTAAAGCAAGACTAATTAGGAGGCTACTCCGGAAATCTAACTGAGAGATGAAGGTGGCTTGAACCAGGAGGTGGCCAAGAGTTGGCAG
Celera SNP ID:            hCV29090569
SNP Position Genomic:     113987
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48344):
CCAGTTCTTCCATTCACCAACTCCTTATGACACCCCTATGCGGTTTATTTTTGAAATGAAACTAACAGCTCATGGAGGGCAAAAAAAAAAAAAAAAAAAA
A
GTGGTGCTTGGCAAATGTGTGTTCACTAGTCGGGGCCCACTGCAGCCTAACACCTAACTCATTGGACTGCTTGTTGGCTGATTTAATTTGTCTGGAATAT
Celera SNP ID:            hCV26379991
SNP Position Genomic:     21150
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,12)   total(A,2|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48345):
TTGTAAAGGCAACAAAGCAGGAGTTAAGGGAAACCAAAGCCATACCTTGGAAGGACCAAGGTATGGGGTTAATAAAACACGGATGTTTCATCATCCAGGC
R
TGTAAATTACACATGTCTGGCCGTGTGTTCTCAGAGTCACATGTGTATTTTACATGCAAGAACAAGCCAGTGGGTGGTCTCGAGGCAGAACAACTCCCAG
Celera SNP ID:            hCV11950835
SNP Position Genomic:     1031207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48346):
TGAAGATTATTGTCTGTCTTCCTTCTAAACCCATGGCTCTGCGTACCTGTTCCTGCTGGCCCTTGAAGAGGTTCATATATTTGAAATGAGCATTTTGGGG
R
TGTTCAGCTTGGTGCTATTCATGATAATTTGTAATAGGTTAAATGCTTTCAATTAAAGCTTAAGTCAGTGAAGCTCTCAGTTGAGAAATATCAGAAAATT
Celera SNP ID:            hCV28955191
SNP Position Genomic:     912962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48347):
GACTGAGTGCTCAACACTTTTCTAGGCACTGGGAATACAGAAATGAGTAAGACAGGCCAAGTCCCTGCTCTGGTGAGCTTATGTACTGGCTGGGAGAGAG
M
CAATAAAAAAATGAACAGGTAGGTATGTGATGTCTGCAGGAGGGTGATGAGTGCCATGAAGAATGAGAAAGCAGGCGAGGGGGTAGATAGCGACAGGCAG
Celera SNP ID:            hCV26379992
SNP Position Genomic:     20883
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,10)   total(A,10|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48348):
GCCTGATAAGGTAACAGCATTATCCCAGTTCTTCGCCTAAGGAAACTGGAGTCTAGTGACCACACCTTTTTTTGGTTCCCTGACTTAGAACCTCTTAAAT
R
TTCCCTCAAGGTGTGTTTGAATTTGTTGCTTTGTAAAGGCAACAAAGCAGGAGTTAAGGGAAACCAAAGCCATACCTTGGAAGGACCAAGGTATGGGGTT
Celera SNP ID:            hCV11950836
SNP Position Genomic:     1031076
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48349):
GCAAAAGAACTTGTGAAATGGGGTCGGGTAAGAATCTAGTGACTTCTCTGGATTTGCAAGCAGAGGGTGCCTGATGCAGACACTGAGCTGGACATGAAGC
R
TGTTCTCTGAAGATTATTGTCTGTCTTCCTTCTAAACCCATGGCTCTGCGTACCTGTTCCTGCTGGCCCTTGAAGAGGTTCATATATTTGAAATGAGCAT
Celera SNP ID:            hCV28955192
SNP Position Genomic:     912854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48350):
GTGCATGTCATAATGCGTGGACATTAAAAAAAATAAAGTTTGCTCCCCAGGGAGGATTTGCCAATTCCCATATTAGTAGGTCCCCCAAGATTGTTCCCCT
Y
GGGATTCATGCCTCATAAAATCATTTGATCTGGTGGGATCTCATCTTCTTAATGTGTCTGCCCATCATCTGTTCCTGGGAGGCTTTATTAGGGCAGTGTG
Celera SNP ID:            hCV26379993
SNP Position Genomic:     17760
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48351):
GATCAGCCCCCGCCAGCTCCAACTAGTGAAACCCAACAGAGTCCTTGGACCCTGCAGCCTAAGAACATAAAAATTCTGTAATCTCCTTCTCTTTATCTCA
S
CTCTGCCTTCAGATGTGTCCCTTGAATGGCCCACATTCTCCCAATTTCATTAACTTAGCACATTTTATTTCCACTAAGTAAACCCAAGGTGCTTCCATGG
Celera SNP ID:            hCV11950837
SNP Position Genomic:     1027148
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48352):
CATATTCAGCTTTAATCACACTTGCACGCATGCCTTCTTCCTTAAATCTAAGTAATATCCCTGCAGCTATTCCAAAAGGAACACTATAACTGGCTATTTG
M
CATAATAAGGATGAGGAAATTTTGGTTGATCACATTTTAAATGGGAAACTGTATTTAGAGAGATTTTAAACTGCAAAATTAAAAATGCAAACGTGAAATT
Celera SNP ID:            hCV28955193
SNP Position Genomic:     911063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48353):
GCCTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTGGCTCTGTCACCCAGGCTGGAGGGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGG
R
TTCACGCCGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGGCTACAGGCGCCCGCCACAGCGCCCGGCTAATTTTTTTTTTTTTTGTATTTTTAGTAGAG
Celera SNP ID:            hCV26379994
SNP Position Genomic:     16563
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48354):
AGATCAGCCCCCGCCAGCTCCAACTAGTGAAACCCAACAGAGTCCTTGGACCCTGCAGCCTAAGAACATAAAAATTCTGTAATCTCCTTCTCTTTATCTC
W
GCTCTGCCTTCAGATGTGTCCCTTGAATGGCCCACATTCTCCCAATTTCATTAACTTAGCACATTTTATTTCCACTAAGTAAACCCAAGGTGCTTCCATG
Celera SNP ID:            hCV11950838
SNP Position Genomic:     1027147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48355):
TCCCTCCTTCTGAACACCCTAGATTCCTGCCAAATATAATGTTATTCCACAAACCTATGAGGACCTTGCCTGCCCTCTGTCCTTTGCACATGCTCTTCCT
Y
CAGCCTTTGCACTCTTTCCTTCCCTCGTCCACCTGGGAGACTCCTGCTGATCTTTTCAGACTCAGCTTAAATGTCCCCACCAAACCTCCCCTCCCTCTCC
Celera SNP ID:            hCV28955194
SNP Position Genomic:     951980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48356):
GCAACTCCATCAAAACAAAACTATTCTCCTTATTCCACATTAATTGCCACAATCACCCCCAAATGAGAAATCCTGCCATTTTTCACTGTATTTATTTCTG
Y
GTCTCTCTCTTTCTTGCTTTCCTTCTTTTGCTCTCTTGCTTTCTCGCTAGCTTTCTTCTTGCTTTCTTTCTTTTCCCCTATTGTAGTTGGTTCTGTTCTA
Celera SNP ID:            hCV26379995
SNP Position Genomic:     10102
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,9)   total(C,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48357):
TACTACCCAGCTCTTCCTCTAAGTGGGATCCTCCCAGAAAGCCAGAGCTCCGCTCCTAGAGAGCGTTTGAGGAACCTGCATGTGGTTTGTCTTATCTTCA
K
ATCTTTAACATAAGCTGTAACGAGGGCAGCTAGAAGCAGAGCCTATCAGATCAGCCCCCGCCAGCTCCAACTAGTGAAACCCAACAGAGTCCTTGGACCC
Celera SNP ID:            hCV11950839
SNP Position Genomic:     1026999
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48358):
CTCCAGCTCACTTTATGACAGCACTCTGCCTTCAGGGTTGTCATCACCTGTTCAGATAATAATCTAGCTCATCATTTTTCATCTGCCTGGTGTTCTTTGC
R
TGTTGCTTCCAGAGGCAGAATCCCAGAGAAGAGAGGGAACTGTCAGCTCCTAAGAATCACTCCTCCAGAAAAGCTCAGCAACCAAGAGGAAAAAAAAGAA
Celera SNP ID:            hCV28955195
SNP Position Genomic:     949600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48359):
CTGTTAGATAAGGTTCCTGGCTCTCAAAGGCAGAGCCCCACCTCCATTCTCCATTCTCCATTCTCCCTCTTCCACTCTCTCCATCCAGGTGCAGCAAGCC
R
TTTTGTGCTTCCTGTTCCCTGGACCCGCCCAAGCCCTGAGCAGGCATGGGTTTACCCTCCTTGTACCATCTAATGAGGCCGGGCAGAGCATCAGATGGGA
Celera SNP ID:            hCV28955196
SNP Position Genomic:     949368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48360):
GAGCATCATATAGCTTCTTTATCTGTAGAATAGAGAGGTTAAACAGCCTGCAGTGGCAAATAAGTGGCTCATGTGCCACCCTACTGTCACCGTGCTCGTG
R
CAGATATTGCTAATAACCCCTGGCTTAGCCTGAGTATCCTTCTCACTGCAATGCTTCTGGAACCTACTATCAATTGATCATTTAGTGGTGTTTCTGAGGG
Celera SNP ID:            hCV488561
SNP Position Genomic:     412658
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48361):
CTTCCGATTTCTTGGGGATGTCCAGGCATTGGATAATGGCAGCCCAGTTGCTTCTGCTTGCAGTGGAAGGAAGGGTTGGCATCGTTCCCCAGCACCCACC
R
TTTGCTGGGAAGGAAGGACTGTTCTTCCCTTTCTTTAACTTGCACCTCAATGCATAAAGAATATCTGCCCTTTCCCCAACATGGGGCAGGGGTGGCCTGC
Celera SNP ID:            hCV28955197
SNP Position Genomic:     949059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48362):
CTGCTTGGCATGCCTAGCCTTCTCTCCTACCTGCGAGCTTGGTCTTCCTCGATTTTTCACAGCCCCTAATTCACATCCCTTTTCTCCACCTGCCATATTA
S
CCACATCCCTGCTTGATCTACTCATTTTGTTCAGTGGTGGAGCGAGTGTGGGTCACACAGCTGGGAGCAGAGACAGTACAACTGGCAATGTGAGAGTTAC
Celera SNP ID:            hCV488562
SNP Position Genomic:     412426
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48363):
TCCGTCTCTTGACTTGGACTATGGAAGTTGCCACCTGCTCAGATGCCCTGAATGGTATGTTGGGCTCTAAATTGGCCTGACAGTACCACAGTCCTCTTCC
R
ATTTCTTGGGGATGTCCAGGCATTGGATAATGGCAGCCCAGTTGCTTCTGCTTGCAGTGGAAGGAAGGGTTGGCATCGTTCCCCAGCACCCACCGTTTGC
Celera SNP ID:            hCV28955198
SNP Position Genomic:     948964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48364):
GTGTGTATATACATACACATGGTATATCTGTATTATATGTGTGTGTAATTGCATATCGTGCTTCTCGTTTGCCAGGCAGCAGTGCTTGTTCCCTTCCACA
R
GCACATGCATGCAGATCCCTGCACTCCCACACATATGCATACACTTTATAAGTGTCACAAACTGCCATTCAGGCTTCCCGATTGTGCCATTCAGAGACTT
Celera SNP ID:            hCV488563
SNP Position Genomic:     412104
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48365):
CTGTTACGCTGGGTAACACCTGAAGGCTGAGAAAACCAGGAGCAGGGGTGACAAAGAGGGAGGCTGTGACAGAAATCCAGGAGGGTGACGAAGGGCTCCC
R
GGCAGGGGAGAGGCAGAAGGACTGGAAAGAGGGCACAGTGAAGGGCCATGGTGGGGGATACCAGGCAACACTGGCAAGCAAGTGGACAGTGATGAGTGAG
Celera SNP ID:            hCV28955199
SNP Position Genomic:     518425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48366):
ATATACAGGCATATGTACCATATACTTATGTGTATATGTACACATACATATGGTATATGTGCATGTAATGTATACACATATGTATACATCCACATTTAAT
R
TATCAAAGATATCTCAAAGCTAACCTGCCCAACCTACTCATGCTCCTCCTGTTGTTTTGTTTTGTTTCCCATTGACCTTCAGTGACTTCAGTATATCTAT
Celera SNP ID:            hCV488565
SNP Position Genomic:     411638
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48367):
AAAAAAAAAAAAAAAGGAAACTTTAAAAGTTAAAAAAAATAGAAAAAATACCAATAGGGAATGAGGAAATAAGTCAGGGAAGAGAAGGCAGGTAATGAAT
R
TGAGTTATCAAGCTAGATTCTCTGGTGGACTTTGGCACTCAATCCCAGGTGGAAACTGGGAGACAAAATGCGTATCTCCAAGTGATCTCACCAGAGGGGT
Celera SNP ID:            hCV3044720
SNP Position Genomic:     235850
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48368):
TAATATTGGAGAAAGGGCTTGCCTGGTTTTGGAGTAATGTCCAAGTTCTAATTCTTACAGCAATGAGGGGTGCTGCTTTACTGCTTTCCATCCCCTTACC
R
AAGTTACTGTGAATGAAATTGAAGAGCGGATATCGGTGGCAAGTTCAAGCATAGATACTGTTTTGAATTCTCTTAAGAAATTAAAGGGCAAGGCTGGGCT
Celera SNP ID:            hCV3044723
SNP Position Genomic:     233068
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48369):
CGTGGCTTAAACCTGTGCTTATAGTCCGTCTGAAACGTGAATCTTTGTAGCAGGCTGATGGTAATTTTTAGATAATAGAAATCTTTTGTTAATCATAGAA
K
TTGATTATTGCTGTGCTTTCAAAGGTGTCTTGGTTACCTCTCATTTCTTAGGTACTCACTGATGCATAAATGGACAAACATGTCATAGAGTAAGACTATG
Celera SNP ID:            hCV3044724
SNP Position Genomic:     232749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48370):
ATAGACTGTGAAAATCTAATTTTGGCAAAATGACTGAAATCCCAGTGAATGATTTTTTCTTTTCTTATATAAAGCTAAGCATCCAATAGTGAAAGTTTAT
R
TGACTCAAATGGAAGAAGAATTCATGACAAAAGGTGTGATTATTCGCATAAGACCCTGAAATTCCTTTCTGGGTGAAATAGGCCCTTTCTTCCTTCCATA
Celera SNP ID:            hCV7624693
SNP Position Genomic:     322482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48371):
TGAAAAAAAAGTTCTCCTGTGGGTTAGATGCTACCAAATAGCATCACATGCTATAGAGAAATCATTCGTGAAAGGAAGAGTCGATAGATTGGCAAACCTC
R
TTGTTTTCTTATTTTAAGAAATTGCCACAGCCTCCCCAACCTTCGCAACCGCCACCCTCATCACTCAGCAGCCACCAAAATGGAGGCAAGACCCTCACCA
Celera SNP ID:            hCV3044725
SNP Position Genomic:     229737
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48372):
AAACTATCCTGTTATAAGTGCTCTGGTAATAGAAATACAGACTATAACACACGCCAGAGGATTTGACCTAAGGGAAGAGGGTCAGAGTTGGCTTTCTGAG
Y
GGATGTGCCATTTAGGTGGAGAAGTACTTTGTGCGTCTGCATTCTAGGGCATGCCCTGCTTGGCAGTTTTCTCATTTTATGATGGGTCCTGTGATGTGGC
Celera SNP ID:            hCV7624694
SNP Position Genomic:     321560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48373):
ATGGTTAAAACATTCTTATACTGGATGAAGATCCCATCTAGGACTTTCATAGCTAGAGAGAAGAAGTAAAGGACAAGCAAACTCTTTTGTCTGGGACTAA
Y
GCAACTGATGACTTTAAGTTGAAGCCAATGCTTATTCACCATTGCAAACATCTTAGGGCCCTTAAGAATTGTGCTGAATCTACTCTGCGTGTGCTCTACA
Celera SNP ID:            hCV3044726
SNP Position Genomic:     228774
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48374):
CATGTTAGCCCAATTCCTTTCTTTCTTTGTATCATTGCTTCCCTTTAAATCTAAAAAGAAGATTAAGTCTTCCATGCCAAGCCAAGCCCAATTACTACAA
Y
CAGTCTTTATATGGCAGTACCCCACCATCTAGACTGCCGACTAACTTCTCTCCTCCTGATAGTCTCTGCTTTATGTATTTTCCTTAAAAACCACAGGAAC
Celera SNP ID:            hCV8875291
SNP Position Genomic:     848819
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48375):
ATTCTTCCAGCTTTCAGTTTATTTTCTCTTTCCCAAAATGCTGTTTCTCTACTGTTCTCTCAAGTATTCTCATTTGGTTCATTTTAAGTTATTGGCATAT
T
ATAAATACTGAGAATTTTCCCACCAACAAACAAATGCAATTTATAAAAATATTGAATATCTGTTTCAAACACAGACATTTTCTCTTCTGCTTCCTCTCTG
Celera SNP ID:            hCV2845342
SNP Position Genomic:     1162427
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48376):
CCTGGTCGACCTCTCCTGGATTCCCTAGTTTGGAACACACATTCAGGTGCATCTGCCATCCTGGGTCATCCCAAGGGTATGCTTAAGTCACTGTTATCAG
R
TGCATTTACCCTACAGGAACACCTTCACATCATGTTAGCCCAATTCCTTTCTTTCTTTGTATCATTGCTTCCCTTTAAATCTAAAAAGAAGATTAAGTCT
Celera SNP ID:            hCV8875292
SNP Position Genomic:     848688
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48377):
CCAGAGCCATAGGAAAATGGCTGACAGATTCGCAGATTTGTGACCGTTTTTCTAATGAAGGAGATTTTGGAAATTTTGATGGTTTCATGTAAATGCTAAA
R
GTAAAACCTGTATTAAGAGTCACTTGATCACAGGAAGAAAAATAACCAAATGACTCAACTGCATAAGGAGGTGAAAGGAAGGATCTAGAAACTACATACC
Celera SNP ID:            hCV8875293
SNP Position Genomic:     841587
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48378):
CTGAAACACAGCAATATTGAAGTTAGGCCAATGAATAAGCCTACAATAAAGTACTTTCTTTGCCTCTAAGTGTTCAAGAGAAAGGAGGAGTTGCATGTCT
S
TCTCTTTAAATCAAACCTAGAAATGATTAAGCTAAGTGAGGAAGGCATGTCAAAAGCTGAGGTAGGCTGAAAGCTAGGTTTCTTGTGCCAAAGAGTAAAG
Celera SNP ID:            hCV3044729
SNP Position Genomic:     227853
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48379):
GTGAATTATTCATGCCTCCCCTTTTTAGACCATATAGGGTAACTTCCTGATGTTGCCATGGCATTTGTAAACTGTCATGGTGCTGGTTGGAGTGTAGCAA
Y
GAGGATGACCAGAGGTCACTCTCATCGCCATCTTGGTCTTGGTGGGTTTTAGCCATCTTCTTTATTGCAACCTGTTTTATCAGCAAGGTCTTTATAACCT
Celera SNP ID:            hCV2845344
SNP Position Genomic:     1150879
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48380):
TTCTCAGTGTAGAGTAAGCTAACAAAGTTGACAGCTGTTGGCCTCATGACATCATAGAAAATGTGCCTAACCTAAAGTCAGAATCCCTAATTTTAAGCCC
Y
GCTTTTACTTCCCGGATATTCATCCTTTATTGGTTACTTTTAACCTCCTGTTGCTTCAGTTTTCTAAATCTGTAAAAGGGAATGTAATACTGACATTATA
Celera SNP ID:            hCV2852562
SNP Position Genomic:     683585
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48381):
TAAATTAGGATCACACTATGTTTTTAGTTATGTCTATTAATGACAAGATATAAAGCACTTATATATATAGCTACTGAACAACAGAACCTGTGAAAAAAAA
A
TCTCAGTGTTTTTTAGCTAAGTGGAAATCCTGTTTGGTCAAGGTTTTTCATGAAATAAAATCCCTGAAATTTAAATAGACAAAAAAACACACACACAAAT
Celera SNP ID:            hCV2845345
SNP Position Genomic:     1150378
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48382):
AAAGCCAAGAGATAAAAGCCAGCAGCAGTTAATTTTCTAGTCCGTGTGCTAGTGACCACAGATATCTAACCACTGATTTCCAAAGGCTTACTATTATTCA
K
ACATATTTACTATGGTAAATAGCTCATGTTTTCAGGAACACTGAGGATCTGTTTAGTCACTTTGGATTTCTGGTTTCATCAAGAGTTTGTGTCCGACATC
Celera SNP ID:            hCV29090570
SNP Position Genomic:     111761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48383):
ATTCTAATCCCAAAATATGTATATGTCATGGCACTTTTGGAGGGTTTTGTCTTTCTTTGTACAGCGTTGCGGTATTATCATAAGAAAAGTCTAGAAGTTG
S
AATTATATCTTCCAAGTTGGCATCCCAGTTCTTCCACGTAGCAGCTATAACCTTGATGCAGTGGAATACAGGCGACATGGCATGTGACTTGGAGCCAGAT
Celera SNP ID:            hCV2852563
SNP Position Genomic:     686911
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48384):
TATTTTTAATCCCTGCATAATTCTGAGTTTAACATGTTCATGGTTATTGTAAAGAAAATTAAAAATAGATAAATGTATTATTTTAATGTTAATTACCTAG
R
GAAATAATCACCACTTACATTTTTATATATGTCTTTCTAATTTTTCTCTAATCATATGTAGATTTTTAAATTAGGATCACACTATGTTTTTAGTTATGTC
Celera SNP ID:            hCV2845346
SNP Position Genomic:     1150211
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48385):
GACCAGCCAGGACAAATCTATTTCTGAAGCTGTTGTAAATGATTTGAAACAGGAAGATGAATGGAATGGAATGAGGGTTGTTTAAAAGAGATTTATCCCT
M
TTATTCTTGCTCAAGAAATGAGTGGCCAGTTGCTACCAGCCTATCCCAAAAGCCAAGAGATAAAAGCCAGCAGCAGTTAATTTTCTAGTCCGTGTGCTAG
Celera SNP ID:            hCV29090571
SNP Position Genomic:     111612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48386):
ACAATGGGATTAATACTACTTACCTTAGGATGTTGGTGAACAGATATTATACTGTAAAGCTACCTAGTAGGAGGCCAAACGCATAATAGATACTCAATAA
R
TTGTAGCTGTCGCAATTATTGACCTCCTGGACTCTGTGTCCTAATCTACAACATAGGAATAATGACAGTGCCTAACTTGCAGGTTTGGTGTGAACAATAC
Celera SNP ID:            hCV2852564
SNP Position Genomic:     687191
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48387):
TGCATGCCTCTGGGCCTACCTCTGGGAAGATTTGGGACAAGTGGCTGGAAAAGTCTACTACTTTCTAAGACTTCTCAGAGCTAACTTCTGAAAGTTTGTG
W
TGAGATCCTAACATTCTGTGCCTATGAAACCAACCCATCTGATATGGTTTGGCTGTGTCCCCACCCAGAATCTCTTCTTAATTGTAATCCCCACATGTCA
Celera SNP ID:            hCV2845347
SNP Position Genomic:     1148776
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|T,3)      total(A,3|T,3) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48388):
TACTCTGGCGCAACCCCCCTGGAAAACATAATGAAGTGGTCCCGCCAGAGTATCCTCACACAGGGTCACCACCAACACATTGCATCAGCTGCCATGCAGA
Y
GAACACAGGTCTGTTTTGCATTGTCACCCAAGTGACATTCAGTATTGCCATTGGTTAGGCAATTTTCCAGAATTGGTGAGATTCTGAACCAAACAAAAAA
Celera SNP ID:            hCV27968200
SNP Position Genomic:     773061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48389):
CAAAACTGAATACAGGGGCTTGAATCTTGTTAAATGGTTTCTCTCCATCTCTTGGCTCTACTTTTTTCTATGGTGACTTCACTCTCAGGCAGGGTCTTCC
S
ATGTGATACCGGCTATTGGCAGACTCAGATCTGTAGCCTTATAATTTCACAACCCCAGCAGAGAGAGAGAGGGCTGCTATTACTGAACAGTCCTTGCAGA
Celera SNP ID:            hCV29090572
SNP Position Genomic:     101376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48390):
GATCATTCTAATCTAGAACAGGGTTTCTCAATCTCATTCTTGGCACTATTTTCATTTGAGGCTGCCCTGTGCACTACAGAATATTCAGCAGCATCCCTTT
M
CTGCACCCCCTAGATGGGTGTAGATACCTGTAGCATTCTGCAGCCCAGGTTGTAATAACCAAAAATGTCTCCCGACATTGCCAAATATTCCCTGGCTGGG
Celera SNP ID:            hCV2852565
SNP Position Genomic:     687395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,3)      total(A,3|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48391):
TGCTCATTAGCTCACATCTAAATTGTGGCTCCTCTCAGATGGGCCCATCTTCCTGATTATCCTCCCAGAATGTGGGCCTCAGGCTTCCTTGGGACACTAG
Y
CAAGGTCCCTCTCTATGTCCCTGGTATGGGCACCCTGTTCTGAGTCCCAGCTCTGCAGACCTCTGCCCCACCACACACTGTTTTCTCCCCAAGGGTTAGA
Celera SNP ID:            hCV2845348
SNP Position Genomic:     1148214
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;(T,-|C,-)   (C,-|T,-)   Caucasian(C,24|T,60)   African-American(T,37|C,45)   total(C,69|T,97)   no_pop(T,-|C,-)   JBIC-allele(T,537|C,942)   total(C,942|T,537) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48392):
ACTCCTAAGCATTACCACTGCCTGGGAACTTCACTATGGGGATGTTCTGCTGAACCCCTATCAACTCCAGTGGGGGTGGCAGCAGGTTCAAGATGCCAAA
S
AGGAGACCTGGAGCCAGCGATGAGACGAGGGGTTTTATTGGATGCTTCCATACAGGGGAATCCAGTGGTGGCAGGCTGAACAGGAGAACCACAACCACCT
Celera SNP ID:            hCV27968201
SNP Position Genomic:     590363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48393):
TAGTTATCCCCACTGAGGAATGAGGGACCTGGGGTATTTATCTACCAACTCCCCTTCTATTATTGGTTGAGTCCCTCTTCTGACGAGTCACAGGTATTCC
Y
AGTAAGCAGCCTCTGTAGGGCACAGGTGAGTGATGATGGGATTCACCGCTGACAGCTCTGCTGTAGATTTCCCCGGGCAGGTGACCTCTGAACTGCCACC
Celera SNP ID:            hCV29090573
SNP Position Genomic:     97351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48394):
CTCAATCTCATTCTTGGCACTATTTTCATTTGAGGCTGCCCTGTGCACTACAGAATATTCAGCAGCATCCCTTTACTGCACCCCCTAGATGGGTGTAGAT
R
CCTGTAGCATTCTGCAGCCCAGGTTGTAATAACCAAAAATGTCTCCCGACATTGCCAAATATTCCCTGGCTGGGGAAGGTGGGGAGCTAACGTTGTCACT
Celera SNP ID:            hCV2852566
SNP Position Genomic:     687421
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48395):
GGGGCCATAGATTGTACCGCTCTTGTGTCCATGCTCAAGATTGCTCATTAGCTCACATCTAAATTGTGGCTCCTCTCAGATGGGCCCATCTTCCTGATTA
Y
CCTCCCAGAATGTGGGCCTCAGGCTTCCTTGGGACACTAGTCAAGGTCCCTCTCTATGTCCCTGGTATGGGCACCCTGTTCTGAGTCCCAGCTCTGCAGA
Celera SNP ID:            hCV2845349
SNP Position Genomic:     1148173
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   ;(T,-|C,-)   JBIC-allele(C,391|T,1104)   total(C,391|T,1104)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48396):
GCTGGTGGTCCCATAGGGCCTCTCACTCTGGGAACACCATTCTTGGCTGTGGGTGTTTCTTCAAAGTGAACATAGCTCTGAGGAGCAGGAGGCAGGTTCA
R
CAGCCACATCCTTAAGAACATAAAAAGTTGAAGAGAGACAGAAGAGAGACAGACGTGTGCAGTGCGAAGCTGGGGCCCTCACAATGGGGACTGGCTTCTT
Celera SNP ID:            hCV27968202
SNP Position Genomic:     594346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48397):
GAGCCCAGACTTCACCCACCAAAAATCCTTTCCAGCCAAGCACGTGATAACTATAGATCTTCTTTGTCCTTTGCCTCAAGCAGAAGCCTTACACGGGTCC
S
TCGTAAGATGCACCTCTAGGGCTCATTCCTTCTTCAAGTCCCGGTGTAGAGTTTGGTGTTAGAAGGGACAATTAGAGACTTAGAGATTCCTTCGTCCAGA
Celera SNP ID:            hCV29090574
SNP Position Genomic:     95906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48398):
TTTGAGATGTTCTAGATTTTCCTGGTGAGATTTCAAGGTCCAACACAGGATTCTAATATTCTCAGAAGATCTCCTACATGAATTCCTTCAAACTTGAGAA
Y
TACATTTACTCTCCACACAAAGGGAGTAGGAATTTTTCAGTATAAGGCAAATGGCAACAAAAACACACTAGAGATTACAAAGCCAACGTCACTATTATTT
Celera SNP ID:            hCV2852567
SNP Position Genomic:     689827
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48399):
TCCAGGTTTCCTACCAAATAGAATGAATGAGACAGGTAGTACTGCAAATTCATAGTTTACTTACGTTAATCATAATGTCAAACATGTCAACAGCATCCTG
K
AGAGCCCCCCAAGTTTCCTGTCCACTTGTCCACTGTACAGCCACCTACCCACGCTTTACGTACTACCCAGCTCTTCCTCTAAGTGGGATCCTCCCAGAAA
Celera SNP ID:            hCV11950841
SNP Position Genomic:     1026838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48400):
AGACCAAACACTCTGAAGCTGGACTAGAGTAATAGCAAACTGGAGAGTCGCATCCTCGTTAAATGATGGCTTAGCATGTAAAACATTCGTGTGACTGGAT
W
GTCAGTGTTTGACAATAAGATGCTGGGAGGAGAGCCCTGTGCTCTTTTGAAATTGATTGTGTCCTCCTTCAATGGATCATTAATAGTTGGGGAATCCACA
Celera SNP ID:            hCV27968203
SNP Position Genomic:     611291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48401):
TAAATGTTTAATTCCCCTGCCCCTTTTGTTTTCGTCAGGCCCCCTGAAGCCGCAGCTGAGATGGCTGACTCCCTGAACTCTTCTTATGTTCTTGACTGTT
Y
GCATAGCCTTTCCTGGGATTACCTCCCAGTTCCAAGTTTGCCCATTCTGCAGGCAGTCTTCTTGGGTTCCAGCTTTTCTCCACCATCAGCTTCTCCCCTA
Celera SNP ID:            hCV29090575
SNP Position Genomic:     91772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48402):
TGGGGTTTCACCATGTTGGTCAGGCTGATCTCGAACTCCTGACCTCGTGATCCACCCACCTTGGCCTCCCCAAGTGCTGGGATTACAGGCGTGAGCCGCC
R
CGCCCAGCCCCCTCCTTCTGAAACTTGGAATGTCCTGTTGCAATCCTTAGAGCACCTGTACTCAGGGTATGGAAGCACTCATGAGGACATGAGCCTCAGC
Celera SNP ID:            hCV2852568
SNP Position Genomic:     691016
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48403):
ATGGGTTCTTCCATCACTCAGTCCAGGTTTCCTACCAAATAGAATGAATGAGACAGGTAGTACTGCAAATTCATAGTTTACTTACGTTAATCATAATGTC
M
AACATGTCAACAGCATCCTGGAGAGCCCCCCAAGTTTCCTGTCCACTTGTCCACTGTACAGCCACCTACCCACGCTTTACGTACTACCCAGCTCTTCCTC
Celera SNP ID:            hCV11950842
SNP Position Genomic:     1026817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48404):
AAAAATCAGGTGTAGAATTAATTCCAACATAGACCTACCTTCTTATTGCACAGACAAAGACACTGAGATCCAGAGACATTGAGGGGCTCTCTTGGGCTCC
Y
CCACCTTGTCCAGGGGAAAGTCAGGACTGGGATCCAGCGTATAGTCACTTGCTACGGCTATTCCCATTATGTTTTGCTGCTGCTGAAACACTGGAACACA
Celera SNP ID:            hCV29090576
SNP Position Genomic:     90668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48405):
TTTGTGGACTTCAGAAGTCCTTCCAGACAAATGGCTGCTTTATTTGTGAGGTAGTGATTTATATCCCTGGCAGAATAATCCTGGGTGAAAGTGGCTCTCC
S
TCAGCATAAAGGAATAGCAAAACATTTATGAAAGGGAGACAGAGCTTCAGATGAGTGGGTACAAAAGTTCCGCACAATATCAATGGTTGAAAGAATATGC
Celera SNP ID:            hCV2852569
SNP Position Genomic:     691284
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48406):
GAGGTGATGCCACTTGAAAAAAGATTAGAGGGTTCTGAAAAAATCAGGTGTAGAATTAATTCCAACATAGACCTACCTTCTTATTGCACAGACAAAGACA
Y
TGAGATCCAGAGACATTGAGGGGCTCTCTTGGGCTCCCCCACCTTGTCCAGGGGAAAGTCAGGACTGGGATCCAGCGTATAGTCACTTGCTACGGCTATT
Celera SNP ID:            hCV29090577
SNP Position Genomic:     90630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48407):
TGGTACGTCTGAGCCTGAGTAACACTTGGCAACCAGAGTGAGCCCCAGAACTGGCTCATGTGGAGGTCAGTGACAAACCTTTGACATTTGATACAATCAA
M
ACCAAGCCGCTTTGTTTAAAATGCTCATCAAATACCTACCATGCACACTGTGTATATAAAAGTCATTGTCACAAAAGCCCTTTTTCAGAATCTCTAGCTT
Celera SNP ID:            hCV29090578
SNP Position Genomic:     365366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48408):
CACTAAGCCTCCTGAATACTTAATTTCCCCAAGCCTCAGTTTCCTGGTCTGCTAAGTGGCCAGAATAATATTTACATCGTGGATTTGTATGAAATAAATA
K
GATAATGCATGAACCATGCTTAGCGTGAGCCATAACACGCAAAAGCAACATAATCAGTGTTTGTTAATTGTAACAAATCAAGCCCGGGATATTGACAGAC
Celera SNP ID:            hCV29090579
SNP Position Genomic:     83872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48409):
GAACCACTGCGCTCAGCGGGAATTTTTTTTTTTTTTCTTTTTAAACACAAGTCAAGTGTAGTAGTGAGAAGTGCGGAAGGGGTAGAACAAGGAGTTTGAT
M
TGTAACTTTATCCTTATTAAAATACCAATGAAATTATTTACAGAAAAAGAAAAAAAATTCTAAAATTTATACAGAACCCCAAAAGACCCAGAACAGCAGA
Celera SNP ID:            hCV16101597
SNP Position Genomic:     248470
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48410):
TAGCTGACCTATAATGGTCCCTGAAATATTAGCTGTCAGAAACAGCATAGGGATGATTGTAGCTGAAAGCTTGCTATGGCCCTCCAATATTTATCTTTCT
S
ATATCCAGTAGGCTTCCTAGTTAACTCTGCCTGTCCCACATGGGCATCTAAATTCACCTTCAGGAAGTCACTATTACTCCTAAGACTGTTCATGGAGTCA
Celera SNP ID:            hCV16101598
SNP Position Genomic:     249977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48411):
CTGATTCTCAATGTATAGTCACATAGGTTGTAGTTTATTATATGTCCATGTGTCTGTCTTTCCTTCTAGATAATAAGTTTTTTAAGGGTTTTATTCATTT
K
TCCATCTCTAGTATCTAGGCCAGAGCCTGGCAGATAATAGAAATGTTAAATTTTCACTAAGAAAATCAATTTTAAAATGAACCTGATGATGCTGTCATAA
Celera SNP ID:            hCV3044734
SNP Position Genomic:     225776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,6)      total(G,6|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48412):
TTTACTCATTGACTCATACAACCAATGGGAGTAGACACAATTATTAGTTGTGTTTTGCAAATGAGGAAACTAAGGCAAAGAGAATTTAAGTAACTTGCTC
R
GGGTCACATAGAAACTAACTGGAAAAATTGAGATTTCGACCCAGTTAGTCTAGCCTGCGAATCTTTACTCTGAGCTACTTTTTAACTGATTCTCAATGTA
Celera SNP ID:            hCV3044735
SNP Position Genomic:     225590
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48413):
TTAGAGTCCTGTTCAGATGACATAAGAGGCCTGGCATGTATTTGCTCACAGCTGCTTATTGAAGGTTCAACAGATGCACAGCTACCTAGAGGGAATTTGG
R
GCCATAGATTGTACCGCTCTTGTGTCCATGCTCAAGATTGCTCATTAGCTCACATCTAAATTGTGGCTCCTCTCAGATGGGCCCATCTTCCTGATTATCC
Celera SNP ID:            hCV2845350
SNP Position Genomic:     1148075
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48414):
CAATCATCTTTCTAATATGTCCTTGTCTGTGACATGGTCCCAGTCCTTATTTTCATCCAAAGAGCATGTTGTTCCTTCTTCTTTATTTCCACAATACTTT
R
TACATACCCTCTATATTAATATAACTATAATATTAATGTATACTTATTATATAAGAAATATATATCAGCTATCAATATAAATAATAACTAGCACATAACA
Celera SNP ID:            hCV3044736
SNP Position Genomic:     225347
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48415):
TGTGAAAAGTTTCAATCATCTTTCTAATATGTCCTTGTCTGTGACATGGTCCCAGTCCTTATTTTCATCCAAAGAGCATGTTGTTCCTTCTTCTTTATTT
S
CACAATACTTTATACATACCCTCTATATTAATATAACTATAATATTAATGTATACTTATTATATAAGAAATATATATCAGCTATCAATATAAATAATAAC
Celera SNP ID:            hCV3044737
SNP Position Genomic:     225335
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48416):
CACAATAGTAGCCTGTCTGTGTATGATGCTTATAATTGTGATCATCATTTATCCTAAGCTCATATGTGGAAGCCCACATAAGTATGGCGTCTTACCAGTA
R
ACTCCGCTGAATCCGAGGAAGGGCCTTAGGCCTTCTGGCAAGGTAACATTCAGAGTGCTGAGAATGCTGCTGCAAGTGGAATTTACTTATCAGAAGGTCA
Celera SNP ID:            hCV2852570
SNP Position Genomic:     696571
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48417):
TCATTATTTTCTCATTTGAACTCCCTGAGGCTACTAAGGCCCACCCAAGAGTACCTCATATAGGGGCTCCTTTGTTTGACTTAAGGGAAACAGGTATTAT
W
TGGCATTCGACATCACTAATTTAATTACAAAAAATTCATAAATAGATGCAAATACCGCCAACCCTGAGCAGGCACATCCTCTGGTTTCTCCTAAGGGCCA
Celera SNP ID:            hCV3044738
SNP Position Genomic:     224779
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,4)      total(A,4|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48418):
CCTCTACAATGAAAACTACAAATGACTGCCTAAGATAATTTTTTTCTCCCTATTTAAGCCCACATTAACGGAGAGATATACCATGTTCATGGATTGGAAG
K
CTCAATGGTATTGAAATGACAATTCTTTTCAAACCGACCTGAGGGATTCAATGCAATACCATGCAAAGTCCCAATCCCAGCATGGGGATCGGGGCAGAAA
Celera SNP ID:            hCV2845353
SNP Position Genomic:     1141176
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48419):
GCTATCTTGGAGTTATTTCTAGTCATCGGGATCTTGCATGATTTAAACAAGGCCCTTAGGTGACCATCAATTTATATCTAAATTATTAGTGTGCTTGTTA
Y
AGTGGGTGAATGTTCTTTCAGTTCATTTGCTCATTCACCACCAGGATTCTACACCAGGAACTATGCTAGGTTCTAGTGTTATAGGGAGGTTAATATATGG
Celera SNP ID:            hCV2852571
SNP Position Genomic:     697145
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48420):
CTGTTTCCCATCTTTTGTCTCTGTGGATTCAAGGTTTCTTGGTGTAGACCAGACAAGGTTCCCAGTGCCTGCCACATGGTAGGCATTCATTATTTTCTCA
W
TTGAACTCCCTGAGGCTACTAAGGCCCACCCAAGAGTACCTCATATAGGGGCTCCTTTGTTTGACTTAAGGGAAACAGGTATTATATGGCATTCGACATC
Celera SNP ID:            hCV3044739
SNP Position Genomic:     224693
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,4)      total(A,4|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48421):
CAATATCATCAGAAACACCAAATAGCAAGGTATAAATTTAAAGAAAGATATGCAAGTCCTCTACAATGAAAACTACAAATGACTGCCTAAGATAATTTTT
K
TCTCCCTATTTAAGCCCACATTAACGGAGAGATATACCATGTTCATGGATTGGAAGTCTCAATGGTATTGAAATGACAATTCTTTTCAAACCGACCTGAG
Celera SNP ID:            hCV2845354
SNP Position Genomic:     1141119
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48422):
TGCACGCCTGTAATCCCAGCTGCACTCTGTCCCAAAAAAAAAGAAAGAAAAAGAAAAGAAGAAAATCTTAACTAGCCCAGTGCTTATGGAAAAAAAAAAA
A
TGTTCTTGAAAACCAAAAAGAAAACTACAGATCCAGATGGCTTTGCTACATGTTTCCAAATATTTAAGAAAGAAAAACAATTTTATACAAACCCTTCCAG
Celera SNP ID:            hCV2845355
SNP Position Genomic:     1140340
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48423):
ATTTGCTTCTAATTCTGGATCTCTTACTCAGGACTTGGTTGCCCAGAGGAGGTTTAATAAATTCTTTTTAACTCTACTTCCCACCAATTTTTCTCCCTTC
K
ATCTGTTCCTATATCTCTACCATTCATGGCAGGGTTAGCACGTGGCTCCAATGGTGAGCAGGAAGGACTTCACCTCTTGTCTGTCCCTTAGCTTTGGTGT
Celera SNP ID:            hCV29090580
SNP Position Genomic:     74478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48424):
TACATGAAAACACAGTTGTGCAGGACATATCTGTGCACCTCTTTGCTGAAAGCAACATCCTCAGGAAGACCACTTCCCAGCTTGCGACCTAAACATTTAG
S
TCTAAACACTTGAGCTCTAAACATTTAGTTACTCGCTCTCCCCTGTATTAATGTATGCTGCATAAAGGACCCCCATTTTCCTACATTAAACCCTGTATAA
Celera SNP ID:            hCV29090581
SNP Position Genomic:     72527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48425):
ATAGCTAAGGCATGCCCTGTTTCCTGACCCAGTTAACCCATGGTTGAATAAGTACCTCTTTATTTTAAGCTTCTTAGTTTGTGGCAAGATAACTAACACA
Y
ACATGAAAGTCTAGGCTTGGGTATCATCAAAGGACCTGCTAGCAGAATTCTTGTACATGAAAACACAGTTGTGCAGGACATATCTGTGCACCTCTTTGCT
Celera SNP ID:            hCV29090582
SNP Position Genomic:     72373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48426):
TCTCAAGTTGATTTCCTTTTACACCACTTCCTTTGCAGAGCTGGACAGAAAGCTCGTGGCAATGTGTACTTTAATGGAATTAATTAGTATCACAGCAAGT
Y
GATCAACTTGGAGGCACGTCACTCACCCTTCATTGGCATCGGAATTATTTAAGTTGGCGCGGCCTCTATGTTAACTACACAGTTATTTTTCATGCAATAT
Celera SNP ID:            hCV2852575
SNP Position Genomic:     702702
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48427):
GGATGATCCTTTGAAGCCTTTTGAAGCACCTTGAAGCAGAGAAGATAGCTAAGGCATGCCCTGTTTCCTGACCCAGTTAACCCATGGTTGAATAAGTACC
K
CTTTATTTTAAGCTTCTTAGTTTGTGGCAAGATAACTAACACATACATGAAAGTCTAGGCTTGGGTATCATCAAAGGACCTGCTAGCAGAATTCTTGTAC
Celera SNP ID:            hCV29090583
SNP Position Genomic:     72329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48428):
TCTCAGTAGCTGGGAGGAGACCTGCACAGGCATTGGTTTTTAGTATATGTGGTAGGCAGCTTCTAAGTGACCCCGGTGATCCTCACTTCCTGGTCTTCAC
R
GCCTCAGGTAATCCTCTTCCCTTGAGGAACTGGCTTCTAGCCAATAGAGTACCTCAACATTGAGGGAGGTGTCTTCTGTGATCGTTTTACAAAAGATTTT
Celera SNP ID:            hCV29090584
SNP Position Genomic:     71927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48429):
GAGCGTGTGCACCCTGCAGTGAGACCATTGCTTCAGTGGTTATGGAGCAGCCAGAGAACATAAATGAACTGCTAGCTTTAGGGGATATTACTGTGGTCTT
R
TTTCTCCAAAACTAAAACGAAAAGTTCTAGTGCACTCACTCGGTGATGATTCATTTGTTCATTGATTCATTTCTTTCATTTGTCATTCAACCAACAAATT
Celera SNP ID:            hCV2852577
SNP Position Genomic:     703744
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48430):
AGGGACATGCAGAGAAACACCTAGATTTTGGATTCATTTACACATTCAGCAAATATTTATTGGGCATCTATGGTGTACCAGGCGCTGCACTGGACTCAGA
R
ATATAACAATCAGCCAAATGAACAAGTCTGGACCTTCAGGGACCCTCGTGGAGGTGTTACCTACAAGTGAGGAAAGGAAGACCAAAGTGTTTGTTAGTTA
Celera SNP ID:            hCV29090585
SNP Position Genomic:     70168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48431):
CAAAGTTGGTAGATCCTAACATGGTGACCCAGCAAGAGTCTCTTTTCAAACTGGCTGTCCTCGGGGGTAGGAGCAGAGCCAGGGCAAACCGTCAGGGATG
S
TAAGTAAGGAGCTTCAAGGGGATCCAAGGCACCTCCTTGGACTCAGACATGCTTGGGACCGCGTTCGTAGGACAACTTTTACTGTCCATTGCCACAATGA
Celera SNP ID:            hCV29090586
SNP Position Genomic:     66930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48432):
TCTCTGGGTCATCAGTCCCTTAGATAACATCATGTGTCTACAGCTGGGATAGCAAGTAGGTTTTGTTTTGTGGGTCAACTCACATGAAGAGGATGCCTAG
R
TGTCTGCGGTGAGCAAGATTCTAGAGCTCATCAGGAAAGTATGCTGTAGTCAATTAGTGATGTCTGCCATGTGCACGGGTAGAGAAGTTATGTCATGCAT
Celera SNP ID:            hCV29090587
SNP Position Genomic:     63469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48433):
CCTCTTTTATTAAATCTGCTCTAAGCAGTTGGATGGGGAGTGCCTTTTCGCCTGTCTACCCCTTCCCAAGGACTATTTATATTGAGGCAACCAAATGATC
M
AGGAAGAATTCGTGAATAGCCATGATCAAAGTAACCAGACAGGGAGTTAGAGGTTCAATCGTATTTGGGGAAAATGGTCCAATGATGGGGAAAGGGCCCA
Celera SNP ID:            hCV29090588
SNP Position Genomic:     63111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48434):
TAATAAAAACATGACACATTAACCTTTGACTTGTCTAGTCTCCTCTTTTATTAAATCTGCTCTAAGCAGTTGGATGGGGAGTGCCTTTTCGCCTGTCTAC
S
CCTTCCCAAGGACTATTTATATTGAGGCAACCAAATGATCAAGGAAGAATTCGTGAATAGCCATGATCAAAGTAACCAGACAGGGAGTTAGAGGTTCAAT
Celera SNP ID:            hCV29090589
SNP Position Genomic:     63070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48435):
AAGGAGGTGGAAGAGTTTTCTCTCCTTGCCAATCTCTCCGTTGCTCTCTGATAAAAGGTGCGGCAAACAGGGTAGAAATGACTGCACGGGACCAGAGGAT
R
TAAATATTCAGTCATGACAGTCCCCATAGGATAAATGACAGCAGCCCATGCAATGTGCCTTCTGCACATTTTCAACTGACTCTTCCCCTCTGCAGCCAAG
Celera SNP ID:            hCV10075302
SNP Position Genomic:     159417
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48436):
GTTTACTTGAAAGCTCTGTCTCCACTCTCCCTACAAAAATTCAAGTAAGAACCTGGAATGCAAGGAGGTGGAAGAGTTTTCTCTCCTTGCCAATCTCTCC
S
TTGCTCTCTGATAAAAGGTGCGGCAAACAGGGTAGAAATGACTGCACGGGACCAGAGGATATAAATATTCAGTCATGACAGTCCCCATAGGATAAATGAC
Celera SNP ID:            hCV10075303
SNP Position Genomic:     159356
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48437):
TTAACAGGCACATGTGACCGGTGGCTGCCGCATTGGACAGTGGCAGCTCTAGAGAGCTGGAACCAATTTATGCTCCTTCTGACATTCACAGGGAATGCTC
Y
GTATAAATCTTGGTCTCTTCTTCCTTTTTAAGGTCACATAGCACCTGGATTTAAACTCCAAAGCTACCCCAATTTTAGCTGGAGGGACCATATTCCAAGC
Celera SNP ID:            hCV15897052
SNP Position Genomic:     214385
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48438):
ACCTATTCATTTACTGTTTCCCATCTTTTGTCTCTGTGGATTCAAGGTTTCTTGGTGTAGACCAGACAAGGTTCCCAGTGCCTGCCACATGGTAGGCATT
S
ATTATTTTCTCATTTGAACTCCCTGAGGCTACTAAGGCCCACCCAAGAGTACCTCATATAGGGGCTCCTTTGTTTGACTTAAGGGAAACAGGTATTATAT
Celera SNP ID:            hCV3044740
SNP Position Genomic:     224680
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,6)      total(G,2|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48439):
TAACTCCCCCTCCTTTCCCATCTCTGCTTTCCCTCACATTAGCCAAGCTCCTGCAGTGTAGGAGAAAGAGCCAAAGCAGAATGCAAAGAGACTGAGGGCA
S
TCTAAGGGGCAAGCCTGACTTCTTTAGAAACTCATCGCAGCAGCAACTGAGATCAGAGGTTGGCTGAGGTATTGGCTGCAGCCACCAGCATCATCCTCTA
Celera SNP ID:            hCV3044741
SNP Position Genomic:     224455
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48440):
GTCTATGACAATAAAATGAATGTATGTCTTGATCACACCAGGAAGTCTCTGCTACCAACACCCCCAGGAGAAAACAGCTCCAGGCTCTTGAGGCTCCTCA
M
GTAGCAAAGTCTCATCGCTCAGGTCCCGCATGTCAGAATTTGCCATGATTCACTCACAGCATGTGTCATGTGTATCTGGTAGAATGTCTGAAATGCATTC
Celera SNP ID:            hCV15897056
SNP Position Genomic:     214989
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48441):
CAGCCAGCTGTCATTTCCAATGCACTGAGGGCTGTCCATAGGAGCATTAACTCCCCCTCCTTTCCCATCTCTGCTTTCCCTCACATTAGCCAAGCTCCTG
Y
AGTGTAGGAGAAAGAGCCAAAGCAGAATGCAAAGAGACTGAGGGCAGTCTAAGGGGCAAGCCTGACTTCTTTAGAAACTCATCGCAGCAGCAACTGAGAT
Celera SNP ID:            hCV3044742
SNP Position Genomic:     224408
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48442):
CAACTACAAACATGAATCAATGACTTGAAAGAAGGAGAGTAATATTCCCTGACCTTAAACAATAAAGGACTATGACCCTGTTTGGGGACTGGGGATGGTC
R
TTGAGGGCTCCCCTAAAAATAAATACTTGCTCTGAACCTCAAATGAAGTGTAGGATTTAGAAAGGCAAGGGGCCAGGTGAAAGAAAATGGTTTCAGGAGG
Celera SNP ID:            hCV15897057
SNP Position Genomic:     200787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48443):
AATACATAAGTTCATAATGATAGGGGAAAACAAAATTATTTATAGGTTACCTTACAAAGATGATAGAAACCATCTCATTATTTTAGAAACGGAAAGGAAA
W
AAAAACATAAACAACTATCCTGCCTTTGTTTTCAGAATTCCTTGTAGAAATAATTAACTAGTGGATGAAGAGAGTTTCTCTTTCTAGGTAATAAGCAACG
Celera SNP ID:            hCV15897058
SNP Position Genomic:     203358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48444):
TTGAAAGAATAAAACTCATTATCACATGGAATATGATAGCTGTAAAAGAGCAACGCTTGGAAGCCAAAGCAAAGTCCCGCATATGATAAATTAATTAGAA
W
AGAAGTTACATAAAACCTCGACCTTCTGTGTGACCCTTATCTTATAATTACCTCTTCTTTAAAAGCAGAATGAAATATTTTATGTATGAAGATGTTACTG
Celera SNP ID:            hCV3044744
SNP Position Genomic:     211081
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,10)   total(A,2|T,10) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48445):
CCTTTTGTTCAAATGACTTGGCCCCTTTGGTTTTTAAATGACATCTAAGGGCAAAACAGACCCAAGACTTTGTGGAATGACTTTCCAGGAAACAACCATA
Y
CTAGGTAAACCCATGCTCACAGGTTCCCTCTGTTAATGGTGAAATTACATCAAGGATGACCTTTTGAAAGAATAAAACTCATTATCACATGGAATATGAT
Celera SNP ID:            hCV3044745
SNP Position Genomic:     210917
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48446):
TGCTCCCTTGTTGCTTGTAGGAATGGGGGTGGGGAAAGGTCAGGACTATATATTTAAGAAAAAAACCCCACATATGTCGACCCACAAGTGGTTACAACAA
M
ATTGGTTTACTTGAAAGCTCTGTCTCCACTCTCCCTACAAAAATTCAAGTAAGAACCTGGAATGCAAGGAGGTGGAAGAGTTTTCTCTCCTTGCCAATCT
Celera SNP ID:            hCV11672187
SNP Position Genomic:     159251
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,8)   total(A,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48447):
TTTCCTGACAATAAAGGGGCTGAGGTGAGGACCCCAGCTGTGGACCACACTACCCGAAGAGAACCAACAACCAAATCAATATCCAAAAAATAACAATAAC
R
TCCAGGTCATTTCACTTATGAGACAGAAGAGGTAAAACAAATTCTCAGATACAAATATTTCTGCTGCTCCACATTGTTCCATGGGGCCAGGATTGTGAAG
Celera SNP ID:            hCV3044746
SNP Position Genomic:     210684
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48448):
GTCACTTGAACTCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGTACCACTGCACTCCAGCCTGGGCGACAGTGCCAGACTCCATCTCAAAAAAAAAAAA
W
AATAATAATAAACAAATGGATGCATGAACAAGTGCATAATAGGTAGATAAATACACCTTAGGAGACAGATCAAAATGCAGACTTGAATTTAATTGGCACA
Celera SNP ID:            hCV11672188
SNP Position Genomic:     161583
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48449):
CCAGGTGATTTGCATACACAGTGGCATTTGAGAAGCATTAATCCAGGGGCTTCTTTGCAGTCAGTGATGGTGATTTGCCAATCATTAGCATTTCAGAAAC
M
CCAGGCCGAAACCATACATTTATCCTTAGCTAGGTCGGTATCAAGTTTCTCTGCTTTCAGCCAGAATCCTAACAATTCAGCTTGGTTGATTATCTAAGAA
Celera SNP ID:            hCV3044747
SNP Position Genomic:     210314
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,6)   total(A,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48450):
CAAGCAGCTTCAGCATCACCTGAGCACTTGTCAGAAATGCAGCACCTAGGCGCCGCACCAGACCTGTTGAATAGGAATCTACATTTTCACAAGATTCCAG
R
TGATTTGCATACACAGTGGCATTTGAGAAGCATTAATCCAGGGGCTTCTTTGCAGTCAGTGATGGTGATTTGCCAATCATTAGCATTTCAGAAACCCCAG
Celera SNP ID:            hCV3044748
SNP Position Genomic:     210218
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48451):
AAGGCCAGTAAAAATAGTCTTACATGCATATTACCATGACCGTGAAAATAATCCCACCCTGGGCATAGCCTGGCTCTTGTTTGAAATGTGTGGTACTTCT
M
TGTGACAAGATATAGAATAAGTCATTGGAAGAAAAACTGTCCTATTACTATATTTTATATAAAAGTGTATCTTGTGTTATAATGGGCCTGGTATACAGAG
Celera SNP ID:            hCV3044749
SNP Position Genomic:     209904
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,8)      total(A,8|C,2) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48452):
GGTTAGGTAGTTTGGCCCTCATCACAGTGCCAGGAGGTGCGGGTGTAAGATTTGAACCCAGGAAGTGTGATTCTTGTAGCAATTGCTGTGTGGTTGAGAT
S
TGGTCTGGGAAGTGGGGCTAACACAGAAGTGTGGATAGGACAGATTATTTCTGCGCTCCAAAGTTATGAATATATATACTCCAAAATATGCTTCAGTGAC
Celera SNP ID:            hCV29090590
SNP Position Genomic:     59517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48453):
CGCTACCACTGGGACGGGCAATGGGAGGCATCTGAGGCTTTGCTGACAACTTCTTCTGCTGTGAGGGTGGAAAGCAGGCCAGATCTTTATGACCTGGACT
Y
CACGTTTTGGGATTCTAGCAAGATGGGACCCACTCCGGGTGCTGTGCCCATTCTCAGTGCCAGTGGGGCTGATATGGGGTCATGGCAGGTAGCGGGAGAT
Celera SNP ID:            hCV27919555
SNP Position Genomic:     887301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48454):
GCATTGCACAGAAGGCTTGCATAAAAAATATGCATCTTCTGTCATCTTCACCCTCTACACTGGCCTCCCAAGTCCCCATGGAAGGTATCTAGTACGGGAA
M
CTTTCTTTTCCTGTAAGAATGTTGTGGCCAAACATGCTGTGTATTGGATGGATGGATGGGAGGATGATTTATATTTTCATCTCGGTATAGTTCATAGGTC
Celera SNP ID:            hCV29090591
SNP Position Genomic:     57176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48455):
CAGAGTTGGGGAGGGAGGGAGATTTTGAAGGGGGAAAACACGAACCAAGTAGGTAGATATTTGCATCTCTCAACTTTTCTCGTCACCAAAAAAAAAAAAA
A
TTTCCTCTTCAAATTTGTAGGTAAAAAGACGTGTTTCTTTAACTTTACCTCTCACAAATGGTATGTTCATCTATCGGCTGGGACTCTTTTAGTTAAAAAG
Celera SNP ID:            hCV2845367
SNP Position Genomic:     1095727
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48456):
CTTGAAATAATAAGCATTCTTATTTCTTTAAGTGACAGAGACATAGCAATGGCTTTCCTGGCTAAACGTGATCATCACAGACACACTGACCAGCTGTTTA
W
CTTTGCTTCCACAAATTCCAACAGGCAACTTAATAGACATTTTGTGGTTATATGTTTCTAAGACAGCCATGGGAAATGAATTTATTTCTACCTTTGTGAA
Celera SNP ID:            hCV27919556
SNP Position Genomic:     883872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48457):
TCTAGCATAATTTTAATGAATCGTGGTCAGAATAGTAAGAAGCATTGCACAGAAGGCTTGCATAAAAAATATGCATCTTCTGTCATCTTCACCCTCTACA
Y
TGGCCTCCCAAGTCCCCATGGAAGGTATCTAGTACGGGAAACTTTCTTTTCCTGTAAGAATGTTGTGGCCAAACATGCTGTGTATTGGATGGATGGATGG
Celera SNP ID:            hCV29090592
SNP Position Genomic:     57135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48458):
CTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGATGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCG
R
GAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCGTGGGGGCCAGAGGGAGACTCCGTCTCAAAAGAAAAGAAAAAGAATGATATTAG
Celera SNP ID:            hCV2845368
SNP Position Genomic:     1087752
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48459):
CTAGGCCGTGATGACCCCTCTACTGGCAGCTTTAGTCCCTCCCTAATCACTGTATTTCTATCATTGATATTAATATTCTTGAAATCACCCGGATTCGAAA
Y
GTCCAGTATCATTCTTGGCTCTTCCCTCCACTCTTCTCTGATCCTTTCGCACCATATCATCCCCTACTGCTTCCCCACACCTCTATCTAGGTGATCAGTC
Celera SNP ID:            hCV29090593
SNP Position Genomic:     51560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48460):
CATCCAAGGTTCACATCAGGACCTTGCAGGCCACAGTGAGAACTTAGAAGACAATTGACATAGGATGATTGGAAAGCAGAATACTGAAAGGCCAATTTAC
R
TATTCAAAGATCGTGTGGAAACCTGTGTGGTGAATAGAGTGGGAGGACAAGAGCAGAAAGAGCAACTCAGAAACAATTTACTAAGCTGGGTAAGAGATGG
Celera SNP ID:            hCV2852586
SNP Position Genomic:     709860
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48461):
CGCAGTCTTTGAAGCTGGGCCGATTGGATTTCAAATTCTAACTCAGTAACTTCCCAACTGTGAGTTTGAGCAAGGTATACCTCTTAAGGCTCAGTGTTTT
M
ATCTGTAAAACAGGAATAAAATAGAAATAATAACAATAACTATCTCATGGGGTTATTATAAGAGTCAACTGATATAATGTATGCACACCATTGAGCAGTG
Celera SNP ID:            hCV29090594
SNP Position Genomic:     51226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48462):
ATCCAAGGTTCACATCAGGACCTTGCAGGCCACAGTGAGAACTTAGAAGACAATTGACATAGGATGATTGGAAAGCAGAATACTGAAAGGCCAATTTACG
Y
ATTCAAAGATCGTGTGGAAACCTGTGTGGTGAATAGAGTGGGAGGACAAGAGCAGAAAGAGCAACTCAGAAACAATTTACTAAGCTGGGTAAGAGATGGT
Celera SNP ID:            hCV2852587
SNP Position Genomic:     709861
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48463):
TTTCAATATGGAAGTTAACAACGCAGTCTTTGAAGCTGGGCCGATTGGATTTCAAATTCTAACTCAGTAACTTCCCAACTGTGAGTTTGAGCAAGGTATA
Y
CTCTTAAGGCTCAGTGTTTTAATCTGTAAAACAGGAATAAAATAGAAATAATAACAATAACTATCTCATGGGGTTATTATAAGAGTCAACTGATATAATG
Celera SNP ID:            hCV29090595
SNP Position Genomic:     51205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48464):
AAGAGCAACTCAGAAACAATTTACTAAGCTGGGTAAGAGATGGTGGCTTGGCCGAGAAGGTAACCAGCAGATGATGAGAGATGGTCAGGTTCAGGTTGTA
R
TTTGAAGATACAGCTGATGGAAGCAGCTGATGGAGTGGATGTGTATAAGGAGCATTGGGCACCCTGTTAGCAGGCTTTAGGCTTCTTTGACTCAGGCATT
Celera SNP ID:            hCV2852588
SNP Position Genomic:     710018
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48465):
CACCTGAGAAGTGCCCCCTGCTGGCCAGCATCATTTCTCTGTGTCTCACTACAGAAGGAGGTCTTTGTTTATGAATTCTGCCCTCCCCCTCTTGCCCTGA
S
ACTATCACCTGCTTTGGAAAGAATGGCATCATTTCCAGAATGCCCCTAGGGGCATTAGCTTCTGTTCTACACTCTCTCTCTTGCTTTTCAATATGGAAGT
Celera SNP ID:            hCV29090596
SNP Position Genomic:     51019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48466):
TGGCTTGGCCGAGAAGGTAACCAGCAGATGATGAGAGATGGTCAGGTTCAGGTTGTAGTTTGAAGATACAGCTGATGGAAGCAGCTGATGGAGTGGATGT
R
TATAAGGAGCATTGGGCACCCTGTTAGCAGGCTTTAGGCTTCTTTGACTCAGGCATTGTACCAACATTCACCTAGTAGCTGATGTTGATTCCTCTCTCAC
Celera SNP ID:            hCV2852589
SNP Position Genomic:     710061
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48467):
TTCTTTGGGCTTCTTTTCTATTCATGACCCTTTGGATTATAAAAGAAGAGAAACACCATGGGGCAGATATGTCCAAGAATAAAGAAAAGAGAAAGTTGCG
S
ACCTGAGAAGTGCCCCCTGCTGGCCAGCATCATTTCTCTGTGTCTCACTACAGAAGGAGGTCTTTGTTTATGAATTCTGCCCTCCCCCTCTTGCCCTGAC
Celera SNP ID:            hCV29090597
SNP Position Genomic:     50919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48468):
GCTCAGGTATGAGCAATGCTGCCCAAGTGCATGGCATGAAACCCACTACAGACCATCGGAAACCTCTTGAGGACACCATTCCTCTCTGGTAGCCTTTGGG
S
CATCATTGAACATTGGGTCAGCATGTTAGATACGATGAAGTTCCAGATCCAAGGACAAGCCCTTTAGATGCCTAGTATATGGCTCTGCCCTGGCATTTAA
Celera SNP ID:            hCV29090598
SNP Position Genomic:     48257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48469):
AAGTGATAGAGAAAACATAAAGAATGCAAATTAAATTTTAAAAATGTGTTGATTCTGGTAGCTGTTACATTGTATATTGCCCCCCAGAACACAGGACATA
K
TCTTTAAACATTTGAAAAGTATTTTGGGATTCAGCAAAGAAGCTGCTCAAGACATTGACAAATAAGTGAAATTCTGACTTAGGTCATTGGTTTATTTTCA
Celera SNP ID:            hCV15813365
SNP Position Genomic:     110515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,11)      total(G,1|T,11) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48470):
AAGCAGAGAGCTTATACATTTCTATCGTATTAGGGAGACAATTCCAGAGAGTGAGAGTGAAGGAAGAGGGGATTGAGGCAGGTAAGGAGGGGAGGCTTGC
K
AAGGCGCGTACTGAGCTGGCCATCCCCAAGTGCAACTGATTGAGAGGTTTGTAGAGCTTTGTCCCTGAGAAGCCTGCCTCACCAGGATGTGGTGTGGGGA
Celera SNP ID:            hCV29090599
SNP Position Genomic:     46371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48471):
AAACATAAAGAATGCAAATTAAATTTTAAAAATGTGTTGATTCTGGTAGCTGTTACATTGTATATTGCCCCCCAGAACACAGGACATATTCTTTAAACAT
Y
TGAAAAGTATTTTGGGATTCAGCAAAGAAGCTGCTCAAGACATTGACAAATAAGTGAAATTCTGACTTAGGTCATTGGTTTATTTTCAATCTTGCTTGTT
Celera SNP ID:            hCV15813366
SNP Position Genomic:     110527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48472):
ATGCTTAGATTAGCTGAGTCTTAGGAACTGAAGTATCCTTGGTCTTTCATTTGTGATAATTTTAAATACAAGTGTTGGTCTGAAGAAAGGAAATGATCAG
K
AATTAGCCCTGGAGCCTGCTGTGTATATTAAATCAATCTCAGATGGAAGAATTGAGATCCCGGAAAGCAAAGAAATGGCTGGACTTAGAGAGGAAAGATA
Celera SNP ID:            hCV10075314
SNP Position Genomic:     157968
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48473):
TGCTGTCACTATTTGTTTTAGGAAGTGCTGGTTTTAACTGAATGAGGAAGTTAAACGCATGTTCTGTTTTTTGTTTTCATTGCGCCCACATGGGTTGACT
R
TGGGTTCGGTTTTCTCTCCAGATTGAACACTTAGTACTTAATGGGGGAACCACCTTGGAAAAGCAGAACTGATTTGAGGTGGCTTCATCCCTCTCTTCTC
Celera SNP ID:            hCV10075315
SNP Position Genomic:     155700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;TSC_42_A(G,0|A,74)   TSC_42_C(G,15|A,67)   TSC_42_AA(A,36|G,44)   total(G,59|A,177)
SNP Type:                 INTRON


Context             (SEQ ID NO:48474):
ATGAATTTGCAGTTCTTACTAAATTAATATATCTAGGCAGTAACCATCAATAAAAAGAAAGACCATATGACATTTGTATGTCCTGAAGTAAGTTCACAAC
R
CCATCTAGTCTTGAGCCAAAAATACTGCACCTGAATCTGATCCAGCCTCCAGGATGTATCTATTTATAGGAAACACAGTGGACAGGCGAACATGTTAAAT
Celera SNP ID:            hCV15897064
SNP Position Genomic:     203583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48475):
AGGCAAGGGCTTCTCCACACCTAGGATTTGATGTAGAATTACTAGGGCAGTATGTAAGGACAGAGAAAGAACAGAGGCAGCGGCAGGCTTCTGACAAGGG
A
ATACTGGTAATCAGGCTCTCTGCATAATTTTTGGAGATTTGGAGATGGAGTTAGTGGAGGGAAAGAAAGAAACGGATATAATTAGAAAAAGAAAAAAATA
Celera SNP ID:            hCV11672192
SNP Position Genomic:     162847
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48476):
TCTTGATCACACCAGGAAGTCTCTGCTACCAACACCCCCAGGAGAAAACAGCTCCAGGCTCTTGAGGCTCCTCACGTAGCAAAGTCTCATCGCTCAGGTC
Y
CGCATGTCAGAATTTGCCATGATTCACTCACAGCATGTGTCATGTGTATCTGGTAGAATGTCTGAAATGCATTCTTCCCATATGGCTTTTCAGGGCCCTA
Celera SNP ID:            hCV15897065
SNP Position Genomic:     215015
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48477):
CATAGCTGTATTGACACATGTTTGTTGAATAGACCAATACCTTGTTTTATGCATAAAAGAAGGCCAGTAAAAATAGTCTTACATGCATATTACCATGACC
R
TGAAAATAATCCCACCCTGGGCATAGCCTGGCTCTTGTTTGAAATGTGTGGTACTTCTATGTGACAAGATATAGAATAAGTCATTGGAAGAAAAACTGTC
Celera SNP ID:            hCV3044750
SNP Position Genomic:     209845
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48478):
CTGATGCACGTGGCCCCTGCTACTGTGTGGTTCCCCTGTTGGCTAGGGTTAGACCACACAGGCTAAACTAATTCCGACTGGCAAATTTAAAGAGAATGAT
R
GAGTGAGTGCTTTGGCAGGAGTCAAGGCAGAGCAGGTAGCAAGTAATCTGAATGAGTTAGGGTGAGCAAGTGATCAGAATGAGTTAGGGTGGAGCAGGTG
Celera SNP ID:            hCV11672193
SNP Position Genomic:     165049
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48479):
TAGAATGTCTGAAATGCATTCTTCCCATATGGCTTTTCAGGGCCCTAAGTGTGAATATGAACTTTGCATGTGAAAGATGCTTCATTTTGCATTTTGTTTG
Y
TTGTTTTTGTTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGACTGGAGTGCATTGGCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGC
Celera SNP ID:            hCV15897066
SNP Position Genomic:     215169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48480):
GTGAGGGGTGGGAGCGCTTAGAAGATGTAAGGATGTGCTCTCTTCTTTCCTCACACTCATCTTATTTGTAATGACATTAATTTGTGTTCTTACCTGCTCA
R
TGTCTTCTCAGTTTGACATGCCATGATGGCATGGACTATGTCTGTTTCTTCTAGCGCTTCATAGCTGTATTGACACATGTTTGTTGAATAGACCAATACC
Celera SNP ID:            hCV3044751
SNP Position Genomic:     209685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48481):
AAAAGAGGATCTACAGTGTCGTTTGCTTGTGAATGGTGAGGGGTGGGAGCGCTTAGAAGATGTAAGGATGTGCTCTCTTCTTTCCTCACACTCATCTTAT
W
TGTAATGACATTAATTTGTGTTCTTACCTGCTCAGTGTCTTCTCAGTTTGACATGCCATGATGGCATGGACTATGTCTGTTTCTTCTAGCGCTTCATAGC
Celera SNP ID:            hCV3044752
SNP Position Genomic:     209650
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,7)      total(A,5|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48482):
TCTGGCAACATCCAAGAATAAGTTATCTCACTTAGAAGAGTTTTCTGTGAAACTGAAGCTCACCACTTCAAGTGCTATATCTTTCTATATATTGACTTCA
Y
TTCTAAAACATAGGTTTCCCCGATTCTTAAATAGAGTATGGGAAAGGAATTTAAGGTCATTTGAGGTAATCATTCTTATAGGTTAATAAGTGAACCAAGA
Celera SNP ID:            hCV2845370
SNP Position Genomic:     1087286
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48483):
CATGGTCACTATCCTTAGAATTGAATTTAAGCTCTGATAGAAAATTGTTGAAAGCCTTCAGTGCTCATTTTTCACCAAACTGAACTCTATAATGGTACTA
Y
AATAGAAAAAAAATTTCCAAAGTTCAATTGGAATTTTTTCCCAGTAACTTAATAATAAGGCTCCAATTTCAGGAAAATAGTTTCAGCATGAGTGAAATCA
Celera SNP ID:            hCV2845371
SNP Position Genomic:     1086959
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48484):
ATTACTGCATAAAAATAGCTCGTTACCACCTTAGCATAGGATGCATGTGGAGGTGGGGCAGGGATGAGCCAGGGCAGCCCAGGAGAGCAGAGCTTACAGT
M
CTCTGGGTAGAGGCCAGCATTTCTGATCCTGTCTGCCTCTGCTATGGAGCCTATGTTTCCTTGGTTCCAATGGCAAGGCTAACAAGAGCGTTCCTCCTTG
Celera SNP ID:            hCV2845372
SNP Position Genomic:     1085184
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48485):
TAGCAGGCTTTAGGCTTCTTTGACTCAGGCATTGTACCAACATTCACCTAGTAGCTGATGTTGATTCCTCTCTCACAAAGACAGTATCTTAGTTTGAAAT
R
CTTAAGAAAAAAAAATGTACCTGATCCAAGGGGAAAATGGAGCTCCACACTAGCAGGGATAAAAGGAAGGTGGTTCTGATTATTTGTGCTGCTCATTTCC
Celera SNP ID:            hCV2852590
SNP Position Genomic:     710186
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48486):
TGTGCCAGTCATAGAGGCCACATCCGGTCGTAGGCCGTACCCCATGCACAGCTGTCCTCTTGGCACAGTTGACTGAACATGCTTTCGCCGTGTGGGAGAC
Y
GAAGCTATATCTGTTTGAGCTACAACTAAAACCCTGGAGTCTCTGCATGCCTTTGCCAACATCTGGTGGTTCCCCAAATGTGTCAGGTTCTTCTCTGCCT
Celera SNP ID:            hCV2845373
SNP Position Genomic:     1083729
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48487):
ATTTCAGTAGTGTTAAATTTTTTCATGCTATTGTGAAACACATCTCCGGAACCTTTTCATCTTACTCATCTGAAACTCTATAGCTACCCTTTGCCCCCTT
Y
CTGTGTCCTTGAGAGTCACCATTCTACTTTCTATTTCTGGAAATTTGATTACTTTAGAGAGCTCATATAAGTGGAATCACACAGTATTTGTCTTTTTGTG
Celera SNP ID:            hCV2852591
SNP Position Genomic:     711040
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48488):
CGGTGCACTCTGTGTGCCAGTCATAGAGGCCACATCCGGTCGTAGGCCGTACCCCATGCACAGCTGTCCTCTTGGCACAGTTGACTGAACATGCTTTCGC
Y
GTGTGGGAGACTGAAGCTATATCTGTTTGAGCTACAACTAAAACCCTGGAGTCTCTGCATGCCTTTGCCAACATCTGGTGGTTCCCCAAATGTGTCAGGT
Celera SNP ID:            hCV2845374
SNP Position Genomic:     1083717
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48489):
TTTGCAGGTTTCTACATAAAGATCTACTGGGAATGACTGATTTCCTTACGGAGCGGGGGTGGTCCTATGGGGATGATTGGCACCTCTCTCAGATTGCCCA
R
CCTCCCCCTGCTCTTCTGGGAGACTGTCAGGGTGCTGCTCTTTGGACTACCTTTGAAATCTTGACCTGTGACAAGGCTGTGGCTGGTAGTGATGTTGCCA
Celera SNP ID:            hCV2852592
SNP Position Genomic:     714795
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48490):
ATGCGGTGCACTCTGTGTGCCAGTCATAGAGGCCACATCCGGTCGTAGGCCGTACCCCATGCACAGCTGTCCTCTTGGCACAGTTGACTGAACATGCTTT
Y
GCCGTGTGGGAGACTGAAGCTATATCTGTTTGAGCTACAACTAAAACCCTGGAGTCTCTGCATGCCTTTGCCAACATCTGGTGGTTCCCCAAATGTGTCA
Celera SNP ID:            hCV2845375
SNP Position Genomic:     1083714
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48491):
TGATTGGCACCTCTCTCAGATTGCCCAGCCTCCCCCTGCTCTTCTGGGAGACTGTCAGGGTGCTGCTCTTTGGACTACCTTTGAAATCTTGACCTGTGAC
R
AGGCTGTGGCTGGTAGTGATGTTGCCAGGAAGATGGCATTCCAAGGTCACCATACTCCCGCTAAGGTCTAACAAAGCTTTGTTTAGTATTTCTACTTGCT
Celera SNP ID:            hCV2852593
SNP Position Genomic:     714868
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48492):
GGCTGCAGGTTACATTCCTTGCCGAAGCCAGGGCTGGATGATAATTCACTTTGTCATTACTTAATTCTGTGATGGCTGAAACGACTGAGCCAGAATAAAA
S
TCTCAGTCCCTGAAAAGATGAGAGACTCAGTGTCAGGATGTTTAGGAACAGAAAAAGCAAGAGGGCAGCCGAATGGGGCCATCGGGTGGCTGCATAAAGA
Celera SNP ID:            hCV2845376
SNP Position Genomic:     1083418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48493):
ATGTTGCCAGGAAGATGGCATTCCAAGGTCACCATACTCCCGCTAAGGTCTAACAAAGCTTTGTTTAGTATTTCTACTTGCTGGGAATTTCTGTGTACAC
R
TGCTCATTTATCTTTTTATTTATTTAACAATAAAACCGAGAGTGGTATTCTAAACACCATATGTTGCTATGGTGGAAACTAAAACCTGGAAAGCTGAAGT
Celera SNP ID:            hCV2852594
SNP Position Genomic:     714987
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48494):
GTTGCCTCAGCAGCTGCTTAATAAGCACCTACTATGTGCCAGGCACTGTTGTTAGGGACAGAGTGGGAATCAGGAAAACATGGCCTTCCTCTTGGGGAAT
S
ATCAGAGAATGGGCAGGTGAACTGCTAAAAAGTTGCAACAGGTGTACATATATTTCTTTTGTTTACAGGTTTTGGGAATGCAATCCCATATTTCCTTTTT
Celera SNP ID:            hCV2845377
SNP Position Genomic:     1082749
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|G,8)      total(G,8|C,3) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48495):
TTCATTTGTGTGTGTTCTACTCTGTGCTGCGAGCTCTTTAGGGGAAGGCCTGAATCTCATCCAGTGGTTTCCTCTCAACATCTTGTGTAGTGCCTGCCCC
R
TGACAAGCCCTCGGCCAATGTTTGCTAAATGCATGACTTATAAGACATGGCCCCCAAAGCACGGGCATTGTGAAACATGCTAACCAGATGAAAGGTGACC
Celera SNP ID:            hCV2845378
SNP Position Genomic:     1081304
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48496):
ATATATAAGAAACTCATTAAGCTCCTCAATTCATGGATGATTTTGCCACAAATGAGGCAAGAGTAAAAAGTAGCAATCAATGTAAAGCAAAGCTACTAAG
Y
AAATAGCTTAGTAAAGATAATGAAACAAAAAAAATGTAAGGGAGTCCATGCAAAAACATTCAGCAAGTGTGAGCACAGTGAGGGGAATGTGAGTGTTACA
Celera SNP ID:            hCV2852596
SNP Position Genomic:     719266
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48497):
CATGGCTGTGTTCCAATAGAACTGTGTTGACACAGGGAGTCAGAGGGCCAGATTTGGCCCATGGGCCATAGTTTGCCAACCCCCATGGTACACCCCTACC
R
GCATTATGGTATCTTCATTTGTGTGTGTTCTACTCTGTGCTGCGAGCTCTTTAGGGGAAGGCCTGAATCTCATCCAGTGGTTTCCTCTCAACATCTTGTG
Celera SNP ID:            hCV2845379
SNP Position Genomic:     1081190
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48498):
GAGATGGAGAGAAAGGACAGATGGCCAGAGCTCAGGCCAAAACTTTGGATTCCAGTCTCTTAAAGAGGCATAGCCTCTTCCAAAGAGGGCTCTCTGCAGT
S
AATATCATATCAGCTACCTGTTTGGCACCAGGCATTGGGTCCAGGCTTCAGGATTTGCTAATAAACTCCCGTCCTCATGTGGCCAGACAGAGAGGTAGAC
Celera SNP ID:            hCV2852598
SNP Position Genomic:     719790
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,11)      total(G,3|C,11) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48499):
TTTTAAAAATGTGTTGATTCTGGTAGCTGTTACATTGTATATTGCCCCCCAGAACACAGGACATATTCTTTAAACATTTGAAAAGTATTTTGGGATTCAG
Y
AAAGAAGCTGCTCAAGACATTGACAAATAAGTGAAATTCTGACTTAGGTCATTGGTTTATTTTCAATCTTGCTTGTTCATTTAAATGGAAATGGCAATCA
Celera SNP ID:            hCV15813373
SNP Position Genomic:     110550
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48500):
ATTGCTGAGTGATATTCGATGGTATGGTATGCCAGAGTTCGTTGAACCATTCACCCACTGAAGGACATTTGACTTTGTTGCTAGATTGAAGCTACTGCAG
W
TAGAGCCACCCTGAATATTTGTGTAAGGCTTTTGTGTGAACATACATTTCCATTTTTCTGGGTACCAGCTGCTGGATCATATATTAAGTGCATGTTAGTT
Celera SNP ID:            hCV27975453
SNP Position Genomic:     1017886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48501):
CCCTCCCCAGCAGCTGTTGGGTCCAGCTCTCTGGGGATGTCTGAGATATAAATGCTCAGACCTGCACACTGACATTTAAAGAGCCAGTGAGGGGTCTGCA
Y
TCTTTATTTAACACCTTCTTTCTGTTGCAATATGAGGTCCTCCCAGATGCCCCTATGGGAATTACTAATGGCCATCACATCTTGGTTCAGGGAATGGTTG
Celera SNP ID:            hCV27975454
SNP Position Genomic:     960163
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48502):
AAAAAAGAGAGAAAAGAAAAATGCCTTAAAATTATTATGCATGCAACTTTTTCTTTCTTTCTTTTATCCATAGCTATACTTGGCCAAACAACATTAAGTC
M
GGTTATATTTGTCCTTTTCCTCAATTGTTCCTACCTACCTACCGACTTACTTGGCTATTTTCATTCATCATTAAGTGATTGATGGATCATAGTTGCTAAG
Celera SNP ID:            hCV12106390
SNP Position Genomic:     386214
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48503):
AGTCAGGTTATATTTGTCCTTTTCCTCAATTGTTCCTACCTACCTACCGACTTACTTGGCTATTTTCATTCATCATTAAGTGATTGATGGATCATAGTTG
Y
TAAGAGAAGACACGGAAATGAAGGAAATCAACCCATTCCTTCATTGATTCATTATGTTTAGAGAGCTACCATGTATGAGGTATTTTCCAGGACTTTATGA
Celera SNP ID:            hCV12106391
SNP Position Genomic:     386310
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48504):
AAGCCAATATTCTCTCTGCATATTTAATAGCTGTTCTTTTTAAAAAATTGTATCTATTAGTGCATATTTGATGGTGGATAATGTATATTTAATAAACCCA
Y
TGAGTCATGTAGCTGTACAAGCATTTAGGAGATTATGCCATCTAGGAAATTAAATATTATCAAGTGTTGTCACACTTGAGCATGAACAAATACAGACTGC
Celera SNP ID:            hCV12106392
SNP Position Genomic:     387995
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48505):
CGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTCAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAG
S
CTGGGCAACAAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACCAAGAATGGCTCAGGTAGGGGCCAAAAATCTGCATT
Celera SNP ID:            hCV12106394
SNP Position Genomic:     388389
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48506):
CACTCGAGGTAAAATGGCAAACAAGACACTTTCTTCCCTCAAGAAGTTCACAGTCTGATAAGGAAAAAAGCAAAAAGAACAAGTAATGACAAGTTGAACT
C
TGAATATTCTGACAGATCAGGCAATTCACACACACAAAAAAAGGAAATAGAATTGCCGATATTATAAAACAATCTCTAACCTTCCCATTCATTGAAAAAT
Celera SNP ID:            hCV12106395
SNP Position Genomic:     392399
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,4)   total(C,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48507):
CCATTCATTGAAAAATTTTCAAACTAATACTACACTCTCTTCCAACCATCAGATTGGCCAACAAAAATAAACATTGTATTATCAACCGTTAGCGTGAGGA
R
ACAACTCTTAGAGCCCAAATCGATAAAAAAAAAAAAAAAAAAAAAAACTTAGCATCTAACTAAATTTTAACTGACGTTTCATTTGAATCAGCACTTTCAG
Celera SNP ID:            hCV12106396
SNP Position Genomic:     392584
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48508):
AATACTACACTCTCTTCCAACCATCAGATTGGCCAACAAAAATAAACATTGTATTATCAACCGTTAGCGTGAGGAAACAACTCTTAGAGCCCAAATCGAT
A
AAAAAAAAAAAAAAAAAAAAAACTTAGCATCTAACTAAATTTTAACTGACGTTTCATTTGAATCAGCACTTTCAGAATGGCTCTGAACTACTTAAATATA
Celera SNP ID:            hCV12106397
SNP Position Genomic:     392609
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48509):
AATCAATGGTTTAGCCAGTGGAGGATTGGGACAAGAACTCAGAGGGAGAGAGGAGAATAAATCTTTGCAGGCTGCTCTGTCCTTCCATTGGGGGTTACAG
Y
TCTTCTCAGGGAGCCCCCTCCATGTGGCCGCGTCTTTTGGGTCTGGAAATTGTTTCCTCCCCTGGCCCTCTAGGCTTAGATGTGGGAAAGGTGCCCCATT
Celera SNP ID:            hCV15897073
SNP Position Genomic:     218252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48510):
AGGCTGAGTAATGGTCCCGTAATAAGTCTACATCCTCATTTTCAGAATGTGTCAAGGTTACCTGTATGACCCAGATGAGTATGATGTAATCACAAGCTTA
Y
AGAAGGGAAGTAGGAGGAGCCAGAGTTAGAAACAGAAGACGATGTGATGAAGGAAGAGAGACAGAGAAAAACAGGTGAGAAGAGGCCATGCTGCTGGCTT
Celera SNP ID:            hCV15897074
SNP Position Genomic:     223178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48511):
GCCTGGCCAAGATGGCAAAACCTCATCTCTACTAAAAGTACAAAAATTAGCCTGGCGTGGTGGCCTGTGCCTGTAATCCCAGCTGCTTAGGAGGCTGAGG
M
GTGAAAATTGCTTGAAACCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCACACCACTGCACTCCAGCGTGGGTGACAGAATGAAACTCTGTCTCAAAAAA
Celera SNP ID:            hCV3019902
SNP Position Genomic:     325658
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48512):
TCTGGCCAGCTGGGTGACTTGACTAGCAGACCATTACTCCATGTGGGCCACCGTTTCCCATGAATAGAGTGCGACATTTGAACTAAATGAACCTAGGTTT
S
TCCCATGGAGTGCAGTTTCTCCCTAAATGAACCTAGGTTTCTCCCATGGAGTGCAGTTTCTCCCTAAATGAACCCAGGTTTCTCCCATGGAGTGCAGTTT
Celera SNP ID:            hCV3019903
SNP Position Genomic:     283892
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48513):
GAGTGATGTATGGAGAGTCAGTCATAGTACATGTGCAATTCAAGATACCTGGGTGGGCATAGTAGTCTTTCCCCTGGAGTTCTATGTCATTGCAGCCTCC
Y
CTCCCATCACAGCATAATTTAAGTGAAGCAGGTTTAACGGGTGGTCAGTATTTACCAGAGCCAGCCTTCTGCTTCTGGCCAGCTGGGTGACTTGACTAGC
Celera SNP ID:            hCV3019904
SNP Position Genomic:     283718
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48514):
GCTAATTATGATATTTTGAATGGTAATAAGCAATTAGAGTGAGATTTAAAGAAGAAAAAAACACCTGTATATAACTTGGCATCTTTTGTAATAAATACAA
R
CACCTAAATATAACTTGGCATCTTTTGTAATAAATACAAACTTTTGTCAATCATGACTTGATCTAACCGATATGCCTCAGGTCTGCACAGAACGGAAATG
Celera SNP ID:            hCV3019905
SNP Position Genomic:     283201
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48515):
AAACATGAACTTACTTTGACTTTTCCAAATATACCATGTTCCTTACCACCCAGTGTCCTTGCAGCTGCCATTCCCTCTGCCAAGAGTGATTCTTGCTGGG
M
CCCTTTTAGATCACATCTTTATTCCTGGTGGACAGAAAGAACCAGGACAACAAGCCCATGCCTGTCCCAAGTATAGCTGAGTGCTTGACACTTAGAGAAT
Celera SNP ID:            hCV3019906
SNP Position Genomic:     279184
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48516):
GTTGGCCAGGCTGATCTCAAACTCCTGGCCTCAAGTGGTCTGCCCCGCCTCGGCCTCCCAAATTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCT
R
CAGTAGTTTTATAGGACATAGCTATGGTGAGTAACAAAGATCAAGTGTGCTTGCTTGCCTGAACATTCACTACCTGTCTCCCCACACTAAACTGTAAACC
Celera SNP ID:            hCV2845380
SNP Position Genomic:     1080153
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48517):
AAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCTGCCACACTGCTGTGCAATTCTAAAGAATTCTGGGAGTGCTGTCAGAGAGTACTTGAGCCAAAGT
Y
GCCCATCAAAAAAGTTTTAAATTCACAGGAGTGGGTTTGCCTTAGCATAGCTTTTGAACTAAGTAACTGGCCAGCAGCAGCATGTGGAAGCATGACCTTG
Celera SNP ID:            hCV3019907
SNP Position Genomic:     276158
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48518):
CATTCATTCATGTTCTTTGTGTCTGGGGCTTCTTTTGAAATCTGTAAAGGTGGGAGGACCAGGGAATCCAATAGAGTGAGCACATGAAGAGACGTCCTTC
R
AGCCCACACTGGATCCACCTGGAACTCCCACCAGGGAGTTCACTGGGAGTGGGGACTTGGCAGCTGCCAGGGAGAATTCTTAGGCAAGTGGTTACTGTTT
Celera SNP ID:            hCV2845381
SNP Position Genomic:     1078675
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48519):
CTGTTCCCCATTCATTCATGTTCTTTGTGTCTGGGGCTTCTTTTGAAATCTGTAAAGGTGGGAGGACCAGGGAATCCAATAGAGTGAGCACATGAAGAGA
Y
GTCCTTCAAGCCCACACTGGATCCACCTGGAACTCCCACCAGGGAGTTCACTGGGAGTGGGGACTTGGCAGCTGCCAGGGAGAATTCTTAGGCAAGTGGT
Celera SNP ID:            hCV2845382
SNP Position Genomic:     1078667
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48520):
CAGTCGCTGGGACTACAGGTGCCCGCCATCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTAGCCAGGATGGTCTCAGT
M
TCCTGACCTCGTGATCTTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCTGCCACACTGCTGTGCAATTCTAAAGAATT
Celera SNP ID:            hCV3019909
SNP Position Genomic:     276022
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48521):
GCACCACCATGCCCAGCTAATTTTTCTATTTGTTTGTAGAGATGGGGTTTCGCCATGTTGCCCAGGTGGTTCTCAAACTCCTGGGCTCAAGCAATCCACT
Y
GCTTCTGCCTCCCACAGTGCTGGGATTACAGACGTGAGCCACCACAACTGGCCTCAAGGAACTTCTCAACAGGGAAACATTTCTTTCCTTTGTTTTGCAA
Celera SNP ID:            hCV2845383
SNP Position Genomic:     1078341
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48522):
CAAGGGATCCTCCCACCTCAGCCTCCTGAATAGCTGGGATCACAGGCATGCACCACCATGCCCAGCTAATTTTTCTATTTGTTTGTAGAGATGGGGTTTC
R
CCATGTTGCCCAGGTGGTTCTCAAACTCCTGGGCTCAAGCAATCCACTCGCTTCTGCCTCCCACAGTGCTGGGATTACAGACGTGAGCCACCACAACTGG
Celera SNP ID:            hCV2845384
SNP Position Genomic:     1078292
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48523):
ATCAAAACTAATGCAAAAATTAGCCAGGCACGGTGGTTCACGCCTATAATCCCAGCATTTAGGAAGGCTGAGGTGGGCAGATCACTTGAGATCAGGAGTT
S
GAGACCAGCCCGGCCAACATGATGAAACCCCGTCTCTATTAAAAATACAAAAATTAGCCAGGTGTGGTGGCGCGTGCCCATAGTCCCAGCTATTCAGGAG
Celera SNP ID:            hCV2845385
SNP Position Genomic:     1077208
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,4)      total(G,4|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48524):
TCATGTTAGGCTTCCCATGCAATGAACATGACCTGTGTTCACCCCCACATCACTCATGCAAGAGCATCCAGTTTGCTGGAGTTGTCTCATGTCCCATATC
Y
ACTCCTGCTGCAGTGGGAGAGAATGGGAGTGGGTTACTACCTCCCACCAACACTGCACAAAACAGGGTTTTCTCCAAAAGAGGGGTTGGGATGCTATGAG
Celera SNP ID:            hCV2845386
SNP Position Genomic:     1076524
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48525):
AGACAGACTGGAAAAAATGAGTAGCCGCCAGATAGAACTCAAGGGGAGGGAAGGAGGGATTAGGGACCACCACAAAGAGAACAGCTGAGTTCTCATGTTA
K
GCTTCCCATGCAATGAACATGACCTGTGTTCACCCCCACATCACTCATGCAAGAGCATCCAGTTTGCTGGAGTTGTCTCATGTCCCATATCTACTCCTGC
Celera SNP ID:            hCV2845387
SNP Position Genomic:     1076432
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48526):
ATTTTAGTTGATGGATTTATGACAGCTTTCATTGCTGATAGCCACAGCAAAAATCATTGCTGCCAGATGCCTGTAAGAGCATGGGGAGGGAGTCTGGCCA
R
ATCTCCATGGACTCAAGGTTGCTCCCTGGACTCAAGGTTGCAGGAGGTCCCTAGGGATGCATTCTTCCCGGCTTGCTCTTTCCATAGCACAGAGGCTCTT
Celera SNP ID:            hCV2845388
SNP Position Genomic:     1074509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48527):
CACACTCAGGAAATGTGACTCAATGACAGCCGTCCTCACCTCTCTGCTCTTCTGCCTCCCAAACCAAACTGAAGCCAGAGAAGCGTGCCCTGTGTGTGCA
R
TTACCAGACCCAATAGCTTGCTCTCTCCAACTTCTGTTTTTCAGAATAAAATTGTTTGTTCCATTTCTGATTTTAGTTGATGGATTTATGACAGCTTTCA
Celera SNP ID:            hCV2845389
SNP Position Genomic:     1074339
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48528):
TGAAGGGAGGGTGAGAAATGTGAGGGAACACGTGGGCAATCACCAGGAAGTTCCTTTGTTTGTTGCAGTGACAGTCTGGAAAACAATGTGAACTGGTTGA
S
AAGCTTAAAAATGGATCTAAGGGCAAAAATGCTAAAGGAGAGAAAGAATTGTTGACAGTGTATAAGAAGATGATTAGGAACAAAGTGAGATGGGCAGTTT
Celera SNP ID:            hCV51825
SNP Position Genomic:     900432
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48529):
TTGCAGCATGTGGAGCACTGGCCTCCTTTGTGCCTGTGGCAGAAGAACAAAGAGTTACAGTATCAAAAGCAGCCCTTAAATGCTTCAACCATCCCTTTGG
C
TAGAACTAGTCATGTGGCCCCACCTACCTGAAGGGAGGGTGAGAAATGTGAGGGAACACGTGGGCAATCACCAGGAAGTTCCTTTGTTTGTTGCAGTGAC
Celera SNP ID:            hCV51826
SNP Position Genomic:     900303
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48530):
GTGCTTAGCACTGAATACATGTCAGCCGTAATTATTATGAAAGTGACTTTATTTGCCTAAAGACACTCTGACCCAACCTGCCAGATTCCATTCCCACCTC
R
GTGCCAGCTCTTTCCCCAGCATCAACGGTCCTTATCTCTGCTTTCATTTTCCCATGTCCACTGCAACCTCTACAACTGTTGTTGCTTACTTTTAGTTGAG
Celera SNP ID:            hCV27516062
SNP Position Genomic:     1059090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48531):
CTTTATCTTTGCAATATTTAAGAGCTTTGGTTACCAATCATTGTGAACTTTTGTGTTGCAGGGGGTGTAAACACAGCATAATCAATCAATTGATGTCTAC
R
CTCTTCACTTTTCTTTAAAGTTGTCTGAAAGTGCTGTCTCTTTGCCTGACAGACATAGTATATCTACCCCTACCCTAGACTTGTGTTCATCCAATTGTGT
Celera SNP ID:            hCV15943042
SNP Position Genomic:     240419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48532):
CTGAATACATGTCAGCCGTAATTATTATGAAAGTGACTTTATTTGCCTAAAGACACTCTGACCCAACCTGCCAGATTCCATTCCCACCTCGGTGCCAGCT
S
TTTCCCCAGCATCAACGGTCCTTATCTCTGCTTTCATTTTCCCATGTCCACTGCAACCTCTACAACTGTTGTTGCTTACTTTTAGTTGAGTGTAAATCAA
Celera SNP ID:            hCV27516063
SNP Position Genomic:     1059100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48533):
ACTAGATGTGTACTTGGAAGGGCAAAACAGTTATTTCAATGTACAAATTATTGCCTCATTACTTTATCACATACCAGAAGAGAGTTTGGGATGGATCTAA
R
AAGTATAACAAAACCACTGCAAGTTGTTCTGTCATTTAGCATTTAATTAAAAATAACTAGAGAAACAACTATTTGAAATGCTCAGTGTTTTTCTTCTTTT
Celera SNP ID:            hCV15943043
SNP Position Genomic:     271673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48534):
GCAAGTTTGGGAGTAGGGGTGGGAATCCCACTACAGTCAAATTATTTTGATGTTACTTTCCAGGCTTAGAGTTTATCTTCCATATTTCCAATGAGAATCA
R
TTCCTCAAGTGGAATTTTATGATAAACTGCTGAAAGTAGTATTTAAAATGGAAACCCTGACAAGAATGAGTGTCACAGGGAGTAATGAATTCATGATGGA
Celera SNP ID:            hCV15943044
SNP Position Genomic:     326825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48535):
CTTTTGGGATTCAAGGGTTTAAGTATCAAGTTTGACTGATGGATTTGGAGGGAAGAATTGAAAACTGCCTGAGGGAAGGCGCTTTGCTTTTTCTTTTGTG
R
GGCAAAAGCTTTTGAAAACTGTGACTGTACAAAGAGCCACAGCTCCTCTGAGGAGTCTGTTATGCGGCAACACATACTCAGATGTGGACAGCAGTGAGCA
Celera SNP ID:            hCV27516064
SNP Position Genomic:     1110212
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,218|A,1277)   total(G,218|A,1277) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48536):
GTCAGGCAGGTCCAGATGGATCCTCTAGGACCTTAGAGACCATGGTTAAGAGTTTGGATTTTATTCTATACCCCATGGGAAGTCATTGGTGGGTTTTAAG
Y
CGGGGATTCACACTCTGTGATTTAACACTGGCTGCTCTTTGGAGAATGGACTGTAGCAAGCAGAAGAGAAGCAAAGAATCAGGTGCATTGCAGTGGTCTA
Celera SNP ID:            hCV27516065
SNP Position Genomic:     1122524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48537):
TTAACACTGGCTGCTCTTTGGAGAATGGACTGTAGCAAGCAGAAGAGAAGCAAAGAATCAGGTGCATTGCAGTGGTCTACACAAAAGACGATCCCTAGTC
R
TCTTACCACCTGCCTCCTACAATAACCAAAGAAAGTGGACCCACACCACAGCTACCTCGGTCCACTGCATGTGTGGAAGGTGATGATTCTCTTGGGCATG
Celera SNP ID:            hCV27516066
SNP Position Genomic:     1122646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48538):
GCTATGCTCAGTCATGTAATGCTGGCAACCATGCTGCGCAAACATGGGTCCCCTACATCAGGGGTCCCCAACCCCTGGGCCACGGACGGCCCCAACCCCT
R
GGCCACAACATCAGATTGTTATTGGAGCACAAATCCTATTGTGAACTGCACACACAAGGGATCTAGGCGGCACACTCCTTATGAGAATCTAATGCCTGAA
Celera SNP ID:            hCV27516067
SNP Position Genomic:     1124066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48539):
CTCCCAAAGGCATTTTTACCAGTGCATGTGCCTCGCACAGACCTAGTGAGGTGATTAATTCTACTGGGAAAGTCACACTGGATGAACGAGAGGAGACGTA
Y
GAGTGGGGTCTTGAAACAGTAAAAATTTGCCAGGTGGAAGCATAAATGACTCTTTAAATGAAAGCCTGGTGTTTTTAAAGCAGTTCATTCTCATGAGTAA
Celera SNP ID:            hCV27516068
SNP Position Genomic:     1126577
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48540):
CCCAAGTAGCTGGGACTACACACGCACCCCACCACACCGAGCTAATTTTTTGTATTTTTTTAGTAGAGTCGGGGTTTCACCATGTTGGCCAGGATGGTCT
Y
GATCTCCTGACCTCATGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGAATTACAGGCTTGAGCCACCGCGTCTGGCCCAACAAATATTTTTAAGATGCA
Celera SNP ID:            hCV15897082
SNP Position Genomic:     205120
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48541):
GTGAGGGTGCATAGAAGAGTAGGTCCCGCCCTTTTTAGGAGTATACTGTGGACTAGAGTCAATCTGTAGACAAAGCTAGGCTAACTTCCTACTGGGCAAC
R
TCTGACCCCTTTCATCTTTGACCTCAAGAAAGTCACTATTGTTGGTAAAGTGAGGAAGGACATGGAACCTCTGGGGAGAATCTGACCTAAAATGGCTTCA
Celera SNP ID:            hCV15897083
SNP Position Genomic:     206652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48542):
ATCATAATTTTTACTACACTTTGTGGCCACATGAACTGGCAGAAGAGGCTGTCCTAAAATCCTAATGTGGCAAAAACCAATTTTCAGAAGTCAATTTGGA
Y
GTTATAGGTAGCGCTCTTCACACCCAATAAATTGCTTATCTTTGGCTTTGAACTGATGGGCACGTACACAAAAGATTGGAGCCAACTGATTGCATTATTA
Celera SNP ID:            hCV27998334
SNP Position Genomic:     462602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48543):
GGTACTGTCTCCCAGTACTTTGTTTTTGAAGATTTGTGACTACATGGTTTCAGTGCTATATCTAATAAAACTGGCTTCAAAACGCAGAGCACTAGCATTT
Y
CATATGTTTCAGTAAGTCTCCCAGCCTTCGTGATTCTAGAGACACCAATCAGTTGATGCTAGCTGCAGTTGCTAGAGATTCCTTCCTGGAATTTTGATGT
Celera SNP ID:            hCV3019910
SNP Position Genomic:     269110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48544):
AAAAGTTAATCATCAGGTCTCAGGAGTTCAGCAACCGACCATCATGAGCTATATAGTATTAGTCTGCAGCTCTACCTGAGAGCAGCCCAGAAACCAAATA
S
GAATATATCAGACATTATCCCAGAGAGAAGGCTCAGTCAAGGATCTGCAGCTGGGACCTGCATATCTTAATTCCCCTGTTCCTGGGGAAGTTATCCAATA
Celera SNP ID:            hCV27998335
SNP Position Genomic:     474797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48545):
TGAAAAATAGTTCCATTTGAAAGTCCATTTCTTTCAAATTCAAAGAAAGAAAACAACTAAAATACGTAAGTCTAAAGGGCATGGTTGATTTAGGATTTTC
K
AGTGGGAAGACTATTAAAAGAGATGCTTGCTCAAGAGAGTATAGACTCTTCTTTGGAAATTGGCATGGGCCACAGACCTCCATAGGTAATACATTTAAAA
Celera SNP ID:            hCV3019911
SNP Position Genomic:     268893
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48546):
TGAAATGCTCTTCCGTTTGCTGTTTAAGACACCATACTGTCCTTGTTCTCCCACTCTTTCTGTATAGAAACCCATATGTTTTCTTCCTCTAGTTCTTCTT
M
TTATTCCTCCTGCCATTGGAAGTGCCTGTCCATTTCCTGTCTTGATTTTCCTTTGCTGTTTTCTACCATCCTCAACAATTTTATCCAACCTAGCAGCTTT
Celera SNP ID:            hCV27998336
SNP Position Genomic:     429002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48547):
CAAGCATGCTGGTTGATCAAATGTTGCATCTATATCTTTGTGATTAACACCTGACAGATATTTCTATGATGCGTTCTGACAGGGTTACACATGACAGAGT
K
GGCTCTGTCTATGTTGTACTTAATATTATTGTAGAAAGAAAAATTGAGTATATCTTGTGAAAAATAGTTCCATTTGAAAGTCCATTTCTTTCAAATTCAA
Celera SNP ID:            hCV3019913
SNP Position Genomic:     268735
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48548):
TCTCTCTACCTACCTACCTATCTACCAACCAACCAACCTATCTAAAATCTATCTATAATCTATTAGTTTTTCTTGCTTCACAAATGACTTAAGGCAACTC
R
CTTTCGGGTTGATGGAAGAAAAAATACAAGTAGCAAACTTGGATGAAGTTGGAAGAAACTTGGCACCCACTGTGTCTGGCATGTGCAGATATGAGTGATG
Celera SNP ID:            hCV3019914
SNP Position Genomic:     268451
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48549):
ATACTCTTAGTTGGTTCTGCTCCATTGACCCTAGGGAGGAAGAAACAACTAATTTGTGCTTTCTGTTATTGCATTGAAAGAGAGTGGTGACTCGCCGGGC
K
CGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATCGAAACCATCCTGGCTAATACGGTGAAACCCC
Celera SNP ID:            hCV3019915
SNP Position Genomic:     291710
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|T,6)   total(G,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48550):
CCTTTACTAGAAGGTTGATAGATTAATAATCTCCCCACTAAGCTTATAGCTTAGCAGACCTCCATGGTGGCCATGATGAGGATTCCTTTAACACATGATT
K
GCCCTTAGTCCCCATTTCTCTGGTGTGAGTTTTCAGCTTTTGTTACCACATCAAAGCTCCGGCAATTTGTGCAGGAAACCCCTTGAAGCAATCATGAACC
Celera SNP ID:            hCV29090906
SNP Position Genomic:     285350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48551):
TATGTCTTGATCACACCAGGAAGTCTCTGCTACCAACACCCCCAGGAGAAAACAGCTCCAGGCTCTTGAGGCTCCTCACGTAGCAAAGTCTCATCGCTCA
R
GTCCCGCATGTCAGAATTTGCCATGATTCACTCACAGCATGTGTCATGTGTATCTGGTAGAATGTCTGAAATGCATTCTTCCCATATGGCTTTTCAGGGC
Celera SNP ID:            hCV3019916
SNP Position Genomic:     215011
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48552):
GTGGATCACCTGAGGTCAGGAATTTGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAATTAGCCGGGCGCCTGTAATCCCA
R
CTACTTGGGAGGCTGAGGCAGAAGAACCACTTGAACCCGGGAGGCGGAGATGGTGGTGAGCCAAGATCACGCCACTGCACTCCAGCCTAGGCAACAAGAG
Celera SNP ID:            hCV2845390
SNP Position Genomic:     1072273
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48553):
AGGAGCCCTTTACTAGAAGGTTGATAGATTAATAATCTCCCCACTAAGCTTATAGCTTAGCAGACCTCCATGGTGGCCATGATGAGGATTCCTTTAACAC
R
TGATTGGCCCTTAGTCCCCATTTCTCTGGTGTGAGTTTTCAGCTTTTGTTACCACATCAAAGCTCCGGCAATTTGTGCAGGAAACCCCTTGAAGCAATCA
Celera SNP ID:            hCV29090907
SNP Position Genomic:     285344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48554):
GCCAGGGGCAGTAGGTGCATACAGTCCTATGCTCCCAGCTTATGAGGAAATGCTCTGTCCCTCCACAGGCTTGATCAGCGGCCTCCCTGCTCCTGTTCTC
Y
AGATAGAAGTTTCCCTAGTTTTGCTGGTCTCAACTCATGCACAGGAGGAAGCCAGAAGTGCCCTGCTGTGATGATCAATCCATATGCATGTTTGCCTCCA
Celera SNP ID:            hCV3019917
SNP Position Genomic:     214739
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48555):
TCTCTCTCCATTCATTCATCCCACACCTGCAACATACTGGGTGCTTTTCTAGGCATTGGGGGATAAAGTAGCCCCAGAAACAATTAAAAATATCTGTTGG
Y
CGGGAGCAGTGGCTCACACCGGCAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAATTTGAGACCAGCCTGACCAACATGGT
Celera SNP ID:            hCV2845391
SNP Position Genomic:     1072120
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48556):
TTTTAATAAACCCATTTGAAATAGATAAGGATTGCTATATAAGCTACTAACATAGCACTGATTGAAAAAGCCACACATTTCAGGATTGCAACAGAAGTCA
S
TTGCATAGGGAAAATAGCTGATTTATTATCTGAGTTTGTCTATCAATCACTAACACCAGTCAGCCAGCAAGCACGAGGAGCTTATCATGGCATTAACCCT
Celera SNP ID:            hCV2845392
SNP Position Genomic:     1071606
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48557):
TCTATCTACCTACCTACCTACCTGTACATCTATCTCTCTAGAGATCTTCTCCACAAAAGCAAGGAAAGAGAATCTCTGACACTATATTTTCTTAATGAAG
W
TGGAGAAGTTTTTGCAGTTCTCATTATTTCATTTCAGGCTTTCAGATGTTCAGGAGCCCTTTACTAGAAGGTTGATAGATTAATAATCTCCCCACTAAGC
Celera SNP ID:            hCV29090909
SNP Position Genomic:     285192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48558):
ATTTTACATTCTTTTTTCATACCACGTCTTTAAAATCCAGTGTGCATTTTGCACTTAACAGCACCTCTTAATTTGGACTCACCACATTTCAGGGGTTTAA
Y
AGGCACATGTGACCGGTGGCTGCCGCATTGGACAGTGGCAGCTCTAGAGAGCTGGAACCAATTTATGCTCCTTCTGACATTCACAGGGAATGCTCTGTAT
Celera SNP ID:            hCV3019919
SNP Position Genomic:     214289
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48559):
ATCGTGCCACTGCCCTCCAACCTGGGTGACAGAGTGAGACTTCGTCTAGAAAAAAAAAATGTAGACATAGCTTGCATTAGTCCATTCTCAAATTGCTACA
Y
AGAAATGCCTGAGACTGGGTAATTTATAAAGAAAATGATTTAATTGTCTCATGGCTCTGCAGGCTATATAGGAAGCATGGCAGCATCCACTCAGCTTTTG
Celera SNP ID:            hCV2845393
SNP Position Genomic:     1069479
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48560):
GCCAAGGTGGGCAGATCATTTGAGGTTAGGAATTCAAGAACAGCCTGACCAACATGGTGAAACCCCATCTGTACTAAAAATACAAAAAAAGTTAGCCAGG
M
ATGGTGGTGCTTGCCTGTAGTCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCCA
Celera SNP ID:            hCV2845394
SNP Position Genomic:     1069287
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48561):
TCATGCTTTGTAATCCCAGCACTTCGGGAGGCCAAGGTGGGCAGATCATTTGAGGTTAGGAATTCAAGAACAGCCTGACCAACATGGTGAAACCCCATCT
S
TACTAAAAATACAAAAAAAGTTAGCCAGGAATGGTGGTGCTTGCCTGTAGTCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGG
Celera SNP ID:            hCV2845395
SNP Position Genomic:     1069257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48562):
GAGAGAGAACCTCCCTGAGCCGTGGTTAAAGGAGGAAAGCACACAAGCAGGGTTTACAGAGGCTGAGTTAATGTGAATCAGAACGCCGGAGCTTCCTCCG
Y
ACCACTGCGCCTACTGCTGATGTTGGCTTAAGGCTTTTTGAACATGTCTTAGTGTAACTTCACCAAGCTTCACACTTCCTCAATCCTTGACATCATTGTC
Celera SNP ID:            hCV2845396
SNP Position Genomic:     1068381
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48563):
TATTTATGTAGAGCCCACTGTGGGCCTGACGCTGTGCTAGGTGCTGTAAATTCACTGGTGAAAGAAATAGTCTCTGTCTGCAGCCTCCCAGGGAGCTTAT
Y
GTCATAAGAGCAAGAACTTTTGCTGCAAATGATGGTGTCCCTATAAAGGAAGAAAGAAAGGGAGAGAGGAAGGGAAGAAGGAATGAAATAAATTGCTTCC
Celera SNP ID:            hCV2845397
SNP Position Genomic:     1067808
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48564):
AAAGCGTGACTCCATCACAAAAAAAAAAAGTAGCCGAAAGATAATTATGCAAAATGGAAGTAACTACATTTGCTAAACCTTCTCCTACAGTGAAATGAAA
Y
ATGGGAACTAACGCTTCCATCAGATCCCTGATTTGGTTACATTAGGGAGGCAGCCGGCAGCTAAATCCTTCTGAATAGCTGGGAGGACTCACTTCTTTCT
Celera SNP ID:            hCV2845399
SNP Position Genomic:     1066672
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48565):
CATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTG
T
GTTGGCTAGGATGGTCTCGATTTCCTGACCTCGTGATCCGCCCACCTCCGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCAGCGCGCCTGGCCTATT
Celera SNP ID:            hCV11672500
SNP Position Genomic:     345382
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48566):
TTACTCCCATTTGGAACAGATGTATTTATCCAATGCCTGTACCCCCATTGTGTCTGGGAAGTATCTAACTGGCTTTGGATTTTACAGGCTTGTAGGCCTC
K
TCTCAGATGAGACTATGGACTTGGAGTTTTCAGTTAATGCTGGACTGAGTTATGACTTTTGGGGACTGTTGGGAGGGCAGAATTGTCTTTTGAAATGTGA
Celera SNP ID:            hCV11672505
SNP Position Genomic:     358267
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48567):
TGCCTCTGCCATGAAGACTCTTTACGTCTGTTTCACACACAGTCAGCCCTTCGTATCCACAGGCTCCACATCTGCGGATTCAATGAACTATGGATCAAAA
R
TATCCTCTGGCCGAGTGTGGTGGCTCACGCCTGTAATCCCAAGACTTTGGGAGGCCAAGGCAAACAGATGACTTGAGGCCAGGAGTTCAATACTAGCCTG
Celera SNP ID:            hCV15897090
SNP Position Genomic:     207371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48568):
TATTAGGTATTATATAAGTAATCTAGAAATAATTTAAAGTATACAGGAGGATATGTATAGATTATATGCGAATACTATGCCATTTTACATAGGGTATTTT
K
GTATTTGAGAAAAATCCTGGAATCAGTCCCTCACAGATACCAAGGGACAATTGTGCTAACCTTTTAGATAAAGTTTCATAGACCAGAGACTTCCACAGTG
Celera SNP ID:            hCV15897092
SNP Position Genomic:     207923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48569):
CTGCTTAGGATGCATACTGATGGCTCTTTTTTTGTGAATGGATGGAAGTATGAAAGGAGCAGTAAGAAAGGGCACTATCAGGCTGCATGCAGTGGCTCAC
R
TCTGGAATCCCAGCACTTTGGAAAGCTGAGGCCAGCAGATCACTTGAGGCCAGGAGTTCAAGACCAGTCTGGCCAATGTGGCAAAACACTCTCTCTCCTA
Celera SNP ID:            hCV10075349
SNP Position Genomic:     154967
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,12)   total(G,2|A,12) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48570):
AACACAAGCTTTGCAGCCACCCACAGCCCACAGCCCACAGCCCACAGCCACTGTGGGTCGAGTTATACTTTGCCTCTTAGCAGCTGACCAGCTTTGGGTC
W
GAGCCTGTTTCTTCACAGTGGTCAGCCCCCTTGTCTGCCTGATAAATGTCTGTCTGCTCACGCACTTGGCTCCGCAGAAGTGAGCTTGCTGGGTCCATGG
Celera SNP ID:            hCV3019920
SNP Position Genomic:     213672
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|T,6)   total(A,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48571):
ACTTAGTCATACAGCCATAAGAAAGTTTCCCCCTCTAAAAAAAAGAAAAGAGAAAAAATAAAGAGGTGCCTTCCATTGGTGAAGCGTAGTCATTCAGAAC
R
CAAGCTTTGCAGCCACCCACAGCCCACAGCCCACAGCCCACAGCCACTGTGGGTCGAGTTATACTTTGCCTCTTAGCAGCTGACCAGCTTTGGGTCTGAG
Celera SNP ID:            hCV3019921
SNP Position Genomic:     213575
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48572):
GAAAAGCAGGGGCCTGCATTAGATGGCTGAGCTCTAGTCAATTCTTGGTCATTTGTACTGAAACAGAGGCAAGAGAGAGATTTCAAAACCACCACGAGGA
R
GCCCCTAAACATGCAGGCATTTCTTTCCTTTATCTGTCGATTCAAAGAGCATCTATTCAGGGCCAAGAAGGAGATCAGGTTTATCTGACTTAGTCATACA
Celera SNP ID:            hCV3019922
SNP Position Genomic:     213387
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48573):
GCGCTAGCCAGCTCATCTGCTTTCAAAAGATAAGATATGATTGCTTTGTATTTTTTATATTAATAACCCTCAGCATGAGAGGATTAACTCTTGATGCACT
R
AAGGCAAACTACCGGACCCTGGGAGATCCATTTCTTCTCACCAGATAGGCTGACACATCTTTCAGATGAATTTAAAGGTCAACGCCTTGTGCATGAAAAG
Celera SNP ID:            hCV3019923
SNP Position Genomic:     213192
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,7)   total(G,7|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48574):
TATTTAACAAAACCCCTTTCTCGAGAAATGTATTACTTACCTTGTGGGTGGGGAATTGTCTCTGAACCCAATCAGGTTAGTCACTGGCCCATGACTATCT
M
ATTTTTAATAAATAATAATTTTCTCAATTCAGCGCTAGCCAGCTCATCTGCTTTCAAAAGATAAGATATGATTGCTTTGTATTTTTTATATTAATAACCC
Celera SNP ID:            hCV3019924
SNP Position Genomic:     213060
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,7)   total(A,5|C,7) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48575):
GGTTGAAGGAAGCCCTGGCTCTGTGCAAGTCCACAGTACAGCAGCTACTGGGGAGGGAAAACGGTGTGTGGCTACGCTGAGGGTTTCTTCCTGGTTGATG
M
GATTATAATGTGAAAAGATCGACATGTGAGCCCAGAGCAGATGCATAATAATGCTACTGCATTTTGTATTTAACAAAACCCCTTTCTCGAGAAATGTATT
Celera SNP ID:            hCV3019925
SNP Position Genomic:     212893
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,11)   total(A,1|C,11) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48576):
GTTGGCAATATATATACATGAGTGGACTGGAGAGACTGAGGAGGCACAAGTCGAGGAGGAACACATCTTTTATTTTGACTTAATTTTCTTTTTATCCCCT
Y
TCCTTCTGCCCCAGGGTTCTTCTCCGTGTGGATCACATTAAGGGAGCGTATAACCTTTCATACCGCCTGACTAGGATGATGGATATGGAAATACACACTT
Celera SNP ID:            hCV15897099
SNP Position Genomic:     208293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48577):
GAGTGCTTCCCTTCTGGACCTCCCTTAACCATTCCAGGGCTTTCCATTGCTTGTGCAGTTAATGAAGATGGAAAATGATTCCCTTCCCTCCCGCTCTGTT
Y
TTCCATCTGTCCAGGTAATAGCCTAATGTCAACCTAGTGACTTCATGGCATCTGTTTTCAATCTACTGCCTCCTTGTCTGGAATTCTCAGGGGACACTTA
Celera SNP ID:            hCV3019926
SNP Position Genomic:     212680
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48578):
TTACAGTTATACCTTTTTACCCTGAAATGAGTCAGTGTGTTATGGTAACATTCCCAGATGGCAGACAGAAGGAGAGCCAATGTGAGAGACCAGTGAACTC
W
GACCCGTCTCCCAAGAGCCTTGTGTAAGTCATCTAAAAAACAAATGTTTCGGATATTCAGGGTTTTCTGATTTCAAATGTGTTCATACCATGAATAATTG
Celera SNP ID:            hCV3019927
SNP Position Genomic:     212176
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48579):
CACTCCGGGAAACCTCTCAGTTCTAGACAAACAGAGACAGTTGGTCATCCTATTATGAGAGGTTAGAGAGGAAGCACTTTCTGGATGGGTTGAGTCTGAT
R
GGCTCTGTTGTATTTGATTAGACAGCTTTCTATGAGATCAAGGTTTTCAATACCATCACAGAACCATTTCTGGAGCTGTGTTGAGGAAGAGAGGGCAAGG
Celera SNP ID:            hCV3019928
SNP Position Genomic:     207143
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48580):
CTGGCTTTGGAAGAATTCATCCAGCCCCTGGCATGTTTTGCTTATCCTCTGCCTGATGATAAAATAGGGGTTATTTCTATCAGTGGACACATTTGGCCCA
Y
ATCTTAATTCAGGCAACACAGCCTTAGCCTTGTTCTGCTAGTGCTAATTATTTTTTTGAAAAATAATACTGTTAATATAGTAAAATGTAGTTGTTGGACT
Celera SNP ID:            hCV3019929
SNP Position Genomic:     206127
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48581):
ACAGCCTCCCTGAGATCAGTTGGGTAAAGCTCTGAGCACAGGGCCAGGCACAGTGTACACCCTTGCAAAAATATTAATTTGCCTGGGTGCAAGGTGAGGG
W
CATAACCTTTTCCTATTCTGAAACTCTACTCTGCTTAGGATGCATACTGATGGCTCTTTTTTTGTGAATGGATGGAAGTATGAAAGGAGCAGTAAGAAAG
Celera SNP ID:            hCV10075350
SNP Position Genomic:     154836
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,13)   total(A,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48582):
GCGTTTAAAACCTGTTGGCTCATTTATGTCTATGTCAATGCTATGGGAAAGGTACTCTGTTATCCCCCATTTTATAGCAGAGGAAACTAAGCCTCAGAGA
S
GTTAAGTAATGTACCCAGGCCTCTCTAACTGCTAAGTGGTAGAGCAAAAAGTGAAACCCAGGCATTTTGTCTTCTCAATTAATGATCTTAATACGCATTA
Celera SNP ID:            hCV10075351
SNP Position Genomic:     154636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,8)      total(G,5|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48583):
CTCTGACAGATTTGCTTCTGTCTATCCTCATCTTCATCCTAGATCTAAACCACCATTATCTCTTGCCTGCAACCTTTTATTCCTAATTCTAGTCTTTAAT
M
TCTAATTTCTGCTCCAAATGGCAGCTGAAGGATTATTTTCAAGCTCAGATGTATCCTGCCACACCCTTTGGAACTCCTCATGGATCGTTATTACCCCCAG
Celera SNP ID:            hCV346018
SNP Position Genomic:     335389
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,3)      total(A,3|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48584):
GTATAAAAAGTCCTCCAAAATGTTAAATTACCTTTCTCATCTCAGGAATAGAGTCCCAATCACTTCCAGATTGAAGCACTTACGGGGGGAAAAGGCGAAG
N
GCTCCAGTAATTTTAAATTGCTTCGTACAATGAAGAGTGCCTGTAAATTACTGAATGTGGTAATTTGTTCCATAAGCTTTTTTGATTTGTAAGTAACTTA
Celera SNP ID:            hCV3019930
SNP Position Genomic:     205688
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,16)      total(G,16|T,1) ;no_pop(G,-|T,-)   no_pop(A,-|C,-|G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48585):
TACCTGGAACTCCAAATTTCCCAGTTCTTTTAAACTTTTATGAGTTAGGTACTTTCAAGTTGTGTAGGACAGACTCACCTGGTTTGGGTGAGTTAAGTCT
R
TGGAAAGGGAACAGAAAACATGTGAGGAAACACTTATCCCATCTATTCCATCTTATCTTGATGGAATTAGAATTTAGGGATTCACTTTTCAGGGACAAAA
Celera SNP ID:            hCV3019931
SNP Position Genomic:     365962
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48586):
ATTCTGTCATACCTGGAACTCCAAATTTCCCAGTTCTTTTAAACTTTTATGAGTTAGGTACTTTCAAGTTGTGTAGGACAGACTCACCTGGTTTGGGTGA
R
TTAAGTCTATGGAAAGGGAACAGAAAACATGTGAGGAAACACTTATCCCATCTATTCCATCTTATCTTGATGGAATTAGAATTTAGGGATTCACTTTTCA
Celera SNP ID:            hCV3019932
SNP Position Genomic:     365953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48587):
TGTCTCTTCTGTTGAGCCATTCATGGTAGATTTCCCCAACGAAACCTACCATGTTTGTTTTCTGTATTTCCCACCAGATGTTCTTTTAAAAGCCAGAAGA
W
GTCTGCCTTGGTCTGGTTGGTATAAAGAGGGTTCATCCAATATAAACTGCCAACAGTAGGTTGGAAATACTCATCAGTATGGAAAGGGCGAAGTCTGGGC
Celera SNP ID:            hCV29090923
SNP Position Genomic:     281829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48588):
TTTTTCAAATATTCCATTGCAAACTTATTTAGCATTTATAATTGAATACTGATAAGTGAATTTATTTATTCATTTATTTATTCATTTATTTTGAGATGCA
K
TCTCACTCTGCCACCCAAGCTGGAGTACAGTGGTGTGATCTTGGCTCACTGCAACCTCTACTTCCAGGTTCAAGGGATTCTCCTGCCATGGCCAGTATTA
Celera SNP ID:            hCV3019933
SNP Position Genomic:     344588
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48589):
AATCAGTGTCATATTCATTACTGCTGGTGAAATGCCATACAACATTGGCATTCATTCATTTTTGTCTCTTCTGTTGAGCCATTCATGGTAGATTTCCCCA
W
CGAAACCTACCATGTTTGTTTTCTGTATTTCCCACCAGATGTTCTTTTAAAAGCCAGAAGATGTCTGCCTTGGTCTGGTTGGTATAAAGAGGGTTCATCC
Celera SNP ID:            hCV29090924
SNP Position Genomic:     281767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48590):
CACTTAGTTCACACTTCTAATGCGTAGAACATGCAACATCGTCGCCTAATTTTAAATGGCTTACTCACTGGCCAGAGTCATGATAAATAAAGATGGTGTG
R
AACGTTTCTTCTGTTTCATGCTCATGGAACACAGCACAATCTTTGGGGCTCAGTTTACTGAGTATGAGACAGCAGGACAAAGTAGTAAGGGGTGTGAGCT
Celera SNP ID:            hCV405882
SNP Position Genomic:     389351
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48591):
TTGCCTTCTTTACACCACTCAAAAGCAGAACCTTTATTACAAACACACCAAAAGGTACCATATAACTAATCTTCCTGGTTTGAATGTAACCAATGTTCAA
R
TATGATTGTAGAGTATTAATTATTTTGACATCAATTTACTGAACACATTTTAATGAGGACCAGAAGGAAAGACAAAGTTTACTTACTTTCGTGATATATA
Celera SNP ID:            hCV3019934
SNP Position Genomic:     327851
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48592):
GAGTAATTTATGGAAGAAAGAGGTTTCATTGACTCACAGTTCAGCATGGCTGGGGAGGTCTCAGGAAAGGTAGAATTATGGTGGAAGGGGAAGCAAACAC
R
TCCATCTTCACTTGGTGGCAGGAGGAAGAATGAGAGCTGAGTGAAGCGGGAAGCCCCTTATAAAACCATCAGATCTCGTGAGAACTCACTATCATGACAA
Celera SNP ID:            hCV405883
SNP Position Genomic:     387211
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48593):
AAAATATTAGGGGAAGATTTTCTTGGAACATCAGCAGTAAATTTAACACATGGCATGCCTTCAATAGATTTCTCTTCTTCCCCCTTTAGAGTTCAGTTTG
Y
TGTCTTCATCACAGTCCCAAAAAATACATTTGTGTTTCTTCCTTGAAGAAGAATTATTTTTAGAACAAACACATCATTATTTGGGAACAATCAAAAGATC
Celera SNP ID:            hCV3019935
SNP Position Genomic:     327472
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48594):
CACAGTAAATATTCCAGAAAGCATGCAAAAATACCCCAGAATCTAACTCCTTTCCAGTCTGAAGAGCTCCTCAAATCTCTCCTAAAGTTACTTGCTTTAC
R
CACAGCCACCTCTATTCATTTTTTTTTTTTTAATTTCCAGTAGCCAGTGTAACCTGGGGGCCAGGGAAGACCTGAACCTCTAGGACTCAAACCCTGTCAT
Celera SNP ID:            hCV3019936
SNP Position Genomic:     256823
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48595):
TGGAGAGGTAGCCCAAACAAGGGGAGGACTTGGGCAGTGCTGAGCTCTGACCATAGAAAAAAAGTATCTGGGAACTATCTCAAGCGTCATTTAGGCTCCC
Y
CATTTCAAGCATGCACCCAAACAGCTCATATACTATACAGTAAATACAACTTCTCAAAGTAGAAGATAACTGGTGTTAAAACAAGACTACATTTATGAGA
Celera SNP ID:            hCV3019937
SNP Position Genomic:     255990
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48596):
CATGTAATGTTGTTAAGCCTGAAACCATCATTGAGTAGTGAACAGTACATTTTCCTAGATAATTAAATAATCTTTGAATTGACAAGTTAATGCCTGTATA
Y
GACATTGAAAGAACATGCAACCCACATTTTTGTCTTATTTTCAAGTTTTGAACCTTTTTTCTTAGTAATATAATGAAAATCAAGTTTTGTAAAATTAAAT
Celera SNP ID:            hCV3019938
SNP Position Genomic:     255439
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48597):
CCTCGTGATCTGCCTGCCTCGGCATCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCCCATTTTCTAACAGAATCTTTTAATGTTTGAG
W
GTTGAGAGTCTTTTATGTAGTCTATATGCACATCCTTTGTCGGAGATGTGGCTTGCAAATATTTATCTCAATCTGTGGCTTGTCTGTTCTTTCTCTTAAT
Celera SNP ID:            hCV16150610
SNP Position Genomic:     1018678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48598):
GTTATCTTTTCTACCCATCATTACTTGTATCTCTGCCAGACAGAAATCTGTGAATTAACATGTAATGTTGTTAAGCCTGAAACCATCATTGAGTAGTGAA
Y
AGTACATTTTCCTAGATAATTAAATAATCTTTGAATTGACAAGTTAATGCCTGTATACGACATTGAAAGAACATGCAACCCACATTTTTGTCTTATTTTC
Celera SNP ID:            hCV3019939
SNP Position Genomic:     255381
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48599):
GCTCCCAAGCTCCTGACTTCTTTCTTGGATATACAGTCCCGATTAAGGACTGCCCAGTTATAGCTCCTTTTCTACCAGGCTTTTCTGGTTGATTATCTTG
K
GGTCCCTACAGCCTTGAGTCTTGCCATGGATCCCAAGCCTGGCTGTGAACCAGTTTTCCAGATGTCCTGTACCCTAGAGACCCCAAGGCTGTATGTGTGT
Celera SNP ID:            hCV10076301
SNP Position Genomic:     7700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48600):
TGAATAGTCACGTGTGGATATCAAGTCCAGTTATATTACTTACCAGCTGTATGTATGAGCATGGGGAAGTTATTTACCTTCTCTGACTTTTACTTTTCTC
W
TACGTAAAATGGTGTGGGATCACACTCACCCCATAGGCTGCATCAAGGGTTAAATCGCTAACATTTACTGACACCTTGGAAAGATGAGCTAAGCGTTTAA
Celera SNP ID:            hCV10075361
SNP Position Genomic:     154443
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,7)      total(A,7|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48601):
TGATCTGTGCATGGAGCAATGTCGTTATGAGAATTCCCCACATTTTGCTCCCTTTTGGACCTCCCTAAAATTCCCCTAAGAACACCCCTCACTAGTAGAA
R
TGTAGAATCCCAGACCTTACCCCAGATCTACTGAATCAGAGTCTGTATTTTTAACAAGATCCCCTACATTGGAGGAAAGTTGTAGAAAGACTGCCCTGGA
Celera SNP ID:            hCV27505671
SNP Position Genomic:     451259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48602):
AATCTCCTGACCTCGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGACTACAGGAGTAAGACACCGTGCCCGGCCAGTATTGTTCTTCTTTATACCT
R
ATTACTCATCATTGGAATTCTCTTTAAAAAAAAAATGTGCTTCCCTAATTGGTTGCCAACAGAGAGGCTACATCATAGTGGTTAAGAATATAGGCTCTTT
Celera SNP ID:            hCV10075363
SNP Position Genomic:     153127
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48603):
AGAGGAATCTATTTACACCCTCTTCCCCTTCTCAATAAAACAACATTCTTCCCCACCAAGTGTGGAGTCGAGACTCTGAGGATGTATGGCCCTGAGCTGG
R
GGATTCTAGGGACATTTTTCATGTCACTACCTAGACAGTCGTGTGAGTGCTCCAGCAGTGAGGGATCTCGGCTGCAGGTTACATTCCTTGCCGAAGCCAG
Celera SNP ID:            hCV27500733
SNP Position Genomic:     1083248
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,355|G,1134)   total(G,1134|A,355) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48604):
ACGCAAAGTCTATTTTCCCATCAGAGGTTAACGTTCCCATTTACTTGATCAGGGTTTGGATAATGCTTCATTCACAGCTGTTTTTCGCTTGCAAGAATCC
R
TCTACTTTATCCTCACTGACCTTACCCTGGCAGGTGGTGCCAGGATTTCCTCAGGCAGTTGTTTGTTTTAGCATTTTCGAGTATTTATACTGGCTGCGGT
Celera SNP ID:            hCV27500734
SNP Position Genomic:     1097551
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,102|A,1371)   total(G,102|A,1371) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48605):
TCTGCCCACCTGTCACTGGTCACTCCCTGTACTGTTGCCCAATGGGACGGCTTTCAGAGCACATACCACTCTCTGAAGTTATCGTATTGTGTGTTAACTA
Y
TTTTATGATCTCCCTTCCTCTTGTAGAACAGAAGCTCCATGAGAACAGGAATTTCATGCCTTGTTCTCTTTCATATATGCAGAGTAAAGAAGAATGTCTG
Celera SNP ID:            hCV27500735
SNP Position Genomic:     1105902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48606):
AAAACAGAAGATAATGATCAAAGGACTCCATGTCTATGTGGTTGCTTTATGATAATGCTGAATAGCAGCCTTGTTCATGCAGAGACAATATAAAAGCCTT
Y
CCCCAACTTCTCCCCCTCCTCCAATTCGTAAAAGTCAACATAATGTTAAAACAAAACAAGAAGTTTAGAATTAGGATGAAACCCATCTAGTAATACAGTA
Celera SNP ID:            hCV3019941
SNP Position Genomic:     303351
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48607):
CCTGTACTGTTGCCCAATGGGACGGCTTTCAGAGCACATACCACTCTCTGAAGTTATCGTATTGTGTGTTAACTATTTTTATGATCTCCCTTCCTCTTGT
R
GAACAGAAGCTCCATGAGAACAGGAATTTCATGCCTTGTTCTCTTTCATATATGCAGAGTAAAGAAGAATGTCTGACATATAATAGCTACACAATAAATA
Celera SNP ID:            hCV27500736
SNP Position Genomic:     1105927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48608):
GTTGCTTTATGATAATGCTGAATAGCAGCCTTGTTCATGCAGAGACAATATAAAAGCCTTTCCCCAACTTCTCCCCCTCCTCCAATTCGTAAAAGTCAAC
R
TAATGTTAAAACAAAACAAGAAGTTTAGAATTAGGATGAAACCCATCTAGTAATACAGTAATGTCAGGAGGACAATATCAAAACAAATATTTATTTACTC
Celera SNP ID:            hCV3019942
SNP Position Genomic:     303391
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48609):
ATGTCAGGAGGACAATATCAAAACAAATATTTATTTACTCAGGTGGTGGTTGCGGTTTTCGGGCTTTTTCTCAGCTGCGGTGCATTTGTGGCTTTTATTT
S
TGCACTGCCGCTTGTTACTTGGAGCCATTACTTCCTATCTGTGTTGTCAATCGTGTCTTGAGGTTATTCTAGCACCTTACGAAAAGCCACCATCCACCTA
Celera SNP ID:            hCV3019943
SNP Position Genomic:     303552
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,6)      total(G,2|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48610):
TCTGTTATGCGGCAACACATACTCAGATGTGGACAGCAGTGAGCACGCTGCCTGGAAAGGGGGAACAGCACCGCGGGCAGGCTTCAGAGCCACACACCAC
R
TCTCTGTCTCAGAGTCTATCCTCGACCACAGGGTTTAAGTCCTTGATGTGCACACTGGGCCCTGGAGAGAAGGTGCCTGTTCTCACGGGCTGACCCCACA
Celera SNP ID:            hCV27500737
SNP Position Genomic:     1110368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48611):
TGGTTGCGGTTTTCGGGCTTTTTCTCAGCTGCGGTGCATTTGTGGCTTTTATTTCTGCACTGCCGCTTGTTACTTGGAGCCATTACTTCCTATCTGTGTT
K
TCAATCGTGTCTTGAGGTTATTCTAGCACCTTACGAAAAGCCACCATCCACCTAATTTTAGAGCTTTTAAGATAAAGCCCGGGAGCACTAGGAAGGTGAG
Celera SNP ID:            hCV3019944
SNP Position Genomic:     303598
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,6)      total(G,6|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48612):
TTGTGAACTGCACACACAAGGGATCTAGGCGGCACACTCCTTATGAGAATCTAATGCCTGAACTGAGGAGGAACAGTTTCATCTCCAAGCCATCCCCCAC
M
TGTTCATGGAAAAATTGTCTTCCACGAAACCAGTCCATGGTGCCAAAGAGGTTGGGGACTGCTGCCCTACCTCACAGAAAGCGAGTGACCCCAAGAAGCC
Celera SNP ID:            hCV27500738
SNP Position Genomic:     1124205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48613):
GCATTTGTGGCTTTTATTTCTGCACTGCCGCTTGTTACTTGGAGCCATTACTTCCTATCTGTGTTGTCAATCGTGTCTTGAGGTTATTCTAGCACCTTAC
R
AAAAGCCACCATCCACCTAATTTTAGAGCTTTTAAGATAAAGCCCGGGAGCACTAGGAAGGTGAGTGAGTTACCGTTATCAATCTGGAATGTGAGGTTTC
Celera SNP ID:            hCV3019945
SNP Position Genomic:     303633
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48614):
CTGATGAGTTGCCTTTTTTCTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGCTTTTTCCATCCCCATGATTGTTCCAACAGAAGGAGAAAAGATGT
R
ATAAACCTTTACCGGGCACCGTCTGCGTCCAGGCACTCTACTCGGCCCTGGGGGTGCAGAGCACACCACCCCAGCCTTAGGCATGAAAAACACTGTGTAC
Celera SNP ID:            hCV27500739
SNP Position Genomic:     1126062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48615):
AAAAGCTTGCTTTTCGTAGGTTTCATGATTAATTTTCATCTTAAGTTAATTTTGTGTATGGTGTGAGGTAGAGGTCAAGATGTATGATTTTTCCAGTTGC
Y
GCCGCAAAATGTATTGAGAAGATCACCCTTTCCGTCACTGAATTGCAGCCATAAATCAAATAACCAATATGTGTGATCTATTTCCGCACTGTCTTTCCCT
Celera SNP ID:            hCV3019946
SNP Position Genomic:     321285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;(C,-|T,-)   Caucasian(C,10|T,38)   African-American(C,35|T,39)   Asians(C,11|T,57)   total(C,56|T,134)
SNP Type:                 INTRON


Context             (SEQ ID NO:48616):
GTTTGTTTGCTTTGAAATCCTAACTCAGTCCCACTAGTCCCATTTTTGTAATGTTTAGCTTTCAGGCAACAACCGCTGAAGAGGTAAAGAGATTATTTTT
S
AAGAGTCATGTGATTTTGGCTGCTCCTAGCTGACCTACTAGAGAAAAATCTTAACATTTTCCACAAACTTTTCCATTAAAATAGAGGATAGGTCATTGCT
Celera SNP ID:            hCV3019947
SNP Position Genomic:     311440
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,5)      total(G,4|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48617):
GACATTACCCCGTGGTGTCTAGTGTCTCTTCATATTTTCCTCTGGGTTTATCTTGACCCTTTCAAATGGAATGCGTGGATGCCATTAGTATTTATAACAT
W
CATTTTCAGTGCTTTAGTATTGTTTTTTTCTTTATTGTTGTGTAATATGTATGGAAAAGGCATATAGCAAAGGGTGATCAATGGCTGGGCTTATCCTAAT
Celera SNP ID:            hCV3019948
SNP Position Genomic:     260105
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48618):
TATTCTGTAGGGTAACAATCTGTTGCTACCCTTATTTATTCTTGTGCGCCAATTGTCCACCGTTTGTCCAGTGGGAAGCCTAACATGCAGTTTTTATATT
S
AAGTATCCTAGCACGTCAACTTTTATTGCTTCACTTAAAATCTGCCACCTTCCACCTTCATGTCCTGAATCCTTTATCTAGAAAATGTGTAATTTTCCAA
Celera SNP ID:            hCV3019949
SNP Position Genomic:     347282
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48619):
TGGGAGGCCAAGGCCGATGGATTACCTAAGCTCAGGAGTTCAAGACCAGCCTCGGCAATATGAGGAAACCCCATCTCCACTAAAATACAAAAAAAAAAAA
A
TGAGCTGAGTGTGGCAGCCTGCACCTGTAGTCTCAGCTACTGGAGGGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGA
Celera SNP ID:            hCV8097526
SNP Position Genomic:     1009812
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48620):
TACTGAATACTTGCACTGCCAGGCACTGAGCTAGATGCTTTACTTTGGCTAATCTTCATAGGAGCCCTAGGAGGTAGATTTCATCATCATCATCCTCACT
S
TAACTATTATTATCATCTTTGTCATCCTTCTTCTACAGATGATAAAATTGAGATTTAGAGAAGTAAAGTAATATGTCTAACATCATAGTGGGATGGCTGA
Celera SNP ID:            hCV10075374
SNP Position Genomic:     151719
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,8)      total(G,3|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48621):
CAATGGCTTGGAAGAGCTGGATGTTAAATTGTTAGGAATTTTGCAATCTGGTTGACCCCACTGACAGCTTGAAATCAGCCATGGTGAGAGTATCTACACC
R
TGGAAATTGGCCAACATTACAAATTAGGGCTCCCTTCCCTCCACCCAGAAGTGTTCAGTAAATATTTACTGGCATACTACCGGAGCTGCTGGCCTTTGGG
Celera SNP ID:            hCV10075375
SNP Position Genomic:     151220
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48622):
ATGTGAACCAGACAGGAAGTTAAACTTGACAAGGAAGAGAAACCAACTAGGAAGAGTTGGGGATGGAGTTAACTGACACTAAATTTGGCCTGAGCTTCTC
R
TTGGCTTGCCGTACACAATTGCCACTGTGCGATAAGAGCAACGTGTTAATTGCAGTGGTAGTTCCTAAATGCTGCTGCACGTCAGAACCACTTAGGAAAC
Celera SNP ID:            hCV27500740
SNP Position Genomic:     1168362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48623):
AATTATGGTGATGGTGATGGTTGGACAACTCTGTAAATATGCTAAAAACAATTGAATTGTACACTTTAAATAGGTGGATTGTGCACTATGTGAATTATAT
Y
TCAGAAAGCTGTTACAAAAACAAAAACAAAAACAAAAAGTGTCCCACACTATAGCCAGAATAATCTTATCAAGTCAACCGCCTGGTTAAATCACCACCGC
Celera SNP ID:            hCV391500
SNP Position Genomic:     957984
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48624):
TTTGGCCATAAAAATGAACGAAGCACTGTGAGATGACGTATTTTTGTTGCTGAAGCCACCTGGCTTGTGGAACTTTGTTCCGGCAGCCATGGAAAATGAA
K
GCAGATGGTGACTGCTGATGGATATGGAATTTTTCTTTGGGGTGATGAAAATGTTCTAAAATCAATTATGGTGATGGTGATGGTTGGACAACTCTGTAAA
Celera SNP ID:            hCV391501
SNP Position Genomic:     957820
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48625):
ATTCATAAACAAAATGGGCCTGTCCATACAATAGAATATTATTTGGCCATAAAAATGAACGAAGCACTGTGAGATGACGTATTTTTGTTGCTGAAGCCAC
S
TGGCTTGTGGAACTTTGTTCCGGCAGCCATGGAAAATGAAGGCAGATGGTGACTGCTGATGGATATGGAATTTTTCTTTGGGGTGATGAAAATGTTCTAA
Celera SNP ID:            hCV391502
SNP Position Genomic:     957779
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48626):
AATATTTTACCATTATGGTTACCAAATGGCGATTCTCTAATGGCATGAGTCCTTCTACATTTATTTGTTGGCATTCTATTTTAAGGAAAAGCTCCCCCCA
R
CTTAAGAATTTATTTCCAATTTTAAAAGTTTCATTACTATGGTTTTATGGGTTCTTTTTTTATTCTGTAGGGTAACAATCTGTTGCTACCCTTATTTATT
Celera SNP ID:            hCV3019950
SNP Position Genomic:     347121
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48627):
AGGCAGGTGGATCACCTGAGGTTGTGAGTTCAAGAGCAGCCTGAGCAACATGGAGAAACCCTGTCTCTACTAAAAATATGAAATTAGCTGGGCATGGTGG
Y
GTGTACCTATAATCCCAGCTACTCTGGAGGCTGAGGTGGGAGAATCACTTGAACCTGGGAGACAGAGGTTGTGGTGAGCCAAGATCATGTCATTGCACTC
Celera SNP ID:            hCV391505
SNP Position Genomic:     942240
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48628):
GTTATATGCATTAAATGGGATAATATCTAGAAATTACCTAGGAAATATCTGGCCAATGATTAGCACTTAAGAAATGATCTCTAGTATAACTATAATGAAT
R
TCTCTTAAACTTTTTCTGCTATGACCAGTTATTGCTTCTTTTGGAGACATGATAGCTGGAAAATGTGCACTCATAATTTTGCCAGTGTTTATTTCTTCAT
Celera SNP ID:            hCV3019951
SNP Position Genomic:     336863
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48629):
AGACTGTATTCCGAAAAGTTAAGGAAGCAGTTCTGTGGGTAAGGATAGTGAATAATAATGTTGTGAGTTGTTTTGATGAGCCAGGCAATGTGTTGATCAC
Y
TCACATGTAGTATGGTCTTTAATTTTTATTTGAAAAACTGAAGGCCAGACATGGTGGTTCACACCTGTAATCCCAACACTTTGGGAGGCCGAGGCAGGTG
Celera SNP ID:            hCV391506
SNP Position Genomic:     942048
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48630):
AGCAGTTCTAGATTGACATGGTGGCCCCACTGTGTCACTTAGAGACAAAGTGGAGACAGGGGTGGAGAGACATAAATCTATCTGAGAGATGTGTAGGAAG
S
TGAATCTTTAAAACCTGGCTTCCCTCTTATTTTATGGCATTTGTGGAATGTATCCTGTGTCCTCATGGCCCCAGACAACTCACCACCACATCCACATTCT
Celera SNP ID:            hCV3019952
SNP Position Genomic:     336048
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48631):
GCCAGGAACTAGGAGGGCAGAGTGAAGACAGAGAAATGCAAAGACTGTATTCCGAAAAGTTAAGGAAGCAGTTCTGTGGGTAAGGATAGTGAATAATAAT
R
TTGTGAGTTGTTTTGATGAGCCAGGCAATGTGTTGATCACCTCACATGTAGTATGGTCTTTAATTTTTATTTGAAAAACTGAAGGCCAGACATGGTGGTT
Celera SNP ID:            hCV391507
SNP Position Genomic:     942007
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48632):
CTGGTCACCCCACCCTAATCTTATGCAAATGGGCTTTCCAGTTGATTGGCACCATCTTGTCTGCTTCTTACTGTACATGTGGCTGGCAGAGAAAGGAAGA
Y
GGAGCTGCCATCTTGAACATGTCTAGTCCTTAGTTCCTGCCAGCATTCACCTGTGCAAGTCTCCAGCTTGCTTGTCTATGTCTGCAGCTCAACTTTACAT
Celera SNP ID:            hCV3019953
SNP Position Genomic:     315164
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48633):
TATCATGTGAAGATCCACTGCCAGGAACTAGGAGGGCAGAGTGAAGACAGAGAAATGCAAAGACTGTATTCCGAAAAGTTAAGGAAGCAGTTCTGTGGGT
R
AGGATAGTGAATAATAATGTTGTGAGTTGTTTTGATGAGCCAGGCAATGTGTTGATCACCTCACATGTAGTATGGTCTTTAATTTTTATTTGAAAAACTG
Celera SNP ID:            hCV391508
SNP Position Genomic:     941988
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48634):
CATGTCTAGTCCTTAGTTCCTGCCAGCATTCACCTGTGCAAGTCTCCAGCTTGCTTGTCTATGTCTGCAGCTCAACTTTACATTTTCTTTGTTAGAAAAT
K
ATTTGGGGTTGCTTTTTATTAAAAAGAAAAGCCTTACCAAGGATTCCCATGCCCTTACCATCTGCCTGTGTAATTTCTTCTTAACTCCTGTATCATCAGG
Celera SNP ID:            hCV3019954
SNP Position Genomic:     315282
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48635):
AAGGTGAACTCCTTTCTTTTAAACACTGCTATCATGTGAAGATCCACTGCCAGGAACTAGGAGGGCAGAGTGAAGACAGAGAAATGCAAAGACTGTATTC
Y
GAAAAGTTAAGGAAGCAGTTCTGTGGGTAAGGATAGTGAATAATAATGTTGTGAGTTGTTTTGATGAGCCAGGCAATGTGTTGATCACCTCACATGTAGT
Celera SNP ID:            hCV391509
SNP Position Genomic:     941959
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48636):
CCAAGGATTCCCATGCCCTTACCATCTGCCTGTGTAATTTCTTCTTAACTCCTGTATCATCAGGAACGTGAACCCTATTGTGAATTGTACATGCCAGGGA
W
CTAGATTGTGTGCTCCTTATGAGAATGTAATGCCTGATGATCTGAGGTAGAACAGTTTCAACCCGAATCCACCCCACCCACCAACTTTCCCCATCCCATG
Celera SNP ID:            hCV3019955
SNP Position Genomic:     315419
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48637):
CTTTCTGTCTCTAAAAATTTACCTTTTTTGATATTAAGAAGAAAAGACACCCACACATATACTCAATTGTGTCCTTCCCTGGCTTGTTACCCTCCCTCCT
Y
CATCACACTTAGGCTCAAACACAAATTTGCCACCATCCCCTCATCATCTGGTCCTTTTCCATTTCTTTAGTCTAACTTCCTGCTAGTCTTTTCTTCACTC
Celera SNP ID:            hCV29090946
SNP Position Genomic:     274376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48638):
GATTTTTGGCAGGGGAGGGGGCTGGCAAATGATGTTTTGCCTCCTGTATTAGTTTTCTATTTCTTCTGTAAAAATTTATGACAAAATTTGTGGCTTAAAG
Y
AACCCATGGATGTCTGAATGGCTTTGGTTCCTTTCTGGAGGCCCAAGGGCAGAATCCACTTTCTTCCCTCTCCCAGTTTCTAGAGGCTCACAGCCCCTTC
Celera SNP ID:            hCV3019956
SNP Position Genomic:     338447
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48639):
TTTCTGCTTCCTGGTTACAAGAGGTTTTATTAATACCTTCCCTCCCTGCCTTCTTGGAGTTAGCTGTGGCCATGCCACTGGATCTGACCACTGAAATGTA
S
TTGGAAGTAGTGGCATGCGACCCTTCTCAGCCAAAGTATACAATTGCCGGTGTTCAATTCTCCACCCCTCTTTACGCATCCCATCAAATGCCGATGTCTG
Celera SNP ID:            hCV3019957
SNP Position Genomic:     289043
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48640):
GAAACAATGAACCTGAGATCATACTGCTTATAATTGGTGGTGTCAAAATTTGAACCCAGGATTTTAGGGCCCTGGTTTTCATCCATAGTTCTGTGGCCTA
S
TGTCTCTTAGTTTTTTTGATGTTGGTGGTGATACATCAAGGAAATTTGCCGGTGTGTTTTCCCATCACTTTTATCAACCAGGGTGAGATAGAGAGAACTG
Celera SNP ID:            hCV3019958
SNP Position Genomic:     246316
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48641):
TATAAATCAAGCAAGGAACTTGAAAAATGAAGGCAATTAATGAAAAAGCATGTGAGAGGTGTTTTGCATCCTAAGGGAGGAAATACACTGTCAGTGAATT
W
AATGTCACAACAAAGGCTCTTTTGACCCTGCTGAAAAGATTTCATGTGGATAGTAATAAATGGATGAACTTTGCAGCCTCACAGGTGGAGAATTGCCTGT
Celera SNP ID:            hCV3019959
SNP Position Genomic:     246809
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48642):
CACTTTGTGGCCACATGAACTGGCAGAAGAGGCTGTCCTAAAATCCTAATGTGGCAAAAACCAATTTTCAGAAGTCAATTTGGATGTTATAGGTAGCGCT
Y
TTCACACCCAATAAATTGCTTATCTTTGGCTTTGAACTGATGGGCACGTACACAAAAGATTGGAGCCAACTGATTGCATTATTAGCTGAGGAAAAAGTGT
Celera SNP ID:            hCV27933269
SNP Position Genomic:     462618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48643):
GACAGTGCCATGAGCAGCTGATAAAGACCAAGAGAGGGGAATGTGGGGCCTGGTCTAATGAGAGTTACTGCCATAACTGGCATTTACTGAGCACATCCTA
Y
ATGTGACTCTGTTCTAAGTACTTTCTGCATGTCGTGTGTTAGACATCAAGAGTCGAGGCACCCTCATTCACATTCTACACATCATGAAACTGAGACTTGT
Celera SNP ID:            hCV27533095
SNP Position Genomic:     59313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48644):
TGGCCAATTCCCGAGTGGGGGCAGGGGGTTGGGCTCAACTAAGGGCACCAACAATAAATGCCTCCTTGCTGGTAGATGGGAAGGACTGAGAAGACAGAGG
R
GAAATTGCTTGCATTCTGCTAACATCTGCAACGTCTGTAACAGTGTCTTTTCCAGCAGTTGTAAAGGATCCTCACTCTCCCTTTCCTCCCTCAGTCCCAG
Celera SNP ID:            hCV12110617
SNP Position Genomic:     951487
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48645):
AGTAACTTTCCCCAGTCCACCAGCTTGTATCGGAATTGGGATTTGAGCTCAGGTCTGTCCAGCTTTAGAATGCAAACTCTTAAGTGCTGCCTTAAGTTTG
M
TTCCCCAGAAGAAGGTCCTGGGATGAGAATTTGTGTTAAAGTGATGTATCGGAAAGGTTGCTAGGAAAAACGTATAGGGAAGTGGGAACTGAGTTTGGCA
Celera SNP ID:            hCV10075385
SNP Position Genomic:     150711
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,3)      total(A,3|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48646):
GTCAATTATATACAGAGCACTGGGCTAAACTGGTTATCTGTGTACATAAACTTTCCAAGTTTGGGATTGTCTGCTTAGAAAGGATATATTAAATTGGTAC
S
ATTGGACCCAATATGACTGGTGTTTGTAAGGGTCTAGGTAGAGGCTGCTTGATAGCATTTGTAAAGGGCAATTAATCTATTCTGCCGTCAGCATTACAGC
Celera SNP ID:            hCV10075386
SNP Position Genomic:     150414
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48647):
TCTGTGTTGAAGCAAACGAAGCTCTCTGTAAGCCTTTCGGAAATAGTACAGATACGGAAACAGGGGCATCTAAAAGTCGGCCATCAGGCACTCAGGGTGA
S
ATACTCTGCTTGCCCTTTGTTATAGGAAATGCCCTGGAGTTGAGTCTGGGAGGTACTGGGAGGTGTCTCAGCAGGAGATAAGCAGCGGGGACTTGCCGTC
Celera SNP ID:            hCV391510
SNP Position Genomic:     940412
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48648):
GACCCCCAGGCCTGTAGGAACCAGGCCCCACAGCAGGAGAGGTGAGCAGTGGGTGAGCGAACAAAGCTTCATCTGTGTTTACAGGCACTCCCCATTGCTC
S
CATTACTTCCTGAGCTCCTCCTCCTGTCAGATGAGTGGCAGCATTAGAGTCTCATAGGAGTATGAACCTTATTGTCAACTGCATGTGAGGGATCTAGGTT
Celera SNP ID:            hCV391511
SNP Position Genomic:     939872
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48649):
TGACAACTCTCAACCGATTTTCTACATAAGGGGTCCCCGACCCCCAGGCCTGTAGGAACCAGGCCCCACAGCAGGAGAGGTGAGCAGTGGGTGAGCGAAC
R
AAGCTTCATCTGTGTTTACAGGCACTCCCCATTGCTCGCATTACTTCCTGAGCTCCTCCTCCTGTCAGATGAGTGGCAGCATTAGAGTCTCATAGGAGTA
Celera SNP ID:            hCV391512
SNP Position Genomic:     939834
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48650):
CATGGGGCACCCCACACTTCACGCCACACTTAGGCAAGAAGAAATGTTCACAGTCTCAGCTGATGCCAGGGAACTTTACAGCAAAGGAAACGTTGAAGCG
Y
CTCCTGGGCTGTGTCCCTCCATCCCTGTGCCTCTGTCATCCTGTCTACAGATTCTCATGACAGCAATGACAACTCTCAACCGATTTTCTACATAAGGGGT
Celera SNP ID:            hCV391513
SNP Position Genomic:     939667
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48651):
AAACTATTTCCACAACATCAAGAATGTCACTTAGAATCAATATTGGCCTGGCTTCGATAACTTACCTAACAGAGAGGTAATCTTTTCATGGGGCACCCCA
Y
ACTTCACGCCACACTTAGGCAAGAAGAAATGTTCACAGTCTCAGCTGATGCCAGGGAACTTTACAGCAAAGGAAACGTTGAAGCGCCTCCTGGGCTGTGT
Celera SNP ID:            hCV391514
SNP Position Genomic:     939581
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48652):
GTGAATTTAATGTCACAACAAAGGCTCTTTTGACCCTGCTGAAAAGATTTCATGTGGATAGTAATAAATGGATGAACTTTGCAGCCTCACAGGTGGAGAA
W
TGCCTGTTTCCTGAGTTCAAGCTGACTTAGGCTTTTATCTGTCTACATTCTCTATCTTGAGAACTTCCTAGATTCTTTTACTTTTGCTTTCATTTCTTGT
Celera SNP ID:            hCV3019960
SNP Position Genomic:     246902
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48653):
GCCATTAAGTGGTTCTGTCAGGATTTGAATCCATAGCCTAAGTTCATCACCACATTCTTCTCCTTGTCTCAGTTTCGGTATTTCTCACAAATCAAGGGAC
M
TGGAGAGAAACAGAAACTATTTCCACAACATCAAGAATGTCACTTAGAATCAATATTGGCCTGGCTTCGATAACTTACCTAACAGAGAGGTAATCTTTTC
Celera SNP ID:            hCV391515
SNP Position Genomic:     939467
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,3)      total(A,2|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48654):
AGCCTCACAGGTGGAGAATTGCCTGTTTCCTGAGTTCAAGCTGACTTAGGCTTTTATCTGTCTACATTCTCTATCTTGAGAACTTCCTAGATTCTTTTAC
K
TTTGCTTTCATTTCTTGTGATTTTTAAAAATAACAATGATAATTCTTTTCCCATTTTCTGGTCATTCTTCACACATCCTTTACATATTTTATACAAGCTT
Celera SNP ID:            hCV3019961
SNP Position Genomic:     246984
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48655):
AATGGGAAATAGTTTTGGAATAATGGGCTCATTAGAGATAGACAAAGCTATGGCCTGGGGGAAGTAACACTGGTACCCAGAGGGTTTTAACTGTTTCACT
M
CCTTTCCCAGTGACTCAAACTATGCACCAGTATTAATTTTAAATGACTTTACAAAAAGACTTAATGAGATAAATCGTGTAGGCACAGTATAAAAGTTAGT
Celera SNP ID:            hCV391516
SNP Position Genomic:     938817
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,5)   total(A,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48656):
TCTGGTCATTCTTCACACATCCTTTACATATTTTATACAAGCTTGTATTTACTTTCAGGTTGGGAGACTGATTAATTGATTAGTGAGGTTATGTAACGTC
M
CCTGAACTGCAGTCTGGACAGAGCTGGACAAGGTTGGGGTTTCAAGTAGTATATTTGTTTTAATCTGTTGCGATGTGCCAAGGAAAATTATTCTGGTATT
Celera SNP ID:            hCV3019962
SNP Position Genomic:     247141
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48657):
TGCTCCCAATTCCAGAAAGTAAAATATTTTGCAATTGAGGATTGTAAACATCTTAGACAGTTGCAAGGACTGTACATGACATATCCATGCAAGAGTATTC
Y
GTTCTGTTTCTATCAGCTTCTTATGCTTTTTCAATGGGAAATAGTTTTGGAATAATGGGCTCATTAGAGATAGACAAAGCTATGGCCTGGGGGAAGTAAC
Celera SNP ID:            hCV391517
SNP Position Genomic:     938684
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48658):
TGGACTCCTATTTACATTAATAAGAGTTTTTCCTATATTTAAACAGAGCTCAGTAGAAATGTTATGCTTTCACAGGTTTTCCCTTCCCTCCTACCAATCC
W
TTTGTAACAATCTAGTAGTAAGTCAATTAATAATGATTAGAAACCTCATAAATGCATTATCCTACCTAACAAATGTGAAATACTATAATAAAATGACGTA
Celera SNP ID:            hCV3019963
SNP Position Genomic:     247392
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48659):
CGAACTTCTGCAAAAGCTGTCAGAATCAAAATGAAGCCACTTATGTTAAAATTTTTTTTAATTAATAATCAATTTAAAACCCTGAAAAATGAGCTGAGGA
R
GGTTATGAAGAGGGGAGTCTCACACTTGGTTGCCTGATAACAAAAACTGTCACAAAAGACTGCAAAAACCACAACCTTGCACAAAGGCCATCACAACCTT
Celera SNP ID:            hCV391518
SNP Position Genomic:     937374
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48660):
AGCTGATTTCCCTCAACTGTTTCTTAGTCCTGAGGCTGCTTGAAGTCTCTGAAGCAATTAATTTTTAATTTTAATTTTATTGAGGTAAAATTTACATAAC
R
TAAAATTAAGCAAGCGATACTTAATTACTTTCTAATGTTGTGCAACCACTACCTTTATCTAGTTCCAAAATGGTTCTGTTAACCCAAAAGGAAACTGTAT
Celera SNP ID:            hCV27933270
SNP Position Genomic:     427591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48661):
CAAAATTTGAACTCCAGCCTGAAAATCACAGGATCCCTGGAGACAGGAATATGCACTGGCAGGCAACAGAAAGCCAAACAGAAATGAGATCGAAGAAGAG
R
TAGGAAAACAAAACATTTCAAAGGAGGCATAGAAAGGAGCATATAATGGTGATGGAGGCAACGATAAGTAGGCAATGGAAAGTAGAGAAGAAAAATAGCA
Celera SNP ID:            hCV391519
SNP Position Genomic:     937149
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48662):
GCAGATGTAAGAAGAGCTTACACTTTTTATTATATCTGACATTCAATGGGAAACCACTGGAAAGGTTGGAGATTGGGGTGACCAGTGTTTCTGAGATGAA
S
TGAAAACACTTAGCCTCTTTTCTTCTTATGTCCATTCTTCTGTGTATTGATAAAGCCTCCATTTTTCTGACATTGGAATGGGAAGAGATGTTTCAGTCTC
Celera SNP ID:            hCV3019965
SNP Position Genomic:     307887
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48663):
CTCCCTGGCCTTGATAACTGACAGTTACTGTGTGCTCCCTAGTGTGTTGAGGGCCACCTCGAACCTCACAACAGCTCTTAGGGGAAAGGTACTCTCATCT
K
CCCATTTTACAGGTGAGGACATTTAAGGCTGAGCTAGGTGAAACAATGAACCTGAGATCATACTGCTTATAATTGGTGGTGTCAAAATTTGAACCCAGGA
Celera SNP ID:            hCV3019966
SNP Position Genomic:     246176
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48664):
TGCTGCTGTTTTAACAGCAACAGTGAATTCGCACGTTTGTTTTTCAGGCCATGCAAAGGGAAAAATGATTTATGTCTATTCCCAGACAGTGTGTTTTAAA
Y
GGTGTCTTCCCTTTCAAGAGACTTTTCTAGTAAGAATTTTTTTAATAGGGAAATAAGTAATAACTTTGAGAGCAATTTAACTTGATCATGAATCAGAATG
Celera SNP ID:            hCV100371
SNP Position Genomic:     461437
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48665):
CCTAAAATATTTACTACCTGGTTCTTTATAGACAAAATTTACAGACTCCTGAGGCAGGGTTTTATCAATTCCTTTCCATGTCTATGGATTTAGATATAAG
Y
GTATATTTTGTTAAATATTACAGCAGACTTTGAGGTGGCTATCATCTCCATTTTACAGATGTAGAGGATCAGGCTCACAGGTAGTGAATGGCAGAACCAA
Celera SNP ID:            hCV29226052
SNP Position Genomic:     467606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48666):
CAGTCCCTACTCTTAACCTTGCTGTCTGAATGCTGTTGCTTGCCATTGGACTATTCTGGAACAGGAAGTATAGCATTCTAACAGCATGGTATATGAAGCC
M
TATTTCCCTGAATCAACTTCTAGTTTTAGCACTTATTAGCTAATAAGTGTATGATCTTAGGCAATTTATTAGGAAAAAAATTAATCTCAGTTTACCCAAC
Celera SNP ID:            hCV3019967
SNP Position Genomic:     361075
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48667):
ACATAACTCTATACCGTACAGTATAAACAAGGCTGTGATGAAATTTGAAAGGAAGACAATAAGGATAGGAGAGCTATAAAGAAGGCAAAACAAGTGAACA
Y
AATTCCAATCTGTGTAGTCCTGCACATTTGCTGGAGGTGGAACAAAATCCTTGCCCCCATGTTATGCATATGGAAATTGAGATTTGGAGAGATTACTGAC
Celera SNP ID:            hCV100372
SNP Position Genomic:     461897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48668):
GTTGCAATACAAACAGTGTGGATTACAATGCCTAAAATATTTACTACCTGGTTCTTTATAGACAAAATTTACAGACTCCTGAGGCAGGGTTTTATCAATT
S
CTTTCCATGTCTATGGATTTAGATATAAGCGTATATTTTGTTAAATATTACAGCAGACTTTGAGGTGGCTATCATCTCCATTTTACAGATGTAGAGGATC
Celera SNP ID:            hCV29226053
SNP Position Genomic:     467576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48669):
GAGAAACTCGATAGAACTATAGTTGGAAGTGTCTTTTCAATATGAGCCTCTAGCTATAAATGGATGAAATTTCCACTCCCTCAAAGCTTAGAACTTTCTT
R
CTCTTAGCAGCTCACTAGTTGCTTAACATACCTAATATTAACCATCTGGTCAGGGAGCTAAATACAATGAAGGGCATCCAGCTATTATCCCACCCATTTG
Celera SNP ID:            hCV100373
SNP Position Genomic:     462241
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,12)      total(G,2|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48670):
CAAGGGCAGAATTGAGTAGTTGCAATACAAACAGTGTGGATTACAATGCCTAAAATATTTACTACCTGGTTCTTTATAGACAAAATTTACAGACTCCTGA
R
GCAGGGTTTTATCAATTCCTTTCCATGTCTATGGATTTAGATATAAGCGTATATTTTGTTAAATATTACAGCAGACTTTGAGGTGGCTATCATCTCCATT
Celera SNP ID:            hCV29226054
SNP Position Genomic:     467558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48671):
TTGGAAGTGTCTTTTCAATATGAGCCTCTAGCTATAAATGGATGAAATTTCCACTCCCTCAAAGCTTAGAACTTTCTTACTCTTAGCAGCTCACTAGTTG
Y
TTAACATACCTAATATTAACCATCTGGTCAGGGAGCTAAATACAATGAAGGGCATCCAGCTATTATCCCACCCATTTGCCTATCCCAAGTTATGTTTTAT
Celera SNP ID:            hCV100374
SNP Position Genomic:     462263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48672):
AATTGCATGCGTTGTTTTGCTTGGATGTTACTAGCCCTTGCTGGGAAAGGTACTTGGCACTAATGTGACTATTTAAACTAATATTCACAAAGCAGTTACC
S
TGTGCCAGGCTTATATGGATTCATGTAATTCTCACATTAATTCTGTGAGACTGGTGCCATGACTATGCCACTTACATATGTCCAGCCAGAATCTCTAGTT
Celera SNP ID:            hCV12108340
SNP Position Genomic:     553243
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48673):
AACTTTCTTACTCTTAGCAGCTCACTAGTTGCTTAACATACCTAATATTAACCATCTGGTCAGGGAGCTAAATACAATGAAGGGCATCCAGCTATTATCC
M
ACCCATTTGCCTATCCCAAGTTATGTTTTATTAGGTTGAGTTGTCAATTTTAAATAATCAAGAAAGATAGCTCCAGGTAAGTCTCACTATCTCGTTAATA
Celera SNP ID:            hCV100375
SNP Position Genomic:     462332
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,7)   total(A,5|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48674):
ACAAGGGCAGAATTGAGTAGTTGCAATACAAACAGTGTGGATTACAATGCCTAAAATATTTACTACCTGGTTCTTTATAGACAAAATTTACAGACTCCTG
R
GGCAGGGTTTTATCAATTCCTTTCCATGTCTATGGATTTAGATATAAGCGTATATTTTGTTAAATATTACAGCAGACTTTGAGGTGGCTATCATCTCCAT
Celera SNP ID:            hCV29226055
SNP Position Genomic:     467557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48675):
TGCTTAACATACCTAATATTAACCATCTGGTCAGGGAGCTAAATACAATGAAGGGCATCCAGCTATTATCCCACCCATTTGCCTATCCCAAGTTATGTTT
Y
ATTAGGTTGAGTTGTCAATTTTAAATAATCAAGAAAGATAGCTCCAGGTAAGTCTCACTATCTCGTTAATAACCCTTTACCAATTGCAGCTGTTTCGAGA
Celera SNP ID:            hCV100376
SNP Position Genomic:     462361
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,7)   total(C,7|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48676):
TTTAGAACAGAGATTTTTCAGCAACAACCACAGGCTAGATATAGCCCACTACCTGTTTTTGTCAATAAAGCTTTAATGGAACATAAGCATGGCCATTCAT
K
AATATATGATCAATAGATTTTTTTTGGTACAAGGGCAGAATTGAGTAGTTGCAATACAAACAGTGTGGATTACAATGCCTAAAATATTTACTACCTGGTT
Celera SNP ID:            hCV29226056
SNP Position Genomic:     467428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48677):
AAGACACATTGAAGCTCTTGATGGGGAATAGTCATTATATTTGGCATTTTGCCAGAGTAAACAAAGAACCCTTAATTTATTCTTTAGAATACCTATTAAT
K
CAGAAGTGTTCTGAATGGCGTCATGAAATACTATGTTAGTGCCAGCTCACATCCTTTGCTGAGAGAGTTAAACGTATTTGTCTCAAATCAGCACAGCCTT
Celera SNP ID:            hCV29226057
SNP Position Genomic:     464397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48678):
ACATGAGAAAGAAGCAAAAGCAGAAACCCCTGATAAACCCATCAGATGTCTTGAGATTTATTCACTATCATGAGAATAGCACAGGAAAGACCAGCCCCCA
K
GATTCAATTACCTCCCCTAGGTCCCTCCCACAACACGTGGGAATTCTGGGAGATACAGTTCAAGTTGAGATTTGGGTGGGGACACAGTCAAACCATATCA
Celera SNP ID:            hCV29226058
SNP Position Genomic:     463803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48679):
TCAAAAAATAAAATAGCTTGAGTAAGTAGAGGTGTTTTTCTTGCCTAACGAGAAGTCTCAGTGTAGGTGATGCTGGGTTTGGTTCAACTGTTCAACAGTG
S
TATGAGAAATTCAGGCTATTCCTCTACTTCATCTCACCATCCTTAATTGTCTGGCTTTAATCTTCATAGTTTTCCCCTTATATTGGTCTGTTTTCATGCT
Celera SNP ID:            hCV29226059
SNP Position Genomic:     463472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48680):
CAGAGGATTTGATCTACTGAACCTTCTACTGCACTAAAAATTCTCATTTCATCAAGTATAATGAACTGAAGTCAAAGGGATTTATTTGATGCTGAACCAA
K
CCAACACTCTCCCCACCCCACCTTAGTCTACCGTTAACGTGTCCGAAATTGCATGCGTTGTTTTGCTTGGATGTTACTAGCCCTTGCTGGGAAAGGTACT
Celera SNP ID:            hCV12108347
SNP Position Genomic:     553096
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48681):
CACAGACGTGGGTCCACAGTTATCTATTTTCTTAGCCTCAGTGCTTGGAAGTTGAAATTTGTATTGAATAACTAAATTCCTTTGACAATTAAAACATAAT
W
ATCAAACTTTTTTGCAAAGAAATAACACTATGGTATATGACATCTATGGCATATGACAGTCCCTGCTTACCTTATGCTTGCCGGCATTCAGTGCTTAGGT
Celera SNP ID:            hCV12108348
SNP Position Genomic:     549231
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48682):
AGATCCTTTCAAATTTGAAATCCACAAACAAGCTGTTCCTGATAAAGTCTGGAAGATCTCCAAGATCAACAGTAAGTCTGGCTAAAGCATTTCTGCCTAT
K
CTTCCAGCTTTCAGTTTATTTTCTCTTTCCCAAAATGCTGTTTCTCTACTGTTCTCTCAAGTATTCTCATTTGGTTCATTTTAAGTTATTGGCATATTAT
Celera SNP ID:            hCV25619630
SNP Position Genomic:     1162329
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,35)   caucasian(T,40)   total(G,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:48683):
CTGAGACCCTTCTGTCTGCTTTCCAGCCATTGGACTATGAAATTTCTGCCTTCCACACCCTGCTGATCAAAGTGGAAAATGAAGACCCACTCGTACCCGA
Y
GTCTCCTACGGCCCCAGCTCCACAGCCACCGTCCACATCACTGTCCTGGATGTCAACGAGGGCCCAGTCTTCTACCCAGACCCCATGATGGTGACCAGGC
Celera SNP ID:            hCV25619631
SNP Position Genomic:     1060490
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,38)   total(C,66|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:48684):
TTTCTGCCTGTCTATTTTGGGTAGAAGATACTTAGAACAAAAGTAGTCTTGAAGGGAGGAGAATATCAAGAAATAAATCATGTCTGTGTTCCTATAAAAC
Y
AATAACAAACTTGGTAAACATGCATCTGAAAAATAACTAGAAGTGCTATTCTACTGTTACTATAAAGGACCCTGAGTACTGTAGATTTGGTTAAACTGTG
Celera SNP ID:            hCV12110624
SNP Position Genomic:     945604
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48685):
TTTATTTTTAAGTGAGATGATGTGTGTAACATACCCAATGCAAAGCATGTAGTAAATGACTATGTGTTTTCAAAATAGTGACCATTACCATCTGCTTTGT
Y
TGCAGTTTCAAGCCACAGTCGAGGAAGGAGCTGTGGGAGTTATTGTCAATTTGACAGTTGAAGATAAGGATGACCCCACCACAGGTGCATGGAGGGCTGC
Celera SNP ID:            hCV25619632
SNP Position Genomic:     1052992
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(C,3|T,33)   total(C,8|T,64)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48686):
TGTGTCTGCAGAATCAGTCAGTGGAAGAGATGACCTCCAGGAGACTGTGATTTCCTTGGCAAAGGTACTGCATTTGCTTGCTTAGCAATATCTGTGAACT
S
CTTGCCATAGAACAGCAAGAATTCGCAACATTCCCTGCCAGTGGCATCCTTCAGCACTGCCAGCCACATGTCCTCACCAGCAAGGTCCCATGTCCTCACC
Celera SNP ID:            hCV12111280
SNP Position Genomic:     1040754
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48687):
AGTGAGGGATGTGTCTGCAGAATCAGTCAGTGGAAGAGATGACCTCCAGGAGACTGTGATTTCCTTGGCAAAGGTACTGCATTTGCTTGCTTAGCAATAT
Y
TGTGAACTCCTTGCCATAGAACAGCAAGAATTCGCAACATTCCCTGCCAGTGGCATCCTTCAGCACTGCCAGCCACATGTCCTCACCAGCAAGGTCCCAT
Celera SNP ID:            hCV12111281
SNP Position Genomic:     1040745
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48688):
TCATATGAGTTGGTTCCCCTTTGGGGTATGCCCACCTCTGGCCCAGTAAGCCATGGTGCTGTGGCAAGGACAAGTGTACCATAAGGTTGGCCCCCCCCCC
C
GCCCCAGGGGCTGAGGGTTGGGCAGATTAACCTGGAAGGGAAAGGGTATGTCTAGCAAATTAGAACAAGTAAGAAGTATGATCACCTGTAAGTTCATGCT
Celera SNP ID:            hCV12110628
SNP Position Genomic:     943711
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,3)   total(C,3|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48689):
ATACCCAATGCAAAGCATGTAGTAAATGACTATGTGTTTTCAAAATAGTGACCATTACCATCTGCTTTGTTTGCAGTTTCAAGCCACAGTCGAGGAAGGA
R
CTGTGGGAGTTATTGTCAATTTGACAGTTGAAGATAAGGATGACCCCACCACAGGTGCATGGAGGGCTGCCTACACCATCATCAACGGAAACCCCGGGCA
Celera SNP ID:            hCV25619636
SNP Position Genomic:     1053022
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,36)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:48690):
TCTGTATTGACATCTTTTTGCCTTGCTACCTAGTTACTAAGTCTCTCCAAGTTTCTATTCCAAATTCCCAAGAGATCACAATGATTGACGCAACCTTAAT
C
ATATGAGTTGGTTCCCCTTTGGGGTATGCCCACCTCTGGCCCAGTAAGCCATGGTGCTGTGGCAAGGACAAGTGTACCATAAGGTTGGCCCCCCCCCCCG
Celera SNP ID:            hCV12110629
SNP Position Genomic:     943612
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48691):
CAGTCGAGGAAGGAGCTGTGGGAGTTATTGTCAATTTGACAGTTGAAGATAAGGATGACCCCACCACAGGTGCATGGAGGGCTGCCTACACCATCATCAA
Y
GGAAACCCCGGGCAGAGCTTTGAAATCCACACCAACCCTCAAACCAACGAAGGGATGCTTTCTGTTGTCAAAGTAAGGGTGCTTCCAATTGCCTCTTTCT
Celera SNP ID:            hCV25619637
SNP Position Genomic:     1053108
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|T,1)   total(C,71|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:48692):
GTTTGGGGAGACCCAGTGGTGTGGAGAGAGGGTTGTGTTTAGCTTCTCTTTCCCTGACCTCAGAGTAAACACCAGCCATCTGCATAACAGCAGTGCCCTT
Y
CATAGTACTTATTAGGCTATTGTTACTCAGTTGATGTCAGTTGGTGCCACTAGACAGAGGGCACTGCAGCCCCATGGCCATGTCTGTCTTTCTGAAAGAT
Celera SNP ID:            hCV391520
SNP Position Genomic:     929554
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48693):
CTGTTGTCAAAGTAAGGGTGCTTCCAATTGCCTCTTTCTCCTCATGCGAGCACGGAGGGCCCCATGAGGCAGCTCATAGAATCATTGAGTTTAGAAGGCC
R
CAGATAAATTCCCCCAGTCTCCTCCTTCTGGGAATTAACAAAGGAAAAGGCTCATGGCTTAAGGGTGCACTCGTATCCTCAGCAGCATAAACAAGCAGCC
Celera SNP ID:            hCV25619638
SNP Position Genomic:     1053270
SNP Source:               Applera
Population(Allele,Count): african american(A,12)   caucasian(A,33|G,1)   total(A,45|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:48694):
CATCTTGGGATTGGCGCCATGATCGATGAGGTCTGGGTGTAACCAACGTCTTATGCCATGTCTCTGATCTTTACTCAAATTCACCTCCTATTCTGGGTAG
Y
GAAGTTTGGGGAGACCCAGTGGTGTGGAGAGAGGGTTGTGTTTAGCTTCTCTTTCCCTGACCTCAGAGTAAACACCAGCCATCTGCATAACAGCAGTGCC
Celera SNP ID:            hCV391521
SNP Position Genomic:     929450
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48695):
GGGACTAAAAGCGCACACTGCCATGCCCGGCTAATGTTTTGTATTTTAGTAGAGATGGGGTTTCACCACATTGCCCAGGCTGGTCTTGAACTACTAAGCT
Y
TGAGCTCAGGCAATCCCCCCGCTTCGGCCTCCCAAAGTGCTAGGATTACAGCCGTGAGCCAACACACCTGGCCCAATAGTTCCAATTTTTTATGTGTATA
Celera SNP ID:            hCV10075397
SNP Position Genomic:     149963
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48696):
TGCACAATGAGAGGGAAGCATCCATCCTCCAAGTGTAGAGCGTGGGACGTCTTGGTAGATACCTCACCAGCTCTTCCCTTCTCAGAGGCTCTGAACTCCT
R
GAGGGTGGCACTCTTGGCATCCCCAGACTCTTGGCATCCCCAGTACTTTGTCCGGAATTCATGCATAGCAGCAGATAGCCACAGGTGATGGCTCAAGTGC
Celera SNP ID:            hCV391522
SNP Position Genomic:     929054
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48697):
GAGTGTGTGTTTTTGTGCACATTGCACTGTTGTTACCCAACCAATCAGAAATTCTGTTTATTATAAAAGTAATTCTCCTTAATTAGAGAAAATTTGGAAC
R
TAAAAAAGGAAAAGGAAGAAAATTGCTCAAAGTTTGCAGTCCAATTATAATGGTTCTTGACCGTTTAGTTATTTAGTCTTTTTCCTTTATGCATACATTT
Celera SNP ID:            hCV10075398
SNP Position Genomic:     149376
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48698):
GGAGTGATGAGGAAGAGTGAAATTGGCAGAGTGAAGAGTGATATTTGATGAGGCAATCAGAAAGAGCCATTGTGAGGTGAGGTTTGGGCTAAAACCTGCA
Y
AATGAGAGGGAAGCATCCATCCTCCAAGTGTAGAGCGTGGGACGTCTTGGTAGATACCTCACCAGCTCTTCCCTTCTCAGAGGCTCTGAACTCCTGGAGG
Celera SNP ID:            hCV391523
SNP Position Genomic:     928958
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48699):
TGGCTTTTCTAATGCATCAGCAAGAACACATTTACCGGAATGCATTGCAATTAAAAAGCAAAATTCAGTTGGAAACAATGGACTTAAACCTACGAAATGT
R
ACAGGATAAGTCAGAGAGGAAATTTGATTTCAATGGTGAGATTAACGAGCCCATGAATGCATGGTGCATACGGCACAGACAAAGATAACTGAATTGGATT
Celera SNP ID:            hCV10075399
SNP Position Genomic:     148889
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48700):
TGATGGCTCCCTTTCTTTGAGCGTATTCATTCATTCATTCATTCATTCAATGACAACTATCTACCAGGAGCTGTTCTAAGCATTGGGGTGTGGAGGTGAA
Y
AAGAAAGCATAGAGCCATTGTTCTAGCTGGGGAACCAATATGAAGTAAAACATAAGCTAATACTTAAGTCCAGAAGTTCAGAAGTGATAAGTGCTCTGAG
Celera SNP ID:            hCV391524
SNP Position Genomic:     928749
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48701):
AAGTCCACTGCCTGGACAAGGCCTTCATGGCTGTTCACAACCTGCCCCAGCCTCCAGTCCATTACCCTTGCCTATTTTGTTGCAGTGATGGAATTAAAGT
M
CTTCTAATGAAAAAGGCTGTAGGTGAATTTTAATCCATTAGCCATCTACCAGACCTCCTCTGCCATCCTTTAGACTCTCCATACAGTTCCTCTCCCTGCC
Celera SNP ID:            hCV391526
SNP Position Genomic:     928399
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48702):
ACAGTTTCTATTGAATGCATATCACTTTCATACTATTGTGAAGTCAAAAAATTATGAGTGAAATCATCGTAAGTCAGGGACTCTCTCTAGCTGCATTGTG
Y
TGGGCAAGGGATTTAACCCTCACCGTCTTTGTTTCCTCATCTGCAAAATGAGGATTTATAACAGTTCAAAGGGTATCTACTAGGATTAAAAGATACAAAA
Celera SNP ID:            hCV391527
SNP Position Genomic:     927547
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48703):
CACTTGATGTAGCCCGTAGCAGGAGTGCCAGGGAGAACACAGCTTTGTTGTTCCATATCCAGCTGTTTGGATCAGAGGGAAATGGGATCTTTCAATCACT
R
CTGCAGTATGAGAAAGTGAGCTGCACCCAGTGGTTACTAGGTGGGGTGCTCTGTGCAGTGTGCTTCGAGCACACCCTCTCACTGAATGTGAGATGATGCT
Celera SNP ID:            hCV391528
SNP Position Genomic:     926830
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48704):
AGACTCTGTTATTAGCCCCGTTTTAAAGATGAGGACACTAAGATTCAGATGGTTTAAGTAACCTGTCCAGTGTCCACAGCTCCTGTATTAGCTGAGAGTC
Y
TGTGCCATTATATCAGAAAAGTCTGCTTGTGTCTTACAGTCTTGATCAGAAACAAGTATATCCCTCAGAACATAGAGGCGGCAATGGGGGGTGACTTTGT
Celera SNP ID:            hCV29226060
SNP Position Genomic:     459127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48705):
ACTGGGGGTGATTGTGCTCCTCAGGGGACAGACATTAGAGACATGTTTTGGTTGTCTGTCGTGAGAGCAGAGTGTATTCCCATTCCCCAGCTGGGACCAG
S
GGGTATGCTGCTCTCATCTAATGGACAGTGGCCAGGGGTGCTGCTGAACATCCTACAGTACATAACACAGTTCTCATCGCTACAGAGAATCTCTGGCCCC
Celera SNP ID:            hCV391529
SNP Position Genomic:     926520
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48706):
CCTTCTTGGGAGCCAGATGTTCCACTGAACACTTTGCATGCACTGTGACTATCTAATGCAATCCTTGGGACAGATCTGTGAAATAGACTCTGTTATTAGC
Y
CCGTTTTAAAGATGAGGACACTAAGATTCAGATGGTTTAAGTAACCTGTCCAGTGTCCACAGCTCCTGTATTAGCTGAGAGTCTTGTGCCATTATATCAG
Celera SNP ID:            hCV29226061
SNP Position Genomic:     459043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48707):
TCTCGGTTCATCCATGGTGGGAAAGAGCCCTTCAGCTCATTCTTCAGTTGGAGGTGGTTCAGGGCCCCATGTTGCTCAAATTGGTGATGACAGCCAGCTG
Y
TTGGTCCCAATTCGCTGAGACTAGGAATTCAAACCCAGGAAAATTGAGACACCTGTGTATGAAAAGCATAAAGAGAAAATTTGGTTGCCCTCATGCTCAC
Celera SNP ID:            hCV29226062
SNP Position Genomic:     458751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48708):
AATGCTTTTTAAAAGTACTTTCACGTTTGGACTAATAAAAATGACATATCTGTCTCATCCCTTTTCAAGGAAGCTGAAGTGCCTCATCAAATTTATTTTA
Y
TAGGATCCCGACAGCAATCTTGTGGCCTGGGTGAAGGTCAAGGAGGTTTTGCCTTTTGCAGAAGGGAGTAACAAGTGATGTGATGATAAAGTGTTCTTTC
Celera SNP ID:            hCV29226063
SNP Position Genomic:     458548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48709):
CTAATCTGTTATAATGCTGCTCTTGCCTCATAACTTTTGTTCTTTGTATTCCTTAAAAAGACCTAAGAGAGCTCAAGATTATGGGGTGCTGCCAAATATA
W
CACTAGTCTTCTATTTTTATTTTTAAATAAAACTTTGTAATTGGTAAAGTCACAGAATCAGTGTGCATATGATCAAAGTCTATAAAATAATGAACCATGC
Celera SNP ID:            hCV29226064
SNP Position Genomic:     475868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48710):
CTCAACAAAATTTGATATCACCATAAAGGAGGAGACTCGGTTGCCTTTGTTTTTATTATTAAAAGGAAGCATTGAGTCTAACTGATATGAAACATTTCTG
Y
ATATGCCTAAGAACTTATGAAGCTCATAGGATAAGAATTCTTGGCAATCCAAATAATCTCACATTGTCTCTAATCTGTTATAATGCTGCTCTTGCCTCAT
Celera SNP ID:            hCV29226065
SNP Position Genomic:     475698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48711):
CGACTGTAGCCTTCTTTCCAGCAGAAGCAGTTTGCCAAATGCCTCTGCCCTTCCTTAGCCCAAATGCTAATAGTAGCTATTTCATGAATAGATACAGAAT
R
ACAGAGTCAACTTTACCTAACTTCTCCAAAATGCCGACTCCAGTATTCCATTTTCAAATTAACTTATTCTGATTATAAAAGTAATGTTCAGTATTGTTAG
Celera SNP ID:            hCV12108351
SNP Position Genomic:     548646
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48712):
AGAGCTTTTGAGCATTGTTTGATAATATTCCAAAAAGAAAATGATAGAGCCAAATTTCCCAAATGTTCCATGTAAAACTAGGAAATGACTGAAGCATTCA
Y
CCTCATTTCTAAGTATTGTAAGTGTCTGGATCAGAATCCATTGCCATGGCTTATTCATTCAGAGCTTGTTGCTGGGGATTGGGATGCTTAGACTGGCAGG
Celera SNP ID:            hCV29226066
SNP Position Genomic:     454784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48713):
CCCCTCTCCCATGCCCACCCTGTGCGCAGAAATGTGGCTTTCAAAGATTGTTTTCTTCCCACTGAGCTCATTATTTCTGTGCCTCATCAAACCCGGGACT
R
CATGGCTTTAGGGTGTTTCTGTGGGAGCTGAAGTGGATGGAATTGAACACTGACAGGGCAACAGTGGGGGGTCTTTATCTCATCAGTAGAGCCCTCCAGG
Celera SNP ID:            hCV222961
SNP Position Genomic:     598926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48714):
GCGCTTTCCAGTCGTGTGTCAATGCAAAGTGAGTGGATTTGGGTTTAACTCCCTTGGACTGAGTGCAATTATATGTTGGGAGGGGACTAACAAGGTAGCC
Y
ATGTAACAATACTGTCGTAATTATGTGCAATATTTTCATTTTTACTTCTGATCAACCGCAAGAGTAGATTGAATGCTATTGTTCAGTTTGCACTTAAAAA
Celera SNP ID:            hCV29226067
SNP Position Genomic:     475204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48715):
GGTCTCATTCTGTCACTCAGGCTGGAGTGCAGTGTCATGATCATGGCTCACTGCAGCCTCGACCTCTCAGGCTCAAGTGATCCTTGCATCTCAACCTCAC
R
AGTAGCTACGACTACAGGTATGCCCCACTATGCCTGGATAATTGTTCCTTTTTTTTTTTTGGTAGAAACAGGGTCTCATTCTGTTGCCCAGGCTAGTCTC
Celera SNP ID:            hCV11673501
SNP Position Genomic:     701517
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48716):
ATGATTTCAATTCTCAGGACTGAGTATCTCTGCTGAACCCAAATTTAAATTCTTAATATGAGAAGCTGCGCTTTCCAGTCGTGTGTCAATGCAAAGTGAG
Y
GGATTTGGGTTTAACTCCCTTGGACTGAGTGCAATTATATGTTGGGAGGGGACTAACAAGGTAGCCCATGTAACAATACTGTCGTAATTATGTGCAATAT
Celera SNP ID:            hCV29226068
SNP Position Genomic:     475137
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48717):
ATAGATGCCCTCTTGTCTTTCTGTGCCCATCATGGGAGTCTCCAAGAAAGTTCTGGCACAAAAAACTAAGGAAAGATACAATAAATTTCATAATTTCTTA
R
CAGAGTGATCAAGAGCTGTGGGATCTGATATGGTTTAGCTGTCTCCCCAATCTCATCTTGAATTGTAGCTCTGAGAATTCACACGTGTCATGGGAGGGAC
Celera SNP ID:            hCV222963
SNP Position Genomic:     600027
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48718):
TGACCACATCTCCTGAGTATTTTATTGCCACCACGACTCATGATTTCAATTCTCAGGACTGAGTATCTCTGCTGAACCCAAATTTAAATTCTTAATATGA
R
AAGCTGCGCTTTCCAGTCGTGTGTCAATGCAAAGTGAGTGGATTTGGGTTTAACTCCCTTGGACTGAGTGCAATTATATGTTGGGAGGGGACTAACAAGG
Celera SNP ID:            hCV29226069
SNP Position Genomic:     475098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48719):
TTCTGGCACAAAAAACTAAGGAAAGATACAATAAATTTCATAATTTCTTAACAGAGTGATCAAGAGCTGTGGGATCTGATATGGTTTAGCTGTCTCCCCA
R
TCTCATCTTGAATTGTAGCTCTGAGAATTCACACGTGTCATGGGAGGGACCCAGTGGGAGGTAATTGAGTCATGGGGGTGAGTCTTTCTCGTGCTGTTCT
Celera SNP ID:            hCV222964
SNP Position Genomic:     600077
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48720):
TTGCCCACCGTGTAAGAAGTCCCCTTGTTCTTCCTCCATCTTCTGCCATGATTGTGAGGCCTCCCCAGCCATGTGGAACTGTGAGTTCATTAAATCTCTG
W
CCTTTGTAAATTACCCAGTCCCGGGTATGTCTTCATTAGCAGCATGAGAACGGACTAATACAGCATCTGAGATCCTCCATTCAGGTCTCAGTGCTGCTGC
Celera SNP ID:            hCV222965
SNP Position Genomic:     600346
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48721):
TAGTGTAGTCCGTGCATCCGCCCTTCGATGCTTGGGTTGGATCATAGAGCAGTGACTGTTGATGGCTCACCCAGATCCCCAGGAACCCACCACTCCCATA
Y
AGGCTTTCAACCTGTTAATCCCTGCAGCTGCCTGCCTGGACTTTCCTCTGACCATGGGAGTGTGCTCAGTCTTACTGCCCAGGGAACAGCCATCAGCCTT
Celera SNP ID:            hCV12106752
SNP Position Genomic:     891197
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48722):
ACCGTGTAAGAAGTCCCCTTGTTCTTCCTCCATCTTCTGCCATGATTGTGAGGCCTCCCCAGCCATGTGGAACTGTGAGTTCATTAAATCTCTGACCTTT
R
TAAATTACCCAGTCCCGGGTATGTCTTCATTAGCAGCATGAGAACGGACTAATACAGCATCTGAGATCCTCCATTCAGGTCTCAGTGCTGCTGCGTACTG
Celera SNP ID:            hCV222966
SNP Position Genomic:     600352
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48723):
ATCGGGAAAAAAATGAAAACCCAGCAGCCTGACTCCAAAGCCCGTGTGCTTATCCAAACACTACAGCGTAGGTTGCTTAGTGCCAGCTTCAGTGGTTAGT
K
CTTTACATGCTTATCATAGGTAATCCTCTGTCAACCTGTAGAAGTAGGCATGATTAACTTAATTTTCCATTGTGAACACTGAAGGTTGGACAGATTCAAT
Celera SNP ID:            hCV12108357
SNP Position Genomic:     544325
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48724):
GATTGATTGAGCAATTCATTCATTTTACATACATTTAATTGAGTGCTTATAGGGTAAGGGACACGCTTCAAGGTGTTCGGAGGATACAGTAGCAACAAGA
Y
ACACTGGGTTCCTTGCTTTCATGTATCTTTTATTCTAGTTCTTTGTTTCAGAATAAACTGGCTTGAATTCCTCTCTTCTGTGTGTAGGTGACATGGCAGG
Celera SNP ID:            hCV222967
SNP Position Genomic:     601148
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48725):
AAACCTTACCGTGTGCTGAACATTAGACTAAGCATTTTGCAAACATTATCTAATTTAATAATCACACCAACACTATAAAAAAGACATAGTTGTTATCTGT
R
TCTTACCCAGCTGGTAACTGATCGGGAAAAAAATGAAAACCCAGCAGCCTGACTCCAAAGCCCGTGTGCTTATCCAAACACTACAGCGTAGGTTGCTTAG
Celera SNP ID:            hCV12108358
SNP Position Genomic:     544204
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48726):
GGTGACATGGCAGGAAGTTGTGCCTGGTTTGTAACATGGCTTGTTGATAACACCAGCACAGGGTCATATACCCTCATTGGAAAGGGTACTGGTGTTTAGT
S
GGAATGCAGTTTCTTACACAAGTACTTGGGTTACTTACGACTGGCAGACTGGGGCCCAGCCCTTGGCAGCGCACTCTTCAATGGGCTCATGAGGGCCTAC
Celera SNP ID:            hCV222968
SNP Position Genomic:     601335
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48727):
CTGAAACGAGTCTGACGGCTTTTTCTCCTGGGGCCATTTTGTAAGAAATAAAAGCAAAACAGTGAGATATTTAAATTCTTCAGGGATATTATTTTCGAGT
R
GATAAAGTGAAGAACATTTTTTATTCATATTAGAAGTGATAGTTGGATGTGTGTAATTTTTTTGCTCTCCGAGATGGAGAGAGAACACAGCACAGATCTT
Celera SNP ID:            hCV12106755
SNP Position Genomic:     892940
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48728):
AACAAACCTTTGTTGAGTTAAGGCTCTGGGATTTTGTTTTATTTTGTTCAGTTTTTAATTTCTGTACCATATCCTAACCCATCCTAACCAATAAAACCTC
R
TCGCTGTCAACATCATCATCATCATCGCAATAATAAAATGTATTAATTATGAACATAAAACCTTACCGTGTGCTGAACATTAGACTAAGCATTTTGCAAA
Celera SNP ID:            hCV12108359
SNP Position Genomic:     544046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48729):
GACTGGCAGACTGGGGCCCAGCCCTTGGCAGCGCACTCTTCAATGGGCTCATGAGGGCCTACTTTCTGATGCCGTTTCCCTCCGTGCTTCATGCACTTCA
R
TTCGGTCATTGTCCTGTTTACATCATACCCGCACTGAAGCTTCTTACAGTTGCTGAAGCTTCTTCCTTGAAGAAGCAAGTTTGAGGAAGAGCCCCGATCA
Celera SNP ID:            hCV222969
SNP Position Genomic:     601474
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48730):
GAGCAACTCCTAAAGACCTACTATTTAGAGTTTCACTTAACATTGTTTCTCTGTAATGTTGATGAGAAAACAAAAATGGTCATTGGTCCCTGGGCCTCCC
T
TCTGTGTGCTCTGCCGTTGATGTTACTTAGCTTCTTTCTCTGTATTGACATCTTTTTGCCTTGCTACCTAGTTACTAAGTCTCTCCAAGTTTCTATTCCA
Celera SNP ID:            hCV12110634
SNP Position Genomic:     943473
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48731):
CCACGATCATGATCGATGACAAAAATGATCACTCACCAAAATTCACCAAGAAAGAGGTAAACCCCTGTGCCAAACACCAACCACCACTGTGGTCACAGCT
R
CAATTACTGATTGATGTTAATTCACGTACCACAGCACCTGCTGGCCCCCCTTTCAAAATCAAAATACTCCTTTGTGGGAGAGACGATGGTGTTTTGCTGG
Celera SNP ID:            hCV25619642
SNP Position Genomic:     985306
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48732):
TCTGTCTTGCCCCGGTAGGCACCACAGTGATGCGGATGACAGCCTTTGATGCAGATGACCCAGCCACCGATAATGCCCTCCTGCGGTATAATATCCGTCA
R
CAGACGCCTGACAAGCCATCTCCCAACATGTTCTACATCGATCCTGAGAAAGGAGACATTGTCACTGTTGTGTCACCTGCGCTGCTGGACCGAGAGGTGA
Celera SNP ID:            hCV25619643
SNP Position Genomic:     868464
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:48733):
TACATCGATCCTGAGAAAGGAGACATTGTCACTGTTGTGTCACCTGCGCTGCTGGACCGAGAGGTGAGCTGAAAAGAATACACTTTCTTTTTCACGAGAA
Y
AGAATGTGGCTTTCATGCAAGGGATGATGTGGGGCTCCAGTCAGTGGTTTTTTTTAATACTGTAAAGGCAGAAATGAGGTGTTTACCATGTTTTGGTGGG
Celera SNP ID:            hCV25619644
SNP Position Genomic:     868598
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,26)   caucasian(T,40)   total(C,2|T,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:48734):
GGCGCTTGGCACATCGTATGTTTTAAGTAACTATAGGTTGAATTAATTAATATTCTTTCCACACAGCAATTTGGCCTGCATAAAAGACTTCAATATTTTC
Y
TGATGTTGCCAGAGGCTTAATGTGTGACATTTCGTATAGCAAATGCTCAATAAATGTTGGGTGAGTGAACATAGCTGTCACTCCTCATTACATATTTTAA
Celera SNP ID:            hCV391530
SNP Position Genomic:     925997
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48735):
TGCGCTGCTGGACCGAGAGGTGAGCTGAAAAGAATACACTTTCTTTTTCACGAGAATAGAATGTGGCTTTCATGCAAGGGATGATGTGGGGCTCCAGTCA
R
TGGTTTTTTTTAATACTGTAAAGGCAGAAATGAGGTGTTTACCATGTTTTGGTGGGGAAAATCTATAAAGGGAAATGGGATATTATGTGACCCAAGAAAA
Celera SNP ID:            hCV25619648
SNP Position Genomic:     868642
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,26)   caucasian(G,40)   total(A,4|G,66)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48736):
GGATCACCTCCCCACACTGCCTGATTCAGTATGTCTGGCATAGGGACCAATAACGTGCATTTCTCCCAACTTCCCAGGTGCATTCGTTTGCAACGGCTGT
S
GTAACAAAGCATCATAAACTAAGTGGCTTACAACAGCAGAAATGTATTCTCCCATGGTTCTGGAAGCCAGAACTCTGAAATCAAGGTGTTGGCAAAGCCA
Celera SNP ID:            hCV391531
SNP Position Genomic:     925309
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48737):
CTGGACCGAGAGGTGAGCTGAAAAGAATACACTTTCTTTTTCACGAGAATAGAATGTGGCTTTCATGCAAGGGATGATGTGGGGCTCCAGTCAGTGGTTT
W
TTTTAATACTGTAAAGGCAGAAATGAGGTGTTTACCATGTTTTGGTGGGGAAAATCTATAAAGGGAAATGGGATATTATGTGACCCAAGAAAACACGTGC
Celera SNP ID:            hCV25619649
SNP Position Genomic:     868649
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,31)   caucasian(T,40)   total(A,1|T,71)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48738):
TTGCATCATAGCTTTAGAATGCAAGCCCCATGGGACAGAGGCTGTGTCTTTCTTATCCATCATTGTACCCATTCCCTAGCAAGTGTCCAGCATTTGGAAG
M
AAGTCAATAAATACTAGCTATTATTGCTATTAGTATTAATGTGTTAGCGTTGTCTGACCCTTGCTCCTTACAGTGTAGGCCATGGGCCACCATGGCATCA
Celera SNP ID:            hCV391532
SNP Position Genomic:     924762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48739):
TGTTTGGTAAATGTGACTACAGAGCCCAGGGTGAAAAGATGTAGAAATTGTCTTGGGATCATCTTGACGTCTCCTGGTTGGAGTATTCATGTTCACTCCC
R
CTCAATCCCCAGGTCATATGGCAGTCTAATCTCAGACTCTCAGCCCAGCTGCCACCTCCAGCCTCTGGCCTACACTAGTGCCCAGTGGTGAGCAAAGATG
Celera SNP ID:            hCV391533
SNP Position Genomic:     923864
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48740):
CCTCCTTGCTCTTTCTACCCAATAAATACAAAGGGCTCTAGAAGCTCAGGGGTGCCTTTGCTCACTAGAAGCAGGGAGCTCTCTTCTTCTTCCCCAGACC
S
TTCCTTTAAAACAGTTTCTTTTGTCTTAAGTTTCCATTTCTACGTTTGTCCCTTTGTTCAGTCTCGTAATGACACTCTCAAGTAGTAACAGTAGTAACTG
Celera SNP ID:            hCV391534
SNP Position Genomic:     923346
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48741):
TGATCAACTCAGTATACCACTGGAGGCTATATGAGTAAGCGCCAAACTGGTCTTCATAAATGCAGAATGTTGGCAGACCGACAAACTGCGTCTGCTGCCC
Y
GAAGGAGTGCTGAAGACAGTCACCCCCGATGCGCAGTGTTTCTTGTGATTAGGTACATCTGAAGCCTGTTAGTAATAATATAAACCTGTGTTCAGTTAAG
Celera SNP ID:            hCV391535
SNP Position Genomic:     923122
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48742):
CTTGCAGAAAAGGAAAACCGAAACATTGAAAGAGGGAAAATCTGACAGGAGAAGGCACAGAGATGAGCATGAGGGCCATTTGTTGAAGTGTTGGTAACAG
Y
GATAATGATAATTCTAGCTGATATTTTCAGAGCATTTTCTACGTGTCACTCATGGAGTCCTCACAAGAACTTCACGAAATAGGTACTGTAATTATTCCCA
Celera SNP ID:            hCV391536
SNP Position Genomic:     922410
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48743):
TACTTGTTCACATCCATGCAGCATGTGTGCCTGCATGCTCACACACTCTAGTCTTACGCAGCTTATTCACCAACATTGGTTCGGGATGACATTTGACTGT
W
TTCAAAAGTCAAATCCACTTTTCATGGACAAAGATTTTCCTTCATAAGTGTTATTCAAAAGATTGTGCTGTCTGCCCTGAAAACAGTTCTTATGGAGGAG
Celera SNP ID:            hCV29090973
SNP Position Genomic:     271423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48744):
ATCATGCCAATCTACATTTCAACTACCAGGGCACACACTTGAACCCATATAAACAGTGGTCTATTCTGAGGACTTTTCAGAACTTTTATTAAACCAAGAT
W
CATTGTAAATCTTTGAGGGAGTCATCTGGCATACAAAGTGTTTTCGAAACTTTGATTTTAAAGGAACTCATACTAACATCTTGAGAATCTAGTATCCTTA
Celera SNP ID:            hCV391537
SNP Position Genomic:     921811
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48745):
CTTAGGATGGTGGTGGACGTACAAAACACTCAATAAGAATTTGCTTTTGTTATTATTACTTGTTCACATCCATGCAGCATGTGTGCCTGCATGCTCACAC
M
CTCTAGTCTTACGCAGCTTATTCACCAACATTGGTTCGGGATGACATTTGACTGTTTTCAAAAGTCAAATCCACTTTTCATGGACAAAGATTTTCCTTCA
Celera SNP ID:            hCV29090974
SNP Position Genomic:     271367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48746):
GCAAATATCATGCCAATCTACATTTCAACTACCAGGGCACACACTTGAACCCATATAAACAGTGGTCTATTCTGAGGACTTTTCAGAACTTTTATTAAAC
S
AAGATTCATTGTAAATCTTTGAGGGAGTCATCTGGCATACAAAGTGTTTTCGAAACTTTGATTTTAAAGGAACTCATACTAACATCTTGAGAATCTAGTA
Celera SNP ID:            hCV391538
SNP Position Genomic:     921805
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48747):
ACAGAAAAATTATCCTTGGGCTATGACCACATCTCCTGAGTATTTTATTGCCACCACGACTCATGATTTCAATTCTCAGGACTGAGTATCTCTGCTGAAC
S
CAAATTTAAATTCTTAATATGAGAAGCTGCGCTTTCCAGTCGTGTGTCAATGCAAAGTGAGTGGATTTGGGTTTAACTCCCTTGGACTGAGTGCAATTAT
Celera SNP ID:            hCV29226070
SNP Position Genomic:     475075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48748):
AACATTTGCAAGAAGGAATGTGATCCTAAAATAATAGGATGTCCTTGTTGGGTGAGTTGAGGAAGTATGATAGAGCCATAGAGGAAAAGGGTAGATTGGC
R
TCGACTTAGTAGCGCTGACGATCATTTTTATCAGGGATGTGGATGTAGGCACAGAAAGAAAGGCATAGCTCTTAGATTAGCAGAAGAGACAAGGTTGGAA
Celera SNP ID:            hCV391539
SNP Position Genomic:     921427
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48749):
AGGAATTCATAAAGTTGGATTAAATGATAACAAAAATTGGAACTTTCCCTTTATCTTCTTTTCTTCTTAAAGAATAAGTTAAGATACATTGATTTCATTT
Y
ACAACTTGCACGGAAATGAGTGTTTTACTGTTGATGTTTTTATGATCTGTAGTTTCCATTCTTTTTAATAGCCTTGGTGCAGTATTAAAAAAACTATCTT
Celera SNP ID:            hCV29226071
SNP Position Genomic:     448928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48750):
ATACATGTGGTCTCTTTCCCTATAACTAAATATTTGATACAAGCCACTATCAACTTGATACTGACAGTTTAAGGGTGTTGGGTACGATGACCTTTGAGGT
S
CCTTCTGGCCATAAGTACCAAGGAATTCATAAAGTTGGATTAAATGATAACAAAAATTGGAACTTTCCCTTTATCTTCTTTTCTTCTTAAAGAATAAGTT
Celera SNP ID:            hCV29226072
SNP Position Genomic:     448807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48751):
ATCATGGGCTAGGGACAGTGTGGACATTCATATATGTGAATGCTCCTTAAAGCTTCCCTATAACCTTGGATACTGCTGGTCACGTGTCCCTTAAATATAG
R
TGAGGAAATTACAGCTCTGAGACAATTGTTGTTGGTCAGTATCCTTTTGATCCTTTGTTTGTAAATCTTGCCCAGTTGGGGCTGCATGAGGTTGAAAGCT
Celera SNP ID:            hCV29090978
SNP Position Genomic:     270950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48752):
AAGAGGGTAAGTCACCATCCAAAGTCACCTATCTAAAAAATGCAAAGCCAAGATTCAAACTCAGGAAATGTGTTACTAGAATCTTATCTACTATGCCATG
Y
TGCCTCTCAGAAAGACTATCACTGCTTCCTCCAGCCTCATCCTCTTGTCTTTTCCTGGGCTGGGGCCATCCTCACCCTGATTGGCTCTCCCCAAAGGCTC
Celera SNP ID:            hCV29226073
SNP Position Genomic:     448106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48753):
CAGAAACCAAATACGAATATATCAGACATTATCCCAGAGAGAAGGCTCAGTCAAGGATCTGCAGCTGGGACCTGCATATCTTAATTCCCCTGTTCCTGGG
R
AAGTTATCCAATAGCTACTGAAATACAAGATGGAAGGTATCCTCTCTGTACCATAGCTAAAGGATTGCTCACAAAAATGAAAGTGCAATTACAGAAAAAT
Celera SNP ID:            hCV29226074
SNP Position Genomic:     474884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48754):
TTCTGAATTCACAGCATGAGCAAGAGATAAACAAACCTTTGTTGAGTTAAGGCTCTGGGATTTTGTTTTATTTTGTTCAGTTTTTAATTTCTGTACCATA
K
CCTAACCCATCCTAACCAATAAAACCTCGTCGCTGTCAACATCATCATCATCATCGCAATAATAAAATGTATTAATTATGAACATAAAACCTTACCGTGT
Celera SNP ID:            hCV12108360
SNP Position Genomic:     544017
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48755):
CAAGTTCATGGAGTGCAAGGGCTGTGGACACCCTGCTTGCCAATTTTTCTGCCTTAACCGTTCCCTGCCCCCTTGTTGTTCAATTTCTGGCCAATGTCTA
M
ATTTTCCAAAAGGAAGTATGGTCTTTTGCATTATGACACATGATTGCCACCCACTGGTTAAGAATGTTTTCACTATGAAGGTTTAGAAGGTTTGCTGTTG
Celera SNP ID:            hCV29226075
SNP Position Genomic:     447350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48756):
GGCTTCTTCAGTGTGGGTTCTTGAGCTGTCATATAGCATAAAGCCGCCACCCACCATTCTGAATTCACAGCATGAGCAAGAGATAAACAAACCTTTGTTG
W
GTTAAGGCTCTGGGATTTTGTTTTATTTTGTTCAGTTTTTAATTTCTGTACCATATCCTAACCCATCCTAACCAATAAAACCTCGTCGCTGTCAACATCA
Celera SNP ID:            hCV12108361
SNP Position Genomic:     543961
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,5)      total(A,5|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48757):
GGCTATTAAGTGGAACTTCCCAAGACTCTGTAACTTTGGAGACTAGTCACATATGAAATATGCTACCCTCTCACTTGTGTGATGGCGTTCAGGGTTTGGC
R
AATGTTGAGCAAGCCAATAAGGTAAGGCTGTATGCGGTACAATTCTCACACTCGTTGCTCTTTTTGTTGTAACCAGCCTCTTTAAACACTATGGCCTGAC
Celera SNP ID:            hCV29226076
SNP Position Genomic:     446945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48758):
AAAAAAAAAGAAAAAGAAAAAAAAAAAAGGAGAGAGCCTGCAGGTGAATGTGTTGCCATCATAATAGCGCCAATGTTTCTGTTGTTTAAAGTTAAGTGCT
R
CTCACATGCAAGTACATGTTGATGTATTAACGTTTTCCAAATCCAACAAGAAATATTTTGATCTAAACCTCAGGGATTTGTATGATAAGAAATAATCTGG
Celera SNP ID:            hCV222971
SNP Position Genomic:     602077
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48759):
AAACTAATCCTTGGAATTTGCTGCTTTGAAGTTGATGTCGGCTGGGAAACTCATACACAGGCGTGTCCCAGTCCTGTGGTCTAGAATCAACATAGTGAGA
M
GAGACAGAAGGCTGGTGGTTGCTGCTCTGCTGGTTACCAGCTGTTTAACCCTCGGATAGGTCACACTGAAAACCCCTGGGCCCTGTTTGTTCTTGTATGA
Celera SNP ID:            hCV12108362
SNP Position Genomic:     524095
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48760):
TGACTCATTGCTGCTTGGCTATTAAGTGGAACTTCCCAAGACTCTGTAACTTTGGAGACTAGTCACATATGAAATATGCTACCCTCTCACTTGTGTGATG
R
CGTTCAGGGTTTGGCGAATGTTGAGCAAGCCAATAAGGTAAGGCTGTATGCGGTACAATTCTCACACTCGTTGCTCTTTTTGTTGTAACCAGCCTCTTTA
Celera SNP ID:            hCV29226077
SNP Position Genomic:     446929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48761):
TCTGAGGCTACCAGAGCATGATCAGTTCATCATCTCAGTCAATCCTCCCAGCTCCTCTATTAGATCCATATGACTGCCACTTTGTGAAAGATACAAGGAG
R
ACTTGGCAAAACAAGGGCCCCACCTGAAATGGATAGCTGAGAGCATTACCACAGTCGGATCTGCTGGGTTGAATTGTACACAGCAGATGCCAACTTCCAA
Celera SNP ID:            hCV29226078
SNP Position Genomic:     446556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48762):
CTCTCCTTCCGTCAGCCTGCTGTTCCTGCCCCTCTCTTCTTCTCTCTGGCCTCTAGATACCGGAATGTCTCAGGCCTCCCATCCCCTCTATCCTCCATTT
Y
GCCACCTGCTCTGGCCAAAAAGTTTGAAGGAGGACCTATGAAAAATATCCCTGGCCTGGGCTTAAGAAGCCTTCACCCTCATTCTCAACTCTGAGGCTAC
Celera SNP ID:            hCV29226079
SNP Position Genomic:     446366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48763):
AGTTCCAGCACATGGTTAGTCCTCAGTAAGTGTTAGCTAATAGCATTAGAAACTAGCTTTTTTAAAAAATAAAGGAAGGGGCCAGGCGCGGTGGCTCACG
S
CTGTAATTCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCTGGAGGTGGAGACCATCCTGGCTAACACGGTGAAACTCCATCTGTCCTAAAA
Celera SNP ID:            hCV12106761
SNP Position Genomic:     894810
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48764):
CAGAATCTCAGTTTTTCTTATTTACCCTTTTATCTTCAGCATCTAGGATATGTCTGGTGGACTAGGCTCTCAATAAATATTTTTTGACTGAATGAATGGT
C
AAAAAAGGCCAACTCCAGTGGTCTCTCTACAAGGTGATAAAAGAGTAAAGGGGCCGGGCGCAGTGGCTTATACCTGGAATCCCAGCCCTTTGGGAGGCCG
Celera SNP ID:            hCV12108367
SNP Position Genomic:     522919
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48765):
GCTTACCTTTAGCGTAATGGCTTGGAAAGAGGCACACTTTGATCTTTGTGGATTCTAGGGACTGTCTTATGGCTGTTCCAACTTGTCAGCTCGTATCAGC
R
TCGACTTAATACTTCCCTGCGTAGAAGCCAGGTTGGAAAGCTAAAGTGCAAAGCTTGACCGAGGTGTTGCAAGCTACGGAAATCTCTTTCATTGTCTCTG
Celera SNP ID:            hCV25619650
SNP Position Genomic:     726487
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,40)   total(A,3|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:48766):
ATGGTTGTATTTGGAAGTGATTGATTGATTGATTGATTTGGTTTTCTTACCTACTTAAATGCATTATTGTGAGTTTGAAGTGAGAAGATACTATAAGGGC
R
TTGGAGGCATAAAGTGCTGGACAGACATAGAGCAGTAGCATGATGGTAGGTAGTAAAGTCCCCACCCTCCAGCAGAACCCTTACTGGGCAATGCGCTCAA
Celera SNP ID:            hCV10071411
SNP Position Genomic:     599543
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48767):
TCTCCACTAAAAATACAAAAAATTAGCCGGGCATGGTGGTGCTCACCTGCAGTCTAAGCTACTCAGGAGGCTGAGGCATGGGAATTGCTTGAACCTGGGA
R
GTGGAGGTTGCAGTAAGCCAAGATCATACCACTGCACTCCGGCCTGGGCAACAGAGTGAGACTCCATCTCAAAATTAAAAAGAGAAGAAGAGGAGAGAGA
Celera SNP ID:            hCV12106768
SNP Position Genomic:     897315
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48768):
AATTTCAATATTGCCAAGGGCTCATAAAATTGTCGATATAACCTACTTTCTCTAGAGAACCTTATTTGAATTTTCATAATGAATTAATATCTTCTTTCTC
Y
CCCAATCTCTTTGCTCAAATAGCTATTTGTGGAGACCACTGATGTCAATGGCAAAACTCTCGAGGGGCCGGTGCCTCTGGAAGTCATTGTGATTGATCAG
Celera SNP ID:            hCV25619651
SNP Position Genomic:     726206
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48769):
TATAAACTTTGGAGGGGCACAAACTTCAGAGCATAGCAGATACCATGAATTTATAGCAACACATTATGCTTGTTTGCCCCCTTGCTTTGCTGACAGATAT
Y
CTAGACCTAGATTTCTAGAGTGTAGGAATGTTCCCTTCGTGAGGGTATGCTGTCTGGGGCCTGGTTTGCTGAGTCATCACTAGCAACCTGCAAGTCACTC
Celera SNP ID:            hCV11674177
SNP Position Genomic:     1167672
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48770):
GACTTGGTTTAATGATGACCTTGGGTTTTTTTTCAAATCCTTGGCCACCATTGACTTTGATGTCTTCTTCCATGCATCTTCTTTCTCCTTTATAAAACTT
S
CAAGCAATGTCTCCTCCCACAAGTCCTTCCACATAGGCAGGTGGAATTCAAAACTTAACCCAACTTCTATCACTTGCCTTATTAAGACTGAAACACCAAC
Celera SNP ID:            hCV11674178
SNP Position Genomic:     1163220
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48771):
CTATACTCATCTCCGTAGATGATCAATCAGAATCTTGAGAGTGAAATGACCAGTTAAGACAGACCAACAATTTGTTGATCTAGTGGAGGCGGAAAAAATG
S
AGTCTGAATTGAAATGACTTTTATGAGATTTCACCCAGGTGGTTGTTTCTAAATTTATACTCAAAATATAGAGTGAAACTTGAGAGAACATTTGCAAGAA
Celera SNP ID:            hCV391540
SNP Position Genomic:     921240
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48772):
GGGCTTCTCAGAACCTTCAGTACCCTAAGACAGAAGCTTCTTAGACATTATTTGTTCTACAGGAAAAAAAAAGTGTTGCAAAGAATAGCTACATATAGTT
M
TTATCTAATATAGTGGCATTCTATGGAAAGAAATAAATCTATATTAGATTACCTTGAATTTGAGAATATCACATTTTAGCCCCTTGGAAGGAATTGTACT
Celera SNP ID:            hCV391542
SNP Position Genomic:     920479
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,5)      total(A,5|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48773):
GCAGATCTAAAGAAGGTTTCATTACTGTAGGGCTTCTCAGAACCTTCAGTACCCTAAGACAGAAGCTTCTTAGACATTATTTGTTCTACAGGAAAAAAAA
A
GTGTTGCAAAGAATAGCTACATATAGTTATTATCTAATATAGTGGCATTCTATGGAAAGAAATAAATCTATATTAGATTACCTTGAATTTGAGAATATCA
Celera SNP ID:            hCV391543
SNP Position Genomic:     920450
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48774):
GATAGCGGCTATGGGGGAAAAATGAGTAAAAACCAACAGTCATTGTCTTCATAGAGCTTACAATGTAGTTGGGGGGACCAATATTAGTCAAATAAGCATA
R
TAAGAAAGATAGTACAAGGTAAGAGGGGGAAGACCATGTTGCAAGAGAGTCTTTGGTGGGCTGAGTTGACCTGACCACGGTAGTCATGGAAGGTCTCCTT
Celera SNP ID:            hCV391544
SNP Position Genomic:     919071
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48775):
CAAATTCATTAGAGCACAAATGTCAATGTCTAGGACAATTTTATAGGACAATCTGAAGAAAGCAACAGCTCAGCTGGAATGTGGATATGGTTGAAGTCAT
Y
AGTTTAATCATATCTGCAGAGTTTCTTTTGCCATATAAGGTAACACTCACAGGTCCTGGGAATTATTAGGATCAGGATATTGTTGGGGTCCTTTTTCAGT
Celera SNP ID:            hCV391545
SNP Position Genomic:     917800
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48776):
GACATTTGAGCTGCTTCTACTTCCTCACTATTATGAGCAATGCTGCTATGAGCATGCATTTGCAAACAGTTATTCTTATTTAAATGTGAATTAGCAGTGC
R
TATACACACCCAAAATTGGGTCATCAAAGCCATGATTTTATTGATAATGATCAAGGATTTCTTCTTTACACAAATTCATTAGAGCACAAATGTCAATGTC
Celera SNP ID:            hCV391546
SNP Position Genomic:     917629
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48777):
ACTCATTCATTTATTCAACAAATGTGAACTGAGCACTTCAACGTGCCATACTGTCTTCTAGGCACTGAAGATACAACAGTGGATATGATGGGTTGAATGT
Y
GGCCCCAAAAAGATATGTCCACATCCTAATCCCTAGAACCTGTGATTGTGACCTTCTTTGGAAAAAGGGTCTTTGAAGATGTAGTTAAGAATCTGATAAT
Celera SNP ID:            hCV26017243
SNP Position Genomic:     380544
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48778):
CCTGTCTTTTGTGGCCTTTTGCGATTGGCCCCTGTCACTTAGCACAATGTTGTAAGGTACGTCATAGTGTTTACTGATCCATATGATAGCAGAGGTCAGC
R
CTTCTTTTCATAGCTGAATAGTATTCCACTGTATGGATAGGCCACATTTTGTTTGCCTATCCTTTCACTGATGGACATTTGAGCTGCTTCTACTTCCTCA
Celera SNP ID:            hCV391547
SNP Position Genomic:     917455
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48779):
AAAATGCTGGCAGTGCATTTTCATGGGGCCGTTACAAGCATTAAATAACCTTCTTCAGGTAAAGTTCTTGCTGTTGAATCTGACATCAAATAAGCCATCA
W
ATGTTACAACCACTACCTCCTCTTCCTGGCTAGCACCTATGTGAAATGAATGTACATGGCTTGACTCAGGTGATGCCTGTCTTTTGTGGCCTTTTGCGAT
Celera SNP ID:            hCV391548
SNP Position Genomic:     917279
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48780):
CTGTGAACCCTTGCTTTCAGCTGGGACACTGTTGCCTTCCACTGCCTTCCACAGCCTCTTTACTTCCCCTTAAACAACCTATTCCAACTGGTACTACTTG
R
TAATAGTCATTTTCTCTCACCTGAAAGCATGCCTCTGTCAACCAGGCTCTTCCCCTCAATGGCTAATGACTCTCACTCCTACACTCCTGCAGAGGGCCTG
Celera SNP ID:            hCV29226080
SNP Position Genomic:     439377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48781):
AGGTTAAGACTCAAGGGCTGTTTGTATTCCTCTTGGATTTGCCTACATTTAGCAAAGCAGAAACTCAACACATTGTTGAAAATACTGAATTTCACTGGGC
M
TATATTTTGGGTTGTCTGGAAGATCCCACCTATTGAGTACACTGCACCATCACCCCTCCAACTGCTCATGCACTTATCGGACATATGTTGTTATTTTTGG
Celera SNP ID:            hCV29090986
SNP Position Genomic:     270527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48782):
AGAGCCTGCATGCCTAACCGCAGTGCAATGCTATCCTCACCTCACTGTGCAAATACATCTCAGATCTCTGCATTAGGATGCACAGGTTTACATTTTTTAA
R
AGCAGGTAATAACTGTCTTATTCTGTACCTATTGTCTGTTTTCACAGTCTGCTGTGAACCCTTGCTTTCAGCTGGGACACTGTTGCCTTCCACTGCCTTC
Celera SNP ID:            hCV29226081
SNP Position Genomic:     439225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48783):
CCTGTTCTACAAAGGGAAAATGCTGGCAGTGCATTTTCATGGGGCCGTTACAAGCATTAAATAACCTTCTTCAGGTAAAGTTCTTGCTGTTGAATCTGAC
R
TCAAATAAGCCATCAAATGTTACAACCACTACCTCCTCTTCCTGGCTAGCACCTATGTGAAATGAATGTACATGGCTTGACTCAGGTGATGCCTGTCTTT
Celera SNP ID:            hCV391549
SNP Position Genomic:     917263
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48784):
CTCCTACCAAAGTAAGCTGCTTATCTTCTATGTTCACTGAAAATGGTATGTTTCCTTCCACATCTATCTCTAAGGGATGGCATAAGTGGGTTGCAATAGG
W
TTACAGGAATGAGGATCAGATTAAGAGCTGTGGCATCAGTAAAACCAATAACTCTTGATTTATTATGTAACAATGTATATTTTTAGCCAAACAAATGCTA
Celera SNP ID:            hCV29226082
SNP Position Genomic:     429828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48785):
AGGTCCGTCGTGTCTACAGCGCATCTCCACCCGTACATTTCACTTGCCTCTCGGGGTTAACTGTGTGTTTCTGAACGCTCATACTGGGGTTAACTGTGTG
W
GTCTGAACACCTGTACCTCATTACCTCATTACTTCCTTACCTCATCTTCCTAAGTGCACGGTTTCTTGCAGTGCCATCCTCGTCTTCCCATGCACCTGAA
Celera SNP ID:            hCV29226083
SNP Position Genomic:     429255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48786):
TTTTCTACCATCCTCAACAATTTTATCCAACCTAGCAGCTTTAAAGATCTCTTCTTCAGCATGTCTCCAAATTTATAGCTTCATTTCTGACCTCAGGTCC
R
TCGTGTCTACAGCGCATCTCCACCCGTACATTTCACTTGCCTCTCGGGGTTAACTGTGTGTTTCTGAACGCTCATACTGGGGTTAACTGTGTGTGTCTGA
Celera SNP ID:            hCV29226084
SNP Position Genomic:     429161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48787):
GGTGCCACCCTTCCTCTCCAACCTTGTTACAAACAATTCAGAAGGGAGGATTGTGAAATCCTTCCTGCTGCTCTTTCTGTCTTCTGCCAATCAGAGAAGA
Y
TGGACATGAGATCCAAGAGAGGGCTTTCCCTTTCCCCGATGGCTACACTGTGTCTCCTGCCTCCCAGCTGTTTATGGAAATCAGATGGTTTCCTCAACTG
Celera SNP ID:            hCV29226085
SNP Position Genomic:     425372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48788):
GTCTTTTTTTGATGGCTTCTAATAAATAAATAGAAACCTCTTTTCCTCTGGTCCATACCCCTTAGAAGTGCCACATTTAAAAAATAAGAGGAAAGCCTTC
W
TCTCACTGGGGCCCATAGCAGTGGCAGATATTGTTATTTGCTGAATTGCTTCTATCTTTCTTAATTAGGTAGGAAGTAGCAACCATCAAAAAACAAATAT
Celera SNP ID:            hCV29226086
SNP Position Genomic:     424698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48789):
TTAAGTATAACATTGCTCAGTAACTATGTGGGTGAAGATCTGAAAGTTCTGCAGCACTGTTTCATTTATAAAAATAAAGGTAACGGTACTTTTGCGCAAG
M
TTTGTGTGGAATCTAAAAACTTCCCCAAGTTAGTAAGGAAGGCACTGTGATAGTATCTACTAATGAAAATGTGAGCACAGAGATGGTTATAAAATACCTT
Celera SNP ID:            hCV29226087
SNP Position Genomic:     471424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48790):
CTGCCTGGAACACGCGAGTTCGTCAAGGACATGTCTTGATTGAGTGAAGTCCATCAGCACAAAGTCACTTGGGCACAGGCATCTTGCTGTGGGATAAAAC
S
TAACATTTGTGAACTCTGGGTTGGGAAACTATGTGGTAATTCACACTTAATAGGTCAGAGATATCTCAGAGATAAGCTGCCCAACCTACTCATGCTCCTT
Celera SNP ID:            hCV29226088
SNP Position Genomic:     410363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48791):
AATGAAGAAGCCAAATAGGAGAGAGTGCATACTGTATGACCACATTAGATGCCATGCAAATGCAGGTAAAACCAATCTGTGGTATTAGAGGCTAGAATAA
Y
GTAGCCTCTGGGGAAGAGGTTAGGAATTTTACTCAGGAAGGGAGGGGACTGGTAATGTGTCATGTTATGGCCTGGTTGCTGGACAGTTGGTTGTGCTTAC
Celera SNP ID:            hCV29226089
SNP Position Genomic:     408134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48792):
GAACTTCCAGAAGGAAGGACTCTTGTAGATGTCTTCTTTTGTGCTTTTGGCCTCCAGGACTATTAGAGTAAATTTCTGTTGTTTTGAGCCCCTCCGGTTT
R
TGACGTGTAGTTACTGCAGCTCCTGGACACTGAGATGCCCCTGTTTCTTGATGGCGAAATGGAGACTGAAAGATCATGTCTTACCCAGGTGCACACAGCC
Celera SNP ID:            hCV12106771
SNP Position Genomic:     897662
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48793):
GGTGGCTTATGAGCCAAGATCGTGCCACACTGCACTGCAGCCTGGGAGACAGAGCGAGACGCTCTGTCTCAAAAATAAAAAAAAAGAAAAAAGAAAGAAG
K
AAAAGAAAAGAAAGAGAAAATTCATAAAGGAGGGACCCCGTCTTCACTGTGCCTTGGTTTTGATTCTTGGTTATGAGTGGTTCCATGGTGGTGGAGGCTG
Celera SNP ID:            hCV11674182
SNP Position Genomic:     1157847
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,3)      total(G,3|T,1) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48794):
CTAAAGTCAGGTTAGCTAGGAGGGAACATATGAGGAAGGCCCAAGTCTTATGCTGCTAGAAGCCAGGGCAGAGGCAGTAGGCTGGAAAGGACCAGTGGTC
R
TCTTGGAAATATGTGCTCCACTTGAAGCCATTTGGATAAAAAATAAGAATTCTTAGAACACTGGACATCCCAGAAACACGATAAATTAGCAGACCAAATG
Celera SNP ID:            hCV11674183
SNP Position Genomic:     1154447
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,12)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48795):
TGCTTAAGAGAAAGGAGGGAGCCATACTTCAGGAATGGAGAAATGAAGAAAAATCTATACTGGCTAAAGTCAGGTTAGCTAGGAGGGAACATATGAGGAA
R
GCCCAAGTCTTATGCTGCTAGAAGCCAGGGCAGAGGCAGTAGGCTGGAAAGGACCAGTGGTCATCTTGGAAATATGTGCTCCACTTGAAGCCATTTGGAT
Celera SNP ID:            hCV11674184
SNP Position Genomic:     1154384
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,12)   total(G,12|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48796):
AAGACGCCAGAGTGCTTTACAAACTTATCAAAGTGATATACAGGGATCGTTTTAGCCTCTGCTGAAATACAGGGGCCCAGGGGGGAAATTACAGTCATTG
K
TGAAAAATCTTAGATTGTCAGGTCGACAGGAGGAGGGAGAGTGTACAGCACCTAAAATATCCTCCCAAACTGGATGGCATGTCCCAAGGGCTGTGGTCTT
Celera SNP ID:            hCV27865705
SNP Position Genomic:     294591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48797):
TTTCCCAAAAACAAGGATGTTTTTTCTCTCTCATAGAATCACAGAACAATGATCAAATCAGCAAATTAACGCTATTAAAAATTATCTAATCAACACACTT
W
ATTTGGATTTATCCAATTACCGCACTAATGTTTTTTTATTGCAAAAGAAAATATTTTGGCCCAGGATCTAATCCAGGATTTAATATTGCCTCAGATCTCA
Celera SNP ID:            hCV346086
SNP Position Genomic:     345947
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48798):
CTCAATATTAAGAAAAGAAGTAGTATAAGACTGAAAGACATGCTTAAGAGAAAGGAGGGAGCCATACTTCAGGAATGGAGAAATGAAGAAAAATCTATAC
T
GGCTAAAGTCAGGTTAGCTAGGAGGGAACATATGAGGAAGGCCCAAGTCTTATGCTGCTAGAAGCCAGGGCAGAGGCAGTAGGCTGGAAAGGACCAGTGG
Celera SNP ID:            hCV11674185
SNP Position Genomic:     1154344
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,8)   total(T,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48799):
CGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGTCACTGCACCCTAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAA
A
GTGACTGTGGTTATTGTAAACATTTTTGCTTAGGAAGCATTTATTACAGCTGTTCAATGTAGCATTTTACGGTATTCGGTGGAAACTCTAATGTAAGTTC
Celera SNP ID:            hCV12110653
SNP Position Genomic:     935894
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48800):
TGGTGCTGAAAAACCATATTAAAGAGAACACAAAGTATAAAATAAAACAAAGGATAACCTTAGAAGACTCCTGGTTCACTTACAGCTTTCTTTTTTTTTT
T
CTATTTTTATCTTAAACAGGAGGTACACGTGCAGGTTTGTTACCTGGCTCACTCTCAGTTTTAAAGCAAAGGTGAAGGTACATTTAGAGTCCTGTTCAGA
Celera SNP ID:            hCV11674186
SNP Position Genomic:     1147891
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48801):
CAATCTGGTAACTCCTGTAACTGTCAGTTCCAGTGGAGGATGCACCAATTGCTCGTGCTCACATGCTAAATCCTTTCTCCAGACATCACCCTGGCATGGC
M
CTCCGTCTCCTAGTCAGGCATTAACTAATAGGGGAAATGCAAAATGTTGATACCGCAGAATATAGAGACAGAAGAGATTCACACTGAAAGTGCAAATTAC
Celera SNP ID:            hCV12110658
SNP Position Genomic:     935272
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,6)   total(A,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48802):
TGCTTTAGTGCCCCAGAAGCTGGGACTATGTTGCCTACCTGAGGGACATTGCAGATGTGATTAAGGAGTCCTTGAGTCGGGGAGATGATTCTGAGTTATC
K
TGGTGGATCCACTCTAATCCAATGAGTCCTTAAAATCAAAGAATTTTTTCTGGCTCAGAGAAAATGTGAAGACTGAAGAAGAGAACGGGACAGATTGCAG
Celera SNP ID:            hCV27987203
SNP Position Genomic:     908485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48803):
ACAGTCTTGGGCAGTTCCACCCCCATGGCTTTGTGGGGTACAGCCCCACTCCCAGCTGCTTTCACAGGCTGGCGTTGAGTGTCTGTAGCTTTTCCGGGAG
R
ACAGTGCAAGCTGTCAATGGATCTACCATTCTGGGGTCTGGAGGGTGGTGGCTGTCTCTCACAGCTTCACTAGGCTGTGCCCCAGTGGGGACTCTGTGTG
Celera SNP ID:            hCV10074769
SNP Position Genomic:     244239
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48804):
TGACCTCTTCATTTTTCCTTTTCCTGTTCTACAAAGGGAAAATGCTGGCAGTGCATTTTCATGGGGCCGTTACAAGCATTAAATAACCTTCTTCAGGTAA
R
GTTCTTGCTGTTGAATCTGACATCAAATAAGCCATCAAATGTTACAACCACTACCTCCTCTTCCTGGCTAGCACCTATGTGAAATGAATGTACATGGCTT
Celera SNP ID:            hCV391550
SNP Position Genomic:     917241
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48805):
GACTTACCTATTCTGGATGCTCCATACAAATGAAATATACAAAGAGGAGCGCATTAGGAAGGTGGTCTGTTCATGGTGGTTCAGAGGCAGAGCTGTGGAT
Y
CTCACAGCCTGGATTCAAATACCAGTCCCTTCATTTTTCAGCTTTGTGATCTTGGCTAGGTTCTTTGACCTCTTCATTTTTCCTTTTCCTGTTCTACAAA
Celera SNP ID:            hCV391551
SNP Position Genomic:     917075
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48806):
GTAGTTGCTCCCCATCCTCCATCCCCCATGCCCTTTGTAATCATCTACTTTCTGTCTTTAAGGACTTACCTATTCTGGATGCTCCATACAAATGAAATAT
R
CAAAGAGGAGCGCATTAGGAAGGTGGTCTGTTCATGGTGGTTCAGAGGCAGAGCTGTGGATTCTCACAGCCTGGATTCAAATACCAGTCCCTTCATTTTT
Celera SNP ID:            hCV391552
SNP Position Genomic:     917013
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48807):
CTCATCGCCCCCAAATGAAAACCGCATACCTGTTAAGTAGTTGCTCCCCATCCTCCATCCCCCATGCCCTTTGTAATCATCTACTTTCTGTCTTTAAGGA
Y
TTACCTATTCTGGATGCTCCATACAAATGAAATATACAAAGAGGAGCGCATTAGGAAGGTGGTCTGTTCATGGTGGTTCAGAGGCAGAGCTGTGGATTCT
Celera SNP ID:            hCV391553
SNP Position Genomic:     916977
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48808):
TAAGGAGGGACCATACTTAACATGGAAAATTAATGACCTGAGAGCCTGTCCCAAAAGAAATGCTCCAGGCAGGAGATCTTCAACAATAGCCATCTAGAGT
W
TCAGTTATCTAGGATAGAACAGTGTATAGGCTGGAAAGACCCAGCCCTTTCAGTAAGGCATGTGAGTTTGATCACTCACCACCATCTCCAGCCTCAGCCT
Celera SNP ID:            hCV29090993
SNP Position Genomic:     269318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48809):
CCCTTAGGGGAGTAGATAATGAAAAAAACAAAAGTTAAGCAACCCTGCTATAGAATTGCTATGAGGCTAAAAGGAGGTATGGACTTGTACAGTCCTTTGC
W
TAGAGCGTAGCACTCAGGGACCACTCAATAAATAGTAGTGCCATGACTGTTGTCTGTCCAAGCATCACTTCATTCAAAATGCACACACTGATTCCAACCA
Celera SNP ID:            hCV29226090
SNP Position Genomic:     405159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48810):
TAGTGGCAATTAGAAAAAAATACTTAAAAGAGCCCTTAGGGGAGTAGATAATGAAAAAAACAAAAGTTAAGCAACCCTGCTATAGAATTGCTATGAGGCT
R
AAAGGAGGTATGGACTTGTACAGTCCTTTGCATAGAGCGTAGCACTCAGGGACCACTCAATAAATAGTAGTGCCATGACTGTTGTCTGTCCAAGCATCAC
Celera SNP ID:            hCV29226091
SNP Position Genomic:     405127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48811):
GGGGGGACAAAAACTGCACTTACAAATGTAAAGTATAGATATACTTGTAGTACCTAAACAGATATAAGTATATCTGTGATATTAAAATTTTACAGGAATA
K
TGGCAATTAGAAAAAAATACTTAAAAGAGCCCTTAGGGGAGTAGATAATGAAAAAAACAAAAGTTAAGCAACCCTGCTATAGAATTGCTATGAGGCTAAA
Celera SNP ID:            hCV29226092
SNP Position Genomic:     405029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48812):
CTCATTGGGGCTATATTTCCCCCACAGGGGTGAAATAGGTTCGAGGGTGGGGGGACAAAAACTGCACTTACAAATGTAAAGTATAGATATACTTGTAGTA
S
CTAAACAGATATAAGTATATCTGTGATATTAAAATTTTACAGGAATAGTGGCAATTAGAAAAAAATACTTAAAAGAGCCCTTAGGGGAGTAGATAATGAA
Celera SNP ID:            hCV29226093
SNP Position Genomic:     404981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48813):
AGATTGTTGGACTGTATCATTCATTATGGTATCTTCTGCTGACATGATAGAATTGAAACTCTATTTTATCAAAGTTGGAACTGAAGCATGGAATGGAATT
W
AGACTGTTTTATGTTTGTTCTGCACTTACCAAATTCTATAAAGCCTTTGGAAGTGAAATTCACTCCTGGGTCAACCAGTCATGGCTAGAATACTCCCAGA
Celera SNP ID:            hCV29226094
SNP Position Genomic:     400124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48814):
GCAGATGTGGCCTCTGTCTTTTTCCAAGAGGAAGCCCTTAAGGGTTACATGGCAAAAATAGGTTTCTGCTGAAGATTGTTGGACTGTATCATTCATTATG
R
TATCTTCTGCTGACATGATAGAATTGAAACTCTATTTTATCAAAGTTGGAACTGAAGCATGGAATGGAATTAAGACTGTTTTATGTTTGTTCTGCACTTA
Celera SNP ID:            hCV29226095
SNP Position Genomic:     400052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48815):
TTCATATGAACCAACACGCTTTGATGCCACAGCCATTTATACCAGCTGGAAGAGTGCAGAACTAACATAAATGATGTCCTGCTAGCATCTGCAGCTGGGT
Y
ATAAACCAAAGCTTAATGTTTTACAAAGTTTTGATATGCAGTAGTCAATTTATCCATTTTTGTGAATCAAGTAGGTTGGGAAACAAGCCCAGCAAAACAC
Celera SNP ID:            hCV29226096
SNP Position Genomic:     396311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48816):
CTACCTTCATGATACTGTTGGAGAATTGAAAGAAATAATGTTTATCAAGTATTTAGTCCACGGACTGACATATAGAAAATGCTTCATAAATGGTAGGTAT
K
ATATATGATAGACATCAAACATGAAATACTATTAGGGCTCTGTACTATTAGCACTATTAGGGTTTTGTAGAGTGACTTGAATATATAGGGAAACAATTCA
Celera SNP ID:            hCV29226097
SNP Position Genomic:     396092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48817):
GTCAAAGCCTTGTGCATTCCCTTTAGGAAGGAGATCCATTGTTGCCTTAGATGGTGTTCTTGAGCCCCTAAACACTACCCTGCCATCTAGAAACATTTCT
R
GACCCTGTCCTGGAATCAAGGTAGCACAAGGCCATCTCTGCTTAGAAGCATTCTAGATATCCACAAGGAAGGAAGGATGGGGTGTTTAAAATGCTTTTGG
Celera SNP ID:            hCV29226098
SNP Position Genomic:     395147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48818):
TGATCCACCTACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAACCACTGCTCCCAGCCCACCATAAGTACTTTAATATGCTAATTTATTTCAAAC
D
ATATGGGAATCAGTTCAAAGCACATAGTCTCTTCCATGCACATCTTCATGCCGGAATTTGCTAGGCGCTTGTACCTCCACTCCCTTCTTCTCAGTCCTTT
Celera SNP ID:            hCV12108386
SNP Position Genomic:     472139
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,7)      total(G,6|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48819):
CATTATTTTTCTCAAGTTCTCAATATTTGGTTGAATTCATGAAGAAATTTTTAAAACACACCAAGCAAAGCGTTCATTTTGTTTAGAAATAAAATTAATA
R
GTTGTTTTTTGATATTGTATTAATGTGTCCTGCCACATTAAAAGATTGCCTATATATTTATAAATTTAATCTTTATATAGGAATTAAACAGACAAGCCAG
Celera SNP ID:            hCV12106783
SNP Position Genomic:     898554
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48820):
TGGCATTATTCCAGGGTAGTCTTTCATATGTCAGCAGAGAAGAGAAGGATACAAGTGTGGCCAAATATGTTAGAGGCTGGAGCAAACTCCTTGAGAGCAT
Y
TGATTCGCATTCTGTGAAGAACCTGTATTCATAGCAAGAAATGAGGCTGAAAAGAGAAGCAGTGAATTTAGAACATGACTACCTTGCCTGGAGAGGGGAA
Celera SNP ID:            hCV11673536
SNP Position Genomic:     660113
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48821):
CCCCTTGAAACGTGAGGATTATGGGAATCATGGGGATTACAATTCAAGATGAGATCTGAGTTGTGACACAGAGCCAGACCATGTTATTCCGCCCCTGGTT
M
CTCCCAAATCTCATGTCCCTTTCACATTTGAAAACTAATCACACATTCTCAACAGTTCCCGAAAGTCTTAATTCATTCTGGCATTAACCCAAAGGTCCAA
Celera SNP ID:            hCV10074771
SNP Position Genomic:     243773
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48822):
TTTCTAGGGAATGGATGGGCCATGGACCCCCCCACTTGGACAAGGATGCTAAATCCAATTAGCCAGAAAAGGTGTCCTTGGACGTTGGCATCAATTCATG
S
AGCTTGTCTCTGGCTGAATGGGCAGGTGGAAGCCTGACAGCAGGACATTTCTACATTGATCAGGCAAATCAACTATCTTAAACAGAACATTTTCATTCAT
Celera SNP ID:            hCV11674194
SNP Position Genomic:     1146569
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48823):
AGGTACAAGCAATTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGCGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGGCAC
R
GGGTTTCACCATTTTGGCCAGGCTGATCCTGAACTCCTGACCTCAAGTGATCCACCCGCCTCAGCTTCCCAAAGTGCTGGGATTACAGATGTGAGCCACT
Celera SNP ID:            hCV53815
SNP Position Genomic:     528277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48824):
CAGAGATGCATAAGAGGATGCCAAATCACATAAAAAATAAGGGTATGGTGAAATCCCATCTCTACTAAAAATACAAAAAATTAATAAGGTGTGGTGGTGC
K
CAGCTGTAATCCTAGCTACTCCAGAGGCTGAGGCAGGAGAATCGCTTGAAACCAGGAGGCGGAGGTTGCAGTGGATTGAGATCACACCACTGCACTCCAG
Celera SNP ID:            hCV10075722
SNP Position Genomic:     96333
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,11)   total(G,11|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48825):
ATGTCACCTTTGCAGAGAGAGAGAGACAAACATGGATCCAAATTAGAGATGGCTTCAGGTTCTGACGGATTCATCTCTCCCAATTGCCTTTGTAACACAT
M
TGCTAAATTTAGATAAGTCACAAATAGAGCCAAAAGAAAATCCAGAAGGGAGCCACAAAAAATTATTAAACAGTTGTAAAAGTTGGGGATTATGAGTGGA
Celera SNP ID:            hCV10075723
SNP Position Genomic:     95459
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,6)   total(A,4|C,6) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48826):
GTTTAATTAGATCCCCATAGTCAATTTTGGCTTTTGTTGCAATTGCTTTTGGTGTTTTAGTTGGGGGGTGGGGGGCAAGGGAAGGGACAGCATTAGGACA
R
ATGCCGAATGCATGTGGGGCTTAAAACCTAAAATATGGGTTGATGGGTGCAGCAAACCACCATGGCACATGTATACCTATGTAACAAACCTGCACAGTCT
Celera SNP ID:            hCV12106793
SNP Position Genomic:     886727
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48827):
CCCTGAAACCCTTTCCCTGCCTGCCCCCAGCACTGTTGGGTGTCCCTTCTCTGTGCTTCCTCTGCCAACACTCTGTGCGGTGTTTCCGGGAGTCAGAATG
R
CAGGGTGGTCAAGAGTACGGACTCAGAGGTTGCAGAAAGATAAAAAGATGATTGCATTCATGATTGTTATGATGTCTTGTACATAGAATATTGTCTTATT
Celera SNP ID:            hCV10075729
SNP Position Genomic:     92567
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48828):
CTTTTTCTGGTGTGTTAACATGTCGCTAGCCAGTGCTCCAGGCACCCAGCTTTGTCTGTGGGTTAGTATTGGTGTATGTATGAGTATCTGTATGTATATA
Y
ACACGGTATTTATAGAGAGAGACTATCCTGGAGAAGCCTCGTTTTGATGCCATTCTTCCTTGCAAGGTTAAGCAAGGTGGGTGGAAACTAAGACACCTGA
Celera SNP ID:            hCV27510572
SNP Position Genomic:     1177510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:48829):
CATTGGCCCTCACAAGGGCACAGCGGAGCTCGTTGGTTATGCTTCAGTTACATAAATCCAGCCTTACAAAGGCTACACAGGGAGAGGGGCTCCTTGCCTC
S
TAGATCTGTACCTTGTAGGTGCTCAATACACATTGGTAAGAATGTTCACATCATCAGGTAAGCAAGGGGTATAAAGTGAGGCCTTGAATCGCTCACGTAG
Celera SNP ID:            hCV12106799
SNP Position Genomic:     885817
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48830):
GGAAACTGTTTTTTACCCTTTCTACCAGTGTTTAGTACCAACCACAAGCACCAAAATACTCAAACTTCGAGCTCTGTGGCTCTGGCTCTTATGGACGGGG
M
AGTGCTTTACAATTGCCAGGCATTCCATTCACTTTATAGAATAGCCAGAAAGCTCCAGGGATGGGGATGCCCTGCCAGGGGGCCACAGCTCTTAAACAGG
Celera SNP ID:            hCV11511404
SNP Position Genomic:     1152428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48831):
TATCAAAGCAGGGTTCCTGGGTATGAGGTCCAAGGATCTGCAACTGGAACATGCTCTCCAGGCAATTCTATACACACTGGTATCTAAGAACCACTGCGCT
S
AGAACTAGGATATCCATCAAGCCTGATTTGAAGTACCTGCATGAGTCCCAGTGTCATGATGAGATCAAGAGAGCTTCTGTGTCCTTGAGGGGCTGGAGTA
Celera SNP ID:            hCV10075730
SNP Position Genomic:     92359
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48832):
ATAAGAATCTTTTGGATGCTGAATAAACCTGCAGTTTCTCCAGCCTGGCCAAGACCTATCAAAGCAGGGTTCCTGGGTATGAGGTCCAAGGATCTGCAAC
Y
GGAACATGCTCTCCAGGCAATTCTATACACACTGGTATCTAAGAACCACTGCGCTCAGAACTAGGATATCCATCAAGCCTGATTTGAAGTACCTGCATGA
Celera SNP ID:            hCV10075734
SNP Position Genomic:     92303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48833):
ACTTAAGTTGGCTTCACCATTTTCCTGCCCATGTGTACTACAGGTTGACGGCTAGAGACACTGTGAACATCCCACTACTTGCCACTGAGGCTGAATTTTT
W
AAAAAAAATAATGATAGCAGAAACACCTCAGACAGTCTTTCATGCAGAGACTCAATTTAACACTTCAGAAAATTTTTGTTCTTATGTCAAGATCCTAAAG
Celera SNP ID:            hCV11673553
SNP Position Genomic:     645231
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,2)      total(A,2|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48834):
CACTTAAGTTGGCTTCACCATTTTCCTGCCCATGTGTACTACAGGTTGACGGCTAGAGACACTGTGAACATCCCACTACTTGCCACTGAGGCTGAATTTT
W
TAAAAAAAATAATGATAGCAGAAACACCTCAGACAGTCTTTCATGCAGAGACTCAATTTAACACTTCAGAAAATTTTTGTTCTTATGTCAAGATCCTAAA
Celera SNP ID:            hCV11673554
SNP Position Genomic:     645230
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,2)      total(A,2|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48835):
TATTTCTCCCCAGCACAGTCAGTTCTGCGTGGCGCAGCCATCCTACCAAGGGGAGTCTGTGGGAACCAGGACACTTGATTGCTTTTTAGCTCAGTCTTCG
M
GGGAGTGCTGGAGCAACTCTGTGCATCGGAATCACCCGGGATCCCAGCAGGTCTGGGAGGGACTGAGATTCTGCTCCCAGGTGATGCTGATACTGCTGCT
Celera SNP ID:            hCV11673556
SNP Position Genomic:     641868
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48836):
TTCTATTTTGAAAAAAAAGTTCTCCTGTGGGTTAGATGCTACCAAATAGCATCACATGCTATAGAGAAATCATTCGTGAAAGGAAGAGTCGATAGATTGG
M
AAACCTCGTTGTTTTCTTATTTTAAGAAATTGCCACAGCCTCCCCAACCTTCGCAACCGCCACCCTCATCACTCAGCAGCCACCAAAATGGAGGCAAGAC
Celera SNP ID:            hCV10074791
SNP Position Genomic:     229729
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48837):
AGGGACAGGAATGAGTGGGGCTAGGTGTCCAGTGTTCTGGAAAGAATTAAATTTTTTATTAGTATCTATTTCTCATATTTCTCCCCAGCACAGTCAGTTC
K
GCGTGGCGCAGCCATCCTACCAAGGGGAGTCTGTGGGAACCAGGACACTTGATTGCTTTTTAGCTCAGTCTTCGAGGGAGTGCTGGAGCAACTCTGTGCA
Celera SNP ID:            hCV11673558
SNP Position Genomic:     641793
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48838):
CTAAAATCATGGGAGAAATTCAGATTGCTCATCGTGCAACCAAATGAACATCATTCTTGAGTGATTCTAACAATTGAAAGAGGACAAAAATGCTTCTTAC
K
TGGCTCTCTCGGAAGAATTTCTGGTAATAGTCAAAGATGAGGACTTTCAAACTTTTTGGCAGGTTCTCACAGTATATAATAGTTTTTTTTTTTGTAACCA
Celera SNP ID:            hCV11673559
SNP Position Genomic:     641328
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48839):
ATGTTATTTCATTATTACCTATGCATTTTATCTGAGTCCAACTTATTAAAAAACGAAGTCAAGTAAGGACCAGAAATTGCTTTTCCCAATTACTGAGCAC
W
GGTCTGAGGGTTTTATTTCCACTGAGCAAATAGTCACACCTTCACTTCTTTTTATTAATACTCAACCAACTTAGTTGATTAAAAATCACATTTTCTCCCT
Celera SNP ID:            hCV7624348
SNP Position Genomic:     1179849
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:48840):
GGAAGCAATTAGATATGCATTTGTCTCAGGTGAGCAGAGGGATGACTTTGAGTTCTGTCTGTCCTGTGACCTGCACCTGTGAAGATGAGCGATCAGTTTA
Y
GTTGCCCAGGTGAAATTCAACAGAAGTTTTTAGAGTAAAGATCTTGAGGCCCACAAGGAATTTCCTTGCAGGCAAATTGTGAGGGAGATATTTTCTATAT
Celera SNP ID:            hCV26613400
SNP Position Genomic:     1013403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48841):
GTGAATCTGCATTTTTACGTAAACAATCAGACTGAGGAAGCAATTAGATATGCATTTGTCTCAGGTGAGCAGAGGGATGACTTTGAGTTCTGTCTGTCCT
K
TGACCTGCACCTGTGAAGATGAGCGATCAGTTTACGTTGCCCAGGTGAAATTCAACAGAAGTTTTTAGAGTAAAGATCTTGAGGCCCACAAGGAATTTCC
Celera SNP ID:            hCV26613401
SNP Position Genomic:     1013368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48842):
AATGGTTGCATTCTTTTGAGTCCTTGATCAAAGACGGCGGTAGAGGAATAGTCACTTATGTCTTAGTCTAGCTCAGTGAATCTGCATTTTTACGTAAACA
R
TCAGACTGAGGAAGCAATTAGATATGCATTTGTCTCAGGTGAGCAGAGGGATGACTTTGAGTTCTGTCTGTCCTGTGACCTGCACCTGTGAAGATGAGCG
Celera SNP ID:            hCV26613402
SNP Position Genomic:     1013293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48843):
TTCCCATTTACATTCCAAAGTCTGAACTGTTATTTTATAAATGAATTTTCCCTCCAATTCAGAAAGCACTGGCTACATTACAAATTTTAATGCTACTATT
M
TAGGATCATAATTTTAAAAACCCAGGGTTCTCCAAGGGCTTCAGCAGCATGCCATCTCTCCACTTTATTAAAATGAATGAACAGATGTACAATTTATTTC
Celera SNP ID:            hCV26613403
SNP Position Genomic:     1012128
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48844):
CAAAATGCAGCAGTAAAGTGTTCCATAATCCACACTTCAGTCTACATAAATGTTTAATTCCCCTGCCCCTTTTGTTTTCGTCAGGCCCCCTGAAGCCGCA
S
CTGAGATGGCTGACTCCCTGAACTCTTCTTATGTTCTTGACTGTTCGCATAGCCTTTCCTGGGATTACCTCCCAGTTCCAAGTTTGCCCATTCTGCAGGC
Celera SNP ID:            hCV10075743
SNP Position Genomic:     91726
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48845):
AGCCAGTTAAGCATATGTTTCATACCTGCACAATTTACCTAAATAGAGATTGCCCAAAGAAGTTTTGCTGGCTTCTGAAAACTTTCTCATAAGATTTTAA
W
AATATATTTTATGGTCAAGAGGTTGTAGCATCCTCCCAGGACTAATTCATATCTAGCCAAGAAAAATTACATTTTCCCATTTACATTCCAAAGTCTGAAC
Celera SNP ID:            hCV26613404
SNP Position Genomic:     1011954
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48846):
AATACATTTTATTCTGTCACTTTGAAGCACAAACCTCCACAAAGATTTGTATAAAAATGCTCCCTTCTGGGACTCACTTCAGTGATTTGTAGCTACCATT
M
ATACTGCCTCTATGTAAATGAAAGGGAGGCATAATATCAGCACCTTGCGTATTCTTCTCCATGGTAATAAATCGTGCCTGATAACCTATGAAAATGGCTT
Celera SNP ID:            hCV10075744
SNP Position Genomic:     91424
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48847):
TGCCCTTGATGCTAAGACTAACCACAAGCTCTTCCCAGTCTGTAGTTTTTATTTGCACATTTGCAGGCTGGAGTGTGTCCTCTCTATCTAGTCGGTATTT
Y
AATAGGAGGCGAAGATCTCTGTGAGGCAATCTGGGGTTTTTCTAGCTGGGCCCGTGTTATTCATGGCCAGCCAGCTCTCCTGGTTTGTTTATACCTTTTT
Celera SNP ID:            hCV26613405
SNP Position Genomic:     1011350
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48848):
TCCACTAAAATACAAAAAAAAAAAAATGAGCTGAGTGTGGCAGCCTGCACCTGTAGTCTCAGCTACTGGAGGGGCTGAGGCAGGAGAATTGCTTGAACCC
R
GGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCGCCTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCCGGGGAAGAAAAAAAAAGATTCCTAT
Celera SNP ID:            hCV26613406
SNP Position Genomic:     1009887
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48849):
AACCCGAAAATAAAAGACGTTCATTATGTATGAAAAGTAACTGATTTGTATTCTGTGAGCATGTAAAAGCGGAAAGTTAGTGCTTGTTCTAAGATTACCT
Y
CTTGTTGATAAACCATAAATGAATCATCAAAGCTCACACCAAATTTTTCTATCAAATAAAACTAGTGACAGCTTGTGGCTTTTTATTAGAGCTCGCCACG
Celera SNP ID:            hCV7624352
SNP Position Genomic:     1178310
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:48850):
GTAATCATAGCATTTTGGGAGGCCAAGGCCGATGGATTACCTAAGCTCAGGAGTTCAAGACCAGCCTCGGCAATATGAGGAAACCCCATCTCCACTAAAA
Y
ACAAAAAAAAAAAAATGAGCTGAGTGTGGCAGCCTGCACCTGTAGTCTCAGCTACTGGAGGGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAG
Celera SNP ID:            hCV26613407
SNP Position Genomic:     1009797
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48851):
GCATAAAATAGAGTAAATACAGGTAGTTTTAAAAGTACCCTTTTGTGTGAATTGACTACCGTTGTTTGCAAACCCGAAAATAAAAGACGTTCATTATGTA
Y
GAAAAGTAACTGATTTGTATTCTGTGAGCATGTAAAAGCGGAAAGTTAGTGCTTGTTCTAAGATTACCTTCTTGTTGATAAACCATAAATGAATCATCAA
Celera SNP ID:            hCV7624353
SNP Position Genomic:     1178240
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:48852):
TTCTTCCAGTATGGCCCAGGGAAGCCAAAAGATTGGGCAACCCAGAACTATGCAATTTCCAGTCTTCTTGTGTAAAAACTAATCTTTAAATCAATGACAC
A
TATTAGCTAAGTTGTCATCCACATCCTCGTATGAGGCATATTATGAGTTTTATGTTATCTTTATTGGAGTGAGCATGGAAGATCAAATCGGCAAGAATTT
Celera SNP ID:            hCV26613408
SNP Position Genomic:     992069
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48853):
ACAGTCGTACTGATTCTAATGGGGACACAGATCATGGTAGAGAATCTCTCCCTCCTCAGTAAATGTACAACTGCACCTGTCATCATGGAGGTCATACATG
S
ATACAAAGAGGTGTACAGGTACCATCTTGTATACACATATATACCCACATGTACAGACATACATTTATGCACATTCACGCTGTTTGTTTCATATATACAG
Celera SNP ID:            hCV7624354
SNP Position Genomic:     1178039
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:48854):
CTTCTTCCAGTATGGCCCAGGGAAGCCAAAAGATTGGGCAACCCAGAACTATGCAATTTCCAGTCTTCTTGTGTAAAAACTAATCTTTAAATCAATGACA
C
ATATTAGCTAAGTTGTCATCCACATCCTCGTATGAGGCATATTATGAGTTTTATGTTATCTTTATTGGAGTGAGCATGGAAGATCAAATCGGCAAGAATT
Celera SNP ID:            hCV26613409
SNP Position Genomic:     992068
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,7)   total(C,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48855):
TTTGTATGTGTCCCGAATCCACAGTCGTACTGATTCTAATGGGGACACAGATCATGGTAGAGAATCTCTCCCTCCTCAGTAAATGTACAACTGCACCTGT
Y
ATCATGGAGGTCATACATGCATACAAAGAGGTGTACAGGTACCATCTTGTATACACATATATACCCACATGTACAGACATACATTTATGCACATTCACGC
Celera SNP ID:            hCV7624359
SNP Position Genomic:     1178019
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:48856):
ATATCCTGAAGAATGAAGACATCAAAAGCAAGGTGCTGTGGCAAGTTAGCCCTTGGTGGAGGGTTTTTCACAACTGGATATCCTGCTGTGTAGAACTGAA
Y
ACCCACAGCAGGGTTATTCAGGCAGCTCCAGGGATGAGAGAAAGTGTCTTGACTGATACATAATTTATCTGTCTGCCAAGTAATTAGTTGGTTGGTAAGT
Celera SNP ID:            hCV12107761
SNP Position Genomic:     509806
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48857):
CTGAATTCCTGTAAAGAAAGGAGACTCATATCCTGAAGAATGAAGACATCAAAAGCAAGGTGCTGTGGCAAGTTAGCCCTTGGTGGAGGGTTTTTCACAA
Y
TGGATATCCTGCTGTGTAGAACTGAATACCCACAGCAGGGTTATTCAGGCAGCTCCAGGGATGAGAGAAAGTGTCTTGACTGATACATAATTTATCTGTC
Celera SNP ID:            hCV12107762
SNP Position Genomic:     509779
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48858):
TTGCAAAAACTATTTATTTGTCCCTGCTTTTTATGCCTTTGAAGGTACGTATTTTCCTTTTTGTTCCTGCTTGTTTCTATTTATCTGTCTTACTCTTTAT
R
TCTCCTGTCTTATCCTCATCAACTCCACCACAGCTGACGAGCTGTGCTCTGCAGAGCTGTGGAAGAGGACGTAGGTGTTTTCAGTGAGTGCTGGGGAGGC
Celera SNP ID:            hCV12107763
SNP Position Genomic:     507921
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48859):
CATACTTGTTCTCAACTTAGATTCTCTACAAAGCAACTGCTTTTCTAAGTGTGGTAGGCTACTAACTAGACAATGCGCAAGAGCCTTCAAAACCTCTAGA
W
GTTTTTTGTAGAATTACTGCACTGCTTTGCAAAAACTATTTATTTGTCCCTGCTTTTTATGCCTTTGAAGGTACGTATTTTCCTTTTTGTTCCTGCTTGT
Celera SNP ID:            hCV12107764
SNP Position Genomic:     507794
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48860):
AGACAGCAGATGGGCAGGGCCAGCATGGTTTTTGTCTGGTTATTTATTTCTGTGGAATAAGTTCCTAGAAATAGGATGTCTCTCTGGGTCAAAAGGTATG
Y
ACACTTTCACTTTTTTTTTTTTTTTTTTTTGAGACATAGTGTCACTCTGTCACCCAGGCTGGAGTGCAATGGCACTATCTCCGATCCCTGGAACTTCTGC
Celera SNP ID:            hCV26380203
SNP Position Genomic:     297536
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48861):
GGGCTCAGTCAGTCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTTCAGGCATACACCACCATGTCTGGCTAATTTTTGTATTTTTTTTTTTTTTTTTT
T
GGTATTTTTGTAGAGGCGAGGTTCTGCCATGTTCCTCGGGCTGGTCTTGAACTATTGGGCCCAAGCAATCCACCCACCTAAGCTTCCCAAAGTGCTGGGA
Celera SNP ID:            hCV26613410
SNP Position Genomic:     991347
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48862):
AGGAGAGAGAGAGCAAAGGGGAAGGTGCCACACACTTTTAAGCAACCAGATCTCATGAGAATTTTATCATGAGACAGCACTAGGGGGGTGGGTGCTAAAC
Y
ATTAGAAAGCACTCCCGTGATCCAGTCACCTCCCACCAGGCCCCAACTACAACACTGGGAATTATAATTCAACATGAGATTTGGGTGGGGATGCAGAACC
Celera SNP ID:            hCV26613412
SNP Position Genomic:     986689
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48863):
CCCTGTCCCTACTAAAAGTACAAATATTAGCCAGGCATGGTGATGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTGGAACCC
R
GGAGGCGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGTACTCTAGAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAGAACAACAACAAAAAAAAAAA
Celera SNP ID:            hCV26613413
SNP Position Genomic:     984685
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48864):
CAGCATGGTGATACCCTGTCCCTACTAAAAGTACAAATATTAGCCAGGCATGGTGATGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGA
R
TCGCTGGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGTACTCTAGAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAGAACAACA
Celera SNP ID:            hCV26613414
SNP Position Genomic:     984672
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48865):
CTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGCTGTGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGACTCACACACACACACACAC
A
AAAAGTAGAAACTTAGAAGCAACCCAAATGTTCATCCAGTAGGGATTGACTAAATAAATTATAGTGGATCTGTACATTGGACTATTAGACAGCTGTTAAA
Celera SNP ID:            hCV26613415
SNP Position Genomic:     979906
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,8)   total(A,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48866):
TTTTAAGTTTAATTAAATTTGAATTGTCCATTTTTTTTTTTTTTTGGTCATGTTTGCTTTTGAGGACTAGGCCATAAATCCTTTGCCGAGGCCAATATCT
R
GAAGAGTTTTTCCTAGGGTTTCTTCTAGAATTTTTATAGTTGCAGGTCTTATGTTTAGGTCTTTAATCCATCTTGAGTTAATTTTTGTATATGGTGAAAG
Celera SNP ID:            hCV12107769
SNP Position Genomic:     503445
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48867):
CTAAAAAATATTCCCTACTAGGAGATAGTTGTGGAATATATAGCATTTGTATTTCTACATTTTTATGTGACACATTTAGGTGTTCCTTAAATAAAATGAA
R
TTGACCAAAGTTCTGGTTAGTATGTAGCAAACTAAAATTATGTGAAAATATCCAAAGCCTTAACAGAGCTAGGATATTCCCGCATCCACACTCACACAGC
Celera SNP ID:            hCV11440202
SNP Position Genomic:     295937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48868):
ATTGACAACAGTACAAATCAGGAGAATCTGTTCTTAAACAGCTACAGGTATACCACTCTATTCATTATTTTTTATATATTATATATAATTGTATATTTAT
R
TAATAGTGTATAAACATACAGTATATAAAACATGTTATTTGTCCTGTAATAATTGTAATCAATATTATGCAATAATATGTAATCATATTTATGTAATAGT
Celera SNP ID:            hCV26613416
SNP Position Genomic:     976255
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48869):
GCTCTCGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTTAGCACACCGCAATCTCCACCTTCTGGTTTCAAGTGATCCTCCTGCCTCAGCCTCCCGAGTA
R
TTGGGATTACAGGCACCTGCCACCACACCCAGCTAATTTTTGTATGTTTAGTAGAGATGGGGGTTCACCAGGTTGGCCATGCTGGTCTTGAACTCCTGAC
Celera SNP ID:            hCV26613417
SNP Position Genomic:     973708
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48870):
GCTTACAAATAAGAGAGAAGAAAGGACCGCATTAACTCTAAAGAAGGGGCTAGCAGGTCCTGTGGAGCCGATGGGGCAGTGCAAAAGCCTGACCATGCTG
R
TCTCCATTGGGTGGGTCCAATGGAAGAACGCTCAGGGTTACGTCAGGAAGGTGCCCTAGTTTTGGGGAAAGAACATTTCAACTCAGGTTCAGAGGAAAAT
Celera SNP ID:            hCV11440204
SNP Position Genomic:     296303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48871):
ATGGAAAAATTGTCTTCCACGAAACCAGTCCATGGTGCCAAAGAGGTTGGGGACTGCTGCCCTACCTCACAGAAAGCGAGTGACCCCAAGAAGCCTGCAG
R
AGGGACTTGTCAAACCTTTGATCTCTTTCACCTTCCCACCAATACTTGAGCCCCTGAGGGCAGAAGCTGGCAGCCCTTGGCTCTGGAAGTCCTTCCAGGT
Celera SNP ID:            hCV27481904
SNP Position Genomic:     1124311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48872):
CACCAGGGGATTCTTTTTTTTTTTTTTTTTTTTTTTTGAGAGGGAGTTTCGCTCTCGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTTAGCACACCGCA
R
TCTCCACCTTCTGGTTTCAAGTGATCCTCCTGCCTCAGCCTCCCGAGTAGTTGGGATTACAGGCACCTGCCACCACACCCAGCTAATTTTTGTATGTTTA
Celera SNP ID:            hCV26613418
SNP Position Genomic:     973658
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48873):
ACAAAATAGTGAAAGGATCATTGCAGCAGCAAGGGCATGTGGAAGCCCTGCGTTCGCCTCATCCGTTCTCCCCATCTGTCCCCTGTCACAGTTGCAGCAT
M
AAAACATTGTTCCCCTAGGCTCTGCTGAGTCGGATGTTTCTGAAACATTCCAGGGGACCGTGTGAGTCACATCAGGGAGGACACACAGGGCCATGACCCC
Celera SNP ID:            hCV27481905
SNP Position Genomic:     1126796
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,102|C,1393)   total(A,102|C,1393) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48874):
CTGCCCTGAACCTTCTGAATCATAAATGCTGCAGGTGGGCTGTCAATCTGTGTTTTAGTACACCCACCAGGGGATTCTTTTTTTTTTTTTTTTTTTTTTT
T
GAGAGGGAGTTTCGCTCTCGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTTAGCACACCGCAATCTCCACCTTCTGGTTTCAAGTGATCCTCCTGCCTC
Celera SNP ID:            hCV26613419
SNP Position Genomic:     973594
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48875):
GCACCAACTTTCCAGAAAGTGTTTCAGAAGCTTAGAGAATTAAAATGTGAACCAGACAGGAAGTTAAACTTGACAAGGAAGAGAAACCAACTAGGAAGAG
W
TGGGGATGGAGTTAACTGACACTAAATTTGGCCTGAGCTTCTCATTGGCTTGCCGTACACAATTGCCACTGTGCGATAAGAGCAACGTGTTAATTGCAGT
Celera SNP ID:            hCV27481906
SNP Position Genomic:     1168318
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,65|T,1430)   total(A,65|T,1430) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48876):
CTTCTCATCTCTCAACTGAGCTCTTGGGTCAAGTTAATCTAAGGCAGAATTGCCTGATAATCCCTAAAGAATTGCTTCACAGTTGGTATCATTGATAAAA
S
ACAGGCACAGGTACACTAGCTGTGAAATACCAAATGTGCTTTATGTGCTCGTCTAAGGGGAGCCATCCCATCTAGCATCTGATGATTGTATCTCACTGTA
Celera SNP ID:            hCV7624366
SNP Position Genomic:     1170798
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48877):
CTGTTATAAGTGCTCTGGTAATAGAAATACAGACTATAACACACGCCAGAGGATTTGACCTAAGGGAAGAGGGTCAGAGTTGGCTTTCTGAGCGGATGTG
Y
CATTTAGGTGGAGAAGTACTTTGTGCGTCTGCATTCTAGGGCATGCCCTGCTTGGCAGTTTTCTCATTTTATGATGGGTCCTGTGATGTGGCCAATGTGA
Celera SNP ID:            hCV11440208
SNP Position Genomic:     321568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48878):
AAGCCATTACCAGACACCACTGGGAAAGGGGGCTGGGATACTTCAGTGTCAGAGCATAATTTGGGACCAAGGCTGAGGAATAAGATTGAGTAACGTTGGC
Y
GGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGGTCACGAGGTCAGGAGATCGAGACCATCCCGGCTAACATGGTGAA
Celera SNP ID:            hCV100746
SNP Position Genomic:     582912
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48879):
AATGGTAAATAGAGACAACAGATATAAATATGTCAGGAAGTATGTCAGGTACTGAGGGTTCGGTGAAGAAAAATAAGACAAGGATGATGCTGGAAGGAAA
R
GCACTACTTTCTTTCAATAAGGTGGCCAGGGAAGTCCTCTGCAAAGAGATGAGTATAAATTGAGATTTCTGTAGCAACAATGTAATGAGCCACAGGAGAC
Celera SNP ID:            hCV100747
SNP Position Genomic:     582685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48880):
TCATTCCTTAATGTGCTTGGTGGTTGATTCTGGCTGTTGGCCACAGTATCCACACATGGCCTCTCCACGTGGCTGCTTGGGCTTCCTCACAGGATGGTAG
S
TGGTGCCAAGAGTGAGCATCCCAAGGGAACAAGGTAGAAATGAGTGATATTTTATGACTGAGGCTTGACTTTACCATATTTTATAGCAGTTGGGGCAGTC
Celera SNP ID:            hCV349761
SNP Position Genomic:     306197
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)      total(G,6|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48881):
CTGTTAGGGAAGGCTTTTATGCCCTTGGCTGGGTGTGACGGAAAGGGGCAGGGACAGACAAAACTTGGAGTGCGGTCCCAGCTGTAGAATGCCAGTCTGG
S
AGACATAACAAAAGTGAGCACTTCTTCGCTTTTGGGACACCTTCCCCATTTGGTCTTGACATTGAGCACCATGCTTTGGCAGGTGTCAGAGGTTGGCTCC
Celera SNP ID:            hCV27532817
SNP Position Genomic:     494995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48882):
CAGTTAGGGTAGCTTGAAGGCTGGGGTAACTCAATAGCTGGAGGTTGGGCTCCTTTATTCATTCCTTAATGTGCTTGGTGGTTGATTCTGGCTGTTGGCC
R
CAGTATCCACACATGGCCTCTCCACGTGGCTGCTTGGGCTTCCTCACAGGATGGTAGGTGGTGCCAAGAGTGAGCATCCCAAGGGAACAAGGTAGAAATG
Celera SNP ID:            hCV349762
SNP Position Genomic:     306139
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,7)   total(G,5|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48883):
GGATTACAGGCATGCACCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGACGAGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCCAACCTCA
R
GTTATCCACCCTCCTCAGCCTCCCAAAGGGCTGGGATTACAGGCGTGAGCCACTGCATCTGGCCCCACATTTTTTTTTATCCTGTCTTCTGTTGATGGAC
Celera SNP ID:            hCV12107771
SNP Position Genomic:     502362
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48884):
AACCCAAATGTAACTTTGTCCCTGCTATGGAACATTTAGGATGTTTTCCATTTTTGCCCCTTATAAATCATGTCTCACTAAACGTCTTCCTTCATACAGT
W
TTATTCTTCTTTTGAATGTAACGTTTGGATGGGTTCCTAGCAGTAAAATTACTGAGTGAAGGGATATGTGCATTCATAAAGCTCTCGATAAATGAATATT
Celera SNP ID:            hCV12107773
SNP Position Genomic:     500568
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48885):
GGTCATAGCCTAGGAGTATTGCCTACTAACAAACCCAAATGTAACTTTGTCCCTGCTATGGAACATTTAGGATGTTTTCCATTTTTGCCCCTTATAAATC
R
TGTCTCACTAAACGTCTTCCTTCATACAGTTTTATTCTTCTTTTGAATGTAACGTTTGGATGGGTTCCTAGCAGTAAAATTACTGAGTGAAGGGATATGT
Celera SNP ID:            hCV12107774
SNP Position Genomic:     500537
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48886):
ATCGTATTGGATAAGGGTGCCGTATTGAAAAAAATGTGTAAAAGACACACTACAGTGAATTAGAGGGAGATAATTTCATCCTAAGATTTCTCTGACATTA
S
GCATTGTGGCATCGCTTTCTTGGTTTAAATGTGAAATAGAACCTGAGATTATTTTTCATAAATTTATCTAGCCCATCTATTATTTCTCTATATTATATGG
Celera SNP ID:            hCV16089670
SNP Position Genomic:     54272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48887):
GGGTATAAAGATTGACTAAAGAGCCCAAGATCTCACTAAAAAGTGTCAGTGGTGTTACAATCCTCTGACTCCAAACCCCATTATCTTTCCATATGGAATG
S
TGTAGCTGGTGTTGGAGTCTTCTTTCACAGTAAAGTGCTCCTGTCATTGCCTCTGAGAACAGACTGGGGTGTCCTGGATAGTTTCACAGGACAGTGGTGT
Celera SNP ID:            hCV3279373
SNP Position Genomic:     252460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,4)      total(G,4|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48888):
CCATCCCGTACACCTGGAGATGTGTGGCTGGCCTAGGGCTGAGCCTGGGGCTGGGACCAGCCAGTGGGGCATCTGCCTCAAGGTGGAAAAGAGCCCAGCC
Y
ATCAGCTCCAAAGCAGCCACAGCCTCCCTCTGCATAGACACCTCTCCAAAGGAGAAGGACCTTCCCTGCACACTCTTGGACAGCCAAAGCCTCATCACCC
Celera SNP ID:            hCV26613421
SNP Position Genomic:     970795
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48889):
TATCGGAGAGAGAAAAAGGCAAACATGATATAATAAACCCTTGAGAACACAGGAAAACGGCACATGACAAGACGATGGTTAAGTATCATGAAGGAAATAA
S
GCAAGGTCATATGATAGAGATTTCTGCATGGCTGCTGAAGAATGGGTGGTCAAAGAAGATTTTTCTAAGAAGCCAAGTCCTAAACTATGAGAAGAATCCA
Celera SNP ID:            hCV3279374
SNP Position Genomic:     252078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48890):
AGATTTTGTAAAATCTTAACATACGGAGCCACCATAAAACGTATTATCTTTTATTACCCATACAGAGAATGACATTTTAGATGGTAATAAATTGAAACCC
M
AGGAAAGCTATTTGCTTTCGGAGAGTGCTTGGCGAATGACAGGAATAGCAGTTTCCCAATTTTACACGGTGGCAAATATGGCCCCCCAGGGTCATTGGAG
Celera SNP ID:            hCV26613422
SNP Position Genomic:     970458
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48891):
CCCATCTCTACTAAAAATACAAAAAAAATTAGCCGGGCATAGTGACAGGTGCCTGTAGTCCCAAACTAAGGAGGCTGAGGCAGGAGAATGGCGTGAACCC
R
GGAGGCGGAGCTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCCGGGCAATAGAGCAAGACTGCATCTCAAAAATTTTTAAAAAATGCATGGTTT
Celera SNP ID:            hCV26613423
SNP Position Genomic:     966921
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48892):
ATGGCTGGGTCTGTCCCTGCAGTGACTGTGCTATTCATAGCAAGAATGTTGTGTTGCTAAACTTGGCATGAAACAATACAGTTATTTATGCGACTTCATG
R
CCTAGAGTATCGCCTTGGATTTGAGATTCTGCTAAAGCTACATGAGTGGGCAAATCAAGAAATTGTATTCCATAATTTGTTTCCAATCTGACAGAGTACT
Celera SNP ID:            hCV16089674
SNP Position Genomic:     114491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48893):
AAGCATGGTTTCTGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGATGGGCGGATCACGAGGTCAGGAGATCAAGACCATC
Y
TGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAATTAGCCGGGCATAGTGACAGGTGCCTGTAGTCCCAAACTAAGGAGGCTGAGGCA
Celera SNP ID:            hCV26613424
SNP Position Genomic:     966802
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48894):
TGGCTGGGTCTGTCCCTGCAGTGACTGTGCTATTCATAGCAAGAATGTTGTGTTGCTAAACTTGGCATGAAACAATACAGTTATTTATGCGACTTCATGG
M
CTAGAGTATCGCCTTGGATTTGAGATTCTGCTAAAGCTACATGAGTGGGCAAATCAAGAAATTGTATTCCATAATTTGTTTCCAATCTGACAGAGTACTA
Celera SNP ID:            hCV16089675
SNP Position Genomic:     114492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48895):
TCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTCGTCAACATGGTGAAACTCCATCTCTACTAAAAATAC
W
AAAAAGAAAAAAAAAAGCCGGGCATGGTGGCATGAGCCTCTAGACCTAGCTACTCCAGAGGCTGAGGCAGAAGAATCACTTGAGCCCACGAGGGAGAGGT
Celera SNP ID:            hCV26613425
SNP Position Genomic:     966421
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48896):
GTTAACTAGTCTATCAGAGGCCTGTTTCTCTCTACATTATGCAGAATAATCTTTTGCAAGGTTAAAACAGATATTATGAGACTTTCTGAGAATAGTCGTG
R
GAATTTATGGATGGAGGGTGGGCTGCAGGGAAAATGATAAATGCATAATTTACACTGTTTTTTCACTGGCTAGTAATAATGACTATAATATCATGAAACA
Celera SNP ID:            hCV7624371
SNP Position Genomic:     1165988
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48897):
AGGATGTGTGGGCATCAAAGAGTGTGATTTGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTT
S
AGACCAGCCTCGTCAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAAAGAAAAAAAAAAGCCGGGCATGGTGGCATGAGCCTCTAGACCTAGCTA
Celera SNP ID:            hCV26613426
SNP Position Genomic:     966373
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48898):
CACATCTCCTCCTTATTCCTTTCATGACTTTATTCCAGTGAAGTCTTCTCAGGCCACCCTATTTAAAACAGAGCCTTGGCCAGGCACAGTGGCTCACACC
K
GTAATCCCAGCACTTTGGGAGGCCAAGGCAGTGGGTTGTTTGAGTCCAGGAGTTTGAGACCAGCCTAGTCAACGTGGTGAAATCCCGTCTCTACAACAAA
Celera SNP ID:            hCV26613427
SNP Position Genomic:     964227
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48899):
CCACATCTCCTCCTTATTCCTTTCATGACTTTATTCCAGTGAAGTCTTCTCAGGCCACCCTATTTAAAACAGAGCCTTGGCCAGGCACAGTGGCTCACAC
Y
TGTAATCCCAGCACTTTGGGAGGCCAAGGCAGTGGGTTGTTTGAGTCCAGGAGTTTGAGACCAGCCTAGTCAACGTGGTGAAATCCCGTCTCTACAACAA
Celera SNP ID:            hCV26613428
SNP Position Genomic:     964226
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48900):
TTCATGATTTATGGATGATCACATTAAAGGAAGAAGAGAGGAATAGGAGAAGATGAGGTTTCCCAGCACGTCCTTTTCAGGACCTCCATGTCACGCCTCA
S
TGCCAATTAACATTTACTTGAATTCTTGGTTCCCTCCCCAGCAGCTGTTGGGTCCAGCTCTCTGGGGATGTCTGAGATATAAATGCTCAGACCTGCACAC
Celera SNP ID:            hCV26613429
SNP Position Genomic:     960031
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:48901):
CCAGTTGCCAACAGAAGTCAAATTCTAGAAAACTAACATTAACAACAGGCACGTTTTGACTTGTCATGTCTCATTTCAAAGACACCAATGAGCATCACCC
R
ATCTGCTGCAGAGGCACAAAGACCCTGTGTCTCCTAGCTGAACGCAGCCCGGGCTGGGGCGGAGGGCAGCAGCTGCTCAGCCATCAACAGCCCTGCCACA
Celera SNP ID:            hCV11671989
SNP Position Genomic:     13103
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48902):
TATCAGCATAATTCTATACAGTAAATCTGCAGTGGGTGACTTAGTTTTGCTGATATGTGGCCTCTAGAATATTGGGAAAATAGATACATGGAAATTTAGG
R
AGCTTGTATCTTGCCTCTCCAACCTTTTAAATTTGCTGCAGAAAGTTGGATATTTGTTGGGTTTTTCTTCCTTAAGTAGGCAAACTTCAGCCCCAGGAGG
Celera SNP ID:            hCV12107784
SNP Position Genomic:     493524
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48903):
ATAGGAAGGGTTAAACAGCCCCTGTCCTACTGTGTCCACTGACCAAGTCCCCTTCATGATTTATGGATGATCACATTAAAGGAAGAAGAGAGGAATAGGA
R
AAGATGAGGTTTCCCAGCACGTCCTTTTCAGGACCTCCATGTCACGCCTCACTGCCAATTAACATTTACTTGAATTCTTGGTTCCCTCCCCAGCAGCTGT
Celera SNP ID:            hCV26613430
SNP Position Genomic:     959979
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48904):
GCAATTTGAATCTGCCAACCTGAGAGTTTCCTAAAAACTTAACAAGGGGCTCTTGCTACCTGATACTAACTGGCTCCAGCACACCATGGACCTGGATCCT
R
TTTCTAGCTCACCCCCTCACTCGTGGTATGACCTTCAGCAAGCAGCTTGAATGTTTTCATCTGTAAAATGGACCAGGTTACTTGGAGGTTCAAGTGAGTA
Celera SNP ID:            hCV11671991
SNP Position Genomic:     15971
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48905):
CCTGTTTCTAGCTCACCCCCTCACTCGTGGTATGACCTTCAGCAAGCAGCTTGAATGTTTTCATCTGTAAAATGGACCAGGTTACTTGGAGGTTCAAGTG
R
GTAAAAAGATGTTAGAATGCAGGGAAGTCCAATTTGCTGCAAAGATGCATGCAGATTATCTAAATCATTATCACTTACAAGGAAACAGGACCTTTGGCCA
Celera SNP ID:            hCV11671992
SNP Position Genomic:     16068
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48906):
GGGCTACAGGCGCCCGCCACAGCGCCCGGCTAATTTTTTTTTTTTTTGTATTTTTAGTAGAGACGGGTTTTCACCGTGTTAGCCAGGATGGTCTCGATCT
M
CTGACCTCGTGATCCGCCAGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACAGCGCCCGGCCTATCGTGCCCTTTCAACAGATGAAGAAA
Celera SNP ID:            hCV11671993
SNP Position Genomic:     16702
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48907):
TGGGATTATAGGCGTGAGCCACAGCGCCCGGCCTATCGTGCCCTTTCAACAGATGAAGAAACTGGTGAGTTTAAGGAACTGACCCAAGATCACAGAATAA
Y
AAGTGGTGAGCTGGGATTTGCACCTGGGTCTGTGCGTGGGCGAGTCCACCTGGGGCCCGTGTCTTCACTCAGCGAGTATTTATTGAGCATTTAGGGAATT
Celera SNP ID:            hCV11671994
SNP Position Genomic:     16842
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48908):
GATTTGAGCTCAGCTATATCTAACATAGAAGTTCAGCAGTCTATCTGGCTTCTAAGGTAAGTTTCTGTCACAACATTAAATATTCAGTATCATTTTCTGG
R
CTATTTTTAAATGGTAGGGAGTCAAAGAGATTAACTACCAGTTGCAGCTCTTATCAGGCCAACAATATCAGCTAAGGTGAATCTGATACTAGTAGAACTC
Celera SNP ID:            hCV305933
SNP Position Genomic:     376275
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48909):
GTAAACAGGATGCCGTGTATTCTGATCGGGTGATGGGTGCACCAAAATCTCACATATCACCACTAAAGAACTTATTCATGTAACCAAACACCACCTGTAC
M
CCAACAACCTATAGAAATTAAAAAAAAAAAAAAAGAAATAGACTTTGTCTGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCA
Celera SNP ID:            hCV54823
SNP Position Genomic:     515747
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48910):
GATGTTCAAAAATTTACATCATTTCCTGTAATTTTTTTTTCTGTAAAGTTTTGGCAGACACAGAGTCACCACTATTCATTTTACAAAAATACATTTATGC
T
TAATTTAAAGAAATAGGCAGGGAGAGGGGTGCTCTGGTTCTTGTTTTCTGGCAGATACTTAAGAAAATTGGAAGAAATCACTTTGAAAGATCAATGAGAC
Celera SNP ID:            hCV26216900
SNP Position Genomic:     683200
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48911):
ATGTTCAAAAATTTACATCATTTCCTGTAATTTTTTTTTCTGTAAAGTTTTGGCAGACACAGAGTCACCACTATTCATTTTACAAAAATACATTTATGCT
T
AATTTAAAGAAATAGGCAGGGAGAGGGGTGCTCTGGTTCTTGTTTTCTGGCAGATACTTAAGAAAATTGGAAGAAATCACTTTGAAAGATCAATGAGACT
Celera SNP ID:            hCV26216901
SNP Position Genomic:     683201
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48912):
TGTTCAAAAATTTACATCATTTCCTGTAATTTTTTTTTCTGTAAAGTTTTGGCAGACACAGAGTCACCACTATTCATTTTACAAAAATACATTTATGCTT
A
ATTTAAAGAAATAGGCAGGGAGAGGGGTGCTCTGGTTCTTGTTTTCTGGCAGATACTTAAGAAAATTGGAAGAAATCACTTTGAAAGATCAATGAGACTT
Celera SNP ID:            hCV26216902
SNP Position Genomic:     683202
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48913):
GTTCAAAAATTTACATCATTTCCTGTAATTTTTTTTTCTGTAAAGTTTTGGCAGACACAGAGTCACCACTATTCATTTTACAAAAATACATTTATGCTTA
A
TTTAAAGAAATAGGCAGGGAGAGGGGTGCTCTGGTTCTTGTTTTCTGGCAGATACTTAAGAAAATTGGAAGAAATCACTTTGAAAGATCAATGAGACTTC
Celera SNP ID:            hCV26216903
SNP Position Genomic:     683203
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48914):
TTCAAAAATTTACATCATTTCCTGTAATTTTTTTTTCTGTAAAGTTTTGGCAGACACAGAGTCACCACTATTCATTTTACAAAAATACATTTATGCTTAA
T
TTAAAGAAATAGGCAGGGAGAGGGGTGCTCTGGTTCTTGTTTTCTGGCAGATACTTAAGAAAATTGGAAGAAATCACTTTGAAAGATCAATGAGACTTCA
Celera SNP ID:            hCV26216904
SNP Position Genomic:     683204
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48915):
GGAGAGGGGTGCTCTGGTTCTTGTTTTCTGGCAGATACTTAAGAAAATTGGAAGAAATCACTTTGAAAGATCAATGAGACTTCAATAAAGTAAATTTAAG
A
AAAAAAAAAAAGAGTTAAGGAATGAAGTAAAACTTGCTAGGGTTAAAATCCCAGCTAGTCCATTCCTTACCTTTCTTACCTGAAAAATGAAAGTGGGGAT
Celera SNP ID:            hCV26216905
SNP Position Genomic:     683321
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48916):
AAGACTGTGTTGGTAATTTTAGAAGGAGTCTGAATGGGACCATATAGCTGGTTAAGTGGGTGGGTTGGGGAATGAGAAGGAGCTCAAGGTGATTATTCTG
T
TTTTTTTTCTGGGATTTTCAAGCTTCCCTAGAAGTCTACATAAAAATAGATATGGGAAAATCAGAATCTAAGAGCTGGCTACTCAGATTTGATGTAGTTA
Celera SNP ID:            hCV26216906
SNP Position Genomic:     685789
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48917):
AGACTATGAATCTTTCTTTTTAGAAATTGAGGTGGTTAGGATTAATGACCAACCATAAAATTTTATAAGCAATTATTACGGTTTACTGTACCTTCTTCAG
Y
TGCTTGTCGCCTTGCCTTCTTTTCTTTCTCCTGTAGTCGGGGTGAGTTTTCACATCACTGACAAAGATATTGGGCTGGGAAGAGGCACGCTTGGAGTGAG
Celera SNP ID:            hCV26216907
SNP Position Genomic:     570130
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48918):
TGGACTTCAGAAGTCCTTCCAGACAAATGGCTGCTTTATTTGTGAGGTAGTGATTTATATCCCTGGCAGAATAATCCTGGGTGAAAGTGGCTCTCCCTCA
S
CATAAAGGAATAGCAAAACATTTATGAAAGGGAGACAGAGCTTCAGATGAGTGGGTACAAAAGTTCCGCACAATATCAATGGTTGAAAGAATATGCATAT
Celera SNP ID:            hCV26216908
SNP Position Genomic:     691288
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48919):
ATTTTTTGCTTTGTGATAGATAAGGCAAAAGCGGTCACTTTGTTCGGTGTGTGCTCTCATCCTAATTTAGGGCCCCTTTCTGCCTAGAACTCTGTAGATT
Y
CCGCCGTCTGTGTTTTTCCATCATCCCAGACCCTCAGCTGCAAGCTCAGGCCTCCAGCCCCTCATGCACAACTGCTCCTTTAGATCAGGATTACTTTGCC
Celera SNP ID:            hCV26216909
SNP Position Genomic:     570515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48920):
CTCTTTATTGTATTTTTTTAATTGATGTAAAATTCACATAACATAAAATTAACCACGTTAAAGTGAACAATTCAGTGGCGTTTAGTACGTTAATTGATGT
R
AAATTCACATAACACGAAACTAACCATGTTAAAGTGACAAGTTGAGTGGCATTTAGTACTTTCACGATGTTGTGCATCCACCACCTCCAGCTGGTCTTAA
Celera SNP ID:            hCV8093662
SNP Position Genomic:     958669
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48921):
GTCATGTTAAAAAACGAAACCAGTGAAATTAACTTTAATAATTTATATAATAACTGTATATATGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
K
ATGTATAACAGATATATCTAACATATTATCATTTCAACAAGTAATCAAGGCCAGGCACAATGGCTCACACCTGTAATCCCAGCACTTTAAGAGGCCAAGG
Celera SNP ID:            hCV462070
SNP Position Genomic:     422003
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|T,6|-,8)   total(G,6|-,8|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48922):
GGAGGCTGCGGCAGGAGAATCACTTGAACCCGGGAGGCGGAAGTTGCAGTGAGCTGAGATTGTGCATTGCACTCCAGCCTGGGCAATAAAACTCCATCTC
M
AAAAAAAAAAAAAAAAAAAAGAATCTTGGGAGACAGTGTGCCTCCACTTTTTTGTCTATTGGTTGTATTACAAGTTCTTTTTCATTTTCTGCCCTTGATT
Celera SNP ID:            hCV26216910
SNP Position Genomic:     693418
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48923):
GAGGCTGCGGCAGGAGAATCACTTGAACCCGGGAGGCGGAAGTTGCAGTGAGCTGAGATTGTGCATTGCACTCCAGCCTGGGCAATAAAACTCCATCTCA
A
AAAAAAAAAAAAAAAAAAAGAATCTTGGGAGACAGTGTGCCTCCACTTTTTTGTCTATTGGTTGTATTACAAGTTCTTTTTCATTTTCTGCCCTTGATTG
Celera SNP ID:            hCV26216911
SNP Position Genomic:     693419
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48924):
ACACACTTTGGGAAACGGACAATCTATAATATCTTCTCTCTTCTTCTTCTTTTTTAACCAACTATCTTTCCAGCTAGGGTGATGATTCACAAAAATGTGA
T
TTTTTTTTCTTTCAAATGTGTCTTAATGGGTAACAGCTGATTAGATAAATGTACAGGAGAAATATAAAAATAATTTGGTATTTAAAACAAGACTAATCAT
Celera SNP ID:            hCV26216912
SNP Position Genomic:     695641
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:48925):
GGCATGAAGAATGAGAACACAGGGAAAGCTTGAATGGGCTCTAAGTGAATAATCAGGTCATAGCTAAATTTCAGGGGATAAGTGAACAGCTCACTGTTTC
W
GTTCTTCACCTGCTCGTTCAAAATTTTCAAAAGCCCAACGTAAATGAAATGATTAATACAGCCCACAGACAGTAGACGTTAGGCATCATGGAAAAACGAG
Celera SNP ID:            hCV26216913
SNP Position Genomic:     701215
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,5)   total(A,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48926):
CATAGCCAGGCTGTAGGAAACAGACTGGGAGGAACAGGAGAAGAGCATCTTCCTTTTAAAGGACATTGACTAGAAGTTTCTCCTAATGCTCCCTTTCATT
S
CCTGTTGAGCAGAGCTGAGTCACATGGCTATGGCCCGCTGCAATGGAGGCTGGGAAGTGTAGTTTCTAACTAAGTAGCCAGGTACCTGAATAAAACCCAG
Celera SNP ID:            hCV26013348
SNP Position Genomic:     383323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48927):
GTTGATCAACTTGGAGGCACGTCACTCACCCTTCATTGGCATCGGAATTATTTAAGTTGGCGCGGCCTCTATGTTAACTACACAGTTATTTTTCATGCAA
W
ATGCTATGGCATTAAAGACAACGACTAGGCTGTCATACCTCCTCATTTTTTTTTCTGGAAAATATGGAAATCTGGAATTTTTTTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV26216914
SNP Position Genomic:     702800
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48928):
GGAGAAGAGCATCTTCCTTTTAAAGGACATTGACTAGAAGTTTCTCCTAATGCTCCCTTTCATTCCCTGTTGAGCAGAGCTGAGTCACATGGCTATGGCC
M
GCTGCAATGGAGGCTGGGAAGTGTAGTTTCTAACTAAGTAGCCAGGTACCTGAATAAAACCCAGAGGGTAGGAGATGAGATTCTATTATTACAAGAAGAC
Celera SNP ID:            hCV26013349
SNP Position Genomic:     383359
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,6)      total(A,1|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48929):
CACAGTTATTTTTCATGCAATATGCTATGGCATTAAAGACAACGACTAGGCTGTCATACCTCCTCATTTTTTTTTCTGGAAAATATGGAAATCTGGAATT
T
TTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCGCCTAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCCAGCTCCACATCCTGGGTT
Celera SNP ID:            hCV26216915
SNP Position Genomic:     702880
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48930):
AATGAGCGAATGGAGGTGGTGGTTAGCCCACGGTCCCAGAATCAATCAGCTACACCTGTGGCAGATTTAGGATTAGAATGAAGACCTCCCTACTTCTTTC
T
TTCTTTCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCTTCCTTCCTTCTTTCCAT
Celera SNP ID:            hCV26216916
SNP Position Genomic:     704512
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48931):
AATGGAGGTGGTGGTTAGCCCACGGTCCCAGAATCAATCAGCTACACCTGTGGCAGATTTAGGATTAGAATGAAGACCTCCCTACTTCTTTCTTTCTTTC
T
CTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCTTCCTTCCTTCTTTCCATCTTTCTTG
Celera SNP ID:            hCV26216917
SNP Position Genomic:     704520
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48932):
AAGTTCTACATTAAGTTGTCCCTGTGCCTGAACCATTTTTGTTTGTTTGTTTTTGTTTTTTTTTTTTTTTTTTTGAAATGGAGTCTCATCCTATCACCCA
R
CTAAAGTGCAGTGGTGTAATCTCAGCTCACCACAGCCTCCGCCTTCTGGGTTCCAGCCATTCTCCTGTCTCAGCCTCCTGAGTGGCTGGAACTACAGGTG
Celera SNP ID:            hCV494847
SNP Position Genomic:     522356
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48933):
TGGTTAGCCCACGGTCCCAGAATCAATCAGCTACACCTGTGGCAGATTTAGGATTAGAATGAAGACCTCCCTACTTCTTTCTTTCTTTCTCTTTCTTTCT
T
TCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCTTCCTTCCTTCTTTCCATCTTTCTTGTTTTCTTTTTT
Celera SNP ID:            hCV26216918
SNP Position Genomic:     704531
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48934):
GGTTAGCCCACGGTCCCAGAATCAATCAGCTACACCTGTGGCAGATTTAGGATTAGAATGAAGACCTCCCTACTTCTTTCTTTCTTTCTCTTTCTTTCTT
T
CTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCTTCCTTCCTTCTTTCCATCTTTCTTGTTTTCTTTTTTT
Celera SNP ID:            hCV26216919
SNP Position Genomic:     704532
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48935):
TCTTTATTCATAAATGATATGCCTAAAATAATCTAAAAGAATTTTCAGAGAATCTATTACTGATTTTAGTAAAGGTCATCAGGTATAAGATCAGTATACA
M
AATTAATTGTTTTATATACCCCAGCAGTAAGCAAATGGAAAATAAAATTCTAAAAGATACTGTTTGCAATATCATCAGAAACACCAAATAGCAAGGTATA
Celera SNP ID:            hCV10073407
SNP Position Genomic:     1140952
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,2)      total(A,2|C,2) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48936):
GAGAATAATTCAAAGTGGCTGTGATGCAAGGAGGAAATTGTCACAAATAAACTTGGAGAAATCATCAAAGGCTGGAAGAGGAAAAATTGTAAAAACTACT
R
TATGGAATTTGGACCTTTTTCTACGGATGACTAAGTGTTATACATTGGGGAATCACACGATCAGATTTGCATTTCAGGAAGTTTAGTCCTGTTACGCTGG
Celera SNP ID:            hCV28955200
SNP Position Genomic:     518236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48937):
AGATGGGAAGAAAGCGCTCTCCAGGCAGTGGGAAGAACATGATCCAGTATCTACGGGCGAGAGGGACGGTGGTCTGTCCAGAGAGGTGAGAATAATTCAA
M
GTGGCTGTGATGCAAGGAGGAAATTGTCACAAATAAACTTGGAGAAATCATCAAAGGCTGGAAGAGGAAAAATTGTAAAAACTACTGTATGGAATTTGGA
Celera SNP ID:            hCV28955201
SNP Position Genomic:     518149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48938):
TCGGTTCTCCATTTTAAAGGTTCCTAGAACTTTATTGTTATTATGAACATCTGGCCTCAGACTGAATTTATATTTAATTATTTGTGAACATTCAAGGACC
W
GGCATTTCAGCTTGAATTAGCATCCAGACTCAGGGTTGTTGAAGAATTTTCAAATTGGACTAGAATGTTCACTACCTAATGAATGTCTGGATCTAAGCCA
Celera SNP ID:            hCV28955202
SNP Position Genomic:     514619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48939):
CTTTTGCAAATCACTTTTTTTTCTTATTATAAGAGTAATATGTGTTTATTGTAGAAATTTTAGAGAAAAATACACATTGAAAAATAATAATATAAAAATA
Y
CCGGCCAGGCGCAGTGGTTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGACCGGGTGGATCACCTGAGGTCGGGAGTTTGAGACCACCCTGACCAACA
Celera SNP ID:            hCV28955203
SNP Position Genomic:     519311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48940):
CAATGTCCACACTGAGATGTTTTGTAAGCGTAAAATACACATTGGATTTCAAAAGCTTATCACACGAACACAAAAAGAATGGAAAATGTCTCCTTAATAA
W
CTTTGTATTGATTTCATTTGGAAACAAATCCCTTGTATTTCTTTTCACTTTTTTTTTAACGTGGCTGCCAGAAAAGTATTAAATTATTAATATGGCTCAC
Celera SNP ID:            hCV28955204
SNP Position Genomic:     512932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48941):
TCAATGCAGTTATAAAGTCTTTACTAATTTTAATTGGGGCTCAAAAAGTAACACTTCATTCCATTATTGGGACAACTTGGCAGTTGAATGTACCTTTTTC
M
TGATACATTTTAATCTATTTACAGATAAAATATTTTTTACTGAAAACGCAATGTCCACACTGAGATGTTTTGTAAGCGTAAAATACACATTGGATTTCAA
Celera SNP ID:            hCV28955205
SNP Position Genomic:     512783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48942):
CCACTAACCACATGTGGTCAATGCAGTTATAAAGTCTTTACTAATTTTAATTGGGGCTCAAAAAGTAACACTTCATTCCATTATTGGGACAACTTGGCAG
K
TGAATGTACCTTTTTCCTGATACATTTTAATCTATTTACAGATAAAATATTTTTTACTGAAAACGCAATGTCCACACTGAGATGTTTTGTAAGCGTAAAA
Celera SNP ID:            hCV28955206
SNP Position Genomic:     512766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48943):
CTTTAACCGGTGGCTCTACCCTTCACAGCTGGACATTGCTGGATTTTTGGATGATTATTTCATTGTCTCCACTCAAAGATTAAGTTTGGAAAATAGGGAA
W
TTTTCTACCAAAGCATAGGAACTCCAGGCCCCAGCCCCTCCTCACTCTTTCTCCCTGTTCATTCTCATCTCTTTCCAGTTCCTTACCTCCTGTAACCTGT
Celera SNP ID:            hCV26013350
SNP Position Genomic:     383576
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,4)      total(A,1|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48944):
TCCTTACCTCCTGTAACCTGTGGGCATACTAAAGTACCAAGGTAGGCTTAGCTGCAGGCACGGTACTTCCATGATTCAGTGCCCCGCCCCCACCACTGAG
M
TAGGCCACTCCCACCAACAACCTCAGGCCTTCAGATGCCCAATTTCTGTGTAGAGCTTTGAGCAGTGTTTTCCAGTTGTGAAGGGCAAAGGAAATTCTCC
Celera SNP ID:            hCV26013351
SNP Position Genomic:     383756
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48945):
TGGTTGGTTTTGTTCACTTGTTTTTAATGTTGCAAAAGTCCTTCATATGTCATTGACAATAGAATTTAAGTATTTTTGAAATGTACTCAGTTCAGATTCA
M
CATTACATTTCATGTCCTTAAGGTTGGTAGCTTAAGATAGCTTGTGCTTCAGTTGCACAATACTGGCGTCAGCTCTCCTTTAACTCAAAGCTTTCTGGTA
Celera SNP ID:            hCV26013352
SNP Position Genomic:     384322
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48946):
GCTGGCCTCTGAGGCCAATGCAAATATATTTTGAGCTGAGAATTGCTCTTGGGCGGTGAGAGGACTGTAGTTTGGAAAAGGTCAAGGGCTGTGGATTGCC
R
TCTCTCATGGTGTCTTCAGAATGTTTCAGTAGCTTTGTGACTCCAGGTAGCATTGCATTGATAATTTATCTATTTAACTGGCTTAAGTGGGTTTTTTTTT
Celera SNP ID:            hCV26013353
SNP Position Genomic:     381579
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48947):
GTTAGCCCACGGTCCCAGAATCAATCAGCTACACCTGTGGCAGATTTAGGATTAGAATGAAGACCTCCCTACTTCTTTCTTTCTTTCTCTTTCTTTCTTT
C
TTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCTTCCTTCCTTCTTTCCATCTTTCTTGTTTTCTTTTTTTC
Celera SNP ID:            hCV26216920
SNP Position Genomic:     704533
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,2)   total(C,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48948):
GTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
M
CAAGAATGGCTCAGGTAGGGGCCAAAAATCTGCATTTCTAACAAGCTCCTAAGGCTGCTCATGCTGCTGATCCTGGCACAGCACTTTGAGAATCCTTGGT
Celera SNP ID:            hCV26013354
SNP Position Genomic:     388453
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48949):
TTTTCGTAGGTTTCATGATTAATTTTCATCTTAAGTTAATTTTGTGTATGGTGTGAGGTAGAGGTCAAGATGTATGATTTTTCCAGTTGCCGCCGCAAAA
Y
GTATTGAGAAGATCACCCTTTCCGTCACTGAATTGCAGCCATAAATCAAATAACCAATATGTGTGATCTATTTCCGCACTGTCTTTCCCTGGTCTTTATA
Celera SNP ID:            hCV7624701
SNP Position Genomic:     321295
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48950):
ATCCTGTGTGGCACCTTTCTCATTGCTTTGGACAATGTGTAGCAAAGTCCTCACTGAATCCCAGGAGTCTAATAGGTATTTGTGAATGAGGAGTGAGTGA
R
TGAATGAATGATTTGACTAATTCTTACCTCACTAAGTCACCCATGGCCCAGGAGGGTACTGTGTACCTTTATGTTACAAATCATTTAACTTTAATTTTGA
Celera SNP ID:            hCV15848091
SNP Position Genomic:     234031
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48951):
GGAAAAAGTAAAAACTAAAAGGCAGAAATGAAATCCGCAAGCAGACGGCCCAGCGCCACACCCTGGGCCTTGTAGTTAAAGATTGACCCCTGACCTAATC
M
GTTATGTTATCTATAGGTTACAGAAATTGTATAGAAAAGCACTGTGAAAATCCCTATCCTGTTTTGTTCCGATCTAATTACCGGTGCATGCAGACCCCAG
Celera SNP ID:            hCV26216921
SNP Position Genomic:     717041
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48952):
GGTTGTTACCCAGAGCCCTACTGAATCAAAAGAAATACTTATTTTTTCTAAAAAAGGAATCAGTGGTGGGTTTGTGAACCTATGATTAGAAACATCCTGC
R
GGGACATCTACTTGTTCATATTTAATGTCATTTACTAGTAGTGGAGCTTACGTGCAGTTGGTTGTAGCAAACAGCTCTTTGGTTCTCCCCATTCTTTAAG
Celera SNP ID:            hCV26013355
SNP Position Genomic:     389074
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48953):
ACAAAATGCCTAAATTCCGTTCATCCACATTCATTTATTTATTCATTCATTAACCATTGAATATTTTGGGGCTCCTATACATAGTTTGCTCTCAAAGAAT
K
TTAGGTTTTAGTTGGGAGAGAGCAATGAAAATATGTTAACTGCATGCCAACTGGGATCTCCCATTCAGTGAAATCTAGATAGCGTTGGACCAAAACCCTG
Celera SNP ID:            hCV7624702
SNP Position Genomic:     320276
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48954):
CGATGAGTATTTGTTCAGATTGTTTTAAGCCAAATGAGACAGTGCAAAAAAAGGCCAGACCTGTATGGGACACCAAATCAATGTTAGTCCTCTTCTTTTT
A
AAAAAAAAAAAAAAAAAAACAAGTAATCAGTTTAATGTACTCTGATATTGTTTACCACTGGGATTCTTGTTCATCAATTAAGGCTACAGAGTCCACCAGC
Celera SNP ID:            hCV26216922
SNP Position Genomic:     719545
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48955):
ACTATCTCTTTTCAATTTTCCAAATATAGCATCTAAATTTAGAGAGATGTTAAAACAATTTGGGGGTTGTTTGGTTTCTTTCCTTTTTTTTTTTTTTTTT
T
GGCCCCTTTGCTCAAAGAAATAGTGCTTTGCTTTCTTCTAATGAAGTAAGCCCTGGTCCAAGGAAAATATAAAATAAAATCGCTATTTTCCTACCACCTT
Celera SNP ID:            hCV26013356
SNP Position Genomic:     390627
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48956):
AGGTTGGGCGAGGCAATCTTTAAATGAAGCTATTTTTTCTTTGTCTCTCTGTCCCTCTGTGTCTCTCTCTGTGTCTCACACACATACACATGCACACACA
S
ACACACACAGACACACACACACACACACACACAGTCTAGCTGAATCACGAATTCCGTGAGAACAGAGTCAGCATTTGTATATTTTCTCAGAGATCTATTC
Celera SNP ID:            hCV7624703
SNP Position Genomic:     316460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48957):
AGGACATTGGAAAAAATTGATGTTTATGGGAAATGTATGTGTATATTTGTATGTGTGTGCTATGTCTGTGGTACATGTACATATGTCTGCCTGCATCTGA
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGCGCATGTGCGTGCTGCTCCAGATAGACCTACAAACATCTGTCTTCCTGGCCTGTGTACTTGGGAGTGG
Celera SNP ID:            hCV26216923
SNP Position Genomic:     721667
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48958):
GGACATTGGAAAAAATTGATGTTTATGGGAAATGTATGTGTATATTTGTATGTGTGTGCTATGTCTGTGGTACATGTACATATGTCTGCCTGCATCTGAG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTATGTGCGCATGTGCGTGCTGCTCCAGATAGACCTACAAACATCTGTCTTCCTGGCCTGTGTACTTGGGAGTGGT
Celera SNP ID:            hCV26216924
SNP Position Genomic:     721668
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48959):
TAAAGGGGATAGTTAAGGCACCTGAAGGACCAAGCCCACCAGCAATCTGCACGGATACTCGGTCACTATTTTGTTATTTATACCACCTGGCACAGTTCCT
R
CCTTCTAATTCACACTCAAGCCTCAAGCAAGAGCCGTTCCTTTGCCTCCATTCCTCCCAGAGATTCCCCTTCCCATGCTGAAGCCTTGGAAATTATTGTG
Celera SNP ID:            hCV26216925
SNP Position Genomic:     573405
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48960):
CACCAGCAATCTGCACGGATACTCGGTCACTATTTTGTTATTTATACCACCTGGCACAGTTCCTGCCTTCTAATTCACACTCAAGCCTCAAGCAAGAGCC
R
TTCCTTTGCCTCCATTCCTCCCAGAGATTCCCCTTCCCATGCTGAAGCCTTGGAAATTATTGTGAATGCAATAATGGTGGCCGCTTCTGTAAACACTGTA
Celera SNP ID:            hCV26216926
SNP Position Genomic:     573441
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48961):
ACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCTTTTCACACATCTTATTTTCTTA
A
CTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGCCAGCTAAATATCCTTTCCTGCT
Celera SNP ID:            hCV26380263
SNP Position Genomic:     291281
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48962):
AAGTATTTCATTGCCTTCTGCCATGCCTACCTATTTGTTTTTCTCACAGTAGGTTTCTACCAAGTGGCATCTCACTTCTAACATAAAGAACAAGCATCAG
W
ATGCCTCCCTTTGAATGCATATGAGGTTGTTTTGTTTTTAGAACCCAAACACAGCCACTTGAATCTATCATGTAATTCAAAGGAAACAAGCATTATTCCA
Celera SNP ID:            hCV26216927
SNP Position Genomic:     722478
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48963):
TGAGGATTAAATGAGTTAACACACATAACGCTTAGGATGGTGGTGGACGTACAAAACACTCAATAAGAATTTGCTTTTGTTATTATTACTTGTTCACATC
Y
ATGCAGCATGTGTGCCTGCATGCTCACACACTCTAGTCTTACGCAGCTTATTCACCAACATTGGTTCGGGATGACATTTGACTGTTTTCAAAAGTCAAAT
Celera SNP ID:            hCV15848098
SNP Position Genomic:     271337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48964):
GCCGTTCCTTTGCCTCCATTCCTCCCAGAGATTCCCCTTCCCATGCTGAAGCCTTGGAAATTATTGTGAATGCAATAATGGTGGCCGCTTCTGTAAACAC
Y
GTACTTGACCTTCATGCCCACAGTATTCAGCAGGTAACTACGTAGTGTCTGTTGTGTGTCAGGGACTGTGCTGTGGATTCACTTCTGCAGAGAGCAGAGG
Celera SNP ID:            hCV26216928
SNP Position Genomic:     573538
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48965):
TCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCTTTTCACACATCT
T
ATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGCCAGCTAAATATC
Celera SNP ID:            hCV26380264
SNP Position Genomic:     291271
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48966):
TGTGAATGCAATAATGGTGGCCGCTTCTGTAAACACTGTACTTGACCTTCATGCCCACAGTATTCAGCAGGTAACTACGTAGTGTCTGTTGTGTGTCAGG
R
ACTGTGCTGTGGATTCACTTCTGCAGAGAGCAGAGGGTAGATGCAGAATAAAGGGTCTTCTCCTGCCTTGAGCCGTTCAGAGTTGTGGCCTTTGGAAGAC
Celera SNP ID:            hCV26216929
SNP Position Genomic:     573602
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48967):
AATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCTTTTCACACAT
C
TTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGCCAGCTAAATA
Celera SNP ID:            hCV26380265
SNP Position Genomic:     291269
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48968):
TTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCTTTTCACAC
A
TCTTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGCCAGCTAAA
Celera SNP ID:            hCV26380266
SNP Position Genomic:     291267
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48969):
CATGGTGTACTAGGGAAGATGTTCTCCTATGTCCTGAATGACCAGCAGCAGAGGATTCAGGGCACCCAATGCAAAATTGTCACCAAATGACTGTGACACT
R
AAGTGGCTCATGCTGCTCTTTGCACTGCATTAAGTGAAACCAGACGCCTCCAGTTAAACTCCAGTGAGCTAAAAAGTATAGTGATAAATATATGAAATGA
Celera SNP ID:            hCV30247
SNP Position Genomic:     440112
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48970):
CTTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCTTTTCACA
C
ATCTTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGCCAGCTAA
Celera SNP ID:            hCV26380267
SNP Position Genomic:     291266
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48971):
CCAGATACAGAAAATGAGTGAGCAATGCCTTTCCCAGCTAAAAATTCTTCCAGCTCACCCATGGTGTACTAGGGAAGATGTTCTCCTATGTCCTGAATGA
S
CAGCAGCAGAGGATTCAGGGCACCCAATGCAAAATTGTCACCAAATGACTGTGACACTAAAGTGGCTCATGCTGCTCTTTGCACTGCATTAAGTGAAACC
Celera SNP ID:            hCV30248
SNP Position Genomic:     440053
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48972):
CCTTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCTTTTCAC
A
CATCTTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGCCAGCTA
Celera SNP ID:            hCV26380268
SNP Position Genomic:     291265
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48973):
CCCGGAATACAATGGGATGAGTAACTGGCAGGTCCAGATACAGAAAATGAGTGAGCAATGCCTTTCCCAGCTAAAAATTCTTCCAGCTCACCCATGGTGT
R
CTAGGGAAGATGTTCTCCTATGTCCTGAATGACCAGCAGCAGAGGATTCAGGGCACCCAATGCAAAATTGTCACCAAATGACTGTGACACTAAAGTGGCT
Celera SNP ID:            hCV30249
SNP Position Genomic:     440020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48974):
CCCTTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCTTTTCA
C
ACATCTTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGCCAGCT
Celera SNP ID:            hCV26380269
SNP Position Genomic:     291264
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48975):
TATGTAACAAACCTGCACATCCTGCTCATGTACCCCGGAACTTCAATTAAAAAAAAAAAGAAGAAAAAAAAAAAGATTGTATCCTCTACTAAAGGAAGAT
R
GGAAAATGCTGTTTGATTTAATCTGCCATCTCACTAGGTGAGCATCACATTAGTCATTGCTGCTCCTGTCACCTTCTGGTAATGATCATGCTTCATCTAT
Celera SNP ID:            hCV16101609
SNP Position Genomic:     1164080
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48976):
CTAAGGTATGGTAGTGCCAAGAGTGGAGATACTCCTTTATCAGGGCCTCTGGGGTCATGGTCCTGGGCTGTGACCTCAGCACGACATCAGCACAACCAAA
R
CAAACCACAGGCTGGTGTTTAGGTTCTTGTCAAGACCTCATGCATCATTAAACAGAGGGCAACTGCAGAGCTCTCCATTCTGTTTTAAGAAAATAGAAAT
Celera SNP ID:            hCV7624710
SNP Position Genomic:     316037
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;(A,-|G,-)   Caucasian(G,21|A,63)   total(G,21|A,63)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48977):
CTTTTTTGACATTTCTGGATATGATCACTAGCTGCAATCTTGCATTTGGTGCTTTTTGTGATTCCCAGCTCTCCCTCCACATGCTCTGAGAAAAGTGATA
Y
CCCCAGAGCTGTATCCAAAGAAGAAATGTAAATCCAGAGGCTATAAACTAATAGGATCTGAGTTTCCGTGGTTGACTGTATGAAAGTAGATTTGGCTTCT
Celera SNP ID:            hCV26216930
SNP Position Genomic:     573823
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48978):
GTTTGTGCTCCCCAGAATTCATATTTTGAAACCTAGCTTCCAATGTGATGGTGTCTGGAGGTAGGGCTTTCATGAGGTGGTAAAATCATTAGGACTTTAC
W
CTCAGGATATTATGAGATTAGTGTCTTTATAAAAGAGACCCCAGTGAACTCGCTCGTCCTTTTCTACTACATGAGGACACAATGAAAAGACAGCCATTGC
Celera SNP ID:            hCV7624711
SNP Position Genomic:     308325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48979):
TTTCCGTGGTTGACTGTATGAAAGTAGATTTGGCTTCTCTGTGTTGCTGACTTTAACAGGGAGCTTAAAATGTGAGATGGAGCAGGTGTTTGCGTGCTGT
R
TCACCAAGCCGTTCCCATGGCTGTGAATTCCGGGAAGTTGAGGGACTATACAGACACTTTATCTTGTGGTGACCTGATGCATGCACCAGGCCACTGTTGC
Celera SNP ID:            hCV26216931
SNP Position Genomic:     573986
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48980):
ATGAAAACCACATCTCATAGTTATCCCCACTGAGGAATGAGGGACCTGGGGTATTTATCTACCAACTCCCCTTCTATTATTGGTTGAGTCCCTCTTCTGA
Y
GAGTCACAGGTATTCCCAGTAAGCAGCCTCTGTAGGGCACAGGTGAGTGATGATGGGATTCACCGCTGACAGCTCTGCTGTAGATTTCCCCGGGCAGGTG
Celera SNP ID:            hCV27521371
SNP Position Genomic:     97334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48981):
CTACCTAAGAGCAGCCCATTGCTAGCTCTCGCACCCTCTCTGCCCTTGACCTCAATAATATACCATATCTTGATTCACTGGCTCCAGGTCTCCTACCACC
R
AGGACTTGCCTTACTTTTTTTTTGTTGTTTTCTCCATGGAGTCCATCTGTTGGAACATTCTGTCTACAAACTCCTTTTGTTAGGTAATAATGAGTTTTCC
Celera SNP ID:            hCV7624712
SNP Position Genomic:     304872
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(A,32|A,42|G,42|G,52)   African-American(A,13|A,23|G,59|G,71)   Asians(A,4|G,70|G,84)   total(G,378|A,114)    
SNP Type:                 INTRON


Context             (SEQ ID NO:48982):
CTGTGAATTCCGGGAAGTTGAGGGACTATACAGACACTTTATCTTGTGGTGACCTGATGCATGCACCAGGCCACTGTTGCCCAACAACTGCCCCCTAAGT
K
TGGGTGGAACGGCCATTGCAATCGACTCGGGGGGAACAGTGCATCTAAAAGATGAAGGTCTGATTTTCTTTGCAGAGTTTAAATGGTGCATGTGTCTTTA
Celera SNP ID:            hCV26216932
SNP Position Genomic:     574107
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,7)   total(G,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48983):
GGGGCTTTGTCCGGATGAGTGGATTTTTTGTGTCCCTTACACCATGTGAATTCCCAGCATCATGGTTTATGCTAATCCTCTTTCCAAAATAGTTTCCTGG
K
GACCTTCTCCCTGTGCCAACCCCGGAATACAATGGGATGAGTAACTGGCAGGTCCAGATACAGAAAATGAGTGAGCAATGCCTTTCCCAGCTAAAAATTC
Celera SNP ID:            hCV30250
SNP Position Genomic:     439899
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48984):
ACACTTTATCTTGTGGTGACCTGATGCATGCACCAGGCCACTGTTGCCCAACAACTGCCCCCTAAGTTTGGGTGGAACGGCCATTGCAATCGACTCGGGG
S
GAACAGTGCATCTAAAAGATGAAGGTCTGATTTTCTTTGCAGAGTTTAAATGGTGCATGTGTCTTTACCCCAAAAACCACAGAAACAATTTCTCTTAAAG
Celera SNP ID:            hCV26216933
SNP Position Genomic:     574140
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48985):
CCCCTTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCTTTTC
A
CACATCTTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGCCAGC
Celera SNP ID:            hCV26380270
SNP Position Genomic:     291263
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48986):
GGAGGAGAGTTGGACCTAGGGCCCAGGTTTCCAGGATCCTGGTCTAGTGTAATGTCAGTTTCTAATTATGTGGTCCACACACATGAATATTTAAATCAGC
R
TCTCCTGGAGATAACTCAAGAGGTGACTCTAATGGTAGACAATTGAGGCTGTACATCAGGGTTGCAAAGGGGCTTTGTCCGGATGAGTGGATTTTTTGTG
Celera SNP ID:            hCV30251
SNP Position Genomic:     439730
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48987):
TGTTGAAGACAAGCAGAGATTAGCAGTTACGTCCTCATTGTCTAACTTCTGAAAGCCCAGCCACTTTCCCTCCCTCTCTTTCCTGTCTTAGTCCCTTTAA
T
TTTTTTTTCCATCCAGTATGCTTAGCAAGCATCTACTCTGTGCTGGCGCTATTCTAAGCTCTGAATGTGCAACACTGGACCTGGCAGGTGCTGCTTGTTC
Celera SNP ID:            hCV26216934
SNP Position Genomic:     731922
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48988):
CTCCCCTTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCTTT
T
CACACATCTTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGCCA
Celera SNP ID:            hCV26380271
SNP Position Genomic:     291261
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48989):
TAATGACTCTCACTCCTACACTCCTGCAGAGGGCCTGGCACATAGTGGGTGCTTAATACAAGTTCCTTGGCACAAAGAATATAGGAATAAATACGGGGAC
Y
AAGGTATTGCGCTCTCCATTTTACAAAGGAGAAATCTAGCCTTGGTCTCTCTGATACCACAGTCTTTCCCAAAGTTGCACAGCACAGTGGAGGAGAGTTG
Celera SNP ID:            hCV30252
SNP Position Genomic:     439541
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48990):
GATGCTGAGGTGGGAGAATGGCATGAACCCGGGAGGCGGAGTGTACAGTGAACCGAGATCGTGACACTGCACTCCAGCCTGGGCGATAGAGCGAGACTCC
R
TCTCAAAAAAATAAATAAATAAATAAAGTATAAAATCATGGCTTTGGCAACAATGTGGATGCCATTATCTTTGGTGAAATAACTCAGAAAGTCAAATACT
Celera SNP ID:            hCV26216935
SNP Position Genomic:     734248
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48991):
TCTCCCCTTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCTT
T
TCACACATCTTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGCC
Celera SNP ID:            hCV26380272
SNP Position Genomic:     291260
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48992):
CTGAGGGCTAGAGAGGTTTAGTAATGTGTTCTCTGACACATAGATTAAAAAGTGGCTGAGCAAGAACTTGAATCGCAAGCCCTGCATGCCAGTTGCGAGC
Y
CCAAACCCTACCTCCTGGGGAGAAGACACACATTGTATTTCTCTTCTCTTCATGGGGGTTACAGACTCCGTTATTTCAGAGCAGAACCTAGGTTCTCTAT
Celera SNP ID:            hCV26216936
SNP Position Genomic:     574700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48993):
TACCTTAAATGTAAGAGAGCATTTTCTTACACAGATGAGTGAGTTTATTTATTTTCATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
R
TGTGTGTGTAGATGAGAAAGAGAAAGAGAAAACCACCAACCTTCCTTAGTCATTTTATAGTAGCCCAGCTTGCCAGGTAACTCCACGCAGCCCATCCTTA
Celera SNP ID:            hCV26216937
SNP Position Genomic:     737619
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48994):
TTCTCCCCTTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTGCT
T
TTCACACATCTTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGAGC
Celera SNP ID:            hCV26380273
SNP Position Genomic:     291259
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48995):
GTCCCTAGTAAGTTGCCTGTCCCAAAGCAGACACTTAACTAATGTCAAGTCTCCCTAAACGTTGCCCTCATCCCCACAATACGAGGAGGGAAGAGTCCGA
Y
GTTTTCATTAGAAAAGCTGCCACCCACACACAGGATGCTTTTCTCTACTTCTGAGTGTTTATAGTTTCAGTGATTCTGTGCCTTACAATTTTCAAGGACA
Celera SNP ID:            hCV26216938
SNP Position Genomic:     575290
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:48996):
TCTTCTCCCCTTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTTG
C
TTTTCACACATCTTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTGA
Celera SNP ID:            hCV26380274
SNP Position Genomic:     291257
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48997):
AGGTCTGCTACAGCACAAAGGGGACCCTCAATGAATAAGCATGTCAACATCAATCACTTTCCTCAAAGTTTAACTCAGCTATGATAGATCATGGCATATC
Y
GCAAGCCAAGCTACTCATCCAAAATATGGAGATCTTGTAAGTTGGAGATTGTGATGATAATAGTACCTGTCCCTTAGTATTGTTGTGAGGATTAAATATA
Celera SNP ID:            hCV26216939
SNP Position Genomic:     558766
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:48998):
CTCTTCTCCCCTTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATATGTT
G
CTTTTCACACATCTTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAACCTG
Celera SNP ID:            hCV26380275
SNP Position Genomic:     291256
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:48999):
ATCCTCTTCTCCCCTTAATCTCCAGCCCACTCCTCCTCCCTCTTCTTGTCTGTGTCCTTCCCCTGAGACATGTTCAAATGTTGTTTCTGCATGTTAATAT
G
TTGCTTTTCACACATCTTATTTTCTTAACTATTTAGTGAATTCATCATGGCGGAGGGAGTGAGCACGAATGGACTCTGTCATACTTCACAGAAATTAAAC
Celera SNP ID:            hCV26380276
SNP Position Genomic:     291253
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49000):
TGATGGGATGATTTGTGCAGCAAATCACCATGGCACATGTTTACCTATGTAACAAACCTGCACATCCTGCTCATGTACCCCGGAACTTCAATTAAAAAAA
W
AAAGAAGAAAAAAAAAAAGATTGTATCCTCTACTAAAGGAAGATGGGAAAATGCTGTTTGATTTAATCTGCCATCTCACTAGGTGAGCATCACATTAGTC
Celera SNP ID:            hCV16101610
SNP Position Genomic:     1164035
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|A,6)      total(A,6|T,1) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49001):
GATATATCATGTCCCAGCCTGTCTTCTCCTTCAGTCCTCTGTAAGATAGATGTTCCAATAATGCCAGCTGATTCAAAATTGAAATATTGTTCAAAATATG
Y
TTAGATTGATTTTTTTAAAAAATTGTTATTCAGCCCCAGAGTGAAATGACTACTGAACTACTGAATTTATAGCCCCCAAACTGAGGGTGGGAGGGGCTCT
Celera SNP ID:            hCV16101611
SNP Position Genomic:     1145641
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49002):
TTCCCTGTGACGTGGGAATCTTTTATCCACAAGGTTGTCATGCATTTGGAATAAGAGAAATGAATTACCAACATGAGCTGCTGGGACACCATGGATCCGT
W
CGAGGAGTATCAGTAGCTGCAGTAGCTCCTTCTAGTGCTGTGCCAGGCACAGAACTCATACCATGTCATCCTATAATCTACCCCAATGGTAGTTAATATA
Celera SNP ID:            hCV7623776
SNP Position Genomic:     813638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49003):
AAAAAGGCTTAATTGGGTCACAGTTCTGCAGGCTGTACAGGAAACACAATGCTGGCATCTTCTGGGGAGGCCTCAGGAAGCTTCCAATCATGCACGAAGA
R
AAAGGAGGAATGAGGTATCTCACATGGTGAGAGCAGGAGCAAAAGAGAGCAAGAGGGGAAGTGCCACACACTTTCAAACAACCAGGTCTCATAAGAACTC
Celera SNP ID:            hCV7623777
SNP Position Genomic:     813003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49004):
TTTCATTATGTTACATTCTTTGGACTTGTCCTCTTATCTATGTACCTTGTAACTTCCATTTAGCCCTCTTTTCTCTTTCAACTTCCTTATTGTAGATACT
Y
CTTAATGTTACTAGCATTTAAGTTGTTTTTTTCCCCCCTCCTTTGTCAGTCCCAAAGCTCCTATGGCTCAACTGTTGGTGCACATAACCTTAGGGAGGTG
Celera SNP ID:            hCV26017658
SNP Position Genomic:     377681
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49005):
TTATCTATGTACCTTGTAACTTCCATTTAGCCCTCTTTTCTCTTTCAACTTCCTTATTGTAGATACTCCTTAATGTTACTAGCATTTAAGTTGTTTTTTT
Y
CCCCCTCCTTTGTCAGTCCCAAAGCTCCTATGGCTCAACTGTTGGTGCACATAACCTTAGGGAGGTGATTTGAAGAAATTTTACCGAAATGTTGTATGAC
Celera SNP ID:            hCV26017659
SNP Position Genomic:     377714
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49006):
GCTTTTAAATATGCTATTATCTTAGGGAATCTCTGAGAGTGTGGTAAAGTAAGCAGCATTTCTAGCACATAGTTAACCGTGGGTCTCTTTTTATTAAGGC
R
AGATCTCTTGGGACTGGTGTTTCTTGAATAGACTTGCCAGACAAAATACAAGACCCCATTATGAAATTTCAGATAAACAATGACTAGTGTTTTAGAATAA
Celera SNP ID:            hCV36148
SNP Position Genomic:     553616
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49007):
GGTTCCTATCAAACTCTGCTTCCTGTCTCTTATGACTTAGAACATGCCATCCCAGACCCAGGGAACAGAACAGGCATATCCCTGGTTATTTCAAAGCCAG
Y
ATCACACCAGCATGTAGAGATATGACCAGACAATAACAATCCTCCTCCAGTTATCACTCGAGGGAAAGGAGAGGGACTTATGGGGAACAGATGCAGATAA
Celera SNP ID:            hCV36149
SNP Position Genomic:     554113
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49008):
TCACCATTCATGAGTACCTAGGTTGATTCCATGTCTTTGCTATTTGAATAGTGCTGCAACAAACATATGAGTGCATGTGTCTTTTTGGTAGAACAATTTA
K
TTTATTTTGGATATATACCCAGGAATGAGATTGCTTGTTTTAAGTGCTTTGAGAAATTGCCAAACTGCTTTCCACAGTGCCTGAAGTAATTTACATTCCC
Celera SNP ID:            hCV26216940
SNP Position Genomic:     742312
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,11)      total(G,1|T,11) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49009):
GAAGTATGCCTGTAATAATTTCTGTCACATGGGTGTGTCCATACTGCTCAGTATCTGGCACAAGGTGGGAATTTGATGAACATTTGTTCCATGAGTGAAG
Y
GAGTTTAAGGACTGGTGTGCATGGTATGCTCAGAACTACATTTGGTTTATAGTAAGGGTTCAGTACATAAGCATATTTACTGCTGTTATTGTTCTTAAGA
Celera SNP ID:            hCV7624722
SNP Position Genomic:     302345
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49010):
GCTATGATAGATCATGGCATATCCGCAAGCCAAGCTACTCATCCAAAATATGGAGATCTTGTAAGTTGGAGATTGTGATGATAATAGTACCTGTCCCTTA
G
TATTGTTGTGAGGATTAAATATAAGAAGAGCACTTAATATTAGTGCCTAGTGCAGGGTGAGTCTCCAGTGAATGGGGACCATTACTCTTGCCTCCAACAT
Celera SNP ID:            hCV26216941
SNP Position Genomic:     558843
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49011):
TTTTAGAAAGTATATACCTTAAAGAACATTTTATTGCAAAAAAAATGTTGACATAGAGACTCAAAGAACACATGTTTTAGGAAAAATGGCGCCAATAGAC
Y
TGCTCAATGCAGGGTTGCCACGAAGCTGCAATTTGTAAAAACTGCAATATCTGTGAAATGCAATAAAGGGAAGCATAATAAAAGGAAGTATGCCTGTAAT
Celera SNP ID:            hCV7624723
SNP Position Genomic:     302160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49012):
TGCGGTGGCGGGCGGCTATAGTCGCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCAAGGCTGCGCC
R
CTGCACTCCAGCCTGGGTAACACAGCGAGACTCCATTTCAAAAAAAAAAAAAAAAACTTCCATATTTTCAGTTCTATCTTCTTTTTATTCTTCCTTTACC
Celera SNP ID:            hCV26216942
SNP Position Genomic:     751711
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,17)   total(G,1|A,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49013):
TAGTGCTGCAGTGAAAAAATGCTCAACATCACTAATCATTAGAGAAATGCAAATAAAATCCACAATAAGATACCATCTCACACCAGTCAGAATGGCTATT
R
CTAAAAAGTCAAAACGAAACAGGTGCTGGCAAGGTTGCAGAAAAAAAGGGAACATTTTTACACTGCTAGTGGGAATGTAAGTTAGTTCAGACGCTGTGGA
Celera SNP ID:            hCV26216943
SNP Position Genomic:     752378
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49014):
TCAACATCACTAATCATTAGAGAAATGCAAATAAAATCCACAATAAGATACCATCTCACACCAGTCAGAATGGCTATTACTAAAAAGTCAAAACGAAACA
S
GTGCTGGCAAGGTTGCAGAAAAAAAGGGAACATTTTTACACTGCTAGTGGGAATGTAAGTTAGTTCAGACGCTGTGGAAAGCAGTTTGGTGATTTCTCAG
Celera SNP ID:            hCV26216944
SNP Position Genomic:     752400
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49015):
GCTTTCTAAACCGATTCTAAAACCACCAGAAAGTTATTCTTTCAGCTGAATATAATCAACCCTACATTTTAAGTTTATTTTCTATTCTGTCCTCAAAGAA
R
GTAGTATCCAGAAAGCATCCGTTATTCCCCAAACCTTTCACAGGCCTAAACATAGCTATTCATTCAGTTCTGGATCCTCCCTCTTCCAGCCAACAAACCC
Celera SNP ID:            hCV11441222
SNP Position Genomic:     1057098
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49016):
CTCACACCAGTCAGAATGGCTATTACTAAAAAGTCAAAACGAAACAGGTGCTGGCAAGGTTGCAGAAAAAAAGGGAACATTTTTACACTGCTAGTGGGAA
W
GTAAGTTAGTTCAGACGCTGTGGAAAGCAGTTTGGTGATTTCTCAGTGAACTTAAAACTACCATTCAACCTAGCAGTCTCATTGTTAGATATATACCCAA
Celera SNP ID:            hCV26216945
SNP Position Genomic:     752454
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49017):
TGCTGCTAGGTCCTTTCAGCAGACAGAGCAATGATACAGACACACACATATACATACACATATACATCCACACAAATATACGTACATATATATGGGTGTA
Y
ACATATATACACATGGGTACATCTATATGTACTCATTTATACATGCTTGCACATATGTCTACAACTACTGTATCTCTCTGCATTGTTCATACATTAAATT
Celera SNP ID:            hCV26216946
SNP Position Genomic:     765364
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,6)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49018):
ATAACAACCAACGTTTGACTGCAAAAAATGTGGTAGATTATTTTCATTCATATGAATATGCCTGCCCTTTTCTCTGGTGGAGTCTGGCCCGGTAAGTCTG
Y
GGGACCTGCCTCTACCAATGAGGGGTAGAGCTTGGTGACTTTTAACAATGATCTCCTCATTAGATGAGGCCATCAGTTACAGCGGAAATGATCATTATTG
Celera SNP ID:            hCV2810061
SNP Position Genomic:     199984
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49019):
CTAGAAGGAGGTGGGCCTGAGCCGCCCCTGAAGAATGTTGGGAATCTGGGTCAGGCAAGAGGCTGGAGGAGAGAGGTGAAGAGCTGGAAGGAAGTTGGGA
G
GGGAGAGGCCCAGGGGAGGGCATAGATGGAGGGTGATGGGGTGTGGGTGCCCAGGCCTGGGAATTCAGACCTGCCAATAGCCCTTTCAAGGGCCAGAGAC
Celera SNP ID:            hCV26216947
SNP Position Genomic:     774313
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,10)   total(G,10|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49020):
CTACAAACAAATATCCTTTTCATGAACCATTTAATGCCACATTTGCCACAATTTTATGCTATTTCTTGGCAATTTTGCTGTCAAAATGGCCCCAAGTGGA
S
TGCAGAGTGCTCTCTAGTGTCTCTAAGTGCAAGAAGGCTGTGATGTGTCTGACTGAGAAAATGCATGTGTTAGATAAGCTTTGTTCCAGCATGAGTTACA
Celera SNP ID:            hCV29090600
SNP Position Genomic:     44274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49021):
AAAACATAAACAACTATCCTGCCTTTGTTTTCAGAATTCCTTGTAGAAATAATTAACTAGTGGATGAAGAGAGTTTCTCTTTCTAGGTAATAAGCAACGA
M
AAAATGGCAGAATTAGAATATAATGAATTTGCAGTTCTTACTAAATTAATATATCTAGGCAGTAACCATCAATAAAAAGAAAGACCATATGACATTTGTA
Celera SNP ID:            hCV2810062
SNP Position Genomic:     203460
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49022):
TGAGGCAGGAGAATCACTGGAACCTAGGAGGCGGAGGTTGCAGTGAGCCAAGACTGTGCCACTGCACTCTAGCCTGGGAGACAGAGTGAGACTCTGTCTC
A
AAAAAAAAAAAAGTCAAGGAAGATCAAATACTCAAGGCTCCTAGTGATCATCAATTAGACATCCGAGTTCTTCTGGGAGGTCCTGTTTGCCAGTGGTCAT
Celera SNP ID:            hCV26216948
SNP Position Genomic:     776677
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49023):
GCTGGTTTGGAGTAAATCCATCCCCACCACTATCAGGTCTTGCCCAGGCATACCCTGCTTTTCCTGAATGTCCTGAATGTTGTTGTAGGACAACAAATGC
R
CTTTATAATTATTCATAGGACCTCTCACTACTAATCTTTGAGTCGATAACAGCTTCTGCTATAGAAGGGGGCAGATCACTGGGCTTAAATGTCAAATAGC
Celera SNP ID:            hCV29090601
SNP Position Genomic:     41690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49024):
TGCAGTTCTTACTAAATTAATATATCTAGGCAGTAACCATCAATAAAAAGAAAGACCATATGACATTTGTATGTCCTGAAGTAAGTTCACAACGCCATCT
R
GTCTTGAGCCAAAAATACTGCACCTGAATCTGATCCAGCCTCCAGGATGTATCTATTTATAGGAAACACAGTGGACAGGCGAACATGTTAAATGACACCA
Celera SNP ID:            hCV2810063
SNP Position Genomic:     203590
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49025):
GATTTGTTTAAGTACTCATTGCTAGGCGTACTACCCTGGTTTCTAACTCAGTTAGGTATATTAATTTCCTAGGGCTGCCATAACAAATCACTGTAATGTT
D
ATGTTTAAAGCAACAGAAACTTATTCTCTAGCTTCTGGAAGCCAGAAGCCAAAATCAAGGTGTTGCCAAGGCATGCTCCCTTTAAAGGCTCCAGGGGAGG
Celera SNP ID:            hCV26216949
SNP Position Genomic:     779566
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|T,1|-,8)   total(G,1|A,1|-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49026):
TGTCACAGGCGGCTAGTGGTTCTCATGTGCAGATGTAGGACATCCCCGCCATCACAGAGGGATTTGCTGGACACCACTGAGTCAAATAAATGGTAGTATG
Y
CCATAGAATGGAGTATTCTCCATATTCTCAATGAAGTAAATGCAGATATTCTGGCATAGAAAGGTCACCCTTGTGTATTGCCAGGTAAACAAGTTACAAA
Celera SNP ID:            hCV29090602
SNP Position Genomic:     41141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49027):
GCCATTTAGAAATTCTCATTAGTATTTGTTCAGTTATGATAATGCATGGTGCTTCTGTTAAAAAAATACTTTTAATCTTTTACAGATACCTTCTAAATAT
Y
TATAGATGAAATCATATGATATCTAGAATTTTCTTTAAGACAATCTGTGGAAGGGGTGAGTGGATGTGTGCTCAGGTGAGCTAATGGTAGCCATGAGTTT
Celera SNP ID:            hCV2810064
SNP Position Genomic:     204010
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49028):
TAGTAGCCACTAGTTACATGTGACTGTTTACATTTCATTTAATCAAATTAAAGAAAATTGAAAATTCAGTGTCTTGATCACAGGAGAGGAATTTTAAGGG
Y
TCCTTTGTCACAGGCGGCTAGTGGTTCTCATGTGCAGATGTAGGACATCCCCGCCATCACAGAGGGATTTGCTGGACACCACTGAGTCAAATAAATGGTA
Celera SNP ID:            hCV29090603
SNP Position Genomic:     41035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49029):
CTGCCTGCTTTGTTCTAGCCATGCCGACAGCCAGCTGGATGGTGTCCACCCACAATGAGGGTGGGTCTTTCTCTCCCTGTCCACAGTAAAAGCTGTGTAA
S
TGGATAAGATTAATAAGGGATAATGTGAAGGGAGATGAGAACAAGGGCTACATCTAGAACCTAGGAGGAACACTCATATTCCAGTACTGGAGGAGAAAGT
Celera SNP ID:            hCV7623784
SNP Position Genomic:     802429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49030):
GTGAAGTACAGCCAAACCCTATTTATGCTTTTCCTAGGGATGGGGTGGAACAGATAGGAACGGGTAATTGACAGACATTAAGAAATAGACTTAAATATTG
Y
TTGTCCTGCTTTAGTACGCACGATATTAATGAGATGTTATTGTGAGTGCTGAGTAAAGAGGTTGCTGCCGGCTGGTTCTCATGCCAGGCAGCCAGCAGAC
Celera SNP ID:            hCV29090604
SNP Position Genomic:     40436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49031):
GCAAAGAGAGAGAGAGAGAGACAGAGAATATCATGGTGATGAGTGCTAGGACATTGTCAAGGCTCTTTTAAGTGTGACCACCAGGGGACAGCAGGAAAGA
Y
AGGAGAAGACCTAGAGTTCAACTTGGAGTACTGAAAGCCTTCCCTTTCCTTCTTTTCTCTCTGTGAAGGTTGTTTTCCTTCTTTGGGGAGTTGCAGGCCC
Celera SNP ID:            hCV7623785
SNP Position Genomic:     800150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49032):
ATTAGACGTAATTGGGTGAGAAATTACTTATAAACCTGTCATCATAACATAGCTATTGTTTTCTTTGTCCAATATATTGACATTTTATTCCACTGTGCAC
R
TAGAGTTCTGCATTTGGCTGTTTTTACTTAATACATCATAGCATCAAACAGTGGTAATGCCATTTCACAGTCTGTATTTAATTGGAAGTGTTTTAGTATA
Celera SNP ID:            hCV7623786
SNP Position Genomic:     794404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49033):
ACTGATTATAATTTAACATTCATTAAGTTTCTTTTATCAAAAAAAAAAAACTATTAAGTTCATTGAAGAAGTCATAAAAACAAACCAAACACCCACCACC
Y
TCTCCCCTCCTGGGGACATGGCAGTGGCCACTTCAAAGTGGGTCAGGTCTCCGTGAAGGAAAGGGGCTCTTGAGAGAGTGATGGTGGCCCAGGGGCCGGT
Celera SNP ID:            hCV29090605
SNP Position Genomic:     40037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49034):
CCGGCAATACAAGTAAAATATATGTGGATGTTAACAAAGATGTAAAGAGCCTTTTGAAGTATATAACTGATTATAATTTAACATTCATTAAGTTTCTTTT
W
TCAAAAAAAAAAAACTATTAAGTTCATTGAAGAAGTCATAAAAACAAACCAAACACCCACCACCTTCTCCCCTCCTGGGGACATGGCAGTGGCCACTTCA
Celera SNP ID:            hCV29090606
SNP Position Genomic:     39972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49035):
CAGGCAGGTCTTCATCATTTAACCTTCTACTTCTCTCTGACAGATTTGCTTCTGTCTATCCTCATCTTCATCCTAGATCTAAACCACCATTATCTCTTGC
Y
TGCAACCTTTTATTCCTAATTCTAGTCTTTAATATCTAATTTCTGCTCCAAATGGCAGCTGAAGGATTATTTTCAAGCTCAGATGTATCCTGCCACACCC
Celera SNP ID:            hCV29090607
SNP Position Genomic:     335355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49036):
GAGGCTTAAAACAGCAGCACTGGGAAAATGACATAAATTTTAAAAAGCAGAAAGTAATACTGCATTTATTCTGTGGTTTGGCTGAGGTTTTGGGTTTCAG
R
GGAAGCTGCTGAGAAAAGAGAGGGAGGGAAAATGTGACCCAGAAATCACGGGAACCAGGGAATCTCAACAAATTGAGTATCTTGGTTTGTGTAAGATTAG
Celera SNP ID:            hCV29090608
SNP Position Genomic:     39180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49037):
CACGTCCACAAGAACCCACCCACAGGCCAGGTACTGTGCGAGGCACTGGAATACAATGGGGGTAACATGGACTAGGAGACTCATGAAAACGTCATGACAA
M
CACCTGGGAAATTCTGAACGTTAAATAGTAGGGAAGGGTTTCTCCACCATGGCATGGTGGCCACTTTGGGCAGGAAGATTGTGGTGAGGCTATCCTGTGC
Celera SNP ID:            hCV29090609
SNP Position Genomic:     38761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49038):
CTTCCATTTAGCCCTCTTTTCTCTTTCAACTTCCTTATTGTAGATACTCCTTAATGTTACTAGCATTTAAGTTGTTTTTTTCCCCCCTCCTTTGTCAGTC
Y
CAAAGCTCCTATGGCTCAACTGTTGGTGCACATAACCTTAGGGAGGTGATTTGAAGAAATTTTACCGAAATGTTGTATGACAAACTCCCAATAACAGGAT
Celera SNP ID:            hCV26017660
SNP Position Genomic:     377733
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49039):
CTTTGTCAGTCCCAAAGCTCCTATGGCTCAACTGTTGGTGCACATAACCTTAGGGAGGTGATTTGAAGAAATTTTACCGAAATGTTGTATGACAAACTCC
V
AATAACAGGATTTAAGAGAATACCACTTGTTCTTACCCCTTCAGTTCTCTTAACAGGGAAGAAATATCATAGCCACATAACACATGTTTATATATATAGA
Celera SNP ID:            hCV26017661
SNP Position Genomic:     377822
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,2)      total(A,1|C,2) ;no_pop(A,-|C,-)   no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49040):
TTTACCGAAATGTTGTATGACAAACTCCCAATAACAGGATTTAAGAGAATACCACTTGTTCTTACCCCTTCAGTTCTCTTAACAGGGAAGAAATATCATA
R
CCACATAACACATGTTTATATATATAGATATGCCCTTACATCAAAATAAATTCTTGATGATACCAAGATACGTGTTCAAGGCAACCATAAAACACTGGAA
Celera SNP ID:            hCV26017662
SNP Position Genomic:     377894
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49041):
AGGGGAGTTGAGGGCTTATCAAGCTTAGGAAGCAATGTGTACTGAAAAGGATGAGGTCAGTTCGGGGTCTGTCAAATCAATTGAACATATCTTGAACCCT
R
AATTCTATCATCAATCTCACTTTACAATCCATCCCTTCCAATTAATGCTGCATATAATAACACCACTCAATGATGTTCATACATCCCATCTTCTTACTTG
Celera SNP ID:            hCV36150
SNP Position Genomic:     554389
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49042):
AATATATTTAACCTACTTAGAAACTCTGTATAGAAGATATCAGTGTTGTATTTCATAAATAGAGAAAGAGAATCTCAGAGTTGAGCACTCACAGTCATGG
Y
CAATTCATGGCAGAGTTGGTGACCAGCTCAAATTTTCTAGGTTGACATAATCCTGTCCTTTCTATGGCTTCAAAGCCATCCACGTTTGTCTCTTGATCCT
Celera SNP ID:            hCV26017663
SNP Position Genomic:     376511
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49043):
CATATGTATTAGTCTGTTTTCACACTTCTATAAAGACATACCTGAGATTAGGTAATATATAAAGAAAAAAGGTTTCCTTGACTCACATTTCTACATGGTT
K
GGGAGGCCTTAGGAAACTTAACAATCATGGCAGAATGTGAAGGAGAAACAAGGCACATCTTATCACAGTAAAGCAGGAGAGAGAGAGAAAAAGAGCCAAG
Celera SNP ID:            hCV36151
SNP Position Genomic:     554912
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49044):
GAAGTGCTGAGCAATGCGCAGGGATAGCCCCTTATAAAAGCGTGAGATCTCTTGAAAACTCATTCACTATCATGAGAACAGCATGAGGGTAACTGCCACC
R
TGATCCAATTACCTCTCACCAGGCCCCTCCAACAACACATGGGGATTATGGGAACTACAATTCAAGATGAGATTTGGGTGGGGACACGGCCAAACCTTAA
Celera SNP ID:            hCV28009192
SNP Position Genomic:     896445
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49045):
ATAAAGGAAAGAGGTTTAATTGACTCACAGTTCACCATGGCTGGGAAGGCCTCAGGAAACTTACAATCATAGCAGTGGCAGAAGGCAGCCATGATTGTTT
W
CCAGGCAGCAGGAAGGAGAGTGCCAAGGGAAGAGGGAGGAGTCCCTTATAAAACCATCAGATCTTGTGAGAACTCACTCACTACCATGAGAACAGCATGG
Celera SNP ID:            hCV11672202
SNP Position Genomic:     169757
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49046):
ACATCTGTTTTCTTAATCGTTCCCTTATAATGCCTGTCTTATAGTACTGCCAAGAATTAGAAGGGAAGGAGCATGCTGAGGCCTAGATAATTCTGATGGG
T
TTTTTTTTTTCTTTTTTGGAAAGGATTTAACAGATATTAGAGAAAACTTAGAGGGAGTCTTGGGACTCCTTGATGGCCACGAAAGGGATGACTTTTAAAG
Celera SNP ID:            hCV26216950
SNP Position Genomic:     781486
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,9)   total(-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49047):
CAGCCTGGCCAACGTGGTGAAACCCCGTCTGTGCTTAAAAAATACAAAAAATTGGCCAAATGCAGTGGCTCACACCTATAATCCCAGCACTTTGGGAAGC
Y
GAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGCCAAAGCCCGTCTCTACCAAAAATACAAAAATTGGTGTGGTGGTGT
Celera SNP ID:            hCV26216951
SNP Position Genomic:     782469
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49048):
AAATTGAAATCCAAGATAGTTGAGAAGATTATAAGTGTATCCTACTGATTTAAACGAGTTCACACCTATGAAACTAGATGAATTATTTCTCACAGAAGAC
M
CGGAGAAAATGGTGATTAGAATCTCTGCACCAGTTTCTGTGATTTTTTTGAGACATCCTGAAGATGAGAGGTGAGTAGACAGCAGATGGGCAGGGCCAGC
Celera SNP ID:            hCV7624733
SNP Position Genomic:     297359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49049):
ATCCCAGCACTTTGGGAAGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGCCAAAGCCCGTCTCTACCAAAAATA
C
AAAAATTGGTGTGGTGGTGTGTGCGCCTGTAATCCCAGCTACTTTGGGGGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTAAGC
Celera SNP ID:            hCV26216952
SNP Position Genomic:     782549
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49050):
ACAACAATTTACAGCACTCTTTTTAGTATATTCTGAAATAGTCTCCTCATGATTTCTTTCTCTTCTGTACTCCAAATGTAACACTAAATCACACACATGT
M
CACACACACACACACACACACACACACACAATCATGACCAGCTCAAGAATAAATATGTGGGGACTAAGCATCCAAAGCTCGACACCAACAATTTGCAGCT
Celera SNP ID:            hCV26216953
SNP Position Genomic:     579612
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4|-,9)   total(A,4|C,4|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49051):
CAGGAGAGTGGCGTGAACCTGGGAGGCAGAGCTTGCAGTGACCCGAGATGGCACAATTGCAGTCCACTCTGGGCGACAGAGCGAGACTCCGTCTCAAAAA
W
AATAATAATAATAATAATAATGTAAATGTAGAAACCTTTGGGGGAGTGAGCAGTCCCCAGTGGAAGTATAATTTCCAGGCTATCTCACACAAGCCTGCTT
Celera SNP ID:            hCV26216954
SNP Position Genomic:     784991
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,11)   total(A,1|-,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49052):
TCCTCAAAAACATTCGTTAGGTTGTGTTGATAACATAGAAATGTCTAAAGCAGTGAACAAAGTAGCCCATTATCTCAGGACCCAGATAACCAAGTTAACA
T
TTTTTTAGCAAAATAAAAGTAGAAGATGCAGATGATAAAAGTAAAAGCAGGTCAGTAACAGTACAGTAAGAAAAGTAGAAATCTCCTGTCATTTTCTGAA
Celera SNP ID:            hCV26216955
SNP Position Genomic:     786376
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,11)   total(-,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49053):
AAAGTTTCATAGACCAGAGACTTCCACAGTGAACACAAGATTAGATACCTTAGGCTAGAGCGATGGGTTTTAGAAAAAAGGTGGACACATGGAATTCATG
K
ATATGAAACAATACATTGTCCAGAAGTAAGGGTGGTCCATGGAGACTGGTTGGAGTGGGGTGGGAGAACCTTTTCTTCATCAGAGTCAAGTCATTCTGGG
Celera SNP ID:            hCV2810070
SNP Position Genomic:     208093
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,8)      total(G,6|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49054):
GAAGATGCAGATGATAAAAGTAAAAGCAGGTCAGTAACAGTACAGTAAGAAAAGTAGAAATCTCCTGTCATTTTCTGAAGTCCCAATCCCTCTAGCTCTC
A
AAAAAAAAAAAAATCTTAACAATTCTATGTGCATTCTTTCAGGAAAAAAGCAAGATAGAATATGGATATACTAGCTGTGTAAGTAGCTGTGTAAGTAGCT
Celera SNP ID:            hCV26216956
SNP Position Genomic:     786498
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,8)   total(A,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49055):
CCCAGGGACTCATAGGAAGAAAATGTCTTCATTCTTCACTTGGTTTAGATTGTTCTACGCAAAAACTCTTGTATGGACATAAGCCTTAACTTACTCCATT
Y
GGAGTTGAGCAGAGTCCTAATTCTTTGACTTGATCTTATACCATTCCCCACTCCTAAATTAGTTCCAATTAGTTCCAAGTTCATCCTTACCTCAGAGTCT
Celera SNP ID:            hCV2852600
SNP Position Genomic:     723107
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49056):
GCTGGACAGTTGGTTGTGCTTACTTTGTAAAAATTCATTGGGTTGTATGTTCTGATTTATGTGCTTATATGTGTCTACATTATGCTTCAATTAAAGGTTT
R
CTAAACAAATAAGCCTGTTCAGCAGAGACCAAAAAGCACGTAGTACAATTCTATGCTTACCCACAAGGGGCCTCAAAGTTTACAGGAGGAGGCAGACAGG
Celera SNP ID:            hCV425893
SNP Position Genomic:     408312
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49057):
ACATCATTATTTTTCTGGTTTTACTTTTAAATTCCCTATAGGACCATTGACATGAAATTCTGAGGGGGAATTTGGAACATTAATGACTGTTTAAGGCAAA
K
GAGTAAGTGTTCTTTCCAAGAGGAAATTGTCTTTATAATATTGGCATAAGGCTATTTTTAAAATTTATACTAATGAGACGATTCGAGGCAGATAACTGAA
Celera SNP ID:            hCV10075049
SNP Position Genomic:     200332
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,9)      total(G,4|T,9) ;(G,-|T,-)   Caucasian(C,28|A,56)   African-American(C,19|A,63)   total(A,119|C,47)no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49058):
TTCTTTTTATCCCCTCTCCTTCTGCCCCAGGGTTCTTCTCCGTGTGGATCACATTAAGGGAGCGTATAACCTTTCATACCGCCTGACTAGGATGATGGAT
R
TGGAAATACACACTTTGGGAGCCCTGTCTGCTTGCCTGTTAAGCCATTGACTGTTATATACTCTTGGGCTTGAAACACCTTCCAGGCTGGAGGGGCCAGT
Celera SNP ID:            hCV2810071
SNP Position Genomic:     208378
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49059):
ATCTCCCACCATCCTCAAAAGCACGCCTACACTCAAGTCTTTGTCTCAGGCTCAGCCTGGAGGAGCCCAAGTTAGAATGGAACCCCAGCTCTCTTTCTTT
C
CCCCCCCGCCTCTCTCTCTGTCTCTCTCCCCTTTCTCTTTTTCTCTCTCTCTCTTTCTTTCTTTCAGTGGAGTCTTGCTTCATCGCCCAGGCTGGAGTGC
Celera SNP ID:            hCV26216957
SNP Position Genomic:     787781
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,12)   total(C,12|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49060):
GCTAGGACCTATGTAGATGAGCTTAGATTCTCAGATATTTATTTGGCTTTAACAGTGTGCTAGGATCTATGTAGCTGTTGTTACCAAAAGATGTACACAA
R
AAAGTTCCTAGCAACAATATTTGGAGCCCCAAAGTGGAAATAGTCCAGATACCAGTTGAGAGTAGGATAGATAAAGAGACTCAATACAGCCACATAATGG
Celera SNP ID:            hCV425894
SNP Position Genomic:     407795
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49061):
TACTCAAACATGTATAATCCATATGCATGAACATAACTCCCCTATTGGGAATTTCTCATAAAGAATCCCCCCAAAATATAATACCACGTCCACAAGAACC
M
ACCCACAGGCCAGGTACTGTGCGAGGCACTGGAATACAATGGGGGTAACATGGACTAGGAGACTCATGAAAACGTCATGACAAACACCTGGGAAATTCTG
Celera SNP ID:            hCV29090610
SNP Position Genomic:     38677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49062):
GGGAAACCAACCAGCTATATATTTCCTGCAACATGAGTTAATGAAATTCCGTTCCTTCTTACACAGCTGTATTCGGTTTGTTTTACATTGTTTGGTATGT
R
AAAGGATTTGGCTTTGCGTTACAGAACTAATTGCTTACTAGATATTACATGGATATCAAAATACTTTATAAATATTAATTAATCTTCACCTAATTCCCTG
Celera SNP ID:            hCV2810072
SNP Position Genomic:     208721
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49063):
TGGTAGTCCCTGCTTCTAGAGCTAATGCCTCAACTGATGGGAAACATGCTTAGAACATAGTCACAAATAAATGGAAGCTGCTATTATTATTATTATTGTC
Y
TTATAATTTCTGCTGTTACTATTATTATCATTACTTTCATTCATAGACCTCAGCTAGATCCACTTTTCTTATAATGGCCATCTGAAATTGGCTTTAAGAA
Celera SNP ID:            hCV7624739
SNP Position Genomic:     242710
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49064):
TCTCCCACCATCCTCAAAAGCACGCCTACACTCAAGTCTTTGTCTCAGGCTCAGCCTGGAGGAGCCCAAGTTAGAATGGAACCCCAGCTCTCTTTCTTTC
C
CCCCCCGCCTCTCTCTCTGTCTCTCTCCCCTTTCTCTTTTTCTCTCTCTCTCTTTCTTTCTTTCAGTGGAGTCTTGCTTCATCGCCCAGGCTGGAGTGCA
Celera SNP ID:            hCV26216958
SNP Position Genomic:     787782
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,12)   total(C,12|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49065):
GGAACAAAAGTATGAGTCTTTCGTGGTTTCTGTTGAATTTTGCCATGCTTTTGAAAAGGATTATACTGGTTTACAATACCATCAGGTGGAATGTGACTCT
M
CTGATTTATAACAAGAATGTTTGTCTTTCATTTTTCTAATTTGGGCTCTTTTTTGACAATAGTATTGATAATAACTGTAGCAACAATAGCAGCAGTTAAT
Celera SNP ID:            hCV2852602
SNP Position Genomic:     724963
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49066):
CCCCAGTACCCCACATTGCCTGGGCTTAGCTTATCTCCATTCTAACTTCCTTCAATTCTCCCTTGCTGTCTGTGCCAATCTAACTGCTTACATCCAGTTC
K
GTAGATGCCGCAGGACTTTGCATATGTTATGGTTTTCTCTGCCTAAGTAATAGGTCCCCAATTATTTATAAGAGTAGTAAATTGATGTCTGTCTTCCACA
Celera SNP ID:            hCV425895
SNP Position Genomic:     406241
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,5)      total(G,4|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49067):
CGGAAGCACGGGACTCTGGTTGAGTCTAGGCACTGTCTGCATGTACTTGGCACATTCCTTAAAAATGGCAGCAAGCAGTCCATTCTCAAATGGAAATTGG
W
ACAAAAAATAACGTAAAACCATAAATAACAGAAAAGAATATATACTCAAACATGTATAATCCATATGCATGAACATAACTCCCCTATTGGGAATTTCTCA
Celera SNP ID:            hCV29090611
SNP Position Genomic:     38534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49068):
AAGACGATGTTTAGAGTAACCAACATTATTATTTGCTGAACTTTCTTCCTTTGCCAAGCTCTTGAGTAAACATTTCATAGATATATCTCATTTAATCCTA
M
AGCAGTCCTACAATAAAAATGTTATTGTTACTACTTTTTTTTCCCCCAGATGAGGGAGCAAAGTTTTTGAAAGCTGAATGGTGGCAGGGCTGGGATCCAT
Celera SNP ID:            hCV2810073
SNP Position Genomic:     209098
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49069):
TGAACTGGTGAAAAGGTCCCTGAGAGTTCGGGTCCCTGAGAGTTGCAAGCACAAATCCTGTTAACAGGTAATAAGATTATGAGCATAGCCCATGTAGAGC
R
CATGGTTTTATCAGCTGAAGTGAAGCACCAAGATGCCAAGTTGTTAATGGAATTCAGCATCTGTGTCTTTCATGGGTCTCTAAATAGACAAGGTTCAATG
Celera SNP ID:            hCV7623792
SNP Position Genomic:     791506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49070):
CCATCCTCAAAAGCACGCCTACACTCAAGTCTTTGTCTCAGGCTCAGCCTGGAGGAGCCCAAGTTAGAATGGAACCCCAGCTCTCTTTCTTTCCCCCCCC
K
CCTCTCTCTCTGTCTCTCTCCCCTTTCTCTTTTTCTCTCTCTCTCTTTCTTTCTTTCAGTGGAGTCTTGCTTCATCGCCCAGGCTGGAGTGCAATGGCAC
Celera SNP ID:            hCV26216959
SNP Position Genomic:     787789
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,12)   total(G,12|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49071):
CTAGAATATCTACTCCCCCAAGTCTGATAATGAGACATAGGTTCAAAGCTGTCCCCAAGGATGGGGGGCTTTAATTTCCAGGCACTTGCCGCCAGCTGTG
Y
GCAAGGGAAACCTGGGATCCATCAGCTCCAATATCCTGTCTTCTTGAGGCCTCGGCCTTCCAACAACATCAGGAGCTGGCTGTAGGTTGTGTTCGCTCTC
Celera SNP ID:            hCV2852603
SNP Position Genomic:     731486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49072):
AGGGTGAAGAAGGTGAGAAATGCCTTCTGCAGAGAGGGAGCACTATACACAAAGGGTGGGACAGTAGAGTAGGGAGATGCAAGAGTGGGTGAGGTGTGAG
S
TATGCAGTGAAGACAAAGGCAGAGGGGAGGCTGATGGACAGCCTAGTCATGGAGGACCTTGAGTGCTAAGTATTGTTTTGCAATGAAGATCCATAATTAT
Celera SNP ID:            hCV425896
SNP Position Genomic:     405957
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49073):
GAAGAAAACAGTGCACAGTTGCTGCTGGTTCCCAATAGTTGATTTGACTCCTTTAAAGATTTAGCACCTGAGTTAGAATCCGGATGGCAGAACTTCTCTA
Y
TGGAACCTAGTCCCACTATTCCTCTCTCCCTTCATTCAACACTGGGTTTAGAATGCTTGCCAGCAGCATTGTGGAAATTACCTCAAAGGTAGAAACACGT
Celera SNP ID:            hCV29090612
SNP Position Genomic:     38246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49074):
TTATAATTACCTCTTCTTTAAAAGCAGAATGAAATATTTTATGTATGAAGATGTTACTGTTGACCCTAAATGCATTAAGAGTCAAGGAGACATTTTTCAC
R
TATTGAAAATAAGATTTGATTGAGTGCTTGCAAGTGGCCTAGTGAAATCTCATTAAACCACTGTTTAATACTTTATAAATGGCAGAATATTAACCATTAA
Celera SNP ID:            hCV2810074
SNP Position Genomic:     211223
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49075):
TTCAAAGCTGTCCCCAAGGATGGGGGGCTTTAATTTCCAGGCACTTGCCGCCAGCTGTGTGCAAGGGAAACCTGGGATCCATCAGCTCCAATATCCTGTC
Y
TCTTGAGGCCTCGGCCTTCCAACAACATCAGGAGCTGGCTGTAGGTTGTGTTCGCTCTCCTGGCTTTTAGCCACCCCAAATGGCAGCCAGGACAGCTGGG
Celera SNP ID:            hCV2852604
SNP Position Genomic:     731527
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49076):
TCAATCCATGATTGGTCAAATTCACAGATGTGGAACCCACAGAAACTGAGGACTGACTGTATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTAGACACGTAGAATTTTGTGATCTAGAAGTGTTAAATATAAGAGGTAATTATGTGAGGTAAATAAAATGTGTGCGTTAAATATAACAGGAATACTACT
Celera SNP ID:            hCV26380296
SNP Position Genomic:     288309
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|-,4)   total(G,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49077):
AGAAGAAAACAGTGCACAGTTGCTGCTGGTTCCCAATAGTTGATTTGACTCCTTTAAAGATTTAGCACCTGAGTTAGAATCCGGATGGCAGAACTTCTCT
M
TTGGAACCTAGTCCCACTATTCCTCTCTCCCTTCATTCAACACTGGGTTTAGAATGCTTGCCAGCAGCATTGTGGAAATTACCTCAAAGGTAGAAACACG
Celera SNP ID:            hCV29090613
SNP Position Genomic:     38245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49078):
ATCCTGTCTTCTTGAGGCCTCGGCCTTCCAACAACATCAGGAGCTGGCTGTAGGTTGTGTTCGCTCTCCTGGCTTTTAGCCACCCCAAATGGCAGCCAGG
R
CAGCTGGGAGAATGGCAGCCCCCCACCCTGGACGGGTGGGGCAGCTTTGAGAAAGATAGGTGGTGAGAGGTCACAGAAGGAAAGAATTAGCTCCCAAACT
Celera SNP ID:            hCV2852605
SNP Position Genomic:     731619
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49079):
TTCAATCCATGATTGGTCAAATTCACAGATGTGGAACCCACAGAAACTGAGGACTGACTGTATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GTGTAGACACGTAGAATTTTGTGATCTAGAAGTGTTAAATATAAGAGGTAATTATGTGAGGTAAATAAAATGTGTGCGTTAAATATAACAGGAATACTAC
Celera SNP ID:            hCV26380297
SNP Position Genomic:     288308
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49080):
AATATAATATGATGCTTATATATTTATAGACTGTGCATTCTCATTGGGGCTATATTTCCCCCACAGGGGTGAAATAGGTTCGAGGGTGGGGGGACAAAAA
Y
TGCACTTACAAATGTAAAGTATAGATATACTTGTAGTACCTAAACAGATATAAGTATATCTGTGATATTAAAATTTTACAGGAATAGTGGCAATTAGAAA
Celera SNP ID:            hCV425898
SNP Position Genomic:     404942
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49081):
GAAGGTTCTCGCTCTAGGCCTTTCTGGATATGGGACCACGAGCTAGTCAGTCAATCTCTCTGAGACTCAGTCTCTTCTCCTGTAAAATATAATATGATGC
K
TATATATTTATAGACTGTGCATTCTCATTGGGGCTATATTTCCCCCACAGGGGTGAAATAGGTTCGAGGGTGGGGGGACAAAAACTGCACTTACAAATGT
Celera SNP ID:            hCV425899
SNP Position Genomic:     404857
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49082):
CATTTTAATATACTTACTTTTCTTCATACCTGTCTCAAGAGAGAAAGTAGCTCAGTGGTTAAGACTGGAGTCAGGCTGCCTGGGTATAAATTGCACCTCC
R
TTGCTTATTAGCTGTATGAACTTGGGCAAGATATTTAATCTCTCTGTGCCTCAGTTTTCACATCTGTAAAATTATGTCAAATAGTACTGATCTCCAAGGG
Celera SNP ID:            hCV29090614
SNP Position Genomic:     37589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49083):
CAGTTTCCTTGATCCCCAAGGAGGACTCATGGTTAAGATTTATTACGGTGAAAATATACAAAATGAAATCAGCAAAGGGCAAAGGCCTGTGAGCGAAGTC
Y
GGAGGAAATCAGTTACAAGATTTCCACAATCCCCTCCCAATGCAGTCACACAGGATGTGCTTAACTCCCCCAAGCAACATATGGTGACACCGTGTGTGAA
Celera SNP ID:            hCV2810077
SNP Position Genomic:     216614
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49084):
CCTTATAAAATTATTGAAATGGTTATGCTAAAAAAAATGTGCAAAGTCTTTAGAACAGTGCCCGGCACATGTTAAGTACTGTTTAGCTATCAGCCATAAT
Y
TTAAAAATAGTGTTTTTAAAATCAGTAATATTATTGACAACCTTTTCTGAATATTGTCCAAGTGCTTTACAGGGATTATTTCACTTATCATGGGAATGAT
Celera SNP ID:            hCV10070108
SNP Position Genomic:     798337
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,10)   total(C,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49085):
TCCTGAGAGCTCAGCTTTGCTTGGAAGTTGCTATTTTCCAAAACAGCTTGAGCTAAATAAAGATGGCTGGGATAGTTGATAGTTGATATTTGACACCTAG
S
TCAGCCGATGGTGTTCAGGTTGTTGCTATGGCCTGGTAGTAAAGTCCCTTTTCTGGTTACTTTTTACTTGTTGCAGTAACTGTGATGTGGCTTTTCAACC
Celera SNP ID:            hCV2852607
SNP Position Genomic:     732425
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,7)   total(G,5|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49086):
TTCCTCTACCTAGCATAATCAAATACTACTATGAAATATGCAAGAGTCTGTGTCATCACTGACATTCAGTCTTGGATTTATTTTTTTTAACTCTGTGTAC
Y
AGACACTGCCTCTTGGATGTCCCATAGTTCATTGAACTCTCCAAGTGCAAAGTTAAACTCAATCTCCCCACCAACCTCTAACCTCAACCCAGCCCCAGAC
Celera SNP ID:            hCV29090615
SNP Position Genomic:     335027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49087):
CCCTTTTCATTGCAGATGCTTGCGTGTTCCCATCACTGAGTTCTAATTTCTCTAATGGAAGTATCATTCTAAAGTTATCCTTTGTCCTTCTTTTATTCTT
R
TTCATGGGTATCTCCACTAGAAGGAGGATATATTTTTCTGGCAGAAGAACATGCCCGTCCTATTTATTGTGTTATCACTAGTGTCCACTATAGGGATGGA
Celera SNP ID:            hCV2810078
SNP Position Genomic:     217304
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49088):
AGTAGAAAAGTGAGGAAATAAGACAGGGGAGGGAAGGCAGCCAATAACGTAACCAGCCAGCTGCTTTCATGAGAGACTGGAGCATCGTCCCACCAGGAAA
Y
AATAAAAAATAGTGTAAAAACGCATAAGCTTCAGAGAAAGATATGGGAGCTGGGGAGTGGATATGCCAATCCCATTCTTGACTGATTGAAGGCTGCTGCT
Celera SNP ID:            hCV7623797
SNP Position Genomic:     790564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49089):
CGATTATTCACCCTGAATCTAAGGCAAGCTCTGCTCTAAAATGTCACACAAGAAAGAAGTGGAAAACCTCTTCTCCAGGAGGGGTTTGCAATGTAAATAA
R
GAGACAAAGAATGCCTTAGGTGTTTCCTCTACCTAGCATAATCAAATACTACTATGAAATATGCAAGAGTCTGTGTCATCACTGACATTCAGTCTTGGAT
Celera SNP ID:            hCV29090616
SNP Position Genomic:     334903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49090):
AACACCAGTAGAAAAGTGAGGAAATAAGACAGGGGAGGGAAGGCAGCCAATAACGTAACCAGCCAGCTGCTTTCATGAGAGACTGGAGCATCGTCCCACC
R
GGAAACAATAAAAAATAGTGTAAAAACGCATAAGCTTCAGAGAAAGATATGGGAGCTGGGGAGTGGATATGCCAATCCCATTCTTGACTGATTGAAGGCT
Celera SNP ID:            hCV7623798
SNP Position Genomic:     790558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49091):
CCAATTTCCTATCGATTTAAGTTGTTTTCACTTTTCTACACTTCCATCAATTCTGCAGAAGAGAGCTCATCTCTTCCCATGTTTGTGACAATTTCTATAG
R
ATATATTTACATGAGCTGGATTAATGGGATGGCGGATATGCCCTGTTATGTTTTGATCCCTATTCAGGTGATGCTTCTAATCAGAGGATTTTAGTCTGTA
Celera SNP ID:            hCV2852609
SNP Position Genomic:     733084
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49092):
GCAGTTCATTAAACATGCATTCGTTTTTGTTTTTATTTGGCACCTACTGTGAATCAGTCACTGTGTTAGGTGCTGTGAATACAGTGGGGGGACAAAAACA
K
ATACAATTGTGTTAGAGAAAAATAAACTTTGAAGGAAACTGCACTAGAAGATACAGCATTTAGTCATTGCTGGGATTCTCTTCATTGCAAGCAGCTACTG
Celera SNP ID:            hCV29090617
SNP Position Genomic:     334697
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49093):
AAAGATACCATAAAAATACAGTATAAAATATTTAAAATGGTATCCCTGTATAGGAAAGCTCGATTATAATCTAATGAGACAACTTTCCTATATGTGGCCC
R
TCATTGACTGATATATTGTTATCCAGCAATGACTGTACTTAAGTAACTTTAATAGAAGCATGAAGAATGTAGTAGTTGTCATTTGAAAAGGGCCTTGCTA
Celera SNP ID:            hCV7623799
SNP Position Genomic:     789998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49094):
TGCATGTCATGTTGAGAAACTTGGATTTCACCCTGGAGGCGCAGGAACTAGGGGGGATTTTTCAGCAGCAGTGACAGACGCTCTTAAATCTGGGTTTTCC
W
ATGATCAGCATGCTTGTGCCTGCACCGGGGCGCAGGATGGGAGACAGATGCCTTTTGCAGTAGTTCCGGAGAAGAAGACTGAAGACCACATTCAAGGCCC
Celera SNP ID:            hCV29090618
SNP Position Genomic:     32820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49095):
GGAAAACATTGAGCTGAATACTTGGGCTTTTGCACCTTTTTGTAGTGCCTTAGTGTATTTTACACAAAAAAATAAATAAAAGTATGCTCAGCCTCAGGTG
Y
GTTGGAAATACAGAGGAGAGACCAGCCCAACTTTGGAGGAGAACAGAGAGAGGGACCCAGGAAGGCCTTCTGGGGAATATATTTGACTTGGGCCCTGAAG
Celera SNP ID:            hCV29090619
SNP Position Genomic:     32410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49096):
CACCCAATAACACGGGTTTATGTAATGTACATGGGTAAATGTACATCTTCCAAGGGAGAAAGGGTGCTCTGTGTTTCCAGCATGATGGAACCCAGTTTCA
Y
GATGGATTGGCATATTCCATAGATGAAGAATAATTACTGGAAAGAATGCAGAGCCATTGGGGACTTTCTAAATAGAGGAATGATGAGATAAGATATTTGT
Celera SNP ID:            hCV27903930
SNP Position Genomic:     678243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49097):
TTCTAAACTTTTTTAATGAAAGGAATCATGCAACACTTGCCCTTCCATGAGTAGCTTCGTTCACTTAGCAAGATGTTTTCCAGGTTCCCCCATGTTGTAG
Y
TGATGTCAGAGCTTCATCCCATTTTATAGCTGAGTAATATTCCACTGCGTGAATATATCACGTTTTGTTCATTCATTCACTGATGGACAGTTGGGTTGTT
Celera SNP ID:            hCV27903931
SNP Position Genomic:     705921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49098):
AAGTTCTACTTGAACCAATTAAAATTTTTAGCCTGTGTCACCTCTTGAGGCAGAGGATATTCACTAGGACTTTACTCAAGCTGCTTACATAAAATTATTT
Y
GAATATCTGCATAGATTTCTTCCACATAATTAAAGTTACTTCAAAAGTTAAATGTTTAAGAATGCCCTGAAAGTCTAGTGTGATTGTGAGCGTGCATACA
Celera SNP ID:            hCV27903932
SNP Position Genomic:     714130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49099):
ACCTTGCAAGATTATCTGTTATAAATAAACAATATAGTATACTGACACAAAAATCTTTGTGGGCTTATTTCCATGGAATCTCTGCAGAATTTTGTTTTAA
K
CTTTGAACATCTCTGTGGTTCTTGAGACATACTTTCAGACTGCCTTCCAGGAAGATTGTATCAAGTTGAGATTCCACTACGGTGATCCTTGTGTTTGTGT
Celera SNP ID:            hCV27903933
SNP Position Genomic:     716551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49100):
CCTAATTTCTAGACATACTCAGCAGTCTGCTTTGAAAGCTCATCAGCTTCTAGAAGCAGCTCATCGTTAAGGAGATACCATCAGGGTAAACACATCAGTT
Y
AGTCTTTTTTGCAACATTGCTAATTCCACGTTGTAATCAAGGAGAAATAAATGGAAAACTCTTACTTAGTATTAGTTTATTTAGACCCATTTATTTCCAT
Celera SNP ID:            hCV11672213
SNP Position Genomic:     178547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49101):
GATCTCCTCATTAGATGAGGCCATCAGTTACAGCGGAAATGATCATTATTGGAAAGCTGGAGACCAGCTGCTGTCAGAGAGGGATGGGCTCCTGTGGAAG
S
TTGCAAACTGATGACTACTTAATCCTTGAACTTCAGCAGCAACAACATTAGCTGAAGGTCTGTAATGCATTCACAGTTCTCATCTGACATTTTCCCCACA
Celera SNP ID:            hCV10075050
SNP Position Genomic:     200134
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,9)      total(G,2|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49102):
CTTGGCTCTTGAGACAGGAATCTTGCCGATGCCCCCGGCTGAATAAACCCCTTCCTTCTTTAACTCGGTGTCTGAGGACTTTTGTCTGCGGCTTGTCCTG
Y
TACAGCCCTACAGCTATATTCTATTACTAGATATTTGGGGCCAGGCATGGTAGCTCACACCTGTAATCTCAGCACTTTGGGTGCCTGAGGTGGGTGGATC
Celera SNP ID:            hCV27903934
SNP Position Genomic:     717342
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49103):
AACAATGATCTCCTCATTAGATGAGGCCATCAGTTACAGCGGAAATGATCATTATTGGAAAGCTGGAGACCAGCTGCTGTCAGAGAGGGATGGGCTCCTG
Y
GGAAGCTTGCAAACTGATGACTACTTAATCCTTGAACTTCAGCAGCAACAACATTAGCTGAAGGTCTGTAATGCATTCACAGTTCTCATCTGACATTTTC
Celera SNP ID:            hCV10075051
SNP Position Genomic:     200128
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49104):
CATCCTCAAAAGCACGCCTACACTCAAGTCTTTGTCTCAGGCTCAGCCTGGAGGAGCCCAAGTTAGAATGGAACCCCAGCTCTCTTTCTTTCCCCCCCCG
C
CTCTCTCTCTGTCTCTCTCCCCTTTCTCTTTTTCTCTCTCTCTCTTTCTTTCTTTCAGTGGAGTCTTGCTTCATCGCCCAGGCTGGAGTGCAATGGCACA
Celera SNP ID:            hCV26216960
SNP Position Genomic:     787790
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,12)   total(C,12|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49105):
TCTCAGGCTCAGCCTGGAGGAGCCCAAGTTAGAATGGAACCCCAGCTCTCTTTCTTTCCCCCCCCGCCTCTCTCTCTGTCTCTCTCCCCTTTCTCTTTTT
Y
TCTCTCTCTCTTTCTTTCTTTCAGTGGAGTCTTGCTTCATCGCCCAGGCTGGAGTGCAATGGCACAATCTTGTCTCACTGCAACCTCTGCCTCCTGGGTT
Celera SNP ID:            hCV26216961
SNP Position Genomic:     787824
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,12)   total(C,12|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49106):
CTAAACATAGAAAAGATACCATAAAAATACAGTATAAAATATTTAAAATGGTATCCCTGTATAGGAAAGCTCGATTATAATCTAATGAGACAACTTTCCT
R
TATGTGGCCCGTCATTGACTGATATATTGTTATCCAGCAATGACTGTACTTAAGTAACTTTAATAGAAGCATGAAGAATGTAGTAGTTGTCATTTGAAAA
Celera SNP ID:            hCV26216962
SNP Position Genomic:     789987
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49107):
TGATAAGAGACCAAATGGTTTAGTCATGAAAAGAATGTTGGAAGATCATTCATATGCAAAAGAGGAAATTGGAAAAAACCAATAGCAGCTTTGAATATTA
Y
GGGATCAACATGGTAGATGATGTTGAAATTACGCAGGAAGATGTCAATGGTTAAGAAACAAGGCTCATTGCTTTTATAGATTATATTCAGGTGATCACCA
Celera SNP ID:            hCV25473350
SNP Position Genomic:     504561
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,30)   total(C,59|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:49108):
CTCAGCTACTTGGGATGCTGAGGCAGGAGAATCGCTTGAACCTAGGAGGCAGAGGTTGCAATGAGCCAAGTTCACAGCAATGCACTCCAGCCTGGGTGAC
W
GAGTTAGACTAGGTCTCAAAAAATAAAAATAAAAATGAATAAATAAATAAATGTGTCTACAAACAGAGGTTTTTGAGAGTCAGGCATAAGCCCCCACCTT
Celera SNP ID:            hCV26216963
SNP Position Genomic:     793807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49109):
AAATAAATAAAATTAGAAATGAAAGAGGGAACATTACCACTTATACCACAGAAATAAAAAGGTTCATAAGAGACCCCTATGAACAGTTCCCTGCCAAAAA
R
AATGAAAAAAAAACCTAGGTAACCTAGAGAAAAATGAGTAAATTCCTAAAAACATACAACCTACCAAGATTAAATCGTGAAGAAATAGAAAGTCCGAACG
Celera SNP ID:            hCV26216964
SNP Position Genomic:     796514
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49110):
ATCTGTACAAACCAGGATTCTGTCCAAGAACTCCTTTGATGAGGAAGTGTTGCTAGAACTTGGCCTATGAGCTCTGCCTGCTGGGAATTAGTTTTAGCAA
A
GAGAGAGAGAGAGAGACAGAGAATATCATGGTGATGAGTGCTAGGACATTGTCAAGGCTCTTTTAAGTGTGACCACCAGGGGACAGCAGGAAAGATAGGA
Celera SNP ID:            hCV26216965
SNP Position Genomic:     800054
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49111):
CCCCACACCCTTCCTGTTTATTGACTTAAAGTATTGTCTTTGAATGTTGAAAAAAGTTTTTAGAAAATGCTGAACTTACAGGGAAATTCACCAAAGTAAT
W
GTAATATCATGAAGATGCTCATTGCTTCTGGGCTTTCCAAATCTCATCTTTCCTCAATTGTGCCTTCTCTGCATGAGCCTAATTTGAAAAAAACCTGGTT
Celera SNP ID:            hCV2810080
SNP Position Genomic:     217589
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,6)   total(A,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49112):
TCTGTACAAACCAGGATTCTGTCCAAGAACTCCTTTGATGAGGAAGTGTTGCTAGAACTTGGCCTATGAGCTCTGCCTGCTGGGAATTAGTTTTAGCAAA
G
AGAGAGAGAGAGAGACAGAGAATATCATGGTGATGAGTGCTAGGACATTGTCAAGGCTCTTTTAAGTGTGACCACCAGGGGACAGCAGGAAAGATAGGAG
Celera SNP ID:            hCV26216966
SNP Position Genomic:     800055
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49113):
TCCTTAGGTCATCACTGGAATTTTAGTGAAGAAGTGCTGCCCAGGGATGGCATCATTAACATGCTGCAGAGCCCTTGAGCTTGGAGGAGACAGCACTTGA
R
TTATGGTACAATTCACTGTAAATGTGTTTTATGGTCGCCTAAAATGTGTTTAGGTGACCATAAAACACGTTTTATGAAAGAGTTGCATAATCCAATCAGA
Celera SNP ID:            hCV2852610
SNP Position Genomic:     733509
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49114):
CCCACACCCTTCCTGTTTATTGACTTAAAGTATTGTCTTTGAATGTTGAAAAAAGTTTTTAGAAAATGCTGAACTTACAGGGAAATTCACCAAAGTAATA
S
TAATATCATGAAGATGCTCATTGCTTCTGGGCTTTCCAAATCTCATCTTTCCTCAATTGTGCCTTCTCTGCATGAGCCTAATTTGAAAAAAACCTGGTTC
Celera SNP ID:            hCV2810081
SNP Position Genomic:     217590
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,7)   total(G,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49115):
TCCCTCCGTCCTATGGCAGTCTGGGACGTGGCTGTACACTATAACTAAACTTTAAGACATCTACAAGTAAGAAACGTGAATAAGAACTTCACCTGGGAAA
M
CAGTCTAGAAGAGGGAAATCCAACATGGACTGAACAGTCTAGAAGAGGGAAATCCAACACGTACTGAACAGTCTAGAAGAGGGAAATCCAACAGGGACTG
Celera SNP ID:            hCV26216967
SNP Position Genomic:     805348
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49116):
ATTGTCCATTCAGTGTGAATGAGCTTGGGAGTACAACCACTTTGGAAACCCATTTTGTTAATTTACCTTTGATAGATACTTATTGAACGGTTTTTCCAAG
Y
GTCTGTGAAGAAGACATGGTGGTGGTAGGGGGTGGGTGGATGGTTTCTGAGGACCTGATAATGTTTCTCCTTGATTTTAGTGCCAGTTACGTGGCAACTC
Celera SNP ID:            hCV29090620
SNP Position Genomic:     32207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49117):
ATCTCATCTTTCCTCAATTGTGCCTTCTCTGCATGAGCCTAATTTGAAAAAAACCTGGTTCACAGAGGGCTGCTTAAGAAGTTGATGGTTTTGTTTATAC
Y
CAAAGTCATTGTGGGGACCTCTATTTTCACCTTTTTTGGCCTAGGTTGTCCCAGTACTTCTCTCATTCTGTGATTGATGTCATAGGTGACAAGTGTGATG
Celera SNP ID:            hCV2810082
SNP Position Genomic:     217730
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49118):
CACCATAGCATGCTTACAACCTCGGTCAAGAAAGAGCTGTGATCCCACCGTTTGTCCATCGAGTTCTAAGCTATGGTATTTGTAAAAGGTCATTCTGCTC
K
CCCGACATTAACCTGAATGGAACAGCTGGAACGTAAATTGGAAGGAGGAGTGATGATTCTCCCTTTGGCCATTTGATGACTTGGGAATTAAATGGGACCC
Celera SNP ID:            hCV26216968
SNP Position Genomic:     806522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,3)      total(G,3|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49119):
TAACGTGTGAGAAATTGCTTAATGAGTACAATATATGTTACTCAGGTGATAGTTACACTAAAAGCCAAGACGTCAGCACTCTGCCACATGTCCGTGTAAC
R
AAACTGCACTTGTACTGTTAAATCTATACAAATAAAAAAGAAACTGAATCTTTGCCAAGTTGCTCCTAACTATGTCTGAAGGTCCTCTGGTGATATCTCA
Celera SNP ID:            hCV2852612
SNP Position Genomic:     734555
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49120):
GACGGGCTATTGACATTAACAGTTGGATAGGCTGCTAGGTCAGTCCAGGGAAAAGCAGGAGGGAAGATAAGACATGACTGAGAATTCAGGAAGGGCCAGC
R
CCATCCAATCAGAACAAGTTGGAGCTTTTCGTCTTCTTTAAGCCTACTAGTTTCACTTCTCATTTTGAAAGAAACAACTTGCTCGGCCAACCTATTGTTG
Celera SNP ID:            hCV29090621
SNP Position Genomic:     31000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49121):
GCCTTCTCTGCATGAGCCTAATTTGAAAAAAACCTGGTTCACAGAGGGCTGCTTAAGAAGTTGATGGTTTTGTTTATACTCAAAGTCATTGTGGGGACCT
S
TATTTTCACCTTTTTTGGCCTAGGTTGTCCCAGTACTTCTCTCATTCTGTGATTGATGTCATAGGTGACAAGTGTGATGGGTCACTTCACTGGCCTCTCC
Celera SNP ID:            hCV2810083
SNP Position Genomic:     217751
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49122):
TTCCAATATTTCCCACCATAAATCTCCTCCTGGACCATAACCTTTTGTTTCTCCCAATTTTCTCTCTCATGGAAACAACTCCCATGGAAACAATCACACA
M
ACACACACACACACACACACACACACACACTCACGTGGTTACCTTTTTGCCAGTTTTCCAGCCTCCTGGACTGAACAGTCTAGAAGAGGGATCCAACATG
Celera SNP ID:            hCV26216969
SNP Position Genomic:     807878
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|-,7)   total(A,2|C,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49123):
GGTCAAATCTCTGAGATTCAAATCCTGGCTCTGCCACTAAATAGCTATATGTCTTTAAGCCACCTAATTAACCTCTCTGTGCCTAAGGATTCTCATCAGT
R
AGATGGGGATAAAAATACTTGCCTTATAAAATTATTGAAATGGTTATGCTAAAAAAAATGTGCAAAGTCTTTAGAACAGTGCCCGGCACATGTTAAGTAC
Celera SNP ID:            hCV10070114
SNP Position Genomic:     798215
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49124):
TTGCTCCTAACTATGTCTGAAGGTCCTCTGGTGATATCTCACACCGGCTCAGAACCAAGACAGTCGGCTCCCTTGTCATAGCCATTGGGATTTCCCTCCT
S
CATATCCCAGGCCCCCACCCTGATGGGCACCATTGCACATGTCAGGCCCGCCCTGATGGGCACCATTGCACATGTTAGGACCCTTGGCTGCTGGCTCATG
Celera SNP ID:            hCV2852613
SNP Position Genomic:     734715
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49125):
GGTTTGAGTCTCAACTCCGCTGCCCTGTAACCTTGAGCAAACCCCATAACTGTCTCTGCTTCCGACCCCTCATCTGTTGAATGGGAAAAGAGTAATAAGC
Y
CTATATCCTGGGGTTCCTGAGAGGAGGAATTGAAGCATGTAACATGCTTAAGACAGTGCCCGGTGTGCTGTAAGTTGAAACTGTGTAGGGATCCTGTTGC
Celera SNP ID:            hCV29090622
SNP Position Genomic:     28923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49126):
GGAGCTTCTTCCTTCTTTTTGACTCTCATGACCCTGTCCTCAGCAGATTCACCTGTGACTATATCTGTTTCTCTTTCTGGGTCTTATCTCTTCTTGTGCC
K
CTCATGTTTAAGTATCTCCCAATATTCAGTTAATAACATTTTCTGTTTTCTGTAGGTAGAAACTGCCATGCCCACAGGTCGAGCTATGACATGCATACTG
Celera SNP ID:            hCV10070115
SNP Position Genomic:     797852
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|T,8)   total(G,6|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49127):
AAGTGTGATGGGTCACTTCACTGGCCTCTCCAGGCGGTTTATTCTTTAGCTGACTTCACCTTGCTCTGGCCTTATGTAAAGGTCCCTGCCCTCTGGCTTT
Y
AGTGGGTTCAACCCACAAGTCTGCAAACTTTCTCAAAGAGCCAGATAATAAATTTTCAGACATTGCAGGCCATCCAGTCTCTGGGCAGCTACACTACTCT
Celera SNP ID:            hCV2810085
SNP Position Genomic:     217921
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49128):
AAGTAGTTGCCACATGCCTGACTCTCCTAAATGCTCTGCAAATAGGTTAGATTTCCAGCAAATGAAAACAGGTTAGGCAGCTCAATAGAATATTACATAA
Y
CATTAAAGAGGATGGTTATAAAGATGATGATAATGGCATGGAAAAATCATATGAATGAGAATTGAATACTAAACAGGAGATTGTGTGTGCAGTAGGATTC
Celera SNP ID:            hCV29090623
SNP Position Genomic:     27508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49129):
GTCACTTCACTGGCCTCTCCAGGCGGTTTATTCTTTAGCTGACTTCACCTTGCTCTGGCCTTATGTAAAGGTCCCTGCCCTCTGGCTTTTAGTGGGTTCA
R
CCCACAAGTCTGCAAACTTTCTCAAAGAGCCAGATAATAAATTTTCAGACATTGCAGGCCATCCAGTCTCTGGGCAGCTACACTACTCTACTCTGCCATT
Celera SNP ID:            hCV2810086
SNP Position Genomic:     217932
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49130):
GGTATATAAAATCCCTTTCAAGTATATGTCTTATAAAATATAGGTCATGAATTGAGTTTTTCAGTATCAAAGAAAAAAAGTTTAATAGACTTACAGCTTT
S
TTGCTTTAATTATGGGTGCATTTTTTAAAAACCAAGTATAGTACCCAAGCTATTTTATTATTCAGAAGACTGGCTCTTTTCAAAGAAGTGTCAAAAGTTT
Celera SNP ID:            hCV2852616
SNP Position Genomic:     738200
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49131):
TAACTGAAGCTTAGGGGCAGGTTTTCCCTGTGCCGTTTTCATGGTAGTGAATAAGTCTCACGAGATCTGAGGGTTTCATAAGGGGCAGTTCCCCTGCACA
Y
GCTCTCTTGCCTGCTGCCATGTGAGACATGCCTTTACTCCTCCTTCGTCTTCCACTGTGATTGTGAGGCCTCCTCAGCCATGTGGAACTGTGTGTCCATT
Celera SNP ID:            hCV29090624
SNP Position Genomic:     27060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49132):
TATTCTTTAGCTGACTTCACCTTGCTCTGGCCTTATGTAAAGGTCCCTGCCCTCTGGCTTTTAGTGGGTTCAACCCACAAGTCTGCAAACTTTCTCAAAG
R
GCCAGATAATAAATTTTCAGACATTGCAGGCCATCCAGTCTCTGGGCAGCTACACTACTCTACTCTGCCATTGTAGCATGAAAGCAGACATACACAATAG
Celera SNP ID:            hCV2810087
SNP Position Genomic:     217960
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49133):
AAGTATAGTACCCAAGCTATTTTATTATTCAGAAGACTGGCTCTTTTCAAAGAAGTGTCAAAAGTTTGGTTTGGGGAATTCTTGTGTTTTCTTTCTTGCT
S
CAGTTTTCCACTTTTCTTTAGTGTGTCACCATCTTTATCTCCTATGATACTAGTTTATAATAGGCTTCTAACATGGATGCCTTCCTCTTGGAAGTGGGTT
Celera SNP ID:            hCV2852617
SNP Position Genomic:     738334
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49134):
ATCATCCCCATCTACAGATGAGAAAACTGAGTCAGAGGAAGAGTTAGGTATGTCAGTAGCAGGCATGGGCAAAGGAAGGAGAAAGTAATGATCAAGATGA
Y
AGAGGGAGAATTGCAATTAAGCCAGAGAGAGGAAGGATGATGTTATAAGCTCGAGGGAAGCCTGAGTCCAGATCTGAAGCAGATATACTCACAGCACGTT
Celera SNP ID:            hCV29090625
SNP Position Genomic:     25825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49135):
GTGGCCCGTGGGCTTTGGTTTGCCAATCAATGGTTTAGCCAGTGGAGGATTGGGACAAGAACTCAGAGGGAGAGAGGAGAATAAATCTTTGCAGGCTGCT
S
TGTCCTTCCATTGGGGGTTACAGTTCTTCTCAGGGAGCCCCCTCCATGTGGCCGCGTCTTTTGGGTCTGGAAATTGTTTCCTCCCCTGGCCCTCTAGGCT
Celera SNP ID:            hCV2810088
SNP Position Genomic:     218228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49136):
AAGTTTGGTTTGGGGAATTCTTGTGTTTTCTTTCTTGCTGCAGTTTTCCACTTTTCTTTAGTGTGTCACCATCTTTATCTCCTATGATACTAGTTTATAA
W
AGGCTTCTAACATGGATGCCTTCCTCTTGGAAGTGGGTTGGGGTTCGTGTTTCTATAGTCAAGCTCTGTATCCTTAAAAAAAGGCCTGCTTTTCAGAATG
Celera SNP ID:            hCV2852618
SNP Position Genomic:     738395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,5)      total(A,3|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49137):
GAGGTGCATCTTGTCATCATCCCCATCTACAGATGAGAAAACTGAGTCAGAGGAAGAGTTAGGTATGTCAGTAGCAGGCATGGGCAAAGGAAGGAGAAAG
Y
AATGATCAAGATGATAGAGGGAGAATTGCAATTAAGCCAGAGAGAGGAAGGATGATGTTATAAGCTCGAGGGAAGCCTGAGTCCAGATCTGAAGCAGATA
Celera SNP ID:            hCV29090626
SNP Position Genomic:     25810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49138):
TCTGTCCTTCCATTGGGGGTTACAGTTCTTCTCAGGGAGCCCCCTCCATGTGGCCGCGTCTTTTGGGTCTGGAAATTGTTTCCTCCCCTGGCCCTCTAGG
S
TTAGATGTGGGAAAGGTGCCCCATTATTACTGGCATGTTGCTTTATGCTGTGGGCCCCTTTTCCTTGACTCTGACTGTACTTTTGCTGGTTCCTGCGTCC
Celera SNP ID:            hCV2810089
SNP Position Genomic:     218327
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49139):
TTGGGGTTCGTGTTTCTATAGTCAAGCTCTGTATCCTTAAAAAAAGGCCTGCTTTTCAGAATGATGGAGGACCTCGCTGGCCTGTTTCCCTGGCCCATCA
M
ATCCAGACTCCAGAGCTGCTTTGCCATCTGTTCCTCTCCTTCCTTCTCATTTCTGCAATTTTACCCTCTATCTAGCTGAAGAGGTTCTATGCTTGTTGGC
Celera SNP ID:            hCV2852619
SNP Position Genomic:     738533
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49140):
GTTAGAAGCCATTTCTTACCTGTCTTCTATGAAGTGTGGGTTGTGAGCGATGCTTTCATTCAAACCTATGAGGTGCATCTTGTCATCATCCCCATCTACA
R
ATGAGAAAACTGAGTCAGAGGAAGAGTTAGGTATGTCAGTAGCAGGCATGGGCAAAGGAAGGAGAAAGTAATGATCAAGATGATAGAGGGAGAATTGCAA
Celera SNP ID:            hCV29090627
SNP Position Genomic:     25741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49141):
GGGAGGAGAGGTCACAGGAGGCCAAGGTTGTAATATGGTTAGAAGCCATTTCTTACCTGTCTTCTATGAAGTGTGGGTTGTGAGCGATGCTTTCATTCAA
M
CCTATGAGGTGCATCTTGTCATCATCCCCATCTACAGATGAGAAAACTGAGTCAGAGGAAGAGTTAGGTATGTCAGTAGCAGGCATGGGCAAAGGAAGGA
Celera SNP ID:            hCV29090628
SNP Position Genomic:     25704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49142):
TGACCATGTTGGCCAGGCTGATTTCAAACTCCTGACCTCAAGTGATCTGCTCGCCTCGACCTCCCAAAGTGCTAGGATTACAGACATGAGTCACCGCGCC
Y
GGCCTAAGCACATGACTTTTAATTTACTGGTGCTGCATGGTCTGTGAAAAGTGGGTCAAAGAAATGGGAAGTGATGGGAGGAGAGGTCACAGGAGGCCAA
Celera SNP ID:            hCV29090629
SNP Position Genomic:     25528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49143):
AGTATATTAACAAGCAGTGCTCACTGCCCATGCATATGGGCTCAGCCATCAGTTAGGTGGCTCTGCTGATCTTAGCTGAGCTTGTTCACGTATTTGAGGT
R
GGCTTTGCTCCGTGACTTTCCCATATTGTAGCAGTGTAGCTTGGGCATGTTTTTAGAGCATTGGAGGAGGCATGAGAGACAAGCTCAATTCTACAGGTGA
Celera SNP ID:            hCV10076001
SNP Position Genomic:     77564
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49144):
TGGACAGGCAGGTTCTAACTGTTGCTGTAGGCCTAGGAATACCATGTTCAAAGTATGGAAGATTGGAGCATTGGTAAGAATGAGCTCTTGAATTCTAAGG
Y
AGTGCTATCTCTAGTCTCTTTAGTGTTTTCTGCCAGGTTGGAAGAGTCTTTGCATGTCAAGCATATGTTTGCCTTCAAAAACAAAGGTGAAAGCTGGTTG
Celera SNP ID:            hCV10076002
SNP Position Genomic:     77231
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49145):
GTTTCACCGTGTTAGCCAGGGTGGTCTTGATCTCCTGACCTTGTGATCCGCAAGCCTCGGCCTCCCAAATTGCTGGGATTACAAACGTGAGCCACCGCAC
M
CGGCCTACTTTTACGTCTCATAACCCAAAAGCTCTATGGCTTCAAAAATTCCCAACTCCTCAAAAAGCTGATTTTCTGTTTTATCAGTGCCCCTTTGATT
Celera SNP ID:            hCV497446
SNP Position Genomic:     438564
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,7)   total(A,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49146):
GAGTCTTAGAAGGCCCGTTAACCTCCCAGTATGTGGAAAAATGCTTCAGATGTTGACACATTTCACAGAAGTGTCATCACATTAACAAAGGGCTCATAAC
S
CATAAAAGTTAAGAACCATTAATTTTCAGGTAATTCTTCTAAATAATGGGTCCTGGCCAGCTCTACATGATTTGGAGCATATTTACATACATTTGCATAC
Celera SNP ID:            hCV11672220
SNP Position Genomic:     179599
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49147):
GGCCTCCCAAATTGCTGGGATTACAAACGTGAGCCACCGCACCCGGCCTACTTTTACGTCTCATAACCCAAAAGCTCTATGGCTTCAAAAATTCCCAACT
S
CTCAAAAAGCTGATTTTCTGTTTTATCAGTGCCCCTTTGATTGATAAACAATATATTAATATAAGATGGATATAAAGCAGATGTATTTTGTTGCCACAAC
Celera SNP ID:            hCV497447
SNP Position Genomic:     438622
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49148):
CTGGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCGGCCTAAATATGTTTCTTACATGGTCAAAGAAACCTT
Y
TAGATGTGATTAAGTTAAGGATCTTGAGATGGAGACAGTGTTATTGACTATCTGGATAGACCCAATAGAATCAGAAGTGTCCTTACAAGAGGGATAGAGG
Celera SNP ID:            hCV26216970
SNP Position Genomic:     808611
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49149):
AGCAAAAACAGTGAACTAGCTCAAGAAATATGTTTTTTTGTTTTTAAAAACATTGGAAACATACTACAAGTCCCTAATTAGTTTGACCTCCATGGTTAGA
T
TTTTTTTTTTTAACTCCAATATTTTCCTGAGTTGATTTTAGCTTTGTTTGTTTTTCCATTGACAAGATTCATTTTTAATTGTGTTGTCAAGTTAGAGAAT
Celera SNP ID:            hCV26216971
SNP Position Genomic:     809735
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49150):
GGAAGAGAGATATTCATCCAAGTTGATCTCATTGTATCCATGAGCCTGTTAATTTTCAGGGAGCAAGATTCTCTAGTCTTAAAAATGTGTGTGTGTGTGT
K
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTATTGGGATCTTTTAACTAGGAGAATCACTCAGAATGACTCTGTTGGAGGATACCAGAATA
Celera SNP ID:            hCV26216972
SNP Position Genomic:     582226
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,5)   total(G,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49151):
GCCACACACTTTCAAACAACCAGGTCTCATAAGAACTCACTCTCATGAGGATAGCACCAAGGGGATGGCACTAAACCATTCGCAAGAATTCACCCCCATG
R
TCTAATCGCCTCCCGCCAGGCCCCACCTCCAACACTGGGGATTACTATTCACTGTGAGATTTGGGTGGGGTCACAGATCCAAACCATATCCATCATTACG
Celera SNP ID:            hCV26216973
SNP Position Genomic:     813166
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49152):
TCAAACCTCACCATTTTTATTTCCCAGTATACGCTGAACAGCTTTCTGTCCCAAGAAATAGCCATTATTTTTCGTCGCTGAATAGTGTGCTATTATTCCA
Y
TACAGGGATATACTCATCTGTTTATTTATTCCCTTGTTGTTGACTATTTACATTGTTTACACTTGTTTGCAGTTTTTTAAAACATTAGTGGGTATGCTTA
Celera SNP ID:            hCV2845400
SNP Position Genomic:     1065800
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49153):
CTTTGGTTCCTCTGCTGTCGCCCTAACCAAGGATATGCCCCAATTTCTCTCTTGGACTCTTTCAACAGCCTCATACCTGGCATACCTGCACCTATTTAAA
A
TATATATATATGTGTGTGTGTGTGTGTGTGTGTGTATGTGTATTTAAAATAAACCCCTATTTTATTTATATATATAATATATAAATATATTTTATTTATA
Celera SNP ID:            hCV26216974
SNP Position Genomic:     816201
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49154):
AACTTAGGAACGCACTTCCAGCTAAGTCCAACTCCTGGGCCACGTCCTGCCTCGCATGAGGAAATGCACTTCTCAGGCACCACTGCTCCTCGGCTGACCG
Y
GGCCAGACACCCTTTCATCTCCCCAGGGAATGCTCAAGTCAGCAAAGGGCGCCTTGATCTCCAAGGAACCTGTGACTACAAAGACAAGGGGTGTCCAAAC
Celera SNP ID:            hCV2845401
SNP Position Genomic:     1065261
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   ;JBIC-allele(T,339|C,1146)   total(C,1146|T,339)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49155):
TTTGGTTCCTCTGCTGTCGCCCTAACCAAGGATATGCCCCAATTTCTCTCTTGGACTCTTTCAACAGCCTCATACCTGGCATACCTGCACCTATTTAAAA
T
ATATATATATGTGTGTGTGTGTGTGTGTGTGTGTATGTGTATTTAAAATAAACCCCTATTTTATTTATATATATAATATATAAATATATTTTATTTATAT
Celera SNP ID:            hCV26216975
SNP Position Genomic:     816202
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49156):
CTTGTGTTGACTGCTGATGTGATACCTCTGTTCTTGTCTTCTTAGTTTAAAAGAATTTAAACAAGAGACACACACCAAAAGAAGTGCAGCATAGAGTAAT
Y
TACTGCAACAGAAAAAGAATATGTTGAAAGTTAGGTGCAGAATAGCAGTATCCTCTGAGAGAGATGATTCCGGGCAGGCTGCTCACAACAATGAGGCAGC
Celera SNP ID:            hCV2845402
SNP Position Genomic:     1064361
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49157):
AGGTGCCCCATTATTACTGGCATGTTGCTTTATGCTGTGGGCCCCTTTTCCTTGACTCTGACTGTACTTTTGCTGGTTCCTGCGTCCATCTCTTGTCACA
W
AGCTCAATTTGCGTGTGCCATCAATTTCCTGCTGGGATTAAGATACCTGGCAGTGCAGGGTTTCCTGGGATATGGGACCTCTAAAACCGAAACCTAGACA
Celera SNP ID:            hCV2810090
SNP Position Genomic:     218441
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,5)      total(A,1|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49158):
CTGCTGTCGCCCTAACCAAGGATATGCCCCAATTTCTCTCTTGGACTCTTTCAACAGCCTCATACCTGGCATACCTGCACCTATTTAAAATATATATATA
T
GTGTGTGTGTGTGTGTGTGTGTGTATGTGTATTTAAAATAAACCCCTATTTTATTTATATATATAATATATAAATATATTTTATTTATATATAAAACATA
Celera SNP ID:            hCV26216976
SNP Position Genomic:     816212
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49159):
GTGTTTGCTGATTTCAGACACCATGGAGCAGTGGTCCAAGTTTGAATGATTTTGTTCCCAGGAGACACTTTGGGTTCCACACTGGGGAAGAAGAGGGTAC
M
ACTGGCATCGAGCGGGCCAAGGTCAAGGACTGGTAAACATACGTCAATGCATAGAACGGCCTCCACAGCAAAGAATCATTTGCCTCAAAATGTCAGTAGT
Celera SNP ID:            hCV2852620
SNP Position Genomic:     738989
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49160):
TTCTTCAGGGAGCAGGCACTGGAAGAAGAAACTTAGCTCGAAAAGAACTCTTCCTTCTTCTCCTCCTCCTCCTCCACAAAACAGGAATCAGGTGTCTCCT
R
ATAACATTTTAGTATCTCTAATATCTTTTTCTTCTTCTTCCTTGTGTTGACTGCTGATGTGATACCTCTGTTCTTGTCTTCTTAGTTTAAAAGAATTTAA
Celera SNP ID:            hCV2845403
SNP Position Genomic:     1064220
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49161):
TGCTGTCGCCCTAACCAAGGATATGCCCCAATTTCTCTCTTGGACTCTTTCAACAGCCTCATACCTGGCATACCTGCACCTATTTAAAATATATATATAT
G
TGTGTGTGTGTGTGTGTGTGTGTATGTGTATTTAAAATAAACCCCTATTTTATTTATATATATAATATATAAATATATTTTATTTATATATAAAACATAG
Celera SNP ID:            hCV26216977
SNP Position Genomic:     816213
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49162):
GCCCAAATGTAAAGTTGGCAGGAGAGATGCTACAAATTGTAGGCATTGGTTGGTACCTTTTTATAGTGAGCCACAGGAACCCATTCCTCTAAGCAGGATC
R
ATGGACATGGAGCTCGTTTTAACAGTGAGCATTTTGCGAGTGGGAGATGTTGCCAGGCCCTCTGCTGAGGGCTTCCTGTGTGTTATCTCATTGACTTGCC
Celera SNP ID:            hCV2852621
SNP Position Genomic:     739238
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49163):
CCCCGGCTTCTCAGACAGATGCAACGGCCTTCCAAGTTGTGATGTTACTGCTGTTGTGATGATTCTTCAGGGAGCAGGCACTGGAAGAAGAAACTTAGCT
S
GAAAAGAACTCTTCCTTCTTCTCCTCCTCCTCCTCCACAAAACAGGAATCAGGTGTCTCCTGATAACATTTTAGTATCTCTAATATCTTTTTCTTCTTCT
Celera SNP ID:            hCV2845404
SNP Position Genomic:     1064158
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49164):
AATTCCAACCATGTTGCCAAGAGATGGCATAGCTGGTGAGGGCTGGACTTTAGGGGCCAATCTCCACTCCTGAGCTCCCCTGACCACACAGGAAGAAAAC
R
TTAATGATGTTCCCATACTGATGTTGTGGTGTAAGTGTCTCCTGTGTAAATAGAACTAAATATTTAGGAAAGAAAACAGAAGAGTCTTATGTAGTGCATT
Celera SNP ID:            hCV27874968
SNP Position Genomic:     437101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49165):
GCTGAAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCATCTCCAGAGTTCAAGCGATTCTCGTGCCTCAGCCTCCCAAGTAGCCAGGATTGCAGGT
R
CCTGCCATCAGGCCCAGCTAATTTTTTTTTGTATTTTTCATTGAGATGGGGTTTGACCATGTTGGCCAGGCTGATTTCAAACTCCTGACCTCAAGTGATC
Celera SNP ID:            hCV29090630
SNP Position Genomic:     25374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49166):
GCTGTCGCCCTAACCAAGGATATGCCCCAATTTCTCTCTTGGACTCTTTCAACAGCCTCATACCTGGCATACCTGCACCTATTTAAAATATATATATATG
T
GTGTGTGTGTGTGTGTGTGTGTATGTGTATTTAAAATAAACCCCTATTTTATTTATATATATAATATATAAATATATTTTATTTATATATAAAACATAGG
Celera SNP ID:            hCV26216978
SNP Position Genomic:     816214
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49167):
AATACTAGCAAACTGAATCCAGCAGCACATTAAGAGGATCACAGGTCATGATCAAGTGTGCATGGGAGTCAGGAATTGTTCAACACACAGAAATCAATCA
W
TGTGATACACCACATTAGCAGACTAGAAAATAAAAACCACATGATTGTCTCAGATGCAGAAAAAGTACTTGACAAAATTCAGTGCCCTTTCATGATAAAA
Celera SNP ID:            hCV10070123
SNP Position Genomic:     796982
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,12)   total(A,12|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49168):
TTCTCTCCAGAATTATTTTACATAAGAGAATTATGAACTTCTGTCTTATGTAACTCAGTGTTATGTTGAATTCCCTGTATTTGTAGCCAAATCTAATAAC
W
GCTGAAATATGCAGCATCACTCAACCAGTAAAAATTAGAGCCCAGACTATATGACGTTGAGTCAAGCCACGCTTTTTAACCACTGTGCTTTGCTGCTTGA
Celera SNP ID:            hCV2852622
SNP Position Genomic:     739939
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49169):
CTGCGCTGGGCTACCCCGGCTTCTCAGACAGATGCAACGGCCTTCCAAGTTGTGATGTTACTGCTGTTGTGATGATTCTTCAGGGAGCAGGCACTGGAAG
R
AGAAACTTAGCTCGAAAAGAACTCTTCCTTCTTCTCCTCCTCCTCCTCCACAAAACAGGAATCAGGTGTCTCCTGATAACATTTTAGTATCTCTAATATC
Celera SNP ID:            hCV2845405
SNP Position Genomic:     1064145
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49170):
CGTGCCTGTTACTATCTAATTGACTTCCCGAAGAATAACTGTGATCATATCATGCCCTCTTCAAAGGCTGTCAGTCTTCCCATGCTTACTGAGCCACAAC
S
AAATGAGTCCCAACCTGCTTTGTCACTTTCAGCCCTCACAATTCCCTGTCATTCATGTGATTCTCCTACCAAAGTAAGCTGCTTATCTTCTATGTTCACT
Celera SNP ID:            hCV27874969
SNP Position Genomic:     429665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49171):
AGACGGAGTCTCGCTCTTTCACCCAGGCTGAAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCATCTCCAGAGTTCAAGCGATTCTCGTGCCTCAG
Y
CTCCCAAGTAGCCAGGATTGCAGGTGCCTGCCATCAGGCCCAGCTAATTTTTTTTTGTATTTTTCATTGAGATGGGGTTTGACCATGTTGGCCAGGCTGA
Celera SNP ID:            hCV29090631
SNP Position Genomic:     25348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49172):
CTTGCTTGCCCTTGGAACAAAGCCTGTGGCTGGTGTTTAACTATCATGGGAGATACTAGTGTGGCTGAAAAGTCTGTGTTCTGAACAGTACTATGGCACT
R
TAGACAAACTTTCAAGGTCAAATTGATTATCCTGTAGTTTAGCAAAGCAGCAGCTCCCTAATTATGTCAGGAGGCAGGATTATCTCTGATCATTTGAGCT
Celera SNP ID:            hCV2810093
SNP Position Genomic:     220450
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49173):
CTGTCGCCCTAACCAAGGATATGCCCCAATTTCTCTCTTGGACTCTTTCAACAGCCTCATACCTGGCATACCTGCACCTATTTAAAATATATATATATGT
G
TGTGTGTGTGTGTGTGTGTGTATGTGTATTTAAAATAAACCCCTATTTTATTTATATATATAATATATAAATATATTTTATTTATATATAAAACATAGGG
Celera SNP ID:            hCV26216979
SNP Position Genomic:     816215
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49174):
TGGCTGCATAGTATTCTGTGGTGTATGTGTACATTTTCTTTATCCAGTTCACCATTCATGAGTACCTAGGTTGATTCCATGTCTTTGCTATTTGAATAGT
R
CTGCAACAAACATATGAGTGCATGTGTCTTTTTGGTAGAACAATTTATTTTATTTTGGATATATACCCAGGAATGAGATTGCTTGTTTTAAGTGCTTTGA
Celera SNP ID:            hCV2852623
SNP Position Genomic:     742264
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49175):
AGGATGGGAGACACTTTTCTAATCTAATCATCTGCGCTGGGCTACCCCGGCTTCTCAGACAGATGCAACGGCCTTCCAAGTTGTGATGTTACTGCTGTTG
K
GATGATTCTTCAGGGAGCAGGCACTGGAAGAAGAAACTTAGCTCGAAAAGAACTCTTCCTTCTTCTCCTCCTCCTCCTCCACAAAACAGGAATCAGGTGT
Celera SNP ID:            hCV2845406
SNP Position Genomic:     1064114
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4|-,6)   total(G,4|-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49176):
AGATACTAGTGTGGCTGAAAAGTCTGTGTTCTGAACAGTACTATGGCACTATAGACAAACTTTCAAGGTCAAATTGATTATCCTGTAGTTTAGCAAAGCA
R
CAGCTCCCTAATTATGTCAGGAGGCAGGATTATCTCTGATCATTTGAGCTAGGACTCCAGATAAAACATCAAAAGCAATATTTAAATAACACACAGCCAT
Celera SNP ID:            hCV2810094
SNP Position Genomic:     220500
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49177):
AGCTGATGGTATCATTTCCAGTCTAAACGCCAGCAGGAAGGGCCAATGTATTGTTTAAGTCCGAAGGCTGGAGTGGACTGATGTTGTAGTTCAAGACAGG
Y
CTCTGACTCAGCTTTTTGGTTCTGTTCAGACCCGTAAGTGAGTAGATGAGGCCCACCACATTAGGAAGGGTCATTTCCTTTTCTCAGTCTAATAATTCAA
Celera SNP ID:            hCV2852624
SNP Position Genomic:     746660
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,9)   total(C,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49178):
AGTGTCACTCGGCCCATGGTCACATTCCCAGGGCAGCTCTGCCTTGCTGGAGCTGGGGTCATGCACCTCCCTGCTCCAGGCACCTTGGCTAGTGATCAAC
Y
GGGATGATGTTCCCAGATACACAGCACAGAGGGCCGCTGACTGAGAAGGAGGGATGAACATCCTGTCTGGCAAATGAAGCTTACTGCTGGGAGTATGGAG
Celera SNP ID:            hCV2845407
SNP Position Genomic:     1062541
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49179):
GGGCTCCCTCTGATTCTTAAAGCCTTTCCAGGTAGCAACAGGAGATCACGCAAAGCCACGTAAGTGTCTGATTCAGTCCTCCCTGGTCAGTTTTCCAGCA
W
AGCGTTTTGCAAAATGTGTTCTGAAGAGATACTGGTTCCATGGGAGGTTAATATGGGTTCTGGGGAAAAAAAATTAGGGGAATCAAAAAATTACTTGTAT
Celera SNP ID:            hCV29090632
SNP Position Genomic:     23877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49180):
TTATCTCTGATCATTTGAGCTAGGACTCCAGATAAAACATCAAAAGCAATATTTAAATAACACACAGCCATGGTTAAGGATTCATTGCATTTTCTCTTAC
Y
ATAAAACCAAAATTGTGGTGGCCCATTTTGTTCCATTACTGGAAGGGTTTTCCAGGCTGTTTTAACTCATACATAGTGTAACCCTTTCCCTTATTACAAA
Celera SNP ID:            hCV2810095
SNP Position Genomic:     220630
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49181):
GTCATTTCCTTTTCTCAGTCTAATAATTCAAATGGTAATCTCTTCCAGACATGCCCTTACATCCAGAATAAGAGTTGCCCAAGTACCTGGTTACCCCATG
S
TCAGCTGAGTTGACTCATAAAATTAATCATCCAACTGTTGTAGGCCAAATGTTGGCCCCATGATCTCCACCTCCTGGCATTACTCCTGCAGTTATGTGGC
Celera SNP ID:            hCV2852625
SNP Position Genomic:     746830
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,8)   total(G,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49182):
CTGGCCCTGAGCACAGTCCTTGAACGGAGAGAGAAGGGAGCCACTCTGGGTGACCTCCTGCATCTCAGAAACTTGCCTACTTTGTCATCAGCACTGCTTT
R
TGACAAAGGTTTTGCTAACTCCGTTTACAGATACAGGTATTGTGGATTCGCAGATTCGTAGAGGTTCGGTACTTGCTCAAGCAGCCCAGCTTGGTGGTAG
Celera SNP ID:            hCV2845408
SNP Position Genomic:     1061038
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49183):
GGGAAAGGAGCTCCCACTTCTTACATTCAGTGCTCATCACTCTGCAAATCAAGGCCCCCCGAACTCCTCCCACCCCTGCCTTCTGCGTCTCCCTCTGTGC
Y
CTCCATCACCCCCCTACGGAGTTCCTTTGATTCTCAGGTCCCTTAACCATGGAACGTACTCCTGTCTGCCCTCACTCGTGGGTTGATGATTTCTATCCTT
Celera SNP ID:            hCV29090633
SNP Position Genomic:     23396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49184):
CTACTGTGAACCCCACGGAGGTCATACTTCTCACCCACAGATACTGTTGTTGTTTTAAGCCACTTAATTTATGATAATTTTTTACAATAGCAATAGAAAA
M
TAATACAGAATGTGGTTACATTATCTTACATACCATTTAAGAGTAAAGCTGCTTTTCACAACAAAATAACAGGGATTTTTTTAAAAAAGCACACACATTC
Celera SNP ID:            hCV2852626
SNP Position Genomic:     747439
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49185):
AATATAAAACTTTGGTTTTCCTGTTCCATTTGATCCACTGTGATCACAGAGGCAGGGTTATCTTGCTATAAAGCTACTGAGGATTGGGCGTTGGAGTCTC
R
TTTACCAGAGCCCCCGTGGGTGTCGGGGGTACGGAGTTACAGGTTCCAGGCAGGGAGGCTTTAGGCATCACCATTGCCAGGGAGTTGCCTAACGATATCT
Celera SNP ID:            hCV2845409
SNP Position Genomic:     1059972
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49186):
AGATGTAAATGCTCTGGAGCTAGATAGTGGTGGTGATTACGTTAGCTCTCTGTAAATAAACCCCAAACCTGGGAATCATATATCTTAACCGGCTAAGCTT
Y
ATAGTATGTTACACATGTCTAAATAAAACTGGTATTGAATAGGAAAACAAGCAAACCTTGGGCAGGTCAGCCTCAGGGCTCCTGTTTGTTCATGAGCACA
Celera SNP ID:            hCV29090634
SNP Position Genomic:     22239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49187):
TGTGGTGGTTGACACTTAGGAACTCTCAAAAAAGTGTATAAATTGCCTTGATTTATCACATACTGTGCGTAAGTTATGCTGTTCTCATTCAGCCAACAGT
R
TGTTTAATACCCAAAGCCCTCTTTTTTTTTCTCCTTCTTTGTTTTTGGCATATAACAGCTTATTGCAGTATAATTCATAGACTGTATGATTCACCCATTT
Celera SNP ID:            hCV2852627
SNP Position Genomic:     748265
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49188):
GGTAACAGAAAGAATTATGGTAGTGGTAATTTTTAAAACCTTCTGAATTTGGTTAAGCACCCTCCTGCAGATATTCTCTTTCCCACTAGATGGTACCAGT
R
TGCCAAAGCCCTAGAATGCTACCTTAGGGCCTCGTCTTTGACATGTGATATATTCTCATTACTTTTCAACAATGAATGAATAAGCCAGTTGAGGTCAAAG
Celera SNP ID:            hCV29090635
SNP Position Genomic:     20570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49189):
TGTTCTCATTCAGCCAACAGTATGTTTAATACCCAAAGCCCTCTTTTTTTTTCTCCTTCTTTGTTTTTGGCATATAACAGCTTATTGCAGTATAATTCAT
M
GACTGTATGATTCACCCATTTAAAGTATATAATTCAATGTTTTTTGGTCTATTTATAAAGTTACACAATCATCGCCACAATCAATTTTAGACCATTTAAT
Celera SNP ID:            hCV2852628
SNP Position Genomic:     748344
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,10)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49190):
ATCATGGTACTTCTTTAGGGTCACATATCACTAGATTATTTGCATTAACTTTTATCAAGGTAAAGATGCTAATAGTCAACTATGGAACATAATTCTCAGA
S
TAGATCTAACATAGGAATAATTTAGCTTTGTAATATTTATCTGGACTACAATTTTTAAGGCACTTTTGCTACCCAAAAGTATCTTGGGGTTAAACACGCT
Celera SNP ID:            hCV29090636
SNP Position Genomic:     19863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49191):
GCACATTACATTTATCGTACACTTAATTTCTATTATTATTACCTTATATAATGAAATAGTTATACAACTCACCAGAGTGTAGAATCAGTGGGAGCCCTGA
R
CTTGTTTTCCTGCAACTAGACAGTCTCATCTAGGGTGATGGGAGACAGTGACAGATCATCAGGCATTAGATTTTCTGAAGGAGCATGCAACCTAGATCCG
Celera SNP ID:            hCV2810099
SNP Position Genomic:     221820
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49192):
ATATAACAGCTTATTGCAGTATAATTCATAGACTGTATGATTCACCCATTTAAAGTATATAATTCAATGTTTTTTGGTCTATTTATAAAGTTACACAATC
R
TCGCCACAATCAATTTTAGACCATTTAATGACTCCCAAAATGAAATTCTGGGCTCATTAACGATCATTTCTCATTTCCTCGAAAACTCTTTGGTACTAGA
Celera SNP ID:            hCV2852629
SNP Position Genomic:     748415
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49193):
CATAAAATCATTTGATCTGGTGGGATCTCATCTTCTTAATGTGTCTGCCCATCATCTGTTCCTGGGAGGCTTTATTAGGGCAGTGTGTGCGTGTGTGCGT
K
TGTGTGCATGCACGCACCAGTGCCATGAGTACTTGTTTAAAGTACCTCCATGTAACCACAATTCACTGTAGTTGCTATGCACTAGTTACCCATGTTATCT
Celera SNP ID:            hCV29090637
SNP Position Genomic:     17874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49194):
TTTTTGTGAGAATTAAATAAGTGTATGTTAATGATGTCATCCTATGCTTAAGAAATGTTGGTTGTATTACTTTTCACCCTATGCTCCAAGGAATTTTATG
K
TCTGAAGGTGTCATGGGGTCTTGGCTTTCAGGATGTGACTCACTTAAGGGGGGAAATGACTGTGCATGTCATAATGCGTGGACATTAAAAAAAATAAAGT
Celera SNP ID:            hCV29090638
SNP Position Genomic:     17598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49195):
AGGTGTTCTTTGTCTTTCTCCTCCACTAGACTATAAGCTCTGTTGTGGTCCACATTGTGGCTTGATTTGTTCATTTCTATACTCCCAGGGCTTAGAACAG
Y
GCCTGGCACATAGTACTCAGCAAACATGAATGAACAAATGAATGAATGAATATAAGAAAGACATCAGAGGCAGATGAAGGATCTGGGCGGCTTCCCTGAC
Celera SNP ID:            hCV29090639
SNP Position Genomic:     14232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49196):
GAATAGGGCTATAGGCTATTTGGGATAATGTTCGGATATATTTTTAAGGTAGAAAAAGTAAGATGGAGAAAATTGTGTGTTATATTACTGCCTGTCTTTG
R
GGGGATGCACATTCACATACAAATTTACTTTTTTAAAAAATAAAAGTTAGGTTAAATCATTTTTTTAAAAAAATAGTTACTGTTCCAGTTATCTTTTTTC
Celera SNP ID:            hCV15897100
SNP Position Genomic:     201451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49197):
CTCCTTTATTCTCTAGAGTGCTGCTTCCCAATGCGTGGTCCATGGACCAAGCAGCTTCAGCATCACCTGAGCACTTGTCAGAAATGCAGCACCTAGGCGC
Y
GCACCAGACCTGTTGAATAGGAATCTACATTTTCACAAGATTCCAGGTGATTTGCATACACAGTGGCATTTGAGAAGCATTAATCCAGGGGCTTCTTTGC
Celera SNP ID:            hCV15897101
SNP Position Genomic:     210171
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49198):
CAAGAAAGAAGGAACCCTAAGTATGTTCATCGAGCTACTCACAGAAAACAGAAAATATGATTACAACATAAAGTGATAATTTCCATAAAAGAAAAAGTTA
Y
ATGAGCACATACAAGAGGGAATAACATTTGAGGAATCTCTTGAAGGATGGGTAGGAGTTTTTTAGAAAGGGGTGGGGAAGCAAAAAGATTTTGCTTTTCA
Celera SNP ID:            hCV10075070
SNP Position Genomic:     197541
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49199):
CGTAGATGAGGAATTTGAGTCTCTAAAACTTGAAGTTGCCCGGCCAAGGTCACGTAGCTAGTAAGTTGTGAAGCTGATATTCAAACTAAGGACTAAAAGA
Y
AAAAAAGACCACTTTCTTCCAATGCTTAAAAGATGTTAACAGAAAGAGAGCAAAGCAACAACAAGAAAGAAGGAACCCTAAGTATGTTCATCGAGCTACT
Celera SNP ID:            hCV10075071
SNP Position Genomic:     197379
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49200):
CTCTTATCCAGCCAAGACAGGGCCACTTTCTTTTAAGTTTATCTTTCTCCCTTTTCCTGTGATCCAATCTGCGTGCCTGTTACTATCTAATTGACTTCCC
R
AAGAATAACTGTGATCATATCATGCCCTCTTCAAAGGCTGTCAGTCTTCCCATGCTTACTGAGCCACAACCAAATGAGTCCCAACCTGCTTTGTCACTTT
Celera SNP ID:            hCV27874970
SNP Position Genomic:     429594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49201):
GTATTTAAAATAAACCCCTATTTTATTTATATATATAATATATAAATATATTTTATTTATATATAAAACATAGGGGTTTTATTTATATAAATAAATAAAT
W
TATATATATATATGTATATATATACACACACACATATATGAAGGAACATAGGGTTTGGAATTCAGAGAGAGATATCGAGAGAGTTTCGCTCCTGTTTTTC
Celera SNP ID:            hCV26216980
SNP Position Genomic:     816341
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,5)   total(A,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49202):
CCTGCCATATTAGCCACATCCCTGCTTGATCTACTCATTTTGTTCAGTGGTGGAGCGAGTGTGGGTCACACAGCTGGGAGCAGAGACAGTACAACTGGCA
M
TGTGAGAGTTACCTTCCCGCCAGTGCTGTCTGTGTGATCTTGAGAGCATCATATAGCTTCTTTATCTGTAGAATAGAGAGGTTAAACAGCCTGCAGTGGC
Celera SNP ID:            hCV27874971
SNP Position Genomic:     412514
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49203):
TGCGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGCTACAGTGAGTTGAGACTGAGCCACCGCACTCCAGCCTGGGCAGCAGATTGAGACTTCATCTC
A
AAAAAAAAAAAAAAAAAGCGGGGGAGGGAGATTAATCCTGGTGCCCTTCTAGAACTACCACCTGGCCTTTCTTAATTGTCCACTTGGAGTGTTTGCCAAG
Celera SNP ID:            hCV26216981
SNP Position Genomic:     822141
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,6)   total(A,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49204):
TTCATGCTGAGGAAGAATTGAATTCTGTTTTTCCAAGTAGGCAAGGAATACCAGGATAGCTGGGTCTCTCCATCTCAGGCAAAACAGACAATCTACATTC
W
TATGCTCTGGGGCAGTTCCTATCTGTGTCATGTCCTTGAGACAGCTAGTATAGGTACTTCTGAGAGCTGGTAAAAATTTTAGAAAAGTTGCAAGCCAACT
Celera SNP ID:            hCV27874972
SNP Position Genomic:     400804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49205):
TTCTAATATATTTAAGGATGCTTGTCAAGATTTTATTATCTGTTCTTTCATCAGAGAGATGTTTACAACAGCAGAAAAATTTAAAAATAAAAATGAAATG
T
TTTGAATAAGAAAATAATTAAATTATGGCACAGCCAGGGTCAGTAGTCATCTGGTCGACTGTGGATGGATCTTCCAGAGACTCCTCTCGCCTGTCATTTG
Celera SNP ID:            hCV26216982
SNP Position Genomic:     822471
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,13)   total(-,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49206):
AAGAAAAAATCCTTTCTCTGGAAGCAAACTCCAAAGTTGGGTATATTCTTGAATCAGTACCTGTCAGGATAAAAAAAAACCCTTTCTTTTTAAGAAAGAA
M
GAAAGTTCTGTACTACAGCAAATAAATGGAAGCTAAAAAGAAAACCTGGTATAAAGAGTGTGATTTAAGAATTTGCTTTCTGTGCATACATTTAGGGTAG
Celera SNP ID:            hCV7624764
SNP Position Genomic:     232042
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49207):
CAGGAGGCTGAGGTGGGAGGATCATTTGAGCCCAGGAGGTTGAGACTGCAGTGAGCCAAGACTGCACCACTGCACTCCAGCCTGGGCAACAGAGGAAACC
S
TTTCTAAAAAAAAAAAAAAATCAATGGTACCTCCTATAGAGTCAGGTGATGGTGTTGATTATGATGATGATGGCAAAGACGGTGGTGAAGGTGATGGCGA
Celera SNP ID:            hCV26216983
SNP Position Genomic:     825281
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49208):
CTTGAGTCTAGTATTGCTGTCCCCCGCCCGGCAAATGGTTGTAGAGCCCTCGAGTCAATTGAAAATGCTCCCATACATTTTCACATGCCCTCAGTTGGGC
C
AGGGCCCAGCGGCTTAACTCCATGTGGCTCAGACTTTCAAATCCTTTTCCCTACATCATACTCTACTAGAAACCATGCACCCAGGCTATACTTGAAGGGA
Celera SNP ID:            hCV2845410
SNP Position Genomic:     1059727
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,3)   total(C,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49209):
TTTTTCTTCCCAAGTGCTCCATCTTGCCTGTAACCTTAGCGCCTTCCCTGGGATGATGGGAGCTCCATTTGACCTTGGTGATGAACACAGACAGCCCTAG
S
TGGCGTGAGCACCGCTGATTGATAAGGTGGGTGTGGAGCTTCTGTCCTTCTCAGTGGATTGCGAGAACTTTGGCTCCATGTTTCTTCACCAGGGTATGGG
Celera SNP ID:            hCV26216984
SNP Position Genomic:     589400
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49210):
CGCTGCCCATTGACACTGGGGTAGGACAATCCACCATTGTGTGGGACTGTCCTGGGCATGGCCTTGAGTCTAGTATTGCTGTCCCCCGCCCGGCAAATGG
Y
TGTAGAGCCCTCGAGTCAATTGAAAATGCTCCCATACATTTTCACATGCCCTCAGTTGGGCCAGGGCCCAGCGGCTTAACTCCATGTGGCTCAGACTTTC
Celera SNP ID:            hCV2845411
SNP Position Genomic:     1059665
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49211):
CACAGCTGAGAATTAATTAATGCTTACAGATTACCTTACAGAAGCAATCTAATGATAAAACACAAATGCCTCTGAACAGCTATAGGTAAAGGCAACAGTG
T
TTTTTTTTTTCCTATTTAACGTAGAGTAGAAAACATCTTCTAAATTAGCATATGCATGTAACTCCAATAATTCCTCTTACATGTTTTTAAAAGTTGTCTT
Celera SNP ID:            hCV26216985
SNP Position Genomic:     589762
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49212):
CCTGTCCCTGACACAGAGGCCCAGCAACAGACAAAGCACATTAGTAAGATTGTGTGCTTTGTGAGATCTTGGAGGGCTTCTTAATCCAATTACAGCACTC
S
GAGGGGATTAGGAACAGAGACCCATGTGTCAGCAGCTCCAGGTGGTCTGGCCCTGGGCATCATACAGCTGGAGTTAGTAGATCCCACCTTAGGCAAATGG
Celera SNP ID:            hCV2845412
SNP Position Genomic:     1057443
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49213):
CAGTGGGGGATCCTGGATTGGATTTTGGATTAAAAAAAAAAAAAGGTTACTAGAGGCCGGGCGTGGTGGCTCATGCTTCTAATCCGAGCACTTTGGGAGG
M
CGAGGCAGGCAGATCACAAGGTCAGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTG
Celera SNP ID:            hCV26216986
SNP Position Genomic:     592205
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49214):
TAATTCATAGACTGTATGATTCACCCATTTAAAGTATATAATTCAATGTTTTTTGGTCTATTTATAAAGTTACACAATCATCGCCACAATCAATTTTAGA
M
CATTTAATGACTCCCAAAATGAAATTCTGGGCTCATTAACGATCATTTCTCATTTCCTCGAAAACTCTTTGGTACTAGACAACCAATGATCCACTTTCTA
Celera SNP ID:            hCV2852630
SNP Position Genomic:     748436
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,6)   total(A,5|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49215):
AGGAGGCAGCCAGGCAAATGAGAGAAGGTGCTCTTATGAGACCCTCTCCTCTTATCGGGGCAGAAAACATCCTTTCTAAGGGTCCCCCGGCCAATTTCCC
R
TGATGTTTCATTGACCAATGACATACGTTCTTCCTTAACTTCAAGGAAAGCTGAGAAAGTCCAAATCTGGCCTTTGGGCCTTTACAGTGCATAAGGCAGA
Celera SNP ID:            hCV2845413
SNP Position Genomic:     1056686
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49216):
CGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAAATGATGAAACCCTGTCTTTGCTAAAAATACAAAAAAACAGCCAGGTGTG
R
TGGTGCACACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGAATCACTTGAACTCAGGAGGCAGAGGTTGCTGTAAGCCACAATCACACCACTGC
Celera SNP ID:            hCV10075079
SNP Position Genomic:     196712
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49217):
TGAGTCAGGAGAATTACTTGAAACCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCACACCAGTGCACTCCAGCCTGGGTGACAGAGCAAGATTCCATCTC
A
AAAAAAAAAAAAAAAGGTACTAGAAAAACTGATGAAATCTGAATACATAAAATCTGGAGTCTAGTTAATAGTCAAGTATCAGTGTTAATTTATCAGTTAT
Celera SNP ID:            hCV26216987
SNP Position Genomic:     592439
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49218):
TTTTACACTGTTGGTGGGAAAATTAGCTCATTTTCTAGTAGCAGTATATCTCTCCAACAAACAAGTCACCTGTTTTTTTTTCCTGAACACACCATCTCTC
R
TCATTCTTGATGCTAAAATATAAGCATGTAGGTCCAAACCTGTCTCTCCTCCTTTCAGAGTGACCAGAGAGACCCTTCTAGTGTTTTGTTTTGTTTTTTT
Celera SNP ID:            hCV2852631
SNP Position Genomic:     750701
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49219):
TCCTGTGCTGGTCCACAATGCAGTGGCTCTCAAATGCTAGCATATATAAGAATCATCTGCAATGTTAGTTAAAATGCAGATTTCTGGGCTTGCCCCAGAC
Y
TGCTGTGTCAGAATATGAGAGAGAGGTGTGCCAGGTGGTTCTGTTGTTCACAGGGCACACCACTTGTCAAGGGGCATGGCCTTAGGGGAAGCAGTTTCCA
Celera SNP ID:            hCV2845414
SNP Position Genomic:     1055953
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49220):
CCAAGTGCTGGGATAAACAGACGTGAGCCACTGCGCCTGGCCAAGTACCCTTATCCATAGGACACTGTCACATCCTAGCACCGTCCTGGAGCTTGTGTGA
W
GTTTTTATATCTGTTTTAACAGTTAACACCCACGGCCGTTCTACATACAGTGTTAATGCTACAATTAATGCTCTCTGGCTCTGTAAATACTAGACTAATC
Celera SNP ID:            hCV29090640
SNP Position Genomic:     12773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49221):
TAAAATCAAATCAAGGAGTCACTACCTGCTCCAGGCCTCAGTACTCCCTGCCCCTGCCCGGATGCAGAAGACACTGGTCCCAGCTATGCGACGCCCACCT
C
CCCCCCCCAAACAGCCAGCCAGGAAGTCTCTTTACCCAGGTATGAGGCAAGACTCCTGTGTGCTATTTACATGCCCTTCCAGAGTGTTGACACCAGGGGC
Celera SNP ID:            hCV26216988
SNP Position Genomic:     593049
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49222):
TTCTTGATGCTAAAATATAAGCATGTAGGTCCAAACCTGTCTCTCCTCCTTTCAGAGTGACCAGAGAGACCCTTCTAGTGTTTTGTTTTGTTTTTTTGAG
Y
TGGGGTCTCCTGTGTTGCCAGTCTAGAGTACAGTAGTGCAGTCATGGCTCACTGCAGCATCTAGCTCCAAGGCTCGGGTCATCCTCCCACCTCAGCCTCC
Celera SNP ID:            hCV2852632
SNP Position Genomic:     750805
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49223):
TGTAGCAAACACATTTTGGGGAGGCCTGAGCTCCAGGATATGTGATGGAGATGTCTATTTACCCAAGTTTTATCTTCCAAACTTCAGGTCTGGAAAATTG
Y
CTGACAGATTTTATAGACTCAGGACTAGCCACGGAGGACAGCCAGTGGCTATGTCATTCTATGACTTTTACAGCTTCGAAAGTGCAACAGCCATGGACAC
Celera SNP ID:            hCV2845415
SNP Position Genomic:     1055068
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49224):
ATTGTAAAATGCACCAATCAGTGCTCTGTAGCTACCTAGAGGTTTGTAAAATGCACCAATCAGTGCTCTGTAAAAACGCACCAATCTGCACTCTGTGGCT
Y
GCTAGAGGTTTGTAAAATGGACCAATCAGCACTCTGTAAAGTGGGCCAATCAGCACTCTGTAAAATAGACCAATCAGCAGGACATGGGTGGGGACAAATA
Celera SNP ID:            hCV26216989
SNP Position Genomic:     595237
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49225):
GCTAGGACTACAGGTGTGCACCACCAGGCCCTGCCAATTTTTTTAAATTTATTTTTCGTACAGATGGAATCTCACTGTGTTGCCGAGGTTGGTCTCACAT
Y
CCTGGCCTCAAGTGATCCTACCACCTCAGCCTCACATAGTGTTGGGATTACAGGCATGAGCCACCATGACTGTCTTCTTCTAGTCTTGATGCCTCTCCTC
Celera SNP ID:            hCV2852633
SNP Position Genomic:     751012
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49226):
GATAGAGTGAGGCAGCTCTCTGGATTCTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTCTCACCAGGCTGGAGTGCA
R
TGGCCTGATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGTCTCCCGAGTAGCTGGGATTACAGGTGCATGCCACCAC
Celera SNP ID:            hCV2845416
SNP Position Genomic:     1054689
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49227):
CCCTGCTCTACGTAGTGTTCTACCAAGAGCATGGCTGTCCTTGGAGAACAGTGACAGCTGGGCATCATCATTCCATGAGTGTTGCTCCCTCACGGTATAG
W
CATAACCAGAACGTCACAATAACTTACTCTACTTAGACTTGCCAAGGCCTCCGGGAACACTGCTCTAATATTCAGCACCTTTGTAACTTCAGGATAAAGC
Celera SNP ID:            hCV29090641
SNP Position Genomic:     12299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49228):
TAGACCCCACTCCTCCTAGGTCACTTCCTGTGACCCCACACCAACATCCTTTCTCTAGAAACGGCCATTCCCAAACTGTGAGCCTCGTGTTTGTATTCAT
S
ACACATATGTAGCATCCACTGTGAAGTCAAAATTAAGGTGAATGGTAAACTCAACCACCTGGCTTCATGTTGACCTTGTCCCTAGACTCCCATTCCCTGC
Celera SNP ID:            hCV2852634
SNP Position Genomic:     751221
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49229):
CCATGGACTGGTACTGGCCTGTGGCCTGGAGGTTGGGAACCCCTGCTCTACGTAGTGTTCTACCAAGAGCATGGCTGTCCTTGGAGAACAGTGACAGCTG
R
GCATCATCATTCCATGAGTGTTGCTCCCTCACGGTATAGACATAACCAGAACGTCACAATAACTTACTCTACTTAGACTTGCCAAGGCCTCCGGGAACAC
Celera SNP ID:            hCV29090642
SNP Position Genomic:     12259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49230):
AAATCATATCATTGCTTAGAAGTAAGTTAAATTTCAAAAATCAATTTAAAGTATATTGAAAGTAGATTAATAGTGGTACTGTCAATACTTACATATGAAT
S
ACTGAAATACTGGAAGGCTTTGCATGTAAGAAAAGCAGAACTTTAAAGACAAACGGAACTCAGAGTGGATAGTACCCCTGAATGGACAGTGCTTCACGAG
Celera SNP ID:            hCV2852635
SNP Position Genomic:     753069
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49231):
TAATTATAAATGTAAAACCTCTAGCTCATGCTGGTAATCCAGAAATATTAGTGGGGGTGGTAGCACAGAAGGCTTGCTACAGGTGGCCTTGGTATTCTGG
S
AGAAGGCATTTCTACACAGTTTCACTCTTTCTGGGAAGTTCTGGGGAGAGTTTCTGCCAGAGACCAGGACCTTCATGGGAACACATTTTCTTTTCTAGTG
Celera SNP ID:            hCV2845418
SNP Position Genomic:     1054118
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49232):
TCAATAGCCACTCTGTAGGGAGAATTCTGGAAAATTATCCTACCTGCAAAATGTAATGTGAAATATCTGACATGAGCTGTGTGGAGCTGAGTAGGGAAGT
K
GGGAGAATAAACCACACTTCCTGGGTTTGCCTCTCGTCTCAGCCACTTACCAGCTAGATAACTGAGGTGATGGGCAAGCGGCTTTACCTCCCTGGGCCTC
Celera SNP ID:            hCV27941124
SNP Position Genomic:     855663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49233):
GTGTAAGAGTCATGCAGAGAAGTGACACGCTGCAGCTCTGAGTCAGTACGAGCCCTGGCACACCAGTGTGTTGGTACAAAATGTCATCACGCACCAGCAG
Y
CAAGGGACTCTGAAACCCTGGGATCATATAGAGGCCTGCATACCCTCTCTGTCAGCAGTCCTCAACCATTTTGGTACCAGGGACCGGTTTCGTGGAAGAC
Celera SNP ID:            hCV29090643
SNP Position Genomic:     11622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49234):
CGACATGACTTCTTAATCTTCCTTAGTGAGCTCAATTATTCCTTAAAAACACACACAACATAGTTATTGGTGTGAAACCCTCTGTGACCCTTGCTAACTC
R
CACACTGACCCTCTCTATGGCAACAAGTAGAACAAGGAGGAAATGTAATTATAAATGTAAAACCTCTAGCTCATGCTGGTAATCCAGAAATATTAGTGGG
Celera SNP ID:            hCV2845419
SNP Position Genomic:     1053972
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49235):
GTGTGTACATATACCCCAATTTAGCAAGGCGGTTTGGAGCATGCCTCAGACAGAAAGGATTCAGACAGATCCTTCCTGCCATCTGCTAGTGGTACCAACC
Y
GGGCAAGTTGTTTAACCTCTTTGAGCTTCCAAGTTCTCCATTGTAAAATAATCTGCTGCCTTCCTAGGACTGCTGAGTGGATAGGATTGCATTCAACAGG
Celera SNP ID:            hCV29090644
SNP Position Genomic:     7895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49236):
AAGACAGGGAACCAGCAGGCCAGGCCATGCAAGCCTTGCAGCTAAAAGACAGGGAACCAGCAGGCCAGGCCGAGCCAAGCCAATAGTCACTGACCCACTC
Y
GCATCCAAGATCCCTGAGGCAAAATCTGAAAACACACATGTTAGGAAAGACATTTGTCTCTCTCCCAGATTTCTGATTTGACAGGTCATGGCACCCTAAA
Celera SNP ID:            hCV27941125
SNP Position Genomic:     839672
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49237):
CAGTCACCTCTGCACCTCAGAGATTTCGGGAAGTTTGAGTGCAGGAAAGCAGCGCTCCGAGGCCAGGCCTGGGGTGCTGGCCGCTGCGGGGGGCACGCCC
W
GCGCTGCTCAGGGGCCTGTGGTTTCGGAGAGCACCCCGATCCAGTCCCCCATCGCCTCTCTGGCAGGCGTTGGGACTTGGAGTGAGCTGGCAGCCTGCAA
Celera SNP ID:            hCV29090645
SNP Position Genomic:     7176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49238):
GGTATTTCTATATGCAAAGCTGAGACAACACTTGGAAAGTAATTACCATAGTCCCTGGTTAATAGTAAGCTTTCAATGAGTGTTGGCTAGCATTCATGCC
S
GTAAGTTATCCTCTTGCCTAGAGCAGTGATGGCTCTAATGTGAGTTCAGATCCCTACAATAGGAGAAACAGTGCTTGTTGCTTTTCAAAAAGCAGAGAAT
Celera SNP ID:            hCV29090649
SNP Position Genomic:     331474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49239):
AAGAATCAAATGGCTTTTTAAAGTACCCCTAGTGTTTTTTGATGCAGAAATTTCTTGTGATCAAATACGTGTGCAAAGATCCAGCAACAAGGGTTTTTGT
Y
GGATCTTTGTTTAAAGCACCAAATGAAATGGCCAACCAGTGGGGGTTTGTTCAATAAATTATGGTATATTCCTACACTGGTATTCTATTAAATCATGTAA
Celera SNP ID:            hCV29183002
SNP Position Genomic:     881003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49240):
TTGGGGGGAAATGCAAATCAATACTGGTCATTTGTTGAGTATTTTGTCAATAAGAATCAAATGGCTTTTTAAAGTACCCCTAGTGTTTTTTGATGCAGAA
R
TTTCTTGTGATCAAATACGTGTGCAAAGATCCAGCAACAAGGGTTTTTGTCGGATCTTTGTTTAAAGCACCAAATGAAATGGCCAACCAGTGGGGGTTTG
Celera SNP ID:            hCV29183003
SNP Position Genomic:     880952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49241):
CTGCTGTCCCCTTTAGATGGGACATGTGCTCCCACCTCGATTACGTTTCCACGTGCATGGGCCCCTCTGGTCCTGCCCTTTCCTGAGTTTGAGGTCCACC
S
TGTAGCTTACCATAAGCTACTTTAAGTAGAAGACCCTCGCGGACCTCCAAACACAGCATCCTTAAACCAACTCGTGGATTCCTACCCATCCTTCACTCTC
Celera SNP ID:            hCV29183004
SNP Position Genomic:     869439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49242):
TGTGTAAGCATGTTCACAAAAATGGTATCACTATCCCCCTGTGGGTAAGGAAAGTTAAAACGTGCCACATTTCACATCAGTTTCTGTATACTTCAAGTTG
Y
TACCTAGACCACTGTTTGAGAACGCTGATTCCATGACAAGGTCAATGGGAAACAGAACCATGTTGTTCCTGCTGCCATCCAAAGGCAAGGGGGCTGCATG
Celera SNP ID:            hCV29183005
SNP Position Genomic:     866786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49243):
CAGAAATATATAGTTACACTTAAATGCACACACATATATACATACAAATATAGAGTGGGTGCAGTGGCTCACACCTGTAACTCCAGCACTTTGGGAGGCC
R
AGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAAATGATGAAACCCTGTCTTTGCTAAAAATACAAAAAAACAGCCAGGTGTGGT
Celera SNP ID:            hCV10075080
SNP Position Genomic:     196613
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49244):
CCTCCTCCTATGTCTTTGGCCACATGGAGCTCCCTTTAGCATGTCCCTGGGTAAGATCGCAGGCCTGAAATCTGCCTCTGATTTCTGATGGGGATATCCT
Y
AAGTTTGCCTAGATCAGGAAGTTTAATATGTGTCACATTTCACATCAGTTTCCATAGACTGTGAGTGGCTGCCTAGACCACTGTTGGATAACACTAATTC
Celera SNP ID:            hCV29183006
SNP Position Genomic:     865686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49245):
TCACGCAGCTTGAAAAGACTTGAACCCAGATATGTCACCTCAGAGTCGTTGTCTTCAATGCTGCAAACCTATTTACATAACTCAGGCACAATGCGGTTCC
Y
TCAGAGGCGCGATTTCCTCCAGAGTAAATCCAGTGATGCATTCGTGTCTGGGTGAAGACAAACACGGGGCTTAAGACCGAGTTCACCTGTTCCCTAACAA
Celera SNP ID:            hCV29183007
SNP Position Genomic:     865125
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49246):
TTGTAAAATGCACCAATCAGTGCTCTGTAGCTACCTAGAGGTTTGTAAAATGCACCAATCAGTGCTCTGTAAAAACGCACCAATCTGCACTCTGTGGCTC
K
CTAGAGGTTTGTAAAATGGACCAATCAGCACTCTGTAAAGTGGGCCAATCAGCACTCTGTAAAATAGACCAATCAGCAGGACATGGGTGGGGACAAATAA
Celera SNP ID:            hCV26216990
SNP Position Genomic:     595238
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,12)      total(G,12|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49247):
AACAAACCTGTACGTTGTGCACATGTACCATAGAACTTAAAGTGTAATAATAATAAAAAATAATAAATAAATAAAAATAAAAATAGAAAAACAGAGCAAG
A
AAAAAAAAAGAAAAAGAAAAAAAAAAAAGGAGAGAGCCTGCAGGTGAATGTGTTGCCATCATAATAGCGCCAATGTTTCTGTTGTTTAAAGTTAAGTGCT
Celera SNP ID:            hCV26216991
SNP Position Genomic:     601976
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49248):
CCATAACCTTTTGTTTCTCCCAATTTTCTCTCTCATGGAAACAACTCCCATGGAAACAATCACACACACACACACACACACACACACACACACACACTCA
Y
GTGGTTACCTTTTTGCCAGTTTTCCAGCCTCCTGGACTGAACAGTCTAGAAGAGGGATCCAACATGGACTGGAAGAGGGGAATCCAACATGGACTGCTGT
Celera SNP ID:            hCV11440613
SNP Position Genomic:     807912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49249):
ACAACCAAAGGGGAATGTTGAAAACAGGGAAACCGAGGCTCAGAGAGAGATGAATAATGTGGCCACGGTCACGCAGCTTGAAAAGACTTGAACCCAGATA
Y
GTCACCTCAGAGTCGTTGTCTTCAATGCTGCAAACCTATTTACATAACTCAGGCACAATGCGGTTCCCTCAGAGGCGCGATTTCCTCCAGAGTAAATCCA
Celera SNP ID:            hCV29183008
SNP Position Genomic:     865057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49250):
GCGGCTCATTAGGCAGAACCCGTCCTTTCTCTTTGCTAAAGTTAGGGAGGAAACAAATGCCTGCCGAACAGAAGGAGGAGATGAGAGGATCTGTCAGCCA
K
GGAGAGGTACAGCTACCAGAAAAGCACTGGACAGTTTCCTCTAATCCTTGGGAACTTTAATCGTCTCCTCAATAATTCTCATTTTGAGAGGATCTCAAAG
Celera SNP ID:            hCV11672247
SNP Position Genomic:     189415
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,7)      total(G,7|T,5) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49251):
TTAGAAAACACAGAGACCTTGGAGCATAGTGATTGTTGTGTTTTTAAATTTCATTGGTTTAATTGTCGTTTAAAAGTAAGGTTTTTTTTGTTGTTGTTGG
T
TTGTTTGTTTGTTTTTTTTATTAGGAAAACATTCTCTTCATCACATAGCCCTAAATCAATCAACATATTTTAAGAGAACTGAAATGGTTTTGGGGTAACT
Celera SNP ID:            hCV26216992
SNP Position Genomic:     561458
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49252):
ATGCATTGAGATTCTAGGGCTCTGGATTCTGGTTCAGTTTTCCTGTCTCCTTTCAGCATTTGAGTGATTTCTGCATCCGATTTAAAGGGTCAGTTTCTTG
R
TTTTCATTATTCCAATAATGTTTCTCTCCCCCTCATTTGAGAAGCCAACTCATAAGACTAAACTCTAGTCCTTGCTAATATGCCAACTACTCTAATTCCA
Celera SNP ID:            hCV11440614
SNP Position Genomic:     807682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49253):
CGGTATTCTATAGAATTAACGTTTTGTGATGGAGTGAGAGGGTGTCAAGTCGAATAAATGTCTGAAAATATTCTTGGGGGAAGGTGTTAATGGAAACACA
R
GAGGCTCAGAGAGCATTGATTCACTCAATGCCTCCAACAACCCATGAGAGAAGAGCCATTTTGTCAATGAAAAGTTGAGGTGGGGCGTGATGGCTCACAT
Celera SNP ID:            hCV29183009
SNP Position Genomic:     861870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49254):
GTCCGCTTGCCAGAGGACTGGAGTGGTGGTTGTCATCTACCACATTGTGATGACATGAGTGCTATTTTTTTAATTCCATGGGTTTTTGGGGAACAGGTGG
Y
GTTTGGTTGCATGAGTAAGTTCTTTAGTGGTGGTTTGTAAGATTTTGCTGCACCCATCACACGAGCAGTATACACTGAACCCAGTTTGTAGCCTTTTATT
Celera SNP ID:            hCV26216993
SNP Position Genomic:     605206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49255):
TCTGGGTTTCCACCCTAATGCATTGAGATTCTAGGGCTCTGGATTCTGGTTCAGTTTTCCTGTCTCCTTTCAGCATTTGAGTGATTTCTGCATCCGATTT
R
AAGGGTCAGTTTCTTGATTTTCATTATTCCAATAATGTTTCTCTCCCCCTCATTTGAGAAGCCAACTCATAAGACTAAACTCTAGTCCTTGCTAATATGC
Celera SNP ID:            hCV11440615
SNP Position Genomic:     807665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49256):
TCATTCTTTTGCCTTTGCATCCTCACAACTTAGCTCCTAATTATGAGTGAGAACATATGATGTTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAA
K
AGTCTTCAATCCCATCCAGATTGTTGCAAATGCCATTAATTCACTCCTTTTGACTGCTGAGTACTATTCTACCATATATATATGTATGTATACACACACC
Celera SNP ID:            hCV26216994
SNP Position Genomic:     605459
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49257):
GAATTGTTGTATCTTTCCGCCATGAGATAAATCCTAATCATAGAAGAAAACCAGATATCTAATGCCGCTTTCCCTTCCAAATGTGGACATGATAGGATTG
M
CATCATTTGCCTCATGTCTGTTGTTGGAGCATAACAAGAATGAGCAAGTGTGTGAGTGCCAGGCATACATAACTGAAAAAAAAAAGCTTCTTCCACACCA
Celera SNP ID:            hCV2845421
SNP Position Genomic:     1047305
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49258):
TATGATGTTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAATAGTCTTCAATCCCATCCAGATTGTTGCAAATGCCATTAATTCACTCCTTTTGAC
K
GCTGAGTACTATTCTACCATATATATATGTATGTATACACACACCACAGTTTCTTTATTCACTCATTGATTGATGGGCATTTGGGCTGGTTTCATATTTT
Celera SNP ID:            hCV26216995
SNP Position Genomic:     605514
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49259):
ACCACTCCGCATCTTCAAAGAAAACAAATCATTTACAGAATTTTAATCAGATAAAGAGAGGAGAAGGCTGGGCACAGTGGCTCATGCCTGTAATGCCAGC
R
ACTTGGGAGGCCAAGGCAGGAAGATCACTTGAGCCTAAGAGTTTGAGACCAGCCTGGGCAACTTAGTAGGACTCCCATCTCTACAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV2845422
SNP Position Genomic:     1046121
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49260):
TCACCGTCGTCACCATCATCACTACCACCTGCTAGAAACTTCGGGGGGCGGGGGGTGGGGGGGAATGACTCATCATCTCATCTCTGCACTCCTGAAGCTC
M
AACTCAGCACAGGATACAACGAAAGGATAATGTGATGCTTGGTACCAAGACTTTAAGGACATTCAGGAGCGGACAGAAAACATGACCTAAAAGAGAGGGA
Celera SNP ID:            hCV10075088
SNP Position Genomic:     195905
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49261):
GCAGTTTTCACCCAAGAAGACCTGGGTAGTGAATGGGATTAGTCCAAACTCATAGTGAAGATATTAAATATACCTTGGGATGAAAAGAGTAGCAGGAATG
Y
GGACTTGTGGGAGGAGGGCAGGCCATACCGGGCCTCACAGGGCAGGATAAGGTGCTTGGATTTTACTCTAAGGAAGCCTCAGCCTCAGAGGGTTCTCAGG
Celera SNP ID:            hCV26216996
SNP Position Genomic:     610379
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49262):
TCATGGTTACTGGAATTCTCACCTCTAGCATCTGATTTCTTTCTTTCCTGTGTGAGCTACCTCCCATGGGCATTAAAAATCAAGTCTCTGACACCACTCC
R
CATCTTCAAAGAAAACAAATCATTTACAGAATTTTAATCAGATAAAGAGAGGAGAAGGCTGGGCACAGTGGCTCATGCCTGTAATGCCAGCAACTTGGGA
Celera SNP ID:            hCV2845423
SNP Position Genomic:     1046029
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49263):
TGAGATCAGGATGTTTATAAAAGAATGTGACACAGAAACAGAAAACCAAATACCGCATGTTCTAACTTATAAGTGGGAGCTAAACAATGAGAACACATGG
V
CACAAGGCGGGCTTTTCAGAGGGTAGAGGGTAGGAGAAGGGAGAGGATCAGGAAACATAACTAATGGGTGCTAGGCTTAATACCTGATTGATGAAATAAT
Celera SNP ID:            hCV26216997
SNP Position Genomic:     613361
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|G,2|-,6)   total(G,2|A,2|C,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49264):
GTGGACTGAACAGTCTAGAAGAGGAAAATCCAACATGGACTGAACAGTCTAGAAGAGGAAAATCCAACATGGACTGGACAGTCTAGAAGAGGGAAATCCA
R
CATGGACTGCTGTGCACCAGCCTACATCATAGTCACGTGGTTAGCATTGGTTGCATATCTGCAGTAGCCTAGAGTTTAATCACACAAGCAGCCTTGGAGC
Celera SNP ID:            hCV11440619
SNP Position Genomic:     805677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49265):
CTCTTTTGTAAATTTTTCTCTCAATTTCTCCATTCTTTTGCTTCTCCATGCATATTGGATTTCTCTGATAATTTATCCTTATCCAAATGACAAAAAATGG
Y
CACCCCTTGCACAAATGCTGGGAAACCTATATTTCTCTTAGTTCAAATTTATCAAAGAAATAATCCCATTTTTCATGAATCAACTGATGGAGTGGTTACC
Celera SNP ID:            hCV2845424
SNP Position Genomic:     1045278
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49266):
GTTTACAACAAACCCCCATGACACAAGTTTGCCTGTGTAACAAGCCTGCCCTTGTACCCTTGAAATTAAAAGTGTTTTCTTTTTTTTTTTTTTTTTTTTT
A
AAAAAAAAAAAAAAGGCTGGGCACGGTGGCTCATGCCTGTAATCTGAGTGCCTTGGGAAGCCGAGCCGAGCAGATCACTTGAGGTCAGGAGTTCAAGACC
Celera SNP ID:            hCV26216998
SNP Position Genomic:     613562
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49267):
TCCTTTCAACCCAGGATCACCCTGGGTGGGTGGGTCACATGGGGCAGGACATCAGTGAGGGGGACATTAGTATCAGTCCAGGATCAAGAACCACACTACC
W
GGGATGCCAATGGGTTTTGGAGAGGACTCTTCACTCAGGACGTTTCTTTCTTGTTGAGATGCTATTCCTTATTATTTTTGAACTATTTCCACATTCGAGT
Celera SNP ID:            hCV2845425
SNP Position Genomic:     1044314
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,6)   total(A,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49268):
TGGTATTTCTATATGCAAAGCTGAGACAACACTTGGAAAGTAATTACCATAGTCCCTGGTTAATAGTAAGCTTTCAATGAGTGTTGGCTAGCATTCATGC
M
CGTAAGTTATCCTCTTGCCTAGAGCAGTGATGGCTCTAATGTGAGTTCAGATCCCTACAATAGGAGAAACAGTGCTTGTTGCTTTTCAAAAAGCAGAGAA
Celera SNP ID:            hCV29090650
SNP Position Genomic:     331473
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49269):
CAGGAGAATCGCTTGAACCTGGGAGGCAGAAGTTGCAGTGAGCCAAGATTGCGCCAGCTGCACTCCAGCCTGGGCAACAGCAGGACTCTGTCTCAAAAAA
Y
GACAACAACAACAACAAACAAACAAAAAAAAAAAAAAGTGTGGCACCTCCCTTCCCCCACACACTTTGCTCTTGCCTTTGCCATGTTATACGCCTGCATC
Celera SNP ID:            hCV26216999
SNP Position Genomic:     613864
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49270):
GCTTAAAGAAAGTACCTTGCGCTGTGTGTTCCTCCATTAGCATTTGTTATTATGAAAGCATTAGACTATCTCTGGATGTTTTCCACACACCTGAGAGTGT
S
AAAGAATGACAGGTACCTCATTAAAGATGCATAATATCTAGTCTCCTGTTCTCACACAGACTCCAACCACTGGTATGAATATACTGCTTCCATATGAGCC
Celera SNP ID:            hCV2852643
SNP Position Genomic:     756111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,9)      total(G,9|C,3) ;JBIC-allele(C,103|G,1394)   total(G,1394|C,103)no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49271):
TAGGAACATCATTTTCCTTTCAACCCAGGATCACCCTGGGTGGGTGGGTCACATGGGGCAGGACATCAGTGAGGGGGACATTAGTATCAGTCCAGGATCA
R
GAACCACACTACCTGGGATGCCAATGGGTTTTGGAGAGGACTCTTCACTCAGGACGTTTCTTTCTTGTTGAGATGCTATTCCTTATTATTTTTGAACTAT
Celera SNP ID:            hCV2845426
SNP Position Genomic:     1044300
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49272):
TTTGTTATTATGAAAGCATTAGACTATCTCTGGATGTTTTCCACACACCTGAGAGTGTGAAAGAATGACAGGTACCTCATTAAAGATGCATAATATCTAG
Y
CTCCTGTTCTCACACAGACTCCAACCACTGGTATGAATATACTGCTTCCATATGAGCCTGCTGCAAGCCAGCCAGATCCTATTCAGAATATCTCCTTTCT
Celera SNP ID:            hCV2852644
SNP Position Genomic:     756153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(C,91|T,1220)   total(C,91|T,1220) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49273):
ACAAATGTGTTTTGCATTTTCTTTCATTTTTTAAAGAGAGAAACTCAAGTGAAGGAGAGCTACTAACGTCCAATGAAATAAAGTATCCAAGCCTGAAATT
S
AAGAAAAAAAAATGTAGGCATATTTGCTCTTTGGTTTTTATTTTTCTGTCACCATCTAATGTAATATTTATTTAATCATTCCCCTAAGGCAATGATTTTC
Celera SNP ID:            hCV2845427
SNP Position Genomic:     1043134
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49274):
GTTGTGCTGGGGCTGAATTAAATGTGCAATTACTGCACATTTTCTCGAAAGGAGTTTTGACAATGATAAATGCATAGACATTTTTCCACACTCAGACAAC
R
TGACTCCTTGCTCATCAAGTGGCTCAGGATTCACTTTGAAGAACTGGTCTCTTGTTAACAGGAGAACGTGGGTGCTGCCCGAGAAGCGCATGGGCCTGAG
Celera SNP ID:            hCV29090652
SNP Position Genomic:     331157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49275):
AACCACTGGTATGAATATACTGCTTCCATATGAGCCTGCTGCAAGCCAGCCAGATCCTATTCAGAATATCTCCTTTCTACCACATCCAAATGTGGGCAGC
M
TATATATACAGATTTGAAGTGCAAAGGGTTTGAGTCAACTTTTTGATAACCGTGGGGATTTTCCATCTCAAGAAATTCCGAAAATGATGTAATGATATAA
Celera SNP ID:            hCV2852645
SNP Position Genomic:     756276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49276):
CCAACTAGAATTTGCCCCACTTCATTGAATTCCCTACTCCTTTAAATATGCAGAATTGCATAAGCCAAACTCCAGTGTCTTTAGAAAGCAGACTATGTTA
Y
TGTTTCTTGAAAAGCCATTCTTCCTCCAGATTCAGATGTTGGTGGTCAAATGAGTATCTCTACAGAAAATCTCTCTGCTTCTCCGAATTAAACTATTTTC
Celera SNP ID:            hCV2845428
SNP Position Genomic:     1042915
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49277):
AATGTAGCAGAATTTTAATTTAGTAGGTAGGATTAAGAGCTGACAAATTTCCTCTCTTTAAGTTTCTTTAATTCTGTCTGTGCAAGTCAGAGCATTCGGT
R
TATTCCCACCCTCCCAGCTGATATGCTAAAATTGGTTTCACTGTACTACTCTCAGGCATGCAATGAGCTAGGCAAAGCTGTTTAGTTACTTGCGATCTGT
Celera SNP ID:            hCV2852646
SNP Position Genomic:     756475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49278):
GTACCCTTTGGACCCGCTACCATGCATGGTGGCTTTGAAAAAGCCAGGCATTTGCTTCCTAAGAGCACACCTTGCAGAAGCAGCATCACCATCATCACTA
Y
GATTTATCCAGCCTTTGCTCTATGGTAGATGCTGTGCAAGTGCTTTCGGTCTCATCCTGAAACAACTATTGATATAGATGCCACATAGATGACAAAACAA
Celera SNP ID:            hCV2852649
SNP Position Genomic:     759504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49279):
ATACAAAATTAGCTGGGTGTGATGGCACATGCCTGTCATCCCAGCTACTCAGGAAGGCTGAGGCAGGAAAATCGCTTGAACCCGGGAGGCGGAGGTTGCC
R
TAAGCCAAGATCGTGCCGTTGCGCTCCAGCCTGGGCAACAAGAGTGAAACTCCACCTCAAAAAATAAAAAAGAGTTAAGGGCAGGCTGTCTTGGACACAT
Celera SNP ID:            hCV438246
SNP Position Genomic:     523196
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49280):
TCATTAGGACCATCAAAACAATTGTGTTAAAATCTCAGGGACAAGAATGAGTGCAGGGATTGTAAGCTCCTCTGCTGGGTGCTTCGTTCTGCTCTTCTAT
R
CAACCTGCTCTGCATCCTCTTGAGTGCTTTTTAAACTTCCCTCGTCTCCTCCTTCGTTTCCAGGCTTTCTCACCCACTACTCCTCTTTGCCGTTCCTCTG
Celera SNP ID:            hCV438247
SNP Position Genomic:     523877
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49281):
GTGCTTCGTTCTGCTCTTCTATACAACCTGCTCTGCATCCTCTTGAGTGCTTTTTAAACTTCCCTCGTCTCCTCCTTCGTTTCCAGGCTTTCTCACCCAC
Y
ACTCCTCTTTGCCGTTCCTCTGCCTGACTCTATTAAGATAAACTAATCCTTGGAATTTGCTGCTTTGAAGTTGATGTCGGCTGGGAAACTCATACACAGG
Celera SNP ID:            hCV438248
SNP Position Genomic:     523955
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49282):
TAAGAAGCAGTAGTCCATTCTACCTGTCTGCCAATTTCTATGTTCTAGTTAAGGACATGGGAACACATGATCAGCAATACATGATCAGATATAATCACCA
Y
GAGACAAGGTGTGTTAACAACTTTACGTTCAGGGCCTGGAACATAATAGATGCACTGTATTTTTTGACTAAATAAATAGCTATTCCTGGAGGTGTGATGA
Celera SNP ID:            hCV438249
SNP Position Genomic:     524656
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49283):
TTTTCTTAAAAAATCAAAAGATGGCTGGACGCGGTGGCTCATACCTGTAATCCCAGCACTTTGGGAGGCCGAGTCGGGTGGATCACGAGGTCAGGAGATC
S
AGACCATCCTGACTAACATGGTGAAACCTCATCTCTACTAAAAATATAAAAAATTAGCCAGGCTTGGTGGTCCCAGCTGCTTGAGGCAGAAGAATGGCAT
Celera SNP ID:            hCV29183010
SNP Position Genomic:     859883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49284):
CAAAAAAAACTCTTAAATTGGTTAAACAAACAAAAAAAACCACACCGTGTCCTTTTGTTGTTTTTAAGGGTTTATGGAAAAATATATTGGAGAGTTACAA
Y
TACTTCAGGCTAATTCAATATAAAGAGTATTTTTATTATTAGTTTGGAATATTAAAGTTTCCACTTAAAATTGATTTTTTGAAGTGTTTTCAGGCAACAT
Celera SNP ID:            hCV29183011
SNP Position Genomic:     858681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49285):
TCCACCTCTCCTAATTCCTCCCCAACACTTCCCAACATCATCGCCATTAACAACTGTGTGTAGTCCTCTTATATTTTCCTTTCCTTAAATATAACTACAT
R
TCTACAGACAGGTCTTTGTTTTGATATGATTTTACAAACCTATGGAGTTATAGAATGGAGTTCATCTTATAACTCATCTCCCCCCACTACAAAAAATCTT
Celera SNP ID:            hCV29183012
SNP Position Genomic:     840361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49286):
GAATCACATGAGGTCAGGAGTTCGAGACCAGCCTGGCTAACATGGCCAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTCGTTTTGCATGC
M
TGTCATCCCAGCTACTGAGGAGGCTGAGGAAGGATAATCAATTGAACCTGGGAGGCAGAGGTTGCAGTAAGCCGAGATCGTGCCCCTGCACTCCAGCCTG
Celera SNP ID:            hCV440524
SNP Position Genomic:     480517
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49287):
CCCAGGCTGGCTCCAACTCAAGATCTGCTGCTTCTCCTGTACTTGACACCTGGTTCTTTGGGCTGTTCCTTTGTTGATCTGTTATTGTTTACTTTTTAGT
Y
GCCTTTGAATTACCAAACTAAGTCATTCTTGTAGCAAAATCTCAAGCACAGAAATGACTACATTAAAATGAGCCTTCCACCTCTCCTAATTCCTCCCCAA
Celera SNP ID:            hCV29183013
SNP Position Genomic:     840185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49288):
AACCCCAGGGCTTTCCTCGTCTGCTGGGACGTCTCTGTCTTCCTGTGCCTGCTCCTGCTGGATCCAGGATCCCAGGCTGGCTCCAACTCAAGATCTGCTG
Y
TTCTCCTGTACTTGACACCTGGTTCTTTGGGCTGTTCCTTTGTTGATCTGTTATTGTTTACTTTTTAGTTGCCTTTGAATTACCAAACTAAGTCATTCTT
Celera SNP ID:            hCV29183014
SNP Position Genomic:     840115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49289):
TTTCAAAAGCTCCCCAGGGAATTTTGCTTTTCCAGCAGGCGTCTGAGAACCCTCATCGGACATACGCAGTGATGCTGGTAAAGCCTGAGCAGAAACAAAA
S
AGGGTCCCGGGGGCAGAATGGGAGGCAGCTCTGGGTCTCTTAAGATGGCCCTGGTGTGCTAAGTGCACCAGAGGTAGGAACTCACCCACTGTCGCCATTA
Celera SNP ID:            hCV29183015
SNP Position Genomic:     839880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49290):
CTTCTTGTGCTCTTCTCTGCTTCCAGCTGCGTTTTCCTCAAAGGCTTTCTGGTATCCGTCAATCCCTAGATCTCTAAGAACCTTGAGCTTTGCAATTTAT
S
CCTCTTCAGAATCCTATATGTCAGTGGCATTGGCGGAGTGGGTGGACACCTGGACAACTGTTCCTGCTTTCCATTCGTTTTCCTTTGTCACTTAAAGTGC
Celera SNP ID:            hCV29183016
SNP Position Genomic:     837572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49291):
ACATGCTATAGAGAAATCATTCGTGAAAGGAAGAGTCGATAGATTGGCAAACCTCGTTGTTTTCTTATTTTAAGAAATTGCCACAGCCTCCCCAACCTTC
R
CAACCGCCACCCTCATCACTCAGCAGCCACCAAAATGGAGGCAAGACCCTCACCAGCAAAAAGACAACCACTTGTTGAAGGCTCAGAGATCATTAGCATT
Celera SNP ID:            hCV7624781
SNP Position Genomic:     229782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49292):
CACCACTTACGATCCAGTCAACCTTTTTAACTGTCAGTGCTTCCAGTCTTTGCCGAAATACACAGCATTAAAATTCATAAGTCAACCCATGTCCGTGCGT
S
CTTTTTCTCTCCCATATCCAGTTGGTCACTTGCTTCATGCTGATCCATCCATAGCGGTCGTGGTCCACACTCCAGCCCTCCTTTACATCCTCCAGACAGA
Celera SNP ID:            hCV11440622
SNP Position Genomic:     792373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49293):
TTTGTGTATTCCCACGCAGGAGCTTCAGCCATTGCTACACGTGGCTCCTTCTTGTGCTCTTCTCTGCTTCCAGCTGCGTTTTCCTCAAAGGCTTTCTGGT
R
TCCGTCAATCCCTAGATCTCTAAGAACCTTGAGCTTTGCAATTTATCCCTCTTCAGAATCCTATATGTCAGTGGCATTGGCGGAGTGGGTGGACACCTGG
Celera SNP ID:            hCV29183017
SNP Position Genomic:     837525
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49294):
AGCAAGTTTATGGGTGCTGTTTTTCCAACAGTATGTGATCACTTTGTGTCTCTGTCTCATGTTTTGATAATTCTCCCGGTTTCTTTCCTTTTTTTAAATT
R
TTACTTTGTCTATTTTGGTGATGTCTGATCAGTGACCTTTGATGTTACTATTGTGATTTTTTTTTTTTTGGGTGGGGGGAGGCACCACAAACTGTGCCCA
Celera SNP ID:            hCV7624782
SNP Position Genomic:     227554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49295):
AAAGCTTGCCATGAGTCTGTAGTGCCAGCTCAAATGGCATCATGCTGTGCTCCTGCCTTCCCAAGCAGGGTGTGCACGCAGGCACCCTCTGAAGGCTAGG
Y
TCTAGATATCCTCTCATCTTTATCTTTGCAACTTTATCCTGGCTTCTAAGGGGCATGGGTGTTTCACTGTCACTATCTGTGGAAAAATTGATTCAGTCTG
Celera SNP ID:            hCV29183018
SNP Position Genomic:     835888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49296):
GAGTGCCCACTAACAACTGCCAAATTTAGTCATCCAAATCACCACGACAATAAGCTCCAGGTATTGAAACATCAAGACTGAAGCCACCACTTACGATCCA
R
TCAACCTTTTTAACTGTCAGTGCTTCCAGTCTTTGCCGAAATACACAGCATTAAAATTCATAAGTCAACCCATGTCCGTGCGTCCTTTTTCTCTCCCATA
Celera SNP ID:            hCV11440624
SNP Position Genomic:     792289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49297):
AAAGGGCTGTCATGAAGAGCAAATGAATTAATACAGCACATGCTTAGGAGGGTAATAGCTGAGCATGAGCTATTGCTGTTATCTGTATTTTCTAGTTTGG
R
TGCAGTGGCCACATGTTATTTTTGTAATTTAGAAAACCAATTCTGTTAATCTTTTTTTTTTGAGACGAAGTCTCGCTATTATTGCTCAAGCTGTAGTGCA
Celera SNP ID:            hCV29183019
SNP Position Genomic:     881667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49298):
GTAAATATTTATTGAGTACCCTGTATGTGTAGGTAGTGGTGATACAGCAGTGGACACACAGACAAAAATCCCTACTCTGAAGGAGCTTATATTCCGGGGG
R
AAAAAGAGAGGAAAATAAGTAAAATGTGTGCTGGTTTTGTGCATGAAGATGGCAAAGGCTATGGAGAAATCAAGGAGGATAGAGTTGGGGAGGAACAGTT
Celera SNP ID:            hCV10075096
SNP Position Genomic:     195431
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49299):
GGGCATGGAAGCTCTGCATACCTTTCCACATACCTTTCCCTATGCATCTCTTGGTGTGACTGTTCATCTATACTCTTTGTAATATTCTTTATAATAAATG
S
GTAAATATAAGTAAAGTGTTTTCCTGAGCACTTCTGTGAGTCACTGTAGCAAATTAATAGAAGTCAAAGAGGGGGTTGTGGGAACTCCAATTTATAGTGG
Celera SNP ID:            hCV10075097
SNP Position Genomic:     193715
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49300):
GGAATCAACCATGTATTTTTAGAAGGTTGGGGCTTTCATCATCCACCCCACCTCCAGGGAGGAAAGGGAGGCTGAAGACTGAGTTGATCACCAACGGTCA
S
TGAGATACTCAATCGTGCCTATGTAACAAAGCCTCCATGATAACCCCAAAGGACAGGGGTTAAAGGGCTTCCAGGTTGCTGAACCCATGGAGGTTTCTGG
Celera SNP ID:            hCV10075098
SNP Position Genomic:     193495
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49301):
AATTATTAGTTGTGTTTTGCAAATGAGGAAACTAAGGCAAAGAGAATTTAAGTAACTTGCTCAGGGTCACATAGAAACTAACTGGAAAAATTGAGATTTC
R
ACCCAGTTAGTCTAGCCTGCGAATCTTTACTCTGAGCTACTTTTTAACTGATTCTCAATGTATAGTCACATAGGTTGTAGTTTATTATATGTCCATGTGT
Celera SNP ID:            hCV7624787
SNP Position Genomic:     225628
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49302):
CAGTATCAGCTCTCATCGGGACATTATTATGTTCTAGTTGTCTGCAACGATAATATATGTGACTGTTATTTTGTCTCATATCTCCAATAAAGGGGTCCCC
K
TCAGTTGGATTGGCCATACCTTCAGGTGGGATGCAACTGTGAGTCTGTGTACATGGCCCAGAAGCAAATGCAGCACAGTGGAGTGATTAAGACTCTGATA
Celera SNP ID:            hCV2852650
SNP Position Genomic:     759871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49303):
ATAAAGTTCATCTATGCTCAGGATGACAGCCAACCAGTAGCTCCAAAGTGTTCCTTGACAATCATTTTCTACTTTACTGAACAGCCCACCTTCCTCTGCA
R
CAGACCGCTTCTTTGCTGGAGAGGCTGTGGGCTGGGGATATGGAGAACAAACTGATGAGTGAGGGATGTGTCTGCAGAATCAGTCAGTGGAAGAGATGAC
Celera SNP ID:            hCV2845435
SNP Position Genomic:     1040587
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49304):
ATCCTTTGCCTGTAATAGGAATAAGACAGCATGGTGTAAGGAATTACTTGATTTTAGAAGGCATTTCATCTCTCCAAGTCAATCTTTAGGGATCGACACT
R
CTGGTGGCTTATGAATTTCAGATGTGGTACATTCTGGGAATGCCAGCTCTTGGGCTCCAGGAAAGGTGATTAAAGGACAGGCTGATGCCAACATTTATGG
Celera SNP ID:            hCV2845436
SNP Position Genomic:     1039901
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49305):
CACTGAGCAGAGGCCCGAATGGCAAGATGGTGCCAGTACATGAAGACAAGAGTCTGTCAGAGAGAACGACACAGGTAGAGTCCTGCAGCTTGAGCAACTG
Y
TTACAAACCCATGGCAGAGCCCATGTGAATGAGGGAGAAAAGGCAGAGATGGGCAGATCCCAGAAGGCCTGGGAACCCATGGAAAAGGCTCTGGATTTTG
Celera SNP ID:            hCV2845437
SNP Position Genomic:     1038543
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49306):
TGTCTGATTTAGAATTTTGTAGGACGGATTCCTGTTGTTGAACACACTGAGTGATGAGAAACTTGGCAAATCTTGTTGGCAAATCTCTCACCTTGATTCC
S
TTTGGCATCCTTTGTGTCTGTCTGATCCTTCCAGCCTGGCCTTTGGATAGCAGGTACCCACTTCTTAGGATGTGCCAGACACCACGGTAAGAGTTTGATC
Celera SNP ID:            hCV2845438
SNP Position Genomic:     1038185
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49307):
ATTTATGTATCTATGTAGCATCTCACTCCCACATAGGGACAACACTCATGACAGAAGGGGCCTCCTATGGTTTGTCCGCTGCTGTGTCCGGCATTAAGAA
M
GGCGCTCAGCACGGCGTCATCAGCCATAAATATTTGTGGAATGTACAGACAGGGGATTGAAGGCTTGGATAGGGGAATATGTCCTTGGAGAGTGAAATGA
Celera SNP ID:            hCV2845439
SNP Position Genomic:     1036869
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49308):
GGACCCCACGCATACTGGAATAGGTCCACTCTAACGGCTTCCTCTTAACTCGATGACATGTGCACAGATTCTATTCCCAAATAAGGTCACTTTTGCAGAT
W
CCAGGGGTTAGGAGTTGGACGTTTCTTTTAGGGGGACACAATTCAACCCCTAAATGGGGATCTCCTGACAGTTCTTAATAGGGTCAATATTTCAATGCGT
Celera SNP ID:            hCV29090664
SNP Position Genomic:     328492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49309):
TGCGTCTCTGTCTTCACATGGCATTTTCTTATATGGACCCCACGCATACTGGAATAGGTCCACTCTAACGGCTTCCTCTTAACTCGATGACATGTGCACA
R
ATTCTATTCCCAAATAAGGTCACTTTTGCAGATACCAGGGGTTAGGAGTTGGACGTTTCTTTTAGGGGGACACAATTCAACCCCTAAATGGGGATCTCCT
Celera SNP ID:            hCV29090665
SNP Position Genomic:     328458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49310):
AACCCTCAAAGCCCTGGGATGCAGTTCTTCTGGATCTCAAGTCTTGAACACATTAAATGATAAGCTCTTTACAGACTTTCTCTTCCCAATTATTAAGCAG
S
AATTACCCTTCACATCACCTTCTCCCATATCACCTCTATAATTCCAACCACTCTCACCTAAAAAAGCTCACCTAAACCCACCACTTGTCTATCTGAGTCA
Celera SNP ID:            hCV2852658
SNP Position Genomic:     762941
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49311):
TCTCTGCTTTGTTCCTCACACAGTGTTCTCCCTGCGTCTCTGTCTTCACATGGCATTTTCTTATATGGACCCCACGCATACTGGAATAGGTCCACTCTAA
Y
GGCTTCCTCTTAACTCGATGACATGTGCACAGATTCTATTCCCAAATAAGGTCACTTTTGCAGATACCAGGGGTTAGGAGTTGGACGTTTCTTTTAGGGG
Celera SNP ID:            hCV29090666
SNP Position Genomic:     328426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49312):
AACACCTTCCTTCCTTTACTAGATCCAGGGTATTTTTCAACTGAATGCAGCCATTGCCACCCTATATTTGGCTTTTAGAGACAGACTGAAGTCTAACAAG
W
TGCTCCTTATACTTGAATTCACAAGTATAAAATCATATGGATGACTTGTGCACCTTGCTGTCATTCTGTGCAGAGCTCCGCCTGTGCACTCCTTCCCTCA
Celera SNP ID:            hCV2852659
SNP Position Genomic:     763211
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,9)   total(A,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49313):
GAAATCAAAGTGCTGTCAAGGGCCACACTACTTTCAGAGTGTCTAGGGGAGGATTCGGCCTCACCTTTTTTAGGTTCTGGCAGCCCCAGGTGTTCCTTGG
Y
TTGTAGCTGAATCACTGCAATCTCTGCTTTGTTCCTCACACAGTGTTCTCCCTGCGTCTCTGTCTTCACATGGCATTTTCTTATATGGACCCCACGCATA
Celera SNP ID:            hCV29090667
SNP Position Genomic:     328305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49314):
TAAAACAGAAACTACTTGTCTCATAGCTCTGGAAGCTAGAAGTCTGAAATCAAAGTGCTGTCAAGGGCCACACTACTTTCAGAGTGTCTAGGGGAGGATT
S
GGCCTCACCTTTTTTAGGTTCTGGCAGCCCCAGGTGTTCCTTGGCTTGTAGCTGAATCACTGCAATCTCTGCTTTGTTCCTCACACAGTGTTCTCCCTGC
Celera SNP ID:            hCV29090668
SNP Position Genomic:     328260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49315):
CTTTAAATTTTATGTCCCTGAAGGGTTAAGCTCTATGTTGGCTTTACCTGAACTCTCTCATCCTCACCCACCAGCAAGATGAAGGTAGGGTGGCCACTGA
Y
AGGTGACGTTCGTGAGGTGCATGGCTTTTCTGAAGATAAGCAGTAATTGAAGGAGGAGAATCAGATTTAAAGCCTGGGGCTGCAAGGATATGAGATTCAT
Celera SNP ID:            hCV27509693
SNP Position Genomic:     778012
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,196|T,1097)   total(C,196|T,1097) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49316):
AGATGAGCAGAAATTATTTGAGATGAAGCAGGAACAACCTGGGGCAGGGGCATTGAAGATTCTATTGCTGAATGAACAGCAGGGACCAAGGCCCAGGCGT
S
AGATAGCACAGCCAGCTGGTGAAAGTTCAAGTTAAGTGCATCAGCCAGGATGGGCCAGCTTATGCTGTCATAGTAAAGTACCCAAAATGCAGCGATTCAC
Celera SNP ID:            hCV16150359
SNP Position Genomic:     845123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49317):
CTGGTTTGTTTTGAAGAGAAAATGAGCTAATGCAAGGGAGAGGGAGCTCAGACCACAGATTTGTGCAGAGAAAGTGCCGAATAAGTGACGGCTGCTGTTT
Y
TGTTTTTATTCTGCGAGGAACTCTAATAGAAGAAAAAGAGCATTTGATGACTGAATCACCGGTCTTCGCTAGCAGGGCAGAGGCAGATAGTTCCCCCGCC
Celera SNP ID:            hCV29183020
SNP Position Genomic:     831821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49318):
ATCTTGGACAAATCCTTTATCCTCACTGCACCTTCGTTTTGTAAATAGGGACGTTAACGCTGGGACGTACTCTGCTGGTTTGTTTTGAAGAGAAAATGAG
S
TAATGCAAGGGAGAGGGAGCTCAGACCACAGATTTGTGCAGAGAAAGTGCCGAATAAGTGACGGCTGCTGTTTCTGTTTTTATTCTGCGAGGAACTCTAA
Celera SNP ID:            hCV29183021
SNP Position Genomic:     831747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49319):
CCCTTACCTGATCACACATCTTCGTCATGTCCTTCAGGGCCCCAGATCCTGTTCTAATGCAGAGCAGGAAGATGGTGACTTTTTGAAATTTCTGGAAATA
K
CACTCGGTGAATCAAAGCAAATTAATTCTCTCTTTTAGTCACTCTGAGCCTGGATTTCCAGTCCTTGGAATTTCGCTTCTACCAACAGTTCTTTCAGAGT
Celera SNP ID:            hCV29183022
SNP Position Genomic:     831403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49320):
TGAACACTTTGGGGTTCTAAAAGCCGTGATCAACCTTATTGGACATATGGCACTATGATGTCACATTCAACAATGAAAGGCACTTCAAGTTATAGGATCA
K
CTATTGCATTGGAGGTCAGGAAACTTTTTTTTTAAAGGGCCAAATAGTAAATCGTATAGACTTTCTTGGCCAACAGGCAAACTTGAAGATATTATTATCA
Celera SNP ID:            hCV29183023
SNP Position Genomic:     876870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49321):
CACAGAGCTGTGACTTGGACAGAAAATGAGTTAAGCTAAAGGAGAGATCGTCAGTGGCAAAGTTCAGGCGTTTTGGAGACAGGTTGAGACTGACAAGTTG
R
TTCTCGACATTTCTAGCCTGATGGAGAGAAGAGCTGAGGAGCTACCACTTGAATCTAAATTCTGAGCTTGTTAAATAGATTAATAAACCTCAGTCCGTAG
Celera SNP ID:            hCV29183024
SNP Position Genomic:     875798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49322):
GATATCAGGACGCAAAGATTGAGCTGCCTGCATTGGAGGTAAAGCAGATATGTCGACAGCACACGCATGCAAAGATGTGCTGTTCAAACCGAACCTTGAT
R
GCTGTGTGGAAACCTGGAGTGCGGAAGCAGAAGGAAGGGCATCGTGGGGAAAGGAGTGGCATGGACAAAGGCATGGCATATTCACATGCTACTTAAAGAC
Celera SNP ID:            hCV29183025
SNP Position Genomic:     875430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:49323):
CACCAAATATTTCAAAGGAATATATAGTGAAAATTCCTCCTATGTGCCTAAATCTTCCTCGGTACCCTTCCCCAGAACAGCCACTGTGTCTTCCCAGAAA
K
TGTGTTAAGAAACAAACATGTATATCCTTTTGTGCTGTGTTTTGTAGAAGTGGAAGCTTTCTGTGCAGCCAGTTTTGCATTGTGTTCCTCACCAACAGGA
Celera SNP ID:            hCV11440630
SNP Position Genomic:     786095
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,12)      total(G,1|T,12) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49324):
ACATGCAGAGAAACACCTAGATTTTGGATTCATTTACACATTCAGCAAATATTTATTGGGCATCTATGGTGTACCAGGCGCTGCACTGGACTCAGAGATA
W
AACAATCAGCCAAATGAACAAGTCTGGACCTTCAGGGACCCTCGTGGAGGTGTTACCTACAAGTGAGGAAAGGAAGACCAAAGTGTTTGTTAGTTAGTTA
Celera SNP ID:            hCV10076049
SNP Position Genomic:     70172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49325):
ACACAGCCAAATGTTTGCACCTATGTGTAATAAATCAACTTGAATTTAGGAGAAGTAAGATGATTCAGAAATGCATTTCTTTTTTTCCAGTGTCTCTTCT
R
CAGAATATTTTCTGAATCATAATCATTGCAGATTAAAAATCCCACAAAAAATGTTCATACAAGGAGTCAGGCTCTTGGCTCAGAAAATTCTGAAGAAGTT
Celera SNP ID:            hCV11440631
SNP Position Genomic:     785397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49326):
CTGAAATTTAGTTCCATGAGTGCAGGCCTCCTGCTGATGGCAATGGGGATTGGTGGGAGGGTTAGAGATGGGGAAGGCCAGGGTCTTTATCTTGTGGCCT
Y
ATTTGCTCCTCCACTCTGGATAAATTCTAGAAGAAGACCTTGATGAGTCTCAGGACTCCACTGGTAACCGTAACCACTTCCCCCATCCCTCTAAGTGTGA
Celera SNP ID:            hCV29183026
SNP Position Genomic:     874703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49327):
AAGGGCCAGCCTTTCAGGCAGGCCTTTCCAACATTGCAGTCTGCAATCTGCTTCGTAACTCTTTTCTGCCCAGGACTAGAGGTCATAAGGCCCCTACTAA
S
TCTCTGGCTTCATCCCCAGTACTACCTGTTAACCAACCTGACATTCCTCCCATCACCCCGCAGATCCTGGCCCCAAAGCCTTACCTTGGTGCTAGCAGCT
Celera SNP ID:            hCV7624791
SNP Position Genomic:     217053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49328):
CTCTGCCTGATACATAGCAACATTCCTGACTCCCGGAAGAAAAGCAAGAGTTCAGCATAAACCGAATAGTTCATACAAACATGAGGCACTTGGAGCCACT
S
TTACCAGTTATGGGCATGGGAATACTCTCCAAACCCAAGTTCCCAGATGCCAGCCAAGGGCCAGCCTTTCAGGCAGGCCTTTCCAACATTGCAGTCTGCA
Celera SNP ID:            hCV7624792
SNP Position Genomic:     216897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49329):
ATGTCTCAAGGACAACTTTATCTTTTATCAGACTCATTTCAGGGATTTCTGTATTCATTGCTCCTGGACTTTTCACATATTTGGGGAGCTTGATTGAGTT
Y
CCCTCAGCTCTTCCATTAGAAAGCCCATGTGGTACAGTGGCTCAGAGCTTGGGCTTAGGAATTCACAAATGTGAATCTGTGAATCTGAGCTCTGCATCTT
Celera SNP ID:            hCV8874733
SNP Position Genomic:     884634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,11)      total(C,11|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49330):
TGGGAATTAGTTTTAGCAAAGAGAGAGAGAGAGAGACAGAGAATATCATGGTGATGAGTGCTAGGACATTGTCAAGGCTCTTTTAAGTGTGACCACCAGG
K
GACAGCAGGAAAGATAGGAGAAGACCTAGAGTTCAACTTGGAGTACTGAAAGCCTTCCCTTTCCTTCTTTTCTCTCTGTGAAGGTTGTTTTCCTTCTTTG
Celera SNP ID:            hCV1178792
SNP Position Genomic:     800135
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49331):
GCAGGCCCATTTGGTAAATGAAGTGTCATATGGAGAATTTTCAGCAGATGCTTCTCTTCTGATAGGGAATGGCAAAGCCCCCTAAATTCATGAAACATAT
R
CAGGTGCCAGCCAACTTTGCACTGCCTTCATGACACCTCATCTGTTTTCTCAAACAGCCAAGCAGCACTCTGTGCCCTTAGTGAAGTAAGGGGGAATAGG
Celera SNP ID:            hCV1178793
SNP Position Genomic:     800343
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49332):
GGATAATGTGAAGGGAGATGAGAACAAGGGCTACATCTAGAACCTAGGAGGAACACTCATATTCCAGTACTGGAGGAGAAAGTGGCATAAGTCTAGAACC
S
TTCCAGAGAAGGAGAAAACTCTCAGGAAAGTATAGGATTAGTGAGGTGAAGAGAAGAATAAATATCCAGAAGAGGGTTAATTGTTTAAGCTATATTAAGC
Celera SNP ID:            hCV1178794
SNP Position Genomic:     802547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49333):
TTTATAAAAGGGATTATCAGCTGCTAATTCAAAAATTGTAGGGTAATGAAAACTACATCAATAATTTTCATAATAATTATAGTCTTTGGTTTTACCCTTG
M
ATGTTTTTCTGGCAACATCTGATTCAATTACCCCAGAAAATGTTACTATGCTCTTCCAGCATTTTCCTATGAGGTTTGAATCTATGACCAAATAAGTGAT
Celera SNP ID:            hCV2845441
SNP Position Genomic:     1033346
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49334):
CTTCTTATGATTTTTAATTATTCAGGACCAGATTACATGGCCACCCCTACTGTTGAGGAGACTAATGAAGTATTTGGCTTTTCCAGGCTTTGTTGTTAGC
S
TCCAGTAAGGATGCAATTGGAAATGGACTTTGTGGTGAACAGCCAACAAGATTGGCCACAGTGGAATTAACGACATCAGTGTTCTTTCAGACATTGAAAT
Celera SNP ID:            hCV1178795
SNP Position Genomic:     803089
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49335):
AATACACTTTAATCACACAATGGGAGGTGAGGAAATACGGGCCCCTCTTGTGAAGGGAACGAGAGGGTGGTTGGGCTCAGAGCTGCTTTTTCTTTGTTAC
R
CATGTTGTGGTTGTTTTCTAATTGGAGAGTCATGAACATGTTTATGGACCTGCAAGGAGAAATAAGTTGATGTGCAGGGAAGGAGGGCAGGAAGGGGTAA
Celera SNP ID:            hCV2845442
SNP Position Genomic:     1032483
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49336):
CCAGACAGAGTGGCTCAGGCCCTGTAAGCAACTGGTGTTAGGGCAGATAATGAGATTTTCTGGTGTCTGCTTGGTGACAAGAGTAGTGGCTTCAAGGAAT
K
TTTTTAAAAAATAACATTTGTTTATAGTTGTGTTTTTTAAAGTAGAAAATATATTCATACGAGCAAGTAATTAGTGTCCTGCCAGGTAAGTCTCATGGTG
Celera SNP ID:            hCV8874737
SNP Position Genomic:     887529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,3)      total(G,3|T,3) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49337):
ATAATTCGTTTTGAAGATGTTGTATCATTGAACTAAAAATCATATTAATACTCATCCAAAGAATTACACAGTCATTCTCTTTAATAGGGGAACTTAAGAA
M
CAGAACTGTTTCCTATGATGTTTAGGAGACATTCAGTGAATTTTGATCATGATGAACTAGAACATCCAATTCTAAGTTGGACACTGGTCTCAGAAAGAAT
Celera SNP ID:            hCV1178796
SNP Position Genomic:     803692
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,7)   total(A,4|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49338):
GGTATTTTTCAACTGAATGCAGCCATTGCCACCCTATATTTGGCTTTTAGAGACAGACTGAAGTCTAACAAGTTGCTCCTTATACTTGAATTCACAAGTA
Y
AAAATCATATGGATGACTTGTGCACCTTGCTGTCATTCTGTGCAGAGCTCCGCCTGTGCACTCCTTCCCTCACTTACCGAGGGCCTAGTTCATCCTCCAC
Celera SNP ID:            hCV2852660
SNP Position Genomic:     763239
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49339):
TGCTTCTTGTGCTTCATTGACTTGATAGTTGGCATCTCTGTGAGTCTTTGGACTTTCCTTTGTGGCTCCAAGAAAAAGAAAACATATAAAGCAGTATTTA
W
ATATGTGTAAGCACATATGTGAGTATGCATGTGTGCAAGTATGTGTGTATACATGCATTGTGGGCTAGGGAGGAAGGAATTTGGAATGGATTTGGGGTTA
Celera SNP ID:            hCV11440638
SNP Position Genomic:     744702
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   Caucasian(T,34|A,50)   African-American(T,17|A,67)   Asians(A,42|T,42)   total(A,159|T,93) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49340):
TTCTCTCTCTCCCTCTCCCCATCTCTGTCTCCTGTCTTTATTTTCTTCCTTATCTATCCCCCTTTTTCTCTTTCCCTCGCTGTTTCTTTCTTCTTCCTTT
S
TTTGTCTCTTTTCCTAACTTTTTTGCATATGTAGCTGTGTCTTTTCCTGCCTTCTTTTTCTGCACTCTATCCCCAGCTCTCTAGCTTCCCCGCAACACAC
Celera SNP ID:            hCV2845443
SNP Position Genomic:     1031858
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49341):
GCAACATATGGTGACACCGTGTGTGAAATGGTTTCTACGAGGGAAGCTCACTGGAGGCTCAGTGCCCGAGTTTTTACTGGGAGCTCATCGAGCTGGTCAC
R
TAGACAGCCTCTGCCTGATACATAGCAACATTCCTGACTCCCGGAAGAAAAGCAAGAGTTCAGCATAAACCGAATAGTTCATACAAACATGAGGCACTTG
Celera SNP ID:            hCV7624798
SNP Position Genomic:     216788
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49342):
CAACATTGCAAACGCATCAGCATATTCCTTCCTTCAACATTCCATAACGTGGTGGTGGTATTCCCACCTTACCCCGGGAGAAGCTGAGAGTCACAGGGAG
Y
ATTTACTTTCCAAGTTCACACATTCAGGGAATGGGTAGAAGTGGAATTCACACCCAGGTCAGTGTAAGACCAAAGAGGCTGTCAGAATGGTTTGCTGTTC
Celera SNP ID:            hCV8874738
SNP Position Genomic:     888724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49343):
GAGGAGGAGAATTTGGCAATTATTTCCTGAGTACCCACTATATGTAAAACACTATGCCAAATACTAGGAATACAAAGGTAAATTAGACATGCAAGATTTA
Y
GTTCCAGAAAGCTTCATTTTTGTGTTCTCTAATTCTGTACATGTCTTTCTTCCATTTATAATGTAGATTTACATGTAACAGCAAACTCACTGGAAATGTG
Celera SNP ID:            hCV1178797
SNP Position Genomic:     804367
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49344):
TACTTGAATTCACAAGTATAAAATCATATGGATGACTTGTGCACCTTGCTGTCATTCTGTGCAGAGCTCCGCCTGTGCACTCCTTCCCTCACTTACCGAG
K
GCCTAGTTCATCCTCCACCTCTGTGGACACAGGAACGACGAAAAAGTCTCCCTTATGACCTAACGGCTTAGAGCATGGGTCCCATAATCCAATGTGAATG
Celera SNP ID:            hCV2852661
SNP Position Genomic:     763321
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49345):
ATAAGGTAACAGCATTATCCCAGTTCTTCGCCTAAGGAAACTGGAGTCTAGTGACCACACCTTTTTTTGGTTCCCTGACTTAGAACCTCTTAAATATTCC
S
TCAAGGTGTGTTTGAATTTGTTGCTTTGTAAAGGCAACAAAGCAGGAGTTAAGGGAAACCAAAGCCATACCTTGGAAGGACCAAGGTATGGGGTTAATAA
Celera SNP ID:            hCV2845444
SNP Position Genomic:     1031081
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49346):
TCCAACAATGACACAAAGATTTCCTGACAATAAAGGGGCTGAGGTGAGGACCCCAGCTGTGGACCACACTACCCGAAGAGAACCAACAACCAAATCAATA
Y
CCAAAAAATAACAATAACGTCCAGGTCATTTCACTTATGAGACAGAAGAGGTAAAACAAATTCTCAGATACAAATATTTCTGCTGCTCCACATTGTTCCA
Celera SNP ID:            hCV7624799
SNP Position Genomic:     210665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49347):
GAGGCTCACAGAGAAGATGATCCAGTTTATGCTACCGCATCTCCACCATAACTCCCCTTTTAGCTCATTAACTCCCTCAAAAATATCCTTCTGCTAATTC
S
TCTCCCTTCCCCTCTCTTCCACTGTTGCCTTTGGAGCTTTCACTTTATCCTAAACTTCTTTATGTCTTTAGTCATCTCCTAGAACACACATTTCCTCACC
Celera SNP ID:            hCV1178798
SNP Position Genomic:     806939
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49348):
GCACCTTGCTGTCATTCTGTGCAGAGCTCCGCCTGTGCACTCCTTCCCTCACTTACCGAGGGCCTAGTTCATCCTCCACCTCTGTGGACACAGGAACGAC
K
AAAAAGTCTCCCTTATGACCTAACGGCTTAGAGCATGGGTCCCATAATCCAATGTGAATGGGCTTCCACCCCAACTCTACCAGCTACTTATTGTGTGGTT
Celera SNP ID:            hCV2852662
SNP Position Genomic:     763361
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,8)      total(G,8|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49349):
CTGGGCTTCTGCAAAACCTGATAATCAAGGGACTCTGTTTCCATTCAGAAATAGCTGTTTTTGACAGAGAAGGAAAATTCACAGATTTTTCCATATTCGG
R
GATTATCTAGAATATGATTCCCCTCAAATGGCCCATCTTTTTATCCTCAACAATCATAGGATCTGTGACACGTGAAGAATAAGTGTTATCTGGTTGGTGG
Celera SNP ID:            hCV2845445
SNP Position Genomic:     1030674
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49350):
ACTCCCTCAAAAATATCCTTCTGCTAATTCCTCTCCCTTCCCCTCTCTTCCACTGTTGCCTTTGGAGCTTTCACTTTATCCTAAACTTCTTTATGTCTTT
R
GTCATCTCCTAGAACACACATTTCCTCACCTTTAGAGAAACTTGACTCTTTCTTCAACTAATCTGCAGTGTTCAAATATGAATACCTTTCTGTCTTTCCT
Celera SNP ID:            hCV1178799
SNP Position Genomic:     807009
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49351):
CAGGAACGACGAAAAAGTCTCCCTTATGACCTAACGGCTTAGAGCATGGGTCCCATAATCCAATGTGAATGGGCTTCCACCCCAACTCTACCAGCTACTT
M
TTGTGTGGTTGTGAGTAAGTCACCTACCTTCTCAGAACTTCTGTTTCTTCATCTATAGTAGAAGGATACTAATTCCTCCACCATAGGGATGATTTGAGGA
Celera SNP ID:            hCV2852663
SNP Position Genomic:     763451
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,8)      total(A,8|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49352):
TTGAACTGAGTTACTTATGAGCTGGGCTTCTGCAAAACCTGATAATCAAGGGACTCTGTTTCCATTCAGAAATAGCTGTTTTTGACAGAGAAGGAAAATT
S
ACAGATTTTTCCATATTCGGGGATTATCTAGAATATGATTCCCCTCAAATGGCCCATCTTTTTATCCTCAACAATCATAGGATCTGTGACACGTGAAGAA
Celera SNP ID:            hCV2845446
SNP Position Genomic:     1030653
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49353):
CTGCCCTGATGGTGTGGAGTGATTTCCTTTTTCCATGGCTCCTTGTACATTTATGGTTGGCATTCTACTGCAAGGAAGACTGTTTCCTCTTCTCCCATTA
R
TATATTCATTCATTTATTTTTTATATCAGAATGGACTCATGTGGTTTTAATTCTTTGGGTTGTTTTCTGTTGCTGTCTTTCTTTTTTAATGCTGTGCTTA
Celera SNP ID:            hCV2852664
SNP Position Genomic:     764935
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49354):
CCGTGTTGCTCACGGGTGACCCCAGGAGGCTTACCTTTCTGTTTTGTTTGTGAAAGTTTCTCCCCCATTTTGCTTGTGCTTCCAGAGCAATGATGCTAGA
Y
GTTGGCTCACTTTGGAAACACTCCCTTCCTACAACATAAATGTGTGTATGTGTGTGCATGCATGCGTGTGTGTGTTGAACTGAGTTACTTATGAGCTGGG
Celera SNP ID:            hCV2845447
SNP Position Genomic:     1030478
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49355):
GCATTCTACTGCAAGGAAGACTGTTTCCTCTTCTCCCATTAGTATATTCATTCATTTATTTTTTATATCAGAATGGACTCATGTGGTTTTAATTCTTTGG
R
TTGTTTTCTGTTGCTGTCTTTCTTTTTTAATGCTGTGCTTAAATTGTGTCATATTTGGCCAGGGGGAGCCTGGGGCTTTTGATAATTCCTCATTTATTTT
Celera SNP ID:            hCV2852665
SNP Position Genomic:     764994
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49356):
CTACCTGTAGGAAGTACCGTGTTGCTCACGGGTGACCCCAGGAGGCTTACCTTTCTGTTTTGTTTGTGAAAGTTTCTCCCCCATTTTGCTTGTGCTTCCA
K
AGCAATGATGCTAGATGTTGGCTCACTTTGGAAACACTCCCTTCCTACAACATAAATGTGTGTATGTGTGTGCATGCATGCGTGTGTGTGTTGAACTGAG
Celera SNP ID:            hCV2845448
SNP Position Genomic:     1030462
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49357):
CTTGAGGCCTATCAATAGCAGGAAGTTATTACTACCTCTAGGCCTGAAAGGGCAAGGAGAAGGGGGCCAATGGAACCAGGAGATAGAAGGCTGGTGGAGA
R
GACCGCCTAACCTGGGTGGTGGCCATAAAGCGAGGGAGCTGGAGAGAAAAAGACACCTTAAACTCACTTGCTCAGTAGCTCCCATGAGCCAAATCTAGTG
Celera SNP ID:            hCV1149652
SNP Position Genomic:     59887
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49358):
TCAAGGAACCTTGGTTTCTTTTCATGGAGGGTGGTCTTTAGAAATCAGTGTCTGGGTATTTGGTGAGGTTGTGGCTGCTGGAGTGTCACTGCTGCTAGGT
S
CTTTCAGCAGACAGAGCAATGATACAGACACACACATATACATACACATATACATCCACACAAATATACGTACATATATATGGGTGTACACATATATACA
Celera SNP ID:            hCV2852666
SNP Position Genomic:     765275
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,8)   total(G,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49359):
CCACACAAATATACGTACATATATATGGGTGTACACATATATACACATGGGTACATCTATATGTACTCATTTATACATGCTTGCACATATGTCTACAACT
M
CTGTATCTCTCTGCATTGTTCATACATTAAATTTAAAACACAAGTTCAAACTGATATCTCCAATTCCAATCTAATATCTAAGGGTTTTTCTAGCCCTCCT
Celera SNP ID:            hCV2852668
SNP Position Genomic:     765431
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49360):
TCATGTTAATTCTAAGAAACTGTATGCCTCATTAGGCAGCTAAGGCATATTATGATTTGGATGCAGAATAACCCCAGTGATAAATGAATCTCCCAGCAGA
R
TAGCTTCCAGATTATAATTTCTTTCTTTGCAAGATTGCTATAGGCAAGGTGGCCTGATCACTTTTCAGAGGCCCATCTTAATAGTCAGAGTAAGCTCAGC
Celera SNP ID:            hCV2852669
SNP Position Genomic:     766732
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;(A,-|G,-)   Caucasian(A,31|G,53)   African-American(A,28|G,54)   Asians(A,21|G,47)   total(G,154|A,80)
SNP Type:                 INTRON


Context             (SEQ ID NO:49361):
CAGTGGAAATCTTGAGTGGGTGGTTAGAAATAAGAGTCTGGAGCCAAGGGGAGATGTGGGAAGCTGGAGAGAAAGTGGAAAAGGACTATGTCTATAAATA
Y
GCCCGATGCAAAGCGTGGCATAGTCACAGGCAAAAGCTATCCACTTGATCTCAAGAACAATCTTTTTTCACCTTCTGGGCTTCACAAACAAAATAGCACC
Celera SNP ID:            hCV348450
SNP Position Genomic:     339555
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49362):
AGTGACCAAGACCATTTAGAACTCTATTCTTAAGACATTGCCACCTTCCTGGGAGGAGAAAGGTGCCAACAGAAATGGATAAGCCAGATAATTTAAGTTT
Y
GGATAAAATAAAACAAGGTACATTGTTTTATTGACATAAGGTCAAGAAAAGTCCTCTCTAAAGAGGTGATGTTGAAGCTGAGCCCAGTGAAATAAAGGAG
Celera SNP ID:            hCV11440641
SNP Position Genomic:     735912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49363):
TTTCCAAGACAAACAAAAAAGTTGTTTTTTTATGCTGCCTTCTTCATTGAGATCTGAAAGTAGTTCCCTATGGAAGTGATTCATGGTGTTGTGAAATCCT
M
CGAAATTGTAAACAGCCTGGTGGGCAGGAATCCCGAGGTCTCATTCAGGCCCCCTGCAAATTCTGAGTTCCTAGCCTGAGGAAAGCCCCCAACAAATACT
Celera SNP ID:            hCV11440642
SNP Position Genomic:     725678
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49364):
GGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAACCGAGATCATGCCACTACTGCACTCCAGCCTGGGTGACAGAGTGAGACTC
W
GTCTCAAAAAAAAAAAAAAAAAAAATTACACTAGCATCCACTCTTACCCTACCTGTAGGAAGTACCGTGTTGCTCACGGGTGACCCCAGGAGGCTTACCT
Celera SNP ID:            hCV2845450
SNP Position Genomic:     1030313
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49365):
AACCATATCACTCCTCATGGTGTGCAAGATGGCTGATACATGTCTAGCTATCATGTCAGCAAGACTGGGAGAATGTGGAAAGGGTGAGCCAGCCAGCCAT
R
CTTGTCCTCTTTGGAATAAGAAAGTCTTATCAAAAACCACTAGAAGTCTACTGTTTGTCTCTCATAGGCCAGGACTGTGTTATGACACAGCTATGCTTAG
Celera SNP ID:            hCV8092323
SNP Position Genomic:     463994
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49366):
GACATTCAGCTCTTTGCTCAGCCCAAGAATGAAACTCATCACATCTGTTTTCAGTCCAGTGACCAATACTAGTCATGTGGCCCCAGCATAACTACAGGAG
M
GGCTGGAGAATATATGGGAACCTCCTCACATTCACCAAATGGAATCTTTGGTGAATTCTAAAGATTCCCGGCATGTCCCACTATCTCCTTTTGGGGCTGA
Celera SNP ID:            hCV2852670
SNP Position Genomic:     767097
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,11)      total(A,11|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49367):
GCTAATGATCAGGAGGGAGGTGCTAAATATTCTGGGCTCCTCGCTTGGACTTCAAACCTACAAGCTCCCCACTCTTGAACCTAACCCCATTCCTGAGTTT
Y
CTTCTATGCTCACATCCACTCCCAAATCCTCTAACCACCCTGAGCTACATTATATTAAAAGGGCTACTCCTCATATGTTCACCACAGCACTATTCACAAT
Celera SNP ID:            hCV2845453
SNP Position Genomic:     1028027
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49368):
AATGAAAGAAAAAACTGACAGGCCAATGTACTGACTGCTCTCTCACCTGGGTCTGATCCCATCTGAAGCTACTTTGGGTGGTTATCACAATGTAGTTTAT
Y
ATAGTGCTGTGGAATATGAACTATGACCATAGCCAGCCCTATATTCTAGAACCAGCATCTCCATTTGTAGCTATGGGTGCTTGGACAAACACTTCAATGT
Celera SNP ID:            hCV2852671
SNP Position Genomic:     767301
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,12)      total(C,12|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49369):
AAAAACTGACAGGCCAATGTACTGACTGCTCTCTCACCTGGGTCTGATCCCATCTGAAGCTACTTTGGGTGGTTATCACAATGTAGTTTATCATAGTGCT
R
TGGAATATGAACTATGACCATAGCCAGCCCTATATTCTAGAACCAGCATCTCCATTTGTAGCTATGGGTGCTTGGACAAACACTTCAATGTTCTCCATCT
Celera SNP ID:            hCV2852672
SNP Position Genomic:     767310
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,11)      total(G,11|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49370):
AGTTTTCTGCTTCTGTTCATTAAGACAAAAGCCTCCAGCTCCATTCATGGTGCTGCAAAGGACATGATTTCATTATTTTCTATGGTTACATAGTATTCCA
Y
GGTGTTTTCTAACCCACCATTGATGGGCACCTGGGTTTGTTGCATGTCTTTGCTGTTGTGTATAGTGCTGCAATGGATATATGGGTGCATGTGTCTTTTC
Celera SNP ID:            hCV2845455
SNP Position Genomic:     1019643
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49371):
TTGGAATGGCTACTTTCATTATGTTAGAGCCCTGATAGGTGAGAGGAGAGGGGGCAAGGGGAGACGGAGATGGGAACAGAAGATTTCCCAGATGAGGGGC
R
CTCCCTGGAGCTGAGTCTTGGAGCCAGATGGACTTGTTCACACCAGCATGGACTGAAATAAGGAGAATCAGAGGACCTGGGCTCATACCCTGTCTCTAGA
Celera SNP ID:            hCV27899480
SNP Position Genomic:     880136
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49372):
AGAACCAGCATCTCCATTTGTAGCTATGGGTGCTTGGACAAACACTTCAATGTTCTCCATCTCAGTTTCCTCATCTGAAAATAGAGTAAACAACAGTACC
M
ACCTCATAGGGTTGTGTGGATTAAGTAGTTAGAAACATGTCGCTGTTGAGGAAACATGAGCTGCTGTTGTATTTGAAATGGTGCTGAATTCAGAATCCCA
Celera SNP ID:            hCV2852673
SNP Position Genomic:     767449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,12)      total(A,12|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49373):
TTTTCAAAAGTATTTCAGAAAACATTTTTTTTCCTTTTTCGACTTTTACTTTAGATTGCAGGAATACATGTGCAGGTTTGTTACGAAGGTATATTACATG
A
TGCTAGGGTTTGGAGCATGATGAACCCTAGCACCCAAATTGGTAGTTTTTCAACCTTTGCTCCTTCCCTCCCCACTTTTGGAGCCCCCAGTATCTATTGT
Celera SNP ID:            hCV2845456
SNP Position Genomic:     1019375
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49374):
TTTCAGCTTGACTTGCAAATAGAGCCTGAAAGTTCCCAACTCTTAAAAATGTTCAGTGTGTCCAGTCTTATAGCAGGAGGAAGAATTTGAAGATGGCCAG
Y
GTTGCTGTTTCTCAGGCCCTAATATTTCTTTGTGCTCAGTGAACGGGCAAGTTATCCTGAGGAAGAAAATATTTCAGAGGCTTCAGTGCTAAGTATTAAT
Celera SNP ID:            hCV27899481
SNP Position Genomic:     851203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49375):
CATCAGGACATTGGCCACAAAGGGATAGGCGTCCCAGGATGCTGGAATGTTGGGGGCAGCGCTATTATTAGAGACACCTGGTCACTGACCCAGCTTTCTT
Y
CCATGGCTCAAGCTGAGACTTGATAGTAAAAACTGCCTTAAATGGAAGCAACTATATTTTTGATGTATGCTCTTCTAGGATGATACTAAAAGCCATATAT
Celera SNP ID:            hCV2852674
SNP Position Genomic:     767762
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49376):
TGTATTTTTACATCTAAGTCCATGATCCTTTCGGAACTGATTTTTTTATGTAAAGTGTAAGGTTTAGGTTGAGTTCATTTATCTGCCAGTGGACACACAG
Y
TGCTCCAGTAGCCTTTTAGAAATAGCTATCCTTCTTCCATTGAATTGCTATTGTCCCCTTGATTAAAAAAAAAAAAATCATGTGGGTGCAGGTGTATTTG
Celera SNP ID:            hCV2845457
SNP Position Genomic:     1019038
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49377):
CATCATCTACCTCTATTATCCTCAACAACAATGACATCCACAGTAGCAATAAGCAGGGGGAGCACCTAAGGCAGACTCTGCTTTAGAGAGATGAGTTCAG
R
GCTTGAGGCTGAAAGACAGGGAACCAGCAGGCCAGGCCATGCAAGCCTTGCAGCTAAAAGACAGGGAACCAGCAGGCCAGGCCGAGCCAAGCCAATAGTC
Celera SNP ID:            hCV27899482
SNP Position Genomic:     839559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49378):
GGAAATTATACACAGAGGATTGTCATCCTGGACAGTTAAAAATTTAAAGTAAATGAACTGAACAAACCTCCTCCCTTAAATAGTGCTCAGAAATCAAAGA
R
CTGAAAAAATGTAAATGGGATTCATTAAGAGCTACAAAATTATCTTCTTGTGTTGCTTTGATAAGTTTTTCTTGCAAATCTCTAGAAGTTTAGCTCAGGG
Celera SNP ID:            hCV2852675
SNP Position Genomic:     768939
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49379):
ACATGGATCCTCAATAAATCACAGATGTTGTCGTTGTCATCATCATCATCTACCTCTATTATCCTCAACAACAATGACATCCACAGTAGCAATAAGCAGG
R
GGAGCACCTAAGGCAGACTCTGCTTTAGAGAGATGAGTTCAGAGCTTGAGGCTGAAAGACAGGGAACCAGCAGGCCAGGCCATGCAAGCCTTGCAGCTAA
Celera SNP ID:            hCV27899483
SNP Position Genomic:     839516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49380):
GCACTCTTCCCATGATGCTGATTTACCAATCTCTGCATGGCCACTTTAGGCCCTGCGTTGGTGTACCCCATCCAGATTGTCTCCATTGTAAAGCCATATA
K
TTCCAAGGGCACAGCAGGTGTGTGTGGTATGCTGAGAGTCCCCTTCTATCTCTCCACCACCCTCTCCATACTTGCTCCCCAGGATGGCCATGGATACAGC
Celera SNP ID:            hCV2852676
SNP Position Genomic:     770061
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|G,7)   total(G,7|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49381):
AGCCCTCAGGAGACCCTGAGAACATATGCCCAAGGTGGTCGGGCCACAAATAAGTTTTATACATTTTAGGGGGACATAAGCCATTAATCAATACTTGTAA
R
ATGTACAATGGTTCGGTCTGGAAAGGCAGGACAACTGGAGGAGGGTGTGTTTCCAGGTTATAGGTGGATTCAAATATTTTGTTTGGCAATTGGTTGAAAG
Celera SNP ID:            hCV27899484
SNP Position Genomic:     877155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49382):
CCCATGATGCTGATTTACCAATCTCTGCATGGCCACTTTAGGCCCTGCGTTGGTGTACCCCATCCAGATTGTCTCCATTGTAAAGCCATATAGTTCCAAG
S
GCACAGCAGGTGTGTGTGGTATGCTGAGAGTCCCCTTCTATCTCTCCACCACCCTCTCCATACTTGCTCCCCAGGATGGCCATGGATACAGCTACATTAG
Celera SNP ID:            hCV2852677
SNP Position Genomic:     770069
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,11)   total(G,11|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49383):
TCTTTGTTTATACACGTAGAGCATCTTGGTCCAAGGTACAAAAGGATTTGTGTGATGTTTTAGGAGTGGTCCTGTTGGGACTATGGTTGATTTTAACTTT
Y
CCACAGTGCAGTGTCTGAGATGACCGTCTTCAGATCTGGGTTGCTTGAGTCTGAACTTTAACTTCACCTTTCACCAGCCTTGTGCTAGAGAAACATCATT
Celera SNP ID:            hCV27899485
SNP Position Genomic:     881293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49384):
GCATATGCCATAATTTACGTAGATACTATGGAGGTGGAACCATGTATGGTTAAGTCCCGGGGCCCTGGAGCAGTAGATCTTAACCTTATTGGACACAGTA
W
CCCATTTCTATTTACAAATACTTTTTTTTTTTTCCATGAGAACAACCACAGGGACTTTTAACTTGCCTAAAGATAATGTGTGATTTTGAGATGTGATTAG
Celera SNP ID:            hCV2852678
SNP Position Genomic:     771798
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,8)   total(A,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49385):
TCATTCCCACAGTGATCCTACTATCAACAGGAACTGCTGTTTCTATTATCAACAAGAATATGCCTCCAAGCCAGGAGTCCTGCTGATCCCACTGTCTCCC
Y
ACCCCAACAGCCATGGCCCGAGATCAGATTGTCTCCATGGATTCTAGTGCTCAGGGAAGTTAAGAAAACTCAATTCACGGTGCTCAGTTCAACCTTAGAC
Celera SNP ID:            hCV2852679
SNP Position Genomic:     772005
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49386):
TTCCTGCTTTTGGCAAGCAAAGCAAAAGAACCTTCTGGGTTCCCTTCCTGCCTTTCCTACTGAGATCAAGCTGAAGGTGGAATTTTTCTATATATCCAGT
Y
CAGCCTTTGTGACCTCTGCCTTTAACACAAACACCTTGTTTAAAAAGTAGACTTGAGGGAGGGCACTTGAGTTCAGAAGCCAAAAGAAATGGGTATTGCT
Celera SNP ID:            hCV27533118
SNP Position Genomic:     54808
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49387):
GAAAATATCTGAATTAGAAATGGGCCCATACAGGTTCCAGTGGGAATGGCTTTCTCAGCAGGTATGAATCACTGCTATTAAAAATGTATTCCGTAGGTAA
R
TTGTTAGTTATCATATTCATCCACTCTTACAGAAAGCCAATGTTATCATTTGGGTCCATTATTAAGACTATCATTATCATAGTCAGTTTAGTAACCTCCT
Celera SNP ID:            hCV10076061
SNP Position Genomic:     68379
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49388):
AGAAGAAATAAAGGCTGATACCTCTGTCTTTATGGAGGCCACGTTGAACCTCTAATTCTGGAGAATGGTAACATTGAAGAGGACATTAGTGGCCATTGAC
R
TTTATGTCTCCTGATGCCACCCTACATATAAGTGAATGAATATTACCAGGATGAATGCTACTTTTCTTATGATAGGAATTGATTGAGGAGGATAGGAGCA
Celera SNP ID:            hCV10075409
SNP Position Genomic:     148586
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;no_pop(A,-|G,-)   (A,-|G,-)   Caucasian(G,16|A,64)   Asians(A,82)   total(G,16|A,146) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49389):
TTAACCTGTTCTCCACCTGTAGTTTTGTCACTTCAAGGATGGTACATAATGGAATCATACAATATGTAACTCTTTGATATTAACTCTTTTTTTTTTTTTT
T
GAGACGGAGTCTTTCCCAGCCACCCAGGCTGGAGTACAGTGGCACAATCTCGGCTCATTGCGACCTCCGCCTCCCAGGTTTAAGCCATTCTCCTGCGTCA
Celera SNP ID:            hCV2845460
SNP Position Genomic:     1017423
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49390):
CATTGCACTCCAGCCCGGGCGACGAAGCAAGACTCCCTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGCCTAGCACCAAAGTATTAGCAAGTTCCT
S
TTATTTATTAATGTTCTCATACTTTCATTGAATTTTTAAACCTAATGATGTTTATTTTCAAACACTTCAGTCCATTTATTATTGAATATAAAATGGGTGC
Celera SNP ID:            hCV8092332
SNP Position Genomic:     466212
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49391):
TATGTATGCCCTTGGGTTGTCTAGCAAGATGGTTTCATAGGTAGTAATAAGAGCAGCAAGAGAAGAAAATAGTGTGGCCTTTACCTTTACTGAACACTCA
M
TTTGGAATAGGCCTCATGCTTGGGACTGCCTCCGTCAGTGTGCAGCCTTCAGCGGCTACATTTGGAAATGGTACAAGTATTAGGTTGGCGCAAAAAGTAG
Celera SNP ID:            hCV8092333
SNP Position Genomic:     466430
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49392):
CTTTCTCTCGTTTTTGTTTCCAAAATCACTATTTATTGCCCTTCAAAACAGGTTGCGTTTGAATTAGGGTTCTGGGCCTGTACAGTCTGTGGGAGCCCAA
R
TGCAAAGTAGATTCCATCATAAACAAGGTATCCCCCCTCCAAATTAACAGTAAAATAGGCCATGTGATCCCAGAATGCATCATTTCAGGCTTATAAAGAA
Celera SNP ID:            hCV2845462
SNP Position Genomic:     1016804
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49393):
CTACTATCAACAGGAACTGCTGTTTCTATTATCAACAAGAATATGCCTCCAAGCCAGGAGTCCTGCTGATCCCACTGTCTCCCCACCCCAACAGCCATGG
Y
CCGAGATCAGATTGTCTCCATGGATTCTAGTGCTCAGGGAAGTTAAGAAAACTCAATTCACGGTGCTCAGTTCAACCTTAGACATGCATCAGAATCACTC
Celera SNP ID:            hCV2852680
SNP Position Genomic:     772022
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49394):
AGCACTTTCTCTCGTTTTTGTTTCCAAAATCACTATTTATTGCCCTTCAAAACAGGTTGCGTTTGAATTAGGGTTCTGGGCCTGTACAGTCTGTGGGAGC
S
CAAGTGCAAAGTAGATTCCATCATAAACAAGGTATCCCCCCTCCAAATTAACAGTAAAATAGGCCATGTGATCCCAGAATGCATCATTTCAGGCTTATAA
Celera SNP ID:            hCV2845463
SNP Position Genomic:     1016800
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49395):
AGATTGTCTCCATGGATTCTAGTGCTCAGGGAAGTTAAGAAAACTCAATTCACGGTGCTCAGTTCAACCTTAGACATGCATCAGAATCACTCACATTGCT
K
TTTAATTTTTTAATTAAATAAAAATATTTATTCAGCCGAGGTAGCTGAAGCAGGAGAAGGAAGAGCCTCAACTCAGGGGAAGATTTGCTGTCACCCCCTG
Celera SNP ID:            hCV2852681
SNP Position Genomic:     772131
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,11)      total(G,11|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49396):
CATCTCTTACTTTGCGTCTATCATTATGATCTTACTCGGAGAGAAAATGGTATCTTCCTGGGCTGATTGCTCATTGGTGGAGGCTTGGCTTCCAGGAAGA
Y
GCACACTGGCTTTCCGTAGCACTTTCTCTCGTTTTTGTTTCCAAAATCACTATTTATTGCCCTTCAAAACAGGTTGCGTTTGAATTAGGGTTCTGGGCCT
Celera SNP ID:            hCV2845464
SNP Position Genomic:     1016682
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49397):
CTCCATGGATTCTAGTGCTCAGGGAAGTTAAGAAAACTCAATTCACGGTGCTCAGTTCAACCTTAGACATGCATCAGAATCACTCACATTGCTGTTTAAT
W
TTTTAATTAAATAAAAATATTTATTCAGCCGAGGTAGCTGAAGCAGGAGAAGGAAGAGCCTCAACTCAGGGGAAGATTTGCTGTCACCCCCTGACACTGA
Celera SNP ID:            hCV2852682
SNP Position Genomic:     772138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,12)      total(A,2|T,12) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49398):
TAGTATCCTTCTGTGACATTCATAAGATGTTAACCTGCCTACACACTTTTTTTTTTTTTTGAGACAGCGTCTTACCCGTCGCCCAGGATGGACTGCAATA
R
CATGATCTTGGCTTACTGCAACCTCTGCCTCCCGGGTTCAAATGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTACCACCACACC
Celera SNP ID:            hCV2852683
SNP Position Genomic:     772628
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49399):
CTAACACCTAATTGTCACCTCCCACTAAATGCCAGTAACACCCCCGATTATTGTGACACTCAAAAATCGCCCCCTCGCACTTCGAAAGCACACCCCTATA
S
ACACTGATCTTCTGTTAACCCTGCCTTGAATGACTTCGGTAGCCTGAATTCCCATCCTGGCCCCACTGCCTCATAGCTTCGTGGCCCTGGGCAAGCCCAC
Celera SNP ID:            hCV2852686
SNP Position Genomic:     773483
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49400):
CAAGCCCACAACCCCCAAACCTCAGTTTCCTCATCTGTGATATGGGTGCATGGAGGAGGTTAAATAACAGCTCCAATCTTAAAGCCTCCTTAGCGCCGTG
M
CTCACGAGCTGTAAGTACTAAATGAATGCCGGCTATTATATATAACTTATATTGTATATTATTTATGATTGTTCCTAAAATTATCACTAATAAGTGCTTC
Celera SNP ID:            hCV2852687
SNP Position Genomic:     773675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49401):
GGAGGATGGAGGTAGCTTCTAGAAGGAGGTGGGCCTGAGCCGCCCCTGAAGAATGTTGGGAATCTGGGTCAGGCAAGAGGCTGGAGGAGAGAGGTGAAGA
R
CTGGAAGGAAGTTGGGAGGGGAGAGGCCCAGGGGAGGGCATAGATGGAGGGTGATGGGGTGTGGGTGCCCAGGCCTGGGAATTCAGACCTGCCAATAGCC
Celera SNP ID:            hCV2852689
SNP Position Genomic:     774295
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49402):
AGGTTTTATATACTGTATCCTCCTGTGTTAGAAAATGGGGTATTAAAAAGGCTTCATGCCCTCAGCATCAGGGAAGAAGAAGAAATAAAGGCTGATACCT
M
TGTCTTTATGGAGGCCACGTTGAACCTCTAATTCTGGAGAATGGTAACATTGAAGAGGACATTAGTGGCCATTGACATTTATGTCTCCTGATGCCACCCT
Celera SNP ID:            hCV10075410
SNP Position Genomic:     148509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,11)      total(A,1|C,11) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49403):
AAGGAATGTGTTCATTTTATTGCCATTTTACTACCACAGCATGGTAGATTCCAGCTATTAATCCTCATGGTATAAGGTGCTTTTTATATCTTCAAAAATA
K
GGTATAGCCTTGATCTCTCTTCTTGCTGCTCTGGAATTAAAATAGAAATCTTTATCCCTATCTCAAAATCTTTGGGGCAGGTTAGGAGAGCTGGGCTTCA
Celera SNP ID:            hCV10075411
SNP Position Genomic:     147586
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,8)      total(G,5|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49404):
TATACAGTGGATGTTGGAAGGGTGTTCATAGGTTGCATGCCGATACTTTGCCGCTTTATATAAGAGACTTGAGCATTCCAGGATTTTGGTGTTTGTGGGG
R
AGGGATGTTGAAACCAATATCTGCGGGTACCAAGGGACAATTGTAACTGGATTCTAGAGCACATTCTGAGTTTGTTGGCAGTTTTATTAATCATATTTGT
Celera SNP ID:            hCV15943127
SNP Position Genomic:     667071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49405):
TCTGGTTCAGACACCTTTTCTGCACCCAGTTATTCTCACTCATAATTTCTTTCTCCTTGGGTTTTTGTTTTATTTTGGAACGGCTTTTTAACCTTCAGAA
R
TACATTTTGTCTGGAGGACCAGAGCATCGATGTGATCCTACCTGTAGATTCTTGGCAAGAGAGAAAATGTTCTTATTAATGCAGAAAGTCCTACCCAGAA
Celera SNP ID:            hCV15943128
SNP Position Genomic:     666454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49406):
GGGCTTGGTCAGGCTTCCTGGTCACTGCCAGTGCTGAGACATTAAAGATCCAGGCCCCACGGAGAACCAGGGCACCTGGACTTTGATCTTGCCATAATGG
Y
ATGCCTCCATTTAAGAACTAGGTCAGCTGTCTTTCACACCAGCTGTGTTCTTCATGCTTAGGGCAATAACATGTATAAAGTAATGGGTATTTTTCTAGTA
Celera SNP ID:            hCV10076073
SNP Position Genomic:     68057
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49407):
CCAAGCCATATCAGTGGGATAGATATCATTTGGAATATGGTTGCCTTCCATTCTGATCTCATTCTATCAAAGTTGGTAGATCCTAACATGGTGACCCAGC
R
AGAGTCTCTTTTCAAACTGGCTGTCCTCGGGGGTAGGAGCAGAGCCAGGGCAAACCGTCAGGGATGCTAAGTAAGGAGCTTCAAGGGGATCCAAGGCACC
Celera SNP ID:            hCV10076074
SNP Position Genomic:     66863
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49408):
TCATAGGTAGTAATAAGAGCAGCAAGAGAAGAAAATAGTGTGGCCTTTACCTTTACTGAACACTCACTTTGGAATAGGCCTCATGCTTGGGACTGCCTCC
R
TCAGTGTGCAGCCTTCAGCGGCTACATTTGGAAATGGTACAAGTATTAGGTTGGCGCAAAAAGTAGTTGCGGTTTTGCCACTGAAAGTAATGGCAAATAC
Celera SNP ID:            hCV8092340
SNP Position Genomic:     466464
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49409):
ACATTCTTTTCAACTATTATCACCCCAAAATGAAACAAAACAAAATATAGCAACGATATGAAATTGTTTCAGTAACATTGCCATGTTACAGTAAGCTTTT
G
CATCTGGATCAGTCAGCCTGGTACAAATAACTGTATATTCTGAAATGTAAATAGATAAAAAGATAATGACCTTCTTGAGCATCTACTGGGTGACAATCGT
Celera SNP ID:            hCV11672296
SNP Position Genomic:     211767
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49410):
GTCAGTGTGCAGCCTTCAGCGGCTACATTTGGAAATGGTACAAGTATTAGGTTGGCGCAAAAAGTAGTTGCGGTTTTGCCACTGAAAGTAATGGCAAATA
Y
TTAGAAATATTTAGAATATTTAGAAAGTACCTGCTGTTCTGACTATCTTAATTCAGATGTGCACTCACCTTTTGGCTCACGACAACAAAAGCCTTCGAAA
Celera SNP ID:            hCV8092341
SNP Position Genomic:     466564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49411):
CCTTCAGCGGCTACATTTGGAAATGGTACAAGTATTAGGTTGGCGCAAAAAGTAGTTGCGGTTTTGCCACTGAAAGTAATGGCAAATACTTAGAAATATT
Y
AGAATATTTAGAAAGTACCTGCTGTTCTGACTATCTTAATTCAGATGTGCACTCACCTTTTGGCTCACGACAACAAAAGCCTTCGAAATTCCTGCCTGTT
Celera SNP ID:            hCV8092342
SNP Position Genomic:     466576
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49412):
GTGGGCAGAGGCATTTGGCTCTGCACTGGTTTTTATGGTGTGGGAAAGGAAGCATTCTCGTGGGAATATTGTTCTTGCCTCCAGGAAGGGCTGTGGGAAC
R
TGCAGTTACTGCAGAGGGACATTTCTGAGCATACATGCTTGTTTATGATGATGGATGACTGGCTCAGGAGAGAGCTAAAATGATCCTTTCCCTAGAGATG
Celera SNP ID:            hCV2852690
SNP Position Genomic:     774690
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49413):
AGTTACTGCAGAGGGACATTTCTGAGCATACATGCTTGTTTATGATGATGGATGACTGGCTCAGGAGAGAGCTAAAATGATCCTTTCCCTAGAGATGTGA
R
GAGAAGCCAGCCCAGAATTTCTGTCACAATCTGCTGCCCGAGTCCAGTGACTCAGAAACAAAGTTCATCTTTACTGACGTGCCATGGCTGCCAGGAACCA
Celera SNP ID:            hCV2852691
SNP Position Genomic:     774794
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49414):
TCCAGTGACTCAGAAACAAAGTTCATCTTTACTGACGTGCCATGGCTGCCAGGAACCAGGGCAGCTGCTAAGCCACCAATCCCCAGCCCACAGTTTTGTG
Y
GGAGGAGACATAGACATATATGTTATTGCAATTATGGCTCTACTGAAAGAATGAATGAATTTAATCGAATCAATCATTCATTCAATTCAGTTGAATCATT
Celera SNP ID:            hCV2852692
SNP Position Genomic:     774937
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49415):
CGGCAGCAGTCTGTCTGCCTGTGTTGTCAACAGTCCCTGAATTAAATCAGTCACTGCTGCCGCCAATGAACTTGTAGGTTGTTGTGGGATAAGGGGCCCT
M
GGCAGTTTCTTCATCTCTGCTTGACCAAACCACGCATCAAGGTCATGGATCCCAGGTGCCCCTGAAGACATTCAAGAAGTCTCGTTCGCCAGCTGAGCAA
Celera SNP ID:            hCV2845475
SNP Position Genomic:     1014512
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49416):
AGGAGACATAGACATATATGTTATTGCAATTATGGCTCTACTGAAAGAATGAATGAATTTAATCGAATCAATCATTCATTCAATTCAGTTGAATCATTCA
Y
TCATTGAATTGAATCATTCATTCAATGAATGAATCCCCTGGTCAAGGAACCAGGCTCAGCCCACAATGTATGCATTTATTCATTCATTCATTTAACAAGC
Celera SNP ID:            hCV2852693
SNP Position Genomic:     775040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49417):
GCTTGAGGTGGACAGTGTCAAAATGGCAAGCTCCCCAAAGAGGAAAGGAAAGAGGGATGTCACTCTAGGATGCGCCAACGAGATGCTCCTTAGGAACCAC
R
GAAGTGACACTTGTCAGCATCCACACAACAAAATGTTGATGAGGGGAGCCAGCCTTGGTGACTCCTAGCAGCTCCCGGCAGCAGTCTGTCTGCCTGTGTT
Celera SNP ID:            hCV2845476
SNP Position Genomic:     1014336
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49418):
AAAATGATGGAGTTCTTTCATTTAGCAGAGTTACAGCTTGAGGTGGACAGTGTCAAAATGGCAAGCTCCCCAAAGAGGAAAGGAAAGAGGGATGTCACTC
Y
AGGATGCGCCAACGAGATGCTCCTTAGGAACCACAGAAGTGACACTTGTCAGCATCCACACAACAAAATGTTGATGAGGGGAGCCAGCCTTGGTGACTCC
Celera SNP ID:            hCV2845477
SNP Position Genomic:     1014301
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49419):
TCAGTAACAGAAATGTATTTTAGCTGCCGTATTTCATAGAGCCCTGATACCACCCTTACTTCCCACATGACCTGTCATCTGACAGCAGGCTGGCAGACAG
S
CATTTAACAGATTCATCTCGGGTTGGCAAACATCTAGCCTAGCTTTGAAAACCCACGTGTTGATCTCAGACCTGCCTTTACATCCCTGCACCACCATTTT
Celera SNP ID:            hCV2845478
SNP Position Genomic:     1012720
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49420):
CTCCCTCATTTATCACTCTGGGGACATAAACGAGAAGTCTACTCTCCACTTCATTCACTTTGGACTAATATCCTCGACACAATTTAAATCCCATCTCTTC
M
AGACTATTCAATGAGAGCAAGGCAGTGGAACACCCAGCATCCAATTGGAAAACTCCTTGGCCATCAATGTAGAAGATTGACAAGCTCAGTCACATGAGCT
Celera SNP ID:            hCV2845479
SNP Position Genomic:     1012422
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49421):
GGCATGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTGGAACCTAGGAGGCGGAGGTTGCAGTGAGCCAAGACTGTGCCACTGCA
Y
TCTAGCCTGGGAGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAGTCAAGGAAGATCAAATACTCAAGGCTCCTAGTGATCATCAATTAGACATCCGA
Celera SNP ID:            hCV2852698
SNP Position Genomic:     776643
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49422):
TGTGCCACTGCACTCTAGCCTGGGAGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAGTCAAGGAAGATCAAATACTCAAGGCTCCTAGTGATCATCA
R
TTAGACATCCGAGTTCTTCTGGGAGGTCCTGTTTGCCAGTGGTCATCCTGTCATTTCCATCAGTGATGTCTGGAAGGTTTGATACCAAGAAGTTACCTCC
Celera SNP ID:            hCV2852699
SNP Position Genomic:     776731
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49423):
TCTCAACTAAATTGCAAGCTGATGTCTTACTATTGACAGGAATAAAGTTTCATAAGGTGTTCCCTGCAGTGGCCTGACTGTGCAAGGTGCTGATAGATAC
Y
TGCTAGTTGATAATGATGCCTCTCACATGGCCAGTCATTTTAGCAATTAGTTTCATTGATATTGTGGGACTGGGCTTATTGGAGATTTGACTGAATTGAC
Celera SNP ID:            hCV10075420
SNP Position Genomic:     147309
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49424):
GCATTCCTCGGTGCAAAATATGAGATGTCCTTTGACTATATAATATAAAATATACTATAACATATAATATTGACCTTATATTGAAGATGTATTTGTACCC
R
ACATACAATATTTTTAGAAATAATGTTTCATTATAAAATTTTTTACACGTACAGAAAAGTTTAATTTTGCAGTGAGCACTCATGTACCCACCACCTAGAT
Celera SNP ID:            hCV10075421
SNP Position Genomic:     145877
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49425):
GTCTTTACCATATATCATTATCCAATATATTCCTTTATATCATTATCCAAATAAATACATCTGATCAAATCCCCCAAATTGCTTTCTTCTCAGCATTCCT
Y
GGTGCAAAATATGAGATGTCCTTTGACTATATAATATAAAATATACTATAACATATAATATTGACCTTATATTGAAGATGTATTTGTACCCGACATACAA
Celera SNP ID:            hCV10075422
SNP Position Genomic:     145785
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49426):
ATTATCAAAATACAGGGTTATCATTTGCAGAGAACATGTGTTTTGTGTTTGTGGGGTCTGGAGAGAGTGATCATACAATTTCTAATTCAAAGCAGAATAC
Y
CTTGAAAGTAAATCAGGACTTTCCTGTTGAAACTAGAACAGGAAGTCACCTTAGCAGTGGTAGATCTTTGAATTCGTCTCCTCCTGGTTCTGCGGAGAGC
Celera SNP ID:            hCV10076084
SNP Position Genomic:     65275
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49427):
AATCTGCTCTAAGCAGTTGGATGGGGAGTGCCTTTTCGCCTGTCTACCCCTTCCCAAGGACTATTTATATTGAGGCAACCAAATGATCAAGGAAGAATTC
R
TGAATAGCCATGATCAAAGTAACCAGACAGGGAGTTAGAGGTTCAATCGTATTTGGGGAAAATGGTCCAATGATGGGGAAAGGGCCCAGGTTTTGACACC
Celera SNP ID:            hCV10076085
SNP Position Genomic:     63123
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49428):
ATATCCAAGTATGAAAGTTAATTTCGGTATTTAATAATCATTAAGTAAAGAGAGAGTGAAATATCTACACTATGTAATTACATAAAACATGCTTCTGGCA
R
TATTTGCCCCCTAGGAAATTCAAATAGGAAGTCTCCAAGGAGCAAGGTTGTATTCTTGGAGGTGGACACAAAGTAATTGAGCTTTGCTAATGGAGATAAT
Celera SNP ID:            hCV10076086
SNP Position Genomic:     61677
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49429):
ATGTCTAACCGCCTGGGAACGCAGCCCAGTAAGTCTCAGCCTTATTTCAGTCAGCCCCTGTTCAAGATGGTGTTGATCTGGTTCAAACGCCTCTGACACT
R
CCATGCCAGGCTAATTTTGCATATTTTTTGGAGAAGCAGGGTTTCCCCTTGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGTGGTCTGCCCACCTC
Celera SNP ID:            hCV2845480
SNP Position Genomic:     1010931
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49430):
CATCGCCATCTTGGTTTTGGTGTTTTTCCGGCTTCTTTACTGCAACCTATTTTATCAGCAAGGTCTTCATGACCTGTATCCTGTGCCAACCTCCCATCTT
R
TCCTGTTTATGTCTAACCGCCTGGGAACGCAGCCCAGTAAGTCTCAGCCTTATTTCAGTCAGCCCCTGTTCAAGATGGTGTTGATCTGGTTCAAACGCCT
Celera SNP ID:            hCV2845481
SNP Position Genomic:     1010822
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49431):
CAAGAAAGAATTCGAGGCAAGTCCGTAAAGTGAAAGCAAGTTTTTTGGGAAAATCAATGAATACAAGTATGGCTACACCATAGACAGAGCAGCCCCAAGG
R
CCAAAGGACTATTTCTTGACTGTGTGTTAAACAAGGAGCAGATTATTCAAGACTTTTCCAGGAAATGGATGGGCAATTCCCAGGGCTTTTTAGACCGTAT
Celera SNP ID:            hCV2845482
SNP Position Genomic:     1010533
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49432):
AAGAGATGCTCTGAGGACCATACTTTGCATAGCAAGAAATGAGAACAGTCCAGGAGCCTCTAAGATCCCTCACATTTGAGGCTAGAAGCATGTAACATGA
R
TGGGTTCTCAAACCTAAAAGTCAGGGCTTGGGCATAAACTAAAACTGTGATCACCTCGCGTAGATTTGAGGCTTTGACTGGTCGTCAACCCCACCCACAA
Celera SNP ID:            hCV8092354
SNP Position Genomic:     468505
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49433):
GCCTCTTCTCTGTCCCAGTATGTGTGGTAGGTGCTCAGTAGAACCAGTGGTTGGTTGTTGGGGGGAGGTAATACCTGTTTTTATGGCCTTATAGCCTTTG
Y
GTACTAAACCTTAAGACCATTTCTTATTTCACTAAGTCACACCTTGCCCAGGAGAGAATCGTATACATCTCATACATTATGTTCCAAATCACGTAACCTA
Celera SNP ID:            hCV781680
SNP Position Genomic:     236508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49434):
CCCCAAGAGAGGGTTCTTGGATCTTACACAAGAAAGAATTCGAGGCAAGTCCGTAAAGTGAAAGCAAGTTTTTTGGGAAAATCAATGAATACAAGTATGG
S
TACACCATAGACAGAGCAGCCCCAAGGGCCAAAGGACTATTTCTTGACTGTGTGTTAAACAAGGAGCAGATTATTCAAGACTTTTCCAGGAAATGGATGG
Celera SNP ID:            hCV2845483
SNP Position Genomic:     1010505
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49435):
AGACCCCAAGAGAGGGTTCTTGGATCTTACACAAGAAAGAATTCGAGGCAAGTCCGTAAAGTGAAAGCAAGTTTTTTGGGAAAATCAATGAATACAAGTA
W
GGCTACACCATAGACAGAGCAGCCCCAAGGGCCAAAGGACTATTTCTTGACTGTGTGTTAAACAAGGAGCAGATTATTCAAGACTTTTCCAGGAAATGGA
Celera SNP ID:            hCV2845484
SNP Position Genomic:     1010502
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49436):
GTCTGCAGTGAGCCACAGTTGCACTCCAGCCTGGGCAACATGGCAAGACTCGGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAACTTTAAAAGT
Y
AAAAAAAATAGAAAAAATACCAATAGGGAATGAGGAAATAAGTCAGGGAAGAGAAGGCAGGTAATGAATGTGAGTTATCAAGCTAGATTCTCTGGTGGAC
Celera SNP ID:            hCV781681
SNP Position Genomic:     235780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49437):
CAGTCTCGGCCTCTCAGGCTCAAGCAATCCTCTCACCTCAGCCCCCCAAGTAGCTGGGGTTATAGGTACACGCCACTGTTACCGGAAAGAGGTCCCAATC
Y
AGACCCCAAGAGAGGGTTCTTGGATCTTACACAAGAAAGAATTCGAGGCAAGTCCGTAAAGTGAAAGCAAGTTTTTTGGGAAAATCAATGAATACAAGTA
Celera SNP ID:            hCV2845485
SNP Position Genomic:     1010401
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49438):
AAAATACTAGCTGGGTGCAGTGGCTCACGCCTGTAGTCTTGGCACTTTGGGAAGTCGAGGTGGGTGGATCACTTAAGCTCAGGAGTTTGAGAGCAGCCTG
W
GCAACATAGTGAAACCTCCTCAGTACAAAAAATAGAAAAATTAGCTGGGCTTGGTGACGAGTGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGTGGGAG
Celera SNP ID:            hCV781682
SNP Position Genomic:     235555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49439):
GTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCAACTCACTGCAGTCTCGGCCTCTCAGGCTCAAGCAATCCTCTCACCTCAGCCCCCCAAGTAGCTGGG
R
TTATAGGTACACGCCACTGTTACCGGAAAGAGGTCCCAATCCAGACCCCAAGAGAGGGTTCTTGGATCTTACACAAGAAAGAATTCGAGGCAAGTCCGTA
Celera SNP ID:            hCV2845486
SNP Position Genomic:     1010359
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49440):
AAAGCAGACTTTGGGTCGAGACTGCCGAGTCTCTACTTTTACTGAATTTAGTCCTGAATCCCACACAGACTCCCTGTACCCGCTCTCCCTAGGACGCCTC
R
GAATGGTCCTCCGTGATGCCGCTGCGCCTGTGCTGTCTGGACCACCTTCTGCCTTGGTGTTCTGACAACATCCTAGAGCATCTCACCTCTCTCGGCTCTT
Celera SNP ID:            hCV2845488
SNP Position Genomic:     1009526
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49441):
ACAGTGTAGTCAAGTCAAGGCAGTAGCTCAGGTAAACACACAATGCCACAAACAGGAGTTCTCAAACCTTGGCTGCATTTTAGAATCACTTGAGCTTCCA
R
AAGCTTCAATGCCCAAGACACACCCCAGATGCACCCCAATTGCCAGTGACCCTGGAATCTTTGGGGAGGACCTGGTCATCAGCATGTCTTTGAGCTCCCC
Celera SNP ID:            hCV376977
SNP Position Genomic:     536032
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49442):
CGGAGCCATGACCAAAAGCAGACTTTGGGTCGAGACTGCCGAGTCTCTACTTTTACTGAATTTAGTCCTGAATCCCACACAGACTCCCTGTACCCGCTCT
S
CCTAGGACGCCTCGGAATGGTCCTCCGTGATGCCGCTGCGCCTGTGCTGTCTGGACCACCTTCTGCCTTGGTGTTCTGACAACATCCTAGAGCATCTCAC
Celera SNP ID:            hCV2845489
SNP Position Genomic:     1009512
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49443):
AGCATCTGGTGTGGGTCTGAAGGCTGGGCAGGAATTAGCTGGTAGCAGTGTGCATTCCAGGCTAGGGGAACCCCAGTACTAAAGCTTCTTCAGCACAAAG
W
GGCTTGGTTTGTGCTTTGAACATAGCGTGGTTATAAATTAAAGAATAACCAAACTCCTTGAGTTGAATCAGTACACACCATAATGCATCAGCTCACATTG
Celera SNP ID:            hCV376978
SNP Position Genomic:     536287
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49444):
ATCCTGTGTATGTGCCACTTGGGATGCCAGCATTTTGATTGCTTCCAGAGCGATCTAACCAGAGCCTGCTCTCAAGACAAGGGAATCCATGATTCACAAG
Y
GGAACCGTACAGATGCCAGACCACAGCGTTCTTTTCACTTTGATTTGAGGGAGATGATGTTGGTCAGGGTGATGACTCCCCCATTTCAATTTCTCTGATG
Celera SNP ID:            hCV781687
SNP Position Genomic:     234730
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49445):
CTTGCCATCAGTAGATAGGCTCATCTCTCTGATCCGGAAGGCGGCAGAGGCACTCCTTCTGACATTGCAGATGAAAATAAGGTCTGCTTTTTTCCCACAG
Y
GCTCTTCAAAGGAGCAATTTTCTAAAATTCGAACAAGGGTGTCATAGTTAATAAGATGGAATTCTCCTTTTCTTTTTCTTATTATATTTTCCAAATCAAG
Celera SNP ID:            hCV376979
SNP Position Genomic:     537084
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49446):
GAATGGGCCCTGCAAAGTAATCTCAGAGATTGAGCCACACATAGACAAAGATGGAGAACACAGCTCACCTGCAGAGTGCTGTTTCTCATCACTAACTGTG
S
TTTCTCTCAGTCCTGACTTTTTATGCTGAGGATTCTGGGAGAAATTTCACCTTCTTTACTTCCTACAGGATATCCAGTTTCCTGGTCTGGGAGCTGAGAG
Celera SNP ID:            hCV781688
SNP Position Genomic:     234373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49447):
ACTCAATCATATCAGGCACTGATGTTCTGATGGTGCAGCTGATCCTGAGATGCAAACACCCCATGATCTTCTGCTGTCTGATTCCCTGCTATGTCCCTGT
R
TGTAGTCTAAACAGTCTATTCACTGAACAGTTTTTTAGTAACAACAAAAGTAATAATATGTTGGTAATAGTTTGTCAATGTCTACCCTGGAGAATATCAG
Celera SNP ID:            hCV781689
SNP Position Genomic:     232316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49448):
GTGTAGAATTTAGGTCAAGATGCACTGAGAATAATTTGCAAAACCCGTAAATCCGTAGCTGATATATTTAACACCAGGTCCAAACTGTTTCTGAAGGATT
R
AATCTCTTGCCTGAATACTGAAGAAAATGGAGGCATGATCTGAGGTTGGGGAATATTCTACCTTGCCAAGGATAACTGTAGAGTATTGTGACAAAGTGCA
Celera SNP ID:            hCV10075432
SNP Position Genomic:     145365
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49449):
TTTATGATGAGAAAATCATGTGGCATAAAAGAGAATAATTGCCTTCATAAGTGTATAATTTTTTATACTATAAGCTTCTCAATGAAAAAGCATTCTAAGG
R
AGGCATAATTGCTAATTTTCGGTGTTAAACATACCTCTGAAGAGTATTTCACAGTCTAACTCTCTGAGTGTCATGTCTTCCTGTGGCCCGGGGAAGAGAG
Celera SNP ID:            hCV10075433
SNP Position Genomic:     144700
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49450):
TTCCCTACTCCTTCTATTTTAACTGTCAAAATCATAGACTGCATTGTTTCCAACTGAAAATCCGCTGACAGCTCCCCACCAACCACCCCGTGAGCCTTCC
Y
AGGGCTGGCGTTGATGATGCTGCTATCAATGGGGAATCTACATTGTGCACGGGTATTTATGATGAGAAAATCATGTGGCATAAAAGAGAATAATTGCCTT
Celera SNP ID:            hCV10075434
SNP Position Genomic:     144544
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49451):
TCTCTCATAATGTTTGTTTGCCTCTTACTCATTTTCTGAGCTAGTCACCAAAACGTATCTGACACTTTCTTGCTTAACCTGGCGGGAGTGGTAGCGGATG
Y
TCCTGGTGCCCCCGTTGCATTCCCTCACCTTTCTGCCAGCTCAGCTTCCAGTAGCCAGCGCCTGCCTGTGTTTCTCTGCCTGAGGGCTCTCTCCGGCTGC
Celera SNP ID:            hCV10076096
SNP Position Genomic:     60681
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49452):
CAGGACTGCCTACAAAGGCCAGTGTCTCAGAGCACAAATGAGGATGCAGATGAGAGCAGGTCTGTTCTGGCATGGCAAAGGGGCTTGCCCAGCACTATCA
S
CAATCTGCAAAAAGATATTCTTGGGAAGACTCTGGTGTCTGAAAGATTAAAGGGAAAATGCATCCACGTGATAAAATATTATTCAGCCAGAAGAAGGAAT
Celera SNP ID:            hCV10076097
SNP Position Genomic:     60135
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49453):
GCAAGTCACAAATGTGTGGTTTCCAAACCTGGACTGGGTGGGGCTGACAGGGATTTCTTCCATTTTTTCTGTTTATCTCTGAATGGTTCCTTTAGCTGCT
S
ACTTGGCAACTGAACTCAACGTTGTCCTCTGCCCCCAAGGCTCTCTTTTGTCCATTCTCTCTTTCTCGGAGGATGACTTTGCCTCCTACTTCCAATTCAA
Celera SNP ID:            hCV2845490
SNP Position Genomic:     1009287
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,2)      total(G,2|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49454):
GGGATTACAGGCGTGAGGCACCGCACCTGGCCAATAAAGTATTTTTAAGCCTCTCAGATTTTAGAACTTTGTTACAGCAGCATTATGAAATTGATACACG
S
GGGCATGTTTTCCTGAAATCAGAGCCTGAGAGGAGAACCAGGTACAGGTAGTTTTCTTTGGGAGGTGATCCAGGAAGCAGGAGTAAGGAAGGATGAGAAG
Celera SNP ID:            hCV2371830
SNP Position Genomic:     224063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49455):
AGCAACACTGTCACAGGTAAAACGTGAGGAAACAAGCTTGCTTCTTTTTTTTTTTTTTTTCAAAGCAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAG
K
GGAACAATCACAGTTCACTGCAGCCTCCACCTCCAAGGCTCCAATGGTCCTCCTATGTCAGCCTCCTGCGTAGCTGGGGCTACACAAGTTTGCTTCTTAT
Celera SNP ID:            hCV2845491
SNP Position Genomic:     1008740
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49456):
CGGCAGAGGCACTCCTTCTGACATTGCAGATGAAAATAAGGTCTGCTTTTTTCCCACAGTGCTCTTCAAAGGAGCAATTTTCTAAAATTCGAACAAGGGT
R
TCATAGTTAATAAGATGGAATTCTCCTTTTCTTTTTCTTATTATATTTTCCAAATCAAGGGCAGTAGATTCCAGAACTCCAATGACGTCAGGCCACTGTA
Celera SNP ID:            hCV376980
SNP Position Genomic:     537125
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49457):
TCAGGTGTATTGGGGTCTTTCCCTGGGAGTCCGATGCAGCAAGCAACACTGTCACAGGTAAAACGTGAGGAAACAAGCTTGCTTCTTTTTTTTTTTTTTT
T
CAAAGCAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGAACAATCACAGTTCACTGCAGCCTCCACCTCCAAGGCTCCAATGGTCCTCCTATGTC
Celera SNP ID:            hCV2845492
SNP Position Genomic:     1008699
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49458):
TGTGTGCTCATGTGTGTGTGTGCATGTGTGTGTGCACACGTGTGTCTATGTGTGTGTGTGTGTAATTTAAGCCAAAATGACGGACCCTGTGTTATCTTTG
S
AGATCCGTGGTCTCAGGCCATGCTTAATTCTTCCACGCTGGTTTATTGGTTCCTGTGTTCCAAAGCTCCGCATGTACCCTGTTTAAAGGACGGTCCACTT
Celera SNP ID:            hCV2845493
SNP Position Genomic:     1007953
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49459):
ATTCTGTTGGCCAGTGCTTAGTCACATGTCTAAAATTGTAATGGAGCAGCAGCACCATGTCCTATTGTGAGAAGTAGCCAGAGACTAATCTCAATGACAG
K
TCTTATAGCTTGAAAAGGTATTTGCAAAATCTAAAGCAAAAGTTGCCAACTCGAATGCCTAGATGTCCAAGCAAGTGTTTAACTGAATTGAGTGAGCAGA
Celera SNP ID:            hCV781690
SNP Position Genomic:     231675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49460):
CTTTGGGAGAGCTGATTGCCGCATGTCTTGCCGGTTCTGCATGTGTGCGGTGATATCGAGTACATAGCTTGAAATTGGCCATGGGGGGAATATTTAAGCA
S
AAAAATGGACACAAGCTACAAATCAGGGCTTTTCCCCCTGAATTGCCATTAAACATTTACCAGCACAATACTGTGGGTTAGTTATGGTGTTTGCCCACCT
Celera SNP ID:            hCV2845494
SNP Position Genomic:     1007716
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49461):
GGTGATCTTTGAGGTGAGCTTTTATGAATAGGCAAAATTTGGGTAAAGAGGTAGACCCATTTTTAAGAGCAGGGTGACATGAAAATCTCAGGATATATTA
S
TCAGCAATTAATCCTCATTGTTGTAACAAATAGTTACAAAATTCTCGTTGCATGGCTCTGGCTTACCTGCAAAGCAAAGTAGAAAATGGAGAAGCTCCCA
Celera SNP ID:            hCV8092366
SNP Position Genomic:     472569
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49462):
ACCTTGGGAGTCCTTCCTTCCTATTTCCATGGATAGGAGAAGAGAAGATATCATGCAGGACATTCAGGGGCCATGTCTAGAAGACGTGAGAATCCTTCCA
M
CCTTATTCTGTTGGCCAGTGCTTAGTCACATGTCTAAAATTGTAATGGAGCAGCAGCACCATGTCCTATTGTGAGAAGTAGCCAGAGACTAATCTCAATG
Celera SNP ID:            hCV781691
SNP Position Genomic:     231570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49463):
AACTCTGCCCCTTCACAGCACAGGGCCCGGTGGAGGCTGCCCTTCCAGGGAGCCCAGGCTCACGTGTACTTGCCAGGGCTGGCTGTCCCTGTCCAGCAGG
K
CACAGACCTCTCCTGGTCTGACACTGAGGAGTGACCAGTGCTGACTCAGAGCAGCCCATCTACGGGCGCACTGTTCAGAAAGTCGTGGAGGTAGATATAC
Celera SNP ID:            hCV376983
SNP Position Genomic:     538656
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49464):
GCAGTCCCCAGCCTTTTTGGCACCAGGGACCGGTTTCGTAGAACACAATTTTTTCACAGATGGCAGGGGTGGTGGGGGATGGTTTCGGGATGACACTGTT
Y
CACCTTAGATCATCAGGCATCAGTTAGATTCTCTTAAGAAACGTGCAGCCTGGATCCCTCTCATTCCCAGTTCACAATAAGGTTTCCGTTCCTATGAGAA
Celera SNP ID:            hCV2845495
SNP Position Genomic:     1007133
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49465):
GACTGATTCTGGGCTCTTTCTATTGGATGACTCTGCCACCTTGGGAGTCCTTCCTTCCTATTTCCATGGATAGGAGAAGAGAAGATATCATGCAGGACAT
Y
CAGGGGCCATGTCTAGAAGACGTGAGAATCCTTCCACCCTTATTCTGTTGGCCAGTGCTTAGTCACATGTCTAAAATTGTAATGGAGCAGCAGCACCATG
Celera SNP ID:            hCV781692
SNP Position Genomic:     231533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49466):
ACGTGTACTTGCCAGGGCTGGCTGTCCCTGTCCAGCAGGTCACAGACCTCTCCTGGTCTGACACTGAGGAGTGACCAGTGCTGACTCAGAGCAGCCCATC
Y
ACGGGCGCACTGTTCAGAAAGTCGTGGAGGTAGATATACTGCTCCAGCGTTGGGGTCATAAGGCCACAGGCCGGGGACTGCTGCAGAGCCACGTTAAACA
Celera SNP ID:            hCV376984
SNP Position Genomic:     538717
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49467):
AAACCCAAACAAACTGAATTGTCCACTTGTACCAGCCTCACACAGGAATGGTCAAAATACCTCTTTTCCTTCAGCTCTGGGAAATTGAAAAGACAAATCA
S
TTAGCGGAAGCCTAAGACTAGAGGCTCACCCTTCGACAAGGAAATTCACTTGTATTTTCTCCGGAGTCAAGGATCCCCTGTTTGCACTCATTTCGTTGTT
Celera SNP ID:            hCV2845496
SNP Position Genomic:     1006525
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49468):
GAAAGCAACAATGGGACCGACGAAACTAAAAGCAGTCTCCCCTTTTACCTCCCCAAGAACTGTAAAACCATTTGTAAGTGTCTGTGACCTTAATGACCAG
M
AACGTGTCAGGTTTTCTGTGTTCCTGGGGCTGTAAAACACCAGGAACATTTTAAGGAGGTCAGACTCAGCAGGGGCGTGGACATGAGTACATGCACATGT
Celera SNP ID:            hCV781693
SNP Position Genomic:     230612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49469):
TACTCACTTCCTAAATAACACTGTTCTCAGGACCTTCATTACTGCATATATATTAATAATTCACAAATCTGAATTTCATCCTTTGCCTCTCATTTGGTTT
Y
CAAATTTATTTTCACTCACAATTCCTACATAGTCAGACACCTTCAACTTCACGTTTCCATTTTGATTCTTTGTCTTGCCTTCCATGTCTTGTAGCTTATC
Celera SNP ID:            hCV376985
SNP Position Genomic:     539158
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49470):
GGTGTCTTTGCTAATCGCCCCTGAATGCACGGTTCAATTCAGGGCTGTAAATCCATATATCAGAGCCAGAACCAGTTAGCTGTCTGGTCTATAATAACCA
Y
GCACTGGCCTCTCACATCATGGGCACTGGACCCTGTGGCTGAAAAGAAAGTCTCAACAAACCCAAACAAACTGAATTGTCCACTTGTACCAGCCTCACAC
Celera SNP ID:            hCV2845497
SNP Position Genomic:     1006367
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49471):
AATACAGTTTCCTTTGCTATTGATCCCCTTTCCGCAATCCAGGCTCTCATTGATCTGCTTTCTCTAATAATGGTTTTGTCTTTTCTAGAATGTCTTAAAG
Y
GTACCAGTATTTTGTTCCTTTCTATTGCGAAACGTATTATGGACAGACACGGCCTGCAAAGGCATTAAACCCAGGTAGAGTGGGCTGTCTTCGGCCTGCA
Celera SNP ID:            hCV27453108
SNP Position Genomic:     1174178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49472):
AGTGCTAGCCAAAGTGTGTCATCTCCACTCTCTTTCTTTCCTTGGTACCATGGATGTGTTTGATATGGTGCCAGCTGCAAAGTAGTGGAGGCTTCTTCAG
Y
GTGGGTTCTTGAGCTGTCATATAGCATAAAGCCGCCACCCACCATTCTGAATTCACAGCATGAGCAAGAGATAAACAAACCTTTGTTGAGTTAAGGCTCT
Celera SNP ID:            hCV376986
SNP Position Genomic:     543872
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49473):
AGCTCTACAAATAGGAACAGGTGTCTTTGCTAATCGCCCCTGAATGCACGGTTCAATTCAGGGCTGTAAATCCATATATCAGAGCCAGAACCAGTTAGCT
R
TCTGGTCTATAATAACCACGCACTGGCCTCTCACATCATGGGCACTGGACCCTGTGGCTGAAAAGAAAGTCTCAACAAACCCAAACAAACTGAATTGTCC
Celera SNP ID:            hCV2845498
SNP Position Genomic:     1006348
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49474):
AGAGAAGCAGTTGGATTTTATATGTGAAAATGCCTCTATTTGCTGCATTTTTACTTTTTGAGAAGTTGCAAGTTACATGAAAATAAACATACTATATAAG
R
AAACACGGCAGATTTCTCCTGGTGTTTTAATAATTCCCCGAAGGTTTATGAATATTGGCAAACGTATTTGCAGTGGTACTTCCCTGCTATTTACTTTGTA
Celera SNP ID:            hCV376987
SNP Position Genomic:     547206
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49475):
ACATTGTGTGCAGATGCCCTGAGGCATACAAGAGCCCGGTTGAGGGGCTGAGAGGTGGGGCCAGGGCGGGTTGGGAGAGGTGGCACACACCCAGGGACTC
W
GTCCCCTATTACAGACTCCAGGAAGCCATGCATTTCCCTCGAGTTCCCCCAAATCACTCCCCAGTCACGATTAACGGGCTCTCTTTTCTTTCACTTGGGC
Celera SNP ID:            hCV2845499
SNP Position Genomic:     1005910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,7)      total(A,5|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49476):
CTACTGTGAGCCAGTTTCTGTCCTGAAACATTTGATTTGTGTTTACTCATTGACTCATACAACCAATGGGAGTAGACACAATTATTAGTTGTGTTTTGCA
R
ATGAGGAAACTAAGGCAAAGAGAATTTAAGTAACTTGCTCAGGGTCACATAGAAACTAACTGGAAAAATTGAGATTTCGACCCAGTTAGTCTAGCCTGCG
Celera SNP ID:            hCV781696
SNP Position Genomic:     225549
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_AA(G,4|A,79)   total(G,4|A,79)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49477):
GAGGGTTGAAAAACTACTAGATGCTGTGCTAGCTAGGTGACAGGACCAATGATACTCAAACCTCAGCGCCACACAATATACCTAGGTAACAAACCTGCAC
W
TGTACCCGCTGAATCTAAAACGAAAGTTGAAATTATAAAATAAATAAATAAATGTGGTGCTTATTTTTAAAATAAATGAACAAAAAAACCCCAAAGAGCT
Celera SNP ID:            hCV376988
SNP Position Genomic:     548322
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49478):
ATATAGGGGCTCCTTTGTTTGACTTAAGGGAAACAGGTATTATATGGCATTCGACATCACTAATTTAATTACAAAAAATTCATAAATAGATGCAAATACC
R
CCAACCCTGAGCAGGCACATCCTCTGGTTTCTCCTAAGGGCCAGCCAGCAAGCCAGGCATTCCCAGTGTAGTAACTTAAATTCTTACAAAACTGTATTTT
Celera SNP ID:            hCV781697
SNP Position Genomic:     224836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49479):
AGGGTTGAAAAACTACTAGATGCTGTGCTAGCTAGGTGACAGGACCAATGATACTCAAACCTCAGCGCCACACAATATACCTAGGTAACAAACCTGCACT
Y
GTACCCGCTGAATCTAAAACGAAAGTTGAAATTATAAAATAAATAAATAAATGTGGTGCTTATTTTTAAAATAAATGAACAAAAAAACCCCAAAGAGCTT
Celera SNP ID:            hCV376989
SNP Position Genomic:     548323
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49480):
TTTAAAAATTGAAAATCAACAAATCCAAAAGTTTGTCCTATAAAAAGATTGAATAAAATTGTAAACTCATATCGAAACTGTTGGGCAAAAAAAGAAAAAA
R
CACAAATTACCAACACTGGGAATAAAAAAGGGAAAATGACTATAGCCATCAAAAAGATACAAAGATATTATGAACGGCATTATGCAATATATTTGACAAT
Celera SNP ID:            hCV11674201
SNP Position Genomic:     1139930
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49481):
TATTAACTATTATTGTAATCTGTCAAGAATCATCCCAAATATACCTTGTGCTAAGAACCTTTCCTCATCATTTCCTTGGGGTGTAATACAAAAATCTGAC
R
TATTCCAGAGGCTTGGATACCCTCCTTGGTACTCACTTGGCATAGCTTCCATCACACTGTATTTTGTAATTGCTCATGAGTGTGCTAGTTAGGATAAGTA
Celera SNP ID:            hCV27492014
SNP Position Genomic:     1084374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49482):
GCTCTTTGGAGAATGGACTGTAGCAAGCAGAAGAGAAGCAAAGAATCAGGTGCATTGCAGTGGTCTACACAAAAGACGATCCCTAGTCGTCTTACCACCT
R
CCTCCTACAATAACCAAAGAAAGTGGACCCACACCACAGCTACCTCGGTCCACTGCATGTGTGGAAGGTGATGATTCTCTTGGGCATGATATATATTACT
Celera SNP ID:            hCV27492015
SNP Position Genomic:     1122658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49483):
GAATTTCAGAATTCTATCAGCTAAATACCTCTTGAAGCTCCGATTACCAAGACTATAAGCCCTTCTACAGCATTAAGGGATTGCTCGTAAAGATACTGCT
R
TTATGCATCTGGTGTAAAGCCTCCTCATCTTTAGCTCAATTCAACAAGTTTCCATTCAGTGCCCAGCTCTAAAAGTCTTAAATGGAAATTGATTCCCTAC
Celera SNP ID:            hCV10075444
SNP Position Genomic:     144351
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49484):
TGACCTCAGATGATCTGCCTACCTTGGCCTCCCAAAGTGCACTGCCTTCATTCATTCTTAAATCATTCATTTCTTTGTGGAAGCCCCTTAGCTCCATGTA
S
TTTATGGATGTGTCAGAACAAACTGAATATTGTTTATTCTTTTACTTTTTAAAGAGATGAGTATTTGAGTCCTCTGATTCACAGTGAATTTCAGAATTCT
Celera SNP ID:            hCV10075446
SNP Position Genomic:     144165
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,13)   total(G,13|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49485):
ATTTTCATATAATATTTTAGTTGTTGTAAAACCTGCATTTCAGTAGTTTAATCTGTCAGTAATTCACGCAATAAATTAGAGCTCTAATGGTGGCTTAGAA
R
GGCCTTCTCCCCTGTATTACTTAAATATTCAATGACTTTATTCCTCCTAATACTTAAATCCATCTGGAATTCATTAGACTATACTTTAAATTTGTATGTA
Celera SNP ID:            hCV11440690
SNP Position Genomic:     713635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49486):
TAATGAGTATACATGTTGCTACACACATACACACACAACCACACACGCACATATCAGGCTAAATTTCTACAAGTGAAATTTTCAAAGCTTGTGATGGGTG
Y
TAACAAATTGCATTTCGGAAAGATTTTTTCATGTAATTGATAATATATGAGAGTTTATTTCCTCATAAGTCTGTCAAACACTATGAACTTTTTCTAATTA
Celera SNP ID:            hCV11440694
SNP Position Genomic:     713353
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49487):
TGTATACACTAATTTTAGTCAGAATTTGTACTTCTTAACATGCATACTATACCATTAGTATATTTTTACATTCTCTAAAGTGTGTCTGCAATGCAGTGTT
S
TACTTTCTGCAGATACCATAGTTTCTTTCATCAATCTTTTATAACATTGTGTTGATTGTAGTTTTTTCTATCTTTAAGCAATATTGTAATGAGTATACAT
Celera SNP ID:            hCV11440695
SNP Position Genomic:     713166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49488):
TATACCCCAACTTTTACATGCTCCCAGAGAGATCTATATTTTCCTTTCCAGTTAAATTTTAATCTTGGTGAATCACTTAAATTATGATTTGTTAATGCCT
S
TTTTCTTTTTGAGACCATAATTATATTTAACAATTATTGACTCCTTATCCTGTGTGGCACCTTTCTCATTGCTTTGGACAATGTGTAGCAAAGTCCTCAC
Celera SNP ID:            hCV2371840
SNP Position Genomic:     233884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49489):
AAACCTGCACTTGTACCCGCTGAATCTAAAACGAAAGTTGAAATTATAAAATAAATAAATAAATGTGGTGCTTATTTTTAAAATAAATGAACAAAAAAAC
S
CCAAAGAGCTTAGCTAGGTGTTAAGTACCATCCAATGGACGGTGCCATCCATTATATAATATAGATATTTACACACACACTCAAACACGCATACATGTAT
Celera SNP ID:            hCV376990
SNP Position Genomic:     548412
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49490):
AACTTATTCTGATTATAAAAGTAATGTTCAGTATTGTTAGTAAAATAAATTTTAAAAAAAACGAACTTGTAATTTCCCCACTCAGAGATAGCTTCTGATA
M
CATATTGGTGCTTTTACTTCTATTTTTTTCTATCCATATGAGTATAATTAAATACATATTCACATCTATATCTATACTCATTCATATATATTCATATGTA
Celera SNP ID:            hCV376993
SNP Position Genomic:     548807
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49491):
TATAATTAAATACATATTCACATCTATATCTATACTCATTCATATATATTCATATGTAAGATTAAACTATATGTTCAAATTGTATTCTGCTTTTTAAAAT
Y
ACACTTTATTTTCTGGGAATGTTCTCTTCATAAAGTTCTTCCAAACCATGATATTTAATGTCCACATAAGAAAACATCTCATGGACTCTCAATTTATTGA
Celera SNP ID:            hCV376994
SNP Position Genomic:     548950
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49492):
GGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTGCACCTCCCGAGTTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGTTGCC
Y
GCCACCACACACAACTAATTTTTATGTTTTTAGTAGAAATGGGGTTTCACCATGTTGGCCTGGCTGGTCTTGAACTCCTGGCCTCAGGTGATCCACCCAC
Celera SNP ID:            hCV376996
SNP Position Genomic:     568418
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49493):
GTTTTCATGCTGTTGATAGAGACATAGCTGAGACTGGGAAGAAAAAGAGGTTTAATTGGACTTACAGTTCCACATGGCTGGGGAGGCCCTAGAATCATGA
M
AGGGGGCAAAAGGCACTTCTTTCTTGGTGGCGGCAAGGGAACATGAGAAAGAAGCAAAAGCAGAAACCCCTGATAAACCCATCAGATGTCTTGAGATTTA
Celera SNP ID:            hCV12108404
SNP Position Genomic:     463662
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,6)      total(A,1|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49494):
GGACTACAGTTGCCTGCCACCACACACAACTAATTTTTATGTTTTTAGTAGAAATGGGGTTTCACCATGTTGGCCTGGCTGGTCTTGAACTCCTGGCCTC
R
GGTGATCCACCCACCTCGGCTTCCCAGAGTCTGGAATTACAGGCGTAAGCCACCACGCCTGGCCCCAAACAAAATTTAATTTAATCCTTACAACAGTCAC
Celera SNP ID:            hCV376997
SNP Position Genomic:     568504
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49495):
TTCTTGCCTAACGAGAAGTCTCAGTGTAGGTGATGCTGGGTTTGGTTCAACTGTTCAACAGTGCTATGAGAAATTCAGGCTATTCCTCTACTTCATCTCA
S
CATCCTTAATTGTCTGGCTTTAATCTTCATAGTTTTCCCCTTATATTGGTCTGTTTTCATGCTGTTGATAGAGACATAGCTGAGACTGGGAAGAAAAAGA
Celera SNP ID:            hCV12108405
SNP Position Genomic:     463509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49496):
GGTTTCACCATGTTGGCCTGGCTGGTCTTGAACTCCTGGCCTCAGGTGATCCACCCACCTCGGCTTCCCAGAGTCTGGAATTACAGGCGTAAGCCACCAC
R
CCTGGCCCCAAACAAAATTTAATTTAATCCTTACAACAGTCACTCAAAGGAAGAAGGATATTTGCATTATTAGAGCACCTTCATGAGCTTGACATTTTTA
Celera SNP ID:            hCV376998
SNP Position Genomic:     568561
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49497):
CTGTAAATTCCGTGGACACAGCAGTGAACAGAACAGACCAAGCCCTGTCCTAGAGTCCACCTGCTAGTAAGGGAACCTGACAAATCAAAAGTTAATAAAA
Y
ACATGGTGTGTCAGTTGCTATGATAGGTCCTGATAGGGGCTATGGAGGTCAATGGCTAGAGATGAGAGTAGGTTGCAGTTTTCAACAGGGAGGCCCTCAG
Celera SNP ID:            hCV376999
SNP Position Genomic:     569088
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49498):
AATATGTTACCTTACAGGGCAAATGGGACTTTGTAGAAGTGATTAAGTCAAATATATTGAGATTGGAAGATTATTCTGAATTATCCAGATGGGCCTGATA
Y
AATCACAGGGTCTTAATAAGGGGGAGGTGGGAATGGCTGGGTTGGAGATTTAAAGATGCTCTAGTGCTGGCTTTGAAGATGGAGCAAGGGCCCACCATGC
Celera SNP ID:            hCV12106804
SNP Position Genomic:     884987
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49499):
AAAACTTCATCTCAAAAAATAAAATAGCTTGAGTAAGTAGAGGTGTTTTTCTTGCCTAACGAGAAGTCTCAGTGTAGGTGATGCTGGGTTTGGTTCAACT
R
TTCAACAGTGCTATGAGAAATTCAGGCTATTCCTCTACTTCATCTCACCATCCTTAATTGTCTGGCTTTAATCTTCATAGTTTTCCCCTTATATTGGTCT
Celera SNP ID:            hCV12108409
SNP Position Genomic:     463461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49500):
GATGCCTGGCCCACAGTAGGTGCTCAATAAACGTGTGTTGAATAATACATGAAGGACACGAATAAATGTGTGTTGAATAATGAATGAAAGACACAAATTC
R
GGAGGTAATTTTGTTTGCTGGTTTGTGTCCCTTTATCTCTTTATCTTGTGATGTGGAACCACACTCACAGAGTCCCTTCATCTTCATTCATTTCATTCAT
Celera SNP ID:            hCV10075456
SNP Position Genomic:     143735
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49501):
GCTACTTCTCAATCAATTATTTGGGATCAGTTGGTTTCATCACATGGCATTGCATCATGAATATGCTGAACAAGGCCAAGGGAAGGCAACAATTAACTGG
S
AGTTTGTAGGCTTGTGATTAGATATAATTAAAAGTCACATAAAGTTCCAAAAAATATTTTTCACTTGTTTCATATCTCAACAACTTCCACTTGTTTAAGT
Celera SNP ID:            hCV10075457
SNP Position Genomic:     140630
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,6)      total(G,2|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49502):
GCTGCTCCACACATAGGCATATCTGTGCCAGTTAGACATAAGCACCCGGCTCATTGCGGGTACTTACTGAGGGGGTAGAAGGAACATAGTACCGCCCCCG
Y
AAAAATGCAATTAGCCTGTTATCAAAATAACAGGGAGAGATGAATTCTTATCTTTTTGCTGGAAGGTCGGAAGAGGCATTGGGCTTAGGAAGTGGCCACA
Celera SNP ID:            hCV10075458
SNP Position Genomic:     139286
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49503):
GTGTATAACATAAAGAGATGTCCTCAGATAGCTCATGGCATTTGTTAGCTCAGGGGGGTTGTAGAAAGTTTCCTGTAAGCGTTTTACACTCAAAGTTTTC
Y
TTATAGTGCCAAAGAATGAGAAGCAAAAGCAATTCAGCACTGGAACCGTTTGGGGAGTGTGGCTCCATTCTGAGGTTCTCTTCTCATCAGAGTGGGGGCA
Celera SNP ID:            hCV26050308
SNP Position Genomic:     898956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49504):
TCAAACATTGTTCCTCGTGATTTATTCAAAAATTCGCTTTTCCAAGTTTCCGTCTAAGAGCATGTGGTGGGTTCTTATCTTCATCATAAAAGTGTATAAC
R
TAAAGAGATGTCCTCAGATAGCTCATGGCATTTGTTAGCTCAGGGGGGTTGTAGAAAGTTTCCTGTAAGCGTTTTACACTCAAAGTTTTCTTTATAGTGC
Celera SNP ID:            hCV26050309
SNP Position Genomic:     898865
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49505):
AGTTTAATGAATCACTTTCCAGACCTTTCTCTCACATTTAGGTACATACAATCACCCCTCGGTATCTGTGGGGGCCAAAATCCAGAAACCTCTGTGAATA
M
CAAAATCTGCAGATACTCAAGTCTCTTTTATAATATAGTGTAATGTTTGCGTAAAACCTAGGCACATTCTCCCTATACGGTTGACCCTTGAACTACATGG
Celera SNP ID:            hCV2371851
SNP Position Genomic:     287759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49506):
TTTCTGTTCCAAACAGGGAGGTGGGAGGAGGAAGGGCAAAATGTTTCCCATGGATGTACCACTTTTTAAAGTTGTAATCTGGAGTACTCATCAACAACAT
Y
TAATTCATGCCTTTGGGGGAAAGAATGGCTCTACCAACAGACAAGGTCAAAAGCTGGTGGGCCTCAGACCGAAGCTTGCCATAACCTCTTTTGTTTGGCC
Celera SNP ID:            hCV16164478
SNP Position Genomic:     859613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49507):
TCCAAACAGGGAGGTGGGAGGAGGAAGGGCAAAATGTTTCCCATGGATGTACCACTTTTTAAAGTTGTAATCTGGAGTACTCATCAACAACATTTAATTC
R
TGCCTTTGGGGGAAAGAATGGCTCTACCAACAGACAAGGTCAAAAGCTGGTGGGCCTCAGACCGAAGCTTGCCATAACCTCTTTTGTTTGGCCTTCTAGT
Celera SNP ID:            hCV16164479
SNP Position Genomic:     859620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49508):
CCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCACCATTGCACTCCAGCCTGGGCAATAAGCACAAAACTTCATCTCAAAAAATAAAATAG
S
TTGAGTAAGTAGAGGTGTTTTTCTTGCCTAACGAGAAGTCTCAGTGTAGGTGATGCTGGGTTTGGTTCAACTGTTCAACAGTGCTATGAGAAATTCAGGC
Celera SNP ID:            hCV12108410
SNP Position Genomic:     463388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49509):
GGGAAAAGTTTGTTTTGACGTGGAAGGTCAGGAGTTTTTGTTTGTCTCTTGTGTCCCTTTTTACGTTCATGTCTGTCCAGAAGTATTCATCTTCTCTTTG
W
GGTTTAAATGCCCTGGGCAGCTGAATTACTGTGTGACCTCCTATTGTCAGAGCATCTTTGTGGAGGAGAACCCATCACCTGTCTCTCGAAAACAGTTGTC
Celera SNP ID:            hCV12108411
SNP Position Genomic:     462870
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,7)      total(A,2|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49510):
GTAAATTCAGAGGACTAAGCAAATGTACTCAGCACATCTGCTTGTGAACATACTGCCAGCAAGTGCCATTTGTTTTAAGCGATAGAGAATTAGATATCCT
S
TTTGCTGTACTGTTCCAAACTGCTTATTTCTTTCTCCTTCTTTTTCCTCATAGACTATGATCTTTTGATATTATAGCAGGAAACTTGGCGTGGGCTAGCA
Celera SNP ID:            hCV2371858
SNP Position Genomic:     332085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49511):
AAGGATCTGTGACCTGGGAAAAGTTTGTTTTGACGTGGAAGGTCAGGAGTTTTTGTTTGTCTCTTGTGTCCCTTTTTACGTTCATGTCTGTCCAGAAGTA
Y
TCATCTTCTCTTTGTGGTTTAAATGCCCTGGGCAGCTGAATTACTGTGTGACCTCCTATTGTCAGAGCATCTTTGTGGAGGAGAACCCATCACCTGTCTC
Celera SNP ID:            hCV12108415
SNP Position Genomic:     462855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49512):
CAGAAAGGTTATTGCCAAATATGGCCATAAAGGTTTTATTGCTCCAATTTTTATAGCAAAAACAGATACACTTCTTAATGAATTTTGGTTTATTAGATCA
S
CAATGACCAACATGGGGTTTCTAGCTCTTAGGAGACCCTGATGGTGGCAATGAAGGTCTGCAAGCTATTTTAAATATTTCAGAAAATCTAATATAATCTT
Celera SNP ID:            hCV2371859
SNP Position Genomic:     332396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49513):
TTTTTTTTTTTGAGACAGAGTTTGGCTCTTGTTGTCCAGGCTGGAGTACAGTGGTGTGATCTCGGCTCACCATAACCTCCGCCTCCCAGGTTCAAGCAAT
Y
CTCCTGCCTCAGGCTCCCAAATTGCTGGGATTACAGGCATGCGCCACCACGCCCAGCTAATTTTCTATTTTTAGTAGAGACGGGGTTTCTTCATGTTGGT
Celera SNP ID:            hCV12108418
SNP Position Genomic:     460393
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49514):
GGCCATGATTAGCCCAATGAACATTTACTAATCATTGAAATTTAAGCATGGCAGCCTGGTGTGTAACCATTGTTTGAGTTAGCATACTTCAGTTTTCCCC
Y
GTTGATTTAGTCTCATGTAAATCTCTGAAGCCTCGGCCAGTCTTTTCTTAAATACACGTAACAGCTACCATAATTCTCTTTCTGCTAGTCCTTTGGTCCA
Celera SNP ID:            hCV10075464
SNP Position Genomic:     137886
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49515):
TGAGCACGTCACTGATTCTCCCTCATCTCAGAGTTTTGCCATCTCATAAACAGGCTTGACCTCGATTAATGGGTTTTACTCCACAATCCATGGGGCCCTT
K
ATTCTGTGGGTCCACCTCAGAAGCTGTCCAAACATCAAGAGAGAAGTGGCCTTGGTCCAGTCCTGGGCACCCCATCTCCCATCACCAAGGGCCATCTGTC
Celera SNP ID:            hCV10075466
SNP Position Genomic:     132805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49516):
AAGAAATGATAAGCTGATATTTGGGTATAATATTATCTTGTTATCCATGTTCTTTGTATTAGCTGAATTATTTCCATTTCTGCTCCAACCAAGAAAATCA
R
TTCAAACATTGTTCCTCGTGATTTATTCAAAAATTCGCTTTTCCAAGTTTCCGTCTAAGAGCATGTGGTGGGTTCTTATCTTCATCATAAAAGTGTATAA
Celera SNP ID:            hCV26050310
SNP Position Genomic:     898763
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49517):
AGTCTAAGCTACTCAGGAGGCTGAGGCATGGGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTAAGCCAAGATCATACCACTGCACTCCGGCCTGGGC
M
ACAGAGTGAGACTCCATCTCAAAATTAAAAAGAGAAGAAGAGGAGAGAGACAGAGACACACAGAAGATCCAGGAGAGAAGGCCAAGTAAAGTTGGAGGCA
Celera SNP ID:            hCV26050311
SNP Position Genomic:     897365
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49518):
GACTTACAATCATGGCAGAAGGGAAAGTCAACCGTCCTTCTTCACAGGGTGGCAGCAAGGAGAAGTGCTGAGCAATGCGCAGGGATAGCCCCTTATAAAA
S
CGTGAGATCTCTTGAAAACTCATTCACTATCATGAGAACAGCATGAGGGTAACTGCCACCATGATCCAATTACCTCTCACCAGGCCCCTCCAACAACACA
Celera SNP ID:            hCV26050312
SNP Position Genomic:     896384
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,2)      total(G,2|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49519):
TAAAATTTGAGAACCTCTGATCAAGCCCTGCAAGCTTTTTAACCCTGGTCCTGGGCAGTCAGCTAAATCCAGGAAGTATTTCGCAGATTGGGAATAAATA
R
GAAAAAAAAAAAGGCATAAGTGTCTTTGGGTTGAATCTCATTTTAAGCCCCAGAATTAGGCTTGTGAAAACAATTCAAGAATTGTCTTCGAGCCTATAAT
Celera SNP ID:            hCV26050313
SNP Position Genomic:     895767
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5|-,7)   total(G,5|A,5|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49520):
GGTGGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTTGGCAACAGAGTGAGACTCCGTCTCAATAATAATAATAATATAATAATAATAAT
W
GTAATAAAGAAAGTACATGGGGAAGGAATATGTTCTACATGAGCTTTCACAGGGGCACCGATCTAGACCAGTGTGGACTAGAAGTAGCCACATCCCCTGA
Celera SNP ID:            hCV26050314
SNP Position Genomic:     895446
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,4)   total(A,3|-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49521):
TGAGCGGAGATTGCACCACTGCACTCTAGCCTGGCGGACAGAGTGAAACTCCGTCTCAAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAA
W
TAAATAAAATAAAAATAAAGGAAGGGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGT
Celera SNP ID:            hCV26050315
SNP Position Genomic:     895113
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,6)   total(A,1|-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49522):
ACCAAAAACACCAGGAAATGCTGCAGCCACCACCTTCGAACCAGCTTCAAAGGTCAGCCAGTCATCAGAGTCAGAAGTTTTGTTTTGTGGGGGCGGTGGT
K
GTTATTGTTTTGTTTTGTTTTTTTCCTCTTTATTCTGAAAAGTGCCAGCTCTCAAGCTGGGGCAAAAATAGCTTTGTGTTGTAGCCTCAATCAATAGTCC
Celera SNP ID:            hCV26050316
SNP Position Genomic:     908969
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49523):
AGTTTACTTCTCCTGTCCCCGGTTCAATAACTCACTTACTGGGGTTCTGGAGGATAGCAGTGAGAAGATGGGGTAAAAAATTAGAGAGAAGTTTTGCGTT
R
CCCCATGGCTGCTTCTGTAGTGTAGTCCGTGCATCCGCCCTTCGATGCTTGGGTTGGATCATAGAGCAGTGACTGTTGATGGCTCACCCAGATCCCCAGG
Celera SNP ID:            hCV26050317
SNP Position Genomic:     891079
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49524):
TCCAGGGTCACTCCCTTGCTTCATGGTAGACCCTTGATGTCAGTTCCCTGGCAGCTGGCTTGGGCTCTTCCTAGCGCTCAGATTCCACCTCAGTGGGCAT
R
TCCGGTTGCACATCCCAGAAGTATATATCTTCCCCATTCTGTGGCATGGTTGCAAGGACAACATTGAACATTGGGAAAAGGAGGCAAGAACGACAACAGT
Celera SNP ID:            hCV26050318
SNP Position Genomic:     906457
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49525):
CTCAGCTAGCATTTTTGAATAAATAAATGAGTGCATGGATGGAAGAAAGCAAGGTTGTCTGGCAGACTGTCTTGGTTGAACATGATTTCCTATTCATGAT
R
ACCTAGCCCATGCTCTTCAATCCTGATAGCTTTTTTAGATTTTTTAAGCCCAAGGCTCTGTCTTGTCATATGTACCCTACCCTTTTCATTATCCTTGAAG
Celera SNP ID:            hCV26050319
SNP Position Genomic:     906119
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49526):
AAAGGTTATTGCCAAATATGGCCATAAAGGTTTTATTGCTCCAATTTTTATAGCAAAAACAGATACACTTCTTAATGAATTTTGGTTTATTAGATCAGCA
R
TGACCAACATGGGGTTTCTAGCTCTTAGGAGACCCTGATGGTGGCAATGAAGGTCTGCAAGCTATTTTAAATATTTCAGAAAATCTAATATAATCTTACT
Celera SNP ID:            hCV2371860
SNP Position Genomic:     332399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49527):
GGTCTGCAAGCTATTTTAAATATTTCAGAAAATCTAATATAATCTTACTTTTACAAATGATAAAGCTTCACAAACAAAAACATCAAGATGTTTTGCTTTT
K
ACTGAAATGATATTAGCTCTGCATGGTGAACTTAGTAATTTAATTCTGATCAGCAGCTCTGGTTGGCAGTTATATGTGCCTTTGATTAATAAAACATGGG
Celera SNP ID:            hCV2371861
SNP Position Genomic:     332551
SNP Source:               dbSNP
Population(Allele,Count): (G,-|T,-)   Caucasian(T,10|G,48)   Caucasian, from CEPH families(T,61|G,217)   African-American(T,3|G,57)   Asians(T,19|G,37)   total(G,359|T,93)no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49528):
AAGCTTCACAAACAAAAACATCAAGATGTTTTGCTTTTGACTGAAATGATATTAGCTCTGCATGGTGAACTTAGTAATTTAATTCTGATCAGCAGCTCTG
R
TTGGCAGTTATATGTGCCTTTGATTAATAAAACATGGGTGAGAAAATAAATTATTACTTAATCTGTGCAGTTTGCTAGATAAAGTCTTTGAAAACCTGGA
Celera SNP ID:            hCV2371862
SNP Position Genomic:     332613
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(A,31|G,51)   African-American(A,9|G,73)   Asians(G,38|A,42)   total(G,162|A,82)no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49529):
ATTCCAGTCAATTATTTGTTTTTAGTAATAACAACGACAATAATAATGATGATAGTAGGTAACAATTATTAAGTGGCCAGACATAGTGCTGAAATGCTCT
S
CATGTAATATTTTATTTCTTCCTTCCAATAGACCTAGGAGGAATGCACTCTGATTATCCCTTATTTCAGGTTGGTCTCCTTCAGAAGCAGACTCAGACAT
Celera SNP ID:            hCV2371863
SNP Position Genomic:     332943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49530):
GTTTTTGGGGAGACCTGTCCTCTTGGTTCACAGACAGCTGCCTTTTCATTGTAAACTCACACAGTAAAGAGAGAGAGAGAGAGAGAAAGAGAGAGAGAGA
R
AGAGCTCGCAAGGATCATCTCCTTAGAATGGTACTAATTCCATCATCGGGTTCCACCCTCATGACCTCATCTAAACCTAATTACCTTTTTTTTTTTGAGA
Celera SNP ID:            hCV12108420
SNP Position Genomic:     460207
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49531):
GGAATTCAAACCCAGGAAAATTGAGACACCTGTGTATGAAAAGCATAAAGAGAAAATTTGGTTGCCCTCATGCTCACTCTTATGCCAAGTATTTATTCAA
S
AATTAAATGAATAAGAATAGGGATTTCAACTACGTTCTATCCTCCTCCTCCTCCTGCATCTGCCTGACCTTCTTGGGAGCCAGATGTTCCACTGAACACT
Celera SNP ID:            hCV12108421
SNP Position Genomic:     458875
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,8)      total(G,5|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49532):
CAGAATTTTATACCACGCCCTAGTCAAAATACAGTTTCCTTTGCTATTGATCCCCTTTCCGCAATCCAGGCTCTCATTGATCTGCTTTCTCTAATAATGG
Y
TTTGTCTTTTCTAGAATGTCTTAAAGCGTACCAGTATTTTGTTCCTTTCTATTGCGAAACGTATTATGGACAGACACGGCCTGCAAAGGCATTAAACCCA
Celera SNP ID:            hCV27453138
SNP Position Genomic:     1174151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49533):
AATGTAAAAACCTAGTTCAGCAAAGGAGTTGTCTTAAGCAATAGTATATAAATCAGGCAGGGTTAGGTTATACTACAGTAATAAACAGCCCCCCCCCCCC
C
AAATATCAATGACCTAAACAACAGGAGTTTATTTATTGCTCATGATATACAACCAATTTAAGTTAGGAGGGGAGTTATGCTTCACGCAGTCATGCCACAT
Celera SNP ID:            hCV12108428
SNP Position Genomic:     449346
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49534):
CATTATCAGTCTACTAACTATGTTATTAAATATAGCTTGCAAATATGTTGTCGAGGATTTTGTTTTTATATTCCTGAGAGATATTGGTCTTTTTTTCTTT
W
GATATCTTTAAATGGCTTTGGTAGTAATGTAATAATGTAATAGTGGCCTCATAGAATGAGTTGGGAAGTGTTCTCTCCTCCTATATTTTTTGGGAGAGTT
Celera SNP ID:            hCV349477
SNP Position Genomic:     300749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,7)      total(A,7|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49535):
CGGTGTGTGTTATGAGCCATGCGTTGTGCCAACATCCCGGCAGACGGAATTCAGCAGTGCCACGGGAGAGAGCCAGCGGCCTCCCCTGCATCTGAGCAGC
S
TGGCTTGTTAGTTCCCAGTCCTTCAGCCACCAGCTGTTTCTAACACAAACTCGTGGTGACAGAGCTCTCTGTAGGAGAAGCTAACTACAATTGTCAGTCT
Celera SNP ID:            hCV12110701
SNP Position Genomic:     915722
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49536):
AGGTAGTATTTACAGGTTGCAGGGGTCAGGATCTGACATCTTTGGGACCCATTATCAGTCTACTAACTATGTTATTAAATATAGCTTGCAAATATGTTGT
Y
GAGGATTTTGTTTTTATATTCCTGAGAGATATTGGTCTTTTTTTCTTTAGATATCTTTAAATGGCTTTGGTAGTAATGTAATAATGTAATAGTGGCCTCA
Celera SNP ID:            hCV349478
SNP Position Genomic:     300700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49537):
ATATTTGTCTTCCCAGAGAGACAGTGAGCTTCCTAGAAGCCACATGCGGGCTCTTTGCTGCTGCATCCAGAGTGCCTAGCTCAGCGCTAGTGCATGGTAG
S
TTCTCCATAAATATTTGCTGAATGAATAAATGGCTGCTTGTCTCCTCAAGTAGCCTATCAGCTCCACATTCGCCATGTCAGTTTCTTCCTCTGCAATCTC
Celera SNP ID:            hCV12110702
SNP Position Genomic:     915365
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|G,8)   total(G,8|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49538):
TCTGGCCAACATGTCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGGGTAGTGGTGCACACCTGTAGTCCCAGCTACTT
R
GGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGACGGAGGTTGTAGTGAGCCAAGATTGCACCACTACCCTCCAGCCTGGATGACAGAGCGAGATAC
Celera SNP ID:            hCV11382595
SNP Position Genomic:     1099357
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49539):
AATTCAGGTAGTATTTACAGGTTGCAGGGGTCAGGATCTGACATCTTTGGGACCCATTATCAGTCTACTAACTATGTTATTAAATATAGCTTGCAAATAT
K
TTGTCGAGGATTTTGTTTTTATATTCCTGAGAGATATTGGTCTTTTTTTCTTTAGATATCTTTAAATGGCTTTGGTAGTAATGTAATAATGTAATAGTGG
Celera SNP ID:            hCV349479
SNP Position Genomic:     300695
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,6)      total(G,6|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49540):
AAATTATTTTTCCATTAAGTCTTCTCCTTGGGGAAATCTCTTCCTCTGTTGCAGTTGGGCGGTCTGGATGGGCTGGTTACCCTTGTGTGGGGTGTATAGT
K
AAACATCAACTCCCATGAGGCTCATTCTCAGGGGTTGAGATAATAGTAGTCCCTAGTGGGGTCGTCTAAGAGCCCTTGGGAGGGCACTTATCTTCATGTA
Celera SNP ID:            hCV12110704
SNP Position Genomic:     911259
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49541):
GGCCCACGTCCTGACTCTACGATTTGCGTAGCTGTTGGTTTGTGCCTCAGAGTCCTCATCTGTAAGTGGGGATATTATACCTACTATAATAAATTAGTAA
W
GCCACGGTAACAAAGTATTGCAAACATGGAGGCTAGAAATTTATTCTCCCACAGTTCTGGAGGACAGAAGTCCAAAATCAGTCTAACTGAGTCAAAACCA
Celera SNP ID:            hCV11674237
SNP Position Genomic:     1128346
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49542):
CTACCTCTTCAGACATCTCTTCTCTGGCTCTTCCCCTTAACCCCTAACTGGGGGCTTTCTACCCTGTCTTTGCACACCATTTATCCTCTCTATAATGACA
R
CTCCTAAATCTAAGAAATGGGCACATTTCCCCTGCTAAGCTACAGACCTGTGTATTTACGTACTTCCTAGATATTGCCCCATGCATGGCCCACCATCACC
Celera SNP ID:            hCV10075476
SNP Position Genomic:     132471
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49543):
TAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGATCTGGCCACTGCACTCCAGCCTGGG
Y
GACAAAGCGAGACCCCATCTCAAAAAAAAAAAAATTAAAAATTAAGAATGGGAATTCAGATACAAAAAGAGTTGTCTTCTGCGTTAACCGCAGCACAGGG
Celera SNP ID:            hCV26050320
SNP Position Genomic:     910169
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49544):
ATGAGCCTCCTTTCCACCAAATTCTCTTCTCATTATGTAAATAGGATGGCCTGAGGTGCAAGAACAATGAATAGAATAATAATCGGAAATGTAATGGAAC
W
AATAGTGGATTTCTCCGGACTGTTAACTTCTGTTCAAAGAGCCCGCCAATGATGGATAGAGAGCGGCGTGCAGAAAGGAATCTTTCCCTGGTTCAGCTTG
Celera SNP ID:            hCV10075477
SNP Position Genomic:     131281
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,6)   total(A,3|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49545):
GTGACCTTGAAAAAGAAATCTAACCTCTTGCATTTTCAATAACTTCACCTATAATACAGGGCAAATCATCCTACTATATGAGGTCGTTGAAGTTTAAATG
R
AAGAGTGTAGAGTCTGCCCTTGAAACACGTTGTTATTTTTCAAGCGATTTTCTGAAGCTAGAGCCCCTCATGTGAGGGATGGAGAGATGAATCCATCAGC
Celera SNP ID:            hCV26050321
SNP Position Genomic:     904666
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49546):
GAAAGGTCAGACTTATCCTTCATATATTCCATGCCTGAGAGAGCACAATATTAAATAGCAAATAAAAAACACCATGACAGATTGAGAGAAAGACCATGGA
R
AACAGGTAAAAAAAAAAAAAAAAGTTTTGTCTGCTTTTTAGACAAGAGATCGCACGTTTTCGTTTTGTACCTAGCTCTGCAAATTATGTTGCAGGCTCTG
Celera SNP ID:            hCV10075478
SNP Position Genomic:     130720
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49547):
TCATTGGCAAATGCAGATGGATATTAGAGAAATCAATCTAAATTGTATATGTAGACACCAGCCACCCCCGGAAAAGAACATGAGTGGGTAATTCTTCCAC
S
TATGGGTTTTCCCATGGGATGCAACCTGGGTGCATGGAACCAGCCCTGGCTTCAGAGTTAGAGGGGCCTGGCTAGTGCTGGTTCTGCCACTGACCTTGAC
Celera SNP ID:            hCV26050322
SNP Position Genomic:     904461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49548):
TAGTAGCGGCCAGGTGACCTTTAGCAGGTTCCTTAATAGTGTGTCACCACCAACACAGTGTAAACACCAATACGGTGTCAACAACAGCAATAAAATGCAG
K
TTAAAGACAGCTTATCCCAGGGTATGCTATGAGAATTGGATGAGAATATTGTTAAATCCCTTGTGAGTTTTAAAGGGATGTAAAAGTCTTAGAAATATTG
Celera SNP ID:            hCV26050323
SNP Position Genomic:     904254
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49549):
GGCAACAGAGCAAGACTCTGTCTCAAAAAAAAAAATTGTTTTAATTAAAGAATAATTTAAGGCTGGGCGTGCTGGCTCACACCTGTAATCTCAGTGCTTT
R
GGAGGCTGAGGCAGGCAGATCACGAGGTCGGGAGATGGAGACCATCCTAGCCAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGG
Celera SNP ID:            hCV26050324
SNP Position Genomic:     909950
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49550):
TGTTCACTGTTCTATCCTTTGTTGCTGACACATAGTGGCCATTCAGTAAACATCTGTTAAATCGAGGAAGCAGTGAATGAGTTGGAAGCTGCCTTCCTTA
R
GCTGTTTTACTTCCAGAATTCTACTTTTTCACTGACAGTAAGCCTAACCTCTCAGGTTAGAAATCTAAGTTGCCTTGCATTCCTCCCTCTCTCTTCCCCA
Celera SNP ID:            hCV27943125
SNP Position Genomic:     933604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49551):
AGATCACTTGAACCCATGAGGCGGAGGCTGCTGTAAGCCGAGATTATGCCACTGCCCTGCAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAAA
A
TTGTTTTAATTAAAGAATAATTTAAGGCTGGGCGTGCTGGCTCACACCTGTAATCTCAGTGCTTTAGGAGGCTGAGGCAGGCAGATCACGAGGTCGGGAG
Celera SNP ID:            hCV26050325
SNP Position Genomic:     909884
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49552):
ATCCATTCTCTCACTGCCTCCAGAACATTCTCCTTTTCTGAAACACTCTCCTCTGCTTGAAAGTACTGAAGGCTTCATCTTGCCTAGTGCAGCAATTCCA
M
ATTCCTTATAATCTAGTCCCAAACCACTGTCTGGCCTCCTCTCCTTTCCCTCCTTCTGAACACCCTAGATTCCTGCCAAATATAATGTTATTCCACAAAC
Celera SNP ID:            hCV27943126
SNP Position Genomic:     951833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49553):
GGGTTTCATCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACCGC
R
CCCGGCCAAGATGTGATGGGTTTTTTTTTGTTTTTTGTTTTTTGTTTTTTTTTGAGACGGAGTCTGGCTCTGTCTCCCAGGCTGGAGTGCAGTGGTGCAA
Celera SNP ID:            hCV26050326
SNP Position Genomic:     901183
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49554):
TGGGAGGTAATTTTATCATGGGGGTGGTTAACCTCATGCTGTTCTCATGATAATGAGTGAGATATCATGAGATGTGATGGTCTTTTGTTTTGTTTTGTTT
T
TTTGAGATGGAGTCTTGTTCTCTCACCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAGCTCTGCCTCCCAGGTTCATGCCATTCTCCTGCCT
Celera SNP ID:            hCV26050327
SNP Position Genomic:     900905
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49555):
GTGGGAGGTAATTTTATCATGGGGGTGGTTAACCTCATGCTGTTCTCATGATAATGAGTGAGATATCATGAGATGTGATGGTCTTTTGTTTTGTTTTGTT
T
TTTTGAGATGGAGTCTTGTTCTCTCACCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAGCTCTGCCTCCCAGGTTCATGCCATTCTCCTGCC
Celera SNP ID:            hCV26050328
SNP Position Genomic:     900904
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49556):
GGTGGGAGGTAATTTTATCATGGGGGTGGTTAACCTCATGCTGTTCTCATGATAATGAGTGAGATATCATGAGATGTGATGGTCTTTTGTTTTGTTTTGT
T
TTTTTGAGATGGAGTCTTGTTCTCTCACCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAGCTCTGCCTCCCAGGTTCATGCCATTCTCCTGC
Celera SNP ID:            hCV26050329
SNP Position Genomic:     900903
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49557):
GGTGGCTCGTGCCTGTAATCCCAACACTTTGGAAGGCCAAGGTGGACAGATCACTTGAGATCAGGAGTTCAAAACCAGCCTGGCCAACATGCTGAAACCC
M
GTCTCTACTAAAAATATGAAAATTAGCCAGGTGTGGTGGTGCACGCCTGTAATTCCAGCTAGTCGGGAGGCTAAGGCAAGAGAATCAGTTAAGCCCAGGG
Celera SNP ID:            hCV12108433
SNP Position Genomic:     444011
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49558):
AAGACAGAGACTGCAGTGAGCCAAGATCGCACCATTGCACTCCAGCCTGGGTGACAGGGCGAGACTCTATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAA
A
GAAAGAAATTAAACCTTAAATAGCAAAATAGAAAAGACAGATCATCAGCAATGATTAATAAAAAAGCTATTTTATAAAGCGGTGATTGGGAAAGTAAAAT
Celera SNP ID:            hCV12110710
SNP Position Genomic:     431280
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49559):
TCCTGGCTTTATGTATCACCTATTTTTATATATAATATAAATGAAATCATACAATACTTGGGCATTTATGACTGGCCACTTTTTTTTTTTTTTTTTTTTT
T
GAGACAGAGTCTCACTCTGTCGCCCAGGTTGGGGTTGGAGTGCAGTGGTGCGATCTCTATTCACTGCAAGCTCCACCTCCTGGGTTCAGGCCATTCTCCT
Celera SNP ID:            hCV12110712
SNP Position Genomic:     427822
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49560):
TAACTAACCTGCACATTGTGCACATGTACCTTAAAACTTAAAGTATAATAATAATAATAATAATAATAATAATAATAATAATAAAAACAGGGATTAAAGC
R
GGGCAAGGAAGAGAAGTTGGTCAGTAGGAAGCAGGTGGTCCTTTAGGCAATCCTGATGGATGAGGGGTCTGGCTCCTCATTATCCAGAGGCAGTGGTCTG
Celera SNP ID:            hCV11674246
SNP Position Genomic:     1117007
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49561):
AAATGTAAGCATTCGCACAATTATAAATGAAAATGCAATGCCTGTTTGGTGTGACTTTCATCACCAAAACCTCACTCTTTTATTGGAAAAAGTCTCATCC
R
CTCTCACCAGAACCCTCCTTGCCTTTACAGATACACACGCCCTGGTAAGCCTTCTTCAAAATCTGAACAAAGCAAACTACAACCTGCCCATCATGGTGAC
Celera SNP ID:            hCV3282312
SNP Position Genomic:     1165321
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(A,7|G,29)   total(A,10|G,58)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49562):
GGCTACACTGTGTCTCCTGCCTCCCAGCTGTTTATGGAAATCAGATGGTTTCCTCAACTGTCTATCTTTCTGCAGCAAATCCTTTGACAGAGAATGTGCA
Y
TGTCAACCAACCCCTTCATCGAGTCAGGCAAATTAGGATTCCTTTGACAGCAACTTTTTACAACTTCCTTCCTTTGAAGATATAAAGCTTTAAACAGTAG
Celera SNP ID:            hCV12110714
SNP Position Genomic:     425513
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49563):
CTTGGTAATCAATCATCTTCATGAAAGGAGCTCTCCTTGAAACTGATTATAATCGCGCCGAGGCACAGAACTCTGGTGATGGAAACACTCTGTCTCTGTG
Y
TGTTCATTACAGGAGCCAGCAGCCATGTGTGGCTTCTGGGCACTTGGAATGTGGCAGGTGCCACTGAGGATCTGAACTGGTATTTTCACTTGATGTTAAT
Celera SNP ID:            hCV3282313
SNP Position Genomic:     1165114
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49564):
ACCCGATTTAAGCTCACAACAATGCCTGGATGCAGATGGTGTGTTTTTCGTTTTCTGAGTGAGGACAGTGAGACTCAGAGGTGGGTCTTAGGTCGCGGTC
R
TGGAGTTGGTTGAGTGGCAGCCAGTGCGGCCATCCACAGGCTTTCCCAAGTGCATCGCTGCAGCCATAGTTAGCTCCCCAGCAGCTGCTCGGGGCTTTCA
Celera SNP ID:            hCV12110715
SNP Position Genomic:     423228
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,8)   total(G,8|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49565):
GGAACGCAGTCTTTGTCAAGATGGCTTTTTCGTGTAATAAATTTGCAGGGAGGAGTTCTTGGTAATCAATCATCTTCATGAAAGGAGCTCTCCTTGAAAC
Y
GATTATAATCGCGCCGAGGCACAGAACTCTGGTGATGGAAACACTCTGTCTCTGTGTTGTTCATTACAGGAGCCAGCAGCCATGTGTGGCTTCTGGGCAC
Celera SNP ID:            hCV3282314
SNP Position Genomic:     1165057
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49566):
GCTACTCAGGAGGCTGAGGCAGGGGAACTGCTAGGTCATGCCATTGCACTCTAGTCTGGGCAACGGAGCAAGTGTGACTCTATCTCAAAAAAAAAAAAAA
A
TCAATATGAACATTATTCATAAGATACCTTTTTACATTCTTCTTTTCATATTAAGTCATTGAAATGTAGTATATATTTTATGCTTAAGGCACATCTCAAT
Celera SNP ID:            hCV12110716
SNP Position Genomic:     422320
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49567):
TGAAACCACATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGGGAACTGCTAG
R
TCATGCCATTGCACTCTAGTCTGGGCAACGGAGCAAGTGTGACTCTATCTCAAAAAAAAAAAAAAATCAATATGAACATTATTCATAAGATACCTTTTTA
Celera SNP ID:            hCV12110717
SNP Position Genomic:     422254
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,11)   total(G,11|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49568):
GATGGGAAAATGCTGTTTGATTTAATCTGCCATCTCACTAGGTGAGCATCACATTAGTCATTGCTGCTCCTGTCACCTTCTGGTAATGATCATGCTTCAT
S
TATTTTTATTTCCCTGTCATTACTCTCTTGTTTTTTCTCCTGGTTTTACCTAATAGATAAATGCCTTCTAAATGATTTTGTTGTCTCACAGTTTTTTTTT
Celera SNP ID:            hCV3282316
SNP Position Genomic:     1164177
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|C,6)      total(G,2|C,6) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49569):
TGTGATAACTTCAAAAAACCTGTGAAGTACCATGCTCCATGGCAAAAGCCTCCCCAGGTACTGTTAAGGAAAGTTAGTATCCATTTAACTGTCACCTAAA
K
TGGAGAAAATATATAGCTTGAAAATTATTGTACGGATCCAAGAATTGGGCCTAGAATTCAATAATAGGCTGTTACATCTTGACACATGCCTAAATTGTTA
Celera SNP ID:            hCV12110718
SNP Position Genomic:     421506
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49570):
CATGTTTACCTATGTAACAAACCTGCACATCCTGCTCATGTACCCCGGAACTTCAATTAAAAAAAAAAAGAAGAAAAAAAAAAAGATTGTATCCTCTACT
M
AAGGAAGATGGGAAAATGCTGTTTGATTTAATCTGCCATCTCACTAGGTGAGCATCACATTAGTCATTGCTGCTCCTGTCACCTTCTGGTAATGATCATG
Celera SNP ID:            hCV3282317
SNP Position Genomic:     1164070
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49571):
AGGGTGGAACCTATCTGCCATTCCTGGGCTGGATGAACTTCACAATTCCCCTTCAGCATCTGTGAAGCTGTGAGTTAAGGATAGATGGCAACCTAAAAAC
S
AATGTACGGCACGTCAGTCATGTTTCAGAGCAAACTGGATATTGGTGAATTCATACCAGTGTGGAAATCCATTGACACCACAAAGGCAAGCTTTTCTCTT
Celera SNP ID:            hCV12110719
SNP Position Genomic:     412855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,7)      total(G,6|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49572):
TGGTGGGAGGTAATTTTATCATGGGGGTGGTTAACCTCATGCTGTTCTCATGATAATGAGTGAGATATCATGAGATGTGATGGTCTTTTGTTTTGTTTTG
T
TTTTTTGAGATGGAGTCTTGTTCTCTCACCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAGCTCTGCCTCCCAGGTTCATGCCATTCTCCTG
Celera SNP ID:            hCV26050330
SNP Position Genomic:     900902
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49573):
GTTTTATTTGCTAGTTTTTATGGCTATAGCCTATTTGAATAATCATCTCCAGTTCTTTCCAATTGGAACTTTCTCATTCAAGAGTTTCTTTTTTGGGGGC
R
TGCAGAGGGGGGTGAGCATCAGGATAAATAGCCAGTGCATGTGGGGCTTAATACCTAGGTGATGGGATGATTTGTGCAGCAAATCACCATGGCACATGTT
Celera SNP ID:            hCV3282318
SNP Position Genomic:     1163875
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49574):
TAAGTAAGACAAAATCAGATCTTTAATGGAGCTGAGGGTGGCATGGTAAAAACAGGCTTGTATGTTGTATATTTAGCAAACTGTGTTAAGTCCTAGAAGA
S
AGATGGGTAAATATCCCAGGAAAACACTGAGAGCAAAGTAAGCTGATGGGGTGAGGCTAGGGAGAAGGCAAAAGATCTAGAAGGCTCCCAGGCAGAAAGT
Celera SNP ID:            hCV27946474
SNP Position Genomic:     756975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49575):
CTGGTGGGAGGTAATTTTATCATGGGGGTGGTTAACCTCATGCTGTTCTCATGATAATGAGTGAGATATCATGAGATGTGATGGTCTTTTGTTTTGTTTT
G
TTTTTTTGAGATGGAGTCTTGTTCTCTCACCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAGCTCTGCCTCCCAGGTTCATGCCATTCTCCT
Celera SNP ID:            hCV26050331
SNP Position Genomic:     900901
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49576):
CTCAGCTGTCTTTCCAGTCTCAGAGACAGAGAACTGTGTTAACATTAACTTTCACCAGCGCATTGGAGAGACTTTTCGTGGTGTACCTGCTGTCATAAAA
S
ACTAAAGGAAAGAGAAGTGCTAGGATAAGAATCTTTATAGTCTTCAACCTCCAACCTTCCATAGTACGCTGCAGACCTCCTCAGACTTGACTTGGTTTAA
Celera SNP ID:            hCV3282319
SNP Position Genomic:     1163031
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49577):
CCACAGATGCTGATGCTGAGGCAAGAAATCAAGTCAAAATTGGTTTATTTTGGGAGGTACAGGAAACACCAGTAGAAAAGTGAGGAAATAAGACAGGGGA
S
GGAAGGCAGCCAATAACGTAACCAGCCAGCTGCTTTCATGAGAGACTGGAGCATCGTCCCACCAGGAAACAATAAAAAATAGTGTAAAAACGCATAAGCT
Celera SNP ID:            hCV27946475
SNP Position Genomic:     790494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49578):
GTCATCAGCAGTTTGCAAAAATTATGGCGCTGGTCCTCTCCCCAGCCAACTTAACTGGGCTTCTACCATCCTCCTCCTTCCTGATCTTTCTTTTCTCTTC
Y
TGAGCATCTTTCCAGTTCCCTATTTAATCATATGTAATCTTCAGTATGTGCTTTTATGTGGAAAGCCAGATGTGTACCAGTTGATGTCACCATGATGGAC
Celera SNP ID:            hCV10075488
SNP Position Genomic:     130096
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49579):
TCTTCTCTTATCTGCCACCATGTGAGACATGCCATTCACCTTCCACCATGATTGTGAGGCTTCCCCAGCCACATGGAACTGTAAGTCCAATAAACCTTTA
Y
TTTTGTAAATTGCCCAATCTCGAGTATGTCTTTATCAGTAGTGCAAAAAATGGACTAATACACTCACCTATGTAGGGAAACCTCTTTGTTCCCTACATAG
Celera SNP ID:            hCV26050332
SNP Position Genomic:     543373
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49580):
CACTTGGAGGGTCTCCATTTAAAGGGACCCCTGCAAATTATAAGGATAGGGAGGGTATTAAGTCCCTTTTCAACTCCTAAGCATTACCACTGCCTGGGAA
S
TTCACTATGGGGATGTTCTGCTGAACCCCTATCAACTCCAGTGGGGGTGGCAGCAGGTTCAAGATGCCAAACAGGAGACCTGGAGCCAGCGATGAGACGA
Celera SNP ID:            hCV27946476
SNP Position Genomic:     590291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49581):
GGCTGCTCCCAAGTCTAGCACACTCATTGATATGGTTTGGCTGTGTCCCCACGTAAATCTCATCTTGAATTGTAACCCCCACAATTCCCATGTGTCGTAG
R
AGGAACCTGGTGGGAGGTGATTGAATCATTGAGGCAGGTCTTTCCCATGCTGTTCTTGTGATAGTGAATAAGCCTCACAAGATCTGATGGTTATATAAAA
Celera SNP ID:            hCV26050333
SNP Position Genomic:     543148
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49582):
TGAACATAGCTCTGAGGAGCAGGAGGCAGGTTCAACAGCCACATCCTTAAGAACATAAAAAGTTGAAGAGAGACAGAAGAGAGACAGACGTGTGCAGTGC
K
AAGCTGGGGCCCTCACAATGGGGACTGGCTTCTTTCCTGGGGAATAAGTAATTTCAATTCAGCAGCAGGAGCCAACTCAGCTAGGTCCTGCCTCTAAGAC
Celera SNP ID:            hCV27946477
SNP Position Genomic:     594412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49583):
CTAGCTTGGGCTGCTCCCAAGTCTAGCACACTCATTGATATGGTTTGGCTGTGTCCCCACGTAAATCTCATCTTGAATTGTAACCCCCACAATTCCCATG
K
GTCGTAGGAGGAACCTGGTGGGAGGTGATTGAATCATTGAGGCAGGTCTTTCCCATGCTGTTCTTGTGATAGTGAATAAGCCTCACAAGATCTGATGGTT
Celera SNP ID:            hCV26050334
SNP Position Genomic:     543140
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49584):
ATTGGGGACTGTTGAGATGCCTAAATCCCCAACTTGTAGAGCTAGCTTGGGCTGCTCCCAAGTCTAGCACACTCATTGATATGGTTTGGCTGTGTCCCCA
Y
GTAAATCTCATCTTGAATTGTAACCCCCACAATTCCCATGTGTCGTAGGAGGAACCTGGTGGGAGGTGATTGAATCATTGAGGCAGGTCTTTCCCATGCT
Celera SNP ID:            hCV26050335
SNP Position Genomic:     543099
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49585):
TGTAGGCCACCCTTGGAGAAATGGTGTTATAGCTGGATTGGGGACTGTTGAGATGCCTAAATCCCCAACTTGTAGAGCTAGCTTGGGCTGCTCCCAAGTC
Y
AGCACACTCATTGATATGGTTTGGCTGTGTCCCCACGTAAATCTCATCTTGAATTGTAACCCCCACAATTCCCATGTGTCGTAGGAGGAACCTGGTGGGA
Celera SNP ID:            hCV26050336
SNP Position Genomic:     543063
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49586):
GATTCAATAGGCCTGAGATTAGTCCAAAATCTGTATTTGTGGCAAACTCCCCAGGTGATTTCAACAGAGACAGTCTGTAGGCCACCCTTGGAGAAATGGT
K
TTATAGCTGGATTGGGGACTGTTGAGATGCCTAAATCCCCAACTTGTAGAGCTAGCTTGGGCTGCTCCCAAGTCTAGCACACTCATTGATATGGTTTGGC
Celera SNP ID:            hCV26050337
SNP Position Genomic:     542988
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49587):
TTCTTATTGCATCTAGACTGAGCATCAGCATGCCTGGTGTTCTTATACGTCATACATGAAAGAGATTGGCAACCCTTCCTGAAAGCTTTGAATTTTTGAT
R
TCATTTGTTCCACGTGATTTTCTAAGGCTATATTGGACCACTATACATTCTAGAACAAATTAATTAAAGCCTCCAGTTTCCAGGGAGATATACTAATATC
Celera SNP ID:            hCV26050338
SNP Position Genomic:     541277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49588):
CGAAAACCCGTATCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGTGCATACCTGTAATCTCAGCTACTCAGGAGGCTGAGGCACGAGAATTGCTT
S
AACCCAGGAGGCAGAGGTTGCAGTGAGCCGATATCACACCACTGCATTCCAGCCCGGGTGACAGAGCAAGACTCTGTCTCAAAAAATAAAGAGAAAAAAA
Celera SNP ID:            hCV26050339
SNP Position Genomic:     540145
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49589):
AGTAATTGCTGTCATCCCTCTACCTCTTTTAAAATCTATTGTTTTGTGCCCTTTATCTATGTCTAACTATATACACTTTTCTCAGAAATTTACATCTGCT
T
AATTTCTACCCCCCACCCACCCCCCAACACCCCCCCCTTTTTTTTTTTTTGAGACAGAGTCTTTCTCTGTCACCAGGCTGGAGTGCATTGGTGCAATCTC
Celera SNP ID:            hCV12106848
SNP Position Genomic:     512008
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49590):
TGGGCTGGGCATGGTGGCTCACGCCTGTGATCACAACACTTTTGGTGTCTGAGGCAGGATGATTGCTTGACGCCAGGAGTTTGAAATCAGCCTGGGTAAC
R
TAGTGAGACACCGTCTCTACAAAAAATACAAAAATTATCCTCTTAGATGTAAATGCTAAAAAAATAAAGTTAGCCAGGTGTGGTGGCGTGCACCTGTGGT
Celera SNP ID:            hCV3282320
SNP Position Genomic:     1161737
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49591):
TTAGGTTCTGTCTGTCTTATGTGGAAAATGGGTCTTTAATTTATTATGTTGGCTAAGATTCCTTTTGTTATTGTTGTTGCAAATGACAGAAATCCAACTC
W
AAAAATGTAGATGAGGGGCAGCGGGAATTAATTGATTCATGTAACTAATTGAGGCATAGTTCGTGGATTAATTCATGGAACTATTTTAGGGATACTTCTG
Celera SNP ID:            hCV12110722
SNP Position Genomic:     410837
SNP Source:               Applera
Population(Allele,Count): african american(A,13|T,17)   caucasian(A,17|T,23)   total(A,30|T,40)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49592):
TGCCTTCCGTGGGTCCAGAACTTCTTGCTTGTTCTCTTTGCCCCCAGTCTCCTATTTGACAGAGCAGCTGCACTATAATAAATGACTCCCTGGCATTTCA
R
CATCATAGCTGGGGACTCTGCCAAAGCCCTGGCCACGTCTCTGTAGTGGGACGTACAACAACGAAGAAAAGAGGCTGGATCCACAAACCCCACAGGAAAT
Celera SNP ID:            hCV10075490
SNP Position Genomic:     127174
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49593):
TAAGCTGCCCAACCTACTCATGCTCCTTCTGTTGTTTCGTTTGTTTCCCAGTGACCTTCAGTGACTGTAAGGGAAACGACAAGCTACGCTATGAGGTCTC
V
AGCCCATACTTCAAGGTGAACAGCGATGGCGGCTTAGTTGCTCTGAGAAACATAACTGCAGTGGGCAAAACTCTGTTCGTCCATGCACGGACCCCCCATG
Celera SNP ID:            hCV12110723
SNP Position Genomic:     410536
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,22)   caucasian(A,19|C,2|G,19)   total(A,35|C,2|G,41)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:49594):
AAAACAAGGCTTTAAAAATAAGGCCCAAAGATTATATGATGATTGCTTCTATGCCCCTGTAGCCAGCTAGTGATCTCATTTCTCATCACTAACCCAGCTT
Y
CTAAATCTGTCCTGTCCAGCAGGGTCAGCCATCCCAGCCCCCAGTGGCACCATCAGCCATCTGAGACTCTTTTTCACCCCCAGAAGAAAATGTCTTGGAT
Celera SNP ID:            hCV3282321
SNP Position Genomic:     1160840
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49595):
TTGGAGTTAAATTCCATCTCAGAAGTGAATAAATGAATCTACATAAACTGCAGAGATCCCTGAATCTACTTCCCTATCGGTCAAGTAAAAAGAAAAAAAA
A
TCAAGAAAACTCAATGTTAATAAATAATACATAAAGGAATCGTTAGAGTGGAGACAGGTTCAACTTATCCTGTGAGTTAAAAAAAAAAATGAAAGCAAGA
Celera SNP ID:            hCV8097644
SNP Position Genomic:     1001422
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49596):
GTTGCCTGATTGATTTTATGATCAGGCACTTACTGGGTTGTCTAGGGTAACCCAGTAATTGCTGTCATCCCTCTACCTCTTTTAAAATCTATTGTTTTGT
R
CCCTTTATCTATGTCTAACTATATACACTTTTCTCAGAAATTTACATCTGCTTAATTTCTACCCCCCACCCACCCCCCAACACCCCCCCCTTTTTTTTTT
Celera SNP ID:            hCV12106849
SNP Position Genomic:     511955
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49597):
ATTATGAGGGCCATTATCTTAAAATAGTATTTCCTAAAATGAAAAACATTTCAGGAAGTAGCTGAAATATCAGGAAAAAAACAAGGCTTTAAAAATAAGG
Y
CCAAAGATTATATGATGATTGCTTCTATGCCCCTGTAGCCAGCTAGTGATCTCATTTCTCATCACTAACCCAGCTTCCTAAATCTGTCCTGTCCAGCAGG
Celera SNP ID:            hCV3282322
SNP Position Genomic:     1160763
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,7|T,7)      total(C,7|T,7) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49598):
GATCACTTCCCTCAAATGTCACTCTGCCAGATCTGACTCTTCACTCCACTGAGAAGGCACTCAAGTGTGCACACTCAGAGCTTAGCACCTGCCTGGAACA
Y
GCGAGTTCGTCAAGGACATGTCTTGATTGAGTGAAGTCCATCAGCACAAAGTCACTTGGGCACAGGCATCTTGCTGTGGGATAAAACGTAACATTTGTGA
Celera SNP ID:            hCV12110724
SNP Position Genomic:     410275
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49599):
GGTTCTGCTCAGTCACCCACACATGCCAGGATTAGATCACTTCCCTCAAATGTCACTCTGCCAGATCTGACTCTTCACTCCACTGAGAAGGCACTCAAGT
S
TGCACACTCAGAGCTTAGCACCTGCCTGGAACACGCGAGTTCGTCAAGGACATGTCTTGATTGAGTGAAGTCCATCAGCACAAAGTCACTTGGGCACAGG
Celera SNP ID:            hCV12110725
SNP Position Genomic:     410241
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49600):
CGTGGTGAAATCCCATCTCTACTAAAAATACAAAAATTAGCTGGACATTGTGGTGCACACCTGTAATCCCAGCTACTTGGGTGGCTGAGGCATGAGAATC
M
CTTGAACCCAGGAGGCAGAGGTTGCAGTAAGCCGAGACCACACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCACCAAAAAAAAAAAGAAAGAAA
Celera SNP ID:            hCV3282324
SNP Position Genomic:     1160544
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49601):
GATAAGAACAGATCTGTACTTCATCTTAGCCAAGAGGCCAAGAAACGATTGTACTACTGTATAAAATTATGGTGCTGTAATTTTAGAGGTGCTTCAAATT
R
TTTTGGGAATAAGGCAAATCTGTATACTTAAAATGTGTGACCTATGAATTTGGCTCTAACCTTTCTTGCAGAAAATTAGAAACTACTAACAAATGGTTTG
Celera SNP ID:            hCV3282326
SNP Position Genomic:     1160134
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49602):
GCCTGCCCCTCTCAGGACACAGCTGCTGCTGTAAAACTGCTGAGAAGCAGCTTGGAGTTGGCTCTACTGCAACATCCCTTCTTTCTGTTGCAGTTGTCCA
K
TCCCTTTTATTCTGCCATGACCTGCGCCAAGGCCATCATGCCCACGCCTGCTTCTACTGTCTAAGTAATAAGCTGTCTGCATCTAAAGAGGTCTCCTTGC
Celera SNP ID:            hCV3282327
SNP Position Genomic:     1159697
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|T,7)      total(G,5|T,7) ;no_pop(G,-|T,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49603):
GCTAATTACCACACAGTCTATCTGATTAACGGTATTGTGATTCAGATCAAGCGGTGAGATGACTACAGGTAACAGACCCTTGCTATCATTTGGGTGTTCT
Y
ACAAGGAACAGGAGCCAGGTAGTGAACCATGTGCCTACCCTTTGGGCAGGGAATGGGTGGCTCTAAGAGATGACAGATGCTGTCATCCGGAATCAGTTCT
Celera SNP ID:            hCV26050340
SNP Position Genomic:     537441
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2|-,7)   total(C,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49604):
CGTGTGCTTTCTGAAGATAAGTCAGATCAGATTGTTCCTGGATCACTGCCTTTCCGGAAAGCCTCTGGTGGCCTCGTGCACTCTGTAGAATTGGTACAGG
Y
CCCTTGTGATGCTACTCAAGGCCCTCCAGGAGCCCATGCCATCCTCAGTGCCCTCAGCTCTGGAGGAGCAGCTCCACCACGGCACCCCATGACTTTGCAT
Celera SNP ID:            hCV3282328
SNP Position Genomic:     1159378
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49605):
TTAGTCTTTTCAAAGGTGTACTTTTTAAGTGTCTGCATAATGCGAATGTTGTGAAGTATGTCAACTCTTGGGATTTAGGAATAGCAGAGTATTAGTATTC
Y
AGAGGCAAAATTGTAATTGGCCTTTTCACTTGCATTTTCCCCACAAGTGACAAAAGGCTAAAATTAACAATAGAAAGGCATTTGTTTACATCCAGGCAAC
Celera SNP ID:            hCV10075497
SNP Position Genomic:     126842
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49606):
ATGTAGAAGCTCAATTCAGGTTCCAAACCTGCACTGTCCAGTTAGGTAGCCACTAGCCACCTGTGGTTACTTAAATTTACCCTTAAGCTAATTAAAATAA
A
GTTAAAACTTTAGTTTACGAGCCATATGTATTAGTCTGTTTTCACACTTCTATAAAGACATACCTGAGATTAGGTAATATATAAAGAAAAAAGGTTTCCT
Celera SNP ID:            hCV26050341
SNP Position Genomic:     554789
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49607):
CGTTAGCACAATCAAGACTGAACCGCTGGTCTTCCCACTTCCCACTGCACTCTGCTCTTCGGGCAGCCTCATCTGAGTGCTTGATCACCAAGAAAAGACA
S
TGCTTTCCTGCTCGAGCTGCACACATCATGCCTCTCTTCATCCATGGCTGGTCCGCCTGCCTGCAGGGTCTCACATTTCCTATCAATCCAATCGTGTGCT
Celera SNP ID:            hCV3282329
SNP Position Genomic:     1159185
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49608):
AAATGGCAGCTTGGCAGTGATACCCAGTTGTATCACTCTAATCCCCAGAGCCTGTGGCCACCATACAGGGCTGCCTCTCACAACACACATAAATAGCCAT
R
TGTCTCATAGGTAGCATTGACAGAGTCAATTCTTTTCCAGTACGGAGAGCGGTGAATTTTGAGAAGTGACTTTTTGGCAGAAATGCAATCTAGTGACAAA
Celera SNP ID:            hCV10075498
SNP Position Genomic:     123978
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49609):
TATGTAGAAGCTCAATTCAGGTTCCAAACCTGCACTGTCCAGTTAGGTAGCCACTAGCCACCTGTGGTTACTTAAATTTACCCTTAAGCTAATTAAAATA
A
AGTTAAAACTTTAGTTTACGAGCCATATGTATTAGTCTGTTTTCACACTTCTATAAAGACATACCTGAGATTAGGTAATATATAAAGAAAAAAGGTTTCC
Celera SNP ID:            hCV26050342
SNP Position Genomic:     554788
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49610):
TAGGGATTTTTTTGAAAACCAGGAGAGGATTTTCTGAACCCAATTGGTCCAGTTAATGTATCTATACGTCTTACTTCTCTCTTTTCCAGGCATAAATCTC
Y
GGGCTGGCTTCTAGAATACCAGGTCCCTTTCCCCTCAGTTCCTGTGTATCCTGTGTTATAGCTCCAAGAAGGAGCTATAACAGGGTTAGAACAAAGATCT
Celera SNP ID:            hCV10075499
SNP Position Genomic:     123559
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49611):
GTATGTAGAAGCTCAATTCAGGTTCCAAACCTGCACTGTCCAGTTAGGTAGCCACTAGCCACCTGTGGTTACTTAAATTTACCCTTAAGCTAATTAAAAT
A
AAGTTAAAACTTTAGTTTACGAGCCATATGTATTAGTCTGTTTTCACACTTCTATAAAGACATACCTGAGATTAGGTAATATATAAAGAAAAAAGGTTTC
Celera SNP ID:            hCV26050343
SNP Position Genomic:     554787
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49612):
TGTATGTAGAAGCTCAATTCAGGTTCCAAACCTGCACTGTCCAGTTAGGTAGCCACTAGCCACCTGTGGTTACTTAAATTTACCCTTAAGCTAATTAAAA
T
AAAGTTAAAACTTTAGTTTACGAGCCATATGTATTAGTCTGTTTTCACACTTCTATAAAGACATACCTGAGATTAGGTAATATATAAAGAAAAAAGGTTT
Celera SNP ID:            hCV26050344
SNP Position Genomic:     554786
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49613):
CACCTGGTAACTTAGCTAGGCTGGAAAATCCAAGAAAGCTTCACTCATACACCTGGCACCTTGGTGATTCTTTGCATGCACCTTGGTGATTCTATGTGCT
R
TTTTGTCTCCCTCATAGCTAATCAGATGTCTTATGTGGTGGTTGGCATTTTTTTTTTTTTTTTTTGAGTCAGAGTATTGCTCTATTACCCAGGCTGGAGT
Celera SNP ID:            hCV8092708
SNP Position Genomic:     441391
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49614):
TTGTATGTAGAAGCTCAATTCAGGTTCCAAACCTGCACTGTCCAGTTAGGTAGCCACTAGCCACCTGTGGTTACTTAAATTTACCCTTAAGCTAATTAAA
A
TAAAGTTAAAACTTTAGTTTACGAGCCATATGTATTAGTCTGTTTTCACACTTCTATAAAGACATACCTGAGATTAGGTAATATATAAAGAAAAAAGGTT
Celera SNP ID:            hCV26050345
SNP Position Genomic:     554785
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49615):
TTGTGGCAGATATAATTAGTTAAGATGGGGTTATACTGAATGATATAGATTGGGTCTTTAATCCAATATGACTGGTGTCCTTAGAAAAAGGAAAAATACG
S
ACATAGACACGCCCACAAAGAAAGAACACTGTGTGAGCAGGAAAGCAGAGATTGGGATGATGCATCTACAAGGCACGGAATGCCAAGAACAGACAGTAAC
Celera SNP ID:            hCV26050346
SNP Position Genomic:     533040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49616):
AAATCCACAGAAACTGAGGGCCGTGATCAGACATCACCAACTGTAGTCAACCACATGTTAAAGTTGAATTGTTCCGTCTTCTGTTTTCCACATCCACCTT
S
TTCCGTCCACCCTTTCCTGAAGGTCCGTGTGAGGCCTGACCTTGCTTTGATTCTTGCAGTCCTCTTCTAACTGTGCCCCTTTGCCTCCACTTCCTGCCTG
Celera SNP ID:            hCV26050347
SNP Position Genomic:     527421
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,6)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49617):
GAGGCTACAGTGAGATGAGATCACGCCGCTGTACTCTGGCCTGGGCAACAGAGTGAGACTCCATCTTAAAAAAAAAGCCCATGGAGGCTGCACTCCAAAG
R
TGGAGCGATAGCATAGTGTAACATGATTTTTGAGATGTGTGAAGAGGTCAAATCCACAGAAACTGAGGGCCGTGATCAGACATCACCAACTGTAGTCAAC
Celera SNP ID:            hCV26050348
SNP Position Genomic:     527271
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49618):
ATGTGCTTTCACTTTAGGAGCTCAACTAGCAACTCCCCCATGCACTCCCTCCTCCAGTGTCAGAGCACACTGCAGGACCCACCCAGTCTTTGAATAGGAA
R
GCACTGGCTGAAAAGCCCCAGAAAGTGGGGATGTACCAGTACAAGTTTCCCACCTGTGTATCCCACTGTTTTGTTTGGGGAGAACAACGGATATAACCGA
Celera SNP ID:            hCV26050349
SNP Position Genomic:     522134
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49619):
ATAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGCCAGGCAGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTAA
R
CGACAGAGCAAAAAACAACACCTGCAGAGATCCAGGAGCAACTGGAACTCAAGAATAACAGAGTTTGGATAAATCGGAGAGCAGTACTTCCTATGTGATT
Celera SNP ID:            hCV28018754
SNP Position Genomic:     1170018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49620):
ATGGCATCTCAAGCACCTTCGCAGACCAGCGCCGGCTGACCCAGCCAGAACTGGAACTGGGTACGGTGTCAATTCCACTTGTACTCAGCAGTCAGAGAAC
Y
GTGTGACCTTCGATCCTGGCGGAGCTGGAATTGAAACCGAAACATGAGGCGTAGAGCCATCACAGGAGCACACTAACTTCCCACTCATCACCGTGAATTG
Celera SNP ID:            hCV28018755
SNP Position Genomic:     982920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49621):
GGAGCCTGAGTGGCCAGGTCTCTCAGGAGTGGAGACATTCACTTCCCAGCCGTGGGACATTTACCCAAACCACTGCAAAGAGCCACAAATAGCATAAGAC
Y
GTGTGCTGACGGCCAGTGGAAATGGAGCTCAGCGTTGACAGAGCTTCCTGAAGACTGAGCTCTCTTGAAAATGTAAAATTGCTGAGGACCTTAAGCAGAG
Celera SNP ID:            hCV28018756
SNP Position Genomic:     965372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49622):
TTTTCCAGGTTACTGAGCCCAGTGGCTTCTATAGCTCGGTTTTAGGAGGCTATGGAGAACAGACTCTCTCCTGCCCTTGGGGGGAAATGCAAATCAATAC
W
GGTCATTTGTTGAGTATTTTGTCAATAAGAATCAAATGGCTTTTTAAAGTACCCCTAGTGTTTTTTGATGCAGAAATTTCTTGTGATCAAATACGTGTGC
Celera SNP ID:            hCV28018758
SNP Position Genomic:     880876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49623):
CTCATTTCCCATTGTGTAGTCCTGGCACCTTTGTCAAAAATAATTCAGCCATATACATAAGGGTTTATTTCTAGGTTCTCTATTCTGTTTCATTGAGCTA
K
ATATTTGTCTTCATGTCAATACATACAATTTTGATTACCATTGCTTTGTAGTATGTTTCTAAAACAGGAAGTACGAGGACTCCAGGACTAAGAGATTTTG
Celera SNP ID:            hCV11673602
SNP Position Genomic:     623529
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49624):
TTTTGCTTGTGGATATTCAGTTTTCCAAACACCATTTGGGGCTGCTCATTTCCCATTGTGTAGTCCTGGCACCTTTGTCAAAAATAATTCAGCCATATAC
R
TAAGGGTTTATTTCTAGGTTCTCTATTCTGTTTCATTGAGCTAGATATTTGTCTTCATGTCAATACATACAATTTTGATTACCATTGCTTTGTAGTATGT
Celera SNP ID:            hCV11673603
SNP Position Genomic:     623485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49625):
GTTTTGCTTGTGGATATTCAGTTTTCCAAACACCATTTGGGGCTGCTCATTTCCCATTGTGTAGTCCTGGCACCTTTGTCAAAAATAATTCAGCCATATA
Y
ATAAGGGTTTATTTCTAGGTTCTCTATTCTGTTTCATTGAGCTAGATATTTGTCTTCATGTCAATACATACAATTTTGATTACCATTGCTTTGTAGTATG
Celera SNP ID:            hCV11673604
SNP Position Genomic:     623484
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49626):
GCACGCTGCCTGGAAAGGGGGAACAGCACCGCGGGCAGGCTTCAGAGCCACACACCACGTCTCTGTCTCAGAGTCTATCCTCGACCACAGGGTTTAAGTC
Y
TTGATGTGCACACTGGGCCCTGGAGAGAAGGTGCCTGTTCTCACGGGCTGACCCCACAAGCCTGTGAGCCGTAAGCGGTGTGATTCGCTAACAGTTGAAT
Celera SNP ID:            hCV11674260
SNP Position Genomic:     1110410
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   JBIC-allele(C,579|T,892)   total(C,579|T,892) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49627):
AAATCCAATGTCCTGAAGCTTTCCCATTATGTTTTCCACTAGCAGTTGTATAGTTGTAGGTCTCACATTTAGGTCTTTAATCCATTTTGAGCTGATTTTT
R
TATATGGCATGAGGTAAGGGTCTAACTTCAGTTTTGCTTGTGGATATTCAGTTTTCCAAACACCATTTGGGGCTGCTCATTTCCCATTGTGTAGTCCTGG
Celera SNP ID:            hCV11673605
SNP Position Genomic:     623353
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49628):
CATTCTGAACTTTCACCCTGGGTAACCACTTTGTTAGAGAAGTTTCAAAGCCATCTATGTGTTGATGACTTCCCAACCCCTAACTCAGCCTGGGCACTTC
Y
GCCAAGCTGCACAGGTGCATTGAATTCAAGGGGTCGTTAGCACAATCAAGACTGAACCGCTGGTCTTCCCACTTCCCACTGCACTCTGCTCTTCGGGCAG
Celera SNP ID:            hCV3282330
SNP Position Genomic:     1159050
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49629):
AGTATTTGCTAAACGGGCAAAAAATGGAAGAAAAATCAAAACATCACTGTTGGCTGGGCACGGTGGCTCACGCCTGTAATCCCGGCCCTTTGGGAGGCCG
R
GGCGGGCAGATCACGAGGTGAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACCAAAAAAAATTAGCCGAGCGTGGA
Celera SNP ID:            hCV11674265
SNP Position Genomic:     1108807
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49630):
CCAAATGACTTGTCTTCATAATATATTCAGAGTGAAAAAACATAATGGATTCTTCCGAGATATTCAATTAGTTCAATAAAAAGAGAAAAATAATTTTTCA
R
TAAAGAAATTTAACTAAATGACTAAAACTGACAGTGAAAAACCAACTTCAAAGTAATTATGCATTTCTTTTGAGTTTGCGCTCTAACGAAAGTTGATGAT
Celera SNP ID:            hCV3282331
SNP Position Genomic:     1158445
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49631):
TTCAAATGCTCATAACGCCTTCTCATCCATTCTACCAAATGACTTGTCTTCATAATATATTCAGAGTGAAAAAACATAATGGATTCTTCCGAGATATTCA
R
TTAGTTCAATAAAAAGAGAAAAATAATTTTTCAGTAAAGAAATTTAACTAAATGACTAAAACTGACAGTGAAAAACCAACTTCAAAGTAATTATGCATTT
Celera SNP ID:            hCV3282332
SNP Position Genomic:     1158411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49632):
AAAATATTTTTATTTCCTTCCTTATCTGTCATGTGATGTTATTGCCAGAGTCAGGCTGGAAAGTAAGCCACATTATGTAGGGTTAAATGAAAGCCCTCTT
W
TGAGACTTTTTGGCTTGTAGAGCATGATTCCCCAGATGTCTTAGATAGGAATTTGGGCAAGTGAAGAAAAAAGGTCAGAGTTTAGTCCTCATTATGCAGG
Celera SNP ID:            hCV15836708
SNP Position Genomic:     877655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49633):
AACTTCAGAAAAAGACATCACCAGCCTGGCCTGGGAATAACACATAGGAAATTGAAGACAGTAGTATACTTAAGTTCACAAAAGGCCAATTCTTATGGCC
R
TATTTCAAATGCTCATAACGCCTTCTCATCCATTCTACCAAATGACTTGTCTTCATAATATATTCAGAGTGAAAAAACATAATGGATTCTTCCGAGATAT
Celera SNP ID:            hCV3282333
SNP Position Genomic:     1158307
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49634):
TTACTAACTTCAGAAAAAGACATCACCAGCCTGGCCTGGGAATAACACATAGGAAATTGAAGACAGTAGTATACTTAAGTTCACAAAAGGCCAATTCTTA
Y
GGCCGTATTTCAAATGCTCATAACGCCTTCTCATCCATTCTACCAAATGACTTGTCTTCATAATATATTCAGAGTGAAAAAACATAATGGATTCTTCCGA
Celera SNP ID:            hCV3282334
SNP Position Genomic:     1158302
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49635):
CTTCACATGCACAACTTTGGGATGTGGGAGGAAACCAGAGGACCCGGGGAAAACCCACACAAACATGGGGAGAATGTACAAACTCCACACACAGGGTGGT
S
TGGGCCAAGAGTTAGTGTTTTTTTTTTTCTCATCAACATTATAATAAAACAACATTGAAGAAAACAGCATTATATGATGTCTGGATGTATTTATTGTTCA
Celera SNP ID:            hCV16085416
SNP Position Genomic:     99683
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,11)      total(G,1|C,11) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49636):
CCCACATGTTTAGAAGTTAGACTTCTCTGATCCTTAAAATGGCTACCATGAGAACATGGCCCCTGGGCTCCCTCCAGAAGGGAGCTGCAAAGAGGGAGTC
M
CATTCTAGCTCCATTTCTGGGTGTTTTGCTCAAATTGACCTGTTTTCCCTATTGAAAGAGAAAATTCCGGCCAGGAGTGGTGGCTTATGAGCCAAGATCG
Celera SNP ID:            hCV3282336
SNP Position Genomic:     1157668
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49637):
GTTAAAATGAGAGCCTGTAAGACTCAAGCTATGTAATAAAAATTCTGGTGGAGAAAGTATAGGTTAATGCTTGCTCTAGAGAAGGAGGCCTGACACTCAC
R
GTGTCCATTTGAGCCTGTCCTAAATCTCTCTGGACCTCAGCCTCACCATACCTACAATGAATTGGCCTCAGATCTTCTGCTCTGATCTTGCACCAAGCCT
Celera SNP ID:            hCV3282337
SNP Position Genomic:     1157250
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49638):
CTTTTTTATGGCTGCATAGTATTCCATGTGCATATGTGCTTTCACTTTAGGAGCTCAACTAGCAACTCCCCCATGCACTCCCTCCTCCAGTGTCAGAGCA
Y
ACTGCAGGACCCACCCAGTCTTTGAATAGGAAAGCACTGGCTGAAAAGCCCCAGAAAGTGGGGATGTACCAGTACAAGTTTCCCACCTGTGTATCCCACT
Celera SNP ID:            hCV26050350
SNP Position Genomic:     522101
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49639):
TCACAACCAGATCCCCTGCAGTTTTCAGCCTTGCCAACATCTGAACATGTCAAAGAAAAATGGGCAGGACAGAGTTTGAAAGGCAAAGCCTTTATTCAAG
S
CTACAATAAGGGAGAGAGATTGAACTAACTCTGCTGAAACAAACAATGGGACGATTTTTAAGAGCTGGGATGAGCTAATGGAAAAGTACTGGAAGATGTT
Celera SNP ID:            hCV3282338
SNP Position Genomic:     1155016
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49640):
TTACCTAACTTCTCCAAAATGCCGACTCCAGTATTCCATTTTCAAATTAACTTATTCTGATTATAAAAGTAATGTTCAGTATTGTTAGTAAAATAAATTT
W
AAAAAAAACGAACTTGTAATTTCCCCACTCAGAGATAGCTTCTGATAACATATTGGTGCTTTTACTTCTATTTTTTTCTATCCATATGAGTATAATTAAA
Celera SNP ID:            hCV26050351
SNP Position Genomic:     548759
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,7)   total(A,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49641):
TCTCATAGGCAGTTATCACTGCTCAACTTGAAGAAATACAAGGTTAATTATTGGAGTTTGAAATCCAGCAGTGGAATCCATGTGGTCCTATCGTGGTCAT
R
TAATGTGCTGAGGCTCTTACAAGTTGTCAGTGCTGAGTGGGAACGACAAAGCCAGAAACAAGGGCAAGCAGAGGTTGAATGCCAGGAAGACCGTGGCAGG
Celera SNP ID:            hCV3282339
SNP Position Genomic:     1153515
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49642):
TAAAACGAAAGTTGAAATTATAAAATAAATAAATAAATGTGGTGCTTATTTTTAAAATAAATGAACAAAAAAACCCCAAAGAGCTTAGCTAGGTGTTAAG
Y
ACCATCCAATGGACGGTGCCATCCATTATATAATATAGATATTTACACACACACTCAAACACGCATACATGTATGTATGTGTATATATATACACACACAT
Celera SNP ID:            hCV26050352
SNP Position Genomic:     548438
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49643):
TCTCACTTATAAGTGGGACCTAAACAGTGAATACTCACGGACATAAAGATGGCAACAATAGACAGTGGGGACTACTAGAGTGGGGAGGGAAAGAGGGGTA
Y
GAGGGTTGAAAAACTACTAGATGCTGTGCTAGCTAGGTGACAGGACCAATGATACTCAAACCTCAGCGCCACACAATATACCTAGGTAACAAACCTGCAC
Celera SNP ID:            hCV26050353
SNP Position Genomic:     548221
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49644):
TGTGCTCTCTTGGGAGCATTTAAGATACACTGCAAACTACAATTGCTTCCTTAAAATGTACAGTGGACGTTTGACATAGTAAAGATATTTTGAAGATTTG
M
AGGCCAGAAACCTGTTTAAGCCAACATATTACACACTTTTAAGAAAGAAAAGCTCTTAATAACATCCTATAAGAAAATCTTAACCATTATAGAAGTTACT
Celera SNP ID:            hCV11673613
SNP Position Genomic:     617713
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49645):
CGTTGTATAATTGATGTCATGGCCATATTGTTTAATCATCACTCACCATGCACCTATTGTGTGGCAGGCACTATTCTATCCATTAGGGCACAATAGTGAA
S
GAAAAACTTGCTGCCATCAGAGAACTTGTGTTCTGGGCTTTCATGCACCTGCCTTGCAGGCGTCAGGAATCTGAATCACACTCATTCCCTCCATCACTTG
Celera SNP ID:            hCV26763153
SNP Position Genomic:     467902
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,10)      total(G,1|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49646):
CACCTGCAGAATGAAGATAATGCCATCTGCCTGCTGGGTTGTTAGAGGGTTGGAAATCATGAATGCACAATTCCCAGTACTCCTAAGCATATAAGAAATG
Y
TTAAGTGAACTGACTTGAACTGAGTCATGGACTGATCTTCTAAGCATGTCATTACAGAATCATGAGTGCTGAGGCAAACTATGAAAAGGCACTTATGACC
Celera SNP ID:            hCV3282340
SNP Position Genomic:     1146345
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49647):
ACCAAGTATGAATTCCAGCCCACTAACGTCACATCTCTATTTGATCATTAGCGTATAGACTTTTGGTCCTTCATAAATTTTACTTTATAAAGATATTTTA
Y
GTTGTATAATTGATGTCATGGCCATATTGTTTAATCATCACTCACCATGCACCTATTGTGTGGCAGGCACTATTCTATCCATTAGGGCACAATAGTGAAC
Celera SNP ID:            hCV26763154
SNP Position Genomic:     467802
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49648):
AAAAAGAAATCACATTACCAGTAGCTGGCTTAGTTCTGCATGTTACTATGTGATCAGTTTCCAAAGTTCTTCGTCTTGGAAGACAGGCAGCCCCAACCTA
Y
GGGAATCTGCTCACCCTACAATGGTGAGCAGACCCACTCCACCCATCTTTGCCATTCAAGTCTACAGCATTTGAACAGATCAGCCCGTTCTGTGTCAAGA
Celera SNP ID:            hCV16085423
SNP Position Genomic:     106823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49649):
TTGGAGGGGCAGCACACTGGGTCCACTGAGATAATGGAGCCTAGTGCCATCTACACCTCAGGATGAGTTCAGCTCCGCATCTTAGCTGTGCAATGATAGC
Y
GAGAGACTTACACTCTCTCAGCCTCAATTTCCCCACCTGCAGAATGAAGATAATGCCATCTGCCTGCTGGGTTGTTAGAGGGTTGGAAATCATGAATGCA
Celera SNP ID:            hCV3282341
SNP Position Genomic:     1146211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49650):
TCTGACATGTTATTTCCTTATGCTGAGGGTGTCTTGTTGAGTTTCATGGGTTTTGTGCTTCCCTGGTGCCTTATTAGGCTTATAACTCACAGAGCTATGA
S
TTTAAATGTCAGGGTTGTCACCAAAACAATGGAGCAAAAAGCAAGTTGTTGACATTCTTTGGACGCAATTTGCAATCCCCTTTATTTTCCTGTAACGTTT
Celera SNP ID:            hCV26763155
SNP Position Genomic:     466807
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49651):
AACTGTCCTTTCTCCACTTGCCCATCTATTCCTAGGAAGCAGATGTGCCCAGAGCTTGGGCTGTAGAGGCAGAATGAACAGATCAGAGAAGGTTCTCGCT
Y
TAGGCCTTTCTGGATATGGGACCACGAGCTAGTCAGTCAATCTCTCTGAGACTCAGTCTCTTCTCCTGTAAAATATAATATGATGCTTATATATTTATAG
Celera SNP ID:            hCV12110743
SNP Position Genomic:     404770
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49652):
TTGAGACCAAACAGAAAAGTGTAGCCTCAAGAAATATTCTTTGTCATCCTAGTGGTTGCTTTAGAATTTGTAGTATACATCTTTAACTTATCACAGTTCG
Y
GTTAAATAATATTATAGCATTTCATACATGGTATAAGAACCTTACAGTAAAACACTTTCATTTTCTCCTTTCCCAGCCTTTGCACTACTGCTCCTCTGGT
Celera SNP ID:            hCV26763156
SNP Position Genomic:     476703
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49653):
CAGAAAGGTCAAATGTTAGTCGCCCTGTCTTATGTGGGCTGAAAACTGTCACAGGCGATTTCTCGTAAGGGTTCTGGAATCCCACTGGGGACGGCCACAG
R
CAGGAAAGGCATCGTTGGCCGCTGCTTCTTGGCTCACTCACTCCACGCTCACTGCTCAGAATTCTCTGAGACTGGTCTTCCTGCCTCCTTCTTACTGGTA
Celera SNP ID:            hCV3282343
SNP Position Genomic:     1144892
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49654):
TTTGAGACCAAACAGAAAAGTGTAGCCTCAAGAAATATTCTTTGTCATCCTAGTGGTTGCTTTAGAATTTGTAGTATACATCTTTAACTTATCACAGTTC
R
CGTTAAATAATATTATAGCATTTCATACATGGTATAAGAACCTTACAGTAAAACACTTTCATTTTCTCCTTTCCCAGCCTTTGCACTACTGCTCCTCTGG
Celera SNP ID:            hCV26763157
SNP Position Genomic:     476702
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49655):
ATCCCAGTGTCAATACCACTCCTGCCTACAGGTAATCACCAGAAAGGTCAAATGTTAGTCGCCCTGTCTTATGTGGGCTGAAAACTGTCACAGGCGATTT
M
TCGTAAGGGTTCTGGAATCCCACTGGGGACGGCCACAGGCAGGAAAGGCATCGTTGGCCGCTGCTTCTTGGCTCACTCACTCCACGCTCACTGCTCAGAA
Celera SNP ID:            hCV3282344
SNP Position Genomic:     1144853
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,9)      total(A,2|C,9) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49656):
AGCATTTTGGAAGGCTGAGGCAGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTATCTACTAAAAATAAAAAT
W
AAAAAAAAATAGCCAGGTGTGGTGGTGGGTACCTGTAATCCAAACTATTTGGAAGGCTGAGGCAGGAGAATAGGAGGATTGACTGAACCCGGGAGGCAGA
Celera SNP ID:            hCV26763158
SNP Position Genomic:     460961
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49657):
TGGCATTTTATCTTTAGAGATGAATATCGTCATTTGCCTTATATGGTCCAGATTTTCTGAAAGGTCAAAATAGTGCCTTCAGAGTACAGGCACTCTTTTA
Y
GGAAGACTTCAATGAACACAGAATTGCTGCCCTCTCTTAAGAAAGGATAAAATAAAAAAAACTGTTAAGGAAAAACCCAAGCGGTAGAGAGAACATTCGG
Celera SNP ID:            hCV3282345
SNP Position Genomic:     1144578
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49658):
GAATCGTATTTATTGAGCACCTGCTGTGTATCAACCTCAGTAGAAGACCCAAGAGATATACTGGTGAATGGGATAGACATGGTCTATATTTCAGAGGCCT
M
CTAGTATACAGTTGAAGACGGGCATTGAACACAGGATCACAGCTATGCTAATAGGGGTGTTACTGCAGGGCCATCCAACCTAGAACAAGGATCATATTAC
Celera SNP ID:            hCV26763159
SNP Position Genomic:     459819
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,8)      total(A,8|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49659):
TGCACTATAACCAGCAAAGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGGTCACTTAAGGTCAGTAGTTCGATACCAGCCTGG
Y
CAACATGGTGAAACCCCTTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTTGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGA
Celera SNP ID:            hCV3282346
SNP Position Genomic:     1144120
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49660):
GGCACAAAAGCAGCTGGATTGGTTACACTCGGCATTTGCCTTATTTGAACGCTATTTGAACAGTTGGCCCTTTGATTGGCTCAAACTCCGAGACTGGCAC
R
AGAGTAGGTGACAGTCTGTTTACACCTCCATTCAGATTATAGTTCACTATGTACAGAGAAACCTTTAGGCGGAACTTAGCATATTTAAGAAGGCAGCTTT
Celera SNP ID:            hCV3282348
SNP Position Genomic:     1143879
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49661):
TTAAACTTAAAAGAAAATCCTTGGCTAGATTACATTTCACTGAGTTTAGTTGAGCAAAGAACAATTGGTGAATTGGGCAACCTCTCAAGCCAAAGTAAGC
W
GAGAGAGACTCCAGCGCAGGCATGTAGTGGAAGAAGATTTATGGACAGAAAAAGGAAAATGATGTACAGAAAATGGAAATGAGGCACAAAAGCAGCTGGA
Celera SNP ID:            hCV3282349
SNP Position Genomic:     1143696
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49662):
ACATTGATCATTAGACTAAATCATGAAAACCACTCAACCAGGACTCCGCTTTGATTGTGTCATGAACGTAAGTCAGACATGACGGTAATTTACATCAGCT
Y
TGCCATGTTCCTCAGTGTTCTGTGCATCTGATTCTTAGAGGTCTCACTGCATCCAGATACTCTGTACCTGAGATTTATGCCCACCTATGCGAATAGGTGC
Celera SNP ID:            hCV12106871
SNP Position Genomic:     511573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49663):
TATTTCAAAATTTGGGCCATAAATAATTTCTCAGTTTTACCAACTTTCACTGATAACTAATTGATTGCATCTTTAAAGATTTTTGAGTTCTTGGGCCCGA
Y
TGATTGAGAGCAGGGGACTTTAAATCTGTAAGCCAGCAGGGAGGTCTTTGGGAGATGTATTTTATTCTGTTTTATATTAAGTTTGAAAGACAAGTCATTT
Celera SNP ID:            hCV12106872
SNP Position Genomic:     511182
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49664):
GGTGACCATACACTTTTACCATACCAGATAATCAAGAAATATTGGGTCTGCCACTCCTTAATGTAACGCTGGCATGTGCCTTGAGAATCCAGCACAGGCA
R
TTTGCTCCTGAGGAGGACCAGGGGTAAAGTTTATTCTCCCTTTTTCCTTCTCAACTGTAATTCACCCCTCAATTACTCCCTCTCTTGTATTCCCAAACTG
Celera SNP ID:            hCV12106873
SNP Position Genomic:     954462
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49665):
CTGCCTCAGCCTCCCGAGTAACTGGGACTACAGGCATGCGCCACCAGGCCCGGCTAATTTTTTATTTTTAGTACAGACGGGGTTTCTCCATGTTGGTCAG
S
CTGGTCTCGAACTCCCGACGTCAGGTGATCTGCCCACCTCAGCCTCCCAAAATGCTGGGATTATAAGCATGAGCCACCGCACCTGGCAAGATAGAGTCTT
Celera SNP ID:            hCV26763160
SNP Position Genomic:     459578
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|G,6)   total(G,6|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49666):
ACCTTCTTGGGAGCCAGATGTTCCACTGAACACTTTGCATGCACTGTGACTATCTAATGCAATCCTTGGGACAGATCTGTGAAATAGACTCTGTTATTAG
Y
CCCGTTTTAAAGATGAGGACACTAAGATTCAGATGGTTTAAGTAACCTGTCCAGTGTCCACAGCTCCTGTATTAGCTGAGAGTCTTGTGCCATTATATCA
Celera SNP ID:            hCV26763161
SNP Position Genomic:     459042
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49667):
TGCATCTGCCTGACCTTCTTGGGAGCCAGATGTTCCACTGAACACTTTGCATGCACTGTGACTATCTAATGCAATCCTTGGGACAGATCTGTGAAATAGA
S
TCTGTTATTAGCCCCGTTTTAAAGATGAGGACACTAAGATTCAGATGGTTTAAGTAACCTGTCCAGTGTCCACAGCTCCTGTATTAGCTGAGAGTCTTGT
Celera SNP ID:            hCV26763162
SNP Position Genomic:     459030
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49668):
GTATGAAAAGCATAAAGAGAAAATTTGGTTGCCCTCATGCTCACTCTTATGCCAAGTATTTATTCAACAATTAAATGAATAAGAATAGGGATTTCAACTA
Y
GTTCTATCCTCCTCCTCCTCCTGCATCTGCCTGACCTTCTTGGGAGCCAGATGTTCCACTGAACACTTTGCATGCACTGTGACTATCTAATGCAATCCTT
Celera SNP ID:            hCV26763163
SNP Position Genomic:     458908
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49669):
CCTAGGTTGCAGATGACTTGAGGAGGAAAAGACACGTTGTAACCAACAGAATATTCAAGGTACTTTCTTTAAACTTAAAAGAAAATCCTTGGCTAGATTA
S
ATTTCACTGAGTTTAGTTGAGCAAAGAACAATTGGTGAATTGGGCAACCTCTCAAGCCAAAGTAAGCTGAGAGAGACTCCAGCGCAGGCATGTAGTGGAA
Celera SNP ID:            hCV3282350
SNP Position Genomic:     1143628
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49670):
CTTTTATTAACCTTGCCTTCTATGGATGGTTATTCATATTCTTCTTATTGTTCTCTGTTATGATAACTTTGCCTCTGACACAAAATCAACCTCACTGTGA
Y
GCATACTGGATGTGGAACTGAAGCAAGGGACAATTTATCTGAGCTCAAGCTTGCTCATCTGTAAAATGGGATAATTATAATAACAGAAAATATGTGCTTT
Celera SNP ID:            hCV26763164
SNP Position Genomic:     457871
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,15)   total(C,1|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49671):
TAATGCCTAGGTTGCAGATGACTTGAGGAGGAAAAGACACGTTGTAACCAACAGAATATTCAAGGTACTTTCTTTAAACTTAAAAGAAAATCCTTGGCTA
R
ATTACATTTCACTGAGTTTAGTTGAGCAAAGAACAATTGGTGAATTGGGCAACCTCTCAAGCCAAAGTAAGCTGAGAGAGACTCCAGCGCAGGCATGTAG
Celera SNP ID:            hCV3282351
SNP Position Genomic:     1143623
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49672):
CAGGATCAGCTTCGTGACAAAAACCAAACCAGGAATGAGAGGGGAAAATAATCTAAATGTGTTAAGGGAAGTATGCAAAATGGCTGAAAGCTGACAAATG
G
CAGAGCCAGAACGTGAGTTCTGCTGATTCCAGACATCCTGCCTGATGAACATAAAATTGGAAGGAAAAAAAAGTAAATGAGCTATGATGAGACCAAGTGG
Celera SNP ID:            hCV26763165
SNP Position Genomic:     454524
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49673):
AGTGCCAGAATATCCACTATTCATAAGAGCCCAAAGTTGGAAATTATCCAGATGCCCAGCAAAAGTTGAATAATAAATTGTGATACATTCACAAAATGGC
R
TCTGTACAATAATAATGAGTGAATGAACTGCAACTATTCACAACATCATGGGTGAATCTCACAAACATAGTGTGCAGCAAAAGAAGGCTGAAACAAGAAC
Celera SNP ID:            hCV3282352
SNP Position Genomic:     1142733
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49674):
CCAAAAAGTTTGAAGGAGGACCTATGAAAAATATCCCTGGCCTGGGCTTAAGAAGCCTTCACCCTCATTCTCAACTCTGAGGCTACCAGAGCATGATCAG
Y
TCATCATCTCAGTCAATCCTCCCAGCTCCTCTATTAGATCCATATGACTGCCACTTTGTGAAAGATACAAGGAGGACTTGGCAAAACAAGGGCCCCACCT
Celera SNP ID:            hCV26763166
SNP Position Genomic:     446481
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,16)      total(C,1|T,16) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49675):
GAATTGGATTTCCTGGAGCCTTTCAGACTAAGATACTCCAGACTTTCAATCAAAATCCCAGTAGGGCCATGCCCAGCAACAGGAGTAAGCCAGAAGTTGA
Y
TCAGTCTTGTTCAACTTGCAATGCGGCCTGACCCTTTTCAAGCCCTTACTAAGTTGATGAAGCAAGGCTCCATCTGATACAGTTTGGCTCTGTGTCCCCA
Celera SNP ID:            hCV3282353
SNP Position Genomic:     1136649
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49676):
GATTCTTTGCATGCACCTTGGTGATTCTATGTGCTGTTTTGTCTCCCTCATAGCTAATCAGATGTCTTATGTGGTGGTTGGCATTTTTTTTTTTTTTTTT
T
GAGTCAGAGTATTGCTCTATTACCCAGGCTGGAGTTCAGGGTGCGATCTCGGCTCACTGCAACCTCTGACTTCCAGGTTCAAGTGAGTCTCCTGCATCAG
Celera SNP ID:            hCV26763167
SNP Position Genomic:     441456
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49677):
GTCTCATCTATGTTTTCTCAACATTCAGCATACACCTGTATGAACTGTCTGGCTGTGTAACTGTGAAAGCTTCTCACAGACTGTGAGTCTCATTTTCTAC
R
TATACAAAATGAAGAAGATAATTCCTACTTATAACGTTGTGAGAAATGAGTGAAGTGCTGTACCCTCTAGATTCTCCATCAAAAGCCATATTAAATGTTC
Celera SNP ID:            hCV3282354
SNP Position Genomic:     1134981
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49678):
ACAGGGTGCTTATCCCTCAAACCTCCCTGTATCACTAACTTTCTTAATCCAGACTTTTGCCTTTGTTTTTTTTTTTGTTTGTTTTTTTTTTTTTTTTTTT
T
AGAAGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCAGGATCTTGGCTCACTGCAAACTCCACCTCCTGGTTCTCGCCATTCTCCTGCCTCAGC
Celera SNP ID:            hCV26763168
SNP Position Genomic:     438289
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49679):
CCAAAGAAACTAGAAATGCGGTATACTTGAATTGTTACCAGAAGCGAGAGCCTTCTTTACATGTATGCAGTAATCAGTTAAGTGACACTGTGTGCGTATA
Y
ACCGTGTCCCGAATATTAAGAAGAACAAAACCAAAATTTGCAGATTAAGAAACAGACACCAAATTTAGTTGGCTTTCTAAAAGTCGTATCATTAGGATAG
Celera SNP ID:            hCV3282355
SNP Position Genomic:     1134597
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49680):
ATAGAGCTTAAAGACAGGGTGCTTATCCCTCAAACCTCCCTGTATCACTAACTTTCTTAATCCAGACTTTTGCCTTTGTTTTTTTTTTTGTTTGTTTTTT
K
TTTTTTTTTTTTTAGAAGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCAGGATCTTGGCTCACTGCAAACTCCACCTCCTGGTTCTCGCCATT
Celera SNP ID:            hCV26763169
SNP Position Genomic:     438276
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49681):
GAAAATAAGCCAAGATTGTTTAAAATTCTGTGTAAAATGAAAAGTATCCATTACTGATCAGCTAAAGTAACAATGGCAGGGTTCTGTAGTATGTAGAAGT
R
TCTGTATCTGTGGAGAAATTTCTCAGCAAAGAATGTCAAGAAGCATGGATGAAATATAGCGTAGCATGGCTGGCATTTCTTTGTGAAATTTTTTGTGCAA
Celera SNP ID:            hCV3282356
SNP Position Genomic:     1134388
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49682):
GTCAGCCTGCAGTGGGTAAATGTGTTAGAAACCATAGCAGGTATCTTAGTTGATGGGGTCAGAGTCTGCGCAAGCATAACATAAACGGACCAGAGGGGAA
R
AACCTAGATAACATCTGAAAGGAAGAAACAAATCTTTGTCAAGAGCTTATACTGAACATGAGCTAGAGAAATGCAATATTCAGGTTTCTGGTCCAGAAAT
Celera SNP ID:            hCV3282357
SNP Position Genomic:     1133950
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49683):
TATACCTCCCCTCCACAAAAAAGAAAGATACATCCTATAGCAGCATAGAAAATGGACGCGGTGATGGCAAGATGTGAGGAGGGAGGCATTAGGCAGCTGC
Y
GCAGAAATACAGGTAAGAGAAAAGAGAGGACCAAGCCAAGGTAGTGAAGTTAGTTGGGGAAAAGTCAGCCTGCAGTGGGTAAATGTGTTAGAAACCATAG
Celera SNP ID:            hCV3282358
SNP Position Genomic:     1133786
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49684):
TGAGGTGGGCAGATCGCTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAAAAAAATATACCTCCCCTCCACA
R
AAAAGAAAGATACATCCTATAGCAGCATAGAAAATGGACGCGGTGATGGCAAGATGTGAGGAGGGAGGCATTAGGCAGCTGCCGCAGAAATACAGGTAAG
Celera SNP ID:            hCV3282359
SNP Position Genomic:     1133703
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49685):
GAGTACAGTGGTGTGATCTCGGCTCACCATAACCTCCGCCTCCCAGGTTCAAGCAATCCTCCTGCCTCAGGCTCCCAAATTGCTGGGATTACAGGCATGC
R
CCACCACGCCCAGCTAATTTTCTATTTTTAGTAGAGACGGGGTTTCTTCATGTTGGTCAGGCTGGTCTCGAACTCCCAACCTCAGGTGATCTGCCCGCCT
Celera SNP ID:            hCV8092736
SNP Position Genomic:     460436
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49686):
TATGCATTGTATGTGAAATAGTAATAATAGCCAACGCTTAGGAAGTAGTTGCCACATGCCTGACTCTCCTAAATGCTCTGCAAATAGGTTAGATTTCCAG
M
AAATGAAAACAGGTTAGGCAGCTCAATAGAATATTACATAACCATTAAAGAGGATGGTTATAAAGATGATGATAATGGCATGGAAAAATCATATGAATGA
Celera SNP ID:            hCV27534185
SNP Position Genomic:     27466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49687):
TCCAGTCTTCTTACCTTGACTTACAAGACTGTCCATAATTGGGCTGGGCTGACTGCATGAGTCTCACCTTTCACTGTTCTCCCTTAATTCCCTGCCTGCC
W
GGAAGACGTATTTCAGCTTCTGCAATGCTTTGCCTTGCTAAAAATATCTCCTCTTAGCAAACAAGTTTGCCCAGAAGTTATGAAAGTAGGAGAGGGAACA
Celera SNP ID:            hCV27930077
SNP Position Genomic:     494529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49688):
AGGAAATAGTGGGTAGAGTGGCCAGGACAGGGCTCATGGAGTAGGTGACTTGTGAGGAAAGGTCTGAGGAAAGTGAAAGAACTGCTGTGGAAGACAGAAC
M
AAGGCCCCAGGATTGTTCACATTCTACTCCTTGGAACCTGTGAATGTGTTACCTTATATGGCCAAATAGACTTTGCAAATGTGATTCAAGTTAAGGATTT
Celera SNP ID:            hCV27930078
SNP Position Genomic:     480746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49689):
ACCTGTGGTTTACAATAGCCGCCAGAGCACTGGGGGCTCTTGCGATCTCATGAGACCAAACTCCAGGTCTAGGCACACCTGGTTTGGGACAGGCCTGCTT
Y
AGCATTGAAAACAGGATCTTTGCCCAACAGGAAGGTTGGAGAATGAGGCATGCATCTAAGAAAAAAATGCAAGCAAAATAAAAATTCCCACATATTGCCT
Celera SNP ID:            hCV11674290
SNP Position Genomic:     1094574
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49690):
ATCAATTGAACCTGGGAGGCAGAGGTTGCAGTAAGCCGAGATCGTGCCCCTGCACTCCAGCCTGGGAGAGAGAGTGAGATTTCATCTCAATAAGGAAATA
S
TGGGTAGAGTGGCCAGGACAGGGCTCATGGAGTAGGTGACTTGTGAGGAAAGGTCTGAGGAAAGTGAAAGAACTGCTGTGGAAGACAGAACAAAGGCCCC
Celera SNP ID:            hCV27930079
SNP Position Genomic:     480654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49691):
TTCATTCAACAATTATTTATAAGGGACTTAATATGTGCCCAGCACTGTTCTAGGCACTACAGATACAGCATTGAACCACCCCAATTAAGCTTGCATTCTA
Y
TGGGGAGAATGAAAATAAAATTAAAATTAAAATGAGATATATAGTAAATTAAATTAGAAATGCAGTAGGGTTTCTTTTTAAGTGGAGGTGGTCCTTTCTC
Celera SNP ID:            hCV15836731
SNP Position Genomic:     807300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49692):
GCAATAGAGCTTAAAGACAGGGTGCTTATCCCTCAAACCTCCCTGTATCACTAACTTTCTTAATCCAGACTTTTGCCTTTGTTTTTTTTTTTGTTTGTTT
K
TTTTTTTTTTTTTTTTAGAAGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCAGGATCTTGGCTCACTGCAAACTCCACCTCCTGGTTCTCGCC
Celera SNP ID:            hCV26763170
SNP Position Genomic:     438273
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49693):
GATAAACACACCAATTGAAAACAGATTGGCTGAATTTTAAAGCAATAGATATATGTTTCTTAAATTAGATAGACCTTGAATGGAAGGGTACAGAAAAATA
S
AAAATGAAAAAAAGTAAGAAAATATATCCTGTAAATATTAACCAAGAGAAAGTTGATAGAGCTATGCTATTATCAGAGGAAATAGACTTTAAGGAGAGAA
Celera SNP ID:            hCV26763171
SNP Position Genomic:     432089
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49694):
TATAGGAGTTAAAAAGGTATCATAACCTTAATATTAGGTCTCGGGAGGTGTCACTAGGACTCTGTTATCCTTTCTTCCCTTCTTTCTTTTTTGGCTTTCT
R
TATGTCTTCATTTTCAGACAGCCTCTCTCCTGGGGTATCAGAAGACACACTCACATTAGGATAATGCAGATAAGATCAATTCACAGTAAGAAGATTTATC
Celera SNP ID:            hCV26763172
SNP Position Genomic:     431837
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49695):
GACCCTAAAGGCAAAAAAAAAAAAAAAAAAAAAAGAGCTGGGAAAGTTGAATTTTGAGGAGAAGGCAAGAATACTTTATTTTCCTTCTACCCTAATGACA
S
CTTCTCTTTGGACTCATCCTCCTGTGAGTTGGCAAGGGGAATGGGGAGCAGCTTAAGCAGCAGCTGCCACCATGACCATTATTCCCAAGCAACTTGCCCA
Celera SNP ID:            hCV11674294
SNP Position Genomic:     1090129
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49696):
CCAGAAGACAGAGACTGCAGTGAGCCAAGATCGCACCATTGCACTCCAGCCTGGGTGACAGGGCGAGACTCTATCTCAAAAAAAAAAAAAAAAAAAAAAA
R
AAAAGAAAGAAATTAAACCTTAAATAGCAAAATAGAAAAGACAGATCATCAGCAATGATTAATAAAAAAGCTATTTTATAAAGCGGTGATTGGGAAAGTA
Celera SNP ID:            hCV26763173
SNP Position Genomic:     431276
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49697):
CTCATGCCTGTAGTCCCAGAACGTTGGGAGGCTGAGGTGGGTGGATTACAAGGCCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACCCCATCTCT
R
CTAAAGATACAAAAATGAGCTGGGCATGGTGGCACACACATGTAGTCCCAGGTACTCAGGAGGCTGAGGCAGGAGAATCTCTTGAACCTAGGAGGCAGAG
Celera SNP ID:            hCV3282360
SNP Position Genomic:     1132375
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49698):
TTGCTGATCCCCTGTTCTACTACTCTTCCCTATTCTGGCTGAGTTCCTATAAGACAGAGATCAGCTCTTAGATTCCCCGTGTATCATATCCCTGACATGC
Y
GCACTGTGCTATTGATCTGGTGGCCGTTCAATAAAAAGTCATTGAGTGAACAAATAGAAAGCGAGAAAGAGGGAAGGAGAAAGAGTGAGATGAAATAATG
Celera SNP ID:            hCV11674295
SNP Position Genomic:     1089889
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49699):
GGGAGGCTGAGGCAGAATTGCTTGAACCCAGAAGACAGAGACTGCAGTGAGCCAAGATCGCACCATTGCACTCCAGCCTGGGTGACAGGGCGAGACTCTA
Y
CTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAATTAAACCTTAAATAGCAAAATAGAAAAGACAGATCATCAGCAATGATTAATAAAAAAGCTA
Celera SNP ID:            hCV26763174
SNP Position Genomic:     431249
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49700):
GAGTTCTCAGTCCTGGTCCTCGTATGCCGGCTACTCACACAAACCATTAGGAGACAAGTCTAAGAAGTGAGCAATCCATGTGACACACAATAAGTAGAGA
K
TGCTTCAAAATAAAGGTGAGCCTTGGGGTTAGCCTTGAAAGACGGGTAGGATTCGGATGAGTGGCATTACCCAGAAATCCAAGGCAGAGGAATCAAAACT
Celera SNP ID:            hCV3282361
SNP Position Genomic:     1131589
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49701):
GTCTGTTACCCCTAAGAGACACAGCCCTCTTTTCTGAGGCGTCTTTCTTTCCTTGATTTATTTGGACTATGGTTTCTTTGGCCAACCATTTAATTTTTTT
K
TTGTTGTTAACTTTGTCCTTGTTAACATTAATTCTCTCATGTCATGTGGAAATGAGAATAATTCAGATATTGTAAGAGAAGGAAAATGGTTAGATAAATT
Celera SNP ID:            hCV26763175
SNP Position Genomic:     430418
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49702):
CTCCCTATTATTCCTAAAAGCCAGCTGTTTATGGCTAAAGATTCAGTTTTGAGTCCTTCCATATCAAGATGAATATTTATAGGTGCCCATTGTTATACTC
M
ACAAGGGTGAACTAAGAGTTCTCAGTCCTGGTCCTCGTATGCCGGCTACTCACACAAACCATTAGGAGACAAGTCTAAGAAGTGAGCAATCCATGTGACA
Celera SNP ID:            hCV3282362
SNP Position Genomic:     1131473
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49703):
AAACCTCTGCTTATGGACCACAGCAGCCAGATCTGAACCTCCTGCTACCATCCCTGTAACTCTAGTTATGACTTGTATTATCCATCACATTATTTGTTGT
C
TTATGAAGGATGAAGTGTTCAAATCCCTGTAGGAAACAGACCGAAAACTTTGAGTCTGTTACCCCTAAGAGACACAGCCCTCTTTTCTGAGGCGTCTTTC
Celera SNP ID:            hCV26763176
SNP Position Genomic:     430264
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49704):
GAACTCTATAATGGTACTACAATAGAAAAAAAATTTCCAAAGTTCAATTGGAATTTTTTCCCAGTAACTTAATAATAAGGCTCCAATTTCAGGAAAATAG
Y
TTCAGCATGAGTGAAATCACACTGTTTGTTATGCAGCATCAAAGCTGTCCTCCAACACAGGGCAGAGGCCAGTGCTCCCTGGAGTTGAACTCCAACAATC
Celera SNP ID:            hCV11674298
SNP Position Genomic:     1087040
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49705):
TAAACCTCTGCTTATGGACCACAGCAGCCAGATCTGAACCTCCTGCTACCATCCCTGTAACTCTAGTTATGACTTGTATTATCCATCACATTATTTGTTG
T
CTTATGAAGGATGAAGTGTTCAAATCCCTGTAGGAAACAGACCGAAAACTTTGAGTCTGTTACCCCTAAGAGACACAGCCCTCTTTTCTGAGGCGTCTTT
Celera SNP ID:            hCV26763177
SNP Position Genomic:     430263
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49706):
GTAAACCTCTGCTTATGGACCACAGCAGCCAGATCTGAACCTCCTGCTACCATCCCTGTAACTCTAGTTATGACTTGTATTATCCATCACATTATTTGTT
G
TCTTATGAAGGATGAAGTGTTCAAATCCCTGTAGGAAACAGACCGAAAACTTTGAGTCTGTTACCCCTAAGAGACACAGCCCTCTTTTCTGAGGCGTCTT
Celera SNP ID:            hCV26763178
SNP Position Genomic:     430262
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49707):
TTCGTTCAAAAGATGGTAATGCACTATCCATATGCCAGCCCCTGATTAGATGCTGGGGGCGCAGCAGTAAACAAAAAGAAAGCTGTCCTCATGGAGCTGA
Y
GTGCAGAAAGGAGGCAAAGTTCAAAGTGCCACGATTGTTCTCTGCTCCTTTGAGATCAGACTGTAGGGCACAAGGGCAGAAGGAGGGCAACCTCTTAGGA
Celera SNP ID:            hCV3282365
SNP Position Genomic:     1131079
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49708):
CCCAGCAGAGCATTGGCAGTCCTTGAAATGCTCTTCCGTTTGCTGTTTAAGACACCATACTGTCCTTGTTCTCCCACTCTTTCTGTATAGAAACCCATAT
R
TTTTCTTCCTCTAGTTCTTCTTATTATTCCTCCTGCCATTGGAAGTGCCTGTCCATTTCCTGTCTTGATTTTCCTTTGCTGTTTTCTACCATCCTCAACA
Celera SNP ID:            hCV26763179
SNP Position Genomic:     428979
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49709):
TGAAAGTAAGTCCCAGAGGACATCACTGACCCTGACCATTGAATTGTTCTTGTAGCTTTTATCCTATTATGACACGCTGCCAAGGAAAGGCATCAGGTAC
M
CTCAGTTAGTGGCTGCACAACCACAAAGCAATTGCTGTTCGTTCAAAAGATGGTAATGCACTATCCATATGCCAGCCCCTGATTAGATGCTGGGGGCGCA
Celera SNP ID:            hCV3282367
SNP Position Genomic:     1130941
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49710):
GCTACAAATATACTTTTACATTTTTAAATTTCTTCTGATACACCCAGGGGTGTTCTTGGGAAGAATGTAAGTGTGTGGGAACAGCAAAGTAAATGTTTAA
M
TATACACATGTTGAGTTCAGTAATATCTCCAAGTCCCAGAATCCTCAGATCTTTTTGGAAAGTGAATAATGTCTGGTGAGAGGTCAGAGCAATGAACTCA
Celera SNP ID:            hCV3282368
SNP Position Genomic:     1130634
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,39|C,1)   total(A,73|C,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49711):
TGTTCTCGTGATAGTGAATAAGTCCCATGAGATATGATGGTTTTATAAAGGGAAACCCATTTTGCTTGGTTTCACTCTCTCGTCTGCCACCACGTAAGAC
R
TGCCTTTCACCTTCCGCCATGATTGCGAGGCCTCCTTAGCCACATGGAACTGTGAGTCTATTAAAACTCTTTCTTTTGTAAATCACTCAGTCTTGAGTAT
Celera SNP ID:            hCV3282369
SNP Position Genomic:     1129660
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49712):
ATGATCACCTAGTTTTTGCCAGACCCTGTGCTAAGTATAAGGGATAAAGCTTTGAATCAGATAAAAAATGTGCCTCCTGCTGTGGAGCTTTGATGATATC
R
GAGAGAGAAAAAGGCAAACATGATATAATAAACCCTTGAGAACACAGGAAAACGGCACATGACAAGACGATGGTTAAGTATCATGAAGGAAATAACGCAA
Celera SNP ID:            hCV27930080
SNP Position Genomic:     251982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49713):
AGAAGAACAAACACATTCTGAGAACAGCCAGGCCTCAACCAAAGACCAGCAGGAGCAGGTGCATAAATACCCCAACTCCCTCACCCTTCGAATGCGATGA
S
TCTAAGGCTTATGTTTTAAACTGGCTTCCATAACTCACCAGCAGGATTCAGTTCTAGTTATCCACATTGACAGCTGATTTGATAACAGCCGTTTTGTTGG
Celera SNP ID:            hCV27995198
SNP Position Genomic:     350206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49714):
GTGTGATAACTGCTACATTGTGTAATTATTATCATTATTATTTGAGATGGAGTCTCTCCCTGTTACCCAGGCTGGAGTGCAGTGGCGCAATCTCAACTCA
M
TGCAACCTCTGCCTCCTGGGTTCAAGCTATTCTCATGCCTCAGCCTTCCGAGTAGCTGGGACTACAGAAGTGCACCACCACGCCTGGCTAATTTTTGTAA
Celera SNP ID:            hCV27930081
SNP Position Genomic:     248167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49715):
AGAGTGCAGGCACATTTAAAATATTTGTTGAATGTACAAATAAATGTTTAAAAGGTTTCACATAGACTAGGTTGCAAAATCCATAGCAGACACTGTAGGT
R
CTCCACCTATATCCTTTCCTTTTACCATTCTGGGGCATACTGGCCTAATTTACTTGCAGAAGAACAAACACATTCTGAGAACAGCCAGGCCTCAACCAAA
Celera SNP ID:            hCV27995199
SNP Position Genomic:     350048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49716):
ACCTTCCACCTCAGACAGTTGTAGAAATTCAAAAGTCCCAGCAGTTTTCTAAACCTGGCAGGTCACTTGAATCACATGGGAGGCCATTAAACACACCCCA
R
ATATTCTAAATTTGGATTTCAAGGGAAGGGCTTGAAAGGAAGAGCAAGGAACCTGGATAAAACTCTAAAACCTTCTTTCCCTTGCAATTGAATTAGCCAG
Celera SNP ID:            hCV15848106
SNP Position Genomic:     363159
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49717):
CTGCTTCCCAATGCGTGGTCCATGGACCAAGCAGCTTCAGCATCACCTGAGCACTTGTCAGAAATGCAGCACCTAGGCGCCGCACCAGACCTGTTGAATA
R
GAATCTACATTTTCACAAGATTCCAGGTGATTTGCATACACAGTGGCATTTGAGAAGCATTAATCCAGGGGCTTCTTTGCAGTCAGTGATGGTGATTTGC
Celera SNP ID:            hCV27930082
SNP Position Genomic:     210191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49718):
GCAGACACTGTAGGTGCTCCACCTATATCCTTTCCTTTTACCATTCTGGGGCATACTGGCCTAATTTACTTGCAGAAGAACAAACACATTCTGAGAACAG
Y
CAGGCCTCAACCAAAGACCAGCAGGAGCAGGTGCATAAATACCCCAACTCCCTCACCCTTCGAATGCGATGACTCTAAGGCTTATGTTTTAAACTGGCTT
Celera SNP ID:            hCV27930083
SNP Position Genomic:     350133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49719):
GCCAACACACCTGGCCCAATAGTTCCAATTTTTTATGTGTATATTTTTAAAAAATTAAGTTGTGACTTTAGCGTGAATTGAAATTTGTTTGACTATACTT
Y
ATAAACCCTTTTATATTGTTTTATAATTTTTTGCAAACATAATTTTTAACAATGCATAACTTGTTTATCACAAGTCAGACCCAGAATATTTAGCTCTTCC
Celera SNP ID:            hCV27930084
SNP Position Genomic:     150121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49720):
TCCAATGGCTTGGAGTCTGAGGCTCAGTTTTCCCACTTGCAGAAGGAAGGAATGATGCCAACTTCGTAAGTTACATGAGATGTGAAGGCAGTGATGGAAG
K
GGAGCTGGGGCTCCTTCCCCCTCTGTTTTAAGCATTTGATTAAAACAAGTTAGGATGGGCGCAGTGGCTTGTGTCTGTAATCCCAGCACTTTGACAAGCC
Celera SNP ID:            hCV27930085
SNP Position Genomic:     98535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49721):
AAATTGTCAACCATGTACACAAACAGATCTTTAAAAAAAATTGAGACAAATTAAAGTGAAAGACTTCAAAATCAGTTTGTCACATTTGATGCTAAACGCT
R
TATTTTCTCTGAGAATTTTAAATTGTGCAGGTAATTTCTCACCACGGTAAGTCATGATTTTTCATACTTGAACAGTATCACTTCATCTAAGGAATTTTCC
Celera SNP ID:            hCV127676
SNP Position Genomic:     566806
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49722):
CTAGGAGTGGAATTGCTGGCTCAAATGATAATTCTATGTTCAACTCTTTGAGAAACCACCCAACTGTCCCCTAGGAGTGGAATTGCTGGCTCATATGATA
R
TTCTATATTCAACTCTTTGAGAAGTCACCCAACTGTCTTCTACAGCAGCTGAACCACTTTAATTCCCAGCAGAGCATTGGCAGTCCTTGAAATGCTCTTC
Celera SNP ID:            hCV26763180
SNP Position Genomic:     428814
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49723):
GACCCGGGCCTCCTTCTGCCTACTGTCGCCATAACTCTAGTTATAACTTGCTTTTGGGTTTATACCTAGGAGTGGAATTGCTGGCTCAAATGATAATTCT
W
TGTTCAACTCTTTGAGAAACCACCCAACTGTCCCCTAGGAGTGGAATTGCTGGCTCATATGATAATTCTATATTCAACTCTTTGAGAAGTCACCCAACTG
Celera SNP ID:            hCV26763181
SNP Position Genomic:     428749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,10)      total(A,10|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49724):
CCATCTTGCCTGTAACCTTAGCGCCTTCCCTGGGATGATGGGAGCTCCATTTGACCTTGGTGATGAACACAGACAGCCCTAGCTGGCGTGAGCACCGCTG
R
TTGATAAGGTGGGTGTGGAGCTTCTGTCCTTCTCAGTGGATTGCGAGAACTTTGGCTCCATGTTTCTTCACCAGGGTATGGGGACTCTTGGCCATGAGCT
Celera SNP ID:            hCV12106895
SNP Position Genomic:     589418
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49725):
GCTAGGTTTCCACTTAGAGCAAGATCTCTTAAAAAAAACCCTGCTTATTGACCACAGCAGCCAGACCCGGGCCTCCTTCTGCCTACTGTCGCCATAACTC
K
AGTTATAACTTGCTTTTGGGTTTATACCTAGGAGTGGAATTGCTGGCTCAAATGATAATTCTATGTTCAACTCTTTGAGAAACCACCCAACTGTCCCCTA
Celera SNP ID:            hCV26763182
SNP Position Genomic:     428686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49726):
TCCAGCCAGAAAGTCTTCAGTTGTTCATGTTGATTACTAGCAAATGGGAATAGTGCCAGGTTCATAATGCTGATTTTATTACATTACTTTCTCTGAACTC
Y
GGTTTAAATAAGTGCGTAAATATTTGGTACAGGGAGATAAACATTGAGTACACATGGACATAAAGACAGGAAAAATAGACACTGAAGACTCCAGAGGTGG
Celera SNP ID:            hCV12106896
SNP Position Genomic:     584094
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49727):
CTGCTACCAACCTGTGTGCAAATGTATTTGAGTACTAATTTTTTATTTGTAAATACAGTGACAATAATGCCACAAAAACATTGCATACTTACAAGATTTA
W
GAGTTACATAATTTACAATGATTGAGTGTGGGCAGCTCTATTATCTGGATTTCATTAAGATGATGCTACAAAAATAGTAATTGTTAGTAATAATAATGCT
Celera SNP ID:            hCV26763183
SNP Position Genomic:     428372
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,5)      total(A,1|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49728):
CCATTCTCCTGCCTCATCCTCCCGAGTAGCTGGGACTACAGGTGCCCACCACCACACCCAGCTAATTTTTTGTATTTTTTAGTAGAGACCGGGTTTCACC
R
TGTTAGCCAGGATGGTGTCAATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAATGACTGGCCTCTTTTACT
Celera SNP ID:            hCV26763184
SNP Position Genomic:     428013
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49729):
ATATCTGTATATTCAACAAATATTTAGTGTCGCATATGGGCTAAGCAGTGTTCAAGCAGCTGGTGTCACAGCAGTGAACAAATTTCTTGCCCTCGCGTAA
M
CTACATCCTAATGAATGTTTCTGTTCCATCTGTAATAGTTTGGCTGTGTCCTCACCCAAGTCTCATCTTGAATTCCCACATATTATGGGAGGGACCCTGT
Celera SNP ID:            hCV3282371
SNP Position Genomic:     1129420
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49730):
AAGCATGTTCTCCCTTCCCCAGCTCCTGGCTTTATGTATCACCTATTTTTATATATAATATAAATGAAATCATACAATACTTGGGCATTTATGACTGGCC
W
CTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGTTGGGGTTGGAGTGCAGTGGTGCGATCTCTATTCACTGCAAGCTCCACC
Celera SNP ID:            hCV26763185
SNP Position Genomic:     427799
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4)   total(A,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49731):
TCTGCAAAGTCTTTGCTCTATGAAGTAACATTCCCAAGTTCCAGGATTAGGAGGTAGATATCTTTTTCCCGTGAAGACTCGGGGTTAACTTGCTCCAAGC
S
CTTCAGTTGGAGATTTTCAATCCTGTTGGTTAAATCAGGTTTTAAACATCCTTAGACCCAAATCTGGCCATACAAGGCAGAGAAAATCAACTTCATGCAT
Celera SNP ID:            hCV3282372
SNP Position Genomic:     1128807
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49732):
ACATAAGACAACTGTTTTTCTTCCAGCAGAAAACCAATTTGGCAAACACTTATTTTTCTTTCTCTATCACACAAAGAAAGTCAATTCTCTAAGAAAAAGG
R
TAGAAAAAGAAAAGAAAAGAAAACTTTTAAATAATATCCCATATATGTTTTGAGAATTTTATACATCAATACATTAAAACATAGGCAGGAAAATTTCAAA
Celera SNP ID:            hCV26763186
SNP Position Genomic:     424920
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49733):
GATGTTGCTGGCGGTCCCTACTGAAAAGGATGCATGCATGAAGACTCAAGGCAACAGTGACTTGCACCCATTTCTAACAATGACTTGCACCCATTTCTCC
Y
GTATGGGGGTGCTTGATAAGCACTGAGTGGTGTAATTTACAACAGCTTATTGGCTTGATGCCATCCTATGAATCCACCAACCATCATCTTCTCTGACCCT
Celera SNP ID:            hCV183568
SNP Position Genomic:     493240
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49734):
TCGCAGCTCCAAGGTCAGACCACCTGGGCCCACGTCCTGACTCTACGATTTGCGTAGCTGTTGGTTTGTGCCTCAGAGTCCTCATCTGTAAGTGGGGATA
Y
TATACCTACTATAATAAATTAGTAATGCCACGGTAACAAAGTATTGCAAACATGGAGGCTAGAAATTTATTCTCCCACAGTTCTGGAGGACAGAAGTCCA
Celera SNP ID:            hCV3282373
SNP Position Genomic:     1128320
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49735):
TTGGTTGAGTGGCAGCCAGTGCGGCCATCCACAGGCTTTCCCAAGTGCATCGCTGCAGCCATAGTTAGCTCCCCAGCAGCTGCTCGGGGCTTTCACATAG
R
TGGAATATAGTGTTGTCAGAGGTAAATTTCCAGCTAGTATATAGGATAGAACAAGATAATGTAATAAAATGTACATTTTCTAGGCTCTCTGATATGCTTC
Celera SNP ID:            hCV26763187
SNP Position Genomic:     423334
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49736):
GTAATGATTCTTAGATGGTGATTCAGATGATTAGTTATTGGACCTTCGATGCATTTTTTATTTTAATTTTGAGATTGGCCGTCCCCAACGCCTCTGATGT
R
TGACTTTCATTACTGGAGATGTTGTTTCTGATGTTGCTGGCGGTCCCTACTGAAAAGGATGCATGCATGAAGACTCAAGGCAACAGTGACTTGCACCCAT
Celera SNP ID:            hCV183569
SNP Position Genomic:     493110
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49737):
TAGCTGGGAAGCAGCAGTTTTGAGTGTGGGTTCAGGGTCGCAGCTCCAAGGTCAGACCACCTGGGCCCACGTCCTGACTCTACGATTTGCGTAGCTGTTG
S
TTTGTGCCTCAGAGTCCTCATCTGTAAGTGGGGATATTATACCTACTATAATAAATTAGTAATGCCACGGTAACAAAGTATTGCAAACATGGAGGCTAGA
Celera SNP ID:            hCV3282374
SNP Position Genomic:     1128283
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49738):
TGAAAGCCACGTATGTCATTTAAAGTTTTCTTATAGTCATGTTAAAAAACGAAACCAGTGAAATTAACTTTAATAATTTATATAATAACTGTATATATGA
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTATAACAGATATATCTAACATATTATCATTTCAACAAGTAATCAAGGCCAGGCACAATGGCT
Celera SNP ID:            hCV26763188
SNP Position Genomic:     421968
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,13)   total(G,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49739):
GAAGCAGCAGAGGGTGACAGCAGGCCTTGGCACCAGAGATCCAGCCTGCGAATCCCAACCATGCCCCATATTAGCCAATGATCTTGGCAAAGTTCACATA
W
CTCTAGGCCTCTCAGTTCCTCATCTGTAAAAGGGGAGGAATAATATTATCAACCTCCCAGGGCTGGTGTGAGGGCTGAAGGCATAGATGCTGGAAGCTCC
Celera SNP ID:            hCV3282375
SNP Position Genomic:     1127261
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,2)      total(A,2|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49740):
ATGAAAGCCACGTATGTCATTTAAAGTTTTCTTATAGTCATGTTAAAAAACGAAACCAGTGAAATTAACTTTAATAATTTATATAATAACTGTATATATG
A
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTATAACAGATATATCTAACATATTATCATTTCAACAAGTAATCAAGGCCAGGCACAATGGC
Celera SNP ID:            hCV26763189
SNP Position Genomic:     421967
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,13)   total(A,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49741):
ACCCACTTCATCAGGTTGTCATGAGTCACAAAAATAAATGTAGTGATGCTCTTAAAGGGTTTAGCACCAAGCTGGGCCCAAGGAAGCATTCTGTGTGTCT
R
TTGACCAACTTTTACCTATCCTGACACCAAGGAGCTTAGAGTTTAGTGGAGATGGCAGAGCCGTCAGGGCCCGTGTTAGGCTCCCAAAGGCATTTTTACC
Celera SNP ID:            hCV3282378
SNP Position Genomic:     1126396
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49742):
TTGAGGTCAGAGTGGTCATCGGGATCCAAGCCTGCTGGATCTTCCTGGCCTTAGGAAACCCAGAGGCTTCATCCTTTGGCAAGGGGAAGCCTATATACCC
Y
GTAGGCTTAATGACGGGGAGAAGAATGTTTGTAAAAGATCTCGCTGGCTGCTGAAGAGAGAACATCTGGAGTTAACTCTCCAATTTCAGACTCCCCTGAT
Celera SNP ID:            hCV183570
SNP Position Genomic:     492794
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49743):
AATATATAGCTTGAAAATTATTGTACGGATCCAAGAATTGGGCCTAGAATTCAATAATAGGCTGTTACATCTTGACACATGCCTAAATTGTTATGTTTAT
R
TGGCTCTTAGCTCCAGGATACTATTCATATATAGATAAAAAGACATCCTTCAATTCATTAATTTAAATAGATAACAGATTACTTTAAGGATCAGAATCTA
Celera SNP ID:            hCV26763190
SNP Position Genomic:     421614
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49744):
ACATCCAGGGCTCCTTGCAGGTAACACATCTGTTTGAGATAACTTGGGTTCAAGGAGGACATTAGGTTCTGTCTGTCTTATGTGGAAAATGGGTCTTTAA
Y
TTATTATGTTGGCTAAGATTCCTTTTGTTATTGTTGTTGCAAATGACAGAAATCCAACTCAAAAAATGTAGATGAGGGGCAGCGGGAATTAATTGATTCA
Celera SNP ID:            hCV25473050
SNP Position Genomic:     410776
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,26)   caucasian(C,11|T,29)   total(C,21|T,55)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49745):
TTTTCTTAAGTATAACATTGCTCAGTAACTATGTGGGTGAAGATCTGAAAGTTCTGCAGCACTGTTTCATTTATAAAAATAAAGGTAACGGTACTTTTGC
S
CAAGATTTGTGTGGAATCTAAAAACTTCCCCAAGTTAGTAAGGAAGGCACTGTGATAGTATCTACTAATGAAAATGTGAGCACAGAGATGGTTATAAAAT
Celera SNP ID:            hCV26763191
SNP Position Genomic:     471419
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49746):
GATGAACTTCACAATTCCCCTTCAGCATCTGTGAAGCTGTGAGTTAAGGATAGATGGCAACCTAAAAACGAATGTACGGCACGTCAGTCATGTTTCAGAG
S
AAACTGGATATTGGTGAATTCATACCAGTGTGGAAATCCATTGACACCACAAAGGCAAGCTTTTCTCTTACTTAGCCATGACCAATGGTCACAGCATCTC
Celera SNP ID:            hCV26763192
SNP Position Genomic:     412886
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,11)      total(G,2|C,11) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49747):
GAGCAGAGACAGTACAACTGGCAATGTGAGAGTTACCTTCCCGCCAGTGCTGTCTGTGTGATCTTGAGAGCATCATATAGCTTCTTTATCTGTAGAATAG
M
GAGGTTAAACAGCCTGCAGTGGCAAATAAGTGGCTCATGTGCCACCCTACTGTCACCGTGCTCGTGGCAGATATTGCTAATAACCCCTGGCTTAGCCTGA
Celera SNP ID:            hCV26763193
SNP Position Genomic:     412591
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,8)      total(A,8|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49748):
ACAGCTGGGAGCAGAGACAGTACAACTGGCAATGTGAGAGTTACCTTCCCGCCAGTGCTGTCTGTGTGATCTTGAGAGCATCATATAGCTTCTTTATCTG
Y
AGAATAGAGAGGTTAAACAGCCTGCAGTGGCAAATAAGTGGCTCATGTGCCACCCTACTGTCACCGTGCTCGTGGCAGATATTGCTAATAACCCCTGGCT
Celera SNP ID:            hCV26763194
SNP Position Genomic:     412583
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49749):
TTCCACAAGCACATGCATGCAGATCCCTGCACTCCCACACATATGCATACACTTTATAAGTGTCACAAACTGCCATTCAGGCTTCCCGATTGTGCCATTC
R
GAGACTTTTTGCTACTACTGACTCCTGCCTTCTTCACCAGGAGCTCAGGGACTCCACCTTCGTGAGAAAAGGAGGGCAAGACACACAGCAGGATTCCAGC
Celera SNP ID:            hCV26763195
SNP Position Genomic:     412197
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49750):
TTTTGTTTTGTTTCCCATTGACCTTCAGTGACTTCAGTATATCTATGTGTGTATATGTATATATGTATATGTAATTGTTTACGGTTCTGTATATATATAC
R
GTGTATATGTATGTCTATATGTATACATTTGCATTTAACAGGTCATAGGTATCTCAGAGATAAGCTGCCCAACCTACTCATGGTCCTTCTGTTGTTTTGT
Celera SNP ID:            hCV26763196
SNP Position Genomic:     411793
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49751):
TGTATCCTTCAGCAGGAATATAAAAATACCCTGTATCTCCTCTCCTTTCGTAGTTTTTATTTTCTACGTTTCTCATAGTCTTTCCTATCCTACTATATAT
R
TGTGTGTGTGTATATATATATATATATGTGTGTGTGTGTGTATATATATGTGTGTATATATATGCCATATATAGAGATAGATCCATCTTCCATCTATTAC
Celera SNP ID:            hCV3282383
SNP Position Genomic:     1123714
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49752):
TCTTTGCCGCTTTAAAGGGAAAACTGCTATCCCTCTTATTGGCTGTACAATTCTGTTTTCTCTGTTTATTTTGAGTTGTTGGAAATTCAGGTACATCCAG
S
TTTTCCCAAATACACCTATTATTACCCCAAAGAGTAGGAAGCCGATCTTATCTAGATTCACTCAGCAAATCTAGAATCTCCCAAGAGACTCCAAATTTAG
Celera SNP ID:            hCV26763197
SNP Position Genomic:     471209
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,6)   total(G,6|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49753):
TACCTGGTTTCCCCAGGATGTTGCCCCATGTGCCTTTTTTCTGTGCTGTTTTCCCTGCGTATTTTCCCTGTGATAAGTTTTAACCATTGAATATGACAAT
R
TGCTGTGTTCTGTGGGCCTTCCTGGCAAATCACTGAACCTGGGAGTGGTCTTCGGGACCCCCAGCACACAAACCCACCTAACTAAGCCCCCTTTGACAGC
Celera SNP ID:            hCV3282384
SNP Position Genomic:     1121729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49754):
TCAGAGGAAAGGAAATGGATGGTGGATAGGCAAGAAAATGTGGCCCACTAGAATTCTATATGGTGCTGCATATTGTGCTGTATACATATATGGTGCATGC
R
TATGTGTACATATGTGTACATGTATACATTACATGCACATATACCATATGTGTGTATATGGTGCTGTAGGTATATACATGCGCATGTATACACCATATAC
Celera SNP ID:            hCV26763198
SNP Position Genomic:     409529
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49755):
TGTGGGGAGGGCTCCCACTCTCTTAGCTGATAAGAGTGACTCACTGCACCTAAACTGCTTGCGCGAACAAATGTGGTTTATGCTGAATATCTGTTTTCCC
Y
CTGGGAGTCAAGAATTTTGCTAATGCCATGTGGAGGGTGTCTACGTGACCAGCCCCCCAAAAAAAACCCTGAATGTTGAGTCTTCGGTGAGCTTCCCTGA
Celera SNP ID:            hCV3282385
SNP Position Genomic:     1121437
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49756):
TGCTAGGATCTATGTAGCTGTTGTTACCAAAAGATGTACACAAGAAAGTTCCTAGCAACAATATTTGGAGCCCCAAAGTGGAAATAGTCCAGATACCAGT
Y
GAGAGTAGGATAGATAAAGAGACTCAATACAGCCACATAATGGAATACTCTATGATGATTAAGATAAAGATAAATATAGTAACCTGGATACTATACAGTG
Celera SNP ID:            hCV26763199
SNP Position Genomic:     407852
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49757):
ATGTGGGGAGGGCTCCCACTCTCTTAGCTGATAAGAGTGACTCACTGCACCTAAACTGCTTGCGCGAACAAATGTGGTTTATGCTGAATATCTGTTTTCC
Y
CCTGGGAGTCAAGAATTTTGCTAATGCCATGTGGAGGGTGTCTACGTGACCAGCCCCCCAAAAAAAACCCTGAATGTTGAGTCTTCGGTGAGCTTCCCTG
Celera SNP ID:            hCV3282386
SNP Position Genomic:     1121436
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49758):
AATCGCTTGAACCCAGGAGGCGGAGGTTGCGGTGAGCCCAGATTGCACCACTGCACTCCAGCCTTGGCAACAAAGGGAGACTCCGTCTGAAAACAAAAAG
K
GGGGGTTTAGGAGAAATAGGAATTTAGTGATTTCTAAAGATAAGTAGAATTTGTTCTTATTCACCATTTCCTTGTCCTGATCATGGACTATGCAAAAAAG
Celera SNP ID:            hCV3282387
SNP Position Genomic:     1121153
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49759):
TGTCTTCCCAACACCAAGCTCGGTGCCTGGCATGAAACAGACACCCAGCAAATGTTTATTCCAAATGAGCGAGTGAACAGTACGTCACATTAAAAACGTG
Y
GTGTTTATGTATACATCGATACATAGGCTGGAAGCCTCTAGGCAAAAATGTTAATAGTGCTTATCTCTGGAAGTGGATTAGGGTGATTTTAATTTTTTTC
Celera SNP ID:            hCV3282388
SNP Position Genomic:     1120574
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49760):
TCTCACGGGCTGACCCCACAAGCCTGTGAGCCGTAAGCGGTGTGATTCGCTAACAGTTGAATGGCACTGGCTATGTGTGTATGTGTATGTGTGTGCGTGT
R
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTGAAGATACATTTAGTTTGAGTCCCTATGAAGCGAGGAGAAAAGGTCTTGACGAACAACAGTT
Celera SNP ID:            hCV2391477
SNP Position Genomic:     1110549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49761):
ATAACCATTTGTGTAATTACTAATTTATATCCTGTCTCCCTGCTGGAGTGTAAGTTCCAAAAACTGGAGGGAATACACTGCTGTCTTCCCAACACCAAGC
K
CGGTGCCTGGCATGAAACAGACACCCAGCAAATGTTTATTCCAAATGAGCGAGTGAACAGTACGTCACATTAAAAACGTGTGTGTTTATGTATACATCGA
Celera SNP ID:            hCV3282389
SNP Position Genomic:     1120493
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49762):
ATGGCCTCAGGGAGCTAGCTTCCAAGCATGGCAGAAGGCAAAGTGGGAGCAGGTGTCTTACAGGGCAGGAGCAGGACCAAGAGAGAGATGGGGGAGGTGC
Y
ATACAGTTTCAAACAACCAGATCTCCTGAGAACTCTATCACGAGAATAGCACTAGGAGGGTGGTGCTAAACCACTAATGAGGAAACCCCCCGCCATGATC
Celera SNP ID:            hCV63702
SNP Position Genomic:     576809
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49763):
ACACTATGTCTTCAATAATATACTTATCCTGCTGTTGACCCCGTCAGGGTTCCCACTTCTTATGTCAGTGGTAGAACTTTTGAGGGAGACAGAGAATTAC
S
CATTTCATTAGGTTTTGCAAATGTATTGTACAATTGTGCATAACATTTTCTATTTAAAAATCTCATATCTATTGTTATAGCCCTATCTCATATCTCATTT
Celera SNP ID:            hCV7624457
SNP Position Genomic:     1163545
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49764):
GTGGTGAGGAGGTTTTCAGAGAAGATGTGTGCAGTCCCTGGCAAGTAGCTGGTGCCCAGGAAATGTCAGTTCCATTGTTTGCCAGGGAAGGCTCGGTGCA
Y
GTGGGGCTCACACACAAAGGAAGAGGTTAGAGAGTCCGCAGAAAAGGGTGGGAGCTCAAAACAGTGGTTCTTAGGCGTTTGTCTGCAGGCACGCTGGTAA
Celera SNP ID:            hCV3282390
SNP Position Genomic:     1119243
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49765):
TCAGGGCCATCTCCTGTAACAGCCATTTCTATAGCCGAAACAATAAGGGATAAATTAGGCTGGTCAATTTGTCCTTTCCCTTTCTTGGGTAAAAAGAAAA
Y
GACTTAACTAAATCTTTTTTCTTTAGGATGAAAAGAGATTTTAAAAAACATTCTAGTAGCAAATAACTGTCCTAAAGTAGGTAAAATGGGAATTGATTTT
Celera SNP ID:            hCV63703
SNP Position Genomic:     575929
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49766):
ATTTTTACAACATCCCACGGCAGTACATGCCAAACTTCACCTTGTGCTCAGCTTATGCCCCGCATTTATAAAGAGATTGTCTTTCCTAACCATTCGAGGG
Y
TTTGTCCATTTCCCAAAGGACCTCTCCCCAGTCCTTTGCCAGTCAAATCACTCTTTCGAAGCAGTTGTAAATCCACTGTCCTTTCTCTTCTTCAATCATT
Celera SNP ID:            hCV3282391
SNP Position Genomic:     1117498
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49767):
CACCTCCCATTCAGGGCCATCTCCTGTAACAGCCATTTCTATAGCCGAAACAATAAGGGATAAATTAGGCTGGTCAATTTGTCCTTTCCCTTTCTTGGGT
R
AAAAGAAAACGACTTAACTAAATCTTTTTTCTTTAGGATGAAAAGAGATTTTAAAAAACATTCTAGTAGCAAATAACTGTCCTAAAGTAGGTAAAATGGG
Celera SNP ID:            hCV63704
SNP Position Genomic:     575919
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49768):
TGAACACAGATGAACCAAGAATTGCTTTGCTTTTGACATAATTTTTACAACATCCCACGGCAGTACATGCCAAACTTCACCTTGTGCTCAGCTTATGCCC
Y
GCATTTATAAAGAGATTGTCTTTCCTAACCATTCGAGGGTTTTGTCCATTTCCCAAAGGACCTCTCCCCAGTCCTTTGCCAGTCAAATCACTCTTTCGAA
Celera SNP ID:            hCV3282392
SNP Position Genomic:     1117458
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49769):
GGAAGGAACAATTTCTGTGGTTATTCAAAAAAAAAAAAAACATAAGCGTCAGTTCTGTGGGACAATTTGATCACTTTATTTTGGAGAAAAAAATGATGAA
Y
AGAAGTTTGTTTATAAGTTTAACCCCAATAATAGGCTAGTCTCACAGTGAACACAGATGAACCAAGAATTGCTTTGCTTTTGACATAATTTTTACAACAT
Celera SNP ID:            hCV3282393
SNP Position Genomic:     1117310
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49770):
CTGAAGAGTGATAATGAACCAGCCAAGGGGAGAGGTGAGGGGGAGAAACCAACAGCTAATGCAAAGGCTGGGACGATGGGAGAGCCTGGCTAGCTTTGGA
S
TGGGGAACAGGGTGAGTTGATGGTGGGAGGTGAGCAGGGATCAGTCCCCAAAGCCACAAAGGTTTTGAAGCCTGAAAGGGACATGACGTACATTTTTTAA
Celera SNP ID:            hCV3282397
SNP Position Genomic:     1114623
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49771):
TGTTACTGTAAAGCTTGCCTTCTGTAAAATGTCTTAAGCATAAGAGCTGTAAAGGAAAATACTCATGGATTATATTGTGATTTGAAATCAGGATGTAATA
M
GATAGTGACAGCTTAAAGATTCTTCTAAAACTAGATATGAAATTTGAATGTGGCACCTGTCTATAATTTGTAAAGCACTTTGGCTTTTTCTCAGCTACAT
Celera SNP ID:            hCV73186
SNP Position Genomic:     444580
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49772):
GATAGTGACAGCTTAAAGATTCTTCTAAAACTAGATATGAAATTTGAATGTGGCACCTGTCTATAATTTGTAAAGCACTTTGGCTTTTTCTCAGCTACAT
R
GTGATGATGAGTTCTTCTCAACAAGTGACTAAGCTCTAGGGGAATCAGTTTCTCAATTTGCATGAGATACGGGAGCTTCCTAAGACATGAGACTTTCAGT
Celera SNP ID:            hCV73187
SNP Position Genomic:     444681
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49773):
CTAAGTTCTTTGAGAAATCTCCAAACTGCTTTGGACAGGGGCTGAACTGATTTACATTCGCACCAACAGTGTATAAGAGTTCCCTTTTCTCTGTAACCTG
R
GCAGCATCTGTTATTTTTTTGACTTTTTAATAATAGCTATTCTGACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGAGGATTAG
Celera SNP ID:            hCV3282399
SNP Position Genomic:     1113538
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49774):
TCAACAAGTGACTAAGCTCTAGGGGAATCAGTTTCTCAATTTGCATGAGATACGGGAGCTTCCTAAGACATGAGACTTTCAGTTTTAAAACCAGGATAGT
S
TTGAGAGAGCTGCCCTTGTTTTTCGGAGACATGCAGGCTTCCCAAGATGTGAGACTTTCAGTGCTAATCCCAGGAAAAGTCCTAAACAAAAGGCAACGAG
Celera SNP ID:            hCV73188
SNP Position Genomic:     444799
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49775):
CCTGAATACCAATTTCTTAATTTGCAAAGAGAAATGATGTGACAAGGACCAGGAAACTCAAAGTCCATATGGTCAGCATTTTCTGTCTCTGTATAAAGCC
W
ATCTATTAATTTAAAGAACAGAATGATTATCACATGCATTGAAATACACAAAGTCCAAACGATCAGCAAATTCTCGCCCGGTGTGAAGTCAGTCTTTTAA
Celera SNP ID:            hCV73189
SNP Position Genomic:     445115
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49776):
CATCTTCCAGTGCATTCAGGCACTATTCTTGGTTTATTTGTTAAAATAACTGTTGCACTGGGCCAATCCATTACATTTATCTTTAATAACCAACTCTAGG
S
GTTTGTTCGGTCATCACTTTCCCTGTCAAGGGGCACAAATATCTTCTCTCATCCGTTTCCTAGGGGGAAGTATCTTCTTTTCTTGTCTTGATAAGACAGT
Celera SNP ID:            hCV27915016
SNP Position Genomic:     810309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49777):
ATCTTCTCTCATCCGTTTCCTAGGGGGAAGTATCTTCTTTTCTTGTCTTGATAAGACAGTTACCAAAGGAAGAAAGAGGAAAGCCTTATCCTTTGAAAGA
Y
GGCATTAATTCATGTGCATTTGGCAGTGGGAGAGGATATTGCAGTCTGGGGTCAGCTATGACTTAAGACTTTCTATAAGACTGGATCTGAACAAGCCATA
Celera SNP ID:            hCV27915017
SNP Position Genomic:     810450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49778):
ATGAGTTAACACACATAACGCTTAGGATGGTGGTGGACGTACAAAACACTCAATAAGAATTTGCTTTTGTTATTATTACTTGTTCACATCCATGCAGCAT
K
TGTGCCTGCATGCTCACACACTCTAGTCTTACGCAGCTTATTCACCAACATTGGTTCGGGATGACATTTGACTGTTTTCAAAAGTCAAATCCACTTTTCA
Celera SNP ID:            hCV15848132
SNP Position Genomic:     271347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49779):
TTACTTTCTGATACCATAAATCTGATCTGTGAATAGAAGAGATGGGAGGTACAGGAGATCCAGGGTTTTCACCAGAGATTCCAGGAGCCACCTTGACTTA
M
AGCAGAACAACCAAAGGCAAAGCCAAGGAGAGTGTTTTCAAAGGGCTCAGTGATCAGGAGAGTGAAGCACACAGCATGCATTAAGAAATCAGAAATTCAG
Celera SNP ID:            hCV27915018
SNP Position Genomic:     586463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49780):
AGATGCCCAAGGGGGCCATGTTGGGGCAACTGTCCTTTCTCCACTTGCCCATCTATTCCTAGGAAGCAGATGTGCCCAGAGCTTGGGCTGTAGAGGCAGA
M
TGAACAGATCAGAGAAGGTTCTCGCTCTAGGCCTTTCTGGATATGGGACCACGAGCTAGTCAGTCAATCTCTCTGAGACTCAGTCTCTTCTCCTGTAAAA
Celera SNP ID:            hCV425900
SNP Position Genomic:     404743
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49781):
TTCACCAGAGATTCCAGGAGCCACCTTGACTTACAGCAGAACAACCAAAGGCAAAGCCAAGGAGAGTGTTTTCAAAGGGCTCAGTGATCAGGAGAGTGAA
R
CACACAGCATGCATTAAGAAATCAGAAATTCAGAAAGAGACACTTACAAATACCTAGTTATTCACTGGGACAATAAGGGATGTAAAATTATGGTACTGAT
Celera SNP ID:            hCV27915019
SNP Position Genomic:     586530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49782):
CTGTTAGCTATTTGATTTAGAAAGTATTGAGTGCCGGTGATGTGCCAGGTCCTGAAACTGCAGTTGTTCTCAGTGTGACCTCACTTGGTACCTCTGATGA
Y
CCCAAAGGGGTTTGTGAGATGCCCAAGGGGGCCATGTTGGGGCAACTGTCCTTTCTCCACTTGCCCATCTATTCCTAGGAAGCAGATGTGCCCAGAGCTT
Celera SNP ID:            hCV425901
SNP Position Genomic:     404626
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49783):
GACTTGGGATGAGTCTTTTACATCTTTTAACTTCAGGAAAACAGCCATGGTGGTTCTGCCAGCAAGTCGTTGAATGGATTAAGTGAGATAATCGTACAAT
R
TGTTTAGCACTGTGCCTGGCATGTAATAAATACTCAATAAATGGCAGTATTTTCTATGGCAGACTTGGTGAATCCAGGACTAGGATCCCAGGCAAATCTT
Celera SNP ID:            hCV96056
SNP Position Genomic:     494167
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49784):
GTTTACACATGCCATAAGGATTATAGTACCTTTCAGGAGGATGCCCACTCTATGGATAAAGATGTCGAGGATTAAAGAATATAGGTGGTATATTAGTCCA
Y
TCTCATGCTACTAATAAAGACATACCTGGGACAGGGTAATTTATAAAGAAAAGAGGTGTAATTGACTCACAGTTCAGCATGGCTGGGGAGGCCTCAGGAA
Celera SNP ID:            hCV425902
SNP Position Genomic:     403726
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49785):
TGAGCAGGGCTCTGTAATTTCACTCCTTTAATATCGTTTTTCCTTCACAACTGTTCACATGAAGTACGTAGGGCTTCACCAAAACAAGTGAAGGGATTCA
R
CAATGGGCAAGCCTGAATCAGAATCATCAGCCCCACCCCTTTAACCCTAGCAGTGATGCCTGTAGTAACCATTTCCATGGCAACAGCCTGAGACTAGCAA
Celera SNP ID:            hCV425903
SNP Position Genomic:     403338
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49786):
CCAGGTGGGGTGTTTTCACTACCCCCCGACTCCACCCCGCCCTCCCAGGGTGTTCTAAGATTATCTCAAAGAATGATGTTATGCAATTTATTCCAATAAA
W
CTCCATGTACAGTATCTTATATGTGTATATTTTTTGCCTTCCAGAAGTTATTTCAAATCCGTGAGAAACTATGTAGGGAAGTCATTCATAGGTTCAGAAG
Celera SNP ID:            hCV425904
SNP Position Genomic:     401815
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,7)   total(A,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49787):
GATCTGTGCATATCTGTCTGGGGGAGGGCTACAACTTCCAGGGTGACTGATTCAGAGCCTGTAATTCTGATTCATATGCATCCTTGCACACATGTACAAG
Y
GGAATCTGACCATCCACTCTGAAAGGGCCCCACAACTTATGTGCAGACACATTTGCAAAGCCTCTACAAATACATGCAAACTCTAGGACAATTTACCCAT
Celera SNP ID:            hCV425905
SNP Position Genomic:     401154
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49788):
ACATATGGCACATAATTTTATGTGCTTGACTTTTATGACTGAAAGTGCTATAGGTTTGTTTACACCAGCATCACCACAAACACATGAGTAATGCATTGCA
Y
TCTGACGTTATGACAGCTACCTCACTAGGCAATAGGACTTTTTCAGCTCCGTTATCATCTTACGGGATTGCTATCATATATGTGTTCCTCTGTAGATCAG
Celera SNP ID:            hCV425906
SNP Position Genomic:     398459
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49789):
ATAGCCTATTACACACCTAGGTGATCTCTTACAACCTATGGCTCCTCGGCTACTAACATATATAGCACGGTGCTGTACTGAGTGCTATAGGCAATTGTAA
Y
ACAATGGCAAGTGGTTGTGTATCTAAACATATCTAAACACAGAAAAGGTATAATAAAAATATAGTCTAAAAGGTAAAATTGGCACACCTGTATAGGGCAC
Celera SNP ID:            hCV425907
SNP Position Genomic:     397250
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49790):
GTTCCCTCAACAAAGAATTATCTCATTTTGTGCTTGACTCTCAAGCATTCATGTAGGTGAAAAACTTCTTTAGAATTCTCTGAGCCAAGAACCTAGCTCT
W
TGTATAAACATTTTTTGTATGATTTTAATCTGCACTGAATATATTCGTTTCAGTCTCATATTCATCTGGAGACCCCTCCAGAGCTTGAGGTCTTGAGAAG
Celera SNP ID:            hCV7623803
SNP Position Genomic:     783223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49791):
ACATCATTCAATGCTGGAATTGCTTCCACAATATTCCTGATGAAGTCATATAGGTTCCACTTGAAAGTACCCAGTGACAAGCACATTATTTCACCCAGAA
R
GAACTAGATCTTCCAAATGGTAACCTGAATTGCTTTAGGCCCCTCCAGTATGGTCATGCATTGTTTAACCATAGGGATATGCTCTGAGAATGCACCACTG
Celera SNP ID:            hCV425908
SNP Position Genomic:     396993
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49792):
ATGACCTTATTTTGAATTATGGTGGTACTTTAAATTTTATGTCCCTGAAGGGTTAAGCTCTATGTTGGCTTTACCTGAACTCTCTCATCCTCACCCACCA
S
CAAGATGAAGGTAGGGTGGCCACTGACAGGTGACGTTCGTGAGGTGCATGGCTTTTCTGAAGATAAGCAGTAATTGAAGGAGGAGAATCAGATTTAAAGC
Celera SNP ID:            hCV7623804
SNP Position Genomic:     777985
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49793):
TCATCTGTGATATGGGTGCATGGAGGAGGTTAAATAACAGCTCCAATCTTAAAGCCTCCTTAGCGCCGTGCCTCACGAGCTGTAAGTACTAAATGAATGC
Y
GGCTATTATATATAACTTATATTGTATATTATTTATGATTGTTCCTAAAATTATCACTAATAAGTGCTTCACAGCAATGAGCTAAGATTCTGAGTGCTAT
Celera SNP ID:            hCV7623805
SNP Position Genomic:     773705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49794):
TATAAAAATATTGAATATCTGTTTCAAACACAGACATTTTCTCTTCTGCTTCCTCTCTGATATTTTCTATACTGTACACCCTGTGTTGTATATCCTAACC
W
GTCTGCTACATACACTATTTAGTATAACTCCAATATTCTATCTTTAAAATTTTCATATATTTAGGGGGCACAACTGCAGGTTTTTACATACATACATTGC
Celera SNP ID:            hCV7624462
SNP Position Genomic:     1162569
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,8)      total(A,1|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49795):
TAACACCCCCGATTATTGTGACACTCAAAAATCGCCCCCTCGCACTTCGAAAGCACACCCCTATAGACACTGATCTTCTGTTAACCCTGCCTTGAATGAC
W
TCGGTAGCCTGAATTCCCATCCTGGCCCCACTGCCTCATAGCTTCGTGGCCCTGGGCAAGCCCACAACCCCCAAACCTCAGTTTCCTCATCTGTGATATG
Celera SNP ID:            hCV7623807
SNP Position Genomic:     773518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49796):
TCAGCAGCAGCAGAAGAGTTGGCCCTTAAATCTACGAAGAACATTGCCCTGTGCATCTGCATGCAGACAGGGTCTGATAACATCAAAGCTGGGAGTCTCT
S
CAACGCTTTAACTAATGGGATCTGAGCTCGGCTGTTTATTTATAGTCATTCAGTGATAAGAAAGTCAACTTGGTTGGAAGGAGCTTCTGTCCTAGGCTTG
Celera SNP ID:            hCV7623808
SNP Position Genomic:     771289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49797):
GTTGTATTTGAAATGGTGCTGAATTCAGAATCCCATGGAAATCTTCACTATGACAAGAATTAACCAGCCCAGAGCCACATGGAGAAAAGATGTGTGGCCA
Y
GATCTCTTGACCGAATCCAGCATCAGAATCCACCAGACAAAACCAGCATCAGGACATTGGCCACAAAGGGATAGGCGTCCCAGGATGCTGGAATGTTGGG
Celera SNP ID:            hCV7623809
SNP Position Genomic:     767615
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,11)      total(C,11|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49798):
GTGTTTTCACCATGTCCTCCTGAGGCCACCCCAGAAGTGGGAGTTCCGTGGAGATGTGCTTTGATCTGCAAATTGACTGTCAATTCTGGAGAAGAGATCA
Y
TGGGGCACGTAGATGACCTTGCCTTGTAGGGAATGTGTGGTGAGGGGGAGGTGAGAGGTTATTTTGCATTTCAAAAAGGGCTAGGTAGGAAGCAGGCTGA
Celera SNP ID:            hCV7624468
SNP Position Genomic:     1151876
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49799):
GGGGGAGAAACCAACAGCTAATGCAAAGGCTGGGACGATGGGAGAGCCTGGCTAGCTTTGGACTGGGGAACAGGGTGAGTTGATGGTGGGAGGTGAGCAG
K
GATCAGTCCCCAAAGCCACAAAGGTTTTGAAGCCTGAAAGGGACATGACGTACATTTTTTAAATCTCACTCTCCTGTTCTGTGAGCAACAGAATAGAGGA
Celera SNP ID:            hCV2391490
SNP Position Genomic:     1114661
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49800):
GAAGTCTTTGCTTCAGCAATTTTTCCTGCCTCTAGGATGAGTACTGCAAAGTTGCCTCCAGGAGGCATCTTATTTTCCAAGCTGCCATGGATGACTGACC
K
TTTTAAGCGTCCTTCATTCTTCAGATGTGCTAATACCATCAATTAGGTAGTAGAGTTTCACTTCCCTAGGAGCCATTTTGTCTTTGCTACATTTATCTTT
Celera SNP ID:            hCV73190
SNP Position Genomic:     445534
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49801):
AAAAATATGCCCCACAGCTCTGCAAGAAGAATTCAGCAGGCAGTTGGCATAAAAAGGTTGGGAATGGTTTACATCTTTGAGCTTCAGTATTTTAAGTCTG
S
AAGTTCATGGAGTGCAAGGGCTGTGGACACCCTGCTTGCCAATTTTTCTGCCTTAACCGTTCCCTGCCCCCTTGTTGTTCAATTTCTGGCCAATGTCTAC
Celera SNP ID:            hCV73191
SNP Position Genomic:     447250
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49802):
CAAACATGACTAATATAATCCAAGTTTTCTCAGGAAGGAAAGCGCTAGTGTGACTGGACAATGCTGAGACGCCCAAGAAGATGATTGACCTTCAATTACA
Y
TGAAGGGAATGACTGAACTATTTATCTGTGAGGGATTGTAAATCAGGAGCCAAGGGAAAGCCTTGGAAATTCAAATGTAAAAACCTAGTTCAGCAAAGGA
Celera SNP ID:            hCV73192
SNP Position Genomic:     449172
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49803):
CATGATCCCCCTTTCTCGGATAAGGAGACTGGGAATCAAGGAGGTTAAATAGTCTGCCCAGAGATGCTCCCCTTCCTATTAAGAGCCCAGTTGTAAACCT
R
TGCTCCTGACTACCATGTAGCTCTTCCCTGAGAGCTCCTCCAAGCCTTGGTTAAAGGGCCAGACCCTTTGCTCTCTGAGCAGGAGGAGAGCAACGTCTGC
Celera SNP ID:            hCV73194
SNP Position Genomic:     449897
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49804):
CCAAGCCTTGGTTAAAGGGCCAGACCCTTTGCTCTCTGAGCAGGAGGAGAGCAACGTCTGCCCTCACTGACCCATTAATAGACACCTGTCAGTGAGGAAG
R
GAGGCTTGTTCACTTCAGGGAGCTGTGGTCGCTTCCCCTGTGCCACTGGAAAACTAATAATTCATGAAGTTGGCTTTCAGGTACGAGCAAGCTGGACTGA
Celera SNP ID:            hCV73195
SNP Position Genomic:     450037
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49805):
CACTTCAGGGAGCTGTGGTCGCTTCCCCTGTGCCACTGGAAAACTAATAATTCATGAAGTTGGCTTTCAGGTACGAGCAAGCTGGACTGAATAGTTGTTT
S
AAGTCATAAACATAGAAAAGTAAGTTGATAGGAGAAGACTATGTGGAGAAAATTTAACCATGTTAAATATTTGAATAAACATTTAAAAATACATAGCATA
Celera SNP ID:            hCV73196
SNP Position Genomic:     450148
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49806):
GGAGAAGACTATGTGGAGAAAATTTAACCATGTTAAATATTTGAATAAACATTTAAAAATACATAGCATATATAGGTGCATATATAATAAATTTGAGACA
R
TAGGCATGACAGAGTTCTGAAATAGTTTATAAGTATGTGAGTTGTAAATATCCCATTTATATTATGCATAGATTATAAGTAAAATACACAGAATTGATTC
Celera SNP ID:            hCV73197
SNP Position Genomic:     450279
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49807):
GTATTTTACTAGAGACGGGGTTTCATTATGTTGGCCAGGATGGTCTCTATCTCCTGACCTTGTGATCCACCCGTCTCGGCATCCCAAAGTGTTAGGATTA
Y
AGGTGTGAGCCACGGTGCCCTGCCAAAGGAAAACATCTTATTCAAAATCATGAGAGAGAAACTGACCATGAGGCTGAGCGAATGTCAGTGTAGGTTGGGA
Celera SNP ID:            hCV27915020
SNP Position Genomic:     587170
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49808):
AATATATAAAATTAATTTAATAGTATATTTTATTTAACCCAGTGCATGCAAATATGATTATTTCAACATTTAGTCAAGTCGAAAATTGTTCCATCTTTTT
K
GTACTTAGTTTCTGAAATTGTGCATGTATTTTACCCTTAAAGCTAATCTCAATTTGGGTGCTAAACCTTCAGTGGAAATCCTTGCTCTGTATTCAGTTTA
Celera SNP ID:            hCV73198
SNP Position Genomic:     450606
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49809):
AACCAGGGGAGGAGGACTTTCGGCAGCTTTTCCCTTCTCTCTCTGTCTGCTTCTTAATATCACAACCATCTTCTCAAAAACAAACACAAGTACTGATTGC
Y
TACGAAGCCCTCTGGCCGTGATTTCTCTGACAATCTCAGAATTCACCTAAGACTTCCCTCTGTACCATCTCATGCTATCTTCATCTTCATCTCATGAAGG
Celera SNP ID:            hCV27915021
SNP Position Genomic:     587527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49810):
TAATTTAATAGTATATTTTATTTAACCCAGTGCATGCAAATATGATTATTTCAACATTTAGTCAAGTCGAAAATTGTTCCATCTTTTTGGTACTTAGTTT
Y
TGAAATTGTGCATGTATTTTACCCTTAAAGCTAATCTCAATTTGGGTGCTAAACCTTCAGTGGAAATCCTTGCTCTGTATTCAGTTTATAAAAGATGCGG
Celera SNP ID:            hCV73199
SNP Position Genomic:     450618
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49811):
AACCATCTTCTCAAAAACAAACACAAGTACTGATTGCTTACGAAGCCCTCTGGCCGTGATTTCTCTGACAATCTCAGAATTCACCTAAGACTTCCCTCTG
Y
ACCATCTCATGCTATCTTCATCTTCATCTCATGAAGGTTCATATTGCAGCTTCTCATGCACATCTCATGTCCCCAGGCCAAGGGGCTGGGCATGAGATCC
Celera SNP ID:            hCV27915022
SNP Position Genomic:     587590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49812):
ACAACCTGCTCGGATCCCCTTCCACACCGTGGAAGCTTTGTTCTTTCGCTCTTCACAGTAAATACTGCTGCTGGCAGAGAGGGGTGAAGCAATAATGACC
R
CAGTGACAGAGAAGAGGTGAGTGTGCTTGGTGACCCCTTCCCACGCAGGGAGCTGTTTCCAGAGCACTTCTCTTCTGGGAGGCCTGTGAATTTTGTTATT
Celera SNP ID:            hCV27915023
SNP Position Genomic:     595474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49813):
CAGTGTCATCCCCTTGGCGACCGAGTTCTTGCTCAGCTATTTCACATGAGATCAGGATGTTTATAAAAGAATGTGACACAGAAACAGAAAACCAAATACC
R
CATGTTCTAACTTATAAGTGGGAGCTAAACAATGAGAACACATGGACACAAGGCGGGCTTTTCAGAGGGTAGAGGGTAGGAGAAGGGAGAGGATCAGGAA
Celera SNP ID:            hCV27915024
SNP Position Genomic:     613315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49814):
GCCTACATGTGAGCACCAAAGGGAACACATTTAGTAAACTCTGCCAAAGGAGCACAGTTCTTGTAAAGCTGATGAGGTTTGTGATTAATCCTTTTTTTTG
K
TTTTTTTTTTTTTTTTTGAGAAGGAGTTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGGAATCTCGGCTCGCCACAATCTCCACCTCCCAGGTTC
Celera SNP ID:            hCV26379772
SNP Position Genomic:     888277
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49815):
CTCCTGTCCTGAAGTGTAAGAGAATAAAGTCACATGGTTAAGTCACTAAGGACATGGCAGTTTGTTACAGCAGCAATAGGAAATGGATGTAACCTTTTTT
R
TATGGTTTGTGGGCTTGAAAGAGATGACGTGTTAAATACAGTAGCTTTTGACCTTGAAAGAGACGATGTGTGAAATACATTAGTTTTGGGGGCTTGAAAG
Celera SNP ID:            hCV26379773
SNP Position Genomic:     885313
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49816):
TTTCATATGCTCATTAGCCATTTGTATAACTTCTTTGGAGAATTGTCTATTCAGGCCCCTTGCCCATTTTTTAATCAGTTTATTTGGATTTTTGTTGGAT
K
AAGTTGGGGAAGTTCTTTATATTTTTCTGGATTTTAACCCCTTATCCGATATATGTCTTGCAAAGATTTTCTCCTATTTAGTAAGTTGCGTTTTCATTCT
Celera SNP ID:            hCV27915025
SNP Position Genomic:     623041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49817):
AACGCGCTCTAATTTTCTTTCTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACCGTGTCACCCAGGCTGGAGTACAGTGGCGCGATCTCAGCTCACTGCA
R
CTTCCATCTCCCAGGTTCAAGTGATTCTCCTGCCTCATCCTCCCGAGTAGCTGGGATTACAGGCAGGTGCCACCACACCTAGCTAATTTTTGTATTTTTG
Celera SNP ID:            hCV26379774
SNP Position Genomic:     499692
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49818):
TTTCTGGATTTTAACCCCTTATCCGATATATGTCTTGCAAAGATTTTCTCCTATTTAGTAAGTTGCGTTTTCATTCTGTTGATTGTTTCCTTTGATGAGC
R
TAAGTTTTTAAGTTTGATGTAGTTTCATTTGCCTAGTTTTGCTTTTGTTGTCTGTGCTTTTTGTGTCATATATAAGAAATCATTGTAAAATCCAATGTCC
Celera SNP ID:            hCV27915026
SNP Position Genomic:     623165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49819):
CCAACAGAATCTTCATAGATGTTAAATATCAGTTTTGTGTAAATACAACGCGCTCTAATTTTCTTTCTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACC
R
TGTCACCCAGGCTGGAGTACAGTGGCGCGATCTCAGCTCACTGCAACTTCCATCTCCCAGGTTCAAGTGATTCTCCTGCCTCATCCTCCCGAGTAGCTGG
Celera SNP ID:            hCV26379775
SNP Position Genomic:     499646
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49820):
CAATGTCCTGAAGCTTTCCCATTATGTTTTCCACTAGCAGTTGTATAGTTGTAGGTCTCACATTTAGGTCTTTAATCCATTTTGAGCTGATTTTTGTATA
Y
GGCATGAGGTAAGGGTCTAACTTCAGTTTTGCTTGTGGATATTCAGTTTTCCAAACACCATTTGGGGCTGCTCATTTCCCATTGTGTAGTCCTGGCACCT
Celera SNP ID:            hCV27915027
SNP Position Genomic:     623358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49821):
TCTGGACACCCGTGAGGACAGAAATATCACCCATTTGTGGGTATGAAAACACAAGAAAGCAATTCATGACACTCTATGCAAGGTTCATTATTGATGACAC
R
GTGTGCTTTGTCATTACTTTGGACACATTTAGACATACATTGTCATCATGAACTGAGGCCTATGTTTGCTCTAGGATGAAGCCCATTCACCAGTCCTTTA
Celera SNP ID:            hCV26379776
SNP Position Genomic:     499301
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49822):
CAACTGCCCAGGTTTCTTAGCGATCAGTCATCTTGATCAAAGTAAGAAGCAGCCAGTGTCCAAGGCAAAATCTGTGTGGTCGTGTTGAGAGAACCAGGCA
Y
ATTCGCCACAAGATACCTGTGCCTTCTGCCATTAAGCAGGTCTGACAACGTGAAAGCTGGCTGAGCTGAGGGAGTTGATGAGCTGTCAACCTCAGGGGCT
Celera SNP ID:            hCV27915028
SNP Position Genomic:     634824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49823):
GGTAGGATGGGGATGGGATTCAGGGAGCTGACCACTCTGGACACCCGTGAGGACAGAAATATCACCCATTTGTGGGTATGAAAACACAAGAAAGCAATTC
R
TGACACTCTATGCAAGGTTCATTATTGATGACACGGTGTGCTTTGTCATTACTTTGGACACATTTAGACATACATTGTCATCATGAACTGAGGCCTATGT
Celera SNP ID:            hCV26379777
SNP Position Genomic:     499266
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49824):
CTGCTCCATCCTCCAGGTTTGAACTACGGCTGGTTGCAAGGAGTGTATTTGTGCTTGCATTAGAAAATTAGGAACGCCTGCAGAAAATGGCTTTCCCACA
S
ATAAAAGACTATTAAGTCTCTTAAATGCTGGAAAATGTCTTCATGAGCATATTCAGTGATTTGGCACTTACTCCACATGAGAACGTCCCTACCATGATGT
Celera SNP ID:            hCV27915029
SNP Position Genomic:     636752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49825):
TGATGAGCTGGTGAGCTGGGAGGACACCAGAGGTAGGATGGGGATGGGATTCAGGGAGCTGACCACTCTGGACACCCGTGAGGACAGAAATATCACCCAT
K
TGTGGGTATGAAAACACAAGAAAGCAATTCATGACACTCTATGCAAGGTTCATTATTGATGACACGGTGTGCTTTGTCATTACTTTGGACACATTTAGAC
Celera SNP ID:            hCV26379778
SNP Position Genomic:     499235
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,2)      total(G,2|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49826):
AGCTGTCCCCCTGCAGTATAGGTAGCTCCTTTTAGCCAGGGGCTGGAGATTTGTTCTCTCTGGGAAAATGTTAAAGCTGTGATTATCTAGTTATACCTGA
R
TAAATGGATCAAAGGACCTCTCCAGCCAAGCACAGACCTCCTTGAAAAGGTAGTCTCCAGCAGCAACCCTGGGGAGGTTTATAGCAAAGTGTTTTTAGAG
Celera SNP ID:            hCV26379779
SNP Position Genomic:     493928
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49827):
CATTACTGCATTGTTTGAAAACCACTACGTTGTAAATTGCATAAATGTGTATCAATGGGTGAATGGCTAATAAAAACTTTAAAAATAAATATAAAACTGC
M
ATTCAAAGGAATGAACGAAATATTATATAAATATATAACCCAATAATTTCTATAAAGATTATATGTGTGTGTATATAGATATATGTATTATATATGTGTG
Celera SNP ID:            hCV7623813
SNP Position Genomic:     761178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49828):
TGAATATAGTGATTCCAGTTCTGTCACAAACTCCTTCAAGAGCAGGAGCTGCAGAAACCACACACACACACACACACACACACACACACACACACACACA
R
CTCACCAGCACCTCTGGCTCTCACCTGAATGAGGGACAAAGCAAACGTGTGTTTCCTGGCTTGTTGGGAGTGGATACTCTGGAATCCCATTGGGTGACAC
Celera SNP ID:            hCV26613524
SNP Position Genomic:     871957
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|-,7)   total(G,1|A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49829):
GTTGTGTGCAGAGAAATATGTTGGAGGACTCTGGGAACTTGAAGATAAGTAAGACAAAATCAGATCTTTAATGGAGCTGAGGGTGGCATGGTAAAAACAG
K
CTTGTATGTTGTATATTTAGCAAACTGTGTTAAGTCCTAGAAGAGAGATGGGTAAATATCCCAGGAAAACACTGAGAGCAAAGTAAGCTGATGGGGTGAG
Celera SNP ID:            hCV7623814
SNP Position Genomic:     756930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49830):
TTTTGAAGCTAGCTTGGAAAGACACAAAGTGTCCTGCTTTAAGTGTGCTGCTTCATCTTTGGAGCAAAAAGCAGACATGTTTATAAGGTTAAAGGGGAAG
W
GAGCAAGGGCAGGAAGTCCCCCTGCTAGCCTGGTGTCTTATCTACCAAACAGCTGAGTTGGCATACAGTTGAGTTGGTGCCTTCCTGGGCAGAAATAAGT
Celera SNP ID:            hCV7624470
SNP Position Genomic:     1151654
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49831):
TGGAACAATGAATATAGTGATTCCAGTTCTGTCACAAACTCCTTCAAGAGCAGGAGCTGCAGAAACCACACACACACACACACACACACACACACACACA
S
ACACACAGCTCACCAGCACCTCTGGCTCTCACCTGAATGAGGGACAAAGCAAACGTGTGTTTCCTGGCTTGTTGGGAGTGGATACTCTGGAATCCCATTG
Celera SNP ID:            hCV26613525
SNP Position Genomic:     871949
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49832):
CTATCAGTGGCTATGGAATCAAATATTTGTAGATTAAAAATTGTACTCATTCTGCTGACATCTTATGAGTATCTGTTGTGTGCAGAGAAATATGTTGGAG
R
ACTCTGGGAACTTGAAGATAAGTAAGACAAAATCAGATCTTTAATGGAGCTGAGGGTGGCATGGTAAAAACAGGCTTGTATGTTGTATATTTAGCAAACT
Celera SNP ID:            hCV7623815
SNP Position Genomic:     756856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49833):
GCTCCACGTAACTGCTGGGCTTCCCTCGGGGGCTCTGTGCATTTCCCCCTCAGTGTTTTTGATGAAATAAATCCATGGTTCGGAGTGTTGTTTCCTCTGC
Y
TTCTCCTCTCTTATGTGCTATAGTTTCTCAAGAGATTCTGGATTACATCAACCCCTTCTAAGAAGCTGTCCTCATCCACCTGATTCTTCCACAGTCTTGT
Celera SNP ID:            hCV26613526
SNP Position Genomic:     869743
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49834):
ATTCCCTGCTCCTGACATCATCCCACAGGCGTGGGGCCTTGGAGTTGTCCTTGACCTTCTGTAAGAACCATCAGCTCCACGTAACTGCTGGGCTTCCCTC
R
GGGGCTCTGTGCATTTCCCCCTCAGTGTTTTTGATGAAATAAATCCATGGTTCGGAGTGTTGTTTCCTCTGCTTTCTCCTCTCTTATGTGCTATAGTTTC
Celera SNP ID:            hCV26613527
SNP Position Genomic:     869670
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49835):
AAGGTCCCTCTCTATGTCCCTGGTATGGGCACCCTGTTCTGAGTCCCAGCTCTGCAGACCTCTGCCCCACCACACACTGTTTTCTCCCCAAGGGTTAGAT
W
AGGAAGGATTTGAATTTAGACAGAGCCACTACTCTCAAAATAGAAGCAAACTTATGGAAATACAAACATATATGATTACATTTACAGGAAGAGCCATACA
Celera SNP ID:            hCV7624474
SNP Position Genomic:     1148316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)   JBIC-allele(T,542|A,959)   total(A,959|T,542) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49836):
CACCATGTTGGCCAGGCTGGTCTTGAACTCATGACTTCAGGCGATCCGCCCACCTCGGCCTCCCAAAGCCCTGGGATTACAGGTGTGAGCCACTGCACCC
R
GCCCAATTCTGTTAATCATTTTAAAAAGCAGTTGTATCAGTGGTCGTAAGGCAAGAGAAAGGTTAGGATATAACACCATGATGGGTCAAGCAACACTATC
Celera SNP ID:            hCV26613528
SNP Position Genomic:     882008
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49837):
AGTGGGCGTGCTCCTCCTCCATAGAGGAGTTATTAAAGCCACAGAGTTAAAGTAAAATGGCCCGAGAGCAAGACAATGAATATCAGAGAGGGTCACAGGA
Y
ATCAAGTGGACTTGTGACCTTGGGAGTGTAAGCACCTACAGTGGACAGAGGGGAGTTTGTGAGCAATTTTGGGATAGGAGCCATGACATTAATACTTCTT
Celera SNP ID:            hCV7623819
SNP Position Genomic:     745255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49838):
TCACAACATCATGGGTGAATCTCACAAACATAGTGTGCAGCAAAAGAAGGCTGAAACAAGAACACACATGCTAAATGACTGCATTTATATAAAGCTCAAA
S
CCAGGCGAAATTAATCCTAGCCAGCAGATCACCTTGTGGATGGGTTTCTTGATCTGGTAGTACTAGACTACATGGGTGTGTTCAGATTGTGAAAATTCTT
Celera SNP ID:            hCV7624475
SNP Position Genomic:     1142871
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,12)      total(G,1|C,12) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49839):
CAGTTTTTCTGGACATCAGAAATCCTGGAGACATCAGGTCCACTTTCCACATGTGCACTATCGGTGGTGTGAGGTGTGATGCTCCAGTGGATCCAGGGTC
K
GCTGTCCCCTTTAGATGGGACATGTGCTCCCACCTCGATTACGTTTCCACGTGCATGGGCCCCTCTGGTCCTGCCCTTTCCTGAGTTTGAGGTCCACCCT
Celera SNP ID:            hCV26613529
SNP Position Genomic:     869340
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49840):
CTTTTTTAGTCTAGTTTTAAAAAAAAAATAACAGAAGGAGCTGCTGCTACAGCAAACATCTTCCTCAATGGTGAAATAGTAAAAACTTTTTTTGTGACCT
S
AGTCCCAGCCAGAGCGAGAAGGCAAACAAAAGAAATACTAGGCTTAGGAATTAAAAGTAAGAAATCTCTTTATTCATAAATGATATGCCTAAAATAATCT
Celera SNP ID:            hCV7624476
SNP Position Genomic:     1140785
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49841):
GAGTTACTTCACTTAGAATAACAGTCTGCAATTCCATCCAAGTTTCTGTGAATACCATTATTTCATTCTTTTTTATGGCTGAGTAGTAGTATTCCATGTT
W
TATATATATATATATATATATATATATATATATATATATATATATATATATACTAGGTTTTTTTAATCTGTTCATTGATTGATGGGCACTTGGCCTGGTT
Celera SNP ID:            hCV15984084
SNP Position Genomic:     750249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49842):
AAATCAGACTACAGAGGATCCAGATATTTGAATTAGCACACAAGAACATTAAAATAAACATGATTAGTATGTTCAAGGAGACAGAATAAAAGATAGATTC
M
AGCAGAGAGAATTACACAAGAGATCTGAAATCTTTAAGAAGGAATCAGATAGATATTCCAGAACTGAAATACATATTATCATATTAAAAACTCAGTAAGT
Celera SNP ID:            hCV7624477
SNP Position Genomic:     1137358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49843):
CATATGCCCAAGAGGGAGCCTGAGAATCTTTGCAGAAGTTGAAGTTGAAACAGAAGTTTACTAAGATGCTGAAACTTAAAGAATGAAAACCATCAACTAG
M
AGAGAGTAGGGGATTCGGGAAGCCTCCAAAGAATTCACAAGAACATTCAGATGAAGGGAAAGAGGGCACCAGGTCACACTGGGTTGGTTGCCGAGGGAAA
Celera SNP ID:            hCV15984085
SNP Position Genomic:     690243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49844):
AGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATGACGCCACTGCACTCCAGCCTGGGCGACAGAGCGGGACTCCGTCTCAAAAAAAAA
A
GAAAAAAATAGAAATGGCAAGGAATAAAATTTGCCTTCAATGTGCTTATGGTCTTGGGAGGAGTAGAGTAAAAAAAATCCCTAATTTCTATTGATATAAT
Celera SNP ID:            hCV26379780
SNP Position Genomic:     490028
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,8)   total(A,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49845):
AGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATGACGCCACTGCACTCCAGCCTGGGC
K
ACAGAGCGGGACTCCGTCTCAAAAAAAAAAGAAAAAAATAGAAATGGCAAGGAATAAAATTTGCCTTCAATGTGCTTATGGTCTTGGGAGGAGTAGAGTA
Celera SNP ID:            hCV26379781
SNP Position Genomic:     489998
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|G,8)   total(G,8|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49846):
CTGGTCCGTGGAAAATGGTCAATAAATATCTGTTGGCTGGATAAATTAATCCCTAAATGTATGTATTAGGTTGTTGCAAAAAAAAAAAAAAAAAAAAAAA
A
TTAGCCGGGCGTGGTGTCGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGA
Celera SNP ID:            hCV26379782
SNP Position Genomic:     489869
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,8)   total(A,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49847):
CTGTAATTTTACATCCTGAAAAAAGGTTAAATTTAAGGCAATGTACAAAGACAAAGAATGACTTTGAGCAAATGCATTAATTAGGTTTGAGATGTTCAGA
R
TTTAATGTTGACTAAATTGGTTAATCTGAAGTCTTTTGGGAGTGGTGACAGTTATCCTGTCCTTACTGTAATCAATGTGCTTGATTTGGTGGAAATTTTA
Celera SNP ID:            hCV26024919
SNP Position Genomic:     946295
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49848):
CCTGGTCCGTGGAAAATGGTCAATAAATATCTGTTGGCTGGATAAATTAATCCCTAAATGTATGTATTAGGTTGTTGCAAAAAAAAAAAAAAAAAAAAAA
A
ATTAGCCGGGCGTGGTGTCGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCG
Celera SNP ID:            hCV26379783
SNP Position Genomic:     489868
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49849):
GCCTGGTCCGTGGAAAATGGTCAATAAATATCTGTTGGCTGGATAAATTAATCCCTAAATGTATGTATTAGGTTGTTGCAAAAAAAAAAAAAAAAAAAAA
A
AATTAGCCGGGCGTGGTGTCGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCC
Celera SNP ID:            hCV26379784
SNP Position Genomic:     489867
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49850):
ACCTTCTGGCCAGAGAAACCAGGAAAAGGGACCCCTATGGGGAAATTTTGAAAAAGAGTTCGTTGGGGTTGGTGGTGGTTGTGGTGGTGGTGGTGGTGGT
G
ATTCTCTCCTCAGCTAGTATAAATAGTTTGGTACATAATAGGTGCTCAATAAATACTTGTTGACTAAATGAATTAAATTTTTGAGAAAAAAATCCACCTT
Celera SNP ID:            hCV26379785
SNP Position Genomic:     486189
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49851):
AACCTTCTGGCCAGAGAAACCAGGAAAAGGGACCCCTATGGGGAAATTTTGAAAAAGAGTTCGTTGGGGTTGGTGGTGGTTGTGGTGGTGGTGGTGGTGG
T
GATTCTCTCCTCAGCTAGTATAAATAGTTTGGTACATAATAGGTGCTCAATAAATACTTGTTGACTAAATGAATTAAATTTTTGAGAAAAAAATCCACCT
Celera SNP ID:            hCV26379786
SNP Position Genomic:     486188
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49852):
CAACCTTCTGGCCAGAGAAACCAGGAAAAGGGACCCCTATGGGGAAATTTTGAAAAAGAGTTCGTTGGGGTTGGTGGTGGTTGTGGTGGTGGTGGTGGTG
G
TGATTCTCTCCTCAGCTAGTATAAATAGTTTGGTACATAATAGGTGCTCAATAAATACTTGTTGACTAAATGAATTAAATTTTTGAGAAAAAAATCCACC
Celera SNP ID:            hCV26379787
SNP Position Genomic:     486187
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49853):
CTTTCAGAGCCTTAGCTTATCTTGTTTCCTGTTTGAACTTTATTACATAAATTTTCCTTTAAAACTGTCACACACACACACACACACACACACACACACA
M
TTTTATGGGGCCTTGGGGCCAAAGATGGAATGAAACTATCATTTATCACATGATTTTGATAGGAAGCTGTTGTTAGGATTGAGATGCTTGCTTCTGATGA
Celera SNP ID:            hCV26379788
SNP Position Genomic:     500843
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|-,8)   total(A,1|C,1|-,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49854):
ATAAAAATGTTTTTGAAGCTGTAATTTTACATCCTGAAAAAAGGTTAAATTTAAGGCAATGTACAAAGACAAAGAATGACTTTGAGCAAATGCATTAATT
W
GGTTTGAGATGTTCAGAATTTAATGTTGACTAAATTGGTTAATCTGAAGTCTTTTGGGAGTGGTGACAGTTATCCTGTCCTTACTGTAATCAATGTGCTT
Celera SNP ID:            hCV27905271
SNP Position Genomic:     946277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49855):
AGGACAGAGGTCGGAAAACTTTTACTGTAAAGGGCCAAATAATACATACTTTCAGCTTTGCAGGCCAGCTGGCCTGTGTTGTGACTACTACACAAAAGTA
R
TAAGAGTCTAATTTGGCCCAGGAGTTTGCTGATTCCTGGTCTAAATGAGAGTAAAGAATGGGAAAGGGAATGGTGTGGGAGGAATAGGCATTTTCATTCA
Celera SNP ID:            hCV26379789
SNP Position Genomic:     266305
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49856):
ATTCCTTTCATGATCAGAAGTACAGAGTAAGTATATGAATGATGCGTGAATTAATGAACAAACTTCTCCCTGTTGCCACATTCCAGGAATAGCCCATGGA
Y
TTGCAAAGAGAGGCAAAAAATGGCATCTACCAGCTGCTTCCTCTTCTTAGGAGTCTCCAACAGAGCCTAATAACATGGGGAAGCATTACTAAATTATGAC
Celera SNP ID:            hCV27905272
SNP Position Genomic:     945955
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49857):
ACTTGTTTTCCTGCAACTAGACAGTCTCATCTAGGGTGATGGGAGACAGTGACAGATCATCAGGCATTAGATTTTCTGAAGGAGCATGCAACCTAGATCC
R
TTACATGTGTGGTTCACAAAGCACCTATAAGACTCTAATGTTATTGCTGGTCTAACAGAGGTGGAGCTCAGGTGGTAATGCAAGTGCTGGGGAGCAGCTA
Celera SNP ID:            hCV2810100
SNP Position Genomic:     221920
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49858):
CCATTGGATTAGCTGGTCTACAAGATTCCTTTCATGATCAGAAGTACAGAGTAAGTATATGAATGATGCGTGAATTAATGAACAAACTTCTCCCTGTTGC
S
ACATTCCAGGAATAGCCCATGGATTTGCAAAGAGAGGCAAAAAATGGCATCTACCAGCTGCTTCCTCTTCTTAGGAGTCTCCAACAGAGCCTAATAACAT
Celera SNP ID:            hCV27905273
SNP Position Genomic:     945931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49859):
TGTTCAAATTCCTTTTAATTCAGGATGGTCAAATGTTTGTATGAACATTTGGGGAAACATCTTAACTGTCTACCAGGCAGTTAGATTTTAAAGAAAAGAC
R
TGTATTCATATACTCCGACCCAGGGGAAGATATGTGGCATTCTGCTTAACATAATCAGTTCCTTGCTTTCCACACCAATTTGTGCTTGATTTGTTTCTTT
Celera SNP ID:            hCV2810101
SNP Position Genomic:     222476
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49860):
ATGTGCACTCAACAGAAGTATCTAGGCTTGTCTAAGGGAAGAAAGGAATTGTTTCCTAACAAGATTTTAAGTAACTCCTGTTTCTGTAGATCCTGAGAGT
G
AGTCCTAGAAGCAGTATGTCTTAAACCCTAAGTGGTTGGGTCCCACAAGCTATTTCCCTCGTCATGATTGCACTCAGCAGTGGGTCCTCACAGAACTGAG
Celera SNP ID:            hCV26613530
SNP Position Genomic:     861144
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49861):
CATGCCACATAGGTTTGGTGAAGAACGTTTTTGATGTCTGTTACCCACATGGAGGGTTTCTGCCTGTCTATTTTGGGTAGAAGATACTTAGAACAAAAGT
M
GTCTTGAAGGGAGGAGAATATCAAGAAATAAATCATGTCTGTGTTCCTATAAAACCAATAACAAACTTGGTAAACATGCATCTGAAAAATAACTAGAAGT
Celera SNP ID:            hCV27905274
SNP Position Genomic:     945548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49862):
AAAAGACATGTATTCATATACTCCGACCCAGGGGAAGATATGTGGCATTCTGCTTAACATAATCAGTTCCTTGCTTTCCACACCAATTTGTGCTTGATTT
R
TTTCTTTTCTTCTAGAACTTTTCAGAGTGAGAACCTTTAGCAGAAAAAAAAAGCTTAACAAGATAGACATTTTAGTTCAATAGAAGAATTTTTCTGGTGT
Celera SNP ID:            hCV2810102
SNP Position Genomic:     222569
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49863):
GTGGCAGCACTTTGTACGAGTTTGAATTGGGCACATTCGAAATGATTCATTATAGAAATATAAATAAAATTTTATTTGTGCACAGAATTAGAAACAGTGT
R
CTCTCCAAATTTTAAATATTTGTCACAAATTTGCAATTTCAGAGTGGTTGTCAGGATTCTCTCTCTCACTCTTTCTCAGTTTTAATGAGATATCATTCAT
Celera SNP ID:            hCV7623820
SNP Position Genomic:     741060
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,15)      total(G,15|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49864):
CAGGGATTTCTTTAACAGTCTTCACACCCAGAACTGAGAACCAACCTCCCACCTGGCTGGCCAGTAGAGTCTTTTGAAGATGAGAAAAAAAAAAAAAAAA
A
GAAAAAAAGAAAAAGCTGAATGATGAGCAGTGGCCTCCAATTGGACATCCCCTCAAATGAAAATAAAGCCAGTCCAAATGTAAGCCAGTGGGAAAATGAG
Celera SNP ID:            hCV26613531
SNP Position Genomic:     860758
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49865):
AGGGGACTACCATATTGGTTCAAACAAGAGACAGCAATTAGGTGGTAGAGATGGGGAGAAGGTGCCACTTCGAGGGCTGTTTAGGAGAGAAAATCAACAG
Y
AGCACTAGTGATAAATTGAGCAGAAGAGGTAATGGAGGGTCAGGTGGCCAGGATAACACCAGCATTTCTTGACTGGTGCAATCGAAATTGAAATGGGGAT
Celera SNP ID:            hCV27905275
SNP Position Genomic:     919620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49866):
ACTGAGTGATCTTTTATTTTTTAAATTTGAACTAGTGTCTAAAAATCCAAATTCCCACCTTTTCTTAAAAAATCAAAAGATGGCTGGACGCGGTGGCTCA
Y
ACCTGTAATCCCAGCACTTTGGGAGGCCGAGTCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGACTAACATGGTGAAACCTCATCTCTACTAA
Celera SNP ID:            hCV26613532
SNP Position Genomic:     859824
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49867):
TCACTTATAAAGGAAAATTAGAAACTACAGTCCTAGTTAAGTAGGAGTGCAAAAGAACTTGTGAAATGGGGTCGGGTAAGAATCTAGTGACTTCTCTGGA
K
TTGCAAGCAGAGGGTGCCTGATGCAGACACTGAGCTGGACATGAAGCATGTTCTCTGAAGATTATTGTCTGTCTTCCTTCTAAACCCATGGCTCTGCGTA
Celera SNP ID:            hCV27905276
SNP Position Genomic:     912806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49868):
AATTTGTGCTTGATTTGTTTCTTTTCTTCTAGAACTTTTCAGAGTGAGAACCTTTAGCAGAAAAAAAAAGCTTAACAAGATAGACATTTTAGTTCAATAG
M
AGAATTTTTCTGGTGTGAAAAAGTAAATTACAAAAAGGACTTTGGTTCTGAAAGATAATTAATAAAAACCTTCCCATGTGATGACAAATCTGACATCTTG
Celera SNP ID:            hCV2810103
SNP Position Genomic:     222653
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49869):
GGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACGCTTTTACACTGTTGGTGGGACTGTAAAGTAGTTCAACCATTGTGGAAGTCAGTGTGGC
R
TTTCCTCAGGGATCTAGAACTGGAAGTACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGACTATAAATCATGCTGCTATAAAGACACA
Celera SNP ID:            hCV26613533
SNP Position Genomic:     879012
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49870):
AACAAGATAGACATTTTAGTTCAATAGAAGAATTTTTCTGGTGTGAAAAAGTAAATTACAAAAAGGACTTTGGTTCTGAAAGATAATTAATAAAAACCTT
Y
CCATGTGATGACAAATCTGACATCTTGTCTAATGTCTGGCAGAGAAGAAAGTGTTGAGAGCTGCACAGTTGGAATAAAATGTTCCACTTTACAGCAAGGC
Celera SNP ID:            hCV2810104
SNP Position Genomic:     222726
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49871):
GTTTCACCAAGTTGCCCAGGTGGGTCTTGAACGCCTGACCTCAAGTGATCTCCCTGCCTCGGCCTCCCAAAGTACTGAGATTACAGGCATGAGCCACTAG
W
TTTTTTACTGTATCTAGCAAGGGCCATTGCAGGATATCAAGTCTGGGAATGACACAGTTTCTCATTTCAGAACCATTGAATTGGATACAGCCTGAGTAGT
Celera SNP ID:            hCV26613534
SNP Position Genomic:     846838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,6)      total(A,6|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49872):
CCAAGTATAGTACCCAAGCTATTTTATTATTCAGAAGACTGGCTCTTTTCAAAGAAGTGTCAAAAGTTTGGTTTGGGGAATTCTTGTGTTTTCTTTCTTG
M
TGCAGTTTTCCACTTTTCTTTAGTGTGTCACCATCTTTATCTCCTATGATACTAGTTTATAATAGGCTTCTAACATGGATGCCTTCCTCTTGGAAGTGGG
Celera SNP ID:            hCV7623824
SNP Position Genomic:     738332
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49873):
GTTTAAAGTGGCAGCAGGGCAAAGGAGCATTTGTAGCTTCAGAAATGTAGTGATCATTCTACAGTCTTTTGAAAAGATAAACCTGACAGGAATTTCTAGC
S
AAAATGAAAATTGGTGACGGTTGAGCAGCTGCAAAGCAAAAGTGAAAAAGTCCTTGAGTTGTCCTAGCACAGAACGTGCTCACCAGCGCCGTTGGATCCT
Celera SNP ID:            hCV7623825
SNP Position Genomic:     735486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,9)      total(G,1|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49874):
CTTAAAAGAAAAGGTAGAGATTGAAGACGTTATCTTTTAAAAGATACTCACAGCACATTTAATTGATAGGGGATCAGTAACAAGATTATATAAAGAACTT
Y
TAAACTCAATAAGATAGCAAAAAAAAGTAAAAAATAACTAAGAGATAAAAACAGTCATTTCACAGAATAAGAAAAATGACTAATGTATAAAAAACTGTTC
Celera SNP ID:            hCV26613535
SNP Position Genomic:     841947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49875):
CGTGAATCCAGAAGAAATATTGACTTTCAAGTCTTACTATCAAAGAAATACATTTTGTAAGGCTACAGCTTCTAAAGATTGTGATTCCTCTGATGGATCA
R
GACAAAATGAGTCAAAAACCTGCTGAAAAGGATTCACCATTCTAGATGCCCACTAAGAACATTTGTGATTCATGGGGGGGTGGTTAAAATGTCAAAAATA
Celera SNP ID:            hCV2810107
SNP Position Genomic:     229194
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49876):
GGAAAGCCCCCAACAAATACTGACCTGACTTTCTCCTAAAAGATTGCCATAAACACTTTTGGTTATCTCTTAATGTACTTGGTTCATAACTGCTTAGTCA
R
TTATTTTTATTAGCATAACATTCCTTTTAAGCATAATGATATTGGGAAAACAGAAATGATACAAGCGTAATTTCTTGGCTATGACTGTTTATGTTTTGAG
Celera SNP ID:            hCV7623826
SNP Position Genomic:     725858
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49877):
AGAAATAATTTACAATGTAGTCAGGACCTAATGATACCTTACAGCTGTTTCTCATCTTTGAGACTCATTGAGTCTCATCTATGTTTTCTCAACATTCAGC
R
TACACCTGTATGAACTGTCTGGCTGTGTAACTGTGAAAGCTTCTCACAGACTGTGAGTCTCATTTTCTACGTATACAAAATGAAGAAGATAATTCCTACT
Celera SNP ID:            hCV7624482
SNP Position Genomic:     1134910
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49878):
CTGCATTGAAGGGGTTAAGAAGTAAGGAAATGATTTAAATAGACTTACCACCACCACTGGTCACCCGTCTTAAAAAAAAAAAAAAAAAAAAACAAAAAAC
M
CCTTATAGTAACCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGTTTGTGCTGGATGCGGTGGCTCACGCCTGTAATCCCAGCTCTTTGGGAGGGCGAG
Celera SNP ID:            hCV26613536
SNP Position Genomic:     828991
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49879):
TCAGTGATGGTGATTTGCCAATCATTAGCATTTCAGAAACCCCAGGCCGAAACCATACATTTATCCTTAGCTAGGTCGGTATCAAGTTTCTCTGCTTTCA
K
CCAGAATCCTAACAATTCAGCTTGGTTGATTATCTAAGAAGCTTCTATTTGATAATTATATATCTTTCATTTTTTTTAAAGTGCTGGGGGTTGGGAGATC
Celera SNP ID:            hCV16050477
SNP Position Genomic:     210374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49880):
TCGCTTGAACCCAGCAGGCAGAGGTTGCGGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTGTCTCAAAAAAAAAAAAAAA
A
GAAAGAAAGAAAAAAGAAAAAATTAGAAAGTACCTTCACTAGATTTAGAAGTAAGCCCTTAGGCATAGATGGTCAGCTGAGCCTTTTTAAAAAAGGAAGT
Celera SNP ID:            hCV26613537
SNP Position Genomic:     828224
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49881):
CCCTCCCCCATCAAACTTTTTTATTGGGTATAGAAAAACATGAGGAAGGTCAGGTGCTGTGGCTCAGGTCTGTAATCCCAGCACTTTGGGAGGCTGAGGT
R
GGGGGGCAGATTACAGGAGGTCAGGAGTTCAAGACCAGCATGGCCAACGTGGTGAAACCCCATCTCTACAAAAAATACAGAAATTTTCTAGGCATGGTGG
Celera SNP ID:            hCV26613538
SNP Position Genomic:     827978
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49882):
TGGTTTTGTTTATACTCAAAGTCATTGTGGGGACCTCTATTTTCACCTTTTTTGGCCTAGGTTGTCCCAGTACTTCTCTCATTCTGTGATTGATGTCATA
S
GTGACAAGTGTGATGGGTCACTTCACTGGCCTCTCCAGGCGGTTTATTCTTTAGCTGACTTCACCTTGCTCTGGCCTTATGTAAAGGTCCCTGCCCTCTG
Celera SNP ID:            hCV16050478
SNP Position Genomic:     217815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:49883):
TTTTCTCACTTTGAAATGGGGATAATAATTTCCTTTCTGATCATATGTAAGGATTTATGACAATGTCTATCATACAGTTAGCCTGTAAATGATACGTTCT
R
TTTTATGTAACCATTAAAACAATTTCTTTGTGGGCTGTACTTTCATCCAGCTGGATGGATTTTAACCAAGTGATCCCACCTCTATAGCCAGCACCCAGAT
Celera SNP ID:            hCV15984095
SNP Position Genomic:     671182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49884):
TATTTTTATGTTAAAAAGCTATGAGTTTATTTTTTTAGTAATTTGGTAATCTTTTTAGGTTTTGTAGAAATATAAAGGATCCTGAAACCAAAAAATTTGA
S
AAGTTTGTTTGCTATTGGGCAACAAACTAAATAAATGTATTTAAAAAGTAGATTTCCTATCTTTATTCAGTGAAATGCTATATCAAGTAGTTGATCCCAT
Celera SNP ID:            hCV15984096
SNP Position Genomic:     659227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49885):
TTCCACAGTTTAGATCTCAGACTAGTGCAAAAGTCTGCATGGGGCTCCAGCCTTGTAAGGGTCTCATCTTGTTTTATTTGGAGGCTCTGACATAGTGGAA
S
TCTGGGTGCCAAAGGGATAGTTCAGAACAGGAATCTTCTGACCTGGATAGGGCAATCAAATTCTTGATTGTGTTAGTGCATCAGGATCCTTGTCAGATAA
Celera SNP ID:            hCV26024920
SNP Position Genomic:     944981
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49886):
TGTAAAAATGGTCCCTACTAGGGGAAATGCTAGATGAGATGCTAAAACTCATCTGTCTAAAAACAAGAGACAAGCTCTTTCTTGGATTTTTTCTTTTTCT
Y
TTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTTGCAGCTGATCAGTGCTCCTCATGCATTTTGAAGC
Celera SNP ID:            hCV15984097
SNP Position Genomic:     636296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49887):
GCACAATATAAGAAGAAAGACTATTACCAGCTAACATTTATTGAGTATTTACTAGGCTATCAGCACTGGTCTAAGCACTTTACAGGTTAAATTCATGTAT
Y
TTCTACAATGATCTTAAGCAGAATTTCCTTCATTTTCTTATTTCCAAAATTATACTACCTAATATAGAAGGTGATGATGAATTTTGAGAGATAATGTACC
Celera SNP ID:            hCV26024921
SNP Position Genomic:     944425
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49888):
TCTTCTGCAAGGGGTCTACATTTAAGTCAATAGTAGCACAATATAAGAAGAAAGACTATTACCAGCTAACATTTATTGAGTATTTACTAGGCTATCAGCA
S
TGGTCTAAGCACTTTACAGGTTAAATTCATGTATCTTCTACAATGATCTTAAGCAGAATTTCCTTCATTTTCTTATTTCCAAAATTATACTACCTAATAT
Celera SNP ID:            hCV26024922
SNP Position Genomic:     944390
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49889):
TGAACCTGAGAGGCGGAGGTTGTGGTGAGCTGAGATTGTGCCATTGCACTTCAGCCTGAGCAACAAGAGGGAAACACCATCTCAAAAAAAAAAAAAAAAA
A
CTTCAAGCAAGGGAGGCCATGCTATCAAAGTATATTTTCCTCCTCTTCTGCAAGGGGTCTACATTTAAGTCAATAGTAGCACAATATAAGAAGAAAGACT
Celera SNP ID:            hCV26024923
SNP Position Genomic:     944246
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49890):
CGTATGTGTGAGCCACCTTGGAAGTAGACCTTCTAGCCCCCATCAAGCTTTTAGATAACTGTAGCCTCACCAACATCCTGACTGAACTACACAGCTGAGC
R
GCTTCCATATCTCCAAGCCACAAACACTGTGTGCAATCATAAATGTTTTTAGTTGCTTTAAAGCACTAAGTTTGGGGTAATTTTATTCAGCATTAGATAA
Celera SNP ID:            hCV27969731
SNP Position Genomic:     889682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49891):
TATTGACATCTTTTTGCCTTGCTACCTAGTTACTAAGTCTCTCCAAGTTTCTATTCCAAATTCCCAAGAGATCACAATGATTGACGCAACCTTAATCATA
T
GAGTTGGTTCCCCTTTGGGGTATGCCCACCTCTGGCCCAGTAAGCCATGGTGCTGTGGCAAGGACAAGTGTACCATAAGGTTGGCCCCCCCCCCCGCCCC
Celera SNP ID:            hCV26024924
SNP Position Genomic:     943616
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49892):
GTATTGACATCTTTTTGCCTTGCTACCTAGTTACTAAGTCTCTCCAAGTTTCTATTCCAAATTCCCAAGAGATCACAATGATTGACGCAACCTTAATCAT
A
TGAGTTGGTTCCCCTTTGGGGTATGCCCACCTCTGGCCCAGTAAGCCATGGTGCTGTGGCAAGGACAAGTGTACCATAAGGTTGGCCCCCCCCCCCGCCC
Celera SNP ID:            hCV26024925
SNP Position Genomic:     943615
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49893):
TTGGGCAACAAGAGCGAAACTGTATAAAAAGAGAGAGAGAGAGAGAGAGAAAAGAAGGAAGGAAGGAAGGAAAGAAAGAGAAAGAAAAAGAGAGAGAGGG
W
GGGAGGGAGCGAGGGAAGGAAAAATTGAAAACCCTGAGGTAGGCACCTTAATTCTACCCATTTTTCACCTTAATTCTAACCATTTTCCAGATAACAAGCA
Celera SNP ID:            hCV26024926
SNP Position Genomic:     942445
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49894):
TCACCAGCAAAGTTAAACTTTGCCATGTGTTTTTTGACCATATTCATTTCTGTTTCTTAAAATTATCAACTTAGAATATTTGTGCAATTTTTTTTTTTTT
T
ACATGTGGAGCTTGTTCTTAATGATTCTGCCAGGGCTTAAAATTTTTACTTTCTAATGAGAAAGTTTTGGAATTTACTCTTTTCCAATTTATGAAAATTG
Celera SNP ID:            hCV26379790
SNP Position Genomic:     265607
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49895):
TGGGAGAATCACTTGAACCTGGGAGACAGAGGTTGTGGTGAGCCAAGATCATGTCATTGCACTCCAGCTTGGGCAACAAGAGCGAAACTGTATAAAAAGA
R
AGAGAGAGAGAGAGAGAAAAGAAGGAAGGAAGGAAGGAAAGAAAGAGAAAGAAAAAGAGAGAGAGGGAGGGAGGGAGCGAGGGAAGGAAAAATTGAAAAC
Celera SNP ID:            hCV26024927
SNP Position Genomic:     942377
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49896):
ATCACCAGCAAAGTTAAACTTTGCCATGTGTTTTTTGACCATATTCATTTCTGTTTCTTAAAATTATCAACTTAGAATATTTGTGCAATTTTTTTTTTTT
T
TACATGTGGAGCTTGTTCTTAATGATTCTGCCAGGGCTTAAAATTTTTACTTTCTAATGAGAAAGTTTTGGAATTTACTCTTTTCCAATTTATGAAAATT
Celera SNP ID:            hCV26379791
SNP Position Genomic:     265606
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49897):
CACGAGGGCAGACAGAGAGGTCAGTGTCCAACACCGTGGGAGGACCACAGGCTCACCTCCCTCAGTGGGGTCAGCATCTCATAAATTAGTCATGCTGGAG
Y
CCTCTCCAGGAGTTCCTGGTGGGAGCTAAAGGGAAGGTGAACTCCTTTCTTTTAAACACTGCTATCATGTGAAGATCCACTGCCAGGAACTAGGAGGGCA
Celera SNP ID:            hCV26024928
SNP Position Genomic:     941825
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49898):
TGGGGTTGGAGCCCCCACACAGAGTCCCCACTGGGGCACTGCTTAGTGGAGCTGTGAGAAGAGGGTCACCATCCTCCATACCCCAAAATGGTAGCTCCAC
Y
GACAGCTTGCACCATGCACCTGGAAAAGCCACAGACACTCAAAGCTAGCCATGAAAGCAGCCGGGAGGGGGGTTGTACCCTGCAAAGCCACAGGGGTGGA
Celera SNP ID:            hCV26379792
SNP Position Genomic:     357911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49899):
CTACTACTTACAGTAAGTTATGTGGGCCCTTGTTATGAATTAATGAGAGCAACAGAGAAATAACTTCAGGGAAAGGGTACATCTTTAAATAATTTACCCA
Y
GTGGGTAGGTAGGAAAACTGGATCTGTGGTCATGCGTAGTGTGCGGGTATCCGAAGCTGGGTGTCCACAGTCACATCGGGTCCTCTGTATCTGTGGCACG
Celera SNP ID:            hCV26024929
SNP Position Genomic:     941628
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49900):
TCTTGTAGCTCTCCATCCACCCACCCATCTATATACACCTCCCACCCCCCCACCCACTCATTCATTCATCCACCTACCCATCCATCCATCCACCCATCCA
Y
CCATCCATCCACCCATCCATCTATCCATTCATCCATCCATCCATCCATCCATCCAGCCATCCATCCATTCACTTATCCTGCCTTGCATCCTACCTTCTAT
Celera SNP ID:            hCV26379793
SNP Position Genomic:     264522
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49901):
AACCATGCTGGAAAAAGTATGTAGAGGGACTAAGGGTGTTTTTATTTTCTTTGGCTTTTTTCCTTCCTTCCCTCCCTTCCTATCACCCTTCCTTCTTTCC
R
TTCTCCCTTTTTCCCTCTCTCTCTCCCTTTCTTCCTTCCTTTTAGAAAAAACAAACCTAACAGTATGTATGTCTAATACATACAAAATCTGGTATTTAAT
Celera SNP ID:            hCV26379794
SNP Position Genomic:     261687
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49902):
AAGAGGCTGCACAGAAGTGAGCTTAAACCCTTAAGCAAGGATTGGAGAAGGAGGAGGGTGATTTCAAAAAACACTGAAATTAGTAGCTTTCTTTTTTTTT
K
TTTGTCTGTTTTGTTTTAAGACTGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAAGGGCGCGATTTTGGCTCACTGCAACTTCTGCCTCCCAGGTTCAA
Celera SNP ID:            hCV2395000
SNP Position Genomic:     1171445
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49903):
ATATATAATAGATTTATCTAAATATATGTTATATTTAGCTATAGAAATATATATTATATATTTAGATATTATAGAAATATATAATATATATTATAACATC
A
GTATGTATCATTATATATAGATCCATACAGATTATATATTAATATATAATAGATTATATTAATAGATCATATATAATCATATAATGGATTAATAGATTAT
Celera SNP ID:            hCV26379795
SNP Position Genomic:     258985
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49904):
CCAGAAAGTAGACAATTAAGGGGGTTACATCACACATTGCCCTCTGTAAATCCAATTTCTGAACATCAAAGCCTCACTCCGTGACATCTCTTTGAAGAAC
R
AAGGCACTGCAGGACCCTGCTCACGGTTCAGCTACTCGGGACTGGAAATGAGTGTTTTAAATGGAGACCAGAGCCGCTGTGCACCTGCTTGTTAAAATAC
Celera SNP ID:            hCV2395001
SNP Position Genomic:     1170305
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49905):
AATATATAATAGATTTATCTAAATATATGTTATATTTAGCTATAGAAATATATATTATATATTTAGATATTATAGAAATATATAATATATATTATAACAT
C
AGTATGTATCATTATATATAGATCCATACAGATTATATATTAATATATAATAGATTATATTAATAGATCATATATAATCATATAATGGATTAATAGATTA
Celera SNP ID:            hCV26379796
SNP Position Genomic:     258984
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,3)   total(C,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49906):
AAAACCCTTCTTTGCCTGGGAGCTATCCAAACACGGACTTGAGGTTAGAGTCAGCCCACAGCGTTCCTTGGCTGAACCCCGCTCTGCTCCATTTACTCCT
Y
CTGCTGGAGGATCCTGTCATTTGAATACGGTGCAGTGGATTCCCTTATCAGCAGACACATTCGAATCATTTACTATGACCAACGCTACTACAGTAAGAGA
Celera SNP ID:            hCV2395002
SNP Position Genomic:     1169553
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49907):
AATATATATAAATTATGCAAATTATATTTGTGAATATATAATAGATTTATCTAAATATATGTTATATTTAGCTATAGAAATATATATTATATATTTAGAT
R
TTATAGAAATATATAATATATATTATAACATCAGTATGTATCATTATATATAGATCCATACAGATTATATATTAATATATAATAGATTATATTAATAGAT
Celera SNP ID:            hCV26379797
SNP Position Genomic:     258952
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49908):
CTGATTATATATGAGTATATAACATATTTACATGATATATAATATATAAGTATATAAAATATGAATATATATTATATAATTTATAAATATATATAAATTA
W
GCAAATTATATTTGTGAATATATAATAGATTTATCTAAATATATGTTATATTTAGCTATAGAAATATATATTATATATTTAGATATTATAGAAATATATA
Celera SNP ID:            hCV26379798
SNP Position Genomic:     258867
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,4)   total(A,2|-,4|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49909):
ATATAATAATATAACCAGTATGTATCATTATATATAATATATAGATACATACTGATTATATATGAGTATATAACATATTTACATGATATATAATATATAA
R
TATATAAAATATGAATATATATTATATAATTTATAAATATATATAAATTATGCAAATTATATTTGTGAATATATAATAGATTTATCTAAATATATGTTAT
Celera SNP ID:            hCV26379799
SNP Position Genomic:     258816
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49910):
CTTTGTCTTTTCATTTTTGTATTTATCAGAATCAATATATTTCAAACAGAACTTGATTTGTGAGAACCATTTTTCTGGCTCTCCTCTCCTCTCTTCCTCT
R
TCTTCCTTTTATTTTTTTTCCAAGTGATTATCCCAAATGGCATCTATGTTAACATGCTTGGAAATGCGAAGCGACCCTGAGTATGGAAATTAATAGAGTT
Celera SNP ID:            hCV2810111
SNP Position Genomic:     239162
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49911):
CCTTCTTCATTGAGATCTGAAAGTAGTTCCCTATGGAAGTGATTCATGGTGTTGTGAAATCCTACGAAATTGTAAACAGCCTGGTGGGCAGGAATCCCGA
S
GTCTCATTCAGGCCCCCTGCAAATTCTGAGTTCCTAGCCTGAGGAAAGCCCCCAACAAATACTGACCTGACTTTCTCCTAAAAGATTGCCATAAACACTT
Celera SNP ID:            hCV7623830
SNP Position Genomic:     725715
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,4)      total(G,4|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49912):
TGTTGTTGTTTTGTTTGTTTGTTTGTTGTTTTCAGTTAGAAGCAGTGTCATTCATACAAATGAAATACCAAACAGGACCCCCATGGCAGAGGCAACTTCT
Y
ATTTTATCTCTTGCTCCTCAGCGCTTTTGAGTCTCTCCCTGCATCACTTCCCTGCCCTACACCTGCCAGGTCTGTGGGTCCTCTTTCATGTTTGTAGTTC
Celera SNP ID:            hCV452398
SNP Position Genomic:     947825
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49913):
CTTATTACATGCATTATTTTATCTGCACCAGAAATCAAGTATGTATGTCTGTGTGTGAATTTGCTGGTAAAAGGATGAAGTAATGTTAAAGAAAAAAATT
W
AAAAATTATCTACCCACACATACCTGGTTTCATTTTGCTCACTGCCTTCAAATTCTATCCATATTTGTAGGTCATGTATGATGATGCTCATGTTATTTTG
Celera SNP ID:            hCV7623831
SNP Position Genomic:     724551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49914):
ATTTCTAGAAGTAGTAGCAGTGCTTTGCTTTATTCCACTTGCAAGTAGCGGTTCAATTGAATAAACTTTTATACCTAACCAACCAATATTTTAAGCCAGT
Y
TCACTCTCCCCTCTCTCTCATTCTCAGTTTATTTTGCGTATTTCTTATAATGCAAAACAAAAACCTTCTGTCTCTGAAAAACGTGATTAATCAAGAAACC
Celera SNP ID:            hCV2810113
SNP Position Genomic:     239956
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49915):
TTATCTCTTGCTCCTCAGCGCTTTTGAGTCTCTCCCTGCATCACTTCCCTGCCCTACACCTGCCAGGTCTGTGGGTCCTCTTTCATGTTTGTAGTTCTCC
M
ATACTCTTCAGGCCCAGTGATCCTTTTCAGACTCTTGTCCTCTAGAAAAGCAATTCAGATCTCGCCCAAGGCTTACTTCTCGGTTTCTGGCTATAATTGC
Celera SNP ID:            hCV452399
SNP Position Genomic:     947929
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49916):
TGTAGTGAGTCCTCAAATAATTTTTATTAAATTAACTTTAAGAAAATCCCACTTAACAGCCCTTCACTGTTTTTAGAGACCATTCCAAAGGTCTTGACTT
S
TGTTGATATTATTGTCCTCTGAAAAGTCTGAGTCAAACTCTGATTAGTTTTGTAACATAAAATACCATTGGATTGTCTGTTTGCATAATTGGTTTTCTGA
Celera SNP ID:            hCV7623832
SNP Position Genomic:     723855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49917):
TGCATAGATTCCATTTCCTGAATCATTGTATACCAAAGATCCAGGAAATGGTTAGGGATGTTTTAGTCTCATATAAATATAGGTCAGTGTTGTACACAGT
R
AGAAAACTAGATTAGTAGCATCATCTTGTGCCCTACTCATGACATTTGCACTTCATATTTTTCCTTTATCTTTGCAATATTTAAGAGCTTTGGTTACCAA
Celera SNP ID:            hCV2810114
SNP Position Genomic:     240255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49918):
AAATATAGGTCAGTGTTGTACACAGTAAGAAAACTAGATTAGTAGCATCATCTTGTGCCCTACTCATGACATTTGCACTTCATATTTTTCCTTTATCTTT
R
CAATATTTAAGAGCTTTGGTTACCAATCATTGTGAACTTTTGTGTTGCAGGGGGTGTAAACACAGCATAATCAATCAATTGATGTCTACACTCTTCACTT
Celera SNP ID:            hCV2810115
SNP Position Genomic:     240329
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49919):
TCAATGTTAGTCCTCTTCTTTTTAAAAAAAAAAAAAAAAAAAACAAGTAATCAGTTTAATGTACTCTGATATTGTTTACCACTGGGATTCTTGTTCATCA
W
TTAAGGCTACAGAGTCCACCAGCCTAGAGTCCATGGAGTCAGACCAACTGTCAGCTGTAATATGCCGGAGATGGAGAGAAAGGACAGATGGCCAGAGCTC
Celera SNP ID:            hCV7623834
SNP Position Genomic:     719622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49920):
ACACTCTTCACTTTTCTTTAAAGTTGTCTGAAAGTGCTGTCTCTTTGCCTGACAGACATAGTATATCTACCCCTACCCTAGACTTGTGTTCATCCAATTG
K
GTGTTCAGCTTTTAGCAGGTTATGGGGAATGTTTATTCTGTGGATGGCTTCCTGCTATCTTTGTTCAGACAGTAATATTTCCTTTTATCCTTTTTCATCT
Celera SNP ID:            hCV2810116
SNP Position Genomic:     240517
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49921):
ACACCAAATCAATGTTAGTCCTCTTCTTTTTAAAAAAAAAAAAAAAAAAAACAAGTAATCAGTTTAATGTACTCTGATATTGTTTACCACTGGGATTCTT
S
TTCATCAATTAAGGCTACAGAGTCCACCAGCCTAGAGTCCATGGAGTCAGACCAACTGTCAGCTGTAATATGCCGGAGATGGAGAGAAAGGACAGATGGC
Celera SNP ID:            hCV7623835
SNP Position Genomic:     719614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49922):
GTGTCCTAACTGTTCTGATGGAGCTAAGCCCAGAGAAGCCCCTGTCCAGCCTGGGGGGTAGTCATGGAGAGCTGCCTGAGAGAGGGGACATCTCACCTGC
R
TGATGAAGGATATGTGGATTAAAGGTAGGGCATGCTAGTTCTGGTGTTGAGTTAGTTGGCAGCTTCTGATTGGTTAGCCTTAAGTTTCGTTTTTCTTTAA
Celera SNP ID:            hCV7624491
SNP Position Genomic:     1132129
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49923):
TGTTACTAATGGTCACCTCCACTCCTTTTATTTCCCTAATATTTTATTCACTGTTATCTCTGATACATCTTTCTCTCAGTTGTTCTGAAGCCTTTTATTT
S
CTTCACATCTGAATCACTCTTTATTCTACTCTCCTTTCCACTAACTGGACTTGCTTTTGTCTTAAAAACGCCATTTTTCAACAATATGCTGGGACCAAAA
Celera SNP ID:            hCV2810117
SNP Position Genomic:     240759
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49924):
TGTGTAGCTTCATGTGTATTAATAAAAATATATAAGAAACTCATTAAGCTCCTCAATTCATGGATGATTTTGCCACAAATGAGGCAAGAGTAAAAAGTAG
Y
AATCAATGTAAAGCAAAGCTACTAAGTAAATAGCTTAGTAAAGATAATGAAACAAAAAAAATGTAAGGGAGTCCATGCAAAAACATTCAGCAAGTGTGAG
Celera SNP ID:            hCV7623836
SNP Position Genomic:     719239
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;(C,-|T,-)   Caucasian(T,32|C,50)   African-American(T,19|C,49)   Asians(T,40|C,42)   total(C,141|T,91)
SNP Type:                 INTRON


Context             (SEQ ID NO:49925):
AGACAATGTTCAGCAACTGAGAGCTGGACCAGATCTTGTGCTTGGTCCTGGAGACTCATGGATGAATAATACATGGTCCTTGTGTTCAGAGGGCTCATGA
R
TTATTTGGAAGGTTAGTCAAGTACACAGAAGATCACAGTAGAGTGTCCTAACTGTTCTGATGGAGCTAAGCCCAGAGAAGCCCCTGTCCAGCCTGGGGGG
Celera SNP ID:            hCV7624492
SNP Position Genomic:     1131986
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49926):
TTTCTCTCAGTTGTTCTGAAGCCTTTTATTTCCTTCACATCTGAATCACTCTTTATTCTACTCTCCTTTCCACTAACTGGACTTGCTTTTGTCTTAAAAA
Y
GCCATTTTTCAACAATATGCTGGGACCAAAACATAGCATTCAGCTATTTCTTCTAACGTAACCAGTGGGCTCTTCACTGCATCTTTCAGAGAGTGATGCA
Celera SNP ID:            hCV2810118
SNP Position Genomic:     240828
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49927):
AATCTAGTATACTGCATCCACATTTGCAGGTTTCTACATAAAGATCTACTGGGAATGACTGATTTCCTTACGGAGCGGGGGTGGTCCTATGGGGATGATT
K
GCACCTCTCTCAGATTGCCCAGCCTCCCCCTGCTCTTCTGGGAGACTGTCAGGGTGCTGCTCTTTGGACTACCTTTGAAATCTTGACCTGTGACAAGGCT
Celera SNP ID:            hCV7623837
SNP Position Genomic:     714773
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49928):
TCCCATTTGTCAATGAAAAATACAAGAAGAAAGGAGAAGTCAGCTTAGAAGGCAACCACTCAGAAAGGAGGCATCCATTTAAGGTCTTTGAATTCTGAAA
R
GAATCTGTGAAAAGTTTGTGGGAGGTGTTTTCTGGAGGCCTGGCACCCATATCTCCCTCAAATTGCCCAGCATGGTAGATCTTGCTTTTCCCCAAACACG
Celera SNP ID:            hCV2810119
SNP Position Genomic:     241112
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49929):
AGCAAAGAAAAATCACTCAATAAAACCACTGTTAATATTTTAGCATAATCTTGATAGTGGAATGCCTTTATTTTTTAAAAATTGCATTATGTATACACTA
R
TTTTAGTCAGAATTTGTACTTCTTAACATGCATACTATACCATTAGTATATTTTTACATTCTCTAAAGTGTGTCTGCAATGCAGTGTTCTACTTTCTGCA
Celera SNP ID:            hCV7623838
SNP Position Genomic:     713077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49930):
TACTTAATGTGTGTTTCTTTCTCATTAATCATCAATGCTGAGGGATGTTGCATGTCTTAGAGTTTAACAGCCACCCATAGCTCCCCATTTGTAATAAACT
S
TAGTCAGTGTGTAGTCACTGCCTGAACAAGTTACAATCTTAAAATAAAAACCTTATTGATTTCTTTTTTAACTTTGAAATTAACACATGCCTAGAAAAAT
Celera SNP ID:            hCV7623839
SNP Position Genomic:     712860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49931):
AGGAGACCCTGAAACTTCTTGAGGAGGAAACTGACACGATGAAATATCAGGTAGACAATGTTCAGCAACTGAGAGCTGGACCAGATCTTGTGCTTGGTCC
W
GGAGACTCATGGATGAATAATACATGGTCCTTGTGTTCAGAGGGCTCATGAATTATTTGGAAGGTTAGTCAAGTACACAGAAGATCACAGTAGAGTGTCC
Celera SNP ID:            hCV7624496
SNP Position Genomic:     1131934
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|T,4)      total(A,1|T,4) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49932):
AAGTCACATCTTCAAAGCCAGATGATTCATTTGATAGAACAGGGAACCAGGAGACCCTGAAACTTCTTGAGGAGGAAACTGACACGATGAAATATCAGGT
R
GACAATGTTCAGCAACTGAGAGCTGGACCAGATCTTGTGCTTGGTCCTGGAGACTCATGGATGAATAATACATGGTCCTTGTGTTCAGAGGGCTCATGAA
Celera SNP ID:            hCV7624497
SNP Position Genomic:     1131886
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49933):
CACAGCAGATAAGGGACTGAGCTCATGGTTTGTGGTTGTCTGTGTGATTCTCTTTAAGGAGGGTCTGAAGTGTACAGTGACACAGCTATCAGTGGCTATG
R
AATCAAATATTTGTAGATTAAAAATTGTACTCATTCTGCTGACATCTTATGAGTATCTGTTGTGTGCAGAGAAATATGTTGGAGGACTCTGGGAACTTGA
Celera SNP ID:            hCV27527321
SNP Position Genomic:     756771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49934):
CTTCTCCAAAATGCCGACTCCAGTATTCCATTTTCAAATTAACTTATTCTGATTATAAAAGTAATGTTCAGTATTGTTAGTAAAATAAATTTTAAAAAAA
A
CGAACTTGTAATTTCCCCACTCAGAGATAGCTTCTGATAACATATTGGTGCTTTTACTTCTATTTTTTTCTATCCATATGAGTATAATTAAATACATATT
Celera SNP ID:            hCV8093756
SNP Position Genomic:     548767
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,7)   total(A,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49935):
ACACACGCACACACACAAATACTTCTGCAAGGACATCTGCCCAGCAACTGCCTGTCCAAGTACAGACTGATGTCACCCTTATTATTGATCTTTGTAGCCA
R
CAATAACTACTTCAAAGCCATTATGTAATCTTCCTCATTTTTTCCTTCAAAAACATTTGTCTTTCTTTACCTCCCTGCACACACATACAAAGTTACTGCA
Celera SNP ID:            hCV26024930
SNP Position Genomic:     937581
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49936):
TTTGTTGTTGTTGTATTTTTTTCTCAGATGGAGTATCGCTCTGTCGCCCAGGCTGGAGTGCTGAGGCACGGTCTTGGCTCACTGCAACCTCTGCCTCTTG
R
GTTCAAGCCATTTTCCTGCATCAGCCTCCCAAGTAGTTGGGATTACAGGCACCCACCACCACACTTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTT
Celera SNP ID:            hCV26024931
SNP Position Genomic:     936451
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49937):
CAGTCCTAACATTCCAAGAGTTAAAATTATCCATGATTGGGATGTAATATCTAAATTGAAATAAATAAACTGTTTTTATATGAAGGATTTTTTCCTGATT
S
AAATAAAGGAATCTAGTTTCATTGTAGGCAACACAGGAAATACAAAAGTTATAAAATTCACATCTGTAATCCCATCAACCAGAGAAAACTCTTAGTAACT
Celera SNP ID:            hCV26024932
SNP Position Genomic:     936099
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49938):
TCTCCTAGTCAGGCATTAACTAATAGGGGAAATGCAAAATGTTGATACCGCAGAATATAGAGACAGAAGAGATTCACACTGAAAGTGCAAATTACTTTTT
Y
TGCAGTGAATAGAAAGTCACATTACTCTAAGAAGCTGCCTAATTATCTGTAATTATGCCCAAAATAGTCAAGCTAGTTTGCTAGCCAGTTGAAGAATTGC
Celera SNP ID:            hCV26024933
SNP Position Genomic:     935378
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49939):
TCTGATGAGTAAGCCTACCCCCATCTCTGTTCCATGGCCCCCTTAAGTCATTTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATC
T
TTGAGACAGCTTCTCACTCCATCATCCAGGCTGGTGTACAGTGGCATGATCTCAGCTCCCTGCAAACTCCGCCTCCCGGGTTCAAGTGATTCTCGTGTCT
Celera SNP ID:            hCV26024934
SNP Position Genomic:     933898
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49940):
TATGTCAGCCATGTATACATCTGCTGTTGTGAAAGATAATTTTAGGTGGCATAGAGGTGATCTTTTATAATTTTAATAGCTATTTATTTTGATGTACAAC
K
AAGCAATACCTGGTACGTTTCCATAATTTAAATCATATCATTGCTTAGAAGTAAGTTAAATTTCAAAAATCAATTTAAAGTATATTGAAAGTAGATTAAT
Celera SNP ID:            hCV28033442
SNP Position Genomic:     752939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49941):
TTATTGTTGTTATTATCATTACTCCTACTATTACTCCTCCTCTTGCTGCTGCTGCTAAAGTAGCAAAACTGTCTGGCTCCCGGAGCGCCACCTATTGACC
W
TATAGTTTGCCACCTGTCTCAGTTTTGTGCCATGCATGAGCTCATCCTCACCAATTATTGGCAAGATTATAGAACAGGACACAGAGTGATTCACCTTCAG
Celera SNP ID:            hCV28033443
SNP Position Genomic:     783626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49942):
TTCTGATGAGTAAGCCTACCCCCATCTCTGTTCCATGGCCCCCTTAAGTCATTTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTAT
C
TTTGAGACAGCTTCTCACTCCATCATCCAGGCTGGTGTACAGTGGCATGATCTCAGCTCCCTGCAAACTCCGCCTCCCGGGTTCAAGTGATTCTCGTGTC
Celera SNP ID:            hCV26024935
SNP Position Genomic:     933897
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49943):
CGAATGTCAGTGTAGGTTGGGATATATTATTAACAGGCATAGACTGAGCTCTTACAGTGAGAACAGCCTTGTGCTGGTTACATATTTCATTACGGGGTGG
S
CTGGTGTGCTTTGGGAAGGACAGGCATGAAAGGGTGACTCATACGTGGCCTATGGGTCCTATGAGGAAATTTACCTCAACCAGGGGAGGAGGACTTTCGG
Celera SNP ID:            hCV28033444
SNP Position Genomic:     587349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49944):
TTATGCAGTTTTTATTCCTGACCTGCCTCAAGGAGCAGATACGGACTGGAAAGCAGCCCCTGTTGGATAATTGCTGCTTGTCTCAGAGTTTGAGATTCTG
Y
CGGGGTTTCTTGAGTCACCGAGCATATGGGGCTTCAGGTTGGACTGCCCACTCCAGTGCCTGAGAATTTACTGGGAAGTTTTAATAAAGTAGAGCAGAAA
Celera SNP ID:            hCV9486015
SNP Position Genomic:     49125
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49945):
CTTCTGATGAGTAAGCCTACCCCCATCTCTGTTCCATGGCCCCCTTAAGTCATTTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTA
T
CTTTGAGACAGCTTCTCACTCCATCATCCAGGCTGGTGTACAGTGGCATGATCTCAGCTCCCTGCAAACTCCGCCTCCCGGGTTCAAGTGATTCTCGTGT
Celera SNP ID:            hCV26024936
SNP Position Genomic:     933896
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49946):
GAGCTCTTACAGTGAGAACAGCCTTGTGCTGGTTACATATTTCATTACGGGGTGGGCTGGTGTGCTTTGGGAAGGACAGGCATGAAAGGGTGACTCATAC
R
TGGCCTATGGGTCCTATGAGGAAATTTACCTCAACCAGGGGAGGAGGACTTTCGGCAGCTTTTCCCTTCTCTCTCTGTCTGCTTCTTAATATCACAACCA
Celera SNP ID:            hCV28033445
SNP Position Genomic:     587394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49947):
GACCTGCCTCAAGGAGCAGATACGGACTGGAAAGCAGCCCCTGTTGGATAATTGCTGCTTGTCTCAGAGTTTGAGATTCTGCCGGGGTTTCTTGAGTCAC
Y
GAGCATATGGGGCTTCAGGTTGGACTGCCCACTCCAGTGCCTGAGAATTTACTGGGAAGTTTTAATAAAGTAGAGCAGAAATTTTCCAGCTGCATCCGAA
Celera SNP ID:            hCV9486016
SNP Position Genomic:     49144
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49948):
TCTTCTGATGAGTAAGCCTACCCCCATCTCTGTTCCATGGCCCCCTTAAGTCATTTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCT
A
TCTTTGAGACAGCTTCTCACTCCATCATCCAGGCTGGTGTACAGTGGCATGATCTCAGCTCCCTGCAAACTCCGCCTCCCGGGTTCAAGTGATTCTCGTG
Celera SNP ID:            hCV26024937
SNP Position Genomic:     933895
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49949):
ATAAAGTGACATAAATATAGATGAATACTTGAGGGTAAACTCTAGATTCCACTTATGCCAATAATAGTTCTCTTTAGTTGCACATCTACATAAAAAGACC
M
CCCCCCATACTTTGACCCCAACTGCTTCTCAGCCTAACCCTCTACATGCTTAAGCATATGCCAGTAACTCACGATTTGCAAAACTTTCCAGACTCTTCCT
Celera SNP ID:            hCV28033446
SNP Position Genomic:     597285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49950):
TTTTTCACTGACAGTAAGCCTAACCTCTCAGGTTAGAAATCTAAGTTGCCTTGCATTCCTCCCTCTCTCTTCCCCACCAAGCTCTGCATATTCCATCTCA
R
GAATAAATCTCTAACATTTCTCCCTTGTCTTCTTTCTCTGAAGCCAATTTGCATCTCCCAAGTAGTCTTCTGATGAGTAAGCCTACCCCCATCTCTGTTC
Celera SNP ID:            hCV26024938
SNP Position Genomic:     933729
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49951):
GTTAAATCGAGGAAGCAGTGAATGAGTTGGAAGCTGCCTTCCTTAGGCTGTTTTACTTCCAGAATTCTACTTTTTCACTGACAGTAAGCCTAACCTCTCA
R
GTTAGAAATCTAAGTTGCCTTGCATTCCTCCCTCTCTCTTCCCCACCAAGCTCTGCATATTCCATCTCAGGAATAAATCTCTAACATTTCTCCCTTGTCT
Celera SNP ID:            hCV26024939
SNP Position Genomic:     933659
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49952):
TCTAATACTCTGACACCTTTAGCCAGTTACTTCTCAGCCTCTGTTTTCTCATTTTTAGAATGAGAGTGAGATTACAGTATCATCTCCTAACAGTGTTATC
R
TTAGTGGGTGTTTATCACTCAGCCCAGTCACTTAGTAAGTGTTCCGGAATTGGGAGCCAGCCTGCCACATATCGGTTTTATAGTTTAAGCTCCCTGCAAG
Celera SNP ID:            hCV28033447
SNP Position Genomic:     606140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49953):
CCTCAGCCCTATGGGACACATGTCTGTTCTGTCCTCATTCTGATGGGTCCAATCTGGAGGTGACTGAATCCTGAATGTCAGGAGGCAGCAGAGGGTGGGG
Y
CAGTTCTAGAGAAGGCACATCACCTGTCTCTCCTGCAGGATGGTCTGTGGCCATTGGCGTAGGCCTTCGTTGACAAGCCAAGCCTCTGACATCTGAATAG
Celera SNP ID:            hCV28033448
SNP Position Genomic:     632951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49954):
GAATGCCAAGGGAAGTTTCTAGGTTCTTGGAGATCAAGTTAATGCCCCTCATAAGGTTGTTTCACATGAGCCAAAATGTATATTGATTTTTTTTTTTTTT
T
GCCTTTATTACACTTCCAGAAAGAGAGCATGATCTCCTGGAATCTGTTTAGGGAATAAAAATGTCCGTACAGAAGAAAAAGGTTGTTTTTTGACCTTCTG
Celera SNP ID:            hCV26380341
SNP Position Genomic:     280108
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49955):
CTTTGATACCATCAGCTCAGACAGATTTTTTCCAGCAAATGGAAAAATGTGTGGTCATTGAGCTCATTAGGAGAAACCATACCCTTGACCTCCAGCCTCT
R
TTAGCAGGGGATGAGTGCAGTCTTTGGTGTCCAGAAAGAAGATCCTCATTGGCCACATAGCCACCATTAGAACTGTACTTTTTTTTTCTTACCCTTGTTC
Celera SNP ID:            hCV2810120
SNP Position Genomic:     241524
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49956):
AGAATGCCAAGGGAAGTTTCTAGGTTCTTGGAGATCAAGTTAATGCCCCTCATAAGGTTGTTTCACATGAGCCAAAATGTATATTGATTTTTTTTTTTTT
T
TGCCTTTATTACACTTCCAGAAAGAGAGCATGATCTCCTGGAATCTGTTTAGGGAATAAAAATGTCCGTACAGAAGAAAAAGGTTGTTTTTTGACCTTCT
Celera SNP ID:            hCV26380342
SNP Position Genomic:     280107
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49957):
GATCCAGGAGCCCAGAATGCCAAGGGAAGTTTCTAGGTTCTTGGAGATCAAGTTAATGCCCCTCATAAGGTTGTTTCACATGAGCCAAAATGTATATTGA
T
TTTTTTTTTTTTTTGCCTTTATTACACTTCCAGAAAGAGAGCATGATCTCCTGGAATCTGTTTAGGGAATAAAAATGTCCGTACAGAAGAAAAAGGTTGT
Celera SNP ID:            hCV26380343
SNP Position Genomic:     280094
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:49958):
ATGAGTGCAGTCTTTGGTGTCCAGAAAGAAGATCCTCATTGGCCACATAGCCACCATTAGAACTGTACTTTTTTTTTCTTACCCTTGTTCATTCTTTATG
R
GTCATTCCTCTTAGGCCACCCACATGCAAACATAGACACATAGGTAGAGACAGAAATCACAGCATCTGAATTTACCTACAATACAACTTGCATCACATGT
Celera SNP ID:            hCV2810121
SNP Position Genomic:     241635
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;(A,-|G,-)   Caucasian(A,25|G,51)   African-American(A,25|G,57)   Asians(G,16|A,66)   total(G,124|A,116)
SNP Type:                 INTRON


Context             (SEQ ID NO:49959):
TAGGAAAGAACCTGCATTAACAAGAGCAGGCTAGGCTAGGCCATGGTGTCAAACAACTCTAGTGACTTAACACAGTGAAAGTTTATTTCTCACTCAGATC
R
TGCAGATGCAGTCGGGCTGCTCTCCTGGGTAACTCTCCTCCCAGTGGTTGCCCTCCATGCAAGAACCTGATGGCCGAGGCTACTTCCAACTTGGTCCTAC
Celera SNP ID:            hCV2810122
SNP Position Genomic:     241837
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49960):
AGCCTAACCATATTAGGAACATATGTTGGCATGCAAGCTTCTGTGAGTGTGGACAAGTATGGCCTCCCTGGCCTTGATAACTGACAGTTACTGTGTGCTC
Y
CTAGTGTGTTGAGGGCCACCTCGAACCTCACAACAGCTCTTAGGGGAAAGGTACTCTCATCTGCCCATTTTACAGGTGAGGACATTTAAGGCTGAGCTAG
Celera SNP ID:            hCV2810123
SNP Position Genomic:     246113
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49961):
TTAGAATCTGGAAGGATAGAGAATAGAGTTTTATAGGGACTGGGACACACTGGAAATTTGAGGAATTTTAGTTAGGTTAGGAGGCAGTTCCTACATATAG
R
TGGAAGGAGAAATACCAGGAGTCTTGTCTTGTCTCAGCCTAACAAGATGACTTCTGAGAATATGATCAGGCCTGTTTCCGGCCTAGCATTGGAGTCCAGT
Celera SNP ID:            hCV78459
SNP Position Genomic:     901939
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49962):
GTTTTTTTGATGTTGGTGGTGATACATCAAGGAAATTTGCCGGTGTGTTTTCCCATCACTTTTATCAACCAGGGTGAGATAGAGAGAACTGCTGCTGCTG
Y
GTATTTGTTGCTTTTCATAGCCAAGCTCATCCTGTCTCTGTATTATAGAAGAATTAGCTTTTTCTATTCTGGATGGACCCAGGGCCAGATTGTCCATGAC
Celera SNP ID:            hCV2810124
SNP Position Genomic:     246426
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49963):
ACGCTTCTTAGATGCTTGAGACTGTAAACCCTTATCAGGAACATAATGCGATGGGATGTTTCTCTCTCTTTAGGCAAAATTTAAGGATACTGGTGGATAA
W
ATTTACTTAATGATTGCTATGTGGCAAGTGTTTTGCTAAATGCTTTACAAATATTTATTTTCTGTGAGATGGTTCCTGTTCTTCCATCTCAAAGATGAGG
Celera SNP ID:            hCV7623843
SNP Position Genomic:     712321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49964):
TGATAACTGCTACATTGTGTAATTATTATCATTATTATTTGAGATGGAGTCTCTCCCTGTTACCCAGGCTGGAGTGCAGTGGCGCAATCTCAACTCACTG
Y
AACCTCTGCCTCCTGGGTTCAAGCTATTCTCATGCCTCAGCCTTCCGAGTAGCTGGGACTACAGAAGTGCACCACCACGCCTGGCTAATTTTTGTAATTT
Celera SNP ID:            hCV2810125
SNP Position Genomic:     248170
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49965):
AAGAAAGGGCTGGAAGGGTCCTGGGGAGGGAGAATAAAGTGGGGTTGGTTAATGGGTACACAAATACAGCTAGAATGAATAAAATCTAGTATTTTGTAGC
R
TAATAGGGTAACAAAAATTAATAATTTATTATATATTTTACATACCCAATAAGATGAAATTGGAATGTCCCTAACACAAAGAAATGATAAAGGTCTGAAG
Celera SNP ID:            hCV2810126
SNP Position Genomic:     249622
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49966):
GAAGTGATGAATACTCAATTACTCTGATTTGATTATTACACATAGTATATCTGTATCAAAACATCATAGGTCCCCTCTAAAAATATACAACTATTATGTA
Y
CCATAAAAATTTAAATTACTTTTTAAAATATTAATCTATGTAAAGGGTTTTGAATAGTAGCTGACCTATAATGGTCCCTGAAATATTAGCTGTCAGAAAC
Celera SNP ID:            hCV2810127
SNP Position Genomic:     249819
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49967):
TCCCTCCAAGATGGCCACCAGCAATTCCAGTCTTTTATTCTTCTAGCTAAAAGAGCCAGAGCATCTGTTTTCCCAGTGTTCCAGCAAATATCTCAAGGCT
R
ACCGTCCTTGGACCAACTTGGTTTACGTGCTTATCCCTAAGCCAGTTATTATATCCAAGAAAATTCTGTACTTCTCTTAGCCAGGCCTGGGGAAATGGAG
Celera SNP ID:            hCV2810128
SNP Position Genomic:     250986
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49968):
CATATTCCAGCATAGAGCACTCCCTAACCCCACTCCCGTAGCACTGGGACTATAGCTTTATTTCTTGCATCATTTTTCTCTACGCTCAAAAAAAAAAAAA
A
GCAAAAACAAACAAAAAAAATCTGCTCAGCATGAGAAATCAAGTTAATGAAAACGCTACCGCATTGAATTTCCAATAAGAGAAAGGCAAAGCAAAACTTG
Celera SNP ID:            hCV26024940
SNP Position Genomic:     932451
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49969):
AAGTCCAACTCCTACTTCAAGACCGCATTCAAATAATGCCTCCTGTCTGCAGCTTTCCTCAGCTTCCCCATGGAGAATTGATGGCTCCCTTTCTTTGAGC
R
TATTCATTCATTCATTCATTCATTCAATGACAACTATCTACCAGGAGCTGTTCTAAGCATTGGGGTGTGGAGGTGAACAAGAAAGCATAGAGCCATTGTT
Celera SNP ID:            hCV26024941
SNP Position Genomic:     928671
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49970):
GTGTAGCTTGGCGCTTGGCACATCGTATGTTTTAAGTAACTATAGGTTGAATTAATTAATATTCTTTCCACACAGCAATTTGGCCTGCATAAAAGACTTC
R
ATATTTTCCTGATGTTGCCAGAGGCTTAATGTGTGACATTTCGTATAGCAAATGCTCAATAAATGTTGGGTGAGTGAACATAGCTGTCACTCCTCATTAC
Celera SNP ID:            hCV26024942
SNP Position Genomic:     925988
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49971):
TTATATTTATAAATATATATATTTATAAATATAAATAAAAATTTATATTTTTATATATAAATATAAATATATTTATATATTTATATTTATAAATGAAACT
R
TATAATTTTTATATAAATTAATATTATACATTCATATATTTATAACTCATCCATATATATATATATATATATAAAAACCTTCTGGCGCCACCCAAGGGCC
Celera SNP ID:            hCV26024943
SNP Position Genomic:     953700
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49972):
AGACAAGGTTGGAAGGAATAATTGTCCAGTTAGAATGCATAATCTGTTTTTAAAGACATATTAAACTGGAATAACCCATGTACAAGTATTTATCCAGCTT
R
GATACCTGGAAGTGGAATTCCTGGTTGAAAGGTATATTAATATAAAATTTTGTAAAAAAATATATGTTAGATAATGCTTAGTCATCCTTCGCAAATATCA
Celera SNP ID:            hCV26024944
SNP Position Genomic:     921614
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49973):
AAAATTATATATTTATATATATGAATAAAATATATTTTATATTTTATATTTATAAATATATATATTTATAAATATAAATAAAAATTTATATTTTTATATA
W
AAATATAAATATATTTATATATTTATATTTATAAATGAAACTGTATAATTTTTATATAAATTAATATTATACATTCATATATTTATAACTCATCCATATA
Celera SNP ID:            hCV26024945
SNP Position Genomic:     953657
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,6)   total(A,1|-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49974):
TTTTATAAAAATTATATATTTATATATATGAATAAAATATATTTTATATTTTATATTTATAAATATATATATTTATAAATATAAATAAAAATTTATATTT
W
TATATATAAATATAAATATATTTATATATTTATATTTATAAATGAAACTGTATAATTTTTATATAAATTAATATTATACATTCATATATTTATAACTCAT
Celera SNP ID:            hCV26024946
SNP Position Genomic:     953650
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49975):
AAGATTAGAGGAGGACTTGGGAAGCTCTGCCTCTTGTTGCTTGGATTGTGCACAAATACATTTATTTCTGGGTATGTTTAGGTTATTTCTTTTCAGATTT
M
TTTTGGTTTACACCGTTTCCCAAGCATTAGTCATCACTGTCCCCTGAAGCAGTCACACTATACTCATCTCCGTAGATGATCAATCAGAATCTTGAGAGTG
Celera SNP ID:            hCV26024947
SNP Position Genomic:     921082
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49976):
GAATGTCCGCACATGTCACTGAGTTATTGATGAATCATTGTTTCTATTCTGAGCTCAGTTCACGTAGTTCAATGTGCTTTGGCTTGGCTGTCACTTTAGG
R
GATGATAGTTAACCCAACGGAGTAAATCTGGCCAATTCCCGAGTGGGGGCAGGGGGTTGGGCTCAACTAAGGGCACCAACAATAAATGCCTCCTTGCTGG
Celera SNP ID:            hCV28030113
SNP Position Genomic:     951358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49977):
ATTGGAATATGAGGGAGATAGGAAGAAAAGGAAAAGGAACCATTTGCTCACACTCTGGCAGATCTAAAGAAGGTTTCATTACTGTAGGGCTTCTCAGAAC
Y
TTCAGTACCCTAAGACAGAAGCTTCTTAGACATTATTTGTTCTACAGGAAAAAAAAAGTGTTGCAAAGAATAGCTACATATAGTTATTATCTAATATAGT
Celera SNP ID:            hCV26024948
SNP Position Genomic:     920393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49978):
GTGTCTTGTTGATCCAGGTCTCAGCTTAGAAATTACTTCCTCCAGGAAGCTGTCTCCAAGTCCTGTTCAGATATCTGTCCTTATAGAGCGTTTTTTATCT
Y
ACTTACTATACTTTTTGTTGTCTTACCTATTTACTATATGCTTATATAGTAAGCAACTCTTAGGAATTAGACAAAAGTTCCCATTTCTGTAAGACAGATT
Celera SNP ID:            hCV151155
SNP Position Genomic:     530801
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49979):
GGTGGCCACAAAACCACCTTGAGGACTAGCAAAAGAGCCATATGGGGTCTTTTCTGTCTGTTCACCCCACCTTCTAAAATCCCCACCTCTCACACCTGGT
S
TCTGATGACACTTGTCTCGGATGTGACTCTGTGTCTGCCCCACAAGATGATGTCTTCATCTGCCATTTAACCCAACCCTTTCTGAGTTCTGATCATGTTC
Celera SNP ID:            hCV26024949
SNP Position Genomic:     953164
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49980):
TTGATTCTCACCTGCCTGTGTCTTGTTGATCCAGGTCTCAGCTTAGAAATTACTTCCTCCAGGAAGCTGTCTCCAAGTCCTGTTCAGATATCTGTCCTTA
Y
AGAGCGTTTTTTATCTCACTTACTATACTTTTTGTTGTCTTACCTATTTACTATATGCTTATATAGTAAGCAACTCTTAGGAATTAGACAAAAGTTCCCA
Celera SNP ID:            hCV151156
SNP Position Genomic:     530784
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49981):
TATGCTGCTCCCCATAAGACCCTTCACTTCTCTATTGACATCATTTTCACCTTCAACTCCACACTCAGATACTGACTCATACATATGATTGATTCTCACC
W
GCCTGTGTCTTGTTGATCCAGGTCTCAGCTTAGAAATTACTTCCTCCAGGAAGCTGTCTCCAAGTCCTGTTCAGATATCTGTCCTTATAGAGCGTTTTTT
Celera SNP ID:            hCV151157
SNP Position Genomic:     530696
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49982):
CTCCCTATCCCTACCCACTTTTCTCTCCCTTGCTATCATTATCTCTGTCCCCAATATATGCTTCTGCACATCTCACATTCTGGCTTTTTCTTATGCTGCT
Y
CCCATAAGACCCTTCACTTCTCTATTGACATCATTTTCACCTTCAACTCCACACTCAGATACTGACTCATACATATGATTGATTCTCACCTGCCTGTGTC
Celera SNP ID:            hCV151158
SNP Position Genomic:     530605
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49983):
AGGCAGTTCCTACATATAGATGGAAGGAGAAATACCAGGAGTCTTGTCTTGTCTCAGCCTAACAAGATGACTTCTGAGAATATGATCAGGCCTGTTTCCG
S
CCTAGCATTGGAGTCCAGTGATATCCAAGGGCCTTTATCAGGAAAACTGCAACATATGAACACAACACAGCCTCTGTTTTGGAGTCCCCAGAAGACAGCT
Celera SNP ID:            hCV78460
SNP Position Genomic:     902020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,3)      total(G,3|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49984):
GAAAGAAAGGTGCCTCAATACAAGCAGCATGGCAAAGGTACAATCCTCCCAGTGTGAATGGTGGGGGGAACAAGGGGAACTGAAAAACATGCATGAGGAC
R
TTAGCTTTGAATGGGTTTCTTAGAGCTGGGGGACAAAGGAAGAGTCGCAGATGATCAGAAAGGAGATGTGAAATCTTCTGCTTGCTATGTTGAGTTTGAA
Celera SNP ID:            hCV78461
SNP Position Genomic:     902584
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,9)   total(G,9|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49985):
GGAAGAGTCGCAGATGATCAGAAAGGAGATGTGAAATCTTCTGCTTGCTATGTTGAGTTTGAAAAATAAATGAAAAAATTTCAGGTAAAAACAGCAAATC
R
TAGCAAATAAAGATCTCATATTCAGGAAAAGGGCTAGGCCTGGGTAACTTCATGATATAAATGTTCACCATTGCTAAAACTTAAAGGACTGACAATATCA
Celera SNP ID:            hCV78462
SNP Position Genomic:     902722
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49986):
TCAATGTCACTAAGATTTAAACCCCTATCAGCCCATCTCCAAAGCCCATGCATTTTTTCTCCCACTATACAAATCAATATTATTGATATTTATATGTGTG
R
TAAGCTTGCAGAATAAATAGATTTTGAACTTTCTTTTTAACACAGAAAAGCAAAATACAGTGAAGTTTTGGTGGAACTTTCATTCTCATCAGGGCATAGG
Celera SNP ID:            hCV221728
SNP Position Genomic:     880639
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:49987):
AGGATGGGTGCTGGTTTCCAGGGGAATCAACCATGTATTTTTAGAAGGTTGGGGCTTTCATCATCCACCCCACCTCCAGGGAGGAAAGGGAGGCTGAAGA
Y
TGAGTTGATCACCAACGGTCAGTGAGATACTCAATCGTGCCTATGTAACAAAGCCTCCATGATAACCCCAAAGGACAGGGGTTAAAGGGCTTCCAGGTTG
Celera SNP ID:            hCV10075105
SNP Position Genomic:     193473
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49988):
ATCTTTTGCTCTAATGAGTTGACTTGTGCTGGGCTCCTGGATACCCCCAGGATGGGTGCTGGTTTCCAGGGGAATCAACCATGTATTTTTAGAAGGTTGG
R
GCTTTCATCATCCACCCCACCTCCAGGGAGGAAAGGGAGGCTGAAGACTGAGTTGATCACCAACGGTCAGTGAGATACTCAATCGTGCCTATGTAACAAA
Celera SNP ID:            hCV10075106
SNP Position Genomic:     193425
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49989):
GGAGCACTAGGAAGTCATTAGGATATTTGCAATAATTGAAGCTTGCATCCTATTTGAAACTTCCCCAAAGAAAAAAATGAGCGAGAAGAGTGGTCAGCAG
K
AAGCCTTGAGGAGTTCCAAAATCAGTGGCCAGCAGAGGTGGAGGAGCCTAAAAATGAGACTTTGGAGGGAGCAGCCACAAAGATAGGAGAAAAGCCAGGT
Celera SNP ID:            hCV10075107
SNP Position Genomic:     191429
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49990):
GGGAGGAAGACCAAGTGTCTGTGATGTCAGGTGGGTATTTCGGAGTGTATATAAATTACAGTAAGGGCAGTGTCAAATGAGTATGTGTAATGCATCTACC
C
ATGGTCCCTAGAGTCCACTAGAAGACAATTTCTTGGTGTTTAAGAGATTATTCTTTTAATAATTCATTGATCTTAACAATACAATACATCAATGGTTTAC
Celera SNP ID:            hCV26380352
SNP Position Genomic:     278299
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,13)   total(C,1|-,13) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:49991):
AGTAGGATAAATAAGGACCACAAATAACATCATGTCAGTTCAGGTTGGGTTTTGCTGCCAAATGAGTTATAAAAACATGTTTGGTATGCTGAGTCTCTTG
R
ATTTCAGAATTGCAGATTGCAGTCCTTAGAACATTCCCGTGAAAAGTTGCAAACCTTAGTCGTGCTAAGATGTTGAGTTGGCGTCTTCACATCCCGGCCA
Celera SNP ID:            hCV2810130
SNP Position Genomic:     253301
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49992):
GTATGCTGAGTCTCTTGGATTTCAGAATTGCAGATTGCAGTCCTTAGAACATTCCCGTGAAAAGTTGCAAACCTTAGTCGTGCTAAGATGTTGAGTTGGC
S
TCTTCACATCCCGGCCACTTCTGGGAGCAGCAGAGTGTGGTGGCTCAGCCCACCCCTCAACCCCTCTACTACTTGTGAACACCTTGGTAAATGATGTCTT
Celera SNP ID:            hCV2810131
SNP Position Genomic:     253384
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49993):
ATATCAATGGTTGAAAGAATATGCATATATTAATTAATAATTCCGACATACTTCTTTTATAAGGTCCCTTATGAAAGATAGACTATTTTCCACATTTACT
K
TGCATTGGAAGTGACAGATGAAATTAATATGCTTCATAAATTGCCATCACAGAGGGTCAATTAACAAGTGAACTAACCTTGTGAAAGTCATTTTGAAAGA
Celera SNP ID:            hCV7623850
SNP Position Genomic:     691461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:49994):
GCTTTGATTATGCTTCCAAGGTTTTGTTCATTTTTGGGGCATGACCAAGGTAGTTCTAGAATGAGTGAGGCCAAAGCTGAAAGTGTCACAAAGTTTTTGC
R
TATGACAAAAGTTGCCTGCTTTGCTTTTGGATGCTCAACTCAGACTTCTTGTTTTCATGATGTGCAGTTTTGATCAGGACATTTTAGTGATAGGTATAGC
Celera SNP ID:            hCV2810132
SNP Position Genomic:     254211
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49995):
CGTCAAACCCCTCTCCCTCTCCAGTAGCATTCCCCAGTCTGTGTCACCTAGACGAAAAGGATCTCAGGGTGGGTGGCAATGCTCCTTCACTGAAATCTGC
M
GTTATCTCTACCCAAGGCTTACAGTAAATTTTTTGCAAATTAGAAAGCCCTTTGCTCTCTCAGTAAACCCTGGCTTTCAAGATTTTTGTTTTAGTAAAGT
Celera SNP ID:            hCV2810136
SNP Position Genomic:     257269
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49996):
CAAATTTATTTAATGTGTATTAGCCTAGAAAATCAAAGGAGGATGATCACGCAATAACCCAGTAGGTCCAGATGCTTATACAACTTTCTTCATTGGGGAA
K
GAGAGATTGAGTCAATGTGTCTGTCAATTTGAAGGGGAGTAAATAACTTTTAGGGGGAATGAATAAGCCCAGTGCTGAGACAATGGTTAGTAAATAATGT
Celera SNP ID:            hCV7623855
SNP Position Genomic:     684719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:49997):
GAAATCTGCAGTTATCTCTACCCAAGGCTTACAGTAAATTTTTTGCAAATTAGAAAGCCCTTTGCTCTCTCAGTAAACCCTGGCTTTCAAGATTTTTGTT
K
TAGTAAAGTCTTTAGACTAAATGTTGAATCTTTCACTCTCTTTGCTCCTAATCATCTCTAAGACAGCAAATGCCTCTAGCAAAAAAGAGGAGACGTCAAC
Celera SNP ID:            hCV2810137
SNP Position Genomic:     257360
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49998):
TCTCTGTTACTTGAGGCTTACAAGAAGGAAAGAATTCCCTCTCTAAACACACTCTAAACACACAGGAGTTGAGAACGGGGAGATTTATTCCAGAACCCCT
Y
CTGTGCGTTGGGGCTTCTGGTAGCTTGCCTTTCTTGGTAACGATTTTCTCAGAGACTGGGTAGATTCGAGTGGAGCCTGGGGCATGGTTGTTGGTCCAAT
Celera SNP ID:            hCV2810138
SNP Position Genomic:     257609
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:49999):
TCTAAACACACAGGAGTTGAGAACGGGGAGATTTATTCCAGAACCCCTTCTGTGCGTTGGGGCTTCTGGTAGCTTGCCTTTCTTGGTAACGATTTTCTCA
R
AGACTGGGTAGATTCGAGTGGAGCCTGGGGCATGGTTGTTGGTCCAATGGCGGGGGTTGGGGAGACACAAGCAGTTGGCAGGGAACTTACAAATCTCCAG
Celera SNP ID:            hCV2810139
SNP Position Genomic:     257661
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50000):
TCATTCTCCACGAGCACATGCCCCCGACTCAGGGACAGGGGAATCTAAGCCTGTGCATTCACACTCCACAAGATTTCCTCTACTGGCTTTACAGGGCACT
R
TCACGCGTCTCCCGGGCGCACCTTGCTCCCCTCTTCCTGCAAGGCAGGGGGAGAACGTTCATCCTTGAACAAACAAAGAGCATCCTCAGCCAGTCAGGCG
Celera SNP ID:            hCV29182888
SNP Position Genomic:     1179182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:50001):
TTCAGTTTAGGGAGTATGAAAATCTCAGATTAGAAGAGAAGATGGAGGTCATTCCACCCAAACCCCCTCCCCATGAATACCTCTGTCTTTTTTTTTTTTT
T
CTTTTTCATTGTAGATCTAGGCGAGCTTGCTTCTTCAGGAAGTTAAGCCCCATTGTTAGGCATCTCTGAAGTACAAGCAGTACATAGTATTTATGGTTGG
Celera SNP ID:            hCV26024950
SNP Position Genomic:     911907
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50002):
TCTCCCAGGCTGGAGTGCAGTGGTACAATCTCCGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTTCCGAGTAGCTGGGA
M
TACAGGTGCACGCCACCATGCCAGGCTAATTTTTGTATTTTTAATAGAGACAGGGTTTCACCATATTGGCCAGGTTGGTCTCGAACTCCTGACCTCGTGA
Celera SNP ID:            hCV26024951
SNP Position Genomic:     952682
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50003):
TGCCTTCTTCCTTAAATCTAAGTAATATCCCTGCAGCTATTCCAAAAGGAACACTATAACTGGCTATTTGACATAATAAGGATGAGGAAATTTTGGTTGA
Y
CACATTTTAAATGGGAAACTGTATTTAGAGAGATTTTAAACTGCAAAATTAAAAATGCAAACGTGAAATTATTTTTCCATTAAGTCTTCTCCTTGGGGAA
Celera SNP ID:            hCV26024952
SNP Position Genomic:     911093
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50004):
TTGAAATATATTTGAATGAATAAAATAATACATCTAGTAAAAATACATTTTCCTATTTTTTTCTAAAAGTATCTTACACATTTTCCATCAGGCTCAATTG
W
GAAATCCCTCCAGATTCCTAATTATCTTCTTCCCAAGATAACAAGATTTCTGTCCTCTCTTCACAAAGACATAGGACATGGGCTCAGAGACGTCCAGGCA
Celera SNP ID:            hCV26024953
SNP Position Genomic:     952394
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,5)   total(A,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50005):
TGGATACTGGGCTGCAGCCTTGATGCTGTTTTTTCTCTGGAAACTATGCTTGAAATATATTTGAATGAATAAAATAATACATCTAGTAAAAATACATTTT
Y
CTATTTTTTTCTAAAAGTATCTTACACATTTTCCATCAGGCTCAATTGAGAAATCCCTCCAGATTCCTAATTATCTTCTTCCCAAGATAACAAGATTTCT
Celera SNP ID:            hCV26024954
SNP Position Genomic:     952345
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50006):
AGTCCCAAACCACTGTCTGGCCTCCTCTCCTTTCCCTCCTTCTGAACACCCTAGATTCCTGCCAAATATAATGTTATTCCACAAACCTATGAGGACCTTG
M
CTGCCCTCTGTCCTTTGCACATGCTCTTCCTCCAGCCTTTGCACTCTTTCCTTCCCTCGTCCACCTGGGAGACTCCTGCTGATCTTTTCAGACTCAGCTT
Celera SNP ID:            hCV26024955
SNP Position Genomic:     951948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,3)      total(A,3|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50007):
AACAATAAATGCCTCCTTGCTGGTAGATGGGAAGGACTGAGAAGACAGAGGAGAAATTGCTTGCATTCTGCTAACATCTGCAACGTCTGTAACAGTGTCT
Y
TTCCAGCAGTTGTAAAGGATCCTCACTCTCCCTTTCCTCCCTCAGTCCCAGTTCCTCCTCCAGAGCTCCTCGTGATCATCTCCCAAAGCCACTCACTTGC
Celera SNP ID:            hCV26024956
SNP Position Genomic:     951536
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50008):
TGGGCTTTCCCAGTGCCCAGTCATGGCTCTCATCAGTGTATTCTCTAAAACCATTGACTTCTTCGCCTTCCCTAGCAATCTGTGAGTCTGTAGAAGAAAA
K
GCCATATCAATCTAACTTTGTATTCCTGGTTCTTGGCACATAGTGGGTGAACTCACACAGACTAGAGATAAATCAGAGATGAATGAGTGCCCCCTTGAGT
Celera SNP ID:            hCV26024957
SNP Position Genomic:     950086
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50009):
CTGTCTTCCAAGCAACAGCCCCAGAATGCCTCCTAGATAGTGAGGCTGCCTTCAGTTGGCCTGAGATTGTTGCTCTGACCCTGGTGCCACCCTTCCTCTC
Y
AACCTTGTTACAAACAATTCAGAAGGGAGGATTGTGAAATCCTTCCTGCTGCTCTTTCTGTCTTCTGCCAATCAGAGAAGACTGGACATGAGATCCAAGA
Celera SNP ID:            hCV359676
SNP Position Genomic:     425290
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50010):
CCGGAGGTCGTGTCTTCGTTTAACAAATAGACCACATGTTGACAAGCAAAAAACGGCTTTCTTTGTCTGGCAAGAAAAGCCACTGCCTCGCTTCAGACAA
Y
GCTTTTTTTTGTTGGTGTCTCCGCTGACAACCCTGTTCAAAGAGAGCCACAAGGAATGAAAGTGAAAGCAGAAAAAGCCAACTTCGGTGTAATTAAGAGA
Celera SNP ID:            hCV26024958
SNP Position Genomic:     517154
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50011):
CTATTCCTACACATGACCATCTTGTGCTCATGCATTTTCCACTTGCCAATGTCTCAGAAACCTTCTTCATGTCCTTCATCAACACGTGGTATGGCAGACC
R
TTGCTATGGCCAACACTGAGTTTCAGGGCTTCTAATGTGGGATCTACTGCCTCTGCAGGGACCCANNNNNNNNNNNNNNNNNNNNGGGGGCCACGCCCGA
Celera SNP ID:            hCV26024959
SNP Position Genomic:     519947
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50012):
GTCTGTAAGAGCGTGACCACCAGTCTTATTTACCTTGTTATCTGTAATTTCCTCTTTCCCTCAGGCCTTTGCGTAATATTTTCTCTGCATGGAAGGGGAG
R
ATAAGAAAGAAGACCTAAAAACTGAATTTTTAAAATACAAACAGAAAAAAAGCTCCCTGTATTTTCCCAAATTCTGCATAAATAAAATAATATGCTCCAT
Celera SNP ID:            hCV359678
SNP Position Genomic:     425999
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50013):
CATTTGGAATAGAGACATGAGTAGGTTCTACCTTCAGCCTTGGGGTGGGACCAGGTTACGAAGGGATGTTATTCTTTGATGGATGAGCAGACTACAAAAA
R
CTGTGCCACCCTTTGTCTCTATGTATTCACACTGCTTCCCCTAGCACCTCTTCTTTATCTCCTAACAATCATTGTGCCAACAGACTGCCTTTAGAAACTG
Celera SNP ID:            hCV10075111
SNP Position Genomic:     191116
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50014):
TAAAGACAATTGAAAACCAAAAACCAAAACAACTGCAAAGGGAAATCTTAAAGTATTTTCAATAATACTGCTTTTGGAGGTAGTGTTGATATATTTATTG
W
TATATAAAATATAGTATAATATTGTGTGTATTGAAAGATAAATGTATATGTTAATTTGGAGAACTAGAATATTGAAGTATGGGAGGAAGAAGATGCAGAT
Celera SNP ID:            hCV7624800
SNP Position Genomic:     202737
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50015):
TTTGAGTATCATGGAAATATTAAAAAGATATTGGGACACATGCATTTGGAATAGAGACATGAGTAGGTTCTACCTTCAGCCTTGGGGTGGGACCAGGTTA
S
GAAGGGATGTTATTCTTTGATGGATGAGCAGACTACAAAAAGCTGTGCCACCCTTTGTCTCTATGTATTCACACTGCTTCCCCTAGCACCTCTTCTTTAT
Celera SNP ID:            hCV10075112
SNP Position Genomic:     191074
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50016):
CAATTACATTCCTGTGACTCCTTTCAGGGCCGTGAAGATGTTCCTTGGACCCAGGCAAAGGCAGAACTGCTGACAGCTTTGGCTGCTCCATGTCACCTCA
Y
TTGTGAATGGCGACAGAAAAGCCAGGGTGATCTGTAGCTGATCCTCTGGTCAGTTCCACTGGCTCAAATTAAAATTTTAGAGAATCGGTCTCTGGTATAT
Celera SNP ID:            hCV1178800
SNP Position Genomic:     809312
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50017):
TTAATAAGGATGAGAATGCCAGAAGGGCCCAGGTTTAGGGAAGATGACCATGAGTTTGGTTAGGGCCTGTTGAGTTTGAAGTGCCTTTTGAGTATCATGG
W
AATATTAAAAAGATATTGGGACACATGCATTTGGAATAGAGACATGAGTAGGTTCTACCTTCAGCCTTGGGGTGGGACCAGGTTACGAAGGGATGTTATT
Celera SNP ID:            hCV10075113
SNP Position Genomic:     190988
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,9)      total(A,9|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50018):
ACACATATTTATTTGTTGATGTTTTATGGAAAATCTATTTGGTGCGTGAATTCTGTTGTTTTCTTGTGAAGTTCATTGTTTCAAATCTCCCCATCTTCCA
R
TGCATTCAGGCACTATTCTTGGTTTATTTGTTAAAATAACTGTTGCACTGGGCCAATCCATTACATTTATCTTTAATAACCAACTCTAGGGGTTTGTTCG
Celera SNP ID:            hCV1178802
SNP Position Genomic:     810218
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50019):
CACTGGGCCAATCCATTACATTTATCTTTAATAACCAACTCTAGGGGTTTGTTCGGTCATCACTTTCCCTGTCAAGGGGCACAAATATCTTCTCTCATCC
R
TTTCCTAGGGGGAAGTATCTTCTTTTCTTGTCTTGATAAGACAGTTACCAAAGGAAGAAAGAGGAAAGCCTTATCCTTTGAAAGATGGCATTAATTCATG
Celera SNP ID:            hCV1178803
SNP Position Genomic:     810364
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50020):
GAGTCTATAAATTGGACTGTTTTAGGTACCTCATCTAAGTTGATCTGGTACAGACACTATGGGACACACTATGGAGTTTCCTCAAAAAATTAAAAATAGA
S
CTACCATGTGATCCAGCAGTTTCCCTTCTGGGTATTTAAAAGAATTGATATCAGGATCTTGAGGACGTATTAGGGCTCCTGTGTTCACCACAGCAGTACT
Celera SNP ID:            hCV1178804
SNP Position Genomic:     811455
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50021):
TAGCAGTATTCCAAATGAGTTGCCATGGTGTCTTGTATTCCAGTGAGGAGATGGAAAGGTGTATATGGAATTGGAAATGGTTAGTAGATAAACTCTATGA
S
AATTGGGTATGTATAGACATTGGGGTGAAGGAAGTGTCAGGAGTGACTTATAGGGTTATGGCTTACACCACTCAACTTAATAAGGATGAGAATGCCAGAA
Celera SNP ID:            hCV10075117
SNP Position Genomic:     190811
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,9)      total(G,3|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50022):
GACTCTGTCCATTAAAGACAATTGAAAACCAAAAACCAAAACAACTGCAAAGGGAAATCTTAAAGTATTTTCAATAATACTGCTTTTGGAGGTAGTGTTG
R
TATATTTATTGATATATAAAATATAGTATAATATTGTGTGTATTGAAAGATAAATGTATATGTTAATTTGGAGAACTAGAATATTGAAGTATGGGAGGAA
Celera SNP ID:            hCV7624806
SNP Position Genomic:     202725
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50023):
TAAATGAAAAACCTGATTTCTTGGCAAACAACCTAATTGATGGGAGCTAAAGTAGTTGACTCTTATTTACTTCCACTTTATTCTTTAACATTACAAATAA
Y
AGACTCCCTGAATTGAAAGCAAAATTAAATGTGATTTTATCAAACCTTTATTCTTCTTTTTGAAATCCTGCTTTTCTATGTCTTATCCATAGAATTTCCA
Celera SNP ID:            hCV1178805
SNP Position Genomic:     811856
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50024):
CTGTGGGTTTTGCGTGTGAAGAGCATAAGAGGGGAGAGAGAGGAAATGAGAGAAGCTGGACCATGCAGAGCCTTGTAGGTGATGGGAAGGATTTTGCTTT
Y
ATCCTAAGAAGAGTGAGAAGCCATTAATAGGATTCGGGGTGATTGTGAGTCAGGGGGAAATGGGGGGAGGTATCAGGACATGGAGGTCTTTGCAATTATT
Celera SNP ID:            hCV10075118
SNP Position Genomic:     189867
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50025):
TAAAATTTATACTAATGAGACGATTCGAGGCAGATAACTGAATTTCCCAGGCTTGAAGTTGGCCTATGCCCCTTGGTGAATTCAGCCTTAGGGTGAGCTC
Y
GTGGGGCCTTGCAAGTCTGGCTCTAGATGCAAGAGATCTGCCCTATCCACATTCCTTCTTTCCATAATTGGTTAGAGCCTTGACCATTCAAACCTGGGCT
Celera SNP ID:            hCV7624807
SNP Position Genomic:     200491
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50026):
CTGATTTCTTGGCAAACAACCTAATTGATGGGAGCTAAAGTAGTTGACTCTTATTTACTTCCACTTTATTCTTTAACATTACAAATAATAGACTCCCTGA
R
TTGAAAGCAAAATTAAATGTGATTTTATCAAACCTTTATTCTTCTTTTTGAAATCCTGCTTTTCTATGTCTTATCCATAGAATTTCCAAGTCTCTGCTTG
Celera SNP ID:            hCV1178806
SNP Position Genomic:     811868
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50027):
CAGAAGGAGGAGATGAGAGGATCTGTCAGCCAGGGAGAGGTACAGCTACCAGAAAAGCACTGGACAGTTTCCTCTAATCCTTGGGAACTTTAATCGTCTC
S
TCAATAATTCTCATTTTGAGAGGATCTCAAAGTGGAGGGATCCATTAGTAAGTTCCACTTTGGCCTGGAATGAGAGATGCCGAAAATGACAAGGGTGCTT
Celera SNP ID:            hCV10075119
SNP Position Genomic:     189483
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,7)      total(G,5|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50028):
AAAGAGTTAAGGAATGAAGTAAAACTTGCTAGGGTTAAAATCCCAGCTAGTCCATTCCTTACCTTTCTTACCTGAAAAATGAAAGTGGGGATCGTCCTTA
S
CTCATGTTGTTGTGAGTACTACGTGATGTAACACACAGAGAATGCTTAACAGAGTTCTCAGTGTAGAGTAAGCTAACAAAGTTGACAGCTGTTGGCCTCA
Celera SNP ID:            hCV7623860
SNP Position Genomic:     683430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50029):
AGATTTTTAAAAAAGTTTATTCTGCTTTCTTGTCTACTTTAATCTACACACCAGTTCTTTTTTTTTTATACTTTAAGTTTTAGGGTACATGTGCACATTG
Y
GCAGGTTAGTTACATATGTATGCATGTGCCACACTGGTGTGCTGCACCCACTAACTCGTCATCTAGCATTAGGTATATCTCCCAATGCCATCCCTCCCCC
Celera SNP ID:            hCV1178807
SNP Position Genomic:     812230
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50030):
AGGTGCCCGCCATCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCATCATGTTAGCCAGGATGGTCTCAGTCTCCTGACCTCGTGAT
C
TTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCTGCCACACTGCTGTGCAATTCTAAAGAATTCTGGGAGTGCTGTCAG
Celera SNP ID:            hCV26380363
SNP Position Genomic:     276038
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,4)   total(C,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50031):
CTTATTTTGGATGCTTGCTTGGATTGTTTATCAGGCCATGAAAAAAAAAAAAAAGATGAATTCCCCAGAACATTATAAGGAAATCTAGGGAAAGACAGCA
S
TACCTTACCTTAAACTTTCTGGCTCATGTCACAAATCAGTAGGTTTGGACTCCTCATGCTTGCAGCACATACACTCTTGCTATCCTCATTCTCTCTAGGA
Celera SNP ID:            hCV7623861
SNP Position Genomic:     680701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50032):
TGCTTTCTTGTCTACTTTAATCTACACACCAGTTCTTTTTTTTTTATACTTTAAGTTTTAGGGTACATGTGCACATTGTGCAGGTTAGTTACATATGTAT
R
CATGTGCCACACTGGTGTGCTGCACCCACTAACTCGTCATCTAGCATTAGGTATATCTCCCAATGCCATCCCTCCCCCCTCCCCCCACCTCACAACAGTC
Celera SNP ID:            hCV1178808
SNP Position Genomic:     812252
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50033):
GCATATTCCATAGATGAAGAATAATTACTGGAAAGAATGCAGAGCCATTGGGGACTTTCTAAATAGAGGAATGATGAGATAAGATATTTGTTTGGGAAAT
Y
GCTCTGAAGAAGATGGAATGAAGGAGAGAGGGACTTCTGGAAGGCTGTGGATCTATTTTCATTTTAATAAGCATGGGGGGAGAAGGGTAGGAGAGAGGAT
Celera SNP ID:            hCV7623862
SNP Position Genomic:     678353
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(C,29|T,55)   African-American(C,31|T,53)   Asians(C,35|T,49)   total(C,95|T,157) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50034):
TACTGAGAATGATGATTTCCAGTTTCATCCATGTCCCTACAAAGGACGTGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCA
Y
ATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCGAGTCTTTGCTATTGTGAATAATGCCGCAATAAACATACGTACACACCAGTTCT
Celera SNP ID:            hCV1178809
SNP Position Genomic:     812558
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50035):
TTCCTTGTTAACGGGTGTATTTCCAGCACTTCTTACAACACTGCCAGGCATATTGCAGATTGAGATAGTCTGAGTCTTCTGAGAACTAGGATTAGGATTT
T
TTTTTTTTTTTTTTGAAACAAGGTCTTCCTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCTATCACAGCTTATTGCAGTCTTGGCCTCCTGGACTCAAGTA
Celera SNP ID:            hCV26380365
SNP Position Genomic:     275312
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50036):
TTTCCTTGTTAACGGGTGTATTTCCAGCACTTCTTACAACACTGCCAGGCATATTGCAGATTGAGATAGTCTGAGTCTTCTGAGAACTAGGATTAGGATT
T
TTTTTTTTTTTTTTTGAAACAAGGTCTTCCTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCTATCACAGCTTATTGCAGTCTTGGCCTCCTGGACTCAAGT
Celera SNP ID:            hCV26380366
SNP Position Genomic:     275311
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50037):
TTTATTATATACCTAGTCCAAGACATTCTTCCTAACCAAAAAGGGATGGACATAATAAGACATGTAAGAATCTGGGTCAGAGGTAGCAGGAACAGGTAAC
Y
ACCAGTGCCCAACCACTCAAATGCATAAAAGCAGACATCAAAGTGGCCGACCCACGTGTGCTACCATTTATATGACATTGAGAAGAGGCTGCACAGAAGT
Celera SNP ID:            hCV29182890
SNP Position Genomic:     1171262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50038):
ATCACAGGGACTCTGAAGCCAGGATGGCTGTTCACAATGGTCCTGAGTTGGGGCAAGGGAGCCAAGCCTGTATAACTCCATTACAATCTGTTTTTGGATG
Y
GGGCTGTGGGAAGGAGCCATGACCTTAGAGGAAAAGACTGTCTTTAGCCAAGGTAACCCATAGAGGACTGACAGGTGAAGGCTGTCTGCAGAACCTGGGA
Celera SNP ID:            hCV2810145
SNP Position Genomic:     260536
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50039):
TTTTCCTTGTTAACGGGTGTATTTCCAGCACTTCTTACAACACTGCCAGGCATATTGCAGATTGAGATAGTCTGAGTCTTCTGAGAACTAGGATTAGGAT
T
TTTTTTTTTTTTTTTTGAAACAAGGTCTTCCTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCTATCACAGCTTATTGCAGTCTTGGCCTCCTGGACTCAAG
Celera SNP ID:            hCV26380367
SNP Position Genomic:     275310
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50040):
AAAAACACACTTGGTCTGGTCATGTGTAAAAGGCATAAGATTTTCTAATATTGTTCATTTAAATGTTAGAGATGCCTGCCAAATGTCATGATTTACGTTT
Y
ATTATATACCTAGTCCAAGACATTCTTCCTAACCAAAAAGGGATGGACATAATAAGACATGTAAGAATCTGGGTCAGAGGTAGCAGGAACAGGTAACCAC
Celera SNP ID:            hCV29182891
SNP Position Genomic:     1171164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50041):
ATTTTCCTTGTTAACGGGTGTATTTCCAGCACTTCTTACAACACTGCCAGGCATATTGCAGATTGAGATAGTCTGAGTCTTCTGAGAACTAGGATTAGGA
T
TTTTTTTTTTTTTTTTTGAAACAAGGTCTTCCTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCTATCACAGCTTATTGCAGTCTTGGCCTCCTGGACTCAA
Celera SNP ID:            hCV26380368
SNP Position Genomic:     275309
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50042):
AAACTCTGGATCTCCTTGTGTAGCTGGAAAGTATTCAGTTGACACTCCAATGGTTTGCTGTACAAAGACAGTAGTTTCAGCCCCCAAAAAACAGTTAAAA
R
CAGGTGTTACCACTTACCTTCAAAAACACACTTGGTCTGGTCATGTGTAAAAGGCATAAGATTTTCTAATATTGTTCATTTAAATGTTAGAGATGCCTGC
Celera SNP ID:            hCV29182892
SNP Position Genomic:     1171042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50043):
ATGCAAATCTTGGCTCTCCAACTTAATGCCTGTTCATGAGCAAGTTATTTAACCTCCTAGTACCTCAGTTTCCTCCTCTGTAAAATGGGCTTGATTATCA
K
ACCCCCATCATAGGTGTTTTTTTTTGGGTGTATGAGATGAATTATTATGACTACAACACTTAAAACCAATAATGAAGTGCCATGTAGATGTTCATTAGGT
Celera SNP ID:            hCV2810147
SNP Position Genomic:     263030
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,6)      total(G,6|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50044):
GGAACTCAAGAATAACAGAGTTTGGATAAATCGGAGAGCAGTACTTCCTATGTGATTGCAAAGAGATAAAAATTCTATGTGTGTGTAGTGGGAATGCATA
Y
ACACACGTACATGTATGTTTGTGTGCACGCACGTGTGTGTACCCAGAAAGTAGACAATTAAGGGGGTTACATCACACATTGCCCTCTGTAAATCCAATTT
Celera SNP ID:            hCV29182893
SNP Position Genomic:     1170162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50045):
ACCAATAATGAAGTGCCATGTAGATGTTCATTAGGTGAATAAATACAAATATTGTTGATTGAATGCATGTCTGCATGCACGCTGTTTCTTTCCTTATGCT
S
TTTCTTTCCAACATAATACAGATGTATTCTACTAGCTGACAGACTTTTAAAGTAGAGGCCACTTTTAAAAGCCTGGGCTCCCACGAGAAGGAAATCTGCA
Celera SNP ID:            hCV2810148
SNP Position Genomic:     263195
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50046):
GCCTGTGGTTGACTGCACCAACGTGACCTCAAGGAGCAGGTTGTGGTGGTTCCCTGAAGAAAGCAATGCCCCCAGATCAAAGCTACATTTCCCATCTACT
S
CAGATCCTATTCAAACAGAACCAGTTCCCTTGAGCCTGGCCATGATTTGCATGTGAAAAGCTGGTGTGTTGCAGCCAGTCTGCACCAGCTTTGGGAGAGC
Celera SNP ID:            hCV27997172
SNP Position Genomic:     1007527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50047):
AACTGGAACTCAAGAATAACAGAGTTTGGATAAATCGGAGAGCAGTACTTCCTATGTGATTGCAAAGAGATAAAAATTCTATGTGTGTGTAGTGGGAATG
M
ATATACACACGTACATGTATGTTTGTGTGCACGCACGTGTGTGTACCCAGAAAGTAGACAATTAAGGGGGTTACATCACACATTGCCCTCTGTAAATCCA
Celera SNP ID:            hCV29182894
SNP Position Genomic:     1170158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50048):
TTTCTTTCCTTATGCTCTTTCTTTCCAACATAATACAGATGTATTCTACTAGCTGACAGACTTTTAAAGTAGAGGCCACTTTTAAAAGCCTGGGCTCCCA
Y
GAGAAGGAAATCTGCAGGTATAAGATGGGTTTGTCAGTCAGCAGAGGCATGCTATTGAGAAAAGGAGGCAACCTGGGGAGGGGGTGTTAGAAGAGAGCTT
Celera SNP ID:            hCV2810149
SNP Position Genomic:     263279
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50049):
TTGCATGTACACCCAATAACACGGGTTTATGTAATGTACATGGGTAAATGTACATCTTCCAAGGGAGAAAGGGTGCTCTGTGTTTCCAGCATGATGGAAC
Y
CAGTTTCATGATGGATTGGCATATTCCATAGATGAAGAATAATTACTGGAAAGAATGCAGAGCCATTGGGGACTTTCTAAATAGAGGAATGATGAGATAA
Celera SNP ID:            hCV7623868
SNP Position Genomic:     678234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50050):
GATCCAAACACCTCCCACCAGGCCCCACCTCCAACACTGGGGGTTACAATTCAACATGAGATTTGGTGGGGACACATATCCAAACCGTATCAGATGCTCC
Y
GAGCCATGACTTAGATTTGAATTGCTGCAGACACGTGTCTCTGGTGGCTTCCTGTGTGCCATACCCTAAGCTGGCGTGGGTGGCCTTCCCTTCCTGAACA
Celera SNP ID:            hCV27997173
SNP Position Genomic:     967760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50051):
GAGACTTTTCGTGGTGTACCTGCTGTCATAAAAGACTAAAGGAAAGAGAAGTGCTAGGATAAGAATCTTTATAGTCTTCAACCTCCAACCTTCCATAGTA
Y
GCTGCAGACCTCCTCAGACTTGACTTGGTTTAATGATGACCTTGGGTTTTTTTTCAAATCCTTGGCCACCATTGACTTTGATGTCTTCTTCCATGCATCT
Celera SNP ID:            hCV29182895
SNP Position Genomic:     1163098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50052):
TTTATGACAGGCAGGGTTAATGATTTCATAATGGTGAACTTTTGCCAATCTCACTACTATTTGAATATTTCACAACTTGTTCAAATTGTTAAGTACAACA
R
CAGATTGCATGTACACCCAATAACACGGGTTTATGTAATGTACATGGGTAAATGTACATCTTCCAAGGGAGAAAGGGTGCTCTGTGTTTCCAGCATGATG
Celera SNP ID:            hCV7623869
SNP Position Genomic:     678129
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;WICGR7_african_american_pooled(A,5|G,95)   WICGR8_asian_pooled(A,0|G,83)   WICGR6_caucasian_pooled(A,0|G,95)   total(G,273|A,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:50053):
AGATAAGTCAGATCAGATTGTTCCTGGATCACTGCCTTTCCGGAAAGCCTCTGGTGGCCTCGTGCACTCTGTAGAATTGGTACAGGTCCCTTGTGATGCT
W
CTCAAGGCCCTCCAGGAGCCCATGCCATCCTCAGTGCCCTCAGCTCTGGAGGAGCAGCTCCACCACGGCACCCCATGACTTTGCATGTAGAGCCACATGG
Celera SNP ID:            hCV29182896
SNP Position Genomic:     1159392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50054):
TTTTTCTGGTGTGTTAACATGTCGCTAGCCAGTGCTCCAGGCACCCAGCTTTGTCTGTGGGTTAGTATTGGTGTATGTATGAGTATCTGTATGTATATAT
R
CACGGTATTTATAGAGAGAGACTATCCTGGAGAAGCCTCGTTTTGATGCCATTCTTCCTTGCAAGGTTAAGCAAGGTGGGTGGAAACTAAGACACCTGAA
Celera SNP ID:            hCV27472163
SNP Position Genomic:     1177511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:50055):
TCCACCAGCCCCGCTAAAGAGTATCGGCTCGCACTTCTTCATGACTCACTGCTCAGCTTCCTTTAAGCTGGTTTTTTCCCCGTTAACAGAAACCTCTTCC
M
AAAGTGTCACCAGTAACATTCTCCTTACAAAATCCGGTTACTTCTCTTCACTTCTTATCCTCGTAGGGGTCATGACACATTTAATTATGGGTCATTGACT
Celera SNP ID:            hCV29182897
SNP Position Genomic:     1158766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50056):
ATAGAGAGAGACTATCCTGGAGAAGCCTCGTTTTGATGCCATTCTTCCTTGCAAGGTTAAGCAAGGTGGGTGGAAACTAAGACACCTGAACCCTCCAGGG
Y
CTCCCGCATCAAGGTCAGCATGAGGACAGACCACAGAGCTGTCACTTTTGCTCCGAAGCTACTTCTCCACTGTCCCGTTCAGTCTGAATGCTGCCACAAC
Celera SNP ID:            hCV27472164
SNP Position Genomic:     1177622
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,68|C,1407)   total(C,1407|T,68) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:50057):
GGCCCATTTCTATAATAAGGTCCTGCTCCCAAGCTTCCTCCTTTCTCTCCATCCTTATCCCTCCCCCTTCCCTGCCTGGCATGGTCTTGTAGCTGGAAGA
Y
GAGGCCTCAGCTCTGGGGTCTCATTTCTGCTTCACAAACCTCCATCAGCACAGACTGTCCCCATGTGGAGCCCAGCCCCCTGCTGTTATCTCTGAAAAAG
Celera SNP ID:            hCV29182898
SNP Position Genomic:     1156073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50058):
GAGAGTAACCTCCTGATGTTGCCATGGCATTTGTAAACTGTCATGGTGCTGGTGGGAGTGCAGTAGTGAGGACCACGAGAGGTCACCCTTGTCACCATGT
W
GATTTTGGTGGGTTTTGGCCAGCTTCTGTACTGCAACCTGTTTTATCAGAAAGGTCTTTATGTCCTGTATCTTATGCTGACCTCCTATCTCATCCTGTGA
Celera SNP ID:            hCV29182899
SNP Position Genomic:     1152883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50059):
CTCAGCAGGTATAAATATGAAGCCCAATAGATGGGCAAAAGAATTTCTGAAACACAGGATGGGGGTGATACGAAAATGACTTGGTTGATGAGGTATTCAC
R
CTCCTGGACCTGTGCCAACTCCCTCTCTGCAGGTTCCTGCCCTTATTGCTACCCTGTAATTATTCATCTTTAATTTATTGCTCTTCACCTTGAGCACCAC
Celera SNP ID:            hCV359680
SNP Position Genomic:     426879
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50060):
CCTCCTGGGTTCAGGCCATTCTCCTGCCTCATCCTCCCGAGTAGCTGGGACTACAGGTGCCCACCACCACACCCAGCTAATTTTTTGTATTTTTTAGTAG
W
GACCGGGTTTCACCGTGTTAGCCAGGATGGTGTCAATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAATGA
Celera SNP ID:            hCV359682
SNP Position Genomic:     427998
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,5)   total(A,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50061):
CAATGATTGAGTGTGGGCAGCTCTATTATCTGGATTTCATTAAGATGATGCTACAAAAATAGTAATTGTTAGTAATAATAATGCTACAAAAACGTTGTAT
R
CTTGCAAGATTTACAAATTACATAATTTATGATGATTGAATGGGGGTGGCTCTCTTATCTGGATTTCATTAAGATACTCAGGATTCTTTACAAACATGCT
Celera SNP ID:            hCV359684
SNP Position Genomic:     428488
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50062):
GATGATGCTACAAAAATAGTAATTGTTAGTAATAATAATGCTACAAAAACGTTGTATACTTGCAAGATTTACAAATTACATAATTTATGATGATTGAATG
K
GGGTGGCTCTCTTATCTGGATTTCATTAAGATACTCAGGATTCTTTACAAACATGCTAGGTTTCCACTTAGAGCAAGATCTCTTAAAAAAAACCCTGCTT
Celera SNP ID:            hCV359685
SNP Position Genomic:     428531
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50063):
TATCCAACCTAGCAGCTTTAAAGATCTCTTCTTCAGCATGTCTCCAAATTTATAGCTTCATTTCTGACCTCAGGTCCGTCGTGTCTACAGCGCATCTCCA
S
CCGTACATTTCACTTGCCTCTCGGGGTTAACTGTGTGTTTCTGAACGCTCATACTGGGGTTAACTGTGTGTGTCTGAACACCTGTACCTCATTACCTCAT
Celera SNP ID:            hCV359686
SNP Position Genomic:     429184
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50064):
ATGGTTTCTTTGGCCAACCATTTAATTTTTTTTTTGTTGTTAACTTTGTCCTTGTTAACATTAATTCTCTCATGTCATGTGGAAATGAGAATAATTCAGA
W
ATTGTAAGAGAAGGAAAATGGTTAGATAAATTAGAAGCATGAATAATTGATAGAGAAATAATTCAAGCAGCTAACTATATCATGCATTCTCTGCTTACTT
Celera SNP ID:            hCV359688
SNP Position Genomic:     430486
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50065):
GAAATTGTCTTTATAATATTGGCATAAGGCTATTTTTAAAATTTATACTAATGAGACGATTCGAGGCAGATAACTGAATTTCCCAGGCTTGAAGTTGGCC
Y
ATGCCCCTTGGTGAATTCAGCCTTAGGGTGAGCTCTGTGGGGCCTTGCAAGTCTGGCTCTAGATGCAAGAGATCTGCCCTATCCACATTCCTTCTTTCCA
Celera SNP ID:            hCV7624811
SNP Position Genomic:     200455
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50066):
AGCTCCTTCTAGTGCTGTGCCAGGCACAGAACTCATACCATGTCATCCTATAATCTACCCCAATGGTAGTTAATATACCCCTATCACAGATGAGGAAACT
R
AGGCCAGGCTCAGAAGTAGGCTTCAAGTGGAATGTCTAGCAAGTGGCAGAGTGGGGACCTATGCCTACTTCCACGCTTGAGATGTTCTTCTGGGGCATGG
Celera SNP ID:            hCV1178810
SNP Position Genomic:     813762
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50067):
TTCTTCTCACTGACCCTGGATAGGTCTAGGCTACTCTCAGCTTACCTACCATGTCTTTGTAAGATGTGTAGTCCATGGTGCTTGAATAGCACCACAAAGA
Y
GTGGAGAGGTAAAAGACATAAGATGATCTCAATTTTGAATAATTCTCCTTGAGGGGCAATTATATATTTTTGGAAAGTTCATTCTTATTTATTGGGCCTT
Celera SNP ID:            hCV7624812
SNP Position Genomic:     182268
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,11)      total(C,3|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50068):
TACCATGTCATCCTATAATCTACCCCAATGGTAGTTAATATACCCCTATCACAGATGAGGAAACTGAGGCCAGGCTCAGAAGTAGGCTTCAAGTGGAATG
Y
CTAGCAAGTGGCAGAGTGGGGACCTATGCCTACTTCCACGCTTGAGATGTTCTTCTGGGGCATGGAGAACAGTGGCAAGGATCCCCTCCTCTCCTCACCA
Celera SNP ID:            hCV1178811
SNP Position Genomic:     813797
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50069):
AGAGATTCAGAGGTTCTCCTTTTCTCTGGTGGTGCTCTATCAGGGACAGATAGGTCCCTAAGACTTAGCAGCAAAAGGGACTCTCCCTGCAGAAGCATGT
R
CATGATGTGAGTAGGTGTGCCCACAGCCCAGGGTTCATACTCTGGGGCTTCATGCCCTTTTCCTATTCTTTGTCTCCAACCGCATCTTATAAGAAGTGCA
Celera SNP ID:            hCV7624813
SNP Position Genomic:     181585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50070):
AATAAGCAGAGATAGAATGGGTGAGGACCTAGGACAGCGGCTCATTAGGCAGAACCCGTCCTTTCTCTTTGCTAAAGTTAGGGAGGAAACAAATGCCTGC
Y
GAACAGAAGGAGGAGATGAGAGGATCTGTCAGCCAGGGAGAGGTACAGCTACCAGAAAAGCACTGGACAGTTTCCTCTAATCCTTGGGAACTTTAATCGT
Celera SNP ID:            hCV10075124
SNP Position Genomic:     189379
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50071):
CTCACCACAGCTGCTGTAAACAGAGTGGGTGAAACGAGCTTCAAGAAAAGCTTTTAGACTGAACTTGAGAAGAGTGCTGGCCTGGGACTGGAGCCACCAC
R
TGTCACTTCACTCTGGGTGGAGAAAGGTGTAGCCGGCTCTCAGGCTCATGCAGATGTCATGAGCTTCCCCAAAGGGCCCCAAGAAAATTCTAGAAGGCAG
Celera SNP ID:            hCV1178812
SNP Position Genomic:     813991
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50072):
TCTTTAAGCGTGTAAGTGATGACGCTCAAATCTATCAGAATACTAACCCTGAAATCAGGTCTGAGTTTACAGCCATTATATCTTTCTTTGGATTTGGTTT
W
ATGTTTTTACCCTTGATTTATGTACGTACTTCCCTTAGCATCCCATATCTCAAGCAACATAAAGGTATTAAAGTGATGGGATTTAGCAAATATGTTATGG
Celera SNP ID:            hCV10075125
SNP Position Genomic:     188641
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,4)      total(A,2|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50073):
CATGCATTCACCATCATAGAAACTTTGAATTATGTGAGGTAGTAGATGATGAAACAAACATTACATACTAGGAAAGGGACGCCTCTCCCTTTTTTTTTTT
T
AAAGAGGGGTGTTTTCTGCTTGGTTTTGTCCATTATAAACTGTTAGATTAACCATTTGTACAGCCAATGAAATAGCTTTAAGGGAGGCACTCAGGAGCTT
Celera SNP ID:            hCV26380370
SNP Position Genomic:     274734
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50074):
TCATCTGTTATGCAATTGAACTGGAAACAGCTCAGACTTAAAAGGCATCTCCAAGTTTTTCTCAGCCAACAAGACTTAGGCCACTTTGTTTTCTCAGATT
K
TTCAGCCTTGTCCAATTTTTGGCTAAAAATCCTTTTTGAAAACTTCAGCAGCCATATTATTTTCTTCTCCAGTCATCAACTTATAACGTAAAGACAAAGC
Celera SNP ID:            hCV2810150
SNP Position Genomic:     263798
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50075):
AGGCCAAGCATGCTCCAGTGGCCGCAGAAAGTCCTCAGCAGAATCCCAGGGTCTTCTAAGAAGAAGACGTGGAGATCGTGAGAATAGTGAGTGCTCACAG
K
ATGTAGCGGGGACAACAACAGTGTCTCCCACAACCAGCATTACAGATAACCAGGAGTCGACCCTGATGAAGCTGGTGGCTTTCTCAGCTTTACAGAATGC
Celera SNP ID:            hCV7624818
SNP Position Genomic:     181306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50076):
TGCAGGGTCATTTGACTTGGAGAGGAGGGAGTGGTAAGATCACATTATCATTAAGAATTCGCTCAGGGCATGTAAAGATGGCTGAGCAGCTTCTTTAAGC
R
TGTAAGTGATGACGCTCAAATCTATCAGAATACTAACCCTGAAATCAGGTCTGAGTTTACAGCCATTATATCTTTCTTTGGATTTGGTTTTATGTTTTTA
Celera SNP ID:            hCV10075129
SNP Position Genomic:     188550
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50077):
GAAACAGCTCAGACTTAAAAGGCATCTCCAAGTTTTTCTCAGCCAACAAGACTTAGGCCACTTTGTTTTCTCAGATTTTTCAGCCTTGTCCAATTTTTGG
M
TAAAAATCCTTTTTGAAAACTTCAGCAGCCATATTATTTTCTTCTCCAGTCATCAACTTATAACGTAAAGACAAAGCTGTGGGGAAAATCTAAAGTTGCG
Celera SNP ID:            hCV2810151
SNP Position Genomic:     263821
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50078):
TAGTATTTTACTAATCAAATACATAACAGATATATACATAAACCAGAATGAAAACATATTATAGTGAGAAATGTAATTATTGATTGAACTGGATATTTGT
S
TTTTCATGTCAACTTATTCATTCAGAGCAGGTGTGGGAAAACAAATTTTAGTCATGAACCGGGTTGGAAAGTATTAAAAACGAGGATTTGGTCATCTTAA
Celera SNP ID:            hCV7623870
SNP Position Genomic:     675033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50079):
GTGCATTCTATTTATTTGTGAAGTGATGCAGGAAACTACAGTAAGGAGTGCGGATGTGAATAAGTGGAAGGCAATACAGTGTGTGTGAATGGTAATGTCA
M
CTCCATGGGCGGGTGGGGCTCAGTTCCGTTGAGGATCTCTGGAAGACTACATATAGGCTGGCTCAGAGCTGTGCCCCACTGGGGCAGCTCACTGGGTTAT
Celera SNP ID:            hCV7624819
SNP Position Genomic:     181025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50080):
GAGAAAATCCCATTTGCACATTTCCTCTTAGTTGGGTGGACTTACCCATATATACTTGGGTGACATTCAGGAGGCTACTTTGTGTTTTGGCTGTGTATTC
K
AATTTTTCTTCCGGTACTATATACAGCAAGAGAAGGGGATGTTGTTCAGCTCTTGTTCTACCTAGAACCCAACTGCACTTTTGCAAGAGATGGATACAAA
Celera SNP ID:            hCV2810152
SNP Position Genomic:     264078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50081):
TGGCCAGGCTTGTCTCAAACTCCTGACTTCAGGTGATCAACCTGTCTCAGCCTCCCAAAGGGCTGGGATTACAAGAGTGAGCCACTATGCCTGGCCCCCT
R
TTTGACATATTTTTAACGGTGTAGGCAAAATGATCTTTTTTCCAAACACTGCAATCGTGTCATCCCCTTCAAAGCCTTCTGTGGCTCCCCGTTGCCCCAA
Celera SNP ID:            hCV1178819
SNP Position Genomic:     816704
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50082):
GTATATTCTTTAATCTATCCATCCATTCATCCTGGGAAGAAATAATAGTATCTTTAAAATGTAGTGCATTGGTTACAAGCACAAGATCTTCAGTGAATCA
Y
TTTGTGCATTCAAATTCTGTCTGTATGTATCATGCACTTTCTATGTAACCTTGGGCACGTTTTTATGCTTCTATGGCCTTTTCAGTCTTTAAAAAATGGG
Celera SNP ID:            hCV2810154
SNP Position Genomic:     264757
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50083):
GACTCAAAGCTGATGCTCTCAACACCAATGTTTCATCTCCAGTGTACCACGAGGTCCTTGTCCACCTACTTCTAGATAGAGCCAAACTGTCTAAGCCAAA
S
GGGGTTTGGGTTTCTTTCACCACCCACCTGTGCACATGATTAGTTTGAAAAAGTATGTCTTAAAGAAAAATAAATGCAGACAACTAAGTGAGAACAGTTA
Celera SNP ID:            hCV28966821
SNP Position Genomic:     893479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50084):
GGAATGTGATTCCTTGACTCAGCCCAGTAGCCCTGTGAATGGATGGCTGAAACGAGTCTGACGGCTTTTTCTCCTGGGGCCATTTTGTAAGAAATAAAAG
Y
AAAACAGTGAGATATTTAAATTCTTCAGGGATATTATTTTCGAGTAGATAAAGTGAAGAACATTTTTTATTCATATTAGAAGTGATAGTTGGATGTGTGT
Celera SNP ID:            hCV28966822
SNP Position Genomic:     892894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50085):
CAAAACCATGTTTAACCAAGTGCTGATGGGCTTGAGTCCATTCCCAAGTGACTCGGAAGTTGCTTACTTCCCTACCTTTGAGTGGGTCTCATTTTATCTC
Y
GTGATGTTTTCCTTGTCCTTCTAAGTCATATTCACTCTGCTCATTGAAGAAAAATGGTTGGTAATTGTAGTGGATAACTACTCCATTCTGTATGCCTTCT
Celera SNP ID:            hCV2810156
SNP Position Genomic:     265890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;(C,-|T,-)   (C,-|T,-)   Caucasian(C,19|T,41)   Caucasian, from CEPH families(C,81|T,199)   African-American(C,13|T,47)   Asians(C,10|T,46)   total(C,123|T,333)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50086):
GTAAATTAAGCTCAGAGAGGGTAGATGACTGGCTCAAGGTCACACAGCTACCAGCTGGCCAGGTGGCAAGACCCCGGACAGAGGATTGGGAGCATGGTAT
W
GTAGCCAGCGTACCTCCTTGTGTCTATCATTAGCCCTGCTTTAATGGACTTTTTCAGAAGTGTTTTTGCTTGTGTTTTACAAGTGGAATGTGATTCCTTG
Celera SNP ID:            hCV28966823
SNP Position Genomic:     892709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50087):
CAACCATATCTGTGTAGGTTTCTCACCCTAGAAGCCTCCTTTTAAATAGGGCAAAGAAGCTACCTAAAGATTTCTCTTTAATATAGGGAGGAAACCACTT
Y
CGAACTTGTGCCCAAAGATTTATCTTCACCAATGGTCTAGGACAGAGGTCGGAAAACTTTTACTGTAAAGGGCCAAATAATACATACTTTCAGCTTTGCA
Celera SNP ID:            hCV2810157
SNP Position Genomic:     266166
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50088):
TACTCTCTCTGAGTTTGGAGGACCTTGTTTTCCTCATGGCACACACGAGGAGTAAATTAAGCTCAGAGAGGGTAGATGACTGGCTCAAGGTCACACAGCT
M
CCAGCTGGCCAGGTGGCAAGACCCCGGACAGAGGATTGGGAGCATGGTATTGTAGCCAGCGTACCTCCTTGTGTCTATCATTAGCCCTGCTTTAATGGAC
Celera SNP ID:            hCV28966824
SNP Position Genomic:     892658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50089):
AAGTAATAAGAGTCTAATTTGGCCCAGGAGTTTGCTGATTCCTGGTCTAAATGAGAGTAAAGAATGGGAAAGGGAATGGTGTGGGAGGAATAGGCATTTT
M
ATTCATTGTTGTTAATGAGAAAGAGTCTTCAAACACCAGCATGCCCCTGTGGGTTGGATTAGGTTAGAAAATCCTTGGAGGACTGCCTTTTCCACCCCAG
Celera SNP ID:            hCV2810158
SNP Position Genomic:     266400
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50090):
GTCAGATGCATGTTGTTGTTGCATATCGTTTGTTCATTCTCCTCCTTGCTGCTGTGCAATATACCATTACGGGAACTAACCACATTCAATTCTATTTTAA
Y
TGTTAGTATTTACAATGGCTCCCTAACTGGGATCTCTTTTCAAACAATTCACTCTTCAGTCCCTGATATGATTTGGTGCTGTATCCCCACCCACATCTCA
Celera SNP ID:            hCV7623877
SNP Position Genomic:     671564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50091):
ACCAACCACGGGCCAGTCGAATGTAGTACTCGGATTGACCAGGCACCTGAAGTCTAAGACAGCTTCCATCAGTTTCCTGATAACTGGCATTTACTGAGCA
Y
TTTGTCTGCACTAGATCCTGTGTGTCATGCACACTGACTTATTTAACCTTCTGGACAACAACGTAAAATAAGCTTTAGTACAAAGAGAAGTTCTATAACT
Celera SNP ID:            hCV28966825
SNP Position Genomic:     908023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50092):
CTCCCCAGAGGGAACCACTCTTCTGACACTTAACTGTACAAATTAGATTGGCCTGTTTGGGGACTTTCTACTGATGGACCCATGCTGTGTATACTCTTTT
S
TGTCACCTTCTTTCAGTCATCATGGTTAGTCAGATGCATGTTGTTGTTGCATATCGTTTGTTCATTCTCCTCCTTGCTGCTGTGCAATATACCATTACGG
Celera SNP ID:            hCV7623878
SNP Position Genomic:     671435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50093):
TGGACAAAAAACTTAATTTTCGGGGACGCTGATTCTTTTTCTCTGTAAGGAGAAGTTATTGGTCTGATGCACACAGTGGAATCAAACGGCAATTTACTTG
K
AATGAAAACCTCTCTCTCCCGGTGTCCTTATAGCAACCCCAGGGACAGACTCCAGTTGGCTCTATCTGTGCCTCATGTCCATCCTTTGAACCAACCACGG
Celera SNP ID:            hCV28966826
SNP Position Genomic:     907833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50094):
AAACAATTTCTTTGTGGGCTGTACTTTCATCCAGCTGGATGGATTTTAACCAAGTGATCCCACCTCTATAGCCAGCACCCAGATTAAGAAGCAGAACAAG
W
CTCTTCCTCTTATAGCCCCTTCTAATCACCAGCTTCTCCCCAGAGGGAACCACTCTTCTGACACTTAACTGTACAAATTAGATTGGCCTGTTTGGGGACT
Celera SNP ID:            hCV7623879
SNP Position Genomic:     671299
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,5)      total(A,5|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50095):
GTAAATGGAAAACCAGCACTTTGCTAACACGTTTTAAATTTAAATTATTGCATGTACTGCCTTGCGTGTTAGCTCTCAGTAATTATTTTTCATCCTCTTA
R
GTTTCTTCCAGCTTTAAGGCTTTATTATTTTAAGTTATAAAGTAATCGGCCACCCTGTATGACTGTGAGGTCCTTCAAGAGAGAAGGTACTCTTTGCTCT
Celera SNP ID:            hCV28966827
SNP Position Genomic:     903979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50096):
GTGGAGATGTGCATTGTTTGTGGAAAGATAGAACCTTCCTCAGTCAGAAAGCATTTTGCCATTAGCAGCAGGCAGTGATGCTGACAATTTGCAGTTGGTG
R
CCAGGTTTTAAACAGTAGTTTGGGCAAGAAAGGGTATCCAGCAAATCAATTTGCAATAGCTGATCCCTGTCATTAAGGGAGTCAATTCTTGATACTGTAA
Celera SNP ID:            hCV28966828
SNP Position Genomic:     546268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50097):
AGAACTAGCAAATGGAGACTCTAGGTCACCTTACCTCTCCTTTTCTTGGAGGAATGGTGGAAAGAGAAGAACAACTGAAAGGCTTCAGCACAATCGCTCT
R
TAGGACCCAGGAGAGAGAAGAGTAGCCTGGAATCAACAGTGGTGGGAGAGGCTGGAGGGCCTCAGGAAATTCAAGGCAAAAGAGTAGTTAGCTCTAATGA
Celera SNP ID:            hCV28966829
SNP Position Genomic:     546039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50098):
TTAAACCTTAAATAGCAAAATAGAAAAGACAGATCATCAGCAATGATTAATAAAAAAGCTATTTTATAAAGCGGTGATTGGGAAAGTAAAATAGGTTGTA
Y
AGATTGGGCCAAAGCCTAAAGATATTCTGGTGATTCTTTCCACGATAGAAGACCGTGAAAGAGGCAATGCAGTGAGACCATAAGCCTTGTGGTTTGGGAC
Celera SNP ID:            hCV359691
SNP Position Genomic:     431389
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50099):
ACACATTCTTTTCGAAGGCCTAACTTTTTCTGTTGGTGAAATGGGAATAAAAATAGTACGAATTTCCAGGAGTTAAATTAGAGTTGAATGAGATAATTCA
Y
GTGAGGCTCTTAGAAAGATGCCTGGAACATAGTAAGAATTAAATAATATCATCTAATAAAGTGAGAATGACCACAGAATATGTCTTTATATGGTATTCAT
Celera SNP ID:            hCV359692
SNP Position Genomic:     431588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50100):
ATAACCTTAATATTAGGTCTCGGGAGGTGTCACTAGGACTCTGTTATCCTTTCTTCCCTTCTTTCTTTTTTGGCTTTCTGTATGTCTTCATTTTCAGACA
R
CCTCTCTCCTGGGGTATCAGAAGACACACTCACATTAGGATAATGCAGATAAGATCAATTCACAGTAAGAAGATTTATCAAGGTAAAGTGAAGTATAGGA
Celera SNP ID:            hCV359694
SNP Position Genomic:     431858
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50101):
TTCAATAAAAGTAAAAACCTGTGCTCATCAAAATACATCATTGAGAAAGTGAAAAGGCAGGCTATACAGTGGAAAAAAAATCTTTGTAATATATGGGTCT
R
TTACAGGACATTTATCTAGGACATGTTAACAACTCCTACAAAAATATAACAAAAGGGCAGAGAACCCAACTAACAATGGAGGAAATATTTAACAGGCTTT
Celera SNP ID:            hCV359696
SNP Position Genomic:     434434
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50102):
GAGAAAGTGAAAAGGCAGGCTATACAGTGGAAAAAAAATCTTTGTAATATATGGGTCTATTACAGGACATTTATCTAGGACATGTTAACAACTCCTACAA
M
AATATAACAAAAGGGCAGAGAACCCAACTAACAATGGAGGAAATATTTAACAGGCTTTTAACAAAAGAGGATATCTACATGACCACTAAACATATTAAAA
Celera SNP ID:            hCV359697
SNP Position Genomic:     434476
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50103):
CTGGGTTCTTCTTTCCCAGTCATTTTCCTGTCTTAACCTTGGGGTGAAGGACAATGTTCTTGACCTAGAATGGCCTAGGCAGAGTCTGATAAGATTGTTG
Y
GGATGCAAAGGGAACAGGGTTGTGGTTGCTGAGCATTGCATCCAGTGCGTACCTTGTTCCCTTGCTGCACTCTCATCATGTTTGGATTCAGATGAACTTT
Celera SNP ID:            hCV359698
SNP Position Genomic:     453983
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50104):
TATTTTTTCATAAGATGATGTTGGAAAAGTTTCAAAGGAAAGGCTTCTAGTGTTTGATGAGCACCTGCTGTGTAACGGGCACAGGTTAGGCAATTTTATA
M
AAGATAAAGATGTTTGTACCCACTTAATGGATAAGAAAATTGAGGCACAAAGGGGTTAAGCAGTCTTCCCAAACTTACCCAGTTATTCATTTTAACTGCT
Celera SNP ID:            hCV10075130
SNP Position Genomic:     187754
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50105):
ACCTTGTTCCCTTGCTGCACTCTCATCATGTTTGGATTCAGATGAACTTTGATGTTCTGTGTGAGGTGGACGTTAGCACTGTATCTGTACTGAGTTAGGC
R
AGGCGGTCCCGGCAAAGTAATTACAAGGAAATGCTGTATTTTAGATTGTTTGAGTTTTCCAATAGAGACATATCAATCTTGCTTGGGAATACTTTGACTT
Celera SNP ID:            hCV359699
SNP Position Genomic:     454134
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50106):
CTGGGAAACATCAAGCCTTACCTAGAATCATCTTTCCAATCTCGCTCTTCTCTTCCATTTAGAACCACCTTCAACATCTCCCCAGGGTACATTCCCTAAA
Y
AGCCCCGATTATTCATTATTTTATGGAACTACCAGATACTGAATTCCTGTTCTGGGCCATGCACTCTAGGAGCTGTGATTTCAACAGTGAAGGAGGACAG
Celera SNP ID:            hCV7624820
SNP Position Genomic:     175405
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50107):
AGGAAGGAGAGGTGTAAACAGAGCTCGTGAACACAAATGAAAAGGCAAGTGATAGGTACACAAGGACATCACCAAGAAGAAGGCTCTTTTTCTGCCCTTG
M
AGTATAAAAATAGTTATTTATTTTTTCATAAGATGATGTTGGAAAAGTTTCAAAGGAAAGGCTTCTAGTGTTTGATGAGCACCTGCTGTGTAACGGGCAC
Celera SNP ID:            hCV10075131
SNP Position Genomic:     187635
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50108):
TTTTAAAAAAACGTACTCTCTCTAGAGGCTGGAGAGGGAGGATCGCTTGAGCCTGAGAGTTCAAGGCTGAAGTGAGTTATGACGGTACCAGTGCCTCAAG
S
CTGGGTGACAGAGTGAGACCCTGAATCTAATTAAAAAAAAAAAATTATACAATGAATAATGACCCAAGTACTGTGTTGTCTTCATGCCATGGACACCTTA
Celera SNP ID:            hCV1178820
SNP Position Genomic:     817798
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50109):
TGAATAATGACCCAAGTACTGTGTTGTCTTCATGCCATGGACACCTTAATGCTTTCTTCAAAGCAGTATGAGGTTGTTAATCTGAGAATGAATCTGTTAG
M
CTTCCCTGAACTCATAAAGTTTGCTTCCTCTTTGAAAGAACTTAGTGCCTTTTAATGCCTATGCAGCCGTGATGTGCCAAGTAATATGTTCCATGTGTAA
Celera SNP ID:            hCV1178821
SNP Position Genomic:     817951
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,6)   total(A,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50110):
GCAGAGGTTTTCAAGGTCTGCTGTGAATGTATGATTTAGACCACAGCTCAGTTGTGACATTTAATCCATAGAGATAAATCATCACCTGCCATTGGTAGGG
Y
TCTTTATGGATAAACAGGCCTAAAATAGTTACCTGTAAAACTCCATCAGAGTCTCCATCAGAAATCACCACCATTTTTTTTTAATGTAGGAGACTGGGAT
Celera SNP ID:            hCV1178822
SNP Position Genomic:     818226
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:50111):
CCACAATGCTTTCAGAGCTGAATCCTTATAGGAGGCAAGTCAGAGATGAAATAAGAAGGACTGACAGGAAGGAGAGGTGTAAACAGAGCTCGTGAACACA
M
ATGAAAAGGCAAGTGATAGGTACACAAGGACATCACCAAGAAGAAGGCTCTTTTTCTGCCCTTGCAGTATAAAAATAGTTATTTATTTTTTCATAAGATG
Celera SNP ID:            hCV10075135
SNP Position Genomic:     187570
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,5)   total(A,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50112):
GGATAAACAGGCCTAAAATAGTTACCTGTAAAACTCCATCAGAGTCTCCATCAGAAATCACCACCATTTTTTTTTAATGTAGGAGACTGGGATGGTGAAA
S
TCTTTCTTGATTTTGGTGCTTGAGAACAAATTAAATCAAAGTCAAAACAACTAACTTTCCCTTGGCTGTCCTTGAGGCATGCTTGGTACTGTTTTGTTTG
Celera SNP ID:            hCV1178823
SNP Position Genomic:     818334
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,7)   total(G,5|C,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50113):
ATCTAATTTTCATTGAGCTTACAAGGCACATGGCAGGTGGGAGGCACTCTGGCATCCACTGAGATGTTAGTGAACCCATCTGGTCTTCATTTGTTTCCTT
M
CAAGCTCAAGGGTGATTGAGTTTGCCAGCCTTCTCTCCACTGTTTTAGTCTTTTCCCAAAGCATATAAGGACTCTTCTCTTGCTTCCTTGCTGAACTGGG
Celera SNP ID:            hCV10075136
SNP Position Genomic:     185135
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50114):
AACTCTTTCTTGATTTTGGTGCTTGAGAACAAATTAAATCAAAGTCAAAACAACTAACTTTCCCTTGGCTGTCCTTGAGGCATGCTTGGTACTGTTTTGT
K
TGGGTTTTTTTTTCCCAGTAGTAGGCTGGAGTTCTTATGGATTTGATTCTGACATCAGCCTCCCAGGAGAGGCCATGGTGTATAATGGTTAAAAGCACAG
Celera SNP ID:            hCV1178824
SNP Position Genomic:     818432
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,6)      total(G,4|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50115):
ATGTCATTCTGTGAGTCAGAGTCAAAGTCAAAAAGACTTTGTAAAAATCTACTTTGGAGACTAGGTGTGGGTGTCTGATTTAGAACCCTTCTCATAGTCT
R
GTGATTTCTAATGGTGCTTTTGCCGAAGGAATTCTTAGGAGCATCCAAGTTCCATCTTAAAGACATGGCTTTGCCAGTCTGTTGTGGGTGTGCTATACCA
Celera SNP ID:            hCV10075137
SNP Position Genomic:     184747
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50116):
TTATAAATATGAAATGAATTAATATCCATAAAGCGTTTAGAACAGGGAACGTACTCAGCTTAATAATGTACATATTCGATTAATAAGATAAAGGCTGGCC
R
GGTACGGTGGCTCATGCCTGTAATCTCAGCGCTTTGAGAGGTCGAGTCAGGTGGATCACCTGAGATCAGGAGATCGAGACCATCCTGGCTAACACAGTGA
Celera SNP ID:            hCV1178825
SNP Position Genomic:     818754
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50117):
TCTGGGTAGGTGACATGTGGGGAGAGGATTAAAAGAAAGGAGGGCCAGTGGCTCACGCCTGTAATCCCAGCGCTTTGGGAGGCCAAGGTGGGCAGATCAC
S
TGAGGTCAGGAGTTCGAGACGAGTCTGGCCAACGTGGTGAAACCTCATCTCTATTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGCACACCTGTAGTC
Celera SNP ID:            hCV2810160
SNP Position Genomic:     266637
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50118):
ATACATTTGAGATGGCACAGACAATAGCACCTAGGGCAGGGCCCGGTCACAGTTGTCTCTTCATAACATTCTAAGTCGAGGTATGTTTATTCATTGACCA
R
CTCCCTGGAGTCTTCATTTCTAGTACAGCTGCTAAATTCAGTCATTCATTAGTCATGTTTTAAGGACAATGGATAGGAGACATTATTTAAAAAGCAATAA
Celera SNP ID:            hCV1178826
SNP Position Genomic:     819877
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50119):
AGGCTGCCATTTTCATATAAGCTTCATGAAATCTGGGAGAATAAAGGCAAAAGGTTTGATCTGGCTGTGACAGGGAATATTGTGAAGCTGCTGGACTGGG
S
CTGTGGGTTGCCTGTGACTGTCATCAAGTTCTTCTTCTCTGGAGGCTTCAAATTCCTCCTCTGTCAAATGAAGGGACTGGACTAGAAACAGAATGGCAAG
Celera SNP ID:            hCV2810161
SNP Position Genomic:     267384
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,2)      total(G,2|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50120):
AGTCTTCATTTCTAGTACAGCTGCTAAATTCAGTCATTCATTAGTCATGTTTTAAGGACAATGGATAGGAGACATTATTTAAAAAGCAATAATACAAAAT
R
CCAAGAGCTATTCAGCTCTTTTATACTAGAGCCTGTATATAGTACGTTCTTTCCCACAAATCCCTGTTTTTAAATATTTTCTCCATTTCACAATTATAAT
Celera SNP ID:            hCV1178827
SNP Position Genomic:     819986
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50121):
ACCTGTTTCTACAAGAGCAACCTACTTTTTTGTTTTGTTTTAATCAAGGGAGTGTCAAGCAATTGCTTATTTCATAAACAGGGCTGTGCTGCTATTTTTA
M
ACAGTGTGAAGTCCACAGGTCTGAATAATTTCTTCTTGCTCCAAGAGTTCCTAGGTCCTGTGTTCAGATTTTGAGAGCCTTCATGTCTCAGGTCCCAATA
Celera SNP ID:            hCV7624829
SNP Position Genomic:     168740
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50122):
TTCATGAAATCTGGGAGAATAAAGGCAAAAGGTTTGATCTGGCTGTGACAGGGAATATTGTGAAGCTGCTGGACTGGGCCTGTGGGTTGCCTGTGACTGT
S
ATCAAGTTCTTCTTCTCTGGAGGCTTCAAATTCCTCCTCTGTCAAATGAAGGGACTGGACTAGAAACAGAATGGCAAGTACAGGGCAAATGCCCCAGTGC
Celera SNP ID:            hCV2810162
SNP Position Genomic:     267406
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50123):
TATTTAAAAAGCAATAATACAAAATACCAAGAGCTATTCAGCTCTTTTATACTAGAGCCTGTATATAGTACGTTCTTTCCCACAAATCCCTGTTTTTAAA
Y
ATTTTCTCCATTTCACAATTATAATCCCCCAAATGACAGAATGGTTGTCTGACAATATTTCTTCTGATGTTGAACATATTTTGTACGTTTGAGACTGTGC
Celera SNP ID:            hCV1178828
SNP Position Genomic:     820061
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50124):
TAGCTGCCCCTAAGTGTAGTTAAGCCCCGTGAAATGTAAACTTCGCAAGTAAATGGACCATTGCCATTTGCCTCTGTCTTCTAGATGCAATTGTTTTCTA
Y
AGTCTGTCTTGTGGCCGGTTATAAAATGTCTGTCTTGAGCAAGCTGGGGAGGAGGGTGGATAGCTTTCGATTTGCCCAAGTTTGTTAATGTTTCATTGCT
Celera SNP ID:            hCV2810163
SNP Position Genomic:     267879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50125):
ACCAGCAGTCTAAAACATTACAGGATATTAGACTGAAAAGACAGTGGTATTTGCATCCTTTTGAACATTCGCCTGGATTTGCATAATGGAGATGTCACTT
R
TATTGCAGGAGAAAAATCAAGTTACCTGGGCTCCCATTAACTGCCTGCTCGCTACAGTTCCCGTAAGGGGTTGGAACACCACCTTTTTGAAATAGAAAAT
Celera SNP ID:            hCV7623882
SNP Position Genomic:     670284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50126):
CCTACAATAACTATTGGGAATGTTAATCATTTCAAATGGAGGAATTATTAGAGGCAGCACATTTATCATGCATATCCTCATCACTAGCTTAGAGCACCTG
R
CATAGTTTTTAAAGGAAAGGGAGAAAAAAAAGAAACACTATAATAATGAGAAAATATGCAAGATTTGAAGTCAGGAAAATGTGGGTTTAAACTGCAGCTT
Celera SNP ID:            hCV1178829
SNP Position Genomic:     820336
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50127):
TCACAAATGAGAAGAGTGGACAGTGGGTACAGGGTAGGGATGATGAGACCTGGAATTGATGACCTCAGCAGAGAAGGGGAGGAAGGATAAGAAGCAAATA
W
CAGTGACATATGTGTAAGTTAAAAAGATGGAGGTAGAGCTAGTTTCCAAGATGGCTTAAAAATACACATGGGTGCCGGTTTGACCTCAAAATAGAAATTA
Celera SNP ID:            hCV28966830
SNP Position Genomic:     545812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50128):
CTGTCTTGAGCAAGCTGGGGAGGAGGGTGGATAGCTTTCGATTTGCCCAAGTTTGTTAATGTTTCATTGCTTGGGGTGTTTTAAGATCCTGTGCCTTTAA
K
AGATTTCCTGAACTAACAGTTTGCCTTATTTACTTCCCTGGGCTATAATCATTATTGTGGCTGACCATGTTGATAAGCTACTCTGTGAAGCCTTCTCTAA
Celera SNP ID:            hCV2810164
SNP Position Genomic:     268009
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50129):
AAGGAGACGGAAGGTGGAGGATATGAGAGGCTGATCAAGGTCGCAGGAGCAAGTGCAGGGCAGAGACAGGGTGGCAGCTCCCTGTGCCTTCTGGAAGCCA
W
CCCCCAAGCTGAAGGAGCCACACAGAGCCAGCTGTCCAGGCAGGACCTCTCTGCGGTGACATTCACATGGCAGAGTTACCAAGAAGAAAGCTTGTGTCCC
Celera SNP ID:            hCV7623883
SNP Position Genomic:     669888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50130):
TCTTTCCTTGGTACCATGGATGTGTTTGATATGGTGCCAGCTGCAAAGTAGTGGAGGCTTCTTCAGTGTGGGTTCTTGAGCTGTCATATAGCATAAAGCC
R
CCACCCACCATTCTGAATTCACAGCATGAGCAAGAGATAAACAAACCTTTGTTGAGTTAAGGCTCTGGGATTTTGTTTTATTTTGTTCAGTTTTTAATTT
Celera SNP ID:            hCV28966831
SNP Position Genomic:     543906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50131):
CTGGGGAGGAGGGTGGATAGCTTTCGATTTGCCCAAGTTTGTTAATGTTTCATTGCTTGGGGTGTTTTAAGATCCTGTGCCTTTAATAGATTTCCTGAAC
Y
AACAGTTTGCCTTATTTACTTCCCTGGGCTATAATCATTATTGTGGCTGACCATGTTGATAAGCTACTCTGTGAAGCCTTCTCTAATGAATGAGAGTCAC
Celera SNP ID:            hCV2810165
SNP Position Genomic:     268023
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50132):
ATTTGGCTGTGTCCTCATCCAAATTTCATCTTGAATTATAGTTCCTGTAATCCCTACATGTGGTGGGAGGGACGTGGGGGGAGACGACTGGATCATGGGG
G
TGGTTACCCTCATGCTGTTTTCATGATTGTGAATTCTCATGGGATCTGATGGTTTTATAAAGGGCGTTTCCCCCTTTTGCTCAGCACTTCTCCTGGATGC
Celera SNP ID:            hCV26380387
SNP Position Genomic:     358506
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,5)   total(G,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50133):
TCTTGTGGTCAAAACCTGCACCCCAGGTAACATAAAATAAAAATAACAATGGCTATAATTGTGAACCGCCCGCTAACCTCCTCTTGTAGTGCTCCAGGCC
R
GACGCTCATCACCTTGTTTTGTTGTCTTTGCCATCAGCATTATAGTAGAGCCATTGGCACTCACCCATGTCCAGCCCCGTTCCTCCTGGGCACACAGAAA
Celera SNP ID:            hCV28966832
SNP Position Genomic:     543620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50134):
GGGGAGGAGGGTGGATAGCTTTCGATTTGCCCAAGTTTGTTAATGTTTCATTGCTTGGGGTGTTTTAAGATCCTGTGCCTTTAATAGATTTCCTGAACTA
R
CAGTTTGCCTTATTTACTTCCCTGGGCTATAATCATTATTGTGGCTGACCATGTTGATAAGCTACTCTGTGAAGCCTTCTCTAATGAATGAGAGTCACTC
Celera SNP ID:            hCV2810166
SNP Position Genomic:     268025
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50135):
CTTCCACTGGGATGTCCATCTTGTGGTCAAAACCTGCACCCCAGGTAACATAAAATAAAAATAACAATGGCTATAATTGTGAACCGCCCGCTAACCTCCT
S
TTGTAGTGCTCCAGGCCAGACGCTCATCACCTTGTTTTGTTGTCTTTGCCATCAGCATTATAGTAGAGCCATTGGCACTCACCCATGTCCAGCCCCGTTC
Celera SNP ID:            hCV28966833
SNP Position Genomic:     543602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50136):
AACTTTTGCTCTGTAGCCCAGGCTAGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTATCCTGCCTCAGCCTCC
Y
GAATAGCTGAGATTATATGCATGCACCACCACGCCCAGCTAATTTTTGTATCTTTAGTGGAGACAGCATTTTACCGTGTTGGCCAGGCTGGTCTTGAACT
Celera SNP ID:            hCV2810167
SNP Position Genomic:     269811
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50137):
TTCCCTACCAAGTTTTAAAGGTTGAACAAAGCAAGGTGTTGAAAGAGCACCCTGAGTCTGACAGTCAGAGGGGAATCAGGGCAGGAAGTATCTACTGAAG
W
GGTCCTCAAATTTCAGGTTGCCTAAACAGTTACTGAATGAGCTTGTCAAAATGCATAAAGAAGGCCCTACACCACTACCACTACCACCACCCTCTGACAC
Celera SNP ID:            hCV28966834
SNP Position Genomic:     542770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50138):
GGTAGGCACTTGAAGCCCAGAAAGGCTAAAAGACTAGGACATTAAGTCATAGAGGAGGGTTTTTTTTTTTTTTTTTAGTTTTGTTGTTGGTCGTGATGGT
R
TTATTCAATTCTTTTATTATCTCAGAACTCATGTCATACTGCCCCAGCCTCTGTATCAGCATTATGTAGCAATGATGTTACTGAGCCTGATCTCTGTAAG
Celera SNP ID:            hCV2810168
SNP Position Genomic:     270114
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50139):
TACACTGAAGTTCAGAGTTGTTGAGTGGTTTACCCAAGAATACGTAGCAAGTAAATGATAGAGCTGAAAATTCAATCTGTCTTTCTCTAGTGCTAAGCCT
Y
AGTTTCCCTACCAAGTTTTAAAGGTTGAACAAAGCAAGGTGTTGAAAGAGCACCCTGAGTCTGACAGTCAGAGGGGAATCAGGGCAGGAAGTATCTACTG
Celera SNP ID:            hCV28966835
SNP Position Genomic:     542666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50140):
CATTTTTGAAACTCAAAATTAATGCATAGAAGTCCATGAGAAGTAAAATGTTAAAGACAGGATCAAAATCAATGCAGAAAATCCATAATGAGCAAAATAT
S
AACATGTTTTAAAAAGAGGGCATCAGTATTACTGATTTCTTTCGTTTGACTCAGGCTCCAGTACAGCTTATGTTGGCACTGTGATGTATCCTGTCTGTAT
Celera SNP ID:            hCV7623888
SNP Position Genomic:     669311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50141):
GGGTAGTGAAGAGGTCCTCTAAGAAAGAAGCAGATTTCGTGGAACCCAGGATTTCCCATCCTCTTTTTATCTGCACTGCATTTTAGGAGCTTTTAAATTT
S
TGTTCTGGAGTTGGGCATCTCTTCAAGGTTAAGACTCAAGGGCTGTTTGTATTCCTCTTGGATTTGCCTACATTTAGCAAAGCAGAAACTCAACACATTG
Celera SNP ID:            hCV2810169
SNP Position Genomic:     270401
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50142):
AACTGCTTCTCAGACGTGGCATTTACATGCCTGGTGCTTCCTTAGCTCATCATATAACCAAGTACTGGAATCTGTTTTACAGATAATAAGAAACATTCAC
R
TGTTCCATCTTTTACATATGTGAGGACCAGGCACTGACTAGAAAATTTTCATCACCATTGTCCTCATCATCACCATCATTAGCATCTTGTCGTCATCATT
Celera SNP ID:            hCV28966836
SNP Position Genomic:     542344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50143):
TTTGGCGGGAAAATAGCTTTAGTCACAGGCAGGTTGTTTTGCTTCCTAAAGCGTAAAGTTGGAAATGTGATAATTTCGTCAAGTAGTTGATTTAGTTGTA
Y
CAAGCTTAACTAATTAACACCAATTCCATGCTTGATTCTTTTCTCCATTAACTGAACAAAAGCCATTGCTAATGAGGCTATGTATACAAAGCCAGCTGAC
Celera SNP ID:            hCV15983496
SNP Position Genomic:     86197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50144):
CTATCTATCTATCTATCTAGATATATACCTCATATTCTTGTGAGTGGACTGAGGCTCATGCCATGTGGAAAGTGAAGCAAGGGCTGGATATTTGATTCCT
M
CTTGTCCCCCTGCCATGCCCGTGCTCCTATGTGTATTATAACCTGTACCCCATAGATGGTTCTTGAGATTACTCCTCCTTTCATCTGGAAGATAATGTTC
Celera SNP ID:            hCV7623889
SNP Position Genomic:     668270
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,9)      total(A,9|C,1) ;(A,-|C,-)   Caucasian(A,31|C,49)   Asians(C,26|A,56)   total(A,87|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:50145):
TTTATAAAGAATTAAAGGAAAATAGGTTAAACATGAACTGCTTCTCAGACGTGGCATTTACATGCCTGGTGCTTCCTTAGCTCATCATATAACCAAGTAC
Y
GGAATCTGTTTTACAGATAATAAGAAACATTCACGTGTTCCATCTTTTACATATGTGAGGACCAGGCACTGACTAGAAAATTTTCATCACCATTGTCCTC
Celera SNP ID:            hCV28966837
SNP Position Genomic:     542309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50146):
TCCTAAAACATAAATTTTAACATTCCTTGCTTCTCCTTGATGATCATTCCCACATAGAAATGGAACTGCATTAATAATGATTGTTGAAAAAATGAATAAA
Y
GATTGTTGAATGAATAACCGAATGAATGCCACCAGGGAAAATTATTGTCTCCATTTCATTTTAGGGCCTGAACTTTAGGAGAATAAAGTTATCCTAAAGA
Celera SNP ID:            hCV15983497
SNP Position Genomic:     133360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:50147):
CCTACTAATTACATTAATCAACAACAAACAACAACTCTAAAAGATTCCCCGAGATGAGAGTTTCAGAAGCCTGAGACGCTATGTCAAACAACCCACCGTA
S
TTATTCAGGGACACTGCAACTCAAAATGAGGTAGCCATCGATCCAGAGAACAAATGATCATTATTCATGTAACTCTCTTCTTTGCTTAAGAATCCATCTT
Celera SNP ID:            hCV28966838
SNP Position Genomic:     542014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50148):
TTATCCACATTCTTGTCTTACCCATCCGTCTCTGTCACTCTCCTGATATACCTCTTCCCTACTAATTACATTAATCAACAACAAACAACAACTCTAAAAG
W
TTCCCCGAGATGAGAGTTTCAGAAGCCTGAGACGCTATGTCAAACAACCCACCGTAGTTATTCAGGGACACTGCAACTCAAAATGAGGTAGCCATCGATC
Celera SNP ID:            hCV28966839
SNP Position Genomic:     541957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50149):
TGCTGCTTCCAATTTCAGACTCCCTAGCTTTGCCTATTGGCTGACTGTAACCATAAAGATAACTGATTCCTGTACCAAGCCTAATAAGATCAATTAAATT
M
CTTGTAAAAATGGTCCCTACTAGGGGAAATGCTAGATGAGATGCTAAAACTCATCTGTCTAAAAACAAGAGACAAGCTCTTTCTTGGATTTTTTCTTTTT
Celera SNP ID:            hCV2396004
SNP Position Genomic:     636193
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,3)      total(A,2|C,3) ;(A,-|C,-)   African American (pooled) - WICGR(A,35|C,65)   Asian (pooled) - WICGR(C,17|A,67)   Caucasian (pooled) - WICGR(C,38|A,58)   total(A,160|C,120)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50150):
AGCTCTAGAGAGCTGGAACCAATTTATGCTCCTTCTGACATTCACAGGGAATGCTCTGTATAAATCTTGGTCTCTTCTTCCTTTTTAAGGTCACATAGCA
M
CTGGATTTAAACTCCAAAGCTACCCCAATTTTAGCTGGAGGGACCATATTCCAAGCTGCAAATATTGTACCCACCCAGCAAATTTCCTGGGATGTGCTTC
Celera SNP ID:            hCV11672301
SNP Position Genomic:     214429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50151):
AGACTCCCTAGCTTTGCCTATTGGCTGACTGTAACCATAAAGATAACTGATTCCTGTACCAAGCCTAATAAGATCAATTAAATTCCTTGTAAAAATGGTC
Y
CTACTAGGGGAAATGCTAGATGAGATGCTAAAACTCATCTGTCTAAAAACAAGAGACAAGCTCTTTCTTGGATTTTTTCTTTTTCTCTTTCTTTCTTTCT
Celera SNP ID:            hCV2396005
SNP Position Genomic:     636209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50152):
AGCTTCTTCCAATAGCTATGTGATCTTGGAAAGTTACTTCTCCAGTCTGAACCTCCATTTCTTCAACTTTAAAATCAGAGTAATAATAGTAATACCTATA
Y
TCTAATGTTTTATTGGAAAGAACGGTGTCTGGCACATAGCAATTAACCCAAGCAATTTACATAGCAATTACTCGTGAAAAAGAAGCTATTAATACTATTT
Celera SNP ID:            hCV1178830
SNP Position Genomic:     820532
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50153):
ATCAGAGTAATAATAGTAATACCTATATTCTAATGTTTTATTGGAAAGAACGGTGTCTGGCACATAGCAATTAACCCAAGCAATTTACATAGCAATTACT
Y
GTGAAAAAGAAGCTATTAATACTATTTATTGTTATTTTCCCACTGCTGTTGCCCTTCAGCCAAAGAGCACCAGGAACACATCCGTAATTAAGAAGTTGGG
Celera SNP ID:            hCV1178831
SNP Position Genomic:     820605
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50154):
AGGGATGGACAGGTGGTAGGTGTTCAATATTTGCCTCATGGATATTGGGAATTACTATATTTATTGTTCTGTGTCCCAAAGAACAAATGAAGCCCCCACA
Y
CCTTCCTGTTTATTGACTTAAAGTATTGTCTTTGAATGTTGAAAAAAGTTTTTAGAAAATGCTGAACTTACAGGGAAATTCACCAAAGTAATAGTAATAT
Celera SNP ID:            hCV11672307
SNP Position Genomic:     217496
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50155):
GGGTCACAAAACTGAACCATTTCTCTGAATTGGTTGCTATTCGGAAGCATGGGTAGTTCTATGACCAGTGCTAAATCTCATCTTTAGGTAGGACAGCCTA
R
GGTGAGGCTACAGCCGTAATTGGCAAAGAAGCAGCTATTGTTTTAGCCAGGAAAGGCGATGGCTTCGGCAATGTTCAGGTCTGTCTGTGTTCATGCATAA
Celera SNP ID:            hCV1178832
SNP Position Genomic:     820923
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,16)   total(G,16|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50156):
ATGACCAGTGCTAAATCTCATCTTTAGGTAGGACAGCCTAGGGTGAGGCTACAGCCGTAATTGGCAAAGAAGCAGCTATTGTTTTAGCCAGGAAAGGCGA
Y
GGCTTCGGCAATGTTCAGGTCTGTCTGTGTTCATGCATAATTACGGAATGGCCTTCTTTATGGTCTGATTGACTGTGGTCATAGAGTGGCCTTATCTGAT
Celera SNP ID:            hCV1178833
SNP Position Genomic:     820983
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,10)   total(C,6|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50157):
TCATCTTTAGGTAGGACAGCCTAGGGTGAGGCTACAGCCGTAATTGGCAAAGAAGCAGCTATTGTTTTAGCCAGGAAAGGCGATGGCTTCGGCAATGTTC
R
GGTCTGTCTGTGTTCATGCATAATTACGGAATGGCCTTCTTTATGGTCTGATTGACTGTGGTCATAGAGTGGCCTTATCTGATGTTGGTATTCTCTGAAA
Celera SNP ID:            hCV1178834
SNP Position Genomic:     821000
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,12)   total(G,4|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50158):
TCCAAATTCTATGTAAAAAATTCTATGTAGGTCAACAAAACTTAGTAACTTGGGTGTCAAATGTAAAGAAGAAAAGATAGGCTCAAAGGAGAGAGTAGGG
Y
TGATGTGGTAGAGGGTGGACCCACGGTGTCTGTGCAGGCCAGGGTAGGGAGGCTGGCTTTCATTTTAAATGACATCTGAAAAGTTTGTCATTTTAAAAAG
Celera SNP ID:            hCV1178835
SNP Position Genomic:     821350
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50159):
TATATGAGGTATCTAAAATAGTCAGACTAATAGAAGCAGAGTAGAATGGTGATTTGGGGGAGCAGAAAGGGGAAATTTATTGCTCAGTGGGTATAAAGCA
K
CAATTATATGGGAAGAAAAAGTTCTAGAGATGTTTTGTACAACTTAGTGCTTTTAGGTAACAAAACTGTAATGTGCACTTAAAAATGTGTTCAGAGGCTG
Celera SNP ID:            hCV10075148
SNP Position Genomic:     182877
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,9)      total(G,9|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50160):
TCTGTCTCAAAAAAAAAAAAAGTCAAGGAAGATCAAATACTCAAGGCTCCTAGTGATCATCAATTAGACATCCGAGTTCTTCTGGGAGGTCCTGTTTGCC
R
GTGGTCATCCTGTCATTTCCATCAGTGATGTCTGGAAGGTTTGATACCAAGAAGTTACCTCCTTTCAAAGTGGCTTCTTCTTCCAGCTACTAGGTTTGAC
Celera SNP ID:            hCV2852700
SNP Position Genomic:     776769
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50161):
GGGGATGGAGAAAAAGGGAAAGGAGGTTCAAAAAGTGAAGTAAAGCTTTTATCATTTAAATGTGGCAGCATTAGATGTGGGTCACAGAGTTGTAGACAGG
C
TTAGGACACGGAAAGGAGTTTGGTTATTCATCTGGCCCAGTTGCCTCCTTTACATGTAGGAAAATCAGCACTGACCAGGACAGATGAAGTGGCTTGTCCA
Celera SNP ID:            hCV1178836
SNP Position Genomic:     821588
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,8)   total(C,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50162):
AACATGCCGATTTTTTACTCCAAAAAGAACTGAGTGTGCAAAGCAAACCAAGAAAGAAATGTGGACTGGGCCAACTAATGGGTTTCTAATCATTGTTAAT
S
TACAAGTGTGATCAGTTTATTATAAAGTGTTAATTTTTCCTGTGGGTAATACTTGGAGAAATACAGTATACCACTCATTTCCAAAGTGATGAAATGGCTT
Celera SNP ID:            hCV2810170
SNP Position Genomic:     272496
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50163):
AGCTGCAATGTGTATTGTGTCAATCACACAAGAAGTTTTGTTCTCCCTATTATTCCTAAAAGCCAGCTGTTTATGGCTAAAGATTCAGTTTTGAGTCCTT
Y
CATATCAAGATGAATATTTATAGGTGCCCATTGTTATACTCAACAAGGGTGAACTAAGAGTTCTCAGTCCTGGTCCTCGTATGCCGGCTACTCACACAAA
Celera SNP ID:            hCV27871704
SNP Position Genomic:     1131431
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50164):
AATCATTATGCTTTGAGTTATATTGACATTCCATAGACAGATGTCATTTCATGATTTTTAAGCAGTCAATTTTCAATTACTGCATAATATTCTTCCATTT
R
GAGATACATATTTTAGTTCAGTATTATTGTGGCACACTTATTTTCTATATTTCCTTTTTTTCTGGAGACAGAGTCTCAGTCTGTTGCCCAAGCTGGAGTG
Celera SNP ID:            hCV7624838
SNP Position Genomic:     149683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50165):
TGACAATGATTATTTAGAATCTCTGAGCAGCTCAGACTCAGTTTTTTTTGTAATGCCAGCATATAGGTCAAATGTGAATTCCTTACAATTTTTTCTGAAT
K
GGAAGTTTAGGGAACGACTCCAATGTTCCTGTAGTCGCTGTAAGTCGTTTAGGTGTGCTATAGGATGAAAAGAAGAATAATGAAACTGTGGTATATGCAT
Celera SNP ID:            hCV10075149
SNP Position Genomic:     182545
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50166):
CTTGTGCCCCCAACACTGTGGAATGGGAACTGAATCAGTCGTGGGGAGGAGGGGTCTCTGCAAACGTGGCAGGTCACAGAAGATGGACAGCAAGGGCCAG
S
CACGGTGGCTTATGCCTGTAGTCCCAGAGCTTCAGGAGGCCAAGGCAGGCAGATCTCTTGAGTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGG
Celera SNP ID:            hCV1178837
SNP Position Genomic:     821860
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50167):
CTTTCTGTTTGGCATGCAGGAAAGTGAACCTCTTTAGTTTAGAATATGGGTTGGATATGCTTGCCAGGTCTGGGCTATTCCCTGCTGCCTCTGAGCGAAA
R
CTCAGGAAGCCAGAACCTGAATCTCTTCGAGGAAGTTCTACAGCTGACTTTTAATCATTGGGCCATAGCACAACACCTATTAGCTCGCTTACGTCTAGGT
Celera SNP ID:            hCV2810171
SNP Position Genomic:     272694
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50168):
GGTGGTTCTCAAACTTTGGTGAATCAGAGCCACCTGGAAAACATGTTAAAAATGGAAAGGTCCCATCATATCATCAACAGCCCTGATCATTCTGATACAC
W
CCCAAATTGGAGAACCAGTGGCACAAACAAATGCCCAACCCTCGTGGGCTATTCACAAGGCAAACAAAAATCAAGCTATGCTTGGGAGGCAGAGATCCAC
Celera SNP ID:            hCV27871705
SNP Position Genomic:     1119980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50169):
GTCAATGATCAGCTATTGAGTAAGCAAAGTGAATTAATGATCTTTATATGCCATGTGTCATGTAATTCTATCCTCTCACTTCCAGGAGATTTGGAAGGCA
K
CCAGGAGTCCCTCTTTCCTCTCTGTTGCCTGGCTGACCTCCTTCCTTTAAAACCCTTCTCCTCTTTTTTGTATCATAATGACCTTATTTTGAATTATGGT
Celera SNP ID:            hCV2852702
SNP Position Genomic:     777807
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50170):
AGCTACTCAGGAGGCTGCGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGCTACAGTGAGTTGAGACTGAGCCACCGCACTCCAGCCTGGGCAGCAGA
Y
TGAGACTTCATCTCAAAAAAAAAAAAAAAAAAGCGGGGGAGGGAGATTAATCCTGGTGCCCTTCTAGAACTACCACCTGGCCTTTCTTAATTGTCCACTT
Celera SNP ID:            hCV1178838
SNP Position Genomic:     822126
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50171):
TCAGGAAGCCAGAACCTGAATCTCTTCGAGGAAGTTCTACAGCTGACTTTTAATCATTGGGCCATAGCACAACACCTATTAGCTCGCTTACGTCTAGGTC
R
GTAGAACCTCCTCTGGACCTCAGCTACTCTTCCCACTCTGCATCTCGAGACACTTGCCTTCTTTCCATGTGACTTATCGCTAAGCTCCTGACTGCATGAA
Celera SNP ID:            hCV2810172
SNP Position Genomic:     272796
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50172):
TTTTCAAGGTCTTCTTACATTTGTAACATTTGTTGTCCTACATAGTCTTCATACAAACTATAAATTGAGCATGAGAGACATTCTTTTTTTTTTTTTTTTT
T
CCAAGACTAACTTTTGCTCTGTAGCCCAGGCTAGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTATCCTGCCT
Celera SNP ID:            hCV26380394
SNP Position Genomic:     269702
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50173):
CCCGGTTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCGGGCTGGTCTCAAATCCCTGACCTCATGATCCGCCCTCCTCAGCCTTCC
R
AAGTGCTGGGATTATAGGCATGAGCCACCGCACCCGCCCTGGCCTCTTTAATGATTGTTTACTTGGGTAGGTAAAGTCTTCCAGTCCTTTTCATTCTCTC
Celera SNP ID:            hCV27871706
SNP Position Genomic:     1098946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50174):
GTACAGCAGAATCCCCAGGAGGATTTGTTTAAGTACTCATTGCTAGGCGTACTACCCTGGTTTCTAACTCAGTTAGGTATATTAATTTCCTAGGGCTGCC
R
TAACAAATCACTGTAATGTTGATGTTTAAAGCAACAGAAACTTATTCTCTAGCTTCTGGAAGCCAGAAGCCAAAATCAAGGTGTTGCCAAGGCATGCTCC
Celera SNP ID:            hCV2852703
SNP Position Genomic:     779545
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50175):
CCACTCTGCATCTCGAGACACTTGCCTTCTTTCCATGTGACTTATCGCTAAGCTCCTGACTGCATGAACCTCCTTCCTTCCACTGGTCCAAGTGACATCA
Y
TCCCCCGTCCTCACTCCCAATACCACCACTTCAGTAACCTCCCACATGTTTTCCTGCTCTACTTTAATCCAGTCTACACAGAGAGAGCAGCCAGCCACTA
Celera SNP ID:            hCV2810173
SNP Position Genomic:     272929
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50176):
ACATGACAGAGTGGGCTCTGTCTATGTTGTACTTAATATTATTGTAGAAAGAAAAATTGAGTATATCTTGTGAAAAATAGTTCCATTTGAAAGTCCATTT
S
TTTCAAATTCAAAGAAAGAAAACAACTAAAATACGTAAGTCTAAAGGGCATGGTTGATTTAGGATTTTCGAGTGGGAAGACTATTAAAAGAGATGCTTGC
Celera SNP ID:            hCV26380395
SNP Position Genomic:     268823
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50177):
TAGATGAAAGGTCTTTAGACGACCTTAGATCATCAGGATAGACCCATTTTCACCATAAAAGTCCTTATAAGAAGGAGGCAGGGCCAAGCGCGGTGGCTCA
Y
GCCTGTAATTCCAGCACTTTGGGAGGCTGAGGTTGGTGGATCACTTGAGGCCAGGAGTTCAAGACCAGACTGGCCAATGTGGTGAAACCTATCTCTACTA
Celera SNP ID:            hCV27871707
SNP Position Genomic:     1090966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50178):
TCATAGAAAGCTCTCTTGGACAGCCCTATTCTAGATGCTTTATTCTCAAACATGCCACAGGATAACACATAAGATATTGGCATGGATACCATTCTATTTG
R
TTTGGGACAGAAGAAATAAGGAAAAATGTTTCTGAAACAGGGAGTCCATTTTAGATTATTTTATATGAAGTTATCAATAGTTTATTAATATATTGATTAA
Celera SNP ID:            hCV28966840
SNP Position Genomic:     555392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50179):
TGAGGGCAGGAATGTGTGTCTTCTTTGTTCAGTGAAGACTCCCAAACACCCAGAATCGAGCCTGGCATGTAGCAGGTGTTCAGTGGCTTCATTGAATCAA
Y
GAATCATGTTTAAATTTGTAACAAAATGACTCTGGCTGCTACTATGCAGAGGACAGGTTGTAGAGAGAAAGTGGCAGGGGGGAAAACAGAGGAGGAGTCA
Celera SNP ID:            hCV27871708
SNP Position Genomic:     1038794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50180):
TTATGGTCTGCCACTCATCCACAACCACCAGCATTTGTCTTGACAAACCACCAACATTTCCCTCCCCCGCCTTGACTGTGCATGGATTTGCATATTTATA
K
AGTTAAAGAATCACCCACCATGGTTCTCTTTCTTATCCACATTCTTGTCTTACCCATCCGTCTCTGTCACTCTCCTGATATACCTCTTCCCTACTAATTA
Celera SNP ID:            hCV28966841
SNP Position Genomic:     541824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50181):
TCTCATCTTGAGATTCTTCATTACATCTGCAAAGACACACCCCCACTTATTTTCCAAATAAGATTCATGCACAGGTTCCAGGGATAAGGACATAGAGGTA
Y
CTTTTAGGGAGCCACCATTCAATTCATGGCAGTAGACCTGGAATATGGGGCCTGAGATTATGCTTTTTTGTACTTCTAACATGTTCACAGTTGATGCTAA
Celera SNP ID:            hCV2852705
SNP Position Genomic:     779958
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50182):
GGGGTGTTTTCTGCTTGGTTTTGTCCATTATAAACTGTTAGATTAACCATTTGTACAGCCAATGAAATAGCTTTAAGGGAGGCACTCAGGAGCTTGAACA
Y
GTCCACAGAAATTCCAAGGTCTCTCCAGTATCAACTTGCAGTACGTCAAGCCAGTACACATGGGAGAGCCTTGAAGGGGTACAAGATCAGGCTCCCCTCT
Celera SNP ID:            hCV2810175
SNP Position Genomic:     274840
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50183):
GCTGAGATGAGCTCTTTTCACTAAGCATGATGCCCCTGAGATTCATCCAAGTACTCACATCAACCGATAGCTGGTTCCTTTTGATTGCTGAGTGATATTC
S
ATGGTATGGTATGCCAGAGTTCGTTGAACCATTCACCCACTGAAGGACATTTGACTTTGTTGCTAGATTGAAGCTACTGCAGATAGAGCCACCCTGAATA
Celera SNP ID:            hCV27871709
SNP Position Genomic:     1017803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50184):
AAATTAAGCATTATGTCTTTTTTTTATGGTCTGCCACTCATCCACAACCACCAGCATTTGTCTTGACAAACCACCAACATTTCCCTCCCCCGCCTTGACT
S
TGCATGGATTTGCATATTTATAGAGTTAAAGAATCACCCACCATGGTTCTCTTTCTTATCCACATTCTTGTCTTACCCATCCGTCTCTGTCACTCTCCTG
Celera SNP ID:            hCV28966842
SNP Position Genomic:     541801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50185):
TAGGAGAACTGAGAATACAAGGCAAACCACACCTTTCTTTGTCCAGCATGATTAACGGACTGTGGAAGGGCCCTAATTTGGAGTTCCATTCATGGGATTT
R
GTTTTATGACATCCTCCAGTCCCAGGCTTCTGGTATGACTTGCAGAGGCATTGGTTAACCTGGTGGAAAATGGATTACTACTCAACGTGTTTACCGATAC
Celera SNP ID:            hCV29090713
SNP Position Genomic:     323276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50186):
GGCATCACAGAGAAGTGGGACAAGGGTGTGGACCAAAGAAACAGACCAAGGAGCGTGGGCGAACTGGAGGGTTCCTGCCCATGTCCTGCCCACTTTCTGT
Y
CCAGGTTTCAGAGGAGCAAAGAGCCGTTGCCCAAGAAATAATGGCTCAGCCATCTTTACCCTGTCTCAAATGCAAGTCTCTAAATTTGTTCCTCCTCCTT
Celera SNP ID:            hCV7623895
SNP Position Genomic:     667329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50187):
GCTTGAACATGTCCACAGAAATTCCAAGGTCTCTCCAGTATCAACTTGCAGTACGTCAAGCCAGTACACATGGGAGAGCCTTGAAGGGGTACAAGATCAG
S
CTCCCCTCTGCTCTTTGAACACACTGAGCTTGTGGCTGCCTCAAAGCCTTCGCAGGCATTATCCCTCTTGCAAATTTTTTCATGGGTAGTGCTTCCTGTC
Celera SNP ID:            hCV2810176
SNP Position Genomic:     274931
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50188):
GATAAAGTTCAAGCAGTGCAAATACTAAATAAGCAAATTAAGCATTATGTCTTTTTTTTATGGTCTGCCACTCATCCACAACCACCAGCATTTGTCTTGA
S
AAACCACCAACATTTCCCTCCCCCGCCTTGACTGTGCATGGATTTGCATATTTATAGAGTTAAAGAATCACCCACCATGGTTCTCTTTCTTATCCACATT
Celera SNP ID:            hCV28966843
SNP Position Genomic:     541767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50189):
CCAGTTATTCTCACTCATAATTTCTTTCTCCTTGGGTTTTTGTTTTATTTTGGAACGGCTTTTTAACCTTCAGAAGTACATTTTGTCTGGAGGACCAGAG
Y
ATCGATGTGATCCTACCTGTAGATTCTTGGCAAGAGAGAAAATGTTCTTATTAATGCAGAAAGTCCTACCCAGAAGGAAGAAAACGTCTCACCTAGAAAA
Celera SNP ID:            hCV7623896
SNP Position Genomic:     666479
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50190):
CCTAGATAATTCTGATGGGTTTTTTTTTTTCTTTTTTGGAAAGGATTTAACAGATATTAGAGAAAACTTAGAGGGAGTCTTGGGACTCCTTGATGGCCAC
R
AAAGGGATGACTTTTAAAGAAATCGATCCAGAAATGTCTATGTGGCTGCCCTTTCTCTTCTCGTTGTAAATTTTCTCACAGTGAACACAGGTGTTAGAGA
Celera SNP ID:            hCV2852707
SNP Position Genomic:     781567
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50191):
TCTGCTCTTTGAACACACTGAGCTTGTGGCTGCCTCAAAGCCTTCGCAGGCATTATCCCTCTTGCAAATTTTTTCATGGGTAGTGCTTCCTGTCATTCAG
K
TCTCAGATCAAACACTACCTCTTTAAGAGCTCTTCACTGCCTACTTTAAGGCATCACCCTGTTTTATGTTGTTTATATAATATTTCACAACCTGACATTC
Celera SNP ID:            hCV2810177
SNP Position Genomic:     275038
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50192):
ACTGCATATATATTAATAATTCACAAATCTGAATTTCATCCTTTGCCTCTCATTTGGTTTCCAAATTTATTTTCACTCACAATTCCTACATAGTCAGACA
Y
CTTCAACTTCACGTTTCCATTTTGATTCTTTGTCTTGCCTTCCATGTCTTGTAGCTTATCTATTTTTTTCTGTCTCGGTAAAAGTTCCCATTTGCCCACA
Celera SNP ID:            hCV28966844
SNP Position Genomic:     539198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50193):
ATTTAATTAAATGAGATAATTTGTATAATGCTCTAGTACAGTTTTAGGCCATGGTAAACTCCGAATTAATTCTGTTCTTCACTCCTTATTTATAGCATTG
Y
TGAGAAAATTAGGTGAGATTCTGTATTTAGAAGAAGAAAAGTTCCCACTTAATGATGGGGCTGCTCAATAAATGTTGGTCCTCTTCTCTAGAAACCCTGA
Celera SNP ID:            hCV7623897
SNP Position Genomic:     664363
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   African American (pooled) - WICGR(C,39|T,61)   Asian (pooled) - WICGR(T,84)   Caucasian (pooled) - WICGR(C,4|T,92)   total(C,43|T,237) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50194):
AATTCTGATGGGTTTTTTTTTTTCTTTTTTGGAAAGGATTTAACAGATATTAGAGAAAACTTAGAGGGAGTCTTGGGACTCCTTGATGGCCACGAAAGGG
R
TGACTTTTAAAGAAATCGATCCAGAAATGTCTATGTGGCTGCCCTTTCTCTTCTCGTTGTAAATTTTCTCACAGTGAACACAGGTGTTAGAGATCAAGTG
Celera SNP ID:            hCV2852708
SNP Position Genomic:     781574
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50195):
AGTTAATAAGATGGAATTCTCCTTTTCTTTTTCTTATTATATTTTCCAAATCAAGGGCAGTAGATTCCAGAACTCCAATGACGTCAGGCCACTGTACTTT
S
AAAATGCTGTTCTCAGTCAGGTTTCTTATTATCTGATCCTGGTTCAGTAGATTGTCTCAGAATTGACTTTTTAGATTAATTTTGATTCTTAGTTAAATTA
Celera SNP ID:            hCV28966845
SNP Position Genomic:     537230
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50196):
AAGGATTTAACAGATATTAGAGAAAACTTAGAGGGAGTCTTGGGACTCCTTGATGGCCACGAAAGGGATGACTTTTAAAGAAATCGATCCAGAAATGTCT
R
TGTGGCTGCCCTTTCTCTTCTCGTTGTAAATTTTCTCACAGTGAACACAGGTGTTAGAGATCAAGTGTTTGGCTTTCTGGTGCTCTGATGCAGGAAGTTT
Celera SNP ID:            hCV2852709
SNP Position Genomic:     781607
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50197):
AGCCTCCAGATAAAAGGCACCATGGGCAGCTAACAAGCCCCTAATAGGACTACATCAAGTTTTACTCACCTGCTGCCAGGGCTTGACTTCTGCGTCTTGA
Y
GACATGAAACCAGGCTTTGACAGCATTCATTTTTGCTGAAGGACCCTCCCCCAGCCTCCTTCCATAAATCCTATGCTCCTTTATTCCGTATTCATTCAGC
Celera SNP ID:            hCV28966846
SNP Position Genomic:     536839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50198):
GGTCCCCTCCTAGCTCTAAGATCAGCTTCTGCTTATTTCGTTGTTTTGCTTCATCATCTTTACATTGCACAATCCACGTGTAGAAAATAGCCCTTCCCTT
Y
CCTTTGTGCGCCAAAATTTACATAAAGCATTGTGTGGATAGCACACTTTATTGAAATTCTAGAAAGTTGTATTTGGAGATTGTATCAACTCCCAGTGGAA
Celera SNP ID:            hCV29090717
SNP Position Genomic:     320553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50199):
ATTTAATTCTCATTTGGAAAATAAGATGTTCAGACATTGAGTTATATTAGAAGGAAGAAAACCACTTCTGTGGGAACAGTCAAATTTATTTCATTTACTA
Y
TAGAGAATGTTAATTTCAAGAAGCAATCTTTGAAAGCAACCAAATTTGGCAAAGACAAGTAGTCTTCCCTGAGAAATATTGGACAGCAACAGATTATATA
Celera SNP ID:            hCV28966847
SNP Position Genomic:     535260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50200):
AAACCCTGTTCTGTGCCTTGAGAATGCTCAGTGATATCCATGACATTTCTGGAATTTCACGGGGGTGGGTGCTCACCTACCAAAGGTCCCCTCCTAGCTC
K
AAGATCAGCTTCTGCTTATTTCGTTGTTTTGCTTCATCATCTTTACATTGCACAATCCACGTGTAGAAAATAGCCCTTCCCTTTCCTTTGTGCGCCAAAA
Celera SNP ID:            hCV29090718
SNP Position Genomic:     320469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50201):
TTGTGCTGCTTCTTCTGTCTTCTCTGTGCCCCTCTTCCCATCGTTTCCAACCAACTCAGCCAGTCACTGCTCCCTCCAGCAGGGAATATGCCCCTGTGAA
R
TGTACCTATGGGAGGATAGCCATCATTGGCTAGACCTGGAAACTAGTTATTCTAACCCAGTTAATAACAAACCCAGAACAACTGAACCCCTAAAAGGCGG
Celera SNP ID:            hCV28966848
SNP Position Genomic:     531592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50202):
TGGGATTACAGGTGTGCACCACCACGCCCAGCTAATTTTTGCATTTTTAGTAGAGATGGGATTTCGCCATGTTGCCCAGGCTAGTCTCAAACTCCTGACC
Y
CAAGTGATCCGCCCACCTCAGCCTCCCGAGCTGCTGGGATTACAGGCATGAGCCACAGTGCCTGGCACGTTAATCTATTTTAAAAATCTAGTTGGACTTA
Celera SNP ID:            hCV445520
SNP Position Genomic:     916653
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50203):
ATCATGTGCTAGGTACGTATTAGGTAGGATACCCCCATACCCTATTCTTTGTCTACTGAAATTATTATAATATTTTTGTGTATATCACTAAACATTCAAA
R
CAGTGGGAATAATGAAGAAAGGAAGTTACACTGGTTTCTAAAAGCCCTATCATCAGTAGCAATTTCTCAAAAGCTCTTCATGACATCCTAGAGACATCAA
Celera SNP ID:            hCV28966849
SNP Position Genomic:     529776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50204):
ACAGATTCCCACCCCAGTAAGAATTCTGGGATCACTCCACCCCAAAAGAATGAGGGTTATGTTGTCCTTAGTGGGAGGTGGTAGTTGTGGATTAGGTCCT
R
TCATTTCACACACTGACCATCTCTGCCCAGTACCCTGAATGAGTGCTCCATGACATCATCCTCTTTGACCTCTGGCCACCTTCCCTTCTCCTAGCCTTGC
Celera SNP ID:            hCV2396011
SNP Position Genomic:     651002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50205):
GCCTGGATTTGCATAATGGAGATGTCACTTGTATTGCAGGAGAAAAATCAAGTTACCTGGGCTCCCATTAACTGCCTGCTCGCTACAGTTCCCGTAAGGG
R
TTGGAACACCACCTTTTTGAAATAGAAAATGTGAAACTCCTACATTCACCAAGTGAGTCTTTAGTGAAACAGGAGTGAAAAGAATCATGGGCTATTGCTT
Celera SNP ID:            hCV2396013
SNP Position Genomic:     670354
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   African American (pooled) - WICGR(A,1|G,99)   Asian (pooled) - WICGR(G,84)   Caucasian (pooled) - WICGR(A,3|G,93)   total(G,276|A,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:50206):
CAAACATATATTTTGTGCTTTGCTCAAAGCCAGGAATGACCTGGCTCATGAAGGGGTTCATTAGCAAGATGCTTGAAGGAAAGGAAAAATTTGCTAGTTG
M
TCGAGAAAATATAAATGATGAGGCTAAACTCATATTTGAGATGTTCTAGATTTTCCTGGTGAGATTTCAAGGTCCAACACAGGATTCTAATATTCTCAGA
Celera SNP ID:            hCV2396014
SNP Position Genomic:     689692
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,8)      total(A,8|C,1) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50207):
TAGAAACCGGGCTGCACTGCAAGAAGTGAGTGGCAGGTGAGCAAGCAAAGCTTCATCTGTATTTATAGCCACTCCCCATTCCCCACATTACTGCCTGAGC
R
CTGCCTGCTGTCAGATCAGTAGCAGCATCAGATTCTCATAGGAGTGTGAACCCTATTGTAAATTGCACATGCAAGAGATCTAGGTTGCACCCTCCTTATG
Celera SNP ID:            hCV40142
SNP Position Genomic:     420779
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50208):
GGCAACAAAAACACACTAGAGATTACAAAGCCAACGTCACTATTATTTTTAAAAGGCTTTATGAAAACATTAGTGCTGAGCCTGGGTGATTTATGGCACA
R
ATCCATGGAAAGAACCTTTCCTAAGCCCACATTTCAGCTAGGGCTTTGCCTGGGAGAAAAAAGGAAGCCCTTGCTTCTGGAAGGCTCCCCTCACCGCCGT
Celera SNP ID:            hCV2396015
SNP Position Genomic:     689980
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;(A,-|G,-)   Caucasian(G,41|A,43)   total(G,41|A,43)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50209):
TGTCTCACAACAAACTGGAGTTATTCATAGTGATTGCATTGTTAAATCCAGACCTATGATAAATGTTCAGCTAATGAACGAGGCAAACTGAGGTGACCCA
R
TCCTCCATCCATGCCCAACATGACCAAATTCTATGATTTCTGTAACCTGTATATATTCAGGATTATGGGCGAACTTACACCATCACCACTCTTATTCCTC
Celera SNP ID:            hCV40143
SNP Position Genomic:     419375
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50210):
CATTAGTGCTGAGCCTGGGTGATTTATGGCACAGATCCATGGAAAGAACCTTTCCTAAGCCCACATTTCAGCTAGGGCTTTGCCTGGGAGAAAAAAGGAA
R
CCCTTGCTTCTGGAAGGCTCCCCTCACCGCCGTCTCCATATGTGGGAAGTTCAGAGCTGAGGTAAAATGAGGAAGGAGAATCAAGACCCTGGAAACATAT
Celera SNP ID:            hCV2396016
SNP Position Genomic:     690047
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50211):
GAGTTGACAATCAATATTAGCCATCACAGCATCCAAAGTACTTGGGACAGTCAGTGTCTCACAACAAACTGGAGTTATTCATAGTGATTGCATTGTTAAA
Y
CCAGACCTATGATAAATGTTCAGCTAATGAACGAGGCAAACTGAGGTGACCCAGTCCTCCATCCATGCCCAACATGACCAAATTCTATGATTTCTGTAAC
Celera SNP ID:            hCV40144
SNP Position Genomic:     419321
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50212):
TGTGGAGAGGTAAAAGACATAAGATGATCTCAATTTTGAATAATTCTCCTTGAGGGGCAATTATATATTTTTGGAAAGTTCATTCTTATTTATTGGGCCT
Y
CTTTATCTCAGAATTCAGGAAGGGGCAGAGTGTTTTCTTCCCAAGTTACTGACTTTCTTAGCATGCGAGGCTCAAATGACAATGATTATTTAGAATCTCT
Celera SNP ID:            hCV10075150
SNP Position Genomic:     182368
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50213):
AGAAAAAAGGAAGCCCTTGCTTCTGGAAGGCTCCCCTCACCGCCGTCTCCATATGTGGGAAGTTCAGAGCTGAGGTAAAATGAGGAAGGAGAATCAAGAC
M
CTGGAAACATATGCCCAAGAGGGAGCCTGAGAATCTTTGCAGAAGTTGAAGTTGAAACAGAAGTTTACTAAGATGCTGAAACTTAAAGAATGAAAACCAT
Celera SNP ID:            hCV2396017
SNP Position Genomic:     690135
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,6)      total(A,1|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50214):
CCATATAAATGGGATTCAACAACTTCATTTTCTGGCCTGGCCAACGAAAACACTCACAAAGTAAAAACACCATACTTACTCTTTCTTTCTGAGTTAAGAA
M
TTGTAGCTTGCCTGATTATAGATCATGGCAAGTAATTCTGACATCAGTTAACGAACTTGATGAAGTCAGGTTGGGAAGTGACATCAAGGGGCTTAGAGGA
Celera SNP ID:            hCV40145
SNP Position Genomic:     417334
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,8|C,8)      total(A,8|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50215):
CAAGCTGCCAGGAAAGTGCACTGTAAGTTACCAAGGAGCAAACTTCAGCGCTTTTCCAACAGTCACAAAGGACTCTCTGCCACCATCTGTGTTGCATGTG
Y
GCTTTACCTTTGCTGTCCTCCTTACTTTGAAATAAATCCCACCCACTACGGTGTCCCATTTCAGAAACTCTAAAATACTTACTTGAATCCCTGGAATGGA
Celera SNP ID:            hCV10075151
SNP Position Genomic:     181914
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50216):
TTGCAGGGAGTCACTAGAAGGATCACATGAGATGCAGCTTCTACAAGTGCATGGGGAATCAGCACCCACTCAGCTGAATCTGCTGTAGAAAGGATTGGCA
Y
CAGGGTTGCAGATAGCAAGTGAAGCTCATGCACATGCTCATGAGTTTGCAAACTGTTTTAAACACTTGTAAAAATCTCTCCTGAGCCATTTATTTAAGTA
Celera SNP ID:            hCV2396018
SNP Position Genomic:     694426
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50217):
GTACATGACATACAAAATTATTCCATGTTACTTCAATACTTTTACCCAGAGCCTTGTAACAATCTTCTTGAACTGTTGAATCTATACAGGTGTAGATTGG
R
TCAGGAGATAGCTTTAAAAGTTTGTTGTTCACGTTCGTGCCAACTCCTGGTGTCTTAGATTTTGTTCCCAAACACTCATTATGACAAAAGGATTTAAGTG
Celera SNP ID:            hCV10075152
SNP Position Genomic:     180827
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50218):
TATTACATTGCTAAGGTAACCTACTTAAAACTGTGGTGCAATATGATGTTTTTCAGTTCATTTGTCTGTTTCATTAATGATGGAATGTATTTTCCAGCAC
R
CAAATCCTATTTATGATCAAGACATTGTTGTTCTGTATATCAACTTAAACTCTTACACTGTGTAATTTACCTGCTGTCAAATCTCATTTGAAGAGCTGTT
Celera SNP ID:            hCV2396019
SNP Position Genomic:     695343
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:50219):
CAGATTGAGACTTCATCTCAAAAAAAAAAAAAAAAAAGCGGGGGAGGGAGATTAATCCTGGTGCCCTTCTAGAACTACCACCTGGCCTTTCTTAATTGTC
Y
ACTTGGAGTGTTTGCCAAGCGAAGAAAAGATGAACCCATGACTGTGACCTACCTGGAGGGTAGACATTCTGGAGAGCTTCCCCTCCAACAATGTCCCAAA
Celera SNP ID:            hCV1178840
SNP Position Genomic:     822222
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50220):
GCTCCATGCTTCGTTCCTCACGCAGAAATGTCTTTATCTGCCATATAAATGGGATTCAACAACTTCATTTTCTGGCCTGGCCAACGAAAACACTCACAAA
S
TAAAAACACCATACTTACTCTTTCTTTCTGAGTTAAGAAATTGTAGCTTGCCTGATTATAGATCATGGCAAGTAATTCTGACATCAGTTAACGAACTTGA
Celera SNP ID:            hCV40146
SNP Position Genomic:     417294
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|G,9)   total(G,9|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50221):
CCAGTTCAATGGGTTTCATAGCCAGTCTGAGGCAAAAGCTGGCTATTTACTTCCAAAAGGACTTCTCCTCAAGGAAGAGACCCCCTAGTGATACCCAAAT
M
ATAAATCAGAGTTCTTAACTTGGGATCTATGGAACAGAGATCAGGGAGTGAGTCTTAGAAGGCCCGTTAACCTCCCAGTATGTGGAAAAATGCTTCAGAT
Celera SNP ID:            hCV10075153
SNP Position Genomic:     179449
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50222):
TGGTAGAATTAGGGATGGTTTTAATTTTCCCAATTTTTGGTCAGTGATATTTTCTTAATGTTTAAAAAGGAACATTAACAGTTTTTATGATAAATGAGGA
R
AGTTTCTTTACAACATTTTTTTGCATGCCATTCCTTAGAGTTGGGCAGCTTTTGCAAGCTGTGAGAAGCCCAGCTCCTGCTTTTCCTGATACGGTTTATG
Celera SNP ID:            hCV1178841
SNP Position Genomic:     822911
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50223):
AGGGACAGTTCCCATCAATGGTATAATTTTGGAACCTCAGGAGGAAGGATAAGGAACTGAGGGCTAAGTGTATTCACTGAGGCCCTGAGACAGAAGCCAG
R
GATGGGGAACAGGAAGAGAAAGTAAAGCCAATGAAAAGAAAGGGAAGGCATGCTCAGAGAGGTAGGTGGGACCGCCAGCCTAACCAAAACAGGGGCGATT
Celera SNP ID:            hCV40147
SNP Position Genomic:     416486
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50224):
TAAGCATTTTTTTAAAGGTTACTTTTCCTTTATGTGTTTACTTGGGGTTAAAATTTTGGGATTATGACAAAGGCCATATTTTGAGATTATGACAAAAAAT
W
ATTCAAAAATGAATTATTGAATGAGGAAGTTGGGTCTCATTCAGTAGGTTAGGTCTCCTTTAAAATTGTATTTTTCTCGTATGAAGACCCAGTTCAATGG
Celera SNP ID:            hCV10075154
SNP Position Genomic:     179260
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50225):
TCTACCAAGAGTGCATTATTAATGACACATTCAACTGAAAAATTGATCACACGCTCTTAGGTATTACATGGGTCACATTTGCAATAATTTTGGTTTTTAC
W
GCTGAAAGGCAAATTTAAGGTAAAAATCAAATACTTTAAAAGTATATATCTTAATATGCCTTCCTCTTAACATTCATCTAGTAAGGGGGGAGATGTAGAA
Celera SNP ID:            hCV26011893
SNP Position Genomic:     370334
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,3)      total(A,1|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50226):
CAGCCAAAGACCCATCATTAAAGAGCACAAAGACATCCTTGGCCAGTATCTTTCTGGATGCTGATGCTTTTCTCCTGAATTGCATGTCACCTTGGAGAAC
K
CAGTGATGGATGAGAGAGATCCAGCTTTGACCTGGAAAACTTTCACATTGCAAGTTTTTTTTTCTTTTTCTTTATAGATTTATAGTCAATACTTCAGCCT
Celera SNP ID:            hCV1178842
SNP Position Genomic:     823855
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,11)   total(G,1|T,11) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50227):
GGTGCTGTTATCATTTGCATCTACTGGGTGAGGAGACTGAGACACAATGGGGCTGTTTCTTGCTCTGGACACTTAGCTAGTAGGTGGCGGAAGAGGGCCT
Y
AGACCTTAGCAGCATGGCTCTGGCTCTGGAGCTCTCCTCTTTTTTTTTTTTTTTTTTTTTTTGAGATAGGGTCTCAGTCCTGTCTCACAGGCTGGAGTGC
Celera SNP ID:            hCV40148
SNP Position Genomic:     414581
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50228):
CAAAGTGCTGGGATTACAGGTGTGAGCTACCACACCTGGCTGAGATGAGCTCTTTTCACTAAGCATGATGCCCCTGAGATTCATCCAAGTACTCACATCA
R
CCGATAGCTGGTTCCTTTTGATTGCTGAGTGATATTCGATGGTATGGTATGCCAGAGTTCGTTGAACCATTCACCCACTGAAGGACATTTGACTTTGTTG
Celera SNP ID:            hCV27871710
SNP Position Genomic:     1017765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50229):
TGTCTTGTCAATAAGCATTTTTTTAAAGGTTACTTTTCCTTTATGTGTTTACTTGGGGTTAAAATTTTGGGATTATGACAAAGGCCATATTTTGAGATTA
Y
GACAAAAAATAATTCAAAAATGAATTATTGAATGAGGAAGTTGGGTCTCATTCAGTAGGTTAGGTCTCCTTTAAAATTGTATTTTTCTCGTATGAAGACC
Celera SNP ID:            hCV10075155
SNP Position Genomic:     179249
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50230):
GCCAGTATCTTTCTGGATGCTGATGCTTTTCTCCTGAATTGCATGTCACCTTGGAGAACTCAGTGATGGATGAGAGAGATCCAGCTTTGACCTGGAAAAC
W
TTCACATTGCAAGTTTTTTTTTCTTTTTCTTTATAGATTTATAGTCAATACTTCAGCCTTTCTATGACAAGAAGCTTATATTTTTCTGGACTAGATGTAA
Celera SNP ID:            hCV1178843
SNP Position Genomic:     823896
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,7)      total(A,5|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50231):
TACTATGTGCTAAACCCTGGGTTTATTCAAGTCTTTCATCCTCACAACAGTATGCTAAGGGAAGCTGTTACTGTTACTGGTGCTGTTATCATTTGCATCT
R
CTGGGTGAGGAGACTGAGACACAATGGGGCTGTTTCTTGCTCTGGACACTTAGCTAGTAGGTGGCGGAAGAGGGCCTCAGACCTTAGCAGCATGGCTCTG
Celera SNP ID:            hCV40149
SNP Position Genomic:     414503
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50232):
TTCCAAAGTACATTCATTCATTCATTCATCCACCTGCTTGCCCATCAGACATGTATGTGCGCTATGCCTCCTCTTTTCCAGGCTCTGTGATAAGCTAGAG
Y
GCAGGGCAGTGAGTGAAGTGAACAGGGTCCCTGACCTCACGAAGCATGGCTGGGGACAACCAGCCAACCAGCACATCGATCCTGAATGACCCCTCATGAT
Celera SNP ID:            hCV27871711
SNP Position Genomic:     1001888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50233):
ACAGTCTAACTCTCTGAGTGTCATGTCTTCCTGTGGCCCGGGGAAGAGAGTGGGAAGGAAATAAAATTTCATTGAGCATCTACATAGGACCAGGCCCTGT
R
AGTTCTTGGATATTGGTTTCTTCTTATAATGACTTGAGAATTACATGGAATTATCCCCATTATATGAGAAGACAGAGTCTCACAGGAGTTAAATCACTTC
Celera SNP ID:            hCV7624845
SNP Position Genomic:     144851
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50234):
TTGCAGTGGATATCATCCTCTCCAGTTTACAAATCTAGAAAACAAGTACATCAAAGCAGTTAAGCATTTTCGTAGGAGCCGCACACTCAGTAAGCTAATA
K
TAGAACTCAGGTCTGTCTGATTTCAGAGCTCTTTCCACACTACCTAAAATATTCATGCACCAGATGAAAGCTTTCTTTTTTCCCCTAGACTGTTTCTTAA
Celera SNP ID:            hCV10075156
SNP Position Genomic:     177336
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50235):
AATCAAATACTTTAAAAGTATATATCTTAATATGCCTTCCTCTTAACATTCATCTAGTAAGGGGGGAGATGTAGAATTTTGATATAAATTGGCCAGCCTT
R
TGTTGATTTATCTTTAACACAGATTTCAACTCCTTCACTTCAGTTGCCATGAACTGCAAGGCCCTTGTTCAGTCTGGCTTTTCATCTCTTTCCTGCCCAA
Celera SNP ID:            hCV26011894
SNP Position Genomic:     370459
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50236):
AGTATCTTTCTGGATGCTGATGCTTTTCTCCTGAATTGCATGTCACCTTGGAGAACTCAGTGATGGATGAGAGAGATCCAGCTTTGACCTGGAAAACTTT
S
ACATTGCAAGTTTTTTTTTCTTTTTCTTTATAGATTTATAGTCAATACTTCAGCCTTTCTATGACAAGAAGCTTATATTTTTCTGGACTAGATGTAACAA
Celera SNP ID:            hCV1178844
SNP Position Genomic:     823899
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,7)      total(G,5|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50237):
TGGGATTTCAAGCATCTATACCGAGAGATGCCAACGAAACCAGCCAGGAGCAAAATTACCAGAATTCTTGAACCAGGCAGAACCAGGGCAGATGGCATCT
S
AAGCACCTTCGCAGACCAGCGCCGGCTGACCCAGCCAGAACTGGAACTGGGTACGGTGTCAATTCCACTTGTACTCAGCAGTCAGAGAACCGTGTGACCT
Celera SNP ID:            hCV27871712
SNP Position Genomic:     982829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50238):
AAGTCTTAAATGGAAATTGATTCCCTACTCCTTCTATTTTAACTGTCAAAATCATAGACTGCATTGTTTCCAACTGAAAATCCGCTGACAGCTCCCCACC
R
ACCACCCCGTGAGCCTTCCCAGGGCTGGCGTTGATGATGCTGCTATCAATGGGGAATCTACATTGTGCACGGGTATTTATGATGAGAAAATCATGTGGCA
Celera SNP ID:            hCV7624846
SNP Position Genomic:     144524
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50239):
ACTACCAGATACTGAATTCCTGTTCTGGGCCATGCACTCTAGGAGCTGTGATTTCAACAGTGAAGGAGGACAGGGTGGACCCCACCATCGTGGAATTTAC
M
TTCTAAAGGGCACAGTTTTTCTGTTGAGTCTTCCCAGGAGGTGTCTTTTTATTTCATACCTTTGACCTTCAGATCCATTCATGATACTTTGGCTTATGGG
Celera SNP ID:            hCV10075157
SNP Position Genomic:     175533
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50240):
AGCAGCTCTCAAATTTTCGTGGGCATCAGAATCACCAAGGATGTTTGTAAATGTTTTTAAAAGTCAATTTTCAAGACTCCATTAAATGGAGATTTTGATA
W
ATACAATCAGAGTTAAATATGTGTATATATAAAAAATATCTTTAAGCTAGAGTCTCTTATCAGTGAGACTTTGGGCTCTACGTGCAGAGAGACTGGTTTA
Celera SNP ID:            hCV26011895
SNP Position Genomic:     371413
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,11)      total(A,1|T,11) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50241):
TCACCTTGGAGAACTCAGTGATGGATGAGAGAGATCCAGCTTTGACCTGGAAAACTTTCACATTGCAAGTTTTTTTTTCTTTTTCTTTATAGATTTATAG
K
CAATACTTCAGCCTTTCTATGACAAGAAGCTTATATTTTTCTGGACTAGATGTAACAAACGACTTTCCAAGTGATCAGTGACATCCCAAGTTAGGGCTGC
Celera SNP ID:            hCV1178845
SNP Position Genomic:     823941
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50242):
CACGTAGCCATGATTATTATAATGACAGCGTGTCTGAGTGGAGCCCGGATGAACTGGCAAGCGATGACCACCTGTGGACTGCAGCGGGAAGGTCCGCAGC
Y
TGGGGCTAGAACCACAAGGGAGCGTGATGCACACAGGTGTGCTTGCACCCACGGCTGAGGTTTTTCTTCCCACCGGCACAGGGCGCTGAGGCAGGGATTT
Celera SNP ID:            hCV27871713
SNP Position Genomic:     968867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50243):
CTTCAACATCTCCCCAGGGTACATTCCCTAAATAGCCCCGATTATTCATTATTTTATGGAACTACCAGATACTGAATTCCTGTTCTGGGCCATGCACTCT
R
GGAGCTGTGATTTCAACAGTGAAGGAGGACAGGGTGGACCCCACCATCGTGGAATTTACATTCTAAAGGGCACAGTTTTTCTGTTGAGTCTTCCCAGGAG
Celera SNP ID:            hCV10075158
SNP Position Genomic:     175473
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50244):
TCAATAAATTGGTCTGATTTAAAATTAGCCTATAAAGACATTTTTTAAAAGCAAATGCTTAACTTCAATACTACATGACAAGAGGGTGATATACAAAAAA
W
AGTTACTATGTGGTTCTTGGCATCAAGCAGATTAAAGTCTACTTTGAAATAAAGACCATAATAAGTAGTTGACCCCATAAAAATTAAGCAATAATGGGAA
Celera SNP ID:            hCV26011896
SNP Position Genomic:     371748
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50245):
GGCTTCTCAGCTCTTGCACAGTAGCCTATGGGTTGGGACGGCTACCGGATGGCCCAACTCCAGGATGGGGTCATAGTGCGGAGCTCTGTGAGTGGTGCCC
Y
CTAGAGGAAACTTCCTGAAGGAATGAAGCTTCCTGAACTCATGCAATTTGGCAACCCTGGGTTCTCCCCAATGCTTTCAAGACATAGTAGGTTGGAGCAA
Celera SNP ID:            hCV2852710
SNP Position Genomic:     781821
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50246):
CTGGAAAACTTTCACATTGCAAGTTTTTTTTTCTTTTTCTTTATAGATTTATAGTCAATACTTCAGCCTTTCTATGACAAGAAGCTTATATTTTTCTGGA
S
TAGATGTAACAAACGACTTTCCAAGTGATCAGTGACATCCCAAGTTAGGGCTGCATTTTGAAATTGTTCTTTAGAATCTCTAACTTCATTGGGAACAGTG
Celera SNP ID:            hCV1178846
SNP Position Genomic:     823987
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,5)      total(G,5|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50247):
CCTCCAGCTGGTCTTAAAATATCTTTATCATCCCAAAAGGAAACTCCAGAGCCATTAAGTAGCCTCTCCCACTTCTTCCTCCCTGACCCCAGTCCCTGGC
W
AAAAACAACCTCCTTTCTGTCTCTGTGGATTTATCCATTCTGGACCTTCCATATAAATGAACTCATTCAATCTGTGACATTTTCGTGTCTGGAGTTTTTC
Celera SNP ID:            hCV27871714
SNP Position Genomic:     958853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50248):
CCACCTTCAACATCTCCCCAGGGTACATTCCCTAAATAGCCCCGATTATTCATTATTTTATGGAACTACCAGATACTGAATTCCTGTTCTGGGCCATGCA
Y
TCTAGGAGCTGTGATTTCAACAGTGAAGGAGGACAGGGTGGACCCCACCATCGTGGAATTTACATTCTAAAGGGCACAGTTTTTCTGTTGAGTCTTCCCA
Celera SNP ID:            hCV10075159
SNP Position Genomic:     175469
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50249):
CAGCTCTTGCACAGTAGCCTATGGGTTGGGACGGCTACCGGATGGCCCAACTCCAGGATGGGGTCATAGTGCGGAGCTCTGTGAGTGGTGCCCCCTAGAG
R
AAACTTCCTGAAGGAATGAAGCTTCCTGAACTCATGCAATTTGGCAACCCTGGGTTCTCCCCAATGCTTTCAAGACATAGTAGGTTGGAGCAAAAGTAAT
Celera SNP ID:            hCV2852711
SNP Position Genomic:     781828
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50250):
GGTAATTTCATTCAAAGATGTAAAGGAAGAGATACTATAAGGGACATTTCTGTTATTTTGTCAAATGCTATTATTTACTGAAAAATAAAATTTCACCCTA
Y
ATGCTTGACCTTCAGGGACTTATTTTAAGATCATATGGCTTTTCCTAAACAGCTGAATTATTTAGTGAGATTGAACTCTCAAAGACTTTAAAATAAAGCC
Celera SNP ID:            hCV1178847
SNP Position Genomic:     824275
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50251):
TGGCACGTACCTGGCCTTGAAATGCACTGAAGCCTATGGGGATTACTTTAAAATTCGGTCCTGTAAGCCAGTCTGTTAGTATCATTGCTCCTACTAATGA
Y
AGAAATTGCTGGTGTTGGCCGGGTGTGGTGGCTCACACCAGTAATCCAAGCACTTTGGCAGACGGAGGTGAAGGGATCACTTGAGGCCAGGAGTTCGAGC
Celera SNP ID:            hCV2852712
SNP Position Genomic:     782268
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50252):
TAAAGATATTGAAACTGAAGTTTAAACTCGGTAAGGAACTTGCTCAAGGACAATACTTCTTAAATTTTGCTATACATTAGAATCACCTGGAAAGATTTTT
W
AAAATCTTGACCCAGAGGTTGAGTAATGTGCTCAAGGGCACCCACCTGATGAGTGGCAGAACCAGGCTTTACAACCCAGTCACTGAGCACCAGAACCATG
Celera SNP ID:            hCV1178848
SNP Position Genomic:     825832
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|A,6)   total(A,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50253):
TTACTGTGGGTCGATGGGTCAAACATGAGGCAATTTGGGGAAACAGCCTAAGGTGGCTATACCACAGAGGCCAGCAGAGCAGGTAACCAGGCACAAGATG
Y
GATCGCTGACGAGAGAGCTGCTGTGACAGAGTAAGGAGTGCATGGGGAGGAGGGACCACTGAGGTTTGTCTGCGTGTGGGTACCCCATGCGCAGATCCTC
Celera SNP ID:            hCV2810183
SNP Position Genomic:     292677
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50254):
TCAATTTCCTCAGGCTTCTGGGTCATTAAGGAGGAGCTTTATCACCTGGCTGCAGGGTGGAGGAAGCCAAGATTCTGGACCGATAGCCTCCCACAGCTGC
R
TTAGTATTCCACAAAGGCGCAACCAGAAGATAGCAAGGAACTTTCACACTTGGCTTTAATTTCTCTCTGCACATTTTGTTAGCGATAAAGACCATCATGT
Celera SNP ID:            hCV1178849
SNP Position Genomic:     827450
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50255):
GCAAGGGGAGACGGAGATGGGAACAGAAGATTTCCCAGATGAGGGGCGCTCCCTGGAGCTGAGTCTTGGAGCCAGATGGACTTGTTCACACCAGCATGGA
S
TGAAATAAGGAGAATCAGAGGACCTGGGCTCATACCCTGTCTCTAGAGGCTCCAAAGGAGTCCCTGAGGTAAAACTGAGATTATTCTAGAGCCACCTGGA
Celera SNP ID:            hCV27871717
SNP Position Genomic:     880189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50256):
TATTTCCTCTCTATATTGAAATATTCAGCAACTAATTTCCTGTAGCTTCATAGTAAATCATGCTAATGACCTCAGAGGTGGAAACCAAGGTGGTGAGACT
K
TCTCCCTGCTCTAAGGTTATTCCATTAAACAAAGCAGAGAATACACATTTATACTCATTTGATCAGGAAGCATAAGGAAGCTTATAATGAGAAAGACATG
Celera SNP ID:            hCV28966850
SNP Position Genomic:     529401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50257):
GACGGAGGTGAAGGGATCACTTGAGGCCAGGAGTTCGAGCCAGCCTGGCCAACGTGGTGAAACCCCGTCTGTGCTTAAAAAATACAAAAAATTGGCCAAA
Y
GCAGTGGCTCACACCTATAATCCCAGCACTTTGGGAAGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGCCAAAG
Celera SNP ID:            hCV2852714
SNP Position Genomic:     782429
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50258):
TCATAAAGATGCCTTCAAGGAGACACTCTTATTATCCCCATTTTACAGGGAGAAAAAAATGAGCCTACGTTCAGCAATTTTAAGCAAATTTTCTATTGTC
K
CATGACTAGTAAATAGTGGAATAGGCCAGTTTTGTTTTTTCACCTTGACTGACTGCAAATGTCTCAGTCATGATTCCTGACCATCTTCTAACCCTCTAAG
Celera SNP ID:            hCV2810184
SNP Position Genomic:     293466
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,7)      total(G,7|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50259):
TTATAAATAACAAGAATTGACTGTACTTGAATGTGCATGAAGTATAGAATCATAGTGGAACATTTAAGAAATATGTCCTTATCTTGTTACTATGGCTACA
Y
GTTACTCCAAGATACAGTAGTTCTATGGTAAGGTTGGAATTACATTATTTCCTCTCTATATTGAAATATTCAGCAACTAATTTCCTGTAGCTTCATAGTA
Celera SNP ID:            hCV28966851
SNP Position Genomic:     529255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:50260):
GGGCCTTTGCTACTGCAAGTGCCAGAAACTTAAATCAAAGTGGCTGAAGCAAAAGAACACTGCATGCCTCATGTATGCGAGAAGTCCATGAATAGGGCTG
S
CTTCAGGCCTGGCTGGGTGTATAAATTCAGATGGCACCCTCCACCAGGACTTCGTCTTCATCTCTTTGCTTGGCTTTTGTCTGTGTTGGCTCCATTCCCC
Celera SNP ID:            hCV2810185
SNP Position Genomic:     299175
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50261):
AGTACATGGTAAACTCTCGCACCATATTAACTATTGCAGTATGGTGTTATTATTATTATGAATATCTAATACAGTTAATATCTTTGTACGTAGGAGTTTT
R
GCAGGCAGGTGTGAATGGCACTTTTGAAGATGCAGAGACAGATTTATCCTTATACTCCTAATATTTATCCTCAAAGACACTATTTAACTCATTCAAAAAT
Celera SNP ID:            hCV28966852
SNP Position Genomic:     528877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50262):
TGAATAACCTAGGATCATCTCCCCATCCTAAAATATTTAATTCAATCACATATGCACAGACATTTTTTTCCAATTCAGGTAGTATTTACAGGTTGCAGGG
S
TCAGGATCTGACATCTTTGGGACCCATTATCAGTCTACTAACTATGTTATTAAATATAGCTTGCAAATATGTTGTCGAGGATTTTGTTTTTATATTCCTG
Celera SNP ID:            hCV2810186
SNP Position Genomic:     300624
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50263):
TGCACCTGCACAGTGGAGGTAATAATAGTGCCTGCCTCATAGGATTTTCCAGAGGATTGAATAAGATAATCTTTGAGAGTATTCCAGTACATGGTAAACT
S
TCGCACCATATTAACTATTGCAGTATGGTGTTATTATTATTATGAATATCTAATACAGTTAATATCTTTGTACGTAGGAGTTTTAGCAGGCAGGTGTGAA
Celera SNP ID:            hCV28966853
SNP Position Genomic:     528792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50264):
TTAGTGTATAGAAGTTTCGAAGAAGCAAACATGAGTGTTGTTGCCCCCATCCTAGAACACAGACTCTAGAATCAATCAGATTTAGACCCTAATTCTGGCC
Y
TGCCCCTCTTCTTGTTGTATGTATTAATTAAGGTAATGTATGCTGCTATAACAGGTATGCCTTCAAAACTCAGGATCTTAACAAGTTGGTACTTATTTCC
Celera SNP ID:            hCV2810187
SNP Position Genomic:     301566
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50265):
GGATGGCATGACTAAAGTCAAGCATTAGCATAGTGCCCAACACTCAGGAATCTGGCAGAAAGTCAAAAGTTACACCGATCAGTGTCATTATTAGTATGCA
W
TTTCATTCTTAGTCTTCTTGGGATTTAATTGTATTACCTAATTTATGTAATGAGACTATATTTTCTTTTCTGTCCCATTTCTATTAAACTTAGATACGTC
Celera SNP ID:            hCV2852717
SNP Position Genomic:     784136
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50266):
TCTGGCTCTGAGCACAGCACCCTGACACCATCATAAGCTGTAACTACAAATTCAATGGAATTAGTATGAAGGTAAGGAGCCAGCAGGTTCTGGTGGCTCA
Y
TGAGGCATTACTGTTCTTGTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTACAGTGGTACGATGTTTGCTTAATGCAACCTCAGCCTCCTA
Celera SNP ID:            hCV28966854
SNP Position Genomic:     528077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50267):
GACAATATTTAAAATGAATGGACATGACAGTGTTCCAGTAAAACGTTATTTCCAAAAAAAAAAAAGAAAAAAAAAGGCCAGAAGACCATTGTTTTGCAGA
Y
CTCTTGCATGAGGCTTTTAAAGGTATTAAAACATTTTCGCACCCCTGTGCCTGTTTTCCTGAAAGTTTAGAGATCCTGAGTTGGAACACTGATTTGCATT
Celera SNP ID:            hCV2810188
SNP Position Genomic:     305372
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50268):
GAATATATAGTGAAAATTCCTCCTATGTGCCTAAATCTTCCTCGGTACCCTTCCCCAGAACAGCCACTGTGTCTTCCCAGAAATTGTGTTAAGAAACAAA
Y
ATGTATATCCTTTTGTGCTGTGTTTTGTAGAAGTGGAAGCTTTCTGTGCAGCCAGTTTTGCATTGTGTTCCTCACCAACAGGATCTGTCGGACGCCGTGT
Celera SNP ID:            hCV2852718
SNP Position Genomic:     786112
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50269):
CCTGAGTATCTTCTTCCCACTGGTCTCTGGGGTCACAGGGGGCAAAGACCTCACCTCACTCATCTTGGTCTCTGGCTCTGAGCACAGCACCCTGACACCA
W
CATAAGCTGTAACTACAAATTCAATGGAATTAGTATGAAGGTAAGGAGCCAGCAGGTTCTGGTGGCTCACTGAGGCATTACTGTTCTTGTTTTTGAGATG
Celera SNP ID:            hCV28966855
SNP Position Genomic:     528007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50270):
AATATATAGTGAAAATTCCTCCTATGTGCCTAAATCTTCCTCGGTACCCTTCCCCAGAACAGCCACTGTGTCTTCCCAGAAATTGTGTTAAGAAACAAAC
R
TGTATATCCTTTTGTGCTGTGTTTTGTAGAAGTGGAAGCTTTCTGTGCAGCCAGTTTTGCATTGTGTTCCTCACCAACAGGATCTGTCGGACGCCGTGTA
Celera SNP ID:            hCV2852719
SNP Position Genomic:     786113
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50271):
TCAAGTCATTTCTGATCTGGTGCCTTATCCTGCAGCCACAGCCCCTGCCACTTCCTCCTTTCACGACTATCTTATCACAGCTGTCCTGTTATTTGTGATT
S
TCCCAACATCCCTCAGGAACATTTGCCTTCCTTGAAGTCCTTTTTCTTCGGGTCCTTTCCAGAGTCAGAGTGGGCTTTTCTTGACATCCTTATGGGAAAG
Celera SNP ID:            hCV28966856
SNP Position Genomic:     527719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50272):
AACTATAGAGAACACAGCCAAAGATCCCTGCCTCTCCCAATCTTCTGGGCCTCTTTCTTTAGGAAACAAACATAAACCTGCCCAAACTGAGGTTGTACCC
K
TTTTACCTGCCCTGTTACCTTCCTAGCATCCATCTTGCTGTCCTTCATTCTGCCACCCTGGGGTTCCTATCAAACTCTGCTTCCTGTCTCTTATGACTTA
Celera SNP ID:            hCV28966857
SNP Position Genomic:     553951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50273):
TATGTGTATGTCACGTTAACCAGAATGGTATTCAACAGGCATCCCTAACTGCAGCAGCAGCTGGAGAAGTAAGATTTAGTTGCAAATACCAATAATTCAA
R
CACAATTGGAGTTTGGTTATCAAAGGACAAAATAGGCCATAGATATTTCAAAAAAAATGGTATGTTCAAAGTATTATTTTAAAAAGGCCAGGGATGGGGC
Celera SNP ID:            hCV28966858
SNP Position Genomic:     526858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50274):
AGAAACTTTGAGCAGTTATATGTGTATGTCACGTTAACCAGAATGGTATTCAACAGGCATCCCTAACTGCAGCAGCAGCTGGAGAAGTAAGATTTAGTTG
S
AAATACCAATAATTCAAGCACAATTGGAGTTTGGTTATCAAAGGACAAAATAGGCCATAGATATTTCAAAAAAAATGGTATGTTCAAAGTATTATTTTAA
Celera SNP ID:            hCV28966859
SNP Position Genomic:     526840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50275):
GTCGGCAGATCACAAGGTCAGGAGTTCGAGACCAGCCTGACCAATATGGTGAAACCCTGTCTCTACTAAAATGACAAAAATTAGCCGGGAGTGGTGGCAC
R
CACCTGTAATTCCAGTTATTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGTCACTGCACCCTAG
Celera SNP ID:            hCV310934
SNP Position Genomic:     935751
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50276):
CAGTTTTCCTATGGTAATCAGAAAATTGAGTCTTTATTGGAACAAAAATGGTCTTTGTCTCCTCTGTTATCTTAGAGTTCCTTCCAGAAAGCATTCTAAG
R
CCTCTTTGACATTAGACATTTTTATTAGGTTAAAAAAAACCCCACTGCCTTATGATGGGAACTTTCTTAGTGTAGTTATTTTGATTTCCTAGTATTACTG
Celera SNP ID:            hCV2396021
SNP Position Genomic:     740180
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50277):
TTTGGGGAAAGCCCTCATGCAGCGACACGGGGCAATGGTAGTTGTCTGCCTTGTGAAGGAGTAAGACCCGGGGCTATGACTAGGGTATCAGCAGAGCCTG
Y
TCCAAGAATGGTTAAGGGTTTGGTTTGGGACATGTAGAGTTCAAGCAACCTGGGAGGCACCTAGGTGATGTGACTCAGACCTCTGTCAATACTGGCTGGA
Celera SNP ID:            hCV2396022
SNP Position Genomic:     790828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   (C,-|T,-)   Caucasian(T,12|C,72)   total(C,72|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50278):
AATGATATGGCCCTGTCCAGGGAAGGCTGAGTGCCCTTTGTCCTCAGACAGTGAATTCTGGAGTTCCAGGTACATGAGCATCAGGGTGTGATCTAGAAAG
S
AGCCTGTGGACCTAGTTGGGCGTATTCTCTTGGTCCTGGGGATTCTTTGTGCCATGGAGAAGAGCATAGTTTGAGGGAGGTCAGAATGGGAGGCCAGAAC
Celera SNP ID:            hCV310937
SNP Position Genomic:     935004
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,10)      total(G,3|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50279):
TGGCTTTTTTTCTAAATCCTGACTTGTGTCCAGTTGCTTAACCAGATTTAGAAGAAGCCATGTTTACATGGAATTTCTGAATTACAAGCTGAGAAATGTT
Y
CCAGAAGATATTTTAAAGCCTCCTTAAGAAGGCTAGTGGGCCTTATTTCCTGTGTGAAACAACTTTTATCAAAATGTATTTGACACTGGGAGTGTGGGTG
Celera SNP ID:            hCV2396023
SNP Position Genomic:     791307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50280):
AGTGGAAAAAAAGGCCACCCTTCATTCTTTTTTTTTTTTTTTTTCATTCAACAAACATTTATTGATCTTCTAATGTTTTTTCAAGAATGCTTTTGGGCCT
S
GGATACAAACTAATGGACCCAACAGATGAGTCCCTTGCCCTATTGGCACTTACTGGTTCATGTCAGGTTCCTGTGCCTCTCCTGGAGAAGCAGGTGATAA
Celera SNP ID:            hCV10075160
SNP Position Genomic:     175035
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50281):
CCCATTTATTTATGGGGAATATGTGATTATTGTATTTTCCCTACTGAGATTCAAAGCTATACAAAGGAAAGGACTCTTCTGCCTTTTTTTTTTTTTTTTT
T
GGTTTTTAACTCATTATGAAATCCCCACTGCTGAGCACAATGCTGAACACCTTTGAAGTAATTAATAAATAACGACTAAATTACTGCTGTGTAGATAAGG
Celera SNP ID:            hCV15774757
SNP Position Genomic:     56507
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,10)   total(-,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50282):
AAACAGATGTGGAACAAGTTTTTAAAGAAGGAACCCTATCTCATAAGATTGTCAGGATCATTAAACATCACGAGTATGAGCCCACAGGAAACCTTCAGTA
Y
ATCGTGATCTTCTTGACGGTGGTGAAGAAGGACAAGGAAGACCACCACCATAACACACGGGTCTTCTTTGGAATGGAGGTTCCAGGATCTATGGGGAATT
Celera SNP ID:            hCV10076109
SNP Position Genomic:     58990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50283):
TGGTGCAGTGACCCTTCTTTGCCAGTTTGTCTTGGGTCCTGATGAGCTGCCAGGCTCAGTCTGGAAAAGTGCCCTCAATCCCTGCATCTCCATCTCTCAT
W
GGCATTGTGGGACCCCACAAAGACTCTGTCTCTATTCGCTTAACACAGTGGAAAAAAAGGCCACCCTTCATTCTTTTTTTTTTTTTTTTTCATTCAACAA
Celera SNP ID:            hCV10075161
SNP Position Genomic:     174888
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50284):
TCAGCCTTAATATTTCAAAAACTATGGTTTTCAGTTTGAGCTGTTATGATGTTTTATCTCAGAAGTTGTAGAATAATTTAAACCAGTTTTTCCTACTTTG
S
TTCCTTGGAGGCTGATTCTTCTGCCTGAATTCCTCTCACAGAACATATAAACCCCTTTTACCTCCCGCACTGGCACAAAAGCAACTTGTTTCCAAGATTC
Celera SNP ID:            hCV10075162
SNP Position Genomic:     173830
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50285):
ACTGGAATAGCTGAGATTTCCAGAATTCAGTTAGAAGATCTGATAAGCATCTAAAACTTGTCCTAAGGTAGGGGGAGAAGTGTTTAGCTTGGAAATATAA
S
TCGGAGTTCCCAGTCTTCCTCAAGTAGGTACTTGGGGAGATACTGAAGTAGGAGGAAGATGATTCCTACAAACCACGCCGAACAACAGACAGTTCAGAGA
Celera SNP ID:            hCV1178850
SNP Position Genomic:     827719
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(C,-|G,-)   ;(C,-|G,-)   Caucasian(C,84)   African-American(G,3|C,81)   Asians(G,3|C,81)   total(G,6|C,246)
SNP Type:                 INTRON


Context             (SEQ ID NO:50286):
TGCCATGCCTTAGCCAAACACCCTATAAATATAATACCCCTTCAGCCTTAATATTTCAAAAACTATGGTTTTCAGTTTGAGCTGTTATGATGTTTTATCT
S
AGAAGTTGTAGAATAATTTAAACCAGTTTTTCCTACTTTGGTTCCTTGGAGGCTGATTCTTCTGCCTGAATTCCTCTCACAGAACATATAAACCCCTTTT
Celera SNP ID:            hCV10075163
SNP Position Genomic:     173789
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50287):
TAAATAGGGACGTTAACGCTGGGACGTACTCTGCTGGTTTGTTTTGAAGAGAAAATGAGCTAATGCAAGGGAGAGGGAGCTCAGACCACAGATTTGTGCA
R
AGAAAGTGCCGAATAAGTGACGGCTGCTGTTTCTGTTTTTATTCTGCGAGGAACTCTAATAGAAGAAAAAGAGCATTTGATGACTGAATCACCGGTCTTC
Celera SNP ID:            hCV1178851
SNP Position Genomic:     831788
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50288):
GAATAGTTATGTTGCCATGCCTTAGCCAAACACCCTATAAATATAATACCCCTTCAGCCTTAATATTTCAAAAACTATGGTTTTCAGTTTGAGCTGTTAT
R
ATGTTTTATCTCAGAAGTTGTAGAATAATTTAAACCAGTTTTTCCTACTTTGGTTCCTTGGAGGCTGATTCTTCTGCCTGAATTCCTCTCACAGAACATA
Celera SNP ID:            hCV10075164
SNP Position Genomic:     173777
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50289):
GTGCTGAGATTACAGGCATGAGTCACCATGCCCAGCTCTCTATTGATTATTTGTGAATACTTCAGCTTATTTAATTTTCAAAGTAATCTTTAAAATCGGA
R
CCATTGTTATCACACTTTCTAAGTGAAAATTGATGCTCAGAGAGATTGTAGAGTTTGCTCAAGTCTGGATACCTAGCAGGTTATAGACCTGAGACATGAA
Celera SNP ID:            hCV1178852
SNP Position Genomic:     836971
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50290):
GTGGAAATAGCCTGGATGCAATTATCTGCTACAAGCCCCACCAAGAAGAGCCTCCCTGCTGGAGGAAAGCAGAAAGGGAACTGGGGTATAACCAAGCTTG
Y
CCAATCCGAGGCCCGTGGGTCACATGCTGCTGAGGGAGGATGACTTTGAATGAGGCCCAACACAAGTTCGTAAAGTTTCTTAAAAGGTTATGAAATTTTT
Celera SNP ID:            hCV10075165
SNP Position Genomic:     173075
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50291):
GGAGGACAGGTATAAAAATAGTACAAGGGTGAGTCTTACAAATAAATTCAGAGTGCTTTGGGAACATGACCTAAGGGAAATGGACCCGAAGTCTGGGAAG
K
TCAGCTCATGAAGTGACATCTTGTCCTTTAAGACTTGGCTCTGCTAGGTAGAGTAAGAAGGGGTGGTACAAGGTTAGCACAATCCAGGAAGAGCAAACAT
Celera SNP ID:            hCV2845500
SNP Position Genomic:     1005713
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50292):
GGAGGCTGAGGCAGGAGAGTCACTTGAACCTGGGAGGCGGATGTTGCAGTGAGCTGAGAAGATGCCACTGCACTCCAGCCTGGGTGACAGAGTAAGACTC
Y
GCCTAAAATAATAAAAAGAAAGATCCCCTAGGGCATGTCCCTGATGGAGCTGAAATGCCAGGTAAGCAAGAGGCAGGTTACTAGGGGTCTGATATGGCTT
Celera SNP ID:            hCV1178853
SNP Position Genomic:     838854
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50293):
TACAGACAAGTACACAGGCTAAGCATGACTGCAACTTTTGAATTGTCATGCAGCTCAGAACTGGGGGATCTAGAAACTGAATTCAGCAGCTGATTATTTG
R
TTCCCAATACCATGGTCTTGCTACTTACCTACTAGAAAGGATTCTCATTTGTCTATTTAAGTTCTTCTCCTCTACTCTCTGAGGAGGATTCTTTCAGCTC
Celera SNP ID:            hCV7624855
SNP Position Genomic:     143319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50294):
TGTGCTGCTCGAGATGCTTGCAATCAACAGGGCGCTCCCCAAGCTCTGAATGAGGTGAATGGCCTCAGAGGAAAACAGATTAGAAGGCTTAGAGATGACT
R
CATCTCAGGTGCAACACTTGAAGCAGGAAGATGGGAGTCTCAGAATTTTCCCCTTGCAGTTAGAAAAATATGGGACAGGCTGGGGCAGTAGGAGTGGATT
Celera SNP ID:            hCV10075166
SNP Position Genomic:     172829
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:50295):
CAGGCTGCGGGCTGAAGGCTGGAGATTGAAATAAGGCAGCAAATTCTTGCTTTCATGAGGCTTAGCAGGGAGGACAGGTATAAAAATAGTACAAGGGTGA
R
TCTTACAAATAAATTCAGAGTGCTTTGGGAACATGACCTAAGGGAAATGGACCCGAAGTCTGGGAAGGTCAGCTCATGAAGTGACATCTTGTCCTTTAAG
Celera SNP ID:            hCV2845501
SNP Position Genomic:     1005645
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50296):
CTGATTTGACAGGTCATGGCACCCTAAATTTGCATTTTCAAAAGCTCCCCAGGGAATTTTGCTTTTCCAGCAGGCGTCTGAGAACCCTCATCGGACATAC
R
CAGTGATGCTGGTAAAGCCTGAGCAGAAACAAAACAGGGTCCCGGGGGCAGAATGGGAGGCAGCTCTGGGTCTCTTAAGATGGCCCTGGTGTGCTAAGTG
Celera SNP ID:            hCV1178854
SNP Position Genomic:     839845
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50297):
CCAATGCATGACTATCACCTTGTCATTATTAAAGCACTTTCCACTAGTTTATATTATTTTATTCTCATAAGCTCTGTGAGGGCCAGGATTTGGGTCTTCT
Y
TTGTCCCTTGCTACATCCTCATCTATATCAGTGGCTGGCACATTATCTTTGTTGACGACTGACCTTTCCTTTTCCTCTTTCTTTGCCTGGCAAACTGTTA
Celera SNP ID:            hCV7624856
SNP Position Genomic:     135955
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50298):
TTGATACTCCAATAATTATATATCATAATTGAAATCCAGGTTTTACTCACTGGAGAATTTGGGCAAAGTCCTGCAAAGCAAGAGAAACTTTAGTTCATTA
W
TGAGGCTCATTTTTACATTAGCCCGCTCTCGCTACATAACAATTTTTAAATCTTTTTACATTTATGATAGTCGTTACTGCAGTTTCAGAATCATTAATGA
Celera SNP ID:            hCV2845502
SNP Position Genomic:     1005325
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50299):
CAGCAATGAGAAAACATCCCATCATGCACTGCTTCTAGATATTGTCAAGAGAAGGGTATATTATTATGCAAAAGCAGTGTCTATTTACAGATGATGAAAC
R
ACAATTTTTCATGGGGTTTTTCTTTTTATTTAACATCTTAACTGTCAATTCCAACAAACACACTTGTTTTCCTCTATGACTAATCTAAGAACCAAGATGG
Celera SNP ID:            hCV1178855
SNP Position Genomic:     840871
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50300):
TCTGTAAATTAGATATTCTGGAATAAAAAATTTGGGGAAAGAGGAAAAGGACTCATGCTCCCAAGAAGGCCAAGTGAAAAGTGATATCCTTCTGATAGGG
R
AAGAAGTCATGAGTCATTAGTCTGGACTGCTATAGTAATGATAATAATAGTAAGAATAATAATAGCCACCATTTGTGGATCACTTACTGCAAACCAGGAA
Celera SNP ID:            hCV7624857
SNP Position Genomic:     135343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50301):
CTCGGTACCCTTCCCCAGAACAGCCACTGTGTCTTCCCAGAAATTGTGTTAAGAAACAAACATGTATATCCTTTTGTGCTGTGTTTTGTAGAAGTGGAAG
Y
TTTCTGTGCAGCCAGTTTTGCATTGTGTTCCTCACCAACAGGATCTGTCGGACGCCGTGTATATAGTTCTTCCTCATTCTCTTTAATGGCTATGTGATGT
Celera SNP ID:            hCV2852720
SNP Position Genomic:     786152
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,11)   total(C,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50302):
AGTATTAACTTTTCCACACTTCAGTATATTCATGTGCGTATCTACTTTAAAATCTTCCTGCATCACCATCAATAGCTTATAATTGATACTCCAATAATTA
K
ATATCATAATTGAAATCCAGGTTTTACTCACTGGAGAATTTGGGCAAAGTCCTGCAAAGCAAGAGAAACTTTAGTTCATTATTGAGGCTCATTTTTACAT
Celera SNP ID:            hCV2845503
SNP Position Genomic:     1005243
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50303):
ATTATGCAAAAGCAGTGTCTATTTACAGATGATGAAACGACAATTTTTCATGGGGTTTTTCTTTTTATTTAACATCTTAACTGTCAATTCCAACAAACAC
R
CTTGTTTTCCTCTATGACTAATCTAAGAACCAAGATGGCCAACAGCACAATACCAACTTTTTGTTTGTTTGGTTTTTAAATATGGCAAAATTACATATGA
Celera SNP ID:            hCV1178856
SNP Position Genomic:     840933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50304):
AAATGATGACCTATCAGAGAGGACATAAATCACTCCTCTTCCCAAATTAGATTAAAATCCTGAGCTTTAAAACTTGCTTTTACCTGCAGACTCTAATGTT
M
GACTTGTGGCTTTGTCATTTCCCCACAGGGGCAGCTTCCGCTGGTTTTACAGGACAGAAAAGTTCTGTTTCTATTACTGAAGAGGTTGAACCCTCTGCTG
Celera SNP ID:            hCV2810191
SNP Position Genomic:     309968
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,8)      total(A,2|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50305):
TTCCGGCCCCATGGGATTCCGAAATGAGAGAAATCAGGCCCCCAAAAGACCAGCCTTCATCAGGAGACTCGGACGAGAAAGTCAAAAAACCTATGTTGAA
Y
ACAGCACCATTCTTGCAGCAGTATTAACTTTTCCACACTTCAGTATATTCATGTGCGTATCTACTTTAAAATCTTCCTGCATCACCATCAATAGCTTATA
Celera SNP ID:            hCV2845504
SNP Position Genomic:     1005123
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50306):
AAACACACTTGTTTTCCTCTATGACTAATCTAAGAACCAAGATGGCCAACAGCACAATACCAACTTTTTGTTTGTTTGGTTTTTAAATATGGCAAAATTA
Y
ATATGAGCTTCCCATTTTACAGGTTTCTAAGAACATCTTAATGAAAATAACAGAACTCAGAAAATCCACTGTCATTTTGTCCAGAAATATTTTGTTAGCA
Celera SNP ID:            hCV1178857
SNP Position Genomic:     841027
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50307):
ATGACCTATCAGAGAGGACATAAATCACTCCTCTTCCCAAATTAGATTAAAATCCTGAGCTTTAAAACTTGCTTTTACCTGCAGACTCTAATGTTCGACT
Y
GTGGCTTTGTCATTTCCCCACAGGGGCAGCTTCCGCTGGTTTTACAGGACAGAAAAGTTCTGTTTCTATTACTGAAGAGGTTGAACCCTCTGCTGAAGCT
Celera SNP ID:            hCV2810192
SNP Position Genomic:     309973
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50308):
CTCCCTGAGATCAGTTGGGTAAAGCTCTGAGCACAGGGCCAGGCACAGTGTACACCCTTGCAAAAATATTAATTTGCCTGGGTGCAAGGTGAGGGACATA
W
CCTTTTCCTATTCTGAAACTCTACTCTGCTTAGGATGCATACTGATGGCTCTTTTTTTGTGAATGGATGGAAGTATGAAAGGAGCAGTAAGAAAGGGCAC
Celera SNP ID:            hCV781702
SNP Position Genomic:     154841
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,10)      total(A,10|T,3) ;(A,-|T,-)   Caucasian(T,24|A,60)   total(A,60|T,24)
SNP Type:                 INTRON


Context             (SEQ ID NO:50309):
AAGTGTCCTATCAAGAACGGCAATTGTGTCGTGAGTTTCTGTGAAAAGCAAGACTGGTCATTCCATCACTTCTGTCTGTCCAACATGCCCCAGACTTGCT
M
TTTTGGGGCCCCATGCTGTTAAGTAAACATCCCCCAGCCAGTGTGAATATCTGAAAGCACCTGCTTTGTACGCAGCAGGGTCAGAGACCTTTATATGCAC
Celera SNP ID:            hCV2845505
SNP Position Genomic:     1003598
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50310):
AAAGGAGGAACCCCTTATAGAAACATCAGATCTCATGAGACTTATTTACTACCAAGAGAACAGTATGGAGGAAACCATCCCCATGATTCATTATTTCCCA
Y
ATGGTCCCACCTACAACATGTGGGAATTATGGGAGCTACAATTCAAGATGAGATTTGGGTGAGGACACAGCCAAACCATATCACCTTACAAGTTCCATGT
Celera SNP ID:            hCV2810193
SNP Position Genomic:     310867
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50311):
GAACCCAGGAGGCGGAGGTTGCAATGAGCCGAGATCGCACCACTGCACTACAACCTGTCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAA
A
GATATAGGGAGGAACATTCCAAGACTCAGAGCCCCCATGCTGCTTAGGAATACTGTTAGTCCACAAGAGTGAGTCAATGGCTAGGAGATTGCTGGGGATG
Celera SNP ID:            hCV2845506
SNP Position Genomic:     1003079
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50312):
GTTTTAACAGGGGCCAAGAGGGAAACATGGGGCAGTGCATGACTGACAGCTGTGCTCTGTCACTTCTACATCTGCCTTGCAGTTCTTCAAGCAGCCATGA
R
CCCCTGCAGGCAAACCTGTGGTCTGTTCAGCAGGACCTGTCTCTGCTGCCTTAGCCCCTGGGAAAGGGAAGCAATGCTGTGGCTCCATTTTCAGCAGCGG
Celera SNP ID:            hCV1178859
SNP Position Genomic:     844087
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50313):
GCAGGAGTAACAGGAAGGTTTTAAGCTAACTATATCTGTCATTTTTTGTTTGTTCTATTTCAAGAAAGCAAGATATTTTCCAGAAACTTTGAGCAGTTAT
M
TGTGTATGTCACGTTAACCAGAATGGTATTCAACAGGCATCCCTAACTGCAGCAGCAGCTGGAGAAGTAAGATTTAGTTGCAAATACCAATAATTCAAGC
Celera SNP ID:            hCV28966860
SNP Position Genomic:     526759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50314):
CCATGATTCATTATTTCCCACATGGTCCCACCTACAACATGTGGGAATTATGGGAGCTACAATTCAAGATGAGATTTGGGTGAGGACACAGCCAAACCAT
R
TCACCTTACAAGTTCCATGTCTAGTACAGAGCTTGACCCTAAGTGGATGTTCAGAAAGCATCTTCAGAATGAAAAGGGGGGCACAGTTAAGACCTCTGGT
Celera SNP ID:            hCV2810194
SNP Position Genomic:     310947
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50315):
TGTGTTTGTTTATCTGAAATTCTAATTTTACTAGGGCGTTCTGTATTTTTATTTGCAAAATTTGGCAAACTATATGAAAGATGCTTCGAAAACTATAGAG
W
ACACAGCCAAAGATCCCTGCCTCTCCCAATCTTCTGGGCCTCTTTCTTTAGGAAACAAACATAAACCTGCCCAAACTGAGGTTGTACCCTTTTTACCTGC
Celera SNP ID:            hCV28966861
SNP Position Genomic:     553861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50316):
AGGGTTTATTAAAACAGTAGGCCCCCCACCTTCAGCATTTTTAACTCAGAAGTTCAGGGATGAGGACTGAGAATTTGCATTTCTAACTAGTCCCCCGAGT
S
GTGATGCTACTTTAGATCGTAACGTTCATATTGAAACATTTGTCCTACCTACGGATGCCAATGACCAAGGCATATGTTGGACGAGCACTGTGAGAATAGG
Celera SNP ID:            hCV2810195
SNP Position Genomic:     315683
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50317):
AGCTCCAATCCCAAACTTTTCCAAAGTCTGCATTGACTCCCTTGGGTTTCTGCCTGAGCTCTCTCTCCTTTGGACACTGGACTGCCATCCCATTAACTGT
K
GATGTTGTCATCAGTGATCAGCTCCTGGTCATAAACTAAGGAAGAGTTAGGTGGGAGCACTGGCACTGAGGGTCCATGTGCTCACTTAGCTTTCCAGGGA
Celera SNP ID:            hCV781705
SNP Position Genomic:     146805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,12)      total(G,2|T,12) ;no_pop(G,-|T,-)   (G,-|T,-)   Caucasian(G,6|T,78)   total(G,6|T,78) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50318):
ACCAAGGACCGTGTCAACACAGTTCTGCAAATGGAAACAAACACGCCATCATTCAGGGTCCCACTTTGATATTCTGCCTTTGCACTTGTTTCATTTTTTC
Y
TTGAAGAACATTCTATAGATCGAAGGAATTATTCCAGACCTCTGATTCATGCTAGGCTTATTCTCTTCCTCATTCAGTCTCTCAATCAATCAATACTTAC
Celera SNP ID:            hCV28966862
SNP Position Genomic:     525777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50319):
GCATTGAGTTACACAGGCAATAGCTTTTTCAACAGCTATTTTTCCAGAGGTGTAAAAACAGCCTTTGCCTGGTTACATTGTATATCTTACCTCAGTAAAG
W
CATGAAAAGGAATCGTGATAAGGTGAATGCACTCCTACAGAGCGCTAAGCTTCCTGGCGATTTGACTTGATTCGGGAATAGAACTCAGTAAACTGAGCAG
Celera SNP ID:            hCV29090733
SNP Position Genomic:     317298
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:50320):
TGTCAGAATGAGTTCATCACCTGGGCTGGGGATCCCAGATTCTGTGAGCAGAAGACTTCATCCACCCAGGTGTCTATTTCAAGAACAGTCTCCTCTTTTG
S
AAAAGCGTTCATGGAAATGGCCTTCTCTCCTAACAGACAGCAGCTACAGAGCCTCCTTTCCCTGGGCTGCAGAGGGTAGGTTAATGGAGACTGAGGAGCC
Celera SNP ID:            hCV28966863
SNP Position Genomic:     524981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50321):
TGACTAAATAAATAGCTATTCCTGGAGGTGTGATGATTATACTATGCCCAGATCCTGCCAAAGGCAAAAAGGCAAAAAGTTATATTCAGACCAGCTATCT
S
TCTATTTTTTTCCCTGCTCAGGGCTAAATTTTTCCGAAAAAATCACATAAGAGTCCAACTGTCAGAATGAGTTCATCACCTGGGCTGGGGATCCCAGATT
Celera SNP ID:            hCV28966864
SNP Position Genomic:     524821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50322):
GTATTCCATTTTCAAATTAACTTATTCTGATTATAAAAGTAATGTTCAGTATTGTTAGTAAAATAAATTTTAAAAAAAACGAACTTGTAATTTCCCCACT
Y
AGAGATAGCTTCTGATAACATATTGGTGCTTTTACTTCTATTTTTTTCTATCCATATGAGTATAATTAAATACATATTCACATCTATATCTATACTCATT
Celera SNP ID:            hCV28966865
SNP Position Genomic:     548789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50323):
GGTTTCTATAATTGACCTGACATTTTGTGAGAGCAATCATGTTTGTTAAGGAGAAACTCAAGCCAATGCTGTAGTTGCAAAGTTCTCCTTACTATTACCC
Y
GGGAAACAAATTCATCAGAAGTGTGCAGATGTGTTTTATGTGTGCGTACACACATACATCCCTATGCATACACAAGCATGTACACACATTGGCATGGGTC
Celera SNP ID:            hCV781708
SNP Position Genomic:     134029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50324):
GGTACTTCATGAGCCAAGAGTGCATAGAAAGGTATTTTTGGTTCATTACTAGGTTTCTATAATTGACCTGACATTTTGTGAGAGCAATCATGTTTGTTAA
S
GAGAAACTCAAGCCAATGCTGTAGTTGCAAAGTTCTCCTTACTATTACCCTGGGAAACAAATTCATCAGAAGTGTGCAGATGTGTTTTATGTGTGCGTAC
Celera SNP ID:            hCV781709
SNP Position Genomic:     133978
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   Caucasian(C,2|G,82)   African-American(C,2|G,80)   Asians(G,82)   total(G,244|C,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50325):
ATGTCTGTCTCTAGGACACGGTTCCCATTATCCATGGGTCAAAGCTTGCCCGAGGAACGCCAGCTCCTTTGCATTCCCAAACTTTGCAAGCATGTGTCAT
M
CTGCAGGTTCTCTTGGGTATTCCATTGTAAGGAGTCTGAGAAGCTCCAAGGAAGAATGCAGAAATACGGGGTATAGCTGAGGCCAGGTGCTGTCTGATCA
Celera SNP ID:            hCV10076110
SNP Position Genomic:     58211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50326):
AATCAACCTGTGAGAAGACAAGGTGTGCAGACATTGTGGATCTGAGCGAGATGGGGAGAAAAGGCAATAAAAAGCAGTAGCAAAGGGGAAAAGAAAAGTT
Y
GGGCCAGGAGCCAAGAAGATACTTTCTGTGGAAAAGGGAGGGAAAAAAAAAATCACTCCACCCCTCCTGTCCAAATGAAAAAGCATTTAATTGAATGTTC
Celera SNP ID:            hCV10075171
SNP Position Genomic:     172356
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50327):
GCAGCATGGGGAATTTCAATCAACCTGTGAGAAGACAAGGTGTGCAGACATTGTGGATCTGAGCGAGATGGGGAGAAAAGGCAATAAAAAGCAGTAGCAA
M
GGGGAAAAGAAAAGTTCGGGCCAGGAGCCAAGAAGATACTTTCTGTGGAAAAGGGAGGGAAAAAAAAAATCACTCCACCCCTCCTGTCCAAATGAAAAAG
Celera SNP ID:            hCV10075172
SNP Position Genomic:     172339
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50328):
GAAGCAATGCTGTGGCTCCATTTTCAGCAGCGGGCAAGGAAAAGAACTTGGGTTCGAGAGTTTCACAACTTGAGATTGAATCTCCTTCTGCCTCCTTTCA
K
TTATATAGTCTCAAGTGCTTATCTTCCTTTCTCTGAATTTCAGTTTCTAGCTCTTTAAACAAGGGTCAGGGACAGCTTACTATTGCAGAAGGTGGTGAGA
Celera SNP ID:            hCV1178860
SNP Position Genomic:     844255
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50329):
TCATTGGTAACGGTGGTAATAGCAGCTCTCGGTCTGAGCGATGTTTGGCATCTGAAGTCACCATTAGCATTTTCAGAGAAGTCCAGCTTTTTACCATATA
R
CCATTCATTCTGTCTTCCAATGTGATCCTTAAGGAAAAAAAAAATTCCCCCATAGTCGTGTGATGTTTAAAATGTGTTTATTATACCTTGCCTGTCATTT
Celera SNP ID:            hCV3283743
SNP Position Genomic:     1176946
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50330):
GCCAGGTGTGATGGCCCATGCCTGCAACTTGCTACTCAGGAGGCTGAGGCAGCAGAATCACTTGAACCTGGAAGGTGGAGGTTGCAGTAAGTCAAGATCA
Y
GCCACTGCACTCCAGCCTGGGTGACAGAGTGAGATTCTGCCTCAGATAAAAAGAAAGAAATTGGAGCACCTGGTATATATTGCTTTCTCAATGCCCAACC
Celera SNP ID:            hCV1178861
SNP Position Genomic:     844615
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50331):
CTGCTCACCGCAAGCTCCACCTCCCGGATTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTGGCTGAGACTACAAGCGCCCGCCACCATGCCTGGCTAAT
K
TTGTTTTTGTATTTTTAGTAGACATGGGGTTTCACCGTGTTAGCCTGGATGGTCTCGATCTCCCGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTG
Celera SNP ID:            hCV3283744
SNP Position Genomic:     1172666
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50332):
TTGAGACAGAGTCTTGCCTTGTTATCTAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCTACCGTCCTGGTTCAGGCAGTCTCTTGAGTA
K
CTGGGATTACAGGCACACACCACTATGTCCGGCTAAATTTTGCTGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGA
Celera SNP ID:            hCV1178862
SNP Position Genomic:     846093
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50333):
ACTGCAACTGAGAGTTGAACTGAAGGATCTGCATTTCTTTCTTTGACATCTGAAAATAAAGGAAATAAAACTACTGATATTGAAAGTAATAAAAAATGAA
W
ATGAAATGATTTTTACTGTCAGTTTTTTTTGTTTTGTTTTGTTTTGTTTTTTCACAGAGTCTTGCTGTGTCACCCAGGCTGGAGTGCAGTGGCATGGTCT
Celera SNP ID:            hCV3283745
SNP Position Genomic:     1172465
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|A,5)      total(A,5|T,2) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50334):
AATATCTATTCTAATATGCACATATCCTAATATGCATATATCTATTCTATTCTAATATGCACATATCTTAATATGCATGTATTCTGTTCTAATATATAAT
W
TTTATTCTATTCTAATATGCACATGTCCTAATACGTACATATTCTGTTCTAATAATATATGACATAAAATATTAAATATGCAATATTCAACTTCTGGTGT
Celera SNP ID:            hCV2845510
SNP Position Genomic:     1000493
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50335):
GAAGCCATTGTGTCGCCTGTTAGTAATGAGCATTTGCAAGGGCAGCATGGGGAATTTCAATCAACCTGTGAGAAGACAAGGTGTGCAGACATTGTGGATC
K
GAGCGAGATGGGGAGAAAAGGCAATAAAAAGCAGTAGCAAAGGGGAAAAGAAAAGTTCGGGCCAGGAGCCAAGAAGATACTTTCTGTGGAAAAGGGAGGG
Celera SNP ID:            hCV10075176
SNP Position Genomic:     172298
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,3)      total(G,1|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50336):
CCTTACAAGAATTTTGGGAGCAAGGAAATCAGCTGGTAGAATCTCTTTGATGTTTCTTTAAAGCAGGGTCAGCAAACTCTAAGACACAGACCAAATCTGG
Y
CTACTGCCCATTTTTGTAAATAAAGTTTTATTGGAACACAGCCGCGCCTATCATTTCCATATCGCCTGTGCCCGTTCTCTGCTGCAGTGGCAGAGCTCAG
Celera SNP ID:            hCV3283746
SNP Position Genomic:     1171892
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50337):
TCTATTCTAATATATAATATCTATTGTAATAAGCACATATCCTAATATGCACATATTCTAATATATAATATCTATTCTTTTCTCATATGAACATATCTCA
R
TATGCACATATTCAATTCTAATATATATCTATTCTAATATGTACATATCTTAATATGCACATATTCTAATATATATTTCTAATATGCACATATCCTAATT
Celera SNP ID:            hCV2845511
SNP Position Genomic:     1000230
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50338):
AGTGATCTCCCTGCCTCGGCCTCCCAAAGTACTGAGATTACAGGCATGAGCCACTAGATTTTTTACTGTATCTAGCAAGGGCCATTGCAGGATATCAAGT
M
TGGGAATGACACAGTTTCTCATTTCAGAACCATTGAATTGGATACAGCCTGAGTAGTATTCATTCATTTTTTCCACAAGCATTTGGGTGGTGACAGAAGG
Celera SNP ID:            hCV1178864
SNP Position Genomic:     846881
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50339):
ATTCAATCATTTAGCACCCTTTCTCGCTTGCTTGGAAAATACAAGGTAAAAAACACACTAGCCTACTATTTGATATTTGTGCGTGGGTGTGTGTGGGGGG
Y
GTCATATATCCCTCTTAGCATCTGATAAAAAAAAGATCAATTCATTACCCAGAAATATGTATCTGCATGTGTGCAAGTCCCAATTCACAATTCAGTACAA
Celera SNP ID:            hCV10075177
SNP Position Genomic:     171401
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50340):
ATAACTTCCTAACTCAGCCATAGTCCTTACAAGAATTTTGGGAGCAAGGAAATCAGCTGGTAGAATCTCTTTGATGTTTCTTTAAAGCAGGGTCAGCAAA
S
TCTAAGACACAGACCAAATCTGGTCTACTGCCCATTTTTGTAAATAAAGTTTTATTGGAACACAGCCGCGCCTATCATTTCCATATCGCCTGTGCCCGTT
Celera SNP ID:            hCV3283747
SNP Position Genomic:     1171868
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|G,4)      total(G,4|C,4) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50341):
TAATATGCACATATTCTAGTCTAATATATAAATCTATTGTAATATGCACATATCCTAATAAGCACATTTTCTATTCTAATATATAATATCTATTGTAATA
W
GCACATATCCTAATATGCACATATTCTAATATATAATATCTATTCTTTTCTCATATGAACATATCTCAATATGCACATATTCAATTCTAATATATATCTA
Celera SNP ID:            hCV2845512
SNP Position Genomic:     1000161
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50342):
GTATCTAGCAAGGGCCATTGCAGGATATCAAGTCTGGGAATGACACAGTTTCTCATTTCAGAACCATTGAATTGGATACAGCCTGAGTAGTATTCATTCA
Y
TTTTTCCACAAGCATTTGGGTGGTGACAGAAGGCGGCAGACAAAGTCCCCCCATCACATTTGGCAAAGAGGGTTGCGGGGATTCATTAATCAACGAGCTA
Celera SNP ID:            hCV1178865
SNP Position Genomic:     846948
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,7)   total(C,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50343):
GAATAATACAAAAAAATCCAAACCTTAACTAGTGTTTGTCACAGTCAGTGGGTACTTCATGAGCCAAGAGTGCATAGAAAGGTATTTTTGGTTCATTACT
R
GGTTTCTATAATTGACCTGACATTTTGTGAGAGCAATCATGTTTGTTAAGGAGAAACTCAAGCCAATGCTGTAGTTGCAAAGTTCTCCTTACTATTACCC
Celera SNP ID:            hCV781710
SNP Position Genomic:     133928
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(G,4|A,78)   total(G,4|A,78)no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50344):
TATCATGGGGATTACAATTCAAGATGAGATTTGGGTGGGGACACAAAGGCTTTCATGGTTTTTGGCACCCGCTGCTGTCCCCTCCTTTTGAGTGTGGGAC
R
GATCTGTGACTGGCTTCTAGCCCATAGAATATGGCACCTTCCTTCACATAAACCATCCATCTCTGAGCCATCCCCGGTTCCTTGACTTCATAGACTCACA
Celera SNP ID:            hCV10075178
SNP Position Genomic:     171092
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50345):
TGCTGTACAAAGACAGTAGTTTCAGCCCCCAAAAAACAGTTAAAAACAGGTGTTACCACTTACCTTCAAAAACACACTTGGTCTGGTCATGTGTAAAAGG
Y
ATAAGATTTTCTAATATTGTTCATTTAAATGTTAGAGATGCCTGCCAAATGTCATGATTTACGTTTTATTATATACCTAGTCCAAGACATTCTTCCTAAC
Celera SNP ID:            hCV3283748
SNP Position Genomic:     1171097
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50346):
TGATGCATACATGGTTTCAAACACTGTCCACCTGGCTACAGCCTGCCTTCGTCTTAGGCCACACGGGAGCTCTGTTTACCCCTACGTGCCAAGCTTTGGC
R
TGTCTTTGTGCCACTACACACTCTGTTCCCTTCTTCCCGGAATGCCTTTTCCTTCCTTTGTGCCTGAAAAATTCCAATTTATCCTTCACCACCCAACTTA
Celera SNP ID:            hCV2845513
SNP Position Genomic:     999573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50347):
CCCTTTCCAGGAGAGTGGGTAACAGACAAGCCACTCAGCCGGTTTTATTAAGATGGAAATTTTCACAAGGGCTAAAATAAAGATTCAAGTCAATGGAAGC
Y
GCCTTTTTAATTGATAAGAGCAGCTCAGCAGTAAAGGAAATAGGAGATGCTTGATGCCTGTGTCGTTCTAGTGTTGGGGAATTATATGGAACACTCAAAG
Celera SNP ID:            hCV1178866
SNP Position Genomic:     847464
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50348):
TTGTTACGATGATTATATGGCAAAATGCAAAACAACTTGACAGGACTTTGCTATCTAGACTTTTGATAATGATCTCTAAAAGCCAACTCATTTCATTTGC
R
TCCTTTTATGAATAATACAAAAAAATCCAAACCTTAACTAGTGTTTGTCACAGTCAGTGGGTACTTCATGAGCCAAGAGTGCATAGAAAGGTATTTTTGG
Celera SNP ID:            hCV781711
SNP Position Genomic:     133818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50349):
GAGCAACAACCACAAAGCCATAAAACATCTACTTTTTTAACTCTAAGAATATGACATGACTACACCTCCATAATGCAGTGTGCAGAATGAGAACACAGGA
K
TTCAGAAATAGAAAGCCAAGAGCAGCATAAATGGAGCCTGTTGGAAGATGAAACGTCCAGGTCCACACTGCACCTGGAAGCCATTTTGTACTGAACAATT
Celera SNP ID:            hCV2845514
SNP Position Genomic:     999351
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50350):
GAAATCACTGGTGGTGTTCTCTTTACCCTGCTGGAATCACAGACACTGCAAGTTGAAAGTCACCCAGAGGCGATCTGATGTTTTCCTTCCTCTACAGGGA
R
GAGAAGTCTCTTCTGCTTTTCACAGCAGGTGTCATTCAACCTACACACATGTGCTGAACCACAGGAGCTTGTGGTCTCTCGAGGCAGGACCACCCCCCGC
Celera SNP ID:            hCV1178867
SNP Position Genomic:     847885
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50351):
AGATGGTAGGGCATTGTCTGTTCAGGGCTGCTAGATCAATATTATAGTTTTATTTATCTATTAATTTATTTGGATTTCTAAGCAGCTCTACCTTTTGTTA
Y
GATGATTATATGGCAAAATGCAAAACAACTTGACAGGACTTTGCTATCTAGACTTTTGATAATGATCTCTAAAAGCCAACTCATTTCATTTGCGTCCTTT
Celera SNP ID:            hCV781712
SNP Position Genomic:     133724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50352):
TCTTTGTCTCAGGCTCAGCCTGGAGGAGCCCAAGTTAGAATGGAACCCCAGCTCTCTTTCTTTCCCCCCCCGCCTCTCTCTCTGTCTCTCTCCCCTTTCT
Y
TTTTTCTCTCTCTCTCTTTCTTTCTTTCAGTGGAGTCTTGCTTCATCGCCCAGGCTGGAGTGCAATGGCACAATCTTGTCTCACTGCAACCTCTGCCTCC
Celera SNP ID:            hCV2852732
SNP Position Genomic:     787818
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,13)      total(C,13|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50353):
CCAACACCTTCATTTCACATTTATCTTCACTTGAAAGGGGTGAGTTCATCACTTTTTTCTCCTGCACCAAGACCATAGGAAGACACGAAATCATCAACTA
W
ATCTTCCAGCGTTCAAATATCGGAGGCCCTGGAAACAGCAGGTATGCCGCTGAATGTTTTTGAATAAAAGAGAGTGAAGGGAAACGTTTGTACAAATATA
Celera SNP ID:            hCV2845515
SNP Position Genomic:     998638
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50354):
GAGGAGAAGTCTCTTCTGCTTTTCACAGCAGGTGTCATTCAACCTACACACATGTGCTGAACCACAGGAGCTTGTGGTCTCTCGAGGCAGGACCACCCCC
S
GCAACCCCATGGTCAAGCAGCCCCTGCAGTAGCCTTGTTCTTCCCCAAGACCCATCACCCGTCCTAGCTGGGAGCCACGTGACGTTACGCTGTTTCCGTT
Celera SNP ID:            hCV1178868
SNP Position Genomic:     847983
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,8)   total(G,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50355):
AAGATGGTAGGGCATTGTCTGTTCAGGGCTGCTAGATCAATATTATAGTTTTATTTATCTATTAATTTATTTGGATTTCTAAGCAGCTCTACCTTTTGTT
R
CGATGATTATATGGCAAAATGCAAAACAACTTGACAGGACTTTGCTATCTAGACTTTTGATAATGATCTCTAAAAGCCAACTCATTTCATTTGCGTCCTT
Celera SNP ID:            hCV781713
SNP Position Genomic:     133723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50356):
TTGCTGCAAAACCGCCAACACCTTCATTTCACATTTATCTTCACTTGAAAGGGGTGAGTTCATCACTTTTTTCTCCTGCACCAAGACCATAGGAAGACAC
R
AAATCATCAACTAAATCTTCCAGCGTTCAAATATCGGAGGCCCTGGAAACAGCAGGTATGCCGCTGAATGTTTTTGAATAAAAGAGAGTGAAGGGAAACG
Celera SNP ID:            hCV2845516
SNP Position Genomic:     998624
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50357):
TTTGAAGATGGCCAGTGTTGCTGTTTCTCAGGCCCTAATATTTCTTTGTGCTCAGTGAACGGGCAAGTTATCCTGAGGAAGAAAATATTTCAGAGGCTTC
R
GTGCTAAGTATTAATCAAATAGGTCGGGGGTCGAGCAGGCCTTCCACAGTCATTCATACAGGAAAAACATATTGAGGCTGGCCCCACCCTATATCTCAGC
Celera SNP ID:            hCV1178869
SNP Position Genomic:     851288
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50358):
CTAGTCCTCAAGTTTTGAAATTTTAGAGACTTAAAAAAAATCAATAATGCTTTAAGAAGATTAAGAGGCTGTGCTTATGTCAGCCTTAGACAATTCTGGA
K
AGAAGATAGACTTGATTGTGCTTCTCATTTTGTTTATGATCCTGCAATGTATCACGCATTCTCTGCCAAGTGAATTCTGACTGCATGAAGAAGGGGTAGA
Celera SNP ID:            hCV781714
SNP Position Genomic:     84798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50359):
TACAAAGTATCTTATACATTGTCCATAGCTACTATTGTTAAAATTAGTTTATGACTATTACATCATAGTAATTGCTTTCTAAAAAGTAACTTAATGAAAC
R
CATACATCAAATGCCTGATGAAAGCTGAATTTTCTAAAATTGGTCTTGGCCTTCAAAAGATTTCTCATTCCTTCTACCATGTATATTCAACAGATAATTT
Celera SNP ID:            hCV2852734
SNP Position Genomic:     788359
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50360):
CTAAACTTTTCTTTCTGATTCTTCACTTGATTTGACATGAATATCTACAGTTCCCTTAACTCTTTGGGATCTTTTCCTCTGTTTTTGATAGTTTGGTGAC
Y
CCAGCTATGAAGTTAGAAGACACACCTTTGTGCTTCCACCCTTTGCCAGAAGTCTAATTGAAGTAAATATATTTATCCAGTCCTCCAGGATTCCGTGCAA
Celera SNP ID:            hCV2845517
SNP Position Genomic:     997739
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50361):
ATTTCTCATTCCTTCTACCATGTATATTCAACAGATAATTTTGAGCGCCTACTGTGTGCCAGGCAGCCCTCTGGGAGCAGGAAGACTGCAGTGAGCAAAG
Y
AAACAAAACTCCCATTTTCCTATGTCAGATGCAAGTGGACTCATTCAGCACATGCTATTTGCATCCTGGAGGTATCAAGGCAAAGAAAACACAGTTTTTG
Celera SNP ID:            hCV2852735
SNP Position Genomic:     788519
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50362):
TCAACTTATTTCAGTAAAAGTTTAAAATGTTTGAAGTGTCTCCTACTTGATGATATCGATAAGCAAGAAGGGAACTCTAAATCCAAGAAAGCTAAACTTT
K
CTTTCTGATTCTTCACTTGATTTGACATGAATATCTACAGTTCCCTTAACTCTTTGGGATCTTTTCCTCTGTTTTTGATAGTTTGGTGACTCCAGCTATG
Celera SNP ID:            hCV2845518
SNP Position Genomic:     997648
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50363):
CAACAGATAATTTTGAGCGCCTACTGTGTGCCAGGCAGCCCTCTGGGAGCAGGAAGACTGCAGTGAGCAAAGCAAACAAAACTCCCATTTTCCTATGTCA
S
ATGCAAGTGGACTCATTCAGCACATGCTATTTGCATCCTGGAGGTATCAAGGCAAAGAAAACACAGTTTTTGCCTCCAGAGGCATAATCTTACCTCCTGC
Celera SNP ID:            hCV2852736
SNP Position Genomic:     788547
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50364):
AAGCATAATATTTTCATTTAAAATGTGGAGAAATATAATTAAATGGCTTCACAGTACCCACTCCATCTCATACCATTTGCTTCAAAATCAACTTATTTCA
R
TAAAAGTTTAAAATGTTTGAAGTGTCTCCTACTTGATGATATCGATAAGCAAGAAGGGAACTCTAAATCCAAGAAAGCTAAACTTTTCTTTCTGATTCTT
Celera SNP ID:            hCV2845519
SNP Position Genomic:     997561
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50365):
TAGGTTTATCGATTTTCTATATGTTTATTAGGCTCCTGCTATATGCCAAGTACTGTGGTTAGCACCATCCTCATATAAACATTATCATCTTAGCCCCTGA
R
CTTAAGGAAATGTCCAGGCTGCTAAAGCAGATCTGTGAAAAAGCTCAGCCTGCTTTTTTTCAGCTAGACTACTATGACTCTAGCTCAGAAAAAAAATTAT
Celera SNP ID:            hCV2852737
SNP Position Genomic:     788785
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50366):
AAATAAAATTAGTTTACTCATTTTTAATTTAATTCCCAGGAGGCATTTTGGAAACCTTCCCTCCTCATTTGACCCAAAATCATTTTTAAAAATTATTGTT
S
TCCTAAATTGAAGCCCTTTCCAGCATTGCGCATTAGAAGTCTTAAAACTCATCTGTTTTCTTTTTGTAATTGACTTACAAATGCGTAATCGACTCACAAA
Celera SNP ID:            hCV2852738
SNP Position Genomic:     789130
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:50367):
AATTCCCAGGAGGCATTTTGGAAACCTTCCCTCCTCATTTGACCCAAAATCATTTTTAAAAATTATTGTTCTCCTAAATTGAAGCCCTTTCCAGCATTGC
R
CATTAGAAGTCTTAAAACTCATCTGTTTTCTTTTTGTAATTGACTTACAAATGCGTAATCGACTCACAAATGTATAACTGAGTATGCATGGCATTTTAAA
Celera SNP ID:            hCV2852739
SNP Position Genomic:     789160
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50368):
TGAAAAGCCTTCAGGTACTTTATAGGCCATGTTCATTCTGCAAATGTCAGTGGAATGTTCAGGAAGTCCAACGTAGAGAAAGGCCCAGGATGGCTAGAAT
R
AAATCAGAGATATCCAGTAGGACCTGATCACTGGCAGAACCCAGACTGGGGCCAGCTGATGAAGCCAGAGAGGCATTCGCTTCAGGGACCAAAACTTTCA
Celera SNP ID:            hCV27986018
SNP Position Genomic:     668537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50369):
CTGATGAAGCCAGAGAGGCATTCGCTTCAGGGACCAAAACTTTCATTCAGTAAGAGCGGGGGTCCTCAACCACGGGCCACAGGCCAGTACTAGCCTATGA
S
CTGTTAGGAACCTGGCTGCCCAGCAGGAGGTAAGTAGCAGGCAAGCAAGCAAGCCAAGCTTCATCTGTATTTACAGCCACTCCCCATCGCTTGCACTACT
Celera SNP ID:            hCV27986019
SNP Position Genomic:     668693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50370):
TCAGAAATGTCTGTCTCTAGGACACGGTTCCCATTATCCATGGGTCAAAGCTTGCCCGAGGAACGCCAGCTCCTTTGCATTCCCAAACTTTGCAAGCATG
W
GTCATCCTGCAGGTTCTCTTGGGTATTCCATTGTAAGGAGTCTGAGAAGCTCCAAGGAAGAATGCAGAAATACGGGGTATAGCTGAGGCCAGGTGCTGTC
Celera SNP ID:            hCV10076120
SNP Position Genomic:     58205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50371):
ATGGATGGATGGGAGGATGATTTATATTTTCATCTCGGTATAGTTCATAGGTCTAGGATCAGAAATAAACTAGAATAAATATAAATATTGCTTTTCTTAA
Y
GTTGGTTTAAAATGCAAATGCATGGCATACAGAAAAAACTTTTTTTTTTTTTTTAGCTCTGAAAGCTCAATTTTTACTACATGATTTCCCTAGTAGAAGT
Celera SNP ID:            hCV10076127
SNP Position Genomic:     57324
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50372):
ATTGTCTTTGTGGCTCATCCAGGCAGCCTCATCCTGAATGTCTATGATGTAAGTCAAAGAAAAGAAAATAATCAGTCCTGAATTTGGAGGGAAGAGATCA
W
AAGCCCAGTACATAGTCCCAACAGGCCACAGTGATTGTGTAAAAATACGTTTTATATCTTGTATTTGATTTGCCACACAGTTTAACAGAAAAGTAACTTT
Celera SNP ID:            hCV8097333
SNP Position Genomic:     1048206
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50373):
TATTGGATGGATGGATGGGAGGATGATTTATATTTTCATCTCGGTATAGTTCATAGGTCTAGGATCAGAAATAAACTAGAATAAATATAAATATTGCTTT
W
CTTAACGTTGGTTTAAAATGCAAATGCATGGCATACAGAAAAAACTTTTTTTTTTTTTTTAGCTCTGAAAGCTCAATTTTTACTACATGATTTCCCTAGT
Celera SNP ID:            hCV10076128
SNP Position Genomic:     57318
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50374):
GTAATTGAATCACGGGGGTGGGTTTTTCCCATGCTGTTCTCGTGATAGTGAATAAGTCTCACGAGATTTGATGGTTTTATAGAAGAGAGTTCCCTACACA
Y
GCTCTCTTGCCTGCTGCCGTGTAGGATGTGCCTTTGCTCATCCTTCACCTTCTGCCATGATTGTGAGTCCTCCCCGGCTATGTGGAACTGTGAGTCCATT
Celera SNP ID:            hCV91525
SNP Position Genomic:     435321
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50375):
CTGCTGCACGTCAGAACCACTTAGGAAACATTTTCAAACTACGAATTCCTGAGCTCAGTGCCCTAGAAACTTTCATTTGTGCTCTAGATTACGACTTGAG
S
TTGAGGAATAGGGCGTTGGGGAATGGTAATGAATGGACGCATGGACAGACAGATGGATAAATGAAAGGAAACATATTTCTCCCTCTTTTCTTTTGTTCTT
Celera SNP ID:            hCV3283751
SNP Position Genomic:     1168534
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50376):
GGGTTTTTCCCATGCTGTTCTCGTGATAGTGAATAAGTCTCACGAGATTTGATGGTTTTATAGAAGAGAGTTCCCTACACACGCTCTCTTGCCTGCTGCC
R
TGTAGGATGTGCCTTTGCTCATCCTTCACCTTCTGCCATGATTGTGAGTCCTCCCCGGCTATGTGGAACTGTGAGTCCATTAAACCTTTTTTACTCTTTT
Celera SNP ID:            hCV91526
SNP Position Genomic:     435340
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,8)   total(G,8|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50377):
TTTAAACACGGGGCTTGTAACTCAGCTCACACCCAACAAATCAGGTTGTAAAGAGGGTTCACTAAAATACAAATTAGGCTAAAGCAGGAGGTAAAGAAGT
M
GTCAAATCATATATCGCCTGAGAACACAGGGGGAGCGACAATGATCGGGATATAAACCCAGGCATTCGAGCAGGGTGTGGTAACCCCCTTTGGGTCCCCT
Celera SNP ID:            hCV10075182
SNP Position Genomic:     170414
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,7)   total(A,5|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50378):
GGTAGTTCCTAAATGCTGCTGCACGTCAGAACCACTTAGGAAACATTTTCAAACTACGAATTCCTGAGCTCAGTGCCCTAGAAACTTTCATTTGTGCTCT
R
GATTACGACTTGAGGTTGAGGAATAGGGCGTTGGGGAATGGTAATGAATGGACGCATGGACAGACAGATGGATAAATGAAAGGAAACATATTTCTCCCTC
Celera SNP ID:            hCV3283752
SNP Position Genomic:     1168519
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50379):
GCCACATTTCCTGATACCAGATGCTTTCAGGGCAACCTTGATCATGGGTTTTTGTCTATTGCATCTTCATGCTGCAAGAAAATTCTGTGTGTAAGCATCT
Y
TGTCTCCCAGCAAAATGTGGCCAGTGGAAGGTCCACATGAGGCCTTTTCAGTCTGGCATCCACAGCACTAGCACAGGGCCTGCCACAAAATAGGCCCCCA
Celera SNP ID:            hCV1178870
SNP Position Genomic:     851535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50380):
CACTTGTATTTTTTATGGTACTAAGAAAGAAAAATGCTGACGCTTAAACCTGCACACAGTAATTCCTTAACATCAATGGTAAGGTTCCTCCCTAATTTTG
R
AGGCATTAAAATGGGGTCGGGGAAATGTCTTACAAATGATATTTTTTAAAAAAATAAAATAAAACAAAGATAATCATGTCTTGGATTATCATGACTCACA
Celera SNP ID:            hCV91527
SNP Position Genomic:     436400
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50381):
AAGGAAGAGAAACCAACTAGGAAGAGTTGGGGATGGAGTTAACTGACACTAAATTTGGCCTGAGCTTCTCATTGGCTTGCCGTACACAATTGCCACTGTG
Y
GATAAGAGCAACGTGTTAATTGCAGTGGTAGTTCCTAAATGCTGCTGCACGTCAGAACCACTTAGGAAACATTTTCAAACTACGAATTCCTGAGCTCAGT
Celera SNP ID:            hCV3283753
SNP Position Genomic:     1168392
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50382):
TTTCTTCTTTCCTGCGGTGGGGGATGGGACTGACCCATCAAAGCACATCTCATATTTGAAATGTATGAGATTCTTGGATAGTGCAAAATACAATGTGTGC
R
TTACACACTGAGGAGGCTGCTGCAGTTTCTCCAAACCCCTACAGGCTGGGAGACTTTTAAGAGACCCTTAGAGAGTGTCACCTTTGTTTATGCAGTTTTC
Celera SNP ID:            hCV1178871
SNP Position Genomic:     851785
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50383):
TTTTATCGGGCTTGGGGTGTGACCTTAGCCCCTCTCCTTTGTGAGGGGAGATGGCAGAACTCTCAGAAGCTTTTTCTATTCTCATCTTTGTTGGTTACTG
K
GGAAAAACTGGATTTCGCTGCACTCATCAAATAAAGAGGCCCAGGTAGCAGCGCCTCCACGTTTTGTTCAAGTGGGGTTTTCTGCGTGTGCCGCTGGCCA
Celera SNP ID:            hCV91528
SNP Position Genomic:     436740
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,6)      total(G,6|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50384):
CATCCCTCCTCCAGAGAGGAGGGTACGGTGAGATGACAGAACACATCCAGTATGAGAATTTCTATAGCACCAACTTTCCAGAAAGTGTTTCAGAAGCTTA
S
AGAATTAAAATGTGAACCAGACAGGAAGTTAAACTTGACAAGGAAGAGAAACCAACTAGGAAGAGTTGGGGATGGAGTTAACTGACACTAAATTTGGCCT
Celera SNP ID:            hCV3283754
SNP Position Genomic:     1168252
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50385):
ACAATGTGTGCGTTACACACTGAGGAGGCTGCTGCAGTTTCTCCAAACCCCTACAGGCTGGGAGACTTTTAAGAGACCCTTAGAGAGTGTCACCTTTGTT
W
ATGCAGTTTTCATAAATTTCTTTTACTTGGCCGTAGTCTCTGGGTGATACTTGTTGTAACAGGCAACTATTACAGTACAAGATATCCTGCTTCAGATCTG
Celera SNP ID:            hCV1178872
SNP Position Genomic:     851874
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50386):
GTAGCAGCGCCTCCACGTTTTGTTCAAGTGGGGTTTTCTGCGTGTGCCGCTGGCCAATTCTTCAAGAAAAGTGTTTGTTCTTCTCTGGCGGTTTGGTGTT
Y
CTATGTTTCAACATGGGGGTACCAAATAATTCATTTCCCCTTTTCCCAACAGATGCATTCTTGTGACCTCACTGATGACAGGGGCGTCGTTTATTCTAAC
Celera SNP ID:            hCV91529
SNP Position Genomic:     436885
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50387):
ATAAAGAGAGAAAAAATCTGGATTAGCTTTTTAATCTGGAGTATCAGGAAAATATCAGTAGACATGGTGCGGATATAATTCCTGTGGCAGAAAGCATAAT
W
TTTTCATTTAAAATGTGGAGAAATATAATTAAATGGCTTCACAGTACCCACTCCATCTCATACCATTTGCTTCAAAATCAACTTATTTCAGTAAAAGTTT
Celera SNP ID:            hCV2845520
SNP Position Genomic:     997470
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50388):
CTGGAGTGCAGTGGTATGATCTCAGCTCACTGCAACCTCCACCCTCCGGGTTCAAATGATTCTCCTTCCTCAGCCTCCTGAGTAGCTAGGACTACAGGTG
S
CTGCCACAGCGCCCGGCTAATTTTTTGTATTTTTAGTACAGATAGGGTTTTACCATCTTGGCCAGGCTGGTCTTGAACTTCTGACCTCGTGATCCACCCG
Celera SNP ID:            hCV1178873
SNP Position Genomic:     853326
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50389):
GTGAATTAGGAAGTTGGGAAATTGACAGAAAAAGAAAACAGAAGGTTTTTTATCCTACTGACAGTGGTGAGCTGCCAGGAAATCACATAGTACAACATTG
S
ACATTCACGTATATAAAGCTCTGTGCAAGACCAGAGTCCTGTGAGTAGAAGGAAAAATGAAGGGCCAGGCACGGTGGCTCACACCTATAATCCCACCACT
Celera SNP ID:            hCV3283756
SNP Position Genomic:     1166385
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50390):
TCCTCTCTTCTGTCTAATCTACTATACCCATTTATTGATTTAATTACACTCAGGCCAGGCACGGTGGCTCACGCCTGTAATACCAGCACTTTGGGAGACC
S
GTGGGCAGATCACTTGAGGTCAGGAGTTCAACACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAATAAATACAAAAATTAGTCAGGCGTGGTG
Celera SNP ID:            hCV2845521
SNP Position Genomic:     996267
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50391):
ACTTCTATTTAGACAACCTAAGGTTACTTTGGTTTTAAAAAATATCATTTCACACTAACCTTGCTTTCATTGAAGACTTCTCTTCTGCTTCTTTATCAAA
M
GTGGTGCTTCTGGGCCATGCCTCTCCCGTCTTTTGATAACAACAATATTCTCAGAGAACACAGTATCCTGGGCTGAATGTTACATGTAGTCACTCACTTA
Celera SNP ID:            hCV1178874
SNP Position Genomic:     853923
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50392):
AGTACAAAGGTACAGGGGCAGCAGCTGGAGATGACAGCACAGTCTGTTGCCATGTGTAGTTCATGGCGCAGGGTCAGGGCAGAAACTCCTTAATATTAAA
Y
TTAGTGTACAGTAACTCTAATGCCTGATATTTGATTTGCATTAAGCACTGACAAGAACCTTTCATGTCTATTTCTGCCCTGGGGTCCTAAAACATAAATT
Celera SNP ID:            hCV7624876
SNP Position Genomic:     133175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50393):
TTTCTCTCTACATTATGCAGAATAATCTTTTGCAAGGTTAAAACAGATATTATGAGACTTTCTGAGAATAGTCGTGAGAATTTATGGATGGAGGGTGGGC
Y
GCAGGGAAAATGATAAATGCATAATTTACACTGTTTTTTCACTGGCTAGTAATAATGACTATAATATCATGAAACATTGTTTTTAACAAATGAATTATTA
Celera SNP ID:            hCV3283757
SNP Position Genomic:     1166012
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   ;TSC_42_A(T,21|C,63)   TSC_42_C(T,4|C,79)   TSC_42_AA(T,8|C,75)   total(C,217|T,33)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50394):
TCTGTTGAGCTATTTTTAAGCTCACCAATCCTCTCTTCTGTCTAATCTACTATACCCATTTATTGATTTAATTACACTCAGGCCAGGCACGGTGGCTCAC
R
CCTGTAATACCAGCACTTTGGGAGACCGGTGGGCAGATCACTTGAGGTCAGGAGTTCAACACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAA
Celera SNP ID:            hCV2845522
SNP Position Genomic:     996239
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50395):
TTCATTGAAGACTTCTCTTCTGCTTCTTTATCAAACGTGGTGCTTCTGGGCCATGCCTCTCCCGTCTTTTGATAACAACAATATTCTCAGAGAACACAGT
R
TCCTGGGCTGAATGTTACATGTAGTCACTCACTTAATCCATGCACCAACCCCATCAGGTGAAAACCATTACTGTCCCCACTTAGTACCGTTATACCTCAG
Celera SNP ID:            hCV1178875
SNP Position Genomic:     853988
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50396):
GCCCTGTGCTTAACAGGAGGGCCCATGCGTGCGAGTTAATGCTCTGTCATCACTACCCTGAAATTCTTAATAGATTTTTTTTTGTGTTTTGTAAATGAAG
Y
CCAAAGGAACAATGGAGCATGAGCTGGGGCTTGGAGCCTCACTTCACAGACAGCCCCACCTCCTCCTGCCTCCTCACTTCCCTGGGAGAGGTCTTTAGCC
Celera SNP ID:            hCV7624877
SNP Position Genomic:     130362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50397):
ACACACGTACCTTACAAAATTTCTAATTATAGGCCAGGCGCGGTATCTCATACCTATAATCCCAGCCCTTTGGGAGGCCGAGGCAGGCAGATCATGAGGT
Y
AGGAGTTCAAGACCAGCCTGATCAGCAGGGTGAAACCCCATCTCTACTAAAAACACAAAAATTAGCTGGGCATGGTGGTGTGCACCTGTAATCCTAACTA
Celera SNP ID:            hCV10075188
SNP Position Genomic:     169243
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50398):
TCATGGTGACAGATTCAGGGAAACCACCCATGACGAATATCACAGATCTCAGGGTACAAGTGTGCTCCTGCAGGAATTCCAAAGTGGACTGCAACGCGGC
R
GGGGCCCTGCGCTTCAGCCTGCCCTCAGTCCTGCTCCTCAGCCTCTTCAGCTTAGCTTGTAAGTTGACCTAACTCCAGTGCATGCACAAACAGGAAATTG
Celera SNP ID:            hCV3283758
SNP Position Genomic:     1165512
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(A,11|G,29)   total(A,15|G,59)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:50399):
ATCTAGATGGTATATTCTGCTACATGCCTATCCTGTATGACATTGCCTCTTGCGCCTAGGCTACAAACCTGTACGGCTGTTACTCTATTGAATACTGTAA
R
CAATTATAACACAACAGTAAATATGTGTGTATCTAAACATAGAAAAGATACCATAAAAATACAGTATAAAATATTTAAAATGGTATCCCTGTATAGGAAA
Celera SNP ID:            hCV2852740
SNP Position Genomic:     789854
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50400):
CCATGGTTATACCACATTTTATGCATTCATCCACTAAGGGACATTTAGGCAGTTTCAGTTTTTGGCTATTGTGAGTAACGCTGCTGTGAACATTCATGTA
M
AAGTCATTAAGTCTTTATCTGCGTTTTCTCTCACATCCTAAACAGCTAGAATAAAAAAAAAAAGTACCCATAATATCACTCCAAATTAGTAATCTGTAAT
Celera SNP ID:            hCV2845523
SNP Position Genomic:     992853
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50401):
CAAATGGAAATGACTCTCCAGTTCCATGGGGGCACAGGTGGCCTGGAAAAAGCTACCCCAGTCTGTGAGCCCAGACAGTCCAGAAGGCCCCCTCTTAGAT
S
TCAATCCCAGCACATTTAATTTCAGTTTTGTGTGACCCTAATAGAGATCCTTCATCAAGTTTTATTCTTCATAAAAGATCCATTTCCATAGACTCATAAA
Celera SNP ID:            hCV1178876
SNP Position Genomic:     854984
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50402):
GTTTGCAAAAATTATGGCGCTGGTCCTCTCCCCAGCCAACTTAACTGGGCTTCTACCATCCTCCTCCTTCCTGATCTTTCTTTTCTCTTCCTGAGCATCT
W
TCCAGTTCCCTATTTAATCATATGTAATCTTCAGTATGTGCTTTTATGTGGAAAGCCAGATGTGTACCAGTTGATGTCACCATGATGGACAAGAAAAAGG
Celera SNP ID:            hCV7624878
SNP Position Genomic:     130106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50403):
CTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTTCTGCCTCCCAGCTTCCAGCAATTCTCCTGCCTCAGCCTCCTGAGGAG
S
TGGGATTACAGGCGAGTGCCGCCACGCCCAGCTCATTTTTGTATTTTTAGTGAAGATGGGGTTTCACCATGTTGGTCAGGCTGATCTCGAACTCCTGACC
Celera SNP ID:            hCV11440719
SNP Position Genomic:     690859
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50404):
ATTATAATCTAATGAGACAACTTTCCTATATGTGGCCCGTCATTGACTGATATATTGTTATCCAGCAATGACTGTACTTAAGTAACTTTAATAGAAGCAT
K
AAGAATGTAGTAGTTGTCATTTGAAAAGGGCCTTGCTAAATGTAACCTTCAGTTAAAGCAAGTCAGCCTAGTGGAGGATGGTGGCTGCTCATGTTGTCTT
Celera SNP ID:            hCV2852741
SNP Position Genomic:     790060
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50405):
GCTCATTTGTATCTTGTAACTGCAGTAGTCACCAGCACCCTGAAACCTCCTGGAGATCCTTGTTGATCATACCTGGAACTTCAGCCAGGTCACTTACCTA
R
CAGGTGTGGTTCTGGAGTCATCGATCATCTGTCCTGCACTACAACTCAAGGATATAGGTCCTATATGTCCCTCGGGCTTCTGGACCTAGCCTAAAGATGC
Celera SNP ID:            hCV1178877
SNP Position Genomic:     855431
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50406):
AGCTTAGAATTACTTTACACACACATGCCTACACCCCCCCTCGCAACACACACACGTACCTTACAAAATTTCTAATTATAGGCCAGGCGCGGTATCTCAT
R
CCTATAATCCCAGCCCTTTGGGAGGCCGAGGCAGGCAGATCATGAGGTTAGGAGTTCAAGACCAGCCTGATCAGCAGGGTGAAACCCCATCTCTACTAAA
Celera SNP ID:            hCV10075189
SNP Position Genomic:     169194
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50407):
AGTTCTACCTTAAAATGGCAATTGGTCATTTAGATTTAATAATTTAGGACTTTTTGGCAATTCAATGAGTTCTTTCTAAGGTAAATGTTTTGGTGTTTAA
R
CTATAACATTATCATACCTATAATAAAAACGACATAAAACTTATAAGATCCTGTCCTCCAGCTGGAAAATGAGAGATGGGCAAATGCTCCAGTTTTCACA
Celera SNP ID:            hCV2845525
SNP Position Genomic:     990870
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50408):
AACCACACTTCCTGGGTTTGCCTCTCGTCTCAGCCACTTACCAGCTAGATAACTGAGGTGATGGGCAAGCGGCTTTACCTCCCTGGGCCTCAGCTTCCCT
S
TCCATAAAATGGGCTAATGACACCTGCCTCATAGGGTTTGTGGGATGATTAAATGCTTGCAATGCCCTGAGTCATCTGCTATGGTACGAACCCTCATAAA
Celera SNP ID:            hCV1178878
SNP Position Genomic:     855773
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,12)   total(G,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50409):
GTCATGGGGATTAATAAACTCGCTATTAATTAAAGAATGTGTTTGCAAGTGATTATAAAATTTAAAAAAAACAGAAAATTTCAAATTTCATTTTCCAGTT
S
TACCTTAAAATGGCAATTGGTCATTTAGATTTAATAATTTAGGACTTTTTGGCAATTCAATGAGTTCTTTCTAAGGTAAATGTTTTGGTGTTTAAGCTAT
Celera SNP ID:            hCV2845526
SNP Position Genomic:     990774
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50410):
GTTGTGTATGTTGCTCAGATCATGTAGCCAGTAAGTAAGGTGCCAGAGTCTCCATCTGTTCAGCTTCTATCATTCCAAGGATTCCACTCTCAAGGCCCCA
Y
ACCAGGCCAGTAGAATAAAAATCTCTGGGGGAGAGTCTCAGACATCAAGAGAATTTTAAAATATCTTCAATGAGCAGCCAGGGTTGCAAGGCATACCCCC
Celera SNP ID:            hCV1178879
SNP Position Genomic:     856328
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50411):
TTATTTCCTGTGTGAAACAACTTTTATCAAAATGTATTTGACACTGGGAGTGTGGGTGAACTGGTGAAAAGGTCCCTGAGAGTTCGGGTCCCTGAGAGTT
S
CAAGCACAAATCCTGTTAACAGGTAATAAGATTATGAGCATAGCCCATGTAGAGCGCATGGTTTTATCAGCTGAAGTGAAGCACCAAGATGCCAAGTTGT
Celera SNP ID:            hCV2852744
SNP Position Genomic:     791450
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   Caucasian(C,26|G,58)   African-American(C,14|G,60)   total(G,118|C,40) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50412):
AGCCCCATTTGTGGCTTTTTCATTCTTGTCTCTTAGGTTATTTTATTAAAAAAAAGATTTCTGATTTGTAGCTAGAACATGGTTGATGCCCAACAAATAC
K
GATTGAATAAGTCATATTTTCACATAAATCTCAGGTCATGGGGATTAATAAACTCGCTATTAATTAAAGAATGTGTTTGCAAGTGATTATAAAATTTAAA
Celera SNP ID:            hCV2845527
SNP Position Genomic:     990639
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50413):
ATAACAAATTCAGAAGTGAAAAATAATTTGGTATGCTGAAATGGTGGCCTAAAGTGTGAACGATTAACTTAATAGGAACAAATGTAAGATTCCGTACTTG
W
TTCTAAACAATGAACTTTACTAGTAGAGAAGTTGACTAGTAGAGAATGAAGTTTACTAGTAGAGAAATTGGGAAGCCATGATTTAGTAGAGGCATAAATG
Celera SNP ID:            hCV29090752
SNP Position Genomic:     311885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50414):
CACTGGGAGTGTGGGTGAACTGGTGAAAAGGTCCCTGAGAGTTCGGGTCCCTGAGAGTTGCAAGCACAAATCCTGTTAACAGGTAATAAGATTATGAGCA
Y
AGCCCATGTAGAGCGCATGGTTTTATCAGCTGAAGTGAAGCACCAAGATGCCAAGTTGTTAATGGAATTCAGCATCTGTGTCTTTCATGGGTCTCTAAAT
Celera SNP ID:            hCV2852745
SNP Position Genomic:     791491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50415):
TGCATTTATAGTGTTTGTTTAAGGAAGGAGATACTTTAAAGGTTACTTTTAAAAGTAAATTCTTATTGCAAAGTAAGCTCATCCAGGCACGGTGGCTCAC
R
CCTGTAATCCCAGCACTCCGGGAGGCCGAGGTGGGTGGATCCCCTGAGGTCAGGAGTTCGAGACCAACCTGACCAATATGGTGAAACCCTGTCTCTACTA
Celera SNP ID:            hCV2845528
SNP Position Genomic:     989824
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50416):
TCACCACGACAATAAGCTCCAGGTATTGAAACATCAAGACTGAAGCCACCACTTACGATCCAGTCAACCTTTTTAACTGTCAGTGCTTCCAGTCTTTGCC
S
AAATACACAGCATTAAAATTCATAAGTCAACCCATGTCCGTGCGTCCTTTTTCTCTCCCATATCCAGTTGGTCACTTGCTTCATGCTGATCCATCCATAG
Celera SNP ID:            hCV2852746
SNP Position Genomic:     792327
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,8)   total(G,8|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50417):
GTTTTTGGGAATATATGAGGTTTTTAAATTCTATCTTACATGACTTTCCCTCTCCGGAGAGATGTATCCTTTTATCTGTTTTTGAAATCTATATAAAAGA
K
GAGTTATGATTGATCACAAATAATAGAGACTAGAAATAACACTGTTGAACAAAATAGAGGTAGTTTCTCTCACTTAAAAGTTTGGAAGTGAAGGCTGGGC
Celera SNP ID:            hCV2845529
SNP Position Genomic:     989030
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50418):
TGCCGAAATACACAGCATTAAAATTCATAAGTCAACCCATGTCCGTGCGTCCTTTTTCTCTCCCATATCCAGTTGGTCACTTGCTTCATGCTGATCCATC
Y
ATAGCGGTCGTGGTCCACACTCCAGCCCTCCTTTACATCCTCCAGACAGATAGGGTTCTTTCTATGGCTTAAAGGTGCCAACCTCATTCCTGTCTCAGGG
Celera SNP ID:            hCV2852747
SNP Position Genomic:     792423
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,10)   total(C,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50419):
CCATATCCAGTTGGTCACTTGCTTCATGCTGATCCATCCATAGCGGTCGTGGTCCACACTCCAGCCCTCCTTTACATCCTCCAGACAGATAGGGTTCTTT
M
TATGGCTTAAAGGTGCCAACCTCATTCCTGTCTCAGGGACCTCACACAATTGCTCCTTTAGCCTGAAACAATCACCCACTAATCTCTGCATAGCTGAGAC
Celera SNP ID:            hCV2852748
SNP Position Genomic:     792485
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,10)   total(A,5|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50420):
TTACCCCACTGAAATTAGCATCCCCCTTTACTGTGTTCCATTAAACCTCCCACTTTTCTTTCTTTTGAAGCATTTACCATCATCCACAAGCATCCAATGT
R
TATCACCGTTGTGTGGTTTATTGTTGGCTTCTTCATTGCTAGACCAAGAGCTCCATGAAAGCATGGGCCTTGTCTCTCTTGTTCTCAGTGAAATCATATG
Celera SNP ID:            hCV2852749
SNP Position Genomic:     792743
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50421):
TCTAATGTTCGACTTGTGGCTTTGTCATTTCCCCACAGGGGCAGCTTCCGCTGGTTTTACAGGACAGAAAAGTTCTGTTTCTATTACTGAAGAGGTTGAA
M
CCTCTGCTGAAGCTAATTCCAAACAAAGTAGGCACCATATCTTCTTTCAAAAGATCCCTTAGGGAATAATTGCAAAGAGATGCTGTGATTAGGTAATTAC
Celera SNP ID:            hCV29090759
SNP Position Genomic:     310059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50422):
TTCTGGTGGTAATCAAAGGAACGAGCTCCAGATAGGAAAGTCTTCCCTGTAATTAATTTAAACAAGTTCAGTAGACTCCAATTATCTAGTCTGCTACAAC
W
TGGAGAAATGACTGGGAAAGGAACTCCTGGGCAACTGGAATGAATTCCATGATGGCTTTATTAAGGAGTACATGTAACAAATCCAAAGTCTTTAAGCTTA
Celera SNP ID:            hCV16072792
SNP Position Genomic:     828647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50423):
CCGTTTCTAAAAAAAAAAAAAAATCAATGGTACCTCCTATAGAGTCAGGTGATGGTGTTGATTATGATGATGATGGCAAAGACGGTGGTGAAGGTGATGG
Y
GATGATCATGGTGATGATGATGGGCTGATGATGACTGTGATGATCATCATGGCAAAGATGACAATAGTGAGGTTGATGATGGTGAAGATACCAATAGCAA
Celera SNP ID:            hCV16072793
SNP Position Genomic:     825379
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50424):
AATTACACACAATTCAATCATGCTGTCAGGAATATTATCTTGCTTTGTTTTGGTGGGTGGGACCAGAATGATTCAGATAGTAGCATCCTCACAATTTCTT
S
GAGCTATTTACTCATAAATATTTCTGTTGGGGTAATTTTCCCCATTTTTTTTATCACTTGCTGCTGTGAAAATTGAGATGGAAAAAGTAGATGTAAATAA
Celera SNP ID:            hCV16072794
SNP Position Genomic:     874359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50425):
TTTTAACTCATTATGAAATCCCCACTGCTGAGCACAATGCTGAACACCTTTGAAGTAATTAATAAATAACGACTAAATTACTGCTGTGTAGATAAGGCAG
W
TAGGATTAGGTTCTTTCAACAGTGAGGAAATCAGAGCTCATTCTAACTTAAGGGTTTAGAAGTATCAGAGGCAGGACTCTGACCCGGGTCTCCAGACTCA
Celera SNP ID:            hCV10076132
SNP Position Genomic:     56611
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,10)      total(A,10|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50426):
TTGTTCAAGTGGGGTTTTCTGCGTGTGCCGCTGGCCAATTCTTCAAGAAAAGTGTTTGTTCTTCTCTGGCGGTTTGGTGTTCCTATGTTTCAACATGGGG
R
TACCAAATAATTCATTTCCCCTTTTCCCAACAGATGCATTCTTGTGACCTCACTGATGACAGGGGCGTCGTTTATTCTAACAAATGCTCTTGTCCAAATT
Celera SNP ID:            hCV91530
SNP Position Genomic:     436904
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50427):
GCCAATTCTTCAAGAAAAGTGTTTGTTCTTCTCTGGCGGTTTGGTGTTCCTATGTTTCAACATGGGGGTACCAAATAATTCATTTCCCCTTTTCCCAACA
R
ATGCATTCTTGTGACCTCACTGATGACAGGGGCGTCGTTTATTCTAACAAATGCTCTTGTCCAAATTCCAACCATGTTGCCAAGAGATGGCATAGCTGGT
Celera SNP ID:            hCV91531
SNP Position Genomic:     436937
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50428):
GGTTTGGTGTTCCTATGTTTCAACATGGGGGTACCAAATAATTCATTTCCCCTTTTCCCAACAGATGCATTCTTGTGACCTCACTGATGACAGGGGCGTC
R
TTTATTCTAACAAATGCTCTTGTCCAAATTCCAACCATGTTGCCAAGAGATGGCATAGCTGGTGAGGGCTGGACTTTAGGGGCCAATCTCCACTCCTGAG
Celera SNP ID:            hCV91532
SNP Position Genomic:     436974
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50429):
TTCAACATGGGGGTACCAAATAATTCATTTCCCCTTTTCCCAACAGATGCATTCTTGTGACCTCACTGATGACAGGGGCGTCGTTTATTCTAACAAATGC
W
CTTGTCCAAATTCCAACCATGTTGCCAAGAGATGGCATAGCTGGTGAGGGCTGGACTTTAGGGGCCAATCTCCACTCCTGAGCTCCCCTGACCACACAGG
Celera SNP ID:            hCV91533
SNP Position Genomic:     436992
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50430):
AGCCATTTTCTGAGTAGTTACATCTCCTTTGCACTCTTTTCGACCTCCATCTCTAATTTTCAGGACCCTTGTGATTGCATTGGGTTCACCTGGGTAAGTG
R
GAAGACTCTTTTTAAGGTCAGCTGATTAACAACCCAAATTCCACCTGCATAGGTTCTGTTTGCCATATAAGTTTATAAGTTCCTTTATATCTCCGAGTAG
Celera SNP ID:            hCV347595
SNP Position Genomic:     338683
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50431):
GAGAGCCTTCATGTCTCAGGTCCCAATAGCAGTTTCTATGACTGACCAGCCTGTCCACAGAGCATCTCCTCACTGGACAGGCATTGTGGGCACGCTCCTG
S
GGAGGAAGAATCAGGGTGGTGAGGCAATTAGTAGGTGTTCTACAATCCTGACATCTTTCTCAGACCAGCCCCCATCTCTGTCTATTGGCGAGATTTCTTC
Celera SNP ID:            hCV10075190
SNP Position Genomic:     168913
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,7)      total(G,6|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50432):
CGAGACACTGAGTGTCCAGGTGACCCCCTGTGTTTCCCAGGCCTTCCGCCATCTGGCTCCTGGCTCTTGACCACGACTGGCTGCGTGATTTGCAGAGCCC
R
TTGTAAAATGAAAACTCAGGGTCCCTTGTTCAACAACAATTAAGAATGTCAAGAGGGTGACAACAGAGCACTAAACCCAGCACAGGGACTGTCTGAGCAA
Celera SNP ID:            hCV1178881
SNP Position Genomic:     856993
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50433):
ATTAACCTCAGTAAGGAAGACACCAGGTTCAAGAGGCTGAAGAAGAGACCCAGAGCCAGCAAAGGAGGCATGGGGTTTTATTAGGGGCTTACATCCAGGC
R
AGAGAGTCTAGCGGCAATAAGCTGGACATTAGAACCGCCTTATATACAGAAACAGTCCAGCAACAGAGGGCTGGATAAGATTTCACCTTCCTATGATCCA
Celera SNP ID:            hCV15983833
SNP Position Genomic:     848252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50434):
CATCTTGGGCCAGGCGTGGTGGCTCGCGCCTGTAATCCCAGCACTTTGGGAGGCCAAGTCGGGAGGATCACGAGTTCGGGAGATCGAGACCATCCTGGCT
W
ACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTACCTTGGCATGGTGACAGGCACCTGTAGCCACAGCTACTCGGGAGGCTGAGGCAGAAGA
Celera SNP ID:            hCV29034872
SNP Position Genomic:     658025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50435):
CTCTTGACCACGACTGGCTGCGTGATTTGCAGAGCCCATTGTAAAATGAAAACTCAGGGTCCCTTGTTCAACAACAATTAAGAATGTCAAGAGGGTGACA
R
CAGAGCACTAAACCCAGCACAGGGACTGTCTGAGCAAGGGGTTCTGTGCAACTGTGCAGGTCACACGTTCATGAAGTCCACCTGCTCTTGAGCTTGCCTT
Celera SNP ID:            hCV1178882
SNP Position Genomic:     857056
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,11)   total(G,2|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50436):
AACCGCCTTATATACAGAAACAGTCCAGCAACAGAGGGCTGGATAAGATTTCACCTTCCTATGATCCACTGTCAGCAGGCTAGATGACATAAGCACACAG
Y
CTAGTGGCAGTGGGCTGGGGAGGAAAACTGCAAACATCATGCAATTTATATAACATTTTCCCTTAACACACTCCCCCTAATGACCTCCACCTGGCAACCT
Celera SNP ID:            hCV15983834
SNP Position Genomic:     848385
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50437):
CACAATCCCTTAGATCTTCACAGATTTTTAAATCTTTAATTAGGGCTCCTCCATCCTGGCTGAATGTTTGAATTACCTGTGGAGTTACTGGATGATACCA
R
TGGCCAGGCCCTACCCCAGACAAGTTGAATATGAACTCCGAGTGTGGGACCCAATGTATTTTAAAAAGTTCCACAGAATGGCTGGGTACGGTGGCTTACT
Celera SNP ID:            hCV29034873
SNP Position Genomic:     664573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50438):
ATAGAGATGAGGACAGTGGTGATGACACCGCTGATGAGGATGGTGGGAGGAAGGCCATGATGAAGAAGAAGATTGTGATGAGAAAGATATTATTATGACA
R
TGATGTTTCCAAAATGTCAGAGGCCAAATTGACATTCTTATCGAAAGGGCCACCTCCCCTCCAGGTTAAAAGGCTACTCTTTTCCTTTAAAGTGACATAT
Celera SNP ID:            hCV2845530
SNP Position Genomic:     988397
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50439):
CTCCAGCCTGCACTCCAGTGACAAAGCGAGACTGTCTCAAAAAAAACTCTTAAATTGGTTAAACAAACAAAAAAAACCACACCGTGTCCTTTTGTTGTTT
Y
TAAGGGTTTATGGAAAAATATATTGGAGAGTTACAACTACTTCAGGCTAATTCAATATAAAGAGTATTTTTATTATTAGTTTGGAATATTAAAGTTTCCA
Celera SNP ID:            hCV1178883
SNP Position Genomic:     858644
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50440):
GGTCTACTTTAGGGTTTCACTGAGTACAGGTGGTCACAGATATCCACAGGTTCCAACCAGTGATGGAAAATATTCAGGGAAAAAAAAACAGTAAAAATAA
Y
ACCATAACCATAAAAAAAGCAATGTAATAACTATTTACATAGCATTTACATTGTATTAGCTATCATATATAAGTAATCTAGAGATGATTTCAAGTATACA
Celera SNP ID:            hCV29034874
SNP Position Genomic:     666876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50441):
CTGCCTATTTTAAGCAATTTTACTTGAACTTTCAAATATGTGCCTTGGTCATCCCAACAGATACCTGCACCTAGTTGGCCAATCAGATCACTAATTGTCC
R
GTCTCAGCGATTGATCTAGACACATTTATGACCAATATATGGCAAATGAGAGTTCTTTGGGGGAAATTAATTTGAATGTTGCAGAGTGTTGGCCTTCTCA
Celera SNP ID:            hCV7624885
SNP Position Genomic:     127961
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50442):
CATCTGATATTTACCAGGAATTAGGGGAGAAACAGTGGATACTACCATGGTTCCTGCTTTTAAGGAGCTCATAGTCTAAGAGTGGAGTCAGATAAGTCAA
Y
AAGATTACAAAATAAATGCCAGAAGAGGAAAAAGTGGGAGACGCCAAGGAGGCAAGGAGGGACACCAAGCCCAGCCACAATAAGAGTGGGAATGTCAGAG
Celera SNP ID:            hCV11440726
SNP Position Genomic:     684052
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50443):
GGCTTTACCATTTTACAAATGAGCTTACTGTGATGCTCAGAGAATCCAGAGAACAAGCTCCAAGGTCATGGACAGAAAAAGTGGCAGAAACAGGAAGTGA
M
CCAGGTTCCTGTGATTCAAAAGCTGCAGTCCTAACTGTGATGCTGTGCTTTCCTCATCTGCCATCAATGCTTCCAACCTCCAGGGTGTTTGGAGAAAAAA
Celera SNP ID:            hCV2845531
SNP Position Genomic:     986190
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,14)      total(A,14|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50444):
TATTGGAGAGTTACAACTACTTCAGGCTAATTCAATATAAAGAGTATTTTTATTATTAGTTTGGAATATTAAAGTTTCCACTTAAAATTGATTTTTTGAA
R
TGTTTTCAGGCAACATCATTTAATTCAGCATAGAGTATCCTATGTCTTTCAAAAAGAACTTCATGGGAATGGTAGATAAAAAGATTAAGTGGAATTTTTA
Celera SNP ID:            hCV1178884
SNP Position Genomic:     858765
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50445):
AGAGGGAACCACTCTTCTGACACTTAACTGTACAAATTAGATTGGCCTGTTTGGGGACTTTCTACTGATGGACCCATGCTGTGTATACTCTTTTGTGTCA
M
CTTCTTTCAGTCATCATGGTTAGTCAGATGCATGTTGTTGTTGCATATCGTTTGTTCATTCTCCTCCTTGCTGCTGTGCAATATACCATTACGGGAACTA
Celera SNP ID:            hCV29034875
SNP Position Genomic:     671441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50446):
CAAAGAGAAAACTCTAAACTCTGTTAATAATTGTACATTGTAAGGTAGTAAGGCATGTTAGCCTCACTGTGCTTGTCACAGATCAGAATCTACCTAGAGA
R
CTGGGGTACACGTAGAAGCCCAAGAGTACTAGATGATCTCCTATAAAGAGCCAGGATGGTAGAAGACCTGTGGATTGGCCTTCTGCTATGTTTCTGTTTC
Celera SNP ID:            hCV7624886
SNP Position Genomic:     127737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50447):
AGAGTTCCTAGGTCCTGTGTTCAGATTTTGAGAGCCTTCATGTCTCAGGTCCCAATAGCAGTTTCTATGACTGACCAGCCTGTCCACAGAGCATCTCCTC
R
CTGGACAGGCATTGTGGGCACGCTCCTGCGGAGGAAGAATCAGGGTGGTGAGGCAATTAGTAGGTGTTCTACAATCCTGACATCTTTCTCAGACCAGCCC
Celera SNP ID:            hCV10075197
SNP Position Genomic:     168884
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50448):
TTTATGATTATGGATCATGGTTGTTGTTTCCCATTTATTCCAAGGGAGCGATGTTTGGGGAAGGGCTGAGTACACAAGATCACATTCAGTTGCTAAATTT
K
TACCCAAACCAGGAAGCCATTTGCACTAAGCACATTCTGATGGAAATGTGCTAAGATTGTGGCTTCTTTAGGGGCCTGGGCCAGGGCATGGATTTGATGC
Celera SNP ID:            hCV2845532
SNP Position Genomic:     985863
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50449):
TAAGGGGTGTAAGAAAAATCTTACTGTCGAAGTCTGGATAAAAGGAAGAAATTAGGACAGTAAAATGAATCATGATGGGGGACCCCAGTTTTGGCCATGT
S
TCACCTAATATGTCATAAACAGTTCTTCAGCTTCATTAAAGAATAGCTTACCAGAAAGAAGGGCAGACACTGGAGGCTGAACTGCAGCGAATGAAAACCT
Celera SNP ID:            hCV1178885
SNP Position Genomic:     858964
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50450):
TGACACTTAACTGTACAAATTAGATTGGCCTGTTTGGGGACTTTCTACTGATGGACCCATGCTGTGTATACTCTTTTGTGTCACCTTCTTTCAGTCATCA
Y
GGTTAGTCAGATGCATGTTGTTGTTGCATATCGTTTGTTCATTCTCCTCCTTGCTGCTGTGCAATATACCATTACGGGAACTAACCACATTCAATTCTAT
Celera SNP ID:            hCV29034876
SNP Position Genomic:     671458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50451):
AGAGATTAAAGAAATCTTCGCCTCCAAGAAGTCTGGATCTAAGTCATCTCCCTTTACTTGATCAGGCCCATTTCCACCCCCTAGTTCAGTTGACAGAGAT
M
GGATGGCAGCCTCTGCCAGCATGTTTCAGGATATACCCAGGAAGCAAATACCTGGTTGGAATAACAAAGTCCAAAGCGAAGCAAGAGGGTGATTGTTAAA
Celera SNP ID:            hCV7624887
SNP Position Genomic:     123186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50452):
GTGAAATCATATGTGCTCAATATGGGGGTTAGCACATAGTCAATGAATATTCAAATTCATTCATTTAAATATTTAAATATTTAAAAAATAAATATTGAGA
Y
ACACTACCATTCATTTGGCACACAGCACATGCTACTTTTAATTGTGATGGCTCAAATAACCTATGATACTGCAAAGACCATTTTTATGCCCTTATAGGTC
Celera SNP ID:            hCV2852750
SNP Position Genomic:     792931
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,8)   total(C,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50453):
CATTATTCATTCTCAGTCCCTGTGCTTTTATGATTATGGATCATGGTTGTTGTTTCCCATTTATTCCAAGGGAGCGATGTTTGGGGAAGGGCTGAGTACA
S
AAGATCACATTCAGTTGCTAAATTTGTACCCAAACCAGGAAGCCATTTGCACTAAGCACATTCTGATGGAAATGTGCTAAGATTGTGGCTTCTTTAGGGG
Celera SNP ID:            hCV2845533
SNP Position Genomic:     985837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,6)      total(G,2|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50454):
CCAGAAAGAAGGGCAGACACTGGAGGCTGAACTGCAGCGAATGAAAACCTGAAATAATCACAAGGTGGTCCTGTTGCCATCATCTCTTTATCAGTATAAA
R
ATAAACAACCTTTGAAAACAGATGGAGACAGTCATTGCTCAACTTGTCATAACTTATTACATATTTGGCTGTCAATTTGTACTTAAAAAACCAACTAGCT
Celera SNP ID:            hCV1178886
SNP Position Genomic:     859115
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50455):
TAAAAATTAAGAAATTTTTAGTGAAACCAATGAATTTGCTTTCAGAAAACAGCATTTTACAATATCTATTGGGTAATTATATCAAATACTCGATTCCATG
K
TTGCTGGTATTGGATAAATGACTAAATTTGTAATTAAACACATCTTTTGGACTAAAGTTACTAAACAGATAGTTGAGTCAATTACATAACAGCAATGGGC
Celera SNP ID:            hCV29034877
SNP Position Genomic:     674301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50456):
CTCCAAGAGTTCCTAGGTCCTGTGTTCAGATTTTGAGAGCCTTCATGTCTCAGGTCCCAATAGCAGTTTCTATGACTGACCAGCCTGTCCACAGAGCATC
Y
CCTCACTGGACAGGCATTGTGGGCACGCTCCTGCGGAGGAAGAATCAGGGTGGTGAGGCAATTAGTAGGTGTTCTACAATCCTGACATCTTTCTCAGACC
Celera SNP ID:            hCV10075198
SNP Position Genomic:     168879
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,7)   total(C,7|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50457):
TTGGCACACAGCACATGCTACTTTTAATTGTGATGGCTCAAATAACCTATGATACTGCAAAGACCATTTTTATGCCCTTATAGGTCATGTAGTACCTTTT
R
TTCTCTGATATGTCCCTAGTACACATTACAGTGTTTCACACAGAGTAGGCACTTAAACATACCAGCTAGTGGATAGTGTGATGATGCCAGGAAGTAATAT
Celera SNP ID:            hCV2852751
SNP Position Genomic:     793046
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50458):
CTCTGCCACTCTGCAGTTCCATCCTCCTACCCTCAGAGTACAGGGGCAGGGATTTCTTTAACAGTCTTCACACCCAGAACTGAGAACCAACCTCCCACCT
R
GCTGGCCAGTAGAGTCTTTTGAAGATGAGAAAAAAAAAAAAAAAAAGAAAAAAAGAAAAAGCTGAATGATGAGCAGTGGCCTCCAATTGGACATCCCCTC
Celera SNP ID:            hCV1178887
SNP Position Genomic:     860712
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50459):
TTCTTAGCATTCTTTTCTCAGAGAACATGTGTATAGTCCTTGTATAGGGCCATAATTTTCAGATACACTTTTCCCACTCTTCTTTGTGCTTCTCTGTCCT
Y
AGTTGCTTTTCTCATTTAATCTTTATAATTTCCCTGTGATTTAAATTATACTTTCATTTTACAGATGAGAAAATTGAGACACTTATATTCACATATCCCA
Celera SNP ID:            hCV29034878
SNP Position Genomic:     677567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50460):
TAAACAGTGTGAAGTCCACAGGTCTGAATAATTTCTTCTTGCTCCAAGAGTTCCTAGGTCCTGTGTTCAGATTTTGAGAGCCTTCATGTCTCAGGTCCCA
R
TAGCAGTTTCTATGACTGACCAGCCTGTCCACAGAGCATCTCCTCACTGGACAGGCATTGTGGGCACGCTCCTGCGGAGGAAGAATCAGGGTGGTGAGGC
Celera SNP ID:            hCV10075199
SNP Position Genomic:     168838
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50461):
CAAATGCTTCCAGGTCCACACCACAGGGAAACAGAACTTCCTTCACCTAACTGTCAAACACAGGGCCTGGACTTAACATTATATCACTGGAATAAGATGC
R
CTGACTGACTTCTTCTAATTAGGACTCATTCCAAAAGTTCAATCGGTAGGAGATAGAGAAAGGCAATCCTAACCCAAACCACATGAGCAGAGAAGAAGTA
Celera SNP ID:            hCV2845535
SNP Position Genomic:     983756
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50462):
CTCCATTCAGCAAAAATGCATTGAGCTCCAGCTACATGATGAGGACTGCTGTAAATTCCGTGGACACAGCAGTGAACAGAACAGACCAAGCCCTGTCCTA
S
AGTCCACCTGCTAGTAAGGGAACCTGACAAATCAAAAGTTAATAAAATACATGGTGTGTCAGTTGCTATGATAGGTCCTGATAGGGGCTATGGAGGTCAA
Celera SNP ID:            hCV29034879
SNP Position Genomic:     569040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50463):
AAGTCCAGAACACTTTTTACTTAGCCTTCCTTTCCTCTCTCCTTCACTCAAGGTCAGATTTTCATCTCAGTTTGATAGCTCTCCCCGCTCCTCCCAGCTT
Y
GTCCCCATTTTTTCTCACCCGGCTGTTTCCCCTAATATAATAATTGGTCTTCAATTTTAACTTGCATTTGCTCCTCAGGAGATCTGAACTTATATGTCAT
Celera SNP ID:            hCV29090760
SNP Position Genomic:     362351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50464):
TATACAAGGGTAGGAAACTAACAAGTATGGAGCATCTCATATGTGTACTGGCATCTGACTTCTCATTTAGTCCTCATAACAAGTTTATAAGGTAGATAGT
R
ACATCCCACATTACAGAGGAAAAACACGAGCTTGTAATTGCATGATAAGCGCATAAGGAGCAAATCTGGAATCCAAGCCTGTGTTCTCTGCAGGGTGCCA
Celera SNP ID:            hCV2852753
SNP Position Genomic:     793244
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,8)   total(G,5|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50465):
AAGAAGAGGGAGTGGGTATCAGGACAGTTAAGCAGCATACTCCTGCTATAGTTAGTGCTTGAGGCAGTCCTGTAGCACATCCCCACAGCAATCTGTACTG
S
AAGTTGAAGAATGAATGCTATGAGAACTTTATCTCCTTCTTATGCCACCATCATAGAGTCACCCTAGTCTCCCAATTTGCTTCACCGCGCAATGTCAGGA
Celera SNP ID:            hCV2845536
SNP Position Genomic:     981895
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50466):
TGAGCCTGGGAGGTCAAGGCTGCAGTGAGCTGTGATCATACCACTGCGCTCCAACCTAGGTGACAGAGGGAGACCCTGTCTCAAACAACAACAACAAAAT
Y
TGGGGCTTAACTGCCCAGAGAAGCCCAGCAGGTGAGGCCAGGTTTTAAAACTAGATAGCCCAGGTCCTCAGCCGGGCCACTGGCTTGATTCTGCTTTGGT
Celera SNP ID:            hCV1178889
SNP Position Genomic:     862240
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50467):
GGCCAGGCATGGTAGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCTGATGGATCACTTGAGGTCAGGAGTTCGAGACCAGCTTGGCCAACAC
R
GTGAAACCCCATCTCTACTAAAAATACAAAAATTAGTCAGGCATGGTGGCAGACGTCTGCAGGCTCAGCTACTTGGGATGCTGAGGCAGGAGAATCGCTT
Celera SNP ID:            hCV2852754
SNP Position Genomic:     793643
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50468):
CCATATGACCATCCCTAGATCAGGAGTGGGGTCAGCCCCACCCACCTGAACTGTACCTGTACTGAGGGTGAGGAAGGGGTGATGCCCGAGGGAATTATAA
H
ATAGGTACCAGAAGAAGAGGGAGTGGGTATCAGGACAGTTAAGCAGCATACTCCTGCTATAGTTAGTGCTTGAGGCAGTCCTGTAGCACATCCCCACAGC
Celera SNP ID:            hCV2845537
SNP Position Genomic:     981783
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50469):
GGGATGCTGAGGCAGGAGAATCGCTTGAACCTAGGAGGCAGAGGTTGCAATGAGCCAAGTTCACAGCAATGCACTCCAGCCTGGGTGACAGAGTTAGACT
M
GGTCTCAAAAAATAAAAATAAAAATGAATAAATAAATAAATGTGTCTACAAACAGAGGTTTTTGAGAGTCAGGCATAAGCCCCCACCTTAGTGATACTGA
Celera SNP ID:            hCV2852755
SNP Position Genomic:     793818
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,8)   total(A,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50470):
ATGATAGGAATGGAAAGCCCTGATTGGCCAGGCCTGAACCATATGACCATCCCTAGATCAGGAGTGGGGTCAGCCCCACCCACCTGAACTGTACCTGTAC
Y
GAGGGTGAGGAAGGGGTGATGCCCGAGGGAATTATAACATAGGTACCAGAAGAAGAGGGAGTGGGTATCAGGACAGTTAAGCAGCATACTCCTGCTATAG
Celera SNP ID:            hCV2845538
SNP Position Genomic:     981745
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50471):
ACAGAGGTTTTTGAGAGTCAGGCATAAGCCCCCACCTTAGTGATACTGATGCAGCCACCTCGAAATGGGAGGTGGGTCACCCATCTTTATTTGTGGTCCC
S
GAAGAAAGAAGATCTCAGCGGGGAGAAGGTGGGGTGGGGCACATCAACTCCTTGCAGGTAGACACTCTGACAAGAATGTATGCACTACTCAAAATGTTTC
Celera SNP ID:            hCV2852756
SNP Position Genomic:     793970
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50472):
TTCATTCTCAGGTTGACTTTCTTTGTGTGGTTACAGGTGGCCACTACTAGCTCCAGATGGATGCCCTAACCACCTCCAAGTTTAACAGAAAGATAACTTC
Y
TTTCCCTAAGCGTTCTGAAAGAACTAAAGGACAATGTCCTGGAATTGAATTTCACTCCCAGGGTGGACTCACTTAGGTTATGTCCTCATCGCATGATGAT
Celera SNP ID:            hCV2845539
SNP Position Genomic:     981549
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50473):
CAATCAATGATATTTTAAAGCAGCACATAAGAGTATTTAGCTTTAATGTGATCATTGCCTCAGGCTGTAATAAAAACAGAATTTTTCCCCAATTATTATC
M
GTCACTCCTCCTCCATAGTCCATCATGATAAAACCGAGCGACTTTCATTCCTCACCAGGCAACTAATCATCCCTTTGCTGAGCATTCTTCATAAATGGAA
Celera SNP ID:            hCV2852757
SNP Position Genomic:     794753
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,8)      total(A,5|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:50474):
GTATTTAGCTTTAATGTGATCATTGCCTCAGGCTGTAATAAAAACAGAATTTTTCCCCAATTATTATCCGTCACTCCTCCTCCATAGTCCATCATGATAA
R
ACCGAGCGACTTTCATTCCTCACCAGGCAACTAATCATCCCTTTGCTGAGCATTCTTCATAAATGGAATGGAATAAATTTCATTATGCAATGCGGTAATG
Celera SNP ID:            hCV2852758
SNP Position Genomic:     794785
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,11)   total(G,2|A,11) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50475):
TCCTAATCATGCAGCCCATAATAGGCTGTGCCAACCCCACTTATCCTCAAAACAGCCCTCCCTTACCTTGCCGGCCTCATCTAAATGCTGCTGTCTGCAG
K
GCACGGTGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCTGAGGCGAGAGGATCACCTGAGGTTGGGAGTTCGAGTCCAGCCTGGCCAACATGGTAAA
Celera SNP ID:            hCV2852759
SNP Position Genomic:     795074
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50476):
GAGCCACTGCGCCTGGCCTACACAGTTTTTATGCATATTGCTCTCTGTACGGAGAAAGGTAATGCAGACTCATTCATCCTTTGTATTTCAGGTCTATTGC
Y
ACTTCTTTGGGAAACATCACCCCTCAGTCTAGATCTGATACCCCTCTTATTCCCTCTTCTGTTTTATACCTCTTCTTCCTAGCCCAGGTGTTTACAATTC
Celera SNP ID:            hCV10076140
SNP Position Genomic:     56307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50477):
AAGGTATTTACACAGTTTTGTTTTGGGTTTCTTTGTTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTTTCAACGGAGTCTCACTCTGTCACCAGGCTAGA
R
TGCAGTGGCGCAAGCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCAAGTAGCTGGGACTACAGGCACCTGCC
Celera SNP ID:            hCV10076144
SNP Position Genomic:     55978
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50478):
CAGGACACAGAGTGATTCACCTTCAGTATAGCTCCCACTAGTGTGTTGCTCTTATCCCACAAGAACGTGACTATCCAGGATTCCTTAAATCCACCAGGCT
Y
TGAGCCAGACTGCATTTACCAATCCACAGAAATAGTGCAGACCAATTCCTTTTGTGAAAATTAACATATATTTTGTCTATGGCCTTCTCTTCATCACTTG
Celera SNP ID:            hCV15870083
SNP Position Genomic:     783801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50479):
AGGGAGGGCACTTGAGTTCAGAAGCCAAAAGAAATGGGTATTGCTCTTTCCGCGCTAAGCAGTTCTGAACCTAGACCATATCCTTGGGAGACCAGAGCAG
S
TGTAAGCAGCAAACTGCCTCTTTTCTGCCTCCCTGTGAACCTGCTTCCCTGGAGGGTATGCTCAAACTCAATTCCCTGTTTTATTGTTCAAAGGACAGGG
Celera SNP ID:            hCV10076145
SNP Position Genomic:     54964
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,10)   total(G,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50480):
TTAGCTGGGCTTGGTGACGAGTGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGAGGTTGGGTCTGCAGTGAGCCAC
R
GTTGCACTCCAGCCTGGGCAACATGGCAAGACTCGGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAACTTTAAAAGTTAAAAAAAATAGAAAAA
Celera SNP ID:            hCV11672360
SNP Position Genomic:     235696
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50481):
AAATTAAGAAATTTTTAGTGAAACCAATGAATTTGCTTTCAGAAAACAGCATTTTACAATATCTATTGGGTAATTATATCAAATACTCGATTCCATGGTT
K
CTGGTATTGGATAAATGACTAAATTTGTAATTAAACACATCTTTTGGACTAAAGTTACTAAACAGATAGTTGAGTCAATTACATAACAGCAATGGGCATT
Celera SNP ID:            hCV11440731
SNP Position Genomic:     674304
SNP Source:               dbSNP
Population(Allele,Count): (G,-|T,-)   African American (pooled) - WICGR(G,35|T,65)   Asian (pooled) - WICGR(T,33|G,51)   Caucasian (pooled) - WICGR(T,29|G,67)   total(G,153|T,127)no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50482):
TTTCCTTAGAAAACCTTCAAAACAGCAGTGTCACAGAATCACTCTTGATTAACCACTGGACTTGGAAAGGCCTAAGGTTGAGAGGCTCAGATGGCCCCAG
M
GTAAAAGCCCTCAGTATGCCTGCTTCACTGAGCATTACATGAGACTGTTCCAGCTCTGTGATGATCAAATAAGAAAAGCTTGTGAGGATTTTCACTCTTC
Celera SNP ID:            hCV29034880
SNP Position Genomic:     680088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50483):
CCCGCTTTGTACCCCACCTCACTCCCAGCTTCTAGATACCTGAGGTTTGGCGACCCAGCTACGAGACTGTCCCTTCCTTCCACCACCTGATAGTGCAAAA
Y
TGGGACAAAGTCATCATTAGGCAGCGTAGTTAGTAGCAAGATATTAGAAGTCCTCAGAATAGCATTTGCGTTTTCATATACTACTTTGTTAACCCTATGC
Celera SNP ID:            hCV11440732
SNP Position Genomic:     672813
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;(C,-|T,-)   African American (pooled) - WICGR(C,20|T,80)   Asian (pooled) - WICGR(T,39|C,45)   Caucasian (pooled) - WICGR(C,47|T,49)   total(C,112|T,168)
SNP Type:                 INTRON


Context             (SEQ ID NO:50484):
AAACTAGATAGCCCAGGTCCTCAGCCGGGCCACTGGCTTGATTCTGCTTTGGTTTTGCACACCAGGGTCTCTTTCTTTGTTACTGAGGACGGTTAGGAGA
S
AACTGGCTCATGTCCACCTGCTTGGTCAGGAAACAATTTTAGATTGGTGTGTTTGGGGTGGCCAGTTGAGTGAATGGCTGTAGGCTGTGTCCCAGGCACT
Celera SNP ID:            hCV1178890
SNP Position Genomic:     862388
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50485):
GTCAGAAGGACTGTCCTGCTGTTGATGACTTCACTTTACTTAAGCATGGTTCAATCAGAAGCAGGGGAGTGAGGAAATTCCTTAACATATTTATCAACAT
S
TGTTTCTAGGCATCCAGCTATGTACAGGAAGGAACTGTTGACCACAGAAAGCATCCTGCTTGGGCATTTCTGTGCAATGTCTCTTTGCTGGAAGGACCAT
Celera SNP ID:            hCV29034881
SNP Position Genomic:     686670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50486):
TGAGTGAATGGCTGTAGGCTGTGTCCCAGGCACTACAGTCACATTTGCAACAATTCTCACATTGGCAGTCTGCTGCTCATGACGAAGAGACGTGTCTACA
Y
CTGAAAGCAAAACTTGGCCTGCAGGGTGACCACCTCATTCTGGTTTGCCCAGGAGTGTCCTGGAATCCCCTCAGTCCTGGGAGAACTATCTGGTTCTCAT
Celera SNP ID:            hCV1178891
SNP Position Genomic:     862555
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50487):
CTTCTGCTATAAGCCATGGTGTCCTGGGAATGTAAGTGGTAACGCCTGTTCCCTACCCCCGTGGCTGAGGAACACCAGCCCTGCCCTATTCCTCTGTGGG
K
GATTGTGGCGATAATTCTAGTTCCCTGGAAAGCACACATCTGAGATTCAGCATGATGTATCTTATCCCCAGCACGATTATTTTCCCCCTCATTTTTTCTT
Celera SNP ID:            hCV29034882
SNP Position Genomic:     688582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50488):
GCAACAATTCTCACATTGGCAGTCTGCTGCTCATGACGAAGAGACGTGTCTACACCTGAAAGCAAAACTTGGCCTGCAGGGTGACCACCTCATTCTGGTT
K
GCCCAGGAGTGTCCTGGAATCCCCTCAGTCCTGGGAGAACTATCTGGTTCTCATTTGGAACCAGGAGGCCCCAAACCCATTCAAACTAAAGAATCTTCAA
Celera SNP ID:            hCV1178892
SNP Position Genomic:     862601
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,10)   total(G,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50489):
CTGCCGTTAGCTGAATATGGCAGCACTTCCATGCTGAGATCTATGAAGTATAGATTATACATTTCCATGCTCATTCAAAATATGTATTTTTTATGATTGA
Y
GAGGACATTGCAGCATGCCACCTTCATAATTTGCATTTTTAAATGGTTCTGTGTGTAAATCATTGGCGTGTATTACCTCAATCAGAAGCCAAATAACTAA
Celera SNP ID:            hCV29034883
SNP Position Genomic:     689309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50490):
ATGATGATTAACAACAACAACAACAAACTCCATCTCTACCTCTTAGTCTGTGTTTCCTTCATTCTCAGGTTGACTTTCTTTGTGTGGTTACAGGTGGCCA
Y
TACTAGCTCCAGATGGATGCCCTAACCACCTCCAAGTTTAACAGAAAGATAACTTCCTTTCCCTAAGCGTTCTGAAAGAACTAAAGGACAATGTCCTGGA
Celera SNP ID:            hCV2845540
SNP Position Genomic:     981492
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50491):
GCCTGCAGGGTGACCACCTCATTCTGGTTTGCCCAGGAGTGTCCTGGAATCCCCTCAGTCCTGGGAGAACTATCTGGTTCTCATTTGGAACCAGGAGGCC
M
CAAACCCATTCAAACTAAAGAATCTTCAATGGAAATTTAGTTTCCAATGAGAATCGTTCCAACTAGATATTCCCCAAAATGCTAGAATTTAAAATAGCAG
Celera SNP ID:            hCV1178893
SNP Position Genomic:     862672
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50492):
TGCTTTTCTTAAATATGTTGTGCGGGAATCAGAGATAAATATACCTTAACACATTTTTATATTTCATTACTATTCAATATATTTTTTTTGTTGTTCTAAC
R
AAGAAAACCTCCAGCTTTTATAATACCATTACCGTCAAATTAAAGACTAGCCTTCATCTTTCCAAACATATATTTTGTGCTTTGCTCAAAGCCAGGAATG
Celera SNP ID:            hCV29034884
SNP Position Genomic:     689529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50493):
CTTCCCCATACTTTTTTCTCCTTTTCCTCTTCCTCTATAAACTCTAGGTTCTTTCACTGCATTTCTTTTTTGTAAACAGCTTTACTGAGGTATAATTGAC
M
TACAAAAAATTGCTCCGGTTTAATGTATACAGTGTGATGAGTTTGGATATATACAAGCACTGGTGAAACCATCAGCTTCATAATCAAGGCTTCCAATATC
Celera SNP ID:            hCV7624895
SNP Position Genomic:     116839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50494):
ACCCAGATTAAGAAGCAGAACAAGACTCTTCCTCTTATAGCCCCTTCTAATCACCAGCTTCTCCCCAGAGGGAACCACTCTTCTGACACTTAACTGTACA
R
ATTAGATTGGCCTGTTTGGGGACTTTCTACTGATGGACCCATGCTGTGTATACTCTTTTGTGTCACCTTCTTTCAGTCATCATGGTTAGTCAGATGCATG
Celera SNP ID:            hCV11440736
SNP Position Genomic:     671375
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50495):
CATGACCACATCACTGCACTCCAGCCTGAACGACAGAGTGAGACCCTGTCTCAAAATAAATAAATATTTTTAAATAGATAATTACAGTAACTTTCCCTGG
S
TACAAAAAATTTTCTGTTTAAGGGAAAGTATTAAAAGAGAAAACGATGTATTCATAAAATGATAGGAATACTGTTTTGAAGAACCTATTTTGATGCTATT
Celera SNP ID:            hCV2845541
SNP Position Genomic:     981080
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,1)      total(G,1|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50496):
TCCTTTTGAAGCACCACTATTAGATCATTCGGTCACAGAAAGCATGGTTTGATTGGAATTAGAACTCACTGCCTCCTCTGGTGAGTTTGATGCTTGACAA
Y
GATGTGCCATTTTGTCACATCAAAGAGGTTCACCTGGTGACATCTGCCATCTCTGCTCATGTTTGCTTTAACATCACACTTCTCCCTGGAAAGCACACTG
Celera SNP ID:            hCV1178894
SNP Position Genomic:     862993
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50497):
CCGTCAAATTAAAGACTAGCCTTCATCTTTCCAAACATATATTTTGTGCTTTGCTCAAAGCCAGGAATGACCTGGCTCATGAAGGGGTTCATTAGCAAGA
W
GCTTGAAGGAAAGGAAAAATTTGCTAGTTGATCGAGAAAATATAAATGATGAGGCTAAACTCATATTTGAGATGTTCTAGATTTTCCTGGTGAGATTTCA
Celera SNP ID:            hCV29034885
SNP Position Genomic:     689661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50498):
CGGAGTTGTTAAGGGAAGAAAAAAACAGAACTTCTTAAAGGTTGACACGGTGCCACTCATTAATTCTAGAAAAGTTTGCAGGGGCTGTTACATGTCAGAC
R
CAATGCTAGCCTTCCCAGATGCATTGATGAACAAGTTGCAATTCTTGCTGTGGTGAGCTAATGGTAAAAATAAACAGAGCACTGCCACACACAGACATAA
Celera SNP ID:            hCV7624896
SNP Position Genomic:     115450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50499):
AATTGGTTCATTTTCTAAAATTATTTATAAAATTTGTTGAACTACGAGAGTTATGCCAATGTATCCTTCCCTTGTGCTACCGTAAGAATTTGTACATACC
Y
CTGCTAAGCTTTGATTTATTTTATTGCACTCATATGTGAATATGACTGTCCTCAACGCTAAACTTTGACCTCTTTGGAGAAAGAGACTTGTTTTTTGATC
Celera SNP ID:            hCV2845542
SNP Position Genomic:     980559
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50500):
CATAATTTTGTCACTGTCTTTTGGAGCATCCCCATCCTCATGGCCAGCTGAAAACCCCCCGTCACTCTCAGATCTGCGCTCTCCTTTCTCAAGGGGTTGG
Y
CGTGCTTGAAGTCACAGGAAAGCAAAACTTCAAAGCTGGCTTTCAAGGTCAAGAAACCAGGCGGCACTTGCTTTAATGAGAGAGCTGCAGTCAGGAGGAA
Celera SNP ID:            hCV1178895
SNP Position Genomic:     863363
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:50501):
GTTTTCACATCACTGACAAAGATATTGGGCTGGGAAGAGGCACGCTTGGAGTGAGACCCTTCAGGAAGCCTCTGTTTTTAACTTTAGCTGTGACACTGGG
M
TCTCAGTCATGGAAGTTCACTGACATCTACTCATCCTGCATTAGTAATATGGGCATGGTGCATTTTCTGTATTTATTAGCTATGTTTAACAGAATCTTTA
Celera SNP ID:            hCV29034886
SNP Position Genomic:     570276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50502):
CCATCTTCATCTTACAAATGAGAAAACTGAGGCTTAGTGAGGTTCTATAGATGCTCAAGGTCACAGACCCAACAGGTGACTGAGCTGGGGTTTAAATCTC
M
AGGGGGTCTTTTAGTAAGGCTTATGCTTTTAAGCACCAAACTCTACCAGGATATAAATGGCAAAAGGAACTGCTTAAGATATGAAGAGAAAAGAAACACA
Celera SNP ID:            hCV7624897
SNP Position Genomic:     112712
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50503):
TTGAACCTGGGAGGTGCAGGTTGCAGTAAGCTGAGATCACTCACCACTGTACTCCAGCCTGGGCAATAGAGCGAGACTCCATCTCAAAAAAAACAAAAAT
R
CTCTTCTCTCTTGTTGTCCTTTGTAAACTTCTGAAAATTAGACAATACTTGATTCTTTTACTTCCCTAACAAGTACCTGCTTACCAACCTGCTATAGTTT
Celera SNP ID:            hCV2852760
SNP Position Genomic:     795372
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50504):
ACAATAATTGGATATTACTTCAGTACTAAAAATATTTTTAAGGTCAGCCTTAAGTTTGCCAGAAAATTTAGACTTTTGAAACCTCATCGCAAACTTTGCA
R
TTTATCTACATAACAGTCTAATTGATTCTCTACTAGGTTAATCAGTCTATTTCTCATTATAGGTGCAAAGTTTTATTTACTTCAGGAGATAGAAATTGGT
Celera SNP ID:            hCV2845543
SNP Position Genomic:     980365
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50505):
CAATGCGTGTCTGTCATATAATTACCCTTTCTCTGCTGTCTGGAAACACAAGACAAGCCCGGATAGGAAGCTGCATGAGCTGGTGAAAACAAAGTGGTGG
W
CATGGAGTCCAGTGTGTGGGACTGCATAAGAGGAGAGGCACAGGCATCACCCACAGGCAATTGGAGCAGGTGCACTGAGGCCCACCTGCTGCATGTCAGC
Celera SNP ID:            hCV1178896
SNP Position Genomic:     863820
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50506):
AACCAATGGAATAAGTCCTCTCCAACCACCTTCAATTCATGTGCCCTTTGTTTCTTGGTTCCTGTTGCCAGGAGAGAGCTTCTGATTGGCTTAGGTTGTA
W
CATAAGGCCACCCTTCTTGGGCAGGTTTGGAGGAAACAACACTGTGACTGACACCCCTGCCAGGTCTACAGGGAAACACAGAGAGGTAATGGCCAAAGAT
Celera SNP ID:            hCV29034887
SNP Position Genomic:     693904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50507):
AAATATTCTCATTCCTACATCCAATAGCTGTTTTTCTTATTTGGTTGGAATTTTCCATATGAATCAACATGCTCAACCATTTTCTTGAGGATCTTTTTGT
S
GTAGCAGTTGTTGTTTAAAAAACAACTTTATTAATACATAATTCATATACTGTATAATTCACCCATTTAAAATGTGCAATTTAATCTTTTAAAGTATATT
Celera SNP ID:            hCV2852761
SNP Position Genomic:     795602
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50508):
TCGAGGCTGCAGTGAGCTGTGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGACTCACACACACACACACACAAAAAGTAGAAACTT
R
GAAGCAACCCAAATGTTCATCCAGTAGGGATTGACTAAATAAATTATAGTGGATCTGTACATTGGACTATTAGACAGCTGTTAAAATGAACAGCTCTGTA
Celera SNP ID:            hCV2845544
SNP Position Genomic:     979921
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50509):
GAAACCATGATCCAGCCTCCAGGGGAAGGTACTGGCAAGAGCCAAGCATTGCACTCAGCAGATAGGTTGGGGTTCAAAGTAAAGCCTGGTCTTAGAGGCC
R
ACTAGAGGACCACGTGGAGACATGGTGTAGACTACAGAATGTGTGTGTGCACGTGTGTGTGTGTTGTTGTGATATCCACAGTAGAAACCCAGATCTGCAC
Celera SNP ID:            hCV1178897
SNP Position Genomic:     864611
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50510):
CAGTCCAGCAACAGAGGGCTGGATAAGATTTCACCTTCCTATGATCCACTGTCAGCAGGCTAGATGACATAAGCACACAGCCTAGTGGCAGTGGGCTGGG
K
AGGAAAACTGCAAACATCATGCAATTTATATAACATTTTCCCTTAACACACTCCCCCTAATGACCTCCACCTGGCAACCTTCATCAACCCAAAACTCAGG
Celera SNP ID:            hCV15983849
SNP Position Genomic:     848405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50511):
AGTGTGTTAAAAAAAAATACGGTATTTTTTTCATCTACACTCTGTAAAGACAAGCCCACAACTTCATATGGGGCTCAGCTGAAGGTCAGCCATCTCTTCC
R
ACACAAGAAAAGAAAATGGCGGTGTTGGACTTAATGAGACATGATTCTGTACTATACTTAATAGGCGATTTTACTGATTTCATGGGTACATCATGCTGTA
Celera SNP ID:            hCV29034888
SNP Position Genomic:     696002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50512):
GAGGATCTTTTTGTCGTAGCAGTTGTTGTTTAAAAAACAACTTTATTAATACATAATTCATATACTGTATAATTCACCCATTTAAAATGTGCAATTTAAT
Y
TTTTAAAGTATATTCACAGGGTGATGCAACCACCACCACAGTCTGATTTTATATTTTTAGAGGAAACAAATATATATGTTTATATTTAAATTTTATTTTA
Celera SNP ID:            hCV2852762
SNP Position Genomic:     795688
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50513):
TGTGTGTTGTTGTGATATCCACAGTAGAAACCCAGATCTGCACACTAAGACCATGGGCAGGGTGGGAGAAGGGACCCGGTGAGAGAGAGGGCTGTCCTGC
R
ACCCTTTGTCCCACATTCTTTGGACAACTTAATCCTAGTCTCCTGTATCTGAGGCCTTTGCCTGCACTGCCATAATTGGCTCAGAACCCAGGACAGAGTT
Celera SNP ID:            hCV1178898
SNP Position Genomic:     864769
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50514):
GCAAGTCAAAAAAGGAGGAAATCGGGCTGCTTGTGAAATTCTCTTGTCATTAGTTCCGGTTGCTTATTAGAGTGTGTAGACCAAGCGCAAGGAATGAGAA
W
AAGCACACATCACCGTCAGCCAACAATCAGCCACAAAGTGGAGCCCATTAGATCTCTGGCTTAGGCTACGAGAGTTGGAAGTTACCGAACAGATTTTAGG
Celera SNP ID:            hCV29034889
SNP Position Genomic:     702122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50515):
ACCTTAATAGATTTTAAGTGTACAGTAGTATTGACTCTAGGTACAGCATTGTATGGCAGATCGCTAGAACCCCTTCATCTTGTTTAATTGAAACTTTATG
S
CTGTTGATTAGTATCTCTCAAGTTTTCCCTCCCCCTAGACCCTGACAGACACCAATTCAGTCTTTGGTTTGGGTTATATGACTATTTTGAGTACTTCATG
Celera SNP ID:            hCV2852763
SNP Position Genomic:     795913
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50516):
GTTGTGATATCCACAGTAGAAACCCAGATCTGCACACTAAGACCATGGGCAGGGTGGGAGAAGGGACCCGGTGAGAGAGAGGGCTGTCCTGCGACCCTTT
R
TCCCACATTCTTTGGACAACTTAATCCTAGTCTCCTGTATCTGAGGCCTTTGCCTGCACTGCCATAATTGGCTCAGAACCCAGGACAGAGTTGGATAATG
Celera SNP ID:            hCV1178899
SNP Position Genomic:     864777
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50517):
TCTTGTTTAATTGAAACTTTATGCCTGTTGATTAGTATCTCTCAAGTTTTCCCTCCCCCTAGACCCTGACAGACACCAATTCAGTCTTTGGTTTGGGTTA
Y
ATGACTATTTTGAGTACTTCATGTAAGTGGAACCATGCAGTATTAGTCTTTCTGAGACTGGTTTATTTCACGTCACATAATGTCTTCAAGATTCATCCAT
Celera SNP ID:            hCV2852764
SNP Position Genomic:     795990
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,11)   total(C,2|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50518):
TGTTTGTACCTCTTGTGTATTGTGAATAGTGCTGCAGTGAACGTGGTAGCTCTCCAGTAATATCTTCAAACTATCTCTTGAAGATCCTGATTTCAATATT
K
TTGGACAAATACCCAGAAGTGGGTTGCTGGGTCATATGGTAGAAAAGTTGGTTTTTTGAAAAGATAAGCAAAATTGACAAACCCTTAGCTAGACTAAGGG
Celera SNP ID:            hCV2852765
SNP Position Genomic:     796294
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,7)      total(G,6|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50519):
TTTTATAAAGCTAGTATTACCCTGACACCAAAGCCAGACAAACACCACAAGAAAAGAAAACAAAAGACCAATATCCCTGATAAATGTAGAAGCAAAAGTC
Y
TTAACAAAATACTAGCAAACTGAATCCAGCAGCACATTAAGAGGATCACAGGTCATGATCAAGTGTGCATGGGAGTCAGGAATTGTTCAACACACAGAAA
Celera SNP ID:            hCV2852767
SNP Position Genomic:     796874
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50520):
GGAAAAGAGAGGTTAATTAGCCCAAGGACACACAGTTTCCCCAAGATCAAAGAGTCAGTGGTGGGGCCATAATTTAAACCAGGGCAGTCTGACTTCAGAT
S
CACACTTTTGACCTGGGCTTCCCTGCTCAATTACAAATACCAAATTGACTCCTTATCTTCTCCCCAGAACAGCCTCCCTTTCCGGTTTTCTCCCCTTTCC
Celera SNP ID:            hCV2852768
SNP Position Genomic:     798580
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,8)      total(G,3|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50521):
AGCCCCTTTCTTTTTCACCTGTGAATTAGCAAATGCTGCACCCAGAATCTTTCCTCCACCTCTACCCCATTCTCTTCTTGCTGCCCTGACTAGTTGAACT
R
TCCTCTTTATCTTAACCTGTCGTGACACCACCTCCCTGGTCACCGTGCTCTTGCCTTCTTGCCTTCTTGCCTTTCCAATTTATCCTGCTCACTGACACCT
Celera SNP ID:            hCV2852769
SNP Position Genomic:     798797
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50522):
GAGAGTGCAGACCACTTTCACATGCAGCTTCTCATTTCATTCTCATAACCTAGAGGACGGGCACATTATCCTCCTTTACAGATGAGAAAATTTCCTTCAA
Y
CCCTCTGTGTCCTGTCTCGAGGGGAGCAGTATTGGGCCTCTTCTCTGAGGCTGATGTAACTGCTGATTCCTCTCACACCTCCTGTGGGCATCTCCTCTGC
Celera SNP ID:            hCV28016865
SNP Position Genomic:     497613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50523):
GGAAGCAAGGCTGGATGAGGCTGCAGCAGGCCTCGGATGACCTAGGCTAAAGATGCTGCGGATCACTGTCCGGAGACTGCTGTCGGGGGAATCCCACAAG
W
CACACATGGTCTGGTGTTGGTGGCGGCCCCAGAACCTCACTCTCCTCTGCACACCTCTGCGTGCCTACGTCTGTTCCTGTGACTGAGGGGATTGTGTTCA
Celera SNP ID:            hCV28016866
SNP Position Genomic:     497023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50524):
TAGATAGAAGGCAAGTGTCATATGCCACTGCATCCCCAACTCTGAGGACAAAGCCTGGTGGCAGGTGGACCTTCATTCAGGGTGAATTGAGCTGAATTCG
R
TACATGGCTCTGTACTCAGAAGGCCTTTATTTATTTCTTGTGTTCCTCTTATCTTGTCACACTCCAAAATAGAAATGTATACCTCTGCTAGTTGAATGAC
Celera SNP ID:            hCV28016867
SNP Position Genomic:     171696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50525):
CAAGTTGTGTTTGGGAAGATTAGAAAAGGGAGTGCACAGGAGGATGAAGCTGAAGTCTCTGAGGAGGTAATCTTGTTCAAATAATAGCTTTTCTTGTAAC
Y
ATATTTTGTCAAATTGGTTATTTCTGATGATGTATCCCCAATTTTCTGAAATGTTTTAAAACTTACATTGTAGCTTTCTCTCATTTCCTTATTCCTATGT
Celera SNP ID:            hCV28016868
SNP Position Genomic:     134507
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50526):
AATCGGATTCAGGAACAACACTGGGTTACATTTGGATTCTATGTATTTTTAGATGTTTAATTTCTATTTGCCTATTTCATGAAAGATTGGTAATCACACA
Y
AAATCTGCATGAGTAAGAAGAGACCCATGAAAATAAATAGTCCTACAGATGTAAGATTTGAGATAAAACATATCTTAAGTGAATAGATTGTCTTTGTTCT
Celera SNP ID:            hCV433425
SNP Position Genomic:     945329
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50527):
AATTGTCTAGGATTCCTGAGAACTGCCATCAAACATTCATTTTGCTTTTCCTATTGCTAAGCATTATCAGACAGAGACACAGCTTCTACACAAAGGAAGA
Y
GGTAGGGCATTGTCTGTTCAGGGCTGCTAGATCAATATTATAGTTTTATTTATCTATTAATTTATTTGGATTTCTAAGCAGCTCTACCTTTTGTTACGAT
Celera SNP ID:            hCV28016869
SNP Position Genomic:     133627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50528):
ATGTATGCAAAAATATTTTTTGGTGCGGAGGCCACCAAACCTGCTGGACTCACGTTCCTGCTTTTGGCAAGCAAAGCAAAAGAACCTTCTGGGTTCCCTT
Y
CTGCCTTTCCTACTGAGATCAAGCTGAAGGTGGAATTTTTCTATATATCCAGTTCAGCCTTTGTGACCTCTGCCTTTAACACAAACACCTTGTTTAAAAA
Celera SNP ID:            hCV10076154
SNP Position Genomic:     54754
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50529):
AATGAGATATTCTGAACTCATGTTGTACCTTCCTGCCCAACCCTGGATTGAGTGACTTCCTCAAGGAACCTTGGTTTCTTTTCATGGAGGGTGGTCTTTA
R
AAATCAGTGTCTGGGTATTTGGTGAGGTTGTGGCTGCTGGAGTGTCACTGCTGCTAGGTCCTTTCAGCAGACAGAGCAATGATACAGACACACACATATA
Celera SNP ID:            hCV15870093
SNP Position Genomic:     765215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50530):
TCACGTTTGCCTCATTACAATTCCTTTGGTTAAAGATGCTTTTCTAAGTACTTCAGAAAATGTATGCAAAAATATTTTTTGGTGCGGAGGCCACCAAACC
Y
GCTGGACTCACGTTCCTGCTTTTGGCAAGCAAAGCAAAAGAACCTTCTGGGTTCCCTTCCTGCCTTTCCTACTGAGATCAAGCTGAAGGTGGAATTTTTC
Celera SNP ID:            hCV10076155
SNP Position Genomic:     54695
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,11)   total(C,3|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50531):
TCAGCAGGCTAGATGACATAAGCACACAGCCTAGTGGCAGTGGGCTGGGGAGGAAAACTGCAAACATCATGCAATTTATATAACATTTTCCCTTAACACA
S
TCCCCCTAATGACCTCCACCTGGCAACCTTCATCAACCCAAAACTCAGGGCCTCAATGTGTACAGCTCATGTCCCATGGAATGAAACGGAGTGGGGGGCT
Celera SNP ID:            hCV15983850
SNP Position Genomic:     848456
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50532):
GCTACAGACACATTATGTCGATGAGATTAGAGCCTTTGGTGTTGCCGGCTGGTGTCTCTCTGGAGCAGCACTTGCTACCCTCCAAGGAAGTGGAAATGAT
K
TGCGAGGCAGAGCGTGTGCACCCTGCAGTGAGACCATTGCTTCAGTGGTTATGGAGCAGCCAGAGAACATAAATGAACTGCTAGCTTTAGGGGATATTAC
Celera SNP ID:            hCV29034890
SNP Position Genomic:     703634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50533):
CTCTGAACAGCCTTCATCCGCAATCTAAATGGGATCTCGTTATTATATTCTTCCATGTTTCATAAGTTCTTAAGTGATTCTTCTTTAATCCCACTAAATC
R
TGACTCCAGATGAGTTTAAGAAATCTTAAGACTATTTTTTAATTATTACAAACCAAAAGTCTCACACTGAACTTGAGCTACAATAGGGGCACCTTATCTA
Celera SNP ID:            hCV29034891
SNP Position Genomic:     706524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50534):
ACTATTTTTTAATTATTACAAACCAAAAGTCTCACACTGAACTTGAGCTACAATAGGGGCACCTTATCTATCTGTTGAATGAATAAATAACAATGAGAGA
R
GGGGAGGGAGGAAGAGAAATTAGTTTAAGAGGCCTCAGGTTGCCACGTTGGGTTTGAAATCTAGATGAAGATTGACATTTCACCCCAAATCTTTAACTAC
Celera SNP ID:            hCV29034892
SNP Position Genomic:     706655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50535):
TACATGAATGAGCATAGCTTTATTTTAATACTTTATTCACAAAATCAAGCAGCAGCCTCGATGTGGCCTGTTAACCATAACTCGACGACCTCTATTCTAG
R
GTATTTTGATACTTGATACCTTCACGCTCTCTGTTTTCTCTCCCCAGAATCCCATATTTCCTTCCACCTTTGTTCTCCTAGAAGATTCTTCTCAGGGAAC
Celera SNP ID:            hCV29034893
SNP Position Genomic:     707013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50536):
CACCTTCTCAGGGCAGGCTGAACAAAGCCTGTCTGAAGGTTGTCAGATAACTATGTTCTCCAAAGTATGGGGAGTTTATTAAAAACTCAGATGCCTAAAC
Y
ATACTCCGAACCTACTGAATAAGGATCTCTTTCTGTGGGGCCCAGGGAATCTGCATTTTAACAGATTCCTAGGTACAATTCAGTTTGGGAATCCTACAAA
Celera SNP ID:            hCV11440745
SNP Position Genomic:     658716
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50537):
TGGAGATCCAGGTTTCTTCCTTTTGAGGAAATAGAAAGTGTGAGAGGTTACATGGGAGGTTTAAGAACCACACCAAGTACATAACTTCTGCTCACGTTCC
W
CTGACCGCAATCAGCCACACAAGTCCATTTGACTGCAAGGACGCCTGAGCTGTACAGTCTAGCCCTATGCCCCTGGAACCCAAGGAAATAGGATCCAGTG
Celera SNP ID:            hCV2845550
SNP Position Genomic:     978373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50538):
AATACTTTATTCACAAAATCAAGCAGCAGCCTCGATGTGGCCTGTTAACCATAACTCGACGACCTCTATTCTAGGGTATTTTGATACTTGATACCTTCAC
R
CTCTCTGTTTTCTCTCCCCAGAATCCCATATTTCCTTCCACCTTTGTTCTCCTAGAAGATTCTTCTCAGGGAACAAATACCTTATTTAGAAAATTTTCCT
Celera SNP ID:            hCV29034894
SNP Position Genomic:     707039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50539):
GTGAACCTGGCCTGTGTCTGTGGAGATTCACTCGAGGCTTTTTCTTGCAGACATACCATCTTGCTTTTGTTTCTAGAATATATATTAGCTGGTAGCTAGT
Y
GACACCCAGGAGGAGACAGCAAATGCAATAGAAATGCATGACTGCAGAACTCAAACCAGGAGAGCAGCTTGACTCTCTTAGATATGTCTTACAAATCAGA
Celera SNP ID:            hCV2845551
SNP Position Genomic:     977680
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50540):
CACTTCAGTGAGCTAGAATTTGTATTAAGTTCTACTTGCTTTATTTTCCTTCATTTACATATGCTTATTAGTAATACACGTGTGAGAACAAAATCATATA
Y
TATCAGTCACTGCCACACAATGAATAATCCCATGTAAAATATTTTTGCACACTTTTGAGAGTGACAATAACTTCACTGAGCTTGGTTTCTTCCTTTGAAA
Celera SNP ID:            hCV29034895
SNP Position Genomic:     708573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50541):
GTTTGATAAAAGGAATTTGTCATTAACATTTAGAATTTCACCTTTAGAAATTCCCAATTTCTGGGTAGTGTTGCGTCTTCAGAGCAGACAGAGATGCCAC
M
GTTCAGCTGCCTGGGTTCAAATCTAAGGCCGATCCTTTACCAACTAAGTAACTTTGGCAAGTTGGGAAAAACAAAACAAAAAAACTCACTGTGGTTTTAT
Celera SNP ID:            hCV11672379
SNP Position Genomic:     247891
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50542):
TCAAGATGAGATGTTTGCTTTTCAAATCAGTGTGATCAGTGAACCTGGCCTGTGTCTGTGGAGATTCACTCGAGGCTTTTTCTTGCAGACATACCATCTT
K
CTTTTGTTTCTAGAATATATATTAGCTGGTAGCTAGTCGACACCCAGGAGGAGACAGCAAATGCAATAGAAATGCATGACTGCAGAACTCAAACCAGGAG
Celera SNP ID:            hCV2845552
SNP Position Genomic:     977642
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50543):
GAGAAGCTTCAGAGTGAAATAAAAATTAGCTTAGCTATCTTGAAGAACACCAAGAAGGAATATGTGGCTGAACTAGAATGATTTTGGGGAGAGTGAAATG
W
TCAAAGTTACATCCAAGGTTCACATCAGGACCTTGCAGGCCACAGTGAGAACTTAGAAGACAATTGACATAGGATGATTGGAAAGCAGAATACTGAAAGG
Celera SNP ID:            hCV29034896
SNP Position Genomic:     709750
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50544):
CAGCAGACATGTATCTCCTGTTATATAAGCAATCAGAATTCTCTTTTCCAATTGAACAAATCCCTCTCTGCTTTGATGGGGAAACTGGGATGTCAGTTTC
S
CTAAAATGAAAATTCTATTTCACAGCAAAATGGTTCCAGTCAACTGGAGAGAGAGAGAAAGAGAAATCATAACTGTTTTCCCCTCCCCAGCCTAGCATCC
Celera SNP ID:            hCV2852770
SNP Position Genomic:     799204
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50545):
TTCTACTAAATAATAGCAGTAGCATCTCTCCAGCATTTACATATGCCAAGCTCTGTATTCAGCACTTTACCTCTTTTAATTCTCACGTATCCTATAAGGA
K
TATTCTCCCCCACTTTACAGATGAGGAAATGGAGGCAGTGAGAACATAAGCAACTTGGCTGGGATCACTCAGCTACTAAGTCATGGAGCCAGGGTGATAA
Celera SNP ID:            hCV2845553
SNP Position Genomic:     976983
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,5)      total(G,4|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50546):
ATCGTGTGGAAACCTGTGTGGTGAATAGAGTGGGAGGACAAGAGCAGAAAGAGCAACTCAGAAACAATTTACTAAGCTGGGTAAGAGATGGTGGCTTGGC
Y
GAGAAGGTAACCAGCAGATGATGAGAGATGGTCAGGTTCAGGTTGTAGTTTGAAGATACAGCTGATGGAAGCAGCTGATGGAGTGGATGTGTATAAGGAG
Celera SNP ID:            hCV29034897
SNP Position Genomic:     709970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50547):
AGAGAAATCATAACTGTTTTCCCCTCCCCAGCCTAGCATCCTCCCCACCCCCTTAACATGGAAAACTCCTATACATCCTTTAAAGCCCAGGGAAAATGTG
Y
CTTTTCTGTTGAAGCCCTTTGTCAACTCTTCCAGACACTTTCTCCTTTTTAATCATGCAGTAGAACATGGCAGTTAGGAAAATGGGCTCTTTGGAAAATA
Celera SNP ID:            hCV2852771
SNP Position Genomic:     799364
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50548):
ACACAGTAAGTGCTCAATCAATGTCTGATGAATTAAATAAGCTCCATATAGCTTTCCTGAGCACCCCACATTCTGACCCCCTTCATGTAAACCTTAATTG
K
TATTAATACCATTCTGATAACACTTATCTCATCTGACCTTACGTACTTGCCTTTTGTTCATCTCTCTGGACCAGAAATGCACCAAAAGCAGAGTCTGTAT
Celera SNP ID:            hCV2845554
SNP Position Genomic:     974955
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,8)      total(G,8|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50549):
AGAAACAATTTACTAAGCTGGGTAAGAGATGGTGGCTTGGCCGAGAAGGTAACCAGCAGATGATGAGAGATGGTCAGGTTCAGGTTGTAGTTTGAAGATA
Y
AGCTGATGGAAGCAGCTGATGGAGTGGATGTGTATAAGGAGCATTGGGCACCCTGTTAGCAGGCTTTAGGCTTCTTTGACTCAGGCATTGTACCAACATT
Celera SNP ID:            hCV29034898
SNP Position Genomic:     710029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50550):
TCATCAGGGTGTTGGTCTCTCCCACGGGACTTGATTCCTGTTACTTCTTCGCACCATCCCGCACAATGCCTAGCACACAGTAAGTGCTCAATCAATGTCT
S
ATGAATTAAATAAGCTCCATATAGCTTTCCTGAGCACCCCACATTCTGACCCCCTTCATGTAAACCTTAATTGGTATTAATACCATTCTGATAACACTTA
Celera SNP ID:            hCV2845555
SNP Position Genomic:     974881
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50551):
CTTCCTCAGATTGCACTGGTCCTGGGAATGGGGTGGCGTGGGGTCCATGACCTCAGCCCAAATCACTCCTCATACGAAGGTTGGAACAGGGGACTTGGTC
M
CATGAGCCCTATGCTTCCTCTTAATTCTGAATGAGTTTCAGATTCCTGCAGGCAGCATCAGCAACATGCAAAAGACGCTTCTTAGATGCTTGAGACTGTA
Celera SNP ID:            hCV29034899
SNP Position Genomic:     712146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50552):
CCCCATCTCTAATCCTATGGTAGGGTATGCCCTTCTGCAGGAATCACTGCTTAATCTCTTCCGGCCTCCACCTCTCCACCTATAATGTCTAAGTCAACTG
K
CCCCTCCTTTGTAATTCCACAGAACTCTGTGCTTACCCCATCTCATTGTGCTGAGCTCATCAGGGTGTTGGTCTCTCCCACGGGACTTGATTCCTGTTAC
Celera SNP ID:            hCV2845556
SNP Position Genomic:     974724
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50553):
GAATCAGCCTTCCCTTCTTATTCAATGACTACTTTTAATAGAGTTTAGGGATTAAAGGTCTCCCACCTTCTTCCATAGAATTTGACTTTCAGTCCAAGAC
M
CCATCTCTAATCCTATGGTAGGGTATGCCCTTCTGCAGGAATCACTGCTTAATCTCTTCCGGCCTCCACCTCTCCACCTATAATGTCTAAGTCAACTGGC
Celera SNP ID:            hCV2845557
SNP Position Genomic:     974625
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50554):
AAGCCGTGGCTTCCTTGAAGGTCGAGAGCGTACTTTTTCTTGTCCCTTTGGTGTCCTGAACAGAACCAGAATCAGCCTTCCCTTCTTATTCAATGACTAC
W
TTTAATAGAGTTTAGGGATTAAAGGTCTCCCACCTTCTTCCATAGAATTTGACTTTCAGTCCAAGACCCCATCTCTAATCCTATGGTAGGGTATGCCCTT
Celera SNP ID:            hCV2845558
SNP Position Genomic:     974557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50555):
TTCCAGAATTGGTGAGATTCTGAACCAAACAAAAAACAAGATCACCTCTTTTGACACAGGGTCTGCATTGTGGTGATGTGTGGAATATGTTCATCTGTAC
R
AAAATATTTGGGGTTTGAGTGTAAAATCGAGTTGGGTTCTAGACTCAGATAAACAAGATTTTTTTTCTCCCCCACCCAAAGACTGTTTATCAGGGTCATT
Celera SNP ID:            hCV16082584
SNP Position Genomic:     773226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50556):
ATATCTTTTATCTTCACCCAAGCCGTGGCTTCCTTGAAGGTCGAGAGCGTACTTTTTCTTGTCCCTTTGGTGTCCTGAACAGAACCAGAATCAGCCTTCC
Y
TTCTTATTCAATGACTACTTTTAATAGAGTTTAGGGATTAAAGGTCTCCCACCTTCTTCCATAGAATTTGACTTTCAGTCCAAGACCCCATCTCTAATCC
Celera SNP ID:            hCV2845559
SNP Position Genomic:     974538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50557):
GTAGAGCTGAGGTGTAATGACCCAGCTGATCTGTTTGTACTTTCTCATGCTGCTAATGGGTACCTGGAGTTGAGAATTTATGCATAGGTGTGTACATGCC
R
TCACAGCTCTGTGTGCATGAGTGCCTGTGGGGTCTGCGTAGCATGCACACATCACAGAAACCCTCTGCCCTCCCTTCTCATTCCTCTATTTGAAGCCAAG
Celera SNP ID:            hCV27526791
SNP Position Genomic:     891717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50558):
GAGCTGAGGTGTAATGACCCAGCTGATCTGTTTGTACTTTCTCATGCTGCTAATGGGTACCTGGAGTTGAGAATTTATGCATAGGTGTGTACATGCCATC
R
CAGCTCTGTGTGCATGAGTGCCTGTGGGGTCTGCGTAGCATGCACACATCACAGAAACCCTCTGCCCTCCCTTCTCATTCCTCTATTTGAAGCCAAGTTT
Celera SNP ID:            hCV27526792
SNP Position Genomic:     891720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50559):
AAAATTTTGTATAGCATGTGATGCTGTTTGATAGCATTTTACCCACAGTAGAACTTCTTTCAAAATTGGAGTCTACCCTCTCAAGCCCTGCTACTGCTTT
R
TCAACTGGTTTAGGTACTGTTTTAAATCTTTTGTTGTCATTTCAACAATGTTCACAGTATCTTCCCAAGGAATAGAATCCATCTCAAGAAACCACTTTCT
Celera SNP ID:            hCV28016870
SNP Position Genomic:     107896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50560):
GATTGTCTCTCTTAGACATGCTGGTAATACAGCTCCTTGTAAAGCTGATTCTTCCCTTGGATTTGCTCATCTCATATCAGAGACTTTAAGGTACCCTCTG
R
CATACACCCTCTACAAAATAGGCATGTTGCATTTTTTGGCATACTAGACCATCAGAAGGGGAACTGCTATATCACAGCCTCTGGAATCCTGGCTAACTAC
Celera SNP ID:            hCV28016873
SNP Position Genomic:     294845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50561):
CAAAACGAAGGGTCTACAGGCCCCACGCAAGTCCAAAATCCAGCAGGGCAGATAAATCTTAAAGCTCTGAAATGATCTTCTTTGACTCTGTGTCTCACAT
M
CAGGTCACCCTGATGCAAGAGGTGGGTTCTCACAGTCTTGGGCAGTTCCACCCCCATGGCTTTGTGGGGTACAGCCCCACTCCCAGCTGCTTTCACAGGC
Celera SNP ID:            hCV338005
SNP Position Genomic:     244107
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50562):
TGTGGACCCGGTGACAAATGTGGCAAACAGGCTGATGTAGATTCCTTGAATGTACCATTAGCTACTGCCATGTCACATTACACTTGTTTATGCAAGAACC
R
TGCAGCAGATAAGAGTGTTTAAATGCCTTTATTACATGGCATCATGGTATTGGTAGTAGTTGGTAATGATTTTTTTTTCCTCAGTGCAAAGCACACTCTT
Celera SNP ID:            hCV11673323
SNP Position Genomic:     815150
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50563):
GATATACCCAGGAAGCAAATACCTGGTTGGAATAACAAAGTCCAAAGCGAAGCAAGAGGGTGATTGTTAAATGAGTAATTAGAATAAACACTGAAAAATG
R
TATCTGCCTGGGCCTCTATTTTTCTCGCTTTTGTAGTCGTTTTTCATAGGTTGGACTTCTTGCCCTTCAGAGATAATGAACCACAATATGCATCTATCTG
Celera SNP ID:            hCV10075506
SNP Position Genomic:     123316
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50564):
TAGTTTCACCCAGTAGTCCTGTCTCTACTTAATGGTAGATTCCACATTCCAGATTTTTAAAAAAGTTTATTCTGCTTTCTTGTCTACTTTAATCTACACA
S
CAGTTCTTTTTTTTTTATACTTTAAGTTTTAGGGTACATGTGCACATTGTGCAGGTTAGTTACATATGTATGCATGTGCCACACTGGTGTGCTGCACCCA
Celera SNP ID:            hCV11673325
SNP Position Genomic:     812180
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50565):
AATTAAGCCTATGGAACAAAAGTGTTCTTTCTCCTCCAGACTTTCAAAGGATGTACTCTAGGGCTCGAAGAAGGGGAACAGAGCTGATTATGTTGGTCCT
S
TTGTTTGTGTTTTTCTTCCCATTTAAGAACGTACATTTGAAGGTGCAGTCTTGAAATTCTTGATATGGATGGCAGACACTTGTAATGAGAGAGGAATTAG
Celera SNP ID:            hCV10076163
SNP Position Genomic:     53098
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,11)   total(G,11|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50566):
CACACACACACACACACACACACACACATACACACACACACACAAAATATATATATTTGGAGACAGAGCCTCACTGTGTTGCCCAGGCTGGAGTGCAGTG
R
CATGATCATGACTCACTGCCACCTCTACCTCCTGGGCTCAAATCTTCCTTCTGCCTCAGCCTCCTGAGCAGCTGGGACCGCAGGATTGCGTGCCACCATG
Celera SNP ID:            hCV10076164
SNP Position Genomic:     51913
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50567):
CCCTAACCACCTCCAAGTTTAACAGAAAGATAACTTCCTTTCCCTAAGCGTTCTGAAAGAACTAAAGGACAATGTCCTGGAATTGAATTTCACTCCCAGG
R
TGGACTCACTTAGGTTATGTCCTCATCGCATGATGATAGGAATGGAAAGCCCTGATTGGCCAGGCCTGAACCATATGACCATCCCTAGATCAGGAGTGGG
Celera SNP ID:            hCV15860627
SNP Position Genomic:     981612
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50568):
TGTCTTGTCACACTTGCTGTTTAACAGCCTTACCATGCCATTCTTGAGAGAAATAAAGTGAGGTTTCATTAATGTGAGAGATCAATAGTAGTTCAGTTAT
R
AGTTATCACTGCAGAGGGAGAGCAGCAGGTTCAGCTCCTCAAGTTGGAAATAAAAAAGATGAATGGGAGGAGGAAATGAAGTTAGTGATCTACCGCCTGG
Celera SNP ID:            hCV11440754
SNP Position Genomic:     620561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50569):
TCTAAATATAGCGCCTGTCTTGTCACACTTGCTGTTTAACAGCCTTACCATGCCATTCTTGAGAGAAATAAAGTGAGGTTTCATTAATGTGAGAGATCAA
Y
AGTAGTTCAGTTATGAGTTATCACTGCAGAGGGAGAGCAGCAGGTTCAGCTCCTCAAGTTGGAAATAAAAAAGATGAATGGGAGGAGGAAATGAAGTTAG
Celera SNP ID:            hCV11440755
SNP Position Genomic:     620546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50570):
GGGTACAGCATAAGCCAAGCTGCAGAGATGCGGAGGAGTGAAAAAGCCTAAGAAGGTATGAATTACAAATAGCTCAGCTTTACAGAATATAACACTGAGT
R
AGGAGAACAAACAGATGAGGCCATGAAGAGTTTGTCTTTCATGCTTGAAAAACTCAGACATTATCCTGTAGCCACTGAAGGGTTTTAAGGAGAGTCCTTG
Celera SNP ID:            hCV2845560
SNP Position Genomic:     972740
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50571):
TCTACTTCCTACTCTAAATATAGCGCCTGTCTTGTCACACTTGCTGTTTAACAGCCTTACCATGCCATTCTTGAGAGAAATAAAGTGAGGTTTCATTAAT
R
TGAGAGATCAATAGTAGTTCAGTTATGAGTTATCACTGCAGAGGGAGAGCAGCAGGTTCAGCTCCTCAAGTTGGAAATAAAAAAGATGAATGGGAGGAGG
Celera SNP ID:            hCV11440756
SNP Position Genomic:     620534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50572):
GCAGGGAAGGCAGGAGTGACTCTGGGAAGACAAACCTTCATGATGGAGGCAACCTTCAAGCAAGTGATTGTTTGATTATCACTTGCTTGAAGTGATTATC
Y
TCCAAAGGATAAGTGATTGTTTCCTGGGGCTTAGGAGGTGGGGGCGGGAAATGTGCAGGGAGGGCAGAGGGTACAGCATAAGCCAAGCTGCAGAGATGCG
Celera SNP ID:            hCV2845561
SNP Position Genomic:     972571
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50573):
AAAATATTCACAGATTCCAGGAATTAGAACATGGCCATCTTTGATAGATGTTTTTCTGTGTGCCATAGAAGATACGAGAGCTTCTAGATCCAAAAGCCTG
R
TGGCATTTAGAGCTCACTTCCACTGTGCTCGATACATGAACCTGACATTGAGCATCTCACAGCATAATCACAGGACGGACGTGTGAAGGGAAAATTGCTA
Celera SNP ID:            hCV2845562
SNP Position Genomic:     972309
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50574):
TCATTTTTGTTGTTTGAGTTCCTTGTAAATTCTGGATAATAGTCCTTTGTTGAATACATACTTTACAAATATTTTTCCCATTCTCTAGGTTATCTGCTTA
S
TCTGTTGATTGCTTATTTTGCTGTGCAGAAGCTTTTAAGTTTAATTAAATTTGAATTGTCCATTTTTTTTTTTTTTTGGTCATGTTTGCTTTTGAGGACT
Celera SNP ID:            hCV8093091
SNP Position Genomic:     503312
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50575):
CCTCCCTTTCCCAGTATTTATTGAGGGATGAAGAGTCTTTCTGTCAACTTTCAGTGAGAAGAAGTAAATAAAACAGCTTTGATGGATACCCCCATGAACC
K
GAGTGAAAGGGATACTCCTTTAAATCATAGTTATTTCGTTTGCTAAGCATGGTGGCCCTGAGAATATGCCTCCCAGAGCCTCCACCACAGGGAACACGAC
Celera SNP ID:            hCV29090791
SNP Position Genomic:     361941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50576):
TCATTCTTGTTGAGCTTGATGGCATTTTAGGCTTGACTTTCTCTAGAAGTCTTCACTAGATTCCTAGAAGAGGGAGGCACAGAAGCTCACAAGCTCTAGG
Y
ACAAAAGCCTTGAAGCTTTCGAGAAGACAGATAAGCCAGGAAGTGATTCTAGCTCTGCTGTATATCTGTGTAACCATAGTTATTCACCCAACCTCTGAGC
Celera SNP ID:            hCV29090792
SNP Position Genomic:     305674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50577):
CACTCCACACAAATACAAGTAAACGCATCACAATCCTATAACTAATTCTGTTCCTTGTCCTGATGAGCTTCCTTCTACAAATGGCCCTAATATTCCCTCC
M
TTTCCCAGTATTTATTGAGGGATGAAGAGTCTTTCTGTCAACTTTCAGTGAGAAGAAGTAAATAAAACAGCTTTGATGGATACCCCCATGAACCTGAGTG
Celera SNP ID:            hCV29090795
SNP Position Genomic:     361846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50578):
ACATGATATTGGCTGGGTATTAAAGGAAACAAACATGTCAGACAGCCAGAAATGGCCCACAGCCCATGAATTTAAAACCTCTACCTAAGAGCAGCCCATT
S
CTAGCTCTCGCACCCTCTCTGCCCTTGACCTCAATAATATACCATATCTTGATTCACTGGCTCCAGGTCTCCTACCACCGAGGACTTGCCTTACTTTTTT
Celera SNP ID:            hCV29090796
SNP Position Genomic:     304792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50579):
CTGGCACTGCTGACAAGCCCAGCTCCATGGCCGGCCCACACTTTGAGGAGCTCCACTTCTAATCATACCTATTCCTACACATGACCATCTTGTGCTCATG
S
ATTTTCCACTTGCCAATGTCTCAGAAACCTTCTTCATGTCCTTCATCAACACGTGGTATGGCAGACCGTTGCTATGGCCAACACTGAGTTTCAGGGCTTC
Celera SNP ID:            hCV12106580
SNP Position Genomic:     519879
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50580):
TCCCTGAGTCCCACCACTGGGGATAACCGCTGTAGACATCCGAGGGTTTTGCCTCTCTATTTTTAAAGTGCGTATACATTCATAAAGACACAGCATCAGG
S
TGTACCACCAGAGGTTTAGATCCCATAGGTCTGGGGTGACACCTAACAGTTAACATTCCAACAAGCCTCCTGGCACTGCTGACAAGCCCAGCTCCATGGC
Celera SNP ID:            hCV12106581
SNP Position Genomic:     519709
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,2)      total(G,2|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50581):
GTTCTTTGGGCTTCTTTTCTATTCATGACCCTTTGGATTATAAAAGAAGAGAAACACCATGGGGCAGATATGTCCAAGAATAAAGAAAAGAGAAAGTTGC
R
CACCTGAGAAGTGCCCCCTGCTGGCCAGCATCATTTCTCTGTGTCTCACTACAGAAGGAGGTCTTTGTTTATGAATTCTGCCCTCCCCCTCTTGCCCTGA
Celera SNP ID:            hCV10076171
SNP Position Genomic:     50918
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50582):
CGGTGGCACTCTCTCAGCTCACTGCAGCCTCAGACTTCCCGGGCTTAGGCGATCCTCCCACCTCAGCCTTTTAGGTAGTGGGGCCTACAGGCGCAGACCA
Y
GGCACCTGGCTAATTTTTGCATTTTTTTGTAGTGACAGGGTCTCACCGTATTGCCCAGGATAGTCTCAAACGATCCACTCACCCACTTCAGCCTCCCAAA
Celera SNP ID:            hCV10075515
SNP Position Genomic:     122405
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50583):
ACTCCAGCCTGGGCAACAAGAGCAAAACTCCATCTATAAATAAATAAATATCCCTGAGTCCCACCACTGGGGATAACCGCTGTAGACATCCGAGGGTTTT
R
CCTCTCTATTTTTAAAGTGCGTATACATTCATAAAGACACAGCATCAGGGTGTACCACCAGAGGTTTAGATCCCATAGGTCTGGGGTGACACCTAACAGT
Celera SNP ID:            hCV12106582
SNP Position Genomic:     519659
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50584):
AAAACAAATTTACTAACGTAGTCTTCAGATACATAGGTTTGTTTTTCTCACTAATCCTTTGTGGTCACTGAAAGAGCATAGGCCACCCCAGTCTTTTGCC
S
AGATAGTGATGAAAATGCTGATCTTCGTGAATCCAACTGAAATTTTAACTTCGTGCCCAAGCTGTTCTAGAACTCAATTTATCAGATCCAGATTTGGTAT
Celera SNP ID:            hCV10076172
SNP Position Genomic:     50686
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50585):
ACACCTTTTATTTCTCAGTACAATTTTTATTTTGGAAATGATTTTTAAAAATGTAGAACAATACTTTTGTCTTTATCTTCTGGGCAAAACCAGTTTTGAA
M
AACAGTGAACATTTTAATAATTGTAGACCAGTGCTAATATGTTTTTTGTTTTTGAGACAGGGTCTCGCTCTGCTGCCCAGGCTGGAGCGCGGTGGCACTC
Celera SNP ID:            hCV10075516
SNP Position Genomic:     122215
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50586):
AATTTTTAACCAAATATTTCAAAATCAGTTGTTTAAGAAAACGATTACACCTATACCTTCAATATCAAAGCAGATCAATTTTTAAAACAAATTTACTAAC
S
TAGTCTTCAGATACATAGGTTTGTTTTTCTCACTAATCCTTTGTGGTCACTGAAAGAGCATAGGCCACCCCAGTCTTTTGCCCAGATAGTGATGAAAATG
Celera SNP ID:            hCV10076173
SNP Position Genomic:     50603
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50587):
TATGAAATTCTGTTTTCTCTAATGTAATTGTACCTGAGTGAAAGTAACTGCAATGAGGACTATAAAGGAAGATAAAGTAGGAATATGATGTATAATTTCC
Y
TTTGCATAATTGTAACTCTGAAGAACGCATGCTCCCAGCAGAAAAGTAATTTAAATTATATCACAACAAATGCCATATTTTAAAATAGAAACTATCCATC
Celera SNP ID:            hCV10075517
SNP Position Genomic:     121731
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:50588):
TACCCCAGAATCTAACTCCTTTCCAGTCTGAAGAGCTCCTCAAATCTCTCCTAAAGTTACTTGCTTTACACACAGCCACCTCTATTCATTTTTTTTTTTT
W
AATTTCCAGTAGCCAGTGTAACCTGGGGGCCAGGGAAGACCTGAACCTCTAGGACTCAAACCCTGTCATGATTCTTGAGGAGAGAGGAAGGTGGAAATAC
Celera SNP ID:            hCV11672391
SNP Position Genomic:     256854
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50589):
CAGAAGTTGTGGTGAGCCAAGATCATACCATTACACTCCAGCCTGGGCAACAAGAGCAAAACTCCATCTATAAATAAATAAATATCCCTGAGTCCCACCA
Y
TGGGGATAACCGCTGTAGACATCCGAGGGTTTTGCCTCTCTATTTTTAAAGTGCGTATACATTCATAAAGACACAGCATCAGGGTGTACCACCAGAGGTT
Celera SNP ID:            hCV12106587
SNP Position Genomic:     519625
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50590):
ACCTGAGGTCGGGAGTTTGAGACCACCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGTTAGGCATGGTGGTGCATGCCTGTAA
K
CCCAGCTACTCTGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAAGTTGTGGTGAGCCAAGATCATACCATTACACTCCAGCCTGGGCAAC
Celera SNP ID:            hCV12106588
SNP Position Genomic:     519475
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50591):
ACCAAGTGTATACAAGTGTGACAATTTCTTCATGTCTTTTCAATACTTACTCTTTCTGTTTACTTGATAGTGGACATTTTAATGGCTTTGTGCAGTGACA
M
CTCATTATGGTTTTGATTTGCATTTCTTTTAGGATTAGTGATGTTCAGCATTTTTTCATATGCTCATTAGCCATTTGTATAACTTCTTTGGAGAATTGTC
Celera SNP ID:            hCV10071231
SNP Position Genomic:     622887
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50592):
ATTTGAATTAGCACACAAGAACATTAAAATAAACATGATTAGTATGTTCAAGGAGACAGAATAAAAGATAGATTCAAGCAGAGAGAATTACACAAGAGAT
Y
TGAAATCTTTAAGAAGGAATCAGATAGATATTCCAGAACTGAAATACATATTATCATATTAAAAACTCAGTAAGTAGACTTAACAGCAGAACACAGGATT
Celera SNP ID:            hCV16145952
SNP Position Genomic:     1137383
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50593):
CCATTATCACTTTCTGTACTAGGTTGACTAGGGTCCTCCCCAAATTCATGTCTACCCAGAACCTCAGAATGTGTCTTTTCAGATGTAATTAGCTAAGATG
W
GGTTATGCTGGATTAGGGTAGGCCCTACGTCCAGTATGCCTTGGAGTATCCTCATAAGAAGAGGAGGGCCGGGTTCGGTGGCTCATGCCTGTAATCCCAG
Celera SNP ID:            hCV27907604
SNP Position Genomic:     897036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50594):
CTAATTACCACACAGTCTATCTGATTAACGGTATTGTGATTCAGATCAAGCGGTGAGATGACTACAGGTAACAGACCCTTGCTATCATTTGGGTGTTCTC
W
CAAGGAACAGGAGCCAGGTAGTGAACCATGTGCCTACCCTTTGGGCAGGGAATGGGTGGCTCTAAGAGATGACAGATGCTGTCATCCGGAATCAGTTCTC
Celera SNP ID:            hCV12109132
SNP Position Genomic:     537442
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50595):
AAATCAACAAACAAAAATTAGTTATGTTTCTATACACTAACACTAACTGATCTAAAAAGGAAATCAAGAAAACAATCCCTTTACAATAGTACCAAAAAGA
M
TAAAATACACAGTCATAAACTTAACTAAGACAGTGAAAGACATGTATTCTGAAAACTACAAAACATTGACGAAGGGAATTTTAAAAGACACAAACAGATA
Celera SNP ID:            hCV11673340
SNP Position Genomic:     797526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50596):
CTGATGTTCAAGGGAGTAATTCCTTAAGCAAAATCACATTTATACACATGTCTTTTCAAATTTTTAACCAAATATTTCAAAATCAGTTGTTTAAGAAAAC
S
ATTACACCTATACCTTCAATATCAAAGCAGATCAATTTTTAAAACAAATTTACTAACGTAGTCTTCAGATACATAGGTTTGTTTTTCTCACTAATCCTTT
Celera SNP ID:            hCV10076180
SNP Position Genomic:     50545
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50597):
AAGGGAACCCAGAAGGGTTTTTTATTTTTTGGTGTGGTCTTCCTTTGTTTGGGATGTAAGACACTGATTTTCCTGCTATATTATAGTATGTACACTGTTA
S
GAGGTGGCAGTGCAGTACCTTGGTCATGTAAGCCAATCAACAAGACTTGTTCTTTTCCTGATGTTCAAGGGAGTAATTCCTTAAGCAAAATCACATTTAT
Celera SNP ID:            hCV10076181
SNP Position Genomic:     50387
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50598):
GTCCAATTACTAGTCCAAGTTTTGAAGAGGATTGAAGTAGAACTGGATGGAGATGGGAAAGAGACCAATAAAGTGTTTTTTGTTTTTTAGGTTTTTTTTT
T
AAGAGGGGAGGAATGAATGAAGAACTTCTTTTATTTTCTTTTCCGGCTTGGAGCTAGCTCTGGTTCCCAAATAGGGTCCTGGGGGAAAGACGTGATGTGA
Celera SNP ID:            hCV12106592
SNP Position Genomic:     517474
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50599):
GGTAAATCCTCATGCCAGCCTTTCGTGGGTATTAGATGGCGAGGGGAAAGTCATCAAGCCAGAGACTGACTACTTTGAAAATTGAATACAAGTCTGTCCA
R
TGCTACAGCTAACATTCTTTAAGTACTAAAATAAATTGCTTGTAAATAAAGTAAATGAAAAAAGAACACAACTGTGTAAGTCACAAATGAAGAAGGCAAC
Celera SNP ID:            hCV10076182
SNP Position Genomic:     50184
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50600):
GGGTGCACCAAAATCTCACATATCACCACTAAAGAACTTATTCATGTAACCAAACACCACCTGTACCCCAACAACCTATAGAAATTAAAAAAAAAAAAAA
A
GAAATAGACTTTGTCTGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGATCGAGACCATCC
Celera SNP ID:            hCV12106595
SNP Position Genomic:     515781
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50601):
GAATTTTCAAATTGGACTAGAATGTTCACTACCTAATGAATGTCTGGATCTAAGCCAAACATGGCTAACCCTACTGTCCTGCTTAGTTTTTACAACAGCC
Y
TATAAAGTAGGCAATCCTACACTCATTTCTCAGATGAGAAAGTGGAAATTAAGAGAGATTAAGTAACTTGCCCAGGGTAACCCTCTTAAAGAACGGCAAT
Celera SNP ID:            hCV12106597
SNP Position Genomic:     514763
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50602):
CTGCAGCTTTGGGAAATTCCCAGAACAGTAAACAGTGTAAATTCTCAAAAGGGGGTTTATTTCATGTTACTTCCTTTTTTAAAGAAATGTAACTGTGTTG
Y
ATTACCATTAGACGTAATTGGGTGAGAAATTACTTATAAACCTGTCATCATAACATAGCTATTGTTTTCTTTGTCCAATATATTGACATTTTATTCCACT
Celera SNP ID:            hCV11673349
SNP Position Genomic:     794297
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50603):
TTATATTTAATTATTTGTGAACATTCAAGGACCAGGCATTTCAGCTTGAATTAGCATCCAGACTCAGGGTTGTTGAAGAATTTTCAAATTGGACTAGAAT
S
TTCACTACCTAATGAATGTCTGGATCTAAGCCAAACATGGCTAACCCTACTGTCCTGCTTAGTTTTTACAACAGCCCTATAAAGTAGGCAATCCTACACT
Celera SNP ID:            hCV12106598
SNP Position Genomic:     514686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50604):
TTCCCCCAACCCTCTGATCTTAGCAACCATCTTCTCACTTTCTGGTTCTGTGATCTTGACTGCTTTAGATACTTTGAATGTGTGGATTCATACAGTATTT
K
TCCTTCTATGACTGGCTTATTTCACTTTGCATAATGCACTTGAGGTTCATCTATGTAGTCTCATATGACAGGATTTTCTTCTTTTTCAAGAATGCATCAT
Celera SNP ID:            hCV10071243
SNP Position Genomic:     622429
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50605):
GGAGGTGATAAAAAGTGGTTGGATTTGCAGTATGTCTTGAAAGAGGCATCAGAATTTGCTACTGGATTAGGTGCAGTATGTGATGAAAGAGAGGAGGGTT
K
AGGGTAGTGGGAAGATTTTTTAAATATTTCAACTTTTTTAAATTGTAAAAAAAAAAAAAACATGACTTTAAATTTACTGTCTTAATCCTTTTTTTTTTTT
Celera SNP ID:            hCV10071245
SNP Position Genomic:     621972
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,14)   total(G,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50606):
TCTCTTTCTCCTTATTTAAATCCTATGCATTCTCTAGTGCATTTGGGGGAAAATGTCATCTCTTTCTGTAGGCATTAACTCTCTATGCCCTAAAATTTCA
Y
ATAACCTTGGTGGTTCCTTTTATCTCACACATTTCGCTTATTTCTTTGACTAATGTTATTCATGAACATGTCTTACCATTTATTCTGCTGCACCTACAAC
Celera SNP ID:            hCV10075535
SNP Position Genomic:     117808
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50607):
TTATTTACTTTTATCCCTTTGAGTCTATTCTCCACAAAGCAGCTATGATCTGTTTTATTGCAACTGGACTCCTCAGCTCAAAACCCTTCCAGGGCTCACT
S
CTCATGCGGAGTAAAAGCCAGGGCCCTCTCCATGGCCTACGTGCCTCTCCAGGGTCTGACTTCCCTTCACCAGGTCCAGACTGTCTCCTTCACCTCACAG
Celera SNP ID:            hCV27520149
SNP Position Genomic:     496027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50608):
TTTTAGCACATCACCTTTCTGCCCTAAAACGTTTAGTGGCTCACAAGCTAGTTTCCAAATTCCTTAGCTTAGTAGTTAGCCCTCCGCTACCTTTTCTTAA
K
GCACTTTTACACTTTTCTCCATGCTGTAACTAAACAGCACTACCTACTAAAATAGAAAGATACCTTTCAGGTTCCTGACCTCATGCCAGTATCTACCATT
Celera SNP ID:            hCV10075542
SNP Position Genomic:     117590
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50609):
GCACGGAGGACTTTAATTTGTGTTCCTGTCAAACTCTAGGAATGTGAAAATGTGGAAAGCCCATCCCAAACAAAAATAAGCCTCTTGCCGGAGTCCTCAC
S
TGAAATCTCTCTCATTCTCACCCATTCACCTTTCAAATCTGTGCTTTTAGCACATCACCTTTCTGCCCTAAAACGTTTAGTGGCTCACAAGCTAGTTTCC
Celera SNP ID:            hCV10075543
SNP Position Genomic:     117445
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50610):
CCTTTGCCCTTCCATGTTATTTCCATTTCACCCACCGTTGTGTGATACCACAGCGTCTGTTTTACCTCCCACTGAACAAAAGAAATATAATCCTTGAAAC
R
TGCTCCTTAGTGTGGAAGAGAGGGGTGGTCTGATGACTTGTTTCAAAATGATCTCAATATCAACCACTGCCCCAACGGTCTTGCATTTCATACTTAAGCA
Celera SNP ID:            hCV10075544
SNP Position Genomic:     116494
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50611):
ATATTTTCATCCCTATTTTAAGCAGAATTATTCATAGTTATCTACTTAGCAGATGTTCAAGGATGATATTCTCTTTGTATCCATCTTTCCTTATCCAGAG
R
CGTAAAGGAAAAGCATGAAGATAAGGGACACGGCATCGTTAAGTATCCCGGGTTTGTTAACAGTAGAAGAGAGTGTGGACTTGCTTTTCACTTTCATTGT
Celera SNP ID:            hCV27995200
SNP Position Genomic:     184063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50612):
AGGTTCCTGTGCCTCTCCTGGAGAAGCAGGTGATAAGGTCTCTGTGTTAAAGGAGGAAACCAAGGTTCTAGGCAGCCTCGTGGGTAATACAGCCAGTAAA
Y
TGCAAAGCTGGGTGAACTCAATTGACAGGACTCTAGCCAGAAACTGGTTCTTTGCCATTAGTCTCTACTGACCCCTATGGATGTATGGAGGGAGTATGGG
Celera SNP ID:            hCV27995201
SNP Position Genomic:     175200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50613):
GTTTCTTCTATGAAGCTGCTCAGAAACTCAGGCTGATGGGTGACCCTGCCATTTTCAACATCTGGTCTTCAAAGTGACCTTAGACGTTGACATCCCTGTC
R
GCCAGAATGCAGAAGTATCACGGCGCAGCATGTGGGAGAGGTTCTTATGGACTGTGCCTGGAAGTGGCAGACATTGTCCCCATCACTTGGTCAAATGACC
Celera SNP ID:            hCV27995202
SNP Position Genomic:     163299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50614):
CATTTCCTAAATGAATTAGTCCAGAGCCCTGTTTTGAACAGATGCCTGTACAGTTCTTGATTGGTTGAGGCAAGTCTAAACTGACATAAGCCCTAACTCT
R
AAACATGTGACTTTTTACTTTGAAAATGTCCAATTCTCAGTTGTGAGCTATTCATGTGCAAGTAACAAACACCTACTCAAACAAGCTTAAGAAAAGCAGG
Celera SNP ID:            hCV27995203
SNP Position Genomic:     131564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50615):
CCTTTCATGTACACAATTTAAAATACAGACCCAACACTCAGCATTCTTTTCCTTGGTCAGCATAAAGCGTGTGAATATGGAAAACATGTCAAGTGTTGCT
Y
GTCCCCCACTGTTAATGTTTTCTCACATTCCTGTCCAGAGATAGTTCTCTGCATCTTTTACATTAAAAATCTTGCCATAAGTGTATTTTTAATACAAATA
Celera SNP ID:            hCV27995204
SNP Position Genomic:     122743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50616):
GGTTACTCTGTCAGTGATCATTATATTACTCCCCATCCCTGCATGCATGTTAGAAAGGCACACACAAGCTGGAATAATATGAATGACATTTAATAGACTA
Y
TTACAAAAATGTTGGAAGATCTGGGGAAAACTAACGAAGGAACTTTCCGTACTTGAGGCCTATCAATAGCAGGAAGTTATTACTACCTCTAGGCCTGAAA
Celera SNP ID:            hCV27995205
SNP Position Genomic:     59735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50617):
ATCCCAGACCTTACCCCAGATCTACTGAATCAGAGTCTGTATTTTTAACAAGATCCCCTACATTGGAGGAAAGTTGTAGAAAGACTGCCCTGGAGGATTT
S
TAACATTTCTGTGGGCTCTCATATTCCTTTTAAATATACATTAGAATGAAATGCAGATATTTTAAGATGATGTGGCCTTTCAGAGAGTAGTTGCATTTAC
Celera SNP ID:            hCV27976623
SNP Position Genomic:     451366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50618):
TCTCCTGAGTATTTTATTGCCACCACGACTCATGATTTCAATTCTCAGGACTGAGTATCTCTGCTGAACCCAAATTTAAATTCTTAATATGAGAAGCTGC
R
CTTTCCAGTCGTGTGTCAATGCAAAGTGAGTGGATTTGGGTTTAACTCCCTTGGACTGAGTGCAATTATATGTTGGGAGGGGACTAACAAGGTAGCCCAT
Celera SNP ID:            hCV27976624
SNP Position Genomic:     475106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50619):
CAGAGGTAAATTTCCAGCTAGTATATAGGATAGAACAAGATAATGTAATAAAATGTACATTTTCTAGGCTCTCTGATATGCTTCTACCCTCCTATCTCTT
R
TTATTACCATAAATCAAATACTAGTCAATTCTAAATGTAAATATAGGGATGATAACCTCTTTTTACAATTCCTCTCTTATCTGCAACTCCCAGAGAGATT
Celera SNP ID:            hCV27976625
SNP Position Genomic:     423451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50620):
AAAACTTTATTTACAAAAGCAGATGGTGGGCCAGATTTGTCCCATTAGCTGTGGTTTGCTGACCTCTGATTTAAAGAGTGGGAAGTAGATTTCTGGAAAG
S
GAGAAAGGAAGACTATTTCTAGCAGAGAGAAGAAAACATATAAAGGCAAAGAGTGGGAAACCAGAGGGAATAAGACAAATTTGATTTACCAAAAAGTCCT
Celera SNP ID:            hCV100539
SNP Position Genomic:     892352
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50621):
GCCTAGTGGCAGTGGGCTGGGGAGGAAAACTGCAAACATCATGCAATTTATATAACATTTTCCCTTAACACACTCCCCCTAATGACCTCCACCTGGCAAC
Y
TTCATCAACCCAAAACTCAGGGCCTCAATGTGTACAGCTCATGTCCCATGGAATGAAACGGAGTGGGGGGCTCAGATGTTTATCATAGACAAGGAACAAA
Celera SNP ID:            hCV11950308
SNP Position Genomic:     848484
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50622):
CCAAAGCTATGGCAACAGGAGCAATTTAGATTTTGCCCTTTCTAGAATTTCTGTTTTTATCAAGACTTCATTATTTATATTAAATAAATTATTTCTTATC
Y
GATATTTGGATATCATAGCCTTCCTGGATTATATACCTGAGTAGAGTGGATGCAGGCATGAATTTGTCTAACTGAGGGTTGGATGGCAAGGAATGTAGTA
Celera SNP ID:            hCV27976626
SNP Position Genomic:     402487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50623):
TAACACACTCCCCCTAATGACCTCCACCTGGCAACCTTCATCAACCCAAAACTCAGGGCCTCAATGTGTACAGCTCATGTCCCATGGAATGAAACGGAGT
S
GGGGGCTCAGATGTTTATCATAGACAAGGAACAAATCTCCTGGTCGACCTCTCCTGGATTCCCTAGTTTGGAACACACATTCAGGTGCATCTGCCATCCT
Celera SNP ID:            hCV11950309
SNP Position Genomic:     848549
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50624):
TTTGGGAAGGGTCATACGAGATAATACATTTTCAGTGTTTAGCACCACTGGGACAGAATAAGCCTGTAACAAATCACAAGTGTTAATAGTTTGTCTAGGC
Y
ACCTCTACTGCATGCTTATGGGAACATGGTCAACATTGTTAACTTTTGTGCCTCAGTTTCCCAATCTGTAAAGGGAGGATAATAGAGCCACTCATCATCA
Celera SNP ID:            hCV12106906
SNP Position Genomic:     572590
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50625):
TGTTTCTTCCTCCCCTCTGAATATTCCTTTTCTGCCTCTCTGCATTCCTTTTCCTCTTCCCAACACCTAAGTGATTCTTAAAAATATTCTCTGACTTTCT
R
TGCCTTCTCGATCAGTGTTAGTTTCAAGTTATCTTGTCATAGTTTCATTTAGGAGATAATGCCTGAATCTTTATCTTAAGCCTTGAACCCTCTAGAACAA
Celera SNP ID:            hCV10075551
SNP Position Genomic:     116065
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50626):
TTCTCTCAGCAGGAGGAAATATAGCTGCTTAGTTAAAAATAAAAAAGGATTCTGAAGGCACACAGTTCAAAGTTAGAACAGGCAGCCAATGCGTTTGATG
Y
CCTTGAGCCACATGCCCTCAGCCCACCTGGATCTCGGCTGCAGCTGCATTGGGCACTCCCACCTTCTTCCAGCAGCTTCTCCCCGCTTTTCCAGGACCAA
Celera SNP ID:            hCV11673370
SNP Position Genomic:     787313
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50627):
AAGCTATTTGCTGGGTAGACTCTTTAGCAAGTTTCATTTTTAACTTGGGTGCCAAGCCAGCCAATGGAATCTAATGGGCTTTGCTTACAATGTGCATGGC
Y
TGGCTATTTACATGAGATTGACAGCACGAGAAAAACCAGACGCTATACTCACTAGGCTGATTTAGAGGTTTCTCTGCTCATTTGAATTCAGCCAAGCTAG
Celera SNP ID:            hCV10075552
SNP Position Genomic:     114917
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50628):
CTCCCAAATTAGGTTTACAAGCACCTTGGAGGCAGAGGCTGTGGTTGGTATCACGTTGCATTCCTCCCGGCTCTTCTCTCAGCAGGAGGAAATATAGCTG
C
TTAGTTAAAAATAAAAAAGGATTCTGAAGGCACACAGTTCAAAGTTAGAACAGGCAGCCAATGCGTTTGATGTCCTTGAGCCACATGCCCTCAGCCCACC
Celera SNP ID:            hCV11673371
SNP Position Genomic:     787240
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,9)   total(C,2|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50629):
ACAGCAGCGTTCTGCCAAAGAAAAGCTATTTGCTGGGTAGACTCTTTAGCAAGTTTCATTTTTAACTTGGGTGCCAAGCCAGCCAATGGAATCTAATGGG
Y
TTTGCTTACAATGTGCATGGCCTGGCTATTTACATGAGATTGACAGCACGAGAAAAACCAGACGCTATACTCACTAGGCTGATTTAGAGGTTTCTCTGCT
Celera SNP ID:            hCV10075553
SNP Position Genomic:     114895
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50630):
TACTAATAGTGCCATGTTATCTAATTTTTCACAGGCATATTCCTTTCTCCCAAATTAGGTTTACAAGCACCTTGGAGGCAGAGGCTGTGGTTGGTATCAC
K
TTGCATTCCTCCCGGCTCTTCTCTCAGCAGGAGGAAATATAGCTGCTTAGTTAAAAATAAAAAAGGATTCTGAAGGCACACAGTTCAAAGTTAGAACAGG
Celera SNP ID:            hCV11673372
SNP Position Genomic:     787194
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,9)   total(G,9|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50631):
GATAATCTGTTACAGCCGTAGGAAGGTAATATTTTAGCGAATATTTTTATTTGCATAAGTACCACACTCTGTATGTGCACTGAGTTGTTCTTTACTAATA
K
TGCCATGTTATCTAATTTTTCACAGGCATATTCCTTTCTCCCAAATTAGGTTTACAAGCACCTTGGAGGCAGAGGCTGTGGTTGGTATCACGTTGCATTC
Celera SNP ID:            hCV11673377
SNP Position Genomic:     787102
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,7)   total(G,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50632):
GTTGGAGGAAGAGGCCATGTGCCAAGAGATGCCAGCAGCACCTAGAAGCAGGAAAAGGTAAGGGAACCTCATGTCACTAGAAGGAATGTAGCCCTTTGGA
Y
TCATTTTAGACTCCCGACCTCCAGAACTGTCAGAGAATACATTTGTGTTGTTTTAAGCCACCAAATCTGTGATAATCTGTTACAGCCGTAGGAAGGTAAT
Celera SNP ID:            hCV11673378
SNP Position Genomic:     786931
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50633):
GTGGTCAGAGAGGAAAGGTGATGTTGTCCTGCTGGCTTTGAAGTTGGAGGAAGAGGCCATGTGCCAAGAGATGCCAGCAGCACCTAGAAGCAGGAAAAGG
Y
AAGGGAACCTCATGTCACTAGAAGGAATGTAGCCCTTTGGATTCATTTTAGACTCCCGACCTCCAGAACTGTCAGAGAATACATTTGTGTTGTTTTAAGC
Celera SNP ID:            hCV11673379
SNP Position Genomic:     786889
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,7)   total(C,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50634):
GGGCATAGCCTACCTGTGTTTTTTGTTGTTGTTGTTGTTGTTTTTGGTTTTTTGTTTGTTTGTCAGTTGTGAGACCTCTCTAAACCTCGATTTCTTCATC
Y
GCCACAGTGAGAATAATCACAATCCCAATCTCATTGGCTTATTGAAAAAATTCAAATAAGATGTGCCAAGTACTAGCGTGATACTTATCTATAAGCACTC
Celera SNP ID:            hCV11950316
SNP Position Genomic:     874992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50635):
TGGGTTCAATGAAATCAAGAGGTCACTACGGGCCTCTTATCCCAATTCACAGCCTTGTCGGCAGCCTCTTGCTCACAGCACAGAAGGGAGACCCCCCCCC
S
CCACCGCCCCGCCTCCAATCCTCTACCATTACTAAATCATCATTTTGCTCTGGAGAGTAACTGAGCAAAGTGGAATTATTACTGATGGCCTCCCATGTGG
Celera SNP ID:            hCV26763200
SNP Position Genomic:     405547
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50636):
GATGCCTGATTCTGCCACTTGACTGCGTGTCCCAGAAGACCAGAGATGGACTGATCTCCCATGCGCTCCAACCTGGCTAGAGGACCCCGGGCAGTTTCTC
Y
TTCATCAGCCCCTCCAACCATAATAACCATAATAGATTTTCATGCGCTTTAACCCTGGGGAATCCTGAATTGGAATAGGACTCGGGAAGTTTTTCAAAGC
Celera SNP ID:            hCV11674322
SNP Position Genomic:     1051443
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50637):
TATCAAAAATATACAAAGACCCAATTATGCAACTGTTAGCTATTTGATTTAGAAAGTATTGAGTGCCGGTGATGTGCCAGGTCCTGAAACTGCAGTTGTT
M
TCAGTGTGACCTCACTTGGTACCTCTGATGATCCCAAAGGGGTTTGTGAGATGCCCAAGGGGGCCATGTTGGGGCAACTGTCCTTTCTCCACTTGCCCAT
Celera SNP ID:            hCV26763201
SNP Position Genomic:     404594
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,10)      total(A,1|C,10) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50638):
ACCCATGACTTTATTTTAACTTGATTACCTCTGTAAAGACCCTATCTCCAAATAAAGTCACTGAGAGTTAGAACTCCCACATCTTTTTTTTTTTTTTTTT
T
GGTGGTGGTTGGCGGGGACAGTGAAACCCACAGCAGTGAGAGAGTTGTATGCACATGGACACAAAAGAGCATCTGATCATAAAGAGAAGGAAACCAAACC
Celera SNP ID:            hCV26380010
SNP Position Genomic:     329855
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50639):
CTTGGGAGAGAGTGGGGGCAGGTATTGCTATTCTTTTTAATGCTCCTTCAGCATTTCTTAGATGGCCAGCCTTGAGAAAGAACCATGGCCTAAAGCACCT
R
CTCCTGAGTTGGTAAGTGGTATCAAAAATATACAAAGACCCAATTATGCAACTGTTAGCTATTTGATTTAGAAAGTATTGAGTGCCGGTGATGTGCCAGG
Celera SNP ID:            hCV26763202
SNP Position Genomic:     404474
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50640):
GATGTCGAGGATTAAAGAATATAGGTGGTATATTAGTCCATTCTCATGCTACTAATAAAGACATACCTGGGACAGGGTAATTTATAAAGAAAAGAGGTGT
R
ATTGACTCACAGTTCAGCATGGCTGGGGAGGCCTCAGGAAACTTACAATCTTGGCAGAAGGGAAAGCAAACACATCCTTCTTCACATGGCAGCAGCAAGG
Celera SNP ID:            hCV26763203
SNP Position Genomic:     403786
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50641):
TGTACCCCTCAAGGTGCCAACAGACCCTATGACTGCTCTAGTGTTCTCTCTACCAGAACAAAGCCAAGCTGTACTCCACTCAAAAATGGGGCCACCCTGC
Y
GCTCAGCATAACAGTTTGCTATTAGGAAACAAAATAACAGTGCTTGAAAATACCTAAGTTGTCTGTGGTTTGTGAATCTTTGAGTTGTGTATGTAGCTTT
Celera SNP ID:            hCV26763204
SNP Position Genomic:     398971
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50642):
CTTCCCAAGTTGAACAGCAGCGTTCTGCCAAAGAAAAGCTATTTGCTGGGTAGACTCTTTAGCAAGTTTCATTTTTAACTTGGGTGCCAAGCCAGCCAAT
R
GAATCTAATGGGCTTTGCTTACAATGTGCATGGCCTGGCTATTTACATGAGATTGACAGCACGAGAAAAACCAGACGCTATACTCACTAGGCTGATTTAG
Celera SNP ID:            hCV10075560
SNP Position Genomic:     114882
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50643):
ATGAACACATACATTTGCCTAGGCCTACACAAGGTCAGAATCATGAATATCACTGTATTCTGCCTCCACATTTTGTCTCACTGAAAGGTCTTTAGGGGTT
R
TAACACGCATGGAGCCATCTCCTATGATATCAATGCCTTCTTCTGGATACCTCCTGAAGGACCTGCCTGAGGCTGTTTTACAGTTAACATTTTCTTTTTT
Celera SNP ID:            hCV26763205
SNP Position Genomic:     397835
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50644):
CCTTGTCACATGGCTGGGTCTGTCCCTGCAGTGACTGTGCTATTCATAGCAAGAATGTTGTGTTGCTAAACTTGGCATGAAACAATACAGTTATTTATGC
R
ACTTCATGGCCTAGAGTATCGCCTTGGATTTGAGATTCTGCTAAAGCTACATGAGTGGGCAAATCAAGAAATTGTATTCCATAATTTGTTTCCAATCTGA
Celera SNP ID:            hCV10075561
SNP Position Genomic:     114482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50645):
TTTTTTACTAACAGCTTTATTGAGATATAACTCACATGCCATAAAATTCACACTTTTAAAATGTACAATTCATTGGTTTTCATTATATTCACAGAGTTGT
M
GAATTATCATTACTGTCTAATTTTAGAACATTTTCATCGTCCCAAAAAGAAACCCGAACCCATGAGCAGTTACTCCCCATTGCCCATTCCCCCACGCTGG
Celera SNP ID:            hCV8097715
SNP Position Genomic:     992466
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,2)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50646):
CAGCTTGCAGCATATATGTGTGTGTGTGTGTGTGTGTATGTATATATATATATATATATATATATATATATATATATATATATATATATAAAGAAAAAGC
M
CGAGCAATAAATCTCAGGAACCTTAGACTTGCCGTGGGTATGTGCAAAAAGAACATTTCCAAACACATGGGGCTGTCTATAATCACAGTAATGTACTTGA
Celera SNP ID:            hCV26763206
SNP Position Genomic:     394168
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1)   total(A,1|C,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50647):
CACTATTTAATCACAAACGTTCCAATCACAAATGCTTCAGTGACAGGAATAGAAGCTGTCACACCAGACAGGGCAGATAAGTCCTTGTCACATGGCTGGG
W
CTGTCCCTGCAGTGACTGTGCTATTCATAGCAAGAATGTTGTGTTGCTAAACTTGGCATGAAACAATACAGTTATTTATGCGACTTCATGGCCTAGAGTA
Celera SNP ID:            hCV10075562
SNP Position Genomic:     114400
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50648):
TGCTGCCATCAGAGAACTTGTGTTCTGGGCTTTCATGCACCTGCCTTGCAGGCGTCAGGAATCTGAATCACACTCATTCCCTCCATCACTTGGCTCACCA
G
TGGGACCAGACAGGAGTCCTGCAGTTTCAGCAATGAACCCCAGGGCTTGGTGCCTGCTCTGGAGGTGGGGAATGGGGTTCACAGTTTAGTGGAAGATTGC
Celera SNP ID:            hCV26763207
SNP Position Genomic:     468011
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50649):
TGAATGTTAGCTTAGATTGCAAAAGGGACTGTGAAGGTGTGATTGAGTTAAGGATCTTGATTTAAAGAAGTTAGTCTGATACGCCCAATGTAACCACAAG
S
GTCCTTATAAGAGGCTCACCAGTGGTCAGAGAGGAAAGGTGATGTTGTCCTGCTGGCTTTGAAGTTGGAGGAAGAGGCCATGTGCCAAGAGATGCCAGCA
Celera SNP ID:            hCV11673382
SNP Position Genomic:     786767
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,8)   total(G,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50650):
TACTAATTCCTGGGGCCTGTGAATGTTAGCTTAGATTGCAAAAGGGACTGTGAAGGTGTGATTGAGTTAAGGATCTTGATTTAAAGAAGTTAGTCTGATA
S
GCCCAATGTAACCACAAGGGTCCTTATAAGAGGCTCACCAGTGGTCAGAGAGGAAAGGTGATGTTGTCCTGCTGGCTTTGAAGTTGGAGGAAGAGGCCAT
Celera SNP ID:            hCV11673383
SNP Position Genomic:     786748
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,8)   total(G,4|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50651):
CTGAGCCAGACTGCATTTACCAATCCACAGAAATAGTGCAGACCAATTCCTTTTGTGAAAATTAACATATATTTTGTCTATGGCCTTCTCTTCATCACTT
R
CCCCAGCAAGTCTCTCCTCAAAGGATAGTCAGTTTGGCATGATTTATGTATGACGAACCCAGGTAGACTACCATAACTCACTGTTCTCATTGATAAATCG
Celera SNP ID:            hCV11673387
SNP Position Genomic:     783901
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50652):
TATGTATGCACTTATTCTTGCATTCAGCAAATAAGTACATAGCACCTATCATGAACCAGTGACTTTGCTTAGGAACACAAAGCAAGCAAAATCCCTGCCT
Y
GATGGCACTTACTTCTTAGGGAAAAGAGAGGATGACAGAACTGTAGAGAAAACAGAGTATACCAGATAGCAATGAGGGCTGTGGAGAAAATAAGGTGGGA
Celera SNP ID:            hCV10075569
SNP Position Genomic:     112960
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50653):
TTGTTTTTCTTTCTTTTTGTTATTTGCTTTATGTTTGTATTTGTCGTACGTTGTGTTTAATCTACCCCTTCTCTGCCCAAGACTGTAGTATGTCGTCAGG
R
TTGAGAACCACTGGGTTAAGGAGTTACAAAAAGTTAAATTTCTCAGGGCTAATGTTGAATTCTTGCATCGGATGAGCTCATTGTAACTTAGGAAAATCAA
Celera SNP ID:            hCV12106920
SNP Position Genomic:     567946
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50654):
TGAGCCACAGCGCCCGGCCTAATGGCATCTTAGTCATTCGACTTTTCGAGACAGCCTTATCAGTAGCCTCTGATGCTTGAGGTTCTCTTGTGTTGCTTTT
Y
GTTGTCATAGTATTTTTGTTGTTATTGTTTTGTTTTTCTTTCTTTTTGTTATTTGCTTTATGTTTGTATTTGTCGTACGTTGTGTTTAATCTACCCCTTC
Celera SNP ID:            hCV12106921
SNP Position Genomic:     567816
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50655):
TTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTGAGACAGAATCTCACTATGTCACCAGGCTGGAGTGCAGTGGC
R
TGATCTCGGATCACTGCAGCCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCCGACTCAGCCTCCTGAGTAGCTGGGACTACGGGCACATACCACCATG
Celera SNP ID:            hCV12106922
SNP Position Genomic:     567494
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50656):
TTGAATTAATTACCAGGAACAGAATCATAAGTGGTGACAACTTACAACAGCTCATTCCACATTCTCCTGCCACTGATGGATAGATTTATGCATTTGAAAC
R
TTTTTTACTGATTGCCTGCCCATCTCCTGTTCACATACTCCCTGAGAACCTCTATGTCTTATCCATGGAGTATGTCCGAAAACCAATTATCATCCCCTTT
Celera SNP ID:            hCV12106924
SNP Position Genomic:     567154
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50657):
GTCCCTGGATGGACTTGAGGGAGTCTCTGAATGCCTGAAATCACAGGCAAAGTGAGTGTGTGTGTGCATGTGTGTGTGTATGTGTGTGTATTTTTCTGGA
R
AGGGAAGGACCACAGTTTGCATAGATTTCCCATGGAGATGTTGATTGCAGGTTGGTCAGAACCATCCTTCTAACTAGGTGGTGATTTGGAGCACAGGCGT
Celera SNP ID:            hCV12106925
SNP Position Genomic:     563121
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50658):
CTAATTTTAATCCATATATTTTCTGTAGGCCACTGTTTGTAGCTTTTAGAGTAGATTTCCCTCTCTTAAAAGTAAACTTTGTTTTACTTAGAAAACACAG
W
GACCTTGGAGCATAGTGATTGTTGTGTTTTTAAATTTCATTGGTTTAATTGTCGTTTAAAAGTAAGGTTTTTTTTGTTGTTGTTGGTTTGTTTGTTTGTT
Celera SNP ID:            hCV12106928
SNP Position Genomic:     561371
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50659):
CAAATGGTAGTTCTGTTCTAAGTTCTTTGAGAAATCTCCAAACTGCTTTGGACAGGGGCTGAACTGATTTACATTCGCACCAACAGTGTATAAGAGTTCC
Y
TTTTCTCTGTAACCTGGGCAGCATCTGTTATTTTTTTGACTTTTTAATAATAGCTATTCTGACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGC
Celera SNP ID:            hCV3282400
SNP Position Genomic:     1113521
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50660):
ATTTAAAAAAAAATAGGTCTGTATTTAAAAGTTTTAGTGTCAGCTCCATCCAGCCCAAGTTAAGTACTAATTCAGCAAGTTAGTTAAGTAATAAATGGCT
R
TCACTCAACTACAACATATTTGAATTCAGTTTTGAGGCCCCAGTAGTTGCTAAAAATCAATGCCCACTTTCTCCAGGTATAGTAATTATTTCTCATATTG
Celera SNP ID:            hCV10075570
SNP Position Genomic:     111391
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50661):
GTTGAATGTCAGAATGCCTGCTAATGACCCTAACAATCATAGCTTATTTCTAGAGAATCCATACAGTCATTGAGGCTTTGTTTTTTTTCATCTTCCACTC
K
TTTCCTTGGAATAAGACCTTTAATTAATGCTCATTAAGATGCACAAATAGCCTGGCCTTGAATCCTCCCAGTGTTTGGTTCACTCTCCCCTAACTTATTA
Celera SNP ID:            hCV12106929
SNP Position Genomic:     560092
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50662):
GATTGCTGAGTCAAATGGTAGTTCTGTTCTAAGTTCTTTGAGAAATCTCCAAACTGCTTTGGACAGGGGCTGAACTGATTTACATTCGCACCAACAGTGT
R
TAAGAGTTCCCTTTTCTCTGTAACCTGGGCAGCATCTGTTATTTTTTTGACTTTTTAATAATAGCTATTCTGACTGGTGTGAGATGGTATCTCATTGTGG
Celera SNP ID:            hCV3282401
SNP Position Genomic:     1113510
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50663):
TTAGTATCATTGCTCCTACTAATGATAGAAATTGCTGGTGTTGGCCGGGTGTGGTGGCTCACACCAGTAATCCAAGCACTTTGGCAGACGGAGGTGAAGG
S
ATCACTTGAGGCCAGGAGTTCGAGCCAGCCTGGCCAACGTGGTGAAACCCCGTCTGTGCTTAAAAAATACAAAAAATTGGCCAAATGCAGTGGCTCACAC
Celera SNP ID:            hCV11673390
SNP Position Genomic:     782343
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50664):
CACCCAGTAGTAGGATTGCTGAGTCAAATGGTAGTTCTGTTCTAAGTTCTTTGAGAAATCTCCAAACTGCTTTGGACAGGGGCTGAACTGATTTACATTC
S
CACCAACAGTGTATAAGAGTTCCCTTTTCTCTGTAACCTGGGCAGCATCTGTTATTTTTTTGACTTTTTAATAATAGCTATTCTGACTGGTGTGAGATGG
Celera SNP ID:            hCV3282402
SNP Position Genomic:     1113497
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50665):
CTACGTAGCATTCCATTATCACTTTTGATCAACAGTTCCCTGATTGATTTTTTATTTTTCTATAGTAAACATTGAAGGAGAAAATATAATTGTCGCTAAA
Y
ATTTCAGCCAAATAAGTCTGAGCTATGCATTATTCTAAGGCCCTCTCTCAGATCTTCACAATGCAAATCTGAGTATTAAAGGCTCTGAGAATTCTTGCGC
Celera SNP ID:            hCV3282403
SNP Position Genomic:     1112426
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50666):
TTAATGTCTACGTAGCATTCCATTATCACTTTTGATCAACAGTTCCCTGATTGATTTTTTATTTTTCTATAGTAAACATTGAAGGAGAAAATATAATTGT
Y
GCTAAATATTTCAGCCAAATAAGTCTGAGCTATGCATTATTCTAAGGCCCTCTCTCAGATCTTCACAATGCAAATCTGAGTATTAAAGGCTCTGAGAATT
Celera SNP ID:            hCV3282404
SNP Position Genomic:     1112419
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50667):
TCATCTTGTCATGCTGTGTTCATCATGGCTTTTAATGTCTACGTAGCATTCCATTATCACTTTTGATCAACAGTTCCCTGATTGATTTTTTATTTTTCTA
Y
AGTAAACATTGAAGGAGAAAATATAATTGTCGCTAAATATTTCAGCCAAATAAGTCTGAGCTATGCATTATTCTAAGGCCCTCTCTCAGATCTTCACAAT
Celera SNP ID:            hCV3282405
SNP Position Genomic:     1112388
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50668):
CATTTTAATTCCAGAGAATCAGAGACAGCCTTTCCCAAGAGATGTTGGCAAGGTAAGTCAGACAAACAGCAAATGACAAAAACATGTTTTTATGAAAAGA
Y
GAGCACAGCAGACTGAGTATGACTGTCTTGGTGACCAGCTGGAATTAGTCTTCATCTGTCTATGATAAGAGACCAAATGGTTTAGTCATGAAAAGAATGT
Celera SNP ID:            hCV25474817
SNP Position Genomic:     504398
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,19)   caucasian(T,40)   total(C,9|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:50669):
TCTGTGACTCTATTATTATCATCATCATGATCATAATTATTACCGCAACTGCCACTAGCATTCCCTTCCAAGGTATTTTCTCAGCCAGCAGCAGCAAATC
K
GTTTGGGATTGTATGTCAAGCCCTGTGAAAAAGAAGGGTTTGGCACACAGGGCTTCATACAAAGAGGGGTTTTGAAGCTGACCTGGCCATTGCCAAGTCA
Celera SNP ID:            hCV3282406
SNP Position Genomic:     1112077
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|T,7)      total(G,4|T,7) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50670):
ACCACCTCTGTTTCTTCATCTATATAATGGGTCAGTAATCCCACCCACATGAAGTTATTGTTAGACTTAAATAAGCTGACCCATGTAAAGTGCTTGGAAA
K
TCCCTGGCACAAAGCAAGTGCTCAATAAATATTATCTGTGACTCTATTATTATCATCATCATGATCATAATTATTACCGCAACTGCCACTAGCATTCCCT
Celera SNP ID:            hCV3282407
SNP Position Genomic:     1111942
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50671):
GGCTCATGGTAAAAATTTTAGCAACTGAGATAAGCAAAACTAAGAAAGATGTAAATCCCACTAGCCAGATACCACTACTCCTAAGACCCAGGTCAGACAG
Y
GAGGCATCACTGTTAAGAGCATGGGCGCTATGGTTGGACAACTCTATCACTTACTAGCTGTGTGTCCTGGAGCCAGCTACTTAGTCCCTCACCACCTCTG
Celera SNP ID:            hCV3282408
SNP Position Genomic:     1111751
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50672):
TTGGGGGGAACAGCAACAAATGTTCAGTTCACAAGTATAAAATGGATATATTATTTATGTGCATATACATCATATACTGTTACATATCATAGATAAGACA
W
GCATATTATACATATGTGTATGTATATATAGTAAATATACCATCTATAGTAATAAGGTTTCACAAAGAAGAGAAAATGGAAATGTAGAGATATAAAGGAA
Celera SNP ID:            hCV3282409
SNP Position Genomic:     1111489
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50673):
CTTGAATGGGGCATGTTCTCTTTAGCTTCCAGGCCTTTGAGTGGTTCCTCCACCTGAAACAATCTCTTCTTCCCTTTGCCTACCTAACTCCTCCTTCTTT
R
ATCTGCAGCTTAAATGTGACTTCTTCAAAAAAGACTTCTTTGATCCCTTCAGTACCAAATGAGTTCTTCCCTTTATGCACATTTTTCCTTGTGACACTTG
Celera SNP ID:            hCV10075578
SNP Position Genomic:     111025
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50674):
ATTAAGTTATATTAAAAGAAGGGTAATATGGGCACAAAACTGACCATTTCCTGATTATTTTACTACATTTTACTATTTTCTATGCTTATTTAGTCCTATT
R
TTTATGTATGGTGAAATCTATATAATGGGGAACAGCTGCTCATAGCTGCCAGCACTTCATTCAGTGAAGTCACATTGGCAGCTTGAAGCTGGCCATGCCG
Celera SNP ID:            hCV10075579
SNP Position Genomic:     110029
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50675):
ATTAATCTGTTCTATAGGTGTTTTTAGTGGAACATTTAGTGGGGGTCCAGTTCATCCCCAATTATAAATATAATTCCACTGAGCATCCTCAACTTTGTGC
W
CATTCCTAATAATCTGCAAGGAATACATTTATGGAAGGAGAATTACTGTCTTAAAAGGGGGTTGGGGTGGGTATATATTATTAAAGTTTGCGATAAAAGT
Celera SNP ID:            hCV12106930
SNP Position Genomic:     557944
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50676):
GGCACGGGGTTTCACCATTTTGGCCAGGCTGATCCTGAACTCCTGACCTCAAGTGATCCACCCGCCTCAGCTTCCCAAAGTGCTGGGATTACAGATGTGA
R
CCACTGTGCCCAGTTTGAGGCATTGCTGTTTAAGGGGCCAGAGAGACCACAATAGGCACAGAGGCTGAGACAACATGGGTGGTACCATGTAGACAACATG
Celera SNP ID:            hCV12106931
SNP Position Genomic:     528372
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50677):
GTAGTATGGGATACATCACAGAAATTGTGTATCAAAGGGGGAAAATGTTTGCAAGACTTAGTGCCTAATTCACAGTAAGTGCTCAAAAAATGCACACAGT
M
AGTGCTCTGTCATTTTCTAGAACACATTGATGTTTAAAAAAATTTTCCTACTTGTAAAACAGTCAAAGAGTTCAGTGTGAAGTATTTGCAAAAAATTTGA
Celera SNP ID:            hCV12106932
SNP Position Genomic:     482665
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50678):
CAGGCATGAGCCACCGTGCCCGGCTAATTAAACTTTTAATGTGGAAAGACAGCACATGCAGGAGATAAGAGGTAGAGTGGGTGATGGTCCAGGCTCTGAG
Y
GGAATGGCCTGTGTTCAAATGCTGGCTTCTCTAACTTACCAGAATTACGTATGTCCTTGAGCAGAGTGTTTAACCTTCCTGTGCCTCACTCTCCTCATCT
Celera SNP ID:            hCV12106933
SNP Position Genomic:     482464
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50679):
TATGACTTGTTATAGCAGCCATTGGAAACTAATACAGCAATTCTGTGGCTATCTGGCGGAAGAGATACCCAGGCAGGGAGACCAGCAAATCTGCAGGCTC
T
GAAGTGGGGGTGGGTCTGGTGTGCTCCAGGATGCCAGTGTGCCTGGACTGAGCTGGAGTGAGTCAGGGGAGCTTGCAGTAACAGGGGCAGAGTGCAGATG
Celera SNP ID:            hCV12106934
SNP Position Genomic:     481255
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50680):
TGACCTCATGTAACCTTAACTTCCTAAGGAGAGGCCCACCTCCAAGTACTGCCACAATGGGGGTTAGAGTTCTATCAACATCCGAATTTGGGGGGAACAG
M
AACAAATGTTCAGTTCACAAGTATAAAATGGATATATTATTTATGTGCATATACATCATATACTGTTACATATCATAGATAAGACATGCATATTATACAT
Celera SNP ID:            hCV3282410
SNP Position Genomic:     1111402
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50681):
ATAATTAAGTTATATTAAAAGAAGGGTAATATGGGCACAAAACTGACCATTTCCTGATTATTTTACTACATTTTACTATTTTCTATGCTTATTTAGTCCT
R
TTATTTATGTATGGTGAAATCTATATAATGGGGAACAGCTGCTCATAGCTGCCAGCACTTCATTCAGTGAAGTCACATTGGCAGCTTGAAGCTGGCCATG
Celera SNP ID:            hCV10075580
SNP Position Genomic:     110026
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50682):
GCTGTGTCCTCATGTAGCCTCATTTCCTTGGGGCATGTACCTGGAGGGTGGGGATTAGGGAGCATACAGGGTCTCCTTTTATAAGGATCCTCATCCTATC
R
GATCAGAGCTCCATCCTCATGACCTCATGTAACCTTAACTTCCTAAGGAGAGGCCCACCTCCAAGTACTGCCACAATGGGGGTTAGAGTTCTATCAACAT
Celera SNP ID:            hCV3282411
SNP Position Genomic:     1111282
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50683):
AGCCACCTTCTTGCTGTGTCCTCATGTAGCCTCATTTCCTTGGGGCATGTACCTGGAGGGTGGGGATTAGGGAGCATACAGGGTCTCCTTTTATAAGGAT
M
CTCATCCTATCAGATCAGAGCTCCATCCTCATGACCTCATGTAACCTTAACTTCCTAAGGAGAGGCCCACCTCCAAGTACTGCCACAATGGGGGTTAGAG
Celera SNP ID:            hCV3282412
SNP Position Genomic:     1111270
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(A,-|C,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50684):
TCATCATTTTATTGTATTTTCTCAACTTTAGAACAGTTTTCAAACATGTGGAAACGTTGGAAGAATTTTATAGCAAGCACCCTTTGCCCCATCACCGAGA
Y
TCTCCCAGCACATCTTCTTCTGCTTGCTTTATTTAGTGCACACCTATCCACCTGTTCCAGAGATCACCACTGCGGCAGTGGGTTCTCAAAGGAGAACCTT
Celera SNP ID:            hCV3282416
SNP Position Genomic:     1109659
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50685):
ACCTTGACAAAGAGTTTATAATGTAAGGTCCTGGTTCCTGGCTCTGTCTGCATTAGATTAATCAGGGGGAGCTTTTAAGAGATACTAGTGCACACAGACC
S
CAACTCAGCACAGTTGTATCATAATCTTGGGAGAGAGTGGGGGCAGGTATTGCTATTCTTTTTAATGCTCCTTCAGCATTTCTTAGATGGCCAGCCTTGA
Celera SNP ID:            hCV8098395
SNP Position Genomic:     404348
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50686):
CATTTCATCGGAATGAAATCAGCTAACATGTGATATCCTTAATGGTTTTGTAGCAGAAAGACATCTACGTGGGAAGGGACGCTGCTGAGTGTTTAGAGAA
M
AGACACATTCATCATTTTATTGTATTTTCTCAACTTTAGAACAGTTTTCAAACATGTGGAAACGTTGGAAGAATTTTATAGCAAGCACCCTTTGCCCCAT
Celera SNP ID:            hCV3282417
SNP Position Genomic:     1109550
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50687):
GCGCTCCAGCCTGGGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAATCACCGTCCTTTTTTGGCGTTCTGTCAGTCAAGAGTATTCTGAAGACTA
Y
CGAGGGAGGAGTGTTTGGTTTGTGCCTTGTTTTGTTCTGTTTTAGCAGCCCTGGAAATCATGGATACCTCCCTTCCTTGAAGTTATCTTTCCCATGTATA
Celera SNP ID:            hCV3282418
SNP Position Genomic:     1109105
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50688):
GTCTCAGGTAATAGAAAGGCCTGAGGAAAGGGAGAGAGAGGGAGAGGAAAGGCTGGTTGGTGGAGCAGTAAGGCCATACACATACAACATTTACCTATTA
M
GTTAGCCTTCTTGTATGGGCATGGTTTGTGGCATCCCAAAACAGTTACAATAGTAACATCAAAGATCACTGATCACAGATCACCATGACAGATATCATAA
Celera SNP ID:            hCV10075587
SNP Position Genomic:     109504
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50689):
CTAAACGGGCAAAAAATGGAAGAAAAATCAAAACATCACTGTTGGCTGGGCACGGTGGCTCACGCCTGTAATCCCGGCCCTTTGGGAGGCCGAGGCGGGC
R
GATCACGAGGTGAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACCAAAAAAAATTAGCCGAGCGTGGAGGCGGGCC
Celera SNP ID:            hCV3282419
SNP Position Genomic:     1108815
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50690):
TCATTTGAGTTTTCACTGGAATGGCACTTTTTATTTCATTCAAGAGCTTTCTTTTGCATTCACAACTTGGTTGATTGGCCTAAGAGGCCTAGCTTTTGGC
Y
GGTCTTGGCTTTCAACATACTTTCCTCACTAAGAAGCTTAATCATTCTAGCTTTTGATTTAAAGTGAGAGGTATGCAACTCTTCCTTTTCCTTGAGCATT
Celera SNP ID:            hCV10075588
SNP Position Genomic:     109256
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50691):
CATCTATAAGAAGCAACTCCTCATCTGTTCAAGTTTTATCATGAGATTTCAGCAATTCAGTCACATCTTCAGGCTCTATTTCTAATTATAGTTGTCTTTC
R
GTTTCCACCACATCTGCCGTTACTTCCTCTACTGAAGTCATAAACCCCTGAAAGTCATCTATGAAGGCTAGAATCAACTTCTTCCAAACTCCTTTTAATG
Celera SNP ID:            hCV10075589
SNP Position Genomic:     108102
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50692):
ACCCTGTCTCAAAATAAAAACATATCATGTTTGAAGAACCACCAATAGGTATCTTGCTCTGTGACTTGTGATCCTTAAGTCAACATATATATATATATAT
W
GTCACAGGAAGTCGATACATATATGGGATAATCACCAATCTCTAAGATACATAGCATGCTCATAAAATAGCCAAGCTCTGTGCTGAGAGACAAAGACATA
Celera SNP ID:            hCV2850460
SNP Position Genomic:     1176741
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,8)   total(A,1|-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50693):
CACGTCTTTTGTTTGTTGAGTATTTGCTAAACGGGCAAAAAATGGAAGAAAAATCAAAACATCACTGTTGGCTGGGCACGGTGGCTCACGCCTGTAATCC
Y
GGCCCTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTGAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACCAAAAA
Celera SNP ID:            hCV3282421
SNP Position Genomic:     1108789
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50694):
TTGCTCAGCCATTGAATAACAATTGCTTTTGGAAAGATTGTCATAATGTATCAGTTAGAAGGCACCTTAGAGACCATCATTTCACATGACCTCTGTTTTT
Y
AGATGGGGAAACTGAGGCCCAAGAGTGACAGTCATGTGCTGCAGGTCACAGGCCAAGTTTGTGACAAGACCGGGGTGTCTGTTCGGGTTTTGGAGAAACA
Celera SNP ID:            hCV3282422
SNP Position Genomic:     1108455
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50695):
TCATGCCTGTAATCCCAGCCCTTTGGGAGGCAGAGGCGGGTGGATCACTTAAGGTCAGGAGTTCAAGACCAGCCTGGCCAGCATGGTGAAACCCTATCTC
T
ACTAAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACACCTGAAACCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAG
Celera SNP ID:            hCV26613252
SNP Position Genomic:     1181244
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:50696):
TTATGTAGCATTCTTTCCTGACTTTATTTTTCTCAGCTTTTTAATGATTGTCTTTTCACTTTCTGCACTTACACAACATTGTAAAGTGTTGCATTTTCAT
R
TAGAGAAAACTGGACCTTGGTCTGAATCTTCCCACAAGGGATAATTTTATAACTTTTTTGCTCAGCCATTGAATAACAATTGCTTTTGGAAAGATTGTCA
Celera SNP ID:            hCV3282423
SNP Position Genomic:     1108297
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50697):
CTCATGCCTGTAATCCCAGCCCTTTGGGAGGCAGAGGCGGGTGGATCACTTAAGGTCAGGAGTTCAAGACCAGCCTGGCCAGCATGGTGAAACCCTATCT
C
TACTAAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACACCTGAAACCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCA
Celera SNP ID:            hCV26613253
SNP Position Genomic:     1181243
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,6)   total(C,6|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:50698):
TAAATGGATATTGTACAAATCCTGCATTTGCATTGGCTCTGAGGACATAAATCAATTCTCATGATCTTACTTTGGAAAAAAATTTCCCTTTGAAGTCAGA
S
TGAGCGATTTATGTAGCATTCTTTCCTGACTTTATTTTTCTCAGCTTTTTAATGATTGTCTTTTCACTTTCTGCACTTACACAACATTGTAAAGTGTTGC
Celera SNP ID:            hCV3282424
SNP Position Genomic:     1108188
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50699):
ACTCATGCCTGTAATCCCAGCCCTTTGGGAGGCAGAGGCGGGTGGATCACTTAAGGTCAGGAGTTCAAGACCAGCCTGGCCAGCATGGTGAAACCCTATC
T
CTACTAAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACACCTGAAACCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGC
Celera SNP ID:            hCV26613254
SNP Position Genomic:     1181242
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:50700):
AAGGAGGGTCAAGTGGTACCTCTGTCTCCACCTCCTCCAGGCCTACACAGTTTGTGACTGACATACTGAGCACCAGGTCTGCATCACCCACCTTATCACA
Y
GTGGGCACAGGATCTCTGCCGGGGGCAAGCGGTATGATGTGTCCTGGTCACGGTCTGGCTGGTGATTTGGTTACATCCAGACACGGAAGTCGACCTAGAA
Celera SNP ID:            hCV3282425
SNP Position Genomic:     1107688
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50701):
GACTCATGCCTGTAATCCCAGCCCTTTGGGAGGCAGAGGCGGGTGGATCACTTAAGGTCAGGAGTTCAAGACCAGCCTGGCCAGCATGGTGAAACCCTAT
C
TCTACTAAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACACCTGAAACCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGG
Celera SNP ID:            hCV26613255
SNP Position Genomic:     1181241
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,6)   total(C,6|-,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:50702):
CAAAGGCATGGTGGCCAAGAGAGCTAGATCCGTTCACTCAACACACAGGCAGGACTGCAACGGGTCTTGTGTATCCTGTGGATCTAATCTATCCTTAGGC
R
TCAGTCTGGGAAACATGAGTTCCGTCTTCTCCACTAATCTGGGAAGGAGGGTCAAGTGGTACCTCTGTCTCCACCTCCTCCAGGCCTACACAGTTTGTGA
Celera SNP ID:            hCV3282426
SNP Position Genomic:     1107544
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50703):
AAATGCCACCATAATAGGCCGCAGATCACCTTTATTGCCAGCCTCTCTAGTCCCCAAGTAGCTGATAAAAACATAGACAAAAATTATAGAGAATGAAGGA
R
AAAAAGTAAGGGGTTATTTTGAGAGCAAAGTTTGCCTCATCTGTCCAATAGAGACTGTCTTGTATGTTAAAAGTTCATCATCAGGAGCTGAAAGAATTGA
Celera SNP ID:            hCV513859
SNP Position Genomic:     896663
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50704):
GGAGTTCAAGAACAGCCTGGACAACATGGCGAAACTCCATCTCTATAAAAAATGCAAAAATTAGCCAGGCATGGCGGTGCATGCCTGTAGTCCCAGCTCC
Y
CCGGAGACTAAGGTGGGAGGATCGCTTGAGCCCAGGAGGCAGGGGTTGCAGTGAGCCAAGATTGTACCACTACACTCCAGCTGGGGCAACAGAATGAGAC
Celera SNP ID:            hCV26613256
SNP Position Genomic:     1176542
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50705):
ATGCATGAATGGATGGATACATGGATGGATGAAGTTGTACAAGCTCAAACCAGCTCAGATTGGAGGAAGCGTCTTACTTGAAGCCCCCTGTGACTATGTT
S
GGGCTTGTCTCCTACCATCTCACTGAAGGAGCCTATCTCCTAAGCTCTCTCCTAGACACCTGTATCCTTACTTTCCCCTCCCTTCCCAGCCTGAGCAGTG
Celera SNP ID:            hCV3282427
SNP Position Genomic:     1106849
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,8)   total(G,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50706):
CAAACCTGGGAGGCGGAGGTTGCAGGGAGCCAAGATTGTGCCAATGCACTCCAGCCTGAGCAACAAAGTGAGACTCTGTCTCTAAAAAAAAAAAAAAAAA
A
TTTCTCAGATGTGACTCAGTGAAGGATTTTGAGATGGGGAGAGTATCTTGGATTAGCCAGGTGAGCCTGATATAATCACAGAGTCCTTATAAGAGGGACA
Celera SNP ID:            hCV26613257
SNP Position Genomic:     1175928
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50707):
CCTGTCACTGGTCACTCCCTGTACTGTTGCCCAATGGGACGGCTTTCAGAGCACATACCACTCTCTGAAGTTATCGTATTGTGTGTTAACTATTTTTATG
R
TCTCCCTTCCTCTTGTAGAACAGAAGCTCCATGAGAACAGGAATTTCATGCCTTGTTCTCTTTCATATATGCAGAGTAAAGAAGAATGTCTGACATATAA
Celera SNP ID:            hCV3282428
SNP Position Genomic:     1105910
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50708):
TCAAACCTGGGAGGCGGAGGTTGCAGGGAGCCAAGATTGTGCCAATGCACTCCAGCCTGAGCAACAAAGTGAGACTCTGTCTCTAAAAAAAAAAAAAAAA
A
ATTTCTCAGATGTGACTCAGTGAAGGATTTTGAGATGGGGAGAGTATCTTGGATTAGCCAGGTGAGCCTGATATAATCACAGAGTCCTTATAAGAGGGAC
Celera SNP ID:            hCV26613258
SNP Position Genomic:     1175927
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50709):
ACTATGGAATACACTCACATCAGCGTCAGTTGGCCCCACTCACTGTGGGGCAGAATTTCCCTGGTCTGATGCCTGGCATCTGCCCAGAAGGCACTGCAGC
R
TAGGGGACAGTGGGGTCAGACTCCACTGTAGGAATCTACATCTCCCTGCACACACTGTGAGGCCTTGCAAGGGCTACTGCACATCAGCGAGCCTCCATTT
Celera SNP ID:            hCV3282429
SNP Position Genomic:     1102111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50710):
ACATAAATTAAATAAATTTCCTCAAGTAACCATCTCAATAGCCCTGGGACGAGTCACTTATGTTATCATCTAAATTGACTTAAAACAGGAATTTGAGACT
S
TAATTTGAAAACAAGAGATTGGAGCCTATTTAGTGGATTTTATGCAGCCAAAGATGTTTCTTGTTGTTGTTGTTGTTCTTGCTTTTAACTAATTTGCCTC
Celera SNP ID:            hCV26613259
SNP Position Genomic:     1174501
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50711):
TTACTGTCTCATGGAATTCTTACAACTACATCATGAGGAAAATAGTATTAATAGTATTATCCCCATTTCCCAGATGAAAACACTGAGGCACAGAGCTGTA
K
TCTGTCTGAGGCCAGAGTTAGACCATGACTTACTTATTTACACAAAGCAGCAGGGACCTGTCTTTGATGATGAACAAGTCCAAATTACTACAAAACTGCT
Celera SNP ID:            hCV10075599
SNP Position Genomic:     105920
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,7)   total(G,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50712):
CATTGTTTCTATTCTGAGCTCAGTTCACGTAGTTCAATGTGCTTTGGCTTGGCTGTCACTTTAGGGGATGATAGTTAACCCAACGGAGTAAATCTGGCCA
R
TTCCCGAGTGGGGGCAGGGGGTTGGGCTCAACTAAGGGCACCAACAATAAATGCCTCCTTGCTGGTAGATGGGAAGGACTGAGAAGACAGAGGAGAAATT
Celera SNP ID:            hCV27986436
SNP Position Genomic:     951393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50713):
GGGTGTGGTGGCACACGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGTTGGAGGTTGCAGTGAGCCAAGATTGC
R
CCATTGCACTCCAGCCTGGGCAACAGAGCAAGACTTTGTCTCCAAAAAAAAAAAAAAAAAAAAGCCAAGATGAGCAAAAGATAGCCAGTAAACACTTTTA
Celera SNP ID:            hCV26613260
SNP Position Genomic:     1173866
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50714):
GGCCAATTAACCAGCTCCCCTGCATGCAAAGCTTGTTATTTCTCTGTGACAGAGGCAGCTCTTTAAAATCTTACCGTGCACGTTCTGCAGGACACCTTTC
Y
CTGGATTTTTCTTTCACGCAAACCCCATTCAGTTCCTACTGTGCTCTGCTTGCCTCTCCTGTTGTTGAGAGGCTCAGGAAAAACAACTGGAACTAATTCA
Celera SNP ID:            hCV3282430
SNP Position Genomic:     1100037
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50715):
AGCTGGGTGTGGTGGCACACGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGTTGGAGGTTGCAGTGAGCCAAGA
Y
TGCACCATTGCACTCCAGCCTGGGCAACAGAGCAAGACTTTGTCTCCAAAAAAAAAAAAAAAAAAAAGCCAAGATGAGCAAAAGATAGCCAGTAAACACT
Celera SNP ID:            hCV26613261
SNP Position Genomic:     1173862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50716):
ACGTGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACACGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAAT
M
GCTTGAACCCAGGAGTTGGAGGTTGCAGTGAGCCAAGATTGCACCATTGCACTCCAGCCTGGGCAACAGAGCAAGACTTTGTCTCCAAAAAAAAAAAAAA
Celera SNP ID:            hCV26613262
SNP Position Genomic:     1173823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50717):
TAGCCAGGGGTAGTGGTGCACACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGACGGAGGTTGTAGTGAGCCAAG
R
TTGCACCACTACCCTCCAGCCTGGATGACAGAGCGAGATACTATCTCCAAAAAAAAAAGAAAAGAAAGTGAGGCAAATGAAGACTTGTAGTGATTGCTTT
Celera SNP ID:            hCV3282432
SNP Position Genomic:     1099416
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50718):
TGACCAACGTGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACACGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAG
R
AGAATCGCTTGAACCCAGGAGTTGGAGGTTGCAGTGAGCCAAGATTGCACCATTGCACTCCAGCCTGGGCAACAGAGCAAGACTTTGTCTCCAAAAAAAA
Celera SNP ID:            hCV26613263
SNP Position Genomic:     1173817
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50719):
TCTCGTCACCAAAAAAAAAAAAAATTTCCTCTTCAAATTTGTAGGTAAAAAGACGTGTTTCTTTAACTTTACCTCTCACAAATGGTATGTTCATCTATCG
K
CTGGGACTCTTTTAGTTAAAAAGGAAACCTAACTCAAACCAGAATGGGGGTGGGGAAAGTGAATTGATGTATCTCACATAACTGGGAGATCCAAGGGTGG
Celera SNP ID:            hCV3282433
SNP Position Genomic:     1095804
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50720):
GGATCACAAGGTCAGGAGTTCAAGATCAGCCTGACCAACGTGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACACGCCT
S
TAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGTTGGAGGTTGCAGTGAGCCAAGATTGCACCATTGCACTCCAGCCTGGG
Celera SNP ID:            hCV26613264
SNP Position Genomic:     1173786
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50721):
GTAGATATTTGCATCTCTCAACTTTTCTCGTCACCAAAAAAAAAAAAAATTTCCTCTTCAAATTTGTAGGTAAAAAGACGTGTTTCTTTAACTTTACCTC
Y
CACAAATGGTATGTTCATCTATCGGCTGGGACTCTTTTAGTTAAAAAGGAAACCTAACTCAAACCAGAATGGGGGTGGGGAAAGTGAATTGATGTATCTC
Celera SNP ID:            hCV3282434
SNP Position Genomic:     1095779
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50722):
ATCCAGCACACACCAGAAATGGTTACTCCACCAGGGAGCTCACCTCATCTTCTGCCATTGGCCTCCCACCCCACATTTTTCCAATGAGGTTCTTTGAGTC
Y
GACTTATTTTTGACAAAGCCACACTGGTTTGTAATGAGCATTGCATTCTTTTATACAGAGTTGGGGAGGGAGGGAGATTTTGAAGGGGGAAAACACGAAC
Celera SNP ID:            hCV3282435
SNP Position Genomic:     1095571
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50723):
ATACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACAAGGTCAGGAGTTCAAGATCAGCCTGACCAACGTGGTGAAACCCCATCTCTACT
W
AAAATACAAAAATTAGCTGGGTGTGGTGGCACACGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGTTGGAGGTT
Celera SNP ID:            hCV26613265
SNP Position Genomic:     1173747
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50724):
AGATCAACCTGGGAAAGGAGCAGCTGCCTGCACTTCATTCACTGAGGATTCTTCCAACCCTCTCTCCGTCTAACGGGCTGGGGTCCTTCATGGACGCATT
S
ATAGATGACAGTGTGCCAATCCAGCACACACCAGAAATGGTTACTCCACCAGGGAGCTCACCTCATCTTCTGCCATTGGCCTCCCACCCCACATTTTTCC
Celera SNP ID:            hCV3282436
SNP Position Genomic:     1095452
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50725):
TCTGAAAAAAAGAAAAAAAAGCCCCACCCCATGTCAGCTAAAAATTAACATTAAATAAAATGTGGACCAGGCACGGTGGCTCACGTCTGTAATCCCAACA
S
TTTCGGAAGCCTAGGTGGGCCGATCACCTGAGGTCAGGATTTCGAGACTAGCCTGACCAACATGGTGAAACTCATCTCTACTAAAGCTATAAAAATTACC
Celera SNP ID:            hCV26613266
SNP Position Genomic:     1173349
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50726):
GTGCTGTACCTGTACAAGCCAGCAAGGCAAAGAGGCCTGGTTGCAAGATGTGAGGCAACATTTTATATTTTACTTATGTTATTCAATTTGTCTACACATC
Y
ATCCTTTTCTGGAAAAAGACCATATTGCCACTTGAGTTTCAGTATTACAGACATTGTTTTCCTCTAAGTGACTAGACTCTCTGTTTAGCTCGCCACACAA
Celera SNP ID:            hCV3282437
SNP Position Genomic:     1094889
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50727):
GATTACAGGCACCTGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTGAAACTCCTGACCT
Y
AAGTGATCCACCCACCTCAGCCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCAGGCCTGAAATTAGCTATTAAAGTACATAACTTCCTAAC
Celera SNP ID:            hCV26613267
SNP Position Genomic:     1171680
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50728):
GACTGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAAGGGCGCGATTTTGGCTCACTGCAACTTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGC
Y
TCTGAAGTAGCTGGGATTACAGGCACCTGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCT
Celera SNP ID:            hCV26613268
SNP Position Genomic:     1171565
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50729):
GGCTGCACAGAAGTGAGCTTAAACCCTTAAGCAAGGATTGGAGAAGGAGGAGGGTGATTTCAAAAAACACTGAAATTAGTAGCTTTCTTTTTTTTTGTTT
K
TCTGTTTTGTTTTAAGACTGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAAGGGCGCGATTTTGGCTCACTGCAACTTCTGCCTCCCAGGTTCAAGTGA
Celera SNP ID:            hCV26613269
SNP Position Genomic:     1171449
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50730):
ATGTACCTTATTTGGAAGCAGGCTTGTTGCGGATGTGGTTAGTTAAGGTGAGGTCATGCTGGAGTAAGGTGGGCCCTGATCCAATATGATTGATGTCTTC
M
TCAAAGGGGGAATTTGAAGACAGGCATGCACACAGGGAGAACACCACATAAAATGAAGGCAGAGATCAGGGTGATGCTTCTGCAAGTCAAGGAGTTCCAA
Celera SNP ID:            hCV2391529
SNP Position Genomic:     1132849
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50731):
TTGGCAAATGGTGGTTATTTCTATCCATTAATGTCATCTGATCATGGCCCCTCAAACCTCACTTTGAGCCTTGTGAGCAAATGATACATACTGTTTATAT
R
TATATTTTCCTATATATGTAGAAAAATATATATTAAATAAATATAAAATATATAATTTAATTAAATATATTTAATATATATTTATAGTATATTAATATTT
Celera SNP ID:            hCV26379800
SNP Position Genomic:     258463
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50732):
AAAAACATACTCTATGAAAAATATTTGAGAAATTAGTACTCCCAATTTTAGGTCCAGATGTGTTCTGGAATTTAGAAAGATAATAAGATGCACACATTGT
W
TTACACGATTCTACGAGCGGGGTCTCGGGCAGCTCCCTGTATTAAAACAGGTTGGCATTTCAATAGTAAAACATATGAATGTTTACCCTCAGTAGGATAA
Celera SNP ID:            hCV26379801
SNP Position Genomic:     253110
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,5)   total(A,2|-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50733):
TGACTTGCATGACAGTTTTCCTCCCTGGACCTTTGTTTTTCTCATTTGTATAATGAGAGCTTGTGAGTTGGGCTGTTTTGACTGTAATCAACAGTAACAC
A
ACTCCAACTAGCCTCAGCAAAAACATATAAAATTATCAGCTCACATGATTGAAAATTTCACAGTGTGAGTTGGCTTTGGAAACACTTGGATCTAGATGCA
Celera SNP ID:            hCV26379802
SNP Position Genomic:     250703
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50734):
TTGACTTGCATGACAGTTTTCCTCCCTGGACCTTTGTTTTTCTCATTTGTATAATGAGAGCTTGTGAGTTGGGCTGTTTTGACTGTAATCAACAGTAACA
C
AACTCCAACTAGCCTCAGCAAAAACATATAAAATTATCAGCTCACATGATTGAAAATTTCACAGTGTGAGTTGGCTTTGGAAACACTTGGATCTAGATGC
Celera SNP ID:            hCV26379803
SNP Position Genomic:     250702
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50735):
AAGTTCAGAATAGGAGGAAGGTGAAAAGGATGAGTGGGCATGGCTCAGGCTGCCATGGAGCCATTTCAGAAGTCCTGAGATGGGGACAGTTTGTATGTAT
R
TCAGAGGAGAGATCAACAAGGGAGATAGGAGTGTTATTGGGGAGCACTTGAACATGAAATAAGTGAAAGGAGAGCCCCAGGGAGATCCAAGGGTTGACAC
Celera SNP ID:            hCV26379804
SNP Position Genomic:     250432
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50736):
GTGATCCTTTTCAGACTCTTGTCCTCTAGAAAAGCAATTCAGATCTCGCCCAAGGCTTACTTCTCGGTTTCTGGCTATAATTGCCCTCATAGTACCCTGA
Y
CCCAGACTCCTACTGGATGCCATCCGAAAGAGTTCTCGAAGCCCTCATCTGCGCTATAGGCACAGACCACTCTCCCCAGCCCTGACAACCCTGACCTCAC
Celera SNP ID:            hCV452400
SNP Position Genomic:     948046
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50737):
GACAGACTGAAGTCTAACAAGTTGCTCCTTATACTTGAATTCACAAGTATAAAATCATATGGATGACTTGTGCACCTTGCTGTCATTCTGTGCAGAGCTC
Y
GCCTGTGCACTCCTTCCCTCACTTACCGAGGGCCTAGTTCATCCTCCACCTCTGTGGACACAGGAACGACGAAAAAGTCTCCCTTATGACCTAACGGCTT
Celera SNP ID:            hCV27989787
SNP Position Genomic:     763290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50738):
CAATGGGACAGAATAGCTAACCCAGAAATCTATGCATTTACAGTGAACTCATTTTTGACAAAGGTGCCAAGAACATACCTTGGGGAAAGGACAGTCTTTT
S
AATAAATGCTGCTGGGAAAACTGGATATCCATATGCAGAAGAATGATAATAGAGCCCTATCTCTTGCCATATACAAAAAGCAAATCAAAATGAATTAAAG
Celera SNP ID:            hCV26379805
SNP Position Genomic:     248789
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50739):
CCTCTAGAAAAGCAATTCAGATCTCGCCCAAGGCTTACTTCTCGGTTTCTGGCTATAATTGCCCTCATAGTACCCTGATCCCAGACTCCTACTGGATGCC
R
TCCGAAAGAGTTCTCGAAGCCCTCATCTGCGCTATAGGCACAGACCACTCTCCCCAGCCCTGACAACCCTGACCTCACATGCCCTTGGGATTTCCGTTCC
Celera SNP ID:            hCV452401
SNP Position Genomic:     948068
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50740):
AATTAAATGGGACCCAATATGTCATCTAACGTTAGTTCCAGCCAGTGTTTCAGCCACAGGACATCTCGGAAAGGTGGTCATTTGGCTCTTGCCTGAAGCA
W
TCGAGGAAGGAGAGCCCAGTTCTGGAATTAGACAATTATTGTTCTTACCCTTGAACCAGCCACTTACCTGCTGCGTTCCCACTCTTGGCCAGGGGCCAAT
Celera SNP ID:            hCV27989788
SNP Position Genomic:     806708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50741):
ACATCAAAGACAGATGTAACAAAATGTTTAGAGATCCTTCCATTGGACTTGGGTCCTAACTTGTTCTTTAAAGAATGGGAAACACAAGAAGTAACAGAGT
K
AGAAGGACTTCTCAGACGAGGAACATGAACACAGGTGGAGTTCCCTTGGCCTAAGTTTTCTTATCAGTAGAATGGAAGAGATAAATAGACCAGAGGTATC
Celera SNP ID:            hCV26379806
SNP Position Genomic:     247616
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,6)      total(G,6|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50742):
TACTGGATGCCATCCGAAAGAGTTCTCGAAGCCCTCATCTGCGCTATAGGCACAGACCACTCTCCCCAGCCCTGACAACCCTGACCTCACATGCCCTTGG
S
ATTTCCGTTCCTCTTCCACTGTTCTTTTTTTTTTTTTTTTTTCTTAGTTGCAGAGTTTTTCGGAAGGACTGATTACCGAGTCTCTTCTTTCCCCAAGAGT
Celera SNP ID:            hCV452402
SNP Position Genomic:     948157
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50743):
TATGAGTCAGGGCCTGGATCTGCCGTCCATGTTCCATGGGACAGGCCAGGGGTTCAGATGTTCCTCATAGACAAGGAAGGAGCCTCCAGGTCGGCCACTC
Y
CAGATTTCCTAGCTTGGAACAGACATCCGGGTGCATCCTCCACACAGAGTCATTTTCAGGGTATGCATAAGTTATTGCTATCAGGTGCATTTACCATGCA
Celera SNP ID:            hCV27989789
SNP Position Genomic:     590645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50744):
GGTGAAGAAGCGACTAAAGCAGTGATTGTAGGGCATTTGAACTTCATGGACCAGTAATTTTTTTAAATCCTAGATTGATGAGAGTGTATTTTAAAAAATT
T
GCTAAGACTTGGTATGAATTTTTTAAAAGTAAGTAAATGAAGGGAGGGGAAAACACTACCGCCATTTACTTTTGCCAGGCTTTCCTTTTAAAAGGTCACT
Celera SNP ID:            hCV26379807
SNP Position Genomic:     242944
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50745):
ATTTTTATGCTTGTATATGAGTTGTTGGGTCAGCAAAATTTGATTAGCCCCTCTTGGTGAAACCGTATGTCCATGTATATTACTAAGGTAAAAAAAAAAA
A
TCCAAAGCAGATCTGGTTAGGTACTTTCAAGTTCATCTCAAAGCAATGAACATATTATGAGTATAGAGCCTGCAGATAAGGTTAATGGTGCCTAAATGAG
Celera SNP ID:            hCV26379808
SNP Position Genomic:     239698
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50746):
AAATTATTGACTATTTTACATTCTTTTCCTTATTTAGACATTGAAATCCAGTGTGTATTTTATACTTACAACATGTCAGTTTCAGACCTATGACTGTTAA
A
GTACTCAGTAGCCACCGGTGGTTCATGGTCACCATATTGGGCCACAGTGAAGGCTTAACAGGTCCTGGATTCCTTTTAGAAGTAAATTCCAACAGAATAG
Celera SNP ID:            hCV26379809
SNP Position Genomic:     236901
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50747):
AACCCGGATGCAAGCACCACAGCTATGGGAACAGGTGGCCAAGGATTACACAGTTGGAAAGAGAGGCCCCCTCTGACACCTGTAGCACTGTGGCATGGGA
R
GTGCTGGTCTTCAGGGGTGGGTCACCGTGGTGACATCTCCCGCAGTGGCCCTGATAAGGGAGGAGGCAGCAGCAGTTGGCACATGGTATGGAAGCTGACA
Celera SNP ID:            hCV11673710
SNP Position Genomic:     608601
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50748):
AGCGTGTACACTGCTCTCTTCCTGGCAATTGACAGTGGTGAGTACTTGACAAAGACCATCAAGGGTATACTTTTCTGCTACAAATATACTTTTACATTTT
Y
AAATTTCTTCTGATACACCCAGGGGTGTTCTTGGGAAGAATGTAAGTGTGTGGGAACAGCAAAGTAAATGTTTAAATATACACATGTTGAGTTCAGTAAT
Celera SNP ID:            hCV7624500
SNP Position Genomic:     1130558
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,27)   caucasian(C,3|T,37)   total(C,14|T,64)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(C,71|T,1406)   total(C,71|T,1406) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50749):
ACAAAATATCGGAGCCTGGGTATTTATAAAGAAGAGAATCGTATTGGCTGTCATTTCTAGAGGATGGACAATCCAAGGTCAAGACACCAGTAGGTTTGGT
R
TCTTGTAAGGCCATTCTCTTCTTGCAATATGGTGCCTGGCACCTTGCACCCTCCAGAAGACAGGAAGGCTGAATTCTCATATGGCAGAAAGTGGAAGGGC
Celera SNP ID:            hCV11673714
SNP Position Genomic:     604554
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50750):
TCCCACTTCTTATGTCAGTGGTAGAACTTTTGAGGGAGACAGAGAATTACGCATTTCATTAGGTTTTGCAAATGTATTGTACAATTGTGCATAACATTTT
S
TATTTAAAAATCTCATATCTATTGTTATAGCCCTATCTCATATCTCATTTTTTTAGTGCCTTTTGCTTGTTATTGATTCTATTTGCCTGTTTGTCTATTT
Celera SNP ID:            hCV11441003
SNP Position Genomic:     1163595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,10)      total(G,1|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50751):
TTATACAATATTTTTATAATAATACACATTCTGCTACCAACACTCCCCATATATTAAGTATTAGTAAACATTGAATTTTTTTTTTTAGATTAAAAAAAAA
A
GACTTGGCAGTATTTTTTTCTTACCAACAAGGGATTTTCTTGTGGTCCTCACTTTGAGACTCCTGATCTACAGATGACAATCATCAGCAGGTTGCCAAGG
Celera SNP ID:            hCV26613270
SNP Position Genomic:     1170589
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1)   total(A,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50752):
GAGGCAGGATGATTGCTTGACGCCAGGAGTTTGAAATCAGCCTGGGTAACATAGTGAGACACCGTCTCTACAAAAAATACAAAAATTATCCTCTTAGATG
Y
AAATGCTAAAAAAATAAAGTTAGCCAGGTGTGGTGGCGTGCACCTGTGGTCCCAGCTACTTGGGATACTGAGGTGGTAGGATTGCTTGAGCCCAGGAGGT
Celera SNP ID:            hCV11441004
SNP Position Genomic:     1161787
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50753):
AGTGTTTGGTTATTTTTATACAATATTTTTATAATAATACACATTCTGCTACCAACACTCCCCATATATTAAGTATTAGTAAACATTGAATTTTTTTTTT
T
AGATTAAAAAAAAAAGACTTGGCAGTATTTTTTTCTTACCAACAAGGGATTTTCTTGTGGTCCTCACTTTGAGACTCCTGATCTACAGATGACAATCATC
Celera SNP ID:            hCV26613271
SNP Position Genomic:     1170574
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50754):
CCAGGCGTGGTGGCAAGCACCTATAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGCCAGGCAGAGGTTGCAGTGAGCCGAGATC
R
CACCACTGCACTCCAGCCTAAGCGACAGAGCAAAAAACAACACCTGCAGAGATCCAGGAGCAACTGGAACTCAAGAATAACAGAGTTTGGATAAATCGGA
Celera SNP ID:            hCV26613272
SNP Position Genomic:     1169996
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50755):
AGTTCAAGACCAGCCTGGCCAACATGGCCAAACCCCGTCTCCACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCAAGCACCTATAATCCCAGCTACTC
K
GGAGGCTGAGGCAGGAGAATCGCTTGAACCTGCCAGGCAGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTAAGCGACAGAGCAAAAAAC
Celera SNP ID:            hCV26613273
SNP Position Genomic:     1169934
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50756):
GGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCCAAACCCCGTCTCCACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCAAG
Y
ACCTATAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGCCAGGCAGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGC
Celera SNP ID:            hCV26613274
SNP Position Genomic:     1169913
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50757):
CATGTTGTCCAGGCTGGTCTCAAACCCCTGACCTCAGGTAATCTGCCTGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCACACCCAGC
Y
CCTTCCTTTCTCTTTCTTCAGAAAGTAAAATATTACAGGCAAAGGTAAAATTGCCTATGTTTCTCTGCCCAATTTTATTTTCTGTTCTCTCTCCTCAGAA
Celera SNP ID:            hCV26613275
SNP Position Genomic:     1168985
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50758):
GAATTTATGCCAAAACATGTTGATAAAATATATGGCTTCGGGAACTTCCATGTAGGATACAGTACGGAAGTGTCCCCACTGTGAAACTAGAAAAATCTAG
W
TAAATTATAAAAATCAGATAATATAAAAAAATCTTAATTGTAAAGGAATCAGGGAGCTGCAGAAGCATTGACAACTAGATAAACTAAAATACCAAAGAGG
Celera SNP ID:            hCV2391535
SNP Position Genomic:     1136069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50759):
TTACTGCAACCTCCGTCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAGGTAGCTAGGATTACAGGCATGCACCACCATGCCCGGCTAATTTTT
S
TATTTTTAGTAGAGACGAGGTTTCACCATGTTGTCCAGGCTGGTCTCAAACCCCTGACCTCAGGTAATCTGCCTGCCTCGGCCTCCCAAAGTGCTAGGAT
Celera SNP ID:            hCV26613276
SNP Position Genomic:     1168858
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50760):
TATTTATTTATTTTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTACAGTGGCGTCATCTCAGCTTACTGCAACCTCCGTCTCCCGGGTTCAA
R
TGATTCTCCTGCCTCAGCCTCCCAGGTAGCTAGGATTACAGGCATGCACCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGAGGTTTCACCAT
Celera SNP ID:            hCV26613277
SNP Position Genomic:     1168787
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50761):
TTATGTTTTCCACTAGCAGTTGTATAGTTGTAGGTCTCACATTTAGGTCTTTAATCCATTTTGAGCTGATTTTTGTATATGGCATGAGGTAAGGGTCTAA
S
TTCAGTTTTGCTTGTGGATATTCAGTTTTCCAAACACCATTTGGGGCTGCTCATTTCCCATTGTGTAGTCCTGGCACCTTTGTCAAAAATAATTCAGCCA
Celera SNP ID:            hCV27989790
SNP Position Genomic:     623379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50762):
AAACATATTTCTCCCTCTTTTCTTTTGTTCTTTTTTTCTTCTTTCCTTTGTCTTTCTTTTCTTTTTTTCCTTTATTTGTTTACTTATTTATTTATTTTTT
T
GAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTACAGTGGCGTCATCTCAGCTTACTGCAACCTCCGTCTCCCGGGTTCAAGTGATTCTCCTGCCTCA
Celera SNP ID:            hCV26613278
SNP Position Genomic:     1168703
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50763):
ACTGTACATTCAATTAAACCTCTTTCTTTTTTAAATTGCCCAGTCTCTGGTATGTCTTTATCAGCAGCATGAAAATGGACTAATACATCATCCTATCTGA
Y
TAATACAGGAGAGGGAAAAACTCATAGCACCATATGTCATCTGGAGCCTCTCCAATCTTTTTTTTAATAATGCCCAATTTACAGTTTTATAAAAATTACT
Celera SNP ID:            hCV2391538
SNP Position Genomic:     1137113
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50764):
TCATTCCCCGGGTATGTAGTTAAGGCCATGGTTGTGAAGTATCCGCATGATGCATCTCCACTATACACCGTGCTTGTGGCAATGGAGGAGGCAAAGGACC
M
CAGAGGAAGGACCCTTAGGTGGAAAAGCCAACTCTGTCCATGCCCCACCTGTAAATGTTTGTGTTGCAGAACTTTCCCCTTAGTTCAGCTAAAACTGAGT
Celera SNP ID:            hCV315532
SNP Position Genomic:     487095
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50765):
GAAACATATTTCTCCCTCTTTTCTTTTGTTCTTTTTTTCTTCTTTCCTTTGTCTTTCTTTTCTTTTTTTCCTTTATTTGTTTACTTATTTATTTATTTTT
T
TGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTACAGTGGCGTCATCTCAGCTTACTGCAACCTCCGTCTCCCGGGTTCAAGTGATTCTCCTGCCTC
Celera SNP ID:            hCV26613279
SNP Position Genomic:     1168702
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50766):
CCGGGTATGGTGGCGGGCGCCTGTAGTCCCAGTTACTCGGGAGGCTGAGGCGGGAGAATGGCGTCAAGCTGGGGGCGGAGCTTGCAGTGAGCAGAGATCA
Y
GCCACTGCACTCCAGCCTGGGCAACAGAGAGAGACTCCATCTCAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAAGAAAAATACTAGCTGGGTGCAG
Celera SNP ID:            hCV26379810
SNP Position Genomic:     235374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50767):
TGTTGCAGAACTTTCCCCTTAGTTCAGCTAAAACTGAGTTCTTGTCAAACAACCAGGAAAGACTGGGCTCACAGCCACATAAAAGGGTGAGAAACAGAAG
Y
TATTGGACAAAAAGGAATAATAACTCTCAGCAAAGCGAGAAAGGGTCCTGCTTGCAGGTCTCCCGCCTCATAGATTGAATCCCAGGTTACCACAGAAACA
Celera SNP ID:            hCV315533
SNP Position Genomic:     487257
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50768):
GTCAGCAGATCGAGACCATCCTGGCGAACACTGTGAAACCCCGTCTCTACTAAAAATAGAAAAAATTAGCCGGGTATGGTGGCGGGCGCCTGTAGTCCCA
S
TTACTCGGGAGGCTGAGGCGGGAGAATGGCGTCAAGCTGGGGGCGGAGCTTGCAGTGAGCAGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGAG
Celera SNP ID:            hCV26379811
SNP Position Genomic:     235305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50769):
ACTAGCTGGGGCCGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGCAGATCGAGACCATCCTGG
Y
GAACACTGTGAAACCCCGTCTCTACTAAAAATAGAAAAAATTAGCCGGGTATGGTGGCGGGCGCCTGTAGTCCCAGTTACTCGGGAGGCTGAGGCGGGAG
Celera SNP ID:            hCV26379812
SNP Position Genomic:     235229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50770):
AGTAATTTGAGTGATGGCAGAAATTGGTTTAAGAAAAATACTAGCTGGGGCCGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGG
Y
GGGTGGATCACGAGGTCAGCAGATCGAGACCATCCTGGCGAACACTGTGAAACCCCGTCTCTACTAAAAATAGAAAAAATTAGCCGGGTATGGTGGCGGG
Celera SNP ID:            hCV26379813
SNP Position Genomic:     235190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50771):
GGCCGAGGCAGGCGGATCACGAGGTCAGGATATCGAGACCACCCTGGCCAACATGTTGAAACTCTGTATCTACTAAAAAAATACAGAAAATTAGCTAGGC
R
TGGTGGCTGGCACCTGCAGTCACAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAAACCAGGAGGCGGGGCTTGCAGTGAGCCAAGATCGTGCCAC
Celera SNP ID:            hCV26379814
SNP Position Genomic:     233304
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50772):
AGGATGTTGGTTCAAATTTTGTGTGAAAGCAACAATAGGGCCAGGTACGGTGGCTCATGCCTGTAATCCTAGCCCTTTGGGAGGCTGAGGCGGGCGAATC
R
CAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCACTACTAAAAATACAAAAAATTAGCTGGGCATAGTGGCGGATGCCTGTAAT
Celera SNP ID:            hCV26379815
SNP Position Genomic:     230258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50773):
TAGCATTTTTTAGTAAAAACGTATTTTTAAATTAAGGTATGTACATTGTTTTTAGAAATAATGCTATTGCATACTTAATAGGCTACATTATAGTATAAAC
R
TAACTTTTATATGCACTGGGAAGCCAAAAAGTTCATGTGACTCACTTTATTGTAATATTTGTTTTATTGCTATGGTCTGGAACCGAACCTGCAGTATCTC
Celera SNP ID:            hCV26379816
SNP Position Genomic:     229976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50774):
GTGATTCCTCTGATGGATCAAGACAAAATGAGTCAAAAACCTGCTGAAAAGGATTCACCATTCTAGATGCCCACTAAGAACATTTGTGATTCATGGGGGG
G
TGGTTAAAATGTCAAAAATAACAGGAGTTTAGAAGATGTTGATTTCAATCCTCATGGATGATTTTGAGAGGTTCAAGACTTCAGTGGAGGAAGGAAGTGC
Celera SNP ID:            hCV26379817
SNP Position Genomic:     229274
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,6)   total(G,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50775):
AGGCCAAGGCAGGAGAATCGGTTGAACCAGGGAGTAGGAGGTTTCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGTGACAGAGTGAGACTCCGT
S
TCAAAAAAATAAATAAATAAAATAAAGTGTGAGGTGAAGCAGGAAGTGCTGATATAGAAGCTGCAGCAAGTCATCCAGAAGATCTAGCTAAGATCATTGA
Celera SNP ID:            hCV26379818
SNP Position Genomic:     228539
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50776):
AATTAGCTGGGTGTGGTGGCACGTACCTGTAATACCAGCTACTCGGGAGGCCAAGGCAGGAGAATCGGTTGAACCAGGGAGTAGGAGGTTTCAGTGAGCT
R
AGATCACACCACTGCACTCCAGCCTGGTGACAGAGTGAGACTCCGTCTCAAAAAAATAAATAAATAAAATAAAGTGTGAGGTGAAGCAGGAAGTGCTGAT
Celera SNP ID:            hCV26379819
SNP Position Genomic:     228492
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50777):
AAAATGATTGAGTTTATATTTGAGGCAGGAAATAAACAAGAAGAATCTGTAAAATCTTGTCATACCAAGAAGCAGAGAGGCTATGAGATGTCATTAGGGT
S
ATGTCATTTAAAGAAGCCAGTATGAGTAGCTCAAAGATGAGATAATTTGAGCCTCAAAACAAAATAAGTGATTTCAATGGATTTAAATACACTAAATCTG
Celera SNP ID:            hCV16050500
SNP Position Genomic:     203153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50778):
CAGGTTTCTAAGAACATCTTAATGAAAATAACAGAACTCAGAAAATCCACTGTCATTTTGTCCAGAAATATTTTGTTAGCATTGGGATGCAGCAATGCCA
Y
TGACAAGAAACCCATGTGGACCACCTTTTAATGCTTAATGAGCCTTTCTTCCTAGCATGCATTCCAGTGGGAGAGAGGACAGAATAAACGTGATTAAATT
Celera SNP ID:            hCV12109519
SNP Position Genomic:     841147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50779):
TATTTTAGAAACGGAAAGGAAAAAAAAACATAAACAACTATCCTGCCTTTGTTTTCAGAATTCCTTGTAGAAATAATTAACTAGTGGATGAAGAGAGTTT
S
TCTTTCTAGGTAATAAGCAACGAAAAAATGGCAGAATTAGAATATAATGAATTTGCAGTTCTTACTAAATTAATATATCTAGGCAGTAACCATCAATAAA
Celera SNP ID:            hCV16050501
SNP Position Genomic:     203436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50780):
AGACTGCAAAAAAATTTGTTAGAATAATATGAACAAAGACTAGATGTTTGCTGCCATTTAGAAATTCTCATTAGTATTTGTTCAGTTATGATAATGCATG
S
TGCTTCTGTTAAAAAAATACTTTTAATCTTTTACAGATACCTTCTAAATATTTATAGATGAAATCATATGATATCTAGAATTTTCTTTAAGACAATCTGT
Celera SNP ID:            hCV16050502
SNP Position Genomic:     203958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50781):
TTAGGGCTGTGAATGTAATTTGTTTTGTATTTTCAGCTGGTAACGCACTTTCTGAAACTTTATAATGCCCAAATTTTTAGGCCAGATGTAAAAATGGAGA
K
AATTTCTTTCTTTCTTTCCATGGTAAGTGTTACATAAGGACTTAGTCTTAGATTTATGTGCATTTACTTGCTATGAGATATTCAAGAGTCCTTGAATATG
Celera SNP ID:            hCV15984120
SNP Position Genomic:     873802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50782):
GGAAACATATTTCTCCCTCTTTTCTTTTGTTCTTTTTTTCTTCTTTCCTTTGTCTTTCTTTTCTTTTTTTCCTTTATTTGTTTACTTATTTATTTATTTT
T
TTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTACAGTGGCGTCATCTCAGCTTACTGCAACCTCCGTCTCCCGGGTTCAAGTGATTCTCCTGCCT
Celera SNP ID:            hCV26613280
SNP Position Genomic:     1168701
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50783):
TGAAAGGAAACATATTTCTCCCTCTTTTCTTTTGTTCTTTTTTTCTTCTTTCCTTTGTCTTTCTTTTCTTTTTTTCCTTTATTTGTTTACTTATTTATTT
A
TTTTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTACAGTGGCGTCATCTCAGCTTACTGCAACCTCCGTCTCCCGGGTTCAAGTGATTCTCC
Celera SNP ID:            hCV26613281
SNP Position Genomic:     1168696
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1)   total(A,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50784):
AGGGCGTTGGGGAATGGTAATGAATGGACGCATGGACAGACAGATGGATAAATGAAAGGAAACATATTTCTCCCTCTTTTCTTTTGTTCTTTTTTTCTTC
Y
TTCCTTTGTCTTTCTTTTCTTTTTTTCCTTTATTTGTTTACTTATTTATTTATTTTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTACAGTG
Celera SNP ID:            hCV26613282
SNP Position Genomic:     1168644
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50785):
AGGAAAGAGGTAGAAAATGCAGGTAGAAAGTCAGGCAGGTCCAGATGGATCCTCTAGGACCTTAGAGACCATGGTTAAGAGTTTGGATTTTATTCTATAC
M
CCATGGGAAGTCATTGGTGGGTTTTAAGCCGGGGATTCACACTCTGTGATTTAACACTGGCTGCTCTTTGGAGAATGGACTGTAGCAAGCAGAAGAGAAG
Celera SNP ID:            hCV7624519
SNP Position Genomic:     1122495
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50786):
AGATGCAATTCATCTTCTCATTCTCAGGCAGGAAATCTGCAGTTCCCGGAGATGATTTGGCTCCACCTCAAGGATTAGCCTGCACACCCATACACCCCAC
R
CAAGCCAGGGTCCAGCATCCCAGGGTCCACTTTTCTTGGCCAGAGGAAGCTGGAACAGAAAGGGAATGCTAAATAAAAGCATGGGAACATGTGGGCAGAC
Celera SNP ID:            hCV8094432
SNP Position Genomic:     415342
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50787):
TAGTCCCAGCTACTCGGGAGGCTGAGGCAGCAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCATTGATCTCCAACCTGGG
Y
GACAGAGCAAGGCTCTGTCTCAAAAAAAAAAAAAAAAAGGAAACAAGAAGCCATTATAGCATTTCACTGGCCCTTCAGACTGGGCATTTCTGAAAGCGAA
Celera SNP ID:            hCV26613283
SNP Position Genomic:     1166708
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50788):
TATGGTGAAACCCCATCAGTACTAAATATACAAAAATTAGCTGGGCATGGTAGTGTGTGCCTGTAATCCCAGCTACTCGGGAGGCTAAGGCAGGAGAATC
R
TTTGAACCCAGGATGCGGAGGTTGCAATGAGCCAAGATTGCACCACTGCACTCCAGGCTGGGCAACAGAGTGAGACCCTGTCTCGAAAAAAAAAAAAAAA
Celera SNP ID:            hCV26613284
SNP Position Genomic:     1164749
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50789):
GGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCATGGCCAATATGGTGAAACCCCATCAGTACTAAATATACAAAAATTAGCTGGGCATGGTAGTGTG
Y
GCCTGTAATCCCAGCTACTCGGGAGGCTAAGGCAGGAGAATCGTTTGAACCCAGGATGCGGAGGTTGCAATGAGCCAAGATTGCACCACTGCACTCCAGG
Celera SNP ID:            hCV26613285
SNP Position Genomic:     1164706
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50790):
AATGTAGAGCTGTGGACAGAGGATTGATCAAAAAAAACAAAAACAAGGCTGGACTCAGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCCGAGGCA
K
GCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCATGGCCAATATGGTGAAACCCCATCAGTACTAAATATACAAAAATTAGCTGGGCATGGTAGTGTGT
Celera SNP ID:            hCV26613286
SNP Position Genomic:     1164606
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50791):
AGAGGGGGGTGAGCATCAGGATAAATAGCCAGTGCATGTGGGGCTTAATACCTAGGTGATGGGATGATTTGTGCAGCAAATCACCATGGCACATGTTTAC
S
TATGTAACAAACCTGCACATCCTGCTCATGTACCCCGGAACTTCAATTAAAAAAAAAAAGAAGAAAAAAAAAAAGATTGTATCCTCTACTAAAGGAAGAT
Celera SNP ID:            hCV26613287
SNP Position Genomic:     1163979
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50792):
CTGAGGCAGGGGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGTCGAGATTGCGCCATTGCACTCCAGCCCGGGCGACAGCGCGAGACTCCATCT
M
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTCTTATATATGATAAAGGGCTTTGTAAACCACTAAACTTTATACCAAAAAAATCTATTATTGTTAGT
Celera SNP ID:            hCV26613288
SNP Position Genomic:     1161504
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50793):
GTACTAAAACTACAAAAAAATTAGCCGGGCATGATGGCAGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGGGAATCGCTTGAACCCGGGAGG
Y
GGAGGTTGCAGTGAGTCGAGATTGCGCCATTGCACTCCAGCCCGGGCGACAGCGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV26613289
SNP Position Genomic:     1161436
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50794):
ATATATATCAGCTATCAATATAAATAATAACTAGCACATAACACCTACTGTGAGCCAGTTTCTGTCCTGAAACATTTGATTTGTGTTTACTCATTGACTC
M
TACAACCAATGGGAGTAGACACAATTATTAGTTGTGTTTTGCAAATGAGGAAACTAAGGCAAAGAGAATTTAAGTAACTTGCTCAGGGTCACATAGAAAC
Celera SNP ID:            hCV26379820
SNP Position Genomic:     225505
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50795):
TATTATATAAGAAATATATATCAGCTATCAATATAAATAATAACTAGCACATAACACCTACTGTGAGCCAGTTTCTGTCCTGAAACATTTGATTTGTGTT
K
ACTCATTGACTCATACAACCAATGGGAGTAGACACAATTATTAGTTGTGTTTTGCAAATGAGGAAACTAAGGCAAAGAGAATTTAAGTAACTTGCTCAGG
Celera SNP ID:            hCV26379821
SNP Position Genomic:     225492
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50796):
GGCATGAGCCACCGTGCCAGCCACACATTTAAAATAATGATAATAGTAAGCCCCAATTATACTATAAAGGAACAACTAATTTAGAATAGGAGGTCTAGGT
M
AATATGCAAATGCAAATACTCTGGCGCAACCCCCCTGGAAAACATAATGAAGTGGTCCCGCCAGAGTATCCTCACACAGGGTCACCACCAACACATTGCA
Celera SNP ID:            hCV16102073
SNP Position Genomic:     772944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50797):
TTTCCCATGTACCAGGGACATGGGGGAGGGGAGGATTTGGGGATGATTCAAGCACATTACATTTATCGTACACTTAATTTCTATTATTATTACCTTATAT
W
ATGAAATAGTTATACAACTCACCAGAGTGTAGAATCAGTGGGAGCCCTGAACTTGTTTTCCTGCAACTAGACAGTCTCATCTAGGGTGATGGGAGACAGT
Celera SNP ID:            hCV26379822
SNP Position Genomic:     221769
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,4)   total(A,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50798):
ATTTTCCCATGTACCAGGGACATGGGGGAGGGGAGGATTTGGGGATGATTCAAGCACATTACATTTATCGTACACTTAATTTCTATTATTATTACCTTAT
A
TAATGAAATAGTTATACAACTCACCAGAGTGTAGAATCAGTGGGAGCCCTGAACTTGTTTTCCTGCAACTAGACAGTCTCATCTAGGGTGATGGGAGACA
Celera SNP ID:            hCV26379823
SNP Position Genomic:     221767
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50799):
CCTAGGTACCTGGTGGCCTCTGAGCCATTGGGAATATGCTTGTGGAAATACACCCTCCTCTCGAGGAAGCTATGGTCTTGTAGCTGAGACTGATCACCCA
R
CAGACAATGGTAAACCCAGTGTGCCAAGCTCTAGGCAGAGGATAAAACCACGAAGACAAGCAGAATGGAAGAGGAGGAAAATATAACACTGCCTCGGGAA
Celera SNP ID:            hCV12109520
SNP Position Genomic:     844889
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50800):
GCTTTGGTGCCAGATGCACATTTGAGGAGTAGGTGGCTAGTCAGACTCTCACCTGAGCAGTTAATAAAATCTATTGCCCCTTAATGGAATTTTTTCTGCA
R
GCTCGAATTGATCTGTCATCTTTGTGATTTGTGAGATGGCAGGGAAGCACCAAACACCATCATGACTTGGGCCACAGTGGGGGGAAAAAAGGAAAAAAGA
Celera SNP ID:            hCV27851860
SNP Position Genomic:     5506
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:50801):
ATAAAACCAAAATTGTGGTGGCCCATTTTGTTCCATTACTGGAAGGGTTTTCCAGGCTGTTTTAACTCATACATAGTGTAACCCTTTCCCTTATTACAAA
A
TTTCACTCTGGGAAAGAGCAAAGCTGTACTTTGTGGTACAGTGTTATGATGGTTTATGTTCATGAAGGTCCTACAAAAATTCAGAAACATTCTTAATCCA
Celera SNP ID:            hCV26379824
SNP Position Genomic:     220731
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50802):
CTTGTAGCTGAGACTGATCACCCAACAGACAATGGTAAACCCAGTGTGCCAAGCTCTAGGCAGAGGATAAAACCACGAAGACAAGCAGAATGGAAGAGGA
K
GAAAATATAACACTGCCTCGGGAAGGAGTGTTGGGGCAGACTTTCTAGTGTAATGAAAGATGAGCAGAAATTATTTGAGATGAAGCAGGAACAACCTGGG
Celera SNP ID:            hCV12109521
SNP Position Genomic:     844965
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,7)   total(G,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50803):
AAAAGGAAAAAAAAAAAAAAACTTGGCCGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCCAGGTGGACAGATCATTTGAGGTCAGGA
S
TTTGAGACCAGCCTGACCAACATGGTGAAACCTCGTCTCTACTAAAAACACGAAAGAAACAGCCAGGTATGGTGGCACGTGCCTGTAACCCCAGCTACTT
Celera SNP ID:            hCV26379825
SNP Position Genomic:     219520
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50804):
CTGAGACTGATCACCCAACAGACAATGGTAAACCCAGTGTGCCAAGCTCTAGGCAGAGGATAAAACCACGAAGACAAGCAGAATGGAAGAGGAGGAAAAT
R
TAACACTGCCTCGGGAAGGAGTGTTGGGGCAGACTTTCTAGTGTAATGAAAGATGAGCAGAAATTATTTGAGATGAAGCAGGAACAACCTGGGGCAGGGG
Celera SNP ID:            hCV12109522
SNP Position Genomic:     844972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50805):
CTTTATTGCCCTAAAATGTCTCTGCCTTCAAACAAGTGGGCTAAAGAGGGAGGGCCTGATGCTCTGAAAAGGAAAAAAAAAAAAAAACTTGGCCGGGTGC
R
GTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCCAGGTGGACAGATCATTTGAGGTCAGGACTTTGAGACCAGCCTGACCAACATGGTGAAACCTC
Celera SNP ID:            hCV26379826
SNP Position Genomic:     219454
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50806):
AGTAAAGTACCCAAAATGCAGCGATTCACAATAAAAACAGTTCATTTCTTCCCATTATCTCTATCCTCCAGGGACTGGCTGGGGGCTCGGCTCCATGTCA
Y
CCTCTCTCTGGCATTCAGGCTGACAGAGTGGCCACTTTGCAGAACAGCGGCAGTGGTTGTGCAGAGGAAGATGGCATACCACACTACACACAGGCTCTTG
Celera SNP ID:            hCV12109523
SNP Position Genomic:     845295
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50807):
CATGAGCCTAATTTGAAAAAAACCTGGTTCACAGAGGGCTGCTTAAGAAGTTGATGGTTTTGTTTATACTCAAAGTCATTGTGGGGACCTCTATTTTCAC
S
TTTTTTGGCCTAGGTTGTCCCAGTACTTCTCTCATTCTGTGATTGATGTCATAGGTGACAAGTGTGATGGGTCACTTCACTGGCCTCTCCAGGCGGTTTA
Celera SNP ID:            hCV26379827
SNP Position Genomic:     217761
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50808):
CTCCTGCTTGTAATCCCAGCGCTTTGGCAGGCCACAGCAGGAGGTTCACTTGAGCTTAAGAGTTCAAGACCAGTCTGGGCAACATAGTGAGACCCCCATC
W
TTATAAAAATTTTAAAAATTTAACCGGGCATGGTGGTGCACACCTGTGGTCCTAGAAACTTGGGAGGGGCTGAGGTGGGAGGACCACTTGAGCCCAGGAG
Celera SNP ID:            hCV12109524
SNP Position Genomic:     845537
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,6)      total(A,6|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50809):
GTATCATTCTAAAGTTATCCTTTGTCCTTCTTTTATTCTTGTTCATGGGTATCTCCACTAGAAGGAGGATATATTTTTCTGGCAGAAGAACATGCCCGTC
Y
TATTTATTGTGTTATCACTAGTGTCCACTATAGGGATGGACAGGTGGTAGGTGTTCAATATTTGCCTCATGGATATTGGGAATTACTATATTTATTGTTC
Celera SNP ID:            hCV26379828
SNP Position Genomic:     217364
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50810):
ACTCTTTTCTGCCCAGGACTAGAGGTCATAAGGCCCCTACTAACTCTCTGGCTTCATCCCCAGTACTACCTGTTAACCAACCTGACATTCCTCCCATCAC
Y
CCGCAGATCCTGGCCCCAAAGCCTTACCTTGGTGCTAGCAGCTGCCTCTGTTTTGAAAGCTCTTCCCCTGAGTTCTCCATGACCAAGTCCTCACCCTTTT
Celera SNP ID:            hCV26379829
SNP Position Genomic:     217110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50811):
TCCAAGTTTTGAAGAGGATTGAAGTAGAACTGGATGGAGATGGGAAAGAGACCAATAAAGTGTTTTTTGTTTTTTAGGTTTTTTTTTTAAGAGGGGAGGA
R
TGAATGAAGAACTTCTTTTATTTTCTTTTCCGGCTTGGAGCTAGCTCTGGTTCCCAAATAGGGTCCTGGGGGAAAGACGTGATGTGAGTCTGGGTGGCTG
Celera SNP ID:            hCV44109
SNP Position Genomic:     517487
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50812):
AACTGTGAAGCCAGCACAGATCTCCCAGAACAGGGAACCCAGAGCTTAGGGCTGGAGAAGGCACTCCCAGAGAAGGTCCAAGCCTAGAGCAGTGACTGTT
Y
GACTTCTGCCCAGGTACATCTTGCTTCTCACCCCATAGGGAAACAACCGCTGGAGGAGCCAAGTGTTCAGTGAGCCGGTGCAGTTCTGGGGCCATAATGA
Celera SNP ID:            hCV12109528
SNP Position Genomic:     856737
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50813):
TATATATACATGAGTGGACTGGAGAGACTGAGGAGGCACAAGTCGAGGAGGAACACATCTTTTATTTTGACTTAATTTTCTTTTTATCCCCTCTCCTTCT
R
CCCCAGGGTTCTTCTCCGTGTGGATCACATTAAGGGAGCGTATAACCTTTCATACCGCCTGACTAGGATGATGGATATGGAAATACACACTTTGGGAGCC
Celera SNP ID:            hCV16050512
SNP Position Genomic:     208301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50814):
GGAGACTCTAGTGTAGTCCCCCAGCCTACTGTAGAGGCTCTTCACATTATCATATTTTATACTGCATAATTTTTGAAGATGATCCCTTTTCTTCCAAATT
S
TAGTACAGGAGAGGTATGCTATTTTTCCATAAGAAAAATCAGACTTACTTTGAAAGAGCAGTAGGATTAGCAGACACTTTGAAATATTACATTAATCCAG
Celera SNP ID:            hCV16050513
SNP Position Genomic:     218881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50815):
GTTTGAGAGTTGAGAGTCTTTTATGTAGTCTATATGCACATCCTTTGTCGGAGATGTGGCTTGCAAATATTTATCTCAATCTGTGGCTTGTCTGTTCTTT
M
TCTTAATAGAATCTTTCACAGAACAAAAGTTTTTAATTTCATGCAAGTCCAATTTATACTTTTTTCTTCTATAGATTGTGCTTTTGGTGTCAACTCTAGG
Celera SNP ID:            hCV15984130
SNP Position Genomic:     1018771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50816):
AATGTTTGAGAGTTGAGAGTCTTTTATGTAGTCTATATGCACATCCTTTGTCGGAGATGTGGCTTGCAAATATTTATCTCAATCTGTGGCTTGTCTGTTC
K
TTCTCTTAATAGAATCTTTCACAGAACAAAAGTTTTTAATTTCATGCAAGTCCAATTTATACTTTTTTCTTCTATAGATTGTGCTTTTGGTGTCAACTCT
Celera SNP ID:            hCV15984131
SNP Position Genomic:     1018768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50817):
TCATATTATTTCGTCCAAACTTACCATATCTTAAAAAAAACTTACCAGCAAACAAATCATCCAACTGCCTTTCATCTATTGAATGTTCTACAGACTTAAC
R
CCATTATCTCGCATGACCTTGATGAAGATAGTAACCCTCCCTTTATCAAAATGGTCAATCTTCATTAATTTATTTTACTAATTAGTTAAAGGCTGGTGTA
Celera SNP ID:            hCV10075918
SNP Position Genomic:     91199
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50818):
CTGAGTTAGGTGCTCATATTAGTTCCATTTAACAGTTGGAGAAAATGAGGCTCAGGGAAATTAAATCACTTGCTCCACATCACACAGCTACTAGGCAGTC
R
ATGCTGGTTTTGAGGCTAGGTGATCTCAGTCCAGAGGCCTCAGCCTTAACCATTCTGCTCTCTCGCCTTCCTGCATTTTATACTCCATACTTCTCTTGGG
Celera SNP ID:            hCV10075919
SNP Position Genomic:     90986
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50819):
GGCGGATCACGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATAGCGAAACCCCATCTGTACTAAAACTACAAAAAAATTAGCCGGGCATGATGGCAGG
W
GCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGGGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGTCGAGATTGCGCCATTGCACTCCAGC
Celera SNP ID:            hCV26613290
SNP Position Genomic:     1161377
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50820):
ATCCCATCTCTACTAAAAATACAAAAATTAGCTGGACATTGTGGTGCACACCTGTAATCCCAGCTACTTGGGTGGCTGAGGCATGAGAATCACTTGAACC
S
AGGAGGCAGAGGTTGCAGTAAGCCGAGACCACACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCACCAAAAAAAAAAAGAAAGAAAGACATTATT
Celera SNP ID:            hCV26613291
SNP Position Genomic:     1160553
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50821):
GAAAAAATATATGTATTTGGTTAAGATGTAATTGTTACCAAAGCACCAGGGGTTTGGTCTGGGTCCTGCTGTTCACTGCACAGAAAGCCAATCACTGAGA
Y
AAGACAAAAGCCAGGGAAGAAGGCTTTAATCGGGTGCTGCTGCAGCCAAGGAAATGGGAGGTCAGTCTCAAATCCATCTCTGAAATGAGGGGTTGATGCA
Celera SNP ID:            hCV7624529
SNP Position Genomic:     1116526
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50822):
AGGCAGGTGGATCACTTGAAGTCAGGCGTTTGAGACCAGACTGACCAACGTGGTGAAATCCCATCTCTACTAAAAATACAAAAATTAGCTGGACATTGTG
K
TGCACACCTGTAATCCCAGCTACTTGGGTGGCTGAGGCATGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTAAGCCGAGACCACACCACTGCACT
Celera SNP ID:            hCV26613292
SNP Position Genomic:     1160496
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50823):
GATCGTACCACTGCACTCCAGCCTGGGCGACAGTGCCAGACTCCATCTCAAAAAAAAAAAAAAATAATAATAAACAAATGGATGCATGAACAAGTGCATA
R
TAGGTAGATAAATACACCTTAGGAGACAGATCAAAATGCAGACTTGAATTTAATTGGCACAGACACTTAATTATGCATCTTGACATCTTTGACCAAAAAC
Celera SNP ID:            hCV16156772
SNP Position Genomic:     161622
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50824):
AGGAATAAAAGAATGGCTACTCCCCGTAGACAGAGCAGCCCCAAAGGCTGCTGGTTGCCCATTTTTGAGGTTATTTATTGATGATATGCTAAACAAGGGG
W
GGATTATTCATGCCTCCCCTTTTTAGATCATAGAGAGTAACCTCCTGATGTTGCCATGGCATTTGTAAACTGTCATGGTGCTGGTGGGAGTGCAGTAGTG
Celera SNP ID:            hCV26613297
SNP Position Genomic:     1152750
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50825):
CTGTTCGGTTTTCTTCCTTCCAGTGTGCTATTCTATAGTAGAAACAGTGCCAGGCCATGGGATTTAGACATCAGAGGCATTTCCAGGTTTATAAAAAGGC
R
AAGACTGTATTAAAGTATTTGCTTTTAAGTTTGTTGGCCAGTTCTTCTCACTGACCCTGGATAGGTCTAGGCTACTCTCAGCTTACCTACCATGTCTTTG
Celera SNP ID:            hCV16156773
SNP Position Genomic:     182126
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50826):
CCATGGCATTTGTAAACTGTCATGGTGCTGGTTGGAGTGTAGCAATGAGGATGACCAGAGGTCACTCTCATCGCCATCTTGGTCTTGGTGGGTTTTAGCC
R
TCTTCTTTATTGCAACCTGTTTTATCAGCAAGGTCTTTATAACCTATATCTTGTGCTGACCTCCTATCTCATCCTGTGACTTAGAATGCCTTAACCGTCT
Celera SNP ID:            hCV26613298
SNP Position Genomic:     1150934
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50827):
AGAAAGAGAGTCAGTTGATGCCTCTTGAGCAGGCATACACTCTCCCTAGGCTGAAAATTGAGCTGCATTAATTCAGAAATATTTACTGAGCAACTACTAT
S
TGTCAAGCACTGCACTGGCTACTGCTTATGGATTCCCCCGAGAAGAATGCCCGTCCTAGGAGAGGGGGCAGACCTGTAAACAGGCAGACAAGCGCTGTGA
Celera SNP ID:            hCV44110
SNP Position Genomic:     517851
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50828):
GCCCATGTTTATAGTTTTTTCTTGATGATATGCTAAACAAAGGGTGAATTATTCATGCCTCCCCTTTTTAGACCATATAGGGTAACTTCCTGATGTTGCC
M
TGGCATTTGTAAACTGTCATGGTGCTGGTTGGAGTGTAGCAATGAGGATGACCAGAGGTCACTCTCATCGCCATCTTGGTCTTGGTGGGTTTTAGCCATC
Celera SNP ID:            hCV26613299
SNP Position Genomic:     1150836
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50829):
GGACATTAGAACCGCCTTATATACAGAAACAGTCCAGCAACAGAGGGCTGGATAAGATTTCACCTTCCTATGATCCACTGTCAGCAGGCTAGATGACATA
M
GCACACAGCCTAGTGGCAGTGGGCTGGGGAGGAAAACTGCAAACATCATGCAATTTATATAACATTTTCCCTTAACACACTCCCCCTAATGACCTCCACC
Celera SNP ID:            hCV15814913
SNP Position Genomic:     848376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50830):
TAAGAAAATACAGTCTATTAAACATAGTTATAGGCTGTCACTATCCACAGTTATAATTAGATTTATAAATCATGTGCAAGATTCCCAGCAAAAAAAAAAA
A
TGAATCTTAAACATTCTTTTCAACTATTATCACCCCAAAATGAAACAAAACAAAATATAGCAACGATATGAAATTGTTTCAGTAACATTGCCATGTTACA
Celera SNP ID:            hCV26379830
SNP Position Genomic:     211656
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,8)   total(A,4|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50831):
GACATTAGAACCGCCTTATATACAGAAACAGTCCAGCAACAGAGGGCTGGATAAGATTTCACCTTCCTATGATCCACTGTCAGCAGGCTAGATGACATAA
R
CACACAGCCTAGTGGCAGTGGGCTGGGGAGGAAAACTGCAAACATCATGCAATTTATATAACATTTTCCCTTAACACACTCCCCCTAATGACCTCCACCT
Celera SNP ID:            hCV15814914
SNP Position Genomic:     848377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50832):
TAAATGCATTAAGAGTCAAGGAGACATTTTTCACGTATTGAAAATAAGATTTGATTGAGTGCTTGCAAGTGGCCTAGTGAAATCTCATTAAACCACTGTT
W
AATACTTTATAAATGGCAGAATATTAACCATTAATTATGAACATGAAACCAGTTTGAAAATAAGTTTTGCAATATCTAAGCTTGATTTTCAACCCTTATT
Celera SNP ID:            hCV26379831
SNP Position Genomic:     211289
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,9)   total(A,2|-,9|T,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50833):
GTGACCAATACTAGTCATGTGGCCCCAGCATAACTACAGGAGAGGCTGGAGAATATATGGGAACCTCCTCACATTCACCAAATGGAATCTTTGGTGAATT
Y
TAAAGATTCCCGGCATGTCCCACTATCTCCTTTTGGGGCTGAGAAAATGAAAGAAAAAACTGACAGGCCAATGTACTGACTGCTCTCTCACCTGGGTCTG
Celera SNP ID:            hCV16102083
SNP Position Genomic:     767155
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50834):
TGCAGTGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAATGAGGGCCTGTCTAAAATAAAAATAAAAATAGATGTGTTTGTGTGTGTGTGTGTGTG
A
TATATATATATGTATACACAAACATATATATATACATATATACACACACACATTCAAAGAAAAAATAATACAAATAAAAATACAGTACAACTATTTTCAT
Celera SNP ID:            hCV26379832
SNP Position Genomic:     207709
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50835):
CCTTTTGCAAGTTATTAATATATGTCACACAGAGCCTGTTTCTCATATTTATTGACCAGACTAAGGAGAGAACATCGTACCCTCTAACCCAGTGGTTGGC
R
CGCTTGAGCCAGCTCATACCAGCTCTCGTGAGACCGTTGTTAATGTCTCTTTCTCACTCTGTCTTCACTGTAGCTTGATATCAGCCATGGCAGGATTGTC
Celera SNP ID:            hCV16102084
SNP Position Genomic:     630593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   WICGR7_african_american_pooled(A,13|G,87)   WICGR6_caucasian_pooled(A,0|G,95)   total(G,182|A,13) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50836):
TTGCAGTGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAATGAGGGCCTGTCTAAAATAAAAATAAAAATAGATGTGTTTGTGTGTGTGTGTGTGT
K
ATATATATATATGTATACACAAACATATATATATACATATATACACACACACATTCAAAGAAAAAATAATACAAATAAAAATACAGTACAACTATTTTCA
Celera SNP ID:            hCV26379833
SNP Position Genomic:     207708
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6|G,7)   total(G,7|-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50837):
ATGAAGCCCATGCTGTCACCACTTTTTTTTTTAATTAACAGTGTCTGTTAAACATGCATGTGATTCAGAATTAGATATCACTCCCCACCCTCATGAAATC
M
TCTTTAAATACTTGATTTATTATTTATTTTCCACTAGAATACTTCTGGATTTTTCATGAAGCCTGAGGGAAAATGAGAAGTTATTATCTACATCATTTTT
Celera SNP ID:            hCV16102085
SNP Position Genomic:     628918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50838):
CAGCCCTTCGTATCCACAGGCTCCACATCTGCGGATTCAATGAACTATGGATCAAAAGTATCCTCTGGCCGAGTGTGGTGGCTCACGCCTGTAATCCCAA
S
ACTTTGGGAGGCCAAGGCAAACAGATGACTTGAGGCCAGGAGTTCAATACTAGCCTGGCCAACATAGTGAAACCCCAATTCACTAAAAATAGAAACCTCA
Celera SNP ID:            hCV26379834
SNP Position Genomic:     207414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50839):
CATGAGTTTAATATTGAGGTTGAGCGATGGATACAGAGAAGTTCATCATACGAATCTCTCCACTTTGATGTTTTCTTGAACTCTCCAATACTAAAAATTT
W
GCCAAAAAAATTAACAGGGGCAACGAACTTTCTTCTTTTTCCAAGGGCTTTTTATCGATGATTTTAAGAAAATGGTCAGACAGCGCAGGCGTGTTTTACC
Celera SNP ID:            hCV26379835
SNP Position Genomic:     204202
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50840):
GGCTTACAGGTAGCTGTATGTTTTACAAGTTGGCCTGAGGCTCCAAAGATGCCTATTCCAAGAGAGAGGCTGGACAAGCTGTACTACCTTTTATGACTTA
S
TGTCAGAAGGCACACAGTGTCACCTTTGCCACATTTCTTTTTTTCTTGGCAGATAATAAGGCCCACCCAGGTTCAAGAAAAGTGGGGCAGCAGGGGAAGG
Celera SNP ID:            hCV26379836
SNP Position Genomic:     202202
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50841):
AAGGTAAATATTCCATTTTCTTATTGGAGTATAACAACCAACGTTTGACTGCAAAAAATGTGGTAGATTATTTTCATTCATATGAATATGCCTGCCCTTT
T
CTCTGGTGGAGTCTGGCCCGGTAAGTCTGTGGGACCTGCCTCTACCAATGAGGGGTAGAGCTTGGTGACTTTTAACAATGATCTCCTCATTAGATGAGGC
Celera SNP ID:            hCV26379837
SNP Position Genomic:     199954
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50842):
GCTTTTCATTTAAAGTTATGATAGCCAACATTTACCTTTTAGAGGTGCTCAAAAGGCCCACTGTACCTTTGGCTTCATAGCTGTAGAAATCGGGCATTTT
M
CAAAAAAAAGGCAGTGACGGTGCCTCACATCTGGCCACAGGCATCTCTCGGCAGCATGCAGGTCATCTAGGGCAAGTCTCTGTAAAGGCCTTTCTCTCTG
Celera SNP ID:            hCV26379838
SNP Position Genomic:     197734
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,8)      total(A,2|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50843):
CTGATATTCAAACTAAGGACTAAAAGATAAAAAAGACCACTTTCTTCCAATGCTTAAAAGATGTTAACAGAAAGAGAGCAAAGCAACAACAAGAAAGAAG
G
AACCCTAAGTATGTTCATCGAGCTACTCACAGAAAACAGAAAATATGATTACAACATAAAGTGATAATTTCCATAAAAGAAAAAGTTACATGAGCACATA
Celera SNP ID:            hCV26379839
SNP Position Genomic:     197452
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50844):
GGAACCTCTGTCTAGATTTCAGAGGATGTGTGGAAACACGTGATGTCCAGGCAGAAGTTTGCTGCAGGGACAGAACACTCATGGAGAACCTCTGCTAGAG
Y
AGTGCAGAAGGGAAATATGGGGTTGGAGCCCCCACACAGAGTCCCCACTGGGGCACTGCTTAGTGGAGCTGTGAGAAGAGGGTCACCATCCTCCATACCC
Celera SNP ID:            hCV27507832
SNP Position Genomic:     357793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50845):
ACCTTGTCCAGGGGAAAGTCAGGACTGGGATCCAGCGTATAGTCACTTGCTACGGCTATTCCCATTATGTTTTGCTGCTGCTGAAACACTGGAACACATT
S
TAAAGTTCAGACACTCAGGAAATACCCCACGGTGATAAGGACAACCGGTGATGCCGATGAGTTCCCACCAGGTGTCAGTGCCTCGAGGACTTGTTTAATC
Celera SNP ID:            hCV10075920
SNP Position Genomic:     90771
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,8)   total(G,4|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50846):
ATATGCAAGATATAATTTTATAGCATTTAATTGCAGTATTTACATTGTTCTTTTTCTCTCTCTCTTTGGTGGGAGAGCTGGCTTTCCATTAGTTAAATGT
R
CATATGATGAGACTTGACTATATTCATTTAAGCCACATTCCTAATCATACAATCTCCACCAGACTGTGCATTACGTAAGGCAAGACCTGTTTTCTCTGTT
Celera SNP ID:            hCV11672001
SNP Position Genomic:     21575
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50847):
TAGGGAAATAATCACCACTTACATTTTTATATATGTCTTTCTAATTTTTCTCTAATCATATGTAGATTTTTAAATTAGGATCACACTATGTTTTTAGTTA
Y
GTCTATTAATGACAAGATATAAAGCACTTATATATATAGCTACTGAACAACAGAACCTGTGAAAAAAAAATCTCAGTGTTTTTTAGCTAAGTGGAAATCC
Celera SNP ID:            hCV29182900
SNP Position Genomic:     1150308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50848):
CTGCTTACATATCTGTTCCTGCCATAGCATTAGCGTTTCAAGAGCAGGCACCTGTACCATTGACATTAGCACATTTCCATCCAGGCAGAGGGTAGAGTCC
Y
AGTAAATGGTTATTGACTGAATGAATAAAATGAAACTGTCATGTTTAAACATGGCCTCAAAATTAATTATTTCCCTTTTTTTCTTTTCTCTAAAGTCAGT
Celera SNP ID:            hCV29182901
SNP Position Genomic:     1147332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50849):
AGTCTCTGCTTCTCCCCAGCTATCTCTTGGCTCAGCTGTCTTTCCAGTCTCAGAGACAGAGAACTGTGTTAACATTAACTTTCACCAGCGCATTGGAGAG
R
CTTTTCGTGGTGTACCTGCTGTCATAAAAGACTAAAGGAAAGAGAAGTGCTAGGATAAGAATCTTTATAGTCTTCAACCTCCAACCTTCCATAGTACGCT
Celera SNP ID:            hCV2392501
SNP Position Genomic:     1163001
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   (A,-|G,-)   Caucasian(G,10|A,72)   African-American(G,11|A,63)   Asians(G,26|A,54)   total(G,47|A,189)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50850):
TCTCCTTCAGTCCTCTGTAAGATAGATGTTCCAATAATGCCAGCTGATTCAAAATTGAAATATTGTTCAAAATATGCTTAGATTGATTTTTTTAAAAAAT
K
GTTATTCAGCCCCAGAGTGAAATGACTACTGAACTACTGAATTTATAGCCCCCAAACTGAGGGTGGGAGGGGCTCTGAACTGAACTTCAGAAAGATACCT
Celera SNP ID:            hCV29182902
SNP Position Genomic:     1145665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50851):
CCTCTTTCTCTTCCTTTTTTCTTTTAATTAAACTCCACAGATTCTTTGTTTGTAACTAGCTTACAAAGAATATTGGCCAACCTGCCCAGTCTCAGACCTT
S
AAAAGATAGGAGTCTCTGCTTCTCCCCAGCTATCTCTTGGCTCAGCTGTCTTTCCAGTCTCAGAGACAGAGAACTGTGTTAACATTAACTTTCACCAGCG
Celera SNP ID:            hCV2392502
SNP Position Genomic:     1162890
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50852):
CCCATAATTCCCATGTGCTGTGGGAGGGACCCAGTGGGAGATAATTGAATCATGGGGGCAGTTTCCCCCATACTGTTCTCATGGTAGTGAATAAGTCTCA
R
GAGATCTGATGGTTTTATCAGGGGTTTCCACTTTTGCGTCTTCCTCATTCTCTCTTTGCCTGCTGCCATCCCTGTAAGATGGGACTTGCTCCTCCTTGCC
Celera SNP ID:            hCV29182903
SNP Position Genomic:     1136875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50853):
CTAAAAGCCAGCTGTTTATGGCTAAAGATTCAGTTTTGAGTCCTTCCATATCAAGATGAATATTTATAGGTGCCCATTGTTATACTCAACAAGGGTGAAC
Y
AAGAGTTCTCAGTCCTGGTCCTCGTATGCCGGCTACTCACACAAACCATTAGGAGACAAGTCTAAGAAGTGAGCAATCCATGTGACACACAATAAGTAGA
Celera SNP ID:            hCV29182904
SNP Position Genomic:     1131486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50854):
AGCTGCTGCTGTAAAACTGCTGAGAAGCAGCTTGGAGTTGGCTCTACTGCAACATCCCTTCTTTCTGTTGCAGTTGTCCATTCCCTTTTATTCTGCCATG
W
CCTGCGCCAAGGCCATCATGCCCACGCCTGCTTCTACTGTCTAAGTAATAAGCTGTCTGCATCTAAAGAGGTCTCCTTGCTTCTTTGCTAGGACTTGCCT
Celera SNP ID:            hCV2392504
SNP Position Genomic:     1159717
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50855):
AAACATTCCAGGGGACCGTGTGAGTCACATCAGGGAGGACACACAGGGCCATGACCCCAGTGAGCCATTAACACACCCATAGCCTGACTCTGCAACGGCT
S
CCCCGAGGGCGCCCCGCACAAGACCAAGCCCTTTGTGTCAGCTTCAGTTTGCCCTCACAGCTACCCCAGAACACCACTGGGACTGTCCCCGAGTCACAGA
Celera SNP ID:            hCV29182905
SNP Position Genomic:     1126939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50856):
CTTGGGAGGTGGTCCAAGGGGAAGTGTAGAGGAGTGGGAAAGTGAGGCAAGGAAGGAAAAGGAAACAGACGAGGGGTCTGTTACTCAGGCAGGTACTGCT
Y
TGGGTGTCTGGAGCTTAACTCCCCTGGGAACCTTTGAGAATCAGTGTGGAATACCTGCTTCCAAGCCATCCCACCTGAGGGGCATGGGAGCTCCAGATTT
Celera SNP ID:            hCV11672009
SNP Position Genomic:     26551
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50857):
AGATGTCAGGTCCTTGAGAAAAGTGGTCCTGGGTTGCAAAACTAGCAACAGGTTGGAAGATTTACATCTCACAGGGACAGAGAAAGAATTTACAATTGCA
M
GTTTCTAAAGTAAATGCTTCAAGAAAAGAGAAGTCAAGGCCTATATTAGTCCATTCTCATACTACTGTATAGCTACTACTCGATACTGGGTAATTTATAA
Celera SNP ID:            hCV2392505
SNP Position Genomic:     1155347
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50858):
CTGGCCAGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAAGCAGGTGGATCGCTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAAC
W
TGGTGAAACCCTGCTCTACTAAAAATAGAAAATTTAGCCAGGCATGGTGGCAGGTGCCTATAATTCCAGATATTTGGGAGGCTGAGGCAGGAGAATTATT
Celera SNP ID:            hCV29182906
SNP Position Genomic:     1125264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50859):
AAAAACTAGAATGTAGACCCCCATGTGCTCAAAGCAACAGCCTGCCTGGTTTGCTTGGACTTTTCCTAGACTGTATGATAACAGGTGCTCGATTCCTCTA
Y
GTAAATCTTCACCTTTTATTAATCATATTACCCTGCTTCTCTTAGAAAACGCACAGTTCTGCCCTCCCTACACCAAGATCACAAAAGGCTAAGTGTAAGT
Celera SNP ID:            hCV2392506
SNP Position Genomic:     1153259
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50860):
TTAATCACCCAATAAAAATAAACTCTGAGAACAAACACAGAGGGGTGATTAACTTTCCCATTCTGGTCTTCTGACATCCCGGTTTGCTCTCCCAGTGAGC
S
TGTTTCTTTGAGATAAACCACCCTGGGAAACTGATCACCTGTCCAGACACCACCATGCCTTGGCGTAAGTGGACAAAAGTGGAACGTGACCTGCAAGCAG
Celera SNP ID:            hCV7624536
SNP Position Genomic:     1116012
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   (C,-|G,-)   Caucasian(G,18|C,62)   African-American(G,12|C,64)   Asians(C,33|G,43)   total(G,73|C,159)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50861):
GTCAAAGCATATGTATGGAATGAACACTGGAAATCAGTACACAGGGCTGGGAATGTGTGATTCTGAGCACTCCGTGATGGAAATAACCCTCCAGCTCCTT
Y
ACAGAACAGCCAGCAGCATCACCTGTTTTGGTGATGGTGCCTCCGGATGATGATCCGTGAGCGCACACTGGACTCGTGCTCCTGGGTGAGCTCTCTCCTT
Celera SNP ID:            hCV29182907
SNP Position Genomic:     1115454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50862):
TAGAGCACCTTGGACATTTTCCTTAATCTGAGTGTCTAGTTTTCTTTTCTAGAAAATGAGAAAAAACTAGAATGTAGACCCCCATGTGCTCAAAGCAACA
R
CCTGCCTGGTTTGCTTGGACTTTTCCTAGACTGTATGATAACAGGTGCTCGATTCCTCTACGTAAATCTTCACCTTTTATTAATCATATTACCCTGCTTC
Celera SNP ID:            hCV2392507
SNP Position Genomic:     1153198
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50863):
CAAAGGCCATGGTGTGTCGGTTAATCACCCAATAAAAATAAACTCTGAGAACAAACACAGAGGGGTGATTAACTTTCCCATTCTGGTCTTCTGACATCCC
R
GTTTGCTCTCCCAGTGAGCCTGTTTCTTTGAGATAAACCACCCTGGGAAACTGATCACCTGTCCAGACACCACCATGCCTTGGCGTAAGTGGACAAAAGT
Celera SNP ID:            hCV7624537
SNP Position Genomic:     1115992
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50864):
GCTCCCCACCTTGATCACTGCAAACTCCCCAGTCCCTAACAGAGTACTGGGAAGATAGAAGGTGGTCAAAGCATATGTATGGAATGAACACTGGAAATCA
R
TACACAGGGCTGGGAATGTGTGATTCTGAGCACTCCGTGATGGAAATAACCCTCCAGCTCCTTCACAGAACAGCCAGCAGCATCACCTGTTTTGGTGATG
Celera SNP ID:            hCV29182908
SNP Position Genomic:     1115390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50865):
CCCAGTAGATCTCTGCCTCATTTTACCCAGCACCTATTCAAGATGGAGTTGCTCTGATTTCAATGCCTCTGACACACTAATGTTAGAGCACCTTGGACAT
K
TTCCTTAATCTGAGTGTCTAGTTTTCTTTTCTAGAAAATGAGAAAAAACTAGAATGTAGACCCCCATGTGCTCAAAGCAACAGCCTGCCTGGTTTGCTTG
Celera SNP ID:            hCV2392508
SNP Position Genomic:     1153115
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50866):
TGCTCAGCTTGGTCTGAGCTGGACTCAGAGACCCAGGTGCCAGAGCAAAGGCCATGGTGTGTCGGTTAATCACCCAATAAAAATAAACTCTGAGAACAAA
Y
ACAGAGGGGTGATTAACTTTCCCATTCTGGTCTTCTGACATCCCGGTTTGCTCTCCCAGTGAGCCTGTTTCTTTGAGATAAACCACCCTGGGAAACTGAT
Celera SNP ID:            hCV7624538
SNP Position Genomic:     1115947
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50867):
GCTTTGGACTGGGGAACAGGGTGAGTTGATGGTGGGAGGTGAGCAGGGATCAGTCCCCAAAGCCACAAAGGTTTTGAAGCCTGAAAGGGACATGACGTAC
R
TTTTTTAAATCTCACTCTCCTGTTCTGTGAGCAACAGAATAGAGGACCCGGAAACTGTAGTAGGGTTCTGTTTCTACACTAGTGCTAATGTAGAACCTCC
Celera SNP ID:            hCV29182909
SNP Position Genomic:     1114715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50868):
AGGCTATCTGGCTCCAGGGTTCATGTTCTTCCGACAACATCACAATGCCACTCTCAACCCAGGAGCAAAACCAGACAAAGTGCCTACTGCAGACCGGAAG
W
CCCTCGTTTGAAGCCTCCATTAGCGTGACTATGCAGCTAGACCAACTTACTGTTAAGCAACAGTACCTTTTACTATGAGGTACCCTTTACTATTAAGTAC
Celera SNP ID:            hCV2391560
SNP Position Genomic:     1180792
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:50869):
AGGGTAGAGTCCCAGTAAATGGTTATTGACTGAATGAATAAAATGAAACTGTCATGTTTAAACATGGCCTCAAAATTAATTATTTCCCTTTTTTTCTTTT
M
TCTAAAGTCAGTGGAATGGAAAAAAAACCAAAAAGTTGAATTTTTGTACAACAGTTTAGTTTTACATTATTGTCTCTTCTAAAATAATTTTTCAGCCCAA
Celera SNP ID:            hCV2392509
SNP Position Genomic:     1147420
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50870):
ATCTGGCTCCAGGGTTCATGTTCTTCCGACAACATCACAATGCCACTCTCAACCCAGGAGCAAAACCAGACAAAGTGCCTACTGCAGACCGGAAGACCCT
M
GTTTGAAGCCTCCATTAGCGTGACTATGCAGCTAGACCAACTTACTGTTAAGCAACAGTACCTTTTACTATGAGGTACCCTTTACTATTAAGTACCTTTT
Celera SNP ID:            hCV2391561
SNP Position Genomic:     1180797
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:50871):
GGAGTGGAGTGGGAGACCATCTGTTAGGCGAGTGGGGGAGGAAGACGGTGGGGGGGCGGTTGGGATGGGCTCTGCAGGAGGTGCAGGGCAAAACAGGAAG
S
ATGGCCAAGACCATGGTAGCAGGCAGGTGTCCTTGGCAGGAGACCTTCACACTGATCTGTTGTCCAGTGGGAGATGCTCAGATAACTGGGAATGTCAGAG
Celera SNP ID:            hCV2852409
SNP Position Genomic:     603033
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50872):
TGCATGCATACATACATGACTATACGCACAATGCACACATGTTTATATATGAATGTATTCACTCATACATGTATGGTTGTGTGTGTGTGTGTGTGTGTGT
K
TTTTGGGAAGACTAATTACTCCAGGAGATTTACATGTAGTTTCCCTTCTTAAGTAGATCACAACCCTGCTCTGCATTTGCTGCCATTGTTTCTGTTACGT
Celera SNP ID:            hCV26379840
SNP Position Genomic:     197181
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,6)   total(G,1|-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50873):
TGAATATACCTATACATATACATCTATGTTTACATACAAATGCATGCATACATGCACATATGCACACACCTATAATTATAAATGCATGTATATATATATA
T
GTATGTATACACACATACATTTTTATAGAAATGCATAGGTATACACATGTATAGAGTTGTAGATGTATGCACATATTTGCATGCATACATACATGACTAT
Celera SNP ID:            hCV26379841
SNP Position Genomic:     197003
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50874):
ATGAATATACCTATACATATACATCTATGTTTACATACAAATGCATGCATACATGCACATATGCACACACCTATAATTATAAATGCATGTATATATATAT
A
TGTATGTATACACACATACATTTTTATAGAAATGCATAGGTATACACATGTATAGAGTTGTAGATGTATGCACATATTTGCATGCATACATACATGACTA
Celera SNP ID:            hCV26379842
SNP Position Genomic:     197002
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,5)   total(A,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50875):
CTAGGCCCCAGTTACCTCCAAGGAGAAGGGATGATAAATATAACAGTGACAAAATACTCTCATACACACAGAAATATATAGTTACACTTAAATGCACACA
S
ATATATACATACAAATATAGAGTGGGTGCAGTGGCTCACACCTGTAACTCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCA
Celera SNP ID:            hCV26379843
SNP Position Genomic:     196545
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50876):
TCTGCACCAGACATAATTTACTTGGAGGCTTGGGGAGAATAAGCTTCCAGGTGAGGAACTCAGTGGCTGAGTTGCAAAGAGCTGGAAATGAGAGAAGCAA
R
CTTAATGACTATGTACGTGCTTCAGTTTAGTGCATATCCCACTCTTGTGTCCTAATCCAGTTATTTTTATTTCTGCTGAACTCTGTACATCCTGAGGATG
Celera SNP ID:            hCV16102095
SNP Position Genomic:     628720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50877):
GAATGGAGAGTGCCTGGTGTGTCTGAGGAAGCCCAAGGAGGTCATCATGGAGTGAGGGGGAGATAATAGAAGATGAACTTCAAAAACGAAGATGTGAAAA
A
TTGCATTGATCCTTGTAGTCCATTTGGAAGGGTTTAGATGTTTTATCATCACCGTCGTCACCATCATCACTACCACCTGCTAGAAACTTCGGGGGGCGGG
Celera SNP ID:            hCV26379844
SNP Position Genomic:     195756
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,8)   total(A,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50878):
TCCTCCCTTCCTTCCTCCCTTCTTTCCTCCCTTCTTTCCTGTAGGAGATACTTTCTCATAAGGATTCATTTGAGACAGAGAGGGTAGGAGAGAAGGGATT
K
ATGATGGCATAAAGCTTCTGAGAAGGTGGGAAAGGATAGACTTCAAAACATAAGAGGGACCTGTTAACTTTTTAAACCTGGGAGTTGAATCAATGAAAAA
Celera SNP ID:            hCV26379845
SNP Position Genomic:     191968
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50879):
GTCCAAAAGACAAAAAGGAGTTGAAATTTTATCGTTGTTTTTCCAGGCAAAAGAAAATAGGGTATTTGTTGACTGAAGAAATGAGATATTTCTCTTTGGC
M
GTTTGGGCGGCCTAATTGATAGGAAGAGGTCTGGTAGCTGAGAATAGCAGGGTTAGAACAATAGAGGATTCCAAGATCAAGGGGAAGGGTCAGAGGTTCA
Celera SNP ID:            hCV26379846
SNP Position Genomic:     186422
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50880):
CTCAGTCTTACTGCCCAGGGAACAGCCATCAGCCTTTGAGTGGCAAGAGTTGGTAGATTACCATCCCTTCTTGACCCTTGGAATAGGACAACTTCGAGAT
R
TGTTCTCCCGAGTCTCCCAGATGACCCCAGTGAGTTTGAACACCAGTTGTCCACAGAGATAATCTGCCCATTGCCACCTGTGTATTGACTCTTTTACATA
Celera SNP ID:            hCV28030940
SNP Position Genomic:     891362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50881):
AGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCTACACACACACACACACACACACACACACACACAC
M
TGCACACACATACAAATACAAAGAAATACAATGAAGCTTTTAGAGGTGATGGATATATTTACTACCTTGATTGTGGTGATGGTATCACAGGTATATGCAT
Celera SNP ID:            hCV26379847
SNP Position Genomic:     183353
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|-,2)   total(A,1|C,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50882):
GCACAAATAGCCTGGCCTTGAATCCTCCCAGTGTTTGGTTCACTCTCCCCTAACTTATTAAAGTTGCTTCTGGAAGTTACATAGAGACGTGCAGTTAATT
Y
CTGGAACAGTGTGTTTGTGCTTCTCATTATGCAAAAAATATACACCTTGGTCAAAAAGGAGGTATATTTTTACACAACTATTTGTTCATAGGACATGTAT
Celera SNP ID:            hCV208771
SNP Position Genomic:     560233
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50883):
GCAGATCACGAGTTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTAGTGGCAGAC
R
CCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCC
Celera SNP ID:            hCV12109544
SNP Position Genomic:     861435
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50884):
CCCAGTCTCTGGTATGTCTTTATTAGTAGCTTGAGAACGGACTAATATACCAGACTCTACAGTTTGTAACGTAGGCACTAGGATTCACAGATCCTAGGCA
S
CTGGTTCTCAGATTCGCTAAACTTTACCATTGTTCTTTGTCCGTAGCCTGGAAGCTTAGAATCTGGAAGGATAGAGAATAGAGTTTTATAGGGACTGGGA
Celera SNP ID:            hCV28030941
SNP Position Genomic:     901783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50885):
GGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCCAGCCTGGTGACAGATGCACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAA
A
TGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCTACACACACACACACACACACACACACACACACACATGCACACACATACAAATACAAAGAAA
Celera SNP ID:            hCV26379848
SNP Position Genomic:     183279
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50886):
CTCATTAAGATGCACAAATAGCCTGGCCTTGAATCCTCCCAGTGTTTGGTTCACTCTCCCCTAACTTATTAAAGTTGCTTCTGGAAGTTACATAGAGACG
Y
GCAGTTAATTCCTGGAACAGTGTGTTTGTGCTTCTCATTATGCAAAAAATATACACCTTGGTCAAAAAGGAGGTATATTTTTACACAACTATTTGTTCAT
Celera SNP ID:            hCV208772
SNP Position Genomic:     560222
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50887):
GTCCCAGGTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGACTACTGCACTCCAGCCTGGTGACAGAT
R
CACTCCAGCCTGGTGACAGAGTGAGACTTCATCTCAAAAAAAAAAATGTGTTTAGAGTTTAGATCTCAGGTTAGGGGATCTTGCTACACACACACACACA
Celera SNP ID:            hCV26379849
SNP Position Genomic:     183233
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|-,3)   total(G,1|A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50888):
CTTTAATTAATGCTCATTAAGATGCACAAATAGCCTGGCCTTGAATCCTCCCAGTGTTTGGTTCACTCTCCCCTAACTTATTAAAGTTGCTTCTGGAAGT
Y
ACATAGAGACGTGCAGTTAATTCCTGGAACAGTGTGTTTGTGCTTCTCATTATGCAAAAAATATACACCTTGGTCAAAAAGGAGGTATATTTTTACACAA
Celera SNP ID:            hCV208773
SNP Position Genomic:     560210
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50889):
TTGGGGCAGATAATTATGTTGTGGGAGGCCGTCCTGTGCTTATAAAAGGATGTTTAATGCACCTGTGGCTGTACCCATTAGCTACCAGCAGCCCTCCTCC
S
CCAGCTGCGACAACTAAAAATGTCTCCAGAAAAATGTTCCAAGCAGGGAAAACTCCCCCGCCGCACCCCAGTTGAGAACCACTGATTTAGATCCTGTCTG
Celera SNP ID:            hCV208774
SNP Position Genomic:     559590
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50890):
TATAGACATTTGGGGCAGATAATTATGTTGTGGGAGGCCGTCCTGTGCTTATAAAAGGATGTTTAATGCACCTGTGGCTGTACCCATTAGCTACCAGCAG
Y
CCTCCTCCGCCAGCTGCGACAACTAAAAATGTCTCCAGAAAAATGTTCCAAGCAGGGAAAACTCCCCCGCCGCACCCCAGTTGAGAACCACTGATTTAGA
Celera SNP ID:            hCV208775
SNP Position Genomic:     559581
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50891):
TCGCGGCGGCGAAGACAGATCGGGGCTCGGTAGGGAGGTCATTCCGAGCCCAGAGATCCTAGGCACCCCCCACACACAGGCTCCCACTCTGGCGTGCGTG
Y
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTACGTTCGTTAACGGGAGGAGGAGAGAGCTCCCAGTCCTTTTTTGCTAGCAGGGGCGACAT
Celera SNP ID:            hCV16195692
SNP Position Genomic:     6378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50892):
GAAAAAATCAGGTGTAGAATTAATTCCAACATAGACCTACCTTCTTATTGCACAGACAAAGACACTGAGATCCAGAGACATTGAGGGGCTCTCTTGGGCT
Y
CCCCACCTTGTCCAGGGGAAAGTCAGGACTGGGATCCAGCGTATAGTCACTTGCTACGGCTATTCCCATTATGTTTTGCTGCTGCTGAAACACTGGAACA
Celera SNP ID:            hCV10075930
SNP Position Genomic:     90666
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,8)   total(C,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50893):
CCAGAGTTAGCCTGAGGTCCCAAACTATGAGCAGGAGAATGTCACCCTAGGAATGGCAACTAGAAAGTTTTTACCCCGGATGCCATGATGAGGCACTGCC
R
TCCACTGGAGCTTGCTGTGATTATGGAAATGTTCTCTATCTGCACATCCAGTATGATAAGCACTGACCACATCTGGCTGCTGAGGACTTGAGATGTGGCT
Celera SNP ID:            hCV208776
SNP Position Genomic:     558296
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50894):
TCTGAATACCTCCTGGCAGTTTCTACGTCTTTCTCAGGGCTTCTAAATAGGAATGAACATGAAAGGGCCGCGTGGCAGTGACCGCAGTGTGGAGGTTCTA
R
TAATGACTATGAGGGACACACAGTTTTCAAGGAGATCTAACAGTGTTTATGAAAGATTCTGTTTCATCTCACCAGTGAAGAGCCCTTCATCATCTACCAT
Celera SNP ID:            hCV10075931
SNP Position Genomic:     90211
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50895):
GAAGCCAGGGTCTGTGATACATGACAGAGTGACCATAGCACTCAGGGGTGCAGAGGGTGTGTGGATTCTGATGACAGATTGCCTGTCTGATTTTGCAGAA
K
TAGCTCCAACATGGTTTTGGTAACACCCGTTGCCCTCTTTAAGCTTGATGTCTCTGTTTTCATGTAATTTGCACAAAGTAGGCACTCACTAAATATTTGT
Celera SNP ID:            hCV10075932
SNP Position Genomic:     86677
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50896):
GCTAGCTTTGGACTGGGGAACAGGGTGAGTTGATGGTGGGAGGTGAGCAGGGATCAGTCCCCAAAGCCACAAAGGTTTTGAAGCCTGAAAGGGACATGAC
R
TACATTTTTTAAATCTCACTCTCCTGTTCTGTGAGCAACAGAATAGAGGACCCGGAAACTGTAGTAGGGTTCTGTTTCTACACTAGTGCTAATGTAGAAC
Celera SNP ID:            hCV29182910
SNP Position Genomic:     1114711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50897):
GAAGAGCTTGGCCTGAAATCAGCAGCTCTCAAATTTTCGTGGGCATCAGAATCACCAAGGATGTTTGTAAATGTTTTTAAAAGTCAATTTTCAAGACTCC
R
TTAAATGGAGATTTTGATATATACAATCAGAGTTAAATATGTGTATATATAAAAAATATCTTTAAGCTAGAGTCTCTTATCAGTGAGACTTTGGGCTCTA
Celera SNP ID:            hCV352870
SNP Position Genomic:     371393
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50898):
GCATTGAGAAAGAAAAATATCAGTTTTACTAAATGAAATATCAACATTGGAGATTTTATAAGCCGAGAATGTTAGTACATCAACATTAGAAGCCCTAAAA
R
ATAAAATTGCATTCAAAGGCCAAAAAAGTCTTAGGCTTGCTAGCTCTCCAGGAAAGGCCTGTGTGTTCAGGACAGGAGGACTAAGGACCAAACAGGTTTG
Celera SNP ID:            hCV29182911
SNP Position Genomic:     1109871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50899):
GGAGGGGCTCTGAACTGAACTTCAGAAAGATACCTCAGCCTGTGGTCTTTCTCTTTTCATAGCTCAACCAAGCTCTAGACTGCAGGGGGGATATAGTAAG
R
TTATTTAGATTGATTCTACTTAAAAGATGCTAGTTTGGATAAAATGAAGCCATTAGTTATGATGGCAACCCAATCAAGCCAGTTTAACACCCCTTATCTC
Celera SNP ID:            hCV2392511
SNP Position Genomic:     1145831
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50900):
ATCTTTGAAATGGATAGCCTCTTGTTCTGCAGAAAAGCAAGGATCCTAGAAAAAACATGCAAACTGCATTTCAAGGAGGATGGCATCATCTTTTTGTTTC
Y
CTTGGAATGACTCAGGAGTGAGGAAACAGGAATACATTACTGTGGTTCCCACTCATCTTGGCCTACCAATCTCTCCCATCTTTCTAGGTACAGCCCATCT
Celera SNP ID:            hCV27904392
SNP Position Genomic:     369354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50901):
CAGGTAGACCAGGGCAAGGATGTTCAGGCAGAGGAAATGGGATAAACAAAGGCATGGTGGCCAAGAGAGCTAGATCCGTTCACTCAACACACAGGCAGGA
Y
TGCAACGGGTCTTGTGTATCCTGTGGATCTAATCTATCCTTAGGCGTCAGTCTGGGAAACATGAGTTCCGTCTTCTCCACTAATCTGGGAAGGAGGGTCA
Celera SNP ID:            hCV29182912
SNP Position Genomic:     1107498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50902):
TGCTTCCATTTGAGAACCACTGTTAGAGAGAAGTGTCATAGTCCATTTTGTACTGCTGTAACAAAATATCGGAGCCTGGGTATTTATAAAGAAGAGAATC
R
TATTGGCTGTCATTTCTAGAGGATGGACAATCCAAGGTCAAGACACCAGTAGGTTTGGTGTCTTGTAAGGCCATTCTCTTCTTGCAATATGGTGCCTGGC
Celera SNP ID:            hCV11673754
SNP Position Genomic:     604494
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50903):
GAACAGTTGGCCCTTTGATTGGCTCAAACTCCGAGACTGGCACGAGAGTAGGTGACAGTCTGTTTACACCTCCATTCAGATTATAGTTCACTATGTACAG
R
GAAACCTTTAGGCGGAACTTAGCATATTTAAGAAGGCAGCTTTAGGCTAACTTGATTTTACAAACTGTTATCAGTAATTTTAATGCACTATAACCAGCAA
Celera SNP ID:            hCV2392512
SNP Position Genomic:     1143936
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50904):
CTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGACGGAGGTTGTAGTGAGCCAAGATTGCACCACTACCCTCCAGCCTGGATGACAGAGC
R
AGATACTATCTCCAAAAAAAAAAGAAAAGAAAGTGAGGCAAATGAAGACTTGTAGTGATTGCTTTACTATAATCCCCTAATCTCCCCTGACTTCTTCCCC
Celera SNP ID:            hCV29182913
SNP Position Genomic:     1099451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50905):
TGTGAATTGTAGGAGGCTTAGCAGCACCAATGGCCTCTACCCACTAGATGCCAGTACCACCACCCCCCACCCACACACACACCTAATCTGGACAATCAGA
W
ATGTCTGCTGATATTGCCAGTTGTCCTATAAGGGGCAAAATTGCTTCCATTTGAGAACCACTGTTAGAGAGAAGTGTCATAGTCCATTTTGTACTGCTGT
Celera SNP ID:            hCV11673755
SNP Position Genomic:     604352
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50906):
TATCAGACTATTTTTAAAAATCAGCAAACTGGATGCTACATACAATAGACACACTTTAAATAAAAGAACAAAGAATGGAAATAAAAGAAAAATATACCTT
K
ATAGTACAGTCTCTCCTAAAAACACATGAAAGTATTTTTTAAAACAAGCTTGTCCAACCCACAGCCTGTGGGCCATATGTGGCCCAGAATGGCTTTGAAT
Celera SNP ID:            hCV2392513
SNP Position Genomic:     1138643
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50907):
ACCACATTCACTGACCTTCAAGTCATAATGCGAGGCTCAGCCATCTATCTCACTGTGGTCCCCGCTGCAGCTGGCTTCATTTATTGACTTCTTGAAAGTG
S
CAATATCCATGCTCAGCTTGGTCTGAGCTGGACTCAGAGACCCAGGTGCCAGAGCAAAGGCCATGGTGTGTCGGTTAATCACCCAATAAAAATAAACTCT
Celera SNP ID:            hCV7624543
SNP Position Genomic:     1115837
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50908):
GTCAGGAGTTCAAGACCCGTCTGGCCAACATGTCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGGGTAGTGGTGCACA
Y
CTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGACGGAGGTTGTAGTGAGCCAAGATTGCACCACTACCCTCCAGCCT
Celera SNP ID:            hCV29182914
SNP Position Genomic:     1099338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50909):
GGCAAGGTTTTTCAACAGTGGCACTATTGAAATTTGAGGCTGGGTGATTCTTTGTTATGGGGGGCTGTCCTGTGAATTGTAGGAGGCTTAGCAGCACCAA
Y
GGCCTCTACCCACTAGATGCCAGTACCACCACCCCCCACCCACACACACACCTAATCTGGACAATCAGAAATGTCTGCTGATATTGCCAGTTGTCCTATA
Celera SNP ID:            hCV11673756
SNP Position Genomic:     604282
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50910):
GTTTGACTAATCCAAAATAAGAAAGGAGGGGGAACAACATTAAAAAGATGGCCAAATAGAACAACAAGGTGATACAGTAAGTATATACCTAATTATACCA
Y
AGTAAAATGCAAAATGTAAACAGATTAAATATTTCAAGTAATATTATCAGACTATTTTTAAAAATCAGCAAACTGGATGCTACATACAATAGACACACTT
Celera SNP ID:            hCV2392514
SNP Position Genomic:     1138498
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50911):
AGGATGCCACTGGAGAGGGAGGTCCCGTCATCACCTAAGCTAAGCACAGCTGCCTCTAAGTACCTCCTTGCTTGGCAGCTGGCCAGACCACATTCACTGA
S
CTTCAAGTCATAATGCGAGGCTCAGCCATCTATCTCACTGTGGTCCCCGCTGCAGCTGGCTTCATTTATTGACTTCTTGAAAGTGCCAATATCCATGCTC
Celera SNP ID:            hCV7624544
SNP Position Genomic:     1115751
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50912):
GGGAGGCCGAAGCAGGTGGATTAGTTGAGGTCAGGAGTTCAAGACCCGTCTGGCCAACATGTCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATA
M
AAAAATTAGCCAGGGGTAGTGGTGCACACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGACGGAGGTTGTAGTGA
Celera SNP ID:            hCV29182915
SNP Position Genomic:     1099309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50913):
GTCTCTGGTATGTCTTTATCAGCAGCATGAAAATGGACTAATACATCATCCTATCTGACTAATACAGGAGAGGGAAAAACTCATAGCACCATATGTCATC
Y
GGAGCCTCTCCAATCTTTTTTTTAATAATGCCCAATTTACAGTTTTATAAAAATTACTTGACCTGTAAAGAAGCAAGAATGTGTAAGTGATGAACAAGAG
Celera SNP ID:            hCV2392515
SNP Position Genomic:     1137155
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50914):
CTCTATAGACGGTTGTCTATTAGGATGCCACTGGAGAGGGAGGTCCCGTCATCACCTAAGCTAAGCACAGCTGCCTCTAAGTACCTCCTTGCTTGGCAGC
Y
GGCCAGACCACATTCACTGACCTTCAAGTCATAATGCGAGGCTCAGCCATCTATCTCACTGTGGTCCCCGCTGCAGCTGGCTTCATTTATTGACTTCTTG
Celera SNP ID:            hCV7624545
SNP Position Genomic:     1115730
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50915):
AGACGACAAAAGCGTCCTTTTGCTCATGGCCACATGCCTTGCAGCACAAGCTCCTCTCAAATACTTCCCAGGACCTCACCGTAAGGGACAGTCAACCAGA
Y
GTGTGCTTCCACATGTTCTTCAAATGTGTTTTTCATTTGCTTGGGTTCAACCTCATTATAATGGCATTAGCCAGAGGAGGTAGCATGGTGGTTCAGGTTT
Celera SNP ID:            hCV29182916
SNP Position Genomic:     1090490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50916):
TTAAATTGCCCAGTCTCTGGTATGTCTTTATCAGCAGCATGAAAATGGACTAATACATCATCCTATCTGACTAATACAGGAGAGGGAAAAACTCATAGCA
S
CATATGTCATCTGGAGCCTCTCCAATCTTTTTTTTAATAATGCCCAATTTACAGTTTTATAAAAATTACTTGACCTGTAAAGAAGCAAGAATGTGTAAGT
Celera SNP ID:            hCV2392516
SNP Position Genomic:     1137143
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,8)      total(G,1|C,8) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50917):
AGGGCACCAGAAGGCATGAGCTCCATGTTTCCCAGCCAAGGCTCTTCCAGCCAGCAGTGCTGATGGGAAGAACAGGCAAGCCAGAGTGCCTTATCAAGTG
Y
AAGACTCACCACCCATAGAGGATCCACCCAAAGCCACCGGGAGAACCAACACATCCCTGCAGACGACAAAAGCGTCCTTTTGCTCATGGCCACATGCCTT
Celera SNP ID:            hCV29182917
SNP Position Genomic:     1090329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50918):
GGATTGTACTACACCTGATTAGACTTGTACTTGGAAAGGACCCCAGCCCTCACTAGTAGGGACATGCTATGTAAGTCTTCTTTGTCCTCTACTCTGGTCT
M
CCCCATTGCTACCTTTCTTAGCCAGGGTTCTTGGTGGCAGTCAACAAAATCACCTCCAACTAGTTTACAAAGGAAGAGATTTATTAAAGAGTACAGGTAG
Celera SNP ID:            hCV2852410
SNP Position Genomic:     603989
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50919):
GTGCTACAGGAAATACCCACATATGAAACTATTCTAGGGCAAGGTTTTTCAACAGTGGCACTATTGAAATTTGAGGCTGGGTGATTCTTTGTTATGGGGG
S
CTGTCCTGTGAATTGTAGGAGGCTTAGCAGCACCAATGGCCTCTACCCACTAGATGCCAGTACCACCACCCCCCACCCACACACACACCTAATCTGGACA
Celera SNP ID:            hCV11673759
SNP Position Genomic:     604245
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50920):
ATCTCTTTCTCCTTGAATTCCTCCATTCTATTTTATAACTTTCTTAGGCCATTATTACCTCCTTCTTTGTCTTAGCCATTTCCATTTTGCTTTATCCAAA
Y
ATTTCCAAACACCAGGCACCTTCATCTCCTGTAACCTATCTGCTCTCTGTGTACTGTCATTCACTGAATGCTTTTAAGTTGACTTTAATTTGACTTGTCT
Celera SNP ID:            hCV29182918
SNP Position Genomic:     1089598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50921):
AAAGAGGGAAAAGTCATTTCAAAAAGAAAACCTTTTTTTTTCTCTGGGTGCATTTTCTGATTCTAGGTGAGAGTCAGGCTTGGCCCATGCAGAGAGCCTA
R
GATGGAGGGAAAGAAATTAGAAACGAGTGTCAGAATCACAGGGAGCTTTTGTGACAAACTGGAAACTTGAGGGGCTGCTTTTCCTCTGTGGACAAATGCC
Celera SNP ID:            hCV2392518
SNP Position Genomic:     1136263
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50922):
GTGAAGATACGCATCCCAAGGGCAGGAAGCTCCCCACCTTGATCACTGCAAACTCCCCAGTCCCTAACAGAGTACTGGGAAGATAGAAGGTGGTCAAAGC
R
TATGTATGGAATGAACACTGGAAATCAGTACACAGGGCTGGGAATGTGTGATTCTGAGCACTCCGTGATGGAAATAACCCTCCAGCTCCTTCACAGAACA
Celera SNP ID:            hCV7624548
SNP Position Genomic:     1115362
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50923):
AGTCTGCATGAAGAGAGAACAGATTGGGAATCAGAGGTACTTGAGTTCAGATTCCAGCTCCATTGCTCATTAGCTCTGTGGCATGGGGAAATCAGTGAAC
Y
CTTTACTGCTGAGTTATTTGTAAAATGACTGTGATTGCTGACTGATTATGTCAGGCTATACAATCATTTCTTTGGTTGCAAGCCATGGAAACCAAACCTT
Celera SNP ID:            hCV29182919
SNP Position Genomic:     1088766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50924):
AGTGTCCCCACTGTGAAACTAGAAAAATCTAGTTAAATTATAAAAATCAGATAATATAAAAAAATCTTAATTGTAAAGGAATCAGGGAGCTGCAGAAGCA
K
TGACAACTAGATAAACTAAAATACCAAAGAGGGAAAAGTCATTTCAAAAAGAAAACCTTTTTTTTTCTCTGGGTGCATTTTCTGATTCTAGGTGAGAGTC
Celera SNP ID:            hCV2392519
SNP Position Genomic:     1136137
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50925):
ATTTATTCTTTAGAATACCTATTAATTCAGAAGTGTTCTGAATGGCGTCATGAAATACTATGTTAGTGCCAGCTCACATCCTTTGCTGAGAGAGTTAAAC
R
TATTTGTCTCAAATCAGCACAGCCTTCTACAGCTAAGGCAGGTGTACTGGCTGCTCCAATTGAGAACAAACAAGGCACCAGGGCCTTTGCATGTACCCCA
Celera SNP ID:            hCV359700
SNP Position Genomic:     464471
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Gene Number:                 235
Celera Gene:                 hCG38636 - 62000133307808
Gene Symbol:                 AP4B1
Protein Name:                adaptor-related protein complex 4, beta 1 subunit;BETA-4
Celera Genomic Axis:         GA_x5YUV32VTKB(5365064..5401162)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12395):
AAAGTAAGAGAAGGAAGAAAATTAAGCTATTGGAAAATCCTAATAAATCAACAAAATGTTTAACAAAAATAGATACAATTCATGGAGAAATCCAGGGAGA
ATATCAAGGAAGAGGTGGCATTTGAGCTAAGACATATGAAAGGGAATGACACAGAATCCACTCATTCATTTAGTTCAACAAAAGAGAGCATCTAGCAAGT
TTCAGGCACCATGAAAACTAATAAAGAAAACTGTCAGTCCTCAAGAAGTACTATCTACAAGGAGACCCAGAAAAACCACAATTAAGAGCAACGTTAAAGA
TATGTGTACAGGCCGGGCACTGTGGCTCACACCTGTAAGCCTACAATTTTAGGAGGCTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTCAAGACCAACC
TGGGCAACCTGGCAAGACCCTGTCTCTACAAAAATAAACAAATAAGCATGTTGGTGCACGCCTATAGTTCCTGGTACACAGGAAGCTGACGCGGGAGGAT
CACTTGAGTCCGGGAGGTCCAGGCTGCAGTGAGCTGTGATCATGCCACTACCCTCCAGCCTGGGCAACAGAGTGAGACCCTGTCTCTTAAAAAAAAACAA
AAAAAGTATACAGTATTGTATCTAACAGGTGATGGAGTTAGGGAACGTTAGGCTAAATCTTAAAGGATGGGCAAGGTTAACCTGGCAAGGAAAGGGTAGA
AAGGGTATAGTGGAAAACATTTTAAGAGGGGTCAGTTTGCTGTTACTAAAGTAAAAAAGGAATTGATAAGAAATGATACCAGAGAGGCAAGCAAGGGCCA
TATAATAGAGCGTCTTATATGTACCGCTAAGAAGCTTGGACTTCATTGTGTAAGTGAAGGGGAGCCACTGAGTGTGAAGCAGGAAAATGGCTAATTCTAA
TCATAAGAATAATATGCTCAGAGCAGGGCTTTAAAAAGAAAAATATGGTAATAATATTATTTGACTGCCAGGATGAGAAGAAGCTGGAGTGGAAGTTTCA
ATTGAAGGGCCCAAATAGTACTTACAGAGAAAGAAATGGAGACATTAATTTGGGAAATGGTTATGGTAACAGATATGGGAGATGTTGTTTAATAGCTGTT
CTCAGACTTTTTCTGAAGAAGTTTCAAATCCACAACCAGATTGTGAACGCCATAAAAAGAAGTATATATTATTTATATCCACTTTATTCCTGATTATGGT
TCAAAATCTCACTCCTTGGGCACAAATGGAGCGGATTTTTCTTCTCTCTATATATATTCCCACTTCCACCTCCCCACAGGTCCTTCCCTACCAGACTGTG
AGCCCTCCAAGTCAGAGACTATATTTTATTCATCTTTATATCCCCACTGCCTATTGGATACTTGGTACTTAGTGGGTAGAGGCTTATTACATATTTGCAA
AATTAATTAAGGCTTACTATAGCATCCTCCTAGCCAGCTTTGCTTTTTTGAGAAAATTCTGCATTAAAATATTAAGAATGGTTAGGTCTTTATAAGTAGC
TAAGCAATCCTGAGAGTAGAGGATATTTCTCAATCGATTTGGTAGTCACCCTGGAAGTTATATAATTTTTTCAATGCCTTTGTTTAGTCTCATTTTGAAA
CTCCTTTCAGAGTTGAGACATGTCCTTTTCAAATATTTATAATGGTGGCAAGTCTTTGTCCTTTTGTAGACTCACAAATTTGGAAACAACCAAAAAAGTA
ATTTAGAACCAAATCTATTACATTTATTTATTTTATAAAACAAAAATGTATTTTCATAAACTATTCCAAATGGCAACTCCAAGAAAGAGTCCTCAACAAT
GTTTTATACTATTTATAATCAGTACAACAAGCACAAACCTGTTTTTTCAGTATACTTAATTTAAAGCACAACGCTCACTTAAATATCTATGTTCTGATAA
ATTTCATTCATTCATATTGAATGCTTCTGTGTCAGGCATTAGTGTAGGCATTTGTGATACACCCATAATAAAACAGAGACTGCCATAGTGGAATTCACAT
TCTAGCAGGGGGAATCAGACAATAAAAAGTCCAATAAATACATAAATTATAGAATATATTGCAAGGTGATGAGTGCATATTGTCCCTCTTCTACTTAAAA
TCCTTCAATAGCTCTTGGTTGGGTTTAGGATCAAGTCCAAAATGGCTTAACAGCACTTCAGCCCCTCTTGCCTTTTCAGCCTCCTTGCCCACTGTGTGCC
TGTCATACTGACTGCTGCTTCTCTGTTCCACAAACACACAAAGTCTCTTCCCATTTCCAGTGATGCTCTTAAGGAGTTTATGCTTGTGTGTGTGTGTGTG
TGCACGCGTATGTGCATGGGCCAGAGGAAGTGCATGATAGACAACAAGTAAGCAATAGCATATTTAAAAATATATATAGTATATGAGTGCTATAAAAAAA
TGAAAAAAATGAATTGGTATAGATGATCAGGAGTTGGGAATGGGGATGGTGGGCAGGTTGCAGTTTTACTTATTTCATTCATTCATTCATTTATTGAGAC
AGGGTCTTGCTCTGTCATCCAGGCTGGAGTGCAATGGCACTTACATGGCTCACTGCAACCTTGACCTCCTACTGGACCCAGGCAATCCTCCTGTCTCAGT
CCCCTGTGTAGCTGGGACCACAGGCACGCACCATCGTGCCCAACTGATTTTTAAATTTTTTGTAGAGACAGGGTCTTGCCATGTTGCCCAAGCTGGTCTC
AAACGCCTGGGCTCAAATGACCCTCCCATCTTGGCCTCCCAAAGTGCTGGGATTATAGGCATGAACCACCACACCTAGCCAGGTTGCAATTTTAAATAAG
GTGGTCAGTGTAGGAGAAAGTGAGAACTGCACAAAGATCTGAAAGATGTGAGAATCCTTAAAGAATCTAGTTCACTATCTACAGGTGACAGGAAACTGAA
AGGAAACAACTCACCAATCTTTATGTTATGTTGTGGGTGTTTTCGAATGAGCTGGACAATCTGGTGGGCAGCTTCTTGTCGGGAAGGAAGAACCAGGGCT
GGATTGCAATTGGTGTTGTCTAGGTATAAAGTATGGATCTGTTTCCCCAGTGTCAGGGCTGGCTCCTTTAGCATGGATGGTGTGTATCGAAAATCACCTG
GAGGAATATGTACATGGGGGCAGAAGGTCAGAGACAAAAGAATAGAAGACAAGCCTCTCCTACCTCCAACAATAGACAGGCGTTTGCTTACTAGTCTGTG
AAAAAACTATTATGTAGCCTGGCACTGAACTAGGCAGTATAGCTGCATGGTTTCTTTGTTGTAATGTCTCCATCCTACTCCTATTTTTCAATTACTCTTC
ACAAGGTTCGGACCCTTAAAGAGTGGGAAATCGGCCAGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGGGGCCGAGCCAGGTGGATCACCTGA
GGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAATAGTAAATACGAAAATTAGCTGGGCGTGGTGGCAGGCGCCTGTCAT
CCCAGCTACTTGGGAGGCTGAGGCAAGAGAATCACTTGAACCCAGAAGGCGGAGGTTGCAGTGAGCCACAATCACGCCACTGCACTCCAGCCTGGGTGAC
AAGAGTGAAACTCCGTCTCAAAAAGAAGAAGGAAAAAAAAACAGTGGGAAATCAGTTGAGATGGGGTCACTATGCTCATATGTGATGAAGTTAGAAGGCC
TCCAGCGCCTCCAGACTTCTATTGAGTTAAGGCTGCTCAAGAAAAGTCTGCCAGGTGTGGTGGCTTGTGCCAATAATCCTAGCTACTGTGGAGGCTGAAG
CGGGAGGATTGCTTGAGGTCAGGAGTTTGAGACCAGCCTCGGCAACACTGCGAGGCCCCAGTCTATACATTAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
ACATCTAGTCTGGAGAAGTCACTGGGATTCCTTGAGAGGCCCACCTGTGTAGAGGATGGTTCCAAAATATCCTTCAAAGAGAAACATGACAGAACCAGGA
CAGTGATTGGCATCGAGGAGGGTTACGGTCATGGTCTCTTGTCCAATTTCATCTAGGGGTAATACATGGCTCTCACCAACCTCCAGGGCTTGGATCCATT
GCTTAGATACCTGAGAAAACAGTTAGTCATCCCAGTGACCACTGACTCCTCTCCGTTACCTCCCCGGGTCAGGGACTATCCCTTACATGAATCAGGAAAG
CTGACCAAATCCTGAGCCACCGGGAGCAGAAGCTGTAATGGGGATTCCCAAGCAATCTGCCCTTCCTCCTTCCACTTCCCATCCCACCCTTTGTACAATT
TAAGAGTTCAGCTGGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATC
CTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGA
GGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGTTTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAA
AAAAAAAAAAAAGAGTTCAGCAAACAGTCTAGTCAGCAATTCCCAAACTTACTCCTGATCTTAATCTCTTGGAGACTTAAGGGTGGGGTGGGGAGAGAGC
TGGAGAACCACCCAGCACATTAGGTGGATTCTTAAGATGAGGCAAGTTTAGGCGGGGCGTGGTGGCTCACGCTTGTAATCCCAGCACTTGGGGAGGCTGA
GGCGGGCGGATCACTTAAGGTCAGGAGTTAGAGAACAGCCTGGCCAACATGGTGAAACCCCGTCTCCACAAAAAATACAAAAAATTAGCTGGGCGTGGTG
GCGTGCGCCTGTAATCTCAGCTACTCAGGAGGCCGAGACAGGAGAATCGCTTGAACCCGGGAGGCGGAGGCTGCAGTGAGCCGAGATTGCGCCACTGCAC
TCCAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGGCAAGTTTGGGAAACATCGGCCTAGCTTACTTATAAAGGT
AGGAATAGTTTCCTTGGCTGGATTAAAATATCTCCTCAACTTATGGCTAACTATCTCAAGTTGGTCACTTCGAAAACACGTTCCTATTCTGGGTTAAAGA
TGCATTTTTGGGTTCAAACAACTTCCAAATCAGTTTTCGTGGCCCCCATTCTATGACTCCAAGAATGACAGGTTGAAGTCCCAACCCAGATGCCTGGACC
AGCTCTCGGAGACCGACTCCAGCCCCATACCTGTAGGTGACGATGCAAGAGGTGGGCTGTAATTGGGGAGCAGTAGAGGGGCCGGGCCCAGGTGCTAGAC
AGGCCCACGGTGTGGTCCGAGTGCATGTGAGACAAGAAGAAGAGACGTGCGGTGCCAGCCCGGCGCAGGCTCCAGAAGTCCACTGCGATGGGCGTATGGG
GGATCAGGACCCCATTCATGGTGGTAGGGTTGGAGTCACCAGTGGGATCTTCTCCACGGGGGCAGGGCTCCTGCGTGAGGCTTCCACAACGGCGTCCCGA
TAAAAGTCATGCTGGGGCAAGAACAGGGCCAGAGACCCTAAGGGAAAGAGCCCAGCAGAGCAATAAGTTACCAGAGTGGGCAGAAAAAGGAAGTCACCCT
GCCCGCTGGAGCCCAAATCGCGGAGGGCGCTGGACACTCCCAACCGCGCGGGAGCGGAGGCCGAGCCGGGCACTCAAAGCGCGCGCTGCAGGGAGGAGAC
AGGCCAAAGTAGCCGATTTCCGATTGCCCGCCGCAGCTCCACCAGAGGGAGCCGCGCAGCTGCGCCTGGAGAGTGAGAGGTTGGGGGAAGGGCATCCTAA
GGTCGGAGTCGGGACTACGCTTAGCGCTCGCTCGCGGGGAGACCGGCAGCGCTCTTCTGTTTGGTCTCTTGACAAGGGGGCGGGACTTCCGCAGAAAGCA
AGATTGGGCCTATCCGCGATGAGAACGGCGTGGAGGGGGAATTAAGGCTGGAACTGGAGAGGGAGGGGTCTGCGGTCAGTCGGACGCGGCGCTGGAAATC
CGGCGGAGGACCTAGAAGTAGCGGGAGCGATCTGTGGGCGGGGCGAACGGCCTGCCGGCCGAYGGTAGGGCCTGAAGAGCCTAGGGTGGGGCTCGCGGTG
TCGCGGAGGGCGTGGAAGTGTGTCAGGGCCAGCGTGCCGGCCCTACGGAAGCCGAGCCTGAGGCGAGATCTCGCCTTTTGTATTTTCACTGACTCATATT
TCCTTTACTCAGGCTCCCACATCAGGACGAGAAGGAGCCCTCGAGTTACCGTGGGAGCTGTGGGAGCTGCCCTGTGACTCTTAGGAAGATGCCGTACCTT
GGCTCCGAGGACGTGGTGAAGGAGCTGAAGAAGGCTCTGTGCAATCCTCACATTCAAGCTGATAGGCTGCGCTACCGGAATGTCATCCAGCGAGTGATTA
GGTATCACCTACCTCCCTTCGCGTGCTAACTGCTCCCTTTGCAATCCCCATCAGGGCTCACTAGCCCCAGTCTCTCTGAAAGGGTGAATTAGCTTTCACA
CGTGGCAGTTATATGGTTCGGTCTTCGTCCTGCTGCTTTGGAGTACCATGTCAGTCTCCCCTCTGCAGCATCTTTTACTCAGCTGGRTAGTTTSCTCCAT
ATCACGGGCTTGAGCAATTACTGGTGACTCTTGGATCTATAATATAGCTAGTACAGACTTCCTTTTTTAGCTTCAGACCCACGTATCCCACTGCCTGCTT
GGCATTTCCACGTGCGTGGTTTATCAAAAGTATGTCCGAAATAGCCCGGACATTCTTCCGTCTTCCTCAAACCTGTTCAGCTTACATTTGTGTTGATGAA
TGCCACCAGCAGCCGACTATGCGTGGGAGCCAACCTTGAGGACACCTGATCTCTCACTTCTTATGTCAGATGGTTTGAATTCATAATTCTAAATATCCAT
CCTCTCTTGTTTATTAGCATTGTTGTTCTGGTCCAGGCCTTCATCAATAAAGCAATTGCAGCAGCTTACTAGTAGGCCACTTTGCCTCATTTGAGACAGA
ATTTTTCCATTATACATACCTGAACACATAACTCTTGCCTACAGCTATGGTTCACAAACTTTACTATGCATAAAAATCCCTTGGGGTGCTTTTTGTCATC
CAGTCCAGGGACTGATTCTGATTTCAGTAGGGTGGGAGGGAACCCAGGAATCTGTATTTTTAATAAACATTTCAGTTGGTTCCAGTAGGAGACCAGTCTG
AGAAACAATAAAGTCCAAACTTATCACAGCACCCAAGGAACAAGCTGTTAATTCAACTACCTACAGACTCTTAAAAAAATGTGTGCYGCTCCTGCTCATG
TCTACTTACCTCATAGCATGTATCTTTACCTTGCTATTACATCTGCCTAGTGAGCTCCTGCTCATTCAGCTAAAGTATTACTTCCTCTGTGAAGAAACAT
TTTCTGACTTCCTGCCAGTGTCAGACCTCTGAATCCCCTCTACACCTTGTACAATACTTCTGTTTAAGTACTTATCTATCATACTGTAATTAACGGTATT
CTCATCTGGCTCATTAATAGATTTGAAGTTCCTAGAGGTTTGAGACCACACCTTCTTCAAGATTATGTCCCAAGAGCATGTCCCTGGATGTAAAAGTTGA
ATTTCACCAAAGTACTAGGGATTCAATAAGTGTTTGTTGAGGCTGGGTGCGGTGGCTCACGCTGGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGA
TCACCTGCAGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACGCACCTG
TAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAAGCGGAGCTTATAATGAGCCGAGATTGTGCCACTGCACTCTAGCCTGGG
TAACAGAGCAAGACTCTGTCTCAAAAATAATAATAAGTGTTTGTTGAATGAATAGAAGAATAATGTTTATTGTAGGCCTATGGTATGAAGTACTGTGTGA
TATAATAGACAAGGTAATCCTGGCTGCTACCCTCTAAGAGATCACAATCTAGTTGGGTAATCAGGAGATATGTAAGTAAAACTCCCTCCATTGTAAGTTG
GGGATTTTGCATTTTACTTCCTTCTGTCATGTGCGTTGTTCAGGTACATGACTCAAGGCTTGGACATGTCTGGTGTTTTTATGGAAATGGTGAAGGCCAG
TGCCACTGTAGATATTGTCCAGAAGAAGTTGGTTTATCTGTACATGTGCACATATGCTCCCCTGAAACCRGATCTGGCTCTCCTGGCCATCAATACGCTG
TGCAAAGACTGCTCAGACCCCAATCCAATGGTGCGAGGGCTGGCGTTACGGAGCATGTGTAGCCTCAGGTGAGTACCCTCTTCTCTGTCTGGTCCTAAAT
GGCTGATGAATTCAAGTGATCACAGGGTAGGTTTTTAAAGAGGATAATTTATTTGAGCTCCTTAATACTGGGGAAAACATTATTGTACCCTGAACTCAGA
TTTTCAGCCACTGCTTTGGCTTAATAACCTGTATCATATAATTTTATTAGAGGGAGTTTTTGATTCTCACTCTAAGTAAAATAGTCCTCAGTTTTGGTTA
AATATCTCTAAACAATTATGTGTATATCTTTTTTTGCTGCCTGTGCATCATTATTCCAAATGAAAAGTCAAATTAGGCTGGGCACAGTGGCTCATGCCTG
TAGACCCAGCACTTTGGGAGGCTTAGACAGGAAGATTGCTTGAGCCCAGGAATTTGAGACCAGCTGGGCAAGATGGTGAGAGCCTATATCTACAAAAAAT
TAAATGGGCATGGTGACACGCACCTGTAGTCTCAGCTACTAGGAAGGCTGAGGCAGGAGGATGGCTTGGGCCCGGGAATTCAAGGCAGCAGTGAGCTATG
ATCGGGCCACTGGGTGACAAAGTGAGACCCCATCTTGAAAAAAACAAGAAAAAAACAGAAAAGTCAAATTATGGCTTTTTAAGCTTGATAGAGGCTTTCT
GCAATTCTTCATGATCTGATGGGTGCAGCATCTACTAAACCATCTGTTAGGTGAACAGGGGCTGAGGTATGTCAAAATTAGTATTTCAGAATCTGGCTAA
CTCCAGGATGTGTTGCTTAGGATGCCTGGTGTGCAGGAGTATATACAACAGCCTATTCTCAATGGTCTGCGGGATAAGGCTTCMTATGTCAGGAGAGTGG
CAGTCCTTGGATGTGCCAAGATGCATAATCTTCATGGAGACTCTGAAGTAGGTAAGTTCAGTGTAATCCATCATGGTCAATGTGCCTCCATTATGTATAA
CTTTAAAAAAGATKGTGTGGCTTTGGTAGAAAATAATAATGTGGCCCCAGTTCTGTACATATCTCTTTAAGTAGGATGCAGGGCTTGGTATCTTCTGGAG
ATGAGAAGTCCTTTCTCTGGGGCCCCAATGAGATCCTTTGTATTAGCTGCTTAGAACAGTCTGGACATGGCAGTTTTTTTTTTGCCTTGCACTTTAGTGT
GGCCTTTGTCATTTTTGTAGCAGAGAAGTTCAACTTTGTCTACCTGGMGCTATTACTCTGGCTACATCCTTGTTACTCTGAAGCTTTCCTTCTTTATCTA
AGAACTTTGTTCTTTTTTATAGATGGTGCCCTGGTAAATGAATTATACAGTTTGCTGCGTGACCAGGATCCAATTGTAGTTGTGAACTGCTTGAGGTCTC
TAGAGGAAATTCTGAAACAGGAAGGAGGYGTTGTCATCAATAAGCCCATTGCTCACCATCTCTTAAATCGGTTTGGATGCCTCAGCACTCTTTTTATTAT
GAGATCTGCTACCTTGTGGGATCTTGTTGATGTATTAAAGTATTGAACAACTTATGTGGGGTAGAAAAGAAAGTTAACCATTATTATTATTATTATTTGA
GACGGAGTTTTGCTCTTGTTGTCTAAGCTGGAGTGCAATGGCGCTATCTCGGCTTACCGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAG
CCTCCCGAGTAGCTGGGATTATAGGCATGCGCCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCCC
AAACTTCTGACCTCAGGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCCACTGCGCCCGGCCAGTTAACCACTATTAACTCC
CTCACATTCCACTGAGAGAATTTCTTTTATTTGCCTTACTTTCCCTTATTGATATAGGGAAATAGAAATATACTGTGGGAATAGGTTCTACCCTTCTCTA
GTCATGTCCCCCAAACTAAGCCATTTATAGTGTCTTAAAATGTAAGGAACCTGGACCCAGTGTATGCTGATCATGTCTTTGGTCTTAGAGGAGTGTGCAT
TTGTATTAACAACTCATCTTGGAATTTTAAGCCTTTTTTGTGTAAACTTTAAATAGTACATGAAAAGTGACTTAATTATGGCACAGCCTATTTTTAAGAA
TTCTCCCTTTGCTATGATGAACAACCACCTGGTCATATGGCAGTGGCATGGAAATGGTCCTAATTTTGTTGCTAAAATAGCTCTTTTGTTTTSTTTTTTG
GATAGAATGTCAAAACTGGACCAATGGGGCCAGGCTGAAGTATTGAACTTTCTGCTACGCTACCAACCCCGCAGTGAGGAAGAACTATTTGACATTCTCA
ATCTGTTGGATAGTTTCCTCAAGAGCAGTAGCCCAGGTGTGGTGATGGGAGCTACCAAACTTTTTCTGATCTTGGCAAAAATGTTTCCCCACGTACAAAC
TGATGTCCTTGTGCGGGTCAAGGGACCTTTGCTAGCTGCCTGTTCTTCAGAGAGCCGTGAGCTCTGTTTTGTTGCTCTTTGTCATGTACGCCAGATCTTG
CATAGTTTACCAGGTCACTTTAGCAGCCACTACAAAAAGTTTTTTTGCTCCTACTCGGAGCCCCACTACATCAAACTACAGAAAGTGGAGGTGCTGTGTG
AACTGGTGAACGATGAGAATGTGCAGCAGGTGCTAGAGGAGCTTCGAGGGTACTGCACGGATGTGTCTGCGGACTTTGCACAGGCTGCCATCTTTGCCAT
AGGTAGGTGTCTGCTCCTTTTCCTTCTTGAGAACCTAGACCAGCCAGCAAGAAAAYTGTGGTTAGAGGAACCATAGAGAGCAAAGGGCATGAATCTTGCT
TCAGAAGCAAAGTACTATGCACTAAATAATTGGGTCAGTGACTACAAACACGGGGGAAGAGAGTTTTTTTTTGTTTTTTGTTTTTTTTTGGTCAAGATTG
GTGTTGCTGTATCTTCCAGGATGGAGAATACAGGTAACACAAACTACAATACTTAAAATTGTTGTTGTCTTCTATCCAAAATGCTTTCCTATACATCATC
TTACCACAGTATCGTGAGACAGTCAGGAAAAGTAGACAAATGTCATTAACTTCATTTTAAAGATGAAGAAACTCAGGCACAAAAACAGTTATCAAATTGC
CAAAAGGGCACATAGTTTTAGAAATGGGACTGAAATCCAGCTTTCCTGACTCAAAGTCCTATGTTAATCCACCAGTCATTTATTGAGCTTCTGCTATGGG
CTATGTATTGTGCTGAATGTAGACCAACACAGAATAATTCCTAAATCTTACAGACTTTTTCATAGTACCCTGTCTGGAATTTGAAAGGCTGGAGTGACTC
AAAAACTGAAAACAGCTGTTGAGCCAAGTTTTGAAGGATTTCAAGTACAGGAGGAGGAGCAACCCTCATATTTGGAATAAAGCATGGTTATTTTAGGGGC
AGAGAAGAGGGAGCAAAGAGGAGACAAGAAATCCTTAGGAGACTGCTGTCAAGTGTCCCCCACAAAAATACTCCATTGCAGGTGTGCTGCAACAAAAAGG
GTACCTCATATCTGGCTGCCATGTAAATACCTTTGTTACTATAAGTTTTCAACCTTGTTTAATGGGGAATTGTTTTGCTATGAGCTTTCAGTTTTCTAGT
AGTCAGTGAGAAAAAATGATTTTTACCAAAGTTCCCTTTATAGTAAACTTATATTCTTAGTTCATCAAGTAAGGAGTGAATTTTTTTCTTTTTTTTTTTT
TTAGATAATTCTGTTTCTTTTGTCTTTCACTGGTGGGAGATGATTTTAGATTGAGGTGCTAATATTTCACTTAGCAGTTTTCTCTGCTTTCCCTTCTTTT
GTAGGTGGCATTGCCAGGACTTACACAGATCAATGTGTTCAGATTTTAACAGAGTTGCTGGGTCTTCGACAAGAGCACATTACCACAGGTAATGCCTGCC
TTTTTAGGATTTTTGTTTTTTTTGTCAGGTGCCTGGCCTATAGTAGTTGCTCAAAACATGTTTGTTGTTGAATGAGTAATATAGAGATTTGAACTTTTCC
TTGCATCATCATCTGTTGCTGTTAGAGAAGCATAAAGTCTATAGATCTAATAGGATATTGAGTCTTCAGGCTGCCATGATCTATAAGGCTGTACTATAGA
TAATGAAGGCTACTAGGATGACCTTGCTTGATATTTCACCATCTTTACTTCTCTTTTTGTTTTATGGCAGTATGCCATAGGCAGTGGCTTCCAGGGTTGG
GACAAGGGTAAGTCAAGCAAGATGCCTAGGATGCAAAATTTAAGAAGGCACTCACTCTTAGGTTCCTGCAAGAGCCAATCCTGCATGTCTTCTTCAATTT
TGAACCCTAGGCACCTCACTTGTGTTATCATTTTCCCAGGCCTGGTGGTTCTATTTATACTGTCTTTAGTGTTTCATTCAACAGCAATACTACCCCACAT
TTGCATACAGCTTTATGTTTTACAAAGTGCTTTTTCATACATTAGTTCATTTATCCTCATGTCAATCTGATAAGAGCAATATGCATTCAAGAAATTATTG
CTTATTTCATTACATTTCTTAGATAACCATTGACCACACCTCCAAAACCCATTTTACAGAAATCCAGCCAGAATCATGAGTCTGAATACATGACTGTTCT
TAAGATTCCTGCCTACCTGGAGGCTCTAATCCTGTGCTCTTGTACCCTGGCCTGTATTGTAGTGGTGGTGCAGACTTTCCGAGACCTGGTTTGGTTGTGT
CCTCAGTGTACTGAAGCTGTATGTCAGGCCCTGCCCGGCTGTGAAGAGAACATTCAAGATAGTGAGGTAGACTGTAATTCTCCTTTACTTCTAGGTAGGG
GGAGAATGCTTGAAACCCTGCCCTTTGAAATGGAATCTAATTATTCTCTCTACCCTGTGTTTGAAGTGGGCACTCTTCGAATTGATTGCCACCTTAGATT
CTCTTTTGGATATAGATGGCATATAAATTATAAAAACAAGATTTATCCGACGGGTTTTATTACAAAACTSTGATACCATTGTTCTCTTGAACAGTTCTGT
TTTGTTTTGTTTTGCTTTGCTTGAGATAGAGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCCCACTGCAACCTCTACCTCCCAAACTCAAGTGAT
TCTCTTGCCTCAGCCTCCTGAGTAGAGTAGCTGTGATTACAGGTGTGCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGAGGGTTTTGCTATG
TTGTCTAGGCTGGTCTAGAATTCCTAGCCTCAAGTGATCACCCACCTCAGCATCCCAGAGAGCTAGGATTACAGGCATAAGCCACTGTGCCCCGCTTCTC
TTGAACAGTTTTGAGTCAGAGATTTAGACCATGGAGTTTTTAGCTAGAATGAAAATTATAATCATTTGTGAAATTTTTACAAAGATTTGGACGTAATCAC
AGGTCTACTGACTTAAATATTCAGGGGTGTTGGACCTAGACAGATAACTTTTTTTTTTTTTTTTTTTTTTTGAAACAGAGTCTAGCTCTGTTGCCCAGGC
TGGAGTGCAGTAATGCCATCTTAGCTCACTGCAACTTCCGCCTCCTGGTTTCAAGCAATTCTCCTGCCTCAGGCTCCCGAGTAGCTGGAACTACAGGTGT
GCACCACCACGCCTGGCTAATTTTTGTATTTTTAATAGAGACGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCT
CCTCGGCCTCCCARAGTGCTGGGATTACAGACGTAAGCCACCGTGCCCGGCTGACAGATACATTTTTAAGAAGCTTCACAGATGACTCTGATGTGCACTC
TAGGTTAGTAACCATTTTTGTGAAAAATTTAGAGAAATTCTTTGAGCAGCTTCCACTGAAACACTAAAACCCAATAGGGCCAAAGGCCCCAAACCTGAGG
AAACCTTATTTATTGCTTAATCCAACATAGGCTATGAAAGTTTTGAGTTTCCTCTTGTGTATTAGAATTTCATTCCTATTTGTTGTAGAGAGTATAGTAC
GGGGAATCAGTAAATTAAATGAAGTAAACTAAAGATTACACCTTTTCTGCTGGCACTAAGCGAAAAGCAAAACCAGTGGCTGTCTATTATCTCCTGTGTT
TTAGACAGTCAAGTGTTGAGCACTTGCTCTTATTCCTTTATTCTCTAGGGGAAGCAAGCACTTATTTGGCTACTTGGTGTCCATGGGGAAAGAATTCCTA
ATGCTCCTTATGTGTTAGAGGACTTTGTTGAGAATGTGAAGTCGGAAACATTTCCAGCTGTTAAGATGGAGCTGCTCACTGCTTYGCTGCGCCTTTTCCT
CTCCCGACCTGCTGAGTGCCAGGACATGCTAGGACGTTTGTTGTATTACTGCATAGGTGGGTTTTTCAGAAGGAAATAGTATTTGCCATGACCCATAGTA
AAAATTCTTAATAGCTTTCATTGTTTGGTGAGTCACGTCTGGGACCCGAGAAGAAAATGTGAATGCTTCCTAGGTTTTCCTCTCTCCTTCATTTTTTTCT
CCTATTATGGTTGGCACAAGAGTAGGAGGAAAGTGGTTTTGTTTTTAATGAAGTCAATCTGTTGTCTTACCTCAGAGGAAGAAAAAGATATGGCTGTACG
GGACCGAGGTCTCTTCTATTATCGCCTCCTCTTAGTTGGCATTGATGAAGTTAAGCGGATTCTGTGTAGCCCTAAATCTGACCCTACTCTTGGACTTTTG
GAGGATCCGGCAGAAAGACCTGTGAATAGCTGGGCCTCAGACTTCAACACACTGGTGCCAGTGTATGGCAAAGCCCACTGGGCAACTATYTCTAAATGCC
AGGGGGCAGAGCGTTGTGACCCAGAGCTTCCTAAAACTTCATCCTTTGCCGCATCAGGTAAAAACAGTCCTTACCTTAAATCTTGTCATGATAAATCTTT
ACCTTTTCAATGATTGGTGGAAAGTAGAGTATCTTAGCACTAAACCTCAGACTGTTGCCTGAATTTGAAGCATTTGTGAGCAAGAAAGAGGTTCGTCACT
GGTTATTTCAGCCATTTGTCCAAAAATAAAAGTCACATTGTGTACATTTGGGAATTTGGATAAAAAACTTAGCTCCTACAGATTAAGAACATCTTTCACA
CAAGTTTTCTGTCTCTTTTAGGACCCTTGATTCCTGAAGAGAACAAGGAGAGGGTACAAGAACTCCCTGATTCTGGAGCCCTCATGCTAGTCCCCAATCG
CCAGCTTACTGCTGATTATTTTGAGAAAACTTGGCTTAGCCTTAAAGTTGCTCATCAGCAAGTGTTGCCTTGGCGGGGAGAATTCCATCCTGACACCCTC
CAGATGGCTCTTCAAGTAGTGAACATCCAGACCATCGCAATGAGTAGGGCTGGGTCTCGGCCATGGAAAGCATACCTCAGTGCTCAGGATGATACTGGCT
GTCTGTTCTTAACAGAACTGCTATTGGAGCCTGGAAACTCAGAAATGCAGATCTCTGTGAAACAAAATGAAGCAAGAACGGAGACGCTGAATAGTTTTWT
TTCTGTATTAGAAACTGTGATTGGAACAATTGAAGAAATAAAATCATAACAGAGTCTTGTTGCTTGTCTAGAGTAAGATGAATAACTATTACACTTTCTT
AGTCTTTCCTATTAGAGCTGCCAGTAAGTCCAGATAATATCAGATACAAAGGAGAGTGGAAAATCTAGAAATCAGGATTCTTAAGTTTTTGGCCAAAGAA
CATTGATTCATTCCTTTCATTCCTATTGGCAATTGACCCCATTTTTCAGTGATGATGTTGTAGAGGTTAATGTTGGTAAGGAGATGCGTTGAGGATGGGA
TTTGGATTATTTCCTAATCAATTTTAGGAATTGTGTTAGTAATTAAAGATGGCTGATGTGTGGAAACTGATAGGGGTCATCATTTGTGGGGGTCATCTTT
TCTTCCCTGGATTATTATAGTAAATTCCTAACTGTTCTCATATTTCCAATCATGCTTTTAGGCCAGATTCCAAAGTCCTTAATGTCATCTAAAGTACCTC
TTTGGTGTCAAGTCTTGCCACTCCCAAAATGACTTCTTTTCTGGCAGAAGCAAACCATTTGCATTGCAGTTCCCTTTATACACCTGCTTCTTTCACCTCT
GTGTTAACTTAAACCTGCTTTTATTTATTGCCTGGAACATTTTCTCACCCTCATATCTTCTTGAATTAACACCTCGTCTATCTTTCAGTGTTCAGCTCAC
TCATAAGCTCCTTCAGGAAGTTTCCTTTAACCCTCACTGCCTTCATTAGGGGCCTCCCTCAAGCTRTCAAAGTAGCCAGAGCATACCTCTAGCAGTAGTA
TTGTAATTGTTTTCTTGTTGCTTGTCCTCAATTTTTATTCTGTTCTTATCTGACCASATTTTGTACATTGAAGCAACTTATGGCAAGAACAAATCTAATA
AAATGATGGTAAAATATAAATAGCGAATCCAGAATGGGAAAAATTAAAATACCAGTTAAGACCAGCTAGGTTGGGGATGGGGAAATATACAAATGTTCAG
GCTGTATGGGCCTATTAGGTGATATAGTTGAGCCTTGATTTGTCTCTATAGGTGATTTAGCAGTCAGAGTTAAGGGAAACAGTTATAATTGTCATCAGAG
AGGAAGAAACATTGATTTCTAAAAGAAATGTACATGTAGTTTCACATAGGTGGTACTAAGATATGTGCAAGATCCTATGAGAAGTTAGTAATGGGTTTCA
CATGACTTTCTTAACAGTATTCTTCAACGAAAGCAGAGAGCATGACTTTAATAYAGAGCTTAGACTGGGTGCAGTTGCTCACACCTGTAACCCAGCACTT
TCGGAGGCCAGGGAGGGAGGATTGCTTGATGCCAGGAGTTCAAGATCAGCCTGGGCAGCATAGTGAGACCCTRTCTGTAAAAAAATTGACTTAGCCAGGC
ATGGTGGCACATGCCTGAAATCCCAGCTGCTCAAGAGGCTAAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTGAGGTTACAGAGAGTAGTGATCACACCA
CTGCACTCCAGCCTGGGTGACAGGAGACCCTGTCAAAAAAAAAGAACATAAAAAAAGTAGGCTAGATATGGTGGCTTACGCCTTTAATCTCAGTACTTTG
GGAGACCAAGGTGGGTGGATCACTTGAGGCTAGGAGTTTGAGACCAGCCTGGGCAATGTAGTGAGATCCCCATCTCTACAAAAGTAAAACATTAACCAGG
TGTGGCAGCGTGTGCTTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGCATTGCTTGAGCCTAGGAGGTCAAGGCTGCAATAAGCTATGCTCATGCC
ACCGAACTCCAGCCTGGGCTACAGAGCAAGACCCTGTCTCCATAATAATAATAATAATAATAACATGGTGCTTAATGAAGGCATTTCTTCAAGGACTTAA
GATAACATGATCCAAGTATATAGCCTTTATCATCCAGCTTAATTCAAGGATTTTTACTACCTAGATATAGATAAGCACATACCTTCAGATAATTTTTCAC
CTATCACTTCTCTCAAATAGCCTTTTTTTTTTTTTTTTTTAAATCTGAGACGGAGTCTTGCTGTGTCACCCAGGCTGTAGTGCAGTGGTGTGATCTCAGC
TCACTGCAACTTCTACATTGCAGATTCAAGCCATCCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGCACCACCACGCCTGGCTAATTTTT
GTATTTTTAGTAGAGATGGGATTTCGTCATGATGGCCAGGCTGGTAACTCCTGACTTCAAGTGTTACCCAGCCTCAACTAAGCTCTTAATAGGAGTAGAT
AACAGACAGTATTGAATTTTCTGGTAAGAGCCTGGGTTTTGTGAGTTGTTTATTGAATGGACTTCCCCATTGAACAACCTTTTTTTTTTTTTTTTTTTTT
TAGGTGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGGTTTTGGGTCACTGCAATCTCCACCTCCCGGGTTCAAGCAGTTCTCCTGCCTC
AGCCTCCCAAGTAGCTGGGATTACAGGTGCCCGCACCACACCCAGTTAATTTTTTGTATTTTTAATAGAGATGGGTTTTCACCATGTTGGTCAGGCTGGT
CTCAAATTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTACCGTGCCTCGCCTGAACAACTTTTAAGAA
TGATTCTTTCTTTCCTTTTATTTCCATAGTGCCTGCCACATAGTATTACTCAGTAAATCTTTACTGAATGAATGGCTGTATATAATTAGATTCTGATGTG
TTTTGGGATTGATGTTTGAAATGGGTTTTATGATATTGTATCAACTATATGGAAAATGATGGAACTTATTCTAGACCAGGATTTCTTAAAAGTGGCAATA
CTGACATTTGAGGCCAGATAATTCTTTGTTGTGAKGGRYTTTCCTCTGCACTGTAGAATGATTATTAGCAGTATCTCTGGCCTCTGTCTACCCACTGGAT
GCCAGTAGAACCCTCAGTTGTGACAACTAAAAATGTCTCTAGACATTGTCAAAGGTCCCCTGGGACAGGCGGCAAAATTGCTGTTACTTGAGAACCACTG
ATTTAGACCATGGATCCTCAGGGACAGGAAAGGGAGGGATTAGAACAGCTTCAGAATTGCATTTTCTGTATTTTTATGGTTCAGTTAAATGGTGAATGTT
TAATTAGGTACTAAGAGAAATAAAATTGAAGTGCTGCCAATTCAAAGTGTAGCAAGGGGCCGGGYGTGGTGGCTCACGCTTGCAATCACAGCACTTTGGG
AGGCTGAGGCGGGTGGATCACAAGTTGAGGAGTTTGAGACCAGCCGGCCAACATGGTGAAACCCCGTCTCCACTAAAAATACAAAGAATTAGCTGGGTGT
AGTGGCGGGTACCTGTAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATCGCTTGAACTTGGGAGGCGGAGGCTGCAGTGAGCCGAGATTGTGCCACT
GCACTCCAGCCCAGGTGGCGGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAARGCGTAGCAAGGGAACAGGATGCAGGTGGTAGAAATTGAGT
AAACTTATTGACTTTTTAAAATTAAAGACTATAACTGAAATGTTGATCTAAAGAAAATTAGGTATGACTAAGCAACTGAATAAATAATAATACTAAAGTG
ATCCCAACTATTGGAGCTTTTAGAAGACTATGTTCTACTTGGTTGCTTTTCTATAATGTAAGAGGMATACATAGAATATGAAATTGTTGYTTTTGGAAAA
TATACTTTTAAGATTATCTCAATGAAGAACTGATTTCTCCTGTAGCCTGGTTTTACTAATTTATAAGCAAAATGACTAAAGCTCAGGTATACTATGAAGT
TAATTCTTTAATATTTCCCCTGCTAGGAACTCTGTATAGCTTCTGCAGACATGGGGTTTGATGATGTGATATAAGTAGATGTTTATATTTTACAATCCAT
GAAGGTAGTCTATACTGTGCTCTTAGAACAGCAGCCATCTAATGTCATTCTTAGTTGACAGGTAAACAGTATGTTAYGTATGTAATGAGGTTCCACAAAG
ACAATAGTGTTTTGGAACACTGCAGAGGCAATAATTTGCATATTACCATCATTTTATAGTTATGAATCAGTGACTGTGATGTGTTTCCATTACCCCTATT
TTTGAACAGGCGTTCTGTTAAAAGTATTCTATTCCTTTCTTAGATATGGGATGTTTAGGGGAGAGGGGACACATTACTTGTTTTCTTAGTTACAAGTCTC
CATGTTGAGAGGAGTTACACTCAAGGATCTTCATCCACATGCACATCTGGTACAGATGACAAGATCCTGGACTTTAAGCCAATGATATGAGACAAAGCAT
TTTGGGGAGGGATGTAATTTGTTGTGGTCAGAGGGTGGCAAGAGAAACAAGTGACGGTGAAAAAATTCTGGCCTCGTGATTTTTCAGTAATAATTAAGAG
CACAATATTACAACTGCAAGGGTGAAGGTATGTGGGCTGAGGGAAAGGGATAGTTTTGGAGGGTGCTATATTGAAGGCCCAGAAGAAGTAAACAAACTTG
GAAAAAATTTACTCCACATTGCTAATGACAGCCTGTACTCTGTTTCTATAGCTTTACAACATTGATTATACAAGACAATGCAAAGGAGTTGAAATTAGAT
TTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCATTTTGTCATCCAGGCTGGAGTGCAGTGGTGTGATCATGGCTCAGTGAAGCCTTGATCTGGGCTCA
AGTGATCCTCCTGCTTCAGCCTCCTGAGTAGCTGGGACTATAGGTGCGTGCTACCACCCCTGGACTCAAAATTCGATTTCAAAGATGGCATAAGCGTATT
GATAGTGAAATGAGGAACGTGGTTTATTACTGTGGGAAAAGCTTGAGTTTAATGTAAGACAGACTTGGTTTAAAATTTATATTCTGCCACTTACTGATGT
GTGAACTTGGGCAAGCTATTTAATACCAGCTGGATGGTCTCATAAATATTTTTATTTTTTATATATTGTTTTGGGAGTATGTCACAAATGTATTTTTTAG
AATCCTTCAACTGTCAGTGGCTAGCTCTAATGTGAAAGGAGGTTAGCCTAGAATTTTCTCTGAGTGCCCGCCCTTCTGATGTTAAAAGTCTGAAGCCTAC
TTAGTAATAATGAGGTTTCAGCCCTTTTGCCTCTAGAGAGAATGAGCGACAGATAATGACAAATGAAAATAGCACTTTAGCTACATGGGAACATAATTTG
TGTTCTTACTCCAAAAGCAATTTATGATCATTTTTAAAAATTAAGACTTTTTAAGAGCAGTTTTAGGTTCAAAGCAAAATTGAAACAAAGGTACAGAGAT
TTCCCATATACCCTCTGCCCCAACACAAGCATAGTCTTCTCTGTTATCAACATCCTCAATCAAAGTGGTACAATTTGTTGTAACTGATGAACTTACCTCA
TCAATTATTACCCAAAGTCCAATTACCACCCAAATTCCTCCTCATCTTTTCATGGCCTGATCTTTTTTTTTGAGACACAGTCTTGCTCTGTCACCCAGGT
TGGAGTGCCATGGTGCCCTCTCAGCTCACTGCAAACTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAATTACAGGCGT
GAGCCACCGCGCCCAGCCAGCTCATTTCTTTTTAGCACTAAATAATGTCTATTGTCTGTATGTATCACAGTTTATTTATTCATTTACCTACTGAAGGACA
TATTGGTTGCTTCCAAGTTTGGGCAGTTATGAATAAAGCTGCTATAAACAACCATGTGCAAGTTTTTGTGTAGATAAGTTTTCAGCTCCTTTGGGTAGAT
ACCAAGGAGTATAATTGCTAAATCATATGGTAAGAGGATGTTTAGTTTTGTGAGAAACTGCTAAACTCTTCCAAAGTGGCTGTACCATTTTGCATTCCTA
CCAGCAATGAATGACAGTTCCTGACCCACATCCTCACCAGCATTTGGTTTTGCCAGTGTTCTGGATTTTGGCCATTTTAATAGGTGTGCAGTGGTTGTAT
GTGTTTTAGAATGGAACAGAAAACACAAGATTGGCTTTGATATTTTGCAAGATAGAAATTCCATTCTGAACAACTGACTTACTGTTTATGCTTGAATCTT
TTTTTGTTTTTTTTTTTTTTGGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTAATMTCGACTCATCGCAACCTCCGCCTCCCAGGT
TCAAGCGATTCTCATGCCTCAGCCTCCTTAGTAGCTGGGATTACAGGCATGCACCACCACGCCCAGTTCATTTTTGTATTTTTTAGTAGAGATGGGTTTT
GCCATGTTGGCCAGGCTGGTCGTGAACTCCTGACCTCCGGTTATCTGCCCGCCTCAGCCTCCCAAAAGTGCTGGGATTACAGGTATGAGCCACCATGCCC
GGCCTATGCTTGACTCTTTTATTAGTTGGAGCTGTTAATATTAATAACTTCACCAGGTCAGACAGGTTGAGTGGTAAGTTTGCTGATAGGTTTGATGGCT
GCTTCTGAGACCCAGACCCAAAATCTAGGTTTAGCTACGTTAAGAAGGCAACCACTACAGATAAGTGTCCAATCATGAGATCTCTTAAAACAATGATGGA
GTCCAACCCTGTTAGGAAAATCCTTTTGCTAGACAGAGAATCTCAGATCTCTTTCCTCCTGGTCATTATGTCTTGGGCTAAAAGGAGGACATTTAACATT
TATTGTATGCCAAACAGTGCTAGGCCATTCCGCATGTTATCTTATTTAATCCTCATAATTTATCTATGAAATATTTTCTGTTGTCCCCATTTATAATTCC
AAGTTGTTTTTTTTTAACCTTCCCAGACTTTATATCTGCTACCTCTCCGCCTAGAATAGTGTTATGCCTCCTTTTTGCATAATGAATGCCTACTTATTCC
TCAGAGCTCATGTCAGATGGTACTATTTTAAGGAAGCCTTCCCAGTCCCCTAGGTTTGTTTCCCTATTAAACTGATCAAAGGCTTGATTCCCTGTTACAC
TTCACTGATCAAAGTGMACTGATCTCAATAGCACAAATAACAATGCGATTACTCATTTAATATCTGTCATTTCTGCTGAAGTGTAAGCTTCATGAGCACA
GTAACTGTGCCTGTATCATTTTTCTATGTTACTTGTAGTGCCAACTATAGTTCCTTGTTCAGTAAGTAATTATTATATGATTATGGCAAATAAATTCCAT
AAACAGAAGTTGAACGCTGGTCCACTGTAACTTCAAAACCTTCCTTCAAATTATACCATGTGCAGGACCTAAGAAGTCRAGGAAGTATTTCTTAATAAAA
TTACTCCAGAGGCTCTTCCTGAACTCTATTTCAGTTCTAGGTTGGCTACCTAACGATAAAAGTTAAGCATTAATTTTATGTGGTTAGGGTGTGGTCTGAG
ATAGAGAACCTAAAGTCTTTAAAGTCTCCCCAGTTCCAAGTAGGTAATCCTTCTGAGAAGTCCCACCTTTCTGAGCAGCTGTGTTTGAAGAAAGCTAGTG
GGAAAAGTTCCAGGATTACATGTCAGGAAACTACAAGAGGTAGAAACATTTGTTGATTTACCAGTGTTTTTAACTTCCTGCTGGGCTGAAAACTGCTTGT
TTCGTGGAAAAGCAAAACTTGACAGCAAACATCTAAAATGAAGAGCTCCCAAACTTTTGAGGAACAAACGGAATGCATTGTGAACACTCTACTCATGGAC
TTCTTGAGCCCAACATTGCAGGTTGCCAGCCGGAACCTATGCTGTGTAGATGAAGTAGATTCAGGTAAGGTTCCTGCCCTAGGCGGTGATTGCAGGTCAA
TAAGAGTATGTTTTCAGCCGGGCGCAGTGACTGATTCCCGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAAGTCAGGGGTTTGAGAT
CCGCCTGGCCAACGTGGTGAAACCCCATCTCTACTAAAAGTAGAAAAATTAGCCAGGTGTGGTGGCTCATGCCTGCAGTCCCAGCTACATGGGAGACTGA
GGCATGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGTCTGGGCGACAGAGACTCGGTCTCAAAAAAA
AAAAAACAGTATATTTTATKTATTTCCTTTAAGTTTCAAAAGGCAAACTCTAAGCTTTCAGTAACACCTAAAGYGAAAGAGGTTCTCAATGAAGGGAAAC
TTTCTGACTATTGGTGTTGACAGAACATTTAAGCTCTTGGGAGATCATGATATGAAAATTATTTAAAAGACAAGACAAATTTTTCTCATTGCCCRGATTC
CTGGGACTTGCCATTGCTTCAAGCATTGTAACAAATGTGTTCCCTCTGTCATAGGAGAGCCTTGTTCTTTTGATGTGGCTATCATTGCTGGTCGCCTTCG
GATGTTGGGTGACCAGTTCAACGGAGAATTGGAAGCTTCTGCCAAAAACGTCATTGCAGAAACCATTAAGGGACAGGTCAAGTTTCTACTTCATGCTATT
GTTTGCTGCTTTTTTTTCTATTTCAAACTTCCTTTTCTTACTACTCCCATACTACAGTGACTAGGAATGTTCTATGAAAATATTTGGGTGCTTATATTTC
AAGGAAGTATAGCAAGAATTCTCCAATTGCTAAAACCTAAGTGGTACAGAGATGGAAAATTTTGGGCATAGGCTGATGAACCTTCAGTTTGTCTCTACTT
GGTCTTCATCACAGCTGTTGTGCTTAGTGTGCACAGAGCACATTTATAACACTTTATTCTTGGCAAAGTATAGTATCTTTTTTTTTTTTTTTTTTTCAGA
CAGGGTCTTACTGTGTCACCCAGGCTCAAGTGCAGTGGTGTGATCTCAGCTCACTGCAGCCTCCACCTCCTGGGCTCAAGCGATCCTCCCACTGCAGCCT
CCTGAGTAGCTGGGACTTCAGGCAAGTGCTACCATGCCCATCTATTTTTTTTATTTTTTTATTTTTAGTAAAGATGGGTTTTTGCCATGTTGCCCGGGCT
GGTCTTGAATGCCTAAGCTCAGGTGATCCACTCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCTACCACACCCAGCCTATGCTTTTTTTTT
TTGAGATGGAGTCTCACTCTGTCACACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCACCCACCGGGTTCAAGCAATTCTCCTGC
CTCAGCCTCCCAAGTACCTGGGACTACAGGGGTGAGCCACCGCGCCTGGCCCATCTGGGCGGATCACCTGAGGTCAGGAGTTCCAGACCAGCATGGCCAA
AATGGTGAAACCCCGTCTCTACCTAAAAATACAAAAATTAGCCGGGCGGATCACTTGATGTGAGGAGTTCAACACCAGCCTGGCCAACATGGAGAATCCC
TGTCTCTACCAAAAATACAAAACTTAGCTGGGTGTGATGGCCCATGCCTGTAATCCCAGCTACTTGAGAGACTGAGGCAGGAGAATCGCTTGAACCCGGG
AGGTGGAGGTTGCAGCGAGCCAAGATCACACCACTGTTCTCCAGCCTKGGCGACAGAGCAAGACTCTGTCTCAAAAAAAGAACCACCCTCTTAACCGTTA
TGCTTTATTCGTCCTACTATACACAGCTTGGGCAGTGTGCCTACACTATGTTCAGGCAGAGCTGGACCTGTTACTCCCAGTTGCTTGCCCTGAGGCTGTC
CTAGGTAGTTGATAGCTGAGTTGACTTTTTTTCTCATTAAACATATTTTTTTTTTTGGCTGGGTGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGA
GGCCGAGAGGGGCGGACTGCTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATAGTGAAACCCCATCTCTACTAATAATACAAAAATTAGTTGGGCA
TGGTGGCACACACCTGTAATCCCAGCTACTCGGGAGGCTGAGGTAGGAGAATTGCTTGAACCCAGGAGGCAGAAGGAGGTTGCAGTGAACTGAGATCTCG
CCACTGCACTCCAACCTGGGCAACAGAGCGAGACCCTCTCTCAAAATAAATAAATAAATACAAATACAAAAATTAGCCAGGCATGGTGGCACACAACTGT
AATCCTAGCTACCTGGGAGGCTGAGACAGGAGAATTGCTTGACAGGGAGGGGGAGTTTGCAGTGAGCCGAGATGGTGCCATTGYACTCCAATCTGGGCGA
CAGAGCAAGACTCTGTCTCCAAAAAAAAAACATAAATAAATAAATAAATAATTTGACTTGAACTTGTTTTAATAAAAAAAAATATATTTTGAAACAGCCC
TAAACTCAGGGAAAGGTTGCAAGGATAGTACAAATAATTTMTCTCTTGAATCATTTGACAGTAAGGAGTTGACATATTTCATCAACCCCTAATACTTTTA
TACTTCCCTCAAACAAGAACATTCTGTAATGTAACCACAATCTAACCATCAAAACCAGGAAATTAACATTGATTCATTATCATCTAATCCTTAGATCTCA
TTCAAGTTTTGCCATTTGTCCCGATAATGTAATTTATAGTAAAAAGTTGTAGGCCAGAATCACATACTGCATTTAGTTGTGATTTCTCTTTAGTTTCCTT
CAATCTGGAATTTTTCCTTAGTCTTTCCTTGATTTTCATGACCTTGACACTTGAAGACTATGGTCTATCTTGTTGAATGTCCCTTAACTGGGGTTTGCTT
GATGTTTCTTCTTGAATAAATTAAGGATATATACCTTTGGCAGGAATATCACAGAAGTATTGCTGTGTTCTCAGTGCATTGCATCAATTGGCACAAGATT
TCATTTTATMCCAGTATTGATGTTGTTAACTTTAATCACTTAAGATGGTGTCTGTAAAGCTTCTCCTCTATAAAGTTACTCTTTTCCCCTTTGTAATTAA
TAAGTGTTTTATGGAGAGGTACTTTGAAACTATGTAAATATCCCACATCTCATCAAAATTTCATTGCATTCATTTCTTATCAGCATTGGACCCATGAATT
CCTACTTTATTCTGTGGATTATAATCTGTTAACATCATTATTAATTTAGATGCTCAAATCATCCTAGTTTTAGCTAGTGGGAGTCCTTTCACTCTAGACT
GCATCTCTTTGATGTGTCTCTATTATTATTTGAGTACTTCCTTAATTTCTGACAGAATATCTTATACTTCCCTAGCCCCAAACTGAAATCAACCATTCTC
CAGAGAGCTCTGGTTTCTTTTATTTTTTGAGACGGGGTCTCACTCTGTTGTCCAGGCTGGAGTGCAGTGGCACGATCTCCGCTCACTGCAACCCCTGCCT
CTCGGATTCAAGCAATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACACACTGCCACGCCTGGCTAATTTTTTTTTTTTTTTTGTATTTT
AGTAGAGACGGGGTTTTACCATGTTGCTCAGGCTGGTCGCGAACTCCTGAGCTCAGGCAATCCGCCCACCTTGGCCTCCCAAAGTGCTAGGATTACAGGT
GTGAGCCACCGCCCGCCTTTTTTTTTTTTTGAGACGGAGTCTTGCGCTGTCGCCCAGGCAGGAGAGCAATGGCGCAATCTCGGCTCTCTTCAACCTCTGC
CTCCCCGGTTCACCTGATTCTCCTGCCTCAGCYTCCTGAGTAGCTGGGATTACAGGTGCATACCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAG
ACGGGGTTTCACTATGTTGGCCAGACTGGTCTTGAACTCCTGACCTCGTGATCTGCCTGCTTTGGCCTCCCAAAGTACTGGGATTACAGGCCTGAGCCAC
TGCGCCCGGCCTCTGGTTTCTTTTAATGGAGAATGATATTTAGAAATCAAGATCTAGGTGCTCTCCCACATGGATGTCCTTTTCAGCTTGTTTGGGCTCT
GATATTCAGCTCTGACCACCCTTGGCCCCCCTAAATCCCCACAGATCTTGCTTGGACCCACCTAATGGATTTTAGATTCCATTTTTGAAAAAGAAAGAGG
AAAAGGAAGAGCTACTCAATTATTTTAATGAATTATTATTATTTTATTATTAATTCTAATTAACTACTATTTTTGAGACAGTCTTTCTCTGTTGCCTAGG
CTGGAGTGTAGTGGCTCAATGATAGCTCACTCTAGCCTCAATCTCATAGGCTTAAGTGATCCTCCMACCTCAGCCTCATAAGTAGTTGGGACTACAGGCA
TGTGCTACCATGCCTAGCTACTTTTTAAAATTTTTCATAGAGACAGGGTCTCAATATGTTGCCCAGGCTAGTCTTGAACTCCTGACCTCATGTGATCCTC
CCACTTTCGCCTCCCAAAGTGTTGGGATTACGGGTGTGAACCACTGCATTCGGTCTTTTTTTTATTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGA
GTGCAGTGGCGTGATCTCGGCTCACTTCAACCTTCGCCTCCCAGGTTCAAGTGATGCTGCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCCTGTAC
CACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCAGCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTCCCAGTCT
CAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCSCCCGGCCTTTACTTTAGAGTCTCCCAGACATTTCCTAGTCATTCAAGCAATACCTTTA
CAATTTAACCAGCTGGACTATCACATACTTAATATTTTTCTTTCAAATCATTTTTCATTCATTTTGTTTAACCTAAGCAATAATACCTGAAGTCATGGGT
TTGATGGACTACTTATGTATTTTCAAGTGCCCATTAAGATAACAAAATATTAAAATGAGAAAAGATTATTCATCTACTCTCTAAGATTTCCTTAGTTACC
ACCAGTTGCACATTTGGCACTCTAAGAAACAATTGCTTTACTGGATTCCTGCACCTGCAGCCTCCTGCACTTTTTGAGTGATACTCTGTTGATGTTTCCT
TTGTCTTTCCTCAGACAGGAGCTATACTCCAGRACACTGTGGAATCTCTCAGCAAGACCTGGTGTGCTCAGGATTCCAGCTTAGCTTATGAGAGAGCTTT
TCTGGCAGTGTCAGTGAAACTTCTTGAGTACATGGCTCACATTGCTCCTGAAGTAGTGGGACAGGTGGCTATCCCCATGACGGGTATGATCAATGGGAAC
CAAGCCATCCGGGAGTTCATCCAGGGCCAGGGAGGTTGGGTAAGTTTGTTGGGGCTCCTGGTTTTGCTAGGTATTTGCACTGTTTTTGTACTAATACCTG
GGATTCCAATTCATGACCCTTTTTGTAAATTGGAAACCAACAGGAAAACAGGCTTCCCTATTTTGCTGAAAATGCCTAGATTTTCTTGCCATGGAAAAAT
GGAGCAGACAGAAGCTCAGCCTGTGGATGTTGGACTCGAGTCATGCTACCTTAAATATTGACTGCTGACTACTGTAAAGCTAATCTTCATTTCCTACACA
TAATCATCTATAAAGTATATTCATGATAGAGTTCTAATTTCAGCCTGGCTTCACTCSGTTCCTTTGTAAATTTCTGGGTCTTTTTTTCCTAACTTCTCTA
TGTGTGTGTTAGGGAAGTCAGAATCACCTTAATAGTATCTAAGAAAAAACAGTCTTTGCTGTAGTGGTAACTATATAAGGTATTCTAAGCCCATGTTTTA
GTAATCATCAGAACTTATGCTGTCATAGAGCACTCCTTTCCATTTACAGGGTCAGTGAAAGCCTTAATAAGAGCTACATTTCCTGGAGCTATCTGCAGAT
CATTTCCTGGTTTCTTAGGAAGTTCCTGAAAGCAATTCCTTTGACTGTAGGATTTTCTCTGTCTTCCCTAGGAAAATCTGGAGAGCTGAAGAGTTGGAGC
TATTCACGAGACTGAACATCACTTCCTTGTTGACTGATTGGGTGATTGATTCCTGGGAATTCAAACAAACAAATAAAAAARCACTTTTTTCATTTTATCA
GAACTGAACTTAGCTGAATAAGTTATTTTTTACTGATTGTTAAAGTTGGGAGCAGCTGCCAGAGGCCTGCAGAGTTGGTTTTTGTTTTTTTTGTTTTGTC
AACTTAATGCAAACCACAGAGATTTTCTACTTTCTGTTTTCACATGAGTTTTAATGAGGTTCTGTTGAAGCAAAGACCCCTAGACACAAAGTAATGACTT
GTTAGTAGTGGAATTATAAGCAACAGGGCAGGCCTTTGCTGGAGGTATTTTGAGAGAAAGGGAGAACAATGGAAACTATTTCTTCAGATGTAGCCCTGTC
TTTTGGTAAGAATTGTGCCTACTAATTTTGCAATTTAAAGGATTTCAGGAAGCTTTTTGGTTGAAAAATCTTGTTTTTTTTTTTTTAGACGTAGTCTCAC
TCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAAGCTCCACCTCCCGGTTTCACTCCATTCTCCTGCCTCAGCCTCCTGAGTAGCT
GGGACTACAGGAGCCCGCCATCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGAGGTTTCGCCGTGTTAGCCAGGATGGTCTGGATCTCCTGACC
TCGTGATTCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCTCGCCCGGCCTAAAATCTTGTTATTTTAAGTTGAGCATTTTCAT
TCAAAATCATCCCTAAACTTCATGTTAATTTCACCTGAGAAGGACTATTTTATGCATTTTAGAGGTTGGAAGCAAAAAACAAACAAACAAACAAAAACAG
TTGTTTCTACTAGGAAGGTCAAAGAAAATAAAAGTTACTCCATTTTTACTGCCACAGGATGCAGGAAGTGCTGGCCCACATCTAGGACAGCAAGGCCACC
CCAGCTTAGATGAAGCTAGCTGCATAACACAAAGCTTTAAAAGTGTGGTTCACACACCACTTGTGGACCTTATTGAATTGCTGATTCGCATTCCTAGAGA
TTCTGATTCTGTAGGGGTAGGCTGGAGCCTAGGAACCTACCTTTTAAACTAGTTCCATAGGTGATTCTGATGTACATATAGAGTGTGACAGCCATCACTA
TAGAGAATAGATTGATAAATTACAACCCACGCGTCAAATCTGGCTTGCTGTCTTATTTTGTAAATAAAGTTTTATTGGAATAGAGCAACATTCACTTGTT
TACATATTGTCCATGGCCGCTTTTGTGCTACAATGGCAGAGTTGAATGATTATAGAAGACCATATGGCTGGTTAAGTCCAAAATATTTACTAGCTGGCCC
TTTACAGAAAAAGTTGGCTGACCCCTTCTCTAAATCAACATTTCTCCTTGGTAACTGAAACTCTATTACAGTCCTGACAATTCCAGCAAACACAGCTGTA
GATAGGGTTTAAACTCAAAGATATTTAACTCTTCTTTGGGAACTTAGTCTCCATATGTTTGTTAGTTCTTGCATAATCCACAGTTTCTCTGGGTCTTCAG
CCAATCAGAGAGCTCTGTAGCTCCTGAGTAGTCCATTTCTCTGGCCCTACAAGTGAGAGTGATTGGAAGCAAAGCTTATGATTTGTATGATCTTGTATCT
CAAAATAGTCCTTAATGATCTAATAGATTAGTAGGCAGTCATCAGGTAGAGACTCCAAAAACCAGACTACTTTCCTAAATATCAAGAAGAAAGGCATTGC
TACAGTGATTCATGAAAAGCAGCATTAATAACTTTGGCTAAAGTTTAACAAAGCTAACCACTTCCCCTCTATCAGCCAGCCATCTATGTATCTCCTCTAA
ATGCAGAGAAGTAAATATGTAGTGCTGTTAATACATTTTTGCTTTTTAAAGTTATGCTTTGTCCTGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTT
GGGAGGCCAAGGCGGGTGGATCACCTGAGGTTAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTGCTAAAAATACAAAAAATTAGCC
AGGCTTGGTGGCACGTGCCTGTAATGCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCTGTGAGCTGAGTTCGC
GCCATTGCACTCCAGCCTGGGCTACAAAAGCGAAACTGTCTAAAAAAAAAAAAAGAAAATAAATAAAGTTATGCTTTTTCCTCTATTCCTAGTTAAATCA
CAACAAGTTAGTAATCCATAAATGATGTGTCCTGTTTCTCTTTAGTAGAAATTATATTTTTGGCTACCAGTTAAGAAACTTGTACTCCTTTGTCCCTTAT
GTTACTATAAACTCAAGATGATGAGTTTTGTGGTATTTGACTTCATAGGCAAAATCAAAATTTTTACTTTGTTGCTATTCTGTTTTATGAAATAAACTTC
TGTCTATGCATTTGAACTAAGTTTCAGCAAATTCAATCTAAATTGAATAATTCCAGCTCCCAGTTTTATCCTATGTTGCTCATAAAACAGTTCCAAGTAT
ACTGCATTATCTTGAGATTTGAAGATATGGTGCCCACGGGGATTATACTAGGCAAATGCGTTAAGCAGCTCTGGCCTAGGTGTTGTGTATTTTAAGAGAC
TCTATCTTAGGAGAGCTTAAGTGATTGGGCTGCAGGAAGAAGACATTGTAACCCAGGAATTAAAAATGGATTCAGATTGCCTGATTTTAACACTTTAGTT
TCACCATAGGCTAATTATGTGACATTGGGCAAGAGACATAATTCTTCTGTACCTTAGTTTCTACATTTGTAAAATAGAGATGATTTGGTAACTTATTAAT
AAGATTTTTGTGAGAGATAAATAAAACAAATACATTTTGTAAAGGGTGAGTACTTGGAATATTTTAAACACTGTGCCATTAGCAATTTGGAATTCTGTGT
TATGCAGTTCATAAGGTTCTAGCTTGACTTTTTTCTCTCTCCATTAACCCTGTCTCTCACAGATGCAAACCACTCTTAATGGCTTTACTTTCACATCAAT
GTGAGTGATTCCTAAATATGATTTATTTCCCTTCTCAATTCCATACCCACAGATGCTTATTATTTATTTATGTGTACCTTTCTTATCCCCATACTCTCCC
TGTTTGCGATACAACTAGCTCAAAACCTCAGTCATTTTTACCTTGTCTCTCTCTCTCCAGTCCAACTCACCCAACTAGTTTTTCTCATTTGTTACTTCAT
TTTTGTCCTGGTTCTTCTACCAGATTTATTAGCAACTGCCTGGACTATTAATAAAGCCTCCTACTTAGGCTTTCAATAGATTGTTCTGTTCCTGCTCCAT
TCCAGTCTGTCCTATATACTGCCATCAGATTGATCAAAGCTGTGGTTTCTTTGTCTATTATTTTGATTCATTTTTAGATATGGTATCATTCATTTTTAAA
TTTAACATACCAATGAAGATTACAAGACTTAAACATCTTATCAGAAGGGGGCATTTATTTTTTAAATCAAGAAATAACTTTCCAAAAGCATTGCTTTGAA
TGCCATTCTCTTAAAGTCCTTCAGTGGAACTTTTGAGTGTGATTAGACATGTTCATTATCTTGATTGTAGTGATTTTATGGGTGATGATTTCACACCAAC
TTATCAAACTGCATACTTTGAAATGTGTAGTTTATTGTACATCAGCACTACCTTAATAAGGTTGTTTTTTTTTAAAAAAAAAAAAAAACCTTCAGCTGCT
CCCTACTGTTCATCAAATAACAGTCTGATATTCAAATTCCCCCAGTATCTGGCCCTAACTGCCCTATATAGCCTTAATCAATCATGATTCTCCTCTACAA
TCCCAATGCTCTAGTATAACCGAGCCAGTCACTAAAGCTGCCCTCCTCCTACTGTTCCCTATGTTTCATATTGCTTTTTCTGAGGCTCTACCTGTAGACA
TCTTCAAGACCCAACCCAACTGTCATGAAGCCTTCTCCATGAAGGCTATCCATATAACCAGAATAAGAAGTGGTCTTTGCCTCCTTGAACTTTTGTTTGT
ACCACTTTTATGTTTCTTATCCAAAAAATGGCCTTAAGTTGTAATTATCTGTATAGTCATCTTCCCCACTAGGATAAAGGATTGCTGAATGATACAATTT
GTTGTATACTTCTGTAACACCCCTCCTCTTCATTATCTGGCATGTACATCGATATTAAAAATATTCATTAAATGAATGAATAGCTGATTGACTCAGATGA
GACTTCAAGTTTGATTATATTTGAAAAGGATGCTAAGCTTTAAGAGTCCTGATGCTCTTTATTTTAAAAAAAAAATGCTTCAGGCTGGGCTCGGTGGCTC
ACGCCTGTAATCTCAGCACTTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCTTGGCCAACATGGTGAAACCCCATCTCT
ACTAATAATACAAAAATTAGCTGGGCGTGGTGGCACATGCCTGTCATCCCAGCCACTCAGGAGGCTGACGCAGAAGAATTGCTTGAACCCAGGAGGCGGA
GGTTGCAGTGAGCCGAGATAGCACCATTGCACACCAGCCTGGGTGACAACAGCAAAACTCTGTCTCCAAAAAAAAAAAAAAAACTTCAATTGCAAGTTAT
TGGTTGACCTTTGCTTCTTGAGGATTTTGAAACCAAAGGCAGAGTATGCTTCCCTGTGTAGTGGGAGGTTGACTATGAAGTCTGCAGCAGGTGAACTGAA
GGACTTAGTGAAGTCTCAGAATGCTGTAGTGACAAGCAGTAGATTGAAAGATGGGTAGGGGGACTTTTCCTACCCGGGATGATGTGAAAACATGAGAAAA
TCAAACAAGCTTCGTTAAAGGTATTTTATAAGCCTCTTCTGTGTTCATTTATAAAAGGAAAAACAAGCCTACTCTAGAGATAAAGGAGGTCATTTATTTC
TGGCCATTGCAGTTCTTCAGAGATGGACTCTGAAGCTCAGTATTGACACCATTCCTTTCATAATAATAGCCCTGCTGCTTGGGCAGCAGCATTCAGGAAA
GTACCCTTTGCCAGGTTCCTGTGCCTCCATGTAGGAAGGCCCATCTGCTCCTGGCATAATGAAAGTGCCTAGCTAGAGACAAGAAGCACAGACTGTGCCA
GACAAGAGACTTGGAGTAATTGATATAATGAGTAACCAAGTGAGAGTAGATCCCTCACCAAAGCGTAACCACATTAGCTACTTTATCACAACAGACTTAT
TTTTAGGTATACTCAAGACCATGTTAAGCACTGTGGGTTATACAAACGCATAGAATACACTATCATTGCCTTTGATAAATCTGAAAATACAGGGGACATC
TTTTGAATAAACTCTTAAATAAACTTATAGGAGACAAGGAAATTGAATAAATGAAAACTTCTATAGCTGAATATACAGATTTATATTGAAGAGATTCAGA
CTAAGGGAAGATCATGGCGAAACAGAGGTAGGGGCAAGATTTTTGAAGAAAAATTGAGCTTTATGGTTTTATTTTCATTGTGGTGAAACTTAGGGGTAAA
GGTGAGAAGTAGAAAAAAGTGGTAGTAGAACGAACGAGGTCTGTAGGTGATGTGCTTGGATAGGTTGGGTGGGGATAGTTGACAGGGAGGGGCTTGGTGA
CAAGCTAAGGAATCTGGACTTGTTCCCGTAGATCATCAATAACTATTCTGATTCTTTAGCATTAAAGTGCAGTTTTAAGAACTTTCATCCAGCCTTGGTT
AACAGGAGATACTAGAATGGAAACATATAGATAGGAAGATACTCTAAGTTTATTGCTATAGGAATCCGGGTGTGAAAGTGGGAATGGGGCTAAGTGGGAA
TGGAAAAGACAGGTTGAATCTAAAAGACATTGAGGAGAAATTTCCAATAGGCCTTGGTGATCAAAAGAATGCTTACAAAGGACTGAATGTTTCACAGACA
GTATATATATCCCATATCAAATCAATGACCCTGGAATGTAGGGAAAGGCAAGAGTAGTGAAACTAAAGCTAAGGTTGGGTAAGTATCTTCTCCAGGGT


SNP Information

Context             (SEQ ID NO:50926):
CTGTAATCCCAGCTACTTGAGAGACTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGCGAGCCAAGATCACACCACTGTTCTCCAGCCT
K
GGCGACAGAGCAAGACTCTGTCTCAAAAAAAGAACCACCCTCTTAACCGTTATGCTTTATTCGTCCTACTATACACAGCTTGGGCAGTGTGCCTACACTA
Celera SNP ID:            hCV26300479
SNP Position Genomic:     25648
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50927):
TATCAACTATATGGAAAATGATGGAACTTATTCTAGACCAGGATTTCTTAAAAGTGGCAATACTGACATTTGAGGCCAGATAATTCTTTGTTGTGAGGGG
Y
TTTCCTCTGCACTGTAGAATGATTATTAGCAGTATCTCTGGCCTCTGTCTACCCACTGGATGCCAGTAGAACCCTCAGTTGTGACAACTAAAAATGTCTC
Celera SNP ID:            hCV27501315
SNP Position Genomic:     18939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50928):
ATTGTATCAACTATATGGAAAATGATGGAACTTATTCTAGACCAGGATTTCTTAAAAGTGGCAATACTGACATTTGAGGCCAGATAATTCTTTGTTGTGA
K
GGGCTTTCCTCTGCACTGTAGAATGATTATTAGCAGTATCTCTGGCCTCTGTCTACCCACTGGATGCCAGTAGAACCCTCAGTTGTGACAACTAAAAATG
Celera SNP ID:            hCV27513478
SNP Position Genomic:     18935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50929):
AGGCTGGTCGCGAACTCCTGAGCTCAGGCAATCCGCCCACCTTGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCGCCCGCCTTTTTTTTTTTT
T
GAGACGGAGTCTTGCGCTGTCGCCCAGGCAGGAGAGCAATGGCGCAATCTCGGCTCTCTTCAACCTCTGCCTCCCCGGTTCACCTGATTCTCCTGCCTCA
Celera SNP ID:            hCV11668397
SNP Position Genomic:     27630
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,8)   total(-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50930):
TCTTGAATAAATTAAGGATATATACCTTTGGCAGGAATATCACAGAAGTATTGCTGTGTTCTCAGTGCATTGCATCAATTGGCACAAGATTTCATTTTAT
M
CCAGTATTGATGTTGTTAACTTTAATCACTTAAGATGGTGTCTGTAAAGCTTCTCCTCTATAAAGTTACTCTTTTCCCCTTTGTAATTAATAAGTGTTTT
Celera SNP ID:            hCV11668398
SNP Position Genomic:     26910
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50931):
GCAGAGCTGGACCTGTTACTCCCAGTTGCTTGCCCTGAGGCTGTCCTAGGTAGTTGATAGCTGAGTTGACTTTTTTTCTCATTAAACATATTTTTTTTTT
T
GGCTGGGTGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGAGGGGCGGACTGCTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACAT
Celera SNP ID:            hCV11668399
SNP Position Genomic:     25856
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50932):
TTTCAGAATCTGGCTAACTCCAGGATGTGTTGCTTAGGATGCCTGGTGTGCAGGAGTATATACAACAGCCTATTCTCAATGGTCTGCGGGATAAGGCTTC
M
TATGTCAGGAGAGTGGCAGTCCTTGGATGTGCCAAGATGCATAATCTTCATGGAGACTCTGAAGTAGGTAAGTTCAGTGTAATCCATCATGGTCAATGTG
Celera SNP ID:            hCV25761273
SNP Position Genomic:     9284
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,32|C,2)   total(A,69|C,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:50933):
GGGGAAAGAATTCCTAATGCTCCTTATGTGTTAGAGGACTTTGTTGAGAATGTGAAGTCGGAAACATTTCCAGCTGTTAAGATGGAGCTGCTCACTGCTT
Y
GCTGCGCCTTTTCCTCTCCCGACCTGCTGAGTGCCAGGACATGCTAGGACGTTTGTTGTATTACTGCATAGGTGGGTTTTTCAGAAGGAAATAGTATTTG
Celera SNP ID:            hCV8701512
SNP Position Genomic:     14785
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,14)   caucasian(C,11|T,27)   total(C,35|T,41)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:50934):
CTGTCTGTTCTTAACAGAACTGCTATTGGAGCCTGGAAACTCAGAAATGCAGATCTCTGTGAAACAAAATGAAGCAAGAACGGAGACGCTGAATAGTTTT
W
TTTCTGTATTAGAAACTGTGATTGGAACAATTGAAGAAATAAAATCATAACAGAGTCTTGTTGCTTGTCTAGAGTAAGATGAATAACTATTACACTTTCT
Celera SNP ID:            hCV8701513
SNP Position Genomic:     15999
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:50935):
TCTGTATTTTTATGGTTCAGTTAAATGGTGAATGTTTAATTAGGTACTAAGAGAAATAAAATTGAAGTGCTGCCAATTCAAAGTGTAGCAAGGGGCCGGG
Y
GTGGTGGCTCACGCTTGCAATCACAGCACTTTGGGAGGCTGAGGCGGGTGGATCACAAGTTGAGGAGTTTGAGACCAGCCGGCCAACATGGTGAAACCCC
Celera SNP ID:            hCV8701514
SNP Position Genomic:     19265
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50936):
TGCCAAGATGCATAATCTTCATGGAGACTCTGAAGTAGGTAAGTTCAGTGTAATCCATCATGGTCAATGTGCCTCCATTATGTATAACTTTAAAAAAGAT
K
GTGTGGCTTTGGTAGAAAATAATAATGTGGCCCCAGTTCTGTACATATCTCTTTAAGTAGGATGCAGGGCTTGGTATCTTCTGGAGATGAGAAGTCCTTT
Celera SNP ID:            hCV25760923
SNP Position Genomic:     9414
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,36)   total(G,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:50937):
GACTAAGCAACTGAATAAATAATAATACTAAAGTGATCCCAACTATTGGAGCTTTTAGAAGACTATGTTCTACTTGGTTGCTTTTCTATAATGTAAGAGG
M
ATACATAGAATATGAAATTGTTGCTTTTGGAAAATATACTTTTAAGATTATCTCAATGAAGAACTGATTTCTCCTGTAGCCTGGTTTTACTAATTTATAA
Celera SNP ID:            hCV8701519
SNP Position Genomic:     19766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50938):
GACGGAGTCTTGCGCTGTCGCCCAGGCAGGAGAGCAATGGCGCAATCTCGGCTCTCTTCAACCTCTGCCTCCCCGGTTCACCTGATTCTCCTGCCTCAGC
Y
TCCTGAGTAGCTGGGATTACAGGTGCATACCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGACTGGTCTT
Celera SNP ID:            hCV1900122
SNP Position Genomic:     27733
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50939):
ACTATTTTTGAGACAGTCTTTCTCTGTTGCCTAGGCTGGAGTGTAGTGGCTCAATGATAGCTCACTCTAGCCTCAATCTCATAGGCTTAAGTGATCCTCC
M
ACCTCAGCCTCATAAGTAGTTGGGACTACAGGCATGTGCTACCATGCCTAGCTACTTTTTAAAATTTTTCATAGAGACAGGGTCTCAATATGTTGCCCAG
Celera SNP ID:            hCV1900123
SNP Position Genomic:     28266
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50940):
GTTTCAGCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTCCCAGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGC
S
CCCGGCCTTTACTTTAGAGTCTCCCAGACATTTCCTAGTCATTCAAGCAATACCTTTACAATTTAACCAGCTGGACTATCACATACTTAATATTTTTCTT
Celera SNP ID:            hCV1900124
SNP Position Genomic:     28742
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,7)      total(G,2|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50941):
GAGGGGTCTGCGGTCAGTCGGACGCGGCGCTGGAAATCCGGCGGAGGACCTAGAAGTAGCGGGAGCGATCTGTGGGCGGGGCGAACGGCCTGCCGGCCGA
Y
GGTAGGGCCTGAAGAGCCTAGGGTGGGGCTCGCGGTGTCGCGGAGGGCGTGGAAGTGTGTCAGGGCCAGCGTGCCGGCCCTACGGAAGCCGAGCCTGAGG
Celera SNP ID:            hCV1900108
SNP Position Genomic:     6163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;SC_12_T(T,5|C,18)   SC_12_C(T,6|C,18)   SC_12_TT(C,9|T,15)   SC_95_C(T,60|C,129)   total(C,174|T,86)   no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:50942):
GAGAGCTGAAGAGTTGGAGCTATTCACGAGACTGAACATCACTTCCTTGTTGACTGATTGGGTGATTGATTCCTGGGAATTCAAACAAACAAATAAAAAA
R
CACTTTTTTCATTTTATCAGAACTGAACTTAGCTGAATAAGTTATTTTTTACTGATTGTTAAAGTTGGGAGCAGCTGCCAGAGGCCTGCAGAGTTGGTTT
Celera SNP ID:            hCV1900125
SNP Position Genomic:     30081
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:50943):
AGGAGACCAGTCTGAGAAACAATAAAGTCCAAACTTATCACAGCACCCAAGGAACAAGCTGTTAATTCAACTACCTACAGACTCTTAAAAAAATGTGTGC
Y
GCTCCTGCTCATGTCTACTTACCTCATAGCATGTATCTTTACCTTGCTATTACATCTGCCTAGTGAGCTCCTGCTCATTCAGCTAAAGTATTACTTCCTC
Celera SNP ID:            hCV1900109
SNP Position Genomic:     7387
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50944):
CTTGGGAGGCGGAGGCTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCCAGGTGGCGGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAA
R
GCGTAGCAAGGGAACAGGATGCAGGTGGTAGAAATTGAGTAAACTTATTGACTTTTTAAAATTAAAGACTATAACTGAAATGTTGATCTAAAGAAAATTA
Celera SNP ID:            hCV26300481
SNP Position Genomic:     19560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50945):
TTTCACACGTGGCAGTTATATGGTTCGGTCTTCGTCCTGCTGCTTTGGAGTACCATGTCAGTCTCCCCTCTGCAGCATCTTTTACTCAGCTGGGTAGTTT
S
CTCCATATCACGGGCTTGAGCAATTACTGGTGACTCTTGGATCTATAATATAGCTAGTACAGACTTCCTTTTTTAGCTTCAGACCCACGTATCCCACTGC
Celera SNP ID:            hCV25619035
SNP Position Genomic:     6694
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,7)   caucasian(C,26|G,12)   total(C,55|G,19)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50946):
AATTAGCTTTCACACGTGGCAGTTATATGGTTCGGTCTTCGTCCTGCTGCTTTGGAGTACCATGTCAGTCTCCCCTCTGCAGCATCTTTTACTCAGCTGG
R
TAGTTTCCTCCATATCACGGGCTTGAGCAATTACTGGTGACTCTTGGATCTATAATATAGCTAGTACAGACTTCCTTTTTTAGCTTCAGACCCACGTATC
Celera SNP ID:            hCV25619036
SNP Position Genomic:     6687
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:50947):
TGGCTAATTTTTGTATTTTTAATAGAGACGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCTCCTCGGCCTCCCA
R
AGTGCTGGGATTACAGACGTAAGCCACCGTGCCCGGCTGACAGATACATTTTTAAGAAGCTTCACAGATGACTCTGATGTGCACTCTAGGTTAGTAACCA
Celera SNP ID:            hCV26300487
SNP Position Genomic:     14214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50948):
TGCTTAGAACAGTCTGGACATGGCAGTTTTTTTTTTGCCTTGCACTTTAGTGTGGCCTTTGTCATTTTTGTAGCAGAGAAGTTCAACTTTGTCTACCTGG
M
GCTATTACTCTGGCTACATCCTTGTTACTCTGAAGCTTTCCTTCTTTATCTAAGAACTTTGTTCTTTTTTATAGATGGTGCCCTGGTAAATGAATTATAC
Celera SNP ID:            hCV25762965
SNP Position Genomic:     9648
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,37|C,1)   total(A,73|C,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,39|C,1)   total(A,73|C,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50949):
ATGGTACTATTTTAAGGAAGCCTTCCCAGTCCCCTAGGTTTGTTTCCCTATTAAACTGATCAAAGGCTTGATTCCCTGTTACACTTCACTGATCAAAGTG
M
ACTGATCTCAATAGCACAAATAACAATGCGATTACTCATTTAATATCTGTCATTTCTGCTGAAGTGTAAGCTTCATGAGCACAGTAACTGTGCCTGTATC
Celera SNP ID:            hCV8701520
SNP Position Genomic:     23117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50950):
TAAATAAATAATTTGACTTGAACTTGTTTTAATAAAAAAAAATATATTTTGAAACAGCCCTAAACTCAGGGAAAGGTTGCAAGGATAGTACAAATAATTT
M
TCTCTTGAATCATTTGACAGTAAGGAGTTGACATATTTCATCAACCCCTAATACTTTTATACTTCCCTCAAACAAGAACATTCTGTAATGTAACCACAAT
Celera SNP ID:            hCV8701524
SNP Position Genomic:     26441
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50951):
TTGCTTTACTGGATTCCTGCACCTGCAGCCTCCTGCACTTTTTGAGTGATACTCTGTTGATGTTTCCTTTGTCTTTCCTCAGACAGGAGCTATACTCCAG
R
ACACTGTGGAATCTCTCAGCAAGACCTGGTGTGCTCAGGATTCCAGCTTAGCTTATGAGAGAGCTTTTCTGGCAGTGTCAGTGAAACTTCTTGAGTACAT
Celera SNP ID:            hCV8701525
SNP Position Genomic:     29133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:50952):
GCACTCTTCGAATTGATTGCCACCTTAGATTCTCTTTTGGATATAGATGGCATATAAATTATAAAAACAAGATTTATCCGACGGGTTTTATTACAAAACT
S
TGATACCATTGTTCTCTTGAACAGTTCTGTTTTGTTTTGTTTTGCTTTGCTTGAGATAGAGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCCCAC
Celera SNP ID:            hCV1900110
SNP Position Genomic:     13470
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,4)      total(G,4|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50953):
TTAACACCTCGTCTATCTTTCAGTGTTCAGCTCACTCATAAGCTCCTTCAGGAAGTTTCCTTTAACCCTCACTGCCTTCATTAGGGGCCTCCCTCAAGCT
R
TCAAAGTAGCCAGAGCATACCTCTAGCAGTAGTATTGTAATTGTTTTCTTGTTGCTTGTCCTCAATTTTTATTCTGTTCTTATCTGACCACATTTTGTAC
Celera SNP ID:            hCV11668403
SNP Position Genomic:     16766
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50954):
CCTCAAGCTATCAAAGTAGCCAGAGCATACCTCTAGCAGTAGTATTGTAATTGTTTTCTTGTTGCTTGTCCTCAATTTTTATTCTGTTCTTATCTGACCA
S
ATTTTGTACATTGAAGCAACTTATGGCAAGAACAAATCTAATAAAATGATGGTAAAATATAAATAGCGAATCCAGAATGGGAAAAATTAAAATACCAGTT
Celera SNP ID:            hCV1900111
SNP Position Genomic:     16857
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50955):
TACTAAGATATGTGCAAGATCCTATGAGAAGTTAGTAATGGGTTTCACATGACTTTCTTAACAGTATTCTTCAACGAAAGCAGAGAGCATGACTTTAATA
Y
AGAGCTTAGACTGGGTGCAGTTGCTCACACCTGTAACCCAGCACTTTCGGAGGCCAGGGAGGGAGGATTGCTTGATGCCAGGAGTTCAAGATCAGCCTGG
Celera SNP ID:            hCV1900112
SNP Position Genomic:     17254
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50956):
AGTTGCTCACACCTGTAACCCAGCACTTTCGGAGGCCAGGGAGGGAGGATTGCTTGATGCCAGGAGTTCAAGATCAGCCTGGGCAGCATAGTGAGACCCT
R
TCTGTAAAAAAATTGACTTAGCCAGGCATGGTGGCACATGCCTGAAATCCCAGCTGCTCAAGAGGCTAAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTG
Celera SNP ID:            hCV1900113
SNP Position Genomic:     17373
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50957):
CCCTGGTAAATGAATTATACAGTTTGCTGCGTGACCAGGATCCAATTGTAGTTGTGAACTGCTTGAGGTCTCTAGAGGAAATTCTGAAACAGGAAGGAGG
Y
GTTGTCATCAATAAGCCCATTGCTCACCATCTCTTAAATCGGTTTGGATGCCTCAGCACTCTTTTTATTATGAGATCTGCTACCTTGTGGGATCTTGTTG
Celera SNP ID:            hCV25761933
SNP Position Genomic:     9829
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,34|T,6)   total(C,65|T,11)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:50958):
ATACTAAAGTGATCCCAACTATTGGAGCTTTTAGAAGACTATGTTCTACTTGGTTGCTTTTCTATAATGTAAGAGGCATACATAGAATATGAAATTGTTG
Y
TTTTGGAAAATATACTTTTAAGATTATCTCAATGAAGAACTGATTTCTCCTGTAGCCTGGTTTTACTAATTTATAAGCAAAATGACTAAAGCTCAGGTAT
Celera SNP ID:            hCV1900115
SNP Position Genomic:     19790
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50959):
GTATCAACTATATGGAAAATGATGGAACTTATTCTAGACCAGGATTTCTTAAAAGTGGCAATACTGACATTTGAGGCCAGATAATTCTTTGTTGTGAGGG
R
CTTTCCTCTGCACTGTAGAATGATTATTAGCAGTATCTCTGGCCTCTGTCTACCCACTGGATGCCAGTAGAACCCTCAGTTGTGACAACTAAAAATGTCT
Celera SNP ID:            hCV27526828
SNP Position Genomic:     18938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50960):
ATTGACTGCTGACTACTGTAAAGCTAATCTTCATTTCCTACACATAATCATCTATAAAGTATATTCATGATAGAGTTCTAATTTCAGCCTGGCTTCACTC
S
GTTCCTTTGTAAATTTCTGGGTCTTTTTTTCCTAACTTCTCTATGTGTGTGTTAGGGAAGTCAGAATCACCTTAATAGTATCTAAGAAAAAACAGTCTTT
Celera SNP ID:            hCV15751996
SNP Position Genomic:     29657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50961):
AGATGTTTATATTTTACAATCCATGAAGGTAGTCTATACTGTGCTCTTAGAACAGCAGCCATCTAATGTCATTCTTAGTTGACAGGTAAACAGTATGTTA
Y
GTATGTAATGAGGTTCCACAAAGACAATAGTGTTTTGGAACACTGCAGAGGCAATAATTTGCATATTACCATCATTTTATAGTTATGAATCAGTGACTGT
Celera SNP ID:            hCV1900116
SNP Position Genomic:     20077
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50962):
ACAACTGACTTACTGTTTATGCTTGAATCTTTTTTTGTTTTTTTTTTTTTTGGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTAAT
M
TCGACTCATCGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCATGCCTCAGCCTCCTTAGTAGCTGGGATTACAGGCATGCACCACCACGCCCAGTTCA
Celera SNP ID:            hCV1900117
SNP Position Genomic:     22270
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50963):
GATTATGGCAAATAAATTCCATAAACAGAAGTTGAACGCTGGTCCACTGTAACTTCAAAACCTTCCTTCAAATTATACCATGTGCAGGACCTAAGAAGTC
R
AGGAAGTATTTCTTAATAAAATTACTCCAGAGGCTCTTCCTGAACTCTATTTCAGTTCTAGGTTGGCTACCTAACGATAAAAGTTAAGCATTAATTTTAT
Celera SNP ID:            hCV1900118
SNP Position Genomic:     23379
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50964):
CTGGTGTTTTTATGGAAATGGTGAAGGCCAGTGCCACTGTAGATATTGTCCAGAAGAAGTTGGTTTATCTGTACATGTGCACATATGCTCCCCTGAAACC
R
GATCTGGCTCTCCTGGCCATCAATACGCTGTGCAAAGACTGCTCAGACCCCAATCCAATGGTGCGAGGGCTGGCGTTACGGAGCATGTGTAGCCTCAGGT
Celera SNP ID:            hCV25619040
SNP Position Genomic:     8370
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:50965):
GGAAACTTTCTGACTATTGGTGTTGACAGAACATTTAAGCTCTTGGGAGATCATGATATGAAAATTATTTAAAAGACAAGACAAATTTTTCTCATTGCCC
R
GATTCCTGGGACTTGCCATTGCTTCAAGCATTGTAACAAATGTGTTCCCTCTGTCATAGGAGAGCCTTGTTCTTTTGATGTGGCTATCATTGCTGGTCGC
Celera SNP ID:            hCV1900119
SNP Position Genomic:     24395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50966):
TTTAAGAATTCTCCCTTTGCTATGATGAACAACCACCTGGTCATATGGCAGTGGCATGGAAATGGTCCTAATTTTGTTGCTAAAATAGCTCTTTTGTTTT
S
TTTTTTGGATAGAATGTCAAAACTGGACCAATGGGGCCAGGCTGAAGTATTGAACTTTCTGCTACGCTACCAACCCCGCAGTGAGGAAGAACTATTTGAC
Celera SNP ID:            hCV25619041
SNP Position Genomic:     10693
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,24)   caucasian(C,2|G,10)   total(C,4|G,34)
SNP Type:                 INTRON


Context             (SEQ ID NO:50967):
CACGGATGTGTCTGCGGACTTTGCACAGGCTGCCATCTTTGCCATAGGTAGGTGTCTGCTCCTTTTCCTTCTTGAGAACCTAGACCAGCCAGCAAGAAAA
Y
TGTGGTTAGAGGAACCATAGAGAGCAAAGGGCATGAATCTTGCTTCAGAAGCAAAGTACTATGCACTAAATAATTGGGTCAGTGACTACAAACACGGGGG
Celera SNP ID:            hCV25619042
SNP Position Genomic:     11256
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,33|T,1)   total(C,61|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:50968):
GGCGACAGAGACTCGGTCTCAAAAAAAAAAAAACAGTATATTTTATTTATTTCCTTTAAGTTTCAAAAGGCAAACTCTAAGCTTTCAGTAACACCTAAAG
Y
GAAAGAGGTTCTCAATGAAGGGAAACTTTCTGACTATTGGTGTTGACAGAACATTTAAGCTCTTGGGAGATCATGATATGAAAATTATTTAAAAGACAAG
Celera SNP ID:            hCV15773105
SNP Position Genomic:     24274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50969):
CCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGTCTGGGCGACAGAGACTCGGTCTCAAAAAAAAAAAAACAGTATATTTTAT
K
TATTTCCTTTAAGTTTCAAAAGGCAAACTCTAAGCTTTCAGTAACACCTAAAGCGAAAGAGGTTCTCAATGAAGGGAAACTTTCTGACTATTGGTGTTGA
Celera SNP ID:            hCV15773106
SNP Position Genomic:     24220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50970):
TGGTGGCACACAACTGTAATCCTAGCTACCTGGGAGGCTGAGACAGGAGAATTGCTTGACAGGGAGGGGGAGTTTGCAGTGAGCCGAGATGGTGCCATTG
Y
ACTCCAATCTGGGCGACAGAGCAAGACTCTGTCTCCAAAAAAAAAACATAAATAAATAAATAAATAATTTGACTTGAACTTGTTTTAATAAAAAAAAATA
Celera SNP ID:            hCV26300478
SNP Position Genomic:     26284
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50971):
TTGGACTTTTGGAGGATCCGGCAGAAAGACCTGTGAATAGCTGGGCCTCAGACTTCAACACACTGGTGCCAGTGTATGGCAAAGCCCACTGGGCAACTAT
Y
TCTAAATGCCAGGGGGCAGAGCGTTGTGACCCAGAGCTTCCTAAAACTTCATCCTTTGCCGCATCAGGTAAAAACAGTCCTTACCTTAAATCTTGTCATG
Celera SNP ID:            hCV25619046
SNP Position Genomic:     15290
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION


Gene Number:                 236
Celera Gene:                 hCG38638 - 62000133305249
Gene Symbol:                 DCLRE1B
Protein Name:                DNA cross-link repair 1B (PSO2 homolog, S. cerevisiae);FLJ12810;FLJ13998;SNM1B
Celera Genomic Axis:         GA_x5YUV32VTKB(5389272..5410138)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12396):
TAACCATGCTTTATTCCAAATATGAGGGTTGCTCCTCCTCCTGTACTTGAAATCCTTCAAAACTTGGCTCAACAGCTGTTTTCAGTTTTTGAGTCACTCC
AGCCTTTCAAATTCCAGACAGGGTACTATGAAAAAGTCTGTAAGATTTAGGAATTATTCTGTGTTGGTCTACATTCAGCACAATACATAGCCCATAGCAG
AAGCTCAATAAATGACTGGTGGATTAACATAGGACTTTGAGTCAGGAAAGCTGGATTTCAGTCCCATTTCTAAAACTATGTGCCCTTTTGGCAATTTGAT
AACTGTTTTTGTGCCTGAGTTTCTTCATCTTTAAAATGAAGTTAATGACATTTGTCTACTTTTCCTGACTGTCTCACGATACTGTGGTAAGATGATGTAT
AGGAAAGCATTTTGGATAGAAGACAACAACAATTTTAAGTATTGTAGTTTGTGTTACCTGTATTCTCCATCCTGGAAGATACAGCAACACCAATCTTGAC
CAAAAAAAAACAAAAAACAAAAAAAAACTCTCTTCCCCCGTGTTTGTAGTCACTGACCCAATTATTTAGTGCATAGTACTTTGCTTCTGAAGCAAGATTC
ATGCCCTTTGCTCTCTATGGTTCCTCTAACCACAGTTTTCTTGCTGGCTGGTCTAGGTTCTCAAGAAGGAAAAGGAGCAGACACCTACCTATGGCAAAGA
TGGCAGCCTGTGCAAAGTCCGCAGACACATCCGTGCAGTACCCTCGAAGCTCCTCTAGCACCTGCTGCACATTCTCATCGTTCACCAGTTCACACAGCAC
CTCCACTTTCTGTAGTTTGATGTAGTGGGGCTCCGAGTAGGAGCAAAAAAACTTTTTGTAGTGGCTGCTAAAGTGACCTGGTAAACTATGCAAGATCTGG
CGTACATGACAAAGAGCAACAAAACAGAGCTCACGGCTCTCTGAAGAACAGGCAGCTAGCAAAGGTCCCTTGACCCGCACAAGGACATCAGTTTGTACGT
GGGGAAACATTTTTGCCAAGATCAGAAAAAGTTTGGTAGCTCCCATCACCACACCTGGGCTACTGCTCTTGAGGAAACTATCCAACAGATTGAGAATGTC
AAATAGTTCTTCCTCACTGCGGGGTTGGTAGCGTAGCAGAAAGTTCAATACTTCAGCCTGGCCCCATTGGTCCAGTTTTGACATTCTATCCAAAAAASAA
AACAAAAGAGCTATTTTAGCAACAAAATTAGGACCATTTCCATGCCACTGCCATATGACCAGGTGGTTGTTCATCATAGCAAAGGGAGAATTCTTAAAAA
TAGGCTGTGCCATAATTAAGTCACTTTTCATGTACTATTTAAAGTTTACACAAAAAAGGCTTAAAATTCCAAGATGAGTTGTTAATACAAATGCACACTC
CTCTAAGACCAAAGACATGATCAGCATACACTGGGTCCAGGTTCCTTACATTTTAAGACACTATAAATGGCTTAGTTTGGGGGACATGACTAGAGAAGGG
TAGAACCTATTCCCACAGTATATTTCTATTTCCCTATATCAATAAGGGAAAGTAAGGCAAATAAAAGAAATTCTCTCAGTGGAATGTGAGGGAGTTAATA
GTGGTTAACTGGCCGGGCGCAGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACCTGAGGTCAGAAGTTTGGGACCAGCC
TGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGCGCATGCCTATAATCCCAGCTACTCGGGAGGCTGAGGCAGG
AGAATTGCTTGAACCCAGGAGGCGGAGGTTGCGGTAAGCCGAGATAGCGCCATTGCACTCCAGCTTAGACAACAAGAGCAAAACTCCGTCTCAAATAATA
ATAATAATAATGGTTAACTTTCTTTTCTACCCCACATAAGTTGTTCAATACTTTAATACATCAACAAGATCCCACAAGGTAGCAGATCTCATAATAAAAA
GAGTGCTGAGGCATCCAAACCGATTTAAGAGATGGTGAGCAATGGGCTTATTGATGACAACRCCTCCTTCCTGTTTCAGAATTTCCTCTAGAGACCTCAA
GCAGTTCACAACTACAATTGGATCCTGGTCACGCAGCAAACTGTATAATTCATTTACCAGGGCACCATCTATAAAAAAGAACAAAGTTCTTAGATAAAGA
AGGAAAGCTTCAGAGTAACAAGGATGTAGCCAGAGTAATAGCTCCAGGTAGACAAAGTTGAACTTCTCTGCTACAAAAATGACAAAGGCCACACTAAAGT
GCAAGGCAAAAAAAAAACTGCCATGTCCAGACTGTTCTAAGCAGCTAATACAAAGGATCTCATTGGGGCCCCAGAGAAAGGACTTCTCATCTCCAGAAGA
TACCAAGCCCTGCATCCTACTTAAAGAGATATGTACAGAACTGGGGCCACATTATTATTTTCTACCAAAGCCACACAATCTTTTTTAAAGTTATACATAA
TGGAGGCACATTGACCATGATGGATTACACTGAACTTACCTACTTCAGAGTCTCCATGAAGATTATGCATCTTGGCACATCCAAGGACTGCCACTCTCCT
GACATAKGAAGCCTTATCCCGCAGACCATTGAGAATAGGCTGTTGTATATACTCCTGCACACCAGGCATCCTAAGCAACACATCCTGGAGTTAGCCAGAT
TCTGAAATACTAATTTTGACATACCTCAGCCCCTGTTCACCTAACAGATGGTTTAGTAGATGCTGCACCCATCAGATCATGAAGAATTGCAGAAAGCCTC
TATCAAGCTTAAAAAGCCATAATTTGACTTTTCTGTTTTTTTCTTGTTTTTTTCAAGATGGGGTCTCACTTTGTCACCCAGTGGCCCGATCATAGCTCAC
TGCTGCCTTGAATTCCCGGGCCCAAGCCATCCTCCTGCCTCAGCCTTCCTAGTAGCTGAGACTACAGGTGCGTGTCACCATGCCCATTTAATTTTTTGTA
GATATAGGCTCTCACCATCTTGCCCAGCTGGTCTCAAATTCCTGGGCTCAAGCAATCTTCCTGTCTAAGCCTCCCAAAGTGCTGGGTCTACAGGCATGAG
CCACTGTGCCCAGCCTAATTTGACTTTTCATTTGGAATAATGATGCACAGGCAGCAAAAAAAGATATACACATAATTGTTTAGAGATATTTAACCAAAAC
TGAGGACTATTTTACTTAGAGTGAGAATCAAAAACTCCCTCTAATAAAATTATATGATACAGGTTATTAAGCCAAAGCAGTGGCTGAAAATCTGAGTTCA
GGGTACAATAATGTTTTCCCCAGTATTAAGGAGCTCAAATAAATTATCCTCTTTAAAAACCTACCCTGTGATCACTTGAATTCATCAGCCATTTAGGACC
AGACAGAGAAGAGGGTACTCACCTGAGGCTACACATGCTCCGTAACGCCAGCCCTCGCACCATTGGATTGGGGTCTGAGCAGTCTTTGCACAGCGTATTG
ATGGCCAGGAGAGCCAGATCYGGTTTCAGGGGAGCATATGTGCACATGTACAGATAAACCAACTTCTTCTGGACAATATCTACAGTGGCACTGGCCTTCA
CCATTTCCATAAAAACACCAGACATGTCCAAGCCTTGAGTCATGTACCTGAACAACGCACATGACAGAAGGAAGTAAAATGCAAAATCCCCAACTTACAA
TGGAGGGAGTTTTACTTACATATCTCCTGATTACCCAACTAGATTGTGATCTCTTAGAGGGTAGCAGCCAGGATTACCTTGTCTATTATATCACACAGTA
CTTCATACCATAGGCCTACAATAAACATTATTCTTCTATTCATTCAACAAACACTTATTATTATTTTTGAGACAGAGTCTTGCTCTGTTACCCAGGCTAG
AGTGCAGTGGCACAATCTCGGCTCATTATAAGCTCCGCTTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCGTG
CCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACTGCAGGTGATCCACCCGCC
TTGGCCTCCCAAAGTGCTGGGATTACCAGCGTGAGCCACCGCACCCAGCCTCAACAAACACTTATTGAATCCCTAGTACTTTGGTGAAATTCAACTTTTA
CATCCAGGGACATGCTCTTGGGACATAATCTTGAAGAAGGTGTGGTCTCAAACCTCTAGGAACTTCAAATCTATTAATGAGCCAGATGAGAATACCGTTA
ATTACAGTATGATAGATAAGTACTTAAACAGAAGTATTGTACAAGGTGTAGAGGGGATTCAGAGGTCTGACACTGGCAGGAAGTCAGAAAATGTTTCTTC
ACAGAGGAAGTAATACTTTAGCTGAATGAGCAGGAGCTCACTAGGCAGATGTAATAGCAAGGTAAAGATACATGCTATGAGGTAAGTAGACATGAGCAGG
AGCAGCACACATTTTTTTAAGAGTCTGTAGGTAGTTGAATTAACAGCTTGTTCCTTGGGTGCTGTGATAAGTTTGGACTTTATTGTTTCTCAGACTGGTC
TCCTACTGGAACCAACTGAAATGTTTATTAAAAATACAGATTCCTGGGTTCCCTCCCACCCTACTGAAATCAGAATCAGTCCCTGGACTGGATGACAAAA
AGCACCCCAAGGGATTTTTATGCATAGTAAAGTTTGTGAACCATAGCTGTAGGCAAGAGTTATGTGTTCAGGTATGTATAATGGAAAAATTCTGTCTCAA
ATGAGGCAAAGTGGCCTACTAGTAAGCTGCTGCAATTGCTTTATTGATGAAGGCCTGGACCAGAACAACAATGCTAATAAACAAGAGAGGATGGATATTT
AGAATTATGAATTCAAACCATCTGACATAAGAAGTGAGAGATCAGGTGTCCTCAAGGTTGGCTCCCACGCATAGTCGGCTGCTGGTGGCATTCATCAACA
CAAATGTAAGCTGAACAGGTTTGAGGAAGACGGAAGAATGTCCGGGCTATTTCGGACATACTTTTGATAAACCACGCACGTGGAAATGCCAAGCAGGCAG
TGGGATACGTGGGTCTGAAGCTAAAAAAGGAAGTCTGTACTAGCTATATTATAGATCCAAGAGTCACCAGTAATTGCTCAAGCCCGTGATATGGAGGAAA
CTAYCCAGCTGAGTAAAAGATGCTGCAGAGGGGAGACTGACATGGTACTCCAAAGCAGCAGGACGAAGACCGAACCATATAACTGCCACGTGTGAAAGCT
AATTCACCCTTTCAGAGAGACTGGGGCTAGTGAGCCCTGATGGGGATTGCAAAGGGAGCAGTTAGCACGCGAAGGGAGGTAGGTGATACCTAATCACTCG
CTGGATGACATTCCGGTAGCGCAGCCTATCAGCTTGAATGTGAGGATTGCACAGAGCCTTCTTCAGCTCCTTCACCACGTCCTCGGAGCCAAGGTACGGC
ATCTTCCTAAGAGTCACAGGGCAGCTCCCACAGCTCCCACGGTAACTCGAGGGCTCCTTCTCGTCCTGATGTGGGAGCCTGAGTAAAGGAAATATGAGTC
AGTGAAAATACAAAAGGCGAGATCTCGCCTCAGGCTCGGCTTCCGTAGGGCCGGCACGCTGGCCCTGACACACTTCCACGCCCTCCGCGACACCGCGAGC
CCCACCCTAGGCTCTTCAGGCCCTACCGTCGGCCGGCAGGCCGTTCGCCCCGCCCACAGATCGCTCCCGCTACTTCTAGGTCCTCCGCCGGATTTCCAGC
GCCGCGTCCGACTGACCGCAGACCCCTCCCTCTCCAGTTCCAGCCTTAATTCCCCCTCCACGCCGTTCTCATCGCGGATAGGCCCAATCTTGCTTTCTGC
GGAAGTCCCGCCCCCTTGTCAAGAGACCAAACAGAAGAGCGCTGCCGGTCTCCCCGCGAGCGAGCGCTAAGCGTAGTCCCGACTCCGACCTTAGGATGCC
CTTCCCCCAACCTCTCACTCTCCAGGCGCAGCTGCGCGGCTCCCTCTGGTGGAGCTGCGGCGGGCAATCGGAAATCKGCTACTTTGGCCTGTCTCCTCCC
TGCAGCGCGCGCTTTGAGTGCCCGGCTCGGCCTCCGCTCCCGCGCGGTTGGGAGTGTCCAGCGCCCTCCGCGATTTGGGCTCCAGCGGGCAGGGTGACTT
CCTTTTTCTGCCCACTCTGGTAACTTATTGCTCTGCTGGGCTCTTTCCCTTAGGGTCTCTGGCCCTGTTCTTGCCCCAGCATGACTTTTATCGGGACGCC
GTTGTGGAAGCCTCACGCAGGAGCCCTGCCCCCGTGGAGAAGATCCCACTGGTGACTCCRACCCTACCACCATGAATGGGGTYCTGATCCCCCATACGCC
CATCGCAGTGGACTTCTGGAGCCTGCGCCGGGCTGGCACCGCACGTCTCTTCTTCTTGTCTCACATGCACTCGGACCACACCGTGGGCCTGTCTAGCACC
TGGGCCCKGCCCCTCTACTGCTCCCCAATTACAGCCCACCTCTTGCATCGTYACCTACAGGTATGGGGCTGGAGTCGGTCTCCGAGAGCTGGTCCAGGCA
TCTGGGTTGGGACTTCAACCTGTCATTCTTGGAGTCATAGAATGGGGGCCACGAAAACTGATTTGGAAGTTGTTTGAACCCAAAAATGCATCTTTAACCC
AGAATAGGAACGTGTTTTCGAAGTGACCAACTTGAGATAGTTAGCCATAAGTTGAGRAGATATTTTAATCCAGCCAAGGAAACTATTCCTACCTTTATAA
GTAAGCTAGGCCGATGTTTCCCAAACTTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGYTCTGTTGCCCAGGCTGGAGTGCAGTGGC
GCAATCTCGGCTYACTGCAGCCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGTCTCGGCCTCCTGAGTAGCTGAGATTACAGGCGCACGCCACCACGCCC
AGCTAATTTTTTGTATTTTTTGTGGAGACGGGGTTTCACCATGTTGGCCAGGCTGTTCTCTAACTCCTGACCTTAAGTGATCCGCCCGCCTCAGCCTCCC
CAAGTGCTGGGATTACAAGCGTGAGCCACCACGCCCCGCCTAAACTTGCCTCATCTTAAGAATCCACCTAATGTGCTGGGTGGTTCTCCAGCTCTCTCCC
CACCCCACCCTTAAGTCTCCAAGAGATTAAGATCAGGAGTAAGTTTGGGAATTGCTGACTAGACTGTTTGCTGAACTCTTTTTTTTTTTTTTTGAGATGG
AGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAAACTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCC
GAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCG
ATCTCCTGACCTCGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCAGCTGAACTCTTAAATTGTACAA
AGGGTGGGATGGGAAGTGGAAGGAGGAAGGGCAGATTGCTTGGGAATCCCCATTACAGCTTCTGCTCCCGGTGGCTCAGGATTTGGTCAGCTTTCCTGAT
TCATGTAAGGGATAGTCCCTGACCCGGGGAGGTAACGGAGAGGAGTCAGTGGTCACTGGGATGACTAACTGTTTTCTCAGGTATCTAAGCAATGGATCCA
AGCCCTGGAGGTTGGTGAGAGCCAYGTATTACCCCTAGATGAAATTGGACAAGAGACCATGACCGTAACCCTCCTCGATGCCAATCACTGTCCTGGTTCT
GTCATGTTTCTCTTTGAAGGATATTTTGGAACCATCCTCTACACAGGTGGGCCTCTCAAGGAATCCCAGTGACTTCTCCAGACTAGATGTWTTTTTTWTT
TTTTTTTTTTTTTTTTTTTAATGTATAGACTGGGGCCTCGCAGTGTTGCYGAGGCTGGTCTCAAACTCCTGACCTCAAGCARTCCTCCCGCTTCAGCCTC
CACAGTAGCTAGGATTATTGGCACAAGCCACCACACCTGGCAGACTTTTCTTGAGCAGCCTTAACTCAATAGAAGTCTGGAGGCGCTGGAGGCCTTCTAA
CTTCATCACATATGAGCATAGTGACCCCATCTCAACTGATTTCCCACTGTTTTTTTTTCCTTCTTCTTTTTGAGACGGAGTTTCACTCTTGTCACCCAGG
CTGGAGTGCAGTGGCGTGATTGTGGCTCACTGCAACCTCCRCCTTCTGGGTTCAAGTGATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGGATGACAGGCG
CCTGCCACCACGCCCAGCTAATTTTCGTATTTACTATTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATC
CACCTGGCTCGGCCCCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCCGATTTCCCACTCTTTAAGGGTCCGAACCTTGTGAAGAGTAAT
TGAAAAATAGGAGTAGGATGGAGACATTACAACAAAGAAACCATGCAGCTATACTGCCTAGTTCAGTGCCAGGCTACATAATAGTTTTTTCACAGACTAG
TAAGCAAACGCCTGTCTATTGTTGGAGGTAGGAGAGGCTTGTCTTCTATTCTTTTGTCTCTGACCTTCTGCCCCCATGTACATATTCCTCCAGGTGATTT
TCGATACACACCATCCATGCTAAAGGAGCCAGCCCTGACACTGGGGAAACAGATCCATACTTTATACCTAGACAACACCAATTGCAATCCAGCCCTGGTT
CTTCCTTCCCGACAAGAAGCTGCCCACCAGATTGTCCAGCTCATTCGAAAACACCCACAACATAACATAAAGATTGGTGAGTTGTTTCCTTTCAGTTTCC
TGTCACCTGTAGATAGTGAACTAGATTCTTTAAGGATTCTCACATCTTTCAGATCTTTGTGCAGTTCTCACTTTCTCCTACACTGACCACCTTATTTAAA
ATTGCAACCTGGCTAGGTGTGGTGGTTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGATGGGAGGGTCATTTGAGCCCAGGCGTTTGAGACCAGCT
TGGGCAACATGGCAAGACCCTGTCTCTACAAAAAATTTAAAAATCAGTTGGGCACGATGGTGCGTGCCTGTGGTCCCAGCTACACAGGGGACTGAGACAG
GAGGATTGCCTGGGTCCAGTAGGAGGTCAAGGTTGCAGTGAGCCATGTAAGTGCCATTGCACTCCAGCCTGGATGACAGAGCAAGACCCTGTCTCAATAA
ATGAATGAATGAATGAAATAAGTAAAACTGCAACCTGCCCACCATCCCCATTCCCAACTCCTGATCATCYATACCAATTCATTTTTTTCATTTTTTTATA
GCACTCATATACTATATATATTTTTAAATATGCTATTGCTTACTTGTTGTCTATCATGCACTTCCTCTGGCCCATGCACATACGCGTGCACACACACACA
CACACAAGCATAAACTCCTTAAGAGCATCACTGGAAATGGGAAGAGACTTTGTGTGTTTGTGGAACAGAGAAGCAGCAGTCAGTATGACAGGCACACAGT
GGGCAAGGAGGCTGAAAAGGCAAGAGGGGCTGAAGTGCTGTTAAGCCATTTTGGACTTGATCCTAAACCCAACCAAGAGCTATTGAAGGATTTTAAGTAG
AAGAGGGACAATATGCACTCATCACCTTGCAATATATTCTATAATTTATGTATTTATTGGACTTTTTATTGTCTGATTCCCCCTGCTAGAATGTGAATTC
CACTATGGCAGKCTCTGTTTTATTATGGGTGTATCACAAATGCCTACACTAATGCCTGACACAGAAGCATTCAATATGAATGAATGAAATTTATCAGAAC
ATAGATATTTAAGTGAGCGTTGTGCTTTAAATTAAGTATACTGAAAAAACAGGTTTGTGCTTGTTGTACTGATTATAAATAGTATAAAACATTGTTGAGG
ACTCTTTCTTGGAGTTGCCATTTGGAATAGTTTATGAAAATACATTTTTGTTTTATAAAATAAATAAATGTAATAGATTTGGTTCTAAATTACTTTTTTG
GTTGTTTCCAAATTTGTGAGYCTACAAAAGGACAAAGACTTGCCACCATTATAAATATTTGAAAAGGACATGTCTCAACTCTGAAAGGAGTTTCAAAATG
AGACTAAACAAAGGCATTGAAAAAATTATATAACTTCCAGGGTGACTACCAAATCGATTGAGAAATATCCTCTACTCTCAGGATTGCTTAGCTACTTATA
AAGACCTAACCATTCTTAATATTTTAATGCAGAATTTTCTCAAAAAAGCAAAGCTGGCTAGGAGGATGCTATAGTAAGCCTTAATTAATTTTGCAAATAT
GTAATAAGCCTCTACCCACTAAGTACCAAGTATCCAATAGGCAGTGGGGATATAAAGATGAATAAAATATAGTCTCTGACTTGGAGGGCTCACAGTCTGG
TAGGGAAGGACCTGTGGGGAGGTGGAAGTGGGAATATATATAGAGAGAAGAAAAATCCGCTCCATTTGTGCCCAAGGAGTGAGATTTTGAACCATAATCA
GGAATAAAGTGGATATAAATAATATATACTTCTTTTTATGGCGTTCACAATCTGGTTGTGGATTTGAAACTTCTTCAGAAAAAGTCTGAGAACAGCTATT
AAACAACATCTCCCATATCTGTTACCATAACCATTTCCCAAATTAATGTCTCCATTTCTTTCTCTGTAAGTACTATTTGGGCCCTTCAATTGAAACTTCC
ACTCCAGCTTCTTCTCATCCTGGCAGTCAAATAATATTATTACCATATTTTTCTTTTTAAAGCCCTGCTCTGAGCATATTATTCTTATGATTAGAATTAG
CCATTTTCCTGCTTCACACTCAGTGGCTCCCCTTCACTTACACAATGAAGTCCAAGCTTCTTAGCGGTACATATAAGACGCTCTATTATATGGCCCTTGC
TTGCCTCTCTGGTATCATTTCTTATCAATTCCTTTTTTACTTTAGTAACAGCAAACTGACCCCTCTTAAAATGTTTTCCACTATACCCTTTCTACCCTTT
CCTTGCCAGGTTAACCTTGCCCATCCTTTAAGATTTAGCCTAACGTTCCCTAACTCCATCACCTGTTAGATACAATACTGTATACTTTTTTTGTTTTTTT
TTAAGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGGGTAGTGGCATGATCACAGCTCACTGCAGCCTGGACCTCCCGGACTCAAGTGATCCTCCCGC
GTCAGCTTCCTGTGTACCAGGAACTATAGGCGTGCACCAACATGCTTATTTGTTTATTTTTGTAGAGACAGGGTCTTGCCAGGTTGCCCAGGTTGGTCTT
GAACTCCTGGGCTCAAGCAATCCTCCTGCCTCAGCCTCCTAAAATTGTAGGCTTACAGGTGTGAGCCACAGTGCCCGGCCTGTACACATATCTTTAACGT
TGCTCTTAATTGTGGTTTTTCTGGGTCTCCTTGTAGATAGTACTTCTTGAGGACTGACAGTTTTCTTTATTAGTTTTCATGGTGCCTGAAACTTGCTAGA
TGCTCTCTTTTGTTGAACTAAATGAATGAGTGGATTCTGTGTCATTCCCTTTCATATGTCTTAGCTCAAATGCCACCTCTTCCTTGATATTCTCCCTGGA
TTTCTCCATGAATTGTATCTATTTTTGTTAAACATTTTGTTGATTTATTAGGATTTTCCAATAGCTTAATTTTCTTCCTTCTCTTACTTTCCCCAATACA
TTGAACATTATTTAGGACTCTACAGCCTGGGAAAGGAATCACTGCTGGAGCAGCTGGCCCTGGAGTTTCAGACCTGGGTGGTATTGAGTCCTCGGCGCCT
GGAGTTGGTACAGCTACTGGGCCTGGCAGATGTGTTCACAGTGGAGGAGAAGGCTGGCCGCATCCATGCAGTAGACCATATGGAGATCTGCCATTCCAAC
ATGCTGCGTTGGAACCAGACCCACCCTACGATTGCTATCCTTCCCACAAGCCGAAAAATCCACAGCTCCCACCCTGATATCCACGTCATCCCTTACTCTG
ACCATTCCTCTTACTCCGAGCTTCGTGCCTTTGTCGCAGCACTGAAGCCTTGCCAGGTGGTGCCCATTGTAAGTCGGCGGCCCTGTGGAGGCTTTCAGGA
CAGTCTGAGCCCCAGGATCTCCGTGCCCCTGATTCCGGACTCTGTACAGCAATACATGAGTTCTTCCTCTAGAAAACCAAGCCTTCTCTGGCTGTTAGAA
AGGAGGCTAAAGAGGCCGAGAACCCAAGGTGTTGTGTTTGAATCCCCTGAGGAAAGTGCTGATCAATCTCAAGCTGACAGAGACTCAAAGAAGGCCAAGA
AAGAGAAACTTTCTCCCTGGCCTGCGGACCTTGAAAAGCAGCCTTCCCACCATCCTTTGCGGATCAAGAAGCAGTTGTTCCCAGATCTCTATAGCAAAGA
ATGGAACAAGGCAGTGCCTTTCTGTGAGTCTCAAAAGAGGGTGACTATGTTGACGGCCCCACTGGGATTTTCAGTGCACTTAAGGTCTACAGATGAGGAG
TTTATTTCTCAAAAAACCAGGGAGGAAATTGGTTTAGGGTCCCCCTTGGTACCCATGGGARATGATGATGGAGGTCCAGAAGCCACAGGGAATCAGAGTG
CCTGGATGGGCCATGGTTCTCCCCTGTCCCACAGCAGCAAGGGCACCCCTCTTCTAGCTACTGAATTCAGGGGTCTAGCACTCAAATATCTTCTGACTCC
AGTGWACTTTTTCCAGGCAGGGTATTCTTCCAGGAGATTTGACCAGCAAGTGGAAAAATACCATAAACCCTGCTGAAGACAGGAGAGTACAGAATGACAA
CATTGAGCCCACACTGCAGTTTTGAAGATAGTAACTGATGGCTGGTGGGAAAGAGTTTGTTTTTGGGGCCTACTTTTCTATCTTTACAAGACTCTTATGG
GCCCACCGTGGAGCAGCACTTCCCAAAACTTGTTCACTGGGGTCCTCGTGCCTATGGAATCCTTCTTTTTATAACTAAGTTTAAGAAATACTTTTTTTAT
AAAATCTTTGGAGTATGCGTGAGCAAATTAAAAGTTCTTTGAAGTCCTACAGTAACTTAATCTGTTTAACCTTGTTTAACCCAGTATTTCTCAAACTTTT
GTGAACATGCAATCATCTTATGTGGGTACAGAAAGAGGTAAAGAGTCTGAATCAAAAAGGACCAGGTTATTGCTGTTGCTGTTTTGTGGTGTCATGAGCC
ATTCTCCATGTCCCCTTCTCCCTCTTCTCAGATCAAAATCCCTAGGGAGTTCTATTTTTAAAATTATGAACTATGGCGCTGCATGCTTCAATCCTGAACG
TCACTGACTTGCTGTGACCATCCAAATAATTTTCCTGTCTCTGCCTCTGGGAGGGAACAGGAAGCGATGAAGAGGTCTTGGAACAGTAGTGAAAATTCTA
CCTCTATGTCCTTCATGAGGATGTGCAGTATCCCAGTATCACTGGGATCCATGTGGAACAGAGCCAGCTGGGGGGTTGGGCAGCTCTCTCCAAGGCAGTA
CCTAGAGCCCAGCTGAACAACAAGGCTTTGGGTGTGAAGGGACTCCCCAGCCTGGAGACCCTATTTGGCTGAAACAGTTACAAAATATCAAATGTGTTGT
CAGATATTCCTCCAATTGTTCACATAGCTGGGATATTTGTTGCTCCCCTCACCCCTTGGATTATGTAGGGAGCCAGTGCACACAGCCTGTTTGTTTTAGT
ATCCAAGGAAGAGACCAAGGAGCCAGCTGGCGGGAAGGGGTGGGGGTGTGCAGTCTGCCCTGTCCTTCTGCTCATAACCTGACAAAATGCCAAACTAGTA
AGCAGGATAGCTGATACCACGGCTATGAGGGAGTAGGCTCTGAGAGGGCACAGACTTGTGGAGCTGGGCRTCTGGATCAAAACTGCTTTGGGATGGAACC
TCGAGCCCTAGCAGTGAAGAAGATTCCATTTCTTGTCCAGGGGATTTAAAAGAGTTTTCTGCTTTGAGAGAGAAATAGAGAGTTTAGAAAGCAATTGCTC
TTGGGAAAGCTATACACAGCTCTGTTTTGTCAATGACCTTTGTTGTAAGTCTCCCAACGTCCTATTAGGAGCCACAGCAGGTGAGGCATTTGGTGCAGCA
GGAAACATGGGGACTGCCTAGGCTCGAATCTGTGGCACCCTGAGCAATTACTTAAATTGTGGAGCCTAGTTCCTCATCTGTAAGATGGACTTGAGATTCC
TACCTCTCATGATTACTATGGAGATTGAATAATTGGTAAAATTCTCCTAGCTCAGTGACTGCCACAKGATGGGTCTTTCAGATTTTGGTTCTCTTTAGCT
TCTGGTTCTTGAAAGAAATTAATCTGTATATAACATAAGAAACTTTGAAAGTMAAAAAAAMAAAAAATTTTAATTCCTCGTAGATTAATTGATTTGCTAT
CTTTTAGTTTTTTTTTCTATGCATGTAGATGTATTAAATATGTAAATGTTTTTCAAAGTTGAGGTAATATTGTATAGAATTTTATAGCCTACATTTTAAT
TTCTTGATATCTTAAGCATTTCACTTATTAGATATTGTTCAAAAATGCCATTTTTAATATTTGTATAATACCCTATCATGTGAGTATACCTTAACTAAGC
CATTCCCATATTCAACATTTTGTGTACTGTTTTTCTAATTACATATATTACAATGAACAACCTTATGCATATATTTTGCATTTTTATTTCCTTAAAGTAA
ATTACTGGAGTTAGATTATAGTTTTAAGTTCTTGATACCAATTGTGCTGAATTGCCCTCCAGAAAGGTTTCCTGACCATCTTTTCTGCAGACAGGATAGC
ATTAAAATACCTTGAAGACTCATTAGTTTAAATGAGATCACAAGAACGGTACATGTTAACACATGGAAAATCATCTCATGTGTTAACTTAATAAATAGCT
ACTAAACTGTGTGGGCAAATTTAGCTGGACTTCCTCTAGCATCCTCTAGCTGTCTGACTTCTAGGCGGCCGAAGGTGGCTGGGAGAGATAAGGTAGTTCT
CAGTACAGGGGTTCCCATATTGGCGTTATCTTCTAGCAACAAGGGAGCCCGTCTACTCTTGGCACATGCTGTGTCACACCTGTTCCTTCAAGTGGGTTCT
ATATGCATTCAGATAGGGGAGGGGAAGCAAAAGACTTTGAGGAATTTAGTTGTTGGTAGCATGTTTGCATTTGTTTGTTTGGCTTTTTTTTGGAGACAGG
TTTTAGCTCTGTCACTCAGGCTGGAGTGCAGTGGCACAGCCATAACTCACTGCAGCCTCGACCTCCCAGGCTCAAGAGATTCTCCCACCTGAGCCTCTTG
AGTACCTGGGACTATAGGCATGCACCACCATGCCCAACTAATTTTTTTTTTTTTTTTTTTTTGTAGAGATGAAGTTTCACTATGTTGCCCAGGCTGGTCT
TGGTGTTGAACTCCTGGCCTCAAGTGATCCCCCCTACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCCGTGTGCCCAGCCATGTTTGTGTTT
TCATAATGGGAAAATTCCATACTATTCTAAAAGAAAAAATGTCTGCCTTCTTATACTAGAGATTAGCAGTTGTTTGATTTTCCAATAGTCCCTCATATAA
AAATGCTGCATTGCATATACTTTACATAGCCAATTTAAATTATTTTTAGAATCTAAAGATGATCCTATAGATGTATGAAGATATTGCAATTAGGCTTGAA
GGTGCTGGGAAAAAGGAGGTTCCCTAGAGATMCATTAGTTATTTAATGGATGATCTGTGGGAGAACTTGTACTTTTCCACAAGGTGACTGACAATGGCTT
AAGTCCCCTTACAGAAAAAAAATCTGCCTGGCTGGTGTTGGGAGGCCATCTCTTACTCTTGACCCAGATTGCCCTTTGTGGTAGGAAACAGATGAGTGAC
TCCACTTGTTCTTCTCTTTTCTTTTTCTTTCTTCCTTTCTTTTTTTTTTTTTTTTTTTTTGAGGAGTCTCACTCTGTTGCCCAGGCTGGATGCAATGGCA
CTGTCTTGGCTCACCACAACCTCTGCCTCCTGGGTTCAATTCTCTTGCCTCAGCCTCCCAAGTAGCTGCGATTACAGGCGTGCACTGCCACACCTGGCTA
ATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCACCTAGGCCTCCCAAAGTG
CAGGGATCACAGGTGTGAGCCACCGTGCCCAGCCCAGCCCATGTGCATATATTTTCGATGTTACCATCAGTGAGCACCTGTCAGTGTATTAGCTGCCTCC
CACCCCTCATGCTCCTCAGCCACCACCAACCACCACAAGCTGTTTTGTCTTAGACTCATGGTGCTTTCCCTTTTCTCTTCCCCAGGGGATCCCACCTATA
CCTGAACAGAATGATGCTGCTCTCCCTTATAAACATCTGAGTCTAACAGCTGCCTGTGAGGGATTCTCAGAATGGTTAAGCTTGTCTTTATCTTGACCAC
AATGCCTACCCTTCATTTAGCTCTACCCTTCCATCTTGACTGTCTCATTCCTGGGTAACTTTGTCTTCTTTGAACATAGCCTTGACCTACTGGATCACAA
AAAGCTCCCAGGATTCTGGGCTTGGTTCTTCTGGATAAATAGCTTATTGAATCATCTTTCAATCACACAAAATTTCTGGCTAGCCTTGGGTTCGCCTGTG
TCTTACATTATTTACACTATTGTATTATGGCTATCTTACCAGTCCTGTCTCCTCTGGTTAATTTATAACAACTTTGGAGAGTGTGGGATGAAAAATTGGT
CCCCTGTGCTACTCCATCCTCAATGTGCTCATTGAAATGTGTGTTTTTGAGGAGCGAAGGAAATTGGGTTAAGCTCACTCACCCTACTAATTAGGCTTTG
TGGAGACAAAGCACCAGAGCAAGAGCAGATGCCTGCTGTTTAGGGAGTCAGGGATACAAAGTTTGGAGAAAACATGTCTTCAGGAGGAAAGGAAAGCTTT
GATCAGCTGAATTTCTTCAAATTCCCACCCATCTTCCAGGCTCATACCATCTGCTTTCTAATTTCCCTCTCAATGGTGGGATAAAAATCCTTCAATCACC
TCTTACTAAGAACATTTTCTCTGCTCATACACATTCAAGAACCCAAACTATTCAGAACATTTTAGGTCCACATGATACAAGGCCCAACCTATCCTTCCAG
CCTTATCTCCCAGGATTCTCCCAGTGCACACAATAGTAGGCCATAGTGGAAAAGATGGATTTTCAAGTTAGATGTCTTGGGTTGGAATCGTGATCCTGTG
ACTTACTAGCTGTGTATATAATCTCTAGCAAGCTACTCAGCTTTCCAGCTTAAAGTTCCTTTTTGTAGAGTGGGAATAATAATGCCTACCTCATAGGGTT
TGGAGGAGAATGAAATAGAATAAAGCAACTAAAGCACTTCATAAGAGTATCCAATACATTAAAAAAAAAAAAAAGAAAGAAAAGAAAAAGTTTTTGCCTT
TGGCTGGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCATGGCCAATA
TAGTGAAACCCCATCTCTACTAAAAATACAAAAGTTAGCCGGGAGTGGTGGCATGTGCCTGTCGTCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATTGC
TTGAACCAGGGAGGCAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCGGCATGGGCAACACAGCAAGACCCTATCGCAGAAAAAAAAAATGTTTGG
CCTCAAACTCCCTGACATACCTTAAATCCTGTTTACAGAGGAGTGACTGACATGTCCAGTGCATGCCCTGGATAGTGCCATTGGCTAATCCTATCTTTCA
GGCCCAGAAAAATCTGAGAGATTGGCTGATGAAGGTACTTCCTGGGGGAGAGGTTCCTGGAGTCAAGTCTAACCAAAAGGGCAGTTACCTGAAGCATCCA
AGGATGCATTTGTACAGATGGAAAAAGAGTAGGGTGAAATCATGATAAGCTTCAGATGCTGTGCTGAGTAAATTTAACTGTAAAATCCTAAGGCAAAGCC
AAAACACCTCAGAAGAATAAGTAGTTAATCAGAGGCTCAGAGAATCCAAAGAGGTGTGCAGAGCAGAGCAGTCTGGGCTGTGCATTTCAAAACATTGTGG
GTAAACTAAGGGCCAGACACTATGCTTGGTCTGGTTCTAGATTCTTCTGCCACACCAGCTGTATAAACCAACAACCTTGGATCAGTCCTGGAATTCTCCT
TTTCAACTCCTACAGAAGGAAGGCAGAGCCACTGGAGAAAAGAACCATACAACTGGTATCACTACAGATTTCAGCCTCTGGTATTTTCAAAGCTGCTTCT
CATCTCTTTAAGTCCTTGATTCACCTCCTCTCCCATGTACATCAGTGGTTATGACAAAGCTTTATGACTCAAACTCTTACAACATATGAAGCCTTAGGAA
GACACCTTTGAGCATCAAGGATACCAAGCTGCAACACCCTGGGGCAACTTCCCTGGACCATAAGAACAGGTCTGGTCACCCAGCCTCACCCTAAAGGTGG
CAGAATGAATCCCCCATACCCTGTTTAAACCGCAGTCACTGTCAGGAGTTCAAGTCTTTAAGGCCGGATTCTCAGCCTTCCCTCCCCTCTTTCACTAGGC
TCTCAAGTCTCCTGCTCTGTGATCAGCAAATTCCTCTATGTCCTCAGCATCTTTTCTGAAAGTATCCATCACCCTCCTTGCCTAAATTGAAGACTGGCTC
TCCTCTGAGCACACTGCTTTCCAGCCAGCTTCTCACATAGAGGCTCTTTTTCTCTCCCCCCACCTCAAGGTAAGAAGGTGACATTGATGTTCTCCTTATT
CTCCTTGCTGCCTCCTAACCATTATTGCCATTTCTTCCTGTGACCATCTCTCCTACCATGAAGTGCATACTATCTAGCTATACCATCCCCTCCTTCCCAT
CCTCACTTATCAAGACTTGAGTCATTGACTCACAGCCTTCTCCTCCTTCACAACCCTGTCATCATTCTGGATGATTTCAATACCCTGGCCATTCAGCTTC
CTTGACCTCATCTTCAAAGACCTTATTCTCCCTCTACCTCACCACCCTGTCATTACCAGAAATTGTACTACATCTGAAGCCTCAATTTTAAACTTTTTCT
CCTGGCTTATTTGCTCAAGTGCATCTGTGGGACTGACAACAAAATGAGACCTGAGTGATGAGCCAGCCAGGTGAAGACCTGGTGGGGAGGTCTAATTTAA
AAATTGTTTTTGTAGAGACGAGGTCTCACTGTGTTGCCGAGAGTAGGGAATAGGTAGAGGGTTCAGGCAGAATCAGCCCCTGGGATAGGATGGGAATGAG
CTTTGTGCCTAAGGAACATGAAGAAGTGAGTGTAGAGAAATGCAAATCAAAACCACAATGTGGTACCATCTCACACCTGTCAGAATGGCTATTATTAAGA
AGTCAAAATGGTCAGGTGCAGTGGCTCACACCTGTGATCCCAGCACTTTGGGAGCCCAAGGCAGAAGGATCACGAGGTTAGGAGTTCGAGACCAGCCTGG
CCAAAATAGTGAAACCCTGTCTCTACTAAAAATACAAAAAATAGCCAGGCATGGCGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGGTGAGGCAGGAG
AATTGCTTGAATCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGGGCCACACTGCACTCCAGCCTGGACAACAGAGCAAGACTCCGTCTCAAAAAAAAA
AAAAAGTCAAAAAACAACAGACGCTGGTGAGGCTGCAGAGAAAAGGGAACGCTTATACACTGTTGGTRGGAATGTAAATTAGTTCATCCACTGTGGAAAA
GAGAACTACTATTTGACCCAGCAATCCCATTCTGGGCATATATTCAAAGGAAAATAAATCATCCTACTAAAAACACACCTGCACTCATCTGTCCATCCCA
GCACTATTCACAATAGCAAAGACATGGAAGCAACCTAGGTGCCCATCAACAGTGGATTGGTTAATGGTAACTTGTGATGTGTAAAATAAAAAAATAAAAT
AACCCAGTGGATTGGATAAAGAATATGTGGTACATATATGCCAGGGAATACTATGCAGCCACACAAAGAAAGAAATCATGTCCTTTGCAGCAACAATGAT
GCAGCTGGAGGCCATTATCCTAAGCAAATTAACACGGCAACAGAAAATCAAATACTGCATGCTTTTATTTGTAAGTGGAAGCTAGACATTGGGTGGTCAC
AGACAGAAAGATAGCAATAAGAGCCACTGGGGACAACTGGGTGGGGGACAAGGGTTGAAAAACTATTAGGTACTATGCTTACTACCTGGGTGATGGGAAT
CAATCATACCCAAAACCTCAGTATTATGCAATATACCTATGAAACAAACCTGTTATGTGTACCTCCTGAATCTAAAATTAAAAGTTGAAATATATATATT
TCACACACACACACACACACACACACACACACACACACACACACGGGCCAGGCACGGTGGCTCATGCTTGTAATCCCAGCACTTTGGAAGCCAAGGTGGG
CAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGTCAACGTGATGAAACCCTGTCTCTACTAA


SNP Information

Context             (SEQ ID NO:50972):
TGGCCCTGTTCTTGCCCCAGCATGACTTTTATCGGGACGCCGTTGTGGAAGCCTCACGCAGGAGCCCTGCCCCCGTGGAGAAGATCCCACTGGTGACTCC
R
ACCCTACCACCATGAATGGGGTCCTGATCCCCCATACGCCCATCGCAGTGGACTTCTGGAGCCTGCGCCGGGCTGGCACCGCACGTCTCTTCTTCTTGTC
Celera SNP ID:            hCV25619072
SNP Position Genomic:     6360
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,33|G,1)   total(A,66|G,2)
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:50973):
GAGATAGTTAGCCATAAGTTGAGGAGATATTTTAATCCAGCCAAGGAAACTATTCCTACCTTTATAAGTAAGCTAGGCCGATGTTTCCCAAACTTGCCTT
T
TTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAGCCTCCGCCTCCCGG
Celera SNP ID:            hCV26300489
SNP Position Genomic:     6834
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50974):
ACTGATTTGGAAGTTGTTTGAACCCAAAAATGCATCTTTAACCCAGAATAGGAACGTGTTTTCGAAGTGACCAACTTGAGATAGTTAGCCATAAGTTGAG
R
AGATATTTTAATCCAGCCAAGGAAACTATTCCTACCTTTATAAGTAAGCTAGGCCGATGTTTCCCAAACTTGCCTTTTTTTTTTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV25619073
SNP Position Genomic:     6757
SNP Source:               Applera
Population(Allele,Count): african american(G,18)   caucasian(A,1|G,29)   total(A,1|G,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:50975):
CTTCTTGTCTCACATGCACTCGGACCACACCGTGGGCCTGTCTAGCACCTGGGCCCGGCCCCTCTACTGCTCCCCAATTACAGCCCACCTCTTGCATCGT
Y
ACCTACAGGTATGGGGCTGGAGTCGGTCTCCGAGAGCTGGTCCAGGCATCTGGGTTGGGACTTCAACCTGTCATTCTTGGAGTCATAGAATGGGGGCCAC
Celera SNP ID:            hCV25619066
SNP Position Genomic:     6552
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,33|T,7)   total(C,69|T,9)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:50976):
GTGGACTTCTGGAGCCTGCGCCGGGCTGGCACCGCACGTCTCTTCTTCTTGTCTCACATGCACTCGGACCACACCGTGGGCCTGTCTAGCACCTGGGCCC
K
GCCCCTCTACTGCTCCCCAATTACAGCCCACCTCTTGCATCGTCACCTACAGGTATGGGGCTGGAGTCGGTCTCCGAGAGCTGGTCCAGGCATCTGGGTT
Celera SNP ID:            hCV25619067
SNP Position Genomic:     6508
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,38)   total(G,75|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:50977):
TTTGGAATAGTTTATGAAAATACATTTTTGTTTTATAAAATAAATAAATGTAATAGATTTGGTTCTAAATTACTTTTTTGGTTGTTTCCAAATTTGTGAG
Y
CTACAAAAGGACAAAGACTTGCCACCATTATAAATATTTGAAAAGGACATGTCTCAACTCTGAAAGGAGTTTCAAAATGAGACTAAACAAAGGCATTGAA
Celera SNP ID:            hCV27849769
SNP Position Genomic:     10221
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,35)   total(C,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:50978):
GACTTTTATCGGGACGCCGTTGTGGAAGCCTCACGCAGGAGCCCTGCCCCCGTGGAGAAGATCCCACTGGTGACTCCAACCCTACCACCATGAATGGGGT
Y
CTGATCCCCCATACGCCCATCGCAGTGGACTTCTGGAGCCTGCGCCGGGCTGGCACCGCACGTCTCTTCTTCTTGTCTCACATGCACTCGGACCACACCG
Celera SNP ID:            hCV25619068
SNP Position Genomic:     6383
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:50979):
CACATTGACCATGATGGATTACACTGAACTTACCTACTTCAGAGTCTCCATGAAGATTATGCATCTTGGCACATCCAAGGACTGCCACTCTCCTGACATA
K
GAAGCCTTATCCCGCAGACCATTGAGAATAGGCTGTTGTATATACTCCTGCACACCAGGCATCCTAAGCAACACATCCTGGAGTTAGCCAGATTCTGAAA
Celera SNP ID:            hCV25761273
SNP Position Genomic:     2607
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(G,2|T,32)   total(G,3|T,69)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:50980):
TCCTGGTTCTGTCATGTTTCTCTTTGAAGGATATTTTGGAACCATCCTCTACACAGGTGGGCCTCTCAAGGAATCCCAGTGACTTCTCCAGACTAGATGT
W
TTTTTTTTTTTTTTTTTTTTTTTTTTTTAATGTATAGACTGGGGCCTCGCAGTGTTGCCGAGGCTGGTCTCAAACTCCTGACCTCAAGCAATCCTCCCGC
Celera SNP ID:            hCV25762169
SNP Position Genomic:     7991
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,8)   caucasian(A,5|T,9)   total(A,11|T,17)
SNP Type:                 INTRON


Context             (SEQ ID NO:50981):
ACTGGGATTTTCAGTGCACTTAAGGTCTACAGATGAGGAGTTTATTTCTCAAAAAACCAGGGAGGAAATTGGTTTAGGGTCCCCCTTGGTACCCATGGGA
R
ATGATGATGGAGGTCCAGAAGCCACAGGGAATCAGAGTGCCTGGATGGGCCATGGTTCTCCCCTGTCCCACAGCAGCAAGGGCACCCCTCTTCTAGCTAC
Celera SNP ID:            hCV16027855
SNP Position Genomic:     12761
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:50982):
CAGTGACTGCCACAGGATGGGTCTTTCAGATTTTGGTTCTCTTTAGCTTCTGGTTCTTGAAAGAAATTAATCTGTATATAACATAAGAAACTTTGAAAGT
M
AAAAAAACAAAAAATTTTAATTCCTCGTAGATTAATTGATTTGCTATCTTTTAGTTTTTTTTTCTATGCATGTAGATGTATTAAATATGTAAATGTTTTT
Celera SNP ID:            hCV8701464
SNP Position Genomic:     14553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:50983):
TATGCACTCATCACCTTGCAATATATTCTATAATTTATGTATTTATTGGACTTTTTATTGTCTGATTCCCCCTGCTAGAATGTGAATTCCACTATGGCAG
K
CTCTGTTTTATTATGGGTGTATCACAAATGCCTACACTAATGCCTGACACAGAAGCATTCAATATGAATGAATGAAATTTATCAGAACATAGATATTTAA
Celera SNP ID:            hCV8701465
SNP Position Genomic:     9912
SNP Source:               dbSNP
Population(Allele,Count): SG_12_TT(G,0|T,23)   total(T,23)   no_pop(G,-|T,-)   TSC_42_AA(G,12|T,71)   total(G,12|T,71) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50984):
TGGATGACAGAGCAAGACCCTGTCTCAATAAATGAATGAATGAATGAAATAAGTAAAACTGCAACCTGCCCACCATCCCCATTCCCAACTCCTGATCATC
Y
ATACCAATTCATTTTTTTCATTTTTTTATAGCACTCATATACTATATATATTTTTAAATATGCTATTGCTTACTTGTTGTCTATCATGCACTTCCTCTGG
Celera SNP ID:            hCV1900104
SNP Position Genomic:     9470
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:50985):
AATTTAAATTATTTTTAGAATCTAAAGATGATCCTATAGATGTATGAAGATATTGCAATTAGGCTTGAAGGTGCTGGGAAAAAGGAGGTTCCCTAGAGAT
M
CATTAGTTATTTAATGGATGATCTGTGGGAGAACTTGTACTTTTCCACAAGGTGACTGACAATGGCTTAAGTCCCCTTACAGAAAAAAAATCTGCCTGGC
Celera SNP ID:            hCV11668405
SNP Position Genomic:     15932
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,6)   total(A,6|C,5) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:50986):
CAACAAGATCCCACAAGGTAGCAGATCTCATAATAAAAAGAGTGCTGAGGCATCCAAACCGATTTAAGAGATGGTGAGCAATGGGCTTATTGATGACAAC
R
CCTCCTTCCTGTTTCAGAATTTCCTCTAGAGACCTCAAGCAGTTCACAACTACAATTGGATCCTGGTCACGCAGCAAACTGTATAATTCATTTACCAGGG
Celera SNP ID:            hCV25761933
SNP Position Genomic:     2062
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(A,6|G,34)   total(A,11|G,65)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:50987):
GACAACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAGTCAAAAAACAACAGACGCTGGTGAGGCTGCAGAGAAAAGGGAACGCTTATACACTGTTGGT
R
GGAATGTAAATTAGTTCATCCACTGTGGAAAAGAGAACTACTATTTGACCCAGCAATCCCATTCTGGGCATATATTCAAAGGAAAATAAATCATCCTACT
Celera SNP ID:            hCV102108
SNP Position Genomic:     20068
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:50988):
AGCCAAGGAAACTATTCCTACCTTTATAAGTAAGCTAGGCCGATGTTTCCCAAACTTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCG
Y
TCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAGCCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGTCTCGGCCTCCTGAGTAGCT
Celera SNP ID:            hCV1900106
SNP Position Genomic:     6872
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50989):
TCCCGACTCCGACCTTAGGATGCCCTTCCCCCAACCTCTCACTCTCCAGGCGCAGCTGCGCGGCTCCCTCTGGTGGAGCTGCGGCGGGCAATCGGAAATC
K
GCTACTTTGGCCTGTCTCCTCCCTGCAGCGCGCGCTTTGAGTGCCCGGCTCGGCCTCCGCTCCCGCGCGGTTGGGAGTGTCCAGCGCCCTCCGCGATTTG
Celera SNP ID:            hCV1900107
SNP Position Genomic:     6077
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:50990):
CGGGGAGGTAACGGAGAGGAGTCAGTGGTCACTGGGATGACTAACTGTTTTCTCAGGTATCTAAGCAATGGATCCAAGCCCTGGAGGTTGGTGAGAGCCA
Y
GTATTACCCCTAGATGAAATTGGACAAGAGACCATGACCGTAACCCTCCTCGATGCCAATCACTGTCCTGGTTCTGTCATGTTTCTCTTTGAAGGATATT
Celera SNP ID:            hCV27478865
SNP Position Genomic:     7825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:50991):
GGCCTCTCAAGGAATCCCAGTGACTTCTCCAGACTAGATGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAATGTATAGACTGGGGCCTCGCAGTGTTGC
Y
GAGGCTGGTCTCAAACTCCTGACCTCAAGCAATCCTCCCGCTTCAGCCTCCACAGTAGCTAGGATTATTGGCACAAGCCACCACACCTGGCAGACTTTTC
Celera SNP ID:            hCV25762101
SNP Position Genomic:     8050
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,30|T,2)   total(C,65|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:50992):
GCCACAGGATGGGTCTTTCAGATTTTGGTTCTCTTTAGCTTCTGGTTCTTGAAAGAAATTAATCTGTATATAACATAAGAAACTTTGAAAGTCAAAAAAA
M
AAAAAATTTTAATTCCTCGTAGATTAATTGATTTGCTATCTTTTAGTTTTTTTTTCTATGCATGTAGATGTATTAAATATGTAAATGTTTTTCAAAGTTG
Celera SNP ID:            hCV16007276
SNP Position Genomic:     14561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:50993):
ACCTGAGGCTACACATGCTCCGTAACGCCAGCCCTCGCACCATTGGATTGGGGTCTGAGCAGTCTTTGCACAGCGTATTGATGGCCAGGAGAGCCAGATC
Y
GGTTTCAGGGGAGCATATGTGCACATGTACAGATAAACCAACTTCTTCTGGACAATATCTACAGTGGCACTGGCCTTCACCATTTCCATAAAAACACCAG
Celera SNP ID:            hCV25619040
SNP Position Genomic:     3521
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:50994):
GTCAAATAGTTCTTCCTCACTGCGGGGTTGGTAGCGTAGCAGAAAGTTCAATACTTCAGCCTGGCCCCATTGGTCCAGTTTTGACATTCTATCCAAAAAA
S
AAAACAAAAGAGCTATTTTAGCAACAAAATTAGGACCATTTCCATGCCACTGCCATATGACCAGGTGGTTGTTCATCATAGCAAAGGGAGAATTCTTAAA
Celera SNP ID:            hCV25619041
SNP Position Genomic:     1198
SNP Source:               Applera
Population(Allele,Count): african american(C,24|G,2)   caucasian(C,10|G,2)   total(C,34|G,4)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:50995):
GATGTTTCCCAAACTTGCCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCT
Y
ACTGCAGCCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGTCTCGGCCTCCTGAGTAGCTGAGATTACAGGCGCACGCCACCACGCCCAGCTAATTTTTTG
Celera SNP ID:            hCV26300490
SNP Position Genomic:     6913
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50996):
TCTGTCATGTTTCTCTTTGAAGGATATTTTGGAACCATCCTCTACACAGGTGGGCCTCTCAAGGAATCCCAGTGACTTCTCCAGACTAGATGTTTTTTTT
W
TTTTTTTTTTTTTTTTTTTTTAATGTATAGACTGGGGCCTCGCAGTGTTGCCGAGGCTGGTCTCAAACTCCTGACCTCAAGCAATCCTCCCGCTTCAGCC
Celera SNP ID:            hCV26300491
SNP Position Genomic:     7998
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:50997):
ACTAGATGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAATGTATAGACTGGGGCCTCGCAGTGTTGCCGAGGCTGGTCTCAAACTCCTGACCTCAAGCA
R
TCCTCCCGCTTCAGCCTCCACAGTAGCTAGGATTATTGGCACAAGCCACCACACCTGGCAGACTTTTCTTGAGCAGCCTTAACTCAATAGAAGTCTGGAG
Celera SNP ID:            hCV25761875
SNP Position Genomic:     8082
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,32)   total(A,67|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:50998):
TTCCCACTGTTTTTTTTTCCTTCTTCTTTTTGAGACGGAGTTTCACTCTTGTCACCCAGGCTGGAGTGCAGTGGCGTGATTGTGGCTCACTGCAACCTCC
R
CCTTCTGGGTTCAAGTGATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGGATGACAGGCGCCTGCCACCACGCCCAGCTAATTTTCGTATTTACTATTAGT
Celera SNP ID:            hCV26300492
SNP Position Genomic:     8341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:50999):
GATGGGCCATGGTTCTCCCCTGTCCCACAGCAGCAAGGGCACCCCTCTTCTAGCTACTGAATTCAGGGGTCTAGCACTCAAATATCTTCTGACTCCAGTG
W
ACTTTTTCCAGGCAGGGTATTCTTCCAGGAGATTTGACCAGCAAGTGGAAAAATACCATAAACCCTGCTGAAGACAGGAGAGTACAGAATGACAACATTG
Celera SNP ID:            hCV25761893
SNP Position Genomic:     12905
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,39|T,1)   total(A,76|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51000):
GATACGTGGGTCTGAAGCTAAAAAAGGAAGTCTGTACTAGCTATATTATAGATCCAAGAGTCACCAGTAATTGCTCAAGCCCGTGATATGGAGGAAACTA
Y
CCAGCTGAGTAAAAGATGCTGCAGAGGGGAGACTGACATGGTACTCCAAAGCAGCAGGACGAAGACCGAACCATATAACTGCCACGTGTGAAAGCTAATT
Celera SNP ID:            hCV25619036
SNP Position Genomic:     5204
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51001):
TAGTTCCTCATCTGTAAGATGGACTTGAGATTCCTACCTCTCATGATTACTATGGAGATTGAATAATTGGTAAAATTCTCCTAGCTCAGTGACTGCCACA
K
GATGGGTCTTTCAGATTTTGGTTCTCTTTAGCTTCTGGTTCTTGAAAGAAATTAATCTGTATATAACATAAGAAACTTTGAAAGTCAAAAAAACAAAAAA
Celera SNP ID:            hCV16020171
SNP Position Genomic:     14467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:51002):
GCTCATAACCTGACAAAATGCCAAACTAGTAAGCAGGATAGCTGATACCACGGCTATGAGGGAGTAGGCTCTGAGAGGGCACAGACTTGTGGAGCTGGGC
R
TCTGGATCAAAACTGCTTTGGGATGGAACCTCGAGCCCTAGCAGTGAAGAAGATTCCATTTCTTGTCCAGGGGATTTAAAAGAGTTTTCTGCTTTGAGAG
Celera SNP ID:            hCV29059567
SNP Position Genomic:     14070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;TFBS


Gene Number:                 237
Celera Gene:                 hCG38868 - 62000133104400
Gene Symbol:                 ALPL
Protein Name:                alkaline phosphatase, liver/bone/kidney;AP-TNAP;HOPS;TNAP;TNSALP
Celera Genomic Axis:         GA_x5YUV32W3P1(4627846..4710068)
Chromosome:                  Chr1
OMIM number:                 171760
OMIM Information:            ALKALINE PHOSPHATASE, LIVER;ALPL


Genomic Sequence (SEQ ID NO:12397):
TTCCTAGATGGGATGGCGGCCGGGCAGAGACGCTCCTCACTTCCCAGACTGGGCAGCCGGGCAGAGGGGCTCCTCACATCCCAGACGATGGGCAGCCAGG
CAGAGACGCTCCTCACTTCCCAGACGGGGTGGCAGTCGGGCTGAGGCTACAATCTCGGCACTTTGGGAGGCCAAGGCGGGCGGCTGGGAGGTGGAGGTTG
TAGCTAGCGAGATCACGCCACTGCACTCCAGCCTGGGCACCATTGAGCACTGAGTGAACAAGACTCCGTCTGCCATCCCGGCACCTCGGGAGGCCGAGGC
TGGCGGATCACTCGCGGTTAGGAGCTGGAGACCAGCCCGGCCAACACAGCGAAACCCCGTCTCCACCAAAAAAATACGAGAACCAGTCAGGCGTGGCGGC
GCGCGCCTGCAATCGCAGGCACTCGGCAGGCTGAGGCGGGAGAATCAGGCAGGGAGGTTGCAGTGAGCCGAGATGGCGGCAGTACAGTCCAGCTTCGGCT
CGGCATCAGAGGGAGACCGTGGAAAGAGAGGGAGAGGGAGACCGTGGGGAGAGGGAGAGGGAGACCGTGGGGGGGGGAGGGGGAGGGGGAGGGCGAGGGC
TTTTTTTGTTTGTTTTTTTTGAAATGGGGTCTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTGGGATCAAAAGCAATACTCTCACATCATCAGCCTCC
TGAGTAGCTGGAATTACATGCATGTGCCACTGCACCTGGCAGGGATAGCTTCTTTCCTGCCTCCGTTCTGGAAAATACCATGGACTGCTAAGGCTGGGCC
TGCCTGAATCTGTTTTGGCCTCTGGAATCCAGCCCCCAGCACATTGCCTTGACCCTTCCTCTTGGCTTGCTGCCTTCTCCAGGGCTGAGAATAGGAAGCA
ACATGCTCTCTCTGAGCTTGGTACTTCTTCACAAGTCCCTTTAGAGAGGACACTGTTTGCCAGACAATGGGGTTTTCTCACAGGGCAGGCTCCGCAGGCC
TTTGTTAGGAGGACTTCCTTTAAGGGCAGCTGGAGCTGGAAGACAACCCGGGCCAGGGGCTGGCCGGCTGTTAGGGTACTGAGCTCAGAGCTGACTGCTA
GGAGGGACCTGGGGCCTGGGGATGGAGCTGTGGGTGTGAAGGGACACGGTGGATTGGAACAGGAGACTGACTGAGATAGAGAAGATGAGGCTGGAGCAAA
GACTGGAGTCAAGATAGGATGAGGTCAGGAGCTGGGGCAGTATTAGAGGAACAAGCCCGGGACTGGGAGAAGGCTTGAGGGTCAGAACTGGTCCTGGGGG
GGCATGTCACACACTGCTCAGGAGCCCAGGCATCAGACACAGGCAGCCCGGGTTCCATCCCTCCTTCTTCCCTGGCTATCTGGGTGGTCTTCATCTCAGC
CCCTACTTCCCTCATCTTCAATCCCCTCACCTTCGCTCCACTGAACACCCTATTTAATGCCACAGTCTGCTCCGCTTTGGTGCTCCTGTCCCCCTTATCT
GCTCCAACTCCTTATCCATACTCTTATTGTCTTTTTAAATTTTTTTATTTATTTATTTGTTTATTTTTAAGACAACAGAGTCTCGCTCTGTCACCCAGGC
TGGAGTGCAGTGGCAGAATCTCAGCTCACTGCAACCTCCACCTCCTGAGTTCAAGCAATTCTCCTGCCTCAGACTCCCGAGTAGCTGGGACTACAGGGGC
GCGCCACCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGATCTGGATCTCTTGACCTCGTGATCCGCCC
ACCTCGGTCTCCAAAAGTGCTGGGATTACAGGCGTGAACACCCTCGCCCGGCCTATTTATTTATTTATTTATTTATTTAGAGACAGAGTCTCCCTCTGTT
GCCCAGGCTGGAGTGTAGTGGCACCATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCCGCCTCAGCCTCCTGAGTAGCTGGGAAT
ATAGGTGTGCACCACCAACCCCAGCTAATTTTTTTTTTTTTTTTTGGTATTTTTAGTAGATACGGGGTTTCTCTACGTTGGCCAGGCTGGTCTCGAACTC
CTGACCTCAAGTGATCTGCGCACCTTGGCCTCCCAAAGTACTGGGATTACAGGCGTGTGCCACTGTGCCCGGCCCCTGTTATCTTACTAACTTACTTATT
AATGTTTGTTGTTTATTATCTACCTTCCCAACTAAAGTGTCAGTTCCGTGAGGATAAACATTCTGTTTTGTTCACTGGTATGTCCAGTTCCTAGAAGGGT
GCCTGCTGCAGAGCAGGCATCCAATAAACATTTGTTGAATGAATAAGGTTGCCAAGTCTGCCTGGGATAACAGCCTGCTCACTGGAAAGGTGACGATGAC
AACAGTGATGGTGCTTTGGTGTTGCAGGGAGGAGCAAGTTAAATCTCACCTATAAAGATCTTTCCATCAGGCTGCAGACACAGAGGGAGTCCCCAGCAAC
AATAGCTCATATATGCTTCAGTTTCCTCATCCGTGAAGAGAGAATAAAAGTCCCTACTTTTATTAGCGTCCAATTGCCCTGGCCACGGCAGCATTGTCGG
TTTAATGATGCTGCTTCGGCTGTCGTAGTCTCTTCCACCTCATGCCTTTTGGTTCATTTTTTAACTGAGTTAAAGGTGGGGCTGTAGGTGGCACTGGGAA
TCAAATGGCTGAACTTGTGCTCAGGCCTGGGCTTGAGATAAAATGACCCCTTTAGTCCAAGCATCAAAACAGACCAAGGTTTCAGGCCCCCTTGCCTTTA
AATAGATTTCAGGGATTATTTTCTCCAGCCCTAGACCACAGCTGACTCCTCACCGCCTCTCCACGAACAGACCTCAGAGTTTTGTTTTCTCTGTCTCTCT
CCTTTCTTTCTCCTTTATCTCTGTCTACTGAGGTCCTGGCTGTCCCCCTGCCCCACCCTACCCTATGCTCTTGGGCTTCTGGCCTCATCTCTAACTTAGC
TTCTAATTTTTTCTCTTCTTTTCCTTTCTTTTTTTGAAACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGTAGTGGCGTGATCTCAGCTCACTGCAACC
TCTGCCTCCAGGGTTCAAGCGTTTCTCGTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGTGCGTCACCTTGCTCGGCTAATTTTTATGTTTTCAGT
AGAGACGGGGTTTCACCGTGTTGGCCAGGCTGGTCTCAAACTCCGGACCTCAGGTGATCCACCTGCCTAGCCTCCCAAAGTGCTGGGATTACAGGCATGA
GCCACCACGCCCGGCCTAACTTAGCTTCTAATTCTAATGCCTGGTGAACCTCTTAAATTTTTTTTTCCCAAGACAAAGTCTCACTCTGTTGGCCAGGCTG
GAGTGCAGGGGTGTGATCATAGCTCACTGCAGACTCTAACTCCTGGACACAAGAGACCCTCCCATCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGA
GCCACCATGCCTGGCCTGCCTAGTGAACTTGAAGGTCTAGCTTGCGGCACAGGCTCATGGCATGCACTTAACAGATACGGAATAAATGGATGAATGGAAA
AAGCCCTGGACTGGGAATAGTAAACCTGGTAACCAAACCCAGCTCTGACCCTGACCTGTAAGTAACTACTATCTCTGGCCTTGGTGTACCCCATGTATAG
TGGGGATTGTAAACACCTGCCCTGCCCACCTTATGATACTGCTGTGAGACTCAAAAGACATCATTAGCTCTTAGGCACAGGGAGCTTGGAGGTTAAATCC
AATTTGCTTAGTTTTCAACAAGGAAGTGGTGCCCCAGGGACAATGATGGAGAGAAATCGAATGTAATGAGCTGTTGCCACCAGCTGAGTGGTCCTGAAAT
CATGGCATCTGGGTTGCACTTAGAGATTGTCCAGTTCAAAAGGCCAGAAGGAATCTGAACCTCGATGGGAAAAGTGACTTGCTCAGCTCCCCAGCAAGCC
AGGGCAGAGCTGGAGGATGGACTGGAGTCTCCTGGTTCCAGGTCCAGGACTTCTTTCCGCTGTGTTGACAGAGCCAGGAGGAGGGGCACCCGGGGAGCAG
GGGAGGCAAGGGCTGCTGGATGCCCCATCTCAGTTGAATTCTCCTTGAGGGACCCAGCCCAGGAGCAGAGTAAGAGGGTTTGAGGGTGGAAGGTGGCAGG
GCTGGCCAAGCAGTATAGTCCCTGCTGCTGATAACCAATCCCTGAAATCCCGAGGTGGAGGGACTTGAGGGCAAATCACAGACATGGGGGACCTAATGCT
GGCCATGTGGCTCAACCAGAAGTGCCCGTCCCTCATAGCTTTGGGGAGATCAGAAGTCAGGGATAGGGTCGGGTGTGGTGGCTCATGCCTGTAATCCCAT
CACTTTGGGATAAGGAGGCAGGGGGATCACTTGAGCTTAGGAGTTCGAGACCAGCCTGAGCAACATAGCAAAACCCTGTTCTTTACAAAAAAATACAAAA
ATTAGCCGGGCGTGGTGGTGCACACCTGTAGTCCTGGCTGCTGGGGAGGCTGAGGTGGGAAGATCACTTGAGCCCGGGAGGTCGAGGCTGCAGTGAGCTG
ACATCATGCTACTGCATTCCAGCCTAGGCAATAGAGTGGGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAGTCAGGGGTGCTGGCCCCATGATAGGTGCA
ATGGGTGCCTCCAATTCCCTCTGGCTCTGCCTCCCAGCCTCTGTCCAAGCAACAGGCAGATTTTCCATGCCTGGGGACTTGCCCCTGGCTCACTGATGAT
GATACCATCTTAAGTCTCCTGGAATCCTTAAACCCTTCCTTGGCATTTGTGAGCAAGTATTGAGCCCCTCCCATGTTTTAGGCCCAGTGCTGGGTGCTTT
CACCTGCAATTTCTTACAGAGGATGGTATTTCCTAAACTCCATTCATTTGCTACCTCCATGATTTTTGCCATATCACCCAACCCATGAAATACATAAATA
AATAGTATTTACTCAATATTTTGACTCACTTTTAAAAAACATAAACTTATCTGAAAAGGGAACCTATGTCACGCCTCTAAATAAACAGTATCAACCAAAA
ATACAAAAGAAACAAAAATAAATACAAAGACATTCTTGGTTTCTGGCACCAGGCCCCAGTTCTGGCTCCAACCTTACTGAGAAGTCACATGATCTCTCTG
GGCCTCAGTTTTCTCCTCTGGAAAATGGAGCTTTTGGAAGTTAATGCATGCACAGTGCCTGGCCCTGAGACTGGCATGGAGTGAGTGGAAGAGAGGTTGC
CTGACCTGGCTAAAATTGGTTCTCTGGGCAGACATTTTCCCAAGGGCCACTGAGAAGACCCTCCTGTTAGGAGTCAGTGAGCTCTGTCGCTGGAGGCATT
CAAACAGAGCCTGCGGACTTCTCACTGCGAAGTTGCCCAGAGAATTCAGTGCTCAGAGGAAAGGGAGTGGTTATTCCATCAGAGCTGGTTCCCCAGGAGC
GGGAGCAGGGCCTGTAGCACCCAGCCTCTGTCCCTGGCTCCCGTCTATCCGGGATTTTAGCGTTTCCTCTGTAGTTTTCAAGCACTGTCTCATATGACTC
TCGCACCAGCGAGAGGCCAGGGGAGATGGTGTCTGCCTGTTAAAGAGGGGCAGGCTGGTCCACATAGGTCAAGTGACTTGGCCAAGGTCACCAGAGCAGA
GTTTTGAACTTGAGCTGTCTGACTCAACTGCCTGGGAAGTGCCTGCCCCTCCTCTGGCATCCAGGGAGCATGTCCTGGGGCTCTGGCTGGGACATAGCCG
GACACCTGCGGGCCCTTTACGTCTCTAAAGAGAGAAAGAGGGAAGGGCCCCTGTCTAGGGGGTGGTTTCCCTCCAGATGCCACCCCTCCGAGGTCCCCTT
CTGCTTCTTCTTGCGGTAGCCAGGGAGGCAGCCCACGGGCAGGGAAGCGGGGGTGGGGGTGCAGAGTCAGAGGTGCACGTGGACAGAGACAGAGAGACAG
GGACACGTGGGCAGAGACGGATAAAGACAGAGACCCAGAGAAAGCCAGATATGTTGACAGACACAGAGACAGACGCCAGAGAGGAAGGCAGACAAAGAGA
CGGGTGGAGACAAAGACTCCCACCAAGAGACGCAGAAGGAAGATGCCGACGGTAAAGACAAAACAGGAGACGCGCGCAAGGAGCAGGTCAGAGCCCAGGC
TCGCTGAGAGAGGAAGGGCTGGGCTGGGGCAGCCCGGAGGCAGAGAGACCGAGAGTGCGGGGCGGGCGAGGGACGCCAGGGCCGCGTCACCCCAGCCCGT
TCCTAGCTCCGCTCCCGGCAGGGGGCGCCCTGGCCTCGTGGCACGACCGGCCCGCGGGGCGCGGGGCTCGGGCCGGGGGCGGGGCCGGGGCCGGGCTGGG
GAGGGGTTGGGGCCGGGGGCGGGGGAGGGGGCGGGCTGCCCGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGCGGCAGGGGGAGCCCCGCGCCCCCACGCACACCCAGGCCCCCGGCGCCCGGAGCCCGGCCCCG
GGGCCGGGAACCGCGACCGGACGGGGGAGGGGTAGGGCCCGGGGGCGGGGGGGGGGCGGGCTGCCCGGGCCTCACTCGGGCCCCGCGGCCGCCTTTATAA
GGCGGCGGGGGTGGTGGCCCGGGCCGCGTTGCGCTCCCGCCACTCCGCGCCCGCTATCCTGGCTCCGTGCTCCCACGCGCTTGTGCCTGGACGGACCCTC
GCCAGTGCTCTGCGCAGGTAAGGATTCGACGCTGCCCCGCGCCCTGGTTCCCCAGGGCCCCAGCGGACGTGGTCCATCCCCTTCTGCATCCTCCGCTGGC
CCCGTGGTTGAACTTTAATGGCAGGGCCGGGGTCTCCAGCGCCACGCCGCCCACAGCAGCCCATTCGGGACGCCCTGCAATTGGTCCTGCCCCTGTCCTC
CCGCGCATCCCAAGCTCCCGGCGCGCGCTCTGGGCGGGACAGGAGATTGGACGTGGCGCCCGCGGAGCCGGCGAACTCAGGGGACCGCGCTCGGGACCGC
CCTGCAGTCCCAGGGTCTCCTACCTCCCGAGCCGCTGCCTGGGACCCTGCGCTCTGTCTGGGCACCTGCCCTTGGTGCCCCGTGACTGAGCCCCTCCTGG
TGCCTCCTTAGCCGTAGCTCTAGAGACCTGGGCTGCCAACCCCAAGGCCTCGTGGCCTGGCGCCCTCCCAGGCGTCCCACCTGACCCGGTGGGGTCTAAA
GCAGTTTGGTTTGGGAGGAGGAGAGGGCAGGAGGCGCTTGGAATGGGGGGCGTGGCGGGAGGAGACAGAGGACACCCGCGTGGGTGTCAAAGTGTGGGCA
CCCACTGTGGGCACCGCAGCTGTGGGGCAAAGCTCTGGAGCCCGCGAAGCCGAAGGAGCCTGCCGCCCCCTTTAGGCTTTGCGAGGTGGGCCTCCCAGGG
CTGCTTCCCTGCCCAGTCTTGGTAAGAAAGGGTTAAACGCAGGTCTCAGCAGAAAGGCAGGAGGCCGAGGAAAGCCTCCCCCACTCCCCATTGTGCCTTA
TGACTCTTTTTCAACACATAATGGGGTCGAAGGCGGGGCCTTTACAAAGGCCTCTGGGTGGAGGGTGAAATTCCTTGAGATCAAAAGAGGGGGCGATTCT
TGGGCCAGGAAGGGCTTTGGGCCCTGGGAAAAAGTCAGACCGCTCAGGTGGGCCCAGCTGCCCAGGGAGGCAGGGGTTGGGTCCCAGCCTCAGTGTAGAT
ACTGCAACTGTTTTTTGAAGGCCTACCGTGCGTAGAGGGACCTGCTCTGACATCTCATGTACATCATTTCATTTTACAAATGGGGAAACTGAGGCTTAGA
CAATTTAAGTAAGTGGTGGGACCAGGGTTTGAATCCAGACTCCAAACTCTGCAGCCCTAGCGTCCTGCTCCCACTGTGTTGCCTAAGAGATAGGGGGCTG
AGCCTTGGTTTTGTCTTCCGGCTCCTCCTGGGCTCAGCCCGCTCTTCCTCCACTCTCCAGTCTTGCTCTTTCCAACTGTTTAGTCCTCCCCACCTGTGGG
TGTCCCCACGCTGTCCTGCCCCAGCCATCCCACTCCCTGGCCCCATGCATCTTGTTCCTGTGTCACCTTTTTCTTTCTTTAACTGAATACCTGTGAATTC
CCTCAGAAGAGGCCCCTGGACACAGCTTCTCAACATCCCAACTGGTGAAGACTAGGCTGAGTGATGATCCCGGTCCATGTGCCCATTTGTAAAAAGGGGT
GTATTCCCCTTTCGGGACTATTGTGAGGAATAAAACTGAACTGAGGCCAGAACAAGATGCTATCTTCATTCAGCAAATACTTAAGCATCCGCCGTGTGCC
AAGCTCTGTTCTAGGTGCCGGGAATGCCACAGTAAATCAGCCAAAAGCCCTCTTCTGGATTGGATGTTTGCATAACAAAATTCTTTCAGGCTTTGAAACT
GTCAGAATTCACAGTGTAGACTTGAAATCAAGCTATTCATAAGGAAGGAGATTAAGACGCAATCACCTGTAAAATGGATTGGCCAACCTTTGGCCCTCAC
TTTAGCAAAGGCAGCCTTGCTGTGGGACCTGGGATCAGTTCTGTTCCCTCTCTGTGCCTCGGCCTCCTCCCATAAGCTGTGGAGATCAATAGTGCCTACC
AGTGGTGAGGTCTAGATATGATGAATGCTTGCGAAGGGTTTAAGCTGGTACCTGTGCTTAAGAAAATCCTGGCTATCCTCAGCTCTCTTCTCAGCAGAAA
ATGCAATGCGGAGACTGGAAGTTGGGTTATGTGCCTACCCTGCCTCTGAACCTGTTACCCACTTCTGCCCAGGCCCTTCCCATCCTGTTGGGCTACACAT
GTGGGGTGGCATGGTGCCCTCTTTGCTCACACTCAGATGCCACCTTCTGTCGCCATCCTAAACACAGCCTGGGCTGGGAGCGCAGAGCTCCATGATGAGA
TCAGCCCTGGAGCCATCATCTCTGCAGCGCTTCCTGCCCTCTGCCTGTTCTTGTGCCTCACCGTGTCCTAGCTCAGGACCAAACTCAGCCCTGTTCTGTC
CCATGACTTACATACCCAACATTCCCTGCAAGCTGGATATGATCTTGGAAAGGGGAAGTGAGTTGCCCAGAGGCACACAGATGCTACCTGAGGAGCTGGG
GCTGGAGCCTGCGTATCTAGAATTCCAAATCTAGCAATCTCCATGCTGTACCCATCTCTGGGCATATGAGGCCTTTTAATCCAGGGAGTAGGATCCAGTA
GCAGAGCCCGAGTTCTCACCTTGAAATCAGTCTGACTTGGCTTTTTAATACAAAACCCAGAGCTCTGAGAGAACATTGCTGGGAGAGTGAGCAAGCTGGG
CTGAGAACCAGCACTCAGAAATCTCCATGTGGCCACAGGAATGCTGACTTGGCTTCCCAGCACCATGTCGTCGTCCTTGGCAGGCTGGAGCTGGGCTTTG
TGGTATGTTAGATTTGTTTTTTTTCTTCTGGAGATGTCCTCACTTTCAGAGGGCAGTTAGGGGCAGTAGACTGAAGGTTCATTCCCAGCACTGCCATGCG
ACCCTGGACAAGTCACCTTCCCTTTCGAAGCCTCAGTTTTCTCATCTGCAATATGGGTTAAAATTATATACTTTGCAGGGTCGCAAGATCATAAATGGTT
TTCCAACTTTGGGCTGAACCAGCATTGATGTTATTAAGACATTCATATTTCCTGTGGAGCAATTTCAAAAGCAGTTAACTTTATCCCTACCAGGTGATCC
TGAGGGCCTGAGGGAAGTCCACGTTTAGGTCACAAAAGCCTACACAGCAGGGAAAACACTGGTTTGGGGGCTGGTGTCTTGGATTCCAATCGCCAGCTGT
GTGACCTGAGGCAAGTCACTTTACCTCTCTGAGTGTCAAGCTCATAGGAGGCCCCCAACATCAAGATATGATGCTCAGTGTCTGAAGAACATAGTCTCCG
TATTTTTCTGCCTCCTTGTACCAGCTCCCAACCCCCCCGCCAACACTTCGTTAATTGCTCCCAGAAAAACTCTATGCTTAAAGTTTTCCATGCTTAAATT
CTCAGCCKCACTGTGGCATGAAATCAATTGTTTGCATTGAATTTGACTTCTCAAATTAAGGGGTAAAATTTGAGATGAGAGTAGGGGGTTAGGGAGGAGA
TGAGGACGAAGTTAAACCAGATGTGCTTTTGTTTAATTGTAGGATGGTGGTTAAGCTGCTCAAGTATTACCATCGTTCTTTCTGAATTCCAGTAACCAGG
AGTCAGGTTTCACAAAAAGTCGTAGTGTTCTTTCCTGGCTGGTGTGGACTCGCCCTCTCTATTATTATTATTATTATTATTATTACTATTTTGTATTCAT
CTGAGGCCACAGAGTACTGGCCAGAGAGGAGACATAGATCCCCAGAATTTCAGTTGGAAGGCCTTTAGAAGCTGGCTCGGTCAACTGGGCTCTTGGYGCA
CCAGGGAGACTGAGGCCCAGAGAGGAGAAGAGGCTTRCCCAGGGTCACACAATTGCTTAGGGCAGAGTGGACTGGGAATTCAGTCTCCTGGCCTTAAGCT
ACATGATCTTTCCAAAGGCAACCACTCTCCTGAATTTGGTGTGTTTCATTTCTACAGTATATTCTTAGCATATCTGTTTTTTGAAAATCATTGTTTAAGG
GAGGATGCAGATGATGTGGGTTGGTGGAAAAAGATATTAAGCTCAGGAGAGCTGAGCTGAAGTCCTTGAATACCTCTGTGACCTTGGGCAAGTCACTTCC
CCTGTCTGAGTCTCAGATTCTTCATCTGTAAACCAATATATCTGAGGAGTAGGAGTGGAGAGATGAGACTTCCCTAAGACTTGGAATGGGTCTAATGTAT
TCAACTGGTCCTCAGATATTTATAGCCTGCTGTGTRCTGGGTTATGGGAGATCCATCACAAACTGCCTTCCTAAGGCTGCAGGGGGTGGGGGATTGTTGA
CTTTTGCGGTGATTAAACAACTTTWATTTAGTTGCTGGTGTTTTTAAACCAGGCAATTTCATTTTATATAAAGATAAGGATTTCTGGCTTCTCTTGAAAG
ATCAGAAGATGTGGCCATATGGGGCTATGTCCCTGCCTGGCCACAGTGGCTGGAGCTGATTAGCAGCTGCTCCATCCACTTTACCACAGTCTCCACCACG
CCCCACTGCCTCACACTTGCCCACCTGCCTCCCTGACATTACCTACCTACCTTCTGAGCTTGCGGTTTCTGGGCTAGATGCAGTGAGGCCATGTAAGAGG
GGCTYAAATTCCACTTGAATGATTGTGTGGGGCTTGGGCCAGCCCTCAGGGGGCTCAGGGTGAGAATATGGGACACGTGGACACTAGCCCCTCTTCCATA
GCCTGGCAACATCTACAAAACATGTCAGCTAGGCGAAGGAGCTTTTTTCCTGCTTYGGTGGTCCTCAGGAAGAGTCTGAGGGCTCTGGAGGTTTGGGGGT
GATAGAGCATCTACCKGTCAAGGCTCAGCGAGTTGAGCCCAGGGTCTAGCTGGGGACAGGCATCGCTGGGTACTTCATTCTAAAGATTGCACAGCCCCTG
CAGGGAAGAGACTCCCTTGACAGCTTCCACCTTACCCCTTGCTCCCCAAGAGCCCTGTGCATTGGTGCGCCACTTCACCCTGTGCTCCCTAAYAGCCCTG
TGCATCAGTGCATAACCACTTCTCAGACAGGAAACACGATCTTGCACTCTGAACCCACAGCTCTCTGTTCCACCCCCTTTGCTGGGAGCCAGGGCCTGGT
GATGACAGGCAGGTACCATGGTGGCTGCAGCAAGCATCTTAGAATCGCCATGTCTGAGCCAGAGGGTAGCACAGGAGGCTGTGAAGCCTGATGGTTACAT
GCGGGGGGCTCTGGAGGCAGCTGCTGTGATGTGAGATTCTAGGTCTCCACGAATCAACTGCTCCAGGGGTTATGAGATGGACAAGGGAGACTGATTGATT
GTCGATTGCTGATACTAACCTCACATCCCCTGGTCCTTACACCTGCAGACGACTTCAGAAATGTGCCCTGTGTGGGAAGTGGCATTTTGTGAGCACCATT
GGGTACCAGGCACTTTCGCACATTACCTTTGATACTCACCTACCCCCTACYCTCCAGCATTTTGCAGTTMAGGAGACTGAGGCTCAGAGGGCAGACACCT
TAGGATTACTCCTCCCCTAGGTCTCTATGCCTCTCTGCTTTGACCCAGGGAAGGGAGGAGAGGACAGGCTGGAAGGTCATTTCTGGAAATAAGGCCGTGG
AGACCCTGTAGTGAGGCCCTGACCCTCCAGACTTTCTAAGCCACCCCCTCCTCCTCCACTCCAGCTTGTTTCAGAGATGCTTCTTCATCCTTCCAGAGCT
CAGTTTGTCATTCAGGTGCATGAACTTTACCTGGCCAGGTCTGCAAACTGCTGGGCAGAGCTCAGCAAATATTTTATGTTCTTTAAAAAAGTTTTTAGGT
GGCYGAAGCAAATTGCTTTTACTGGAAAAACCAGAAGTGTGACCTTTATTTTATTTTTGCAGAGATGGGGCCCTGCTATGTTGCTCAGCCTGGGTTCAAG
AAGTCTACCCACCTTGGCCCCYGAAAGTGCTGAGATTATAGGCATGAACCATTGTGCCTGGCCCACAAGTGCACCCTTTAAAAAGATCTACCAGGTGACC
CTTTTTTAGACTGAGTATCGCTCTGTTCCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTACAACCTCCGCCTCCYGGGTTCCAGAGATTCTCCT
GCCTCAGCCTCCCATGTAGCTGGGATTACAGGCACATGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACATGGTTTTGCCATGTCGGCCAGG
TTGATCTTGAACTCCTGACCTCAGGTGATCCACCCTCCTCGGCCTCGCAAAGTGCTGGGATTACAGGCATGGGCCACCACACCTGGCCCCAGTGACTTTT
TGTTGGGTCAACCTCTTGCCTTCTTTAGTGCACCTTTACTAGGTCAGTAAAGCCACAGGGTGGGTACCACTTAGCTCTCAGGCTGACGTTCTCAGGCCTC
TTGCTGGCTGTCACTGAAGTGTCTCAGGCTTGTTGTTTTTTTGTTTGTTTGTCTGTTTTGTTTGTTTGTTTTGTTGTTGTTGTTTTTTGAGACAGGGTCT
AGTGGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCATGGCTCACTACAGTGCAGCCTTGACTTCCTGGACTCAAGCAATCCTCCTACCCCAACCT
CTCAAGTAGCTGGGACCACAGGCATTCGCCACCACGCCCCGCTAATTTTTTTTATTACTTGTAGTGATGAGGTCTTGCAATGTTGCCCAGGCTGGTTTCG
AACTCCTGGGCTCAAGTGATCCTCCCACCTCATCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCATCTGGCCAGCCTGGCCTTTTGGAGGATC
TCATCCCCCTCCACCTGTCTCCACCTGTCTCCACCTTGACTTACCTGTCTCTCAGCATACAGGAGTTACTAACTGACCCGTCTGCCGCCATTCTGGTGAG
AAAATGTCTCATCTGAGGCCCATTTCCCCTCCTCCACTCCTTCTGAGCCCTTCTATAGCTCCTCTTCTTTCTCTGCCTCATTCYGCTGGTCCCTGCCATG
CCACTACTAACTAAAAGTCCATAGACTATAAGCCCAACATGCACGTACTAGGCATGGTGCTCAGTGCCTTGCCTGTAATTACTATTTGGTCCTACAGCAG
CGCTGGGTGGCAGGTGCTATTATCCCCACATTACAGATGAGGAAACGGAAACACAAACTCCCCCAGCTGGGAAGTGAGAAGTAGACATGTTTGTTCCCTG
YGGTGACCCATCCATCCATTCAAGGCTACTGCTTTCTCCGTAATGCAAATGACATAACCCATCTTCCTAGAAGAGTCAGTTCCCTATTTATCTTAAAACC
ATCCAATATAGAAATTCATATTCTAGGTCTGTTAGCCTATCAAGATATCAGAGATAAGCAGGTTTCCTCTCAACAGCTTGTCCAAGCCCTTAATCACCTA
AGTGATTTTTTTGTGTGTGAAAATGCTGTTTTTTTGCTTTTCCCCATGACCTAATCCTTATACAGATGCTCCTTGATTTACCAAAGGTTTTTGTCCTGGA
ATTGTAAGTTGAAAAATATCATAAGTAGAAAATGGTTATAACACCTAACCTGTCAAACATGGTAGCTTAGCCTGACTTACCCTAAATGTGTTCAGAACAG
TTACATTAGCCTATAGTTGGGCAAATCATCTAACACGAGGCCTATTTCATAATAAAGTGTTGACTATCTCATGTCAATTTCTTGGCTATACTGTATTGAA
TGTGAAAAACAGAAYGGCTGGTTGGGTACTCGAGGTGTGGTTTCCACTGAACACTGTAGCTTTTGCATCATCGTAAAGAAAAAAATCTTAAGTGTAAGTT
GGGGACAGTCTGTAATGAACATTTAAGGGCTTACTCTGTGTCAGAAACTGAGCTAATCACTTTGAATGACCTTATTGTATTGAGCTCATAATTCTTTCCA
TTTTGCAAACAAGGAAACGGAAGCTCAGAGAGATTGAGTAATGTTCTCAAAGTTTGGAAAGTGCAGGTGAGACTCAAATCCAGGGTTGCCCAATCAGATT
GGCATCTGGATTCAAATTTGCATGTTTGGAGAAGAGCTCTCAGGGCACCTTGTGGTACACATTTGTTTTTCAGTGAGTGTTTGCAAATGACATGGGGGTG
GGAGGCCCCAGGGGGAGGAGACAGAACATAGACACACCTGGTGGGGCACCAGCGTCTGTTCTCCCAGACAGTGTTTCTTAGCCTGTTCACCCCCTCATAG
GAAATGACAAGCCTAGAAGGAAGCATCCTGAGAAACCCAGAGGGGCCTGGGTTTGAATCCCAGCCCTGCCATTTCAAGCTGTGTGACCTTCGCCAAGTCC
CTTTCCCTCTCTTAGCTTCTGGCTACCCTCCCTACCACGCATGGTTTATTTGAATGAGGCAAGGCCTTAGGATTTTTCGATTTGTGGATGGCGAATAGCC
AGCRTGTCTCCTTCCTCTCTCCTGCCCTGCACCCACATCAGACATCACTAGTCAACCACTGCTTGCTTTCCTTCCCAGATTCCTTCTAAGTACAGTGCTC
CAGACAGCCATTAGCAACTAATATAGAGTTGGCACACAAGATAAAAGGACATCCCAGAACCAGATTAGATTTGGTCATTGTGTGGGTGGGGGTAGGGAAG
GGATAGGCCCAGGTGGCACCCAGTTCAGTGTCACGGTGCTCCTTGGTCTTCTTTTCCTTGTCTTTGGAGGAACTAAGCTAGACTGTACCAGGGCCCACCC
CAGGTGTGGGGTAGGAACCTTTTATGAGGCACAGAGCTGTGCCCGTGTTCAGTCCCAAGGGAGAGGCAGGTTTCTGGGCCTCATCACTGTCTAGGCTTAA
AGTAAGAGTGACGAGAAAGAGGCTGGTTTCAGGTCCTCCTGGAAAGAGTTAGGCCTGCCCCTCTCCACCCTTTGTAATAACATCCATAGTAGTAATAAGA
GTTCTCGACACTGACGGACCACTTGTTACGCACCAAGCCACTCTGCGAAATGCTTTGTATACATTTACACATTTAATCCTTATACCAGCCCATTTTTCAG
GTGAGGAGAATGACTCAGAGTAATTAGCCTGGGTTTGCCCAGCTGGTAAGTGTCGGAGCTACGATTTGAATTCATATCTGTCAAACCCCGAATAAATAAC
TCTTATTACTACGATGGATATTATTACAAAGGATGGGGAGGGGCCAGCCTAACTCTTTCCAGGAGGACCTGAAACTGAGCTCTTTCTTTTTTTTATGGTA
TTCAGAACATCACTTTATAAACTGTTGTCAGATTACCATTTAAACATTAATACCCAAATACAGAATTTAGACAATTACTTTAAATTGTAACTGTACCATC
CCCAAGCTCTCAGCTATGAATTTGGTTTGGGGAGAGGGCTCCGTAATAGGCCACTGAAGTCCCCCGTCCCACCCCTTTTTTCTCCCCTGAAAACTAGCTG
CCTGACTGCTCTGCCAGACTTGGGCTAGAACTTGGCTTCACTGTGACAGTGGGACCACCTGGGCCCTACAGTGTGGCAAAACCGACCCGCCCACAAACTC
CATCCCAGGTGTTGAGATGCTAACACACTGAAGCTGAAAGACCCCACTTGGTTTTGCCACAGATCAAGTTGCATCTGACTAGAGAGCCTGTCCTCTACCC
TATTTCCTGCACAAGTCTTTTTCTTTGTAATGCAACAAGCGCTACTCAGCTCAGATYCAGTGGGACACAGGGAAAGGGGCTGTAGTGTAGCCCAGCCTTG
CTGAGGGAGACCCCTGCCTCGCCAAAGCACTTCGCTCACAAAGGCTGAAACTGGCCTCTTTCTCGTCACTCTTACTTTAAGCCTAGGCAGTGATGAGGCC
CAGAAACCTGCCTCTCCCTTGGGACTGAACATGGGCACAGCTCTGTGCCTCATAAAAGGTTCCTACCCCACACCTGGGGYGGGCCCTGGTACAGTCTAGC
TTAGTTCCTCCTGCTTTCCTCCACCGCAGGCTCAGTGCGGGGCCCGCGGCCTCTGCGTCTTTCTCTCAGCTTACCATGATCATTTCTCATTGATGAGTGC
GATACGTCTTTGCCCGTGGAAAGTGCTTTACCATCGGCAGAGCCTTCCACGTTTACACATGCGCAGCACAGCAAAGGGCATCTCTTTTTAAAAGGGAGAA
AACTGAAGCTCAGAGGCTGGGCACAAGGGCTCACGCATGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACTTAAGGTCAGGAGTTCAAGAAC
AGCCTGGCCAACATGGTGAAACCCTATCTGTACTAAGAATACAAAAACTAGCTGGGCGTGGTGGTGTATGCCTGTAATTCCAGCTATGTGGGAGGCTGAG
GCATGAGAATCACTTGAATCCGGGAGGCGGAGGTTGCAGTGAGCAGAGATCGTGCCACTGCACTCCAACCTGAGTGACAGAGTGAGACTGCATTTCAAGA
AAACAAAAAGAAGATTGAGGCTCAGGGAGGGAGGGTGGTGGGCCCCGGACCACACAGCGAATAAACGGTAAACCCTGCACCAAGGAATTAGGTACCCCAC
CTGTTCCCTAGGCCTTCTGGAACAAATTGCCTAGGGGAACCTGAGGTCAGTGCTGGGAACGCAGGAGTGGTGGCTCAGCAGAGGCAGGGGTTGTGCTGCC
CCCCGCATCCCACCCAGATACACCCTATCCTGTTTTAATCAGCCATTGACCTTGGACAAGTCACTTTAACACTGCCAACCTCAGTTTCCAGGCACTTATT
CTATTTTTCAGGTTTTTTTTGTTGTTGTTGTTTGTTTGTTTTTTGAGACAAGGTCTTGCCCTGTCACCCAGGCTGGAGTTCAGGCACGATCATAGTTGAC
TGCGGCCTTGACTTCCTGGGCTCAAGTGATCTCCTGCCTCAGCCTCCCGAGTAGCTGGAACTGCAGGCTTGTGCCACCATGCCCAGCTAATTTTTTTTAT
TTTTTATTTTGTGAGATGAGGTCTTGCTTATGTTGATGAGGCTGGTCTTGAACTCCTGGGCTCAGGCAATCCTCCCACCTCAGCTTCCCAAAATGTTGGG
ATTAACAGGCGGTGAGCCACCAGGCCTGGCATATTTTTCAGTTTTTAAAGCCATTTCTTTTTTCTCTTTTTTTTTTTTTTTTTTTGAGAYGGAGTCTCGC
CCTGTCGCCCAGGATGGAGTGCAGTGGCTTGATCTTGGCTCACTGCAGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCTGGAGTAGCTGGGACT
ACAGGGGTGTGCCACCACGCCCGGCTAATTTTTTGTACTTATAGTAGACACGGGGTTTCACCGTGTTAGCCAGGATGTTCTCGATCTCCTGACCTTGTGA
TCCGCCCACCTTAGCCTTCCAAAGTGCTGGGAGCCACGGTGCCCGGCCGAAAGCCATTTCTTATTCATGAACTCACCGAACCATCAAAGCAACCCAATAA
AGTATTCACATCATTTTGCAAAGTGGGAGACTGAGGCTTGGGGAGGCAAGCAACTTGCCTGAGGTAAAATTGATGGTAAAACCAGGCCTCAAACTCAGGT
CAGGATCCCAGGCTGAAGGTCTTTCCCCAGCTGTGTCTCCAGTCTCTCTCATCGTTGCCTTTGTACCTGCCATCCCCTCCCCTGCAGCAACCTCTCCCTG
TTTGTGTTGCCAGTTGGCATCATGGCTGTTTTTCTAGAGCTTGCTTTGGATATCYTGAACCCTTTGTAATCTGATCATCCACATAGCATCTGGCTCTGAG
TTTCAGTTCCTGGAGGGTAGGAGCCCCATCTGAGTCACTCGTGAATTCCCATGCCTAATAAGATGCCTGCTTTCAGCAAGCGTTTAATGACTTTTTTTTT
TTTGAGACGGAGTCTGCTCTGTCGCCCAGGCTGTAGTACAACGGCGCGATCTCGGCTCACTGCAACCTGCGCCTCCCGGGTTCAAGCGATTCTCCTGCCT
TGGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGACAGCACGCCTGGCTAATTTTTGTATTTTTAGGAGAGACAGGGTTTCATCATGTTGGCCAGGCTGG
TCTCAAACTCCTGACCTCAGGTGATCCACTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAACAGCCCATTTAATGACTTTTGAGTTCATGAAAGGCTGC
CCCACTCGGCAAGGGTTTCCACAGCTGGCCTGGCTTTGTTACCATGGGGAAGCCTGGGAGGGATGCCCCACTGGGTGTGACTCTTGAGCCACTCAATGCG
AAGCCTGGCCACCCTCCCCAGACCTTCACTGGTGTCCTTGCACGAATGCCACCAGCTCATAAATGGTTAGTGATTGGCAGCAGGACAAGCCAGTGTCTCT
GGGTCCAGTTTTCCTGTTGGCAGTTCAGGCCTTTAGTCTCACTCAGGTATGAGGTGCCCAGTGTCATACCTCTGGCCAATGTCTTTGTCCATTTTGTTCA
CAGATGTACCCCCAATCCCAAACAGCCTTAATTTCTTTAATAATAATAATAGTCATAGCTGTAAATTTGCTGAATCTGCATGTACCATGCTTCCTGGTGC
ATAGTAGGCACTTAATACATATTTGTTGAATGAATGAATACTCGCAGCGAGTTAACATTTCTTAGAGACTGAGAGTCCCTAAGTGAAAGGTCACTTGCAT
GACCTCTGTGCCTCAGTTTCATGTGTCGACTCCGTGAGAGGTACTCAGAGGAGTAACCAATACATATGTCCATTTTTTTTTTTTTTTTTGAGATGGAGTC
TCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTACAAGCTCCACCTCCTGGGTTCACGCCATTCTCCTGCCTCAACCTCCCCAGT
AGCTGGGACTACAGGCACACACCACCACGCCCAGCTAATTTTTGTTGTATTTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCCATCT
CCTGACTTCATGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCAGGTTTGTTTAAAATATATCATGAACC
AGGCTGTGTTCTAAGCAGCTCACATGTATTTTTTCATTTATCCTTGCACCTGAGGCTCAGAGAGATTAWGTTCATGTCTCCTAGGTCACCTGGTTGGTGT
CACGTGCAAATATTTTAATATCTCCCAGGACATGTGTGTTCCAAATAACATAATATGGGAACCACCTCCCCTACCAGCCTCCTCCCATAACACACACCTC
ACGCCCCAGATCCTAGGCTTAGAACAAACGGGAACAGTAGTAGGCGAGTCAAGCGGTCATGTTGTCCCTGACTATAAAATGCCTCATCCAGTGTCGGGCA
CACAATAGGTCTTCTGATCACCATCTGTGGGATAGGCGCCAATCATGATCTGAGCAGAAGCTGGCAGGAGGGAGCCCCGAATCTGCTGGAGGAAACTCGG
TGCTGGGGGGACTTTAGAGAAGAAATGACAGCGGTCATRAATCATTGTAACAGTAACAGCTCATATTAACTGAGTGGCAGGCACTGTTCAAGCAAGTCAG
ATACATTAATCATTTAATCCTCATATCAGCCCTAGGAGGTAGATATTATTGTCATTGTCCCCACTCACGGATGGGGAGCCAGGCTCAGAAATAAGCTCAT
TTGGGCTGGGCGCAGTGGCCCCTGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCATGGCCAA
CATGATGAAACCCTATCTTTACTAAAAATACAAAACATTATAGCCAGATGTGGTGGCAGGTGCCTGTAATCCCTCAAGATTACAGGTACTCAGGAGGATG
AGACAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGCCAGCTGAGATTGTCCCACTGTACTCCAGACTGGGCGACAGAGCGAGACTCCATCTCAA
AAACAAAAAACAAAAACAAAAATGGGGAATAAGCTCATTTGTCCAGTAAATGGCTAGTAAATGATAGCTCTGGAGTGTGAACACCAGCACTCAGGCTGTG
GCATCTTGCTGTCCTGCCTCCTTCTGTAAAGACTCGTGAAGCTTCCTGCTGGGTAGTTCCTGGTACCTCTGCTCCAGGTTGGCCACTGGCAGCAGGCCTG
TGCCAGGGTGCATGCTGGCGCTATATGATCCGTGGGGCGGAGGGGAGTATCCCCATCTCCTCAGGGGCCTCCCCTATGTCACACCCTGAGGCTGGGCCCA
GACCGGTATTCAGGAAAGGAAACTGATCTGTCACCTCACCCCTGCCTGGGGCAGCCCAGCATGTGTCAGCCCCCTAATCCCCGGGTACTGCCCAGGACAA
RCAGTAACAGGGACAACCACCCTCCAACATGGGGAGGCCTGCAACAGCTCTGGGGCAGAAGGAGGCTCAGGGAGGTAGCAACTTACCACCCAGCAGCTCG
TGGAGCTAGTGGGTGGTTGAGCTGGGATTTGGACCCAGGGCTTGGCTCTGGTGAGGGGGGATGTGTCTGCCATGGGGTTGTCTGGTCCAGAGATCCAGGC
CTAGCTCTTTTATGAAACCTTAATTTGTTCACTGATAATAGCAAGAGTTGTCATTTCCTGAATCTAACCTCCCCAAAGGGTAGATACTCAAATCTCTGCT
TTTTTTTTTTTTTTTTTTTTTGACATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCCACCTCCACCTCCCAGGT
TCAAGCAATTCTCCTGCCTCAGCCTACTGAGTAGCTGGGATTACAGGCGCGTGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTC
ACCATGTTGCTCAGGCTGGTCTCAAACTCCTGACCTCATGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGAATTACAGGCATGAGCTACTGCGCCCGGC
CCAAATCTCTGCTTTTACAGGTAAAGAATGGAAGCACAGGCTGGGAGTGGTGGCACATGCCTGTGTCCTAGCTACTTGGGAGACTGAGGCAGGAGGATTG
CTTGAGCCAAGGACTTCAAGGCTGCAGTGAGATATCATTGCACCTGTGAATAGCTACCGCACTCCAGCCTGGGCAACATAGCAAGATCCCATCTCTAAAA
ATAAAAAATATAAGAAAAAAAAATGAATAGAAGCACAAAGGAAGGGAAGGGATCACCCAAGGTCCTATAGCTCATACATGGGTTAATCCAGAATTGGAAC
CYGGGCAGCCTTGCTCCAGAGTCCGGTCTCACTTAATGAGTACTAGATAATTCTCTGCATGTCAGATGGGTACACTCTTCTTGAACCTGCTAGTTCTTTT
GGAGCCAGATCTGGGGAGGGGGAGCAAGGCAGGAGTTGAGCAAATAGCAGGAACAGACTGTGTGACACTTGCTGGGAGGCTCCGAGGCTCCAGCTCCCTG
AGCTTAGAAGTGCGGAGTKTATCTATCCCCTGCGCGATTCCTGGGGGAAGGGAAGGACAGGCGAAGGGGCATGGCGGGGCAGTCCTGGTGTCTCCAGGAC
CAGGGTCAGGGGGAGGCCAGAGCAATTAGCCTGGCTGAGGCCTCTGCTAACTCAGAAACGTAAGTGGGGGATTGGTCCAGGCCTCACTCCAGGGCTCTGG
CCTCGAGCCTGACCCTCCTGAGTTTCTATCTGAGGCTTCCAGAGTCTTCCTGGGGCAGTGAATCTCAGAGTGCTGGTTTGTGTGAGAACTTTGTTCTGAA
ATTTCCCTTTTCAACAACCAAATCCCTGGGCTGGCCTGCCTGCCCCACTTCCCCCTCTTGGAGGAAACGGATGCTTTCCTCTTGGGCGGCCACATGATTT
GAATAATCAAGTGTTTCCCAGCTGGCCTCTGGCCAAACGGAGCTCAGCTGGGCAAGGCCCCCAGTTGGGGCACTGAGGCAAGCCTGCCAACCTCCTCATC
CCGCCACACGCTCCAGCCACCGAGGGTAAAATACAGGAAAAATGCATGGCCCATAGACTTGGCTGGGCCAGGCCCCAGACTATTCCTGTGATGGAGGCAG
CGCTTGTCTTGGGCTTTGTCCCATCTACCTGGAGAAAGCTGAGTGGAGGAAGAAAAAGGCTGCCCCTGCTCAGGAAATTCCTGATGGAGCGGCCTCTCCT
GGCGTGCTCACCTGGGTGCTGGCGTCTTGGCACTTGTCAGGGTGGAGAGAGGAGGAAGCCAGTCAAGAAGGGGAAAGACGGGTGYGGGAGGACATTCACT
GATTCAACAAACATCTCATTAGCCCAACTGCCTGTGAGGCCCAGGGTTAGGTGCTGGAATCACAGATGGATCTGCCCTGGATTTTGCCTTCAAAGAGTGT
GTGTAGGCTGGGCTCCGCRGCTCACGCCTGTAGTCCCAGCACTTTGGGAGGCCAAGGCCAGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACC
AACATGGTGAAACCTYGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCGCGTGCCTGTAATCCCAGCTACTCCGGAGGCTGAGGCAGGAGAA
TTGCTTGAACCTGGGAGGCAGAGGTGGCAGTGAGCCAAGATGGCACCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTGTCTCAAACAAACGAAC
AAAAAGAGTGTGTACAGAAATGGTCTTGTAAGCAGACTCCCCCACAGAGCCCTAGGTGGTAGAGGATGAGGGAAAGCATGAGAGGCCACCTAGCTAAGCC
TTGGGCAGAATGGCCGCAAAGGATTTCTGGAGACAGCAGATTTCATTTATTTATTTTTTTTGAGATGGAGTCTCTGTCTCCCAGGCTGGAGTGCCATAGC
GCCATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCTATTCTCCTGCATCAGCCTCTGGAGTAGCTGGGACTACAGGCATGYACCACCATACCT
GGCTAATTTTTGTATTTTTAGTAGARATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCA
AAGTGCTGGGATTACAGGTGTGAGCTACCACGCCCGGCCTACTTTATTAATTTTTAACCTTTTTTGCYGCATTATATAATTTTTGATATGTGGTGTTTTT
AATCATTCAGTTCTAAGTAATTTTAAGTTTCTACTATGACTTTTCTTTGATCCTTGAAATTTTTAGGGACTTTTTTTCATTTCTAAGTGTAGGGGTAATG
ATTTATACTTGTAAACGCTTAGCTTCTCACTTAATTGATGGTCACAGGATGTGGTCTATGTGAAAACTTATTATTTGAACTGTGAGACTTACTTTTTGGC
CTGGTAGGTGATGAATTATTTAAATGTTTGCATGTTCCTGAAAAGAAAGTGTGTTTATGTATTTTGTTTCTACCATCCTACATTTTTATTTCAATTTGTT
CTGCTTTTTCTGTTTTATCACTTTAAAAAATTATCTGTGGCTTTTCCCTACAAAGACAAGATTAGCATTTTCTCATGTCCCTTGCTCCCCTGCCTCTCTT
CAGTTTCCACACCCTTCACTGACATGCTCCCCTCAGCCCCCATGATGTCACATGAAAATTGTCTAGATTTTTAAAAAATTGTCTAATTCTGAGTTACAGA
TCTATGTTATTCTTGTTCTTTTCTTTTCTTTTCTTTCTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCTCCA
CAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAATTTTGTATTTT
TAGTAGAGACGGGGTTTCTCCGTGTTGGTCAGGCTGGTCTCRAACTCCCGACCTCAGGTGATCTGCCTGCCTCAGCCACCCAAAGTGCTGGGATTACAGG
TGTGAGCCACCACGCCYGGCCCTTCTTGTTCTTTTCTTTGAACTTGAATTTGTTTTGAAAAACTAAACTTTACTAAATTATTTGCTCAGTCTTCAGATAT
CTTGAATACAATCTGTGGAATTTGCTCCTAATTAAATCATTCCTTTAAAATTATTTGATTCTTTTTTTGGAGGGGGCGAGGGGCTGTCTTTTTGTACAAA
CCTGAGCCCTTGATGCTGTAACTTTTATTAGCCTTTAACTTTTTTTTTTTTTTTTTGAGGTGGAGTTTTGGCTCTGTTGCTCAGGCTCAAGTGTGGTGGT
GTGATCTTGGCTCACCACAAGCTCTGCCTCCTGGGTTTAGGCGATTCTCCTGCCTCAGCTTCCTGAATAGCTGGGATTAGTGGCACCTGCCACCACACCT
GGCTAATTTTTGTATTTTCAGTAGGGACAAGGTTTTACCTTGTTGGCTAGGCTGGTCTCAAACTCCCAACCTGAAGTGATCCGTCCACCTCGGCCTCCCA
AAGTGCTAGGATTATAGGCATGACCACCACGCCCGGSCAGCCTTTAACATTTGAATGGCTGTTTAGCTGGATAGAAAATTCCCAGCTCAATCTTTTTTTC
CTTCTGTAGTTTGGTCAATTCGACATTTATTCCATTTGTAAGTGTTCTGTTTTTTGCTAAACCTTTAGGATGTTTTCATTGTGTGTACGTGTTTTTTTTY
TGTTTTGTTTTTTTGTTTTTTTGKTTTTTTTGAGACAGTCTTGCTCTGTCACCCAGGCTGGAGTGTAGTGGCACGATCACTGCTCATACAGCCTCAACCT
CCCCAAATAAAGTGATCCTCCCACCTCAGCCCCCTAAGTAGCTGGGACTGCAGGTGCACAACACCACACCCAGGTAATTTTTGTATTTTTTGTAGAGATG
GGGTTTCCTTATGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTTAAGCGATCCTCCTGCCGTGGCCTCCCAAGGTGCTGAGATTTACAGGAGTGACCTAT
TCAGGCATGAGATTACATGCCTGACCTATTCAGTTTYTTTTTTTTTTTTTTTTTTTGAGGCGGAATCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTG
TGATCTCAGCTCACCGCAACCTSTGCCTCCTGGATTCAAGCAATTCTCCTGCCTCARCCTCCCAAGTAGCTGGGATTACGGGCATGTGCCACCAYGCCTG
GCTAATTTTTTTTTGTATTTTTAGTAGAGATGAGATTTCACCATATTGGCCAGACTGGTCTCGGACTCCTGACCTTGTGATCCACCCACCTTGACCTCCC
AAARTGCTGGGATTACAGACGTGAGCCTCCGCTCCCGGCCGACCTATTCAGTTTCTTAATGGTATSTTTTGATAACAAGAGGTTTTCAATTTTGATGAAG
TCCAATTTACCTTTTTTTTCTTTTATGGAATTAGTATTCTTTGCCTAACCCAAAGTCATGAAAATATTATSGAGTCAGGGCCGGGCGTCGTGGCTCATAC
ATGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGTCAACATGGCGAAACCCCGTCTCTACTAA
AAGTACAAAAATTAGCTGGGTGTGGTGGTGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGC
AGTGAGCCAAGATTATGCCACTGCACTCCAGCCTGGGTGACAAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAGAAAATATTATGGAGTCAGTATTCTT
TGCCTACCCCAAAGTCATGAAGATATCCTTTTATATTTTCTTCTAGAAGCTTTGTGATTCTGACTTACAATTAGGTTTATGGTTAATCTCAAATTAATGC
AGTAAGATTGGGGTTAATGTTCTTTTAACTTTTCTTTCAATGTTCTGTTTCTTTTTTTTTTTCTGAGACAGGGTCTTACTTTGTCACCCAGGCTGGAGTG
CAGTGGCATGAACATGGCTCACTTCAGTCTCAACCCCTGGCCTTAAGCAACGCTCCCACCCCAGCCTCCCAAATAGCAGGGACCACAGGTGCACACCACA
CTTGGCTAATTAAAAAATAATTTTTTTTGTAGAGATGAGGTTCTTGCCATGTTTCCTGGACCTTCCAAAGTGTTGGAATTCCAGTCATGAGCCACCAAGC
CTGGCCAATTTTCTGTTTCTTAATCCTTCCCTGCTTCCTCCTGGAAGCGTCCTCAAGCTAATAACTTAGCTCTCTCCTCCATCGTTCAGCAGCTGGATAC
ACTCTGTAATTTATTCYACTTATGTGTTTGTTATTTCAACTGGTTTTTCACATAGAGTGTTTCCACTGGGGTCTTTTAACCATTCCTCTTTCTGTTTTGC
TAACATCTTTGCTCATTTCTTTTGCATGTTTCTCACAGTTTATGGAGACTTTTTGTTTGCTTCATTTTGTTTCGTTTTTTTGAGACAGGGTCTCCWCTGT
TGCCCAGGCTGGAGTGCAGTGGCGTGATCTCTGCTCACTGCAGCCTCGACCTCCCRAGCTCAAGTGATCCTCCCACTTCAGCCTCCTGAGTAACTGGGAC
TATAGTTGTGCACCACCACGGCCAGCTAATTTTTTTTGTATTTTTTGTAGAGATGGAGTTTCATTGTGTTGCCCAGGCTGGTCTCAAACTCTTGGGCTCA
AGTAATCCACCCGCCTTGGCTTCCTAGAGTGCTGGGATTACAGGTGTGAGCCMCCGCATCTGGTCCTGTTAATGGTTTTTCTTTAGAATTCATTGTGCTA
TGGCTGGTAGTGGYGTGGGGTGGGATTCGGGGAGCCATGCACTTCTTGCCCTTAAAACTAGCAGCCAGGGAAAACGTATGGCTCCTGGATCCTCCCTCTC
AAATCAGTCCCAAATACTGAAAAGCAAAACATCACTAAACCTAGGCAATTACGATTTTTGCTTATTTTAAATTCTCAGTAAATCTGATCTAATACGGATG
ATTCCAGCGGTATCTCTAATCAGTTTGGGTTTCTTTTGAAGTCATTGTGCTCCTTGGATACTCTGTTCTTTAACTTGTGAGCTTACTCCGTGGGGGATTT
CAGCTATTCTGTTTGATGCTGTGTCTTTGGTAAGAGTCTAAGGCTGACCCTAGTCGCCCAGTTCCAATGAGTCCAAGGAGACGACATTGCCAGGACGGGA
ATCCCTGGACATCAGAACCACTTGGTTTCTCACTAGGTGTGACATCACCATTCTCCCTCCCCCAGTGACTCACTCCACAGGATTGGGCCTCTCTTTCAGA
CCCCAGGGAGAAACAGTGAGGAGAAGGGGCTATATGCCTAGGTCAGAATTCTTCAGACTGGGGTCTGGAAAGGAAGGGGTGGTGGAGTGACTGTAGAGGC
CCCCTGTAGTGACTGTCGGTCCCCTCCCAATTCCTGCAGTTCCACATTGTTTGCTGGCAAGCTTTGAATTTTTTTTTTTTTTTTTTTTTGAGACATGGTC
TCACTCTGTCACCCAGACTGGAGAGCAGTGGCATGAACATGGCTCACTGGAGCCTCGACATCCTGGGTTCAAGCACACCTCCTGCCTCAGTCTCCTAAGT
AGCTGGGACCACAGGYGTGCACCACCACATCCAGATCATTTTTGATTTTTTTTTTTTTTTTTTTGGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGT
GCAGTGGTGCAATCTTGGCTCAACCTCTGTCTCTCAGGTTCAAGCAATTCTCGTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACCACA
CCCGGCTAATTTTTGTATTTTTAGTAGAGATGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGGTCTCAAGTGATCCACCCGCCTTG
GCCTCCCAAAGTGCGGGATTACAGGTGTGAGCCACGGCGCCCGGCCAATTTTTTGATTTTTTTGTAAGAGACAGGGTCTCACTTTGTTGCCCAGGCTGTC
TCAAGGTCCTGGGCTCAAGCGAGCCTCCTGCCTTGGCTCCCAAAGTGCTGGAATTATGGCCCAGCCCATGCTTTGACTTTATCTCAGTAGACACTTGTGC
CATCCTCCTGGGCTGCTTTATGCAAGATACTTTTTGTGGGTTTCATGAAAATGTGGGCTTAGTGATAAGCCATAAGTTAATTGAGGGGCAGAACAAAGGT
GGGTTGGACAATTTGGGGCTCACATGTCCTGGGATAGAGAGCCAAAGGGGCTCTGGGAAAGGGAGGAGGATTCTGGGAGGACACGGAGTCAGCAGAGAGG
AGGATGGAGTTTCAACAAGCCCAGAGCTGAAGTTGGAGACTGAGGTCTAGGGTAGCAGATGTGGGCTTTGCCAGGAGGCAGGTCCAGAGGGTGGCTGTGG
GGCTGAACTCCAACCCCACACCCAGCTCTGACCTTAGTTGTTCCAGGACAGTGGGTGTGTGTATGGGGGCCTGGGCTTGGAACAGAGAGGCAAGAGGAGA
ACTCAAACCCTGTTTTCTTTTCTGTAATATTCTCTCCACCCTAAAGACCATGCCCTGCCTTTTCTCCTGGCTGCAGCAACCCCTCCCCGCCACCCTACAC
ACACTAGTTTAAACTCTCTTCCATCTCCCAGGAGATTCTGTTTCCCCATTGTTGCCTAGGCTTAGTGGTATTTTGTTCTGTTGTTACTTGGGATTGATGT
TGAGAAGGAGGACCCAGGAGCCATATGTCTTCTCTCTCTGTTGGGGCAAGGAGCGTGTGGATTCCCCAATCCCCTGTCCCACCACCAGCCAGAGCACAAT
GAATTCAAAAGTAAAACCATAAACTGATTAGAGACAACCCAGAGTCAGTGGTATTAGAATAAAAAGACCAAGATTTTTTTTTTAATTTTTTATTTTTTGA
AATGGAGTCTTGCTTTGTCACCCAGGCTGGAGTGCAATGGTGTGATCTCAGCTTGCTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCCACCTGAGC
CTCCCGAGTAGCTGGGATTACAGGCACCTGCCATCATGCCCTGCTAATTTTTGTATTTTTGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGATCTCG
AACTCCTGACCTCATGTGATCCGCCCGCCTCAGCCTCCTGAAGTGCTGGGATTACAGGCGTGAGCTACTGCGCCCAGCCCAAGACCAATATTTTAAATAA
ACATCAGAAACATGAGAAATAAGGAAACAAGAGAAATAAGGAAAAACATTTGCAGCATAAAGTAGAATGAGAGAGTGTAAAAAATAAAAGAGCTGAAARC
AAATATTCAATATGAGAAAGCAGCCTCATTCTCTGCCCCACCCAAACCTCTGCGTGCACCTTACAGCTCCCTGTTCTCCAGGAAAGACGTTCACGGCTTC
TGGACYTTGGCATGGGCTGTTCCAGCAGCTTAGACTTCCTTCCCTCCACTTCTGCTGAAACACTTCAGCACATCCTCAAGACTCCTTCCCTGACCATGCC
TCATGGTCAAGGTGACACTCAGTGATGGCATAGGGTTCTGGAGTCAGGACACCAGGGTGCCTGTCCTGATTCTTCAACTAATTGGCTGTGTGACTTTGGG
CAGGTCATGCTACCTCTCTGGACCTCAGGCTTCTCTTGGAGAAAAAGATGAAGGTGTTGGGTTAGAGTATTCCTAGAGTCCCTTTCAGTTTGTTGTGATA
CCATGGTGGGGAGCACAAGCTTTGGAGTGGGGCTGCCCACCAGCCCTTCCTGGGTCAGCACTTAACGCTATGTATCATGGAGCAGTTCTTTCAACATGGA
AAGCCACCGTTTACTTACCCTAATATATGGGTTAAGAGCTTGTAGTTTGGAGTTGGACAATTTGGGCTCAGAATCCCAGCTCTGCTGCAGGTCTGCTGTG
TGACCTCAGGCAAGTTACTTAACCYTTCTGTGCTTTTTTCCTCTTCATAAAATGTGAATGATACTAAGAGTACCTACCTCAAAGTGTAGGAGCACAGTGA
ATGCAGCTGTCATTCTGCTGGTGACAGTTGTTTCACCACTATACAGACATCTCCTTTCAGTTTGGTAGATTCTTGATGATTATCTGCCGGGCTCTGCTTT
CCAAATACACTCTCTGTTGAATTTTAACTTTTAACGGATGCTCTCCACTGCATTTTATCTGTAAAACAACCCTGCAAGGTGAGGATGACCAACCTTGTTT
TATGGATAAGGAACCTGAAACCCCAAAGTTGCTTTCAAAGCTACACAGCCAGGACTTAACCCCAGGTCCACTTCCCACAAGACCAAGGTCTTTCCACCAT
GCCACACTATTCAGAAGATTAGACTGGGTCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATTACCTGAGGTCA
GGAGTTCGAGATCAGCCTGGCCAACATGGTGAAACCGCCCATCTCTACTAATAATACAAAAATTAGCCAGGTGTGGTCGTGGGCGCCTGTAATCCTGGCT
ACTCGGGAGGCTGAGGCAGGAGAATCRCCTGAACCTCGGAGGTGGAGTTTGCAGTGAGCCGAGATCGTGCCATTTCACTCTGGCCTGGGTGACAAGAGTA
AAACTCTTGTCTCAAAAAAAAAAAAAGAAGAAGAAGAAGAAGAAGAAGAAGATTAGACTGGGACTTGGGAGATTACCAAATACAGGCAGATGGGAAAGCA
CAGTGAGAAGTCTCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGATCACTGCAGCCTAGACCTCCTGGGCTGAAGCGATCCTCCAGTCTCAGCCTCCTGA
GTGGCTGGGCCTACAGGTGTGTGCCACCATGCCTGGCTAATTTTTGTAGAGACAGGATTTCGCCATGTTCCCCAGGCTGGTCTTGAAATCCTGGGCTCAA
GCAGTCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACACGTGTCAGCCACCACACCTGGATCCTACATGTATATTCTGACTGTCCGCCCTTGGCCAT
ATGCAAGATGCCTTTTGTAGTTTCATGCAAATGTGGGCTTAGTGATAAGCCAGAAGTTAATTGAGGAGGCAGAACAAAGGTGGGTTGGACAATTTGGGGC
TCATAAGACCTGAGATAGAGAGCCACAGGGGCTCTGGGAAAGGGAGGAGGATTCTGGGAGGACACGGAGTCAGCGAAGAGGAGGATTGAGTTTCAACAAA
CCCAGAGCTGAAGCTKSAGACTGAAGCCTAGGGTAGTGGATGTGGGCTTTGCCAAGAGATAGGCCCAGAGGGCAGCTCTGGGGCTGAACTCTAGCCCCCC
ACCRCTGTCCCTCACCCTGGTGTACTCTTGAGGGTCTGGGTTTGTGGTTTCAGTTTCTTCCTCTGCAAAAGGGCTGCTAGTACCCCTTGGTAGAGTTAGG
GGAGAGGGCACGAGGGAGACAGKAGGCCCTGGGCAAGAATCCAGTTGCGCTGGTTGTATTGACATGCATGGACTTGAGAGTTATCCTGAAACCCTATCCC
TCCTTATCTGTGATTTGGGAATCACGTTCTGGCCTGTGTGGGATCATTGCAAGGCCACAGTGAAATGATTTCTTGGTGAGACCTTCTCTGATCTTTCTAT
TTAAAACTGCAAACCTCCCTGTCCTCCTCCCTGCCTTCTTTTTCCCCGCTGTACTTACCGCCACCTGGCGTTCTATTGCTTTTACTTACTTCCTTGTTGT
CTGCCTGCCACACTGACAGGGATTTGGGCTGTTATGTTCAGCACCTAGAACAGCCCCTGGCATATTGTGGCTGCTCAATAAACAGTGTTCCAGCGAATGT
TGGTTGAATAACATATAGGGAAAGCCCTAGGCATAGAAGGTGTTTAGTCAARATCAGCTGGATCTTAGAGACATAGGGCAGACGCCTGAGAAAGGCTGGG
ACAGCTCACTTGGGGTGACGAGGTCTCCCATGAAAGCATTTGGGGTCTGGATTTCAGGGCRGTGCTGGTTTCCTCTCTGGCCACAGCCTGCAAGCAGCGA
GCCATATAGGAGAGGAAAGTTTGGCTGGGTGTGGGGCCTCACCCGGGAGTCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTGCTGGAGCTTAGGAGGT
TGAGAGTCTGGGCAACATAGCGAGACCTTGTCTCTACTAAAAATAAAATCACCAGCCGAACGTGGTGCTGTGCGCCGGTGGTCCCAGCTACTTGGTCTCT
TGCTGAGGCAAGAGGATCGTTTGAGCTCGGGAGGTTGAGGCTGCAGTGAGCTATGATCGTGTCACTGCACTTCAGCCTGAATGACAGAGCAAGACCCTGT
CTCAAAAAAAAAAGAAAGGAGAGTGAAGCTGGATGGGCCAAATACTGGGGCTTCTGAAGAAGTCAAGACCTTCAGGCAGACAGGAAGCTCATGACACTTA
GCTTTCTCGTTTTCTTTAGCTTTTTAAACCACTCTGACTGCTCCTGAGTGGAACAAACTCTCAAAGAAATGATAGCCTCAGCCCACTCCACTCCAATGAC
TAGGAGAAAAAGCAGTAGCACTGGGCCCAGGCAGATCTGGAGACATGGCTTGGCCCTGCCCCTGTTTAGCAGAGGGACCTAGGGCAAGTCACTTCACCTT
GCTGAGTCTCTACTTTCTCCTCTGAAATGGGTGTAGTGGTATTCTCCCTCCGAGGCCTTTTGTGTAAAACCTACTAGAAAGGTGAATTATAACCAGTCAT
TACCAAACTGAAGGGCCTGGAAGGCAGAGCTTGTACCTGCAAGTCCTGTCACAGGGCTGGCACACAATAGATGCATGGAACCTGGTGGTCAAAGGGTTGT
AAACTTCAATGGACAACAACYTGTCAGAAAGTGAGGATCTGAGTCCTGCAGGGCTATTAGACAAGTCCAGCCCCAAAACTTTCTGTAATTCTAGAAGTTT
ATAGATTCCAAGTAGAAAGTGACTTGTAGGAAGTTGGACTCTTACATTACCACATACTTGAAACTTGTCAGCTTTAGCTTGTTTGCAAGATTTTTCCTCT
GGCAGAAACAGCTGGCAGAATATGAATGACCTGATTTGGTTGCTCACAATCTAAAGCGCTGAGAAAAACTGGCTGAGCTGCAGTTCTGAGGTCAGACTCT
GTGTTCCAAGTAACAGAAAAGCCAAGACGCACAATGGGGAAATTAATTGGCTCATGTAGCCAGGATGTTCAGAGGAAGGCTTCAGGCATGGCTGCMTCTA
GGAGCCCAAGTGATGCTATCAAAGACTCAAGGTCTCTACCTTTCTCTAGTCCATCTCTGAGAGGTTGCTTCCTCTTCAGGCTATACAAAGTGCCCTTCCC
CACCACTTCACACCCTCATAACCCAGCARGCAGACAGAGTCTTCCAGCTGGAGCCAGTCAGGGTCCACCTGGAGCTGGAGGCGGGATCAGTCCCACCCAA
ACCAGGCTGAAAGGGGGAGGGTCACTTCCCAAGGAAACTTGGTGGTATTGTTAGGAAGGGGAAACAGACTCTGGGTGGCCAAAAATGACAGTAGATGTCC
ACTCCACTCACCAGAGGGAGTGCAGTGGAGAGCCGTAGAAACTTCTGCATTGTACCTTTTGATTTGCAAGGTTCCTTCCCTTTTTTTTTTTTTTTTTTTT
TTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTACAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCC
TTAGCCTCCTGAGTAGCTGGGATTATTGGCGCCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGAT
GGTCTTGATCTCCTGACCTTGTGATCYGCCCGCCTCGGCCTCCCAAAATGCTGGGATTAAAGGCGTGAGCCACCGTGCCCGGCCAGKTTCCTTCCCTTCT
AAGACGCTGATACTGGAGGCAGAATGGAGTTTATTATCCCTGCTCTACAGCCAAGGAAACAGCCCTTGAATATTCAGCGAGGACTCTGACTTGTAACCCT
GGGCTGCCCCCACTGATCTCAGCCTCTCTGTGCAAAATTATAAGCCCAGAGGAGCTGACCCAGGAGGGAGAGGCCAACGTGACTGAAGCCCCTCMCTTTG
TGGAGCGGGCACTCTGTCTAGATACAAGAGGCCCCCAGGAAGCTGCGATCAYGGGAAAGTACACAGGGAGCTGAGAGAGCAGCATGACATGAGGACCAGC
CACAGGGCAGCAGCCAGGCATGGCTTCCTGCAGCTCTCATTGCCAGAACCACCCCCCCCACCGCCATCCCCCTACACCCCAGCAGAGTGAGCTCATGCAG
CCCCACTGAGGCAGGGCTCCCTGTGCCTGGGATGGCTGAGGCACGAGCTCTGCCATTGGTGACCGAGGTTGTCCTGGCATGTGACTGAGATGGGGGTGGC
AYGTACACTGGACATGGAGCTGGACGGACCTGGCCTGAATCCCAGCGCTCCCACGTGGTTGCTTTGTGACCCTGAACCTCCCTCCTGTTCTGAGCCTTGG
TTTTTCCTCCTGAGCCGGAGCTGATCATTTGCACTTCACTGGAATTCGAAGACTGGGTGAAAAGCCCCCGGCGCGTAGTAGTTGCTCCATAGAGTTTCTC
CCTCTTCCTCTTTGGGTCCTGTTAGTAGCTATGTGACCTTGGCCCAGTTCCTTGACTTTTCTGTACACTGGGAGCAATGAGGGCGTTGGTGTGAGGACCA
GATGGCTTTGCGTGTAAAGTGCTTAGAGCAGTGCCCGGCACACTCGTGATCACTGTTACTTCTGGCTAACACCTATTGTTTAATGCGTACCAGGCCCTGG
GTCTTTCTCTCCTTGTTTATTGTCTCACTGAATTCTTGTTCCTCCAGTGACGTAGGCTCTCACCAGGATGGTCCCCATTTGACGGGTGAGGTGGTGTGCC
CAAGGTCAATGGGGGCCTGCTGAGCTGCATGCCCTTGGGTGGGACCTCACCTCCATAGGCCCCAGTTTCCTGTCTGGGGCTCTCGGCGTCAGCCCTGCCC
TACTATGTCCCAAGGTCGCCGCGGAGATCAAACGCAAAAGCCACCGGAGCCTTCTGTGGCCGGCTGGAGCGTCCTCTGGGAATGCGAGGAACGCTGTTAT
CTGGAGCCCAGCTGCCCTGAGCACTGTCTCTGGGAACACCCGCGTCCTTCCTCCTCTGATCTGAGCCCTCTGCGCCCGCCACCCAGGGATTCGGCTTGTG
CTGGCCGCTGCCCAGCAAGCTACAAGTTCATTGTCCCTTTTCCCACAGCCCGGCGCCTCCTCAGCCTCCTCTCACAGGGCCTGCGTGGGGCCATCTGCAC
AATGGACACATCCTCTGCTAGGGGGAGGGGAGTGGGGAGAGCCGGGATTGGCCAATGCCCTGTCTTGAGGATGAGTTGAAGGAGGGGATTATGGGTGGGG
GTGGCCAGGGTGCGCCCACCTGGCCRGGGGCAGAGCCAGGTCTTGAATGCCAGGTCTTGAATCTGGGATCCTCCCCTCCCTGCCACTGCAAGCCCCAAGT
GAGTTGCACTGCAGGGCTGGCTACAAGATACCGTGCAAAGATCAGAAGAGACTTGGACCCTAGATGTGACATTCTCTTGCTGTGTGACCTCTGGCAAGTC
ACCTCACCTCTCCTGTAAAGTTATGATTATAGGAAGCCCTCCCACTGGGAACCGTGGTGCAGATACAATGAAATAACATTTGGGAACAGARTGTAGTGAG
TGTGAATCAAATAGCAGCTGCACGCAATCCCTTCATCTGCAAAAGTATAATGTGTCTGTGTAATGTACATATTGCAGAGAGGGCAAATGGTGGTTTGTTT
CCAGTCTTGCCTCCTGTTTGAGGAGTTTATGCTTAGTCCTGGGAGACAGAAACATCCCCAAGTAAGGCTGAATTCTGGCTCGCTCACTTACTGGCTGTGT
GACCTTGGGCATGCTCCTTAATCTCTCTGTGCTTCTGTTTTGTCATCTGTAAAATGGGGATAATAATAGTGCTTACCTTGAAGGTTGTTGTGGGGATCAA
GTGAGTTAATATAGGTAAAGTGTTTAGAACAATGCCTGGCACATAATAAGGTCTATGAAAAGGTTTGTTATTATTAATCTTATGAATACGATGACAAAAT
ATGTAAAATAGGATTTTTCTAAAATAGTCTCAGTTTGAAATATTTTCATCAGTTGCCGCAAATCACTAATGTACGGAAGTCCAAGACATTGGCATCCAAG
CTGCGCCTTGAACACTGCCTTGCCTTTCCAGTAATTGCCCCCCAAATCCTCAGCTGGTTAGTGGGGAGACCTATCCCTGCCCCTGATGTGCTGTGTGACA
CTGGGGAGGTTGTGTACCCTCTCTGTGTCTTCCTTTTCTTTTTCCTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAG
TGGCACGATCACAGCTCATTGCAAGCTCCACCTCCCGAGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCCA
GCCCAGCTAATTTTTTGTATATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGTCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCACCTCTGCC
TCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCGCRCCCGGCCTGTGCCTTCCTTTTCTTGTTGTTTGTGAGAGCAAGGATGGGCCGGCCATGTCTCCT
AGTACCAGGGAGGCTCCCCCTGCAGAGGGCTGAGGGAAGTGCTGGAGGAGGTGGTTGGCGAACACCGCAGATGTAGTGCGTGCGCCACCCTCCCCCACCG
CTTTCTGTACTTGGCATCTAGGCTTGGCACAGAGTGAGGTGGCCTGGGGCAGAACATGTCCTTTCCATGGCATGGCAGAAGGCTGTGTGCCTGCAAAGCA
GCCATGCTCCGCCCCCGACCCCTGCCTGGGCACTGCAGGCCCCAGGCATGGTGTCTCTGGGCCCTGCTATCTCCCTCCCCTGCGATCTCCCTACTGCGCC
TCCCTGCTGCTTCTCTCCTGCCACYAGTCCTCTGGCTTCAGTCCTCTGCCCACAGAGTTGGTTTGGGGCATCATGACCGTCCTGGAGCCTCAGGGACCCC
CAGAGAAGCTTTGGCTTCTCTGAACCCAGACCCTCAGGGTTTCTGATTCCAGCTCTGCTGTGTGGCCTTGAGTAAGTGACAGTCAGAGCCTCACCCTCCT
CACCTGTAAAATGGAGCTGGCAATGGGGCATGTAGTGAGATGAGGCATGCAGAGGGCCTGCTCTCCACCAGGCCGTGCTTGGGGAGCAGAGCCCTTTGTG
GTGGGTCCAGGCTGCCCCTCTGTCCTGAATGCAAGCCGCCTGCTCGTGCCTTTCTCCCTGAACCCCAAACTCCACACATTCCTGCCTCCTTGCCTTTAAA
CACTCAGGTCCTGTTGGGAGTGTCCTCTCTCTCTCTCTGCTCATCTCAACCCCATCATCCTTCCAGCCTGGTGCTCGACCCACCCCCACGGACACTTCTG
GCCCATACCCTGTCCTAGACTTTCTCTCTCTCCCCTTCAAGATGGAAAGGAAGTGTCAGGCTACCTGGCAGGTTACTCCTTTCTTCCCAAGTGAGTGTGT
GAGGGAGAGAGAGATCTGGTTCTCTTTGGAGATGGGAGCCCTTTGACTGTAAGAATAGGACCTCTGCCGCTTAAGAACAGGCCCTTTGAAGGGAAAGTAC
TCAGCAGGCAGGTGAGCTTCTGGGTTCTAGAGTCTCAGAGCTGGAAGGACTGTCTGCAGCCATCCAGGTGAACAGGTCTCTGGGAAATCCCAAAGYAYAT
GGTGGCTTGATCGAGTGGGCGGGGAAGGGTCCATCCGTTCTCTGCTCCAGCCCCTCATCTGCCCCACTTGCCCATCTCTGCCCCGCAGTCCATCCACCTC
ATTTGCTCCCCCTCCCCATAACCCTAGCTCCTGACTGACATTCACTCAGCACCTACCACATCCCAGCCTCCGTTTTACACCCTTGTGTGTATGAAGGCAT
CCTTACAACAACGCAGTGGCTTCTATTAGGTGTGGAGGGGTGAGGTCACCTGCTCTGAGCTGCCCAGCTGGTGAGGGGCAGAGGCAGGATCAGAATCCAG
GCAGCCTGGCTCCAGCATCCATCTTCACTGCTGCTGAGCTGTCTCTTCAGCCACCCACCCTCTGACCCCATCATCCTTCCACCTAGCGACATTCCCTGGC
CACCCGGCCTGTGCCGGCCTCTGCCAGCCACGGGGCTGCTGCCATCAGCAGAGCAGGATTCCAGCTCCCTAGGAGCTCACCACGGTGAGAGGGTGACAAC
CTATGATTCTCTAAGGCTCTGATTAATTTCACCAAGGGCTTCATGGCACTGGGTKCTGGGAGCTTGGGGAGGAGCCGAAACTGCTGTCTGGGCTGGGGTA
GGGTAGGGAGAGGGCAGGGGGAGGGATTCATTGGTTGGACAGCATGGGACATTCTAGTCTGGGAAGCACAGAGTGCAGAGGTGTTGAGGCTGGGAGCGCT
CAGGGGACAGCTGGGTTCTCATCAAAGCCCTAAAGATGCAGTGGCTTGGCACCAGGCCTCTGGGGTACTTCCACGTCTGTTTCCTGCCAGGATGGGGTGC
TGTCAATGGCTAGAAGTCTGAGCCTTACTATAATCCCCAGCACTGGCCCACTGCCCTCTAGGGAAGTCCTTCCTTGGATCTGACCTGCAGCCCACTCTGA
AACCACCACACATTCCTGCRCAAGCACTTCATCCAGCTCTTCATGACAGCCATAAATAACTTCCTCCAGTAATGAATACAGTCCTGGCCAGCAAGGCTTG
CCAGAGATGCTGGGCTTGGCGGAGAGAGGAATTCCATGTCCCTTCCCTATGACTCTGCAGCTGAAATGTTACTGGGCTGGTCTTCAGCAGGGCTCCCTCC
CTAGGCAGCTATGCAGGTGCCCCCCAGCCCCTGCCTCATTCCTCATGCCCACCAGGGACACAAGGGCAACTCAGCACTCCTCTCTAGCCACAGCTCCTTG
GAAGAGCCCAGAAGGCCCAGCTGACAGGCTAGGGGATGCTGGCTCCAAGCTGACTCAGTTCCCTATGTGTGCCTCTGGTGGGGAGCAGCTGAGAGATGCA
GGGTCTGCTTATAGTGGTTCCTCTCACCGGGCAAGGCTTTCCTCCTCTTTAGGCCTCAGTCTTCCCATTTGGACAATGGGATGATCTCTAAGACAAAGTT
TCCCAAATGAATCTGCTCAGAAAATGACTTGTTAAAAATATAGCTTCCAGCCAGGCGCAGTGGCTCACGCCTGTAATCCCGGTGCTTTGGGAGGCCGAGG
CGGGCGGATCACGTGAGGCCAGGAGTTCAAGATCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAACAAAAATTAGCCGGGCATGGTGGTGGG
CCTGCAATCCCAGCTACTAGGGAGGCTAAGGCATGAGAATCGCTTGAACTCTGAAGGCGGAGGTTGCAGTGAGCCGAGATTGCGCTACTGCACTCCAGCT
TGGGTGACAGAGCAAGACTCCATCCCCCCAATCCCCCCACCAAAAAAATACAGCTTCCAGCTGGGCACAGCGGCTTATACCTGTAATCCAAGCATTTTGG
GAGGCTGAGGCAGGAGGATCACTTGAACCCAGGAGTTCGAGACTAGCCTGGGCAGCATAGTGAGACCCCACCTCTATTTTAAAAATGTAAACATTAACCA
AATGTGGTAATGTGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGGATCGCTTAAGGCTGCAGTGAACTATGATCGTGCCACTGCACTCCAG
CCTGGGCGACAGAGTAAGACCCTGTCTCAAAACAAAAAATAAAAAAACAGCTTCCCAGGCCCTGACCTGGGAGATTCTGACCGAGTAGGTCTGGAATAGG
AGAAGTAGGAATTTATTTAGGGGGCTGTTATGTCTTTCTAATCTGTCCTTTTAAACTTGCATATAGTCACATCCCTCCACTAAACCCTTTTTTTCCCCAA
CACTCCCTTTATTGAAATCTCATCAGCTCCTCCCCAAAAACCTCACGATATAGACAGGGTAGGGACGATTAGCCCCTCGACAACTTTTCACAAATATACA
CACGTTTAACTACTTCTCAGGTCATGATAAAGACCGGCCGGGCAGAAACACTGTAATCCCAGCTACTCGGGAGCCTGAGGCATGAGAATCACTTGAACCT
GGGAGGTGGAGGTTGCCATGAGCCGAGATCACGCCATTGCACTACAGCCTTGGCGACAAGAGTGAAACTCCATCTGAAAAAAAACAAAACAAAACATTTC
CATTGCCCCAGGAAGTTCCTTCATGCACCGCCTAGTCAATCCTCCTCCCAAGGTAACCACTTGGGAATAAGACTTTTTCCATAAGCACCTCAAGTGATTT
TTGTGGCTCGGGGCATTTGGGAAATCGCAAAAGACCTTCCCAGCCTGGACAGTCTGGGGCTGCGTGCTCTAGACCGGGGGCTCCCTAAGGGCAAATACCT
GACCCTGTGAGTCCTGCCAGGTACAAGCTGGGGCATACCAGCTGATGCTCCCTGGAGGCACATCAGTTTATTAGGCTGCTTGGTAGAGCCTTGGAGGGTG
TCCTTGGAGCAGGCCTGGGAGCTGGGTGGGCTTGGATGGGGAAGGCCCCCGGCTGAGCTGAGGTGGAGAGAGCTTGGCACAGGGGTGTCCCTGGGTAGGT
CCCACATGGAGGCCTGTGCAGGGCCTGGCCCAGTACCTGCCATCGATGTGACCTCTTCACCATGGCCAAGTGGACCTCCATTTTCTCACCTGTAAAGGGG
GACAGCTCTGTCTCACTCTCAGGGTTGTTAATGAGGACACAGCAGGTCAGGTGTGTCACAGTCAGCACCTGGTGCACCGTAGTTCTTGAATGGGAAACCA
ATGTTAGACGCCAAAGGAAACAGTTTCGGAGGTGCAGGGACTGACCCAGCAACACACACCTGGGAAGTGGTGGAGCTTGGGCTTGGATCAGATTTGCTGG
CTGTGTGACAGCTCACCCAGTGACTTCATTGCTAGGCCTTGGTTTCAAAATGTGGTGACTGAGAGTGGTGCTAAGGCCCTAAGTTTGGGTCACACTCTCA
CCTAAGTGAGAACCTGACCAAAAAGGGGGAATTTTAAAACAAAATTATGAGCTGGGCGTGGTAGCTCACACCTGTAATCCTAGCACTTTGGGAGGCCGAG
GCATGTGGATTGCCTGAGCTCAGGAGTTCAAGAATAGCCTGGGCAACATGGTGAAACCCCGTCTCTACTAAAAAATACAAAAAAATCAGCTGGGCATGGT
GGCATGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCACGAGAATTGCTTGAACCTGGAAGGCGGAGGTTGCAGTGAGCTAAGACCGTGCCACTGCA
TGCCAGCCTGGGCGACAAAGTGAAACTGTCTCAAAACAAAAACAAAATTATGAGAGGCTGTTGTTTTGGACTAAATGCATACACTAGGCCCCAAGAGACC
AGACGAAACCTAAATAGAGTCACTTGTGCTAAATGTGATATCATCAAACTAAAACTTTAAAAAGAACACATAAATGCTAAAACCAGGTTTTGTTTTGTTT
TTTTTTCTTGTAAACAGGACATTCCAACATTAAAAAAAATACCCTCTAACCCTTAAAAAAAATAACCTAAAGTCTTTATTCCCACCTTACAAAACCCACT
GTCCTACTGTTTCCCAGTGGGTTTCGAGACCAAATAAGTACATTTACAATGGTGATAGTGACATCAGTGACTCGTTTTGGTCAATGTCTCAAAATTTAAA
AAATAACTAAAAGAAGGGAATTATTAAATCAAATCTAGCCTAATGCTGCCTTCTTACATATTTTAAGTTCAGCCTAGCAGTTTCTCTACATTGTAAACTA
TAAGAAATAGAGGTGTAAACAGACTATAGCCTACACTTGTGCCAATCACCAAGTTTTGGGGGTTTTTTTGYTTTTGTTTTTGTTTTTGTTTTTTTTTAAG
ACAGAGTCTCACTCTGTCGCCCAGGCTGGAGTACAGCATTGTAATCTCAGCTCACTACAACCTCCGCCACCCGGGTTCAAGCGATTCTCCTGCCTCAGCC
ACCCAAGTAGCTAGGATTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCATCATGTTGGCCAGGCCGGTCTCG
AACTCCTGACCTCAGGTGATCCACCCTCCTCAGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACCATGCCCAGCCACCAATTACCAAGTTTTAGCC
AATCAAATGTCGCCAACTGTTCAAACCGTGTTCAAATGACAAGTGCTAAGCTGTAACCAATCTGACTGCACCTCACTTTCCTTTTCTGTTCATAAATCTT
CTTCTACTAAGTGGCTGCGCTGGTTCCTACTCCGGCTCAGGAGGCTGCCTAATTTGCAGATCGTTCATTGCTCAATTAAACTCTTTTAAATTTATTTTTT
TATATTTTATTTTATTTTATTTTGAGACAGAGTCTCGCTCTGTTGCCAGGCTGGAGTACAGTGGCACGATCTCAGCTCACTGCAACCTCTAACTCTCTAR
TTCAAGCGATTATCCTGCCTCAGCCTCCCGAGTAGCTGGGATTATAGGCACACACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGACACGGGGTTT
CATCATGTTGGCCAGGATGGTCTCGATTTCCTGACCTCGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCAATTCTTTTAAATTTAAT
TCAGCTGAAGTTTTTCTTTTATCAATAGGGCTAATAATCCCCACCCTGCCAGTATCACTAGGATGTTGTGAGGATCTGACGCAATTTGAGTTACGGGAAT
GTTGAGAAAGAAAAGGGCGTAATGGAGTAACGAGATTAGTTTTCCTGTTATGGTGAGGTCAGTGGCCTTTCTGGGGTCAAGAAGAGGGGACTTTCCTTGG
CACCAAGAGGGTAAAAGTGTCTCCTCCTGACCTTGGGTATTTTGGACCATGGGATCTGAGGTGTACCAGGAGACAGGAAGTGTGATCAGAAAAGGCCTGG
TCTAATGGTGCACAGCTGTGCATATCCAAGTGGCTTGACCTCTCTGGGCCGTTTCTGAATCTGTGAGATGGGAATCATAACCACTCTCCTGACTTCACAG
GATGTTTTAGGAGAGATTGGATCTGGGTTGGGGAGACAATTTTGGAAGCAGAAAAGGCCCCTCCGTGCTGGCAACAGCTCGTCCACCTCCAGCCTGTGTG
TGCTGCCTCCTGGGTGACTGCTGGCTTTAGGCCAGCGCCTGGCAGGGCTTCACTAAAGCCTCCGTAGGCTGCTGCTATCTCAGTTCTGAGGTACGGGCCG
TGGAGACCCCCAGATTTGGGCTTAAATCCCAACTCCACCATTGCACCTCTGAGCCTCTGTTTCTCTGCAAATGGGGATACTAGTCCCTAGCCCAGATGGG
GCCTGGTACACAGTTGGTGCTCAATAAGAGCAGTTCGTCTTCTTCTGAGCATGGGTGCATCCCTCTGGCTGGGGTAAGCACCAACTCAGATTTCTAGGCC
CATAGATGGGCTGGAACAGCTGCTGCTGTTAGGGGAAAACCTACTGTGTTACTAGCCAAGGGGTTCCCTTCCATGTTTTTGCCCCACAGGGCACCTGGCA
CAATGTCTAGCATACAGTAGGTGCTTTGTCCACACTGGCTGGTCAGTTACCTCCAAGCTGACAGAAACTCTGTCCCGTTCCCGACTGTTTCCATAGAACC
TAGCACAGAGATACTCAGCAGGTGCTCTGTAGGTGTTTGGGAGTGAGGAATGAATGAACAAAGTTGAATGAASAAGCATCGGGCCCTCCCCCGGGGCTCA
AATGGGAGAGAGGAGCTTCGTAGCCTGCTCCCCCTCCCACCCCAGCACCCCGTTTCATCCCTTCTGACTAATCCACAAAGATTAACCCAGGGATAAAGCG
GGTCACGGCCACTGACCCAGGGCTTTGGAGCTAGTGTGACCGAGTGTGTGCAGGGCGTGGTGGCTGCTCCCAGGGGCCCTCTTTGCCCCAAGATGGCCCT
CCTGTCCCCCATCCTGGATGTGGTCCTCACGGTGGCCCTCAGCCTCCTCCTCCTGGGGCTGATCCTGGGCCTCCTTTGTTTCTTCACTTGCCGCCTGGCC
AGGCCGCTCAGGTAGGGGAACTCAGCTGGCCTGACTCSCCCTGCATCCCGCCAAATTCCCYGCCCTAAGCTCGTTCAGCTTCCATTTGTTCTCGTGAGAT
GGAGCAAGMGGGGCACTCATTTCTCTTACTCTTCATGGTGGGGAAACCAAGGCCCGGAGAGGTTGAGCCCTGGCGTCAGCCTRGGCTTAAATGGCGCATA
GTCGAAGACTAGCCAAACCCTCTGTTGGGTTTCCTAAGCTACAAAACGGGGGCTCTTCATCCATATTGTGAGATCAGGGATGTAAACAGCATGGGGCTGA
GTGGAACATGAGGGCCTAAGAAATGGTAGTGACACGTTTGTCCCATTCTTCTATCATTTGCCCCAGATCTTCTGAGACCCAGCCCAAGGCTGGCTTTTTG
CCCCACTCCAGGATGCTCCCGGGCCCTCTGCCTGGGTTGCTGAATCAGTCCTCAGAGCTAAGGCCTGCCTGGCTCCTCAGCCCCCTGCACTGAACTGCCA
AGTAGCTGCTCCTCTGGCGCCACAGCCTAGCCGGGGCTTCTGCACTGGCCATGCGTAATCAGGCTACGGAGGAGCCGGGAGCCTGGCAGAGAAGGGAGGG
AGGGGGTGGCGATGGGGCTGACACACACCCGGAGGCCCCATTTTAAGCTGGCAGACATTGGCAGAGGGTGGTGGGCAGCCGGGGCCCCCACAGCCCCAAA
CTGGGCCCCTCCGCTTCCAGGGCTGCCACAGAGCAGCCAGGAGCCTCTGCGAGGGGGAGGGGTCCTAGGGGTGGGGCCAGCAGGGAGGCTCTGGGTTCTG
AAGGCTTTCCCAGGTCCCCACCCTCTCCTTGTCCTGAGYGGAGGCTATGGGAGAAGGCACCTGCCTCCAGGCCAAGCCTATCTCAATGCCTATCCCTGGG
GCCAAAATTCAGAGCATCCCAGCCTGAACTGGTGGCACTTATGGAACTGCTACCATGTGCAAGGGCTCGGGATGCAGAGATGGGTAAGATGWTGGTCTTT
ACGTTCACAGAGCTTCAGGCTAGCAGGGAGGAGAGACAGACCAATAACCGGAAGAATAATCATGTGGGGCTGGATGAGCCTTTCAGTGCTCCYGGGTCAC
TACACTTTTATTTTTCTTTATTCGCTCACCTGTTTTGGACCCTCAGTGCAGAGAGAGTGGGATACGTTATCTCACTTAGCACATGACATACCCAAATAAG
CTCTCAGTTCTTGTTTTGTTTATTCATTTTTTCCTTTGTCCCTGCTCCCTGCCTCCCCACTGCCATTCCCACAGCTCACCGAAGTCCCTATGCTAATGTA
CTTAATATGGCCTTGGAGTTGTAAGTGTCCTTGTACGTTACACAGCATTCTGTCCGTGGGGGTGGTTTGCACTTACATACACTGCRTTTGATTCTTTACA
TTCATCACTCAGTCCTCTGCCTTTAGACCCCACCACGCTGCTGTTTGGACATCTAGTTTTAATACCACTGCCACGCAGACATTGCCTCCACCACTCCTTA
CTAATTCATTTCCCTAGTTGTGGACGAGACTGCCCCGGCTCCTCACCATCATAAGCCAGTGTTAAAAGGAGTTTGCCAAAGCTTTCTCCAGCGAGTATGA
TGGTTTCTGCAGGTTCTTGGCATAAAGCCTTTATCAGATTAAGGAAATTCTTTTCAATACCTGGTTTGCTGAGGGCTTCTGTCACATCGTTTTCTGTGAC
CCCATTCCCTCTCCCTAGGTGAGCACGTCAAGTTTGATCAGGGTGTTAACTGCCACCCCTGTGCCTATGATTCCCAAATTTATACTCTAACCCAGACTTC
TTTTTCAAATGCCAGAGCCAAATATTCAGCTGCCTCCTTAGTGTCTCCACTTCTAAAAGACATCTCCAACTCAACATATCCAAAAACAAGTTCCTGATTG
TCTCCACCTCAYGCCTCAAAAGACCACCCCAAACGCCGAAAGGCTGAATGCTTTTTTCTTTTTCTTTTTTTTTTTTTTCTGAGATGGAGTCTCACTCTGT
TGCCCAGGCTGGACTGCAGTGATGCGATCTCAGCTCACTGCAAACTCTGCTTCCTGGGTTCAAGTGATTCTCCTRCCTCAGCCTCTCAGGTAGCTGGGAC
TACAGGTGCACACCACCATGCCCAGCTAATTTTTGTAGAGAGAGTTTCACCATGTTGGCCAGGCTGGTCTCAAACACCTGACCTTAAGGGATCCACCCGC
CTCAGCCTCTCAAAGTGCTGGGATTACAGGTGTGAGCCATCGCACTTGGCTCGGTAGTATATGGCTCAGAAACATTGCCATTTACAATAGTTCCCCAAAA
AGCAAAATTCTTAGGTATAAATCTGGATTCAGAGTCCAGAATGCTAACCATTACACGATGGAACCCGTAGGTATAAATCTAAGAAAACATATCCAAGATC
TACAGGCTGAAGACTACAGAGTGCTGATAAAACCGAAGAACTCTGACTGAATGAGTGGAGAGACGTGGTGTCTTCATGACTGGGCAAYTCCATGTGGTAT
AGACGTAAACCCTCCCACATTGATCTGTGGATTTAATACCATACCTATCAAAAACACAGTGGTGGAGGACAGATCAGGGATCGCCAGGTTTAGGGATGGG
GGGATTGTGTAACTATAAAGAACGCAAGAGAGATTTTTGGGGTGGCAGAGCTGTTCTGGGTCCTGACGGTGGCGGTGGTGGTTACATAAATCTATCCATG
TGTCAAACGTCAGAACACTCATTTTACACTTGGGGGCAACAGAAATCCCTCCCTCTGGAGGGGGTGACTGATGGTAACCTGATTGCTAATTCTGGAATCA
GGAGCCCTGTGGTCAGGTTTCTGCTCTGCAACTTCCTGTTGGTAACCTTGGGCAAGTCTCCGTCCAGAGCCTTGGTTTTCTCATCTGTAAAAGGAGATGA
TAGGTCCTTTTCTGTCCACTGCATAGCTGATTAGTGAAACATCATGGTGAAATTCTTTATGAACTATGGAGTGCAGCACATAGACTTGCTTTCATTTTGT
CAGTATCCTTTATAGATTGTTCATGTAAGCTCCCAAAGAGTAGTATTTATTTTATTGAAATAAAATGCAYGTAGAGAAAAATGTGTGTATCATACATTGA
CAGCTGAACCCACCGTGTAACCAGCACCCACCCACCCAGATCAATCATAAACCGAACCGCACCAGCACCCCAGCAGCCCGTTCCCGTTTCCGTACCCTCC
ACGTGGAGCCTCCGTTCTGTCTCCCAACGCCCTGGGTTAGTTTTTATACTTTCTGTCATCGGAATCACACTGTAAGTGCTCTTGGGTTTAGCTTCCTTTG
CTCAAGCTTACCTTGTGCGATTCATTCATGTTGTTGTGAGGAGCTGTGGATCATCCATTCTCCTTGCTGTCTGTGGTGGTTTCTGTGTTGTGAACACACA
CAATGTATTATCCAGCCTGCCGTAGATGGAGGCAGTTTTGAAGCCATTATAAACAGGGCTGATGTGCACATTCTGCTGGAGAGAAACGGGTCCCAGGGTA
CAGGTAGGATGATCAGCTTCGGTAGATCCTGCCGGTTTTCCCATGCGCTGTGCCTGTCTGCACTCCACCAACGGCGAGCGGACCTTCCGGTAGTTAAACA
TCTTCACGAACTCTTGGACTTTCCTGCACACACAGAGAAGATAATTTTGGATGGCTCTTCCCTTCCCCCCACAACCTTCCTTAGGGCACTGGCTTTCAAC
TGATGTAAATATTTACTATGCCAAGCACTAGGAGGGCAGAGACAAACAAGACAAAGTCCTCACACTTAGAAACTCCCGGTGTGGCAGCTGAGATGGCCCA
GGAAAGAACTATATTACCTTCAAAAAGAGAGGTACATGCGATGTTTGAGGTGGCATGAAGCTCAGTGGTGTTATATTGGAATGAGTGAGTGACCATCCTG
GAGCCTTCCTGAAAGAGGTGACTTCATTTTTAAGTGATTTTAAATAATAGTTTAATGAATTAGTATTTCGTATTCAGTTAATAACATTTTTCTGATTTTA
GGATTTGCTATAGAAATATTTGGAAACCGTAAAGTAGAACAAAAAAAAAATGTAGGAATCATCTGAAATTCCAAATTCTACCACTCACAGTTAAGTGTTG
TTAGATGTTAGATGTGGGATATTGCCTTTTAATTTCCACTCTGCGCCGCTACCCCCAGCCCCTACCCCAGAGCCGTCACTTCTGGCACTGGAGCGCAGCT
TGCGTGGTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCG
CCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCTACCTCTCCCGGCTAATTTTTTGTATTTTTAGTAGA
GACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACTTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
CCGCGCCCGGCCATTTGCGTGTTTTTAAGGTTGAATCAAGATCCTTCTTCTGGTGGTAGTGGTTTCTTTTTCTCCCTTCCCTTCCCTTCCCTTTCCTCCC
CTCCCCTCCCCTCCGCTGCCTCTTCCCTCCCCGCCCGGCCCGGCGCGGGCGGGGGCGTTGCCTTCCCTCCCCTCCCCTCCCCTCCCTCCTTCCTTTTCTC
CTTTTCTTTTTCTCTATTTTTAAATTAAAAAAAAAAATCTTGGATGGGCGCGGCAGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAG
ATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGACCCCATCTCTACTAAAAATACAAAATTGGCCGGGCATGGTGGCGCAAGCCTGTAAT
CCCAGCCACTCGGGAGGCTGAGGCAGGAAAATTGCTTGAACCCGGGGGGCGGAGGTTGCAGTGAGCCGAGGTTGTGCCATTGCACTCCAGCCTGGGCAAC
AAGAACAAAACTCCGTCTCAAAAAAAAAAAAAAGAAAAAGAAAAAATCTTTTTCCTTTGAGCTGGAGCTGCAAAGAGAAGAATTTTTAAAAAGAAAAGAA
ACTTTTAAAAAATTAAAATACAAAAATTTTTCTTAGAGACAGGGTCTCGCTGTGTTGCCCAGGCTGGTCTCCAACTCCAGGCCTGAAGCGAACTTCCTCC
AGCCTCAGCTTCCCAAGTAGCTGGGATTACAGGCATGTTACCACCATGCCTGGCTTTTTTTCTTTAAACAACTTTTAAAAAATGTTTTATTTTGTTTTTA
CTTAACATATAATAATTGGACTAGAGTGGTGTCTTATCTGTCACAACACTTTTCTAACGGTAGAGTGTGTATTACTGCTGTTTCCCACAACAAATGGTGT
CATATCTTGGTTTTGGCTGAAGCAATAACATTTCCCAGTGAAACTCTTGCCACTTAAAATTCTTTGTCTTGTAACTCATGTGCAACAGGGTTAGTACATT
TCTCAGCTGCCAGTGGGGTTGTTCTTTGTGATTTAACAGGAAGACCACAGTGTAAAAACATTCTTATGCCATTAATACATGCTTGTTTTAGGCTACTTGG
AAAATTCAAAAAAATAAAAAAAAGAGGAAATAATCATTCATAGTCCTACCACCCAGAGAAAACCACAGTTAATGTTTTGGTGTATTTCCTTCCAGTTTTT
TTTTTCCACCTAAACTCTTCAATTACATCCGACTTTAAATATATATATATTTTTTAAAAATTGTAAAGATAATACTGTATCTCAGCACAAAAGAAAATTT
TGGAAATGCAGAAAAGACAATGGAAAAGAAAAATCAGTTGTCTGTGATGTCACCACCCAGAAATGGCCACACTTACCAGCCAGTTTTTTCACATATGTGA
CTCCTACCATTTTTATATCTCTTACCATAAACGACAAGCTCTAGAAGAGAATGTAGCAAATGTAGGGGTCCTGAAAGAAGGGGTGCACTCTGTTTTGTCC
CTGATGTTCCTGGGACACAGGTAATTAAAAGGCTGAAGACCGAGTGCTGTAGAACAGGGCTTCTCAAGGTGTGGTCCGCAAAGCAGCAAAGCAGCAGCTT
CTCCTGGGAGCTTATTAGAARTACAATCGGAGCCTCACCAGTGGGCCGGGAATCTGTTGTAACAAGCCCTTGGGGGATTCAGATGCTTGCTCTCCTTACA
GTTTGAGAAACACTGCACCAAAAGATTGGACTCTGGGAGGTAGGGGGCTTCAGATGAATTGAAAGTGGAAATTCACTTAGGAAATGGGACGGAACTGCTT
TGCAGCATGGAACTCATTGACACTGACACAGCTGTTTGTGTGGTTAAGCTTCCTGAGACAGGGACCAGCTGGGTTTGGCATCCCAATGTTGAGCCCCATG
CCTGGTCTGTAATAGGTGCTCACCGAATACTTGTTGAATGAATCAAGGAATGAATAAGTGAGTGAAAAAGGATCTCTAGAGCTGTGCCCCACATGCCTCT
TTTTCTCTTTTTTTAATTTCTAGGATTGGAACATCAGTTAACATCTGACCACTGCCAGCCCACCCCCTCCCACCCACGTCGATTGCATCTCTGGGCTCCA
GGGATAAAGCAGGTCTTGGGGTGCACCATGATTTCACCATTCTTAGTACTGGCCATTGGCACCTGCCTTACTAACTCCTTAGTGCCAGGTATGCTTGGGG
ACACAGGTGGAGGCATAAAAAGGTGGTGCAGATGGGGTATGATGAGGGCAGTGTCTATGTTTTAAGGTCCCAGAACCATCCAAAGTATTTAAGAGCTGAA
AACAGTGTWCAGAGCAGGAAACCTCAGCCCTGCTACTTGCATGTGTTAGTTGGATAGGTCACTCTTTTCCCATATATATATATATATATACACACATACA
CATATATGAAATATATATATACAAGGAAAATATATATATACAAGGAAATATATATTTTCCACATATATATTTTTCCATATATATATTTCATATATATATT
TTTCCATATATATATTTCATATATATTATATATATTCTTTCTTAATTTTTTTTTTTTTGAGACAGGGTTTCGCTCTGTTGCCCAAGCTAGAGTGCAGTGG
CGCCATCTTGGCTCACTGCAAGCTCTGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCCGCCACCGCGCC
AGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCTGCCTCGGCCTCCCA
AAGTGCTGGGATTACAGGCGTGAGCCACCGCBCCTGGCCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCT
CTCTTTCTTTCTTTTTCTTTCTTTCTTTCTTTCTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTTTCTTTCCTTTCTTTCCTTTCTTTTCTCTCGCATCC
GAGTGAAGAGACCACCAAACAGGCTTTGAGTGAGCAACAAGGCTGTTTATTTCACCTGGGTGCAGGCGGGCTAAGTCCAAAAAGAGAGTCAGCCAAGGGA
GATATGGGTGGGGCCGTTTTATAAGATAGGGGTAGGTAAAGGAAAAATTACAGTCAAAGGGGGGTTCTCTGGCGGGCAGGAGTGGGGGTCACAAGGTGCT
CAGTGGGGGAGCTTTTTGAGCCAGGATGAGCCAGGAGAAGGAATTTCACAAGGTAATGTCGTCAGTTAAGGCAAGGACCGGCCATTTTCACTTCTTTTGT
GGTGGAATGTCATCAGTTAAGGTAGGAACAGACCATTTAAATTTCACTTCTTTTGTGATTCTTCAGTTACTTCAGGCCGTCTGGATGTATATGTGCAGGT
CACAGGGGATATGATGGCTTAGCTTGGGCTCAGACGCCTGACACTTTCTTTTTGAGACAGAGACAGACTCTCACTCTGTTTGCCCAGGATGGAGTGCAGT
GACGTGATCTCAGCTCACTGCAACCTTCGCCACCCAGGTTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCRTGCGCCGCAACA
CCYGGCTAATTTTTTGTATTCTTATTAGAGACGGGGTTTCATCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCAAGTGATCCACCCGCCTTGGCCT
CCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCAGCCTTTTTCTTGTCATTTGTAGTTCTCACTAGTGAACTCATCTTCAACAGGAGTTTTTTG
TTTTTCTTTTTTTTGAGACAGTGTCTCTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAAGCTCCATCTCCCGGGTTCACGCC
ATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCCGCCACCACGCGCAGCTAATTTTTTTGTACTTTTAGTAGAGACGGGGTTTCACCAT
GTTAGCCAGGATGGTCTCGATCTCCTGACCTCAGGTGATCCGCCTGCCTTGGCCTCCTAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCGGCCGA
GTTTTTTGTTTTTCTGTTGGAGATTCACGCGGAAGTGTTTCCACAGCATGGCATGGTGTTTTCAGGACACTAGGGGTTCAACTAATTCTAGGCCAGTTTT
TATGTTGATTTCTTGGTTTACAATTCTTATACTATAAATTCAGATCCCCACTTAGACCTGGCTCAGATTTGACTTGAATTCACATTTCTTATGAATGACT
GTCTTTCTCTATCCCTTCCATAGCTCCAAGGCAAAATGTGTACCTTAAAACARCTTCAGCAGACCTGGTGTGGTGGCTTTAGCAGGCCTGGTATGGTGGC
TCACGCCTGTAATCCCAGTGCGTTGGGAGGCTGAGGTGGGAGGATCGCTTGAGTCCAGGAGTTTGAGGACAGCCTGGGCAACATAGTGAGACCTCCATCT
CTAGAAACAAACAAACAATTAGCTGGGCATAGTGCTGCATGCTTGTAGTCCTAGCTACTTGGGAGGCTAAGGTGGGAGAATCACTTGAGCCCAGGATTTC
AAGATTACGGTGAGCTATAATCAAACCACTCCAGTCTGGGTGACAGAGTAAGACTCTGTCTCATAAAAAGAAACCAGCTTCTGGCCGGGAATGGTGGCTC
ACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTAGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTATCCAACATGGCAAAAACTCCTCTCTA
CTAAAAATACAAAAATTAGCTGGGCATGGTGGCGCACTCCTGTAATGCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAG
GTTGCAGTGAGCTGAGATTGCGCCACTGTACTTCAGCCTGGGCAACAGAGCAAGACTCCATCTCAAAAAAGAAAAGAAACCAGCTTCAGCCTGAACCTGT
ACCTGGCTTGCCGTCGCAGGCGTTCCTCTCTGCATCAGCTCCTGTGGGCCCCTCTGGTTTTAGATTCCCTCATCAATGCTGCCTCCTGAGGATTTTCCTT
CCCCCTTTTCTTCCTTTTTCAAGCTATGTGCTATTTTTTTTTCCCCAGCATTTCTGTATCTGGAGCTGGAGAAGAGAGCCTTCCTCGGCTCAGTCCATTA
TGTGGCTAGAAGTCCCCACTTGCCTTCCCCACACTCCAGTGTCTCCATCTGTCCAGTGGGGATGAGTTCCTCCCGCTTAGGGTCATCATGGGAATCACAT
GGGATAGTCACAGTGTCTGGCAAGGAGTGGATGCTCAGTGAATGTTGGTCTCTTCTCTTAGGACGGCTGTATTTCAGCAGATGAGGAGATGGGGTGCAGT
GGGGCACTGAGCCTGAGCTGCTGAGCTCTCAGGCCATTGCTGCGTCTGAGACCTCGTGGTGCCATTTGCATCCCTGGGGGACCAAGGTCACTCTGGGACG
GGGTCCCTGCCTTCTCAGCACTTACAGCCCACCTGGGTGAAAGATGAACTAATGGATGAAAAGGGAAAAGGTGAAAAAGTGACAACATGAAAAATCTTCA
AACGTTCAGCAGTTCAACTTTTTGTATCTGCTGTTGCCAGGCTGGAGTGCAGTGGCACAATCATGGCTTACTGTAGCCTCAAACTCCTGGCCTCAAGCAG
TCCTCCCACCATGGCCTCCAAAAGTGCTGGGATTACAGGATGAGCCACTTCTTCAGCCTTCTTTTTTTTCTTCAATTAGATATAACTTACAGAAAAGGGC
ACCGATCTTAAATACATAGCCTGAAAAAATTTTGACATATATTTATACCCRTGTAACCGCCACCCAGATCAAGACAGAACATTTCTGGTTGTGAGGCATC
TGTGGGCTTCCCTGTGCCAACCCCCTCCCAAAGCCAGAGGAGATGCCCAGGCTTACATTGGCCACCAGAGACTTGCTTTGCCTGTTTTGAGCCTCATATA
AATGGAATCATATAGTATGTACCGATCAGTGCCCTTTCCCYGGCATTCTATCGTGAGCATTAGCACATATCATTTAGTAGTCTCCAAAAACAATAGCCTC
TTGGAATCCAGTTGTCCAGAGCCATTGTTGCTTAAACCAGACTCCAAACCCTTCTCAGGGACAGGCCCTGGGTGGCTCTGGTGAAAAAGACAAGGACTCT
GCCCTTGTGGGACTCCAGTCTAGAGAGAACAAGCACTCAACGGAGCAGGGGACCCGGTGGCAGAGGCTGGGCTGAACAAGGGCAACAGGTGTGGGGCGGG
CTGATGTCAGCCCAGCCCTGGGACCTCCAAGCTGTTAAGTCAGGTACAGGTTGTAGCGGGTCAGGGTGGGTAGAAGGTCTTCACCACCCAGTGGCACCCA
ACTGGCCAAAGAGGCTCTATGACCAACAGCACCGTGGTGTGTTTTGAGGAAGGCAGGAGGGAGGCTGGAACCAGCCTGGGCCTGGGGGACCTCTGAGGAA
AACCTCTGGCCCCGGCCTTGCCCAGACTTTATCTCATGTCATCCTAGAACTGCCTGTGGATAGCTACGGGTGTCCCATTTCCTGGGGCAGAAACTCTTGT
CCAAAGGCACCCTGTCGGGCAGAAGGGCCAAGGTGCTCCCAATTCCCAGTGGGKACTGCGTGGGGACATCTGAAATTGATGCCCTCAGCAGACACTTCCA
GAAGAGAGAGGGTGGACCTGGGGCTGTYGGGATGAGGGTAGTGGGCTGAGGGATTGGGGTGGTGGTGACGTAAGGGGAGGCCTCTTGGGGAGGGGCGTGG
GGTGTGCTTGGGTCCAAAGCTAGAGGTGCACTGCAGCACCCTGGCGGCTCCTCGCCTGTGCTCTGCGCCTATGCTAGGCTGGGGCAGAGCCACGGCGACG
CGTGAGTTTCCGGTTCTCCCACTTGGGGCCCTAATCTCAGGCTCTCCATTTCCTAATGTGGAGGAGACACTGGTGCCCACCTGCCAAGGCAGTTGAGAGG
AATAAGAGAAGCTGTGTGGGGGGTCCCTGGCATCTCGCCCAGAGCCAGTGCGTGTGTGAGGAAGGAGGGCTGTTCTTTACCCACGGCCACTCCGAGAGCC
AGGCACGCGTCGGAGCTGGGCCAAAAGATGAGAATTGTGTCCCCAGCCCACGAACATGCTACACGGCCTTGGACAAGACCCTCCCATTCCTGATCTCTCC
TCCCGTTCTGTGCAGTGGGAGGCCTTGAAAGAGGAAACCGCTAGGGAGCCTCCTCTCTAGGCTTCTGAGCAGATCTGATAGGGCCCTGGGACAGAGGGGA
GCCCCGCAGACTCTGGGAGGGACTCCAGCTCCCATAGCCAGGGTCCTGGTCCAGCCCTGGAGACGGGATAATGGGGATGGGAGGCAACTTTTGAGCCTCT
CCTGTGGGTCAGGTGTGTCACTTGCCTTATCCGGCCCAGTCCTTAGAGCGACCCTGAGGGGATGATGCCAGCAATGTCATTTAACAGGGGAAGAGACTGA
GGCTGAGGGAGGTGRCAGAGCTAGTACTTGGAGCAGCTGGGGGTTTTTTGTTTGTTTGTTTTTGAGAYGGAGTCTAGCTCTGTCACCCAGGCTGGAGTGC
AGTGGTATGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCACACTGCC
ACGCCCAGCTAATTTTTCATATTTCAGTAGAGACGGGATATCACCGTGTTGCCCAAGTTGGTCGCGAACTCCTGAGCTCAGGTGATCTGCCTGCCTCGGC
CTTCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGCAGCTGGGGTTTTAATTGAGGTCTGTCTGGCACTAAAGCTGTGGATTGGTTGCTGGA
CACACACACACATGAGAAAGAGGGAGAGAGAAAGAAGTGTTCTTAGTTCTCATTTTATCTCAAAACCATAAAGCCCCAGCCAGAAGTCACTATCAGCCAA
GAGGGATGGAGGGGGCGATGAGAGATGCAGAATGTCGTCCTTGATAACTAATCCTAACAAGAGTGAGATCACCTGGCTCCTTTAAATTTGACATATTAAG
CAAAAGGCAAGCTTCGCTTTCCAGCACTGCTATTAAACCAAGTCAGGTTCCTGCTGAGCCTACTTTAATGAATAAGCTAAGCAGAGTTGATAATTGATGG
CTGGCTATATCAGGGGACCCCTTCTGCTGGAAGGAGTTTGTTGAATAGGTTAAACATTACTCTCTTAATTGTGCTAGCACAATTCATTTGCTGCCTTAGC
AGCTCATCTCCCTACTGGGTAGAAGGAATGAGCATGGGCTTTGGAGCGAAAYCCAGCCCTGCCAGTGTCTGCCTGTGCTGTGTGGCCTTAGGCAAGTTGC
TCGTTGTCTCTGAGCCTTGGTTTCTTCATTCTGAGATGTGAGGAGAAGACCCCAGGGTCCACAGGCTTTTCTGGAGGATCTGGATGGCACATATTTATAA
ACCACAGATGTGTTGTCTGGGTGGGCAACTATTGCACCCACCTCCAAGTTCAGGCATTCCAGCCTGAGCAATCAGAAGTGGGGGGATCTGTACGTCTGGA
GATAGGAGGCTATCCTTACCCCGCCAAGTAACTGCCTCTCTCTGTGTTTAGAGAAAGAGAAAGACCCCAAGTACTGGCGAGACCAAGCGCAAGAGACACT
GAAATATGYCCTGGAGCTTYAGAAGCTCAACACCAACGTGGCTAAGAATGTCATCATGTTCCTGGGAGATGGTGAGGCCCAGGGGCCTGTGGGAGGGGTG
GAACAGGACACCTAGCTAGGAGMCCCGGGAGCCAGGCTGAGTTGAAGGGGKCTGTGTTGAAGGGGCTAGGGCTCTGGAGGAAGGGTGTTTAAAAGGATGA
GGGGCCAGGCTGTGGATTCAAGAGGCCTGCTCTGCCAGACAGCCCCCTGAGGATCTGGGGGTGAAGGGAGAGAGGGGCYGCTCACTGACATTTACAGAGC
CATGCCCAGTGCCAACTGCCCGAGCCTGCCTTGGTACCGAACTAGAGAGCTTCTGGGTACCCAAGCAGGCTGATTGGAGAGGCAGGAGCACGAGAGACTG
AGGCCCCCACTCCCCACTGCAGGGWTGGKTGTCTCCACAGTGAYGGCTGCCCGCATCCTCAAGRGTCRGCTCCACCACAACCCTGGGGAGGAGACCAGGC
TGGAGATGGACAAGTTCCCCTTCGTGGCCCTCTCCAAGGTGAGCCCCATCCCCAAGCCCAGTTCAGGTCTGTATATCCAGTATCCAGGTCGAGCATCTGA
ACATGACAGCAGCCAGAGGTCCCCTGACCCCCTGAGCCCCCTCCATGCCCAAGCCCACTCCCCACCTGGAGCAGCCACTGCCCTGACTTCTGACACCATA
GCATCACTGTACCTGCTTGCGGGTGTGTGTTTAGAGAGAGGGTCTTGCTCTGTTGCCCAGGCTGCAGTGCAGTGGTGCAGTCATAGCTCACTGCAGCCTC
CAACTCCTGGGCTCAAGCCATCCTCCCACGTTAGCCTCCCGAGTAGCTGGGACTACAGGTGTGTACCACCACATATGGATAATTAGAGACCCCCCCAAGG
TCTCTAATTCTTGGGCTTAAGCGATCCTACAGCCTTGGCCTCCCAGTCTTGGGATTACAGGCGTGAGCCACCATGCACGGCCTATATATGCCTTTTTTTT
TTTTTTTTTTTGAGACAGTCTTACTCTGTCTTCCAGGCTGGAGTACAGTAGCATGACATCAGCTCACTGCAACCTCTGCCTCCCGAGTTCAAGTGATTCT
TCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACCATGCCCAGCTAATTTTTTTATTTTTAGTAGAGACAAGGTTTCACCCTGTTGGCC
AGGCTGGTCTCGAACTCCTGACCCCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACCGTGCCTGGCCTGTATACAC
TTTTGCATGAAGTTCCAGTTCATTCATTCTTTCCCGAGGCAGTTCGTGAAGTTAATTAGACTATAGGCATACCTCAGCTATACTTCGGGTTTGGTTCCAG
GCCACTGTAATAAAGCAAATATTGCAATGAAGCAAGTCACACATTTTTTGGTTTCCCAGTGCATATAAAAGTTATGTTTGCACCCTACAGTAGTCTTTTA
AGTGTGGGATAGCATTATGTCTAAARAAATGTATATACCTTAATTTAAAAATATGCTATTGCTAAAAAACGCTAATGAAGTGAGCTCATGTTTTTGGAAA
AAATGATGCTGATAGACTTGCTTGACACAGGGTTGCCACAGATCTTCAATTTGTAACAAACACAGTGTCTGTGGAGTACACTAAAATGAGGTGTGCCTGT
ACTGACCTAGGTTGTTCAAGGCAGTGTRCACTGCCGGGTAGCTATTGCTATTGGTGGTGGTGATAGTGGTGTTATGTAATAACCTCCAGACCCTGGGTCA
GGCCCCAGGCTCACTTCTGGGGGAGTAGTGGGGACTATGGTRCCTTCYGTGCCTTCAAGGTGCTCTCAGGCTGGTGGGGAAGGGAGACAGGCAAATAGTT
TTGGGGTCTCTGCTAAACATCCGGATGTAGGGCAACCCTGTGATGGTGGCCGCAGGGCAGGTGGCAGAGAAGTCRGCGCTGGTCTTGGCCCCACCCTTSC
CTTCCCCAGTCCCCTTCCCCCTCACTTTCACTACCCTATCCCCAGAMCCCCCACTCCTTCAAGAAGGCCCCTCCCTCTCCCTTCTCCAGGACTCCCCTGC
TCCCCAACCCCTYGCTGGCTCCTGCAGCCCCAGGCCCGGAGAGAGGCCTCCGCTGACCCCACCTGAGCCCCRATCTTCCGCCGGACACTTCTCTGTACTT
TGGAGAGMTAAGRTCCTGCCCCAGTGCTGCCAGGGTGCAGGGAATGATGGCAGGAAGCAGGCAGCTAGGTAGTCCTGTGGCTCTGGGGGGCTTCAGTGGG
CAGTGGGCCTGGTCAAGGCTATGGGGTCCTCTCTGGTYCCTCACGCCCCAGTCCCCATGGTGTGAGTGTAGGCGGGGTGGGTGCCACTGGGGMGAAGGCC
TGGCCATCTCCTGACCCTCCTCTCCCACCTGCAGAYGTACAACACCAATGCCCAGGTCCCTGACAGYGCCGGCACCGSCACCRCCTACCTGTGTRGGGTG
AAGGCCARTGAGGGCACCRTGRGGGTAAGCGYAGCCAMTGAGCRTTCCCGGTGCAACACCACCCAGGGGAACGAGGTCACCTCCATCCTGCRCTGGGCCA
AGGACGCTGGTGAGTCGGGGGAGCAGTGGGGAGCAGGGCCAGCTTCGTGGCCTGTCCAGGCCTCAGTCTTTCTGACTGTGTCATGGGAAGGGGCTAGAAA
AGGCTTCTCTGTGGGGCTCCCAGCTCTGATRTGCTGGGAGTCTGTAATATCCATGGGATTCCTTCCGTGACAGGGGAAGCTGAGGGTTTGGGGTTCACTC
AGTGGTGGGTTCTGGTCCCAGTTCATTTCTCTGAGTCGATTCTTCATTTGACTATAAAACGGGTGGGAACGTAGCCCCCTCATAGGGTTGGTGTGAGGAG
GGAGAAGTCAGCCCAGGGCTAGCCTGTGGGGTGCAGTCCATGGCCACGCCCCTTCCCTCCTCAGAATTGGGAGGCCCAGCCTGTGCCCCCAGAAGCTTTA
GTCAGGGGCCAAGGCCAAAACACAGGTGACAAGGCCAACATACAGGTGACAGAGCCACAGTCCACTTGAGATCCCTCAGGGGTCCTGTGGGCGCCTTGAT
GAAGGGGAGGACTCCAGCCCAGGTGCTCACATCTCAAGGGCCTTCGGGGTGAGGGGAGAGGGTTCCAGAGGCAGTGTTCTGGCTGCTCGGCTACTTGGAA
GCCACTGCCAGACACCTRCTGCTGTGGATGGGGAGACTGAGACCCGGGCAATCCTCAGAACTGAAGCGGGGGCCTGTCTTTAGCGGGGAGGGGGARGGGA
GGGAGGAGGCCTCTGGGACACCCCGATCTGTGGATAAAGCCAAACCCGCCCCTCCTGCACCCCAGGGAAATCTGTGGKCATTGTGACCACCACGAGAGTG
AACCRTGCCACCCCCAGCRCCRCCTACRCCCACTYGGCTGACYGGGACTGGTACTCAGACAACRRGATGCCCCCTGAGGCCTTGAGCCAGGGCTRTAAGG
ACATCGCCTACCAGCTCATGCATRACWTCAGGGACATTGACGTGAGTGCTCGGGGGCAGCCGGGCAGGGACGGGGTGAGGCGGGGCCTCTGGTGGGCAGG
AGGCCTCAGGCCCAGGCTGGCCCGGAGAAAGCAGCCTGGCCTGGCTCCCCACACACCTGGGAGGCTCCCAGCCCATTAGGGGATTTGCGGTTGGGCAGGC
AGGCACTGTGGGATTTCTCTGCGGTGGGGCTGCGGGGTGAACCCTCATGTGACCGCCACCACACCCCAAGAACCAGGCATCCAGGGATGATTCCATAAAT
TGAAACCTGGTGCTGTGCCCTCCTCTGCCCCCCACTACAYGGGAGGTGGTGATGGCCAAGTGTCGTCTGCCTGCCCTGCGTATTCACATGGTCACAGATG
GGTACATATCTGTACACTCAACCACCAGCATGCCCGGCAAAGAGCTGGTGTGTACAGTGGTTGGCTAGTGCCAGCTCTCGTGTTTAAACTTCCGAGTTCC
AGACCTTGCCCTGCGTGTTGCTAGCTGTGTGACCTTGGGTCAGTTACTTAACCTCTCTGAGGCTTCCCTTTCACAACTCCTTTGTGAACTGTACCTGCCT
CATAAGCTTATGCCAAGAACTGATTAAGATAATCCCTGTGGAGCTCAGCACAGGACCCGAGGCCTAGCGAGTGCCCAGAAGGTGGTGGCACTTACGCAGG
AGCCACATGTCCTTGCCCTGAAACACACTTCAACAAACTGAGCTGACTCATGGAGACAGAAGTCATCCATGTGACGCTTACTCTCTGTTCTTAAGTGAGA
ATGCCCGGCTCGTTCCTTTTCAGGCTTTTATTGCCTACTGTGGGGGACTGCTGAGGCGATCTGGGGACTTCTGCCCCTTGAGCCTGGAATGGGGATTCGG
TGAGGGGCAGAGAAAGCCCCCCTGCCCAGCTACACCTCACCTCTTTCTCTCCACCACCAGACAAACTCACCTGCCTTCAGCCCTCCATGCACTGCCCCCC
ACAAATTTCTGGGGGCTACTTGGCCCCTCCACAGTAGAGACCCACGTCTGCCCTTTTCCCAGCATRGTGGATTAAGTACCCGCTTTCAGGACACACAGTG
CTGTTGGCCCCTTTCACTGAACAGACATCTGAGGCCAAGCCACTCATCCTGGCTTGCCTTCACCCGACATGTGGCCTGGGGCGAGTTCCTTCMCCTCCCT
ATGCCTCAGTTTCCCCACCTGTGCAGCAGAAACAGAGAGCCACACTTGCTTGCTCCCAGGGCYGTGGGAGGCCGTGATGAGGTCATGGATGTGAGAACAT
TTGTTGTACAGGCACAGGGTATAATTACATGGGGACTGCTCCTCAGAGGGGTTTGTCAGGGACAGCCTGAGCAGGGGACAGGAACTTGAAGGAAATTCGA
GGGGAGGGAAGATGTTTCAGGTGAGGGGGTGGGAGATGAGGAGGGGGGGCCRCAGGGGCCACGTCAAGGGGCACAAGCCAGGGAGTGAGTGAGGACGGAG
GACCTGTGTGAGGATCCCTTTCTTTCCTCCTCTTCCTTTCTCTCCCAGCCCCACCTGCCTCTCCGTCACCACCCCCCCAAAAGCCTCCCAGTCCCCAGAC
TGTACATGAAACAAAAATCCTGGTGTCCACCCTGAAAATAAATACTGTTGCTTAAAAAAAAAAAAGAAAGAAGAGAAAGAAAGAAAGAAAGACACAAACC
TAAACCCCAAAGCCAAACAGCAAGTCTGTTATTTGGGAGTTTAATGAGCCCGTGTGAAGTCGCTGCCGGGCTGGAAACGATGAGGCTCCCTGCAGGAAGA
TTGGGGGCTTYGTTTTCCACTCTGAAGATGCCAAGAGGTCAGGTTCTGTGGGAACAGTTGTGGGGGGCGGGGCAAGGGACCCGTGACCTGGGGTCCCCTT
CTCCTTCTTCTCCCAGCCCACCCTGCCCCCTGAGCTCCTGGCTGCAGCTGAGAGCAAGGACTCTGCCTCTCTGAACCACTTGTTTCCCCACTCCTTCTGG
CAATAGAAATGCCTTCCAGTGGCAGCCACCCCCTGGGTGCTGGGGACTTCCCTGGGTGACTGCCTTTCCTCCTGTGATGGGTCTGTGGATGGATGTTAGT
TGCATTTTATTTATTATTATTATTTTGAGACGGAGTCTCATTCTGTCTCTAAGGCTGGAGTGTAGTGGTGCGATCTTGGCTCACTGCAGCCTTCACCTCC
CGGGTTCAAGCGATTGTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCGCACATCACCACGCCCGGCTAATTTTTTTTTTTTAAATTTTTAGTAG
AGACGGGGTTTCRCCATGTTGGCCAGGCTGGTCTCAAACTCTGGACCTCAGGTGATCCGCCCGTTTTGGCCTCCCAAAGTGCTGGCATTATAGGCGTGAG
CCATCGCGCCCGGCCTATTTTATTTTATTTTTGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCATGGCTCACTTCAGTCTCA
GCCTCCTGGGCTCAAGTGCTCCTCCTGGCTCAGTCCCTTGAATAGCTAGGAGCACAAGCCTGTACCACCATGCCCGGCTAAGTTTCGAAACAAATTTTAT
TTGTATAGACAGGGTCTTGCCATGTTGTCCAGGCTGGTCTCAAACTCCTGGCATCAAGTGATCCTCCCGCCTCAGMCTCCCAAAGTGCTGGGATTACAGG
CATGAGCCACCGCGCCTGGCCAGTCGCATTTTATGGATAGGAAAACTGGGCTCACAGAGTTTAGGTGGCAGGCCCTTGGTCAGTAGTCGATAGAGTCAGG
GTTCAAACCCAAGTCTGACTTCAAAGCTCACGGCCATGACCATGGCCTGGACCCAGGCTGGTCCTGGGGCACCTTTCCCACCTCTCCAGCCATCCTGTGT
TCCTGGCCCCCTGTGCATTCCACAAAACCTAGGATCTAAGGTGGGAGACAGAGTGGAGGATAGAGCAAGGGACCTATGAGATGCAGGCCTGGAATGGTGG
ATCTGGGGCCAGTGTCAGCCAGGCTCTGCACTCCCAAGGTGTCAGCCAGGGGCAGTGGCCCGGGCTGGCACCCGCGGTGACAAGAGAACACTAGTGTGGT
GGTCACCGCAGGCGGCTGCTGTTATGCTCTTGGCCCTACTTTAAAAATAGTCAGAACTTCAAACATGGACTCCCAAGGAAAACAAACAGTCCCGCGTCCG
TCTGCCCGCACACACCAGCTGGTGGGTAAAATTAGCCTGGTGGTGACTACAGAGCCGTGAGGCCCGGCCCCGCTGTTTGCCCAGGCTGCGGTGGGCTGGC
TCCCAGCTGTGGGCTGCCCCAAAGACCTCCCTGGCTGGAGCCTCTCCCTGCACGCATTCAGCCTTCCACCGTGGGAGAGGAGGCTCTGGGAGTCCCTGCC
CTYAGCTGCACGAATACAGCAGGGCCCTAGTGCCAYAGCCGGAAAAGCCCTGGGTTTGAATCCTGATGCTGCCACTTCCTGGCTCTGTGGCCTTCGGGGG
AAAAAACCAATTTCTGTGCCCATTTTTTTAGTTGGAAAACAGGTGGCCAGGGTTTATTGCAGCCTTGGTATGAAGTTGAGTCAGAATGTATCTTAAATGC
TTAGTGCCTGACACACAGGGAACGCTCTGTAAATGGTCYGATTCTTATTCGAGTGGGAGTTCTGTGGATTCCGGGAAGCCAAGTAAGGTAAGTTATCAGC
TCCTCCAATATCCCTAGAAGCGCCAAACCACCGTCCCAATAGACTCGTGATTTCATCTCCCCACGCTGGACAAGTAAGGCCCAGAGATGACTGAGGCCTG
GCTCACCAGGCTGGGAAAGTGTCCACACCATCTCCAGGGACTCCAGGAGTCCAGGTTCCAAGCCGAGGTCACTGGGGCTTCTGGGCATCTTGGAACCCTG
CAGAAGTGATGGCTCCTGTCTCTTTTAGGTGATCATGGKGGGTGGCYRGRAATACATGTACCCCAAGAATAAAACTGATGTGGRGTATGAGAGTGACGAG
AAAGCCAGGGGCACGAGKCTGGACGKCCTGGACCTCGTTGACACCTGGAAGAGCTTCAAACCGAGAYACAAGGTAGCCTGTGCTGGGGCCATGTGGCTGC
AGAGGTGGCCTGTGATKGGGAGAGGCTGTGTGACCCCTGCTCTGAAGYTCTGTTGTCCTCTGTAGAAAGGGCATCGGAAATCTTTCCTCCATGGGCTCAA
ATGGCCTAAGAGATATACAAGCAGTAGATAGTCAGTGACTAATCATTTCCTTCCCTTGGAGGGGATACCAGAGAGAGGYRGATGGTGAGGAGGAGGCTGG
GCCAGGGAATAACCTGCGTGGACATTSAGTCACCCTGAGYACCTATTGTATGTAGGCACCTGGCGGGGCATGCGTGAGGCACAGAGGCTGAGYCAGATGG
CCAAGGAAACATGGAATGCTGTGTGCCTGCATGGGGGACGCCTGGCTCTGCAGGCGCCCTGGGGGGACAGATGACAGGGAGGAGCCAAGAAGCTCTGGGC
AAGTAGGAGGATGGAGGGAGGAGGCAGCGCTGGATGGATCAGGGGAGGACATGGTTGGCCCCAGTGTGCAAGCCATGGAGGGAGCGGAGAAGCCCTCCAC
AGTGAGTCCCCCTTGGCTGGGGGATGGAATAGATTGGGGAAGGGAGGCTGGAGGAMGGAATAGATTGGGGAAGGGAGGCTGGAGGGACCTCTGGAAGGAC
CCCAAGCTCCAGCTCCTTGGAGTGGCCTCTGGCCCTTTAAATCTGAGCTGCTGGCCTGCGGGCCTGGGGCAGCTGGGGTCTGGAAATGACTGTGGTCASG
GCTGAAGACAGTGGGGAGTAGCCTGGCAGCCACTTTGATGTCACTCTGGGGTTGGGTTTCTGCAAGTTCCAGGACTGGCCCCTGGGGAGGCCTCGTGGGA
TGAGGCTGGGCCAAGAACRAGGTGGGGGTAGGGACTAGGGAAGGGCCCCCGTGGGGWTGGTGGGGGTGYGGAACTGAGTGGCTTTGAACCCTTTCCATCC
CTTCTGAGTCAGCTCAGGCTGGGCCAGAGCCCCCTCCAAGCTCAAGCCAGAGAGACACCAGCCTCAGTTTCTCTACGTGGCACATGGGGCCAGAGCTTCA
TCCTCCTTGCCCAGGCAGGGTGCTTACCCAGGARCTCGGTCTAGACCTCTAAGACGGGGAGAGAGCGTCTACACCATGGCCCCGAGCCTGGCCACATTGG
GTATCAGGTCCCGTGTAGGCCCCACATCCCTAGAAAATCATGCCTTAAGAGTGGGTTTTAGAGTCAGTTTCACCTTTACCATTCAGTGGCTACGTGGTCT
GTGTGCCTYGGTGCCCTCATCTGTAAAGAGGGAATAACAGGAACAACCCTGGAGGGAGAGAGCACAGGAGAGCCACCTCCAGGAAGCAGGGGCTGGGAGG
GGGGGTGCGGAGCCCCACTTTCTGAGCCTCTCTGCCCTCCTCCCCACAACAGCCCCTGAGGCTTGCAAAGCCACTGATCCCACTGTCATTGCTAAGAGAA
GGCAGGGGGTCTTCTAAGGGCACACAGCAGATCCTTGGTAGTGCTGGGACCCCTGGTCCAGGCCCACATGGTGCCCTCTCCAGGCCTGGCCTAGCTGGCT
TCTTTCTGTGGACTTTATTCCCTGGGGAAACAGCCACGCCTTTATCTCCCCTCCCAGATGGGGTCCCCAAAGCAGAGCTGGGGCTTTGCTTCCTCCCTGG
CCCTCCACGGCCTCCAGAAAACAGCCCACACCTGTCAGCACTCAAGGCCCCTGGAGACCTGTGCCTGGCTCTTCTTTGCCCCATGATCCCTCCTCCCTGG
AATAGCCTTCCTGACCCTAGGCTGTTCAATTCCCACTTGTCCTCCAGGGACCCATTAGAACATCACCTCCACCAGGAAGCCCTCCCTGGTCCTGTGTCTG
GGCTCACGGCCTCCCTGGGCTCTATCAGAATTCTCATCCCCTTGCATTATACATTATAATGGGCTATTGATTCATCATTTCTTGAGGTCAGGGATGGTGG
GTCCTCAGGGAGAGATTTTTAAGTGAGGGAAGGAAACAAGTAAAGGCCTCAGACTCTGATAGCTGCTGGGGTCAGTCCTTCCGACTCTCCCTAGCCCCYG
GCATGTGCTGACACAGCCCTTCCTCCTAGCACTCCCACTTCATCTRGAACCGCACGGAACTCCTGACCCTTGACCCCCACAATGTGGACTACCTATTGGG
TAAGTGGAGGGGGTGGAGKGGAGGATGCATGGCTCGGAGCCTGGTGGCCRGAGCTGYGTGTGGCCAGCACCTGGGGACAAGGCCCTAGCCTGACGCCCAC
TTAGGGGCCTCTGCTCTTGGGCTTCAGGACCTGGGAGAGGCAAGGAAGGGGGTTCTGGTTCCTGGAATTAGGCCTGAAATCTGCTGGCTGTGCAGGGGGA
TTAGCCTCATTGGGCACAAGAAGAAACTGAAGCTCAGAGAGGGGAGTGGCCCGCGGCATGYGGCACAASTGACAGCGGTACGGCCCAGGCAAGTTTGAGC
CCTGGCTGGGAACTGGGACTTAACAGCTCCTGGGCTATGGAGCCTGGGACCTGGAGTCAGCTCTACTGTGTGCATGGCCAGGGCAGAAGCCAGCCAAGTT
ATCTCTGCCCATCCTGACGATTGCCCTCCTCCCCAGGCAGTGGGGAGCATGTGGTGAGGGCCCAGGGGCAGCTTCAGGTCTGGTGGGATGCAGCCCTGAG
CACCACCATGCAGCTATCCGGGTTTTCTTTTCCAGCTGTCTGTAGTGCCAAGCAAGTGGTGGCAAAATCTCCTGCAGACATTTCCCAAGGAACACAGCTC
CGCGTCCTGGGTGTCATTAGAGGTTATGGGCTCAGAGCTGTGCACCTGGTGGGTCCTCCAGACACATGCACACAGCCTCTTGCTTGCCTGGGTCACATGG
CACACACCCAGTACCACATGGGCTGTGCATGCACCCGTGTATCATGCTGGTTTTGCTCATGGATCTTAGAGCCAGAGTGCTGGGTTCAAATCCAGCTCTA
CCACCTCTAAGCTGTGTGACCTTGGGCAAGTGATTTCTCCTCTTTCTGCCTCAGTTTCCTCTTCTATAAAGTAGGGATAATGATGCTCCCATAAAATGGA
GATAGTGRTGGGGCTGGAGACAACCCCTGGGTTGTCATGAGCATGACATGAACTTGTGTTGTATAAGTTATCTGTTGCTGTATAACAAATTATCTCAAAA
CTTAGGCCAGGTGCAGGCCGGGTGYRGTGGCTCAYGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGAGCACAAGGTCAGGAGATCGAGACCA
TCCTGGCTAACGAGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCTGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAG
GCAGGAGAATGGTATGAACCCGGGAGGCGGAGGTTACAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTAAAAA
CAAAAAACAAAGAACAAACACGAAAAAACTTAGGCCRGGTGCAATGGCTCGCGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGTTGATCACTTGA
GCCCAGGAGTTTGAGACCAGCCTGGGAAACATAGCGAGACCTCAATTCTACAAAAATTTTTTAAAAACTGGCCAGGTGTGGTGGCGCACACCTTTAGTCC
CAGCTACTCAGGAGGCTGAGGTAGGAGGATCCACCTGAGCCCAGGAGGTTGAGGCTGCAGTGAGTTGTGATTATGCCACTGCACTCCAGCCTGGGTGACA
GAGCAAGACCCTATCTTAAAAAAAAGAAAGAAAGAAAACATTAGCCAGGTGTGGTGGTGCCAGCCACTCAGGAAGCTGACGTGGGAGGCTTGCTTGAGCC
CAAGAGTTTGAGGCTGCAGTGAGCTATGATCATGCCACTGCACCAGTTTGGGCAACAGAGTGAGACCCTGTCACAAAACAAAACTTAACAGTTTAAAACA
AGAGTAAACATTTATTGCCTCACTCAATTTCTTTGGGTCAGGAATCTGGGGACAGCTTAGCTGGGTCTCCCATGAGGTCACAGTCATCTGAAGGCTTGAC
TGGGGCTGGTGCTTCCAGGATGGTTCACTCACATGGCTGGCGAGTTGGTCTTGGCTGTTGGCAGGAGGCCTCAGTTCCTTGGCACATTGCTCTCTATAGA
GCAGCTTGAGTGTCCTCATTACATGGTGGCTGGCTTCCCACAGAGATCCAAGAGTATATAAACAGAAGCTACAACATTTTATGCCCCAGCCTTCGAAATC
ACACACCATCATTTCGGTGGCATTCTATGGCATACAAAGGCTAGTGTGGGAGGAGACCACACAAGCGCGTGAATTCCAGGGGGCAGGGGTTATTGGGCAC
CATCTTGGAGGCTGGCTTTTGCCTGCTTCCAAAGCGCTAACAGCATGTGGCACCAAGTGAACCCTGTGTGCATGGGAGCTATTGTTCGGCTGTGTACCCA
CTCACAGAGGGGCAGGGTGTTCTGGAAGGACACCAGAATTGGAAGGACACCAGAATCAGAAGCACCAGCATGGGACACATGGAACTTTGTGCCATGGGCA
AGGAATGGATCATTCTCCTTATGTCACAAGTGAGAAAACGGAGCCCAGTGAGCAGGAGGGACAATGATTCCAAACCTTCTGCTGTTTCGCTGCACAGGCC
ACCGTGCCCTTCAAATCCAACATGTAAATGCACACACACTCTAGCGGCCCCATCGAGTCCAGGCTGTGACCCTCTGCCTTGGGGCCACAGTGCTGTGTGC
TGAGCCCTGCAGGCTGGAGGCARACTGACTGATGGATTTGAACCCCAGATCTGCCACTTCTCAGCTGACAATAGCAAGTTATGGAACACCTCTGGGCCTC
AGTGCTCCTCATCTGTGAAACGGGCATGGTGATCCCACCGCGCCATAGTGGTGGGAATGAAAATGAAAGGAATTGGGGCTGGGTGCGGAGGCTCACGCCT
GTAATCCCAACACTTTGGGAGGCCGAGGTGGGCGGATGACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCTAACATGGTGAAACCCTGTCTCTACTTAAA
ATACAACAAAAATTAGCTGGGTGTGGTGATGCATGTCTGTAATCCCAGCTATTCAGGAGGCTAAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTT
GCAGGGAGCCGAGATCGCACCACTGCACTCCAGCCTGGACAACAGAGTGAGACTCTGTSTCAAAAAAAAAAAAGAAAAGAAAAGAAAAAGAAAAAAGAAA
AAAAAAGGAATTGGGGGCCTAATTCTGGGCCCACAAAAATCACCCAGATAAGGATCCTCCCAGCCACCATACTCTACCCCAAGCTGGCTGTGGGGAGCCT
GCATTCCCTGAGACACCCCAGCTTCCTTGGAGTCCTCCTAGCCGGGTCACAGCCTCTCAGCATCCACATCCTCCTGGCGTCCTCCTCAGGTYTCTTCDAG
CCAGGGKMCRTGCAGTACGAGCTGAACAGGAACAACGTGACGGWCCCGTCACTCTCCGAGATGGTGGTGGTGGCCATCCAGATCCTGCGGAAGAACCCCA
AASGCYKCTTCTTGCTGGTGGAAGGTAGGGACCCCGGGTCTGCTGAGAGGGGGCTGCTGGAAACACGGCCCTGGTGTCAGGATGGAGAAGTCCAGCTCTT
AAAGGGAACTGACTGGTTTGGGGGTGAMKGGAGAGGTCCCTTTAGGAGAATRGGTTGTGGAAGGAGACGGGTGGCRCTGTAGACACTCCCAGCCCAGCAA
GCTGCTCTCCTTTGGGCATGGAGATGCAAGTTAGGTTCAGCAATCCAGGAAGGCTTCCTGGGAGAGGAGGCAGATTTCTCCCCTTTGGTAGTCTTTCTTG
GGGACCTGGCCCTGRAGGGGYAAGCAGCCCCTCAGCCTCACTGCCCAGAAAAGCAAATCCGCAGGCCCCGGCTTTCCCACGCTGTGTGCTGATGTTCCCA
GGCTCTTTCAGCGCCGGCCAGGGGCCTTGCAGACAGACCTGAATTCTTGGCCTGGCGCTGCCATCTGCTGGCGGTGTGACCTCTACCTGTGCACTTCTGT
TATGTGAAGCCAAAAATAGCATCTGTCTCCTGGAGAGTGATTCGCCTCCATTGTGTTCAGAGACATAAAGTACTTGGAACGGGGCCCAGTAAAGAATAAA
CCGTGTTTCTATTATTAGCCTTRTTATGGCTACACAATAGTTAAGGCGGGAACAATAGGAAGTGTGAGGAAGTGATAAAGATTCCAGAAACCTTCCAGTG
CTAACAGCCCTTGCCCACCGCAGTTCCTCATGTTGCCCTGCTAACATCGGTATGTATMCACACACATGCACACACGTGAACATGTTTGCACATATGCTCC
CCACGCATACACACATGCTCAGCGCCTCCGCCTTCCAGAGGTGAGCGTCCGCCAGCCCAGCTTGGCTGCTTTCTTGCCAAACCCCGGGGTTCCCACTCGA
GCACAGCGGTCTTGGCCTGGCCCCGAACAGGCCTCTGACGCCAAGGAGCCAGCCAGAAACCAGCGGTGGTGAGCACGGGCTCCCCCGGGAGCGGTTTCCT
TTGTGAGCRAGGCCAGGATGGGCCGCCCAGGCTAGCTGCTCCCAGAGCCACAACAAAGGGAGGACACGCCCTGCCAGCCTGCCGGGCCACCGCGAGGCTC
AGACTGGTGGGAACAGAGGGCTGCCTGGCGCCCAGGACCCTCCAAGCTGGGAGTGTCCACCAGGCAGCGCCCTCCTGTTAGCAAGGGARGTGTTCCTTTA
AGGTCACAGAGCCCTCGGCTGCTGGGCCAAGCCTCCAGCCAGGCCCCTGCACTCACCCGGAGGTGGGAAGCGGGGGCGGAGGCTGCGAGRGTTCAGGCTT
CGGCAGGGCTTTGTGGAACCTGCCACAGGCACTGCCCAGGCACTGGGGACTTTCACTACCTCTGGGAGCTCCGTGCTTTCTTTTTAGAGGGGATGATTTG
AGGTAGAGATGAAAAACGGGGTTAGGACGAGTCACACCTGAATTCACATCCTGGCAAATCCCACCGTGGGCTTCCCCACACTAGGCCTCAGTTGCTCCAT
CTGTAAACAGGACTGATCATATTCCTCTCTGCCCAGCATTGCTGTTCAGGGGAAAAGAGACATGGGTGTGTCGTGCCTGGCACATTGTAGGGATTCCAGC
GTGCCCCCTTCCCTACCTCCCAAAGGCTTCAGTGCCTCCTTCAAGCAGCTAGAGACAGTGCTGGGAGGGGCGGTGGGAGGAGTACAGCTTCCCGGCCTGG
TGAATTTGATTACACATCTGGACTTTGCAGCCCCCATGCATGTGCCTTTGGCACCGGGGCTGTCCCTCTCTGGCCTCCGTCAGGTTGAATGGCTGCGTAA
AATGCCTAGGCTGTGGTGCTAGCTCAGAGTGGTGCCCGGCGAAGGTTCCTGTCCTTCCCTAGCTAACAAAGGTTAATCCASCAGCAGTGTTGTGGGGCTG
GGGAGCAGATCTTCCTCCCCTCCTCCCTCACCGAGGCCTTTGCCTTGGTGTCCCAAGGAGRCAGAATTGACCACRGGCACCATGAAGGAAAAGCCAAGCA
GRCCCTGCATGAGGCGGTGGASATGGACCGGGCCATCGGGCAGGCAGGCAGCTTGACCTCCTCGGAAGACACTCTGACCGTGGTCACTGYGGWCCATTCC
CRCRTCTTCACATTTGGTGGATACACCCCCYRTGGCAACTCTATCTTTGGTAGGTGGGCCTTCTTTGGGGTGGACACTCCTGGGGTCTCCTGTCTACCCA
CCTGGGAGCAGGAGTGGGTGGGAGAGCCAGCAAGCCCAGAGCATGGTGGGGACTCAATGACAACTGGGTGGGGAGGAAGAGTTACTGGGGATGGGGAGAA
AATGCAGGGTGAGGCAGGGGAGTGAGTTGAGTGGTGGTCGGGTAGACAGGCAGGTGGGTGGATGGATGGCCACGTTGACCATGGCTGGGCGAGAACGTGG
ATAGATGAATGAGAGAGGATGGCTGGCTGGATGATGGATGGATGATGGATGGATGGATGGATGGATGGATGGATGGATGATGGATGGATGGATGGGTGGA
TGGATGGATGGATGGGTGGATGGATGRATGGGAGGGACATGGGTACAATGAAAACTGGGGAATGGTTAGTTGGAAATAATAAGGTTTAGAAGGTGGCTTC
TTGGAGGCATTGCAGGGCCCTTCAAAGAAGATCCCAGGGGTTACCAAGCCACCAAGGAGCCTAATMTGGGGGCTGGGGACTGTACTCCTGGGGCCCCAGC
ATGACCCCTGAACACCCCCTCCCTGTGCAGGTCTGKCCCCCATGCTGAGTGACACAGACAAGAAGCCCTTCACTGCCATCMTGTATGGCARTGGGCCTGG
CTACAAGGYGGTGGGCGGTGAACGAGAGAATGTCTCCATGGTGGACYATGGTGAGACCTCCAGGACCCAGGGCTGGGAGGGGACAGGGCACCCCTYGGGG
ATGGGCTTGGGAATAGGGTGTCAGCTTGTGGTCAAGGTCAGGGGTCTCAGAATGACTGGGGCTTGAGTCCCAGTTTGATTGTTGAGTCCCAGGTTGTTTG
ATTCAAACAACCTCAGTTTGAATCGCCTTCTACAATCTAGCAGCTCTGAGACTTTGGGCATGTGACTTCATCTTTCTCTGCTTCAGTTTCCTCTCTAAAA
GGGTTCTACCTTTGACGGTTGTCTGAATGACCAAATGGGTCTGATGAGCTTAGCATAGTGCCTGGCACAAGTAGGTGCTCAATATTTTATACTCATTTTT
CTTGGCCCTATAATATTCCAGTATACGAGACTTTGCAGTTAGTTCATCCCATCCCATATCATTCATTCGTTCTTGATACTCCCAGTGGTTCTAGGGGGTC
TAAAGATGCAGCAATGGTAAGAGTCTCCCCGTCAACTCTCCCTGCTAATCCAAGCAGCCCAAATGAGGTTAATTTTCTCTGTTGGGGGTTGAGAATGCAG
ACTCCTGTGTCAGAACAGGCTCAGGTTCAAATCCCGTGGCCTTAGGCAAAATGACTTTCCCACATTGAGCCTCCTTTTCCTCTTCTGTGAAATGGGAGCR
TTCAAGSCAGCCTGGAAGGGAGATGGAAAAGCTGCGTGCGCAGCGCCAGGCCCCTGGCAGGCTCTCAGCAGGTGTTTCCCCTGGCCCACAGCTCACAACA
ACTACCAGGCGCAGTCTGCTGTGCCCCTGCGCCACGAGACCCACGGCRGGGAGGACRTGGCCRTCTTCTCCAAGGGCCCCATGGCGCACCTGCTGCACRG
CGTCCACRRGCAGAWCTACGTCCCCCACGTGATGGCGTATGCAGCCTSCWTCRGGGCCAACCTCGGCCACTGTGCTCCTGCCAGCTCGGCAGGCAGCCTT
GCTGCAGGCCCCCTGCTGCTCGCKCTGGCCCTCTACCCCCTGAGCGYCCTGTTCTGAGGGCCCAGGGCCCGGGCACCCACAAGCCCGTGACAGATGCCAA
CTTCCCACACGGCAGCCCCCCYCTCAAGGGGCAGGGAGGTGGGGGCCTCCTCAGCCTCTGCAACTGCAAGAAAGGGGACCCARGAAACCAAAGTCTGCCG
CCCACCTCGCTCCCCTCTGGAATCTTCCCCAAGGGCCAAACCCACTTCTGGCCTCCAGCCTTTGCTCCCTCCCCGCTGCCCTTTGGCCAMCAGGGTAGAT
TTCTCTTGGGCAGGCAGAGAGTACAGACTGCAGACATTCTCAAAGCCTCTTATTTTTCTAGCGAACGTATTTCTCCAGACCCAGAGGCCCTGAAGCCTCC
GTGGAACATTCTGGATCTGACCCTCCCAGTCTCATCTCCTGACCYTCCCACTCCCATCTCCTTACCTCTGGAACCCCCCAGGCCCTACARTGCTCATGTC
CCTGTCCCCAGGCCCAGCCCTCCTTCAGGGGAGTTGAGGTCTTTCTCCTCAGGACAAGGCCTTGCTCACTCACTCACTCCAAGACCACCAGGGTCCCAGG
AAGCCGGTGCCTGGGTGGCCATCCTACCCAGCGTGGCCCAGGCCGGGAAGAGCCACCTGGCAGGGCTCACACTCCTGGGCTCTGAACACACACGCCAGCT
CCTCTCTGAAGCGACTCTCCTGTTTGGAACGGCAAAAAAAAATTTTTTTTTCTCTTTTTGGTGGTGGTTAAAAGGGAACACAAAACATTTAAATAAAACT
TTCCAAATATTTCCGAGGACAGAGCTGAGTCTTTGTGGTCAGTGAGAAAAAGACTGAAAGAAGCTTATTTCTCTGGGAAGAACTGGCCTCAGGGCCCGGG
GTACAGGTGGGTTGGACAGGGTGGAAAGGCCTTCTGCTGTCCTGGGGGCTTCACACTCCCTACCTGTGCCACTTTGGACACATAGGTTTGTGTCTCAGTT
TTCTTGTCTGTGAAATGGGAGACAACCCCCTTCTGGGTTGTTGTGAGGATTAAAGAGGAGGCTGGGTGCAATGGCTCACACCTGTAATCCCAGCACTTTG
GGAGGCTGGGGCAGGTGGATCATTTGAGGTCAGCAGTTCAAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACAAAAAATACAGAAATTAGCCAG
GCATGGTGGCGCGCACACCTGTAGTCCCAGCTCCTCTGGACACTGAGGCAGGAGAATCGCTTGAACCCAAGAAGCAGAGGTTGTAGTGAGCCGAGACAGC
GCCACTGCACTCCAGCCTGGGTGATGGAGTGAGACTCTGTCTCAGAAAAACAAAACAAAACAAAACCAAACAAACAAAAAAAAACAAGATAAAAGAGGAG
TGCCTGTATGCCCAGAAACCCACAGCAAGGAGGACTTCAGGGGCCCAGTGGCAGCCCGGCTGCATGATACCCACAAACAGCACTACATACCTTGGCCCAT
TTCATTCATTCAACAAATACAGACTACGTGCTAGGCATGGTATTAAGTCTTAAGAATTGTTGGCCGGGTGCTGTGGCTCATGCCTGTAATCCCAGAACTT
CGGGAAGCTGAGGCGGGTGGATCATCTGAGGTTGGGAGTTCGAGACCAGCCTGGGCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGGTG
TGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGATTGAACCTGGGAGGCAGAGGTTGCGGTGAGCCGAGATTGTGCCATTGCACTCCAG
CCTGGGCAACAAGAGTGAAATTCCATCTCAGAAAAAAAAAAAAAAAAAAAAAGAATTTAGTGGTGAACATGACAGACAGAAGGCTGAACAGACAGAGGGC
TCCTTGCCCTCACAGAGCGTCAGCCCAGCTTAGCAACTGTGATCTTTCCATTTCTCATATTCACACCTTGGTACTACACTCAGGCCTGCAGCCGACCTTG
TTGGGATACAGACTTGTCCAAGTTTGCTCCTCTTGCTTCATTGAAATGAAAATTCCTTTAATAAGGATAACAATCATGACAATTAACACTGATCATTTAC
AACATGCCAGGTCTGTGCTTGACGCTTTATGTGGATTCATTGCATTTAATCCTCATTAGGAAATAGGCCCCCATCATCCACATGTATAGGTGAGGACCCT
GAGGGTTTGGGAAGTGAGGTGATTGCCCAAATGCCCCCAAGCTGTGGAGCTGGTATTTGAAGCCAGGTGTGTCCTATTCCAAAGCTCCTGTACTTAATAC
CATCCTTTATTTGGTTATAACACACTTCAAACCTCTTGTCAACCAGGTCCTGAAGCAGACAATACTAATGACTCATGACATACACCAGTTAAATATAAAC
TCAGGAAGATGAGAAACCGTATGTCAGAAGTGGACTTCTTCAGGATTGAAAATGCAAACTAAGCAGATTTGTCTCTGAGCTTCCTAGCAGTCCTGACAAA
AAAAAGGGAAGCACAGCCAAGCTGACACTGGGATAAAAGATGAAACTATAGGCCAGGCACAACGGTGCATACCTGTAATCCCAGCACTTCGAAAAGCTGA
GGTGGGAGGATTGCTTGAGGGCAGGAGTTCAATACCAACCTGGGCAACATAGCGAGACCCTGTCTCTACAAAAAATAAAAAAATTAGCCAGGTATGGTGA
TATGTGCCTGTAATCTAGCTACTTGGGAGGCTGAGGCGGGAGGATCACTAGAGCCCAGGAGTTAGAGGCTGCAGTGAGCTATGATCATGCCACTGCACTC
CAGGCTGGGTGAAGGAGCAAGACCTTGTCTCTAGTTAAAAAGAAAATAAACAGGGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGC
TGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGGTAACACTGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAATTAGCCGGGCTT
GGTAGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCAAGGTCGTGCCACT
GCACTCACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAGAAAGAAAAGAAAAGAAACTGCCAGGAGTGGTAGCTCACACCTGTA
ATCAAACTACTTTGGGAGGCTGAGGCCGGAGGATCCCTTGAGCCCAAGAGTTTGAGACCAGCCTGAGCAACATGGCAAAACCCATCTTTATGAAAAATAC
AATAATTACGGGGGCATGGTGGCAGGCACCTATAGTCCCAGCTACTTGGAGGGCTGAGGGGGAGGATCACTTGAGCCTGGGAGACAGGGGTCGCAATGAG
TCGAGATGGTGCCACTGCACTCCAGCCTGGGCAACAAAGTGAGACCCTGTCTCAAAAAATAATACATAGAAAAAGAAAAGAAACTATATGCATACATTCT
GGCCAGGACCAAGAGGAAACGCCTCATCTTGAACTGTACAATGCAGTGTTTTCCAGGTGTTATTTTCACACCACCTTCACAATTGTTGCCGTATCCATAC
TATTATTTCCTTTTTTTTTTCTTTTGAGACAGAGTCTCGCTCTTTCGCCCAGGCTGGACTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCTGCCTCCC
GGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACCGCAGGCACCACCACCGTGCCCGGCTAATTTTTTGCATTTTTAGTAGAGACGGGG
TTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCC
CGGCCATATACTATTATTTCCTAAACACTCCTTTAAATTGACATTTAAGCAGTCAGTTTTTAAATGTTCCCAGTACCACCTGAAGTCAATTTACATGTCT
CCAGGGTGTGCAAACCACACTTTGTTTTGTTTTGTTTTTATTTCCATAGGTTTTGGGGGAACAGGTGGTGTTTGGTTACATTAGTAAGTTCTTTAGTGGT
GAGTTGTGAGATTTTGGTGTATCCATCACCTGAGCAGTATACACTGAATCTAATTTGTAATCTTTTATCTCTCATTCCCTTGCCACCCTTTCCCCCAGAG
TCCCCAAAGTCCATTGTATCATTTCTATGCCTTTGCATCCTCATAGCTTAGCTCCCAATTATGAGTGAGAACATACGATGTTTGATTTTCCATTCCTGAG
TTACTTCACTTAGAATAGTAGTCTCTAATCCCATTGCTGCAAATGCCATTAATTCATTCCTTCTGAATGAGTAGTATTCCATCATATTCATATATATATA
TATACACATACACATATACATGTATACACACATACACACAGTATATACACATACACCACAGTTTCTTTATCCACTCATTGATTGATGGAGATTTGGACTG
GTTCCATATTTTTGTAATTGCGAATTGTGCCGCCATAAACATGCGTGTGCAAGAATCTTTTCCGTTGAATGACTTCTTTTCCTCTGGGTAGATACCCAGT
AGCAGGATTGCTGGATCAAATGGTAGTTCTACTTTCAGTTCTTTAAGGAATCTCCACACTGTTTTCCATAGTGGTTGTACTAGTTTACATTCCCAACAGC
AGTGCAGAAGTGTTCCCTGTTCACTGCATCCATGCAACATCTATTATTTTTTTGATTTTTTGATTATGGCCATTCTTGCGGGAGTAAGGTGGTATCGCAT
TGTGATACCACCTTGATTTGCATTTCCCTGATCATTAGTGATGTTGAGCATTTTTTCATATGTCTGTTGGCCATTTGTGTATCTTCTTTTGAGAATTGTC
TGTTCATGTCCTTAGCCCACTTTTTGACGGGATTTTATTTTATTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCT
CGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGCTAAT
TTTTTGTATTTTTAGTAGAGACGGGATTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTG
GGATTATAGGCGTGAGCCACCGCGCCTGGCCGTTTGTTTTTTTATTGCTAATTTGTTTGAGTTCCTTGTAGATTCTGTGTATTTATCCTTTGTTGGATGT
ATAGATTGTGAAGATTTTCTCCCTGTGGGTTGTCTGACAAACCACACTTTGTTATCTTGCATTGGGTTTCCACGGAGACAGAACCTGAGACAGAACTCAG
CACAAGCAGTTTGTTTATTAGAAGAACCCAGAAAGCTGCACAAATTGGGGAATGAGGAAGCAAGACAGGAAAGGGAAGGATGTTGAGAAAGATGTGTTTT
TAAACAGGTTGCCACTGAGGCTGGCCAGGGCTCAACCCCACGAAGGACCTCTGGGAGATGGTGTGGGAGCGACACTTCAGAGATATCTCACCCAAGGGGC
GAGGGAGCAGGGGTATTTATTCTTCAACTCTCACCTCTCATTGGCCGAGGGCTGCTCCTGGGGAAATTAACACTGGCACTCCTGACCTTCCCCATGAAGT
TCTGAGAGAAAGCCTCCAGGCCTGGTGCTGGAACATCAACTGCTCAAAGGACACAAACCAGCAGCTTCTGTTGAACTTTGGGATACACTGCTGGGGTAGA
AAGCGCAGGCTGTGAGTCCGAGAGATGGAGGTCCACATCTCTGCTCCATCACTTTCTCAGTTCTACGAACTTGGGCAAGGGATTCAGCTTCTCTGACGCC
CTGTGCCTAGCGATGCCCAGCACGTAGTGAGGACTGAGTACCCCATTAGGAGCCAGGAGTTCCTCCTGCCCACACTCCAGGCTGTGGGATGACGTGTCCT
TCAAGAAGCAGAGATTGAGGTGCTCAGGCACCCATGGCTTCAGGGTCTCCCCACGCTCAGGCTGGGCCCTGGGTCACTCATCACCTTATATTTTAACTGC
TGTGGGCCCTGAGTCCTAATTGGAGCCGGGGTTCAGGCATAGGTCCCAGCTCCATTCACAACTAGGGCCGGTAGCCATGGACCTAGACCCTAAGGATGAC
AGTCCAGACCCACAGCACAGGGATTTCTTTTGCCCTCAGATGCCTTCTCCCGGAGGAAGAACAAAGATGAGCTGACATGCCCTCTTGTATTCACTGAGAT
AACCCTGCCTTCTGTTAAAGGTAAATTCAGAAAGCTCAATAACTTGACACCTGAGGATGTATTCTTACCTCCAACATCAGCGCCCCTGCTCAGGTGACTG
GGACCCAGGATCTTTCCAGGGGTGGCTCTGCCACCCCCTGTAAGTTCTGGATGTCCTTCCTATCTGGCCAGCACCTTGATGGTGGGAACCACGCCTGCTT
TTTAACCACTTAATCCTGGAAGTGACATACATCACTTCCGCCCTTAGTGCATTGGCAAGAACCRGTCCTGTGATCCTTCCTGGATGCGAGGAAAGCTAGG
AAATGCCGTCTTCGCTTGGGCTACCGCTGCCACCAACACCAACACAGCAGGTTCTCATCCTGGGGGCAGAATCACCCCCACATCAGTTGAAAACCTCTGC
TCTGTAGGAAGGAAGAGGCGTGGGAGACTGGGATGGTCAACTTGGCTCAGGCTGGAGACATCCTCCAACTCACACACTCCCCAGCCATTGCTGAGCACGG
GTGCCGTGTTTTAAAACACTGA


SNP Information

Context             (SEQ ID NO:51003):
TGCATCGGGGCCAACCTCGGCCACTGTGCTCCTGCCAGCTCGGCAGGCAGCCTTGCTGCAGGCCCCCTGCTGCTCGCGCTGGCCCTCTACCCCCTGAGCG
Y
CCTGTTCTGAGGGCCCAGGGCCCGGGCACCCACAAGCCCGTGACAGATGCCAACTTCCCACACGGCAGCCCCCCCCTCAAGGGGCAGGGAGGTGGGGGCC
Celera SNP ID:            hCV25473085
SNP Position Genomic:     75447
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(C,5|T,29)   total(C,6|T,64)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:51004):
CTATTGCTATTGGTGGTGGTGATAGTGGTGTTATGTAATAACCTCCAGACCCTGGGTCAGGCCCCAGGCTCACTTCTGGGGGAGTAGTGGGGACTATGGT
R
CCTTCTGTGCCTTCAAGGTGCTCTCAGGCTGGTGGGGAAGGGAGACAGGCAAATAGTTTTGGGGTCTCTGCTAAACATCCGGATGTAGGGCAACCCTGTG
Celera SNP ID:            hCV266843
SNP Position Genomic:     60342
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51005):
CAGGGTTGCCACAGATCTTCAATTTGTAACAAACACAGTGTCTGTGGAGTACACTAAAATGAGGTGTGCCTGTACTGACCTAGGTTGTTCAAGGCAGTGT
R
CACTGCCGGGTAGCTATTGCTATTGGTGGTGGTGATAGTGGTGTTATGTAATAACCTCCAGACCCTGGGTCAGGCCCCAGGCTCACTTCTGGGGGAGTAG
Celera SNP ID:            hCV266844
SNP Position Genomic:     60228
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,13)   total(G,13|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51006):
GATCCTGGGCCTCCTTTGTTTCTTCACTTGCCGCCTGGCCAGGCCGCTCAGGTAGGGGAACTCAGCTGGCCTGACTCCCCCTGCATCCCGCCAAATTCCC
Y
GCCCTAAGCTCGTTCAGCTTCCATTTGTTCTCGTGAGATGGAGCAAGCGGGGCACTCATTTCTCTTACTCTTCATGGTGGGGAAACCAAGGCCCGGAGAG
Celera SNP ID:            hCV27841693
SNP Position Genomic:     45361
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,8)   caucasian(C,2|T,28)   total(C,4|T,36)
SNP Type:                 INTRON


Context             (SEQ ID NO:51007):
TAGCCTGGCAGCCACTTTGATGTCACTCTGGGGTTGGGTTTCTGCAAGTTCCAGGACTGGCCCCTGGGGAGGCCTCGTGGGATGAGGCTGGGCCAAGAAC
R
AGGTGGGGGTAGGGACTAGGGAAGGGCCCCCGTGGGGTTGGTGGGGGTGTGGAACTGAGTGGCTTTGAACCCTTTCCATCCCTTCTGAGTCAGCTCAGGC
Celera SNP ID:            hCV27513696
SNP Position Genomic:     66919
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,342|A,399)   total(G,342|A,399) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51008):
ACCCCAAGCTCCAGCTCCTTGGAGTGGCCTCTGGCCCTTTAAATCTGAGCTGCTGGCCTGCGGGCCTGGGGCAGCTGGGGTCTGGAAATGACTGTGGTCA
S
GGCTGAAGACAGTGGGGAGTAGCCTGGCAGCCACTTTGATGTCACTCTGGGGTTGGGTTTCTGCAAGTTCCAGGACTGGCCCCTGGGGAGGCCTCGTGGG
Celera SNP ID:            hCV27513697
SNP Position Genomic:     66799
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   JBIC-allele(G,665|C,832)   total(G,665|C,832)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51009):
TGGAGCCTCTCCCTGCACGCATTCAGCCTTCCACCGTGGGAGAGGAGGCTCTGGGAGTCCCTGCCCTTAGCTGCACGAATACAGCAGGGCCCTAGTGCCA
Y
AGCCGGAAAAGCCCTGGGTTTGAATCCTGATGCTGCCACTTCCTGGCTCTGTGGCCTTCGGGGGAAAAAACCAATTTCTGTGCCCATTTTTTTAGTTGGA
Celera SNP ID:            hCV27513698
SNP Position Genomic:     65436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51010):
GGCTAAGTTTCGAAACAAATTTTATTTGTATAGACAGGGTCTTGCCATGTTGTCCAGGCTGGTCTCAAACTCCTGGCATCAAGTGATCCTCCCGCCTCAG
M
CTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCTGGCCAGTCGCATTTTATGGATAGGAAAACTGGGCTCACAGAGTTTAGGTGGCAGGCCCT
Celera SNP ID:            hCV26187930
SNP Position Genomic:     64676
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51011):
CAGGCGGCTGCTGTTATGCTCTTGGCCCTACTTTAAAAATAGTCAGAACTTCAAACATGGACTCCCAAGGAAAACAAACAGTCCCGCGTCCGTCTGCCCG
C
ACACACCAGCTGGTGGGTAAAATTAGCCTGGTGGTGACTACAGAGCCGTGAGGCCCGGCCCCGCTGTTTGCCCAGGCTGCGGTGGGCTGGCTCCCAGCTG
Celera SNP ID:            hCV26187931
SNP Position Genomic:     65209
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,14)   total(C,14|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51012):
AGGCGGCTGCTGTTATGCTCTTGGCCCTACTTTAAAAATAGTCAGAACTTCAAACATGGACTCCCAAGGAAAACAAACAGTCCCGCGTCCGTCTGCCCGC
A
CACACCAGCTGGTGGGTAAAATTAGCCTGGTGGTGACTACAGAGCCGTGAGGCCCGGCCCCGCTGTTTGCCCAGGCTGCGGTGGGCTGGCTCCCAGCTGT
Celera SNP ID:            hCV26187932
SNP Position Genomic:     65210
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,14)   total(A,14|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51013):
GGCATCTTGGAACCCTGCAGAAGTGATGGCTCCTGTCTCTTTTAGGTGATCATGGGGGGTGGCCGGAAATACATGTACCCCAAGAATAAAACTGATGTGG
R
GTATGAGAGTGACGAGAAAGCCAGGGGCACGAGGCTGGACGGCCTGGACCTCGTTGACACCTGGAAGAGCTTCAAACCGAGATACAAGGTAGCCTGTGCT
Celera SNP ID:            hCV26187933
SNP Position Genomic:     65984
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51014):
CTGTGGATAAAGCCAAACCCGCCCCTCCTGCACCCCAGGGAAATCTGTGGGCATTGTGACCACCACGAGAGTGAACCATGCCACCCCCAGCGCCGCCTAC
R
CCCACTCGGCTGACCGGGACTGGTACTCAGACAACGAGATGCCCCCTGAGGCCTTGAGCCAGGGCTGTAAGGACATCGCCTACCAGCTCATGCATAACAT
Celera SNP ID:            hCV27528476
SNP Position Genomic:     61928
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51015):
CCTGGAATTAGGCCTGAAATCTGCTGGCTGTGCAGGGGGATTAGCCTCATTGGGCACAAGAAGAAACTGAAGCTCAGAGAGGGGAGTGGCCCGCGGCATG
Y
GGCACAAGTGACAGCGGTACGGCCCAGGCAAGTTTGAGCCCTGGCTGGGAACTGGGACTTAACAGCTCCTGGGCTATGGAGCCTGGGACCTGGAGTCAGC
Celera SNP ID:            hCV26187936
SNP Position Genomic:     68461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51016):
TAGGCCTGAAATCTGCTGGCTGTGCAGGGGGATTAGCCTCATTGGGCACAAGAAGAAACTGAAGCTCAGAGAGGGGAGTGGCCCGCGGCATGTGGCACAA
S
TGACAGCGGTACGGCCCAGGCAAGTTTGAGCCCTGGCTGGGAACTGGGACTTAACAGCTCCTGGGCTATGGAGCCTGGGACCTGGAGTCAGCTCTACTGT
Celera SNP ID:            hCV26187937
SNP Position Genomic:     68469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51017):
TTAGCCCAACTGCCTGTGAGGCCCAGGGTTAGGTGCTGGAATCACAGATGGATCTGCCCTGGATTTTGCCTTCAAAGAGTGTGTGTAGGCTGGGCTCCGC
R
GCTCACGCCTGTAGTCCCAGCACTTTGGGAGGCCAAGGCCAGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCTCGTC
Celera SNP ID:            hCV28011295
SNP Position Genomic:     23519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51018):
AAAAGATCTACCAGGTGACCCTTTTTTAGACTGAGTATCGCTCTGTTCCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTACAACCTCCGCCTCC
Y
GGGTTCCAGAGATTCTCCTGCCTCAGCCTCCCATGTAGCTGGGATTACAGGCACATGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACATGG
Celera SNP ID:            hCV26187938
SNP Position Genomic:     13281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51019):
TAAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGGGAGCCGAGATCGCACCACTGCACTCCAGCCTGGACAACAGAGTGAGACTCTGTCTC
A
AAAAAAAAAAAGAAAAGAAAAGAAAAAGAAAAAAGAAAAAAAAAGGAATTGGGGGCCTAATTCTGGGCCCACAAAAATCACCCAGATAAGGATCCTCCCA
Celera SNP ID:            hCV26187939
SNP Position Genomic:     71262
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,8)   total(A,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51020):
CAGGTAGGGGAACTCAGCTGGCCTGACTCCCCCTGCATCCCGCCAAATTCCCTGCCCTAAGCTCGTTCAGCTTCCATTTGTTCTCGTGAGATGGAGCAAG
M
GGGGCACTCATTTCTCTTACTCTTCATGGTGGGGAAACCAAGGCCCGGAGAGGTTGAGCCCTGGCGTCAGCCTGGGCTTAAATGGCGCATAGTCGAAGAC
Celera SNP ID:            hCV27853576
SNP Position Genomic:     45409
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,7)   caucasian(A,2|C,22)   total(A,3|C,29)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51021):
TGGAGCGGCCTCTCCTGGCGTGCTCACCTGGGTGCTGGCGTCTTGGCACTTGTCAGGGTGGAGAGAGGAGGAAGCCAGTCAAGAAGGGGAAAGACGGGTG
Y
GGGAGGACATTCACTGATTCAACAAACATCTCATTAGCCCAACTGCCTGTGAGGCCCAGGGTTAGGTGCTGGAATCACAGATGGATCTGCCCTGGATTTT
Celera SNP ID:            hCV12008683
SNP Position Genomic:     23385
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51022):
AAAATGTTGGGATTAACAGGCGGTGAGCCACCAGGCCTGGCATATTTTTCAGTTTTTAAAGCCATTTCTTTTTTCTCTTTTTTTTTTTTTTTTTTTGAGA
Y
GGAGTCTCGCCCTGTCGCCCAGGATGGAGTGCAGTGGCTTGATCTTGGCTCACTGCAGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCTGGAGT
Celera SNP ID:            hCV11550463
SNP Position Genomic:     18290
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51023):
GGGACCCCGGGTCTGCTGAGAGGGGGCTGCTGGAAACACGGCCCTGGTGTCAGGATGGAGAAGTCCAGCTCTTAAAGGGAACTGACTGGTTTGGGGGTGA
M
GGGAGAGGTCCCTTTAGGAGAATAGGTTGTGGAAGGAGACGGGTGGCACTGTAGACACTCCCAGCCCAGCAAGCTGCTCTCCTTTGGGCATGGAGATGCA
Celera SNP ID:            hCV26187940
SNP Position Genomic:     71728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51024):
GGACCCCGGGTCTGCTGAGAGGGGGCTGCTGGAAACACGGCCCTGGTGTCAGGATGGAGAAGTCCAGCTCTTAAAGGGAACTGACTGGTTTGGGGGTGAA
K
GGAGAGGTCCCTTTAGGAGAATAGGTTGTGGAAGGAGACGGGTGGCACTGTAGACACTCCCAGCCCAGCAAGCTGCTCTCCTTTGGGCATGGAGATGCAA
Celera SNP ID:            hCV26187941
SNP Position Genomic:     71729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51025):
GGCTGCTGGAAACACGGCCCTGGTGTCAGGATGGAGAAGTCCAGCTCTTAAAGGGAACTGACTGGTTTGGGGGTGAAGGGAGAGGTCCCTTTAGGAGAAT
R
GGTTGTGGAAGGAGACGGGTGGCACTGTAGACACTCCCAGCCCAGCAAGCTGCTCTCCTTTGGGCATGGAGATGCAAGTTAGGTTCAGCAATCCAGGAAG
Celera SNP ID:            hCV26187942
SNP Position Genomic:     71752
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,265|G,1228)   total(G,1228|A,265)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51026):
GTCAGGATGGAGAAGTCCAGCTCTTAAAGGGAACTGACTGGTTTGGGGGTGAAGGGAGAGGTCCCTTTAGGAGAATAGGTTGTGGAAGGAGACGGGTGGC
R
CTGTAGACACTCCCAGCCCAGCAAGCTGCTCTCCTTTGGGCATGGAGATGCAAGTTAGGTTCAGCAATCCAGGAAGGCTTCCTGGGAGAGGAGGCAGATT
Celera SNP ID:            hCV26187943
SNP Position Genomic:     71776
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,665|G,820)   total(G,820|A,665) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51027):
GGCATGGAGATGCAAGTTAGGTTCAGCAATCCAGGAAGGCTTCCTGGGAGAGGAGGCAGATTTCTCCCCTTTGGTAGTCTTTCTTGGGGACCTGGCCCTG
R
AGGGGCAAGCAGCCCCTCAGCCTCACTGCCCAGAAAAGCAAATCCGCAGGCCCCGGCTTTCCCACGCTGTGTGCTGATGTTCCCAGGCTCTTTCAGCGCC
Celera SNP ID:            hCV26187944
SNP Position Genomic:     71915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51028):
GAGATGCAAGTTAGGTTCAGCAATCCAGGAAGGCTTCCTGGGAGAGGAGGCAGATTTCTCCCCTTTGGTAGTCTTTCTTGGGGACCTGGCCCTGAAGGGG
Y
AAGCAGCCCCTCAGCCTCACTGCCCAGAAAAGCAAATCCGCAGGCCCCGGCTTTCCCACGCTGTGTGCTGATGTTCCCAGGCTCTTTCAGCGCCGGCCAG
Celera SNP ID:            hCV26187945
SNP Position Genomic:     71921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51029):
GGAAGTGTGAGGAAGTGATAAAGATTCCAGAAACCTTCCAGTGCTAACAGCCCTTGCCCACCGCAGTTCCTCATGTTGCCCTGCTAACATCGGTATGTAT
M
CACACACATGCACACACGTGAACATGTTTGCACATATGCTCCCCACGCATACACACATGCTCAGCGCCTCCGCCTTCCAGAGGTGAGCGTCCGCCAGCCC
Celera SNP ID:            hCV26187946
SNP Position Genomic:     72358
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|-,9)   total(A,2|C,2|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51030):
CCTCCCTCACCGAGGCCTTTGCCTTGGTGTCCCAAGGAGGCAGAATTGACCACGGGCACCATGAAGGAAAAGCCAAGCAGGCCCTGCATGAGGCGGTGGA
S
ATGGACCGGGCCATCGGGCAGGCAGGCAGCTTGACCTCCTCGGAAGACACTCTGACCGTGGTCACTGCGGACCATTCCCACGTCTTCACATTTGGTGGAT
Celera SNP ID:            hCV26187947
SNP Position Genomic:     73622
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51031):
TCATCATGTTCCTGGGAGATGGTGAGGCCCAGGGGCCTGTGGGAGGGGTGGAACAGGACACCTAGCTAGGAGCCCCGGGAGCCAGGCTGAGTTGAAGGGG
K
CTGTGTTGAAGGGGCTAGGGCTCTGGAGGAAGGGTGTTTAAAAGGATGAGGGGCCAGGCTGTGGATTCAAGAGGCCTGCTCTGCCAGACAGCCCCCTGAG
Celera SNP ID:            hCV27471404
SNP Position Genomic:     58651
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,7|G,1482)   total(G,1482|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51032):
AAAGCCAAGCAGGCCCTGCATGAGGCGGTGGAGATGGACCGGGCCATCGGGCAGGCAGGCAGCTTGACCTCCTCGGAAGACACTCTGACCGTGGTCACTG
Y
GGACCATTCCCACGTCTTCACATTTGGTGGATACACCCCCCGTGGCAACTCTATCTTTGGTAGGTGGGCCTTCTTTGGGGTGGACACTCCTGGGGTCTCC
Celera SNP ID:            hCV26187948
SNP Position Genomic:     73690
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51033):
CTGGATGATGGATGGATGATGGATGGATGGATGGATGGATGGATGGATGGATGATGGATGGATGGATGGGTGGATGGATGGATGGATGGGTGGATGGATG
R
ATGGGAGGGACATGGGTACAATGAAAACTGGGGAATGGTTAGTTGGAAATAATAAGGTTTAGAAGGTGGCTTCTTGGAGGCATTGCAGGGCCCTTCAAAG
Celera SNP ID:            hCV26187949
SNP Position Genomic:     74127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51034):
GATAGTCAGTGACTAATCATTTCCTTCCCTTGGAGGGGATACCAGAGAGAGGCGGATGGTGAGGAGGAGGCTGGGCCAGGGAATAACCTGCGTGGACATT
S
AGTCACCCTGAGCACCTATTGTATGTAGGCACCTGGCGGGGCATGCGTGAGGCACAGAGGCTGAGTCAGATGGCCAAGGAAACATGGAATGCTGTGTGCC
Celera SNP ID:            hCV25471575
SNP Position Genomic:     66327
SNP Source:               Applera
Population(Allele,Count): african american(C,11|G,25)   caucasian(C,4|G,36)   total(C,15|G,61)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   JBIC-allele(G,584|C,719)   total(G,584|C,719)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51035):
GCCTCTTATTTTTCTAGCGAACGTATTTCTCCAGACCCAGAGGCCCTGAAGCCTCCGTGGAACATTCTGGATCTGACCCTCCCAGTCTCATCTCCTGACC
Y
TCCCACTCCCATCTCCTTACCTCTGGAACCCCCCAGGCCCTACAATGCTCATGTCCCTGTCCCCAGGCCCAGCCCTCCTTCAGGGGAGTTGAGGTCTTTC
Celera SNP ID:            hCV16174303
SNP Position Genomic:     75845
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,263|C,1238)   total(C,1238|T,263) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:51036):
GGGCCCCAGCATGACCCCTGAACACCCCCTCCCTGTGCAGGTCTGGCCCCCATGCTGAGTGACACAGACAAGAAGCCCTTCACTGCCATCCTGTATGGCA
R
TGGGCCTGGCTACAAGGTGGTGGGCGGTGAACGAGAGAATGTCTCCATGGTGGACTATGGTGAGACCTCCAGGACCCAGGGCTGGGAGGGGACAGGGCAC
Celera SNP ID:            hCV26187950
SNP Position Genomic:     74391
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51037):
TGAACACCCCCTCCCTGTGCAGGTCTGGCCCCCATGCTGAGTGACACAGACAAGAAGCCCTTCACTGCCATCCTGTATGGCAATGGGCCTGGCTACAAGG
Y
GGTGGGCGGTGAACGAGAGAATGTCTCCATGGTGGACTATGGTGAGACCTCCAGGACCCAGGGCTGGGAGGGGACAGGGCACCCCTCGGGGATGGGCTTG
Celera SNP ID:            hCV26187951
SNP Position Genomic:     74409
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51038):
GCAGGCTCTCAGCAGGTGTTTCCCCTGGCCCACAGCTCACAACAACTACCAGGCGCAGTCTGCTGTGCCCCTGCGCCACGAGACCCACGGCGGGGAGGAC
R
TGGCCGTCTTCTCCAAGGGCCCCATGGCGCACCTGCTGCACGGCGTCCACGAGCAGAACTACGTCCCCCACGTGATGGCGTATGCAGCCTGCATCGGGGC
Celera SNP ID:            hCV26187952
SNP Position Genomic:     75257
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51039):
GCGCAGTCTGCTGTGCCCCTGCGCCACGAGACCCACGGCGGGGAGGACGTGGCCGTCTTCTCCAAGGGCCCCATGGCGCACCTGCTGCACGGCGTCCACG
R
GCAGAACTACGTCCCCCACGTGATGGCGTATGCAGCCTGCATCGGGGCCAACCTCGGCCACTGTGCTCCTGCCAGCTCGGCAGGCAGCCTTGCTGCAGGC
Celera SNP ID:            hCV26187953
SNP Position Genomic:     75309
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51040):
GGAGGACGTGGCCGTCTTCTCCAAGGGCCCCATGGCGCACCTGCTGCACGGCGTCCACGAGCAGAACTACGTCCCCCACGTGATGGCGTATGCAGCCTGC
W
TCGGGGCCAACCTCGGCCACTGTGCTCCTGCCAGCTCGGCAGGCAGCCTTGCTGCAGGCCCCCTGCTGCTCGCGCTGGCCCTCTACCCCCTGAGCGTCCT
Celera SNP ID:            hCV26187954
SNP Position Genomic:     75350
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51041):
AGCAGGCTGATTGGAGAGGCAGGAGCACGAGAGACTGAGGCCCCCACTCCCCACTGCAGGGATGGGTGTCTCCACAGTGACGGCTGCCCGCATCCTCAAG
R
GTCAGCTCCACCACAACCCTGGGGAGGAGACCAGGCTGGAGATGGACAAGTTCCCCTTCGTGGCCCTCTCCAAGGTGAGCCCCATCCCCAAGCCCAGTTC
Celera SNP ID:            hCV12006665
SNP Position Genomic:     58964
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51042):
GAAGAGCTTCAAACCGAGATACAAGGTAGCCTGTGCTGGGGCCATGTGGCTGCAGAGGTGGCCTGTGATGGGGAGAGGCTGTGTGACCCCTGCTCTGAAG
Y
TCTGTTGTCCTCTGTAGAAAGGGCATCGGAAATCTTTCCTCCATGGGCTCAAATGGCCTAAGAGATATACAAGCAGTAGATAGTCAGTGACTAATCATTT
Celera SNP ID:            hCV25471580
SNP Position Genomic:     66148
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,24)   caucasian(C,4|T,36)   total(C,14|T,60)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,674|C,825)   total(C,825|T,674) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51043):
CGCGGCTCACGCCTGTAGTCCCAGCACTTTGGGAGGCCAAGGCCAGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCT
Y
GTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCGCGTGCCTGTAATCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGA
Celera SNP ID:            hCV26187886
SNP Position Genomic:     23616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51044):
GCCTCCCAGGTTCAAGCTATTCTCCTGCATCAGCCTCTGGAGTAGCTGGGACTACAGGCATGTACCACCATACCTGGCTAATTTTTGTATTTTTAGTAGA
R
ATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCT
Celera SNP ID:            hCV26187887
SNP Position Genomic:     24126
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51045):
GCCACTGGGGCGAAGGCCTGGCCATCTCCTGACCCTCCTCTCCCACCTGCAGACGTACAACACCAATGCCCAGGTCCCTGACAGCGCCGGCACCGCCACC
R
CCTACCTGTGTGGGGTGAAGGCCAATGAGGGCACCGTGGGGGTAAGCGCAGCCACTGAGCGTTCCCGGTGCAACACCACCCAGGGGAACGAGGTCACCTC
Celera SNP ID:            hCV12006668
SNP Position Genomic:     60983
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51046):
CCTTCTGTAGTTTGGTCAATTCGACATTTATTCCATTTGTAAGTGTTCTGTTTTTTGCTAAACCTTTAGGATGTTTTCATTGTGTGTACGTGTTTTTTTT
Y
TGTTTTGTTTTTTTGTTTTTTTGTTTTTTTTGAGACAGTCTTGCTCTGTCACCCAGGCTGGAGTGTAGTGGCACGATCACTGCTCATACAGCCTCAACCT
Celera SNP ID:            hCV26187888
SNP Position Genomic:     25800
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51047):
TCTGTAGTTTGGTCAATTCGACATTTATTCCATTTGTAAGTGTTCTGTTTTTTGCTAAACCTTTAGGATGTTTTCATTGTGTGTACGTGTTTTTTTTTTG
T
TTTGTTTTTTTGTTTTTTTGTTTTTTTTGAGACAGTCTTGCTCTGTCACCCAGGCTGGAGTGTAGTGGCACGATCACTGCTCATACAGCCTCAACCTCCC
Celera SNP ID:            hCV26187889
SNP Position Genomic:     25803
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51048):
CCCTGGGTTGTCATGAGCATGACATGAACTTGTGTTGTATAAGTTATCTGTTGCTGTATAACAAATTATCTCAAAACTTAGGCCAGGTGCAGGCCGGGTG
Y
AGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGAGCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACGAGGTGAAACCCCA
Celera SNP ID:            hCV28008529
SNP Position Genomic:     69225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51049):
TTAGTTGGAAATAATAAGGTTTAGAAGGTGGCTTCTTGGAGGCATTGCAGGGCCCTTCAAAGAAGATCCCAGGGGTTACCAAGCCACCAAGGAGCCTAAT
M
TGGGGGCTGGGGACTGTACTCCTGGGGCCCCAGCATGACCCCTGAACACCCCCTCCCTGTGCAGGTCTGGCCCCCATGCTGAGTGACACAGACAAGAAGC
Celera SNP ID:            hCV25474203
SNP Position Genomic:     74266
SNP Source:               Applera
Population(Allele,Count): african american(A,19|C,19)   caucasian(A,9|C,29)   total(A,28|C,48)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   JBIC-allele(C,472|A,617)   total(A,617|C,472) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51050):
CATTTATTCCATTTGTAAGTGTTCTGTTTTTTGCTAAACCTTTAGGATGTTTTCATTGTGTGTACGTGTTTTTTTTTTGTTTTGTTTTTTTGTTTTTTTG
K
TTTTTTTGAGACAGTCTTGCTCTGTCACCCAGGCTGGAGTGTAGTGGCACGATCACTGCTCATACAGCCTCAACCTCCCCAAATAAAGTGATCCTCCCAC
Celera SNP ID:            hCV26187890
SNP Position Genomic:     25824
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,10)   total(G,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51051):
CTGGGCTTAAGCGATCCTCCTGCCGTGGCCTCCCAAGGTGCTGAGATTTACAGGAGTGACCTATTCAGGCATGAGATTACATGCCTGACCTATTCAGTTT
Y
TTTTTTTTTTTTTTTTTTTGAGGCGGAATCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACCGCAACCTCTGCCTCCTGGATTC
Celera SNP ID:            hCV26187891
SNP Position Genomic:     26137
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,10)   total(C,10|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51052):
TGGGCTTAAGCGATCCTCCTGCCGTGGCCTCCCAAGGTGCTGAGATTTACAGGAGTGACCTATTCAGGCATGAGATTACATGCCTGACCTATTCAGTTTC
T
TTTTTTTTTTTTTTTTTTGAGGCGGAATCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACCGCAACCTCTGCCTCCTGGATTCA
Celera SNP ID:            hCV26187892
SNP Position Genomic:     26138
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,11)   total(T,11|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51053):
GACCTATTCAGTTTCTTTTTTTTTTTTTTTTTTTGAGGCGGAATCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACCGCAACCT
S
TGCCTCCTGGATTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACGGGCATGTGCCACCATGCCTGGCTAATTTTTTTTTGTATTTTTA
Celera SNP ID:            hCV26187893
SNP Position Genomic:     26223
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,13)   total(G,3|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51054):
GAGGCGGAATCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACCGCAACCTCTGCCTCCTGGATTCAAGCAATTCTCCTGCCTCA
R
CCTCCCAAGTAGCTGGGATTACGGGCATGTGCCACCATGCCTGGCTAATTTTTTTTTGTATTTTTAGTAGAGATGAGATTTCACCATATTGGCCAGACTG
Celera SNP ID:            hCV26187894
SNP Position Genomic:     26257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51055):
GTGGTGTGATCTCAGCTCACCGCAACCTCTGCCTCCTGGATTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACGGGCATGTGCCACCA
Y
GCCTGGCTAATTTTTTTTTGTATTTTTAGTAGAGATGAGATTTCACCATATTGGCCAGACTGGTCTCGGACTCCTGACCTTGTGATCCACCCACCTTGAC
Celera SNP ID:            hCV26187895
SNP Position Genomic:     26295
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51056):
AATTTTTTTTTGTATTTTTAGTAGAGATGAGATTTCACCATATTGGCCAGACTGGTCTCGGACTCCTGACCTTGTGATCCACCCACCTTGACCTCCCAAA
R
TGCTGGGATTACAGACGTGAGCCTCCGCTCCCGGCCGACCTATTCAGTTTCTTAATGGTATGTTTTGATAACAAGAGGTTTTCAATTTTGATGAAGTCCA
Celera SNP ID:            hCV26187896
SNP Position Genomic:     26404
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51057):
CACCCCGATCTGTGGATAAAGCCAAACCCGCCCCTCCTGCACCCCAGGGAAATCTGTGGGCATTGTGACCACCACGAGAGTGAACCATGCCACCCCCAGC
R
CCGCCTACGCCCACTCGGCTGACCGGGACTGGTACTCAGACAACGAGATGCCCCCTGAGGCCTTGAGCCAGGGCTGTAAGGACATCGCCTACCAGCTCAT
Celera SNP ID:            hCV12006677
SNP Position Genomic:     61919
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:51058):
CTCCTGACCTTGTGATCCACCCACCTTGACCTCCCAAAATGCTGGGATTACAGACGTGAGCCTCCGCTCCCGGCCGACCTATTCAGTTTCTTAATGGTAT
S
TTTTGATAACAAGAGGTTTTCAATTTTGATGAAGTCCAATTTACCTTTTTTTTCTTTTATGGAATTAGTATTCTTTGCCTAACCCAAAGTCATGAAAATA
Celera SNP ID:            hCV26187897
SNP Position Genomic:     26466
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51059):
GATAACAAGAGGTTTTCAATTTTGATGAAGTCCAATTTACCTTTTTTTTCTTTTATGGAATTAGTATTCTTTGCCTAACCCAAAGTCATGAAAATATTAT
S
GAGTCAGGGCCGGGCGTCGTGGCTCATACATGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGG
Celera SNP ID:            hCV26187898
SNP Position Genomic:     26571
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51060):
ATGGAGTTTCATTGTGTTGCCCAGGCTGGTCTCAAACTCTTGGGCTCAAGTAATCCACCCGCCTTGGCTTCCTAGAGTGCTGGGATTACAGGTGTGAGCC
M
CCGCATCTGGTCCTGTTAATGGTTTTTCTTTAGAATTCATTGTGCTATGGCTGGTAGTGGCGTGGGGTGGGATTCGGGGAGCCATGCACTTCTTGCCCTT
Celera SNP ID:            hCV26187899
SNP Position Genomic:     27853
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,13)   total(A,13|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51061):
TACAACACCAATGCCCAGGTCCCTGACAGCGCCGGCACCGCCACCGCCTACCTGTGTGGGGTGAAGGCCAATGAGGGCACCGTGGGGGTAAGCGCAGCCA
M
TGAGCGTTCCCGGTGCAACACCACCCAGGGGAACGAGGTCACCTCCATCCTGCGCTGGGCCAAGGACGCTGGTGAGTCGGGGGAGCAGTGGGGAGCAGGG
Celera SNP ID:            hCV707400
SNP Position Genomic:     61038
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51062):
ACCAATGCCCAGGTCCCTGACAGCGCCGGCACCGCCACCGCCTACCTGTGTGGGGTGAAGGCCAATGAGGGCACCGTGGGGGTAAGCGCAGCCACTGAGC
R
TTCCCGGTGCAACACCACCCAGGGGAACGAGGTCACCTCCATCCTGCGCTGGGCCAAGGACGCTGGTGAGTCGGGGGAGCAGTGGGGAGCAGGGCCAGCT
Celera SNP ID:            hCV707401
SNP Position Genomic:     61044
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51063):
AACCCGCCCCTCCTGCACCCCAGGGAAATCTGTGGGCATTGTGACCACCACGAGAGTGAACCATGCCACCCCCAGCGCCGCCTACGCCCACTCGGCTGAC
Y
GGGACTGGTACTCAGACAACGAGATGCCCCCTGAGGCCTTGAGCCAGGGCTGTAAGGACATCGCCTACCAGCTCATGCATAACATCAGGGACATTGACGT
Celera SNP ID:            hCV707406
SNP Position Genomic:     61943
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51064):
GGGAAATCTGTGGGCATTGTGACCACCACGAGAGTGAACCATGCCACCCCCAGCGCCGCCTACGCCCACTCGGCTGACCGGGACTGGTACTCAGACAACG
R
GATGCCCCCTGAGGCCTTGAGCCAGGGCTGTAAGGACATCGCCTACCAGCTCATGCATAACATCAGGGACATTGACGTGAGTGCTCGGGGGCAGCCGGGC
Celera SNP ID:            hCV707408
SNP Position Genomic:     61965
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51065):
AGAGTGAACCATGCCACCCCCAGCGCCGCCTACGCCCACTCGGCTGACCGGGACTGGTACTCAGACAACGAGATGCCCCCTGAGGCCTTGAGCCAGGGCT
R
TAAGGACATCGCCTACCAGCTCATGCATAACATCAGGGACATTGACGTGAGTGCTCGGGGGCAGCCGGGCAGGGACGGGGTGAGGCGGGGCCTCTGGTGG
Celera SNP ID:            hCV707409
SNP Position Genomic:     61995
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51066):
TCATCTGAGGCCACAGAGTACTGGCCAGAGAGGAGACATAGATCCCCAGAATTTCAGTTGGAAGGCCTTTAGAAGCTGGCTCGGTCAACTGGGCTCTTGG
Y
GCACCAGGGAGACTGAGGCCCAGAGAGGAGAAGAGGCTTGCCCAGGGTCACACAATTGCTTAGGGCAGAGTGGACTGGGAATTCAGTCTCCTGGCCTTAA
Celera SNP ID:            hCV9397603
SNP Position Genomic:     10997
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51067):
CCCGATCTGTGGATAAAGCCAAACCCGCCCCTCCTGCACCCCAGGGAAATCTGTGGGCATTGTGACCACCACGAGAGTGAACCATGCCACCCCCAGCGCC
R
CCTACGCCCACTCGGCTGACCGGGACTGGTACTCAGACAACGAGATGCCCCCTGAGGCCTTGAGCCAGGGCTGTAAGGACATCGCCTACCAGCTCATGCA
Celera SNP ID:            hCV12006683
SNP Position Genomic:     61922
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51068):
GTCTCTTTTAGGTGATCATGGGGGGTGGCCGGAAATACATGTACCCCAAGAATAAAACTGATGTGGAGTATGAGAGTGACGAGAAAGCCAGGGGCACGAG
K
CTGGACGGCCTGGACCTCGTTGACACCTGGAAGAGCTTCAAACCGAGATACAAGGTAGCCTGTGCTGGGGCCATGTGGCTGCAGAGGTGGCCTGTGATGG
Celera SNP ID:            hCV707411
SNP Position Genomic:     66018
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51069):
GAATAAAACTGATGTGGAGTATGAGAGTGACGAGAAAGCCAGGGGCACGAGGCTGGACGGCCTGGACCTCGTTGACACCTGGAAGAGCTTCAAACCGAGA
Y
ACAAGGTAGCCTGTGCTGGGGCCATGTGGCTGCAGAGGTGGCCTGTGATGGGGAGAGGCTGTGTGACCCCTGCTCTGAAGTTCTGTTGTCCTCTGTAGAA
Celera SNP ID:            hCV707412
SNP Position Genomic:     66067
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,22)   caucasian(C,4|T,36)   total(C,16|T,58)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGMD;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51070):
CCTGGCTACAAGGTGGTGGGCGGTGAACGAGAGAATGTCTCCATGGTGGACTATGGTGAGACCTCCAGGACCCAGGGCTGGGAGGGGACAGGGCACCCCT
Y
GGGGATGGGCTTGGGAATAGGGTGTCAGCTTGTGGTCAAGGTCAGGGGTCTCAGAATGACTGGGGCTTGAGTCCCAGTTTGATTGTTGAGTCCCAGGTTG
Celera SNP ID:            hCV25620558
SNP Position Genomic:     74496
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36|T,2)   total(C,73|T,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51071):
GTGTCAGAACAGGCTCAGGTTCAAATCCCGTGGCCTTAGGCAAAATGACTTTCCCACATTGAGCCTCCTTTTCCTCTTCTGTGAAATGGGAGCATTCAAG
S
CAGCCTGGAAGGGAGATGGAAAAGCTGCGTGCGCAGCGCCAGGCCCCTGGCAGGCTCTCAGCAGGTGTTTCCCCTGGCCCACAGCTCACAACAACTACCA
Celera SNP ID:            hCV25620559
SNP Position Genomic:     75107
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,3)   caucasian(C,40)   total(C,73|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:51072):
GGGTCACAGCCTCTCAGCATCCACATCCTCCTGGCGTCCTCCTCAGGTCTCTTCGAGCCAGGGGACATGCAGTACGAGCTGAACAGGAACAACGTGACGG
W
CCCGTCACTCTCCGAGATGGTGGTGGTGGCCATCCAGATCCTGCGGAAGAACCCCAAAGGCTTCTTCTTGCTGGTGGAAGGTAGGGACCCCGGGTCTGCT
Celera SNP ID:            hCV707418
SNP Position Genomic:     71544
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51073):
GCCAAGCAGGCCCTGCATGAGGCGGTGGAGATGGACCGGGCCATCGGGCAGGCAGGCAGCTTGACCTCCTCGGAAGACACTCTGACCGTGGTCACTGCGG
W
CCATTCCCACGTCTTCACATTTGGTGGATACACCCCCCGTGGCAACTCTATCTTTGGTAGGTGGGCCTTCTTTGGGGTGGACACTCCTGGGGTCTCCTGT
Celera SNP ID:            hCV27531239
SNP Position Genomic:     73693
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51074):
CTGGCCAGCACCTTGATGGTGGGAACCACGCCTGCTTTTTAACCACTTAATCCTGGAAGTGACATACATCACTTCCGCCCTTAGTGCATTGGCAAGAACC
R
GTCCTGTGATCCTTCCTGGATGCGAGGAAAGCTAGGAAATGCCGTCTTCGCTTGGGCTACCGCTGCCACCAACACCAACACAGCAGGTTCTCATCCTGGG
Celera SNP ID:            hCV7476301
SNP Position Genomic:     81964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:51075):
GGAGCAGATCTTCCTCCCCTCCTCCCTCACCGAGGCCTTTGCCTTGGTGTCCCAAGGAGGCAGAATTGACCACGGGCACCATGAAGGAAAAGCCAAGCAG
R
CCCTGCATGAGGCGGTGGAGATGGACCGGGCCATCGGGCAGGCAGGCAGCTTGACCTCCTCGGAAGACACTCTGACCGTGGTCACTGCGGACCATTCCCA
Celera SNP ID:            hCV707421
SNP Position Genomic:     73602
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51076):
GCCCTGCATGAGGCGGTGGAGATGGACCGGGCCATCGGGCAGGCAGGCAGCTTGACCTCCTCGGAAGACACTCTGACCGTGGTCACTGCGGACCATTCCC
R
CGTCTTCACATTTGGTGGATACACCCCCCGTGGCAACTCTATCTTTGGTAGGTGGGCCTTCTTTGGGGTGGACACTCCTGGGGTCTCCTGTCTACCCACC
Celera SNP ID:            hCV707422
SNP Position Genomic:     73702
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51077):
TCTCAGCAGGTGTTTCCCCTGGCCCACAGCTCACAACAACTACCAGGCGCAGTCTGCTGTGCCCCTGCGCCACGAGACCCACGGCGGGGAGGACGTGGCC
R
TCTTCTCCAAGGGCCCCATGGCGCACCTGCTGCACGGCGTCCACGAGCAGAACTACGTCCCCCACGTGATGGCGTATGCAGCCTGCATCGGGGCCAACCT
Celera SNP ID:            hCV25620569
SNP Position Genomic:     75263
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51078):
CAACTACCAGGCGCAGTCTGCTGTGCCCCTGCGCCACGAGACCCACGGCGGGGAGGACGTGGCCGTCTTCTCCAAGGGCCCCATGGCGCACCTGCTGCAC
R
GCGTCCACGAGCAGAACTACGTCCCCCACGTGATGGCGTATGCAGCCTGCATCGGGGCCAACCTCGGCCACTGTGCTCCTGCCAGCTCGGCAGGCAGCCT
Celera SNP ID:            hCV707429
SNP Position Genomic:     75299
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51079):
AAAGTCTGCCGCCCACCTCGCTCCCCTCTGGAATCTTCCCCAAGGGCCAAACCCACTTCTGGCCTCCAGCCTTTGCTCCCTCCCCGCTGCCCTTTGGCCA
M
CAGGGTAGATTTCTCTTGGGCAGGCAGAGAGTACAGACTGCAGACATTCTCAAAGCCTCTTATTTTTCTAGCGAACGTATTTCTCCAGACCCAGAGGCCC
Celera SNP ID:            hCV7476314
SNP Position Genomic:     75690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:51080):
ACCGCGAGGCTCAGACTGGTGGGAACAGAGGGCTGCCTGGCGCCCAGGACCCTCCAAGCTGGGAGTGTCCACCAGGCAGCGCCCTCCTGTTAGCAAGGGA
R
GTGTTCCTTTAAGGTCACAGAGCCCTCGGCTGCTGGGCCAAGCCTCCAGCCAGGCCCCTGCACTCACCCGGAGGTGGGAAGCGGGGGCGGAGGCTGCGAG
Celera SNP ID:            hCV7476316
SNP Position Genomic:     72789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51081):
CCCACGTGATGGCGTATGCAGCCTGCATCGGGGCCAACCTCGGCCACTGTGCTCCTGCCAGCTCGGCAGGCAGCCTTGCTGCAGGCCCCCTGCTGCTCGC
K
CTGGCCCTCTACCCCCTGAGCGTCCTGTTCTGAGGGCCCAGGGCCCGGGCACCCACAAGCCCGTGACAGATGCCAACTTCCCACACGGCAGCCCCCCCCT
Celera SNP ID:            hCV25620570
SNP Position Genomic:     75424
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,39|T,1)   total(G,77|T,1)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:51082):
GGAGGCATAAAAAGGTGGTGCAGATGGGGTATGATGAGGGCAGTGTCTATGTTTTAAGGTCCCAGAACCATCCAAAGTATTTAAGAGCTGAAAACAGTGT
W
CAGAGCAGGAAACCTCAGCCCTGCTACTTGCATGTGTTAGTTGGATAGGTCACTCTTTTCCCATATATATATATATATATACACACATACACATATATGA
Celera SNP ID:            hCV25620571
SNP Position Genomic:     52109
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,40)   total(A,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:51083):
GGAAGGGTGTTTAAAAGGATGAGGGGCCAGGCTGTGGATTCAAGAGGCCTGCTCTGCCAGACAGCCCCCTGAGGATCTGGGGGTGAAGGGAGAGAGGGGC
Y
GCTCACTGACATTTACAGAGCCATGCCCAGTGCCAACTGCCCGAGCCTGCCTTGGTACCGAACTAGAGAGCTTCTGGGTACCCAAGCAGGCTGATTGGAG
Celera SNP ID:            hCV25620572
SNP Position Genomic:     58779
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:51084):
TCATGAGCATGACATGAACTTGTGTTGTATAAGTTATCTGTTGCTGTATAACAAATTATCTCAAAACTTAGGCCAGGTGCAGGCCGGGTGCAGTGGCTCA
Y
GCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGAGCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACGAGGTGAAACCCCATCTCTACTAA
Celera SNP ID:            hCV28030221
SNP Position Genomic:     69235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51085):
GGCGCAGTCTGCTGTGCCCCTGCGCCACGAGACCCACGGCGGGGAGGACGTGGCCGTCTTCTCCAAGGGCCCCATGGCGCACCTGCTGCACGGCGTCCAC
R
AGCAGAACTACGTCCCCCACGTGATGGCGTATGCAGCCTGCATCGGGGCCAACCTCGGCCACTGTGCTCCTGCCAGCTCGGCAGGCAGCCTTGCTGCAGG
Celera SNP ID:            hCV707430
SNP Position Genomic:     75308
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51086):
TCTGCTGTGCCCCTGCGCCACGAGACCCACGGCGGGGAGGACGTGGCCGTCTTCTCCAAGGGCCCCATGGCGCACCTGCTGCACGGCGTCCACGAGCAGA
W
CTACGTCCCCCACGTGATGGCGTATGCAGCCTGCATCGGGGCCAACCTCGGCCACTGTGCTCCTGCCAGCTCGGCAGGCAGCCTTGCTGCAGGCCCCCTG
Celera SNP ID:            hCV707431
SNP Position Genomic:     75315
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51087):
GGGGAGGACGTGGCCGTCTTCTCCAAGGGCCCCATGGCGCACCTGCTGCACGGCGTCCACGAGCAGAACTACGTCCCCCACGTGATGGCGTATGCAGCCT
S
CATCGGGGCCAACCTCGGCCACTGTGCTCCTGCCAGCTCGGCAGGCAGCCTTGCTGCAGGCCCCCTGCTGCTCGCGCTGGCCCTCTACCCCCTGAGCGTC
Celera SNP ID:            hCV707432
SNP Position Genomic:     75348
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51088):
CATTTGTTCTCGTGAGATGGAGCAAGCGGGGCACTCATTTCTCTTACTCTTCATGGTGGGGAAACCAAGGCCCGGAGAGGTTGAGCCCTGGCGTCAGCCT
R
GGCTTAAATGGCGCATAGTCGAAGACTAGCCAAACCCTCTGTTGGGTTTCCTAAGCTACAAAACGGGGGCTCTTCATCCATATTGTGAGATCAGGGATGT
Celera SNP ID:            hCV1482800
SNP Position Genomic:     45483
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51089):
CCTGGGTTGTCATGAGCATGACATGAACTTGTGTTGTATAAGTTATCTGTTGCTGTATAACAAATTATCTCAAAACTTAGGCCAGGTGCAGGCCGGGTGC
R
GTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGAGCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACGAGGTGAAACCCCAT
Celera SNP ID:            hCV27864773
SNP Position Genomic:     69226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51090):
GGACGTGGCCGTCTTCTCCAAGGGCCCCATGGCGCACCTGCTGCACGGCGTCCACGAGCAGAACTACGTCCCCCACGTGATGGCGTATGCAGCCTGCATC
R
GGGCCAACCTCGGCCACTGTGCTCCTGCCAGCTCGGCAGGCAGCCTTGCTGCAGGCCCCCTGCTGCTCGCGCTGGCCCTCTACCCCCTGAGCGTCCTGTT
Celera SNP ID:            hCV707433
SNP Position Genomic:     75353
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51091):
AGGAGCCTCTGCGAGGGGGAGGGGTCCTAGGGGTGGGGCCAGCAGGGAGGCTCTGGGTTCTGAAGGCTTTCCCAGGTCCCCACCCTCTCCTTGTCCTGAG
Y
GGAGGCTATGGGAGAAGGCACCTGCCTCCAGGCCAAGCCTATCTCAATGCCTATCCCTGGGGCCAAAATTCAGAGCATCCCAGCCTGAACTGGTGGCACT
Celera SNP ID:            hCV1482801
SNP Position Genomic:     46139
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51092):
ATCCCTGGGGCCAAAATTCAGAGCATCCCAGCCTGAACTGGTGGCACTTATGGAACTGCTACCATGTGCAAGGGCTCGGGATGCAGAGATGGGTAAGATG
W
TGGTCTTTACGTTCACAGAGCTTCAGGCTAGCAGGGAGGAGAGACAGACCAATAACCGGAAGAATAATCATGTGGGGCTGGATGAGCCTTTCAGTGCTCC
Celera SNP ID:            hCV1482802
SNP Position Genomic:     46292
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,10)      total(A,10|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51093):
TGGTCTTTACGTTCACAGAGCTTCAGGCTAGCAGGGAGGAGAGACAGACCAATAACCGGAAGAATAATCATGTGGGGCTGGATGAGCCTTTCAGTGCTCC
Y
GGGTCACTACACTTTTATTTTTCTTTATTCGCTCACCTGTTTTGGACCCTCAGTGCAGAGAGAGTGGGATACGTTATCTCACTTAGCACATGACATACCC
Celera SNP ID:            hCV1482803
SNP Position Genomic:     46393
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,13)   total(C,13|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51094):
CCCTATGCTAATGTACTTAATATGGCCTTGGAGTTGTAAGTGTCCTTGTACGTTACACAGCATTCTGTCCGTGGGGGTGGTTTGCACTTACATACACTGC
R
TTTGATTCTTTACATTCATCACTCAGTCCTCTGCCTTTAGACCCCACCACGCTGCTGTTTGGACATCTAGTTTTAATACCACTGCCACGCAGACATTGCC
Celera SNP ID:            hCV1482804
SNP Position Genomic:     46686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,12)      total(G,12|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51095):
CCAGAGCCAAATATTCAGCTGCCTCCTTAGTGTCTCCACTTCTAAAAGACATCTCCAACTCAACATATCCAAAAACAAGTTCCTGATTGTCTCCACCTCA
Y
GCCTCAAAAGACCACCCCAAACGCCGAAAGGCTGAATGCTTTTTTCTTTTTCTTTTTTTTTTTTTTCTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGG
Celera SNP ID:            hCV1482805
SNP Position Genomic:     47212
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,16)      total(C,16|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51096):
AGTGCAGCACATAGACTTGCTTTCATTTTGTCAGTATCCTTTATAGATTGTTCATGTAAGCTCCCAAAGAGTAGTATTTATTTTATTGAAATAAAATGCA
Y
GTAGAGAAAAATGTGTGTATCATACATTGACAGCTGAACCCACCGTGTAACCAGCACCCACCCACCCAGATCAATCATAAACCGAACCGCACCAGCACCC
Celera SNP ID:            hCV1482807
SNP Position Genomic:     48370
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|C,10)      total(C,10|T,6) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51097):
TCCCTCTCTTAGCTTCTGGCTACCCTCCCTACCACGCATGGTTTATTTGAATGAGGCAAGGCCTTAGGATTTTTCGATTTGTGGATGGCGAATAGCCAGC
R
TGTCTCCTTCCTCTCTCCTGCCCTGCACCCACATCAGACATCACTAGTCAACCACTGCTTGCTTTCCTTCCCAGATTCCTTCTAAGTACAGTGCTCCAGA
Celera SNP ID:            hCV27905559
SNP Position Genomic:     15604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51098):
CGTGATCTCAGCTCACTGCAACCTTCGCCACCCAGGTTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGCGCCGCAACACC
Y
GGCTAATTTTTTGTATTCTTATTAGAGACGGGGTTTCATCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCAAGTGATCCACCCGCCTTGGCCTCCC
Celera SNP ID:            hCV1482809
SNP Position Genomic:     53403
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51099):
GTCTTGGCCTGGCCCCGAACAGGCCTCTGACGCCAAGGAGCCAGCCAGAAACCAGCGGTGGTGAGCACGGGCTCCCCCGGGAGCGGTTTCCTTTGTGAGC
R
AGGCCAGGATGGGCCGCCCAGGCTAGCTGCTCCCAGAGCCACAACAAAGGGAGGACACGCCCTGCCAGCCTGCCGGGCCACCGCGAGGCTCAGACTGGTG
Celera SNP ID:            hCV7476321
SNP Position Genomic:     72609
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   JBIG-allele(G,655|A,828)   total(G,655|A,828) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51100):
TAAGCTGTGTGACCTTGGGCAAGTGATTTCTCCTCTTTCTGCCTCAGTTTCCTCTTCTATAAAGTAGGGATAATGATGCTCCCATAAAATGGAGATAGTG
R
TGGGGCTGGAGACAACCCCTGGGTTGTCATGAGCATGACATGAACTTGTGTTGTATAAGTTATCTGTTGCTGTATAACAAATTATCTCAAAACTTAGGCC
Celera SNP ID:            hCV7476322
SNP Position Genomic:     69108
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51101):
TCCCGTGTAGGCCCCACATCCCTAGAAAATCATGCCTTAAGAGTGGGTTTTAGAGTCAGTTTCACCTTTACCATTCAGTGGCTACGTGGTCTGTGTGCCT
Y
GGTGCCCTCATCTGTAAAGAGGGAATAACAGGAACAACCCTGGAGGGAGAGAGCACAGGAGAGCCACCTCCAGGAAGCAGGGGCTGGGAGGGGGGGTGCG
Celera SNP ID:            hCV7476323
SNP Position Genomic:     67309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51102):
TTTCTGCAAGTTCCAGGACTGGCCCCTGGGGAGGCCTCGTGGGATGAGGCTGGGCCAAGAACGAGGTGGGGGTAGGGACTAGGGAAGGGCCCCCGTGGGG
W
TGGTGGGGGTGTGGAACTGAGTGGCTTTGAACCCTTTCCATCCCTTCTGAGTCAGCTCAGGCTGGGCCAGAGCCCCCTCCAAGCTCAAGCCAGAGAGACA
Celera SNP ID:            hCV7476327
SNP Position Genomic:     66957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51103):
CGCTGGGTGGCAGGTGCTATTATCCCCACATTACAGATGAGGAAACGGAAACACAAACTCCCCCAGCTGGGAAGTGAGAAGTAGACATGTTTGTTCCCTG
Y
GGTGACCCATCCATCCATTCAAGGCTACTGCTTTCTCCGTAATGCAAATGACATAACCCATCTTCCTAGAAGAGTCAGTTCCCTATTTATCTTAAAACCA
Celera SNP ID:            hCV9397565
SNP Position Genomic:     14401
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51104):
GCCGCCATTCTGGTGAGAAAATGTCTCATCTGAGGCCCATTTCCCCTCCTCCACTCCTTCTGAGCCCTTCTATAGCTCCTCTTCTTTCTCTGCCTCATTC
Y
GCTGGTCCCTGCCATGCCACTACTAACTAAAAGTCCATAGACTATAAGCCCAACATGCACGTACTAGGCATGGTGCTCAGTGCCTTGCCTGTAATTACTA
Celera SNP ID:            hCV9397566
SNP Position Genomic:     14184
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51105):
CCTGCATGAGGCGGTGGAGATGGACCGGGCCATCGGGCAGGCAGGCAGCTTGACCTCCTCGGAAGACACTCTGACCGTGGTCACTGCGGACCATTCCCAC
R
TCTTCACATTTGGTGGATACACCCCCCGTGGCAACTCTATCTTTGGTAGGTGGGCCTTCTTTGGGGTGGACACTCCTGGGGTCTCCTGTCTACCCACCTG
Celera SNP ID:            hCV7476257
SNP Position Genomic:     73704
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51106):
TACTCTTGAGGGTCTGGGTTTGTGGTTTCAGTTTCTTCCTCTGCAAAAGGGCTGCTAGTACCCCTTGGTAGAGTTAGGGGAGAGGGCACGAGGGAGACAG
K
AGGCCCTGGGCAAGAATCCAGTTGCGCTGGTTGTATTGACATGCATGGACTTGAGAGTTATCCTGAAACCCTATCCCTCCTTATCTGTGATTTGGGAATC
Celera SNP ID:            hCV29023255
SNP Position Genomic:     32523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51107):
CTTCAGCCTTCTTTTTTTTCTTCAATTAGATATAACTTACAGAAAAGGGCACCGATCTTAAATACATAGCCTGAAAAAATTTTGACATATATTTATACCC
R
TGTAACCGCCACCCAGATCAAGACAGAACATTTCTGGTTGTGAGGCATCTGTGGGCTTCCCTGTGCCAACCCCCTCCCAAAGCCAGAGGAGATGCCCAGG
Celera SNP ID:            hCV29023256
SNP Position Genomic:     55651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51108):
CCCGACATGTGGCCTGGGGCGAGTTCCTTCCCCTCCCTATGCCTCAGTTTCCCCACCTGTGCAGCAGAAACAGAGAGCCACACTTGCTTGCTCCCAGGGC
Y
GTGGGAGGCCGTGATGAGGTCATGGATGTGAGAACATTTGTTGTACAGGCACAGGGTATAATTACATGGGGACTGCTCCTCAGAGGGGTTTGTCAGGGAC
Celera SNP ID:            hCV29023257
SNP Position Genomic:     63263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51109):
AGTTGGGCAAATCATCTAACACGAGGCCTATTTCATAATAAAGTGTTGACTATCTCATGTCAATTTCTTGGCTATACTGTATTGAATGTGAAAAACAGAA
Y
GGCTGGTTGGGTACTCGAGGTGTGGTTTCCACTGAACACTGTAGCTTTTGCATCATCGTAAAGAAAAAAATCTTAAGTGTAAGTTGGGGACAGTCTGTAA
Celera SNP ID:            hCV29023258
SNP Position Genomic:     14915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51110):
TCAGTGGGCAGTGGGCCTGGTCAAGGCTATGGGGTCCTCTCTGGTTCCTCACGCCCCAGTCCCCATGGTGTGAGTGTAGGCGGGGTGGGTGCCACTGGGG
M
GAAGGCCTGGCCATCTCCTGACCCTCCTCTCCCACCTGCAGACGTACAACACCAATGCCCAGGTCCCTGACAGCGCCGGCACCGCCACCGCCTACCTGTG
Celera SNP ID:            hCV25620582
SNP Position Genomic:     60893
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,40)   total(A,1|C,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:51111):
GAGCAGGGCCAGCTTCGTGGCCTGTCCAGGCCTCAGTCTTTCTGACTGTGTCATGGGAAGGGGCTAGAAAAGGCTTCTCTGTGGGGCTCCCAGCTCTGAT
R
TGCTGGGAGTCTGTAATATCCATGGGATTCCTTCCGTGACAGGGGAAGCTGAGGGTTTGGGGTTCACTCAGTGGTGGGTTCTGGTCCCAGTTCATTTCTC
Celera SNP ID:            hCV25620583
SNP Position Genomic:     61231
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,40)   total(A,71|G,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:51112):
AATCTTTCCTCCATGGGCTCAAATGGCCTAAGAGATATACAAGCAGTAGATAGTCAGTGACTAATCATTTCCTTCCCTTGGAGGGGATACCAGAGAGAGG
Y
GGATGGTGAGGAGGAGGCTGGGCCAGGGAATAACCTGCGTGGACATTGAGTCACCCTGAGCACCTATTGTATGTAGGCACCTGGCGGGGCATGCGTGAGG
Celera SNP ID:            hCV25620584
SNP Position Genomic:     66279
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,32|T,4)   total(C,59|T,13)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,627|T,866)   total(C,627|T,866)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51113):
CTGTGGATAGCTACGGGTGTCCCATTTCCTGGGGCAGAAACTCTTGTCCAAAGGCACCCTGTCGGGCAGAAGGGCCAAGGTGCTCCCAATTCCCAGTGGG
K
ACTGCGTGGGGACATCTGAAATTGATGCCCTCAGCAGACACTTCCAGAAGAGAGAGGGTGGACCTGGGGCTGTCGGGATGAGGGTAGTGGGCTGAGGGAT
Celera SNP ID:            hCV1482810
SNP Position Genomic:     56454
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,8)      total(G,8|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51114):
CCAAGGTGCTCCCAATTCCCAGTGGGGACTGCGTGGGGACATCTGAAATTGATGCCCTCAGCAGACACTTCCAGAAGAGAGAGGGTGGACCTGGGGCTGT
Y
GGGATGAGGGTAGTGGGCTGAGGGATTGGGGTGGTGGTGACGTAAGGGGAGGCCTCTTGGGGAGGGGCGTGGGGTGTGCTTGGGTCCAAAGCTAGAGGTG
Celera SNP ID:            hCV1482811
SNP Position Genomic:     56528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;JBIC-allele(T,381|C,1098)   total(C,1098|T,381)
SNP Type:                 INTRON


Context             (SEQ ID NO:51115):
CCAGCAATGTCATTTAACAGGGGAAGAGACTGAGGCTGAGGGAGGTGACAGAGCTAGTACTTGGAGCAGCTGGGGGTTTTTTGTTTGTTTGTTTTTGAGA
Y
GGAGTCTAGCTCTGTCACCCAGGCTGGAGTGCAGTGGTATGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAGTTCTCCTGCCTCAGCCTC
Celera SNP ID:            hCV1482812
SNP Position Genomic:     57368
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51116):
AAACATTACTCTCTTAATTGTGCTAGCACAATTCATTTGCTGCCTTAGCAGCTCATCTCCCTACTGGGTAGAAGGAATGAGCATGGGCTTTGGAGCGAAA
Y
CCAGCCCTGCCAGTGTCTGCCTGTGCTGTGTGGCCTTAGGCAAGTTGCTCGTTGTCTCTGAGCCTTGGTTTCTTCATTCTGAGATGTGAGGAGAAGACCC
Celera SNP ID:            hCV1482813
SNP Position Genomic:     58152
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;JBIC-allele(T,383|C,1108)   total(C,1108|T,383)
SNP Type:                 INTRON


Context             (SEQ ID NO:51117):
AAGCTCAACACCAACGTGGCTAAGAATGTCATCATGTTCCTGGGAGATGGTGAGGCCCAGGGGCCTGTGGGAGGGGTGGAACAGGACACCTAGCTAGGAG
M
CCCGGGAGCCAGGCTGAGTTGAAGGGGGCTGTGTTGAAGGGGCTAGGGCTCTGGAGGAAGGGTGTTTAAAAGGATGAGGGGCCAGGCTGTGGATTCAAGA
Celera SNP ID:            hCV1482814
SNP Position Genomic:     58623
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|A,9)      total(A,9|C,7) ;JBIC-allele(A,267|C,1233)   total(C,1233|A,267)no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51118):
GTGTTCCTTTAAGGTCACAGAGCCCTCGGCTGCTGGGCCAAGCCTCCAGCCAGGCCCCTGCACTCACCCGGAGGTGGGAAGCGGGGGCGGAGGCTGCGAG
R
GTTCAGGCTTCGGCAGGGCTTTGTGGAACCTGCCACAGGCACTGCCCAGGCACTGGGGACTTTCACTACCTCTGGGAGCTCCGTGCTTTCTTTTTAGAGG
Celera SNP ID:            hCV27480938
SNP Position Genomic:     72890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(A,305|G,1182)   total(G,1182|A,305) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51119):
CCAGGACTGGCCCCTGGGGAGGCCTCGTGGGATGAGGCTGGGCCAAGAACGAGGTGGGGGTAGGGACTAGGGAAGGGCCCCCGTGGGGTTGGTGGGGGTG
Y
GGAACTGAGTGGCTTTGAACCCTTTCCATCCCTTCTGAGTCAGCTCAGGCTGGGCCAGAGCCCCCTCCAAGCTCAAGCCAGAGAGACACCAGCCTCAGTT
Celera SNP ID:            hCV27480939
SNP Position Genomic:     66969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51120):
TTTTGGGGTCTCTGCTAAACATCCGGATGTAGGGCAACCCTGTGATGGTGGCCGCAGGGCAGGTGGCAGAGAAGTCGGCGCTGGTCTTGGCCCCACCCTT
S
CCTTCCCCAGTCCCCTTCCCCCTCACTTTCACTACCCTATCCCCAGACCCCCCACTCCTTCAAGAAGGCCCCTCCCTCTCCCTTCTCCAGGACTCCCCTG
Celera SNP ID:            hCV1482816
SNP Position Genomic:     60499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51121):
TGGCCGCAGGGCAGGTGGCAGAGAAGTCGGCGCTGGTCTTGGCCCCACCCTTCCCTTCCCCAGTCCCCTTCCCCCTCACTTTCACTACCCTATCCCCAGA
M
CCCCCACTCCTTCAAGAAGGCCCCTCCCTCTCCCTTCTCCAGGACTCCCCTGCTCCCCAACCCCTCGCTGGCTCCTGCAGCCCCAGGCCCGGAGAGAGGC
Celera SNP ID:            hCV1482817
SNP Position Genomic:     60547
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51122):
TCCCTCTCCCTTCTCCAGGACTCCCCTGCTCCCCAACCCCTCGCTGGCTCCTGCAGCCCCAGGCCCGGAGAGAGGCCTCCGCTGACCCCACCTGAGCCCC
R
ATCTTCCGCCGGACACTTCTCTGTACTTTGGAGAGCTAAGGTCCTGCCCCAGTGCTGCCAGGGTGCAGGGAATGATGGCAGGAAGCAGGCAGCTAGGTAG
Celera SNP ID:            hCV1482818
SNP Position Genomic:     60672
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51123):
CCCCTCGCTGGCTCCTGCAGCCCCAGGCCCGGAGAGAGGCCTCCGCTGACCCCACCTGAGCCCCAATCTTCCGCCGGACACTTCTCTGTACTTTGGAGAG
M
TAAGGTCCTGCCCCAGTGCTGCCAGGGTGCAGGGAATGATGGCAGGAAGCAGGCAGCTAGGTAGTCCTGTGGCTCTGGGGGGCTTCAGTGGGCAGTGGGC
Celera SNP ID:            hCV1482819
SNP Position Genomic:     60708
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,11)   total(A,2|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51124):
CTCACCTGCCTTCAGCCCTCCATGCACTGCCCCCCACAAATTTCTGGGGGCTACTTGGCCCCTCCACAGTAGAGACCCACGTCTGCCCTTTTCCCAGCAT
R
GTGGATTAAGTACCCGCTTTCAGGACACACAGTGCTGTTGGCCCCTTTCACTGAACAGACATCTGAGGCCAAGCCACTCATCCTGGCTTGCCTTCACCCG
Celera SNP ID:            hCV7476330
SNP Position Genomic:     63066
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51125):
CTGGCAAGTCACCTCACCTCTCCTGTAAAGTTATGATTATAGGAAGCCCTCCCACTGGGAACCGTGGTGCAGATACAATGAAATAACATTTGGGAACAGA
R
TGTAGTGAGTGTGAATCAAATAGCAGCTGCACGCAATCCCTTCATCTGCAAAAGTATAATGTGTCTGTGTAATGTACATATTGCAGAGAGGGCAAATGGT
Celera SNP ID:            hCV28033072
SNP Position Genomic:     36791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51126):
GTAATTAAAAGGCTGAAGACCGAGTGCTGTAGAACAGGGCTTCTCAAGGTGTGGTCCGCAAAGCAGCAAAGCAGCAGCTTCTCCTGGGAGCTTATTAGAA
R
TACAATCGGAGCCTCACCAGTGGGCCGGGAATCTGTTGTAACAAGCCCTTGGGGGATTCAGATGCTTGCTCTCCTTACAGTTTGAGAAACACTGCACCAA
Celera SNP ID:            hCV7476407
SNP Position Genomic:     51421
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,14)      total(G,2|A,14) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51127):
CCTGCCTTGGTACCGAACTAGAGAGCTTCTGGGTACCCAAGCAGGCTGATTGGAGAGGCAGGAGCACGAGAGACTGAGGCCCCCACTCCCCACTGCAGGG
W
TGGGTGTCTCCACAGTGACGGCTGCCCGCATCCTCAAGGGTCAGCTCCACCACAACCCTGGGGAGGAGACCAGGCTGGAGATGGACAAGTTCCCCTTCGT
Celera SNP ID:            hCV27861011
SNP Position Genomic:     58925
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51128):
CATATCCAAGATCTACAGGCTGAAGACTACAGAGTGCTGATAAAACCGAAGAACTCTGACTGAATGAGTGGAGAGACGTGGTGTCTTCATGACTGGGCAA
Y
TCCATGTGGTATAGACGTAAACCCTCCCACATTGATCTGTGGATTTAATACCATACCTATCAAAAACACAGTGGTGGAGGACAGATCAGGGATCGCCAGG
Celera SNP ID:            hCV7476408
SNP Position Genomic:     47788
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51129):
CCTTGGTACCGAACTAGAGAGCTTCTGGGTACCCAAGCAGGCTGATTGGAGAGGCAGGAGCACGAGAGACTGAGGCCCCCACTCCCCACTGCAGGGATGG
K
TGTCTCCACAGTGACGGCTGCCCGCATCCTCAAGGGTCAGCTCCACCACAACCCTGGGGAGGAGACCAGGCTGGAGATGGACAAGTTCCCCTTCGTGGCC
Celera SNP ID:            hCV27861012
SNP Position Genomic:     58929
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51130):
GACTTCAGAAATGTGCCCTGTGTGGGAAGTGGCATTTTGTGAGCACCATTGGGTACCAGGCACTTTCGCACATTACCTTTGATACTCACCTACCCCCTAC
Y
CTCCAGCATTTTGCAGTTAAGGAGACTGAGGCTCAGAGGGCAGACACCTTAGGATTACTCCTCCCCTAGGTCTCTATGCCTCTCTGCTTTGACCCAGGGA
Celera SNP ID:            hCV9397573
SNP Position Genomic:     12651
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51131):
AGAGAGCTTCTGGGTACCCAAGCAGGCTGATTGGAGAGGCAGGAGCACGAGAGACTGAGGCCCCCACTCCCCACTGCAGGGATGGGTGTCTCCACAGTGA
Y
GGCTGCCCGCATCCTCAAGGGTCAGCTCCACCACAACCCTGGGGAGGAGACCAGGCTGGAGATGGACAAGTTCCCCTTCGTGGCCCTCTCCAAGGTGAGC
Celera SNP ID:            hCV27861013
SNP Position Genomic:     58944
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51132):
AGCCCCTGCAGGGAAGAGACTCCCTTGACAGCTTCCACCTTACCCCTTGCTCCCCAAGAGCCCTGTGCATTGGTGCGCCACTTCACCCTGTGCTCCCTAA
Y
AGCCCTGTGCATCAGTGCATAACCACTTCTCAGACAGGAAACACGATCTTGCACTCTGAACCCACAGCTCTCTGTTCCACCCCCTTTGCTGGGAGCCAGG
Celera SNP ID:            hCV9397574
SNP Position Genomic:     12193
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51133):
GTTCCTCACGCCCCAGTCCCCATGGTGTGAGTGTAGGCGGGGTGGGTGCCACTGGGGCGAAGGCCTGGCCATCTCCTGACCCTCCTCTCCCACCTGCAGA
Y
GTACAACACCAATGCCCAGGTCCCTGACAGCGCCGGCACCGCCACCGCCTACCTGTGTGGGGTGAAGGCCAATGAGGGCACCGTGGGGGTAAGCGCAGCC
Celera SNP ID:            hCV27861014
SNP Position Genomic:     60936
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51134):
CAAAACATGTCAGCTAGGCGAAGGAGCTTTTTTCCTGCTTCGGTGGTCCTCAGGAAGAGTCTGAGGGCTCTGGAGGTTTGGGGGTGATAGAGCATCTACC
K
GTCAAGGCTCAGCGAGTTGAGCCCAGGGTCTAGCTGGGGACAGGCATCGCTGGGTACTTCATTCTAAAGATTGCACAGCCCCTGCAGGGAAGAGACTCCC
Celera SNP ID:            hCV9397575
SNP Position Genomic:     12016
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51135):
TGTGGGGTGAAGGCCAATGAGGGCACCGTGGGGGTAAGCGCAGCCACTGAGCGTTCCCGGTGCAACACCACCCAGGGGAACGAGGTCACCTCCATCCTGC
R
CTGGGCCAAGGACGCTGGTGAGTCGGGGGAGCAGTGGGGAGCAGGGCCAGCTTCGTGGCCTGTCCAGGCCTCAGTCTTTCTGACTGTGTCATGGGAAGGG
Celera SNP ID:            hCV27861015
SNP Position Genomic:     61092
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51136):
CTTTAGCGGGGAGGGGGAGGGGAGGGAGGAGGCCTCTGGGACACCCCGATCTGTGGATAAAGCCAAACCCGCCCCTCCTGCACCCCAGGGAAATCTGTGG
K
CATTGTGACCACCACGAGAGTGAACCATGCCACCCCCAGCGCCGCCTACGCCCACTCGGCTGACCGGGACTGGTACTCAGACAACGAGATGCCCCCTGAG
Celera SNP ID:            hCV27861016
SNP Position Genomic:     61878
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51137):
CTACGCCCACTCGGCTGACCGGGACTGGTACTCAGACAACGAGATGCCCCCTGAGGCCTTGAGCCAGGGCTGTAAGGACATCGCCTACCAGCTCATGCAT
R
ACATCAGGGACATTGACGTGAGTGCTCGGGGGCAGCCGGGCAGGGACGGGGTGAGGCGGGGCCTCTGGTGGGCAGGAGGCCTCAGGCCCAGGCTGGCCCG
Celera SNP ID:            hCV27861017
SNP Position Genomic:     62024
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51138):
CGCCCACTCGGCTGACCGGGACTGGTACTCAGACAACGAGATGCCCCCTGAGGCCTTGAGCCAGGGCTGTAAGGACATCGCCTACCAGCTCATGCATAAC
W
TCAGGGACATTGACGTGAGTGCTCGGGGGCAGCCGGGCAGGGACGGGGTGAGGCGGGGCCTCTGGTGGGCAGGAGGCCTCAGGCCCAGGCTGGCCCGGAG
Celera SNP ID:            hCV27861018
SNP Position Genomic:     62027
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51139):
CAGGGTGAGAATATGGGACACGTGGACACTAGCCCCTCTTCCATAGCCTGGCAACATCTACAAAACATGTCAGCTAGGCGAAGGAGCTTTTTTCCTGCTT
Y
GGTGGTCCTCAGGAAGAGTCTGAGGGCTCTGGAGGTTTGGGGGTGATAGAGCATCTACCTGTCAAGGCTCAGCGAGTTGAGCCCAGGGTCTAGCTGGGGA
Celera SNP ID:            hCV9397579
SNP Position Genomic:     11956
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51140):
GACTCCAGGAGTCCAGGTTCCAAGCCGAGGTCACTGGGGCTTCTGGGCATCTTGGAACCCTGCAGAAGTGATGGCTCCTGTCTCTTTTAGGTGATCATGG
K
GGGTGGCCGGAAATACATGTACCCCAAGAATAAAACTGATGTGGAGTATGAGAGTGACGAGAAAGCCAGGGGCACGAGGCTGGACGGCCTGGACCTCGTT
Celera SNP ID:            hCV27861019
SNP Position Genomic:     65939
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51141):
CGCTGGCTCCTGCAGCCCCAGGCCCGGAGAGAGGCCTCCGCTGACCCCACCTGAGCCCCAATCTTCCGCCGGACACTTCTCTGTACTTTGGAGAGCTAAG
R
TCCTGCCCCAGTGCTGCCAGGGTGCAGGGAATGATGGCAGGAAGCAGGCAGCTAGGTAGTCCTGTGGCTCTGGGGGGCTTCAGTGGGCAGTGGGCCTGGT
Celera SNP ID:            hCV27480940
SNP Position Genomic:     60713
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,193|G,1296)   total(G,1296|A,193) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51142):
CTATTGGTGGTGGTGATAGTGGTGTTATGTAATAACCTCCAGACCCTGGGTCAGGCCCCAGGCTCACTTCTGGGGGAGTAGTGGGGACTATGGTGCCTTC
Y
GTGCCTTCAAGGTGCTCTCAGGCTGGTGGGGAAGGGAGACAGGCAAATAGTTTTGGGGTCTCTGCTAAACATCCGGATGTAGGGCAACCCTGTGATGGTG
Celera SNP ID:            hCV27480941
SNP Position Genomic:     60348
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,670|C,821)   total(C,821|T,670) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51143):
GGCTGGACGGCCTGGACCTCGTTGACACCTGGAAGAGCTTCAAACCGAGATACAAGGTAGCCTGTGCTGGGGCCATGTGGCTGCAGAGGTGGCCTGTGAT
K
GGGAGAGGCTGTGTGACCCCTGCTCTGAAGTTCTGTTGTCCTCTGTAGAAAGGGCATCGGAAATCTTTCCTCCATGGGCTCAAATGGCCTAAGAGATATA
Celera SNP ID:            hCV25620595
SNP Position Genomic:     66117
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,37|T,3)   total(G,74|T,4)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,674|T,827)   total(G,674|T,827) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51144):
CTCCTGACCCTCCTCTCCCACCTGCAGACGTACAACACCAATGCCCAGGTCCCTGACAGCGCCGGCACCGCCACCGCCTACCTGTGTGGGGTGAAGGCCA
R
TGAGGGCACCGTGGGGGTAAGCGCAGCCACTGAGCGTTCCCGGTGCAACACCACCCAGGGGAACGAGGTCACCTCCATCCTGCGCTGGGCCAAGGACGCT
Celera SNP ID:            hCV1482820
SNP Position Genomic:     61008
SNP Source:               Celera
Population(Allele,Count): Caucasian(G,0|A,311)   Chinese(G,0|A,60)   Japanese(G,2|A,19)   African(G,0|A,98)   total(G,2|A,488)   (G,1|A,11)   total(G,1|A,11) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51145):
TTTGTCAGGGACAGCCTGAGCAGGGGACAGGAACTTGAAGGAAATTCGAGGGGAGGGAAGATGTTTCAGGTGAGGGGGTGGGAGATGAGGAGGGGGGGCC
R
CAGGGGCCACGTCAAGGGGCACAAGCCAGGGAGTGAGTGAGGACGGAGGACCTGTGTGAGGATCCCTTTCTTTCCTCCTCTTCCTTTCTCTCCCAGCCCC
Celera SNP ID:            hCV1482822
SNP Position Genomic:     63452
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51146):
AGCCAAACAGCAAGTCTGTTATTTGGGAGTTTAATGAGCCCGTGTGAAGTCGCTGCCGGGCTGGAAACGATGAGGCTCCCTGCAGGAAGATTGGGGGCTT
Y
GTTTTCCACTCTGAAGATGCCAAGAGGTCAGGTTCTGTGGGAACAGTTGTGGGGGGCGGGGCAAGGGACCCGTGACCTGGGGTCCCCTTCTCCTTCTTCT
Celera SNP ID:            hCV1482823
SNP Position Genomic:     63811
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,11)   total(C,11|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51147):
ACAGGTGGCCAGGGTTTATTGCAGCCTTGGTATGAAGTTGAGTCAGAATGTATCTTAAATGCTTAGTGCCTGACACACAGGGAACGCTCTGTAAATGGTC
Y
GATTCTTATTCGAGTGGGAGTTCTGTGGATTCCGGGAAGCCAAGTAAGGTAAGTTATCAGCTCCTCCAATATCCCTAGAAGCGCCAAACCACCGTCCCAA
Celera SNP ID:            hCV1482825
SNP Position Genomic:     65639
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,14)   total(C,3|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51148):
ATCTTTCCTCCATGGGCTCAAATGGCCTAAGAGATATACAAGCAGTAGATAGTCAGTGACTAATCATTTCCTTCCCTTGGAGGGGATACCAGAGAGAGGC
R
GATGGTGAGGAGGAGGCTGGGCCAGGGAATAACCTGCGTGGACATTGAGTCACCCTGAGCACCTATTGTATGTAGGCACCTGGCGGGGCATGCGTGAGGC
Celera SNP ID:            hCV1482826
SNP Position Genomic:     66280
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(A,2|G,34)   total(A,4|G,66)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51149):
TAATCATTTCCTTCCCTTGGAGGGGATACCAGAGAGAGGCGGATGGTGAGGAGGAGGCTGGGCCAGGGAATAACCTGCGTGGACATTGAGTCACCCTGAG
Y
ACCTATTGTATGTAGGCACCTGGCGGGGCATGCGTGAGGCACAGAGGCTGAGTCAGATGGCCAAGGAAACATGGAATGCTGTGTGCCTGCATGGGGGACG
Celera SNP ID:            hCV1482827
SNP Position Genomic:     66340
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,31|T,7)   total(C,68|T,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51150):
GAGGCTGGGCCAGGGAATAACCTGCGTGGACATTGAGTCACCCTGAGCACCTATTGTATGTAGGCACCTGGCGGGGCATGCGTGAGGCACAGAGGCTGAG
Y
CAGATGGCCAAGGAAACATGGAATGCTGTGTGCCTGCATGGGGGACGCCTGGCTCTGCAGGCGCCCTGGGGGGACAGATGACAGGGAGGAGCCAAGAAGC
Celera SNP ID:            hCV1482828
SNP Position Genomic:     66393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51151):
GGGTCCTCAGGGAGAGATTTTTAAGTGAGGGAAGGAAACAAGTAAAGGCCTCAGACTCTGATAGCTGCTGGGGTCAGTCCTTCCGACTCTCCCTAGCCCC
Y
GGCATGTGCTGACACAGCCCTTCCTCCTAGCACTCCCACTTCATCTGGAACCGCACGGAACTCCTGACCCTTGACCCCCACAATGTGGACTACCTATTGG
Celera SNP ID:            hCV1482829
SNP Position Genomic:     68099
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,32|T,8)   total(C,68|T,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,12)      total(C,12|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51152):
TCCCGTTCCCGACTGTTTCCATAGAACCTAGCACAGAGATACTCAGCAGGTGCTCTGTAGGTGTTTGGGAGTGAGGAATGAATGAACAAAGTTGAATGAA
S
AAGCATCGGGCCCTCCCCCGGGGCTCAAATGGGAGAGAGGAGCTTCGTAGCCTGCTCCCCCTCCCACCCCAGCACCCCGTTTCATCCCTTCTGACTAATC
Celera SNP ID:            hCV27839798
SNP Position Genomic:     44973
SNP Source:               Applera
Population(Allele,Count): african american(C,6)   caucasian(C,30|G,2)   total(C,36|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:51153):
CTCAGCCTCCTCCTCCTGGGGCTGATCCTGGGCCTCCTTTGTTTCTTCACTTGCCGCCTGGCCAGGCCGCTCAGGTAGGGGAACTCAGCTGGCCTGACTC
S
CCCTGCATCCCGCCAAATTCCCTGCCCTAAGCTCGTTCAGCTTCCATTTGTTCTCGTGAGATGGAGCAAGCGGGGCACTCATTTCTCTTACTCTTCATGG
Celera SNP ID:            hCV7476414
SNP Position Genomic:     45338
SNP Source:               Applera
Population(Allele,Count): african american(C,11|G,1)   caucasian(C,24|G,4)   total(C,35|G,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51154):
GAGCCTTACTATAATCCCCAGCACTGGCCCACTGCCCTCTAGGGAAGTCCTTCCTTGGATCTGACCTGCAGCCCACTCTGAAACCACCACACATTCCTGC
R
CAAGCACTTCATCCAGCTCTTCATGACAGCCATAAATAACTTCCTCCAGTAATGAATACAGTCCTGGCCAGCAAGGCTTGCCAGAGATGCTGGGCTTGGC
Celera SNP ID:            hCV7476415
SNP Position Genomic:     39820
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51155):
AGGGGAGTGGGGAGAGCCGGGATTGGCCAATGCCCTGTCTTGAGGATGAGTTGAAGGAGGGGATTATGGGTGGGGGTGGCCAGGGTGCGCCCACCTGGCC
R
GGGGCAGAGCCAGGTCTTGAATGCCAGGTCTTGAATCTGGGATCCTCCCCTCCCTGCCACTGCAAGCCCCAAGTGAGTTGCACTGCAGGGCTGGCTACAA
Celera SNP ID:            hCV7476416
SNP Position Genomic:     36526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51156):
ACTGCCTCACACTTGCCCACCTGCCTCCCTGACATTACCTACCTACCTTCTGAGCTTGCGGTTTCTGGGCTAGATGCAGTGAGGCCATGTAAGAGGGGCT
Y
AAATTCCACTTGAATGATTGTGTGGGGCTTGGGCCAGCCCTCAGGGGGCTCAGGGTGAGAATATGGGACACGTGGACACTAGCCCCTCTTCCATAGCCTG
Celera SNP ID:            hCV9397580
SNP Position Genomic:     11805
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51157):
GAGTCCAGGTTCCAAGCCGAGGTCACTGGGGCTTCTGGGCATCTTGGAACCCTGCAGAAGTGATGGCTCCTGTCTCTTTTAGGTGATCATGGGGGGTGGC
Y
GGAAATACATGTACCCCAAGAATAAAACTGATGTGGAGTATGAGAGTGACGAGAAAGCCAGGGGCACGAGGCTGGACGGCCTGGACCTCGTTGACACCTG
Celera SNP ID:            hCV27861020
SNP Position Genomic:     65947
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51158):
GATCCCCAGAATTTCAGTTGGAAGGCCTTTAGAAGCTGGCTCGGTCAACTGGGCTCTTGGTGCACCAGGGAGACTGAGGCCCAGAGAGGAGAAGAGGCTT
R
CCCAGGGTCACACAATTGCTTAGGGCAGAGTGGACTGGGAATTCAGTCTCCTGGCCTTAAGCTACATGATCTTTCCAAAGGCAACCACTCTCCTGAATTT
Celera SNP ID:            hCV9397581
SNP Position Genomic:     11037
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51159):
TCCAGGTTCCAAGCCGAGGTCACTGGGGCTTCTGGGCATCTTGGAACCCTGCAGAAGTGATGGCTCCTGTCTCTTTTAGGTGATCATGGGGGGTGGCCGG
R
AATACATGTACCCCAAGAATAAAACTGATGTGGAGTATGAGAGTGACGAGAAAGCCAGGGGCACGAGGCTGGACGGCCTGGACCTCGTTGACACCTGGAA
Celera SNP ID:            hCV27861021
SNP Position Genomic:     65950
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51160):
GCCTCAGACTCTGATAGCTGCTGGGGTCAGTCCTTCCGACTCTCCCTAGCCCCCGGCATGTGCTGACACAGCCCTTCCTCCTAGCACTCCCACTTCATCT
R
GAACCGCACGGAACTCCTGACCCTTGACCCCCACAATGTGGACTACCTATTGGGTAAGTGGAGGGGGTGGAGGGGAGGATGCATGGCTCGGAGCCTGGTG
Celera SNP ID:            hCV27861022
SNP Position Genomic:     68146
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:51161):
ACTCTGTGTTCCAAGTAACAGAAAAGCCAAGACGCACAATGGGGAAATTAATTGGCTCATGTAGCCAGGATGTTCAGAGGAAGGCTTCAGGCATGGCTGC
M
TCTAGGAGCCCAAGTGATGCTATCAAAGACTCAAGGTCTCTACCTTTCTCTAGTCCATCTCTGAGAGGTTGCTTCCTCTTCAGGCTATACAAAGTGCCCT
Celera SNP ID:            hCV7476419
SNP Position Genomic:     34296
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51162):
GGGGAGCCTGCATTCCCTGAGACACCCCAGCTTCCTTGGAGTCCTCCTAGCCGGGTCACAGCCTCTCAGCATCCACATCCTCCTGGCGTCCTCCTCAGGT
Y
TCTTCGAGCCAGGGGACATGCAGTACGAGCTGAACAGGAACAACGTGACGGACCCGTCACTCTCCGAGATGGTGGTGGTGGCCATCCAGATCCTGCGGAA
Celera SNP ID:            hCV27861023
SNP Position Genomic:     71492
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51163):
CCTGCATTCCCTGAGACACCCCAGCTTCCTTGGAGTCCTCCTAGCCGGGTCACAGCCTCTCAGCATCCACATCCTCCTGGCGTCCTCCTCAGGTCTCTTC
D
AGCCAGGGGACATGCAGTACGAGCTGAACAGGAACAACGTGACGGACCCGTCACTCTCCGAGATGGTGGTGGTGGCCATCCAGATCCTGCGGAAGAACCC
Celera SNP ID:            hCV27861024
SNP Position Genomic:     71498
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51164):
CTGAGACACCCCAGCTTCCTTGGAGTCCTCCTAGCCGGGTCACAGCCTCTCAGCATCCACATCCTCCTGGCGTCCTCCTCAGGTCTCTTCGAGCCAGGGG
M
CATGCAGTACGAGCTGAACAGGAACAACGTGACGGACCCGTCACTCTCCGAGATGGTGGTGGTGGCCATCCAGATCCTGCGGAAGAACCCCAAAGGCTTC
Celera SNP ID:            hCV27861025
SNP Position Genomic:     71508
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51165):
CCTGAGACACCCCAGCTTCCTTGGAGTCCTCCTAGCCGGGTCACAGCCTCTCAGCATCCACATCCTCCTGGCGTCCTCCTCAGGTCTCTTCGAGCCAGGG
K
ACATGCAGTACGAGCTGAACAGGAACAACGTGACGGACCCGTCACTCTCCGAGATGGTGGTGGTGGCCATCCAGATCCTGCGGAAGAACCCCAAAGGCTT
Celera SNP ID:            hCV27861026
SNP Position Genomic:     71507
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51166):
GAGACACCCCAGCTTCCTTGGAGTCCTCCTAGCCGGGTCACAGCCTCTCAGCATCCACATCCTCCTGGCGTCCTCCTCAGGTCTCTTCGAGCCAGGGGAC
R
TGCAGTACGAGCTGAACAGGAACAACGTGACGGACCCGTCACTCTCCGAGATGGTGGTGGTGGCCATCCAGATCCTGCGGAAGAACCCCAAAGGCTTCTT
Celera SNP ID:            hCV27861027
SNP Position Genomic:     71510
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51167):
AGGGGACATGCAGTACGAGCTGAACAGGAACAACGTGACGGACCCGTCACTCTCCGAGATGGTGGTGGTGGCCATCCAGATCCTGCGGAAGAACCCCAAA
S
GCTTCTTCTTGCTGGTGGAAGGTAGGGACCCCGGGTCTGCTGAGAGGGGGCTGCTGGAAACACGGCCCTGGTGTCAGGATGGAGAAGTCCAGCTCTTAAA
Celera SNP ID:            hCV27861028
SNP Position Genomic:     71603
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51168):
GACATGCAGTACGAGCTGAACAGGAACAACGTGACGGACCCGTCACTCTCCGAGATGGTGGTGGTGGCCATCCAGATCCTGCGGAAGAACCCCAAAGGCT
K
CTTCTTGCTGGTGGAAGGTAGGGACCCCGGGTCTGCTGAGAGGGGGCTGCTGGAAACACGGCCCTGGTGTCAGGATGGAGAAGTCCAGCTCTTAAAGGGA
Celera SNP ID:            hCV27861029
SNP Position Genomic:     71607
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51169):
GAACTCCTGACCCTTGACCCCCACAATGTGGACTACCTATTGGGTAAGTGGAGGGGGTGGAGGGGAGGATGCATGGCTCGGAGCCTGGTGGCCGGAGCTG
Y
GTGTGGCCAGCACCTGGGGACAAGGCCCTAGCCTGACGCCCACTTAGGGGCCTCTGCTCTTGGGCTTCAGGACCTGGGAGAGGCAAGGAAGGGGGTTCTG
Celera SNP ID:            hCV1482830
SNP Position Genomic:     68257
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,15)   caucasian(C,31|T,9)   total(C,52|T,24)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51170):
TGTAAATGCACACACACTCTAGCGGCCCCATCGAGTCCAGGCTGTGACCCTCTGCCTTGGGGCCACAGTGCTGTGTGCTGAGCCCTGCAGGCTGGAGGCA
R
ACTGACTGATGGATTTGAACCCCAGATCTGCCACTTCTCAGCTGACAATAGCAAGTTATGGAACACCTCTGGGCCTCAGTGCTCCTCATCTGTGAAACGG
Celera SNP ID:            hCV1482832
SNP Position Genomic:     70823
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51171):
AGGCCCCTGGCAGGCTCTCAGCAGGTGTTTCCCCTGGCCCACAGCTCACAACAACTACCAGGCGCAGTCTGCTGTGCCCCTGCGCCACGAGACCCACGGC
R
GGGAGGACGTGGCCGTCTTCTCCAAGGGCCCCATGGCGCACCTGCTGCACGGCGTCCACGAGCAGAACTACGTCCCCCACGTGATGGCGTATGCAGCCTG
Celera SNP ID:            hCV27528925
SNP Position Genomic:     75248
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51172):
GGCTAAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGGGAGCCGAGATCGCACCACTGCACTCCAGCCTGGACAACAGAGTGAGACTCTGT
S
TCAAAAAAAAAAAAGAAAAGAAAAGAAAAAGAAAAAAGAAAAAAAAAGGAATTGGGGGCCTAATTCTGGGCCCACAAAAATCACCCAGATAAGGATCCTC
Celera SNP ID:            hCV1482833
SNP Position Genomic:     71259
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,8)   total(G,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51173):
CCACAGATCAAGTTGCATCTGACTAGAGAGCCTGTCCTCTACCCTATTTCCTGCACAAGTCTTTTTCTTTGTAATGCAACAAGCGCTACTCAGCTCAGAT
Y
CAGTGGGACACAGGGAAAGGGGCTGTAGTGTAGCCCAGCCTTGCTGAGGGAGACCCCTGCCTCGCCAAAGCACTTCGCTCACAAAGGCTGAAACTGGCCT
Celera SNP ID:            hCV1482761
SNP Position Genomic:     16857
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,9)   total(C,9|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51174):
GCTATCCTTACCCCGCCAAGTAACTGCCTCTCTCTGTGTTTAGAGAAAGAGAAAGACCCCAAGTACTGGCGAGACCAAGCGCAAGAGACACTGAAATATG
Y
CCTGGAGCTTCAGAAGCTCAACACCAACGTGGCTAAGAATGTCATCATGTTCCTGGGAGATGGTGAGGCCCAGGGGCCTGTGGGAGGGGTGGAACAGGAC
Celera SNP ID:            hCV707393
SNP Position Genomic:     58509
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:51175):
TGGGGAAGGGAGACAGGCAAATAGTTTTGGGGTCTCTGCTAAACATCCGGATGTAGGGCAACCCTGTGATGGTGGCCGCAGGGCAGGTGGCAGAGAAGTC
R
GCGCTGGTCTTGGCCCCACCCTTCCCTTCCCCAGTCCCCTTCCCCCTCACTTTCACTACCCTATCCCCAGACCCCCCACTCCTTCAAGAAGGCCCCTCCC
Celera SNP ID:            hCV15754510
SNP Position Genomic:     60475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51176):
AGCCTAGGCAGTGATGAGGCCCAGAAACCTGCCTCTCCCTTGGGACTGAACATGGGCACAGCTCTGTGCCTCATAAAAGGTTCCTACCCCACACCTGGGG
Y
GGGCCCTGGTACAGTCTAGCTTAGTTCCTCCTGCTTTCCTCCACCGCAGGCTCAGTGCGGGGCCCGCGGCCTCTGCGTCTTTCTCTCAGCTTACCATGAT
Celera SNP ID:            hCV1482762
SNP Position Genomic:     17080
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51177):
CAGGTTGAATGGCTGCGTAAAATGCCTAGGCTGTGGTGCTAGCTCAGAGTGGTGCCCGGCGAAGGTTCCTGTCCTTCCCTAGCTAACAAAGGTTAATCCA
S
CAGCAGTGTTGTGGGGCTGGGGAGCAGATCTTCCTCCCCTCCTCCCTCACCGAGGCCTTTGCCTTGGTGTCCCAAGGAGGCAGAATTGACCACGGGCACC
Celera SNP ID:            hCV1482836
SNP Position Genomic:     73481
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51178):
GACTCCTGTGTCAGAACAGGCTCAGGTTCAAATCCCGTGGCCTTAGGCAAAATGACTTTCCCACATTGAGCCTCCTTTTCCTCTTCTGTGAAATGGGAGC
R
TTCAAGCCAGCCTGGAAGGGAGATGGAAAAGCTGCGTGCGCAGCGCCAGGCCCCTGGCAGGCTCTCAGCAGGTGTTTCCCCTGGCCCACAGCTCACAACA
Celera SNP ID:            hCV1482837
SNP Position Genomic:     75100
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,5)   caucasian(A,40)   total(A,73|G,5)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51179):
TTGCCTTTGTACCTGCCATCCCCTCCCCTGCAGCAACCTCTCCCTGTTTGTGTTGCCAGTTGGCATCATGGCTGTTTTTCTAGAGCTTGCTTTGGATATC
Y
TGAACCCTTTGTAATCTGATCATCCACATAGCATCTGGCTCTGAGTTTCAGTTCCTGGAGGGTAGGAGCCCCATCTGAGTCACTCGTGAATTCCCATGCC
Celera SNP ID:            hCV1482764
SNP Position Genomic:     18855
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51180):
GCGCTGGCCCTCTACCCCCTGAGCGTCCTGTTCTGAGGGCCCAGGGCCCGGGCACCCACAAGCCCGTGACAGATGCCAACTTCCCACACGGCAGCCCCCC
Y
CTCAAGGGGCAGGGAGGTGGGGGCCTCCTCAGCCTCTGCAACTGCAAGAAAGGGGACCCAGGAAACCAAAGTCTGCCGCCCACCTCGCTCCCCTCTGGAA
Celera SNP ID:            hCV1482838
SNP Position Genomic:     75522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,13)      total(C,13|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:51181):
CGGCCAGGTTTGTTTAAAATATATCATGAACCAGGCTGTGTTCTAAGCAGCTCACATGTATTTTTTCATTTATCCTTGCACCTGAGGCTCAGAGAGATTA
W
GTTCATGTCTCCTAGGTCACCTGGTTGGTGTCACGTGCAAATATTTTAATATCTCCCAGGACATGTGTGTTCCAAATAACATAATATGGGAACCACCTCC
Celera SNP ID:            hCV1482765
SNP Position Genomic:     20269
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51182):
TTCAATATGAGAAAGCAGCCTCATTCTCTGCCCCACCCAAACCTCTGCGTGCACCTTACAGCTCCCTGTTCTCCAGGAAAGACGTTCACGGCTTCTGGAC
Y
TTGGCATGGGCTGTTCCAGCAGCTTAGACTTCCTTCCCTCCACTTCTGCTGAAACACTTCAGCACATCCTCAAGACTCCTTCCCTGACCATGCCTCATGG
Celera SNP ID:            hCV7476421
SNP Position Genomic:     30506
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51183):
GCCCGTGACAGATGCCAACTTCCCACACGGCAGCCCCCCCCTCAAGGGGCAGGGAGGTGGGGGCCTCCTCAGCCTCTGCAACTGCAAGAAAGGGGACCCA
R
GAAACCAAAGTCTGCCGCCCACCTCGCTCCCCTCTGGAATCTTCCCCAAGGGCCAAACCCACTTCTGGCCTCCAGCCTTTGCTCCCTCCCCGCTGCCCTT
Celera SNP ID:            hCV1482839
SNP Position Genomic:     75583
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,8)      total(G,8|A,6) ;JBIC-allele(A,107|G,630)   total(G,630|A,107)no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51184):
CCAATCATGATCTGAGCAGAAGCTGGCAGGAGGGAGCCCCGAATCTGCTGGAGGAAACTCGGTGCTGGGGGGACTTTAGAGAAGAAATGACAGCGGTCAT
R
AATCATTGTAACAGTAACAGCTCATATTAACTGAGTGGCAGGCACTGTTCAAGCAAGTCAGATACATTAATCATTTAATCCTCATATCAGCCCTAGGAGG
Celera SNP ID:            hCV1482766
SNP Position Genomic:     20639
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51185):
TACTCAGCAGGCAGGTGAGCTTCTGGGTTCTAGAGTCTCAGAGCTGGAAGGACTGTCTGCAGCCATCCAGGTGAACAGGTCTCTGGGAAATCCCAAAGCA
Y
ATGGTGGCTTGATCGAGTGGGCGGGGAAGGGTCCATCCGTTCTCTGCTCCAGCCCCTCATCTGCCCCACTTGCCCATCTCTGCCCCGCAGTCCATCCACC
Celera SNP ID:            hCV11550402
SNP Position Genomic:     38898
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,9)      total(C,5|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51186):
AAGGCCTGGCCATCTCCTGACCCTCCTCTCCCACCTGCAGACGTACAACACCAATGCCCAGGTCCCTGACAGCGCCGGCACCGCCACCGCCTACCTGTGT
R
GGGTGAAGGCCAATGAGGGCACCGTGGGGGTAAGCGCAGCCACTGAGCGTTCCCGGTGCAACACCACCCAGGGGAACGAGGTCACCTCCATCCTGCGCTG
Celera SNP ID:            hCV707398
SNP Position Genomic:     60995
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51187):
GACCGGTATTCAGGAAAGGAAACTGATCTGTCACCTCACCCCTGCCTGGGGCAGCCCAGCATGTGTCAGCCCCCTAATCCCCGGGTACTGCCCAGGACAA
R
CAGTAACAGGGACAACCACCCTCCAACATGGGGAGGCCTGCAACAGCTCTGGGGCAGAAGGAGGCTCAGGGAGGTAGCAACTTACCACCCAGCAGCTCGT
Celera SNP ID:            hCV1482767
SNP Position Genomic:     21501
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51188):
CTCCCACCTGCAGACGTACAACACCAATGCCCAGGTCCCTGACAGCGCCGGCACCGCCACCGCCTACCTGTGTGGGGTGAAGGCCAATGAGGGCACCGTG
R
GGGTAAGCGCAGCCACTGAGCGTTCCCGGTGCAACACCACCCAGGGGAACGAGGTCACCTCCATCCTGCGCTGGGCCAAGGACGCTGGTGAGTCGGGGGA
Celera SNP ID:            hCV707399
SNP Position Genomic:     61022
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51189):
TAAAAAATATAAGAAAAAAAAATGAATAGAAGCACAAAGGAAGGGAAGGGATCACCCAAGGTCCTATAGCTCATACATGGGTTAATCCAGAATTGGAACC
Y
GGGCAGCCTTGCTCCAGAGTCCGGTCTCACTTAATGAGTACTAGATAATTCTCTGCATGTCAGATGGGTACACTCTTCTTGAACCTGCTAGTTCTTTTGG
Celera SNP ID:            hCV1482768
SNP Position Genomic:     22402
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51190):
GGGGAGCAAGGCAGGAGTTGAGCAAATAGCAGGAACAGACTGTGTGACACTTGCTGGGAGGCTCCGAGGCTCCAGCTCCCTGAGCTTAGAAGTGCGGAGT
K
TATCTATCCCCTGCGCGATTCCTGGGGGAAGGGAAGGACAGGCGAAGGGGCATGGCGGGGCAGTCCTGGTGTCTCCAGGACCAGGGTCAGGGGGAGGCCA
Celera SNP ID:            hCV1482769
SNP Position Genomic:     22619
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51191):
CCTTGGCTTCCTAGAGTGCTGGGATTACAGGTGTGAGCCACCGCATCTGGTCCTGTTAATGGTTTTTCTTTAGAATTCATTGTGCTATGGCTGGTAGTGG
Y
GTGGGGTGGGATTCGGGGAGCCATGCACTTCTTGCCCTTAAAACTAGCAGCCAGGGAAAACGTATGGCTCCTGGATCCTCCCTCTCAAATCAGTCCCAAA
Celera SNP ID:            hCV7476425
SNP Position Genomic:     27914
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51192):
TTTGCTAACATCTTTGCTCATTTCTTTTGCATGTTTCTCACAGTTTATGGAGACTTTTTGTTTGCTTCATTTTGTTTCGTTTTTTTGAGACAGGGTCTCC
W
CTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCTGCTCACTGCAGCCTCGACCTCCCGAGCTCAAGTGATCCTCCCACTTCAGCCTCCTGAGTAACTG
Celera SNP ID:            hCV7476426
SNP Position Genomic:     27596
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|A,17)      total(A,17|T,2) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51193):
GGACATGCAGTACGAGCTGAACAGGAACAACGTGACGGACCCGTCACTCTCCGAGATGGTGGTGGTGGCCATCCAGATCCTGCGGAAGAACCCCAAAGGC
Y
TCTTCTTGCTGGTGGAAGGTAGGGACCCCGGGTCTGCTGAGAGGGGGCTGCTGGAAACACGGCCCTGGTGTCAGGATGGAGAAGTCCAGCTCTTAAAGGG
Celera SNP ID:            hCV27861030
SNP Position Genomic:     71606
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51194):
TTCTTAATCCTTCCCTGCTTCCTCCTGGAAGCGTCCTCAAGCTAATAACTTAGCTCTCTCCTCCATCGTTCAGCAGCTGGATACACTCTGTAATTTATTC
Y
ACTTATGTGTTTGTTATTTCAACTGGTTTTTCACATAGAGTGTTTCCACTGGGGTCTTTTAACCATTCCTCTTTCTGTTTTGCTAACATCTTTGCTCATT
Celera SNP ID:            hCV7476427
SNP Position Genomic:     27417
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51195):
AGCTAACAAAGGTTAATCCAGCAGCAGTGTTGTGGGGCTGGGGAGCAGATCTTCCTCCCCTCCTCCCTCACCGAGGCCTTTGCCTTGGTGTCCCAAGGAG
R
CAGAATTGACCACGGGCACCATGAAGGAAAAGCCAAGCAGGCCCTGCATGAGGCGGTGGAGATGGACCGGGCCATCGGGCAGGCAGGCAGCTTGACCTCC
Celera SNP ID:            hCV27861031
SNP Position Genomic:     73561
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51196):
GGCCATCGGGCAGGCAGGCAGCTTGACCTCCTCGGAAGACACTCTGACCGTGGTCACTGCGGACCATTCCCACGTCTTCACATTTGGTGGATACACCCCC
Y
GTGGCAACTCTATCTTTGGTAGGTGGGCCTTCTTTGGGGTGGACACTCCTGGGGTCTCCTGTCTACCCACCTGGGAGCAGGAGTGGGTGGGAGAGCCAGC
Celera SNP ID:            hCV27861032
SNP Position Genomic:     73731
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51197):
GCCATCGGGCAGGCAGGCAGCTTGACCTCCTCGGAAGACACTCTGACCGTGGTCACTGCGGACCATTCCCACGTCTTCACATTTGGTGGATACACCCCCC
R
TGGCAACTCTATCTTTGGTAGGTGGGCCTTCTTTGGGGTGGACACTCCTGGGGTCTCCTGTCTACCCACCTGGGAGCAGGAGTGGGTGGGAGAGCCAGCA
Celera SNP ID:            hCV27861033
SNP Position Genomic:     73732
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51198):
AGGGGTTACCAAGCCACCAAGGAGCCTAATCTGGGGGCTGGGGACTGTACTCCTGGGGCCCCAGCATGACCCCTGAACACCCCCTCCCTGTGCAGGTCTG
K
CCCCCATGCTGAGTGACACAGACAAGAAGCCCTTCACTGCCATCCTGTATGGCAATGGGCCTGGCTACAAGGTGGTGGGCGGTGAACGAGAGAATGTCTC
Celera SNP ID:            hCV27861034
SNP Position Genomic:     74336
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51199):
GAGTGACACAGACAAGAAGCCCTTCACTGCCATCCTGTATGGCAATGGGCCTGGCTACAAGGTGGTGGGCGGTGAACGAGAGAATGTCTCCATGGTGGAC
Y
ATGGTGAGACCTCCAGGACCCAGGGCTGGGAGGGGACAGGGCACCCCTCGGGGATGGGCTTGGGAATAGGGTGTCAGCTTGTGGTCAAGGTCAGGGGTCT
Celera SNP ID:            hCV27861035
SNP Position Genomic:     74447
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51200):
CTGTCTCCTGGAGAGTGATTCGCCTCCATTGTGTTCAGAGACATAAAGTACTTGGAACGGGGCCCAGTAAAGAATAAACCGTGTTTCTATTATTAGCCTT
R
TTATGGCTACACAATAGTTAAGGCGGGAACAATAGGAAGTGTGAGGAAGTGATAAAGATTCCAGAAACCTTCCAGTGCTAACAGCCCTTGCCCACCGCAG
Celera SNP ID:            hCV8361522
SNP Position Genomic:     72223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51201):
CTGAAGCCTCCGTGGAACATTCTGGATCTGACCCTCCCAGTCTCATCTCCTGACCCTCCCACTCCCATCTCCTTACCTCTGGAACCCCCCAGGCCCTACA
R
TGCTCATGTCCCTGTCCCCAGGCCCAGCCCTCCTTCAGGGGAGTTGAGGTCTTTCTCCTCAGGACAAGGCCTTGCTCACTCACTCACTCCAAGACCACCA
Celera SNP ID:            hCV1482840
SNP Position Genomic:     75890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;(A,-|G,-)   JBIC-allele(A,526|G,967)   total(G,967|A,526)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51202):
CCTCCCGAGTAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCGTGTTGGTCAGGCTGGTCTC
R
AACTCCCGACCTCAGGTGATCTGCCTGCCTCAGCCACCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCCTTCTTGTTCTTTTCTTTGAA
Celera SNP ID:            hCV27913829
SNP Position Genomic:     25042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51203):
GGAGTGCCATAGCGCCATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCTATTCTCCTGCATCAGCCTCTGGAGTAGCTGGGACTACAGGCATG
Y
ACCACCATACCTGGCTAATTTTTGTATTTTTAGTAGAAATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGC
Celera SNP ID:            hCV1482770
SNP Position Genomic:     24088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51204):
GACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTACCACGCCCGGCCTACTTTATTAATTTTTAACCTTTTTTGC
Y
GCATTATATAATTTTTGATATGTGGTGTTTTTAATCATTCAGTTCTAAGTAATTTTAAGTTTCTACTATGACTTTTCTTTGATCCTTGAAATTTTTAGGG
Celera SNP ID:            hCV1482772
SNP Position Genomic:     24268
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51205):
TCTCCGTGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCTGCCTCAGCCACCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCC
Y
GGCCCTTCTTGTTCTTTTCTTTGAACTTGAATTTGTTTTGAAAAACTAAACTTTACTAAATTATTTGCTCAGTCTTCAGATATCTTGAATACAATCTGTG
Celera SNP ID:            hCV1482773
SNP Position Genomic:     25117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,14)   total(C,14|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51206):
TTTGCTTCATTTTGTTTCGTTTTTTTGAGACAGGGTCTCCACTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCTGCTCACTGCAGCCTCGACCTCCC
R
AGCTCAAGTGATCCTCCCACTTCAGCCTCCTGAGTAACTGGGACTATAGTTGTGCACCACCACGGCCAGCTAATTTTTTTTGTATTTTTTGTAGAGATGG
Celera SNP ID:            hCV1482777
SNP Position Genomic:     27656
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,14)      total(G,14|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51207):
AACCCTCATGTGACCGCCACCACACCCCAAGAACCAGGCATCCAGGGATGATTCCATAAATTGAAACCTGGTGCTGTGCCCTCCTCTGCCCCCCACTACA
Y
GGGAGGTGGTGATGGCCAAGTGTCGTCTGCCTGCCCTGCGTATTCACATGGTCACAGATGGGTACATATCTGTACACTCAACCACCAGCATGCCCGGCAA
Celera SNP ID:            hCV27913830
SNP Position Genomic:     62340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51208):
TGGCCCCAGTGTGCAAGCCATGGAGGGAGCGGAGAAGCCCTCCACAGTGAGTCCCCCTTGGCTGGGGGATGGAATAGATTGGGGAAGGGAGGCTGGAGGA
M
GGAATAGATTGGGGAAGGGAGGCTGGAGGGACCTCTGGAAGGACCCCAAGCTCCAGCTCCTTGGAGTGGCCTCTGGCCCTTTAAATCTGAGCTGCTGGCC
Celera SNP ID:            hCV27986531
SNP Position Genomic:     66656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51209):
CCGCACGGAACTCCTGACCCTTGACCCCCACAATGTGGACTACCTATTGGGTAAGTGGAGGGGGTGGAGGGGAGGATGCATGGCTCGGAGCCTGGTGGCC
R
GAGCTGCGTGTGGCCAGCACCTGGGGACAAGGCCCTAGCCTGACGCCCACTTAGGGGCCTCTGCTCTTGGGCTTCAGGACCTGGGAGAGGCAAGGAAGGG
Celera SNP ID:            hCV25472187
SNP Position Genomic:     68250
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,24)   caucasian(A,4|G,36)   total(A,16|G,60)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51210):
CTTCCTCCTAGCACTCCCACTTCATCTGGAACCGCACGGAACTCCTGACCCTTGACCCCCACAATGTGGACTACCTATTGGGTAAGTGGAGGGGGTGGAG
K
GGAGGATGCATGGCTCGGAGCCTGGTGGCCGGAGCTGCGTGTGGCCAGCACCTGGGGACAAGGCCCTAGCCTGACGCCCACTTAGGGGCCTCTGCTCTTG
Celera SNP ID:            hCV25472188
SNP Position Genomic:     68219
SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,10)   caucasian(G,36|T,4)   total(G,60|T,14)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,663|T,826)   total(G,663|T,826) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51211):
TAGAGAGCCACAGGGGCTCTGGGAAAGGGAGGAGGATTCTGGGAGGACACGGAGTCAGCGAAGAGGAGGATTGAGTTTCAACAAACCCAGAGCTGAAGCT
K
CAGACTGAAGCCTAGGGTAGTGGATGTGGGCTTTGCCAAGAGATAGGCCCAGAGGGCAGCTCTGGGGCTGAACTCTAGCCCCCCACCGCTGTCCCTCACC
Celera SNP ID:            hCV1482780
SNP Position Genomic:     32316
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,8)      total(G,2|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51212):
AGAGAGCCACAGGGGCTCTGGGAAAGGGAGGAGGATTCTGGGAGGACACGGAGTCAGCGAAGAGGAGGATTGAGTTTCAACAAACCCAGAGCTGAAGCTT
S
AGACTGAAGCCTAGGGTAGTGGATGTGGGCTTTGCCAAGAGATAGGCCCAGAGGGCAGCTCTGGGGCTGAACTCTAGCCCCCCACCGCTGTCCCTCACCC
Celera SNP ID:            hCV1482781
SNP Position Genomic:     32317
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51213):
AGAGCTGAAGCTTCAGACTGAAGCCTAGGGTAGTGGATGTGGGCTTTGCCAAGAGATAGGCCCAGAGGGCAGCTCTGGGGCTGAACTCTAGCCCCCCACC
R
CTGTCCCTCACCCTGGTGTACTCTTGAGGGTCTGGGTTTGTGGTTTCAGTTTCTTCCTCTGCAAAAGGGCTGCTAGTACCCCTTGGTAGAGTTAGGGGAG
Celera SNP ID:            hCV1482782
SNP Position Genomic:     32404
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51214):
AGCCCCTGGCATATTGTGGCTGCTCAATAAACAGTGTTCCAGCGAATGTTGGTTGAATAACATATAGGGAAAGCCCTAGGCATAGAAGGTGTTTAGTCAA
R
ATCAGCTGGATCTTAGAGACATAGGGCAGACGCCTGAGAAAGGCTGGGACAGCTCACTTGGGGTGACGAGGTCTCCCATGAAAGCATTTGGGGTCTGGAT
Celera SNP ID:            hCV1482783
SNP Position Genomic:     32952
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51215):
GATCTTAGAGACATAGGGCAGACGCCTGAGAAAGGCTGGGACAGCTCACTTGGGGTGACGAGGTCTCCCATGAAAGCATTTGGGGTCTGGATTTCAGGGC
R
GTGCTGGTTTCCTCTCTGGCCACAGCCTGCAAGCAGCGAGCCATATAGGAGAGGAAAGTTTGGCTGGGTGTGGGGCCTCACCCGGGAGTCCCAGCACTTT
Celera SNP ID:            hCV1482784
SNP Position Genomic:     33061
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,12)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51216):
AAGGCAGAGCTTGTACCTGCAAGTCCTGTCACAGGGCTGGCACACAATAGATGCATGGAACCTGGTGGTCAAAGGGTTGTAAACTTCAATGGACAACAAC
Y
TGTCAGAAAGTGAGGATCTGAGTCCTGCAGGGCTATTAGACAAGTCCAGCCCCAAAACTTTCTGTAATTCTAGAAGTTTATAGATTCCAAGTAGAAAGTG
Celera SNP ID:            hCV1482785
SNP Position Genomic:     33921
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,14)      total(C,14|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51217):
AAGGTCTCTACCTTTCTCTAGTCCATCTCTGAGAGGTTGCTTCCTCTTCAGGCTATACAAAGTGCCCTTCCCCACCACTTCACACCCTCATAACCCAGCA
R
GCAGACAGAGTCTTCCAGCTGGAGCCAGTCAGGGTCCACCTGGAGCTGGAGGCGGGATCAGTCCCACCCAAACCAGGCTGAAAGGGGGAGGGTCACTTCC
Celera SNP ID:            hCV1482786
SNP Position Genomic:     34429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,13)      total(G,13|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51218):
CTGGAAAAACCAGAAGTGTGACCTTTATTTTATTTTTGCAGAGATGGGGCCCTGCTATGTTGCTCAGCCTGGGTTCAAGAAGTCTACCCACCTTGGCCCC
Y
GAAAGTGCTGAGATTATAGGCATGAACCATTGTGCCTGGCCCACAAGTGCACCCTTTAAAAAGATCTACCAGGTGACCCTTTTTTAGACTGAGTATCGCT
Celera SNP ID:            hCV7476443
SNP Position Genomic:     13122
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51219):
TTTGTCATTCAGGTGCATGAACTTTACCTGGCCAGGTCTGCAAACTGCTGGGCAGAGCTCAGCAAATATTTTATGTTCTTTAAAAAAGTTTTTAGGTGGC
Y
GAAGCAAATTGCTTTTACTGGAAAAACCAGAAGTGTGACCTTTATTTTATTTTTGCAGAGATGGGGCCCTGCTATGTTGCTCAGCCTGGGTTCAAGAAGT
Celera SNP ID:            hCV7476444
SNP Position Genomic:     13004
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51220):
GTGTGGGAAGTGGCATTTTGTGAGCACCATTGGGTACCAGGCACTTTCGCACATTACCTTTGATACTCACCTACCCCCTACTCTCCAGCATTTTGCAGTT
M
AGGAGACTGAGGCTCAGAGGGCAGACACCTTAGGATTACTCCTCCCCTAGGTCTCTATGCCTCTCTGCTTTGACCCAGGGAAGGGAGGAGAGGACAGGCT
Celera SNP ID:            hCV7476448
SNP Position Genomic:     12670
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51221):
GCCTGCTGTGTGCTGGGTTATGGGAGATCCATCACAAACTGCCTTCCTAAGGCTGCAGGGGGTGGGGGATTGTTGACTTTTGCGGTGATTAAACAACTTT
W
ATTTAGTTGCTGGTGTTTTTAAACCAGGCAATTTCATTTTATATAAAGATAAGGATTTCTGGCTTCTCTTGAAAGATCAGAAGATGTGGCCATATGGGGC
Celera SNP ID:            hCV7476449
SNP Position Genomic:     11525
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|T,9)      total(A,3|T,9) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51222):
GACTGGAGAGCAGTGGCATGAACATGGCTCACTGGAGCCTCGACATCCTGGGTTCAAGCACACCTCCTGCCTCAGTCTCCTAAGTAGCTGGGACCACAGG
Y
GTGCACCACCACATCCAGATCATTTTTGATTTTTTTTTTTTTTTTTTTGGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTT
Celera SNP ID:            hCV26187900
SNP Position Genomic:     28716
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51223):
TGGTGAAACCGCCCATCTCTACTAATAATACAAAAATTAGCCAGGTGTGGTCGTGGGCGCCTGTAATCCTGGCTACTCGGGAGGCTGAGGCAGGAGAATC
R
CCTGAACCTCGGAGGTGGAGTTTGCAGTGAGCCGAGATCGTGCCATTTCACTCTGGCCTGGGTGACAAGAGTAAAACTCTTGTCTCAAAAAAAAAAAAAG
Celera SNP ID:            hCV26187901
SNP Position Genomic:     31627
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51224):
TGGAAGCCACTGCCAGACACCTACTGCTGTGGATGGGGAGACTGAGACCCGGGCAATCCTCAGAACTGAAGCGGGGGCCTGTCTTTAGCGGGGAGGGGGA
R
GGGAGGGAGGAGGCCTCTGGGACACCCCGATCTGTGGATAAAGCCAAACCCGCCCCTCCTGCACCCCAGGGAAATCTGTGGGCATTGTGACCACCACGAG
Celera SNP ID:            hCV7476379
SNP Position Genomic:     61796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51225):
GCCTGAACCTCGGAGGTGGAGTTTGCAGTGAGCCGAGATCGTGCCATTTCACTCTGGCCTGGGTGACAAGAGTAAAACTCTTGTCTCAAAAAAAAAAAAA
G
AAGAAGAAGAAGAAGAAGAAGAAGATTAGACTGGGACTTGGGAGATTACCAAATACAGGCAGATGGGAAAGCACAGTGAGAAGTCTCCCAGGCTGGAGTG
Celera SNP ID:            hCV26187902
SNP Position Genomic:     31727
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,7)   total(G,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51226):
ACACAGTGCTGTTGGCCCCTTTCACTGAACAGACATCTGAGGCCAAGCCACTCATCCTGGCTTGCCTTCACCCGACATGTGGCCTGGGGCGAGTTCCTTC
M
CCTCCCTATGCCTCAGTTTCCCCACCTGTGCAGCAGAAACAGAGAGCCACACTTGCTTGCTCCCAGGGCCGTGGGAGGCCGTGATGAGGTCATGGATGTG
Celera SNP ID:            hCV11544511
SNP Position Genomic:     63193
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51227):
ATATGGGTTAAGAGCTTGTAGTTTGGAGTTGGACAATTTGGGCTCAGAATCCCAGCTCTGCTGCAGGTCTGCTGTGTGACCTCAGGCAAGTTACTTAACC
Y
TTCTGTGCTTTTTTCCTCTTCATAAAATGTGAATGATACTAAGAGTACCTACCTCAAAGTGTAGGAGCACAGTGAATGCAGCTGTCATTCTGCTGGTGAC
Celera SNP ID:            hCV16271652
SNP Position Genomic:     31025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51228):
AAAAATGACAGTAGATGTCCACTCCACTCACCAGAGGGAGTGCAGTGGAGAGCCGTAGAAACTTCTGCATTGTACCTTTTGATTTGCAAGGTTCCTTCCC
T
TTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTACAACCTCCACCTCCCAGG
Celera SNP ID:            hCV26187903
SNP Position Genomic:     34681
SNP Source:               Celera
Population(Allele,Count): no_pop(-,8|T,8)   total(T,8|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51229):
AAAATGACAGTAGATGTCCACTCCACTCACCAGAGGGAGTGCAGTGGAGAGCCGTAGAAACTTCTGCATTGTACCTTTTGATTTGCAAGGTTCCTTCCCT
T
TTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTACAACCTCCACCTCCCAGGT
Celera SNP ID:            hCV26187904
SNP Position Genomic:     34682
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,14)   total(T,14|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51230):
ACCTTGTTGGCTAGGCTGGTCTCAAACTCCCAACCTGAAGTGATCCGTCCACCTCGGCCTCCCAAAGTGCTAGGATTATAGGCATGACCACCACGCCCGG
S
CAGCCTTTAACATTTGAATGGCTGTTTAGCTGGATAGAAAATTCCCAGCTCAATCTTTTTTTCCTTCTGTAGTTTGGTCAATTCGACATTTATTCCATTT
Celera SNP ID:            hCV16271653
SNP Position Genomic:     25637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51231):
AAATGACAGTAGATGTCCACTCCACTCACCAGAGGGAGTGCAGTGGAGAGCCGTAGAAACTTCTGCATTGTACCTTTTGATTTGCAAGGTTCCTTCCCTT
T
TTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTACAACCTCCACCTCCCAGGTT
Celera SNP ID:            hCV26187905
SNP Position Genomic:     34683
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,14)   total(T,14|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51232):
TGGCGCCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTTGTGATC
Y
GCCCGCCTCGGCCTCCCAAAATGCTGGGATTAAAGGCGTGAGCCACCGTGCCCGGCCAGGTTCCTTCCCTTCTAAGACGCTGATACTGGAGGCAGAATGG
Celera SNP ID:            hCV26187906
SNP Position Genomic:     34927
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,12)      total(C,12|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51233):
AACCCTGGGCTGCCCCCACTGATCTCAGCCTCTCTGTGCAAAATTATAAGCCCAGAGGAGCTGACCCAGGAGGGAGAGGCCAACGTGACTGAAGCCCCTC
M
CTTTGTGGAGCGGGCACTCTGTCTAGATACAAGAGGCCCCCAGGAAGCTGCGATCACGGGAAAGTACACAGGGAGCTGAGAGAGCAGCATGACATGAGGA
Celera SNP ID:            hCV26187907
SNP Position Genomic:     35195
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51234):
ATCCTCAGCTGGTTAGTGGGGAGACCTATCCCTGCCCCTGATGTGCTGTGTGACACTGGGGAGGTTGTGTACCCTCTCTGTGTCTTCCTTTTCTTTTTCC
T
TTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCACAGCTCATTGCAAGCTCCACCTCCCGAGTTCACAC
Celera SNP ID:            hCV26187908
SNP Position Genomic:     37446
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51235):
AGCCTAGCAGTTTCTCTACATTGTAAACTATAAGAAATAGAGGTGTAAACAGACTATAGCCTACACTTGTGCCAATCACCAAGTTTTGGGGGTTTTTTTG
Y
TTTTGTTTTTGTTTTTGTTTTTTTTTAAGACAGAGTCTCACTCTGTCGCCCAGGCTGGAGTACAGCATTGTAATCTCAGCTCACTACAACCTCCGCCACC
Celera SNP ID:            hCV26187909
SNP Position Genomic:     43071
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51236):
CAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTAAAAACAAAAAACAAAGAACAAACACGAAAAAACTTAGGCC
R
GGTGCAATGGCTCGCGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGTTGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGAAACATAGCGA
Celera SNP ID:            hCV11544518
SNP Position Genomic:     69537
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51237):
CTCCAAGCTCAAGCCAGAGAGACACCAGCCTCAGTTTCTCTACGTGGCACATGGGGCCAGAGCTTCATCCTCCTTGCCCAGGCAGGGTGCTTACCCAGGA
R
CTCGGTCTAGACCTCTAAGACGGGGAGAGAGCGTCTACACCATGGCCCCGAGCCTGGCCACATTGGGTATCAGGTCCCGTGTAGGCCCCACATCCCTAGA
Celera SNP ID:            hCV27498300
SNP Position Genomic:     67134
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,665|G,826)   total(G,826|A,665) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51238):
GTGTTAGCCAGGATGGTCTTGATCTCCTGACCTTGTGATCCGCCCGCCTCGGCCTCCCAAAATGCTGGGATTAAAGGCGTGAGCCACCGTGCCCGGCCAG
K
TTCCTTCCCTTCTAAGACGCTGATACTGGAGGCAGAATGGAGTTTATTATCCCTGCTCTACAGCCAAGGAAACAGCCCTTGAATATTCAGCGAGGACTCT
Celera SNP ID:            hCV1482790
SNP Position Genomic:     34987
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,12)   total(G,12|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51239):
GAGCTGACCCAGGAGGGAGAGGCCAACGTGACTGAAGCCCCTCACTTTGTGGAGCGGGCACTCTGTCTAGATACAAGAGGCCCCCAGGAAGCTGCGATCA
Y
GGGAAAGTACACAGGGAGCTGAGAGAGCAGCATGACATGAGGACCAGCCACAGGGCAGCAGCCAGGCATGGCTTCCTGCAGCTCTCATTGCCAGAACCAC
Celera SNP ID:            hCV1482791
SNP Position Genomic:     35252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51240):
CCCACTGAGGCAGGGCTCCCTGTGCCTGGGATGGCTGAGGCACGAGCTCTGCCATTGGTGACCGAGGTTGTCCTGGCATGTGACTGAGATGGGGGTGGCA
Y
GTACACTGGACATGGAGCTGGACGGACCTGGCCTGAATCCCAGCGCTCCCACGTGGTTGCTTTGTGACCCTGAACCTCCCTCCTGTTCTGAGCCTTGGTT
Celera SNP ID:            hCV1482792
SNP Position Genomic:     35502
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51241):
ATATATCTGAGGAGTAGGAGTGGAGAGATGAGACTTCCCTAAGACTTGGAATGGGTCTAATGTATTCAACTGGTCCTCAGATATTTATAGCCTGCTGTGT
R
CTGGGTTATGGGAGATCCATCACAAACTGCCTTCCTAAGGCTGCAGGGGGTGGGGGATTGTTGACTTTTGCGGTGATTAAACAACTTTTATTTAGTTGCT
Celera SNP ID:            hCV7476450
SNP Position Genomic:     11436
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51242):
CCTGGGCACTGCAGGCCCCAGGCATGGTGTCTCTGGGCCCTGCTATCTCCCTCCCCTGCGATCTCCCTACTGCGCCTCCCTGCTGCTTCTCTCCTGCCAC
Y
AGTCCTCTGGCTTCAGTCCTCTGCCCACAGAGTTGGTTTGGGGCATCATGACCGTCCTGGAGCCTCAGGGACCCCCAGAGAAGCTTTGGCTTCTCTGAAC
Celera SNP ID:            hCV1482795
SNP Position Genomic:     38125
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51243):
AGTACTCAGCAGGCAGGTGAGCTTCTGGGTTCTAGAGTCTCAGAGCTGGAAGGACTGTCTGCAGCCATCCAGGTGAACAGGTCTCTGGGAAATCCCAAAG
Y
ATATGGTGGCTTGATCGAGTGGGCGGGGAAGGGTCCATCCGTTCTCTGCTCCAGCCCCTCATCTGCCCCACTTGCCCATCTCTGCCCCGCAGTCCATCCA
Celera SNP ID:            hCV1482796
SNP Position Genomic:     38896
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,10)   total(C,10|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51244):
CCCAGGTGCTCACATCTCAAGGGCCTTCGGGGTGAGGGGAGAGGGTTCCAGAGGCAGTGTTCTGGCTGCTCGGCTACTTGGAAGCCACTGCCAGACACCT
R
CTGCTGTGGATGGGGAGACTGAGACCCGGGCAATCCTCAGAACTGAAGCGGGGGCCTGTCTTTAGCGGGGAGGGGGAGGGGAGGGAGGAGGCCTCTGGGA
Celera SNP ID:            hCV7476380
SNP Position Genomic:     61718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51245):
AAACATCAGAAACATGAGAAATAAGGAAACAAGAGAAATAAGGAAAAACATTTGCAGCATAAAGTAGAATGAGAGAGTGTAAAAAATAAAAGAGCTGAAA
R
CAAATATTCAATATGAGAAAGCAGCCTCATTCTCTGCCCCACCCAAACCTCTGCGTGCACCTTACAGCTCCCTGTTCTCCAGGAAAGACGTTCACGGCTT
Celera SNP ID:            hCV11550433
SNP Position Genomic:     30399
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,16)   total(G,16|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51246):
TGTAGGCGGGGTGGGTGCCACTGGGGCGAAGGCCTGGCCATCTCCTGACCCTCCTCTCCCACCTGCAGACGTACAACACCAATGCCCAGGTCCCTGACAG
Y
GCCGGCACCGCCACCGCCTACCTGTGTGGGGTGAAGGCCAATGAGGGCACCGTGGGGGTAAGCGCAGCCACTGAGCGTTCCCGGTGCAACACCACCCAGG
Celera SNP ID:            hCV7476381
SNP Position Genomic:     60967
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,36|T,4)   total(C,69|T,7)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51247):
AGGATTCCAGCTCCCTAGGAGCTCACCACGGTGAGAGGGTGACAACCTATGATTCTCTAAGGCTCTGATTAATTTCACCAAGGGCTTCATGGCACTGGGT
K
CTGGGAGCTTGGGGAGGAGCCGAAACTGCTGTCTGGGCTGGGGTAGGGTAGGGAGAGGGCAGGGGGAGGGATTCATTGGTTGGACAGCATGGGACATTCT
Celera SNP ID:            hCV1482798
SNP Position Genomic:     39455
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|T,7)   total(G,6|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51248):
CTGCCTCCTTGTACCAGCTCCCAACCCCCCCGCCAACACTTCGTTAATTGCTCCCAGAAAAACTCTATGCTTAAAGTTTTCCATGCTTAAATTCTCAGCC
K
CACTGTGGCATGAAATCAATTGTTTGCATTGAATTTGACTTCTCAAATTAAGGGGTAAAATTTGAGATGAGAGTAGGGGGTTAGGGAGGAGATGAGGACG
Celera SNP ID:            hCV7476455
SNP Position Genomic:     10608
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|T,9)      total(G,1|T,9) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51249):
TTATATTTTATTTTATTTTATTTTGAGACAGAGTCTCGCTCTGTTGCCAGGCTGGAGTACAGTGGCACGATCTCAGCTCACTGCAACCTCTAACTCTCTA
R
TTCAAGCGATTATCCTGCCTCAGCCTCCCGAGTAGCTGGGATTATAGGCACACACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGACACGGGGTTT
Celera SNP ID:            hCV26187910
SNP Position Genomic:     43700
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51250):
CAGGGAATGATGGCAGGAAGCAGGCAGCTAGGTAGTCCTGTGGCTCTGGGGGGCTTCAGTGGGCAGTGGGCCTGGTCAAGGCTATGGGGTCCTCTCTGGT
Y
CCTCACGCCCCAGTCCCCATGGTGTGAGTGTAGGCGGGGTGGGTGCCACTGGGGCGAAGGCCTGGCCATCTCCTGACCCTCCTCTCCCACCTGCAGACGT
Celera SNP ID:            hCV7476388
SNP Position Genomic:     60838
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,6)   caucasian(C,5|T,1)   total(C,11|T,7)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51251):
TCCAACTCAACATATCCAAAAACAAGTTCCTGATTGTCTCCACCTCACGCCTCAAAAGACCACCCCAAACGCCGAAAGGCTGAATGCTTTTTTCTTTTTC
T
TTTTTTTTTTTTTCTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGACTGCAGTGATGCGATCTCAGCTCACTGCAAACTCTGCTTCCTGGGTTCAAGT
Celera SNP ID:            hCV26187911
SNP Position Genomic:     47265
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,17)   total(T,17|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51252):
CCTTCCCCCTCACTTTCACTACCCTATCCCCAGACCCCCCACTCCTTCAAGAAGGCCCCTCCCTCTCCCTTCTCCAGGACTCCCCTGCTCCCCAACCCCT
Y
GCTGGCTCCTGCAGCCCCAGGCCCGGAGAGAGGCCTCCGCTGACCCCACCTGAGCCCCAATCTTCCGCCGGACACTTCTCTGTACTTTGGAGAGCTAAGG
Celera SNP ID:            hCV7476389
SNP Position Genomic:     60613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51253):
TTTTCTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGACTGCAGTGATGCGATCTCAGCTCACTGCAAACTCTGCTTCCTGGGTTCAAGTGATTCTCCT
R
CCTCAGCCTCTCAGGTAGCTGGGACTACAGGTGCACACCACCATGCCCAGCTAATTTTTGTAGAGAGAGTTTCACCATGTTGGCCAGGCTGGTCTCAAAC
Celera SNP ID:            hCV26187912
SNP Position Genomic:     47375
SNP Source:               Celera
Population(Allele,Count): no_pop(G,7|A,13)   total(G,7|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51254):
GGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGC
B
CCTGGCCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTCTCTTTCTTTCTTTTTCTTTCTTTCTTTCTTT
Celera SNP ID:            hCV26187913
SNP Position Genomic:     52632
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4|T,4|-,9)   total(G,4|C,4|-,9|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51255):
AAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTC
T
CTCTTTCTTTCTTTTTCTTTCTTTCTTTCTTTCTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTTTCTTTCCTTTCTTTCCTTTCTTTTCTCTCGCATCC
Celera SNP ID:            hCV26187914
SNP Position Genomic:     52700
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51256):
AGGGAAATCTGTGGGCATTGTGACCACCACGAGAGTGAACCATGCCACCCCCAGCGCCGCCTACGCCCACTCGGCTGACCGGGACTGGTACTCAGACAAC
R
AGATGCCCCCTGAGGCCTTGAGCCAGGGCTGTAAGGACATCGCCTACCAGCTCATGCATAACATCAGGGACATTGACGTGAGTGCTCGGGGGCAGCCGGG
Celera SNP ID:            hCV27528529
SNP Position Genomic:     61964
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51257):
AAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCT
C
TCTTTCTTTCTTTTTCTTTCTTTCTTTCTTTCTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTTTCTTTCCTTTCTTTCCTTTCTTTTCTCTCGCATCCG
Celera SNP ID:            hCV26187915
SNP Position Genomic:     52701
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51258):
TTACAGGCGTGAGCCACCGCGCCTGGCCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTCTCTTTCTTTC
T
TTTTCTTTCTTTCTTTCTTTCTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTTTCTTTCCTTTCTTTCCTTTCTTTTCTCTCGCATCCGAGTGAAGAGAC
Celera SNP ID:            hCV26187916
SNP Position Genomic:     52712
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51259):
TACAGGCGTGAGCCACCGCGCCTGGCCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTCTCTTTCTTTCT
T
TTTCTTTCTTTCTTTCTTTCTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTTTCTTTCCTTTCTTTCCTTTCTTTTCTCTCGCATCCGAGTGAAGAGACC
Celera SNP ID:            hCV26187917
SNP Position Genomic:     52713
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51260):
ACAGGCGTGAGCCACCGCGCCTGGCCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTCTCTTTCTTTCTT
T
TTCTTTCTTTCTTTCTTTCTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTTTCTTTCCTTTCTTTCCTTTCTTTTCTCTCGCATCCGAGTGAAGAGACCA
Celera SNP ID:            hCV26187918
SNP Position Genomic:     52714
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51261):
GGCGTGAGCCACCGCGCCTGGCCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTCTCTTTCTTTCTTTTT
C
TTTCTTTCTTTCTTTCTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTTTCTTTCCTTTCTTTCCTTTCTTTTCTCTCGCATCCGAGTGAAGAGACCACCA
Celera SNP ID:            hCV26187919
SNP Position Genomic:     52717
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51262):
CCAGCTGTGGGCTGCCCCAAAGACCTCCCTGGCTGGAGCCTCTCCCTGCACGCATTCAGCCTTCCACCGTGGGAGAGGAGGCTCTGGGAGTCCCTGCCCT
Y
AGCTGCACGAATACAGCAGGGCCCTAGTGCCACAGCCGGAAAAGCCCTGGGTTTGAATCCTGATGCTGCCACTTCCTGGCTCTGTGGCCTTCGGGGGAAA
Celera SNP ID:            hCV27521413
SNP Position Genomic:     65403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51263):
GGGTTTCACCGTGTTAGTCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCACCTCTGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCGC
R
CCCGGCCTGTGCCTTCCTTTTCTTGTTGTTTGTGAGAGCAAGGATGGGCCGGCCATGTCTCCTAGTACCAGGGAGGCTCCCCCTGCAGAGGGCTGAGGGA
Celera SNP ID:            hCV27989390
SNP Position Genomic:     37737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51264):
TAGGTGATCATGGGGGGTGGCCGGAAATACATGTACCCCAAGAATAAAACTGATGTGGAGTATGAGAGTGACGAGAAAGCCAGGGGCACGAGGCTGGACG
K
CCTGGACCTCGTTGACACCTGGAAGAGCTTCAAACCGAGATACAAGGTAGCCTGTGCTGGGGCCATGTGGCTGCAGAGGTGGCCTGTGATGGGGAGAGGC
Celera SNP ID:            hCV12006700
SNP Position Genomic:     66026
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51265):
GATGGAGTGCAGTGACGTGATCTCAGCTCACTGCAACCTTCGCCACCCAGGTTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGC
R
TGCGCCGCAACACCCGGCTAATTTTTTGTATTCTTATTAGAGACGGGGTTTCATCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCAAGTGATCCAC
Celera SNP ID:            hCV26187920
SNP Position Genomic:     53388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51266):
GTGTCACTTGCCTTATCCGGCCCAGTCCTTAGAGCGACCCTGAGGGGATGATGCCAGCAATGTCATTTAACAGGGGAAGAGACTGAGGCTGAGGGAGGTG
R
CAGAGCTAGTACTTGGAGCAGCTGGGGGTTTTTTGTTTGTTTGTTTTTGAGACGGAGTCTAGCTCTGTCACCCAGGCTGGAGTGCAGTGGTATGATCTCA
Celera SNP ID:            hCV7476397
SNP Position Genomic:     57315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51267):
CCCGCCAAGTAACTGCCTCTCTCTGTGTTTAGAGAAAGAGAAAGACCCCAAGTACTGGCGAGACCAAGCGCAAGAGACACTGAAATATGCCCTGGAGCTT
Y
AGAAGCTCAACACCAACGTGGCTAAGAATGTCATCATGTTCCTGGGAGATGGTGAGGCCCAGGGGCCTGTGGGAGGGGTGGAACAGGACACCTAGCTAGG
Celera SNP ID:            hCV26187921
SNP Position Genomic:     58520
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:51268):
AGATGCCCAGGCTTACATTGGCCACCAGAGACTTGCTTTGCCTGTTTTGAGCCTCATATAAATGGAATCATATAGTATGTACCGATCAGTGCCCTTTCCC
Y
GGCATTCTATCGTGAGCATTAGCACATATCATTTAGTAGTCTCCAAAAACAATAGCCTCTTGGAATCCAGTTGTCCAGAGCCATTGTTGCTTAAACCAGA
Celera SNP ID:            hCV7476398
SNP Position Genomic:     55841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51269):
CCTCTCCCACCTGCAGACGTACAACACCAATGCCCAGGTCCCTGACAGCGCCGGCACCGCCACCGCCTACCTGTGTGGGGTGAAGGCCAATGAGGGCACC
R
TGGGGGTAAGCGCAGCCACTGAGCGTTCCCGGTGCAACACCACCCAGGGGAACGAGGTCACCTCCATCCTGCGCTGGGCCAAGGACGCTGGTGAGTCGGG
Celera SNP ID:            hCV27859443
SNP Position Genomic:     61019
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51270):
GGCTGATTGGAGAGGCAGGAGCACGAGAGACTGAGGCCCCCACTCCCCACTGCAGGGATGGGTGTCTCCACAGTGACGGCTGCCCGCATCCTCAAGGGTC
R
GCTCCACCACAACCCTGGGGAGGAGACCAGGCTGGAGATGGACAAGTTCCCCTTCGTGGCCCTCTCCAAGGTGAGCCCCATCCCCAAGCCCAGTTCAGGT
Celera SNP ID:            hCV26187922
SNP Position Genomic:     58968
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51271):
TAGACCTGGCTCAGATTTGACTTGAATTCACATTTCTTATGAATGACTGTCTTTCTCTATCCCTTCCATAGCTCCAAGGCAAAATGTGTACCTTAAAACA
R
CTTCAGCAGACCTGGTGTGGTGGCTTTAGCAGGCCTGGTATGGTGGCTCACGCCTGTAATCCCAGTGCGTTGGGAGGCTGAGGTGGGAGGATCGCTTGAG
Celera SNP ID:            hCV7476399
SNP Position Genomic:     54153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51272):
CAGACGTACAACACCAATGCCCAGGTCCCTGACAGCGCCGGCACCGCCACCGCCTACCTGTGTGGGGTGAAGGCCAATGAGGGCACCGTGGGGGTAAGCG
Y
AGCCACTGAGCGTTCCCGGTGCAACACCACCCAGGGGAACGAGGTCACCTCCATCCTGCGCTGGGCCAAGGACGCTGGTGAGTCGGGGGAGCAGTGGGGA
Celera SNP ID:            hCV27859444
SNP Position Genomic:     61032
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51273):
CCCCAAGGTCTCTAATTCTTGGGCTTAAGCGATCCTACAGCCTTGGCCTCCCAGTCTTGGGATTACAGGCGTGAGCCACCATGCACGGCCTATATATGCC
T
TTTTTTTTTTTTTTTTTTGAGACAGTCTTACTCTGTCTTCCAGGCTGGAGTACAGTAGCATGACATCAGCTCACTGCAACCTCTGCCTCCCGAGTTCAAG
Celera SNP ID:            hCV26187923
SNP Position Genomic:     59493
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|T,7)   total(T,7|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51274):
AGTCCAGGTTCCAAGCCGAGGTCACTGGGGCTTCTGGGCATCTTGGAACCCTGCAGAAGTGATGGCTCCTGTCTCTTTTAGGTGATCATGGGGGGTGGCC
R
GAAATACATGTACCCCAAGAATAAAACTGATGTGGAGTATGAGAGTGACGAGAAAGCCAGGGGCACGAGGCTGGACGGCCTGGACCTCGTTGACACCTGG
Celera SNP ID:            hCV27859445
SNP Position Genomic:     65948
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51275):
CCCAAGGTCTCTAATTCTTGGGCTTAAGCGATCCTACAGCCTTGGCCTCCCAGTCTTGGGATTACAGGCGTGAGCCACCATGCACGGCCTATATATGCCT
T
TTTTTTTTTTTTTTTTTGAGACAGTCTTACTCTGTCTTCCAGGCTGGAGTACAGTAGCATGACATCAGCTCACTGCAACCTCTGCCTCCCGAGTTCAAGT
Celera SNP ID:            hCV26187924
SNP Position Genomic:     59494
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,11)   total(T,11|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51276):
AATCCAGCAGCAGTGTTGTGGGGCTGGGGAGCAGATCTTCCTCCCCTCCTCCCTCACCGAGGCCTTTGCCTTGGTGTCCCAAGGAGGCAGAATTGACCAC
R
GGCACCATGAAGGAAAAGCCAAGCAGGCCCTGCATGAGGCGGTGGAGATGGACCGGGCCATCGGGCAGGCAGGCAGCTTGACCTCCTCGGAAGACACTCT
Celera SNP ID:            hCV27859446
SNP Position Genomic:     73575
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51277):
AATGAAGCAAGTCACACATTTTTTGGTTTCCCAGTGCATATAAAAGTTATGTTTGCACCCTACAGTAGTCTTTTAAGTGTGGGATAGCATTATGTCTAAA
R
AAATGTATATACCTTAATTTAAAAATATGCTATTGCTAAAAAACGCTAATGAAGTGAGCTCATGTTTTTGGAAAAAATGATGCTGATAGACTTGCTTGAC
Celera SNP ID:            hCV26187925
SNP Position Genomic:     60026
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,16)   total(G,1|A,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51278):
TGTACTCCTGGGGCCCCAGCATGACCCCTGAACACCCCCTCCCTGTGCAGGTCTGGCCCCCATGCTGAGTGACACAGACAAGAAGCCCTTCACTGCCATC
M
TGTATGGCAATGGGCCTGGCTACAAGGTGGTGGGCGGTGAACGAGAGAATGTCTCCATGGTGGACTATGGTGAGACCTCCAGGACCCAGGGCTGGGAGGG
Celera SNP ID:            hCV27859447
SNP Position Genomic:     74381
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51279):
TGGGTGCCACTGGGGCGAAGGCCTGGCCATCTCCTGACCCTCCTCTCCCACCTGCAGACGTACAACACCAATGCCCAGGTCCCTGACAGCGCCGGCACCG
S
CACCGCCTACCTGTGTGGGGTGAAGGCCAATGAGGGCACCGTGGGGGTAAGCGCAGCCACTGAGCGTTCCCGGTGCAACACCACCCAGGGGAACGAGGTC
Celera SNP ID:            hCV26187926
SNP Position Genomic:     60978
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51280):
GGAGGCCTCTGGGACACCCCGATCTGTGGATAAAGCCAAACCCGCCCCTCCTGCACCCCAGGGAAATCTGTGGGCATTGTGACCACCACGAGAGTGAACC
R
TGCCACCCCCAGCGCCGCCTACGCCCACTCGGCTGACCGGGACTGGTACTCAGACAACGAGATGCCCCCTGAGGCCTTGAGCCAGGGCTGTAAGGACATC
Celera SNP ID:            hCV26187927
SNP Position Genomic:     61905
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51281):
TAAAGCCAAACCCGCCCCTCCTGCACCCCAGGGAAATCTGTGGGCATTGTGACCACCACGAGAGTGAACCATGCCACCCCCAGCGCCGCCTACGCCCACT
Y
GGCTGACCGGGACTGGTACTCAGACAACGAGATGCCCCCTGAGGCCTTGAGCCAGGGCTGTAAGGACATCGCCTACCAGCTCATGCATAACATCAGGGAC
Celera SNP ID:            hCV26187928
SNP Position Genomic:     61935
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51282):
ATTGTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCGCACATCACCACGCCCGGCTAATTTTTTTTTTTTAAATTTTTAGTAGAGACGGGGTTTC
R
CCATGTTGGCCAGGCTGGTCTCAAACTCTGGACCTCAGGTGATCCGCCCGTTTTGGCCTCCCAAAGTGCTGGCATTATAGGCGTGAGCCATCGCGCCCGG
Celera SNP ID:            hCV26187929
SNP Position Genomic:     64313
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,11)   total(G,11|A,5) 
SNP Type:                 INTRON


Gene Number:                 238
Celera Gene:                 hCG38926 - 207000006919220
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W3JR(13836099..13860191)
Chromosome:                  Chr7
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12398):
CACACACACAAACTATAAAACACTAGTGTGCACCTGTAGTCCCAGCGTTATGTACCATCAGTGCCAGCTACTCAGGAGGCTGAGGCAGGAGGATTCCTTA
AGCCTAGGAGTTTGAGGACAGCCTGGGCAACATACCCAGATCCCGTCTTTTTAAAAAAGCAAATAAACTATAAAGCACTAAGAAATCTAAATATCCATGC
TAGAGCAAACAGGTGGCAATTGAACATCCTGGGTCTATAGTATGCTTGAGGGAGACTGTGACTGATTAGATCCCCACAGTAGAGAGAACATCTTCATAGG
CAAACGGGGGCTTACCTGTAACAGCTGTTCAAGTTCTCTCTTCTCAGCAAGAATCATGAAAGGTACTTAATTCAAGGTGGGTGTACAGTCTGATGCTCTT
CAGGCAGGTCAAATTCTCATAATCTAGAGGACTGAATGGAAAGTACTTTTCTTTTTCAAGATAGGTGTCATTGGAGGCAGGAATGGAGCTTTTTGCTTTG
ACAGTCTTCCCCGTCATGTGTCTAGCAGAGAAAGTTGGTTGTTCTTGTTCAGGGCGTCCATTTGTCTGGCAGTTTTTGTTTCCAAAATACACCTAAAATC
TATCTGCTTCTTTTCATGTAGGCCGCCATGATCCTCCTCCAGGCCCCCATTCTTCTCACCTTGGCCAGGGCGATAGGTTCTTAACAGAACTTCCTGCTTC
CATTATTTCTGCTTTCATCCGTTCTCCACAGAGAAGCTGGAGTGGTCTTTTAAAAAGTTGAACAGATAATGCCATCCCATGCTCAGATCTTCCAAAGATC
TTCTGCTTCTCCTGGAATAAAACATGAACAGTGCACTGTAAAAACCCTAGAATATGCCAAATTCTCCAGCCTCATTATTTCTTACCACTTTGGACTTCTT
TTGTTTCTGGAATGTGCTAAACAACTTTTTTCTGACTCAGTCTCTCCTGGGAGAAATATTTTTCCTCTCCCTGGAATGCACTTCCTGCTCTTTTTATGGC
TGGCTTAATTTCACGTTTTGGATCCCAGCTATAATATCACTTCCTCACAGAAACTTTTCTTGACCACTCTATTTATCTGCACTAGCTCTCCCAACCCATG
TTTACTCACCAGTTATTCTGTGGCCTATCCCCCGTTTACTTCCTTCCTAGAAAAACCTATTTTTTTTTCTCCTTGTGTATTGTCTGCCTCCTGCCAGAAT
TGGAGGACTTATTATCTTGCTCATGGCTGTGTCTCTAGACCCTCACACATAGTGGGCACTCAGTATACATTTATTAAATAATTACATTTCTTATCTGATC
TCCTCCTGTATAATATTTGGATTGTTTTCACCTTTTCTATATTGTTACAAATGCTGCAAAGACCAGTTATATAGATGAATCTTTGTATATATTACCTTAG
GGTGAATTCCTTAAGTTGAATTTGGGGCTGACTATGTATAGTTTTTAAGCTTTTTATCAAATGCTTTTGACTGCTATCATTATTTTTTTACCCTCCAGTT
CCACCTACAATTACCTTGATTGACTCAATGGAACTTTTTCATATGAAAGTATTAAAAATACTGAAAGAAGATATAAGTAGCAAGAATGTTTTAAAATACT
AATTTCTGATAATAATGTAAAAGATACACTCTATGTTTTACCAGGAAACCTAGATCATTATATTCAATGCACTTCACTCTCATGGCATGTTATTTTTAGT
TCTTTTTCTAGTTCTAGCATAAATTTCCTCAATCAAATACTGTGATCGATTTTTTATGTGTGTAACAAGATAAAAATGTTGTGCTTCAGTCTCACATTCT
AATACTCTTTCTTCAGGTTGACCCTGTATTATGTTGGAATAGGTGTTGCTGCCTTGATTTTTGGTTACATACAGATTTCCTTGTGGATTATAAYTGCAGC
ACGACAGACCAAGAGGATTCGAAAACAGTTTTTTCATTCAGTTTTGGCACAGGACATCGGCTGGTTTGATAGCTGTGACATCGGTGAACTTAACACTCGC
ATGACAGAGTAAGAGGATGATATTGTAGTACGTTAGCTTTGTTTTCATATGTGACATGTAAATGACCTAACTACATTTATTTGCTTGTTTCAGTGACATT
GACAAAATCAGTGATGGTATTGGAGATAAGATTGCTCTGTTGTTTCAAAACATGTCTACTTTTTCGATTGGCCTGGCAGTTGGTTTGGTGAAGGGCTGGA
AACTCACCCTAGTKACTCTATCCACGTCTCCTCTTATAATGGCTTCAGCGGCAGCATGTTCTAGGGTAAGTGAGATGGCTAATGCAATATTGAATGGAAG
CAGCAGTGTGGACTAAATGACTCACTGAGTTTGTTCAAAAATGGCTTTTCTATTCACTTGCCATGTCCCAAACTACAAAGGGATATTATACACCACAAAT
ACTTTTGATTTTGTTCACCATTAATCCCCTTTCTATCTTCAAGTTATTTGGCTAAGATGAAATGTTTTTAATAGCTTACTAACATTGAAAACATTTCTCT
TCATTTAGCAGTCTAACACAACTTCAAGTGGTAGCATGGATAAAGTATGATGTCCTTATACATGTGATGTTTAGTTGTTGCTGTTGGGACAGACTTGTTT
GCTCTAAATTCACAGATCAACATGGTACGATTCATTTCACTGGGTAGAATGGAATAAGAAAATCCTAAAACAATAAACATCTTTTTATATCATCCTCTTA
AAGTTTATGTATATATGTAAAGTTTTTTTTTTTTTTGAGGCAAGGTCTCACTGTGTCACACAGGCTGGAGTGCAGTGGTGCAAACATGGTTCACTGCAGC
CTCAACTTCCCAGGCTCAAGTCATCCTCCCATCTCAGATCCCAAGTAGCTGGGACTACAGGCAACCACGCCCAGCTAACTTTTGTATTTTTTGTAGAGAC
AGATTTTCACCATGTTGCCCAGGCTGATCTCGAATTCTTGGGCTGAAGCTATCCGCCCACCTCGGCCCCACAAACTGCTGGGATTGCAGGCCAGTGAGCC
ACCGCACCCAGCCAAGTTTATACTTCAGTAAGGCTTTCAATTACATTTCAGATTTCTGCTAATATCTATTTTTATGTACTACACAAATATGTTTCAGTTT
TTTAAACAAATTATGTACTCGCATTCTAAATTACATTTTTAGCACTGTTTTGCTGTAAGTATAACACAAAATTGTAATCTTATCTACAGCCTGGTTTTGA
AACCGATACTCTGTGAAATCTAAAAACAACAAATGTATCTGTAATATTATTCTTCAAATCATATCTTTTGGAAATTCTACCATTGTATATACTCATCTTC
TAGATCGGAGGCACAGTGCTTTAAATTTGGCAACACTAATCATTATTTATGGAAATCCAGTTCCTAAAATTTCCAGAGTTTATTTACTAACAATATAGTA
ATTCAACCAAACAAGAATTTTCAGCAATAAAACTATTCTATAATGGCTAATCCCTTAACAATAGGCTTGGAGATTTGGACAGCATGTCTTTACTTAGTGT
GACTCCGAGTGTTGACTTTGTAGCCTTTATCAAAATCTTCATCCTCAACTTATTTGAAATGAGGAAGGAAATCTCAGTAGAAAGATTGCCTGCAGTAAGT
TAGTAAGATCAGAACCTTAACGTCCACAGAAGAGAAGTAAATGAGGAGTTGTAAAGGAATAGCAGTGGGTAGTCTAAATTCTATTATTGTATTCATTGAT
CATGGAGAGGAAGCAGGTGAAGGTCAGAGTTATCCAGTGAAGGTCAGAGTTATCCAAAGGATGCGATACCAGAGTGGATGGCTTCTAGCTTCCTTCAATT
CAACTTGACAATTATCTATTAAATACTTGCTAAGTACAAGGCTTTGTGCCAGGTGGTGTTTCCCCTCTAGTGATCTACTATAGGAATAATTATCTTTAGT
AAGTGAATTCAGAAAATAATGAGTATTATTCCGCTTCTGCTACTCTCTCACTTTAACAGTTATCCAAGCATGTCTTATATAAAATCAGCTCCTATTATGT
GGAATATATTTTTTAGGTGGATAGACTTGCTATGCGAATAGGCAATAGTTATGAATTCACAGCTCTGAAGGCAGTATCCCCGCTGTTCCCTTTTGTGGAA
CTGTTGTGTTAATTACAAAATTGTAAAAGGATTATTAAATGGGACATATAATGGAGAAAAGGGCATGTGAAATCAGGTAAACCTGTCTAGTCACCAATAG
TGATATTTTCCCTTTTCTCTCTGAAATCTTACCTCTTAGTATTTGAAGACAAATTTTTAAAAATACAGAGATAAAGTCTAAAAAAATACCATTAGTCTAC
TTAGAATTCAAATTCTGCCTGACTTAAATGTTCAGAACATTATTACTACACAGAGTCATTTTTTAACTGTGGTTGTGGKTTATTACAGATGGTCATCTCA
TTGACCAGTAAGGAATTAAGTGCCTATTCCAAAGCTGGGGCTGTGGCAGAAGAAGTCTTGTCATCAATCCGAACAGTCATAGCCTTTARGGCCMAGGAGA
AAGAACTTCAAAGGTCTKTCCTTTTAAATATAACAAGATATGCTTGGTTTTATTTTCCCCAGTGGCTACTAAGTTGTGTTCTGTTTTTGTAAGGTATACA
CAGAATCTCAAAGATGCAAAGGATTTTGGCATAAAAAGGACTATAGCTTCAAAAGTGTCTCTTGGTGCTGTGTACTTCTTTATGAATGGAACCTATGGAC
TTGCTTTTTGGTATGGAACCTCCTTGATTCTTAATGGAGAACCTGGATATACCATCGGGACTGTTCTTGCTGTAAGTCTTGTTTGAGAACAAGGTRTCAG
GCCTGGATAATCTTTCCTTACCTAGTTTAGCCAAAATTCCTCTTTGAAGATAAATATTCAAAGATGGATGTTTTTATTAAACAAATATTTGTTTCCCTCA
AATTATCTGTATACACCTTTAAATTATAGTTATGAATTGACAGCATTTATTCATCCAGCATGTTTTAGTGTCCTCGCTGTGTCAAGCATCTGCATTCCGC
TTTTGGAAGAATCATAATTGAATTCCCCACTGGGAAATACACTGAGTTTTGTTAATCTAGCAGTGAAAAAGGCCATTCTCTTGTGAGACTTTTCCTTTCA
TCTGGGCTGAGATCAGACGGAGTTCTGCATTCACCTTGCTAAATGTCTTCTCTCTGGAAATGGTCTGTAGAGTTTACACTCACCTCCTCTTCCTCTGTCC
TTTCAGCATGTAGTAATTTAAAAAACAGACTACATATAGCTCTGTCCAGTATCACAGTTTGGAGACTTTTAAATTCTTATGGGTTATGTGTTAAATAATA
ATTTATTCAGTTATCCTCTTAAGTTACAATAAACAGATCAGTTCAGGATTAAGAAACATTTGTCTTGAGGAACCAAAATGATCTGCTCTTTATACTTTGA
TCCTTGTTTGGCCTTTCCATTCTTACAGATTTCTCTTCTTTCCATTAAATTCATCTTTTGAATTTGAGGCATTCATAATTAAGACTTTTAGCTATTCATT
TATTTCATATAAAGTGAAATGTGAGCATGAACGATTTTTCACTCATCCTTGCTCCTCAATTTATGTGTGGCTGGGTATCTGGCTTACTAAGCCTAAGCAT
CCTCATCTATATGATAGGAGTAAGAGCTCCTAGCTTGAGGGATTCTTTTCTTATTTGACTTTTTGCAGAGATGAGTCTGTCTTAAAATGGACAGCTGTCC
CCTAATACAAAAATTCAAAAACGGTTTGAGTGAAAACAGTACAATGTCTCTGAGCCAATAAAATCTACTGAATTTTTCTTTTTAAAGTTCAAGGGGTCAC
CCAACAAGGAGGGGAGTGCAACTCACCATGGGGTTTATACATGGTCAGCACACTTCAGTTAGCAGATTTTTCTGGTCACACATCCCAGCATGTGATAACC
ACAAGACTATGAGATAATCAAAAGTTGTTCCTTATTAGGAAAAGGCCAAGGATACTTGGATTAATCTGTGTTTCTATTGCTTCTCGGCCTTTTGGCTAAG
ATCAAGTGTAATCTRTGTTCTTTTTTATTTGGTCATATCTTCCATTCTTTCTTACCTAATTCCTCTAATATCTCTCTGTGAGCCTAAACCAATAATTATA
TATTACATTCTATTGTCTTTCTTATATAACTGCAGAAAGATAAATATCACTTTGTTTGTTCCTGTAGGTTTTCTTTAGTGTAATCCATAGYAGTTATTGC
ATTGGAGCAGCAGTCCCTCACTTTGAAACCTTCGCAATAGCCCGAGGAGCTGCCTTTCATATTTTCCAGGTTATTGATAAGGTAAGACCTCTTATTGCTT
TGAAGAATAACTATCATTACTGCAAGAAGGAGACAAAAAAAYATACACCCTCATTTTCACTAAAACAATAGGATGGACAAATTTAATGTTGGCCAGTTGT
TTATGGGAAAGAGAGACTGCCTTTAATTCTTTTCTAAGAGGAGATTGTGTTGTATTGAAACCTTCATGTCTAACTCAATGCACTTCTAAAGCAGAAAGGA
AACTGTCATGGAAGAAAACCATCCTTATACTATTTTTAAAATGTAGAGACTGTCAGTTTACTCCTTTGAAGATTTATAACATTTCCTTTGTTTTTCCAAG
AAACCCAGTRTAGRTAACTTTTCCACAGCTGGATATAAACCTGAATCCATAGAAGGAACTGTGGAATTTAAAAATGTTTCTTTCAATTATCCATCAAGAC
CATCTATCAAGGTAGGTTAAAACAAATTACGCAATTGTGCAGTTTTCTGATATTATCTTCTACTGGCCAAGATCTTCTCTGACATGATTACTTAGGATCA
CTTTTTTCCAAGATTTTGGCTACTTTGCTTAGAGACTTGAGGAGGTAGATAAATAATGGACAAATAACTCTGGATCAACTAGTTATATTTTGCAGCATTC
TTTCTATATTCAACTGACTAAAGCATTTTCAGCTCCGTGAAATTCTTCTACTCTGGGTTTGGGAACACACCTAAATGTCTTGGGTTGACGCTGCCACCTG
TTGGTGGTTCCTAGATGCTACCCCACTCAACATACTCATTTTAACCCCCTCSTCTCTAACCTAGGAGAATTATGCACATGTGCCTTTCCCTTCTTCCTTT
CCTGGGGCTTTTACTGCASCAGCAATTGCGGCTAGTACTTTATCRCCTTTAYACACACGCACACACACACRCAGTTTATCCTACTCCATCATTCAGTCTT
TGACAAGTTCTTGTGAAAATGTGTGTCTTTTTTATTGTCTTCCCCCTTTCACTTCATTAGTGTATTTACCAAAAAAGTAGTTGTTGTTAAAGATTGCACA
AGGCGATTACTAATAAAACACTGGCTTCATAGAAAAAGACATGATTTTAARTGAAATAGATAAAATTACTAGTGTGATCAATTTCTAATGTCTGCTACAG
AATTTGTATAAAGACCTACCTACTCCTACTTCCTTATTTTTTTTCTGATTAAAACTTTGAYCGAAATTCTCTTTTCAAAGCTCTTTAGTTTTGAAAGTTG
TTACTTAATTACCGATTACCATTATTGGTATAGTATTGACTTCCACCATTTTTCTTAACTGTACAGTATTTCAAACTACATTTTGCAACTGTATTTGGAT
TGGCTTCCTAGGGACTTCAGCACCAATTGTGCCATTATATTGCATGGGAAAGTGTTCTTTGGGTTTTAAACAACTATTTTTAAAATGAACTTTTGAAACA
TAACCCTTTTTGTTAAACTAAAGAATGAAATTTTGGGGGGGTCCACCTATTTTAAATAAATAAATTCTTTCAAGGAATGACCAGAAACCAAATCTAGAGT
AAAAGTGCAGGTGTGAGAAGAGGTACTCCTACTGGTGGTCCCCGATTTCTCACCTCCTTCAGAGAACTTTTCTCGGCTTGGCCCTCTGAMGGTTTTATGT
TTGGCTTATGCAAAGGGTCCATTGCTTTACAAATGGTGAGATCAAAGCAAGAGAATTCAAAGGGAGATTCCCCTGTTTAGGGCTAACTACATACAGATGC
AAGCAAAGATAGGTGAGAATTTCTCAACAGGATCACTGTTGTCATTTCGAGAGGGTAATTATTGTGAGGCTTCAMTCACATTGCAGGTCCCTGGCACACT
AAATGCTGTAGCAACCCCAGTCATTGAGAAAATGTTTAAAGTGTTCCCTCATGGGTCACCATGAGCCCACCAAGGTTTCTAATGATAAACTCTCATCTAT
CGGGAGCCACTAAGAAACTTTGCCAGCTGTTTTCCTTTAGAATATGCTTTGCAATTATGTTAGTATGTCCTAAGGAGGAGCTTCATTAAATAGCTTGTGA
AAATATCTGGCAAGATCTCATTTACTTGTTACAAATTAAGACTTTCATTAACTTGATAGTCAAAATTCATATAAAATATTTTAGTTGAAAATGTGAACAG
TTTACTAGTTAATATTCTGAAGTACTCTTMATTTAGTTCTCTTTACATAGAGAGATAATGATAGATTCTTTTACTACTATTTTCTGAAATTATTCAGGCT
ATTAYTACACATGTACATGAAACAAACATAACAAGATCTAAATTTGTTTTTAGAAGAATTTGYTTTTGGTTATAATTATGTACTCATTTTCTGAAAATGT
GTCCATCATCTTCTTATTGTGGTTTTATGATTTTCCCTCCATACATTCCAATAGATTCTGAAAGGTCTGAATCTCAGAATTAAGTCTGGAGAGACAGTCG
CCTTGGTCGGTCTCAATGGCAGTGGGAAGAGTACGGTAGTCCAGCTTCTGCAGAGGTTATATGATCCGGATGATGGCTTTGTAAGTGCAGCTAGCAAAAC
CATGCACAGTCCACCTRATGGAATCTGGAAACACCGCAGGGCTGGCAGCTCTGTAACTTTTCATTTTCAACAGTAGAGCTGGGAGAGAAGCCATATTGTT
TTCTTTCCTTTGTATCCATTCACTCAGCAAATATTTATTTAGAGMCAACTATGTGTCAKGCACTGTTTTAGGTTCTGAGAATACCTAGGTGAATAAAACA
GATAAAAATCTGCCCTCATGAAGTTTACATTCTAATAATCAGAGGCAGACAATAAAAAAATAAGTAAATTATATAGTATGTTAGAAGGGAGGGAATGTTG
TGGAGAAAAATAGCGTATTAACATCTGTACCCAGTACCTATCAAGAATTTCAAAGTTTGTTCCAGAAGAATGATGTAGAAAAYATCTCCACTTTTCTTTT
TCTTTTTTTTTTTTTCTTGGAGCTTACAGTGTTGCACTTAACTTTCTCAGCCTTGTAAGTGGCATAGAGGATAAGACAGTGATATTCAAAAGTGATTAAT
TCTTAATGCTTCTGTTCAAAGTTTCAACAGTTATTTTTAAAAGAAAATCTACTCCCCTAGAGCCTGGCTTTATTTAAATTTTACTTCATAGTTTTCATTT
GGAGTATCCTAGACCCATGTGACTACATAAATTATTAGATGAGTGTTATGTGTATAAAAGAGTTGCATAGAATATCCATGCCCTGACAGAAAACAAGGGT
TGGTAAGAAATAGAGACTCTATGAGTTAGAATTACCAAACCCTGGCTTCTGTCACGGGAATATGTTGGGGTAATTGGCAATGGCACCACCCGTGGAGAAG
CCAGAGGTCACTTATTATCATGTAGAGCAATGAATAGGAGACACTTTTGTCTTTTGCAGAGGTGTGAGATGTTGAAATAATGGCGGCTATTTCCTAGAAG
AAATGTAAGGGTCACATCCAAAACTGAAGTTTTTTGTATGTGTCTACATAATAACATTTGCGGAACCTAGAGTATGTATCTTTATAATATCTAACTTGTG
GATCTTAGAATAAAGATAATCAGATGATCTGGCAAGGTTTTAGGCCAATTATTCTTTTGCAGTTTTGTTGGTGCCCATCTACCAGAAAAAGTCTAYGGAC
AATATATATGTTAGAAATATTTTATCAAAATATAGTCAGTCTTTGATTTCTAAAATATGCTACTTCTCAGCTTATATTTTGGTCTAGTATGAAARACCCT
AAAATCAATACAGTAAAAGGCATYACAACATGGTTCATTCTTTGGATTGGCAGATCAYGGTGGATGAGAATGACATCAGAGCTTTAAATGTGCGGCATTA
TCGAGACCATATTGGAGTGGTTAGTCAAGAGCCTGTTTTGTTCGGGACCACCATCAGTAACAATATCAAGTATGGACGAGATGATGTGACTGATGAAGAG
ATGGAGAGAGCAGCAAGGGAAGCAAATGCRTATGATTTTATCATGGAGTTTCCTAATGTGAGTACACTGTGCAGCCTGTGYCCTTAGCTTATGGTGGCAG
CGCTGCGACATTCCAATATAAGGTAATGAAACAACAACTGATGCAGAATAGTAGGGGTGTGATTAAATTCTGGATTGTCCTAGAACAAGCTTGTCCAACC
AGTGGCACAAGATGGCTTTGAATGAGGTCCAACACAAATTTGTAAACTTTCTTAACACATTATGAGATTTTTTTGTGATTTTTAAAATCTTATCAGCTAT
TGTTAATTTTAGTGTATTTAATGTGTGGCCCAAGACAATTCTTCTTTCAATGTGGCCCAGGGAAGCCAAAAAATTGGACACTCCTGTATGAAACATCTGT
AGAGAAGAATGCATAGTAACAACCAAAAGAAGAAATGCATCATTGAAAGGCCAGATTGAAAAGAATCATATTTTGTTCTGCAATTGAAAAAGAAAAAAAT
GAAAGATATGTTAAAGCATAACAAAGAAATATGAAACAAAATCATCAGACCAAGCTGAGAAATTATGTCTAAAATGTTTATTTGCGAGGCCATCTTGTGG
CTGAGAGTGGGAAAGTCATACACACAATGTTCAGATTGGTTCTGTGACAAACCACAAGAAAAACTATGATCATTTTTTAAAGCACAGGAAGCTAACATTG
CATAAGAAATGTGAAATCAGGCCGGGTGCGGTGGCTCACGCGTGTAATCCCAGCACTKTGGGAGGCCGAGGTGGGCAGATCACCTGAGGTTAGGAGTTTG
AGACCAGCTTCGCCAACATGGTGAAAATTCATCTCTACTAAAAAGACAAAAAAATTAGCTGGGTGTGGTGGCGCACACCTATAGTCTCAGCTACTAGGGA
GGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGATTGCAGTGAGCTGAGATCGCACCACTGCGCTCCAACCTGAGCAACAGAGTGAGACTTTAT
GGGAAAAAAAAGTGAAATCATATTTGGAAAGCAATATAGTCCCCAAAAGAGTGAAATCATATTTGGAAAGCAATATAGTAAGCTAAAATTATTGTTAACC
AGACTTACGAGATCTTAATGGGTATTTAGAATTAATGGGGTGCTGTAAAGCCTTTTTTTAAAAATATTTCCTGAAGTATTAGATCCTCAGCATCCCCTGA
AATTGTTGTGCGGAGCACCTTGTKACATATGAAAGGATGAGATTTGCAATTAAAATACATATAAAATTCCACCATCCCAGAGGGTCACAATAACAGAAAT
GTTTATTTTAATGGGCATATTTCACAAACCAAACTTGACGGAYTGTAATAATTTTATTCTTGGTTTTTAATTTAAAAAATTTGTTATGCCAGTAATTGTC
TCTTGTCCCCATTATTTAGGATCATAATTAGGACATATTTAGGCCAAMAAAATCATTAAAGATTTAAGGTGCTTCTTAAATCTTTGGGAACACACATTTC
CTTTTGTTGATGTTTTGCCCCTTTCAATGACTTCCTTTCCTTAAAACATCAATGCTCTCATTTCCCACTTAGAATTAGGGAGCTTTCTGATGCCTCTTAA
ATCATACCCTGTAAGTTACTACTTGCTTTTACCAAAAGCCAAATACTACACAAAGATGTCCCTTGCTATAAATCTAATAATAAATTCAGAAGATATAACC
AAAATAAATTAAAGATAGTAGCTTATCATGATGAAACCTAAATTCCACAGCCATAGCTAACCAGAAAAATGAGGAAACACAATAATGAATGAAAGTTCCA
GAAGTGGCTAATTTAGGTAGGTAAAAAATTGGGGAAAGCTATTGTAAAAAAATGTATAACATTACTTCCCTTATAATATACACAGATTTTAAAATTAATG
TATAATAATTAGCTGATACTGGTTAGCCTTTCACTCATAAACAACCATGAAATTGGATAAAACATATGARGCCAAGGGCAGTCATTTCCATGCATTGGAT
GAGAGGTAATGAAAGACTGATTCCTAACAGAGAGGAATCTCATAAAGGTACTCCATGAATTCTGTCTGGGAACACTGAGCTGAAAGGCAAAGCTCAAATT
TCAGGGCAGCTTGGGCAGCTGGAAAGGTGATAAGAAATCACCTGTGGCGATGAGGCAGGGGCAGAAGCCCAGTCTGTATGGGCATCCCTCAGGAATCCTT
GTCTGAGGATAAGACTACCTACCCAAGGCTCACCAGAGAGTGGCAGCCATAAAGCTGCAAGCGGAACACTGGATAGAAGTCAGGCAGTGCTGCGGGGGCG
TTGAAAGTGCAGCGCAGCTGGAATGGAGAGATCACATTAACACCTTTTTAACVCCCCAGGCAAGTAGCTAAAACACCAAAAAAGCCACACCTTAGGAGTC
AGGACCACACCTTAGAGTAAGATCTACCTGCCCTAACAAACCCTGAGACCAAKCCATGACAAGATGCCCAGAGAAGAGAGGTTTTGGAGGTTGTGTTCTG
CCAAGTTATGTGGCTTTCTACAAATTCACCCCAAGGAAACCTAAAATGAAGATTGCACAAGTTCAAGATCAGTCAGTGCTTGAGTTGCCTACTAGAGACA
AAAATCAGCACTGTTTTTTTTTTGTTTTTGTTTTTGTTTTCAGAAGAAAACAGAACTTAGAGTCTCTTCAACACAACAATTACAGTACTCAGTACATCAT
TTACAAAAACCAGACATGCAAAGAAACAGAAAAATATGGCCTGTATGCAAGAAACATAATCCTAAAAGTTTATTCTTTAAGAAAAGGGCTTCAAAATACA
TGAAGCAAAAACTGATACATCTGAAAGGAGAAAGACAAATCCACAACTTTAGTTGAGGCCTTCAGTGCTTGATAGAACAAGCAGGTGGAATATCAGTAAG
AATATAGATGAACAATACTAACAGGCAGCTAGATTTCACTGGCATTTATACGACATTCCAGCCAACAACAGCAGAATACATTCTCAAGTGCACACGCAAC
ATTCTCTAAAATAAACAATATTCTGGGCCATCAAAACAAACAAAACAAAACTGTAGCTCTTTCAAATAATAGAAAACATAGAAAATATGTTCTCAGACCA
TAATATAAGTAAACTACACAAATATTTGAAAAATCACAAAAAACAATTCTAAAGAATATATATCTCAAAAAAGAAATTTCAAGAAAAATGAAAAACTATT
CTGAACTAAATCAAAATGAAATTGCAATGTATTAGTATTTGTGAGATATAGTTAAAGTATTGCTCTGAGAGAAACTTATAGTATTTAATGCTTATTTTCG
GAAAAGAAAAAAGATCTACAGTCTGCAAACCTAATTTTCACCTACAGAAACTAGAGAAGGAAGAGCAAATTAACCCAAAACAAGCAAGACTAAGTAAATA
GAAATTACAGTAGAAATCAGTAAAACCAAAAACTGAAAAACATCAATTACTGAAACCAAAAGCTGGTTCACTGAAAAGATTAAAAAAAAAAAAAGTATAA
CTGTAGCAAAGCTGAAAAAAGAGAGAGAGAGAGAAAAGAGATGGCCAGTATCAGGAATGAAAGAAGGTACATGACTATTGATTCTAAGGACATTAAAAGG
TTAATAAGGAAATATAAACAGCTGGGCATTTTTTGACATAAAGTCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGGAAAGGAG
TTTGTTACCAGCCTGGACAACATGGCAAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGYGTGGTGGTGCACACCTGTAATCCCAGCTACTCG
AAAGGCTGAGACAGGAGAATCACTTGAACTCAGGAGGCAAAGGTTGCAGTGAGCTGAGATAGCACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTC
TGCTCCCCCGCACCTCCCCCCAGCCCCCCAAAAAAAGCTAGATGTCTAAATAACGGCAACAGTTACAAATGAAATTAAAATAAAAAGCAGTATTCACAAA
GCATCAACAGACAAAATGCTTAAGAATAAATTTAATGAAAGACGTGCAAGTCTTCTAGTAAAAACTATATTATGCTGATAGACATGAAAAGATCTAAAGA
AATAGAAAGTACCTTATTCATTGATTTAGAAACTCCATATTTTTAAAGATTTGCATTCTCTCCAAGTTGATATATAAATATTGTGCTTTATCAATCAAAA
TCTCACCAGTTTTTATGTGTATGTGTAGAAAYTGACATGTTGATTCCAAAATTTATTTGGAAATTCAAAAGACCAACATAGCCAAAACAATTTTGAAAGA
AAGACCAAAGCTGGAGGACCTAAATATCTAATTTTAAGACAGCAATTAAGATCGTGGTAGTGGCATAATGATGGTTGTATAGATCAGTACAATGGAACAG
AGAGACCAGAAATAGATTCACAAATATCTACTAAGTTAATTTTTGACAAGGCGAATGGAACTCAGTGGGGGAAAGAAATATCTTTTCAACAAATGGTGCT
GGAACAAWTGGTTATCCTTGTGGAAAAAATAAAATGTGACCTTYACTTTACATCACACACAAAAATTAATTTGCCATAGACCTTGTACCAAAATTGTAAA
GCGTAAACTTCAAAAATTAAAACTTACGAAAAAATCTTTGTAACTTTGAGAGAGGCAAAAGTTTCTTAGACTGAAAAGCATTACTATAAAAAAAAGATAA
ACTGGAGTGTACTAAAGTTAAAACCTCCTTTTTAAAAGACATCATTTAGAAAACAAAAAGGCAAGACAGAGAGCACAAGAAAATATTTATAATATACATG
TCCGACAAGGACATGAATCCAGAATATATAAAGAACTGCTATAGCTTGATGAGGAGACAAAAAATAGAAATTAAAAATGGGCAAAAATTTGAACAGACAT
TTTACAAAAGAAGAATCAAATGAACAATACATACATTGAAAATATGCACCATTATTAGTCACCAGAGAACTCTAAAATAAAACRATAATGAGATACCATT
TTACACTCTTAGAATGGCCAAAATTAAAAAGACTAACAAATGTAACTTTTGGTGATGATGTAAGCAATTAGATCTCTCATTCATTCAAATAAAAGTGAAA
TCAGTATAATCATTCTAGAAAGCAATTTGGCAGTTTATTATAATGTTAAACATACACTTATGACTCAGCATTCTATTCCTAGGTATTTATTCAAAAKAAA
TGAAAACATGACCACAAAAATATCTTGTACATGAATATTCATAGCAGCTTTATTTATAATAGCCAAAAATAGGAAACAATTTAAGTGTTCATCAGCAGTT
GAATGAACAAATTGTGATAGATCTAATTTTTCTTTTTCCTTTTTCTTTTTTTTTTTTTTTTTTTTGATATGGGGTCTCACTCTGTCACCTAGGGTGGAST
GCAATGCACAATCTCAGCTCACTGCAGCCTCGACTTCCCAGGCTCCCAGGCTCAGGCAGTCCTTCCACCTCAGCCTCCTGAGTAGCTCATGCCACTACAC
CTGGCTAATTTTTGTATTTTTTGTAGAGACAGGGTTTCACCATGTTGCCCAGGCTGGTGTCAAACTCCTGGCTTCAACCAATCCACCCACCACAACCTCC
CAAAGTGCTGGGATTACAGGTGTGAACCACCACACCCGGACAAATTGTGATAGATCTAGAGTTGCCAGATGAACTACTGGATTCCCAGTTAAATTTGAAT
TTCAGATAATGAATAATTTTTTAGCAATATTGCATAAAACATACTTATACTAAAAAAAACTCATTGCTTTTCTGARTTCAAATGTAACAGCTTTGTGTTT
TCTTGTGTGTTGTTTGTTTTTGCTAAATCTGGCAACCCAAGGTAAACTYGCATTGTGTGGAACACTACTTAGCAATAAATAGGAGTGAACAACTGATACA
ACAYGGATGAATATCAAAAACATTAAGCTAGGTAAAAGAAACAAGCCAAAGAAGTACATACTGTATGATTTCATTTACATAAAGTTCTAGATCCAGGAAA
ATTCATGTATAGTGATAAAAATCAAATCAGCGGTATCTGCAGGCATGGTATGGGTTTTGACTGAAAAAAGTGACATAAGGAAACTTACTAGGGCTACAGA
AATGTTCTATATCTTTATTGGTATGGTGGTAACATGGGTGTACTCATTTGTCAATACTCATAGASTTATATCCTTAAAATGGATGCATTTTATTGTGTGT
AAATTTCTTCAAAAAGCCTGATTTTTTAAATGTGAAGATCAATCTCTAGAAATTAAGGGTTTAGAAAGAATATTTAAATTTATCTCCGTGAAGAAATAAA
CTTTGAATCAGGGACGTAACCCAGTAGAATATTACTAGCCATGTTTCCTGGGCGCTAGAAGTTACCCCTACCACAAATATGGAAGACAAAATATCTACTT
TGTTAAAGATAAATTTATTTTAAAACAAATCAAAAGAACACCTAAAAAGTATCTCAAGATGGAAAAAAMGTTTTAGGGGAAAGTTTGTTTTGGTAGCAAT
TTTTTTTCATGCTGTTTTTCAGAGTATCCAGGAAGGAAATTGTGGGTAACATACCAAATTGCTAATAAACACTGCAGAAAATAGGTATTTGTATTACAGT
GGTTCTTTTAAAGATTTCAAAGCATTCTAAAAATATCTAAAAGAGATTTGGACATTAGTTTAAATTATTATTAATTTTTCTAAATACATTTGATTATAAT
GAGGTCTAATTTATTTTAGTCCTAGCCAAATTTTTCTTATGTCCTCTCTTCTTTGGGCTCTTTTTTTTTTTTTTACAGCGGTTTGTTTTCACAAAGAACA
AATCAAAAGACATAAGCACCCAGAGGCTGAAGTACTGATTAAGCTGATATTAAAACACAACTGGGATTGTCATTTCCTGTTCTAACSATTTGATCACGCT
GCCTTCTGTTTCTGTGCTTCTTTCCTATTTTTCATTAGAAATTTAATACATTGGTAGGGGAAAAAGGAGCTCAAATGAGTGGAGGGCAGAAACAGAGGAT
CGCAATTGCTCGTGCCTTAGTTCGAAACCCCAAGATTCTGATTTTAGATGAGGCTACGTCTGCCCTGGATTCAGAAAGCRAGTCAGCTGTTCAAGCTGCA
CTGGAGAAGGTAAGTGAGCAGAAACGTTTCTTATTTCCATACTCCTGGTTCATTATTGTTTTGAAGTACAAGAAAGTATAGATCTGTAATAGATTACTCA
AGTTGAGAGCCCTCTTAAGGTATAAAGGCAGGATGTTAATCCACTGAGAACTTACGTGATGGCTATAGGAAGTGGTTTAGAGGACAGAAGGAGATGCTGT
GGTTGGTTGGTGTAAAAATATATACATGAGGCTGATACACAAGCAATCATCCAGTCTATACCTCCATTCCAAGTGGTTTGCACTTTCCACCTCCCTAGAG
TGGCCCACCACYATCATCACTATTATAACCATGCCCACCCTTTGCTTCTTCTACATACACCTGTGGGATTCTCTTCTCTGACCACTTTTCTTCTTTAGGA
TACCCCCAGGTATTCATTTTGACCTAATTTCACCTCAAGTGGAGAATCGCTGACCTTGAACCAGCGCCCTTCGACAGCTCTGGCCCCTCAAACCTCACCC
TGACCTCCTGCTGCCTATGAGCTACTGCACATACCTCAAGGCCATATGCAGTTGTGGCCCTGCACCAAATTACACTGAATCTAGGAGGGGAGTTGGCAGT
GGCGGTATGAAAAACCATTGAACAGTTTTCTCGATGGCCTGACTCCCTTATAAACCAGAGCCTTCAGACCCCTTACAAGGCTTAATGGCACATTTTACTT
TGCATTTGCTTGGAAGTGAGTTAAGCGTTTTTTTTTCTCTAAGAAAATCGCAGGCTTCTTTTTTTAAAATGCTGACTTTATGGAACCAGAAACGGATACT
GGCAGGCTAAATGTCCACTGCTTCTTGAAAAATCTCTTAGTTACTATTATTTAGTAGCAAATCAGATTGTGCAAGTTTGAACGCTTGTTTCCCTCCCATA
ATAACAATGCCACATGTTGCTTGTGTGATAAATAATCTTTGTTTACTGTGGACACTTCGGCAATTTGGTTCATCTTGGTACAGAAAATACAAAGACAGGA
CTAATATTTTATTCATTTTTTATACTTAGTAACTAGGACAGGGATCTGTATTTAGACTATATTCAAGCCTCGCTCTGTCACCCATGCTTGAGTGCAACCT
CTGCCCACTGTGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGAGTACAGGCGTGCATCACCACACCCAGCTAATTTTTGTATTTTTAGTA
GAGACAAGGTTTTGCCATGTTGACCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGC
GTCTCCGCGCCCGGCCAGTTACATAAGATTTTAAAAAATGTATTGTAATAGGCTCTCTGATTGTTTAGAAGGTTTCATGTTGTGCCCGCAGTATTTTCAT
CCACTGGTAATCACTTTAGGTAATCAAAACTAGTTCAGACTTTTAAAATAAATAGTTGCTTGGTGACATGATAAACTAATAAATGTTATTCTTATTGGTT
AATATGAAACATCTATCAAAAGTGAAAAAAGAAGAATGCAGAATGTTTGTAAACTGATTCCAAAATTACACAAAATAGCAACTGTGAAAAAAATGAAGGC
AATATATGAAAATAATAACAGCTATGTGGCATAATTATGGGGGAATTTAACTTATTTCAAAAATTCATTTACTGTCCCTGTTTTTCAGTTGTTTAAAGGA
GAAAGAGATTAAATCAATGTAGAAATAGGTGTGAAACTGCTTTATGTATGGTTTGCTGGGTCAGGATAAAGGGTAACCAATAGGATGAAAAGTAGCACAG
TAAACTAGATTAATCATATACTCTTCAGTTTATTGGAAAATGGCTTATGGAGAAGGGGAGAGTTCAAATACAGGCAGGGTGATGGAAGCTGTAGCACCAT
GACAGCCCTCTCCTCTCACCACCATAGACTGCAGTTATGGAACCAAGCCCTTGGAGGGGGCCCTGGGTAAGAAAGGTAGGACATCCAGCAGGTCTCATTC
CTGATCAGCTGTCTAAGAGGCCCCAGACTCTGTTATATCATACAGCCTAACCCACACAGTTAACAGTTTTATGCTGCTCAAAATATCCTGCAAGCCACTA
ACCAACGAAAGAAGACATAATGAAGTGTATCCCTCCTCCCTGGTGATAGAATCTATACCCACTTCACTCCACAACCTGCCCTCACATATCCCTTCCATCC
CCTCCTCTCCATTAGTCATTTATCTTCCACTTATACAAAGTTCTAGAACCTGTGAAACCAATCAATGGTATTAAAAAATCAGGTCAGCAGTTTCTTAGGG
CAGGGGTGAATTCTAACTAAACAGCAACATGAAGGCACTAACACCCTTTTCCTCACTTGGACTATTGCAGTAGCTAACTCTGCATCAGCCCATGCCCACT
TCAATCTGTTCTCAACACAGCAGCCAAGTGTTGCTATTCAAATGAAAATTTGGTGACATCGTACTTCAACTTCAAATCATCCAATAACTCCCCACCTCAC
TCTAAGTAAAAGCCACATTCCTTACAGTAAGCACAAGGCTCTATGGAGCTGGGCTCCAAGCTCCTTCTGGAACTTCCCTTCCTACCATTCGCCCCAACAA
TGCCTGCTTCTTAAACATACCCTCACACTTTTCATTAGCTAACACACAACGTATATGTTTGTTTATTTTGCTATTGTCTCTCTTTCTCCACTTGAACGTA
AACTCTCTGGTGGTGAAGGCTTTGAGTGATTAACTGCAGCATCCCCACCTCTAGAACAATGCTGGCCCTTAACAAACAGCCAACAGATATTGTTGGATGG
ACTTCGATGAGTGTGATCCAGGATACTTCTAAGACCAGAAATATTCTTTTTTGCTTTCTTTCTTTTCTTTTTCTTTTTTTTTTTTTGAGACCGAGTCTCA
CTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTTCACTCACTGCAACCTCCGCCTCCTGGGATAAGCAGTTATCCTGCCTCAGGCTCCTGAGTAGCT
GGGATTACAGGCACGCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTTGACCTCCTGACCT
TGTGATCTGCCTGCCCTAGCCTCCCAAAGTGCTGGGATTACAGGGGTGAGCCACCGCGCCCAGCGAGACCTGAAATGTTCTTTTCTGGACTCCTGGATTT
AGAATAACTACAAACTAGTTTTGTTTCACTAATGTTCAAGAAGAATTTCTAGCGTCAGTGAATAAAGGTTCATGTCATAGGGTGTGAGTTTCACTCTGCT
ACTTGTTTTGACCTGGTGTGCCAATGCAGCAGGTTTCCAAGCTGCCCCACTAGTAGGAGACATGGCAGTGAGCACCTGCAGGCCCCTGGGGAAGCCAAGG
AAACCCACACTGATTCTGTGATAAAGCCTGTGAAAGCTCTGTGAAATGTTAAAAGTGGTATGCAAATCTAAGGCATCATTATTATTAAGGGAGTTTCGGC
CACACCACATCAATGGAGAACCTCTTTGGTAATTATGAAGGAAGAGTTATCATCACAATATTATTCTTTGAAAACACAGGGTTGCTTTATTGCAGCCCTC
ACGGGCACGTCTTAACCATCACTGTGCTTTCTCCCTATGATGCGCCCCGTTGGTCTTCCTCGGAGACCTCTTATGTTGTATTTATACTACTTAGAGGACT
GGACAATAAGGAAATTGGTGTATTACATTAAGCTGCCAGCCACTGGATTAAATTAAGTTCTAAGAAGTGATTATCCAAAGTCGAAGTTAGGTCAGAGTAA
ATTTTACACACAAACACACACACACTAATGCACACACATTTTGAATGTCTGTGTCAATTAAACATCTCACTCTGTATTTGGAATTTTGAAAAATCATTTA
TAGCAACACTGTAATAGTTGGGAACAGAAAGGGAATTTCTCCAAGGGAATTTCCTTGGCTGAAATTTAGACAGAAAATCAAAGGTAACACACAGACTACC
TCATGCAAAAAACATGATTGGATATTTTATAAACCTGCTTAATCAAGCTCACATTTGTAGCGCTTGATGTTAAATTCTAAGCCACTAACTTCTTTCAGAG
TAATGGTCCTTCTCCTTTGATAGATCAGGGCCCCTTTGAGAATCTGATTGAGAAAGGGAAAAATAAACCACCATAACTCTTTAGAGAAGTATACAAATTC
ACTTATACAAAAAGACTTACACGTACTCTTGAGGGAGTCATAGACCCCCGAAGCCATTTGTGGGTCCTTATTTTAGATGTAACAAAGGAACAAATGGATG
ATAACAGCTAATCCTCACAAGATCCATATAAGATTAAGACATTTATTCTCCTGTTTTACAGTTGAGCTGTAAAATACACTGAAGCACAGGGAGGTTAAGT
AATAGGTAGGCACAGTGAAGCCAGAACCCAGACCACTCATCCTTCTGCCTCATTCTTGTAACCACCAGGCTATATTGCTTCAAGATTACACTGCCGGGAG
GTGGAGCTAAAACCGATTCCAGATCAGGCTTCAAACCTCTTAATAAACATAGAATTATCAAATTTCACTTCTGAGTATATGCCCAAAATAATTGAAAGCA
GGGTCTCAAAGAGATATTGGTATACTAGTGTTCATAGTAGCATCATCTACAGTAGCCAAAAGGTGAAAACAATCCAAATGTCTGTTTACAGATAAATGGA
TAAAGAAAATGTGGTATATACATACAATGGAATACTACCAGTTTTTAAAAGGAAATTCTGATGATGCTAAAACATGAATAAACCTTGAAGAATTATCCTA
AGTGAAATAAAACTGACAAAAAAGGATCCATATTGCTTAATTCTGCTCACATGAGATACATACAATAGTCAAATTCAGAGATGGAAAGTAGAAGAGCGGT
TACTAGGGGCTTGGGGGATGGGAAAGCGGGGAGTTAGTGTTTAATGGGTATACAATTTGAATATGAGATGATGAGAAAGTTCTGGAGATGGGTAGTGGTG
ACAGTCGCACAACAGTGTGATTAAGATTGCAAATTTTATGTTAGGCTTTTTTTTTTTTTTTTTTTTGAGATGGAATCTTGATCTGTCACCCAGGCTGGAG
TGCAGTGGCATGATCTCAGCTCACTGCAACCTCCGCCTCTCAGGTTCAAGCGATTCTCCTGCCTCACCCTCCAGAGTAGCTGGGATTACAGGCACACACC
ACCACACCCGGCTAATTTTTATATTTTTGGTAGAAATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAAATGATCCACGCGCCTC
GGCCTCCCAAAGTGCTGGGTTTACAGGCATGAGCCACTGCGCCCAGTCAGGCAATTTTTTTTTTTTTACCAAAAAGAGAGAGAGAGAGAGATTAGTAATC
TAAGCCTGAGTACAAAAGAACAGTGAAAAAAAATTAATAAATAAAAGAATAGTGACAAAGAGGAATTTGGCCTCTCAGAGTCAGAAGGATCGTACCCTTT
AAAATGGCTATAATGGTAAATTCTGTATTATGCATATTTTTCCACAATTTTAAAAACAAAACACAACTAGCCTTTTTTGGAAAACCACACTCACACTGTC
TTCTTGGGAAAGAAATTCAAACCATACTCCAAATCGAAGCTCTCATGTGGGTTAAAACCACTTTTGTTCCTGTAAGTTGTTTATTTTTATACTATTGTAT
AAATAACTAGTAGAATTCTCTTTTATAAATTTAGGTCACTGTTACTTAGCAGGACATTCCAAGGTTTTAAAGAATATACTAAAAGGTCTTCTAAGACATA
ATAAAATATTTTTCCATGATATGGATAAGCATCTTGGTGATTTTTGTAAATTAAAATTATTCCTAAGCCTTTCCTTCCTCCCAAAATAAGGAAAATGCCT
ATAGAAGATACTGATTTTCCTAAGTGCTATCAAATAAGTGATCTCAATGTATTATTTACCAAGAATAAAAATAGGTAAGCTATTATGCCCTTATGGAAAA
AAATAAACTAATTATTGCAGCATTTTCTCTTCTTACCCACCATTTACTTCATCATTTATTTTTTATTGTAAATTTCTCCACAAATACTTAAATGATTAGC
TTGTTAATAAAGTTAAGTAAAGCTGGGAGTGGTGGCTCACACTGTAATCCCAGCTACTTGGGAGGCTACAGTGGGAGAATCACGTGAGACCAGGAGCTCA
ATACCAGCTGGGCAACATAGCAAGACCTTGTCTGTAAATAAAATAATAAAATGATTTTTTAAAAGTTCAATGAAGAGAAAAGGTATTAAATGATGATAAA
TAATTTTATGTTATCTCTAATTCTTAACCTTCATGTTAACTTATTTAGAAGTGACAATGAAGAGATTCCAGGCCATAAAAAGAAAACATTTTACCATTAT
TATGTTATTATTTCACGTTCCTAATTAGGTAGTACAYGTGGGTTCATTTTAGCAGAGTTTACATTTTGAAAGTGTTTCTTTTCTAAAGGGTCTTAACCCA
AGCATTCATGCATTCACATGAGTAGATTTCTGCAAGCTGGAAAGAAGGGTCAACGAGCAGGTGAGTCAYCCATTAAAAGTGACTTCTAAGTTCCTGATAT
TTTGCTATTTGTCATCCCCCTTGACAAAAAAGAAAGCATTCTCGGACCAGTGACGTGGTCTGACAGTAACCCCACATTGTTGAGCCCTGGAACCCATGTC
GACCCAGAAGAACATTAAGCCAATTGGCTTTCAACATCACAGTCAGGTAGTTAAGAAACAAAAGGCCTATGTTTCCCGTTCAACTACCATGG


SNP Information

Context             (SEQ ID NO:51283):
ATGGTATTGGAGATAAGATTGCTCTGTTGTTTCAAAACATGTCTACTTTTTCGATTGGCCTGGCAGTTGGTTTGGTGAAGGGCTGGAAACTCACCCTAGT
K
ACTCTATCCACGTCTCCTCTTATAATGGCTTCAGCGGCAGCATGTTCTAGGGTAAGTGAGATGGCTAATGCAATATTGAATGGAAGCAGCAGTGTGGACT
Celera SNP ID:            hCV25621051
SNP Position Genomic:     2214
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,33|T,3)   total(G,71|T,3)
SNP Type:                 hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:51284):
TACAAATTAAGACTTTCATTAACTTGATAGTCAAAATTCATATAAAATATTTTAGTTGAAAATGTGAACAGTTTACTAGTTAATATTCTGAAGTACTCTT
M
ATTTAGTTCTCTTTACATAGAGAGATAATGATAGATTCTTTTACTACTATTTTCTGAAATTATTCAGGCTATTATTACACATGTACATGAAACAAACATA
Celera SNP ID:            hCV7599504
SNP Position Genomic:     8430
SNP Source:               Applera
Population(Allele,Count): african american(A,32|C,4)   caucasian(A,27|C,3)   total(A,59|C,7)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51285):
ACATTCTAATACTCTTTCTTCAGGTTGACCCTGTATTATGTTGGAATAGGTGTTGCTGCCTTGATTTTTGGTTACATACAGATTTCCTTGTGGATTATAA
Y
TGCAGCACGACAGACCAAGAGGATTCGAAAACAGTTTTTTCATTCAGTTTTGGCACAGGACATCGGCTGGTTTGATAGCTGTGACATCGGTGAACTTAAC
Celera SNP ID:            hCV25621052
SNP Position Genomic:     1894
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,32)   total(C,63|T,7)
SNP Type:                 TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,5)   caucasian(C,24)   total(C,51|T,5)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:51286):
GAAAACCATCCTTATACTATTTTTAAAATGTAGAGACTGTCAGTTTACTCCTTTGAAGATTTATAACATTTCCTTTGTTTTTCCAAGAAACCCAGTATAG
R
TAACTTTTCCACAGCTGGATATAAACCTGAATCCATAGAAGGAACTGTGGAATTTAAAAATGTTTCTTTCAATTATCCATCAAGACCATCTATCAAGGTA
Celera SNP ID:            hCV25621038
SNP Position Genomic:     6614
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,32|G,2)   total(A,70|G,2)
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:51287):
GGAAGAAAACCATCCTTATACTATTTTTAAAATGTAGAGACTGTCAGTTTACTCCTTTGAAGATTTATAACATTTCCTTTGTTTTTCCAAGAAACCCAGT
R
TAGATAACTTTTCCACAGCTGGATATAAACCTGAATCCATAGAAGGAACTGTGGAATTTAAAAATGTTTCTTTCAATTATCCATCAAGACCATCTATCAA
Celera SNP ID:            hCV25621039
SNP Position Genomic:     6610
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:51288):
ATGGTCATCTCATTGACCAGTAAGGAATTAAGTGCCTATTCCAAAGCTGGGGCTGTGGCAGAAGAAGTCTTGTCATCAATCCGAACAGTCATAGCCTTTA
R
GGCCCAGGAGAAAGAACTTCAAAGGTCTTTCCTTTTAAATATAACAAGATATGCTTGGTTTTATTTTCCCCAGTGGCTACTAAGTTGTGTTCTGTTTTTG
Celera SNP ID:            hCV25753327
SNP Position Genomic:     4489
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,34)   total(A,1|G,69)
SNP Type:                 hmCS


Context             (SEQ ID NO:51289):
AGATTCTTTTACTACTATTTTCTGAAATTATTCAGGCTATTATTACACATGTACATGAAACAAACATAACAAGATCTAAATTTGTTTTTAGAAGAATTTG
Y
TTTTGGTTATAATTATGTACTCATTTTCTGAAAATGTGTCCATCATCTTCTTATTGTGGTTTTATGATTTTCCCTCCATACATTCCAATAGATTCTGAAA
Celera SNP ID:            hCV15849006
SNP Position Genomic:     8563
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,25)   caucasian(C,4|T,30)   total(C,17|T,55)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51290):
ACTTCATTAGTGTATTTACCAAAAAAGTAGTTGTTGTTAAAGATTGCACAAGGCGATTACTAATAAAACACTGGCTTCATAGAAAAAGACATGATTTTAA
R
TGAAATAGATAAAATTACTAGTGTGATCAATTTCTAATGTCTGCTACAGAATTTGTATAAAGACCTACCTACTCCTACTTCCTTATTTTTTTTCTGATTA
Celera SNP ID:            hCV335804
SNP Position Genomic:     7351
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51291):
TAAAATTACTAGTGTGATCAATTTCTAATGTCTGCTACAGAATTTGTATAAAGACCTACCTACTCCTACTTCCTTATTTTTTTTCTGATTAAAACTTTGA
Y
CGAAATTCTCTTTTCAAAGCTCTTTAGTTTTGAAAGTTGTTACTTAATTACCGATTACCATTATTGGTATAGTATTGACTTCCACCATTTTTCTTAACTG
Celera SNP ID:            hCV335805
SNP Position Genomic:     7461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51292):
AATAATTATATATTACATTCTATTGTCTTTCTTATATAACTGCAGAAAGATAAATATCACTTTGTTTGTTCCTGTAGGTTTTCTTTAGTGTAATCCATAG
Y
AGTTATTGCATTGGAGCAGCAGTCCCTCACTTTGAAACCTTCGCAATAGCCCGAGGAGCTGCCTTTCATATTTTCCAGGTTATTGATAAGGTAAGACCTC
Celera SNP ID:            hCV16088765
SNP Position Genomic:     6191
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,11)   caucasian(C,31|T,5)   total(C,50|T,16)
SNP Type:                 UTR 5;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:51293):
TGGCAGTGGGAAGAGTACGGTAGTCCAGCTTCTGCAGAGGTTATATGATCCGGATGATGGCTTTGTAAGTGCAGCTAGCAAAACCATGCACAGTCCACCT
R
ATGGAATCTGGAAACACCGCAGGGCTGGCAGCTCTGTAACTTTTCATTTTCAACAGTAGAGCTGGGAGAGAAGCCATATTGTTTTCTTTCCTTTGTATCC
Celera SNP ID:            hCV2544180
SNP Position Genomic:     8817
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,8)   caucasian(A,36|G,2)   total(A,58|G,10)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51294):
CATCTCATTGACCAGTAAGGAATTAAGTGCCTATTCCAAAGCTGGGGCTGTGGCAGAAGAAGTCTTGTCATCAATCCGAACAGTCATAGCCTTTAGGGCC
M
AGGAGAAAGAACTTCAAAGGTCTTTCCTTTTAAATATAACAAGATATGCTTGGTTTTATTTTCCCCAGTGGCTACTAAGTTGTGTTCTGTTTTTGTAAGG
Celera SNP ID:            hCV16088766
SNP Position Genomic:     4494
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,38)   total(A,1|C,73)
SNP Type:                 hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;(A,-|C,-)   JBIC-allele(C,724|A,745)   total(A,745|C,724)    
SNP Type:                 hmCS


Context             (SEQ ID NO:51295):
GCAGCTCTGTAACTTTTCATTTTCAACAGTAGAGCTGGGAGAGAAGCCATATTGTTTTCTTTCCTTTGTATCCATTCACTCAGCAAATATTTATTTAGAG
M
CAACTATGTGTCAGGCACTGTTTTAGGTTCTGAGAATACCTAGGTGAATAAAACAGATAAAAATCTGCCCTCATGAAGTTTACATTCTAATAATCAGAGG
Celera SNP ID:            hCV2544181
SNP Position Genomic:     8945
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51296):
TTTCATTTTCAACAGTAGAGCTGGGAGAGAAGCCATATTGTTTTCTTTCCTTTGTATCCATTCACTCAGCAAATATTTATTTAGAGCCAACTATGTGTCA
K
GCACTGTTTTAGGTTCTGAGAATACCTAGGTGAATAAAACAGATAAAAATCTGCCCTCATGAAGTTTACATTCTAATAATCAGAGGCAGACAATAAAAAA
Celera SNP ID:            hCV2544182
SNP Position Genomic:     8959
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51297):
ATCAAAATATAGTCAGTCTTTGATTTCTAAAATATGCTACTTCTCAGCTTATATTTTGGTCTAGTATGAAAAACCCTAAAATCAATACAGTAAAAGGCAT
Y
ACAACATGGTTCATTCTTTGGATTGGCAGATCATGGTGGATGAGAATGACATCAGAGCTTTAAATGTGCGGCATTATCGAGACCATATTGGAGTGGTTAG
Celera SNP ID:            hCV2544183
SNP Position Genomic:     10024
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,15)   caucasian(C,27|T,11)   total(C,50|T,26)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   JBIC-allele(T,364|C,1123)   total(C,1123|T,364) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51298):
TTTGCAATTAAAATACATATAAAATTCCACCATCCCAGAGGGTCACAATAACAGAAATGTTTATTTTAATGGGCATATTTCACAAACCAAACTTGACGGA
Y
TGTAATAATTTTATTCTTGGTTTTTAATTTAAAAAATTTGTTATGCCAGTAATTGTCTCTTGTCCCCATTATTTAGGATCATAATTAGGACATATTTAGG
Celera SNP ID:            hCV2544184
SNP Position Genomic:     11543
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;JBIC-allele(T,340|C,1133)   total(C,1133|T,340)
SNP Type:                 INTRON


Context             (SEQ ID NO:51299):
CTTATAATATACACAGATTTTAAAATTAATGTATAATAATTAGCTGATACTGGTTAGCCTTTCACTCATAAACAACCATGAAATTGGATAAAACATATGA
R
GCCAAGGGCAGTCATTTCCATGCATTGGATGAGAGGTAATGAAAGACTGATTCCTAACAGAGAGGAATCTCATAAAGGTACTCCATGAATTCTGTCTGGG
Celera SNP ID:            hCV2544185
SNP Position Genomic:     12170
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;JBIC-allele(A,235|G,878)   total(G,878|A,235)
SNP Type:                 INTRON


Context             (SEQ ID NO:51300):
AGCTGCAAGCGGAACACTGGATAGAAGTCAGGCAGTGCTGCGGGGGCGTTGAAAGTGCAGCGCAGCTGGAATGGAGAGATCACATTAACACCTTTTTAAC
V
CCCCAGGCAAGTAGCTAAAACACCAAAAAAGCCACACCTTAGGAGTCAGGACCACACCTTAGAGTAAGATCTACCTGCCCTAACAAACCCTGAGACCAAG
Celera SNP ID:            hCV2544186
SNP Position Genomic:     12553
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(C,13|A,47)   Chinese(G,0|A,20)   Japanese(C,1|A,39)   African(C,3|A,55)   (C,4|A,6)      total(A,6|C,4) ;(A,-|C,-)   Caucasian(C,13|A,47)   African-American(C,3|A,55)   Asians(C,1|A,59)   total(A,161|C,17)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51301):
AGGCTGAGGCAGGTGGATCACTTGAGGAAAGGAGTTTGTTACCAGCCTGGACAACATGGCAAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGG
Y
GTGGTGGTGCACACCTGTAATCCCAGCTACTCGAAAGGCTGAGACAGGAGAATCACTTGAACTCAGGAGGCAAAGGTTGCAGTGAGCTGAGATAGCACCA
Celera SNP ID:            hCV2544189
SNP Position Genomic:     13967
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51302):
TTGAATGAACAAATTGTGATAGATCTAATTTTTCTTTTTCCTTTTTCTTTTTTTTTTTTTTTTTTTTGATATGGGGTCTCACTCTGTCACCTAGGGTGGA
S
TGCAATGCACAATCTCAGCTCACTGCAGCCTCGACTTCCCAGGCTCCCAGGCTCAGGCAGTCCTTCCACCTCAGCCTCCTGAGTAGCTCATGCCACTACA
Celera SNP ID:            hCV2257378
SNP Position Genomic:     15599
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51303):
AGCCTGTTTTGTTCGGGACCACCATCAGTAACAATATCAAGTATGGACGAGATGATGTGACTGATGAAGAGATGGAGAGAGCAGCAAGGGAAGCAAATGC
R
TATGATTTTATCATGGAGTTTCCTAATGTGAGTACACTGTGCAGCCTGTGTCCTTAGCTTATGGTGGCAGCGCTGCGACATTCCAATATAAGGTAATGAA
Celera SNP ID:            hCV25621024
SNP Position Genomic:     10230
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,3|G,35)   total(A,4|G,70)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51304):
CCGAGGAGCTGCCTTTCATATTTTCCAGGTTATTGATAAGGTAAGACCTCTTATTGCTTTGAAGAATAACTATCATTACTGCAAGAAGGAGACAAAAAAA
Y
ATACACCCTCATTTTCACTAAAACAATAGGATGGACAAATTTAATGTTGGCCAGTTGTTTATGGGAAAGAGAGACTGCCTTTAATTCTTTTCTAAGAGGA
Celera SNP ID:            hCV25621040
SNP Position Genomic:     6342
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,18|T,6)   total(C,48|T,8)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,26|T,6)   total(C,62|T,8)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51305):
TGCTACTTCTCAGCTTATATTTTGGTCTAGTATGAAAAACCCTAAAATCAATACAGTAAAAGGCATCACAACATGGTTCATTCTTTGGATTGGCAGATCA
Y
GGTGGATGAGAATGACATCAGAGCTTTAAATGTGCGGCATTATCGAGACCATATTGGAGTGGTTAGTCAAGAGCCTGTTTTGTTCGGGACCACCATCAGT
Celera SNP ID:            hCV25621025
SNP Position Genomic:     10058
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(C,6|T,32)   total(C,8|T,68)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51306):
ATGGACAATATATATGTTAGAAATATTTTATCAAAATATAGTCAGTCTTTGATTTCTAAAATATGCTACTTCTCAGCTTATATTTTGGTCTAGTATGAAA
R
ACCCTAAAATCAATACAGTAAAAGGCATCACAACATGGTTCATTCTTTGGATTGGCAGATCATGGTGGATGAGAATGACATCAGAGCTTTAAATGTGCGG
Celera SNP ID:            hCV25621026
SNP Position Genomic:     9995
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,34|G,2)   total(A,68|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:51307):
TTTCACAAAGAACAAATCAAAAGACATAAGCACCCAGAGGCTGAAGTACTGATTAAGCTGATATTAAAACACAACTGGGATTGTCATTTCCTGTTCTAAC
S
ATTTGATCACGCTGCCTTCTGTTTCTGTGCTTCTTTCCTATTTTTCATTAGAAATTTAATACATTGGTAGGGGAAAAAGGAGCTCAAATGAGTGGAGGGC
Celera SNP ID:            hCV25752985
SNP Position Genomic:     17087
SNP Source:               Applera
Population(Allele,Count): african american(C,26|G,8)   caucasian(C,26|G,2)   total(C,52|G,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:51308):
TTGTGGATCTTAGAATAAAGATAATCAGATGATCTGGCAAGGTTTTAGGCCAATTATTCTTTTGCAGTTTTGTTGGTGCCCATCTACCAGAAAAAGTCTA
Y
GGACAATATATATGTTAGAAATATTTTATCAAAATATAGTCAGTCTTTGATTTCTAAAATATGCTACTTCTCAGCTTATATTTTGGTCTAGTATGAAAAA
Celera SNP ID:            hCV25621027
SNP Position Genomic:     9896
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,3)   caucasian(C,7|T,15)   total(C,10|T,18)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,356|T,1117)   total(C,356|T,1117) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51309):
ACCCCAGGCAAGTAGCTAAAACACCAAAAAAGCCACACCTTAGGAGTCAGGACCACACCTTAGAGTAAGATCTACCTGCCCTAACAAACCCTGAGACCAA
K
CCATGACAAGATGCCCAGAGAAGAGAGGTTTTGGAGGTTGTGTTCTGCCAAGTTATGTGGCTTTCTACAAATTCACCCCAAGGAAACCTAAAATGAAGAT
Celera SNP ID:            hCV15963780
SNP Position Genomic:     12653
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,634|G,825)   total(G,825|T,634) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51310):
ATAATTTTATTCTTGGTTTTTAATTTAAAAAATTTGTTATGCCAGTAATTGTCTCTTGTCCCCATTATTTAGGATCATAATTAGGACATATTTAGGCCAA
M
AAAATCATTAAAGATTTAAGGTGCTTCTTAAATCTTTGGGAACACACATTTCCTTTTGTTGATGTTTTGCCCCTTTCAATGACTTCCTTTCCTTAAAACA
Celera SNP ID:            hCV15963781
SNP Position Genomic:     11648
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,24|A,1279)   total(A,1279|C,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51311):
TATGCACATGTGCCTTTCCCTTCTTCCTTTCCTGGGGCTTTTACTGCACCAGCAATTGCGGCTAGTACTTTATCACCTTTACACACACGCACACACACAC
R
CAGTTTATCCTACTCCATCATTCAGTCTTTGACAAGTTCTTGTGAAAATGTGTGTCTTTTTTATTGTCTTCCCCCTTTCACTTCATTAGTGTATTTACCA
Celera SNP ID:            hCV26518360
SNP Position Genomic:     7171
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51312):
TAAAAAAATACCATTAGTCTACTTAGAATTCAAATTCTGCCTGACTTAAATGTTCAGAACATTATTACTACACAGAGTCATTTTTTAACTGTGGTTGTGG
K
TTATTACAGATGGTCATCTCATTGACCAGTAAGGAATTAAGTGCCTATTCCAAAGCTGGGGCTGTGGCAGAAGAAGTCTTGTCATCAATCCGAACAGTCA
Celera SNP ID:            hCV25752531
SNP Position Genomic:     4379
SNP Source:               Applera
Population(Allele,Count): african american(G,9|T,23)   caucasian(G,1|T,27)   total(G,10|T,50)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:51313):
AGAAGGGAGGGAATGTTGTGGAGAAAAATAGCGTATTAACATCTGTACCCAGTACCTATCAAGAATTTCAAAGTTTGTTCCAGAAGAATGATGTAGAAAA
Y
ATCTCCACTTTTCTTTTTCTTTTTTTTTTTTTCTTGGAGCTTACAGTGTTGCACTTAACTTTCTCAGCCTTGTAAGTGGCATAGAGGATAAGACAGTGAT
Celera SNP ID:            hCV26518361
SNP Position Genomic:     9183
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51314):
GAAAAACTATGATCATTTTTTAAAGCACAGGAAGCTAACATTGCATAAGAAATGTGAAATCAGGCCGGGTGCGGTGGCTCACGCGTGTAATCCCAGCACT
K
TGGGAGGCCGAGGTGGGCAGATCACCTGAGGTTAGGAGTTTGAGACCAGCTTCGCCAACATGGTGAAAATTCATCTCTACTAAAAAGACAAAAAAATTAG
Celera SNP ID:            hCV26518362
SNP Position Genomic:     10958
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51315):
ATATCTACTAAGTTAATTTTTGACAAGGCGAATGGAACTCAGTGGGGGAAAGAAATATCTTTTCAACAAATGGTGCTGGAACAAATGGTTATCCTTGTGG
A
AAAAATAAAATGTGACCTTTACTTTACATCACACACAAAAATTAATTTGCCATAGACCTTGTACCAAAATTGTAAAGCGTAAACTTCAAAAATTAAAACT
Celera SNP ID:            hCV26518363
SNP Position Genomic:     14724
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51316):
GAAATCAGTATAATCATTCTAGAAAGCAATTTGGCAGTTTATTATAATGTTAAACATACACTTATGACTCAGCATTCTATTCCTAGGTATTTATTCAAAA
K
AAATGAAAACATGACCACAAAAATATCTTGTACATGAATATTCATAGCAGCTTTATTTATAATAGCCAAAAATAGGAAACAATTTAAGTGTTCATCAGCA
Celera SNP ID:            hCV26518364
SNP Position Genomic:     15397
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51317):
CATAGCAGCTTTATTTATAATAGCCAAAAATAGGAAACAATTTAAGTGTTCATCAGCAGTTGAATGAACAAATTGTGATAGATCTAATTTTTCTTTTTCC
T
TTTTCTTTTTTTTTTTTTTTTTTTTGATATGGGGTCTCACTCTGTCACCTAGGGTGGAGTGCAATGCACAATCTCAGCTCACTGCAGCCTCGACTTCCCA
Celera SNP ID:            hCV26518365
SNP Position Genomic:     15540
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51318):
AGATCTAGAGTTGCCAGATGAACTACTGGATTCCCAGTTAAATTTGAATTTCAGATAATGAATAATTTTTTAGCAATATTGCATAAAACATACTTATACT
A
AAAAAAACTCATTGCTTTTCTGAATTCAAATGTAACAGCTTTGTGTTTTCTTGTGTGTTGTTTGTTTTTGCTAAATCTGGCAACCCAAGGTAAACTCGCA
Celera SNP ID:            hCV26518366
SNP Position Genomic:     15952
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51319):
ACTGGATTCCCAGTTAAATTTGAATTTCAGATAATGAATAATTTTTTAGCAATATTGCATAAAACATACTTATACTAAAAAAAACTCATTGCTTTTCTGA
R
TTCAAATGTAACAGCTTTGTGTTTTCTTGTGTGTTGTTTGTTTTTGCTAAATCTGGCAACCCAAGGTAAACTCGCATTGTGTGGAACACTACTTAGCAAT
Celera SNP ID:            hCV26518367
SNP Position Genomic:     15976
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51320):
AAATCTAGAGTAAAAGTGCAGGTGTGAGAAGAGGTACTCCTACTGGTGGTCCCCGATTTCTCACCTCCTTCAGAGAACTTTTCTCGGCTTGGCCCTCTGA
M
GGTTTTATGTTTGGCTTATGCAAAGGGTCCATTGCTTTACAAATGGTGAGATCAAAGCAAGAGAATTCAAAGGGAGATTCCCCTGTTTAGGGCTAACTAC
Celera SNP ID:            hCV29151321
SNP Position Genomic:     7890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51321):
AAGTGCCTATTCCAAAGCTGGGGCTGTGGCAGAAGAAGTCTTGTCATCAATCCGAACAGTCATAGCCTTTAGGGCCCAGGAGAAAGAACTTCAAAGGTCT
K
TCCTTTTAAATATAACAAGATATGCTTGGTTTTATTTTCCCCAGTGGCTACTAAGTTGTGTTCTGTTTTTGTAAGGTATACACAGAATCTCAAAGATGCA
Celera SNP ID:            hCV2544171
SNP Position Genomic:     4518
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,4)   caucasian(G,2)   total(G,14|T,4)   
SNP Type:                 hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,19)   caucasian(G,8|T,16)   total(G,13|T,35)
SNP Type:                 hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,5)   total(G,4|T,5) 
SNP Type:                 hmCS


Context             (SEQ ID NO:51322):
GTTTAGGGCTAACTACATACAGATGCAAGCAAAGATAGGTGAGAATTTCTCAACAGGATCACTGTTGTCATTTCGAGAGGGTAATTATTGTGAGGCTTCA
M
TCACATTGCAGGTCCCTGGCACACTAAATGCTGTAGCAACCCCAGTCATTGAGAAAATGTTTAAAGTGTTCCCTCATGGGTCACCATGAGCCCACCAAGG
Celera SNP ID:            hCV29151322
SNP Position Genomic:     8075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51323):
TGGACTTGCTTTTTGGTATGGAACCTCCTTGATTCTTAATGGAGAACCTGGATATACCATCGGGACTGTTCTTGCTGTAAGTCTTGTTTGAGAACAAGGT
R
TCAGGCCTGGATAATCTTTCCTTACCTAGTTTAGCCAAAATTCCTCTTTGAAGATAAATATTCAAAGATGGATGTTTTTATTAAACAAATATTTGTTTCC
Celera SNP ID:            hCV2544172
SNP Position Genomic:     4796
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,24)   caucasian(A,8|G,28)   total(A,22|G,52)
SNP Type:                 hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:51324):
TACCACAAATATGGAAGACAAAATATCTACTTTGTTAAAGATAAATTTATTTTAAAACAAATCAAAAGAACACCTAAAAAGTATCTCAAGATGGAAAAAA
M
GTTTTAGGGGAAAGTTTGTTTTGGTAGCAATTTTTTTTCATGCTGTTTTTCAGAGTATCCAGGAAGGAAATTGTGGGTAACATACCAAATTGCTAATAAA
Celera SNP ID:            hCV29151323
SNP Position Genomic:     16669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51325):
ACTCCATATTTTTAAAGATTTGCATTCTCTCCAAGTTGATATATAAATATTGTGCTTTATCAATCAAAATCTCACCAGTTTTTATGTGTATGTGTAGAAA
Y
TGACATGTTGATTCCAAAATTTATTTGGAAATTCAAAAGACCAACATAGCCAAAACAATTTTGAAAGAAAGACCAAAGCTGGAGGACCTAAATATCTAAT
Celera SNP ID:            hCV2544190
SNP Position Genomic:     14432
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51326):
TCTGGGTTTGGGAACACACCTAAATGTCTTGGGTTGACGCTGCCACCTGTTGGTGGTTCCTAGATGCTACCCCACTCAACATACTCATTTTAACCCCCTC
S
TCTCTAACCTAGGAGAATTATGCACATGTGCCTTTCCCTTCTTCCTTTCCTGGGGCTTTTACTGCACCAGCAATTGCGGCTAGTACTTTATCACCTTTAC
Celera SNP ID:            hCV2544174
SNP Position Genomic:     7052
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,6)   total(G,5|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51327):
AGAAATAGATTCACAAATATCTACTAAGTTAATTTTTGACAAGGCGAATGGAACTCAGTGGGGGAAAGAAATATCTTTTCAACAAATGGTGCTGGAACAA
W
TGGTTATCCTTGTGGAAAAAATAAAATGTGACCTTTACTTTACATCACACACAAAAATTAATTTGCCATAGACCTTGTACCAAAATTGTAAAGCGTAAAC
Celera SNP ID:            hCV2544191
SNP Position Genomic:     14708
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51328):
TACCCCACTCAACATACTCATTTTAACCCCCTCCTCTCTAACCTAGGAGAATTATGCACATGTGCCTTTCCCTTCTTCCTTTCCTGGGGCTTTTACTGCA
S
CAGCAATTGCGGCTAGTACTTTATCACCTTTACACACACGCACACACACACACAGTTTATCCTACTCCATCATTCAGTCTTTGACAAGTTCTTGTGAAAA
Celera SNP ID:            hCV2544175
SNP Position Genomic:     7119
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,5)   total(G,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51329):
CCCCCTCCTCTCTAACCTAGGAGAATTATGCACATGTGCCTTTCCCTTCTTCCTTTCCTGGGGCTTTTACTGCACCAGCAATTGCGGCTAGTACTTTATC
R
CCTTTACACACACGCACACACACACACAGTTTATCCTACTCCATCATTCAGTCTTTGACAAGTTCTTGTGAAAATGTGTGTCTTTTTTATTGTCTTCCCC
Celera SNP ID:            hCV2544176
SNP Position Genomic:     7145
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51330):
TGACAAGGCGAATGGAACTCAGTGGGGGAAAGAAATATCTTTTCAACAAATGGTGCTGGAACAAATGGTTATCCTTGTGGAAAAAATAAAATGTGACCTT
Y
ACTTTACATCACACACAAAAATTAATTTGCCATAGACCTTGTACCAAAATTGTAAAGCGTAAACTTCAAAAATTAAAACTTACGAAAAAATCTTTGTAAC
Celera SNP ID:            hCV2544192
SNP Position Genomic:     14744
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51331):
CTCTCTAACCTAGGAGAATTATGCACATGTGCCTTTCCCTTCTTCCTTTCCTGGGGCTTTTACTGCACCAGCAATTGCGGCTAGTACTTTATCACCTTTA
Y
ACACACGCACACACACACACAGTTTATCCTACTCCATCATTCAGTCTTTGACAAGTTCTTGTGAAAATGTGTGTCTTTTTTATTGTCTTCCCCCTTTCAC
Celera SNP ID:            hCV2544177
SNP Position Genomic:     7152
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51332):
AAAATTTGAACAGACATTTTACAAAAGAAGAATCAAATGAACAATACATACATTGAAAATATGCACCATTATTAGTCACCAGAGAACTCTAAAATAAAAC
R
ATAATGAGATACCATTTTACACTCTTAGAATGGCCAAAATTAAAAAGACTAACAAATGTAACTTTTGGTGATGATGTAAGCAATTAGATCTCTCATTCAT
Celera SNP ID:            hCV2544193
SNP Position Genomic:     15184
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51333):
CTAGTTAATATTCTGAAGTACTCTTAATTTAGTTCTCTTTACATAGAGAGATAATGATAGATTCTTTTACTACTATTTTCTGAAATTATTCAGGCTATTA
Y
TACACATGTACATGAAACAAACATAACAAGATCTAAATTTGTTTTTAGAAGAATTTGTTTTTGGTTATAATTATGTACTCATTTTCTGAAAATGTGTCCA
Celera SNP ID:            hCV2544179
SNP Position Genomic:     8505
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,15)   caucasian(C,26|T,12)   total(C,49|T,27)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,9|C,49)   Chinese(T,4|C,16)   Japanese(T,7|C,33)   African(C,30|T,30)   (C,3|T,4)      total(C,3|T,4) ;CEL_caucasian_CEPH(T,45|C,276)   CEL_african_american(C,30|T,30)   CEL_asian(T,10|C,49)   CEL_caucasian(T,9|C,49)   total(C,404|T,94)
SNP Type:                 INTRON


Context             (SEQ ID NO:51334):
ACTAAAAAAAACTCATTGCTTTTCTGAATTCAAATGTAACAGCTTTGTGTTTTCTTGTGTGTTGTTTGTTTTTGCTAAATCTGGCAACCCAAGGTAAACT
Y
GCATTGTGTGGAACACTACTTAGCAATAAATAGGAGTGAACAACTGATACAACATGGATGAATATCAAAAACATTAAGCTAGGTAAAAGAAACAAGCCAA
Celera SNP ID:            hCV2544195
SNP Position Genomic:     16049
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51335):
TAACTTATTTAGAAGTGACAATGAAGAGATTCCAGGCCATAAAAAGAAAACATTTTACCATTATTATGTTATTATTTCACGTTCCTAATTAGGTAGTACA
Y
GTGGGTTCATTTTAGCAGAGTTTACATTTTGAAAGTGTTTCTTTTCTAAAGGGTCTTAACCCAAGCATTCATGCATTCACATGAGTAGATTTCTGCAAGC
Celera SNP ID:            hCV29151328
SNP Position Genomic:     23737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:51336):
AAAGTGTTTCTTTTCTAAAGGGTCTTAACCCAAGCATTCATGCATTCACATGAGTAGATTTCTGCAAGCTGGAAAGAAGGGTCAACGAGCAGGTGAGTCA
Y
CCATTAAAAGTGACTTCTAAGTTCCTGATATTTTGCTATTTGTCATCCCCCTTGACAAAAAAGAAAGCATTCTCGGACCAGTGACGTGGTCTGACAGTAA
Celera SNP ID:            hCV29151329
SNP Position Genomic:     23869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:51337):
TGGAGGGCAGAAACAGAGGATCGCAATTGCTCGTGCCTTAGTTCGAAACCCCAAGATTCTGATTTTAGATGAGGCTACGTCTGCCCTGGATTCAGAAAGC
R
AGTCAGCTGTTCAAGCTGCACTGGAGAAGGTAAGTGAGCAGAAACGTTTCTTATTTCCATACTCCTGGTTCATTATTGTTTTGAAGTACAAGAAAGTATA
Celera SNP ID:            hCV2544197
SNP Position Genomic:     17280
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,15)   caucasian(A,24|G,14)   total(A,45|G,29)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51338):
ATGATGTGACTGATGAAGAGATGGAGAGAGCAGCAAGGGAAGCAAATGCGTATGATTTTATCATGGAGTTTCCTAATGTGAGTACACTGTGCAGCCTGTG
Y
CCTTAGCTTATGGTGGCAGCGCTGCGACATTCCAATATAAGGTAATGAAACAACAACTGATGCAGAATAGTAGGGGTGTGATTAAATTCTGGATTGTCCT
Celera SNP ID:            hCV25621013
SNP Position Genomic:     10281
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,38)   total(C,2|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:51339):
GTAAAAATATATACATGAGGCTGATACACAAGCAATCATCCAGTCTATACCTCCATTCCAAGTGGTTTGCACTTTCCACCTCCCTAGAGTGGCCCACCAC
Y
ATCATCACTATTATAACCATGCCCACCCTTTGCTTCTTCTACATACACCTGTGGGATTCTCTTCTCTGACCACTTTTCTTCTTTAGGATACCCCCAGGTA
Celera SNP ID:            hCV2544198
SNP Position Genomic:     17612
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51340):
ATTTAGAATTAATGGGGTGCTGTAAAGCCTTTTTTTAAAAATATTTCCTGAAGTATTAGATCCTCAGCATCCCCTGAAATTGTTGTGCGGAGCACCTTGT
K
ACATATGAAAGGATGAGATTTGCAATTAAAATACATATAAAATTCCACCATCCCAGAGGGTCACAATAACAGAAATGTTTATTTTAATGGGCATATTTCA
Celera SNP ID:            hCV15963737
SNP Position Genomic:     11424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51341):
AAAAAGTGACATAAGGAAACTTACTAGGGCTACAGAAATGTTCTATATCTTTATTGGTATGGTGGTAACATGGGTGTACTCATTTGTCAATACTCATAGA
S
TTATATCCTTAAAATGGATGCATTTTATTGTGTGTAAATTTCTTCAAAAAGCCTGATTTTTTAAATGTGAAGATCAATCTCTAGAAATTAAGGGTTTAGA
Celera SNP ID:            hCV11233355
SNP Position Genomic:     16365
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51342):
TGTGTGTTGTTTGTTTTTGCTAAATCTGGCAACCCAAGGTAAACTCGCATTGTGTGGAACACTACTTAGCAATAAATAGGAGTGAACAACTGATACAACA
Y
GGATGAATATCAAAAACATTAAGCTAGGTAAAAGAAACAAGCCAAAGAAGTACATACTGTATGATTTCATTTACATAAAGTTCTAGATCCAGGAAAATTC
Celera SNP ID:            hCV11233356
SNP Position Genomic:     16104
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51343):
TAATCAAAAGTTGTTCCTTATTAGGAAAAGGCCAAGGATACTTGGATTAATCTGTGTTTCTATTGCTTCTCGGCCTTTTGGCTAAGATCAAGTGTAATCT
R
TGTTCTTTTTTATTTGGTCATATCTTCCATTCTTTCTTACCTAATTCCTCTAATATCTCTCTGTGAGCCTAAACCAATAATTATATATTACATTCTATTG
Celera SNP ID:            hCV25621050
SNP Position Genomic:     6015
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,1|G,31)   total(A,1|G,59)
SNP Type:                 UTR 5


Gene Number:                 239
Celera Gene:                 hCG39214 - 119000107835619
Gene Symbol:                 IRAK1
Protein Name:                interleukin-1 receptor-associated kinase 1;IRAK;pelle
Celera Genomic Axis:         GA_x5YUV32VY5K(1317983..1339675)
Chromosome:                  ChrX
OMIM number:                 300283
OMIM Information:            INTERLEUKIN 1 RECEPTOR-ASSOCIATED KINASE 1;IRAK1


Genomic Sequence (SEQ ID NO:12399):
GTTCTTTAAGAAGATCTTTGGGCATATACATTTTTAGCCTGTGTCATTGCCCCAAATGGATTCCTGTTTCAAGTTCACACCTGCAGATTCTAGGACCTGT
GTCCTAGACTTCAGGGAGTCAGCTGTTTCTAGAGTTCCTACCATGGAGTGGGTCTGGAGGACCTGCCCGGTGGGGGGGCAGAGCCCTGCTCCCTCCGGGT
CTTCCTACTCTTCTCTCTGCTCTGACGGGATTTGTTGATTCTCTCCATTTTGGTGTCTTTCTCTTTTAGATATTGTATCAATCTTTAGAAAAGGCATAGT
CTACTTGTTATAAATCGTTAGGATACTGCCTCCCCCAGGGTCTAAAATTACATATTAGAGGGGAAAAGCTGAACACTGAAGTCAGTTCTCAACAATTTAG
AAGGMAAACCTAGAAAACATTTGGCAGAAAATTACATTTCGATGTTTTTGAATGAATACRAGCAAGCTTTTACAACAGTGCTGATCTAAAAATACTTAGC
ACTTGGCCTGAGATGCCTGGTGAGCATTACAGGCAAGGGGAATCTGGAGGTAGCCGACCTGAGGACATGGCTTCTGAACCTGTCTTTTGGGAGTGGTATG
GAAGGTGGAGCGTTCACCAGTGACCTGGAAGGCCCAGCACCACCCTCCTTCCCACTCTTCTCATCTTGACAGAGCCTGCCCCAGCGCTGACGTGTCAGGA
AAACACCCAGGGAACTAGGAAGGCACTTCTGCCTGAGGGGCAGCCTGCCTTGCCCACTCCTGCTCTGCTCGCCTCGGATCAGCTGAGCCTTCTGAGCTGG
CCTCTCACTGCCTCCCCAAGGCCCCCTGCCTGCCCTGTCAGGAGGCAGAAGGAAGCAGGTGTGAGGGCAGTGCAAGGAGGGAGCACAACCCCCAGCTCCC
GCTCCGGGCTCCGACTTGTGCACAGGCAGAGCCCAGACCCTGGAGGAAATCCTACCTTTGAATTCAAGAACATTTGGGGAATTTGGAAATCTCTTTGCCC
CCAAACCCCCATTCTGTCCTACCTTTAATCAGGTCCTGCTCAGCAGTGAGAGCAGATGAGGTGAAAAGGCCAAGAGGTTTGGCTCCTGCCCACTGATAGC
CCCTCTCCCCGCAGTGTTTGTGTGTCAAGTGGCAAAGCTGTTCTTCCTGGTGACCCTGATTATATCCAGTAACACATAGACTGTGCGCATAGGCCTGCTT
TGTCTCCTCTATCCTGGGCTTTTGTTTTGCTTTTTAGTTTTGCTTTTAGTTTTTCTGTCCCTTTTATTTAACGCACCGACTAGACACACAAAGCAGTTGA
ATTTTTATATATATATCTGTATATTGCACAATTATAAACTCATTTTGCTTGTGGCTCCACACACACAAAAAAAGACCTGTTAAAATTATACCTGTTGCTT
AATTACAATATTTCTGATAACCATAGCATAGGACAAGGGAAAATAAAAAAAGAAAAAAAAGAAAAAAAAACGACAAATCTGTCTGCTGGTCACTTCTTCT
GTCCAAGCAGATTCGTGGTCTTTTCCTCGCTTCTTTCAAGGGCTTTCCTGTGCCAGGTGAAGGAGGCTCCAGGCAGCACCCAGGTTTTGCACTCTTGTTT
CTCCCGTGCTTGTGAAAGAGGTCCCAAGGTTCTGGGTGCAGGAGCGCTCCCTTGACCTGCTGAAGTCCGGAACGTAGTCGGCACAGCCTGGTCGCCTTCC
ACCTCTGGGAGCTGGAGTCCACTGGGGTGGCCTGACTCCCCCAGTCCCCTTCCCGTGACCTGGTCAGGGTGAGCCCATGTGGAGTCAGCCTCGCAGGCCT
CCCTGCCAGTAGGGTCCGAGTGTGTTTCATCCTTCCCACTCTGTCGAGCCTGGGGGCTGGAGCGGAGACGGGAGGCCTGGCCTGTCTCGGAACCTGTGAG
CTGCACCAGGTAGAACGCCAGGGACCCCAGAATCATGTGCGTCAGTCCAAGGGGTCCCCTCCAGGAGTAGTGAAGACTCCAGAAATGTCCCTTTCTTCTC
CCCCATCCTACGAGTAATTGCATTTGCTTTTGTAATTCTTAATGAGCAATATCTGCTAGAGAGTTTAGCTGTAACAGTTCTTTTTGATCATCTTTTTTTA
ATAATTAGAAACACCAAAAAAATCCAGAAACTTGTTCTTCCAAAGCAGAGAGCATTATAATCACCAGGGCCAAAAGCTTCCCTCCCTGCTGTCATTGCTT
CTTCTGAGGCCTGAATCCAAAAGAAAAACAGCCATAGGCCCTTTCAGTGGCCGGGCTACCCGTGAGCCCTTCGGAGGACCAGGGCTGGGGCAGCCTCTGG
GCCCACATCCGGGGCCAGCTCCGGCGTGTGTTCAGTGTTAGCAGTGGGTCATGATGCTCTTTCCCACCCAGCCTGGGATAGGGGCAGAGGAGGCGAGGAG
GCCGTTGCCGCTGATGTTTGGCCGTGAACAGGTGGGTGTCTGCGTGCGTCCACGTGCGTGTTTTCTGACTGACATGAAATCGACGCCCGAGTTAGCCTCA
CCCGGTGACCTCTAGCCCTGCCCGGATGGAGCGGGGCCCACCCGGTTCAGTGTTTCTGGGGAGCTGGACAGTGGAGTGCAAAAGGCTTGCAGAACTTGAA
GCCTGCTCCTTCCCTTGCTACCACGGCCTCCTTTCCGTTTGATTTGTCACTGCTTCAATCAATAACAGCCGCTCCAGAGTCAGTAGTCAATGAATATATG
ACCAAATATCACCAGGACTGTTACTCAATGTGTGCCGAGCCCTTGCCCATSCTGGGCTCCCGTGTATCTGGACACTGTAACGTGTGCTGTGTTTGCTCCC
CTTCCCCTTCCTTCTTTGCCCTTTACTTGTCTTTCTGGGGTTTTTCTGTTTGGGTTTGGTTTGGTTTTTATTTCTCCTTTTGTGTTCCAAACATGAGGTT
CTCTCTACTGGTCCTCTTAACTGTGGTGTTGAGGCTTATATTTGTGTAATTTTTGGTGGGTGAAAGGAATTTTGCTAAGTAAATCTCTTCTGTGTTTGAA
CTGAAGTCTGTATTGTAACTATGTTTAAAGTAATTGTTCCAGAGACAAATATTTCTAGACACTTTTTCTTTACAAACAAAAGCATTYGGAGGGAGGGGGA
TGGTGACTGAGATGAGAGGGGAGAGCTGAACAGATGACCCCTGCCCAGATCAGCCAGAAGCCACCCAAAGCAGTGGAGCCCAGGAGTCCCACTCCAAGCC
AGCAAGCCGAATAGCTGATGTGTTGCCACTTTCCAAGTCACTGCAAAACCAGGTTTTGTTCCGCCCAGTGGATTCTTGTTTTGCTTCCCCTCCCCCCGAG
ATTATTACCACCATCCCGTGCTTTTAAGGAAAGGCAAGATTGATGTTTCCTTGAGGGGAGCCAGGAGGGGATGTGTGTGTGCAGAGCTGAAGAGCTGGGG
AGAATGGGGCTGGGCCCACCCAAGCAGGAGGCTGGGACGCTCTGCTGTGGGCACAGGTCAGGCTAATGTTGGCAGATGCAGCTCTTCCTGGACAGGCCAG
GTGGTGGGCATTCTCTCTCCAAGGTGTGCCCCGTGGGCATTACTGTTTAAGACACTTCCGTCACATCCCACCCCATCCTCCAGGGCTCAACACTGTGACA
TCTCTATTCCCCACCCTCCCCTTCCCAGGGCAATAAAATGACCATGGAGGGGGCTTGCACTCTCTTGGCTGTCACCYGATCGCCAGCAAAACTTAGATGT
GAGAAAACCCCTTCCCATTCCATGGCGAAAACATCTCCTTAGAAAAGCCATTACCCTCATTAGGCATGGTTTTGGGCTCCCAAAACACCTGACAGCCCCT
CCCTCCTCTGAGAGGCGGAGAGTGCTGACTGTAGTGACCATTGCATGCCGGGTGCAGCATCTGGAAGAGCTAGGCAGGGTGTCTGCCCCCTCCTGAGTTG
AAGTCATGCTCCCCTGTGCCAGCCCAGAGGCCGAGAGCTATGGACAGCATTGCCAGTAACACARGCCACCCTGTGCAGAAGGGAGCTGGCTCCAGCCTGG
AAACCTGTCTGAGGTTGGGAGAGGTGCACTTGGGGCACAGGGAGAGGCCGGGACACACTTAGCTGGAGATGTCTCTAAAAGCCCTGTATCGTATTCACCT
TCAGTTTTTGTGTTTTGGGACAATTACTTTAGAAAATAAGTAGGTCGTTTTAAAAACAAAAATTATTGATTGCTTTTTTGTAGTGTTCAGAAAAAAGGTT
CTTTGTGTATAGCCAAATGACTGAAAGCACTGATATATTTAAAAACAAAAGGCAATTTATTAAGGRAATTTGTACCATTTCAGTAAACCTGTCTGAATGT
ACCTGTATACGTTTCAAAAACACCCCCCCCCCACTGAATCCCTGTAACCTATTTATTATATAAAGAGTTTGCCTTATAAATTTACATAAAAATGTCCGTT
TGTGTCTTTTGTTGTAAAAATCAAGTGATTTTTTCATAAGGTTCTTTTACTATTGGAAAAGATGGGCAGCACGCAGTTTTATTTTATTTTTGTAAGTTTT
TTAATACATGTGAAAGCAAAGAATACTCAGCATGCCTTTCTAAGTGACGCGTTTGCACCTTTTGTTGGGAAGTACTGTATCCTGTGCTGTTAGCATTCTC
GATAAATCTCTCTGTGAAAGTGACTCAAGGTCTGGGCTTTCATTATAAGACAGAAGTCCCCCTCCAGCTCACATGACAGCATGGTGCTGCGTTTCCTCAT
TGGATCTGGCTGTCCCTGGACACAGGTAGCTGCCTTCAGGCCTGCCACGAGCGGCCAAGGGAAGCCTCCTCCATATGCTGGCCTCGCTGGCCCCTCAGCT
TCTTCCAAGCCAGTGCTCTCCAGGCACACTGCTCCAGCGTGTGACGGGAAGGGCCTGGCATGAGTCAGCCTGCAGCACAACCTCCCTGCTCCAGACCCGT
ATGGTAGGGGCACCCCCTAGGTCTGGATGTGCTGTGGTGCTTTTGGACACCCCCACCCCCGCAGGCTGTGGCTCCTCCTGTGTCTCATTCTGGCCAGGAC
CCTCACGTGCCCTCTGTTGACTGCTAACGTGGTTCTCTGACCAGGCAAGGGCAGGCTGAGGGGTTTGCCCAAAGGGGGCCCCCTTGTTACTGGCTTCCTT
GGCTCTCAGGAGCAGCCTCACCAGGTTGGTAAGGGGCTGGAGGAGACAACTGCTCAAAGGAGTCCAGCTTCACATGCACATGCTAGAAGGTACCCTCGGA
AGGCCTGGCCTTCAAAGGTAGATCCCAGGGTTGAAAAGTCAACTTGTATGCATTGAGCATCTCGTATGCCAGCCCTGTTCCGTGAGCTGATGGGCCTTTG
TGTGTAAGTAGGACCAAGTGCCCCCGTGGAGGTTAGCATGGGTGTGCAGTCATTTCAGATACTTGAGTTGGTACATCTCAGTAAAGTCTGTCCCGTGAGA
AGCCATGGGTTTCATGGTATGGTTGGCATCTTCCTTGGGAGTGGCCACAGTGGTGGTGGCTTCAGGAAAGAGACTCCAACAGGGGCCAGCTGTGGGCCTT
GGGCACTTCTCGTTTCTAGGAAAAGTCCTAAGTCTGTAGGGCTAGGGGTGGGGAACCCCTTCGCTGTCAGGATCAAGAGGGCAAGGGGAACTGTCGCTGG
AGGAGACATCCAGCTGGAGAAACAAAAGAGTAAGTCTGCGTTGCTGCTTGTGGGGTCTTCCCCATCTCAGGGCGGGGACCGGGGGTGGCGGTCCAGACAA
GTAATCAAGGACGATGCCCAGGAGGGGRCAGGTACGGGGTGGCAGGAGCTCTGCCGGCGGGCTCAGGAAGCCTTCACCACAGCTGCCTGAGCTCACCCTT
GCCAAATGAGGGCTGGGGCAGCAGCAACGCATACACTCACGGCTGTGGCGGGCAGCGTTCTCGGCATATTTCAGGACACCTAAGGAGACTGAATGGCTCA
AGGCTGCTGCCGTGTGCAGGGGGCTAGACGTGGGGCGGGCAGGCAGGGCTCCTGGTAACAGCCCTGCAGGCCGCAGTGGAGAGCAGGGYTCCGGCAGGGC
CGCCCAGGAGCTTTCGGMAGGCCCGGCCCCGGCCCCTTTCCGAGCAGCCCGGGCCTCCGCCCTGCCCTCTGTCCCCAACGCCGGGAGCCGCCGTTCGTCC
TCCAGAGCCCCGCCCGGGCGAGCCCGGGAGGCCGATCGCCGCTCGCGGAACCCGCCGGGACCCGGGCCCTCCCCGGCGCGGGGCGCCCCCGTGTGACCCA
GCGCGCGGCCGCGGCGCGCAAGATGGCGGCGGGCCCGGGCACCGCCCCTTCCGCCCCGCCGGGCGTCGCACGAGGCCGGCTCGAAGGGGAAGTGAGTCAG
TGTCCGCGGACCCGGCCGGCCCAGGCCCGCGCCCGCCGCGGCCCTGAGAGGCCCCGGCAGGTCCCGGCCCGGCGGCGGCAGCCATGGCCGGGGGGCCGGG
CCCGGGGGAGCCCGCAGCCCCCGGCGCCCAGCACTTCTTGTACGAGGTGCCGCCCTGGGTCATGTGCCGCTTCTACAAAGTGATGGACGCCCTGGAGCCC
GCCGACTGGTGCCAGTTCGGTGGGTGGCGGCGGGCTGCCGGGGGGCGGGAGGCGCGCGGGCTCCTGGCGCCGACGCCTGACGCCCCCCGCCCCGCAGCCG
CCCTGATCGTGCGCGACCAGACCGAGCTGCGGCTGTGCGAGCGCTCCGGGCAGCGCACGGCCAGCGTCCTGTGGCCCTGGATCAACCGCAACGCCCGTGT
GGCCGACCTCGTGCACATCCTCACGCACCTGCAGCTGCTCCGTGCGCGGGACATCATCACAGCCTGTGAGCGCGGGACTCCGGGCACCCCACGGCTGGGA
GGCCGGCGGGCCCCACGGGGCTCCCCCACCCGGGCCTCAACCTTCCTTTCCTTCCTTGGCGTCCCAGGGCACCCTCCCGCCCCGCTTCCGTCCCCAGGCA
CCACTGCCCCGAGGCCCAGCAGCATCCCTGCACCCGCCGAGGCCGAGGCCTGGAGCCCCCGGAAGTTGCCATCCTCAGCCTCCACCTTCCTCTCCCCAGG
TAAGAGGGCCCGGTTGTTAGGCTCGGTGGACCCAAAGAAGAGCCCACCTTGACCACGGCCACGGCTGTAGACCCTGCTGCTGGTCTCTGCCTGCCTCTCA
CTGGTGTCTTTATGAAGCTTTTCCAGGCTCCCAGACCCATTCAGGGCCTGAGCTCGGCCTGGTYCCAAGCCCTGCTTCCCTGTGGCCTCCACCGCCATCT
CCAGCCCCTTCTTCTACCAAGGTAGGTGTCCCCTGCCCCCCAGGGAAGATTCGAGACAAGGAGGAAGGAATTCAGCCTTTGATGTAGCGCAGAGCCCCAG
TCAGCCAAGCTGGGTCAGCTGGGAGGCAGCTGTGGTGGGGAGAGCCTGGAGCCTTGGGCAGAAGGGAAGAGACAGGGACCCCACCTGATCCAGGCTCTCT
TCCCACAGCCAGGCCCAGAGAGCTCAGTGTCCCTCCTGCAGGGAGCCCGCCCCTYTCCGTTTTGCTGGCCCCTCTGTGAGATTTCCCGGGGCACCCACAA
CTTCTCGGAGGAGCTCAAGATCGGGGAGGGTGGCTTTGGGTGCGTGTACCGGGCGGTGATGAGGAACACGGTGTATGCTGTGAAGAGGCTGAAGGAGGTG
AGTGTCGCACCCTGGCAGGGACCCTGGAARGCCATCAGATAACCCTCACCACTTCTCCAGCCTTTCCCCCTCGCTTCCCCACACAACTCCTTCAGCCCTC
ATTCTGGCGTAGGGTCCCTGGCCCCTTGGTGGTTCTGGGCCTCGGGTAGGTGGCACTGGTGGCCCGAAGGCCTTCGCTTCGAGAGCCTCACGCTGCCCGT
CTTCCCTGCCCCTTCCCCCACCGCACCCTGGGGGCTGCAGAACGCTGACCTGGAGTGGACTGCAGTGAAGCAGAGCTTCCTGACCGAGGTGGAGCAGCTG
TCCAGGTGAGGCCAGAGGGGGAGCCACACCAGGTCCCGTGGGGCTTCAGACCGCACACCACAGGACCTGGCTCCCTTGGGCACCTGAGGCCTGGCAGGCC
CGGGCGAGCTGAGGCCCCAGCCAGGGCTGCCCACCCAGTCTGGCCTGATGGAAAGTGCTCCCCTTTTTCAAACAGGTTTCGTCACCCAAACATTGTGGAC
TTTGCTGGCTACTGTGCTCAGAACGGCTTCTACTGCCTGGTGTACGGCTTCCTGCCCAACGGCTCCCTGGAGGACCGTCTCCACTGCCAGGTAGGCTCAC
CTGGCCCGGCACGCTTCCCAGGACCCAAAGCACTCCTGACACCTGGCTGGAGCCGGGCGCGGGGCCTAGGGCTTTCAGCCTGTGTGAGTGGGTCCTGCCA
GCAGGCCAGGCCTGCACTTCCAGCTCCCCAGCAGCACCCGGCTCAGGATTTGGCCCACGGTGGGGTCAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
GAGGTGGAGTCTTGCTCTGTCATCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACCACAACCTCCACCTCCCGGGTTCAGGCGATCCTCCTGCCGCA
GCCTCCCGAGTAGCTGGGACTACAGGCATGCACCACCACACCTGCCTAATTTTTGTATTTTTAGTAGAGATGAGGTTTTGCCACATTGGCCAGGCTAGTC
TCGAACTCCTGACCCCAGGTGGTCTGCGCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCTGGCCCGACCCAATGTTTTCTAT
AGAGCTCTTTCCCAGGCCTCTCCCCTTTGCAAGCAGCGTAGCTGGAGGGTCTCATCAGCAAGCCCCGGAGGCGAGGGGGTCTGGGGCTACCAGCTGGACC
ACCTACAGCTGAGGGAGGGCCCCCTTGCCTCCTCCTGCATGCTGCGTTTGGGGAGAGCGGGAAGAATGCCTTCAAGGACTTCCCGACCACCAGGGACAAA
GGGATGAGCCCTGGGAGCCGAAGCCCAGCAGATTCTATTGAACGTGTCCCCAGCCATTGCTTAAGAAGTKCAGGTCACGGAGACTTTGCTCCTCGTTTTC
CAGAAGGGGGAAACTGAGGCCTAGAGAGTGAAGTGGCTGTTCCAGGCTGCACRGTGACAGGTAGAAGGATGGTTGGGATCAAGGAACGGCCATCCAGCAA
CCTCCCCTGTCCCCCTTTGCCACCCCAGACCCAGGCCTGCCCACCTCTCTCCTGGCCTCAGCGACTGGACATCCTTCTGGGTACAGCCCGGGCAATTCAG
TTTCTACATCAGGACAGCCCCAGCCTCATCCATGGAGACATCAAGAGGTGAGGAGGGGCCCTTGAGAACTGCCGGGGCAGGGCCTGCAGCAAGGGGGGCC
CCGCGTCCTATCAATGTGGGGATCAGGCATGGCCTGGGACCTCAACACCCCGGCATCGCACAGGTGTGGGAACGGGCCAAGGATGGGCCCTACTGATGAG
CAGAGGCCCCCAGGCAGCTGGAGCGCTCAGGGCAGTGCCAGCGCTTTCTGTGGGCAAGGCACCGGGCTGGCAGCCTCGAGTCCAGCCTTATCTAAGCCGG
GCAGGTGTAGGAGCTAGGACCGGGCTGACGCCACTGTCTTCTCTCCCCAAGTTCCAACGTCCTTCTGGATGAGAGGCTGACACCCAAGCTGGGAGACTTT
GGCCTGGCCCGGTTCAGCCGCTTTGCCGGGTCCAGCCCCAGCCAGAGCAGCATGGTGGCCCGGACACAGACAGTGCGGGGCACCCTGGCCTACCTGCCCG
AGGAGTACATCAAGACGGGAAGGCTGGCTGTGGACACGGACACCTTCAGCTTTGGGGTGGTGAGCCACTGACCCCTCTGCTGGCTCAGAGGAGGAGAAGC
CACAGGCAGGCAGAGGTGGGGGCTGCAGAGTGCACTGCGGGCCAGGGGCCATCTGCCAAGACCCCAGGAGGCTGCAGCTCCAGGGTCCCCCTCCCTCCGA
GGCCCTCCTCCTCACCCTGCACCTAACTGTGTGTTTGTAATTTGTCTTCAAGTGGGCTCTCCGAGTTGCCCGAGCTTCAGTCCCATAACATCTGGCTCTG
CCTTTGTCCACACCCTTGTCAGGCCCAATCCATGTCCACACCAGAGGCCTCTTCCCTGCCAAGGCCACTGCCATGCTCTCCCTCTTCCCTCTCTCCAGGT
AGTGCTAGAGACCTTGGCTGGTCAGAGGGCTGTGAAGACGCACGGTGCCAGGACCAAGTATCTGGTGAGCCCCTTGAGGCAGGGCCAGGAGGGACACACA
GCTGCTGGCAGCCAGCAGGCACAGCCCCAGTGGCGGGGATAACTGGGGCGCAGTGCCCATGGATGCCTCTGCTGCCACAGTGGCCTCATTTTTGAAAGTA
GGCAGGGCTCCAAACAACTTCGTTTACCTTGCCGAGGACAAACCTGTCTGTCCTGCAGACACTATGGGCCTTGTACAGACCCCACCTGGGCTGGGGGCAG
GGGGAAGGGCGGTCCCAGGGCACTGAGACCCAAGCTGCAGTGGAACTCAGAGGACTCTGGCCGGAGAAAGGCGGTGGTAGAGAAGAAGCAGGCCCCGAGG
AACCTCCTGGGCCCCAGCAGGCTGCAGCTGAGCTCTCCGCACCGTGCAGGGCAGCCTGAGCTGCCTCACGGTCTTACTCCACTCAGTCTGCCTCACCGTG
GACTGTGGTGGGGCCAGGAGACTAGAGACCTGGGTTTTAGCCCCAGCCTGACAGTGGCCTTCCAGCAAATTCCTGCTCCCCTGTGGGCCTGTTTTCCCAT
ATGCAAAACAGACTTCACAGAATGTGCTCAGCCAGTAATTGCTTCACTGCTTCTCCTCTTGTTTGGGGCGGTTCCTGTGTGCTGTGGGGTCTCCGTCAGG
ATTCAGCCCCGCTGAGAACCCAGGAGCCGGGCTTGAGCCCTCCTTCCTTTCCCTTCCCCGTCCGTCCATCCATGCATCCTGCTGAAGAAGCGCACCAGGC
TCCTTGGGGGTCCTTGGACTTCCCCACTTGCTCCCCACCCTGCAGCCAAAGTGCTCTTTTCAAAGGCCCCTTTGCCTTTTCTCTGCTCTTGGGGTGAAGG
CCCAGTCCCTTATGTGGTTGACCCCCCAACGCCCCAGGTCCCTGGGACTCGGGGCGCTCCCTGCTGCCTGCTTCACAGCCTTAGTATGTGCCGTTCGCTC
TGCGAGAAAAGCCACCGCCCACCCAGGTGGTTCCTCCTGGTCTGTCTGATTTCAGAACTGGAGATGGCCTCYGGTCCTGTTTCCACCCTGGGGGCGCCTC
TCTGCGGGGCGCCTCTCTCTCTGGGGTACCTCTTTGTCTGTGGGGCACCTCTCTGTGGGGCGCTTTCCTTCTCGGCTCTGCCCTCTCAGGCTACTTCCTG
CCTTCAGACCCCAGCTCCATGGGGCTCTCCCCCACCAGGAAGTCAGCTCTGTCAAACCGGGTCCCAGGGTTCTGTTTGTTCCTGTATCCCTAGGGCCCAG
AGCACCACTGGCCCACAGTAGGTGTTTAATAAATCTCTAGAAGCTACTCGGGAATCTGAGGCAGGAGGATCGCTTGAGCCTGGGAGTTGGAGACCAGCCT
GGGCAACATAGCAAGATAGGCATGGTGGTACACACCTGTAATCCCAGCTGCTCGGGAGGCCGAGGTGGGAGGATCACGAGCCTGGGAGGTTGAGGCTGCA
CTGAGCCATGATTGCACCACTGCACTCCAGCCTGGGTGACAGAATGAGTCCCTGTCTCAGAAAAAAAGTAAGTTGTAGAAAGACCAAGAGCTGTGGCACA
GTGTCTCACACCTGTAACACCAGCACTTTGGGAGGCTGAGGCGGGAGGATCACTTGAGCCTACTTGGAGACCAGCCAGGCCAACAAAGYGAGACCCCATC
TCTTTTTTTTTTTTTTTTTTTTTTATCAAAACCCATACGATTGAGTGACAAGGACCTGAGGACTGCAGCTGCAGGTGTGGCCACCTGGTAGCCATACTGA
CAGTATTTATCCCACAGAAAGACCTGGTGGAAGAGGAGGCTGAGGAGGCTGGAGTGGCTTTGAGAAGCACCCAGAGCACACTGCAAGCAGGTCTGGCTGC
AGATGCCTGGGCTGCTCCCATCGCCATGCAGATCTACAAGAAGCACCTGGACCCCAGGCCCGGGCCCTGCCCACCTGAGCTGGGCCTGGGCCTGGGCCAG
CTGGCCTGCTGCTGCCTGCACCGCCGGGCCAAAAGGAGGCCTCCTATGACCCAGGTAGCCAGCTGCGCACTGGGACGGGGTGGCCAGATAGAAAGCCCGC
AYTCCAGGCCTTGCTCTGTAGTGACCCCATCTCAGCACCTGCTAGGTCTCTCTGGAGTCTCCACACATTTCTTGCTTGCCCTTTGGTTCTGTTTGGGGCA
GCGCCCCTCTGAACTGAGGGGCCCCGGGCAGTCCTGCTTTGCGGAGCCCAGCTCCGACCCCCTTCACATAGAGAGAAGGAAAGAGCTGCTGCCGCGCCCC
CTGCTGGGCGCACTGCACTACTGCATCTGCCTTTTTCTGTCCCCTCCCTAGTACCCCACCTCTTCTCCTCTGGTGACAGTTGAAAATGGAGAGGCCCCGT
TTGAGGGCAGCGGGGCAGTGAGATTCATTTTGTAGAAAAGAACGAGGCCATTCTCAGTCCTTGCTTTTGGCAGCCGCGCTTCTCAGCACTCCCTGTGATG
GGAACAGAGGGGCGAGGGGCAGAGCGTTCCCAGCTGCAGGGTATGTCATTTTAGAGCCCTGGGGCAGGTCRCGGAYGGCCTGGAGCAGCCCTGTGGTTTG
CCCACGGGGTGACCGGCCAGGGCTGCCATCTCACCCTGAGAGTCCCTCTTTTCCACTTGCAGGTGTACGAGAGGCTAGAGAAGCTGCAGGCAGTGGTGGC
GGGGGTGCCCGGGCATTYGGAGGCCGCCAGCTGCATCCCCCCTTCCCCGCAGGAGAACTCCTACGTGTCCAGCACTGGCAGAGCCCACAGTGGGGCTGCT
CCATGGCAGCCCCTGGCAGCGCCRTCAGGAGCCAGTGCCCAGGCAGCAGAGCAGCTGCAGAGAGGCCCCAACCAGCCCGTGGAGAGTGACGAGAGCCTAG
GCGGCCTCTCTGCTGCCCTGCGCTCCTGGCACTTGACTCCAAGCTGCCCTCTGGACCCAGCACCCCTCAGGGAGGCCGGCTGTCCTCAGGGGGACACGGC
AGGAGAATCGAGCTGGGGGAGTGGCCCAGGATCCCGGCCCACAGCCGTGGAAGGTAGCTGGGGAGACGGGTTCCCAGGAGAGGGACCAAGGCCTCTTTGG
GCCAAAGCCCCTGTAAGTCCCCACCCCAGCCTTCTAGAAGAGAACCAGGGCCAAATGTTCAGCTCACTGTGACCTTAGCAACCCTGGTTTCCCCTCCCCA
GGCCACATCCTTCCCAGGTGGAGCTTGCTCTCCAGCCCTYCCCCCACCCCATTCCTGAAGGCTGGGAACAAGGAGGGCTCTGTCTGGTAGCCTGAGAGCT
GGGCCCTGCCCTTRGACTTCTCTGAGGAATTCAGGCCTGAGGCCAGGGAGGCAGGGTGCTAGGCTGCGGGCTGGGGAGCCACAGCATGAGGCTAAGGGAG
TGCCATCTCCACCCCAGGACTGGCCCTTGGCAGCTCTGCATCATCGTCGTCAGAGCCACCGCAGATTATCATCAACCCTGCCCGACAGAAGATGGTCCAG
AAGCTGGCCCTGTACGAGGATGGGGCCCTGGACAGCCTGCAGCTGCTGTCGTCCAGCTCCCTCCCAGGTGCTGCCGCCCAGGCTGGCCTCTGGGGTGCTC
RGGCGCATCCGTGTCAGCCCCAAAGAGCAGAGTGTCTGTCCCGACTGCGCTGAGGGCRTGGGGCAGCCGGGCAGGCCACTGGCTCTGGCGACCTCTAGAA
GCCCAGCCGGCCCCACATGCCTCCCTTAGCAAGACCCTGGCCCACTCCTTCCCTCGCCTCCTGACAGTAGCACCTCCTTTAGCCCGAGGGTGCCTGYCCC
ACTCTGTGCTTTCAGGAAATAGGAAGCCCCAGCAGGAATTTTCCATCCCAGGTACTATTTGAAGAACCACTGCTTAGGAACCCTCAGCTGGGCGAGGTGG
CTCATGCCTATAATACCAGCACTTTTGGAGGCCAAGATGGGAGGATCACTTGAGCCCAGGAGGTGGAGGCTACAGTGAGCTGTGATCAAGCCACTGCACT
CCAGCCTGGGAGACAGTTAGACCCTGTCTCAAAAACAAAYGAACAAACAAACAAAAACCCTCAATTCCCACGAACRCCCCAGGAGATAAGGGAGCATGGC
CCAGGCCTTGAGCCAGGGCTTCTGGCAGTAGGGGAGCCTCCCCCATTTGCTAAGCGGACTTTCCTCTTCCTTCTGTAGGCTTGGGCCTGGAACAGGACAG
GCAGGGGCCCGAAGAAAGTGATGAATTTCAGAGCTGATGTGTTCACCTGGGCAGATCCCCCAAATCYGGAAGTCAAAGTTCTCATGGTCAGAAGTTCTCA
TGGTGCACGAGTCCTCAGCACTCTGCCGGCAGTGGGGGTGGGGGCCCATGCCCGCGGGGGAGAGAAGGAGGTGGCCCTRCTGTTCTAGGCTCTGTGGGCA
TAGGCAGGCAGAGTGGAACCCTGCCTCCATGCCAGCATCTGGGGGCAAGGAAGGCTGGCATCATCCAGTGAGGAGGCTGGCGCATGTTGGGAGGCTGCTG
GCTGCACAGACCCGTGAGGGGAGGAGAGGGGCTGCTGTGCAGGGGTGTGGAGTAGGGAGCTGGCTCCCCTGAGAGCCATGCAGGGCGTCTGCAGCCCAGG
CCTCTGGCAGCAGCTCTTTGCCCATCTCTTTGGACAGTGGCCACCCTGCACAATGGGGCCGACGAGGCCTAGGGCCCTCCTACCTGCTTACAATTTGGAA
AAGTGTGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCGCTGGAGCCCAGTAGGTCAAGACCAGCCAGGG
CAACATGATGAGACCCTGTCTCTGCCAAAAAATTTTTTAAACTATTAGCCTGGCGTGGTAGCGCACGCYTGTGGTCCCAGCTGCTGGGGAGGCTGAAGTA
GGAGGATCATTTATGCTTGGGAGGTCGAGGCTGCAGTGAGTCATGATTGTATGACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGTTTCAAAAAGA
AAAACCCTGGGAAAAGTGAAGTATGGYTGTAAGTCTCATGGTTCAGTCCTAGCAAGAAGCGAGAATTCTGAGATCCTCCAGAAAGTCGAGCAGCACCCAC
CTCCAACCTCGGGCCAGTGTCTTCAGGCTTTACTGGGGACCTGCGAGCTGGCCTAATGTGGTGGCCTGCAAGCCAGGCCATCCCTGGGCRCCACAGACGA
GCTCCGAGCCAGGTCAGGCTTCGGAGGCCACAAGCTCAGCCTCAGGCCCAGGCACTGATTGTGGCAGAGGGGCCACTACCCAAGGTCTAGCTAGGCCCAA
GACCTAGTTACCCAGACAGTGAGAAGCCCCTGGAAGGCAGAAAAGTTGGGAGCATGGCAGACAGGGAAGGGAAACATTTTCAGGGAAAAGACATGTATCA
CATGTCTTCAGAAGCAAGTCAGGTTTCATGTAACCGAGTGTCCTCTTGCGTGTCCAAAAGTAGCCCAGGGCTGTAGCACAGGCTTCACAGTGATTTTGTG
TTCAGCCGTGAGTCACACTACATGCCCCCGTGAAGCTGGGCATTGGTGACGTCCAGGTTGTCCTTGAGTAATAAAAACGTATGTTGCAATCTCGGGCTCT
ACTTGTGGACTTTGTTGCACCGAAAGCCTTGAGCTTTCCTGATGCCTTACACTTCAKGGTTCTTGAGCGTCCAGGGTCTTGTTACTACTCTGGGCTGGCC
ACACCCAGCACTTCCCGTGTCAGGTTTTTCCTGATGTAGTCCATGTTTTTTATGCTATTCTAAATGGTATCTTTGATTTTCTAGTTCATCATGATATTAT
ACAGAAATGCAATTGATGCTGGGCACGGTGGCTCACGCCTGTGATTCCAGCGCTTTGGGAAGCTAAGGCGGGCAGATCACTTGAGGCCAGGAGTTTGAGA
CCAGCCTGGGCAACATGGCGAAACCCCGTCTCTACAAAAAGTACAAAAATTAGCCAGGCATGGTGGTGCATGCCTGTAGTTTGAGCTACTCAGGAGGCTG
ACCCAGGAGGATAGTTTGAGCCCAGGACGTTGAGGCTGCAGTGAGCCATGATTCCACCACTGCACTCCAGCCCGGGCAACAGAGGGAGACCTTGCCTCAA
AAAAAAAAAAAAAAAAAAAAAAAGCGGTTGAGTTTTGCATATGAACCGTATATTCTGTGACCTTGTTTAAATTCTTTTTTTTTTTTCTTTTTTTGAGATG
GAGTTTTGCTCTTGTTGCCCAGGCTGCAGTGCAATGGCGCTATCTCAGCTCACTGCAACCTCTGCCTCCTAGGTTCAAGTGATTCTCCTGCCTCAGCCTC
CCGAGTAGCTGGGATTACAGGTGCCCACCACCACACCCGGCTAATTTTTTTGTATTTTTAATAGAGACAGGGTTTCCACATGTTGACCAGGCTGGTCTCG
AACTCCTGACCTCCAGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTAGATTACAGGTGTGAGCCACTGCACCTGTCCCTGGCTGTCTGTATATTTACTT
TTTTTTTTGAGATGGAGTTTCGCTCTTGTCACCCAGGCTGCAGTGCAATGGTGCGATCTCGGCTCATTGTAACCTCTGCCTCCCAGGTTCAGGTGATTCT
CCTGCCTCAGTCTCCCGAGTAGCTGGGATTACAGGCGTCCGCTACCACGCCCGACTGATTTTTCTATTTTTAGTAGAGACGGGGTTTCAACATGTTGGCC
AGTCTGATCTCGAACTCCTGACCTCAGGTGATTCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTATGAGGCACTGTGCCCGGCTTTTTTTTTT
TTTTTTTTTTTCTTCAGACAAGAGTCTTACTCTGTCACCCAGGCTGAAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGC
GATTCTTCTGCCTCAGCCTCCATAGTAGCTGGGACTACAGGTGTGTGCCACCACGCCCAGCTAATTTTTATATTTTTATTTAGTAGAGACAAGGTTTCAC
CATGTTGGCCAAGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCGTGGCACCCAGC
CCAGCCTTATTCTTTTAAACAATCTGACAATCTCTGCCTTTAGTTGGTCTGTTTAATCCATTTCCATTTAATGGTTGGAGTTAAGTCTATCATCTTGTTA
TTTGTTTTCTATTACCCCATCTGTTTTGACTTTTGGATTAATTACATATTTCTGGGATTCTGTTTTTTCTCTGCTATTGGCTTGGTCGCTCTAGTAATTC
AGTGAGACTGCTGGTTCCGCTCAGGCCCCTTTGCTGAACCATGGTGTGAAAGTGCCTCCAGGCAGAAACTCAGGGTACTTGTAAGGCTCACCTTCTTTGT
TTTCTCTCTGGTCACAGCCCTGCACAGCCTATTGTCCGATATCTAAAAATAGTTGCCCAGTGTTTTAGGTGTTTACAACTGGCATCAGTTATTCCACTGT
GGCCAGAATTGCAAGTTTCTCCTCTTTTCTGAGGACTTCTTCACTCATAATGTCACCCGACATGATCAATTTCTTCCTTGCTTCTGGATCTATTTCTTTT
CTTTTTTTTTTTTTTTGAGACAGAGTCACTCTGTCACCCAGGCTGGAGTGCAGCAGCATGATCTCAGCTCCCTGCAACCTCTGCCTCCCGGGTTCAAGCA
ATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAACTACAGGCATGTGTCACCAAGCCCAGCTAATGTTTGTATTTTTAGTAGAGACGGGGTTTCCCCATGT
TGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCTCACCTCGGCCTCCCAAAATGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCTCTG
GATCTATTTTCATCAAACATGTCCTGGTAGCTTCCGTTCTTGAAGAATAAAAATAAAAACTCATTTGACCCAACACCCCCTCCAACCACAACCCTAATTC
TCTGTTCCTCTTTGTAGCTAAACTTTTCAGAATCCTTGTCTGTTTTCTCACTTGCCCATTCCCTGTGCAGTCCCTCTTCCTCTGCTTCTACCCCTGCCAC
TCCATCCAATCAGCGTTCATCCAGAACACCAGGGATCTCCGTGTTGTCAAATCCATCCAGTCCTCTTGGACTTTCTCTCGCCGGTGCCTACTCCCCCACC
AACCGCTTGTCTCTTGTGACCTCTGTGACGCTGAAGTCTGTGTTCTTTCTCAGCGTGCGTGGGCTCTCTCTACCCAGCCTCTACAAGGTGTGAGTCCCTC
CAGACACGCCTCTGCGCCTTCTTAGCTGCCTGCACTCATTCCCGACGGTGATCTTCCTCATTCTCACGGCTCTATCATGTCCATTCCCAAACGGCAGCGC
CTCCGTCATGCTCTCTCTCCTGAGGTTTTGGCCTTCTGATTTTTCTCACAGGCACCGTAAACTTAGATGGCCAAGCAGACTTGGGATTCCCTTTCACCAT
GAGCTTCCCACCTCAGCGTGTGGGACTAGTTCCAGCGCCCACCCAGCTGCCCACACCAGAGCCTCAGGAGTTAGGCTTTTCTGAAAGACTTTGTTAGGGA
GGTATAAGTTAAAGGTAGAAAAGTACACAAACCGTACTCGTACAGCCCAATGACTGTTTTATATGTACACGGCCATGTGGCAGCCACCACATAGACCCAC
ATATGAATCTGCTCCAGTTATCTCTTGCTAGGTACCAAGCCACCCCAAGATGTACGGGCTGAAAATAATGGCAATGTTTGTTTTGCTCGCGAGCCTGTGC
TCTGTGAGGTCTCAGTTGGCAGAGCTCACCCGCTGCAGTCGGTTAGCCGGGGCAGCCCGATGGCCACGAGCTGGAACCACCCAGCGGCTCCTTCGTGTCC
AGCGGAGGACGCTGCCGGGGTGAGGACACCTCCATGTGCCTGTGAGGCTGGGTTCTCCGGGGAGCATCTCAAGCTAGAAAGCCCAGCGGAGGCCACGTCA
TCTGATGGCCTGGCCTGGGGATCAGGTGCTGCCACTTCCCCGGCAGCCTGCTCACTAGACGCAAGCCTCTGAGGCCAGTGTATGCAAGGGGAGAGGCGCT
GTGGGCCGCCTTTTTTGATGAGAGTAGCACCAGAGAACATCCAAACCTGGCTTTAAACACATAGATAGTTTTGCATGTTCTGGAATTTCATGTCAATGAG
ATTGTGTCGTGATTTAGTTTGGATGTGTGTCCCTGCCCCAATCTCCAGTGCTGGAGGCGGGGCCTGGTGGGAAGTGACTGGGTCATGGGGGCAGATTTCT
CATGAATGCTTCCGCGCCATCCCTGGGTGCTGTTCTCATGATAGTTGTTTAACAGTGTGTGCTACCTCCACTGTCCGGCTCTTGCTCCCGCTGTGGCCAT
CTGATGTGCCTGCTCCCCCTTTGCCTCCCGCCATGATTGGAAGCTTCCTGAGGCTTCCCCAAAAGCAGATGCAGCCATGCTTCCTGTACAGCCTGCAGAA
CCGTGAGCCCATTGAACCTCCTTTCTATATAAATTGCCCGGTCTTGGCTATTTCTGTACAGCAGTGTGAGAATGGATTAACACACGTGGTACGAACTCGC
GTCTGCCTGCTATTGCTCTGCACTGTTGTTCTGTTGCAGCCGTGAGTAGCGCTAAGCGATTGCTTTGCCTTCCCAGGTAGCGTTCCATTGTAAGAATGGG
CCGCATTTGACTCTTTCTACTCTTGGGCGTTTGGATTGAGTTTGGGGCTGGCATAAAGCTGTTATGAACATTTCCGAATCTGTCTTGCTGCACATACACA
CTCATTTCTCTTGGGTGTTGTACACATCTGTATACACATGTTGGAACATCTGATCAGGGAGACCTGATGGGAGCTGGCAGTGCTGCGATGGCCCCACACC
AGGACTCACAGTGCACAAATGCCTACTGCGTCCCCTCCGCCTTCCAGATCCCAGTTCCGGCCAGTTTTTGTATTTTTTGTAGAGATGGGGTCTTGCCATG
TTGCCCAGGCTGGTCTCGAATTCCTGGGCTCACACGATCCACCCACCTCAGCCTCCCAGGTAGCTGGGACTGCAGGCGTGAGCCCCCACGCCTGGCCTGG
TGGGTTCATTCTCGATTGTGTTGATGGTTTGGCAGATATAACTTTCAAACTGTTCACTTTAAATGTGCAGTTTATTTTATGTCAATTATACCTCAATAAA
GCTGTTTTTGGCCAGGCACAGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCGAGGCAGGCAGATCATTAGGTCAGGAGATCGAGACCATCCTGG
CTAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGA
GAATGGCGTGAACCCAGGAGATGGAGCTTGCAGTGAGTCAAGATGGCACCAGTGCACTCCAGCCTGGGCGACAGAGTGAGACTCTGTCAAAAAAAAAAAA
AAAAAAAAAAAAGCTGTTTTTAAGAAATAAAATGGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTCGGAAGGCCGAGGCGGGTGGATCACGA
GGTCAGGAGATCAAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAGTTAGCCGGGCGTGGTGGCGGGCACCTGTAGTCCC
AGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCGGCGATCACGCCACTGCACTCCAGCCTGGGCAACAGG
GCAAGACTCCATCTCAAAAATAAAATAAAATAAAATAAAATGCAGCCGGGCACGGTGGCTCATTCCTGTAATCCCAGGACTTTGGGAGGCTGAGGTGAGA
AGATCACTTGAGGTGAGGAGTTTGAGACCAGCCTGGCCAACATGGTAAAACCCTGTCTCTAGTGAAAATACAAAAATTAGTGGGGTATGATGGTGCACGC
CTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGGGAATCACTTGAATCCGGGAGATGGAGGTTGCAGTGAGCTGAGATCACGCCATTGCACTCCAGCCT
GGGCAGCAGAGTGAGACTCTGTCAAAAAAGAAAGAAAGAGAGAAAGGAAGGAAGGAAGGAAAGAAAGGAAGAAAGAAAGAATGTCTCTTTGAGGCAGCAT
ATTGATTGATTGGTTTTATTTTCCCTCTACGCCAGCCCGGCAATCTTTGTGTGTTTATCCATTTTCATTTTAATGGATTTGCCAATATGGCTGTATGTGA
GATCTTTTATTGTGATAAAATATATACAACATAATATTCATCTGTTTAACTATTTATAAGTGTACAACTCGGGGGCATGGGCTTTGTTTCTTCACCCTCA
ACATCCTCCTCCTCCTCCTCCACACCATTAGACCCTGACCCCCGCCACCCTCCTGCTCTGGCTGTGTGTGAGGACCAGCTTACCATTTGTTCTCTGTTGT
CCCATCTGTCGTTGGTTACTTTCTTTCTCTTTTTTTGCCTTTTCTCAGTGTCACTTTTCATTATTACTCCAGCAGTTACCCTAGGGATTGAG


SNP Information

Context             (SEQ ID NO:51344):
GGAGGATCACTTGAGCCCAGGAGGTGGAGGCTACAGTGAGCTGTGATCAAGCCACTGCACTCCAGCCTGGGAGACAGTTAGACCCTGTCTCAAAAACAAA
Y
GAACAAACAAACAAAAACCCTCAATTCCCACGAACGCCCCAGGAGATAAGGGAGCATGGCCCAGGCCTTGAGCCAGGGCTTCTGGCAGTAGGGGAGCCTC
Celera SNP ID:            hCV2277187
SNP Position Genomic:     14140
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51345):
CTGAATGGCTCAAGGCTGCTGCCGTGTGCAGGGGGCTAGACGTGGGGCGGGCAGGCAGGGCTCCTGGTAACAGCCCTGCAGGCCGCAGTGGAGAGCAGGG
Y
TCCGGCAGGGCCGCCCAGGAGCTTTCGGAAGGCCCGGCCCCGGCCCCTTTCCGAGCAGCCCGGGCCTCCGCCCTGCCCTCTGTCCCCAACGCCGGGAGCC
Celera SNP ID:            hCV29369118
SNP Position Genomic:     5989
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:51346):
AGGGGGCTAGACGTGGGGCGGGCAGGCAGGGCTCCTGGTAACAGCCCTGCAGGCCGCAGTGGAGAGCAGGGTTCCGGCAGGGCCGCCCAGGAGCTTTCGG
M
AGGCCCGGCCCCGGCCCCTTTCCGAGCAGCCCGGGCCTCCGCCCTGCCCTCTGTCCCCAACGCCGGGAGCCGCCGTTCGTCCTCCAGAGCCCCGCCCGGG
Celera SNP ID:            hCV29369119
SNP Position Genomic:     6018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION


Context             (SEQ ID NO:51347):
GAGAACCAGGGCCAAATGTTCAGCTCACTGTGACCTTAGCAACCCTGGTTTCCCCTCCCCAGGCCACATCCTTCCCAGGTGGAGCTTGCTCTCCAGCCCT
Y
CCCCCACCCCATTCCTGAAGGCTGGGAACAAGGAGGGCTCTGTCTGGTAGCCTGAGAGCTGGGCCCTGCCCTTGGACTTCTCTGAGGAATTCAGGCCTGA
Celera SNP ID:            hCV2277188
SNP Position Genomic:     13340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51348):
GAGGCTGCAGTGAGTCATGATTGTATGACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGTTTCAAAAAGAAAAACCCTGGGAAAAGTGAAGTATGG
Y
TGTAAGTCTCATGGTTCAGTCCTAGCAAGAAGCGAGAATTCTGAGATCCTCCAGAAAGTCGAGCAGCACCCACCTCCAACCTCGGGCCAGTGTCTTCAGG
Celera SNP ID:            hCV8966372
SNP Position Genomic:     15127
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:51349):
TGGCCTGCTGCTGCCTGCACCGCCGGGCCAAAAGGAGGCCTCCTATGACCCAGGTAGCCAGCTGCGCACTGGGACGGGGTGGCCAGATAGAAAGCCCGCA
Y
TCCAGGCCTTGCTCTGTAGTGACCCCATCTCAGCACCTGCTAGGTCTCTCTGGAGTCTCCACACATTTCTTGCTTGCCCTTTGGTTCTGTTTGGGGCAGC
Celera SNP ID:            hCV15765435
SNP Position Genomic:     12202
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,29)   caucasian(T,30)   total(C,3|T,59)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51350):
TTGTTATAAATCGTTAGGATACTGCCTCCCCCAGGGTCTAAAATTACATATTAGAGGGGAAAAGCTGAACACTGAAGTCAGTTCTCAACAATTTAGAAGG
M
AAACCTAGAAAACATTTGGCAGAAAATTACATTTCGATGTTTTTGAATGAATACGAGCAAGCTTTTACAACAGTGCTGATCTAAAAATACTTAGCACTTG
Celera SNP ID:            hCV15765525
SNP Position Genomic:     405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:51351):
GCGCTTCTCAGCACTCCCTGTGATGGGAACAGAGGGGCGAGGGGCAGAGCGTTCCCAGCTGCAGGGTATGTCATTTTAGAGCCCTGGGGCAGGTCACGGA
Y
GGCCTGGAGCAGCCCTGTGGTTTGCCCACGGGGTGACCGGCCAGGGCTGCCATCTCACCCTGAGAGTCCCTCTTTTCCACTTGCAGGTGTACGAGAGGCT
Celera SNP ID:            hCV15765436
SNP Position Genomic:     12676
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,40)   total(C,69|T,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51352):
GGGGAAAAGCTGAACACTGAAGTCAGTTCTCAACAATTTAGAAGGAAAACCTAGAAAACATTTGGCAGAAAATTACATTTCGATGTTTTTGAATGAATAC
R
AGCAAGCTTTTACAACAGTGCTGATCTAAAAATACTTAGCACTTGGCCTGAGATGCCTGGTGAGCATTACAGGCAAGGGGAATCTGGAGGTAGCCGACCT
Celera SNP ID:            hCV15765526
SNP Position Genomic:     460
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:51353):
CCGCCAGCTGCATCCCCCCTTCCCCGCAGGAGAACTCCTACGTGTCCAGCACTGGCAGAGCCCACAGTGGGGCTGCTCCATGGCAGCCCCTGGCAGCGCC
R
TCAGGAGCCAGTGCCCAGGCAGCAGAGCAGCTGCAGAGAGGCCCCAACCAGCCCGTGGAGAGTGACGAGAGCCTAGGCGGCCTCTCTGCTGCCCTGCGCT
Celera SNP ID:            hCV15765437
SNP Position Genomic:     12924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:51354):
TGCTTCAATCAATAACAGCCGCTCCAGAGTCAGTAGTCAATGAATATATGACCAAATATCACCAGGACTGTTACTCAATGTGTGCCGAGCCCTTGCCCAT
S
CTGGGCTCCCGTGTATCTGGACACTGTAACGTGTGCTGTGTTTGCTCCCCTTCCCCTTCCTTCTTTGCCCTTTACTTGTCTTTCTGGGGTTTTTCTGTTT
Celera SNP ID:            hCV15765527
SNP Position Genomic:     2751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:51355):
GCAGCACCCACCTCCAACCTCGGGCCAGTGTCTTCAGGCTTTACTGGGGACCTGCGAGCTGGCCTAATGTGGTGGCCTGCAAGCCAGGCCATCCCTGGGC
R
CCACAGACGAGCTCCGAGCCAGGTCAGGCTTCGGAGGCCACAAGCTCAGCCTCAGGCCCAGGCACTGATTGTGGCAGAGGGGCCACTACCCAAGGTCTAG
Celera SNP ID:            hCV15765471
SNP Position Genomic:     15290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:51356):
TTGATTGCTTTTTTGTAGTGTTCAGAAAAAAGGTTCTTTGTGTATAGCCAAATGACTGAAAGCACTGATATATTTAAAAACAAAAGGCAATTTATTAAGG
R
AATTTGTACCATTTCAGTAAACCTGTCTGAATGTACCTGTATACGTTTCAAAAACACCCCCCCCCCACTGAATCCCTGTAACCTATTTATTATATAAAGA
Celera SNP ID:            hCV27466443
SNP Position Genomic:     4266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:51357):
TGAGCTGTGATCAAGCCACTGCACTCCAGCCTGGGAGACAGTTAGACCCTGTCTCAAAAACAAATGAACAAACAAACAAAAACCCTCAATTCCCACGAAC
R
CCCCAGGAGATAAGGGAGCATGGCCCAGGCCTTGAGCCAGGGCTTCTGGCAGTAGGGGAGCCTCCCCCATTTGCTAAGCGGACTTTCCTCTTCCTTCTGT
Celera SNP ID:            hCV15765459
SNP Position Genomic:     14176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51358):
GCCATTGCTTAAGAAGTGCAGGTCACGGAGACTTTGCTCCTCGTTTTCCAGAAGGGGGAAACTGAGGCCTAGAGAGTGAAGTGGCTGTTCCAGGCTGCAC
R
GTGACAGGTAGAAGGATGGTTGGGATCAAGGAACGGCCATCCAGCAACCTCCCCTGTCCCCCTTTGCCACCCCAGACCCAGGCCTGCCCACCTCTCTCCT
Celera SNP ID:            hCV29369120
SNP Position Genomic:     9053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51359):
AGCTGTGGCACAGTGTCTCACACCTGTAACACCAGCACTTTGGGAGGCTGAGGCGGGAGGATCACTTGAGCCTACTTGGAGACCAGCCAGGCCAACAAAG
Y
GAGACCCCATCTCTTTTTTTTTTTTTTTTTTTTTTATCAAAACCCATACGATTGAGTGACAAGGACCTGAGGACTGCAGCTGCAGGTGTGGCCACCTGGT
Celera SNP ID:            hCV2597089
SNP Position Genomic:     11789
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51360):
CCTCCAGGGCTCAACACTGTGACATCTCTATTCCCCACCCTCCCCTTCCCAGGGCAATAAAATGACCATGGAGGGGGCTTGCACTCTCTTGGCTGTCACC
Y
GATCGCCAGCAAAACTTAGATGTGAGAAAACCCCTTCCCATTCCATGGCGAAAACATCTCCTTAGAAAAGCCATTACCCTCATTAGGCATGGTTTTGGGC
Celera SNP ID:            hCV15765400
SNP Position Genomic:     3677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:51361):
GAAGAGCTAGGCAGGGTGTCTGCCCCCTCCTGAGTTGAAGTCATGCTCCCCTGTGCCAGCCCAGAGGCCGAGAGCTATGGACAGCATTGCCAGTAACACA
R
GCCACCCTGTGCAGAAGGGAGCTGGCTCCAGCCTGGAAACCTGTCTGAGGTTGGGAGAGGTGCACTTGGGGCACAGGGAGAGGCCGGGACACACTTAGCT
Celera SNP ID:            hCV15765401
SNP Position Genomic:     3964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:51362):
CAGCCGCGCTTCTCAGCACTCCCTGTGATGGGAACAGAGGGGCGAGGGGCAGAGCGTTCCCAGCTGCAGGGTATGTCATTTTAGAGCCCTGGGGCAGGTC
R
CGGACGGCCTGGAGCAGCCCTGTGGTTTGCCCACGGGGTGACCGGCCAGGGCTGCCATCTCACCCTGAGAGTCCCTCTTTTCCACTTGCAGGTGTACGAG
Celera SNP ID:            hCV28037683
SNP Position Genomic:     12671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51363):
TTCACAGCCTTAGTATGTGCCGTTCGCTCTGCGAGAAAAGCCACCGCCCACCCAGGTGGTTCCTCCTGGTCTGTCTGATTTCAGAACTGGAGATGGCCTC
Y
GGTCCTGTTTCCACCCTGGGGGCGCCTCTCTGCGGGGCGCCTCTCTCTCTGGGGTACCTCTTTGTCTGTGGGGCACCTCTCTGTGGGGCGCTTTCCTTCT
Celera SNP ID:            hCV27158712
SNP Position Genomic:     11172
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51364):
GCTGGAGCCCAGTAGGTCAAGACCAGCCAGGGCAACATGATGAGACCCTGTCTCTGCCAAAAAATTTTTTAAACTATTAGCCTGGCGTGGTAGCGCACGC
Y
TGTGGTCCCAGCTGCTGGGGAGGCTGAAGTAGGAGGATCATTTATGCTTGGGAGGTCGAGGCTGCAGTGAGTCATGATTGTATGACTGCACTCCAGCCTG
Celera SNP ID:            hCV27158713
SNP Position Genomic:     14969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:51365):
GAGTAAGTCTGCGTTGCTGCTTGTGGGGTCTTCCCCATCTCAGGGCGGGGACCGGGGGTGGCGGTCCAGACAAGTAATCAAGGACGATGCCCAGGAGGGG
R
CAGGTACGGGGTGGCAGGAGCTCTGCCGGCGGGCTCAGGAAGCCTTCACCACAGCTGCCTGAGCTCACCCTTGCCAAATGAGGGCTGGGGCAGCAGCAAC
Celera SNP ID:            hCV15765424
SNP Position Genomic:     5728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:51366):
GCTGTAGACCCTGCTGCTGGTCTCTGCCTGCCTCTCACTGGTGTCTTTATGAAGCTTTTCCAGGCTCCCAGACCCATTCAGGGCCTGAGCTCGGCCTGGT
Y
CCAAGCCCTGCTTCCCTGTGGCCTCCACCGCCATCTCCAGCCCCTTCTTCTACCAAGGTAGGTGTCCCCTGCCCCCCAGGGAAGATTCGAGACAAGGAGG
Celera SNP ID:            hCV8966366
SNP Position Genomic:     7164
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,2|T,24)   total(C,31|T,33)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:51367):
TCCCTCCCAGGTGCTGCCGCCCAGGCTGGCCTCTGGGGTGCTCAGGCGCATCCGTGTCAGCCCCAAAGAGCAGAGTGTCTGTCCCGACTGCGCTGAGGGC
R
TGGGGCAGCCGGGCAGGCCACTGGCTCTGGCGACCTCTAGAAGCCCAGCCGGCCCCACATGCCTCCCTTAGCAAGACCCTGGCCCACTCCTTCCCTCGCC
Celera SNP ID:            hCV25473923
SNP Position Genomic:     13758
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,8)   caucasian(A,27|G,1)   total(A,47|G,9)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51368):
TGGGCAGAAGGGAAGAGACAGGGACCCCACCTGATCCAGGCTCTCTTCCCACAGCCAGGCCCAGAGAGCTCAGTGTCCCTCCTGCAGGGAGCCCGCCCCT
Y
TCCGTTTTGCTGGCCCCTCTGTGAGATTTCCCGGGGCACCCACAACTTCTCGGAGGAGCTCAAGATCGGGGAGGGTGGCTTTGGGTGCGTGTACCGGGCG
Celera SNP ID:            hCV8966367
SNP Position Genomic:     7455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:51369):
CAGGGCTGCCATCTCACCCTGAGAGTCCCTCTTTTCCACTTGCAGGTGTACGAGAGGCTAGAGAAGCTGCAGGCAGTGGTGGCGGGGGTGCCCGGGCATT
Y
GGAGGCCGCCAGCTGCATCCCCCCTTCCCCGCAGGAGAACTCCTACGTGTCCAGCACTGGCAGAGCCCACAGTGGGGCTGCTCCATGGCAGCCCCTGGCA
Celera SNP ID:            hCV8966368
SNP Position Genomic:     12818
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,14)   caucasian(T,4)   total(C,10|T,18)
SNP Type:                 NONSENSE MUTATION;INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,32)   caucasian(C,3|T,33)   total(C,9|T,65)   
SNP Type:                 NONSENSE MUTATION;INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;INTRON;TFBS


Context             (SEQ ID NO:51370):
TTCCTTCTGTAGGCTTGGGCCTGGAACAGGACAGGCAGGGGCCCGAAGAAAGTGATGAATTTCAGAGCTGATGTGTTCACCTGGGCAGATCCCCCAAATC
Y
GGAAGTCAAAGTTCTCATGGTCAGAAGTTCTCATGGTGCACGAGTCCTCAGCACTCTGCCGGCAGTGGGGGTGGGGGCCCATGCCCGCGGGGGAGAGAAG
Celera SNP ID:            hCV15765460
SNP Position Genomic:     14367
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 UTR 3;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;INTRON;TFBS;hmCS


Context             (SEQ ID NO:51371):
AAGCTGGCCCTGTACGAGGATGGGGCCCTGGACAGCCTGCAGCTGCTGTCGTCCAGCTCCCTCCCAGGTGCTGCCGCCCAGGCTGGCCTCTGGGGTGCTC
R
GGCGCATCCGTGTCAGCCCCAAAGAGCAGAGTGTCTGTCCCGACTGCGCTGAGGGCATGGGGCAGCCGGGCAGGCCACTGGCTCTGGCGACCTCTAGAAG
Celera SNP ID:            hCV25621641
SNP Position Genomic:     13701
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:51372):
TTCTCATGGTCAGAAGTTCTCATGGTGCACGAGTCCTCAGCACTCTGCCGGCAGTGGGGGTGGGGGCCCATGCCCGCGGGGGAGAGAAGGAGGTGGCCCT
R
CTGTTCTAGGCTCTGTGGGCATAGGCAGGCAGAGTGGAACCCTGCCTCCATGCCAGCATCTGGGGGCAAGGAAGGCTGGCATCATCCAGTGAGGAGGCTG
Celera SNP ID:            hCV15765461
SNP Position Genomic:     14479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:51373):
CTTCAAGGACTTCCCGACCACCAGGGACAAAGGGATGAGCCCTGGGAGCCGAAGCCCAGCAGATTCTATTGAACGTGTCCCCAGCCATTGCTTAAGAAGT
K
CAGGTCACGGAGACTTTGCTCCTCGTTTTCCAGAAGGGGGAAACTGAGGCCTAGAGAGTGAAGTGGCTGTTCCAGGCTGCACGGTGACAGGTAGAAGGAT
Celera SNP ID:            hCV25621642
SNP Position Genomic:     8970
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,38)   total(G,73|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51374):
CCAGGTGGAGCTTGCTCTCCAGCCCTCCCCCCACCCCATTCCTGAAGGCTGGGAACAAGGAGGGCTCTGTCTGGTAGCCTGAGAGCTGGGCCCTGCCCTT
R
GACTTCTCTGAGGAATTCAGGCCTGAGGCCAGGGAGGCAGGGTGCTAGGCTGCGGGCTGGGGAGCCACAGCATGAGGCTAAGGGAGTGCCATCTCCACCC
Celera SNP ID:            hCV15765447
SNP Position Genomic:     13414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51375):
GTTGTCCTTGAGTAATAAAAACGTATGTTGCAATCTCGGGCTCTACTTGTGGACTTTGTTGCACCGAAAGCCTTGAGCTTTCCTGATGCCTTACACTTCA
K
GGTTCTTGAGCGTCCAGGGTCTTGTTACTACTCTGGGCTGGCCACACCCAGCACTTCCCGTGTCAGGTTTTTCCTGATGTAGTCCATGTTTTTTATGCTA
Celera SNP ID:            hCV15765198
SNP Position Genomic:     15757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:51376):
AGAAGCCCAGCCGGCCCCACATGCCTCCCTTAGCAAGACCCTGGCCCACTCCTTCCCTCGCCTCCTGACAGTAGCACCTCCTTTAGCCCGAGGGTGCCTG
Y
CCCACTCTGTGCTTTCAGGAAATAGGAAGCCCCAGCAGGAATTTTCCATCCCAGGTACTATTTGAAGAACCACTGCTTAGGAACCCTCAGCTGGGCGAGG
Celera SNP ID:            hCV15765449
SNP Position Genomic:     13897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51377):
CTTCTGTGTTTGAACTGAAGTCTGTATTGTAACTATGTTTAAAGTAATTGTTCCAGAGACAAATATTTCTAGACACTTTTTCTTTACAAACAAAAGCATT
Y
GGAGGGAGGGGGATGGTGACTGAGATGAGAGGGGAGAGCTGAACAGATGACCCCTGCCCAGATCAGCCAGAAGCCACCCAAAGCAGTGGAGCCCAGGAGT
Celera SNP ID:            hCV27856846
SNP Position Genomic:     3087
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:51378):
GTGGCTTTGGGTGCGTGTACCGGGCGGTGATGAGGAACACGGTGTATGCTGTGAAGAGGCTGAAGGAGGTGAGTGTCGCACCCTGGCAGGGACCCTGGAA
R
GCCATCAGATAACCCTCACCACTTCTCCAGCCTTTCCCCCTCGCTTCCCCACACAACTCCTTCAGCCCTCATTCTGGCGTAGGGTCCCTGGCCCCTTGGT
Celera SNP ID:            hCV16166553
SNP Position Genomic:     7630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 240
Celera Gene:                 hCG39290 - 93000022563619
Gene Symbol:                 LTK
Protein Name:                leukocyte tyrosine kinase;TYK1
Celera Genomic Axis:         GA_x5YUV32W323(8840564..8862806)
Chromosome:                  Chr15
OMIM number:                 151520
OMIM Information:            LEUKOCYTE TYROSINE KINASE;LTK


Genomic Sequence (SEQ ID NO:12400):
AAGGCATAGCTCCTTGCTTATCAGTGCTACAATCTAGATAAGAAGAGATTTACTGAAAACCTACATAGTTGTGAATTATTCAGATGCTAGGTGGTATCAG
GATTCAGAGAAGGGAAAGATCAAATTGGGCTTTGTGGAAGAAGTGGGGATTGACCCAGGCACTGTAGGTTGGGTAGAATTTGAATTGGTGAGGAGGTAGA
AAGGCAGGAGATTCCTAACAGAATAACATAAGCAAAAGGAGCATGACAAAGGGCAGAAGGAGGGAGGAGAGATTTCTGTTGGGAACTTAAGGCTAAAAAT
AAGAAGTGAAGTCTGAGAGGGCCTCAAATATTAGGCTAAGGACTTAAATTTATAAGCTGTAAAGAGTTACTATGTTTGCCAGGTGCGGTGGCTCATGCCT
GTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCATTTGAGGTCAAGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCGTCTCTACTAAAAAA
AAATACAAAAAATTAGCCGGGTGTCGTGGTGCATGCCTGTAATCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTT
GCCATGAGCCGAGATCATACCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAGAAAAATAAAAAAGAGTTACTGTGTTATGGCT
GCGTGAGGTGGCTCATGCCTGTAATCCAACATTTTGGGAGGCCAAGGTGGGAGGATTGCTTGAGGCCAAGAGTTTCTGACCAGCTTGGGCAAGAAAGCTA
GACACCATCTCTACAAAAAATTATTGGAAAATTAGCCAGACCTGGTGATTTGCCCGTAGACCCAGTTACTCAGGAGCCTGAGGCAGGAGGATCACTTGAG
CTCAGGAGGTTGAGGCTGCCAGTGAGCTATGATCACACCACTGCATTCCAGACTTGGAAATAGAACGAGACTCTATTAAAAAAAGAAGTTATTGTATTTT
GTTTTTTGTTTTTAAGATTTTGGGTTTTTGTTTTTGTTTTTGAGACAGAGTCTCGCTCTGTTGCTCAGGCTAGAGTGCAGTGGCCTGATGATCTTGGTTC
ACTGCAACCTCTAGCTCCCAGGTTCAAGCGATTCTCCTGCCTCAACCTCCTGAGTAGCTGGGATTACAGGCACACAGCACCATGCCTGGCTAATTTTTTT
TTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGCTCGGCTCACTGCAACCTCCGCCCCTGGGTTCAAGCGACTCCCCTG
CTTCAGCCTCCCAAGTAGCTGGGACTACAAGCACCCACCACCATGTCCAGCTAATTTTTGTATTTTCGGTAGAGATGGGGTTTCACCATGTTGGCCAGGC
TGGTCTTGAATTCCTAATTTCGTGTGATCCGCCTGCCTCAGCCTCCCAAGTGCTGAGATTACAGGCGTGGCCCACTACACATGGCCAATTTCATGCTTTT
TAATGGCTGCTTCTCAGTTCCCAGTTTTCCCCAACATCTGCTCTGTAGTCTTTAACCCTGATCCTTGTGCTAGAAGGACAGATGTTTGTCTAGGACCTGA
TCTCTGCCCTCATGATTTGGTTTCATGTGATCGTTATCCACACACCTTATGTATGTATATACATTCCTACCCTCCCCCTCAGCACGTCATTTCCCCTGTC
ACAGTTGCCTGTGTCCCTGGAGTGTTACACAGTGCCTCCTGAAGACAACCTGGCCCTCCTTCAGCTCTACTTCCGGACCCTGGTTACTGGTGCGCTCCGC
CCACGTTGGTGCCCCGTGCTCTATGCTGTGGCTGTGGCTCATGTCAATAGCTTCATCTTCTCTCAGGACCCACAGAGCTCAGTAAGTTACATCTCCATCT
TCAGAGGAAGGAAGGGAGCTAGCAATTGAGCTGCCTCTGGGCCAGCTGGGGAAGAGGTAAGTGTCAAGCAAGGCCAGTGGTGGGTACCAGCCCTCGGCTC
AGTGCCACCTCTCCCTGTTCTGCTTCTAGGATGAGGTCAAAGCTGCCCGCAGGAGTATGCTGCAGAAAACATGGCTGCTGGCAGATGAGGTAGGGTCAGG
GCCATTAGGAGGGTGGGATATTAGAGGATCTTGGGGGACAGAGACCACAACAGGATCTCATTACCCACTTCATAAGTTTTCTTTCCTTTCTGCAGGGTCT
CCGGCAGCACCTCCTGCACTATAAGCTTCCCAATTCCACGCTCCCAGAGGGCTTTGAGCTCTATTCTCAGTTGCCCCCTCTGCGTCAGCACTACCTCCAG
AGACTGACTTCAACAGTGCTCCAAAATGGGGTATCAGAGACCTAGGATAGTTGATATAGATGGAAAGATGGGTACGTTGTCCTGTATCCAGCCTTTCAAC
AGATGTCTGGCCAGACGAAGAACATTGTGTCCTAATGGTAGGCAGGAGACCAAGGAGCAGAAGGCTTGCCTTCCTGGGAGCAGGTTGTTTGAGCTGTTTT
AGAGCAGTGAGCCCTACCATTACATCCTGATATCTGGGGCTTCTGAAGGTCTGTGCTGGGAGTGAAGAGTGGCTTAGCTATTTACCCGCTCTTTGGGGAC
AGGGCAAACTAAATGCATCCCTTCTTACCTAACTCCCAACCCCTGCCCTGGGCTGAGGCATATGAATGCTATAGTTGTGCATTAAAATAAATGTTTTTTA
TCTCCTGGAAATTTGATCTGGACTGATTTCAGCCATGTTAGTTCAGGGTTAGTATCTGGGGGTGGGTTATCCCAGGTGAGGAGCAGGACTGCTGTGAGAG
AGATGGGGAAGAATCATAAGTGGGAGGTAAAAACTTTGTCCACATCTGGAGACAACAAGAATGTGGGGCCTGCCAGGCACAGTGGTACACACCTGTAGTC
CCAACTACTTGGGAGGCTGAGGCAGGATGATCACTTGATTCCAGGAATTCAATTCCAGCCTAGCCAACATAGTGAGACCCCATGTCTGTCTGTCTGTCTG
TCGGTCGGTCTGTCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATTTCTGAGACAGGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAG
TGGCGTGATCATAGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGCCATTCTCCCACCTCAGCCTCCTGAGTGGCTGGGACCACAGGCAAGTGCCACCAC
GCCTGGCTAATTTTTTGTATTTGTAGAGACGGAGTTTCACCATGTTGCCCAGGTTGGTCTTGAATTCCTGAGCTCAAGCAATCCACCCACCTCAGACTCC
CAAAGTGCTAAGATTACAGGCATGAGCCGCTACACTTGGCCTATTTTGGTAGTTTCTACATTGTTCTTTGGTCTGAATTCTAAACTTTAGGCTTTCTTAG
ACTGTCTTTTGCTGTGTGGATTACTTATTGTGTTTGCAAGTAACCAGAGTCAGAGCAGTGTGCCAAGGCCTAGCCCTGTCAGTAGGTAGAGAGAACCCAG
TCTTCATAAATGGAGCTGCTGAACACAGAATTATCCAATAGGTTTTTTTGGGTTTTTTTTTTTTTTTTTTTGACACGAAGTCTTGCTCTGTTGCCCAGGC
TGGAGTGCAGTGGGGCAATCTCAGCTCACCACAACCTCCCCCTCCCTAGTTCAAGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGC
GTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCGAACTCCTGACCTCATGATCC
GCCCACCTCAGCCTTCAAAAGTGCTGGTATTACAGGCATGAGCCACTGGGCCCAGCCTTTTTTTCTTTTTTTTTTTTGAGACAGAGTCTTACTCTGTAGC
CCAAGCCAGAGTGTAGTGGCATGATCTTGGCTCACTGCAACCTCCGTTTCTGAGGCTCAAGTGATTCTCATGCCTCAGCCTCCCGAGTAGCAGGGGCTAC
AGGCATGCACCACCACACCCGGCTAGTTTTTTGTATTTTTATTAGAAGCGGTGTTTTGCCATGTTGCCCAGGGTGGTCTCAGACTCCTAAGCTCAGGCAA
TCCGCCCACCTCAGCCTCCTAAAGTGCTGGGATTATAAGTGTGAGCCACAGCATGTGGCCCCAATAGGTTTTATTAAGCAACTACTGTATCAGCAAATAC
CAATGATTCTCAAACTTTGTGACAAAAATCATCTGGAGGATATTTTAAAACAGATCACTGGGTCCTACCACCAGAAGCTGCTGATTCAGTACATCTGGGG
TGAAACCCAAGAATCTGCATTTCTAACAAGTTCCCAGGTAATACTGATGCTGATGTTCAGAACAAACCACACAACCACAATTTGAAGAGCAGTGGCTTAA
AGAGACTTTGCAAGGTAAATTCTGTGATCTCATAGTGTGATATCTAGTGTTAAGTAGGGCATAGAGACCAGGGTTTTTTTGTTTTTTGTTTTTTTTGAGA
TGGAGTCTCACTCTGTCACCCAGGCTGGAGTGTAGTGGTGCAATCTCGGCTCACTGCAACCTCTGCCTTCCAGGTTCAAGCAATTCTCTGCCTCAGCCTC
CCAAGTAGCTGGGATTACAGGCACCTGCCACCACGCACGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTAGCCAGGCTGGTCTTGAA
CTCCTGACCTTGTGATCCACCCCACCCCCACCGTCCCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTAAGCCACCACGCCTGGCTGAGACCAGACTT
TTTACAAAATCACTGTTCTGTTTACACCTTGAATTAGACTTTACCAAGTAGCTAACTACTATAACTTCTCTTTTGAAGTATTTTGTATTAAACATAGGTC
TCAGACTTTCAAGTTAGGATTTTTTTTTTTTTTTTTTTTTTGAGATGGGGCTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCGTCTCTG
CAACCTCTGCCTCCCAGGTTCAAGCCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGCGTGCGCTACCACGTGTGTCTGATTTTGTATTTT
TAGTAGAGACGGGATTTTGCCATGATGGTCTAGCTAGTCTCGAACTCCTGACCTCAGGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTAGGATTACAGG
CATGAACCACCGCACCCGGCAAATGATCATTTAAGCAAATGATCGAAGACTCAAGACACAAAACTACCTGAAGGGAGTGGCTCCCACATTTGTAGGGTAC
CTTACAGAGCAATTTCCCTTCATATGATTTTGCAGGTGGTGGGGAAACTCTCMGGGCAGTTGTGGCCTGTGCTACATCACCCATTGACCAGAGGTGCCAG
TACTAGTGCTCAAGATCAATYGATCGATCGGTCTACCTACCTATCATCTATTGACCTTCAGTGCTACTAAAAACACTCGGATCTTCTAACGTCTGGTCCA
GTCTTTCACCCCATCACAGTGAGAGGCTGTGCACAGGGGTAACACAGGCAACGGAATTATATGAGGCAAACACAGAGATCCAGGTTTCTGGGAGTAGCAA
TGAGGTTCAGCCTTGCAGTCACAAAGGCACCACTAAAAGGCACAAGTAATGGCAGGTAATGAGGCCTTACTTGGAGCAGTTTAGAGTACTTMCCACGTGT
GGTGACGCATGCCACACACTCACCACCACCACCACTGCCACAAATGAAGTGCACACTCCACTGCTCCTGTCCTCAGGAACCTGGAAGCCCCCACCTGGTG
TCCGAGGTGTGGCTCCCACTTTAAGCGTGGGGCACCTCCTCTCCGGCCTCAAACCTACCCGAGCTCCCAGCAGGCTGCGGCACATCTGACGGCTGGAAAC
TAGAACCCCTGGGTGGGGACTCCTTAAGGCTCCTCCCGGAAGCGTAGGGACCTCGCTGCCCACACGCCCCTCCCTTTCCTCCTCTGGCGTCCTGGGGTCT
GAGGTGGGCGTGGCCAGACCAGCTTTAGGTCCGGGGAGTGTCTCGCCAGCGGCAGCACACCCCTGTAAGTGGTGGCCAGRGCTGCCGTGGCAAAATGAGC
TGTCAACTTTAGGTTGACAGGGGTGTGGCCGCGACCGCAAGGGCTTTTGTTGCCGGGTGGACCCAACAGGGATGGGCTGCTGGGGACAGCTGCTGGTGTG
GTTCGGAGCCGCGGGTAAGTGCTATCTGGCGGTCAGGGGACCGTCCAGCCTGAGGCACTTTCCTAGGCTTGGGGGTGGCCGGTCAACAGGCCAGGTGTCA
GTGGTTCCTCCAGAGGCCTCGAACTCTCACAGCCAAATTTCTCCGGTCCGTGCTTCTGGAGTGCGGGCCGAGAAGCGCCAAGTGCGTGCGAATCCCAGAG
TCTGGATCACGCAGCTTGGGAAGGAGGAACATTCTTTGGGGTCTCAGCACCGCCTTGGGGCGGGGCCACCAATCTAAGTTGAGGAAAGCATTGGGGAGGC
TGCAGGACCAAATTCATTGCGGCCCCTAAGTTATTCACTGGGAAAGGCGCTCGAGGAGAGAAACTGGCAGACCTATCAGCGCGCACCCGCGGGGCTTCTG
CGACCGGAGTCGGGTAGTGGCTTCCAGGCTGAGAGCGCGGCTGGGCCGGGTGACGGGTGTGGCCGCGACCGCAAGGGCAGCTGTTGCGGGGTTCTCTCTT
TCTTTCATATCCTATTTCCACCCGCCTTAACGTCCTGCGCCTTCTCCCAACACCTTTCAGGCGCCATTCTCTGCTCTAGCCCGGGGTCCCAGGAGACTTT
TCTGCGGTCCTCGCCCCTGCCGCTGGCAAGTCCCAGCCCCCRGGACCCGAAAGTCAGCGCCCCGCCTAGTATCTTGGAGCCAGCCTCCCCGCTGAATTCT
CCGGGTGAGCTTTAGACGCCTCCTTCCTCTTTCGCTCACCATACCAGACCCCTCTGGCCCAGCYAGGGGCTCGACGACCCTTGCCTCGCTCCTTGCTCTC
AGGCACCGAGGGGTCTTGGCTGTTTTCTACCTGCGGGGCCAGCGGCCGGCATGGGCCCACACAGACACAATGTGACGGGGCGTACGCGGGGACCAGCGTG
GTGGTGACCGTGGGGGCCGCCGGGCAGCTGAGAGGCGTGCAGCTGTGGCGCGTGCCGGGCCCTGGCCAGTATCTGTAAGTGCACGGCGGAGGTAGGGTGG
ACAGTGACCTGCTAGTTGGAGGTTTCACCCTCAGGGTAACGAAGTCCACGTGCGCACCGACTTGCGTCTTGGACTATTCCGSGGGGAGGTCCACCTTGAG
TGCCCTTCAAGGTGGCAGTAGTCGCCACCGAGTTAGCCSTTACCCGGAACCTCTTACACCGAGCGGAAGGCCCCCAACCAGGGCRGCGCCAAGGGGTGCT
TGAGCCTCCCCACATTTCCACGAACCCTCCTGAAATAAGTGTAATATCTGATTTTTCGGTGTGCAAACCTACCCTTCCCATCCCGTCAGAGTCGATTGCA
GCCTCCAAGTCCCTCAGATAAAAAATAATTCTGGAGCCTCCTCTGTCGCCAACTTCTGCCCGGAGCGGCCGGCCTGAGCACCGAAGGCCGGGGACTCACC
GTCCGTTCCCCGCAGGATCTCAGCCTACGGAGCCGCGGGCGGCAAAGGCGCCAAGAACCACCTGTCGCGGGCGCATGGCGTCTTCGTCTCAGCAATCTTC
TCCCTCGGTCTCGGGGAGTCGCTGTACATCCTGGTGGGGCAGCAGGGAGAGGACGCCTGTCCCGGAGTGAGCGCAGCCAGTGGGGATGGGSCGGCGCCGG
CGCCGGGGGCGAGGGCTGCCTGGGGGCCGGGGGAGCGTGCTTTCCTCGGTGCCGGGTCACCAGCACAGCGAGGGGAGGCTCCCGGGCCCCGCCGATTCCC
TCCCCCGCTGCCCGCAGGGTAGCCCGGAGAGCCAGCTCGTCTGCCTCGGGGAGTCTCGAGCCGTTGAAGAGCACGCGGCGATGGATGGGAGCGAAGGGGT
CCCGGGGTCGCGGCGCTGGGCGGGAGGTGGCGGGGGTGGCGGGGGCGCCACCTACGTTTTCCGGGTACGTGCTCCCTTCGGCGCTCAGCGTTGGGGTCCC
AATCCTCTCCCCAGGGGCGCTCACGCACCGGCTCTCCGTCCGTCCCTTGGGGTCCCCCTATCCYYGCGCTGGGCTGGGCTGGCCTGGGCTGGGCTGGGGG
CCCCTGCCCTTATCCAGGCCCCCTGGGCGGGAGCCCTCTCCCAGTGGCAGTGCCCCTGGACAGCTGGAGGGCGCTTCCTGGAMCACGCCGCTGGCCCCAC
AGGTGCGCGCTGGCGAGCTGGAACYGTTGCTGGTGGCGGCCGGAGGCGGCGGTCGGGCCTACCTGAGGCCGCRGGACCGAGGCCGGACTCAGGCCTCCCC
CGAGAAACTGGAGAACCGCTCGGAGGCGCCCGGGAGCGGCGGGAGAGGCGGGGCGGCAGGTGAGGGCGCGGGCCGCGGGGAGAGGCGGGCGTGCTCCCCG
TGTGGCTGCCAACCTTCCTGCTGTCGCTCTGCAGGTGGTGGGGGCGGCTGGACGTCGCGGGCTCCCTCTCCGCAGGCCGGCCGCTCACTGCAGGAGGGGG
CGGAGGGCGGCCAGGGCTGCTCCGAGGCTTGGGCGACCCTTGGCTGGGCCGCGGCCGGCGGCTTCGGGGGCGGCGGCGGGGCCTGCACTGCGGGCGGAGG
CGGCGGCGGCTACAGGGGTAGGTGCACCGTTGGAGAGGGCAGCTGAGCAGGCCCGAGGGTGAGGTGATGTTAGAACCTAAGTACAGGCCGGAGCCCTCGG
GAGGATAGGTGTGGGAGAGGCATTAAGCCCTGCTCAGCAGCTCCAAACAAAAAGCAGGAGCTCTTAGAAAAGGAGGTCAAATACACTGCAAATCAGCATG
CAGACAGGACTCCCTAGATTTCCGTTTAATCCAGGATCTTTCCCATCACAGCAGGTCCCTGCCTTGTTCTGCAGCAGTCTTCAGAACTTAGAGCTGGCCG
AGTGAGCAAGCTGAGCAAAGGGGCAGAAAGGCAGGATTGGGTTAAGTCAGTGGTTCTCAAAGTGTGGTCCAGGAACAGGTAATATCCCCACAACCTAAGT
TGTTCGAAATGCACATTATCAGCTGGGCCTGGTGGCTCACGCCTGTAATTCTAGCACTCTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCACCAGTTC
GAGACCAGTCTGGCCAACCTGTGAAACCCTGTCTGTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGGGAGCCTGTAATCCCAGCTACTCTGGAGG
CTGAGGCAGGAGAATTGCTTGWACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACTCCATTGCACTTCAGCCTGGGCGACGAGGGAAATTCTGTCTC
AAAGATTAAAAAAAAAACAATGGAAATTATCCTGGGAGTTGGGGGAAGGTTGGGGAGATGCTGGTCAAAACAATGCAAAATGGCAGTTAAATAGGAGGAA
TACCTTCCAGAATCTACTGTACTACATGGTGACTGTAGTTAATGACGATGTATTCTTGAAAATYGCTAAGAGAGGCGGGGCGCGGTGGCTCACGCCTGTA
ATCTCAACACTTTGGGCGGCGGAGGCGGGTGGATCTTGAGGTCAGGAGTTTGAGGCCAGCCTGGCCAATATGGTGAAACCCCCATCTGTACTAAAAATAC
AAAAATTAGCCGGGCGTGGTGGCATATGCCTGTAGTCCCAGCTACTCGGGAAGCTGAGACAGGAAAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGA
GCCAAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAGAAAAGAAAATTGGTAAGAGCGTAGATTATAGGTGTT
CTTACCACAGAAAATAAGCATGTGAGGTGGTGTATATATTGGTTTGCATTAGCCATTGCACAGTGTGTACATATTTCAAAACATCATGCTGTATACAATA
AATATATGAATTTTTTTTTTAGATGGAGTCTGGCTCTGTTGCCCAGGCTGGAGTGCAGTAGTACAAATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTT
CAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCATGCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCA
CCATGTTGGTCAGGCTAGTCTCGGACTCCTGACCTCGTAATCCGCCCATGTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCTGGCC
CTGAATTTTTATTTTTAATTAAAAATTAATTTTTAAAAAGAAATGCGAATTCTCAGCCCTTCTCTAACATACTGAATCAGAAACTGTAAGGGAGAGTCCC
AGTCATCTGTGTTTTGATCAAATAACTAGTGTAAATGCCTTTGTGCCTGTCTGGGCTGTACTGCTCATACATACACACATGATCTACATTCTCACAGAAA
GGGACTGTGAGGACATGGGACAGGAGGGGCTCAGGCAGGCAGGAGGCATCCCAGCCAGCCTCAGMGAGGCCTTCARGCTCCAGCTGATTACCCCCTCCTC
ACCTCCTTCACTCCCACTTGTGAACAGACAGCATTTGCATCATGATGCTGGAGAAGAGAGGGCCACACTGGGATTTCCACCGGGAGATTCCAGCTTCTCC
CCCATCCCCCATTTTTGTAGTCAAACTCTCCATCACTCTCCACTTCCAGGGGGCGACGCTTCAGAGACTGACAACCTCTGGGCTGATGGGGAAGATGGAG
TATCCTTCATACACCCCAGCAGCGAGCTCTTCCTGCAGCCTCTGGCAGGTATTGGCCCCAACCCCACCTCTGAGCCTGGCCTGGACTTCTTCCGCAGTCC
CTGAGCCCACTCCTGCACTGCACTGAAGAGCCACCTGCACTGTGAATAACCTTGCATAGCACAGGATTCTTGCATAGCATAGGGTCATTTGAAAARTGGG
CTGTCATCATGCCATTGCACTCCAGCCTGGGCGACAAGAGCAAAACTCTGTCTTAAAAAAAAGGAAAGTGGGCTGCCAGTCGTGCTGGATGGCAATGCAG
GGCATGCTGCGTGCTTTTCAAGTACCCCCTTGCTATGAATTCGCTTCAAATACCTGGGAGTGTGCAGGCTTGACAGAAGTCCCCCAGCTTCTCTCACCAC
CCTTGTAAGCTTGGTGCTGCTCTTTGCTCTAAAGTCCTGGGCTAGAATTAACCATGTGGCTGGAAAAGGCATGTATTTATTTATTTATTTATTTATTTAT
TTATTTATTTATTTTTATTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGGGTCACTGCAACCTCCGCCTCCCGGG
TTCAAGTGATTCTGCAGCCTCAGTCGCTGGAGTAGCTGGGATTGCAGGCGTGCGCCACCACACCCGGCTAATTTKGTATTTTTAGTAGAGGCGGGGTTGG
CCAGGCTGGTCTTGAACTTCTGACCTCCGGTGATCCGCTCACCACGGCCTCCCAAAGTGCAATGATTATAGGCGTGTGCCACTGTACCCAGCCAAAGGCA
TGTATTTACTATATCCCAGCCCTACCACACCATATCATATCAGTTCTTTTACTCACAGTCACCGAGAACCACGGAGAGGTAGAGATCCGAAGGCACCTCA
ACTGCAGTCACTGCCCTTTGAGAGACTGCCAATGGCAGGCAGAGCTCCAGCTGGCTGAATGCCTGTGCCCAGAAGGCATGGAGCTAGCTGTGGATAACGT
CACCTGCATGGGTATGTCCTACCTTTGCCCAAGGTCTGGACTCCTGGGGTCACAGACTGGGAGGAGCAGTAGGCCACTGGGAAAGATGGTATAGAGATTT
GCTGTGTGCCAGGCCCTGTGGTGGGTGCTGGGCAGGGGATTGGAGATTCATCGGTGCACAGTGCCTTTCAGAGGCCTGTCGTCCAGTGTGGGAGGATGTT
TAGATATAGCTATGTAAATGTATATCTCAAGTGACGATTGTTGTGGGAGGTATAAAGTGCTTTAGGGGTGTTCAAGAGGGAGAGGTTGCTTTTGCCCAGG
ATAATGGGGGAAGGCATCATGGAAAAATTAACACTTGAGCTGAGTCTTGAAGCGTGGGTAAAACTTGAGGGTAAAGGAACAGAGAAGACCTTCCCACTGG
AGGTGTCTCTCTTTCTCCCTAGACCTGCACAAGCCCCCAGGCCCTCTGGTTCTGATGGTGGCTGTGGTGGCAACCTCAACACTGAGCCTCCTTATGGTGT
GTGGGGTCCTGATTCTGGGTACGAAGCGTCTAGCAGGCACAGTTGATTCAAGGCTGCTCCTCTCCARTGAGCTGGGATGGGTTTCTGCGGGGTCCCGGGG
CTGACTTCAAGACCACTCACCGCAGCAGAGCCGTGGTAGACTCCTCTGGGATTCTAAGATAGGAAGGAGCTGGGGAGGCCTGGGGAAAACGTTTACCTTA
ATGAGCATCTGGAGGGGTGTCCTGGGCAGGTGGGGGAGGGAGAGTTGATGGGCAGGTGGAGGGTGTGCCGTTATTCTTCCCACCCCCAGTGAAGCAGAAG
AAGTGGCAGGGCCTGCAGGAGATGAGGCTGCCGAGCCCTGAGCTTGAGCTGAGCAAGCTTCGAACCTCTGCCATCAGGACAGCCCCCAATCCCTATTATT
GCCAGGTGGGGCTTGGCCCGGCCCAGTCCTGGCCTCTGCCACCAGGTGTCACCGAGGTTTCCCCAGCCAATGTTACTCTGCTCAGGTAAGTCTTCTGCCT
CCTTCTGAGAACCTATGCACTCTGAATCCCCACCTCTGATTCTCTCCCTGCTGTAGTGAATTATAAGTCCCAGAAAAAATCTGGCCCACATCCCTTGTGT
AAGGGAGAGGGAGGCCCTGAGAAGCTCCAGAAGGGGAAGTAACTTGCTCAATGTCACCTCTCCGTCCCAGTTCTTAGAATATGATCTCTCAGCTGGGCRT
GGTGGCTCACACCTGTAATCCCAGAACTTTGGGAGGTCGAGGCAGGCAGGTCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCC
CATCTCTACTAAAAATACAAAATTAGCTGGGCATGGTGGCGCATGCCTGTAATCCCAGCTACGTGGGAGGCTGAGGCAGAAGAATCACTTGAACCTGGGA
GGCGGAGGTTGTGGTGAGCCGAGATTGCGCCATTGCACTCCAGCCAGGGCGACAGAGTGAGACTCTGTCTCAATAAAAAAARAATATGATCTGGCGCCTG
TAATCTCAGCACTTTSGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGGGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTGTCTACTAAAAA
CACAAAAAATAGCTGGGCGTTGTGGCGCTTGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCRGGAGAATCACTTGAACCCGAGAGGCAGAGGTTGCAG
TGAGCCGAGATCGCGCTATTGCACTCCAGCCTGCATGACAGAGTGAGACTTCGTTTAAAAAAGAAAAAAAATCATGACTCTTGGAGCCCAGGRATTGCCT
CCCGCCCAGGGCGTCTGCAGGGACCAGGGAAGTCCTCATCATGCACTCCCACCTTGACTCTGGCCCGCATCTGCCCTCTTTTTTGCCCTGGCTCTATGCC
AGTGAGCACCACCCTTGCAGGGCTTCTACCTGGGGACATGCCATGGTATGGAGAGAGTCTATATAGGGTCAGCTGGGCATATGGCAGGGGCAGGGGAGGT
AAAGGGGGTACTAGACTCTCTAGGACTCTTCTCCAGGCCGCCTGCCCACTCCCTTCCAACRTGTCTTCCTGCAGAGCCCTGGGCCATGGTGCCTTTGGGG
AGGTGTATGAGGGACTGGTAATTGGCCTTCCTGGGRACTCCAGTCCCCTGCAGGTAGCTATCAAGGTGAGAGGAGTGGGACTTCTGGCTGGGGGTAGGAG
AGCGGAACACCCTGAAGGGAAGGACAATGACTAGAGCTAGGGTTAACCCCCTCTCCTGAAGCGTGCAGGGCAGCTCAGAAACTGTGCCCTTTTCCTCCCC
AGACCCTGCCAGAACTCTGCTCGCCTCAGGATGAGCTGGATTTCCTCATGGAGGCCCTCATCATCAGGTGCACCTGGGACCAGGGGCAGGGCTGGAAGGC
GGGAGGGGAATGCCCGGGAACAGTTTCTCTTCACCCTGAGGCTGAGGTAGCAAGTCAGGGGACACAGAGGGCCTCTCCAGCTTTGTGGAGCCTAAAACAT
GGTTTCCGTCTCCCTCCTGGTAACGGGATATGTCCCCCACCYCACTCAGCAAGTTTCGCCATCAGAACATTGTGCGGTGTGTGGGGCTCAGCCTCAGGGC
CACCCCTCGCCTCATTCTGCTGGAACTGATGTCTGGAGGGGACATGAAGAGTTTCCTGAGGCACAGTCGGCCACACCTGGTGAGACCCTTGTCTTAGCCC
CCCCCAGGCCCCTCTAAAGACCCTGTCCATGTGTCTGAGACCTACATGGACTGATGCCCCCTCTGCCTGACCCAGGGCCAGCCATCACCTCTGGTCATGC
GGGACCTGCTGCAACTGGCCCAGGACATAGCCCAGGGCTGCCACTACCTGGAGGAAAATCACTTCATCCACAGGTTAGGAGCAGTCCTGGCTCAGGGGAC
CCCCATCCCAACTCCCTCCCCAAGGAACAGCCCTTCCACACAGCTTTTAAGGAAATAGATCAGGAAGAGCAAGAACTTCTAGRTTCTGGCAGTGATTTTT
TTTGCCTACTCTGTAGGGATATTGCCGCCCGGAACTGCCTGCTGAGCTGCGCTGGACCCAGCCGAGTGGCCAAGATTGGGGACTTTGGGATGGCACGAGA
TATCTACCGGTGCGGGACTTGGGAGGTGGGAAGGCTCTTGCTCCAAGGGGGTTTTCCCCGCACCTTGGTGGTGAACAACTCATCATTCACCTCCTCCCTC
CTGTAGGGCCAGTTATTACCGCAGGGGGGACCGGGCCTTGCTCCCAGTCAAGTGGATGCCCCCAGAGGCCTTCCTGGAGGGCATCTTCACATCCAAGACA
GATTCCTRGTGATAACACCCTTCCCCTCCCCTTCCCCACTGTTCCCCTCCCCTGAGGCTAATCCTGTCCTTTCCAGCMACCTCATGTGAGGGGAGGCTAC
ACCTGACGGGCCTCACTTGGTTCCCCCACTTGTGATGCAGGTCTTTTGGGGTGCTGCTCTGGGAGATCTTCTCACTGGGCTACATGCCCTATCCTGGGCG
CACCAACCAGGAGGTGCTGGACTTCGTCGTTGGAGGAGGCCGGATGGACCCTCCTAGGGGCTGCCCAGGGCCTGTGTGAGTTGAGTGCTGCCCGGGAAGG
GAGGTCCTTCACAACCATGGGTGGGCATGAACTCCTGCCTCTCCCCAGGTACCGCATCATGACCCAGTGTTGGCAGCACGAGCCTGAGCTCCGCCCTAGC
TTTGCCAGCATCTTGGAGCGTCTGCAGTACTGCACTCAGGTGTGCCCCCGACCTAATCTAACATCCTGGTCTTGTGGGTCWGGAGGGAGGGCCAGAAAAC
TCTATGCCCCCCTGCTCCCTGACTCTTCCATTACAGGACCCGGATGTGCTGAATTCACTCCTGCCAATGGAGCTGGGGCCCACCCCAGAGGAGGAAGGGA
CTTCTGGGCTGGGGAACAGATCTTTGGAGTGCCTAAGACCCCCACAGCCCCAGGAACTGAGTCCAGAGAAGTTGAAAAGCTGGGGAGGTAGCCCTCTTGG
CCCCTGGCTGTCCTCTGGCCTCAAGCCCCTCAAATCCAGGGGCCTCCAACCTCAGAACCTTTGGAATCCCACTTATCGCTCCTGAGCCCCAAGGGGCCCT
GAGGGTAAGGACTGAGGCACTGAGGGTCCCTCCCTATACTCCTCAGGCTCCTGGGTGGCCTGTTATGCCAGCGGCCTCTGTTCCCTGCAGTCTGTGCTGT
GTGTCTGGGCCTGTCTCGGGGCTGGCCTGGCAGCGCTGCACTTGCCATGCTGGAAACCAGCCCAGGCCTCCCAGGGAAGGGCCCAGCCACTTCCAGCTTT
TGATCTTGGGGCCAGAGGCCGCCTTACACACACCCCAGGTGTCCATGGGGAGCACTGGATTGCTCTCCCATTATGAGCRTCCTTCATCTGGGCAGACCCC
CCACCCTGCAGATGCTTCTAATAAAAAGCTCTTCTCATCCTCCAGCGATCTGTGGATGCCAGGGACCGGAACTGAGGAAGAGGGGGCCGGAGGAGGGAGG
GGCTGAGGCCTGAGGCACAGGAAGCTGCATCTTGTCTTTGAGTTTTATTAGGAAGGGGAGTCCGTCGTGGTGTGAGACGTTAGACCGGAAGGTCTGGGCT
TGCTAAATAAAATCCGCGGTCTGGCACCTCTGGAGAGGGCAGAGCCTCCTCAGAAGAGCTGGCCTGAGGAAGAAGCCCTTTGCCCCCTCCCCTTCTATAA
GTTAGTGTCATTTGGCTCTGGGAACGCTGGGGCCCGGGTGGGCAAAACCCCTGGCATCGGCGGTGCCCCCCCTTAGTGGCTGGCACCTGGTCCTGCAGGA
CCCGGTGAACTGCCCTGCACCGCGGGGCTCCAGTCTCAAGCCGGCATGCACAGTGGGGACAAAGCTGCAGGTCCACATGTCAGGTGAGCGGCCCGCGGGG
ACAGGAGTCCAGCCTCATCTCTCAGCCAGGCTGGCCAGGATGCCAATGAGATTGTCCAGCCCCAGCAAATAGCCGTCCTCGCGGTTGCCCTCCTCCCAGG
GCCGCCGGTGGTCCAGGATCTGGCCATCGGGGAGGGGCGTGGTCTTGCCGAAGTCGATGAGCCACACGCCGGCGCGATGGCAGTGATCGTGCACAAAGAG
GAGCGAGCTGCCGATCACCTGCGAGCCCCGCACCGTCAGGCCGCGGCCCTGCCCAGAGACGCCCTTGCCGGGTTCCCGCCCTAGCCCTCGCGGCCCGGGC
ACCCGGGCAGCCGCCGCTTACCTCGTGCCTCCTGAAGAACTCGGATACCTCCAGGGTGTCCCGGATCTGCTGCAGGCGGTTCAGATACCGCCTCTGCAGA
GGGTGGGGTGGGAGAGGAGGGCAAATTAACTAAACGCCAAATGAGCCCCTGCTAACGATGAGGAGCCGGGACCCACGCTGTGCTTGGCAAATGCCGCCAG
GAGGAGGACCCAGGGCCCCGCCCAGCGTGGCCCAGAAGGGAAGGAGCGTAGAGCAGTTGCGAGCCAGCGCGGTGAGGGCCATGGTGGGGACACAGCCGAG
GGCACTGGGCCAGATGACAGGGGCAGTCCTCGGCTTCAGGCTCCCCAACACCTCAGGGTTTGGGATCCCGCTCTCACCAGCACTTCCTCATCTCCTTGCA
CAAACTCTTCAAAGACGCGAAGCACCTGCTCTCGGCTTCGCGTAGTCTTGAAGTCGGTGCTGCAGGAGCCGTCCGCTTTCTGGATGTGGGACAGGAGTGT
CAGGGGCCCCGGGCCCGCCAGTGGGGAAGAGGACAGCGTAGAGCAGCGGTACCTCCCAGTTGCAGGGGACGGCGAGGCGGTGGGAGAGGGCGGAGGGGCA
GGCGGGGCGGGAGCGGGGGATCGGGAAAGACAGCGCGCAGTGGGGCTGCGGCGGTGCCAGCGAAGCGCGCCTGCCTCACCTTGATGCCCTCGATGCGGAA
GCCGAGGGTGGTGCTGGAGCTGATGCCTTCCCGCCACTGCATGTAGCGCGGCTTGGTGACGGCGCGCTGCGCGTGCTCCTCCTCCGTGGGAGCTTCAGGA
TCCACCGCCAGCATTTTCTTGTACATGTCCTTCCGCAGCTTGGGCCGCTCACGGGCCTTGGTCAGCTCCTCCTCTAGGTAAGTCCTGTGGGGGCGCAGGC
AGCGGCCAGGGCATGAGGGGGCGCACACGGAGACCCCTTCGAGCACTCGCCCCGGGTCCCCCTCAAGCAGCTGTCCCGGCCCCGGACCCCTACTTGATCC
CCCCAACCGACCTGGCAGGGCACGCATACCTGACGCCCATTTTGCAGTCGAGCACACAAGGTCCGTCGAAGCCATCGAGCAGGTCCTGCAGCTGCAGGTA
GCTTTCGCCGTCGCGCTCCACCACGCCGTGGAAGGCAGGCACGCAGCCGCGCAGCGCGTCAGCCATCAGCCGCGCCAGGCAGTAGCGCTCCGGCTCCGAG
CAGCGCTTCAGGATCAGCCCGCTGGTGCCCGCCGCCTTAAAACTCCCTGAGGACCGGCATCCGTCAGCGCCGCCCAGCCCCTTCCCGTCGCGGGCACCCG
CCCACCCGCCCCACTGCTCACCAGTGTGCCCTGCCAGCTGCACCCAGGCGTAGCGCTTCTTGAAAGGGCTTATGACCGGCAGATTGACCATGGTCCGGAT
CTTCTGCCAGTGGTTTTTCTGAAAGCGACAGGGTCAAGGTCTGATAATCGGCGTCTCGGCAATGCATAAGCCCTCCCTCCACTGAAACAGGGTCTCGCCA
CGCCCCCGACCCACCGGAAGCAGCTGGGGCTGGATGAGTCATTAATTCATTCATTCACTCTGGGAAGGTTTATTTGTGCGCCTGWGTGGCGGGTGCTGAT
ACAGGCGCAGTGAAGGTGATTCCAGCGTCTCCAGTGAGCTGTCAAGAGCCTGGACTTAGCATCTGAAGCCCCCGGTTTGCGCTCCAGCTCTGCCACTGAA
GAACGCGTGGGCAGGTTACGAAAATGCTCTGTCGAGGTTTTTGAACTGTTGTGAACATCGGAATTACCTGATGGTCACCCTTGTTAAAAATTGCAGATTA
TCAGGCCTACCGCAGGGATGTTCTAAGTTGGTCTAGAGTAGGGCCATTTTTTTTTTTTTTTTTTTTTTTTTCAGATGGAGTCTTGCTCTGTCACCCAGGC
TGGAGTGCAGTGGCGCGATCTGGCCTCACTGCAACCTCTACCTCCCGGGTTCAGGCGGTTCTCTTGTTTCAGCCTCCCGAGTAGCTGAGACTACAGGTGC
ACACCACTATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTGGTCAGGCTGGTCTCCAACTCCTGATCTCAGGTGTTCCACC
CACCTCAGCCTCCCAAACTGCTGGGATTACAGGTGTGAGCCACCAGGCCCGGCCCCCCAAATTTTTATTACTACCAATGCCTCAAAAGATTCCAGGGCCC
AAGAAACAAGCCTCTGTGCATCTGTAAGAAAAAGATCTATAAAATGAGGAAATAACTATCCTTACTGGGTTGCTGTGAGTAGTACATAAGGCTTAAGCAT
GATAGGCGCCCAGCTCCCCCATCCCATTCCATGGTATGAGGCAGAAGCTGAACAAATCTCAATCACTGATTCCTTCACTCAGGACCTTGGTTCCTCTCAT
TTAGGGAGACAGACATACACAGAAACAAACCTGTACACAGGCCCAGGGCAGGAAGGCCAGCCTGGCAGGGCCTGGAGAAAGAACAGGGCTGGAGAAAGAA
AAGGCTCTCCAAGCCTCTCTTGCTATCCCTGGATTCTATGCACTCATTAGCTGGCAAGGCCCAGGGCACCCTTGGTTTTTATCTGGACCTAGAAATCTTA
AGCCATGAAAATAAGATGCCGGGCTGGGCGAGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACTGAGGTGGGCGGATCACAAGGTCAAGAGATCA
AGACCATCCTAGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGACATGGTGGCATGCGCCTGTGGTCCCAGCTACTTGGGAGG
CTGAGGCAGGAGAATCGCTTGAATCTGGGAGGTGGAGGTTGCAGTGAGCTGTGATCGAGCCACTGCACTCTAGCCTGGCAGCAGAGTGAGACTCCGTCTC
AAAAAAAAGAAAAAGAAAGAAAATAAGGTGCAAACCTGAGGGCCTGTCAACTTAGACAAACCTGGGAAGGAGACGAGGGTTGTTTTTTGTTTTTTGTTTT
TTGTTTTTGTTTTTTTGGTGTGCCCCTTATCTCTTCTAGCCTCCAGCTAATCTTGAGAGCATCCCATCCTCTGGACCTCTCCTCTTACCACCCGCAACTY
GGCAGCCCTGTGTCCTCTCTGAAGTACACAGGTTGGCTCATGTCAACTGTGTCTGCCGCCTCCCCACAGAGGCACTTGCCTTTTAGCACAGTTACACATG
TTGTACCCCCAGAGGAATACACCTCCCTGACAAGAGGGAGTTCTAAGAGGGAGAGAGAGAACTGAGGAGGTGGCCTAAGTAGAAGAGGGCTGCTGACCAT
AAAGCCCTTTCCCATGGGGAGGAGATGGAAGTTATGGTAGAGCACTGGGTGGGAAGTCAGTAGTTGGTTCCAGTCATGGCTGTGTCACCTTCCAGCTGAG
TGAACCCAACCAAGTACTGCCATCTGTGTGGGCCTGTTTCCCCTGGGAGGACATAGCTGCTGCCGTAACACGAACCATCAAATGCTACCTGCCTATTGCA
TGTCAGGCACTTTCTCATCTTCCATCAGGCAGCATTGCTCCCACTTTCCTACTGAAGCCCTTACATGGCACACTAGGGTGTGATCACGTGCCCAATCCCC
AGGGATCTGGGGGTGTAGCCAGAAGCAGCCCACTAGAAGCATGACATCACTTTCAAAACTCCTTTTAAAATCTTTAAATACACACCAGGTTTGCATTCTG
CTGCATAATAAATCCAAGTTTTATTATAAAACTCACCACCTCCAAACCCTCAAGTAAAATTCCAGGAAGATGATGTATGTGCCATGTATATTCAGCAGCA
CCATCCTGTACCCCCTTCTCCCACACTCAGTTTGAGAGCCATAATGAATGCACATGCATAGCAAGTGCGTGAAGTGGTATCATTCCCATTTTACAGAAGG
AAATCAAGGGGAGTTACATCCCCTCATGCCCTGCCTCCAGCCTCCCAATCTCTGGCTGAAGCTATCAGCCCATCCTCCCTCCCCAAGTTCCAACTGCCCC
AGCAGGTTCCAAAGTATCCCCAGCAGGATGCTACCATCCTGCCTCCCTTTGGGGGTTAAATGGGATGTGGCCTGAGAAAGTGCTTTGTGCGTGGTGAAGT
GATGTGCAGCAATAAGGCAGTCTGAGTTTTGACTTCTGGGGAACACTGAGACCTGCCTGGGGGCCCTTCTCTACTGGATGGCCACCTTTGCCTTTATCCA
AAAGAATGAGTTTAATGGCTGTAGGGACCTGCTAGAAGAATTTAGGGGATAGTGGGACCAGAATGGACTTAGTGAAGAGGAAACTTGCCTTGGGTTAGGC
AGGGTGAGGGAACTGAACCATCCTTTTAGAACTGTGCAGAAACAGTGAGGAGGGCTGGCAGGTGGGCCTGGCAGAAGAGGATTTGATGTGTGTCTAAAAA
CCTGGGCTACTACCATTTGATTGATGGACCTGCTCCCAAGCAGGGGTAAAATGGTGTCATCACCTACTCTCTTGACCTTGGTTTTCTGCATCTCATAAGA
ATCAAGAGCAGCAGCAACTAAGGCCAGTCCTAGCTAGCAGGTTACAAAATACTTTTTTTTTTTTTTTTTTTTTGAGACAAGGTCTCACTCCCATTGTCCA
GGCTGGAGTCCAGTGGTGCGATCACAGCTAACTGCATCCTGGACTTCCAGGGTTCAGGTGATCCTCCCACCTCAGCCTCCAGAGTAGCTGGGACTACAGA
TGTGAGTCACCATGCCTGGTTGATTTTTTGTATTTTTGTATGTATGTATGTACATATTTATTTGAGTGGTGCGATCTCGGCTCACTGCTACCTCTGTCTT
CCAGGTTTGAGCGATTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGATTATAGGCGTGCACCACCAACGCCTGGCTAATTTTTATATTTTTAGTAGAGACG
GGGTTTCATCATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCTACCTGCCATGGCCTCCTAAAGTGCTGGGATTGCAAGTGTGAGCCACC
GTGACATTTTTTTTGTATTTTTAGTAGAGACAGGATTTTGCTATGTTGCCCAGGCTGGCCTCGAACTCCGGGGTTCAAGTGATCCTCCCGCCTTGGACTC
CCAAAGTGCTGGGATTACAAGTGTGAGCCACTGCTCCCAGCCTACAAAAGATTTTCATACCTATTATCTCATCTGAGTCCTCCGTCCTACCACCTGAGGT
TGCTATGACAGGATTTAGCCCCCCTGCCAGTAATGGGTATGG


SNP Information

Context             (SEQ ID NO:51379):
AGCCTGAGCTCCGCCCTAGCTTTGCCAGCATCTTGGAGCGTCTGCAGTACTGCACTCAGGTGTGCCCCCGACCTAATCTAACATCCTGGTCTTGTGGGTC
W
GGAGGGAGGGCCAGAAAACTCTATGCCCCCCTGCTCCCTGACTCTTCCATTACAGGACCCGGATGTGCTGAATTCACTCCTGCCAATGGAGCTGGGGCCC
Celera SNP ID:            hCV2758477
SNP Position Genomic:     15581
SNP Source:               Applera
Population(Allele,Count): african american(A,30|T,6)   caucasian(A,33|T,5)   total(A,63|T,11)   
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,32|T,6)   caucasian(A,34|T,6)   total(A,66|T,12)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,16)      total(A,16|T,3) ;no_pop(T,-|A,-)   SC_12_A(T,0|A,23)   SC_12_C(T,5|A,18)   SC_12_AA(T,3|A,21)   total(A,62|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51380):
AGGGCATCTTCACATCCAAGACAGATTCCTGGTGATAACACCCTTCCCCTCCCCTTCCCCACTGTTCCCCTCCCCTGAGGCTAATCCTGTCCTTTCCAGC
M
ACCTCATGTGAGGGGAGGCTACACCTGACGGGCCTCACTTGGTTCCCCCACTTGTGATGCAGGTCTTTTGGGGTGCTGCTCTGGGAGATCTTCTCACTGG
Celera SNP ID:            hCV2758478
SNP Position Genomic:     15178
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,32)   caucasian(A,9|C,27)   total(A,13|C,59)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,32)   caucasian(A,7|C,29)   total(A,11|C,61)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|C,10)      total(A,6|C,10) ;no_pop(C,-|A,-)   SC_12_A(A,0|C,23)   SC_12_C(A,1|C,22)   SC_12_AA(A,1|C,22)   SC_95_C(A,29|C,152)   total(A,31|C,219) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51381):
AGTCCTGGCTCAGGGGACCCCCATCCCAACTCCCTCCCCAAGGAACAGCCCTTCCACACAGCTTTTAAGGAAATAGATCAGGAAGAGCAAGAACTTCTAG
R
TTCTGGCAGTGATTTTTTTTGCCTACTCTGTAGGGATATTGCCGCCCGGAACTGCCTGCTGAGCTGCGCTGGACCCAGCCGAGTGGCCAAGATTGGGGAC
Celera SNP ID:            hCV2758479
SNP Position Genomic:     14783
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,34|G,4)   total(A,72|G,4)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;JBIC-allele(A,320|G,421)   total(G,421|A,320)
SNP Type:                 INTRON


Context             (SEQ ID NO:51382):
GAGTAGCAATGAGGTTCAGCCTTGCAGTCACAAAGGCACCACTAAAAGGCACAAGTAATGGCAGGTAATGAGGCCTTACTTGGAGCAGTTTAGAGTACTT
M
CCACGTGTGGTGACGCATGCCACACACTCACCACCACCACCACTGCCACAAATGAAGTGCACACTCCACTGCTCCTGTCCTCAGGAACCTGGAAGCCCCC
Celera SNP ID:            hCV2758495
SNP Position Genomic:     5692
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 TFBS


Context             (SEQ ID NO:51383):
AGCAATCTTCTCCCTCGGTCTCGGGGAGTCGCTGTACATCCTGGTGGGGCAGCAGGGAGAGGACGCCTGTCCCGGAGTGAGCGCAGCCAGTGGGGATGGG
S
CGGCGCCGGCGCCGGGGGCGAGGGCTGCCTGGGGGCCGGGGGAGCGTGCTTTCCTCGGTGCCGGGTCACCAGCACAGCGAGGGGAGGCTCCCGGGCCCCG
Celera SNP ID:            hCV12067753
SNP Position Genomic:     7791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:51384):
AGTCCCTGAGCCCACTCCTGCACTGCACTGAAGAGCCACCTGCACTGTGAATAACCTTGCATAGCACAGGATTCTTGCATAGCATAGGGTCATTTGAAAA
R
TGGGCTGTCATCATGCCATTGCACTCCAGCCTGGGCGACAAGAGCAAAACTCTGTCTTAAAAAAAAGGAAAGTGGGCTGCCAGTCGTGCTGGATGGCAAT
Celera SNP ID:            hCV2345632
SNP Position Genomic:     10996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51385):
CTGAGGTAGCAAGTCAGGGGACACAGAGGGCCTCTCCAGCTTTGTGGAGCCTAAAACATGGTTTCCGTCTCCCTCCTGGTAACGGGATATGTCCCCCACC
Y
CACTCAGCAAGTTTCGCCATCAGAACATTGTGCGGTGTGTGGGGCTCAGCCTCAGGGCCACCCCTCGCCTCATTCTGCTGGAACTGATGTCTGGAGGGGA
Celera SNP ID:            hCV25623505
SNP Position Genomic:     14342
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,37|T,1)   total(C,69|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51386):
CACGGCGGAGGTAGGGTGGACAGTGACCTGCTAGTTGGAGGTTTCACCCTCAGGGTAACGAAGTCCACGTGCGCACCGACTTGCGTCTTGGACTATTCCG
S
GGGGAGGTCCACCTTGAGTGCCCTTCAAGGTGGCAGTAGTCGCCACCGAGTTAGCCCTTACCCGGAACCTCTTACACCGAGCGGAAGGCCCCCAACCAGG
Celera SNP ID:            hCV2345633
SNP Position Genomic:     7282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51387):
GGCCGCCTGCCCACTCCCTTCCAACGTGTCTTCCTGCAGAGCCCTGGGCCATGGTGCCTTTGGGGAGGTGTATGAGGGACTGGTAATTGGCCTTCCTGGG
R
ACTCCAGTCCCCTGCAGGTAGCTATCAAGGTGAGAGGAGTGGGACTTCTGGCTGGGGGTAGGAGAGCGGAACACCCTGAAGGGAAGGACAATGACTAGAG
Celera SNP ID:            hCV25623506
SNP Position Genomic:     13936
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,4|G,36)   total(A,5|G,73)
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:51388):
CCTCGCCTCATTCTGCTGGAACTGATGTCTGGAGGGGACATGAAGAGTTTCCTGAGGCACAGTCGGCCACACCTGGTGAGACCCTTGTCTTAGCCCCCCC
C
AGGCCCCTCTAAAGACCCTGTCCATGTGTCTGAGACCTACATGGACTGATGCCCCCTCTGCCTGACCCAGGGCCAGCCATCACCTCTGGTCATGCGGGAC
Celera SNP ID:            hCV26633678
SNP Position Genomic:     14505
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,10)   total(C,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51389):
AAACAGGGTCTCGCCACGCCCCCGACCCACCGGAAGCAGCTGGGGCTGGATGAGTCATTAATTCATTCATTCACTCTGGGAAGGTTTATTTGTGCGCCTG
W
GTGGCGGGTGCTGATACAGGCGCAGTGAAGGTGATTCCAGCGTCTCCAGTGAGCTGTCAAGAGCCTGGACTTAGCATCTGAAGCCCCCGGTTTGCGCTCC
Celera SNP ID:            hCV8793971
SNP Position Genomic:     18585
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(A,4|T,12)   SC_12_C(A,5|T,16)   total(A,9|T,28) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51390):
CCTGGCCAACATGGTGAAACCCTGTGTCTACTAAAAACACAAAAAATAGCTGGGCGTTGTGGCGCTTGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGC
R
GGAGAATCACTTGAACCCGAGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGCTATTGCACTCCAGCCTGCATGACAGAGTGAGACTTCGTTTAAAAAAGA
Celera SNP ID:            hCV26633679
SNP Position Genomic:     13464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51391):
CATATGATTTTGCAGGTGGTGGGGAAACTCTCAGGGCAGTTGTGGCCTGTGCTACATCACCCATTGACCAGAGGTGCCAGTACTAGTGCTCAAGATCAAT
Y
GATCGATCGGTCTACCTACCTATCATCTATTGACCTTCAGTGCTACTAAAAACACTCGGATCTTCTAACGTCTGGTCCAGTCTTTCACCCCATCACAGTG
Celera SNP ID:            hCV11305248
SNP Position Genomic:     5421
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;JBIC-allele(T,350|C,1143)   total(C,1143|T,350)
SNP Type:                 TFBS


Context             (SEQ ID NO:51392):
TTCTCCCAACACCTTTCAGGCGCCATTCTCTGCTCTAGCCCGGGGTCCCAGGAGACTTTTCTGCGGTCCTCGCCCCTGCCGCTGGCAAGTCCCAGCCCCC
R
GGACCCGAAAGTCAGCGCCCCGCCTAGTATCTTGGAGCCAGCCTCCCCGCTGAATTCTCCGGGTGAGCTTTAGACGCCTCCTTCCTCTTTCGCTCACCAT
Celera SNP ID:            hCV11305249
SNP Position Genomic:     6842
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(A,3|G,37)   total(A,7|G,71)   
SNP Type:                 MISSENSE MUTATION;INTRON;UTR 5;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(A,3|G,35)   total(A,6|G,66)
SNP Type:                 MISSENSE MUTATION;INTRON;UTR 5;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,371|G,1130)   total(G,1130|A,371) 
SNP Type:                 MISSENSE MUTATION;INTRON;UTR 5;hmCS


Context             (SEQ ID NO:51393):
GGTTGCAGTGAGCCGAGATCGCGCTATTGCACTCCAGCCTGCATGACAGAGTGAGACTTCGTTTAAAAAAGAAAAAAAATCATGACTCTTGGAGCCCAGG
R
ATTGCCTCCCGCCCAGGGCGTCTGCAGGGACCAGGGAAGTCCTCATCATGCACTCCCACCTTGACTCTGGCCCGCATCTGCCCTCTTTTTTGCCCTGGCT
Celera SNP ID:            hCV2758481
SNP Position Genomic:     13593
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51394):
GGTACGTGCTCCCTTCGGCGCTCAGCGTTGGGGTCCCAATCCTCTCCCCAGGGGCGCTCACGCACCGGCTCTCCGTCCGTCCCTTGGGGTCCCCCTATCC
Y
TGCGCTGGGCTGGGCTGGCCTGGGCTGGGCTGGGGGCCCCTGCCCTTATCCAGGCCCCCTGGGCGGGAGCCCTCTCCCAGTGGCAGTGCCCCTGGACAGC
Celera SNP ID:            hCV25474411
SNP Position Genomic:     8164
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,5)   caucasian(C,6|T,2)   total(C,7|T,7)
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:51395):
GTGGCAACCTCAACACTGAGCCTCCTTATGGTGTGTGGGGTCCTGATTCTGGGTACGAAGCGTCTAGCAGGCACAGTTGATTCAAGGCTGCTCCTCTCCA
R
TGAGCTGGGATGGGTTTCTGCGGGGTCCCGGGGCTGACTTCAAGACCACTCACCGCAGCAGAGCCGTGGTAGACTCCTCTGGGATTCTAAGATAGGAAGG
Celera SNP ID:            hCV2758484
SNP Position Genomic:     12367
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;DONOR SPLICE SITE;UTR 5;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:51396):
TTTGTTTTTGTTTTTTTGGTGTGCCCCTTATCTCTTCTAGCCTCCAGCTAATCTTGAGAGCATCCCATCCTCTGGACCTCTCCTCTTACCACCCGCAACT
Y
GGCAGCCCTGTGTCCTCTCTGAAGTACACAGGTTGGCTCATGTCAACTGTGTCTGCCGCCTCCCCACAGAGGCACTTGCCTTTTAGCACAGTTACACATG
Celera SNP ID:            hCV2758395
SNP Position Genomic:     20100
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,17)   total(C,17|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51397):
GCTTCCTGGAACACGCCGCTGGCCCCACAGGTGCGCGCTGGCGAGCTGGAACCGTTGCTGGTGGCGGCCGGAGGCGGCGGTCGGGCCTACCTGAGGCCGC
R
GGACCGAGGCCGGACTCAGGCCTCCCCCGAGAAACTGGAGAACCGCTCGGAGGCGCCCGGGAGCGGCGGGAGAGGCGGGGCGGCAGGTGAGGGCGCGGGC
Celera SNP ID:            hCV25623494
SNP Position Genomic:     8373
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,2|G,32)   total(A,2|G,64)
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:51398):
GGGCGGGAGCCCTCTCCCAGTGGCAGTGCCCCTGGACAGCTGGAGGGCGCTTCCTGGAACACGCCGCTGGCCCCACAGGTGCGCGCTGGCGAGCTGGAAC
Y
GTTGCTGGTGGCGGCCGGAGGCGGCGGTCGGGCCTACCTGAGGCCGCGGGACCGAGGCCGGACTCAGGCCTCCCCCGAGAAACTGGAGAACCGCTCGGAG
Celera SNP ID:            hCV25623495
SNP Position Genomic:     8325
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,33|T,1)   total(C,64|T,2)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:51399):
CCTGGGCTGGGCTGGGGGCCCCTGCCCTTATCCAGGCCCCCTGGGCGGGAGCCCTCTCCCAGTGGCAGTGCCCCTGGACAGCTGGAGGGCGCTTCCTGGA
M
CACGCCGCTGGCCCCACAGGTGCGCGCTGGCGAGCTGGAACCGTTGCTGGTGGCGGCCGGAGGCGGCGGTCGGGCCTACCTGAGGCCGCGGGACCGAGGC
Celera SNP ID:            hCV25623496
SNP Position Genomic:     8283
SNP Source:               Applera
Population(Allele,Count): african american(A,25|C,3)   caucasian(A,34)   total(A,59|C,3)
SNP Type:                 INTRON;UTR 5;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:51400):
CACATGATCTACATTCTCACAGAAAGGGACTGTGAGGACATGGGACAGGAGGGGCTCAGGCAGGCAGGAGGCATCCCAGCCAGCCTCAGCGAGGCCTTCA
R
GCTCCAGCTGATTACCCCCTCCTCACCTCCTTCACTCCCACTTGTGAACAGACAGCATTTGCATCATGATGCTGGAGAAGAGAGGGCCACACTGGGATTT
Celera SNP ID:            hCV12067761
SNP Position Genomic:     10576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51401):
TCATACATACACACATGATCTACATTCTCACAGAAAGGGACTGTGAGGACATGGGACAGGAGGGGCTCAGGCAGGCAGGAGGCATCCCAGCCAGCCTCAG
M
GAGGCCTTCAGGCTCCAGCTGATTACCCCCTCCTCACCTCCTTCACTCCCACTTGTGAACAGACAGCATTTGCATCATGATGCTGGAGAAGAGAGGGCCA
Celera SNP ID:            hCV2758487
SNP Position Genomic:     10565
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,11)      total(A,2|C,11) ;JBIC-allele(A,176|C,913)   total(A,176|C,913)
SNP Type:                 INTRON


Context             (SEQ ID NO:51402):
TCCTCTGGCGTCCTGGGGTCTGAGGTGGGCGTGGCCAGACCAGCTTTAGGTCCGGGGAGTGTCTCGCCAGCGGCAGCACACCCCTGTAAGTGGTGGCCAG
R
GCTGCCGTGGCAAAATGAGCTGTCAACTTTAGGTTGACAGGGGTGTGGCCGCGACCGCAAGGGCTTTTGTTGCCGGGTGGACCCAACAGGGATGGGCTGC
Celera SNP ID:            hCV25623497
SNP Position Genomic:     6080
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 UTR 5


Context             (SEQ ID NO:51403):
GTCAAAACAATGCAAAATGGCAGTTAAATAGGAGGAATACCTTCCAGAATCTACTGTACTACATGGTGACTGTAGTTAATGACGATGTATTCTTGAAAAT
Y
GCTAAGAGAGGCGGGGCGCGGTGGCTCACGCCTGTAATCTCAACACTTTGGGCGGCGGAGGCGGGTGGATCTTGAGGTCAGGAGTTTGAGGCCAGCCTGG
Celera SNP ID:            hCV2758488
SNP Position Genomic:     9564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51404):
GGTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTGCAGCCTCAGTCGCTGGAGTAGCTGGGATTGCAGGCGTGCGCCACCACACCCGGCTAATTT
K
GTATTTTTAGTAGAGGCGGGGTTGGCCAGGCTGGTCTTGAACTTCTGACCTCCGGTGATCCGCTCACCACGGCCTCCCAAAGTGCAATGATTATAGGCGT
Celera SNP ID:            hCV27484880
SNP Position Genomic:     11475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51405):
GAGCCGAGATTGCGCCATTGCACTCCAGCCAGGGCGACAGAGTGAGACTCTGTCTCAATAAAAAAAGAATATGATCTGGCGCCTGTAATCTCAGCACTTT
S
GGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGGGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTGTCTACTAAAAACACAAAAAATAGCTGG
Celera SNP ID:            hCV26633680
SNP Position Genomic:     13316
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,13)      total(G,13|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51406):
GAATCACTTGAACCTGGGAGGCGGAGGTTGTGGTGAGCCGAGATTGCGCCATTGCACTCCAGCCAGGGCGACAGAGTGAGACTCTGTCTCAATAAAAAAA
R
AATATGATCTGGCGCCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGGGTTCGAGACCAGCCTGGCCAACATGGTGAAA
Celera SNP ID:            hCV26633681
SNP Position Genomic:     13282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51407):
GTAAGGGAGAGGGAGGCCCTGAGAAGCTCCAGAAGGGGAAGTAACTTGCTCAATGTCACCTCTCCGTCCCAGTTCTTAGAATATGATCTCTCAGCTGGGC
R
TGGTGGCTCACACCTGTAATCCCAGAACTTTGGGAGGTCGAGGCAGGCAGGTCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACC
Celera SNP ID:            hCV26633682
SNP Position Genomic:     12999
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,11)      total(G,11|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51408):
GACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGGGTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTGCAGCCTCAGT
C
GCTGGAGTAGCTGGGATTGCAGGCGTGCGCCACCACACCCGGCTAATTTTGTATTTTTAGTAGAGGCGGGGTTGGCCAGGCTGGTCTTGAACTTCTGACC
Celera SNP ID:            hCV26633683
SNP Position Genomic:     11425
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,9)   total(C,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51409):
AGTCCCCCAGCTTCTCTCACCACCCTTGTAAGCTTGGTGCTGCTCTTTGCTCTAAAGTCCTGGGCTAGAATTAACCATGTGGCTGGAAAAGGCATGTATT
T
ATTTATTTATTTATTTATTTATTTATTTATTTATTTTTATTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGGGTC
Celera SNP ID:            hCV26633684
SNP Position Genomic:     11278
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51410):
AAGTCCCCCAGCTTCTCTCACCACCCTTGTAAGCTTGGTGCTGCTCTTTGCTCTAAAGTCCTGGGCTAGAATTAACCATGTGGCTGGAAAAGGCATGTAT
T
TATTTATTTATTTATTTATTTATTTATTTATTTATTTTTATTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGGGT
Celera SNP ID:            hCV26633685
SNP Position Genomic:     11277
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51411):
ACGAAGTCCACGTGCGCACCGACTTGCGTCTTGGACTATTCCGCGGGGAGGTCCACCTTGAGTGCCCTTCAAGGTGGCAGTAGTCGCCACCGAGTTAGCC
S
TTACCCGGAACCTCTTACACCGAGCGGAAGGCCCCCAACCAGGGCGGCGCCAAGGGGTGCTTGAGCCTCCCCACATTTCCACGAACCCTCCTGAAATAAG
Celera SNP ID:            hCV27963001
SNP Position Genomic:     7339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51412):
AGAAGTCCCCCAGCTTCTCTCACCACCCTTGTAAGCTTGGTGCTGCTCTTTGCTCTAAAGTCCTGGGCTAGAATTAACCATGTGGCTGGAAAAGGCATGT
A
TTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTATTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGG
Celera SNP ID:            hCV26633686
SNP Position Genomic:     11275
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51413):
ACAGAAGTCCCCCAGCTTCTCTCACCACCCTTGTAAGCTTGGTGCTGCTCTTTGCTCTAAAGTCCTGGGCTAGAATTAACCATGTGGCTGGAAAAGGCAT
G
TATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTATTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTT
Celera SNP ID:            hCV26633687
SNP Position Genomic:     11273
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51414):
TGAAACCCTGTCTGTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGGGAGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATTGCTTG
W
ACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACTCCATTGCACTTCAGCCTGGGCGACGAGGGAAATTCTGTCTCAAAGATTAAAAAAAAAACAATG
Celera SNP ID:            hCV26633688
SNP Position Genomic:     9322
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,10)      total(A,10|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51415):
ATATAGGGTCAGCTGGGCATATGGCAGGGGCAGGGGAGGTAAAGGGGGTACTAGACTCTCTAGGACTCTTCTCCAGGCCGCCTGCCCACTCCCTTCCAAC
R
TGTCTTCCTGCAGAGCCCTGGGCCATGGTGCCTTTGGGGAGGTGTATGAGGGACTGGTAATTGGCCTTCCTGGGGACTCCAGTCCCCTGCAGGTAGCTAT
Celera SNP ID:            hCV8793980
SNP Position Genomic:     13861
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,26)   caucasian(G,40)   total(A,6|G,66)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,16)      total(G,16|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51416):
GCCAGTTATTACCGCAGGGGGGACCGGGCCTTGCTCCCAGTCAAGTGGATGCCCCCAGAGGCCTTCCTGGAGGGCATCTTCACATCCAAGACAGATTCCT
R
GTGATAACACCCTTCCCCTCCCCTTCCCCACTGTTCCCCTCCCCTGAGGCTAATCCTGTCCTTTCCAGCCACCTCATGTGAGGGGAGGCTACACCTGACG
Celera SNP ID:            hCV15966045
SNP Position Genomic:     15108
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,7|G,1490)   total(G,1490|A,7) 
SNP Type:                 NONSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:51417):
GGGCCCAGCCACTTCCAGCTTTTGATCTTGGGGCCAGAGGCCGCCTTACACACACCCCAGGTGTCCATGGGGAGCACTGGATTGCTCTCCCATTATGAGC
R
TCCTTCATCTGGGCAGACCCCCCACCCTGCAGATGCTTCTAATAAAAAGCTCTTCTCATCCTCCAGCGATCTGTGGATGCCAGGGACCGGAACTGAGGAA
Celera SNP ID:            hCV2345629
SNP Position Genomic:     16179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51418):
GTACGTGCTCCCTTCGGCGCTCAGCGTTGGGGTCCCAATCCTCTCCCCAGGGGCGCTCACGCACCGGCTCTCCGTCCGTCCCTTGGGGTCCCCCTATCCC
Y
GCGCTGGGCTGGGCTGGCCTGGGCTGGGCTGGGGGCCCCTGCCCTTATCCAGGCCCCCTGGGCGGGAGCCCTCTCCCAGTGGCAGTGCCCCTGGACAGCT
Celera SNP ID:            hCV11305252
SNP Position Genomic:     8165
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,12)      total(C,3|T,12) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:51419):
AAGACACAAAACTACCTGAAGGGAGTGGCTCCCACATTTGTAGGGTACCTTACAGAGCAATTTCCCTTCATATGATTTTGCAGGTGGTGGGGAAACTCTC
M
GGGCAGTTGTGGCCTGTGCTACATCACCCATTGACCAGAGGTGCCAGTACTAGTGCTCAAGATCAATCGATCGATCGGTCTACCTACCTATCATCTATTG
Celera SNP ID:            hCV27475721
SNP Position Genomic:     5353
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,476|A,1007)   total(A,1007|C,476) 
SNP Type:                 TFBS


Context             (SEQ ID NO:51420):
GGAGGTCCACCTTGAGTGCCCTTCAAGGTGGCAGTAGTCGCCACCGAGTTAGCCCTTACCCGGAACCTCTTACACCGAGCGGAAGGCCCCCAACCAGGGC
R
GCGCCAAGGGGTGCTTGAGCCTCCCCACATTTCCACGAACCCTCCTGAAATAAGTGTAATATCTGATTTTTCGGTGTGCAAACCTACCCTTCCCATCCCG
Celera SNP ID:            hCV2758491
SNP Position Genomic:     7385
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   SG_12_A(A,7|G,14)   SG_12_G(A,9|G,12)   SG_12_AA(G,9|A,12)   SG_95_G(A,81|G,99)   total(G,134|A,109)   no_pop(G,-|A,-)   JBIG-allele(A,471|G,1029)   total(G,1029|A,471)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51421):
GCCTAGTATCTTGGAGCCAGCCTCCCCGCTGAATTCTCCGGGTGAGCTTTAGACGCCTCCTTCCTCTTTCGCTCACCATACCAGACCCCTCTGGCCCAGC
Y
AGGGGCTCGACGACCCTTGCCTCGCTCCTTGCTCTCAGGCACCGAGGGGTCTTGGCTGTTTTCTACCTGCGGGGCCAGCGGCCGGCATGGGCCCACACAG
Celera SNP ID:            hCV2758492
SNP Position Genomic:     6964
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,13)   caucasian(C,13|T,9)   total(C,20|T,22)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,24)   caucasian(C,21|T,19)   total(C,35|T,43)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,479|C,1010)   total(C,1010|T,479)   (T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 241
Celera Gene:                 hCG39356 - 62000133294260
Gene Symbol:                 FLJ30469
Protein Name:                hypothetical protein FLJ30469
Celera Genomic Axis:         GA_x5YUV32VTL1(6504656..6547677)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12401):
GGTGTGAGAGCTTTAGGATGTGAATTTGAGCTTGATAGTTATCCATTTCTCAATACCTCTGTTTCCTCATCAGTAAGACGGGTGAGAACAGTGTCTACCA
TAGAAGAGTAAGTAAGAAATCCATACAAAATACTGAATGGTATATGATAATTGTTTATAAGTTGTCTTTTTTTTTTTTTTTTTTTTTCAGAGACAGGGTC
TTGCTCTGTTGCCTAGGCTGGAGTGTAGTGACACAAACACAGCTCACTGCAGCCTCAACCTCCTGGGCTCAAGTGATCCTCCTACCTCAGCCTCCATCCC
CAGTAGCTRGAACCACAGGTGCACGCCACCTTGCCCGACTAATGATTCTTCTTTAAAATTGTTTGTAAAGAAAGGGTCTCACTGTGTTGTCCAGGCTGGT
CTCGAACTCCTGAGCTCAAGGAATCCTCCTGCCTTGACCTCCCAAAGTGCTGGGATTACAGGTGCAAGCCACCAGGCTTGGCCACATTTTCATCATTATT
ATTGAAAATGAAGAATGTTACTGTCCCTTATCCTGTTATGCCAAAGAAACTTAAGGCTACTCTATTTTGCTCACAGTAAAATGTGTCTTTCTCAGACCTG
CTTTCTTATAACGTGAACTCAAATTTCACAGGTCAACCTTGAGTCTGCTATTCTTCCTAAATAACAATGTGAGCAAAACAGGTTCTCAGAAACATATAGA
GGAAAATACCCCTTCCTCCCAGAAGTTACATAGAGATTCAGCATCATTAAGCTGCATCAGAAAATACAACCTGATTAGGTATAAAGCTGAGAACTTAACC
AAAGGCTCAGTCTTCTGTACAAATTGGTGGTTTACTTAAACATTTACAACAAGAACCTTCTTATTCTACCTCCTGGTATTTACACCTGTCCTTGGAAATA
TTATCTGTAAAATGTATTTTTTGTAAGATGGCTGTATATTGGAGATTATTGCCATTGTCTGTAGAGGTAACCTTTAAAATAATCTAATTCTAAAACTCTT
TTTTGCCTGGTAATTCATTTTTAAATGACATTTCTATAATCCCAGAAGTTGTAAATATTTGAAGGTTTTCAAATAAGGGAATCACTAGTACTTCCCTCTT
CTCCCTAAATATTCAAGATTAACATAAAACCTAGAACTGGGTTGGATTTTTTTTTCAAACTAAGAACTAAAGAGTCTTCAATTCATTTACATCACCAATT
ACTATAATTTTATTCTGCAGAAAAAAAGAAAAAAAAAACAGACCCATAGGCTCAAAGGAAAAAGGATTTAAATAAAAATATTCCAAAGTGCTGGGTGTGG
TGGCTCACGCCTGTAATTCCAGCACTTTGGAAGGCCAAAGGAGGCGGATTGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATGGTGAAACCCCA
TCTCTATCAAAAACATGAAAAATTAGCTGGGCATGGTGGCACACACCTGTGGTCCCAGCTACCTTCCCTCTGAGGTGGGAGGATCGCTTGAGCCTGGGAG
GTGGAGGTTGCAGTGAGCTGACATTGCACCACTGCACTCCAACCTGGGTGACAGAATGAGAAACTATCTCAAAAAAGAAAAAGAAAAAAAACACCAAAAC
ATTAAAAATGATTAACTCTAGAGGATGCAATTTTTAGCTTCCTTCTCTATATGTCTCCTGGACCGCTGAGTTTTTTTTTTGGACCAAGCCTGCATTAATT
CCATAATTGGAACTATAAAGACATTTCCAAATGTAAAAAACTGAGTGACAGGAGGAATATATTCCAGTCATTAAGAAAACTGAACAAACGGGGCCAACAC
TGAAAATCAGTGGGCCTGAAACAATTTACACCTACCAGCTCTCGAACATCCTGTAGCTGTTATTCAATGTAATGAGACACATTCACTGTCAAGATTCTCC
TGTAAATCAACACAAATGAGATAAACCACCTTCAAAGTCTGAGGAAGAAAATAAATGTGCATAAACAAAACAGTATTTGGTATAGAGTAGATACTCTGTA
AGTACGGCTGCACCTTTCCACTTCTTCAGTGAATGACCAATTAAAGTAACATTTTAATGTAATTCTTGAAATATGTCTTCCAAAACCGTGTCTTATCAGA
TGGGATTGACACATAACACAATATTCTTGAGCACTTTTGTTCATAACTATAATGATTGCTTAAAATTATATCATTTATATTTTTCCTTCCTTTGACTCTT
TATAAACTTAATTTTTATTAGGTGCATATCATTCCATCACTAGACATACTGCAATTTACTTGACTATTTCCATTCTATTGGACACTAATTTTTTTTTTTT
TTTTTTTTTTTTTTAGATGGAGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCTGTCTCCCAGGTTCAACCAA
TTCTCCTGCCTCAGCCTATTGAATAGCTGGGTCTACAGGTGCACGCCACCACGCCCGGCTAATTTTTGTAATTTTAGTACAGATGGGATTTCACCATATT
GGTCAGGTTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCGCCTCGGCCTCCCAAAGCGTTGGGATTACAGGCATAAGCCACTGAGCCCAGCTGGACA
CTAATATTTTTCAAGCTCTTTCCCGGCAATTACAGTCTTTTTTCCAGAACAATGGAGCTAGATCTTTTTGGGTCATGGTCACTTTTGATAATCTCATGAA
ATTATAGACACTTTGCCCACTTAAAAAAACACATTTACACATATTTACAAAAATTTAGTCTCAATTTCAAGGGATTTTGGTCACCTGGAAGCTCGTCAAT
GGAACAAGAAGACCTCAGGTTAAGACTTCCTGTCGTAAGGCTGGGCACAGTGGCTCACGCCTGTAATCCTAGCACTTGAGGAGCCCGAGGCAGGCAGATC
ACTTGAGTCCAGGAGTTAGAGACCAGGCTGGGCAACATAGCAAAACCCCCTCTCTATAAAAAATACAACAAAAACTGGTCAGGCTTTGTGGCACGTACCT
GTAGTCCCAGGTACTCGGGAGCCTGAGGTGGGAGGATCGCTTGAGCCTAGGAGGCCAAGGCTACAGTGAGCCATGATCATGCCACTGCACTCCAGCCTAG
GCAAAAGGCCAAGAACCTGTTTAAACAAACAAACAAAAAAAGTGTTCCTGTCCTAGATCATTTGAGCATGTGGTCACTTTTTCGTGTCTGTGTGTGAGAC
AGTCTTGCTCTGTTACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCACACTACAACCTCCGCCTGCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCC
GAGTAGCTGGGACTACAGCCACCCGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGCTGGCCAGGCTGGTCTCGAAC
TTCTGACCTTGTGATCCACCCGCCTCGGACTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCCAGCCCCCACTTTTTTAGTTAATTTGCAAGC
ACCCGTCACAATCAACTTCATACTTCTGTTACTCTAATCTATAAAAAGTTTATGGGAAATAATCTAGAAGAGCCCAATAATAGCAACTCAATATTCAGTA
AGCCCATATCATGGGGATGACACTGCTCTACGAAGCTTTACATATAATATCTCATCTTACATCATATCAACTCCATTAGGTAGGTACTATCCTGTCCCTA
TTTTATAGATGTGGCACAGAGGGCCTGAATCAATTGTCTAAGCACACACAGCTACCAACAGGCAGAGCCAGGATTTGAATTCAGATACTTTGGATCCAGA
GCCTTAATTTTTTTGTTGTTGCTGTTTTTTCGAGATGGAGTCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCA
CCGCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTACCACTACGCCCAGCTAATTTTTTGTATTTTTAGTGGA
GACGGGGTTTCACCGTGTTAGCCAGGATGTTCTCGATCTCCTGACTTCATGATCCACCTCCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
CTGTGCCCGACCCCAGGGCCTTATTTTTAACTACAACATAGTACGGCTTCTTACATGCCACAGAAAGCTGGACTTCAAACAAGTCATGCTTGGAAATGTT
ACAGATTTCTATCTAAAGATTATCTGAAAGTCCCCACTCTTGTTGGTGCAAATTACAAATCCCTATGTTCAAAGCTCAATCATATTTCCACCCCTAAAAG
CCTCACAAAGCAGACAACATTGTCATTTACTGCCAGAAACATTCCCTTACTTAAAATCCCTTATACCTTGCCTTTCTTTAAGCATCATGACTATGGGCCA
GGCATGGTGGCTCACACCTGCAGTCCCAGCACTTTGGGACGCCAAGGCCAGAGGAACACCTGAGCCCAGGACTTCAAGGTTGCACTGAGCTATGACTATA
CTACTGCACTCAGCCTGGGCAACAGAGTGAGACCTTGTCTCTAAAAAAAGTTAAAAAAAAATTTTAATTATGACTACAGAAAAGATAAAAAATAATGTTT
ATATAACACCACCTAATTACTAATCTCTTCAAATAATCATAGTATAAAATAATGCTCTAATAGCAATCTACAAGAGGTGCCTTTCTATAACTCTTCAGTG
CATCATAATGCACTGAAGTATTTGAACAATTTGCCATATGAACAGGTGGGTAAGAATTGTGGAGAAGAACAATAGGGGGCCACTGGGAGGAAATATGTAC
CAGCATGGCGGGTCATGTAACTGGGAAAACCCAGTCAAGATATTTCAGGCCAAGGAAAGAAAATGTTCTCRTGACCTAGAAGCAAAGGTAATTGTATGTG
TATGTATTTAAAAAGTATGTATAAAAAACCTCACCTGAACCTTGATTTCTAAACATGCAAAAATCCTTTTCTCCTCTTCAAACTCCTTCTTAGAAATCTG
GCAACCTGGCAGCACTGGGGGAAAAAACAGTAACATGAGACATCAGCATTTCTAGCGCGTCACAGACTTAATTAAAAAAGAAAAAGAAGAGCAAAACACC
CTCTGGGGCCACTTCTGCCTTCATCCACACAAAACCAAACGGAATGAAAAGGGAGGCTAGAGTCTGTCTCTGTGTTGAGGGCAATTCTTGGGGACAGAGG
TCTGCTTGCAATGGCTCTGAAACATGTAGCTCACCACCAAAGAGCTCCTAGAGGCCCCTCTTCTAGGAATCCCACCTCTAGAACTTCCCCATCAGGTCTT
GACAAGATCCTGTCCCGCGGACACTTCCAGATCTAAAATTCTCATCCTTCTTGCTTGAAACGTTCATTATGGGGCTTAGCATAGACTTCTTTCTTGCGGT
CATTTAATTGTGGCAGGCCCGAAGACAGGCTAAAGGGAACCTAGAGCATTTGGTCAAAGCAAATCACATTTACAAATACGGCCACGCACCCTGTCAGCCC
GTCACACATTCACAACTGCACCCACCTCCGTGGGGACACGCCCCGTCCCTGCCACGCCGTCTGAGACACACTGTCCCTCGGCTGCTCGCGTGCACACAGG
CTTGAGGATCCGGACACGACACGCTCTGTCCGTGACCCAGCCCTCCCCACCTCCAGCRCCCCCGATGCCACCCCCACCCTCACTGCCGGTTCCAGTCGGG
CCCCAGTAAAGCCAGCCGAGCCCTCCCAGCTTCACCCGGGCTGATTACTTCTACAGACACGACCAACTCACCATGCAGAGTCCAAGAACCTTAAGGACAC
CGGAAAAGGACCCAGAGACCTGTGGTTAGTTTGGACCCAGAGGCTGATGGGAAACAAGAGCCTGGAAATGCTCGCAGGCTGGGAGAGGAGCTTCTGGCAG
GCAAGCTCGCCCCGCCCCTAAAAGGCCTGTGCCCCGGAGACTTCTGGGAAATGTAGTCCACAGCGGCAGAGTCTCCGGAAGTTGAAACCTGGACAGCAGG
GATGCTCCCAGCATGCAACTTGGCTTCACCTGTCAAAGGCGCTTTTTTCGAAGACGCCCGGGAGCTCTTGCTTTTGCTTGAGGGTCTTTGGTGTTGACTG
AGAGCGAATTAAAAGGTTCTCAGCTTTCGCTAAGGAACGCATTCTGGAGTCTAGAACAGGCGAAGATGGGACTGGGGTGTCTGGGGACTTAGACGTGAGC
GAGCAAGGGAATCCGGGGTAAGTTCGCTGGAAATGACCTGCGCGACACTACCAGTTTACCTGGGTATGAGCGCCTGGAACAGTGTCTGGCAATTGAACAG
ATGGGTGTGTCTTGCTGTGAGGGAGTTTCTTAGTTCGATTCGGTGTCTGGGACCCTGCGTGGACCTGTTTATGTTCATGGGATGTTTTCTAAATTTATGC
CTGTGTGAGTCTGTTTTATTAGGTGTGAGATGAACTGTGTTACAGATTTTATATGCCGCTGTTGAAAGACAACAATAAGTGGTAGTGAGTGGATATTGTG
ACCGTGGAGACTTAYGGCAGTGCAAAGGCGGCCATAAACAATGCACAAGCAATCCAGCATGGCTGTGTTCCAATAAAACTTGATGGATTATAAAAYTTGA
ATCTCATTTTTTATAGAGTATGAAACCATTTATTCTGAAGCACACACTCATACTCCAAAAACAATACTATATATTCCCTCTCTCTCTCTCCTGTGTGTTT
GCGTGTGTGTGTGTGTGKGKGTGTGAGAGAGAGAAAGGTTTTAAAGGAGACAACTAACTGATTCTGAGGTTAGGGCAAAAAGATTGGGGCTGTGGTTGGT
GTGGTAAGAACCTTTGGATATAAATACTTTTTTAAAAAAGAATTGTCTAAAAATATTAAAGCGAAATTTTATATTAAAACTAACAGAAAGAAAAGGAAGT
TACTTTTTAGGGGCTCTTTCTGGTCACTGATATCACCTCTCTCATCCTCTGCCATCTCTCACCTCCTGGTCTCTCTTGCTTATCAAGAGAAGACTAGAGC
TCTTGGATCCCAGCTTTTYCCCTGCCTCAGCTGAGGCCACTACCCTGGTTGACTCCCATGGTGACATGGATGCCTCATCCAGTATCGTGGGTCTGAGTCC
TCATCTGCAGGGKSCTTGAGCTTTCCTCGGCACCCATCCCCGTTTCCCATCTGGGACTTCATTATCATCAGCATCTGCTCCACCTCCAAAACCACTGGTG
GAAGCAGCCTCCTCTCTTCCCATGTTACTTGCTCAATGACTCCCACAAGTACTACTCTGAATATTTTGGGGGTCTGATTTTTTTTTAATTTTTTATTTCC
ATAGGTTTTTGGGAAACAGGTGGTGTTTGGTTACATGAGTAACTTCTTCAGTGGTGATTTGTGAGATTTTGGTGCACCCATCACCTGAACAGTGTACATG
GCACCCAATTTTTAGTCTTTTATCCCTCACCCCCTTTCCACCCTTTCCCCCAAGTCCCCAAAGTCCACTGTGTCATTCTTAGGCCTTTGCATCCTCACAC
CTTAGCTCCCACTTATGAGTGAGAATATACGATGTTTGATTTTCCATTCCTGAGTTGCTTCACTTAGAATAATAGTCTCCAGGCCGGGCATGGTGGTTCA
CACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGCTGGATCACCTGAAGTCAAGAATTCAAGACCAGCCTGGCCAACATGATGAAACCCTGTCTCTAC
TAAAAATACGAAAATTAGCCGGGCACGCTGGTGGGTGTCTATAATCCTAGCCATTCAGGAGGCTGAGGCAGGAGAATTGCCTGAACCTGGGAGGTGGAGG
TTGCAGTAAGCCAAGATAGCGCCATTGCACTACAGCCTGGGCAACAAGAGGGAAACTCCATCTTAAAAAAAAAAGGAAAAATAAATAAATCCAGGCAAAT
GCATTAATTCATTCCTTTTTATGGCTGAGTAGTATTCAACTGTATATATCTACCACAGTTTCTTTATCCACTCATTGATTCATGGACATTTGGGTTGTTA
AGCATTTTTGCAATTGTGAATTCTGCTGCTGTAAATATGTGTGTACCAGTATCTTTTTTGTATAATGACTTATTTTCCTCTAGATACCCAGTAGTGGGAT
TGCTGGATCAAATGGTAGTTCTACTTTTAGTTCTTTAAGGAATCTCCACACTGTTTTCCATAGCGGTTTTACTAGTTTACATTCCCACCAGCAGTGTAGA
AGTGTTCCCTGTTCACCGCATCCACGGCAACATCTATTTTTTTTTCCATTATAGACATTCTTTCAGGAGTAAGATGGTATTGTACTGTGGTTTTGATTTG
CATTTCCCTGATCATTAGTGATGTTGAGCATTTTTTCTTATGTTTGTTGGCCATTTGYATATTTTCTTTTGAGAATTGTGTATTCATGTCCTTAGCGCAC
TTTTTGATGGGATTGTTTGTTTTTCTTGCTAATTTGAGTTCTTTGTAGATTCTGGATATTAGTCCTTTGTCAGATGTACAGATTGTGAAATTTTTCTCCC
GCTCTGTGGGTTGTCTGTTTACTTTGCTGACTGTTCCTTTAGCCACGCAGAAGCTCTTTAGTTTAATTAAGTCCCAGGCCCTTTGTTTTTATTGCGTTTG
CTTTTGGGTTCTTGGTCACAAAATCCTTGCCTAAGCCAATGTCTAGAAGGCTTTTTCCAATGTTATCTTCTAGAATTTTTACAGTTTCAGGTCTTAGATT
TAAGTCCTTAACCATCTTCAGTTGATTTTTGTATAAGGTGAGAGATGAAGATCCAGTTTCATTCTCCTACATGTGGCTAGCCAATTATCCCAGTGCCATT
TGTTGAATAGGGCGTCCTTTCTCCACTTTATGTTTTTGTTTGCTTTGTTGAAGATCAGTTGACTGTATTTGGGTTTATTTACGGGTTCTCTATTCTGTTC
CATTGGTCGATGTGCCTATTTTTATACCAGTACTATGCTGTTTTGGTGACTATGACCTTATAGTTTGAAATCAGGTAATGGGATGCCTCCATTGCTTTGT
CTTGCTTTGGCTATGCGGGCTCTTTTTTGGTTCCATATGAATTTTAGGGTTGTTTTTTCTAGTTATGTGAAGAATGATGGCAGTATTTTGATGGGAATTG
CTTTGAATTTGTAGGTTGCTTTTGGCAGTATGATCATTTTTACAATCTTGATTCTACCCATCCATGAGCATGGGATGTGTTTCCATTTGTTTGTGTCATC
TATGATTTCTTTTAGCAGTGTTTTGAAGTTTCCTCGTAGAGGTCTTTCACCTCCTTGGTTAGGTATATTCCTAAGTATTTTATCTTATTTTATTTTTGCA
GATGTTGTAAAAGTTGTTGAGTTCTGGATTTGATTCTCAGCTTGGTCGCTGTTGGTGCATAGAAGAGCTACTAATTTGTGTACGTCGGAAACTTTGCCGA
ATTGGACTACATTTCTAGAAATGGATTCCTGAATTAAAAGAGATGCTTCTCTTAAATATTTATGTAAAGTTACTCTCAGAAAGGTTGTAAGTGGATTCCT
CCCAMCAAAAGTATTGTGAATGAATATCTTCTTAAAATTTACAATTGTTTTGACCATTTCCCAGTCCTTAAACCAATGATAACATTTTATTTTCTTTTTC
TTTTTTCTTTTCTTTCTTTCTTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTAGTTGCCCAGGCTGGAGCAATGGCACGATCTTGGCTCACCGCAAC
CTCCACCTCCCAGGTTCAAGCGATTCTCCTCCCTCAGCCTTCCCAAGTAGCTGGGACTACAGACATGCGCCACCAAGCCCAGCTAATTTTGTATTTTTAG
TAGATATGGGGCTTCTCCATGTGGGTCAGGCTGGTCTTGAACTCCCAACCTCAGGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGT
GAGCCACTGCGCCCGGCCTTTATTTTCATAATATTTCCATGTCTTTTATTTCTCATAAGCTTACATATGCATTCAAGTATTTATTGGTCATTTTCAATTT
TTCCTTCTAAGAGTCTATATTCTTTACCTATTTCTACACATTTTTGTATTCATCTATATGTTGATTTGTTTTAAATTTATTATCTGTTTGTTGTATCTGA
AATATTTTCCCTTAGTTTATTTGCTACTTAAATTTGAGGGAGGCAGGGAAGTTTACTGAAACATACTTTATATTTTCTATAATTTATTAACTATTTACTT
CATAATTTGTGTTTTGGCTGTCAAGCCTACAGACCAAAATTATAATAACATCAATTTGTAATTTGATAAGCACTCTGGTAGTCTATTTTTAAGTTATACA
TGTCGTGAACATTATTTGTTTTAATGTGTGAGGGATGGAAGTTACTTTATTTTTCCAGGTGGTTAACTAGTTAACACAGATTATTGCTTTTCTGTAATAC
TTTTACTGAGATATAATTCATATACTCTAAAACTCACCCATTTAAAGTGTACAATTCAGTAGATTCTTTTTTATTTCTTTGAGACAGAGTTTTGCTCTTG
TTGCCCAGGTTGGAGTTCAATGGCGTGATCTCAGCTCACTGAGATTATTGCTTTTCTGTAATACTTTTACTGAGATATAATTCATATACTCTAAAACTCA
CCCATTTAAAGTGTACAATTCAGTAGATTCTTTTTTATTTCTTTGAGACAGAGTTTTGCTCTTGTTGCCCAGGTTGGAGTTCAATGGCGTGATCTCAGCT
CACTGCAACCTCCGCCTCCTGGGTTCAAGCGACTCTCCTGCCTCAGCCTCCCGATTAGCTGGGATTACAGGCACCTGCCATCACGCCTGGCTAATTTTTG
TATTTTTTAGTAAAGACAGGGGTTTCACCATGTTGGCCATGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCACCTCAGTCTCCCAAAGTGCTGGG
ATTACAGGTGTGAGCCACCGTGCCTGGCCGAATTCAGTAGTTTCTAGTTTATTCAAAGAGCTATGCAACCATCATCACAATCAATTTTAGAACATTTTCA
TTGCCCAAAAAGACACCAATACCCACTAGCAATCATCATTTTCAGCCACTCCATGGGCTACAGGGATCTTTTCTGTTATTGCACTTGTTCTATATTCATA
TTTCATGTAATAAACATGCATTGCTTTTGTAATTACAAAGTAAAAAGAAAAACGTTTTAAAAAAAACTTATGTTGGGATTTTAAATTGATCCAACTGATT
TCACTTTTTCTGATGCCACAATCAATTTCTTATTGTTTTACTTTTAATCACTCAAGTAATTCCATGTTCTAATGCTTTTCGGACCAGATCGGGAGCATTC
AGAGTGGTATAGCTGTAGAGATGTTCTAATGCTTTTCAGTGAGGAGATAAAACAGAAATGAGGGAGGTCTATTAAGCTAAAGTAGTTCAGTATTTCAAGA
AAGAGTACGTCGCTGAGATAGTAGAAGGCAGCCAAAAATCTTTCAAAATAAGTAATAAAAATATTTATTTGGATTTAGCAACATTCAGTTAATTGTTGCA
GTTTTTAAATATTCAAATAACTGATGATAAATAATGTCAGAAATGAAAGTGTCCCCCTACTCATTCCCTATCTACAGAAATGACSAAAGTTAATATTTTC
AGGTATTCTTCCAGATTTTTCTGTACACTGAATGTATGTATAAAGACACAGCTATTTTATACAGAAATGGGATCATGCTATCCATATAATTCTGCCATTT
GCCCTTTCCACTTCAACACATTCTTCTACTTCATTTCATGTCAGTTATAGATTTAATTCATTCCTTTTAACGTTGAATTATTACCTAACCCAGCACTGTT
CAATGTAGCTTTCTGTGATGTTAGAAATGTTTATATCCCTCTTGTCCAATACAGTAGCCACTAGCTGTCTTGGCTAATGAGCCTTTGAAACATGGCTAGT
GTAAGAAACTGAATTTCGAATTTTATTTAATTTTAATAGATTTAATTTTAAATAGCCACAAATAGCTATCATATTGGCTAGCACAGACTAACAGTGTCTC
AAAAAACGAACATTGAGGTTCTTCAGTATTACAATGTGAATTCTTCAGTATTACAAACACGGCTTTGGTAAGCATTACTGTACCCACATCTTTGTCTTTC
ATGCCAGCATTTTTGTAGGCTAGATTCTTGTATGTAAAAATGCTGGTTGCTTAGGGGTTTGCTTTCACACTTCGTGAATGCTACTACACAAAACTGTAAA
AGAGCTGTAGTCATTTCCACCCACTACGTGTGAAAGCTCTCATTTCCCCACATTCTCAACAATATTGTGTACCATCTACATTTTTAGTTTTTGAAATTTG
ATAACTGAAAACGAAGTATGCCATCTGTTTCCGTTATCAGTTTATTGCTCTCACCTCCGCACGCACTCTTCAATATACGCTCCCTGCTAAAGGGATTCCC
CCGAAGGGTTCCTGCGCCTACGCACTCGGAGCACAGGTTACAACTTCCAGAAACCCTTGGGACGCGCCGTCCCAAACTTGGGTTTCTGGCGTCTCCTGCG
TTTCCGGCCCGGGACTACAATTCCCACAGGTCACTGGGCCGAATGAGCGKGCGCTCCTGATCCGCTTTGCGCATCCCAGTGATTCTTGGGTTCCGCGTGT
AGTTTCGGAAGGAGACATCGAAGCAGGGCGAGGCGCAGAGGGCGTTGCGGACTCATGCCCCAGTCGGCAGTGCGGGTAAGGGTGGGAGAAGCAATGAGGC
GAATGCGAGCAGCCGAAGAAGGCGACAGTGTGGCTGGGTATGAAGACTTGAGGGAGGGRGTGGGGCAAAACGAGGTCAGGCGTCTCCCTGGCCGCGTGTG
ATGGACCGTCCGTGGTGGTGACAGACATGGTGTAGGGGGTGTGTGCAATATTATGTGCGTGATAGAGCCAAGGATGTGCCCTACCGTGCGAATGGTGACG
TTGCGTCTGTATGAGAGTGCACGTGCCACGGCTGGGATGTCTTGTGACACAGGGAATGGGGTGTGTGTGCATCTGTGCACATGAAATGGCCAGGGTATGT
CTTCGTGACTGCATGTGTGCTCATGACACAGCAGGTGTGTTTCTCTTTGTATGACAGACTGTGTGTATGTGTCAAAAAGAAGAAAGTGCTTGGTGTATGA
CAGGACTGGAATGAATCTGTGACTGTGACACAAGTGTGTGGGTTTGTGTGTAGAGTGACAGCTGGAGTGTGCCCTAGACAATCGAGCTTTCCTACAGGAA
TGGTGAAGTCTTTTCCTTCTCTAGCTACACAGTATTGTCCAATAATTGAAGTTTTTAGGACCCAGAAGTTGCTAATTTGGGCCTTCTGAACTGGAATTGG
GTCAGGAACTGGATCAGTGGGCACCAACTCTCTAGCTTCCCAAGGCCATCAGTCTCCCATAGTGGTTCCCTCACATACATAACAGAAAGTAACATTGAGG
AAATGAGCTACACTTTCYGCTAGCTGGAGAAACAAGTTCTTTTGTCCTTTTTGGAAGCTCTGGTGTTGGCAGATTCGGCTCATCATAAAAAGTTTGAAAC
ACTGGTTTGGGAGAGTGCCTGTGTACCTCCCCTCAAACTAAAAAGGCAACTTGGGGGTTTAGCCCTGACCCATCGATCTCCAGGGTTACACGTTCTCCTT
TTTTCCAACGGGGGTCTAGGGGATTAGTGGGTCATGAGTTAGAGGCCTGTGAAAATTGTGCCTATTGACCATGTGTTATTTAAGCTACTTAGAAAAAGGA
CAGAAAAGACCCGGTTCACCTTCAGAAAAAGGAAGCCAATCCCTCCTGTGCTACCGGTCACTGTAACCCGCTAGAACTAATAATCACTAATCTCCTAGAC
CCCTCGGGAGGCTGAGGCAGGAGACTCGCTTGAACCCTGGGGGTGGAGATTGCAGTGAGCTGAGATCATGCCACTACGCTCCAACCTGGGCAACAAGAGC
AAACTCCATCTCAAAAAAAAAAAAAAAAAAAGAAGAAGAAGAAGAAGGGAAAAATGAAAAGAATGAAGGCTATGTCCAACTTGAAGTTAGAACACAGAAT
AATAGAATAAATACAAAGAAAGTTGGTTGAGGTCAACAATAAGCACAAGTTAAAGAAATAGAAAACACTGATGCAATAGAGGCTAAATGCCAACAACTGC
TTATTTGAAGTGATCCATTTCTGAGATAATTAAAAAATAGATTATTTCAAAAGATGAATAAAAAAGAGAACAGGCACAAATAATATTAAGAAAGAAAAAG
ACTACACAAGAATAGAAAATATTTTTTGAATTAGAATAAATTTGAAAACAGATGAAATGGTCAATTTCCTAGAAAGCTATAACTTAAAGAATTGACAAGA
AGAGACAGAAACTTTTAATAATAGACAATTAGTCATTAATGATACAGCATCAGTAGTTTAGAATTTAAACTCTAATCATCACCAGGCTCAGATAATTGCA
TGCAAGAGTTGAATTAAGAAAGAGTTCAGACACATCTTATGTGTCACTTCAGATCCTCTCAGCCTCACCTGTGCCTGGGGCCTCTGGAAACTTGTTTCTC
TTGATTCACTGCTGCAGCAACATCCCTGCATGAACTCAGAACAACTCTACATGGGCACAAGCAGCAACGAAACCTGACCTCATGCCTGCAATGGGCACTA
CTTGTCTCAAGCCCYAGGGCTTTCCTGTTGATGCTGATGCATGAGACGTTACAGAACCCATTGAACTATTCACACGCGACCTGGAAGTACAGCGGAGTTA
ATAGTCTCTGGGACAAACATTTCATGAACCAGTGGATGAATTCACCTCCCTTCTTCTCCTCAGCTAGGTGGTCTTAAAACACAAAATTAAACAATCAATT
ACACTTGATAGCAAGCAGTGGCCAGCTCAGTAAGACCTTCATACAAGTGTTGTCTCCTTCCCTACCACACTATACTTTTCCCTCTCTCCTGCTTCCCTGG
AACTGTACCGGCTGATAAAATAATAGCACAGAAACTTCTTCTCAGGGTCCTCCCTGTAGGCAATGTAAGCTAAGAGGAGTGTTTCCAGGAGAGACCCTCA
AGATCCTTGTGATAGGATTTCAAGCTTGTTACTTATCCATGTTTGGCCCAAGTCTGATCTCACAGTGAGTTCAGTAAGTCCATGAACTCACCCTATGGTT
GTTTTCCTCTATCCTTTAACATATATTTGGGATAGATATGCTCATCTTCTGGTAGAACTCATTATAGTGGCTTCCTAACTTGTGAACTAAGAGTACTTAT
GGGCTGGGCGCAGTAGTTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGYGGGTGGATCATGTGGTCAGGAAATAGAGACCATCCTGGCCAAAAAG
GTGAAACCTCATCTCTACTAAAATAAAAAAATTACTTGCGTGTGGTGGTGCACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGGGAATAGCTTG
AACCTGGGAGGCAGAGATTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAWAAATAAATAA
AGTCCTTAYGGTATAAARAGCCAAGTGGAAACCCTTGAAACTCAATACTGTGCTGTGGGAGGAATTGCAGAGATTGCATCATCATCAAAAYTTAGAGGAT
GCAGGATTATTTGTCCCTATCATACCTCCATTCATTTCACTTGGCCCCTGCAAAAAACCTGCATGACTGAAGCTAGTGGATGTGGTAGATTGAAAAAAAA
TCCCACAAATTCTTCCCATTCCTGTGTGTATATTCTTTGCAACATGACTTTGCAGCTCTTCCCTTCAAAGGTGGAGTCAATTTCTCCACTCCTTGAATCT
GGGAATGTGCATTTGATTTTCTTTGAGACAGTAGTAAATGTGACATATAGAGGTTTGAAAAACACTCACTGAATGGAAACTGCTTTCTTGTTGCATTTTG
AACCCAGCTCCCATGGGTTCATGCAAGCGTGAACTAGACTGAGGGATGATGAGAAACATAAGGCCAAGTCATTCTCATGCCCCCTCCCCCACAATAACCA
ACCAACCATTAGAACTTTGAGTGAGGCCTGACTATACTATGCAGCTGCAGCCAAACCAGCCCAGAGCAAAAGAAATGCTCAGAAAGCCCCCAGAATTGTG
AGAAATAATATTCGTAATTTCAAGCCTCTGAGTTTTGGGGTTACTGATTGTTTTCGTCTGTTTTCATGCTGCTGATAAAGACATACCCAAGACTGGGTAA
CTGATAAAGAAAAACAGGTTTAATGGACTCATAGTTACACATGCCTGGGGAGGCCTCACAATCATAGCAGAAGAGCAAAAGAGAACAAAGAGACATCTTA
CATGGCAGCCAGCAAAGAGAATGAGAGCCAAGCAAAAAGGGTTTCCCCTTATAAAACCATCAGCTCTGATAATACTTATTCACTATCATGAGAACGGTAT
GGGGGAAACCACCCCCATGATTCAGTTATCTCTCACCGGGTTCCTCCCACAACATGTGGGAATTATGGGAGCTACAATTCAAGATGAGATTTGGGTGGGG
ACACAGCCAAACCGTATCACTTATTATGTGGCCAAAGCTAATTCATAGTGACTACTTTAAATGTAAACAAATAGCAGCTCCAATTTCAGCTGCTATGTCA
GATGTGACATCTTTACTGGAGTTGACCAACCTAGTTTTTGGTCCTTAGTATGTGCTTAATGATCTGACAAATGTATTTTACTTGATCTCTGACATTTAGG
AGAATTAAAAGCCATTCATGTGTGCATGGTAAGGACTGCAGCACTGTCTTGCCCCAGGTTCCTGATAACCCTCCTAATCTCCGTCATATTGTAGTCCACA
GAGGCCTTGATCATCTTTACATTCTGAAGAACATAGCACTGGTTCATTCCACCAATAAAATCATGCTAATTTGACCTGGTGATCAGGAAGTGGCAATCAC
TGTAGAAGCCATAGTAATGCAAATGAGTGACAGAAAGAGGGAGATAAACCTCATGAATGTTCACTAACTTACCACATCAGTGAAGATTTTAGAAGTCCAA
TCATCTGGGACATGCCATAGTATCTCCCTTAAGGTAAAGAATAAGTTATTACAACTCACACTTCCTAAACTGATAAACAGGCACATAATTTGGTAGGGCT
CTTTGACATTTGAAAGTGATAGATACATGATAGGTAGRTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGAGTGGGGCGTGGTGGCTCA
CACCTGGAATCCCAGCAGTTTGGGAGGCCAAGGCGGGTGAATCGCTTGAGGTTAGGAGTTCGAGAYCAGCCTGGCCAACATGGTGAAACTCCATCTCTAC
TAAAAATACAAAAATTAGGCATGGTGGTGCACACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGGGAATCGCTTGAAGTCGGGAAGCAGAGGTTGC
AGTGAGCTGAGATCGCGCCACTGCACTCCAGCCAGGGTGACAAAGTGAAACTCCGTCTCAAAAATAAAATAAAATAAAATAAAAATAATAGATGGGTATA
TATAGATGTGTGTTTATATATAACATATATGATTTATATGATACATATATAAATCACACTTCAGAATAGTGTTCTTTTTTTCTCTTTTTTTAATAGTTCT
AGGTGTCTTTTATAGCTGGTTTTTGGTTTTGTTTTTGTTTTAGACAGAGTCTTGCTCTATTGCCCAGGCTGGAGTGCAGTGGCATGATCACAGCTCACTG
CAGCCTTGACCTCCCTGGCTCAAGTAGATCCTCCCACCTCAGCCTCCCGAGTAACTGGGACTACAGGCACATGCCACCGTGCACAGCTAGTTTTTAAATT
TTTTGTGGAGACGGGGTCTCCGTGTGTTGCCCATGCTGGTCTCAAACTCCTTTTTCTTTCTTTCTTTTTTTTTTTAGAAATAGGTTCTCACTATATTGCC
CAGGCTGGCCTCAAACTCCTGGCCTCAAACAATCCCCCCACTTTCGGCCTCCCAAAGTGCTGAGATTACAGGCGTGACCCATCATGACTGGCCTGGAATT
TTGTTCTGACTCATTTTTCAGATAAACTTGAAGGCTGCTGAGTTTCAAAGCAGGTGAGAGCTCTACAGCAGGTAAAGCCTGCGATGCAATCTCCCTGTCC
CTGAGCCACATGAATCAGCAACTTTGATGGTGTCACCTCTATCCATAATGGTTGAAGCTGTTATGTGGAGTCTCTGGCAAGATACAAAAGCAAAATTACA
GCCCGTAAGGTTCTGAAGYAAGTCCATTTATTATGCAGCATATAAGTGCTTTCAATTTGAAAACCAGCTGCTGAGTACTAATAGAGTCTGTGATTTTGAC
CATGGGACATCAAGTATCTATATGACTAAAACTACCTGTCATGAGTTGGGTATCTAACCCACTAAGTCATAGTGCGATTTGGGCACAGTATTAATTCATT
GTAAGAGATCTAGATGGCACAAAAGAGTTACACACACAGACAGCTCAGACTCTCATGTCACTGACCTTGGTTGCAGCTATGTTGTTCCTTTAATTCACAT
TCATGACATCATATGAAGATTTTCCTGTAGAATATTAAGGAAGAAAAGGTCTGGCTCACAGATGGATCAGTGTGACTGATGTATTTTGGAAGCTGAACCT
AAATTATCATATTACGGGACCACTACTCAGAGGTGGGTCCTACAGGCAGTGGTGAAGGTAAATCCTGGTGTACAGAGCTGTGATTGGAGATCTTCACTTC
ATTTGTTTGTTTGTTTGTTTTAGAGACAGGTCTTTCTCTGTTACCCAGGCTGGAGTGCAGTGGCAGGATCATAGCACACTGCAGCCTCAATCTCTTGGGT
TCAAGTGATTTTTTCATTTCAGCCTCCCCAGTAGCTAGGACTACAGGTGTGCACCACTACACCTGCTAATTTGTTTTGAATGTTTTGTAGAGATGGGGTC
TCCCTATGTTGCCCAGATTGATTTTGAACTCCTGGGCTCAAGCCATCGTCCCGCCTGAGACTCATAAAGTGCTGGGATTACAGGCTGAGCCACCACACCT
GGCCCCTTCACTTAAATTGGAGTGAGATGTGGCCCAATGTGCAGATATACATGGGCTCCTGGGAAATGGCCCATGGCTTTCTGTTTGGTCAGGATCTTGT
AAGGAATGAGACTGGAAGCTCAGGGGCAAGTAGGTCTAGGAAGAAGTATGTGGATACATTTATGGGCRTACATACAAAATGCATGCATATATGTGTCTCA
TCCTAATTCCTACTAAAAATAATCCTTGGTTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGTTGCAGGCAAATCACTTGAGGTCA
GGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTGCTAAAAATACAAAAATTAGCCGGGCTTGGTGGTGTGCACTTGTAATCCCACCTAC
TCAAGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAATGAGCCAAGATTGCACCACTGCGCTCCAGCCTGGGCAACAGAATGAAA
CAGYGTCTCAATAAATAAATACATAAATACACAAATAAATACAACAATAATCCCCACAAAGAAAGCTCTTAACAACAGGGATGATCCATCCCATGAAAGT
AAGTCAGTCCATCTCCTCAGCCAGCCCCATGCTGGTTCAATGGTCTCATGAACAGAGTGGCCATGGTGGCAAGGGTGAAAGCTATGCCTGTGTGTTAGTC
TGTTTGGCATTGCAATAAGGGAATGCCGGAGTCTAGGTAATTTATAAGGAAAGAAGGTTATTTGGCTCACAGTTCTGCAGACTGTACAAAAAGCATAGTG
CCAGCATCTGCTTCTGGTGAGGCCTCAGGAAGCTTACAATCATGGTGGAAGACGAAGGGGGAACAGGTGTGTCACATGGCAAGAGAGAGAGCGAGAGAGA
GACGGTGGAGTTCCCAGACTTTTTAACAACCAGATCTTGCATAAACTCATTACTGTGGGAGGGCACCATGCAGGGGCTACCTTTCACTGAAACTAATCAA
GTTACCRCCGCTACTGAGTACCCAATCTGCTAGCAGCAGAGGCTGATCCTGAGCACTTGATATGCAACTGCTTCTCAAGGAGACCAGCCAGCTACCTCAT
AGTAACGTAATTACACAAGACATCTCCTGAATGGGGCAGGAATTTATTCTTACAGTGTCCTTAATATCTTTATGAGGTCGGAGGTGGGACTTGATTCCGG
AGGTGGGGCTCAGACACCAGACCTAATTGAGGACCAGCTAAAACAGGGCCTGGGTGGAAGCAGCTTTCCATAAGACACTCCCGCCAGTGTGCCATGTCAG
TTTACCATTGCCATGGCAATACCCGGAAGTTACCACCCATTTCCATGGTGATGACCTAGAAGTTACCACTCTTTTCCTAGAAATGTCTGCATCATCTGTC
CCTTAATTTGCGTGTAGTTAAAAGAGTATAAATTTGACTGCAGAACTGCCTTTGAGCTCCAAGAAATCTGGTTAAATGTTGTGGCTCAAACCTACGATTT
CCTTGTGGGTAAAAATGAATGTTTTTAAATATTTTAATTAGTTGGCCTTGTAGGTCTTCCCTGCATGTTCTTTATCACTGTCACAATTATTGTGTGAATG
TGAGATGAACGATCAAGTTTCAAGTTATTTAGCCCTTTAAAAATAGTCTGAAAAGAAGGGAAGGGAAGAATTGAATTGGAGAAAGACCCTTGCCTATGCC
AGAATTTATATTTAGGAGTGAAGCAAAAGATGTCTGCAACTTGCTTTTAATGGTTCAACAGTAATAGACAAATAATAGATGATAAAGATGATAATGATGA
TAGATAGCTGGATGGATGGATAGATAGATGATAGATTGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGAAAAAATAACCACA
AATCATTCCCCTCCCTCTATCCACACCTTTTGTTAGTGTCCTTCTGCACTGACTCTGGGATACCCTGGTGACTTGCTGTGGCCAATGGGACATGGGACAT
TAGCAAACATAACATAAGCAAAGGCATGAAAAGCACCTGCTTATTAGGGGTTGCTCTTTTTTGCTCCCCTTTGGAACGTTGCAACTCCCATGTGATAAAG
TTCAAGCTAGCCATTTGGAGGAGAACTGAGGCCTGCCTGACAGCCAGTCTTGTGAGTGAGACCATTCTGGGTCATCCAGCCACCACCCAACCCTCCAGCT
GACCACAAGCACATGACAGAGCCCAGCAGAAATCAGTCAAGCCAGCCCATATCAGAAGAACAACCCAAGAGACACACAGGATTTGGAGAGGGGTAAAATG
CTTGATGTTTTAAGCCCCTACATTTTGCTTGTGGTTTCCTATGCACCAGAGGCTGACACAGAAGATAGAGATAGAATAAGCAAATATGGCAAATGTTGAC
AATTTTGATCCACATAATTGCTATATGGATGATCAATGAGTCTTCCTGCCTGCCTTCCTCCCTCCCTCCCTCCCTTCCTTCCTTCCTCCCTCCCTCTCTC
CTTCCCTCTTTCTTTCTCTCTTTCCTTCTTTCTTTCTTTCTTTCTTTCTCCCTTTGTCACCCAGGCTAGAGGGCAGTGGCGTGATCTCTGCTCACTGCAA
CCTCYGCCTTCCAGGTCCAAGCCATTCTCCTGCCTTTGCCTCCCAGGTAGCTGGGATTATAGGTGCCCACCACCACATCAGGCTAATTTTTGTATTTTTA
GTAGAGACAGAGTTTCGCCCTGTTGGCCAGTCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCG
TGAGCCACCGTGCCCAGCTGATGAGCTAATTTTTCAACACTTTCATACCTTTAAATTTGTTTGCAATAAAATTTAGAAAAATCACCTTTATTTTCATGAT
GTCACGTTTCTCAACTATTCCATGTTATCCATTTTTTTTTCCCTCAATCTCCTGGGCTCAAGCTGTCATAGTCATCCTGCCTCAACCTCCCAAATGCTGG
GATTACAGGCATAAGCCATGGCACCCAGCCCCATGTCATCCTATATTTCAAAGTTAATCTGTGAAACCTTGCTTATATCAAGTTAACTCAAAATATTCAC
CTCTCACCTTTTATTTAGAGCCTTCTCCAGGCTCTAAATAAAATATAAATACAAAGGATATTTAATAATTCTTTATGARCATATTTTAAAGCTGTATTAG
AAACTACACAAATGCTGCCAAAGAAAGGTGTTTGATCACGCTGTGGGTGGTCTGGTATATATTTACTATTATTTAAAAAATATTTTTCTGTTAGGCTGGG
CGCAGTGGCTCACGCCTGTAATCCCAGTCCTTTGGGAGGCCGAGGCAGGTGAATCACCTAAGGTCAGGAGTTCAAGACCAGCCTGGCCAACGTGGTGAAA
CCGCATCTCTACTAAAAGTACAAAGAATTAGCCAGGCGTGGTGGCAGGCCCCTGTAATCCCAGCTTACTTGGGAAGCTGAGGCAGGAGAATCACTTGAAC
CCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCTGCATTCCAGCCTGGGCAACAGAGCGAGACTCTGTCCAAAAAAAAGAAAGAAAGAAAGAAAAACGG
AAAGAAAGGAAGGGAAGGGAAAGAAAGGGGAGAGGAGGGGAAGGGAGGGGAGGGGAGGGGAGGGGAAGGGAGGGGAGGGGAGGGGAGGGAACGGAAGGGA
AGGGTAGAAACTAGCAAAATTAGCCAGGCACAGTGGCATGCAACTGTGGTCCCAGCTACTCAAGAGGCTGAGGAGGGAGGATCACTTGAGCCCAGCAAGT
TGAAGCTGCAGTGACCCATGATGATGCCAGCGCACTCCAGCCTGGGTAACAGAGAAAGACCCTGTCTAAAAAAAACACACGACTATATAACATCAGTAGC
AAGACAAGCATGTTTACTCTCATTAATTCTATTCAATCATGTACTGGGAGTTCTAGCCTATACAATAAGGCAAGAAAAAGAAAAAAAAGGCATAAAGATT
GGAGAGGAAAAAGTAAAATGGATTTTGTTTTGCAGATGCCATGATTCTACTGTCACCATGTGCAGTTGTTCATGTTGGGCACTGCACAAGAACACTACAC
CTAAGGAGGTGCTATTCATATCACAGACATCTTTACTATTTTGAAAACAACTTTTTGAAAATTATTATGTATTGTGCATGCTATTGACGGTTGCAAAAGT
GATTTACAATTTATTGCAACTATGTTCCAGCAGATGGCAGTAAAGTGTCTTGTTCCAAGAGGGTTGGTAGCTACCATTCTACTTCCATATACTAAGGAGA
CATTGGTTTTGAAATGGAAAGACGTGTTGATTTTATGTCATTTAAAATAGTCTGTGCTTCTAAACAATGAGCTGCTCTTCCACCTGATATGCAGAACATT
TTGTTAAAGTCCCTAATGGTGCCAGCACATTGTCTGTATTCAGTATTTCATATTGCAGTTCATATTTTCATCTAATTATTTACTCTACCAGACTGGAATT
GTTGAATTCTATGTTTAAATCTACAAGTCCTGGCCAGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAG
GTCAGGAGTTGAAAACCAGAGTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACCAAAAATTAGCCCAGTGAATGAGCCGGGCGTGGTGGCAGTC
GCCTGTAATCCCAGTTACAGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGAAGGTTGCAGTGAGCCAAGATYTCGCCATTGCACTCCAGCCTG
GGTGACAAGAACGAAGCTCTGTCTTAAATAAATAAATAAATCTACAAGTCCTTTCACTTGGCACAAATCACTGTATAATAATATCCGGTCAGGTGCAGTG
GCTCACACATGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACGAGGTCAGGAGTTCGAGACCAGCCTGCCAACGTGGTGAAACCAAGTCTCT
ACTAAAAATGCAAAAATTAGCCGGGTGTAGTGGCGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGTGGA
GGTTGCAGTGAGCCGAGACCACGCCGTTGCACTCCAGCCTGGGTGACAGGGCAAGACTCTTGTCTCAAAACAACAACAACAATAACACAACAAACTAATA
TCCGGTTACCATTAATCATCCACAAAGAATGTGTGTGGGTTGAAATTAAAGAGTATTATGCAAGTCTGTTAATTATACTATTATAGTAGTTGCTTATTAT
TGCTTTAGAAATTTCATCAGTATAAAAATAAACTTATGAAAATTTAATGATTTGTTGCCTACATAGTATTGTAAGATGCTAAAATTCTAAGATAAAATAT
TAACCTTATTCGATGTCTATCAAGGACAAAAAATAATCAGGACCAGAAAATGGAAAGCTATTATGAAACAAAGTGGATCATTGAATGAATTTTTGAGAAA
AACAAAGTTGCAMGGGGAAAAAATTTCCACAGCTGCTATTTTGGCAGAATGTAGCACAGATCCATTAATTATTGAGCAGAACAGACCATGAATTTACTCC
TTCCACTTTTGGGTAAGCCAAGAAAAGAAAATTCAAGAAATAACTGGAAGACAGGAAAAATGGAGAATAAACGAACCCTTTAATTACATGTTCTTTTCGT
CAATCCAGGTACCCAGCCACCTAATTTAAATATTAAACTCTTTAGATGTGAATATTTAAATATTAAACCCTTAAATTTAAACTCTTAAAAATTATTCACC
TTAAATAAGAGCAGTTAGGCTGGGTGCAGTGGCTCACGCCTGTAACCTCAATGCTTTGGGAGGCTGAGGCCAGTGGATCAGTTGGGGTCAGGAGTTCGAG
ACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAATATACAAAAATTAGCCAGGCGTGGTGGCAGACACCTGTAATCCCAGCCTCTCCGGAGGCT
GAGACATAAGAATCACTTGAACCTGGGAGGCAGTGGTGAGTCAAGATCACGCCACTGCACTCCAGCCTAGGCAACAGAGTGAGACTCTGTCTCAAAAAAA
AGAGCATTTAACTTCCAAAAGACAGTAACGGTAGACAGAAAAGTAGTTTCACATCAATTTTTTCAACTGAGGAATAAATGACCAGATCAGGTAACTTTGT
TTAATCTCAAAGGATTCTGTAATTAATGTTTATTTCAAAGAGGTGGAAAAAATACACTGGAGATGGAGAAAAATACACTAAAACAAAGAAATGAGTAGAA
TGTGGTGGATGCTGTGATTTGCCACCAAGATCTCTTTAGGAATGAAGGACTCTGACAGCTGCTTCTGATGTCAGCCCCTTGGGCATTKCCTCAGCTGATC
AGAACCCAGAAGCCCAGTGCCAGACCTCCCCCTGGGGTGCACTGAACCCTTGGATTGACTGAATCAGGACCCAATCTCACCCTCTGCTCAAAATCCAGTT
TCCTTTGCCTCCTTTATGCAGCTATTGATCCCAAGGTCCTGCATGCTAATCTCAGCCTCACAATCTGCCTCCCAGGAGAGCCTAGCCTGCAACAACACAG
GTGAGCACAGCTATCACAAATTATTTGAAAATTAGAAGGTGGGCCAGGCGCGGTGGCTCACACCTGTAATCCCAACTCTGGGAGGCCGAGGCAGGCGGAT
CACCTGAGATCAGGAGTTCGAGACCAGCCTGGCCAAAATGGTGAAACCCCATCTCTACTAAAAACACAAAAATTAGCTGGGCGTGGTGGCAGGCGCCTGT
AAATTCAGCTACTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGACACGGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTG
GGTAACAAGAGCGAAACTCTGCCAAAAAAAAAAAAGAAAAAGAAAAGAAAAGAAAAGAAAGAAAATGAGGTGAGGGGCACTTCCACAAGAGCGTGCAACA
TTCAAAATGATTTGATATAATAACCAAAAAAATTCAAAGCAGGGTCCCAAACAGATATTTGTACAGCCATATTCATAACAGCATTACTCACAATAGCCCA
GAGGCGAAACAACCCCAGTGTCCATTGATGGAAGGATGAATGAATAAATAGAATGCRGTGTATCCACACAATGGGATATTGTTCAGCCTTTAAAAGGAAG
GAAATTCTGACACATGCTACATACAACATGGTTATACCTTCGGGACATTATGCTAAGTGAAATAAGCCAGTCACTAAAGGACAAGTACTATATGACTTCA
CTTATATGAGTTATCTAGAGCAGCGGTCCTCAACCTTTTGAGCACCAGAGACTGATTGTGTGGAAGACAATTTTTCCATGGACCTGGGGAGTGGGGGATG
GTTTCAGATGATTCAAGAGCATTACATTTATTGTGCGTTTTATTTCTATTATTATTACATTGTAATATATGATGAAATAATTATATAACTCACCATAATG
TAGAATCAGTGAGAGCCCTGAGCTTGTTGGGTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTGAGACGGTGTCTTGCTGTGTCGCCCAGGCTGGACTGCA
GTGGTGTGATCTCAGCTCACCACAAGCTCCGCCTTCCGTGTTCAAGGATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGCCCACTATG
CCCAGCTAATTTTTATATTTTTAGTAGAGATGGGGTTTCACCATGTTGACCAGGCTCATCTTGAACTCCCGACCTCAAGTGATCCTCCTGCTTCAGCCTC
CCAAAGTGCTAGGATTACAGATATGAGCCACCACGCTTGGCCCACTGAGCTTGTKTTCCTGCCACTAGATGGTCCCCTCTAGGGGTGATGGGAGACAGTG
ACAGATCATCAGGCATTATAATCTCATAAGGAATGCATAACCTAGATCCCTTGCATACGCAATTCACAATAGGATTCACGCTGYTATGAGAATCTAAGCC
ACTGATCTGACAGGAGACAGAGCTCAGGTGGTAGTACAAGTAATGGGGAGAGGCTGTAAATACAGATGAATCTTCCCTCCCTCACCCACCGCTCACCTCC
TGCTGTGCGGCCCCGTTCCTAACAGGTACTGGTACCAGGCCCCGGGGGTTGGGGATCCCTGATCTAGAGTAGTCAAATTCACAGAAACAAAGTAGAATGA
TGCTTGCCAGGGGGTGTGGGGAGGAGGGATAGAAGAAAGGGGAGTTGTTTGATGGGTAAAGAGTTTCAGTTTTGCAAGATGAAAAGTTCTGGATATTGAT
TGTACAAAAACATGAATACACTTGATACTACTGAACTGTAAAAGAAAATTAAGATCTGATTTGAAAGAAAGAGATATTGATGCTGCAGGAAGAATGCATG
TGAAAACAACAAAAGAGGCCAGGTGTGGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGA
CCAGCCTGGCCAACATGGTGAAACCCTGTGTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGCACCTGTGATCCCAGCTACTTGGGAGGCTG
AGGCAGGAGAATCACTTGAACCTGGGAGGCGGAGGTTCCAGTGAGCCAAGATGGCGCCACTGCACTCCAGCTTGGGCAACAGAGTGAGACTCGGTCTCAA
AAAATAAAAATAACAAAATAACAAAAGAATATATTGGCATACAATCTGCATGATCCAATTTTTGACAAGGTCATGACTAGAGTTCCAAAAGAAAATTCAC
AATTCTGATAATGTGTGAAATAACATTTATGCAGAACATGAGGACTGGAAGCAAGGGATGACCCACATTACTTAGGGAATATCTTAAAACGCATTACAAT
TATGACTTGTTTGATTAATGGAATCATTTCCAATAAGGCAAGAAATACTAAATACTTCTCAACTATTTGGGCCACAAACCCTAGAAGGTACCCACATTTA
GTAAACTGCTTATGAAAATCAAATATGAAAAAAAATTTTGAGAGGCCAGATGTTTGCAAACATGATTGGAAATGGAACCATGCRTGGAAACTGATGGAAT
GCAACAGAAGATCCTTGAGAACATTCTAAGGCATTCAGAATTCTAAGGCATTCAACAGACTCGTGAACACTCAGACACCAGGCAGATGAAGACAGCCAGA
TGGATGCTCCCAAAAGGTACAGGGAGCTGACACTTCAAAGTCTCCAAAAGTACCTGAATGATACCAGAATCAAAAGTGCACACAGCACTCACATACTCAY
GCATTCACCAGACTGGTCTGCCTACCCTGTAAGCCTCAATCCCTGAAACTGACAACTGCTGTGAAGACCTTCARTGCCTCCACCTTCCACGGGGGCTTCA
GAAAAACCATCCTCCTTCCTGGCCAGACTCCACTCTCCAGAGACCCCCGAGCACAACCCTGCCCCGGTCTGGATAGACCCCCACTGAGAGCCTGGGGCAG
AAACTGGAGAATCAGGAAGGAAGAATAATTTGTATGCAAAACAGGTTCTGGGAAGTGAGGCCTGATGGGAAGAGGAGGGATTTGGCAAGATGACAGTAAG
GGAGGACATAGCTTGGTGAGTGTCCATAGTGGCTGCTGTCAAAGAAAAATTGCACAGGCAAGGCAGACTTTATTCAAGGAGATTGCAATAGGGAAAGAGA
CTGAACTCAACTCCACTGAAACAAATRTGCTAGGGTGGTTAAGCCCTAGGTGAGTTAATGGAAAAATATTGGAGGACAATGGGGGAGGTGGGTCAACGGG
ATGTGTCCATCACATGGAGTTATTCCTGAGTCTGCAAATGTTTTTCTCTGTGATTGGGCCATCTGAGTTTGCTGATTGTCAATTATCAAAGTGAGGCTCC
YAYCCTCCCACAGAGACTGGGCGATAGGGGTGCTRTCTCCCTTGATGATTTCAAAGGGATAATTCCCAGGTCCTTGAAAAAGACATTCCTGGGTTGTAAC
GCTGGCAAGAGACCAGGAGAAGATTTACCTACATTTCAAAGGSGCAGAGAAGGCCGGGCACASTGGCTCACGTCTGTAATCCCAGCAATTTGGGAGGCCG
AGGCGGGCAGATCACTTGAGGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTGAAATTCTGTCTCTACTACAAATACAAAAATTAGCCAGGCAYGGTG
GCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCAC
TCCAGCCTGGGCAACAGAGTGAGACGCCGTCTCAAAAAGAAAAAGAGAGGGGGTGCGGGGGGAGCAGAGAAAGAATTTGCAATTATATTTGGCCCTCTGT
GTCTATGGGGTTCTGCATCCACAGGTTCTACCTCCACGCATTCAGTCAACTTTGGATAAAAAATATTTTGAAACCAAAAAACAATAAAAAAAATAGAAAT
AGAAAACAATACCGAGGGATGACTGTACAAGTTTTCTAAAGTAAGTGTCCTACAAAAAGCGTGATCCAGGGCCGAGAGGAAGAAACCTGTCTAAAGTTTA
GTCGATCTGAGGGGACCATTAAGGCTCTTTTGGTCACCAGTGTTACGTGGACTCTGCCATCCAGATGTGGGTCTGAGACTCTGGGTGTCTGCACATGGCT
GGTGCCCACTCTGTGGCTAGTATCCACTAGCCTGATCCAGCAGGCAGCATCTCCAGGCAGCAAGAAGTGAGACAAACCAGGAGGTGCTAGCCTGGGGTCT
CTGCCTCAGCACCAACCACCTGCTGGGGCCTCCTCTGGACCTCCTCACCTGCTGAGTGTCTGAGCATCCACATGTGTCTGCCTGTGTCCTCGGGGGACAG
TGACCCTCTGGTTGTCTGCTGTATCTCCATCTTCTTGATTTCATTCATTTAATAAATGTTTCTGAAACACCTGGGGGCATGTCGTGTCTATCGGGGTGTC
CCTCTTCACCTCTAGGTTTGTCTGTGTGACTACACAGTCACATCTGTTCACAGCAGGCTGTGTCTGTCTTTCTGCATCTCATGTGTAATTGCTTCCTCGA
AGGCACACTCTCTCTCTCTCTCTTCCTCTCTCTCTGTTTCTCTTTTGTGTCTGTCTCTCCCTGTATGTCTCTTGGTGCCTCTCTGTTTGTGTCTTCATTC
ATTGATTCATTCGTTCAGTCATACGGTATCTCAGACATTCCTGGAGGCCCCCGAAGAGTTCACAGCCCGGTAGGGGAGACAGACGCTAGCCCAGCCTAGT
TTGATCAGGGCTGGGAGACAGGAAGGTGCTGGAGGCTGAGGGTGTGTGGATGAGTGGGGAGATGGGGTTCAGAGAAGGTTTAGACGATGGGACGATGAAC
GTGTCTTTGGGTGTGGAGACATCCCAGGATTGGAAGCTGTGTGGGTGGTGTGTGTTGGGGTAGGGGGAGGGAAGGGAAGTCAAAAGGCCATATGTGCCAC
CCTCAGATTAGAGCAGAGTGCTGGGAGGGGTGAAGGAAGAAGGCCAACAAGACACCAATCATTCAAAATTAAGGGTTCCAGACTTCTAGTTCTCTCCTCC
CTCAGACCCAGAAGTGTAGATCTCCAGCAACTGAGGATCACCCTGTTTCCATCACGATTACCTAGGAAGAGACCCGCCCACATAGGGAGGGTGGGACGAA
GAAATACTGGCCAGGCTGGGTGGCCGGGATGCTTAGGACTCAGTAAGGAGAACCAGCCAGGCAGMACATCACAGCGGGAGGAGCTGTCCCAGGTGGCCCA
GCTCAGCAATGGCAATGGGGGTCCCCAGAGTCATTCTGCTCTGCCTCTTTGGGGCTGCRCTCTGCCTGACAGGTACGCAAACTTCTGAATCCAGTAGTGA
GAAGGGGCAGGTGGCCTGGACTCCTAGATCTGAGGGAGGAGAGACTGGGGGCCTGGACTCCTGGGTCTGAGGGAGGAGGGGTTGGGGGCCTGATCTCCTG
GGTCTGAGGGAGGAGGGGGCTGGGGGCCTGAACTCCTGGGTCTGAGGGAGGAGGAGGCTGGGGGCCTGGACTCCTGGGTCTTGGTGGGCAGGAGCCTGGA
GGCTATGTCATTTTCATTTCTCTTCCCTGCCTTTGTTCTTCTCCCATCAGTCATTTTTCCTGGTGTCTCTCTTCCCACCATCCCAGCCTTTCTTCTCTTC
CTTGCCCAACCCCCAATTCAAAGGTATTTCCAGGGAGCCCTCAGGACTCTTTCCGAAACTGGCAGAAACCCTGGCTTCACCTTCAGGCAACCTCTACCCC
ATTGTGGGCTAGGACAGGAACATAACTCATTTCAGAATGGAAGTGGTTACAAAGACAGGGAATTAGAAATGTAGAAAGGAGGCTATTCCTGCACACAACC
AAATCTGTGTGTTTCTGCTCCTTAATGGGAGAGAGTTTGATTTCTGTATGTGTCCAGGTTCAGTATGTCCTRTGAGTCTCTGTGCTTGTGTGTGTTTCTC
TGTATAGGTTTTAAAGTCTTAGTCTGAACAAATGCGTTTGTGGGTCTGTTTCTGAGTTTGCTTTCTTTGTAAAAGAGATGCGTGTGTAATTTTGTGTATC
TGTGTCTGTGTTTATGTATCTGTGATTTGTAAGCCTATATTTATCTCTATGTATATATGCTCAGTTTTTGTTTTTTGTTTTGTTTTTTGAGACAGGGTCT
TGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCACAGCTCACTGAAGTCTTGACCTCCTGGGCCCAAGCAATCCTCCCACCTCAGCCTCCTGAGTA
ACTGTGACTATAGGCATGTGCCACTGCGCCTGGCTAATTTTTGTATGATTTTGTAGAGGTGGGGTTTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTG
AGCTCAAGCAATCCACTCACATCAGCCAATGAGACTGGCCTTTTTTCTTGTGGTTGTTTTTWAAATAGAGATAAGGTCTCACTCTGTTGCCCACACTAAG
GTGTAGTAGCACAACCATGGCTCACTACAGCCTCAAACTCCTGGCTCAAGCAATTCTCCTGCTTCAGCCTCCCAAGTAGTTGGGCCTGCAGGGGGACACC
ACCATGCCTGACCAATTGTTTGGGCCTTTTGATGTGTTTTTTTTTTTTTTTCTCTCCATGTATCTGTGTWACATGGGTCTATACATTTTGTATCCATATG
TGATTTTGATTTTTTTTTTTTTTTGAGACAGAGTCTCCCTCTGTCGCCGCCCAGGCTGGAGTGCAGTGGCGCGATCACAGCTCACTGCAACCTCTGCTTC
CCAGGCTCCAGCAATTCTCGTGCCTCAGACTCCTGAGTAGCTGGGACCACAGGCGTGCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAAACGG
GGTTTCACCTGTTGCCCAGACTGGTCTCTAACTCCCGAGTTCAGGTGATCCTCCTGCTTCAGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCAC
CCCTGGCCTCCATATATGATTTTAAACTGTATGTTTTTGTGATCTCATTTTCCTGTATCTCTAAACATCGCATAATTGTGGCCTCTGGTTTTATTTGTGC
TTCTGTGATTTGGGACCTCTCTGGGTATGATTTTCTGTGCATCTGGTCCCTCTCTGTGTTGATATGGTTATCATACAGGCACAAGCATCCTCACAGACAK
ACGCTTTGTGTCTGTGTGATTTTCCATGTGTGAAGTGCTGTGCCTTAGTTAGGGAGGTTTATATTGCAGGGTCCAGATGCGTACTTGTTTTGTGTGAGAA
TGTAAAACTCTGCCTGGGTGCATTCAGGATATTCTGTGTATATTTGTGAGACTTGGATGAACCTGTGTATGTGTTGTTATTGTGTGTTTATGTCAGTTTG
TGTGTTGCTGGGGCTGATGTATGGGTTTACAGGGCACTACAGGACCACACTTCACTCTACCTGTCCTGGAGTGCATGTTTCTTGTCAGGGGTCTCTTACT
GTGCTGTCCACTTTGTGAGTTAAGCTTGGGGAAGGATGGGCAGAGCAAGAATGAATCACTTTTCCTTCCTATTCTAAGTCATAGCTAGGGAGAGGGCTTC
CTGGAAGAGGGTGGAGACCTGGAGTGTCCTGGAGGGAAAAAACTGGACTGTYAGCTGCAGAGAGGTCATTACTCTGCCATGAGACAGACACAGCTGTGAC
CAGCTGCAATAGCAGCACCTGGTCTCTCAAGGCGTGTCTTCCCTGGGAGCAGAGGGGCCAGGCCCGTGTGCCTGTCATTTGCTGGGTGGAGCTCTGAGTT
CCTGGGACAGGCTCACACTGGCCCTGCTGACTCTGCCACGCCTCTCTCCCCAGGGTCCCAAGCCCTGCAGTGCTACAGCTTTGAGCACACCTACTTTGGC
CCCTTTGACCTCAGGGCCATGAAGCTGCCCAGCATCTCCTGTCCTCATGAGTGCTTTGAGGCTATCCTGTCTCTGGACACCGGTAAGGAGCGGGAGCCGG
GGGACAGGGATGAGAGATTAGGGAGGAAAAAGGGGGGAGAGGGGAGCAGAAAGGGAGGGGAATTGAGTAGAAGATGAAAAGATAAAGATAGAAAGATGGG
GAGGGAGAGGAAGAAGAGGAGGAAGAAAAAGAAAAGGGTGGATGAGGGCTGGGGCAGTGGCTCAGGCCTGTAACTCTAGCACTTTGGGAGGCAGAGGCTG
GCGAATCACGAGGTCAGAAGTTTGAGACCAGCCTGGCCAACATGGCRAAACCCCGTCTCTACTAAATATACAAAAAGTTAGCTGGGCGTGGTGGCGGGCA
CCTGTAATCCCAGCTACTCGGGAGGCTGAGGCACGAGAATCGCTTGAATCCGGGAAGCGGAGGTTGCAGTGAGCCGAAATCGGGTCACTGCACTCCAGCC
TGGCGACAGAGCRAGGCTCCGTCCTCCGCCCCACAAAAGAAAAAGTGGATGAGGGACGAGCGGTGAGGGGAGGAAACAATGGGGAAGCAAGGAAGAGAAG
GTGGGAGAGGCGCACAGGGAGGAAGAGTGGAGGAAGAGAAGAACTCGGGGGAAAAGGTCTGGGGGTGAGAGGAAGGAGGGAAGGAGGGAGGGGAGGAGGT
GTAGGTGAAAGTGAAAGGATAGAGGGAGGAGGAAGAACGCTGAGACTGGAGGGAGAAGGGTTTCGGGAAGCAGAGCACGAGCCCCGATCCCGCCCCCAGG
GTATCGCGCGCCGGTGACCCTGGTGCGGAAGGGCTGCTGGACCGGGCCTCCTGCGGGCCAGACGCAATCGAACSCGGACGCGCTGCCGCCAGACTACTCG
GTGGTGCGCGGCTGCACAACTGACAAATGCAACGCCCACCTCATGACTCATGACGCCCTCCCCAACCTGAGCCAAGGTGCGCGGGAGAGCGGGGCTGGGC
TCCGGGAGGGACGATGAGAGGCCTGGCAGCCTCGGGGAAGGCGTGGCCTCCGCTGGGCGCCTGCTCTTGGCGCGCTAGGATCCCAACCCCCGAGACGTGC
TAGGCGCGGGCTCTGGCGCAGTGCGCAGCCCGCACGACTGTGCCAGGGTACCACTGCCTGAGTGTGCATCTACGCTCTCTTGCCAGCACCCGACCCGCCG
ACGCTCAGCGGCGCCGAGTGCTACGCCTGTATCGGGGTCCACCAGGATGACTGCGCTATCGGCAGGTCCCGACGAGTCCAGTGTCACCAGGACCAGACCG
CCTGCTTCCAGGGCARTGGCAGAATGACAGTTGGTAAGGGGCTGGAAGGGTGGAAGGGCCTGGGCAAGGGATATGGAGGCAGGGCAGCCATGAGGGTAGT
GATACCAGACAGGCCCAACAGGGAGACATGGCCCTGCTCTGAGGTGGGAGGCATGACCCTGGTCTGAGGGAGAAGGTTTGACCCTGGTCTGAGGGAGAAG
ATTTGGCCCTGGTCTGAGGGAGGAGGCATGACCCTGGTCTGAGGGAGGAGGCATGACCCTRGTCTGAGGGAGGAGGCATGACCCTGGTCTGAGGGAGGAG
GCAAGACCCTGGTCTGAGGGAGAAGGTTTGACCCTGGTCTGAGGGAGAAGATTTGGCCCTGGTCTGAGGGTGGAGGCATGACCCTGGTCTGAGGGAGGAG
GCATGACCCTGGTCTGAGGGAGAAGCCTGGCCCTGCTCWGAGGAAGGAGGCCATGCCCYRGTCTGAGGGAGGAGGCATAACCCTGGTCTGGGGGAGGAGG
CATGGCCCCTGGTCTGAGGGAAGAGGCATGGCCCTGGTCTGAGGGAGGAGGCACGACCCTGTTCTGAGGGAAGAGGCATGGCCCTGGTCTGAGGGAGGCC
TGGCCCTGGTCTTAGGAGGAAAACCTGAAGCAAGTCTGAGGACCGAGGCATGGCCCTAGCTACCAAGGTGAAGGTTCAGGTGCAGCTGTCTCCCTCAGTT
CTGACCGTTCCTCACTGCTTTGCCCACCTCCAGGCAATTTCTCAGTCCCTGTGTACATCAGAACCTGCCACCGGCCCTCCTGCACCACCGAGGGCACCAC
CAGCCCCTGGACAGCCATCGACCTCCAGGGCTCCTGCTGTGAGGGGTACCTCTGCAACAGGAAATCCATGACCCAGCCCTTCACCAGTGCTTCAGCCACC
ACCCCTCCCCGAGCACTACAGGTCCTGGCCCTGCTCCTCCCAGTCCTCCTGCTGGTGGGGCTCTCAGCATAGACCGCCCCTCCAGGATGCTGGGGACAGG
GCTCACACACCTCATTCTTGCTGCTTCAGCCCCTATCACATAGCTCACTGGAAAATGATGTTAAAGTAAGAATTGCACTCCTGTCCCTCTGGCCTTCCAT
CTCTCCYGCCCTTGTGCCCCACAACCTGGCCAACAGTACTGGAAGAAACTGGACACAGTCACCAGCATCCCMGGGGAGGGCAAAACAGCCATGTCGTGCC
CYGATGAAGAGCAATTCTGATCACAGCTGTTACTCAMTGAGCACCAGCCAGGCACCAGGCACCCCATAACACGGCTTCCTGTGCTCTCCYTCCAGAGCCT
GTCGCAGCTCTAGGRGGGAGCTATACAATGATGTCTTTATTAGTGTCATCATGAGAAGCCCAATAAGCAGTATGCCCTAACAGTTAGTAGGCCAGGCTCT
GGAGCTAAGCTGCATGGGTTCAAATCCCAGCTCCACCATTCAGCCTGCAGAGACCATGAGCGAGTTACTTAAGCCAGGCTCTGGAGCTAAGCTGCATGGG
TTCAAATCCCAGCTCCAGCATTCAGCCTACAGAGACCATGGGTGAGTTACTTAAGCCAGGCTCTGGAGCTAAGCTGCATGGGTTCAAATCCCAGCTCCAC
CATTCAGCCTGCAGAGACTGTGGGTGAGTTACTTGAGCTCTCTGTGCCAATATTTTCTCACCTATAAGGTGGAGGTGAAAATAAACTCTATAACATGACA
AGAACTACTTCACAGTAGTTGCAGTGAGGATTCAACGAGATGAACATTTAGTACTTGGGACACAGCAGTGGCCCAGTRTAAATGGGCTACTTGTCATAAG
CCCTAAGTCACAGGTCAACAAACTGAGAGGYAAAAGCACTTGGTTGAGCTTGTGTATCTAGTGAGTATGGATTYAGGGACCAGATTCCCAGCCCCACGAA
CTGCTAAGCAACCCCMCCTCCTAAACACATGAGTGCCGATTAACTTCACAGAAAAACACMCAAGGCAAAGTTCAGCGAGGTGAAATTCTCCAAGCTATAA
AGATCAGGGAAGACTTCCTGGAGGAATTCACCCTTGAGCAAAATCCTAAAGGATCAATAGTAGCTGGCAAAAAGAAGCAGGAGGAAGCRCATTCTAGGTA
GAGGAGACAGCCTGGACAAAGGTCTGAGGGAGGAAGGARCACAAGGAGTGCAGGACACTTTCATRAGTGCAGGACACTTTCATAACTGCATGAACTTCAT
AGAGATGGGATCCTTTAGCATGTTCTCTGTGCACATGCTTGACCATGTTCTTTCACATGCTTTTTGCCACTTGATCTTTCCAGCAACTCAGTGAGAGAAG
CAAAAAAGTAAGTTGCATCCTGCTATTGTCTGAATGTTTGTGTCTCCCCAAAATTCATCTTTTGAAACCTAATTACCAAAGTGATATTACTGGGAGGTGG
GGCCTTTGGGAGGTGGTGAGATCATGAGGGTGGAGCCCCCATGAATAGGATTAGTGCCCTTATAAAAGAGGCCCTGGAGAGCTGCCTTGCCCCTTCCACC
ACATGAGAACACAGCCAGCAGGTGCCTATAAGCAAGAAAGTGGGTTCTCACCAGCCATCGAATCTGCTGGTGCATTGATTGCAGACTTCCCAGACTCCAG
AGCTATGAGACATAAATTTCTGTTGTGTATAAGCCATACAGTCTATGGTATTTTGTTACAGCAGCCTGAAGGGACTAAGACACCTTCCTGTTTTACAGAC
AAGATGCCCAAAGCACAGTGAGAGAGCAATTTTCAGAGTAAGTGCATAGCAAGAGTAGACTCCCGTGTCTTCTCGCTCCATGTCAGCAAGTAGACTTGTG
GGAAGGGGGGCAATTCAGAAACACTCCGCTCCTATGCTCCTGTAAGGCCATGTGACAAGGGCTTCAGGTGTCTTTACATCCTGACATACAAGGGGAAGCT
GGATGTCTTCATTCATCCTTCACATTTACTGAGCACCTACTATGTGCAAGGCACTGTTCCAGTTGCTGGGCATGCAGCAGGGAACTAAAGTGGCAAAAAT
TCCCACCTTCAAGGAGCTAGCCTTTTTGATGGGCTAGCAATCCAAAGCGAACTTTGGATTTTGCTTGTGTATTTATTAGAGACAAGGTCTCGCTCTATCC
CAGGCTGGAGTGCAGTGGCACAATCAGCTCACCGYGGCCTCAATCTCCCAGGCTCAAGCAATCCTCCCACCTCAGCCTCCCTAGTAGCTGGGACTATAGG
TGTGTGCCACCACACCCTGCTAATTTTTGTATTTTTCATAGAGATGGGGCCCCCACTATGCTGCCCAGGCTAGTCTCAAACTCCTGGGCTCAAGCAGTCC
TCCTGCCTCAGTCTCCCAATGTGCTGAGATTACAGGTGTGAGTCACCATGCCCAGCCAGATTTTGGATTTCATTGCAAATGTGGTCTGAAGTTGGGATGG
CCAGTTTGATGTGTCAGCTTACCTATGTGACAGTTCCAGTTATTCAATCAAACACTAATCAGTGTGTTGATGTGAGGGTATTTCGTAGATGTGATTAAAG
TCCATAATCAGTTGACTTTGAGGAAGGGAGATTGTTCTAGACAGTTTGGGTGGGCCTGACTCTATCAGCTGAAAGGCCTTAGGAGCAGAGATGAGGCTTC
TCTGAGGAAGAAAAAAACTGCACCTATGGACAGCTGCTTCAGCCCATGCCTGAGATTCCAGCTTGCTCTTTCTGACCTGCCTAGCCAGGCCACATAAGCC
AATTCTTTGCAATAAATCTTATATTATAGATTGTCTACTGGTTCTGTTTCTGTGGTTAATCCAAGACTAACACAGAATGTGTTGGAGCCAGCGTGGTGGC
TCATGCCTGTAATCCCAGCACTTTGTGAGGYTGGGTTGGGCGGATCACCTGAGGTCAGGAGTTCAAGACTAGCCTGGCCAACATGGTGAAATCCCGTCTC
TACTGAAAATACAAAAATTAGCCGGGCATGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAAAAGTTGCA
GTGAGCTGAGATCATGCCATTGCATTGAAGCCTGGGCAACACACAGAGACTCTGTCTCAAAAAAACAAAAAAAAGAATGCGTTGGAGAAGTAGAAGGCTG
CCATAATCATATATAAGGGTGTATGTGTGTGTGTGTATGTGTGTATATATATGTTGTATGTGTATATAATTATATGCACATATAATTACATGTAATATAT
GATATAACATTTTCATTGAGGTATAAAATATATACAATAAAATGCATAAATTGCAATTTTTCCATATGTACATACCTGAATAACCTCCACCTAGGTCAAG
ATGTAGAATATTTCCAGCCCATGTCCCCAGAGCCTCCCTCATAGCCCTTCAGAGTCAGTTTCCCACCCCAAGGATAACCATGACTCCAACTTCTATCACA
GATCAATTTTGCTTATTTTTAAACTTCATATGAATGGAATCCTACAGCATGTGCTCTTGTGTACATGCTTTACATTTTAAAAGCTTCCCTGTGGCAAGAA
TGGAAGCTAGACCTGTGAGGTGGCTACTGCCCCAGTCTAGGCAGAGATGATATACCTAGGCAAGAGATGATGGCAGAGGTAGTGCAAGGAGTTGGAAAAT
GAATAGATTTTTTAAAAATTTAGCTTCTCCTTAACAGGCTGCAAGGAATAGGTTTTATTAGTGGAGAAGACAGGACCTGCTGATATATTGGTTGAGGAGT
ACTTGAGATGACTCCTAGGTTTCAGCCTGAGGAACAGGGTAAATAGGTTTCAGCCTGAGGAATGGGGAAAAAAGGAATCGCTCAGCTTCATAGTAATCTT
TCTTCTTCTTCTTCTTCTTTCTTATACAGAGTCTTGCTCTTTCACCCAGGCTGGAGTGCATTGGCACGATCTCGGTTCACTGCAAACTCCGCCTCCCAGG
TTCAAGCAATTTTCCTGCCACAGCTTCCTGAGTAGCTGGGATTACAGGCATGAGCCACCGCGTCTAGCTAATTTTTTGTGTGTGTTTTTAGTAGAGACGG
GGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATCA
CACCTGGCCAGCTTCTTTATAATCTTATGGTGCCACAGTGATGATAAAGGCAGTCCGTCGTTGGCCAAGGGGTTGTTAGGCAGTGTATGACTGTACTTCT
GAGATAGAAGATTATCCCTGAGGCATGGTGGCCAAGGACTCCTGTGAGATGAAATACATGAGCAATTGGCAGTTCTTTGTCATGAGAATGATTCAAAAAC
TTCTAAAAGCTTATACTTGACAGCTCTCACTAAGTAGAACAGGGGTGCACCGACTGCCTTAGAACTCATAGTATGGGGGGTCCAAGTGAAACTGTGGACT
CGGCTATGTAGCTGCTTGGGTATTGCGACCCAGATGCCTTCCTGAGTGCTTAGCAGAGAGGGAGATGCCTTTCAAAAGTAATTATGGTTTTGGACCATAA
ATTTCATTTTATTTATTTATTTTTTAGACAGAGTCTCACTCTGCTGCCCAGGCTAGAGTGCTGGAGTGGCACGATCTCGGCTCACTGCAACCTCCACCTC
CTGGGTTCAAGCAACTCTCCTGTCCCAGCCTCCTGAGTAGCTGGGACTGTACAGATGCATGCCACCACATCTGGGTAATTTTTGTATTTTTAATAGTGAC
AGGGGCCAGGGGGAGGGGGAGCTTTCACCATATTGGTCAAGCTGGTCTCAAATTCCTGACCTCAGGTGATCCACCCTCCTTGGCCTCCCAAAGTGCTGGG
ATTACAGGGGTGAGCCACCACACCCAGCCCGGACCATGAATTCTAAATCATTATAACTAGGCTCACACACATCTTTATTAATCAAAATAGGAACCATTAC
AATCAACACATTTTTGCCAATGAGAAATAAGTTTGTTGATTCCTGTAGTATAAAAATATGTGCTTCAGGATTCAACAAACTCTGCTTTATGACCCATTTT
GAACTCAAATAAGAAATAAGAAAGTCGCTCTAATGTGCTTTTTGTCTAATATCATTTCCAGAGTCTAAAATAAACATAAAATAAACATCAAGTAATAAGT
CATTAGCAGAAAAACATAAAGCAAGAAATGCCAATTACAAGGATGTATAACAGGCCAGGTATGGTGGCTCACAACTGTAATCCCAGCACTTTGGGAGGTC
AAGGTGGGCAGATCACTTGAGGCCAGGAGTTTGAGACAAGCCTGGCCAGCATGGTGAAACCCTGTCCCTACTAAAAATACAAAAATTAGCCAGGCATGGT
GGTGCACACCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCCTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCTAGATCGTGCCACTGCT
CTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAGATGTGTAACATAACCACATTTATTTAAGAATGTATTCCAATATCAAATG
GCAAATTCCAACAATGCAAAAATCGCAATTACTTTTGCACTCACCTAATAAAAGCTTCACCTGCTGGAAACAGTGGCTCACACCTGTAATCCCAGCAATT
TTGGAGGCAGAGGCAGAAGGATTGCTTTAGCCCAGGAGTGCGAGACTAGCCTGGGCAATGTAGCAAGACCCCGTCTCTCTAAACAATTTAATTAAAAGTA
AAATAGGCCGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAA
CATGGTGAAACTCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACATGGGAGGCTGAGGCAGGAGAAT
GGTGTGAACCTGGAAGGCAGAGCTTGCAGGGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAA
AAAAAGTAAAATAAAAGGCTTCATTTATTAGCAAGGATGTGGAGCTACTGGGATTCTCACATCCAAGTAGTATGTGTGTAAAATAGAACAACCACTTTGA
AAAACTATTTTTCAGTACCTACCTGTGTTTAAAGTGTGAGGAAAGCCAGAAGCAGTGGCTCACTCCTGTAATCCCCGCACTTTGGGAGGCCAAGGTAGAA
GGAACACTTGAGCCCAGGACTTTGAAACCAACCTGGGCAACATGGTGAGACCTTATCTCTACAAAAAACTAAAAATATTAGTGGGGCATGATGGTGCATG
CCTGTGGTCTCACCTACTAGAGAGGCTGAGGTGGGAGGATTGCTTGAGCCCAGGTATTTGAGGTTGCAGTGAGCTATGATCGCTCCATTGCACTCCAGCC
TGGGCAACAGAGTAAGACACTGTCTCTATTTTTTTTTAAGTGAAGAAGATGTGAATGAAGATGTGGCAGTGCCCCTGAAGGGCTTACAATGTCAAATAGG
GATAACATTTTCTGAACTTTCTCCTACAGCCAATGGGGATACATGGACTGATATAGAGAAGGGGCGAGGCATGGTCAAAGCCAGGTGATATGAGGCTCTC
CCTGTGGCCATGCAGGAGACAGGCCCGAGGGAGTGAGATTGGAGGCAGGGAGACCAGGGAGGTGGATGGTGAGAGGGCCTCTCATGCTGCCTGGTTTCCA
GAGTCAAGGGCAATTTAGGATTAAAAGGCTGGAGGCAGAAGGAGGAACTGAGAAACCAGAGTGTGAGTGTTATGGTCTACGAGGAGTTAAAGTCCCTTCT
AAGTGAGGGTAGTGGTTTCCTCTGGAGGTTGGGGGTTCCCGATCATAAAGGAGCACATAAGGAGATTCCAGGGAATGCAAATACTTTCTCTTGGTGTGCC
TTTGATTTTATGGAGGTTCACAATACATCATTTGTCCAAAATGTACCACTATGTTTTATGCACTTTTGGCATATAAGGTATATTTTATTTATTTATTTGT
TTTTGTTGTTTTTATTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAAGCTCCGCCTCCTGGGTT
TACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTATAGGCGCCCACCACCATGCCCGGCTAATTTTTTTTTTGTATTTTTAGTAGAGACGGGG
TTTCACCGTGTTAGCCAGGGTGTTCTCGATCTCCTGACCTCATGATCTACCTGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCTTGAGCCACCGCGCC
AGACCTATTTTTTTTTTAATG


SNP Information

Context             (SEQ ID NO:51422):
GCTTTTCCCCTGCCTCAGCTGAGGCCACTACCCTGGTTGACTCCCATGGTGACATGGATGCCTCATCCAGTATCGTGGGTCTGAGTCCTCATCTGCAGGG
K
CCTTGAGCTTTCCTCGGCACCCATCCCCGTTTCCCATCTGGGACTTCATTATCATCAGCATCTGCTCCACCTCCAAAACCACTGGTGGAAGCAGCCTCCT
Celera SNP ID:            hCV26204535
SNP Position Genomic:     7113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51423):
CTTTTCCCCTGCCTCAGCTGAGGCCACTACCCTGGTTGACTCCCATGGTGACATGGATGCCTCATCCAGTATCGTGGGTCTGAGTCCTCATCTGCAGGGT
S
CTTGAGCTTTCCTCGGCACCCATCCCCGTTTCCCATCTGGGACTTCATTATCATCAGCATCTGCTCCACCTCCAAAACCACTGGTGGAAGCAGCCTCCTC
Celera SNP ID:            hCV26204536
SNP Position Genomic:     7114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51424):
TTCTTTCAGGAGTAAGATGGTATTGTACTGTGGTTTTGATTTGCATTTCCCTGATCATTAGTGATGTTGAGCATTTTTTCTTATGTTTGTTGGCCATTTG
Y
ATATTTTCTTTTGAGAATTGTGTATTCATGTCCTTAGCGCACTTTTTGATGGGATTGTTTGTTTTTCTTGCTAATTTGAGTTCTTTGTAGATTCTGGATA
Celera SNP ID:            hCV26204537
SNP Position Genomic:     8358
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51425):
TGGCAAAAAGAAGCAGGAGGAAGCGCATTCTAGGTAGAGGAGACAGCCTGGACAAAGGTCTGAGGGAGGAAGGAACACAAGGAGTGCAGGACACTTTCAT
R
AGTGCAGGACACTTTCATAACTGCATGAACTTCATAGAGATGGGATCCTTTAGCATGTTCTCTGTGCACATGCTTGACCATGTTCTTTCACATGCTTTTT
Celera SNP ID:            hCV11463477
SNP Position Genomic:     36865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51426):
TGAATATCTTCTTAAAATTTACAATTGTTTTGACCATTTCCCAGTCCTTAAACCAATGATAACATTTTATTTTCTTTTTCTTTTTTCTTTTCTTTCTTTC
T
TTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTAGTTGCCCAGGCTGGAGCAATGGCACGATCTTGGCTCACCGCAACCTCCACCTCCCAGGTTCAAGC
Celera SNP ID:            hCV26204538
SNP Position Genomic:     9621
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51427):
AGAACTCATTATAGTGGCTTCCTAACTTGTGAACTAAGAGTACTTATGGGCTGGGCGCAGTAGTTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGG
Y
GGGTGGATCATGTGGTCAGGAAATAGAGACCATCCTGGCCAAAAAGGTGAAACCTCATCTCTACTAAAATAAAAAAATTACTTGCGTGTGGTGGTGCACA
Celera SNP ID:            hCV26204539
SNP Position Genomic:     15254
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51428):
CTCATCTTGAACTCCCGACCTCAAGTGATCCTCCTGCTTCAGCCTCCCAAAGTGCTAGGATTACAGATATGAGCCACCACGCTTGGCCCACTGAGCTTGT
K
TTCCTGCCACTAGATGGTCCCCTCTAGGGGTGATGGGAGACAGTGACAGATCATCAGGCATTATAATCTCATAAGGAATGCATAACCTAGATCCCTTGCA
Celera SNP ID:            hCV8597623
SNP Position Genomic:     26855
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51429):
ATTTGTACAGCCATATTCATAACAGCATTACTCACAATAGCCCAGAGGCGAAACAACCCCAGTGTCCATTGATGGAAGGATGAATGAATAAATAGAATGC
R
GTGTATCCACACAATGGGATATTGTTCAGCCTTTAAAAGGAAGGAAATTCTGACACATGCTACATACAACATGGTTATACCTTCGGGACATTATGCTAAG
Celera SNP ID:            hCV8597624
SNP Position Genomic:     26157
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51430):
TGAGCCGGGCGTGGTGGCAGTCGCCTGTAATCCCAGTTACAGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGAAGGTTGCAGTGAGCCAAGAT
Y
TCGCCATTGCACTCCAGCCTGGGTGACAAGAACGAAGCTCTGTCTTAAATAAATAAATAAATCTACAAGTCCTTTCACTTGGCACAAATCACTGTATAAT
Celera SNP ID:            hCV8597625
SNP Position Genomic:     23779
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51431):
TTGTGACCGTGGAGACTTACGGCAGTGCAAAGGCGGCCATAAACAATGCACAAGCAATCCAGCATGGCTGTGTTCCAATAAAACTTGATGGATTATAAAA
Y
TTGAATCTCATTTTTTATAGAGTATGAAACCATTTATTCTGAAGCACACACTCATACTCCAAAAACAATACTATATATTCCCTCTCTCTCTCTCCTGTGT
Celera SNP ID:            hCV8597660
SNP Position Genomic:     6596
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51432):
TGAATCACTTTTCCTTCCTATTCTAAGTCATAGCTAGGGAGAGGGCTTCCTGGAAGAGGGTGGAGACCTGGAGTGTCCTGGAGGGAAAAAACTGGACTGT
Y
AGCTGCAGAGAGGTCATTACTCTGCCATGAGACAGACACAGCTGTGACCAGCTGCAATAGCAGCACCTGGTCTCTCAAGGCGTGTCTTCCCTGGGAGCAG
Celera SNP ID:            hCV25754700
SNP Position Genomic:     33152
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,25|T,13)   total(C,60|T,16)
SNP Type:                 INTRON


Context             (SEQ ID NO:51433):
TTTATTAGGTGTGAGATGAACTGTGTTACAGATTTTATATGCCGCTGTTGAAAGACAACAATAAGTGGTAGTGAGTGGATATTGTGACCGTGGAGACTTA
Y
GGCAGTGCAAAGGCGGCCATAAACAATGCACAAGCAATCCAGCATGGCTGTGTTCCAATAAAACTTGATGGATTATAAAATTTGAATCTCATTTTTTATA
Celera SNP ID:            hCV8597661
SNP Position Genomic:     6515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51434):
AATAGGGGGCCACTGGGAGGAAATATGTACCAGCATGGCGGGTCATGTAACTGGGAAAACCCAGTCAAGATATTTCAGGCCAAGGAAAGAAAATGTTCTC
R
TGACCTAGAAGCAAAGGTAATTGTATGTGTATGTATTTAAAAAGTATGTATAAAAAACCTCACCTGAACCTTGATTTCTAAACATGCAAAAATCCTTTTC
Celera SNP ID:            hCV15818469
SNP Position Genomic:     4871
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:51435):
CGTCTGAGACACACTGTCCCTCGGCTGCTCGCGTGCACACAGGCTTGAGGATCCGGACACGACACGCTCTGTCCGTGACCCAGCCCTCCCCACCTCCAGC
R
CCCCCGATGCCACCCCCACCCTCACTGCCGGTTCCAGTCGGGCCCCAGTAAAGCCAGCCGAGCCCTCCCAGCTTCACCCGGGCTGATTACTTCTACAGAC
Celera SNP ID:            hCV8597668
SNP Position Genomic:     5658
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:51436):
AGGCAGCACATCACAGCGGGAGGAGCTGTCCCAGGTGGCCCAGCTCAGCAATGGCAATGGGGGTCCCCAGAGTCATTCTGCTCTGCCTCTTTGGGGCTGC
R
CTCTGCCTGACAGGTACGCAAACTTCTGAATCCAGTAGTGAGAAGGGGCAGGTGGCCTGGACTCCTAGATCTGAGGGAGGAGAGACTGGGGGCCTGGACT
Celera SNP ID:            hCV8597595
SNP Position Genomic:     30859
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,19)   caucasian(A,19|G,15)   total(A,20|G,34)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51437):
CATGTCGTGCCCTGATGAAGAGCAATTCTGATCACAGCTGTTACTCACTGAGCACCAGCCAGGCACCAGGCACCCCATAACACGGCTTCCTGTGCTCTCC
Y
TCCAGAGCCTGTCGCAGCTCTAGGAGGGAGCTATACAATGATGTCTTTATTAGTGTCATCATGAGAAGCCCAATAAGCAGTATGCCCTAACAGTTAGTAG
Celera SNP ID:            hCV7613735
SNP Position Genomic:     35990
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,20)   caucasian(C,23|T,17)   total(C,39|T,37)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:51438):
GGCCGAGGCGGGCAGATCACTTGAGGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTGAAATTCTGTCTCTACTACAAATACAAAAATTAGCCAGGCA
Y
GGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCACT
Celera SNP ID:            hCV8597596
SNP Position Genomic:     29196
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51439):
TACTGGAAGAAACTGGACACAGTCACCAGCATCCCAGGGGAGGGCAAAACAGCCATGTCGTGCCCTGATGAAGAGCAATTCTGATCACAGCTGTTACTCA
M
TGAGCACCAGCCAGGCACCAGGCACCCCATAACACGGCTTCCTGTGCTCTCCCTCCAGAGCCTGTCGCAGCTCTAGGAGGGAGCTATACAATGATGTCTT
Celera SNP ID:            hCV7613736
SNP Position Genomic:     35937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51440):
TTCTGATCACAGCTGTTACTCACTGAGCACCAGCCAGGCACCAGGCACCCCATAACACGGCTTCCTGTGCTCTCCCTCCAGAGCCTGTCGCAGCTCTAGG
R
GGGAGCTATACAATGATGTCTTTATTAGTGTCATCATGAGAAGCCCAATAAGCAGTATGCCCTAACAGTTAGTAGGCCAGGCTCTGGAGCTAAGCTGCAT
Celera SNP ID:            hCV560377
SNP Position Genomic:     36015
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,19)   caucasian(A,23|G,17)   total(A,38|G,36)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:51441):
TTCCCAGGTCCTTGAAAAAGACATTCCTGGGTTGTAACGCTGGCAAGAGACCAGGAGAAGATTTACCTACATTTCAAAGGGGCAGAGAAGGCCGGGCACA
S
TGGCTCACGTCTGTAATCCCAGCAATTTGGGAGGCCGAGGCGGGCAGATCACTTGAGGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTGAAATTCTG
Celera SNP ID:            hCV8597597
SNP Position Genomic:     29063
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51442):
GAGTGCTACGCCTGTATCGGGGTCCACCAGGATGACTGCGCTATCGGCAGGTCCCGACGAGTCCAGTGTCACCAGGACCAGACCGCCTGCTTCCAGGGCA
R
TGGCAGAATGACAGTTGGTAAGGGGCTGGAAGGGTGGAAGGGCCTGGGCAAGGGATATGGAGGCAGGGCAGCCATGAGGGTAGTGATACCAGACAGGCCC
Celera SNP ID:            hCV7613737
SNP Position Genomic:     34716
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,21)   caucasian(A,22|G,18)   total(A,39|G,39)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51443):
AAAATAAACTCTATAACATGACAAGAACTACTTCACAGTAGTTGCAGTGAGGATTCAACGAGATGAACATTTAGTACTTGGGACACAGCAGTGGCCCAGT
R
TAAATGGGCTACTTGTCATAAGCCCTAAGTCACAGGTCAACAAACTGAGAGGCAAAAGCACTTGGTTGAGCTTGTGTATCTAGTGAGTATGGATTCAGGG
Celera SNP ID:            hCV560378
SNP Position Genomic:     36478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51444):
TGGGCACCAACTCTCTAGCTTCCCAAGGCCATCAGTCTCCCATAGTGGTTCCCTCACATACATAACAGAAAGTAACATTGAGGAAATGAGCTACACTTTC
Y
GCTAGCTGGAGAAACAAGTTCTTTTGTCCTTTTTGGAAGCTCTGGTGTTGGCAGATTCGGCTCATCATAAAAAGTTTGAAACACTGGTTTGGGAGAGTGC
Celera SNP ID:            hCV7613770
SNP Position Genomic:     13418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51445):
TTCAACGAGATGAACATTTAGTACTTGGGACACAGCAGTGGCCCAGTGTAAATGGGCTACTTGTCATAAGCCCTAAGTCACAGGTCAACAAACTGAGAGG
Y
AAAAGCACTTGGTTGAGCTTGTGTATCTAGTGAGTATGGATTCAGGGACCAGATTCCCAGCCCCACGAACTGCTAAGCAACCCCACCTCCTAAACACATG
Celera SNP ID:            hCV560379
SNP Position Genomic:     36531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51446):
CCCAGTCGGCAGTGCGGGTAAGGGTGGGAGAAGCAATGAGGCGAATGCGAGCAGCCGAAGAAGGCGACAGTGTGGCTGGGTATGAAGACTTGAGGGAGGG
R
GTGGGGCAAAACGAGGTCAGGCGTCTCCCTGGCCGCGTGTGATGGACCGTCCGTGGTGGTGACAGACATGGTGTAGGGGGTGTGTGCAATATTATGTGCG
Celera SNP ID:            hCV7613771
SNP Position Genomic:     12759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51447):
ATAGATAGATAGATAGAGTGGGGCGTGGTGGCTCACACCTGGAATCCCAGCAGTTTGGGAGGCCAAGGCGGGTGAATCGCTTGAGGTTAGGAGTTCGAGA
Y
CAGCCTGGCCAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAATTAGGCATGGTGGTGCACACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCA
Celera SNP ID:            hCV11707181
SNP Position Genomic:     17266
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51448):
GGAATAGCTTGAACCTGGGAGGCAGAGATTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAA
W
AAATAAATAAAGTCCTTATGGTATAAAGAGCCAAGTGGAAACCCTTGAAACTCAATACTGTGCTGTGGGAGGAATTGCAGAGATTGCATCATCATCAAAA
Celera SNP ID:            hCV26204540
SNP Position Genomic:     15490
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,12)   total(A,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51449):
CCTCTTTCTTTCTCTCTTTCCTTCTTTCTTTCTTTCTTTCTTTCTCCCTTTGTCACCCAGGCTAGAGGGCAGTGGCGTGATCTCTGCTCACTGCAACCTC
Y
GCCTTCCAGGTCCAAGCCATTCTCCTGCCTTTGCCTCCCAGGTAGCTGGGATTATAGGTGCCCACCACCACATCAGGCTAATTTTTGTATTTTTAGTAGA
Celera SNP ID:            hCV26204541
SNP Position Genomic:     21605
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51450):
GACCAATTGTTTGGGCCTTTTGATGTGTTTTTTTTTTTTTTTCTCTCCATGTATCTGTGTTACATGGGTCTATACATTTTGTATCCATATGTGATTTTGA
T
TTTTTTTTTTTTTTGAGACAGAGTCTCCCTCTGTCGCCGCCCAGGCTGGAGTGCAGTGGCGCGATCACAGCTCACTGCAACCTCTGCTTCCCAGGCTCCA
Celera SNP ID:            hCV26204542
SNP Position Genomic:     32210
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51451):
GGCTGGGGCAGTGGCTCAGGCCTGTAACTCTAGCACTTTGGGAGGCAGAGGCTGGCGAATCACGAGGTCAGAAGTTTGAGACCAGCCTGGCCAACATGGC
R
AAACCCCGTCTCTACTAAATATACAAAAAGTTAGCTGGGCGTGGTGGCGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCACGAGAATCGCTTGA
Celera SNP ID:            hCV26204543
SNP Position Genomic:     33747
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51452):
GCTACTCGGGAGGCTGAGGCACGAGAATCGCTTGAATCCGGGAAGCGGAGGTTGCAGTGAGCCGAAATCGGGTCACTGCACTCCAGCCTGGCGACAGAGC
R
AGGCTCCGTCCTCCGCCCCACAAAAGAAAAAGTGGATGAGGGACGAGCGGTGAGGGGAGGAAACAATGGGGAAGCAAGGAAGAGAAGGTGGGAGAGGCGC
Celera SNP ID:            hCV26204544
SNP Position Genomic:     33913
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51453):
GGTCTGAGGGAGAAGGTTTGACCCTGGTCTGAGGGAGAAGATTTGGCCCTGGTCTGAGGGAGGAGGCATGACCCTGGTCTGAGGGAGGAGGCATGACCCT
R
GTCTGAGGGAGGAGGCATGACCCTGGTCTGAGGGAGGAGGCAAGACCCTGGTCTGAGGGAGAAGGTTTGACCCTGGTCTGAGGGAGAAGATTTGGCCCTG
Celera SNP ID:            hCV26204545
SNP Position Genomic:     34961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51454):
CAACAAACTGAGAGGCAAAAGCACTTGGTTGAGCTTGTGTATCTAGTGAGTATGGATTCAGGGACCAGATTCCCAGCCCCACGAACTGCTAAGCAACCCC
M
CCTCCTAAACACATGAGTGCCGATTAACTTCACAGAAAAACACACAAGGCAAAGTTCAGCGAGGTGAAATTCTCCAAGCTATAAAGATCAGGGAAGACTT
Celera SNP ID:            hCV27469337
SNP Position Genomic:     36616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51455):
CTGAGGGAGAAGATTTGGCCCTGGTCTGAGGGTGGAGGCATGACCCTGGTCTGAGGGAGGAGGCATGACCCTGGTCTGAGGGAGAAGCCTGGCCCTGCTC
W
GAGGAAGGAGGCCATGCCCTGGTCTGAGGGAGGAGGCATAACCCTGGTCTGGGGGAGGAGGCATGGCCCCTGGTCTGAGGGAAGAGGCATGGCCCTGGTC
Celera SNP ID:            hCV26204546
SNP Position Genomic:     35139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51456):
AAATAAATAAAGTCCTTATGGTATAAAGAGCCAAGTGGAAACCCTTGAAACTCAATACTGTGCTGTGGGAGGAATTGCAGAGATTGCATCATCATCAAAA
Y
TTAGAGGATGCAGGATTATTTGTCCCTATCATACCTCCATTCATTTCACTTGGCCCCTGCAAAAAACCTGCATGACTGAAGCTAGTGGATGTGGTAGATT
Celera SNP ID:            hCV16206830
SNP Position Genomic:     15591
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51457):
GTGTCCATCACATGGAGTTATTCCTGAGTCTGCAAATGTTTTTCTCTGTGATTGGGCCATCTGAGTTTGCTGATTGTCAATTATCAAAGTGAGGCTCCCA
Y
CCTCCCACAGAGACTGGGCGATAGGGGTGCTGTCTCCCTTGATGATTTCAAAGGGATAATTCCCAGGTCCTTGAAAAAGACATTCCTGGGTTGTAACGCT
Celera SNP ID:            hCV11463486
SNP Position Genomic:     28903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51458):
CTGGTCTGAGGGTGGAGGCATGACCCTGGTCTGAGGGAGGAGGCATGACCCTGGTCTGAGGGAGAAGCCTGGCCCTGCTCTGAGGAAGGAGGCCATGCCC
Y
GGTCTGAGGGAGGAGGCATAACCCTGGTCTGGGGGAGGAGGCATGGCCCCTGGTCTGAGGGAAGAGGCATGGCCCTGGTCTGAGGGAGGAGGCACGACCC
Celera SNP ID:            hCV26204547
SNP Position Genomic:     35159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51459):
AGGCAGAGATTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAATAAATAAAGTCCTTA
Y
GGTATAAAGAGCCAAGTGGAAACCCTTGAAACTCAATACTGTGCTGTGGGAGGAATTGCAGAGATTGCATCATCATCAAAATTTAGAGGATGCAGGATTA
Celera SNP ID:            hCV16206831
SNP Position Genomic:     15509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,12)      total(C,1|T,12) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51460):
ATGTGTCCATCACATGGAGTTATTCCTGAGTCTGCAAATGTTTTTCTCTGTGATTGGGCCATCTGAGTTTGCTGATTGTCAATTATCAAAGTGAGGCTCC
Y
ATCCTCCCACAGAGACTGGGCGATAGGGGTGCTGTCTCCCTTGATGATTTCAAAGGGATAATTCCCAGGTCCTTGAAAAAGACATTCCTGGGTTGTAACG
Celera SNP ID:            hCV11463487
SNP Position Genomic:     28901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51461):
TGGTCTGAGGGTGGAGGCATGACCCTGGTCTGAGGGAGGAGGCATGACCCTGGTCTGAGGGAGAAGCCTGGCCCTGCTCTGAGGAAGGAGGCCATGCCCT
R
GTCTGAGGGAGGAGGCATAACCCTGGTCTGGGGGAGGAGGCATGGCCCCTGGTCTGAGGGAAGAGGCATGGCCCTGGTCTGAGGGAGGAGGCACGACCCT
Celera SNP ID:            hCV26204548
SNP Position Genomic:     35160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51462):
CAAGTTAACTCAAAATATTCACCTCTCACCTTTTATTTAGAGCCTTCTCCAGGCTCTAAATAAAATATAAATACAAAGGATATTTAATAATTCTTTATGA
R
CATATTTTAAAGCTGTATTAGAAACTACACAAATGCTGCCAAAGAAAGGTGTTTGATCACGCTGTGGGTGGTCTGGTATATATTTACTATTATTTAAAAA
Celera SNP ID:            hCV8597632
SNP Position Genomic:     22179
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51463):
TTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAATAAATAAAGTCCTTATGGTATAAA
R
AGCCAAGTGGAAACCCTTGAAACTCAATACTGTGCTGTGGGAGGAATTGCAGAGATTGCATCATCATCAAAATTTAGAGGATGCAGGATTATTTGTCCCT
Celera SNP ID:            hCV8597634
SNP Position Genomic:     15518
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51464):
TTGCCTAGGCTGGAGTGTAGTGACACAAACACAGCTCACTGCAGCCTCAACCTCCTGGGCTCAAGTGATCCTCCTACCTCAGCCTCCATCCCCAGTAGCT
R
GAACCACAGGTGCACGCCACCTTGCCCGACTAATGATTCTTCTTTAAAATTGTTTGTAAAGAAAGGGTCTCACTGTGTTGTCCAGGCTGGTCTCGAACTC
Celera SNP ID:            hCV8597670
SNP Position Genomic:     309
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:51465):
AGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAATGAGCCAAGATTGCACCACTGCGCTCCAGCCTGGGCAACAGAATGAAACAG
Y
GTCTCAATAAATAAATACATAAATACACAAATAAATACAACAATAATCCCCACAAAGAAAGCTCTTAACAACAGGGATGATCCATCCCATGAAAGTAAGT
Celera SNP ID:            hCV1174818
SNP Position Genomic:     19504
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51466):
CAAAATCCTAAAGGATCAATAGTAGCTGGCAAAAAGAAGCAGGAGGAAGCGCATTCTAGGTAGAGGAGACAGCCTGGACAAAGGTCTGAGGGAGGAAGGA
R
CACAAGGAGTGCAGGACACTTTCATGAGTGCAGGACACTTTCATAACTGCATGAACTTCATAGAGATGGGATCCTTTAGCATGTTCTCTGTGCACATGCT
Celera SNP ID:            hCV1174819
SNP Position Genomic:     36839
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:51467):
TAGCAATCCAAAGCGAACTTTGGATTTTGCTTGTGTATTTATTAGAGACAAGGTCTCGCTCTATCCCAGGCTGGAGTGCAGTGGCACAATCAGCTCACCG
Y
GGCCTCAATCTCCCAGGCTCAAGCAATCCTCCCACCTCAGCCTCCCTAGTAGCTGGGACTATAGGTGTGTGCCACCACACCCTGCTAATTTTTGTATTTT
Celera SNP ID:            hCV11707150
SNP Position Genomic:     37835
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:51468):
TCCCAAGTAGTTGGGCCTGCAGGGGGACACCACCATGCCTGACCAATTGTTTGGGCCTTTTGATGTGTTTTTTTTTTTTTTTCTCTCCATGTATCTGTGT
W
ACATGGGTCTATACATTTTGTATCCATATGTGATTTTGATTTTTTTTTTTTTTTGAGACAGAGTCTCCCTCTGTCGCCGCCCAGGCTGGAGTGCAGTGGC
Celera SNP ID:            hCV7613743
SNP Position Genomic:     32170
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,7)      total(A,3|T,7) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51469):
ATGTCTATCAAGGACAAAAAATAATCAGGACCAGAAAATGGAAAGCTATTATGAAACAAAGTGGATCATTGAATGAATTTTTGAGAAAAACAAAGTTGCA
M
GGGGAAAAAATTTCCACAGCTGCTATTTTGGCAGAATGTAGCACAGATCCATTAATTATTGAGCAGAACAGACCATGAATTTACTCCTTCCACTTTTGGG
Celera SNP ID:            hCV29030120
SNP Position Genomic:     24513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51470):
CTTCTGTGATTTGGGACCTCTCTGGGTATGATTTTCTGTGCATCTGGTCCCTCTCTGTGTTGATATGGTTATCATACAGGCACAAGCATCCTCACAGACA
K
ACGCTTTGTGTCTGTGTGATTTTCCATGTGTGAAGTGCTGTGCCTTAGTTAGGGAGGTTTATATTGCAGGGTCCAGATGCGTACTTGTTTTGTGTGAGAA
Celera SNP ID:            hCV29030121
SNP Position Genomic:     32700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51471):
TAGAAAGGAGGCTATTCCTGCACACAACCAAATCTGTGTGTTTCTGCTCCTTAATGGGAGAGAGTTTGATTTCTGTATGTGTCCAGGTTCAGTATGTCCT
R
TGAGTCTCTGTGCTTGTGTGTGTTTCTCTGTATAGGTTTTAAAGTCTTAGTCTGAACAAATGCGTTTGTGGGTCTGTTTCTGAGTTTGCTTTCTTTGTAA
Celera SNP ID:            hCV7613748
SNP Position Genomic:     31472
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51472):
TAGTGGCTGCTGTCAAAGAAAAATTGCACAGGCAAGGCAGACTTTATTCAAGGAGATTGCAATAGGGAAAGAGACTGAACTCAACTCCACTGAAACAAAT
R
TGCTAGGGTGGTTAAGCCCTAGGTGAGTTAATGGAAAAATATTGGAGGACAATGGGGGAGGTGGGTCAACGGGATGTGTCCATCACATGGAGTTATTCCT
Celera SNP ID:            hCV7613749
SNP Position Genomic:     28727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51473):
GAAATGAGTAGAATGTGGTGGATGCTGTGATTTGCCACCAAGATCTCTTTAGGAATGAAGGACTCTGACAGCTGCTTCTGATGTCAGCCCCTTGGGCATT
K
CCTCAGCTGATCAGAACCCAGAAGCCCAGTGCCAGACCTCCCCCTGGGGTGCACTGAACCCTTGGATTGACTGAATCAGGACCCAATCTCACCCTCTGCT
Celera SNP ID:            hCV11463490
SNP Position Genomic:     25388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51474):
TGATGATTTCAAAGGGATAATTCCCAGGTCCTTGAAAAAGACATTCCTGGGTTGTAACGCTGGCAAGAGACCAGGAGAAGATTTACCTACATTTCAAAGG
S
GCAGAGAAGGCCGGGCACACTGGCTCACGTCTGTAATCCCAGCAATTTGGGAGGCCGAGGCGGGCAGATCACTTGAGGTCAGGAATTCAAGACCAGCCTG
Celera SNP ID:            hCV8597605
SNP Position Genomic:     29043
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51475):
CAAATGTTTTTCTCTGTGATTGGGCCATCTGAGTTTGCTGATTGTCAATTATCAAAGTGAGGCTCCCATCCTCCCACAGAGACTGGGCGATAGGGGTGCT
R
TCTCCCTTGATGATTTCAAAGGGATAATTCCCAGGTCCTTGAAAAAGACATTCCTGGGTTGTAACGCTGGCAAGAGACCAGGAGAAGATTTACCTACATT
Celera SNP ID:            hCV8597606
SNP Position Genomic:     28935
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51476):
AAGTGCACACAGCACTCACATACTCATGCATTCACCAGACTGGTCTGCCTACCCTGTAAGCCTCAATCCCTGAAACTGACAACTGCTGTGAAGACCTTCA
R
TGCCTCCACCTTCCACGGGGGCTTCAGAAAAACCATCCTCCTTCCTGGCCAGACTCCACTCTCCAGAGACCCCCGAGCACAACCCTGCCCCGGTCTGGAT
Celera SNP ID:            hCV8597607
SNP Position Genomic:     28374
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51477):
AGTGAGTATGGATTCAGGGACCAGATTCCCAGCCCCACGAACTGCTAAGCAACCCCACCTCCTAAACACATGAGTGCCGATTAACTTCACAGAAAAACAC
M
CAAGGCAAAGTTCAGCGAGGTGAAATTCTCCAAGCTATAAAGATCAGGGAAGACTTCCTGGAGGAATTCACCCTTGAGCAAAATCCTAAAGGATCAATAG
Celera SNP ID:            hCV27507722
SNP Position Genomic:     36660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51478):
TCAGTTAATTGTTGCAGTTTTTAAATATTCAAATAACTGATGATAAATAATGTCAGAAATGAAAGTGTCCCCCTACTCATTCCCTATCTACAGAAATGAC
S
AAAGTTAATATTTTCAGGTATTCTTCCAGATTTTTCTGTACACTGAATGTATGTATAAAGACACAGCTATTTTATACAGAAATGGGATCATGCTATCCAT
Celera SNP ID:            hCV11463499
SNP Position Genomic:     11585
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51479):
GAAACCCTTGGGACGCGCCGTCCCAAACTTGGGTTTCTGGCGTCTCCTGCGTTTCCGGCCCGGGACTACAATTCCCACAGGTCACTGGGCCGAATGAGCG
K
GCGCTCCTGATCCGCTTTGCGCATCCCAGTGATTCTTGGGTTCCGCGTGTAGTTTCGGAAGGAGACATCGAAGCAGGGCGAGGCGCAGAGGGCGTTGCGG
Celera SNP ID:            hCV8597642
SNP Position Genomic:     12550
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51480):
AGCACGAGCCCCGATCCCGCCCCCAGGGTATCGCGCGCCGGTGACCCTGGTGCGGAAGGGCTGCTGGACCGGGCCTCCTGCGGGCCAGACGCAATCGAAC
S
CGGACGCGCTGCCGCCAGACTACTCGGTGGTGCGCGGCTGCACAACTGACAAATGCAACGCCCACCTCATGACTCATGACGCCCTCCCCAACCTGAGCCA
Celera SNP ID:            hCV11707162
SNP Position Genomic:     34274
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51481):
GGAGTTCCCAGACTTTTTAACAACCAGATCTTGCATAAACTCATTACTGTGGGAGGGCACCATGCAGGGGCTACCTTTCACTGAAACTAATCAAGTTACC
R
CCGCTACTGAGTACCCAATCTGCTAGCAGCAGAGGCTGATCCTGAGCACTTGATATGCAACTGCTTCTCAAGGAGACCAGCCAGCTACCTCATAGTAACG
Celera SNP ID:            hCV7613755
SNP Position Genomic:     20007
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51482):
GGGTTTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGCAATCCACTCACATCAGCCAATGAGACTGGCCTTTTTTCTTGTGGTTGTTTTT
W
AAATAGAGATAAGGTCTCACTCTGTTGCCCACACTAAGGTGTAGTAGCACAACCATGGCTCACTACAGCCTCAAACTCCTGGCTCAAGCAATTCTCCTGC
Celera SNP ID:            hCV11707164
SNP Position Genomic:     31962
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51483):
GGCCCATGGCTTTCTGTTTGGTCAGGATCTTGTAAGGAATGAGACTGGAAGCTCAGGGGCAAGTAGGTCTAGGAAGAAGTATGTGGATACATTTATGGGC
R
TACATACAAAATGCATGCATATATGTGTCTCATCCTAATTCCTACTAAAAATAATCCTTGGTTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTG
Celera SNP ID:            hCV7613756
SNP Position Genomic:     19168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51484):
ATGGATGCTCCCAAAAGGTACAGGGAGCTGACACTTCAAAGTCTCCAAAAGTACCTGAATGATACCAGAATCAAAAGTGCACACAGCACTCACATACTCA
Y
GCATTCACCAGACTGGTCTGCCTACCCTGTAAGCCTCAATCCCTGAAACTGACAACTGCTGTGAAGACCTTCAATGCCTCCACCTTCCACGGGGGCTTCA
Celera SNP ID:            hCV8597614
SNP Position Genomic:     28300
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51485):
GAAGGTACCCACATTTAGTAAACTGCTTATGAAAATCAAATATGAAAAAAAATTTTGAGAGGCCAGATGTTTGCAAACATGATTGGAAATGGAACCATGC
R
TGGAAACTGATGGAATGCAACAGAAGATCCTTGAGAACATTCTAAGGCATTCAGAATTCTAAGGCATTCAACAGACTCGTGAACACTCAGACACCAGGCA
Celera SNP ID:            hCV8597615
SNP Position Genomic:     28084
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51486):
GGTGATGGGAGACAGTGACAGATCATCAGGCATTATAATCTCATAAGGAATGCATAACCTAGATCCCTTGCATACGCAATTCACAATAGGATTCACGCTG
Y
TATGAGAATCTAAGCCACTGATCTGACAGGAGACAGAGCTCAGGTGGTAGTACAAGTAATGGGGAGAGGCTGTAAATACAGATGAATCTTCCCTCCCTCA
Celera SNP ID:            hCV8597616
SNP Position Genomic:     26984
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51487):
GACTACATTTCTAGAAATGGATTCCTGAATTAAAAGAGATGCTTCTCTTAAATATTTATGTAAAGTTACTCTCAGAAAGGTTGTAAGTGGATTCCTCCCA
M
CAAAAGTATTGTGAATGAATATCTTCTTAAAATTTACAATTGTTTTGACCATTTCCCAGTCCTTAAACCAATGATAACATTTTATTTTCTTTTTCTTTTT
Celera SNP ID:            hCV8597650
SNP Position Genomic:     9505
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51488):
TCTGGTCACTGATATCACCTCTCTCATCCTCTGCCATCTCTCACCTCCTGGTCTCTCTTGCTTATCAAGAGAAGACTAGAGCTCTTGGATCCCAGCTTTT
Y
CCCTGCCTCAGCTGAGGCCACTACCCTGGTTGACTCCCATGGTGACATGGATGCCTCATCCAGTATCGTGGGTCTGAGTCCTCATCTGCAGGGTCCTTGA
Celera SNP ID:            hCV8597651
SNP Position Genomic:     7019
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51489):
TCCAAGCTATAAAGATCAGGGAAGACTTCCTGGAGGAATTCACCCTTGAGCAAAATCCTAAAGGATCAATAGTAGCTGGCAAAAAGAAGCAGGAGGAAGC
R
CATTCTAGGTAGAGGAGACAGCCTGGACAAAGGTCTGAGGGAGGAAGGAACACAAGGAGTGCAGGACACTTTCATGAGTGCAGGACACTTTCATAACTGC
Celera SNP ID:            hCV7613722
SNP Position Genomic:     36789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51490):
ACACCTCATTCTTGCTGCTTCAGCCCCTATCACATAGCTCACTGGAAAATGATGTTAAAGTAAGAATTGCACTCCTGTCCCTCTGGCCTTCCATCTCTCC
Y
GCCCTTGTGCCCCACAACCTGGCCAACAGTACTGGAAGAAACTGGACACAGTCACCAGCATCCCAGGGGAGGGCAAAACAGCCATGTCGTGCCCTGATGA
Celera SNP ID:            hCV25624062
SNP Position Genomic:     35807
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,26|T,14)   total(C,56|T,22)
SNP Type:                 UTR 3


Context             (SEQ ID NO:51491):
CAGTGTAAATGGGCTACTTGTCATAAGCCCTAAGTCACAGGTCAACAAACTGAGAGGCAAAAGCACTTGGTTGAGCTTGTGTATCTAGTGAGTATGGATT
Y
AGGGACCAGATTCCCAGCCCCACGAACTGCTAAGCAACCCCACCTCCTAAACACATGAGTGCCGATTAACTTCACAGAAAAACACACAAGGCAAAGTTCA
Celera SNP ID:            hCV7613723
SNP Position Genomic:     36574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51492):
GGAAGAGACCCGCCCACATAGGGAGGGTGGGACGAAGAAATACTGGCCAGGCTGGGTGGCCGGGATGCTTAGGACTCAGTAAGGAGAACCAGCCAGGCAG
M
ACATCACAGCGGGAGGAGCTGTCCCAGGTGGCCCAGCTCAGCAATGGCAATGGGGGTCCCCAGAGTCATTCTGCTCTGCCTCTTTGGGGCTGCGCTCTGC
Celera SNP ID:            hCV25624064
SNP Position Genomic:     30765
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,19)   caucasian(A,20|C,14)   total(A,21|C,33)
SNP Type:                 INTRON


Context             (SEQ ID NO:51493):
TCTCCCGCCCTTGTGCCCCACAACCTGGCCAACAGTACTGGAAGAAACTGGACACAGTCACCAGCATCCCAGGGGAGGGCAAAACAGCCATGTCGTGCCC
Y
GATGAAGAGCAATTCTGATCACAGCTGTTACTCACTGAGCACCAGCCAGGCACCAGGCACCCCATAACACGGCTTCCTGTGCTCTCCCTCCAGAGCCTGT
Celera SNP ID:            hCV8597585
SNP Position Genomic:     35902
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,1|T,39)   total(C,2|T,76)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:51494):
ATTGCACTCCTGTCCCTCTGGCCTTCCATCTCTCCCGCCCTTGTGCCCCACAACCTGGCCAACAGTACTGGAAGAAACTGGACACAGTCACCAGCATCCC
M
GGGGAGGGCAAAACAGCCATGTCGTGCCCTGATGAAGAGCAATTCTGATCACAGCTGTTACTCACTGAGCACCAGCCAGGCACCAGGCACCCCATAACAC
Celera SNP ID:            hCV8597586
SNP Position Genomic:     35872
SNP Source:               Applera
Population(Allele,Count): african american(A,20|C,12)   caucasian(A,22|C,16)   total(A,42|C,28)
SNP Type:                 UTR 3;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:51495):
TTGTCTACTGGTTCTGTTTCTGTGGTTAATCCAAGACTAACACAGAATGTGTTGGAGCCAGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGTGAGG
Y
TGGGTTGGGCGGATCACCTGAGGTCAGGAGTTCAAGACTAGCCTGGCCAACATGGTGAAATCCCGTCTCTACTGAAAATACAAAAATTAGCCGGGCATGC
Celera SNP ID:            hCV11707137
SNP Position Genomic:     38531
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:51496):
CAACTTTGATGGTGTCACCTCTATCCATAATGGTTGAAGCTGTTATGTGGAGTCTCTGGCAAGATACAAAAGCAAAATTACAGCCCGTAAGGTTCTGAAG
Y
AAGTCCATTTATTATGCAGCATATAAGTGCTTTCAATTTGAAAACCAGCTGCTGAGTACTAATAGAGTCTGTGATTTTGACCATGGGACATCAAGTATCT
Celera SNP ID:            hCV7613763
SNP Position Genomic:     18219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51497):
AGAATAAGTTATTACAACTCACACTTCCTAAACTGATAAACAGGCACATAATTTGGTAGGGCTCTTTGACATTTGAAAGTGATAGATACATGATAGGTAG
R
TAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGAGTGGGGCGTGGTGGCTCACACCTGGAATCCCAGCAGTTTGGGAGGCCAAGGCGGGT
Celera SNP ID:            hCV7613764
SNP Position Genomic:     17138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51498):
CAGCAACATCCCTGCATGAACTCAGAACAACTCTACATGGGCACAAGCAGCAACGAAACCTGACCTCATGCCTGCAATGGGCACTACTTGTCTCAAGCCC
Y
AGGGCTTTCCTGTTGATGCTGATGCATGAGACGTTACAGAACCCATTGAACTATTCACACGCGACCTGGAAGTACAGCGGAGTTAATAGTCTCTGGGACA
Celera SNP ID:            hCV7613765
SNP Position Genomic:     14615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51499):
CGAGTAACTGGGACTACAGGCACATGCCACCGTGCACAGCTAGTTTTTAAATTTTTTGTGGAGACGGGGTCTCCGTGTGTTGCCCATGCTGGTCTCAAAC
T
CCTTTTTCTTTCTTTCTTTTTTTTTTTAGAAATAGGTTCTCACTATATTGCCCAGGCTGGCCTCAAACTCCTGGCCTCAAACAATCCCCCCACTTTCGGC
Celera SNP ID:            hCV11707176
SNP Position Genomic:     17848
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51500):
GTATGAAACCATTTATTCTGAAGCACACACTCATACTCCAAAAACAATACTATATATTCCCTCTCTCTCTCTCCTGTGTGTTTGCGTGTGTGTGTGTGTG
K
GTGTGTGAGAGAGAGAAAGGTTTTAAAGGAGACAACTAACTGATTCTGAGGTTAGGGCAAAAAGATTGGGGCTGTGGTTGGTGTGGTAAGAACCTTTGGA
Celera SNP ID:            hCV26204533
SNP Position Genomic:     6718
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51501):
ATGAAACCATTTATTCTGAAGCACACACTCATACTCCAAAAACAATACTATATATTCCCTCTCTCTCTCTCCTGTGTGTTTGCGTGTGTGTGTGTGTGGG
K
GTGTGAGAGAGAGAAAGGTTTTAAAGGAGACAACTAACTGATTCTGAGGTTAGGGCAAAAAGATTGGGGCTGTGGTTGGTGTGGTAAGAACCTTTGGATA
Celera SNP ID:            hCV26204534
SNP Position Genomic:     6720
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,8)   total(G,1|-,8|T,1) 
SNP Type:                 INTRON;TFBS


Gene Number:                 242
Celera Gene:                 hCG39378 - 30000023325762
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VSLS(10617851..10665295)
Chromosome:                  Chr1
OMIM number:                 116845
OMIM Information:            CATHEPSIN S;CTSS


Genomic Sequence (SEQ ID NO:12402):
GTTGCCTAATCACCACGTTTATGCTCTGTACTGAGTGTAGATTTATAGACCTCGTCAGACAGAGAAACAATGACTGGAAAAATACATGGTCCCTTGTAAA
AGCAGTTGTCTACCATTTAATCTTGATGGAAAGAAATTTGTTCCTATGCTAATTTCTCATTAAGGAAATTGAACTGTCTATTTCTATGGATAGAAATACA
TATAGAGGTATCAAGGCTAAAAGCAAAAAACATCAGGTATGAGATCAGATGTGTAAAGAAGGATAGAGAAGGCAACCTGAAATTATTGAGAGCTCCACAA
TAGCTTTCTTCTTGAGTTTCCTGTATTCGCAGCCTGAGAAAAGCACCTTCCCCATTCTAGCTTCTGACACTCCACCCTTGTTTTTCCAAACTCAACACGG
CTGTGGATGTCAATACTAGGTTCATCTATCCGGGTACTACAGTTTATTTAAAATGTGCAGGAAGCAGCCAGGCGCAGTGGCTTGCGCCTGTAATCTCAGC
ACTTTGGGAGGCCAAGGCGGGCGGATCATCTGAGGTCAGGGGTTTGAAACCAGCCTGGCCAACGTGGCGAAACCCTGTCTCTACTAAAAATACAAAATTA
GCCTGGCGTGGTGGCGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGAT
CATGCCATTGCACTCCATCCTGGACAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAGTGCAGGAAACTCAAAGAACCTATGAAAGGCCAGAA
AGTCGGTGAGGTTTGTTTATTGTGTAACCACAAACATCACCAAAACCACAGAGAGGACTGCTCAACCTATGATGCCACTGAGCAGACACAATATTTGACA
TAAACACTACAGTTTGAACAGGTGACACTGGGGACCAGATATTAGAATATCTGCTGCTGCTCCTGCTCCTGCTGGTGCTGCTGCTGCTGGGAGACATCTC
TACTGCCATTCTCACCAAAAGGAGGATTTTACATACTTCTGGTTCCTCACTTACCCACTTGCAAAATGATGTTCTATACAGGTGTGCCTGACTGGCAAAG
GCTAGGTCTCATGTCTGTGCCTTAACTGCACTGGATCCTTGAAAATGGAGCTTTGGCTTCAACTTGGAGAAGCAAAATTTATAACGTGGGAAATTCTCCA
AACATGGGAATATTGTTCAAAAGATGCTAGGTGGCCATAAAAATAAATGAACACTGTATATACTACTGTGGAGTTATCAGAATTTAATTGCTAAAGTATA
GTTTCTAAAAAGCTGAGAGCAAATATACAACGAACGCATCGAAGTTTAACTCATTAATTAATAAGGGATCAGTAAGATTAAAGTCAGTTCAAATAAGAAT
TTGAGGCCGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTCTGGGAAGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCGGCCTGGCCA
ACACGGTGAAACCCTGTATCTACTAAAAATGCAAAAATTAGCTGGGTGTGGTGGTGTGCATTTGTAATCTCAGCTACTGGGGAGGCTGAGGCAGGAGAAT
CGCTTAAATCCGGGAGGCGGAGGTTAGAGTGAGCTGAGATCGCACCACTGCACTCCAGCGTGGGCGATGAAGTAAGGCCGTGTCTCAAAAAAAAAAAAAA
AAGAATTCGACTGACAGAGATCTACATTCTCTGTTTCTCTATTCAGTGAAATCTACAATACAAAATTTATTTGCATTGCCATGTATAGGGATCATTTGCA
TAGTTATCAGTTTTTTACAACTTAACTCTAAAAAGAATCAAACAATTCCTGTAAAGGTCCACTAAATAATACCCAGCACATCACTGAAAGGACACCTGCT
AATGTCTTTCGCCTGAATAATTTTTCTTAATAAAATGTTAAGTGATTGACTAAAACAAAAAAAATGCTAAGTGAAAAAAACAAGATAGAGAAAAATATGT
GTAATATGTTAGTGTTCACTTAAGATGAAAGAATATTAATATATAGGCATATTTGCATATTTCTAAAAATAGGAAGATAAACCATAAATTTTTTAAATGA
TTACCAATTAAGGAAAAAAGGAAATCGTGTAAAACAGACAAAAGTAGAGGCTAGAGTTCTTTGAATATACCTCATTGTGATGATTTCACTTTGGATCCAC
ATAAATGTTTTACATAATTATAAAATGAAATTACATAAGTGTAAAAAGCAAGCCCTAAAAGGAAGAAGTGAAATGAAACAAATAAACCTGTGTATGGAGG
TGGAGCATAACCATACAGGGAACTATTCCAGGTGACTTCAAAACACAGTAATTGACTTACATCGTTAGCGACATTTGGCTTAATGGAGAAAAACCTGTCC
CCCTCCACTTTAAAACCTCTAATTTGTTTTCATTAACAATCTTATTGGCGTAGGCTTGTTGTTGTTATTCTGCAATTTTACAGGATAAATTAAACAAGTA
CTTGAGTTGATATTTTAGAGAACCCAGATTTTTTAAGCATGTTTGAAAAGAAGTGCAGATATAAGATTGATGGGGTGAGTAAACCCTATAGTCTTGAATT
TGAATTTGAAGTATCAGTGTCAGCTTGTGATTTATTTAATTTTTTTAAAAAAGATATTTCTTAGCTCTAGCTACTGAAAAGGCTTAGCAACAATGGTCAA
TCTGCTATCCCAAACACTGCTAGTTCCTAGATTATGGTATTTAAACATTGTTTCCACTAAAAGGAACCAGAGCTCCTTGGAGAAATGGCTGATTCCAGGT
CTGGGGCAGGAATTGTTCAAGACAAACCTGCAATAGCCTGTCATATTAGAAAGAAAGGAAGCTTTTAAAGAGTACTAATATTATGCCAAATATACAAACT
CTGTCTGCACCAAAGAGCCAGTTTGAATAAATTCCTACAGACCAAAAATGAGACAATATGAGTATCAATAAGGATAAAACTGGAATGGATTGAAACACAT
CAAATATGTTTAAATCCATGAATTCATAATGATATAAACATAACTCAATGGTTTCACAATATATGGAGCTTATTTAAATCTCAATTCAAACAAACTATTA
AAAAATGTATAAGACAGTCCAGAAAATGTGAACATTGATAGGATGTCTGATGACATTAAGAAATTATTGTCTTAATTTCTTATGACAATAAAGTGGCTCA
CACCTGTAATCCCAGTACTTAGGGAGGCTGAGGTGGGCAGATTACCTATGGTCAGGAGTTCGAGACAAGCCTGGCCAATGTGGTGAAACCCCATCTCTAC
TAAAAATACAAAAATTAGCTGGGTGTGATGGCACATGCCTGTAATCCCAGCCACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACTCGGCAGGCAGAGA
TTGCAGTGAGCTGGGATCACACCACTGCACTCCAGCCTGGGCAAGTGAGTGAGACTCTGTCTCAGAAAAAAAAAAAAAAGAAAATTATTGTTCATTTATT
TTAGATGTGATGATGGTATTGTGGTATTATATTTGTTTAATAGTCTCTGTCTTTTAAAGACACACACAGGGACATTTACGTATGAAATGACAGAATGTCT
AGAATTTATTTAATATAATTCAGGTAGTGAGAGTGGGAATATAAATAAAATAAGATTGGCCATGTACTGATCATTGTTGAAACAAGACAATGGTTTCACG
GCAGCTCATTTTACTACTATTTTTACTTTTACATGTGTTTTAAATTTTCCATAAGCAGTATCTTTTTAAAAAAAACTGTATGGCTACAAACACAAACATG
TCTACTACAGCTGAGATGAATCAACATTATAATGATGTTACTTCTCCCTAAATTTATGCATATATTCAAATAAAAACTCTAATAGCCAGATGTGGGGGCT
CATGCCTGTAATCCCAGCACTTCAGGAGGCCAAGGTGGGCAGATTGCTTGAGCCCAGGAGTTTGAGGCCAGCCTGGGCAACATGGTGAAACCCCTTATCT
ACAAAAAACAAAAAACAAAATCAGCCAGGCATGGTGGTGTGCACCTGTAGTCCCAGCCACTCCAGAGGCTGAGGCGGGAGGATCACTTGAGCCCAGGAGG
TCAAGGCTGCAGTGAGCCATGATTGCATCACTGCACTCCAGCCTGGGTGACAGAATGAAACCCTGTCTCCAAAAGAAAAAAGCAAAAAACTCCAACAGAG
TTTTTCAGGGAACTTGATAAACTGATTCAAAAAATTCATATAAAGAAGAGTTAACAAGTACAAAATACAAAGACAATGTTTAAAAAGAAGAACAAAGATA
GGGTGGCCTAGATGACTTGCCTTACCATACGTGGAGACATATTACAAAGCTGTTTTAATTAAAACTGTGTGATACTGAAGTAGCAAAAGATAAAAAGAAC
AGCTTCATGAGCTCAGAAACTGACCTATCTATGTATGAGAATTTGGTGTACAATAGAGGTAGAATCAAAATTGGAAAACAAAGAAAATAAGCTCCCTACG
TCATACCATACACAAAACTAAATTCCAGGTGAATTAAACACCTAAAAGCAGTAGCCATAGAAAAGATAAATAAAACACTCTCTGAAAGTATAAAAATAAG
ATGAGTGTATCTTTATTACATTTGGATGAGGAAAATTTTCTTATACAAAAACAGTATAGATTGATTATACGGAAAAGCTGAATAAAATGTTCTACCTCAA
CATAAAAAAATTTCATATAGAAAAACTCACTATAAACAAGACTAAAGGACAAGTGGAATTTCATAGGCTTATGCAAAGGAAGAAAAAATAAAATAAAAGA
CAAGTGGAAGACTAAGGGAGGATGTTTTTAAGGGTATATAACTGTCAAAGATTAGAAGCCAGAATATATTTTTAAAACACATACACCTTGGCCGGGCACG
GTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTGAAGAGTTCAAGACCAGCCTGGCCAAGATGGTGAAACCCTGT
CTCTACTAAAAATACAAAAATTAGCTGGACATGCTGGCAGGTGCCTGTAATCCCAGCTACTTGGGAGTCTGAGGCAGAGAATCGCTTGAACCTGGGAGGT
GGATGTTGCAGTGAGCCAAGATCGCACCAATGCACTCCAGCATGGGAGACAAAGCACGACTCCGTCTCGGAAAACACACAACACACACACACACACACAC
CTCCCACAAATCACTAAGAAAATGCAACAATACAATAGAAAAATGAGCAAAAAAGATGAACAGGAAATTCACAGAAAATTCAAACGGTCAATAAATGTGT
GAAAAGATCCTCAACCTCATTAGTAATTAGGAAAATGCAAATTTAAAAGATGATAGTTCGTCTTGCTCCCACCCCACCCAGGTAATCATTCTCAATTGGA
TATATTTGAGTGTATCCTTTTTTCCATGAATATACTAACACATACACACACACACACACACACACACGCATATTACTAAACTATACATATAGTATATATT
AATAAAGACATTTTGAGTTTGATGAACGAAGGAATGGCTGAGTGAGAACCAGACAATATCAGATCATGAATGAGTTGTGTTAAAAGCAGTAAGACAGGTT
TTCCTAGGAAATCATACAAGGAGCTGGGATTTGGGGAGCTTTATCTAAATCTCTTTATAACTAAATGTTTTCCATGTAAAAGTTGGTGTTTTTAAAATTC
AATTTAATTTTTTTTTTGAGATAGGGTCTTGATATGTCATCCAGGCTGAAACACAGTGGCATAATCATGGCTCACTGCAGCCTTGTCCTCCTAGACTCAA
GCAATTCTCCCACCTCACCCTCCCCCTCAGCTGGGACTACAAGCATGCACCACCATGCCCAGCTAATTAAAAAAAATTTTTTTGCAGAGACAGGGTCTCA
CTATATTGCCTAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCTCCCGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACTGGGCTCAG
ACAAGGGCTCTTCTTGATGGCTTACTGTATCCACTTTGTCCCCAAGACCATAGGGAAATGACTAGAGGTGACTGTACTAGCTAGATTTTAAATGAAACTG
AAATGAAAGTTCACTTCCTCATTTTGAGTACCTCATGTGACAAGTTCCAATTTCTTTTCAAGTCAATTGAACTGAAATCTCCTTGTTGCTTTGAAATCTT
AGAAGAGAGCCCACTAATTCAAGGACTCTTACYGTRGGAGCAACTGCTGGTTCTATCACGTATGTACTCTTTGTTCTTTTTCTCCCATTTGGTCTTCAAA
CACTCTGTGTTTGTAACTTGTTCTGCCTGCTAGGTTTTAAATCTTTGGTTTCAGGAAGTAAACTAAAAAATCGTGTCGTTCAATTTGCCTCTTCTCTATT
TTTAAAAAGTTAATGTCTGCTTGAGCATCTAAGCATCTAAGTTGAGACTGAAACATGGCTTTCTTTGGAATATAATTTAAAGGCTTACATGTTTAAAATT
CCAGATGTTTTCAATTAAAAAGAAATGGAAAAGAAAGTAGAATCCAGTTTGAGGGAGCTAGTCGCTGAATTTCTGTTGATGTCTCTTGAATTAAATACAG
AAGTGGCATTTTAAAGAGTAGTTAATTGCCTCATTTGAAACAGATGTCTGATCATTAAAAAAAAAAAAACGTAAAAAGGAAAATTACCTACCTAAAGATG
TGAAAGCAATAGATGAGAATTGTCTTTTAACTATCTGTAAAGACTGTGGATATTTAAACAGGTCAGTTAAGAAGAGCCCATGTATTCAAAAATTCAGGAG
ATAAACTGATTTTTCAGAGGTTTGTCTCTCTTAAGGATGATTTTTTTTTTTTTTTGAGAGAGAGAGAAAGAGATTTCCTTTGATTAGATTTGTTGGCAAA
TCCTGGAAAGTCCCTGTTTTCTAACCCTCTAGATGTGTTTGGTTTACCAGATATTGGGAAATTCCTGGAAATCACTTTTTAAAGTGCTACTAAGCATTGG
AAGTAGTATTTCTGACATAAATCTGCAGCTGTTCCCTGTGACTATATATCCCAGGAATTTTCCTGTAKAATTCTGTTTATAATAGTCTGTCCCTTTGATA
GACTTTGCATTGTTATTTTCTCTTATGAAAACATGTGGTCACAACATATGCAGCTAATAGCAACACTTCCTATGTTACCTTTCCTTACACAGAATGAAAC
GGCTGGTTTGTGYGCTCTTGGTGTGCTCCTCTGCAGTGGCACAGTTGCATAAAGATCCTACCCTGGATCACCACTGGCATCTCTGGAAGAAAACCTATGG
CAAACAATACAAGGAAAAGGTAGATTGGATTGCCACTCGAGCGATATGCTTTTAAAGGAGTACTGTTTTCTACCTCTTAAAATTGTGTTCTTACAGGCAG
TGTTTTCAGTAAATATTTAAGCTGGGTGTGGTGGCTCGCGCCTGTAATCCTAGCCCTTTGGAAGGCCAAGGTGAGCGGATCACCTGAGGTCAGGAGTTCG
AGACCAGCCTAGCCAACATGGCGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGATGTGGTGGTGGGCGCCTGTAATCCCAGCTACTCGGGAGG
CTGAGGCAAGAGAATCACTTGAGCCGGGAAGGCGGAGGTTGCAGTGAGCCAAGATTGTGCCATTGCATTCCAGCCTGGGTGACAGAGTGAGACTCCATCT
CAAAAATAAATAAATAAATATTATGTACTTGTTTCTTGCCAGATACTGTTCTTGGTACCATACAGCAGGAATCAAAACAAAATTCCTGTTATGGAGCTTA
TATTATAGTGAGAGAGACAGGAAATAAGAAAATAAACAAGCAGATATGTAGTATGCTAGATGGTGATAAGTGTTGTAGATAAAAATAACAGAAGGCATGG
AGAGTAGGAAGGGCCCTGGGTGGTGGTGGTGGTAAGAAGTCTATCTATATGACAGGAGGGTTAGGGAAGGCCTCACGGATAAGGGTGCCATTTGAGCAGA
GAATTGATGGAAGCCAGGGAGCAAGCAAAATACATAATAGAGTGAAGGTCTCAGGCCAAGGGCAAATCAGCACAAGCTCCTGAGGAAGGGCCACATTTGG
GATGGCTGAGGAGCGAAAAGGCGTTAATACCCACATAGTGTGGCCAGATATTGTTTCTTGACTATCACTTCCCATTTTGTACTTTTGTTTTTATTTCAAA
GCACACTTGCTGATGTTAAGACCTTAACCCTACTGCTTTAAATAACTAAGTCCTGTAACTATGTAATATTTCTGTTTGTAAGCTAGCATCATATATTTAT
TTATTTGACATATTATTTTGTATAAAAATGACACTCTTAGGTCATACACTCTAAGTTTTATTTTTATTTATTTATAATTAAATAATAATTGTGTCTATTT
ATGGAGTACAATGTGATGTTATGATACAAATATACATTGCAGAATGATTAAATTAGGCTAATTAACCTATTCAGCACCTCACATACTTATCCTTTCATTG
TGATAAGAACATTTAAAATCTACCCTTTCAGTAATTTTGACATATAAAATACATTATTATTATTATCTGTAGTCACCATGCTATGCAATAGATTGCTAGA
ATGTAGTCTTCTTGTCAAATGAAACTCTGTACTCTTTGCCTAACATCTCCCCTTTCCCTGTCTACCCTCCGCCCAGCCTCTGCTAACCACCATTCTACTC
TCTACTTTTATGAGTTCAACTGTTTTAGATTCCACATGTAAATGAGATTATGCAGTACTTGTCTTTCTGTGCCTGGCTTATTTCACTTAGCATAACGTTC
TCTAGACCCATCCATGTTGTTGAAAATGACAGAATTTCCTTTTTTTTTTTTTAAGGCTAAATAGTATTCCATTATGTATGGAATACAATATGTACCACAC
TTTTTTATCCATTCGTCTTTTAATGGACACTTTATAAGGTTGATTCCGTATCTTGGCTATTGTGAATAATGCTACAATGAACATGGAAGTGCAGCTATCT
CATTGACATACTGATTGCGCTTCCTTGGGACATATACCCAGAAGTGAGATTGCTGGATGATATGGTAATTATATTTTTAGTTTTTTGAGGAACCTCCATA
CTGTTTTCCCAAATGGCTGTACTAATTTACATTCCTACTAAAAGTGTATGAGGGTTCCCTTTTCTCCACATCCTCACCAACACTTATCTTTCATCGTTTT
GATAATAGCCATTCTAACAGATGTGAGGTGATATCTCATTGTGGTTTTACTTTACATTTCCCTGATGACTGGTGATGTTAAGCATTTTTTCATATATCTG
TTGGCCATTTGTATGTGTCTTGTTTTGAGAAATGTCTATTCAGGTCTTCTGCCCATTTTTAAACAGGGTTGTTTTCTTGATAGTTACTTTGAGTTCCTTC
TATATTTGGGATATTAGCCCCTTATCAAATGTATGATTTGCAAATATTTTCTCCCAATCTATGAGTTATCTTTTCACTCTGTTAATTGTTTCCTTTATTG
TACGAAAGCTTTTTAGTTTGATGGAGTCCCGTTCGTCTATTTTTGCTATTGTTGCCTGTTCTTTAGGGGTCATATTCAAAAAACCGTTGCCCGGACCAAT
GTTGTGGAGTTTTCCCCTATATTTTCTTATAGTGGTTGTATATAGTTTCAGGCCTTATGTTTGTGCTTTAATTCATTTTGAGTTGATTATTGTATATGGG
GTGACATAAGGGTTCAATTTCATTTTTCTGCATTTGGATAGCCAGTTTTCCCAATACTATTTATTAAACAGACTATCYTTTCCCCATTGTGTGTTCTTGG
CACCTTTGCTGAAAATTGATTGACCATAAAGTTGCAGGTTATTTCTGGGCTCTATATCCTATTCCATTGGTAAATGTGTCTGTTTCTATGCCAGTACTAT
GCTGTTTAAATTACTATAGTTTTGTAATATATTTTGAAACCAGGCATTTTGTAATGCCTCCAGCTTTGTTCCTCTTGCTAAAGATTACTTTGACTAYTTA
AGGACTTTTGTAGTTCCGCATGAATTTGAGGATTGTTTTTTCTATTTCTGTGAAGAATAACATTAGAATTTTGATAGAAATTGCACTGAATTTCTAGTTT
GCTTTGGATAGTATGAACATTTTAGCAATATTAATTCTTCCAATCCATAAGCATGGAATATCTTCCCATTTATTTATTTTATCTTAAATTTCTTTCTTTC
TTTTTTCTTTTTTTCTTGTTTTTTTGAGATGGAATTTTGCTCTTGTTGCCCAGGCTGGGGTGCAGTGGCGTGACCTCTGCTCACCACAACCTCTGCTTCT
GGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCACCACGCCCGGGTAATTTTGTATTTTTAGTAGAGTCGGGG
TTTTTCCATGTTGGTCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCTGCCTGCTTCGGCCTCCCATAGTGCTGGGATTACAGGTGTGAGCCACCACG
CCCGGCCTATTTTGTCTTCAGTTTCTTTTATCAATGTTTTACAGTTTTCAGCATATAACTTTTCAACTCCTTGGTTAAATTAACTCCTAAATATGTTTTA
AATGCTGTTGTAAATAGAATTGTTTTCCTAATTTCTTTTTCAAATAGTTGTTAGTGTATAAAAATACTACTGACTTTTGTATGTTGACTTTGTGTCTTAC
AACTTTACTGAATTCATGTATCAGTTCTAATAGTTTTTTGATGGAGTCTTTCTTCTCTCTTTTTTTTTTTTTTTTTTGAGGCGGATTCATGCTCTGTCGC
CCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAC
CGGCACACGCCACCACACCTAGCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTTCTGACCTCATGATCA
ACCCATCTTGGCCTCCCAGAGTGCTGGGATTACAAGCATAAGCCGCCTTGCCCAACCTTCTTTTTTTTTTTTTTTGAGATGAGATCTTGCTCTGTCACCC
AGGTTGGAGTGAAGTGGTGTGATCATAGCTTACTGCAGCCTCAAACTCCAGCTCAAGTGATTCTCTTGCCTCAGCCTTCCAAGTAACTGGGACTGTAGGC
ACATGCCACCACACCTGGCTAATTTCTATTTTTGTTTTTTGTAGAGAAGGGGTCTTGCCATGTTGTCCAGGCTGGTGTTGAACTCCTAGATTCACACAAT
CCTCCCACCTCAACCTCCCAAAGTACAGGCATGAGCCACCACACCTGGCCAAGACTTTCTATATGATCATGTTATCAACAAACAAACGCAATTTCACTTC
TTCCTTCTCTTATTTGGAGATCTTGTATTTATTTTTCTTGCCTAATTGCTCTGGCTAGGATTTTCAGCACTATATTGACTAGAAATGGTGAGAGTGGGTA
CCCTTGTCTTTTTCTGATCTTAGCAGAATGGCCTTTAAATTTTCACCCAATTGAGTATGGTGTTAGCTGTAGTCTTGCCATATATGGCCTATTTGTGTTG
AGGAACATTCCTTCTATATGTAATTTGTTGAGAATGTTTGTTATGAAAGGATGTTGAATTCTGTCAAATGCTTTTCCTGCATCTATTTAAATGATCATAC
GGTTTCGTTGGTGGTGATGAATTTCACCCTCACCCACACCCTTTATGAACAGGTTCCTCATTTCAAGATTGACTGGACTTAGATGTGCAATTAGCACCAC
TATCTGGTTAAATGAATGCTATCCCTCTGTTTAATAATTCCAGTCCCTCAGGATGAATGAACCTGACTTTTGATTCGTATCCTACCTTTATAATTGATCT
CAAAGTGCACTTCTTTTTTTTTTTTTCCTTTCTTGCACTTAGTTAGATTTGTTTGCCTTTAYACCATTGCTTCTCATCTTGTGGTTTGGAAGTAAGCCCA
TCATGCATGCCCATTATGTCCATTACTGGGGTAACAGTAAAACCTTGCTCCAAGGGAAAGAAACCTGCATCCAGACTTGCTACCCAGTGCCTCTGGGACT
GGGCTCACCCGCTCAATGAAATGAGGCAGAACACAGTTGTTGCTGACTGCTCCCTGGGGTTCCAGCTTATTGGAAACTCTGGCTTCAGCTACTGTAGGAG
GCACCATCCACCTTGCCTTCTACATCATTGTATTCTATGTAAATGAATCTCCTGAAGGACAAGAAAATCGTCGGTCAGCATGTAAATTCACTCTGAATAA
AATTAAAATAATAGAATCAAAAATGAATTTTCAAAAGACTATATATAAAGGAATAATATGCACACTAATGGACAAGAAATAAATTAGAAATCTTGAAAAT
AAAAAATATTGTCATTGCGATAAAAATCAAAAGGATTTCCAGACTGGAAAGAGCTGGATAGAATCAGTAATCTGAAAGATAGTACTGAGGAATTCACCCA
GAATGCAGCACCTAGAAATAAAAAGAAAAATATATGAAAACGCAAGTAAGAGAGATGAAAGAGAGTTTGAGGCTCCAAAATACTTCGGATAGGAGTTTCT
GAAGAAGAGAATTAGGTGGAATGGTGGAGAAGCAATATATGTGGAGACACTGATTGAGAATTTTCCAGATATGAGAAAAGGTCCTGAGTCCTCCAATCAA
AAGCACACAGCCGAAGGTAAATAAAGAAACCTACACCCAGATACATGTAACGAAGTTGTAAAACATCAAAAAGAAAGAGCAAATCATGGCTGGGTGTATG
GTTCATGCCTGTARTCCCAGCACTTTGGGAGGCCAAGGGGGAAGGATCCTTTAAGGCCAGGAATTTGAGACCAGCCTAGGCAACATAGGGAGACCCTGTC
TCTACAAAAAAAAAAAATAATAATAAAATAAAAATAAAAATAAGCTGGTTGTGGTGGTGCAGGCTTGCAGTCCTAGCTACTCGGGCAGCTGAGATGGGAG
GATAGTTTGAGCCCAAGAGTTTGAGGCTGTAGTGAGCTATGATCATACCACTGCACTCCAGCCTGGGCAAAAGAGCAAGACCCTGTCTAAAAAAAAAAAA
AAAAAATGCTGGGCGCGGTGGCTTACACCAATAATCGCAGGACTTTGGGAGGCTGATAGGGGAGGATTGCTTGAGCCCAGGAATTCAATATGAGCCTGCA
ACATAGGGAGACCCAGTCTCTACCAAAACAAACAAACAAACAAACAGAAAAACTGGCTGCAGTGGCACACACCAGTCATCCCAGCTATGCAGGAGGCTGA
GGTGTGAAGATTGCTGGGTCCCAGGAGGTCAAGGCTATGGTGAGCAGTAATCAGGCCACTTCACTGCACTCCATCCAGCCGAGTGACAGAGCAAGACTCT
GTCAAAATAATAATAATAATAATAATAAATGTTAAAAAGAGAAGGAAATTCATGTTTATCATAAAATAATATTAAACCATCAAAGCAGTTAAGAGCAAGA
ATTAAGATTAATATGTGAAGTTAGCAGTTATATTGGATATATTTATGTATTTGCATGCTCTCGGGCAGATCCACATTTGGTAGAATGCTTCAAAAATGCT
ATTTTTGGGCGGGTGCAGTGGCTCACACCTGTAATCCCAGTACTTTGGGAGGCTGAGGCAGGCAGATCCCCTGAGGTCAACAGTTTGAGACCAGCCTGGC
CAACATGACGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTAGGCGTGGTGGCACATGCCTGTAATCCCAGATACTCGGAAGGTTGAAGCAGGAGA
ATCACTTGAACCTGAGAATCGGAGGTTGAAGTAAGCTGAGATCGTGCCATTGGACTCCAGCTTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAA
AATTGCCATTTTCATCATCAAACACTTATTTGTCCAGGATGCAGTATGACTATGTTCTTCTTCATTATGTTTTAGAATGAAGAAGCAGTACGACGTCTCA
TCTGGGAAAAGAATCTAAAGTTTGTGATGCTTCACAACCTGGAGCATTCAATGGGAATGCACTCATACGATCTGGGCATGAACCACCTGGGAGACATGGT
AGGTACATTACAAGAAATCCCACTTTCACGTCTGGGTAAATATCATTTCCTTYCTGTCTCCCCAAAAGCAATTTGAAGGTAAACAACAATAACAAAGGAA
TGTATAGTACAAAGTTGGAAAACAGTAGAATTGAAGGACGTAAGAACKTGTACAGAAATTTCTTACTTAGTTCTATTTTGACTGCTTTCTTTCTTTAACA
AATCACTTCTTTAGAGGAAATTTTAAACTCAGAGACTACCATTGTTTTTTTTTTAATAAATTCTAGAAAGTATTACCTAAAGACTATTGACAGGTTTTTA
TAGCAAGTTGCCATACTTATTTAAGTCTAGATTGACAATTTAGTATGACCCATCTGCTTTCTTAATGGGAGAATGTGGGTATTTAATATCACAAATAATC
CCCTATTGGTTTTCAGATTCTGTTCTGTCCTGCAAAACTTTACCACTGTTGCCAAAGTGAAGAAGGGAACGCCCTAGGTAGACTGAATTCCTTCTTAAAT
GCAGGAATCTCCTTTGTAATTATTTCTCACATGGGAAAYCAGTTTAGTCCACTTTTTAGACAGCCCTTTTATAAAATTCTGCCTTGCTTTGAAACAAAAA
TCTGCCTCCCTGTAACTTCTAGTTTTTACCATTCTCTTTTTCTCCTTCCCCATGAGGGTGCCTAGCTGGGATGCTAGTGCCAAGTGTGAAACTAAACAAA
CCCAGATAATTCGCCCCACCAGATCCTAATGGAACCTGTGTTGGTCACAACTATTACTGTTTTTTCTCAGTTTTTTTATTCCATGGCAGTTTTTAAATAT
ATTCACAGTTACAGTTATTAGGATATTAGAAAGTAGGATAGGCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGA
TCACCTGAGGTCGGGAGTTTGAGACTAGCCTGACCAACATAGAGAAATCCTGTCTCTACTAAAAATACAAAATTAGCTGGGCGTGGTGGCACATGCCTGT
AATCTCAGCTATTTGGGAGGCTGAGGCAAGAGAATTGCTTGAACCCGGGAGGCAGAGATTGCAGTGAGCCGAGGTCATGCCATTGCACTCCAGCCTGGGC
AAAAAGAGTGAAACTCCGTCTCAAAAGAGAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAAGAAAGAAGGATGTAAGTGAAAGAGATATATAGTCATGTGT
CATATGCATTTTGGCCACTGATGGACCACATATACCATGGTGGTCCTTTAAGATTATGATGGAGCTGAAAAGTTCCTCTTGCCTAGCTAGTGATGTTGTA
GCCACCATAACAATGTAGCACAACACACTACTCACTTGTCTGTGGTGATGCTGCTGTAAACAAACCTACTGCTCTGCCAGTGGTATGAAAGTATAGCACA
TAAAATTTTGCACAGTACAAAATGCTTAATAATAATAAATGACTATGTTACTGGTTTATGTATTTACTATACTATACTTTTAATTGTTATTTTAGAGTGT
ACTCCTACTTATACTTTTAAAAAGTTAACTGTAAAACAGCCTCAGGCAGGTCCTTCAGGAGGCATCCAGTAGAAAACATTGTTATCAGAGGAGATGACAG
CTCCATACGTGTTGTTGCCCCTGAAGACCTTCCAGTGGGACAAGAGGTGGAGACGRAATGCAGTGATACTGATGATCCTGACCTTGTATAGGCCTAGGCT
AATGTGTGTGTGTGTTTGTATTTTAGTTTTTAACAAAAAAGTGTAAAAACTTTTAAAAAATTAAAAATAGAAAAAGCTTATAGAAGAAGGTGATAAAGAA
GAAAATATTTTCGTACAGCTGTACAATGTGTTTGTATTTTAAGGGGTTACCATAGAAGACAAAACATTTAAAAAATTAAAAGTTTATTAAGTAAAAAAGT
TGCATTAAACTAAGGTTAATTTATTATTGAAGAAAGAAAAATGTTTTAACAAATTTAGTGTAGCCAAAGTGCACCGTGTTTATAAAGTCTACAGTAATGT
CCTGGGCCTTCACATTCACTCTCCACTCACTCACTGACTCACCCAGAGCAACTCCAGGCCTTTCATAGTAAATGACCTATATAGAAGTACCATTTTTACT
TTTTTTTTTTTTCTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCACTGGCGCGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGCTCAAG
TGATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGCATGCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCAT
GTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATTTGCCCGGCTCGGCCTCCCAAAGTGCTGGGATTGCAGGCGTGAGCCACCATGCCCAGCTCC
CATTTTTACTTTTTATACTGTATTTTCACTCTACCTTTTCTATGTTTAGATATATTTAGATACACAAGTACTTCATATTGTTCTACAATTGCCTACAACC
TTCAGTACAGTACCATGCCGTGCAGGTTTGTAGTTTAGGAGCAATGGGCCCTACCATACAGCCTAGGTATGTAGGAGCCAATACGCTCTAGGTTTGTGTA
AGTACACACTATGGTGTTTTCACAATGACAAAATCACCTAACGATGCATTTCTCAGAACATATTCCAGTCATTAAACAATGCCTGACTGTATATTTGCTT
TGTAGACCAGTGAAGAAGTGATGTCTTTGAYGAGTTCCCTGAGAGTTCCCAGCCAGTGGCAGAGAAATATCACATATAAGTCAAACCCTAATYGGATATT
GCCTGATTCTGTGGACTGGAGAGAGAAAGGGTGTGTTACTGAAGTGAAATATCAAGTGAGTATTACCATCCCAAGCCTCTGAACCCTAGGTAGAGCTCTT
TAAATGCTTAGTCTAGCTACAGAATTTGACAGTGAATYTTACAGTCCCACGTGTTACTTTCTAGTTATTTTTGTTATTCTTGTCTTCCCAACTAAATTAT
AARTTCCTTAAGGGCAAGGATCACATATTATATTTTATTTATACAGTTGGCCCTCCATATCCACAGCTTCCACATCTGCAGATTCCACCAACCGTGGATC
AAAAATATCCAGAAAAAAATGAAAATAAAAAATAGGCCAGGCACTCACGCCTATAATACCATTACTTTGGGAGGCTGAGGCAGGCGCATCACCTGAGGCC
AGGAGTTCCAGATCAGCCTGGCCAACATGATGAAACCCCGTCTCTACTAAAAATACAAAAATTAACTGGGCCTGGTGGCACATGCCTATAATCCCAGTTA
CTCAGGAGAGTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCACACCATGGCACTCCAGCCTGAGCTAAAGAGCGAG
ACTCCATCTCAAAAAAAAAAAAAAAGGTAAAGTATAAGGGAGGGCCGGGCGTAGTGGCTCATGCCTGTAATCCCAGCACTTTTCCAGGTCAAGGGAGGCA
GATCACTTGAGGTCAGGAGTTCGAGACCAGCTTGGCCAACATGGTGAAGTCCCGTCTCTACTGAAAATACAAAAATTAGCCTGGCGTGGTGGTGGGCGCC
TGTAATCCCAGCTACTCGGGAGGGTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCTTGCCACTGCACTCCAGCCTG
GGCGATAGAGTGAGACCCTGTCTTAAAAAAAAAAAAAAAAAAAAGTGTATAGGAGGATGTGTAGGTTATATGCGAATACTCAGTAATTTATATAAGGAAC
TTGAAAATTCTTGACTTTGGTATGCTCAGAGGTCCTGGAACCAATCCCTTGTGGATACTGAGGGACAACTGGATTCTCCACAGTGGTTTTTGTTTTGTTT
TGTTTTGTTTTGTTTGAGACAGGGTCTCCCTCTGTTGCCCAGGCTGGACTGCAGTGGTGCGATCTGGGCTCACTGCAACCTCTGCCTCTTGGGCTCAAGT
GATCCTCCCATCTCAGCCTACACGGTGACTACAGGCACACACCACCACTTTTTTTTTCTTTGTATTTTTAGCAGAGATGGGTTTTGCCATGTTGCCCAAG
CTGATCTCAAGCTCCTGAGCTCAAGTGATCCTCCTACCTCCACCTCCCAAAGTCCTGGGATTATAGGCATGAGCCCTCGTGTTCAGCCCCCACAGTGCTT
TTCTAAGTGATCATAGAGCCACCTACTTAGACAAACACTGAACTAAGCAAATAGGTGTTTAACACAGACTTTTATTGCTCACRCTATGCATTGACTGCAC
TGGACTCTCCAATAAGCCAATTGCTTGAGAAGCAGTGTTGTGTGAGAGAGCCCTGGTGATCAGGAAGTTTCTCCATTTCACTTGTGAGTTTCAAAGTTGA
AGGAGAAGAAAGAACTAGAGATAGAGTGTTCTATAAATTGAGCCACTCAAGTTAATTCATGGCTAGTCTTGCATCGTTAGAATATGAAATATGTGCCTTG
TAAAATTATTGTTCCTATGCTGTTGTATTTTCCTTTAGTTTGCTTGTTTTAAAAAAATTGCAAAAATCCTAAATTAGTTAGAGGTAAAACACATGTATCA
CCATAGAGGTCAGGGTAAGTGAGAGGAATCAAAGCATTCTGAGCAGCTACCCCAGGTTGTGATCAATGAAGAAAGTAAAAATTTATTAGGAAGTAAATGG
TGGCCAGGCACAGTGGCTCACATCTGTGATTCCAGCACTTTGGGAGGCAGAGGCAGAAGGATCGCTTGAGCCCAGGAGTTAGAAACCAACCTAGGCAATA
TAGTGAGGCCCTGACTCTACAAAAAATAAAAATAAAAATTAGCCAGGCATGGTGCGCTCCTGTAGTCCCAGCTACTTGAGGGGCTGAGATGGGAGGATCG
CTTGAGCCTGGGAGGTTGAGGCTACAGTGAGCCATGATCACACCACTGCACTTCAGTCTGAGTGACAGAAGGAAACCCTGTCTCAAAACAAACAAAMAAA
AAGAAGTAAATGGTACTGCTAATCTCTTATTCTTTTCCACCTACATATTTTTCTTTCAATTAGTTTTGGATTTCTTACCCGAGGTTCTCTAAAATAACAG
CTTTTAGAAGACCCAATAAACCACATATTTAGATGTTAACTCTGAGTAAGTTAATGAGCTCCTTTCTCTGGGTGCTTGCATTTTAATGAACAATTTTGCT
TCAATCAAAAGCAATGTCAGTTTGCTTCCTTTTGGTGGAGAGCAAGGTGGGAGGAGGGAAGGAGAGAGAAAGAGAACAATTATGATGGGGCTCTGGACAC
TCTGCCCCTTTTAAAACTAAAGCAGCTTTGCCTTTTTTTGTTTGTTTATGCCTCCTTGTAAAATATTTTTTAATCAAAAAAATTCTGAAGATAACAAAGG
TTTGAAAAATGCCAACCTAGGATTAAACTTCTTATGTTTCAGGCATCATATGACAGGAGAAAGGGTATTTTAGGTCAAGGAAATCATCCTAGCTCTCTCA
AAATCTCATTACTGTAGGCAACTATCTCCCTTACTTATGGGTGAAAATAGGTGCAATTTGGTACATGCTCAGTGAGTATTGTTTCTAAGTATATTTGAAT
ATGGCCATTATGTTCTGAGCTTGGCTGATTGCAAATCTCTATCAAGGTTGGACCTTGCCTAGATAACAATTGAGTTAAATTTAGTCTTCATTCCCATTGT
TAAAGACAGAAGGAAACTGTAGTGGGGGAGCTCTTTCTGGGAACTAGGGACAGAACTGATGTAGCTGAGCGTTGTCCAGTTTGGGTTATGGAAGTCATTC
CGAATGATTTTCTGTGATTTGCGTTTGTGACCTTGTATCTGTTTTAGGGTTCTTGTGGTGCTTGCTGGGCTTTCAGTGCTGTGGGGGCCCTGGAAGCACA
GCTGAAGCTGAAAACAGGAAAGCTGGTGWCTCTCAGTGCCCAGAACCTGGTGGATTGCTCAACTGAAAAATATGGAAACAAAGGCTGCAATGGTGGCTTC
ATGACAACGGCTTTCCAGTACATCATTGATAACAAGGGCATCGACTCAGACGCTTCCTATCCCTACAAAGCCATGGTGCGTCTWAAGCAAACTTTTTGTG
CTGCCCCATGATCTCATGTTATCCACTGACTGACTGTGCTGGGCTTGCCACCATGCCAATTGCTTGAGAAGCAGTATTGTGTGTGAGAGAGAACCCTGAA
GAGGAATTCTTAAATTCTCAAGAGTTCTGTTTCTGATGAAGTACTCTTCTTAATATATCAGTAGTACAAATAAGGAAGTAGCATTCATGCTTAAAAACAG
ATTTTAATGACTGGGCGTAGTGGCTCATACCTGTAATCTCAGCACTTTGGAAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTG
GCCAACGTGGTGAAACCCTGTCTCTACCAAAAATACAAAAATTAGCCAGGCATGGTGGTGCATGCCTGTGGTCCCAGCTACTCGGGAGGCTGAAGCAGGA
GAATCGCTTGAACTCAGGAGGTGGAGGTGCAGTGAGCCGAGATCACGCCACTGTACTCCAGCCTCGGCAACGGAGCAAGACTCCRTCCCAAAATTAAACA
GATTTTAAGCAAACTATCCTTAAAATTATTTCTCTGTATTTAAACTTTTTCTTCTGCAGCCTCCCATGCTCAACCTTATTCTCAGATCATTAACCACATC
ATTCTTCCACCCACTGAGAAGCTAAATAACACTCTCCTCTTCCTCAGAAATTCATTATACATTTTGATATAACGATAACCTAAGGATTGTGTCCATGTTA
CAGAAGATTTTAAAAATATAAAAATATCACTCAAAAACCTTCTACCTTAACCACTATTGTTTTGGTTTATTTCTTTCAAGTTATTTTCTTGTTAAGCACT
TAAAAAACATAGTTGGCCAAGTGTGGTGGCTCACACCTGTAATGTCAGCACTTTGGGAGGTCGAGGTGGGAGGATTGCTTGAGCTCAAGAGTTTGAGACC
AGCCTGTGCAACATAGTGAGACCTCACCTCTACTAAAAATCAAAAAAATTAGCCAGGCATGGTGGTGCACACCTGAGTAGCAGTTCCAGCTACTCAGGAA
GCTGAGGTGGGAGAATCACTTGGCCCAGGAGTTGGAGGCTGCAGTGAGCCATGATTATGCTACTGCACTCCAGCCTGGACAATGGAGTGAGAGCCTATCT
CAAAAAAATAAATAATATAAATAAATACAAAATAGTTGTATATACAACAAACATGAATTTGTAACTTTCCTTTTCCCACTTGAAATACTTGTGTTTCCCA
TATTATATGGTCTTTATATACCATCATTTTAGCTGCAGATCATCTTGCAGGCATCAAAAAGATTTTAAAGCTCTCATCTAGAGTTTATTATCTCTATGTA
ATATTTCCCTACAGTCCACCTGAAAGTCTGAGGGGCCATTGTCCTGGCAAGTTTTGCATGTATGAGGATGTTCACAATTTGAAAGAAYAGAATAGTTCTG
TATTTCCTCCATTATTGCTGAAACCCGGGACTGTTAGGATTTGGAAGATTTGCAAAGGAAGGAGCCTTAGACACATGAAAAAGTTAAAGAAAGGAAGGGA
GACATTTAAAATCCAGGCTTAGGATACAGGTGATTTATACAGGAGTTGAAGTATACTTCATCATATTTATACTTCTTTTTGCAGGATCAGAAATGTCAAT
ATGACTCAAAATATCGTGCTGCCACATGTTCAAAGTACACTGAACTTCCTTATGGSAGAGAAGATGTCCTGAAAGAAGCTGTGGCCAATAAAGGCCCAGT
GTCTGTTGGTGTAGATGCGCGTCATCCTTCTTTCTTCCTCTACAGAAGTGGTAAAAAATAAAATAAACAATAATTAGAATTTAAAGAAAGAAAGAAAGGA
TATTGGCTGAGCACGGTGGTTCATGCCTGTAATTCTAGCTTTGGAGGCTGAGGTGGGAGGATTGCTTGAGCCTGGGAGTTTGACACCAGCCTGAGCAACA
TCGCGAGACCCTTATCTCTACGAAAAATAAAAATAAAAATTAGCCGGATATGGTGACACTCACTTGTAGTCTCAGCTACTTGGGAGGGTGAGGCAGGAGG
ACTCCTTGAACCCAGGAATTTGAGGTTACAGTGAGCTATGATCATACCACTGCACTCCAACCTGGGCAACAGAGTGAAAACCTGTCTCTAAAAAACAAGG
AAGAAAGAAAGAGAAAGAAGGAAGAAAGAGGGGCAGGGCAGGGCAGGGCAGGGCAAGGTGGGGCGGGGCGGGGCGGGGCGGGGTGAGGCGGGGCGGGGTG
AGGCGAGGCAATTTTAAACCTCATGAACCAACATCTGCTGGCTTCAAACTTTTCTTCTGTAGCTTCCTCGCCTCTCTCAGCCTTCTTACAATAGAAGAGA
GTTAGGGTCTTGTTCTGGATTAGGTTTTGGCGTAAAGGCATGCTGGGCTGGCTTACTCTTGTATCTAGACCACTCACATTTTCTCTGTATCAGCAATAAG
GCTGTTTCACTTTCTTGTCATTTGTGTGTTCAGCAGAGCAGCATTTTTAATTTCCTTCAAGCACTTTTCCTTTACATTCACAGCATGCCTGACTGTTCGG
TACAAGTGGCCTAGGCTAGGTTCTGGCCTGTCTTGGCTTTCAACATGCCTTTCCCGCTAAGCTTAATCACATCTAGCTTTTGACTTAAAGTGAGAGATAT
GCAACTTTTCTTTTTACTTGAACACTTAGAAGCTATCATAGGGTTATCATGTGGCATAATTTCAATATCATTGTGTCTCAGGGAACAGGGAGGCCTGAGG
AGAGAGATGGGGGTGTGGCCAGTCCGTGGATCAGTCAGAACACACACAACATTTGTGGGTTAAGTCTGCTATCTTATATAGGTGTGGTTTGTAGCTCACC
CTCAAAATTATGAAGTAACATCAAAGATCATTGATCACAGATGACCATAACAGATATAATAATGATGAGAAAGTTTGAAATATTGTGAGAATTACCAAAA
TGTGGTACAAGGACACAATGTGAGCACATGCTTTTGGGAAAATGGTACCAATAGACTTGCTGAATGTAGAGTTGCCACAAACCTTCAATTTGTAAAAAAT
GCAATATCTAGCTGGGTGCAGTGGCTCATGCCTATAATTCCAGCGCTTTGGGAGGCMAAATCAGGAGGATGACTGGAGCCTAGGAGATTGAGGTTRCART
TAGCTATGATCRTACCACCTGTATTACAGCCTAGACAACAGAGCAAAACACTGTTCCTTAAAAAAAAAAAAAAGCTAATATCTGCAAAGCACAATAAAGC
AAAGCACAATAAAATGAGATATGCCTGTATACACAGAGAATTAAAATAACTGATTGTATGCAAGTTTAAAAATACTTAGAAAAAAACAAAAAAGAAAAAA
ACTTAGAAAAAGGTGGTGTGCTTATCAAAGAAGGTTTCTGGGGGAACTATGACTGGAGTGATGCTAAGCTTGGCAAGAACACTGACAAATACAGCATTGG
TGGCAAATAATTATGAGCCCTAGTTTATGCATGACAGTATATGTCCTTGACTTTTTTTTTTTTTTTTAAGATGGAGTCTTGCTCTGTTGCCAGGCTGGAG
TGAGGTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCGTGCC
ACCATGCCYAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTGTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTTGTGACCCGCCCGCCTTGG
CCTCCCAAACTTCTGGGATTACAGGCATGAGCCACCATGCCTGGACATGTCCTTAACTTTTTAAATTAACCTTGCTATGTATCCAAAGCAGGCTAATAAA
AAGTAATACCGTTTTAAAATGCCCTTTATTATCCTATAGTATTCACTCTTTTTTCCCACCCATATTTGATTCTCAGGTGTCTACTATGAACCATCCTGTA
CTCAGAATGTGAATCATGGTGTACTTGTGGTTGGCTATGGTGATCTTAATGGGAAAGAATACTGGCTTGTKAAAAACAGGTAATATATTTACACTTTATA
TTTAATTGGAATCAGGAATTTGAGGGAGTTTCRGCAAATACTCTCATGATTTTGATGATGATCATTATGATCACGATATTGACAATGATGAACTTTATAG
CTTCTTACAAAGTGACATTCTAAATTACTCAGTGCCCCCATCTTTTCACTTACCATTCTGCCTTCATCACTTTGTTTTCCTGGTTTATCTTCTGTACTAC
TTCTGTGATTATTCCTTCTCAGCCTCTCTCATGAACCTATTCCTCTCCTCTATTTAGCCCAAAAATGTTAGTTTTCCCCAGGGCTCTATCATCTGCCCAT
TCCTCTTCTTATTTTATTTTTTCTTGGGTGCTATAATTCCACTCTTAGGACTCTAGCTATAACCTTTATATGCCAATAGCTTTTGAATCTCTAGCTCTAG
TTCTGACATCTTCCCAGAACTTCAGACTTATCTGGACACACTCACTTACATATATCTTAGTCTTTCCAAACTCAATACATCCAAATAATTCAGTACTCTC
TCCCCCATACTGTTCCTCCTTCAGAATTTCCCATATCAGTAAAGGGCCACACAACACAATCACCCAATAAGATATGATGGATTCATCTGAGACCTCCCCA
AGTCCAACCAAGCAACCAATTAGTCAAACCAATTTTACCTTATCTATGTCCTTGATTCTGTTCCTTCTCTGTTTCTTCTATTACGGCTCTAGTTCAGGCA
TCTCTAGTGTGGACTATTGCTRTACCCTTCTAACTGGTCTCCTTTACTCTCTATTTTCTTCCCCTTTACCCTCAAATCCATCTTTCATACTGCTGCCAAA
CTTATTTGTCTAAAATATGAACGAGTCTGGGCTTATAACTCTTCTACTGAGTTTCATTCGGTGTAAAATTAATGTTCCCTGACAGAAGACAAATCCTATA
GGCTGTGCTCCCTGCCTTGCCAGCCTCACCTCCTGGCATTTGTTGCCTCCTATTTTCACTCTGGTTATACTGCACTATCCACAGTTGTAGTTCCCATACA
TTCCACTTTATCTGTAATACCTTCCTTCATATCTTGGTTTGTGTTCCCTCTGCCTAGAACATCCTGTCTTCTCTTTTGGTTTACTTCTCCTTTTCTTCAG
AAGTAGCTCAGGCACAATCTATTCCAGAAAAGTCTTTCCTGAATCCTTGGGCTGAGGAACATGTCTTTTTTCTATGCTGCCAAAATGTCCTATGCATACT
GGATCACAGGATTTTAGGCATTATATTTAAATTGTATATTTACCTGTCTGTCACTCCAGTGTTCTGTACGTGCCTTTGGGGAGAGATTATGTCTGGTCTT
CATATCCGCAGCACAGACTAAGTGGGTGGCACCTAAAGGCCCCTCAATATATGTATTGAACTGACATCTATATCACTCATAAACAAAAGGAACATAACTT
CTAGAGGGAAAAAATGGAGGAAATATGAAGAGTTGAGACTTTGGGGCATACCTGGAGTTTCTCTTTGTGTTAGTTTGCTATGGCTACCATGACAAAGTGC
CACGAACTGAGCAGCTTAAATGACAGAAATTTATGTCTCCCAGTTCTGGAGGCTGGAAGTCTAAGATCAAGGTGTTACTTCCTTCTCACGCTGTGAGGAA
GAAAATATTCGTGGACACAGGAAAAAAAAACTGTATGATCTTACTTATATGTGGGATCTAAAAAAGTCAAACTTACAGAAACAGACAGTAGAATGATAGC
TGCCAGGGACTGGAGGCTGGGTAATGAGGAGATGCTGATCAAAGAGTGTAAACTTTCAGGTRTAAGATGAACAGATTCTGGGAATCAAAGGTACAGCACG
GGTGGAGATGGATGTGTTATTTCATTTGATTATGTCAATCATTGCACAATGTGCACATACATCAAGTCATCACACTGTATACCTTGAGTTTATACAATCT
GTCAATTAAATATGTTCTTTTAATTAAAAAAAAAAGTTTGATGCCTCTCCCCTAGCTTCTGAAAGTTTGCTGGTGATCTTTGACTTTCCTCAGCCTTTAG
GACAATCACCCTGACCTCTGCCTTCATTTTCACATGACATTCTCCCTGTATGCATTTCTGTCTCTATTCATAATTTTACTTTCTTCCCCTTTTTGAGACA
GGGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGGGTGATCAATGTTCACCGCAACCTCAAACTCCTGGGCTCAAGCAATCCTCCCACATCAGCCACC
AAAGTAGCTGGCACTACTGGCATGCACCACCACACCAGACCAATTTTAATTTCTATTTGTAGAGACAGGATCTCTCTATGTTTCCCAGGCTGGTCTCAAA
CTCCTGGGATCAAGTGATCCTCCTGCTTTGGTCTCCCAGAGCACTGGGATTACAGGTGTGAGCCACTGCGCCTGGCCAATTTTCCCTTTTCATGAGCATC
ATTCATGTTGGATTAGGACCCACCCTAATGACCTCATCTTAATTTAATTAATTATGTCTACATCAACCCTATCTCTAAATAAGTTCACATTCTGAGGTAC
TGGAGGTTAGGATTCCAACATGAATTTTGTGGGGACACAATGCAACCCATAACACCCCTTAAATCTTTACTTGAAGTACATAGTCTACAAATCAAACAAA
AGGTGCTTTCCTACCCTTTTCCCACTGTGGCACACATAGAAGATGATGATATTCGTATGGCCCATGGGGAAAGTAGCTGAGGGGATCAATATCTTGGTTC
ACTGATAACCTATTCACAGCACTGATCAGCTTGGGTGTAGACCAGTGATAGCTTTTTAAAATGAAACTATTTCCCTCATATCTTATTGACTCTCTAAGGA
ACTCCCTACGGCAGGTGTTCTAAATTCCCTTCTCTACTGAAGTTGCTCTTGAAGATCATCTATATCTTTTAGTGTTGAAATTCAAATCTGCTTCTCTTCA
CTCATTCATTCAACAAGCACTTACTAGGCATCTACAATGTGACTGGCATTATCTAGGCCCTGGAGATACAAAAAATAGTAAGAAACCATCCTGTCCTAAA
GGCACTCACAATCTAACATGAAAAAATATATATAATATATATTATATATACATACATAATATACAATACATATTATGTATGCATACATAATATACAATAC
ATATTATGTATGCATACATAATCTATAATATACATAATATATAATATAATAYATAATATACATATATAATATATAATATATTATGTATACATAATATACA
TATATAATATATAATATATTATGTATACATAATATACATATAATATATAATATATTATGTATACATAATATACATATAATATATAATATATTATGTATAC
ATAATATACATATAATATATAATTATTATGTATACATAATATACATATAATATATAATATATTATGTATACATAATATACATATAATATATAATATATTA
TGTATACATAATATACATATAATATATAATATATTATGTATACATAATATACATATAATATATAATATATTATGTATACATAATATACATATAATATATA
ATATATTATGTATACATAATATACATATAATATATAATATATTATGTATACATAATATACATATAATATATAATATATTATGTATACATAATATACATAT
AATATATAATATATTATGTATACATAATATACATATAATATATAATATATTATGTATACATAATATACATATAATATATAATATATTATGTATACATAAT
ATACATATAATATATAATATATTATGTATACATAATATACATATATAATATATTATGTATACATACATATAAATCTCTCTATATATAAATATAAATATAT
TTATAAATATATATATATATATATATATCTCCCAGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACCGCACCCAGCCTAGATGTATTTTTAAA
CGATACAACAAACACATCGTGGTATAATGATACATGTCTAAATGGCTATGGGACTGTTGAAGAGGAAATGCCTAACAGCCTAAACCTCCACAGAGAAGAC
ACTATTTGAATCAAGTTTCCAGATGTATGGAATTGTTCATGTATTGGAGGAGGAAAGTGTGTTAGAGGTTGGAAAGTTGCTCTCAATGACCCAAAAAACA
TATGCAATGGCACATTTCTCACTATCTTGATTCATTTTGCTACATCAACTTTAGCCTCATATCTTACGTTATTTTATCCACCTGCCTGTTACATGAGTTT
GCTATATCAAAGCAAACTCATCTATATCAAAGCAAACTCACCTGCTCCTTCAGTTTCAACTATTGCCATTATGTAGATGATCCCCAGTTCATAATCTCTG
AAAATGACCTCCTAAGTGACACACTTCCTTGTCCAACTTCCAATTTGGCAGCTCTCCTTGAAAAATCCAAACTCCCCACCTACATCACCCTACTACCAAC
ATATACACACTCTCATACTCAATAAGTTTACAATGTTCTTCTCTTCCTTTCTTCCCTCATCCCTGAAAAGGATTTTCAAACAAGCTCAAGGGAAAACTAT
TCCTTATTTTGGGTAATATATTACCATCTTCAGATTATTAAAGCCTAAGCATCATCTTGGCCTTTTCCTTTTCCCCCCTCAACCCACCCAGCCCTATCCA
TTTGGCCTGTGAATCATATTTTATATGTATTTTCTCTTTGCCATTCCCAATGGCCCTGCTGTAATTCAGATTCCATTCTACCCAGCTATAGCGGTATCTT
TTTAAAATATAGATCATGTCAACTCCTGCTCAAAAATTCTGAATAGTTCACCATTGTCTAAAAATGAAGTCCAAACTCCTGGCCAGGCATTCCAGGTACT
CCATTATCTAGCTTTTAACATAACCTTAGACATTTCTTCCACTATATTTTCATATACCCACAGTCATACTCTGGCCACAGTGAACTACTTATTCATCATT
CCCTAAGTTTACAGATACATCCCTACCTCTGTTTCTTTATATATGCTGTATCTTTCTGAAATGCCTGTGAAGTCCAATGCTGTCTATAGAAATCCCACCT
GTCTTGGTGAAATGGGCATTCTTATACAGTTTGATGGGAAAGTAAGCTGTATTTATTCTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCAGGCTAG
AGTGCAGTGGCATGATCTCAGCTCACCGCAACCTCTGCCTTTAAGGTTCAAGCAATTCTTCTGCCTCAGCCTCCCGAGTAGATGGGACTACAGGCATGTG
CCACCATGCCCAGCCAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGATGGAGTTTCACCATGTTGGCCAGGATGATCTCGATCTCTTGA
CCTCGTGATCTGCCCACCTCGGTCTCCCCAAGTGCTGGGATTACAGGCATGAGCCACCCTACCCTGCCTATTCTCTTTCTTGGAAGCAATTTGACAATAT
GATAAAGAACTTTTTAAATGTTCATATTCTTCCCCCCCCCTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCTCCCAAGCTGGAGTGCAGTGGCACAATCT
CGGCTCACTGCAACCTCCGTCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGAGATTACAGGTGCCCACCAAAACACCTGGCTAAT
TTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTACCAACTCCTGATCTTGGGTGATCTGCCTGTCTTGGCCTCCCAAAGTGC
CAGGATTACAGGCGCAAGCCACTGCGCACAGCCAGTGTCCCATTACTTTTATTTCTTGGAATCTATATGAAGAAAATAATCCTAAATATGGGAAAACTTT
CATACACAACTTATGTGAATTGTAGCATTATTATTTAATAGTAAAAACTAGTAAGTAGCCAAAAATGCCTAACAATAGGTATATGATTAAATAAACTATG
ACATAATCAACTCCATGCATTAGATTTATTCAGACTATTATTAATAACCTAATAAAATACTTGGGATATATATTTAAATGAAAAAAGATACACATAAATA
CAAAATTTATATGTAGTATAAATATTAGCTGAATGTGGTAAGCTCATGCTTATAACTCTAGAGCTTTGGGAGGCCAAGGCAGGAGGATCACTTGAGGCCA
GGAGTTTAAGACCAGAAACATAGGGAGACCCAGTCTCTATAAACAAATTTAAAAAATTAGCTGGGCATGGTGGCATGTGCCTGTAATATCAACTACTCAA
GAGGCTGAGGTAGGAGGATTTTTTGAGCTGAGGAGTTTGAGGCTACAGTGAGCCATGATCACACCACTGCCCTCTGGCCTAGGTGACAGAGCAGGACCCT
ATGTCAAAAAAAAATTTAAGTTAAACATAGTATGTCCAACCAGGCTTAGTGGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCTGAACTGGGAGGATCG
CTTGAGCCCAGGGGTTCAAGACCAGCATGGGGAACATAGTGAGACCCCATCTCTATACAAAAATAAGCCAGGCATGGTGACACACACTTGTGGTCCCAGC
TACTTGGGAGACTGAGGTGGGAATATCACTTGAGCCCAGGAAGTTGAGGCCGCTGTGAGTGAGCCATGATCACATCACTCAACTCTAGCTTCAGTGACAG
AATGAGACCCTATCTCGAAAAAAAAAGGAAGGAGGCCGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACTAG
GTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGCGCATGCCTGTAGTCC
CAGCTACTCGGGAGGCTGAGGCAGGAGGATGGCATGAACCTGGGAGGCGGAGCTTGCAGTGAGCCAAGATCACACCACTGCGCTCCACACTCCAGCCGGG
GTGACAGAGCGAGACTCTGTCTCAAAAAAGGAAGGAAAAAAAAGAAAGGTATTAATTTTAAAATGAAAAAAAAGTCATTACAAATCCTATTCATTTTTTA
AATCCTGCCTCAAATACTATCTCCTTCATACCCCATTCACTTAGAATTGTTTCTCTAATTCCTAAGCTTTGGCAATGCTTTATGAATTCTATTATAGTAT
TTTACACATATCCCTTGTGTTATAGCTATTTGTGCAAACCATGCCCCATTCACTAAAATGTAAACTTCTTCAAGGTAGGATAGTCTCTTGTTCATTTTTG
CATCTTCATTTGGACACTGATTCAACAAACATGTATTGAGTACCTACCATGTGCCAAGCTAGGAACTAGCGATTGGAAATGAAAAATGCAGCTCTTCTAC
CGTCCCTCAAGGTACTCATAGTCTAATGGAGTGAAGGAAACAGGCAGGTGCATGTGTAGTCCATTGCAACTCAATGTGATAAATGCTAAAATCGAGGTGG
CATAGGTTGCACTGGAGGCATAGAAGAACTTCGGCAGGTTATTTAACTTCTTTAATTTTAGTTTCATCAGCCTTCTTACAATGGAAGAGAGTTAGGGCCT
TGCTCTGGATTAGGTTTTCGCTTAAGGGCATGTTGTGGCTAGTTTGCTCTTTTATCTAGGCCACTCAAATCATATCAGCAATAAGGCTGTTTCACTTTTT
TTCTTTACTTTTTTCTTCTTTCTTTCTTTTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGAGACAGGTCTCACTTTGTCACCCAGGCTGGAGTGCAGTGGC
ACAATCTCAGCTCACTGCAACCTCCGCCTCCCTCCAAGTAGCTGAGACTACAGGCATGTGCCACCAGGCACGGGTAATTTCTGTATTTTTAGCTTGTTGC
CCAGGCTGGTCTTGAACTCCTGAGCTCAAGTCATCTACCCGCCTGAGCTTCCCAAAGTGCTGGAATTACAGGCATGAGCCACTGCACCTGGCCTGTTGTT
TTGCTTTCATTCATGTGTTCACTGGAGTAGCATTTTAATTTCCTCCAAGAGCTTTCCCTTTGCATTCACAACATGGCTAACTGGTTCAAGAAGTCTAGCT
TTCAGCCTACCTTGGCTTTCACAAAGCATAATCATTTCTAGCTTTGATGTAAAATGAGAGATGTATAACTCTTCCTTTCACTTGAACACTTAGAAGCCAC
TGTAAGGTTGTTTTTTGTTTTTGTTTTTTGAGACAGTCTCCCTCTGTTGCCCAGGCTGGAGTACAGTGGTGCAATCTTGGCTCACTGAAACCTCTGCCTC
CCAGGTTCTAAGCAATTCTCCTGCCTCAGCCTCCGGAGTAACTGGGATTACAGGCACGCACCACCACACCCTGCTAATTTTGTATTTTTAGTACAGACGG
GGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCTTGTCCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTAGGATTACAAGCGTGAGCCACCG
CACCTGGCCCATTGTAAGGTTATTAATTGGCCTAATTTCAATATCATTGTGTCTCAGGGAAAAGGGAGGCCAGAGGAGAGAGAGAGAGATGGGGGAAGTG
TCAGTTAGTGGAGCAGTCAGAACACACACCACTTATCAGTTAAGTTCACCATCTTATATGCACGTGGCTCATGGCACCCCAAGACAATTACAATAGTAAT
ATTAAAGATCACTGATCCCAGCTTGGGCAACATAGCAAGACTCTGTCTCTACAGATAGTTTTTTTTTTTAATTACCCTGGCATGCTGGTGCATATTTGTG
GTCCCAGCTACTTGGGAGGCTGAGGCAGGAGCGTGAGACCTGGAGGCTGAGGCTGCAGTGAGCTGCGATTGTGCCACTGCACAACAACCTGGATGACAGA
GTGAGATCCTATCTCAAAAAAAAAAAAAAAATCACTGATCACAGATCACCATAACAGATTTGCTAATAATGAAAACAGTTGAAATATTATGAGAAATGCC
AAAATGTGACACAGGGACACAAAGTGAGCACAGGCTGTTGGAAACATTGTGCCGATAGACTTGCTCCATGCAGGGTTGCCACAAACCTTCAATTTGTAAA
ATATGCAAAATTTGCAATGCACAATAAAGCAAAGCACAATAAAACAAGATTTGCTTGCACTTCTCAATACCTCTGCTGTTACCATTAGAGTTCAAGCCAC
CATCCATCTCCTGGTCTATTGCAATAATCTCATAACTGGTAGCTGCTTCCCTCTTGTTTGCTTGGAATCAATCCTCTACACAGTAACCAGAATTATCTTT
TTAAAGCATAAAGTAGATTATGTTACCCTTCTACCCCAAACCCTCTAATGGCTTTCCTTCCCACTCAGAATAAAACCCATGACCTGTAAAGCATGACATT
ATCTGGCCTTAGCCTGCCTCTCCAACTACCTCTCCAACTACTCTCCCCTCTCTCACTCAGCTCCCAGCACATTAGCCTTTTGGCTATTTCTTGACACATC
ATGCTTATTTCTAGCCCTTTATCCAGGTCTTTGCCTCACTTGCATCTTTGCGCAAACATCCACTCAGCGAAGCTTTTCCCGACCATTCCACCTAAAATTG
AGCCCTGTCTCTTAACACTCTGTATCCCTTATCCTGCTTTATTTTTCTTTATTGTACTAATCATATATATCATCAAGTATTTCTTCGTTTATCATATGTT
TCTCCTCTAGAACCTAGGCTTTAGAAAGACTTTGTCTCTGTAATCCTAATGCCTAGAAGAGTGTCTGGCACAGCCTAAGAAGCCCAGGACTTCAGTCTAT
TACAAAGGAAACTGGCATTGATTTTAGAAGGAATAATAAGTTAGTAGCCTTATAATATGCAAGGAGAAGGTAGGGTGATCAACTTTCCCACTTTGCTAAG
GGCTACGAGGCTTTCTGGGACATAGGACTTTCTTTTTAAAAACAGGACAGTCCCAGGCAAACTGGGACTGGTGATCACCCTAGAAGAACGCTATACATTT
TTTTAAAAGTAGACGGACTCAGCCCGGCTCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGAGGATCACCTGAGGTTGGGAGTTC
GAGACCAGCCTGGCCAACATGGAGACACTCCATCTCTACTAAAAATACAAAATTATCCGGGCATGATGGCGCACRCCTGTAATCCCAGCTACTCAGGAGG
CTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGGCGAGGTTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCGTC
TCAAAAAAAAAAAAGTAGATGGACTCTACTTGAGTCCAATCTGATGTACTCATACCTGGATAATAATAAAAATAGCTACCTTCACTTAGTAAGCATTGGC
TATATACCAAATATTGTGTGAGTACTTTAAATACATTCTCTCATTTAATTTTTAAAGTACTCTTATGAGATAGGCATTTAGTTAACAAACTCACCTAAAG
TTGAACAGTTTGAGTGAAAGAGCTATAGAATTAATAAAAATATACAACTTGGTAAGTACCGAAATGAACATTTGGAGCAGATCTTGTATAATTCTGAAGG
CAAGACTTTGTCCTCAGATACTTTATTTAGCTTAAGATTTTTTTTTTTTATCAGTTTCATTGTTTAAGGGAAGTTAGCAGGACTCAGTCAAAAAGAGGTC
TGGGATCTTTTGCAAAACTGGGGGCAATTGATCTTGGTCGGTAAAACTGAGAAAAGTAAATTGTTTAGWTGTTGAATGGGGTCTGGGATTCCTTGGTCTC
ACTGACTGAATTCATACTGCTAGTAACTAGACCCTCAATTCAATTTTCATACTAGAACTCAGGTCCAAATTCAGTTCACCTAAAATGATTTATTTTACCT
ATTATTTAATGCAGTGACCATAGTAGGATATAAATTACATGAGATCCTAGATGTACTGGTCTGAATTTCATTCCCCATATGACTTCACTCACAGAGATAA
CTGTAGGGATAGGCATAGATAAAAGTTAGAGTGGGCTTTGGAATAAAATAATCCTAGATTTGACCTCTGGCTTCACAATTTACTATCTATGTGACTTTTG
GCAAGCTACTTTACCACTCTGCCCTTCTGTTTTTTTCTTTAGTAAAAGAAGATAATATTCACCTCACAGGATGATGATTAAATTAGATAATTTATGTTAA
TCTGTTTGGCAGAGTAAGTGCTAAATAAGTGGTGTCTATTAATATTAATAATAGCCTGGCCGGATTCTTGTTATTGCTTTTGCTTATCAAACTGGATATT
AAAAGAGCATTGCTACAGCCTGGGCAACATAGTGAGACCTCTTCTTTACTAAAATAAAAAATTGGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCA
CTTTGGGAGGCTGAGGCGGGCAGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTAAAACCCCATCTCTACTAAAAAATACAAAAAAATT
AGCCAGGCGTGGTGGTGGGCGCCTGTAATTCCAGCTACTGAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGA
TTGTGCCACTACACTCCAGCCTGGGCCACAGAGCAAGACTCCATCACAAAAAAAAAAAAAAAAAAATTGGCCAAGCATGGTGGTATGCACATGTGGTCCT
AGCTACTTGTAAGGCTGAGGCAGGAGGATTGCTTGAGCACAGGAGGTCGAAGCTGCAGTGAGCTGTGATTGCACCACCACACTCCAACCAGGGCAACACG
GTGAGACTCTGTCAAAAACAAACAAACAAACAAAAAAACCCACTACAGCCAGTGGTTTATTAGAGGTGACGATGGAGTTTGAATTTTATTGTAAAGGCAT
GGAGAGCCATTGACAATTTCTAAGCAGTGGAGTGGCAATTAAGTGAAAGGAAGTAAAGAAAGGAGCTCATGAAAATGTTTGAGAAGGACTGACCAGAGAG
AGATAAGAAAATCAGAACATAGTAGTGTCTTGAAGCCAAGAGACCAGTAAGGTGGGAGTAGACAAGTGTGTTAAATGGTACAGAGAGAAAAAAATAGGAC
CTGCAAAATGTCCAATGAGGGCTGATACATAGAATATTTAAGGCCTCTTAAAGCACAGTCCTTTTAAATGGTGTCATTTGTCTTCCAACAATAAACCAGC
ATTTCTTAGGTTCTCCACTGCATGCAAAAACACAAACTTTGAGTCCCTGAGCCAAAATTTCTAACAGCTTCCCTTTGCCTTTGTAATTGAAGTACATGTT
CCTCCACCTGCTGTTCTAAGCTGTTCACAACATGGCCCCAAACCAGCTTTCTATCCTCTTTTTCCACTATTCTACTAAAGATATCCAGTTTTCCTTTCAA
CTAAATTTCTTACTGCTCTCCAGACACACTAGGCATTTTCTCAATTTCACACTTTTATTTGTATCCTAGAGCACTTAATGAATTTTGCCTTGTATGATAT
TTATATACCTACCACTATAAAATCTCAGAATGATAAAGAGCTTCAGAAATCATTCCTCTTACAAGGATTTTCTAAGTTTTTTCATCAGTCTTGGTAAAGT
AAGAAAAATAAGAATATTTTGGTGACTTTTTCATTAATATAAATTTATTTACTCAAAAGACTATCCTTAAAATAGAGATTATGTCTTTGGATTTTTTGCT
TTTGGTGTTAAAATGTATTTTCTTTTACAACATAATGGTGACAGTAAGTAGTATGGTTTTTATTTATTTTCTTTTTTTGAGACAGTCTCACTCTGTTGCC
CAGGCTGGAGTGCACAGGCGCAATCTCGGCTTACTGCAACCTCTGCCTTGCCTCCCAGGTTCAAGCGATTCTCCTACCTCAGCCTCTCGAGTAGCTGGGA
CTACAGGCTCATGCTACCATGCCCAGCTAGTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGATCAGGCTGGTCTCGAACTCCTGACCTCAAA
TGATCTGCCCGTCTCTGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCGTGCCCGACCAATAGTATGCTTTTTAAAAAAGATACCAACAGCGGGG
TGGTGGCTCACACCTGTAATCCCAACTCTTTGGGAGCCTGAGGCGGGTAGATCACTTGAGGTCAGGAGTTGGAGACCAGCCTGACCAACATGGAGAAACC
CCATCTCTACTAAAAATACAAAATTAGCCGTCGTGGTGGCACATGCCTGCAGTCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGA
GATGGAGGCTGCGGTGAGCTGAGATTGCACCATTGCACTCCAGTCTGGGCAACAAGAGCGAAACTTCACCTCCAAAAAAAAAAAAAAGATGTCCATACAT
GCTAATTTTAAAATTGATAACTGTATATCTATCTGTAAAAACTTTTTGAACTCCTCTAAGTCCATTAAATCAAAAAGTGAAACACTGATCTACTCGAACC
CTAATCCGACCCATGATTTTTCTCTGCAACATCTCTAACAAGTAGCCTCTGCTGCAGAGTAGGTAAGGAATACAGGTGCATGCCACCATGCCTGGCTAAT
TAAAAAAAAATTTTTTTTGTAGAATCAGGGACTTGCTATTTTGCCCAGGCTGCTCTCAAACTCTGGCCTCAAACAATCCTCCCACTTCAGCCTCTCAAAG
CACTTGGATTACAAGTGTGAGCCACCATGCCTGGCTCATTTTTCAATAGCTTTAATTATGAGAAAGTCAGCTCCACTTCTAGATCAAAAAGCTCTTTCAG
AGCTGCATTTTTGTTGTTTGCTTTAGAATTCCCTGCCCTATACCTTTTTCATAGTAGTCACTCAAAAATATTTCTTAATTGACATTCTCTAGAGGAATTT
AAGTTTGATAGAAAATCATTACACATGATACTGTTATCAAAAAATTTAGAGATAAAGGCTTATAAAGGATACTAATACTCTTTCTTTAGAGAAGGCATAT
TTGCAAAGTAGGAGGATTAAAGGACTGGGATGGATCTTACTATAGTTTTCCTTAGGTATTAAGTCTATTCATCAATATAGCACTAAAGCTTTCCAAACCA
TTATTTTGAGTTACCTGAAATCCCTGGAGAAATTATTAYCTTATTTCATTCTAATTTTGTTTTACGGCCTTTCATATGTAATCACTTATAGGAGAAAAAC
AATGAGATAAAAAGTTGATAACATGGTTTGATTGTACGCATTTGTAATTTTGTATTATTTCTTTTTCTAAAGCTGGGGCCACAACTTTGGTGAAGAAGGA
TATATTCGGATGGCAAGAAATAAAGGAAATCATTGTGGGATTGCTAGCTTTCCCTCTTACCCAGAAATCTAGAGGATCTCTCCTTTTTATAACAAATCAA
GAAATATGAAGCACTTTCTCTTAACTTAATTTTTCCTGCTGTATCCAGAAGAAATAATTGTGTCATGATTAATGTGTATTTACTGTACTAATTAGAAAAT
ATAGTTTGAGGCCGGGCACKGTGGCTCACGCCTGTAATCCCAGTACTTGGGAGGCCAAGGCAGGCATATCAACTTGAGGCCAGGAGTTAAAGAGCAGCCT
GGCTAACATGGTGAARCCCCATCTCTACTAAAAATACAAAAAATTAGCCGAGCACGGTGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAC
GAGATTCCTTGAACCCAAGAGGTTGAGGCTATGTTGAGCTGAGATCACACCACTGTACTCCAGCCTGGATGACAGAGTGGAGACTCTGTTTCAAAAAAAC
AGAAAAGAAAATATAGTTTGATTCTTCATTTTTTTAAATTTGCAAATCTCAGGATAAAGTTTGCTAAGTAAATTAGTAATGTACTATAGATATAACTGTA
CAAAAATTGTTCAACCTAAAACAATCTGTAATTGCTTATTGTTTTATTGTATACTCTTTGTCTTTTTAAGACCCCTAATAGCCTTTTGTAACTTGATGGC
TTAAAAATACTTAATAAATCTGCCATTTCAAATTTCTATCATTGCCACATACCATTCTTATTCCTAGGCAACTATTAATAATCTATCCTGAGAATATTAA
TTGTGGTATTCTGGTGATGGGGTTTAGCAACTTTGATGGAAGAAAATATTAGGCTATAAATGTCCTAAGGACTCAGATTGTATCTTTGTACAGAAGAGGA
TTCAAAACGCCACGTGTAGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCTGAAGTAGGAGGATCGTCTTGAGCCCAGGAGTTCAAGACCAGCCTG
GACAACATAGTGAGACCTTGTCTCCACAAAAATAAAAAAGAAACTATCCAGGAGTGGTGGTGTGTGCCTGTGGTCCCTGCTATGCAGATGTCTAAGACAG
GAGGATCACAAGAGCCCAGGAGGTTGAGAATGCAGTGAGCTTGTAATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGTCTTAAAAAAA
GAGGATTCAACACATATTTTTATATTATGTTAAAGTAAAGAAATGCATAAAAGACAAGCACTTTGGAAGAATTATTTTAATGATCAACAATTTAATGTAT
TAGTCCAAATTATTTTTACGTAGTCATCAACAATTTGACCAGGGCCTTTATTTGGCAAATAACTGAGCCAACCAGAATAAAATAACCAATACTCCACTGC
TCATATTTTTATCTAATTCAGATGGATCTTCCTTACAACTGCTCTAGATTAGTAGATGCATCTAAGCAGGCAGCAGGAACTTTAAATTTTTTAAGTTCAT
GTCTATGACATGAACAATGTGTGGGATAATGTCATTAATATATCCTAAATTAACCTAAACGTATTTCACTAACTCTGGCTCCTTCTCCATAAAGCACATT
TTAAGGAACAAGAATTGCTAAATATAAAAACATAAATAATACCATAATACATGGCTATCATCAAAAGTGTATAGAATATTATAGTTTAAAAGTATTTAGT
TGATTACTTTTCAGTTTTGTTTTGTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACCATCTCAGTTCACTGCAACTTCTGC
CTCCCGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGAATTATAGGCGTGCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAAAGA
CAGGGTTTTGCCACATTAGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCCCAGCCTCCCAAAGTGCTAAGATTACAGGCGTGAGCCA
CTGAGCCCAGCCTACTTTTCAGTTTTTAACATAATTTTTGTTTTRTCCACAACTTTTCAAGTATTGAAAGTAGAATAAAAACATGGGTTCTTAGTCTTTA
GCTATCTGTTAAAGCCTATGAATGCCTTCTTAAAATCATGTTTTTAAATGCATAAAATATATAGGATTACAAAGGAATCTAATTATATCGAAATACAGTT
ATTAAAATGTTAAAAGATAAGTTTGTTATATATTAATATGCATGCTTCTTTATAAATGCATTAAATAAGAGTTAATAGCTATCCTAAATTTGAAATAGTG
ATAAGCATAATGAAAATAGATGCAAAAAACTAATGTGATATGAAAATATCTGGGTTTTTCTTTTGATGATGAAGTATTGCTAATATTACCGTGGTTTATG
AACTATGTTCAGAATTGAAGAAAATCCTAACTTTCAGTTAGAGGTTAGTGACGGGGTTCAGGACACCCTACACAAAATACAGCACTTTGACATATTGAAT
ATTTTAAGCTGAAGGCATTTGAGGAAATTGCAGAAGCAGGAAGGTGACTCTGACCTTCTGCCTGCTGTTCTCCCCAGAAGCAGCCATAAAACCTGGGAAG
GATTTTCTGACCTTCCCCTGAAGTAGATCATAAGACTGTCATGTAAGAGGTGCTCTCCTGGCACCCAGAGAAAAGGAGCATCCTTACCTCCAAAAGCACA
GGGACACAAAGAGGAATCTAAACAAACAGGCCTCTCAGTTTCCCCCAGTTTATTACATTTAGCTTGTTCACACTTTGCCCTATGACATTTCTACATCACT
GGCTGCTCTTCATCAAACCTACTATAAAAAACATTCAAGTTCAACTGTTTCTTTGGGCCTTTATTTCCTTATGGAGCCCCTCGTGTCGTGTAAAACTTAT
ATTAAATAAATGTGCATGCTTTTCTCTTGCTAATCTCTCTTTTGTTATAGAGATCTCAGCCCTAAACCTAGGATGGATAGAAGGAAACATATGTTCTCCC
CTACATTAGTAAAAATAAAAATGGAATTTTTTACCCATACAAATTCATAAATTCCCTGAATTCTATCCAAGGAGACTTTGAGAGTTGTGGCTCTCAAGTA
AAGAATGCCTGAACTGCTCTCCCTCCCCCTCCCCCTCCCCCTCCCCCTCCCTCTCCCCACGGTCTCCCTCTCATGCGGAGCCGAAGCTGGACTGTACTGC
TGCCATCTCGGCTCACTGCAACCTCCCTGCCTGATTCTCCTGCCTCAGCCTGACCAGTGCCTGCGATTGCAGCCTCGCGCCACCACGCCTGACTGGTTTT
GGTGGAGACGGGGTTTCGCTGTGTTGGCCGGGCGGGTCTCCAGCCCCTAACCACGAGTGATCCGCCAACCTCGGCCTCCCAAGGTGCGGGGATTGCAGAC
GGAGTCTCGTTCACTCAGTGCTCAATGGTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTACAACCTACACCTCCCAGCCGCCTGCCTTGGCC
TCCCAAAGTGCTGAGATTGCAGCCTCTGCCCGGCTGCCACCCTGTCTGGGAAGTGAGGAGTGTCTCTGCCTGGCCGCCCATCGTATGGGATGTGAGGAGC
CCCTCTGCCTGGCTGCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNCCGCCCATACTGGGAAGTGAGGAGCCCCTCAGCCCGGCCAGCCCCCCCGTCCGGGAGGGAGATGTGGGGGTCAGCCCCCCCACCCGGCCAGCCGCCCC
ATCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCTGGCCAGCCGCCCCGTACCGGGAGGGAGGTGGGGGGGTGAGCCCTCCGCCCGGCCAGCCGCCCCG
TCTGGGAGGTGAGGGGCGCCTCTGCCCGGCCGCCCCTACTGGGAAGTGAGGAGCCCCTCTGCCCGGCCACCACCCCGTCTGGGAGGTGTTCCCAACAGCT
CATTGAGAACGGGCCAGGATGACAATGGCGGCTTTGTGGAATAGAAAGGCGGGAAAGGTGGGGAAAAGATTGAGAAATCGGATAGTTGCCGTGTCTGTGT
AGAAAGAAGTAGACATGGGAGACTTTTCATTTTGTTCTGCACTAAGAAAAATTCCTCTGCCTTGGGATCCTGTTGATCTGTGACCTTACCCCCAACCCTG
TGCTCTCTGAAACATGTGCTGTGTCCACTCAGGGTTAAATGGATTAAGGGCGGTGCAAGATGTGCTTTGTTAAACAGATGCTTGAAGGCAGCATGCTCGT
TAAGAGTCATCACCAATCCCTAATCTCAAGTAATCAGGGACACAAACACTGCGGAAGGCCGCAGGGTCCTCTGCCTAGGAAAACCAGAGTCCTTTGTTCA
CTTGTTTATCTGCTGACCTTCCCTCCACTATTGTCCCATGACCCTGCCAAATCCCCCTCTGTGAGAAACACCCAAGAATTATCAATAAAAAAATAAATTA
AAAAAAAAAAAAAAAAGAATGCCTGAACTAAGCAAGTAGAATAATGAAATACTTTTTAAAAACTTCACTGTATGCCCAATATAAAGGGAAATTATTAACA
ATAAGTAATTTCAAACTTATAGAGATAAAAAATTATCTAAAAATATAAATTTAAAACAAAAACATTTAGAATTTATTCTGGAACAATTTCTAGACAGTAG
TATGCAAGATGACTTGAAGAAAATTTTTTTAAAAGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCACTGTGGGAGGCTGAGGTGGGAGGATCGCTTG
AGCCAGAAGTTCAAGAGGCTGGTCTCAAACTCCTGGGCGCAAGTGATCCTCCTGCCTCTTGTTATGAGCACATAAAAAGATCTCCATCTCTACAAAAAAT
AAAAAAGTTAGCCAGGTGTGGTGGTATGTGCCTATAGTCCCAGCTACCAGGGGAAAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAGATTGAGGCTGC
AGTGAGCCATGATAGCGCCATTGCACTCCAGCCTGGGTGACCTTGTTTCAAAATAAATAAATTGGCAAATAATAAAATAAATAAAATTTTAAAATGAGAC
AACCTAGGCCGGGCGTGGTGGCTTACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTTGGAGACCAGCCTGGC
CAACACAGTGAAACCCCGCCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGGGTGCCTGTAATCCCAGCTACTTGAGAGGCTGAGACAGGAGA
ATTGCTTGAACTCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAACGAAACTCTGTCTCAAGAAAAAAAA
AGAGACAATCTAAAAGATATTCTAGTAGTCTATATGTGTGGTGATAAAGCCCTAAACTAAATACATCATTTCTGAAAACAGCAAAAAAATAAAAAATAAA
GCAAATCTGGGAGCCATCACAGAGTAAAAGTTGACAGAATTTTAAACTGTATAATAAAAGTAAAGAAACGGTGCTTGCTTTGGCAGCACATATACTCAAA
TTTGAATGATACAGAGAAGATTAGCCAAAAAATTTGAAAAATTATATTAAAAAAAGAAACAAGAAGATTTAAATATTCCAGAACTAGGCATCCATGAGAC
AATGCCATTAAAACATATAACATAAATGTGACAGATACTTAGTATTTCCTTTCTCTTTTCTTTTTTCCTTTCTTATCTTTTTTTTTTTTTTTTTGAGACA
GGGTCTCACTCTGTCACTCAGGCTGGAGTGCAGTGATGCCATCACTGCTCACTGCAGCCTTGAACTCCTGAACTTAAGCTATTTTCTCACCTCACACACC
TTCCCCACCCCTCCAGTAGCTGGGACTAGAGGTGCAAGCCACCATTTCTGGCTTATTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGAGAT
GGGAGTCTCATTATGTTGCCCAGGCTGGTCTCCAACTCTTGGCCTCAAGTGATCCTCCCACTTTGGTCTCCCAAAGTACTGGGATTACAGGCATAAGACT
TACTATTTCTTTGAATCAAATTATTATTTTTTGACTCTTCTCTTCTAGATGAGAATCTTGATGATGCTTCAAGTATGCATACTCTAAGTTACCAGAAAGA
CTATAAATCAGAACATGTAATAAAGGGGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAAGCCGATCACCTGAGGTCA
GGAGTTCGAGGCTAGCCTGGCCAACATGGCAAAATGCCACCTTTACTAAAAATACAAAAATTAGCCTGGCGTGGTGGTGGACGCCTGTAACCCCAGTTAC
TTCAGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAAGGGGAGGTTGCAGTGAGTCGAGATCACGCCACTGCATTCCAGTCTGGGTGACAGAGCAAGA
CTCTGTCTCAAAAAAAATGAAAAAAAATGAAAATAGGCCTGGCATAGTAGTTCATGCCTGAAACACTTTGGGAGGCTAAGGCAGGAGTATTACTTGAGGC
CAGTAGTTCAAGATCAGTCTACACAACATAGCAAGACCCTGACTCTACAAAAAAATTAAAAAGTAGCCGAGAGTTGTGGCACACACCTGCGGTCCTAGTT
GTTACAGAGGCTGAGGAGGGAGGATTGCTTGAGCCAGGAGTTTGAGGCTGCAGTGAGGTATGATTGCATCACTGCACTCCAGCCTGGGAGACTGAAAGAG
ACCTTGCCTCTAAAGAAAAAAAAGTGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGTCCAAGGTGGGCAAATCACCTGAGGTCAGG
AGTTCAAGACCAGTCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGTTGGATGTGGTGGTGCGTGCCTGTGATCCCAGCTACTG
GGGAGGCTGAGGCAGGAGAATCCCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATTATGCCACTGCACTCCAGCTTGGGCAAAAGAGTGAGACT
CCGTCTCAAAAAACAACAACAACAACAACAACAAAAAAAAACACACAAAACAGTGACTTAATTATAATTCAAAATAATTATTAGACCAAGATTTTCACTA
TTTTTAACCCTAATAACAAGGTTCTAGTCTTCATTTCTCTCCTAGTTGAATGACTTTGGGCAAATCTTTTCATATCTAGTGGCTGTTTTCTCCTTTGTAA
TGAAGATATGTCAAAGTTTATGAGTACAGGCTTATCTTGTTTTATTGTGCTTTGCTTTATTGTGCTTTGCAGATATTGCATTTTTTTTACAAATTGCAGG
TTTGTAGCAACCCAGAATCAAGTAAGTCTGTCAGTGCCGTTTCCCAACAGCATATGCTTACTTCATGTCTTTGTGTCACATTTTGGTAATTCTTGCAATA
TTTTAAACTTTTTCATTATTATTATTATCTACTATGGTGATCTGTGATCAGTGATCTTTGATGTTACTATGATAATTGTCATAGGATGTCAAAAGCCGCA
CCCATGTAAAATGGCAAATATAATCAATAAATGTGTGTGTTCTAACTGCTCCATTTACTGGCTGTGTCCCCATCTCTCTCCCTCTCCTTGGGCCTCCCTA
TTTTCTAAGACACAGCAATATTTAAATTAGGTCAATTCATAACCCTACAATGTTGTCTATGTGTTCAAGTGAAAGAAAGAGTTGCATGCCTCTCACTTAA
ACGCTGAAAATGATTAAGCTTAGTGAGGAAGGCATGCCAAAAGCCAAGATAGGCTGAAAGGCCTCTTGTGCCAAATAGTTCACCAAGTTGTGAATGTAAA
GGGAAAGTTCTTGGAGGAAATTACAAGTGCTACTCCAGTGAACA


SNP Information

Context             (SEQ ID NO:51502):
TCAGGTGATCCACCCACCCCAGCCTCCCAAAGTGCTAAGATTACAGGCGTGAGCCACTGAGCCCAGCCTACTTTTCAGTTTTTAACATAATTTTTGTTTT
R
TCCACAACTTTTCAAGTATTGAAAGTAGAATAAAAACATGGGTTCTTAGTCTTTAGCTATCTGTTAAAGCCTATGAATGCCTTCTTAAAATCATGTTTTT
Celera SNP ID:            hCV1789800
SNP Position Genomic:     40445
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:51503):
ATACATAATATACAATACATATTATGTATGCATACATAATATACAATACATATTATGTATGCATACATAATCTATAATATACATAATATATAATATAATA
Y
ATAATATACATATATAATATATAATATATTATGTATACATAATATACATATATAATATATAATATATTATGTATACATAATATACATATAATATATAATA
Celera SNP ID:            hCV26673030
SNP Position Genomic:     27352
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51504):
GCTAGTCGCTGAATTTCTGTTGATGTCTCTTGAATTAAATACAGAAGTGGCATTTTAAAGAGTAGTTAATTGCCTCATTTGAAACAGATGTCTGATCATT
A
AAAAAAAAAAAACGTAAAAAGGAAAATTACCTACCTAAAGATGTGAAAGCAATAGATGAGAATTGTCTTTTAACTATCTGTAAAGACTGTGGATATTTAA
Celera SNP ID:            hCV11845054
SNP Position Genomic:     6657
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51505):
AAAAATACTACTGACTTTTGTATGTTGACTTTGTGTCTTACAACTTTACTGAATTCATGTATCAGTTCTAATAGTTTTTTGATGGAGTCTTTCTTCTCTC
T
TTTTTTTTTTTTTTTTTGAGGCGGATTCATGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAA
Celera SNP ID:            hCV11845055
SNP Position Genomic:     10760
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51506):
GTATACATAATATACATATAATATATAATATATTATGTATACATAATATACATATAATATATAATATATTATGTATACATAATATACATATAATATATAA
T
TATTATGTATACATAATATACATATAATATATAATATATTATGTATACATAATATACATATAATATATAATATATTATGTATACATAATATACATATAAT
Celera SNP ID:            hCV26673033
SNP Position Genomic:     27523
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51507):
AATGCCTTCTTAAAATCATGTTTTTAAATGCATAAAATATATAGGATTACAAAGGAATCTAATTATATCGAAATACAGTTATTAAAATGTTAAAAGATAA
G
TTTGTTATATATTAATATGCATGCTTCTTTATAAATGCATTAAATAAGAGTTAATAGCTATCCTAAATTTGAAATAGTGATAAGCATAATGAAAATAGAT
Celera SNP ID:            hCV26673034
SNP Position Genomic:     40621
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,7)   total(G,7|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:51508):
CTGAGATGGGAGGATAGTTTGAGCCCAAGAGTTTGAGGCTGTAGTGAGCTATGATCATACCACTGCACTCCAGCCTGGGCAAAAGAGCAAGACCCTGTCT
A
AAAAAAAAAAAAAAAAATGCTGGGCGCGGTGGCTTACACCAATAATCGCAGGACTTTGGGAGGCTGATAGGGGAGGATTGCTTGAGCCCAGGAATTCAAT
Celera SNP ID:            hCV11845057
SNP Position Genomic:     13089
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51509):
ATGCCTTCTTAAAATCATGTTTTTAAATGCATAAAATATATAGGATTACAAAGGAATCTAATTATATCGAAATACAGTTATTAAAATGTTAAAAGATAAG
T
TTGTTATATATTAATATGCATGCTTCTTTATAAATGCATTAAATAAGAGTTAATAGCTATCCTAAATTTGAAATAGTGATAAGCATAATGAAAATAGATG
Celera SNP ID:            hCV26673035
SNP Position Genomic:     40622
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:51510):
TGTGACAAGTTCCAATTTCTTTTCAAGTCAATTGAACTGAAATCTCCTTGTTGCTTTGAAATCTTAGAAGAGAGCCCACTAATTCAAGGACTCTTACTGT
R
GGAGCAACTGCTGGTTCTATCACGTATGTACTCTTTGTTCTTTTTCTCCCATTTGGTCTTCAAACACTCTGTGTTTGTAACTTGTTCTGCCTGCTAGGTT
Celera SNP ID:            hCV26673019
SNP Position Genomic:     6236
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Caucasian(A,170|G,201)   Inuit(A,242|G,319)      total(G,520|A,412) ;(G,-|A,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:51511):
TGCCTTCTTAAAATCATGTTTTTAAATGCATAAAATATATAGGATTACAAAGGAATCTAATTATATCGAAATACAGTTATTAAAATGTTAAAAGATAAGT
T
TGTTATATATTAATATGCATGCTTCTTTATAAATGCATTAAATAAGAGTTAATAGCTATCCTAAATTTGAAATAGTGATAAGCATAATGAAAATAGATGC
Celera SNP ID:            hCV26673036
SNP Position Genomic:     40623
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:51512):
GCCTTCTTAAAATCATGTTTTTAAATGCATAAAATATATAGGATTACAAAGGAATCTAATTATATCGAAATACAGTTATTAAAATGTTAAAAGATAAGTT
T
GTTATATATTAATATGCATGCTTCTTTATAAATGCATTAAATAAGAGTTAATAGCTATCCTAAATTTGAAATAGTGATAAGCATAATGAAAATAGATGCA
Celera SNP ID:            hCV26673037
SNP Position Genomic:     40624
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:51513):
GCTGCAATGGTGGCTTCATGACAACGGCTTTCCAGTACATCATTGATAACAAGGGCATCGACTCAGACGCTTCCTATCCCTACAAAGCCATGGTGCGTCT
W
AAGCAAACTTTTTGTGCTGCCCCATGATCTCATGTTATCCACTGACTGACTGTGCTGGGCTTGCCACCATGCCAATTGCTTGAGAAGCAGTATTGTGTGT
Celera SNP ID:            hCV15746650
SNP Position Genomic:     20184
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,36)   caucasian(T,40)   total(A,2|T,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:51514):
CTTAACTTAATTTTTCCTGCTGTATCCAGAAGAAATAATTGTGTCATGATTAATGTGTATTTACTGTACTAATTAGAAAATATAGTTTGAGGCCGGGCAC
K
GTGGCTCACGCCTGTAATCCCAGTACTTGGGAGGCCAAGGCAGGCATATCAACTTGAGGCCAGGAGTTAAAGAGCAGCCTGGCTAACATGGTGAAACCCC
Celera SNP ID:            hCV8690551
SNP Position Genomic:     38620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:51515):
CAGGAGGCATCCAGTAGAAAACATTGTTATCAGAGGAGATGACAGCTCCATACGTGTTGTTGCCCCTGAAGACCTTCCAGTGGGACAAGAGGTGGAGACG
R
AATGCAGTGATACTGATGATCCTGACCTTGTATAGGCCTAGGCTAATGTGTGTGTGTGTTTGTATTTTAGTTTTTAACAAAAAAGTGTAAAAACTTTTAA
Celera SNP ID:            hCV1789790
SNP Position Genomic:     15756
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51516):
ATTTGCTTTGTAGACCAGTGAAGAAGTGATGTCTTTGATGAGTTCCCTGAGAGTTCCCAGCCAGTGGCAGAGAAATATCACATATAAGTCAAACCCTAAT
Y
GGATATTGCCTGATTCTGTGGACTGGAGAGAGAAAGGGTGTGTTACTGAAGTGAAATATCAAGTGAGTATTACCATCCCAAGCCTCTGAACCCTAGGTAG
Celera SNP ID:            hCV1789791
SNP Position Genomic:     16893
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,17)   caucasian(C,28|T,12)   total(C,51|T,29)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): Caucasian(T,96|C,214)   Chinese(T,21|C,37)   Japanese(T,6|C,12)   African(T,32|C,68)   total(C,331|T,155)   (T,1|C,7)   total(C,7|T,1) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51517):
ACTGAAGTGAAATATCAAGTGAGTATTACCATCCCAAGCCTCTGAACCCTAGGTAGAGCTCTTTAAATGCTTAGTCTAGCTACAGAATTTGACAGTGAAT
Y
TTACAGTCCCACGTGTTACTTTCTAGTTATTTTTGTTATTCTTGTCTTCCCAACTAAATTATAAGTTCCTTAAGGGCAAGGATCACATATTATATTTTAT
Celera SNP ID:            hCV1789792
SNP Position Genomic:     17038
SNP Source:               Applera
Population(Allele,Count): african american(C,39|T,1)   caucasian(C,35|T,5)   total(C,74|T,6)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51518):
TTGCTGAATGTAGAGTTGCCACAAACCTTCAATTTGTAAAAAATGCAATATCTAGCTGGGTGCAGTGGCTCATGCCTATAATTCCAGCGCTTTGGGAGGC
M
AAATCAGGAGGATGACTGGAGCCTAGGAGATTGAGGTTACAATTAGCTATGATCATACCACCTGTATTACAGCCTAGACAACAGAGCAAAACACTGTTCC
Celera SNP ID:            hCV8690554
SNP Position Genomic:     23257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(A,1|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51519):
TCAGCCCCCACAGTGCTTTTCTAAGTGATCATAGAGCCACCTACTTAGACAAACACTGAACTAAGCAAATAGGTGTTTAACACAGACTTTTATTGCTCAC
R
CTATGCATTGACTGCACTGGACTCTCCAATAAGCCAATTGCTTGAGAAGCAGTGTTGTGTGAGAGAGCCCTGGTGATCAGGAAGTTTCTCCATTTCACTT
Celera SNP ID:            hCV1789793
SNP Position Genomic:     18383
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51520):
GCACGGTGGCTCACGCCTGTAATCCCAGTACTTGGGAGGCCAAGGCAGGCATATCAACTTGAGGCCAGGAGTTAAAGAGCAGCCTGGCTAACATGGTGAA
R
CCCCATCTCTACTAAAAATACAAAAAATTAGCCGAGCACGGTGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCACGAGATTCCTTGAACCC
Celera SNP ID:            hCV27469873
SNP Position Genomic:     38716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:51521):
TTATCTCTATGTAATATTTCCCTACAGTCCACCTGAAAGTCTGAGGGGCCATTGTCCTGGCAAGTTTTGCATGTATGAGGATGTTCACAATTTGAAAGAA
Y
AGAATAGTTCTGTATTTCCTCCATTATTGCTGAAACCCGGGACTGTTAGGATTTGGAAGATTTGCAAAGGAAGGAGCCTTAGACACATGAAAAAGTTAAA
Celera SNP ID:            hCV1789794
SNP Position Genomic:     21588
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,17)   caucasian(C,13|T,27)   total(C,30|T,44)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51522):
CACGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCGTGCCACCATGCC
Y
AGCTAATTTTTGTATTTTTAGTAGAGATGGGGTGTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTTGTGACCCGCCCGCCTTGGCCTCCCAAA
Celera SNP ID:            hCV1789795
SNP Position Genomic:     23809
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51523):
GGAGGCTGAAGCAGGAGAATCGCTTGAACTCAGGAGGTGGAGGTGCAGTGAGCCGAGATCACGCCACTGTACTCCAGCCTCGGCAACGGAGCAAGACTCC
R
TCCCAAAATTAAACAGATTTTAAGCAAACTATCCTTAAAATTATTTCTCTGTATTTAAACTTTTTCTTCTGCAGCCTCCCATGCTCAACCTTATTCTCAG
Celera SNP ID:            hCV27513800
SNP Position Genomic:     20685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51524):
AGTCAAACCAATTTTACCTTATCTATGTCCTTGATTCTGTTCCTTCTCTGTTTCTTCTATTACGGCTCTAGTTCAGGCATCTCTAGTGTGGACTATTGCT
R
TACCCTTCTAACTGGTCTCCTTTACTCTCTATTTTCTTCCCCTTTACCCTCAAATCCATCTTTCATACTGCTGCCAAACTTATTTGTCTAAAATATGAAC
Celera SNP ID:            hCV1789796
SNP Position Genomic:     24922
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51525):
AAAAGTCAAACTTACAGAAACAGACAGTAGAATGATAGCTGCCAGGGACTGGAGGCTGGGTAATGAGGAGATGCTGATCAAAGAGTGTAAACTTTCAGGT
R
TAAGATGAACAGATTCTGGGAATCAAAGGTACAGCACGGGTGGAGATGGATGTGTTATTTCATTTGATTATGTCAATCATTGCACAATGTGCACATACAT
Celera SNP ID:            hCV1789797
SNP Position Genomic:     25962
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51526):
GGAAGTTAGCAGGACTCAGTCAAAAAGAGGTCTGGGATCTTTTGCAAAACTGGGGGCAATTGATCTTGGTCGGTAAAACTGAGAAAAGTAAATTGTTTAG
W
TGTTGAATGGGGTCTGGGATTCCTTGGTCTCACTGACTGAATTCATACTGCTAGTAACTAGACCCTCAATTCAATTTTCATACTAGAACTCAGGTCCAAA
Celera SNP ID:            hCV1789798
SNP Position Genomic:     34869
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51527):
GGAGGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTGGCCAACATGGAGACACTCCATCTCTACTAAAAATACAAAATTATCCGGGCATGATGGCGCAC
R
CCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGGCGAGGTTGTGCCATTGCACTCCAGCC
Celera SNP ID:            hCV29196234
SNP Position Genomic:     34275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51528):
ACTATAGTTTTCCTTAGGTATTAAGTCTATTCATCAATATAGCACTAAAGCTTTCCAAACCATTATTTTGAGTTACCTGAAATCCCTGGAGAAATTATTA
Y
CTTATTTCATTCTAATTTTGTTTTACGGCCTTTCATATGTAATCACTTATAGGAGAAAAACAATGAGATAAAAAGTTGATAACATGGTTTGATTGTACGC
Celera SNP ID:            hCV1789799
SNP Position Genomic:     38239
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;JBIC-allele(T,547|C,918)   total(C,918|T,547)   SC_12_A(T,8|C,12)   SC_12_C(T,9|C,15)   SC_95_C(T,57|C,112)   total(C,139|T,74)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51529):
TTTACCACTGTTGCCAAAGTGAAGAAGGGAACGCCCTAGGTAGACTGAATTCCTTCTTAAATGCAGGAATCTCCTTTGTAATTATTTCTCACATGGGAAA
Y
CAGTTTAGTCCACTTTTTAGACAGCCCTTTTATAAAATTCTGCCTTGCTTTGAAACAAAAATCTGCCTCCCTGTAACTTCTAGTTTTTACCATTCTCTTT
Celera SNP ID:            hCV1498665
SNP Position Genomic:     14639
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51530):
AGACTGTGGATATTTAAACAGGTCAGTTAAGAAGAGCCCATGTATTCAAAAATTCAGGAGATAAACTGATTTTTCAGAGGTTTGTCTCTCTTAAGGATGA
T
TTTTTTTTTTTTTTGAGAGAGAGAGAAAGAGATTTCCTTTGATTAGATTTGTTGGCAAATCCTGGAAAGTCCCTGTTTTCTAACCCTCTAGATGTGTTTG
Celera SNP ID:            hCV26673020
SNP Position Genomic:     6841
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51531):
CTATGCTGTTTAAATTACTATAGTTTTGTAATATATTTTGAAACCAGGCATTTTGTAATGCCTCCAGCTTTGTTCCTCTTGCTAAAGATTACTTTGACTA
Y
TTAAGGACTTTTGTAGTTCCGCATGAATTTGAGGATTGTTTTTTCTATTTCTGTGAAGAATAACATTAGAATTTTGATAGAAATTGCACTGAATTTCTAG
Celera SNP ID:            hCV26673021
SNP Position Genomic:     9997
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51532):
CCTGACTTTTGATTCGTATCCTACCTTTATAATTGATCTCAAAGTGCACTTCTTTTTTTTTTTTTCCTTTCTTGCACTTAGTTAGATTTGTTTGCCTTTA
Y
ACCATTGCTTCTCATCTTGTGGTTTGGAAGTAAGCCCATCATGCATGCCCATTATGTCCATTACTGGGGTAACAGTAAAACCTTGCTCCAAGGGAAAGAA
Celera SNP ID:            hCV26673022
SNP Position Genomic:     11962
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;SC_12_CA(C,0|T,44)   SC_12_A(C,0|T,32)   SC_12_AA(C,2|T,32)   total(C,2|T,108)
SNP Type:                 INTRON


Context             (SEQ ID NO:51533):
CAGCACTTTGGGAGGCCAAGGGGGAAGGATCCTTTAAGGCCAGGAATTTGAGACCAGCCTAGGCAACATAGGGAGACCCTGTCTCTACAAAAAAAAAAAA
T
AATAATAAAATAAAAATAAAAATAAGCTGGTTGTGGTGGTGCAGGCTTGCAGTCCTAGCTACTCGGGCAGCTGAGATGGGAGGATAGTTTGAGCCCAAGA
Celera SNP ID:            hCV26673023
SNP Position Genomic:     12918
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51534):
AAATCACCTAACGATGCATTTCTCAGAACATATTCCAGTCATTAAACAATGCCTGACTGTATATTTGCTTTGTAGACCAGTGAAGAAGTGATGTCTTTGA
Y
GAGTTCCCTGAGAGTTCCCAGCCAGTGGCAGAGAAATATCACATATAAGTCAAACCCTAATCGGATATTGCCTGATTCTGTGGACTGGAGAGAGAAAGGG
Celera SNP ID:            hCV26673024
SNP Position Genomic:     16831
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51535):
ATCGCTTGAGCCTGGGAGGTTGAGGCTACAGTGAGCCATGATCACACCACTGCACTTCAGTCTGAGTGACAGAAGGAAACCCTGTCTCAAAACAAACAAA
M
AAAAAGAAGTAAATGGTACTGCTAATCTCTTATTCTTTTCCACCTACATATTTTTCTTTCAATTAGTTTTGGATTTCTTACCCGAGGTTCTCTAAAATAA
Celera SNP ID:            hCV26673025
SNP Position Genomic:     19097
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51536):
GACCTTGTATCTGTTTTAGGGTTCTTGTGGTGCTTGCTGGGCTTTCAGTGCTGTGGGGGCCCTGGAAGCACAGCTGAAGCTGAAAACAGGAAAGCTGGTG
W
CTCTCAGTGCCCAGAACCTGGTGGATTGCTCAACTGAAAAATATGGAAACAAAGGCTGCAATGGTGGCTTCATGACAACGGCTTTCCAGTACATCATTGA
Celera SNP ID:            hCV26673026
SNP Position Genomic:     20029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51537):
CTTCATCATATTTATACTTCTTTTTGCAGGATCAGAAATGTCAATATGACTCAAAATATCGTGCTGCCACATGTTCAAAGTACACTGAACTTCCTTATGG
S
AGAGAAGATGTCCTGAAAGAAGCTGTGGCCAATAAAGGCCCAGTGTCTGTTGGTGTAGATGCGCGTCATCCTTCTTTCTTCCTCTACAGAAGTGGTAAAA
Celera SNP ID:            hCV26673027
SNP Position Genomic:     21856
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51538):
ATGCAATATCTAGCTGGGTGCAGTGGCTCATGCCTATAATTCCAGCGCTTTGGGAGGCCAAATCAGGAGGATGACTGGAGCCTAGGAGATTGAGGTTACA
R
TTAGCTATGATCATACCACCTGTATTACAGCCTAGACAACAGAGCAAAACACTGTTCCTTAAAAAAAAAAAAAAGCTAATATCTGCAAAGCACAATAAAG
Celera SNP ID:            hCV26673028
SNP Position Genomic:     23299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51539):
CTGGGTGCAGTGGCTCATGCCTATAATTCCAGCGCTTTGGGAGGCCAAATCAGGAGGATGACTGGAGCCTAGGAGATTGAGGTTACAATTAGCTATGATC
R
TACCACCTGTATTACAGCCTAGACAACAGAGCAAAACACTGTTCCTTAAAAAAAAAAAAAAGCTAATATCTGCAAAGCACAATAAAGCAAAGCACAATAA
Celera SNP ID:            hCV26673029
SNP Position Genomic:     23312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51540):
TTATTTTCTCTTATGAAAACATGTGGTCACAACATATGCAGCTAATAGCAACACTTCCTATGTTACCTTTCCTTACACAGAATGAAACGGCTGGTTTGTG
Y
GCTCTTGGTGTGCTCCTCTGCAGTGGCACAGTTGCATAAAGATCCTACCCTGGATCACCACTGGCATCTCTGGAAGAAAACCTATGGCAAACAATACAAG
Celera SNP ID:            hCV15746640
SNP Position Genomic:     7213
SNP Source:               Applera
Population(Allele,Count): african american(T,40)   caucasian(C,1|T,39)   total(C,1|T,79)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51541):
GGCTATGGTGATCTTAATGGGAAAGAATACTGGCTTGTGAAAAACAGGTAATATATTTACACTTTATATTTAATTGGAATCAGGAATTTGAGGGAGTTTC
R
GCAAATACTCTCATGATTTTGATGATGATCATTATGATCACGATATTGACAATGATGAACTTTATAGCTTCTTACAAAGTGACATTCTAAATTACTCAGT
Celera SNP ID:            hCV15746624
SNP Position Genomic:     24233
SNP Source:               Applera
Population(Allele,Count): african american(A,39|G,1)   caucasian(A,40)   total(A,79|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:51542):
GAAATCACTTTTTAAAGTGCTACTAAGCATTGGAAGTAGTATTTCTGACATAAATCTGCAGCTGTTCCCTGTGACTATATATCCCAGGAATTTTCCTGTA
K
AATTCTGTTTATAATAGTCTGTCCCTTTGATAGACTTTGCATTGTTATTTTCTCTTATGAAAACATGTGGTCACAACATATGCAGCTAATAGCAACACTT
Celera SNP ID:            hCV15746641
SNP Position Genomic:     7068
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,39)   caucasian(T,40)   total(G,1|T,79)
SNP Type:                 INTRON


Context             (SEQ ID NO:51543):
TCTCAGGTGTCTACTATGAACCATCCTGTACTCAGAATGTGAATCATGGTGTACTTGTGGTTGGCTATGGTGATCTTAATGGGAAAGAATACTGGCTTGT
K
AAAAACAGGTAATATATTTACACTTTATATTTAATTGGAATCAGGAATTTGAGGGAGTTTCAGCAAATACTCTCATGATTTTGATGATGATCATTATGAT
Celera SNP ID:            hCV15746629
SNP Position Genomic:     24171
SNP Source:               Applera
Population(Allele,Count): african american(G,39|T,1)   caucasian(G,39|T,1)   total(G,78|T,2)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:51544):
AATGCTTAGTCTAGCTACAGAATTTGACAGTGAATCTTACAGTCCCACGTGTTACTTTCTAGTTATTTTTGTTATTCTTGTCTTCCCAACTAAATTATAA
R
TTCCTTAAGGGCAAGGATCACATATTATATTTTATTTATACAGTTGGCCCTCCATATCCACAGCTTCCACATCTGCAGATTCCACCAACCGTGGATCAAA
Celera SNP ID:            hCV15746649
SNP Position Genomic:     17103
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,23)   caucasian(A,12|G,28)   total(A,29|G,51)
SNP Type:                 INTRON


Context             (SEQ ID NO:51545):
AAGGTAAATAAAGAAACCTACACCCAGATACATGTAACGAAGTTGTAAAACATCAAAAAGAAAGAGCAAATCATGGCTGGGTGTATGGTTCATGCCTGTA
R
TCCCAGCACTTTGGGAGGCCAAGGGGGAAGGATCCTTTAAGGCCAGGAATTTGAGACCAGCCTAGGCAACATAGGGAGACCCTGTCTCTACAAAAAAAAA
Celera SNP ID:            hCV1789786
SNP Position Genomic:     12814
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51546):
TCATGTGACAAGTTCCAATTTCTTTTCAAGTCAATTGAACTGAAATCTCCTTGTTGCTTTGAAATCTTAGAAGAGAGCCCACTAATTCAAGGACTCTTAC
Y
GTAGGAGCAACTGCTGGTTCTATCACGTATGTACTCTTTGTTCTTTTTCTCCCATTTGGTCTTCAAACACTCTGTGTTTGTAACTTGTTCTGCCTGCTAG
Celera SNP ID:            hCV27511903
SNP Position Genomic:     6233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:51547):
GGGAATGCACTCATACGATCTGGGCATGAACCACCTGGGAGACATGGTAGGTACATTACAAGAAATCCCACTTTCACGTCTGGGTAAATATCATTTCCTT
Y
CTGTCTCCCCAAAAGCAATTTGAAGGTAAACAACAATAACAAAGGAATGTATAGTACAAAGTTGGAAAACAGTAGAATTGAAGGACGTAAGAACGTGTAC
Celera SNP ID:            hCV1789788
SNP Position Genomic:     14153
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,12|T,28)   total(C,26|T,50)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51548):
TTGAGTTGATTATTGTATATGGGGTGACATAAGGGTTCAATTTCATTTTTCTGCATTTGGATAGCCAGTTTTCCCAATACTATTTATTAAACAGACTATC
Y
TTTCCCCATTGTGTGTTCTTGGCACCTTTGCTGAAAATTGATTGACCATAAAGTTGCAGGTTATTTCTGGGCTCTATATCCTATTCCATTGGTAAATGTG
Celera SNP ID:            hCV16081890
SNP Position Genomic:     9778
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51549):
TCCTTTCTGTCTCCCCAAAAGCAATTTGAAGGTAAACAACAATAACAAAGGAATGTATAGTACAAAGTTGGAAAACAGTAGAATTGAAGGACGTAAGAAC
K
TGTACAGAAATTTCTTACTTAGTTCTATTTTGACTGCTTTCTTTCTTTAACAAATCACTTCTTTAGAGGAAATTTTAAACTCAGAGACTACCATTGTTTT
Celera SNP ID:            hCV1789789
SNP Position Genomic:     14248
SNP Source:               Applera
Population(Allele,Count): african american(G,22|T,14)   caucasian(G,27|T,13)   total(G,49|T,27)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51550):
AAAATGCAATATCTAGCTGGGTGCAGTGGCTCATGCCTATAATTCCAGCGCTTTGGGAGGCCAAATCAGGAGGATGACTGGAGCCTAGGAGATTGAGGTT
R
CAATTAGCTATGATCATACCACCTGTATTACAGCCTAGACAACAGAGCAAAACACTGTTCCTTAAAAAAAAAAAAAAGCTAATATCTGCAAAGCACAATA
Celera SNP ID:            hCV27466723
SNP Position Genomic:     23296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 243
Celera Gene:                 hCG39406 - 116000144867171
Gene Symbol:                 DHDH
Protein Name:                dihydrodiol dehydrogenase (dimeric);HUM2DD
Celera Genomic Axis:         GA_x5YUV32VSLL(971658..994947)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12403):
CAGGCTGGAGTGCAATGGCACAGTCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTACA
AACCCCGTCTCTTAAAAAAGGAAAAAATCACATGGCAGAGTAGCATTTTAAAATAAAGTCACGAGGCTGGGCGCGGTGGCTCACGCCTGTAATCTCAGCA
CTTTGGGATGCTGAGGCAGGCGAATCACCCGAGGTCAGGAGTCTGAGACCAGCCTGACCTACGTTGAGAAACCCCGTCTCTACTGAAAATACAAAATTAC
CCGGGCCTGGTGGCGCATGCCTGTAATCCCAGCTGCTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCGGTGAGCCGAGATC
ACGCCATTGCACTCCAGCCTGGACAACAAAAGCAAAACTCCGTCTTAAAAAATAAATAAATAAATAACATTAAACTACGTCACTCAGCCTGTGAACAATG
GCTCACGCTTATAACCCAGCAATTTGGGAGGCCGCAGCAGGTGGATCACTTGAGGTCACGAGTTCGAGACCAGCCCGGCCAACATGGTAAAACCGCATTT
CTACTAAAAATACAAAATTAGCTGGGTGTGGTGATGGGCGCCTGTAATCCCAGCTACTCATGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAAGTTG
CAGTGAGCTGAAATTGTGTCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCCAAAAAAAAAAAAAAAAAAAAAGGGACCATGTTCTAGTGTAG
GGGTAAGTGGATTGTTTTGGCCCCAACCCCAAGAGGATCAAGGGAGACCACTGCAGCTGCCCGAGAAATTCTTGCCCTCTGACAAGAAACACCCTATCCA
GTCTGGGGAATTTGCCAGTCCAACCCCTCCCCTTGGCTCAAGATTCTGGGAAATCCTAAATAGTGTTTACCATTGGCCTTTTATCAGCTCCAGTATAAAT
GCATCTGGCCAGACTTGCTTTACAACTATGCATAATGGATAGTTGGGCCAGGCTTGGTGGCTCATGCCTAGTGCTTTGGGAGGCCGAGGTGGGAGGATCA
CTTCAGCCCAAGAGTTGGAGGCCAGCCTAGGCAACATGGTGAGACACCATCTCTACAAAAAAAAATTTTATTTTCTGTTTTTTTTTTGAGACGGAGTGTG
GCGCTGTCACCCAGGCTGGAGCAACAGAGCCAGACTTTGTCTCAAATAAATAAATAAATAAATAAAACCTGCAAAAAAAATTTTTTAAATGCCATTTTTC
TTTCTTTCTTTCTTTCTTTTTTTTTTTGAGGCAGAGTCTTGCTGTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCTGCCTC
CCGGGTTCACGCCATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATG
GGGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCTGTCCTCGTGATCCGACCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTAAGCCACCGC
GCCYGGCCATTTTTCTTTTTAATCAATCCTGCCACTTGAAGATTATATGGTAAGGGAAATCTGCAGTCTATACACAATACTGAGTTGCTCCAAGCCCTTG
AGGATTGTGAGGGACCCAGTGTTCTAATTCTTGCTAGAGTGTCTACCTCCATGTTACCAGAGGCGAGTCTGACCGGGTACTGACATGTGATATACCATTA
AGTGTGCAGTGGGTTCTTTTAGCCTTTCCCAAATGTCTTTCCACATGGCAGCGCCCCACAGCATTTTCTTTTTCTTCTTTTTTCTTTTTCTTTTTTTTTT
TTTTCTTTTTTTTCCTGGGCAACAGAGTCTCACTCTGTTGCCCGGGCTAGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTCA
AGCGATTCCAGTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCACACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACC
CTGTTGGCCAGGCTGGTCTCAAACTCTTGACCTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTACGCCCGCCC
TCTTTTTTCTTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTACAGAGGTGCCATCATAGCTTACTGCAGCCTCAACCTTCCCAGCTCAAGC
GATCCTCCCGCTTCAGCCTCCCTAGTAGCTGGGAATACAGATGCACACCACCACACCTGGCTAATTTTTTGCAGGTTGGTCTCGAACTCTTGGGCTCAAG
AGATCTGCCCGCCACAGTCTCCCAAAGTGCTGGGATTACAGGCATGTGCCACCGTGCCCGGCATATTTTCTTTTCAGTGTTTACCTTTTTGCCTCCTCTG
AGGTGCTGGAGTGCAGCAATAAGAAAGTAATAATTTTAGGCCGGGCGCCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGGCGGAT
CACGAGGTCAGGAGATCAAGACCATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGTGGGCGCCTGTA
GTCCCAGTTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCTGAGATCGAACCACTGCACTCCAGCCTGGGTG
ACAGAGCAAACCTTCATCTCAAAAAAAAAATATATATATATATTATATATATATATTTTTTTTTTTAGACCGGGTCTTCCTCTGTTGCCCAGGCTGGGGT
GCAGTGGTGTGATCTCGGCTCACTGTAACCTCTGCCTCCCAGGCTCACGCCACTCTCCTGCCTCAGCCTCCAGACTACAGGTGCCCGCCACCACGCCTGG
CTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTGGTGATCCACCCATCTTGGCCTCCCAAAG
TGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCCGCTGAGTAGTATTTTGTTGAATCCACTGGCAGCTTAAAGGACATTTGGGCTTGAGCTATGTACA
GCTGCTAACACCTGTGCACTGGTTTGTGTGCAAACATGTTATTTTTTCTTTCTAGGACAAATACCTGGGAGTATCAAAATTATTTTTTGATATTTATTAT
TAAATGATTTTTTCTTTTTCTTCATAGTAATGATATTGTGTCCTATGTGGATTTCCCTCCCCCTAAACCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACA
GAGTCTCTCTCTGTCACCCGGGCTGGAGAGCAGTGGTGCGATCTTGGCTCACTGCAACCTCCTCCTCCCAGGTTCAAGCAATTTACCTGCCTCAGCCTCC
CAAGAAGCTGGGATTGCAGGCGTCCGCCACCATGCTTGGCTAATTATTTTGTATTTTTAGTAGAGATGGGGGTTTCACCATGTTTGCCAGGCTGGTTTCG
AACTCCTGACCTTAAGTGATCCGCCCACCACGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACTATGCCCTGCCCCCTCCCCCCACTTTTTTTTT
TTGGTAGAGATGGGGTCTTGCTTTGTTGCCCAGGCTGGTCTCAAAGTCCTGGCTTCAAGCATTCCTCCCATTTGGGCCTCCCACAGTACTGGGATTACAG
GCGTGAACCACCGTGCCTGGTCCCATTTGTGTTTCTATTCAGCAGTTTGTGTAAACTTGAAGTCTGTGAATCCATGTGTGACACTCAGGTCTTAATTATT
GTCTACCAAGTAAGAGAAAGTGACAATATCCTGCCCTGTGTGAAGCTGGCCAGCCAGTTAGGAATTATCATGTCCCAACCAGCCTGGGAAACTTGGCAAG
ACCCTGCCTTGATAAAAAGTTTAAAAATCGACTGGACACAGTGTCTCATACCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTGCTTGAGCC
CAGGAATTGGAGACCAGCCTGGACAACAAAGTGAGACCTTTTCTGTACAAAAAATTGCTGGGCATGGTGGCTCATGCAGGTAATCTCAGCACTTTGGGAG
GCCAAGGCAGGCGGATCACCTGAGGTCAGGAATTCGAGGCCAGCCTGGCCAACACAGTGAAACCCCATCTCTAGTAAAAATACAAAAATTAGTCGGGCGT
GGTAGTGGGCGCCTGTCATCCCAGCTACTCGGGAGGCTGAGGTAGGAGAATTGCTTGAAACTGGGAGGTGGAGGTTGCAGTGAGCCAAGATTATGCCACT
GCATGATCACCCCAGCCTGGATGACAGAGCGAGACTTCGTCTCAAAAACAAAAAACAAACAACAACAGCAACAAAAATTAGCAGGCTGGGTGCAGTGGCT
CATGCTTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAAATCGCAAGGTCAGGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCCAC
TAAAAATAAAAAAAATTAGCTGGGCATGGTGGAGGGCGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCAGGGAGGCGGAG
GTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGGATAGAGTGAGACTCCGTCTCAAACAAACAAACARACAAATAGCGGTAAGTGGGGCAC
ATGCCTATACTCCCAGCTACTCAGGAGGCTGAGGCGGGAAGATAGCTTGAGCCCAGGAGTACAAGGCTGCTGTGAGCTATTATCACGCCACTGCAGTCCA
GCTAGGTAACAGAGTGAGACCCTATCTCTAAAATAATTAATAAATAAAACAAAATAATTAGCCAGGTGTAGTAGCCAGTAGCTACTTTGGGTCCCAGCTA
CTGTAGTCCCAGGTACTAGGGTGGCTAAGGCAGGAGCTAATTCCTTGAGCTAAGGAATTTGAGGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCTTC
CTGGGCGACAGAGCGAGACCCTATATCAATAATAATTATAATAATACAGTATATTTTACATAATAGACCATAGAGCTCAATGAATCCTCCTCACAACCCT
ATGTAGGTAGATGTTATCATGATCTCTGCTTTCCAGAATAGAAAAGTGAGGACCAGAGAGGGCGACCTCTTGTCCAAAAGCAATACAGCCAAGAAGGGGC
AAGGAGGGTTTTGAAACCAGTCGGCCAGGCTCTGGGGCTCCTAACAAGCAAAGCAGCCTGGTTTCTAAAACTATAGCTTCTGGAAGCAGCCAATTCACAG
GTCTTTACCTCCTGACTGTGAGACCTCCAAAAAATGACCAGGGATCTTGGAGTCTGTTTCCCCCTTTGTGAACTGGGGACAATAGAAGCTACTTCCCAGG
TCTGCGGGGAGAAATTAGGAACGAAGAAGGTAAAGCGCAGAGCTGAGGAGCTGGTCTACAGGTGCTCTATACATATTAGTAATAATTATTAAGTTTGCTG
TTACAATCCTCTCTCTCTCTGTGAACAACCCCTAATGATGCGTGGCTTTGAGAGCAAAAAAGTCAGGGCAAAGTTTTGCCACAAAGTCCAGAGGGCAAGA
CATTAAATCTAACTCTCAAGGATTGGTGTTGGCAAGAAAGCAAACCTCTCCTCCCCACGCTGTCCTTACCCCGCGTATCCGACGAGCCTAAAGTCATAGG
TAAGAGATCTGTAGAAGCGACGTCAAGGTGTGGTTCCCTCTGTAAGGCGGAGCTAAACGGTGCATTCGCCCAGCGGGGAAGCTAGAACTAAATGACCGCT
CTGCCGACTGGAGCCAACGAGAATCGGCGTAGGCGCAATACGGGCGGAGGATGGGGACCCGCCCCCGGGGTGGGCGGGGCGTCAGGTACTTAATTCGCGC
CTGGAGGGACCGAAGGTGCCGAGGGCTCCGCATCGCAACCAWGSCGCTGCGCTGGGGCATCGTGTCTGTCGGCCTCATCTCCAGCGACTTCACAGCCGTG
CTGCAGACGCTGCCTCGCTCTGAGCACCAGGTCTGCCCGCCCTCCGGATTCTGGGGAAGAGGAGGCGGGGGGCGGGACTCCAGARTCTAAAGGAGGAGGG
AGTTTAGGGTTCAGGACTAGTGAGTGGGTCGTCATTGCAGTGAAACGTCTGTTTCCTTGCTACCTCCTTCTCCATCTCTGTTCTGCAAACCTGTGGGGAA
AAGAAAGATCAGATTGTTACTGTGTCTACGTAGAAAATGAAGACATAAGAAACTCCATTTTGAACTGTACTAAGAAAAATTGTTTCTGCTTTGAGATGCT
ATTAACCTGTAACTTTAGCCCCAACCSTGTGCTCACAGAAACATGTCCTGTATTGAATCAAAGTTTAATGGATTTAGGGCTTTGCAGGATGTGCCTTGTT
AACAATATGTTTGCAGGCAGTATGCTTGGTAAAAGTCATCGCCATTCTCCATTCTCTATTAACCAGGGGCACATTGCACTGCGGAAAGCCGCAGGGACCT
CTGCCCAAGAAAGCCTGGGTATTGTCCAGGGTTTCCCCCCACTGAGAAAGCCTGAGATATGGCCTCGTGGGAAAGGAAGACCTTACATCCCCTAGCCCGA
CACCAGTAAAGGGTCTGTGCTGAGGAGGAGTAGTGAAAGAGGGAGGCCTCTCTGCAGTTGAGATAAGAGGAAGGCTTCTGTCTCCTGCTCTCCCTGGGAA
TGGACTGTCTCAGTGTAAAGCGGACCATTCCCATTCCTTCTATTCTGAGATAGGAGAAAACCTACCTGTGGCTGGAGGCGAGATATGCTGGCAGTGATAC
TGCTCTGTTACTCTTTGCTACACTGAGATGTTTGTGTAAAGTGAAACATAAATCTAGCCTACGTGCAYATCCGGTCACAGCACCTTTCCTTGAACTTATT
CATGATACAGATTCCTTTTCTACATAGACACAGTAACAATCTGATCTCTCTTTCTTTTCCCCRCACAAACCTGAGTGTCTTGAGGTTTGGAAAGGCCTTG
ATGTAAGCTACTATGAAGATAATTTCAATATTGGGGGATTTAATAACGGCTTTCCCCCAGATCTCTCTTTCCCAGGGCCCAAATGTCCAGCCCCCGTCAT
CTCTTCCCCCAGGACCACGTCTCCCCTTCCCCTGGCCAGAGCCTCCTCCTTTGCCTCCCTTCCACCCAGTTTCCACGCCTGCCTCAGCCCCTCAAATCCG
ATTCTTGTGCCCCTCCAGGTGGTGGCGGTGGCGGCCCGCGATCTGAGCCGTGCGAAGGAGTTTGCACAGAAACACGACATCCCCAAGGCCTACGGCTCCT
ATGAGGAGCTGGCCAAGGACCCGARCGTGGGTGAGTGGCGAGGGCGATGGGGGTGCTGGCCGCCGCCCCTGGAGCGGTGCCCCCTGGCTGCCCCSTGGGA
GATGCAAGGCTCCTCAGGATGGTCCAATCCCTTTGGGTTCCATAAAGACCTTTGGCTGGGAGGAGAACTATAAAACGGGCTTGGTCTGGGACTGGCTGTC
TAGTAGGTGTTAAACTACACTTAGCGTTCGAGACCAGCCTCGGCAACGTAGCAAGACCCAATCTCTACAAAAAATAACAATAAAAATAAATTAGCCAGGT
ATGGTGGCACGCACCTGTAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCACTTGAATCCGGGAAGCAGAGGTTGAAGTGAGCCAAGATCGCGCCA
CTGCACTCCAGCCTGGGCGACAGAGTGAGACTTGGTCTTAGAAATAAATAAATAGGCCGGGCGCGGTGGCTSACGCCTGTAATCCTAGCACTTTGGGAGG
CCAAGGCGGGCAGATCATGAGGTCCGGAGATGGAGACCATCCTGGCTAATACGGTGAAACCGCATCTCCACTAAAAATACAAAAAATTAGCCGGGCATGG
TGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGC
ACTCCAGCCTGGGCGAAGAGTGAGACTCCGCCTCCAAAAAAAAAATTAATTAATTAATTAAAAATTTTAAAAAAGAGAGCGAGAATGGCGAGAGGTAACA
GCCCCTTCCTAAGGACAGCTCCCTAAGGGAGACAGGGGTGTGACCGACCACCTGGTCCCTGGGTGCTAGGGCGGGGCCTCGAAGTTGTGGGCGGAGCTMG
GCTGTCTGGGTGGGCGGGGCTGCTGACCTCTTGACCTACTCCCACCCTAGAGGTGGCCTACATTGGCACCCAGCACCCCCAGCACAAGGCGGCGGTGATG
CTGTGCTTGGCGGCGGGCAAGGCSRTTCTGTGCGAGAAGCCCACGGGCGTGAACGCRGCGGAAGTTCGCGAGATGGTCGCGGAGGCCCGATCCCGAGCCC
TCTTCCTTATGGAGGTGAGGGCAGAGGAGCCCTTCCAATATCCAGCGTAAAAGTGCTTGCCATTAAATATGGTTGCCAGTGCGCGGACGGGGTCAGTGCA
TTTGCCAGGATGTATCTGAATCTCCTTGGCAGCATCTATTACCGTGAAAGCCATTGCTTTTGGCCCTTAGCAAACACGGCAAGGCTTACTGAAATTGCTT
GGATCTTTTGTCAGTCTTTAAGAAAAAGATGCCGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGAGCACGGG
GTCAGGAGATCGAGACCGTCCTGGCTAACATGGTGAAACCCCATCTCTTCTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCGGGCGCCTGTAGTCCCA
GCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTCAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGCAACACAG
TGAGACTCCGTCTCAAACAAGAAAAAAAACAAAAAAAAAAAAAAACAAGAAAAAGATGCCAAGAGTGAAAGTGGCATAGAATGGCAATGGCTTAGTTTGG
GTGGGGTTCCAGGTAGAGGTTGAAAGGACCAAGGAACCCCCTACAAACCTGCAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTT
AAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCA
CCATGTTGGCCAGGCTGGTCTCAAACTCATGACTGCAAGTGATCCTCCTGCCGCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGG
CCCCTACCTCAAGGTCTTTCATGTAATCCTATCCGCCAGGACCCCTTAGCCTTGTAAAGTCACACATTCACAGACTCCGGGGATCATCAGGTCGTGGATA
TCTTTGGGGGCACCAGTAGCCTACTGCCACAACACCCAGGCTCAGAGCCTGCGCAGAGCCTGCCCCCGGCTCCCCAGTGCCCTCAGGCCTGTGTTCACGC
TCCTCTCGACTGCTCCGAGCCCGGGCGGACCTCGGCCACATCCGTCCTGCCCCGCCCTTCCCCCGTGAGCCCTGACACTCTTGCGTCAGCATTTTTAGAA
ATTGCTGGTGTGGGCCAGATGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAG
CCTGGCCAACATGGCGAAACTCCGTCTCTACTAAAAAAGTACAAAAATTGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTCGAGAGGCAGAG
GCGGGCGGATCACGACGTCAGGAGATCGAGACCATCCTGTCTAACACAGTGAAACCCCGCCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCG
GGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTAAGATCCCGACACTGCACTCC
AGCCTGGACGACAAGAGCGAGACTGTCTTTAAAAAAAAAAAAAAAAAAAAAAGAAATTGCTGGAGTGCAGCCTTGGGACCTTTGCCCATTCTCCCGGCTC
TCCCGTGACATTCTTTCTCTGGGCTCTTTGCCTAGTCCACGGAGCTTCCGTCTCCCCTGGAATGTCACCTCCTCAGGGTGTCACCGTCCCGGCTGTCCTG
CGTGAAGGACCCTCCATTTTATTTGTGTCCTTGGTATTCCTTTGTTCATCCCTTGGTTGCCTGTTCTCTGTCTCTCTAGACTGGGTGCTCCAAGAGGTAG
AACTCTGGTTTTTGTTGTCATTGTTGTTGTTTTTGAGACAGAGTCTTGCTCTGTCGCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTCACTGCAACCTC
CGCTGCCCGGCTTTAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGATTACAGGCATGCACCACCACGCCCGGCTAATTTTTGTATTTGTAGTAG
AGACGGGGTTTTGCTATGTTGTCCAGGCTGGTCTGGAACTTCTGACCTCAGGTGATCCGCCCGCCTTGGCCTCCCAAAGCGCTGGGGTTACAGGCATGAG
CCACAGCGCCCRGCCCCCAGTTCCAGGAGTTTTTTTTTGTTGTTGTCATTTTGCATTTTTCTACATAGATGATGTCATCTATGAACAAAGAGTTTTATTT
CTACCTTCTGTATCTATATGCCTCCTTTAAGGAGTTTCACTAGGAGATGCACACGTAACTCTTAAACCCACTGGCCTGCATGCTCTATACCTACATCTAA
TCTCTTCTTATAAGGACACCAGTCATATTGTCATATTGGATAAGGGCCCACCCTAATGACCTCATTTTTTTTTTTTTTTTTGAGTTGGAGTCTCGCTCTG
TCGCCCAGGCTGGAGTGCAACGGTGCGATCTTCAGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGG
ACTACAGGCGTGCGCCATCACGCCCAGCTAAAATTTTTTGTATTTTTAATAGAGACGGGGTTTCACCGTGTTGGCCAGGCTGGTCTCTTGGCTAGGCTGG
TCTCGAACTCCTGACCTCGTGATCTGCCCACTGTGGACTCGCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCTTGACCTTATTTTAACAT
AATTATCTCTCTGAAAACCCTGTGGCCACAACAGTTGCTTTCAGAGGTACTAGGGAGTTAAGGCTTCAACACGTGAATTGTGTTTGGCAGGGCAGAAGCG
AGAGGGAGAGAGACACAATTCATCCCATAACATGGGGAGACTGGGGCAATGGTCCAGATGAAAAAGAACAAAAGTCAATAGGGCACGGTGGCTCATGCCT
GTAATCTCAGCACTTTGGGAGGCTGAGGTGGGAGGACTGCTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCGACATAGTGAGACCCTATCTCTATTCAAA
AAAAAAAGAAAAAGAAGAAAAGTCAAGAGGGTCAGGAGCAAGAGGGATACAACCTGGGGACTGATGGGCTGTGTTTGGAGACTGGGTTGCAGTGGGTATC
CCCCTATGATTGGGACCCCAGAAGGGATTAGAACTGGTTGGTTAACTCCTTTCCTTGTGGTCTGCAGGCCATCTGGACCCGCTTCTTTCCTGCCTCYGAG
GCTCTGAGGTCTGTTTTGGCCCAGGGAACTCTAGGASACCTCCGGGTGGCTCGGGCAGAATTTGGGAAGAATCTCATCCACGTTCCCCGGGCCGTAGACC
GGGCCCAGGCTGGGGGGGCCCTGCTGGACATCGGCATCTACTGTGTCCAGTTCACCTCCATGGTCTTTGGAGGGCAGAAGCCAGAGAAGATTTCYGTCGT
GGGAAGGCGTCATGAAACAGGTACCATCTATCCTGGAATATTTCATGGTGATGGGAATGATTCTGTCTCTCTGGGAGCACTGAACTGAGGACAAGTCTCC
AAGTCAATGAGAATTAGATCAGACACCTAGAGGAACAACTTTCCATGAAGCCAGAGAGGATCAGAGTCAAGACTGCAGGTGGGCACTCTCCTGGGACTTT
GCTGTGTGATCTTAGCCAGCAGACTTAACATCTCTGAATCTTAATTACTTTACTGGTAAAGTGTCACTAATAGGGTTGTCATGGGAGTTAATGAAGTAAC
TGCTGAGGCAAATGGCAGTTAATAAATATAAAATTATTATTTTTTGAAGTTGTCTCAGTGAATCTTTGCTACAAAAAAGACTACCCCACTTGGCCAGGCG
TGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGAGGCCGAGGTGGCCAGATCACCTGAGGTCAGGAGTTGGAGACCACCCTGGCCAATATGATGAAACC
CCATCTCTACTAAAAATACAAAAATTAGCTAGGCATTGCGGCAGGCACCTGTAATCCCAGCTATCTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAG
GGGGCGGAGGTTGCAGTGAGCTGAGATGGCGTCACTGTACTCTAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAGCTGCCCCACTTTG
CAGAAGAGGCCCTTGCCTTRGCTTCCACTCAGCTGGAAAGTATCCAAGAGTGCCTGAGCCACCCAGATGTGATGCCCTTCATCTTTGACCTTTAACCCCA
AGGAGCAAGAGGCAGTTCATGCTTCATTAAAGTTACATTCAGCCGCAAAAAAAAAAAAACATAACACTACCCCAAAACTTAGTGACTTCAGGCTGGGCAT
GGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGCGCGGATCACTTGAGGCCAGGAGTTCAAGACCACCCTGGCCAACATGGTAAAACCC
TGTCTCTACGAAAAGTGCAAAAAAAATTAGTTGGGCGTGGTGGTGTGCACCTATAGTCCGGCTACTCTGGAAGGTGAGGTGGGAGGATCAATTGAGCCTG
GGAGGCAGAGGTGGCAGTGAACTGAGATGGTGCCACTGCATTCCAGCCTGGGGAACAGAGCCAGACCCTGTCTCCTTTTTGTGGAGAACAGAGTCTCGCT
ATATTGCCCAGGCAGGTCTCGAACTCCTGGGCTCAAGCTATCCTCCCGCCTCTGCCTCCCCGAGAGCTGGGATTACAGGTGTGGCCACCGCCCCCGGCAA
GCCAGACCCTGTCTCAAAAAAAAAAAAAAACTTAGTGACTTCAAATAGCAATCATTTATTAGCTTGTGATTCTGTGCATTGGCAAATTGGGGCTGGGCTC
TGCTTGATGGTTCTTCTGCTGGTCTTATTCCTGCAGCTGCAGTCAGTTGGCTGTTCAGCTGGGACTGGACAGTCTGGTAGGCTTCATTTATATCTTACAG
GTGGCAGGCAACTGTCTGGGAAGCCTTGATTCTCCTCCACCTGGCCTCTCCAGCTGGCTAGATACCATTCATATCGTGGTGTGAGAATTCCTGATGTGCA
AGCACTTTTCAGGCCTCTAATTACACCATATTTGCTACTGGCCCATTGGCCAAAGCAAGTTACATGGCCAGCTCAGTTTTCAGAGATGGGCAAATAGACT
GTAATTTTTGTTTTTTTTTAGATAGTATCTCACTTTGCCACCCAGGGTAGAATATAGTGGTGTGATCTTGGCACACTGCAGCGTCAACCTCCTAAATTCA
AGCGATTCTCCTCCGTAAGACCCCCAAGTAGCTGGGCATACAGATGTGGGCCACCACGCCTGGCTATGTTTGTTTGTTTTTTGTAGAGATGGAGTTTCCC
CATGTTGCCCAGGCTGGTCTCGACCTCCTGGGCTCAAGCAATACACACATTTGGCCTCCCAAAGTGCTGGGGATTACAGGCATGAACCACCGGCTTTTTT
TTTTTTTTTTTGAGACGGGGTCTCACTCTGTCACTTAGGCTGAGTGCAGTGGCACAATCATTGCTCACTGCAACCTTGACCTCCCAGGCTCCAGGGATCC
TCCACCTCAGCCTCCTGAGTAGCTAGGATCACAGGCACAAGCCACCACACCCAACTAAATTTTTTATTTTTTGTAGAGACAAGGTCTCACTATGTTGCCC
AGGCTGGTCTTGAACTCCTGGACTCAAGGGATCCTCCTGCCTCCACCTCCCAAAGTGCTGAGATTATAGGTGTGAGTCACTGTGCACAGCCAAGACTGTA
CTTCGTGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCCATCTCGGCTCA
CTTCAAGCTCCGCCTCCCACGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACGACAGGACTACACCACGCCTGGCTAATTTTTTGTATC
TTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCATGACCCCACGATCTGCCCACCTYAGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGCCACCGCGACCAGCCAGCACTTCATTCTTTTGCCTTGCCATGCAAGAAGTGAAGTCTCTTGCCCAAGGTTCCACAGGCAGGATTTGGGGCCTGT
GCAGTCTCAGAGACTCTGCCCTGAGAGACCCTGCCCTGAYCCAGGACTTCCCTCCAGGTGTGGATGACACTGTCACGGTGCTCCTGCAGTACCCAGGGGA
GGTCCATGGCAGCTTCACCTGCAGCATCACCGTGYAGCTCTCCAACACGGCCTCCGTGAGCGGCACCAAGGGCATGGYACAGGTGAGGCATGGYGGGCCC
AAGCGCTGGGGATCGTGCCCCTAAAATAGGAGGGGGACAAATGGCCTCTGGAGCTAGATGAGAGCTTAACCAGCCAATTTCACATCATTGCTAAAGAGTT
CCTCCTTAACCAAGCCAAGAGGTGGGTTCTGGGCCTCTAGGCTCTCCTTACTTAGGATGAACCTATTGCTCTGTCAAATATTCTTGGGCCTGGCTGGCAC
GGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTCAGGAGTTCCAGACCAGCCTGGACAACATGGTGAAACGC
CATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGGGCGCCTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATTGCTTGAATCCGGA
AGATGGAGGTTGCAGTGAGTTGAGATTACGCCATTACATTCCAGCCTGGGTGATAAGAGCAAAACTCCATCTCAAAAAAAAAAAATATATATATATATAT
GTATCCTTGGGCCTGGCCGGCACGGTGGTCACACCTATAATCCCAGCACTTTGGAGGCTGAAGCTGGTGGATCACTTGAGCCCTGGAGGTCGAGGCTGCA
GTGAGCTGTGATTGTGCCACTGGACTCCAGCCTGAGTGACAGAGTGAGATCCTGTCTCAAATATCTATCTTTAGTCCTGAGGAGAAGCCAGTTATTATCA
ACCATGCTTAGTGGGCAGTTGTGAATTTCGGAAGTGCATCCGGGGGAGGATCTGGGTGTTACCAAAGGTCAGCTTAACTGGTCTTCCTGGGGCCTTGTTG
CTAGAAAAAAAAAAAACCCTATTTTATAGCCAGGCATGGTGACTTACACCTGTAATCCCAGCGTGATTGGGAGGCCAAGGCAGGCAGATCACTTGAGCTC
AGGAATTCAAGACTGGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAAAAACATACAGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACT
TTGGCAGCCCAGAGCGGGTGGATCACCTGAAGTCAGGTATTTGTGACCAGCCTGACCAACATGATGAAACCCTGTCTCTACTAAAAATGCAAAAATTAGC
CAAGTGTGGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCCTGAACCCGAGAGGCGGAGGTTGCAGTGACCCGAGATCG
AGCCATTGCACTCCAGGCTGGGCAACAAGAGCGAAACTCCGTCTCACAAAAAAAAAAAAAAAAATTAGTCAGGCATGGTAGTGGGCACCTGTAATCCCAG
CTACTCGGGAGGCTGAGGCAGAAAAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAACCGAGATTGATCCACTGCACTCCAGCCTGGGCGACAGAGC
GAGACTCCATCTCAAAAAAAAGAAAGAAAGAAAGAAAGAAAATAAATAAGAAGAAAACATGGTTCACAGACACACAAAGATAAGCCCTCCTCTCTAGACC
TTAAGAACACCTTGTTTCTAAGCTCCTAAGGTTAGGGAGAGGTTTGCTCCTGGGGAGACAGACAGGATTTTTGTGTCACATCAGCGTTGCTAAGGAACAA
ACTTCTAGCAACTAGAAATGAAGGAGGGTCCAAAGCTCCCCGGGGATGGACAGGGCAAGCTCTTAGCCACCAGGTTCAAGAGGGAGGCCCCTGTGCACCA
CCTGGCATGTTCCTGGAGGCAGCCTCAGCAGCACCGTTRGTGAAGGCAGCAGTGCCACTTCTTCTCTCCCTCCAGCTCCTCAACCCCTGCTGGTGCCCGA
CCGAGCTGGTGGTGAAGGGGGAGCATAAGGAGTTCCCGCTGCCCCCAGTCCCAAAGGACTGCRATTTTGACAACRGGGCAGGCATGAGTTATGAGGCCAA
GCACGTCTGGGAGTGCCTACGCAAGGGTAAGGATATGGATGCGGGGCAGGCGCCAGGCCTGGTAGGGGGATGTTGGGCCCCTCCCCACCTGCTCTGTCAC
CCTGCTGTTTAGAACTACATCTCCCAGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGCAACGGAACAAGACTCTCACTCCAAAAA
AAGAACTATATCTCTCAGGAACCCCTGCAGCATCCATCTGCCTGAACCATGTATATTGTGCCACATGGAATTCTGGGAATTGTAGTTCTTTGGGTCTTGG
GCGCGTGGGTAGGAGGGGTCCCTAACTACACTCTCCCCACAGGTATGAAGGAAAGTCCTGTGATTCYCCTGTCGGAAAGTGAGCTCCTGGCTGACATCCT
TGAAGAGGTGAGGAAGGCCATTGGAGTCACCTTCCCCCAAGACAAACGCTGATGTATCCCCGAATAAATAAAGACATCTTACATCTTCGTGGTAGTGGTT
TGGCAGAAGCTGGAGAACCCAGTATCAAAGGGTCACTAGAAAAGAATTTGGGCAGGGCTGGGCATGGCAGCTCATGCCTGTAATCCCAGCACTTTGGGAG
GCCGAGGAGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAATTAGCCGGGCATA
ATGACGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCGGGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCGGTGAGCCGAGATCGTGCCATTG
CACTCCAGCCTGGGCAACAAGAGCGAAACTCTATCTCAAAGAAAAAAAAAAGAAAGAAAAAAAAAATAATTCGGGCAGAATGATGAGGGAAGGCCGGGCA
TGGTGGCTCACACCTGTAATCTCAGCACTTCGAGAGGCCAAGGTGGGAGACTTGCTTGAGGCCAGGATTTCGAGACCAGCCTGGGTAACATGACAGGACC
TTGTCTCTACAAAAAATAAAAATATTATCCAGGCATGGTGGCCCGCACCTGTAGTCCCACCTACTTGGGAGGCTGAAGTGGGAGGACTGCTTGAGTCCAG
GAGGTTGAAACTGCCGTGAGTCATGATTGCACCACTGCACTTCAGCCTGGGTGACAGAGACAGACCCAGTCTCAAAAAAAAAAGAATGATTTTGGAGAGG
GAGGAATGTGCAGGGTCAGGACCACATTCCCAGAAGCTCCTGGCACAGACACCTGTGGGAAGATCCACCGTTTGCCTGTCACGGCCTCTCTGGGGTTTGA
CCCTCATTGCCTTGGAGTGACTTTTGCAAAACAACTTGATTTCTCACCTCAAAAATCAGTCTTTTTCTGGACTCCTGAAAGCCACCCAGCTTTTGTTCTT
GTTGCTCTTCCTGCCTGTAATTGTCTCTCCTTGAATTCAATATAGTAGTCAGGCTGTTCCTTTGGACAGTGTCAGAAACACAACTCAGAATGTCTCCACA
AGGCCAGGCATGGGGGTCACAGCACTTTGGGAGGCTGAGACAGGAGGACCACGTGAGGCCAGGAGTTTGAGACCAGGCTGGGCAACATAGTGAGACCCCG
TCTCTTAAAAAAAAAAAAAAAAAAAAAGCCTGCACAGGAATGGAATGCTTGGTAATTAAAGCCTTCAGGGCAGGGCAGGCATCAGCCCAGGACTCTGTTT
TTCTCTATCTCTTTGACTTTCCTTGGCATGGGTTTTAATGGCAGCAGTGGGCCATCTGGTACAGCCGGGGCCATCATGCTGGCTGCTGCCGGGAGGGCAC
AGAAAAGAGATGGACAGACCCTCACCCCTGCAGTCCGCTGCCCGGGGGGCTGCCCCCACAGAGCTGGGCCGGGTTTTGTGCCAGGTGAGGGGGAGCTCCA
GGCCGTCTCTGAGTGCCAGGGTCACAGGAGGAGCTCACAGCCATGTTGCTTCGGCCCCCGATGCCAGCCCAGTCCTAGTAAGGACCCAGAGCTCCCACCC
CTGGCTGCACATGGGTACAGTCAGGTGCCATGCTTCATGGAGCTGGCAGGAGCTGGGGACACACGGGAGCCCTGCCCCTTCCAAGATCAGGAGGGTGAGA
GCTCCCCAGGAGCAACTGCAGCTGCCCAGGCCGTGGCTGCAATCCAGACACCCCCGTGCTATTGGGAGCTGGGAGTAGACAGGAGCCACACCCAGTTGTG
TCTATGGATGTGGATGTGGGCCTCCTGCTCTACAGAGCAGGCAGGAGCCCCGCCCCCCAAGGCACAGCTGCAGCCCCCAAACCGGGGCTGTAGACCCAGG
CATTCCTGCACTCCTGAGAGGCCTGGAAAGGCCTCCCTTGTCCTTGTAGGCTCAGAGGTGCCTGCTACCACTGCCTGGCCTCTCCCCACTCCCTCTCTTG
CTCTGATCTCAGAGTGGGGTTGGGGCTGAGCCCAGGTGCTGACATTGTCCACCAGGTGTGCACATGCTCAGGGTAGTGCTAACATGTGCGAGCACTCTGC
CACCTTGGCCTCCTCCAGACATTGGGTGCCGAGGAGCACAAGAGGGGAACCTGAGGGGGTGCTAAGGGTGGCTGGGTGCTGGCGTGAAGGTGCCCCTTGG
TGCCAGCAGCCTGGGCACCATGGATGGCCATGGGAGGCAGACAGGCTCCTGGGCAGAAGGGGGCAGGTCCCCAGTGAAGCCCCACCTTCAGGCCAGGCAG
GTTTGAAGCCTGGGGGCCAGGGTGCCAGTCCTGTGGACTGAAGGGGGAACTCATGGTGCTTTTTCCTGGGCCCACCCATCCTGCCATGGACCAATAAGCA
TGCACTTCCCCTCTGTGAGGCCCATAAAAGCCCCAGGCTCAGCCAGAGCCAGCAGAGGACAGAGAGACAACAGGATGACCAGCTACAGAGCGGAGCTACC
CTCTCCAGGGCTCCTCTCTACTGAGAGCTGAGCACTTGGTGGGACAACCTGCCTACAGAGAAGAACTACCCACTGCGGGTCTCCCCTGAGCTGTTGTAAT
ACTCAATAAAGCTCCTGTTTGTCTTTTTCACCCTTCCGTTGTCTGCATACCTCATTCTTCCTGGACACAGGACAAGAACTAGGGCAAAGGCACCACCAGC
CACAGAGGTTTCTGGCCAGAAAAGCAACACCCCAAAGATCCTGTAACAGTTTCACCAGTTAAGTGTAGGCCTGGGCACTGGAGCCAGATGGTGCCTGTGA
CCTCAGGAAACTAATAGCGTGTGGGTAGGAAGTGTCCCTAAATACACTCTCCCCCAGCCTCTGTTTGTCTCTTCATCAGTAAAGGGGTACTACTAACTTT
CCTCTGCTGAGGAATAAATGAGATGGTGACTGATGGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCAT
GAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAATATTAGCTGGGTATAGTGGCGGGCGCCTATAGT
CTCAGCTACTCGGAAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGTCGGAGTTTGCTGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGTGAC
ACAGTGAGACTCCATCTCAAAAAAAAAAAAAAAATGAGAAGGTGACTGATATGTAGTTTGGATCTGAGTCCCTGCCCAAATCCCATCTTGAAATTTAATT
TCCAGTTTTGGAGGCAGGGCCTGGTACAAGGTGATTGGCTCATGGGGGTGGCTTTCTCGTGAATGGTTTAGCACCATCACCTTGGTATCACCCTCACGAC
AGTGAGTTCTCTCGAGATCTGGTCATTTGAAAATGTGTAGTGTTGGGAATAGACCCCCAAAATCTGGCCATAAACTGGCCCCAAAACTGGCCATAAACAA
AATCTCTGCAGCACTGTGACATGTTTGTGATGGCCATGACGCCCATGCCGGAAGGCTGTGGGTTTACTGGAATGAGGGCAAGGAATCCCTGGCCGACCCA
GGGTGGAAAACTGCTTCAAGGCGTTCTTAAACCACAAAAAATAGCATGACTGATCTGTGCCTTCAGGACATGTTCCTGCTGCAGATAACTAGCCAGAGCC
CATCCCTTTATTTCGGCCCATCCCTTTGTTTCCCATAAGGAATACTTTCAGTTAATCTATAATCTGTAGAAACAATGCTTATCACTGGCTTACTGTCAAA
AAATCTCTGTTCGAGGCTCTCAGCTCTGAAGGCTGTGAGACCCCTGATTTCCCACTCCACACCTCTATATTTCTGTGTGTGTGTCTTTAATTCCTCTAGC
GCCACTGGGTTAGGGTCTCCCCAACCGAGCTGGTCTTGGCAGTGTAGCACCTTCCCCACTCTCTCCTGCTCCTTCTCCCGCCTTGTGAGATGCTTGTTCC
CCCTTCACCTTCTGCCATGACTGGAAGCTTCCTGAGGCCTCCCCAGAAGCAGAAGCCTGTGTTACACTTGCTGTACACAGTCTGCAGAACCATGAGCCAA
TTAAACCTCATTTTTTTTTTTTTTTTTGAGATGAAGTCTCACTCTGTGGCCCAGGGTGGAGTGCAGTGGCACGATCTCACCTCACCGCAACCTCTGCTTC
CCAGGTTCAAGTGATTCTTTTGCTTAGCCTCCCAAGTAGCTAGGATTACAGGTGTGCACCACTGCACACGGCTAATTTTTTTTTGTCTTGAACTCCTGAC
GTTAGGTAACCTGCCTGCCTTGGCAAATCCAAAGTACTAGGATTACAGGTGTGAGCCACTGTGCCCAGCAAACCTCTTTTGTTTATAAATTACCCAGCCT
CTGTCAGGTGCAGTGGCTCATGCCTGTAATTTGAGCATTTTGGGAAGCTGAGGTGGGCAGATCACTTGAGGTCAAGAGTTCAAGACCAACCTGGCCAACA
TGGTGAAATCCCGTCTCTACTAAAAATACAAAAATTAGGCCGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTCGGGAGGCCAAGGCGGGCAGACCA
CCTGAGATCAGGAGTTCTAGCCAGCTTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATCACCTGGGCATGGTGGTGCATGCCTGTAAT
CCCAGCTACTCGGGAGGCTGAGACAGCAGAGATCTCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCACCACTCCACTCCAGCCTGGGTGA
AAGAAAAAAGAAATTAATGGGTGGCTTAGCTGGGTGGTTCCAGCTCAGGGTCTCCCTGAAAATTGCAGTCATGACATCAGTCAGGACTATCTTCACCTGA
AAGCTTGACTGGGGCTGAAGAATCCCTTTCCAAAATGATTAACTCACCTGGCCAGAGGACTTGGTTTCCTGCCACCCGTGTTTCGCCAGAGTATGACTGC
TTGAGTGTCCTCACTGTCACACGTGTCCGTGCAAAGAGACCACCTAACAGACTTTGTGTGAGCAACAAGGCTGTTTATTTCACCTGGGTGCAGGTGGGCT
GAGTCTGAAAAGGGAGTCAGCAAAGGGTGGTGGGATTATCATTAGTTCTTATAGGTTTGGGATAGGTGTACAAATTACATTCTCAAGAGTGGGGAGAATA
TTGCAAAGTACCTTCTTAAGTGGGGTGGAGGGGAGAATATATCATATCAGTTAGAGTGGGGCAGGAACAAATCACCATGGTGGAATGTCATCAGTTAAGG
CTATTTTCACTTCTTTTGTGGATCTTCAGTTGCTTCCGGCCATCTGGATGTGTACGTGCAGGTCACAGGGGATATGACGGCTTAGCTTGGGCTCAGAGGC
CTGACACTCACCACATGGCAGCTGGCTTTCCTTAAAGGAAGTGATCTGAAAGGGAACAAGGTGGAAGCTGTAGTGGCTTTTCTGACCTGTCCTGTGAAAT
CACACTCTGTCATTTCCACAATATCCTCTTGGTCACACTGTTTAGCCCTATTGAGTGTGGGCAGAGACCACACAGCAGCATGAATACCTGGAGGTGTGAC
TCCTCAGGTGCCATCTTGGATGTGGGCTTAATAGTTTTGATTCAGCATCTTTATTATTATAAAGAGTTTGGCTGGGTGCGGTGGCTCACGCCTGTAATCC
CAGCACTTTGGGAGGCCAAGGCGGGCGGATCATGAGGGCAAGAGATCGAGACCATCCTGGCCAACATGGCAAAAGCCTATCTCTAATAAAAATATCAAAA
TTAGCAGGGCGTTGTCACACGCCTATAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGAGGCGGAGGTTGCAGTGAACTGAGAT
CACACCACTGCACTCCAGCCTGGCGACAGAGCAAGACTCCGTCTCAAAAAACAAAACAAAGCAAAACAAAACAAAACACACAAAAAAGAGTTTTAGTCAG
GCACAGTGACGCATGCCTGTAGTCCCAGCACTGTGGGAAACTGAGGCAGGTGGCTCACTTGAGCCCAGGGGTTTGAGACCAGCCTGGGC


SNP Information

Context             (SEQ ID NO:51551):
CCTGACCCAGGACTTCCCTCCAGGTGTGGATGACACTGTCACGGTGCTCCTGCAGTACCCAGGGGAGGTCCATGGCAGCTTCACCTGCAGCATCACCGTG
Y
AGCTCTCCAACACGGCCTCCGTGAGCGGCACCAAGGGCATGGTACAGGTGAGGCATGGCGGGCCCAAGCGCTGGGGATCGTGCCCCTAAAATAGGAGGGG
Celera SNP ID:            hCV25754071
SNP Position Genomic:     14835
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,36|T,2)   total(C,67|T,7)
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:51552):
GCTCCTATGAGGAGCTGGCCAAGGACCCGAGCGTGGGTGAGTGGCGAGGGCGATGGGGGTGCTGGCCGCCGCCCCTGGAGCGGTGCCCCCTGGCTGCCCC
S
TGGGAGATGCAAGGCTCCTCAGGATGGTCCAATCCCTTTGGGTTCCATAAAGACCTTTGGCTGGGAGGAGAACTATAAAACGGGCTTGGTCTGGGACTGG
Celera SNP ID:            hCV25751369
SNP Position Genomic:     7495
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,26)   caucasian(C,30|G,10)   total(C,40|G,36)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51553):
GCTCCTCAACCCCTGCTGGTGCCCGACCGAGCTGGTGGTGAAGGGGGAGCATAAGGAGTTCCCGCTGCCCCCAGTCCCAAAGGACTGCAATTTTGACAAC
R
GGGCAGGCATGAGTTATGAGGCCAAGCACGTCTGGGAGTGCCTACGCAAGGGTAAGGATATGGATGCGGGGCAGGCGCCAGGCCTGGTAGGGGGATGTTG
Celera SNP ID:            hCV25759010
SNP Position Genomic:     16775
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(A,2|G,34)   total(A,5|G,65)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(A,2|G,32)   total(A,7|G,61)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,102|G,1375)   total(G,1375|A,102) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51554):
GGTGAAGGGGGAGCATAAGGAGTTCCCGCTGCCCCCAGTCCCAAAGGACTGCAATTTTGACAACGGGGCAGGCATGAGTTATGAGGCCAAGCACGTCTGG
G
AGTGCCTACGCAAGGGTAAGGATATGGATGCGGGGCAGGCGCCAGGCCTGGTAGGGGGATGTTGGGCCCCTCCCCACCTGCTCTGTCACCCTGCTGTTTA
Celera SNP ID:            hCV26654450
SNP Position Genomic:     16811
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,8)   total(G,8|-,2) 
SNP Type:                 hmCS


Context             (SEQ ID NO:51555):
GGAATTCTGGGAATTGTAGTTCTTTGGGTCTTGGGCGCGTGGGTAGGAGGGGTCCCTAACTACACTCTCCCCACAGGTATGAAGGAAAGTCCTGTGATTC
Y
CCTGTCGGAAAGTGAGCTCCTGGCTGACATCCTTGAAGAGGTGAGGAAGGCCATTGGAGTCACCTTCCCCCAAGACAAACGCTGATGTATCCCCGAATAA
Celera SNP ID:            hCV11713076
SNP Position Genomic:     17167
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51556):
GTGAAGGGGGAGCATAAGGAGTTCCCGCTGCCCCCAGTCCCAAAGGACTGCAATTTTGACAACGGGGCAGGCATGAGTTATGAGGCCAAGCACGTCTGGG
A
GTGCCTACGCAAGGGTAAGGATATGGATGCGGGGCAGGCGCCAGGCCTGGTAGGGGGATGTTGGGCCCCTCCCCACCTGCTCTGTCACCCTGCTGTTTAG
Celera SNP ID:            hCV26654451
SNP Position Genomic:     16812
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 hmCS


Context             (SEQ ID NO:51557):
CAGCCCCTTCCTAAGGACAGCTCCCTAAGGGAGACAGGGGTGTGACCGACCACCTGGTCCCTGGGTGCTAGGGCGGGGCCTCGAAGTTGTGGGCGGAGCT
M
GGCTGTCTGGGTGGGCGGGGCTGCTGACCTCTTGACCTACTCCCACCCTAGAGGTGGCCTACATTGGCACCCAGCACCCCCAGCACAAGGCGGCGGTGAT
Celera SNP ID:            hCV25755453
SNP Position Genomic:     8299
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,36)   total(A,2|C,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:51558):
TCTCTCCCTCCAGCTCCTCAACCCCTGCTGGTGCCCGACCGAGCTGGTGGTGAAGGGGGAGCATAAGGAGTTCCCGCTGCCCCCAGTCCCAAAGGACTGC
R
ATTTTGACAACGGGGCAGGCATGAGTTATGAGGCCAAGCACGTCTGGGAGTGCCTACGCAAGGGTAAGGATATGGATGCGGGGCAGGCGCCAGGCCTGGT
Celera SNP ID:            hCV25758979
SNP Position Genomic:     16763
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,32)   total(A,65|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,36)   total(A,71|G,1)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51559):
GACCTCTTGACCTACTCCCACCCTAGAGGTGGCCTACATTGGCACCCAGCACCCCCAGCACAAGGCGGCGGTGATGCTGTGCTTGGCGGCGGGCAAGGCC
R
TTCTGTGCGAGAAGCCCACGGGCGTGAACGCGGCGGAAGTTCGCGAGATGGTCGCGGAGGCCCGATCCCGAGCCCTCTTCCTTATGGAGGTGAGGGCAGA
Celera SNP ID:            hCV25756292
SNP Position Genomic:     8425
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51560):
TGACCTCTTGACCTACTCCCACCCTAGAGGTGGCCTACATTGGCACCCAGCACCCCCAGCACAAGGCGGCGGTGATGCTGTGCTTGGCGGCGGGCAAGGC
S
GTTCTGTGCGAGAAGCCCACGGGCGTGAACGCGGCGGAAGTTCGCGAGATGGTCGCGGAGGCCCGATCCCGAGCCCTCTTCCTTATGGAGGTGAGGGCAG
Celera SNP ID:            hCV25756294
SNP Position Genomic:     8424
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,38)   total(C,74|G,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51561):
TTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCTGTCCTCGTGATCCGACCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTAAGCCACCGCGCC
Y
GGCCATTTTTCTTTTTAATCAATCCTGCCACTTGAAGATTATATGGTAAGGGAAATCTGCAGTCTATACACAATACTGAGTTGCTCCAAGCCCTTGAGGA
Celera SNP ID:            hCV8832146
SNP Position Genomic:     1604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:51562):
TATCCCCCTATGATTGGGACCCCAGAAGGGATTAGAACTGGTTGGTTAACTCCTTTCCTTGTGGTCTGCAGGCCATCTGGACCCGCTTCTTTCCTGCCTC
Y
GAGGCTCTGAGGTCTGTTTTGGCCCAGGGAACTCTAGGAGACCTCCGGGTGGCTCGGGCAGAATTTGGGAAGAATCTCATCCACGTTCCCCGGGCCGTAG
Celera SNP ID:            hCV15958996
SNP Position Genomic:     11797
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,37|T,1)   total(C,70|T,2)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51563):
GGGCGGAGGATGGGGACCCGCCCCCGGGGTGGGCGGGGCGTCAGGTACTTAATTCGCGCCTGGAGGGACCGAAGGTGCCGAGGGCTCCGCATCGCAACCA
W
GGCGCTGCGCTGGGGCATCGTGTCTGTCGGCCTCATCTCCAGCGACTTCACAGCCGTGCTGCAGACGCTGCCTCGCTCTGAGCACCAGGTCTGCCCGCCC
Celera SNP ID:            hCV25756495
SNP Position Genomic:     6042
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(A,1|T,35)   total(A,1|T,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51564):
GTTGGTTAACTCCTTTCCTTGTGGTCTGCAGGCCATCTGGACCCGCTTCTTTCCTGCCTCCGAGGCTCTGAGGTCTGTTTTGGCCCAGGGAACTCTAGGA
S
ACCTCCGGGTGGCTCGGGCAGAATTTGGGAAGAATCTCATCCACGTTCCCCGGGCCGTAGACCGGGCCCAGGCTGGGGGGGCCCTGCTGGACATCGGCAT
Celera SNP ID:            hCV25757831
SNP Position Genomic:     11837
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,29)   caucasian(G,40)   total(C,1|G,69)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51565):
CAGGGGAGGTCCATGGCAGCTTCACCTGCAGCATCACCGTGCAGCTCTCCAACACGGCCTCCGTGAGCGGCACCAAGGGCATGGTACAGGTGAGGCATGG
Y
GGGCCCAAGCGCTGGGGATCGTGCCCCTAAAATAGGAGGGGGACAAATGGCCTCTGGAGCTAGATGAGAGCTTAACCAGCCAATTTCACATCATTGCTAA
Celera SNP ID:            hCV29194002
SNP Position Genomic:     14894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51566):
GCGGTGGCGGCCCGCGATCTGAGCCGTGCGAAGGAGTTTGCACAGAAACACGACATCCCCAAGGCCTACGGCTCCTATGAGGAGCTGGCCAAGGACCCGA
R
CGTGGGTGAGTGGCGAGGGCGATGGGGGTGCTGGCCGCCGCCCCTGGAGCGGTGCCCCCTGGCTGCCCCCTGGGAGATGCAAGGCTCCTCAGGATGGTCC
Celera SNP ID:            hCV3170900
SNP Position Genomic:     7425
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,9)   caucasian(A,10|G,30)   total(A,37|G,39)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51567):
AGAGGTTGAAGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTTGGTCTTAGAAATAAATAAATAGGCCGGGCGCGGTGGCT
S
ACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCGGGCAGATCATGAGGTCCGGAGATGGAGACCATCCTGGCTAATACGGTGAAACCGCATCTCCACT
Celera SNP ID:            hCV3170901
SNP Position Genomic:     7872
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51568):
AACCCACTGGCCTGCATGCTCTATACCTACATCTAATCTCTTCTTATAAGGACACCAGTCATATTGTCATATTGGATAAGGGCCCACCCTAATGACCTCA
T
TTTTTTTTTTTTTTTTGAGTTGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAACGGTGCGATCTTCAGCTCACTGCAACCTCCACCTCCCGGGTTCAA
Celera SNP ID:            hCV1997270
SNP Position Genomic:     10965
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51569):
TGCTATGTTGTCCAGGCTGGTCTGGAACTTCTGACCTCAGGTGATCCGCCCGCCTTGGCCTCCCAAAGCGCTGGGGTTACAGGCATGAGCCACAGCGCCC
R
GCCCCCAGTTCCAGGAGTTTTTTTTTGTTGTTGTCATTTTGCATTTTTCTACATAGATGATGTCATCTATGAACAAAGAGTTTTATTTCTACCTTCTGTA
Celera SNP ID:            hCV3170902
SNP Position Genomic:     10712
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51570):
CCCGGGGATGGACAGGGCAAGCTCTTAGCCACCAGGTTCAAGAGGGAGGCCCCTGTGCACCACCTGGCATGTTCCTGGAGGCAGCCTCAGCAGCACCGTT
R
GTGAAGGCAGCAGTGCCACTTCTTCTCTCCCTCCAGCTCCTCAACCCCTGCTGGTGCCCGACCGAGCTGGTGGTGAAGGGGGAGCATAAGGAGTTCCCGC
Celera SNP ID:            hCV25753159
SNP Position Genomic:     16639
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,2|G,34)   total(A,6|G,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:51571):
GCTGAGATGGCGTCACTGTACTCTAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAGCTGCCCCACTTTGCAGAAGAGGCCCTTGCCTT
R
GCTTCCACTCAGCTGGAAAGTATCCAAGAGTGCCTGAGCCACCCAGATGTGATGCCCTTCATCTTTGACCTTTAACCCCAAGGAGCAAGAGGCAGTTCAT
Celera SNP ID:            hCV3170904
SNP Position Genomic:     12720
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51572):
CTTGCCATGCAAGAAGTGAAGTCTCTTGCCCAAGGTTCCACAGGCAGGATTTGGGGCCTGTGCAGTCTCAGAGACTCTGCCCTGAGAGACCCTGCCCTGA
Y
CCAGGACTTCCCTCCAGGTGTGGATGACACTGTCACGGTGCTCCTGCAGTACCCAGGGGAGGTCCATGGCAGCTTCACCTGCAGCATCACCGTGCAGCTC
Celera SNP ID:            hCV3170905
SNP Position Genomic:     14740
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51573):
GTGCTCCTGCAGTACCCAGGGGAGGTCCATGGCAGCTTCACCTGCAGCATCACCGTGCAGCTCTCCAACACGGCCTCCGTGAGCGGCACCAAGGGCATGG
Y
ACAGGTGAGGCATGGCGGGCCCAAGCGCTGGGGATCGTGCCCCTAAAATAGGAGGGGGACAAATGGCCTCTGGAGCTAGATGAGAGCTTAACCAGCCAAT
Celera SNP ID:            hCV3170906
SNP Position Genomic:     14878
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,17)   caucasian(C,7|T,31)   total(C,26|T,48)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51574):
TAAATCTAGCCTACGTGCACATCCGGTCACAGCACCTTTCCTTGAACTTATTCATGATACAGATTCCTTTTCTACATAGACACAGTAACAATCTGATCTC
T
CTTTCTTTTCCCCACACAAACCTGAGTGTCTTGAGGTTTGGAAAGGCCTTGATGTAAGCTACTATGAAGATAATTTCAATATTGGGGGATTTAATAACGG
Celera SNP ID:            hCV26654445
SNP Position Genomic:     7049
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51575):
AAATCTAGCCTACGTGCACATCCGGTCACAGCACCTTTCCTTGAACTTATTCATGATACAGATTCCTTTTCTACATAGACACAGTAACAATCTGATCTCT
C
TTTCTTTTCCCCACACAAACCTGAGTGTCTTGAGGTTTGGAAAGGCCTTGATGTAAGCTACTATGAAGATAATTTCAATATTGGGGGATTTAATAACGGC
Celera SNP ID:            hCV26654446
SNP Position Genomic:     7050
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,7)   total(C,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51576):
AATCTAGCCTACGTGCACATCCGGTCACAGCACCTTTCCTTGAACTTATTCATGATACAGATTCCTTTTCTACATAGACACAGTAACAATCTGATCTCTC
T
TTCTTTTCCCCACACAAACCTGAGTGTCTTGAGGTTTGGAAAGGCCTTGATGTAAGCTACTATGAAGATAATTTCAATATTGGGGGATTTAATAACGGCT
Celera SNP ID:            hCV26654447
SNP Position Genomic:     7051
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51577):
TAGACCGGGCCCAGGCTGGGGGGGCCCTGCTGGACATCGGCATCTACTGTGTCCAGTTCACCTCCATGGTCTTTGGAGGGCAGAAGCCAGAGAAGATTTC
Y
GTCGTGGGAAGGCGTCATGAAACAGGTACCATCTATCCTGGAATATTTCATGGTGATGGGAATGATTCTGTCTCTCTGGGAGCACTGAACTGAGGACAAG
Celera SNP ID:            hCV15959005
SNP Position Genomic:     11995
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,14)   caucasian(C,3|T,33)   total(C,17|T,47)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,662|C,819)   total(C,819|T,662) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51578):
ATCTAGCCTACGTGCACATCCGGTCACAGCACCTTTCCTTGAACTTATTCATGATACAGATTCCTTTTCTACATAGACACAGTAACAATCTGATCTCTCT
T
TCTTTTCCCCACACAAACCTGAGTGTCTTGAGGTTTGGAAAGGCCTTGATGTAAGCTACTATGAAGATAATTTCAATATTGGGGGATTTAATAACGGCTT
Celera SNP ID:            hCV26654448
SNP Position Genomic:     7052
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51579):
ACACCACGCCTGGCTAATTTTTTGTATCTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCATGACCCCACGATCTGCCCACCT
Y
AGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGACCAGCCAGCACTTCATTCTTTTGCCTTGCCATGCAAGAAGTGAAGTCTCTTGCCCAAG
Celera SNP ID:            hCV26654449
SNP Position Genomic:     14573
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51580):
ATCACTTGAACCAGGGAGGCGGAGGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGGATAGAGTGAGACTCCGTCTCAAACAAACAAACA
R
ACAAATAGCGGTAAGTGGGGCACATGCCTATACTCCCAGCTACTCAGGAGGCTGAGGCGGGAAGATAGCTTGAGCCCAGGAGTACAAGGCTGCTGTGAGC
Celera SNP ID:            hCV3170891
SNP Position Genomic:     4777
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:51581):
CCTACATTGGCACCCAGCACCCCCAGCACAAGGCGGCGGTGATGCTGTGCTTGGCGGCGGGCAAGGCCGTTCTGTGCGAGAAGCCCACGGGCGTGAACGC
R
GCGGAAGTTCGCGAGATGGTCGCGGAGGCCCGATCCCGAGCCCTCTTCCTTATGGAGGTGAGGGCAGAGGAGCCCTTCCAATATCCAGCGTAAAAGTGCT
Celera SNP ID:            hCV25756357
SNP Position Genomic:     8457
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51582):
CGACTTCACAGCCGTGCTGCAGACGCTGCCTCGCTCTGAGCACCAGGTCTGCCCGCCCTCCGGATTCTGGGGAAGAGGAGGCGGGGGGCGGGACTCCAGA
R
TCTAAAGGAGGAGGGAGTTTAGGGTTCAGGACTAGTGAGTGGGTCGTCATTGCAGTGAAACGTCTGTTTCCTTGCTACCTCCTTCTCCATCTCTGTTCTG
Celera SNP ID:            hCV25751146
SNP Position Genomic:     6185
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,3|G,31)   total(A,3|G,61)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51583):
GCGGAGGATGGGGACCCGCCCCCGGGGTGGGCGGGGCGTCAGGTACTTAATTCGCGCCTGGAGGGACCGAAGGTGCCGAGGGCTCCGCATCGCAACCATG
S
CGCTGCGCTGGGGCATCGTGTCTGTCGGCCTCATCTCCAGCGACTTCACAGCCGTGCTGCAGACGCTGCCTCGCTCTGAGCACCAGGTCTGCCCGCCCTC
Celera SNP ID:            hCV3170896
SNP Position Genomic:     6044
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,24)   caucasian(G,34)   total(C,6|G,58)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,28)   caucasian(G,36)   total(C,6|G,64)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51584):
TACGTAGAAAATGAAGACATAAGAAACTCCATTTTGAACTGTACTAAGAAAAATTGTTTCTGCTTTGAGATGCTATTAACCTGTAACTTTAGCCCCAACC
S
TGTGCTCACAGAAACATGTCCTGTATTGAATCAAAGTTTAATGGATTTAGGGCTTTGCAGGATGTGCCTTGTTAACAATATGTTTGCAGGCAGTATGCTT
Celera SNP ID:            hCV3170897
SNP Position Genomic:     6427
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51585):
GTGGCTGGAGGCGAGATATGCTGGCAGTGATACTGCTCTGTTACTCTTTGCTACACTGAGATGTTTGTGTAAAGTGAAACATAAATCTAGCCTACGTGCA
Y
ATCCGGTCACAGCACCTTTCCTTGAACTTATTCATGATACAGATTCCTTTTCTACATAGACACAGTAACAATCTGATCTCTCTTTCTTTTCCCCACACAA
Celera SNP ID:            hCV3170898
SNP Position Genomic:     6968
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51586):
GTGCACATCCGGTCACAGCACCTTTCCTTGAACTTATTCATGATACAGATTCCTTTTCTACATAGACACAGTAACAATCTGATCTCTCTTTCTTTTCCCC
R
CACAAACCTGAGTGTCTTGAGGTTTGGAAAGGCCTTGATGTAAGCTACTATGAAGATAATTTCAATATTGGGGGATTTAATAACGGCTTTCCCCCAGATC
Celera SNP ID:            hCV3170899
SNP Position Genomic:     7063
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Gene Number:                 244
Celera Gene:                 hCG39736 - 66000115828353
Gene Symbol:                 IGSF9
Protein Name:                immunoglobulin superfamily, member 9;KIAA1355;Nrt1
Celera Genomic Axis:         GA_x5YUV32VSLS(1487868..1518427)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12404):
CCTCAGCTCTCTTCTTTCCAGGGGAAGGAGGTGCTCAGGGGTGGGTATCCAGAGAGCCATACTTCTGAGGGAAGACTGGCTGGCAATAAAGTCAAATTAA
GTGACCACAACTCTGCAGGAGCTGTGTTGGGTCCTTCCGTCCTCACTGGGTGGCTCTGGCAAAACCCACTCTGCTGTCTTTGCCCCAACTCCCAGTGCCT
TCCCCCAAGTCCACGTGCTTTTTCAGGCCCTCCTTTGGGGAGAAGAGTGGGTCTAAAGGGCCCCCTCACAGGGAAGTTTTGGTATGCTGTCACTCACCAC
CTATCCCGTTTTCCACCAACATGCTTGCTATTTGTTCATCAGATAAGAAATGTGAGAGATTTCTTTGAACCTAACTGAACCTGTGACTTGAGAATTTCAG
GCATTTTGAATCCTGCATAAAAGTGGCCTTATTCCTGTTAAGATTCTTCTGCTCCCTTACCCCACTCTCATCCTGGCAGATACATTTGCTTAACAACTCC
ATCCATCCCAGACTAGTCTAGAAGCTCTCCTAAATAGGGAGGTAGGAAGGACCTCATTCAGACCTTCCCTGGGTCTGAGTTGAGCTCGCAACCTCTCCGT
CATCTCCCTGATGCCAGTTGCTCTGGGCCTCTGGCGTCTACCCCATAGGGATGCTGGATTATTAGCCGAGATCGTGGAGCCTTGACTTCTGCTTGTGATT
AGTATTACTGTCCTGCCTGTGTCCCTGCCTATAGATTTCCATGTCTTAGGCCTTCTCTTTGGAGTCTTGTCCTGGGTTAATGCCCACCCCCAACTCCCTG
GCAAAGGCCCTTAAGTTTATGTTCTTGCTCTTTCCCTAGACCAATGATCAGCCTCCCAGGCCTAATGTGTCCCTGCCCAAGTCTCTAGTATTCCCTCCAA
ATCAGATCTTGTGGATGTTACTTATGCAGTTGCCATGGGGCAGGGGGTTAGGGGGAAGCGAGGACTGGGGAGAGAATTAGAAAACACCCAATTGACAGGA
CAGGTGTACGCAGTGGGTGAATTGCAGGAAGTGGTGAAGGCTGTGATGTATGGCTGGGAGCCTAGGTGACATTTTGGAGCTCTGGGCTTTGATCTGCTAC
TCGCCTCTGGCCTGTGACCCTGTGTTCAGCAAACTTCCATTGAGCCACAGCCTCTTTCTCCAAGAAGTGCACACTGGAAGAGAGAAGCAGGCAGAGAGGC
AGCTTGGAGCTCCTACAGAGACACAGTTAGGCAAGCGACTTGGTGCCACAGAGACAGGGTGGGTTGGGGGCCCTGGGGAGTTTCAGAAGAGGTGTCTGAA
GGGTGGGGAGAGGGCCGCATGGCAGGAGGCATGCCTAACATTGCTGTGGGTCTCTTCTTCCTCTTTGTTTTTGAGGGGGAGGATGCTGATCTCCAAAGTA
TCTTCCAAAAAAGGAACAAGAAGTATGTGCAGGGGTCAGTGGAATGCATTCAACTGGGCAACCAATGAGACCAAGGATACCTTCCTTTTAGGAAAGTAGA
ACACATGGGCTGGCACAGGACCACCCAGGAGGAGAGTCTTGAGAGCGGCGTGGGGCAGGGCTGGAAGCCAAGAGTAGGGGTCTCCCTAGGTATTTGTGCA
GGAGATGGAGCCCCTTGGGGCTTGGGAAGGAGGTAGTAAGGTTGGGAAACCAGCCCCAAGAGCTCCTAGTGCTGGTAAACTGGTCCCCTCTACTTTCTGA
GGGCCTGAACCCTTGTCCCTCTGGAAGGCAGTCCCTTCTTGAGGCTGGTTCTCTGGGCTTCCCTTAGGCCCTGAGCAGTCTTGCTTCCAAAAAAGGCCAG
CAGCCCCCAATCCCTTTGATTCCTTTTATATCTTTCCTAGGAGGCACCACTGCAGGGATGGGGACTGACTGGAAAGGCCACCTTGAGTCCATCTTGCACA
TAAAGAGGCAGCTCATTTCTCATGTTATTGCAGGATTGAATTCATAGAAAGTAAACAAAAGGATGAATAAATAAAGGAATGAATGTATGATAGGCCCAGG
GATTTCCCTGGAAGTTGGCAAAGTTCCTTCTTCTTACAGCCGATCTCTGAGCAGAGAAGGGTTGAGGCCTCAAAAGAGGCCGAGCTTCTGGAAGAGGAAG
GATGAGATCTTAAAGAAAGTTGAATATAAACTCAGAGAGGCACAAGCCGCTACCTCTGCAATATGCCAGGAACTTGGCAAGCACTGGGGAGGCAGAAGAG
ACACCTCTGCCTTCAAGGAATGTTTTGTGGAGTGTGTAAAGATACAATAACAAGGTAGGAAAAGGGCTGGGGTGAAGGTGAGGGCGTGGTGGGAAAAGTC
ACGGAATGTGTCCTGAAGGGAACAGATCAACAGAAATTTGACCTGTGGCCAGCAGTGAGTCTGGAAAGGAGAAAAGGGCATTCTATCGAGACAGAAGCTA
AGTGCTAAGACACTGGTATGTGAAAGAGCACAGTAGTTCTAAGGCCTGCAAAGTCATGCACACTGCGATAAAGGGATAAGTGAGAAACCAGGCTGGAAAA
GTAAGCAGGGCCTTTCTGAAGCAGGAATTCAAAGACAAACAGGACAATATCCACACCCTTGTGGGGCTAAGTGTTTCATTGGGATAGAAGATAGGCACAC
AAAAAGTTAAATGACAATATATGAGAAACCGCACTTCTTTACGGATCTGGTAATAAGACTGCTGCTTACAGGCATGTGGTCAACAGAGTCCCTGGATGAC
AATCTTTTCTTTTCTTTTTTAACTCAGATATAACTTAATATATGCCTGATTAACAACATCCCTATTATCGATTATTAAAGCCACCCTTTCTATTCTAGAA
TATGGGATAGTTATGTGGTGCTTAATTGGTACAAGCAATGTTAACACATCAAATGTGGTCACTACTAAAAGCCCATGTGTTCCACCTTTCAGGGTTCATT
TGATATCAAGTAATTCTCTGCTTATCTATAGACAATGAGAAACTTTGCTGATTAGGAACACCTGTGCTTAACGATGCCAAGCAGACATCTCTGAGGTCAC
ACCATCTTCTTTGTGCAGGGCTATGGAGCAGCTCAGGTCCTTTCTTCCCAAGGCCTGCTGAAATATTAGGTATACACCAGGAAGACAGAACCAATAAGAT
AGATAGATACAGATATAGAAATATGAGATGGGATTTATTAGGGGAATTGGCTTACATGATGGTGGAGGCCAAGTCCTACAACATGCACAAAGAAGGCCCT
GGGATGGCAAAAGTGTGGCTCAGTCCAACTCCAAAAGCCTCACAACCAGGGAGGCCAATGGTATAACTCACAGTCCCAAGTCTGGAGAGCCTGGAGTTTT
GATGTTCAAAGGCAAGAGGAGGAGAATACCCCAGCTCTGAGAGACAGAGAGAGAGACAGAGAGAGAAAAGAAGAAGAAGGAGAAGGAGGAGGAGGAGGAG
GAGGAGGAGGAAAAGCAGCAGCAGAGGAGGAGGAGGAGAAGGAGGAGGAGGAGGAAAGAGGAAAGAAGAAAGCAGGAGAAGGAGAAGAAGGAGGAAGAAG
AGGAGGAGGAGGAGGAGGGGGAGAGAGAGAATATTTTCTGATATCCTTGTCAGCAATTTGAAAATATGGGGGCTGCCTGATACTTAGGTTAGGTGGAATC
CTCGTTGGTTGAATAAGCTTTCCCAGAGAGTAATGACTATGAATCAAGGACAACCTAGAGGAAAGTCTTTTGTTTTGAACCTCAGGGACTATTTTTTAAA
TCAGCTTTCACTCCTGGCACAGTGAGGGAACAAGTTATAGGGCTAGGTTCCTTTTCTTAACAAAAAATCTCCAATATACATATAAATCAGACAAAAAATG
GCAATAACAATAAAACTCACAAAATAAGTTTCCAGAAAAAAAAGGCCATATCATAAACTTTTAAAAATTGAAAACCATTTTAAATGTCATTTAACAGAAA
GTTATTTTAATGTCTAAATGAGATTAGTTTATCCTCAAGAAACCACTGGAGACAGCAGTTTAGATCAAAGGTGTGGCCAATTCTAACAGCGGGGAGGGAG
ATCCTTCCCAATGATTGGTAAAGATCCAAAGACTAAAAAACACTTGGCTCGGCCGGGGGCAGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCCGA
GGTGGGTGGATCATGAGGTCAGGAGTTCAAGACCAGCCTGGTCAAGATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGTG
GCCGCCTGTAATCACAGCTGCTTGGGAGGCTGAAGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCC
AGCCTGGGCGATAGAGTGAGACTCTGTCAAAACAAAAAAACAAACAAACAAAAAACCCGCTTCACTCTTTTACCATTTCTTCTAGCCTTGCTTCCATGCT
GCATTCATTAACATGTTTCCATTATAGTCTTATCAATAGATCAGGGTATTATGTTGAAATGCATTGTTGAAAAGCTGCTACTTTGGGACTATTTGCAGGA
GGGATGGTGGGAGAGACTGGCCCACTGCTCCTGCCTCTTCCCTTCCATCTCAGTCACCCAAAAGCACTAAAACCTTTACACCTGGAAGAACTGTCCAGCA
GGCAGAGCTTACTAAGGATGGAATGGGTACAACAGTAGTGCTGAGCTTCCTGGCCCAGGATGTAATGAGATAGGGGCTTGGATGACTACATGGAGAAATG
ATGTGCCAGGGATTCTGGGGCCAAGTAGTGCTTAGGCCCATCCCGGAGGTTCTCTCATGATGCTGCAGCAGTGATTCTGTGAGTCTGATGCCTGGTGCAC
TCAGTTTGAGTCTTAGTACTTCGGATTGGGATGAGATCAGCACGTTGCTTTCATGGAAGGCTTCCAAGGGAGCCAACTGAATGGGAAGGACCTGGACAGG
CAATGTTGCTTAAGCCGACCCAGCATCCCTACAGCATCACCAGGCTGAGGAGGTGGAATCTCTGAGGGGCAAGATATGCAAGATATCTTTGTGTCTGAGG
GCGAAGCCTCCAAGGGAGTAGGTTTGATGAAGTTTGGGTTGGGTCTCAATCCAGCTCTGCCATAACCTAGTTGGGAAAGCTTGGGCCAAGTTACTTCATC
TCCCTGAGCCTCAGTTTTCTCATTAGTCAAAGGGAGCTCTACTTACTTCGCAGGGTTTCTGTGAAGGTTACACAAGAGTTATAAAGCATCTAGTCCAGGG
TCTGGCACCCTGCATGGGTCCAGTAAGTGATCTTGTATTTCATTCCTCCCTTTCAATCTCCCGTGTCAGGATATCTGTCGTTTCTCCCCTCTGGGCCTGT
TTCTCTGGGTCGTTGGTGCCAGAGCTGCCTTGGGAGCTGACTTGGCAACCCCACGCTCAGAGCACAGCCTTCCTCAGCTGCACACGGTGGGAGGCGCCTG
GGCAAGATTTGGGAGCTCGCCARTGCAGACAGGTATTTCCAGTCCTGCTAGAGAAGCAATGGGTGGAGGTAGAAATGGGGATGGGGGAGGAGATCGGATG
AGCCCSGGACCTGGGTGGATCCCCTGGGAGGAGGGCGGSGAGTCATGCTCCCCGCCTGGTTCTCCTACCCCCAGGCTCAGATTTCAACCCTCGCTGCCGC
CTCTGTGGCGCGCCCGTTCGGGGAGCGGAGAGGGTCGCCCGTAGGTTCCGAAAGAAGGACGGCGTACCAGTAGCCTGGCAAGGGGCCAGCTCCCGCAGCC
CTGGAGCGCGAGCCGGACCCTGCTGCCCCTCTTGCTGGCGGCGGGAAGCGGCCCACCGGCCTTTCCACGCTTGGCTGTGCAGAGGTCCACGAGGGGGCGA
CCTGAGCCCACGTGCAGCCGAGCTCTTCCCTCCTGAAACTACAACTCCCAGGCCGCTCAGGGGTCCCGCCCGCCTCGCCGTGCCTCTGGCGGCTCCAATT
GGCCGCCGCGGGAGGGGGATTGGCGGTCTCCAGGGCGACGGGAGGCGCTCGGGGCATCCGAGGCKGGGAGGCGGGTCCGCCCCCTATTGTGTAGCGGCGA
GAGTGGAGCCGAGCGGTGCGGAGCAGGTGAGGGAGGGGGCGTACTGGAGGTATAGAAGTGGTGGTGCTGGTAGTGCGGAGTTATGGGGGACAGGAGAAAG
CGGGGAGTTCTAGAGAGAAGTGGAATTCGTTGCAGGAGTAGAACTAGGGGAGTTCTGGGGAGTGAAGTGGAATTCTTGGCGGGTGGGTGGGAGTTCCCGG
AGAACTGCAGGAGTTCTGGAGGCAATGTGGGGGAGTTCTTGGTGGGTTCTAAGAGAAAGGAGGAGTTCCAGGGGACCAGAGAATGCGAGGGAGAAAGGAA
TTGTTGGGGGTGGGGTATCAGAATTGTATTGTGGGCTGATGCAGGAGAATCCCAGGGAGGGGAATTATCGGGAGGAGAGGATGGGGAGAAGTGGCTGGGG
GGTGGGGAGACCAGAAGGGAGTTCTTTATAGTGCAGGAGACCTGCTGCAATTGGAGATCAGGTGCGAGAAGCTGGAATTGTGGGGGGATTGTGCGTAGTA
GCGATAACTGGGAAGGGAGTAATGGGAGGACGAGGGAGTGGTGTGTGGGGAGACTAGAAGGGTGAGGAAATAGTGGAGGCCGGGGGAGTTGGAAAGATAT
TAAGAGACTGGGAGGAATTCTAGGGATGCCTAGTTACTCAGAGTCTCGGAAAACAACCAGGAGAGAACTAGGGGGTTCCTATATACTTGGAAAAAGGTTT
TTCAGGGAAGTGTGGGAGAGCTGCCTGGAGGCAGTGGGAAACAGGGGGCTTGGTTGCTAGTGAATTGCCAGAAGTTAGACATACAGGATCATTAAGTAGA
GGCAAGGATCAGACTCTGTGGAGGATGTTTTATAGTCTGTCCTGAACTTTGCGGCCAAGAGTGGGTTGGAGGACTCAGAGCAGAGTCCACTTGGCAGTGC
CAGGCCCTGGCATGGACCCTCTGGCTCTCTGAGACTGCCCTAGGATCTGTGGGGCTGTCAGAAGCTCCTACCCTCCATGCCCCAGGGTTAATTTTGTACA
CTTCAGGGACTCACAGGCTTTTTTTTGGACCATGCCTCTGGGGTTGGGGAAGAAAGAGCTTGACAAACCCTGGCACCCCGAAGATATTGGAGGGGAGTGA
GTGGGAGGGATTTGGGTGAGGTCCTTGGGTGGTGGTGCCTGGCAGGGGGAGGGCTGCTTGGCAGTATCGTGAGGAAGTGGCGCCAGCTGCCAGCCCCGGG
ACCTGTCCAGACCTGGAGGATGCTGCCTGGATCCCCCATACTGGCAGGTGGGGGAGGCAGCTCCTCCTCTCCCAAGTGCCTGACTCACTCACTGCCAAAG
CAGTGTAGGGAGACTGAATGGAGAAAGGCCTCGGGTCCTCAGCTTCCAGAGTTTTTCATAGAGGCTGGGGAAATGGGACAAGGGATTGTATCGGGGTGTC
CTGGGGACCACTTTCTGAGGCTTAAGCGCCCTGGATTTGCCCTTGACTGGCTCTCTGCCCCTGAGCAGATATCCTCAGGGCCCTTATTTGTCACAGAGGG
GTGAAGGCGACAGCACTGGTTCCATCTTGCTGCTATACCTTGTGAGCATCAAGAGTAAGGAAAGAAGCGAGAGCAGSCTAGGCCATGAGAGTCTTGATCT
ACCATACTTCCTTCAAAAATATTTTTCCAAGCATATGAGGAACCCCAGTTCTCTTCTGGCTTAGTTTTTCAAGACCCTCAGAATGCAGGCATCCCCAGAA
TCCTTCCACATTTCCTAAGACCTTCCCAACTCTCCCAGCCTCCCCCATTTCCTCACCTTTCTAGTATCTGCATTCAGCACTCACCATTCTCCCAGTACTC
CTACCCCTGCTCTTACTCCCCAGGGCTTCAAGATCCCCCCCTTCCCCCTACCCCTCACTTAACTACACTCCTCCCTCCTTTCTCTTCCCAGTGCCTTTCT
CTAATGGWGGGGTTTCTTCTGGGCTCCAGTATTGGCCAACTCTGCATGTTGCCTTGTACTTTTCATTTAGATCTGGTGGTTCTCCGGAGAGCAGCTTCCT
YGGGTGTTACATGAGCCAAGCCCTCACTGTACAGAAGAGTGAGAGCTGAAACCTGTTCCCTGAGCTGATCAGAAGGACATCCCTTGGCCCCTCCATCTGG
GCTCCYGTGGATAGGAGGGGCTGGGTGAGCAGGCCAGCTGGGCTATGGTGTGGTGCCTCGGCCTGGCCGTCCTCAGCCTGGTCATCAGCCAGGGGGCTGA
CGGTAAGCTGAGCTCTTGGGCTCAAGAATGCCCTGTTAGCCTTGGGGTGGGTATGGGGGTGTTCCTCAAGGGTTCCTCTTTGAGCATGTGAGGGCAGGGG
AGGAATAGGGCTGGTTCTGGAGAAGCTGAACTGGGRGTTTCTCCAGTCACCCAAAGTCCTAAGGTGCCTACAGAGATACTGATGGCACTCCCCCTCCCAG
CACTGACCCTAGCCCCCCGTTGTGCCCTCATGCCACCCATCATGCAGGTCGAGGGAAGCCTGAGGTGGTATCGGTGGTGGGCCGGGCTGRGGAGAGTGTG
GTGCTGGGCTGTGACCTGCTGCCCCCGGCCGGCCGGCCCCCCCTGCATGTCATCGAGTGGCTGCGCTTTGGATTCCTGCTTCCCATCTTCATCCAGTTCG
GCCTCTACTCTCCCCGAATTGACCCTGATTACGTGGGTAAGAGTTCTCCTCAGGTGGGAGGTAGGGAGGTATCAGCAAGAAAGGTGGGCTGGGTAGAGTC
GCACAAGGCCTCCTATGAACGGCTTTGTCCCTGCTCTGATCTCATCTCCAGCTCTGCTGCCTTAACTCTGCTTAATAAGCATGGCTGTGCTCCCAAGCAG
TGTTAATTCATTGAAAGATTCATTCATTTACACACACACACACACACACACACACTCACACTCTTATAGCTGTGCTATTTAGGACTCCACGTGGTCTGTT
CCAAAGGAGATCCTGCAGCCCTATTCCAAATATCCATTCTAATTCTGTAACTGCTTTTTCTACATCTCATCATGAAACCTCCCAGACTTCATCCTGATCT
GTAGTCTCCCCTCTTGGCCCTGCCTTGGTCCTGGCTCTACTAYCTGCTCACTCCTCTGCSCTCTCCCCCTTCCTCATCGTCTTAAATGCTAGTTCAGGGG
TTCAAGTCTTCTAGGGAGTGGGCTGATGGGGCAGCAGGGTAGGTGCGGCTGTGACCTCTCTGCTTTTCCAGGGACACTCAGYCTGCTTCTGAGTAGAGAA
GCACAGGTGTACAGAGAGGGTGGCTGGGGAGGGCCCAGGATCCCCAAAGGTCAGTGACTGGATGGGGCTGGCCTGGGTTGCTGCTTTAGGTGGCACCTRT
TGGGACTTAAAATCGTGTGTAGCCTCCCTGGGCGCCTTCTGCTGCACCCCAGCTGGCTCCCTAGAATGGCTACAATGGCTCTGCTTCCTCCTAATCCCGG
ATGGAGCCTTAATCTAAGCGGTTTAGTGCCAGGTCTCAGAGGGCAGTCTGCAGGAGGCCCTAAGGACAGGTCTGGGCTATGGGGCGAGAGAGAGTCTTGT
TGCCTCCTCTTCAGAGGGGAGACCCAGGAAAGGCCACCTGGGAGGATGTTGATGGGGAGACCCCCACCTTTTCCCTCTTTAGTTTGAATCCTGAGGGAAA
CCCCGGGATTGGCTGAGCCTTGCCACAGGGCGGGCTGAGCAGAGAGGGGAGGAGGTGCAGGCAGGTGATGCAGAAGGGAAGTTTCTTTTCAAACTGGGGG
CAGTTATTGGCAAACAGCCTGGKGGGAGTGTATGTGTCTACACAAGCCCTGTGGGAATGGATGAAAGCGGGCCCCAATTAGCACCAGTGGAGAAAAAAAC
GGCTGTGCCCACCAGCCCTCCCTCCCTGCCTCCGCCTGCCCAGGCCTGGGAGGGGTCTCGGGCTGCCGGGCTGAGGCTGGACAGATTCATAATGTTGCCT
GACTGAGGGCAAGGCAAGGGGAGGTGGAAGAGGGAGGGGCTTTTCCTGGGACTCCACCAGGGAGACTTGAAGCTCTTCCTTCTCTCCAGCTTGTGTCCTG
CCTTGAGGTCCCTCAGGCCTGAAGCCACTGGATGGTTAGCAACTTTGTCTACCTGTGGGTCTTCTGTCTGTGCTGTTGCTTGAGCTACAGGGGCTGTGAG
CAGTAGCCTCTGGGACTTACTGTCTGCTCCTATCCTTTGTTCACACCCCTACCTCCGTCTGGAGCTCTTGGTCAGGCCAGAGCCGGCTGAGGGAGTTGGG
ACCTGAGGGAGGCCCCTGAGCCCATTAACCCTTTTACTGCCTCACAGTGTGGAAGGGGCCTCTCAGCCTTTGTGTAGGGGACTCGGAACTGCAGTTGCTA
AGCAACAGGAGGTAGAGGTTGCTAAGGACAATGCTCTTCTGTCATAAGCCCTCTGGGCAGTGAAGGGGAGATGGGTCGGGGACTGTTGTGGGGCTGGTGG
CCTAGAATGTGTGCGGAACCCTGAGAGAGACTGTTGGATTAGGGACCACACAGAAGGGAAGGCTTCCCATCTTTGAGGACTCTAGAAGCATCTAGTAGAG
GAGACTGGATTTATCAACGATGCCATGGAGTGAAAGCAATATAAAACAAGCTAGGACTAAAGAGGAGGATTCAGTTAGCTGCTGTGTGTAAAGCGCCCCA
GCCTGTGCCTGCACAGTGCCTGTGTGGTGTGAACCCATGACCAGGCCTCTGGAGGGAAGGAAGGTTAGGCTTAGTGGACACCAGCTTTCCTAAGGTGGGT
CTTAGACCAACTCATTAAAATGGCAGGATGGGCTTTTGTGCTGTATTTCTTGGGATTTTCAAGATGCCCCACACAGCAGAAGGGATGTGCATTTTTTTCT
CTGCCCTGAGTTGTTTGATAAAAATCAGTGACCTCGTTCTCCACTTAGAACTCCCCTGCTTGCTCTAGTCACCTCCCCTCACCACCTTTTATTCTTAATC
CTCTGCCCAGTCACAGCTTCCCAGAAGCCTTCCTTACTCCTCTTGCTTCATAGTGCAATGTCTGGGCGCAGTTAGCACCATTTTTTGAACTTCTTTGTGG
ATGTGTGGACGTGAACTTGCCCATTTAGGTGACTGTGGGTTCCCTGCCTTCYGAGAGCTTAAGAGAGCAGAGACTGTGTCTCCTGTTTTCTTCACACGCC
GCTGCATATGGGAAGATCTGAAGTCAACAGGCTTTAGCCCTGCAGGTGGAGGGAGGCCTCCAGGAGGTGGGCCCAGGACTCAGGAGGACTCAGGGCTGCC
CTGCTGGCGATCTTCCTGTTCTGTAACACTACAGGTCTAGCAGTCCAGCTGTCACAGAAAAGCTAGGACATGCAGTATGCTTCTTTGGATATTCTGAGTA
ACATTTGGACTGTTACCCATTGGCTACCAGCATCTCCCAAGTGAGAATACATAGATTACCCCCAGTGCCCTGAACAGCACTCGGTCCTAACACCCGTGTC
CATGGAAAGCACGCCGCGTCTGGAGAAAGAAGCCTGGCTTTGTCACTTACTAGCCATGTGATTTTGGAAAGAAACTTAACATTAATTCCTTCAGCTACAA
TGGAATTCTTGGGAGGATTAAATATGGTGACAACGCCTAATATTAGATGGCCTGTATTCCACACTCAATCTTCCTTCCCTCTTCTTCCTTCTTTGTAGAG
CTATAATGAAAAGTATCATGTGGGACACAGAAGAGGTTGCAGTCTGGGGTCTGCAGGGCTTAGCGGCCAGGCAGATTAGCTTTCTTGAGGAATCCTGACA
GTGGGTGGAAGGGTATGATGATGTTAAATATTTACCCGCTGGGCCTAGTCTTATCTCCGGGGTGGGGATTTCAACACCTAGCCCTTTAAGCAGGTCCACC
CATCCTAGAGAATCCACACCCTGGAACTCATTCTAAGTAGAAAAAGACTCTTGGCTAAGATCACAAAGCCTGCCTCAACTTGATCCTTCTCTTCTTTCTG
AAATAGATTTTCTTATTTCTGAAACAGATCACTCTAGAGGTAGAATGGAAGCAAACTGGAGGGGCTGAGCACTTTCACAGCTTCAGAATTTCTAGCATTA
GGAAGAGCTGGAGTGGACACTATGCAAAGGGACTTGGAGCTGCATTTGCAAACAACATAAGATTAAGAAAATGCAGCCAGGCACAGTGACTCACAGCTTA
ATCCCAGCGCTTTGGGAGGCTGAGGCAGGAGGATCCCTTGAGGCCAYGAGTTTGAAACCAGCCTGGGCAACATAGCAAGACCCCTCTCTTCAAAAATTAA
ACAATTAGCCAGGCATGGTGACACGTGCTTGTACTACTAGCTACTTGAGAGGCTGAGGCAAGAGGATCGATTGAGGCCAGGAGTTCGAGGCTGCAGTGAG
CTACAATCAAACCACTGTACTCCACCTGGGCAACAGAGTGAGACCCTGTCTCTAAAAAAAAAGAAAGCTCCATTTGTTCATAGCAGAGGTCAAGGTGGGG
ATGAGCAATGTGATGTAGAGGGGAGGAGGCTGGAGGCAGGGAGACTGGCAAGTAGGCTGTTGGAGAAACCCAGGTGAGACATRCCACAGGTGTAAAGGTG
AGGACAGCAGAGAAGGGGAAATGTTTAGGAGGTAGGATTTGAAAAACCTAATGAGCAAGTAGATATGGGAGGTAATCGAGGAATCTAGGAGATGCCAGGT
TCCTGATAAGGTGACTTGGTGTGTGGTGGTGCAGGAAGAGAAAAGGAAGGTGACGTGTGATCAGTTTAGGGACAGGGTCAGGACTTGAGTGCAGCTTTCT
GATTTCAAATCTAGAGCTCATTTATTTGTTCAACAACTTTTATTTGAGCATCCACTGATGCCAGGCACCATGCTACATGCCTTCCCTACATTATTTCTCT
CCTCCACCCCACCCCAATTTTGTTTCTTTCTCTTCTTTTTACAGATGAGGAAACTGAAATTGAGAGAGGTTAAGTAACTTGCCCAAAAGAGTACACAGTC
GAGCTGGACTCATGCCTAGGTCTATCTGGCTCCCAAGTGTGTGCTTGTATCACGAGGCTACACTGCCAGGGACCCATGAAGCTGTCTGGGGTGCAYAGTT
GCATCCAGGGAGGGTGCTGAGGGCTTGGGTAGGCACCCTCGGTCTGAGCCTGGCAGTGTGGTGTGGATGCTGACTAAGAGTGGGATTGAGGTGTCTGGTT
GTGCTGTGGTTGTGTGGCTTTGTGGAAGTGTATGTGATCAGCCAGCTGGGACTGGAGTGCCCCGGGGCATGGAGAGGATAGGGCGAGGAGGCTGCTGACT
TTGCTGCTTGCTGGGCTGGACTCTGGCCACCCTAAGGCGCTTAGGCTGCTGATAATAGCCCTGAGGGATTAGGGGCTTTGGCAGGCGGGGTCTGGGTTCC
CCCTGCTAGGGCCTCAAACACTGCTGAGGTTTTCAGGGAAACARTCCTCTATCAGGAGTACTCCCAGGAGCTCACACCTTCCCCTACATAAAGAGCCCAG
AGGTGGACAGATCCTGTAAGAGTCCAGAGGAGACTACATGCTGGCTCTTCACTTCCTTCCCCAACAGTCCTAGACACCGAGTGCAGTTCAGGGGAAGGTT
TTGTCCACCTGCTGTCCCCCTAGGTTTCTCTTTGTCTAGACAGGGTCCCAGCTGTCGAATGGCAAGAGTGGTCAGAGGGGCCGAATGGAGGGACCTGTCC
TGAATGACCCCAACCTCATCTGCGTCTCTCTGGACCCCACACTCAGAGTAACTGGGAGAGACTGAGCCTGTTCTTACCTCTAAGAATTACCAGTGTGACC
AGGGGACTGGGGCTTCCATGGGGTTCCTTCAGCACCCTTGATTCAGGGCTCCTCCCCCAGGACGAGTCCGGCTGCAGAAGGGGGCCTCTCTCCAGATTGA
GGGTCTCCGGGTGGAAGACCAGGGCTGGTACGAGTGCCGCGTGTTCTTCCTGGACCAGCACATCCCTGAAGACGATTTTGCTAACGGCTCCTGGGTGCAT
CTGACAGTCAATTGTATGAAGCTGGGGGGCAGGTGGTGGAGAAGGACRGGGAGGAGGAGGATGGGGATCTCTGGCTGGTGGGAGAAAGGGGAAGAGGGAG
TTCTATTTCCATCCCACAAACRGCTCYGATGCCCCACCCTTCCTGAGAGCCCTTGTTTGCTCACTTAGTAGTTGCATCTCACCCCTCCCCCACACTCCTG
CCCTTTTCAGTTCTTCAAATATAAATTCAATCAGCCTTCTAGGCTCGGTGTCAGGAACTCCCTCTTTCTCTTCCCTCCTGCTTCCCTGGCCAGGGAAGTG
GGTGGGAGAGAGGGGCTCTTGGGCCCTGAGTGAAACACAGCTCACATATATATAGCACCTTGTGTTTTCAAAATACCTTTTCACCCAAGCCCTTATTATT
TATCTCTCACTCCTAAGTAGGAAGGAGGTCATAATCATTCCCATTGCATAGGTGAGGCTGAGTCATGCCACTGATTAGTGGCAGAGCAGAGTCTAGGACC
CAGGCCTCCTCACTCCCAGAACAGTGCTCCTCCTGAGGGGGCTTGGCTCTCCCCCAGGCTCTGGACATCCAACCTGGGTTCAGCCCCAGGCCAGTGTGTG
GGGGTGGGTTGACAGAATCCTCATTTGGCCTGGGTGCAGYAGACAGGGTGGCCCTGGGCTGAGGACTCCTATGAGGCAGGGCTGGTGGGTGGGCAGCAGG
CTGGAGCCCTGAGTGGTCTCCCTGGCCCTTGGACACTGCTTTTTGGGCTGACAGCCCCACTGGGGCCCCTGATGCCTGTCTCCCTTGCAGCACCCCCTCA
ATTCCAGGAGACACCTCCTGCTGTGTTGGAAGTGCAGGAACTGGAGCCTGTGACCCTGCGTTGTGTGGCCCGTGGCAGCCCCCTGCCTCATGTGACGTGG
AAGCTCCGAGGAAAGGACCTTGGCCAGGGCCAGGGCCAGGTGCAAGTGAGTCCTGGGGGTGGACAGAGTGAGCCATATAGAGTGTGAAGGGAAGGTGGGG
GCCTGGCAGTGGGGCCAGAGGACAGAGGAGGCAAAGGCCAGGCTGGAGGATGGGCCAGAAGAAGGGCTTGGCATTGTTTGCCCCGAGCCTGGGGTGCTGC
CTCCCTCTGCTGGCCAAACTCGGAAGTGCAGGATCTGAGGCTGGCAGGGGAAAGGACTCTTCCTCACCCACTCCTTCCCTAGGTGCAGAACGGGACGCTG
CGGATCCGCCGGGTAGAGCGAGGCAGCTCTGGGGTCTACACCTGCCAAGCCTCCAGCACTGAGGGCAGCGCCACCCACGCCACCCAGCTGCTAGTGCTAG
GTGCTCTCTGGCGGGAGGGCTGSGGTCCAGGGYTACCTATGCAAGGGGGCTGTGACCTGTGGCTGAATTGGTTCACAGCAAGATAGGAGGGAGATTTGTG
CCTGAGGGCAGGGCCCGTGGAAGCTAAGGGGGTTCCCAATGCAGGCTRTTGCTCTGAAACCAGCACCTTAATTTTAAAAGGCTCAGTAAGCAGACAAAGC
GATCTTAGTGCCCAGTAGTGTGTTATAGTGGAAAGGACATGGGTGCTTGTGTTAGGCTGTGAGCCAGTTAACTCCTTGAGTCCCAGTTTCTTCATCTTTA
TAAAGAGACTCATCTCTACCTCTCAGGTGTGTTACAAGAATTTACTTAGGTGCAGCTGAGCCCAGTCACTGGCACATGGTAATTCCTGGCCAAGATCCTT
CCTTTAGAAGGGAAACTGAGAAGCAGAAGGCCTGGACTGTGCCTTCATAGAGCCTATTATCTTTGTGGGGAAGTGAGACTAATTGGGGAAACAGGGAAGT
GTTGCTGTCCGTGGTACTGTAAGAAAGGCAGTGCCGGGTAATGGTTAAAGGTGTCGTCTGTGGCATCAGGAAGCCTAATATGAATGTTGCCTCTCCTGCT
GTCCTTGGGCAATCACCTCACAATCTCTCTGCCTCTGAGCCTTCACTTCTTCATCTAGAAAATGGAGACAATTCCCACCACAAAGCTTTTGGTGAGGATT
AAACGAGGTCGTGCAGGTAAAGTGCTTAGCACTCAGTGTCCCGCATGCAGTCAGTGCTCTGTTGTGTCAGCTCGCATCATGACCTCTTCTTACTGACTGC
TCATGCGGTACCGGCCCAGAGAGGGGAAGGAGTAGTGGAACTGTAGTAGCCAGAGGTGCTTTTGCAGGAGGTATGTGGCGCGGCCAGGCCCTTGGGAGGG
GCATTCCAGACCGGGGGTGCAGGGAGCAAAGGCATGGAGATGGGGGACAGCCAGCTGCCCATACTGACCTGAAAGAGTTCATGAGGGCTGACATATGGAA
AGATGGCTGGCCACGTAGGGAGGGTTTGGATCGCAGGGGTCCACAGGGCTGGGTTTGAGCTTAGTGTAGTAGGAGCCAGGTGCTGTTGCAGGTTCCTGAG
CAGAAGTGTTCTGTGGCTCAAGGGGCTGTTTCTGTATGAATGGCCATTAGAGTGGCAGCTGCAGGGGAGCCTGGAGTCAGGGGCTGCTGCAGCATCTTGA
GGTGAGGTATTGGGCACCTGGGTTAGGGCCAGAGACAGAGAAGTAATTCAAGAGGTGACAAGCAGGGATACAAATGGTAAATGAGCAGAGTTAAACTGAC
KCCCCCAAACACACACACCATTCCTAGGCAGTGGAACTGCATGAATGGAGTTGCTCTTGATGGAACAGAGAGAATTTGGAAAGAAGAATGGGTCTCAGGG
AGAGGATGAATTCTTGTTACATACAGGGGGAAGCTTCTGCTTCCACTCCCCAAAGCCCTGTAACAACGAGCCCTAAGATTCCAGAGAGCAGAGCTGGGAA
GAGTTGTAGAGGTGACCTCAGGGTTCTGGGAAGACTGTGGGCTGAGGCCACCTTCCTCCCCTTGTGCATCCCACAGGACCCCCAGTCATCGTGGTGCCCC
CCAAGAACAGCACAGTCAATGCCTCCCAGGATGYTTCATTGGCCTGCCAYGCTGAGGCATACCCTGCTAACCTCACCTACAGCTGGTTCCAGGACAACAT
CAATGTCTTCCACATTAGGTGGGGTCACCCTCATTAGGAAGGTGGAGGTGGGGAATTCACAAACAGTCTCTGAAGAGCCGCTTGGCTGGGCAAGGCCTGG
ACCCCTCCTCACACATGCCACATTGCAGCCGCCTGCAGCCCCGGGTGCGGATCCTGGTGGACGGGAGCCTGCGGCTGCTGGCCACCCAGCCTGATGATGC
CGGCTGCTACACCTGTGTRCCCAGCAATGGCCTCCTGCATCCACCCTCAGCCTCTGCCTACCTCACTGTGCTCTGTAAGCCTGACCYCAGCTTCTCCCTC
AGCCTGCTCCCTTCCCCTGGGCCAGGCCAAGCCCCTCTCCCCCAACTTGCCACTACTTTCCCCCAGACCCAGCCCAGGTGACAGCTATGCCTCCTGAGAC
ACCCCTGCCCATAGGCATGCCGGGGGTGATCCGCTGCCCGGTTCGTGCCAACCCCCCACTGCTCTTTGTCAGCTGGACCAAGGATGGAAAGGCCCTGCAG
CTGGACAAGGTACAGGCTTGGGGCAGGGGAAGGAGGGTCTTAGCTTGGCGTTATTCTGCTCAGGACAGCAGGGTGGAGTTAGCTCGGTTTAATTCAGTTC
AGTGACTGGGGACACACATCTTTTGTGAATTTAATTTGTGTTATAAGACATGTTGCATAGGAAACTACTTAAAACCCCTGAGGAAAAATTTCCATGGTTT
AAAGTGGTGGTTTTGTGTCTTCTTTGGGGAAAGAAGAGAGATGATCTCTGGGGAAAATGATGGCAAAGAGTCAAGAAGGAGAACTGAAGTTTCTTTCGTG
TGATGACTGGGAAATTGTGTGTCCCGGGGGAACACACACTTCTTACCAGGTGCTRTGTGGGGTAGTGGGTTGAGGGCAGGGGCAAGGAGGCATCCATCCT
TAAAGTGGGCACCATCTGGGCAGAGGACAGCAACACTGTCTGGAAGGCCAGGGATGGAGCTCGTGCCTTCCTCTTAGGGTGGTTGAGGATAGACCAGCAA
CAGATTCTGGGACTTTGGTGATGGGCCTCAAAGAGGACACAGTCATTCCCTTGCAGAAACCAGGGTCAAGAGGCAGGAAGTAGTATAGTACGTTTATGGA
ATCATGGATCGTCCAATTGGGTGGGAGCCGGAGTGCCTGCAGGGACATGAATGGTGCAGAGAAAGCTGGAAAGACAGGTTAGCATCAAAAGGAAGAACTG
GATGCCAAGTTACTATTGCCTCATTCCAAGGCAATTGGGATCTTTTGTCTGCAGAGACTATAAATTTTTGAGGCCTAGTATTGCATCTTTTCATCATAGT
GTACCTGGGGCTTCTACAACAATAGTACTCAGTATATCTTTGTTGAATATTTAAGAAAAAAGTCTACAGGCAGTTGGAGCCACTGGAATTTGTTGAGCAT
TGGTGTGATAGGATCAGAGCTGTGATCAGGGGTTGAGCTTGCCCAGTGGAATGTAGCGGGAGATACTGGACATAGGAAGAGGGGTTCTGAAGCTGCTGAA
ATGGCCCAGGTGAGAGTTATGGAGTCTGATTTACAGAGGACATGAAGATGAATGGGCTCATGCTCTGACAAAAGGGACTTCCCAGGATGACTGGCTTAGT
GAGTATTTCACCAGGGGGAGTGAGGGAACGTGAGGAGGCAGACTTCAGCAAGAAGGATGGCGGGCCCTTTAATAGAGAAATAGGAGCTGGTTTTGGGTGG
AASACTCTGAACTTAGTTGTGGAGTGCTGGGAAGAGAGCCAGGTGAAGTCCCAGCAGGCAGGAAGCCCCACGCGGCCCAACTACAGGGGTGGCCATTCAC
AGTGTATTTTCTGTGAGTGGCACCCCCTGGAGTTGTGCAGTCACAGCCTCACACTATTGGGAGGGGTCCCTCTGCAGGAAGGAAAGGAAGCACTGGAAAT
CAGAGAGGGGTCAGGCCTAGACATGGAGCTGCTGGAGTCTTCTGCACAGCTGTGGGTTTCTCRTCCTGCCCCCTCTCTTGTACTGCCATCCCGGGCTTGT
CTCTGCTGAGCTCCTCTCTCTAGCTGTCATCTTCTCTTCCTTCCAGTTCCCTGGCTGGTCCCAGGGCACAGAAGGCTCACTGATCATCGCCCTGGGGAAC
GAGGATGCCCTGGGAGAATACTCCTGCACCCCCTACAACAGTCTTGGTACCGCCGGGCCCTCTCCTGTGACCCGCGTGCTGCTCAAGGTTAGGCCGGGGG
TGGGCGGGGGCCTGTGGTGACAGTGGGTCAGATGGCTGGAGATGGTGCTAAGGCCAGGCTGATGGGGGTGGGGTGGGGCAGACACATGGGGAGGGGTTTC
CAAGTTTGTTTCCCATGGTGGCCACGGCAGCAGCTGCCTGATGCCATCCCAGAGGTTTCTGCAGAGGTGGTGCTCGGGAGGTGGGACATCAGTCACACAC
ATCCAGAAGTAAGATATCCTGTTTGCCCCAACTCTCACTAACCTTGACCGTGCTGCCTCCCTCTCTGGGGCTCTGGGAGGAAGAATGTTCTGCAGAGGTT
TGTACATCTCTGAGAGTCCTGCCTAAGCCTGCCAGCCCTTACTACACCACCATTTTCCTCCAGCCCCTACCCACTGGGGAACAGAAACAGAGCCAGAGAG
GAATTGAGAGATGGAGAGAGAATGAGGTAGAGACAGGCTTGGTGAGTGTTTAGCTAGGGGGAGTGAGGGAGAGTGAGGTGAGACATGGCATGACAGGGAG
CACAGAGAGAGGGAGTAGCCAGCCTTAGATGTAAGAGAGGGCCCCTCCCAATGCCAGATCTGGCTTGCAGGCTCCCCCAGCTTTTATAGAGCGGCCCAAG
GAAGAATATTTCCAAGAAGTAGGGCGGGAGCTGCTCATCCCCTGCTCCGCCCAAGGGGACCCTCCTCCTGTTGTCTCTTGGACCAAGGTAAGGCTCCTGA
GCCCGCTCTGCCTGTACCCACGCCCACTACACCCCTGCCTCTCGTGCCCCAGCCATTTTGTGGGAGGGAGGGTGTGGGAAGGAGAAGGCTGTCAGAGGCA
GGGTGGGGAGGAACTGGAGCTGCCTGGAGAGATGAGGGGCGCCTTTGGTGAGGGGTGGCTGCGTGTGTCCTCAGGGCTCACCAGTGGTTCTGTAGGTGGG
CCGGGGGCTGCAAGGCCAGGCCCAGGTGGACAGCAACAGCAGCCTCATCCTGCGACCATTGACCAAGGAGGCCCACGGGCACTGGGAATGCAGTGCCAGC
AATGCTGTGGCCCGAGTGGCCACCTCCACGAACGTCTACGTGCTGGGTTAGTGGCTGGAGAGAGGGCCAGGGGCTGGGAGAAACTACTTGGGAATCGTTT
TTGGAGGCCCAGAAAGAGGATCATGGGTGTGGGACCCCTGGGATGATGATGGGTGAAGGTCAGTGGCCCTGGGGCCCCTGCTACTCTGTACACTCCCTCA
GGCCCTGACCACCATCCCTCCATTCCCCCCTGCCTAGGCACTAGCCCTCATGTTGTCACCAATGTGTCCGTGGTGGCTTTGCCCAAGGGTGCCAATGTCT
CCTGGGAGCCTGGCTTTGATGGTGGTTATCTGCAGAGATTCAGTGTCTGGTACACCCCACTGTGAGTGACCTGCTCCTGCCATTTCTCTGTGCCAATCTT
GCCTCCTTTCCTCTCCTCCTTGAACCTATCTGGCCTTCTGCCCTTTCTTCTGTCCCTCTATCCCTCACCAGTCCTGGCTCTGCTTCCCTGTTTCCAGATT
CTGAGGCATTCAGGGCCAAGGTCCTGAGACCTTGGATGGTTGAGCAGAGGGGAGGTGGTTAGATCTCTGGACCCCAGATCTTCTGGTCTTCCTAGCTCAC
GAGGTGCCCCCCATGTCCTCATGTCTCCCAGGGCCAAGCGTCCTGACCGAATGCACCATGACTGGGTGTCCTTGGCAGTGCCTGTGGGGGCTGCTCACCT
CCTAGTGCCAGGGCTGCAGCCCCACACCCAGTACCAGTTCAGCGTGCTAGCTCAGAACAAGCTGGGGAGTGGTCCCTTCAGCGAAATCGTCTTGTCTGCT
CCGGAAGGTGAGAAGCTTCTCGTCCCAGAACAGCAGAGACAAGGATGGGGAAGGGCTGCTGGGAGAGCTGGGATATGGGAGGCCCTGGGTGGGAAGGGGC
AGAGGTGCTGGCCAGCTTGGGGTCCAGAGGGGTGTGTGGAAGATGATTTGAGCTTGTCTTCAGGGGTTCTGGGAGAAGAGTTGGGCACTGGGAGTTGTGG
AAGGCCAGGGGAGGGGCGCTGGGAATCCTTGCTCTGACCTGCCTTTCTGTCCCACGCAGGGCTTCCTACCACGCCAGCTGCACCCGGGCTTCCCCCAACA
GAGATACCGCCTCCCCTGTCCCCTCCGCGGGGTCTGGTGGCAGTGAGGACACCCCGGGGGGTACTCCTGCATTGGGATCCCCCAGAGCTGGTCCCTAAGA
GACTGGATGGCTACGTCTTGGAAGGCCGGCAAGGCTCCCAGGGCTGGGAGGTGCTGGACCCGGCTGTGGCAGGCACAGAAACAGAGCTGCTGGTGCCAGG
CCTCATCAAGGTATGTGCGAAAGGCGATACAGAGAGAGGCCTCCTAGGGGCTCTCCTGCGTCCTTCTCCATTCCCCAAACTCTATCTTCTCATCTTGATT
TGAGCTCTTCACCTCTGCGTCCTACCTCACCCTTCCGTCCCACGTGCACGGTCTTTCCGCGCCCCGCTGGGTTGGGCGGTGCTGGGCCCTGACCTCCCTC
CTGGTACCCCATCCCCATCGCAGGATGTTCTCTACGAGTTCCGCCTCGTGGCCTTCGCGGGCAGCTTCGTCAGCGACCCCAGCAACACGGCCAACGTCTC
CACTTCCGGTGAGCACCTGGCGTGAGGGAGGAGCCCCAGGGCTGCTCCGAGTCCACTGACCCTCCCTCGTGGACCCCTGCCTAGGTCTGGAGGTCTACCC
TTCGCGCACGCAGCTGCCGGGCCTCCTGCCTCAGCCCGTGCTGGCCGGCGTGGTGGGCGGAGTCTGCTTTYTGGGAGTGGCCGTCCTTGTGAGCATCCTG
GCCGGCTGCCTCCTGAACCSGCGCAGGGCTGCCCGCCGCCGCCGCAAGCGCCTCCGCCAAGGTAAGTCCCTCCACCCTCAGCCCTGCTACTGCGCACTTG
GGCCTAGCCTCCTTAAGCCCCTCCTACCTGGGGGAAAAGCCCTCGCTCCTGTGTGATCCAGGTGCATTCTCTTAGTCCTGCATCTGGTCCTGCCTACGCT
TTTCCCAGCCGGATGGGGTTGGGCGCCTGGTGTTGGGTGAGAGAGTCTCCGCCTAGAGGGCCTTGATTTTTGCCTGTGTCACCTACTATTCTYATGCCCT
TCCAGATCCACCTCTTATCTTCTCTCCGACCGGGAAGTCAGCTGCACCGTAAGTGCCTCCACCTCCTTGGCTTTCTTCTGCCTTTCCATTGTACGTGCCA
GTATCTTCTGCTTCCTTTTTTGCATCTTTACCAGGGGGATGTTGGGTGTTGGGGAGGAACAAAAGTGGGAGAGGGTAAGAAGGGGTGTGCAGTGGCCCCA
GCCTGAGGCCGTTCCAGTATGGCCTGTGCCTTCCCTCCACCCCTCCACCTTGTTGGTCCTTTCCTCGCTTGTTCTTCCTAGCTCTGCTCTGTTGTTCACC
AAACCTCTCAAGGCCTGACGCTGGCTCCTGGGAGGGGGACCTGCCCCTACCACAGACCCTGATCTCCTGTCCTTCCCCAGCTCTGCTCTGGGCTCAGGCA
GTCCTGACAGCGTGGCGAAGCTGAAGCTCCAGGGATCCCCAGTCCCCAGCCTGCGCCAGAGTCTGCTCTGGGGGGATCCTGCCGGAACTCCCAGCCCCCA
CCCGGATCCTCCATCTAGCCGGGGACCCTTACCTCTGGAGCCCATTTGCCGGGGCCCAGACGGGCGCTTTGTKATGGGGCCCACTGTGGCGGCCCCCCAG
GAAAGGTCAGGCCGGGAGCAGGCAGAACCTCGGACTCCAGCCCAGCGTCTGGCCCGGTCCTTTGACTGTAGCAGCAGCAGCCCCAGTGGGGCACCYCAGC
CCCTCTGCATTGAAGACATCAGCCCTGTGGCACCCCCTCCAGCAGCCCCACYCAGTCCCTTGCCAGGTCCTGGACCCCTGCTCCAGTACCTGAGCCTGCC
CTTCTTCCGAGAGATGAATGTGGATGGGGACTGGCCCCCGCTTGAGGAGCCCAGCCCTGYTGCACCCCCAGATTACATGGATACCCGGCGCTGTCCCACC
TCATCTTTCCTTCGTTCTCCAGAAACCCCTCCTGTATCCCCCAGGGAATCACTTCCTGGGGCTGTGGTAGGGGCTGGGGCCACTGCAGAGCCCCCTTACA
CAGCCCTGGCTGACTGGACACTGAGGGAGCGGCTGCTGCCAGGCCTTCTCCCTGCTGCCCCTCGAGGCAGCCTCACCAGCCAGAGCAGBGGGCGAGGCAG
CGCTTCGTTCCTGCGGCCCCCCTCCACAGCCCCCTCTGCAGGAGGCAGCTACCTCAGCCCTGCTCCAGGAGACACCAGCAGCTGGGCCAGTGGCCCTGAG
AGATGGCCCCGAAGGGAGCATGTGGTGACAGTCAGCAAGAGGTGAGAGCAGTCCCTGCCCATCCCTGCCTCCGCCTCAGTCCCACCCCAGACCTCTCACC
CCTCTCCCAATACCCTGCACCTTCTCTGCTCCACTCCCACCCTGGGAACGGGAAAACTTGTCCCTTTTAGAAGCTTTTGCTGAGGTCCAGGGATTTTTCA
GGGGAAACCCATGACCTAACGTGAGTTTGCGGTCGCTGAATTCAGACTTTTCTGAACAGCCTCTATTCCTCCACCCACACCATATGTTTGTCTTTTTTTT
TTTTTACAGGAGGAACACATCTGTGGACGAGAACTATGAGTGGGACTCAGAATTCCCTGGGGACATGGAATTGCTGGAGACTTTGCACCTGGGCTTGGCC
AGCTCCCGGCTCAGACCTGAAGCTGAGMCAGAGCTAGGTGTGTGAGCCCCCCGGAAAGGCAGGCATCTCGGCCATACTGTCCCACATCCCCCCGCCACCT
TAGGACCCATCTATTCCCAGTCAGGCCCTGCCTCCCAGGCTCCTCTGCTCTAGACTGTGCCTTGCCCCCTTGGGCCATCTGTACTGGAAGGGCCTAGCRA
GCTTCACATCTGAGCTCTTCACTCAGTGAACCTCAGGGCTTCTTCTCATTGTCCTGCCYRCCTCTTGCAGGTGTGAAGACTCCAGAGGAGGGCTGCCTCC
TGAACACTGCCCATGTTACTGGCCCTGAGGCCCGCTGTGCTGCCCTTCGGGAGGAATTCCTGGCCTTCCGCCGCCGCCGAGATGCTACTAGGGCTCGGCT
ACCAGCCTATCGACAGCCAGTCCCCCACCCCGAACAGGCCACTCTGCTGTGAACRTCCCTRATGTGAGGCTGTGAAAAGGCATATGGACCTGCAAAGGAG
GCCCCCAACCAGACAGACCTAGTTTCAAACGAGGGCACTGCCCCTGCCTGCCCCTTTGGTGCCCAGGCACAGACCCTGATAGTGGGTTTGGGTCACCTTG
GTATGGAATGTATGTGCTGACCCCCTAGGTGAGTCTGGGGATTGGAACAGGGATCTTAGGTCTGCCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTS
TGTGTGTGTGTGTGTGTGTGAAGTTTTTTACAGGTGAATAAACAAAGTTTGAAAGATGTTTCTGTGTGTTATCTGTCTTTGAGAGAGTGCCAGGAAAATC
CCTGGACCCTTAAAGAAGAGGAGAATCTTCTTGAATAAATGGAGGTGCATTCAGCATTCATTCAAGAAACATTTATTGAGTGCTTACGGAGGCCAGCTAC
TAAAGGCCAGCCACTGAAGTAGATACTGAGAAAATACAAAGCTCTGGAAGCACGCCTTTGCCCTTGAGGAGTTCTTTCTAGTCAGTGAGGCGGACAAAGA
AATAGTTACCGTATGATAAGTTCCGTGATAAAGCTATGTGTTGGTTATTGTAGCACAAAGGAAGATGTTGCATTCAAGGCCACCTTTAGTGAACGCTAAT
ATCGTGTGCTGGGACAAATGCCACATATTGGGGGGGAGTCCTCAGGACCCTCACAGATAGATGGTGGTAATAATAGTATTCACTATGTGCCAGGCACTGC
TCTAAGCCCTATAGGTGGACTGTTTAGTTCTCTACAATTCTATGAATTAGGTAGTACTATTAGCTCTGTTCTATAGACCAGGGAACTCAAGCACAGAATG
CACAACAGTCACACAGCAGGTAAAGGGTAGAGCAGGTGGGGAGCCAGTCAAGGAAGGGAAACTGTCCTAGGCAGAGGAATAGCCTTTGTAAAGGCACAGA
AGAGTGAGAATGCTTGACAATCAGTGGGACTGGAATATAGGGCTGTGTAGGACTCGGGGAGGGAACAGAGAATAATAGAAAGGTTGGACAGGACTGGATA
TTGACATCCTGGAATCTCAGGTTCAAGGGAGGACTCTATCATGTGTGCAGAACTCCACCCCGGGGGACTCTATTCAACTGAAGCCTGAAAGGATGGGGGG
CTCTTTCTTCACCCCTGAACTGTGCTGTCCTCCACCCTCAGAGACAAAAGAACCCCAGCCAGCCTCCTCGCGCTGAGGTCTCCCCCTCTGATCCCTCCAG
GATTTAGGAAGAGATACCAGGTCATAGAAAAGGAGATGAAAGGCAGGGAGAAGACAGGTCTGAGCCCTGGGTCCCAACACCGAAAACACCCCTAGGGCCC
TGGGCAGAGTGACCTCACTGTTAGTCCCTGCCCAGGCTTGAAGTAAGAGGTGAGCAAGATCACGTGGGGGTGCTGTCCCGGCCTGCAAGTCCCAGTCCTG
TCACACACTAGTCAGTTGGGGTCGGGGGAAGGCCTTCCTGTGCCTCCTTTTACCTTGCCAGCCTCTAAACTAGGAGGCTTCTTCCTACATAAACACGCCC
ACAGTGTTTAGCTAACTTTCTAGGCAGAAAGTTTCCTACTGGGGCACAAGTCTACGGGCTCTCGGTGGAGGCTGAGGTACTCACGGGTGGAGACCACTGC
AGCCGCCTTTGTAGATTCAGACTCCCCGAACCTTTAACCCTTGCTCTGGTCTACTGTCCCTCTGTCTCAAGCAGTCCTCCCTCCTTCTGCGCTGCGGCGC
CTTTAAACCTTCTTGGCCCTTGCCCCGCCCCGGGTCCGCCCCGTCTGAGGCGGGACCCTCCTGAAAATCCCCGGCTGGGCAGGGCGCACCACTTGCAGCT
GCAGCCCTTGCCTTGAGTCAGTGCGCCGCTCTCCAGCCCGCTTGAACGGTGAGCAGGTCGGGGGTACGGGGGTCGGGGACATGTGCGTGCTGTGTAGAAA
GCAAGAAGCCAGCGCTTTGAACTTGCTCCAGCGAGCTCGGGGATCAAGGGCTGGTACCAGGCAAGGGTCCGGTGACTACTTTACCCCGCCCCGTGCTGTC
AGGTCCTGTCCCCAAGCCCTGACCCGACATTGTTGGACGATGAGGTCAGGCGAGGTTAGCCCATGCATAGACAGGGCGTCCGTCTGGAGCAGGGACTCAG
GGACTGAGCCCCACCCGCGGGCTCCATCKCTGAGTCCTCACTGGGGCGAGGGGAAAAAAGGGCGTCGGACTTTAGCTGGCTGGCCCCGAGTGACCCCGGG
TCGTGGCGCCGGCCCTGGGCCAGCTCGTGCTCCTGGGCTTTYCCGCGCGACCCTTCACTTCCTGGTTCCAGGAGCACGTGTGAGCACTGCGTGCCCTCTG
AGTCCCCGAGGCCGCCCTTTTCATTCCTGTTCCTGCTAGCTTGCTATTCTGGGGACTTGAGGTCACGGGCTGGGGCTAGGGGGCTCTGCATGGGTCGCAC
GGTGACCTTCTGTGAAGCTCCAGTCATCTCTATGACGGTCCCCTGACCTCGGGGGTCTGGGTGCTGCAGCCCTGACTGCGCCCCGGGGTGCCCTGTGTGA
GGTTGTGGGGGTGGTGGTGGCTGCTTTTACCCTGCCCGAGCGCCGCTGCCCCCACCGGGTGCCCCCTGCTGCTGGGAAAGCCGGTGGTGGCCGCGGGCGG
ACGGGCGGGCTGCCCAGACCACTGCGTCACCCCAGCGGCGGGAGGGCGGTGGGTGACTCATCTGTTGTAACGGCCCAGGGTGTGGTCGTGGGGGTGGGGG
GCGGCGGCTGGGAGGCCGGACCTGCAGGACCGGAGGTGGACTGCCGCCTCCCCCCGCGCCCTGTGCCTCCTGGGGCTACCTGAAGCCGGTGTCCTGGGAG
ATCTGTGAGCAGTTGGTATCTGTGGGGCAGAGAGAAACGGGGTGAGAGTGGGGATGGAGTGTGGGATTCGATGTAGAAGACCTGCGGCTGGGACGGGGCT
CCCCCAGTGTTCTCATTGACTTCAAAGCACCAGACAGCAATAGCTCTCTATCTCTAGCCCCCTCCCAGTTTCTCCTCCCCACTACAAGGGGCAGACCTAC
AACTGCAGAGGAGGCCAAGGCAGGGCGGGCCCAGTAGGGCCCTACCATTCCAGAACCAACAAATAGGTTTTGTCCAACCGCAACTCCCTCCCTCACCCCA
AGGCCTCTGCCCCTGTCCCCCACCCCGGGATTGGCCCCTAATCCTTTCTTCATTCCATCCCTTCTCCCTCCAGAATTTTCAGCTGTGGGTTCTCTAGCTC
AGAACACTTTCCCTTCCCAGGGGATTTCTTCTCCTGAACAACTACTTCCTGAGTCCTCTTCTTCACCCCAACACGGGTCATTTCCTATCTTCCCCCACAC
GCTGTCCATCCCCACTATAGCTGTCTCCTGGAATAATCTCTTGCACCTGGCTACACCCGAGCACTGCTGAGACGATCCCACTTCTGCTCCCGTGCTCACA
GCCTGCTCACCACAACGTCTGTGTTGACAGGGTGTTTCTGCCCGGAGCCCCCACCCAGCCTCCAACACTGTTTGGTACACAGAAGCCATGGCAACRGCCC
CCACCTCATCCCCTCCTCCCACGCAAGCTTTGGAGCTTCCTGTTTGTGTAGCCTCAGCTTTCTCTTCTGCTCCTGACTCTCGGTGGTGAGGGGCTGCCCT
ACGGTGGTTCCCTTAATTGTGGGCCGCCCCCCATCCTTGCTGCTGGCTGTGGCACCTCGCTCTGTGGGCTGGTGCCCTCACTGTGCTGCTCTTTGAGAAC
ACTCCCTGTCCCAAATCTGAGTTGGGAAGTTCTCCTGTGTTCCATCTGCACGGTGGATGGAGAGTCCCTTTGTCTTCCCAATTAAACACCCTAGCCAAGA
ACCCTGAAGTCCTCCCTGCCCCCACCCATGTCCGCCTTTTCTTTGGCTTTGGCTTTGGTGAGGTAAGCTTCCAGCCCAGGGTCTGGGTGGGGCCGAGTGC
CTTGCGTGGCCCCTCCCCGTTTCCCGCCTATTGTAACTCCAGGGTGAGGGTGAGGGTTGTTCTCACAGCTGCAGTAGCGCTAGGGTTTAGGTTGCTCCCT
GCCAGTCCATCCCCCAGGTTGTTCAGCTGTCACCTTCCTTTGGGGTCCCCAGCTCTGGGGGTCCCCCACACCTGTCTTCCAGCTGGGCATATCTCTTCTC
ACCCTGGTAGGCAACTTGCTTACTGTTTTCTTTATGTTTGAGGGAAGGCAGGGGCAGGTCCCCTGGGTGTCCCTAGGGTGGGCCTTCCCAGCTCCAGCAG
CCRCAGCCCATSAGCTTCTGCCTGCCCGTGGGGGTGGGGAAGAGAAACAGCTGCTGACCAGGCCTGGCCTGGTTGGAACTGCCCCTTCTCAGGACCCCGC
CCTATGGYTCTGGCACCTCAGAGCTTGAGGGCAATGGCCCCAGAGTGGAGCAGATACASTGCAGCTGGAGGCCGTGACCCTGCCAGCTGTGTCCAGGCCC
CAGCGTTGGGCGGTGGAGGGGGTTCCTCAGCATCCACTTTCCACCCAGTGGTGGGTCTGGGAGGCCAAGTTTGTCCTGCCTTGGGGGGTTGGGGGGCACT
GGAAGTGTCTGGCTTCAGGCCTTTCTCTCTGCTCTTAACCCCAGTGTCTAGGTTAATCATTCTCCTGCCCTTTCTTTACCTGTGCCATGGTGATCCCCGA
GCCTCAGGCCACTTGGTCCCTGGAAACAGCCCTGAGCACAGCCACTCCCAGGAGAGAGGTCTGGAACTGGGCTGCGGAAAGGGGGCTTACTGGTGGTAGT
AGCTCTTAGCCCCTTCCTCTTCCTACCTGTCTTCCAGCCATTCCCCTGTGCATCAGAGGTTAGAGGTTTCTATGGTGGAGTGGCCTCTGGGAAGGGCAGG
GATGCTTCTCTTGGTTTCTCCTCAGAACTCAGCCACCCCACCCCGCCTGCCTTCCCCAAGCTGATGGTGTGTGTGCCTGGCGCTGTGGGTCGGGGCCCAG
ACTGACATTTATCTGGCCCAGCTTTCGGGCTGGGGGAAGTGGAGGGGGCGGGTTGCTCTTAATGAGGTTTAAAAATAACTGATTTAGGGGAGGATCTGCY
GGAAATGTGCAGCTTGATAAGCTGGGGTAAAAAGGAGCAGCCATGTTGGAGTCGGGACGGGAGGGACTGGCCCAAGACACAGCCTCTGCGGCCGAGAGGT
GTTGAGGGTTTGAGGCAGGCTGGTCCCCTTGTATTTCGCAGAGCCCCAAGGTCCATTGAGAGGGGGTGACRGGATTGTTTAACCTGGGTGTGTGGGAGAG
GGGGAGCTGGAGTGACTTCATCCCTGAAGGCCAACCTGGCCTGGAGCCAGATGTGGTTAGAAGGGGTGGCTCTCTTTCTTCCCCTTGAACGCAGATGCCT
GTCCTGGGGGTCCCCTTTCGTGAGCAGCCTGACAGCTAGCTCTGTTTTGGAGAAGAGAGAAAAGCCAAACCAGGGTGGGGATGGGACAGAAAATGGGGAC
TGTGGCCCATTCTTGGTTCTTGGCTCCCCTTGGCATCCATACCATGCCCGGGTCTTGCTCAGCCCCTGAGTGTCAGACCCAGGTGGTGAGTGTGGTGGGA
ACACACTGCCACAGTGAGGTCCGCCAACTCAGGCCATTGGTCGGGAAACCACCCAGTTCTTGCTAATCAAGCTCCTCCAACGAAGTTAAAGAAACCCTCC
TGTGTATTTCCCCGTCTTGCCTTCTCTTCTCCAGGTTTCCCCAAAAATATCACCCAGGGCTCCTGTATTAGTTTCCTATTTCTGCTGTAACAAATTGCTA
CAAGCTTAGTGATTTAAAGCAACACAAATACAGCATCTTACAGTTCTACAGACTCAACAGGGGTCTCACTGGCTAAAATACAGGTGTTGGCAGAGCTGTG
TTCCTTCTGGGGGTTTTTGGGTGAATCTATTTCCTTCCCTTTTCTGGCTTCTGGAGGCCACCTGCATTGCTTGGTTCATGGCCCTGTGTGACTCTGACTT
CTACTTCCATTTTGTTGTTGTTGTTGTTACTTCTCCCACTCTGACTCACCTATCTCCCACTTTCAGTTAGTAAGGCCCTTGTGATTACACTGGGCTCATT
TAGATGATGCAGGATAATCTCCCCATTTCGAGATCTTAATCACATCTACGAAGTCCCTTTTTGTCATATAAGATAACAATATCCACAGGTTCTGGGAATT
AGGACATGGACACCTTTTGCGGGGGCATGATTCTGCCTGTCATAGCTCCTAGAGGGGAAAGTAGAATTTGTTTTTATTGCCTGGTTTTTCATAGGAAATT
CGATTTGTTTGCTGAAATCCCTCAAGGACCTATTCAAGCCTACCTCTTCCAGAAAGCCT


SNP Information

Context             (SEQ ID NO:51587):
TTGCCAGGTCCTGGACCCCTGCTCCAGTACCTGAGCCTGCCCTTCTTCCGAGAGATGAATGTGGATGGGGACTGGCCCCCGCTTGAGGAGCCCAGCCCTG
Y
TGCACCCCCAGATTACATGGATACCCGGCGCTGTCCCACCTCATCTTTCCTTCGTTCTCCAGAAACCCCTCCTGTATCCCCCAGGGAATCACTTCCTGGG
Celera SNP ID:            hCV27472980
SNP Position Genomic:     23060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51588):
CTGGGGGGCAGGTGGTGGAGAAGGACGGGGAGGAGGAGGATGGGGATCTCTGGCTGGTGGGAGAAAGGGGAAGAGGGAGTTCTATTTCCATCCCACAAAC
R
GCTCTGATGCCCCACCCTTCCTGAGAGCCCTTGTTTGCTCACTTAGTAGTTGCATCTCACCCCTCCCCCACACTCCTGCCCTTTTCAGTTCTTCAAATAT
Celera SNP ID:            hCV360263
SNP Position Genomic:     14022
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,6)   caucasian(A,8)   total(A,16|G,6)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51589):
CTAATGGTGGGGTTTCTTCTGGGCTCCAGTATTGGCCAACTCTGCATGTTGCCTTGTACTTTTCATTTAGATCTGGTGGTTCTCCGGAGAGCAGCTTCCT
Y
GGGTGTTACATGAGCCAAGCCCTCACTGTACAGAAGAGTGAGAGCTGAAACCTGTTCCCTGAGCTGATCAGAAGGACATCCCTTGGCCCCTCCATCTGGG
Celera SNP ID:            hCV7478790
SNP Position Genomic:     8001
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,8)   caucasian(C,18|T,20)   total(C,36|T,28)
SNP Type:                 UTR 5;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;JBIC-allele(C,168|T,1317)   total(C,168|T,1317)   (T,-|C,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:51590):
TCCTGGACCAGCACATCCCTGAAGACGATTTTGCTAACGGCTCCTGGGTGCATCTGACAGTCAATTGTATGAAGCTGGGGGGCAGGTGGTGGAGAAGGAC
R
GGGAGGAGGAGGATGGGGATCTCTGGCTGGTGGGAGAAAGGGGAAGAGGGAGTTCTATTTCCATCCCACAAACAGCTCTGATGCCCCACCCTTCCTGAGA
Celera SNP ID:            hCV360264
SNP Position Genomic:     13948
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,2|G,36)   total(A,4|G,70)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51591):
TTCTGTAACTGCTTTTTCTACATCTCATCATGAAACCTCCCAGACTTCATCCTGATCTGTAGTCTCCCCTCTTGGCCCTGCCTTGGTCCTGGCTCTACTA
Y
CTGCTCACTCCTCTGCCCTCTCCCCCTTCCTCATCGTCTTAAATGCTAGTTCAGGGGTTCAAGTCTTCTAGGGAGTGGGCTGATGGGGCAGCAGGGTAGG
Celera SNP ID:            hCV7478791
SNP Position Genomic:     9043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51592):
CAGTCGAGCTGGACTCATGCCTAGGTCTATCTGGCTCCCAAGTGTGTGCTTGTATCACGAGGCTACACTGCCAGGGACCCATGAAGCTGTCTGGGGTGCA
Y
AGTTGCATCCAGGGAGGGTGCTGAGGGCTTGGGTAGGCACCCTCGGTCTGAGCCTGGCAGTGTGGTGTGGATGCTGACTAAGAGTGGGATTGAGGTGTCT
Celera SNP ID:            hCV360265
SNP Position Genomic:     12996
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51593):
AGTGCAATGTCTGGGCGCAGTTAGCACCATTTTTTGAACTTCTTTGTGGATGTGTGGACGTGAACTTGCCCATTTAGGTGACTGTGGGTTCCCTGCCTTC
Y
GAGAGCTTAAGAGAGCAGAGACTGTGTCTCCTGTTTTCTTCACACGCCGCTGCATATGGGAAGATCTGAAGTCAACAGGCTTTAGCCCTGCAGGTGGAGG
Celera SNP ID:            hCV360266
SNP Position Genomic:     11052
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51594):
AAGCACAGGTGTACAGAGAGGGTGGCTGGGGAGGGCCCAGGATCCCCAAAGGTCAGTGACTGGATGGGGCTGGCCTGGGTTGCTGCTTTAGGTGGCACCT
R
TTGGGACTTAAAATCGTGTGTAGCCTCCCTGGGCGCCTTCTGCTGCACCCCAGCTGGCTCCCTAGAATGGCTACAATGGCTCTGCTTCCTCCTAATCCCG
Celera SNP ID:            hCV360267
SNP Position Genomic:     9299
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51595):
CCCCCTCCCAGCACTGACCCTAGCCCCCCGTTGTGCCCTCATGCCACCCATCATGCAGGTCGAGGGAAGCCTGAGGTGGTATCGGTGGTGGGCCGGGCTG
R
GGAGAGTGTGGTGCTGGGCTGTGACCTGCTGCCCCCGGCCGGCCGGCCCCCCCTGCATGTCATCGAGTGGCTGCGCTTTGGATTCCTGCTTCCCATCTTC
Celera SNP ID:            hCV360268
SNP Position Genomic:     8490
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,3|G,33)   total(A,5|G,67)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,18)   caucasian(A,1|G,3)   total(A,1|G,21)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51596):
GGCTGTGACCTGTGGCTGAATTGGTTCACAGCAAGATAGGAGGGAGATTTGTGCCTGAGGGCAGGGCCCGTGGAAGCTAAGGGGGTTCCCAATGCAGGCT
R
TTGCTCTGAAACCAGCACCTTAATTTTAAAAGGCTCAGTAAGCAGACAAAGCGATCTTAGTGCCCAGTAGTGTGTTATAGTGGAAAGGACATGGGTGCTT
Celera SNP ID:            hCV25760615
SNP Position Genomic:     15348
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:51597):
CCAGCCTCCCCCATTTCCTCACCTTTCTAGTATCTGCATTCAGCACTCACCATTCTCCCAGTACTCCTACCCCTGCTCTTACTCCCCAGGGCTTCAAGAT
C
CCCCCCTTCCCCCTACCCCTCACTTAACTACACTCCTCCCTCCTTTCTCTTCCCAGTGCCTTTCTCTAATGGTGGGGTTTCTTCTGGGCTCCAGTATTGG
Celera SNP ID:            hCV26627219
SNP Position Genomic:     7835
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51598):
CTACATCTCATCATGAAACCTCCCAGACTTCATCCTGATCTGTAGTCTCCCCTCTTGGCCCTGCCTTGGTCCTGGCTCTACTATCTGCTCACTCCTCTGC
S
CTCTCCCCCTTCCTCATCGTCTTAAATGCTAGTTCAGGGGTTCAAGTCTTCTAGGGAGTGGGCTGATGGGGCAGCAGGGTAGGTGCGGCTGTGACCTCTC
Celera SNP ID:            hCV7478796
SNP Position Genomic:     9060
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51599):
TTAAATGCTAGTTCAGGGGTTCAAGTCTTCTAGGGAGTGGGCTGATGGGGCAGCAGGGTAGGTGCGGCTGTGACCTCTCTGCTTTTCCAGGGACACTCAG
Y
CTGCTTCTGAGTAGAGAAGCACAGGTGTACAGAGAGGGTGGCTGGGGAGGGCCCAGGATCCCCAAAGGTCAGTGACTGGATGGGGCTGGCCTGGGTTGCT
Celera SNP ID:            hCV7478797
SNP Position Genomic:     9182
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51600):
GCAGCTCTGGGGTCTACACCTGCCAAGCCTCCAGCACTGAGGGCAGCGCCACCCACGCCACCCAGCTGCTAGTGCTAGGTGCTCTCTGGCGGGAGGGCTG
S
GGTCCAGGGTTACCTATGCAAGGGGGCTGTGACCTGTGGCTGAATTGGTTCACAGCAAGATAGGAGGGAGATTTGTGCCTGAGGGCAGGGCCCGTGGAAG
Celera SNP ID:            hCV7478798
SNP Position Genomic:     15223
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,14)      total(G,14|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51601):
CTTAGGACCCATCTATTCCCAGTCAGGCCCTGCCTCCCAGGCTCCTCTGCTCTAGACTGTGCCTTGCCCCCTTGGGCCATCTGTACTGGAAGGGCCTAGC
R
AGCTTCACATCTGAGCTCTTCACTCAGTGAACCTCAGGGCTTCTTCTCATTGTCCTGCCCGCCTCTTGCAGGTGTGAAGACTCCAGAGGAGGGCTGCCTC
Celera SNP ID:            hCV11625313
SNP Position Genomic:     23999
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,16)   caucasian(G,18)   total(A,2|G,34)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,12)   caucasian(A,1|G,1)   total(A,9|G,13)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51602):
CGAGAACTATGAGTGGGACTCAGAATTCCCTGGGGACATGGAATTGCTGGAGACTTTGCACCTGGGCTTGGCCAGCTCCCGGCTCAGACCTGAAGCTGAG
M
CAGAGCTAGGTGTGTGAGCCCCCCGGAAAGGCAGGCATCTCGGCCATACTGTCCCACATCCCCCCGCCACCTTAGGACCCATCTATTCCCAGTCAGGCCC
Celera SNP ID:            hCV7479431
SNP Position Genomic:     23828
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,6)      total(A,1|C,6) ;JBIC-allele(A,308|C,1175)   total(C,1175|A,308)no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51603):
AGCCCCCTTACACAGCCCTGGCTGACTGGACACTGAGGGAGCGGCTGCTGCCAGGCCTTCTCCCTGCTGCCCCTCGAGGCAGCCTCACCAGCCAGAGCAG
B
GGGCGAGGCAGCGCTTCGTTCCTGCGGCCCCCCTCCACAGCCCCCTCTGCAGGAGGCAGCTACCTCAGCCCTGCTCCAGGAGACACCAGCAGCTGGGCCA
Celera SNP ID:            hCV25623360
SNP Position Genomic:     23289
SNP Source:               Applera
Population(Allele,Count): african american(C,11|G,2|T,15)   caucasian(C,2|T,8)   total(C,13|G,2|T,23)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,5)   caucasian(C,3|T,3)   total(C,10|T,8)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,404|C,1093)   total(C,1093|T,404) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51604):
TGGCCTTCCGCCGCCGCCGAGATGCTACTAGGGCTCGGCTACCAGCCTATCGACAGCCAGTCCCCCACCCCGAACAGGCCACTCTGCTGTGAACATCCCT
R
ATGTGAGGCTGTGAAAAGGCATATGGACCTGCAAAGGAGGCCCCCAACCAGACAGACCTAGTTTCAAACGAGGGCACTGCCCCTGCCTGCCCCTTTGGTG
Celera SNP ID:            hCV7479432
SNP Position Genomic:     24261
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,8)   caucasian(A,17|G,21)   total(A,39|G,29)
SNP Type:                 UTR 3

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:51605):
ATTGTTGGACGATGAGGTCAGGCGAGGTTAGCCCATGCATAGACAGGGCGTCCGTCTGGAGCAGGGACTCAGGGACTGAGCCCCACCCGCGGGCTCCATC
K
CTGAGTCCTCACTGGGGCGAGGGGAAAAAAGGGCGTCGGACTTTAGCTGGCTGGCCCCGAGTGACCCCGGGTCGTGGCGCCGGCCCTGGGCCAGCTCGTG
Celera SNP ID:            hCV7479433
SNP Position Genomic:     26429
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,8)      total(G,8|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51606):
CCCGCCCGCCTCGCCGTGCCTCTGGCGGCTCCAATTGGCCGCCGCGGGAGGGGGATTGGCGGTCTCCAGGGCGACGGGAGGCGCTCGGGGCATCCGAGGC
K
GGGAGGCGGGTCCGCCCCCTATTGTGTAGCGGCGAGAGTGGAGCCGAGCGGTGCGGAGCAGGTGAGGGAGGGGGCGTACTGGAGGTATAGAAGTGGTGGT
Celera SNP ID:            hCV27852227
SNP Position Genomic:     5965
SNP Source:               Applera
Population(Allele,Count): african american(G,16|T,6)   caucasian(G,12|T,28)   total(G,28|T,34)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:51607):
GATTTGGGAGCTCGCCAATGCAGACAGGTATTTCCAGTCCTGCTAGAGAAGCAATGGGTGGAGGTAGAAATGGGGATGGGGGAGGAGATCGGATGAGCCC
S
GGACCTGGGTGGATCCCCTGGGAGGAGGGCGGGGAGTCATGCTCCCCGCCTGGTTCTCCTACCCCCAGGCTCAGATTTCAACCCTCGCTGCCGCCTCTGT
Celera SNP ID:            hCV27832641
SNP Position Genomic:     5506
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,31)   caucasian(G,38)   total(C,3|G,69)
SNP Type:                 hmCS


Context             (SEQ ID NO:51608):
TCACAGCCTGCTCACCACAACGTCTGTGTTGACAGGGTGTTTCTGCCCGGAGCCCCCACCCAGCCTCCAACACTGTTTGGTACACAGAAGCCATGGCAAC
R
GCCCCCACCTCATCCCCTCCTCCCACGCAAGCTTTGGAGCTTCCTGTTTGTGTAGCCTCAGCTTTCTCTTCTGCTCCTGACTCTCGGTGGTGAGGGGCTG
Celera SNP ID:            hCV101510
SNP Position Genomic:     27796
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51609):
ACTGTGGGCTGAGGCCACCTTCCTCCCCTTGTGCATCCCACAGGACCCCCAGTCATCGTGGTGCCCCCCAAGAACAGCACAGTCAATGCCTCCCAGGATG
Y
TTCATTGGCCTGCCATGCTGAGGCATACCCTGCTAACCTCACCTACAGCTGGTTCCAGGACAACATCAATGTCTTCCACATTAGGTGGGGTCACCCTCAT
Celera SNP ID:            hCV25623380
SNP Position Genomic:     16834
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,34)   total(C,1|T,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51610):
ACCTTCCTCCCCTTGTGCATCCCACAGGACCCCCAGTCATCGTGGTGCCCCCCAAGAACAGCACAGTCAATGCCTCCCAGGATGTTTCATTGGCCTGCCA
Y
GCTGAGGCATACCCTGCTAACCTCACCTACAGCTGGTTCCAGGACAACATCAATGTCTTCCACATTAGGTGGGGTCACCCTCATTAGGAAGGTGGAGGTG
Celera SNP ID:            hCV25623381
SNP Position Genomic:     16850
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,22)   caucasian(T,34)   total(C,12|T,56)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51611):
CCTACGCTTTTCCCAGCCGGATGGGGTTGGGCGCCTGGTGTTGGGTGAGAGAGTCTCCGCCTAGAGGGCCTTGATTTTTGCCTGTGTCACCTACTATTCT
Y
ATGCCCTTCCAGATCCACCTCTTATCTTCTCTCCGACCGGGAAGTCAGCTGCACCGTAAGTGCCTCCACCTCCTTGGCTTTCTTCTGCCTTTCCATTGTA
Celera SNP ID:            hCV25623348
SNP Position Genomic:     22193
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:51612):
CAGGCCTGGCCTGGTTGGAACTGCCCCTTCTCAGGACCCCGCCCTATGGCTCTGGCACCTCAGAGCTTGAGGGCAATGGCCCCAGAGTGGAGCAGATACA
S
TGCAGCTGGAGGCCGTGACCCTGCCAGCTGTGTCCAGGCCCCAGCGTTGGGCGGTGGAGGGGGTTCCTCAGCATCCACTTTCCACCCAGTGGTGGGTCTG
Celera SNP ID:            hCV27854150
SNP Position Genomic:     28659
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,38)   total(C,73|G,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51613):
CACATTGCAGCCGCCTGCAGCCCCGGGTGCGGATCCTGGTGGACGGGAGCCTGCGGCTGCTGGCCACCCAGCCTGATGATGCCGGCTGCTACACCTGTGT
R
CCCAGCAATGGCCTCCTGCATCCACCCTCAGCCTCTGCCTACCTCACTGTGCTCTGTAAGCCTGACCCCAGCTTCTCCCTCAGCCTGCTCCCTTCCCCTG
Celera SNP ID:            hCV25623382
SNP Position Genomic:     17119
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51614):
AGGGCCCTTATTTGTCACAGAGGGGTGAAGGCGACAGCACTGGTTCCATCTTGCTGCTATACCTTGTGAGCATCAAGAGTAAGGAAAGAAGCGAGAGCAG
S
CTAGGCCATGAGAGTCTTGATCTACCATACTTCCTTCAAAAATATTTTTCCAAGCATATGAGGAACCCCAGTTCTCTTCTGGCTTAGTTTTTCAAGACCC
Celera SNP ID:            hCV27922637
SNP Position Genomic:     7577
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51615):
CAGCCTGATGATGCCGGCTGCTACACCTGTGTGCCCAGCAATGGCCTCCTGCATCCACCCTCAGCCTCTGCCTACCTCACTGTGCTCTGTAAGCCTGACC
Y
CAGCTTCTCCCTCAGCCTGCTCCCTTCCCCTGGGCCAGGCCAAGCCCCTCTCCCCCAACTTGCCACTACTTTCCCCCAGACCCAGCCCAGGTGACAGCTA
Celera SNP ID:            hCV25623383
SNP Position Genomic:     17187
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,39|T,1)   total(C,76|T,2)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51616):
GCAGAGGTCAAGGTGGGGATGAGCAATGTGATGTAGAGGGGAGGAGGCTGGAGGCAGGGAGACTGGCAAGTAGGCTGTTGGAGAAACCCAGGTGAGACAT
R
CCACAGGTGTAAAGGTGAGGACAGCAGAGAAGGGGAAATGTTTAGGAGGTAGGATTTGAAAAACCTAATGAGCAAGTAGATATGGGAGGTAATCGAGGAA
Celera SNP ID:            hCV26627220
SNP Position Genomic:     12483
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51617):
GGCTGCTGATAATAGCCCTGAGGGATTAGGGGCTTTGGCAGGCGGGGTCTGGGTTCCCCCTGCTAGGGCCTCAAACACTGCTGAGGTTTTCAGGGAAACA
R
TCCTCTATCAGGAGTACTCCCAGGAGCTCACACCTTCCCCTACATAAAGAGCCCAGAGGTGGACAGATCCTGTAAGAGTCCAGAGGAGACTACATGCTGG
Celera SNP ID:            hCV26627221
SNP Position Genomic:     13344
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51618):
GGGGTCCCTCTGCAGGAAGGAAAGGAAGCACTGGAAATCAGAGAGGGGTCAGGCCTAGACATGGAGCTGCTGGAGTCTTCTGCACAGCTGTGGGTTTCTC
R
TCCTGCCCCCTCTCTTGTACTGCCATCCCGGGCTTGTCTCTGCTGAGCTCCTCTCTCTAGCTGTCATCTTCTCTTCCTTCCAGTTCCCTGGCTGGTCCCA
Celera SNP ID:            hCV27507068
SNP Position Genomic:     18863
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,397|G,1100)   total(G,1100|A,397) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51619):
GGTATGGAATGTATGTGCTGACCCCCTAGGTGAGTCTGGGGATTGGAACAGGGATCTTAGGTCTGCCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT
S
TGTGTGTGTGTGTGTGTGTGAAGTTTTTTACAGGTGAATAAACAAAGTTTGAAAGATGTTTCTGTGTGTTATCTGTCTTTGAGAGAGTGCCAGGAAAATC
Celera SNP ID:            hCV26627222
SNP Position Genomic:     24500
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:51620):
TGCAAACAACATAAGATTAAGAAAATGCAGCCAGGCACAGTGACTCACAGCTTAATCCCAGCGCTTTGGGAGGCTGAGGCAGGAGGATCCCTTGAGGCCA
Y
GAGTTTGAAACCAGCCTGGGCAACATAGCAAGACCCCTCTCTTCAAAAATTAAACAATTAGCCAGGCATGGTGACACGTGCTTGTACTACTAGCTACTTG
Celera SNP ID:            hCV9404302
SNP Position Genomic:     12147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51621):
CCAGTCCTGCTAGAGAAGCAATGGGTGGAGGTAGAAATGGGGATGGGGGAGGAGATCGGATGAGCCCGGGACCTGGGTGGATCCCCTGGGAGGAGGGCGG
S
GAGTCATGCTCCCCGCCTGGTTCTCCTACCCCCAGGCTCAGATTTCAACCCTCGCTGCCGCCTCTGTGGCGCGCCCGTTCGGGGAGCGGAGAGGGTCGCC
Celera SNP ID:            hCV27858008
SNP Position Genomic:     5539
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,20)   caucasian(G,36)   total(C,2|G,56)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:51622):
GTATTTCACCAGGGGGAGTGAGGGAACGTGAGGAGGCAGACTTCAGCAAGAAGGATGGCGGGCCCTTTAATAGAGAAATAGGAGCTGGTTTTGGGTGGAA
S
ACTCTGAACTTAGTTGTGGAGTGCTGGGAAGAGAGCCAGGTGAAGTCCCAGCAGGCAGGAAGCCCCACGCGGCCCAACTACAGGGGTGGCCATTCACAGT
Celera SNP ID:            hCV360258
SNP Position Genomic:     18603
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51623):
GGTGAGGTATTGGGCACCTGGGTTAGGGCCAGAGACAGAGAAGTAATTCAAGAGGTGACAAGCAGGGATACAAATGGTAAATGAGCAGAGTTAAACTGAC
K
CCCCCAAACACACACACCATTCCTAGGCAGTGGAACTGCATGAATGGAGTTGCTCTTGATGGAACAGAGAGAATTTGGAAAGAAGAATGGGTCTCAGGGA
Celera SNP ID:            hCV360259
SNP Position Genomic:     16501
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51624):
CAACTTGCTTACTGTTTTCTTTATGTTTGAGGGAAGGCAGGGGCAGGTCCCCTGGGTGTCCCTAGGGTGGGCCTTCCCAGCTCCAGCAGCCGCAGCCCAT
S
AGCTTCTGCCTGCCCGTGGGGGTGGGGAAGAGAAACAGCTGCTGACCAGGCCTGGCCTGGTTGGAACTGCCCCTTCTCAGGACCCCGCCCTATGGCTCTG
Celera SNP ID:            hCV27848242
SNP Position Genomic:     28512
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,4)   caucasian(C,38)   total(C,72|G,4)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51625):
CCTGGTAGGCAACTTGCTTACTGTTTTCTTTATGTTTGAGGGAAGGCAGGGGCAGGTCCCCTGGGTGTCCCTAGGGTGGGCCTTCCCAGCTCCAGCAGCC
R
CAGCCCATCAGCTTCTGCCTGCCCGTGGGGGTGGGGAAGAGAAACAGCTGCTGACCAGGCCTGGCCTGGTTGGAACTGCCCCTTCTCAGGACCCCGCCCT
Celera SNP ID:            hCV27836627
SNP Position Genomic:     28503
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51626):
TCTTCAAATATAAATTCAATCAGCCTTCTAGGCTCGGTGTCAGGAACTCCCTCTTTCTCTTCCCTCCTGCTTCCCTGGCCAGGGAAGTGGGTGGGAGAGA
G
GGGCTCTTGGGCCCTGAGTGAAACACAGCTCACATATATATAGCACCTTGTGTTTTCAAAATACCTTTTCACCCAAGCCCTTATTATTTATCTCTCACTC
Celera SNP ID:            hCV11625303
SNP Position Genomic:     14212
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|-,6)   total(G,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51627):
GGACCCCTGCCTAGGTCTGGAGGTCTACCCTTCGCGCACGCAGCTGCCGGGCCTCCTGCCTCAGCCCGTGCTGGCCGGCGTGGTGGGCGGAGTCTGCTTT
Y
TGGGAGTGGCCGTCCTTGTGAGCATCCTGGCCGGCTGCCTCCTGAACCGGCGCAGGGCTGCCCGCCGCCGCCGCAAGCGCCTCCGCCAAGGTAAGTCCCT
Celera SNP ID:            hCV25753390
SNP Position Genomic:     21871
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,20|T,2)   total(C,50|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51628):
GGCCTCCTGCCTCAGCCCGTGCTGGCCGGCGTGGTGGGCGGAGTCTGCTTTCTGGGAGTGGCCGTCCTTGTGAGCATCCTGGCCGGCTGCCTCCTGAACC
S
GCGCAGGGCTGCCCGCCGCCGCCGCAAGCGCCTCCGCCAAGGTAAGTCCCTCCACCCTCAGCCCTGCTACTGCGCACTTGGGCCTAGCCTCCTTAAGCCC
Celera SNP ID:            hCV25753286
SNP Position Genomic:     21920
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,23)   total(C,1|G,61)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51629):
GGCTTGGCTCTCCCCCAGGCTCTGGACATCCAACCTGGGTTCAGCCCCAGGCCAGTGTGTGGGGGTGGGTTGACAGAATCCTCATTTGGCCTGGGTGCAG
Y
AGACAGGGTGGCCCTGGGCTGAGGACTCCTATGAGGCAGGGCTGGTGGGTGGGCAGCAGGCTGGAGCCCTGAGTGGTCTCCCTGGCCCTTGGACACTGCT
Celera SNP ID:            hCV11625307
SNP Position Genomic:     14540
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51630):
GGTCTACACCTGCCAAGCCTCCAGCACTGAGGGCAGCGCCACCCACGCCACCCAGCTGCTAGTGCTAGGTGCTCTCTGGCGGGAGGGCTGGGGTCCAGGG
Y
TACCTATGCAAGGGGGCTGTGACCTGTGGCTGAATTGGTTCACAGCAAGATAGGAGGGAGATTTGTGCCTGAGGGCAGGGCCCGTGGAAGCTAAGGGGGT
Celera SNP ID:            hCV11625308
SNP Position Genomic:     15233
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,10|T,30)   total(C,17|T,61)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,9)   total(C,6|T,9) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51631):
TGGGGCGAGGGGAAAAAAGGGCGTCGGACTTTAGCTGGCTGGCCCCGAGTGACCCCGGGTCGTGGCGCCGGCCCTGGGCCAGCTCGTGCTCCTGGGCTTT
Y
CCGCGCGACCCTTCACTTCCTGGTTCCAGGAGCACGTGTGAGCACTGCGTGCCCTCTGAGTCCCCGAGGCCGCCCTTTTCATTCCTGTTCCTGCTAGCTT
Celera SNP ID:            hCV7479440
SNP Position Genomic:     26542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51632):
GCCCGGTCCTTTGACTGTAGCAGCAGCAGCCCCAGTGGGGCACCCCAGCCCCTCTGCATTGAAGACATCAGCCCTGTGGCACCCCCTCCAGCAGCCCCAC
Y
CAGTCCCTTGCCAGGTCCTGGACCCCTGCTCCAGTACCTGAGCCTGCCCTTCTTCCGAGAGATGAATGTGGATGGGGACTGGCCCCCGCTTGAGGAGCCC
Celera SNP ID:            hCV25623370
SNP Position Genomic:     22952
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,22)   total(C,49|T,3)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51633):
AAATGATGGCAAAGAGTCAAGAAGGAGAACTGAAGTTTCTTTCGTGTGATGACTGGGAAATTGTGTGTCCCGGGGGAACACACACTTCTTACCAGGTGCT
R
TGTGGGGTAGTGGGTTGAGGGCAGGGGCAAGGAGGCATCCATCCTTAAAGTGGGCACCATCTGGGCAGAGGACAGCAACACTGTCTGGAAGGCCAGGGAT
Celera SNP ID:            hCV7478802
SNP Position Genomic:     17755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51634):
CCTTGCCCCCTTGGGCCATCTGTACTGGAAGGGCCTAGCGAGCTTCACATCTGAGCTCTTCACTCAGTGAACCTCAGGGCTTCTTCTCATTGTCCTGCCC
R
CCTCTTGCAGGTGTGAAGACTCCAGAGGAGGGCTGCCTCCTGAACACTGCCCATGTTACTGGCCCTGAGGCCCGCTGTGCTGCCCTTCGGGAGGAATTCC
Celera SNP ID:            hCV16137914
SNP Position Genomic:     24060
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,18)   caucasian(G,6)   total(A,4|G,24)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,25)   caucasian(A,4|G,36)   total(A,15|G,61)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51635):
TTAGCCTTGGGGTGGGTATGGGGGTGTTCCTCAAGGGTTCCTCTTTGAGCATGTGAGGGCAGGGGAGGAATAGGGCTGGTTCTGGAGAAGCTGAACTGGG
R
GTTTCTCCAGTCACCCAAAGTCCTAAGGTGCCTACAGAGATACTGATGGCACTCCCCCTCCCAGCACTGACCCTAGCCCCCCGTTGTGCCCTCATGCCAC
Celera SNP ID:            hCV25623371
SNP Position Genomic:     8336
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,5|G,33)   total(A,6|G,66)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,24)   caucasian(A,2|G,24)   total(A,2|G,48)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51636):
AGCTGCCTTGGGAGCTGACTTGGCAACCCCACGCTCAGAGCACAGCCTTCCTCAGCTGCACACGGTGGGAGGCGCCTGGGCAAGATTTGGGAGCTCGCCA
R
TGCAGACAGGTATTTCCAGTCCTGCTAGAGAAGCAATGGGTGGAGGTAGAAATGGGGATGGGGGAGGAGATCGGATGAGCCCGGGACCTGGGTGGATCCC
Celera SNP ID:            hCV11628758
SNP Position Genomic:     5423
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:51637):
AATTCCTGGCCTTCCGCCGCCGCCGAGATGCTACTAGGGCTCGGCTACCAGCCTATCGACAGCCAGTCCCCCACCCCGAACAGGCCACTCTGCTGTGAAC
R
TCCCTAATGTGAGGCTGTGAAAAGGCATATGGACCTGCAAAGGAGGCCCCCAACCAGACAGACCTAGTTTCAAACGAGGGCACTGCCCCTGCCTGCCCCT
Celera SNP ID:            hCV16137915
SNP Position Genomic:     24255
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,10)   caucasian(A,37|G,3)   total(A,63|G,13)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:51638):
GCCTTGCCCCCTTGGGCCATCTGTACTGGAAGGGCCTAGCGAGCTTCACATCTGAGCTCTTCACTCAGTGAACCTCAGGGCTTCTTCTCATTGTCCTGCC
Y
GCCTCTTGCAGGTGTGAAGACTCCAGAGGAGGGCTGCCTCCTGAACACTGCCCATGTTACTGGCCCTGAGGCCCGCTGTGCTGCCCTTCGGGAGGAATTC
Celera SNP ID:            hCV25623372
SNP Position Genomic:     24059
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51639):
TGCTCTTACTCCCCAGGGCTTCAAGATCCCCCCCTTCCCCCTACCCCTCACTTAACTACACTCCTCCCTCCTTTCTCTTCCCAGTGCCTTTCTCTAATGG
W
GGGGTTTCTTCTGGGCTCCAGTATTGGCCAACTCTGCATGTTGCCTTGTACTTTTCATTTAGATCTGGTGGTTCTCCGGAGAGCAGCTTCCTCGGGTGTT
Celera SNP ID:            hCV27840388
SNP Position Genomic:     7908
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,30)   caucasian(A,1|T,37)   total(A,3|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:51640):
GGGATCCTGCCGGAACTCCCAGCCCCCACCCGGATCCTCCATCTAGCCGGGGACCCTTACCTCTGGAGCCCATTTGCCGGGGCCCAGACGGGCGCTTTGT
K
ATGGGGCCCACTGTGGCGGCCCCCCAGGAAAGGTCAGGCCGGGAGCAGGCAGAACCTCGGACTCCAGCCCAGCGTCTGGCCCGGTCCTTTGACTGTAGCA
Celera SNP ID:            hCV25623358
SNP Position Genomic:     22773
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,34)   total(G,69|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51641):
CCCAGGAAAGGTCAGGCCGGGAGCAGGCAGAACCTCGGACTCCAGCCCAGCGTCTGGCCCGGTCCTTTGACTGTAGCAGCAGCAGCCCCAGTGGGGCACC
Y
CAGCCCCTCTGCATTGAAGACATCAGCCCTGTGGCACCCCCTCCAGCAGCCCCACCCAGTCCCTTGCCAGGTCCTGGACCCCTGCTCCAGTACCTGAGCC
Celera SNP ID:            hCV25623359
SNP Position Genomic:     22896
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,21|T,1)   total(C,55|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51642):
GTTACATGAGCCAAGCCCTCACTGTACAGAAGAGTGAGAGCTGAAACCTGTTCCCTGAGCTGATCAGAAGGACATCCCTTGGCCCCTCCATCTGGGCTCC
Y
GTGGATAGGAGGGGCTGGGTGAGCAGGCCAGCTGGGCTATGGTGTGGTGCCTCGGCCTGGCCGTCCTCAGCCTGGTCATCAGCCAGGGGGCTGACGGTAA
Celera SNP ID:            hCV16187699
SNP Position Genomic:     8106
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,7|T,1490)   total(C,7|T,1490) 
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:51643):
CCACAGGGCGGGCTGAGCAGAGAGGGGAGGAGGTGCAGGCAGGTGATGCAGAAGGGAAGTTTCTTTTCAAACTGGGGGCAGTTATTGGCAAACAGCCTGG
K
GGGAGTGTATGTGTCTACACAAGCCCTGTGGGAATGGATGAAAGCGGGCCCCAATTAGCACCAGTGGAGAAAAAAACGGCTGTGCCCACCAGCCCTCCCT
Celera SNP ID:            hCV29185267
SNP Position Genomic:     9723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51644):
GACTGACATTTATCTGGCCCAGCTTTCGGGCTGGGGGAAGTGGAGGGGGCGGGTTGCTCTTAATGAGGTTTAAAAATAACTGATTTAGGGGAGGATCTGC
Y
GGAAATGTGCAGCTTGATAAGCTGGGGTAAAAAGGAGCAGCCATGTTGGAGTCGGGACGGGAGGGACTGGCCCAAGACACAGCCTCTGCGGCCGAGAGGT
Celera SNP ID:            hCV16107508
SNP Position Genomic:     29300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51645):
CCCAAGACACAGCCTCTGCGGCCGAGAGGTGTTGAGGGTTTGAGGCAGGCTGGTCCCCTTGTATTTCGCAGAGCCCCAAGGTCCATTGAGAGGGGGTGAC
R
GGATTGTTTAACCTGGGTGTGTGGGAGAGGGGGAGCTGGAGTGACTTCATCCCTGAAGGCCAACCTGGCCTGGAGCCAGATGTGGTTAGAAGGGGTGGCT
Celera SNP ID:            hCV29185268
SNP Position Genomic:     29471
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51646):
CCATCAGCTTCTGCCTGCCCGTGGGGGTGGGGAAGAGAAACAGCTGCTGACCAGGCCTGGCCTGGTTGGAACTGCCCCTTCTCAGGACCCCGCCCTATGG
Y
TCTGGCACCTCAGAGCTTGAGGGCAATGGCCCCAGAGTGGAGCAGATACACTGCAGCTGGAGGCCGTGACCCTGCCAGCTGTGTCCAGGCCCCAGCGTTG
Celera SNP ID:            hCV101509
SNP Position Genomic:     28608
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,16|T,20)   total(C,47|T,27)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51647):
GGGCAGGTGGTGGAGAAGGACGGGGAGGAGGAGGATGGGGATCTCTGGCTGGTGGGAGAAAGGGGAAGAGGGAGTTCTATTTCCATCCCACAAACAGCTC
Y
GATGCCCCACCCTTCCTGAGAGCCCTTGTTTGCTCACTTAGTAGTTGCATCTCACCCCTCCCCCACACTCCTGCCCTTTTCAGTTCTTCAAATATAAATT
Celera SNP ID:            hCV360262
SNP Position Genomic:     14027
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,8)   caucasian(T,8)   total(C,6|T,16)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Gene Number:                 245
Celera Gene:                 hCG39740 - 66000115828178
Gene Symbol:                 NESG1
Protein Name:                nasopharyngeal epithelium specific protein 1
Celera Genomic Axis:         GA_x5YUV32VSLS(1533320..1573112)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12405):
TAATATAAGAAAAAAAAAGTAAAAGAAAAAATAGAGATGGAGTCTCGCTATATTGCCCAGGCTGTTCTTGAGCTTCTGTGCTCAAGCCATCCCCCCACCT
CAGCTTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCCTACCTATTCCTGTTATTGAATGATAGGCACATCTCATTTTATTGCACTGTG
CTTTATTGCGCTTTACAGATATTGTGGTTTTTACAAAATAAAAGTTTGTGACAACACTGAGCAAGTCTATCGGCACCATTTTTCCAACACCATGTGCTCA
CTTCATGTCTCTGTGTCACATTTTGGTAATTCTTGCAATATTCCAAACTTTTTCATTATTATTATATCTGTTACGGTGATCTGTGATCAGTGATTTTTGA
TACTACTATTGTAATTGTCCTGGGGCACCACAAACAGCACCTGTATAAACGCCAAACTGAATCAATAAATGTTGTGTGTATTTGACCCAACAATATTGAA
ATTAGGCTAGTTAATAACCCTACAATGTCTTCTAAGCATTTAAATGAAAGGAAGAGTTGCTGTCTCTCACTTTAAATCCAAGGCTGATCCAGGTGAGAAG
GCATGCCTATAGTACCAGCTCCTCAAGAGCTGAGGCAGGAGGATAGCTTGAGCCAAGGAGCTGGAGTCCAGCCTGGGCTATGCAGCAAGACCCTGTCTCT
CTTTGAAAAAAAAATATCAAAAGCTGGAAATGATTAAGCTCAGCAAGGAAGGCACATCAAAAGCTAAGATAATCTGAAAGCTAGACCTCTCATGCCAGTT
AGCCAAGTCGCAAATACAAAAGAAATGTTCTTGAAGGACATTAAAAGTGCTATTACAGTGAACACATGAATGATAAGCAAAAAAAACCAGCCTTATTTCT
GATATGGAGAAAGTTTTAGTGCTCTGGATAGAAGACCACACCAGCCACAACATTCCCTTAAGTCCACCTAGTTGGGCCGGGCGCTGTGGCTCATGCCTGT
AATCCTAGCACTTTGGGAGGCTGAGGCGGGCAGATCACAAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCCACTAAAAATAC
AAAAAAATTAGCCAGACGTGGTGGCGGATGCCTGTAGTCCCAGGTACTCGAGAGGCTGAGGCAGGAGAATGTCATGAACCCAGGAGGCGGAGCTTGTAGT
GAGCTGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGATGAGACTCCAACTCAAAAAAAAAAAAAAAAAAAGTCCACCTGGTCAAGAGCAAGGCCCT
TAACTCTCTTCAATTCTATGAAGGGTGAGAGAAGTGAGGAAGAAAAAAGTTTGAAGCGAGCCGAGGTTGGTTCAGGAAAGAGGTTATCTCCATAACATAA
AAGTGCAAGGTGAAGCAGCAAGTGTTGATGCAGAACCTGAAGCAAGTTGTCCAGAAGATCTAGCTAAGACAATTGATGAAGATGGCTACACTAACAGATT
TTGAATGTAGATGAAACAGCCTTCTACAGAAGAATATGCCATCTAGGACTTTCATGGCTAGAGAGAAGTCAATGCTTCAAAACTTCAAAGGGATGGCTGA
CTTTCTTGTTAGGGGTTAACACAGCCGGTTCCTTTATTTTTTTATTTTTTATTTTTTTGAGATAGGGTCTCACTCTGTCACACAGGCTGGAGTGCAGCGG
CACAATCTCAGCTCACTGCAACTTCTGCCTCATGGGTTCAAGTGATTCTCATGCCTCAAGTAGCTGGGATTACAGGCACATGTCACCATGCCCAGCTGAT
TTTTTTTTTTTTTGTATTTTTAGCAGAGATAGGGTTTCACCATGCTGGCCAGGCTGGTCTCAAGCTCCTGACTTCAAATGATCTGCCCGCCTAGGCCTCC
CAAAGTGCTGGGATTACAGGCGTGAGTCACCGCACCCAGCCAGCTGGTTCCTTTAAGTTGAAAGCAATGCTTACTTATCATTCCAAAAATCCTAAGGCCC
TTCAGAATTATACTAAATTGGTTCTGCCTGTGCTCCATCAATGGCCCAACAAAGCAGGGATGACAGCACATTTGTTTACAGCATGGTTTACTGAATATTT
TAAGCCCACTGTTGAGACCTACTGCCCAGAAAAAATGATTCCTTTCAGAATATTACTGCTCATTGACAATGCATCTAGTCACCCAAAGACTCTGATGGAG
ATGTAGTAGAAGAGCAATATTGTTTTCATTTCTGCTAACACAATATCCATTTTGTAGCCCATGGATCAAGAAGTAATTTCCAATCTCAAGTCTTATTATT
TAAGAAATACATTTTGTAAGGCTATAACTACCATAGATAATGATTTTTCTGATGAATCTGGTCAAAGTAAATTGAAAACCTTCTGAAAAAGATTTGCTAT
TCCAGGTGCCATTAAGAACATTCATGATTCATGAGAAAAGATCAAAACATTGAGATTAACAGGAGTCTGGAGGAAGGTGATTCCAACTCTCATGGATGAC
TTTGAGGGGTTCAGGACTTCAGTGTAGGAAGTAATTGCAGACATAGTGGAAATAGCAAGAGAGCTAGAATCAGAAATGGAACCTGAAGTTGTGATCAAAT
TGCTGCAATCTCATGATAAAACTGGAATGGTGAGGAGTTGTTTCTTAGGGGGTAGAATCTACTCCTATTCCATTGACGATGGAGCTTTAAAACAACAAAC
AAACAAACAGAAAAGAGTTTACTCATGGTGAAGACACTGTAATCATTATTGAAATGACAAAAAAGAATTTAGAATATTCCATAAACTTAGAGGATACAGC
AGCGGCGGGGCTTGAGAGGACTGATGCCAAGTTTGAAAGAAGTTCTATTGTGGGTAAAATGCTATGAAACAGCATTACATCCTACAGAGAAATCTTTCAT
GAAAGAAAGAGTCGGCTGGGCGCCGTGGCTCACGCTTGTAATCCCAGAACTTTGGGAGGCGGAGGCGGGCGGATCACCTGAGGTTGGGAGTTTGAGACCA
GCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAACACAAAATTAGCTGGGCGTGGTGCTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGC
AGGAGAATCTCTTGAACCCGGGAGGCAGAGGTTGTAGTGAGCGGAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCCGTCTCAAAAA
CAAACAAACAAATACAAAACTAACTTGGTGTGGTGGTGCACCTAATCCCAGCTACTCTGGAGGCTGAGGCAGAAGAATATCTTGAACCCGAGAGGCAGAG
GTTGCAGTAAGCCGAGATCGCATCATTGCACTTCAGCTTGGGCAACAAGAGTGAAACTCCATCTGAAAAAAAAATAAAAAAGAAAGGAAGAGTCAACTGA
TGTGGCAACCTTCACTGTTGTCATATTGTAAGAAACTGCTGCAGCCACCTCTGCTTTCAGCAAGTGCTACCCTCATCAGTTAGCAGCCATTAACACTGAG
GCAAGACCCTCCACCAGCAGAAAGATGATGACTCTCTCTGAAGACTCAGATGATTGTTAGCACTTTTTAGCAACAAAGTATATTTAAATTAAGGTATGCA
CATTTTTTTAGACATAATGCCATTGCACACCTGATAGACTACAGTATAGTGCAAATGTAACTTTCCTATGCACTGGGAAACCAAATAATTTGTGTTGCTC
ACACTGTATTGTGATATTAGTTTTATTGCAGTGCTCTGAAGCCTAATCTGCAGTATCTCCAAGGTATGCCTGTAGACACATGGCCAAGGGTTCTTCTCTG
AGCCTTGACATGTGCTTACGTAAATGAGAGGCCTGAAGCTTAAGCATTGTTAGCTTTGAGATAAATTTTTATTGTATTTTATTTATTTTATTTTTCAAGA
CAGGGTCTCACTCTTGTCACCCAGGCTGGGTGCATTGGCACGATCATGGCTCAGAGCAGCCTCAACCTCCGAGGCTCAAGTGACCCTCCTAGTGCAGCCT
CCCAAGTAGCTGGGACCACTGGCATGTACCACTATGCCTGGCTAATTTTTGATTTTTTGTAGAGATGGGATCTCCCTATGTTGCCCAGGCTGGTCTCAAA
CTCCTGGATGTAAGCAATCCTCCTGCCTTGGGCTCCCAAAGTACTGGGATTACAGGCATGTAATTGCCTGCTGGGAGGCAAGTCCCTTACACTGCACTCT
GTCATTCCCTCCTTCCTGCCATAACTTTTTTAATTTTTCTTTGAGACAGAGTCTTGCATTGTTGCCTGGGCTGGAGTGATCTTGGCTCACTGCAATCTCC
CCCTCCTGGCTTCAAGTGATTCTCCTGCCTGAGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACCACCCCCGGCTAATTTTTTGTATTTTTAGTAG
AGACGGGGTTTCACTATGTCGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCC
ACCGCGCCCAGCCCTTTCTGCCTCAACTTTGCACCTTTTCTTCAGAGAGTTACCCTGGGCTGAGAAAAGAATAGATTTTCAATTTGGACAGTTTTTTCTT
GGCTTGTTTCCTCTTTGGTTACACGGATAGTAACTATGTCATGCAGATGTGCCTGGGAGAATGGGGTGAATACAGGAAGCACCTTATTCACAGTGGGCCG
GTTACTTGTCTTCCCTTCTTTCTGAGCTGCAGGGAACGGGGTTCTAATGCCAAGGCTTAGTAAGGAAGGTTCCCACGAACAAAACAGCCCCTTCTCTCAG
TCCCAAGCCTCCCAGGGACTGTGCTCCTCCTCTTCAGGCCTTCCCTTCTCCCTCTGATTAAGCCTTCAACACTTGGTGGGACTGGGCAGGGGACACAATT
TTGTACTCTTGATCCCAAAGGAGATAAAGGCTGGGAAATCTAGGGAAGGAATGTGAAGCCTGTTGGAGTAAGTCCTTTTAAAAGCAGCAAGAAGTGACCT
TGTCTCCCTCTTTCCATTCCCCCGGGGCTTGTGAATAGCCTTCAGTGCCCAAGTTGGAGTAAGAGCTTCAGAAAGACTGGCTGTGAGGGTTTGGAGAGAG
GTTTGAGAAAGCAGCTCAGAGACTCACAGAGTCACACCAAGAGCTTAGCTAATCAGCTAATCAGCACTGGAGGAAGACAAATGTCCTTGGTCTGGTGGGA
CAGCTTCGTGAGGCTTGGAGCATGCAGCCTACCAAAGTGAGCTCAGTGCCAGCCCTGCAAGTTGGGAGGTAGAGAGGCCAAACCAAATTGGAAAAAATGA
CAAAACCCCTATGTACTTTCTAGAACAATACATACCAGCTAGGAAGTGTTAAAAGACAAGCTCCCCAAAGTCAGTTCCTTAGCTTTTGACTTATTCTAAT
GTAGGGCCTCCATTTTTAATAAACTCTCCCAGGTGATTCTTAGCTGCAGATTTGAGGCCCGCAATTTAAGAAACTGCTCTTGAGACTGCATAGACATCCT
CAGGGCTGGAAGTTCTTTGTTGACCCGACCAGATTCTCTCCTGCTGTGGAACTGGTTTGTCCTGATCCTGCTGGCTTCTCTGCAGACTACACTCATCAGG
GGTTGGCTTGGCGCCTCCTGGGCAATGGGGCAAGAGTAATCATAGCAACCTAGGTGAAGTCCCAGGGGAAAACTGTGACCCTGGGCCAGGCTCCTGGGGC
CGCTGACAGTTAGAACCCCCTCGGCCCATAGTAAGTTCTTTAGGTTCGGGTTCTGACCCAAAAGTTTGGCCAAAGCCAAAGTGGAGAGCAGGGCACGCCA
GGGCGGGTCAATCCTTCAGAGCCGCGGTTGGGCTGGAGCGTGGAGCTGCAACGGTTGGAGCGACGGGCTCCGGTTCCTAAGCCACCAGCACAAGGCAACT
GCCCGCTGGAGGTGGGAGGGGCGGGGCCGGGGGCGGGGCCTGAGCCGAAGAACGCGGGCTAGTGGTTGCCAAGGTAACGCGTCAACACTAGGGCCTTKGC
GGCGCCGAGGCGGCAGCAGAAGTCCGGAGTCAGGGCGTGTGGCTGAGGAGATGGTGAGGGAGAACCTCAGATGGGCCCCTTGTGTCCTGAATTGGGTGGG
GGCTCTGAGTGGGGAAAGTGGGGGCCTAGGGGAGGTCACAGTTGGGTCTAGGGGTCAGGAGGGCCCAGGAGTAAGGAGAACACCTCTAGAAGAAGCAAGG
GAGATCCTGAGGTGGGTTCAAAAGAGGAATTAGGGATAGCATCGATAACGATTGGAAATGTGGAGCGCGCTGAGCGGAGGAGTTGGGGAGAAAGGGATGC
CCCAACCCTCTCCCCGTTGCCATTACAGCGGGGCCTCTGTGGACCAAAGATTGTGGATGTGGTGTGGGAAAAAGCACTGGTGGGCCGGGCGCGGTGGCTT
ACGCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCGCCTCTACT
AAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGC
TTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACACAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAGCACTGGTGAGGAG
GCCAGATAATGGGTCGTGGTACCTGTTTTGCCACTAACTAGCAAGGTGACTGTGGGTAAGTCATCTAATGTGCCCGAGCCTCAGGTTTTTCTTCTGTTAG
CAGGGCTTTGTATCCCTCAGTAGTTAGTCAATAAATATTTGGCAGTGAATGAATGAATGAATAAATGAGTGAGTGAGTGAGGAGGGTCTCAGGTTTGCAA
GGCCCGGGAGAGAGATTGGGACAGGACTGGCAGCCTGGGGTTTGCTGGGATGGGGAGGGCTGTCAGGGTACTGAGGGCTGAGAAGGCCAGCAAAGCCTGG
GAGGAACCATGAAGGGGATGCCTGGGCTTGAGTGTGTTGGTCCCAGAGGGGAGGGGAAGGGCAGATGATAAGTGTTGGAGTCTTGGGTTATTGGAACTGA
CCTAGAATGTCTGGGGCACAACAGGTGGCAAAGGTTGCTACTTGGATGTACTTGTGGACAGACTTCAGGCCCAGGGGCTGCATTGCTTTTCTGGGGCTCA
GTGGACCTCAGAAGAATTTTGTTAATTATTAAATAAGTCTCCAACAAAGAGCAGTTCCTGACTTTCGAGGACTCCCTGCAGTGTTGTAATTGGGGTGGGG
GAGCGTCCCCTTTCACTTATGTATTCTATTTGATTCAGTGTCCCATCTTCTCTCAGCACCTTACAAACACAGTGGCGTATGTATGTATGTGARCACCTAC
TGTCATGCCTGGTGTCTAAGGGCATATGGTAAATGTTAGTTCCCCTTTTGTCCTCTTTTAAAAATTTCCTATTTCCAAGCTCTCATAGGGCATAAGTTGC
ACCTGGGCAAGACCTGTGGGCTTCAGAGCACCCAGATCAGGGATTCCCCATCCAGGAGCCACTCAGGGCAGGGGTTTGACTCACTCACTGAGCCCCTCTG
TAATTCCTGGGACAGGACTGGGCATATAGACACCTTTGAGAAGCAGTGGGTCTAAGTTAGTGATCTCTGGCAGGCCAGCTGTGTGTGTTCGTGTACGTAT
AGTGCTACTCACTAGGTTTGGAGAATATTTAAAGGCATGAGAAGAGATAGTAGTGGTGGTGAGGGTCACAATTAGGCAGACTTCCAGAACTCTTACAAAA
ATAATGATTAAAATCCTGCAGAAGGAGAGATGGGGACCTCAGTACTGACTAGGATGTTATCTTCTGGTGGCATCCTACAGATGGCCAACTTGGTCCCAAT
TGAAGAAAGAGGATAATTGCGTGGATCACTCAGAGTAAAAGGCAAGGGGTCTCGTGCATGGGAATCTCCCTTTCTTGGTAACCAAAGTCTACAGAAAGGG
AAGTAGAACCAGGCCAAGAGTTTGAAGCCTGAATTTGCCAGCCTGCGGAGACTGTGCAAAAGAAGAACTAGAYCTCAGAATGGGTAAGACATCTAGGAAA
AGACATATCTTTCCTGAACATGTCAACCTGTTTAGTTGACAGGTGTTGAAGTTACATCAGGGAAACTTCACACTGACCTATTCTAGCCCCATTCCAGCTT
TGTCTTGCTGAATTTGAGTGAAACATTCTGGATCCCAGAATATATAATGCTATGGTTTTTTTGTTTGTTTGTTTGTTTGTTTTCTTTTTTAGGTCTGTAC
TCTCTTGCTTTCAGAGTTCGGGCACCAGGCCCATTGCTATGCTTTGTTTTCAAATAAAAATTGTTTTATTGTTTTTTTTTTCTGGTCATAAAATTGGTAT
CTACTCATTGCAGGAAATTATTCAATAAAGAAACATCTTAAGATGGTAAAGGTTCCTGACATACTGTTAAACATTTTTTTGAACATGCTTTCAGTAATAC
ATTCTGGGCACATACCTGCCATACAAACATCTTTACAAGAGTACTTCTACATTTCTTTTTCTTTTTGAGATGGAGTCTTGCTCTGTCGCCTAGGCTGGAG
TGCAGTGGCGTGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGTGTGCC
ACCATGCCCAGCTAATTTTTGTATTTTTTGTAGAGACGAGTTTCACCATGTTGGACAGGCTGGTCTCAAATTCCTGACCTCAGGTGATCCACCCACTTTG
GCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCTGGCCAAGAATACTTATGTATTTCTTTATTATTATTATTTTTTGAGACAGTGTCTTGC
TCTGTCACCCAGGCTGGAGTGCAGTGGCTCAACCTTGGCTCACTGCAACCTCTGCCTCCCGGGATCAAGCAATCCTTCCGCCTCAGCCTCCCAAGTAGCT
GGGACTATAGGTGTACGCCACCGTGCCTGGCTAATTTTCATATTTTTTGTAGAGATGGGGTTTTGCCATGTTGCCCAGGCTGGTCTTGAACTCCTGAGTT
CGATGGATCCACCCACCTTGGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCTACTGCACCCAGCCTTATGCGTTTCTTACAGTCTGTTTTCTTTACAA
CTTAACAAGTTATGGAGATCATCCTATATCAATGACTGTAAGTCAAAATTATCATTTGTTTGATCAGCAAATCTTTCTGCATCAGAGTCTCTCATAGAGC
TCCTAGCTGTGGCTGAATTCTTGTGCTCCAGGAGTTGGATGGCTTATGAAGAGAGGGGGAGTCAGCTGAGTCACCAAGACGAAAATATCAAAGCAGGGCT
GGCATCTTTATCTGTCCCCAGTCCTCATCTTCCCCAGACCCCCTGCCTTCTCAGCTGCCTTCCCTTCAAGAGTTATCTYCCTGCAAGCAGGACTGGATGT
GCTTCTCCTTAGGCACTGTTCAGCTTCTTGGCAATATTTATTTGGTCATGCAAAGAAGAAAACCAGCCCGTCACCTCCTTAAAGAACTTCTTCGCTATTG
CCTCTGGCCCAGAGGGATCCAGCTTTACATTTGTGCTTGATTCTTCATTTTTTTCTAGTATGTTTACACAGTGACCTCTCTAATCCTTGTTACTCTTGGC
AAAACTGTTTATTCTAACCCTGGTGTAAGGCTGCGGCTTCAAAGTCAGCATTTCCCCAATGAGGTTTTCTCAACCACCCAACCCTAGAGTTCAGAGCTTC
CCTCTGTCCTGCTCAGTGGCCACTTTTCTGTGGTCATCTGTTTTTCTTCCTCTGTTCTGGCTCAGGCAGTCCTTGCTGTGACTTCCTCTTGACCTGGGTA
CCAAGGGCATAGGAAACAGGAGATGCAGGCTCAGCCCTGGAGGAACCTGCAGTCTGGCGGACACTTCAGCACAAGGGAAAACCTGTTGGAGTCCTTGAAA
ACAGACAGGAAAACAAATGGAAAACAATAATACTTTCCATCTGTATTCCAAAGCCCTTTCACATACGTTATTATCCACAGTGGAGACCACATACGTGATC
TGGAAAACATGGAATGGTGGAGTGACTTGGAGTCAGGCAGTTGTATTCYGGAAAAGTATCCATCTCAATCTGGTCTGCAGTCCTGTCCTTGAGAGGTCAC
CTTGTTCGGTTTTATTCATTCTTCATCAAATGCACATTGCTATATTGTTCCTACTACATGTGCCAGGCACTGCACCTTTTCSCTTAATTACATACAAAAC
TCATGATCCAAAGCCATCCACCTTTTCCAGTTATTCCCAATGCTTAGCCTCAATCCCACCTACTGAAGTTTCTATTCATTTCCTCTTATTCTATTTTTGG
TGGAAAGGGGAGCCGTAGCTCACCACCTACCATATAATAACCCTTCAGAGGCTGTTATTAGGCATCCTTGGGGCTGCTATATTTACCTTTTAATAAATCC
AAGCTTTTCTGCTCTACAGTATTGGGGCTGGCTGACGCTGTAGAGGGAGACTCCCTGTGTAAGCCTTTTGCTGGCTGTGCCGGGCAGTGAGGGAAATGCA
CATATAGCATTGTTCAATGTACAGCACAGAGACAGCTGGAAAATAATTGTCCAATCGAGTGTGAAAACCTGATACAGGAGTAACAGGTGCTGGGGTGTCT
GGTTGGTAATGGCAGATCAGAGAGAGCTTTCAGAACACTGTCCAGGGCTTAGGGACCTGGAAAGCATGGTATATTTCCCTGTCTACCCTGTTCCTTTATC
AGCTGCTGATTCCCAGGCTTGGGGAGACCCAATGTGCCTGGCCTATTCCTTCAAGGTAGCCCAGTTTAGAGAGGTGTGGGGCATGTGGGCTCCTCCAAAG
TGAGGTTTGAATCAGCTTTATCATAAGCCTGGAGTCATCCAGTAGTCCTTGTAGACACTACCTTTTAGAGATAGACGTCTACTCTTGGGACTGAGATGAA
GCTGCCTGTCCTTTGGGAATGGAGGTTGTGTTCGTCAGATTCTTAGTTACAAGCAACAGAGCCAGAATTCCAATTTAAGTAAAAGAGAATGTGTTAAGAG
GGTTTTGGAGAGCTCACAAATAGGAACAAAAGAAGTTTCTGCAGCTGGAACCAAGACCAAAATCAAAACCTAGAACTGGTCTGGCAAGGACCCTGATGCA
CTGTTGCACCCCCAAAACTGCCAATTCCTTACATAGGGTGCCGCTGCTGGTATCGTTATCAGTGTTGCCCAGACGCTGGGTCTGGCTGCCAGTTCTGTTT
GGGTCAGAAAGGTTTTCCTTGTTCTGCCTTTTGGTCCACTAGTTCCCTAGTCATTGTCAGTCCAGGGYCATCTCATTGGCTAAGCCTAGGTCCCTTGGCC
AGKCTGAGGTGAATATTTGATGTTTTCAGCTTCTGTAGTTGGAGAAGAGCACTATCTCCCACAACTCATTAGATGGGGAATTTGCCAAAATAGGAAGTTA
GTAGGGGGTTAAAAAATGACTAAGGCACACTAAAAGGGTCTTGGGAGAGAAACAGCCAAATAGTGGGTATTATGAACTGGTTTGCTTGATTATAGCTAGT
AATCATTTATCATTCACCCACTGCCTCAAGTTTATTGGGCATCAACCACATGCCAAGCAGTGGGTGAGGCACTTTTCCATCCTTTATATCCTGTGGTCCC
ACCATAACCTTGTAAGATTGTGGAGACACGAAGGAGGTCAAACAGTAGCGTCATTTGTGAGAAAGACTTGAAGCACAAGCTGAAAAGATTGGAGGCAAAG
GGGACACTGTGCGTGTCTCAGGGGGCAAGCCCAAGTTGCCCCACAAGAGATTGTCCTCTTGGGAAACTGGTACTAGGCAGATAATGAGAAACTGTTGCTT
CTCTCCTCCTGCCATTCCTGCTTCCTTTATCCTTACTTCCATACTATGTGGCCGACTTGGCCTTCAGCTTCAGGGACTACAGAAATGCTCTTAAAAAAAC
CCCACAAAAAACAAAACAGTTTTGTTTTTAATTGACACATAATGATTGTACACATTTATGGGGTATAGTGTGATGTTTTGATACATGTATATACATTGTG
TAATGATTGAATCAGGGTAGTTAGCATATCCATTACCTCAAACACTTGTCATTTCTTTGCAGTGAGATCACTCAAAATTCTCTCTTCTAGCTAGTTTGAA
ATATACAATGTAAATTAATATACATTGTATACATGTATATTTATATATATTATTGTATACATGTATATTAATATACATTTATATATAGTAATATACATTA
TTGTTAACTCTAGTCATTCTATTGCGCTATCAAATACTAGACCTTGCCATCTCATTTAATCTTATAACATTTATATTTCTCAAAATCCTCTCCTAGATAT
TGTGTATCTCTTTTGAGATATACAGTACATTATTATTAACTATAGTGGCCTTTCTGTGCAATAGAGCACCAGAACTTATTCCTCCTATCTAACTGTAACT
GCGCACTCACTGACCAACCTCTCCCCATGCCCCTCCCCTTCCTCTCTTCAGCCTCTGGTAACCACCATTCTACTCTGTACTTCTATGAGATCAACTGTTT
TACACAAATGCTGCTTTATGCAGAGCTCTTTTTTTTGCAGAGACCCTTCCCTGCTCTGTGGGGATGCCCTCCATCTGTTGCTCCTTGTCCCCTATGGTTC
AGAGTTTACACAGCCGCTTTCCCTAACTGTTTCTTTTTCACATGCCCACCCACTCCCCCAGCATGGGCTGGTGAATTGTTGACTTCCCAGGGTCTGGATG
CCACTCAGTACTGATGACCCAAACTTTCTGCCTCTTCCTGCAGCCACTAAGCACAGCTGGCATCCTGAGCTCCTCTTCTGCCGCTTCCAACAGGTCAAGG
AATAAGGCTCRCTATCGGACCAAAGCCGTGAGCTCTGAGGTGGATGAGAGCCTCTTTGGAGATATCAAGGTAATCCTCAACAAGTCCTTTCAAGTTGATG
CCACCTGCAGGCAGAGGCCCAAAAATGTAGCTCAGGGCAAAGCTTCTGCTGAGTAACCTTGCTCTCGTAGGTAACTCTCAGACTGAAGACAAAGGGGAAT
TCTGAGACCTGAGCTGCAGAGCTTTGGGATCTAGTGGGGCCTATGTAAACAGGGACACCTAGCTTCTTCCACCCTAGAATCTCTCATGTCTTCACAGTGT
TTAAAATCTGTTATAATGTCAAAAGGGAGGCTCAGCTGCAGAGAGTGCAATAGTTGCTCAGTTGAGCTCCATGATGGAAACATTGCAGGGCTGATGGGCT
AAGCTTGCAGACAATAGCAACATCTTCCCCGCTCCATCCAAGGATAATAGCATCAGAGTACAACACAAAACCATCCTCCTTTCCCAGTTGCTCAACTAAA
ACAATTACTTAGCTTTGGGAAACGAGCAGGTCTTTATTTGCAAGTGTTATCTAGACCAAGAGGTGGACAACTCCTTTAGTCTAGATAAAGAGAGCTAGAT
AGTAGAGCTTTGACTGATTTTGGTACATATGGAGTTTAGTAGGTAAGAAGGAAGAGAGGGAAGGAGAAAAAGAGAATATGACATGGAGAGAAGGGCAGTG
AGAGATTAAGAGAAGGGGAAAAGAGAAAGAGAGACACTAGTAGTGACCTGAATGCCTCTGCCAGTGGGGAAGGTGGGGAGAGGAGTGTTGATGTCTGTCC
CTGCTCTTCAACATCTTCATTGTGAATTGAAGAGGACTCTCCAGAGGGATTGAGATAGGCTTCTTAATCCATTTAGAAGACTCTCRCTCTGCAGCAGTTT
TCCTGTTGGTAAGGGAAAGGATCAACAGATGCATTTATTTTTTATTATTTTTTTAAAGATAGGGTTTCACTCCTGTCACCCAGGCTGGAGCTGGAGTGCA
ATGGTACAGTCTCGGCTCACTGCCACCTCCACTTCCCAGGCTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCACACCACTG
CACCTGGCTAATTTTTGTATTTTTTGTAAAGACAGGGTTTCATCATGTTCCCCATGCTGGTCTTGAACTCCTAAGCTCAAGCAATCTGCCCACCTCGACC
TCCCAAAGTGCTGGGATTACAGGCGTAAGTCTCCCCACCTGGCCAAAATGCAATTTCACTTACAGACATTTGTATTGTTGTTGTTGTTTTGGGTACATGT
GGAGTTTTCTAGTCAAAGCAAAGAGAGATTTGGAATTGGCTGAGTTCTCCAGGAGTAGTCATGCTGGCTGGCAAAAGGGGGCTATCAGAAAAATGCTTGT
CTCTTGTCCAGTTTCTTTGGCCTCATTGATGGGTAAGAGTTCAGGAAGTCTCTCAATGGGCAGTAGAGGGCAGAAGTGGCCTGTGGCACGACTGAGTTGT
GCCCACGTGAAAGCAGAGATGGGCACCAGGTGGCAGCAGCACACAGGGGACTGTGGGTGCAAAGTGAGGTAGGACAAGTGGGGCCATCCCCCTGCCTCTG
GTCAGGAGCACAGTGGCTGCATTAATGACACATCCTTTCCTGTGTTTAGACATTTTCTGAAACAGGTGATTTCATTTAATTGTTATCTAACTCCTTCAGG
GTCGGAGAATTTTGAAAAAAAGAAAAAATCACACAGTTAGTCTGTGTTCTTGCTGAATTCTAACTCACTGACCTCCTCACCACCAACTCAATGAGCTGGC
AGAGAGCTACCCTTAGATCTTAAGGGTAGGCCTCTGCAGGTCATTTAGCGATTTCTAACTCCCTGAATATGGCTTTTTGTGGGGGTTAAAGTAATTTAAT
CGTAAGAAAGAATTTAAAATTACCAATATCAAAGATTGTAAGAGTCTGTAACAAATTATATTGCTTCAAACCCACTGTGTGGTCCTAGAGAGATAATTAT
TTCTTCTTTCATAAAGGAAAATCTTTCATGGAGAGAGGAAAACCTAGAGAACAGAAATTTACTTTAATTCCTGATGATTTTAGACTAAGTATAGACACAC
ACTAGTGACCCCCACTCCTTGYTATCCCTACCATTCTGCGAGGAATATCTGTATAAGAACAAGAGACTTGTTTTCAGAAAAGCTGGTCAGGGCTGGGCAT
GGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCCAGGCGGGCGGATCATCTGAGGTCAGGAGATTGAGACCAGCCTGGCCAACATGGAGAAACCC
CGACTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGTGGTCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGGAGGAGAATTGCTTGAACCCGGG
AGGTGGCGGTTGTAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAGAAAAGAAA
AGCTGGTCGGTACACATCCAGCCATGCTCAGATACAGGGCATCACGCTGCYCTATCCTTGAAGTTAGGACTGACCAGCAGGAAGTGGGGGTGACAAGCTT
CTAAGCTATTCTTTCTGAACTCATAGTCCCCAGCCCAGGGCCAGAGCGACAGCCCCATTGTGCTGCTCCGAGATAAGCATACCCTTCAAAAAACTCTCAC
TGCTTTGGGCTTGGATYGCAAGCCAGAGACCATCCAGCTCATCACCCGGGACATGGTCCGAGAACTCATGTGAGTACACYGTCCCCKGCCSTTCTATGTC
CAGTCCTCATCCTTTTGCTAAGGATCTTTGTAGGGAGATGGGTAAACCCACCTGGTTTCATTCTGTCAGTCCAATCCCCACTTCTTTCCTATTCRTTTTC
CCCTTTTTGTTTGATAGTTCTTTCTTTCTTCTCCATCCTGGCCTCTCTTGTTTCTCCCATTGTTGTATCTATTATTGCCACTGTCCTTTATTCTCAGCTT
CATTGTCCTTCCTTACTTCTAGCTGGCTGTGTGAGCTAAGGGACTGGTAGAGAGGAGGTGCTTAGTGAGTCCTCTCTAAGTCCCCATTAGTACCCTCCCT
AAAGGGAAGTGATCCAGATGAGTCACTTCCTTTCGGCTGCATTAAGAATCTGAAGCAAAGGGAAACTGACCAGATGCCTAATTAGCCCCCTGGCTTCCTC
CCAGACTCTAAGGCCATAGGAAGAAATTCACAGGGGCTCCCTGGGTTCCTTTGGGATTAGCTCAACCCCACTTCCTGACTAGAGCTGCCCCCAGGCTTGA
GCCCATCCTGTGGGACTTAGGCCTAGCTCAACCATGTGCCATGAGCCAACACTGTGCTCAGTGGTTTAACTCTTGTGTTAGTGCTTCACCCTCTACAACC
GTTCTCCCTGCCCTRGCTCCACCCACTAAAAGCCCTAATTCCCAGAAAATCCTACCTGTGTCACAAGCTGGAGAGGCACATCTAGCACACACCCCGGGAG
CTGTGTCGGACTGCGGCCCCTTACTGAGCATGTCTGGTCAGCCGTGGCATCAAGTGGCCAGATGTGGCTAGAGCCCTGCAGCCACTCCTGGAGCCAGAGG
AAGGGAGGAAGGGTTCCTTCTTGGAGCCATCTAGTCCTGAAAACACRTTGGAGGACAAGTGGCTGGTTATTTTTCAGGGATGCTGAAAGCAGTATAAACT
GCTGTCTTAGATTCGGATCACTGCTGGTCACTCCAGATCCTAGGCTGTTTAGGGCCACGYTGCTTTGTGAAACACAAGRTCTTGGCTAAGCTGCAAATCT
ACTCACTCATTCTGTCCATCTCCTGGACCACCCTCCCCCAACACACACACATTAGTTTTATTAGATGAGGTTTCACTTCCTGTCTCAGATGTCTGTGTCT
TATTGGCATGTACCTGTCAAATTGGCATGTACCTGCCTCACCCAGAAGCAGCTTTCTTCCCACCCCCCTAACTACTCCCTCCYCCATCTTTAATATRTGT
CATTTGCTTGTAATCATTATAATTAGCGATTGGTTTGTTGAATGCGTTGGATAGCTAGAAAGGAGAGGTCTATAGACATGTCTCTGGCTATTGTTGATCA
CRGATTTTAATTAATATTTACAGTTCAAAGCTTCTCTCTAGGCTGGATGGGCAGGGAAGCTTAGGTTTCTAACTAGCATCTATATCAACCTTGTCTGGCG
TCCCCTTGCCGTTTTTATGTCATCCTTGAGGAATAATCTGTTTTTAAAATTTAATTCAACAGCTTTGTTTTGAATTCTCACTCTGTACCAAGCGCTATGC
CAGAGACTAGGCTACCAGTGTGGTTAAGACAGAGTTTGTGTCCTGAAGGAGCTCATAAAGGAAACAGAGCTGCCCAATTGGCTGTGATACAGGCAGTAAG
AACAGAGTGCAGTGTGGGCTCAGAGGAGGAGGTGATCTATTGGTCCTTGGTGGGGGGGCAGAGTGGGCACATGTGGACATGATGGGGGGTCTCAGCTGCA
CAGAGAAGGTAACATATGAGCAGGACCTAATAGAAAAAGGACTTAAAATGTCTCTTTTTAGCCTTCAATGCTACCTGACCCCCCACTTGGAACATCTACT
CCCCAGTGGACCCATGSCACACTTGCCGTCTCTTCTGCCATTGGGGGAGTCCACTGGCATGATGGGAAGAGGGGAAGAGAGCAGAGAAGCCTGAAGTGTG
GTGCTGAGAGCTTTCCCTCTCCCCTCCCTAACTCTGTTTATTCTTGTGWCAGTGTTCCCACAGAGGATCCCTCCGGGGAGTCCCTAATCATCAGCCCTGA
GGAGTTTGAGCGAATCAAATGGGCATCCCATGTCCTGACCAGAGAAGAACTTGAGGCCAGGGACCAGGCCTTCAAGAAGGAGAAGGAAGCCACCATGGTA
GTTAACCTCCCTAAGCCTTCACCTCTGCAGATGGGTGGCAGAATCAAAATGCACTGGGGAACTCTCATCAGGGGACCCTGAAATGAGGCACAAATTATGT
ACTTAATGAAGAAATATTACAGAAAGGAGACCAAAGAGCAATACCTGAGATGAGAGGTGGGAGCAGCCGGGGCCAAGGGGAGGGCTGAGAATGAAGCCAG
GCTGTGGAACTTCTTGGCTCTGACATCATCACTGGCCAAGGCAAAATTGTACTGGGTCACCTGTGGTAGCCAGGCTAGCGCCCAGGGCACAGAGCGCATG
AAATAATCTCCCACTGAGCCAGACTGGTCTCCCTTAGGATGCAGTGATGACACGAAAGAAGATCATGAAACAGAAGGAGATGGTGTGGAACAACAACAAG
AAGCTCAGTGACCTGGAGGAGGTGGCCAAGGAACGGGCCCAGAACCTCCTGCAGAGAGCCAACAAGCTGCGGATGGAGCAGGAGGAGGAGCTCAAGGACA
TGAGCAAGGTGGGCTCTTCGTCTCTCCCTTCCCTCTGAGCATTCACTGCCATCCCTCCGCCCTCCCCTTATTCCCGCACTGGACAAGGCCAGGGACTGGT
GGGGGTGTGGGCAGGGGTGGGGCGGGGGAGAGCTGCACCTGCTGTGGTAGTTGCAGTGATCACAGTGAGGACTGGCTCTGCCACCTGTTCGCTGTGTGAC
CATGGGCAAGTCACTTGCCCTCCCTGAGCCTCACTTTCTTCATTTGTAACTTGAGGGTGGTAAAACTACTTTGTGGAATCATTGGCAGGATGAAATAAGG
TAGTAGAYGGGAGAGGCTTTGTGGGCTGAGGATTGGTAAATTAAATGTGCAGTGTTACTTTTATTTTCATCCTGTTAGTTCAGTTCTGGCCACGTATGGT
GGTCGAGGCAATTGGATGCTTTTGGAGTACCCAAAGCTTTTCCTTTGGCTGAGAGCCTAAAGACCAGAGGCTCATTTGAATTCTGTTGTAACTCATTTGC
ATGTGGTTCACTTCCTTACCAAATGAAAAGTGCTGATTCCCCAATCCCTGCACCTCTGATTTCTGTCTCTCAGGTAAATCTTCTCTATGTATGCCTCCTT
TAATTTTCTAAAGGTTTTACTTTTGGGTTCTTATTCATGGGCCCGTGGTTTTTCATCCCTTTTGTGTCATGTTGGGCTCTTCCAGCTTAAAAATCTTGTG
GCCTGGCCTCTGCAAGAGTGTCTTAGCTCCCCTGAGGAGAACAAGGGGTCCAACCTGGAGTTCATGGGTCTCTAAGTGGAACAATGGACCTCTGAAGTTT
TATAGAAATTTTGTGTGTACATGTATAAGTGAGTTTTATGGAGGAGAGGGCCGTTGCTTTCATCATATTTCCAAAGGGTGACCCATTACCACCAAAACCC
TAAGATGTAGCTCCCTGAAAGATGCTATTCCAGGCCCCTCCTTGCACAGACCCTGGCACCTAGCAGGAGGCCAGTAAATCTTTGAGCTAAACTATATTAA
GGGGAAAGGTAAATATAAGAACATTCTTATTTCCCCGGACTTGTGAGCAGTCATGCACACCTCCAGCATGCTCAGCAGTATAGCATTCTGTTTCCATTTC
TTCCCCTTAAACTTACACATCCCTAGGCCTAGTGCTACAGTTTAATCTCCACTCTCCAGATTATCCTCAATGCTAAGTGCCATGCCATCCGGGATGCCCA
AATCCTGGARAAGCAGCAGATCCAAAAAGAACTGGRCACAGAAGAGAAGCGGTTGGATCAGATGATGGAAGTGGAGCGGCAGAAATCCATTCAAAGGCAG
GAGGAACTGGAGAGGAAGAGGAGGGAGGAAAGAATTAGGTAAAGATGTGGTTTTGGCATCTCCCTCTCTAAGCTATTTCCATGTATCTTTAGGTCCATGT
AGCCTAGCAAAGAGGGAAGAGATGAGAAATGGTCATTATTGTCATCTACTTATTATCTCAAAACTTTACGAAGTGATACATAGAATCACAGAACTTTTTT
TTTTTTTTAGAGGGAGTCTCACTCTGTCGCCCAGGCTCTGGAGTRCAGTGGCATAATCTCGGCTCACTGTAACCTCCACCTCCCGGGTTCAAGCGATTCT
CCTGCTTCAGCTTCCCAAGTAGCTGGGATTACAGGCATGCACATCCACACCCRGCTAATTTTTGTATTTAGAAGAGATGGGGTTTCACCATGTTGGCCAG
GCTGGTCTCAAACTCCTGACCTCAAGTGATCCCCCGGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGYGTGAGCCCGGCCAGAATCACAGAATTTTTAG
AAGCTTATTTCCCAAATCCTAGGAGGCACTTCACAGTCTGGCTGCAATCAATCTCGTTTCTCACCCCTACCTGCCATCTACTCTGTGCTTTTTCCCAGGC
CCCCAACATGCCAGGCCTTGTGACAAGTTCTTAATTTTTTTTTGTTTTCTCTTTTTTGAATACCCTTTTCTTTCCTTTTCCTCCTGGAAAATGCTGTCTC
CTTCCCTTTATATATAGCTTTGCTGTCACCTCCCTCATGTCACTAGGCAGGCTTAGTGGCTCCCTTCTCTGTGCCCATCACTCTGTGTTTATGCTCCAGC
ATCCCACTCTTGTGCTGTGGCTTTCTGACCCTCCTAGATGCTACGCTCATTGCGGACAGGTCCTTTCGTATCCAGTTCTGTAGCTTCTGAGCCTAGCAGA
GTGTTTGGCCTGTAATAGGTGCTTAATTCATGTTGGGATGAATAAATTCAGTCTCCCCTTCATTTTGTGCAGAAAAGGACAAGTCCCAGAGCAAGTAAAT
TATAGAATAATAGTGTCCTAGATTTAGAACGCCAACCATACAATACATGAATTACCTTTATAAATAATCTTTGTACCACACTGAATGGCAGTTTTATCTC
CCCAACTGTATCCTGTTCTCTGGAACCATTCATCTCTGTGTCTTGTGTACTATACCTGGTACATTCACCTCTGTACTTCTGGTAGGTACCTGGTATACTA
TAGTAGGTTCCCAGTGAAAGGTTACTGAGTGGCTAAGTGGCTGTCCATCTTCTGCATAAACAGCTCCAGCAAAGGAAAACTCTGTCTTGTTAGGCAACTG
TAATGATTTGAGCTGGTCCTTGTATTGAGCCCAAACTTGTTTTCATGTAACCCTTTTACTCTTTACTCCTGTTTACTTCATCTGGAGTCATGAAGCCATT
CGAGCACTCCATCTGAATGTGGCTCTCATACTCTTTCCCCTCAATTCTGATCCTAATATGTGTCTTCTCCCGTTCTTCCAGCCTTTACTCATATGTCATG
GGGTCTATGCTTCCAAGTTTATTGACATCCCACTAACACATAGGGAATCACTGACAACATTGCTTGTACACCCTGGGTTTGTTTGTTTGTTTGTTTGTTT
GGCTTTTTACTATTCAGCTAGCTTCCTATGATTACTCTGGGAAGAATTGGGAGGTGGTAGGATTTCAGAAACTCTTTATATACTGGAAGGTAGAAGGTGT
TTTATCAAGTGGGGTACCCCTCTTGGACAAACAAATAAAGAAGGAGAATCTCAGGAAGAGTGAGCCCTGGAACCAGGAGCTCAGGAGAAAGGAGGCCAAC
CCTTGAGGTCCTTCCTGGGGGAGGGACTTTGGTCTGGGCTCATGAAGCATATTCATGTTTAGGGGGCACTTGTCAAATTGTTTCGGTGACACCACCCATC
TTGGGGGTTGTTTAGGTGGAGGTTGGACTCTGGGAGATGTGGACCCKGGGTTTCTAAGACACTGTGGCACTGTTCTYTCCAAGAGGAAGGCGGCAAATTG
TGGAACAGATGGAAAAGAACCAGGAGGAGCGATCGCTGCTTGCTGAGCAGCGGGAGCAGGAGAAGGAGCAGATGCTGGAATATATGGRACAGCTCCAAGA
GGAAGATCTAAAGGTAACAGGCCAGACAGACAATGCCACGTTTCACCAGCTGCAGCATCAAAACCCTTCAAGACTCTGGGGTKTCAGGGTGTTGACTGAT
TTTCTGCCAGGCACATGCTCATTTCACAACATCATCACCGTCAACTTTTTATTGCCATGTTAAATATTTATTTCACCATGGTGTCACGCTGCGGGATGAG
CAGTGATTTGGATAGATATTGTCCCTTCCTTCCAAGGACTTGAGGTCCAAGACTGACATATCACTGTGAATAGACACATAAAGGAAATATATGGCTGCAT
GCTTTGCACAAGTAAACATAGGGATGTTTTATAGTCTTCCTTCAATCACCTAGGGATATTATATACTTTGTAGATGAACAGTAGCAATATCTTAGTTCCA
GACTCCCTGCTGTTACTTCACTCAAAGTACATAGCATCCCATTGYCATTAACTGTGTTGTGAAGCCAAACCTTTTCTTCCTGTTAGTCCAAATAAAATTA
GTAAGCATATTTATTGCAAAAGAAATGACAACATACCTGCCCAAACTAAGAAGACTTAAAAAGTCATCTTCTGTATGCCTTCTCTGGGCTGTAACAATGT
ATAAAACCCTTTAGCACAGTGAGGGACATGGCAGGCACTTGGATAATTTATTTTTTTCCTCAATTTTTTATTTTGAAAAATTTTGCACACACAGAAAAGT
TGAAAAAATTGTATCACACCCATCAACTCTTCACCTAGATTTAATGATTGTTAATCATTTACCTTAGTTGCTTGTTTCTTTCTAGGTGTGTGTGTATATA
TATATATATATATATTTTTTATTGTTAAACTATTTGAAAGTAAGTTGCAGATATCTTGACACTCTGCCACTAAATGCTTCAGCCTGCAGCTCTGAAGAAC
ATGGACACTCTCTTACATGTCAACAATACCATTATCACCTCCTCCATCAAAAACTTGAATTCAGTGATTCCATAATATCATCTAATAGTTAATCCACATT
CACATTCCCCAATTGTTCCAAATATGTATTTCTGGCTCTCTTGTTTCCAAACTAGACKTTAATCAAGGTTTGCACATTGCATTCCGTTGAGYCTCTTTAG
TTTGTTTTGATCTAGAAGAGTTCCCCCATTCATTCATTCATTCATTCATTCATTCAGTTCTTCATTCATTTTTATAACACTGATATTTTGAAGCATCTAG
GCCAGTTGCCTTTAAGAATATCTCACATTCTGAATTTGTATGATTGCCTCCTCATGGTGCCATTTAACTTGTGGAACACGTATTCTTTTACGATTCTCTC
CCTCCCCTGTGTTTATGAATTGTCAAGTTGTCATCAGCTAGTGCATTTGATGGTGGTGAGTGACAGGGGGACGTGAAGAGTGCTGCAGGTGGGCAGACTT
GTAATTATGAAGYCTTCTCATCACATCTGCAGTGTGAGGAGCTGCTAGAGAAGTGCAATGAAGATCACCTGGGTAGTTGGGAAACTGAAGGGGCACACAG
CTCTGTGAACTGCATGAGAAGGAGAATAGCAGGGTGAAGGCAATGAGAGACCTGGCCAAGTTACTCCATTTCCTGGCTCAGGGGAGAGAGAGTGGGAAAG
GGCCAAGAAGGAAAGTTATGGGGCAAATATGCAAGGTAGTGGGTGAGAAGTGAGGGCAGGAAAATCCAACTAGATGTGGGGAGTGGGAATTAGTGGGCTC
ACTGAGGAAGTTCTAGGAGTCCATGAGTCAGCACCATTATGTTGATGTTGTGTCATTATCCTTTTAATGTCCTTCTAACAGGCACTCCCTGAGTCTCCAG
GAAGTATTATTGGGCAACTTTAGCAAGGAAACCTGTGCCTTCCCAGCTTTAGACCTACTGTATCATCTCATGGTGGTACGAAGGGCAGCGTTTCCCACCT
TGCTAACAAAGGGGRAAAGAGTGAAGGGAATTTATCTGGGGTTGCTTTGGAAGGGCTTCAAAAGAAACAGGGAAAGTCCTTTGGTGTCTTGGAAWTGAAA
TGAGCCAACAAAAACAACAATCCAAAAAGTAAATAAATAGGGAAAGAAGTAAATAAATACATGATTGTATGTATGTCATACATCAGAAATCAACAGCATC
TTTAGCTTTGAGGGCCAGTGAGATTAAATGATGTCTGGGATACAAATAGCAGGCCTAAAATCAGTGAGAAGCAGTTAGGAAGGAAAGGAAGAAAGGGAGA
AGGGGGAAAAGGAGCGAGAGAGTTGGAGGGGCAGAAAGGGAAAAGTGGAGTGAGCAAAGAAATGAGTATGGTGAGAGAGAGAGGGAATGTCTGTGACTCA
CGCACCACATGGACCTCAGAGGCAGAGAGTTGCCATACCGCTCTGGTTCAGAAGCCTTCCTGAAGGAAGAAGCCTTGAACTGGGCAGTGAGCCAAGCTGG
CAGAGAGCCAGCACTACAGGAAGACACACAGGGAGAGTTACCTTGGTTAGATGAATCAGGGCAGCAGCTGGGCTGAGGAAGACCTGGAAGGCCAGGGAGG
GATTTAGTCTTTGGAGAAATGGAGGGAGCTGGAAACAGTGTGGGAGGTGGGGTGAGTTAATCAATAGAAGAACTTAAGGAGTCTGAGATTGATTGGAGGT
GATTGGGGGGCCAGCTGTTCCCCTAATTCCGATGCCCCTCTGCACCTGAGAATGTGCTTGGCTCAGAAGTGGTCTGATCATTGAGAGCTGTTGAAGGCTC
AGGTCTGGGAAAGGCAGGGGGATCCTTCCTTAAAAACGACCTTGTTCACATTGGTACTCTGATCTCCGTCAAATGTTTCCCTGTGTCTAAGAACTTTTTT
TCTTTCCTTTCTCACATGCCTCTCACTTTGGTCCTACCTTTCCTGCCTCATTTATCAATGGTTTATCGAATATTTGCTATTTTCCTTGCATTGGGCTACA
TGTTGTTGGGGAAGAGAGGATGTGTGACACAAGGTCCCTTGTCCTGTAACTGGGGCAGAGCGAACACATATGAAATGAGTGGGGACCTGCAAGGCAGTGT
ATGATCACCTTGCAAGAGGTGTGTCGCCACCTTAAGTGCAGAGAGAATTTAGAAATGGAGAGAGAATTGAAAGTTGAGGCAATCAAGCAAGATTTCCAGA
GAAGGTTGATACTTTAATTTAGACAGAACAGGTTTCAAAATTTTAGCTCTGGAGATTATAAGCTGTGTGGCCGGTGGGGAAGTCACTTCAATGCTGGGCC
TCAGTTTCTTTATTGGAGCAAGAGAGATAACAAGGCCTACCTACCTTTTAGGATTTTTGGACATATTTAGGTATTAGAGATAGTCTGTGTACAGTGCTCA
AGAAATAGAAAGCACTCAATTAAGGCAATATGTATTATTTCAGTCGTCACTATTGACTGGAGAGTGAAAGTTAGGTTTAAATGGGAGAGGAACATTGAAG
GCAGGAGAAGCACCATGAGCAAAGCCACAGGGGTAGGATTTAGCAAAACATGTGAGAGGCAATTGTATGGAACTTTAAGAGCTTCTGCTTCCTGAAAATA
TAGAGATCAATAGCATCAGGGGCTGCCACAAAGTCAAGTTGGATGAAGACTGTAAATAGGCCATTTGGTTGAAGAGGGTATTTATGACCCTTGAAAAAAC
AGCTTTAACAAAGGATAGTTGTGGACACTAGACTGCAGGCAATGCATTTGCCCCCTCCTCTGTCTGCATCTCTCTATCCCTGGATGCCAGTGGCTTCTTG
TCTTACCTCTTTGTACTCTGAGGCTCTCTTTCTTTTGCTGGCAGGACATGGAACGAAGGCAGCAACAAAAACTGAAGATGCAAGCTGAGATTAAGCGCAT
CAATGATGAAAACCAGAAACAGAAAGCAGAACTSCTGGCTCAGGAGAAGCTGGCAGACCAGATGGTGATGGAGTTTACCAAGAAGAAGATGGTAGGGACT
TGGTTTCTGGGACCTTTGGTTAGGAATGGAATGTCTGTCACAGGGAGAGGAGGGCCTGAGAACTAAGGGAACTCCAGTGGAAGGCAGCCGCACCTTCATT
CTAAGATGCACATCCTTAGTTCAAGGGCCTGGCTTCTTTGTCTCTTCATCTTAGCCAGTCCACTTGTTYGTTAACAGAGACAGCCTAGAAAGGACAACCA
AATTAGCTTTAACCTCATTAACACCTTTGATTAGAAGTTGGGATGAGGGCCATATGCAGGCAGAAAAGAAAACTGAAACTATTGGTGAAAGTGAGTTTTT
TTGTGGATTTGTCATGACTTGCGTAATTATACCCCCGGTAATCATGAGTCAGCGGTTACATAAATTTCTTGTGCAAATGCCTATATTGGACATCCTGTAT
TGGGTGCTAGACTCAGAAAATAGTCTTCCCCCATCTCCCACCAAAGAACCTATATGACAGAGCAAATGCACAGTGGAGGAGAGAGCCATACCTGCAGACA
GTTGCAGATGGATGTAGCTCATGAATGTGTCAGCTCATTCTGGGGCAAAATTGAGTAATAAAATGATTGGGATCTACGGGGATTGGAGAGTAGAAGAAGG
CTTTTAAGAGTGGTATAGATAAAGTGAACATGGATTTATGTAAAAAGAGGAGGAAGTACTCAAGGTGGCAGGAAAGTTATTAAATTCTTCATGTGTTGAT
CTTGTCTGCCCTGCTAGTTTTGAAATTCCATGATGACAGAAACACATTGTACTTCTCTATGCTCCTCTATAGTAGTGATTTTTAAAGAAGGCCAGGGGGA
GGGTGTGAGTATAATTTGAATGGCATATTTGGTACACCTATATGTTCTGAATACAAACCACAGAAAATGAAGCTCAGCGAAGCTCACTTATTGGCTTTAG
TATTCTTATTGGATGCTGGGGACACTCTATGCAAGCAATAGAGTGAGAATGCAGGTTTGGGGACATAGATGATTCCTACATAATAACAATCACATAACTA
TCATTTAGTGAGCACCTAGTCTGTGCATAGGCTCCGTGCTAAGTGTTTTACACGTGTTATCTCTTTTAATCTTTACAATAATCCTGTGAAATGGTCACTG
ATGATTCAAAATATACTGGATGCTTCAATATGTGTCCAGTCAGACTAGGCTGAAAATACCTAGGATAATGCTGTACCATTGGAACTCAACCACTATTTTC
CCAAGTGAATGAAGGTGGGGATGATGAGCTAATTCTGTGTAGGAGTTAGTGCACATATTTTCTGGCTGCAGCAGAGGGTTGGTAGTGGATATAATAAGAA
ATGAGGGTGGTGAGATGACAGAGAGCTAAGAGCAGTTGTTGGGGTGTCTTGGACATTGAGTGGAGCTGGAAGAGTGGAATGATAAGGAGTCGCCATGAAT
TTCTAAGCAAGAGAGGAGTATATCTTGTCTTTATCATGGAAAGGACATTGTCAAGGTGTAGCTGGGAGAGGCTGGAGACTGGCCACGGAATCAGGCACTT
GGGCATGTCCACAGTCCACCGTAAGTATCTACGTATATCACAAGCCCTTACCGACCTCACGGTGGTATCTATTCTTGCAGCCAGGGCTGCCCCTGCAGAG
CTAAAAGCAGAAATTGGTTGTAGAAACACCCAGAGTTCCCTGTCCTGTTATCTAGGGCAGGGTGGACAAAGGAAGCAGCTTGACAACAGCCCCGTACAAC
TTACAGGGACAACTCACTGGGCTTCACAGAAGTCTGGGCAGGTAGAATGAGGGCAAGGAAGGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAGATGTAG
TCTTGCTCTGTCACTAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAGCAACCTCTGCCTTCCGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCC
GAGTAGCTGGGACTACAGGCATGCGCCACCATGCTCAGCTAATTTTTGTATTTTTAGTATAGACACTGTTTCACCATGTTGGCCTGGATTGGTTTGATCT
CTTTACGTCATGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCTGGCCGGGAAGATTCTTTATAAATGTCACATT
TGCCTCCAACCTGCACCATTCATCTTACGATTGCTCAAGAATGGCGTTGGGAAGCGGGCTTGGGAAGCTTTTAAGGATATACCTGTTTTTTCAGAGAGGT
GGAAAGGGAGCTAATTTTGGTGGTTCATTCTTTAAGTATCTGGTAACCACTGTGGGACTGCCCAAAGCATGGTTGGCTCTTTGCCCAGGGACTAATGAGA
TAACCTCCACCTGCTGTACTTTACAAGACAGGCACAGGACCAGTTGTTTCTTGGCCCAGTAGCCTTGCAACTTGAAAATTGTCTATGACATAGTGGAAGG
AGTGTGAAAGCCAGGGTCAGGGTACCTGTGTTCAAATCCTGTTAGGTAGTTTACTTCCTGTGCAATCTTGGGCAAGACCCTTGATCTTTCTGACCATCCG
TTTCCTCATCTATAATATCTGTCTCAGGAAATGTTGTGAGGGCTCTCCAGGATAACACATAGGAAAGTGTTTTGTAAACAATAAAGCATTTTATAAATGC
TAATTGTTTTATATTCATGCATTGCTAAATTCATTTTACCTTATTATTTATTTATTTATTTATTTATTTATTTATTTTGAGACAAGGTCTTACTCTGTTG
CCCAGGGGAATGCAGTAATGCAATCATGATTCACTGCATCCTCGACTTCCCAGGTTCAAGCAGTCCTCCTATCTCAGCTTCCCGAGTAGCTGGGACTATA
GGCACATGCCACCATGCCTGGCTAATTTTTAGATTTCTAGTAGAGACAGAGTCTTTCTCTGTGGCCTAGGCTGGTCATGAACTCCTGGGCTCAAGTGGTC
CTCCTGCCTCAACCTCCCAAAGTGCTAGGATTATAGGCATGAGCCACGGCACCTGGCCTTATTTTGTCCTATTTTAAAAGGAGTCAGGAAGTGGTAGGRG
AGATATTGGAAAGTCTGTTGTAGGGGTTTTGTTTCTCTCTGCAAGGCTGGGGCAATGGCAACTATTCTACAAGGCCTTTCCTTCCGGCAGGCTCGAGAAG
CAGAGTTTGAGGCTGAGCAGGAGAGAATCCGGAGGGAGAAAGAGAAGGAGATCGCACGCTTGAGGGCCATGCAGGAGAAGGCCCAGGATTACCAGGCAGA
ACAGGTACCTGCTTAGTCTCGACTTCCCTCTACTTTTCCCACTCCCTTGCCTATCCATCCCTTTGACAGCCTGTAGAATGGCCTTGAGGGTGGAGATGCG
GAGGAAAGGATGCAAGTTACCTAGACTTCAGTAGTCTGAGAAGGAAGGGGTGGCCTGCTCCCAGGGCCTGTGTCAGCAGGGATTGGGCAGTGCAGCCTGT
GCTTAAGGTTCAAGAGAAAGTTTTTCGCTGCTCCATAAAGAAGAACTTTCAACCTTAACCAACCAATGAAATGTGTCACCAGGGGAACCTGTGGTATCTC
CATCATTAGCAGTTTTTAAAATTAGAAGCAATTTCAAGACTGCCTGGAGATGTCTGAGGTACAGGGAAAGAACTGGGATGAGTGGGTTGGAAGGACAAGA
TGACCCCTCAGGTTATCTTCTAACCCAAAGGTTTGATGACAGGATTCCATTTATCTTTTCCTAGAATAACTAGCTGCCAGAGAAATTCATGATGCTTTTC
AAAGCAGACTGTCAGAGTCTGTAAGTAGGTATCTTCTTAAAGCCACTTGGTCTGTACTTCCAGCTATTTTGTGCCCTCACTGGTCCCCTGCCAACATTCC
CAGGATGCCTTGCGGGCCAAGCGCAACCAGGAGGTTGCAGACAGAGAGTGGCGCAGAAAGGAAAAGGAAAATGCGCGGAAGAAGATGGAAACAGAGGCTG
AGCTGCGAAAAAGTCGGCTCGAACAGGTGGCTTTCAAGGAGCACGCTCTGGCTGTTCAGGTGCAACGGGACCGGGATGAGTTCGAGAGGATTCTTCGGTA
GGAGGGGCCTGGGAACCTTGGATTCCTTTCCTTGTACTGTAGCAGGGATGGTCCATATTGGATAGAGAGAAGCTTTCTGGCATGTTAACAGATGCTCGTC
GATCTTGTCTGGGTTGGTGGGATCATTATAACTAGATGGATGATTGAAACTTTTAAAAATCACTTGAGCCAAGAATTATGTGATTAGAGAATTGGGAGAT
AGCACCTGGAATTGCTTAAGGAATTGGTGATGACTGGGATTATTTACCCTGGAACAGTAAAAGTATAAATAAAGGTAAAATTCTGGTCCATTCTGCTGCC
CTCTGACCCATGTGCCCCTGCAAATTGGGGATGAAACTGCAAGAGGAGTGGTTTAGGAAAGATAGAGAAAAGAACTTCAGACACTAAGGGTTGTGAGTCA
CTGGAGCAGGACTTTAAGGGAGCTGTTTGCCGTTCATTTGACAAATATATATTAAGCACAGAAATGCAGGGCTCTGTGCTGGATGCCATGGAGGACATTA
GCAATTAACAAAACACTGCTCTTGCCCATTCCACAGGAAAGGTATTAGAGATTTGTGTTTGGATGGACTGCACCTACATCAATCCATCTTTCTTCCTTGG
TAGCTMTTTATCCTTTTACTTTTGTTTTCCCTTTTGGCTCAATGATAATTTCAACACATAAGTGGAAGCTAAATGTTCACATCTCTCACTGTTCTGCTCC
CTCCCCAAAAGCAGTCAACAGTCACAGCTCCCATTGGTTTCCCTCTCTGCTCTGTTTTCCACCAGTCAGACCTGGTCCCTGGGGCTGTTCTCCTGGTCTA
ACTGGGAATGACTCTCTTTTTGCTCTGGTTCAGACTCTACAACATTAGAATTTTTCAAAAGGAAACAAGCCAAGCAAAATTCGAATTGAAGGGATACAAA
ATTATAGACATTATGCTCAGATAAGTAGAGATTAAACAGTATAGCATCACTTTCTTGGTTCATATGCTCTAAGTCCTTCCTCTTGGCAATGGGTAGTTAG
TGGCATGCCAGACCAGGCTACCCAGACCCCTAGTTAGAGGCAGAGCAGGTCTTCGGGAGCCTCTATCCTTACGAGAGCCAGATTTTTGGCCTTTTATTGG
ACTGCAGGCCCCAGCATGTCCCCCCTGCCATGATACCCTTTGGCTCTGTAATTTTCTCTGCCCCCAGGGTTGTGCCATGGTCACTGGACACCTAGTGAAG
AAAGTAGCTTCCTAAATGCCCCCCAAGATTCTGCCCTTGGGCTACAGACTGCCTTCCAGATGTCTCCTCTCTCCTCCCTGGCCTCTATGCCCTTGGACAT
CTGTGTTGCTGTTAACAGGCACTAATAAATATTAATGAAATGAAATTTAAGTCCTACTTTTGCTGCCGACCCATTTATCTTTCCTTTGCATCATTTGCCT
GAAGCATATGCACTAGCCAGTTATTAAAGCTAGACCAGCCTTTTTGGAGAAGTTCAACTTCACCTATTGTTGTAGGTTAGTATCTAGGCCTAGTGTCTCC
AGGGCCATGTGACCACCATGTTTKGTGTCTTTACTCAGAAGCATCTCTGCCACAGCCCAAATCCAACTTTCTCTGCCTCAAAAGCACAGCCTCCTCTATG
GCCTATATGTGGACTTTTGTTTCTGGACAGAGGGATGTCCATACTTCTCAGCCTGTTGACTAAGCAGAGATAGCTGTCTTCCTCTACCAAGTGGTTTTTA
GAAATGTCTTGGAGCTTTTGAAAAATACGATGACCAGGCTTCACTTCCTAGATTGTGATTTAAATGGTCTGGGATTAGGCCCATGCATGAGTCTGTTTCA
AAAGCTCCCAGGTGATTCTAAAATGTAGCTAGGCTCTGTGATCACTGCCCTAACCCGATGGAACGACCAGGTTCATCCTCATTTGGATTTTCAACTGCCT
GGCACCACCGGGGCTCTCTAGTGACACATACAAGTCCCCCTTTTCCACACTTACCCCTTCACTCAGAAGAGGGTGAAACAATAGAAAACTGTTCTAAATA
TAGGAAAACAATGGCAAGGCAAAGAGGAGAGTCCCCCTGCTATCAGAGATGTGTCTGGGAAGTCAGGATTTGGTGTCTAAATACAGAGGGCTGAGGAAGC
CAACAGTATTCTTCGGGTAAACTGGGAAGTCTCTGTAGAAGGCACAGAATTTTAGGAGATGTTTGCATGATGGAAAGAGTTTCTGGGAGTGGGGAGGATG
CCGCATGTATGGTGGATCTTGGAAGAAAGCTAGAGGGAAATGAGGAAATGAAGCAGTGTTGTAGGTACCTTTTGTTGGGGTATCRGTGACTCTAGGGGAG
GAGAGCAGGTGAGAAATTCCTGCCTAAGATGATTTTACATTTCATTTTTTAAATTATGTTGAGAACAAAATTAGATGTTAGCTTAAGAAGGCCTATAAAT
GCATTTTTTTCTGAGATGCGAATGCATTTCATTTGAGTGTTTTCTGAGCCTTTCCTGTTGCCATTAGTGATTTTCTCCCTGATGTCAGGGTCCATCAGGT
ATTTTTGTGGAAGAGGTTTCTAAGGGAAATTTGGAGAGGTGGATCAGGAAGAGAACTGAGCGATATCAGGCTGAGCTCCTTCCTTCCAGTAACCAGGGTG
GAGCTAGCATGACACTTTATGCATCTTTTACATTTCCAAGCATAGAGGGAGGGAGGGAGGGAGGCAGGAAAGGAAGGAAGGAAGCAAGGAAGAAGGAAGG
AAGGAAGGAAGGAAGGAAGGAAGGAGAAGAAATCTCAGGATAAGCTGGAGAGGAGTTATACATTGTTATCAGGGAGAAGTAGGAACAATAGTTCCCAGTG
GGTGAAACCCTGGGTGTAAGACTGGTTGCATAATTTTCAGGGCCCAGTGAATATTGAGAATGTGTAGCTTGGGCAATGTAATGAGACTTCATCTCTACAA
ATAATAAACAAAAAATTAGCTGGGTGTGGTGGCACTCTCTTGTGGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGAATCACTTGAGCCCAGGTGGTTGAG
GCTGCGGTGAGCTATGATAGCACCACTGCATTCCAGCCTGGGTGACAGAGCAAGAGAGTGTGGACTCCCTTGTTCAAAAATTATTAAGAATTTCAAAACA
GTGAAAGCAGAGCATCAAACCAAGCTGGGGGCCCTTCTAAGCATGCCCATGACATACAGTCATGCGACCCTGGAGCTAGTCCTGGCTGGGTAGGAGAAGG
GGGCATGCATGYGCAGCAGCTTTTGGGGGCTGATCCTTGAGTTACAAAATGGGGCTGGAGCCCAGAGGGCTGTGGTCTCTGAGGCATGTCTACTGAAGGA
GCCCACCCAGGAGGCTCCCCCACCACCTTTCCTGGCCTGGGCCAGCTCAGCTGAGTTCATTCCATTCCTGTTTCCCTCCCCCAGGGCTCAGAGAGAACAG
ATTGAGAAGGAGCGGCTGGAGGAGGAGAAAAAGGCCACAGGGCGCTTACAGCATGCCAATGAGCTCCGGCGCCAGGTGCGCGAGAACCAGCAGAAGGAAG
TGCAGAACCGGATTGCCACCTTTGAGGAGGGCCGGCGCCTCAAAGAGGAGGCCCAGAAACGCCGTGAGCGCATCGATGAGATCAAGAGGAAAAAGCTTGA
AGAGCTGAGGTGCGCTGGAATCTCCTCCTTTCCCAAATCCTCTTCCCTCCCSCAAAGAKATGGCACCACAGGCTGGAAAGCATGGGGATTTGGGGGTGAA
GGGCCATGGCAGAGATGCTCAGGGAGAGGCTCTTCTCCCCACCCAGGGCTCATCCCTCTGAAGGGGGCTCCAGCAGWAAGTCCTGGGATGGGGTCTTGCT
GGCTCTCTGGGAGCTCCTTGGCAGGATGCTGGAGCCTTGGCATGAATGTGTGTTTCGGGGGTGGATTGTGAGAGCAGGGTTGGGGGGTGCAGGCCCCCAG
GTTCTGTAAACCCCACCCAGAGCCTGCTTCCTCCCACCTCCTGTCTGGTCCAATACCTTTCCTYATACCTGCCTGCGTTTCCCCGGCAGAGCCACTGGCC
TTCCCGAGAAGTACTGCATTGAAGCTGAGCGCAAAGCTAACATCCTGCCAGCTACCTCTGTGAACTGAGGGGAGCCTTCGTGGCCCTCAGGATGCCTTCG
GGGGACAGATTYTGCCCAGTCTCTGGGCATCCATAATTGCTGCTAACCTAGACATTTCATAGTTACAGATTAAATCTACTTGACTTTAAGGAACAGCTTG
GCTTTCTTGTGGGAATGTGGCTGCTACAGGGTACTGAAGGTGGAGTAAAATAGGATGGGGGGAACCCGAGTGTGGGTGGTGTGGGGCTGAGGGTAAGGGA
ATGGGAAGATGCTCTTTTATGATGGTTTCTCCTAAGCCAGGAGGTCCCTTTGTCCTGGTGTCTCCTGGCCTTTTTGTGATTCCCTGGGATCACAATCTTG
TCTCAGCTCCACCCTGACGCCCAGTTCAGAAGCATTTCAGGGCATTGAGGCAGAGCTACAGTTGCCTCTCAGTGGGGGCTGGGGCAAGGCTTGGCCAGGC
GGAGCTGGTGAAGGAGGCACCAGGGCCAGGTGAGGCAAGGCTCTTACTGGGATCACACCCATGACTCAGATCACATCTGTGGAGGGAGTGAAGTTTGAAC
CTGGGGCTCACTCTGCCTGTCTCAGCTCTCTCCCACCAGAACCCTTTCAATTCCAGGCAATGCTGCAACACAGACACAGGCCCATGCCCCACTAGGGCAC
ACCAAGAGCCCTGCACTCCCCACCCTGCCAGTCCAGTCCCCTCACCCGAACTCAGCCCCTCCTGTGGCTGGGCTCTCCTCAGTCCACCTCACTCCCATAG
GTGGGGCTCCCAAACCATTTTCGTCTGTTTTTAACTTGTCTCACTTTGCCCCAAACTATACTTTAATCATTCATTCACTTATTCAGATACTGACTGAGTG
CCTACCACATGCCAGGTACATTTCAGGCACTCACTGAGCACAACAGACCTTGCTGCCCACTCAGAAGCTGCTCATTTATGCCGGTCTGCTCCTGTTTTCT
CCCCTGAGCTGCTCCCACCAAATTTCTTGTACCTTTGGAATCATCTCTGCCTTTTTGGCCTCTCACCTGGTTGTCAGGTGCCCCTTTGGGGCTGGACTGC
TAGCTTCTAGGGATGGAGCCATGTACCCTGTTTTTGTATGCCTAGGGGAAAGGGCTTTCCTCCAGCTGCTGTGACAATGAGGTCCCTCTCTACCCCTGGG
GATGGATTCATCTCTCAAATCCAGAGCCCAGTCTTGCCTTCCCTGATGGGCCCTGCACTAGAGGAGGTGAGGAATCTGTTGGGTGCRTCCTGGATGTTTA
CAACTCCAGGTTACAAGGGCCTCAGGCAAGAGTCCTCTTTTCATAGGGCCCAGGGAGAGTCAGTAAGCTGTTTCCTGTGCTTCCTTTTCCTCAGGACAGC
CACAGCTTCCCCAGGTGCCTTCTCCACCTTTTCCACCAGGAAAGATTGTTGCCCCGCCCGACCAACTGTTTGGGAAAGAGGCTTTCTCACCGTCCCTGCT
CAGCACCTTTAACTGCAACCCTCCTTCCTAGGGAAGCTGATGCCTTCCTCCCTAGGGGTCTTGGGAAGATGTGGTACCCAGCCTCGGATGGGAGAGAAGA
CATGGCAATGCCGCTGAGGATTCTGGGACTCATCTGCAGTTGGGGCACTGGCAAAGGTTCTCTCTGAGCATCACCTGTTGCTTAGCTGATGCCTGCAGGG
ACCAGGGAACAAGGCTTTGCCTAGTTCAGGAGACACTCTTTCCCAGGAAAGCTAGAAAGAGCCTGGGTGCTTAAGAGTTTGCCTAGGCTCACACCTAAGT
CATCCATCTCAGGGCTGGAAAAAATGGGCCACTATGGAGAAAGGATTGAGGAGAAAGGGGGTTCCACACCCACTGCTAACTTCTGAGCCCACTTAGACAA
AAATGGGCCAACATCACAGGTTGACAGTAAGGCCAGCATTTGACCAGAGCTGCTGCTGGTGAAAATGTAGGTCTTTGGGTCCGGGAAGATCCCAAAGCCT
TACTAAAAGTGAGTGAGACTGTCGACTGGGCCTGGACACAGGGGCAGTTATAGGTTACGTGAATAAAGGTCTGGCTTTGGAGAAGAGAGAATATAGCCAC
TTCTGAGCAAGTGAAGATGGTTTGGGAGAGAATCTCAGGGCTCTGCCTCAGGGTTGACCCTTTTACTCTCATCAGGAGTTCTCCATCTTGGAATTGGCCC
ATGAAGTAGAACAGAGTTTCAATTTCTTCTCTTGGGATTCCTAAGAAGTCACACCCAGGCTTTCATGGGCTCCAGAACTAGTCTGAACCAGTAAGAATCT
AGTTCTAAGATGCCTGACACTCTTGAGAGCCAGGCAGGTAGTTGGGATCTGAGGCCAGTCAACTACATCTCGGCAATCTTTTATAAACCCTCTACCAATC
TCACTCAGAAATGGCAGTGGGGATAATTACAGAGAAATCTCCCAGTGTTAAGTGGGGACTGGTGGGGTTAGGCTGCATGATAGTAGTGGCAGACTCAGCA
GGACACTGTGTGAGCTGAGCCTGCAGAGTAAGGCTAGGGCCTGGAGACAAAGAGAAAATGGGCATTCTTCTGAGGACTCCAGTGGGTTCCTAGGCTCAGT
CTTGCTGCTAGAGGTTGGACCTTTAGTGGAGGTGCTTTCTGCTGAGGAGGTTTAAGCTTTCCCCTTCTCATGCTCAAAGGTGGAGATGGTGAGCTCTGTG
TACTCCTCTAAGCCACTGAATCAACACAGGGCTGTGTGAGAGGCTGTAAGAGATAAGTAGGAAGTGCAGTTTGCTGCATCATCTTTGTTAATATAAAGCC
TTTTTTCTTAATTGCCAACACTATTATTGACATTGTTATATGGGTATCTGATCTTTTCATATCTACTTTTTACATTATTTTATGTATAAAGGTACATATT
AGCTTCCCGTGGACTTCCCAGCCCCCTGTCTTCTGCCTTGGGGGTCTTCCAGCCCTTATAATGTCAGACTGAACTAGTCCACTCTAGGGAATCCAGGGGT
TGGGCTCCCTGCCGGGGCACTGAGTCAGATCAGCAGGCAGTTGCCTCCCAGGCATGTGCCTCCTGGCTCCTGGCTGGGCCCTATGTCCTACCTGCCCACA
TGTGCCTGTTGTGGGTTGGAGGCGGTCTCAGTACTTTTGCATCTGCGGCAGAAGCAGCTCCAGCTGGATGTGACTCAGCAGCTGCCCTGGTAGCTAAGCC
ATGCTGTCCCTGACTCAGTGGGGTGCTGGGATGTCCTTTACTACCCCTGAAAGCCTCAGCACCCCCACCTGTGACTCGAGTCACAGCTGGACATTACTTG
GTCTCAGTAAAAGCATTTGGATTAGGCTCAGATGAAAGGGGCTGAGAGAGTTCAAAGACAGACAGGGCTTTCAGGGTGAGGACAAGTGGCCGTGGTTTCG
GTGATGGTGGAAGGAGACGCTGGAACCTCAGACAAGAAGTCTGGATTTGTGGGCTGTGGAGACTCAGGGACAGTGAGCTCCTCACTCTATCTCTCACTCT
CTCTCCTCCTAACTGCTGCTTCTGCAAAGAGTGGTAGCCTGGCAGAGAACTGTGAAAGAAGCAGATGGCTCACTGCAGACCATAGGTCTCTTCCCCTCCT
GGGCTGCTGCCTATGGCAACCTGCCTCCCCTACCAGACTCTGAGATATGTCAGGGGAAATCATGCCCAGGTTACCTGGAAGGTCCTCATTTCTGACACTG
CTGAGTTATTCCTGAGTTATTCTTGATTTGTCTGGCTTTAAATAGCTCAGACCTTCCCTCTGTCCTGGCCCCAAACCTCACATCCCTCCCAGTTGGGACA
TTCTCCTTGAGGCGCAAGCTCTGTGTTTCTTTTTGCATTCTCACCCATGTCCTCTTAAGAAAGGGCTAGTCATCATCTCAATACCTTTTGACAACTTTGA
GGCTGGACAGGAGTAGGGTTGAGATTTTAGAGGGCTTTCTCAGAAGACTCCCAGAAAGAAGAGTCAGAAGTGGGTGAATGGAAGTGAGGAGCAGAAGGGC
TGGGCCTGGAAGAACCTGTCCAGAGCCAATGAATTTTCTGCATGGTCCCTGGGAAAGACTTCCCTGGGTAGTGGGGATGGACACCAAATCTTAGAATCTC
AAAGCAGAAAGGGACCCCAAAGACCCTCTGATGCTTGAATATCCTTTGTAAACTCTAGTCAAATGGTTGGACAATCTGAGCTTGTACATCCTGAGAGACA
GGGCGCTCACTACCTCAAAAGGCAACCCAAACCATCTCAGATTCGCCCTGATGCCCAGAAGTTTCTTAATATTGAGTCAATATGTCTTCCTGTGTATCCA
ATGTGTGGACCGAGTTCTGCTCTTTGTGACCACACAAGGCAGGGCCAGGCTCCTTTTACATGATATTTCTTCAGATATCTCCTACCCTGGCTGCTGTGCA
GCCTGACTCTGAGGGGAAGTGCCTGTCATTATAGAAACACAGGGCTCTCCTGAGCATTTCAGGGAGGGGAGGAAACTGGGAGAAGTGGGGAATCTTCAAC
TTTATCCCTTGGGCTGGGCCTGCTGTTCTCCTGCCAGGTAATACTTCTGCTGTCGCTGCAGCCCTAGCAGCGCTCTGTTGCCTCTGAGCCCCGCCCCTGT
GGCACCACCTTCCCCTTGACTCCTTCTATCCCAGTGTGCAGGCAACAGGAAACAAATACAGAGGGCAGAGCAAGGATTGGTCAGGACGGGCTTAGTGAGA
AAGGCTCTGAACGAGACACACACCAGCTGCAGCTTCGTACTGACGCCTGCCAGCTCCTACACACCTTCCTGGGCAACTGCCAGCGGGGCAAGGCAGGCCT
GGGGCCACCCTGCAGGTCAAGGGGCACCACAGTTCCACTCTGTAGATACGTGTTTGGGGAATCCAGATGGCAAAATCAAAGGCAAGTTTTATTTCTACAA
ATTAAAATGTCAAAGTCCCATTGGACCTGTGGATTAATTCATCTCAAAGTTTCTCTCCCCATAAACAGACAGACTCATGGTTCAGGACAATCAATTTTAG
TTGCTTAATCCACCCGATGGCCTGGCTCTGATCCCAGTGAGGTGCTCTGGTGTTCTGGGTAGAAGGTCCCAAGAGGTTCCGTTCTCAAGGATCTTCCTTC
CTCAGTTAAAAAATAATCRTCAGCTGTCACTCCTGGCTTTGCTCTTCTCAGTYCATGTCTGGCAGGGACCTGGCTTACTTACCAAGCCCAGAAATATTCC
CCTGGCCTCCTCTCTCCACCCGCTACTCTTTTCTCTGGCACGCCGTTGTTAGTTATCCTTCAGATCTCGGCTTAAACATCATTGCCACTAAGTCAGGGGC
CTTGCACGTATTACTGCATCTTACCACATTGCGGGCCAGGAGCTATTTCCGTGTCAGATGGGGTGTTCTGTGAGGATAGGGACTGAGTCTCCTTAATTGC
CATTTCCCCAGGGCCTAGCACAAAGCCTGGCTGTTTGCTGAATGAATGAAGGTTCTGCAGGATGTGGTTGATCTTGGCGAGGTGAAGATACCTTTATCTT
CAAAGCCTCTTCATTCTTCCTCAGATCTGTCATCAGGGAATCACATAGCCTTTACAAGCGATTTCTTCTCGCCTCCACTCATTCTCTTGCTAACAATTCA
GTTGGTGGCATTCAATCGCCTCCCTTTGCTCTTGTGCTTTGTTGATGTAGTGACAACTCCAGCCACTCCTTTAATTGATGGGGACTATGTGTGTGCTGCT
TGCTCTTCTGAGTCTGTCAGCTTCAGGACATTGCTTGATGGGAGAGATGTGGGCATATCCAGGCTCCTCCTAGAATCCCACTTCTTCTGAAGTGTACCAG
TCAGAACCACTGAGGTTTGGGAAACCTAAGCAGGAGCTTGGGGAGTCCCTGTGTCACCTGTGTTCACGGCTCTTCCCTGCCAGCTTTGATTTGAGCCTTA
GTTTCGAACCCAACCCACACCCTCAAACTTAGCCCCACATGTCGATCTCATCCCTCTCTGTAACCAGAATCCGACGTTGTCCCATCACCACCCATGCAAC
CTCTGAGCCCCCTACCCTTCTCATGCAACCATGGCCTCACCTGGCAGACCTCCACCTCCAAATCATCACTGAAAGCTGGGTGGACAGACAGCAGCTGCAA
GGCTCCTTGGCTTCTCTGTGACTCTTTGCCTATCCATTGTCACTCACAGCTTCTGCTCCCAGAGTCTTACCTCAGAGGTTTCCTCTGCAGGA


SNP Information

Context             (SEQ ID NO:51648):
ATCACCTAGGGATATTATATACTTTGTAGATGAACAGTAGCAATATCTTAGTTCCAGACTCCCTGCTGTTACTTCACTCAAAGTACATAGCATCCCATTG
Y
CATTAACTGTGTTGTGAAGCCAAACCTTTTCTTCCTGTTAGTCCAAATAAAATTAGTAAGCATATTTATTGCAAAAGAAATGACAACATACCTGCCCAAA
Celera SNP ID:            hCV16193555
SNP Position Genomic:     22145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51649):
TGGCTGGTTATTTTTCAGGGATGCTGAAAGCAGTATAAACTGCTGTCTTAGATTCGGATCACTGCTGGTCACTCCAGATCCTAGGCTGTTTAGGGCCACG
Y
TGCTTTGTGAAACACAAGATCTTGGCTAAGCTGCAAATCTACTCACTCATTCTGTCCATCTCCTGGACCACCCTCCCCCAACACACACACATTAGTTTTA
Celera SNP ID:            hCV15975550
SNP Position Genomic:     16660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51650):
CAAAGCAGAAAGGGACCCCAAAGACCCTCTGATGCTTGAATATCCTTTGTAAACTCTAGTCAAATGGTTGGACAATCTGAGCTTGTACATCCTGAGAGAC
A
GGGCGCTCACTACCTCAAAAGGCAACCCAAACCATCTCAGATTCGCCCTGATGCCCAGAAGTTTCTTAATATTGAGTCAATATGTCTTCCTGTGTATCCA
Celera SNP ID:            hCV26627250
SNP Position Genomic:     37800
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 hmCS


Context             (SEQ ID NO:51651):
AAAGCAGAAAGGGACCCCAAAGACCCTCTGATGCTTGAATATCCTTTGTAAACTCTAGTCAAATGGTTGGACAATCTGAGCTTGTACATCCTGAGAGACA
G
GGCGCTCACTACCTCAAAAGGCAACCCAAACCATCTCAGATTCGCCCTGATGCCCAGAAGTTTCTTAATATTGAGTCAATATGTCTTCCTGTGTATCCAA
Celera SNP ID:            hCV26627251
SNP Position Genomic:     37801
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 hmCS


Context             (SEQ ID NO:51652):
GGCCTGGCTCTGATCCCAGTGAGGTGCTCTGGTGTTCTGGGTAGAAGGTCCCAAGAGGTTCCGTTCTCAAGGATCTTCCTTCCTCAGTTAAAAAATAATC
R
TCAGCTGTCACTCCTGGCTTTGCTCTTCTCAGTCCATGTCTGGCAGGGACCTGGCTTACTTACCAAGCCCAGAAATATTCCCCTGGCCTCCTCTCTCCAC
Celera SNP ID:            hCV26627252
SNP Position Genomic:     38719
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:51653):
ATAATCTCGGCTCACTGTAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCTTCAGCTTCCCAAGTAGCTGGGATTACAGGCATGCACATCCACACCC
R
GCTAATTTTTGTATTTAGAAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCCCCGGCCTCAGCCTCCCAAAG
Celera SNP ID:            hCV11625060
SNP Position Genomic:     19953
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51654):
TCTACTTATTATCTCAAAACTTTACGAAGTGATACATAGAATCACAGAACTTTTTTTTTTTTTTAGAGGGAGTCTCACTCTGTCGCCCAGGCTCTGGAGT
R
CAGTGGCATAATCTCGGCTCACTGTAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCTTCAGCTTCCCAAGTAGCTGGGATTACAGGCATGCACATC
Celera SNP ID:            hCV11625061
SNP Position Genomic:     19845
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51655):
ACTGCCCGCTGGAGGTGGGAGGGGCGGGGCCGGGGGCGGGGCCTGAGCCGAAGAACGCGGGCTAGTGGTTGCCAAGGTAACGCGTCAACACTAGGGCCTT
K
GCGGCGCCGAGGCGGCAGCAGAAGTCCGGAGTCAGGGCGTGTGGCTGAGGAGATGGTGAGGGAGAACCTCAGATGGGCCCCTTGTGTCCTGAATTGGGTG
Celera SNP ID:            hCV27490266
SNP Position Genomic:     5998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:51656):
AAGTCACTTGCCCTCCCTGAGCCTCACTTTCTTCATTTGTAACTTGAGGGTGGTAAAACTACTTTGTGGAATCATTGGCAGGATGAAATAAGGTAGTAGA
Y
GGGAGAGGCTTTGTGGGCTGAGGATTGGTAAATTAAATGTGCAGTGTTACTTTTATTTTCATCCTGTTAGTTCAGTTCTGGCCACGTATGGTGGTCGAGG
Celera SNP ID:            hCV11625063
SNP Position Genomic:     18608
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51657):
CCCAGAAACGCCGTGAGCGCATCGATGAGATCAAGAGGAAAAAGCTTGAAGAGCTGAGGTGCGCTGGAATCTCCTCCTTTCCCAAATCCTCTTCCCTCCC
S
CAAAGAGATGGCACCACAGGCTGGAAAGCATGGGGATTTGGGGGTGAAGGGCCATGGCAGAGATGCTCAGGGAGAGGCTCTTCTCCCCACCCAGGGCTCA
Celera SNP ID:            hCV181759
SNP Position Genomic:     33252
SNP Source:               Applera
Population(Allele,Count): african american(C,15|G,21)   caucasian(C,33|G,5)   total(C,48|G,26)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,5)   caucasian(C,23|G,1)   total(C,28|G,6)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51658):
GGGTGGGGGAGCGTCCCCTTTCACTTATGTATTCTATTTGATTCAGTGTCCCATCTTCTCTCAGCACCTTACAAACACAGTGGCGTATGTATGTATGTGA
R
CACCTACTGTCATGCCTGGTGTCTAAGGGCATATGGTAAATGTTAGTTCCCCTTTTGTCCTCTTTTAAAAATTTCCTATTTCCAAGCTCTCATAGGGCAT
Celera SNP ID:            hCV461493
SNP Position Genomic:     7393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51659):
TGTTGATGTCTGTCCCTGCTCTTCAACATCTTCATTGTGAATTGAAGAGGACTCTCCAGAGGGATTGAGATAGGCTTCTTAATCCATTTAGAAGACTCTC
R
CTCTGCAGCAGTTTTCCTGTTGGTAAGGGAAAGGATCAACAGATGCATTTATTTTTTATTATTTTTTTAAAGATAGGGTTTCACTCCTGTCACCCAGGCT
Celera SNP ID:            hCV53106
SNP Position Genomic:     13786
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51660):
GTCAGAAAGGTTTTCCTTGTTCTGCCTTTTGGTCCACTAGTTCCCTAGTCATTGTCAGTCCAGGGCCATCTCATTGGCTAAGCCTAGGTCCCTTGGCCAG
K
CTGAGGTGAATATTTGATGTTTTCAGCTTCTGTAGTTGGAGAAGAGCACTATCTCCCACAACTCATTAGATGGGGAATTTGCCAAAATAGGAAGTTAGTA
Celera SNP ID:            hCV53107
SNP Position Genomic:     11403
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51661):
TACCCTTCAAAAAACTCTCACTGCTTTGGGCTTGGATCGCAAGCCAGAGACCATCCAGCTCATCACCCGGGACATGGTCCGAGAACTCATGTGAGTACAC
Y
GTCCCCTGCCCTTCTATGTCCAGTCCTCATCCTTTTGCTAAGGATCTTTGTAGGGAGATGGGTAAACCCACCTGGTTTCATTCTGTCAGTCCAATCCCCA
Celera SNP ID:            hCV59069
SNP Position Genomic:     15680
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,27|T,11)   total(C,62|T,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)   JBIC-allele(T,236|C,1247)   total(C,1247|T,236) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51662):
AAAGCATGGGGATTTGGGGGTGAAGGGCCATGGCAGAGATGCTCAGGGAGAGGCTCTTCTCCCCACCCAGGGCTCATCCCTCTGAAGGGGGCTCCAGCAG
W
AAGTCCTGGGATGGGGTCTTGCTGGCTCTCTGGGAGCTCCTTGGCAGGATGCTGGAGCCTTGGCATGAATGTGTGTTTCGGGGGTGGATTGTGAGAGCAG
Celera SNP ID:            hCV181760
SNP Position Genomic:     33377
SNP Source:               Applera
Population(Allele,Count): african american(A,17|T,11)   caucasian(A,6|T,30)   total(A,23|T,41)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51663):
GATTGTGAGAGCAGGGTTGGGGGGTGCAGGCCCCCAGGTTCTGTAAACCCCACCCAGAGCCTGCTTCCTCCCACCTCCTGTCTGGTCCAATACCTTTCCT
Y
ATACCTGCCTGCGTTTCCCCGGCAGAGCCACTGGCCTTCCCGAGAAGTACTGCATTGAAGCTGAGCGCAAAGCTAACATCCTGCCAGCTACCTCTGTGAA
Celera SNP ID:            hCV181761
SNP Position Genomic:     33564
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(C,2|T,32)   total(C,3|T,63)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51664):
TCTCTACCCCTGGGGATGGATTCATCTCTCAAATCCAGAGCCCAGTCTTGCCTTCCCTGATGGGCCCTGCACTAGAGGAGGTGAGGAATCTGTTGGGTGC
R
TCCTGGATGTTTACAACTCCAGGTTACAAGGGCCTCAGGCAAGAGTCCTCTTTTCATAGGGCCCAGGGAGAGTCAGTAAGCTGTTTCCTGTGCTTCCTTT
Celera SNP ID:            hCV181765
SNP Position Genomic:     34887
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:51665):
CAAAGCCCTTTCACATACGTTATTATCCACAGTGGAGACCACATACGTGATCTGGAAAACATGGAATGGTGGAGTGACTTGGAGTCAGGCAGTTGTATTC
Y
GGAAAAGTATCCATCTCAATCTGGTCTGCAGTCCTGTCCTTGAGAGGTCACCTTGTTCGGTTTTATTCATTCTTCATCAAATGCACATTGCTATATTGTT
Celera SNP ID:            hCV29185269
SNP Position Genomic:     10149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51666):
ACTTAGGCCTAGCTCAACCATGTGCCATGAGCCAACACTGTGCTCAGTGGTTTAACTCTTGTGTTAGTGCTTCACCCTCTACAACCGTTCTCCCTGCCCT
R
GCTCCACCCACTAAAAGCCCTAATTCCCAGAAAATCCTACCTGTGTCACAAGCTGGAGAGGCACATCTAGCACACACCCCGGGAGCTGTGTCGGACTGCG
Celera SNP ID:            hCV59070
SNP Position Genomic:     16315
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51667):
GCATCAAGTGGCCAGATGTGGCTAGAGCCCTGCAGCCACTCCTGGAGCCAGAGGAAGGGAGGAAGGGTTCCTTCTTGGAGCCATCTAGTCCTGAAAACAC
R
TTGGAGGACAAGTGGCTGGTTATTTTTCAGGGATGCTGAAAGCAGTATAAACTGCTGTCTTAGATTCGGATCACTGCTGGTCACTCCAGATCCTAGGCTG
Celera SNP ID:            hCV59071
SNP Position Genomic:     16547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51668):
CCCAGACGCTGGGTCTGGCTGCCAGTTCTGTTTGGGTCAGAAAGGTTTTCCTTGTTCTGCCTTTTGGTCCACTAGTTCCCTAGTCATTGTCAGTCCAGGG
Y
CATCTCATTGGCTAAGCCTAGGTCCCTTGGCCAGGCTGAGGTGAATATTTGATGTTTTCAGCTTCTGTAGTTGGAGAAGAGCACTATCTCCCACAACTCA
Celera SNP ID:            hCV16193577
SNP Position Genomic:     11368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51669):
ATTTGCTTGTAATCATTATAATTAGCGATTGGTTTGTTGAATGCGTTGGATAGCTAGAAAGGAGAGGTCTATAGACATGTCTCTGGCTATTGTTGATCAC
R
GATTTTAATTAATATTTACAGTTCAAAGCTTCTCTCTAGGCTGGATGGGCAGGGAAGCTTAGGTTTCTAACTAGCATCTATATCAACCTTGTCTGGCGTC
Celera SNP ID:            hCV59072
SNP Position Genomic:     17002
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51670):
ACGAAAATATCAAAGCAGGGCTGGCATCTTTATCTGTCCCCAGTCCTCATCTTCCCCAGACCCCCTGCCTTCTCAGCTGCCTTCCCTTCAAGAGTTATCT
Y
CCTGCAAGCAGGACTGGATGTGCTTCTCCTTAGGCACTGTTCAGCTTCTTGGCAATATTTATTTGGTCATGCAAAGAAGAAAACCAGCCCGTCACCTCCT
Celera SNP ID:            hCV15975539
SNP Position Genomic:     9479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51671):
TCTCAGATGTCTGTGTCTTATTGGCATGTACCTGTCAAATTGGCATGTACCTGCCTCACCCAGAAGCAGCTTTCTTCCCACCCCCCTAACTACTCCCTCC
Y
CCATCTTTAATATATGTCATTTGCTTGTAATCATTATAATTAGCGATTGGTTTGTTGAATGCGTTGGATAGCTAGAAAGGAGAGGTCTATAGACATGTCT
Celera SNP ID:            hCV16193578
SNP Position Genomic:     16883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51672):
GTCTTATTGGCATGTACCTGTCAAATTGGCATGTACCTGCCTCACCCAGAAGCAGCTTTCTTCCCACCCCCCTAACTACTCCCTCCCCCATCTTTAATAT
R
TGTCATTTGCTTGTAATCATTATAATTAGCGATTGGTTTGTTGAATGCGTTGGATAGCTAGAAAGGAGAGGTCTATAGACATGTCTCTGGCTATTGTTGA
Celera SNP ID:            hCV16193579
SNP Position Genomic:     16897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51673):
GATGCTGAAAGCAGTATAAACTGCTGTCTTAGATTCGGATCACTGCTGGTCACTCCAGATCCTAGGCTGTTTAGGGCCACGCTGCTTTGTGAAACACAAG
R
TCTTGGCTAAGCTGCAAATCTACTCACTCATTCTGTCCATCTCCTGGACCACCCTCCCCCAACACACACACATTAGTTTTATTAGATGAGGTTTCACTTC
Celera SNP ID:            hCV27932212
SNP Position Genomic:     16679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51674):
TCTTTCATGGAGAGAGGAAAACCTAGAGAACAGAAATTTACTTTAATTCCTGATGATTTTAGACTAAGTATAGACACACACTAGTGACCCCCACTCCTTG
Y
TATCCCTACCATTCTGCGAGGAATATCTGTATAAGAACAAGAGACTTGTTTTCAGAAAAGCTGGTCAGGGCTGGGCATGGTGGCTCACGCCTGTAATCCC
Celera SNP ID:            hCV39110
SNP Position Genomic:     15022
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51675):
GCATCAAACCAAGCTGGGGGCCCTTCTAAGCATGCCCATGACATACAGTCATGCGACCCTGGAGCTAGTCCTGGCTGGGTAGGAGAAGGGGGCATGCATG
Y
GCAGCAGCTTTTGGGGGCTGATCCTTGAGTTACAAAATGGGGCTGGAGCCCAGAGGGCTGTGGTCTCTGAGGCATGTCTACTGAAGGAGCCCACCCAGGA
Celera SNP ID:            hCV11625403
SNP Position Genomic:     32812
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51676):
TTTGCTGGCAGGACATGGAACGAAGGCAGCAACAAAAACTGAAGATGCAAGCTGAGATTAAGCGCATCAATGATGAAAACCAGAAACAGAAAGCAGAACT
S
CTGGCTCAGGAGAAGCTGGCAGACCAGATGGTGATGGAGTTTACCAAGAAGAAGATGGTAGGGACTTGGTTTCTGGGACCTTTGGTTAGGAATGGAATGT
Celera SNP ID:            hCV25624234
SNP Position Genomic:     25534
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,32)   caucasian(C,1|G,39)   total(C,5|G,71)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51677):
CTGATGACCCAAACTTTCTGCCTCTTCCTGCAGCCACTAAGCACAGCTGGCATCCTGAGCTCCTCTTCTGCCGCTTCCAACAGGTCAAGGAATAAGGCTC
R
CTATCGGACCAAAGCCGTGAGCTCTGAGGTGGATGAGAGCCTCTTTGGAGATATCAAGGTAATCCTCAACAAGTCCTTTCAAGTTGATGCCACCTGCAGG
Celera SNP ID:            hCV25624235
SNP Position Genomic:     12911
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,25)   caucasian(G,40)   total(A,7|G,65)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51678):
GAACTCATAGTCCCCAGCCCAGGGCCAGAGCGACAGCCCCATTGTGCTGCTCCGAGATAAGCATACCCTTCAAAAAACTCTCACTGCTTTGGGCTTGGAT
Y
GCAAGCCAGAGACCATCCAGCTCATCACCCGGGACATGGTCCGAGAACTCATGTGAGTACACCGTCCCCTGCCCTTCTATGTCCAGTCCTCATCCTTTTG
Celera SNP ID:            hCV25624236
SNP Position Genomic:     15617
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51679):
CAAAAAACTCTCACTGCTTTGGGCTTGGATCGCAAGCCAGAGACCATCCAGCTCATCACCCGGGACATGGTCCGAGAACTCATGTGAGTACACCGTCCCC
K
GCCCTTCTATGTCCAGTCCTCATCCTTTTGCTAAGGATCTTTGTAGGGAGATGGGTAAACCCACCTGGTTTCATTCTGTCAGTCCAATCCCCACTTCTTT
Celera SNP ID:            hCV25624237
SNP Position Genomic:     15687
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,38)   total(G,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:51680):
AAACTCTCACTGCTTTGGGCTTGGATCGCAAGCCAGAGACCATCCAGCTCATCACCCGGGACATGGTCCGAGAACTCATGTGAGTACACCGTCCCCTGCC
S
TTCTATGTCCAGTCCTCATCCTTTTGCTAAGGATCTTTGTAGGGAGATGGGTAAACCCACCTGGTTTCATTCTGTCAGTCCAATCCCCACTTCTTTCCTA
Celera SNP ID:            hCV25624238
SNP Position Genomic:     15691
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,38)   total(C,74|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:51681):
TATGTCCAGTCCTCATCCTTTTGCTAAGGATCTTTGTAGGGAGATGGGTAAACCCACCTGGTTTCATTCTGTCAGTCCAATCCCCACTTCTTTCCTATTC
R
TTTTCCCCTTTTTGTTTGATAGTTCTTTCTTTCTTCTCCATCCTGGCCTCTCTTGTTTCTCCCATTGTTGTATCTATTATTGCCACTGTCCTTTATTCTC
Celera SNP ID:            hCV25624239
SNP Position Genomic:     15795
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:51682):
TCTTGGTAACCAAAGTCTACAGAAAGGGAAGTAGAACCAGGCCAAGAGTTTGAAGCCTGAATTTGCCAGCCTGCGGAGACTGTGCAAAAGAAGAACTAGA
Y
CTCAGAATGGGTAAGACATCTAGGAAAAGACATATCTTTCCTGAACATGTCAACCTGTTTAGTTGACAGGTGTTGAAGTTACATCAGGGAAACTTCACAC
Celera SNP ID:            hCV11626319
SNP Position Genomic:     8073
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51683):
CCACCTTGCTAACAAAGGGGGAAAGAGTGAAGGGAATTTATCTGGGGTTGCTTTGGAAGGGCTTCAAAAGAAACAGGGAAAGTCCTTTGGTGTCTTGGAA
W
TGAAATGAGCCAACAAAAACAACAATCCAAAAAGTAAATAAATAGGGAAAGAAGTAAATAAATACATGATTGTATGTATGTCATACATCAGAAATCAACA
Celera SNP ID:            hCV16193542
SNP Position Genomic:     23695
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,5)      total(A,1|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51684):
TGAGCAGGACCTAATAGAAAAAGGACTTAAAATGTCTCTTTTTAGCCTTCAATGCTACCTGACCCCCCACTTGGAACATCTACTCCCCAGTGGACCCATG
S
CACACTTGCCGTCTCTTCTGCCATTGGGGGAGTCCACTGGCATGATGGGAAGAGGGGAAGAGAGCAGAGAAGCCTGAAGTGTGGTGCTGAGAGCTTTCCC
Celera SNP ID:            hCV26627241
SNP Position Genomic:     17517
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,4)      total(G,4|C,1) ;JBIC-allele(C,135|G,1344)   total(G,1344|C,135)
SNP Type:                 INTRON


Context             (SEQ ID NO:51685):
CCATGTAGCCTAGCAAAGAGGGAAGAGATGAGAAATGGTCATTATTGTCATCTACTTATTATCTCAAAACTTTACGAAGTGATACATAGAATCACAGAAC
T
TTTTTTTTTTTTTAGAGGGAGTCTCACTCTGTCGCCCAGGCTCTGGAGTGCAGTGGCATAATCTCGGCTCACTGTAACCTCCACCTCCCGGGTTCAAGCG
Celera SNP ID:            hCV26627242
SNP Position Genomic:     19795
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51686):
AATTCAGTGATTCCATAATATCATCTAATAGTTAATCCACATTCACATTCCCCAATTGTTCCAAATATGTATTTCTGGCTCTCTTGTTTCCAAACTAGAC
K
TTAATCAAGGTTTGCACATTGCATTCCGTTGAGTCTCTTTAGTTTGTTTTGATCTAGAAGAGTTCCCCCATTCATTCATTCATTCATTCATTCATTCAGT
Celera SNP ID:            hCV26627243
SNP Position Genomic:     22758
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51687):
TAACAAAACACTGCTCTTGCCCATTCCACAGGAAAGGTATTAGAGATTTGTGTTTGGATGGACTGCACCTACATCAATCCATCTTTCTTCCTTGGTAGCT
M
TTTATCCTTTTACTTTTGTTTTCCCTTTTGGCTCAATGATAATTTCAACACATAAGTGGAAGCTAAATGTTCACATCTCTCACTGTTCTGCTCCCTCCCC
Celera SNP ID:            hCV46841
SNP Position Genomic:     30206
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,3)      total(A,3|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51688):
ATCCACATTCACATTCCCCAATTGTTCCAAATATGTATTTCTGGCTCTCTTGTTTCCAAACTAGACGTTAATCAAGGTTTGCACATTGCATTCCGTTGAG
Y
CTCTTTAGTTTGTTTTGATCTAGAAGAGTTCCCCCATTCATTCATTCATTCATTCATTCATTCAGTTCTTCATTCATTTTTATAACACTGATATTTTGAA
Celera SNP ID:            hCV26627244
SNP Position Genomic:     22792
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51689):
CAACTTTAGCAAGGAAACCTGTGCCTTCCCAGCTTTAGACCTACTGTATCATCTCATGGTGGTACGAAGGGCAGCGTTTCCCACCTTGCTAACAAAGGGG
R
AAAGAGTGAAGGGAATTTATCTGGGGTTGCTTTGGAAGGGCTTCAAAAGAAACAGGGAAAGTCCTTTGGTGTCTTGGAATTGAAATGAGCCAACAAAAAC
Celera SNP ID:            hCV255083
SNP Position Genomic:     23615
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51690):
TTAAAGCTAGACCAGCCTTTTTGGAGAAGTTCAACTTCACCTATTGTTGTAGGTTAGTATCTAGGCCTAGTGTCTCCAGGGCCATGTGACCACCATGTTT
K
GTGTCTTTACTCAGAAGCATCTCTGCCACAGCCCAAATCCAACTTTCTCTGCCTCAAAAGCACAGCCTCCTCTATGGCCTATATGTGGACTTTTGTTTCT
Celera SNP ID:            hCV46842
SNP Position Genomic:     31124
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51691):
TATTTCTGGCTCTCTTGTTTCCAAACTAGACGTTAATCAAGGTTTGCACATTGCATTCCGTTGAGTCTCTTTAGTTTGTTTTGATCTAGAAGAGTTCCCC
C
ATTCATTCATTCATTCATTCATTCATTCAGTTCTTCATTCATTTTTATAACACTGATATTTTGAAGCATCTAGGCCAGTTGCCTTTAAGAATATCTCACA
Celera SNP ID:            hCV26627245
SNP Position Genomic:     22827
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51692):
GGGAGTGGGGAGGATGCCGCATGTATGGTGGATCTTGGAAGAAAGCTAGAGGGAAATGAGGAAATGAAGCAGTGTTGTAGGTACCTTTTGTTGGGGTATC
R
GTGACTCTAGGGGAGGAGAGCAGGTGAGAAATTCCTGCCTAAGATGATTTTACATTTCATTTTTTAAATTATGTTGAGAACAAAATTAGATGTTAGCTTA
Celera SNP ID:            hCV46843
SNP Position Genomic:     31885
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51693):
CCTGTCCTTGAGAGGTCACCTTGTTCGGTTTTATTCATTCTTCATCAAATGCACATTGCTATATTGTTCCTACTACATGTGCCAGGCACTGCACCTTTTC
S
CTTAATTACATACAAAACTCATGATCCAAAGCCATCCACCTTTTCCAGTTATTCCCAATGCTTAGCCTCAATCCCACCTACTGAAGTTTCTATTCATTTC
Celera SNP ID:            hCV15975549
SNP Position Genomic:     10282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51694):
ATTTCTGGCTCTCTTGTTTCCAAACTAGACGTTAATCAAGGTTTGCACATTGCATTCCGTTGAGTCTCTTTAGTTTGTTTTGATCTAGAAGAGTTCCCCC
A
TTCATTCATTCATTCATTCATTCATTCAGTTCTTCATTCATTTTTATAACACTGATATTTTGAAGCATCTAGGCCAGTTGCCTTTAAGAATATCTCACAT
Celera SNP ID:            hCV26627246
SNP Position Genomic:     22828
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51695):
TTTCTGGCTCTCTTGTTTCCAAACTAGACGTTAATCAAGGTTTGCACATTGCATTCCGTTGAGTCTCTTTAGTTTGTTTTGATCTAGAAGAGTTCCCCCA
T
TCATTCATTCATTCATTCATTCATTCAGTTCTTCATTCATTTTTATAACACTGATATTTTGAAGCATCTAGGCCAGTTGCCTTTAAGAATATCTCACATT
Celera SNP ID:            hCV26627247
SNP Position Genomic:     22829
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51696):
TTCTGGCTCTCTTGTTTCCAAACTAGACGTTAATCAAGGTTTGCACATTGCATTCCGTTGAGTCTCTTTAGTTTGTTTTGATCTAGAAGAGTTCCCCCAT
T
CATTCATTCATTCATTCATTCATTCAGTTCTTCATTCATTTTTATAACACTGATATTTTGAAGCATCTAGGCCAGTTGCCTTTAAGAATATCTCACATTC
Celera SNP ID:            hCV26627248
SNP Position Genomic:     22830
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51697):
TTATGAATTGTCAAGTTGTCATCAGCTAGTGCATTTGATGGTGGTGAGTGACAGGGGGACGTGAAGAGTGCTGCAGGTGGGCAGACTTGTAATTATGAAG
Y
CTTCTCATCACATCTGCAGTGTGAGGAGCTGCTAGAGAAGTGCAATGAAGATCACCTGGGTAGTTGGGAAACTGAAGGGGCACACAGCTCTGTGAACTGC
Celera SNP ID:            hCV26627249
SNP Position Genomic:     23113
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51698):
GCATATTCATGTTTAGGGGGCACTTGTCAAATTGTTTCGGTGACACCACCCATCTTGGGGGTTGTTTAGGTGGAGGTTGGACTCTGGGAGATGTGGACCC
K
GGGTTTCTAAGACACTGTGGCACTGTTCTCTCCAAGAGGAAGGCGGCAAATTGTGGAACAGATGGAAAAGAACCAGGAGGAGCGATCGCTGCTTGCTGAG
Celera SNP ID:            hCV310730
SNP Position Genomic:     21547
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,10)   caucasian(G,1|T,5)   total(G,7|T,15)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51699):
TTCTGGGTAGAAGGTCCCAAGAGGTTCCGTTCTCAAGGATCTTCCTTCCTCAGTTAAAAAATAATCGTCAGCTGTCACTCCTGGCTTTGCTCTTCTCAGT
Y
CATGTCTGGCAGGGACCTGGCTTACTTACCAAGCCCAGAAATATTCCCCTGGCCTCCTCTCTCCACCCGCTACTCTTTTCTCTGGCACGCCGTTGTTAGT
Celera SNP ID:            hCV27505599
SNP Position Genomic:     38753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:51700):
TGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAGAAAAGAAAAGCTGGTCGGTACACATCCAGCCATGCTCAGATACAGGGCATCACGCTGC
Y
CTATCCTTGAAGTTAGGACTGACCAGCAGGAAGTGGGGGTGACAAGCTTCTAAGCTATTCTTTCTGAACTCATAGTCCCCAGCCCAGGGCCAGAGCGACA
Celera SNP ID:            hCV25624240
SNP Position Genomic:     15451
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,26)   caucasian(C,1|T,33)   total(C,9|T,59)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51701):
GTCCACTGGCATGATGGGAAGAGGGGAAGAGAGCAGAGAAGCCTGAAGTGTGGTGCTGAGAGCTTTCCCTCTCCCCTCCCTAACTCTGTTTATTCTTGTG
W
CAGTGTTCCCACAGAGGATCCCTCCGGGGAGTCCCTAATCATCAGCCCTGAGGAGTTTGAGCGAATCAAATGGGCATCCCATGTCCTGACCAGAGAAGAA
Celera SNP ID:            hCV25624241
SNP Position Genomic:     17649
SNP Source:               Applera
Population(Allele,Count): african american(A,27|T,5)   caucasian(A,33|T,1)   total(A,60|T,6)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51702):
TACAGTTTAATCTCCACTCTCCAGATTATCCTCAATGCTAAGTGCCATGCCATCCGGGATGCCCAAATCCTGGAGAAGCAGCAGATCCAAAAAGAACTGG
R
CACAGAAGAGAAGCGGTTGGATCAGATGATGGAAGTGGAGCGGCAGAAATCCATTCAAAGGCAGGAGGAACTGGAGAGGAAGAGGAGGGAGGAAAGAATT
Celera SNP ID:            hCV25624242
SNP Position Genomic:     19536
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51703):
AGGCGGCAAATTGTGGAACAGATGGAAAAGAACCAGGAGGAGCGATCGCTGCTTGCTGAGCAGCGGGAGCAGGAGAAGGAGCAGATGCTGGAATATATGG
R
ACAGCTCCAAGAGGAAGATCTAAAGGTAACAGGCCAGACAGACAATGCCACGTTTCACCAGCTGCAGCATCAAAACCCTTCAAGACTCTGGGGTTTCAGG
Celera SNP ID:            hCV25624243
SNP Position Genomic:     21688
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,6)   caucasian(A,36)   total(A,66|G,6)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51704):
TGAGGGAGGAGAATTGCTTGAACCCGGGAGGTGGCGGTTGTAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTC
A
AAAAAAAAAAAAAAAAAAGAAAAGAAAAGCTGGTCGGTACACATCCAGCCATGCTCAGATACAGGGCATCACGCTGCTCTATCCTTGAAGTTAGGACTGA
Celera SNP ID:            hCV11626321
SNP Position Genomic:     15373
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51705):
TATGGAACAGCTCCAAGAGGAAGATCTAAAGGTAACAGGCCAGACAGACAATGCCACGTTTCACCAGCTGCAGCATCAAAACCCTTCAAGACTCTGGGGT
K
TCAGGGTGTTGACTGATTTTCTGCCAGGCACATGCTCATTTCACAACATCATCACCGTCAACTTTTTATTGCCATGTTAAATATTTATTTCACCATGGTG
Celera SNP ID:            hCV25624244
SNP Position Genomic:     21783
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(T,36)   total(G,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:51706):
TAGAAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCCCCGGCCTCAGCCTCCCAAAGTGCTGGGATTACAGG
Y
GTGAGCCCGGCCAGAATCACAGAATTTTTAGAAGCTTATTTCCCAAATCCTAGGAGGCACTTCACAGTCTGGCTGCAATCAATCTCGTTTCTCACCCCTA
Celera SNP ID:            hCV11625059
SNP Position Genomic:     20069
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51707):
TACTGCATTGAAGCTGAGCGCAAAGCTAACATCCTGCCAGCTACCTCTGTGAACTGAGGGGAGCCTTCGTGGCCCTCAGGATGCCTTCGGGGGACAGATT
Y
TGCCCAGTCTCTGGGCATCCATAATTGCTGCTAACCTAGACATTTCATAGTTACAGATTAAATCTACTTGACTTTAAGGAACAGCTTGGCTTTCTTGTGG
Celera SNP ID:            hCV7478608
SNP Position Genomic:     33712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:51708):
AACTTACACATCCCTAGGCCTAGTGCTACAGTTTAATCTCCACTCTCCAGATTATCCTCAATGCTAAGTGCCATGCCATCCGGGATGCCCAAATCCTGGA
R
AAGCAGCAGATCCAAAAAGAACTGGACACAGAAGAGAAGCGGTTGGATCAGATGATGGAAGTGGAGCGGCAGAAATCCATTCAAAGGCAGGAGGAACTGG
Celera SNP ID:            hCV16031913
SNP Position Genomic:     19510
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,1|G,37)   total(A,2|G,74)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51709):
ATTGTTTCGGTGACACCACCCATCTTGGGGGTTGTTTAGGTGGAGGTTGGACTCTGGGAGATGTGGACCCTGGGTTTCTAAGACACTGTGGCACTGTTCT
Y
TCCAAGAGGAAGGCGGCAAATTGTGGAACAGATGGAAAAGAACCAGGAGGAGCGATCGCTGCTTGCTGAGCAGCGGGAGCAGGAGAAGGAGCAGATGCTG
Celera SNP ID:            hCV25624246
SNP Position Genomic:     21577
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,30)   total(C,67|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51710):
ACGCCGTGAGCGCATCGATGAGATCAAGAGGAAAAAGCTTGAAGAGCTGAGGTGCGCTGGAATCTCCTCCTTTCCCAAATCCTCTTCCCTCCCGCAAAGA
K
ATGGCACCACAGGCTGGAAAGCATGGGGATTTGGGGGTGAAGGGCCATGGCAGAGATGCTCAGGGAGAGGCTCTTCTCCCCACCCAGGGCTCATCCCTCT
Celera SNP ID:            hCV25624247
SNP Position Genomic:     33259
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,5)   caucasian(G,40)   total(G,69|T,5)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,14|T,4)   caucasian(G,26)   total(G,40|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:51711):
TCCTCCTGCCTCAACCTCCCAAAGTGCTAGGATTATAGGCATGAGCCACGGCACCTGGCCTTATTTTGTCCTATTTTAAAAGGAGTCAGGAAGTGGTAGG
R
GAGATATTGGAAAGTCTGTTGTAGGGGTTTTGTTTCTCTCTGCAAGGCTGGGGCAATGGCAACTATTCTACAAGGCCTTTCCTTCCGGCAGGCTCGAGAA
Celera SNP ID:            hCV16031916
SNP Position Genomic:     28599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51712):
GAACTCCAGTGGAAGGCAGCCGCACCTTCATTCTAAGATGCACATCCTTAGTTCAAGGGCCTGGCTTCTTTGTCTCTTCATCTTAGCCAGTCCACTTGTT
Y
GTTAACAGAGACAGCCTAGAAAGGACAACCAAATTAGCTTTAACCTCATTAACACCTTTGATTAGAAGTTGGGATGAGGGCCATATGCAGGCAGAAAAGA
Celera SNP ID:            hCV16193552
SNP Position Genomic:     25769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 246
Celera Gene:                 hCG39830 - 30000023328788
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VSLS(4497585..4522025)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12406):
CGAGACTCTGTGGGCTCCCAGCCCCCTCTGCCTCCGGGCCTACCCCCCGGCCACTATGACTCACCCAAGAACAGCCACATCCCTGGACATTATGACTTGC
CTCCAGTACGGCATCCCCCATCACCTCCACTTCGACGCCAGGACCGTTGAGGAGCCAGGATGGTATGGCAGAGGCCAGCACACCTGGCTGTTGCTGCTCA
AGGCTGGGGACAGAGCCTAGTGTACCCCTGCCAGGAGCAGGGAGTGGACCGGCAGGCTGTGAACATGAACAACGCTTAACAGAGCAAGTGATGGGAGCCT
TGTTCCTGGGTTCTACCATGGGAGACGCTGATCAGCAGGATGCCTGGCTCCCTTTCCCAACCCACTGCTCCCAAGGCCTCCAGGGCCCTGTGTACATAAA
CTGGTGGGTTGGAAGTTGCTGGGTAACTCTGATTTCAGACATGCGTGTGGGGTACCTTTTCTGTGCATGCTCAGCCTGGGCTCTGTGCGTGTGTGTGTTT
CTGTGATTTTAGAAGGGTACCAGGCACAGGTTCTGTCCTAGGGCACTTACCATTTAGTAGGGAGATGGAACCAACCCAATTAACTCTAGCAATAGCCTCC
TAACTGGCCTCCTCCATTGATTCAGTGAACCTTCCAATGCATGGCTCATAATTTCAAAATACAGGCTGGTTAGTTACTCCCTACCTGAAAGCCTTCATAG
GTGCCTCTTTGCTCTTCTGCCAGTATCAAAACTTTTGAAGGCCTTAAAGGCCCTGCTTTGCCTGGCCCATCTGTCTCTCCAGCCTCACCTTGAACTGTGT
TCCTGTCACTGCACGCCAGTCACACCGGCCTCTAGGTCCTCCTGTAGGCCACTCTTCTTTCTGGCACAGGGACCTGCACACCTGGAGTGCCCTTCCTCCC
CCACTCGCCTGTTCACCCCTGCTTTTCCTTTACACCTCCTCCTCAGGGAAGTGCCCACCCTCCGTACATCTTTCACAGCCCTGATTGCAGCTGTGTTCAC
TCACCAGGTACCTGCAGAAGGCCTACAGGGTGCCAGGCACTTCTTTAATGTGTTCTTTCTTTATGTGATTATTTGATTAATCTCTGCCTCCCCCACTAGA
CTGTAAGCTCCCTGAAGGCAAGAATCCTGTGCTTATGCTCAATATTAGCTCTCCCTTGGCACAGAGTAGGCACTCAACAAATGCTCCCCAAAAGGCTGAG
TGGCTGACTGAATTAAGTACCAGTGACATGCAGTAACTGCTAAGATAGATGAGCCATCTGTATGCTCTGACAGTTACAGACTGAATAAGTTGGAGACTTC
CCTAAAGGGTGGCATTTCCCCAGGGTAACAACGCAGAGCTCAGGTGTGGGAAGGTGCCAGGGGCAGGGGTGCAGAGGGGCTGAGGCTGAGGGGGGTGCAG
AGGCTGGAGAAAGGATAACAGGAGAGAGTATACAGGCATGCCTTGATTTATTGCACTTCACAGGTAGCAGAATTTTTAAAGAAATTGAAGGTTTTGGGAC
ATATATGTGACAGCAATAGGTTAAGAAAAGCAAAGCAGAGAAATTGAAGATTTGTGTCAACACTGCTTTAAGCAAATCTGTTGGCACCATTTTTCCAATA
GCATGTGCCCATTTTGGGTCTCTACATTGCATTTTGGTAATTGCTTGCAATATTTCAAGCATTTTCATTGTTATTATATGTGTTATAGTGATCTGTGATC
AGTGATCTTTGATATATTATTGTAATTGTTTCGGGGCGCCATGAACCGCACCCATATAACACGGTAAACTTAATCAGCAAACGTTGTGTGTGTTCTGACT
GCTCCACCGACCAGCCGTTCCCCCAAGTCTTTCCCTCTCTTAGGGCCTCCCTATTCCCTGAGACACAACAATATTGAAATGAGGCCAATTAATAACCCTA
CAGGGGCCTCTAAGTGTTGAAGTGAAAGGAATAGTCACACATCTCTCACTTAAAATCAGAAGCTAGAAATGATTAAACTTAGTGGGGAAGGCATGTTGAA
AGCCAAGACAGGCTGAAAGCTAGGCCTTTTGCACTAAATAGCCAAGTTGTGGATGCAAAGGAAAAGTTCTTGAAGGAAATTATAAGTGTTACTCCAGTGA
AAACATGAATAATAAGAAAGTGAAACAGCTGGCCGGGTGCGGTGGGTCACGCCTGTAATCCCAGCACTTTGGAAGGCCAAGGCAGGTGGATCATGAGGTC
AGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCGCGCACATGTAATCTCACCT
ACTCAGGAGGCTGAGGCAGGAGAATCGTTTGAACCCGGGAGGCGGAGTTTGCCATGAGCGGAGATCATGCCATTGCACTCCAGCCTGGGTGATAGAGCAA
GACTCCATTAAAAAAAAAAAAAGTGAAACAGCCTTGTTGCTGATATGAAGAAACTTTTAGTGGTCTGGATAGATCAAATCAGCCACAATATTTCCTTAAA
AGCCAAAGCCTAATCTGCAGCAAGACCCTAACTCTCTTCAGTTTTATGAAGGCTGAGAGAGGTGATGAAGCTACAGAAAATTTAGAAGCCAGCAGAGGTT
GGTTCGTGAAGTTTAATGAAAGAAGTTTAAGAAGCCATCTCCATAACATAAAAGTGCAAGATGAAACAGCCAGTGCTGATGTAGAAGCTGCAGTAAGTTA
TCCAGAAGATATAGCTAAGACAACGATGAAGGTGGCTCCTCTAAACAACAGATTTTCAATGTAGACAAAACAGCCTATATTAGAGGAAGATGCCAATCTA
GGACTTTCACAGCTAGAGAGAAGTCAATGTCTGGCTTCAGAGCTTCAAAGGACAGGTGTTAGGGGCTAATATAGTTGGTAACTTTAAGTTGAAGCTAATG
CTCATTTACCATTCCAAAAATCCTCAGGCCCTTAAGAATTATGTTGATTATTTAGTGTGGCGTGGTGGCACATGCCTGTAGTCATAGCTACTTGAGAGGC
TGAGGTGGGAGTTTCGCTTAAGGCCAGCAGTTAGAAGGCTGTAGTGAGGCCAGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGT
GGGCAGATCACGAGGTCAGGAGATTGAGACCATCCTGGCCAACACGGTGAAACCCTGTCTGTACTAAAAGTACAAAAAATTAGCCGGGTGTGGTGGCGGG
TGCCTGTAGTCCCAGCTACCTGGGAGGCTGAGGCAGAAGAATCAATTGAACCCAGGAGGAGGAGCTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAG
CCTGGGCGAAAGTGTGAAACTCTGACTCAAAAAAAAAAAAAAAAAGAAGAAGGCTGTAGTGAGCTATGATCATCATCACTGGACTCCAGCCTTGGCGACA
GAGCAAGATCCTGTCTCTAAAAAGAAAAAAAAAAAAAAGGCCGGGCATGGTGGCTTACGCCTATAATCCCAGCACTTTGGGAGGCTGAGTGGGGAGGATC
ACTTGAGGTCAGGAGTTCGAAACCAGCCTGGCCAACATGGTGAAACCCCATCTCCACTAAAAATACAAAAAAAATTAGCCAAGTGTGGTGGCGCGCACCT
GTAGTCCCAGCTACTGGAGAGGCTGAGGCAGGAGAACTGCTTGAACCTGGAAGGCGGAGGTTACAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGG
GTGACAAAGCACGAATCTGTCTCAAAATAGATAAATAAATAGAAAAGAATGCTAATTTTACCCTGCCTGTGTCCCTGTGCTCTGGAAAAGGAACAAAGTC
TGGATGATAGCACATCTGTTTACAGCATGGTTTACTGAATATTTTAAGCCCACTATTGAGATCTACTGCTCAGAAAAAAGTATTCCTTTAAAAATATTAT
TGCTCCTTGACAATGCACCTGGAGATGTACAAGGAGATTAATGTTGTTTGCATGGTTGCTAATACAGTATCCATTCTGCAGCCTGTGGATTGAGGAGTAA
TTTCGACTTTCAAGTCTGATTATTTAAGAAATACATTTTGTAAAGCATGAGTTGCCATACATAGTGATTCCTCTGATGGATTTGGGCAAATTCAATTGAA
AACCTGGATAAGATTCACCATTCTAAATGCCATTAAGAACATTTGTGATTCATGATGGGAGGAGGTCAAAATATTCATGCTAACAGGAGTTTGGAAGAAG
TTGACTCCAACCCTCATGGATGACTTGGAGGGGCTCAAGACTTCAGTGGRGGAAGTAACTGCAGATGTGGTAGAAATAGCAAGAGAACTAGAATTAGAAG
TGGAGCCTGAAGATGAAACTGAATTGCTGCAATTCATGATAAAAGTTGAATGGATGAGGAGTTGCTTATGGATGAGCAAAGAAAGCAGTTTCATGAGATG
GAATCTACTCTTGGTGAAGACGCTGTAAGCATTGTTGAAATGACAAGAAATGATTTAGAATATTCCATAAACTTGGTTGATAAAGCAGTGGCAGGATTTG
AAGAATTGACTCCAATTTTGAAAAAAAGTTCTACAGTGGGTTAAATGCTATCAAACAGCATTGCATGCTATTGAGAAATCTTTTGTCAAAGGATGTCAAT
CGATGTGGCAAACTTCACTGTTGTCTTATTTTAAGAAATTGCTACAGGCACCGCAACCTTCAGCAACCACCACCCTGATCAGTCAGCCGCCATCAACCTC
AAAGCAAGGCGCTGCACCAGTGAAAAGATTATGACTCACTAAAGGCTCAGATGATAGTAACATTTTTAGCAATAAAGTATTTTTAAAATTAAGGTATGTG
CATTGGGCTGGGCGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGAGAGGATCACTTGAGGTCAGGAGTTCAAGACTAGACTGGCA
AACATGGTGAAACTTCGTCTCTACTAAAAATACAAAAATTAGCCAGACATGGTGGTGTGCGTCTGTAATCCCAGCTACTAAGGAGGCTGAGGCAGGAGAA
TCGCTCGAACCTGGGAAGCAGAGGTTGCAGTAAGCTGAGATCATACCACCGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAA
AAAAAGTTATATGCATTTCTAGACATAATGCTATTGCACACTTAACAGACTACAGTATAGTGTAAACGTAATTTTACAGGCACTGAGAAAAACAAAAGCG
GTGTGACTCACTTTAATGCCATATTAGCTTTATTGCAGTAGTCTGGAACCCAACCCTTAGAATTTTGGGGGTATGCCTTTACTCAAATGGGGCCCACCAG
GGCAGAACCATCAGGGTCTAGAGTAGGAGTCAGGTGATGACTTTGAATCCCAGGTTTGTAAGGAGTGTGATTCACCTTATTAACTCGTTAGAGGATTAAC
TGAGTCCCCAGAGACCTCCAGGAGGCTAAACAGATGGAGGTCGAGAATATAAACCTAGCACCACACCAACTAGATGGGTTTCTCTAGACGCCTTTCACCA
GGTGCTCTCTCCTTACTGGACAGCGGGGTGGACTCTGGAGAGTGGACCTGCCCCCACCTGGATTCTCCCTAGTATCCTCCGACCGCCCACTACCCCACTC
CCCCAGGCTCCGCCCCGATCCCCCAGGCCCAGTTCCAGGATGACTTTGGATTGCCCGCCCTCGCCCTATCCCTGTCCCCGCTCCCGTCCTAAGATCCACT
CGTTTCCTTCGCCATGGCTCCGCTCAGGTCCTAGGTCACCCTAGCCCTTCTCTCTTAGCACAGGCTCGGCCAGCCCTGGCCCTCTGGGACCCATCAGCTC
CTGCGATCTCTGGCCGGCCTCGCCCTGCCTGCTCCGCCGGGCCTGGCCCGCCCCTCGGGTTCTGGCTCCGCCACCCGCCCTCGTGGGCTCTCCCCTCGCC
TTGCTCTGCCCTGCGGCGCCCCCTGTCGGCCCCGCGTGCTCTCTGCGGTTGCCCCTTTCCCTCGGGCCCGCCCGCCTCGCGCGGTTGTCTTGGAGAGGGA
CGCGTAGGCTACGCCACCGCGGACGGGTCGGATCCGGTCCCTGGACGCGGAACAGAGATCCCCTGATTCAGCCACCCCCAGACTGAGCCCCGTAGAGTGC
GTTCTTACCTTCCTGCCCCGACGAAGGTCCCAGAGACGCTGCGGACAACACCAGCATGTCGAGCGAGCAGAGCGCGCCGGGGGCCTCACCCAGGGCCCCG
CGTCCGGGGACCCAGAAGTCTTCTGGCGCGGYGACCAAAAAGGGAGAGCGCGCGGCCAAAGAGAAGCCAGCGACCGTTCTGCCTCCCGTGGGGGAGGAGG
AGCCCAAAAGCCCTGGTACGCTGGCGCCGGGGTTTGGGGATCGGGCTTCCAGGCTGCGTCTTCCCGGGTTCCCACTAGCTACTCACTGCTCCAAGGTTAT
GGCTGAACTCATASATACCTACGTTGAGTTCCTGAATCTCGGCTTGATAGATGTTTCAATTGAACTTGATCTTAAAGAACCCACACTCTGGTTTGGGATG
GTGACAAATACCAATAAGATGTGATAAGATATAGAAGAGAGGAAGGCCCAGGGGGTGAGGGCATCAGGRGTGTTGCCAGGAGGTGCCTTTGAACAGAGKT
TACAGATGTTCATTCATTGARTCAACAATTACTTTCCAAATGCCAGCCATGAGGCCARATATGTCACGGAGGAGAACGAGGTGGACACAGTCCTGCCCCC
ATGGGGTTTACATCCTCTGGGAAAAGAAAATGAGTAGAATGGTATAAGTAGAGGTATGGCCCTTTTTGTTGCAAGTGATAGAACCCCAATCAAACTAAGC
ATGAAGGGGAAATGTATCCGAAGTCTTCTTGATACAAATCTGCCAGCTTCGTCATCACGGGGACAAGAACTTGCTGTCTCTGGAATCGAAGTAAAACAAC
TTGGGAAAAAGATCTGATCATCCAGCATTAGCCAGGTACTATCTCTTTGTCAGTGCTGGTGGATGGGGAGAAGGAATTATAGGAGCTGGAGAAACAACAT
CTTCTGGAAGGGAAGACAAGACAGTATACAATCCCCTACAGGTACGAAGCCAGTTACATTCAAAACACACACACACACACACACACACACACACACACAC
ACACACACACACACAGACATGGCTGCTGTATAGAATACAGGGTGGAAGGAGGCAAACAGATGAGTTACCGGACTATTTCAACAGCCTAGTCTGGGGACAG
TGGGAGTTGGGATAGGGCAGTGAGAATGGTGAGGCTTGGTTGAGTTAGGCTCCTCAGAGAAACACTTTTGAGGTAGAAGTAATAAGAGTTGGCGAAGGAC
TGGACAGGGTAGGGAGTGAGTGACAGAGCAAGAAAGATTCTGAGGCTTCTGGACTGGGCACTGGGTGGGAGGAAGTGCCATTCATGGAGATGGGAAAGGC
CAAAGGAGGTGCATGTAAGGGAGGAGCTCTAAGGGGTGATGCCAGCTGGACAGCTGGACACATGGGTCAGCAGTGCCTGAGAGGTTAGGGGTGGAGTTGT
GACTTTGGGTGAAGTTGTGACTTTGGGAGCTGCTGATGTTCTGGCATAATTAAGTCCTGGCAATGAAAGAGACCCCTCAAGGAGGCAGGGAGTATAATTA
GAGAAGAGGAGAGGGCTCAGGATCCAGCCTTACAGGTTGTAGAGGATGGCAGGGAAACCTGAGCAGCCAGCAGAGAGGTAGGAGAGAATGGGAGTGATGC
CTGCACAGGCACCTGGATAGGACAACATGGAGGTCATGGTGGCCTTAGCAGACACCAACTGTGTGCTGTGGCAGGGGCAGATGTGGGCTCGTGTCCGGTA
GAGAGTGATGGCTGATATAGGAAGGTGTAGGGATTTAGAGGAAATCCTATCTAATGGCTTTTATTTCTGAAGAAGCTACGAGGTGAGATCATTAGTGAGC
ATAAGAAAGGGGTGTGGAAGGGGAAAAGAGCTGTGCTGTGTGACAGGTAACTAYCTGCTAAAGTGCAGAGAGCCCATTTCCATCCAGGCATGAAGTACTA
CAGGGCAGCGCTCTTTTAGAGCAGGGCTTCTCAAGGTGTTGTCCTTGGACCAGCAACTTCAGCATCATCTGGGAAGTTGCTAAAAATGCAAAATCAGGGC
TCTCACCTGGGCTACAGAATCAGAATTTCTGTAGGATAGGGCCCAGGAAATTGTTTTAGCAGGCTCTCCAGGTGATTTTTAAGATGTTAAAACTTGAGAA
TCTCTGTTCTTGAGAAGGGAGGTATGAGTGAAGCAAGGAAGCATGAGGGGCTCTCCCAGCAGAGGGAAGTTTGGGAGGGCAGGGAGGTGTGCAGGAGCCA
GCCAGACCAGGGGGTCACTGCAACCTCCCTATGCCTTCTCTTACCTGCTTCGCCCATTTGGCTGTGCCTGGGTTACCACTGATGGCCAGACACAGGAGGA
AAATGCCTCTCATGCCTTTCCCCATGAACCCTCGAGCCTCTCTGCATCCTGCCAGCTCCTCCACTCCCTCAGGCAGGCTCCCTACTGCTGAGCTGCAGGT
GTCCCTCCYGGCACAGCTCCTGCAGCACCTGCCCCTGTGGCCAGCGTGCTGTTCTGTGGAGCTCCAGGCTGTCCGGCACTTGGCAGGGACTCCCATCCTA
TCTCTAGGAGCCACTTCTTCCTGGGATGCCTATGGTGGGGAGCCAGAAAGAGCAAGTGTCCCTTGAAGACTCAGAGTCTCAAGTTTGCATAGCACAGCCC
TCAGGTTGGGATGTGGTGGGCGCGTGTGAATTAATATAACTCAGAAATGAGTTAATATTTCTAAAGCATTTCAAACAGCACTGGACACTAGGAAGTGCCA
TATAAACACACTGGACAGGGGAAATGTTAAATAAAAGTATCGTTCTGCTGCTCTTGGGTGTATGTGTAGGGAAGGAGTGGGAGTGGAAAGGAACTCACAT
CGGGCCTGCGCTTTCTCCCAGGGACCCTGAGCAGTTCCAGCAGGGAAGGAGGACTTGTGAGGAGGAGGCTGGGCTGGGGACACCTGGGAAAGGCGGAAGC
CCGGGCTGGGAGTGGAGAGCAGGGGTGGCAGTCGCTTTGACCTGGGGGTGGGGAAGCCAGCACACAGAAGAGGGGACCCCGTTGTCTACCGTGCACGCAC
GCCCGTTAGTCCCCTTTCTCCGAGCTCTTGCTTTCCCCGTTTCCTATCAAGTGTTTTCAGCGTCCGTACTTCCAAGCGTTTGCAAGTTGAATGGCTGCAA
AAATATCCGTCTGAGGAGGGCCCCTCCGCCCGCGCGGGAGAGCTTGGGGATGCGGGGGTGGGCGTGGCCCCTTCTCTCACGCCCCTGCCTGCCCCCGCAG
AGGAGTACCAGTGCTCCGGGGTCCTCGAGACCGACTTCGCCGAGCTCTGCACGCGGTGGGGCTACACGGACTTCCCCAAAGTTGTCAACCGGCCCCGCCC
CCACCCGCCCTTCGTCCCCTCCGCCTCTTTGTCGGAAAAGGCCACCTTAGGTGAGTGACAGTGGAGCTCCCCGGTGCCTGCCAGGGCCGCCTAGTCCATC
CTCAGCCTCCCTTCCCACGCCGGGCCAAATGGAGGGACGCGGGGCGGTGTGTGTGTGTGAGTCGGSGGTATTCGACGAGGCCGGTGGGGAGGTGGGGGAG
TCTCCCGTCTTCCTTTCCAACCCAGCAGAGGCGCGAGTGGCCGGAGAGGCAGAGTCCGCAGGCCGGCGCCTCCCCTCTGGCGGTGTCCTCCAATCCCACC
CGGGCACCCGTGGGCCGGCCCGGCGTGGGGCCCTGGAGGTGGCTGTTCCCCTCCCTCCTCACCTCTGCCTTCCAGACGATCCGCGGCTGTCGGGGTCCTG
CAGCCTCAATAGCCTGGAGAGCAAATACGTGTTCTTCCGGCCCACCATCCAGGTGGAGCTGGAGCAGGAGGACAGCAAGTCAGTGAAGGAAATCTACATC
CGCGGTGAGCCCCGCTCCCCCCACCCGCCCCAGCTCCCTCCCGCTCCCCTGGAGCCTCCCAGGTCTGAGGCACCTGCCTCCTCTTGGCCCGCAGGTTGGA
AGGTTGAGGAACGGATTCTGGGTGTCTTCTCTAAATGTCTGCCCCCGCTTACCCAGCTACAGGCCATCAAGTGAGAGGCACTGAGGGGATGGGCGGGGGA
CCAGAGTGGGAGTTGGGGCTCCTGGTGGCTTGGGAGAGAGAACCAAGGGGCATGGGAGACCCTGGCGACGGTGGGGAGGTCGGGGGTGGGGGATGAGGAA
GGGCACCGCTGGGAGAACGGTGTGGGGAGGGTTTTCCAGTAGGAGGGGGCGCTCTAGCTCTGTGTTTCTGCACTTCCCGCCCACGACAGCTTGTGGAAGG
TGGGGCTGACCGATAAGACCCTGACCACCTTCATCGAGCTCCTGCCTCTCTGTTCATCCACGCTCAGGTCAGCAGACTGGGAGGCCCCCTGTGCCTGGGA
AGCCTGGCTGGGCGGGTGGTCAGAGGGGAGCAGTGTGGGGATGGAAGTGGCAGGTCCCAGCTCCTGTGGGCCTGCCTGGCATCCCTGTGGAAGCAGAAGC
AGGCAATGTCTGTTGGATCATGATACCTCCATTAGACAAGAAGCCAGGTCCGCTTTTCTGCCCACACCAGCACCCAAAGAGCCTGATCTTCAGGGGCTCA
ACCTGTCTCCCCTGCATTAGTCTCATTACCCTCCACTCCCTCCCCAGAGGTTCTCGCTCTCCTTCCTGGCTGCCTGGGGCTCTGGCCCTGTACTGGGGGC
TGGTAAGAAACAGTTCTTATCCTCCAGGAACTCGCAGTCCAGGGAGGGAGAGAAAAGGACACAAGAATAAATACTGCAGGGCAATGTGGAGACTGGTGAT
GGAGGACTGGTTCATCAGAGGAGGGAGTGGGCAGAGAGAAGTGCCACCCACTTTATGGATGTGAGGCAGGAAGACCTGGAAGACTGCCTGGAGGAGGTGG
TACTGAGCTGAAGGAGGCCTAGGAGCAGGCCAGAGAGGGAATTGGGAAAGGGTGTACTTGTATGGGAAGGAGCAGGAGCAAGGCATGGGGCAGGGTAAMW
ACAGGTGTGGTTGGGAGTGTAAGGGGCAAGGCTGATTTGGCCCTGCCCCTTCTCTAGGCTCCCACAGCACCCTGCCTCTTCTTGCTTCATGGTGGCGGGG
GGGTACCCCTCCATGCAGTGGCTTGCCTGTCTTCCTCCTGTAGATGGCATGGATGCTCCTTGAGGGCAGGGACTGTGTCTTCTTCAGCTGGGGGTCCCCA
GCACTCTGTGTAAAACACCATGAAACATATTTCCTTCCATCATGGGAATTAGCTAGCAGAAAACAACTATATGAATTCATCTGTAAATAATGTGTAAAAG
TAARTCATAGCAACATAAACAAATTTAAACTGAATAATCAAGTTTATGTGACAGACGAGGCAGGCTGAAAGGTTGAACAAAATAAGAAATCATGGGAGCA
AATTTTTACATAGCGTCATTTCTAGCCATTAGTTCAGTTTTTGCTGTGACTTAGAAAAGGACCTCCATTCTTACAGCACTGTTAGAGAAGCAACTGCCAT
GTGGAGGCTCATGTTGTAGTTATCTCTTGCTGTGTGACAAATTAACCCCAAGATTCAGTGGCTTAAAAGGACATACATTTATGATCTCATAGCTGCTGTG
AGATGACCTGGGGGTGGGCTAGCTGAGTGCTCTGGCTCAGGGTTTGAGGTTGCGGTACAGCTGCTGACTGTGGCTGCACTTACCTCAAGGATCAACTGTG
GTGGAGAATCTGCCTCCAGGCTCRCTTATGTGGCTGCCTGGGCCTCTCCACAGGCTGCCTGAGTGTCCTTACCACATGGCAGCTGGCCAGCTGAGAGAGT
GCCAGAGAGCACTCAAGACGGAAGCCACCGCCTTTGTAGCCTAAACCTGGAGGTGCTGTCCCATCTCTTCTGCCATGTTCTGTTCATTAGAAGTGAGTCA
CTTATTTCCCTCCACCCCACCCCCCACCYCTTCTTTTTTTTTTGGAGACAGAGTCTTGCTATGTCGCCCAGACTAGAGTGCAGTGGCACAATCTTGGCTC
ACTGCAACCTCCGCCTCCTGGATTCAAGTGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCACGCCACCATGTCCCGCTAATTTTTTG
TATTTTTAGTAAAGACGGGGTTTCACCCTGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGCAATCTGCCCGCCTTGGCCTCAAAAAGTGCTGGGAT
TACAGGCGTGAGCCACTGTGCCTGGCCAGAAGTGAGTCACTTCTAATGTGAAGTCCACACTCAAGGGGAAGGAATGACACAGGGGCATGAGTTCCAGGAG
GTGGGGACCACTGAAGGCCATCTTAGGGGCTACCCTACCATGGGTCACCAACTTTGGGGAGCAGTCCCTTCACAATGGGCACATCTGTGAATTTTTAGTC
TGGGGAATTGTCACATATATTTCCTATATTGGGGGGGCAATCCTTTGACTCTACTTCCTAGCTGCTTCCCAGAGACGCACACTTCCTCTCTGTTCCCTTC
CCTTACCTGGCCTCAGTGGTACCTTCTGGTTCTCAGATCTCCCCTGCCCTCAGGAAGGTGTCTCTGGAGGGGAACCCACTGCCGGAGCAGTCCTATCACA
AGCTCATGGCCTTGGACAGCACGTGAGACTCCCTGCCCTCACCCCCTTTCTCTGGGCCTGTCTCGAAATTCCAAGCCATTTTTAGTCCCCGCCCTTCCTT
GTCCCCCTACCATCTCGGCAAGGGCCCTCGATTTCTGCCCCTACATCCTCAGACCAGACCGCCCCCTCAAGCGCTCAAGTCTCCCATATTCCGGCGGACG
CCCTGTACCTTTTCCAGCGACCCACATTCTCCCTCCGGCTGCCCCAGGATTGCGCACTTGTCTCTGCGGAACAATAACATCGACGACCGCGGGGCGCAAC
TCCTGGGCCAGGCGCTGTCCACGCTGCACAGCTGCAACCGGACCCTCGTCTCGCTCAACCTGGGTTTCAACCACATCGGTGACGAGGGCGCAGGCTACAT
CGCGGACGTGAGTGCACGGCGGGGAGGGACCTGCTGGGAGCAGGGGCGGCTTGGGCGGCTCACGCGTCCCTGCCCGCCTCTTAGGGCCTCCGGCTGAACC
GTTCCCTGCTCTGGCTGTCCCTGGCCCACAACCGCATCCAGGAYAAGGGCGCCCTGAARCTGGCTGAGGTGGGTGTGCCGATCAGGTGGGGCAGGGGCGT
GGGCGGGCCGAGGGAGCCGACCCTGACTAYCCAGGCGTCCGACCGCTGAGCGCCCGCCTCCTTCAGGTCCTGCGCGCCTTCGAGCTGACACACACCGAAG
TGGTGGAGCGCCGACGCCTCCTGCTGGAAAAAGGGACACAGGAGCGCTCGCGATCGGTGAGGAGCTACCAGGCCCCAGGACCAGCCGAGAGCCCCTCTGA
CCCTCGAGCCCACTCCCCAAGTCCGCTGCTTTTCAGCAAACTGGCCATCCAGTTTAATCTCCACCCTCTGTCCTGACTGTCTTTCCCTCCGATTTCTGCA
CAGACTTTTGCCAAGCCCCTGCTGGGSGGGCTCTAATTGCAGAACCACACTATGGGCAGTAGAGTGTACTGGTTCAGAGATAGGACACTAGATTGAGACC
ACCTGGACCTGAAATCCGGCTCATCCATATCCCAGCTTGTAACCTTGGGCATGTTACTAAACAACTTCTTCTTCTTCTTTCTTTTTTCTTTCTTCTTTCT
TTCTCTTCTTCTTCCTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCCTCTTATTCCTCCTCCTCCTCTTCTTCTTCCTCTTCCTCCT
CCTCTTCTTCTCCTTCTTCTCTTCTTCCTCTTCCTCCTCCTCCTCTTCTTCCTCCTCCTCCTCCTCTTCCTCTTCCTCTTCTTCTTCTTCTTCCTTTCTT
CTTTCTTCTTCTTACTTTTTTTTTTTTTTTTTTTTTTTGGGAGATGGAGTCTGGCTCTGTTACCTGGGCTGGAGAGCAGTGGTGTGATCTCGGTTCACTG
CAGTCTCTGCCTCCTGGGTTCAAGCGATTTTTCTGCCTCAGCCTCCTGAGTAGCTGAGATTTCAGGTATGTGCCACCATGCCCAGCTAATTTTTGTATTT
TTTAGTAAGATGGGGTTTCGCTATGTTGACCAGGCTGGTCTCGAACTCCTGGTCTCAAATGATCCGCCCACCTCGGCCTCCTAAAGTATTGGGATTACAG
GCGTGAGCCACTGCACCTGGCCTGTGTTACTTAACTTCTCCTTGCCTTAGTTTCCTCATCTGTAAGTGGGGATAGTTGTACCTATTTCATGACTGTCGAG
AGGATTTAAAGACTCAATTCCTGCAATGCAGTTAAAATAGCACCTGGCACTTAGCTCAATAAAAGCTGTTATTTTTTCCCCCTCAATATRAGTCTGAGAC
CCTGCCTCACCCTTCATCTCACCCCACCCAGGTCCCTCTGCTATTTCTTCCCGAAAGCATCTCACCCCAGAGGAGTCCTATACAAATTATTTTAGCATTT
AGGCAGGGAGGTGGGTGGGAGGGTGCTGTCAGCTCGACTGCTCCCCAAGTATGGGTATAGCTACCTTTCATGCCCCCATTGAGGAAGGGGCTCTGGCTTC
TTCCCCCCTTCCCTCCCATTTGTGAGCACAGCCCTCCTCCTCTCGACACGGGGACTCCAAAACGGACCGTGAGAAGAGTCAGATGGTAGGGATCAGCAAT
AGTGCATTGGTGGACAAGACAGACAAGACGCAGACAATGAAAACCCCTAAGGGCCTGGGCAAGAAAAAGGAGAAATCATGGGTAGGTGTGCAATGGGACA
GATCCTGGGTGCTGGACGGACAGGGGAGGGGGCTTCCATCATRTACARAGGTGGTGGAGGGAAGAAGGCCACATGGGCCTTTGAAGTTCCCCCTAAGGCC
CCGGGTCCTAACCTGGGCTCCTTCCCTCACCACTGCCCATCCCCTCCGGAGGTGGGACTTGCCCCTCTCTTCTCACATTCTCCACAGGAATTGGCCAAGA
AAGAGGAGAAGTTGGGGTCTGGGCAGTCACCCACACAAGGAACCCCTAAGAAGGAAGATGCCACAAAGGCAGGCAAGGGGAGTAAGTGCGGGTGCCCCTG
GGTGGCATCTTCCTGTGTGGAGGAGGGAAGAGTGCYGGGCCGGGTGCAGGARGCTGTTCTGGGCCTGGGTGCGCCTGCCTGGAGCTCATCTCGCCATGCC
CCTCTGGGCTTGATTTCCTTCTCACAGTGGGATGATGTGGAGAGCCGCATCCAGCCCAGACATCCTGACCCACTGCTGTCCTCATTCCCTTTGTTGGAGC
TGGAGCTCTGTGGCCCTGTCTTCAAAGAACCCATACACCTAGCTGGGGCCCCCTCCAGCCATTTCTTTTTTCTTTTCTTTTCTTTTTCTTTCTTTCTCTT
TCTTTCTTTCTTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTCTCTCTYTTTTTTTTTTTTGATGGATTCTCACTCTGTTGCCCAGGCTGGAGTGC
AGAGGTGCARTCTTGGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCAGTTCTCCTGCCCCAGCTTACCCAGTAGCTGGGATTACAGGTGCGTGCCACC
ACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGCTTCACCATGTTGGCCAGGCTGGTTGCGAACTCCTGACCTCAGGAGATCCTCCTGCTTCGGC
CTCCCAAAGTGCTGGGATTACAGGTGTGAGCTACAGCGCCCAGCCCCCTCCAGCCATTTCTATTGCACCCAAACCCAAAGTTGGGGGGTCTCTTTGCCTC
ACAGCCTGTTTTCTCTGGGGAGGGAGCCTGGGTGGTATCAGAAGTGTGCACTGTGCATTCTGGCTCCTCTTCTGGCCCCAGAGGTAACCATCCCTGAACA
GAAGCCAAGCAGGGCAAAAGGGATCAAGATCGGGAGCAGAGAGAAGCGCAGCATCCTCCTGGAGTCCGAGGTAAGTTGCCAGGAGGAGTGGAGGCAGGGG
GCACACCCCTGGGATTCCAGGCTTGCCTGAGACGTCTCACCCCAGCCCCTCCTGGAATGTGGTCTCCAGCCCCATGCTGTGGCAGCAGCCATTTGCCTTC
AAATTTGTCCTCCACTCCTGTCCCAACCTCACCTGAAACCCCCTCCCATCTCACCTTGGGCTTCTGTGGGAATAACAAGAGCAGACCCCTTCTATTTTTC
CTTGTCTATTAGTAGCCCACACTTTGGATCTGCTGTCTCAACTCAGCCAGGCTACTTCCCCAGAGGCCCAGAGGCACAGAGGCCCTCAGTTCCTCATCAC
CACCTCCATCACTTGCTTGGACTGTTGCATAGGAACAATGCGTCTTCTTTTTTGCCCCTCTCAGCAGCTCCCTGAGGAAGGCAGGGCATTTTTATGGTCA
TGGCACTGCCCCACGCTACCCTGTGCATGGGTCCTTCTTCAGACCCTCTCTCTTTTGCCCCTGGATCTTCTCTGCCCCCTTACAACCTGGACCAACTTGC
TGCTTGCATTGGAAATCTTCCTGGGCTGCCTTCAGTGCTCTTATGGTCCCTCATCCCTCCGTTCTGTCAGCTGCCTGASSATCCGCCTCTCTTTATTTTT
CTCTTCCATTGGAAGACTCCCTGCACACCCTAGGCAGGGAAGGGCCCCTCTCCTTTCAGGAGTCTTCTCTGGCACTCAAGACAAAATCTTACAAAAGAGG
ACGTTCAGAGGGAGGAAGAGATTGGGGTTGCCTTTCAGTTTCCATTTTTCATCTCTGCCTCTGTCTTGATCAGGCTGCTGATTGTACTAGGACTACTGCA
ATTTCTTTTCATCATGCCGTCATTGTTACTTCCCTCCAATCCATTCTCCTCATTGCTCTAGGTGTTGGGAAACACTTAGTAAAATCTGAATGCGACATAC
TGTTTCACGCTTCCAGAGCCTTTGCACCTGCTTTCTTTGCCTAGAACACCTTTCCCGTCTTCATCTGACAATATCATGTGCGTTCACAGGAGGCCCTTCC
TGGCCTGGCCTTTTCCGTGCTCCCACAGTGCTCTGAGCTTGCCTCTGTCAGCGCTCACTCCAGACCACGTTACTTTCACTTTCTGGCTCCTCCACACAAA
GGAGCTTCTTGAGSGTATGGGCTTATTTATTTTTGTATCCCCAGCACTTGGGACAAAGCCTGGACTATAGCCGGCAGTCAAAACATGTATGTTGAATGAA
TGAATGAATGAATGGCCTGTTGACCAGCTCCCCTGCTGTCTGCTGCAATTAGTATTCTGCTTTAGCAGCTGGTTGTTGAGGCTACTGAGGTGGTCAACCC
TCTCCTGGAGCCTGTGGAGCACCGAGATGGGAAAGTTTTCATGCCTGGGAACAAGGTCCTTTTGCACCTCAACCTCATCCGTATGTCTGCCAACCTCCCC
TGTCCTCCTGTCATGAGGCTACCCGGGCCCTGTCCTGCCTGAGGGTGTYTACCCCGACTCTATGGAGCAGAGCTGGTCCTCCCATCTTTGGGCTACATGT
CCCCCAAGGCTCTCTGGCACAGGGCTGGAGGGGCCAGAGGAAGTGCTGAGTCTGGGAGGAGGCTGAGGACAGGCGATTGGAGTAATGAGAGGAGTTAGAG
AGATGGGGAGTGTGTGAGTAASAGCTGAGTGAAGGGCTAGGTCAGGGAAAGGTGTGCCTGGGCCAGTGAGTCTGGAGTGGGGAGCTGGAGGAACTGGGAT
GCTGGGGATGTCTGGTGTGTCAGGTGCCAATGAGGCCTGTGGTGCTAAGAGGCCACCTGTCTGTAACTTCCACCAGGGAACCGCATCACAGAGGTGGGGC
TGGAGGGCTTCCTCGCCACGGTGCAGTATCAGATGCAGTTCTCCAAGGCCAAGAGTGCATCCAAGGGTCCAGTGGGGCTGCTGTGGCTGTCCCTGGCTGT
GAGTCCCTTTCACTCTCTCCTGCTGAAGCAGACGTTGCCCCTATCAGCTGTCATACTAGACAGCTGCTGCAGGCAGCTTCTGTCTCCCCATTTCCAAGGA
AGGTCTGTAGTTTCTCTGCTTCTTTTTAATAATCACAACATAACCTCCATTCCTCTTGCTGGAAAATCAGCAGTATTAATCACTCTGCTTTTTCTGCATG
TCCCCCAGCCCCTAACCCACCCTGCCCCAGGACCATTTTTTTTTTTCTGCCAGAGGACTAATCTTCATTCCTYTTGTCAGATGTCAGCCTTCCTTTTCTT
TTCAGAAAAATTGCTTCGCCCCACAATGTCCTGCGTACGCCATAATCCAGGAGCTGATGTTGCCAAGGGATCCCATCAAGGCCAAACTCAGGGAGGATGA
GGCCATGGCATTCTTCCCCTAGCCCCCTCCCACCTGCTTGCCTCTAAGACTCGGGGCTACAGAAGCACCTCCTGTCCCTGTGTGGGGTGACCTCCCTGGG
GGAGATCTCAGACCAATAACAAAGTCTGTTGCTATACTTTTCCTTGAGGTCGTCTGAAAACTTTCTTCCAGAACTACTTGGAACATTTAGATTTTGCGTC
TGTCCATGTTACATGCCAGGAATGGCAGAAAAGTGGTCTGAATTACAGTTCCGCTGGGGATGATCTCAGCTCCTCTGGCCTCAGTTAGCCAGGGGCATTG
CCGTTCTGCCTCCTGGGGGCTAGTTCTTCCTTGCTCAGGCAATAGCCATTCCCCCACCGTGTTCCCTAGGGGACATGCATTATGCCAGGGTTTGCATTCA
GAAGGATTTGGGATAGGGATTAGTAACTGACACACATAAGCTTGGGAGGGAGTGGGAGCAGGAGTAGGTGAAGCAGAGGAATTAAGCACAGGCTCCATGC
CCGCTCCCTTCTGCTTCCCCGTCTGGCTGGCCCAGGTGTTTGACTGCTTTGGAGGAGAGGTAAGGGTTCAGCTTAAGAAAATGAACAAAGGCTTGGCAGG
CCACTTTGGAGAGGGTGCTAAACGCTCAACATCTACATAGCAAAGGCTAAGCATTGAACATGAACCCTAATAACCTGCCTGCAGAAGTCAGCAATCTGAA
ACCAGAGGTTCCTGAGCTGAGTCAGGGTCCCCAAACCTTTACCCTTCAGTGCTGCCTCCATTGAGGTCACCTGCCAGTGCCCAGAGAGCACAGGACTGGC
TTCGGGGAGCCTACCTGTAAACCTATACAGCAGTGTCCAAGATGGCGCAGATCAGCAAAGACCAGCCTTTCTTCCTCACTTCTAAGCAGATTCAACCTGT
TCCACATTCTCTAGTCCTACTTCCCTCATCCCACTGCCTCTGCCTACCTAGAATTCCCTTGTCCTGCTGTCTTACTTTGTGTGGCTCAGTGGCACCTAGG
CCTGTCTCCTGCCTCTGAGTGCCTGGAGCCCTCCTAGTCTGACTGTCCCAGCTCTGTCTCTGCAGCTGGCTGTGGAGCCAGCTTCACCAGGGAAAACCTA
TCATTTCTTTGAATTCCCAACACTGAACACATTGAGGTGCTGGATGATGGTCACCCCAGCTTCTGCAGGGAAACTTGCCATGTCCTCCAGAGCTTCAGTG
ACCCTTTCAGCCCATATCTTTATCCCACCCTTCATCACTAATGACTCCTGTATCAATTCTGATGCCCAAATAGACTGTACCCTAATGAGGACACAGCTGA
GGATTGTGAGAGGTAGAGGAGTCAGGGTTGGGCTGGAAGAGACAGAATTTGTCACTTTAATCCAACACTGAATGCCAGGAGACAGAGGTGAATGGTTACA
GTCTTGGTGATGTGGCTGCGTCTGTGGGAGGATGTGGATGGATGATGACAGTGATGAACTGGCCAGGCCTGAGGCAACCCTCCCACTTAGATTTGGCTTT
TAAAGTCTTCAAGCTCATTGAGGGCAGCTCATGAGACCTCTTGACTCTGGGTCCACTGCTCCTTTATATACACATATATGTGTATATATATGTGTGTGTG
TGTGTATATCTATATATGTGTGTATATATATGTATCTATATATATATCTGTGTGTGTGTAACTGAGTTCAGTGTCTTGTCATGTTTTCTCCATGGGGGTT
GTACAACTTAAGTTTGCCCAGTCCCTAGTTCAGTGAGTGCACAGCTGAAGCTCTGGGAGGGAACAGGCAAGATCTGGGTCTGGGGGTGAGAGGGCTCCCT
CTGGTTCCCACTATCCAATCCTAACCAGTCTTACAGGGAACAAACACCGTACCTTTTATCACAGCGATTCCAAGAAACACACACACCACCACTGAAGGAT
ATTTRACTTTTCTTAAAAAAAAAATCTTAACCATGAAAGGAAGAAAATAAAAGAGTATACATTATCTTAACAGCAGAACAGTCATTTCCATATCTATATT
TTATATATTATATATATATTTATATATATATATATGTATATATACACCTAGCACAGTGTGTATATTCTATTCATCAGGGAGAGTTGGGTGAGGACGTGGT
GATGGGGCCAATGCTGCGGTGGCCCCTTGGATGGTCCTGGGTGAATTCAGGGACTCGGCATTCAGACCCCTGTCCCCACCTCCTGGGGCCCAGTCCTCAG
CTCCGTACCTGCTTCACTGGTTTTCTACAGGGACAGGGTGGGGAAGAGGGGGACATAGGTGGGGTAAGAAACCCCCATGATCCCCATCTTGTGAAGATGA
GAAGTCCAGGGAGGGAGGGAGTAGCTTGGCAGCAAGCTGTGGAGGGCAGGCTCTGGAGCCAGGTGGGATGGGGAGCCAGAAGACCTTCCCACTCACAGGG
ACAGGAACACTCAGGCCTGGCTCCCGCTTTAGGCTCGATCCTGGAACTGGGTTGTTAACTAAGGAGATACAAGTGAAACCCCTCTTCCCTAAGCAGCTCC
TTCCATAACTGCCTCCAGCACTTCAGGAACAGGAACAAAAAAGGTCAAAGTTATTTACAATAGCAAAGATGCACATACGATACATACATATTTATAGGAA
ACCAAAGTGACAAAGAGGGGAGGGGAGGCACCCACCTCTGCCTGGGGTCTTATGGAGAAAGAGGGGAGGAAGAAAGTGCATTTACACAGAAGCCTCCTCC
TTTCACTTGCATGTCTGAGGGCAGCGCACATACAGGCGTGCGCGTGTACACACATATGTGGGGTGAGGGCAGACCATGGTGAGTGGGGGCCTTTCGGATG
CAGTCAGCATGCTTAGGAGACATGAGGCCTTGGAGGGTTGGGCTAAGGGAGGGAAAAGACACTGAAACCTGACTCCGACTTGAGCAGACCAAGCAACATG
CGGGTCTCCCCCCGGGCCTTGGCTGGATCCTAGTTTCCCTAACTGCCTCCTCCACAGGGAGGAGTGTTGGGATCCCCCCTACCCTGTGCCCCGGTCTCAG
GCCAGTCCCTGAAGGAGGAGTGGGGACGCAGAGGATTTGGTGGTTTGTACGGTTATGGTCCTGGTGACGCGGCTGCGTCTGCTGTGCTGTCTTCCAGGGG
GGCGTCAGAGCCTGTGGGAGGAGGATGAAGGTGAGGAACTGGCCAGCCTGAGGTGACCGCTTCCACATGTTTTGTCTAGAAAGTTCAGGCTCACGAGAAC
AGATCCTTCATCACCTTCCTTCTCCTCCAGAAACCCCAGTTTCTCGTAGGGCTTGAAAAGGGCTGTCTACTGAACTCCACTTTCATCAGCGCCTAAAGCC
CTTAGGTCAGGTAGGTATGTGCCTTGTCTTCCTGAGTTATGACATAGCTGTGTCCCTGGCCCACCCAGTGTGGTTCTGAATCATTTAATCAGCACGAGTC
TTAGGCCGACACCATGGTGTGCACCTGCAATCCCAGCTGCTTTGGAGGCTGAGGTGGGTGGATCACTTCGGCCCAGGAGTTTGAGACCAGCCTGGGCAAC
ATAGCCAGGCCAGCCCTTGTCTCAAATAAATAGAAAAAAAAAAAAAAAAAAAATATATATATATATATATATATATATAAAATTAAAAAAAGAACAAGTC
TTAGAGGTGAGAACAGGCTCCTCCTGGTTTGTTACCTCCATAGCACAAGGAAAAAGAGGGCTCAGTGCTAAGCTCCCCATTTTGCCAGGGAGCTTCTGTG
GGACTTCCCTRAAAAGATCCCTCTCTGAAGCTGAGAGAATGAACTCGTTTCACTCAAGGGGAAACCACTCTCAGAACCACCATCTCTCACTGCTTAGTGA
TGTGTCCTCACGAGTTGGCAGACTTCTCCCCCAATGGTAGGAACCGAGAGGGACCTGGCTTCACTCACCATCCTCAGGGCAGGGCCCCAGTTCATGGCTG
TTCCTGGAGTCAGAAGCTAGGGGCTCCTTAGCGGGAGGTGAGAGGGAGCCATCTGTCCATCTAGCTGCTTCTGTGTGGAAACTGCCCACAGGCGTGGTGC
CACCAGATGACTCTCCCCCAAGGGACTTGAGCAGCTCTCTGTGGGCCAGCTCCATATCCTGGAAGAGTCGGCGGGGGAATGTCTGCTCGAGTCCTTCTAT
TCCTAAGGCCCCTGGGGAAGGGGTCTGTGCTGGGCCTTGGGGAGGAGGGTGTGATTTAAGGGTGGCTGGGCGGGCTGGGGGAAGATCCCTGGGCCAGGAC
AGGATCTAGGSSTCCCGCGAAGACACACATCTCACTCATGGGGAATGGTTTTGGGGTGATGGACTGAAGGCCTGCAGGGACCCAAGCCCTGCTTCCCTCA
CCTTGAGCCTGTTGAGCTTGAGAGTGAGCTGCTCAATGGTAYGGAAGATCATGCCCACGTCCCTGAGGGCCAGGCYTGGAGGAGAGCGGCTGGGGCGTCT
TGGATCATCGTTGCCTCCCTGCAGCTGAGGCTGAGGCTCTGTCTGCCCTGCAGGGAGGCTGTCAGGCTGAGGGGGGCTCATGGGTGCCTCTGAGTGGTCG
GTGCTTGAGTCCGGGGGTCCTGATGGCATGCTGACATAAAAGCAGTTCCCTGTCCCCACAGTAAGAGAATGAGATCAGGAGGCAAACAGAGAAGTCGAAG
CTATCCTCCCGTTCCTGTGGGATTCCCCAGCCACCTGACAGAGCAGGCCAGGCAGTCCTCTCCAGACAAACTCAGAGAACGTGGGCCTTGCTCACTGTCT
GCCAGCCCCCTAAAAGCCCTGCTCCCGAGACCTTCTAGATGACACTTGCTCAGTCTGGCCCCAAGCTGGGGGAGATGCTGAGCGATGAACTCAAGGGAGA
AGTGGCAGAGCTGCAGTGTTTCATTTGGGGAAATTGGAGTGGCTCCCCCTCCTTGAGTAAACAGATTGTGAGCTGGTTTCAGGCTCTTCTGAAAGGAGCA
GGCAGCAGCCCTCTTGCCCTGCCTGACTCCAGCTCTGGATGAACTACAGCCCTGCCCTGCCCCTCTTCCATCCATGCCACGATCCTCTGGAGGTCCCTTG
ACCCAACCAAGGGGTGTCAGAGAGAGCTGGAGGAAGGACGTGGAGGGTTCCTGACAGGCAGGAAGCACAGAGAACCACCGCGGAATCTGGGAGGCTCTTT
CAGCCGATTTCCACAGTGACACTGGAGCGGCGGCTGAGGTGGGGAAGTGGCTGCTTGCATATCAGGTGAAGGACACTAGGTCCCCACCCCCAGGCCAGGC
TTCCCTGCCCCTCCCACAATTGCACACAGGCATTTATCCCTGCCATTCTGAACAGGAGCCTGGACAGGTGGCTTCTTAAGGCTGGATGGACAGCCAGCCT
TTAGAACCAGATCTCCCCGTCTTTAGAGCCAGATCTTCCTCCTCCCCATTCCAGGCAGCTGAGGGAGCTTGTGGGTGTGTGTGTGACCATGGGCAGGGGT
CCGACTCTGCCCTCACAGGTTCCACACTCCAGTCTTGGCCTGTCTTTAGCTCCAAGGAGAAAGTTATTACCCGTAGCCTTTGTTCCGCCTTCCACTTCAG
GTGGCCCAGGCTCTGACTGGCCACTCTCTGGTAGTGCAGGGACAACCTTGCTGCCTGCCACCTCAGCTGCACCGACACCACCACCACCAGGAAGAGGAGA
GACCAAAACACAAGGAAAGGGAAGGGAGAGAGAACAGGAAGGAGAGAGGGCAGGAGGTGGGGACAGGGGGAGGAGAAAATGGGAAGAACAAGGTGAACAC
AAGATCATACACGATGACATCCCAGGCAGTGCAGAGAACTTTCCACCAATTCACCGAGAGACAGAGAAGGAAGGTCAGTTCCCAGAAACCCAGGAGACAG
GTGGCCCTTGGGCAGATGGAATGAAAAATGCTGCTGGAAGGGAGGCAGAGTGGAATCCCAGGGGAGGGCAGGCCCACTAGCGTGGAACCCCATCCCATGT
GTGCCCCAGGCTTTGTTCTACTTTTCTTGCCACCCTCTCAGACCAGCCCACTCTTCCCGGGGTGGGGACCTTCCTCCCTGGGCTCATCTATTGGCCTCCC
TGTGAGCTTGTCTTGGCTTTTCTTGTCTCAAGGCCGTCCATGGTGTTTCCCAACCCGGGGTGCCCTCCCTGCCACCTTGTTCACTCCCCACATCCCTCAC
TCGCCAAATGTCTTCCCAGCTTTGTCCTCCACCCCTTCCA


SNP Information

Context             (SEQ ID NO:51713):
TGGTACGCTGGCGCCGGGGTTTGGGGATCGGGCTTCCAGGCTGCGTCTTCCCGGGTTCCCACTAGCTACTCACTGCTCCAAGGTTATGGCTGAACTCATA
S
ATACCTACGTTGAGTTCCTGAATCTCGGCTTGATAGATGTTTCAATTGAACTTGATCTTAAAGAACCCACACTCTGGTTTGGGATGGTGACAAATACCAA
Celera SNP ID:            hCV25752979
SNP Position Genomic:     6414
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,35|G,1)   total(C,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:51714):
CAAGGAACCCCTAAGAAGGAAGATGCCACAAAGGCAGGCAAGGGGAGTAAGTGCGGGTGCCCCTGGGTGGCATCTTCCTGTGTGGAGGAGGGAAGAGTGC
Y
GGGCCGGGTGCAGGAAGCTGTTCTGGGCCTGGGTGCGCCTGCCTGGAGCTCATCTCGCCATGCCCCTCTGGGCTTGATTTCCTTCTCACAGTGGGATGAT
Celera SNP ID:            hCV25759338
SNP Position Genomic:     15136
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,32)   total(C,61|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51715):
ACCCCTAAGGGCCTGGGCAAGAAAAAGGAGAAATCATGGGTAGGTGTGCAATGGGACAGATCCTGGGTGCTGGACGGACAGGGGAGGGGGCTTCCATCAT
R
TACAGAGGTGGTGGAGGGAAGAAGGCCACATGGGCCTTTGAAGTTCCCCCTAAGGCCCCGGGTCCTAACCTGGGCTCCTTCCCTCACCACTGCCCATCCC
Celera SNP ID:            hCV25756939
SNP Position Genomic:     14843
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,23)   total(A,1|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:51716):
TCATGATGGGAGGAGGTCAAAATATTCATGCTAACAGGAGTTTGGAAGAAGTTGACTCCAACCCTCATGGATGACTTGGAGGGGCTCAAGACTTCAGTGG
R
GGAAGTAACTGCAGATGTGGTAGAAATAGCAAGAGAACTAGAATTAGAAGTGGAGCCTGAAGATGAAACTGAATTGCTGCAATTCATGATAAAAGTTGAA
Celera SNP ID:            hCV3178923
SNP Position Genomic:     4250
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:51717):
GAACAGGCTCCTCCTGGTTTGTTACCTCCATAGCACAAGGAAAAAGAGGGCTCAGTGCTAAGCTCCCCATTTTGCCAGGGAGCTTCTGTGGGACTTCCCT
R
AAAAGATCCCTCTCTGAAGCTGAGAGAATGAACTCGTTTCACTCAAGGGGAAACCACTCTCAGAACCACCATCTCTCACTGCTTAGTGATGTGTCCTCAC
Celera SNP ID:            hCV7619002
SNP Position Genomic:     22011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51718):
TGAGTGCTCTGGCTCAGGGTTTGAGGTTGCGGTACAGCTGCTGACTGTGGCTGCACTTACCTCAAGGATCAACTGTGGTGGAGAATCTGCCTCCAGGCTC
R
CTTATGTGGCTGCCTGGGCCTCTCCACAGGCTGCCTGAGTGTCCTTACCACATGGCAGCTGGCCAGCTGAGAGAGTGCCAGAGAGCACTCAAGACGGAAG
Celera SNP ID:            hCV3178924
SNP Position Genomic:     11724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51719):
TGACTGTCGAGAGGATTTAAAGACTCAATTCCTGCAATGCAGTTAAAATAGCACCTGGCACTTAGCTCAATAAAAGCTGTTATTTTTTCCCCCTCAATAT
R
AGTCTGAGACCCTGCCTCACCCTTCATCTCACCCCACCCAGGTCCCTCTGCTATTTCTTCCCGAAAGCATCTCACCCCAGAGGAGTCCTATACAAATTAT
Celera SNP ID:            hCV3178927
SNP Position Genomic:     14390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51720):
TCCGTGCTCCCACAGTGCTCTGAGCTTGCCTCTGTCAGCGCTCACTCCAGACCACGTTACTTTCACTTTCTGGCTCCTCCACACAAAGGAGCTTCTTGAG
S
GTATGGGCTTATTTATTTTTGTATCCCCAGCACTTGGGACAAAGCCTGGACTATAGCCGGCAGTCAAAACATGTATGTTGAATGAATGAATGAATGAATG
Celera SNP ID:            hCV7618982
SNP Position Genomic:     17114
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   Caucasian(G,84)   African-American(G,84)   Asians(G,84)   total(G,252)   no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51721):
ATGGCTTTTATTTCTGAAGAAGCTACGAGGTGAGATCATTAGTGAGCATAAGAAAGGGGTGTGGAAGGGGAAAAGAGCTGTGCTGTGTGACAGGTAACTA
Y
CTGCTAAAGTGCAGAGAGCCCATTTCCATCCAGGCATGAAGTACTACAGGGCAGCGCTCTTTTAGAGCAGGGCTTCTCAAGGTGTTGTCCTTGGACCAGC
Celera SNP ID:            hCV7618967
SNP Position Genomic:     7954
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51722):
GAACAAGGTCCTTTTGCACCTCAACCTCATCCGTATGTCTGCCAACCTCCCCTGTCCTCCTGTCATGAGGCTACCCGGGCCCTGTCCTGCCTGAGGGTGT
Y
TACCCCGACTCTATGGAGCAGAGCTGGTCCTCCCATCTTTGGGCTACATGTCCCCCAAGGCTCTCTGGCACAGGGCTGGAGGGGCCAGAGGAAGTGCTGA
Celera SNP ID:            hCV7618983
SNP Position Genomic:     17449
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,12)   caucasian(T,8)   total(C,8|T,20)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(C,31|T,52)   TSC_42_C(C,19|T,64)   TSC_42_AA(T,34|C,49)   total(C,99|T,150)   (C,-|T,-)   JBIC-allele(C,596|T,893)   total(C,596|T,893)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51723):
CTCATGCCTTTCCCCATGAACCCTCGAGCCTCTCTGCATCCTGCCAGCTCCTCCACTCCCTCAGGCAGGCTCCCTACTGCTGAGCTGCAGGTGTCCCTCC
Y
GGCACAGCTCCTGCAGCACCTGCCCCTGTGGCCAGCGTGCTGTTCTGTGGAGCTCCAGGCTGTCCGGCACTTGGCAGGGACTCCCATCCTATCTCTAGGA
Celera SNP ID:            hCV7618968
SNP Position Genomic:     8509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51724):
CCTGGGGAAGGGGTCTGTGCTGGGCCTTGGGGAGGAGGGTGTGATTTAAGGGTGGCTGGGCGGGCTGGGGGAAGATCCCTGGGCCAGGACAGGATCTAGG
S
CTCCCGCGAAGACACACATCTCACTCATGGGGAATGGTTTTGGGGTGATGGACTGAAGGCCTGCAGGGACCCAAGCCCTGCTTCCCTCACCTTGAGCCTG
Celera SNP ID:            hCV15912609
SNP Position Genomic:     22511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51725):
GTATTAATCACTCTGCTTTTTCTGCATGTCCCCCAGCCCCTAACCCACCCTGCCCCAGGACCATTTTTTTTTTTCTGCCAGAGGACTAATCTTCATTCCT
Y
TTGTCAGATGTCAGCCTTCCTTTTCTTTTCAGAAAAATTGCTTCGCCCCACAATGTCCTGCGTACGCCATAATCCAGGAGCTGATGTTGCCAAGGGATCC
Celera SNP ID:            hCV7618987
SNP Position Genomic:     18173
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51726):
CTTACAACCTGGACCAACTTGCTGCTTGCATTGGAAATCTTCCTGGGCTGCCTTCAGTGCTCTTATGGTCCCTCATCCCTCCGTTCTGTCAGCTGCCTGA
S
CATCCGCCTCTCTTTATTTTTCTCTTCCATTGGAAGACTCCCTGCACACCCTAGGCAGGGAAGGGCCCCTCTCCTTTCAGGAGTCTTCTCTGGCACTCAA
Celera SNP ID:            hCV16069681
SNP Position Genomic:     16579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51727):
TTACAACCTGGACCAACTTGCTGCTTGCATTGGAAATCTTCCTGGGCTGCCTTCAGTGCTCTTATGGTCCCTCATCCCTCCGTTCTGTCAGCTGCCTGAG
S
ATCCGCCTCTCTTTATTTTTCTCTTCCATTGGAAGACTCCCTGCACACCCTAGGCAGGGAAGGGCCCCTCTCCTTTCAGGAGTCTTCTCTGGCACTCAAG
Celera SNP ID:            hCV16069682
SNP Position Genomic:     16580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51728):
GGGCTGGAGGGGCCAGAGGAAGTGCTGAGTCTGGGAGGAGGCTGAGGACAGGCGATTGGAGTAATGAGAGGAGTTAGAGAGATGGGGAGTGTGTGAGTAA
S
AGCTGAGTGAAGGGCTAGGTCAGGGAAAGGTGTGCCTGGGCCAGTGAGTCTGGAGTGGGGAGCTGGAGGAACTGGGATGCTGGGGATGTCTGGTGTGTCA
Celera SNP ID:            hCV16183893
SNP Position Genomic:     17622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51729):
TAAGGGCCTGGGCAAGAAAAAGGAGAAATCATGGGTAGGTGTGCAATGGGACAGATCCTGGGTGCTGGACGGACAGGGGAGGGGGCTTCCATCATGTACA
R
AGGTGGTGGAGGGAAGAAGGCCACATGGGCCTTTGAAGTTCCCCCTAAGGCCCCGGGTCCTAACCTGGGCTCCTTCCCTCACCACTGCCCATCCCCTCCG
Celera SNP ID:            hCV3178930
SNP Position Genomic:     14848
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,28)   caucasian(A,4|G,22)   total(A,10|G,50)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,7)   caucasian(A,5|G,7)   total(A,14|G,14)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51730):
AGGGACCCAAGCCCTGCTTCCCTCACCTTGAGCCTGTTGAGCTTGAGAGTGAGCTGCTCAATGGTACGGAAGATCATGCCCACGTCCCTGAGGGCCAGGC
Y
TGGAGGAGAGCGGCTGGGGCGTCTTGGATCATCGTTGCCTCCCTGCAGCTGAGGCTGAGGCTCTGTCTGCCCTGCAGGGAGGCTGTCAGGCTGAGGGGGG
Celera SNP ID:            hCV1468852
SNP Position Genomic:     22676
SNP Source:               Applera
Population(Allele,Count): african american(T,22)   caucasian(C,4|T,30)   total(C,4|T,52)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(C,92|T,220)   Chinese(T,29|C,31)   Japanese(C,6|T,14)   African(C,19|T,81)      total(C,148|T,344) ;(T,-|C,-)   SC_12_T(C,7|T,13)   SC_12_C(C,5|T,16)   SC_12_TT(C,3|T,21)   SC_95_C(C,50|T,135)   total(C,65|T,185)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51731):
GGAGAGAGTGAAAGGGACTCACAGCCAGGGACAGCCACAGCAGCCCCACTGGACCCTTGGATGCACTCTTGGCCTTGGAGAACTGCATCTGATACTGCAC
R
GTGGCGAGGAAGCCCTCCAGCCCCACCTCTGTGATGCGGTTCCCTGGTGGAAGTTACAGACAGGTGGCCTCTTAGCACCACAGGCCTCATTGGCACCTGA
Celera SNP ID:            hCV3178932
SNP Position Genomic:     6621
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,1)   caucasian(A,13|G,25)   total(A,20|G,26)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;JBIC-allele(G,175|A,1270)   total(G,175|A,1270)   (A,-|G,-)   TSC_42_A(G,11|A,72)   TSC_42_C(A,18|G,65)   TSC_42_AA(G,7|A,76)   total(G,83|A,166)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51732):
GGAATGGTTTTGGGGTGATGGACTGAAGGCCTGCAGGGACCCAAGCCCTGCTTCCCTCACCTTGAGCCTGTTGAGCTTGAGAGTGAGCTGCTCAATGGTA
Y
GGAAGATCATGCCCACGTCCCTGAGGGCCAGGCTTGGAGGAGAGCGGCTGGGGCGTCTTGGATCATCGTTGCCTCCCTGCAGCTGAGGCTGAGGCTCTGT
Celera SNP ID:            hCV1468853
SNP Position Genomic:     22642
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,6)   caucasian(C,15|T,23)   total(C,41|T,29)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(C,146|T,166)   Chinese(T,5|C,55)   Japanese(T,6|C,14)   African(T,19|C,81)      total(C,296|T,196) ;(C,-|T,-)   (T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51733):
AGGGGCAACGTCTGCTTCAGCAGGAGAGAGTGAAAGGGACTCACAGCCAGGGACAGCCACAGCAGCCCCACTGGACCCTTGGATGCACTCTTGGCCTTGG
K
GAACTGCATCTGATACTGCACCGTGGCGAGGAAGCCCTCCAGCCCCACCTCTGTGATGCGGTTCCCTGGTGGAAGTTACAGACAGGTGGCCTCTTAGCAC
Celera SNP ID:            hCV3178933
SNP Position Genomic:     6599
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,11)   caucasian(G,4|T,34)   total(G,7|T,45)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,4)      total(G,1|T,4) ;JBIC-allele(G,548|T,939)   total(G,548|T,939)   (G,-|T,-)   no_pop(G,-|T,-)   SC_12_A(G,9|T,11)   SC_12_C(G,6|T,18)   SC_12_AA(G,10|T,13)   SC_95_C(G,27|T,154)   total(G,52|T,196)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51734):
TCCATTCCTCTTGCTGGAAAATCAGCAGTATTAATCACTCTGCTTTTTCTGCATGTCCCCCAGCCCCTAACCCACCCTGCCCCAGGACCATTTTTTTTTT
T
CTGCCAGAGGACTAATCTTCATTCCTCTTGTCAGATGTCAGCCTTCCTTTTCTTTTCAGAAAAATTGCTTCGCCCCACAATGTCCTGCGTACGCCATAAT
Celera SNP ID:            hCV26628282
SNP Position Genomic:     18146
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,9)   total(-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51735):
CTTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTCTCTCTTTTTTTTTTTTTTGATGGATTCTCACTCTGTTGCCCAGGCTGGAGTGCAGAGGTGCA
R
TCTTGGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCAGTTCTCCTGCCCCAGCTTACCCAGTAGCTGGGATTACAGGTGCGTGCCACCACGCCCAGCT
Celera SNP ID:            hCV26628283
SNP Position Genomic:     15510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51736):
CTGCAGCAGCTGTCTAGTATGACAGCTGATAGGGGCAACGTCTGCTTCAGCAGGAGAGAGTGAAAGGGACTCACAGCCAGGGACAGCCACAGCAGCCCCA
R
TGGACCCTTGGATGCACTCTTGGCCTTGGAGAACTGCATCTGATACTGCACCGTGGCGAGGAAGCCCTCCAGCCCCACCTCTGTGATGCGGTTCCCTGGT
Celera SNP ID:            hCV25624510
SNP Position Genomic:     6569
SNP Source:               Applera
Population(Allele,Count): african american(G,20)   caucasian(A,1|G,37)   total(A,1|G,57)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51737):
GCTCCCCGGTGCCTGCCAGGGCCGCCTAGTCCATCCTCAGCCTCCCTTCCCACGCCGGGCCAAATGGAGGGACGCGGGGCGGTGTGTGTGTGTGAGTCGG
S
GGTATTCGACGAGGCCGGTGGGGAGGTGGGGGAGTCTCCCGTCTTCCTTTCCAACCCAGCAGAGGCGCGAGTGGCCGGAGAGGCAGAGTCCGCAGGCCGG
Celera SNP ID:            hCV7618971
SNP Position Genomic:     9566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51738):
TTCCCACTATCCAATCCTAACCAGTCTTACAGGGAACAAACACCGTACCTTTTATCACAGCGATTCCAAGAAACACACACACCACCACTGAAGGATATTT
R
ACTTTTCTTAAAAAAAAAATCTTAACCATGAAAGGAAGAAAATAAAAGAGTATACATTATCTTAACAGCAGAACAGTCATTTCCATATCTATATTTTATA
Celera SNP ID:            hCV3178936
SNP Position Genomic:     20205
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:51739):
CTCCAGCCATTTCTTTTTTCTTTTCTTTTCTTTTTCTTTCTTTCTCTTTCTTTCTTTCTTTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTCTCTCT
Y
TTTTTTTTTTTTGATGGATTCTCACTCTGTTGCCCAGGCTGGAGTGCAGAGGTGCAATCTTGGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCAGTTC
Celera SNP ID:            hCV26628284
SNP Position Genomic:     15453
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51740):
AGCTGGAGGAACTGGGATGCTGGGGATGTCTGGTGTGTCAGGTGCCAATGAGGCCTGTGGTGCTAAGAGGCCACCTGTCTGTAACTTCCACCAGGGAACC
G
CATCACAGAGGTGGGGCTGGAGGGCTTCCTCGCCACGGTGCAGTATCAGATGCAGTTCTCCAAGGCCAAGAGTGCATCCAAGGGTCCAGTGGGGCTGCTG
Celera SNP ID:            hCV25624511
SNP Position Genomic:     17783
SNP Source:               Applera
Population(Allele,Count): african american(G,12)   caucasian(A,5|G,33)   total(A,5|G,45)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51741):
GGTACTGAGCTGAAGGAGGCCTAGGAGCAGGCCAGAGAGGGAATTGGGAAAGGGTGTACTTGTATGGGAAGGAGCAGGAGCAAGGCATGGGGCAGGGTAA
M
TACAGGTGTGGTTGGGAGTGTAAGGGGCAAGGCTGATTTGGCCCTGCCCCTTCTCTAGGCTCCCACAGCACCCTGCCTCTTCTTGCTTCATGGTGGCGGG
Celera SNP ID:            hCV7618972
SNP Position Genomic:     10999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51742):
AGAGACGCTGCGGACAACACCAGCATGTCGAGCGAGCAGAGCGCGCCGGGGGCCTCACCCAGGGCCCCGCGTCCGGGGACCCAGAAGTCTTCTGGCGCGG
Y
GACCAAAAAGGGAGAGCGCGCGGCCAAAGAGAAGCCAGCGACCGTTCTGCCTCCCGTGGGGGAGGAGGAGCCCAAAAGCCCTGGTACGCTGGCGCCGGGG
Celera SNP ID:            hCV25624512
SNP Position Genomic:     6232
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,30)   caucasian(C,4|T,32)   total(C,10|T,62)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,29)   caucasian(C,3|T,31)   total(C,8|T,60)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51743):
CGCCTTTGTAGCCTAAACCTGGAGGTGCTGTCCCATCTCTTCTGCCATGTTCTGTTCATTAGAAGTGAGTCACTTATTTCCCTCCACCCCACCCCCCACC
Y
CTTCTTTTTTTTTTGGAGACAGAGTCTTGCTATGTCGCCCAGACTAGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCCGCCTCCTGGATTCAAGT
Celera SNP ID:            hCV26628285
SNP Position Genomic:     11929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51744):
GTACTGAGCTGAAGGAGGCCTAGGAGCAGGCCAGAGAGGGAATTGGGAAAGGGTGTACTTGTATGGGAAGGAGCAGGAGCAAGGCATGGGGCAGGGTAAC
W
ACAGGTGTGGTTGGGAGTGTAAGGGGCAAGGCTGATTTGGCCCTGCCCCTTCTCTAGGCTCCCACAGCACCCTGCCTCTTCTTGCTTCATGGTGGCGGGG
Celera SNP ID:            hCV7618973
SNP Position Genomic:     11000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51745):
GGGCGGCTTGGGCGGCTCACGCGTCCCTGCCCGCCTCTTAGGGCCTCCGGCTGAACCGTTCCCTGCTCTGGCTGTCCCTGGCCCACAACCGCATCCAGGA
Y
AAGGGCGCCCTGAAGCTGGCTGAGGTGGGTGTGCCGATCAGGTGGGGCAGGGGCGTGGGCGGGCCGAGGGAGCCGACCCTGACTACCCAGGCGTCCGACC
Celera SNP ID:            hCV25624513
SNP Position Genomic:     13144
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,1)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51746):
CTCTGTGTAAAACACCATGAAACATATTTCCTTCCATCATGGGAATTAGCTAGCAGAAAACAACTATATGAATTCATCTGTAAATAATGTGTAAAAGTAA
R
TCATAGCAACATAAACAAATTTAAACTGAATAATCAAGTTTATGTGACAGACGAGGCAGGCTGAAAGGTTGAACAAAATAAGAAATCATGGGAGCAAATT
Celera SNP ID:            hCV7618974
SNP Position Genomic:     11304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51747):
CTCACGCGTCCCTGCCCGCCTCTTAGGGCCTCCGGCTGAACCGTTCCCTGCTCTGGCTGTCCCTGGCCCACAACCGCATCCAGGACAAGGGCGCCCTGAA
R
CTGGCTGAGGTGGGTGTGCCGATCAGGTGGGGCAGGGGCGTGGGCGGGCCGAGGGAGCCGACCCTGACTACCCAGGCGTCCGACCGCTGAGCGCCCGCCT
Celera SNP ID:            hCV27984507
SNP Position Genomic:     13159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51748):
TGCTTTTCAGCAAACTGGCCATCCAGTTTAATCTCCACCCTCTGTCCTGACTGTCTTTCCCTCCGATTTCTGCACAGACTTTTGCCAAGCCCCTGCTGGG
S
GGGCTCTAATTGCAGAACCACACTATGGGCAGTAGAGTGTACTGGTTCAGAGATAGGACACTAGATTGAGACCACCTGGACCTGAAATCCGGCTCATCCA
Celera SNP ID:            hCV7618975
SNP Position Genomic:     13527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51749):
AACCGCATCCAGGACAAGGGCGCCCTGAAGCTGGCTGAGGTGGGTGTGCCGATCAGGTGGGGCAGGGGCGTGGGCGGGCCGAGGGAGCCGACCCTGACTA
Y
CCAGGCGTCCGACCGCTGAGCGCCCGCCTCCTTCAGGTCCTGCGCGCCTTCGAGCTGACACACACCGAAGTGGTGGAGCGCCGACGCCTCCTGCTGGAAA
Celera SNP ID:            hCV25624514
SNP Position Genomic:     13230
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,30)   total(C,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:51750):
AGGAAGATGCCACAAAGGCAGGCAAGGGGAGTAAGTGCGGGTGCCCCTGGGTGGCATCTTCCTGTGTGGAGGAGGGAAGAGTGCCGGGCCGGGTGCAGGA
R
GCTGTTCTGGGCCTGGGTGCGCCTGCCTGGAGCTCATCTCGCCATGCCCCTCTGGGCTTGATTTCCTTCTCACAGTGGGATGATGTGGAGAGCCGCATCC
Celera SNP ID:            hCV7618979
SNP Position Genomic:     15152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51751):
CTGGGGAAGGGGTCTGTGCTGGGCCTTGGGGAGGAGGGTGTGATTTAAGGGTGGCTGGGCGGGCTGGGGGAAGATCCCTGGGCCAGGACAGGATCTAGGG
S
TCCCGCGAAGACACACATCTCACTCATGGGGAATGGTTTTGGGGTGATGGACTGAAGGCCTGCAGGGACCCAAGCCCTGCTTCCCTCACCTTGAGCCTGT
Celera SNP ID:            hCV15912619
SNP Position Genomic:     22512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Gene Number:                 247
Celera Gene:                 hCG39950 - 63000132500040
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VSLS(2713107..2726052)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12407):
TCATAGGCACCTTTCACTGTGGATGTTACTCTAACACAATAAACCATATAATTAACATATAATTCATTCATTGTCACATGGATATTTTGTGTCTCTTTAT
ACTGGTTCTTCCCATGTACATGTATATCCTGCTTACACATGCCAAATTAAGATAGCATGGACTACCTGTCTAGACTTATACAGGTGGGTAAAATATAGAA
AGGAAATATGATGTTTAAGCCATTAAACATAATTAATATGTTTTATGAACATTAATTTATTATTTGTATATAAACATTTTAAGTAAATGCTTATTACATT
ACATAAGCATTAATAACAACTATGAATTACGAACCACAGTAGTTAAAAGAATCAGATCTGCAGAAGAGGTTAAGGTTTGTATTTCAGTGATGCCACATAT
TGCTTTGTGACTTTGAACAAGTTGATAATTAACTTGTCTGCATCTTAGTTTTATCATCTATTGGTATAAAAGTAATATATTTTAAAAGTAGGACTTCAAA
TGCTAATATGAATATTAAATGACTTACTCCATGCAAGTGCAGAGAATGTGCAAAACACAGAGCTTGTGCAAAATAAGTGTTATCTGTTAATATCATTTGC
AACTAATTACTATCTTTTGTTATTGATGTTTTAGAGAATGCTTTAATAAAGAGTGATATATTAAAAACAAAAACTCATACTTAGGAATACTTAGCTATGA
TTATTATTTATAGTATATTTGTTGTTATTATTTATCTGGAGCCAAGTTGAATTCAAACTTCATTTACTTAGACTGCTTTGGTTGAATTCATCCAATTTGG
TTGAATAAAATTATTTGGTTAAAAGTAGTCTCCAGCACATTCCAAAGTGATAGATAGATAGATAGATAGATAGATAGATAGATAGACAGATAGGTAATAG
AAATATATATCATTTGAACTACATTACTCTTGTTTTCACTTTTGCTGCCTTTAAAATGTCTATGCATTGCCACTAGAAATTAATTTTCTAAAATTCAAGT
TTAGATTTGTGTATTAAGATAACAGTTTAAACACACATATTTAAATTTTCTTCCACAAAAAACTCAATAGAAATAAAAGAGTCAGGACTAGATGAACTGT
TAGATGACCTAAGAACTGAAAAGTGTAAAGATATAGTAATGAACATTAAAATATCTATAAGTTTACCTAAAAACCTTCATGATAGCTATGTCAGTACTCT
GAAATATTATATACCACTTTCTTTTTTCTAGAAAAGAAAATAATTTCTGTTTATATCAAAAGCACCAGTTGATTCTGTTTATTGGATAGTCCAGGAATGA
ACAAAAATATATATTGAAAATTTAACAGCAAAAAACAAAAATCAAAATTAAGTTAAACCAAAGCATTATATATCCTGGGGAAAAGAGTTCCCACAATTGA
CCTCCAAAGTTAAAACACTTCCTCAGGTATGAGTACATGAGATCCGACTGAGGGAAATACTTATCTGCCCGGTGTTGGACAAGAAAACAGAAGAGGAGAG
CCTAGAAATTAACTGGATGAAATTCCACATACAACCGATGGAAAAAATAATTAAAGCTTGGAAAAACAGAAATTGAGAACGATGCTCTACTTGGGAAATC
TGGATAGAGAGAATGGAGCCAAAGAATGTATGAAATTTCCCAGTCACAATGGAGTTATCCACTGAGCTGTGTTCAGAGAAGGACATGAAAAGTAAATCTT
AAATTTACAAGCCAGAGAAGTGAGGAACTATCCAGGTAAACTGAGGCTACTAAAACAAAACAAAAAAGCACAACTTTTTAGCACAAAGCAATAATCTATA
ACTAATACTGAACTTCGTGGCAGATATTTCCATATTTGCTGTGCATATTTAGATATTTAATATTCTTATTTTTTGTATCCAAATATATTCTCTCCTTCTC
TCTCACACACACAGACAAACACAGATTGCCTTCTTTAAAACAATGATTTTAGTTTTGCCATACACCGTTTGTATTAAAATCATTAACTTTGTCAAATGCA
TAGCCCAATAAGTAGTTGGATTACTACAGTTAAAGAGAGAGAGAGAGACTGAGAGAGACAGAGAGGTTAGGGAATTGAAAGTAAATGCTCTTTCATTACA
TAGACTAACTCTAAGACACAAATCATTAAAATGTTTCCTATTTAAAATTTTGATGAGATTTGTGAAGATATCAGAAAAAAAGTTGAGAAATAAAAAATAC
AAAATTTAATATACAATGGAGATATTGAAGAATATATTAAATACTACAGGAAATTAAATTAATGTTTTGTAAGATTGCCTGGAAGATATGTCCCAGAATT
TAGAGAAGCCACATGAAGAGCCAAATATTACATGCAAAGAGAAAAAGTTATATATGGAGAATGTATTAATAGATATTACAGAGCAAAATATGATTATGAA
AATTCTAGAAAAAAAACAAAACAGAGGAAAATAATAAGTAAAATTAAAGGAAAATATTTCTGAGCTTGAGAATACTTGAGTCATGGGATCAAAACAGACT
GTTTTATATTATACAAAATCATTGGAAATACAATGTGGCCTGTTGACATTTTTGAATTAAAAAAAACCTACAAGTTAGACAACCAAAATAGGCTCCCAAA
TCGTAAGAAGAAAAGTTAGACAAAACTCAGAAAGCACGTCTTCCTATTTGAGAACTTGATACATATTTCCAGAAGAAGATGACATGATAAAAGTAATTAA
CTTTGAAAAAAATGAGAACTTTGCAATTTCAACAGATCAGTGGATGAAGCACAGATATAAATAATACTCTTGTAGAAAAGATGAGATATTGATCTTCAAT
AAAGAAGTCAGCAGAACCAGTGTGAGTTGTTCAAGGTAGGAAAGACCCATACACACTCACGACATGAGAAAAACAAAAAAAGACATGGTTTCCTCACTTT
CTTCAGTATTGGCACTAAATCCCCAGTGCCATGTTTATTATGAAATGGCCTTATTTTCTGTAAAATAGCTTTTCAAGATGATCTTCTGGTGTCAGTATAT
TCCTTCCAGGCTTTCCAAATCTGTGTGTTCATATAAGAAGGCCAGGATCATGTCAAAACTACCCTTTGCATAGTACACTGGTACACTCAAGAACAGCTGA
GACAATCATGAAAGTGCTAGAGAAGGAAGCTTACAAATTTGGGAAGATGAGTACAATCAGGAAAAATATATATATTTATTGACAACTTCGATCTGAAAAT
CTAACAAAAGGAGAGTAAGAGGGGAAACTTTCTGTTAATTAACCCCATGAGAGAAGGTGATTCACTTCAGTGCAGTGGAGGGGAAGAATCCTCCACAGAG
CCCAGTTCCCTTTCCTGTTATTCCCTGGATGCCCTATGGAGAGACTATAAATCCCTTTTTGAAAAGGCTGAAGTAATATTAAGGATGCAGTGACCCAGGC
AGACTGAGGAGTCCCTGTGTTTTTGGCAAAGGTGAGTGTAGATGACTAAGTCATAAAGAGACCGAATTCATTCACCATGCATAAATCATCATCATCATCA
TCATCTCATAACCTGAAGACCTGATTATTAAAGAATTTAGAACTTTGAATAAGGGTGGAAGGCAAAGGTATTTACAGGAGGAAGCTCTGTTCAGTGTGGT
TCTGGGCATGGGTATATATGAAACAGCATGCCACATTTATAATGCCATTTTCTGAGAGATCATCTAGTCAAGACTTGATTGAGGCTCTCATTAGAACTGA
ATTGTCATAGTTCCCTTTTCAAACAGTCCCCAATTTTCTTTGTTCACTTACTCATGGCTGTCTTGTGCACTTAGTTATAATTGTACCAAGTGGCTGAGTT
CCAAGTTAATTTATTTGATACCTACCGTCTCTACATATTAACCCTGTTGTAGTCACTATGAGGGATAAAAGACATTCACTGTCCTGAAGGAGAAACCTAT
AGTCTAGAGAAGGTAAAACAAGTAAGTTGATGATGGATCCTGACAAACGCTTCAATAAAGCATAATGGCATTCAACACTTCCAAGTGTTTCCTATATTCC
TAACACTAAGGTTTTAAAATACATTTACATGTATTGGTAGAGGCAGTCAACTGTATGTAGGTTAGAATGTGTCTCTAGAGATACAGTGCATAGATTTAAA
TTCTGACTTTGCCCTGCATTAGCCGAGAATTTCTGGACAAAGAACTTAACCTGTCTGTGCCTAAGTTTTCTCCTCTGTAAAATGGGGATAATCATTTCAC
CTCATTAGAGCATTAAGAGCATGAGGTGAAAAATATATACAATGTGCTTGGAATAGTGCCAGCATTAGTGACGTAATAATACCGTATACTATACTGTACA
ATTCTATTGTTATTATAAAATGTTTAGTTATTCTCAGGACTTCATTAACCAGTATTAATATTTTCTCAGTTTTACAAATGAGATATTAAAGGCATAGAGA
AGCTAAGTAACTTCATGTTAAGTCACAGAGCTGGTAAGCCATAAAGAGAATTTAAATGCTAGCAATTTTTTTTCTGGCATCTAGACTTTTAACCAGCAGT
ATATATTGCTTTTGTGTGAGGAGAGGGGGCAGAGGAGGGAGAGATATGTTACTTTAAAGTCAGAGGAAGTAGCACAAACAGGAGAGAACTGTGATTTTAG
AAAGCAACATGAACAATGGGATTGCAGGGGAGAGAGGAGTCGGAGAATGTTAGCAGGTGAAGCTACAGAGAGTTAAGAGTCAGATAGTTGGTGTGAAGCT
TATGAAAGAGAGATTGGTTAGAGAAAAACATTTAGAAGTATTAATAGTTTAAATCCTGTAAGCGGATGAGATCACTAAGGGAGTGTATAAAACTATAAGA
GGTTGAAGTGGATGATAGGAACCTGGGGAAAATAGACTCTTGGGAAAGAATTTAAGAAAGACAACACAAGCTAATATAAGAGAGAAGAGGCAGAATAAGA
AAGAAAATATAAATAAAATAAATAAAACAGAAGCAAAAGTCAAAGCTAGAACTGCCTTTAAAGCTATCTGGGCGTCACGTCCCTTGAGAATGGAATCGTG
GAAACAGAGGAACAAAGTCTCAAGCAGGAGTAATGAAAAGTGTCGAGTGCCAGAGATGACTGGATAGTTTCCATTAGTAATTAGCAGGGCATTGATGAAC
GTGATCAGTATAGTATCAGCATAATGCTCGGGAGGAAGCACACAGCAGTGTTAAAGGAGAACAAGAAATGCAGAGAGGTAGATTGTATCACTCTTTCCAG
AAGTTGCCTATTAAACACTGTCCAAATCTTTCTGCAAGTATTTACTAAATCCTACAGCATCCTTGTTAGATAGGTACTATTTTTAATCCCATTTTGCAAA
TGATTACCTGATACTCTGAGGTATTAAGTAATTTTCCAAAAGACATATAGGTAACAATAGACAGGATTTCAATGTCAACTTCAGGTTTACATTGTAACAC
GTTAGAACAGAGATTTTCAAAGAGCATGTGCACAATGGCCCAGTCGGGTAGGGAAAGAGCATAATATAACTTCTGTTATGTTTATTCGTATTCATACTTT
TTAATTTTAAAATTTATTATATGAGATACAGATATATAATTTTGTGTTATTATGCCTTAATATAGTAAATGTGTATAACTTATAAATGCAAATACCTATA
TTAGAGATTAAGCTAAAATAAAAATAATTTTAACTAGTTTTTTTATTATTAAAACATTTGGAGACCCCTATTTCTGCAGTTGTGCCAATAAATAAGATGT
ACAGCTAAGCAACTTTGAGGAATAAGAAGAACTACCTTGAAGGTTTCATTTTTTTTTCTGACTTTAAACTAGTGTACATATTGTCCAATGTTTGATACAA
AAAAAAATGTTTGATATGAAAAAAATCAAACATTGGACAATATGTACATGAGTTTAAAGTCAGGAAAAAAAATGAAACCTTCAAGGTAGTTCTTCTTACT
TCTCAAAGATGTTTAGCTGTACATCTTATTTATTTTTTTCTCTACCCTCTCATGTGCTGGACTATGCCCTCTCCATTTACAGGTAGCTCTACTAGAAATA
TGGAGAGCRGAAACCAATCAACAGTGACTGAATTTATCTTCACTGGATTCCCTCAGCTTCAGGATGGTAGTCTCCTGTACTTCTTTCCTTTACTTTTCAT
CTATACTTTTATTATCATTGATAACTTATTAATCTTCTCTGCTGTAAGGCTGGACACCCATCTCCACAACCCCATGTATAATTTTATCAGTATATTTTCC
TTTCTGGAGATCTGGTACACCACAGCCACCATTCCCAAGATGCTCTCCAACCTCATCAGTGAAAAGAAGGCCATCTCAATGACTGGCTGCATCTTGCAGA
TGTATTTCTTCCACTCACTTGAAAACTCAGAGGGGATCTTGCTGACCACCATGGCCATTGACAGATACGTTGCCATCTGCAACCCTCTTCGCTATCAAAT
GATCATGACCCCCCGGCTCTGTGCTCAMCTCTCTGCAGGTTCCTGCCTCTTCGGTTTCCTTATCCTGCTTCCCGAGATTGTGATGATTTCCACACTGCCT
TTCTGTGGGCCCAACCAAATCCATCAGATCTTCTGTGACTTGGTCCCTGTGCTAAGCCTGGCCTGTACAGACACGTCCATGATTCTGATTGAGGATGTGA
TTCATGCTGTGACCATCATCATTACCTTCCTAATCATTGCCCTGTCCTATGTAAGAATTGTCACTGTGATATTGAGGATTYCCTCTTCTGAAGGGAGGCA
AAAGGCTTTTTCTACCTGTGCAGGCCACCTCATGGTCTTCCYGATATTCTTTGGCAGTGTATCACTCATGTACTTGCGTTTCAGCRACACTTATCCACCA
GTTTTGGACACAGCCATTGCACTGATGTTTACTGTACTTGCTCCATTCTTCAATCCCATCATTTATAGCCTGAGAAACAAGGACATGAACAATGCRATTA
AAAAACTGTTCTGTCTTCAAAAAGTGTTGAACAAGCCTGGAGGTTAATACAGAGCCACAGGTTCCCTTCCGTTGCTTTTGTTTTGTTTTGTTTTTTGAGA
TGGAGTTTCACTCTTGTTGCCTGGGCTGGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTCCACCTCCTGGTTTTGAACAATTCTCCTGCCTCAGCC
TCCCTAGTAGCCGCGATTACAGGCATGCACCACCACACCCAGCTAATTTTTGTATTTTTAGTGGAGATGGGGTTTCACTGTGTTGGTCAGGCTGGTCTTG
AACTCCTGACCTTAGGTGATCCAAACTCCTCTGCCTCCCAAAATGCTGGGATTACAGCTGTGAGCCACCGCATCTGGCCCTTTCCATTGCTTTAATGTTT
GTCTAACATATTAGAACATGAGATTACTCTATACCTAGTGCTTTGTCACACTGAAATTTCTGTCATCCTAATTATTTTCCCTATACCTAGAAAAATATTT
ATACTCTCTGTGTCATCGTTATAAAAGTTGCTGTGCATATCATGAGGAACCTTATTATGTGGCTGAATAACTGTAGTTTCTTTCTTCTGAAATGCTGTGG
TTAAAGAAAATTTGTTTGCCACTTTAGAGGGTTAGAACTACAGAGCTTGAGCTTCAGAAGCTGACAATGTGCTCTGTGGTAGTATGTGTCTATTTAGGTA
ACACATCTTAGAAAAGTTTTTTTGTTTAATTATGARTCATGGATTACCTCATTGGGGTTTTCCAGAAATAGAGATCTAAGAAAAAGCCCAAACAACATTT
AATTAAGTTATATCTTTATTTTTAGTTATGTAGTTACCTATTCATTAGAATAATTACATGTTTAGTAAGATTAGATTATTAGTACTGCCACACATGTTTA
AAAGAAAACTACAAGATAAGATACTATTTACAGTAATATACTTTGGTTTCCACAAATATCAATTTTAGTTATTGTTTGCCTTTTCCAAGGTTAAACATCT
TCACTTTCTTTATTTACAGTAAAAAATATTTGGTGTATTCACTAAATGGTAGTGTCAAAAACACAGATGATTCATTTAGCTTTTTGACTAATAAATTTAA
AAACTTTCCTCTTCTTTCCATATTTACTAACATTGCCTTAATTTCATTTTCTATAATTATTTATGCACAATTATTATAATTATCTTTAAAAAATACAGTA
AAATTTTGAAATGAAGATAGTGATTTTATCTCATGTTTTAATTTTCTTCTTTAACGAATCCAATAAAATGACCAAACCCTAGATCATATAAACTTCTTAA
AGGCTTTAAACCTAGAAAAGATAATAATGATTCTCATTTTTTATTGAGTGGTCCAGCAGTGGTCATATCAACATGTGAACACAGAGAAAACATAAAACTA
CCCTTTCCAACATGTATCACATTACTTCCCCTAAAAAAAACCCCTAAAAACCTATATAAATCCTGACAAACAGAAAAGAGTGACTTCAATAGACAAAATC
CAAATGGTTTCCTGAAGACATAGTGCAGATAAAATAAAATTCAAAGGAATACAATAGAGGCAAGGGAAGGGCCTATTTAGTAGAAAATTTGAAGTAATCT
TTTCAGTAGGTGTTGGAAATTCCAAACTGAGAACAATTGAATGGTAGGGATGGGGAGGTGAAATTTATGAATATCTGAAATATTTCTAGCATGTTAGGTG
AGAAAGTTGCTTACCTAAATATTTGTTCCCTGGTCTTCACCTGGTGGATCACATGCTATGTAAAGCTGGGCTACCCTAACTTCAATAGTTCTGGTTTAGG
TTCCCATAGCCAACAGAGAAAAAAATGCACATTGGTGATTCTTCATCATATACTTTGACTATATACATTTTTCTAAATGAATTAGAGCTCTAATCTAACA
AGGAAACCATTAAAATTAAAATACTGCTGTTAAAAGCAGCTAAGAAAGGGGAGATGGTCTTTCAATCCCATATGACATTTTAACCTGTTTCCTTCCCAAT
CATTTTAAACATGGTTCATACTAATTATAAATAAAGAAAACAAAAACTTACACCAAAAGACTTGTACTTGACTAAAGGTTGCATTTCATGGCTTAATGGT
GGCCTCCTCAGGAAACATATTATTTTCTCATGGGAATTTGAACTTGCTGTATTATCATTCCCAGGTTTCCAGCAACGTGAGTTGAAGAAGAGGATGGACC
AGGGGTGCTGGAGAATCCATAGAGAGACCATAGAGGGCAACTTTTACCCCAGTGGACACCTTTAGGAACTGTCCTCACAAGTACCTGCATGCATAGTAGC
CAAACAATTTAGCCCAGAGAGAGAGAGAGAGAGAGAGAGAAAGGGGGAGGGAGAGAGGAAGAAGAAACTTGTTTCTTCCCCTTCTGTGACTAAAAGATTT
ACAGGAGGTATTCACAATGTCTTATATAATTCAACCAGAATAGTTCTTCTATAAGAATTAGCAAACAGAAAATTAGCCTAATTAAAAATATAGTTTTGGA
GGTGATATTGGTATATATCTGAATAAAAGCCATCAACATTTATAGTGACCTTAGGGATGTACTCATTAGTTTAGTTCTTTAAACAGAACCCCAAAAGAGG
TAGGGTGTAGCAATTTGTGCTTTCTCCTCTCAAAAGCATATTTATGAGCCAGAGAGGTGTTTGCTTACTTCATGCTCTAACCTCTCAACATATGATTAGA
AGATAAACTCAAGGGTAACTTGCTCCTGAAAATCCCAATAATCTATAAAAAGGTAAATCCGTTATATCTGCATTCTTTAAAAGATTGTAAATCAAACCAA
AAGGAGAAAACCAAGGAGAATTCATGTGCACAACATACTATATTTCTAACCAGCAAACATTAGTTTGAAAAATGTTAAAACATGATACATTCTATATTGC
ATAAAACTCTTGAGACATTTTCATCAGGAGATTAAGATCTACAACTCTTTTTCGTGATCAGTTGAAAACATGATTTTGGAAAGAAGTGACCAATCAGGTT
TTAATGTCTATATATTCTTTTTGCTTGTTTTGAGGGTATTTATATCCCCTAAACACCTTCCCAAATGCTTTGTACATATATGTGTGTGTTTGTGTGTGTA
TTTAGCATTTGTCATTTGGAGATTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGAAAACTACATGGAAATGGAAAAGTGCATTTTCAGGTACAT
GATGCACCTTTGGACACAGGCTAATGTAATTTTTAAAATGAAAATGTTCTGTTAATAATACCAAATCTTTAGCCATTAATCACTCTAAGCAAGAGTCACA
AAAATAATTTTAAATATATGATGAAATCATAGAGAACTTTTACTATTAATACATGAAATAAATTAGTTTGTGATGGCAAAGTTAGTGATAATAAAAGACA
TTACAGAATATAAAAATGCAATGGAAGAAGAAGAAAATGGAATGCTCCAGAAAACTAAACTAGAGAGTTAGAATTTTGACTTCAGAAAGTATCATAAAGC
TCAAAAAATAATAAATAAAGTGCCCTATCAAGATTGATGACAAAAAAACTAAATCCTAGAAATGCAATATTAATGAAATACGTATTCCAGAAAGAGAAGG
TATAGCAGACTGAGAATAAAATGAAAGTGCTACAACAGTTAGCAATAAAAAAATTACCTTAAAACAAAATCAGACAACTATTTATGCTTCTAATCAAAAT
AAAATAGCTTGTGGTAGACCCAACTTTTCACTGAAAATAATGAGGAAGCTGAATAAAATAAGATTAAAAACTGCTTGGAGGTATTACAGATGGAAACACT
ATGGGCACTTAATCCCCATAGACACTGGGGATTATAATTCAAGATAAGATTTTGGGTGGGGACACAACCAAACGATGTCATGCTTGCCTTAGGTAGCTCC
TTCCCTTTCAACACTAAACCCATATGAAGCCATGCCCCGAGAGCCACGGGTTTACAGAATGAGAACATGTAAAGGTCACCTGAACCCAACCTGCCTAAAG
CCTGGTGCCTGGGGTCCAGAATCTGAAGTGTAGCCTATCTTATCCTGTTGCCTCTCACTTACAGATTTACTAGCACAAAGCTAATTAATTGTTGTTTTAG
TACCCATGTGTAAAACATTTGATAAGTCACTATACTTGGTTGTGTGTGTACTTCATTTGACAATGTACCATTCTGAGATTGCATAAATTTAATATATAGT
ACTTACTATCTGAATCATAAGATAATCTGTTGAGTTGTATACACTTTTGAATTGTATTGTTAATTTTTAAAACAATTCTATCATTTTCAGAAAGTTTATC
TGTGTCAAATGTGTTGTTATTTAACCACACTCTGCTCATTTATATGCTAAAGACTTTTTACCCGTTAAACAGATTTTAGCTTATTTATAAATAGAGCAGG
TGCTGAAGACTTGAGACTGAGTGCTGGGTTGTGAAGAGATACAAAGGAGTCAATCTTTGCAAGTTGCATTTTCCTTTTTGTAACATTTTCTTCATCATTT
TTGTGGCTCATAATCACCTTTACTTGATCTGTGCTTGAAAATAAAGTTACGGCATTTAAAAAGTCTTTTAAAATAAAAGCTAAATCCAAAAGCTCTTCAT
ACTGTATAGAAATAAGAAATATGTACAAGAGATGAAAGAATTATAGAACATTTTACTTTATCCTTATTGCTTACCATCCGTATGTAAGCAAATGTTTTGG
GTTACTCCAAATAGCACAAAATTCAGATGTATTCTACATGATATTCTATAACTAGAAACTGCTGTGTTAGGTAAGTTGGCCAGTGTATCTTTGTCTGAAA
TCATAATCCTACCTCTTAGTTCACATTTATTTAGTTTGTTTTGGATGGAAAATTTATTGTACTTTTATGAAAAAAATATGACCTCTTTAAAGAAGTGAGA
AAATAGAGAAAACAGAAGAAATTTGGCAAATGATATAGACAAACAATTTACAGGCACATAAACTTGAAAGTCTAGTAATTACATGAAGAGATGCTTAAAA
ATCTTTATTAAGGCCAAGTGTTAGAGCAGATGAAGAGACAAAGAAATACATGCACAACTGATAAGAATGTAAACTGGTGTGGCCATTTTGGAGAAAAATC
TGGTAGAAATGAAGTTCAAGTGTATCCTCTGTTTTAATAATCCTGCTTCTAGGAATATTTGTCAAAGACATTTTTACACATGTTTATAAGTTGACATACC
TGAAGATGTTCTCCAGAATGTAGAGTATTTGGAGGCAATCTGGAGCTTATCACGGAGAAAACAGGTACTTAACATACGCCAAATGAATAGTTCAGAGAAG
CATGCAGGTGTTAAATATTATGAGCTATTGAACTCAAAGAAACAAAAATAATTCCTGTAAATAATACTAAAAGGTAAAAATAAGCAATACAATGAAACCA
ACACCATTTACATAAATAAAAAGTACATGGGTATGAAACAAAAGCACATGTTTTATAAGAATACATAGAGAAAATATTTGTCAAGTTAATTTAAATAGTG
TATAAAAATGAGGATAAGTAGAATTAAAGGGAAATACATAAAAATATACAGAATGGAGTGCTATTTAGCCATAAAAAAGAATGAGATTCTGTCATTTGAA
ACAACATGGATGTAATTGGGGGTCATTATATTCAGTGAAATAAGCCAGGCACAGAAAGAAAAACTTTGCATGTTCTCACTCTTTTGTGGGARCTAAAAAT
AAAAACAATTGAATTCATGGAGATGGTAGAATAATGGTTACTAGAGACGGGGAAGGGAAGTGGAGAGGTTGGAGGGGGAGTGGGGATGGTTAATTGGCAT
AAAAAATGGAAAGAATAAACAAGATCTAGCACGTGAYAGCACACAAAAAATAAATTTCAGTATAAACTTAGATGTAAAAGTGTATTTTTCAAAAAAACAC
ATGAAATTAGTGTTTTGATATTTGCTTTCTGAGTTGACAATATGTTTATGTCTTTCCAATATTTGTTTATGACTCTATTTTTATAATCACAGCATACAGA
TCTATTATTTCCCTATAAAACCGCTGCAGCATAATATTCTGTGTT


SNP Information

Context             (SEQ ID NO:51752):
CTGTCCTATGTAAGAATTGTCACTGTGATATTGAGGATTTCCTCTTCTGAAGGGAGGCAAAAGGCTTTTTCTACCTGTGCAGGCCACCTCATGGTCTTCC
Y
GATATTCTTTGGCAGTGTATCACTCATGTACTTGCGTTTCAGCGACACTTATCCACCAGTTTTGGACACAGCCATTGCACTGATGTTTACTGTACTTGCT
Celera SNP ID:            hCV26808500
SNP Position Genomic:     6742
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:51753):
AACTACAGAGCTTGAGCTTCAGAAGCTGACAATGTGCTCTGTGGTAGTATGTGTCTATTTAGGTAACACATCTTAGAAAAGTTTTTTTGTTTAATTATGA
R
TCATGGATTACCTCATTGGGGTTTTCCAGAAATAGAGATCTAAGAAAAAGCCCAAACAACATTTAATTAAGTTATATCTTTATTTTTAGTTATGTAGTTA
Celera SNP ID:            hCV7481579
SNP Position Genomic:     7636
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:51754):
GTTACTAGAGACGGGGAAGGGAAGTGGAGAGGTTGGAGGGGGAGTGGGGATGGTTAATTGGCATAAAAAATGGAAAGAATAAACAAGATCTAGCACGTGA
Y
AGCACACAAAAAATAAATTTCAGTATAAACTTAGATGTAAAAGTGTATTTTTCAAAAAAACACATGAAATTAGTGTTTTGATATTTGCTTTCTGAGTTGA
Celera SNP ID:            hCV7481564
SNP Position Genomic:     12737
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:51755):
CACCAGTTTTGGACACAGCCATTGCACTGATGTTTACTGTACTTGCTCCATTCTTCAATCCCATCATTTATAGCCTGAGAAACAAGGACATGAACAATGC
R
ATTAAAAAACTGTTCTGTCTTCAAAAAGTGTTGAACAAGCCTGGAGGTTAATACAGAGCCACAGGTTCCCTTCCGTTGCTTTTGTTTTGTTTTGTTTTTT
Celera SNP ID:            hCV7481589
SNP Position Genomic:     6896
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51756):
CAGAGGGGATCTTGCTGACCACCATGGCCATTGACAGATACGTTGCCATCTGCAACCCTCTTCGCTATCAAATGATCATGACCCCCCGGCTCTGTGCTCA
M
CTCTCTGCAGGTTCCTGCCTCTTCGGTTTCCTTATCCTGCTTCCCGAGATTGTGATGATTTCCACACTGCCTTTCTGTGGGCCCAACCAAATCCATCAGA
Celera SNP ID:            hCV7481597
SNP Position Genomic:     6428
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51757):
ATGTTTAGCTGTACATCTTATTTATTTTTTTCTCTACCCTCTCATGTGCTGGACTATGCCCTCTCCATTTACAGGTAGCTCTACTAGAAATATGGAGAGC
R
GAAACCAATCAACAGTGACTGAATTTATCTTCACTGGATTCCCTCAGCTTCAGGATGGTAGTCTCCTGTACTTCTTTCCTTTACTTTTCATCTATACTTT
Celera SNP ID:            hCV7481598
SNP Position Genomic:     6009
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51758):
GATTCTGATTGAGGATGTGATTCATGCTGTGACCATCATCATTACCTTCCTAATCATTGCCCTGTCCTATGTAAGAATTGTCACTGTGATATTGAGGATT
Y
CCTCTTCTGAAGGGAGGCAAAAGGCTTTTTCTACCTGTGCAGGCCACCTCATGGTCTTCCCGATATTCTTTGGCAGTGTATCACTCATGTACTTGCGTTT
Celera SNP ID:            hCV3203502
SNP Position Genomic:     6681
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:51759):
TTCTGAAGGGAGGCAAAAGGCTTTTTCTACCTGTGCAGGCCACCTCATGGTCTTCCCGATATTCTTTGGCAGTGTATCACTCATGTACTTGCGTTTCAGC
R
ACACTTATCCACCAGTTTTGGACACAGCCATTGCACTGATGTTTACTGTACTTGCTCCATTCTTCAATCCCATCATTTATAGCCTGAGAAACAAGGACAT
Celera SNP ID:            hCV7481590
SNP Position Genomic:     6786
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:51760):
TCATTTGAAACAACATGGATGTAATTGGGGGTCATTATATTCAGTGAAATAAGCCAGGCACAGAAAGAAAAACTTTGCATGTTCTCACTCTTTTGTGGGA
R
CTAAAAATAAAAACAATTGAATTCATGGAGATGGTAGAATAATGGTTACTAGAGACGGGGAAGGGAAGTGGAGAGGTTGGAGGGGGAGTGGGGATGGTTA
Celera SNP ID:            hCV11971419
SNP Position Genomic:     12592
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Gene Number:                 248
Celera Gene:                 hCG40093 - 79000075575650
Gene Symbol:                 PLXNC1
Protein Name:                plexin C1;PLXN#;PLXN-C1;VESPR
Celera Genomic Axis:         GA_x5YUV32W46Y(41831558..42001488)
Chromosome:                  Chr12
OMIM number:                 604259
OMIM Information:            PLEXIN C1;PLXNC1


Genomic Sequence (SEQ ID NO:12408):
TAATTGAGGGACCATGGCCGAGCCATGCCAGGATGAAGGGAGACCAGCAGAGGCTAGCCACAGCGACAACCATGGAATCCCACAGGCCTGAGGAGGAGGG
TGAGGGAGTGGTTACTGGGTCCACGAAAGGCTGTGGCTACAGTGTAGCTGTGAGAGAGGACAGCCCACAGGAGCTGTGGCCTTGTAGAGGGACACAGCCA
TGGCCAATGCATAGATCAGCAGAGAGGGAGCTGGGAGAATAAATATTCAAACTTCACCCTAGCTGTCCACCCCTAGATCTCTGGCTGGGGCTTCCCATTG
GCTGAATCCAACCAGAAGCCAAAAGGCAAGGGTGATGTCCATAAATGTCAAACTTCTGGGTCTCAAGCAAAAGGGGGAGCAGTGGGGAAATGGTCTGCAG
GGAGAAGAAGAGACTATTCAACACAGACGGGGAAGAAGAACTAAATAGGAAGGACTAGGGAAGGGGTGAAAGAGATTGCGGTGATGGTTTCAAGGGTGTA
GACTTATCTCCAAGCACAACATGTTGTATATAATAAATAGGTATGGATTTTTGTATGACAGTCATACTTCAATGAAGGCTTTGTAAAAAAAAAAAAAAAT
AGGGGCAGGAGAGCGAGGCAAACACTCGGTCTTCCATGAACTTTGCATTTGGGATTCTGTGCGTGGGGATGAGTGCCTGAGAGATGCTGTTTGGACTGCC
ATATTCCCAGGGCTTCCCCAGGATGGGTGATGAGTGGGGCTGCCCCCACCCTGGGGCCATACGCCAAACTGCCCGACCGCAAGAGCCCATGCTCAGAGCT
GATATTGGTTGCTTCCTCCCGACCTTGGTGGGGCTATTTTCTAGGGAGTGGCAAGGACATAAGAATGAGAAGCCACACCAGCTTGGTGGAGAGCACTAGA
GGGCTCACTGCGAAGTCCAGCAACTTTATTGTCAGCTCAGAGCATCTCCCCACCAGAATCTCAAGGAAGCGGAAGTACAAGTGGCTGTGAAGTTATCTGC
GTGTTTATCTTATCTTCTGCTATTCATTTCAAGAGTTGGAGTTATTATTAATAAGAAGGCCTGGTTTCTGGCAGCTCTTCTCTTAGAATGGGTTTATGCC
AAGCTGCCAGTTATCAGAGGATTCAGAGCCTAGGATTATGCTGACAGCGAGTCTCAGAGCTGTGATGGGAGGGCAAAGACACGGGAAACAACGTTGTATT
AAAGAGGAATCAGCGTTTTGTGTCTAGTCCTTGATGCCCTTTTGGCTTCCTATTTCCGAAGAACAGCAAGGAAAATACAAGGAGAGACAGACTGGAATCC
TGTGAATATCAGAGAAAAGCTTGATTTTCAAGAGACTGCTCAAGTTACAGAGATTCCCCAAATCTGAAGAAGTAATTAACTGATGAGTTCGCATACTTCA
TGCAGGGTGAACTCCAGCCGGTCTAGAAAAACACTGTGATGGTTGATGATTTACCATACTTTGCTTTCAACCAGTAATTGTCTCAGATTCTTAACCACTG
ATGGTTTTGGTGAATGTTTTGGAGAAAAGGCTCGAGAGAAACTTCATGACACTAAACATACTCTCTGAGAAGTGTGGTGCTAGAATGCTAAGGTGATGTC
CTAGACTTCGCAGTCTCTTAAACATATCTGACATTATATTATGCTATGGCATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCTATGCT
ATGCTATGCTATGCTATGTTATGTCTTTTTAGGCAATAGCTCATCCCTCCCTAAAGCAGAGTGAATGCTCTTATTTAGCTTAAAGACAGTCATTGGACTT
TGAGTAAAGAGTCATTTTCTTGTACGTTCCACTCCACCCTCCAGTGTACATTTGCACTCTGCTGGCGAATGACCATGAGCTATTAAATCATGACATAGAA
AAAGATGACAACTGTAATGTTGGGAGTGACCCCCAAGTCCCACCTACTGAAGGAACACCACAAGCCTTCCTCACTTTAAACCATGGCATGGGGGCACTAT
CACCAAGCATAAGAATGCCCAGCAATCGTCTGGGGCCATGTTGGGTGGGCAGAGAGGATGAGGCACTGAGTTCCTTCAGCCACGTCTTAACTGTGCCATG
TCAGAGAGACTTTTCATGTTGATTGAACTGTGTCCAACTCATCTCTCAGCACCAATGCGAACTTATTAAACAGCTCTTCCTCTAATCTTTTTTCAACCAT
CTACTCATCAGCAGACTAGAAAGAAGACTGGCTCATTTCTTTTTCCTGTCAGCCACCAAAAGGGCCTGGGAGCTTTGATAAGGGCCTCGATGTGGAAGAC
CACATAGATATCAGCAAAACTGTGGAGGAAGAAGTGGTCTGCTTAAAACCTAAGAGGACAATACAGGTACTATTCCACCCACTGGGTGGTATTTCCAAAT
TCTGCACAGGGGGTTGTAGCTATGTAGATGAGGCTTAGAGAGAATTCACTGACCACCAGAACAAATATTCTCAGTTGCTTTCAATCTCTGCCAGCCAAGT
CATGCTACAGACCACTGTCAGATGAAAAAAAAAAAAAAAAAGAAAGAAAATCAGAAAGAAAACTGAAGCACCAATGATAGCCATCTTGTGACTGTGACCA
ATTGCCTACTGAACAGTTCTTAATGTCCTGGGCCCCAGCAGGAAACCACTGAATCTATAAAGTCCTGTCCACCAGAAATGAGTCTGATTGTGGATGGCCT
GGTTAACCCAGATTGCCTTCGGTGCCTGAGGGACTTGATATTTTCTCATTATGAAGACTTTCCCATCTAGTGAACGCTGCAAATAAAACTGCTCAGAATC
GGTYTGAACTGCCTGTTTCCGTGGTAGCAGGCCTCTGTCTGGAGGATAAATCTGCACCATCTTCTTTTTTTTTTTTTTTTTTTTGGGTTTCAGCCAGTTG
TGTTACAAGGAGTTCCGAAATGTGCTATAAGTGACACCCAACAAGATGGGCTCGGCCAGTTGGAGAGGGAAGCTTTGTCACCAAAGGGACTTGCACCCCT
GGGCCAGACGGTGGTGTCCAAGAGAAAGTGATCAAAGAGAYACAGAACCCRCATGCCTAAATATTTATTTCAGTTGTTCGTATTTCCCACACTTTTCAAA
TGTGAACTTGTGTCCTGAAGGTGGAGCTTTAGTACACAAGAAAATTGGGAAGGGGCAAACATGTTTGTACAAAATGGGGGTAGAATCAGCAAAGAATGCA
TTTATATGCTTCCTCGTCGCCTACGTTTTTCATGCCAAAAAGTTAGCACAGATTCTGATTTCTTTCACCGTAGGAGTCTGCATACAATTAAATGGGAGGC
AAAAGAAGCCCACTCTTAAGAGTRGGGCTTATGGTCCCAGTAGAATGGCAGGGAACTGTAGCCATCAAAGCCATTTATACTTCTTGTGGGTAGTATTTTT
AAGATGTTGTTTCTTTTTCAAAATGAAGCAGCRATGAACTGAGTAGTGATCAAAATGCCGCACCACAGAGTATGTTTAATCCAAATAGCTCCCAAGATGG
TCTGTGACTGATTGTACCAACTCTACGGGACTTAGAGAAATGACTTGGTTACCAGTGAAGTAAAACTATCTCTGGAATGGAATTGAACTGTTGCTTCTCA
GCACATAGCGACACTGCCACCGCTGGTTCACGGAGCCAGTGAAGGTCACTGAGTTCTGCATCAGTCACAGGGAAAACTGTCAAAACACCAGCGCATAAAT
CCCCTACTATGCTGTGGAGGGGGTCTCTGAGCTTCGGATGAGGTTTTTAAAATATTGATCTTCCCACTTCCAGAGGTGCAAAAATTCTGAAAGCATTCCA
GGAGGGCAGGGAGTGGGGGAGCAAGGCCAGATATTTTGGAGCAGGTGAAACATCTGACTTGTCTTGCCTGAGATGTCCCGATTAACACCAACTGGGTACT
TTAGGCCTTTCCCCTTCTTCCTCCCCTCTCCTTATGGACACTCCAACACCATCATCACAGCACAAAGGGCAACCTCATATCTCGTGGGAAGGCATTTTCT
GCCTCCTGCCAGGCAAAGATAATGTTATCCAATTGCAAATGAAAGGCTTATGAATGAAAAGATGACCACTCTGACTTTAGTGTATGAGAGCCACTGCTGA
AATGATAGGATCCTTGAACTTCACATCTAGAGCAGAAACTCACACTTCTCTTCTTCTCCCTCCACCTCACCCTTCTTTCCTTAAGCCTTCCAGAACTCCT
GCCATATCCCTCAGCACTGGGGAGAACTTGAAGCACTGTTGGAGAAGTTTGAAACCTGCAACCTTCGGCAGGACTCAGCATGGGACAAAAGCCACCTCAT
TCCTTTCCCTTCCCAAAACAGCATCTCGAGCTGGGGAACTTGGAGGGAAGGAAGAAAGGGGATAGCAGCCAATTGCCCTCCCTGGGGCCTGGGGTCTGGA
AATAGCCTGGGAAGGAACAGAGATCATTTCCCAACGATCCATAGAGGTCCTCAGCACCCTCCACTCCTATGCACCCCCTGGCTCATCTGCCAGACTGTAA
GGGTGCTGATGGTGCCCGCAGCTGCCCCGGGAAGCTGGGAGGCATTTGTGCATCCTCTGGGAAGCCCCATTCCGAGAAATCATGAACCTATTCCCCAGTG
GGCAATGATTCCCTGTGCTTCAGAAATTCTTGGCGGCTGTGGGGGCAACCCAGCTGTTATTCACCCTCTGGGTGAGGTGGTGAGACCTCAGGGGGTCCAA
AGGATAAAAGTGGGTAATGATGAGACAGATGGAGAGCCTCGAGGGAAATACGGGGACTTGGGTCTAATAGTAGAAAGCAGGGCGGGGGCTGGTTGGTGCA
TTTAACTTGAGGAACTTTTCAGTCTCACTACAGAGAATGATCTCTGGGGGATTATGGCAATGGCCACAGGTGGCACTTAACTAGAGCCAGGTATGTAAGA
GGCCCTGGGGCTAGATATGGATTCGAATCTCGGCTCTGATATCTACCAGCAGTAGAATGCCAGCACGTTCCACAACCTTTCTATAACCATTCTCCTGGAC
TACTAAGTAGGGATGACAATAACAGTCACTAATTAATAGGGCTGTTATGAGAATTATGAGTCTTAACCCATGTGGTGAGTTCACAAGCGCACCCGGCACG
TAGTAAGTGCTCAGTAAATGTTAGCCCCGCTCATTAGGTTAGATGGTGAGCAGAACTTTCCAAGTGCTAGGCTTGAGAGCCTGGGACTCTGTTGCCAAGG
GAGATTAGAGAACCTTTGCAAATATGGGCGCTCCGGCCCTGGGGATTGTCCAGAACGAGAGTGTGGCGCCTGCCTTTCTGCCACCTCACTCATCCGACCC
GGGGAAACCCACACCCTGTCACAGGGGCGCCTTGGTCCCCGGAGTCTCCGGCTCGGCCAYGTCTCCCGCGCGCCTCCCCGGGGCCTCCCTCTCGCCGCTC
CACACCTGTCAGCCGCTCTCGCAGCAGCCCTGTGGCCCGAGCCCGGGGCCTCAGCTGCAACCCCTTCGCACCCTGGATCCTCGCTCCGCGCGCCTGGCGT
ATCCCCGACCCGGCTGCTGTCGTAAACAAAACCGGGCGTTGGAGCAGCACCGCGGGCGGACGGGCGCGGGAGCCCGCTCCGTGCGCCGTTAGCGCGCCCC
GGGAGCCCCAGGCGAGCCAAGGGGGCGATGGTGGCGGCCGCGGCGGCCGCGGCGGGCGGCTGAGCTTTGTTATGAATAGATGAAAGAGGCCACCTACACA
GTAACCCAAATTACGAGACCTCCCTCCTCCCTATCTCACCGAATCAAGAGGGGAGGGGAGATGGGCGTGGAGGGAGGGCGGGCGGGCGGGCAGGAGGCGG
AGGGCGGAGGAGGAAGAGAGGATGAGGAAGGGGGCCAGTTGCATCCCACTTTCACAATGGGAAAGTGAAACGCACAAGCGCACCCAACCTCTCCAGCCCT
CCCCGCCCGCCTCGCTCCTCTCCGCCCGTCCCCTCCCTTCCCCTCCGCGCCTCCCCGCGAGCGCCAGCGCTGCACACAGGAACTCTCCGGCGAAGGAGGG
CGAGGAGGAAACGGTGCCGGAGCGCGCAGGGCTTGCTGCCGCCACCGCCGCTGCACAGGCTGCCGGAGCGAGCCTGCCGCGCGCCGCCCTCCCCGCTCTC
CTTCCTGGGCGAGCTGCGGGGATGGGGCGGCCGCGGGAGCCCGAGCGCGCGCAGGAACCGCCGCCGCCGCCGCCCGCGTYTCCGTTGCCGCGCGCCTGAG
CCGCCGTCGCCGCCGCGCGCCCTGCCCGGGGGCGGCCCCCCCAGCCCCATGGAGGTCTCCCGGAGGAAGGCGCCGCCGCGCCCCCCGCGCCCCGCAGCGC
CACTGCCCCTGCTCGCCTATCTGCTGGCACTGGCGGCTCCCGGCCGGGGCGCGGACGAGCCCGTGTGGCGGTCGGAGCAAGCCATCGGAGCCATCGCGGC
GAGCCAGGAGGACGGCGTGTTTGTGGCGAGCGGCAGCTGCCTGGACCAGCTGGACTACAGCCTGGAGCACAGCCTCTCGCGCCTGTACCGGGACCAAGCG
GGCAACTGCACAGAGCCGGTCTCGCTGGCGCCCCCCGCGCGGCCCCGGCCCGGGAGCAGCTTCAGCAAGCTGCTGCTGCCCTACCGCGAGGGGGCGGCCG
GCCTCGGGGGGCTGCTGCTCACCGGCTGGACCTTCGACCGGGGCGCCTGCGAGGTGCGGCCCCTGGGCAACCTGAGCCGCAACTCCCTGCGCAACGGCAC
CGAGGTGGTGTCGTGCCACCCGCAGGGCTCGACGGCCGGCGTGGTGTACCGCGCGGGCCGGAACAACCGCTGGTACCTGGCGGTGGCCGCCACCTACGTG
CTGCCTGAGCCGGAGACGGCGAGCCGCTGCAACCCCGCGGCATCCGACCACGACACGGCCATCGCGCTCAAGGACACGGAGGGGCGCAGCCTGGCCACGC
AGGAGCTGGGGCGCCTCAAGCTGTGCGAGGGCGCGGGCAGCCTGCACTTCGTGGACGCCTTTCTCTGGAACGGCAGCATCTACTTCCCCTACTACCCCTA
CAACTAYACGAGCGGCGCTGCCACCGGCTGGCCCAGCATGGCGCGCATCGCGCAGAGCACCGAGGTGCTGTTCCAGGGCCAGGCATCCCTCGACTGCGGC
CACGGCCACCCCGACGGCCGCCGCCTGCTCCTCTCCTCCAGCCTAGTGGAGGCCCTGGACGTCTGGGCGGGAGTGTTCAGCGCGGCCGCTGGAGAGGGCC
AGGAGCGGCGCTCCCCCACCACCACGGCGCTCTGCCTCTTCAGAATGAGTGAGATCCAGGCGCGCGCCAAGAGGGTCAGCTGGGACTTCAAGACGGCCGA
GAGCCACTGCGTAAGTCCTGCCCCCGGGGCGCCGCGGAGAGCGCTGCTGCCGGGGAGCCGCCGCMGCCGCCGAGGCAGAACGAGCTGGGGGCGAGCGGCG
GGGCGGGGGTACAGCCGGGTGACATTTACCAGGTCTCAGGTTCACACCGCGGGCGGCCGTCCGAAGGCTCCTCTCGGACGGTCCCCGAGACCTGGAGCAC
GGCCTGAGGTCCCCAAAGGGAGAGTGTAAAAAGGGGGGCGGGGAGGGTTGGAGTTAGACTCAAAACTCTAGTGGCTGCATCCCATTGCCATCCTTCCCTG
TCCAAACGGGGACGCTTGTTTGGGGCTGAGTCTCCTCGCGCAGCCCCTCTTTCCCATTCGCTTCTCCAGACTTCTCTGTGCCCCTTCCGTGTAGTCCCAG
CAGGCGTGKGGGTCTGACCCTCTTGGTCAACAGTTAGCAACACAGTGCCCTCGGCAGAGAAGCCATTGAACCTAAAGGGCTCCCTGCCACACCCCAGCCT
TTGTGGCCCCCTGTCTCCGCCCCCCACCGGCAACGCAAGTGCTGTGGTCTGAAGAGTTGCTAGCCCGCTCAGCGTGGAGAAATGCCAGCCTGCAACAGAG
GCTTGCGCTGGAACCGAACCCCTGGCGTGAGCCGGTGCGAGGGGGCGGTGCCGTGGCTCTGCTCAGGGTGCGCTGTGGTCGCCAGCCGCCGGGAGAGGCT
GGGCGGGAGGTGGCCTTGTGGTAAAAGCCTCATCCTAGAGGGGAGYGCAAGGGAAAGTGTTGGGGGTGCTACAGGCAGTTTCTGGGCTCCAGATTGCGAG
ACTAGATGGCGGGACTCAGAGTCACCACCCTSGGGCTGAACCAGGCAAGCGAYACAGGTTTCCCCTGGGCTCCCAGGGCAGCCACAGCTTTTATCTTGAG
ATTGGCATTTCTTTGACTGGAAAATAAAGAGGCAGTTCAAGAGGGTCCAGTTGATGGGGATTATGGAGCCATTGTGCACTTCTCCGGAGGCCGTTTCCCT
TCCAAGGCGGCTGGCACATCAACTCCACATATGGCTCCTGAGAGGGGAGCCTGCTGGGAGCCTCCTTTATAACTGGACAAAAATCAAAGCGCAGAAATTA
ACGGCTACAGGTGTTGCCATTGTTTTGGTACAAAATGAATCAGAGAGGAAGGGGAGAAGTCACTGCTTGGAAAATGTGTTGATACAGGGGCACGTTGGCT
CCCAGGTATATTAATATGTGTATAGAAAGACAGCTTCCCCCACCCCCTTCTTTCTCTGCAAAGCACATCTTACCAAATATTAGCCCTATGAGCCAGGGAG
AAAAAAACCAGGAGGTCTTTTGCAAGGCTTCTTAGAACGGTCACTTGCTGCTGCTKCTTTGCCTGTCAAGCTGTGTGCTGGGACACACACATTAAGGCCT
TCATTTTGTTACTGGTATAATTTTTAAAAATATGTAAAAACACATATTTGCCTCCTAAATGACTTGCTGTTGCCGTACACATATAATGTAATATTTGATT
CCTGTCTTTATTAGATCTTTATAATCTAACGGTTTAAGTTTGGTAAAATYATCGTTTCCTACTTCTCTGTTGAAAGACTTGAAAGTACCCCCGAAATATT
ACTTTGTGTCAAGCTTTAGACACACTTAGTCTCTGGGGTTAATGACAAGCCAGCTCAGAGGCCCACAGCAGGTAATGAGGGTGAAAGTCCAAGCTTTGCC
ATCTGACAGCTGTGTCGATGTGTGGAGCCAAAACATTTCTCTTGACTGCGTCTCTCTACCTATTGGGTCCTGGAAGACTCAGTTCCCTTCCAAACCCAGC
CAGCATCTTGAATGCACTCAAAATCCACGTTTTGGCTCAATCAGGTGTTCCTGCTTGTGCCGGGATGGGGAGGGGCAGTGGCAGAGGAAGTCGCGGAGCT
TCTGCGAGAGAGCTGCCCCTTGGAAATCAAGCAAAGGATAAACACATGCTGCCAAAAATCTGGAACTGGAAAAATAAATAATTAAAATGGGTCCCTCCAC
AGCATTTCTTGCTGCTATTTATCAAGAACTCCCAGTGTGCTCAGAGCTGTGTGTTCTGAAAGACAGGGTCTGTACCCCCTGAGCTTGTCAGCCAAGTTMA
ATAATATACTCTGGTTCAAACAATAGCATGTCATGGCTGCACAGGTGGGAGCTTGGAGCTTTGCATTTTTTTTTCATTTAAGTAAATTCCTTGCTGCTAG
TATGCATTGAAAAGCCTTAATGGAATTGAATTTCAAGAGGAGTTTGAATGAAAAAGGGTGGTAGTTTTGATGAAAAAGCTGACAATTTTCTAACCTATTA
AATAGGTAGAGAAGATACTCAATTCAACAAATATTTGTTTGATGCCTGCTAGTGTAAGCAATGCTCTGTGCTGGGTGCCACTGATTTTGCCACTGAAAGG
ACGATAGCAGATTGCAACCTTGTGTAATGGGGTCATGGGATCAGTGTGCCCCTGGCTGTCACTCAGAAGAATGATGTCATTTGATTGCATTTGTTCTGCA
TTTTATTTTCAGGTCTTGAAYGTGTTTTTGAAAAGGCATGCTGAATTATAGGTGCCTAAAACAGGAGCAGGACTTGAAACACTCTAGAGGGAACCTCAAT
AGATTCCAACAGCRATTCCTTTAGAGCAGACACAGTAATTTTAACAGTAATCCACAGGCTGCAAGGCACAAGCGGCTGGATTTGCTTGCCTTCTTTCTCC
CTCTCCTCCTAGCTGGCTCTTATTTTCCGTCTTCAATCAGCCATAGGTAGAAAAGTGACAGGACTGACTGGGTTGTATTTTCCCACTTTCTGGTTCTCTT
ATCTCTTGTCACTGATCCTCCTCTCCTTCAGCTTCTGCTAAGCAGTGATTTACGAGATGCTTGTGTAATGAGTGTGTACTCAGCTGTTTACACACTGGAC
CATTACTTTTTCTGCCTTGCCACCAACTTTGAATCCACTTTCATAACTGTAGCAGGTTAACTGCAGCTCTCAAATGTGCTAAGGCAACCGATTTCTGTAG
ACCCTCTCTCTAATAATCTTCTGTGATATTTGTACAGCACTTCCACATGTATTATTTCTTTTGAGCCCCGCATCAAGTCTGAGGTTGATTCTATGGGGAT
GATTTCATTTTCCAGATGAGGAGGCTAAAGATCCGTTAAGCAGCTTGCTCAAGATAGTTAAGTGCCAAAGCCCTCCACCTTAAATCCAGGTCTTCCAATG
TCTACATCTCTACTCTTCCCACCACCCCAGGGTTTCTCGAACTTTCCCTTGAAGGTCCCCTAATTAAATTGGCAGCAAACAACCTCCCCTAGGATGTGGG
GTTGAGGCTAGAGGGTAACCTCAGAAGGCAGTACATGCCTCTAATCTTGGCTTGTGTTTTAGAACTTCATGTGGTCTCTTTCCTTTTTTTCATTCTTTTT
TATAACACACCTGTGCTTGGATTAGTATAAAAATGAATGTTTTTAATTATGCACAAGTTAATCAATTTGACTTCCTACCTTTCTGAACTCTCACTACCCC
TGGCACACCAACGTGATACACAGAAAGTGTTTGTGTTCGAGTTTGTGGAGTCTGATTGCTCCAGACTTGTTTGGCCACCATTGTTGGGTTCTGGGGTCAC
TCGTGGTTTAAACATGGCAGCCACCCCTCGGTAGACATTGAGGGTAGTACGTTTTCCTGCAGTATTGGTCCACAGGACTCTAGATCATTCTAGTTTGTTC
TCTAGTTCATTCTACCCTTTGTAGGGGGACATACCRCCTTCTTCCACGCCTACATAATTCTAAAGCCTGACATAATTTAACTGTCATGCAGACAACCACA
GAATGCTCACATGCTGCCCAACAGAGAGCAACCCAAGGAACATGTGTGGAGAAGTGACATCCCAGTTCCACTTGGCGATGCAGCCTATTGACCTCAAAAT
CCGCAGTCTTCTTGTGATGTTTATTTCTCTTCCAGCTTCTGTTATGATTTTGTCAAGCCATTTTGCAGTCTATAGACTAGATGGTGATTTTACCCTCATA
TACACATATTATATGCAAAAATGGATTCAAAAAGGACAATTGCCATGACAGCACCCACTTAGAAAGAGGGGAAAGCAATCATAGCTACTATCTACTGAAT
AGTTATTATGGCCAGGTTTTGTGTGAAGCAATTTACATGCCTTATTTTCTGTTGATTCTCWTTCACCATATGGGGCAAGGACTGTAGTTATCATGATGAT
TAGAGATGAGAAAATTAAGGCCCAGAGAGCTTCTGTTAGGTTCCATAGCYGGAAAATAGCAGAGGATTTAGAACCTGGGTGGTCCAGCTCTACGACCTGA
GCTTTTAGCCACCTTACAAGTCTATATTAAGGAGCCCTACCCTATTACTATTAATAATCATGATGGTGATGATAGTAAAGACATCCAAAGCACACGGCAT
TTTCTATGGGTCAAGTAGTGCTTATTCTATACACATTAACTCATGAATCCAGAGAATATTGCTGTCAAGGAAATGGGATTCCCCACTTATAAATAAAGAA
ACCAAAGCACGAAGGGTTAAATAATTACTACATGCAATAATGTGTACATGTCCACTGCCATGGACAGTCTGTCAGCATGGACATTAGGTCCTGATGTCAA
CCCTAACCTGTATGGAGCAAGCTAAGCCCTTGCAACTGCTATGCTAAGACCAGCTTTTTGTGGACACAGGCATAGGATAGCAGAGAATCCTTAGTTATGA
GCTGAGTTTCTAGGTTTGCATTGGTGACCACCTGAAGTTCTGACTCTGGCAGGATTGTAGTTTCTTAACTGTGAACTTCTAGACAGTGTTGGTGTTCTGA
TCTATACATCATCTCAAAGGGTGTTCTCTGTTGAACCCCCCATACCTAGCATAGTACCCAGTATGTAGTTGGGACTTCAGAAATATTTGTTGAATGAATA
AATGAAGGATCGTAGAGAATCATGTTGGAAATGTTTTCTCTACTCAGCAGCAACACTTTCTGGGAGTCTGGTCACCTCATACTCCCTTAATCATTGTCTT
TTTCTTAATGCCTGATGTGTCAGGGCCCCTTCCTTCCTTAGTTTTAGGTTACATGGTGTCCTTTACTCCTTCACCTCTTCCCAGGTACTTCCATTCATTG
GAATACCAGGCTTCTGGTGTTGCCAATCTGAGAGTTACTTTTGACCATGGAAACCTAGCATGGTTGGAACTTCTRTGGTGTAATTTTTGATTGCCTTTCA
ACTATGAGAGGAAAGGGCTTTATGCTGTAGGCAGTGGTCCTTAAAGTGTGGACTGTGGCCCAGCAGCATGAATATCACCTGGGAACTTGCTAGAAATGCA
CATTCTTGGACCCTACACCAGACTTACTAAATCAGAAGCTCTGGAGGTTGGGGTGGGACTGGCAATCTGTATTTTAGCAAGCTCTCAACGTGATTTGAAG
TCATGCTTAGGTTTAAGAACCACTATTGTAAGATAAAACAATTTTCCTTGTGTTCCAACTGAGGCACCTAGGATAGGAACTTGTCGCATTTTTTTTCCCC
TTGCATTTTACTTAGGGCCATAAAAAGTAACCAACACATTTTACCACCTGATATTCCTTATTCCCTCCTCACTGATCAAAGGCAGTACCTAGAAAGCCCT
TTAAAGACTTGCCATTTTTGGGCTTAGAGTCTGAGTCTCAAAAACCTGTAAGCCATAGTTTAATTAGCTCCTTCACTCTTGCATATAACAGTTTATTTGT
ATTTCACTCCCAGATGTGGGGGGATGTCTAGAGTCGTCTATTGTGCTGTACGCCAGAACCAATTCCGCACACCAGACATTCTCTCCAAGGGTCCATTCTT
TACAACATCAGTCCTGTTACCAATTTCTATCCTAGTCATGTACAGTTGGTTGCATGGAATAAAGATCTACTTGAGTAAGGTCAGATAAAGGGATGAGGGA
TATTGTGGACAGAAACACATGGAATTACATGGTAATCTAGGAATAAAAGCAATGCTGTGTTATGGTTATGTGCACAGTCACTGGAACCAGGTCAATTGGG
ACCAAAGCTACCAGTTACCAGTTGTGGGACTGTAGACAAATTATTCAACCTTTCTGTGCCTCAGTTTCTTATCTATAAATAGTGATCCTCTTGGTTTCAT
AGGATTATTGTCTGGATTCACGAGTTAATAAGTATAGAATGAATACTACTAACTACTTAACTCATAGTAAATGTTATGTCTGTGTTTACTATCATCACCA
TCATTACTRCTAATAGTGTTAGGACGGGCTCCTTGATATGCAGTTGGAAGGTGGTTCCACATTCAAGGCAGCTTAAAGGAGCTCAGTCAGCATCAGCAAA
TGATGGATGCTCCTTCCTTAGTCTCCCTGTTAACATGACTTAGCCTGGCTGCTTTGCACCATCCTCCTACCAAATAACCTCCTCTGCTTCCTCAAACATC
TACTCYCTCCCACCTGAGTATGCCTCAGGCCTGCCTTGATCCCCACTGTCTATCTTTTTTTTTTTTTTTTCTTGAAACAGGGTCTCATTCTGTTGCCCAG
GCTAGAGTGCAGTGGCACAATCTCGGCTCACTGCAACTACCTCCTCCTGGATTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACCACAGGC
GGGTGCTATCACGCCCAGCTAATTGGAATAAAATCATTTCTTAAACAATATGGTTCCTGGAGGAGAGACACTGGAAACTTTCTTTYTTTTTTTTTTTTTT
TTTTAAACAGAGTCTCACCCTGTCACCTAGACTGGAGTGCAGKGGCATGATCATAGCTTATTGCGGCCTCAAACTCTTGGGTTCAAGTGATCCTCCCACC
TCAGCTTCCCAAGTAGCTGGGACTACAGGCACACACCACCATGCCAGGCTGATTTTTTTTATTTTTATTTTTGGTAAAGATGAGGTCTTGCTATGTTGCC
CATGCTGGTCTCAATCTCCTGAGCTAAAGCAGTCCTTCCGAAGTGCTAAGATTATAGGCATAAGCCAGCACACTTGCCTCCCACTGTACATCTTAACAGC
CTGTCACCTTCGGCTTTGGCTACTAACTGGCAATGACTTTCTGTATTATTTAGTCCAAGTTGCCAGGAGAGAGATAGAGTTGAGTCCAGTTCATCTTTCC
CACCAGATGATGAGCCCGAGTTCAGTGTAGGGATTTGTAACCCTTGGGGCAGGTGCTGGCCCCTGGTCCGACTAGAAGAGGATCAAACATGCAATTGTCC
CCAGCAGGTGCTGCAGGTGGATTCCCTTAGAACAGGATGGCGGAAGAGCCACACCAAGACCAACATCTTGATTACAGTAGCATACAGTAGTGTCAAATCT
GCCTCCCTTAAAGTTTTTTGATGACCACTCCCTTCCCCAAACATGCATTGGCACACAGATGATGAAGACTGGGAAACCCCAAAGTCGACTTGGGAACAGT
GTGTGGCCAGCATGGGTCTAACCTGTTCATCAAAGTGGGGCCATGGAATGGTAGGTTTTCTTATTATGTTTTTTATGAAATGTGCTTATCATTTTTCTTA
GTTTTAATTTTCTATCTTGATGAAATGCTAATTTTTACATGATCACAAAAACAAATAGAACTGTGACATTCATTTTTCAGTTTCAGTAGCTGATTTTCAT
GTTGGTTGGATTGTCTGTTCAATAGCTACACATAGTGCTTTCCTTAGAGAAGTTACTAGGGGGATGTGGCCCTATTTCCATCCCACCACCCTGGTCAATG
CTGTTATGCAGGGGTCAGCAAACTCTTTCTGTAAAGGGCCAGATCATCAATATTTTCGGCTTTGCAGGCTGCATACAGTCTCTATCACAACTGCTCAATT
CTGCTGCTGTAGTGTGAACACAGCCATGGACAATACATAAATGAGCAGGTAGGGCTGTGTTCCATTAAAATGTTATGGACACCGAAATGTGAATTCCCTG
TAATTTTCACTTGTCATGAGTTATTCTTTTTTTGATTCTTTTCAACCATTTTAAAATGCAAAAGCTATTCTTAGCTCATGGGCCGTTTGAAAAACAGGCA
GCAAGCCAGATTTGGCCCACAGGTGGTGGTTTGTTGACTCCTGCTRTTATAGAAAGAATGAGAGTAAAACAAACCTTTCCCATACAGTCTGATGCTCATG
GCAAGAGAGACGTGACCAAAAGCTGCCGTGGAAGTCCCAAAAAGAGGCACTACTCTCAGCCTGGGAGGATCTGGGAGGCTTCAGAGAGGTAATGCTTGAG
CTGCATCTTGAAGCTGAGTGGAGAAGGCAGAGAAGGGAGTTCTAGAGAGAAGGCACAGCTTGTGCACAAGCAGGAAGTTGAGTAAGCCTGGGAGCCACAA
GCAGCTCACCAGGCTGCGGAATGTCCAGAAACGAGTGTGCAGGTCCAGATGGTGAAGGGCTTAATGAGACGGGCAAAGGTGGTTGGATTTTATCCTGATG
GTTGGTCCTCTAGACTTTCCAAACCTTGCCTTTAAAATAAATTATCAATCGGAAGCTCCCTATGAGAAAAAGGTTAGAAAATTATCATTAGGCAGGGAGC
AGATGGCGCATGCCCATAATCCCAGCACCTTGGGTGGCCAAGACGGGTGGATCACTTGAGCCCAGGAGTTTTAAGACTAGCCTGGGCAACGTAGCAAGAC
CCCATCTCTACAAAAATAAAAATAAAAATCTTAGCCAGGTGTAGTGGCACATATTTGTAGTCCAACTGCTTGGGAGTCTGAGACAGGGAGATCGCTTGAG
CCYGGGAGTTAAAATCCAGCCTGAACAACGTAACACGACCCTGTCTCTTGAGAAAAATTATCATTGACTTGGTTCTTTTTGTAAGACCAATTACCAAGCG
CTGGGAACATGGGAGGAAGCAGGGGTTGGGAGTTTCCGGAGCCCTACAACTTGCCACACCCCATCCGGGCCTGTCCCTGAGGCATCTCCAAGGAACTTCT
AGAGCAGGGTGTGAAAACCATGGCTAAGGTTGATGGAGTAAAACAGCGGGATTATAAACAGACACAATCTGAATGTGTTCTAGAAAGATTACTCAGAAGA
TAAAGTGGCTGCAATAAGGTTGGAGGCAAAGCACCTTATTAGAAGGACTATCATTTGTTCGAATACTTTCTTGAGCTCCTATTATGTGCCAAGCAATGTG
TGGAGACATTTATATCATGGTAAATAGGGTAGACAATAAACATTTGGCAAATTAATAGTTACTTTTACATTAAGATGATAGCTAAAATTTACAGCTCACC
TACTGTATATCATTATTCTAAGCACTTTACCAATATTAACTCATCTAATCCTCACTGCAACTTTACAAAATGGGCTGTATTATTACTACCATTTTAAAGA
TGAAGAAACGGAGGCACTTCACTAAACAGGTAATGTAGCAGAGGCATTTGGGGGTTGCAGGTGTTGGGGTAAGTTCTCTTTAAGGAGGCCGAATTGACAC
CAGGAAGATAAGAAAGGCCGGTTGCAGGTTTCCCTTGCAGATCTGGGAAGAGCAGTGCTGGCAGACTGGAGGGCATGTGCAAGAACTCAAAGATGGAACA
TCCTGGTCTTGGTGGTTGTGGAGAGCAAAATGCTAGTGTGGTTGAGGCTAGGGAGGTAGAGGAGAGAGTATGAGGGGAGGAGGCTGGAGAAGGAAGCAGC
AGGCCCAGCCTGCAGGCCTCCTTGGCAATGGGAAGGAGATTAGATTTTCTTCTCCGAGCACAGGAGAGCCTTTGAAGGGAAGTGAAATGATTGGATTTGA
ATTCCTAAATAACGGCTGCCCTGTGGGGAATGGATGAGAGATTGGCCACAGCGGAAGAAGGAAAACCTGCAGGAGGCTCTTGCAGTAGTCCAGACAAGAA
ATAATGTCACCTTGGCCACGAGCAGTGGTGACAAATATGGAGAGAAACAGATGGATTTTGTTTATTGCAATCATTCAACTGAGGGACGTTGAAGAGCTGA
ACTGAGGTTGCAGCAATGAGGATGGAGAGGAGGGGTGAAGTGAAATAGGTTTTTAAGACGTGGAGGACCAATTAGAGGATGAGTTTAATTTTTGTTGATT
TTTAGATGCCTTGGGACATACAGGAAGACAGGAAGAGTTGCTAAGTAGSGAGTTGGCAATGAAGTTAGGAGTTGGGGATCCACTCTATAAACCTTAGAGT
GTGCCAGGCCCTGTGTCAGGCCCCACACATCCCTGTTTGGGCTATATGTGCACTGAGGGGAGTAGCCAGGTCTGGCTCATCTTTCTTTCCCAGGCATCTA
TCARGTTGGCTAACACATGGTGAGTGAGCCCTCAGTAAGTGTTTCTAGAACTGGAAAAAAGGTACTCTTCATCTGGTGGAGAAGATAGTGATTATAGCAT
GGTGAGATGAGTGCGTCCAAGAGGAGTTGACACTGGGGCTCTGTTTTGAGGAAAAGTAAAAGCTGGGCAGCAACAGGGAAGTGTATTTCCTTTTGACTCC
CTTCCCAATTAGCCAGGATTCCTTGTCATCCCCTGTCTCCCCGCAACCTGACTGAGGAAGCGTGTTACCTAACACACCAGCTGTTCCTGATCATCGCCCC
TTGGTCTTCTCCTGAGGCTCCTTTCTCTATCATTGACCCCTTTTAAAAATTGGATTCCGAGTGCAAAGCCTTGCTTCTCTGAGGCAATAGAGGGGGGAAT
AGCCTAGAGCAGCTGGTGGCTGTAGGTGTAACCTAGTGTCAGCCCCCGCACTTAGCAATATGTTTCTTCATAACCCTGCAGAGCTCTTGTGCTGTAGACC
TCTAATGCAGCCTGTAGACCCCCTGACAGAATAATGTTTTTTAATGCATGAAATGAAAACATTGGATTGCAAAATAGATGTAATATATTAATATATCGAT
CTATCAAAATGTTTTTTCAATTAAAGGTATAGTAATGTATCTTAACACATTCAATAGCAAGATATAGAGGCAGTAACTACCATAATTTCAAAGTAGAGAT
GAGCATAAATGATACTTTGAGATATCTGCAACAACTATCAAATAATATGAAAATATCTGATTTCTTTTGGTGACAAAGTCACAGGTTCAGTAAATACTGC
TGTGGCCTGAATCCRTGATTAAAGGAAATGCTAAGTTCCAGTTAGAGCTCCCTGGAATAAAGATTTTTTTTTTTCATCCAGTTTCATGGATTCCCTGAAT
TCTGTTCATGAACTGTGGATATCAGTGGAGCCCCACTCTAACCATTCATTTCAGTTACCAAGTGTTTCAGAAACCAATGACATGAAATGCAAAGTTTAGC
ATTTTATTTCAAAACTCATTTGACTGGTTTATTTTGACAATAGGGAGTTTGTTCCCATCTGTATTTTACAGATCAAGTACTTGGTCAACAGCAAGTGCTC
CATAAATAATAGGTGGATGAGTGGATGGGTGGGTGGATGAGTGGATGGGTGGGTAGAGAAAGCTCAGAAAGGATAAATGACTGTCTAAACACTTACAGCT
CATAAGTAATAGAGTTTGAACTTGAAACCACATATTTTTTACTCTAAATCACTTGTTCTTTCTATTCTTCCATGCTACCATCAGCTACTTTTATTTGAAA
GGACACAATGATAGGGCATGTTCTTAAAAATATGCATTTGAATCATGGGAAAGGACAATCCTATTATTATTTGCTTTGGTCAGAGCACACCTAAAGTACT
GTGTTTACTTCTTAGAAGCACATTTTAAGTACACTGAATCTGTTGACTGTTCATGGACTGAGATGGCGAGAGACTTAGAAATTGTCTCTTACAAGCTATC
AATGAGCTATGGATGTGAAATTCAGAGAAGGCCAGTTTACATGGTAATGGGAGGTCTGGGGTGGTTTTCTATTGCTCCCCAAGGCAGAACCAAGGCCCAG
TATTTACAAGGGACGAATCTTGGCTCAATTAAAGAACTCAGTAATGATTAGGCCTACTTATCAATGTATCATAATTGCCTGATGAGATATTGACTGAAAG
TATTCAAACATTGACCCATGTATTTATTTATCCCTTTGATAAGCATTTATTGACAACCTACTCCATGCCAGATGCTGAGGTGGATGCTGCATTCGAAGTG
TAGAATACAATACTATTGGAGATAGTCAGTCTTATAAAGATGGAGTCTACTGGGAGACAGTAAGTTTTTAAAAACAATAGTTATAATAAGTATTTTGAAG
GAAATAAATGGAGTGCTGTGATTCAGAATAAAAACTGAGGTAGGAACGGGAAGAGCTATGGTCATGTGTCCACGAGTAGGTGACATTCAACTTGAAACCT
GACAGATTGAAAAGAGCCAGCCTACAAGGGAGTGAAGGGGGGTGGGGCTAGAAGAAGTAGCAAGTGCAAAGGCCCTGAGGCAGAAAGATGGTAATGTGTC
CAGAGTCTGAAAGAAAGTGACTGGACTTGGGGAGCAGAAGCAGAGTGCAGGAGGAGAAGAATGGCAAGGAATGGGTGTGAAGACGTCATCAGGGATCAGC
TCAGGGAGAGTCTGGGGAGGCATATGGATTCAATTCTCAGCATTGTGATGGGAAGCCATTGGAGAATTTTAGTCAAGGGAGTAACAGGACCTGTTTCATG
TTTTAAAAGATCACTTTGGCTACTGGACAGAGAATAAATTGAAAGTTAAAAGGGAGACACCAAGAGACTCTTGCACTAGATCGGGAGGGGAATGAATGGG
CACTTGGGCTGAATAGAGCCTGTAGAGATAGAGAAGGTGAATTTGAGATTATTGGGAAATTCGACTGAGATTTTTAATGTATTGGATGTGGGGAGTGACA
GAAAGAGAAGAGTTGAGGGTGATTAGTGGTGCTGTTGACCATGATGGGTAGCAGGACCAGAGGGAAGAAAAGTCTAGATAACCATTTGTCAGCACCTCTG
AAACCATGTCACAGATTTCAGTGGTTCTTAACAGGGGATAATGACATTTACTTAGGGGATGTTGAGAAATGTTGGGGAGAGACTTTCACAGTAGTCAACA
TAATAGAGGGCACTGCTTTGTGGACAGGAGTCAGGAATGCTAGAAGTCCCGCATCACACAGGACAGCTCCCATAATGAGGAGCCATCCCATGTAGAATGC
CAGTTGTTTCCTCCTGGACAAGCACTGGTGGACTGAGTCTCTTTCAATTCTGAGAACCTAGGGCCAGGTGCGGTGGCTCACACCTGTAATGCCAGCACTT
TGGGAAGCTAAGGTGGGCGGATCATGAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATAGTGAAACCCCATCTCTACTAAAAATACAATAATTAGCCAG
GCATGGTGGCAGGCACCTGTAGCTACTCCGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGTCAGAGGTTGCCGTGAGCCGAGATCGTGCCACTAC
ACTCCAGCCTGGGCGACACAGTGAGACTCTGTCTCAAAATAATAATAATAAAAAAAAGAATCTAGGAAAATGCAGTTTCACGCTATCTGCCATTCATATA
CTTTTGTAAATTATTTGAGTCAGGTCGTCTTTTTATAAGTAATTGACTGAAATTAGCCATAGGGAGGAGAAGGAGGTTGTGGGGGTGGGGAAGGGACATA
AAGCGGGAAGAAGGAAGGATGAATCTTGGAGAGTGGGACTTTGCTGGTGGGTTGGCCTGGGTGGCTGGGAACACTGGGGCCCGTCGAGGGAGGGGAGAGG
GTAGAAGGAGGTGAAATACAAGCTTCACCACCTTGCATGCTTCCCACGGCTGTGCTGCACACCAGTGATGTTTTCTGGTCTAGAGGCTGCCCAGCTGTGT
CCCTAAGCACACTTTGAACCTCTCCTTTTGGTCATTTGAGTCCCCAGTGTAAATTCTTCCTTCAGACGATCAGAGAGCTGCCATAACTTAGTCAGATCCC
GGTCAACACTGTATACACTAGAATGGAGAAAAGCAACCCGAGCCTTCCTAGCTAATAAAATCACTGTCCGACTTGGGCAAATAGTTGTCCTTTCCATCTC
CTTAGCTGAATAAAAGTAATCTAATTATTTTCAAACACATGATTTCATCTGGACCTCACAACAACACTGAGAGGCAGGGCATGTGGTATTATTAGGTCCA
TTTTACAGATACAGTCACTGAGGTTCAGGAGACTTAACTTGCTGGAATCAAGCAGTCTATAAGGCACAGAGCAGGGGCCAGAACTTGGGTGCAGGGCTCC
TTCAGGGGTTTCCTAATGGCAAGTGGGCCCCTTGGGAAGTAACAGAAAATGATGAAACTGCTTCAAAACAAAGGGATCCCAAAGGGAACAGAATATAAAA
TTAACTGCCCAAGAAAGGCATTTTGTCATGTACAAGAAATTGATAGGTACCCAGTTGGTATTTCCTCCCACCTGGTAAGGTAAAATCAACATACAGGAAT
CCTTTTAGCACCTTGGGGGTAAAACACTTGACTCTTGCTTGGTGCTCAACATTGGAGGCCCCAGTTTTGTGCCCATTCCCTCCCGATGATGCCGCAAAAG
CTGGAGCATGGCTGTGAGCACCCTGCCTCGATGAGCCGGGCCATCTTTCACATGGTAGGGGCAGGGCCAAGCTGTGGCTCAGCTCTAGAGGGTGCCTTTC
ACACCCTGGAATGCATGACTGGCACCCCCTGCAGTTGTGCAGGGCACAATGGGAGAGTATTTATTGTCCATGAAAAATCATATGAAGCAGCTGCAAAGAA
GTCTAATTGTTTTCCTCATGATATGCCCATGACTYCCTGCACACACACACACACACACACACACACACACACACACACACACACGTACACACACAAACAC
ACACACACCTCAGGAGCTTTGGTCCCAGTTTGCTATATCAGGCCCAAAGCTCTTTCTCTCTTTCAGCCCAAACATCGYTTGAGCCAAGGTAGCTTTCTCC
TCCAACTGAGAAAAGTTTCCCTCTTAGAGCCGGCAAACGTGTAGGCGTGACGTTATGCTTAGACACGGCAGGAAGGAGAAGCAGAGTGACAACTCTGAGG
GAACCAAGAAAGCCCAAAGGGGAGACAAGGTTTAGAGCGAAATCAAGATCGGATTTTGTCATGAAAGGCAGAACTGGCAAAAGCATCATTACAAGGCATT
AACCTTGTTACACACAGACGAACAAGCAGAGGCTGGGATTCAGAAATAAATTACACATAATAAACTAGACAGAATAGGCTGAGAGCAACATTAGCGATTA
TGCCCTAAGGGGAGAGAARGGCAAGATAKAAAATAKGCCCGAAAAAAAGAGAGAAAGAATAATCTCTGGACACAGGGGGCTGACTGCACTGTTTCCCCCT
TCTTCTGCCTGGCTCCCTGGGTATTAACCTCACTTTTGTGAGGACGTTTCTCCGGAGCCTGTCTTTCTTTTGTTTTCATTTGCTGCAATAAGCATAAGAA
AGCCATTCAAAGGGTTCCTTTTCCCATTCACAGGGACCTGTCCATTTCTGTGTGTTTCCAGCACAAAAGAATCCATTTCCATTCAGCCAGAGCAGCCCCT
AGAGTTTTCATGAGGTCCAAGCCTCCTCTCCTGTTTTCTTCCAGGCTCRCTGTTGTAATAGGCTGCAAAATCCTGACTGTGGCCAGGGTCCTCCAGGCTG
GTGAGAGGAACAAGCATTTGTCCACGTCCTGGTCCCTGCAGCTGGGGAAGAACTGCAGTTTAGTGTCCGCTCCAACAAGTTGTGATTGTCATTTCTTAAA
CAGTGACTTSCTTTTGGTTCCAAGTAGCAGAAAACGCAACCAACAGTGGCTTAAACCATGACAACTATTGTTAACTTAGTAAMATGTTTAAAAGTTGAAG
GTCTGCGGCTCAGTGGTGTCTCCAGGAACATAGAATCTCTTTTCTTTCCCCTGCACCAATCTTAGCATGTTGCTTTGTATCCTTCATCTTGAATCTCATG
GAAACAGAACGGTTGCCACGAGTCTATGCATGATGAGATCACACAACTGTATTCCAGAGGAGGAAGTGAGGGAAGAGGGCAAACGGGTTCTCCTCAAGAG
GCTTCTGTTATCAAKGAGGAAACTTATTCCCAGAAATCCTTCCAGTGGACTTCTCACATCTCCCTGCCCAGGACTGGGCCACATGACCACCCTCAGCTCT
AAGGGTTAGGAAAGCCAGTGTCTGGCAATAGGGAATGGAGCTGCCATTTGGCTTGGCCCAACGATAGCTTCCACCAGGCTTGGGTTCATTGCTGTCTGAA
CAAAATTAGGGTTCTTCTTGGCAAAGAGAAAATAACTGCCATGGGTGTGGCAGTAACTTGTGTTTTTAAATGAAGTAATGATAGCAAGCATGGGTTATGT
GTTGCTATGTGCCAAACCTGTTCTAAGCTTTACTGAGGCTTACGCACAAACTCACCCAGTCCTCATAAAAAGTCTGTGGCATAAAAAGTCTGTGCTCTTA
TCATCATTTCCATCATATGGAGGAGAAAACTGAGTCACAGAGAGATTAAATCACATTTACAAAATTACTTAGCTAGAAAGTGACAGAGCCAGGAGTCAAA
CTTAGGTGGTCTGGCTGGCTCTCTATGCTATACTGCCTTCATTAGGTAAGATGATAAAATACTTCAGGTAGCACACAGTAAGTATTAGTACATGTTAGCT
GGTATTATTATTATTATTATTATTATTATTATTATTATTATTATTACTATCATCATCTCTTTTTTGTAACCACCCTGCCAATCAGACACATCAGCCTTAT
TAGATACTAGAAAGCTAACCCCTAACAGCATTAAATTAATTGCCCAGGTCACACAGTGAGTGAGAACCAAGCTCAAATGTAAACGAGTGCTGGGTGTTCT
CTCAAGTTTGAGAATGTTGATTTAATGGCTGCACCACTTACCCATGCTACTTTTTTTTTTTTAAGGTAAGGTCTCACTTTGTTGTCCAGGCTGGAGTGCA
GTGGCTCAATCATAGCTCACTGTAACCTGGAACTCCTGGACTCAAGTGATCCACCTGTCTCAGCCTCCTAAATAGGTGGGACAACAGGTGTGTGCCACAC
ATCTGGSTGATTTTTTATCTCTGTAGAGATGGGGGTCTTGCTATGTTGCCCAGGCTGGTCTCCAACTCTTGGCCTCAAGCGATCCTCTCGCCTCAGTTAC
CTATACTACTGATCCCGGACTTACTTTGAAAAAAAAACTACAATTGTTGAGGACAGCCAGAAATCAGAGAAGGACACCGGGAAAGGTGAGATGGTAATTT
GGGACGGATTTTTCCTTGTTCCGTTTTAGCTTTTGAGCTGCCTCTGTTTTCTTGGATCCAGTCTTTTGCAAACAGGATCTCTCATCCCACCTCAGGAAAG
GCTACCCATGGTTCTTGGTGAATTAGAACAGGTACAGTATTAAGCACCTACTGTATACCAGACCTGGCTGTACACTGTCCCACCTGGTCCTTGTGGATAA
TCTACAGTCCACATCCATTACTTTTTCTGTGTTGTGAGATGAAGGGAATGGAGTCCTCTAGCCAGAGATAGTGGTATTAGAACATTCTGGATACCCAGGC
AGAGACGATGCCCTATTCTCCGCGTTAGCCTCTCTGCAGTGTTCAAATATTTAATAAAAATAACAGGCATGGTCAGCTGATCTTACGTTTGAACAATTCT
GGATTTATTTTAAAGCAAGATGTGTGGCATGGTTTTACTTATTTTTTTAATCCTAAAGGTCATCCGACTTTTCTTTTTCTGCTCATAGTCATGAGGCTTC
CTTATCTAAACAGTGATCTATTGTTCCAACCTTAGACCCACAGAGAATTTTTTTCCTTAACTTCAATTTTCACAGGACAGCTCCTCATCTTCCCATATTG
CATGAAAAGTATCTTTCAACAAGGGAAAAAGAAACTCTAATGAGCTTTYCCTAAATCTTCTTAAACCGAGTTCACTATAGAATATTTTATGCAAAAACAT
TGCCTTCTCTTAGGTTATGACATCTTTTCCTTGAAAAGTGATCAGGGCATTGGACAAATCCTGGCTAGCTTATCTTGTCCTTGCAGCGCAACCTCAACAA
AGAAATATAGATGGCACTTTAAAGGCTTCAGAAATCAATTTAGTCCCATAATCCATTTAGTTTAGATGTTAATGAAACTTGGTGGGTTTAAAAATAATGA
ATATTTAATAAGACATAAATTGAAAGACATAAACACTGTTGGCGATAATATAATGAAGTTAATAAGTCTTAGCCTCCCCCTCCCCAAATAGGGCGATTTT
AGGAGTTGCTGTGTTGCTTACTGAAGTTTGCTGGCTGCAACTTCAATGTGCCTTTAAAAACCTTAGTACAGTTGGGAACTGAGCTCTGGCAGATAAAGTG
TGCTATCACACTGTGTTCAGTAGCTGCAGACGGCAACGGCTCTTCCTAGCTCCATATCTTCCAGAGATTTGTGTAACAAACTCAGTTTCCTGTCGTTGAA
GGCAGGATGCAGCACGAAGCACTTCATTCCTTTTAAACAAAAAAGAAAAAGACATTTTGGTCGACACTCTCTCTGCTCTGGGTTTAAAGAGGGGCTTTAT
TTAATGATCAGGACCAAGCGTGTGATTACATGTGCTCAGAGCCTCAGACAATTTAAATGCCTTCAGGTTGGGAGTTAGACTTTTTGTTTTCCCCTTTAAA
AGCATCAGCACCAGGGCCAGCCCTTCAACTTGGTTCCTCCTTAGCTCTGTGGCTCGATCCTACCCATCGTCCACAACTGTATCTTTACCTTTTCACCCCC
TCAACTAGCTACCCTGTCTTTRGGCTTCCTGTGGTCCCTTTTGGTAAATCTAGAATCCCTCCTTTCTGCCATCACACCCAACAGGATCGTCCGTGTCACA
TCTTGGGAAATGTTTGTGTTTAACCTCACAGAAGCCAACGCCTAGCTAAAATGAATTGGCGGCAGGATTTTGAAAACAGCCAAGTATAAGATAGTCTGCC
TCCCAATTCAGCGGTGGGCTGTCTCTTGGCACTAAAGTGGAATTCAGCTTCTTATATCAGCTGAGGGGTGTTAGATAGATGGCCAGCTCRCTYTGGCACT
CAATACCTGTTCATACATAGTAAACAGGGGTTTTCTTTGGTTGGGCAGGTATGGTGATTTTGCAAGGTAATGAAAGGTTGCTCCCGGGGAATCTAGTCTA
AGARAATATATGTGGGGCCCAGAAGTGAGATCCTGCCTAGGAGGGCATGAGTGACATTTCATCAGTATAATGAGAASTATTGTTGTTAAAAATTATTATT
ATTTTTTTGTGCGTTTGTGTGCATGTTCAGAAAGAAGGGGATCARCCTGAAAGAGTCCAACCAATCGCATCATCTACCTTGATCCATTCCGACCTGACAT
CCGTTTATGGCACCGTGGTAATGAACAGGACTGTTTTATTCTTGGGGACTGGAGATGGCCAGTTACTTAAGGTTGGTTTTCTGTGCCTTCTTCAAATGTC
TATTTTAATGGTGATAYTTTGTACTTTAAARAAACATTTTTTTAATGCTTCTGGGTTATACATGAGACCAAACCAAGAACTTCATGAACTCCTTAAAGAC
CCCCAGAAATGGCCTGGAAGAAAATCTGGAATTCTGTATGTAAGAATGCCCCGTAGCCATGTAATGAAGTATCAGCTACCTTGCTGCCCAGGAGTGCACC
AAGATGTTTTTCCTTCCTTACTCATAAGCCAGCTGGGTGAGGTAAATGGAGGTCTGGTCCCTACCCCAACCCTGACTCACCTTCCCAAGACATGTAACCT
TTTAGTTCTAGCTCCTTTATCATGGAAATGTACAAAGCACCTGATTTCTCACAACTTGAAAGAGATGAGAGATTATAGGGCTTGAAAAGAAGAAAAAACA
GGTGTTCTTTCCCTCCAGCCCACTTACCACCCACAGAGGGGGTTTGTTTTTTGCCCTTTGTACCCACACACACCACAGAGAGGTTAGAGATCTAAAATCC
TTTGAGACTCCTCTTGACTTTTATCTCAGAGGACTATTTYTTCTCCACTGTGTGGACACACCCCGGTCAAGTGCAGGTTTTTATTCACTTAGGAGAGGGG
AAGAGGGGAGGAGGAGAAAATAAAATCAGAGATACCAAATGACTTGTCTGAAGTTATCTAGCGTTCATCTTATCAATGTCATCAGCAAGCATTTATTGAA
GACCTTCTGTGGTCTCCAACAACATTCCTGGTCAGGAACTGCACCATTTCTATGACTAAAGACTGAGATTCCTTGGCTTCTCTGCAGCCATCCATTTACT
CTCAGCTCAGATTTTTAATYGAGTAATGGTAGATCTGTTTCCCTCAACTGATCTCCCACAGATAACTCGCTGTGTGACTTTAGGTGAATTGCTTAACCTC
TCTGAGCCTTCATTTCCTTACCAGTAAAATACAGTTCTACTAGACAACCCAGAAAAACGCTTTCCTCTTCTGAAAGTCTCTAATTCTGTCTTCTGCACAC
GTATTCCCCACCATCCCCATCCCCAAGCCAAACCTATTTACTTGCTCCTGTTTGATCCTGTTTCCAAATATGATCCTGTTTCCACACTTGCTCACACTGT
ACCTCCAGCCTGAAATGCTTTTTTCTTTTTTCTCTTATTTACGGCACCTTATGTGTCTATGCTGTGGCTCAGCTCAAACCCCACCTCCTCTTTGATGACA
TCTAGGCCTGGAGTGACCTTGCTCTCCTCTCATTTCCTGAAATACTCATGATCTATGTCATTCTTGTGGCTCATTCCAAATGTCTTGCCTGGAGACCTCA
CCTTTTCACTGGTGTCTGTCTTGCCTTCCCAACTTGATTTTAAGCCTCATGAGAAGGGGGCCATGAATTCCCACAGCCTAATACAGTGCTGAGTGCCTGG
TAGGCATTTGATTTAATCTGTTTTCTTTGGAGGAAACCCAGTAACATATGGGAGGGAGTTTGTTTGTATACACATTCTTTTAAAATATACATTGATCATC
TTTCCTGTTGTGTTAGCTTTATTTCCTGGGGAAGGGTAAATACCCATCCATCATTCTACACAAGTCACTGGGTGACRTCTGTAGCTCCACCAACCTGGTC
AGGCTTATTGGACCCATTTGCCTGGCRGGAGTTTCCATCAAGCCTTTCTGGGCCTCCTCACCAATTATCTCTTCAGATTTGGGATGTTTTTGATGAGTGT
TTTGACAAGAACACTGTTTCCCCAAAGCCGAGCCAACCAAACCGCTACATGGTGAATTGGAGGTGAAGGAACACTCGTCTATAAATAGTTCCCCATGGGA
TGGCCTGGTTTTGCCTGTCCTGTGTGTTCACCCAGCAGCCTGCATGCCGCTGGCCAGCTTTTAGCGATGTTGTGGCAACCAGGGAGTGGACCAAGCTGCA
GCTTCATGCTGCTGAGGAGGCCGCAGCCGACCGAAGTCTCGCTCTCCTCAGGATCTGTATGGGGTACCCATTCAGAAGCCACCTGTGTGGCCTCGTTGTT
TTTTTCAAGGTTTGAATAACAAAGGCAGCTTTTTGTTGTTTGTTTTGTGACTGCTAACATTTACACAGTGCTTCCTAGATGCCAAGGGACTCTATATCTT
CTACCGAATTCAGTCCTCTCCATGACACAATGGGGCAGGCCTACTATTCCCATTTTACAGATGAGGGAATCGAGGCCCAGAGAAATGGGATGATTGTTGT
TCAAGGTCACACAGGGGCAGAGCAGGGATTTGAACCTGGAATGACTTCAGAGACTGCACRAAGATCCCCTATGCTRCACTGACTTTGCAACCTCTGCCGC
ACACATTGGTACTACTCTCTGAGGATTCCGGGGGCACATGGGAGACATGCAGATAGGGTTCCATGCCGTGGCTGGGGACACATGCTCCTGGGGTGAGTCA
GCCTTCCTAGAGGCTCAGGAAAGAGTCCCAGCTTGAGAATAAGGCGGACCATCTGACTGAGGAAATACCTCACTGGCGTGGTAACTTCTTGGGAATTAAC
ACCCACCCCCCAAGCCCCCAATAAGAGAGAAGTTCTCTCACTCAGGAGAAGGGTGTGAGGGATGAACTTGAGCTGACTTGCCCCACCAGGCTCCCTAGGG
CAGCTCAGTAATGCCCAAGCCTCTCCCCTGTATCCTGTGTACAGATTCTTGGATGTAGCCCCTGAATTTACCCAGAATCCTGAAGACCCAGGATCGTGTG
GATGATTTGGAAACTACCGATAATCCTCAAATCCCTTTATTCAGAAGCTTTCAGCTTCTCCCTTGCCAAGGCTTGTCACCAGAACTGTTAGAAAGGATGA
ACACTGATAGACACAAGCTTGGCTCCTTAAGCCACAGCGTGGGGGAACTAATGAGCGGCAAAAAACAAAACTCAACCCAACGCAGACAGTAGGAGGAGGA
GAAGAAAGAGGGCTTGGATCAGCCACAGCCTGACTCATCAGTTTCTGAGTGATCATGAGTTGACGGCATTTTGACATGTGCCAGGCACTGTTGTGTATAC
CTTGTTGAATGAGAGTCAGGAAACAGCAATTGGGGCCCAACTGCTGTTTTTTACCACCACCAGTAAAAACCTGACTTCTTAAATCTCTGCAAATCCTGTG
AGTTTTAATATAATTTGGTGCAATTTTAAGCCTCATGTTATTTAAATAATTTTTCCTTATTGTAAAGGTAATATATGCTCATGTAAAAAGTTGCAGAGTY
GTCGGGGGTGAGAGGACAACAAAGAAAAAATTACCCCTAATCATGTCATGCAGAAGCAACTGCTGTCAGCATTTTGGATTCTYTATTTATGTAGTTGAGG
TCAGGTTTTGCATCCTTTTCTTCAGTTAGTGAGGGAAAATGCTTACATTAAAATGTTATTGCAAACCCTTTGTAAAAAGTATTTTTAAATAACTATATCA
TATTCTATTATTTGGGTACATTATTTTGAACTTAAGCTAAGATACTGGATCACTTTTAAAGTATCTTTAAAGACATGCATTTTCCAAGGAAGAYGGCATT
ACCTCCAAAGGTAAGATTTCACTGATAATCTGTGAAGAAACTAAAGGCTACAGTATGCCAGTACCTTTACTGTCCTCCTTCTCTTGCCTATAGACCTAAG
TCCCTTTATAAGATTTTGGGGAAATAGAAGGAATTTAGAGCTCAAAGGGTCCTTTGAGAGCATCTAATCTGCTCTTTTATTTTATCGGTGTACCGTCCCA
TGGTCGTGAGGTGAGTTATGTCTAGTCACCCCCGCAGTTATTTCCCCATCCTGCTTCTTTTCGGAACATGATTGCATGCCGGGTTTTTTTCAGTCGTCAG
CATCTCCACTGAGATCAGCTGAAAAGTATGGTCACACTGAACTCAGCTTTGGGGAATTCACACTGCACGTGTTGCACAATGTATGCATTTCTGTAAACAC
ACACCGAGTCTTTCTCCAGATTATAGTACAGCCTATCATGTGGTTTGGATTCCTTTGAGCTGACTCTGTTGCCCATAGAAAATTGTCCTTATTTCAAAGG
CAGAATTGCATATTTTGAGCTTTTCCAGGTGGTAAAGTAAGTAATAACAGAATATGCATGAAATTTGAAATTTGTAACTTTATGCATGCCCATTAACCTT
CGTGTAAGCATAAAAGATAAGAAGGCAATGGGCAAGGAAGAATAATCGCTAACATTTCTGAGCTCTTMCTGTGTGCTGGGCATTAGAACCAGCATCTGCA
CGGGTTAACTGGTTTAATCCTTACCAGTCAATACTCTCACCATCCCCACTTTATAAATGAAAAAACCTGAGGCCTCGAGAGGTTAGGTATCTTTTTCAAG
GTGCTCTGAACCAAAATMATCTGTCCCAGAGCCCGAGCTTCTATCCCCCAACTAAACTGCATTAACTCTTACAGAGCTTAGTAGAGTTTGAGAGCTGGTT
TTTGTTATATTTCTTTCTAATACTGGGGTATAAGGGTTGATACCAAGATGCAGATGTTTGAGGTTTCATAAGAAGGGGCCGAGAACCCTGTGGTTTAGTT
TGTTCCTATTTGGGGATGGCTTCCTGGCAACCCAGCTGAGTGCAGAGCCCGCTCCTCTCTGAGCTGCGCGTAGTCCACGGGGGTCTCTGAATCTCCTTTG
GGGCCCCAGCTTTACCCCAGTGGGCTCCTTTGTAGGAAAGGTAGGAATTCTGTATTCAAGTTGCTGTTTTGAATGGTGTCAGCAGTAAAGACTAGTGTCT
CCCCGACCTCCCAGGGACTGCAGTAGGGTTCAGGATACAGGAAGCTATATCACATAGCTCTATCCTGTCCCCATATCCAGTCTTGAGGTATTTCCTATGT
GCTTGGGCTCAGACTGGTTACCTATGTGGCCCTCTACTCCCACTTAATGGCTTTCTTTTGTTTATTTTTTTTTCTTTTTTGAGCCAAGGTCTGGCTCTGT
TGCCCAGGCTGGAGTGCAGTGGTGCAGTCTCGGCTCACTACAACCTCTGTCTCCCAGGCTTAAGCGATCCTCCCACCTCAGCCTCTTGAGTAGCTGGGAC
TACAGACCTGTGCCCCCACACCTGGCTAATTTTTTTGTATGGACAGGGTTTTGCCATGTTGCCCAGGCTGGTCTCAAACTCCTAGGCTCAAGAGATCCTC
CCACCTCGGCCTTCCAAAGAGCTGGGATTACAGGCATGAGCCACTGCACACGGCGCCACTCAGGGATTTCGTTTATTCAAATCACAGCAAAATTAAACCG
GTTCCAAAAAGTTCTGTCTGAATTCAAACAGAAGCAAAAACTCTGTACTGCCTAAAGAGTCTGCCTTGACTCTGGTTATTGAAGTTTTTGAATGAATGTC
AGAGAAAAAAATCTTTTGTAAAGGCAAGCTGTACTATATACCCAGAAGATGTTCAAATAAGGAATAGGAGAACTTGGGGAACCTAGAACAGGACCTGGGA
CCGGAAGTGGTGGTGGTGGTGGGGATGACTGAGCTAACAGACCAAAAAGTTAAAACAGGAGGAAGTGTCAAAACTTGGAAGTGGGTTCATTGGTTGGCTG
TTTAGGATGTCATGTGAAGCCTGCTTCAAGTTCTCCCCACCTCATTAATTGCAATTTATGAGTTTGCAGGGACTCCCCAGTTTGAAACTTTTAGTCCCAT
ATAATCCACAAATCTAGAACCTGTGGTTCAGACTGTATGCTTCTCTTACTACCTACACTGCAATAAGTAGATTGGAAACAAAAGAGAAATTTGCCTTGAT
CTTTATATTTCATCTTTGTTACTCCTAACTACTGAGGCACATTAAATACTTACCTTGCTTTCTCCTGTGTGTGCATGTGTGTGTGTGTGCACGCATGCAC
AGGCATGCACGTGTGTGTATATGTATGCAGGCATGCACGTGCATATGTGTGTGTGAGCTTGTGTGTGTGTATGTGTGGTTTAAGTCTCCTTCCCAGCATT
TCTCAGAAACTGCTTATGGAAAAAAATAATAATAAATGAAAGGGTTGGCTTGTTTGCCCTTCAACTGGTTAGCCCCACAGAGTGAGGCATAGGAAATTAA
ATTTGGCATAAAATATTATAGCTTTTTGAACACCCGTGGCTTTTCCATCTCATGGTAATCGTAAAGAAAAAAAAATAGTTTTTTGTTTAATTTTTCTCCC
CCCTCATTTTCCTCACCATGATATCCTTCCTGTGGGTGATCTTGAACCTGTCTTACAATTGTATGGTGTTGAAATCTCCACTCAGTTAATTTCAGCAGTG
TAGTTGGGAGTTTTATATGCAACAAAAATCCCAAGGCTCGTTAATAGTCTACCATGAGGCTKCAGGAAGACATCAACAGAAACAATATGTTGACACGAAC
TGAAATTCTCCATCAGAGAAAATTTGTTTTCTACACAGGCTTCAGCTGGAAAAAGCTGAAGAGCCCTATAAAATCTTGAATGCTAATAGCGTCGTTTTTC
ATTTAATAAATATCTACTGGGCACCTTGTATGTGCCAGGCACTGTTCTGGGTGCTGAATATACAAAGGTGAACAAAACAGACAATGCCCTTGCTCTGCTG
GTGGGAAGAAAAAGACAGAAAACAAGTAARTGGATTAATCAGCGATAAAGACACTTCAGATAGTGCTATGAAGAAAATACAGTGATGGGTAGAGAGTGAC
AGAGGTGTTCAGCGGAGAAGTGATCAGGGAAGGCTTCTCAGAGGAGGTGATGTTGGAGACTTGAAAGATAAAGGAGTATACAAGCATACACATGGAGAAG
GTTCAGATTGACTTCAGATTAGATCTATATTAAGGTCGTATCCTGGAAGATAAAAATCCACATCGTGCCCAAGGATTGTGTGTGTGAATTGGATGAGATT
TCTCTTATGCAAAATTCAACCCGTTTTGGGTTTTTGTGACTCATTGTTACTTCCTGCATTGCTTCACTGATCATGTTCTTTTTCCGAGGCTGCCCACCTA
AACTGAGCTGAGGAAGGAACGTTTCCCTTGCTCCAGTCTTGCTGGCTTTTGTCTGTGTGTTGATATTCTCCTGAAGTTTGCAATTAGAAAGTCCAAGTGT
TCCATTAGTGCCTGTGGGCTGGGGCTCGGGCTAGGTGAGAGATGATATGAACACTGACCTGTCCTTTAGTCATCTGAGAGAGATGAGACTCCAGGGGCCA
CGGAAGCAGAAATCCCTCACCCCTCTGTGTAGCACATTTGGGACCTTTGTGGTGAAAACTAAAACTTCCTCTTGTCCTGTCCTCAGGATTATGGAGAGCA
TTGTTTGCATAATCTAGCAAAAAGAAAAACAATTTGACTCACTCACCCTCAAGGATTTTTAAATTTAAATGTTATATATTTATTTTTAAGGTAATACAAT
GATATTGTTTAAAACTCAAAAGAACCAAGAAAATATTCCGTGAAAGGCACCTGGTCTTGACTTCCAAGGCAACCAATGATAGTAGTTTCATGGGTATCTT
TCCAGAGATAGTTTATATCTGTCTACAGGCAAAAGAGTGAAGATATTCTTCCTCCCTTTTGTTGAAACATAAAACACAGTAAACATATATGTTATATATG
TAAAAATACCTGTATATGTAAATATGTCTATATTTATAGATATATGTACATATTTCATATAACTTTAAATATAACACAAAGAGCTTTCTAATTATTTTTA
TAGCTAAATAGTATTTCCTTGTTTGTACTATAGTTTACTTAACCAGTTCCCTATTGCTGGAGATTTAAGTTGTTTTAATCTTTTCTTTATAACATACAAT
GCTACAATGAATATATGTCATTTCATATATATGTGTGTGTGTGTGTGTGTGTGTGTATATATATATGTGTATATATATATGTGTGTGTGTATATATGTGT
GTGTGTGTATATATATGTGTGTGTGTGTATATATATATGTATATATATATATACGTATATATATGTATATATATATACGTATATATATATGTGTGTGTAT
ATATATACATATATATATATATATATATATGTATATATATATGAGGGGCTGCAGGGTCCAAGGGTATGTCCTTTGTAATTTTGATAGATGATGCCAAATT
ACCTTCTAGAGAGGTCTGGCTTCCACCACTGAGGAAACATACTAATTTAAACCCAGCATCTATGGCTATCAGGACAAGCTTCAGTGCAAGCCACGCTAAG
TAGCTTTTTCAGGAAACTGATTGGTAAATCCTGGGCCACAGAACTTTTTGATAACTTGTAAAAAAAGAAAGAAAGAAAAACAAAGAAAGAAAGAGAGAGA
GAGGGAGAAAGAAAGAAAGAGAGAGAAAGAAAAAGAAAGAGAGAGAGGTAAGGAAGGAAAGGAAAGGAGAAAGGAAGGGAGAGGAGAGGAGAGGAGAAAG
GAAAGGAAAAGCTTCCTTGCCACAATTCAGAGTTCTAGAGAGAATATTGATGCTTCATTTCCAAGGTACCAAGTAAATAAATCAATGTTGCACCCAACTA
GATCTTGCTGACCATCTGTATCAATGATGCTCCAAGAGTAAATAAAATAAGCCCCCAATAAAAACTGCAGTGCAGCTCCTAATTTACGTAAAATGGATGA
GTGGTGGTGTAAAGTATGTTTTTACTTTGTTATTTTAAAGCAAACCCCACAGACATGATGTCGTTTCACCTCAACATATTTCGTTATGCATCTCTCAAAA
CCTACAGTTGTTTTCTTAAATAATAGTAACCATAATGCCATGATCACAGCTAATAAAATTATCAGTCATTCTTTAGGATCACTTACTATCCAGTCTGTGT
AACTAAGTATTCCCAATTGATTCAAAAAGGTATTTTAAATGGTTTTGTTCAAATTGGTATCTGCACAAAGTCCTCAAACCAAATTTGGTTGTTCTATTAT
CTAGAGCAGTCTCCTCCCTTACTTTTATTCCCTGCCACTGACTTAACTGAAAAAACCAGGTATTTTGCCCTATAGAATGTCTCTTATCATGTGTTTGGCT
TTTTGCTTCCTTGTGGTGTCATTTAGCTTGTTCCTCTACTCCTGCTTCCTAGTGCTAAATGGAAGTTAGTGCTAAAGACTTGACTAGATTCAGTTTCAAC
TTTATTGGCAAGAATACATTATGGGTGGTGCTGCCCAATGATGCTTTTGCCATGATGAATTCCTGAAGAGATACCAGGGCAGCAGCTTCTCTTCTCTTGA
CCCTTCCTTGATAATATTTCTATCAGTGTTTGTTTAAAAAAAACAAAAACTGGCTTCCTGTTTCTCTTTCCCTATACAACTGCTTTCCAGAACCAGATCA
ACTGAATCTGAGCTGATTAATACAGCTAATGAATTAGAGACGGCAAATCCTGGCAAGCCCATACCTTGGTCAGTGCCTGTCCCTTGGCTCCACTTACAGG
ATTCTGTAGAGCAGTGTTGGCCAAGAGAACTTTCTGTAGTGATAGAAATGTTCTACATCTGTACTCTCCAGTATGGTAGCCAGTCACCTTAGGTAGCTAG
TGAACACTTGAAATGTTGCTAGTGTTTTTAATTAAATGTAAATTTTTAATTAAATTTAAATAGCCATTATGTGGCTAGYGGMTGTCATATTTGATAGTGC
AGCTATAAAGTCGTTTTAAAATGACTTGAGACACACACCTTTCCCACCTCCCTTAGGACCTAACTGCTTCTGTTTTAAAAAGAGCTTTTAAGAAGTCATA
TTTCATATGTTTGGTTAGTGAGATTGACTTTTACAAAGCTGCTGCTGAATTTGATGAGCAGTCCAAGGGCTTCAAGTGAGCCACTATTTGCACCAAATCC
ACCTGGGCTTGGCCCAAGCAGATGATGGAAGGAAGTCACTGATCGCAGGGCAAAGCTAGACTCGGGCCCAGGTCCTGGAAAGGAGAAGTGAATGCGGGAA
GTTGCTCTGTGCAAAATTGATAAGAAGCCTTTGGCTAAACAGCAAATCCCTAACTGCCATCAGGATATGTGGGAACAGGCATATTATTGATTAGTAGATG
TGTGAAGTAGACTTTGTCCAAAAAGAATCTCAGGTGCCAAATTTTTCTTTTGAAACCATGCGCCCAATGTGGCTGATGTCTACAGTGGTAGAGATATGAA
TACAGATAATCTATCTGGATGTGTTCAAACTGACAAAATGTTGAACACCTTCACTTTTCAAAGTAGTGGGTACAAATTGTGTTAGGTACAAAGAAGATTA
AAGGTTAGGTACAAAGGTGATTAAGACATGGTCCCAGGCCAGGCACGGTGGCTCACGCCTGTAATCCCACCACTTTGGGAGGCAGAGGCGAGCGGATCAC
CTCAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCGCATGTCTGTAGT
CCCAGCTATTCAGGAGKCTGAGGCAAGAGAATGGCTTGAACCTGGGAAGCAGAGGTTGCAGTGAGCCAAGATYGCACCACTGCACTCCAGTCTGGGCGAC
TGAGTAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAATGACATGGTCCCTGCGCAAAAGGAGCTTGCAATCTAGTAACAGATTATTATCTATTGACTA
TTGATTATGTGCTAAGCATCTTTCATAGTTCTTATTTGATCCTTACAAAACTGTAATAAGGAAGGCACTATTAGCCCCATTTTAGAGATGAGGAAATTGA
GGCCTAGGGAGATTAAGTTACCAGTTCAAAGTAGTGCAGCTACTTAAAGGATGGAGGCAGGATGCAAACTCAAGCTTAAGCCACCATTATACTTCTCTAG
CACTATAGGATTYGAGTCTCCCGATGGCTCTTCATACCCACACTTCAAACCCTGCCTTCTTACCATCTCCTCTTGCTCCTTGACCCAAAGCCCTGCCATG
GCCTCCTCTCTCTCATCTACAGTAAAAGGCAGGCTGTTTACACAGGCCCACAAGACCCTTGATTATCATTCCCCTGTTATCTTACTATCTTACTGTTCAC
TCCTCTACCTCTCTCCACTGAAGCCACCCTGGCCTCCTCCCATTTTAGTTTCTTTGCACTGACAGGGCTGCTTTTAAGAACATGTTTCATTCAAGTATGA
AAATAACTCATCTCCTGCAAGTCTAAATAAATATCACCTTTTCAGTGACACCTACCCTGAACATATATTCTCTTAACCCCTGACCCCACTATATTTTATA
ATTTACTTTTTTCTTATTAATAGTCTGCTGTTACTCACCCCACCATACACACACAGGAATGTAAGTTCTATGAGGTCAGGAGCTCTCCCTTCCCCATTTT
GTTCACTGCCATTTTTCAAACACCCAGAACAGTGCTGGGTACATAATGGGTGTTGGGTAGATGTTTGTTGACTGAAGATGGATGAAGCTCAGGTGTGTCC
AATTTCAAAACCACTGAGTACTGAGTCACACTTGCGTATATTTTATATGTGAACACAAACCTACTTGTCTGTATCTGCCAAGTTAATCTGGGTCACTTCT
AACTGTATGATGATCAGAGTATCCTGTGCAAATACATGTGGGAGCTACTTCCTTTAATTTCCAGTCTCTCTTGAGACAGCACTAATGAAGCTGTCACTTG
TGGCTTCCTATAGGGCCAGACATGGTCAGAAATTGTGGTCAGCCAGCTTCCAYATATGAGGATACTACCCCAGCCCTGAAGAGCGGCTTTTTTTGTTTGT
TCATTTTTGGTAACTTTGCCTTTACAAAAGAAGAAATATTATGCTTGTTATTACCAGCCTTGTTGAGGACTGAGATGTGGGAGGATGATTAAGGAGCATG
GTACCTTAGGCAGTATTTGTAGTGAGTGAAAAAGGATGTAGCTTTATGATTAAGCTACAATTTTTGCCACCCTGCTATTCAAAGTGTTGAATAGAGGCCG
GAAGTGGTGGCTCACACCTGTTACCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGATCAAAACCATCCTGGCCAACGTAGTGAAA
CCCCATCTCTACTAAAAAAAATTAGCTGGGTGTGGTGCATCTATAGTCCCAGCTACTTGGGAGGCTGAGGCAGTGGAATTGCTTGAACCTGGGAGGYGGA
GGTTGCAGTGAGCCAAGATCATGCCAATGCATTCCAGCCTGGCRACAGAGCGAGATTCYGTCTCAAAAAAAAAAAAAAGTATTAAATAGAAATCATGTTT
CTCTTTTTGAAAAAAAAAAATAGGTTATTCTTGGTGAGAATTTGACTTCAAATTGTCCAGAGGTTATCTATGAAATTAAAGAAGAGACACCTGTTTTCTA
CAAACTCGTTCCTGATCCTGTGAAGAATATCTACATTTATCTAACAGCTGGGAAAGAGGTAGGTAGAAATACTAGTTATTGCTTCTGATTTATGAATAAA
AATGGTTTAATTGATGTCATTATCTAGTAGCAAAGCTTTTACTTTGAACTACAGAGTTTAAGCAGTGCCCCAGGCTTTGAGGAGACCCGCAGTGGTTCAC
AGGCACGGAATTAAAAACCTTACTGACTGTCAGTAAGTAAGCAAGAAATATTATCTATTTAGACAATTTTATTATTGGCTATATTTCCAGTGCCAAGTTT
TTCAGAGGAGGGTGTGCTTGGAAATGGGCGCATAATCAGCAAGGTAACTGAATTTACACATTTATTGTGTGGGCACTGAACGGTTAGATGCATTTATGAA
TATACCCAATGGGACTGGCTTTGGAATTTGGGGTTAATATCAGGCCACAGTCTCATACACATTCATGAACCAGGAAATATATGGTACTCCCCCTCCCCCT
CTTCATTTATCTTGCTGTTTTGGCTTTTCTTTTGCTTCTGCTTACTGAAATAAAAGTAATATATTTTTATATTTTCTTCATCTTTACCAAGTGCTGTCAC
CAAGGGAAGGGGAAAAGAAACTAATTGTTAATGAGTCTCTACTATGCATTAGTCACTATTCTTTGCATGATCTCTGTCTAGGTGCATAGAATTGTGTACA
TATACATACACACAAGTGTAGAAAACAGTGTTAATGAAATGTGTTACTGACCGGGCATAGTGGCTCATGCCTGTCACCCCAGCACTTTGGGAGGCTGAGG
CAGGAGGATCACTTGAGGCCAGGAGTTTAAGGCTGCAGTGAGCCATGATCAAACCACTGTACCCTAGCCTGGGTGATGGAGCAAGACCCTGTCTCAAAAA
AAAAAAAAAAAAAAAAAAAAAGGCTGGGCATGGTGGCTCACACCTATAATCCTAGCACTCTGGGAAGCCAAGGCAGGGATCACCTGAGTTCAGACGTTCA
AGACCAGCCTGGGCAACATGATGAAACCCCATCTCCACTAAAAATACAAACAATTAGCTGGGCGTGGTGGTGCATGCCTGTAATCCCAGCTACTTGGGAG
GCTGAAGAACAAGAATCGCTTGAAACCAGGAGGTGGAGTTTGCAGTGAGCTGACATCACACCACTGCACCCCAGCCTGGGCAACAGAGTGAGACTCTGTC
TCAAAAAAGAAAAAAAAAAGAAAGAAGAAGAAAAAGAAATGTGTTATTAATTTAATAAAAATAAATGTGTTATTAATTTATTTTATGTGAAGAATCTAAG
ACTTGGAGAGGTTAAATAACTTGTTCAAGAANNNNNNNNNNNNNNNNNNNNAGAGGTTAAATAACTTGTTCAAGAATATCTGTATCTATCTATCTATCTA
TCTATCTATCTATCTATCTATCTATCTATCATCTATCTATCTATCTATAGGTTAGCCTTTGCAGGGCTGTGACAAAAACTCAACCCTGATTCTAAAGCCT
CTGATAAATGATATTAAATCCAAAATTTGTGAAAACTGGACATTCCCTGGCTCAGTGGTTTTGACCTATGACCGTTTGAACATGGAAAGTGCAAAGAAGA
TAATTGAGACTTACATAATTATATAATGGATGTAACAGATACTCTCAGCCCAACCCTGGTTTTCCATTCTTTTCCTTTCAGTCATTCTAAGGAAAATAGC
AATGACAGCAATCTACATGTGCTTTTTGAGTCACAGATAAGATGTGCAAGCAATTTGTAGTTTCTGGTATTCTTATAAAGACGATACTGTTCTTTGCACA
TTGAAAAGTCAGTTATATCAAAATGACCACACTGAGATGGCCACATCTTCCCACAGAGCTTGTAAACCAGTCCTTCACCATATAGAATCTCCTATGCCAA
TTTGCTTCACCATGCAGACACTTTGTATTATGTTTCTTCCCTGGGGATCCCATCTTTGAAAGACTTTTGTCTACCCAACAAACTGCACATATTAAGTAAC
AGTTCCCATTCCCAGGGTTTATTTATCAAGGGCGTCTCAAAACTGCCGGTCAGAGTACTGACTGTGTTCCCACATGGAGCTGATAAAATTCCAACCCAAA
GCAAAGAAACTYGATATCTTCCTTAATCCATGCGYGTKTTTCCATTCAGCTGTCTGAAATATTGCAAATAGCTCATAAGCCCCCATTACTTCCTTCATGG
ATAGTAATGGAACCCCAGAACTCAGGACCCCAGGCTGGGAACCATTATGAAAAGCCACCAGTAGTTGATGGGTTCCCACTTTCTAGAAAGCAAAAAGTTC
TAGCCTCTGATCATTCAAAGCCTGAAGTCCTGGGAAGAGTTTTTGACTGGGCATCAAAGCTGGTTAGCCCTGCATTCTTCACTGAGGATTACTGCTAGAG
ATCCTACTGTTTGAACTCTGGCTGAGCAAATATAACGCCTAAAGAGACAAAGTCCAAGGAAGGCTCTTGGGGAGATAAGAACAGCCAAACTAATAAGCTA
TGGGATATCCATAAAATGGTATGATACGGGGCCGCTAAAAATAATCATATGGAGATGTAGGCATTGATATGGAATAGTCACTACGGTCTGTTATTAAATT
AGAGGGCAGGTCTAATGTAGTATTTTTAGTGTCCTCTCTCTCTCTCTCTTTTTTTTTTTTATGGAGTCTTGCTCTGTCACCCAGCCTGGAGTGCAGTGGC
GCAATCTCAGCTCACTGCAACCTCCGCCTCCACAGGTTCAAGCAGTTCTCCTGTCTCAGCCTCCCTAGTAGCTGGGACTACAGTCACACGCTACCATGCC
CGGCTAATTTTTGTATTTTTTTTTTTTTAATAGAGACGGGGTTTCACCATACTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTC
AGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCTCGCCTGGCCCTCTCTCATTTTTTTTTGAAACAGAGTCTCACTGTCGCCCAGGCTGGAGTGC
AGTGGTGTGATCTTGGCTCACTGCAACCTCCACCTCCTGAGTTCAAGAGATTCTCCTGCCTCAGCCTCCTGACTAGCTGGGATTACAGRCGCCCACCACT
ATGCCCAGCTAAATTTTGTATTTTTAGTAGAGACAGAGTTGGCCAGACTGGTCTCCAACTCCAGGCCTGAAGTGATCTGTCCACCTCAGCCTCCCAAAGT
GCTGGGATTACAGGTGTGAGCCACCACGGCCAGCCAGTGTCCTCCCTCTTATACAGAGTTATATTTGTGTGTTTAAATAGACTGAGTAATAGTTCTCAGA
GAATGTTCTGGAGACCCATATTCCACAGAATGCTCTGAGCAAAAGTGGTCCCAGAACCAGCTGTTACTTACTATACCCCTCCTGGAATACTGTGAGGCTC
AGCATAGTCAAAGGCTCCGAGAAGCCCTGTGCTAAGGAAACCCGTTTTGCTTTTTCAGTCTGAGGTTTTATGTTTGCTGGATCATGGAGCCCTTTTCTTG
CATAATAGCAGTAACCAATACTTATTGAACATTTAGTACCTGTCAGACAATAGTTCATAATAACCCCATGAAGTCGTGATCCATTTTACAGATGAGGAAA
CAAGGTTAGAGAGATTGCATGACACTTATTAAAATCCATCAGTGTTACAGAGGCATTTGTGAACTACAAGGAAATACCTCYATTCTGGTTAATTCCGGCT
CAGGATCACGGGCTGCCAGCTGCATCTGTCAGCAGTGTTGGGGACTATGAAATGGAAGGGCGTGGTTATCCYCCATGAAGTCAACTTGGAACTGAAGGAT
CCAGCTCAGGATAGTCCTTGTTTTCCTCACAAAATAGAGAAAAATAGAGAGGTCCCTTCTAGAACTCCTTATTTCTCTAACCTGCTAAAGAAGTTATTTA
TACTATCTAGCATGTACAACTTCCTGGCATAATGAGTTCCACAAGTTCCCTTACTACCTGCTGTGTGGTTTTGCCTGCAGAAAGTGCTCTGTGTGATGCT
CAGTTACTCCCTGCCTCTCACCGCCCTACTTGCAGGCTCTGACTGGCTGCCTAGATGTCTGGGTCTGCCCAGCTGGGGTGCCCTCTTTGTGGGCTGCTGT
TTCCTGACAATGGCAAGAGGCAGCTCTAGGGATGGGGAAATGATTTGACTACTCCCCCTGTTTCTTTTATTTTCAACTCCACTGGAGGGGTGTGAGCAAA
ACAAGCCAGGAGCTGAGRTGACGGCGCTGCCCCTGGCAGGGGTGTGGGAGGGCCTCGTCCCTGGTCCTCCTCGTTTCCACATTGAGTGCCAAACTCCTGC
TGACACTCCTGGGGCAGAGCCTTTGTTATTCCCTAATACTCATTTCCAAAATGCCATTGGCCACATATGGACTGTCTCTGTATGAAAACCAGGCAACCTG
ATTCCATGATCCGTATGGAAATMATCATTAGCAGATCGGAAACCCAACTGGGTGTCAGACTCACCTGAGAGAGAGCTCTTAAAATACAGATTCCTGGCCA
GACACAGTGGTGCAYGCCTGCAACCTCAGCACTTTTGGGAGGAGTGCTTTGAGCCCAGAAGTTCAAAACCAGCCTGGGCAACGTAGTGAGACCCTGTGTC
TTTAAGAAAAAAATCTTTTAAATGAAAAAATACAACTTCCTAGGCTCTGCCCCCAGACTTAGCGAGAGTCTCTGCGGCAGAGGCCTGGGAATACGCACTG
TCAAAAGCTCCCCAGGTGATTGTGATACAATGACTTCATGTCCTAGATCTTGAGACCCACTGCCCAGTGCCAGTATGGAGGTGTTGAGTTCAAGTTGATA
AATAGGCTCTTTTTGGCCCTTCATTAGATAAGGTGTTGTAGTTTTCCTGCTGTTGCTTATAATTCCATCTGAACCATTGTCCTCTTTCCTTTTAGGTGAG
GAGAATTCGTGTTGCAAACTGCAATAAACATAAATCCTGTTCGGAGTGTTTAACAGCCACAGACCCTCACTGCGGTTGGTGCCATTCGCTACAAAGGTAT
CTCCTGAATTCTTTCTCACCAACTCGCATTTTYGAAAAAGTGTCATGCGGCAGAACACTTGTTGCCCTACTTTAACGATCCATTCCAGTGACCTGAGGGA
ACTGATCTCTTCCTCGACTAAAATCTTGTTGTGCAATCCTAATGAATTCTCGAAGGTGTTTCCAGCGGCGTCCGTGCTATGCAYTCACTGGACCCGGGAG
CTCCCCAGTCTSGGGGCGGGAGGGGCAGGTGTGCAGCCTTCAGGAGAACGGGAGAGAGCAGGCAGGTTTGGCTTTTACTTTCTCCAGAGTTCGCCAAGAC
TCAAGAGAGAGGCAAAAGGGCCCCCCCTCCGAGAAGATAAAAGAATAGAGATGTCTGAAAATTTTTCAGCTGAATCCCCATCATGTATGTCATGTATTCT
GTTCGCTCCGCAGAAGCCTCGTTATTGATGGCGCCGTCTCCTAATGCGCCGCGCAGCTGTGGGCCTGATGTACAATCTCAGTCTCCGGGCAGAATCTGCC
CAGCCTGGTCTGGAATGACGATGCTCACGACCCATCTAGGCTCAGGGGCGACTCGGAGCGGCTTCCCCGCCATGGCAGTTTCCTAGCGTCGCTGGGCCCG
GCCTGGTTGGATTCGCCGTCGCCATGGCAACCCAGTACTGGGGCTCTTGCTGGAGAAGCAAAGGAGGAGAGAGCCTTCGCTGCAGCTCAGGCAGGAAAGA
GAGAGAGAGAGAGAGAAAAAAAAACCCATAACAGTGTCTGTCAGTTTGGTGCTTTCAGTTTTTAAAGGTGAAAAGGATAAGAAAGAGCAGAGCAGGTGGA
GAGATGCTGAAGGCTGAACCAGGGGACAGTTTGGGTTTAGAAAAGAGCAGGAGGAAGAGAATTGGTGACTGAAGGGGGAGRCAGCCAAGAGAAATGAAGG
GAGAGGGGGAAATGCAATACAAGCAAGAGGTTTAGGAAACAAATCAAAAATACGGGGATGGAATTAATTAAGAGTTCACGGGGGAAGGCGCAATCCGAGC
TGCAGCAAGAGGAATAATTGCCCCTGCCATTTGCTACGCTTCCTTACCGGGCTGTTTCCGTCAGAGTCACTGGCAGACAAACGAAGCAAGGGCCAGAAAA
ATGCTCATGAATAATTCACTGATCACGAACGGGRTTTGTTTGTTGCACACTCAGTGAGCAGTCTTGCCATAATCTTTTAGATCCATTCATTTATGTAGCA
TCCCTGTCTGTATTTGTAGAGCTGTGTACAGGAGTCAATTCGATAATGGTGGCGATGATGGTGGTGATTAAATAGCCACATGGAGCTAGCGGCTAACGTA
TTAACAAGCTCAGCTCTGGAGCTTTTGGGAGATCTCCAAGCTGGTGATATGAATTTGGGAGTTGGTAGTATTTTAGATGGTACTTAGAGAAGCCTTAAGA
CCAGACGAAGGAGTGAGTGTTGATTGAGGAGAGAAGTTTGAGAACTGGGCCTTGAGGGGCTGTGGTGTTTAGGGGTTGGGGAGAAGGAGGGGAAACAGAA
CAAGAAATAAGGAGGGAGCAGTCAGAAGGGGAAGAGGAAAAACTGGAGAGGGTGGTCTCCTGGAAGCCAAGGAAAGAAAGGAGGAGGAAGTGATCCACTG
GGTCAGATTCAGCTGAGAGGTCAAGCAGGAGAAGAAAAGAATGGATCCTTTGCACTTAGCAGGTGACARTGGGTGACTGCTGGGAATGCCATGGTTAGGA
GTGGCGCTAAATCCACAAGAGACAATGGGAAAATAAGACCTTAAGAAGGGACAGCTTAGAGAAGCTTTACTGAGAAAGGCAGCTGAAAAAAATGAAGCAG
ACACTGAAAGCGAAAGTAGAGTCCAAAGAATTTTGTCTTTTTGTCCTTTTTTTTTTTTTTTTTGAGATGGACTCTGGCTTTGTCTCCCAGGCTGGGGTGC
AGTGGCATGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCCGATTCTCCTGCCGCAGCCTCCCGAGTAGCTGGGATTACCGGTACGTGCCAC
CATGCCCGACTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGTTGGTCTCGAACTCCTGACCTCAGRTGATCCGCCTGCCTCAG
CCTCCCAAATTGCCAGGATTACAGCCGTGAGCCACCAYGCCCAGCCAGTTTTGTCTTTTTAAGATGCATGAAATAACAGTGCATGTCTGCACTGTTGGGA
AAATTCCAGAAGAGAAGGAGAAAYGGATGATACAGGAGAGAGAAGGGTTGTGGAGTGTTCAGTCTTTCAGCAGGTGGAAGAAAATATGACTTGGTGTGCC
AGTAGGGAGGCCAGCCTCAGACAGGAGCACTGGCCCCTCACCCTCAGTGGTAGGAGGGAAGGTAGGGACTCTGGGCCCAAGCATGGGGAGGTGGCAGAGG
CCTGTGTGGTGTCTTCTCCTATTGCTCACATTATTTTCAGTGGCCTACGGCCATTGAGAATGAGGTGAGGGAGGAAGCACTGGAGGTTTGAGGAGAAAAG
AGAGAGAAGGAGTGGACTGGAAGACTAGGAGGGAGAATAGAATAGGGAAATATCGAGCGGTTGCCAGGAAGCATTAGGGCCCACTTGAGGTTGATGGTCC
TGTGTTTGAAGTGAGAGCTGTAAGCATGGTTTTGTCTTTCTCAAGCTGCGTTCAGCTTTGGTGGTATAGCTGTAGACTCAGAAAAAGTTAGCTTTAGCCA
GTTTGGGGGCTTTGCCGGAAAATACATCAAGAAAGGAGAGAGTGGCCAGGGAGCTGAGGGAGCATGTAAGGAATGGATGATGATATCGATATGGATGTTG
ATTCATATAATGATGGCACTTGGGCTCTAAGGAGGGAAATAAGGACCTGATAGGGGTAGGGATGTGAAAAGGTGGCAGGGTCTGTGTTGGAAGTTSAAGT
TGAGTTTAAAGATTGTTAGGGGCAGGCGCGGTGACTCACRCCTATATTCCCAGCTTTTTGGGAGGCCAAAGTGGGTGGATCACTTGAGCCCAAGAGTTTG
AGACCAGCCTGGGCAACATGGCAAAGACCCCATCTCTACAAAAAATATGAACATTAGCTGAGTGTGGTGGTATGTGCTTCTGGTCCCAGCTACTCGGGAG
GTTAAGGTGGGAGGCTTGCTTGAGTCCCAGAGGTAGAAGTTGCAGTGAGCTGAGATCACACCTCTACTTTCCAGCTTGGATGACAAAGTGAGACCCTGTC
TCAAAAAAAAAAAAATTGTTGGAACTAGAGAATTGGAAAGGGGAATTATTGGACTGTGGGGGCTTGATATTGAGGTCATGGAGGGATGGAGTTATTGGCA
ATGACAGGGTCTGCCATATGATTGTCAAGATCATTGGCAGAGAGGTGTCAAGGAACTGAGGTGGTTACCAGAGTACTAAATGGCTCCATCATCTGTGTGG
AAATCGCAGTCACCAAGAGAGTGAGGAGCTACATATTCAAGGAACGAAGGGAAGTGGCCAGGGCTGGGGTGGTCTGTAATGATCACAATGAGGAGGGACC
TGGGGTGGTTTGAGCTGACAGCATGGGCTTTGAAGCTGGGGAGGAAGTGTTGGAAAGAGAGAAGAAGGATCTTCCAGAAGAGGCTGCAAGACACAAATAG
GACAGCTAGATGAGGGAGAGGAAGCAGCCAGGCCTTGAGAGGGGCCTGGGGAAGCTGTGGCCTCGAAGGAGAGCTGGTTTCAGTAATATTGAGAAGGGGA
AAGGAACAATCAGAGAAGAGGTTGAAGACATGGGGGCTTCTGTTGATAACTGGCTGTGAGTTATAGTCTTTTGTTTGTTTTGAGACAGGGTCTCATCCTG
TCACCCAGGCTGGAGTGCAGTGGTGCAATTACAGCTCACTAAAGCCTAGACCTCCCCAGGCTCAGGTGATCCTTCCACTGCAGTCTCCCAAGTAGTGGGG
ACCACAGGTGTGCACCACCATGCCCAGGTTTTTTTTGTATTTTGTAGAGACGGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGC
AATCCTCCTTCCTGGGCCTCCCAAAGTGTTAGAATTAGAGACGTGGGCCACCACACCTGGCCAAAAGCCTGCTTCTGCTCTTGCTCCCTCACCCCTATCC
CAGTGCGCTCCAAGAAGAGTGATTCATTTAAAATCCAAATCAGATTATGTCACTCCCCAGCTTAATACCCTCCCCTGGCTTTCCATCTTAGAACTCAGTC
TGACTCCCTTGCTGCCAGGGCCTGCATACCAGGCTTTCCGTGATCTGGCCTTTCACCACTTCTCTGACCTCTCATGCCATTCTCTCCTTTGTTTACTTAA
CCCCAGACATCCTGATTTAAGACTATGCTAAGCATGTTCCTGCCCCAGGGCCTTTGCATGTGCTGTTTCCTCAGTCTAGTACATTCTTCCCCACATCTTT
CTATGGCAGACTCTTTCTTGACKGTCTGGTCCTAGAGCACACATCTCTCTGCACCTGCCTACCCAGTCTTCAGTAGCCTCCCCTTACTCACAGTGACATT
ACTGTTTTATTTTCTTCATGGCCCATCACTATTAGGAATGACCTTACTTCTCTACCTCTCTTTATTGAAATGTGCTCAGAAAAACATAAGTTAAATGAAT
GAGATAGGCTGAGTGATTGGTCGACTCTGCCAATAGCAGGTTAAGACTTGTGCCTTAAATCTTATAAGACATTCTGAAGTCATGGAGCGATGGCCCTTCA
CAGCCATGTCAGAAACCACTTGGTTTCAGACAGCCTGGGTTCTGGCCTACAATGAAATGAAACTAAGTCTCATATCTGTGACTCATATGAAGCTCCCAGT
ACCATTCAAAATTAGGAATTCTAAAGGGGGATGTTTTCTTATAATGGTAGAGCATCCCACTGTGTTTATTTTAAATGTCATGGATTTATTTAGAAAAATA
ATTTATTTTCTCTGTTGAGAAGGTTGAGTTTTCTTGCATACATGTCTAGAAAGTGGAATGGTGGGGAGAGGCAAGAAAACTATCTTCACTTCCTTTTGAT
CAGATGTTAAGAATAGGCATCCAGACTGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTAGGTGGATCACCTGAGATCAAGAG
TTCAACACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGTGCATGCCTGTAATCCCAGCAACACGG
GAGGCTGAGGCAGTAGAATCACTTGAACCCAGGAGACGGAGGTTGCAGTGAGCCAAGATCCAGCCTGGGTGACAGAGTGAAACTCCATCTCAAAAAAAAA
AAGGGAATAGGCATCTAGTATAAGTAGATAAAAAGCAATTAGATAAACAATGAGCTCTAAAAAGTCTAGTATTTTATTGTTGGAACCTCAGATCCAACCT
GTGCTGAATTTGTCTGTGTGGGTGGAAAGTGAATTTTTGCAGGCTGAATATCTTGGGTTTGGAAGCAGTTTCTCAGTTTCTCCCATATTGCAAAGCATAG
CACATGTGTTCAGTTATGGATTTCCACAAAACTGGCAATCCCGAACCAATGAATGGGTGAGGTTCCAAAAGTTCATTTGCAAGTTTGTTTGGCATGCAGA
ATGCATTTTCCCATAGAAACAATGTCATAAATTAAGGATTGATTCCCAAGCCAGCCCATAAAATCCAAAATTATTTAATTTCAACAAATATTTATTGAAC
ACCTAGTGAGAGCCTAATCTGGGGCATGAGATAGCTAGGTAGTATTGAGAGAAATCGGATGCCATTCTTGGCTTTAAGGAACTCGCATGCTAGCTGGGAA
GGCAGACTTATCAATGGCCAACATTCATTCATTCAATCCTACATCCAATCACAAATATTTTTTAAGCACAACAATGTGCTAAGTCCTATGCTCAGTGCTC
AGGATACAGTTCTTTCTTGTCTCTATAGAGCTTGCAATCTAATGGGGGATATAATGTGTATCAGTTAGGTTTCTGATCTAGTAATGCTGTATAACAAACA
ACCCCCAAATCCTTAGTGGTCTAAAAGAGCAAACATTTATTTACATTTGTTTTTCATGCTCATGGGTCAGCCTGTCAGCTATGGGAAGAAGGGTGGGGTC
AATGTCAAGCTGAAGGTTGAGTTCAGGTCTGTTTCCCATGTTTCTCATTCTGTACATGCTCTTCTTAAGGCACATAGAAGTAGCATGAGAGACCAAGCTA
AACTAGACAACATGTTCTAAGCCCTGGCTGACATCATGCTGACTAATATTCCATTGATAAAGCAAGCTGCATGGCCAAGCCCAATATCCATGGAGTAGGG
AAATATATTCCACCTACTCTAGTGGAAGATTCTGCAAAGTGACCTGGCAAAAATGTAGTGTGGGTGTGTCATTCTAGTACAGGATGGATTGAAGAATTGG
GAGCAATAATCCACTCTTATCAATAAGTAAAGGAGATAAATGAATAGAGTGTCATAAGAGCTAGCATGGGGGAAGTTTAGGGTTTCATGGGGGCACATAA
AATTATCTAACCCAAACTTAACAGGTCAAGGAAGGCTTCCTGGAGGAAGGGATATCTAATCTGAACCTGAAGGGTAGGGGGATATCAGCTAGGTAAAGAT
GAGGCAGGGGAAGCTGGTGTAGGGACCAGGCTGTACAAAGGCCAGGAGAGCTTGGCCTGAAGCTCAGTGTGGACGAGCTTCACATTAAAGAATTTGAATT
TTGTTGGAAGGACCTTGGGGAGCCATTGCAGGGCTTTAATTAAAAGTGCGACCAGATCAGGTGAGTGTTTTAGAACGAGAACTCTGGGGTGCAAGGTGGA
CCGGAGGGGACTGAGAAGAGCTGGCAGATCAGTTAGCAGGTGGCTGTAAACCAGTAAGAGACCAGGGACTGAATTAGAATGATAGTAGTGGTGAGGGAAG
GAAGTGGGTGGATTAGAGAGCTATTTAGAAGATAGAATTGACAGGGCTTAGTGATTAATTAGATTCCCCTTTGAGTCTGACACACTAAAAATAGGGCCAT
AAAATGAAAAATAAAATCTCAAGGTGGCCACTGTTTTTCTGGAAGATGTATCCTTTCTCCTTTGATCTCAGTCTTCATGAAGAAAACAAACAAGTGATAC
CCACATGTACACTTGATTCTTCCTGTGTCCCAGGCACTGGGCTAGGCACCAGGTTAGACCCCAAAAGATGGGCACCTGAGTCAAATGTGGGAGGGCTTCT
GAGAGACACCAGCGCTGAGTCTCAGAGTGTGCAGTGGGGTGAGTTATTGCATTGAAGCTGGTGTTGAGATTACAGCGGAAGGAGTGCAGGCATCTGGCTG
GGGTGACCAGATGGACAGAGGTGTCGGTTACTGAGTAGGGAGTGTAGAAGGAGTGGCCTGTTTGGGCTGCATGGGAAACGCGGGGGGTGGACTTCCACAC
TGGCAACATGGGCAGGACAGCCTATGAGGACAGAGGAAAGGTCCTGTGTTTGTCTGTTTTTGCACTGCTATAATGAAATACCTGAGACTGGGTAATTTAT
AAAGAAAAGAGGTTAGTTGGCTCATGGTTCTGCTGGCTGTACAGGAAGCACGATACTGGCATCTGCTCAGCTTCTGGGGAGGCCTCAGGAAACTTACAAT
CATGGCAGAAGGTGAAGGGAAAGCAGGGCACGTCTTACATGGCTGGAACAGGAGGAAAGGGGGGTTGGGGAGGTGCCACACACTTTTAAACAACCAGATC
TCAAGAGAACTCACCATCACGAAAACAGCACTGAGGAAATGGTGCTAAACCATTCATGAAGGACCCACCCCCATGATCCAATCACCTTTCACCAGGCCCC
ACCTCCAACACTGAGGATTACAATTGAACATGAGATTTGGGTGGAGACACAGATCCAAACGATATCAGGTCCCAAATGCATTTTGCTTTGGATAGAATCT
GGGCTTTGTGTGACCTGCCAGTTTCTTATCTCTGCCACTTCTCCTCTTCTATAAAGTGGCATTTATAATTGGCCAGGTATTGCAAAAAAGTGCTGGGATT
ACAGGCACATAATCCTGGGATTACAGGCACTTTGGGAGGCCGAGTTGGGTGAATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATGGTGAAA
CCCTGTCTCTACAAAAAATACAAAAATTAGCTGGGTGTGGTGGCGCATGCCTGTGGTCCCAGCTACTCTGGAGGCTGAGGTGGAAGGATCATTTGAACAT
AGGAGGTTGAGGCTTCAGTGAGCCGTGATTGTACCACTGCACTCCAGCCTTGGTGACAGAACGAGACCTTGTCTCAATAATAATAGTAATAGTACCTGCC
TCAGAGGTTTGCTGAGAGAATTAAATTCCATAACGTACATCATTGTAGGCCCAGTGCCTGGCTCCTGGTAGGCAACGAAGTTGTGTCAACTGTCATTTGG
TGGAAGCCCAAGGAGGCAGTCATTACTTGTCCCTGAGGTTGGGAAAGGCTTCAACGAGGAGGTGGCCTTAAAATTGGCCTTGAAGCCTGGGTAGACCTTC
ACCAGGGGAAGAGTGGTCGGGAGGCATTTCAGGCAGAAGAATCAGCGCAGTGAGAGGTCTGTGGAGAGACTGGCAGATGGAGTTCTATGCACTGGCTGTA
GAAGGAAGGAAGTGGGTGGAGATGCTGGGTGGGCTCTCAGGGTGGACCTTACTAGCGGGTGCTGGGAACTCATGACAGGGTTTTAAGCAGAGGCCTTCCA
GCGCCATATTTGTGTTTTAAAAAGATTATCCCRCTGGCAGTGTGGAAGATGAACCACGTTAATCCAAGTCTCTCCCGGCCTCCCACCCCACCCTTCCTGG
GTCACTTTCCTCTGGTGTGTTTTGTAAAGAGAGAGTTTATGTCACATCTCGTCCTGAGTCAGTTACTTGGTGGCTATTCTCCGAATTCATGTACCTCCCC
ACTGGGAGAGGTAGTACGTCTCCCAGTGCATCCATGGGGCCCCACTTGCTCTGGTTTTAGTGCCATGATGGAATCAGGGCTGGGTCCTCTTCAGAAAATG
GGCCCTACAGGAAAGAGCACACTTGCATTCACCCTCCCAACACTTCGTGCTCCACCCTGCACTGGGTACACACAGGTGGAGGCAAGGCCCCCAGGCATGC
TGCTTATAAGGTATCTGTATGCGTCCTTCAATTATCTGTACAAATTTCACATTCACTCCATATTTTTCTACATGTTTCTTCCATGTTGACAGTTGGAAGA
CCTTCAAGCAGCCCCTGGTGGCTGTTTTTAGGTCTTCAGCTGCAGTTAGGCTGTTCCACGCATGAGATCGTGAAAGAGATCATTTCTCGCTCGGTCTAAC
AGCAGGGCCCTGTGGTCAGTCTTCCTATCAGACTTTCTGAAGGGTTGGGAATAACAGAAGGGTATTTTTAACACATGAGAGAAAACTGCCATCTGAATGC
TAAACATATTTGTCCCCMACACCCCAGAGTAACAAATGAAAAGAATYACATGAGTTGCTTGTGGACACGTCCCAGCTCCTTTTTTTATCKTGCTCTCCTG
TCTTGAGGGTTCTTCTCCAAGTGACACTCCTTCCTCAAGCCCCCCAGGCCTATCATTAACCTGCTGGGATCCTTCCCACCAGGASTGTGATTGCCCTGAA
ACTTGACCAGTATAATCCATGGTGCACAGTAATTTATGGCCATATTCTTCAGTAGCCTGAGTTAGTCTGTTCTGTCATCATGAGAGGTGAGCTACATACA
GCAGAGAGGGCCCGATAGGGCTTAGATGTTTTGTCTCCTCCAAATCTCGTGTTGAAATGTGACCTCCAGTACTGGAGGTGGGCCTGCTGGGAGGGGTCGG
GTCATGGGAACGGATCCCTCATGAATGGCTTGGTGCTGTCCTTGGCAATAGTGAGMGAGTTCTCACTCTGAGTTCACAGGAGATSTGGTTGTTTAAGAGA
GTGTGGCACCTGCCCCCTCACAGTCTTGCTCCCACCCTAGCCGTGTGACACACSTGTTCTCCCTTCGCTTCCAGCATGATTGGAAGCTTCCTGAGCCCCT
CACCAGGAGCAGACACTACCCATGCTTCSTGTACAGCSTGTAAAATCATGAGCCAATTAAACCCCTTTTCTTTATAAATTATCCAGTCTCAGGTATTTCT
TCATAGCTATGCAAAAAATGGACTAACACAGGGTCACAGAAGGCTTTGCAGTAGAAAAGTCCAGATGGATGTGACTGTTCCTCATTCAGAAGGCGGCTGC
AGTGCCCCTTCCACAGGGAGCCTGCCTCGAGTCCAGGCCTGGCCAGGAGACAGTGTGCATGGGTAGAGAAGAATATGCTTATCATACATTAGACACTACC
TTGCACGTTCTGTGCCATGTTCCATTTAGTCCTCCTGGTACCCCATGAAGAAAGCACTATTACAATCCCCACTTCTTAGAGAACAGCCTTAGCTTATGTA
TAGTTTCCCACAGCTGCAGAAACAAATTCCCACAAACTTGGCAGCTTAAAACAACATGCACTTGTGATCTTACAGTTCTGGAGGTCACAAGCCTGCAGTG
GGTTTCACTGGGCTGAAACCAAAGCATTGACAGGGCTGTGCTCCTTCTGGAGGCCCTTCTTTGCCTTTTCCAGCTTTTGGAAGCAGCCAGCATTCCTTGG
CTCATGGTCCCTTCCTGCATCTTCAAAACCAACAGTGTGGCATCATCAGATTACATTGGGCCCACCCAGATAATCCAAAATAATCTGCCCATTTTAAGAT
CCTCCACTTACTCACATCTGCAGAGTCCCCTTTGCCATGTCCTATGGTTTGAATGTATCCCCCAAAGTTCATGTATTGGACACTTAATCCCCAGTGCAAC
AGTTTTGAGAGGTGGAACCTTTCGGACGTGATTAGGTCATGAGGACTCTGTCCTCATGAATGGATTAATGACATTATCACAGGAGTGGGTTAGTTATTGC
AGGAGTGGGTTACTTATCACAGGAGTAGGTTCCTGATAAAATGATACATTAGGCCCCTTTCTCTCTCTCTCTCTCTCTCTCTGTCTCTCTCTCCCTCGTG
CTTTCTTGCCCTTCCACCATGGAATGATGCAGCAAGAAGGCCCTCACCAGATGCAGGCCCCTTGACCCTGGACTGCCCAGTCTCTAGAACTGTAAAAAAT
AAATTTATTTTCTTTATAAATTTCCCAGTTAGTAGTATTCTGTAATAGCAACACAAAATGGACTGAGACACCATGTAAGGTGACACAGTCACACATTCCA
GGGATTAGGACCTGGACATCTTTGGGGGCCATTATTCTGCCTACTACTGGTTGTACAAGTAATGGATTCAACTCTGGGCTTAGCTCTAGCTCCTAAGCCA
TTAGAGCAAAACAAAGAGACACAGGCAAGGGACATTATCCCTCATGGCAGTGGGTGGAGAGGGGAGAGCCTGGAGCAAATGGCCCTAATGGAGCATTTGT
GATAACTGCTATGTATAAGAAAGACACGGCACTCAGGGCCCACCTGAGTCAGAGAAAACCCTCCATCTTGAAAGCTTAGGCAACCATGCATTCATTTAAC
AGGTATTTACTGAGTACCTGATATGTGTCAGTCACTGTCCTAAGCACTGGGATTCTAAGCACTAGCAGTGAGTAACACAGGTCAAAATCCCTCCACACGT
ATGTTCATTGCAGCACTATTCACATTAGCAAAGACATGGAATCAACCCAAATGCCCATCCATGATAGACTGGATAAAGAAAATGTGGTACATATGTGCCA
TGGAATGAAAAGGAATGAGCAGCCATGAAAAGGAATGAGATCATGTCCTTTTGGGGATGTGGATGGAGCTGGAAGCCATTATCCTCAGCAAACTAACGCA
GGAACAGAAAACCAAATACCGCATGTTCTCACTTATAGGTGGGAGGTGAACAATGAGAACACATGGACACAGGGAGGGGACAACACACATAGGCTCAGCT
AATGCAAGCTGAGCTTAATACCTAGTTGATGAGTTGATAGGTGCAGCAAACCACCCTGGCACACATTTGCCTATGTAACAAACCTACACATCCTGCACAT
GTACCCTGGAACTTAAAATGAAAATAAAAATTGAAAAAAAAATCCCTGCCCTCATGGAGTTCCCTCTAGTGAGGTGTTTTAGTTTCCCAAGGCTGCCATA
ACAAATTACTACCAACACAAATTTATCGTCTCCCAGTTCTGGAGGCCAGAAGTCTGAAATCAAGGTGTCAGCAGAGCCGGGCTCCCTCTGGAGGCTATAG
GGGCAAATCCTTCCTCACCTCTCCCAGCTCCGGGTGACTCCTGGTGTTTCTTGGCTTGGGGTAGGATAACCATCTCTGCCTTGGTCTTCACATGACCTTC
TTCTGTGTGTCCAAATCTCCCTCTCCTTTCTCCTAGAAAATTCCCATTCACTGGGACACCCTAAATCCAGGATGATTTCATCTCGACGTCCTTAACTCTT
TACATCTACAAAGACCCTATTTCTACATAAGGTCACGTTCTGAGGTTCTGATGGGCACGAATTTGGGGGAACACTCTTTAACGCACAACATGAGGGAAGA
TGGACAGTGTGAAAATAAATGAGGAAAGAGAGAACATGTCACAGAGTAAACAGGGCTGTGAAGGAAAATAAAGCAGAAAAAGGAAATGGGGAGCGCTAGT
TGGAGGCAGGGGGCGCTAAATTTAAACGGGAGCCCTGGAAGGCCTCAGTGAGAAGGGGCATCTGAGCCAAGACCCAAAGGGACCCACTCAGTTTTGGGGC
TATCCGCYTTCATGGGCTATTGCACTATTGAGTGGAAYGGCCGACAATTTGAGACAGAAGAGCCTTCCTCCTTTCCTTCCAATCCGGGATGTGTCCTTGT
GCAGATCTCAAGCTTGACGTCTGTGCGGTGACACTTCTTTATGGTCCAGTGAGGCTCTAATGACAGCAATAATGATAATGGAATTGGGGATGGCCCCTCC
TTCTCGTGTGAGGACCCCATTGTGCCGACTAATTGTGTAGAAGCAAGTAGGACAACTGTCTGTGGGGTGGAAGCGGTGGGGAGCAAAGAGGAATATGTCC
TTTGGGCCTCAGGGAATTACTGAATTACCGTTGTGTGGGCTGAGTCCATGCATCTGGGTTACTGTGAATGCTGGAAGGGATTTGGGGGGCTTTCCAACAC
CAGAAGGGGTCTGGGGGTCAACCTGTGTCCTGTGGGTTCTCTACCTCCTTTTTCAGCTGTGAGAGGAGCTATGAGTTCTATGTATTTCAAAGCAGAAGGC
AAAGGGGATAGCAGTGCTAAGGGGCACCTCTCCACCCTTGGTGTCCCAGACAGTTGGCACTGGGAAAGTGCTCGCCATGCTCAGAAGCCAGGCTTTTTTG
TTTGTTTGTTTGTTTGGTTGGTTGGTTTTTTTAGATGGAGTCTCATTCTGTTGTCAGGCTGGAGTGCAATGGCACAATCTCGGCTCACTGCAACCTCCAC
CTCCCAGGTCCAAATGATTCTTCTGCCTCAGCCTCCTGAGAAGCTGGGACTGACTACAGGCGCGTGCCACCATGCTCGCCTAATTTTTGTATTTTTAGTA
GAGATGGGGTTTCACCATGTTGGCCAGTATGGTCTCTATCTCTTGACCTCGTGATCCCCCTACCTTGGCCTCCCAAAYTGCTGGGATTACAGGCGTGAGC
CACCATGCCCAGCCAGGTTTGTTTTTTGTTTAGTGGAGCTAGTAACTGACGTTCTCGGACCTCAGCCTCCGTGCTACTTACCTGCACCATCTCTAATGGA
TGCTCTCTGACTTCCAACAAGCACCATTAAGAACATCCCTTTTAGTAAATATATGTTGTAATGGAATAGATTTTTTTGAARTGACCTTATCTCAGGCAGC
ATGCACTTTCATAAGAATGTATTGATTGGCCTTTAAATATTCCTCAAATGTTTTCACTTGTCTCTGTGACCTAATATTTGTCCTGTTCCCAGCATCTCCT
CCATATCCAAACACAATGTTCAGGTCTTCATTCGAAGCCTTCCTGCCAGTCTTTTGTTTTTTGCTTTTTAAACATTTTGATGCTTTTATTCTGCTATATG
GAGGGTGCACTGTTTCTGATAGGCCAAATGTGGGATTTGATATTGCTTTCAGGAGGATCGGGTTTTAATATCATTGCCACCTGTTTAGTGGTGGAGAAAC
TGAGGCCCACAGAGGCTAAGGAATGTGGCCCCCAGTTACACAGGGAGTATATGGGAGAGCAGCTTTGAACCCAGACCCTTCTGACTCAAGAGGTGTCATT
TTCCCATTTTTATTTCCATGCTGCTGTTTTTTTAAATGGCTCCCCTAAATTATTTAGTTCATGGTTTGCATTTGGAAATAAACACCAACTTTTAGTACAC
TCATYGCCCACAAAAGAACCACATGGAGCAAAGGCCACAAACCCATTTTGTGTGAGTGTTTCAGTCTGCAAATGTGTTTTTTRTGTGCTAAATAGCTCAA
AGTTTCAAGACAAAGGCTGTTTTTCCACCACGCCAGTGAACAGGCCAACCTAGTGAACAAAAATCAATGAAATGACTTCTGCTGGTATCACTGAAACACA
GACAAGAATTTAGCCATTTTAAAATTTCCTTGTTAATCCAATTCAGCTACCTTTTGTTGAATCCCAGCCATGGGCCAAGTCCTGTACTAGGCCCTGGGGG
AAACAAAGATGAATGAGGGTCTACTCTGATGAAGTTCACAGGTGAGTGTGGGAATAATTTCAATACACTGTGTAAAATGCTCTAATAGCTGGTACTCAAG
GTATGAAAGGACTCCAAAGAACCCTTTAATATTTAGGAGGAAACAGAGYTGTGATTAAGAATCCCCCAAGAAGCCTCGAATTGTGTCTGCCTCCTTACAT
AGAAAAGGCATGTTGGGCATTGAGCTGGTGTGTGAGCAATGCCAAAGGGCATCTGGTCAACCTCATTGCCCAAATCCCTTTCTCATCACTACCATTTTGT
CTTTGGCTTATGTCATCCATTTTTTTGCCTAAATTTTCTGTTCCATTTTCCCATATAATATAATAATAATAATGAATATTTATTGAGGCATAATTGTAAA
CTCTTAGAACAGATGTACATTTTTCTCCCAACTTCATCAGGTGAAAACTATTATTTGCATTTCTGCAGATGGAGAGCCTGAAACACAGAGAGGGCACATG
TCTTGCTTGAGGTCACCAGCTTGCAAATGACACAACCACTATCCTCCTTCCTTCACTAAGTTCTAGCCAAGCTGGTCTATTTCATCAGTTCCTTGCAGAG
ACCATGCTTTAAGTGCACTCAGATACTTTGCACATGCTGTTCCTTCTGCCTGGACTGCTCTTCCCACTACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
GAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCGACTCACTGCAGGCTCTGCCTCCAGTTCAAGCAATTCTCGTGCCTCAGC
TTCCCGAGTAGCTGGGATTACAGGAATGCACCACCTCGCCCAGCTAATTTTTTGTATTTTTATTAGAGACAGGGTTTCACCAGGTTGGCCAGGATGGTCT
TGAGCTCCTGGCCTCAAGTGATCTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACTAGCACYGGCCTCTTCCTACTACTCTTGACCCGACTACA
TGGTTCTCACCCTTGAATGCTTAGCTGAAATGCCATCTTTCTTCACTAGCCTGTCTAAAGTGGGTTCCTTTCTACTATATCTTTGGTTTCTGCAGAAGAC
GTACCTCAATTTGAAATTATTTTAAATGATTGTCTGTTTATTTGGTTTTTGTCTATGTGCTTCTCTGGACTGTAAGCTCAATAAGAGAAGGAACTTAACT
GGCTTATCCATGGAAGTGTCTGCAGTTCCTAGTGGAGTGTTTGGCATCTGATGGGCTCTCAGTTAATATTTGTAGAATGAATGCCAGGTATGGTCTTAGG
CCCTGAGGGTGCAAAGGTGAATAAGGTGGGCCTTTCCCTTTGGGGGATTTACAGTGTAGCTGGAGAGACAGGCAGGCAATCAGCAACTAATGCAGTATGC
TGTGTAGAGTAGGAGCATGTGTAAATGTCATGGAGACACAGAGGAGGGAGTGACTGCTTTGCCTGGAGTCTGAGCAAACATCATAGAGGAAGACACTGAA
ATAGCCCTTGAACAAGGAATGTGATTTCACCAAGTGTTGCAGGCCCAGGCACGTTCAGGGCAGTGAGGATGGCACACGCTCGGGAGGGCCTGGCCTGTTT
GCCCTGTATGTGTTTATCAAATGCCTGCTCTCCACGAGGCACTATGGAATAGATACCAGGGATGGGTGTTTTTAGGAGCTTGCAGTCTAGAGAGAYAGAC
TCATCAACCAAACTTACCTGGGGATGAGTTTGAAGAGGAAGGCAGGGGCCAGATCACAGTGTTGGGGTCAGAGATGGGCATGGAAACATGTATTGCAGAC
TGAGGTGCTGAAAGKCATGTAGACAGGAGAGTCTGGTATGGGAGAAAGGGTGTCATGAGAGATTTTTAAGCAGGGAGTAACATCATCAGCTCTGTGCGTA
AGAGTAACCCAGATGTTGATGTGGAGGTTGATGAGAGGAACAGGAAGTGGGAAGCGGGAGACCTCATTTGGCTGCTGCAGGAACCCAGGTGAGAGGTGGG
GGGTAAGCATGGGTTGTAGAGGATGCTTAGAATTCGTTTGGGTACAAGAGTTACCCAAACTAGCCAAAGTAGGCACAAAGTTTTGTAATTTGATCCGCCR
TGAGGATTATTGCTCATTAAACCAGACCAGGTAGTGGTTCCCAACATGTGTGACTAGAATTTCTCATCCCTCAGAACATCCTTCAACAAAAAAGCTGGAA
GATGGTACATCATTCATTCTTGTCTCAGAAAGTTACAAAGCACAGTGGCATCTACAAGGCTCTGAGAAGTCCTGCAGCAGAGAGACTTGTTTAATTTTAT
TTAACTAGTGTTTCCCAAGCTTCTTGGCAATAGAACCCTACTTTAATATTAACACCAAAACAAATCCAGGAACACAGTTTGAAAAATGCTGAGAAATTGA
GTAAAACTTGTATTTTCCTATATGTTCATGTCTTGGAAGAATCTACTTGCTATTATGCTGGCATTTGTGATGTCGCTGCCCTGGAAGCCTTCAAAATTTT
TGAGCAATTAGGTGTAGTAGTAAGAGATAGATGCCAGTGCCAGACACCATGCTAACTAACCTCTCTGCACCTCCGTTTCTCAACCTCTGACATGGAGGTG
GTAACAATAACACCTACTTCATGGGCTGGTTGTGAGGATTACTGTGTTAATTCCCAGAAGTCCCCAGAAACAGTGCCTGGCCTATGGGCACTAGGAAGGT
GCGATGGTTTGAAAATGTCACCTAAAAAGCGTGTGTTGGGAATTTAATCCCCAATGCAACTCTGTTGAAAGGTGGGACCTAGTGAGAGGTGTTTAGGTCA
TGAGGGCTCTGCCTTTGTGAATGGATTAATGCCAATCATAGAAGGGCTTCAGGCTGCAAATTCAGTCTCTTTCTCTTGTTCACATGCGCATGCCCTCGCT
CTCTCTTGCTCTTCCACCTCCTGCCRTGGGATGATTCAGCAATAAGGCCCTCGCCAGATGCAGGCCCCTCGACCTTGGACTCTCCAGCCTCCAGAACTGT
AAAAAATAAATTTCTTGTCTTTATAAATTACCCAGTCTGTGGTATTCTATTATAGCAACACAAAACAGACTAAGACAGATGGGCTCAGTCACTATTAGCT
ATTCTGAGAGGCAATATAGGTAGCTGATGAGACCACAGGCTTTGAGGCTACACTGCCTGACTTAGTAGGTCAGCTCCTCTGCTTACTATCCCTGTGACCT
TAGGAAAGCAATATGGAACCAGCTATGCCTCAGTTTCCCACATCTGTGAAGCAGGGACAATTATTGCAGCTACTTAGAGGTTTGTTGTGAATAATAAATG
AATCAAATCATGTGAAAAGACATCGCCTGGCATGTTAGATGTTTTTGCTTAAAAAAAATCTTTTAATTGTCTCTGTTATTAGCATAATTTTATCATGTAG
AYTGRCTTTCAGCTTCAGTGATGAAGATCCAATTTTTGAGCTTTCCCAGCAAGTTATTTTGGTCTTATGTTTTGGCATTCCCCTCTTAAAGAGTCTGGAG
GCCTTTCATTTGAAGTTTAGTTTGTCACAGACTTCCTATTCTCGTCCATTCAGTAGACTTTGGTTTCCTCATCTCATGGACTGGCAATTGTAAAGAAAGT
CCCCCGATTCTGGAGACCACCTCGCCCCTCCACTGGGCTCTGTGCCTTCCCTAAAAATGCAGACATCTGTTTCAAATCACTTAGCAAAAGACCTTGGGTT
GCTCTTATAGCAAAGCCCTCCCCCAGCATGGATGCAGTCTCTTGTTTCCTGGGAGAGAGAGAAGCTGGATTGTTTCCTTGTTAAAAGTTTTCTGATATTA
TATCAGTGTAGAATCTTTGGAACAGTTCACACTAACCCCCACATTCAAGCCACTTACCTGATATGTAGTTATCAGATTCCTTCAGGGACTGTCTGCTCTT
GGTGAACAATTAGATTAGAGGATGCTGATGAAATTTGAGTGGCAGGAAGTAGAAGTTACATTTCTGAGTTCAGAGTTTCTATTTCAAGGTTGAGTAAGTG
GTAAATTTTTACTGCAAGATTCTAGCCTAACAGAGTTGGCTTCTCAAGGTCCCCCAGCCCGGCCCATGGGTATTTCACCTGCTTGGAAACTTCAGCTCCT
TTTCAGAGGTGGGCCTCCCTGTTCTTTATGTTGGCATGAAAACAATTAATAATTTAAGCCATGCCCATTAAAAAAATAYAAATGCTGTATAAATACAATA
CTGTAATAATAAATTTAAAAGTCGATCCAGCTGGGCGCTGTTCCCACACTACCAGCTGAGCAGAAACACAAATAAGTAAAGAAGAAAACTGCTATATAAT
GCAAATGGCTGCAATCTCATTGTTTTCTGCTATTGTTTATTGCAAATATATAGTAGTAAAGTTACATTATGGATAAGTAGGTTTTGTGGGCTAACCTGGA
AACCTAATCACTGTTTATAACATTATTTCTATGGGGGAAAAATGCATTTTATATTAGAAACAGATGGTTTGCAAGAAAACCTTTTTGGGAGTAGAATGGA
TTTCTAAGTCCAGGGCCGCCTGAAATTTTAACCTCTTGCTAGTTGTGTGGTTGTGTTGTATTCACAGCTAGTGATAGAGGAAAATTAGAGGCCTYTCAGA
ATGCCCACTTCTGTGTTCTCCCCCAAATCCTTGCTAACCGCTTCATCCTACAGTCTCTGCCTTACCTTCTGTCTTCTCTGTTTCTGGGGTCCCCATCCCT
GTGTCCTCATCCTGGCCCAGCTCCACCCTGCAACCACTGGTTGAGGTCCCAGGAAGCCAGGAGGAACTATGAATGTCCTCTATTAAGTGGTGGTTAGGAT
CTATAGGAAGGCATGAAGCCAGGGGGCCAAGTTTGTGGGCTCTGAAATCAGACTTCTGCCACTTGGCAGCTATGTGGCCTTGATATGTTACTGTACTTCT
CTGAGCTTCTGTTTCATCCGTAAAGAGTGAGGTTGTTGTGAGAACTAACTGCAAACACTCCCATCAGTGCCTGGCACACAGTAATGTTTCCTCCATGCCA
GTCTGTGGTGGGGTAATTATTCAGGGATATTATGGGTTACACATATTTCTATGAACCCAGGAAGCAAACCCACTGTATAKAAAGACTTTCTAAGTTTTCA
AACAGTGAACTTAGAAACAAGTGTCTGGGACCTTCCTGTTTATGACTTGGGGCCGGAGTAGGTTTGGAACTTTTTTTTTTTTTAAATCTGTTGGGGGTGA
GGGAGGGGGCGGTTACATACTTATATAGTTGAATGCCAATATCAAACTCTAGTATTATCTCGAATACATTAAGCTCTACAGCAGATTTTATAGCAAACTA
ACAAGAACAGCTTTCTTAAATAGTTTCATTGACTGAATTGTTTCTACATACAGTGTTTTTCACATAAGGGAAGTCTTTTTAAATTAACTTTTTGGTTTGG
GGGATTTTTTTTTTTTCCTTCAGGCAATCTTTTCTTTGCATTTGGGCAGGTTCTGTATTCTAATTTGCAAAYAGGCTTGTGTCTGCCTGCAGGCTTTATC
ATGAAAGTATTAGCTCTAAGTGGAAATAAGGACTAGAAAAATAAAATACTGACTGGGAGTCTGAGGACTTTGGGATAGATCCTCAGTAGAGGATGGAGCA
AAAGTAATAGTAAGTCAAGAAAGCAAATATATCTCTACCAGTTTCCCTAGAATATGTCCATTCTTATCCAAATCCAATTTTCCTCCTATTCTTGGCCTGA
AGAAATTGAAATGAAGCCATTAAGATATCAGCCTATCTGAGAGTGCATCACTGAAGAATCAGCCTCACTAAGAGTCCTGTGTGACAATGAGATTTTAATT
TAATTAGGGCAGTGGCTCAAGTGTTTATGCACTTGACCGTTGCTCTTGTTGATACGCAGGAATTAGAGTGATAGCTTTCAAAAGGAATTATTTCAGAGTA
ACTAGCTTTGTTTACTAAAATATGGGAGCTATAAGATCTGCTCTGTAAGAAATGTAAATGTATGAGTAATATGCTGTCATGAAGATTTTATAATCTGCAG
TATTTGAGAAGTAATAAGATACTGTTGTTGGCTGGCCATCTGGTTATACATACTTGGTGTCATGGTTTGCTTTTTATTTTTTCATTTTTTATTTGTACTG
GTGAGAGGCAAAGAATAGGAGTTCAGAGGTGGTGGGTTGTTTTTTTATATATATATAAAAACAAGGAATTTATGTTTAGTTGCTTAACATGGTTAGATTT
TGTTTTTGCCTTATGCAGAATAAAAAATGRAAGGTTCATTTTATACTTTCTTTTCCCTTTTTTTTTCAAAAAGTAAAATGGAAACCTCACCCCCAATTTG
TCCCCAGATTTAAACTTTTTGCTTGTTTTAAAAATAGTCTCTTTGGCATGAGGAGGAGTCAGACATGAATTAAAACTCTAGAAAGAAAAATCAGCAACAG
AAAAGACCTATAGAGATTTCATATTTCATCCTTTCATTCAAAAATATTTATTGAAACCCTAGTATTTGCATATCATGCTGCCAGACACTGAGGGATTTGC
TAAAGAAATATTAAAGACCTTCTCCCTTCTTTGAGGAGCTTAGAGCTTACTTGGGGAGAACTGAGATAGACTTATGAAATAGTTAAGTTGTAATTCGAGG
CAGCATATGATTAAATACCGAAATATGTACTTCTGACAAGAAATGCTATAGGAGTTCAGAAAAGGGAGTGATAACTCAGTGGCACTACTGTTTTCTGCCT
ACAAATTGGCAAATTGTAGCACTATTTGTATGAAATATTTTACACTTGTTTTTTTGGCAGCCTTAGGCTTTGACTCCCAGGCAGCATTAAGAGCCAACAA
AAATATTTGTACTCCAGTCTCTTCGGAATTGGCTTATTTTTTTTTTTCTTATAGGCAGAGGAAGTGCCTTACACAAACCGGAKTGCCCATGAGAGGCAGG
GAGTTTTTGACAGTCATGATCTATTTCAGATACAACCGAAAGAACCAGCTTCGTCATTCTGTTTTTCAATCCAGCAGTGCTTGTCTCTCCGTTGCAAACT
CTCTCTGACATTGACAGGCGGTTTAATTTGAACTTAATGTCYTTGACGGATGAGCTAGCCATCAAGGGTCAGATAAATTTATGGCTTTGGAGAATTGCCG
ATGAAAATCCCCATGGTTATAATGTTGGAGAAGAAACTGACACAGATGTAGTGGGAGGTGGAACACAGATGTGCTTATTGGGAGCAGGGTTCCCCAAATG
TCAGAAGCCGGTGACATGCTAAAGGTATTGTGCTTGGGGATGACGTTTAGTGAAACTCACTGACTTCCTGTTCTATTTTTGCCATATTCAAATTAACACA
GAGCTCAAAGATGAAGCCATGAGGCCTAAATTCTTAAGAATTGAAAGAGAGAGAGAGTAGAGAAAGGAGAAAAAATAAAACCTTTAGGAAGCCAAATACA
CTGTTTGGGCCCATCCATTCCTCATTCCGCTCGGATCCCCTCCGGGACTCCCCGTAGCTGAATGTGGTCATCATTTGGTTGCTTTTCAATCTCATGATTC
ATGTGTTTTCAGTTTCTTTTAAAAATTCACCATCACTGGTTTACCACCCCTGCATTTTAATCTTCAGCCTTGAGGAGGTGTAGTACTAGAAATATTTCGT
TCTTTCCTTGATGCTATTCAATGGAATATCTGTGGAGTCCAACACCCTTTGGCGATAACGTGCTGTTGGTATTTGTTCTTCTTGCYAGGTTGGTGCCCCG
TCTGGTGAGGCAAGGGTTCCCAAGTTAGTGTGACCTAGAGTGACTGACACATCAAGCAAGCCAGTGATCTCACCACTCAGCTTCTGAGCATCTCTTTATC
AAAGTAGTTGGCCCTGGCCACAGCTTAAGACTTATCTGGGTCAGCCTCTGAGCTGGCTGACTTGGGAAAATGGCCCTGGAAAAATGTTTCACCTATATCT
TTTGATATAATTTGGTATCTGTCTAAATAAATGGTATGTAGCAGATGGTTATGGAATGTCTTATCAAATTCTTAGGCAGACTCTGCCCTTGAAATTTTTC
TATTTAATTATCATACTGCAAAGCACAAAATAGTAACTTTGTTATTATTTTTAAACAAAATCAAGTTACACAATAGGTTGATATTCTGAGAATGAATAGC
AAACCTAAAATTTATACAATATGTGAACTCTTCCTTGAGCTGTTCTTTGCTAGGCATTTCTAAAAGGGAGCTCCCTATTTCAGAATCCATGGGAGGATGT
GTTTCAGATATATTTGGCGATGTCATCTTGAGAGATGGCTCAGGAGTCGAAGTTCACCATGTTGTCTACATTTGTTCTTTGCTCCTAGACATGATGGAAA
AAAATGCTCTGCTGTTTTCTTGTTGCTTTTCATGGTTTTAGCATCATGTTCCTATTCTCGCTCAAATCAATAATCCACTGTACAARGTCTGGCATTTTGT
ACTGAAGCCAAGTAYAAGAAAGTTTTAACTAATGCAYGTATGGGGTCGCTGTTTTAACTAACACACGTATGGGGTCGCTGTTTTGTTGCCTCGTTTTTTT
AGGTGCACTTTTCAAGGAGATTGTGTACATTCAGAGAACTTASAAAACTGGCTGGATATTTCGTCTGGAGCAAAAAAGTGCCCTAAAATTCAGATAATTC
GAAGCAGTAAAGAAAAGGTAAGAGGAAAGATTTTAATTTGTCCTCGTTGTATTGTCTCATTTTGCACAGCGGATGCTAAATTTCTTCTGTGTGTAAAATA
TCCATTAGCAATCAAACATGCTTAGTGATAGCACTCCATTCATTTAGCACTCATTAACGAATATTGAGTGCCCACCAGATGCCATCCACTCTGCAAGGTG
CTGGGGATACAGCGGTAACCAAGTCACATCATGGGCCTGCTCTCATGGAGTTTGTCGTCTTGTGGAGCTGAAGATGACCCTCAATGGTTGAACTGGAAGA
AAAGTTGGACTTCTAATGTTGTAGAAATACATATTGCTTTTGAAAATAAAGAAAAAAGAGGTTCAGATTCATGGTCAACGAGATACCTTAAAGGTGGCTT
AATTGCAGAATTTGTTTAGTGTAATGGTCCCTTATCCTAATGTGTTGAGGCTTCCCCAGTAACCATCTTATGAACATAGCTTCCAACAGTCTTGGTAGCG
ATGGAGAGAAGACCAACATGGGCAGTGACCATTGCAAGTGAGGTCCTTTGGAAAGCCAGTGGRCCCTTGCTATGGCAGCACCACTCTTGACAACACATCA
GTCCTGTCATTGGATGAGAGAAGGGAGCAAGGAGCATATTTAAGCATTTTCAAATGCACACGCCAACCGTGCCCTACGGAAAAAGGGAATTCCTGCCTTG
CAGTCTCAGTGGTGCTATAAGGAGGCATTTTCTCCCTAATGACGGCTCTTGTGTTATGAATAATTGTACAGAGTCCTCTGTTATGAATAACTGTACAGCA
GCCAGCTGACCTGTCTGTTGAGCTCACTGTGTTCTGTTTGAATGCCATATTAACAAGGAAATGGGCCACTTTCTCTTTTCCCTTACACTTTGCCATTTCA
GAGAAATAGCAAGAACTTTACCACTTACGATGATTTAACATTTAATAAAGGAGAGCCAAAGTATTTAATGAGTGATAAATAATAAAATAATCAAGCTTCT
AAGTTGTAACTGATCAGAACGAACAGATTTAAAGTTATTTGGCTGTTGTCACTTTCTGTTGTCTTCCTGGAGAAAAAAAATAATAATAATAACTTTCATA
CAAACTTCTACCAGTCCTGAATCAGAGTGAATAGATTTGGTGGAAAAGATTCTTAGGCATCTAAACATAGGTATATCCAAATTCTAATTTCTCTCATCAG
TCTGAAAAATAGCCAAATTTGGCRCTAATAGAGAATAGTAGAAAGTAGAATACCATAATCCTTGAATATACCCAGGACTCTGATAAGTGGTTAAAATTCT
GGAAGATTTTTTTTCTTATGTTATTTATAAAAATTTAAGGATAATACTTCAGCTAAATGTAGTGGGAGGAAGTAGCTTGTTCATTAAATTAAAAGTGCTG
CTTATACAACTTCCGTACCTAGCTAGGGGCTCACTATTACAAATTAATCACTGTTTATATCTGGTCTGGTACATTTCAAAACTGCTTACCACCCAAACRA
CCACTGGTGTTTTCTTCCTCGCCCTAAGTYCCACTGTGGTTTACCCTAATCTTCCCAGAGACTTCCCACACAGCCACTGCCTCACTCTCTCCAGCTCACC
ACCACTCTCAAAGAAGATAAGAAGTTCGTAATTTGACTAAAGCTATCCTTTGAAACCAACTTCGGACTAATTATTTTAATAGTGTTGATAAGCCATCTGA
TTCTATCTCTTGATCACATTATTTCAAAATATTTCCTACCCTATTGCCACCTTTGGCTTACCTGAAAATCTCAGGTCTTTGTTTAAATAAACCTGACCCT
GACCTATGGAGACGGCAGTCTAGGGTTGTGTTCAGTTCCACCTATTAGCTCTATTCAAAGGCTATTTGCTACCTGCCTATCATATGCCTAGTAACATTCT
AGTCACTTTGTAGGCAGAGAAAAACCTCCATATAATAAGAACCTCTGTTCACAGAAGCTTTATTTCTTTCCACAAAACAATTAAAAGATAGTACATCCTC
ATACTCACTATGGGATCAGCATTAAAAAGAAATAATCAGAGCAATTCCAGTTGTCCTGGAGGGATTTCTGTGAGGTTTTGTTGAGTAAAAACAGCAAGAT
GCATAAAAGTGTTCCTAGCATGATCTTATATTGATCAAAAAATGCCCCTGTATATGTTTATGTATATATGTCTCTATATGATTATTTGAGCATGGGCAAA
AATATAGAAGAATTCAAACAAGGTTGTAAACATGGGCTCCCCTGGTGGAATGACTGATGTGGTGGAGAAGGAAAGCAGAGATATGTAATAAAAATAGAAA
AGACGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACGTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCACCCCGGCTAAA
ACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATG
GCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCTCTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAA
AAAAAAAAAATAGAAAAGACACAGAAATAAAATTATTATTGTTATTATTTATTATACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGTTTTGTTAC
ATAGGTATACATGTGCCATGTTGGTTTGCTGCACCCATCAGCTCGTCATTTACATTAGGTATTTCTCCTAATGTTATCCCTCCCCCAGCCCCCCACCCCC
YGGCAGGCCCCGGTGTGTGATGTTCCCCGCCCTGTGACCAAGTGATCTCATTGTTCAGTTCCCACCTGTGAGTGAGAACATGTGGTGTTTGGTTTTCTGT
CTTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGTTTCATCCATGTCCCTGCAAAGGACATGAACTCATCTTTTTTATGGCTGCATAGTATTCCATGGT
GTATAGGTGCCACATTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTT
GGCTCACTGCAAGCTCCGCCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCACCACTACACCCGGCTAATT
TTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTGGCCAAGATGGTCTCAATCTCCTGACCTCGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGG
GATTACAGGCGTGAGCCACCGTGCCCGGCCTACGTGCCACATTTCCTTAATCCAGTCTATCATGGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATG
GTGAATAGTGCTGCAATATACTTACATGTGCATGTGTCTTTATAGTAGCATGATTTATAATCCTTTGGGTATATATCCAGTAATGGGATTTGCTGGGTCA
AATGATATTTCTAGTTCTAGATCCTTGAGGGATTGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACACTCCCACCAACAGTGTAAAAGTGTTCCTG
TTTCTCCACATCCTCTTCAGCATCTGTTTTTTCCTGACTTTTTAATGATCGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCAT
TTCTTTAATGACCAGTGATGATGAGCATTTTTGCTTATGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGCCTGTTCATATCCTTTGCCTACTTT
TTGATGGGGTCGTTTGCTTTTTCTTGTAAATGTGTTTGAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGCTGGGTAGATTGCAAAAATTTTCTC
CCGTTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCCGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCTGTTTTGGCTTTTGTT
GCCATTGCTTTTGGTGTTTTAGACATGAAGTCTTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTC
TAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTTGTATCAGGTGTAAGGAAGGGATCCAGTTTCCGCTTTCTACATTTTKTTTTTTTTTTTGAGA
TGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGTTCTAGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCT
CCCAAATAGCTAGGATTACAGGCACATGCCACCACGCCCGGCTAATTGGAATAAAAGTATTCCTTAAACAATATGGTTCYTAGAGGAGAGACACTAGAAA
CTTTTTTTTTTTTTTTGACAGGGTCTCCCTCTGTCATCTAGGCTGGAGTGCAGAGACGTGATCATAATTTACTGCAGCCTCGAACCCCTGGGCTCAAAGG
ATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGTGAACCACCACACCCAGCTAATTTTTAAAAATTTTTTATAGAGATAAGGTCTCCCTAT
GTTGCCCAGGCTGGTCTCAAACCCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCTCAAAGTGCTGGCATTATAGGCATAAGTGACCATGCCCATCCTA
GAAACATTCTTTTACAAATCAGAACTAAAACAAGGAATTCCACCATCGCTAATACTGTTGACATTATTTGTAAAGCCCTGTCCACTGCAGTAATTCAAGA
AACAAGTAATACAAATTATTATTTGAATTAAATATAAAAAACATTACTTACTCATCTTAAGTGGCTGCATATCTGCAGAATCTAAATATGTTAGCTTTAA
AAATTATTCAAATGAATTAACGTTAAATGAAGTGCTGAATGTTCAATAAATATTTAAATATCAATAACCTTACTACATGTTAAATAAAACAAACTTTTAA
CTTCATGAATAAAAAGTCCTATTCATAAAAACAACAGAACTACTSAGCYATAAACTTAAAGAGCAAGGTACATATCCTGCATTAAARCCATTTTTACTAA
GAGATATGTGTTGGAGTCAGCTACCAAAAATAGTAATTTTGCTTTGAACAACTTAGCTTAAGCCGTTCTTTGTAATAGTAGTTAGATAGCAGAGCAGTGG
TGTATTAAGGCTATTTTTTTTTTTTGAGACAAAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCTGTGGCGCGATCATGGTTCACTGCAACCTCTGCCTCC
CGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCCACCACCAAGCCTGGCTAATTTTTTATATTTTAAGTAGAGACGG
AGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGAACTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCG
TGCCCAGCCTTAAGGCTATTTATAATTTATCATAGCAAAACCTTATTAATTAAAAACATAAGCATAAAGAAAAATAAAAACAAAAATACACCAAGTATTT
TCTTAGAATATATGGAAAACATCTTGAACATATTCAGGCATGTTCTACATTTCTTGGTGAGAAGATATCATAAAAATGTCACTTCTTCCTCACCTATTTT
TCTTGATTTCATGTAATTCCAATGATTTTTGAGTTAGTGTTTATTTAAAATTAATATAAAATTCATCTGGAATATCATGAGCTGATCAAGAATATCCAAA
ACATATTTTGGAAAAAAAAAAGAAGTCAATTTAGGCAAGACCACTCCCATTAGATTGCAAACATAGATGATAGATAGATAGATAGATAGATAGATAGATA
GATDTCAAAAATAATTTAATCCATGATTCTGGTTTAAAAATAGGAATATAGATTCATAGAATATAGTGGAAAGCTCAGAAATAGATGTAAAAATTTTAAA
GAACAGATATCATAAAATAAGAGGAAACAAAAATTATTTCATAAAATGTGTGAGATAACTGGCTTATACTATGGAAACGTAATTTCATATTTTACATTAA
ATATAAAAATAAAATTTAGACTAATTAAGAAATTGATATGTAAAGCAAAGTCACAGAAGAACCAACAGAAAATGAAGTTGAACATAATTTGAAAGTATGA
TCATTTATTTTACCTCTGAAGCAATATAGTATGTAATAACAAAAGAAAAATATTCATATACATGATTTCCTTTTACAAAAAATAAGAGTTAACTTGGCCA
GGCATGGTGGCTCATGCCTGTAATCCCAGCAGTTTGGGGACTGAGGCGGGCAGATCACCTGAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACCTGGTGA
AACACTGTCTCTACTACAAATACAAAAAAATTAGCCAGGCGTGGTGGCAGGTGTCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTAA
ATCTGGGAGGTGAAGGTTGCAGTGAACCAAGATCGTGCCATTGCGCTCTAGCCTGGCTGACAAGAGCAAAACTGTGTCTCAAAAAAAAAAAAGAGTTAAC
TAAAGCACACACTTCAGGAAAATATTTGCCACTAACAAAATATTCATCATAATGTAATAACACTAAGAAAAATTAAAAAGAAAAACATCAATACACCAAA
AAGTAAGTGGGCCAAAACACATATATTCTCACAAGAGGAGATTCAGAAAGTAGATATAAATATGGAAATATGTTCAACCTCACTAGTTTTCAAATAAATA
CAAATTAAAGCGATAATAAGCTATGCTAACACCCAGTGTTGGTGATGCCAATTAGCACAACCTTTTTGGAAAGCAATTTGGCAGCATGTTTCAAAAGTCA
TAAATATATTCATTCCGTTTGAAGCATTAATTTCAGCCTTAGAATCCTGAGGAAATAACTTGAAAGAAGAAAATCCCTAGGCATGAAGATGCTCTTGCCG
TAGCATTTATAGAATTAGAAACCTGGAAATAATGAAACTGTTTAGCAATAACGAATGATTCAGTAAAATAAGATATGTCGATCTGATAAGAGTGTTGTGC
AGCAAGCAATTCTTTGGCCTTGTGAATGTTGCGGGCTAATTGACACCCCAGCTCCCTCTGCATCCCACCTGCCCTTTAAGTCTTCACTCCCTCTTTATCC
AGCTTGATTCACGAAAAAGCCATCAGCCTGGTAAGGAGTCCTATACTGGGTTTCTTAGGACGAAGCTTCAGCTTTTTAACTGTACTCGCCTGGACCCCAA
GTTACGCAAAAATACCTTCACCTCACTGGCTCCTCTCTCCTTCCACTGCACCTGAAAAAAACATGCTGTCTCCTCTTTTCAGGTCCACTCCAACCTGGTT
TCTGCCCCAGTGTTCCCCTGAACCTGTTCTTGCTAAGGTCACTAGTGAACTCCATGCAGCCATTCCAGCGGACACTGTAAGGTCCTCATCTAACTTGGCT
GTTAGCCAGCATTCTTGAAACTGTCTTTTCCATTGCTTTCCATGGCAYGCCCACTCCATGCTCTCCTCCTTCTCTGTGGCCAGGCCTCAATTCCCTTGCT
GGGCCTTGCTGGTCCCTTCYCTCCCTGTCTCTAAATATTGGAGCCATTTAAGGCCCAGTTTTGGCTCTTCCTCTCTTCTTACTCTACATTTCGTCTGTAG
ACAATCTTATTCACTTCCATGGCTTTATAAATCATCTGTATGTTCATGTCTCCTTTATCCCCACCCCAGATTGATCCTCTGAGCTCCAGGCCCATACCCA
ACTTGACACATTTGCTTGAGTATCACACAAGTATCTTGAACTACATACACCTAAAGCTGAAGTCTTGAATCTTCTACCCATCTGCCTCTCCATCAGTATG
CCCCATCTCCATGTATGGTACCTCCATCCATCCCATTTGCTCACCAGCATCCTCCATATCCACATCCCCCACTTCCAGTCCTGCCCCATGCCACTTCTAA
GGGGTACCTTGACTGCCTCGTTCTTTCCCTTTTCATTGTACCATCTTAGCTCAGTCATTTCTTGATGATTCCTTGATACCATGTGACCTTCCAGTTTTAT
TCTGGTGGAATGTTCTATACTTCTACTAGTCTATAAGCTCTTTGAGGGCAAGGACCATAGCTGTTTGGTTCACTGGTATATTCAGTACATTGTGCAGCAC
TTGGCACATGTTGCAAGCTTGATGAACATTTATGGAATAAATAAATGGAATAATTATAGTTATGTAAAAGCTACATATGTGAGAACTAGAAGGAAATGTG
GAAACTTTAAAAGAGTTGGTGAAAATGTGATTTTTAAAAATTCTGATACTCTTGTTATAACGTTTGAGTGTGAATTCAATTTAAGACATATATGTATACA
AGATAAGATGTGTGGTGCGGATATAAATGCTGCGTTGAAGATTSAGCATGAATGAGAGTTCAGGCATTTGTTGAAGATGAGTTAGTGGGAATGGTTTGGG
ATCTTTCACTGTGCTCAGAATTCCCTAAAGATAATTGAACTCCAGTCCAGGTGAAGTGGACTGAAAGAACTTGCCTTCTTCCAGCATGATAATATGGCCA
GAACTTTTTGAAAATGGGAAGATAGGGGTGACCTCCGGGGACTAGATTAGACTTAGCAAGCTTATCAAAGAACCAGGGAGACAGCAGAGTCTTAGGTGGC
AGTGCCTAAGTCTGGGAGGAAGTGAGAAGTATAACAGAAGACAGAGAGCTGCCAGGTTGTCTAGACTATGGCTCTTCATAGGGGGTGATAAGGTTACCAC
TTCCTGCACTCCCAGGTTCCTTTTACTTAGYGCTCATTCCCATCAGATCCCATCATGCGCCTGATGCAAAAGGAGTCCACTGTTGGCATGTTAATTCCTA
TAATTTCCCTTCTGAACAGGACACCTGGCTGCCTTGTTCCTTTGGACCATTTCCTTGGGAAAAAGTTACTTTGGGGACATTTCAAGATTGTCTTTTTGTG
TCCCTACTATACACACACACACACACACGTACAGGCACACAGATGTATCCCTGTACACATACAAACATACACACACAAAAACACTCCCTCCACCCAATTT
TGATCATATGTTTGACCACAAGCAAAACCTTAACTAATTCTAAAGCACATTTCACAGGCCACCTTCTTTAATCATTATCTAACAATATTAGCAATAAGGA
ATAGTTGACAAATGTATCTTCACACCTAGGATCATCAAGGCACGCTGTCTTAAATGAACCCCAGATCAAAGAGAAACAGATGAAAAAMGTCATGTGTTTG
GATGGGAATAATTAATATCATAAAGACAGAAATTTTTCTAACATTAAGGCATATATTTAATACAATTTCATTTAGACTCAGTCCCCTCAACCCCTTTGGA
TAAAATGAATATAGATGAATAATGCTCAGGAAATGGTAAGAAAATTATGAAAATAGAGATAAAGCAGGAGAGATTTGCCTTATCAGATGCTAAATATATT
TAAAATTACAGGAGTAAAAACTTAATGGCATTGGAATAGAAGTAGATCAATAGATTATTAGAGCAGAGCAGAGTTCAGAAATAGATTCCAGATAAATGGA
AATTTAATATAGGACAAAATGATATTTCAGTTCAGTGGGAAAAGGAGGTTTGTTTTTGTTTAATAAATGGCTGTGACATAATTGATTAACCATCTGGATA
AAGTTGGACCCTTATCTCACACTGTATATAAAAATAAATTCCAGATGGATTAAAGATATAAGCTTAAAAAATAAAGCAATAAAGATGTTGGAACAATTTT
ATATTTGTCCATAAGCTAGAGTTTGGGAAGCACTTTATAGCCGAGACAAGAAACCCTGTATTTGATTACTCAAAAGCACATTGTGTAAGGGTAAAAGATG
CCACAAGCAAAAGTTACAAGACAAACAATAGATTAGGAGAAAAATATGTGTCAGAAATATGACAGATAAAGATTAATATCTACACCATACAGAGAGCTCT
TGAAAATTGATAAGAAAAATATACACACAAAGCAGAAAAATGGTCAAAGAATAAGAATATGCTCTTTACAGAAGAGCAAACCAAATAGCCAACAAAACAT
CTATTCTTTTATATTTTTATTTATTTATTTATTKATTTATTTATTTATTTATTTATTTATGGAGGCAGTGTCTTGCTCTGTCACCCAGAAACATCTATTC
TTTACATCAGCTCTTCTGAGAAATTCTCCCTCCTGTGGCAGGTCAAAGGGTGAGATCATATGAGGCTCTATGATGGATGGAAATGAGGCAAAAATCATCA
TTTTTTCCCCATATCTTCCCCGCACAGACTACAGTGACTATGGTGGGAAGCTTCTCTCCAAGACACTCAAAGTGCATGGTGAAGAATGTGGACTCTAGCA
GGGAGCTCTGCCAGAATAAAAGTCAGCCCAACCGGACCTGCACCTGTAGCATCCCAACCAGAGCAACCTACAAAGGTATGTGGATTCTTCTGGGTTATTT
TTGTTATAAAATCAAAAAAACAAGGGAACCTCCTGAGTTTAGTTTGCCCAAGGAATATGAATAGTTCCCCCTCTGTAGACTCACTCCCTCACTACCCCCT
GGTTCCCACTTTTGCTCTGGGTCCTCCTCACCTCTGGTTTACCTCATTCATTTACTCCAAGACCCCACTATCAGATATGCCTGGACAATGACAAGAGAAG
GGCAAGTTGGATAGGAGAGTGCAGAAAAGCCAGATAGCACTGGGCCGACTACCCAAATGGTTTAGATAATTCAGAGATCTGAAAAGCAAGAAATGCCCTG
GGTGAGATGAGAAATTTTAACAACCAATGTTCCATCAGTTTGAGTTCATTGCATTCATACATCCATCCAGGAAGTATTTACTGAACATCTACTATATGTG
AGGCACTATGCTAGGTACTAGGGATACAGTGACTCCCCCTTGCCCCTAAAAAAAAGACTGTACACTGGGATAGAGAGAAGTAAGTAGCTCATTACAATGC
AGTGTGTAAATACAGGGAACATAGAGTACCATGAGAAGCACATGAAAAATGTACCTTACCAGACATGGTGGAGGGGGAAGGGGTAAGGAAAGCTTCCTGG
AGGAAGTGATGTCCAGACAAGGTGAGGGTAGAGTTGAGCCAGACAAAGASGATGGGGATGGGTATTTCAGACAGAGACCAACCTGCATGATGGCCAGGAG
ACAAAAAGCTTTATTTGAAGAACCAGAAGAGCTTCTACATGGCCAAGGCACATGGGGTAGGGGAAGGTGGAAAGGGGAGACGGAGGGAAGATAGATACCA
AAGGAGGCAGCCAGGGGACCATGAAGGGCCTTGTGAACCGTGAATCCTGCGAGCTGTGATGARACACTGAAAGGTTTAAGCCGGAGGCTGGCAGCACAAT
CAGATTTTTATTACAGAAAGGTTCCATTGTGCATTGTCTGTCTTTCCTGCTGGAATGTAAGCCCCATGGAGGCAGGGACTTGGAGAAGACATCTTCACTG
CTGTGCTTAGAAYAGTATCTGGCACAACGTAGGCATTCACAATCAATAAATGTTTCTTGAATGAATGAATGGCTTGAAGGTGGAGAATGGACCAAAGAAG
GGAAAGACTGAAAGACTGAGTTCCAAMAGATCACTTGGAGGGGTCCAAGTGAGAGRGAAAGTGAAAGCGGAAAGCTACTGGAGGGTCCAGGTGAGAGGGA
AAGTGAGAGCTGGAGGAGAAGCCAAGGGGGATGGAGAGAAGTGGATTCAATAGATGGTCAGTAGGTACGGTGGGCAGACTGAGGACTCCTGAGTCTCTTC
GAATGAGAAAGACTAGAAGTAGAGTTGAGTTCATGGAGTAGGTCTCCAGGACTGAGTGATGATCATTAATGGAGCTGAGTGGGTTTTATGGTGAGAGCTG
GAGTTACCCAATATCTTAGTCCATTCTGGCTGCTATAACAAAATRCCTTAGACTGGATAATTTATAAACAATAGAAATGTATTGCTTACAGCCCTGGTGA
CTGGGGAGTCCAAGGTCAAGGCTCCAGCAGATTCAGTGTCTGGTAATGGCTTGGCCTCTGACTTCGCAGATGGTGCCTTGTTGCTGTATTCTCACATACA
GAAGGGGCAGGGGAGCTCTCTTAAGCCTCTTCTATAAGGACACTAATCACATTCATGAGGGTGCAGCCCTCATGATTTAATCACTTCACAAAGGCCCCGT
GGCTTAATACTATCACATTGGGTATTAGATTCCAACTTATGAATTTAGGGGAGACATAAATATTCTGACCATAGCACCCAATTGATCCTAAATCCTTCAA
AAGGCAATTTAATGCACCAGGCCAGAGAAGTGAGCTTAAAAATGCTCTCAGCCACTGGGTGGTGGCTGTTTGGGTCTGATTGCTTGGAAAATCACCTCAA
TTTTCCACTTTACTTTGTCCACACTGTGCAGCCTTTGTGATGCATTTCTGGTTAATTTTGTTCATTAAAACGCAGACCTTGCTCACCTATAAAATATGCC
TCTAAAGTATTTGAGATCACYTTGTAAAGCTAGTTGGTTGCTTTTAGCGCCTCCATCCGTTGCACCCAACCCTTCACCTGCYGTTTTCTGAATATCTTAC
ATATTCTGAACGGGCAAACAAATTTGCTTCCCAGCCTCTTGTACTCAGCCAGCCGGTGACCATTGCCAAGCCTTTATCCATGGCCTTCTTTAAACCTAGA
ATGGCTTCCCCCTTTCACAAAATCCTGTCTCCCTTTCTGCTTTGAAACATTGGAGAAAAGTCACCTCTTCCACATGCCCTTGCCAGATTCTGCTCTGACT
TTCTCAGCCATTCTAACACCCCTTTGGTCCTCCATGCACACCCCTATCTTGGCACCCAGGTTACCAGAGGGAACTGAAACCACTCATATGGTTGTTTCCT
TGACTGTGCTGTCATCACCTAAATTATTTTACCTCTTCCARAATAACTGTAAATGCTTTCCTAGAAGAAATCATGAATATTCATTTCCTTGTGATATTTC
CAAATAGAGTTTTGTGCCTATTTGGTGCTTGAAAAAAAGTATGACTTTTGCAGTCTTCATCACCGGACACTTATAGATTCCACTGGAGTGTATTTTCACT
GGGAGTCCCTCTGAGCTGACTGTCCCTGTGTTCATTCTACTCACATGTATCAAGTGTCTGTTCAGAGGCTTTTGCAGAGAGGTCATGCCAGCCCTCCAAG
CCTCTTTGTCTTGAGAACAGAAGATGATCATTTCACACACACCCTCTGTACGTGAACCGAATTTTATGTGGAATTCTGACTTTCAGAGGGAGTGTTATTG
CTGTGGAGAAGGACCTTAAAGTAAGGGTTTTTAGACTTTGGGAACCACACACTAATAAAATTTCAATGAGAAAATTAGGGTTGCCAACGGAGTCAAGCCA
GCTTCTTATTTTGTCAAGACTTAGATTTAAAAAGCACCCTCTCGGCCAGGCATGGTGGCACACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGC
AGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATGGTGAAACCCCGTCTCAACTAAAATAAATAAATAAACAAACAAATAAATAGTACCAC
CTCCTATTCCTATTAATTCACCAAAGGAAAAAGATATTAATACCTTGTTATTAGCACTGGTCCGTGGACAGAAGGGGATTTGAAAGGTGCTATTCTGTGT
TGTGGCCCCAAACCTGGGCTCTATACAATTGTTCCATGGGGAGCAATGCAACCACAGGTTCCTGGGTCCACCCCAGGCTTGCTAAATCAGAATATTTAGG
GGCATGGCCCTGGGATCTATAGCTTTGTAAATTTCTCAGGTGATTCTGATAGAGAACTGGGTTTGGGAATCACTACCTTGGATAGAGCATATATGTTTAA
AGAGATACAGGAAATACTACATTTCTCTAATGCTGATTTAGTAGTTTTGAAATCCTTGTTATTTTGTTCTTTTGGGGTTTTCTAACCAATGAGTAGGTTT
TCAAAGGCAAATAAGAAAACCTTTATCACAGATTTGGTGACAGTTGACCCCAAGAAGATCGTGGAACCCAGCCCATGGAAACTACACTTTAGAGTATGTT
AGGTAAATATTTGCAGCGTGGATTTTTCTGAAGGTGCAGGATTTCTAATGCTCCGGTTTTCATGTTCTAGGCACTTCTTGCTCGGTGACTTGTTTTGTTC
TTATGCCTTGGCCAATTAAAAGCTGAGATAGTGATCCCTAGGAGAGTATGAGATGTAAATGAGCTGTAAAATGGCTTCTTCMTAGTGATTAYTCATGGGA
GGCTTGGAACTMGAGGTGGGTTCAGTCTGTTTGGAGGCTTGAGCTGTGCACTTYGGCTGCCTGATGCGAATGGCCTATGGGGAAGGAACCACATACTGAT
TGAAATGTTAGCAAACAGCTGGCAYGCTCCTGCCCACTATGCAGAGGAAGCAAAAATATTTATCTTTTTTTGCATTTACAGCTATGCTTGACTATAGCAG
GACTCCACCGTAAATGACATTTTCCCCCCTTCCCTCCAGATGTTTCAGTTGTCAACGTGATGTTCTCCTTCGGTTCTTGGAATTTATCAGACAGATTCAA
CTTTACCAACTGCTCATCATTAAAAGAGTAAGATTTTATTTGAAATTTGAATATTCTCTCGTTGATCTTAATTTACTTATTTGTTTGACTCCTCGATTTC
CTAAAGAACTCTTTTGTGAGACAGAACTTTCCAAAATGCCTTTTGAAGCATGGTGTAATGGGAGATAGGAGAGCCACCGAGCTAATAAGCTCCGCTCGCA
CATTCTAGCCCTGASTAGTAAGCTGGCGCTGYGAGGGAGAGAAATCCCCTGTGCTTAAGTGTTCATACCCACAGGGAAATATGTCTTCCCAGGACCGAGA
GGCAGCCTTGAAGTAAGTAAAGAAGAAGGGACAAGCCAGGTGTGGTGGCTCACATCTGGAATCCCAGCACTTTAGGAGGCTGAGGTGGGCAGATCGCTTG
AGCCCAGGAGAGTTTGAGACCAGCCTGGGCAATATAGTGAGACGCCATCGCTACAAAAAAACACAAAAGTTAGCCAAGCATGGTGGTATGTGCCTGTAGT
CCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACCTGAGCCTAGGAGATGGAGGTTGCAGTGAGCCGGGATGGCGCCCCGCATTCCAGTCTGAGTGACA
GAGTGAGATTGTCTCAACAAAAAGAAGGAGCGCTGCTAGGTTCTCTTCTGATTGGAATGGCTTYGGGAATTTGGGCGGAACGAGAAGCCTTGAGTGTAGG
GGTAAAAAGTCTTACTTGAGAAGGACAAGGTGAAGTCCCTTTCACCAAAAGAACATGTTCCTGCTGCCCCCCTTTTCACCATCTTTGGCCTCTTTGAGCT
ACATAGGCCCCTGAGTTAGTGCCAAACCTCACTCCTTGCTTCTAAAGCAGCAAGAGGACAGAGGAAATATGTTTCTCAGATGCCTGACTTGCCAATTGGA
AGTTGGGATGGAGGCCTGCAGGGCACCTTGGGAGGCTGCATGAGTAGCAGTGCTGTAGATCACTGCATAGTTTGATTGACCAGTTATGTGAGCACCAAAT
GGGAGTTTCTTTTGTCCTGGCCTGGGAACCATGGTTTCTATGGGGAAAATGAATTTGAACTTGAAGCTGAGCTAGGAGGCTGCTCTTGAATGATTAGAAC
AGGAGCCCCTGGGCCTCATCTCTTCCACTGAGGCACTTTGAAAAAGATGACACAAGGCCCAGTTCAATTATTGCTAAGAAACAGAATGGATTTAAGGAGA
AAAAAATACAAAAATTGCTACAGAAAGCCTCAGAAGTTCATGAAAATAGGAAAAAAGGGTGTGAATTAAATAGAATTATATAGCTCAAAGACAGTTGAAA
GAACGTAGCTCCCCCGATGCCCACTTTAAGGCCAGATGAAAGGAACCGACTAGCCCCAGGTCCCACAACTTGGTAATTAAGAACCAGACCTCAGACCTAG
GTCCCCCAGGGAGGGTGAGCGCCCTTTCCATAGGTAACTGCTTCCTGTTAGGAAAGCACTTAGTACAGTAATCACACCCTGGGGGTAGAAGAAGCGAGCA
AATCACAAACCCGTGTCTAGCTCACTTAGGTGGCCGGATCCACGCAAAAGCCAGTGTGTCCTCTCCTTCCACGGAAACTGCAGTTTCTGTAGATCAGAAT
CTCAGAATGTTTCCTCATTTCTTGGAGAAGGTATAAAACAAACTGGGTCCCCCGGCCCTGTGCTAGCACCCCTTGCTAGAGCTAAGGCTTCCTCTGGCCT
CCCTTGGCCCTGTTTCCAGATCAACCCTGATTTCCCTTTTTAACATTCCTTCTCATAAGTGCTTTTCAAGTCCTCCACAGTTTACCCAATCATGATAGGT
GATTTGATTAGTAGAAACACAATTCTTCCTTAATTTGATTATAAAGCAAACACAGGCACCTCGTTGCCTCTGCTTGCCAGCTAACACTTTCTGTCTCACA
TCTTCCAGGCAGTTGGCAGTGTGACTGCTGGAGTGAGTGAGGGCTTCCTGATTTTGGAAGGCAGAGTGGGTAGAGGCGGGGAGAGAGAGAGATCCATCTC
CAGAGGGACTTACCTGAGGGTAGACAAATAGCAGAACTGGATTCAGAAACAGATTCATTGGGTTCCTATTATCTACAGACCAGCAGGTGACCCAGCTTCA
GGTTTCCATGGCAACACCCCTGCAGGTGCCATTCCGGCCCATCAACCTGAGGGCTTCCAAGAGCAGGGCACAAAGCCTCACAGGAATGTCTGTCCAGGGA
TTTTTTTTTTTTTTTGCCTTCTTTTAAATGCTTGCATGCCACATCACAGAGGGAAATTCTAGGATGTGAACATTGTCCTAAAACGCAGGAATTAAGTCAG
TTTTCTGTGTTGCTAGATGCCCAGCATGCGTAGAAACTGGCTGCGCGTGGTGTAAAAGTGCAAGAAGGTGTATCCACCCCTTCACAGCTTGCGACCCTTC
TGATTATGAGAGAAACCAGGTAAAGTGACATTTTTGGTATTGTAAGTCTTAACCGCCGGGCATGGTGGCTCACGCCTGCAATCCCAGCATTTTGGGAGGT
CGAGGCGGGTGGATCAATTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGCAAAACCCTGCCTCTACTAAAAATACAAAGTTAGTGGGGTGTGGT
GGCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCA
CTCCCAGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAAGGTTTAACCAAAAATAAATGTTTGTGACTGCCTGGTCCTACCTTCTCTTTTATGT
TTGTTGCACACTTTGAATTTACCACCCATCTGGATGTTGAAGGGATGTTCTCCATTCCAGGAACAGTGTCCAGTGGCTGTCGAGAAGACATCAGGAGGAG
GAAGACCCAAGGAGAACAAGGGGAACAGAACCAACCAGGCTTTACAGGTCAGACCCTATTTTTGTGTGGTTGAGGGGAAAACCTGTCTTTGAAYGACCAT
GACCACAACTCATACTACTTTGGGTTCCTTAAAAAAATTCTCTATTTTACTTTCTACCAAAATTCCCTTTTGTRTCTTTGGTTTTTTAACCAAGTTTCAC
TTAATTAGCGCAATACATCAAWGKCTGGACACTCACATAAAATAAATTAAAACTCTGTAATTATGAAAAATGATGTTGCTCTGGTCGAAATAAAATTGTA
AAGGTGACTTTGCGGCTCACTGGTGAAGAGCTGGAAGGAAGTTTAGCATTCCRTCTGAGGGATTTCAACTTGCACTTTATATAATTGCGTTTCTGGGGGT
TATGTGTGTGGATGGGGGTCTGTGCAAAGTGTGCAAACTAACCTCGATTCCGTTGTTTTTTTTCAACTTTGTAGGGACGTCTAACCAGTAGTGAACACTG
CTAAACCAGAATTGTTATAGAATGTGTATTTCTCTCGCCTTCTCACAAGCAGTTATTAATCCATGAACTTTCCTTGGAAATGCCCGTTATTTTCTTCATA
GTAAATTACATAAGCCCCCACGTCAGTCATGTTTGAAAAGAGGGGACATGTCAACGTAAACATTTCTGGGCGGAACACATGTGGCTGTGCTTACAACTTC
ACTCAGTCAACAAAAGTTCATTGAGCATCTATATGTGGTAAAACACAAAAAGAGGATAAGTCCTGCCCTCGCTAACCTTGGAGTCTAGCAGAAATAGACA
AATTAAAAATGACAGCTCTGGGGAGAAAAGGGCTCCATTTTCCATTTCTCTAATCTGTGGTTTTGACTTCTCCACTTGCTGCTTACCTAAGGTCAAGTGC
AAAGGTAAATAAGTAGCATATTTTGAATCATTACTGAAAAGTTTATAGTAACTTCAGGTGAATTAACAACCAGGCAGAGGGAATATGAATCAAATGGATA
TGAAGTTAATTAAAGGCATTAGAAAAGCTTGATGCTCAGGTATCTCCAGACTTTAGCAGTCTCTGAGGTCTTGTTAAGTAATGGGCTCCTTTTCTCATCC
CATTGGTTTGGAAAACTAAGACACAGCGACAAGGACTTGGATCAGGAAGACAGTGGCTTTGTGGCTTTTTCTTTTTAATTAAACTTTGTTGTTGTTCCAG
GGTTTGTTTGTTTGTTTTTTCGTTTTGATAAAATACACAAACAAAATTTACCATTTTTATTGCTTTTAAGTGTACAGTTAGTTGAGGTAAGTACATTCAC
ATCATTGCACAACCTATCTCCAGAACTCTTTTCATCTTGCAAAACTGAAACTCTATGCTCGTTAAATAATAACTCTTCATCTCTCCTTCCCCCCAGCCCT
TGGAAACCGCCATTCTAATTTTTTGTCTCTATGAATTTGACTACTCTAGGTACCTCATGTAATTGAATTTGTCTATTTGTGCTGGCGTCTTTCACTTAGC
ATGATGTCCTCAAGGTTCATCTGTGTGGTCGCATGGGTCAGAATTCCCTTCTTTTCTAAGGTTGACTAATATTCCAGTGTATGTATATACCATATTTTGT
TTATCCATTCATCCATGGATTAACGCTTGGGTCGCTTCCACATTTTAGCTATGATGAATAATGCTACTAGGAACGTGGGTGTGCTGCTATTTCTTCGAGA
CCCTGCTCTCAGTTCTTTTCGGTATATGCCCAGAAGCAGAATTACTGGATTGTATTGTAATTCTCTTTTTGGTTTTTTGAAGAACCATTGTACCGTTTTC
CATAGCAACGATACCATTTTGCATTCCCACCAACAGTGCACAAGGGTTCCAGTTTCACCCCATCCTCACCAATACTTGTTATTTTCGATTTTGTTTGATA
GTAGCCATCCTAATATGGGTCAGGTGGTATCTCATTGTGGTTTTGATTTGCATTTCCTTGATGATTAATGATGTTGAGCATCTTTGTGTATGCTTGCTGG
CCATTTGTATATCTTCTCTGGAGAAATGTCTAATCAAGTCCTTTGCCCATTTTTAAAATTGGGTTATTTTTGTTGTTGTTGAGTTGTAGGAGTTCTTTAT
GTATTCTGGRTATCAACCCCYTATCAGATATATCATTTGCAAATATTTTCTACCATTCCATAGGTTTCCTTTTCATTCCGTTGACTGTGTCCTGTAATAC
ACAGAGTTTTTAATTTTGATGAAGTCCAGTTCATTTATTTTTTCTTTTATTGCCCATGCTTTTGGTGTCAGATCCAATAAATCATTGCCAAATTCAATGT
CATGAAACTTTCTTTCTGCATTTATTTGTAAAGGTCTGTAGCACTTATATTTTGGCCTCTGATTCATTCTCAGTTCATTTTTATATATGGCATAAGAAAT
GGGTCTAACTTCATTCTTTTGCATGTGGATATCCAGTTTTCCCAACATCATTTGTTGAAAAAAATGTCCTTTCCCCCATTGAATGGTCTTGGCACCCTCG
TTGAAAATCATTTCACCATATTTGTGAGAGTGTATTTCTGGGTGTTCTTTTCTATTCTATTGGTCTATGCCTGTCTTTATGGCAGTAMCGCACTGTTTGA
TTACTGTAGCTTTGTAAAGTAAATTTTGAAATCAGGAAATGTGAATTCTTCAACTTTGTTCTTCTTTTTCAAGATTGTTTTAGAAAATAATAAACTTTTA
ATTTTGAGATAATTGTAGATTCACATGTACTTGTGAGACAATAATACTTAATATCTTTTACCCAGTTTCCTTCAATARTACTATCCTGCAAAACTATAGC
AAAACATCACAGTCAGGATATTGACGTTGACAGCAGTCAAGACACAGAACAGCTCTATCRTCACAAGGCTCCCCAGGTTGCCCTTTCACAGTCGCATCCA
TTTCCCTCCTCCCTCCCATTCTCCATCTCTGATGCCTGGCAACCACTGACCTCAGCTCCATTTCTATAATTTTATCATTTCAATAATTTTATATAAACGG
AATCATCCAGATGTACCCTTTGGGGGACTGGCTCTTTTAACTCAACATAATTCTCTGGAAATTCWTCCAAGTTCTTTTATGTATCAATAATTCATTCCTT
TTTATCGCTGAGTCGTGGTCCAGGCAGCGGCTTTTTAAACTTCTTTAATTTTAAAGATAAATATCATAAAGTCACTACCTCCTGGTTTCCTGCAGTGTAT
CTCTCTGCACCCTTTGAACTGTGTGGTTAAAAGGACTGGGGTCACCACAAGAGAAGAAGAAGGCTGAAAATAAACAAAAGCCCAGATCTGTTTTTAGTGC
TTCTCTGTGGATTACCCCTCTAAGTGTGGAGAAAGACATTTTGTTGATACTGACATGTTTTCTTTAAATATGTGACTCAGAGCAGAATCTCTCTTTTGTT
TGATAGGGAATGGAGTGTTATTTGTCACAGGAGGGATTTCTCGTGCTCTGTCAAACACTGCTGTCTTTCATTATCAGGTGGAATGTGTAACATTCTGGTT
TCCACTTTGGGCCTTCATGTTGGCCTTGAACAAAGCACCCAATGTCTTTGTGATTCTGTTTCTACCAGAGAAGTCACTCACAGCTTTGCTTCAATGCATC
TGCCCACACCACATATGTACTGAGTACTTCCTGTGTGCTAGGCACTAGGAATGGAGCAGGTACTGTCCTAGGCGTCTAGGATCCTGAACTTGAGTTGATT
CTTTCTAGAGGCATTTATTGCACACCTATTAGATGCAAKTATACCGACCTCCACAGATTCCATGAGGAGGATTCAGATGAATCAGGCACATCTCTGGCCA
TCAGTCTCAAGAATCTTATCCATGAGTACATGAGTAAAAATACAAGATTTTAAAAATATTAATATGAAGGTACAAGAAAGTACACAGAGAGCCTCTCTGT
GCCCGGGGCTTTGTCTTAGTCCTTCCTGTTTGCTTAAACCCAGTGCCTTGAAGTTGAAAACACTTAATCAGTGTGGTTGGTTAAGTCTTTGATTGATGGA
TGGATTGATTGCTGGAGATGGCATTTCAGCCCACCTTTGAGGACGAGAAGCATCCAGACACATGAATGCGGGTATTTGAAGCAGAGGAACCAGCATATGC
ACAGTGTAGGGGTAGGAGCCAGAAGATTCCAGGACACACGCTAGAGGAAACCCTAAGTAGGCACAGAGGATGCAGGAAATTATGAGACACAAGGTTGAAA
TGACCCTGGAGCCTGCATATATAGGGCCTCACATACCAGTCCTGTGAGTGCTCRCTTTATTCTTCAGTGGCARTGGAATGCCATTCAAGGTATCTTATTT
TATTTTTTTAGTGTATGAGTTTGCTAATCCAAGGATCTGGTACTTATGAGGTAGGGTCCTGGTTCAGTCCCTACTAGGCCAGTAGCCCTCACACTGTTTC
ATGACCCCAAGACCTACYCCTGTATCCTGACCCTGAAACGTATAGCGTCATCTGCCAAGGGGGCTGAGTTACAGAAAAGTGTGACCACAATAGAGAAATG
AGCTCAAAAATCTATGTATGACCTTGGAGGAGGAGTATTTCAAGCTATAAAGGCCAGTGTCTGACCGTCTGTCTGTTTCTTTCCACATATCTAGTAGTTG
AAACCTTGTCAGGGACCGTTGGCCCTTTYACCCTGCCCTGACCACTTCTCCTTCCATTTCTTAACATTCTCATATCTGGTGCCTTCACTCACTGAGACCA
GAGATAGTTCCCCTCTCTTTTGTGCATTCAAGGAGAGATTGTGAAGATTTATGATATGATGTCATTCTAATATTTGTTATTACCCTCAATATGCTTATCA
CTATAGGGCAGAAATAAAGCATACAAAGTCATATCCCCTGGCAATTTACATTCAAATGGTTCTTTCTCTTCCTTGCACCTCCTCTTCTCTTCCTCCATCA
CTTCTTCCCCCCTCCGAGATGGAGTTTCACTCTTGTTGCCCAGGGTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTGCCTCCCCAGTTCAAG
TGATTCTCCTGCCTTGGCCTCCCAAGTAGCTGGGATTACAGGCACCCGCCACCATGCCCAGCTAATTTTTTCCAATTTTTAGTAGAGACAGGGTTTCACC
ATGTTGGCCAGGATGGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGCTTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCGGCC
CCTCCATCACTTTTGAATATGCATTTTTGATCTCTCACAGGCAATCCAGATGAATGCTTTTGGGGACCTTGCCTTCAAGAGTGAAATTAAATTTCACATA
TACCTTGCTGAGTAGCTTCTATGGGCCTAGCATAGAGCCGGGTACTGTAGAATTAACTTACAATCATTCATTTATTCATTCATTCAAAATTTGTTTGCTG
AGCAACTACTATGTGCTAGACAGGCAGGCAAAGTGTGTGACTGCATGGAGCTTACATGGTAGAACTTATAATATTTTGGAGGAAATAAGATTCATTTTCA
TGAAGCAGTTGCATGTGCACAAGAGAAAAAGATACAAGAGAGAATGCCAGAATGTACTCAAATGAACAGTGGTAGCTAAGATTCGCTGAGCCTGTGCCAT
GCCCTGAGCTCAGAGTATCTAAGCCTCACAATGGACCTATTTTCCCCATTTTATAGATAAGGAAATTTTAGCTCAGAGAGAGCAAATGGTAGGTAAGAAA
TATGAATCCAGGCAATCTGACTCAACAGAGTTTTAACCATTACCCTACATTGTATGCCCTAAATTGAATATAAACATTGGTTAAACCATACTACTGATGA
TATTAATAAAAGTCAGTCTGGAAAGGACTCTAATATTGGCTTCTCTTGGCATTAGACTGTCAAAGCCTGCCCCCGATCCATGCCACACATGTAGGGTGGG
AGCAAGACCTCCAACCTGGCCAGGATGTGGGAGGAGTGTATTAACCTCAAAGACATGGGAGAAAGGGGTGGGGCAGGGTGTGGTCCGAGGGAAGGAGTCA
GACCCAGACACGGCTGGGCATCTGCTCCAAGACARGGAGAGCAGAATAGGCTTAGTGAGGCAACTGAGGCCCTGGGGAGAGGGGAGCAGCAAGAATCTCA
TGCATGAGTCGAATCTTGGCCAAAGGGTGGACTTTGAGGGGCTGGGTTTAAATTAGAATCAGGGCCCTCCACTGGCTGGGAAGAGCTGCCCTCCCTGGCC
CTGGAGTTTTGGTCACCCAGTCCAGGTCTGGGGAGCCACACTCAGAAGGCTCAAATGCCAAGAGGAATAGCAGGTTGTTCGGAGGGTGGGCTTGGCAGCC
AAGTCAGCCTCCTTTTAGAGTCTGCAGCTCAGAGAAGTGAGTCTTGATCTCTTCGCACAGGGCATTGGTCTGTCACCTTCTATCTGGAAGTCTCAAGCTC
TGTGTCCAGAGGCACTGCTCACTATTGGCATTTCCAGGGCCAACTGAAATCACATCTCAAGTTCCCTGGAGCCTGTACCGAGGGGCCCCCGTGAAAAGGC
ATTTGTCCCAGGGGCTAAGCATCAAATGGATAACCATTTTGTTCCATTTCACACTCTAATTTTTCTTGAGTGGACCTGTATTTTGCTATTTTCTTTCCAT
ATCTCACCTCCTTTTACTCTTTCCCATTTCCACGGCTGGTTACCACTCTTACCAATTTATACATTTCATTAATATATTAGTTCTATCCTCTTCTCAGTCA
TTAATAAAGATGTTAAATAATCCTGAACCGAATACTCACTCCTGTAGGGCCCTACAGGACTCTTTCCTTTAATTAGTTGTGCTACCTTTCATCTATCTAA
TGTCCTTCGGTTTCAGATTTCCAGCTGGTTTTGAATCCATGTGACTTTTTATCTAGTCCTGTTTGAACTAATTTCATGAGTGAAAATCCGAGAGATGTTT
TACTGAGTGTTGATTCAGGTCCAGGCCTACAGAGAGTTTGCTATATTCAGATTTTTTTTTAACAGATTAATAGAGTACAATTTGGCCTTAATAAACTGAG
CCCTCCTAATGCACCTCTTTCCAATATTCTTTTCAATCATAGCAGTATTTTCTCCATTAATGTCATGGTAATTTGAATTGTGTTGACGTCAGACTTCACA
AAAGGTACTCTTACTGTCAGAAGTAATCCTCTTAGACCTTTTGAAAGATAACTATTTCTTAGTGGTTGTGCTATTTCCAATATCCTATAATGACTTAGTT
AAAAATAAAAAATAAAAAGGATCGGGTATTCTATAAATCTCCTAATTAACCAGCTTCTAATGTGCTTTCTTATACAAAACAGGGACTGAAAGCCAGAGCT
CATAGTAGTTTATTAAATAAGTTCAAATTGTGCAGCCATTTAAAAATAACCCTGAAGTCTTTAAAACGTAACCTACAGGAAGCACACTATTCTGAGGTTA
ATTGCTGGACAACATAGGGCTGTGACGGTTATAGTCAACGGTATTTTGATTTGAATACATAGAAATCCTTGGACATAGAGTGAGGGAGGAATCCCACGAT
AGGGCTCTAAGAATTTGTCTCTTTGTATTGAGCTCAATTATGTTTTACAATTAACTCCCTCTAAAATGCATAAGCTTATAGGGCTGGCTACTATATGCCA
GGTTTTATGAATTAACTCTTGATGAAAATACAAAAATTGATCTAAAATATTGAATGTGTAGAACCTTTATGGGGAAATGATTCTTTGCTCTTTTGTCTGT
ACTGGATTTTTCAAAATCTTTATTGGTAAAAAGAAAGRATGTATTTCTAAGAATTGTTGCAACCATACAGGGCAGCCATGGAGCTGACTCTACATTTTGT
TTTAAAAATGTTGTTTTATACCTGCACTATTTATTTAGGAGGGTCCTCTTGGTAGCTCTTTAACCCATTTATTAAGATTAGAAGAGGTTCCACCAGCAAA
CAAAAGACAACTAATCTGAGTCTGTTTRAAAGCAGACTGAAGCACCCACTTTCACAAGACAGGCCAGGGCTGGATTCCATCCTAGATGGCCAAGAGAACC
CTCTCTAAACAATAGGGGTTTAAAATGTTTTTGAAGTAGCAAGGCGGTCTCCACTCAGGGAAATAAAAAGTTAATAAGATGATGTGGCAAGTCCTCTGAT
GGTGTTCGTAGAGCCATTTAAGGAGCAAAATATAACTTCCTTAAAAAATCTTTTTTACATTAGTTGTAAGGCTCTCTTTATCCTCTGCAGAGAATGGAGA
AGAAGCATTTACTTGGCATGTTTGAAAATTTTGCTTGAGCAGACATCAACAGTATAAATATAAGAAGCAGGAAGGACTATCTAGAAAGAAAAGAAACCTG
GGAATCATAGTTGACTTGGATGTAAACGTGAGTCTGCAATGAGGTTTACATAAAAAAAGAAAAAAAATTCTATCTTGCTCCCCTAAGAAGACAGTGGACT
CCTCTAGAGCAGAGGTCGGCAAATGTTTTCTACAAAGAGCCAAGACAGTAAATATTTTAGGCTTTGCGGGCCGTATGGTCTCTGCTGCAGCTACTCCACT
CGACTGCTGCAGTGCAACAGCRGCCAGAGACRCTACCCAGACGAATATTTATGGGTGCTGAAATTTGAATTTCATGTGTTTTTWTATGTCATGAAATATT
ATTCTTCTTTTGACATTTTGTCATGGCCCATACAAAAGCAGGTAGCGGGCAGGATCTGGCCCACAGACTATAGTTTGCCAACTCCTGATCTAGTGCACAC
ATAGATCATGTGTCCCCCACAATATCTGGCCTAAGGACCCTGTAGGTGCTCAATAAACACTTGTTCTCTTAGCTGTCACCACGTAAGAGCGAAGAGTAAG
CCTTTTGCTATATAACACACACTTGACATTTGCAAGAGATTTATCTTGAAGGCTTTGCTAATCCCCCCATTCCAAGTACCACTCTAGCAGATAATTTCCC
CCATAAAATGCAGTCAAGTATAACAGAATAATTAAAGTGACCCTTTCAGGCCCTTAGTGATTCTATTAATACAGGGCTAACGTCCTTCACAAAGTGATTA
AAATAAMTTCTGCTACCAAAATCAATTCTGTGTCATGTTACATCATTGCTGTGATGACATTAACRATGAATTTACCTCAATCTGCAAAACCAGTCCAAAG
CGCTGATGAGTGATGGGGACGACTGTGCCGTGTAGCACCTGTGTGTGCTGGGGAGCAGAATGAGAAAATGTCTGTTTGAGCAGGATGGGCAGCCCCTGTA
GCCCAGCAATGCCACCCCAATGAGTGTTCCATGTACAAAGGAGSAGAGGATACTCAATTGCTTCAAGAAGCAGGTGTTAGGCAGGTGTTGGACATCACGG
AGTTCTCCCAGTGGCTCAGGGGCTTCTTCCTGGACTCGGTCCTCCAAGTGGATGCACTCAGCATTTAGAATTTCACCAAACGTCATGTGATTAAGCATCT
CTGGACYTTGGGGTCATTTTCAAATATCAAGACTGAGTATATTCTGCGATGGTAGAGGATRTAGGGGAAAAAAGAGTGTGAGTATGATGTTCACTCTTGC
TGAAGTTCTGCTGGACTTTATATTGGGTAGAATCTTAGAATCTTATGTCCYGTTTTGGTCACCGTATTATAGAAGAATACAGACTTGCTGAAAATGGTCT
ACAAAAGAACAGTGAAATTATCAGAATGATAGACAGTAGCATCTGTAACATAAAAGTGAAAGAACTCAGGATTGTTTTATCTTGAAAAGGGAAAATGATT
CTTGCTATCAAATAAAGGGCTTTTTTTTWAAAGGGAGAATTTGATTAGATATCACAAATGGAGAAGTAAGGTGGCATTCACCTATATGGTATGAAGCTAG
GTAGCAAGGGACTCCAAGGGACATGTTCTTGACCTTAGGCCTGATAAAGTCTATTGAAACTGGGTAGCAAGAAGGAGGTTGTGGTATCTACAAACCTTGG
TTGGCCACAGTGGTTTAGACATCCAACTACTTGATAGTAGGTGACTGAACAGGTTGATTTCTTGAGGTTTTTCCCCCTGCAGTATCCTCCTGGATTCAAA
TAGCCTCACTGTAACAAAAATATGACTGCTTTCTTGGGAACTGAATTTATCTGGAATGACATTTATTTCAACTTAACGATGAGTCTGTCATTGGCCTACG
GTCAATGGACTCTCTTTCTTTTCCTTGATTTTGCTTACATTGTGAGCCTCCAGAGGCTGTAAGGCAGTAAACATTTTCAAAACTCTAGTGATACCTCACT
CTTCAGACAGAATATCAGACTTTTCAACTGTATTTTCAACTGTCTTGTGAGACAAAGACTAATTGGTTTGACCTCATGCTGTCACATGTTGAGAGACATG
AATCTGCAGCCCTCTTCCTTGAATTCATTGATTTCATTAAACACTGTCTGCTTGTGTTCGCAAAATGTTGTAATTTCCCAGTGATTTCTTCGAACTGCAG
CGTATAAACAGATTTTTTTGGAGCGATGCCATTTCTTAGCTTTGATCTCCTGTTTTAATCTTTTCTTTCCAATAGGTCTTCTACATTAAGTCCATTGAGC
CACAGAAAGTATCGACATTAGGGAAAAGCAAYGTGATAGTAACGGGAGCAAACTTTACCCGGGCATCGAACATCACAATGATCCTGAAAGGAACCAGTAC
CTGTGATAAGGATGTGTGAGTCGAAATACTAATAATTTATCCTCGGTAACGTAACGCTCAAACCTGTGCCAAAGGAATATCAGTGTGATTATAACCTTAA
TATAGTCAAATTATTGCCATGCCCCAAAGCAGGCCAATTAGTCAGAGTATTTGACATAATATAATTCCAACACGTAAAATAATTTTCACAACAGATCTGA
AGTTCATTGTGAGAGAATCTGTTCTGTGTTATTCCCCAAAAATCTCAGTATATAGTCATTTCAGGATGTTGCCTGTTTGGGGTCTTGATTCATTTTCAGT
AACAAAATCAAGTATATGGAGTAGCAAACATCATTCTTTAGGTGATGCACTTGGAAAAATAGTTGAGTACCTTGAAATTTGATGRGGAATTTTTTGGAGC
AGCTCTTCCAGTGTGCCACCCAAAGTTGAAAAAACAAAACCTCTTGGATCCATTTTATGTGRACATTTTATTCTTTGTAGCCTTCTCTTTACTGGTTTGG
TTTCAGCCTCCAAAAATTAAATTACTACTACATATAATGGTAGTAAAAAAGAACACCCCAACATAAATATCTGGTCAATGTATCTCTTGAACATTATTAT
TTCTGTCACTTCTTTCCCAAACTCATCACATCGGTGAAACTTGGAGAAAGACTTTTCAATTTCTACCGATGTCCTTGTGCAAATGGTTACTCCCCCTTCG
AAAAAAAAAAAGTGATGTGATAACTGCAGTTATTAAATAACACAACAGATTATTTGAGTTTTCTGCTTGTTAACTCATATAAGTTTGGGCTAATTTGAAG
TAAAAGATGTTACAGTCTACATAGAGTATAATACTAAGCTTATTTTCATCATGGAAATGCATTTAAGACAATCTGCTGAAGCGTGATGTTTTGATTTTTA
ACTACTAAAACAGATTTGTACAGCATTCTAATCTGCTATGCTTATTTACTGAATTTTCTTCTTTAATTCATTTTCTGCACATCACTGCCATGCCCTTCCC
CTCATAGCAGTAAATTTGGAATATCTGTGATCTTGATGAGAAAAGCTGCTCATTGGTGGCTTGCCTGTGTTCTGCTATTTGCCAGAATTATCAAGCACAC
ATTAGAGGCTGTATCTATGCAACATAGGTTTTTTTGTGCTGTTTATCCTGGCTAAATACCTTATTGCAAAAATCTTTCATTTTATGTAGCGAAATCTGTG
AAGTTAGACACCTGTGTATTCACTGAAAGGCAATCAACTTCATGGAAAATAAGTAGTTTTTCGGAGCATTACCCTGTTTCTGACTCTTTATGTTCTCATT
TTAATTCCGAATGTGTCTTGAGATACTGCAGTTATTAAATTAAATGACTAGGAGACCTTTCTGCATGTCGCATTTCAGTAACCACATCTGTGTGGTGAAG
CCAAGTTCACAAGCAGTCAACATAATACTCAGTTAATCCTATACCTGAGCCCAGGCTGTAATCCCAAGCTCTTTTAATATGGTACTTTTAAAATGGGTAA
TTATTTTAAAGAGAAAAATACTAGTAGTGGAATGACCTACATTTTCACCTCTCTTCTTCTGAAATTTATAAACAAGTTTGAATTTTAATGTTCAACCACT
TTATGATAAATTTCCTAGAGCTTTGCTCTGAATATAAACCTGAAAATGTGCGTCTGAGGTGGCGTAAGTACAAACTGACTCAGATGTTTTTGAATTTGCC
TTATCCTAAAGGGTTAGTGATAGCATTAAAGTTAATCATCATGCACATGGCCTTTAAGTAGTAATAACAGATTCTCATGTAGCACGGTTATACTGAGCAT
TATTCAGACACAACCCAGGCTTAATGATTTGTGCTTTAGAGGATCATTGTAGACACACAGAGGAAGCTGCAGGTGACAGCGGGAATGTCGGAGAAAGCTT
CGCTCTGACTCTGAAAGGGCGCCAAGCATCAGCTGTTGGACATCAGGAGCACCCTGGACAGCCCCAGCTAAGTCCCAGCCTGGATACTCCTTAGGGAGCA
TGTTGGCCCCAATGCTGATTGATTCTGAGATGCCTGGGCTCTTGGTTTAGGCCCCCTTTGAACAGCAGAATTTCCATCTCTGTCTGGTGCTGTGTTTTAC
CCTCTCAGTGCTTGACTAGGGCTTTTTTTCTTAAGCTTTTTATTATGGAAACTCAAACATAATACAAGAGAGATGAGTGTAATGAACCTCTCTGTAGCCA
TTCCCGGTTTCAAAGCCTATCAACATTTTGCCAATCTTGCTTCATCTATCTTATCTGGGATTTTTGGGGGGGCATGATAAGAACCAAACACCATATCCTT
CACTGCTAAATACTTCAGTACCTCTCTAACAGATAAGCCATAGTGCCATTATGATACTCAACAGAATTATCCACAATTCTTAACATAATGTAACCCCCAG
TTCATGTTCTGCTTTCTATTAGTACTTCTTCAGGGCAATGGTTACACCTCCTTCCTTTCCCACTTCTAAGGGCAATGCAAATAAGAAAGATAAAAATGTA
CTAAAGAAAGAGGAACCCAACCCCTAATAATACCAACTTGGGTCACTGGCCCCTCATGAGTCAGTAGTTGCCTGCAGCTGTTCTGCTCCTTCATGAAGTG
TTGTAGTTCAAGTGAAATTCATTTGCTGTCACCTTGGGTAATCAACTGTGCTAAGTGTCTGTGTCATGTGAGAGTTCTTTTTCTACTCTTTTCTAGGATA
CAGGTTAGCCATGTGCTAAATGACACCCACATGAAATTCTCTCTTCCATCAAGCCGGAAAGAAATGAAGGATGTGTGTATCCAGTTTGATGGTGGGAACT
GCTCTTCTGTGGGATCCTTATCCTACATTGCTCTGCCACATTGTTCCCTTATATTTCCTGCTACCACCTGGATCAGGTACTTTCTAGATTCATAATCTTT
TTCTCATTGTGGTTAAAGGTCATATGCCCAAAGATCATTGATTTTATTCAAGTAAATTCAGAAACAGTGGTCATTCCAAATTCCTCTCACCGAGTTCTCC
TTAGGATTTACTCCTAGAAAAATGCATACCTGACAAGACATTTGCTTCCCATGCTCATCGTGAATGCTATGAGCACACCTTTTTCCCTTCACCATGGCTG
CTGAGAAACTCACAGCTGAAATGTTTGCCTAGGTTTTTGATATAGATATATGACACTCTTTACTATGTGTCCCTCCTGCTTGTGATAAAAGGCTTCTTTC
TTACCTCTTTCATTTTATAGACTTTAGATACTTTAAGCTGTTTTGAATTCTTTGGGGGAAATATTGGGAGCTATCAAAATGAAAAGCAGAATCAACCTTT
TCAAGATGTTCCCTAAGGGGGAGATGGAAACCCCAAAATAAACTCTCCYAGATAAATCCAATATGTTAAGAAAAACATTTATCTCCCTAGTTGAATTTTT
AAATTTATTACTATTATGTATTTTTTGCATTTTCATGGGTACATAATACTTGTACATGTTTATGGGACACGTGATGTTTTTTCTATGATCATACAGTGAA
TATGTAATCATCAAATCAGGGTAATTGGAGTATCCATCACCTCAAGCAYTTATCATTTCTTTCTGTTAGGAACATTCCAATTCCACTCTTCTAGCTATTT
TTAAATATGCAATAAATTATTGTGAGTTATAGACACCCTACTATGCTACTGAACACTAGATCTTATTCTATCTCATTGTATTTTTGTAGCCATTAACCAA
ACCCTCTTTATCCCTCTCTGGCCCCGCCACACCACCCTTCCCAGCCTCTGATACCCATAATTCTACTCTCTATCTCCATTAGACCAACTTTCTCAGCTCC
CACATATGGGTGAGAACCTGCAATATTTGTCTKTCTGTGCCTGGCTTATTTCACTTAACATAATGTCCTGCAGTTCCATCTGTGTTGTTGCAAATGACAG
GATCTCATTCTTTTTTGTATGCTGAATAATACTCCATTGTGTATAGGTACCACATTTTCTTTATCCTCTAATCTGTTGATGGACACTTAGGTTGAGTCCC
TATCTTGGTTATTGTGAAGAATGCTGTAATAAAGATTCCTCCTAGTTGAATTTAAATTCACTTTCATAATATTTTTATTCCTAAATCTCTTTAGGACTAA
AATCCTAACGATATTTTCTTTGCCTGACACAGTACGAAGCTAATTTTCAAAGTACTCTCTAGGTAAACCTACAGACAAAAAGCTTTGTTAAAAAAAAAAA
AGAAGAAGAAGAAGAAGAAAAGGAGGGGAAGAGAAAGAGGAAAAAAAGTAGAGAAGAAAAAAATCACTTTTAATATTCTTATTTAAGATCAAGTGAGAGG
TGGCTATATTAGTTTGCTAGGGTGGACATAAAGTGCCACAGCGTTTGTGGCTTAAACAACAGAAATTTCTTTCTCCCCGGTTCTGGAGGCTGAAATCATG
GTGTTGGTAAGATTGGTTTCTCCTGAGGCCCTTACACCTTGGCTTGTARATGGTCATCTTCTCTCTATGTCTTCACGTGGTCTTCCCTCTGTATCTCTGT
CCTAATCTCCCCAATTTTTTTTTTTTTTTTTTTTTTTTTTGTGACAGTCTCACTYTGTCACCCAGGCTGGAGTGCAGTGGCGCAATYTTGGCTCACTGCA
ACCTCCGCCTCCCAGATTCAAGTGATTCTCCTGCCTCAGCCTCTCTAGTAGCTGGGATAATCTCCCCTTTTTATAAGGACATCGGTCATGTTGGATTAGG
GCCCACCCCARTGACTTCGTTTAACCTTCCTTACCTCTTTAACCACCCACGTCTCTAAATACAGTCCCATTCTGAGGCACTGGGAGTTAGGGCTTCAACA
TACATTTTATGGGGACACATTTTWTGGGGACACAGTTCAGTCCATAATAGTAAGATAAGGAGAACTGAAATTTCAAAACCAAGGCTCTAGCATGACATCC
CCCACTCTAGGACCAATTCCATTCTCCATATAAAAGGAGACATTGATGTGGCATGCCCCATGTGCCTGGTGTGTTCATCTATTGACTAGGTTAATCCTCA
CAACAAATTTATGAGATCTGCTATGGCTTGTCCCTTTTGCAAATGAGGGAACTGGGGGAGGAAAAGGGTTCAAACAACTCACCCCAGCCTCCCAGACAGC
TGGTACTAGGAGGTTGGGCTCTGAGCCACAGCAGTATCCTGCTTTGCTATAAAGTAAGAGGCTCCCTACTGTTCTGTCACCTGCGACATTCTGAGCCTGT
GTGTCTTGGCTGCTCCTTGGTCACTGTGCCTTGAGCAAGAATGTGGCTCTAAATGCTGGCCATCGGGAGATCACGCTTGGCTCGGTTTTCTGGTAATGGC
TACAGACTGGCATGAGGCCAACTCAGCCCTTCCCCATTGTGGCTGGAGGATTCAGAGATCAGTGTCTTCTCTCTGCCCTACACAAATTGGGTTGCTCAGG
CCCACCTCCTGGTCTTGTCATCAGGGGCTCAGCTGGCTGTTGGACCTGACGTACCCAGGCTCTTGTCCCCTAGAATGAGTGTCTGGTGACCTACGTGAAC
AGGGGTGCAAGGGCAGACAGAGCTGTGGACAGCTGTTTCTTTCACACCCAGTGACCGCTTTGCTTATATGCACTGAGAAACGTGAAGTTATTTGGCCTGG
TTTTAGAGAGATRGAMTGYAGCTGTTATTTATAYGGCGTACCAAATAGGAATTTACACTTTGCATGTCATCTGTAATTCTACCTTGCCCAAAGTGTTTCC
TGTCTCTCTAAATAACATACCATTGGTAGGTTAGGRGTTTGATTTTGAAAATTCTTAGATTGAAGTCTCTTTATATAGATTAAACAGTAATCAAACAAAA
TTCTGTTTAGTGAAACCTTTTCAAGGTACAGCTCCTGATCTGATTATATGTGGCGATATGACACAAACAAAATTCAAATTCCATCAAAGAATCTGGGCAT
TTTCCTAGAATTAAAATAGGATCTGACCTGAATTTTTATATTTATGCATCTTGAAACCCATGAATTTGTGGCTGGTATCCTGAAAAGATTCCYAAAATTG
TCCTGTATTTGAAATTAAAATTCATTAATTTGCTCTCARACATAATTGGGTTTAATATTAAACATGAATAAATTGATAGCTTTGTTCATAAATGCAAAAT
GCCTGTGTGTTAGCTATGAAACCCTTATTGTTGCTTTTATTCCTTGCAGTGGTGGTCAAAATATAACCATGATGGGCAGAAATTTTGATGTAATTGACAA
CTTAATCATTTCACATGAATTAAAAGGAAACATAAATGTAAGTCTCCAGCTGCTTTGTAATAATAGTTGTTTTCAAGGATGGTTCTATTTTCATCACACT
ATGCTATGTTGGGGGTATTTTYTGTTTCTGTGACTTTGGTGTTATAAACTTTTACCTATGCKATCATATATTCTATCCATGCTAGAATGGAAATAATAAG
ACCTTATCCTTGTAGCTGAGTATTTCTAGTTGCAGCAATGAGGAAAGAGAAATGAACTTGGTACGATAAGACCTGACATTTTCTTTTTATGTGATTTGTG
GCAAGTCACCCTAATGAGGCAATGCTTATGAATATGTGTGAAAATGCTCCGTGAATGGTTAAGGTGTGATATAAAGAATTGCATTTCTGTGAAGAGTAGG
TGGTATTGTTCCCATTGCACAGAGAGAGTTGGGTTCACAGAGGTTAGATGACTTGCCAAGGTCCCAGAAATCTTGTCATGTGCTTCTCCTTCTCTTCGAC
CCAATTTGTTCCCTACCATCTGATGTCACCTTCTCTTACCTTTCGTCTCCCCACAGGAGAAATGGTAGGAGGGGTCTGGTTTCCACCTTTGCCCGATTCT
CCCACTGGTGCCTCCAGATGGGGAYCCTCTAGAGCAGGGGTGTCAACCTTTTGGCTTCCTGTGGCCACATTGGAAGAAGAATTGTCTTGGGCCACACATA
AGATACACCAACACTAACGATAGCTAATGAGCTAAAAAATGGTTTGTGCATAATTTCCGTGATATCCACCACCACAGATAAGCAAAAAAGTCCTCACATT
CAAAAGGCTGGACACGGCTGCTCTAGATGGAAGCTTCTGATGCCAAGAGGGGAGATGAGGGATTTCACATACAAGTCAGGCCTCCAAGTGTACTTGCACA
CACTTCTAAATATCCTTCCCCATTCTTTCTTCCCCTTTTTCCCTCTCCTTGATGAGATATGTGAGGTGGCTGCCTCTCTGGGGCCCTGCCTGACCACTTC
CTGCCAAGGCTGACACACTCCCTCCTCAGGAGCAGTGTGGGTTCAGACCCAAATTCCGGGGGCCGCCTGATAGGCCGTCCTTACAGCCTTGTGGTGCACA
CATTCACCTGCTGACACAGTTCAGAGCCACTTCCAAGCCTCACACTGTATCTGACTCCAGGCCTCATCTCCATGGTGTGAACACCTCCAGTTGAATGGCT
CGTATAGTTTGACCCTCTGAGCAGAGGCATTACCTGAGTTTGTCACGGACTTGCTCTCCCTCCTACTTGCTGTTCCCAAATCAAGTTGAATTTTTTGAGC
ACCTACTGCAGGCAAAACATTTTGCTGGGTGCAGGGACAAAAGATAAGTGAGATAGTCATATTGCCTTCATGGAGGCAGGCAGCAAATCTACATTGGGAT
TGAAAGTTGAGGCTGGGTGTGGTGGCTCACGATTATAATCCCAGCACTTTGGGAGGCCAAGGCGGGAAGACTGCTTGAGGCCAGGAGTTCGAGACCAGCC
TAGGCAACATAGTGAGACCCCCATCTCTATAAAATAAAAATTAAAAAAGTTGACAGCACAGAGTATCATCAGGTTCTAGGTCCTCTGGTTCCCTAACTGT
TCAGAAACCCTGTGAGTCCAAGAAGACACCATTTCTTTTCACATTAAAGAGAAATTAAACATGCATGGGATTAAGTACGCCTGCAGTATGGAGTGGGGTG
GGTGGAAGCAGGGAGGTGAGTTCAGGTACAGAGGACAGAGTCCTCGCAGGCCCGTGCTGGGAACATCACTCAATCCTGCTTAGTGGGAACCTAGAGGGTG
GGTCTGGAATGACCAAGAGCGATAGCTGTAAAACTGAGCTGGGGCCACAAAAAGCAGCGTCAGACTGAAAACTTTGCCCTTAATTCTGTAGGCAGCAGGG
AGCCACTGAAGATCTCTGAGCAGGAAGTGACATAGGTCTAGGTACACTGGACTCACACTGGACCGAGACAATTAGTGACAATGAAAGCAGTCAGAAGGTT
ACCAATGGGAAAAGAGACTATGCAGAAAGCAGTAGACTAGGGAAAGGGGAGGATTCTGACCCAAAAGGCTTCGGTGTCCTGTCTTGAGTCCTGGGAAACC
ACGAGAAAAGAAGAGAGTGTCCAACCCCCAGCAGGGGCCAGCTCCTGAAGTGCTTGTTGCCGCTGAATCACTCTTTGTTGGGGAACCTCCTGCAGGGCGG
TTATTATTTTGGCAATGGTGCACAGCTGAGTTTGGAGAGGCAGGAACTGAAGAAAGGCTGGGAGCCCAGTGAGGATGCTCATGCCAGTGCAGGTGTGTCT
GAGACGTCCACAGTCTCTCTGGGCTGACAGYAGCTCCCTTTGGGCTGTGGTTAGCAGAGCAGGTCTCAAGTGCTGGGGCATSGTGAAGCTAGAGWTGACC
AGCTTGTCTTTATAGCAGTATCRTTGAAGGGAGAGTGGGGGTGACATCATGGGAGTGAGAGCACAGAGGAGGAARAAAAGAGCACCTAGGACTGGTGGCA
AAGCTTCATTTTAAGGAATGACAGACAGTAGGATGGGCCGTGAAGGTGGCCGAGAAGGTGCTCAGAAACCAGTGAAAAAGAGTAAATCGCATGGCGCGAG
TTTGTCAYGAGTATGGAACTGTAGAGTCTTGAGGATAATAGGGTTGGGTGATCCTCTCACCTGCAATCCTTCTAGAAGGCATCTTCAGTAAAAAGCCAGC
CTGCTAGGAGTTAAGGCTGCTGAGGCAGTAGAGACAGTGGTTTTCATCCTGAGGACAGAAATGTGAGCAGGAGATTCAGGGCTATAGTTTGGAAAGATGT
GAAGGGAAAGGAAGGTTGTGCTTGTCCAAATCTCAGCTCTTTACATCATATTTTCCCACCAATTGCCTCTTCCTATTGTCTTTTTTATGCTCTAGTATCA
GGGGGTGGCRGGGGTGGGGGAAAAATAGTTTTTCCCACCTGATAAATTTCTTTTTATGAGTTATAATTGCTTTTCTGTAGAATGTTTGCCATCCTCCCCT
AACCCACCAGCCTCCTCTGCCTGTCCTTCTGTACACCTAAACAGGACAATATATTTATGTTATGTATTTACTAACTTTTTAAATTTTATTTTTTATATAT
ATAKAGAGAGACAGGGTCTCACTRTGTTACCCAGGCTGATCTCCAACTCCCRGGCTCACGTAACCCTCCTCCCTCCGTTTCCCACAGCGCTGGGATTACA
GGCGTGAGCCACTACGCCCAGCCTATTTATGTGTTGTTGTTTTTTTTTAATCCTGTAAATCAGGCCACCTTTTTTGCATTGTTTTCAGTTTTCATGCTCT
TCATTTCATGGGAGATGCATTGTTCCTTTTACTTTTGTTTTCTCCTGTTTTCTGTTATGCCTGAAAACCCTTGTCCTCCTTGTGTCTAGTGACTTCTGCT
AAGGCCCTGCAGGAGGTTCCCCCAACAAAGGGTGATTCAGCTGCAACAAGCGCTTCAGGAGCTGGCCCTTGCTGAGAGTTGGACACTTTTCTTTTCTCGT
GGTTTCCCAGGGCTCAGACAGGCTGACCCCAAGGACACCTAAGCCCCTTGGGTCAGAATCTTCCCCTTTCCCTAGCCTACTGCTTTCAGCCTAGTCTCTT
TTCCCATGGCATAACCTTCCAGCTGCTTTCATTGTCACTCAYGATATTAATCATAATATTAACTAGCATGTTTTGAGTGCTTACTGTGTGCCGGGCCCTG
ATCTAAGCATGTATAATCTCAGTTAACGTAGCCCTCATTTAATGTAATGTAGGGTGAAGTCAATCCTGTGAGGGAGGTAGTTTTGCTGTCTCCATATTAC
ACATGAGAAAACAGAAGCACCAAGAAGTTAAGTTGCTCAGGTCACTTAGCTCTTAGAGATCACAGCTGGGATTCGTTAACAAAGTTACTAAAACATTCTT
TTCTTTTTGTCCAGGTCTCTGAATATTGTGTGGCGACTTACTGCGGGTTTTTAGCCCCCAGTTTAAAGAGTTCAAAAGTGCGCACGAATGTCACTGTGAA
GCTGAGAGTACAAGACACCTACTTGGATTGTGGAACCCTGCAGTATCGGGAGGACCCCAGATTCACGGGGTATCGGGTGGAATCCGAGGTGGACACAGAA
CTGGAAGTGAAAATTCAAGTATGTTTCTTTTCTTTCTGGGTGGGATGTCACCCCGACCCCTTGACTGGAAAGGTGTGTTTATGCTCGTGAGTTTCTACAT
GTGCTCTGATTTCTCCATCTTCATTTTGTTCTTTACAGAAAGAAAATGACAACTTCAAYATTTCCAAAAAAGACATTGAAATTACTCTCTTCCATGGGGA
AAATGGGCAATTAAATTGCAGTTTTGAAAATATTACTAGAAATCAAGATCTTACCACCATCCTTTGCAAAATTAAAGGCATCAAGACTGCAAGCACCATT
GCCAACTCTTCTAAGAAAGTTCGGGTAAGTGACCTGGCAGTCCCACCTGCTGTCTTTACCTGATTTTTGTGATAATTCCTTGGCTAAACCAGAGGCCAGA
ATGGAATCTTTCATGGATCTTCAGATCCTCACTTTAAATAGAAGATAAACAAAGCTGGTACTGCRAGCCCAAGCAAAATAGCTCCAAAATAGCTGGYTGA
ATCCATCCCTGTGCCTGTTCGAACGTCAAAGCGTTGGACACACCATTGTCTATAATCCTAATGAGTCTTGATAGCTTTTGTTCTAGCCACACATTTATAC
AGTAGGATCGGCAAGCAAAATCTCTAGACCCATTGACAAATGAGCTGTCACTCTTTTCTCAAATGCGGAGGTGACATGTCTTAGCAGAAACCCAAAACAA
ACAAGGGCCTCTTCAGCACACTCTGGGTAGCATTAGAATCAGATGGAGACCAGATAATCTCTGGGTCATGGGCTGCTTCCTTCACCATGAAGTCATACTT
TCTGCGATTAATCTTTTCCCAGATATGTTTGGGGGACGGATCACTGCTATATTTATATCCCATAATAAAGATGTGAGACCACTGAGAAGGGAAACACATT
AGAAGTCACCCTTTATAGTATTCATGCCGTATGAGGCTCTGTACAGCCTATATAAATTCTTCTTGATCTATCATCATAAATAATTGGATAAAAGACAATG
MAAAAGAACTTCAGACTGGAAGGCAACAACAAAAATGTGTTCATGTCCCACTGGCACCAGTTAATAGCTCTGTGGCCTTAGGTAAATCACTTGAGTTTCC
TGAGCCTCTCTTAGTCCATCTGTATGATAAATGGGGTTAATAATAAGTTTTATTTGTTTTTTTAGACAGAGTCTCACTTTGTTACCCAGGCAGGAGTACA
GTGGCACGATCTTGGCTTACAGCAACCTCYGCTTCCCAGTTTTAAGCAATTCTCATGCCTCAGTCACCCAAGTAGCTGGGATTACAGGTGCGCACCACCA
CACCTGGCTAGTTTTTTCTATTTTTAGTAGAGACGGAGTTTCACTGTGTTGGGCTGGCTGGTCCCAAACTCCTTGCCTCAAGTGATCTGCCTGCCTCGGC
CTCCCAAAGTGCTGGCATTACAGGTGTGAGCTACCGCGCCCAGCCAATAGTAAGTTTTAAGTCAGGAATAACAACTAGGCTGGGAGAGACAACTCAAGCC
TATAATGCCAGCACTTTGGGAAGCCAAAGCAGGAGGATCACTTGAGCCTCTAGAAGTCTGGGCAACACAGTAAGACCCTGTCTCAAAAAAAAATAAGGAA
CAACAACTCAACTCACCAGTGTTCCCACCTTTCCTGTTAGTTGAGAAGAGCAAATGCTAACATTCTTCATCATTCATGACATAGCTCCTGAGAGCCTACG
CTGTGATGGGGACAGACAGAGAATAAAACAGACAAAAACATCTGCCTTTATGGAGGTTCCCTAAAGAGACACAGCGTGAAGAATATAAATAAAAATTGTG
TTACTTGGTGGCAGTTGCTATGGAGAAAAAAAGCACCAGTGTGGGGGGGTGGGGGGGTGGGAACAGGAGCAGGTAGGGGGGCCATGCTGCAGGTTTTGCA
ACGGTGGGCAGAAGAGGCCTGCTTGTGAAAGTGACATCTGTATAAGGAGGAGTGGGAACAAGCCATGGGCTATCTGGGGTAGAACGTTCTAGGCAGAGGG
AGCAGAGGGAGCAGAGGTCCTGAGGCAGGAGGCTGCCTGGCATGTTTGAAGAGCAGCAAGGAGGCCAGTGTGACTGGAGTGGAGGGAGCAGAGCAGAGGC
TTCTGAGGTTAGAGAGTTCATGGAGACAACAGGAGATGATTAGAACCTTGTGGACCATGGCAAGGGCTTGGCTTGTGGGCTGCAGAAGGCATGGGAGAGT
TTTGAGGAGGGCGCCATGAGCTGACTTATTCAGATGACGTCATGAATTTAGTCAGGACAGCCTACCAAGAGGCACTCCCAACATCCCATTTCAGAGATGA
GGAAAAAGAGGACTGGATGTGCATACCTAATTCAGGGTTCCATAGCTGAGAAACAGAGCAGGTGGCAGAGCTGGTATGGAGAGCTTCAGCTATCCGGGTC
CAAATCCATCCTCCAGCTACTGTGCTCARATGCCTCCACGGGGGCAGCATGAGTCCAAGGATGGAAACACGCCTTAATACTTGTATGTACATCAGTGAAA
TAATTAAGCTTCATGTAGAGTTTTTCCCTTGACAAGTTTCACAAAATATAACCCAAAAAAATGCTAAAACTGGAAAAATCCCTCAGGGATGATCTGATCA
GCACTGCCAATCTGGTTTTTGCCACAGAATGTTTTATTCAAAATAGGATGCCAGGTACAGTGGCTCACACCTGTAATCCCAGCAGTTTGAGAGGCTGAGG
TGGGAGGATCGCTTGAGTTCAGGAGTTCGAGACCAGACTGGGCAACATAGTGAGACCCCGTCTCTACAAAAAATTTAAAAATTAGCCAGGTGTGGTGGTG
TGTACCGTAGCCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCATGATGAGTTCAAGGCTACAGTGGGCTATGATCACACCACTGCACT
CCAACCTGGGCAACAGAGCAAGACTTTGTCTCTAAAACAAAAACAAAATAAGCCTGCCTGTAAAAATGATAAAAATTGAGTTTCTTCCTTAGAATAAAGG
GCAGGCAGGGGCTTCTTGCCTACAGGTTACTACTGCCTCTTTATTGCCCTCACTCCTGCAACTTAAAACCCCCAGAGCAAAGAGGGCCAAAATTAAGACT
CTGAGGGTCTAGTCCAGCATGTGTCAACTGACATTTCAGGAAACTGAGGCACAGTGAATATTCTGGATTTGCCCAAGGACACATAGCTAATCTGCCACAG
AAATGAGAGTTGAACTCAGATATCCTACCCAGCTCACTGCTTCTTTTTGTATTGTGAAGCCATTTTAGGGGGGAAATTATGTAAATAAATACAGTCCCCA
ACTCAATTGGGTCTAATGACATTCTTTGTCCCATCAGGTCAAGCTGGGAAACCTGGAGCTCTACGTCGAGCAGGAGTCAGTTCCTTCCACRTGGTATTTT
CTGATTGTGCTCCCTGTCTTGCTAGTGATTGTCATTTTTGGTAAGTGCCCTGTTTAATTTTGTCAGAGAAATTATTCCCTGGGGCCTCTCGCCGGGCAGG
CAGACTTTCAGCTTTCAGGGGCTGTTTGCTTCAATTAAGTATAAATGGGTGAAAGCCCAAATCAAAACTTTGAGAAACGAATAATAGGTACACGCTGAGG
GCTTTCTAAACATTTCTTTTGGCCAGGCGTGGTGGCTGATGCCTATAATCCCAGCACTTTGGGACACTGAGGCGGGCGGATCGCCTTGAGGTCAGGAGTT
CAAGACCAGCCTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAATACAAAAATTAGCYGGGCGTGATGGCAGGTGCCTGTAATCCCAGCTACTCAGGA
GACTGAGGTAGGAAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCA
TCTCAAAAACAAACAAACAAAAAACAAAATTTTTTTTTAAAGGATGCTTCATTAATAGAAGGCTGGATTACACAGATGGTATCTTGGGATTTGAGGGATA
TAATCTACTTTGCTTCTCCATTCCTTCAAATTGTGGTGACAAATGTTCATTTATGTAATTCCCCAAGAACTTCTCTGGGATTTTGGGCTCCCAGGACTTG
GTTATTTCATCTTGACCACCCCCCACCACCCATCACCCCAGCCTCATTTCAGTCTTGATTTTCTGGGCAGAACCACACTTTAGAAGTGTGGTCATGCCTG
GGCACAGTGGCACACACCTGTAGTTCCAACACTTTGGGAGGCCAAGGAGGGAGGACGGCATAAGTCCAGGAGTTTGAGGTTACAGTGAGTTATGATCGTG
CCACTGCATGCCAGCCTGGACAACAGAATGAGGCCCTGTGTCTAAAAAGTAAATGATKTTTTTTAATAGAAGTGTGATCTATGTCATCTCTTAAAGTGGT
CCCGGGCCCATCCACACACAGTGAGCCCATGGTGGTTGCTCATTGGCCAAATCTGGTCCACCAATATATTTTGTTTTGCCGTGTAGCATTGTCTAAAACT
ATTAAGTAGCTTATAACATTTAAAAATTAGTGATTCACATTTGGAAACGTCTCTTGAAAATGTGAAAGATTTGGATCATTGGATCCCAAATTTCCATAGC
ATCAGTTTATTAGAGCTGAGTAGCAGCTACGCCCTARAGAGAGGGAATGTGCTCCCTAGGTTTTGACCACAGTCGCCACCACTCCATATTGTCTCCACCT
AGGCCATTTAACTCATCTATGTACCTGATATCTGTAGCCATTTCGTTTGTGACTCTGGTTCTGAGCTGCTTGTCATTTGAAGTCTATTTTCTCTCATCCT
TCTTTGAAAAAGGAACTCTTATCCACCAACAAATAGCACTTTGGCTGGGCCCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTG
GATCACGAGGTCAGCAGATCGAGACCATCCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGAGTGTGGTGGCACGTGCCTG
TAATCCCAGCTACTCAGGAGGCTGAGGCAGGAAAATCATTTGAACCCGGGAGCTGGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCCGCCTGGC
CACAGAACAAGACTCCGTCTCAGAAAAAAAAAAAAAAAAAAAAAAAAAAAGCACTTTGTATTTCCTGATTTAACATAGGTATTGACTTTCTGAAATTTGA
CRGCTAGTACAGGCAGTTGCCAGTGTCTCCTTCTATACACTCATTTATTCACTCATTCATCCCTGCATCTATTTACCTTATGTTCATTGAGCACCTGTTA
TGTTGCTGATAACTGTGCAAGTCTCTGGAGCTAGAAAAAAATGAGCCTTTGCGTGCATGAGCCAGTGTTGCTCAAACTGAGGCCTGAGGAACAGTGGTCC
CAAGTGACTGTCCTGGAAAAAGGGGTTCCATGGTCAAGTAAGTTTGGGAATCACTACATCATACTCCACCCTTTCTTAGACATGCACAATGCATGTTATT
AAGACTGTTGACTTTATGAAGTAGTCCAGTGAAGAGCCATATTTGTTTCCTCCAGCATTATTGGTAGCAGAGCCCGTCTATTATGTAATTTCTTTTTTTT
TTTTGAGAAAGGGTCTCACTTTTTTGCCCAGGCTGAGTGCAGTGGCACGATCACGGCTCACTGCAGCCTTGACCTCCTGGGCTCAAGTGGTCCTCCCACC
TCGGCCTCCCAAGTAGCTGGGACTCCAGGCATGCACCATCGCACCCATCTAATTTTCTATTTTTTTGTAGAGACAGAAAAATATCTTTCTCTGTTGCCCA
GGCTGATCTCAAACCCCTAGCCTCAAGGCATGCTCCCACCTCAGCCTCTCAAAGAGCTGGAATTACAGACGTAAGCCCCCGCACCTGGCTGTAATTTCTA
TAAGGAGGAGAAGCTTCCTAGAATAACAGTGGTTGATTGTTGAATACCTATACTTTTTTAAACAATACATTCTTAATGCTTTTTGTGAGTTACTTCTTAT
AATCCTCCCAGCATCACAGTGAGATAGGCACTCTTACAGAGAAGGCAGCCAGGCACAGAGATGCTGAGGAACTTAACCCAGGTCACATAGCTAGTAAATG
GCAGAGCAAGGACATGAACCCAAGCACCAAACTGGGTTGGTTTATGGCCTCTGCAGCACAGTTAGAAGCAATATGGAGGTATGGGAGTTCCTTGTGGCTC
GCTCATCATGTCACCCCATTAGCTCTATGCAGGTTTGGCCCATGTAGCCAACTGTGGATCTGCGGTTCCTTTCTACGTTTGCAGCACAACTTTATTTCTC
CAGGGATGCTTACAAACATTCAAAAACAATGGAACAATGCAAGTGGCTGCAGCTGTGGGGAAGAAACTTGGCTTGTTTCATTACGTTTCAGCCAACTGGG
ATCTTTGGTTACAAGTGAAGGTTATTTGATTTAGCTTTCACTTGTAAAATGAGTAAGGTTTTGGTTTTTTTCTGCTGCATTTTGGCATCTTCCTCTTCAG
AGTGACCCCTCACTGGGAAATTTTCTTATAAGATCCAGCTTTTTAATGCTATTTTCTAGTTTCATTCTAGCTCCTGCTCTCTGTCCCTATCTGTTTTGTT
TTTGTTKTTGTTTTTAAGAACTGTAAAGRTTGCTATTTGTTTTCATTTTTGGTTTTTGAGTTACCATGTCCCTCTGATGCAKCATCTCTGTCTCTTAGCG
GCCGTGGGGGTGACCAGGCACAAATCGAAGGAGCTGAGTCGCAAACAGAGTCAACAACTAGAATTGCTGGAAAGCGAGCTCCGGAAAGAGATACGTGACG
GTAGGCTCCAAAATTGTGTTTGTAGAAAAACAAGCCTTTTATATTTATACTTTTATTTTTTTACCCTTACATAGAGATGGCCACAGTAATGAGAACTGTT
TGTATAATAGAAGGCAACGGAAGGGCAGGGCCTGGGCCTGGCTTTGTGTTTTATTTCAGCTCTTCTCTGCAGCCAACCARGTCATTATCTATTGTTTCTT
CTTTAATGAAAACCAAGGTCATACTCTGTGTTAGACAAAACAGCAGAAGATCCTATCCATTGTTTGTTGAGTTAAAATATYGCTCTTGGGATTCTGTTTT
GCAGGCTTTGCTGAGCTGCAGATGGATAAATTGGATGTGGTTGATAGTTTTGGAACTGTTCCCTTCCTTGACTACAAACATTTTGCTCTGAGAACTTTCT
TCCCTGAGGTAAAAGAGCATTGATCATATTCCGAAGGTYGAGTCTTGAATAATAATGAAGGTGCTTGTTGCTGTTGTCAAAACGAGTGTTTGCTTCCAAG
GCAGCTATAATGTGCTTGGTACAAAAATAATGGCTTAAGTTTGAGCAGAGCAGGGAGGAGGGTAATTATTAATTGCATTGATTAGGGTATAAAACAGTGA
TGGGTCACTGGTGATTATTCTTTGCCCAGTAACAAAAACCTAGGAGGGACAGAAGCTCAGAGTGATGATTTTTGCTTTCTTTTACTCTCAATGTAGAACT
GAATGTGTAGCTGGGAAGTGAGCTAGTTTATTTAAAAATCAATAAATTGTGAGCTAGCCAATTTGTTGTGTTTATCTGCATGACTTACATTGCAGTGACT
AGATTATTCACTATTACTTCTCAATTGGAAAGGAAAAATACTACTGGTCAAAAGGGAGGAAAGTAGACATGGATGGAATTGGAGTTGAAAACAGGCATTT
TTAGCCATGTAGAGTTCTTATGGTTCTCTTYGGTAGTTTTTCTTTAGCTGGTCAGTTTGTATTGTCCTCATTTAGTAGACGTAGATGCACGAACTGATTA
ATTCATTTGTTCTAGGGCTCTGAGGAGTCGTCTACTTAACCTTTTGGGTTGCTGGTCTTACCTATGTTCTCACGCCTCCATTTTCTCACCCACTCACTCA
GCCTTCTCCATTTACCCTCCCAAGTCTTTGGCGAGGTACACTCATCCTGCGTATCATCACTGCCATGTCCTGATACCCCAGCTCTGCCATATTGCCCTTC
TTTTTTGCGGTATGATGACCACATAGAGGCCCAACCTCTTAAACACATCAATACCAATGATCACATTTCAATCTAGACTTCTAAGCAACGGCTGAAATCT
CTCCAGGCCAAAGGAGAGTTTGTATCACCTTACCAGAAGCTTCTCCGGAACAATTGGCCAGAAGCCTAGAGTTCAGAAACCCAGACACATGCAGTAAGCA
ATTTCCAGTTTCTCTATAATTTAGAAGAGGACACCATGATATGTAATGCGGGGTCTGGAGGTTGGAATGCCTCCATAAAACACCTGCCATATTTTTTGGT
CCAAGCCTTAGTGTTATAAATCAAGAAGGCTGTAAATAAGACTTCAGCTTTTTGTGCTGGTGAAGTTTGTTTCCTTTAACTTATCCTCCAAGAGTACCGA
GGCACCGAGATCTACCATTTGCCACCTCATCCATTTCTATGGCAGAACACCGCCTGGGGARAGGAATTCGATTCCCCGAATCAGGATGACTGTGTGGGGC
TTCTGCAAAGGTTGCATCACGAGTCCTATTTCTGAGCTATCTGAGATCCCCATTAAGAATTTAAAAGCAATAAAATAACGGAGATTTTTGACTATCAACA
TGAATGCTGTGTGGGCTTTTACAGTTAATGATTGCCCTTGAGTGCTGAATAATCTGTGGCCTGAAAAAAGAAATGTTCTTATCTTCTAAATTTGGTAATC
AAGAACAAGATAGAGTAATGAATGTAAAGGAACACTGTTGCAAGTTGAGTGTTTCCAAAAAAAAAAAAAAAAAAAAGATCCCAGGAACAATGCTACCTTA
TTTTAGGAGAAGAGAGATAGTTGCAAAGGAGGCAAACTGATTTAACTCAGTGTTGTGTATAATCTTGAAAAACAACTGGGAAAGTCATAAAAATTGAAGT
CAGAAGTTGTTTAAAGGAGAGAACCCAGGAAAAAACATGCATAAATTTGTCAGAACCCTTTCAAGAAGACCTAAGTCAAAACTGATTTTATAATAATTAA
GAAAAGATAGAACAGGGAAACAGATCGTAAGAAGACAATGCCACTTAAATGCATTCCAGGCTGCAGATAAGTCCTGGTATTAATTAGGCTCTTTATGGAT
TGATCAGAAGCCGAATCCTCTAGGCCTGGAGGTTGGGGGCTGTGGGGGTAGGATTTGGGTGTTCAGCACCTACAAAAAAGCAACAGGCAAAATCCAGAGG
AGATTGTAGGTTCTCAAAGGAGGCCAGGGTTCTTTGCTCTGCCTGTCGGTTTTGGCTTTTAAAGCCTTGCTTTTTATTTTATTGACTCTTCTTTGCTTTG
CATAAAGTAGGAGAAGAAATAAGGGTAGGCAGAGGATCTAAGCTGAAGAAAAGGGAAATTTGAATGAAAGGAGGAAGCAGCCTTAAAACTCAGAGAGCCA
CGGGTCCAGGCGCGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACTTGAGGTCAGGAGTTAGGGACCAGCCTGGCCAA
CATGGTGAAACCCCGTCTGTACTAAAAATACACAATTAGCCAGGSATGGTGGCGTGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAGAATTGC
TTGAACCCGAGATCAAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCAGGCATGGTGGCGGGCGCCTGTAGT
CCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATAGCGCCACACTGCACTCCAGCCTGGGCG
ACAGAGCGAGACTCTGTCTCAAAAAAAATAATAAATAAATAAAAAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGCCACTGC
ACTCCAGCCTGGGCGACAGAGGGAGATTCCGTCTCAAAAAAAAATAAAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCCGTGAGCCGAGATCGCGCCAC
TGCACTCCTGCCCGGGCGACAGAGCAAGACTCCGTCTCAAAAAAACAAAACAAACAAAAAAACACACAGAGAGAACCAGGGCGGCACTTCCGTATTTACG
ATTAAGAATCAACCTGTTTCTCCTGTCTATTTACATGAAGTTGGTTCAGCAGAAAAATATTAAGAACCAGAAAATGCAAACCTAGGGTCTGGGGGTTTTT
TTGGTTTGTTTTTTTGGGGCTTTTTTGCTTTTTACTAGGGGAGGATATGGCCAAAATAGTTTCAGGTCTTTTGCTTGGGCTTGCAGATTTGAAACTATGA
AGCAAAATTCTCTACAGAAGAAATTTACTTCACAAGATATAAAATTAGCTCAAAGTTTCTATTATTATCAAAAAAGAAGAAAAACTTGAATGTTTTGAGT
TTAGAGTCTCATTCTGTGGACTTAAAGTATTGCTTAACATACTTTTAAAGTTTAACCATTGATTTTTAATAAGATTGATGATACACTATAAACCCTTTTT
ATATTCCAGAGCTACCTAGCATTTAGAAACCAGTGGGGTGATAGCATTGTGGTCTAGTTTGCTATAAATTAGGAATAAAACCAGTAATGATAACTGACAC
AGGGCACTTACTCTGCACCCATTTTATTTTCACACTAAACCTCTGAGGTGGGAACCATTACTGTCCCCATTTCAGAGATGAGGCAAGTCAGACACAGAGA
GGTTAGGTAACACATCCCACGTCATGTGACCAGTATGTGATTAAAACCAGGACTGGAACCCAAGTAGTTTGGTCCAGATTCTATGCTTTTAACTACCCCC
TGTCTTTCAATATCATTGTGTATTGAAACAGTAGATGCTACTTAGGTAAGACTTGTAAAACTTAACAACGTAATTTAGTCTTTATCTTTAGAAGGTAAAT
TGCTTGAAGAGGGGTCTGATATTTGCATAATCTTCATCAATGACCCCTTCTTTAACTCTTAAATCACTTCTTCTAAAACGTGGGATGATACCTTCATCTA
CCAAACCTGGAACTAATGCCATGATAATTATTATTCTTAGAGGCTTTCGGAATTCAGTGGCGTTTCTTGAAAGCTGAATAATTATTTATTATGTATTAGA
GAATACGCAGCCACCATAAACCCAGGGGCGCTTCAGATTAGCAAATAGTGTCTCTACTTTATTAAAACGGACTTGGGTATTATAACAAAAATACACTCTT
CATTTCCTTTGGATGTTATGAATAATAAAAGTGTCTCCTTCCTCTCAGTCAGGTGGCTTCACCCACATCTTCACTGAAGATATGCATGTAAGTCTCTACG
TTTTCATTTTTAGCCCAGTGACTGCCTGATGTTCATAGTGTTATCATCATCACTATCATCTCYATTATTATTACTTTGAATTTTTATTGTGGGTTTTTTT
TGGATCATSAATTCAATATTGAATAATTCATTGTCTTGGAAAACCCATTGTGGGTCTACTTTCTAACTTTAAACTTATATATGATTKTGTATTATACTAT
ATATTTTTTTCTTTTTATCAGAACAGAGAYGCCAACGACAAGAATGAAAGTCTCACAGCTTTGGATGCCCTAATCTGTAATAAAAGCTTTCTTGTTACTG
TCATCCACMCCCTTGAAAAGCARAAGAACTTTTCTGTGAAGGACAGGTATTAGTCCATTCTTTGATGTTTTAAAAGCCTTTAAGAAAAAATCAGGCCGGG
CATGGTGGCTCATGGCTGTAATCCCAGCATTTTGGGAGGCCAAGGCAGGCAATCACTTGAGGCCAGGAGTTCAAGACCAGCCTGACCAACACAGCAAAAC
CTTGTCTCTACAAAAAAAAAAAAAAAGAGAGAGAAATCAAACCTGAGTCCCATATTTTATTTCCAAACCACTATCTGAACTTGGTATCTTGAGAACATGC
ACTTTTCCAAAGGCTATTTGATTGGGAGTTTATGCAGCCTTCTCTCCATTTTAGATCATACCACCCCAACACAATTTTTTTGTTGTTGTTGTTGGAGTCT
CACTCTGTGGCCCAGGCTGAAGTGTGTGATCATAGGTCACTGCAGCCTCATCCTCCTGGGCTCAAGCTACCCTCCTGCCTCAGCCTCCCCAAGTAGCTGG
AACTACAGGTGCATGCCACCACACCCAGCTAATGTTTTGTTGTTGTTGTAGTAGAGATGGGGTCTTGCTATATTGCCCAGGCTGGTCTCAAAYTCCTGAC
CTCAGGTGATCTGCCTGCTTTAGACTCCTAAAGTGCTGGGATTATAGGCGTGAACCACCATGCCCGGCCCATAAATTCTTAATAAAAAAAGCAGAAGTGT
TAATTTTTATTTTTAAAACATCCCGAAACTTTGGAAGACTCACATCTTGTTACCACTCTAGTTTAAATGCTGAAAACACAGAAAATGTTCTAGAGATAGA
AGTGGTTAGAATCTAAACATTAAAAAAAAAAAAAAAAAAGCTCCCAACCCAACAGGCCAGCTCCCTGCCCTGCCAGTGAGCTTCCATGGAAACTCCCATG
GGTGTCCAGCTAGGCCTGCAGCCAATGGTTCACCCAGCTCTCTTTTTCAACAGGTGTCTGTTTGCCTCCTTCCTAACCATTGCACTGCAAACCAAGCTGG
TCTACCTGACCAGCATCCTAGAGGTGCTGACCAGGGACTTGATGGAACAGTGTAGTAACATGCAGCCGAAACTCATGCTGAGACGCACGGAGTCCGTCGT
CGAAAAACTCCTCACAAACTGGATGTCCGTCTGCCTTTCTGGATTTCTCCGGGTAAGTGTCACATCCCTCAGCAATGTCAGAGGTAAGACAATAGGCAGT
TATTTTTAGCGGACTCTGATGCCTTTGCCAGGATAAATCCTGAATGCTCGATGGTGTCAGCACTTAACCATGTTTCGTCTTGGTCCTGACCCAGAACAGA
GAGAGGGAAAGTAAACATTGTTTTTGCTGCAACTGGCCTATGCAAATGTAATTCATTTAGAATTTCGTCAGGTGAGACTTTTCAGGTGAGTTTACCTTCT
CACGTCAATTCACACCCAGAGCCCAGTCAGCCCATTTAAGAAAATGTACTGAGAAAAGGGAATATTTCAAACACCAGAGAACAAACTGTTTCAGGCCCTC
TGAAGCATTGTAGAAATACCCGTTGCCTACCAATATGCTGTAAGCTAATTGCAGTCAATTCCTACCAGTCATTCCGCATTAAAGCAGCTCTCCAAAGAGC
TGCCTCCCCCTGGAGTTTGCTTTGTTGGAGTTACTGTGTGCATGTGGTTGTCACTAATTGAACTTTAAAATCTTTTCAAATGCAAACTTTCTATAGATTC
CAGTGGAGAAGAGGGTGGGCCCTAAAGTCTGCTACTTGATCTGAATCTAGACTTCACCACTTACTTGGTTTTATAAACTAGAGAATTGGAAGAAGATTTT
AGGACTATTTTGAAGTACAGATGAGAAAACATAGGCAATTGCTTAGCCCTAAGGAAGCCTCCATAAATGTTGGCCGTTACGATTATAAAATATTAATGTG
AAAATAAGGGTGTCCTGTTGAACTCGATCTTCACCCAGCCCTCTGAGGCCCCTGGTACAGAAGATTCTTATCCTTTAATTTTACCAGCCATCCAGATTTC
AGCAAAACTGCATAATTGTGTATTTGTAGCTAGTTCCGAAATCTAATTAAACTTTGAATAAGATACACTGCTATGCCACAGGTTTTAACAGTGCTACTTA
AGTTTAGATCCAACAGCAGTGCTTTAAATAGACTGTGCTTAGTTTAATGTTTAATGCAATCTTACAAGTAGATGCACAACAATTTTTTTTTTAATTTCTC
ACCAACCCCTCCCTCTCCCTAAGGCAATACCCATTTATTAAGATTAATGAAATCTGCCTTCTTTTCTGTTTACTTGGTATAAATCATCGGAGGCTTTGGG
GAGATGTTGAGCCAGTTATTTCTGGGACGAATATTTTTTTGTTTCCCACTGTCTTTGCTTTAGCCACAACAGCTGCTAGATGGAGGCACCAGGACTCTCA
CCCAGTTCCCTGGTCTTGGTCTTCAAAGGCCAACTCCTGCCCCACCACAGTCTCACTGGATCAGAAGCTCCGGAAGTGGAGCCCAGTAATCCATGATTTT
CACAAGTCCCTGGGATAGTAGAGAGAGCACCACACTAGGGGTCTTGGTTAGAAGCAGCAGGTCTGGGCTCTGGAACCATCTCAGCCCCGGTCAGCTGTGT
GTCCCTGGGCATGGCTTTTTCCATCTGGGCATCTGTTTTCAATCCACCAAATGACAGGCGTGTGTGGGCGTTGCCTTTAAATCCCTTTCCAGCTCTTTCT
ACTGGATCTTGTGATTCTTAACTCTGAGCTTTCAAGGGCTGCTCTTGGGCATTAGAGGGGTGAGATGTTCAGAAAATCTGGGCTGCGAGCCCAAACAGCC
TCCTTGAGCAAAGCATTCTGGGTCAAGACTTCACAGTGCTGATTCAAGAGCGTCTCGAGCACTCTGAGTGGTGAGGGGGCGGCTCGGCTCGCCAGGAGGA
AGTGGCATCCAGCCAGTCGGCGATACTTTCACTTTCAGTGGAATAATTCCCGCTGGTGCAGGGGTCTGATGTCCCTCCACCAGGTGCTCAAGGGGGTCTG
GGACACCGACAGCCCTAGTCCTCCTGTCCTACCCCACAGACGTTTAGTGGGTGACAGTAGCTCCGTGACCGCCAGGTAACTTTCCCTTCCAAGACACCAA
GGATTTGTGGGTAAAATAATAATACCATTTATTGAATGTGCCAGACAGCATGCTAAGAGCTTTACCTATCTTTTCTCATTTCATCCCCTTAAGGGTCCTG
TGAGCTAAGTGTCTTCATGACCATTTTGTATATGGGGGAACTGGMACACAGAAGAGCTGTGACTCTCCCCAGATCTCACTGCTACTGTGGGACAGCACCA
GGGTCCGAGAGCTCTTAGCCACCGCCCTGTGCCCTGAAAAGATGGAATCTGCCCTGGTCTGTTAAAGTGTCGAAGCCTGGCCCCTGGGGGAGGGGAATCA
CGTACGCAGCGGCTGTGGCTCGCCTAAAAGTTGTGTTTAGTGGTGACAGAGAAACCTCATGGCCCTGTGATTCCCCAAATCAGCCACACATCAGAATCCT
CCTCCCCCACCGCCTCCCCGCCCCCGGCCCCGGGAAGGTAATGAAAACTACAGATACCCAGGCCTCATTCTTCAGAGAGATGGCAGCTCTGTAGGTCTAG
AGTGGAGCTCAGGCATCTGAATGCTTAACAAGAGCCCGCAAGGGATTCTGGTGATTAGCCAGGGTTAGACCCAGGAGCATGGGCAGAGTGTAGGGCCAGA
TGTTACTTAGCTCAGTCTAGCTACTCTCCAGAAAGTTCTGGAGAATTCCTGACCACAGGCCTCCTGAGTCAAGACCTGTCCCTTCACACAGCCCCCGAGA
GCCCACCTGGCCCCCTGACTCCAACCCCTGCGGGAGTACACAGCCCCTATCCAAGGGTTCTCAGCCTCCCTTCTGATCTGTGCTGGAGGAAAAGAGGTTC
TAAGTTTTGTGGTCAGGGCATTACTTGGGGTGGGGGAGGTGGGCGGTGGAGGGAAAGAGAAGAGAAGGGTGAGGTTGTAAACCACTAAATAAAGGAAGTT
TCTCATGAGAATTAAATGTCATGCACTAGTCCTGCTGCCCTCCCTACCTTGGAAATTTCTGAACTTCCACTTCTGCCCTGCACTGAAGAGGAGACTCAAG
GAGGTATCACAGCAGGGAYAGAAGCTGCAGGGTGGCAGGAGGTGGCAAGAGGAAGCCCGGGGACTGGGGAGGGCAGATATTCCTGCAGCAAGTATAAAGG
AAGGGACAGGGTTGGGGTGGGATGCTGAGAGACTTAAGATGTCTTAGGTAACTTGCCTGCGCAAGGGAAAGCAGGTGAGACCCAGTGGAATCCTCCTTTC
CCAGCTGGACGTATCGCTTGTCAAGCTTGACTCTTAACTGGCGCTTCGAGCCCCAGCCACGTGGCTGGCCTTTCGTCATCACTAAGGCACTTTGACTTCC
CAGCCACGGTTCTTCCTCCACCACAGAGGCCTAATGTCCATTGATTACGGAAGGTTCGTTATTTAGCAAATACTCTACAGCTGACCCAGGGCTAAGTGCC
TTGGGAGGATGCCGTGGAAACAGAACACACCGCCTCCCACTTGAGGTGCTCAGAGTCCTTTGGAATGCAGACATCCGTGTCTGCGAATGTGAGCCATTTC
CATCACAGCAGGGGAGGCAGCCCCACCCCCAGCCAGGAAAAATGCATGTGGCTTAAATTTGTAGAAAGAGCCAATCGGGATGGGCCGAGTGTTTGGAGAA
AAACCTTAGAGGAAATGGAATTGGCTCTGGTTCAGGGAAGAAGATGGAGTCCCTCTGGCCCAGCACCGGAAAACATGTCCAGGTGGGACTGTGCAGTGTG
TGTCTGGGAACTGCCCGGGCCGGGCCTGGCCTGGCCCATGGAGAGGAGATAAGGCTGCAAACTGTTGAACGGCAGGCTGCTTCCTTCGAGAAGTGCTGTT
AACACCAAAAAACATTGTATTTGGCAAATGTATAAAATGTTCTTACATTTATCCTTGTTACTAAGGATACTTGTGCATTTTTTTAAATGTCGTTTATTTC
TGGCTTGCTAAAGGGTGATTAAATACGAATGTAAACAAAGGTACACTCTCCACATCTAACTGTTCCTAGGCATTAACCCACTGATGAGCATTAGTCTGCC
ATATGTAAGTTTAAACATAAAATAACAAGGTATACTGTGGGTACTGCACGTCGCTGTGAATGTGCACGCGTGCGCGTGTGCAGATGTGCATTCGCGATGR
AGAGAGGAGGCGGTTTTCTGAGTTTTGCATCCAATCCCAAGTGGAGCAACGTGTATTTTCTTGGGCGTTTCATGTTGAGTGTTAGAAAACCCTGTCTCCT
GCCTTACTGCTGTAAACAGAAACTTTAATTCTTTGGAAAGTACAGTGGATTCCACAGAAAGCTAACTGTCACTTTTGTGTCTTTTCCAAGGAGACTGTCG
GAGAGCCCTTCTATTTGCTGGTGACGACTCTGAACCAGAAAATTAACAAGGGTCCCGTGGATGTAATCACTTGCAAAGCCCTGTACACACTTAATGAAGA
CTGGCTGTTGTGGCAGGTTCCGGAATTCAGTACTGTGGTATGTTTTCAATAAAGCTCCCAGCCAGACTCCCAAATAAATCTGGCGGGGAATTAGAGGGTG
AGGTGGGTCATTTACAATGAAACGGTATCATCTCTACTGCGGGAGGCCCTGTGTGTTTAGTTAATTAAAAACAGTAGTTGATAAAACTGTTAACACGTGT
TCACATAATAGATTTTAATTACTGAGATTGGGGGAGAAAATATTGTAATGATGCCTGGGGTACTCATCAATTTCCAAAGATTTTAATATCAGGATTGCTT
ATAACTTTCAGTGTCGTCAAAGGAAATGCAAAGTACTCCCTATTCAGCACTTATAATTGCAATCAGAATTTCTCAAATGGCTCTGCTCTGGGAAGACAAT
GTGTGAAGATATATTTCAATCAAATTGAGGCCGTCTTATTTTAGAATGATAACACAAGACAAATTCCACCACGTTCCCCATGCAACGTGACGCCCTTTAT
TTTCATGGATTAGTTACAAATGTTTGGTGTCATGCACTTAATGTACTGTGATCTCATAGATATTTTTAGAGGAACGCTGTAAATCACTACAGGAAGATGA
TTGCCTAGCTGCTGGAGGGTTTCACCCGCTTGAGAACTTCTTTCTAATTCATCCCCACCGCACCCACCCCATGCTCTTCCTAAAGAAAGAAAGAAAGCCC
AGTTTGGGGCACATTTGGGAATTTCAGAGAGGGAGCCAAGCAGGGAAGGTAACTTTAGAATTAGGAATTTTCTATGCTTTTCTGTTAGTAGAGACTTGGA
GAAGAGATTGCTGTGTTTTGGTTTGATCTTTAGCTTTATGAAGATTCTGGGCTTCTTCACGATCTCGTTAGTGGAGGAGGAAAAGATTACAGTGGGGTTT
GGGAATTGCTCATTAAGAGAGCTGAGTCTTCTGTGGCTTTGCTCTGGATGGTGGGGACTGCAGTGTCATCTGGGAAGAATTCATTCCCTAATTGGAGAAG
GCACCACTTTGCCGTGGAGCGTGTTATGGTTATGTCCTCTGGTGGGAGAATAGTCCGTAGGTCAGCTGTTTCAAGTTTTCTGCCACTGCCAGATGCGGCT
CACTTCTCCATCAAAGATGGCACCATGCACAGCTGCCATCCGAGAGCGGGAAGCTRAGCTGAAAGTCAACACTTCTCAGCGTTCTGAATTGTATCAATAC
ACCCATCCACATCTGAGAGGCCGGAGAGTGGGCTGCATTGGTTCTCAAACTTGAGCATCTAGCAGAATCGCCCAGAAAGCTCACTAAACACCAGTCGCTA
GGCAGCATGCTGGAGTTTCCGATGCAGTAAATCCAGGCTGTGGCCTGAGAATTCACTTCCCTAACCAGCTTCCTGATGCTGCGGGTGCTGCTTAACAACT
GTTGGTAGAGTGGTTAACAGCATGGACTCTGGGGCCAGACATTTTGGAATCCTGCCTCTGCCACTGGTTAGCTGTGTAATGTTGGGCAAGTTTCTAAACC
TCTCTATGCCTCATTCTCCTCACATGTGAAATGGAAATGATGGTCATGGTTCCTACCCATCTCATGAGGTGTTTTGAGGATTAAGAGTCAGTATTATAAA
AAGCACTTAGAACATTGCCAGGCATGTGAGTGCTACCTAAAACTTTATTCCATTTGATCCAGATCTCATTGAACCCTTGTTTAAAATGCAGGTGCAAATA
TACCAGTGCCCGGGCTTTCCCTCGGGACTGACTGAATCAGAATCTCTGGGGAGGGAGCCCAGGCGTGGATGTATTTTGTAAACCTTCCAGATATCTCTGA
TGTGTGTTCAGCCTGGACACCACTGGGTATCTTGGAGAACAAGAGACAAACTTTGCACAGGGCCTGTTGACTCACCTTTCGCTGATCCTGGGCTTGTTAT
TCCTAACCTAGAAGATGTTCATGCCTTTACTTTAAGACGTTTTAGAAGCCCCAAAGGTCTCCAAAGAGAAATATTTGCAAATGATTATAGTCGGGAATCC
TCCAGCATTYCAGTCATGAGACAACACCGGACCCAAACAGGAAAGACAGGAAAGGAGAAGATGGGTTGGAATCAGGAAGAGGTCAGATGTCTGAGGCAAC
TTTTGAGGTTTTGAAGCCTTTTTAATGCTTTACATCTGAACGTGTTTTCTCCCTTTCATTTCGAAACATTATTTATTTCACAGTCAATTAAGACCATGTG
TTTCTGATTTGTTAACACTCGACTCATCATCATAATGTTACTTGATGCTGAAGGAATTCATGTCGACTCTTGAAATTTTTTTTTCTTTATAGCCCCTGGG
GAAAAGGGTAATGGAAAATCATGATTTCAGAAATCCACATAAATCTTCCTTTTCAAATTCAGATTTGCCGGTACATAAGATTTGAGCCTTGAAAAGGAAT
GGGCCACTTGTTTTTAGGGGCCTTGCCTTTAAAAATGATTGTTAGTGCCTCTTATGGGGCCTGGCCCAGCCCCCCTTTCATGGTTGGCAGTTGTACGAGA
AGCTGCAGAGAAGGCACATGATCCGTTCTATGCTTGTGTGACAAACTGTTAGCAGAAGGTCAATATAAAAAATTTAAGTTTTTCATTTCCTTTCAGGCAT
TTCCCCCAGCCTGAACCACCATATTTCTAATTTTCTTTCTTCCTCCCTTCCCTCCTCCCCTTCTTTTTCACTTCCCCCACCTACCCCTCCCAAGCATGTA
CACCCAGCCATTTTAGGACTTGATTTCCCAAATTTGCCTGAGGTGGTTTATGTAATTGAAAACCAAGGTGCGGTGAACAAACTGATTCTGTGTGTCCTTG
TGTGCTGGGGAGGCGGGAGGTTGGGGGCAGATTCTTTCAAGGAAAGGAAAGTCGGAAATCAAGAGYATCCTCACGAACCACTTGAAATGACAGAACCTGG
TGCCAAGGCAGGGACACGTTTGGAAAAAAGGCCCCCACACTCGTGTTCAGCTAAATGCTCAGAAGCACAGCACCTCATATAGCAATCTAAAAGTTAGCTT
TCACACCTCTCAGATGAGGATGTGTTCTCCCTGAGGTGTGGGGGATTTTCTAGAACATAAAGGCATCTTGCCAATTTCTTATACATGAAATCATGACACT
AACAAAGAGGCCCTGGGAAGTAATGTTCTCTTCTTGCATATTGAGAAGAAAATTCCTCTGTCTTGCCAAAAATCCAAGCAAAGTCCCCTAGAGCCATACT
TCCTCCAGGACCATAAGAAACCATCCTTCTCTATCAAGCATTCCAGGCTGGTGTTTAATGAGGCAACAGTGAGACAGAATGCCCTGATATCTGCATCCTC
CCTAATGTCAGCACCAGGGGTAGGGCTGTGCACACACAGGACTTTAGTCTTTCCTTAATATCTAGGAATTCAGATCAGACAGCTGGAAGAGAATAAGACC
TTTTTTTTTTTTTTTTTTTTTTTTAATTTAAGGAATACCACTCTAGTGCAGGCTGGAGTGCAGTGGCGCAGTCTTGGCTCACTGCAACCTCCGCCTCTGG
GGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAATACCTGGGATTATAGGCACCTGCCATCATGCCAGGCTAATGCTTGTATTTTTAGTAGAAACGGGTT
TTCGCCGTGTTGGCTAGCCTGGTCTTGAACTCCTGGCCTCAAGTGATCCACCTGCCTTGTCCTCCCGAAGTGCTGGGATTACAGGTGTGAGCAACTGCAT
CCGGCCGAKAATAAGACCTATTGCTCTGCTGGGTTTTTTTCCCCTTTGCAAAATTTTGAACATGTTTGATTTTGTTGATGGAGTATCTCAGACTCACTCA
GCTTACGTTTTGTCAAGAGTGGAACTTTGGAGGAGTTAGTGAAAGTTTGAGGATTTCACATGGGAGAAGGGACATTTGCTTCACTTTCAGGAAGAGATGA
GAAAAACCAATAACTCGTAGCAAGCGTGCTGAATTAGCAAGAGAAGGTTGACTTGTAATCAAAGTTAAGTGTGAAATGGTTTTTTGAACTCTTAGAAAAC
GAGCTTGCCAATCTGCTGTATCTGAGAGAGAGCATCTTGGCACCCTGGAAAACTGTTCCGACAAAAATATTATTGCCTTCATTCTCCTATMTATAAGAAA
GTTTTCAAGATTATTAGAAATTCTTGAAAAAGCACAAGTACATGCCTGCAGAAATATTAATGCCTCCAATTTGATTTATTGAAGGTTTATGCCAGCCTAC
CCCAGTCTGTCTCTTTCTCTAGCAGTTACCATTTTGGGACAATTACGTTTAATAAAATATCTCATATACAACAGAGCCCTAGGTGTCTCCACCAGGAGTT
TCTTACTAGTATACTTCCTTTAACAGTGCTCTGCCTACCAGTGCTGGCTGCTTCTGTTCCATTTAGTTTGTCCTTGCAGAAGATCCATTAGCCCCGTAAT
TAAACAACCCACTGTCCCGATTAAGTCATTCTCTGTTACTTCAATTACATTCCATTGTTCATTAAATCCTGATGTTTGCACTTCAGCAATCTTGTTTTTA
ATACTCCTACCATTTGTGGAGAAACAGTGAAGTTAATTAACAATTCTTGAGCTTTTTATTTTTCTCTCTACCATAGTGCAAATCATTTCCATTATGACTT
GCAATAGTACTGAAACCATTACTAACTTCATAGTTAGTGTTCTGAGCTTCCTGATCAAAGAGTGAAACCACTTTTTACAATCATTTTAGGTAAGTCATTC
CCTCGTTGATGGCAAGTCATGGAAAATGAAAAATTAACATGTAATGGGTGCTTTAAATGACTTTCCTCTTCATACACTTTCTTCTCATGCCTGTAATCTT
GGAATTAGAAAATAATTTAGTTATCTAAATATAAAAGTATTTACTTTTTTTCTTTATAGCTCAAATGTGACTCTATTATGTTATTGTTAGGATCATTATT
TATATTTGTACCCCTCAGAGAATGGTAAATTTTATCACAAGTCATGGCGGAGATAGAAAGCATTTTCCAGATTTGTCTTGTTGCTATTGTCAAAGTTAGC
ATTCCATTTGAAGGTACTGTTATYTAGAGCAGGGACCAGCAAACAACAGCCTGTGGGCCAAATGTGGCCCCTCTGCCTATTTTTATAAAGTTCTATTGGA
ACACCTGTTCATTTCCTTATTGTCTATAGCTGCTTTCCTGCTACAGTGCAGAGTGGAGTAGTTGTCACAGAGATCATATGRGTTTTAAGTCTTAAATACT
TTCTGGCCCTTTGCAGAAAGTTTGTTGGCCTTTAATCTAGAGCTTGACATAGTAGAGAATAGGAACCAGAATCCTCCCTCCCACAAACCCACAAACAGGT
TGGCCTCTTTCCTCCCCTTYTGGGACACAGCAATGGAAATGCCTTGCCACTATTTACAAGTCTGAAACTCATGGGGCTCTTTGCCAACACACAACACCCA
CCCCCACCCCCAACCCTGCACCCGCAAATACTGTGAATACTAAAATCAGTTATCTTGGGCTAAATCAGACAGCTCTTCATACTTGATTCTAGGATGGACA
AAACGTTAGCAAATGCTAGCAAGTATAGAAAAATTGGTGAGAGAAACCTAAATTTGAGAAAATTATCTCCATTACTTTTTTTTTTTTTTAAATGGAAAAA
GGCTCTCGTTACCCTGTCCTCCACCCCTTACTCTTCTGTTAGAGTAGCAGATCCCTTGATCCAGGAAGCTGTGATTTATGGATCTTTGTGGGGAAAGGAA
AAGGGGAGCAGAGTGAAGAGGGGAGGCTGGATGGGCAAGCGCAGCTCAAAGGGGAACGTCAGGCAGAATGTCCCAGGGCTGCTGACTCTGGCTTGGAAAG
AAGCTTAGATCAGAAGTTTCCCTCAGACTTGCACTTCTAACTGGCCTCATGCTGCTTCTACGGAACTTCTGAAACTGAATTTTCTTTCTTGTTTCTTCTC
TCTTTAATTCAGGTTGGTATAAGAACTAGGCTTTTCTCTTGACTTTCATTCGGCCCTGAAATAAAATTAGAAATATATTTTATAGGTTTTATTTAATGAA
AGCAATTATTGCTCCAAGGCCTTTTATGATAAAGTTGCCAGTTTGTAATAAATTATCTTACAGTTACTTTCTAGGCATTATAAGGTATCACAGAAAGGAG
GCAGCAACGTTCCTGCTTTTATTAGCCAAGAATATGGTTGAGGAGACAGTGAGGTAGCCAGATCATCTTCCCATGTGGGAAAAGACCTGTTCCCCTGCCC
TTGATTCATCCTGCCAGYCCCCTGCAGCCTTATCCTYTYTGCCTCCTCAATACCCAAAACCACCAAATCATGTGACGGGACGATGGGTAAAACYGGTAGT
GAAAGGGGAATGCAGTTACATGTTCCCAGGCCGTGTGCAGAAGAGGTGGGGTTTGGAGTCTGATAGTCTTGGGTTTGAATCTGGGCTCAGCCACTTTACT
CTGGGCAAGTCTCTCAACCTCTCAAAACCTGTTTCCTCTTCTGTAAACRGGCAATGACCAAAACCTGCCCTCGCATATTTGTGGTGAGGTCAGAAAATAA
TACATGTACCACGTCTAGCCATCTTTCCTGGYGTGAAGTAGGTGCTCATTCTTTTTTGATTCAGTTTTCCTTGTCTGAGGTGTGCTTTTCTCTTGTCTCC
TGTAAGCTTCACTAAGCAGAAAGTGTCCCGTCAGTATTCTTTTTGGTTGGTTATTTATTGATGATGTGGGATGTGGGGGAGTTGATTAGCTGATTCCATC
ATCATGAAAAGCATTTCTTGGGTGCCTGTGTGCTTATGTTCTTGTTAAAAATGTTACATATGACCGCTGTGATGGGGTGTTTACAACCTGTGGCAGACAG
TATCCCATTGGGCAGATGTGAACAGGAGACGACCGTGATAACCYGTGAGAGGCTGATGGCTGACATGCTACAAAGGGGCCAGGCCTTTCCAGCCTGGCCC
TCTTCCCGGGCCTTCTGGACCATACATTTTCCAATAGTCTTTTCTTTCTCATAACCCTCCTTGGTAATAGGCATCATTCCCAAATCAATCAGGATGCAGT
TCAGTTGTACAGAACAGAGACCCAAGATGTCTGTGGCTTCAGCAACAGAGAAGCTGAGTTCTCTCCCTGGTGGCATTCTGGGTGGGCAGTGCAGGGCTGG
TAGAGCAGCTGCTCCTCTCTTGTCCTCATATTCTAAGTGTCTGCTCACCCCAGCCTCATTCCCCATCCCAGCCAGCAGGATGTAAGCAGGGCTGTAGAAA
GGAGGGCAGATGGTCACCAGCCATCTTTTAAGGAAGTGCCACATAACATATCCACTTAATGTCATYGGCCAGGACTTAGTCATAACCAGAACATGTCCTG
ACTYTGAGCTGCGAAGCCAAGAGGCCAGCTYTGGGTCACCATCTCCCAGTGCCTCCTGGCCCTGCCATCCTAGTCACAAGATGGCTGCCACCGCTCCAAG
CACTACTCTCCCTTTTGTTCGGATCGAAGACTTCCCACTGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGAGGCCAAGGTGGGAGGATCATTT
GAGCCCACTGAATCTGGAGCATACTGGCCACACCTGGCAGCAGCAGAGGCTGGGAAATGTCACCTTTATTCTGGGTGAACAGAAGCTCTGTAAAAATGTC
CTTGGGTGGCACCGGAGGCACAGGGTGCTCCAGATTCAGTGGGTTCTGTGGGGTTCAATATCAAGCTGGGGTGAGGAGGTCAAGCCTCCTCTACCAGATC
GCCTATGTCCAGCCTGTCTCCTGGGAGGGCATTCATTGAGGCCTTCAAGCAGAGGGGAACTGCCCTTGGGAGGCTCATCACCTTGGCTGGCCTCTTCGCT
TCGCAGCCCAGAGTCAGGACACGTCCTAGTTATGACTCCCACCGGCTCCATGATTTTGGACATGCTTCTAAATCTCTCTGGTCTCGGTTTCCTCATCCAT
TAAATGAGGCTAATAATGGCACCTACTTCATAGAGCAGTTGTGAGGATTGAATGAACCTATAATTGCATTCCCAGTACGTGATAAGCACTCAATAAATGC
TGGTCCTTATTATTACAAATCTAGAACCATATTCTTTTCTTTACCATATTTTTTTCCTATGAATAGTACAGGGACTCTCTTTCAGGTGGCAGGAGGTGGT
TTTGGGAGGCAGGCCTGGGCTACAAGTCCTCCACCCATACTTCCACCCAAAGAAGGTGGGATTTTTTTSTGTAGACTTCCTGACCTGATAGCCTGAGTGA
GTGATTGAAGCTTCCTGCTCACCAGTCTAATTAGAGACTGGAAGCCAAGTGTCTCCATGGTCTAGGGGCCTCCCTCATGAACTACAGCTCTTTGCGACCC
AATTCAAATGYTGCCTCCTCCATGCAGCCTTCCTTGATTTCTCTGTTTGAAAACCCCCTGCCGACCTAAAAGAGGTACCTCTCTAAATCCCTAAAATGCT
CCGTCTGTACCTCCCACATTCTACCTGGCATTAGAATGTGTTGTATATGCCCCACAGTTCTTCTACTAGTCTGCTAGTACTTCCCAAGCAGGATGAGTAC
AGGTTCTGATTTGTATCACCTACAGTGCCCTGCACACAATAGGTGCAAAGTAAATGGTCATCAATAGACGAATCTACCTCAGCATCCACAAAATGAGCTC
TGGCAGTTTGGCACATGCAGCTATAAGTAAGAGAAAATTGAACTAAGGATGCCTGAAATAGTAAGAGCATGACTTGCCTYTTAGAGCAGAAAGTYTGGAG
GGAAGGAGCTCCAAGCCGGTCCCTACATTCCGTGGTGTCAGAGCTCTGSGTCACCATCTCCCAGTACCTCCTGGCCCTGCCATCCTAGTCACAAGATGGC
TGCCMCCGCTCCAAGCGCTACTCCCCCTTTTGTTTGGATAGAAGACTTCCAACAGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGARGCCAA
GGTGGGAGGATCACTTGAGCTCAGGAGTTCAAGACTAGCCTGGGCAACMCAGCAAGACCCTGTCTCTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATT
TAGCCAAGCATGGCAGTGTGCACCTGTAGTCTCTGCTAYGTGGGAGGCTGAGGTGGGAGGATTGCCTGAGCCTGGGAGGTCGAGGCTGCAGTAAGCCATG
ATCACTGCACTTCAGCCTGGGCAACAGAGTGAGACCCTGTCTATTAAAAAAGAAAGAAAGAAAACCCTTGGTTTTATGTGTTGGCCARAGCTGGGTTACA
TGACCAGTCCCTGGTGAAAGAGAAGGGAGTTGCTGCTGATCATGCCTCCCAACCCAGGCTGGACCCACTGCTGTGCAGACCTGGCCTTTGTTAGCAGAGG
AGGGATGGCTGCTGGTTGGACGACAAACCAGATCTGCCACCGCAGCTTACTGACACTTTCCTGCCAAGGAAATAGGAAGAGGCAGGGCAGTCCCTCTAAA
CAGAGGGCAGATTTCTGGGGAAGGGACCAGTGTACATTTCACAGCTCTTTAGCCTTTCATGGGTATTTTCTGGGTATTATGCCATCCCATCGATTTGGAC
CATGCTTACTTTACAAAACATTCYTGTACTTCCAAAGGCAGGATCACCGAGTGTTTAAGAACACGGAGCTTGAGTACCCGGTTCTACCATCTTCTTGCTG
GCTGACCTTGTGCCATTTATTTAACCTCTCTGTGCCTCAGTTTCTCATCTGCCACAAGGGGATGAGTAAAAGAATCTACCTCACAGGGTTGTTTCTGAGA
TTTACATATACAAATACACACACGTCATTTAAAACAGTGTCTGGCACCTATAAAGCACTCCTTAATTTGCTATTATTATGTGTCATTATTTAGTGATCCT
GTCACTCCTTTGAGATAGGAACAGTGAGGATTTTAAGGCTCAGCGAAGTTAGACGACTTCCCTACATTCCCTCAGCTGGTGAGCAGCAGAGAATGGGAGG
GTCCAGGTGGCCCGGTGCTGGGCCTGGAACTCAGGGCCYTGACCCCCACTGTCCTCCCTACTCAGAATCCTCTGTGGACACTTGCTGAGGGTGATAGTCA
CTGATGGGTGACTGTTGTCCCACAGATGATGCTTTTGTCTCTGAAATTTATCATGAATTATCTGAGAACAAGGACTATGTCATAACATCTCTCTGACATC
CCAGCCCTAATACTAAATAGGGCAGGAGAACATGCTGGTTAAATGGGCTTTGGTGGGAGTGTGGGAGSCGGAGAGATGGCGCTTCCATCGAGGTGTCTCC
CCCGATGGGGTACAGTGGCTGAGGGCAGACGCTGTGATGTCACGCTGTCTGACATGGCACAGGCATCTGCTCCCCATCACAGAGCAGAGGCCCGCGTGCA
CTTTCCCAGCCTGGGGGTGGAGGTGTTAAGAGGCTGACCCCAAGGGCCTTGACTGTACTTACGCCTTAAGAAACTGCTGTTTGGCCGGGCGCGGTGGCTC
ACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCTAAAACGGTGAAACCCCGTCTCTACT
AAAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTKAACCCGGGAGGCGGA
GCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGAAACTGCT
GTTTGAGCACTAAGTGTTAGCAGCATGAAAAATGAACACATATCAATTTATGTCTGAATTTACTCTCAGAATTCCCTGTGGACTCTGTAAAATGCCATTT
TACCTCTTTTCCACCCATCCAGCTGTGGAGGCAGTGGCAGATTTACATTATTTTACATCCAGTTAAGGGTGTTTTTTCTTTTGGTTATGTTTTTAAAAAG
AACATTTATTGCCCATAAAAAAGTGTTTTTGTTAAAGACAATAGTGCCTTTAGGTAGTAATAGAATGCTGTTTCACAAATATTTATAAAACTATTAAACA
AGCTGAGATTGCTGAAGCTCCGATTAAAAGGTGCCTCCCATTCATCTTTCCCTTTAGAAACTGAAGTAGCTTAACTGCAATTACCCRCCACCATGAGAAG
ATCACCTTGCAGAGAAATAAGGCAAGACCCCRACAAGATCGTAGGTGGTGGCACCAGCATTGACCCCTTCACACCCACCCCTCCCACTGGTGTGGGGAAT
TTAGCTTAGGACATTGCTTACAGCCTGAGCTAAGCCAGGGTTTCTGGAGGGTCAGGAGGGCTCCTGGGCTATAGGTGGAACCAGAAGGAGGGAGGGAGGG
CGGGTGGTAAAGCGGGGATGGCATAGCCGAGGGGTTTGTGGCACCAATTGTGCAGTTAGGCAAATCTGGCTTCAATTCCTGGTTCTGCCACTGGTGAGCT
GTTCCTGGAGCAAGTTACTCAGCCCCTCTGTGCCTCAGTTCCCTCACTCTACAACAGGGATGGGAATAATAATCCAGGAAACATTTCTAGAAAAGRGAGG
TGAGGAGAGGGCTCGGGTGTGAGGCTTCACATGTTGGTTCCTTCTAGRCACTCTGCCCACCAGCTCCCTGCCTTCTCTCCTGTCTGGTATTTTTTGTTTC
TTGTTTGTGAGCAGACAGGCCTTTGAACCCCTTCCTAGTCGGTGGCTGGCCCAGAACATAAAGKTTCTCTGAGAGCAGGCAAGGGAGTGACTCTGTTGTA
GGAGGGAAACTCGTACAGGCCAGACGGAGATCACCGGCTTACCTCAGAGTTCAGATTCCACTGATTCGGAGTTTTAATCATTTGGTTGAGACCAGAACAA
AATTTACTCTTGCGTAATTATCAACAGGATTATAAGGGCAAGATTTAGTGGTGTTTGTCTCAGCTCTTTATAAACACACCATAAACTGGGTGGCTTATAA
ATAATAGAAACTTATTTCTCACAGTTCTGGAGGATGAGAAGTCCAAGATCAAGAGTTGGTGTCCTGTGAGAGCCCCCTTTCTCATGATGGCGCCTTCCTG
CTGGRTCCTCACATGGTGGAAAGGGCAGGGCAGCTCTCTGAGGCCTCTTTTATAAGGGCACTAATCCCATTTATGAGGACTCTGCCCTCATGATCTAATC
CCCTCCAAAGGCCCCACCTCCAAGTACCATCACCTTGGGGGTTRGGATTTCAATACCTGGAGTTAGGGGGACATCAATATTCAGATCATAGCAGCATTAA
AGACAAGAWACACCCCTGAGAACCTCCCGAAATTTCAGAAGCCCCACATCCACGTCAGTGGTCCATAAGTCACGGGCTCACATGCCAGATGCTGTTCTAA
GAACTGTGCRGTTACTGTTGTTATGCCCTCTTTGCAGATGAGAAAGCGACATACACAGAGGTTACACAGCTGGTTAGGGATGGGYTCAGAGGTCACCCAG
CTGGCTTGCGGTGGACTGGGATGAAAGCCAGGAGTCTACTGGCTTCYACTGGGTTCATTGCTGGCAGCCTCCTCCTTATTCAGAGATACTGAGCATGGAG
TGGGCGTCCTAGCTGTCCAATGTGGGCTGAATCTGTTTGCAAATGAGTGGATACTAATGCCAACAATAGTAATTGTACAGGTTTTATTGCCGATACTATC
RTCAAGCCTTTCCCAGCAGCCTGGCCCYGTGCTAAGCCCTTGAATGCATGATCACATTTAATCTCCCTAACAATGCTAGAAGGCCGGTACTGTTATTACA
CCCATTTTTAAGTTGAGGTAGGCCTGAGGGTTCCCATCTTCCATATGATTTGTGTTTTCATCTCTCCCCTGAGCCCTASGCAAATCAGACATTGCCTCCT
GCAGCCTCTGCATATATACCTGGCTAGTGTCCACAGTACTTGGGGACCTCCTCTTTCGGCTTTGGAGCCCCCCCTCCCTCTGTCTCTGTATGGGCGAGCA
TCTTCCTTCTGTCTTCTCCCTTCCTTCTTGCCTGTTAGACTCTCCRCTCCTTAAAACCAAAAAAACAAAACAAAATTCCCATTACTTGATCATTTTACAT
TCCCTCGTTAAGCCAGGCTCAAAACATTAAATAATTGTGCATTTCACACCATACCCAAGCCTTTCTGACTTTGTGATTACCAAGGTGCATTAGAATCTAA
ACTGCTATGTTATGCTATTTGCAAAATACTCTTGGCTCTTCCCTGAATCAATTCCCGTGAGGGTACGTATCAGGTAAAACTTTGTTGTTTTAGATCTATT
TGTTCTTAGACAAAGTAAACTTGGAATTGCTTTTCAGTTTGTTTTGAAATATTCCCTAGTTCTGTGTTTTCACACGTGCACAAAGGCCTTACTTCCCCCA
TTAGTCTGATTCTGAAGTTTTGCTGCACTAGGAGAATGTTCACTGACAAAATGTTAAGTAATGGTGCTGAAATGTAAAGTAATTAATGCAAGAATCATAG
TATGGGGTGGGGATCTCAGTGCTTTAATGAGGGCTGGGGAAACCATCTGACTGAGGATGTTGAAAGCGGAGGGGTAGATGAATGTTCCTGTAATTAATGC
TGCATATTAAAAAAGTGACCTCTTTGGGCCGGGCACAGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGTGGGCAGATCACAAGGTCAGGA
CTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAAAATACAAAAATTAGCCAGGCATGGTGGCATGTGCCTGTAATCCCAGCTACT
TGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATAGCACCAYTGAACTCCAGCCTGGGTGACAGAGCAAGAC
TCCATCTCAAAAAAAAAAAAGTGACCTCTGGCATGGTCAATATGGGGACCTCGTAACCTTCCCTGTCACCTAGAACTGCACTTCTGGGACTCTGTGGTCC
TATTAATAAAAAAGATAATCACCARTCTGCCTCATCTACTGTGGAACCCTTCCAATTCTTTTTTTTCTTTTTCTTTTGAGGAGAAATTAGAAATCACCAA
ATTACCATTTTTAGACTATTTATGTGTATATGTATATTTTACTCTCAGATATATTTATTCAATGCTTGCTCTATAATGAGAGTTTTAACTTTCTGTTTTC
CCTTCCATTATCCCTGAAAAGAATGGATTATGGAGAAAAGATGAAAGTAGTCTAATGCAATACAGTGTTTGCTAATGTGCTGTCAGAGGTATTAGTGGGA
CTTGCTAAGGTTTGTGTCTTTTATGAAATGCCTTTCAGATTGCAATTATCTAATAGACTTGGAAACCTGTTTGTACTCTTGCAGGCATTAAACGTCGTCT
TTGAAAAAATCCCGGAAAACGAGAGTGCAGATGTCTGTCGGAATATTTCAGTCAATGTTCTCGACTGTGACACCATTGGCCAAGCCAAAGAAAAGATTTT
CCAAGCATTCTTAAGCAAAAATGGCTCTCCTTATGGACTTCAGCTTAATGAAATTGGTCTTGGTAAGGCGGTGCGGGAGCTATGTGGTCCCAGGCCCTGA
TGAGTGTCCCTCCCTGCCTGCCCTCCCTCCCTGTCCCCCCTCCCTGCCCCACCAGCTTCCATTCAGTGACACTTACACAGCCAGGTTGTTCCTGGAGGGC
ATGTCTAGGGGCCAAGAGACTGCTTTGGTCTCTCATGGGCATCCTGATTCTTCGAAGGAAGCACGGTCCTTCAAAGATGGCGTTTGTTGTTGTTGTCTTT
AAATATTACGTCTGTAAATCAGATTGATGAGATTGCAGGCCCTGAGACTGCACGGAATCACCTTGCATCATGAAATACAGAAAGGTGTCAACACAGTGCC
CTCTGCGTGTGTTGCATTTCACATTGGCATTTGATTTGTTTGTTGTGATACTGAGCGTGTCATTACTGGGTGGCTCAGACTCTGGGTGTTAACTCTAGCC
TGCTAGAAAGGTCATCTTCCTCTGCTAATCACATCCTGTATTAAGTATATGCTCCGTCCTCCCYCAGTGTGCAGCAGCATCTGCTATGAATTCATTTTCG
GGCTCTACTGGTMTACTGCAAAGGAGAGCATATGCGTGAGCAAGCTAACAGGGCCCCACTTCCCTCAAATGTTCATCAACATTTTAAAGTTGAGCTCCGT
GCAGTCCTCCCAGGAGACTGTYGTGGGATTTTATAGCAGATAATGGGACAGAAATGAAGAATAGAATCATGGTGGTGACAGACAGTGTAACGAGGTTCAC
TTCCCCTTGATGTACAGTTATAGGCCTTGACTAAGCAGGCAATTAAAATCCTCCCACTCGGCCCTCCCAGTCCAGCCCCCTGCTAAAAGGCCATTGATAA
AGCCTTGAGGCAGGGTCTTGGAAGTTTGAGACCATGCAAATGTGGGGCAACTTGGTGATGTGGCTTTAAAGAAAGCAGGGCTGCTAAGGCACCCCTCTTC
TGCTTCCTTCCTTGGGTGACCGTTGAGTCACTTGAGGACCATTTTAGCTCATTTGGTTAGATACAGGATCAAAGGGGGAGCCCCAGCCAGGACACCATGA
CCCTGACCCCAGACCCCCAGCTTCCTTGCTCTGAGCATACATCTTGCAAATATGTGGCTGTCACTACAAAGGACATGGGCATACCCCGCCCGACAGTCTT
GGTCCTGCCGCTGATGAGTAGGTAGTAGCATCCTTACTCTTTTCCTGAGTTTGGGTGTCCCTTGCCTCCTAAAGTAGGAAGGCAAGGAGCAGAGCAAGGA
GGGGGCCTGGGGACACAGCCTATCAGCTATGTCAGGCTTCTGTGTGCCTGCTGATTTCCCAGACTACCTCCAGAAACCAGCCATCAACTGTACTGAAATC
CAACACCAGGCTGGACGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCCAAGGCTGGTGGATCACCTGAAGTCAGGAGTTTGAGACCAGCCTG
GCCAACATGGTGAAACTCTGTCTCTACTACAAATACAAAAATTAGCCAGGCATGGTGGTGCACACCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAGAA
GAACTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCCAGATTGCGCCACTGTACTCCAGCCTGGGCAATGGAGGGAGACCCTGTCTCCAAAAAAAAC
AAAAACAAAACCAAAAAAAAGAAATCCAACACCAGAAGCAGCTATGCTTGGAGCTCTTACAGCAGAGACTCAAAAACRCAGATGCCCAAAGGGGCAGAAA
ATACATAAGGGGTGTCAGCCGCCTGGGACTACAGAAAGCAGTGGAGCTTGACTTAATGGGAAAGGACTCGCCATCCAAGGRGACAGTGCCATTTGCTTCA
GTGGTTGCCATGTGGACTACAGATTGTATTACTAGACTGTTCGATTTTCTTTTTTTAAAGAAATCAGATATCCAGTTTTTTATATGCAACTTAAAAACTT
TTAAAAAAAATTTTATAGAGACAGTCTCACTATGTTGCCCAGGCTGGTCTTGAACTCCTAGCCTCAAGTAATCCCCCTGCCTCCGCCTCCCAAAGTATTG
GGATTATAGGTCTGAGCTCCTATGTCCAGCCTATGTGCAATCTTTTAATCTTTAAATGTTGGCACTGAGTTGACACTAAAATAATAATTAAACACCATGC
AGGTTCCAAAAAAAGAAAAATCACATTTGTGCACCACATGCTCACCTAGGCATAGGTTAGCAGCCTTGGCCAGAGAGTCTGCCCACTGTGGTGCTGGGAC
CTTCGCACACTGATGCCTCCCCCTCCACCCCGAACAGGAGCCTACAGAGATGGTTCATATCATGCCTCTCTTTGTGAACATGGGCACACAAGTGTGAGCA
TATACAAATTTGCTTCTGGAATTTTTGTTGAAGAGCTTAGTCGTCCCTCATAGAATGCATTATTTTGTCTTCAGTGGCTTTACTTCCAGGCTTATCAGGG
AAGAAGTGGTTTGAAACATCAGAGCCCTAAACAAACRAACAAAACAGAACTCAGAATTCAGGCTACCAGTCTGGCTGATGCATCTCTACACCTTCAAACA
AAGATTTACCACTTTATTCAAGTTTTAGTTATCCATAAATTTGTGAAAGTAAAGTGGTGGCATTTTAAAACTCTCTAAAAAGGAACAAAATGCTCTTTTT
CAGAGCTTCAAATGGGCACACGACAGAAAGAACTTCTGGACATCGACAGTTCCTCCGTGATTCTTGAAGATGGAATCACCAAGCTAAACACCATTGGCCA
CTATGAGGTAAGAGCAAGACTTGACCCCGTGTCTCCTTCCTCATCCCCAATCCTAGTCCCATGGACATTCTTTTAAAACATCCAGGACTCCCACCCATTT
CCTGGAATGACTTGCAGATCGATCGTGTCTGGGGCTGAAGTTTTCTTTCGTTGCTTGTGCAGACAAGCCCATGAAGGGCKCTCACAGTGTACTTGTCACG
TATTCCCTTCTCAGAAGGCTATGATTTTCTATCTCCTGAACTCTCTCCACCCTGAGGTTCAGCAGAAAAGAACCYAGGAAAAAAGTCTAGGAAAGCCAGA
GAAGAGTTATCCTTTAGCCTTCACTGGGTGACAAGCGTGCTGATGCTAAACAAAGCCCGGGAAGTCCCAAGCCTCGCCTCCCTCCACAACATTCACAGTA
GACCTTGTAACCTTTTGTGTAGGTCCTTGCTTCCTGAAGAAGTTCTAAATTTCCTGTTTGTTTGCAATATTGAGCGATACTTCCTTTGGCCTCTTAACCC
ACATACTGGGTGAGTGCCGAGGGCGGTGAGGGGTGCACGTGACTTCTCAGAGATCTGAGTGCCAGAGAAACCTGCACATAACAAGACAGAGGAGGCAGTG
AAGGTTCCTGAACACACTGGGATACTGGGGTTCACTTGTTTAGCAGTATTATCTGAATCTTTGTTGAATATCCACTCTGATAAGAGCTGGGGCTGCATGG
GAGAGGAGCAAAGACCAGGTCCCTGCCCTCACAGAGCCTGCAGCCCTGGGGAAGGAGTGCAAAAAAGGGACGGAGAGACAAGTAGAGTCAACACCTTGCG
TGTAGTAGTGCTGTGTGGCTTGGAGAATCCAAGAGGCTTCCTGGAGGAGGTTATGACTGAACTGAGAGCTAAACAATGAGAATTTAGCCAGACTGGGCTA
GGGTGCAGGCACATCCAGCAGGGAAGGGAGAGCATGCGTGTTAGACTAGTCAAAACTTGAGAGGGGCAATGGAGAGGGGGAAGGAGGGCAGTGACAGCTG
ATTATAGTCAGTGCTTATGAAGTACTTACACCACACCAGGTACTATTTCCAGCATGTCCCTGTAATGTAACTGCCCAACAGGTTCACCTTCCCCATTGCC
TAGACAGAGCTGATTTATCAAGACAGGAATTGAGATAAAGTAATTTGGCTGTACGGGAGAYGGGAGTTTTATTATTACTCAAATCAGTCTCCCTGAGCGT
TCAGGGATSAGAGTTTTTAAGGACAACTTGGTGGGTTGGGGGAAGCCAGTGAGCCAGGAGTGCTGATTGGTCAGGTCAGAGATGAAATCATAGGAAGTCA
AAGCTGTCTTCTTGCACTGAGTCAGTTCCTGGGGTGGGGGCCACAAGATCAGATGAGCCAGTTTATTAATCTGGGTGGTACCAGCTGATCCATCAAGAGC
AGGGTCTGGGCCAGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTCGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTCCAACACCAGCCTG
GCCAACACGGTAAAACGCTGTCTCTAAAAATACAAAAAAATTAGCCGGGCATGGTGGTGCACATCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAG
AATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATGGTGCCATGGCACTCCAGCCTGTGCGACAGAGCAAGACTCCATGTCAGGGGAAAAAA
AAAAAAAAAAAAAAAGCAGGGTTTGCAAAATATCTCAAGCACTGGTCTTAGGTTTYACAAKAGTGATTTTATCCCCAGGAGCAATTTGGGGAGAGTCAGA
ATCTTGTAGCCTCCAGCTGCATGATTCCTAAACCACAATCCCAATCTTGKGGCTAATTTGTTAGTCCTATGAAGGCAATCTAGTCCCCAGGCAARAAGGT
GGTTTTGGGAAAGGGCTGTTGTTGTCTTTGTTTTAAACTGTAAGTTCCTCCCAAAGTTAGTTCAGTCTACATCCAGAAATGAGCAAGAGCAGCTTGGAGG
TTAGAAGCAAGATGGAGTTGGTTAGGTCAGATCTCTTCACTGTCTTCTAACACATCTGCTTCACCGTCTTATAACAGTGAAAGGCATCTGAAAGGTTTGT
TTCAGATGTTTTTCACTGTTCACCTTTCAGATGTCTTTCACTGTTATAGTTTTGCAATGGCGATTTCAGTATTTCGCCCCATTCTATCCTATAGCAGTCC
TAYGAGATAGGTACTATTATTAACCCCACTTTATAGATGGGTACGATGAGGCTCTGGGAGGTCTGGTAACAGCTAGTCAGTGGCAGGGCCAGATTCGGAC
CTGGATAGTTGGCTGTAGGGTCTGTGGCTGAACCAGTCCATGCTGTGGCCTCTTACAAGATGTAGGGGTAGGGAGGCAAGCAGGGAAGATGCAGATCACA
CAGATGGGGGCAGCCTCTTCAGGAGTTCTGAGTCTTATCCCAAGAACAGTGGGAAGCCATGGGAGGTCCTGAAGCAGGGAGGTTAGTATTTCARAAAATG
AGTGGGGCTGTGTGTGAGATGTAGATAGAAGGGGTGCAAACCTGGAAATAGCCCCATTAGAAGCTGTGGATTTCTGGTGAGGATTGGTGCTGTCCAGCAA
TAATGCAGTGGCTCTGGACAGACACAGAGACACACAAATGGAATCAGATGCTCAGGAGGAGGACACCACAAGTCACGTGGATGGGAGGGATAGTAAGATG
AGGGTGGGGTCAAAGATATCAGTTGGGGATGACTGTGCAGATGCCTGGAGGCAGGTGCTTTCCTAGAGAAGACAGGAGGAGGAGCAGCTTCCCAGCACAC
CGGGAGGGTAGGGACCCCCTGTTTTTCATGGCTGTACAGTCCCAGGGTGACAGGTCTGCACCAGGAAGGACCTAGGACTCTGCCAGATTCTCCCCTTGCC
CAGGAAGAAGTGAGACTGTTCCCGAGCAGAGCTTCTTAGACAATGGCCAGGGACAGAGAACACCCATCCTTGGGCTTTTTGGCTGAGTGGGTCACCCAGT
TTGAAAGTGGTTGCGTTGGGTGATGACTGAGGTGCTGCCCCTGTGGCATTGCTGTAGGGAGTCTAGCAGAGAAAGCTGCAGGCTAGCAACTTGCCCCGTG
CTCACTCTCCTATAGCTCAGACTTGCCAACCCTGGAATCATCTTGCCAAGAGCAGTCGTTCTTAGCTTTTGGAGTTTGTAAAAATCCCCAGGGAGTTTTC
TAAAAGTGTGCATTCTTGGGCTCAGGAATAAGGGGCATCTTTGGCTGTATTTGGAAAAACACGGCCCCAGAGGGAAGGTAATGGCCAGGAGGAGATCGGA
GTCAGAGATGCTGCCCTGCTGGGTGGAAGTGCTTATCATGGCATCAGTTCAGGGTTCTAGACCTGCAAGCCAGCACCTCTCCCTGTGTCTGGGTGGCAGG
CTTGTCTTGATGAGTTAGGAGGGGACACAGACTCCAAGGCCCTCCTCTGGTGCTGTTGACTGGAGTTCTTGTCTTGCTCAGCTGTGCCTCCCCTGCCAGG
CTTCTCAGCATCCCTTGGCCACTGTGGGGCATGGGGTGGGCCGCAGAGGCAGGGGATGGGGCTACCCACTGCCATTAATAGGAGGAGGCAGGGCAAGTCT
CTCCAGCAGGGAGAATGAAGAACCACCACAGCTGTCTGCAAGGCAAGGTGAAGGCCTGTCGGGAGAGATAGAACATCAGTCTTCACTGCAGACATCGGCC
GKGCTAGACACCTATCTGCTTAAGGATGATAATGAAATTAATCCGGCCTGTAGTCACTTCCCGTCCAAATGATTTATTGGCCTCATACCCCAGTGTTGCT
GCATGGTGGTAATAAATGACAAGCCTAGGACATGAAGGCTTAAAGGATTCTCCTTATGTTTAAAAAGYTAAGCCATAAGGCAAATAAACCAGAGAGCCTG
AAGGAAACGGGAGGTCATTGGGCTCCATGTTYTYTATGCCTGGACCATYTCAAAAGCCCTGTTTTTTAAAGGCTGCTTGGAGAAAATCATCCCCCACCAC
CCTCAGCCACCTACATYTATATTTGATTAAGCAGCGCCTCCGCAGACTCAACATTTGGGAGTAATTTGACAGGGCTGGGCTGAAGTTTGCTTTTACCCTT
TTGTTAAAGAAAAAATTTTCTCTTGAGCACTAGCATTTCCCTCCAAAGAGACAAGATGCTAATTATCACTCTTATTCATTTACTAAAGCACCCTAGTTTG
AGTCACTGTATGTGCTTAAAAGCAAAAAAAAAAAAAAAAAAAAAAAAAWTTCATTTAAAAATAGGGTCTAATTCARAGTTTTAAGKGAATCARACTCACC
TCCCTCCAATTAGTCCACATTAGTTAGGTTTTAAAGTTAATCTGTAGTGACGGCCAGTTCCTCCTACTATCTAAACAAAGTCCCTGCTGTTGGAGAGCCA
GCCTGTTTCTTCTTTCCTTGTCTGTCCTTAGGGCAAACAGAGTGTAGCTGGTCTCGTCTGAATGATTTACTCTCAGCACATTTGAAGAACAGGTTTCTAG
AGGGGATTTGAGGGCATGACAAAAATATAGCATCTCATGGACTAGATGCAGCCCCCAGAGCCCCACATTGCTGGCAGGGCCCTGTCACCTACTGGCTGAC
ACCCTTGGCAACCCCCAGCACCGGGGAATTGCTTTCCATGACAATAACCATGGCAGCCAGTGCCTGGCACTGCTCACATGCATTAGTTCAATTAATGTCC
ACAAAAACCCTGGGAGGCAGGTGCTTTCCTTACTCCCATTTTCCATCTGATGAACACAGAGGAGGGTGCATTTCTGTTCCAGTGTCATTCTGTCCTGTGC
AGACAAAGGGTTAAGCGTGTCTTTACACATGAAGCCASAGGAGTCTTTCTCCCCTATAATTAAACCCTCCCGGTGCGCTTCCTTAACTGGATGTCATTCT
GTGTGCGTTGACTATGAAGGGGACTGTGCTTTGCTCTGGTGCCAACAGGGTCTGGGGCATGTGCACCTGCATGTTCAGGGAGTGGGGCACACTCGTCCCC
TAGGACTGTGGCAGGGTGGTTTCTCTGGAGTCCAGCCTTCTTCCTCTCACTCGCACCCTGCTGTGACCTTTGGCTGGGCCGAGTTATTGCACCCGCACCC
TGCTATGGAGTAGTGGCGAGTGTGCAGGACAGGTGTTGGGCAGGAAATTTTCTCTAAAGATTACACTTCGAGTTCTGAGCTGCAAGGTTTTGAGAGGCAG
AAATGTTGTTTAACCGCTTTCATTAACAGATGTGTACTAATGCAGAAGTGGTCACTGCTAACAAATTTGTAATTCAAAAGATATTTAAAGCTCATAGGAA
TGCCCCAAAGGGTCTGTTAAGTAAGGTCAGCAATGCTTCTGGTCAAGTCCATCATCTGTGACACTAAAAGGGACTGGACAATCGCTAAAGGTCTGTTGCA
GTGTGAATGTCTTTAGATATTCATTTAACAAACACGTATAATGCTTCTTGTGTACTGGGTACTGTTCTAGGGCTTTGACCAACAGCAGCTCTTTCCGTCT
TCTTTACCGCTCCATGAGGTGAATACTATCAGCCCCATTCTGAGGCCCAGGGAGGCTAAGAAACTTGGCCAGAGTCACAGAGTTCCTTCACTGATGCCTC
AAGGCTTGAAAGCAGGCGAAATAACCACTCTAGAGACTGTGGCTCTGCGCAGGGCCTGAGGGATACCTTCCCCCAGATCCAGGCTTTCAGCCCATGCTCC
TAACCTCCGAGGCAGCCTGGCTAGAGAGCTGGGCCTGATTGAGGAGAAATCCTGGTAGTTACATTCTCTGATGTCAAATTCATAAAGGGTAACTTCTCTT
AAAATCCCAGGGTGAATCTCGTGTCTGTGAGTTTATCAAAATGCTTCCCTACTTCTACTTTAACCCTCTTTTTGGCCAGCAGTCCGTGAAGATGACAGTT
ACCTTCATCCAAAGGGGGCCTCTCTCAGGCATCTGGGCTCTGACAACTCCAACCCAACAGGATCACTCTTGAGTCTTAAGTGTTCAGGTCTTCGCAGTTT
CCCACACATTCTTGGTGGCCCAACTCCCTCAGGAGGAAGACAGTCTCAGGGCTATCACTAATAGGCCGCAGAAGGAGCTGGCTAGTGGCCTGGAGGTTAA
TTTCAAGTAAACAAGAGAGAAGCAGGAGCCCTGTGGCATTTTCTCTGGTTTCCAGCATCCTGTAAGCCCTCCCCTGGATGTCCAGAACCTTCTGTGTGAT
TTGACCAGCCTGTGGAGGATGTTCTGACGGCCCCTTCCAATGCACTGGTGAACCCCTGTGCTGAAGGACTCAGCAAGGTTATCCCTCAAGCCCTGAGAAA
CAAGATTTTGTTTTCATCAGTTTCCAGCCTTGGGGCATCAGTGAGAAGAGCTGAGGGAGAAGACGATACTGACGGAGGGAGAGCAATATTGGCACGTGGC
TGCTGGGACAGCATGTGGAATAGAATTCTGTTTTCACRTAATATTGTTTCAGCAGAAAAGGTGATTTCAGGAATGAGAGATTTCAATCAGAGTTTCTGTG
TAGTGATTTGATTCTCATGTTTTCAGATTTTTTTCTTTAAATTATCACAATATTCAGAACATATTCATAATTTTTCATAAAATTTATAGCTACAATGCCA
GCATTTCTCTTAGGTGGAGCCATATGAAATTGTCAATAGGTGACCATTTTTACCTACAAAAGTGGTAGTTTCATAAGGTTAAACATAAGTTCAACCTTAC
ATTTCTAGAAAATCTCTTTTCATGGAATTCTAAGCTGTGCCATAAACATGGTATCTTATAAAGAAATCTTACCTTCACTTGCAAGTGGTTTGGAGGATGT
GTAGCTCCTGTTTATTTTGGAAATGACTTAAAGTTGTTGATATGGGTCTTTTTCTCCCTGAGTGATTACAACTTCTCATTCTAATGATGGGAAAGTCTAC
AGTCATCTCTGCCACTTCTAACGTGGGGTGGCCCCAATTCCCCTCCATTGATGATTGGAGGGGAATCGCTTGTTGTCACATCGAATCCTAGAACCCTGTG
AGACTGGAAGGAATTTAATTTGAAATTGCCGTGCRTACCAGTTCTGCTCTGGGCTGGAGAAACAATCCTGCTGCAGATCCATCTAGTGACATTAATCTTT
CTTTGACTTAATTTGGTTTTCATCCCTAAAGTAGGGGCCCAGAGGACGCTCCCTGCCTCACAGGACTAGGGGACGATTAATGAGTCACTCTTAGAAGAGC
ATTTGGAGCTCCTCAGATGGAACAAATGGCATCTTTTTAACACTCTGCATTCCAGGGCACTTTTCAAAAAGGCATTTCTGTCCTTACCTCAGCAGCAGCT
GACTTGTGCTAAAAAGAAAACGGAAACCTTTCCCCCACAAACATCTGTAAATAAACTATTTTTCTGTCTTTATAATCGTGTTAAAGTGTCACATGGGGGA
AATGTTCCAGCTCTAGAGCAGCTGTGAAAGTTAGAAATGCACTCACACATACGCGCTCACACACACACACAACTCATCCACTAATAAAATGTTTCTACAC
TTGCTCTTGGGAGATAATTTCAGAGTAAAATTTCCTTGGTACAAGCTGTGTCTATGCTATCTTAATGCCTGAGCACAGCACTAGCAGCGGGCTGTTGCCA
GCTCTTGAGGAGACATTTGAACTTTTGGCAGCGYTCCTTATCAGAAGGCCCATCCGAGGTATTTGTGATTATAGAGTAAGGGTGCTCGCTTTTGGCAAAA
CAAAGCGTCTGACAGTAGTGAAGTACTGGCTCAACACTCAATGGGAGACATTTGGGATTCATTCTTTGACAATTACCCAGAATGAATCATCAGCTTCCTT
TTATAAAAAGATATTTATTGGCTTAGAAACAGAGCATATCCAGCTCTTCGTGGGGAGGAATTTTGTAACTATGTTCAAAGCTTCTCATAAACTCGGTGTC
TGAGTATTGCTAAGGGGGTGCCTGCACAGAGCATTTAGTTTAATTGCATCAAATATGGAGGAGAATTGAAAAATCAGCCAGCAAACAATGAATAGCTCAA
GGGGAAAAGGAGAGGATGCTCGTTAATAGGAGCAGAGTCGAAGAGCTCAGTAAGAGTTAAGAATCCCTGCTGGAGTCACTTTGCAGAGGCCTGATGGCCC
CAGCCGGCCCCTGCCCAGTGCTGCCCCCACCCCACCACCAAGATATCATGCACACCAGCAGTTGGAGGCCTCTGGCCTAAACTTAGCGGCTGGCTGGACA
GCTGTGTTTGAGGACCTCTTGAGGGCTGGCTCTTGCTCTGTGTTCCTCCCTGTGGGTGTAACCTGAAGGAGATTAGGTTTTAATCCTTTGGTGCTTGCTA
GGTGGGCTAGTACATTCTGATAACCAATGTGCAGCAGGCCAGAAGAGAAATTCTAGGTTTCCACTCTTTCCAAACTGGGAAGGCAAGGTCCAAATTAATA
TTAGAATTGAGAATAGCTTTGGAGCTTCAGAATGGAGGGAAAAGTCACTTAGCTGATAAGGTTCAGAAGTGACAGGGTCAGTCCTCCAGAAACAGTTCCA
GAATGAAGGAGATTTGTGGATCTCTGACCTGCCTCCTTCTTGCCACCCGTTTGTCTTGTAATTTTGTGAATGAGCCCCTCCTCCCACAGAGCCAGGCCTG
CCCCCAGCATCTTGGCATCTTTGTCCCCCTTTGCCCGAAGGGCACTTCCTTGCTTGGGGATTTGCGAGTGCCCATCAGGGTGTGGGGGAGGGGCACTGTA
GGGCCACTTGACCCTGGTTTCCATGGTACCAAAAGGTCTTAGGTGAGAACGCTTGATTTTAACTCCAAAAGAGGCAATATATACAGAGGCCTGCCTTTGT
CAAATGTATACATTTAAAATCTGTGGCAATTCTTATCAGTTCTATTGAAGCATAATTTTTGAGACAGGRTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGT
GGCACAATCGTGGCTCACTGCACCCTTGACCTCCCACGCTCAAGCCATCCTCCTGCCTCAGCTGGGACTACAGGCRTGTGCCACAATGCTCAGCGCTTTT
TTGTTTGTTTGTTTGTTTTGAGGAGAGATGGGGATCTGAGTTCTCCGGGCTGGTCTTGAACTCCTAGGATCAAGCAATCCTACTGCCTTGGCTTCCCAAA
GAGCTGGGATTACAGTCATGAACCACTGTGTCCAGCCAAAATATAATTCATATTACCATAAAGCTAATTCGTTTAAAGTATACAATACAGTGGTTTTAGG
TATACTTATAGAATTGAGCAACCATTGCCACAATCTAATTTTAGAACATTTTCATCCCTCCCGAAGAAACCTTGAATTCATTAACAGTCACTCCTTATTT
CCCCCAGCCCTGCTTTAGCCAACTAGTAATCTACGATCTGTCTATATAAATTTGCCCATTTTGGACATTTCGTATATTCTTTTTAGATTCGTGGGTACAT
GTGCAGGTTTGCTACAAGGGTATACTGCATGATGCTGAGGTGTGGGCTTCTATTGATCCCATCACCCAGTGAACGTAGTACCCAACAGGAACTTTTTCAG
CCCTTGCCCCAGACCCATCCCCGCTTTTGGAGTCCCTCATGTCTACTGCTCCCATCTTTATAGACACTTCATATCAATAGGACCATACAATATGTGGTCT
TTTGTGACTGGCTTCTTCGCGTGTTTTTGCAGTTCATCCATGCTGTAGCATGTATCGGTAATTCTTTCCTTTTATTGTATGGCAATTTTTGGTAGTATAT
TCATACTACATGAACTAACACATAGTAATAATGAACTACTTGTAGTTGCAACATGAATACATGTCACAGACCTTATACTGACCCTCAAAATCTAGACACA
GTACATACTGTATGATTCTATTTATATGATACCCAAGAACAGGCAAAATTCATAAATGGTGATGGAAGACAGAAAAGTAATTACCTCTGGATGAAGATGG
GGTGGTCATTGTCTCGGAAGGGACAATGGGAGCACTTTTCAGGACCTTGCAATATTTTATATCTTGATAAAGGTGGTGGTTATGCCAGTATATATTTAAT
GTGAATAGTCATTGAGCTGCACACTTAATATTAGCAAAAGTTAAGCATGTCCCACATTATGCTTACATTTCAAAGCTTTTATTAAAAAGTATATGCAAAT
TTTGTGATTTTACAAGCTTTTGAAAAAATGTCACAGGTTGAATATCCCTTATCCAAAATGCTTGGAACCACAAGTATTTCAGATTTTGGAATTTGCTTGG
ATTCTAGAATATTTGCATACACATAATGAAATATTTTAGTGACAGGACCCATGTTTAAACACAGAATTTATTTATGTTTCATATACACCTTGTACACAGA
GCCTGAAGGTAATTTTATATAATTTGTGCACAAATCAAAGTTTTTATTGGGTTTTGACTGTCACTCATGCTATCATGAGTTCAGGTGCCGAATTTTCCAC
TTGTGGCACCACGTTAGCACCCACAACGTTTCAGATTTTGGAGCATTTTGAATTTTCGGATTAGGGATGCTCAACCTGTATATACCTACAGAAAAACAAA
TAAATTATAAGCGTACTGCTGGATGAATTATCATCAAGTGAGCATATCCTGAAACTACCACCCATGTCAAAAAATAGAAGCCCTCTCCTGGCCTTTCCTA
ATCACTACCGCTGCTCTCTTCTCCAAATATCTAACATGATAGTTTTGACTGTTTGGGCTTTTTCTTTTTTCAAGCTCTATGTAAATGGAATCAGTCAGTA
TACTTTCTTTTCTGTCGAGCTTCTTCTGCTCAACATTATGATTGTAAGATTTACCCATGTGGCGTGTAACAGTAGTTTGCTCATTTTCATTGTTTTATAA
ACTGTTGTATAAATATGCCCCAAATTATTCATTCTGATGATGGATGTTTGAGTTGTTTCCAGTATGGGACAATTACAAATCGCTCCCTATCAGGATTTAT
ACTTATTTCTGTGGACTAAGGACCTACATGTGAAATGGCTCTGTCATAGGGTAGATACCAACTTTATATACCACAATTTCTGAAAACCCATTTCAGCATT
TCTTAATAGAGTAGTGTCATAGTCAGTTCGGGCTGCTATAACAGAATACCATTGACTGGGTGGCTTAAACATTTGTTCCTTATAGTTCCAGAGACTGGAA
GTTCACTGTCTGGGCAAAGTACTAGTAGCTCGGTGAGGACCCTCCTCCTGGTTTGCTGAGAGCCGTCTTCTTGTATCCTTGTGTAGTGGAAAGCAGAGGG
GACCAGCAAGCTCTGCTGTCTCTTCCTTTTCCTCCTCTGTTTAGAGACAAGGTCTCACTCTGTCGCCCAGGCTGGAGTAGAGTGGCACAGTCAGGGCTCA
CTGCAGCCTTGGATGTCTGGGCTCAAGTGATCCTCTCACCTCAGCCTCCCAGGTAGCTGGGACTACAGGTGTGCACCAATGCGCCCAGATAATTAAAAAA
ATTTTTTTTATACAGAGGGATCTCCCTATGTTGCCCAGGCTGGTCTCAAAACTCCTGGACTCAAGGATCCTCCTCTTCTTCCTCCCAAAGTGCTGGGATC
GCAGGAGTGAGGCACCACGCCCAGCCCTGGTGTCTCTTCTTATAAGGGCACTATTCCCATCATGAGGGCTCCAACCTCATGACTTAGTCACCTCCCAAAG
GCCCTACCTCCTAATACCATCACACTGGGATTAGGATTTAAACATAGGAATCTGGAGGAGACACAAACATTCAGTCCATAGCAAGTAACAATTTTTTAAC
CTCAAAAAATGAAACTGGCCTAGGTCTTGCCTGACCTCTGTGAATTGGGGGGAATGTCCTAACACAGCTCAGTCTTCCCCTCTTCCAGGGCTTCCCACCT
CCCATCTGTCCCACAGGGTCCTGGCCTCCACCTTCTGCGTACTACCCCACTGCCTCCCATGGCCTCATCAGCCTCCTCCACAGGACCATGAGCCCCTTGA
GGACAGAGACACTGCCTTGCTTGTCATTTAGTCCCAGCCTCCAGCACAGTGCCCAGAACATAGTAATTCTTGATAAATATTTGATTTAATAAGTGACAGC
ATGTAAGATCCATCCAGCCATCTAATTCCTGGGTGAAGTTGAGAAATCCATTAAATTTTGAAMACTCATATATCTTTTATCTTTGGTTTCAGATATCAAA
TGGATCCACTATAAAAGTCTTTAAGAAGATAGCAAATTTTACTTCAGGTAACCAATATAATATTGTTAACCTTTTGTTCTCACCCAGCTTCATAAAGTAT
TGCTTTTTGCCTCTCTCAGCTGTATTGTCACAAAGGTGAGATTGAGTTGTTGCTATGTAATTCTCTGAAAGTTGAGAAAAGTCATTTTGATCTCTTTGCA
GTCCTAAGAATGTGATCCCTGCAAGAAGGAAAGGAAACTATAGATGGTGGTTGGCCTGGACTGCCCAGCACTGAGGAAGTGGCTGCCTCTTTATAGCCCT
AAACTCAGGGCAGAATCTCATAGCTTTTTTTCAACCCTTTAGAAGGATGGGGCCTAACAGAGGAGATCCCCCTGGCAAACTGAGAGGGAAGAGTACAGAC
AATCATCACAGAGCCCCGMAGCAAGCGCTGAACAAACAAGATAATCCACTTAGAAGGTCCAAGTCTCCTGTGATAGCACTTGCAAAATTCCCAGAAATTG
GAGAGAGACAAACTAAAGGGGGAACTTTTATGGGAAAGTCAATAGGCTGGTCTCTAAAGTGATCTTCTGCTTCCCTGATAGCCCTGGGGCAGGAAATTCC
TGTTCCAGGTTTGTCTCCAGAGAAATTATACCCCAGTCAAGACAATCAGCTCTCAGCCCTTGGAAAGGTTCTGAGCTCCTCCCAAACAGGCTCCTTTCAC
ACACACAGCCAGAGGTAGGGCTTCCTGACTTCTGGATTCACTATTAGAAGGAGCAGGGAGCATCTGGCCAGTGCAAACAGGGAATGTGGGGTTCTTGATT
ATACAGACAGGATAATTGGGTAGGACTCCTTTGGGGAAACCCACCTTCCATCACTATATGGGGCTGTGGTGAAGCCATCTTGCAGAGATCATTCCAGCTT
AAGGGGGATGGTGTCTTTGTGTTGAAAAGTGGAAGAGCATGGTTTTTAGGTTTCAAAGATTGGGCCTTTTGAAGAGCCTATTATTTGGGGATTGAATAGT
AGAATCTTAGGTTTGGATCTCTTCGTGGGCCCTCCAGTCAGTCAACACTGCTGCTAGTTTCCATTCACTGCAACTGAGAGCCACCGTCTTACACCCTGCT
AATACTCTAAACCTCCTGTACCTCTGTCCTATCATCAGCCCCTCTGTCAAAATCCCAACGCTGGATGAACCCAACGATTATCCTTTCCTGACCCTACAGC
TAGGGAGCCACAGAAGAAAGGCACATAATGGCACACAGTGGGTCACTATAAGTTCATGGTACCCAACTTGACCAGGGCCCTCCACACAGCCTGCTCTCAT
TGGGTTCCTCTGGGCAATTCAACTCTGTGTTGTCCATAATGTCTGCCTTCTCTCCTCAAAGCTTTGACCCACACAGCTCTCCTCTCAGCAGATGACTTCA
CCCTGCACTCTTTACAGAGAAAACTAATCAGAAGTCCTTCAACAGCCAGTAGCAAACCTACCAACCTACCTGCACCTGCCTTCTTCCTTGATGCTTGTAG
GCTGACCTTCTTCCATTCAAGGCCAGTCTCTCACCTGTGCTTTGGGTCCACCATCCTTTCCAACCTTCTTGGTATCCTTACACCACCAGTAATCTCTTTT
CTCACCTGTACTTTCTTTTCCTCTCCATCTACTCCCCATTTTCCATTAGCATTTCAAGATGTGCTCGTCTCTCTCATCTTTATTTTTAAGACAGTGTCTC
GCTGTCACCCAGGCTGTAGTGCAGTGGTACAATCATGGCTCACTGAAGCCTCAACCTGCTGGGCTCAAATGATCCTCCCACCTCAGCCTCCCAAGTAGCT
GGGATTACAGGAGTGTGCTACCATGCTCAGATACTCTTTAAAATTTTTTGTAGAAATGAGGTCTCGCTACATTGTCCAGGCTGGTCTTGAAATCTGGACT
CAGGCAGTCCTCCTGCCTTGGCTTCCCAAAGTGCTGGGATTACAGATGTGAGCCACTGAGCCTCTCTCAACTTTAAAACAAACAAACCAAATGCCTTACT
TCCTCTCTTCCCTCCATTTACCACTCCCTTACCCTTTACAGCCACATTTCCTCACTCTGCGCTACTCTTGACTTGCTCTGTGAGCACCACCTCATTGTCC
TTTGAGATCCTAGAAAGGGTCAGCTCCTTCCTACCTTTGGACCTTCCTGCAATTTGCCTAGCTGACTCTATCTCTTCATTAGATTCAGCTCAAGCATCCC
TTCCTCAAAAACTCCTGGACTAGATTTGGTCTCTTGTTAATTCTTTAGCATATAATTCTCCTTCATAACCTTTATCACAGTTATAATAATTGTGTACCTA
GAAGTTTGATGTCTCTCATTGGCCAGAATGCAAATTCCATCAGGGTGGGAACTGGGTCTTATTCATTGCTATATGCCCAGTAGTCCCTGGCACATAGGAG
GTGTTCTAGGTACATTTGTTAAATGAATGAGGCTTGAGCCTCTCCTACCAGCAAGAGATCAGAGATCACTAGGGAATCTACTTCCTCCTCCAATCCCTCA
CCCGTCCCATCTTCACGCTGTTCTTAAGATCTTAAGATGCAGCAGGGGGAAMAATGTAGCTATGGAGAGCTCAAGTCAAAAAGCTCAAGTAACTTCAGTA
TACAGCACAAATGGGGCCTTTTAAGAGAAGGCCGATTAGCCCATGGTTGCTTTTTTTAATGGACTGCTTTCTCTCCCTCTTTCTCTGGCATTCAGATGTG
GAGTACTCGGATGACCACTGCCATTTGGTGAGTTCAGGCTTTCTTGTGCTCACCACTGAACTGCATGCCTTCTGTAGCAAGAGTGGTCTCCTTGGGTAAC
GCTTCTGCTGTCTTCCCTTCAGATTTTACCAGATTCGGAAGCATTCCAAGATGTGCAAGGAAAGAGACATCGAGGGAAGCACAAGTTCAAAGTAAAAGAA
ATGTATCTGACAAAGCTGCTGTCGACCAAGGTACACTTACTGTTCTGGGAGCACTTTATGGCTACCTAGGGGGTGTATGATATGTTTGACTTAATTTCCA
CTGAAGTGTGAAAATGTTACAAATCCCTTGTGCCTTCTAGCAAAGCAAAATGAAAGTTTAAATTGTAAACACTTCCTACCCAGTTCCTCTTCTTTTTATA
CACTACAAAGATAACAGCACTTTACAGATTTGTACTGTAGTATCTTCAGTCAGGGATTTAATATTGTTCCCAGTCTCTTTCTCCACCATTTCACTATTAT
TGTTATTTTTTAGGTTGACAGCATAATTATTCCTTTTGGTTTACTTGTTATTATAGATGAGCAATAAAACTCCCTTTTTGAATTGCRAATAAAATGAAGG
GGATGGGAAGGGTCAATGACTATAAACCTAGTAAATCTTAATTTTTGTTTTTCATTTTAAAATTAAGAATTCTGCTCACACATAAAAGTGTCAGATGTGA
AAGCCGGTGGAATACCAAACCGAGAGCAAATTTTACTTTATCTGGCTTTTAGTGGAATTAACAGAAGTCTGTGGTGATCTTTTTTTTCCTCCCCCTCTGG
AATGATGAGCACTATAAATGCTATGATCTACACTTGGCCCCAGGAACTTGATGGGCATGCTTCTTCAGATTATAACAAAGAATCTGCTTAGAGCTTAGGA
GATTTGTTTAGTGGGCAGAGGACAGCCCAAGCCTCTTGATTTTCTCAGCTGTCCCATAGAGCCCAGCCTATTTGGCTTTTGTGAAATACTCAAATGCTTT
GGAAAGTACACAATAAAACTTTATGATAGAAATATATGCAACAGGAAAAATTCTGGGAACAGAGCAGCATCACTTGAGCTTTTCCAGGCTGAACATAACT
AATAAAAGCCAAATATCCATGGCTTCCTGGTTTATGTAAACAGCCCTACAACTGACATTTCAACTGCTAGAGATTTCTGATATCCTCCCAGTTGACTAAA
CAATGTTATCAGCAAGAAGCTTATGAACCAAATCTAAACCTGGGCATGGATTTTCAAGACTTTTGACCTATACTGTGAGCACTGGCCACATTTGACAATT
TTACATTTTTCTCTTCAGTTTGTTTTTCCCTGTTTTGAACATTATTTTCTCTGAATGTGGATTTGCTTTTGCTATTATGTTTTCAAAACCACTACCACAG
TTTTTAATCTCCCAAATCTGATGTTGTCTATCTTTCAGGTGGCAATTCATTCTGTGCTTGAAAAACTTTTTAGAAGCATTTGGAGTTTACCCAACAGCAG
AGCTCCATTTGCTATAAAATACTTTTTTGACTTTTTGGACGCCCAGGCTGAAAACAAAAAAATCACAGATCCTGACGTCGTACATATTTGGAAAACAAAC
AGGTGGGAATGTAGGTGATTAGTGACTGTTTTCAAGAATCTGGGACAGAATATTAACTAAAAGAAAGACATAGATAGTTATAGAAGGATTCATTTATCTC
TATATCAGAATCTTTGGGCTTGGTAAGCTATCATGTCAAAGTAGTTTCTTATTCTGTTACTATTTTTAAACAATAAAGGAAACCATTCCTATGCCAAGAA
TCCTGTTCTTGAAGATAAACTGTTATCTTTGGTGCATGATACTTTGTCTAGAATGTTAAAAGAAATTTAAGTTGACCAGTAAAGAATGAGAAATTAACAT
TTGTGGTTTTATATCATTTTTGCATTAGAGAAAATTTTATGATAAACCATTTTTTGTTCCTAATCGGTTACTTTGCAGTCTCCAAGCTGTCTATACTCTG
ATTCTGTACAGAAATTTATCAAGTGCAGTACTCAGATACTATGAGAATTAGCCAAAAGTTTGTGTTTTGTTTTATATTTTAATATTTTACCTTAAGGACA
GGCAAGGCATCCAAATTTTGCCTCCTCAGTAAAGAAATGTAGCTCATGAGCTCTCTTTGAAATGCTGTGTGCATGGGCTGGATAAGACTCAGAGTTATGA
TGAAGTAGAACTTCTCAGTGCAAGCTCAAGGCTTTCCAGGCACTGAGGGCAGCCAGGTCACTTTAAATGAGTATCAAAAGCTGAAGTTCCTCTAGGTCTA
ATCTCCCATTTAATCCAGGCCTATCCCAATTCTCTACGCTGGCTTGCTCCCTTCTCTTCCTGTGTTCTAGCCTCTTTTTTTTTGAGACAGGGTCTCACTC
TTGTTGCCCAGGCTGCAGTGCAGTGGTGGGATCTCGGTTCACTGCAACCTCTGCCTACTGGGCTCAAGCAATTCTCCCACCTCAGCTTCCCAAGTAGCTG
GAATTACACGAGCATGCCACCGCACTCAGCTAACTTTTAAAACTTTTTGTGAGATGAGGTCTCACTACACTGCCCAGGCTGGTCTCAAACTCCTGGACTC
AAGCCATCCTCCTGCTTCAGCCTACCAAAGTAGTGAGATTACAGGTGTGAGCCACTGCCCCTGGCCTGTTCTAGCCTCTTATCTCCAGTCCCTGCCACTC
CCACATCAAGACTGGGAGCTGAGGGCCACCATTCCACCTTGAAGATTATGGCATCTGAGCAGGGGCAGCAGCCAGGACAGTAGAGCTGTTGGGAGACCTA
GCAGCATATGGGGGAGGTAATGAGCTAGGCCAGAGTTGAAAAGGAGATAATGGAAGGACTTTGAACCAGTCCCAAGTTCATGTTCGGGTATTTGAGTACC
TACTATGGGCCAAGCAGTTAGTTGCTGGAGATATAGTAACAAAACAGATGAAAGTCCAGGTCCCATTCTAATAGTTGGGGACAGACACTAAATGCAATAT
GCAAACAGTAGCACATTAGCAGATGATGAGTGCAGTGGAGAAAGTAGGAAAGGAGGCTAGTATGTGTCAGGACTAGGTGATCTGAGAAGGCCTCACAGAG
ATGGTGACACTTGAACCAAGTCTTGAAAGAGGAGAGGGCATAAACCATGAGACTACCTGAGGCAAGAAAGTTTCAGGCAGACAGACGCCAAGAGCACAAG
TTGTGAGGCACGTGCTTGCTTGGCCCATATGAAAAATAGCAAGGAGAACAGGAGAGTTGGAATGAGCGCGGTGAGGAGCAGTGGGATAGGAGGGCCAGGT
CATGCAGGGTGTTATCCAGAGGGAGATGGAGAGCCTCAGAGGGTTGGAGCAGAGGAGAGACATGGTCTGATTCTGTGTTGAGAGGACTGCTGATAGTTAT
GTGAGAACAAACTGTCAGGAGATGGGAAATAATCCAGGTGAGAGAGATTATAATCAAGAGCTATCTGGAGAAAATTCTTGCCCATGGCCACTTTCAAACT
TACCCTCCTCTATCCTTCTTTTACAGTAGCTCTGCCAGTTAACCCTTTCTTCTTCTCTCCAAGTGACGCTTCTGTCTGTTGCTTGGTATGTTTGGCTAAG
CAGAGTTGTATACYTCAATAACAAGGACAAAAACACCCGTTTACAAACTGTGATAAACAGACCATTGGCTTCATGAATGGCCCTATTTGAAAAGAGATTA
TTCTCTCTTTGAACAGCCTTCCYCTTCGCTTCTGGGTAAACATCCTGAAGAACCCTCAGTTTGTCTTTGACATYAAGAAGACACCACATATAGACGGCTG
TTTGTCAGTGATTGCCCAGGCATTCATGGATGCATTTTCTCTCACAGAGCAGCAACTAGGGAAGGTAAGGCCCAGCTTGAGTATTTCTTGTATGCAGTCT
TAKGAGTTTGACATACTTGTCTTTCTGATAAGCATTCAAATAATAAACAATTGGTCTAAACTACACCAGCTAAAAAGAGATAGCAAGGGCCACTGTCAAT
TTGCTGTTATTTAAAATCTGTCTCATTATTTTTAATCTAATTTTTTTAAAGTGAAAAACAAAATAATTAGCCCCACCCAACTGCAGAATTCTGCCTGTGA
AAAACTTTATCACAAAGTATGCGTTTTGTTTCCTAGAAAAATATTCTATGGACACTGATAAACTATTAACCCAAAATATGCAACCATTGAAATTTGCCTA
AATCAATTCTATTTGAATATACATAAAATGCCTATTTGAATATAACACATTGCTTATGGGACACAAAATCTTGCTCAAGATTTCTAACAATACCAGTTTG
TCAGTTTCTAATCAAAGCATGAGTACTGTTTTCCTATGGTTTTCTTTGCTGATCAATAGTCCCAAGAACTCAAAGAAAGACAAAAATCAGAGCAAACTTC
GAAAGAGATGTTTTGGTCTTATTTGAGCGCTCCAAAATATACTAAACTGAGCAATATCTGTGCCTAATGGATCTTTGAACACTGAGGAGGAGTTCTTGGG
CAGGACTTTAAGAGTACCTGGAATGAATGGAGACTGATGTTCCACAGGTGCCTCAGACTCCCAGTCATAATCTAAACTCTTTATCAGCAGTATTTCTGCA
AAACAAACCTGTTTTTACTTTTGTCTTCCCTAGCATTGCCTAGTCTCTCAAGGTAGAATCCTCAACGTTATCTTTGACTCCTCTTCCTTCCAACCTCTAT
CCCCAAATTATTGGTTACCACTTACTTCTGTCTCAAATGTCTGTCGCTCCCTCCTCCTTCCTTAGCCTTATCACTTAGCCTTATCCCTTCATCCCGTCCC
TACTGGGATAACTGCTTCCTAATTGGTGTCCTTGCCCCTGCTGTCCACCTTTCCTTCTAAACTTTTCCTTTTCACTGTCTCTCAGGTAATCTTTCTAAAA
CATAAATCTGATGATGTCAGTCTGCTTCTTAAAAATTGCAACTATTTCCCATTACCTACCAGCTAAAGTCTTCACAGTGCCACATAGTGCTTCCTGATGG
GCTTCAGCCCTCTTTGCTGGCCTCGTTATTTTCTTGCACGCCCCACATACCCACTGTGCTACAGCTTTTACTTTTCCCAAGTTCACACCATGAACTTGTT
CTCACACCCCTTTGCTCATCTTTCCTGTCTCACAGTCCCTCTGTCTAGTAAAATCCTACCCATTCATTCATCATAAACATTTTATTCATTCGACAAATAT
GATTTCCTAATGAGGACCAGAAACTGTAGGAGACTCAGATCAGTCTACATATGCCTACTTTGTGAACTTTCCCCAATATATTTCCTACAGCACTTTCTTC
ATTTGACTAATAAAGTTCATCTTAGCATGCAGCACACTGAAAGGCACTTAAATGTTTGTTCACACTAAAAACAGTTGTTTATGAATTATGTTCTTGACAC
ACTTCACTTAATCCTCACAAGTACCAAATAAGGTAGTTATTATTACCCTCATTTTATAGATGAGAAAATTGATGTTCTGGGAGGTTACAAGTCTTGCCTG
AAACCACACAAAGTAGCAGAATTATGATTTCTGATTTGTCCAACTCTTTCTGTCAACTMCTGCTGCTAATTATTTGTATCATAGTAAGCACTTCATAAAT
CTGTCTTTGCAACTAGATTGTAAGCTTCTCAAGGGCAGCCACTAGTCTTTATCATTGTACTCTCAATGCCTGCTCCAGTGCTTAATAATGTTTATTGAAT
GAATGAATGATAGCATGATTTCTGGGTTCCACTTAAATTTGACAAATGAGAAAATCTCAATAATATCTCAGTCTCTAGGCATCCTTCAGAATGATTCATC
AAGCCATTGATTCAGCCTCATGGGCTGGGACATTAGCCCTATCATTAACTTACCTATCTTCCCTGAGTAGAATTTTTTAAAGTTTTGTGAAAAATAATGA
TTTTTAAAAATAAAATCATATTTAATTTTTAAATATCACTGTTATAATTACGTAGAATCATTCAAATTGCCAGAGAACCTCTGCAAAATCACACATCAGA
GCCACCAATACTAATGACCATGTGCTTCCCTGAAGAAACTGGATGATGTCTATAATCTAATGAAATAAAAGGGACAAGCTGGAAAATCTGCCTCTGCCAA
TTACTTACCAGTTTCATGGTTATATAAAGGGCTCAATCAGACCTACAATCAAGTCTTTTGTAAATGCCAAATTCACTGGTGGGTGAGGATGAGAGCAAAT
GTTTTAATTCAGGCTTTTTACAACCATTAGTAATGAACTATGATTGAAATAAGTTCCATTGTTACAGTAACTCAAAATCATGCAAAAATAATAATTTTAG
TTCTTTTATGAGAGGAAGGCAGAATATATTAGCATTTAATCTGCCTGAAAATAACAGTGACTCACCAGAACTATCTAGATAGCAGTCAGTCATTCAGTCA
ACAACATTTAAGGCCTACTGCATGAAGCCTTGTTAGCAAGAGGTAAAACTGGTTGGTGGTGGGGGTTCAGCTACATTGGAATATTATAAATTCCTCCATC
TTTTTTTTTTTTTTTTTTTACTCTTTTGGTGATGGTTGCTTTTTTTTTTTTTTTYYYCCCAGGAAGCACCAACTAATAAGCTTCTCTATGCCAAGGATAT
CCCAACCTACAAAGAAGAAGTAAAATCTTATTACAAAGCAATCAGGGATTTGCCTCCATTGTCATCCTCAGAAATGGAAGAATTTTTAACTCAGGAATCT
AAGGTATCATTAGAAAGCAGAAATAAGCTTATATTTGGTTACTTTACGTCATTTCAGAATCTCTCAACAAGTCTTTCTTTTAGAAACATGAAAATGAATT
TAATGAAGAAGTGGCCTTGACAGAAATTTACAAATACATCGTAAAATATTTTGATGAGGTAAGATTTTAAATAACATTGTTTTTAACCTTTGAATCAGGC
ACAAGGATGTGGTTATAGCATTCTGTCAGTTTCAGAACAGCTCTGGCATCCCAAAAGGCCAGAAAGGGAAGCCAGGAAGCCTGTCTGAGATGGGGGATCC
TGGCACTGAGCCAGACCCTGTACATGGCTGCCCCCCTTACAGTTTTATCATGCTGCCCACATTTGGACCAGCCTGAATTTACATTTGAGTTCATGGGGCC
TACAGCCACCCTGACTCAAGTTAACTTTGATGAGTAAGTAGTGGCCCTATTAAATGGGGTCAGCTTATGCTTGATTGTAATTTGCTAAAAATGAAAGCTA
AGCTTGTTAAATTGCCTAGATTCTGTATTCAATCGTTATATGAAATTATGACATATTTCTAACTTAAGCGACTATTTCAATAAACCATTCTCCTTTATGA
TTAATTCTCCTTAATCTGGGTTTTTTTCTTTGGAAATTCAAACAGACACATTCATCAGATGCTTTGTTTCCAAACAAATGTTAACTCCCCCTTCCCTGAT
TCCCCCCCAATCATGCTGGGACAGGCTATCCATGTCAATGGTGAGAATAGCTCACCAATTCCATTTGCTACTTGAAGATGAAGTGAAGCTCTAAGGTAGG
GTAGAGGCAATGAGTTCTTAAACATGATAAGCATCCCTCGTTCCAGGGGTCAGGGGAGAGAAGGGAAGCACGAGGAGGGACTACACTGCCCAGATGGGAG
GGAAGGGAAGGATCTGTCTCTGACCAGGATGTCCCTGCCTGCTGCATTTAAGGAGAAATACTTGCCTGCATGTTGGCTGCCCAGGAATGCTTGCTGTGCT
TGGAATGGCTGTGACATAATGCATAAAGCAGGGCCTAGGAAGCCTGGCCCCATATTTGTAAGCAAATAGTTGGTATTTCTTGCGAGCTTCTATTTTAASC
CAAGGTATTGTTGATCCTGTGATAAGGACTTAGCAAAACAACTTGCAAAGTGAGTATGTAAATGATGGAAGAAAATGTTGGCATCTGTTTCATACAGATT
TTACCACTCAYAGCATCAGGTATGCAAAAAACAGRATTGTAACGCTAAAACCACAATATCTAAAATAACTGTTCTAATTGTCAACAGATTCTAAATAAAC
TAGAAAGAGAACGAGGGCTGGAAGAAGCTCAGAAACAACTCTTGCATGTAAAAGTCTTATTTGATGAAAAGAAGAAATGCAAGTGGATGTAAGCACTCTG
GGGCCTGGCTTAATCTGGCAAAGTTCTTCAGACGACTTGGGAGCAAAATGGCTGCTTGAGCTACTCTGTGTCGTTAATTTGTTGTTTGCACATAGGTTCC
ACTTTGGGCACTGTCTTTTTAAGAGACCAAGGCACATGCACAGCTTTTAGAAAGCATACCAACCCTTGTGCCTGTGTGTATACCGTGGGAACCCTTCTGT
AAATAGAGTTGAAGTGGTTGTTGCAAACAGCCTCCTTGTTTACAGAGAATACAAGGCCAGTAAGCGAATGTCAGTATTGTAACTACAGTCTCCACTTAAG
CACAATGATATAAGTGGTTTTGTTTGAAAACTACAGCTATGTAGCACTTGTGCTACACTGCACCTCTGCATTGTAAAGGGATACTGCCAGTGCTCAAAAC
AAAATGTGAAATGAGTCATTTGGAAACAAGGTGGGGGTGTTAGGGCAACCTCGAGGATTTGCAGCATTGAAACTTTCCCCAGTAGTTCTTGGAAAAGCTG
ACCGCAGAATTTGGTAGTGTACACTTAGCATTTGTGAGTGTGTGTGTGTGTTTAAACCAAAAACTAACAGTGTTGCAACATTGTTGAAAGGGCTCGTGTT
TTTCAGTGGTCATCAACTGCACTCCATCAAACTCACCTCCATTTCACCAAGGAGCTCTAAAGTAAGGAGAGTGGGCTTTATTTAAATGAACAGCATTTTA
ACCAGATACTTTGTCCTAATGTATGTTCCTTTTCTTCATCTGTTTTTTCATACTAAATGTATTTGATAGTGGACATGTTGGATATTATACAAAAAAATCA
TTAATTCATTTCTGTTCCAAAACCTTTGATCAGAACGATCTGTGGAAGAGTAACTCCATTTCTATATGAGTGAGTGTCTCCTTGCTTTAGATTTCTGGTG
AACCCTGTGGTTATGAATACTTGTGTGTGATTTAAAAAAAAAAAGATACATTTTACATTTYATCGAATTGCTGTTCACACTGGAGTATTATATATAAATA
TATATATTTGAGGCCCAAGGCCTGAAAAATATTAGTATACAACTTGGTATCTTAGTCTTACTATGTACTTTTTGAAAGTATTCCTCGCAGGAGAAAGAAT
TTAAAATACCCATTTTATTCATGCCTTTCTTTTTAAAGAATTCTCTATCCAGTTATACTGTAGTCTTTTTAGTGCTGATTTTTTAATTCCTGAATTTTTG
CTGCTCATGACCAGTTTTAATACCACTGTGTTTTCCTTCTATTAAACCAGAAGAAGTAAACAGCATAATTGGCAACTCTTGAGCTTTTCTTGTGGCAGGC
ACCTTTTACCCTTGGTGCTCCAAATCCCCCATCTAGGAAAGAAAATTTTTTCAAGTCAAATAACATTGATCACATATTCCTTGAAATCATTTACCAACAC
TGTATGGAGCATTAGGATTTAAATATGAATTTGTCTTAAAGGCAATTCCTTTTTGCTTCTGTATTATCTGGAAAAGCATGAGAGAGGTGACACCTCAACA
AACTGATCAGAGAAAATAAGCAGTTACTACCCTGATAGGCACCTTCCCAATCCTGTTGCTTTTGACCATTGTCTGTCCAACGGACACACCTCAAACAAAC
AAAACTACCAAATAGATGACAGATCAGAATAAAGGTGAGAGGTCTGGTCCCCATTGAAGGCTGCTACAGTCTTCAAAGAGGTGAAGGAGTTCATAAGAGA
ACAACAGTAGGAAAGTTGAGAGCCAAGGGTAGGAGAGTTGCCCAAAAGACTTCCCCTACTACTTTAGGGTACTGAAAACTCAAAGGATCAGCTACAGCTT
TATCTAAGTATTTACTAAATGCTACATGAGGGTGTCCCTGTCCAGCTTTCTGGCACATGAGTCCTGTGTGGAGAGTTACCTCCTCTTCCAGGGACTGTGC
TGTTGGGAACTTTGGGCAAGTCACTTACCTCTTTGTGCCTCAATTTCTGTATAATATTTCTAAGCTACCTCACTGAGGTGGTATGAAGATTCACTAATGT
ATGTAGCGTGTTTGTCAATCCTCCAGTGAAAAGCACTATCTAGATCACATTTTGGATCACATTAGCCAAATGCAGTAAATGGCCAAATTAGATGTGTGCT
RAAGACAATCAGTCACTGGGTCTATATTAAACAGCAACCAGAGCAACAAATGGCAAACAATTTCTATTTTCAAGTTTCTTTGCATATTTTTTTGGTGCAA
AACCATTTATAAACTTTTTTTTYTAACACTAGTGTCTACAGCAGCATTYAAAAAAATTCTGTTACCTTTTCTGTATTAGGATTTAAAGTCTATTTCTTAT
TGTATACCTGATTGAAGCTGTTCTTGGAGATGAATGTTTTAAATGTCTATATCCAAAAAATAAACATTTTGATGTAACTGTGGACTGTCTTTTTTTTTTT
TCAATTTTCTAGTTATAATAGTTTTTTTATTCTAAGTGGCTCCGTGGAAATTATTTTTCAGAGATAAGGTGTCACTGTATATGCTGTGAATAAGCAGCTA
TATTATGTAGTAAGTAAACCTAGTTTGCTAAATGGTGCTAAGGACTGCTCAATTACAGTCCTGGCCTTCTTCACTATCAACTGGGACTTTTGACTATGAA
CACCTTGGGATAATGAACATTCCACTTAATTTGGGAGACTTGAGCTTTAGCCTCGTTAACATGAAATTATTCCAGCAGAATTCCTCTAAAAGATGTCACA
TTAAAAAGGCTTCCAATGGGTGTAGACCAAAAAAAATGAGAGCATACTTAGGGACACAAAACACATAATTATTTGGTTAGATCCACAGTAATGGGAAGTA
AAGTTAAATACCAACAATGTTTATAAAAGGACCTGAGTTCAAGTTTTATAATCAATGGCCCCCTTGTTAATACAGCCATAGGATTTAATTATTTGCACTT
ATTCTCTATTCTAACAAAGCCAAAATCAGTAGACTGTCATATTGCTAAATATATGCTATATGGTTGATGTAAAATTAAACACACGATTAAAAAAAAATTA
AGCTCTTTAATTATGTGCACACAGATTTTAGAAAAGGTAGCCTTTTGTATATAGATACCTTTACATTCTTTAGGCTGACTTTTAAATTGTCATCTTTTTT
CAACTACAGTTTTTGTATATAGTAAACCAGAAGATGTGTATGGACCCTGTTATGGCCAAGCATCTCAAAGATGAAGAGAGAATTAATGATAGTTATATTT
CACTCAAAATGCCAAAAAAAAAAATTCAACAAAGTAAAAATTTTAAAACTTGACTCTAACTAGTTCCTTTTTGTTTTACATTCTCAAACCATTGTCAAAT
ATTCTAAATATCTCTGAGAATTTCTCTTTTAATGCTTCACTTGTATAATCTTAAAATCCTGACAGTCATACAATACAGCATGTAGTAGGTACCTTTTCTT
GAGGCACATTCAAGTGTTTTGGCAAACAGTAAAAAGTATCTAAATGCCACAGGTTAAAATGTCAAGTTTTACTGAGTCACCAACTTCACCTCTTTTGATC
TGCCTGTTCTCCAAGAACATCATTCTCCGGAAGATCCAAGTTCCTCTAGTTGTTTTCTTTGTGTTGTTTCCAGTTCTTCTAGTCTTTTGCGAAGTAGAGA
GAGTTCCCTTTGATGTTGTTCCTCCTTAAAATGATGTAGAGAAAGCATAGCAAAAGAAACTATTAGAAAAACTGTTAGGTAGCAACCTTGGACTGCCTCT
TTTATATATGCCTATAACATCTGGCAAGGAAATGCTGACCACTGTAGCAGTCTAAAAACAGTAGCATGGGCTAAACTACCATCTAGTTTTGCTTCTCTCC
TGCCTCAGGCTCTAGCCTTAAGCAAAACCCGTAGTCTGTTCTTCTCTAGGTATAAAATTCACCAGGGAGTGAATTAGAAAATACTAATGCAGGGCCCAGG
TATACTTACATGGTAACTTTCCAACAACACTGGTGTTTAACAGCAGTTTATTATAAACAAAGCACTTGGCCTGAGATTCAATTCAGTGATTAAAATCTTC
TGTGCTTATGTTATAAAACATAATTACTTATTAATACTCCCATCTTCTGAAAAAGAATCAATCTGATTCCTTCAATACCTCAGGGGCTTGATACAATAGA
AAGAGCCCGGGTTTTGGATTCAACAGGTTTAGGTTTGAAACTTTGTCACTTATTAGCTATGACCTTATGCAAGTCACTTCACTCTGAATCAGTTTCCTTA
TCTATGAATTAGGAATAGTAATATCTGCCCTCAAAGCATTTTTCGTTAGTATTAGACATTGCACGGAACATGCACAGTTCACTGCGTTAGTAAATTCTCA
GTAGTAATTACTATTAACATTATGAATAAGCTACAAACTCTAGGTTACTCAATGACTCAATCAAGTTTCCTCTTTTCTATCGTCCAGTAAGAGATTTCAC
TCTCAGCACCAACACTAAAGGATCATGATTCAAACTGAATTCAGCAAATTTCTATGCTAAATGAAAGGGAAGAAGTTAAAAGTAGTTTTAAATGTTTATG
CCATTTTTGTGGTGAATTTTGAGCACTGACCAAAGTTATAATTTGAGTTTTATCACCATATTTAAACATAAAAACCTACAAAAATGTACGACTTTTTTTT
TCCCCCTAAAATAAATGCTCATACCTGCATATGAGGAGGAAATGGTAGTTCCATGCTTGGAACCATGGCTGATGACTGAAAGCTAACAGGATTGATAGAT
GCTGTTGGAGGCATGTTAGGAACCAAAATTAGACTTCGAAATTCATTATGTCTTCTCTGTATATCTTTTAGTCTTTTTTGAAGCCTTGTATAGTCTTCAA
AAGGAACATTTTGTCTTAAAAAGAAAAAGAAATGTTTCTTTAACATGGTTATACCCTATTGAAGCACAGTATGATTCACAGAATATAATTTTAAACTGGA
ATTTCTAAATTATGAGATCTATATATAATATATAGATAAAAAATCTGTTTACCTAGAAAGATAAACAGAAACATGACATAACATCTTAATCATTAGCAAT
CATTAGCATTGCAGACTATCAACTCATTATAAAGTTTTATTTGCTAATTAAAGATCTAAAATCTTTTGATACTTTGGTACTCACTCCTACCCTCCTACTC
ACCCCCATTCATGAATCCTGAAACTAAAGGGAGACTCTAAACCAAAAGAGTGCCTTATCTTACAGAAAGAATCAAATAAAAATACAGTTCATCCCTCAGT
ATACACATGGGATTAGTTCCAGGACATCCCTCATATATCAAAGCCTGTGCATACAAGTCCTGCAGTCAGCCCTGCAGAACCCTCATAATGGAAAAGTTGG
TTCTCTGAACTGGTGGGTTTCACATCCTGTGAATACTATATTTTCTATCCATGTTTGCCCGAATAAAAATCTGTATATAAGTAGACCCATGCAGTTCAAG
CCCATGTTGTCAAGGGTCAAGTGTAAAGAAAATGCTGGATTGAAGCTTACAAAATTGCCATTTTTAAATAGGTGAAATATGGTCAAATATAGAGATTTTC
ATAGTTCAATCTAATTTTCAAAATGTCAGTGTAATATTTTAGTAAGAAATATATATTTGGTCTTTGCCCTTGGTTCCTGGCACACAGCTCCTAAAACTCT
GGGAAACTCTGAAGTGATAAGAGTATCTTTTGTATATTAATAAGATAACTGGTGGCTGGGGGCCCCTGAATAGCTTCAGGATGGGGCAGGTCACCAGAAA
GACTGAGGCATGATTAGAGGGTTGGAACTTTCAGCCCCACTCTCCAACCCCACCCCATGACATCTGGGAAGGTAAAGGACTAAAGGTTGAGTTGATCACC
AATGGCCAATGATGTAATCAATCATGCCTATGTAATGAAGCCTCCATAAAAACCCAAAAGCATGGGGTCAGAGAGCTTCTGGGTTGCTGAACATGTGCAG
GTGTCTGCAGGGAGGCATGCCCAGAGAGGGCATGGAAACTCCACACCCCCTTCCTCATAACTTTTCCTATGTATCTCTTTCATCTGACTGCTCATCTATA
TATTTTGTAATATCCTTTCTAGTAAGCTGGTTAACATAAGTTTCCCTGAGTTCTGTAAGCTGCTCTAGCAAATTAACTGAACATGATGAGCAGGTCATGG
GAACCCCAATTTATGGCCATTTTTAGCCAGTCAGAAGCACGGGTTACAACTTGGGGCTTATGGCTGCATTCTGAAGTGGGGGGCAGTCTTGTGGGACTGA
GCCCTCTACCTGTGGGATCTGATGCTAAATCCAGGTAGACAGGATCAGACCTGAATTACAGGACACCTAGCTCGTGTCCACTGGAAAACTGATTACTCCA
TGTATAGGAAAAAACCCCAAACATCTGGTGTCAGAAATGTTGTGTTGACTGTGTGAGAATAGGAAAAACACTGGTTTTTCCTATTATAAAAGGTAATCAC
AAAGGTGAAGCTACACAACTTTAGGAAAAAATGACATGGAGAAAAAGGCTAACTTTCCAGGCCTTCACAGATCATCATCTTTTTGGACACGACATCCAGT
AATCAAATATAATTTCAAAATCACTCAAAATTCTAGATGATCTGCACCACAACTGGCCAATCTTGAATTGCTAACATTTCAATATTAATGTTTATGGAAG
AGGAAGTAAGTTGAATTCTGTTTTAGAAGGACTGAGCCAGGAATGGTGGCTCATGCTTGTAATCCCAGTGCTTTGGGAGGCTGAGGCAGGAGAATAGATT
AAGCCTAGGGGTTCGAGGCTACAGTTAGCTATGATCGTGCCACTGCACTCCACCCTGAACCATAGACGAAGACCCCATGTTTAAAAAAAAAAAGAATTGA
AACAAAATTCAAAATTACAAGCATGTTTGTAATTTACAAATTACTACCAAATTAATAAACTAAAGGCGGCCTCCTACTTTGGAATAGAGTATTGTAAGGC
TGGCACTAATTCTACAGTCTAGAAACTTCTAGAATGTTCTTTAAAAAACAATTGTTCACCTGTTGGTAATAATTGCACCCAAGAACACCAGTGCACATCA
TAAAACGTCACTGCATGATATTATAGGCAGTTTCCATTACAGAAAAATCTATACTTGAATAGCCAAGGCGCTGAAGGCTACCACTAATTCACTAAATTAA
AAAGATTTTTCTTAACTTGAATCAAATGTGTCATATAATGCCACTACCAACAACTTAATATGACAAATCTCTGCTTTAAAAATGCTGATGATCCTGATTA
TCAGATGTGCTTGAATGTGACTGCAAAACCCGAAACTACAGCTCAATAAAATCTCCACACCAGGAAACCAAAACTGACCTTTGATTCAAAGTTGTAGGCA
CAATTTTCAGAACTATGCAATAGCTACAAC


SNP Information

Context             (SEQ ID NO:51761):
CTCAGCGAAGTTAGACGACTTCCCTACATTCCCTCAGCTGGTGAGCAGCAGAGAATGGGAGGGTCCAGGTGGCCCGGTGCTGGGCCTGGAACTCAGGGCC
Y
TGACCCCCACTGTCCTCCCTACTCAGAATCCTCTGTGGACACTTGCTGAGGGTGATAGTCACTGATGGGTGACTGTTGTCCCACAGATGATGCTTTTGTC
Celera SNP ID:            hCV29016827
SNP Position Genomic:     132439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51762):
AAACAAACTTTTAACTTCATGAATAAAAAGTCCTATTCATAAAAACAACAGAACTACTGAGCTATAAACTTAAAGAGCAAGGTACATATCCTGCATTAAA
R
CCATTTTTACTAAGAGATATGTGTTGGAGTCAGCTACCAAAAATAGTAATTTTGCTTTGAACAACTTAGCTTAAGCCGTTCTTTGTAATAGTAGTTAGAT
Celera SNP ID:            hCV3078730
SNP Position Genomic:     72087
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51763):
TTGTGCAGGGCACAATGGGAGAGTATTTATTGTCCATGAAAAATCATATGAAGCAGCTGCAAAGAAGTCTAATTGTTTTCCTCATGATATGCCCATGACT
Y
CCTGCACACACACACACACACACACACACACACACACACACACACACACGTACACACACAAACACACACACACCTCAGGAGCTTTGGTCCCAGTTTGCTA
Celera SNP ID:            hCV7522430
SNP Position Genomic:     21935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51764):
TTTCCTCTTCTGTAAACAGGCAATGACCAAAACCTGCCCTCGCATATTTGTGGTGAGGTCAGAAAATAATACATGTACCACGTCTAGCCATCTTTCCTGG
Y
GTGAAGTAGGTGCTCATTCTTTTTTGATTCAGTTTTCCTTGTCTGAGGTGTGCTTTTCTCTTGTCTCCTGTAAGCTTCACTAAGCAGAAAGTGTCCCGTC
Celera SNP ID:            hCV29016828
SNP Position Genomic:     129032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51765):
CAATTCCCCTCCATTGATGATTGGAGGGGAATCGCTTGTTGTCACATCGAATCCTAGAACCCTGTGAGACTGGAAGGAATTTAATTTGAAATTGCCGTGC
R
TACCAGTTCTGCTCTGGGCTGGAGAAACAATCCTGCTGCAGATCCATCTAGTGACATTAATCTTTCTTTGACTTAATTTGGTTTTCATCCCTAAAGTAGG
Celera SNP ID:            hCV412745
SNP Position Genomic:     146735
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51766):
AACTCCATGCAGCCATTCCAGCGGACACTGTAAGGTCCTCATCTAACTTGGCTGTTAGCCAGCATTCTTGAAACTGTCTTTTCCATTGCTTTCCATGGCA
Y
GCCCACTCCATGCTCTCCTCCTTCTCTGTGGCCAGGCCTCAATTCCCTTGCTGGGCCTTGCTGGTCCCTTCCCTCCCTGTCTCTAAATATTGGAGCCATT
Celera SNP ID:            hCV3078731
SNP Position Genomic:     74548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51767):
TGTCTGGATTCACGAGTTAATAAGTATAGAATGAATACTACTAACTACTTAACTCATAGTAAATGTTATGTCTGTGTTTACTATCATCACCATCATTACT
R
CTAATAGTGTTAGGACGGGCTCCTTGATATGCAGTTGGAAGGTGGTTCCACATTCAAGGCAGCTTAAAGGAGCTCAGTCAGCATCAGCAAATGATGGATG
Celera SNP ID:            hCV7522431
SNP Position Genomic:     13509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51768):
GGGTTTGGAGTCTGATAGTCTTGGGTTTGAATCTGGGCTCAGCCACTTTACTCTGGGCAAGTCTCTCAACCTCTCAAAACCTGTTTCCTCTTCTGTAAAC
R
GGCAATGACCAAAACCTGCCCTCGCATATTTGTGGTGAGGTCAGAAAATAATACATGTACCACGTCTAGCCATCTTTCCTGGTGTGAAGTAGGTGCTCAT
Celera SNP ID:            hCV29016829
SNP Position Genomic:     128949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51769):
CGCGCCGCCCTCCCCGCTCTCCTTCCTGGGCGAGCTGCGGGGATGGGGCGGCCGCGGGAGCCCGAGCGCGCGCAGGAACCGCCGCCGCCGCCGCCCGCGT
Y
TCCGTTGCCGCGCGCCTGAGCCGCCGTCGCCGCCGCGCGCCCTGCCCGGGGGCGGCCCCCCCAGCCCCATGGAGGTCTCCCGGAGGAAGGCGCCGCCGCG
Celera SNP ID:            hCV7522432
SNP Position Genomic:     6180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:51770):
AAGAGGCAATATATACAGAGGCCTGCCTTTGTCAAATGTATACATTTAAAATCTGTGGCAATTCTTATCAGTTCTATTGAAGCATAATTTTTGAGACAGG
R
TCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCGTGGCTCACTGCACCCTTGACCTCCCACGCTCAAGCCATCCTCCTGCCTCAGCTGGGACT
Celera SNP ID:            hCV412746
SNP Position Genomic:     148569
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51771):
ACTGTCTTTTCCATTGCTTTCCATGGCACGCCCACTCCATGCTCTCCTCCTTCTCTGTGGCCAGGCCTCAATTCCCTTGCTGGGCCTTGCTGGTCCCTTC
Y
CTCCCTGTCTCTAAATATTGGAGCCATTTAAGGCCCAGTTTTGGCTCTTCCTCTCTTCTTACTCTACATTTCGTCTGTAGACAATCTTATTCACTTCCAT
Celera SNP ID:            hCV3078732
SNP Position Genomic:     74620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51772):
GCCACGAGTCTATGCATGATGAGATCACACAACTGTATTCCAGAGGAGGAAGTGAGGGAAGAGGGCAAACGGGTTCTCCTCAAGAGGCTTCTGTTATCAA
K
GAGGAAACTTATTCCCAGAAATCCTTCCAGTGGACTTCTCACATCTCCCTGCCCAGGACTGGGCCACATGACCACCCTCAGCTCTAAGGGTTAGGAAAGC
Celera SNP ID:            hCV16148773
SNP Position Genomic:     23215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51773):
TCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCGTGGCTCACTGCACCCTTGACCTCCCACGCTCAAGCCATCCTCCTGCCTCAGCTGGGACTACAGGC
R
TGTGCCACAATGCTCAGCGCTTTTTTGTTTGTTTGTTTGTTTTGAGGAGAGATGGGGATCTGAGTTCTCCGGGCTGGTCTTGAACTCCTAGGATCAAGCA
Celera SNP ID:            hCV412747
SNP Position Genomic:     148676
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51774):
TGATACTCTTGTTATAACGTTTGAGTGTGAATTCAATTTAAGACATATATGTATACAAGATAAGATGTGTGGTGCGGATATAAATGCTGCGTTGAAGATT
S
AGCATGAATGAGAGTTCAGGCATTTGTTGAAGATGAGTTAGTGGGAATGGTTTGGGATCTTTCACTGTGCTCAGAATTCCCTAAAGATAATTGAACTCCA
Celera SNP ID:            hCV3078733
SNP Position Genomic:     75444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51775):
CATAGCTTTTTTTCAACCCTTTAGAAGGATGGGGCCTAACAGAGGAGATCCCCCTGGCAAACTGAGAGGGAAGAGTACAGACAATCATCACAGAGCCCCG
M
AGCAAGCGCTGAACAAACAAGATAATCCACTTAGAAGGTCCAAGTCTCCTGTGATAGCACTTGCAAAATTCCCAGAAATTGGAGAGAGACAAACTAAAGG
Celera SNP ID:            hCV412748
SNP Position Genomic:     152219
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51776):
ATAACAGAAGACAGAGAGCTGCCAGGTTGTCTAGACTATGGCTCTTCATAGGGGGTGATAAGGTTACCACTTCCTGCACTCCCAGGTTCCTTTTACTTAG
Y
GCTCATTCCCATCAGATCCCATCATGCGCCTGATGCAAAAGGAGTCCACTGTTGGCATGTTAATTCCTATAATTTCCCTTCTGAACAGGACACCTGGCTG
Celera SNP ID:            hCV3078734
SNP Position Genomic:     75831
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51777):
CATTTCACTATTATTGTTATTTTTTAGGTTGACAGCATAATTATTCCTTTTGGTTTACTTGTTATTATAGATGAGCAATAAAACTCCCTTTTTGAATTGC
R
AATAAAATGAAGGGGATGGGAAGGGTCAATGACTATAAACCTAGTAAATCTTAATTTTTGTTTTTCATTTTAAAATTAAGAATTCTGCTCACACATAAAA
Celera SNP ID:            hCV412749
SNP Position Genomic:     155087
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51778):
TGTACCTTACCAGACATGGTGGAGGGGGAAGGGGTAAGGAAAGCTTCCTGGAGGAAGTGATGTCCAGACAAGGTGAGGGTAGAGTTGAGCCAGACAAAGA
S
GATGGGGATGGGTATTTCAGACAGAGACCAACCTGCATGATGGCCAGGAGACAAAAAGCTTTATTTGAAGAACCAGAAGAGCTTCTACATGGCCAAGGCA
Celera SNP ID:            hCV3078735
SNP Position Genomic:     78150
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51779):
TCTACAACAGGGATGGGAATAATAATCCAGGAAACATTTCTAGAAAAGAGAGGTGAGGAGAGGGCTCGGGTGTGAGGCTTCACATGTTGGTTCCTTCTAG
R
CACTCTGCCCACCAGCTCCCTGCCTTCTCTCCTGTCTGGTATTTTTTGTTTCTTGTTTGTGAGCAGACAGGCCTTTGAACCCCTTCCTAGTCGGTGGCTG
Celera SNP ID:            hCV7522290
SNP Position Genomic:     134048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51780):
GAAGGTGGAAAGGGGAGACGGAGGGAAGATAGATACCAAAGGAGGCAGCCAGGGGACCATGAAGGGCCTTGTGAACCGTGAATCCTGCGAGCTGTGATGA
R
ACACTGAAAGGTTTAAGCCGGAGGCTGGCAGCACAATCAGATTTTTATTACAGAAAGGTTCCATTGTGCATTGTCTGTCTTTCCTGCTGGAATGTAAGCC
Celera SNP ID:            hCV3078736
SNP Position Genomic:     78363
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51781):
TAGACATGATGGAAAAAAATGCTCTGCTGTTTTCTTGTTGCTTTTCATGGTTTTAGCATCATGTTCCTATTCTCGCTCAAATCAATAATCCACTGTACAA
R
GTCTGGCATTTTGTACTGAAGCCAAGTATAAGAAAGTTTTAACTAATGCACGTATGGGGTCGCTGTTTTAACTAACACACGTATGGGGTCGCTGTTTTGT
Celera SNP ID:            hCV16263225
SNP Position Genomic:     66786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51782):
CCCCTATCTTGGCACCCAGGTTACCAGAGGGAACTGAAACCACTCATATGGTTGTTTCCTTGACTGTGCTGTCATCACCTAAATTATTTTACCTCTTCCA
R
AATAACTGTAAATGCTTTCCTAGAAGAAATCATGAATATTCATTTCCTTGTGATATTTCCAAATAGAGTTTTGTGCCTATTTGGTGCTTGAAAAAAAGTA
Celera SNP ID:            hCV16263226
SNP Position Genomic:     79941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51783):
ACAGAAAGGTTCCATTGTGCATTGTCTGTCTTTCCTGCTGGAATGTAAGCCCCATGGAGGCAGGGACTTGGAGAAGACATCTTCACTGCTGTGCTTAGAA
Y
AGTATCTGGCACAACGTAGGCATTCACAATCAATAAATGTTTCTTGAATGAATGAATGGCTTGAAGGTGGAGAATGGACCAAAGAAGGGAAAGACTGAAA
Celera SNP ID:            hCV3078737
SNP Position Genomic:     78513
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|T,7)   total(C,7|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51784):
ATTTTAAGGAATGACAGACAGTAGGATGGGCCGTGAAGGTGGCCGAGAAGGTGCTCAGAAACCAGTGAAAAAGAGTAAATCGCATGGCGCGAGTTTGTCA
Y
GAGTATGGAACTGTAGAGTCTTGAGGATAATAGGGTTGGGTGATCCTCTCACCTGCAATCCTTCTAGAAGGCATCTTCAGTAAAAAGCCAGCCTGCTAGG
Celera SNP ID:            hCV7522365
SNP Position Genomic:     103908
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   no_pop(C,-|T,-)   (C,-|T,-)   Caucasian(T,2|C,82)   total(C,82|T,2)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51785):
ACGTAGGCATTCACAATCAATAAATGTTTCTTGAATGAATGAATGGCTTGAAGGTGGAGAATGGACCAAAGAAGGGAAAGACTGAAAGACTGAGTTCCAA
M
AGATCACTTGGAGGGGTCCAAGTGAGAGGGAAAGTGAAAGCGGAAAGCTACTGGAGGGTCCAGGTGAGAGGGAAAGTGAGAGCTGGAGGAGAAGCCAAGG
Celera SNP ID:            hCV3078738
SNP Position Genomic:     78627
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|A,8)   total(A,8|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51786):
TAACCCAGATTGCCTTCGGTGCCTGAGGGACTTGATATTTTCTCATTATGAAGACTTTCCCATCTAGTGAACGCTGCAAATAAAACTGCTCAGAATCGGT
Y
TGAACTGCCTGTTTCCGTGGTAGCAGGCCTCTGTCTGGAGGATAAATCTGCACCATCTTCTTTTTTTTTTTTTTTTTTTTGGGTTTCAGCCAGTTGTGTT
Celera SNP ID:            hCV7522438
SNP Position Genomic:     2804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:51787):
GGGGCATCGTGAAGCTAGAGATGACCAGCTTGTCTTTATAGCAGTATCATTGAAGGGAGAGTGGGGGTGACATCATGGGAGTGAGAGCACAGAGGAGGAA
R
AAAAGAGCACCTAGGACTGGTGGCAAAGCTTCATTTTAAGGAATGACAGACAGTAGGATGGGCCGTGAAGGTGGCCGAGAAGGTGCTCAGAAACCAGTGA
Celera SNP ID:            hCV7522366
SNP Position Genomic:     103775
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(A,24|G,46)   African-American(A,8|G,64)   Asians(A,33|G,49)   total(G,159|A,65) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51788):
CTTGAATGAATGAATGGCTTGAAGGTGGAGAATGGACCAAAGAAGGGAAAGACTGAAAGACTGAGTTCCAAAAGATCACTTGGAGGGGTCCAAGTGAGAG
R
GAAAGTGAAAGCGGAAAGCTACTGGAGGGTCCAGGTGAGAGGGAAAGTGAGAGCTGGAGGAGAAGCCAAGGGGGATGGAGAGAAGTGGATTCAATAGATG
Celera SNP ID:            hCV3078739
SNP Position Genomic:     78656
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|G,8)   total(G,8|A,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51789):
GCTGACAGTAGCTCCCTTTGGGCTGTGGTTAGCAGAGCAGGTCTCAAGTGCTGGGGCATCGTGAAGCTAGAGATGACCAGCTTGTCTTTATAGCAGTATC
R
TTGAAGGGAGAGTGGGGGTGACATCATGGGAGTGAGAGCACAGAGGAGGAAGAAAAGAGCACCTAGGACTGGTGGCAAAGCTTCATTTTAAGGAATGACA
Celera SNP ID:            hCV7522367
SNP Position Genomic:     103723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51790):
GAGCTGTTCCTGGAGCAAGTTACTCAGCCCCTCTGTGCCTCAGTTCCCTCACTCTACAACAGGGATGGGAATAATAATCCAGGAAACATTTCTAGAAAAG
R
GAGGTGAGGAGAGGGCTCGGGTGTGAGGCTTCACATGTTGGTTCCTTCTAGACACTCTGCCCACCAGCTCCCTGCCTTCTCTCCTGTCTGGTATTTTTTG
Celera SNP ID:            hCV7522296
SNP Position Genomic:     133996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51791):
TCTATATGAGTGAGTGTCTCCTTGCTTTAGATTTCTGGTGAACCCTGTGGTTATGAATACTTGTGTGTGATTTAAAAAAAAAAAGATACATTTTACATTT
Y
ATCGAATTGCTGTTCACACTGGAGTATTATATATAAATATATATATTTGAGGCCCAAGGCCTGAAAAATATTAGTATACAACTTGGTATCTTAGTCTTAC
Celera SNP ID:            hCV7522006
SNP Position Genomic:     163561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:51792):
GGTAATGAACAGGACTGTTTTATTCTTGGGGACTGGAGATGGCCAGTTACTTAAGGTTGGTTTTCTGTGCCTTCTTCAAATGTCTATTTTAATGGTGATA
Y
TTTGTACTTTAAAAAAACATTTTTTTAATGCTTCTGGGTTATACATGAGACCAAACCAAGAACTTCATGAACTCCTTAAAGACCCCCAGAAATGGCCTGG
Celera SNP ID:            hCV15965146
SNP Position Genomic:     26617
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,55|T,1434)   total(C,55|T,1434) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51793):
GAAAGTGTTGGGGGTGCTACAGGCAGTTTCTGGGCTCCAGATTGCGAGACTAGATGGCGGGACTCAGAGTCACCACCCTGGGGCTGAACCAGGCAAGCGA
Y
ACAGGTTTCCCCTGGGCTCCCAGGGCAGCCACAGCTTTTATCTTGAGATTGGCATTTCTTTGACTGGAAAATAAAGAGGCAGTTCAAGAGGGTCCAGTTG
Celera SNP ID:            hCV11223186
SNP Position Genomic:     8153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51794):
CAAGAGATCAGAGATCACTAGGGAATCTACTTCCTCCTCCAATCCCTCACCCGTCCCATCTTCACGCTGTTCTTAAGATCTTAAGATGCAGCAGGGGGAA
M
AATGTAGCTATGGAGAGCTCAAGTCAAAAAGCTCAAGTAACTTCAGTATACAGCACAAATGGGGCCTTTTAAGAGAAGGCCGATTAGCCCATGGTTGCTT
Celera SNP ID:            hCV25761963
SNP Position Genomic:     154352
SNP Source:               Applera
Population(Allele,Count): african american(A,34|C,2)   caucasian(A,30)   total(A,64|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:51795):
CCTGCCCTTGATTCATCCTGCCAGCCCCCTGCAGCCTTATCCTCTCTGCCTCCTCAATACCCAAAACCACCAAATCATGTGACGGGACGATGGGTAAAAC
Y
GGTAGTGAAAGGGGAATGCAGTTACATGTTCCCAGGCCGTGTGCAGAAGAGGTGGGGTTTGGAGTCTGATAGTCTTGGGTTTGAATCTGGGCTCAGCCAC
Celera SNP ID:            hCV29016830
SNP Position Genomic:     128794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51796):
TTTATTAGCCAAGAATATGGTTGAGGAGACAGTGAGGTAGCCAGATCATCTTCCCATGTGGGAAAAGACCTGTTCCCCTGCCCTTGATTCATCCTGCCAG
Y
CCCCTGCAGCCTTATCCTCTCTGCCTCCTCAATACCCAAAACCACCAAATCATGTGACGGGACGATGGGTAAAACCGGTAGTGAAAGGGGAATGCAGTTA
Celera SNP ID:            hCV29016831
SNP Position Genomic:     128718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51797):
ATCCTAGAGGGGAGTGCAAGGGAAAGTGTTGGGGGTGCTACAGGCAGTTTCTGGGCTCCAGATTGCGAGACTAGATGGCGGGACTCAGAGTCACCACCCT
S
GGGCTGAACCAGGCAAGCGATACAGGTTTCCCCTGGGCTCCCAGGGCAGCCACAGCTTTTATCTTGAGATTGGCATTTCTTTGACTGGAAAATAAAGAGG
Celera SNP ID:            hCV11223188
SNP Position Genomic:     8132
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,7)      total(G,7|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51798):
CCTTCTTTTACAGTAGCTCTGCCAGTTAACCCTTTCTTCTTCTCTCCAAGTGACGCTTCTGTCTGTTGCTTGGTATGTTTGGCTAAGCAGAGTTGTATAC
Y
TCAATAACAAGGACAAAAACACCCGTTTACAAACTGTGATAAACAGACCATTGGCTTCATGAATGGCCCTATTTGAAAAGAGATTATTCTCTCTTTGAAC
Celera SNP ID:            hCV15962675
SNP Position Genomic:     158114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51799):
TGAATGGCCCTATTTGAAAAGAGATTATTCTCTCTTTGAACAGCCTTCCTCTTCGCTTCTGGGTAAACATCCTGAAGAACCCTCAGTTTGTCTTTGACAT
Y
AAGAAGACACCACATATAGACGGCTGTTTGTCAGTGATTGCCCAGGCATTCATGGATGCATTTTCTCTCACAGAGCAGCAACTAGGGAAGGTAAGGCCCA
Celera SNP ID:            hCV15962676
SNP Position Genomic:     158274
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,95|T,1394)   total(C,95|T,1394) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51800):
CGTAGGTCAGCTGTTTCAAGTTTTCTGCCACTGCCAGATGCGGCTCACTTCTCCATCAAAGATGGCACCATGCACAGCTGCCATCCGAGAGCGGGAAGCT
R
AGCTGAAAGTCAACACTTCTCAGCGTTCTGAATTGTATCAATACACCCATCCACATCTGAGAGGCCGGAGAGTGGGCTGCATTGGTTCTCAAACTTGAGC
Celera SNP ID:            hCV29016833
SNP Position Genomic:     123656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51801):
GGTGGTGGGGGTTCAGCTACATTGGAATATTATAAATTCCTCCATCTTTTTTTTTTTTTTTTTTTACTCTTTTGGTGATGGTTGCTTTTTTTTTTTTTTT
Y
TCCCCAGGAAGCACCAACTAATAAGCTTCTCTATGCCAAGGATATCCCAACCTACAAAGAAGAAGTAAAATCTTATTACAAAGCAATCAGGGATTTGCCT
Celera SNP ID:            hCV26169218
SNP Position Genomic:     161055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51802):
ACACTGTGCAGCCTTTGTGATGCATTTCTGGTTAATTTTGTTCATTAAAACGCAGACCTTGCTCACCTATAAAATATGCCTCTAAAGTATTTGAGATCAC
Y
TTGTAAAGCTAGTTGGTTGCTTTTAGCGCCTCCATCCGTTGCACCCAACCCTTCACCTGCCGTTTTCTGAATATCTTACATATTCTGAACGGGCAAACAA
Celera SNP ID:            hCV3078740
SNP Position Genomic:     79521
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51803):
GATCACACAGATGGGGGCAGCCTCTTCAGGAGTTCTGAGTCTTATCCCAAGAACAGTGGGAAGCCATGGGAGGTCCTGAAGCAGGGAGGTTAGTATTTCA
R
AAAATGAGTGGGGCTGTGTGTGAGATGTAGATAGAAGGGGTGCAAACCTGGAAATAGCCCCATTAGAAGCTGTGGATTTCTGGTGAGGATTGGTGCTGTC
Celera SNP ID:            hCV27508229
SNP Position Genomic:     142194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51804):
GAAGTTCCTCTAGGTCTAATCTCCCATTTAATCCAGGCCTATCCCAATTCTCTACGCTGGCTTGCTCCCTTCTCTTCCTGTGTTCTAGCCTCTTTTTTTT
T
GAGACAGGGTCTCACTCTTGTTGCCCAGGCTGCAGTGCAGTGGTGGGATCTCGGTTCACTGCAACCTCTGCCTACTGGGCTCAAGCAATTCTCCCACCTC
Celera SNP ID:            hCV26169219
SNP Position Genomic:     156883
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51805):
GTCTGTTTGGAGGCTTGAGCTGTGCACTTCGGCTGCCTGATGCGAATGGCCTATGGGGAAGGAACCACATACTGATTGAAATGTTAGCAAACAGCTGGCA
Y
GCTCCTGCCCACTATGCAGAGGAAGCAAAAATATTTATCTTTTTTTGCATTTACAGCTATGCTTGACTATAGCAGGACTCCACCGTAAATGACATTTTCC
Celera SNP ID:            hCV3078741
SNP Position Genomic:     81425
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51806):
GCAGACAGAGCTGTGGACAGCTGTTTCTTTCACACCCAGTGACCGCTTTGCTTATATGCACTGAGAAACGTGAAGTTATTTGGCCTGGTTTTAGAGAGAT
R
GAATGCAGCTGTTATTTATACGGCGTACCAAATAGGAATTTACACTTTGCATGTCATCTGTAATTCTACCTTGCCCAAAGTGTTTCCTGTCTCTCTAAAT
Celera SNP ID:            hCV29016839
SNP Position Genomic:     100713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51807):
AGCCGGGATGGCGCCCCGCATTCCAGTCTGAGTGACAGAGTGAGATTGTCTCAACAAAAAGAAGGAGCGCTGCTAGGTTCTCTTCTGATTGGAATGGCTT
Y
GGGAATTTGGGCGGAACGAGAAGCCTTGAGTGTAGGGGTAAAAAGTCTTACTTGAGAAGGACAAGGTGAAGTCCCTTTCACCAAAAGAACATGTTCCTGC
Celera SNP ID:            hCV3078742
SNP Position Genomic:     82264
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51808):
GGGTTCCTTAAAAAAATTCTCTATTTTACTTTCTACCAAAATTCCCTTTTGTGTCTTTGGTTTTTTAACCAAGTTTCACTTAATTAGCGCAATACATCAA
W
GGCTGGACACTCACATAAAATAAATTAAAACTCTGTAATTATGAAAAATGATGTTGCTCTGGTCGAAATAAAATTGTAAAGGTGACTTTGCGGCTCACTG
Celera SNP ID:            hCV3078743
SNP Position Genomic:     84722
SNP Source:               Applera
Population(Allele,Count): african american(A,28|T,8)   caucasian(A,13|T,19)   total(A,41|T,27)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51809):
CTTGGCACCCTCGTTGAAAATCATTTCACCATATTTGTGAGAGTGTATTTCTGGGTGTTCTTTTCTATTCTATTGGTCTATGCCTGTCTTTATGGCAGTA
M
CGCACTGTTTGATTACTGTAGCTTTGTAAAGTAAATTTTGAAATCAGGAAATGTGAATTCTTCAACTTTGTTCTTCTTTTTCAAGATTGTTTTAGAAAAT
Celera SNP ID:            hCV3078744
SNP Position Genomic:     87088
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,9)      total(A,9|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51810):
ACCCAGTTTCCTTCAATAGTACTATCCTGCAAAACTATAGCAAAACATCACAGTCAGGATATTGACGTTGACAGCAGTCAAGACACAGAACAGCTCTATC
R
TCACAAGGCTCCCCAGGTTGCCCTTTCACAGTCGCATCCATTTCCCTCCTCCCTCCCATTCTCCATCTCTGATGCCTGGCAACCACTGACCTCAGCTCCA
Celera SNP ID:            hCV3078745
SNP Position Genomic:     87360
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51811):
TATAATTTTATCATTTCAATAATTTTATATAAACGGAATCATCCAGATGTACCCTTTGGGGGACTGGCTCTTTTAACTCAACATAATTCTCTGGAAATTC
W
TCCAAGTTCTTTTATGTATCAATAATTCATTCCTTTTTATCGCTGAGTCGTGGTCCAGGCAGCGGCTTTTTAAACTTCTTTAATTTTAAAGATAAATATC
Celera SNP ID:            hCV3078746
SNP Position Genomic:     87565
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,8)      total(A,3|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51812):
GCATGAGTGACATTTCATCAGTATAATGAGAACTATTGTTGTTAAAAATTATTATTATTTTTTTGTGCGTTTGTGTGCATGTTCAGAAAGAAGGGGATCA
R
CCTGAAAGAGTCCAACCAATCGCATCATCTACCTTGATCCATTCCGACCTGACATCCGTTTATGGCACCGTGGTAATGAACAGGACTGTTTTATTCTTGG
Celera SNP ID:            hCV25761535
SNP Position Genomic:     26445
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,33|G,1)   total(A,69|G,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51813):
TAGGCACTAGGAATGGAGCAGGTACTGTCCTAGGCGTCTAGGATCCTGAACTTGAGTTGATTCTTTCTAGAGGCATTTATTGCACACCTATTAGATGCAA
K
TATACCGACCTCCACAGATTCCATGAGGAGGATTCAGATGAATCAGGCACATCTCTGGCCATCAGTCTCAAGAATCTTATCCATGAGTACATGAGTAAAA
Celera SNP ID:            hCV3078747
SNP Position Genomic:     88239
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51814):
TCGGTGACTTGTTTTGTTCTTATGCCTTGGCCAATTAAAAGCTGAGATAGTGATCCCTAGGAGAGTATGAGATGTAAATGAGCTGTAAAATGGCTTCTTC
M
TAGTGATTATTCATGGGAGGCTTGGAACTCGAGGTGGGTTCAGTCTGTTTGGAGGCTTGAGCTGTGCACTTCGGCTGCCTGATGCGAATGGCCTATGGGG
Celera SNP ID:            hCV16263236
SNP Position Genomic:     81282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51815):
TAAGTAGGCACAGAGGATGCAGGAAATTATGAGACACAAGGTTGAAATGACCCTGGAGCCTGCATATATAGGGCCTCACATACCAGTCCTGTGAGTGCTC
R
CTTTATTCTTCAGTGGCAATGGAATGCCATTCAAGGTATCTTATTTTATTTTTTTAGTGTATGAGTTTGCTAATCCAAGGATCTGGTACTTATGAGGTAG
Celera SNP ID:            hCV3078748
SNP Position Genomic:     88754
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51816):
GTTTTGTTCTTATGCCTTGGCCAATTAAAAGCTGAGATAGTGATCCCTAGGAGAGTATGAGATGTAAATGAGCTGTAAAATGGCTTCTTCCTAGTGATTA
Y
TCATGGGAGGCTTGGAACTCGAGGTGGGTTCAGTCTGTTTGGAGGCTTGAGCTGTGCACTTCGGCTGCCTGATGCGAATGGCCTATGGGGAAGGAACCAC
Celera SNP ID:            hCV16263237
SNP Position Genomic:     81292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51817):
TGCCAGTGCAGGTGTGTCTGAGACGTCCACAGTCTCTCTGGGCTGACAGTAGCTCCCTTTGGGCTGTGGTTAGCAGAGCAGGTCTCAAGTGCTGGGGCAT
S
GTGAAGCTAGAGATGACCAGCTTGTCTTTATAGCAGTATCATTGAAGGGAGAGTGGGGGTGACATCATGGGAGTGAGAGCACAGAGGAGGAAGAAAAGAG
Celera SNP ID:            hCV7522376
SNP Position Genomic:     103682
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   (C,-|G,-)   Caucasian(G,11|C,73)   Asians(G,30|C,50)   total(G,41|C,123)   no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51818):
CAGGAAATTATGAGACACAAGGTTGAAATGACCCTGGAGCCTGCATATATAGGGCCTCACATACCAGTCCTGTGAGTGCTCGCTTTATTCTTCAGTGGCA
R
TGGAATGCCATTCAAGGTATCTTATTTTATTTTTTTAGTGTATGAGTTTGCTAATCCAAGGATCTGGTACTTATGAGGTAGGGTCCTGGTTCAGTCCCTA
Celera SNP ID:            hCV3078749
SNP Position Genomic:     88773
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51819):
TTTGGAGAGGCAGGAACTGAAGAAAGGCTGGGAGCCCAGTGAGGATGCTCATGCCAGTGCAGGTGTGTCTGAGACGTCCACAGTCTCTCTGGGCTGACAG
Y
AGCTCCCTTTGGGCTGTGGTTAGCAGAGCAGGTCTCAAGTGCTGGGGCATCGTGAAGCTAGAGATGACCAGCTTGTCTTTATAGCAGTATCATTGAAGGG
Celera SNP ID:            hCV7522377
SNP Position Genomic:     103631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51820):
CCAATTAAAAGCTGAGATAGTGATCCCTAGGAGAGTATGAGATGTAAATGAGCTGTAAAATGGCTTCTTCCTAGTGATTATTCATGGGAGGCTTGGAACT
M
GAGGTGGGTTCAGTCTGTTTGGAGGCTTGAGCTGTGCACTTCGGCTGCCTGATGCGAATGGCCTATGGGGAAGGAACCACATACTGATTGAAATGTTAGC
Celera SNP ID:            hCV16263238
SNP Position Genomic:     81312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51821):
CAACATTCCTGGTCAGGAACTGCACCATTTCTATGACTAAAGACTGAGATTCCTTGGCTTCTCTGCAGCCATCCATTTACTCTCAGCTCAGATTTTTAAT
Y
GAGTAATGGTAGATCTGTTTCCCTCAACTGATCTCCCACAGATAACTCGCTGTGTGACTTTAGGTGAATTGCTTAACCTCTCTGAGCCTTCATTTCCTTA
Celera SNP ID:            hCV15999018
SNP Position Genomic:     27420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51822):
CTGGGCATTTTCCTAGAATTAAAATAGGATCTGACCTGAATTTTTATATTTATGCATCTTGAAACCCATGAATTTGTGGCTGGTATCCTGAAAAGATTCC
Y
AAAATTGTCCTGTATTTGAAATTAAAATTCATTAATTTGCTCTCAAACATAATTGGGTTTAATATTAAACATGAATAAATTGATAGCTTTGTTCATAAAT
Celera SNP ID:            hCV7522378
SNP Position Genomic:     101093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51823):
TCCAGGACTGAGTGATGATCATTAATGGAGCTGAGTGGGTTTTATGGTGAGAGCTGGAGTTACCCAATATCTTAGTCCATTCTGGCTGCTATAACAAAAT
R
CCTTAGACTGGATAATTTATAAACAATAGAAATGTATTGCTTACAGCCCTGGTGACTGGGGAGTCCAAGGTCAAGGCTCCAGCAGATTCAGTGTCTGGTA
Celera SNP ID:            hCV27965453
SNP Position Genomic:     78945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51824):
GATAGTCTGCCTCCCAATTCAGCGGTGGGCTGTCTCTTGGCACTAAAGTGGAATTCAGCTTCTTATATCAGCTGAGGGGTGTTAGATAGATGGCCAGCTC
R
CTTTGGCACTCAATACCTGTTCATACATAGTAAACAGGGGTTTTCTTTGGTTGGGCAGGTATGGTGATTTTGCAAGGTAATGAAAGGTTGCTCCCGGGGA
Celera SNP ID:            hCV15965156
SNP Position Genomic:     26190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51825):
GGAGGAGGAAGACCCAAGGAGAACAAGGGGAACAGAACCAACCAGGCTTTACAGGTCAGACCCTATTTTTGTGTGGTTGAGGGGAAAACCTGTCTTTGAA
Y
GACCATGACCACAACTCATACTACTTTGGGTTCCTTAAAAAAATTCTCTATTTTACTTTCTACCAAAATTCCCTTTTGTGTCTTTGGTTTTTTAACCAAG
Celera SNP ID:            hCV15965157
SNP Position Genomic:     84594
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,2|T,32)   total(C,6|T,66)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,102|T,1399)   total(C,102|T,1399) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51826):
GGGGAAAACCTGTCTTTGAATGACCATGACCACAACTCATACTACTTTGGGTTCCTTAAAAAAATTCTCTATTTTACTTTCTACCAAAATTCCCTTTTGT
R
TCTTTGGTTTTTTAACCAAGTTTCACTTAATTAGCGCAATACATCAATGGCTGGACACTCACATAAAATAAATTAAAACTCTGTAATTATGAAAAATGAT
Celera SNP ID:            hCV15965158
SNP Position Genomic:     84674
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,22)   caucasian(A,8|G,26)   total(A,24|G,48)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,658|G,805)   total(G,805|A,658) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51827):
TCTTTGGGGGAAATATTGGGAGCTATCAAAATGAAAAGCAGAATCAACCTTTTCAAGATGTTCCCTAAGGGGGAGATGGAAACCCCAAAATAAACTCTCC
Y
AGATAAATCCAATATGTTAAGAAAAACATTTATCTCCCTAGTTGAATTTTTAAATTTATTACTATTATGTATTTTTTGCATTTTCATGGGTACATAATAC
Celera SNP ID:            hCV29016840
SNP Position Genomic:     98449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51828):
CTCGGCCAGTTGGAGAGGGAAGCTTTGTCACCAAAGGGACTTGCACCCCTGGGCCAGACGGTGGTGTCCAAGAGAAAGTGATCAAAGAGATACAGAACCC
R
CATGCCTAAATATTTATTTCAGTTGTTCGTATTTCCCACACTTTTCAAATGTGAACTTGTGTCCTGAAGGTGGAGCTTTAGTACACAAGAAAATTGGGAA
Celera SNP ID:            hCV27851546
SNP Position Genomic:     3051
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 hmCS


Context             (SEQ ID NO:51829):
AGACAAGATGCTAATTATCACTCTTATTCATTTACTAAAGCACCCTAGTTTGAGTCACTGTATGTGCTTAAAAGCAAAAAAAAAAAAAAAAAAAAAAAAA
W
TTCATTTAAAAATAGGGTCTAATTCAGAGTTTTAAGTGAATCAGACTCACCTCCCTCCAATTAGTCCACATTAGTTAGGTTTTAAAGTTAATCTGTAGTG
Celera SNP ID:            hCV26169221
SNP Position Genomic:     143949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51830):
GACACAGAGACACACAAATGGAATCAGATGCTCAGGAGGAGGACACCACAAGTCACGTGGATGGGAGGGATAGTAAGATGAGGGTGGGGTCAAAGATATC
A
GTTGGGGATGACTGTGCAGATGCCTGGAGGCAGGTGCTTTCCTAGAGAAGACAGGAGGAGGAGCAGCTTCCCAGCACACCGGGAGGGTAGGGACCCCCTG
Celera SNP ID:            hCV26169222
SNP Position Genomic:     142421
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51831):
GTTGAGTACCTTGAAATTTGATGAGGAATTTTTTGGAGCAGCTCTTCCAGTGTGCCACCCAAAGTTGAAAAAACAAAACCTCTTGGATCCATTTTATGTG
R
ACATTTTATTCTTTGTAGCCTTCTCTTTACTGGTTTGGTTTCAGCCTCCAAAAATTAAATTACTACTACATATAATGGTAGTAAAAAAGAACACCCCAAC
Celera SNP ID:            hCV29016842
SNP Position Genomic:     95562
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51832):
AGACACAGAGACACACAAATGGAATCAGATGCTCAGGAGGAGGACACCACAAGTCACGTGGATGGGAGGGATAGTAAGATGAGGGTGGGGTCAAAGATAT
C
AGTTGGGGATGACTGTGCAGATGCCTGGAGGCAGGTGCTTTCCTAGAGAAGACAGGAGGAGGAGCAGCTTCCCAGCACACCGGGAGGGTAGGGACCCCCT
Celera SNP ID:            hCV26169223
SNP Position Genomic:     142420
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51833):
ATAGACAGTAGCATCTGTAACATAAAAGTGAAAGAACTCAGGATTGTTTTATCTTGAAAAGGGAAAATGATTCTTGCTATCAAATAAAGGGCTTTTTTTT
W
AAAGGGAGAATTTGATTAGATATCACAAATGGAGAAGTAAGGTGGCATTCACCTATATGGTATGAAGCTAGGTAGCAAGGGACTCCAAGGGACATGTTCT
Celera SNP ID:            hCV29016843
SNP Position Genomic:     94229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51834):
CAGACACAGAGACACACAAATGGAATCAGATGCTCAGGAGGAGGACACCACAAGTCACGTGGATGGGAGGGATAGTAAGATGAGGGTGGGGTCAAAGATA
T
CAGTTGGGGATGACTGTGCAGATGCCTGGAGGCAGGTGCTTTCCTAGAGAAGACAGGAGGAGGAGCAGCTTCCCAGCACACCGGGAGGGTAGGGACCCCC
Celera SNP ID:            hCV26169224
SNP Position Genomic:     142419
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51835):
GCATTTAGAATTTCACCAAACGTCATGTGATTAAGCATCTCTGGACTTTGGGGTCATTTTCAAATATCAAGACTGAGTATATTCTGCGATGGTAGAGGAT
R
TAGGGGAAAAAAGAGTGTGAGTATGATGTTCACTCTTGCTGAAGTTCTGCTGGACTTTATATTGGGTAGAATCTTAGAATCTTATGTCCTGTTTTGGTCA
Celera SNP ID:            hCV29016844
SNP Position Genomic:     93961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51836):
GTCAGAATCTTGTAGCCTCCAGCTGCATGATTCCTAAACCACAATCCCAATCTTGTGGCTAATTTGTTAGTCCTATGAAGGCAATCTAGTCCCCAGGCAA
R
AAGGTGGTTTTGGGAAAGGGCTGTTGTTGTCTTTGTTTTAAACTGTAAGTTCCTCCCAAAGTTAGTTCAGTCTACATCCAGAAATGAGCAAGAGCAGCTT
Celera SNP ID:            hCV26169225
SNP Position Genomic:     141595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51837):
CCCAGTGGCTCAGGGGCTTCTTCCTGGACTCGGTCCTCCAAGTGGATGCACTCAGCATTTAGAATTTCACCAAACGTCATGTGATTAAGCATCTCTGGAC
Y
TTGGGGTCATTTTCAAATATCAAGACTGAGTATATTCTGCGATGGTAGAGGATATAGGGGAAAAAAGAGTGTGAGTATGATGTTCACTCTTGCTGAAGTT
Celera SNP ID:            hCV29016845
SNP Position Genomic:     93907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51838):
AGGTTTTACAATAGTGATTTTATCCCCAGGAGCAATTTGGGGAGAGTCAGAATCTTGTAGCCTCCAGCTGCATGATTCCTAAACCACAATCCCAATCTTG
K
GGCTAATTTGTTAGTCCTATGAAGGCAATCTAGTCCCCAGGCAAGAAGGTGGTTTTGGGAAAGGGCTGTTGTTGTCTTTGTTTTAAACTGTAAGTTCCTC
Celera SNP ID:            hCV26169226
SNP Position Genomic:     141550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51839):
AATGCAGTCAAGTATAACAGAATAATTAAAGTGACCCTTTCAGGCCCTTAGTGATTCTATTAATACAGGGCTAACGTCCTTCACAAAGTGATTAAAATAA
M
TTCTGCTACCAAAATCAATTCTGTGTCATGTTACATCATTGCTGTGATGACATTAACAATGAATTTACCTCAATCTGCAAAACCAGTCCAAAGCGCTGAT
Celera SNP ID:            hCV29016846
SNP Position Genomic:     93507
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51840):
GCCTGTGCGACAGAGCAAGACTCCATGTCAGGGGAAAAAAAAAAAAAAAAAAAAAGCAGGGTTTGCAAAATATCTCAAGCACTGGTCTTAGGTTTTACAA
K
AGTGATTTTATCCCCAGGAGCAATTTGGGGAGAGTCAGAATCTTGTAGCCTCCAGCTGCATGATTCCTAAACCACAATCCCAATCTTGTGGCTAATTTGT
Celera SNP ID:            hCV26169227
SNP Position Genomic:     141461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51841):
TGATCTAAAATATTGAATGTGTAGAACCTTTATGGGGAAATGATTCTTTGCTCTTTTGTCTGTACTGGATTTTTCAAAATCTTTATTGGTAAAAAGAAAG
R
ATGTATTTCTAAGAATTGTTGCAACCATACAGGGCAGCCATGGAGCTGACTCTACATTTTGTTTTAAAAATGTTGTTTTATACCTGCACTATTTATTTAG
Celera SNP ID:            hCV29016847
SNP Position Genomic:     92238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51842):
CTCCAGCCTGTGCGACAGAGCAAGACTCCATGTCAGGGGAAAAAAAAAAAAAAAAAAAAAGCAGGGTTTGCAAAATATCTCAAGCACTGGTCTTAGGTTT
Y
ACAATAGTGATTTTATCCCCAGGAGCAATTTGGGGAGAGTCAGAATCTTGTAGCCTCCAGCTGCATGATTCCTAAACCACAATCCCAATCTTGTGGCTAA
Celera SNP ID:            hCV26169228
SNP Position Genomic:     141456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51843):
AGTTTGCTAATCCAAGGATCTGGTACTTATGAGGTAGGGTCCTGGTTCAGTCCCTACTAGGCCAGTAGCCCTCACACTGTTTCATGACCCCAAGACCTAC
Y
CCTGTATCCTGACCCTGAAACGTATAGCGTCATCTGCCAAGGGGGCTGAGTTACAGAAAAGTGTGACCACAATAGAGAAATGAGCTCAAAAATCTATGTA
Celera SNP ID:            hCV3078750
SNP Position Genomic:     88918
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51844):
AGTGTATTAACCTCAAAGACATGGGAGAAAGGGGTGGGGCAGGGTGTGGTCCGAGGGAAGGAGTCAGACCCAGACACGGCTGGGCATCTGCTCCAAGACA
R
GGAGAGCAGAATAGGCTTAGTGAGGCAACTGAGGCCCTGGGGAGAGGGGAGCAGCAAGAATCTCATGCATGAGTCGAATCTTGGCCAAAGGGTGGACTTT
Celera SNP ID:            hCV29016848
SNP Position Genomic:     90535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51845):
GGAGGAGTATTTCAAGCTATAAAGGCCAGTGTCTGACCGTCTGTCTGTTTCTTTCCACATATCTAGTAGTTGAAACCTTGTCAGGGACCGTTGGCCCTTT
Y
ACCCTGCCCTGACCACTTCTCCTTCCATTTCTTAACATTCTCATATCTGGTGCCTTCACTCACTGAGACCAGAGATAGTTCCCCTCTCTTTTGTGCATTC
Celera SNP ID:            hCV3078751
SNP Position Genomic:     89129
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51846):
GGTTTCACCATGTTGGCCAGGTTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCAGCCTCCCAAATTGCCAGGATTACAGCCGTGAGCCACCA
Y
GCCCAGCCAGTTTTGTCTTTTTAAGATGCATGAAATAACAGTGCATGTCTGCACTGTTGGGAAAATTCCAGAAGAGAAGGAGAAATGGATGATACAGGAG
Celera SNP ID:            hCV11165217
SNP Position Genomic:     45938
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51847):
TTTTAGAAAATAATAAACTTTTAATTTTGAGATAATTGTAGATTCACATGTACTTGTGAGACAATAATACTTAATATCTTTTACCCAGTTTCCTTCAATA
R
TACTATCCTGCAAAACTATAGCAAAACATCACAGTCAGGATATTGACGTTGACAGCAGTCAAGACACAGAACAGCTCTATCATCACAAGGCTCCCCAGGT
Celera SNP ID:            hCV29016849
SNP Position Genomic:     87278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51848):
TATTTATTTAGGAGGGTCCTCTTGGTAGCTCTTTAACCCATTTATTAAGATTAGAAGAGGTTCCACCAGCAAACAAAAGACAACTAATCTGAGTCTGTTT
R
AAAGCAGACTGAAGCACCCACTTTCACAAGACAGGCCAGGGCTGGATTCCATCCTAGATGGCCAAGAGAACCCTCTCTAAACAATAGGGGTTTAAAATGT
Celera SNP ID:            hCV3078752
SNP Position Genomic:     92428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51849):
GTCATTATCTATTGTTTCTTCTTTAATGAAAACCAAGGTCATACTCTGTGTTAGACAAAACAGCAGAAGATCCTATCCATTGTTTGTTGAGTTAAAATAT
Y
GCTCTTGGGATTCTGTTTTGCAGGCTTTGCTGAGCTGCAGATGGATAAATTGGATGTGGTTGATAGTTTTGGAACTGTTCCCTTCCTTGACTACAAACAT
Celera SNP ID:            hCV22275337
SNP Position Genomic:     112481
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,10|T,30)   total(C,13|T,65)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,324|T,1153)   total(C,324|T,1153) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51850):
AATGTTTTCTACAAAGAGCCAAGACAGTAAATATTTTAGGCTTTGCGGGCCGTATGGTCTCTGCTGCAGCTACTCCACTCGACTGCTGCAGTGCAACAGC
R
GCCAGAGACACTACCCAGACGAATATTTATGGGTGCTGAAATTTGAATTTCATGTGTTTTTATATGTCATGAAATATTATTCTTCTTTTGACATTTTGTC
Celera SNP ID:            hCV3078753
SNP Position Genomic:     93022
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51851):
ACAAAGAGCCAAGACAGTAAATATTTTAGGCTTTGCGGGCCGTATGGTCTCTGCTGCAGCTACTCCACTCGACTGCTGCAGTGCAACAGCAGCCAGAGAC
R
CTACCCAGACGAATATTTATGGGTGCTGAAATTTGAATTTCATGTGTTTTTATATGTCATGAAATATTATTCTTCTTTTGACATTTTGTCATGGCCCATA
Celera SNP ID:            hCV3078754
SNP Position Genomic:     93032
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51852):
TGTGCTGGGGAGCAGAATGAGAAAATGTCTGTTTGAGCAGGATGGGCAGCCCCTGTAGCCCAGCAATGCCACCCCAATGAGTGTTCCATGTACAAAGGAG
S
AGAGGATACTCAATTGCTTCAAGAAGCAGGTGTTAGGCAGGTGTTGGACATCACGGAGTTCTCCCAGTGGCTCAGGGGCTTCTTCCTGGACTCGGTCCTC
Celera SNP ID:            hCV3078756
SNP Position Genomic:     93744
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51853):
GGTAGAGGATATAGGGGAAAAAAGAGTGTGAGTATGATGTTCACTCTTGCTGAAGTTCTGCTGGACTTTATATTGGGTAGAATCTTAGAATCTTATGTCC
Y
GTTTTGGTCACCGTATTATAGAAGAATACAGACTTGCTGAAAATGGTCTACAAAAGAACAGTGAAATTATCAGAATGATAGACAGTAGCATCTGTAACAT
Celera SNP ID:            hCV3078757
SNP Position Genomic:     94051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51854):
TTGATTCATTTTCAGTAACAAAATCAAGTATATGGAGTAGCAAACATCATTCTTTAGGTGATGCACTTGGAAAAATAGTTGAGTACCTTGAAATTTGATG
R
GGAATTTTTTGGAGCAGCTCTTCCAGTGTGCCACCCAAAGTTGAAAAAACAAAACCTCTTGGATCCATTTTATGTGGACATTTTATTCTTTGTAGCCTTC
Celera SNP ID:            hCV3078758
SNP Position Genomic:     95485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51855):
AGCTTTACCCCAGTGGGCTCCTTTGTAGGAAAGGTAGGAATTCTGTATTCAAGTTGCTGTTTTGAATGGTGTCAGCAGTAAAGACTAGTGTCTCCCCGAC
C
TCCCAGGGACTGCAGTAGGGTTCAGGATACAGGAAGCTATATCACATAGCTCTATCCTGTCCCCATATCCAGTCTTGAGGTATTTCCTATGTGCTTGGGC
Celera SNP ID:            hCV3078759
SNP Position Genomic:     31308
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,9)   total(C,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51856):
TGTAAATGAGCTGTAAAATGGCTTCTTCCTAGTGATTATTCATGGGAGGCTTGGAACTCGAGGTGGGTTCAGTCTGTTTGGAGGCTTGAGCTGTGCACTT
Y
GGCTGCCTGATGCGAATGGCCTATGGGGAAGGAACCACATACTGATTGAAATGTTAGCAAACAGCTGGCACGCTCCTGCCCACTATGCAGAGGAAGCAAA
Celera SNP ID:            hCV7522387
SNP Position Genomic:     81354
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51857):
CCATCTTATGAACATAGCTTCCAACAGTCTTGGTAGCGATGGAGAGAAGACCAACATGGGCAGTGACCATTGCAAGTGAGGTCCTTTGGAAAGCCAGTGG
R
CCCTTGCTATGGCAGCACCACTCTTGACAACACATCAGTCCTGTCATTGGATGAGAGAAGGGAGCAAGGAGCATATTTAAGCATTTTCAAATGCACACGC
Celera SNP ID:            hCV7522388
SNP Position Genomic:     67563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51858):
CTAGAAATATTTCGTTCTTTCCTTGATGCTATTCAATGGAATATCTGTGGAGTCCAACACCCTTTGGCGATAACGTGCTGTTGGTATTTGTTCTTCTTGC
Y
AGGTTGGTGCCCCGTCTGGTGAGGCAAGGGTTCCCAAGTTAGTGTGACCTAGAGTGACTGACACATCAAGCAAGCCAGTGATCTCACCACTCAGCTTCTG
Celera SNP ID:            hCV7522389
SNP Position Genomic:     66086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51859):
TTTTGTGATAATTCCTTGGCTAAACCAGAGGCCAGAATGGAATCTTTCATGGATCTTCAGATCCTCACTTTAAATAGAAGATAAACAAAGCTGGTACTGC
R
AGCCCAAGCAAAATAGCTCCAAAATAGCTGGCTGAATCCATCCCTGTGCCTGTTCGAACGTCAAAGCGTTGGACACACCATTGTCTATAATCCTAATGAG
Celera SNP ID:            hCV25621903
SNP Position Genomic:     105865
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51860):
GCCACAGTAATGAGAACTGTTTGTATAATAGAAGGCAACGGAAGGGCAGGGCCTGGGCCTGGCTTTGTGTTTTATTTCAGCTCTTCTCTGCAGCCAACCA
R
GTCATTATCTATTGTTTCTTCTTTAATGAAAACCAAGGTCATACTCTGTGTTAGACAAAACAGCAGAAGATCCTATCCATTGTTTGTTGAGTTAAAATAT
Celera SNP ID:            hCV25621904
SNP Position Genomic:     112380
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51861):
TTAGTCGTCCCTCATAGAATGCATTATTTTGTCTTCAGTGGCTTTACTTCCAGGCTTATCAGGGAAGAAGTGGTTTGAAACATCAGAGCCCTAAACAAAC
R
AACAAAACAGAACTCAGAATTCAGGCTACCAGTCTGGCTGATGCATCTCTACACCTTCAAACAAAGATTTACCACTTTATTCAAGTTTTAGTTATCCATA
Celera SNP ID:            hCV25621905
SNP Position Genomic:     139437
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,1)   caucasian(A,16)   total(A,41|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51862):
TGTCAGTGATTGCCCAGGCATTCATGGATGCATTTTCTCTCACAGAGCAGCAACTAGGGAAGGTAAGGCCCAGCTTGAGTATTTCTTGTATGCAGTCTTA
K
GAGTTTGACATACTTGTCTTTCTGATAAGCATTCAAATAATAAACAATTGGTCTAAACTACACCAGCTAAAAAGAGATAGCAAGGGCCACTGTCAATTTG
Celera SNP ID:            hCV25621906
SNP Position Genomic:     158403
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(T,36)   total(G,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:51863):
AAGGACAAAAACACCCGTTTACAAACTGTGATAAACAGACCATTGGCTTCATGAATGGCCCTATTTGAAAAGAGATTATTCTCTCTTTGAACAGCCTTCC
Y
CTTCGCTTCTGGGTAAACATCCTGAAGAACCCTCAGTTTGTCTTTGACATTAAGAAGACACCACATATAGACGGCTGTTTGTCAGTGATTGCCCAGGCAT
Celera SNP ID:            hCV25621907
SNP Position Genomic:     158223
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,23)   total(C,1|T,57)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51864):
TGGTGGGGGTTCAGCTACATTGGAATATTATAAATTCCTCCATCTTTTTTTTTTTTTTTTTTTACTCTTTTGGTGATGGTTGCTTTTTTTTTTTTTTTTT
Y
CCCAGGAAGCACCAACTAATAAGCTTCTCTATGCCAAGGATATCCCAACCTACAAAGAAGAAGTAAAATCTTATTACAAAGCAATCAGGGATTTGCCTCC
Celera SNP ID:            hCV25621908
SNP Position Genomic:     161057
SNP Source:               Applera
Population(Allele,Count): african american(C,4)   caucasian(C,3|T,1)   total(C,7|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:51865):
CTGTTTTATTCTTGGGGACTGGAGATGGCCAGTTACTTAAGGTTGGTTTTCTGTGCCTTCTTCAAATGTCTATTTTAATGGTGATATTTTGTACTTTAAA
R
AAACATTTTTTTAATGCTTCTGGGTTATACATGAGACCAAACCAAGAACTTCATGAACTCCTTAAAGACCCCCAGAAATGGCCTGGAAGAAAATCTGGAA
Celera SNP ID:            hCV25621909
SNP Position Genomic:     26631
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,3)   caucasian(A,22)   total(A,49|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:51866):
GTTCCTTAAAAAAATTCTCTATTTTACTTTCTACCAAAATTCCCTTTTGTGTCTTTGGTTTTTTAACCAAGTTTCACTTAATTAGCGCAATACATCAATG
K
CTGGACACTCACATAAAATAAATTAAAACTCTGTAATTATGAAAAATGATGTTGCTCTGGTCGAAATAAAATTGTAAAGGTGACTTTGCGGCTCACTGGT
Celera SNP ID:            hCV15965168
SNP Position Genomic:     84724
SNP Source:               Applera
Population(Allele,Count): african american(G,21|T,15)   caucasian(G,26|T,6)   total(G,47|T,21)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51867):
CTCTGTAATTATGAAAAATGATGTTGCTCTGGTCGAAATAAAATTGTAAAGGTGACTTTGCGGCTCACTGGTGAAGAGCTGGAAGGAAGTTTAGCATTCC
R
TCTGAGGGATTTCAACTTGCACTTTATATAATTGCGTTTCTGGGGGTTATGTGTGTGGATGGGGGTCTGTGCAAAGTGTGCAAACTAACCTCGATTCCGT
Celera SNP ID:            hCV15965169
SNP Position Genomic:     84853
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,4|A,1495)   total(G,4|A,1495) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51868):
GCTGATTTATCAAGACAGGAATTGAGATAAAGTAATTTGGCTGTACGGGAGATGGGAGTTTTATTATTACTCAAATCAGTCTCCCTGAGCGTTCAGGGAT
S
AGAGTTTTTAAGGACAACTTGGTGGGTTGGGGGAAGCCAGTGAGCCAGGAGTGCTGATTGGTCAGGTCAGAGATGAAATCATAGGAAGTCAAAGCTGTCT
Celera SNP ID:            hCV26169230
SNP Position Genomic:     140909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51869):
TGTAATGTAACTGCCCAACAGGTTCACCTTCCCCATTGCCTAGACAGAGCTGATTTATCAAGACAGGAATTGAGATAAAGTAATTTGGCTGTACGGGAGA
Y
GGGAGTTTTATTATTACTCAAATCAGTCTCCCTGAGCGTTCAGGGATCAGAGTTTTTAAGGACAACTTGGTGGGTTGGGGGAAGCCAGTGAGCCAGGAGT
Celera SNP ID:            hCV26169231
SNP Position Genomic:     140861
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51870):
TTAGCAATAAGGAATAGTTGACAAATGTATCTTCACACCTAGGATCATCAAGGCACGCTGTCTTAAATGAACCCCAGATCAAAGAGAAACAGATGAAAAA
M
GTCATGTGTTTGGATGGGAATAATTAATATCATAAAGACAGAAATTTTTCTAACATTAAGGCATATATTTAATACAATTTCATTTAGACTCAGTCCCCTC
Celera SNP ID:            hCV29016851
SNP Position Genomic:     76288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51871):
TATCCACTCTGATAAGAGCTGGGGCTGCATGGGAGAGGAGCAAAGACCAGGTCCCTGCCCTCACAGAGCCTGCAGCCCTGGGGAAGGAGTGCAAAAAAGG
G
ACGGAGAGACAAGTAGAGTCAACACCTTGCGTGTAGTAGTGCTGTGTGGCTTGGAGAATCCAAGAGGCTTCCTGGAGGAGGTTATGACTGAACTGAGAGC
Celera SNP ID:            hCV26169232
SNP Position Genomic:     140469
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,11)   total(G,11|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51872):
GATGCTAAACAAAGCCCGGGAAGTCCCAAGCCTCGCCTCCCTCCACAACATTCACAGTAGACCTTGTAACCTTTTGTGTAGGTCCTTGCTTCCTGAAGAA
G
TTCTAAATTTCCTGTTTGTTTGCAATATTGAGCGATACTTCCTTTGGCCTCTTAACCCACATACTGGGTGAGTGCCGAGGGCGGTGAGGGGTGCACGTGA
Celera SNP ID:            hCV26169233
SNP Position Genomic:     140142
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51873):
CTCACTATTACAAATTAATCACTGTTTATATCTGGTCTGGTACATTTCAAAACTGCTTACCACCCAAACAACCACTGGTGTTTTCTTCCTCGCCCTAAGT
Y
CCACTGTGGTTTACCCTAATCTTCCCAGAGACTTCCCACACAGCCACTGCCTCACTCTCTCCAGCTCACCACCACTCTCAAAGAAGATAAGAAGTTCGTA
Celera SNP ID:            hCV29016853
SNP Position Genomic:     68530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51874):
TGATGCTAAACAAAGCCCGGGAAGTCCCAAGCCTCGCCTCCCTCCACAACATTCACAGTAGACCTTGTAACCTTTTGTGTAGGTCCTTGCTTCCTGAAGA
A
GTTCTAAATTTCCTGTTTGTTTGCAATATTGAGCGATACTTCCTTTGGCCTCTTAACCCACATACTGGGTGAGTGCCGAGGGCGGTGAGGGGTGCACGTG
Celera SNP ID:            hCV26169234
SNP Position Genomic:     140141
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51875):
AGCATTAAGAGCCAACAAAAATATTTGTACTCCAGTCTCTTCGGAATTGGCTTATTTTTTTTTTTCTTATAGGCAGAGGAAGTGCCTTACACAAACCGGA
K
TGCCCATGAGAGGCAGGGAGTTTTTGACAGTCATGATCTATTTCAGATACAACCGAAAGAACCAGCTTCGTCATTCTGTTTTTCAATCCAGCAGTGCTTG
Celera SNP ID:            hCV29016854
SNP Position Genomic:     65283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51876):
CTGATGCTAAACAAAGCCCGGGAAGTCCCAAGCCTCGCCTCCCTCCACAACATTCACAGTAGACCTTGTAACCTTTTGTGTAGGTCCTTGCTTCCTGAAG
A
AGTTCTAAATTTCCTGTTTGTTTGCAATATTGAGCGATACTTCCTTTGGCCTCTTAACCCACATACTGGGTGAGTGCCGAGGGCGGTGAGGGGTGCACGT
Celera SNP ID:            hCV26169235
SNP Position Genomic:     140140
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51877):
CTGCTTGGAAACTTCAGCTCCTTTTCAGAGGTGGGCCTCCCTGTTCTTTATGTTGGCATGAAAACAATTAATAATTTAAGCCATGCCCATTAAAAAAATA
Y
AAATGCTGTATAAATACAATACTGTAATAATAAATTTAAAAGTCGATCCAGCTGGGCGCTGTTCCCACACTACCAGCTGAGCAGAAACACAAATAAGTAA
Celera SNP ID:            hCV29016855
SNP Position Genomic:     62579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51878):
GATGCCCAAAGGGGCAGAAAATACATAAGGGGTGTCAGCCGCCTGGGACTACAGAAAGCAGTGGAGCTTGACTTAATGGGAAAGGACTCGCCATCCAAGG
R
GACAGTGCCATTTGCTTCAGTGGTTGCCATGTGGACTACAGATTGTATTACTAGACTGTTCGATTTTCTTTTTTTAAAGAAATCAGATATCCAGTTTTTT
Celera SNP ID:            hCV26169236
SNP Position Genomic:     138781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51879):
TTAATGCCAATCATAGAAGGGCTTCAGGCTGCAAATTCAGTCTCTTTCTCTTGTTCACATGCGCATGCCCTCGCTCTCTCTTGCTCTTCCACCTCCTGCC
R
TGGGATGATTCAGCAATAAGGCCCTCGCCAGATGCAGGCCCCTCGACCTTGGACTCTCCAGCCTCCAGAACTGTAAAAAATAAATTTCTTGTCTTTATAA
Celera SNP ID:            hCV29016856
SNP Position Genomic:     61326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51880):
ATGGTGGCATGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATAGCACCA
Y
TGAACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAGTGACCTCTGGCATGGTCAATATGGGGACCTCGTAACCTTCCCTGTCACC
Celera SNP ID:            hCV26169237
SNP Position Genomic:     136270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51881):
CATATGTAAGTTTAAACATAAAATAACAAGGTATACTGTGGGTACTGCACGTCGCTGTGAATGTGCACGCGTGCGCGTGTGCAGATGTGCATTCGCGATG
R
AGAGAGGAGGCGGTTTTCTGAGTTTTGCATCCAATCCCAAGTGGAGCAACGTGTATTTTCTTGGGCGTTTCATGTTGAGTGTTAGAAAACCCTGTCTCCT
Celera SNP ID:            hCV27473885
SNP Position Genomic:     122200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51882):
GAAGGCCGGTACTGTTATTACACCCATTTTTAAGTTGAGGTAGGCCTGAGGGTTCCCATCTTCCATATGATTTGTGTTTTCATCTCTCCCCTGAGCCCTA
S
GCAAATCAGACATTGCCTCCTGCAGCCTCTGCATATATACCTGGCTAGTGTCCACAGTACTTGGGGACCTCCTCTTTCGGCTTTGGAGCCCCCCCTCCCT
Celera SNP ID:            hCV26169238
SNP Position Genomic:     135279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51883):
AAATTTGTAACTTTATGCATGCCCATTAACCTTCGTGTAAGCATAAAAGATAAGAAGGCAATGGGCAAGGAAGAATAATCGCTAACATTTCTGAGCTCTT
M
CTGTGTGCTGGGCATTAGAACCAGCATCTGCACGGGTTAACTGGTTTAATCCTTACCAGTCAATACTCTCACCATCCCCACTTTATAAATGAAAAAACCT
Celera SNP ID:            hCV3078760
SNP Position Genomic:     30768
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51884):
TAGAAACTTATTTCTCACAGTTCTGGAGGATGAGAAGTCCAAGATCAAGAGTTGGTGTCCTGTGAGAGCCCCCTTTCTCATGATGGCGCCTTCCTGCTGG
R
TCCTCACATGGTGGAAAGGGCAGGGCAGCTCTCTGAGGCCTCTTTTATAAGGGCACTAATCCCATTTATGAGGACTCTGCCCTCATGATCTAATCCCCTC
Celera SNP ID:            hCV26169239
SNP Position Genomic:     134505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51885):
TATATCATATTCTATTATTTGGGTACATTATTTTGAACTTAAGCTAAGATACTGGATCACTTTTAAAGTATCTTTAAAGACATGCATTTTCCAAGGAAGA
Y
GGCATTACCTCCAAAGGTAAGATTTCACTGATAATCTGTGAAGAAACTAAAGGCTACAGTATGCCAGTACCTTTACTGTCCTCCTTCTCTTGCCTATAGA
Celera SNP ID:            hCV3078761
SNP Position Genomic:     30094
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51886):
TGGTGGGTTGTTTTTTTATATATATATAAAAACAAGGAATTTATGTTTAGTTGCTTAACATGGTTAGATTTTGTTTTTGCCTTATGCAGAATAAAAAATG
R
AAGGTTCATTTTATACTTTCTTTTCCCTTTTTTTTTCAAAAAGTAAAATGGAAACCTCACCCCCAATTTGTCCCCAGATTTAAACTTTTTGCTTGTTTTA
Celera SNP ID:            hCV11165228
SNP Position Genomic:     64630
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51887):
GTAAAAAGTTGCAGAGTCGTCGGGGGTGAGAGGACAACAAAGAAAAAATTACCCCTAATCATGTCATGCAGAAGCAACTGCTGTCAGCATTTTGGATTCT
Y
TATTTATGTAGTTGAGGTCAGGTTTTGCATCCTTTTCTTCAGTTAGTGAGGGAAAATGCTTACATTAAAATGTTATTGCAAACCCTTTGTAAAAAGTATT
Celera SNP ID:            hCV3078762
SNP Position Genomic:     29883
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51888):
GAGTTTTAATATAATTTGGTGCAATTTTAAGCCTCATGTTATTTAAATAATTTTTCCTTATTGTAAAGGTAATATATGCTCATGTAAAAAGTTGCAGAGT
Y
GTCGGGGGTGAGAGGACAACAAAGAAAAAATTACCCCTAATCATGTCATGCAGAAGCAACTGCTGTCAGCATTTTGGATTCTCTATTTATGTAGTTGAGG
Celera SNP ID:            hCV3078763
SNP Position Genomic:     29800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51889):
AGAGACTCTTGCACTAGATCGGGAGGGGAATGAATGGGCACTTGGGCTGAATAGAGCCTGTAGAGATAGAGAAGGTGAATTTGAGATTATTGGGAAATTC
G
ACTGAGATTTTTAATGTATTGGATGTGGGGAGTGACAGAAAGAGAAGAGTTGAGGGTGATTAGTGGTGCTGTTGACCATGATGGGTAGCAGGACCAGAGG
Celera SNP ID:            hCV3078765
SNP Position Genomic:     19963
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,8)   total(G,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51890):
CTTTGAGATATCTGCAACAACTATCAAATAATATGAAAATATCTGATTTCTTTTGGTGACAAAGTCACAGGTTCAGTAAATACTGCTGTGGCCTGAATCC
R
TGATTAAAGGAAATGCTAAGTTCCAGTTAGAGCTCCCTGGAATAAAGATTTTTTTTTTTCATCCAGTTTCATGGATTCCCTGAATTCTGTTCATGAACTG
Celera SNP ID:            hCV3078766
SNP Position Genomic:     18315
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51891):
GTTTTTAAGACGTGGAGGACCAATTAGAGGATGAGTTTAATTTTTGTTGATTTTTAGATGCCTTGGGACATACAGGAAGACAGGAAGAGTTGCTAAGTAG
S
GAGTTGGCAATGAAGTTAGGAGTTGGGGATCCACTCTATAAACCTTAGAGTGTGCCAGGCCCTGTGTCAGGCCCCACACATCCCTGTTTGGGCTATATGT
Celera SNP ID:            hCV3078767
SNP Position Genomic:     17349
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51892):
CCATTTTAAAATGCAAAAGCTATTCTTAGCTCATGGGCCGTTTGAAAAACAGGCAGCAAGCCAGATTTGGCCCACAGGTGGTGGTTTGTTGACTCCTGCT
R
TTATAGAAAGAATGAGAGTAAAACAAACCTTTCCCATACAGTCTGATGCTCATGGCAAGAGAGACGTGACCAAAAGCTGCCGTGGAAGTCCCAAAAAGAG
Celera SNP ID:            hCV3078768
SNP Position Genomic:     15346
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51893):
AAACAATATGGTTCCTGGAGGAGAGACACTGGAAACTTTCTTTCTTTTTTTTTTTTTTTTTTAAACAGAGTCTCACCCTGTCACCTAGACTGGAGTGCAG
K
GGCATGATCATAGCTTATTGCGGCCTCAAACTCTTGGGTTCAAGTGATCCTCCCACCTCAGCTTCCCAAGTAGCTGGGACTACAGGCACACACCACCATG
Celera SNP ID:            hCV3078769
SNP Position Genomic:     14043
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51894):
ATGTGCCAGGCACTGTTCTGGGTGCTGAATATACAAAGGTGAACAAAACAGACAATGCCCTTGCTCTGCTGGTGGGAAGAAAAAGACAGAAAACAAGTAA
R
TGGATTAATCAGCGATAAAGACACTTCAGATAGTGCTATGAAGAAAATACAGTGATGGGTAGAGAGTGACAGAGGTGTTCAGCGGAGAAGTGATCAGGGA
Celera SNP ID:            hCV3078696
SNP Position Genomic:     33130
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51895):
AGGCAGCTCTAGGGATGGGGAAATGATTTGACTACTCCCCCTGTTTCTTTTATTTTCAACTCCACTGGAGGGGTGTGAGCAAAACAAGCCAGGAGCTGAG
R
TGACGGCGCTGCCCCTGGCAGGGGTGTGGGAGGGCCTCGTCCCTGGTCCTCCTCGTTTCCACATTGAGTGCCAAACTCCTGCTGACACTCCTGGGGCAGA
Celera SNP ID:            hCV3078697
SNP Position Genomic:     43018
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,10)      total(G,10|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51896):
ATTACCGGTACGTGCCACCATGCCCGACTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGTTGGTCTCGAACTCCTGACCTCAG
R
TGATCCGCCTGCCTCAGCCTCCCAAATTGCCAGGATTACAGCCGTGAGCCACCACGCCCAGCCAGTTTTGTCTTTTTAAGATGCATGAAATAACAGTGCA
Celera SNP ID:            hCV3078698
SNP Position Genomic:     45883
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51897):
GAAAGAGCAGAGCAGGTGGAGAGATGCTGAAGGCTGAACCAGGGGACAGTTTGGGTTTAGAAAAGAGCAGGAGGAAGAGAATTGGTGACTGAAGGGGGAG
R
CAGCCAAGAGAAATGAAGGGAGAGGGGGAAATGCAATACAAGCAAGAGGTTTAGGAAACAAATCAAAAATACGGGGATGGAATTAATTAAGAGTTCACGG
Celera SNP ID:            hCV7522398
SNP Position Genomic:     44681
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51898):
TGTGAGACAGAACTTTCCAAAATGCCTTTTGAAGCATGGTGTAATGGGAGATAGGAGAGCCACCGAGCTAATAAGCTCCGCTCGCACATTCTAGCCCTGA
S
TAGTAAGCTGGCGCTGCGAGGGAGAGAAATCCCCTGTGCTTAAGTGTTCATACCCACAGGGAAATATGTCTTCCCAGGACCGAGAGGCAGCCTTGAAGTA
Celera SNP ID:            hCV25621910
SNP Position Genomic:     81815
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,36)   total(C,69|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51899):
CCTCGACTAAAATCTTGTTGTGCAATCCTAATGAATTCTCGAAGGTGTTTCCAGCGGCGTCCGTGCTATGCAATCACTGGACCCGGGAGCTCCCCAGTCT
S
GGGGCGGGAGGGGCAGGTGTGCAGCCTTCAGGAGAACGGGAGAGAGCAGGCAGGTTTGGCTTTTACTTTCTCCAGAGTTCGCCAAGACTCAAGAGAGAGG
Celera SNP ID:            hCV7522399
SNP Position Genomic:     44012
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,241|G,1222)   total(G,1222|C,241) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51900):
GACAGAGCTGTGGACAGCTGTTTCTTTCACACCCAGTGACCGCTTTGCTTATATGCACTGAGAAACGTGAAGTTATTTGGCCTGGTTTTAGAGAGATGGA
M
TGCAGCTGTTATTTATACGGCGTACCAAATAGGAATTTACACTTTGCATGTCATCTGTAATTCTACCTTGCCCAAAGTGTTTCCTGTCTCTCTAAATAAC
Celera SNP ID:            hCV15965170
SNP Position Genomic:     100716
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,403|A,1088)   total(A,1088|C,403) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51901):
TAGTCCCAGCTACTTGGGAGGCTGAGGCAGTGGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCAATGCATTCCAGCCTGGC
R
ACAGAGCGAGATTCCGTCTCAAAAAAAAAAAAAAGTATTAAATAGAAATCATGTTTCTCTTTTTGAAAAAAAAAAATAGGTTATTCTTGGTGAGAATTTG
Celera SNP ID:            hCV25762935
SNP Position Genomic:     38644
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,24)   caucasian(G,24)   total(A,2|G,48)
SNP Type:                 INTRON


Context             (SEQ ID NO:51902):
AATGGCAAACAATTTCTATTTTCAAGTTTCTTTGCATATTTTTTTGGTGCAAAACCATTTATAAACTTTTTTTTCTAACACTAGTGTCTACAGCAGCATT
Y
AAAAAAATTCTGTTACCTTTTCTGTATTAGGATTTAAAGTCTATTTCTTATTGTATACCTGATTGAAGCTGTTCTTGGAGATGAATGTTTTAAATGTCTA
Celera SNP ID:            hCV1802304
SNP Position Genomic:     164849
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 hmCS


Context             (SEQ ID NO:51903):
GTGTCTGAGACGTCCACAGTCTCTCTGGGCTGACAGTAGCTCCCTTTGGGCTGTGGTTAGCAGAGCAGGTCTCAAGTGCTGGGGCATCGTGAAGCTAGAG
W
TGACCAGCTTGTCTTTATAGCAGTATCATTGAAGGGAGAGTGGGGGTGACATCATGGGAGTGAGAGCACAGAGGAGGAAGAAAAGAGCACCTAGGACTGG
Celera SNP ID:            hCV27965479
SNP Position Genomic:     103695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51904):
GCGTACCAAATAGGAATTTACACTTTGCATGTCATCTGTAATTCTACCTTGCCCAAAGTGTTTCCTGTCTCTCTAAATAACATACCATTGGTAGGTTAGG
R
GTTTGATTTTGAAAATTCTTAGATTGAAGTCTCTTTATATAGATTAAACAGTAATCAAACAAAATTCTGTTTAGTGAAACCTTTTCAAGGTACAGCTCCT
Celera SNP ID:            hCV15965179
SNP Position Genomic:     100836
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,391|A,1082)   total(G,391|A,1082) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51905):
TCATGCACTAGTCCTGCTGCCCTCCCTACCTTGGAAATTTCTGAACTTCCACTTCTGCCCTGCACTGAAGAGGAGACTCAAGGAGGTATCACAGCAGGGA
Y
AGAAGCTGCAGGGTGGCAGGAGGTGGCAAGAGGAAGCCCGGGGACTGGGGAGGGCAGATATTCCTGCAGCAAGTATAAAGGAAGGGACAGGGTTGGGGTG
Celera SNP ID:            hCV27943621
SNP Position Genomic:     121119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51906):
AAACCCCGTCTCTACTAAAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGT
K
AACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV26169240
SNP Position Genomic:     133085
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51907):
GCAGTAAGCCATGATCACTGCACTTCAGCCTGGGCAACAGAGTGAGACCCTGTCTATTAAAAAAGAAAGAAAGAAAACCCTTGGTTTTATGTGTTGGCCA
R
AGCTGGGTTACATGACCAGTCCCTGGTGAAAGAGAAGGGAGTTGCTGCTGATCATGCCTCCCAACCCAGGCTGGACCCACTGCTGTGCAGACCTGGCCTT
Celera SNP ID:            hCV26169241
SNP Position Genomic:     131688
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51908):
CCAACAGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAAGCCAAGGTGGGAGGATCACTTGAGCTCAGGAGTTCAAGACTAGCCTGGGCAAC
M
CAGCAAGACCCTGTCTCTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTTAGCCAAGCATGGCAGTGTGCACCTGTAGTCTCTGCTATGTGGGAGGCT
Celera SNP ID:            hCV26169242
SNP Position Genomic:     131449
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,7)   total(A,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51909):
GATGGCTGCCACCGCTCCAAGCGCTACTCCCCCTTTTGTTTGGATAGAAGACTTCCAACAGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGA
R
GCCAAGGTGGGAGGATCACTTGAGCTCAGGAGTTCAAGACTAGCCTGGGCAACACAGCAAGACCCTGTCTCTAAAAAAAAAAAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV26169243
SNP Position Genomic:     131395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51910):
GGAGCTCCAAGCCGGTCCCTACATTCCGTGGTGTCAGAGCTCTGCGTCACCATCTCCCAGTACCTCCTGGCCCTGCCATCCTAGTCACAAGATGGCTGCC
M
CCGCTCCAAGCGCTACTCCCCCTTTTGTTTGGATAGAAGACTTCCAACAGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAAGCCAAGGTGG
Celera SNP ID:            hCV26169244
SNP Position Genomic:     131305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51911):
ATGCCTGAAATAGTAAGAGCATGACTTGCCTCTTAGAGCAGAAAGTCTGGAGGGAAGGAGCTCCAAGCCGGTCCCTACATTCCGTGGTGTCAGAGCTCTG
S
GTCACCATCTCCCAGTACCTCCTGGCCCTGCCATCCTAGTCACAAGATGGCTGCCACCGCTCCAAGCGCTACTCCCCCTTTTGTTTGGATAGAAGACTTC
Celera SNP ID:            hCV26169245
SNP Position Genomic:     131249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51912):
CAGGGACTCTCTTTCAGGTGGCAGGAGGTGGTTTTGGGAGGCAGGCCTGGGCTACAAGTCCTCCACCCATACTTCCACCCAAAGAAGGTGGGATTTTTTT
S
TGTAGACTTCCTGACCTGATAGCCTGAGTGAGTGATTGAAGCTTCCTGCTCACCAGTCTAATTAGAGACTGGAAGCCAAGTGTCTCCATGGTCTAGGGGC
Celera SNP ID:            hCV26169246
SNP Position Genomic:     130669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51913):
CTTAGAAAACGAGCTTGCCAATCTGCTGTATCTGAGAGAGAGCATCTTGGCACCCTGGAAAACTGTTCCGACAAAAATATTATTGCCTTCATTCTCCTAT
M
TATAAGAAAGTTTTCAAGATTATTAGAAATTCTTGAAAAAGCACAAGTACATGCCTGCAGAAATATTAATGCCTCCAATTTGATTTATTGAAGGTTTATG
Celera SNP ID:            hCV26169247
SNP Position Genomic:     126591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51914):
GTTGGCTAGCCTGGTCTTGAACTCCTGGCCTCAAGTGATCCACCTGCCTTGTCCTCCCGAAGTGCTGGGATTACAGGTGTGAGCAACTGCATCCGGCCGA
K
AATAAGACCTATTGCTCTGCTGGGTTTTTTTCCCCTTTGCAAAATTTTGAACATGTTTGATTTTGTTGATGGAGTATCTCAGACTCACTCAGCTTACGTT
Celera SNP ID:            hCV26169248
SNP Position Genomic:     126209
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,10)      total(G,3|T,10) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51915):
GATGCTCCTTCCTTAGTCTCCCTGTTAACATGACTTAGCCTGGCTGCTTTGCACCATCCTCCTACCAAATAACCTCCTCTGCTTCCTCAAACATCTACTC
Y
CTCCCACCTGAGTATGCCTCAGGCCTGCCTTGATCCCCACTGTCTATCTTTTTTTTTTTTTTTTCTTGAAACAGGGTCTCATTCTGTTGCCCAGGCTAGA
Celera SNP ID:            hCV3078772
SNP Position Genomic:     13706
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51916):
TGTTGATTCTCATTCACCATATGGGGCAAGGACTGTAGTTATCATGATGATTAGAGATGAGAAAATTAAGGCCCAGAGAGCTTCTGTTAGGTTCCATAGC
Y
GGAAAATAGCAGAGGATTTAGAACCTGGGTGGTCCAGCTCTACGACCTGAGCTTTTAGCCACCTTACAAGTCTATATTAAGGAGCCCTACCCTATTACTA
Celera SNP ID:            hCV3078773
SNP Position Genomic:     11550
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51917):
AGAAAGAGGGGAAAGCAATCATAGCTACTATCTACTGAATAGTTATTATGGCCAGGTTTTGTGTGAAGCAATTTACATGCCTTATTTTCTGTTGATTCTC
W
TTCACCATATGGGGCAAGGACTGTAGTTATCATGATGATTAGAGATGAGAAAATTAAGGCCCAGAGAGCTTCTGTTAGGTTCCATAGCTGGAAAATAGCA
Celera SNP ID:            hCV3078774
SNP Position Genomic:     11461
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,11)   total(A,11|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51918):
CATTGAGGGTAGTACGTTTTCCTGCAGTATTGGTCCACAGGACTCTAGATCATTCTAGTTTGTTCTCTAGTTCATTCTACCCTTTGTAGGGGGACATACC
R
CCTTCTTCCACGCCTACATAATTCTAAAGCCTGACATAATTTAACTGTCATGCAGACAACCACAGAATGCTCACATGCTGCCCAACAGAGAGCAACCCAA
Celera SNP ID:            hCV3078775
SNP Position Genomic:     11036
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51919):
ACAGCATTTCTTGCTGCTATTTATCAAGAACTCCCAGTGTGCTCAGAGCTGTGTGTTCTGAAAGACAGGGTCTGTACCCCCTGAGCTTGTCAGCCAAGTT
M
AATAATATACTCTGGTTCAAACAATAGCATGTCATGGCTGCACAGGTGGGAGCTTGGAGCTTTGCATTTTTTTTTCATTTAAGTAAATTCCTTGCTGCTA
Celera SNP ID:            hCV3078776
SNP Position Genomic:     9399
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|A,8)      total(A,8|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51920):
TGGGGCGCCTCAAGCTGTGCGAGGGCGCGGGCAGCCTGCACTTCGTGGACGCCTTTCTCTGGAACGGCAGCATCTACTTCCCCTACTACCCCTACAACTA
Y
ACGAGCGGCGCTGCCACCGGCTGGCCCAGCATGGCGCGCATCGCGCAGAGCACCGAGGTGCTGTTCCAGGGCCAGGCATCCCTCGACTGCGGCCACGGCC
Celera SNP ID:            hCV3078777
SNP Position Genomic:     7007
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51921):
TTTCTTAGCTTTGATCTCCTGTTTTAATCTTTTCTTTCCAATAGGTCTTCTACATTAAGTCCATTGAGCCACAGAAAGTATCGACATTAGGGAAAAGCAA
Y
GTGATAGTAACGGGAGCAAACTTTACCCGGGCATCGAACATCACAATGATCCTGAAAGGAACCAGTACCTGTGATAAGGATGTGTGAGTCGAAATACTAA
Celera SNP ID:            hCV15853379
SNP Position Genomic:     95032
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,7)   caucasian(C,39|T,1)   total(C,62|T,8)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:51922):
CTTCCTGCTCACCAGTCTAATTAGAGACTGGAAGCCAAGTGTCTCCATGGTCTAGGGGCCTCCCTCATGAACTACAGCTCTTTGCGACCCAATTCAAATG
Y
TGCCTCCTCCATGCAGCCTTCCTTGATTTCTCTGTTTGAAAACCCCCTGCCGACCTAAAAGAGGTACCTCTCTAAATCCCTAAAATGCTCCGTCTGTACC
Celera SNP ID:            hCV8173605
SNP Position Genomic:     130811
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51923):
CGTTTTTCATGCCAAAAAGTTAGCACAGATTCTGATTTCTTTCACCGTAGGAGTCTGCATACAATTAAATGGGAGGCAAAAGAAGCCCACTCTTAAGAGT
R
GGGCTTATGGTCCCAGTAGAATGGCAGGGAACTGTAGCCATCAAAGCCATTTATACTTCTTGTGGGTAGTATTTTTAAGATGTTGTTTCTTTTTCAAAAT
Celera SNP ID:            hCV3078779
SNP Position Genomic:     3324
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,18)   caucasian(A,1|G,39)   total(A,11|G,57)
SNP Type:                 hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,24)   caucasian(A,1|G,37)   total(A,9|G,61)   
SNP Type:                 hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;JBIC-allele(A,469|G,1026)   total(G,1026|A,469)
SNP Type:                 hmCS


Context             (SEQ ID NO:51924):
AGGTGCGGTGAACAAACTGATTCTGTGTGTCCTTGTGTGCTGGGGAGGCGGGAGGTTGGGGGCAGATTCTTTCAAGGAAAGGAAAGTCGGAAATCAAGAG
Y
ATCCTCACGAACCACTTGAAATGACAGAACCTGGTGCCAAGGCAGGGACACGTTTGGAAAAAAGGCCCCCACACTCGTGTTCAGCTAAATGCTCAGAAGC
Celera SNP ID:            hCV8173606
SNP Position Genomic:     125366
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51925):
TGTTTCTTTCACACCCAGTGACCGCTTTGCTTATATGCACTGAGAAACGTGAAGTTATTTGGCCTGGTTTTAGAGAGATGGAATGCAGCTGTTATTTATA
Y
GGCGTACCAAATAGGAATTTACACTTTGCATGTCATCTGTAATTCTACCTTGCCCAAAGTGTTTCCTGTCTCTCTAAATAACATACCATTGGTAGGTTAG
Celera SNP ID:            hCV27965480
SNP Position Genomic:     100734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51926):
CAATCATAGCTCACTGTAACCTGGAACTCCTGGACTCAAGTGATCCACCTGTCTCAGCCTCCTAAATAGGTGGGACAACAGGTGTGTGCCACACATCTGG
S
TGATTTTTTATCTCTGTAGAGATGGGGGTCTTGCTATGTTGCCCAGGCTGGTCTCCAACTCTTGGCCTCAAGCGATCCTCTCGCCTCAGTTACCTATACT
Celera SNP ID:            hCV26169320
SNP Position Genomic:     24207
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51927):
TGATTGTCATTTCTTAAACAGTGACTTCCTTTTGGTTCCAAGTAGCAGAAAACGCAACCAACAGTGGCTTAAACCATGACAACTATTGTTAACTTAGTAA
M
ATGTTTAAAAGTTGAAGGTCTGCGGCTCAGTGGTGTCTCCAGGAACATAGAATCTCTTTTCTTTCCCCTGCACCAATCTTAGCATGTTGCTTTGTATCCT
Celera SNP ID:            hCV26169321
SNP Position Genomic:     22983
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51928):
AATGATTTATTGGCCTCATACCCCAGTGTTGCTGCATGGTGGTAATAAATGACAAGCCTAGGACATGAAGGCTTAAAGGATTCTCCTTATGTTTAAAAAG
Y
TAAGCCATAAGGCAAATAAACCAGAGAGCCTGAAGGAAACGGGAGGTCATTGGGCTCCATGTTCTCTATGCCTGGACCATCTCAAAAGCCCTGTTTTTTA
Celera SNP ID:            hCV15872035
SNP Position Genomic:     143568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51929):
GCTGGGACCACAGGCGGGTGCTATCACGCCCAGCTAATTGGAATAAAATCATTTCTTAAACAATATGGTTCCTGGAGGAGAGACACTGGAAACTTTCTTT
Y
TTTTTTTTTTTTTTTTTTAAACAGAGTCTCACCCTGTCACCTAGACTGGAGTGCAGTGGCATGATCATAGCTTATTGCGGCCTCAAACTCTTGGGTTCAA
Celera SNP ID:            hCV26169322
SNP Position Genomic:     13986
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51930):
CCAGGCCCTGTGTCAGGCCCCACACATCCCTGTTTGGGCTATATGTGCACTGAGGGGAGTAGCCAGGTCTGGCTCATCTTTCTTTCCCAGGCATCTATCA
R
GTTGGCTAACACATGGTGAGTGAGCCCTCAGTAAGTGTTTCTAGAACTGGAAAAAAGGTACTCTTCATCTGGTGGAGAAGATAGTGATTATAGCATGGTG
Celera SNP ID:            hCV27906761
SNP Position Genomic:     17504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51931):
ATGAAGGCTTAAAGGATTCTCCTTATGTTTAAAAAGCTAAGCCATAAGGCAAATAAACCAGAGAGCCTGAAGGAAACGGGAGGTCATTGGGCTCCATGTT
Y
TCTATGCCTGGACCATCTCAAAAGCCCTGTTTTTTAAAGGCTGCTTGGAGAAAATCATCCCCCACCACCCTCAGCCACCTACATCTATATTTGATTAAGC
Celera SNP ID:            hCV15872036
SNP Position Genomic:     143632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51932):
CCAAATAACCTCCTCTGCTTCCTCAAACATCTACTCCCTCCCACCTGAGTATGCCTCAGGCCTGCCTTGATCCCCACTGTCTATCTTTTTTTTTTTTTTT
T
CTTGAAACAGGGTCTCATTCTGTTGCCCAGGCTAGAGTGCAGTGGCACAATCTCGGCTCACTGCAACTACCTCCTCCTGGATTCAAGCGATTCTCCTGCC
Celera SNP ID:            hCV26169323
SNP Position Genomic:     13770
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51933):
TTAAGTTACCAGTTCAAAGTAGTGCAGCTACTTAAAGGATGGAGGCAGGATGCAAACTCAAGCTTAAGCCACCATTATACTTCTCTAGCACTATAGGATT
Y
GAGTCTCCCGATGGCTCTTCATACCCACACTTCAAACCCTGCCTTCTTACCATCTCCTCTTGCTCCTTGACCCAAAGCCCTGCCATGGCCTCCTCTCTCT
Celera SNP ID:            hCV27906762
SNP Position Genomic:     37313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51934):
ACAGCATGCTAAGAGCTTTACCTATCTTTTCTCATTTCATCCCCTTAAGGGTCCTGTGAGCTAAGTGTCTTCATGACCATTTTGTATATGGGGGAACTGG
M
ACACAGAAGAGCTGTGACTCTCCCCAGATCTCACTGCTACTGTGGGACAGCACCAGGGTCCGAGAGCTCTTAGCCACCGCCCTGTGCCCTGAAAAGATGG
Celera SNP ID:            hCV26169251
SNP Position Genomic:     120245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51935):
CTCTTCCCAGGTACTTCCATTCATTGGAATACCAGGCTTCTGGTGTTGCCAATCTGAGAGTTACTTTTGACCATGGAAACCTAGCATGGTTGGAACTTCT
R
TGGTGTAATTTTTGATTGCCTTTCAACTATGAGAGGAAAGGGCTTTATGCTGTAGGCAGTGGTCCTTAAAGTGTGGACTGTGGCCCAGCAGCATGAATAT
Celera SNP ID:            hCV26169324
SNP Position Genomic:     12475
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51936):
GGAGGCCGAGGCGGGTGGATCACTTGAGGTCAGGAGTTAGGGACCAGCCTGGCCAACATGGTGAAACCCCGTCTGTACTAAAAATACACAATTAGCCAGG
S
ATGGTGGCGTGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAGAATTGCTTGAACCCGAGATCAAGACCATCCTGGCTAACACAGTGAAACCCC
Celera SNP ID:            hCV26169252
SNP Position Genomic:     114945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51937):
GCTGGGTGTGGTGGCGCATGTCTGTAGTCCCAGCTATTCAGGAGGCTGAGGCAAGAGAATGGCTTGAACCTGGGAAGCAGAGGTTGCAGTGAGCCAAGAT
Y
GCACCACTGCACTCCAGTCTGGGCGACTGAGTAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAATGACATGGTCCCTGCGCAAAAGGAGCTTGCAATC
Celera SNP ID:            hCV26169325
SNP Position Genomic:     36973
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51938):
TTCTTATCTTCTAAATTTGGTAATCAAGAACAAGATAGAGTAATGAATGTAAAGGAACACTGTTGCAAGTTGAGTGTTTCCAAAAAAAAAAAAAAAAAAA
A
GATCCCAGGAACAATGCTACCTTATTTTAGGAGAAGAGAGATAGTTGCAAAGGAGGCAAACTGATTTAACTCAGTGTTGTGTATAATCTTGAAAAACAAC
Celera SNP ID:            hCV26169253
SNP Position Genomic:     114176
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51939):
AAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCGCATGTCTGTAGTCCCAGCTATTCAGGAG
K
CTGAGGCAAGAGAATGGCTTGAACCTGGGAAGCAGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGTCTGGGCGACTGAGTAAGACTCCATCT
Celera SNP ID:            hCV26169326
SNP Position Genomic:     36917
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51940):
GTTCTTATCTTCTAAATTTGGTAATCAAGAACAAGATAGAGTAATGAATGTAAAGGAACACTGTTGCAAGTTGAGTGTTTCCAAAAAAAAAAAAAAAAAA
A
AGATCCCAGGAACAATGCTACCTTATTTTAGGAGAAGAGAGATAGTTGCAAAGGAGGCAAACTGATTTAACTCAGTGTTGTGTATAATCTTGAAAAACAA
Celera SNP ID:            hCV26169254
SNP Position Genomic:     114175
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51941):
GCATAAGTCCAGGAGTTTGAGGTTACAGTGAGTTATGATCGTGCCACTGCATGCCAGCCTGGACAACAGAATGAGGCCCTGTGTCTAAAAAGTAAATGAT
K
TTTTTTAATAGAAGTGTGATCTATGTCATCTCTTAAAGTGGTCCCGGGCCCATCCACACACAGTGAGCCCATGGTGGTTGCTCATTGGCCAAATCTGGTC
Celera SNP ID:            hCV26169256
SNP Position Genomic:     109758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51942):
AATGGGGTTAATAATAAGTTTTATTTGTTTTTTTAGACAGAGTCTCACTTTGTTACCCAGGCAGGAGTACAGTGGCACGATCTTGGCTTACAGCAACCTC
Y
GCTTCCCAGTTTTAAGCAATTCTCATGCCTCAGTCACCCAAGTAGCTGGGATTACAGGTGCGCACCACCACACCTGGCTAGTTTTTTCTATTTTTAGTAG
Celera SNP ID:            hCV26169257
SNP Position Genomic:     106630
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51943):
GAAACCCCATCTCTACTAAAAAAAATTAGCTGGGTGTGGTGCATCTATAGTCCCAGCTACTTGGGAGGCTGAGGCAGTGGAATTGCTTGAACCTGGGAGG
Y
GGAGGTTGCAGTGAGCCAAGATCATGCCAATGCATTCCAGCCTGGCGACAGAGCGAGATTCCGTCTCAAAAAAAAAAAAAAGTATTAAATAGAAATCATG
Celera SNP ID:            hCV25760911
SNP Position Genomic:     38597
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,3)   caucasian(C,24|T,4)   total(C,45|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:51944):
TTTAATTTCCAGTCTCTCTTGAGACAGCACTAATGAAGCTGTCACTTGTGGCTTCCTATAGGGCCAGACATGGTCAGAAATTGTGGTCAGCCAGCTTCCA
Y
ATATGAGGATACTACCCCAGCCCTGAAGAGCGGCTTTTTTTGTTTGTTCATTTTTGGTAACTTTGCCTTTACAAAAGAAGAAATATTATGCTTGTTATTA
Celera SNP ID:            hCV29016877
SNP Position Genomic:     38153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51945):
CTCTGTATCTCTGTCCTAATCTCCCCAATTTTTTTTTTTTTTTTTTTTTTTTTTGTGACAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAAT
Y
TTGGCTCACTGCAACCTCCGCCTCCCAGATTCAAGTGATTCTCCTGCCTCAGCCTCTCTAGTAGCTGGGATAATCTCCCCTTTTTATAAGGACATCGGTC
Celera SNP ID:            hCV26169258
SNP Position Genomic:     99687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51946):
TATTTATGCATCTTGAAACCCATGAATTTGTGGCTGGTATCCTGAAAAGATTCCCAAAATTGTCCTGTATTTGAAATTAAAATTCATTAATTTGCTCTCA
R
ACATAATTGGGTTTAATATTAAACATGAATAAATTGATAGCTTTGTTCATAAATGCAAAATGCCTGTGTGTTAGCTATGAAACCCTTATTGTTGCTTTTA
Celera SNP ID:            hCV25761641
SNP Position Genomic:     101139
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,38)   total(A,72|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:51947):
GGGACGCTTGTTTGGGGCTGAGTCTCCTCGCGCAGCCCCTCTTTCCCATTCGCTTCTCCAGACTTCTCTGTGCCCCTTCCGTGTAGTCCCAGCAGGCGTG
K
GGGTCTGACCCTCTTGGTCAACAGTTAGCAACACAGTGCCCTCGGCAGAGAAGCCATTGAACCTAAAGGGCTCCCTGCCACACCCCAGCCTTTGTGGCCC
Celera SNP ID:            hCV29016878
SNP Position Genomic:     7709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51948):
CATCTTCTCTCTATGTCTTCACGTGGTCTTCCCTCTGTATCTCTGTCCTAATCTCCCCAATTTTTTTTTTTTTTTTTTTTTTTTTTGTGACAGTCTCACT
Y
TGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAACCTCCGCCTCCCAGATTCAAGTGATTCTCCTGCCTCAGCCTCTCTAGTAGCTGG
Celera SNP ID:            hCV26169259
SNP Position Genomic:     99655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51949):
CCTTGACTGGAAAGGTGTGTTTATGCTCGTGAGTTTCTACATGTGCTCTGATTTCTCCATCTTCATTTTGTTCTTTACAGAAAGAAAATGACAACTTCAA
Y
ATTTCCAAAAAAGACATTGAAATTACTCTCTTCCATGGGGAAAATGGGCAATTAAATTGCAGTTTTGAAAATATTACTAGAAATCAAGATCTTACCACCA
Celera SNP ID:            hCV15853389
SNP Position Genomic:     105559
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,38|T,2)   total(C,67|T,3)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36|T,2)   total(C,71|T,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51950):
GAAGGCTTAAAGGATTCTCCTTATGTTTAAAAAGCTAAGCCATAAGGCAAATAAACCAGAGAGCCTGAAGGAAACGGGAGGTCATTGGGCTCCATGTTCT
Y
TATGCCTGGACCATCTCAAAAGCCCTGTTTTTTAAAGGCTGCTTGGAGAAAATCATCCCCCACCACCCTCAGCCACCTACATCTATATTTGATTAAGCAG
Celera SNP ID:            hCV15872046
SNP Position Genomic:     143634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51951):
CACCCTTCCCAGCCTCTGATACCCATAATTCTACTCTCTATCTCCATTAGACCAACTTTCTCAGCTCCCACATATGGGTGAGAACCTGCAATATTTGTCT
K
TCTGTGCCTGGCTTATTTCACTTAACATAATGTCCTGCAGTTCCATCTGTGTTGTTGCAAATGACAGGATCTCATTCTTTTTTGTATGCTGAATAATACT
Celera SNP ID:            hCV26169260
SNP Position Genomic:     98933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,3)      total(G,1|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51952):
TCTCCTTATGTTTAAAAAGCTAAGCCATAAGGCAAATAAACCAGAGAGCCTGAAGGAAACGGGAGGTCATTGGGCTCCATGTTCTCTATGCCTGGACCAT
Y
TCAAAAGCCCTGTTTTTTAAAGGCTGCTTGGAGAAAATCATCCCCCACCACCCTCAGCCACCTACATCTATATTTGATTAAGCAGCGCCTCCGCAGACTC
Celera SNP ID:            hCV15872047
SNP Position Genomic:     143649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51953):
CTTGTACATGTTTATGGGACACGTGATGTTTTTTCTATGATCATACAGTGAATATGTAATCATCAAATCAGGGTAATTGGAGTATCCATCACCTCAAGCA
Y
TTATCATTTCTTTCTGTTAGGAACATTCCAATTCCACTCTTCTAGCTATTTTTAAATATGCAATAAATTATTGTGAGTTATAGACACCCTACTATGCTAC
Celera SNP ID:            hCV26169261
SNP Position Genomic:     98649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51954):
ATTGGGCTCCATGTTCTCTATGCCTGGACCATCTCAAAAGCCCTGTTTTTTAAAGGCTGCTTGGAGAAAATCATCCCCCACCACCCTCAGCCACCTACAT
Y
TATATTTGATTAAGCAGCGCCTCCGCAGACTCAACATTTGGGAGTAATTTGACAGGGCTGGGCTGAAGTTTGCTTTTACCCTTTTGTTAAAGAAAAAATT
Celera SNP ID:            hCV15872048
SNP Position Genomic:     143717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51955):
TTGATCCTGTGATAAGGACTTAGCAAAACAACTTGCAAAGTGAGTATGTAAATGATGGAAGAAAATGTTGGCATCTGTTTCATACAGATTTTACCACTCA
Y
AGCATCAGGTATGCAAAAAACAGAATTGTAACGCTAAAACCACAATATCTAAAATAACTGTTCTAATTGTCAACAGATTCTAAATAAACTAGAAAGAGAA
Celera SNP ID:            hCV22275516
SNP Position Genomic:     162411
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,17)   caucasian(C,5|T,9)   total(C,18|T,26)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51956):
TCTTTCCCAAACTCATCACATCGGTGAAACTTGGAGAAAGACTTTTCAATTTCTACCGATGTCCTTGTGCAAATGGTTACTCCCCCTTCGAAAAAAAAAA
A
GTGATGTGATAACTGCAGTTATTAAATAACACAACAGATTATTTGAGTTTTCTGCTTGTTAACTCATATAAGTTTGGGCTAATTTGAAGTAAAAGATGTT
Celera SNP ID:            hCV26169263
SNP Position Genomic:     95811
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,9)   total(A,3|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51957):
TCACCAAACGTCATGTGATTAAGCATCTCTGGACTTTGGGGTCATTTTCAAATATCAAGACTGAGTATATTCTGCGATGGTAGAGGATATAGGGGAAAAA
A
GAGTGTGAGTATGATGTTCACTCTTGCTGAAGTTCTGCTGGACTTTATATTGGGTAGAATCTTAGAATCTTATGTCCTGTTTTGGTCACCGTATTATAGA
Celera SNP ID:            hCV26169264
SNP Position Genomic:     93973
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51958):
GCTGCAGCTACTCCACTCGACTGCTGCAGTGCAACAGCAGCCAGAGACACTACCCAGACGAATATTTATGGGTGCTGAAATTTGAATTTCATGTGTTTTT
W
TATGTCATGAAATATTATTCTTCTTTTGACATTTTGTCATGGCCCATACAAAAGCAGGTAGCGGGCAGGATCTGGCCCACAGACTATAGTTTGCCAACTC
Celera SNP ID:            hCV26169265
SNP Position Genomic:     93084
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,8)   total(A,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51959):
CTGCTCTCTGTCCCTATCTGTTTTGTTTTTGTTTTTGTTTTTAAGAACTGTAAAGATTGCTATTTGTTTTCATTTTTGGTTTTTGAGTTACCATGTCCCT
C
TGATGCAGCATCTCTGTCTCTTAGCGGCCGTGGGGGTGACCAGGCACAAATCGAAGGAGCTGAGTCGCAAACAGAGTCAACAACTAGAATTGCTGGAAAG
Celera SNP ID:            hCV11165254
SNP Position Genomic:     112074
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,8)   total(C,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51960):
CTCACCTATAAAATATGCCTCTAAAGTATTTGAGATCACTTTGTAAAGCTAGTTGGTTGCTTTTAGCGCCTCCATCCGTTGCACCCAACCCTTCACCTGC
Y
GTTTTCTGAATATCTTACATATTCTGAACGGGCAAACAAATTTGCTTCCCAGCCTCTTGTACTCAGCCAGCCGGTGACCATTGCCAAGCCTTTATCCATG
Celera SNP ID:            hCV26169266
SNP Position Genomic:     79582
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51961):
TGAAGTTTGTTTCCTTTAACTTATCCTCCAAGAGTACCGAGGCACCGAGATCTACCATTTGCCACCTCATCCATTTCTATGGCAGAACACCGCCTGGGGA
R
AGGAATTCGATTCCCCGAATCAGGATGACTGTGTGGGGCTTCTGCAAAGGTTGCATCACGAGTCCTATTTCTGAGCTATCTGAGATCCCCATTAAGAATT
Celera SNP ID:            hCV11165255
SNP Position Genomic:     113861
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;JBIC-allele(A,618|G,877)   total(G,877|A,618)
SNP Type:                 INTRON


Context             (SEQ ID NO:51962):
ATTGTCTTGGAAAACCCATTGTGGGTCTACTTTCTAACTTTAAACTTATATATGATTTTGTATTATACTATATATTTTTTTCTTTTTATCAGAACAGAGA
Y
GCCAACGACAAGAATGAAAGTCTCACAGCTTTGGATGCCCTAATCTGTAATAAAAGCTTTCTTGTTACTGTCATCCACACCCTTGAAAAGCAGAAGAACT
Celera SNP ID:            hCV15853390
SNP Position Genomic:     116930
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,2)   total(C,28|T,4)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51963):
AGAAAAATGGTCAAAGAATAAGAATATGCTCTTTACAGAAGAGCAAACCAAATAGCCAACAAAACATCTATTCTTTTATATTTTTATTTATTTATTTATT
K
ATTTATTTATTTATTTATTTATTTATGGAGGCAGTGTCTTGCTCTGTCACCCAGAAACATCTATTCTTTACATCAGCTCTTCTGAGAAATTCTCCCTCCT
Celera SNP ID:            hCV26169267
SNP Position Genomic:     77134
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4|-,7)   total(G,4|-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51964):
CCACATCTTCACTGAAGATATGCATGTAAGTCTCTACGTTTTCATTTTTAGCCCAGTGACTGCCTGATGTTCATAGTGTTATCATCATCACTATCATCTC
Y
ATTATTATTACTTTGAATTTTTATTGTGGGTTTTTTTTGGATCATGAATTCAATATTGAATAATTCATTGTCTTGGAAAACCCATTGTGGGTCTACTTTC
Celera SNP ID:            hCV11165256
SNP Position Genomic:     116763
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,21|T,17)   total(C,50|T,24)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51965):
ATCGCTTAAATCTGGGAGGTGAAGGTTGCAGTGAACCAAGATCGTGCCATTGCGCTCTAGCCTGGCTGACAAGAGCAAAACTGTGTCTCAAAAAAAAAAA
A
GAGTTAACTAAAGCACACACTTCAGGAAAATATTTGCCACTAACAAAATATTCATCATAATGTAATAACACTAAGAAAAATTAAAAAGAAAAACATCAAT
Celera SNP ID:            hCV26169268
SNP Position Genomic:     73592
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51966):
GGGTCGCTGTTTTAACTAACACACGTATGGGGTCGCTGTTTTGTTGCCTCGTTTTTTTAGGTGCACTTTTCAAGGAGATTGTGTACATTCAGAGAACTTA
S
AAAACTGGCTGGATATTTCGTCTGGAGCAAAAAAGTGCCCTAAAATTCAGATAATTCGAAGCAGTAAAGAAAAGGTAAGAGGAAAGATTTTAATTTGTCC
Celera SNP ID:            hCV25761656
SNP Position Genomic:     66943
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,39)   total(C,1|G,77)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:51967):
GGGAGGCTGAGGCAGTGGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCAATGCATTCCAGCCTGGCGACAGAGCGAGATTC
Y
GTCTCAAAAAAAAAAAAAAGTATTAAATAGAAATCATGTTTCTCTTTTTGAAAAAAAAAAATAGGTTATTCTTGGTGAGAATTTGACTTCAAATTGTCCA
Celera SNP ID:            hCV1704937
SNP Position Genomic:     38659
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,5)   caucasian(C,13|T,11)   total(C,34|T,16)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51968):
CAAAATGCCTTTTGAAGCATGGTGTAATGGGAGATAGGAGAGCCACCGAGCTAATAAGCTCCGCTCGCACATTCTAGCCCTGACTAGTAAGCTGGCGCTG
Y
GAGGGAGAGAAATCCCCTGTGCTTAAGTGTTCATACCCACAGGGAAATATGTCTTCCCAGGACCGAGAGGCAGCCTTGAAGTAAGTAAAGAAGAAGGGAC
Celera SNP ID:            hCV22275520
SNP Position Genomic:     81832
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,12)   caucasian(C,6|T,2)   total(C,22|T,14)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,14)   caucasian(C,33|T,7)   total(C,55|T,21)
SNP Type:                 INTRON


Context             (SEQ ID NO:51969):
CTTGGAATGGCTGTGACATAATGCATAAAGCAGGGCCTAGGAAGCCTGGCCCCATATTTGTAAGCAAATAGTTGGTATTTCTTGCGAGCTTCTATTTTAA
S
CCAAGGTATTGTTGATCCTGTGATAAGGACTTAGCAAAACAACTTGCAAAGTGAGTATGTAAATGATGGAAGAAAATGTTGGCATCTGTTTCATACAGAT
Celera SNP ID:            hCV27906853
SNP Position Genomic:     162299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51970):
TATTTTGGAAAAAAAAAAGAAGTCAATTTAGGCAAGACCACTCCCATTAGATTGCAAACATAGATGATAGATAGATAGATAGATAGATAGATAGATAGAT
D
TCAAAAATAATTTAATCCATGATTCTGGTTTAAAAATAGGAATATAGATTCATAGAATATAGTGGAAAGCTCAGAAATAGATGTAAAAATTTTAAAGAAC
Celera SNP ID:            hCV26169270
SNP Position Genomic:     72904
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|T,1|-,8)   total(G,1|A,1|-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51971):
TTACAGGCACATGCCACCACGCCCGGCTAATTGGAATAAAAGTATTCCTTAAACAATATGGTTCCTAGAGGAGAGACACTAGAAACTTTTTTTTTTTTTT
T
GACAGGGTCTCCCTCTGTCATCTAGGCTGGAGTGCAGAGACGTGATCATAATTTACTGCAGCCTCGAACCCCTGGGCTCAAAGGATCCTCCCACCTCAGC
Celera SNP ID:            hCV26169272
SNP Position Genomic:     71416
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51972):
TTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTTGTATCAGGTGTAAGGAAGGGATCCAGTTTCCGCTTTCTACATTTT
K
TTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGTTCTAGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATT
Celera SNP ID:            hCV26169273
SNP Position Genomic:     71185
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51973):
ATAGGTATACATGTGCCATGTTGGTTTGCTGCACCCATCAGCTCGTCATTTACATTAGGTATTTCTCCTAATGTTATCCCTCCCCCAGCCCCCCACCCCC
Y
GGCAGGCCCCGGTGTGTGATGTTCCCCGCCCTGTGACCAAGTGATCTCATTGTTCAGTTCCCACCTGTGAGTGAGAACATGTGGTGTTTGGTTTTCTGTC
Celera SNP ID:            hCV26169274
SNP Position Genomic:     69801
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51974):
TCCTTACCAGTCAATACTCTCACCATCCCCACTTTATAAATGAAAAAACCTGAGGCCTCGAGAGGTTAGGTATCTTTTTCAAGGTGCTCTGAACCAAAAT
M
ATCTGTCCCAGAGCCCGAGCTTCTATCCCCCAACTAAACTGCATTAACTCTTACAGAGCTTAGTAGAGTTTGAGAGCTGGTTTTTGTTATATTTCTTTCT
Celera SNP ID:            hCV29016894
SNP Position Genomic:     30918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51975):
CTAATGTTGTAGAAATACATATTGCTTTTGAAAATAAAGAAAAAAGAGGTTCAGATTCATGGTCAACGAGATACCTTAAAGGTGGCTTAATTGCAGAATT
T
GTTTAGTGTAATGGTCCCTTATCCTAATGTGTTGAGGCTTCCCCAGTAACCATCTTATGAACATAGCTTCCAACAGTCTTGGTAGCGATGGAGAGAAGAC
Celera SNP ID:            hCV26169275
SNP Position Genomic:     67413
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51976):
AATGGATTTCTAAGTCCAGGGCCGCCTGAAATTTTAACCTCTTGCTAGTTGTGTGGTTGTGTTGTATTCACAGCTAGTGATAGAGGAAAATTAGAGGCCT
Y
TCAGAATGCCCACTTCTGTGTTCTCCCCCAAATCCTTGCTAACCGCTTCATCCTACAGTCTCTGCCTTACCTTCTGTCTTCTCTGTTTCTGGGGTCCCCA
Celera SNP ID:            hCV26169276
SNP Position Genomic:     62995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51977):
CACCAACTTTTAGTACACTCATTGCCCACAAAAGAACCACATGGAGCAAAGGCCACAAACCCATTTTGTGTGAGTGTTTCAGTCTGCAAATGTGTTTTTT
R
TGTGCTAAATAGCTCAAAGTTTCAAGACAAAGGCTGTTTTTCCACCACGCCAGTGAACAGGCCAACCTAGTGAACAAAAATCAATGAAATGACTTCTGCT
Celera SNP ID:            hCV26169277
SNP Position Genomic:     58183
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51978):
TAGCCGTGTGACACACCTGTTCTCCCTTCGCTTCCAGCATGATTGGAAGCTTCCTGAGCCCCTCACCAGGAGCAGACACTACCCATGCTTCCTGTACAGC
S
TGTAAAATCATGAGCCAATTAAACCCCTTTTCTTTATAAATTATCCAGTCTCAGGTATTTCTTCATAGCTATGCAAAAAATGGACTAACACAGGGTCACA
Celera SNP ID:            hCV26169278
SNP Position Genomic:     53838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51979):
CCCTCACTGGGAAATTTTCTTATAAGATCCAGCTTTTTAATGCTATTTTCTAGTTTCATTCTAGCTCCTGCTCTCTGTCCCTATCTGTTTTGTTTTTGTT
K
TTGTTTTTAAGAACTGTAAAGATTGCTATTTGTTTTCATTTTTGGTTTTTGAGTTACCATGTCCCTCTGATGCAGCATCTCTGTCTCTTAGCGGCCGTGG
Celera SNP ID:            hCV25762536
SNP Position Genomic:     112007
SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,33)   caucasian(T,34)   total(G,5|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:51980):
TGCTGGGAGGGGTCGGGTCATGGGAACGGATCCCTCATGAATGGCTTGGTGCTGTCCTTGGCAATAGTGAGCGAGTTCTCACTCTGAGTTCACAGGAGAT
S
TGGTTGTTTAAGAGAGTGTGGCACCTGCCCCCTCACAGTCTTGCTCCCACCCTAGCCGTGTGACACACCTGTTCTCCCTTCGCTTCCAGCATGATTGGAA
Celera SNP ID:            hCV26169279
SNP Position Genomic:     53685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51981):
CTACGCTTCCTTACCGGGCTGTTTCCGTCAGAGTCACTGGCAGACAAACGAAGCAAGGGCCAGAAAAATGCTCATGAATAATTCACTGATCACGAACGGG
R
TTTGTTTGTTGCACACTCAGTGAGCAGTCTTGCCATAATCTTTTAGATCCATTCATTTATGTAGCATCCCTGTCTGTATTTGTAGAGCTGTGTACAGGAG
Celera SNP ID:            hCV1704940
SNP Position Genomic:     44934
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51982):
AATCCTGTTCGGAGTGTTTAACAGCCACAGACCCTCACTGCGGTTGGTGCCATTCGCTACAAAGGTATCTCCTGAATTCTTTCTCACCAACTCGCATTTT
Y
GAAAAAGTGTCATGCGGCAGAACACTTGTTGCCCTACTTTAACGATCCATTCCAGTGACCTGAGGGAACTGATCTCTTCCTCGACTAAAATCTTGTTGTG
Celera SNP ID:            hCV22274585
SNP Position Genomic:     43833
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,21)   caucasian(C,8|T,28)   total(C,19|T,49)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,258|T,1239)   total(C,258|T,1239) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51983):
AAGGAAAGAAAGGAGGAGGAAGTGATCCACTGGGTCAGATTCAGCTGAGAGGTCAAGCAGGAGAAGAAAAGAATGGATCCTTTGCACTTAGCAGGTGACA
R
TGGGTGACTGCTGGGAATGCCATGGTTAGGAGTGGCGCTAAATCCACAAGAGACAATGGGAAAATAAGACCTTAAGAAGGGACAGCTTAGAGAAGCTTTA
Celera SNP ID:            hCV1704941
SNP Position Genomic:     45469
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51984):
TATCTTCTCTGGAGAAATGTCTAATCAAGTCCTTTGCCCATTTTTAAAATTGGGTTATTTTTGTTGTTGTTGAGTTGTAGGAGTTCTTTATGTATTCTGG
R
TATCAACCCCCTATCAGATATATCATTTGCAAATATTTTCTACCATTCCATAGGTTTCCTTTTCATTCCGTTGACTGTGTCCTGTAATACACAGAGTTTT
Celera SNP ID:            hCV1704949
SNP Position Genomic:     86610
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51985):
CATCTCTACAAAAATAAAAATAAAAATCTTAGCCAGGTGTAGTGGCACATATTTGTAGTCCAACTGCTTGGGAGTCTGAGACAGGGAGATCGCTTGAGCC
Y
GGGAGTTAAAATCCAGCCTGAACAACGTAACACGACCCTGTCTCTTGAGAAAAATTATCATTGACTTGGTTCTTTTTGTAAGACCAATTACCAAGCGCTG
Celera SNP ID:            hCV15777710
SNP Position Genomic:     16003
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51986):
ATTAATACAGGGCTAACGTCCTTCACAAAGTGATTAAAATAAATTCTGCTACCAAAATCAATTCTGTGTCATGTTACATCATTGCTGTGATGACATTAAC
R
ATGAATTTACCTCAATCTGCAAAACCAGTCCAAAGCGCTGATGAGTGATGGGGACGACTGTGCCGTGTAGCACCTGTGTGTGCTGGGGAGCAGAATGAGA
Celera SNP ID:            hCV15777711
SNP Position Genomic:     93565
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51987):
TTATCTTGCTCTCCTGTCTTGAGGGTTCTTCTCCAAGTGACACTCCTTCCTCAAGCCCCCCAGGCCTATCATTAACCTGCTGGGATCCTTCCCACCAGGA
S
TGTGATTGCCCTGAAACTTGACCAGTATAATCCATGGTGCACAGTAATTTATGGCCATATTCTTCAGTAGCCTGAGTTAGTCTGTTCTGTCATCATGAGA
Celera SNP ID:            hCV26169280
SNP Position Genomic:     53385
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51988):
CATCTGAATGCTAAACATATTTGTCCCCAACACCCCAGAGTAACAAATGAAAAGAATTACATGAGTTGCTTGTGGACACGTCCCAGCTCCTTTTTTTATC
K
TGCTCTCCTGTCTTGAGGGTTCTTCTCCAAGTGACACTCCTTCCTCAAGCCCCCCAGGCCTATCATTAACCTGCTGGGATCCTTCCCACCAGGACTGTGA
Celera SNP ID:            hCV26169281
SNP Position Genomic:     53290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51989):
GGATTCAGAAATAAATTACACATAATAAACTAGACAGAATAGGCTGAGAGCAACATTAGCGATTATGCCCTAAGGGGAGAGAAGGGCAAGATAGAAAATA
K
GCCCGAAAAAAAGAGAGAAAGAATAATCTCTGGACACAGGGGGCTGACTGCACTGTTTCCCCCTTCTTCTGCCTGGCTCCCTGGGTATTAACCTCACTTT
Celera SNP ID:            hCV11490007
SNP Position Genomic:     22436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51990):
GGGAATAACAGAAGGGTATTTTTAACACATGAGAGAAAACTGCCATCTGAATGCTAAACATATTTGTCCCCAACACCCCAGAGTAACAAATGAAAAGAAT
Y
ACATGAGTTGCTTGTGGACACGTCCCAGCTCCTTTTTTTATCTTGCTCTCCTGTCTTGAGGGTTCTTCTCCAAGTGACACTCCTTCCTCAAGCCCCCCAG
Celera SNP ID:            hCV26169282
SNP Position Genomic:     53247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51991):
GAGGCTGGGATTCAGAAATAAATTACACATAATAAACTAGACAGAATAGGCTGAGAGCAACATTAGCGATTATGCCCTAAGGGGAGAGAAGGGCAAGATA
K
AAAATAGGCCCGAAAAAAAGAGAGAAAGAATAATCTCTGGACACAGGGGGCTGACTGCACTGTTTCCCCCTTCTTCTGCCTGGCTCCCTGGGTATTAACC
Celera SNP ID:            hCV11490008
SNP Position Genomic:     22429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:51992):
AGTCTTCCTATCAGACTTTCTGAAGGGTTGGGAATAACAGAAGGGTATTTTTAACACATGAGAGAAAACTGCCATCTGAATGCTAAACATATTTGTCCCC
M
ACACCCCAGAGTAACAAATGAAAAGAATTACATGAGTTGCTTGTGGACACGTCCCAGCTCCTTTTTTTATCTTGCTCTCCTGTCTTGAGGGTTCTTCTCC
Celera SNP ID:            hCV26169283
SNP Position Genomic:     53218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51993):
AGGCTGAGGCAGTAGAATCACTTGAACCCAGGAGACGGAGGTTGCAGTGAGCCAAGATCCAGCCTGGGTGACAGAGTGAAACTCCATCTCAAAAAAAAAA
A
GGGAATAGGCATCTAGTATAAGTAGATAAAAAGCAATTAGATAAACAATGAGCTCTAAAAAGTCTAGTATTTTATTGTTGGAACCTCAGATCCAACCTGT
Celera SNP ID:            hCV26169284
SNP Position Genomic:     49102
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:51994):
TCTGGAACCATCTCAGCCCCGGTCAGCTGTGTGTCCCTGGGCATGGCTTTTTCCATCTGGGCATCTGTTTTCAATCCACCAAATGACAGGCGTGTGTGGG
C
GTTGCCTTTAAATCCCTTTCCAGCTCTTTCTACTGGATCTTGTGATTCTTAACTCTGAGCTTTCAAGGGCTGCTCTTGGGCATTAGAGGGGTGAGATGTT
Celera SNP ID:            hCV11165273
SNP Position Genomic:     119669
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,5)   total(C,1|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:51995):
ATGGCAACCCAGTACTGGGGCTCTTGCTGGAGAAGCAAAGGAGGAGAGAGCCTTCGCTGCAGCTCAGGCAGGAAAGAGAGAGAGAGAGAGAGAAAAAAAA
A
CCCATAACAGTGTCTGTCAGTTTGGTGCTTTCAGTTTTTAAAGGTGAAAAGGATAAGAAAGAGCAGAGCAGGTGGAGAGATGCTGAAGGCTGAACCAGGG
Celera SNP ID:            hCV26169285
SNP Position Genomic:     44524
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,9)   total(A,4|-,9) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:51996):
AGAAGATGTTCATGCCTTTACTTTAAGACGTTTTAGAAGCCCCAAAGGTCTCCAAAGAGAAATATTTGCAAATGATTATAGTCGGGAATCCTCCAGCATT
Y
CAGTCATGAGACAACACCGGACCCAAACAGGAAAGACAGGAAAGGAGAAGATGGGTTGGAATCAGGAAGAGGTCAGATGTCTGAGGCAACTTTTGAGGTT
Celera SNP ID:            hCV11165274
SNP Position Genomic:     124510
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51997):
TTGTTATTCCCTAATACTCATTTCCAAAATGCCATTGGCCACATATGGACTGTCTCTGTATGAAAACCAGGCAACCTGATTCCATGATCCGTATGGAAAT
M
ATCATTAGCAGATCGGAAACCCAACTGGGTGTCAGACTCACCTGAGAGAGAGCTCTTAAAATACAGATTCCTGGCCAGACACAGTGGTGCACGCCTGCAA
Celera SNP ID:            hCV26169286
SNP Position Genomic:     43223
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,10)      total(A,1|C,10) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:51998):
AGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCCACCTCCTGAGTTCAAGAGATTCTCCTGCCTCAGCCTCCTGACTAGCTGGGATTACAG
R
CGCCCACCACTATGCCCAGCTAAATTTTGTATTTTTAGTAGAGACAGAGTTGGCCAGACTGGTCTCCAACTCCAGGCCTGAAGTGATCTGTCCACCTCAG
Celera SNP ID:            hCV26169287
SNP Position Genomic:     41889
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:51999):
TATGGAGATGTAGGCATTGATATGGAATAGTCACTACGGTCTGTTATTAAATTAGAGGGCAGGTCTAATGTAGTATTTTTAGTGTCCTCTCTCTCTCTCT
C
TTTTTTTTTTTTATGGAGTCTTGCTCTGTCACCCAGCCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCCGCCTCCACAGGTTCAAGCAGTTC
Celera SNP ID:            hCV26169288
SNP Position Genomic:     41448
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,9)   total(C,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52000):
TCCCAGCCAGCAGGATGTAAGCAGGGCTGTAGAAAGGAGGGCAGATGGTCACCAGCCATCTTTTAAGGAAGTGCCACATAACATATCCACTTAATGTCAT
Y
GGCCAGGACTTAGTCATAACCAGAACATGTCCTGACTCTGAGCTGCGAAGCCAAGAGGCCAGCTCTGGGTCACCATCTCCCAGTGCCTCCTGGCCCTGCC
Celera SNP ID:            hCV11165277
SNP Position Genomic:     129766
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52001):
CAAAACTGCCGGTCAGAGTACTGACTGTGTTCCCACATGGAGCTGATAAAATTCCAACCCAAAGCAAAGAAACTTGATATCTTCCTTAATCCATGCGTGT
K
TTTCCATTCAGCTGTCTGAAATATTGCAAATAGCTCATAAGCCCCCATTACTTCCTTCATGGATAGTAATGGAACCCCAGAACTCAGGACCCCAGGCTGG
Celera SNP ID:            hCV26169289
SNP Position Genomic:     40938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52002):
GAGAAATGTCTAATCAAGTCCTTTGCCCATTTTTAAAATTGGGTTATTTTTGTTGTTGTTGAGTTGTAGGAGTTCTTTATGTATTCTGGGTATCAACCCC
Y
TATCAGATATATCATTTGCAAATATTTTCTACCATTCCATAGGTTTCCTTTTCATTCCGTTGACTGTGTCCTGTAATACACAGAGTTTTTAATTTTGATG
Celera SNP ID:            hCV1704950
SNP Position Genomic:     86621
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52003):
CCCAGAGAAATGGGATGATTGTTGTTCAAGGTCACACAGGGGCAGAGCAGGGATTTGAACCTGGAATGACTTCAGAGACTGCACTAAGATCCCCTATGCT
R
CACTGACTTTGCAACCTCTGCCGCACACATTGGTACTACTCTCTGAGGATTCCGGGGGCACATGGGAGACATGCAGATAGGGTTCCATGCCGTGGCTGGG
Celera SNP ID:            hCV1704952
SNP Position Genomic:     28876
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52004):
TGGGGAAGGGTAAATACCCATCCATCATTCTACACAAGTCACTGGGTGACGTCTGTAGCTCCACCAACCTGGTCAGGCTTATTGGACCCATTTGCCTGGC
R
GGAGTTTCCATCAAGCCTTTCTGGGCCTCCTCACCAATTATCTCTTCAGATTTGGGATGTTTTTGATGAGTGTTTTGACAAGAACACTGTTTCCCCAAAG
Celera SNP ID:            hCV1704953
SNP Position Genomic:     28227
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52005):
CTTTTAAAATATACATTGATCATCTTTCCTGTTGTGTTAGCTTTATTTCCTGGGGAAGGGTAAATACCCATCCATCATTCTACACAAGTCACTGGGTGAC
R
TCTGTAGCTCCACCAACCTGGTCAGGCTTATTGGACCCATTTGCCTGGCGGGAGTTTCCATCAAGCCTTTCTGGGCCTCCTCACCAATTATCTCTTCAGA
Celera SNP ID:            hCV1704954
SNP Position Genomic:     28177
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52006):
GTTGCTCCCGGGGAATCTAGTCTAAGAGAATATATGTGGGGCCCAGAAGTGAGATCCTGCCTAGGAGGGCATGAGTGACATTTCATCAGTATAATGAGAA
S
TATTGTTGTTAAAAATTATTATTATTTTTTTGTGCGTTTGTGTGCATGTTCAGAAAGAAGGGGATCAACCTGAAAGAGTCCAACCAATCGCATCATCTAC
Celera SNP ID:            hCV1704955
SNP Position Genomic:     26377
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,22)   caucasian(C,10|G,24)   total(C,22|G,46)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52007):
TACCTGTTCATACATAGTAAACAGGGGTTTTCTTTGGTTGGGCAGGTATGGTGATTTTGCAAGGTAATGAAAGGTTGCTCCCGGGGAATCTAGTCTAAGA
R
AATATATGTGGGGCCCAGAAGTGAGATCCTGCCTAGGAGGGCATGAGTGACATTTCATCAGTATAATGAGAACTATTGTTGTTAAAAATTATTATTATTT
Celera SNP ID:            hCV1704956
SNP Position Genomic:     26304
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,2)   caucasian(A,22)   total(A,50|G,2)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52008):
AGTCTGCCTCCCAATTCAGCGGTGGGCTGTCTCTTGGCACTAAAGTGGAATTCAGCTTCTTATATCAGCTGAGGGGTGTTAGATAGATGGCCAGCTCGCT
Y
TGGCACTCAATACCTGTTCATACATAGTAAACAGGGGTTTTCTTTGGTTGGGCAGGTATGGTGATTTTGCAAGGTAATGAAAGGTTGCTCCCGGGGAATC
Celera SNP ID:            hCV1704957
SNP Position Genomic:     26193
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52009):
CCTTCAACTTGGTTCCTCCTTAGCTCTGTGGCTCGATCCTACCCATCGTCCACAACTGTATCTTTACCTTTTCACCCCCTCAACTAGCTACCCTGTCTTT
R
GGCTTCCTGTGGTCCCTTTTGGTAAATCTAGAATCCCTCCTTTCTGCCATCACACCCAACAGGATCGTCCGTGTCACATCTTGGGAAATGTTTGTGTTTA
Celera SNP ID:            hCV1704958
SNP Position Genomic:     25922
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52010):
ATCCAGGACTCCCACCCATTTCCTGGAATGACTTGCAGATCGATCGTGTCTGGGGCTGAAGTTTTCTTTCGTTGCTTGTGCAGACAAGCCCATGAAGGGC
K
CTCACAGTGTACTTGTCACGTATTCCCTTCTCAGAAGGCTATGATTTTCTATCTCCTGAACTCTCTCCACCCTGAGGTTCAGCAGAAAAGAACCTAGGAA
Celera SNP ID:            hCV8173574
SNP Position Genomic:     139880
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52011):
TTTTTTCCTTAACTTCAATTTTCACAGGACAGCTCCTCATCTTCCCATATTGCATGAAAAGTATCTTTCAACAAGGGAAAAAGAAACTCTAATGAGCTTT
Y
CCTAAATCTTCTTAAACCGAGTTCACTATAGAATATTTTATGCAAAAACATTGCCTTCTCTTAGGTTATGACATCTTTTCCTTGAAAAGTGATCAGGGCA
Celera SNP ID:            hCV1704959
SNP Position Genomic:     25049
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52012):
AAAAGGAAACATAAATGTAAGTCTCCAGCTGCTTTGTAATAATAGTTGTTTTCAAGGATGGTTCTATTTTCATCACACTATGCTATGTTGGGGGTATTTT
Y
TGTTTCTGTGACTTTGGTGTTATAAACTTTTACCTATGCTATCATATATTCTATCCATGCTAGAATGGAAATAATAAGACCTTATCCTTGTAGCTGAGTA
Celera SNP ID:            hCV25761248
SNP Position Genomic:     101422
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(C,1|T,39)   total(C,2|T,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:52013):
CGAACAAGCAGAGGCTGGGATTCAGAAATAAATTACACATAATAAACTAGACAGAATAGGCTGAGAGCAACATTAGCGATTATGCCCTAAGGGGAGAGAA
R
GGCAAGATAGAAAATAGGCCCGAAAAAAAGAGAGAAAGAATAATCTCTGGACACAGGGGGCTGACTGCACTGTTTCCCCCTTCTTCTGCCTGGCTCCCTG
Celera SNP ID:            hCV11490013
SNP Position Genomic:     22419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52014):
TCTCAAAACTGCCGGTCAGAGTACTGACTGTGTTCCCACATGGAGCTGATAAAATTCCAACCCAAAGCAAAGAAACTTGATATCTTCCTTAATCCATGCG
Y
GTTTTTCCATTCAGCTGTCTGAAATATTGCAAATAGCTCATAAGCCCCCATTACTTCCTTCATGGATAGTAATGGAACCCCAGAACTCAGGACCCCAGGC
Celera SNP ID:            hCV26169290
SNP Position Genomic:     40935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52015):
CCAGGGTTTATTTATCAAGGGCGTCTCAAAACTGCCGGTCAGAGTACTGACTGTGTTCCCACATGGAGCTGATAAAATTCCAACCCAAAGCAAAGAAACT
Y
GATATCTTCCTTAATCCATGCGTGTTTTTCCATTCAGCTGTCTGAAATATTGCAAATAGCTCATAAGCCCCCATTACTTCCTTCATGGATAGTAATGGAA
Celera SNP ID:            hCV26169291
SNP Position Genomic:     40912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52016):
ACCTCCTCTTTCGGCTTTGGAGCCCCCCCTCCCTCTGTCTCTGTATGGGCGAGCATCTTCCTTCTGTCTTCTCCCTTCCTTCTTGCCTGTTAGACTCTCC
R
CTCCTTAAAACCAAAAAAACAAAACAAAATTCCCATTACTTGATCATTTTACATTCCCTCGTTAAGCCAGGCTCAAAACATTAAATAATTGTGCATTTCA
Celera SNP ID:            hCV1165671
SNP Position Genomic:     135446
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52017):
TGAATCTGTTTGCAAATGAGTGGATACTAATGCCAACAATAGTAATTGTACAGGTTTTATTGCCGATACTATCGTCAAGCCTTTCCCAGCAGCCTGGCCC
Y
GTGCTAAGCCCTTGAATGCATGATCACATTTAATCTCCCTAACAATGCTAGAAGGCCGGTACTGTTATTACACCCATTTTTAAGTTGAGGTAGGCCTGAG
Celera SNP ID:            hCV1165672
SNP Position Genomic:     135128
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52018):
CATCTTCCTCTGCTAATCACATCCTGTATTAAGTATATGCTCCGTCCTCCCCCAGTGTGCAGCAGCATCTGCTATGAATTCATTTTCGGGCTCTACTGGT
M
TACTGCAAAGGAGAGCATATGCGTGAGCAAGCTAACAGGGCCCCACTTCCCTCAAATGTTCATCAACATTTTAAAGTTGAGCTCCGTGCAGTCCTCCCAG
Celera SNP ID:            hCV28030677
SNP Position Genomic:     137513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52019):
CTCCCTGCCTTCTCTCCTGTCTGGTATTTTTTGTTTCTTGTTTGTGAGCAGACAGGCCTTTGAACCCCTTCCTAGTCGGTGGCTGGCCCAGAACATAAAG
K
TTCTCTGAGAGCAGGCAAGGGAGTGACTCTGTTGTAGGAGGGAAACTCGTACAGGCCAGACGGAGATCACCGGCTTACCTCAGAGTTCAGATTCCACTGA
Celera SNP ID:            hCV1165673
SNP Position Genomic:     134164
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52020):
GGACCAGTGTACATTTCACAGCTCTTTAGCCTTTCATGGGTATTTTCTGGGTATTATGCCATCCCATCGATTTGGACCATGCTTACTTTACAAAACATTC
Y
TGTACTTCCAAAGGCAGGATCACCGAGTGTTTAAGAACACGGAGCTTGAGTACCCGGTTCTACCATCTTCTTGCTGGCTGACCTTGTGCCATTTATTTAA
Celera SNP ID:            hCV1165674
SNP Position Genomic:     132024
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52021):
GTAGCTGGAACTACAGGTGCATGCCACCACACCCAGCTAATGTTTTGTTGTTGTTGTAGTAGAGATGGGGTCTTGCTATATTGCCCAGGCTGGTCTCAAA
Y
TCCTGACCTCAGGTGATCTGCCTGCTTTAGACTCCTAAAGTGCTGGGATTATAGGCGTGAACCACCATGCCCGGCCCATAAATTCTTAATAAAAAAAGCA
Celera SNP ID:            hCV1165675
SNP Position Genomic:     117593
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52022):
CAGATGTTTTTCACTGTTCACCTTTCAGATGTCTTTCACTGTTATAGTTTTGCAATGGCGATTTCAGTATTTCGCCCCATTCTATCCTATAGCAGTCCTA
Y
GAGATAGGTACTATTATTAACCCCACTTTATAGATGGGTACGATGAGGCTCTGGGAGGTCTGGTAACAGCTAGTCAGTGGCAGGGCCAGATTCGGACCTG
Celera SNP ID:            hCV11165286
SNP Position Genomic:     141903
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52023):
AGGAAAAATACTACTGGTCAAAAGGGAGGAAAGTAGACATGGATGGAATTGGAGTTGAAAACAGGCATTTTTAGCCATGTAGAGTTCTTATGGTTCTCTT
Y
GGTAGTTTTTCTTTAGCTGGTCAGTTTGTATTGTCCTCATTTAGTAGACGTAGATGCACGAACTGATTAATTCATTTGTTCTAGGGCTCTGAGGAGTCGT
Celera SNP ID:            hCV1165677
SNP Position Genomic:     113131
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52024):
CCTTGGTACAAGCTGTGTCTATGCTATCTTAATGCCTGAGCACAGCACTAGCAGCGGGCTGTTGCCAGCTCTTGAGGAGACATTTGAACTTTTGGCAGCG
Y
TCCTTATCAGAAGGCCCATCCGAGGTATTTGTGATTATAGAGTAAGGGTGCTCGCTTTTGGCAAAACAAAGCGTCTGACAGTAGTGAAGTACTGGCTCAA
Celera SNP ID:            hCV27503509
SNP Position Genomic:     147334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52025):
ATTTTCCATCTGATGAACACAGAGGAGGGTGCATTTCTGTTCCAGTGTCATTCTGTCCTGTGCAGACAAAGGGTTAAGCGTGTCTTTACACATGAAGCCA
S
AGGAGTCTTTCTCCCCTATAATTAAACCCTCCCGGTGCGCTTCCTTAACTGGATGTCATTCTGTGTGCGTTGACTATGAAGGGGACTGTGCTTTGCTCTG
Celera SNP ID:            hCV11165287
SNP Position Genomic:     144538
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52026):
TAAGATCCAGCTTTTTAATGCTATTTTCTAGTTTCATTCTAGCTCCTGCTCTCTGTCCCTATCTGTTTTGTTTTTGTTTTTGTTTTTAAGAACTGTAAAG
R
TTGCTATTTGTTTTCATTTTTGGTTTTTGAGTTACCATGTCCCTCTGATGCAGCATCTCTGTCTCTTAGCGGCCGTGGGGGTGACCAGGCACAAATCGAA
Celera SNP ID:            hCV1165679
SNP Position Genomic:     112029
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,20)   caucasian(A,16|G,18)   total(A,34|G,38)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52027):
GCCTCCTAAATGACTTGCTGTTGCCGTACACATATAATGTAATATTTGATTCCTGTCTTTATTAGATCTTTATAATCTAACGGTTTAAGTTTGGTAAAAT
Y
ATCGTTTCCTACTTCTCTGTTGAAAGACTTGAAAGTACCCCCGAAATATTACTTTGTGTCAAGCTTTAGACACACTTAGTCTCTGGGGTTAATGACAAGC
Celera SNP ID:            hCV1704961
SNP Position Genomic:     8850
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52028):
CTGCAAAGCACATCTTACCAAATATTAGCCCTATGAGCCAGGGAGAAAAAAACCAGGAGGTCTTTTGCAAGGCTTCTTAGAACGGTCACTTGCTGCTGCT
K
CTTTGCCTGTCAAGCTGTGTGCTGGGACACACACATTAAGGCCTTCATTTTGTTACTGGTATAATTTTTAAAAATATGTAAAAACACATATTTGCCTCCT
Celera SNP ID:            hCV1704962
SNP Position Genomic:     8656
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(G,2|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52029):
CGGTGCCGTGGCTCTGCTCAGGGTGCGCTGTGGTCGCCAGCCGCCGGGAGAGGCTGGGCGGGAGGTGGCCTTGTGGTAAAAGCCTCATCCTAGAGGGGAG
Y
GCAAGGGAAAGTGTTGGGGGTGCTACAGGCAGTTTCTGGGCTCCAGATTGCGAGACTAGATGGCGGGACTCAGAGTCACCACCCTGGGGCTGAACCAGGC
Celera SNP ID:            hCV1704963
SNP Position Genomic:     8046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52030):
GAGCTCTGGCAGTTTGGCACATGCAGCTATAAGTAAGAGAAAATTGAACTAAGGATGCCTGAAATAGTAAGAGCATGACTTGCCTCTTAGAGCAGAAAGT
Y
TGGAGGGAAGGAGCTCCAAGCCGGTCCCTACATTCCGTGGTGTCAGAGCTCTGCGTCACCATCTCCCAGTACCTCCTGGCCCTGCCATCCTAGTCACAAG
Celera SNP ID:            hCV7522309
SNP Position Genomic:     131195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52031):
ACAGAACAAGACTCCGTCTCAGAAAAAAAAAAAAAAAAAAAAAAAAAAAGCACTTTGTATTTCCTGATTTAACATAGGTATTGACTTTCTGAAATTTGAC
R
GCTAGTACAGGCAGTTGCCAGTGTCTCCTTCTATACACTCATTTATTCACTCATTCATCCCTGCATCTATTTACCTTATGTTCATTGAGCACCTGTTATG
Celera SNP ID:            hCV1165680
SNP Position Genomic:     110602
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52032):
GATGAGAAAATTGATGTTCTGGGAGGTTACAAGTCTTGCCTGAAACCACACAAAGTAGCAGAATTATGATTTCTGATTTGTCCAACTCTTTCTGTCAACT
M
CTGCTGCTAATTATTTGTATCATAGTAAGCACTTCATAAATCTGTCTTTGCAACTAGATTGTAAGCTTCTCAAGGGCAGCCACTAGTCTTTATCATTGTA
Celera SNP ID:            hCV11165291
SNP Position Genomic:     160059
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52033):
TATATTAAACAGCAACCAGAGCAACAAATGGCAAACAATTTCTATTTTCAAGTTTCTTTGCATATTTTTTTGGTGCAAAACCATTTATAAACTTTTTTTT
Y
TAACACTAGTGTCTACAGCAGCATTCAAAAAAATTCTGTTACCTTTTCTGTATTAGGATTTAAAGTCTATTTCTTATTGTATACCTGATTGAAGCTGTTC
Celera SNP ID:            hCV16007994
SNP Position Genomic:     164823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:52034):
TGGGACACTGAGGCGGGCGGATCGCCTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAATACAAAAATTAGC
Y
GGGCGTGATGGCAGGTGCCTGTAATCCCAGCTACTCAGGAGACTGAGGTAGGAAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCA
Celera SNP ID:            hCV1165682
SNP Position Genomic:     109160
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52035):
ACAGTCCCCAACTCAATTGGGTCTAATGACATTCTTTGTCCCATCAGGTCAAGCTGGGAAACCTGGAGCTCTACGTCGAGCAGGAGTCAGTTCCTTCCAC
R
TGGTATTTTCTGATTGTGCTCCCTGTCTTGCTAGTGATTGTCATTTTTGGTAAGTGCCCTGTTTAATTTTGTCAGAGAAATTATTCCCTGGGGCCTCTCG
Celera SNP ID:            hCV1165683
SNP Position Genomic:     108791
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52036):
AGAAGTCACCCTTTATAGTATTCATGCCGTATGAGGCTCTGTACAGCCTATATAAATTCTTCTTGATCTATCATCATAAATAATTGGATAAAAGACAATG
M
AAAAGAACTTCAGACTGGAAGGCAACAACAAAAATGTGTTCATGTCCCACTGGCACCAGTTAATAGCTCTGTGGCCTTAGGTAAATCACTTGAGTTTCCT
Celera SNP ID:            hCV1165685
SNP Position Genomic:     106401
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52037):
AGCCCCTTGGGTCAGAATCTTCCCCTTTCCCTAGCCTACTGCTTTCAGCCTAGTCTCTTTTCCCATGGCATAACCTTCCAGCTGCTTTCATTGTCACTCA
Y
GATATTAATCATAATATTAACTAGCATGTTTTGAGTGCTTACTGTGTGCCGGGCCCTGATCTAAGCATGTATAATCTCAGTTAACGTAGCCCTCATTTAA
Celera SNP ID:            hCV1165686
SNP Position Genomic:     104942
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,18)   caucasian(C,8|T,20)   total(C,22|T,38)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52038):
TATTTATGTTATGTATTTACTAACTTTTTAAATTTTATTTTTTATATATATAGAGAGAGACAGGGTCTCACTGTGTTACCCAGGCTGATCTCCAACTCCC
R
GGCTCACGTAACCCTCCTCCCTCCGTTTCCCACAGCGCTGGGATTACAGGCGTGAGCCACTACGCCCAGCCTATTTATGTGTTGTTGTTTTTTTTTAATC
Celera SNP ID:            hCV1165687
SNP Position Genomic:     104452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52039):
TCCTTCTGTACACCTAAACAGGACAATATATTTATGTTATGTATTTACTAACTTTTTAAATTTTATTTTTTATATATATAGAGAGAGACAGGGTCTCACT
R
TGTTACCCAGGCTGATCTCCAACTCCCGGGCTCACGTAACCCTCCTCCCTCCGTTTCCCACAGCGCTGGGATTACAGGCGTGAGCCACTACGCCCAGCCT
Celera SNP ID:            hCV1165688
SNP Position Genomic:     104424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52040):
GTCACCTTCTCTTACCTTTCGTCTCCCCACAGGAGAAATGGTAGGAGGGGTCTGGTTTCCACCTTTGCCCGATTCTCCCACTGGTGCCTCCAGATGGGGA
Y
CCTCTAGAGCAGGGGTGTCAACCTTTTGGCTTCCTGTGGCCACATTGGAAGAAGAATTGTCTTGGGCCACACATAAGATACACCAACACTAACGATAGCT
Celera SNP ID:            hCV1165689
SNP Position Genomic:     101925
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52041):
CTAGTTTGAGTCACTGTATGTGCTTAAAAGCAAAAAAAAAAAAAAAAAAAAAAAAAATTCATTTAAAAATAGGGTCTAATTCAGAGTTTTAAGTGAATCA
R
ACTCACCTCCCTCCAATTAGTCCACATTAGTTAGGTTTTAAAGTTAATCTGTAGTGACGGCCAGTTCCTCCTACTATCTAAACAAAGTCCCTGCTGTTGG
Celera SNP ID:            hCV7522240
SNP Position Genomic:     143993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52042):
AAGCACCCTAGTTTGAGTCACTGTATGTGCTTAAAAGCAAAAAAAAAAAAAAAAAAAAAAAAAATTCATTTAAAAATAGGGTCTAATTCAGAGTTTTAAG
K
GAATCAGACTCACCTCCCTCCAATTAGTCCACATTAGTTAGGTTTTAAAGTTAATCTGTAGTGACGGCCAGTTCCTCCTACTATCTAAACAAAGTCCCTG
Celera SNP ID:            hCV7522241
SNP Position Genomic:     143986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52043):
AGTGTGGCGCCTGCCTTTCTGCCACCTCACTCATCCGACCCGGGGAAACCCACACCCTGTCACAGGGGCGCCTTGGTCCCCGGAGTCTCCGGCTCGGCCA
Y
GTCTCCCGCGCGCCTCCCCGGGGCCTCCCTCTCGCCGCTCCACACCTGTCAGCCGCTCTCGCAGCAGCCCTGTGGCCCGAGCCCGGGGCCTCAGCTGCAA
Celera SNP ID:            hCV27849569
SNP Position Genomic:     5360
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,17|T,19)   total(C,43|T,23)
SNP Type:                 hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:52044):
CAGCATCCACAAAATGAGCTCTGGCAGTTTGGCACATGCAGCTATAAGTAAGAGAAAATTGAACTAAGGATGCCTGAAATAGTAAGAGCATGACTTGCCT
Y
TTAGAGCAGAAAGTCTGGAGGGAAGGAGCTCCAAGCCGGTCCCTACATTCCGTGGTGTCAGAGCTCTGCGTCACCATCTCCCAGTACCTCCTGGCCCTGC
Celera SNP ID:            hCV7522316
SNP Position Genomic:     131180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52045):
AGGAAGTGCCACATAACATATCCACTTAATGTCATCGGCCAGGACTTAGTCATAACCAGAACATGTCCTGACTCTGAGCTGCGAAGCCAAGAGGCCAGCT
Y
TGGGTCACCATCTCCCAGTGCCTCCTGGCCCTGCCATCCTAGTCACAAGATGGCTGCCACCGCTCCAAGCACTACTCTCCCTTTTGTTCGGATCGAAGAC
Celera SNP ID:            hCV7522317
SNP Position Genomic:     129831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52046):
GGGCAGATGGTCACCAGCCATCTTTTAAGGAAGTGCCACATAACATATCCACTTAATGTCATCGGCCAGGACTTAGTCATAACCAGAACATGTCCTGACT
Y
TGAGCTGCGAAGCCAAGAGGCCAGCTCTGGGTCACCATCTCCCAGTGCCTCCTGGCCCTGCCATCCTAGTCACAAGATGGCTGCCACCGCTCCAAGCACT
Celera SNP ID:            hCV7522318
SNP Position Genomic:     129804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52047):
TCATTTACTAAAGCACCCTAGTTTGAGTCACTGTATGTGCTTAAAAGCAAAAAAAAAAAAAAAAAAAAAAAAAATTCATTTAAAAATAGGGTCTAATTCA
R
AGTTTTAAGTGAATCAGACTCACCTCCCTCCAATTAGTCCACATTAGTTAGGTTTTAAAGTTAATCTGTAGTGACGGCCAGTTCCTCCTACTATCTAAAC
Celera SNP ID:            hCV7522246
SNP Position Genomic:     143976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52048):
TCCAGCAGGGAGAATGAAGAACCACCACAGCTGTCTGCAAGGCAAGGTGAAGGCCTGTCGGGAGAGATAGAACATCAGTCTTCACTGCAGACATCGGCCG
K
GCTAGACACCTATCTGCTTAAGGATGATAATGAAATTAATCCGGCCTGTAGTCACTTCCCGTCCAAATGATTTATTGGCCTCATACCCCAGTGTTGCTGC
Celera SNP ID:            hCV7522247
SNP Position Genomic:     143402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52049):
TCTTGAATGTGTTTTTGAAAAGGCATGCTGAATTATAGGTGCCTAAAACAGGAGCAGGACTTGAAACACTCTAGAGGGAACCTCAATAGATTCCAACAGC
R
ATTCCTTTAGAGCAGACACAGTAATTTTAACAGTAATCCACAGGCTGCAAGGCACAAGCGGCTGGATTTGCTTGCCTTCTTTCTCCCTCTCCTCCTAGCT
Celera SNP ID:            hCV8174034
SNP Position Genomic:     9914
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52050):
ACCTTCCTTACCTCTTTAACCACCCACGTCTCTAAATACAGTCCCATTCTGAGGCACTGGGAGTTAGGGCTTCAACATACATTTTATGGGGACACATTTT
W
TGGGGACACAGTTCAGTCCATAATAGTAAGATAAGGAGAACTGAAATTTCAAAACCAAGGCTCTAGCATGACATCCCCCACTCTAGGACCAATTCCATTC
Celera SNP ID:            hCV1165690
SNP Position Genomic:     99924
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,5)      total(A,5|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52051):
TATGGTGTTGAAATCTCCACTCAGTTAATTTCAGCAGTGTAGTTGGGAGTTTTATATGCAACAAAAATCCCAAGGCTCGTTAATAGTCTACCATGAGGCT
K
CAGGAAGACATCAACAGAAACAATATGTTGACACGAACTGAAATTCTCCATCAGAGAAAATTTGTTTTCTACACAGGCTTCAGCTGGAAAAAGCTGAAGA
Celera SNP ID:            hCV1165695
SNP Position Genomic:     32862
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52052):
GGTAAATTTTATCACAAGTCATGGCGGAGATAGAAAGCATTTTCCAGATTTGTCTTGTTGCTATTGTCAAAGTTAGCATTCCATTTGAAGGTACTGTTAT
Y
TAGAGCAGGGACCAGCAAACAACAGCCTGTGGGCCAAATGTGGCCCCTCTGCCTATTTTTATAAAGTTCTATTGGAACACCTGTTCATTTCCTTATTGTC
Celera SNP ID:            hCV15826983
SNP Position Genomic:     127524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52053):
AATAGTTGTTTTCAAGGATGGTTCTATTTTCATCACACTATGCTATGTTGGGGGTATTTTTTGTTTCTGTGACTTTGGTGTTATAAACTTTTACCTATGC
K
ATCATATATTCTATCCATGCTAGAATGGAAATAATAAGACCTTATCCTTGTAGCTGAGTATTTCTAGTTGCAGCAATGAGGAAAGAGAAATGAACTTGGT
Celera SNP ID:            hCV25760978
SNP Position Genomic:     101462
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,32)   caucasian(T,40)   total(G,4|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:52054):
AGGGCTCTCACAGTGTACTTGTCACGTATTCCCTTCTCAGAAGGCTATGATTTTCTATCTCCTGAACTCTCTCCACCCTGAGGTTCAGCAGAAAAGAACC
Y
AGGAAAAAAGTCTAGGAAAGCCAGAGAAGAGTTATCCTTTAGCCTTCACTGGGTGACAAGCGTGCTGATGCTAAACAAAGCCCGGGAAGTCCCAAGCCTC
Celera SNP ID:            hCV7522253
SNP Position Genomic:     139975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52055):
GTTAAAAATGTTACATATGACCGCTGTGATGGGGTGTTTACAACCTGTGGCAGACAGTATCCCATTGGGCAGATGTGAACAGGAGACGACCGTGATAACC
Y
GTGAGAGGCTGATGGCTGACATGCTACAAAGGGGCCAGGCCTTTCCAGCCTGGCCCTCTTCCCGGGCCTTCTGGACCATACATTTTCCAATAGTCTTTTC
Celera SNP ID:            hCV7522327
SNP Position Genomic:     129344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52056):
TGAGGAGACAGTGAGGTAGCCAGATCATCTTCCCATGTGGGAAAAGACCTGTTCCCCTGCCCTTGATTCATCCTGCCAGCCCCCTGCAGCCTTATCCTCT
Y
TGCCTCCTCAATACCCAAAACCACCAAATCATGTGACGGGACGATGGGTAAAACCGGTAGTGAAAGGGGAATGCAGTTACATGTTCCCAGGCCGTGTGCA
Celera SNP ID:            hCV7522328
SNP Position Genomic:     128739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52057):
GTTGAGGAGACAGTGAGGTAGCCAGATCATCTTCCCATGTGGGAAAAGACCTGTTCCCCTGCCCTTGATTCATCCTGCCAGCCCCCTGCAGCCTTATCCT
Y
TCTGCCTCCTCAATACCCAAAACCACCAAATCATGTGACGGGACGATGGGTAAAACCGGTAGTGAAAGGGGAATGCAGTTACATGTTCCCAGGCCGTGTG
Celera SNP ID:            hCV7522329
SNP Position Genomic:     128737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52058):
ACAAGATGGGCTCGGCCAGTTGGAGAGGGAAGCTTTGTCACCAAAGGGACTTGCACCCCTGGGCCAGACGGTGGTGTCCAAGAGAAAGTGATCAAAGAGA
Y
ACAGAACCCGCATGCCTAAATATTTATTTCAGTTGTTCGTATTTCCCACACTTTTCAAATGTGAACTTGTGTCCTGAAGGTGGAGCTTTAGTACACAAGA
Celera SNP ID:            hCV27830084
SNP Position Genomic:     3041
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,38)   total(C,3|T,71)
SNP Type:                 hmCS


Context             (SEQ ID NO:52059):
GAGACCCTGTCTCCAAAAAAAACAAAAACAAAACCAAAAAAAAGAAATCCAACACCAGAAGCAGCTATGCTTGGAGCTCTTACAGCAGAGACTCAAAAAC
R
CAGATGCCCAAAGGGGCAGAAAATACATAAGGGGTGTCAGCCGCCTGGGACTACAGAAAGCAGTGGAGCTTGACTTAATGGGAAAGGACTCGCCATCCAA
Celera SNP ID:            hCV7522259
SNP Position Genomic:     138678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52060):
TGTGTAATGGGGTCATGGGATCAGTGTGCCCCTGGCTGTCACTCAGAAGAATGATGTCATTTGATTGCATTTGTTCTGCATTTTATTTTCAGGTCTTGAA
Y
GTGTTTTTGAAAAGGCATGCTGAATTATAGGTGCCTAAAACAGGAGCAGGACTTGAAACACTCTAGAGGGAACCTCAATAGATTCCAACAGCAATTCCTT
Celera SNP ID:            hCV8174044
SNP Position Genomic:     9821
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,13)      total(C,2|T,13) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52061):
TTTTCTTGTTGCTTTTCATGGTTTTAGCATCATGTTCCTATTCTCGCTCAAATCAATAATCCACTGTACAAAGTCTGGCATTTTGTACTGAAGCCAAGTA
Y
AAGAAAGTTTTAACTAATGCACGTATGGGGTCGCTGTTTTAACTAACACACGTATGGGGTCGCTGTTTTGTTGCCTCGTTTTTTTAGGTGCACTTTTCAA
Celera SNP ID:            hCV16192254
SNP Position Genomic:     66815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52062):
TCCAGTGACCTGAGGGAACTGATCTCTTCCTCGACTAAAATCTTGTTGTGCAATCCTAATGAATTCTCGAAGGTGTTTCCAGCGGCGTCCGTGCTATGCA
Y
TCACTGGACCCGGGAGCTCCCCAGTCTCGGGGCGGGAGGGGCAGGTGTGCAGCCTTCAGGAGAACGGGAGAGAGCAGGCAGGTTTGGCTTTTACTTTCTC
Celera SNP ID:            hCV7522400
SNP Position Genomic:     43984
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,129|T,604)   total(C,129|T,604) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52063):
GCCGTGAGCCACCACGCCCAGCCAGTTTTGTCTTTTTAAGATGCATGAAATAACAGTGCATGTCTGCACTGTTGGGAAAATTCCAGAAGAGAAGGAGAAA
Y
GGATGATACAGGAGAGAGAAGGGTTGTGGAGTGTTCAGTCTTTCAGCAGGTGGAAGAAAATATGACTTGGTGTGCCAGTAGGGAGGCCAGCCTCAGACAG
Celera SNP ID:            hCV3078700
SNP Position Genomic:     46024
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52064):
TGTTGATTCATATAATGATGGCACTTGGGCTCTAAGGAGGGAAATAAGGACCTGATAGGGGTAGGGATGTGAAAAGGTGGCAGGGTCTGTGTTGGAAGTT
S
AAGTTGAGTTTAAAGATTGTTAGGGGCAGGCGCGGTGACTCACGCCTATATTCCCAGCTTTTTGGGAGGCCAAAGTGGGTGGATCACTTGAGCCCAAGAG
Celera SNP ID:            hCV3078701
SNP Position Genomic:     46696
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,6)   total(G,5|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52065):
TAAGGACCTGATAGGGGTAGGGATGTGAAAAGGTGGCAGGGTCTGTGTTGGAAGTTGAAGTTGAGTTTAAAGATTGTTAGGGGCAGGCGCGGTGACTCAC
R
CCTATATTCCCAGCTTTTTGGGAGGCCAAAGTGGGTGGATCACTTGAGCCCAAGAGTTTGAGACCAGCCTGGGCAACATGGCAAAGACCCCATCTCTACA
Celera SNP ID:            hCV3078702
SNP Position Genomic:     46740
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52066):
CTATGCTAAGCATGTTCCTGCCCCAGGGCCTTTGCATGTGCTGTTTCCTCAGTCTAGTACATTCTTCCCCACATCTTTCTATGGCAGACTCTTTCTTGAC
K
GTCTGGTCCTAGAGCACACATCTCTCTGCACCTGCCTACCCAGTCTTCAGTAGCCTCCCCTTACTCACAGTGACATTACTGTTTTATTTTCTTCATGGCC
Celera SNP ID:            hCV3078703
SNP Position Genomic:     48223
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,7)   total(G,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52067):
GCTCTCAGGGTGGACCTTACTAGCGGGTGCTGGGAACTCATGACAGGGTTTTAAGCAGAGGCCTTCCAGCGCCATATTTGTGTTTTAAAAAGATTATCCC
R
CTGGCAGTGTGGAAGATGAACCACGTTAATCCAAGTCTCTCCCGGCCTCCCACCCCACCCTTCCTGGGTCACTTTCCTCTGGTGTGTTTTGTAAAGAGAG
Celera SNP ID:            hCV3078704
SNP Position Genomic:     52533
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52068):
ATGGAAATCATCATTAGCAGATCGGAAACCCAACTGGGTGTCAGACTCACCTGAGAGAGAGCTCTTAAAATACAGATTCCTGGCCAGACACAGTGGTGCA
Y
GCCTGCAACCTCAGCACTTTTGGGAGGAGTGCTTTGAGCCCAGAAGTTCAAAACCAGCCTGGGCAACGTAGTGAGACCCTGTGTCTTTAAGAAAAAAATC
Celera SNP ID:            hCV7522406
SNP Position Genomic:     43315
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52069):
AGGGGGCGCTAAATTTAAACGGGAGCCCTGGAAGGCCTCAGTGAGAAGGGGCATCTGAGCCAAGACCCAAAGGGACCCACTCAGTTTTGGGGCTATCCGC
Y
TTCATGGGCTATTGCACTATTGAGTGGAATGGCCGACAATTTGAGACAGAAGAGCCTTCCTCCTTTCCTTCCAATCCGGGATGTGTCCTTGTGCAGATCT
Celera SNP ID:            hCV3078706
SNP Position Genomic:     56508
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52070):
TACTGGGTGGCTCAGACTCTGGGTGTTAACTCTAGCCTGCTAGAAAGGTCATCTTCCTCTGCTAATCACATCCTGTATTAAGTATATGCTCCGTCCTCCC
Y
CAGTGTGCAGCAGCATCTGCTATGAATTCATTTTCGGGCTCTACTGGTATACTGCAAAGGAGAGCATATGCGTGAGCAAGCTAACAGGGCCCCACTTCCC
Celera SNP ID:            hCV7522260
SNP Position Genomic:     137464
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52071):
GTTTGTTGGCCTTTAATCTAGAGCTTGACATAGTAGAGAATAGGAACCAGAATCCTCCCTCCCACAAACCCACAAACAGGTTGGCCTCTTTCCTCCCCTT
Y
TGGGACACAGCAATGGAAATGCCTTGCCACTATTTACAAGTCTGAAACTCATGGGGCTCTTTGCCAACACACAACACCCACCCCCACCCCCAACCCTGCA
Celera SNP ID:            hCV7522333
SNP Position Genomic:     127820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52072):
AAATACCTCTATTCTGGTTAATTCCGGCTCAGGATCACGGGCTGCCAGCTGCATCTGTCAGCAGTGTTGGGGACTATGAAATGGAAGGGCGTGGTTATCC
Y
CCATGAAGTCAACTTGGAACTGAAGGATCCAGCTCAGGATAGTCCTTGTTTTCCTCACAAAATAGAGAAAAATAGAGAGGTCCCTTCTAGAACTCCTTAT
Celera SNP ID:            hCV7522407
SNP Position Genomic:     42572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52073):
GAAGGCCTCAGTGAGAAGGGGCATCTGAGCCAAGACCCAAAGGGACCCACTCAGTTTTGGGGCTATCCGCCTTCATGGGCTATTGCACTATTGAGTGGAA
Y
GGCCGACAATTTGAGACAGAAGAGCCTTCCTCCTTTCCTTCCAATCCGGGATGTGTCCTTGTGCAGATCTCAAGCTTGACGTCTGTGCGGTGACACTTCT
Celera SNP ID:            hCV3078707
SNP Position Genomic:     56538
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52074):
CCTCTGGCATGGTCAATATGGGGACCTCGTAACCTTCCCTGTCACCTAGAACTGCACTTCTGGGACTCTGTGGTCCTATTAATAAAAAAGATAATCACCA
R
TCTGCCTCATCTACTGTGGAACCCTTCCAATTCTTTTTTTTCTTTTTCTTTTGAGGAGAAATTAGAAATCACCAAATTACCATTTTTAGACTATTTATGT
Celera SNP ID:            hCV7522261
SNP Position Genomic:     136425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52075):
TTTTATAAAGTTCTATTGGAACACCTGTTCATTTCCTTATTGTCTATAGCTGCTTTCCTGCTACAGTGCAGAGTGGAGTAGTTGTCACAGAGATCATATG
R
GTTTTAAGTCTTAAATACTTTCTGGCCCTTTGCAGAAAGTTTGTTGGCCTTTAATCTAGAGCTTGACATAGTAGAGAATAGGAACCAGAATCCTCCCTCC
Celera SNP ID:            hCV7522334
SNP Position Genomic:     127681
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52076):
CCATTTTACAGATGAGGAAACAAGGTTAGAGAGATTGCATGACACTTATTAAAATCCATCAGTGTTACAGAGGCATTTGTGAACTACAAGGAAATACCTC
Y
ATTCTGGTTAATTCCGGCTCAGGATCACGGGCTGCCAGCTGCATCTGTCAGCAGTGTTGGGGACTATGAAATGGAAGGGCGTGGTTATCCTCCATGAAGT
Celera SNP ID:            hCV7522408
SNP Position Genomic:     42481
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,11)      total(C,2|T,11) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52077):
GCCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGTATGGTCTCTATCTCTTGACCTCGTGATCCCCCTACCTTGGCCTCCCAAA
Y
TGCTGGGATTACAGGCGTGAGCCACCATGCCCAGCCAGGTTTGTTTTTTGTTTAGTGGAGCTAGTAACTGACGTTCTCGGACCTCAGCCTCCGTGCTACT
Celera SNP ID:            hCV3078708
SNP Position Genomic:     57378
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52078):
CCTGCACCATCTCTAATGGATGCTCTCTGACTTCCAACAAGCACCATTAAGAACATCCCTTTTAGTAAATATATGTTGTAATGGAATAGATTTTTTTGAA
R
TGACCTTATCTCAGGCAGCATGCACTTTCATAAGAATGTATTGATTGGCCTTTAAATATTCCTCAAATGTTTTCACTTGTCTCTGTGACCTAATATTTGT
Celera SNP ID:            hCV3078709
SNP Position Genomic:     57581
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52079):
ACAGAGACGCCAACGACAAGAATGAAAGTCTCACAGCTTTGGATGCCCTAATCTGTAATAAAAGCTTTCTTGTTACTGTCATCCACACCCTTGAAAAGCA
R
AAGAACTTTTCTGTGAAGGACAGGTATTAGTCCATTCTTTGATGTTTTAAAAGCCTTTAAGAAAAAATCAGGCCGGGCATGGTGGCTCATGGCTGTAATC
Celera SNP ID:            hCV7522339
SNP Position Genomic:     117023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52080):
CAGAATGGAATCTTTCATGGATCTTCAGATCCTCACTTTAAATAGAAGATAAACAAAGCTGGTACTGCGAGCCCAAGCAAAATAGCTCCAAAATAGCTGG
Y
TGAATCCATCCCTGTGCCTGTTCGAACGTCAAAGCGTTGGACACACCATTGTCTATAATCCTAATGAGTCTTGATAGCTTTTGTTCTAGCCACACATTTA
Celera SNP ID:            hCV25761284
SNP Position Genomic:     105897
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,36)   total(C,64|T,2)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52081):
TGTCCCTATCTGTTTTGTTTTTGTTTTTGTTTTTAAGAACTGTAAAGATTGCTATTTGTTTTCATTTTTGGTTTTTGAGTTACCATGTCCCTCTGATGCA
K
CATCTCTGTCTCTTAGCGGCCGTGGGGGTGACCAGGCACAAATCGAAGGAGCTGAGTCGCAAACAGAGTCAACAACTAGAATTGCTGGAAAGCGAGCTCC
Celera SNP ID:            hCV25762800
SNP Position Genomic:     112082
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,38)   total(G,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:52082):
CCCAGATTCAAGTGATTCTCCTGCCTCAGCCTCTCTAGTAGCTGGGATAATCTCCCCTTTTTATAAGGACATCGGTCATGTTGGATTAGGGCCCACCCCA
R
TGACTTCGTTTAACCTTCCTTACCTCTTTAACCACCCACGTCTCTAAATACAGTCCCATTCTGAGGCACTGGGAGTTAGGGCTTCAACATACATTTTATG
Celera SNP ID:            hCV16059232
SNP Position Genomic:     99811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52083):
CGCCAAGAGGGTCAGCTGGGACTTCAAGACGGCCGAGAGCCACTGCGTAAGTCCTGCCCCCGGGGCGCCGCGGAGAGCGCTGCTGCCGGGGAGCCGCCGC
M
GCCGCCGAGGCAGAACGAGCTGGGGGCGAGCGGCGGGGCGGGGGTACAGCCGGGTGACATTTACCAGGTCTCAGGTTCACACCGCGGGCGGCCGTCCGAA
Celera SNP ID:            hCV25762591
SNP Position Genomic:     7365
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,3)   caucasian(C,16)   total(A,1|C,19)
SNP Type:                 INTRON


Context             (SEQ ID NO:52084):
AGAGCTGTGGACAGCTGTTTCTTTCACACCCAGTGACCGCTTTGCTTATATGCACTGAGAAACGTGAAGTTATTTGGCCTGGTTTTAGAGAGATGGAATG
Y
AGCTGTTATTTATACGGCGTACCAAATAGGAATTTACACTTTGCATGTCATCTGTAATTCTACCTTGCCCAAAGTGTTTCCTGTCTCTCTAAATAACATA
Celera SNP ID:            hCV27986977
SNP Position Genomic:     100719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52085):
GATGAGGGAATCGAGGCCCAGAGAAATGGGATGATTGTTGTTCAAGGTCACACAGGGGCAGAGCAGGGATTTGAACCTGGAATGACTTCAGAGACTGCAC
R
AAGATCCCCTATGCTGCACTGACTTTGCAACCTCTGCCGCACACATTGGTACTACTCTCTGAGGATTCCGGGGGCACATGGGAGACATGCAGATAGGGTT
Celera SNP ID:            hCV28008905
SNP Position Genomic:     28860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52086):
CATTTTTATTTCCATGCTGCTGTTTTTTTAAATGGCTCCCCTAAATTATTTAGTTCATGGTTTGCATTTGGAAATAAACACCAACTTTTAGTACACTCAT
Y
GCCCACAAAAGAACCACATGGAGCAAAGGCCACAAACCCATTTTGTGTGAGTGTTTCAGTCTGCAAATGTGTTTTTTATGTGCTAAATAGCTCAAAGTTT
Celera SNP ID:            hCV3078710
SNP Position Genomic:     58105
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52087):
TGGGAATAATTTCAATACACTGTGTAAAATGCTCTAATAGCTGGTACTCAAGGTATGAAAGGACTCCAAAGAACCCTTTAATATTTAGGAGGAAACAGAG
Y
TGTGATTAAGAATCCCCCAAGAAGCCTCGAATTGTGTCTGCCTCCTTACATAGAAAAGGCATGTTGGGCATTGAGCTGGTGTGTGAGCAATGCCAAAGGG
Celera SNP ID:            hCV3078712
SNP Position Genomic:     58549
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52088):
GACAGGGTTTCACCAGGTTGGCCAGGATGGTCTTGAGCTCCTGGCCTCAAGTGATCTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACTAGCAC
Y
GGCCTCTTCCTACTACTCTTGACCCGACTACATGGTTCTCACCCTTGAATGCTTAGCTGAAATGCCATCTTTCTTCACTAGCCTGTCTAAAGTGGGTTCC
Celera SNP ID:            hCV3078713
SNP Position Genomic:     59368
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52089):
TTCTTTTTATCAGAACAGAGACGCCAACGACAAGAATGAAAGTCTCACAGCTTTGGATGCCCTAATCTGTAATAAAAGCTTTCTTGTTACTGTCATCCAC
M
CCCTTGAAAAGCAGAAGAACTTTTCTGTGAAGGACAGGTATTAGTCCATTCTTTGATGTTTTAAAAGCCTTTAAGAAAAAATCAGGCCGGGCATGGTGGC
Celera SNP ID:            hCV7522340
SNP Position Genomic:     117009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52090):
TGTTTGCCCTGTATGTGTTTATCAAATGCCTGCTCTCCACGAGGCACTATGGAATAGATACCAGGGATGGGTGTTTTTAGGAGCTTGCAGTCTAGAGAGA
Y
AGACTCATCAACCAAACTTACCTGGGGATGAGTTTGAAGAGGAAGGCAGGGGCCAGATCACAGTGTTGGGGTCAGAGATGGGCATGGAAACATGTATTGC
Celera SNP ID:            hCV3078714
SNP Position Genomic:     60096
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52091):
TTGTGGGTTTTTTTTGGATCATGAATTCAATATTGAATAATTCATTGTCTTGGAAAACCCATTGTGGGTCTACTTTCTAACTTTAAACTTATATATGATT
K
TGTATTATACTATATATTTTTTTCTTTTTATCAGAACAGAGACGCCAACGACAAGAATGAAAGTCTCACAGCTTTGGATGCCCTAATCTGTAATAAAAGC
Celera SNP ID:            hCV7522341
SNP Position Genomic:     116887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52092):
AGTCACCTTAGGTAGCTAGTGAACACTTGAAATGTTGCTAGTGTTTTTAATTAAATGTAAATTTTTAATTAAATTTAAATAGCCATTATGTGGCTAGCGG
M
TGTCATATTTGATAGTGCAGCTATAAAGTCGTTTTAAAATGACTTGAGACACACACCTTTCCCACCTCCCTTAGGACCTAACTGCTTCTGTTTTAAAAAG
Celera SNP ID:            hCV7522414
SNP Position Genomic:     36082
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,7)      total(A,1|C,7) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52093):
TACCTGGGGATGAGTTTGAAGAGGAAGGCAGGGGCCAGATCACAGTGTTGGGGTCAGAGATGGGCATGGAAACATGTATTGCAGACTGAGGTGCTGAAAG
K
CATGTAGACAGGAGAGTCTGGTATGGGAGAAAGGGTGTCATGAGAGATTTTTAAGCAGGGAGTAACATCATCAGCTCTGTGCGTAAGAGTAACCCAGATG
Celera SNP ID:            hCV3078715
SNP Position Genomic:     60215
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52094):
GCCAGTCACCTTAGGTAGCTAGTGAACACTTGAAATGTTGCTAGTGTTTTTAATTAAATGTAAATTTTTAATTAAATTTAAATAGCCATTATGTGGCTAG
Y
GGCTGTCATATTTGATAGTGCAGCTATAAAGTCGTTTTAAAATGACTTGAGACACACACCTTTCCCACCTCCCTTAGGACCTAACTGCTTCTGTTTTAAA
Celera SNP ID:            hCV7522415
SNP Position Genomic:     36079
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52095):
GGGTTTGTTTTTTGCCCTTTGTACCCACACACACCACAGAGAGGTTAGAGATCTAAAATCCTTTGAGACTCCTCTTGACTTTTATCTCAGAGGACTATTT
Y
TTCTCCACTGTGTGGACACACCCCGGTCAAGTGCAGGTTTTTATTCACTTAGGAGAGGGGAAGAGGGGAGGAGGAGAAAATAAAATCAGAGATACCAAAT
Celera SNP ID:            hCV7522416
SNP Position Genomic:     27140
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52096):
GGGGTAAGCATGGGTTGTAGAGGATGCTTAGAATTCGTTTGGGTACAAGAGTTACCCAAACTAGCCAAAGTAGGCACAAAGTTTTGTAATTTGATCCGCC
R
TGAGGATTATTGCTCATTAAACCAGACCAGGTAGTGGTTCCCAACATGTGTGACTAGAATTTCTCATCCCTCAGAACATCCTTCAACAAAAAAGCTGGAA
Celera SNP ID:            hCV3078716
SNP Position Genomic:     60500
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52097):
ATCAAATCATGTGAAAAGACATCGCCTGGCATGTTAGATGTTTTTGCTTAAAAAAAATCTTTTAATTGTCTCTGTTATTAGCATAATTTTATCATGTAGA
Y
TGACTTTCAGCTTCAGTGATGAAGATCCAATTTTTGAGCTTTCCCAGCAAGTTATTTTGGTCTTATGTTTTGGCATTCCCCTCTTAAAGAGTCTGGAGGC
Celera SNP ID:            hCV3078717
SNP Position Genomic:     61802
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52098):
TGGGCGTCCTAGCTGTCCAATGTGGGCTGAATCTGTTTGCAAATGAGTGGATACTAATGCCAACAATAGTAATTGTACAGGTTTTATTGCCGATACTATC
R
TCAAGCCTTTCCCAGCAGCCTGGCCCCGTGCTAAGCCCTTGAATGCATGATCACATTTAATCTCCCTAACAATGCTAGAAGGCCGGTACTGTTATTACAC
Celera SNP ID:            hCV7522271
SNP Position Genomic:     135101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52099):
AAATCATGTGAAAAGACATCGCCTGGCATGTTAGATGTTTTTGCTTAAAAAAAATCTTTTAATTGTCTCTGTTATTAGCATAATTTTATCATGTAGACTG
R
CTTTCAGCTTCAGTGATGAAGATCCAATTTTTGAGCTTTCCCAGCAAGTTATTTTGGTCTTATGTTTTGGCATTCCCCTCTTAAAGAGTCTGGAGGCCTT
Celera SNP ID:            hCV3078718
SNP Position Genomic:     61805
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52100):
TTTAGCCCAGTGACTGCCTGATGTTCATAGTGTTATCATCATCACTATCATCTCTATTATTATTACTTTGAATTTTTATTGTGGGTTTTTTTTGGATCAT
S
AATTCAATATTGAATAATTCATTGTCTTGGAAAACCCATTGTGGGTCTACTTTCTAACTTTAAACTTATATATGATTTTGTATTATACTATATATTTTTT
Celera SNP ID:            hCV7522345
SNP Position Genomic:     116809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52101):
AGTAATGTTTCCTCCATGCCAGTCTGTGGTGGGGTAATTATTCAGGGATATTATGGGTTACACATATTTCTATGAACCCAGGAAGCAAACCCACTGTATA
K
AAAGACTTTCTAAGTTTTCAAACAGTGAACTTAGAAACAAGTGTCTGGGACCTTCCTGTTTATGACTTGGGGCCGGAGTAGGTTTGGAACTTTTTTTTTT
Celera SNP ID:            hCV3078719
SNP Position Genomic:     63480
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,7)   total(G,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52102):
GGTTGATAGTTTTGGAACTGTTCCCTTCCTTGACTACAAACATTTTGCTCTGAGAACTTTCTTCCCTGAGGTAAAAGAGCATTGATCATATTCCGAAGGT
Y
GAGTCTTGAATAATAATGAAGGTGCTTGTTGCTGTTGTCAAAACGAGTGTTTGCTTCCAAGGCAGCTATAATGTGCTTGGTACAAAAATAATGGCTTAAG
Celera SNP ID:            hCV7522346
SNP Position Genomic:     112639
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,13)   caucasian(C,30|T,2)   total(C,53|T,15)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,501|C,976)   total(C,976|T,501)no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52103):
ACATTTGGAAACGTCTCTTGAAAATGTGAAAGATTTGGATCATTGGATCCCAAATTTCCATAGCATCAGTTTATTAGAGCTGAGTAGCAGCTACGCCCTA
R
AGAGAGGGAATGTGCTCCCTAGGTTTTGACCACAGTCGCCACCACTCCATATTGTCTCCACCTAGGCCATTTAACTCATCTATGTACCTGATATCTGTAG
Celera SNP ID:            hCV7522347
SNP Position Genomic:     110037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52104):
CGACATACACAGAGGTTACACAGCTGGTTAGGGATGGGCTCAGAGGTCACCCAGCTGGCTTGCGGTGGACTGGGATGAAAGCCAGGAGTCTACTGGCTTC
Y
ACTGGGTTCATTGCTGGCAGCCTCCTCCTTATTCAGAGATACTGAGCATGGAGTGGGCGTCCTAGCTGTCCAATGTGGGCTGAATCTGTTTGCAAATGAG
Celera SNP ID:            hCV7522278
SNP Position Genomic:     134947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52105):
CCAGATGCTGTTCTAAGAACTGTGCGGTTACTGTTGTTATGCCCTCTTTGCAGATGAGAAAGCGACATACACAGAGGTTACACAGCTGGTTAGGGATGGG
Y
TCAGAGGTCACCCAGCTGGCTTGCGGTGGACTGGGATGAAAGCCAGGAGTCTACTGGCTTCTACTGGGTTCATTGCTGGCAGCCTCCTCCTTATTCAGAG
Celera SNP ID:            hCV7522279
SNP Position Genomic:     134885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52106):
AAAACAACTTGCAAAGTGAGTATGTAAATGATGGAAGAAAATGTTGGCATCTGTTTCATACAGATTTTACCACTCACAGCATCAGGTATGCAAAAAACAG
R
ATTGTAACGCTAAAACCACAATATCTAAAATAACTGTTCTAATTGTCAACAGATTCTAAATAAACTAGAAAGAGAACGAGGGCTGGAAGAAGCTCAGAAA
Celera SNP ID:            hCV27490824
SNP Position Genomic:     162435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52107):
ATGTAGCGTGTTTGTCAATCCTCCAGTGAAAAGCACTATCTAGATCACATTTTGGATCACATTAGCCAAATGCAGTAAATGGCCAAATTAGATGTGTGCT
R
AAGACAATCAGTCACTGGGTCTATATTAAACAGCAACCAGAGCAACAAATGGCAAACAATTTCTATTTTCAAGTTTCTTTGCATATTTTTTTGGTGCAAA
Celera SNP ID:            hCV29016814
SNP Position Genomic:     164701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:52108):
AGTCTTTTTAAATTAACTTTTTGGTTTGGGGGATTTTTTTTTTTTCCTTCAGGCAATCTTTTCTTTGCATTTGGGCAGGTTCTGTATTCTAATTTGCAAA
Y
AGGCTTGTGTCTGCCTGCAGGCTTTATCATGAAAGTATTAGCTCTAAGTGGAAATAAGGACTAGAAAAATAAAATACTGACTGGGAGTCTGAGGACTTTG
Celera SNP ID:            hCV3078720
SNP Position Genomic:     63872
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52109):
GAACCAGCTTCGTCATTCTGTTTTTCAATCCAGCAGTGCTTGTCTCTCCGTTGCAAACTCTCTCTGACATTGACAGGCGGTTTAATTTGAACTTAATGTC
Y
TTGACGGATGAGCTAGCCATCAAGGGTCAGATAAATTTATGGCTTTGGAGAATTGCCGATGAAAATCCCCATGGTTATAATGTTGGAGAAGAAACTGACA
Celera SNP ID:            hCV3078722
SNP Position Genomic:     65442
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,10)      total(C,3|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52110):
AGCGAGTTCTCACTCTGAGTTCACAGGAGATCTGGTTGTTTAAGAGAGTGTGGCACCTGCCCCCTCACAGTCTTGCTCCCACCCTAGCCGTGTGACACAC
S
TGTTCTCCCTTCGCTTCCAGCATGATTGGAAGCTTCCTGAGCCCCTCACCAGGAGCAGACACTACCCATGCTTCCTGTACAGCCTGTAAAATCATGAGCC
Celera SNP ID:            hCV16263212
SNP Position Genomic:     53754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52111):
TTTAGCATCATGTTCCTATTCTCGCTCAAATCAATAATCCACTGTACAAAGTCTGGCATTTTGTACTGAAGCCAAGTATAAGAAAGTTTTAACTAATGCA
Y
GTATGGGGTCGCTGTTTTAACTAACACACGTATGGGGTCGCTGTTTTGTTGCCTCGTTTTTTTAGGTGCACTTTTCAAGGAGATTGTGTACATTCAGAGA
Celera SNP ID:            hCV3078723
SNP Position Genomic:     66837
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,13)   caucasian(C,16|T,22)   total(C,41|T,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;JBIC-allele(C,404|T,695)   total(C,404|T,695)
SNP Type:                 INTRON


Context             (SEQ ID NO:52112):
ACAAGCATTTGTCCACGTCCTGGTCCCTGCAGCTGGGGAAGAACTGCAGTTTAGTGTCCGCTCCAACAAGTTGTGATTGTCATTTCTTAAACAGTGACTT
S
CTTTTGGTTCCAAGTAGCAGAAAACGCAACCAACAGTGGCTTAAACCATGACAACTATTGTTAACTTAGTAAAATGTTTAAAAGTTGAAGGTCTGCGGCT
Celera SNP ID:            hCV7522423
SNP Position Genomic:     22910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52113):
AATGTGACCTCCAGTACTGGAGGTGGGCCTGCTGGGAGGGGTCGGGTCATGGGAACGGATCCCTCATGAATGGCTTGGTGCTGTCCTTGGCAATAGTGAG
M
GAGTTCTCACTCTGAGTTCACAGGAGATCTGGTTGTTTAAGAGAGTGTGGCACCTGCCCCCTCACAGTCTTGCTCCCACCCTAGCCGTGTGACACACCTG
Celera SNP ID:            hCV15902123
SNP Position Genomic:     53656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52114):
CTCCCACCCTAGCCGTGTGACACACCTGTTCTCCCTTCGCTTCCAGCATGATTGGAAGCTTCCTGAGCCCCTCACCAGGAGCAGACACTACCCATGCTTC
S
TGTACAGCCTGTAAAATCATGAGCCAATTAAACCCCTTTTCTTTATAAATTATCCAGTCTCAGGTATTTCTTCATAGCTATGCAAAAAATGGACTAACAC
Celera SNP ID:            hCV16263213
SNP Position Genomic:     53829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52115):
AGAGTGAATAGATTTGGTGGAAAAGATTCTTAGGCATCTAAACATAGGTATATCCAAATTCTAATTTCTCTCATCAGTCTGAAAAATAGCCAAATTTGGC
R
CTAATAGAGAATAGTAGAAAGTAGAATACCATAATCCTTGAATATACCCAGGACTCTGATAAGTGGTTAAAATTCTGGAAGATTTTTTTTCTTATGTTAT
Celera SNP ID:            hCV3078724
SNP Position Genomic:     68224
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52116):
CACACACGTACACACACAAACACACACACACCTCAGGAGCTTTGGTCCCAGTTTGCTATATCAGGCCCAAAGCTCTTTCTCTCTTTCAGCCCAAACATCG
Y
TTGAGCCAAGGTAGCTTTCTCCTCCAACTGAGAAAAGTTTCCCTCTTAGAGCCGGCAAACGTGTAGGCGTGACGTTATGCTTAGACACGGCAGGAAGGAG
Celera SNP ID:            hCV7522424
SNP Position Genomic:     22078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52117):
TGCTTATACAACTTCCGTACCTAGCTAGGGGCTCACTATTACAAATTAATCACTGTTTATATCTGGTCTGGTACATTTCAAAACTGCTTACCACCCAAAC
R
ACCACTGGTGTTTTCTTCCTCGCCCTAAGTCCCACTGTGGTTTACCCTAATCTTCCCAGAGACTTCCCACACAGCCACTGCCTCACTCTCTCCAGCTCAC
Celera SNP ID:            hCV3078725
SNP Position Genomic:     68499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52118):
GGCTTAAACAACAGAAATTTCTTTCTCCCCGGTTCTGGAGGCTGAAATCATGGTGTTGGTAAGATTGGTTTCTCCTGAGGCCCTTACACCTTGGCTTGTA
R
ATGGTCATCTTCTCTCTATGTCTTCACGTGGTCTTCCCTCTGTATCTCTGTCCTAATCTCCCCAATTTTTTTTTTTTTTTTTTTTTTTTTTGTGACAGTC
Celera SNP ID:            hCV15902124
SNP Position Genomic:     99549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52119):
AGGCCCCACCTCCAAGTACCATCACCTTGGGGGTTGGGATTTCAATACCTGGAGTTAGGGGGACATCAATATTCAGATCATAGCAGCATTAAAGACAAGA
W
ACACCCCTGAGAACCTCCCGAAATTTCAGAAGCCCCACATCCACGTCAGTGGTCCATAAGTCACGGGCTCACATGCCAGATGCTGTTCTAAGAACTGTGC
Celera SNP ID:            hCV7522280
SNP Position Genomic:     134709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52120):
GCGATTCTCCTGCCTCAGCCTCCCAAATAGCTAGGATTACAGGCACATGCCACCACGCCCGGCTAATTGGAATAAAAGTATTCCTTAAACAATATGGTTC
Y
TAGAGGAGAGACACTAGAAACTTTTTTTTTTTTTTTGACAGGGTCTCCCTCTGTCATCTAGGCTGGAGTGCAGAGACGTGATCATAATTTACTGCAGCCT
Celera SNP ID:            hCV3078727
SNP Position Genomic:     71380
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52121):
AATAAATATTTAAATATCAATAACCTTACTACATGTTAAATAAAACAAACTTTTAACTTCATGAATAAAAAGTCCTATTCATAAAAACAACAGAACTACT
S
AGCTATAAACTTAAAGAGCAAGGTACATATCCTGCATTAAAACCATTTTTACTAAGAGATATGTGTTGGAGTCAGCTACCAAAAATAGTAATTTTGCTTT
Celera SNP ID:            hCV3078728
SNP Position Genomic:     72045
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52122):
AATATTTAAATATCAATAACCTTACTACATGTTAAATAAAACAAACTTTTAACTTCATGAATAAAAAGTCCTATTCATAAAAACAACAGAACTACTGAGC
Y
ATAAACTTAAAGAGCAAGGTACATATCCTGCATTAAAACCATTTTTACTAAGAGATATGTGTTGGAGTCAGCTACCAAAAATAGTAATTTTGCTTTGAAC
Celera SNP ID:            hCV3078729
SNP Position Genomic:     72049
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52123):
AATTCAGGGTTCCATAGCTGAGAAACAGAGCAGGTGGCAGAGCTGGTATGGAGAGCTTCAGCTATCCGGGTCCAAATCCATCCTCCAGCTACTGTGCTCA
R
ATGCCTCCACGGGGGCAGCATGAGTCCAAGGATGGAAACACGCCTTAATACTTGTATGTACATCAGTGAAATAATTAAGCTTCATGTAGAGTTTTTCCCT
Celera SNP ID:            hCV7522356
SNP Position Genomic:     107829
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52124):
CCACCAGCCTCCTCTGCCTGTCCTTCTGTACACCTAAACAGGACAATATATTTATGTTATGTATTTACTAACTTTTTAAATTTTATTTTTTATATATATA
K
AGAGAGACAGGGTCTCACTGTGTTACCCAGGCTGATCTCCAACTCCCGGGCTCACGTAACCCTCCTCCCTCCGTTTCCCACAGCGCTGGGATTACAGGCG
Celera SNP ID:            hCV7522357
SNP Position Genomic:     104404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52125):
GGAAGGTTGTGCTTGTCCAAATCTCAGCTCTTTACATCATATTTTCCCACCAATTGCCTCTTCCTATTGTCTTTTTTATGCTCTAGTATCAGGGGGTGGC
R
GGGGTGGGGGAAAAATAGTTTTTCCCACCTGATAAATTTCTTTTTATGAGTTATAATTGCTTTTCTGTAGAATGTTTGCCATCCTCCCCTAACCCACCAG
Celera SNP ID:            hCV7522358
SNP Position Genomic:     104210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52126):
CCTGGGCAACACAGCAAGACCCTGTCTCTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTTAGCCAAGCATGGCAGTGTGCACCTGTAGTCTCTGCTA
Y
GTGGGAGGCTGAGGTGGGAGGATTGCCTGAGCCTGGGAGGTCGAGGCTGCAGTAAGCCATGATCACTGCACTTCAGCCTGGGCAACAGAGTGAGACCCTG
Celera SNP ID:            hCV11492751
SNP Position Genomic:     131539
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,10)      total(C,2|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52127):
CCTCTTTTATAAGGGCACTAATCCCATTTATGAGGACTCTGCCCTCATGATCTAATCCCCTCCAAAGGCCCCACCTCCAAGTACCATCACCTTGGGGGTT
R
GGATTTCAATACCTGGAGTTAGGGGGACATCAATATTCAGATCATAGCAGCATTAAAGACAAGATACACCCCTGAGAACCTCCCGAAATTTCAGAAGCCC
Celera SNP ID:            hCV7522288
SNP Position Genomic:     134644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52128):
GTAATTCTTGATAAATATTTGATTTAATAAGTGACAGCATGTAAGATCCATCCAGCCATCTAATTCCTGGGTGAAGTTGAGAAATCCATTAAATTTTGAA
M
ACTCATATATCTTTTATCTTTGGTTTCAGATATCAAATGGATCCACTATAAAAGTCTTTAAGAAGATAGCAAATTTTACTTCAGGTAACCAATATAATAT
Celera SNP ID:            hCV11492755
SNP Position Genomic:     151763
SNP Source:               Applera
Population(Allele,Count): african american(A,22|C,6)   caucasian(A,7|C,7)   total(A,29|C,13)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(A,1|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52129):
GTGGTGGGGGTTCAGCTACATTGGAATATTATAAATTCCTCCATCTTTTTTTTTTTTTTTTTTTACTCTTTTGGTGATGGTTGCTTTTTTTTTTTTTTTT
Y
CCCCAGGAAGCACCAACTAATAAGCTTCTCTATGCCAAGGATATCCCAACCTACAAAGAAGAAGTAAAATCTTATTACAAAGCAATCAGGGATTTGCCTC
Celera SNP ID:            hCV11492756
SNP Position Genomic:     161056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52130):
TCAGTGAGAAGAGCTGAGGGAGAAGACGATACTGACGGAGGGAGAGCAATATTGGCACGTGGCTGCTGGGACAGCATGTGGAATAGAATTCTGTTTTCAC
R
TAATATTGTTTCAGCAGAAAAGGTGATTTCAGGAATGAGAGATTTCAATCAGAGTTTCTGTGTAGTGATTTGATTCTCATGTTTTCAGATTTTTTTCTTT
Celera SNP ID:            hCV29016821
SNP Position Genomic:     146138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52131):
AGGAGAGCATATGCGTGAGCAAGCTAACAGGGCCCCACTTCCCTCAAATGTTCATCAACATTTTAAAGTTGAGCTCCGTGCAGTCCTCCCAGGAGACTGT
Y
GTGGGATTTTATAGCAGATAATGGGACAGAAATGAAGAATAGAATCATGGTGGTGACAGACAGTGTAACGAGGTTCACTTCCCCTTGATGTACAGTTATA
Celera SNP ID:            hCV29016822
SNP Position Genomic:     137622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52132):
GGTCCCAGTAGAATGGCAGGGAACTGTAGCCATCAAAGCCATTTATACTTCTTGTGGGTAGTATTTTTAAGATGTTGTTTCTTTTTCAAAATGAAGCAGC
R
ATGAACTGAGTAGTGATCAAAATGCCGCACCACAGAGTATGTTTAATCCAAATAGCTCCCAAGATGGTCTGTGACTGATTGTACCAACTCTACGGGACTT
Celera SNP ID:            hCV27828128
SNP Position Genomic:     3433
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,40)   total(A,71|G,1)
SNP Type:                 hmCS


Context             (SEQ ID NO:52133):
TGTGTGTTTCCAGCACAAAAGAATCCATTTCCATTCAGCCAGAGCAGCCCCTAGAGTTTTCATGAGGTCCAAGCCTCCTCTCCTGTTTTCTTCCAGGCTC
R
CTGTTGTAATAGGCTGCAAAATCCTGACTGTGGCCAGGGTCCTCCAGGCTGGTGAGAGGAACAAGCATTTGTCCACGTCCTGGTCCCTGCAGCTGGGGAA
Celera SNP ID:            hCV554705
SNP Position Genomic:     22749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52134):
ACACCCCTGAGAACCTCCCGAAATTTCAGAAGCCCCACATCCACGTCAGTGGTCCATAAGTCACGGGCTCACATGCCAGATGCTGTTCTAAGAACTGTGC
R
GTTACTGTTGTTATGCCCTCTTTGCAGATGAGAAAGCGACATACACAGAGGTTACACAGCTGGTTAGGGATGGGCTCAGAGGTCACCCAGCTGGCTTGCG
Celera SNP ID:            hCV29016823
SNP Position Genomic:     134810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52135):
TGCCTCCCATTCATCTTTCCCTTTAGAAACTGAAGTAGCTTAACTGCAATTACCCGCCACCATGAGAAGATCACCTTGCAGAGAAATAAGGCAAGACCCC
R
ACAAGATCGTAGGTGGTGGCACCAGCATTGACCCCTTCACACCCACCCCTCCCACTGGTGTGGGGAATTTAGCTTAGGACATTGCTTACAGCCTGAGCTA
Celera SNP ID:            hCV29016824
SNP Position Genomic:     133632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52136):
AAAACTATTAAACAAGCTGAGATTGCTGAAGCTCCGATTAAAAGGTGCCTCCCATTCATCTTTCCCTTTAGAAACTGAAGTAGCTTAACTGCAATTACCC
R
CCACCATGAGAAGATCACCTTGCAGAGAAATAAGGCAAGACCCCAACAAGATCGTAGGTGGTGGCACCAGCATTGACCCCTTCACACCCACCCCTCCCAC
Celera SNP ID:            hCV29016825
SNP Position Genomic:     133587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52137):
ACAAGGACTATGTCATAACATCTCTCTGACATCCCAGCCCTAATACTAAATAGGGCAGGAGAACATGCTGGTTAAATGGGCTTTGGTGGGAGTGTGGGAG
S
CGGAGAGATGGCGCTTCCATCGAGGTGTCTCCCCCGATGGGGTACAGTGGCTGAGGGCAGACGCTGTGATGTCACGCTGTCTGACATGGCACAGGCATCT
Celera SNP ID:            hCV29016826
SNP Position Genomic:     132668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 249
Celera Gene:                 hCG401253 - 79000075389940
Gene Symbol:                 COL6A2
Protein Name:                collagen, type VI, alpha 2;DKFZp586E1322;PP3610
Celera Genomic Axis:         GA_x5YUV32W8NG(545265..592837)
Chromosome:                  Chr21
OMIM number:                 120240
OMIM Information:            COLLAGEN, TYPE VI, ALPHA-2;COL6A2


Genomic Sequence (SEQ ID NO:12409):
TCCCCTGGCTCCTCCTGGTGCAGGATCGATGAGGCTCTTGCCCACAGCCTTTGTCCCCCGACTTCCTACCACCTGGTGTCCTCACCCCATCTGGGCCCCG
AGCACACAGCCTCTGGTCCTGGTTTCCACTGAAAATGTAAACTATGGTCCACGCCACATTCTCCAGTACTCCTGTGCTATTGTGAAAGTAAAAGACAAAA
ATACACGTGCTTGGCAGCCCGAGAGCCTGGGTGAGATTATTGAGAATAATGCGGTGGCTCTGGCTTAAAAAATAAAAGCCGGAGGATCTACCACCAGCTC
TGAACACACACCCGTGACACAAACTGACTCATGTGCAATTGCCCATTAGTGGCAGGTCTTGCCATTTTTCGTTTTTTTCTGAGTCGAGATCAGCTGCGGC
TGGGGAGAACATTAGTTCTGTCTGTCGGCTCCATGAGTAAGCAGAGGAAAGTCTGACTACAGAGGCATCTTCTCAAATGTCCATGAAAGGCTGCAAGCCC
GAGAGTAACGCCCCTGCTGCCCTGAGTGGTCCACGTGGTGTCCAGAGTGTGAGAAAGCCACAGAGAGCTTTTCCACACGGAGCCACTTAAGGCCTGCCTC
AGCCTGAGAACACTTGGGCAGAAAAGGACAGCACGGCTTCCTCCTCCTCCAGGCCGGGCCTACAAGCACCCACAGTTCCGACAGAGAAAGTCTCTTCTTA
ATGGTACGCATGTGTCTTACTGTAGCTCCCAGTTAGTCCCCTAAGCGTGAACCACCACCCACCCATGCTGCTCCCCTCCCACCATCTCTCCATAAACAGG
ACCCAACGCAGCCAAAAACTCATGGTCATGTGACCTTGGCATCAGCTTGCTCGTTAGGAACCGTGCCTGGAGGTGCTCTGAGCACTGACTGCCAACCTCA
GCAGGGCCCTTTGTGGTGTTGAGGTGTGGTGTCCGCAGGGCAGCCTGCAGCCTGCTGGGGTCCAGCCTGGGGCCTCAGGTCCTGGGAACCCTGGTTGAGG
CTGGGCTGCCTCAGTGCCCCTCCGCAGCCTGCTGCACCCAAGCACTCTGAGAAAAGGAGCAATCACCCAACTTCAGTCTGAAAATGAGAATGTTGAGAAG
GGCATGATGAGGGGAAGCAGACCAGAGCCCACCGGCAAGGGTAGAACGTCAGCCCCGCCCTAGTGGGACAGACAAGAGAGAAGCCTCCTCACACCAGGAG
GCAGTATAGCCGGAGCCTTCCCTCCAGGGCTCTCAGGAGAGCCTGTGCTGGTTCATGAAAAAGTGAGGCCTCTGGGCTTTGCTGCTGCAGAGTGAGGTCA
GAGCCCACAGGCCCCACAGATCATCCTGCCTGACAAGCACAGGAGGCACCACTGCTTGAATTCAGAGGGCAGCTCCGAGGGTCCTAGGTCCCCTGTGAAT
CTCCACAGAATCCTGGGACCTCAGAGCCTGCATCAGTTGGTCCCCCATGCAGGGACTTAGTGACTCTGCAGCCCCAGTCAGGGCCTGCTCTGTGCCAGGC
ATTGCTCTGCAGACCCAAAGGGACTCCAGGCCAGTCCTCATCCTCAGGGCCCACAGTGTAACACAGAGGCCGTGCCGCAGGCTCTGCTCCTCTGCCAGCA
AGCTGTGCAGTCTTGGGCAGGTTACTTCAGTGCTCTGGTCTCAGCTTCCTCTGCAAGTGGTGGCAGGGCTGTGCTGGAGGCATGAGAGGGGTGTGGGAGC
TGCAGGCTCTGGCAGGTGGCACGCTGGGGTTCTTGGAGAGGGGTGTGTGGCTGCCAGGGGACTACTGCTGTCATTGCCATCTGCAGAGACAAACAGAAAC
CCAACACGGCAGCCATCACTGGGGCCCCTTCATGGGAGGGATAGGGTGGAAATTGCAGGTCCCAGCAAGGCCTCAAAGCAAGTGCCCAGCCTCCCCTGAT
CAGTCCAACCTGAAGCCAGGTCCTGGTGTGCACAGAGATGCACGGCTGGGCTGCCCCACCTGCTTGGGCCACAGGAAGCATTTCTCTAAAGGTGAGCAGC
TTCCTCTGCAGGTGACACGGCCTCCACCCAAACCCAGAGGCTCTGGCTCTCCCACTGCGGCTTGCCGCRGCCCCACACTTGCCTGCTCCCACACTGACAC
CTCCAACACCACAGGGGCTGCTGGGTCACGTGGCCCAGATGGCAGGGCTGCTCAGACAGTCATTTTCTGCTCCTGGCCGCCTCGAAGCTGGCAGCCTCCA
TGTCAGCCGAGCCGTGGGTCAGAGCAGTGCCCCCAGGAATTAAATATGTTGCCTTCAGAACCCAAAAAGGCCTGTCAGGCCCTGTGCTTCCTCCTTTGAA
GTAGGGGATGCAAGATGTAGCAATTTCTCTTTTACTTTAGAGGATGTCCTGGTATGAACCTGATCACTGGTGCCCTAAAAACTTCCATGAAGTTAGGTCC
CTGAATCCTCGGAGTTCACCTCCCACCCACAGATGCAAATGTGTCTCATAAGGCCTCTAGCTCATGACCCTCCTGTTCCTCCTCCTGCCCATTATGTCGT
CACTGTAATGGATCAGTGTGGTGTCCGGTGCACTGCTCAGGTGCCCAGATCTTTTCAGGCAATATTAGGACAGAGGACAGAGTTAGCGTGGCCCTGCACT
AAACTGGGAATGAGTATTGTTGTTCCTCCCATGTAAATGCAAACTGTTTCCGATCCTCTTTTCTAATTGGAATAGAAAAGAATGCAATGGCCAATCACTG
GCCTCATTAATCTGCTACGATGATACGTCTGACACAGCAGATGCAACTGGAGCTACTACCGGGTTCAGGCTAAGTGGTCTGGCGTCACTTTCTAGGATCC
ATCAGTCTTTGCAATGACCAGGCCAGAGAATTAGACACGACAGTCCACCACCCTCGCCTCCGTGAGGCCTTTAATGGTGGTGCCATCCTCCCAGGATGCA
ACGTGATTTGTGATTTACTCTCTTGGCCATGGAAAGGGGACTTCCCCACTATGATGTCTGTCACCACACAGGCCTGGGATCCAATATATGGCTACTCCAG
CCACCAAGTACATAAATTATAATTACATACTCAGGGGGCAGGGAAGCGGCCACTGGATGGTCTTCTGGCCCAGGGGTCTCACTGTGCCCAACACTTTAGC
CAGGATTCCTTTTTATTACCTGGCCCCGTCAGCCCCTTCTCTAACAGGGAGGCCACAGCGACACTTTTGGCCTCCAGTATCAAGGTCCACTCACATCCCG
CGTCCATTTGTCCTCAAAATCTCTGGATTTTCCCAGCGTGCAGCCAGCTGAGTGAGTGACAGCGGGATTCTACAGAACATCCTTGTCAAGGTATTGCCTG
GTCCTTCCTTCTGGTGACCTGGCCACCTCTGCAATCAATGGTTCCAGACAGGAAATTAGCTCAAGTCCAGGAATGGAGTAGGGAACCACGATATTTTACT
GGAGTCCCCGCCCTTGGCCTCTTTCTTCCTTCCTCTGCCGTCCGCCAGGGCGGCTTGGCTCAACATGACCCATCGCTTTCTCCAGGCTTCTGGGAGCCAT
CCCAGAATCATCTTTGACCCACGACCTGCAGAACTTGCCAGGTAACTAATCCTATGTGCCAAGCAAGTGCCTCCGCCTCAATAGTTCTTCTGTCCCCCTG
GATAAAGCACCCTGGAAATCTAATACCGGGGGTGYTCCCTGGCTCCTGCAGGCACATGCTGGCTGCCTCGTGCAGTTCCTGGACATGCAACCTCTCTACT
CCCTGGTCAGGCCTAGCAGGTCCCCATCCAGGTTACCCTGGACTTTCTCCCTAGTCACTGCTGGCAGCCAAGAGACAAGGTGGAGCAGCCCCCAGTGAGG
GCACCTGCTGCTCTGGTAGGGGAGGCCCCTGGAGCATCTTCCAGCACAGAGGAAGTGCTGGCTTCCAAGGGCAGGAGGGGCCCCTCTGCAAGCTCTGAGG
GGACAGGGGTCTGCAGGGCCATGCCCTCAGGGCTTCCACCTGGATGTCTCAGCCCATGTTTCAGGGTCCCAGATTTTCCCAACCGGGGTCCAGACCTTCA
CATAGGCCAGCCGTGGCCAGGCATCAAAACATGCCTAGAGCTAGGTGGTCCCCACAGTCACTGTCGGCTCCTCAGCCATACTGGTTCTACCTCTGCCAAA
CATGGGACTCCTTTTCAGCAACCAGAGAGGCCCTTTGTTCTCACACCAAGCCTGATGGGCAACCGTGGGTAACGTCGCAATCTCCATTCATCCCTCTGTG
GAGCATCAACCCCACTCCCCCCATGCACTGAAAGGGGGAAACTGCCACACCCACAAGGCCTCCCCTTCCACCAGGAAAACGTCCCAGATCACTCTTGGTG
AAAACATTTAACAATTGGGGCCCTAACTTTGTGCCAAAGACTACCCATATCCCCACATCAACCAGAATGGTGTCCTCGGTGTTGGCCGGGAAACGGCCAC
CGCACCAGCTGAGTCTCAGGCCCCTCCTGCACCACTTGTGTTAATTGGGGTCTTCCAAGAGGCAGGTGCCATGGAAGCTCTGACGTGACTGGAGATTTAT
CAGTGCAATGTCTGTGAAGGATGCTGGGGGGGTGGCCAAAGAGGACGGAAGCCTCAGACCACAGGTGAGACCCCTGTGAAGGAGATACGGGGAGCCTTGG
CCAGCACGTGCCCCTAGACAGTGCTGGCCAGGCCGAGGGAGAACTTCTGGAGCCAAGGTAACCCCTAAAGGATTCTGGTCTTGTGAGGAGGGGCCTGGCT
TCCCCCTGGGAGCTGCTGGCTTGGAAGCAGGAGGCATTGCCCAGGTGAGAGTTCGGCATGGACCCAGGGGAGTGGCACACGGTGCCCGCCGTCAGCTGTG
CTCAGGAGCAGCAGGCAGGAGCCCTGGACTCATGGCTACCATGTGGCTGCCACACTCAGGCACACTTAGGCACATACACTCACACTCAGGCACACTTAGA
CACACACATCACACTCAACCTCAGACGCAGACACACACCACACACTCACAGATGCACACACAGTCTCAGACACAGACACACACCACACACAGATACACAC
ACCACAGACTCAAACTCAGTCTCAGACACAGACACACACCACACACTCAGATGCACACACCACACACACTCAGTCTCAGACACACACACACACCACATTT
GCAAACCTGCTCATCAGAAGAGGGACCTCGCCCCCAGCCGCTCCGCCACCTTCCAGGACAGCTCTGAAGGGAGCCCTGTCCCGGAGCCCAGGGACCTCTC
CCCAACCCGGCTGCGCCTCACCTCAAGGAGGAACCCCGGCCCTGGCTGGGGGACTGTGACCAGGGTGGGGAGTGGGGACCCCAGACAGAGCCCTACCAGG
GACCCCTGTCACTCTGTCCCCGGCTGGGCTCAGGTGGGGACCTCACGGTGGTCCCAGGGCCCAGCACCAAGCCCACCTGTGGTTTCCAGCGGGAAAGGGG
TGGCAGGGGTGGCTCGCCGCATGCCCAGGCTCTGCCCCAACCTCCGCGCCCAGGCTCTGCTGTCCCTGCCCTCCCGGCTCCCCACCCTCAGGCCCCAGGA
GCAGCAGTTTCTGCAGGAGCTCCTGACCCGGGGCCTCTCGCGGGAGGCCTGAGCAAGCCGGACACAGGACACGGGGTAGGGGAGGGGTGGGGCGGCTGAT
GGGGGGAACCCTGCACCCCCCAGGGCAGCTGCTACCAAGGGGCGAGTCCCAGGGCCCCCGTCGGCCCTGCGTGCGGGGCGCGGTCCCCAACACCCAGGGC
CCCGGAGGCGGACACAGCCCCAGCCAGGTCGTCCGGGAAATGGGGCGGGGGCGACGGGCGGCCGGGCCCGGGACGCGAAGTCCGAGCAGCAGCGGGCAGG
GGCTGGCGGGGGAGCTCGGCCCGGGCTGCAGGGGGGTCCCCACCCTCTCCACCTCCTCCAGCCTCCCGCCCTCGAGGGTCCCCGCTTCCCTCCCATCCCC
CTCCCGTGCCCCCGGCCCCCTCCTCCCATCCGCGGGGCCGCAGCGCTTCCTGGCGGCGGGGCGGGTCAGGCCGGCGGGGCGGGGTATAAAGGGGGCGGCG
CCGGCCGCGGTTCCCTCCCTGCTGCTTACTCGGCGCCCGCGCCTCGGGCCGTCGGGAGCGGAGCCTCCTCGGGACCAGGTGAGCGCCTCCCGGACCCCGC
ACCCTGGAAGCCGCTCGGCCCGCGGGGGGTGACCCCGAGTCCTGGGAAGGCGGCGGCGGCGGCTCCGTCCCTCGGGYCCCCGGGAAGGGGGACTCCAGCC
CCAGGGACGGCGGGGGGCTCGGCGGGTTCGGGGCTCCTCCTCGCGGGGCTGGGGCCGCGCCTGCCCCTGTGGCTCCGCGTCTCTGGGTCCGACCCTCGGG
CGCGCGACTTGGGGCCACCTCCCCGCGGCCTCCTCTGGGGCGGAGCCGGCCTGGGCGGGGTGGGGGGGTCCCTGTCTGCGCCCGAGCTCGGTGCTGGGAC
CCCCGCTCCCGAGACGACCCCGGCACCGCACGCCCCGCCAGGCCCCGCGTCTGCGAGCGGTTCGGGTCCGGCTCCGGCCCGCGGGGAAGACGCCCCGGCT
GGCTGGGACCTCCGGGGGCGCAGGGCCTCTCCCCGGGCCGGACGGAAGGGGCGGCGGGGCGGGGGGAGGAGGGGCTTTCGGTGCCCGAGGGCGGGACTGG
GCGGGGAGGGGACGCGGGTGGCCCCGACGCCCCATCGCTGCGCCCCTCCCGGCCTGGAGCCCACCAGGGCCCCGCCAGGCCCAGGAGAAGCTGCAGACGG
AGGCGGCTCCCCAGGGCGGCGGGACCCGGGCTGACAGCGACCCGCAGCCCCTGCCGGGCCGCCCACACCCGCCCTGGGACTCCGCCGGGGCGCTGGTGGA
ACCGCTGGGCCTGGGTCTCCACTGCTGGCAACCGAACGGATCGGCCCTCTGTGGAGCCGCAGGTGTGCGGGCGAGCGGCGCCCATCCGGGCTGTGCCAGC
AGAACCCCGGTGCCCGCGCCTAGGACGCCCCTGGAGAAGGGACCTTCCCTTTGGGGTCGGAACCCAGAAAGGAGGGGCCTGCGATCCGCGGAGCTCCTTG
TTCTTGGGATAACACAGCTCTGGCTTGGAGGCCCCCTTGCACTTCGACTCTGGTGATTATTTCAAGAAAGGCCAGACCGGGCACGGTGGCTCACGCCTGT
AATCCCAACACTTGGGGAGGCCGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACAGGGTGAAACCCCGTCTCTACTAAAAAT
ACAAAAAAAAATTAGCCGGGCGTGGTGGCAGGCACCTGTAATCCCAGCTAATCGGGAGGCTGAGGCAGGAGAAAATCACTTGAACCTGGGAGGCGGAGGC
TGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGTGAGGGAGCGAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAAGAAAGGCC
CGGTGAGATGCTTTCTCTTAAACACGGCCCTGCACGTTGAGTTGCTGCCTCCTGTGGCCTATTTCACGTTTATGCAAAGTCGGGCGCCTGATGCGGGGCT
CACCCGCCACAAGCAGGGGTCCTGGCGCTGCTCATGGAAGGGGCCCTACCCAGCCCGCGGGGCACTGGCTGGGACGGGGCTGCCCAGGTCCGCCCAGGAT
CCAAACACCCAGCCCCGCCCAGCGGCCCTTCCTGGCCTGCAGTGGAGGCTGTAATGGGCAGGGGTGGTGGGAATCCCAGCTCACAGGGCGCCTGCTCTTA
GAAGGGCGGCATCTGGGTCCAGAGGTCAGAAACGTCAGATGCCCATCCCAGAAGTGGCGGGGAACCTGTCTCCACAATGGATAGCAGCACTGTCTTTTTT
TTTTTTTTTTTTTTTTTCTCATTTCATAGATAAGGAATGATGCCTTGTTGGGGGGTTTGTTCTGCATGTCTTTGGTTTTTGTGCAGTACAAGGCTATTTG
GGCTGTTTGATCACTGACCGTGTGTAGTGATGTGCATTGCCTGGTTGTGATGTCCCCATGTTCCTAATGGATGTTCGCTTTTTGGGTTTTTTTGGTTTTT
TGTTTGTTTGTTTGTTTTTTGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGTGGTGGTGCTATCACTGCTCACTGCAATCTGCACATCCCTGGCT
CAAGCGAGCCTCCACCTCAGCCTCCGAGTAGCGGGGACTACAGGCATGCACCACTGTGCCCAGCTAATTTTCTTTTAAGAGACGGGGTCTCACTATGTTG
CCCAGGCCATGGATGTGTTTGTTTGTTTGTTTGTTTGGGGTGTTTGGGGGTTTTTTTCTTTTTTTATTGATTTGAAAAAGCTTTATTTTCCCGAATTTTT
TATTGTGGTATACAATATAAAATGTACTGTCTTAACCATTTTTAAGTGTGCAGCTAGTTCAGCGACAGTAAGTACATTCATAGTGTTGTGTAGCCATCAC
CAAGGTCCATCTCCAGAACTCTTTTCCTCTTGTCAAACTGAAGCCCATGGAGCACCAACTCGCATCACCCCTTCCCTCCCCTGGCAGCCACCATCCTACT
TTATGTTTCCAGGAATTTGGCCATTTAGGTGACTCATATGAGTGAAATCGTATGAAATGTCTCCTTTTGTGACTGGCTTATTTCACGTGGCTTAAATGTC
CTCCAGATTGATCCACACTGTAACGTATGTCAGCATTCCCTTCCTTTGTAAGGCTGAGCAGTATTCCACTGCATGCATGCCCTGCATTTTGTTTACCCAT
TCGTCTGTTGCTGGACACTTGTGTTGCTTCCACGTTTGAGCTACTGTGAATGATGTGGCCATGAACACACCACACAGATACCTCTTGGAGATCCCACTTT
CACTTCTTTTGAGTATGTTCCCAGAAGTGGAAATGTGGATCATTTGATTTTTTCATTTTTTTGAGAATTAATTGCCTCACTGTTTCCCACGGTGGCTGCA
CCATTTTGCTTTCCTGCCAACAGTGCACAAGGGTCCAGTTTCTCCACATCTGCACCAACAGGTGTCATTTTCCGGGTTCGCTTGGTTTTTTTTAAATGTT
AACCATCCTAATGGGTGTGAGGTGGTATCTCACTGTGGTTTTGACTTGCATTTCCCTCATGATTAGTGACGTTGAGCATCTTTTCATGTGCTTGTTGGCC
ATTTATATATCTCTTGGGAGAAATATCTGTTTAAGTCCTTGACCTATTTTTGAATCAAGTTGATTGTTTTTTGTTGTTGAATTTTAGGAGTTCTCTGTAT
ATTCTGGATATTAATCCCTTATTAGATACACAGTTTACAGATATTTTCTCTCATTCTCTGGGTTCTTTTTACTCTGTTAATGATGTCCTTTCACTAGATA
GATGCAAAAAATGTTTTTAAATTTTGGTGTAATCTGATTTATCTATTTTTTCTTATTGTCATACCCAAGAAATCATTGCTCAGTCCCATGTCACGAAGGT
GTTACCTTATGTTTTCTTCTAAGGGTTTTAAAGTTTTAGGTCTTAAAACGTAAAGATCCATTTTGAGTTAATTTTTGTATATGGTATTAGGTAAGGGTCT
AACTTCATTCTTTTGCATGTGGATATCTAGTTGTCTCTGCACCGTTTGTTGAAAAGACTGTCTTTATCGAATGGTCTTGACGGCTTGATTGAAAGTCATA
TATGCAAGGGTTTCTTTCTGGACTCTCTGTTTTATTCTGTTGGTCTGTATGTCTGTCTTTATGCCAGTGCCACACTGTTGATGACTGCAGCTTTGTAGTA
AGTTTTGAAATTAGGACATGTGAGTCCCCCAGCTTTGTTCTTATCTTTCACGATTTTTTTTTTTTTTTTTTGGCTATTCGAGGTCCCTTGAGATTCCATC
TAAATTTTAGGATTTATTCACTATTTCTGAAAAAAAAAACAATCACTGGGATTTTTATAGGGATTACATTAAACCTCGAGATCAATTTGGGTGGTATTGA
CATCTTAATATAGTAAGTCTTCCAATCTATGAACATGAATGTCTTTTTTTAAATGTCCTCTTCAATTTCTTTCAGAAATGTTTTGTAGTTCTCATTGTAC
AGGTCTTTCACCTCCTAAGTCAATTTTTAAGTATTTTATTATTTTTGATACTATAGTAAATAGAATTGTTTTCTTAATTTCCTTTGGATTGTTCATTGTT
AGTGAATAGAAATACAASTGATTTTTATGTGTTTACTATGTATTCTGCTATTTTGCTGAATTTGTTTATTAGTTGTAACAGTTTTTGTGGAATTTTTAGG
GTTTTCTACATACAAGATCATATCATCAGTGATCAGAGATAATTTACTTATTTCTTTCCAATTTGAATGCCTTTAATTTCTTTTTCTTGCCCAATTGCTC
TGGCCAGAACTTCCAGTACAGTGTTAAATAGAAGTAGTGAAAGCAGGCATCCTTCCTTTATTTCTGACCTTAGAGGAAAAGCTTTCAGTCTTTCACCACT
GAGTATGATGTTCACTGTGGCTTTTTCGTATAATATGGCTTTTATTATGTTAAGGTTGTTTCCTTCTATTCCTAATTTGTTGAGTGTTTTTATCATGAAA
GGGTATTGAATTTTGTCATATGGTTTCTCTGCATCAACTGCAATGATCATGTGTGAGTTTTTTTTCCTCCTTCATTCTGTTAATGTGTATTACATTGATT
GATTTTTTTTTTTTTTGTATGTTGAACTATCCTTGCACTCCAGAAATAAATCCTACTTGGTCAATTCATTAAATTCCATTTAATTGCATCAAATTATACC
AAATTTAGTTTACTATTAATAGTATTTTGTTTAGGATTTTTGCATCAATGTTCATAAGGAAGACTGGATTGTAGTTTTCTTYTCTTGCAATATCTTTGTC
TGGTATTGGTATCAGAGTAATGCTGGCCTCGTAAGAATGAGTTAAATAGTGTTCCCTTCTCTTCAAGTTTTTTGAAAATTTTGGGAGGGTTTGGTGTTAG
TTCTTTATGTGTTTGGTAGAATTCACCAGTGCAGCCATCAGGTCCAGAGGTTGTTTGTCAGGAGATTTTTGAGTATTGATTCAATCTCCTTACTAGTTAT
GTCTATTCAGATTTTCTATTTCTTCATGATTTGATTTTGTCTTGATAGGTTTTGTCTGTCTGGAAATTTTTCCATTCCATCTGTGTTATTCAAATTGTTG
ACATATAGTTGCTTATAGTACACTCTTATAATCTTTTTTATTTCTGTAGAATTAGTAGCAATGTTGCCACTTTCACTTATAATTTTAGTAATTTGAGTTT
CTTCTTTTTTTCTTAGTCTAGAATCTAGCTTAAGGCTGGTCAATTCTGTTATCTTTTCAAAGAACCAACTTTTGTTGTCATTGATTTTCTCTATTATCTG
TCTGTTCTCCATTTTGTTTATCTTTGCTCTGATCTTTATTTTTTCCTTCTTTCTGCTAGCTTGTTCTTTTTCTAGTTCCTTACATTGTAAGGTTAAGCTS
CTATTTGAGACCTGTCTTTTTTAATATAAGCATGTATAGCCATCAGTTTCCCCCTTAGCACTGCTTTCACTGTCGAACAAGTTTTTAAATTTGTGTTTTC
ATTTTCACTCATCTCTAAGTATTTTATAATTTCCCTTGTGATTTCTTCTCTGATCCTTGGTTATTTAACAGGGTGTTGTTTAATTTCGTGATTTTTTAAA
TGTCCTTGTTGCTGATTTTTAACTTTACTCCTTTGTGGTCTGAAAAGATATCTTGTATGATGTAGATCTTTCAAAATCTATTGACACAGACTTTGTTGTT
GCAACTAACCCCGTCATTGCAAGCCCTTCTCCGTCTGGTTGAAGTGACTTCCAGGAGATTTAAAGGGCTGGCACCCTTTTCTCCCTTCATTTTTCTCTTT
TTCCTCTTTTGAGASGTAGACATTGAAGACTAGCACATTCAAAAGCAACCATATATGTGGAGAAAATAAAAAAGTCATTGCACATGCTCAGGGGAAGTCA
CGGGCTTAGAAAAGACCTAAGAAGACCTTAAGTTTATACTTTATGCTGATCCTTAGCACAGAGACAGCAACAATCAAAATTATAAAAACAAGAAAAACCA
GCAAACTCTGGGGAAGAAAGAGATTTTGATTTCACAAGGCATACAAAGAAACTTTCCTATTTCAAAGGAAAAAAAAACAACAGAAACTGTCACTGAAAAA
GACTTGGTGGTAGATCTACTAGACAAAGGCTTTGAAAGAACTATCTTAAAGATACTCAAATAACTAAGGGAAAATGTGGAGAAAGTGAAAGAAAATGTAG
GAACAAATGAAAATATCAATAAAAAGCTAGAAATTTTAAAAAGAAACCAAAGGGAAATTCTGGAGCTGAAAAGTACAATAACTGAAATTTAAAATTCACT
AGAGAAATGCAAAGGCAGATTTCAGCAGGCAGAATAAAGAATCAGGGAACTTGAAGATACAAMAATGGAAATTATTGAGTCTGAGGAGCAGAAATAAAAA
GATTGAATAAAGGTGATCAGAGCCTAAGGGGTCTGTGGGATACCATCAAGCAAACCAACATAAACATTGTAGGAGCCCCAGAAGAAGAGAGAGCAAAGGG
AGCAGAGAGACTATTTGAAGAAATAATGGCTGAAAACTTCTAAAATATGATGAATGACATGAATATAACCATCCAAGAAGCCCAAAAAGCTCCAAGCAGG
ATGAACTCAAAGAGACCCACACTGAAACATTCTAATCAAATTGTCAAAACCCAAAGACAAAGATTTTGAAAACAGCAAGAAAGAATGATTCATCACATGT
AAGGAATCCTCAATAAAACTATTAGCAGATTTCTGATCAGAAACTTTGAAGGCCACAAGGCAGTGGGCCAATATATCCAAAGTGCTAAAAGAATAAAAAC
TGTCTACCAAGAAGCCCACATCCAGCAAAACTGTCCTTTAAAAGTAAGGGAGAAATTAACACATTCTTAGATCAACAAAAGCTGAGAATGTTCCTTACCA
CTAGACCTGCCCTATAGGAAACGCCAAAGGGAGTCCTGYGGGTTGAAATAAAGGGTGATAGACAGTAATTCAAGTGAAGAAGTAAAGATCTCAGCCAGGC
ATAGTGGCTCATGCTTGTAACCCCATCACTTTGGGAGGCCGAGGCAGGAGGATAACTTGAGCCCAGGAGTTCAAGACCAGCCTGAGCAATATAGGGAGAC
CCTATCTCTATAAAATAAAAATATTTTTAAAAATCGACCAAGCATGGTGGTGCACACCTGTGGTCCCAACTACTGGGGAGGCTGAGGTGGGAGAATCATT
TGGGCCTGGGAGGTTGAAGCTGCAGTGAGCTGTCACCACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACCTTATCTCAAAATAAATAAATAAATA
AATATCTCAGTAAAGGTAAATATATAGACAATTATAAAAGCTAATATTGCTGTAACAATGGTGTGTAATGCTGCTTTTTGTTTTCTACATAATTTAAGAG
ACTGATTTAAAAATAACATTATGCTTTTGGACACATAATATATAAAGGTGTAATTTTGTGACATCAATAACTAAAAGGGTTGGGGACAGAGCCATTCAGG
GAGCAGAGTTTTGTTTATGCCATTGAAGCTAAACTGGTATAAATTCAGTGTAGACTGTTATAATTTTAGGATGTTAAAATGCAATCCCCATGGTAACAAC
AAAGAAAATAACTAAAGAATAAATACAAAAGGGAATGAGGAAGGGATTTAAATGTTTCACCATCAAAAAAATTAATTAAACACAAGACAGTGATACTGGA
AATTAAGGACAAAAAAATCCATAAGGTATACAGAAAAAAAATGCAAAATGAAAGAAGTCCCTCTTTATCAGTAATTACTTTAGATGTAAATGGATTAAAC
TCTCCAAACTCTCTCTGTTAAAAGACAGAGATTGGCAGAATGGATTTAGAAAGCCAAATCCAACTATATGCTCTCTACAAGAGATGCACTTTAGATCCAG
AAACATAAATAGATTGACAGTGAAAGGATGGGCAATGACATGCCACACAAATAGTAACCAAAAGAGAGCAAGAGTGGCTATACTAATACCAGACAAGATA
GGCTTTAAATCAAAAAAGGTTACAAGAGGGAAAGAAGGACATCATATATTAATAAAAGGCTCAATACAGCAAGATATAATAATTATAAATATTTATGCAC
CTAATAACAGTCCATCAAAATATTTATATCTTACACTGGGAAGATTGTTGCTGGCTCTCAGTCTGCTTCCAGTCTGCTCATATTGCTTTTGTTGTAATGA
TGGTCATATGTGGGAGCTCAGTRTCAAGAGGGCAGACTTGAGCCCACACTGCCAGGCTTCAGACCTCAGCTATTAGCTGAGTGCCCTGGGCAAGTTACCT
CACTGGGCCTTGGTTTCCTCATCTGTTGGAGTGGGGATGGTAATAGTACCTATGTCCAAGGCCATAAGTCCAATTGTGAATGTTGAATGAAGGGATATAG
GACAGTATCTGGTACACAATTATTATAGATTTTTCATTGACATTTTATACATTCTGTTTTCTTCAAAGACTTTTTGGTTCCTGTTTTGCACTCAGATACT
TCCTTTTCCTGGAGTTTATTTGGGAGCACCATGTGAGGTAGTACCTTTATTTCTAGTCACAGGGTGAGCCCTCATCCCAGCCTGCTTCCACCACTCTGAA
AGGCCACCATGTCATAGCCTAAGTTCTCGTGTGTTGTTATGCCCATGGTTGTGTGGAGTGTTGGCCTGTTCCAGCACCAAAACCAAAACTGTAATTTTAT
CRTTTCATTTGATAGCACAAGCTTTCTCATCACTCTATTTTTTATTTTGCTCAACTCTTCTTGCTTTTTCTACCAAGTAAAACTTGGATTCATTTTGCAA
ACTCCTATCTACAAAAATGCAAAAAATTTTCTTGGAAACTTTAATTAAAATTGCATTCTATTATAGATTCAGTTAGGAATAACTGATATTTTTAAATCAG
TTTAAGATAGTGGGATGATTTCTTATCCAAAAACAAGGTTTGTCTTTCCAATATATTTCTCAAAAATTTTTTTGAGTTTTTTTCATAAGTCCTGCACATT
TTTATTCAGTTGATTCCTTGGGTTTATGTTGTTTTTCTTAMTAGTGTAAATAGCATTTTTCTGCAACATTTTCTAACTGGTTGTTAGAAAATGTTTCTTC
TAACTGATAGAAGAAAATCAATAACTTTTTGTATGTTGAGGACTAAGCTCTGATTTTTTTATCTTGCCTATATTSTTATCTAAGGGGTCTRGGGAGTCAT
GCCCTACAAACCATAAATTCTCATCAGATGGTTTTATCTAACCCTATATGCYGTGACTTACTTTCCATCTGACTCTGGCATGACACTACACGACCAAGAA
GAAAATAAAAATATTTTACCCCAAAACATGTTTCTTTGCCACATTTTGAAATGGCCCTGCAAAGCTGTCCTTTACTGGGGAAAATTTGCATCTGTAAGGA
ATCTCTGTTAACATAGCTAGCTCTTTTTCTTCCAGGCCCTCCCAATTCTGAAGAGATTAACCGAGAGTCTAGCAGCTTTTAAAGGTCTCARTAGGAAACA
CTTGTCATTGATTGTCTCTAAGGGCAGCCACTATGAGACTTCAGAAGAACCTTGGTCTCCACAGTCTTTTATCTTAACCTGAGCATTTCCTTTCTATGAT
CCCAGGTCTTTAGACAAACTCAACCAATTGTCAACCAGAAAATGTTTAAATTTACCTGTAGCCTGGAAGCCATCTCTCCCCGCTTTGAATTTTCCTGCCT
TTCTGGATTAAACCAATGTATTTCTTAAATGTATTTGATTGATGTCTCATGCCTCCCTAAAATGAATAAAACCGAGCTGCACCCCAGCCACCTTGGGTAC
ATGTTCTCAGGACCTCCTAAGGGCTGTGTCATGGGTCATGGCCACTCATATTTGGCTCAGAATAAATCTCTTAAAATATTTTACAGAGTTTGACTCTTTT
CATCAATGATATATTTTTCTAAGTGGCTCACTAAATTTTCTCTCCCTAATCTCCCCTCCTTTCTCTTTCTTTCTCTCTTTCTCTCTGTCTATATATATAT
ATATTTTTTTTTCTCTTTTTTAAAAAAACTTTGTTCAGATGATTTTCTGGGTAGACAATCCTATCTTTAATAAGGACAGTTTTGTCTCTTCTTTTCCAAC
AGTTATACTTTTATTTTTACTGTCTTATTGCATTGGCTTCCAACACAACACTGAATGGTAGCGTAAGATCTGCACTGTTTGCCCCCACCCCATTTTTTTT
GTACTGTAGTAAGCATTCTTCTAATGCAGGATTTTTTAACCCAGGGTTAGATCTACGAATGGAATCCCTGAATTCCTGGACATGATTTCTGTATATGAGC
ATCTATGCATTTGTGTAAGGTGAAATTGTGTAGACTCTTAAAAGGGTCCATGACCACAAAGATAAGAACCACTATTTTAGCTTTTTGTGTAAAATATGAT
GTGAGCTCTTGATTTGAAATGTATATCCTTTATAGAGTTAATTCTACTCCTAAATTTCTTACTAGGTTTTACCTTGTCTGGCTGTTGTTGTTTCTTAGTT
AGAAATTGATGTTTCAGGGATCTATTGAAGCAATTGCATATTTTTTCCCATTTTATGTTAATGTGACTTACATTAATGTATTCCCTAGTGTTTGTGGCAA
CACTGTACTTTAACTTCATATTATAGTTCTGGTATAGTGGTCCTTAATATGCTATTGGATTTTAGTTTTTAATATTGGCTAGAATTTTTGTGATAATGTT
ATGGGATTTTTAGGGTGTCACTTTTCTGGCCTGAAACCTCTATGGCCAGTGGCGCCTTTGCCCAAGTTCTTGTCCTGTGTCCAGGAAGAATGAGGTACAC
AGACAAGTGGAGGGTGTGCAAGACAGAGAAGCTTTATTGAGTGTTAGGGGAGCTCACAGGAGACCCGCAGGGGGCAGCCCCTCTCTGTAGGCRGGTTGTC
TTGTCGGCGGGTTGTCTTGTCAAATGTTCAGCTCTCAGCAGAGAGAAGGCCCTGGAGTGGGTGGCTCCTCTCTGCAGGCAGGTCATCCCATTGTCTCTGC
AGCTCTTAGCAGAGAGGAGGCCCTCGAGAGCGTGTCTCCTCTCTGCAAACAGGGCATCTCAACTAGTGTTCAGCTCTCAGCAGAGAGAAAGCCCTGGAGA
GGGTAGCTCCTCTCTGCAGCTGGTCGTCCTGACATCCCTTCAGGTCCTGAAGCTCTCAGCAGAGAGAGCACCTCCTCTCTGCAGCTGGTCGTGCCATGCT
CTGCCCTGCTCTGACTGAGCCTGGGGCTTTTAAAGGCCTCAGAGAGGGGAAGTGCATGCTGATTGGTCCATGTGCAGCCATGTGCAGGCCCAGAAGAAAG
CACCTTGAGTTCCCCTCTGGTCCGTAGGACGGGCAACCCGGCCCCCAGGCTTCAGGCCTGCCCCAGCCTGAAGGTGGGGCTTCACTGGGGACCCATCCTC
TTCTGCCCAGGAGCCTATCTGCCTCCTGCAGCCATCCATGGTGCCCAGGCTGCTGGTACCAAGGGGCACCGGTGCCCAGCCACCCTCAGCACCCCCCCAA
GCCTCCCCTCCTGCACTTCTCAGTGCCCACAGTTTGGAGGGGGCCAAGTCAGCAGGGGGCTGGCATGTCAGCACTGCCACAAGCATGCACCCACCCGGCC
AGGCTGTGACAGTGCCCAGGCTCAGCCCCAACTCTGCTCTGAGATTGGAGTGGGTGGTGGGAGCGGGAAGAAGCTGGGCAGCGGGAACAGGCACCTCCAG
GCCTACAAGGGAAAGAGGGGCCTTCCCTGGCTCCCCAAGAGTGCAGCGATGCCTGGGTCAGCAGCCCCAGTTGGGGCAGCTGAAACTGCACCAGGAGTGG
GGGCTGGCTCCTGCCTCCTCCATGGAGCAGAAGGCCCAGATCCACAGCCACGACTTGGGCAGTTGTACCTGGGGAACTCTCACCTCGCCAAACTGCAAGG
GGCAGGGATCCCACTTATCCCCGGCTCCTGCTGGCTCCGTGGAGCATGGTACCTGGCCATGTCCTCTCGCAGCCTGGGGCAGGGTCTCCAGACCTGGGCC
AGCATCCCAGACAGGGGCAACACCGCCGTGAGCTCCCCTTCACCCAGCACACCACCCGGCCCGGCCCCATGGCAGCGGCCCCCAGGGAGGCAGTCTGCGG
GGTTGGGGGCCTGTCTGCCTCTTCCATGGGCCCTCCCTGAGCAGCCAGTGTGATGGCAGCGGCCACACCAGATGGGCTGCCGCTGCCATCAGTAATATTT
ATAGTGATATTTATCTGTAGAGTTACTTTTAGGGACTTTTTTTTTTATCAAGCTTTGGTCACAGGTTATGCMACATTTAAAAATGAATTGGGAAAAAGTT
TATCTTTTTATGTTCTAAAACAAGTTAAATAGCATGAAGTGCTTGTCCTTGAAGCTGTGAAACTCACCCACAAACTGCCTGAGCTGGCACCTTTGGGAAC
GGACTTCATTCCTCCCTGGGCCCCAGGCTGAGCAGGTCTGGCCTGGGTCACCTCATCCACTCCAGACGCCGCAAAATCACAGCAACCCTTCAGGGCCCTC
TCCTGGCAGCGCCTCCCCTAGTCCCGGTGCTTGGACACTCCTCCCATCTGCACCGAGGAGAGGGCGGCACTCCAATCCCTGCATYACCCCTGGAACTGCA
CGCTCTGAACCAGGCCCGGTGCCCTTTCTGCCCAGCTGCCCGGCTGCTGCCAGCCCCACTCTGCGGAGCCAGCAGCACAGTGAGGCCCGTCCTGATGGCC
TCCAGCTCCACTCTGCGGAGTCAGCRGCACAGTGAGGCCCGTCCTGATGGCCTCCTGGAGCTGGAGCTTAGGCCAAGCCACAGGGCATCAGGGAGGATGG
ACGTTCAAGGGCTGGATCTGTTTGCCCCAGGGTCCTGGCACCCAACAGAAAGGAAAGCCAGGCTAATGACGGCTGTGTCCCTACACTTGACAGAGTCCTC
CCTCCCTCCTTATCAAAGTCCTGTTTAAAGGGAATGGAGCCAGGCTGGAGAGAGAGTGCCTAGCTCTGCAGGGGAGCCGGTCTGGGGAAGCTGGGATCTC
TCTCCCGCCCTCCCCTCTGCACTGCTTCCAGGGCAGCCCCAGGCAGTGGGGGGCGCCAGACAGTGGTGCTCCATTCCCTTCCATGGCCGACGCGCCCAGC
TACCCACTTCCACCCAGCCCTGNNNNNNNNNNNNNNNNNNNNAACAAGTTAAATAGCATGAAGTGCTTGTCCTTGAAGCTGTGAAACTCACCCACAAACT
GCCTGAGCTGGCACCTTTGGGAACGGACTTCATTCCTCCCTGGGCCCCAGGCTGAGCAGGTCTGGCCTGGGTCACCTCATCCACTCCAGACGCCGCAAAA
TCACAGCAACCCTTCAGGGCCCTCTCCTGGCAGCGCCTCCCCTAGTCCCGGTGCTTGGACACTCCTCCCATCTGCACCGAGGAGAGGGCGGCACTCCAAT
CCCTGCATTACCCCTGGAACTGCACGCTCTGAACCAGGCCCGGTGCCCTTTCTGCCCAGCTGCCCGGCTGCTGCCAGCCCCACTCTGCGGAGCCAGCAGC
ACAGTGAGGCCCGTCCTGATGGCCTCCTGGAGCTGGAGCTTAGGCCAAGCCACAGGGCATCAGGGAGGATGGACGTTCAAGGGCTGGATCTGTTTGCCCC
AGGGTCCTGGCACCCAACAGAAAGGAAAGCCAGGCTAATGACGGCTGTGTCCCTACACTTGACAGAGTCCTCCCTCCCTCCTTATCAAAGTCCTGTTTAA
AGGGAATGGAGCCAGGCTGGAGAGAGAGTGCCTAGCTCTGCAGGGGAGCCGGTCTGGGGAAGCTGGGATCTCTCTCCCGCCCTCCCCTCTGCACTGYTTC
CAGGGCAGCCCCAGGCAGTGGGGGGCRCCAGACAGTGGTGCTCCATTCCCTTCCATGCCGACGCGCCCAGCTACCCACTCCACCCAGCCCTGGAGGACAT
GGAAGGGCCTCAACCATCCAAATCCCAMCCAAAACTGAGCCCAGAGGCACCCACTAAACATCTGTGACCCCACCCAGGGTGGGGCAAGAGGGCGCAAGCC
CCCCAGTCCAGATGCTGGTGAYGGTGTGTGCTGGGCRCAGACCCCGCTTCCTTGAAGACTGASGGCAGTGCCCCCAATCCYRCTGACCTGCTGTGCGTGC
GCCTGCCATGGGGGAGGGTGCCAGGGGAGAGGCACTGGGGGTGTCTGAGCGACCCCCACCCCTGTTGCAGGACTTCAGGGCCACAGGTGCTGCCAAGATG
CTCCAGGGCACCTGCTCCGTGCTCCTGCTCTGGGGAATCCTGGGGGCCATCCAGGCCCAGCAGCAGGAGGTCATCTCGCCGGACACTACCGAGAGAAACA
ACAACTGCCCAGGTGCCAGGGGTCGGGGGCCGGGGGCTCTGGGCATTTGGGGGGCAGTTGGGACCAGTACCCAGGTGCCAGGGGTCGGGGGCCGGGGGCT
CTGGGCATTTGGGGGGCAGTTGGGACCAGTACCCAGGTGCCAGGGGTCGGGGGCCGGGGGCTCTGGGCATTTGGGGGGCAGTTGGGACCAGTACCCAGGT
GCCAGGGGTTGGGGGCCGGGGGCTCTGGCATTCGGGGGCAGTGAGGTCAAACCCACAAACAGGCACGGGGCCAGGAAACGGGGCTCCAACAGCAGTCCCT
CCTRAGGCTGGCTCGTGACAGGTCCTGTGCCCCACAGAGAAGACCGACTGCCCCATCCACGTGTACTTCGTGCTGGACACCTCGGAGAGCGTCACCATGC
AGTCCCCCACGGACATCCTGCTCTTCCACATGAAGCAGTTCGTGCCGCAGTTCATCAGCCAGCTGCAGAACGAGTTCTACCTGGACCAGGTGGCGCTGAG
CTGGCGCTAYGGCGGCCTGCACTTCTCTGACCAGGTGGAGGTGTTCAGCCCACCGGGCAGCGACCGGGCCTCCTTCATCAAGAACCTGCAGGGCATCAGC
TCCTTCCGCCGCGGCACCTTCACCGACTGCGCGCTGGCCAACATGACGGAGCAGATCCGGCAGGACCGCAGCAAGGGCACCGTCCACTTCGCCGTGGTCA
TCACCGACGGCCACGTCACCGGCAGCCCCTGCGGGGGCATCAAGCTGCAGGCCGAGCGGGCCCGCGAGGAGGGCATCCGGCTCTTCGCCGTGGCCCCCAA
CCAGAACCTGAAGGAGCAGGGCCTGCGGGACATCGCCAGCACGCCGCACGAGCTCTACCGCAACGACTACGCCACCATGCTGCCYGACTCCACCGAGATC
RACCAGGACACCATCAACCGCATCATCAAGGTCATGGTGAGCCGYGGGCGGGAGCACCGTCCACRCGCCAGGGGTGGCCAYGGTGGGCYGTCCACCCRCT
CCGGGCCTCACTTTACCCCTCTGTGAGTGCGGAGGCCGAAGGAGGAAGCTCCGGGCAGGGCCTGGGCCACTCAGGTGTCCCTCCATCCCCACCCAGACTC
GAGGTGCAGCCGCCCCAGGTCTCGAGGCACACGGCTAACCAGCATGTCTGTCTTTTCTGCAGAAACACGAAGCCTACGGAGAGGTGAGTGGCGCTTCCCT
TCCTGCCAGTGCTGGCCGGCAGCTGACCCAGCAGAGATGACCGCGCCAGGCTGCCGACTCCTGGCGCCTCCAGGCTGGAACAGATGAGAGGAGAGGGAGT
CACCTGCTCCATGTTGGACCTGAGGCCTTGGAGTCTGGAGAAAGGGCTCCCAGCCAAAGCTAGGCTGTTTAGATCCCGTGAGGGTCAGCGTTAGGGTCAC
CCACAGAGCACGTGTTACAAGGAGAGGTCGAGGGTCTGGCCTCCGGGCAGGTGGGATCCATCCACCCTGGACTCGAGGCCCGAGCCCAGCCCAGCAGGTC
AGGGGAGAAGGAACTGACATCATCGGGGTCCATGACATCCCCACCTCCCTGTGTGTCCCAGCTCCAGCTCTCAGGAAGGGGAGCAGGCATCTGAGATCTC
CCCCGTGAGGCTTCCTGCAAAAACGTGCCCTGCCTCAGAATCGCTGCTCAGTAACAGTGGTTTCATTGCCRTGTACAAATGGTGCCTCCCTCACCAGTGC
CCCTTGCTCTTCCATCCTTTTGTAAAATTTATTCTTTTATATTTGTTTTTTTAGAGACAGGGTCTTTCTCTGTCACCTAGGCTGGAGTGCAGTGGTACGA
TCACGGCTCACTGCAGCCTTGAACTCTGAGGCTCAAGCCATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACCTGCCACCATACCTGGTG
TGCGCATGTAGTTCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCGCTTTCGTATTGTTTTTTTGTAGAGATGGGATCTCACTATGTTGCCCAGCCTGGT
CTCTAACTCCTGGCCTCAAGCAGTCCTCCCTGCCTCGGCCTACCAAAATGTTGGGATTCCAGGCGTGAGCTGCACCCGGCCTTTCTTCCCTTCTATTTTC
TGTCATGGCTTAAGCCAGGCTTGGTTTTTTAAACTTGCCTAGAACACCTGACCGAGAGCCAAACTCTTTGGCTTGTCCCTGATGGGGGCAGAGCCTCACA
GCACCCCATGTCTCACAGCTCCCTCACGCCCGCCCAGGTTCTCAGGGCATTTCAGCATCTCCTTGGCCCCTGCTGAGAGTCGTGGGCTACACGTTCTGAG
ACCCTGCCCTGCCACCTGAGGAATGTCCCACCCATGCAACCTTCTGTCTCTGCTTCCTCGTTTCAGTGCTACAAGGTGAGCTGCCTGGAAATCCCTGGGC
CCTCTGGCCCCAAGGGCTACCGTGGACAGAAGGTAAGATGCCCAGATTACCTGCAGGGTCTGCGCTACCAGGAAGCCCCTGATTTGTTTTGAAATCCACA
CTTGGCCGGGCGTGGTGGCTCATACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACAACGTCAGGAGATCGAGACCATCCTGGCTAACA
TGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTAGTGGCATGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGC
TTGAACCTGGGAAGCGGAGGTTGCAGTGAGCAGAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGTAAGACTCTGTCTCAAAAAAAAAAAAAAAAG
AAAAGAAAGCCACATTTAAGGCCAGCTGTATCTCAAATTGTCTCAACACTTCTGTCCCTGGAGAAACTAAAACTCTATATGTCTAATTCCTTTTAAATAG
TATATTGAGAAAAGCAGAAGCTTGTAAAAAATGAGATATGCCATTAAAATACTTTGGTAAGCAAGCATATTCAAGTAAGTAAAATGTGAGATGCACTACA
CTTAATAATATGATTGCTCATTAATATGAAGGAACCTCTTTTGTGGCTTACTAAATAAGCAGTTTTAGGGAGCCTGGTTTGAATGTCCCCTGCATTTTCT
GGTTTGAACATCCCCTGCATTTTCCTAACAGAGGTGCATCAAATAAAGTCCTTCCAAAACTCACTAACAGAGTATGTGAAACTCCAACAATTCACATCTG
TTAAAAATTATAAAGAAAAGCATAGGAGGAGAAAGTAGCTTCTAAGGAGATGAAATAAGGAATTGACCATCATAGAGGATGTTACTGCTACGTAGCTTCG
TGTTTTTCTAAATTTGGATAACAGCTGTCTAGACCAGTAGGTATCTGGATGTACTTTCTCCAGGATGAGACATCTCGAGGCTGCAGGTCAAATCCTGCCA
TCTCCCTCCCTGGCTTCTCCAGTCCTGGTGGCAATGCCGACCCTACTACAGCTGGGAATGAATTTGCCACTTGGGGCAGCCTTGGCTGCACACAGCAGTG
CAGTGACCCGTTCTGTTGGGGGGGCCACTGGAAGCTGCCACAGGGATCACTGTGGTTAGAGTTTGAGGGGTGGCAAGGTGCCAAGCGGAGCCCAGGACAG
GGCACAGCTGTGATGTTCCAGAAGCCTCTGCCCACCTCATCCCCTGCCCTGAGTTTCCTCCCTTTTCTTCCTTTTGACCTCTTAATTCTTCCYCTTTCCT
CTGCTCCTCTTTGCACTTAAATTGGGAGCATATCAATAAATAGATGAATTTATTTAATAAAGTTCTGTATCATAGGTTAAAATTTTAATTCCAAGAGAGT
GTAACCTTTATGTGGTGTTCTGAAGTCCTGATCTGTCTAAAGTTACTTAGATAAAGGAATTAATCTTTGTAGTGACGGTGACCCAGGCATCGCTGGAGAA
TCAGAGCCCAGTGTTGGCCACAGTCACAGCTACTGGGTGCAGAAGGGACCCCCACGGGCCAGGCACCCCCACCCCAGGGGKCTCTTCTGGCTCCATTTTG
CAGGTGGCTTTGTGGGAAGCTTCCCTCAGAGCTGGGAGAAATGGGTCAAAGCAAACCCTTGTCTGACAGAGGCTGGCCCTTTGGGGAGCAGCTGACACCA
AGACTTCTCCACTTGGGCAGGGGAATCAGTAACCTCTGCTGTGTCACCTCTCAGAGGAGCTGTGGCAGGGTCCCCAGCTGCCTACCGCCCACCCTACCCT
RCCTCGATGTACTCTTTTCTCTGCTTTTAGGGTGCCAAGGGCAACATGGGTGAGCCGGGARAGCCTGGCCAGAAGGGAAGACAGGTGAGTGTCCTTGCCC
CACGCCCGCCCCGCCTGCAGCCCAGCGCCCCAGGGCTGGGCTCACACTGCTGCGTTGTCCTTCACAGGGAGACCCGGGCATCGAAGGCCCCATTGGATTC
CCAGGACCCAAGGTGAGTGACCTCGGCCAGGGGCTTGGCTCCACCCTGAGGCCCCAGCACTGCCAGGCAGGCTCCCCCCAGCCCAGCCTCGGCCTCAGCC
TCTACGACCCTCCCCCCAGTTACCAAGGAACAGAAGCACCTCGATAACTTGATGGCCGTCCCAAAACCCAGCCTCCAGCCCGACCCAGGGCTCAGCCTCC
TCCGCAGACTRTTTGTCGAGAACAYTAGATGCCAGCGGCCCACCGAGCACTCCYCTCAGCCTGCAGGGCTGGCCCTTCCCTGCCTGTGTCTCTGCAGAGC
TCCTCACTAATGCCCCTCTCTCCTCCTGCCCCCAGGGCGTTCCTGGCTTCAAAGGAGAGAAGGTGAGGCTCTTGCCCTGACAGACCTCAGACCTGCGCCA
GCCTCGGCCCAGACCCACCTCTTGGCGTCCGCCGCAGCCTGTCACTGCTCCTGGGGCACCGGCCTGGTCTTTTCTCAGTGGTGGCTTTGGGGGCTCCTGG
GGGGTCCTGTGGCCTTGAGTTTGGCCCAAGGGCTTTGCCCCCCAGAGGCAGCAGTGCCCATGATGCTTTGAGGCACCGAGCTCACTGCGCYGGCTTTCCT
CCTACACAGGGTGAATTTGGAGCCGACGGTCGCAAGGTAGGCTGGCTGGGTAGGCAGAGCCCCTCCTTCCTGCTGCTCAGGGCAGAAGGACCGGGGCTAA
TGGAGTTCCCTCTTCCTTCTCTCTTCAGGGGGCCCCTGGCCTGGCTGGCAAGAACGGGACCGATGGACAGAAGGTAGAGGGAGCCTCGGGCTCACAGCTG
GACTGGTCTCACAGAGGCATCCCAGCCTCTGCAGGGCCCCCAGATCCAGCCTGATCTGTCAGCTTACACATGTGTACACACGCATACACACACACACACA
CACACACACACACACACACGAACTTCAGCTCCTGCCACATCCCACTGCCCCACCCAGGGCTTCACCAGCCTGCATCTAATTCATGGCTGCACATCCCGGC
TTGGGGCAGCTCCACAGCTGCACACAGAGGCCAGCAACAAGCCTACCCACTCCCAGGTCAAACCACAGGACAGCCCCACCCACTCCTTCCATGGCTCCCC
GTGGGAACATCCTCTGTGCCCAGGGAGCTCTGCCCTCAGGGCCTCTGGGAGGCAGCCAGGGATGGCCTGTTCCTGCACAACGGCCACTCTGCCTCCCCGG
AGACAGCTCCACAGCAGCCGTGGCCTCATGTGGGCACCCGTGTGCCAGGAGGAGAGCGCTGCAGCCCTGCGGGGCAGAACCGGGTGGGCTGTGTCTTGGT
CGTTGGCACACATGGACCCCAGAACCCCGCCCTGAGACTCCTCCTGCCCCCTTCTCCTTCAGGGCAAGCTGGGGCGCATCGGACCTCCTGGCTGCAAGGG
AGACCCTGGAAACCGGGTAAGGGCCGTTTGCACCCCTCCTTCAGCCTCGGCCCAGGGGGTGTGGGTGCCTGACCGGGTGGGAGGGTAGTTGCTGCTGCAG
TGGGAGCRTGGGTTCTCCCGGCAGCCCAGCAGCCCCAGCCCAGCAGCCCCAGCCCAGCATTCTGCCGGGTCGGAGTCATGTGAGGAACTCCCCCTGGGAG
CTCCTGGCRGATCCCCGTGGCCTGGAGACCTGATGCATCCCAAACTTCGGTGTCACTGGACAGCTCCATTTCCCTGAGCAGCAGATCCAGGCCTGGCCTC
TTGGTCACTGAGCCTGGGGCCTCACAGTGAGGGTGGGAGGTGCGTCCCGGGCTGGGACAATGGAGCACTTGGGCCCTGGCTCATGGGGAGAACCCCACCC
GCCGTGTGCCGAGCTCCACCTCTCACTCCTCTCTCAGGGCCCCGACGGTTACCCGGGGGAAGCAGGGAGTCCAGGGGAGCGAGGAGACCAAGGCGGCAAG
GTAAGTGGCCTTGTCAGGGTAYGGGGCAGGCRGGGTCACCAGCTTCCAGGGGCCTCCTGGAGGCAGCCCCAGCTGAGAAGCTGAGCAGAGAGGRCCTTTC
TGGAAACACTGGTCAGTGAGGAGCCAATGGCCGTGGGATGTGGTGGAGGGTGCCCTGCCCGTTGCTTCATCAGCTTCTAACCAGGGCTTGGGCGGCCCCR
CCGCTGCTCACCGAGGCCTCAGCAACAAACCCACCTCCTCCCAGGTGGAGCCCCAGGGAGCCCCACCCACACCTCCTGGAGCTCCCCATGGGAACGTTGG
TGCCCCAGGGGCTCTGCCCTCCTGGGCCGCCTGCAGTGTCGCCCCGCCCCTGGCGGCCCCAGGATCCCCAAGGGCTTTTTTCTGGGAGCTTGGACTTARG
GCTTCCCACTTTCTGTCCACCTTCCCTCAGCCCAAGCCCAAGTCTGGCTGAGTCCTCTGWGCAGATGCACAGGYRTCCTGCCCGTGACACACACTCTGCC
CTCAGCTGGCACGGAGGTTCCAGCAGCCCCCAGCCAGCATCTGGCATCCCAGGTGCCCCGTGGACATCAGGGAGGTGCAGTCCCAAGCCCGACCGTGGGT
CCTGCCCCCGCAGCGGGCATCSTGCACCCCCCTTCCCCTGCCAAAAGACGTGAGGCTGATTCTGCAAACCCTTCCAGGGGGACCCTGGCCGCCCAGGACG
CAGAGGGCCCCCGGGAGAAATCGGGGCCAAGGGAAGCAAGGTGAGCCCCTCTGCCTCTTCGCCTGCAGCTGAGCTGGCCACACTCACGCCCATGGCCCAG
ATGAACAGTCACGCTGGCCACCATCTCTGCTGTCACCATGKTGCCGCATTGGGCTCTGGGGACACGGGGAGGGACAGGAAGAACAGGCCATGTGCCCTGA
GCCACCAGCCCCTCTGACCTGTGCCCTCCTCACGAGGCTGAACAAGTTCCAGGGGACCCTGCAGGGCCCCCATGTGCCTGGCAAGCAGATTCCGCTGGAA
GATAATAGGGGCTCCACACCACACACCGCACAGGCGTGACCATGCCTCAGGGCCCCTGCCTCTGGGTGACTGTGCTGTCCTCTCCTTCTTCAGGGGTATC
AAGGCAACARTGGAGCCCCAGGAAGTCCTGGTGTGAAAGGAGCCAAGGGCGGGCCTGGGCCCCGYGGACCCAAAGGCGAGCCGGTGAGTCCCTCCTGCCC
CTGCCTCAGGGCCCYGCTCTGGGCATCCTCCTTGCAGCTTGAGGAGGACCATGGGGGAAGGGCACCTGGGCTGTAGGCAGGATCCCCTGCTGGCAAGGCA
CAGCCAGGCCCCCATCCTCCCAAGAAGTGGACCCGGACCACCCCACGGGACCCCCCAGAGCTGGACTTAGAGGTAAAGCCCAGGCAGGTCCTCCATGGTG
TTCCCTAAACCCAGCACCAGCTGCCCAGGGCATCCTGTGAGGGCTGAGCAGGGCCCGTCCCAGTGCTGACCACTCCAAGGGGACTCTGTCTGAGCATGGG
GCCTGCCTGGGAGTGACCGCAGTGACTGGACAGCACCAGGTCCCCACCAGGCCCCAGCCCATCACCTAAAACGCCACTCACCAGACATCCAACTCCACCT
GGAGCCTCCCCAGATCATTCCTAAATCCTCGGCATGGGCGGGACCGACGCAGCAGAGGGACGAGGGCTGGCAGCAGAGCCACTGGCGCAGGCTGAGGCTG
TTGGGAAGGAGCCTGGGGATCGAGGTCCCAGGTCCCAAAGCCAGAGCCCTCCTGTAGAGAAGGAGCATCGGCCCCGGCACAGCCCCCACCCTCCACAGGC
TCTGGGCTTGGACTCAGCCCCCTCCCTCACCCACACGCCTGTTCTCTGCAGGGGCGCAGGGGAGACCCCGGCACCAAGGGCAGCCCAGGCAGCGATGGCC
CCAAGGGGGAGAAGGTGAGTCCTCGTGTGGAGGCAGCCCRGGGTCTCACTGTGGTGCCCATGGGCCCTGCTGACGAGGGCCCCAACCCCATTCCTCCCAG
AGAACAACAGAACCCCAGGGCCTCACTCTCCAGMGTTCACTCTCTGCAGAGTCTGGGAATGCAGCCCTGAGATCCCCACACCCCATTCTCTGCTGAGGAA
GCTCCACTACCCACCCAGGCACACCCCGCACAGCTGTGCAGGCACCATTCACCCCCGGCCCACTGAGGCACCACTCACACCCCCCGGCCCCCACTGAGGT
ACCGCTCACCCCCCAGCCCCCACTAGGCACCGCTCACACCCCCGCTACACCTCTTACCCCCAGCCCACTGAGGCATTGCTCACCCACGTGACCTCAGGGG
TGATGCTGAAGGGCTGTGTGGTAAAACCCCGGCCACCAGCTCCCCTTGACATCAGGTGAAGGGGCTTCCTCCCAGGAAGTGGAYGAGGTCCTACCCATGT
GTGGGTGGCCTCAGGGGGACCGAGAGACCCCGTGCTCAGAGCGGCAGCTACAGGCACCGGGAAGGAGCTATGGGTGAAACAGGCGACTGTTGCAGGTCCC
CCGGGACAGACGGGGTTCTTCCTCCCAGGCCCCCTTCCCCAACCCCCGGCCACACCCGCCTCTCACATGGGACCCAGGCCGGAGGCCTCAGCTGAGACCC
GTGGGGCCTCCCTTCCCTYCCCACAGGGGGACCCTGGCCCTGAGGGGCCCCGCGGCCTGGCTGGAGAGGTTGGCAACAAAGGAGCCAAGGTAGGGGAGCA
GGGTGGGCCGCACCCCAAGGTAGGGGATCTGAGGGGGTGCAGGGGGGCTGCACCCCAAGGTAGGGTGGCCRGGACTGCACCCCAAGGTAGGGGACCCGGG
TGGGTGCTGCACCCCAAGGTAAGGGGGGCCCAGGTGAGGGCTATACCTCAAGGTAGGGGACCCAGGCGGGTGCTGCACCCCAAGGTAAGGGACCAAGGCA
AGGGCTGCACCCCAAAGTAGGGRACCCAGGTGAGGGCTGCAACCCAAGATAGGGKTGCTTAGGCAGGGGCTACACCCAGAACCCAGCCTACTCCACTCAG
TGTGCTCAGGGCTGAAGGTCAAGTGGAGCCACAGCCTCCSGGGAGGGTCATAGGGGCCGGGGCCAGACCYGTCTTACCCCCGAGGCCCTGCAGTGTCCAC
AGGATTGATACTGGGGACTCCAGGGTGCTGCTGTCAGTCAAGAGAACCCCAAATTCCTCCCCTTTCTTCCAGGGAGACCGAGGCTTGCCTGGACCCAGAG
GCCCCCAGGGAGCTCTTGGGGAGCCCGGAAAGCAGGTCAGTGTCAGTGCAGGAGGCCGGTGCCCTCTGACCCCACGGGTGGGTCTCCCCTATCCATGTGG
GGACAGCCTGGAGCTAGCCACTGTCCCCATAGCAAACCCAGGCAGCAGAGCCTGGCCTCAGAAGCCAGGACCTGCTCCCCTAGACCCCGAGTACCTCATA
CCCACCCTCAGCCCCAGCCCCCCATCCTGCCCTGAAGGACCCAGGTTGTGGAGTCAGGGGCAAGGCAGTGGGCCTGAGGTCCTGGATGGGYCACAGGGAR
AGGAGGAGCTGGGACCCTCAAGACAGAGGTCCACGGCCCCCACAGGCAGCAGGAGGAGCTGCGGCCATGTGGCCTGGTGGTCAGGGCTGGACGGGGCATG
TCAGGTGACCCCTGGGCATGGCCAGTCCCTGCCTGTGCTGACTTCTGAATTTCTCTCCTGCCCTCAGGGATCTCRGGGAGACCCCGGTGATGCAGGACCC
CGTGGAGACTCAGGACAGCCAGGCCCCAAGGTACGTGCCCCTCCCCCAGCRGGACGTATTAGGGGTTCGGGGCAGCTGCCTGAGGAGCAGGACAGGGGGC
CGGCCTGGGGGACCCTGTTGCCGGCAGACGTGCCTCAGGACGGGCCTGTGCCTCCTGTTCTCAGCTCTGGAGTGAGGGGATGCCTCCGGGGTCCAGGAAG
CCCCCCTGGCTCTCCTCTTCAGCAGTGACCCTTGGGTGTGCRTGGCACATCCTTCCTGAGGCAGGGCCTGAGGGCAGCTACGTGGCCTGAGTAGGGTCCT
CCCCGCGTGTGGGCAGGCTTCGGGTCTCTAGGCACGTCCAGCCCCCACTGGAGGTGGACAGGGCGAGGTTGGCCCTGCCAGGCCTCTGCTCACAGCCAGA
ACTCGACGGCACCCCTAGCCCACTTCCACCCCAGTGTGCACCTTGCGCCCTGTTGAGCACAGCCCCCCAGCCCCACCCCGTCCYATGACCATGCTGACCG
ACTCAACGTCCTCCTCCAGGGAGACCCCGGCAGGCCTGGATTCAGCTACCCAGGACCCCGAGGAGCACCCGTGAGTCACAGCCTGGGATGGCAGCTCCCA
GGAGTGGGTGGACATTGTCCCAAGGGCCCTGAAGATTCCTAGTAGTTCCCTCAAGGCCTCCTCTGTGCAGAAGAAAGTGTGAGGTCCCTCCTGCGGGACA
GAGTGGTGAGAAGGCTTYGGGTGACTCAGTGAAGGATAGGTCCAGCCCAGCATCAGGAAAAGAGCACAGCTCAGAACGCAGCACAGTGGCCTCACCCAGA
GTGTGAATGAGCGAGGGAGGGAAACGGGGCTGCAGAAAGCTGCCCAGAGGGAGGAAGGAGCACTGGGATCTGAGGYTGAGTCACCCTGGCTTCTGTTTGC
TTCACAGGGAGAAAAAGGCGAGCCCGGCCCACGCGGCCCCGAGGTATGTGTGGGTCCTGGCCACCTGTGCCCACCCAGGGTGGGGGTCTGCACGCCCAAT
TGCTGGGAACACAATGCCCACCGTCACTGACAGGACCACCCCTGTCTTGAGATGGTCCTGGCTCCCCAAGGCCCAGCCATGTCACCTATGCTGAGCTCTG
GGGGAGCTGTCAGCCACTGGCTGRTCCCTTTYCAACCAAAGTTCAGGCTTTGCCAAAAAAACCACATAGATGCTCCCGTTTAAAGGACCCCAAAATGCCA
GATCGATTTTTCCACATAAAAATCTCACTGGTGTCCCTGGTAGAGACAGCTCCTCTGTCCCAGGCTAACATGTGTTCYCTGTCACAGGGAGGCCGAGGCG
ACTTTGGCTTGAAAGGAGAACCTGGGAGGAAAGGAGAGAAAGGAGAGCCTGTGAGTGTCRCCGTCCCGAAGCCCACAGCAGCTGGGCAGAGGCAGGGAGG
GGCCCTGAGGCTGAGCGTGTGCATCTATGAGTACAGGAGAACGCCAGGCAGCTTGGCCCCAGCCATGAGCACCACCCCCACCTTCCTAAAGGGAACGGCT
GGCTCAGGGGCCCCCTCCCTCAACCCAGCCTCCCTTCCAGCGTCCCCTCCCCAGTGACCCCCCAACATCCCCCCCACAGCATCCCCCACAAGGGTCCCCT
CCCTAGTGACCCCTCCACAACATCCCCCCAGAGTCCCCTCCCAGCATCCCCACTACAGCATCCCCCACCAGGGTCCCCTCCCCAGCGACCCCAACATAGC
ATCCCCTCCAGAGTCCCCTCCCCCAAAAGATGCCTCCACATAGCATCCCCCTCAGAGTTCCTACACACAGCATTCCCCAAGGGTTCCCTCCCCAATGTCC
TCCCCACAGTTATCCCCCAGAAGGTGCTCTGTGCCTCCAAATCCCTAGCCTGGCCAAGGGTTTAACCAGGGCTGCAGGTTGGTCTGGAACTGAGCACAAA
ACAAGGGATGGATAACGATGGATGGATGGGCAAGTGGATGGGGGTGGGCAAATGGATGGATGGGAGGATGGGTGATGGATGGATGAGTGAATAGAAGAGT
GGGTGGATAGAAGATGGATGAATGGATGGATTGCTGGATGAGTGGGTGGGTGGATGGATAAGTGGATACATGGGTGAATGAGTAGATGTATGGGTGAGTA
GGTGGGTAGGTGGGTAGATGGATGGGTGGGTGGGCGAGTGTGTGGTTAGATGATGGATGGCTGAATGGATGAGTGGGGGGATGGATGGGTGAGTGGGTGT
ATGTATGGATGGGTTAGTGGGTGGGTGGATGAATGGATGGGTGCATAAAGGATGGATGGATGAATGAGTTAGTGGGTTGGCAGATGGATGGATGGGTGAG
TCAGTGGATAGATGGATGGGTGGGTGGATAGAGGATGGATGGTTGGGTAGGTGATGGGTGGATGAGTGGATAGATGGGTATGTGAGTGAGTGGGGGGATG
GGTAGGTGGGTGGATGGATGGTTAGGTGAATGAGTGGATGGACAGACGGACAGTGGGTGGATGGATGAGTGAACGGATGGACCGATGGATGAATGGGTGG
GTGGGTAGAGGATGGACGGACAGGTGAGTGGGTGGGTGGATGGATAGATGGGTAAGTGAGTGGATAGATAGATGGGTGGGTGGACAGAGGATGGGTGGAT
GAATGGATGGGTTAGTGGGTGGCTGGGTGGATGGATGATGGATGGGTGACTGGGTGGATGGATGGATGGGTTAGTGGGTGGCTGGGTGGATAGATGGATG
GGTGATTGGGCGAATGGGCGAATGGGTGGATGGGTGGGCGTGGAGTTGGTGGGTACATGATAATGGGGTGGAATACCCATGGATTGGAATGAGCTGTTTT
GGCTGCYATTTCTGGGACACCCAGCTCTGCCAGGCCCCTACCCCTCTGGTGGGCCAGGCTCTGACGGTGGCCACTCATGGCCTTTCYAGCTCTGGTGCCR
GCATAGGGAAGGAGGAGGCACAGCCTTGTCTTACTCCTTGCACCTGTTAGCYCCCCCCCCGCCAAGGGAGGACCCGTGGTTGGGGACAGCACAGGGGGCC
CTGCTGTGTGCAGGGACTGTCCCTGKGGCCACTGAAGCSCACCTGTTCTTGTTCCTTCTCAGGCGGATCCTGGTCCCCCTGGTGAGCCAGGCCCTCGGGG
GCCAAGAGGAGTCCCAGGACCCGAGGTAGGTTGGTGGCCAGTCCCCATGCCCTCCCCCCRACCTGCCAGGCCAACACACACCCAAGCCTCGTGGTTCTGC
CCACRGTGGACCCACGTATCAGTGRGCAGTGGCCTGGGAGAGACTCAGCCACCCAGCCTTGGCCCCRGAGTCTCAGCCTCATCCTTCCTTCCCCAGGGTG
AGCCCGGCCCCCCTGGAGACCCCGGTCTCACGGTARGTGTCACATGGGGCAGAACCAGTGTCCTTCTCCTGCCAAAACTAGACACCAAGAGCAGCAGGGG
TGGGGGAAGGTCAGCTGGCACGGTCAGAGAGCAAGATCAGTGGAGGAGGTCAGAGGGCAAGGTCAGAGAGCAAGCTTGGTTGGGGAAGGTCACAGGGCAA
GGTTGGTGGGGGGAGGAGRGTGGCAGCGAGGTTGGTAGGGACAGGACCCGCCAGCCTCCCCGCATGGCTGCCTCCACACGTGGGCTGGAATGTCCCGGGA
CCCCCAGGCCAGGACCTTGCTGTGGAAACTCTTCTGGGGCCCCGGGGGGACTRCCCTGCCTGCCGTGTGCATTGCAGGAGTGTGACGTCATGACCTACGT
GAGGGAGACCTGCGGGTGCTGCGGTGAGGCACTGCCCACGGCAGGGTCGGGGCCCATGCACCGGGTGGAGGGCGGGAGTGCAGCARGGCTGGGTCATCGC
TGGGTCCYGCATGTGCACGTGACCCTAGGGTCTGAGGTCTCCCYGGTACCCCCCGATGACCCTGCCACCCCCCCAGACTGTGAGAAGCGCTGTGGCGCCC
TGGACGTGGTCTTCGTCATCGACAGCTCCGAGAGCATTGGGTACACCAACTTCACACTGGAGAAGAACTTCGTCATCAACGTGGTCAACAGGCTGGGTGC
CATCGCTAAGGACCCCAAGTCCGAGACAGGTCAGCGGGGCAGGGGCGGGTGCAGCATTGCGGGGGGCCGGGCGGGGCGTGGGAGGCGATGAGATGGGAGA
AGTCCAGACGCGTCCCTCCAACGAGGGCCTCTGCATGGCTGGGGATGCCCCAGACCCCGAGGCCTCTGGCAACSACCTCACGCGTGCGGCTTGCAGGGAC
GCGTGTGGGCGTGGTGCAGTACAGCCACGAGGGCACCTTTGAGGCCATCCAGCTGGACGACGAACRTATCGACTCCCTGTCGAGCTTCAAGGAGGCTGTC
AAGAACCTCGAGTGGATTGCRGGYGGCACCTGGACACCCTCAGCCCTCAAGTTTGCCTACGACCGCCTCATCAAGGAGAGCCGGCGSCARAAGACACGTG
TGTTTGCGGTRGTCATCACGGACGGGCGCCACGACCCTCGGGACGAYGACCTCAACTTGCGGGCGCTGTGCGAYCGCGACGTCACAGTGACGGCCATCGG
CATCGGGGACATGTTCCACGAGAAGCACGAGAGTGAAAACCTCTACTCCATCGCCTGCGACAAGCCACAGCAGGTGCGCAACATGACGCTGTTCTCCGAC
CTGGTCGCTGAGAAGTTCATCGATGACATGGAGGACGTCCTCTGCCCGGGTGAGCGTGTGGGCGCGGGGCAGTCGGCCGAGGAGCAGCAGGCCCCAGCYG
CTGYCTAGCGTGAGCCCCAGGGACACCCCTCACCTGAGGGAYGAATGTGCAGCCCAGGATMTTGGGCTGTGGGTGGGAAGGGGTCGGGCCCTCTCGGGGC
TGCAGGGCAGAGGCCAGCTGCACCCTGAGCCTGTCTAGGCAGATCAGTGAACGGCCGCTGAGGGTTCGCTAGRGACTGACCCTGGCCTGGCCCGGCCTCT
CTCCTCTCTTCCAGACCCTCAGATCGTGTGCCCAGACCTTCCCTGCCAAACAGGTAATGCAGGGCACCCTGAGCCACCACCCCAGACTAGCAAAGCAGCC
CTGGTGTCCTTCCTCCTCGAGGGCCGGGCTGGGGGAGGGGCCGTGCAGGGACCCGGGGGGCGGCGGAGCCACTGCGGAGGCTGCTCCTTAGGGAGATGGC
CCCAGGATGGCAGCACAGGGGAGGAGGGGCTTGGGGAAGGCAGGCTCCCAGGAACGCAGGAACAGCATCACGAGGCCATGAGGTGGGTGCTGCTAGCCTG
GCGCTGTGCTCGGCATGTGGCCACTGGTCTTGAAGGCCCACCATGGGCCTTGCAGTCTCCCTCAGCTGCCGCCCAGCTCCCATGGGCTGGCCGTGCATGT
GCCACTCGGAGGAAGCCCTGGATTCAGKGAGTGAAACCATCCCGGGGTGGAAGCACTGACACCCCCCAGCACCAGCAGGTCTTGCTCCAACCCTGGCCTG
CCTCGGAGCTGCAGCTGCGGCTCTCATCTCTGGGAGTGGGGGAGCCCATGTCCCGGATGTGGCCCACGTGGGTGTGAAGCTGGAGCTGGGGGTGCCGTCC
AGGCTCTGCTGGACGTGGTGCTGCCCCCATGGTGCACTGCTGCACCGTACCTGGGCCCACAGGAGGTCCCCGGGGGCGTTAKGAGCTGAGTCCCCCTCAG
TGAGCCGTCCCCTCCAGGAGTGTGAGGGTRGGGATGCCATGGAGACAGGGTGGGAGGGTCCGACCTGGAGGACCACAGGGAGGAAACCTCAGGGTCTGCG
GTACGAAGTCAGCGCTTCCTCAGCACGCGGGTCGCGGTGTGCGTTCGGGCGTTCCATGGGGAGCTCCCGGTGGGTGAGCTGGGCCACTGAGCACATTCAC
AGGCCCTGAGGCTGCCCCAGGGGAGGARCCGTGGACTCAGAGCCGAGGTTCCCCATACGTGCTGCGACAGAGAACCTAGGGCTTGCACCTGGGTCTGGCT
GCCCTTCAGCAGGCGGGCAGCCTCTGGCCCCACAACAGTGGGCTGTGCTTCTGCCGCCAAGGTGCAGGCGTCCTCCCCCAGGGTCCACATCAGCAGCAGG
GGCACCTGGACCCTGAGGGCAGGAACCAGACCTTGGCTCCTCCACCCACCCCCTCGTTCCTGATGGGGCAGGGAAGTCTCGGGACCCCATGATGGGCGAC
ATGGCGATGGTCACTGTGGGTGCTTTGCTATCAGGTGGGGGGCCTTCCTCTCCACTCYGGGTCCAGTGTGAGTGGCCGCTATGGCTTCCCCTCCACTCCA
GGTTCTATCGTGAGTGGGTGGGTGCTGCGTCTGTGGATGTCACGTGACCTTTCCTCTTTAGCCTATCATYGTAGTTGGGAGTTAGTTAGCCCGTTGAGCG
TCATTGAATTTCCAGTGTTGAGCCAGCCCTGCGTGCCCGGGATAAACCCACCTGGCCGTGGTGTGTGGCCCTGTTTATGCACGTGGGCCCTGATTCGCTG
ATGCCTGCCTGAGGGTTTGCGCTTATCGGCGACATCAGCCTGCACTTTTCTTTTCTCGTGATCTCTCTGGTTCTGGCCTCAGGGTGACGTGGGCCTCGTA
GGGTCCCGTGGTGGCTCCTCCCCAGACGGTGACATGGAGTGAGCCCATTCTCCCTCCTGGGAGTGGGTCACTCAGGCCACCAGAGCACCACAGGGAAAGC
AGCCAGGGAGGACACGGAGGCCCTTGAAGCTCTGGCCTCTTCTGAGGCCTCCAGGACCTGACAGTGAGTGGGAGCAGCCCTGGCAGAACCCCTCCCCTCC
TCTCGGCCGCCCTGACACCTCATCCCCGACACTCAGAGCTCATCCTCCTTCCCAGCTGTTTCCAATTTCAAAGTGAACTCGACCTTGTGGCTCCAGGAGA
TGCAGCAGGGACAGTGTTAAATCGGCTTTCACCAGCCCACACAGCCAGGCATCCTCCTCGGCCCTCCTGGGCACTGGGTGGACACCACTGGCTGTGGCCT
GGCCCTGGCCTGGCCCTGGCCTTCTCCAGACAGCCCTGTCCACCCCAAAGCCCAGCCACCCTGGGCCTGCAGCAGGCCTGTGGAGTTCTCAGTTGCGTGG
GGACCAGAGGGTGCTGGAGAAACAAACCAGACGCAGCTGAAGGCAGTCAGGGCAGGGCGCAMTCAGCGATAAGAGCTGCATAGGGGCCACAGCGTAACCT
GAGCTCCAGTCGGTGGAAAGAAAAGGCAGAGACGTTGCAGAGGCCAGGTCTGCTCAGGGGAAGACAGTTCTGGGTGTAGAGGACTCACATCCCAGAGAGG
CTGAGGAAGGGTTTACCACCGCAAGCTTTCTCAGGCGGGCTCTTGAGGGGTGGCTGGGGTCTTCCTGGCGACGGGCCTGCGGCACTGGAAGCCCTACTGG
AGTTTGGCCTGTCTCCGGCACAGGTTTGGACGGAGCTGTTTTGTGCTGAAAGGTTTTCTCGGGGTCCGTGGTGTCCCCCAAAGGTGCCACCGTGCGGGTC
TCCTAGCTCCCTGCCAGCTTCCTGTCCCTGTGCTCACTGCCCCCACGCCTCCTGCCAAGGCCGAGCCACACACCCGCTCCACCTGCATTTCCTCTACCGA
CTCGCCAGCCCAAATGCCGCTCTTCACTCTGGCCTCGCTGAGCGGCTGCCCGAGGAGGAGCTCTAGGCCGACGCCCACCGCAGGCCTTACAGTCTTCTCT
GGACGCTCCCTTGCAGATGCACCGTGGCCTGGCGGCGAGCCCCCGGTCACCTTCCTCCGCACGGAAGAGGGGCCGGACGCCACCTTCCCCAGGACCATTC
CCCTGATCCAACAGTTGCTAAACGCCACGGAGCTCACGCAGGACCCGGCCGCCTACTCCCAGCTGGTGGCCGTGCTGGTCTACACCGCCGAGCGGGCCAA
GTTCGCCACCGGGGTAGAGCGGCAGGACTGGATGGAGCTGTTCATTGACACCTTTAAGCTGGTGCACAGGGACATCGTGGGGGACCCCGAGACCGCGCTG
GCCCTCTGCTAAAGCCCGGGCACCCGCCCAGCCGGGCTGGGCCCTCCCTGCCACACTAGCTTCCCAGGGCTGCCCCCGACAGGCTGGCTCTCAGTGGAGG
CCAGAGATCTGGAATCSGGGTCAGCGGGGCTACRGTCCTTCCAGGGGCTCTGGGGCAGCTCCCAGCCTCTTCCCAYGCTGGTGGCCACCGTGTCCCTTGC
TGCGGCTGCATCTTCCAGTYTCTCCTCCGTCTTCCWGTGGCCGCTCTCTTTATAAGAACCCTGGTCATTGAATTTAAGGCCCACCCCAAGTCCAGAATGA
CCTCGCAAGACCCTTAACTCACTCCCGTCTGCAGAGTCCTTCTTTGCTGCATCAGGTCACCCTCACAGGCTCCAGGGTTTGGGTGTGGAAGTCTTTGGAG
GCCCTTACTTAGCGGCCCAGCTGGGCTGCCGTGCGTCTGGGATGGGGCTGAGGGAGGGTGCTGCCCAGGTGCTGGAGGATGTTCCAGCACCAGGTTCCAG
CGGAGCCTCGGAAACAGGCCCCAGAGGCTGGTGAGCCTCGCTGGGTGTGGGCACTAATCCCGTGCATGGTGACTCGTGGGCGCTCACGGCCCACCTGGTG
GCAGGTGAAGGCTTCCGGTTGGGCAGCAGATAGTCCTGGGGGAAGCTGGCAGTCCTGGCACCATGACGTATCTGGGCTGGTGTCATGCACAGTAGGGCGA
ATGGCCACAGCTGCCTGCCAGCAGCCCTGATCCCGGGGTGTCTGCACCCTTCCAGCCCAACCTCTGGGTCTCCAAAAGCACAGTCGGGGGAGCATCCACC
AGGCACAACCTCTGCGGTCCTCAGAGGACTGAGCAGAGAATCCCAGGGTCCACAATGTTGGGGAGCGGCAGGGATCACCATCCAAAGGGAGCGGCCCCCA
CGGCGAGCTGACCCCGACGTTCTGACTGCAGGAGCCCTCATCCAGGCTGGGCTCCTGCCGGGCACGGCTGTGACCATTTCTCAGGGCCAGGTTCTCGTCC
CCACACCCACTGCACAGGGCAGGCCAGGCTGGTCTTCCCACTGTGGGGATGAAGGATCCTCCACAGGAGGAGGAGAGCAGAGTCCACAGACATCCCAACA
GCCTCAGCCTCCCTGTGCCTGGCCGGCCCCCACAGCTTCCCCGTCTCCTCCAGGCCCCACAGACACTGATGAATGGACAGAGACCCCCAAAACCAGCTGC
CCCTTGCATGTCTGTCTCCATATGTTTGGTGACAGCAGTGAAAATGTTATTAGTTTTGAGGGGGTTTGGGAAGCCCAGCGGTACCTGAGGAGTTTCTGGA
CATTTAAGCCGGTTCCTAGGTGTGGCCTTAACAGGGAGGCTGCCCTTCCTTTCACTGAATRAGCTGCGTCACTCATAAGCTCACTGAGGGAACCCCATCT
GCCAGCTCGTGYGTGCTCAGACGGCGTCCATGTCTCAAGCGTTCTGTGAAGGCTGYGGTGCAGCGTGAGGTCACCCTGCTGTGTTCAGAGCTTTGCTCAC
TGCCTGCGGGGCTGGACCRTTGCACCTCCAGGGCCCCSAGAAACCGAGTTTCGGGTCAGGGTCCTCTGTGTGCATTCCTGGGGGTCCATGTACCAGCTGT
GACGACGTCCAGGGGTTGGGCTGAGAAGCAGACACCCTTGGGGAAACTGGCTCTGTCCCTCCCCTCCCCCATCCCAGGAGCTGAGGTCTTGGTGAGGCCA
CAGGGCCAGGTCCACGCAAGGACTGTCCGTGTCCTGTCCTGTGGTCTCTGGCCCCACGTGACACCCACACRTGTGGTAGGCAGCCTGGCCTGGGTTGTGG
CTATGGCCAGGCCCCCAAGCTGTCCCCGATGCCCAGGGCTGGTGACCACCCAGGCAGGTGGGGGCCCCACTTGGTAACAGAGTCATAGGGCAGAACCCAC
CTGGGCTGCCACAGAAGGTCTGGCTGCCCCTGTGCCCACTGCTCCCCACCATGGCCAATCAGAAGAGTCAGGGGCTCCTGGTCTTTCCGGGAGGGACGTG
GCCCAGCCAGCTCTAGGTGTTCTGAGCAGCTCTGGGACCCAGCGATTGAGGGGTCAGGCTGGGGGTGTCAGAGCCAGGGTCCTCCTTAAGTACCTCCCAC
ACTACACAGACAGTGGCCCTTTTGTGGGCAGCAAATTCTTGAGCCATGAAAGGATGCTTTGGGCCCCTTCCCTCCCAGGAGGGCAGCCTGTGCAGGGATG
GTGCTCAGCAGGTGGACAGGGCCTGGGGCCTGTGTCAGGGTCTCAGGCCTGGGAGCACCAGCAGAGGAGAYGGCGGCTCCCAGCAGTGCCGCCTGAAAGT
GTYTTGGGCTAAGGACCCACACCCAGGGCTGCCCTGCAGAAACGCCCCCGCAGAGCCCAGTGGTCTGTGAGGTTGCAGGCAGGGTGCGAATGGAAGGGCA
CAGGTGCGGGGCTGGCACCTGCCCGGTCCTGCCCACCTCYCCTCCGCCCAGCCCGCACCTGCGTCTCCCCACAGAGCTGTCCGTGGCACAGTGCACGCAG
CGGCCCGTGGACATCGTCTTCCTGCTGGACGGCTCCGAGCGGCTGGGTGAGCAGAACTTCCACAAGGCCCGGCGCTTCGTGGAGCAGGTGGCGCGGCGGC
TGACRCTGGCCCRGAGGGACGACGACCCTCTCAACGCACGCGTGGCGCTGCTGCAGTTTGGTGGCCCCGGCGAGCAGCAGGTGGCCTTCCCGCTGAGCCA
CAACCTCACKGCCATCCACGAGGCGCTGGAGACCACRCAATACCTGAACTCCTTCTCGCACGTGGGCGCAGGCGTGGTGCACGCCATCAATGCCATCGTG
CGCAGCCCGCGTGGCRGGGCCCGGAGGCACGCAGAGCTGTCCTTCGTGTTCCTCACGGACGGCGTCACGGGCAACGACAGTCTGCACGAGTCGGCGCACT
CCATGCGCAAGCAGAACGTGGTACCCACCGTGCTGGCCTTGGGCAGCGACGTGGACATGGACGTGCTCACCACGCTCAGCCTGGGTGACCGYGCCRCCGT
GTTCCACGAGAAGGACTATGACAGCCTGGCRCAACCCRGCTTCTTCGACCGCTTCMTCCGCTGGATCTGCTAGCGCCGCCGCCCGGGCCCCGCAGTCGAG
GGTCGTGAGCCCACCCYGTCCATGGTGCKAAGCRGGCCSGGGTCCCACACGGCCAGCACCGCTGCTCACTCGGACGACGCCCTGGGCCYGCRCCTYTCCA
GCTCCTCCCACGGGGTCCCCGTAGCCCCGGCCCCCGCCCAGCCCCAGGTCTCCCCAGGCCCTCCGCAGGCTGCCCGGCCTCCCTCCCCCTGCAGCCATCC
CAAGGCTCCTGACCTACCTGGCCCCTGAGCTCTGGAGCAAGCCCTGACCCAATAAAGGCTTTGAACCCATTGCGTGCCTGCTTGCGAGCTTCTGTGCGCA
GGAGAGACCTCAAAGGTGTCTTGTGGCCAGGAGGGAAACACTGCAGCTGTCGCTCGCCCACCAGGGTCAATGGCTCCCCCGGGCCCAGCCCTGACCTCCT
AGGACATCAACTGCAGGTGCTGGCTGACCCCGCCTGTGCAGACCCCACAGCCTTGATCAGCAAACTCTCCCTCCAGCCCCAGCCAGGCCCAAAGTGCTCT
AAGAAGTGTCACCATGGCTGAGGGTCTTCTGTGGGTGGACGCATGATTAACACTAGACGGGGAGACAGCAGGTGCTGAGCCTGTTGTGTTCTGTGTGGAG
ATCTCAGTGAGTTTTTGCTGTTCAGACCCCAGGGTCCTTCAGGCTCAGCTCAGGAGCCCCACAGTGAACCAGAGGCTCCACAGGCAGGTGCTGACCTGAC
AGGAGTGGGCTTGGTGGCCATCACAGGGCACCACAGACACAGCTTGAACAACTACCAGTATCGGCCACAGGCCTGGAGGCATCAGCCGGGCCATGCTTCC
TCTGGAGGGCTAGAGGAGGACTAGAGAAGGGCCTGCCCCGGCCTCTCCCCAGCATCCCAGGGTTCCTGATCTCCTGGATAAGGATACAAGTCACCACACT
GGACTGGGGCTCAGCCTGCTCTAGAATACCTCACCTAAGTCACACTGGACCAGGCTCAGCCTGCTCTAAGGTGAGCTTACCCGAGACACTGGACCAGAGA
TCAGCCTATCCTGGGATAAGCTCACCCGAGTCACACTGGACCAGGGCTCAGCCTATTCCGGGATGAGCTCACCCGAGTCACACTGGACCAGGGCTCAGCC
TATTCTAGGATGAGCTCACCCGAGTCACACTGGACCAGGGCTCAGCCTATTCCGGGATGAGCTCACCCGAGTCACACTGGACCAGGGCTCAGCCTATTCC
GGGATGAGCTCACCCGAGTCACACTGGACCAGGGCTCAGCCTATTCTAGGATGAGCTCACCAGAGTCACAGTGGACCAAGGCTCAGCCTGCTCTAGGATG
ACCTCACTGGAGTCACACTGGACCAGGACTCAGCCTATTCCAAGATAACCTCACCCAAGTCACACTGGACCAAGCTCACCCTGCTCCAGGATGATCTCAC
CTGAGCTCACTGCATCTGCAAGGACCCCATTTCCAAACAAGGTCACATCCAGAGGTCTGGGGCTTAGGGTTAGGGGTTGGGGTTGGGGTTGGGGTTGGGG
TTGGGGGTAGGGGTCAGGAGTCAGGGTCAGATTTAGGGTCAGGGTCAGGGTCAGGGTCAGGTTTAGGGTCAGGGTCAGGTTTAGGGTCAGGGTCAGGGTC
AGGGTGAGGGTCAGGTTTAGGGTCAGGGTGAGGGTCAGGTTTAGGGTCAGGGTGAGGGTCAGGTTTAGGGTCAGGGTGAGGGTCAGGTTTAGGGTCAGGG
TGAGGGTCAGGTTTAGGGTCAGGGTGAGGGTGAGGGTCAGGTTTAGGGTGAGGGTCAGGTTTAGGGTCAGGGTCAGGGTCAGGGTGAGGGTCAGGGTGAG
GGTCAGGTTTAGGGTCAGGGTGAGGGTCAGGGTGAGGGTCAGGTTTAGGGTCAGGGTGAGGGTGAGGGTGAGGGTGAGGGTCAGGTTTAGGGTGAGGGTC
AGGGTCAGGAGTCAACATGTGAAACTGGGGAAATGCAGTTCACTCTGGATACCCTGAAACTTTGTTGTCCTTTGAAAAGACTCACTCTTTTCTTCATACT
CCACCGCTCTGTCATCTGACCACACAGCCTGCAGCTCCAGGGGAGTACGTCAGTTATTTTCTCTTCCTTTCCTCCTTTTCCCATCCCACAAAAAAACTAC
GCAAATGCCAGCAGGAGATGCAGAAGAGGCCCGCCTGTTTTGCTAAGCCCCTGCGCCCTGAGTGTCAGCCCTCAGATCTCTGTGCTCCAGGTGAACACCG
CGGGTCCCGCAGGTGGAGGGAGGCAGAGGCCCCTGCAGGTGCACAGGCTCCACCCACAGGAGCTACACAGGAGCTGCCCAGGGCCTCTGCAGGGAGAGGG
CGCTCCCCTCTCTCGTGCCAGCTCCCACGTGTGCAGCCTCGGACCCTGCAGGGCAGGAACGTCAGTCCCACTGGAAGGGACTTCCAGCTACCTACAGGCT
CTACCCACAGCTCCACCCAGCAACTGCCGCTCACCATTGGCCCTTCACCAATTACACCACACCAGCATCCCCTCACCAGCATCCCTCACAAATGTCCCCT
CATGGTCCCAACACCAATGTCCCCTCAAATGTCCCCTCATGGTCCCAACACCAATGTCCCCTCACAAATGTCTCCTCCCTCACGGTCCTAACATCAATGT
CCCCTCACAAATGTCCCCTCATGGTCCTAACACCAATGTCCCCTCATGGTCCCAACACCAGTGTCCCCTCACAAATGTCCCCTTCATTGTCCCAACACCA
ATGTCCCCACACAAATGTTCCCTCACGGTCCTAACACCAATGTCCCCTCACAATGTCCCCTCATGGTCCCAACACCAATGCCCCCTCACCGTCCCAACAC
CAATGTCCCCTCACAAATGTCCCCTCACCATCCCCAACACCAATGTCCCCTCACCAATGTCCCCTCCCAGCCTTCCCTCCTGAGTCCCCTCCCCAGTCTC
CCCTCCCAGACTCCCCTCCCAGCCTCCCCTCCCCAGCATTCCCTCCCAGCCTCCCCTCCCCAGCGTTCCCTCCCAGCCTCCCCTCCCAGCCTCCCCTCCC
CAGCGTTCCCTCCCAGCCTCCCCTCCCCAGCCTCCCCTCCCCAGCGTTCCCTCCCAGCCTCCCCTCCCAGCATTCCCTCCCAGCATTCCCTCCCAGTCTC
CCCTCCCCGGCACCCCCTCCCTGTCACCCCCTGCCGGCCGGATATGTAGGAACCTTTCATGCTGAGTGATGATGGCCCTGTACCCACACACACCTTGGGT
GTTTTTTCTCCCTGTAGGATTCTTGTCATTTGTCTTGGATGATGACATCTTTTTTCATGAACAAGTATGTTCTATTTTCAGAATGGGAAATCTCTCCAAT
AAGGCATTTGAGTTTTCTGCTTCACTCAAGGACACAGTAATCTTCTTTTTAATATCCTGCAGTGCTGACTAACAAATACATTCATACATCATCTGTCACA
TGTAATAGTCCATCTAGAAGTAATTTGAGAGTATAGTGATTTGCTAAATTATTTTTTAATGGAGAACTTCTCTGGAGACAGGAGGCTGGCTGGGCAGGGA
GCTGAGGCAGGGAGGAAAAGTCTCCCAGGAGCCACTGGTTGAAGGGTGGACGGGAACTGAGGACAGGGCCAGTACCGTGCTCTGTGGAACTGTCCAGACC
TGCCGGGAGCTGCACCTGGGAAGCGAGGCTATCCTTCCAGCGTCGAAGGTCCTGCTGTCCCTGGGGTTTCTGTCCCATGCACAGAACCAGGGCCCCTTTC
CCTCAGACAAGGGGCCTCACAGCCCAGGGACCTGCACTGAACCCCAGGTCCTCTGAATACCTGTGACCCTGCCCACTGTGGGCTGCACTGGGTGTCTGGG
GACCCTGGCGCTGAGGTCTGTCTCCTCACGCTGCAACCCCATTCCCTCCAACCCTGGCTCCCATGGGCCACTGACCATATGTCCTGCTCCTGCCCCAAGA
CCCGCAGCTCAGCTCTCAGCCCTGCCCCCAAAACCGCCAACACACAACACAGGTTTGGTGCCAAAACTTTACTGGAGGTCACATGGGACTAGGGGCCTTC
TGTCCCTGCCAGCGCCTCCATTCCCAGGCGATGCCCCGCTGCCTGCCCACCTACCCTCCGGGCCCCACACGAACAAGCTGTGTCCCCACCGAGGTCACAG
CTCTGCCCTCTGGGGATGGGCGAGGGAGGGGCCACAGAGCCCGGAGAGGCCTCCCGCACCGTCACTCCTGCCGGGTCTCCAAGCAGTCCAGCACCAGTGC
AGCCTGGGTCTTGGCTTCCTGCAGGAGGCTGGAAACACGATGGTGGATCTGATGGACACAGGGAAAGAGGGGTCTGGTAGTTCCAGTCTTCAGCCCAGCT
TGCTGGGCAGCAACCTCCGACCCCCACTGCCCACGGCCAGTCGGCAATCACCCTGAGGCTGTGAATCCAGGCCCCCACRTGGGGTCCGGGCACCACACCT
GCCTCCTGCTCACCTGGTCCTTAAATGCCTCGTCTGTGATGTCCCTCAGGTTGATGAGCACGTTGAAATATGCGCCAAACACRCCCATCTCCARGGCTTT
GGCCGCCACCTGCAAGGACCCCAGGGAGCCCCTACATGGATCAAGGCTGAGCAAACTGCCGGAAGGAGGGTCTCTGCCTGACGGGCTCTGGGACAGGCCG
GACTTCGTCCTCCTCCTCACAAGGAGCCCAGCGCAGCCCCCGCTTTCGCCCCACAGAGGGCTAAGCCCCACCACTGAGCTTAGAAAACAAAACTTTCTCT
TATCCAAGCAGGGCTCAGCCCCACAGGAGGCCTGGGAGCAGTCACACTGGAGGCTCTCCGCCACTCTAGGAACCAGGACCACAGTTCTAGAGACAGTCAT
CCCCTGGAGGGCCCCCGGAGGCAGCTTCAGGCTAACGGCCCGCCCACTGCCCAGGGACACTTCCCAGGGACTGAGGGGACACTTCTCTGGGACCAGATGC
TGAAAAGAGGCGTCTTTCCTATAAAGAACCCGAAGACCATGAGGTCTTAGGGCAGCTGCAGAAAGTGCTGAGCCCATGAGAGAGACGCTCCTTCTCTGGG
ACCCTCTGCCCAGCTGTGGCCCGTCAGTGTGAGGCATCTACTTCCAAGAGCTGCCTTGTGTGCTTTCTCGTGTTTTGTTGTTTTTGACCCAGGGTCTTGC
TCTGTCACCAAGGCTGGAGCGCAGTGGTGTGATCACGGCTCACTGCAGCCTTGACCTCCTGTGCTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCT
GGGACCACAGGCACCACCGTGCCTGGCTCATATGTATCTATTGTACAGCCAGGGTCCCACTATGTTGCCCAGGCTGGTCTCGACCTCCTCTATTCAAGTG
ATCCTCCCGCCTCAGCCTCCCAAAGTGCTGGGACCACAGGCGAGAACCATTGTGCCTGGGCTGACATAGGTGTTTTCTAGAACAAGACAGTGGGGGTGAT
ACAAGGGGTCTTGGGGGAGTATACACTTATACAGTGGTCAGGGTGGGCTCTGCAGACACATTTGGGTCTCCGTCTGTGGTGCCGCCGTGAGCGAGATCTT
AGAAGGCAGCGGACACCCCGGCCCTGTTGGAGGAGGCCAAAGCCCCGGGAACTGCCCGTGAAGTGAGGTCTCCCTACCTGGCTCAGCCCAGCCAACCACC
GTGCTCTCCAGCAACTCAGCCCCAACAGCTGCTTCCTGCTTTGCGGCAGGAGGCCTGGGGTCCCCCGGGCCCCCCTACCTGGAGGTCTGACCGGCAGGCC
AGGTTCCCACACYGGGCCAGTTCCTGCAGSGCCGGCCACAGCGAGGCCACCGTCTCCRCCAGCGTCAGCGGCACAGAGACTGCCCGCCTCAGACCCTCCT
GTAGGGCCRCCGTGCGCCTGAAAGGAGCAAGAGGAGAGCCTGAGCACAGCGGCACACACAGGCAGGCAGTGGACACACTGCACCCCAACAGGGCTGAGCA
GGCTGCAGAAGCGGGCGATGGGAAGTCATTCCCAAACACCCAGCACGCCCAGGCCAACCACGCCCCGTCACAGCACCCAGGTACTCGGGATCCTGGCCAC
CAACTCCCCAGACACAGAGGCCCACGGTGCGGCCGGCCCTCCAGGCTCACCTGTCCTTTTCCTCAGGTGTGTTCTTGGGGAGCCTCATTGCTTCCTGCCA
TAAAGAGACAGAACCACTGGGCGAGGGACCGTAGGGGGAGCAGCCATGCCCTCTGAGCTCCCACAAGGGGCTGTAGCAAGGAGCATGTCCCAGGCAGGGA
CCAGTTCTCTGGGAACCAAGCTTCTGTTGGGCCAGTGGTTTATAGCCCTTAGCATCAGGCTTGGTGGAGGAG


SNP Information

Context             (SEQ ID NO:52138):
ACCCGGCTTCTTCGACCGCTTCATCCGCTGGATCTGCTAGCGCCGCCGCCCGGGCCCCGCAGTCGAGGGTCGTGAGCCCACCCCGTCCATGGTGCTAAGC
R
GGCCCGGGTCCCACACGGCCAGCACCGCTGCTCACTCGGACGACGCCCTGGGCCTGCACCTCTCCAGCTCCTCCCACGGGGTCCCCGTAGCCCCGGCCCC
Celera SNP ID:            hCV9520169
SNP Position Genomic:     41334
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,1|G,39)   total(A,5|G,67)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52139):
CCACGTGACCTCAGGGGTGATGCTGAAGGGCTGTGTGGTAAAACCCCGGCCACCAGCTCCCCTTGACATCAGGTGAAGGGGCTTCCTCCCAGGAAGTGGA
Y
GAGGTCCTACCCATGTGTGGGTGGCCTCAGGGGGACCGAGAGACCCCGTGCTCAGAGCGGCAGCTACAGGCACCGGGAAGGAGCTATGGGTGAAACAGGC
Celera SNP ID:            hCV15767307
SNP Position Genomic:     28984
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52140):
AAGGAACAGAAGCACCTCGATAACTTGATGGCCGTCCCAAAACCCAGCCTCCAGCCCGACCCAGGGCTCAGCCTCCTCCGCAGACTGTTTGTCGAGAACA
Y
TAGATGCCAGCGGCCCACCGAGCACTCCCCTCAGCCTGCAGGGCTGGCCCTTCCCTGCCTGTGTCTCTGCAGAGCTCCTCACTAATGCCCCTCTCTCCTC
Celera SNP ID:            hCV25474688
SNP Position Genomic:     24925
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,35|T,3)   total(C,65|T,7)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52141):
GGAAACCGGGTAAGGGCCGTTTGCACCCCTCCTTCAGCCTCGGCCCAGGGGGTGTGGGTGCCTGACCGGGTGGGAGGGTAGTTGCTGCTGCAGTGGGAGC
R
TGGGTTCTCCCGGCAGCCCAGCAGCCCCAGCCCAGCAGCCCCAGCCCAGCATTCTGCCGGGTCGGAGTCATGTGAGGAACTCCCCCTGGGAGCTCCTGGC
Celera SNP ID:            hCV25622476
SNP Position Genomic:     26208
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,17)   caucasian(A,1|G,25)   total(A,2|G,42)
SNP Type:                 INTRON


Context             (SEQ ID NO:52142):
GTACCTCATACCCACCCTCAGCCCCAGCCCCCCATCCTGCCCTGAAGGACCCAGGTTGTGGAGTCAGGGGCAAGGCAGTGGGCCTGAGGTCCTGGATGGG
Y
CACAGGGAAAGGAGGAGCTGGGACCCTCAAGACAGAGGTCCACGGCCCCCACAGGCAGCAGGAGGAGCTGCGGCCATGTGGCCTGGTGGTCAGGGCTGGA
Celera SNP ID:            hCV29326692
SNP Position Genomic:     30091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52143):
TGGGTTCTCCCGGCAGCCCAGCAGCCCCAGCCCAGCAGCCCCAGCCCAGCATTCTGCCGGGTCGGAGTCATGTGAGGAACTCCCCCTGGGAGCTCCTGGC
R
GATCCCCGTGGCCTGGAGACCTGATGCATCCCAAACTTCGGTGTCACTGGACAGCTCCATTTCCCTGAGCAGCAGATCCAGGCCTGGCCTCTTGGTCACT
Celera SNP ID:            hCV25622477
SNP Position Genomic:     26309
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,21)   caucasian(A,1|G,25)   total(A,2|G,46)
SNP Type:                 INTRON


Context             (SEQ ID NO:52144):
CTGGAAACACTGGTCAGTGAGGAGCCAATGGCCGTGGGATGTGGTGGAGGGTGCCCTGCCCGTTGCTTCATCAGCTTCTAACCAGGGCTTGGGCGGCCCC
R
CCGCTGCTCACCGAGGCCTCAGCAACAAACCCACCTCCTCCCAGGTGGAGCCCCAGGGAGCCCCACCCACACCTCCTGGAGCTCCCCATGGGAACGTTGG
Celera SNP ID:            hCV29326693
SNP Position Genomic:     26800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52145):
CGGCAAGGTAAGTGGCCTTGTCAGGGTACGGGGCAGGCGGGGTCACCAGCTTCCAGGGGCCTCCTGGAGGCAGCCCCAGCTGAGAAGCTGAGCAGAGAGG
R
CCTTTCTGGAAACACTGGTCAGTGAGGAGCCAATGGCCGTGGGATGTGGTGGAGGGTGCCCTGCCCGTTGCTTCATCAGCTTCTAACCAGGGCTTGGGCG
Celera SNP ID:            hCV25622478
SNP Position Genomic:     26694
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:52146):
TCTCAGGGCCCCGACGGTTACCCGGGGGAAGCAGGGAGTCCAGGGGAGCGAGGAGACCAAGGCGGCAAGGTAAGTGGCCTTGTCAGGGTACGGGGCAGGC
R
GGGTCACCAGCTTCCAGGGGCCTCCTGGAGGCAGCCCCAGCTGAGAAGCTGAGCAGAGAGGGCCTTTCTGGAAACACTGGTCAGTGAGGAGCCAATGGCC
Celera SNP ID:            hCV25622479
SNP Position Genomic:     26632
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,20)   caucasian(A,20|G,20)   total(A,36|G,40)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52147):
ACCCTTCAGGGCCCTCTCCTGGCAGCGCCTCCCCTAGTCCCGGTGCTTGGACACTCCTCCCATCTGCACCGAGGAGAGGGCGGCACTCCAATCCCTGCAT
Y
ACCCCTGGAACTGCACGCTCTGAACCAGGCCCGGTGCCCTTTCTGCCCAGCTGCCCGGCTGCTGCCAGCCCCACTCTGCGGAGCCAGCAGCACAGTGAGG
Celera SNP ID:            hCV29326695
SNP Position Genomic:     18585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52148):
GCAGTCGAGGGTCGTGAGCCCACCCCGTCCATGGTGCTAAGCGGGCCCGGGTCCCACACGGCCAGCACCGCTGCTCACTCGGACGACGCCCTGGGCCTGC
R
CCTCTCCAGCTCCTCCCACGGGGTCCCCGTAGCCCCGGCCCCCGCCCAGCCCCAGGTCTCCCCAGGCCCTCCGCAGGCTGCCCGGCCTCCCTCCCCCTGC
Celera SNP ID:            hCV9520170
SNP Position Genomic:     41392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52149):
TCGAGGGTCGTGAGCCCACCCCGTCCATGGTGCTAAGCGGGCCCGGGTCCCACACGGCCAGCACCGCTGCTCACTCGGACGACGCCCTGGGCCTGCACCT
Y
TCCAGCTCCTCCCACGGGGTCCCCGTAGCCCCGGCCCCCGCCCAGCCCCAGGTCTCCCCAGGCCCTCCGCAGGCTGCCCGGCCTCCCTCCCCCTGCAGCC
Celera SNP ID:            hCV9520171
SNP Position Genomic:     41396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52150):
CAGGCGGATCCTGGTCCCCCTGGTGAGCCAGGCCCTCGGGGGCCAAGAGGAGTCCCAGGACCCGAGGTAGGTTGGTGGCCAGTCCCCATGCCCTCCCCCC
R
ACCTGCCAGGCCAACACACACCCAAGCCTCGTGGTTCTGCCCACGGTGGACCCACGTATCAGTGGGCAGTGGCCTGGGAGAGACTCAGCCACCCAGCCTT
Celera SNP ID:            hCV25473388
SNP Position Genomic:     33460
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,11)   caucasian(A,36|G,2)   total(A,63|G,13)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,10)   caucasian(A,35|G,1)   total(A,57|G,11)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52151):
TTTATATCTTACACTGGGAAGATTGTTGCTGGCTCTCAGTCTGCTTCCAGTCTGCTCATATTGCTTTTGTTGTAATGATGGTCATATGTGGGAGCTCAGT
R
TCAAGAGGGCAGACTTGAGCCCACACTGCCAGGCTTCAGACCTCAGCTATTAGCTGAGTGCCCTGGGCAAGTTACCTCACTGGGCCTTGGTTTCCTCATC
Celera SNP ID:            hCV2811346
SNP Position Genomic:     14223
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52152):
GGCCACCATGTCATAGCCTAAGTTCTCGTGTGTTGTTATGCCCATGGTTGTGTGGAGTGTTGGCCTGTTCCAGCACCAAAACCAAAACTGTAATTTTATC
R
TTTCATTTGATAGCACAAGCTTTCTCATCACTCTATTTTTTATTTTGCTCAACTCTTCTTGCTTTTTCTACCAAGTAAAACTTGGATTCATTTTGCAAAC
Celera SNP ID:            hCV2811347
SNP Position Genomic:     14702
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52153):
AACTGGTTGTTAGAAAATGTTTCTTCTAACTGATAGAAGAAAATCAATAACTTTTTGTATGTTGAGGACTAAGCTCTGATTTTTTTATCTTGCCTATATT
S
TTATCTAAGGGGTCTGGGGAGTCATGCCCTACAAACCATAAATTCTCATCAGATGGTTTTATCTAACCCTATATGCTGTGACTTACTTTCCATCTGACTC
Celera SNP ID:            hCV2811348
SNP Position Genomic:     15175
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52154):
ATGTTTCTTCTAACTGATAGAAGAAAATCAATAACTTTTTGTATGTTGAGGACTAAGCTCTGATTTTTTTATCTTGCCTATATTCTTATCTAAGGGGTCT
R
GGGAGTCATGCCCTACAAACCATAAATTCTCATCAGATGGTTTTATCTAACCCTATATGCTGTGACTTACTTTCCATCTGACTCTGGCATGACACTACAC
Celera SNP ID:            hCV2811349
SNP Position Genomic:     15191
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52155):
CTCACTCCTCTCTCAGGGCCCCGACGGTTACCCGGGGGAAGCAGGGAGTCCAGGGGAGCGAGGAGACCAAGGCGGCAAGGTAAGTGGCCTTGTCAGGGTA
Y
GGGGCAGGCGGGGTCACCAGCTTCCAGGGGCCTCCTGGAGGCAGCCCCAGCTGAGAAGCTGAGCAGAGAGGGCCTTTCTGGAAACACTGGTCAGTGAGGA
Celera SNP ID:            hCV25622480
SNP Position Genomic:     26622
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52156):
GCGCAACCCGGCTTCTTCGACCGCTTCATCCGCTGGATCTGCTAGCGCCGCCGCCCGGGCCCCGCAGTCGAGGGTCGTGAGCCCACCCCGTCCATGGTGC
K
AAGCGGGCCCGGGTCCCACACGGCCAGCACCGCTGCTCACTCGGACGACGCCCTGGGCCTGCACCTCTCCAGCTCCTCCCACGGGGTCCCCGTAGCCCCG
Celera SNP ID:            hCV25474692
SNP Position Genomic:     41329
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,27)   caucasian(G,2|T,28)   total(G,3|T,55)
SNP Type:                 UTR 3


Context             (SEQ ID NO:52157):
AGCAGCCCCCAGCCAGCATCTGGCATCCCAGGTGCCCCGTGGACATCAGGGAGGTGCAGTCCCAAGCCCGACCGTGGGTCCTGCCCCCGCAGCGGGCATC
S
TGCACCCCCCTTCCCCTGCCAAAAGACGTGAGGCTGATTCTGCAAACCCTTCCAGGGGGACCCTGGCCGCCCAGGACGCAGAGGGCCCCCGGGAGAAATC
Celera SNP ID:            hCV25622481
SNP Position Genomic:     27222
SNP Source:               Applera
Population(Allele,Count): african american(C,26|G,6)   caucasian(C,40)   total(C,66|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:52158):
CACGGTCAGAGAGCAAGATCAGTGGAGGAGGTCAGAGGGCAAGGTCAGAGAGCAAGCTTGGTTGGGGAAGGTCACAGGGCAAGGTTGGTGGGGGGAGGAG
R
GTGGCAGCGAGGTTGGTAGGGACAGGACCCGCCAGCCTCCCCGCATGGCTGCCTCCACACGTGGGCTGGAATGTCCCGGGACCCCCAGGCCAGGACCTTG
Celera SNP ID:            hCV25472226
SNP Position Genomic:     33819
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,17)   caucasian(A,2|G,26)   total(A,5|G,43)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52159):
AGTTCCAGTCTTCAGCCCAGCTTGCTGGGCAGCAACCTCCGACCCCCACTGCCCACGGCCAGTCGGCAATCACCCTGAGGCTGTGAATCCAGGCCCCCAC
R
TGGGGTCCGGGCACCACACCTGCCTCCTGCTCACCTGGTCCTTAAATGCCTCGTCTGTGATGTCCCTCAGGTTGATGAGCACGTTGAAATATGCGCCAAA
Celera SNP ID:            hCV25622554
SNP Position Genomic:     45679
SNP Source:               Applera
Population(Allele,Count): african american(G,18)   caucasian(A,3|G,33)   total(A,3|G,51)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52160):
GTGAGCCCCTCTGCCTCTTCGCCTGCAGCTGAGCTGGCCACACTCACGCCCATGGCCCAGATGAACAGTCACGCTGGCCACCATCTCTGCTGTCACCATG
K
TGCCGCATTGGGCTCTGGGGACACGGGGAGGGACAGGAAGAACAGGCCATGTGCCCTGAGCCACCAGCCCCTCTGACCTGTGCCCTCCTCACGAGGCTGA
Celera SNP ID:            hCV10112957
SNP Position Genomic:     27441
SNP Source:               Applera
Population(Allele,Count): african american(G,22|T,14)   caucasian(G,29|T,9)   total(G,51|T,23)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52161):
GGTCCGGGCACCACACCTGCCTCCTGCTCACCTGGTCCTTAAATGCCTCGTCTGTGATGTCCCTCAGGTTGATGAGCACGTTGAAATATGCGCCAAACAC
R
CCCATCTCCAGGGCTTTGGCCGCCACCTGCAAGGACCCCAGGGAGCCCCTACATGGATCAAGGCTGAGCAAACTGCCGGAAGGAGGGTCTCTGCCTGACG
Celera SNP ID:            hCV25622555
SNP Position Genomic:     45783
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,24)   caucasian(A,2|G,10)   total(A,10|G,34)   
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,7)   caucasian(A,3|G,33)   total(A,6|G,40)
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52162):
GCTTTTTTCTGGGAGCTTGGACTTAGGGCTTCCCACTTTCTGTCCACCTTCCCTCAGCCCAAGCCCAAGTCTGGCTGAGTCCTCTGTGCAGATGCACAGG
Y
GTCCTGCCCGTGACACACACTCTGCCCTCAGCTGGCACGGAGGTTCCAGCAGCCCCCAGCCAGCATCTGGCATCCCAGGTGCCCCGTGGACATCAGGGAG
Celera SNP ID:            hCV25622482
SNP Position Genomic:     27074
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,36|T,4)   total(C,67|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:52163):
CTTTTTTCTGGGAGCTTGGACTTAGGGCTTCCCACTTTCTGTCCACCTTCCCTCAGCCCAAGCCCAAGTCTGGCTGAGTCCTCTGTGCAGATGCACAGGC
R
TCCTGCCCGTGACACACACTCTGCCCTCAGCTGGCACGGAGGTTCCAGCAGCCCCCAGCCAGCATCTGGCATCCCAGGTGCCCCGTGGACATCAGGGAGG
Celera SNP ID:            hCV25622483
SNP Position Genomic:     27075
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(G,40)   total(A,4|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:52164):
GGTGACTGTGCTGTCCTCTCCTTCTTCAGGGGTATCAAGGCAACAATGGAGCCCCAGGAAGTCCTGGTGTGAAAGGAGCCAAGGGCGGGCCTGGGCCCCG
Y
GGACCCAAAGGCGAGCCGGTGAGTCCCTCCTGCCCCTGCCTCAGGGCCCCGCTCTGGGCATCCTCCTTGCAGCTTGAGGAGGACCATGGGGGAAGGGCAC
Celera SNP ID:            hCV25622484
SNP Position Genomic:     27765
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52165):
CACACCTGCCTCCTGCTCACCTGGTCCTTAAATGCCTCGTCTGTGATGTCCCTCAGGTTGATGAGCACGTTGAAATATGCGCCAAACACGCCCATCTCCA
R
GGCTTTGGCCGCCACCTGCAAGGACCCCAGGGAGCCCCTACATGGATCAAGGCTGAGCAAACTGCCGGAAGGAGGGTCTCTGCCTGACGGGCTCTGGGAC
Celera SNP ID:            hCV25622558
SNP Position Genomic:     45794
SNP Source:               Applera
Population(Allele,Count): african american(G,12)   caucasian(A,1|G,37)   total(A,1|G,49)
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52166):
GCCCCAGGAAGTCCTGGTGTGAAAGGAGCCAAGGGCGGGCCTGGGCCCCGCGGACCCAAAGGCGAGCCGGTGAGTCCCTCCTGCCCCTGCCTCAGGGCCC
Y
GCTCTGGGCATCCTCCTTGCAGCTTGAGGAGGACCATGGGGGAAGGGCACCTGGGCTGTAGGCAGGATCCCCTGCTGGCAAGGCACAGCCAGGCCCCCAT
Celera SNP ID:            hCV25622485
SNP Position Genomic:     27815
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,39|T,1)   total(C,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:52167):
AACTCAGCCCCAACAGCTGCTTCCTGCTTTGCGGCAGGAGGCCTGGGGTCCCCCGGGCCCCCCTACCTGGAGGTCTGACCGGCAGGCCAGGTTCCCACAC
Y
GGGCCAGTTCCTGCAGCGCCGGCCACAGCGAGGCCACCGTCTCCGCCAGCGTCAGCGGCACAGAGACTGCCCGCCTCAGACCCTCCTGTAGGGCCGCCGT
Celera SNP ID:            hCV25622559
SNP Position Genomic:     47013
SNP Source:               Applera
Population(Allele,Count): african american(C,10)   caucasian(C,35|T,1)   total(C,45|T,1)
SNP Type:                 MISSENSE MUTATION;SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,2)   total(C,31|T,1)   
SNP Type:                 MISSENSE MUTATION;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52168):
TGTTCTCTGCAGGGGCGCAGGGGAGACCCCGGCACCAAGGGCAGCCCAGGCAGCGATGGCCCCAAGGGGGAGAAGGTGAGTCCTCGTGTGGAGGCAGCCC
R
GGGTCTCACTGTGGTGCCCATGGGCCCTGCTGACGAGGGCCCCAACCCCATTCCTCCCAGAGAACAACAGAACCCCAGGGCCTCACTCTCCAGAGTTCAC
Celera SNP ID:            hCV25622486
SNP Position Genomic:     28540
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,27)   caucasian(A,6|G,30)   total(A,11|G,57)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,93|G,1395)   total(G,1395|A,93)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52169):
CAGCCCGGGGTCTCACTGTGGTGCCCATGGGCCCTGCTGACGAGGGCCCCAACCCCATTCCTCCCAGAGAACAACAGAACCCCAGGGCCTCACTCTCCAG
M
GTTCACTCTCTGCAGAGTCTGGGAATGCAGCCCTGAGATCCCCACACCCCATTCTCTGCTGAGGAAGCTCCACTACCCACCCAGGCACACCCCGCACAGC
Celera SNP ID:            hCV25622487
SNP Position Genomic:     28634
SNP Source:               Applera
Population(Allele,Count): african american(A,32|C,2)   caucasian(A,37|C,3)   total(A,69|C,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:52170):
CCCGCAGTCGAGGGTCGTGAGCCCACCCCGTCCATGGTGCTAAGCGGGCCCGGGTCCCACACGGCCAGCACCGCTGCTCACTCGGACGACGCCCTGGGCC
Y
GCACCTCTCCAGCTCCTCCCACGGGGTCCCCGTAGCCCCGGCCCCCGCCCAGCCCCAGGTCTCCCCAGGCCCTCCGCAGGCTGCCCGGCCTCCCTCCCCC
Celera SNP ID:            hCV16006681
SNP Position Genomic:     41389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52171):
CTACACCCAGAACCCAGCCTACTCCACTCAGTGTGCTCAGGGCTGAAGGTCAAGTGGAGCCACAGCCTCCGGGGAGGGTCATAGGGGCCGGGGCCAGACC
Y
GTCTTACCCCCGAGGCCCTGCAGTGTCCACAGGATTGATACTGGGGACTCCAGGGTGCTGCTGTCAGTCAAGAGAACCCCAAATTCCTCCCCTTTCTTCC
Celera SNP ID:            hCV25622488
SNP Position Genomic:     29670
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,36)   total(C,65|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52172):
CAACCCAAGATAGGGGTGCTTAGGCAGGGGCTACACCCAGAACCCAGCCTACTCCACTCAGTGTGCTCAGGGCTGAAGGTCAAGTGGAGCCACAGCCTCC
S
GGGAGGGTCATAGGGGCCGGGGCCAGACCCGTCTTACCCCCGAGGCCCTGCAGTGTCCACAGGATTGATACTGGGGACTCCAGGGTGCTGCTGTCAGTCA
Celera SNP ID:            hCV25622489
SNP Position Genomic:     29640
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,29)   caucasian(G,24)   total(C,1|G,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:52173):
GATTTTTTTATCTTGCCTATATTCTTATCTAAGGGGTCTGGGGAGTCATGCCCTACAAACCATAAATTCTCATCAGATGGTTTTATCTAACCCTATATGC
Y
GTGACTTACTTTCCATCTGACTCTGGCATGACACTACACGACCAAGAAGAAAATAAAAATATTTTACCCCAAAACATGTTTCTTTGCCACATTTTGAAAT
Celera SNP ID:            hCV2811350
SNP Position Genomic:     15252
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52174):
TGCTTCCTGCTTTGCGGCAGGAGGCCTGGGGTCCCCCGGGCCCCCCTACCTGGAGGTCTGACCGGCAGGCCAGGTTCCCACACCGGGCCAGTTCCTGCAG
S
GCCGGCCACAGCGAGGCCACCGTCTCCGCCAGCGTCAGCGGCACAGAGACTGCCCGCCTCAGACCCTCCTGTAGGGCCGCCGTGCGCCTGAAAGGAGCAA
Celera SNP ID:            hCV9520181
SNP Position Genomic:     47030
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,6)   caucasian(C,17|G,19)   total(C,19|G,25)
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52175):
TCTGTAAGGAATCTCTGTTAACATAGCTAGCTCTTTTTCTTCCAGGCCCTCCCAATTCTGAAGAGATTAACCGAGAGTCTAGCAGCTTTTAAAGGTCTCA
R
TAGGAAACACTTGTCATTGATTGTCTCTAAGGGCAGCCACTATGAGACTTCAGAAGAACCTTGGTCTCCACAGTCTTTTATCTTAACCTGAGCATTTCCT
Celera SNP ID:            hCV2811351
SNP Position Genomic:     15491
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52176):
AGGTACACAGACAAGTGGAGGGTGTGCAAGACAGAGAAGCTTTATTGAGTGTTAGGGGAGCTCACAGGAGACCCGCAGGGGGCAGCCCCTCTCTGTAGGC
R
GGTTGTCTTGTCGGCGGGTTGTCTTGTCAAATGTTCAGCTCTCAGCAGAGAGAAGGCCCTGGAGTGGGTGGCTCCTCTCTGCAGGCAGGTCATCCCATTG
Celera SNP ID:            hCV2811352
SNP Position Genomic:     16893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52177):
TCTGACGGTGGCCACTCATGGCCTTTCTAGCTCTGGTGCCAGCATAGGGAAGGAGGAGGCACAGCCTTGTCTTACTCCTTGCACCTGTTAGCTCCCCCCC
C
GCCAAGGGAGGACCCGTGGTTGGGGACAGCACAGGGGGCCCTGCTGTGTGCAGGGACTGTCCCTGGGGCCACTGAAGCGCACCTGTTCTTGTTCCTTCTC
Celera SNP ID:            hCV27042741
SNP Position Genomic:     33260
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,4)   total(C,1|-,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52178):
TTCTCTCCTGCCCTCAGGGATCTCGGGGAGACCCCGGTGATGCAGGACCCCGTGGAGACTCAGGACAGCCAGGCCCCAAGGTACGTGCCCCTCCCCCAGC
R
GGACGTATTAGGGGTTCGGGGCAGCTGCCTGAGGAGCAGGACAGGGGGCCGGCCTGGGGGACCCTGTTGCCGGCAGACGTGCCTCAGGACGGGCCTGTGC
Celera SNP ID:            hCV27042743
SNP Position Genomic:     30351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52179):
ACCCACCCTCAGCCCCAGCCCCCCATCCTGCCCTGAAGGACCCAGGTTGTGGAGTCAGGGGCAAGGCAGTGGGCCTGAGGTCCTGGATGGGCCACAGGGA
R
AGGAGGAGCTGGGACCCTCAAGACAGAGGTCCACGGCCCCCACAGGCAGCAGGAGGAGCTGCGGCCATGTGGCCTGGTGGTCAGGGCTGGACGGGGCATG
Celera SNP ID:            hCV27042744
SNP Position Genomic:     30100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52180):
AGGAGAGCCGGCGCCAGAAGACACGTGTGTTTGCGGTGGTCATCACGGACGGGCGCCACGACCCTCGGGACGATGACCTCAACTTGCGGGCGCTGTGCGA
Y
CGCGACGTCACAGTGACGGCCATCGGCATCGGGGACATGTTCCACGAGAAGCACGAGAGTGAAAACCTCTACTCCATCGCCTGCGACAAGCCACAGCAGG
Celera SNP ID:            hCV27469495
SNP Position Genomic:     34774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52181):
TCAGGAAGGGGAGCAGGCATCTGAGATCTCCCCCGTGAGGCTTCCTGCAAAAACGTGCCCTGCCTCAGAATCGCTGCTCAGTAACAGTGGTTTCATTGCC
R
TGTACAAATGGTGCCTCCCTCACCAGTGCCCCTTGCTCTTCCATCCTTTTGTAAAATTTATTCTTTTATATTTGTTTTTTTAGAGACAGGGTCTTTCTCT
Celera SNP ID:            hCV2811358
SNP Position Genomic:     21971
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52182):
CTACCCACCCAGGCACACCCCGCACAGCTGTGCAGGCACCATTCACCCCCGGCCCACTGAGGCACCACTCACACCCCCCGGCCCCCACTGAGGTACCGCT
C
ACCCCCCAGCCCCCACTAGGCACCGCTCACACCCCCGCTACACCTCTTACCCCCAGCCCACTGAGGCATTGCTCACCCACGTGACCTCAGGGGTGATGCT
Celera SNP ID:            hCV27042745
SNP Position Genomic:     28807
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52183):
CAGGACAGGGCACAGCTGTGATGTTCCAGAAGCCTCTGCCCACCTCATCCCCTGCCCTGAGTTTCCTCCCTTTTCTTCCTTTTGACCTCTTAATTCTTCC
Y
CTTTCCTCTGCTCCTCTTTGCACTTAAATTGGGAGCATATCAATAAATAGATGAATTTATTTAATAAAGTTCTGTATCATAGGTTAAAATTTTAATTCCA
Celera SNP ID:            hCV2811359
SNP Position Genomic:     23993
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52184):
ACTACCCACCCAGGCACACCCCGCACAGCTGTGCAGGCACCATTCACCCCCGGCCCACTGAGGCACCACTCACACCCCCCGGCCCCCACTGAGGTACCGC
T
CACCCCCCAGCCCCCACTAGGCACCGCTCACACCCCCGCTACACCTCTTACCCCCAGCCCACTGAGGCATTGCTCACCCACGTGACCTCAGGGGTGATGC
Celera SNP ID:            hCV27042746
SNP Position Genomic:     28806
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52185):
CACTACCCACCCAGGCACACCCCGCACAGCTGTGCAGGCACCATTCACCCCCGGCCCACTGAGGCACCACTCACACCCCCCGGCCCCCACTGAGGTACCG
C
TCACCCCCCAGCCCCCACTAGGCACCGCTCACACCCCCGCTACACCTCTTACCCCCAGCCCACTGAGGCATTGCTCACCCACGTGACCTCAGGGGTGATG
Celera SNP ID:            hCV27042747
SNP Position Genomic:     28805
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52186):
CCACTACCCACCCAGGCACACCCCGCACAGCTGTGCAGGCACCATTCACCCCCGGCCCACTGAGGCACCACTCACACCCCCCGGCCCCCACTGAGGTACC
G
CTCACCCCCCAGCCCCCACTAGGCACCGCTCACACCCCCGCTACACCTCTTACCCCCAGCCCACTGAGGCATTGCTCACCCACGTGACCTCAGGGGTGAT
Celera SNP ID:            hCV27042748
SNP Position Genomic:     28804
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52187):
GGGTCCCCCGGGCCCCCCTACCTGGAGGTCTGACCGGCAGGCCAGGTTCCCACACCGGGCCAGTTCCTGCAGCGCCGGCCACAGCGAGGCCACCGTCTCC
R
CCAGCGTCAGCGGCACAGAGACTGCCCGCCTCAGACCCTCCTGTAGGGCCGCCGTGCGCCTGAAAGGAGCAAGAGGAGAGCCTGAGCACAGCGGCACACA
Celera SNP ID:            hCV25622560
SNP Position Genomic:     47058
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,17)   caucasian(G,36)   total(A,1|G,53)
SNP Type:                 MISSENSE MUTATION;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52188):
TCCACTACCCACCCAGGCACACCCCGCACAGCTGTGCAGGCACCATTCACCCCCGGCCCACTGAGGCACCACTCACACCCCCCGGCCCCCACTGAGGTAC
C
GCTCACCCCCCAGCCCCCACTAGGCACCGCTCACACCCCCGCTACACCTCTTACCCCCAGCCCACTGAGGCATTGCTCACCCACGTGACCTCAGGGGTGA
Celera SNP ID:            hCV27042749
SNP Position Genomic:     28803
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52189):
ACACCGGGCCAGTTCCTGCAGCGCCGGCCACAGCGAGGCCACCGTCTCCGCCAGCGTCAGCGGCACAGAGACTGCCCGCCTCAGACCCTCCTGTAGGGCC
R
CCGTGCGCCTGAAAGGAGCAAGAGGAGAGCCTGAGCACAGCGGCACACACAGGCAGGCAGTGGACACACTGCACCCCAACAGGGCTGAGCAGGCTGCAGA
Celera SNP ID:            hCV25622561
SNP Position Genomic:     47109
SNP Source:               Applera
Population(Allele,Count): african american(G,18)   caucasian(A,4|G,32)   total(A,4|G,50)
SNP Type:                 MISSENSE MUTATION;INTRON;SILENT MUTATION;TFBS


Context             (SEQ ID NO:52190):
GGGTCGGGGCCCATGCACCGGGTGGAGGGCGGGAGTGCAGCAGGGCTGGGTCATCGCTGGGTCCTGCATGTGCACGTGACCCTAGGGTCTGAGGTCTCCC
Y
GGTACCCCCCGATGACCCTGCCACCCCCCCAGACTGTGAGAAGCGCTGTGGCGCCCTGGACGTGGTCTTCGTCATCGACAGCTCCGAGAGCATTGGGTAC
Celera SNP ID:            hCV15880752
SNP Position Genomic:     34144
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(T,584|C,731)   total(C,731|T,584)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52191):
AGGGGACCCAGGCGGGTGCTGCACCCCAAGGTAAGGGACCAAGGCAAGGGCTGCACCCCAAAGTAGGGAACCCAGGTGAGGGCTGCAACCCAAGATAGGG
K
TGCTTAGGCAGGGGCTACACCCAGAACCCAGCCTACTCCACTCAGTGTGCTCAGGGCTGAAGGTCAAGTGGAGCCACAGCCTCCGGGGAGGGTCATAGGG
Celera SNP ID:            hCV25622490
SNP Position Genomic:     29555
SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,1)   caucasian(G,22)   total(G,45|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52192):
CCACAGGAAGCATTTCTCTAAAGGTGAGCAGCTTCCTCTGCAGGTGACACGGCCTCCACCCAAACCCAGAGGCTCTGGCTCTCCCACTGCGGCTTGCCGC
R
GCCCCACACTTGCCTGCTCCCACACTGACACCTCCAACACCACAGGGGCTGCTGGGTCACGTGGCCCAGATGGCAGGGCTGCTCAGACAGTCATTTTCTG
Celera SNP ID:            hCV15846573
SNP Position Genomic:     2069
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:52193):
TGGTGGTCAGGGCTGGACGGGGCATGTCAGGTGACCCCTGGGCATGGCCAGTCCCTGCCTGTGCTGACTTCTGAATTTCTCTCCTGCCCTCAGGGATCTC
R
GGGAGACCCCGGTGATGCAGGACCCCGTGGAGACTCAGGACAGCCAGGCCCCAAGGTACGTGCCCCTCCCCCAGCAGGACGTATTAGGGGTTCGGGGCAG
Celera SNP ID:            hCV25622491
SNP Position Genomic:     30275
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,38)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52194):
CTCTGCTCACAGCCAGAACTCGACGGCACCCCTAGCCCACTTCCACCCCAGTGTGCACCTTGCGCCCTGTTGAGCACAGCCCCCCAGCCCCACCCCGTCC
Y
ATGACCATGCTGACCGACTCAACGTCCTCCTCCAGGGAGACCCCGGCAGGCCTGGATTCAGCTACCCAGGACCCCGAGGAGCACCCGTGAGTCACAGCCT
Celera SNP ID:            hCV25622492
SNP Position Genomic:     30784
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,6|T,32)   total(C,7|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:52195):
ACGCAGCACAGTGGCCTCACCCAGAGTGTGAATGAGCGAGGGAGGGAAACGGGGCTGCAGAAAGCTGCCCAGAGGGAGGAAGGAGCACTGGGATCTGAGG
Y
TGAGTCACCCTGGCTTCTGTTTGCTTCACAGGGAGAAAAAGGCGAGCCCGGCCCACGCGGCCCCGAGGTATGTGTGGGTCCTGGCCACCTGTGCCCACCC
Celera SNP ID:            hCV25622493
SNP Position Genomic:     31176
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,36|T,2)   total(C,72|T,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52196):
TCACTGACAGGACCACCCCTGTCTTGAGATGGTCCTGGCTCCCCAAGGCCCAGCCATGTCACCTATGCTGAGCTCTGGGGGAGCTGTCAGCCACTGGCTG
R
TCCCTTTTCAACCAAAGTTCAGGCTTTGCCAAAAAAACCACATAGATGCTCCCGTTTAAAGGACCCCAAAATGCCAGATCGATTTTTCCACATAAAAATC
Celera SNP ID:            hCV25622494
SNP Position Genomic:     31424
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,1|G,39)   total(A,3|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:52197):
TTGTCTTACTCCTTGCACCTGTTAGCTCCCCCCCCGCCAAGGGAGGACCCGTGGTTGGGGACAGCACAGGGGGCCCTGCTGTGTGCAGGGACTGTCCCTG
K
GGCCACTGAAGCGCACCTGTTCTTGTTCCTTCTCAGGCGGATCCTGGTCCCCCTGGTGAGCCAGGCCCTCGGGGGCCAAGAGGAGTCCCAGGACCCGAGG
Celera SNP ID:            hCV25472239
SNP Position Genomic:     33326
SNP Source:               Applera
Population(Allele,Count): african american(G,32|T,2)   caucasian(G,35|T,3)   total(G,67|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:52198):
GGGGCAAGAGGGCGCAAGCCCCCCAGTCCAGATGCTGGTGACGGTGTGTGCTGGGCGCAGACCCCGCTTCCTTGAAGACTGAGGGCAGTGCCCCCAATCC
Y
GCTGACCTGCTGTGCGTGCGCCTGCCATGGGGGAGGGTGCCAGGGGAGAGGCACTGGGGGTGTCTGAGCGACCCCCACCCCTGTTGCAGGACTTCAGGGC
Celera SNP ID:            hCV27848839
SNP Position Genomic:     20081
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|T,1)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52199):
AGGACCACCCCTGTCTTGAGATGGTCCTGGCTCCCCAAGGCCCAGCCATGTCACCTATGCTGAGCTCTGGGGGAGCTGTCAGCCACTGGCTGGTCCCTTT
Y
CAACCAAAGTTCAGGCTTTGCCAAAAAAACCACATAGATGCTCCCGTTTAAAGGACCCCAAAATGCCAGATCGATTTTTCCACATAAAAATCTCACTGGT
Celera SNP ID:            hCV25622495
SNP Position Genomic:     31432
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(C,7|T,33)   total(C,8|T,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:52200):
GTTTAAAGGACCCCAAAATGCCAGATCGATTTTTCCACATAAAAATCTCACTGGTGTCCCTGGTAGAGACAGCTCCTCTGTCCCAGGCTAACATGTGTTC
Y
CTGTCACAGGGAGGCCGAGGCGACTTTGGCTTGAAAGGAGAACCTGGGAGGAAAGGAGAGAAAGGAGAGCCTGTGAGTGTCGCCGTCCCGAAGCCCACAG
Celera SNP ID:            hCV25622496
SNP Position Genomic:     31578
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,32|T,6)   total(C,69|T,7)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52201):
TGGCTGCCATTTCTGGGACACCCAGCTCTGCCAGGCCCCTACCCCTCTGGTGGGCCAGGCTCTGACGGTGGCCACTCATGGCCTTTCTAGCTCTGGTGCC
R
GCATAGGGAAGGAGGAGGCACAGCCTTGTCTTACTCCTTGCACCTGTTAGCTCCCCCCCCGCCAAGGGAGGACCCGTGGTTGGGGACAGCACAGGGGGCC
Celera SNP ID:            hCV25622497
SNP Position Genomic:     33200
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,1)   caucasian(A,26)   total(A,41|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52202):
AGAGGAGTCCCAGGACCCGAGGTAGGTTGGTGGCCAGTCCCCATGCCCTCCCCCCAACCTGCCAGGCCAACACACACCCAAGCCTCGTGGTTCTGCCCAC
R
GTGGACCCACGTATCAGTGGGCAGTGGCCTGGGAGAGACTCAGCCACCCAGCCTTGGCCCCAGAGTCTCAGCCTCATCCTTCCTTCCCCAGGGTGAGCCC
Celera SNP ID:            hCV25622498
SNP Position Genomic:     33505
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,12)   caucasian(A,1|G,21)   total(A,1|G,33)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52203):
GGGAGAGACTCAGCCACCCAGCCTTGGCCCCAGAGTCTCAGCCTCATCCTTCCTTCCCCAGGGTGAGCCCGGCCCCCCTGGAGACCCCGGTCTCACGGTA
R
GTGTCACATGGGGCAGAACCAGTGTCCTTCTCCTGCCAAAACTAGACACCAAGAGCAGCAGGGGTGGGGGAAGGTCAGCTGGCACGGTCAGAGAGCAAGA
Celera SNP ID:            hCV25622499
SNP Position Genomic:     33636
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,3|G,35)   total(A,8|G,68)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52204):
TTCTGCCCAGCTGCCCGGCTGCTGCCAGCCCCACTCTGCGGAGCCAGCAGCACAGTGAGGCCCGTCCTGATGGCCTCCAGCTCCACTCTGCGGAGTCAGC
R
GCACAGTGAGGCCCGTCCTGATGGCCTCCTGGAGCTGGAGCTTAGGCCAAGCCACAGGGCATCAGGGAGGATGGACGTTCAAGGGCTGGATCTGTTTGCC
Celera SNP ID:            hCV26539108
SNP Position Genomic:     18726
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52205):
ACCCAGGCATCGCTGGAGAATCAGAGCCCAGTGTTGGCCACAGTCACAGCTACTGGGTGCAGAAGGGACCCCCACGGGCCAGGCACCCCCACCCCAGGGG
K
CTCTTCTGGCTCCATTTTGCAGGTGGCTTTGTGGGAAGCTTCCCTCAGAGCTGGGAGAAATGGGTCAAAGCAAACCCTTGTCTGACAGAGGCTGGCCCTT
Celera SNP ID:            hCV2811360
SNP Position Genomic:     24281
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52206):
GGGCTCCTGGGGGGTCCTGTGGCCTTGAGTTTGGCCCAAGGGCTTTGCCCCCCAGAGGCAGCAGTGCCCATGATGCTTTGAGGCACCGAGCTCACTGCGC
Y
GGCTTTCCTCCTACACAGGGTGAATTTGGAGCCGACGGTCGCAAGGTAGGCTGGCTGGGTAGGCAGAGCCCCTCCTTCCTGCTGCTCAGGGCAGAAGGAC
Celera SNP ID:            hCV2811361
SNP Position Genomic:     25291
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,7)   caucasian(C,14|T,16)   total(C,33|T,23)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,8)   caucasian(C,20|T,20)   total(C,40|T,28)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;(C,-|T,-)   JBIC-allele(T,649|C,850)   total(C,850|T,649)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52207):
GCTCCACTACCCACCCAGGCACACCCCGCACAGCTGTGCAGGCACCATTCACCCCCGGCCCACTGAGGCACCACTCACACCCCCCGGCCCCCACTGAGGT
A
CCGCTCACCCCCCAGCCCCCACTAGGCACCGCTCACACCCCCGCTACACCTCTTACCCCCAGCCCACTGAGGCATTGCTCACCCACGTGACCTCAGGGGT
Celera SNP ID:            hCV27042750
SNP Position Genomic:     28801
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52208):
GGTGCCCCAGGGGCTCTGCCCTCCTGGGCCGCCTGCAGTGTCGCCCCGCCCCTGGCGGCCCCAGGATCCCCAAGGGCTTTTTTCTGGGAGCTTGGACTTA
R
GGCTTCCCACTTTCTGTCCACCTTCCCTCAGCCCAAGCCCAAGTCTGGCTGAGTCCTCTGTGCAGATGCACAGGCGTCCTGCCCGTGACACACACTCTGC
Celera SNP ID:            hCV2811362
SNP Position Genomic:     26999
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52209):
CACGCGTGGCGCTGCTGCAGTTTGGTGGCCCCGGCGAGCAGCAGGTGGCCTTCCCGCTGAGCCACAACCTCACGGCCATCCACGAGGCGCTGGAGACCAC
R
CAATACCTGAACTCCTTCTCGCACGTGGGCGCAGGCGTGGTGCACGCCATCAATGCCATCGTGCGCAGCCCGCGTGGCGGGGCCCGGAGGCACGCAGAGC
Celera SNP ID:            hCV25472676
SNP Position Genomic:     40937
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,11)   caucasian(A,26|G,2)   total(A,51|G,13)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,10)   caucasian(A,28|G,4)   total(A,50|G,14)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52210):
GGCTCCACACCACACACCGCACAGGCGTGACCATGCCTCAGGGCCCCTGCCTCTGGGTGACTGTGCTGTCCTCTCCTTCTTCAGGGGTATCAAGGCAACA
R
TGGAGCCCCAGGAAGTCCTGGTGTGAAAGGAGCCAAGGGCGGGCCTGGGCCCCGCGGACCCAAAGGCGAGCCGGTGAGTCCCTCCTGCCCCTGCCTCAGG
Celera SNP ID:            hCV2811363
SNP Position Genomic:     27710
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,17)   caucasian(A,32|G,8)   total(A,53|G,25)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52211):
AGCTCCACTACCCACCCAGGCACACCCCGCACAGCTGTGCAGGCACCATTCACCCCCGGCCCACTGAGGCACCACTCACACCCCCCGGCCCCCACTGAGG
T
ACCGCTCACCCCCCAGCCCCCACTAGGCACCGCTCACACCCCCGCTACACCTCTTACCCCCAGCCCACTGAGGCATTGCTCACCCACGTGACCTCAGGGG
Celera SNP ID:            hCV27042751
SNP Position Genomic:     28800
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52212):
GCTGAGGAAGCTCCACTACCCACCCAGGCACACCCCGCACAGCTGTGCAGGCACCATTCACCCCCGGCCCACTGAGGCACCACTCACACCCCCCGGCCCC
C
ACTGAGGTACCGCTCACCCCCCAGCCCCCACTAGGCACCGCTCACACCCCCGCTACACCTCTTACCCCCAGCCCACTGAGGCATTGCTCACCCACGTGAC
Celera SNP ID:            hCV27042752
SNP Position Genomic:     28792
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52213):
TCCCAAGGGCCCTGAAGATTCCTAGTAGTTCCCTCAAGGCCTCCTCTGTGCAGAAGAAAGTGTGAGGTCCCTCCTGCGGGACAGAGTGGTGAGAAGGCTT
Y
GGGTGACTCAGTGAAGGATAGGTCCAGCCCAGCATCAGGAAAAGAGCACAGCTCAGAACGCAGCACAGTGGCCTCACCCAGAGTGTGAATGAGCGAGGGA
Celera SNP ID:            hCV2811365
SNP Position Genomic:     31018
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,8)   caucasian(C,20|T,18)   total(C,48|T,26)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,6)   caucasian(C,21|T,19)   total(C,49|T,25)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,628|C,867)   total(C,867|T,628)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52214):
TGCTGAGGAAGCTCCACTACCCACCCAGGCACACCCCGCACAGCTGTGCAGGCACCATTCACCCCCGGCCCACTGAGGCACCACTCACACCCCCCGGCCC
C
CACTGAGGTACCGCTCACCCCCCAGCCCCCACTAGGCACCGCTCACACCCCCGCTACACCTCTTACCCCCAGCCCACTGAGGCATTGCTCACCCACGTGA
Celera SNP ID:            hCV27042753
SNP Position Genomic:     28791
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52215):
CCAGGCTAACATGTGTTCCCTGTCACAGGGAGGCCGAGGCGACTTTGGCTTGAAAGGAGAACCTGGGAGGAAAGGAGAGAAAGGAGAGCCTGTGAGTGTC
R
CCGTCCCGAAGCCCACAGCAGCTGGGCAGAGGCAGGGAGGGGCCCTGAGGCTGAGCGTGTGCATCTATGAGTACAGGAGAACGCCAGGCAGCTTGGCCCC
Celera SNP ID:            hCV2811366
SNP Position Genomic:     31660
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,10|G,24)   total(A,10|G,62)
SNP Type:                 INTRON;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52216):
TGGGCGAATGGGCGAATGGGTGGATGGGTGGGCGTGGAGTTGGTGGGTACATGATAATGGGGTGGAATACCCATGGATTGGAATGAGCTGTTTTGGCTGC
Y
ATTTCTGGGACACCCAGCTCTGCCAGGCCCCTACCCCTCTGGTGGGCCAGGCTCTGACGGTGGCCACTCATGGCCTTTCTAGCTCTGGTGCCAGCATAGG
Celera SNP ID:            hCV2811367
SNP Position Genomic:     33107
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52217):
ATTCTCTGCTGAGGAAGCTCCACTACCCACCCAGGCACACCCCGCACAGCTGTGCAGGCACCATTCACCCCCGGCCCACTGAGGCACCACTCACACCCCC
C
GGCCCCCACTGAGGTACCGCTCACCCCCCAGCCCCCACTAGGCACCGCTCACACCCCCGCTACACCTCTTACCCCCAGCCCACTGAGGCATTGCTCACCC
Celera SNP ID:            hCV27042754
SNP Position Genomic:     28785
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52218):
GGGCAAGAGGGCGCAAGCCCCCCAGTCCAGATGCTGGTGACGGTGTGTGCTGGGCGCAGACCCCGCTTCCTTGAAGACTGAGGGCAGTGCCCCCAATCCC
R
CTGACCTGCTGTGCGTGCGCCTGCCATGGGGGAGGGTGCCAGGGGAGAGGCACTGGGGGTGTCTGAGCGACCCCCACCCCTGTTGCAGGACTTCAGGGCC
Celera SNP ID:            hCV27829398
SNP Position Genomic:     20082
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(G,36)   total(A,4|G,70)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:52219):
TTCCTCCCAGGCCCCCTTCCCCAACCCCCGGCCACACCCGCCTCTCACATGGGACCCAGGCCGGAGGCCTCAGCTGAGACCCGTGGGGCCTCCCTTCCCT
Y
CCCACAGGGGGACCCTGGCCCTGAGGGGCCCCGCGGCCTGGCTGGAGAGGTTGGCAACAAAGGAGCCAAGGTAGGGGAGCAGGGTGGGCCGCACCCCAAG
Celera SNP ID:            hCV25472895
SNP Position Genomic:     29219
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,23)   caucasian(C,8|T,26)   total(C,11|T,49)
SNP Type:                 INTRON


Context             (SEQ ID NO:52220):
CCAGACAGTGGTGCTCCATTCCCTTCCATGCCGACGCGCCCAGCTACCCACTCCACCCAGCCCTGGAGGACATGGAAGGGCCTCAACCATCCAAATCCCA
M
CCAAAACTGAGCCCAGAGGCACCCACTAAACATCTGTGACCCCACCCAGGGTGGGGCAAGAGGGCGCAAGCCCCCCAGTCCAGATGCTGGTGACGGTGTG
Celera SNP ID:            hCV27846885
SNP Position Genomic:     19928
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,40)   total(A,1|C,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:52221):
TGTCTTTCCAATATATTTCTCAAAAATTTTTTTGAGTTTTTTTCATAAGTCCTGCACATTTTTATTCAGTTGATTCCTTGGGTTTATGTTGTTTTTCTTA
M
TAGTGTAAATAGCATTTTTCTGCAACATTTTCTAACTGGTTGTTAGAAAATGTTTCTTCTAACTGATAGAAGAAAATCAATAACTTTTTGTATGTTGAGG
Celera SNP ID:            hCV16156753
SNP Position Genomic:     15041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52222):
GTCTGTTCTCCATTTTGTTTATCTTTGCTCTGATCTTTATTTTTTCCTTCTTTCTGCTAGCTTGTTCTTTTTCTAGTTCCTTACATTGTAAGGTTAAGCT
S
CTATTTGAGACCTGTCTTTTTTAATATAAGCATGTATAGCCATCAGTTTCCCCCTTAGCACTGCTTTCACTGTCGAACAAGTTTTTAAATTTGTGTTTTC
Celera SNP ID:            hCV3270794
SNP Position Genomic:     11400
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52223):
GGGCTGGGCCCTCCCTGCCACACTAGCTTCCCAGGGCTGCCCCCGACAGGCTGGCTCTCAGTGGAGGCCAGAGATCTGGAATCGGGGTCAGCGGGGCTAC
R
GTCCTTCCAGGGGCTCTGGGGCAGCTCCCAGCCTCTTCCCATGCTGGTGGCCACCGTGTCCCTTGCTGCGGCTGCATCTTCCAGTCTCTCCTCCGTCTTC
Celera SNP ID:            hCV27511048
SNP Position Genomic:     38334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:52224):
CAGGCCAACACACACCCAAGCCTCGTGGTTCTGCCCACGGTGGACCCACGTATCAGTGGGCAGTGGCCTGGGAGAGACTCAGCCACCCAGCCTTGGCCCC
R
GAGTCTCAGCCTCATCCTTCCTTCCCCAGGGTGAGCCCGGCCCCCCTGGAGACCCCGGTCTCACGGTAGGTGTCACATGGGGCAGAACCAGTGTCCTTCT
Celera SNP ID:            hCV25622500
SNP Position Genomic:     33567
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,36)   total(A,69|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:52225):
ACCCTTCAGGGCCCTCTCCTGGCAGCGCCTCCCCTAGTCCCGGTGCTTGGACACTCCTCCCATCTGCACCGAGGAGAGGGCGGCACTCCAATCCCTGCAT
Y
ACCCCTGGAACTGCACGCTCTGAACCAGGCCCGGTGCCCTTTCTGCCCAGCTGCCCGGCTGCTGCCAGCCCCACTCTGCGGAGCCAGCAGCACAGTGAGG
Celera SNP ID:            hCV26539118
SNP Position Genomic:     18585
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52226):
GGTAGGTTGGTGGCCAGTCCCCATGCCCTCCCCCCAACCTGCCAGGCCAACACACACCCAAGCCTCGTGGTTCTGCCCACGGTGGACCCACGTATCAGTG
R
GCAGTGGCCTGGGAGAGACTCAGCCACCCAGCCTTGGCCCCAGAGTCTCAGCCTCATCCTTCCTTCCCCAGGGTGAGCCCGGCCCCCCTGGAGACCCCGG
Celera SNP ID:            hCV25622501
SNP Position Genomic:     33525
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,3|G,35)   total(A,8|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:52227):
TAAAAGTAAGGGAGAAATTAACACATTCTTAGATCAACAAAAGCTGAGAATGTTCCTTACCACTAGACCTGCCCTATAGGAAACGCCAAAGGGAGTCCTG
Y
GGGTTGAAATAAAGGGTGATAGACAGTAATTCAAGTGAAGAAGTAAAGATCTCAGCCAGGCATAGTGGCTCATGCTTGTAACCCCATCACTTTGGGAGGC
Celera SNP ID:            hCV26539119
SNP Position Genomic:     12939
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52228):
ACCTGCGGGTGCTGCGGTGAGGCACTGCCCACGGCAGGGTCGGGGCCCATGCACCGGGTGGAGGGCGGGAGTGCAGCAGGGCTGGGTCATCGCTGGGTCC
Y
GCATGTGCACGTGACCCTAGGGTCTGAGGTCTCCCCGGTACCCCCCGATGACCCTGCCACCCCCCCAGACTGTGAGAAGCGCTGTGGCGCCCTGGACGTG
Celera SNP ID:            hCV25622502
SNP Position Genomic:     34108
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,16)   caucasian(C,1|T,37)   total(C,3|T,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:52229):
TCAAGGAGGCTGTCAAGAACCTCGAGTGGATTGCAGGTGGCACCTGGACACCCTCAGCCCTCAAGTTTGCCTACGACCGCCTCATCAAGGAGAGCCGGCG
S
CAGAAGACACGTGTGTTTGCGGTGGTCATCACGGACGGGCGCCACGACCCTCGGGACGATGACCTCAACTTGCGGGCGCTGTGCGACCGCGACGTCACAG
Celera SNP ID:            hCV25622503
SNP Position Genomic:     34687
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,36)   total(C,71|G,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,1)   caucasian(C,40)   total(C,71|G,1)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52230):
AGGAGGCTGTCAAGAACCTCGAGTGGATTGCAGGTGGCACCTGGACACCCTCAGCCCTCAAGTTTGCCTACGACCGCCTCATCAAGGAGAGCCGGCGCCA
R
AAGACACGTGTGTTTGCGGTGGTCATCACGGACGGGCGCCACGACCCTCGGGACGATGACCTCAACTTGCGGGCGCTGTGCGACCGCGACGTCACAGTGA
Celera SNP ID:            hCV25622504
SNP Position Genomic:     34690
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(A,3|G,33)   total(A,6|G,64)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,25)   caucasian(G,36)   total(A,3|G,61)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52231):
TGCACCTGTTAGCTCCCCCCCCGCCAAGGGAGGACCCGTGGTTGGGGACAGCACAGGGGGCCCTGCTGTGTGCAGGGACTGTCCCTGGGGCCACTGAAGC
S
CACCTGTTCTTGTTCCTTCTCAGGCGGATCCTGGTCCCCCTGGTGAGCCAGGCCCTCGGGGGCCAAGAGGAGTCCCAGGACCCGAGGTAGGTTGGTGGCC
Celera SNP ID:            hCV2811370
SNP Position Genomic:     33339
SNP Source:               Applera
Population(Allele,Count): african american(C,24|G,8)   caucasian(C,20|G,18)   total(C,44|G,26)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;JBIC-allele(G,633|C,848)   total(G,633|C,848)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52232):
CAGGATCCCCAAGGGCTTTTTTCTGGGAGCTTGGACTTAGGGCTTCCCACTTTCTGTCCACCTTCCCTCAGCCCAAGCCCAAGTCTGGCTGAGTCCTCTG
W
GCAGATGCACAGGCGTCCTGCCCGTGACACACACTCTGCCCTCAGCTGGCACGGAGGTTCCAGCAGCCCCCAGCCAGCATCTGGCATCCCAGGTGCCCCG
Celera SNP ID:            hCV15867498
SNP Position Genomic:     27060
SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,27)   caucasian(A,8|T,32)   total(A,15|T,59)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,85|T,1378)   total(A,85|T,1378)no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52233):
TCAAGTTTGCCTACGACCGCCTCATCAAGGAGAGCCGGCGCCAGAAGACACGTGTGTTTGCGGTGGTCATCACGGACGGGCGCCACGACCCTCGGGACGA
Y
GACCTCAACTTGCGGGCGCTGTGCGACCGCGACGTCACAGTGACGGCCATCGGCATCGGGGACATGTTCCACGAGAAGCACGAGAGTGAAAACCTCTACT
Celera SNP ID:            hCV25622505
SNP Position Genomic:     34747
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,37)   total(C,1|T,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(T,30)   caucasian(C,1|T,37)   total(C,1|T,67)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52234):
AGCCTCCCCGCATGGCTGCCTCCACACGTGGGCTGGAATGTCCCGGGACCCCCAGGCCAGGACCTTGCTGTGGAAACTCTTCTGGGGCCCCGGGGGGACT
R
CCCTGCCTGCCGTGTGCATTGCAGGAGTGTGACGTCATGACCTACGTGAGGGAGACCTGCGGGTGCTGCGGTGAGGCACTGCCCACGGCAGGGTCGGGGC
Celera SNP ID:            hCV2811371
SNP Position Genomic:     33953
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(A,7|G,31)   total(A,13|G,61)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,29)      total(G,5|A,29) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52235):
CTGGCAACGACCTCACGCGTGCGGCTTGCAGGGACGCGTGTGGGCGTGGTGCAGTACAGCCACGAGGGCACCTTTGAGGCCATCCAGCTGGACGACGAAC
R
TATCGACTCCCTGTCGAGCTTCAAGGAGGCTGTCAAGAACCTCGAGTGGATTGCAGGTGGCACCTGGACACCCTCAGCCCTCAAGTTTGCCTACGACCGC
Celera SNP ID:            hCV2811372
SNP Position Genomic:     34566
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,23)   caucasian(A,18|G,20)   total(A,25|G,43)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52236):
GGGCGTGGGAGGCGATGAGATGGGAGAAGTCCAGACGCGTCCCTCCAACGAGGGCCTCTGCATGGCTGGGGATGCCCCAGACCCCGAGGCCTCTGGCAAC
S
ACCTCACGCGTGCGGCTTGCAGGGACGCGTGTGGGCGTGGTGCAGTACAGCCACGAGGGCACCTTTGAGGCCATCCAGCTGGACGACGAACATATCGACT
Celera SNP ID:            hCV25622506
SNP Position Genomic:     34474
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(C,5|G,33)   total(C,5|G,63)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52237):
ACAGCCACGAGGGCACCTTTGAGGCCATCCAGCTGGACGACGAACATATCGACTCCCTGTCGAGCTTCAAGGAGGCTGTCAAGAACCTCGAGTGGATTGC
R
GGTGGCACCTGGACACCCTCAGCCCTCAAGTTTGCCTACGACCGCCTCATCAAGGAGAGCCGGCGCCAGAAGACACGTGTGTTTGCGGTGGTCATCACGG
Celera SNP ID:            hCV2811373
SNP Position Genomic:     34621
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,23)   caucasian(A,18|G,20)   total(A,25|G,43)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52238):
ACCTGGTCGCTGAGAAGTTCATCGATGACATGGAGGACGTCCTCTGCCCGGGTGAGCGTGTGGGCGCGGGGCAGTCGGCCGAGGAGCAGCAGGCCCCAGC
Y
GCTGTCTAGCGTGAGCCCCAGGGACACCCCTCACCTGAGGGATGAATGTGCAGCCCAGGATCTTGGGCTGTGGGTGGGAAGGGGTCGGGCCCTCTCGGGG
Celera SNP ID:            hCV25622507
SNP Position Genomic:     34999
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,2)   caucasian(C,36)   total(C,60|T,2)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,38)   total(C,73|T,3)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52239):
GCCACGAGGGCACCTTTGAGGCCATCCAGCTGGACGACGAACATATCGACTCCCTGTCGAGCTTCAAGGAGGCTGTCAAGAACCTCGAGTGGATTGCAGG
Y
GGCACCTGGACACCCTCAGCCCTCAAGTTTGCCTACGACCGCCTCATCAAGGAGAGCCGGCGCCAGAAGACACGTGTGTTTGCGGTGGTCATCACGGACG
Celera SNP ID:            hCV2811374
SNP Position Genomic:     34624
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,7)   caucasian(C,20|T,18)   total(C,43|T,25)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52240):
GTCGCTGAGAAGTTCATCGATGACATGGAGGACGTCCTCTGCCCGGGTGAGCGTGTGGGCGCGGGGCAGTCGGCCGAGGAGCAGCAGGCCCCAGCCGCTG
Y
CTAGCGTGAGCCCCAGGGACACCCCTCACCTGAGGGATGAATGTGCAGCCCAGGATCTTGGGCTGTGGGTGGGAAGGGGTCGGGCCCTCTCGGGGCTGCA
Celera SNP ID:            hCV25622508
SNP Position Genomic:     35004
SNP Source:               Applera
Population(Allele,Count): african american(T,26)   caucasian(C,1|T,31)   total(C,1|T,57)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,37)   total(C,1|T,75)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52241):
AGTGGATTGCAGGTGGCACCTGGACACCCTCAGCCCTCAAGTTTGCCTACGACCGCCTCATCAAGGAGAGCCGGCGCCAGAAGACACGTGTGTTTGCGGT
R
GTCATCACGGACGGGCGCCACGACCCTCGGGACGATGACCTCAACTTGCGGGCGCTGTGCGACCGCGACGTCACAGTGACGGCCATCGGCATCGGGGACA
Celera SNP ID:            hCV2811375
SNP Position Genomic:     34711
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,25)   caucasian(A,12|G,24)   total(A,15|G,49)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(A,12|G,24)   total(A,18|G,54)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52242):
CTGCCCGGGTGAGCGTGTGGGCGCGGGGCAGTCGGCCGAGGAGCAGCAGGCCCCAGCCGCTGTCTAGCGTGAGCCCCAGGGACACCCCTCACCTGAGGGA
Y
GAATGTGCAGCCCAGGATCTTGGGCTGTGGGTGGGAAGGGGTCGGGCCCTCTCGGGGCTGCAGGGCAGAGGCCAGCTGCACCCTGAGCCTGTCTAGGCAG
Celera SNP ID:            hCV2811376
SNP Position Genomic:     35042
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,11)   caucasian(C,19|T,17)   total(C,34|T,28)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,9)   caucasian(C,17|T,7)   total(C,34|T,16)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52243):
GGCGCGGGGCAGTCGGCCGAGGAGCAGCAGGCCCCAGCCGCTGTCTAGCGTGAGCCCCAGGGACACCCCTCACCTGAGGGATGAATGTGCAGCCCAGGAT
M
TTGGGCTGTGGGTGGGAAGGGGTCGGGCCCTCTCGGGGCTGCAGGGCAGAGGCCAGCTGCACCCTGAGCCTGTCTAGGCAGATCAGTGAACGGCCGCTGA
Celera SNP ID:            hCV25622509
SNP Position Genomic:     35061
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,29)   caucasian(A,1|C,35)   total(A,2|C,64)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,34)   caucasian(A,1|C,35)   total(A,5|C,69)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52244):
TCTTGAAGGCCCACCATGGGCCTTGCAGTCTCCCTCAGCTGCCGCCCAGCTCCCATGGGCTGGCCGTGCATGTGCCACTCGGAGGAAGCCCTGGATTCAG
K
GAGTGAAACCATCCCGGGGTGGAAGCACTGACACCCCCCAGCACCAGCAGGTCTTGCTCCAACCCTGGCCTGCCTCGGAGCTGCAGCTGCGGCTCTCATC
Celera SNP ID:            hCV2811377
SNP Position Genomic:     35628
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52245):
GGAGCTGGGGGTGCCGTCCAGGCTCTGCTGGACGTGGTGCTGCCCCCATGGTGCACTGCTGCACCGTACCTGGGCCCACAGGAGGTCCCCGGGGGCGTTA
K
GAGCTGAGTCCCCCTCAGTGAGCCGTCCCCTCCAGGAGTGTGAGGGTGGGGATGCCATGGAGACAGGGTGGGAGGGTCCGACCTGGAGGACCACAGGGAG
Celera SNP ID:            hCV2811378
SNP Position Genomic:     35882
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52246):
TGGTGCACTGCTGCACCGTACCTGGGCCCACAGGAGGTCCCCGGGGGCGTTAGGAGCTGAGTCCCCCTCAGTGAGCCGTCCCCTCCAGGAGTGTGAGGGT
R
GGGATGCCATGGAGACAGGGTGGGAGGGTCCGACCTGGAGGACCACAGGGAGGAAACCTCAGGGTCTGCGGTACGAAGTCAGCGCTTCCTCAGCACGCGG
Celera SNP ID:            hCV2811379
SNP Position Genomic:     35930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52247):
TGGCAACAAAGGAGCCAAGGTAGGGGAGCAGGGTGGGCCGCACCCCAAGGTAGGGGATCTGAGGGGGTGCAGGGGGGCTGCACCCCAAGGTAGGGTGGCC
R
GGACTGCACCCCAAGGTAGGGGACCCGGGTGGGTGCTGCACCCCAAGGTAAGGGGGGCCCAGGTGAGGGCTATACCTCAAGGTAGGGGACCCAGGCGGGT
Celera SNP ID:            hCV2372383
SNP Position Genomic:     29371
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,9)   caucasian(A,5|G,21)   total(A,6|G,30)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52248):
GGGGGGCCCAGGTGAGGGCTATACCTCAAGGTAGGGGACCCAGGCGGGTGCTGCACCCCAAGGTAAGGGACCAAGGCAAGGGCTGCACCCCAAAGTAGGG
R
ACCCAGGTGAGGGCTGCAACCCAAGATAGGGGTGCTTAGGCAGGGGCTACACCCAGAACCCAGCCTACTCCACTCAGTGTGCTCAGGGCTGAAGGTCAAG
Celera SNP ID:            hCV2372384
SNP Position Genomic:     29523
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,14)   caucasian(A,6|G,8)   total(A,12|G,22)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52249):
GGCCAGGCTCTGACGGTGGCCACTCATGGCCTTTCTAGCTCTGGTGCCAGCATAGGGAAGGAGGAGGCACAGCCTTGTCTTACTCCTTGCACCTGTTAGC
Y
CCCCCCCCGCCAAGGGAGGACCCGTGGTTGGGGACAGCACAGGGGGCCCTGCTGTGTGCAGGGACTGTCCCTGGGGCCACTGAAGCGCACCTGTTCTTGT
Celera SNP ID:            hCV11373273
SNP Position Genomic:     33252
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,9)   caucasian(C,11|T,17)   total(C,12|T,26)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52250):
TGTGACCCCACCCAGGGTGGGGCAAGAGGGCGCAAGCCCCCCAGTCCAGATGCTGGTGACGGTGTGTGCTGGGCGCAGACCCCGCTTCCTTGAAGACTGA
S
GGCAGTGCCCCCAATCCCGCTGACCTGCTGTGCGTGCGCCTGCCATGGGGGAGGGTGCCAGGGGAGAGGCACTGGGGGTGTCTGAGCGACCCCCACCCCT
Celera SNP ID:            hCV27833286
SNP Position Genomic:     20063
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(C,2|G,28)   total(C,2|G,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:52251):
GAGCCCAGAGGCACCCACTAAACATCTGTGACCCCACCCAGGGTGGGGCAAGAGGGCGCAAGCCCCCCAGTCCAGATGCTGGTGACGGTGTGTGCTGGGC
R
CAGACCCCGCTTCCTTGAAGACTGAGGGCAGTGCCCCCAATCCCGCTGACCTGCTGTGCGTGCGCCTGCCATGGGGGAGGGTGCCAGGGGAGAGGCACTG
Celera SNP ID:            hCV27833287
SNP Position Genomic:     20037
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,24)   total(A,2|G,52)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52252):
CGTCATGACCTACGTGAGGGAGACCTGCGGGTGCTGCGGTGAGGCACTGCCCACGGCAGGGTCGGGGCCCATGCACCGGGTGGAGGGCGGGAGTGCAGCA
R
GGCTGGGTCATCGCTGGGTCCTGCATGTGCACGTGACCCTAGGGTCTGAGGTCTCCCCGGTACCCCCCGATGACCCTGCCACCCCCCCAGACTGTGAGAA
Celera SNP ID:            hCV11373277
SNP Position Genomic:     34086
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,30)   total(G,30|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52253):
AGTCAATTTTTAAGTATTTTATTATTTTTGATACTATAGTAAATAGAATTGTTTTCTTAATTTCCTTTGGATTGTTCATTGTTAGTGAATAGAAATACAA
S
TGATTTTTATGTGTTTACTATGTATTCTGCTATTTTGCTGAATTTGTTTATTAGTTGTAACAGTTTTTGTGGAATTTTTAGGGTTTTCTACATACAAGAT
Celera SNP ID:            hCV15954113
SNP Position Genomic:     10118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52254):
TTGCCAGGTAACTAATCCTATGTGCCAAGCAAGTGCCTCCGCCTCAATAGTTCTTCTGTCCCCCTGGATAAAGCACCCTGGAAATCTAATACCGGGGGTG
Y
TCCCTGGCTCCTGCAGGCACATGCTGGCTGCCTCGTGCAGTTCCTGGACATGCAACCTCTCTACTCCCTGGTCAGGCCTAGCAGGTCCCCATCCAGGTTA
Celera SNP ID:            hCV9520135
SNP Position Genomic:     3635
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:52255):
AAACGCCCCCGCAGAGCCCAGTGGTCTGTGAGGTTGCAGGCAGGGTGCGAATGGAAGGGCACAGGTGCGGGGCTGGCACCTGCCCGGTCCTGCCCACCTC
Y
CCTCCGCCCAGCCCGCACCTGCGTCTCCCCACAGAGCTGTCCGTGGCACAGTGCACGCAGCGGCCCGTGGACATCGTCTTCCTGCTGGACGGCTCCGAGC
Celera SNP ID:            hCV25473708
SNP Position Genomic:     40640
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,20)   caucasian(C,14|T,20)   total(C,26|T,40)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52256):
GTGGGAAGGGGTCGGGCCCTCTCGGGGCTGCAGGGCAGAGGCCAGCTGCACCCTGAGCCTGTCTAGGCAGATCAGTGAACGGCCGCTGAGGGTTCGCTAG
R
GACTGACCCTGGCCTGGCCCGGCCTCTCTCCTCTCTTCCAGACCCTCAGATCGTGTGCCCAGACCTTCCCTGCCAAACAGGTAATGCAGGGCACCCTGAG
Celera SNP ID:            hCV25622510
SNP Position Genomic:     35173
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,34)   total(A,1|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:52257):
ATCGTCTTCCTGCTGGACGGCTCCGAGCGGCTGGGTGAGCAGAACTTCCACAAGGCCCGGCGCTTCGTGGAGCAGGTGGCGCGGCGGCTGACGCTGGCCC
R
GAGGGACGACGACCCTCTCAACGCACGCGTGGCGCTGCTGCAGTTTGGTGGCCCCGGCGAGCAGCAGGTGGCCTTCCCGCTGAGCCACAACCTCACGGCC
Celera SNP ID:            hCV25622511
SNP Position Genomic:     40813
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,34)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52258):
AAATTATAAAAACAAGAAAAACCAGCAAACTCTGGGGAAGAAAGAGATTTTGATTTCACAAGGCATACAAAGAAACTTTCCTATTTCAAAGGAAAAAAAA
A
CAACAGAAACTGTCACTGAAAAAGACTTGGTGGTAGATCTACTAGACAAAGGCTTTGAAAGAACTATCTTAAAGATACTCAAATAACTAAGGGAAAATGT
Celera SNP ID:            hCV26539129
SNP Position Genomic:     12077
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52259):
CCCGGAGGGACGACGACCCTCTCAACGCACGCGTGGCGCTGCTGCAGTTTGGTGGCCCCGGCGAGCAGCAGGTGGCCTTCCCGCTGAGCCACAACCTCAC
K
GCCATCCACGAGGCGCTGGAGACCACACAATACCTGAACTCCTTCTCGCACGTGGGCGCAGGCGTGGTGCACGCCATCAATGCCATCGTGCGCAGCCCGC
Celera SNP ID:            hCV25622513
SNP Position Genomic:     40910
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,30|T,2)   total(G,68|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52260):
CCACGAGGCGCTGGAGACCACACAATACCTGAACTCCTTCTCGCACGTGGGCGCAGGCGTGGTGCACGCCATCAATGCCATCGTGCGCAGCCCGCGTGGC
R
GGGCCCGGAGGCACGCAGAGCTGTCCTTCGTGTTCCTCACGGACGGCGTCACGGGCAACGACAGTCTGCACGAGTCGGCGCACTCCATGCGCAAGCAGAA
Celera SNP ID:            hCV25622514
SNP Position Genomic:     41016
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(A,2|G,38)   total(A,5|G,69)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(A,2|G,26)   total(A,6|G,60)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52261):
CGGGTCGCGGTGTGCGTTCGGGCGTTCCATGGGGAGCTCCCGGTGGGTGAGCTGGGCCACTGAGCACATTCACAGGCCCTGAGGCTGCCCCAGGGGAGGA
R
CCGTGGACTCAGAGCCGAGGTTCCCCATACGTGCTGCGACAGAGAACCTAGGGCTTGCACCTGGGTCTGGCTGCCCTTCAGCAGGCGGGCAGCCTCTGGC
Celera SNP ID:            hCV2811380
SNP Position Genomic:     36128
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52262):
TGCTGGCCTTGGGCAGCGACGTGGACATGGACGTGCTCACCACGCTCAGCCTGGGTGACCGCGCCGCCGTGTTCCACGAGAAGGACTATGACAGCCTGGC
R
CAACCCGGCTTCTTCGACCGCTTCATCCGCTGGATCTGCTAGCGCCGCCGCCCGGGCCCCGCAGTCGAGGGTCGTGAGCCCACCCCGTCCATGGTGCTAA
Celera SNP ID:            hCV25622515
SNP Position Genomic:     41231
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52263):
GAGTGGCCGCTATGGCTTCCCCTCCACTCCAGGTTCTATCGTGAGTGGGTGGGTGCTGCGTCTGTGGATGTCACGTGACCTTTCCTCTTTAGCCTATCAT
Y
GTAGTTGGGAGTTAGTTAGCCCGTTGAGCGTCATTGAATTTCCAGTGTTGAGCCAGCCCTGCGTGCCCGGGATAAACCCACCTGGCCGTGGTGTGTGGCC
Celera SNP ID:            hCV2811381
SNP Position Genomic:     36570
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52264):
CTTGGGCAGCGACGTGGACATGGACGTGCTCACCACGCTCAGCCTGGGTGACCGCGCCGCCGTGTTCCACGAGAAGGACTATGACAGCCTGGCGCAACCC
R
GCTTCTTCGACCGCTTCATCCGCTGGATCTGCTAGCGCCGCCGCCCGGGCCCCGCAGTCGAGGGTCGTGAGCCCACCCCGTCCATGGTGCTAAGCGGGCC
Celera SNP ID:            hCV25622516
SNP Position Genomic:     41238
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52265):
CGGGCACCCGCCCAGCCGGGCTGGGCCCTCCCTGCCACACTAGCTTCCCAGGGCTGCCCCCGACAGGCTGGCTCTCAGTGGAGGCCAGAGATCTGGAATC
S
GGGTCAGCGGGGCTACAGTCCTTCCAGGGGCTCTGGGGCAGCTCCCAGCCTCTTCCCATGCTGGTGGCCACCGTGTCCCTTGCTGCGGCTGCATCTTCCA
Celera SNP ID:            hCV2811382
SNP Position Genomic:     38317
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:52266):
GAATGAGCTGTTTTGGCTGCCATTTCTGGGACACCCAGCTCTGCCAGGCCCCTACCCCTCTGGTGGGCCAGGCTCTGACGGTGGCCACTCATGGCCTTTC
Y
AGCTCTGGTGCCAGCATAGGGAAGGAGGAGGCACAGCCTTGTCTTACTCCTTGCACCTGTTAGCTCCCCCCCCGCCAAGGGAGGACCCGTGGTTGGGGAC
Celera SNP ID:            hCV15832403
SNP Position Genomic:     33187
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52267):
GTCAGCGGGGCTACAGTCCTTCCAGGGGCTCTGGGGCAGCTCCCAGCCTCTTCCCATGCTGGTGGCCACCGTGTCCCTTGCTGCGGCTGCATCTTCCAGT
Y
TCTCCTCCGTCTTCCTGTGGCCGCTCTCTTTATAAGAACCCTGGTCATTGAATTTAAGGCCCACCCCAAGTCCAGAATGACCTCGCAAGACCCTTAACTC
Celera SNP ID:            hCV16007229
SNP Position Genomic:     38420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:52268):
TCCTTCCAGGGGCTCTGGGGCAGCTCCCAGCCTCTTCCCATGCTGGTGGCCACCGTGTCCCTTGCTGCGGCTGCATCTTCCAGTCTCTCCTCCGTCTTCC
W
GTGGCCGCTCTCTTTATAAGAACCCTGGTCATTGAATTTAAGGCCCACCCCAAGTCCAGAATGACCTCGCAAGACCCTTAACTCACTCCCGTCTGCAGAG
Celera SNP ID:            hCV2811383
SNP Position Genomic:     38436
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,2)      total(A,2|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:52269):
TATGACAGCCTGGCGCAACCCGGCTTCTTCGACCGCTTCATCCGCTGGATCTGCTAGCGCCGCCGCCCGGGCCCCGCAGTCGAGGGTCGTGAGCCCACCC
Y
GTCCATGGTGCTAAGCGGGCCCGGGTCCCACACGGCCAGCACCGCTGCTCACTCGGACGACGCCCTGGGCCTGCACCTCTCCAGCTCCTCCCACGGGGTC
Celera SNP ID:            hCV25622517
SNP Position Genomic:     41317
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,37|T,1)   total(C,71|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:52270):
TCCTGATGGGGCAGGGAAGTCTCGGGACCCCATGATGGGCGACATGGCGATGGTCACTGTGGGTGCTTTGCTATCAGGTGGGGGGCCTTCCTCTCCACTC
Y
GGGTCCAGTGTGAGTGGCCGCTATGGCTTCCCCTCCACTCCAGGTTCTATCGTGAGTGGGTGGGTGCTGCGTCTGTGGATGTCACGTGACCTTTCCTCTT
Celera SNP ID:            hCV15832404
SNP Position Genomic:     36458
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52271):
CATGGACGTGCTCACCACGCTCAGCCTGGGTGACCGCGCCGCCGTGTTCCACGAGAAGGACTATGACAGCCTGGCGCAACCCGGCTTCTTCGACCGCTTC
M
TCCGCTGGATCTGCTAGCGCCGCCGCCCGGGCCCCGCAGTCGAGGGTCGTGAGCCCACCCCGTCCATGGTGCTAAGCGGGCCCGGGTCCCACACGGCCAG
Celera SNP ID:            hCV2811384
SNP Position Genomic:     41256
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,3)   caucasian(A,40)   total(A,73|C,3)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52272):
GCTTCTTCGACCGCTTCATCCGCTGGATCTGCTAGCGCCGCCGCCCGGGCCCCGCAGTCGAGGGTCGTGAGCCCACCCCGTCCATGGTGCTAAGCGGGCC
S
GGGTCCCACACGGCCAGCACCGCTGCTCACTCGGACGACGCCCTGGGCCTGCACCTCTCCAGCTCCTCCCACGGGGTCCCCGTAGCCCCGGCCCCCGCCC
Celera SNP ID:            hCV25622518
SNP Position Genomic:     41339
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,1)   caucasian(C,38)   total(C,69|G,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:52273):
GCACTCCATGCGCAAGCAGAACGTGGTACCCACCGTGCTGGCCTTGGGCAGCGACGTGGACATGGACGTGCTCACCACGCTCAGCCTGGGTGACCGCGCC
R
CCGTGTTCCACGAGAAGGACTATGACAGCCTGGCGCAACCCGGCTTCTTCGACCGCTTCATCCGCTGGATCTGCTAGCGCCGCCGCCCGGGCCCCGCAGT
Celera SNP ID:            hCV25622519
SNP Position Genomic:     41196
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52274):
ATCCCAGGAGCTGAGGTCTTGGTGAGGCCACAGGGCCAGGTCCACGCAAGGACTGTCCGTGTCCTGTCCTGTGGTCTCTGGCCCCACGTGACACCCACAC
R
TGTGGTAGGCAGCCTGGCCTGGGTTGTGGCTATGGCCAGGCCCCCAAGCTGTCCCCGATGCCCAGGGCTGGTGACCACCCAGGCAGGTGGGGGCCCCACT
Celera SNP ID:            hCV15954559
SNP Position Genomic:     39971
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,28|G,1451)   total(G,1451|A,28) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52275):
AATTGCATCAAATTATACCAAATTTAGTTTACTATTAATAGTATTTTGTTTAGGATTTTTGCATCAATGTTCATAAGGAAGACTGGATTGTAGTTTTCTT
Y
TCTTGCAATATCTTTGTCTGGTATTGGTATCAGAGTAATGCTGGCCTCGTAAGAATGAGTTAAATAGTGTTCCCTTCTCTTCAAGTTTTTTGAAAATTTT
Celera SNP ID:            hCV26539130
SNP Position Genomic:     10782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52276):
TTAAAGGGAATGGAGCCAGGCTGGAGAGAGAGTGCCTAGCTCTGCAGGGGAGCCGGTCTGGGGAAGCTGGGATCTCTCTCCCGCCCTCCCCTCTGCACTG
Y
TTCCAGGGCAGCCCCAGGCAGTGGGGGGCGCCAGACAGTGGTGCTCCATTCCCTTCCATGCCGACGCGCCCAGCTACCCACTCCACCCAGCCCTGGAGGA
Celera SNP ID:            hCV9520147
SNP Position Genomic:     19797
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,33|T,7)   total(C,60|T,16)
SNP Type:                 INTRON;TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52277):
AGGTGAGCGCCTCCCGGACCCCGCACCCTGGAAGCCGCTCGGCCCGCGGGGGGTGACCCCGAGTCCTGGGAAGGCGGCGGCGGCGGCTCCGTCCCTCGGG
Y
CCCCGGGAAGGGGGACTCCAGCCCCAGGGACGGCGGGGGGCTCGGCGGGTTCGGGGCTCCTCCTCGCGGGGCTGGGGCCGCGCCTGCCCCTGTGGCTCCG
Celera SNP ID:            hCV15885581
SNP Position Genomic:     6177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52278):
ATGGGCTGCCGCTGCCATCAGTAATATTTATAGTGATATTTATCTGTAGAGTTACTTTTAGGGACTTTTTTTTTTATCAAGCTTTGGTCACAGGTTATGC
M
ACATTTAAAAATGAATTGGGAAAAAGTTTATCTTTTTATGTTCTAAAACAAGTTAAATAGCATGAAGTGCTTGTCCTTGAAGCTGTGAAACTCACCCACA
Celera SNP ID:            hCV11958097
SNP Position Genomic:     18272
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52279):
TCCACCGAGATCGACCAGGACACCATCAACCGCATCATCAAGGTCATGGTGAGCCGCGGGCGGGAGCACCGTCCACGCGCCAGGGGTGGCCACGGTGGGC
Y
GTCCACCCACTCCGGGCCTCACTTTACCCCTCTGTGAGTGCGGAGGCCGAAGGAGGAAGCTCCGGGCAGGGCCTGGGCCACTCAGGTGTCCCTCCATCCC
Celera SNP ID:            hCV11958098
SNP Position Genomic:     21289
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,4)   caucasian(C,19|T,19)   total(C,47|T,23)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52280):
CCGACAGGCTGGCTCTCAGTGGAGGCCAGAGATCTGGAATCGGGGTCAGCGGGGCTACAGTCCTTCCAGGGGCTCTGGGGCAGCTCCCAGCCTCTTCCCA
Y
GCTGGTGGCCACCGTGTCCCTTGCTGCGGCTGCATCTTCCAGTCTCTCCTCCGTCTTCCTGTGGCCGCTCTCTTTATAAGAACCCTGGTCATTGAATTTA
Celera SNP ID:            hCV11958099
SNP Position Genomic:     38376
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:52281):
AGGGGTTGGGGGCCGGGGGCTCTGGCATTCGGGGGCAGTGAGGTCAAACCCACAAACAGGCACGGGGCCAGGAAACGGGGCTCCAACAGCAGTCCCTCCT
R
AGGCTGGCTCGTGACAGGTCCTGTGCCCCACAGAGAAGACCGACTGCCCCATCCACGTGTACTTCGTGCTGGACACCTCGGAGAGCGTCACCATGCAGTC
Celera SNP ID:            hCV25622520
SNP Position Genomic:     20604
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,3|G,37)   total(A,3|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:52282):
CGGACATCCTGCTCTTCCACATGAAGCAGTTCGTGCCGCAGTTCATCAGCCAGCTGCAGAACGAGTTCTACCTGGACCAGGTGGCGCTGAGCTGGCGCTA
Y
GGCGGCCTGCACTTCTCTGACCAGGTGGAGGTGTTCAGCCCACCGGGCAGCGACCGGGCCTCCTTCATCAAGAACCTGCAGGGCATCAGCTCCTTCCGCC
Celera SNP ID:            hCV25622521
SNP Position Genomic:     20810
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,40)   total(C,69|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52283):
TCGCCGTGGCCCCCAACCAGAACCTGAAGGAGCAGGGCCTGCGGGACATCGCCAGCACGCCGCACGAGCTCTACCGCAACGACTACGCCACCATGCTGCC
Y
GACTCCACCGAGATCGACCAGGACACCATCAACCGCATCATCAAGGTCATGGTGAGCCGCGGGCGGGAGCACCGTCCACGCGCCAGGGGTGGCCACGGTG
Celera SNP ID:            hCV25622522
SNP Position Genomic:     21185
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,38|T,2)   total(C,70|T,6)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52284):
CCAGAACCTGAAGGAGCAGGGCCTGCGGGACATCGCCAGCACGCCGCACGAGCTCTACCGCAACGACTACGCCACCATGCTGCCCGACTCCACCGAGATC
R
ACCAGGACACCATCAACCGCATCATCAAGGTCATGGTGAGCCGCGGGCGGGAGCACCGTCCACGCGCCAGGGGTGGCCACGGTGGGCTGTCCACCCACTC
Celera SNP ID:            hCV25622523
SNP Position Genomic:     21201
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,1|G,39)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52285):
CGCACGAGCTCTACCGCAACGACTACGCCACCATGCTGCCCGACTCCACCGAGATCGACCAGGACACCATCAACCGCATCATCAAGGTCATGGTGAGCCG
Y
GGGCGGGAGCACCGTCCACGCGCCAGGGGTGGCCACGGTGGGCTGTCCACCCACTCCGGGCCTCACTTTACCCCTCTGTGAGTGCGGAGGCCGAAGGAGG
Celera SNP ID:            hCV25622524
SNP Position Genomic:     21245
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52286):
TGGGCCTGCAGCAGGCCTGTGGAGTTCTCAGTTGCGTGGGGACCAGAGGGTGCTGGAGAAACAAACCAGACGCAGCTGAAGGCAGTCAGGGCAGGGCGCA
M
TCAGCGATAAGAGCTGCATAGGGGCCACAGCGTAACCTGAGCTCCAGTCGGTGGAAAGAAAAGGCAGAGACGTTGCAGAGGCCAGGTCTGCTCAGGGGAA
Celera SNP ID:            hCV15832411
SNP Position Genomic:     37362
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52287):
GACTACGCCACCATGCTGCCCGACTCCACCGAGATCGACCAGGACACCATCAACCGCATCATCAAGGTCATGGTGAGCCGCGGGCGGGAGCACCGTCCAC
R
CGCCAGGGGTGGCCACGGTGGGCTGTCCACCCACTCCGGGCCTCACTTTACCCCTCTGTGAGTGCGGAGGCCGAAGGAGGAAGCTCCGGGCAGGGCCTGG
Celera SNP ID:            hCV25622525
SNP Position Genomic:     21265
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:52288):
GGGGTTTGGGAAGCCCAGCGGTACCTGAGGAGTTTCTGGACATTTAAGCCGGTTCCTAGGTGTGGCCTTAACAGGGAGGCTGCCCTTCCTTTCACTGAAT
R
AGCTGCGTCACTCATAAGCTCACTGAGGGAACCCCATCTGCCAGCTCGTGCGTGCTCAGACGGCGTCCATGTCTCAAGCGTTCTGTGAAGGCTGCGGTGC
Celera SNP ID:            hCV15832412
SNP Position Genomic:     39561
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52289):
ATCGACCAGGACACCATCAACCGCATCATCAAGGTCATGGTGAGCCGCGGGCGGGAGCACCGTCCACGCGCCAGGGGTGGCCACGGTGGGCTGTCCACCC
R
CTCCGGGCCTCACTTTACCCCTCTGTGAGTGCGGAGGCCGAAGGAGGAAGCTCCGGGCAGGGCCTGGGCCACTCAGGTGTCCCTCCATCCCCACCCAGAC
Celera SNP ID:            hCV25622526
SNP Position Genomic:     21298
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,35|G,5)   total(A,71|G,5)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52290):
GTTCCTAGGTGTGGCCTTAACAGGGAGGCTGCCCTTCCTTTCACTGAATGAGCTGCGTCACTCATAAGCTCACTGAGGGAACCCCATCTGCCAGCTCGTG
Y
GTGCTCAGACGGCGTCCATGTCTCAAGCGTTCTGTGAAGGCTGCGGTGCAGCGTGAGGTCACCCTGCTGTGTTCAGAGCTTTGCTCACTGCCTGCGGGGC
Celera SNP ID:            hCV15832413
SNP Position Genomic:     39612
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52291):
AGACTTCTCCACTTGGGCAGGGGAATCAGTAACCTCTGCTGTGTCACCTCTCAGAGGAGCTGTGGCAGGGTCCCCAGCTGCCTACCGCCCACCCTACCCT
R
CCTCGATGTACTCTTTTCTCTGCTTTTAGGGTGCCAAGGGCAACATGGGTGAGCCGGGAGAGCCTGGCCAGAAGGGAAGACAGGTGAGTGTCCTTGCCCC
Celera SNP ID:            hCV25622527
SNP Position Genomic:     24501
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,40)   total(A,3|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:52292):
TGTGGCAGGGTCCCCAGCTGCCTACCGCCCACCCTACCCTGCCTCGATGTACTCTTTTCTCTGCTTTTAGGGTGCCAAGGGCAACATGGGTGAGCCGGGA
R
AGCCTGGCCAGAAGGGAAGACAGGTGAGTGTCCTTGCCCCACGCCCGCCCCGCCTGCAGCCCAGCGCCCCAGGGCTGGGCTCACACTGCTGCGTTGTCCT
Celera SNP ID:            hCV25622528
SNP Position Genomic:     24561
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52293):
TCCCCCCAGTTACCAAGGAACAGAAGCACCTCGATAACTTGATGGCCGTCCCAAAACCCAGCCTCCAGCCCGACCCAGGGCTCAGCCTCCTCCGCAGACT
R
TTTGTCGAGAACACTAGATGCCAGCGGCCCACCGAGCACTCCCCTCAGCCTGCAGGGCTGGCCCTTCCCTGCCTGTGTCTCTGCAGAGCTCCTCACTAAT
Celera SNP ID:            hCV25622529
SNP Position Genomic:     24911
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(G,38)   total(A,6|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:52294):
CATTGCAAGCCCTTCTCCGTCTGGTTGAAGTGACTTCCAGGAGATTTAAAGGGCTGGCACCCTTTTCTCCCTTCATTTTTCTCTTTTTCCTCTTTTGAGA
S
GTAGACATTGAAGACTAGCACATTCAAAAGCAACCATATATGTGGAGAAAATAAAAAAGTCATTGCACATGCTCAGGGGAAGTCACGGGCTTAGAAAAGA
Celera SNP ID:            hCV15767296
SNP Position Genomic:     11815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52295):
GAGCTGAAAAGTACAATAACTGAAATTTAAAATTCACTAGAGAAATGCAAAGGCAGATTTCAGCAGGCAGAATAAAGAATCAGGGAACTTGAAGATACAA
M
AATGGAAATTATTGAGTCTGAGGAGCAGAAATAAAAAGATTGAATAAAGGTGATCAGAGCCTAAGGGGTCTGTGGGATACCATCAAGCAAACCAACATAA
Celera SNP ID:            hCV15767297
SNP Position Genomic:     12363
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52296):
TGCCCGACTCCACCGAGATCGACCAGGACACCATCAACCGCATCATCAAGGTCATGGTGAGCCGCGGGCGGGAGCACCGTCCACGCGCCAGGGGTGGCCA
Y
GGTGGGCTGTCCACCCACTCCGGGCCTCACTTTACCCCTCTGTGAGTGCGGAGGCCGAAGGAGGAAGCTCCGGGCAGGGCCTGGGCCACTCAGGTGTCCC
Celera SNP ID:            hCV25474093
SNP Position Genomic:     21281
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,11)   caucasian(C,37|T,3)   total(C,62|T,14)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52297):
ATCCCACCCAAAACTGAGCCCAGAGGCACCCACTAAACATCTGTGACCCCACCCAGGGTGGGGCAAGAGGGCGCAAGCCCCCCAGTCCAGATGCTGGTGA
Y
GGTGTGTGCTGGGCGCAGACCCCGCTTCCTTGAAGACTGAGGGCAGTGCCCCCAATCCCGCTGACCTGCTGTGCGTGCGCCTGCCATGGGGGAGGGTGCC
Celera SNP ID:            hCV27831270
SNP Position Genomic:     20022
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,19|T,21)   total(C,51|T,27)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,18|T,18)   total(C,47|T,23)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52298):
GGGCCTGTGCCTCCTGTTCTCAGCTCTGGAGTGAGGGGATGCCTCCGGGGTCCAGGAAGCCCCCCTGGCTCTCCTCTTCAGCAGTGACCCTTGGGTGTGC
R
TGGCACATCCTTCCTGAGGCAGGGCCTGAGGGCAGCTACGTGGCCTGAGTAGGGTCCTCCCCGCGTGTGGGCAGGCTTCGGGTCTCTAGGCACGTCCAGC
Celera SNP ID:            hCV9520157
SNP Position Genomic:     30542
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52299):
CCGTGGACATCGTCTTCCTGCTGGACGGCTCCGAGCGGCTGGGTGAGCAGAACTTCCACAAGGCCCGGCGCTTCGTGGAGCAGGTGGCGCGGCGGCTGAC
R
CTGGCCCGGAGGGACGACGACCCTCTCAACGCACGCGTGGCGCTGCTGCAGTTTGGTGGCCCCGGCGAGCAGCAGGTGGCCTTCCCGCTGAGCCACAACC
Celera SNP ID:            hCV9520158
SNP Position Genomic:     40805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52300):
CGGCGCACTCCATGCGCAAGCAGAACGTGGTACCCACCGTGCTGGCCTTGGGCAGCGACGTGGACATGGACGTGCTCACCACGCTCAGCCTGGGTGACCG
Y
GCCGCCGTGTTCCACGAGAAGGACTATGACAGCCTGGCGCAACCCGGCTTCTTCGACCGCTTCATCCGCTGGATCTGCTAGCGCCGCCGCCCGGGCCCCG
Celera SNP ID:            hCV9520159
SNP Position Genomic:     41192
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,31|T,7)   total(C,65|T,9)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52301):
GGCCGTCCCAAAACCCAGCCTCCAGCCCGACCCAGGGCTCAGCCTCCTCCGCAGACTGTTTGTCGAGAACACTAGATGCCAGCGGCCCACCGAGCACTCC
Y
CTCAGCCTGCAGGGCTGGCCCTTCCCTGCCTGTGTCTCTGCAGAGCTCCTCACTAATGCCCCTCTCTCCTCCTGCCCCCAGGGCGTTCCTGGCTTCAAAG
Celera SNP ID:            hCV25622530
SNP Position Genomic:     24954
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52302):
TGAATGAGCTGCGTCACTCATAAGCTCACTGAGGGAACCCCATCTGCCAGCTCGTGCGTGCTCAGACGGCGTCCATGTCTCAAGCGTTCTGTGAAGGCTG
Y
GGTGCAGCGTGAGGTCACCCTGCTGTGTTCAGAGCTTTGCTCACTGCCTGCGGGGCTGGACCGTTGCACCTCCAGGGCCCCCAGAAACCGAGTTTCGGGT
Celera SNP ID:            hCV15832420
SNP Position Genomic:     39656
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52303):
AGACGGCGTCCATGTCTCAAGCGTTCTGTGAAGGCTGCGGTGCAGCGTGAGGTCACCCTGCTGTGTTCAGAGCTTTGCTCACTGCCTGCGGGGCTGGACC
R
TTGCACCTCCAGGGCCCCCAGAAACCGAGTTTCGGGTCAGGGTCCTCTGTGTGCATTCCTGGGGGTCCATGTACCAGCTGTGACGACGTCCAGGGGTTGG
Celera SNP ID:            hCV15832421
SNP Position Genomic:     39719
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52304):
AGCGTTCTGTGAAGGCTGCGGTGCAGCGTGAGGTCACCCTGCTGTGTTCAGAGCTTTGCTCACTGCCTGCGGGGCTGGACCGTTGCACCTCCAGGGCCCC
S
AGAAACCGAGTTTCGGGTCAGGGTCCTCTGTGTGCATTCCTGGGGGTCCATGTACCAGCTGTGACGACGTCCAGGGGTTGGGCTGAGAAGCAGACACCCT
Celera SNP ID:            hCV15832422
SNP Position Genomic:     39738
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52305):
AGTGCCTAGCTCTGCAGGGGAGCCGGTCTGGGGAAGCTGGGATCTCTCTCCCGCCCTCCCCTCTGCACTGTTTCCAGGGCAGCCCCAGGCAGTGGGGGGC
R
CCAGACAGTGGTGCTCCATTCCCTTCCATGCCGACGCGCCCAGCTACCCACTCCACCCAGCCCTGGAGGACATGGAAGGGCCTCAACCATCCAAATCCCA
Celera SNP ID:            hCV27854797
SNP Position Genomic:     19827
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:52306):
CCTCCCAGGAGGGCAGCCTGTGCAGGGATGGTGCTCAGCAGGTGGACAGGGCCTGGGGCCTGTGTCAGGGTCTCAGGCCTGGGAGCACCAGCAGAGGAGA
Y
GGCGGCTCCCAGCAGTGCCGCCTGAAAGTGTCTTGGGCTAAGGACCCACACCCAGGGCTGCCCTGCAGAAACGCCCCCGCAGAGCCCAGTGGTCTGTGAG
Celera SNP ID:            hCV15832428
SNP Position Genomic:     40471
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52307):
GCTCAGCAGGTGGACAGGGCCTGGGGCCTGTGTCAGGGTCTCAGGCCTGGGAGCACCAGCAGAGGAGATGGCGGCTCCCAGCAGTGCCGCCTGAAAGTGT
Y
TTGGGCTAAGGACCCACACCCAGGGCTGCCCTGCAGAAACGCCCCCGCAGAGCCCAGTGGTCTGTGAGGTTGCAGGCAGGGTGCGAATGGAAGGGCACAG
Celera SNP ID:            hCV15832429
SNP Position Genomic:     40503
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 250
Celera Gene:                 hCG40181 - 83000099172069
Gene Symbol:                 CMA1
Protein Name:                chymase 1, mast cell;CYH;MCT1
Celera Genomic Axis:         GA_x5YUV32VVQK(28260056..28274949)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12410):
GGGAAAATGCAGGCCCTGATCATTTTGCTGGTCTTCCTCTTGCCTCCTGAAGCCACATCTGGTGAGTCTAGGGTGTAACTTCCTGTCCTGTAAGTCCTCA
GCCCCTATTCCAAAATCATTAACCTGGGTCAGAGAAGAGCCTAAAATAATGCTGCAGGATATCTTTGCATATGTTCCAAAGGGAGAGCTATACCTAGAAG
AGTCATATACTTTCCACAGTTGATGACAGTGTCCCAGGGACAAGAAGAGTAGGGTGGAGAAAGAATCAGAAACTGGCTTTGGAAGTTTCCCTTAACCTGC
TTTGCTCAAAATGCCCCCAATTCTTATCCATGGCCCTTCTCTCATATTGAAGAGGGCAGGATAAGGACATGATGAAATGTCTAAAGGAAATGACAAATCA
AGCTGGTTAATGATTCCATGAATGTTTAATTTATAATTATTCATTTGAAGAAAAAATTTTTTTCACTCTTATGTATGTATGTTATGATTCTCAATTTTAA
AAAAATTAACATGGACCATAACCAGAGAGAAGCCATTTTTTTCTGTAGCCAGGTCATACAGAAGACCTGTGCTCCTGACCAGACTTTAGGGATGCACTTA
GGTGATGGGGTATGCCCAAAAAGTCCCCTTAAAAACACACATTGAAGGCCTGTTTGTGTGGCTGCCATTTCTACTGCCCACTGACCCATTCCCTGAGCAG
CCAGTGCCACTTCCTTACTTCAGTCATTAACTGATAGTGAAATATTGATTTCTCCACCTTTGGTAATATTAAAGATCACTAAAGGGAATGTTTGAAATTC
TGAAAAAGAACTTCAAGTTTCAGGGGGGAAAAAAGGTTGGGGGAGAGGAGTTTCCTAACAGGGATCCCAGTTAATACATAATCAATATGCAATTTATTAA
TACATCTCTCCATGTCCACTCCCCCTGTATCTTGCCATTCTTGACCTGCATTTCCATCCTCCTTACCTTCCCTAGAGGCCAACTCATTTTCTTTGAAAAA
CCTGGCATTTCCCAGAAAAAAAAGTGAAGGGCTGGGAGCTGTCCGTTGTCCTGATTTGCTCCCTCTGCCCTTGCTTCCAAATGTGGTTGGAAAGAAGCAC
TATTGAAAAATCCCTAAACGACCCCTGCAGGGTTGGCTCTACCCTGTAGCCATGGACACATGCTGTTGATACCACCTGCCTCATGAGTCTCACATAATTT
GCCCTTTCACACTATCTACCCCATCAGCCTTACCAAAACCATACCTGCATCCTGGGCAGCATCTGCCCTTCAAGAGACTAAGGAATCTCCTTGCAACCAA
GAATGACTAGACCAATGAGACACCCTTTAAGGCCCCAGCACAATATAGAAATCCCACAATATGGTAATCCCAGTAAGGAGCTATCAAGCCATTGCAGGAC
CATCTAGAATACAACTAGAGTATAGTTCCTTTCAATCCAGGAACTATACTCTAACAGCTTGGCTCACAGGAACCAGAAGTGAAGATGATGAGGATCAGGG
CTGAGCCTGTGAGCACCAGCTCCACCACTGACACCAACCACAGATTAAACAAGCATCTTGTGGACCCCTGGGATGGAAAGAATAGTTGTTGCCTTATCAA
CCTCCCCCACAGCCCACACAGAAAAGATAAAATCATCATGGCTACAGTGTTACAGAAGATGATGACCCAAGGAGTAGGCCTGCCTGAGTGAAGCTGAGAG
TGATAATGGGAGCAGTAGCATCTCAGAGACTACAGCAGAAACCATCCACATAAAGAGCTTTGCCCAAACTTATGATAAAGGGCACCCTCAGAGACTCTCC
CTACTTTAATATTAGCCCATTGCAGAAATGGTGAGTGGAAAGAGAAATCTTAGGAAGAACCCCTTAAAAAAGCAAAATGTTTTTAGGTTTGTGCTGAAGA
GCCTGGAAAAGAAATAAGGACACACACGCTGAGAAATCTTCCTCCTGCCCCAACACTGGGAATAATCTCCAAGGATCTCTCCATATCTCATTCTCCTGGA
TACACTGTCCACTCAGAAATATTGTGCAGAGTGCAGTAATTCAAAAGTGAGCTATTGTGTTAGGAGTGAAGGCAAGAGTATCGTAAAATAAATCAATTTG
AAAGTAATTCTCTTAAATTGCTTTATAGATGTTTAATGTAAGCCAGCAGCTATTAAACATAAACCTTAAATTCAGAAAAACTTGGTCATTCAGAAACTAT
AGAAACAGGCAGGACTTATTGCGAGGGCAAACACAGAGTGAGCTCCAGCCTGCTTCAGGAAAATCTGCCAGTGCCATGAAGGATGTACTCTGTCTGCTCC
ACTGCACTACTGCTCAGTATGAGCCCATGCCATCAGCTGTCCCTGACCCACAGGAGTTCTTTAGAAGAGACTGCAACAAAAGTTTCTAGGTGTTTTATAC
CTGCCAACTCGAGGGTTAAAACAAGTTGCATAGAAATGCTCAATCAAGAAAGACACAGTCATTACTCAGAGAATAATAAACAGCCTGGCAGCACATGAAT
GAATAGAAAAAAGATGTTACATGCAAAGCATGAAATAACCAAATTCCATAACAGATGTTAATCTGTAATGTGTTTAGGAGAATTTAGAGGAAGTATAAGA
TTTATTCTTTCATCAAAAAAATTATAGCCAATGAGGATATATCTATCAATTATCCATCAAGTGGTGATATGGCAGCACAAGGTAAAACACAAAGGAATAA
AACCAACGTTTATTAAGAACCAATCATGTGGCATTTCACATTGAGCATCATATTTAATTCTGAAAAAAATCCTTGTACTGTATCATTCTTCATATTTTAT
GGATGCAGTAACTAAGGCTGAGAACTTTAAAATTTTTCCTAAGTTCAGACACATAGCTAAGTGGCAGAACCAAGATTCAAACTCACCCCATCTAACTGCA
GAGCAAACTGCATGCCTTAAATGTCAAAGTGAATACTAGCACAGTTAATACAATGTTYGGAAACTCAGAGAAGGAATGATCCCTCTGCATTATAGTTACT
AAGGAATCATTGCCATTATTTAAATGCCAGTGCTTCTACATCAGGCCCAAATTTTCTGTCCTACTAACTGTGAATCAAGACTTGATTCAACCTCTACTTG
AGTATCTGCCGCAATGAGAAATCACTTACCTCCACTAAYCACACATTTATTTTATAACAACAGATTGTTAGTAAGTCCTTTCTTATACATACTCAACAGC
TGCTTCCCAAGATGCTGTAGGATTATGTCTAGAGTCAAACTAGCCAGAAGCAATGTCCAAAATACACCATAACACTGTGCAGCAAAGGTCCTACTACCAC
TTGTTTGGCCCAAACATTCTAGGCAGCACTGGATATCTGAATCATCAATTATTTCCACAAACCCTGACCCCTCTACCAGTCACCCTCACTAGAAGAATTA
ATTCCACATGATAATAGCTCCCTCATGTTACTCCCTTCTAAGTCAAATTGTACACCCCTTTATCTGATTAACAGAGTCTAAGTCACATGACCTAAATGCA
AGAGAAACTGGGAATGGAAGTTTGTGGATTCTACCTTAGTAAGGCAAAGTTATCATTGGGAATTCCTCTAATACAGGAAGGGTGTTCCAGAGACATTAAG
GAGCCATATAAATGGAAAATGTCCACTACAATCCATCACTTGGTTGCCCCACATCAACATTCATTCTTTTGCCACACTTAAAGTTTCCAAGAACAAAAAT
TATCCCACTGAACATAATCTTTACTATCTTTTATATAAAGGAAAATTAGACTTGACTCAGCAGAACTGAAATAACCCAGTCTCAACAGTTACTGCTTTTA
ACTTCAAGTACTGTGTCTCTAGGTGATACCTGCTCCAACAATAGTTTGGTCACATTTTCAATTTGATATTCTCTAGTCTCCCAACTTGATAACTGTACCC
TAAACCATAAAGTTCACTACCAACATGCTATATATAAAATAACCAAAGGGGGAAGAAGAAAGAGAAAAAGGAAATCTCTTAAAATACACAGGTATACATA
TGACAAAGCAAAGAAGGAAATGTGAGCAGATAGTGCAGTCCTCGTTTCTGAAATTGGTCCCCTGACTGGGGCTATACCTATTCCATTTCCTCACCCTCAG
CCAGGCAGGTGRAGCAAAACTTAAGTCTTGGTGGATCTGAATCTTGATGCTGTGGAGCTGTCTTACTAGCCCCAGACTACCTGCCTCTCAATTTCTAATT
ATATCAGTGAAAGCAAACAGCTTTGATTTGTTTAAGCCTCTGATTTTTTGGTCTAACTGATGTAAGACCACAAGACAAGAGTTCTCCAGCTCCGGATTCT
CTTCTGTTCTGTTAATGGTGAAATGCCCAGAGAAGAGTTGCCAACTTTGGCAAATAAAAAATACAGGATTCCAGTTAAATTCAAATTTTAGATAAACAAC
AATTTTTTAGTATTAGTGTGTCCCATTCAATATTTGGACATACTTAACTAAAAAATGATTTGTTGTTCATCTGAAATACAAATTTAACTGGGCATTCTGA
ATATTCTCTGGCAACCCCCGAGAGAGTGAAGAAAGTGGTACAAGGACACTTAAGAAGACCAGATTTGAAAAGACATTACGGATGTGTTTAAATGTCTTAT
TCTAGAGAGAGTTAGAGCTGTAGGTAGAACTTGGGAAATTAAGTTAAAAGCAACAGAGGACCTGGCCAATATATACTAAGGAGTGGATCACTCTGGTCAC
AAGCCCAACCTGAGACCAAGGGCATAGTGAGATGATTTGGGAAAGGCACTTATACACTACTCATCCCCGTCTTTGAACTAAATGCCTTATAAATCTCCAA
GAGAAATGACAGTCCACCATGTGGACTGCTTTCTGTAAGTCCAGGGAAAATAAAAGCTATGTGCTTGAAACCCACTTCTGATATTATAAGGTGTGTGATC
TTTGTCATGTTAATGGGTCTGAGTATCAATTCTACAATTGTAAAGTGACAGTAATGGTGTGTCCCCAGGTTGTTGTGGAAAGCTTGATTCTTAATGCAAC
AGTAGGAAACCCCAACCTCTCTGGAGCAAACACCCTTCTACATCTTTACTTCCCCTGCACATTGGCAGGACTCTATTCCTCTATTTCTCTCTAGTGCTAG
AGCAGAAAGGGACCTTGATTTGATATCAGGAAAATCTATTTCTGAACCATAAGCTATGATAGCTGATTTAAAAAATTGACTATCATGACATGATAATGAT
CATAATGGTAATACATATTGATAGGGTTGCCGTGAAAGTAATAATATATCTAAGAGTTGTGACAATATATGATACGCCTAGACTCTCAGAAAATGCTAAT
TCCAATCCCAATTGCTCTTTGCATAAAGTTCTGTCCTAGGGTCTGTTCTTTTCCCACATCTACCCTCCTTGGATCTCTCTTCTGTCAAAAACATGTGGTT
CAGAGGAGGAGAGAGATCCAGGTCAATGTTTTTCAAATTACAAGGAATTATCATTTAAATGGGGTTGTTGCTCAAGTTTTGACGTGTAGTGGAATGGAGT
GGAGTGGAGTGGAATGGAAACTAACAGAAAACACTGCACATGGTTAAGATAAAGATTGTTTCCTGAAACCTTTAATTTGTGCTTACATACTCACACATAC
ATATGTGCATGCACTGGGACTCTGCAATATGCATTTCTGACTATGGAACATAGCCATAAAAGTCTTTGCACTGAACGTTCAGTGGGCCTTTCACAAGCTG
CCCTAATTGGGAAAGAAAAACATGGTCCCTCCATTTCCTGCCCCCAACTCCAGAAAAGTCACCATAGTTGAGGGTACATCTGAGAAGCCAGCACTTGGGA
GTTCAGGGCTCAAGTTCCTTTCTAGAAAAACACTGGGTGATTCTAGGGGAACTTCTGATCAGAAACAGCCAATTCAGAGTGAGAGAAGAAAACGYGACCA
TGCAGTTCCTGTGGTTACCAGCCTTGCCCCTCTCTTGCCTTCTGGGAGWTATAAAACCCAAGACTGGAAAGGAAAACCAGCATTTGCTCAGGCAGCCTCT
CTGGGAAGATGCTGCTTCTTCCTCTCCCCCTGCTGCTCTTTCTCTTGTGCTCCAGAGCTGAAGCTGGTGAGTATCAGGGTTCTTCCCTCTGAAATCTGCA
GTATCAGCTCCTGAAACAAAGATGTTTAGTCTGAAAATAGCTGACTCCTAAACAGGGTTCCAAGATCTCTCTTCAAGAGTCCCAGAGGGAAATTTCCACT
TGGGATGTGTGCCACCCCACCCCCACCCCCACCCACTGCCATTCTCTACAGCCTAGGACAGCCCCCAGGAACAAGGAATTTCACCTCAATTGTAGAAAAG
CCCAGAGCAAGTGGAAGGAAAAGGGGTATCCCCAGGAAAACAGACATGTCCTCTTAATCTTCTGAGCATCAGGGCTACCCATTACTTTGTGACTTTCTCA
CTCTGTGACCATGCTCAAGAGCTATGGAGAAATCTAAAACAGGAACCTGGACAGTGGGTCCTACACAGAGACAGAGGAGGGTGGGCCAGGGCAAGGTGGG
AGTGGGAGAAGTCTGAGATGAAAACATCAGAATGGAGCAGAGGCAAGAATGAGATTTCACCTGGGAGGTTATGGGTGGGGAAAGATACGAAATACAGGAG
ACAGGAGAGGGAAGATGGGCGGAACACAGGGTGAGAATGAGATTCCAGGGAAGCCTAGCTCAGCTTTAACCCAATTTGTCCATTCATTGGAGAGAGTATC
TATGGCCGTGTTCAAACCCTGGGGTGCTCTGTTCCAGGGGAGATCATCGGGGGCACAGAATGCAAGCCACATTCCCGCCCCTACATGGCCTACCTGGAAA
TTGTAACTTCCAACSGTCCCTCAAAATTTTGTGGTGGTTTCCTTATAAGACGGAACTTTGTGCTGACGGCTGCTCRTTGTGCAGGAAGGTGAGACAACAG
GGTCTATTTATCTCCAAATGGGAGATGAACAACCAGAGTAGCATCCAGGAATACACCTGCACTGGGGACTGAAGAGGGGGTCCTGGGTCTTGTCAACTTT
CAGGAGAGGGAAGACTTGGGCTGAAAGACTTTAGTCTGTGTTTGAATAGTTCCTTGAGCCTCAGTCACTGTGAGCTAAGCTCCCCTTCGGAGGAAAAGGA
GGTCCTGTCCAAGGTCCCTCTTGTTGCAGTAGCACCCCTCACCCCTACCCAACTCAAGACACACGGCTCACTTTTCAGGGCCCCACCCAGTCTCAGGGCC
ACTTCCTCTATGGCCTTTTCAAGAACACTGGCCTCTAGTTCTCAGGGTCCTGAACCCATCATTTTATGGGAGGCAGAGAACAGGGTCTACATGAGACCCC
CACTTTCCCGTTTAACTGATATCTCCTGCTTCAGGGGCTGGCCCTCATGCAGGGTTCCCTGAATTAGGAAGTGTGAACCCTGTCCCCTGAGTCCTCCCTG
GCCTGTTCAGTCCCCAGCAATTCCAGGGGTCGTAGAAATTGTGTCTGTTTCCTGAGAAAGCTCTTTCATGAGTTAAGCCTGAGCCCTCAAATGCCACAAG
TGGCCCATGAAAAGGGAGATGGGTAGAGTCCGGCGACCCAGTGACAGAGTTTAGTCCTCTTTTCTCAGAATGAGCTCACCTCAGAAGAAACCCCAAGCCA
TCACTGTCGCTCCTTTTCCTTCCTTCTTCCTCACARCAGGTCTATAACAGTCACCCTTGGAGCCCATAACATAACAGAGGAAGAAGACACATGGCAGAAG
CTTGAGGTTATAAAGCAATTCCGTCATCCAAAATATAACACTTCTACTCTTCACCACGATATCATGTTACTAAAGGTGACAACACCTCTCTTCTCCCTTT
CCACTTCCCATTCTCCTAAGCTTCTCCTTCAGGTCCTCATTGCCCTGAATTTTTCTTAGGACTTGGCTATAACATGAAGCTACTCACCCTGTCCCTCCCT
GATCACCTCCAACTGTCCAGAGCCCATTTCGAGGACTGACRGTCCTTCATTCCCTTCACAGTTGAAGGAGAAAGCCAGCCTGACCCTGGCTGTGGGGACA
CTCCCCTTCCCATCMCAATTCAACTTTGTCCCACCTGGGAGAATGTGCCGGGTGGCTGGCTGGGGAAGAACAGGTGTGTTGAAGCCGGGCTCAGACACTC
TGCAAGAGGYGAAGCTGAGACTCATGGATCCCCAGGCCTGCAGCCACTTCAGAGACTTTGACCACAATCTTCAGCTGTGTGTGGGCAATCCCAGGAAGAC
AAAATCTGCATTTAAGGTGATCCTCCAACTAGGTTTCCTCTCCAAAACTCACTGTTCAGGGACCAGAATGCTCTTAGAAGGAGATGGGKTCAGAAGGTTG
TCAGTCAGTGACAGGGTGAGCATCACAGGAATTGCTGTCCTCCCGTGGTCCAAGACAGCCTCTGACCATCCATTCCAGTCTACTGCACTGGGGGCATGGG
GTGATRTGGAGAATGTGRATGACGGTCCCAAGAAAGGAAGAAGGGGCATCAGAACTAGATGTATAAGTGAGGAGCTCCACCTCCTGSGTCTGACTTTAGG
TCTCACTGTGACTCCAAGCTGGCTGGCAGACAGGAGTGGAGGACTTCCCGGGCTCACCTTCTTCTCTCTCTCCTCCCCCTACAGGGAGACTCTGGGGGCC
CTCTTCTGTGTGCTGGGGTGGCCCAGGGCATCGTATCCTATGGACGGTCGGATGCAAAGCCCCCTGCTGTCTTCACCCGAATCTCCCATTACCGGCCCTG
GATCAACCAGATCCTGCAGGCAAATTAATCCTGGATCCTGAGCCAGCCTGAAAGGGAAGCTGGAACTGGACCTGAGCAGCAAAGTGTGTGCCACTCATTC
TGGTCTACCCTTGGTCCCTCAGCCACAAYCCTAAGCCTCCAGAAGTATCCTACAGGTCACAGAACTCTCAATAAACCTCAGTGAAGACACAGCTTCTAGT
CGTGAGTGTGTGTCCCCTCTCTGCTGCTCTCTTCTCCCTGCACATAGTGACCTGATTCCCAGCCCAAGCACCCAAGGATTTGGAAGGGGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTATGGGGGGGGAGGGAGAGAGAGAGAGAGAGAGAGAAATAGAGAGGAATTAATGAAGAAAAAAAAATGAGGAA
AAAGAAGAGATTTTCCCTGGAAAGGCAGGATCCATATTTCCAGCTTAAGAAAAGACACCAAATCCTTCTTTGCCTTAATCATCAACCCTATACCAATTCT
GATTTATCTTTAGTAATATTCAGAAGCACTAAGAACATTTTGAATTATAAGCAAGATATAAGATGTTTACAGCATCCCTGGCCTCTTCCTACTAGATGCC
AGAAGCAACACCCCCTTCTCCACCGCAAAGTTGTGACAACCAAAATGTCTCCAGGCATTGCTAAATGTCCCCAGGCGAGGGAGGGAGGAGGAAAGAAAGA
TCACTGTCTTTCGTTGAAGACCACTGGCTCTCTTTCGTTGAAGACCATGGTTTAGATACATGATATAAAGAAGGCAGCTGATGCCACACAGGGCCCTCCT
CATAGCCCACATCGATAAGAAAAGATCTTCCCTCTGTGAAGCTTTCATCTGATATGCAGAGAAGACTGCCTCCCACTCACTCATTGTTACCAAACAGATA
CTGAGAGCAGATTAGAGGAGAGACAGCACTACAAGGTCTGCATGAGCAACACCCATCCACAAATGGCTTCACCCAAACCAGCAGGAAGACCAAAACCTAG
AGCTTGCTCAACACAAACCCTTGTCATGGGAGACTGACTGGAGGAGAGAAAACAGGGCAGGAAAGGGACAGGACAGCCAGAGCCTGAGGCTGGCAACACC
CATCATTTCTGAGGGTGTGCTGAACACCTTTGGCCAAGTGAACTATTGCTGGGAGTTTATCTTTAAGAAAGAATCAAAGACACACAAAAAGATTCATGCA
TAAAAATTTTAATCTCAGCATTTTTATTTATGTTTTTTACTTTTTATAATTTATTCCTATATATTTCATCTTCCAAATAATTTCTGCTTTGCATTTAATA
TATCAAAGGTATTAAAAAAGTGATTTATTATACACACACACATATATACATATGAAATTTCTATCATAGTCTTAGATATCAGAAAAATTTTTTAATGCAC
TGTATGACTTGATTTTTTTTTTCAGAAACATGAAACCATACCAAAGTGAGAATTTTTGACTTCATTTCAGCTCTGGTTTCTAGTTTCAAGTCTTCTACCA
GCTATATGACTTAAAGATACTACTTGATATGTTCAGTTACTTCATCTGAAAAATTGACATGCATTTTAACCTGAAATACAGGAGCTCAATATTTTTCTAC
AAAAAGGACAATTGCTGTCTATAAATTCAACATTCTTTTCTTGGTTATCTTTTTTTTTTATCATACTTTAAGTATTAGGGTACATGTGCACAACGTGCAG
GTTTGTTACATACGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCTTCATTTAACATTAGGTATATCTCCTAATGGTATCCCTCCCCCCMCC
CAACCCCACAACAGGCCCTGGTGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGG
TTTTTTGTCCTTATGATAGTTTGAATCTCAGCATTTTCAATAACAAAAATCTGGAATCCCAGACATGGAGAAAAGCTTCTATGATAAACTTGTATGAYTG
AATATTCTGAATTCATGAAAATTTGTGTTAAAAACATTTAGTATGGAAAAATTCAAGAAAATTCAATATATTCAATATAATGTAATGCTTTTACAAAGCA
ATATGAAAATCTTCCTATAGTAGAATCTCACTTTTGTAGCTATATATTTTATATATGCACAGGAAAAAATTGGAAGTAATTACATCAAAATAATTATGGG
GGTTATCTCTACAGGATGGGATTAATAGCTATTCTGATTTTGTCTTTATGCTGGCTCCAAGCCCCATCCATGTATTCTAACTATTGAGGACGCAGCACCA
CTCATGGCTCCACCAGTGGATAAGCACATATAACCATCTTCAGAATTCCATTGCTCAGGGTTTTCTGCATGGGAACAAAGCATCCTTCCATTTCCAGGTC
GCRTCACTCAGCCCATTCAGGAAGCTACCAGAGAAGCTAAGCCCTACAGGTTCCCTCAGGTTAGTGAGCAGTCTTTCCTGGCAATTGGTGTCAATGGCCA
ATTGCAATCTCCTGAAAATCTCCACTGCCACAGCTGATCCCAGAGTCCTAATTGATATTTTGCATCTCACTTCCACCACCCACTCTAGGTGCCCCCCAAC
AACCATCTAGCAGTTCAGTAAGTCTGTGCTGTAGTCTGATGGAGTGACCCAGACCTCTACCCCGAGGGGACTGAGTTGTTAGTTGCTTTGCATTTGTTAG
GTTTGGGTTGTTGTAACTGCCCATTTACAATCATCAGTGAGCACAAAAGTATGGGGGATACTTCCAGCAAATCCCGTGGGTTGCAGTCATACTCTTATCT
TCTCCCATTGCATTGCAGCAACCCTAGCTTCTCATGGTAATCAAGGCCAATTATTCTAGCCATAAGGCAACTCTTTCCTTTGCCTGCTGGTCCACTGTTA
TGAGGAGCCCCAAACAGCTGAGTGATAGTCACAACTTCCAGTTCACTGGAGCCTTTCCCACCTCCACTGGAGAAAGCATTTACTTCCTGGAAACTTAGAC
CTCTAAACTGGCAGAATTTAAGTTTGCAGGAACAGTAAGATACAAATTCCACAAGTAAGTCCCTGGGAGTGATAACTAAAGGGATCAATTCTACTTCTAT
CCCTTGGTTCCTGGACTCATATATTCTAGTTATGTGGGGACACTGAACCATAGATTGGTATTGATTCAGCATATGTATCACATCCTGGAAAGCAGTGCTC
CAACTTCCAACCCTACAGGGTGTCATCTCTGAGCTGGCACCTTAGCTGAGCTTTCAACAGGCCAGCTCATCATTCCACTAGGTTGACTGCTTCTGGGTGG
CATGGTATATAATAAGACCAATGAGCCCATCATTTTACATTCTTTGCCATAAAATGAGTCCTTTACTCTGAGCTAATGTGTGTGAGAAGCAGGTTGATGG
ATTGGGAAATCTGTAAGCCCTCATATGGTGGTAGTGGCAGAGGAATTTCAGGCAGAGAAGGAAAACTCATGTCTAGAGCAAGTATCAATGGTGATAAGGA
TGAATGTCCATCCCCTCCAAAGCAGAGGGGTCAACCTCTCACTGGATGGCTGCCTGATCTCTCCAAGAGCAGTGCCATCTCAAAGACTCAGCGATAGTCT
CTGCTGTTGGCAAGTTAGGTGATTAACAGTGGCAAGACCCGAATTGATTTTGGTGAAAGAGAGTGTCCATGTTCTTGGACCCATTCATGGCATCTATTCA
ACCTCCATGACCACTCTACTCTGACCATGGCCCATTRTTCCAGCAGCGAGGTGATCAAGAAGAGAATATGGTTGACATCCACAAGCCATATCACCCCTTT
ACCTGGTTGGGAGTCTCTGTGAGTCCATGTGGTCCAGTGCTCAGGTACAGCAACTTCTTCTTAGCCAGCAGCACTGTGCAAGTGGAGCTCTTGGTCTGTG
GTGGCAGCAGCAGTGGCAGCAGTGAGCAGGGATTTGTGACCATGAGAACAGAGTGAGTTGTCACCAGAGCCACTCCAACCTAAAAGCAAAGCAAGCAGTC
AATGCAAGTGGAATCCAGGGAAGCTGGAGTGGTGTATAAACTGGACCAGGTGCACTGGTCCTTACCCAGAGATGTAGTTGGGACTYTCCATAAACAAGCT
CACCTTTGTTCTGCTGATAATTAGATCATTCTGAGCAAAGGTATATTGTCAACAGTGGACCTAATTATGTATGTAAATGTCATCTATTAGAGTGAGTAAA
GGAGGGGGTTGAGGAGGTAACACCAATGTGGATGAGAAAATAAAAACTACCCACCTGAAGGCCAGAAACAAGTGAATCTGAACAGTGCAAGGAATGGATT
TTAGTAGACATTGTTGATGCCCTTCCCAGGACCTCTTAAGCAGGTGATGCACCCATTCCCCAGCTGTTGTGAGTGATAGCCACTAACCAATATCCATGGC
CATGAGCTAACATGTATCCTTTCCCTGCGCCACTTCTCTCCACACAAAATAGATGCCCAAATTGATTTTTGACAAGGCTGCCAAGGACACACAATAGGGC
AAGGACAGTCTATTCAATAGATGATGTTGGGAAAACTGGATGTTCACATGCAAAAGAATGAAATTAGACCCTTGTCTCACACCATATACAAAAATCAACT
CAAAATGGACTAAAGACTTAAATATAAAACCTGAAATTCTAAAACTACTAGAAGAAAACATAGGTGAAAACTCCATGACATTGCTCTGGGCAATGAATTG
TTGGATATTATCCCAAAAACACAGGCAACAAAGCAAAAATAGACAAATAGGATTGCATCTAACTAAAAGTCTTCTGCACAACCAAGGAAACAATCAACAG
AGTGAAGAAACAATCAATAGAATGGGAGAAAATATTTGCAAATCACACATCTAATAAGGRKTTAATATTCAAAACAAATAAAGAAGTCAATTCAATAGCA
AGAAAGCAAATAACCCAATTTTAAAATGGGCAAAGAACCTAATAGACCTCTCTCAAAAAATACAAATAGCCAATAGGTATATGAAAAAATGCTCAACATC
ACTGATCACCATGGAAATGCAAATTAAACAACAATGAGATATCACCTATTAGAATGGCAATTATCAAAAAATAAAAGATAACTGATAGTGAAGATGTAGA
GAAGAGAACACTTGTACACTGTTGATGGCAATGTAAATTAGTATAGTTGGTGGCAATGTAAATTATGAAAAAAGTATGGAGCTTTACCCAAAAATTAAAA
ATACAATTGCCATATGATCAAGCAATCCCACTACTGGATATATATTTAAAGGAACTGAAATCAGTATGTCAAAGAGATATCTGCACTCCCATGTTTATTC
GTAATAACTAAGATATGGAATCAACCTAGGTGTCCATCACTGGATGAATGGATAAAGAACACATACATACACACACACACACACACACACACAAACACAC
ACAGAGTGGAATACTATTATCCATCCTTAAAAAGAAGAAATGTTGTCATTTGCAACAACATGGATGAGCCAGGAGGACATTATGCTAAGTGAAATAAACC
AGGCACACAAAGAGAAATACTGCATGATCTCGGTCATATACTCTTAAAAGCCAAACTCATAGAAATAAGTAGAATGGTGGTTACCAGAGCCTGGGGTAAG
GGAGAGGTACAGGAGGAGATGACCTTCCTGGTTCTGAAGTCCTTCTACTGCTTTCACAATCATCCTACTCCAAAGGCGCAAACATCAAGGGGCCTCCAAC
RGCTCCCTCCCTGCTTGCCTCAGAGCTTGGGAATCCCAACTCCAAATCTAGTTATAAGTACAATATAGTGCGAATTGAAGAAAAAAGAATATTCAAAAAT
GTACACATACTTTGATTGCAACAGTATGGAAAACTATATATTTTAGGGAAAAGCGGAAAGAATCCTTCAAAAATAGAGGTAATTTTCTCATAATTGTAAC
TTAAAGAATGGCTTTTTTATTTATTTATTCTAATTTTTTATTCTCCTTAAAATTGTTTTTGTTTTCACAAATCACAAAAAAAATGAAGAAACACAAAAAT
GCAGGAGGGCTTTCTCAAACATTTTCTTAGATGCTCAGCAAATGGTCTTATTTTCTGTTTTTCCCATACAGAGCACATTCCCCAGGAAGCAGGGAAACCA
CAGGACATGGTACCCGGTCGCCTGGGGCAGAAGATAGGGAGTGAGGAGGACATCCTCAGGATCATCCAGAGCCTGAGCTGGGAGGAACTACCT


SNP Information

Context             (SEQ ID NO:52308):
CCATCACAATTCAACTTTGTCCCACCTGGGAGAATGTGCCGGGTGGCTGGCTGGGGAAGAACAGGTGTGTTGAAGCCGGGCTCAGACACTCTGCAAGAGG
Y
GAAGCTGAGACTCATGGATCCCCAGGCCTGCAGCCACTTCAGAGACTTTGACCACAATCTTCAGCTGTGTGTGGGCAATCCCAGGAAGACAAAATCTGCA
Celera SNP ID:            hCV29358353
SNP Position Genomic:     8110
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52309):
ACCCAGTGACAGAGTTTAGTCCTCTTTTCTCAGAATGAGCTCACCTCAGAAGAAACCCCAAGCCATCACTGTCGCTCCTTTTCCTTCCTTCTTCCTCACA
R
CAGGTCTATAACAGTCACCCTTGGAGCCCATAACATAACAGAGGAAGAAGACACATGGCAGAAGCTTGAGGTTATAAAGCAATTCCGTCATCCAAAATAT
Celera SNP ID:            hCV2796264
SNP Position Genomic:     7636
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,2)   caucasian(A,36)   total(A,54|G,2)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;40 Africans; 32 white Americans; 2 CEPH individuals(G,14|A,133)      total(G,14|A,133);HYP3(G,15|A,133)   total(G,15|A,133)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52310):
TGCCCTGAATTTTTCTTAGGACTTGGCTATAACATGAAGCTACTCACCCTGTCCCTCCCTGATCACCTCCAACTGTCCAGAGCCCATTTCGAGGACTGAC
R
GTCCTTCATTCCCTTCACAGTTGAAGGAGAAAGCCAGCCTGACCCTGGCTGTGGGGACACTCCCCTTCCCATCACAATTCAACTTTGTCCCACCTGGGAG
Celera SNP ID:            hCV2796265
SNP Position Genomic:     7941
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,7)   caucasian(A,6|G,32)   total(A,19|G,39)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52311):
CAGGTTTGTTACATACGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCTTCATTTAACATTAGGTATATCTCCTAATGGTATCCCTCCCCCC
M
CCCAACCCCACAACAGGCCCTGGTGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTT
Celera SNP ID:            hCV29358354
SNP Position Genomic:     10498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:52312):
TAAGTGGCAGAACCAAGATTCAAACTCACCCCATCTAACTGCAGAGCAAACTGCATGCCTTAAATGTCAAAGTGAATACTAGCACAGTTAATACAATGTT
Y
GGAAACTCAGAGAAGGAATGATCCCTCTGCATTATAGTTACTAAGGAATCATTGCCATTATTTAAATGCCAGTGCTTCTACATCAGGCCCAAATTTTCTG
Celera SNP ID:            hCV2796257
SNP Position Genomic:     2958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:52313):
GGAGAGGTACAGGAGGAGATGACCTTCCTGGTTCTGAAGTCCTTCTACTGCTTTCACAATCATCCTACTCCAAAGGCGCAAACATCAAGGGGCCTCCAAC
R
GCTCCCTCCCTGCTTGCCTCAGAGCTTGGGAATCCCAACTCCAAATCTAGTTATAAGTACAATATAGTGCGAATTGAAGAAAAAAGAATATTCAAAAATG
Celera SNP ID:            hCV15982387
SNP Position Genomic:     14401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52314):
TCCTGGATCCTGAGCCAGCCTGAAAGGGAAGCTGGAACTGGACCTGAGCAGCAAAGTGTGTGCCACTCATTCTGGTCTACCCTTGGTCCCTCAGCCACAA
Y
CCTAAGCCTCCAGAAGTATCCTACAGGTCACAGAACTCTCAATAAACCTCAGTGAAGACACAGCTTCTAGTCGTGAGTGTGTGTCCCCTCTCTGCTGCTC
Celera SNP ID:            hCV11714593
SNP Position Genomic:     8829
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;40 Africans; 32 white Americans; 2 CEPH individuals(T,29|C,118)      total(C,118|T,29);HYP3(T,30|C,118)   total(C,118|T,30)
SNP Type:                 UTR 3


Context             (SEQ ID NO:52315):
CATCAGGCCCAAATTTTCTGTCCTACTAACTGTGAATCAAGACTTGATTCAACCTCTACTTGAGTATCTGCCGCAATGAGAAATCACTTACCTCCACTAA
Y
CACACATTTATTTTATAACAACAGATTGTTAGTAAGTCCTTTCTTATACATACTCAACAGCTGCTTCCCAAGATGCTGTAGGATTATGTCTAGAGTCAAA
Celera SNP ID:            hCV2796258
SNP Position Genomic:     3139
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:52316):
GAGCATCACAGGAATTGCTGTCCTCCCGTGGTCCAAGACAGCCTCTGACCATCCATTCCAGTCTACTGCACTGGGGGCATGGGGTGATGTGGAGAATGTG
R
ATGACGGTCCCAAGAAAGGAAGAAGGGGCATCAGAACTAGATGTATAAGTGAGGAGCTCCACCTCCTGGGTCTGACTTTAGGTCTCACTGTGACTCCAAG
Celera SNP ID:            hCV11431462
SNP Position Genomic:     8418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52317):
AACTAAAAGTCTTCTGCACAACCAAGGAAACAATCAACAGAGTGAAGAAACAATCAATAGAATGGGAGAAAATATTTGCAAATCACACATCTAATAAGGG
K
TTAATATTCAAAACAAATAAAGAAGTCAATTCAATAGCAAGAAAGCAAATAACCCAATTTTAAAATGGGCAAAGAACCTAATAGACCTCTCTCAAAAAAT
Celera SNP ID:            hCV27939106
SNP Position Genomic:     13561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52318):
AACGTGCAGGTTTGTTACATACGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCTTCATTTAACATTAGGTATATCTCCTAATGGTATCCCT
C
CCCCCCCCCAACCCCACAACAGGCCCTGGTGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCG
Celera SNP ID:            hCV27127122
SNP Position Genomic:     10492
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,5)   total(C,1|-,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:52319):
TTGGGAGTTCAGGGCTCAAGTTCCTTTCTAGAAAAACACTGGGTGATTCTAGGGGAACTTCTGATCAGAAACAGCCAATTCAGAGTGAGAGAAGAAAACG
Y
GACCATGCAGTTCCTGTGGTTACCAGCCTTGCCCCTCTCTTGCCTTCTGGGAGTTATAAAACCCAAGACTGGAAAGGAAAACCAGCATTTGCTCAGGCAG
Celera SNP ID:            hCV27843030
SNP Position Genomic:     5895
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,36)   total(C,1|T,65)
SNP Type:                 hmCS


Context             (SEQ ID NO:52320):
ACCCGAATTGATTTTGGTGAAAGAGAGTGTCCATGTTCTTGGACCCATTCATGGCATCTATTCAACCTCCATGACCACTCTACTCTGACCATGGCCCATT
R
TTCCAGCAGCGAGGTGATCAAGAAGAGAATATGGTTGACATCCACAAGCCATATCACCCCTTTACCTGGTTGGGAGTCTCTGTGAGTCCATGTGGTCCAG
Celera SNP ID:            hCV27127123
SNP Position Genomic:     12437
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:52321):
GTCCAGAGCCCATTTCGAGGACTGACAGTCCTTCATTCCCTTCACAGTTGAAGGAGAAAGCCAGCCTGACCCTGGCTGTGGGGACACTCCCCTTCCCATC
M
CAATTCAACTTTGTCCCACCTGGGAGAATGTGCCGGGTGGCTGGCTGGGGAAGAACAGGTGTGTTGAAGCCGGGCTCAGACACTCTGCAAGAGGTGAAGC
Celera SNP ID:            hCV11431466
SNP Position Genomic:     8015
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(C,4|A,76)      total(A,76|C,4) ;HYP1(C,4|A,76)   total(A,76|C,4)(A,-|C,-)   (C,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52322):
GAACTTCTGATCAGAAACAGCCAATTCAGAGTGAGAGAAGAAAACGTGACCATGCAGTTCCTGTGGTTACCAGCCTTGCCCCTCTCTTGCCTTCTGGGAG
W
TATAAAACCCAAGACTGGAAAGGAAAACCAGCATTTGCTCAGGCAGCCTCTCTGGGAAGATGCTGCTTCTTCCTCTCCCCCTGCTGCTCTTTCTCTTGTG
Celera SNP ID:            hCV11431474
SNP Position Genomic:     5949
SNP Source:               dbSNP
Population(Allele,Count): HYP1(A,8|T,72)   total(A,8|T,72) 
SNP Type:                 hmCS


Context             (SEQ ID NO:52323):
CGCCCCTACATGGCCTACCTGGAAATTGTAACTTCCAACGGTCCCTCAAAATTTTGTGGTGGTTTCCTTATAAGACGGAACTTTGTGCTGACGGCTGCTC
R
TTGTGCAGGAAGGTGAGACAACAGGGTCTATTTATCTCCAAATGGGAGATGAACAACCAGAGTAGCATCCAGGAATACACCTGCACTGGGGACTGAAGAG
Celera SNP ID:            hCV11431467
SNP Position Genomic:     6876
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(G,6|A,61)      total(G,6|A,61) ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52324):
GCAAAGCAAGCAGTCAATGCAAGTGGAATCCAGGGAAGCTGGAGTGGTGTATAAACTGGACCAGGTGCACTGGTCCTTACCCAGAGATGTAGTTGGGACT
Y
TCCATAAACAAGCTCACCTTTGTTCTGCTGATAATTAGATCATTCTGAGCAAAGGTATATTGTCAACAGTGGACCTAATTATGTATGTAAATGTCATCTA
Celera SNP ID:            hCV8923451
SNP Position Genomic:     12786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52325):
CAGTGACAGGGTGAGCATCACAGGAATTGCTGTCCTCCCGTGGTCCAAGACAGCCTCTGACCATCCATTCCAGTCTACTGCACTGGGGGCATGGGGTGAT
R
TGGAGAATGTGGATGACGGTCCCAAGAAAGGAAGAAGGGGCATCAGAACTAGATGTATAAGTGAGGAGCTCCACCTCCTGGGTCTGACTTTAGGTCTCAC
Celera SNP ID:            hCV8923452
SNP Position Genomic:     8406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52326):
TCCCAGGAAGACAAAATCTGCATTTAAGGTGATCCTCCAACTAGGTTTCCTCTCCAAAACTCACTGTTCAGGGACCAGAATGCTCTTAGAAGGAGATGGG
K
TCAGAAGGTTGTCAGTCAGTGACAGGGTGAGCATCACAGGAATTGCTGTCCTCCCGTGGTCCAAGACAGCCTCTGACCATCCATTCCAGTCTACTGCACT
Celera SNP ID:            hCV15950750
SNP Position Genomic:     8289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52327):
AACCCTGGGGTGCTCTGTTCCAGGGGAGATCATCGGGGGCACAGAATGCAAGCCACATTCCCGCCCCTACATGGCCTACCTGGAAATTGTAACTTCCAAC
S
GTCCCTCAAAATTTTGTGGTGGTTTCCTTATAAGACGGAACTTTGTGCTGACGGCTGCTCATTGTGCAGGAAGGTGAGACAACAGGGTCTATTTATCTCC
Celera SNP ID:            hCV11431468
SNP Position Genomic:     6815
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(C,3|G,64)      total(G,64|C,3) ;(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:52328):
ACTGGGGGCATGGGGTGATGTGGAGAATGTGGATGACGGTCCCAAGAAAGGAAGAAGGGGCATCAGAACTAGATGTATAAGTGAGGAGCTCCACCTCCTG
S
GTCTGACTTTAGGTCTCACTGTGACTCCAAGCTGGCTGGCAGACAGGAGTGGAGGACTTCCCGGGCTCACCTTCTTCTCTCTCTCCTCCCCCTACAGGGA
Celera SNP ID:            hCV27127119
SNP Position Genomic:     8487
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,9)   total(G,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52329):
TAACTAAAAGTCTTCTGCACAACCAAGGAAACAATCAACAGAGTGAAGAAACAATCAATAGAATGGGAGAAAATATTTGCAAATCACACATCTAATAAGG
R
GTTAATATTCAAAACAAATAAAGAAGTCAATTCAATAGCAAGAAAGCAAATAACCCAATTTTAAAATGGGCAAAGAACCTAATAGACCTCTCTCAAAAAA
Celera SNP ID:            hCV304265
SNP Position Genomic:     13560
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52330):
CATGGCTCCACCAGTGGATAAGCACATATAACCATCTTCAGAATTCCATTGCTCAGGGTTTTCTGCATGGGAACAAAGCATCCTTCCATTTCCAGGTCGC
R
TCACTCAGCCCATTCAGGAAGCTACCAGAGAAGCTAAGCCCTACAGGTTCCCTCAGGTTAGTGAGCAGTCTTTCCTGGCAATTGGTGTCAATGGCCAATT
Celera SNP ID:            hCV27982580
SNP Position Genomic:     11103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:52331):
TGGTTTTTTGTCCTTATGATAGTTTGAATCTCAGCATTTTCAATAACAAAAATCTGGAATCCCAGACATGGAGAAAAGCTTCTATGATAAACTTGTATGA
Y
TGAATATTCTGAATTCATGAAAATTTGTGTTAAAAACATTTAGTATGGAAAAATTCAAGAAAATTCAATATATTCAATATAATGTAATGCTTTTACAAAG
Celera SNP ID:            hCV16095370
SNP Position Genomic:     10698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:52332):
AGAAGGAAATGTGAGCAGATAGTGCAGTCCTCGTTTCTGAAATTGGTCCCCTGACTGGGGCTATACCTATTCCATTTCCTCACCCTCAGCCAGGCAGGTG
R
AGCAAAACTTAAGTCTTGGTGGATCTGAATCTTGATGCTGTGGAGCTGTCTTACTAGCCCCAGACTACCTGCCTCTCAATTTCTAATTATATCAGTGAAA
Celera SNP ID:            hCV2796262
SNP Position Genomic:     4112
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 TFBS


Gene Number:                 251
Celera Gene:                 hCG40183 - 83000099172042
Gene Symbol:                 GZMB
Protein Name:                granzyme B (granzyme 2, cytotoxic T-lymphocyte-associated serine esterase 1);CCPI;CGL-1;CGL1;CSP-B;CSPB;CTLA1;CTSGL1;HLP;SECT
Celera Genomic Axis:         GA_x5YUV32VVQK(28134012..28149323)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12411):
AAGCATCGTTCAGCAACAGCCTCAATCTTTCAGGCTTAGAAATCTGAGACAAGATAACATTAAAAAAGTCTAGTTTTGCAATCATATATTGGAAGTTCTG
GCAAATGATTCAGCATAGAGAATACAAAGAGAATACCACAATCAGTCACCCTGCCACAGTTCCACTGGTAAAATGCTCTGAGAGGCCCCGTAGGTTTCTA
CAATACTTGATTTCCCTTTGGCAGACTTTGAATTGCTGGCCGGAATGATCCAGATCTTCTGCTGTTTTCAGGTATGTTTCTCATATTGTTTTTGAGTTTC
TAATCAGAAACAGAAAAACCAGAAAGCAGAGTGTGTCCACAAGTAGATGTCATACCACGTCTGGGGAACAGAGAGGGGATATAACATAAGAATGCTTAAG
CATGAATTTGTTTCCAAACACAATAACTTATTATTATACTTGCCCTGAACTTTGAGATAGAGAGAAAAAGAGAAAGACCCACCAACTTTGCAATCATATG
CTAAAGGTTCTAGCGAATGATTCTGCAGCATTCTTTTTATCTACACTAAACCAAACCCTTTGCCATATCCCATGCAGACATGGTAAAAAAAAAAAAATGC
ACAGCATGAGACTGTAAACAAGATACTTAAGAGAGAGTCCATCACTCCAGAACATTAGTATGTGAACTTCAGACTCTGTGGAAACAAGATGCTTTGGGAA
AGGGCAGTGGCCTTGGTGGGCAAAGATCCTGGGAATGTAAAAACCCCCAGGTTATGGGGATGTGGGGTGGATCTTGAGAATGACCCAAGGTCACATTGAA
GGTGACATCACAGCCCAGAACATTGATGCCTTTCAACTTGCTCCAACCCGGAAGTGCAGTCCATGCCAATTTACTTTTCTGAGTCTGTATTGTCACACTT
GCTCCCGGTTTGGTGGAGGTGGGCGCACTGTTCTCACTCAAACCTACTTCTACTCCCCCTTCTTCTGTAGGCCTCTTTTCATCCACACCAGACATTTACC
CACTCCAGAGTCTTACTGGATTGTCCCCAACCCAACATCCAGACTTGTTCTTCTCCATCCTTTTTTCATTTGTGATGGTGGCTGGGCAATGATAAGAATA
GGCAATAAGGGAAAATTAAAGGTTGTTCTAGTAGATACTCAAACTCCAGAAAAATAATAGATGTATGTCTGTCCTAGAAACACTTTTCTCTTCCCATCTC
TGCCCTCTTCCCAATCCTTACTACCACAGAAGCAAAATGGAAGTACCACATTCTCCACTCTAATATGTTACCTAAGTTCTTCTTTGCTGACAGATTTTTT
ATCTCAAATTATTTTTGATTTTATGTACATATCCCAGGAATTCTGACTAGCATCCTATCCTAATAGGAATACAGAGATAACTTTTAACTGAGACAAGAAT
TTCTTCTCTACAGGTCAAGTGTGGTGGCTCATACCTGTAATCCCAGTACTTTAAGAGGCCAAAGTGTGTAGATCACTTGAGGCCAGGAGTTCAAGACCAG
TCTGGGCAACATGGTGAAATCCTGCCTCCACTAAAAGTACAAAAATTCGTTGGGCATGGTGGTACACACCTGTAATCCCAGCTACTCCGGAGGCTGAGGC
ACGAGAATCACTTGAGCCCAGGGAGCGGAGGTTGCAGTGAGCCAAGATCGGACCAATGCACTCCAGCCTGGGTGACAGAGCAAGATGCCGTCTCAAAAAA
CAAAACAAAACAAAAAAACAGATTTTCTTCTCTACAACATAGCTGAGTCTCATGGTCAAATGAAATCTAGGGCCAACTTCTGGCTCCTTATGCCTGTAAG
TTCTGACTTTGCCATGACTTAAGAGAATGATCAAGCTCAGGGAAATCAGGTCACAACATCAGAATCAAATGTCATGTATGAGTGTGGGAATGTCATGTCA
TTGTGCTGTTCTCATTTACCTGTAAGGATTGGCCTTGGCCACTTCGAAAAGGGACTAGCTGTGGTTCAGTGAAAGGCTAATACCCAAGAGTATTTCCCTT
CATGGGCAAGGCATGACATTCTTCTACAGATTAAGAACAGCAGGGAAATAAGGAATAAAAGGGAAGAGCGTGTGTAATATGAATAAACTTTTCCATCACC
ATATGGTAGCCACTGAGGTACCTCTCTCTTCTAACAGAATCAGAATCTAACATCAGAGATATAGACAAAAGACTTTTATTCTTCAGCACCTCCTTAATTT
TTCTCCCCAAGTCCCTGAAAAATATAGGAGATGGTGAAGTTTGTAGAAGACTTATATTACTAAAATTAGAAATAAAAGTGGAGACATTACTACCAACCTT
AGAGAAATTAAAAGGACTATAAAAAGAATACTATCTACATTTGTACACCAACAAATTAGGTAGTCTAGATGAAATGGACAAATTACTAGAAACACAGAAA
CTACCAAAACAGACTCAAGAAGAAATAGAAAATCCAACCAGATGCTCACTTCATCACTGCTATTCAATATTGCACTGGAATTCCTAAACAGAGCAATTAG
GTAAGAAAATGAAAGAAAAGGTATCCAATTATGAAGGAAGAAGTAAAACTATTTCTATTTGCAGATGACATGACTGTATACAAAGAAAATCCCAAATAAT
CCACACAAAAACTAGTAGAGTTAATAAGCAAATTCAACAAATTTCAGGGTACAAAATCAGTTGTGTTTCTATACACAAACCCACAATGAACAATAAAAAA
AGGAAACTAAGAAAACAATTTCCTTTATAATAACATCCCAAAGAATAAAATACATGGGACTAAATTTAACCAAGGAAGTGAAAGAATTGTACACTAAAAA
CCACAAATAATTGCTGATTAAATGGAAAGATGTCCCATGTTCACGGATAGGGATACTTAATATTGTTAAATGGCAATACTTCCCAAAGCAATCTATAGAT
TCAATGCAATCTCTGTCAAAATTTCAAATGGTCTTCTTTGCTGAAATGGAAAAGCCAATCCTAAAATTCATATGTAATTCCATAGGATCCAAAAAAGCAA
AACCAATATTGAAATAGAAAAACAAAGTTGGAGTACTTACACTTCTCAATTTCAAAACTTACAAGCTACAGTAATTAAAACAGCATGGCAAAGGCATAAG
GATAGACATATGGATCAATGGAATAGATTCAGAGTCCAGAAATAAACWCAACATTTATGGCCATTTGATTTTTGATAAGGATTGTCAAGGGGGTCTTGAA
CATTCAGTGGGGAAAGAATAATATCTTCAACAAGTGGTGCTGGAACAATTGGATAGCCATGTGCAAAATACTCTAGTAGACTCCTACCTTATGTCACATA
CAATAATTAATTTAAAATAAATCAATCCTAAATATAAGGGCCAAAACCATAAAACTCTTAGAAGAAAACAGGCGTAATCTTCATGGTTTCTGATTTGTCA
ATGGATTCTTAAATTTGACACCAAAAGCACAAGCAACAAAAGATAAAATTGATACATTTGAATGCATAAAATTTTTTTAATTTGCACATGAAATGACAAT
ATCAAGAAAATGAAAAGACAATCTGCAGAATGGGAGAAAATATTTACAAGCCACATATCTGATAAGGGCTGAGTATCCAGAATATATAACAAACTCTTCC
AGCTCAACAATGAAAACAAAAACAACGCAATTTTAAGAATGGGCAAAGGACTTGAATCAACATTTCTCCAAAGAAGATATGCGAATAACCAGCAAACACA
TGAAGTGATGCTCAACATCATTACTCATAAAGGAAATGTGAATCAAAACCATATGACATACTACTTTACACCCATTAGGATGAAGATAATAATTTTAAAA
TAACAAGTGTCAGCAAGGATGCAGAGAAATAGGAACTTTCCTATGTTGCTGATAAGCAATGCAAAAGGGTACAACCACTGTGGAAAACAGTTTGGTGGTT
CCTTAAAAAATTAAAAATAGGATTATTGTATAACTCAGAAATTCCAAAAGTATATATATTTGGTATATATCCAAAAGAACTGAAAACATATTGTTCATGC
AGAAATTTGTACACAAATGCTTATTATTGCTGCATTAGCTACAATAGCCAAAAGATGAAAACAACCCAAATGTCCATTGACAGATGAACAAATAACTTGT
GGTATAAACATACAATGGGAATATTATTTTTCCATTAAAAAGAACGAATACTGGCATGTGCTACAGCTTGTATGAATCTCAGAAACATTATTACAAGTGA
ATGTAGCCAGCCACAACAGGTCATGTATTGTGTGATTCCGTTTATATGAAATATCCAGAGGTGGTGGTTGCAGATTTTGAATGTGCTAAATGTCACTGAA
TTGAATACTTTAAAATGGTTAATTGTATGTTATGTGAATTTTACCTCAATTTTTTAAATGGGTCATAAACTTATGTTTAGCATAATCCCCTTTTAATTTT
AAAAAATGCAGATATTACATGAGAAAAAATGTGCTAGAGCATATTTCAAGACATTAAAGATGGTTATCAGTGAATGATGAGAAATTAGGTAATGTTTATT
ATTTTCGCTTTGCTAAAATTATTTAAAAATTACTTGCATATTAAATTTTTTAATGCCTAGGAAAGAAAGACTATAGTTGTATTGACTAAGATTTCTACGA
GCATGGGGAAAATGCTTAATTTGTAGGGTTAATCAAGGATAAAATAAATTGCATTGTATGTACAATGTGATCCCAAGTATTTAAAACACACTGCTTATGG
TAACAGTCAGTCTGTGGGAGACAGGTTAAAAAGTGATATTTTCCCTTCCTACTTTCCAAATTTTCTTAACAAACATATATTATGACTATAATCAGAAAAA
ATTATTTTTAAAACGTCTACTATGGGGCAAGCTAGGTTCAAAAAATAGAAGTTTGATAAATGTAGTTGGCTTGCTATTGACAAGGAAGACGTTTACACTG
GAATTCTATATTTTGAGATATACCATTCCTCATAGAAAAATTTCCTCACAGAAAATATAAAGGTGGAAACAAATCACAAGAATCGAACCATGTAGAGAGA
CTTAGTTGTCTTTTAACAGAATTGGGCACGGGCTGTTCAGAAACAACAATCTTTCACATCCATTATAATGATAGCATTAGTGTAGTTTGTTTAGCAAATG
TTTACTGCGAGCCTGTTATGTGCTGAGCCTGCTATGTAAGAAGTGTGGCTCTCTGGACAGGAGACAGAATACTAAACAACACAACTACTGATCTTTGGCT
GCCTGGCATGCTTCCTCACTTCATATGGTATCAGCAATTTAGCACCACAAACGTCCTTTAGAGAACCAGCCCTTTCTCATTCTTGGTTCTAGTGGCTTGA
GTAGACTGACCCCAGCCTACCCAAAGTGGATTTGACTCCTAGCAATTCATTAATCTAGCCCAATAAAATGTCAAGTACAGGACTTTTATTGAAAGCATTC
AGAAAAGAGGTGGACTCTCACACTAAACATTTGTAACTAAATAAGGGATGTTAGAAATTCTCTAGAAAGGAAGCTATGATAATAAATGGGTTGCTAGATG
GGTCTAGTAGATGGTGGCCATGCTTTGTTACTGCCTTGTGTATTGTGCTACCATAGCCCTCCCCAAACTGTACTCTGGCTCCTGGCATTTCCGTCTCTTC
AACCAGATGGTCAGCTCTCTAAGTGAAGGAGACACATCTCCAACATGCTTGGTTCTAGCACAACAGAAGGGCTCAAACACATACCTGCTAAAGAAACTAT
CCTGATGGATTTAGCAGCATGGCCATGAGGCATTGGCGGTTCTATCACTGGGAACTCAGGTTTCTGGTGCTCCAGTACCTCTACTGGCTGATACCACATC
CTACAATTCACTTCATAGGCTTGGGTTCCTGCTCTGGGCTGAATAGGTGGTCCACTCTGAGTCATCAGCTGTGGGTGATGATGTGGTCACTGCATGATTC
TCACACAAGCACCCAGAGGACGTCATCAGGCAGAGGCAGTGGGGGTGGGCAGCATTTACAGAAAATCTGTGATGAGACACCACAAAACCAGAGGGGAACA
TGAAGTCACTGAGCCTGCTCCACCTCTTTCCTCTCCCAAGAGCTAAAAGAGAGYAAGGRGGAAACAACAGCAGCTCCAACCAGGGCAGCCTTCCTGAGAA
GATGCAACCAATCCTGCTTCTGCTGGCCTTCCTCCTGCTGCCCAGGGCAGATGCAGGTGAGTGACCGTCTCCACCCTCGGGGGCCCAACCCCATCCCACA
GGTCTCCTGCCCTTTCTCCACATTCCTGATCCATCTATCTACCAGGAATGTTCTGAACTCCAGCTCCCATTCTACCAAGACCCCCCAAGTGTGATGCTGG
ATAAGCTATCAGCAGGAATGGCAGAGCAGCAGGCCATTCTCAAGAAGAGCCAGTGGGTACTATCCCTTCCCCAGAGCCCACCTTTGTCACCTGGAGAGTA
GGACTTTCCTAGAAGTAAATGGCAGAGGATGGGAAACTAGAAAAGAGAAATATTAAATTATTCTAGAGTAGGCCTGGCTTCTGTTTCTGGGATAAGACAG
GTGCTTCTCTCACTGTCTACTTAGGAGAGAAACCCAGAGCTCAGCTGACAGCAGAATTGGTACAATCACTGTCCTCAGAACACTGTTAATGTGTTTGCTC
AGTCCCATTCTCCAACTCTGCTTTTCTTCCCTGGCCTTTGGTGGCTCCCCTCTTTCCAAGGATGAGGCACTACGGCAGGCCCCAGCTTCCCTGCTTTCTA
GAATTCCACCAGCACTGCTCTACCAGCCCTCATCCAGAGGCTAACTGGAGCCAGTCCATCATGCAGCCATGAACATTTACTGGGCACCCACTACATGTCA
GGCTCTAGGAAACAGGATATGACAGTATCTAGATCCCTCCACTTACACCCTGGCCATTAGAAAGCAGCACTATCCTAGACACCACAGGACTCATAAGGGT
CTTGGAAACTCACCTGAAACAAAGCAAAGTCAGGAGAGGAATGATCAGGAGCCTCTGGGATTTCACTGTCCCTAAGACAGGTATGCTCGCCTTCAACTAC
ATATGGAAGAAAGATTTACAGACCAAAGTCTGCTGTTCTTCCCTTTTTCAGAGCAGGAAATTGAAGCCCCTTCCTCCAGGCCACTCCCAACTCCAGGCTA
TCCCAGGCTCCCAAATGCCCAGGAGTTCTGGAGCCACTAAGCAGGTGCCCACCCAGCAGATTCCATGGGTGCCCACAAGCAGACAGACTTTTCCTTCAGG
GGAGATCATCGGGGGACATGAGGCCAAGCCCCACTCCCGCCCCTACATGGCTTATCTTATGATCTGGGATCAGAAGTCTCTGAAGAGGTGCGGTGGCTTC
CTGATACRAGACGACTTCGTGCTGACAGCTGCTCACTGTTGGGGAAGGTGAGGAGCAGAAAACAGCCCACACCCTCCTGGAAACACTCCACAGAGACCCC
TGCCTTCTTCCCAAGGAGCTCCCTGGGCTCCTGTGAACACACATGCCAGGAGGTCTCCTTAGAGGGTGAGAAAAGGGCAGTTAAGTTTGTGGAGAGAGGG
GAAGGTTGGTTCCAGAGGTGCTGCTGAAGTAAGAAACAGCAGAGTGACCAAGCCTGCCATATTTAGAACTGGGGGCATACTTTGGCATAAGAATACAAAC
TGAAGCAATTCCACCTGTGTTTCTAGGGGGAACCGAACCCTGAGAAACCTGGTGCAATTACCAGAATTCCAATTCCTGGGGACCGACTGTCCCCTTAATT
TCCCCTCAGCTGCAGCCCTGCCCCAGCTGTCACCTGCTCTTCACTGTCTCTGGGCTGTATACMCTGTGACTCCACCCCCATCCTCACTCTGCTCTCTGTG
CAGCTCCATAAATGTCACCTTGGGGGCCCACAATATCAARGAACAGGAGCCGACCCAGCAGTTTATCCCTGTGAAAAGASCCATCCCCCATCCAGCCTAT
AATCCTAAGAACTTCTCCAAYGACATCATGCTACTGCAGGTGAGGCACACTCCTGCCACTCTTGCTCTTCTTGGTCCAGTTGGTTCCACTCCCCCTGGAA
TGCCGGCCCTTCCCTCCTTTCCATCCTGGCCTCTTGGTTAGTTCCTATGCCTCAGAGGAGAGGGAAGATTGYGCAGCCCCATCACTGTGTCGGGGCCCAG
AAGTTCGTTGGCTGACCTGGACTTTCTTGCCTCTTCCCCACCAGCTGGAGAGAAAGGCCAAGCGGACCAGAGCTGTGCAGCCCCTCAGGCTACCTAGCAA
CAAGGCCCAGGTGAAGCCAGGGCAGACATGCAGTGTGGCCGGCTGGGGGCAGACGGCCCCCCTGGGAAAACACTCACACACACTACAAGAGGTGAAGATG
ACAGTGCAGGAAGATCGAAAGTGYGAATCTGACTTACGCCATTATTACGACAGTACCATTGAGTTGTGCGTGGGGGACCCAGAGATTAAAAAGACTTCCT
TTAAGGTAAGACTATGCACCTGCCTGGATTGGCTCTTGGGAGAAAGATGTTTGGGGAATATCTGAGACCTGGAGACTCAAGTAGTGGGGGACTCCTTCAC
CCACTAGACTGTGATATTTCTCTCTGGAAAGAGAARAGGGGACTAGACTGAGCTGGGGAGAAATTAGGGCCTCTGCAAACTTACCARGAGGCTTATGGTG
GATGGTGCTTCTTTGGAAGGATGAATTTGCAACACTCCACCCACTCCAGGTCACAGATATTAGGAAACTGTGCCCACTGGGGGTGCAGTAATTATAACCA
GGTGTGTCTTCAGAGGCTGGTACCCAACGTGGTTAATGGGCTGGTCCTCCATGGTGGACATCAGCCCTCCTTGCCCACTTCTGGGTCCTTAAACAGCCAA
CGGTCCCACATACCTCCGATCTCAGGAYCTGGGGGACATGAYGGAGGCTGGSCCCTGGGATGAGGTGAAGCAGTAACAATGTCCAGGGCCAGAGCTTGGC
AGCTGGGGGCCRCCAGCGGCCTGCCCTGCCCTCTGGTCTCCCACATGTAGGCTGTGCAAGTTGGCCTTTTCTAAAAGGGGGCTTGAGATGGAAGAGAGGG
CAGGACCCGGAGGAGCATCAGCTCAGTCCTTCCACTCTCTATTCACAGGGGGACTCTGGAGGCCCTCTTGTGTGTAACAAGGTGGCCCAGGGCATTGTCT
CCTATGGACGAAACAATGGCATGCCTCCACGAGCCTGCACCAAAGTCTCAAGCTTTGTACACTGGATAAAGAAAACCATGAAACGCYACTAACTACAGGA
AGCAAACTAAGCCCCCGCTGTRATGAAACACCTTCTCTGGAGCCAAGTCCAGATTTACACTGGGAGAGGTGCCAGCAACTGAATAAATACCTCTTAGCTG
AGTGGAAAAGCTGGTTTCTTGTTTATTCATTGACCCTCATTCTCAGGCACCACATCTGTGCTATGCAGGCCAATGACACAATTTTGCTGTTTTCTGCTTT
CTCCTCTCCCCTCACCCCTTGCCACCTCCCCAAACCCCCACATGAAGCTGATACTCAGCTCCTTCCTATCCACACCAGTTTCTCCAGGGCCTGCCCTTCT
GCCAAGGCTGAAGCTGAGCACCATCAGGAGACAACATGGACCACTTTGGTCCTGGGGCTTTGGGTAAACTTCTTACCTCCTTCTCCAGTGTTACATGACA
GAGAAAAAAGGGATAATACCATGGGACCTAACTCCTCATCCCCCACTGGGGCTCCTCATTCTCCCCTGGGCTTAGTTTCTCTACCCTCCTCTGAGCTCAA
GGCTCAGCTCGTCCTCCAGCCTCTTGGCTGCCCCTTCTCTTCATCCCTGCTGAGTGTTCTCAGAATCCACCAACTCTTGTCCTCTCCAGACCACACTGAT
CTGATCTGGCCCCTCCCTCATATCTACCCACCTAAGATACCCAGAGACCCATGTGGTTCCATAAGGGCCTTGCCACTGAGACGCCAGCCCATCTCATGCC
CTGGCAGAGAGGGGCCTCAGAAAAACCAGGCCTGTGTGGCAACCAGGTAAGACCCATGGAGGACAAGGCTGGCACGGTCTCTCTCCAACCCTTGGCTCCA
TCTCTCCCCTAGGTAGGGCCAGCTCAACCCCTCCCATCCAGCCCAGTGTCCTCCCATACACTCAAGGTTCACTGCCCACCTGGGCAGTCAGCAGGCTGAG
CCCCTTTAAACCTGTTCCTCTTGGTCACTGCTGGCCTCTAGGCTAAGATTCCCTGCTAGCCACCTGGGCTACATCAGCCCTTTGAGTTCAAAAGGACTCC
TTTCTGCAGAAGGACTAGAAAGCACAATCTTTTCTATCAATCAACAAACAAATACTCATTGAGCACTTACTATGTACCAGGCATAGAGGATAGTAAGAGA
ACACAATAACAGACTCTATCATCTGAACCCAAGTGAAACTGACAATGTTGAGAATTTTCATCCAAATTGTTTCACTCACTTTCTGTCCTTCAGATTAGTT
CACAAGAGCGAGATGTATATGGAAATCCATGGGATTAAAGTATTTGTATCTTATTTTTATTTCTGGTTTTTCTGAGGCCCCTCCCTGCCAGGGCATGAGG
TGGGCTGGCATCTCAGTGGCAAGGCCCTTATGGAACCACGTGGGTCTCTGGGTATCGTAGGTTGGAAGATATGAGAAAGAGGCCAGATATTCACACAGTT
TGTATAAGTATTGTCACGTGCGACCCCAGAACAGCAATGTATGGGATTTGAAAACAACTTTAATCATTTACTTTCTAGACATGAAGTTGTCAAACTGTTC
AATGGAGCGTCATCTTCACCTAGGGGGAAGAGTAGCAGGGCAGGAAGAAGACAACTAGGGCAGGCTTATTTTCATTTGTTTAAAAAGTAGCAAGGATGAA
TGTCATTATAAAGATTCAAATTGTAGGAAAAACACCCATTTGATTGGACCACTCAGAAGCATAATCCCTGTCATTATACAGGCTCCTGCCTGTACAGAAT
GAAACTAGAATCAGGAAGGCTCACGCAGGCTGGAAAAATGGAACAATGCCTCGAATGTTTAGGCCACTGATTACTGCTACATTCATAGTTTCCAGAACTA
CCTGGACTTGTGAATGTTAGGAAGTTCTTGGCTTGGAGGCCACCGATAGAGTATATGACATATTGTTGAATAAGGGTTGCCCAGTGTTAAGCTCACCCTG
CCAAACACTCCCAGCAACCACCTCTCCAAGGTCTTGCCACTAATATGGAGTACTGCCTGGGAGTTGAACATAAGTACTAGCTCTAGATTAATGCTTCCCT
GTCTCAAATATACACAGCTACACTCTTGTGGCATGGAGTAAAATCTCCCTCTAGGATCATGTAACTGTCAAAGTTGCGCCCTTTCTCATCTCAGTGTGCA
CAAAGCATGCTGCAACACAATCCTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTATCGGCCAGGCTGGGGTGCAATGGTGCAATCTCAGCT
CACTGCAACCTCTGCCCCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGCGCCATCACACCCGACTAATTTTTG
TATTTTTAGTAGAGACAGGGTTTTAACATGTTGGCCAGGCTGTTCTTGAACTTCTGACCTCAAGTGATCCACCTCGACCTCCCAAAGTGCTGAGATTACA
GGTGTGAGCCACCACACCCGGCCGCAACTCAATCTCTTAATAATCTTGGGCACTTTTATAAAATAAGTGGGTGTCACACAGCTTCTGATTTGGAGCTGGA
AAAAAAATCCCTGCACCTAAGACATACTAATGACTTGGTTCCTTCATTGGAAAAGGAAAACACAGGCAGCAAAACAAAATAATAGTATTTTTTAAAGTTG
CCTGGTCACATTCATAATCAGTTTAGGTATGATACTTACTTTGGGGAAATGGTTCTGTGGTTTAAAACAGGCTTGAAAATCATTGTTGTAGGACTTTATC
CACTTCTGAGCAAGAAGAAAGAAACAAAGTTTCAGGAAAGGGTAGTGACTGACTGAAAATATCACAGAAGTTAGGACAGAGCCTGAACAGAGCCCATGCC
CCCTGACAACCAGGCCAGAAAGTAGCTTTAAAAGTCTTCTAATGCTCACCCCAAGATGACTTTCTGGAATCTCCAGACAAGAATTAAGTTTATGCTCAGA
CGCCTCCCTGGAAAGAAAGACTTTGGGCTTCTCCAGCAGCTATTTAGTGAGAAGTATTCAAAGCACTTCCCTTTGGTAAGCTGAAATCTGTCCACAGGTG
CATTTGGGTGGACTCAGAGGCAGGTAAGTACTTTAAACATGCTGACTGCTTCAAATCTCCTTGGTCTGTGGAAGTTTCCCCCCCAACCCCTACCATATGA
AGAAATAATCCTTCCCTTGCTTAAAATCTCTCTAGTGTCCCTACTGACTCTAGGAAAGGAAATGCCTCAGCCCACTGAGATCTACTCCCACCATCCCTCT
TTTCCTCCAGGGCCACAGGAAGAATCAGGTCCCAGCACAGTCAGGAAGAGAACTGCCAAGTGGGCTCATGGAGGAGATAGACCCCAAAGAAAGCAAAATC
TTGCTAAGTTGTTTCTGGGAATATGTATTGGTGTGACTGCCTTCCCAGCCCACCACCATGCTTCTCCCAGTACCACTCTTTGTGAACTTACACAGCTTAT
AGGGTTTACTTCTTATCTTGGTAACCCACACAACATTGCTTTTGACCAACTAACATATGTCACCATGGCAGCAATGTGTTTATGGACCATAACACTTAGA
AGTAGCTGACCTGAGAGAATTGCAGAATAGCGTACTGAAGACTGAAAATAATGACAGCTGAGAAACAGCTACCGGCAAGATTGGGATGCTGTGCTACAGG
ATGTAGCATATGCTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGACTCACCGCAA
GCTCCGCCTTCCGGGTTCACACCATTCTCCTGCCTTGGCGTCCTGAGTAGCTGGGACTATAGGCGCCCATCACCACACCTAGCTAATTTTTTTTTTTTTG
TATTTTTAGTAGAAACGGGGTTTCACTGTGTTAACCAGGATGGTCTCAATCTCCTGACCTTGTAATCCACCCGCCTCGGCCTCCCAAGGTGCTGGGAGGA
TGTAGCATATGCTTTTAAGCAATAATAAATATACAATGTTGGTTCTTTCATAGCTAGAATACATTGTTTTGGAAACAGGGAATGTTTCCAAACATTCCTT
GCCCCTCTGATTAGGAGTTACACCATAATCTTGAGCTTTACTGGTCTAGAGGTCTCAATTCCTGAGAAAGAAGTCAACAGTCAGATAAGTAGGTTACTTT
AGTAGCTGGGTGATTAATCCTGATTGCCATGGGAAGATGGGATTCACTGAGATACCTCCTAATATTTCCATGACCATTAGTGAAGGTCATTGGAGGACTA
CTGTAGCCCAATAAGATAAGACTACTAAGACCCTTTAAAAGGAAATTTTGAGGCACTACAACAGATAAAGAATCATACCAGATAGGCTTCTTGAGATAAA
GTCTTCTGCACAGCTTCTCAGAGATGGTATAACACCCACCCGCATAATGACTTCCCAGCCTCCTTGGCCAAGAGCCCTTCCAACCTCTACTCAGATACCT
CCTTAGAGAGAGATCCTGAGGTCATCAGACTCACATGCCATGACAGCTGAGCTGAGATCTGCCTACCTGTGACCATCACTATTTACAAGACGAGACAGTG
GAAAACTTGCATTTGGATACAAGTGTGTACTGAGGGATCCCATTCTCCTTGATGTACTAATTTTTCTTTAAAAGTGATAATAATAGCTCCCATTTAGAAT
TTTTAAATAACACAACAAATGTAAAGTAACTAATGTGTCCTCTGGATCATGGTAAGTAATGAATAAATTTAACTCCCTTTACCTTCTCCCTTTGCTATTT
TTTCCATGCTAGGATTTATACATTTTTAAAAAACTAAATCTGCTATCAAATGACAGCTTTAAATTTACTTTTTAAAATTTGTTATTGTATATATTTATGG
GGTATAAAGTGATGTTATGATATATATATACACAATGTACACTGATTAAATCAAGCCAATTAACATTTTATCATCTCAAATACTTAACATTTTTTGTAGT
GAGAACATTTGAAATTTACTTTTAGCAATTTCAAAACATACATTATTATTATTAACTATAGTCACCATGATGTACCATAGATCTTTAAAAACTTATTCTT
CCTGCCTAACTGAAACTTTGTACTCTTTGACTAACATCTTTTCATTCCCCCACTTCCCAGCCTCTGGTAATCACCATTACACACTCTGCTTCTATGAGTT
CAATTGCTTTAGACTCCACGTAATAAATGAGATCATGCAGCATTTGGCTTTCTGTGCCTGGCTTATCTTGCTTAGCATGGTGTCTTACAGGTTCATCCAT
GTTGCAACAAATAACAGAATCTCATTCTTTGTTAAGGCTGAATACTATTCCATTGGGTATATATACCACATTTTCCTTATCCATTAATCCACTGATGGAC
CCTTAGGTTGTTGATTCCATATATTGGCTATTGTAAATAGTGCAGCAATGAACATGAGAGTGCAACTATCTCTTCAATGTACTGATTTCGAATCCTTCGG
ATCTATCTCAGAAGTGAGATTGCAGGATCATATAATTCTACTTTTAGTCTTTTGAGGAGCTCCATACAGCTTTCCATATGGCCATACTAATTACATTCTC
ATCAACAGTGTACAATGGTTTCCTTTTCTCCACATCCTCACCAACATTTATAATTTTTTGTCTTTTTGATAATAGCCATTCTGACAGGTGTAAAGTGATA
GCTCATTGCAGTTTTAATTTGCATTTTTTGATGATTAGTAATGTTGAGAATTTTTTCATATATCTCTTGGCCAGTTGCATGTCTTCTTTGGAAAAATGTC
TATTCAGTTCCTTTGCCCATTTTTTAATTGGGATTTTTGGTTTCTTGCTATTGAGTTGTTTGAATTCCTTATATATTTTGGATATAAATCCCTAATTAGA
TTTAAGGATCACAAATACTTTCTCCAAACAAAGCCTCCAGCTTTATTCTTTTTACTCAAGAGTGCCTTGGCTATTAGAATTTTTTTACATATTTGGCTGT
CCTTGGGCAGCCTCCATGAGGTGGCAGTCACAAAGCCATATCTCCTTGTATGTGCTGCTAGAAAATTCTTGAGGGTTGGTTCCTAACAGACTCACAGGGT
TGCATTGCCATATTAAATTTACACAAACTATTCATTTTCAAACTTTTAGACTCAGAAAATTTCATCAAAACATCAAGGTCAGAGACATAAGTTAGGCTGG
ACTTACATGAG


SNP Information

Context             (SEQ ID NO:52333):
AGACATGCAGTGTGGCCGGCTGGGGGCAGACGGCCCCCCTGGGAAAACACTCACACACACTACAAGAGGTGAAGATGACAGTGCAGGAAGATCGAAAGTG
Y
GAATCTGACTTACGCCATTATTACGACAGTACCATTGAGTTGTGCGTGGGGGACCCAGAGATTAAAAAGACTTCCTTTAAGGTAAGACTATGCACCTGCC
Celera SNP ID:            hCV25922441
SNP Position Genomic:     8324
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,10)   total(C,43|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:52334):
TGGTGGACATCAGCCCTCCTTGCCCACTTCTGGGTCCTTAAACAGCCAACGGTCCCACATACCTCCGATCTCAGGATCTGGGGGACATGACGGAGGCTGG
S
CCCTGGGATGAGGTGAAGCAGTAACAATGTCCAGGGCCAGAGCTTGGCAGCTGGGGGCCACCAGCGGCCTGCCCTGCCCTCTGGTCTCCCACATGTAGGC
Celera SNP ID:            hCV25623131
SNP Position Genomic:     8852
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,38|G,2)   total(C,76|G,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52335):
TGGTCCTCCATGGTGGACATCAGCCCTCCTTGCCCACTTCTGGGTCCTTAAACAGCCAACGGTCCCACATACCTCCGATCTCAGGATCTGGGGGACATGA
Y
GGAGGCTGGCCCCTGGGATGAGGTGAAGCAGTAACAATGTCCAGGGCCAGAGCTTGGCAGCTGGGGGCCACCAGCGGCCTGCCCTGCCCTCTGGTCTCCC
Celera SNP ID:            hCV25623132
SNP Position Genomic:     8842
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52336):
TGGTCCAGTTGGTTCCACTCCCCCTGGAATGCCGGCCCTTCCCTCCTTTCCATCCTGGCCTCTTGGTTAGTTCCTATGCCTCAGAGGAGAGGGAAGATTG
Y
GCAGCCCCATCACTGTGTCGGGGCCCAGAAGTTCGTTGGCTGACCTGGACTTTCTTGCCTCTTCCCCACCAGCTGGAGAGAAAGGCCAAGCGGACCAGAG
Celera SNP ID:            hCV25922375
SNP Position Genomic:     8072
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(C,2|T,8)   total(C,4|T,40)
SNP Type:                 INTRON


Context             (SEQ ID NO:52337):
CGTGGTTAATGGGCTGGTCCTCCATGGTGGACATCAGCCCTCCTTGCCCACTTCTGGGTCCTTAAACAGCCAACGGTCCCACATACCTCCGATCTCAGGA
Y
CTGGGGGACATGACGGAGGCTGGCCCCTGGGATGAGGTGAAGCAGTAACAATGTCCAGGGCCAGAGCTTGGCAGCTGGGGGCCACCAGCGGCCTGCCCTG
Celera SNP ID:            hCV25623142
SNP Position Genomic:     8828
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:52338):
ACCTCCGATCTCAGGATCTGGGGGACATGACGGAGGCTGGCCCCTGGGATGAGGTGAAGCAGTAACAATGTCCAGGGCCAGAGCTTGGCAGCTGGGGGCC
R
CCAGCGGCCTGCCCTGCCCTCTGGTCTCCCACATGTAGGCTGTGCAAGTTGGCCTTTTCTAAAAGGGGGCTTGAGATGGAAGAGAGGGCAGGACCCGGAG
Celera SNP ID:            hCV25623143
SNP Position Genomic:     8912
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52339):
TGCCTCCACGAGCCTGCACCAAAGTCTCAAGCTTTGTACACTGGATAAAGAAAACCATGAAACGCTACTAACTACAGGAAGCAAACTAAGCCCCCGCTGT
R
ATGAAACACCTTCTCTGGAGCCAAGTCCAGATTTACACTGGGAGAGGTGCCAGCAACTGAATAAATACCTCTTAGCTGAGTGGAAAAGCTGGTTTCTTGT
Celera SNP ID:            hCV15954161
SNP Position Genomic:     9222
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,11)   caucasian(A,34|G,6)   total(A,61|G,17)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,297|A,1194)   total(G,297|A,1194) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:52340):
TTCACTGTCTCTGGGCTGTATACCCTGTGACTCCACCCCCATCCTCACTCTGCTCTCTGTGCAGCTCCATAAATGTCACCTTGGGGGCCCACAATATCAA
R
GAACAGGAGCCGACCCAGCAGTTTATCCCTGTGAAAAGACCCATCCCCCATCCAGCCTATAATCCTAAGAACTTCTCCAACGACATCATGCTACTGCAGG
Celera SNP ID:            hCV25623144
SNP Position Genomic:     7840
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,2)   caucasian(A,32|G,4)   total(A,50|G,6)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52341):
CCAGGGCATTGTCTCCTATGGACGAAACAATGGCATGCCTCCACGAGCCTGCACCAAAGTCTCAAGCTTTGTACACTGGATAAAGAAAACCATGAAACGC
Y
ACTAACTACAGGAAGCAAACTAAGCCCCCGCTGTAATGAAACACCTTCTCTGGAGCCAAGTCCAGATTTACACTGGGAGAGGTGCCAGCAACTGAATAAA
Celera SNP ID:            hCV15954171
SNP Position Genomic:     9187
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,26)   caucasian(C,6|T,34)   total(C,18|T,60)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52342):
GGGGACTCCTTCACCCACTAGACTGTGATATTTCTCTCTGGAAAGAGAAGAGGGGACTAGACTGAGCTGGGGAGAAATTAGGGCCTCTGCAAACTTACCA
R
GAGGCTTATGGTGGATGGTGCTTCTTTGGAAGGATGAATTTGCAACACTCCACCCACTCCAGGTCACAGATATTAGGAAACTGTGCCCACTGGGGGTGCA
Celera SNP ID:            hCV2815150
SNP Position Genomic:     8587
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52343):
ATTTACAGAAAATCTGTGATGAGACACCACAAAACCAGAGGGGAACATGAAGTCACTGAGCCTGCTCCACCTCTTTCCTCTCCCAAGAGCTAAAAGAGAG
Y
AAGGAGGAAACAACAGCAGCTCCAACCAGGGCAGCCTTCCTGAGAAGATGCAACCAATCCTGCTTCTGCTGGCCTTCCTCCTGCTGCCCAGGGCAGATGC
Celera SNP ID:            hCV2965136
SNP Position Genomic:     6054
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,33|T,5)   total(C,58|T,12)
SNP Type:                 NONSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:52344):
AGAATTCCAATTCCTGGGGACCGACTGTCCCCTTAATTTCCCCTCAGCTGCAGCCCTGCCCCAGCTGTCACCTGCTCTTCACTGTCTCTGGGCTGTATAC
M
CTGTGACTCCACCCCCATCCTCACTCTGCTCTCTGTGCAGCTCCATAAATGTCACCTTGGGGGCCCACAATATCAAAGAACAGGAGCCGACCCAGCAGTT
Celera SNP ID:            hCV11714700
SNP Position Genomic:     7763
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,30)   caucasian(A,4|C,36)   total(A,8|C,66)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52345):
TTGGGAGAAAGATGTTTGGGGAATATCTGAGACCTGGAGACTCAAGTAGTGGGGGACTCCTTCACCCACTAGACTGTGATATTTCTCTCTGGAAAGAGAA
R
AGGGGACTAGACTGAGCTGGGGAGAAATTAGGGCCTCTGCAAACTTACCAGGAGGCTTATGGTGGATGGTGCTTCTTTGGAAGGATGAATTTGCAACACT
Celera SNP ID:            hCV2815151
SNP Position Genomic:     8536
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52346):
CAGAAAATCTGTGATGAGACACCACAAAACCAGAGGGGAACATGAAGTCACTGAGCCTGCTCCACCTCTTTCCTCTCCCAAGAGCTAAAAGAGAGCAAGG
R
GGAAACAACAGCAGCTCCAACCAGGGCAGCCTTCCTGAGAAGATGCAACCAATCCTGCTTCTGCTGGCCTTCCTCCTGCTGCCCAGGGCAGATGCAGGTG
Celera SNP ID:            hCV2965137
SNP Position Genomic:     6059
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,32|G,4)   total(A,67|G,7)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52347):
ATCGGGGGACATGAGGCCAAGCCCCACTCCCGCCCCTACATGGCTTATCTTATGATCTGGGATCAGAAGTCTCTGAAGAGGTGCGGTGGCTTCCTGATAC
R
AGACGACTTCGTGCTGACAGCTGCTCACTGTTGGGGAAGGTGAGGAGCAGAAAACAGCCCACACCCTCCTGGAAACACTCCACAGAGACCCCTGCCTTCT
Celera SNP ID:            hCV2815152
SNP Position Genomic:     7308
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52348):
TGGGGGCCCACAATATCAAAGAACAGGAGCCGACCCAGCAGTTTATCCCTGTGAAAAGACCCATCCCCCATCCAGCCTATAATCCTAAGAACTTCTCCAA
Y
GACATCATGCTACTGCAGGTGAGGCACACTCCTGCCACTCTTGCTCTTCTTGGTCCAGTTGGTTCCACTCCCCCTGGAATGCCGGCCCTTCCCTCCTTTC
Celera SNP ID:            hCV8923487
SNP Position Genomic:     7921
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,9)   caucasian(C,33|T,5)   total(C,58|T,14)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52349):
AATTTCAAAACTTACAAGCTACAGTAATTAAAACAGCATGGCAAAGGCATAAGGATAGACATATGGATCAATGGAATAGATTCAGAGTCCAGAAATAAAC
W
CAACATTTATGGCCATTTGATTTTTGATAAGGATTGTCAAGGGGGTCTTGAACATTCAGTGGGGAAAGAATAATATCTTCAACAAGTGGTGCTGGAACAA
Celera SNP ID:            hCV2815155
SNP Position Genomic:     3148
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,7)   total(A,7|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:52350):
ATCCTCACTCTGCTCTCTGTGCAGCTCCATAAATGTCACCTTGGGGGCCCACAATATCAAAGAACAGGAGCCGACCCAGCAGTTTATCCCTGTGAAAAGA
S
CCATCCCCCATCCAGCCTATAATCCTAAGAACTTCTCCAACGACATCATGCTACTGCAGGTGAGGCACACTCCTGCCACTCTTGCTCTTCTTGGTCCAGT
Celera SNP ID:            hCV25472720
SNP Position Genomic:     7880
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,9)   caucasian(C,33|G,5)   total(C,58|G,14)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Gene Number:                 252
Celera Gene:                 hCG40244 - 119000107807744
Gene Symbol:                 GSTM3
Protein Name:                glutathione S-transferase M3 (brain);GST5;GSTB;GSTM3-3;GTM3;MGC3310;MGC3704
Celera Genomic Axis:         GA_x5YUV32VTKB(1235388..1254467)
Chromosome:                  Chr1
OMIM number:                 138390
OMIM Information:            GLUTATHIONE S-TRANSFERASE, MU-3;GSTM3


Genomic Sequence (SEQ ID NO:12412):
ATAAAATACTTTACAGACAAGCAAATGCTGAGAGATTTTGTCACCACCAGGCCTGCCCTAAAAGAGCTCCTGAAGGAAGCGCTAAACATGGAAAGGAACA
ACCGGTTCCAGCCACTGCAAAAACATGCCAAAATGTAAAGACCATCAAGTCTAGGAGGAAACTGCATCAACTAACGAGCAAAATAACCAGCTAACATCAT
AATGACAGGACCAAATTCACACATAACAATATCAACTTTAAATGTAAATGGGCTAAATGCTCCAATTAAAAGACACAGACTGGCAAATTGGATAAAGAGT
CAAGACCCATCAGTGTGCTGTATTCAGGAAACCCATCTTACATGCAGAGACACACATAGGCTCAAAACAAAGGGATGGAGGAAGATCTACCAAGCAAATG
GAAAACAAAAAAAGGCAGGGGTTGCAATCCTAGTCTCTGATAAAACAGACTTTAAACCAACAAAGATCAAAAGAGACAAAGAAGGCCATTACATAATGGT
AAAGGGATCAATTCAACAAGAAGAGCTAACTATCCTAAATATAAATGCACCCAATACAGGAGCACCCAGATCATAAAGCAAGTCTTGAGTGACCTACAAA
GAGACTTAGACTCCCACACAATAATAATGGGAGACTTTAACACCCCACTGTCAACATTAGACAGATCAACGAGACAGAAAGTTAACAAGGATACCCAGGA
ATTGAACTCAGCTCTGCACCAAGTGGACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTTTTTTCAGCACCACACCACACC
TATTCCAAAATTGACCACATAGTTGGAAGTAAAGCACTCCTCAGCAAATGTAAAAGAACAGAAATTATAACAAACTGTCTCTCAGACCACAGTGCAACCA
AACTAGAACTCAGGATTAAGAAACTCACTCAAAACCGCTCAACTACATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGGTACATAATGAAATGAA
GGCAGAAATAAAGATGTTCTTTGAAACCAACGAGAACAAAGACACGACATACCAGAATCTCTGGGACACATTCAAAGCAGTGTGTAGAGGGAAATTTATA
GCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCCAAAATTGACACCCTAACATCACAATTAAAAGAACTAGAAAAGCAAGAGCAAACACATTCAAAAG
CTAGCAGAAGGCAAGAAATAACTAAAATCAGAGCAGAACTGAAGGAAATAGAGACACAAAAAACCCTTCAAAAAATTAATGAATCCAGGAGCTGGTTTTT
TTTAAAAGATCAACAAAATTGATAGACCGCTAGCAAGACTAATAAAGAAGAAAAGAGAGAAGAATCAAATAGACGCAATAAAAAATGATAAAGGGGATAT
CACCACTGATCCCACAGAAATACAAACTACCATCAGAGAATACTACAAACACCTCTACGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTC
GACACATACACCCTCCCAAGACTAAACCAGGAAGAAGTTGAATCTCTGAATAGACCAATGACAGGCTCTGAAATTGTGGCAACGATCAATAGCTTACCAG
TCAAAAAAAGTCCAGGACCAGATGCATTCACAGCCGAATTCTACCAGAGGTACAAGGAGGAGCTGGCACCATTCCTTCTGAAACTATTCCAATCAATAGA
AAAAGAGGGAATCCTCCCTAACTCATTTTATGAGGCCAGCATCATCCTGATACCAAAGCCGGGCAGAGACACAACCAAAAAAGAGAATTTTAGACCAATA
TCCTTGATGAACATTGATGCAAAAATCCTCAATAAAATACTGGCAAACAGAATCCAGCAGCACATCAAAAAGCTTATCCACCATGATCAAGTGGGCTTCA
TCCCTGGGATGCAAGGTTGGTTCAACATTCGCAAATCAATAAATGTAACCCAGCATATAAACAGAACCAAAGACAAAAACCAAATGATTATCTCAATAGA
TGCAGAAACAGCCTCTAACAAAATTCAACAACACTTCATGCTAAAAACTCTCAATAAATTAGGTATTCATGGGACGTATCTCAAAATAATAAGAGCTATC
TATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCGCTCC
TATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATTAGGCAGGAGAAGGAAATGAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTT
TGCAGATGACATGATTGTATATCTAGAAAACCCCATTGTCTCAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAACATC
AATGTACAAAAATCACAAGCATTCTTATACACCAATAACAGACAAACAGAGAGCCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAA
AATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAATAAAAGAGGATACAAACAAATGGAA
GAACATTCCATGCTCATGGGTAGGAAGAATCAATATCATGAAAATGGCCATACTGCCCAAGGTAATTTACAGATTCAATGCCATCCCCATCAAGCTACCA
ATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCATATGGAACCAAAAAAGAGCCCGCATTGCCAAGTCAATCCTAAGCCAAAAGAACAACG
CCAGAGGCATCATGCTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAGCAGCATGGTACTGGTACCAAAACAGAGATATAGATCAATGGAA
CAGAACAGAGCCCTCAGAAATAATGCCACATATGTACAACCATCTGATCTTTGACAAACCTGACAAAAACAAGCAATGGGGAAAGGATTCCCTATTTAAT
AAATGGTACTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATTAATTCAAGATGGATTAAAGACT
TACATGTTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCTGGACATAGGCATGGGCAAAGACTTCATGTCTAAAACACCAAA
AGCAATGGCAACAAAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTCCACAGCAAAAGAAACTACCATCAGAGTGAACACGCAACCT
ACAAAATGGGAGAAAATTTTCACAACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACA
ACCCCATCAAAAAGTGGGCAAAGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAAACACATGAAAAAATGCTCACCATCACTGGC
CATCAGAGAAATGCAAATCAAAACCACAATGAGTTACCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACGAGGTGCTGGAGAGGATG
TGGAGAAATAGGAACACTTTTACACTTTTGGTGGGACTGTAAACTAGTTCAACATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAA
TACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCACT
ATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAACGATAGACTGGATTAAGAAAACATGGCACATATACACCATGGAATACTATCCAGCC
ATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAACTGGAAACCATCATTCTCAGCAAACTATCGCAAGGACAAAAAACCAAACACCGCA
TGTTCTCACTCATAGGTGGGAACTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACTCCAGGGACTGTTGTGGGGTGGGGGGAGGGGGGA
GGGATAGCATTAGGAGATATACCTAGTGTTAAATGAGGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACATTG
TGCACATATACCCTGAAACTTAAAGTGTAATAATAATAAAATTTAAAAAAAAGAAAGTAATGCAAAAACTGCAAAAAAAAAAAAGAAAAAGAAAAGAAAA
TGGGCATAACACCTACTTCCTAAAGTTGTTGTGAAGCTTAAATTGGAATAAATTAGCTAACATACGTAAACACTTAGATATTGCCTGGCATATGATAGGT
GCTCAATAAATGTTAATCTTATACCTCAGGTGAATTTGTGACTGGCCTTTTGCTTTCTTGGGAGGAGAGACACAGGCATTATAAATTTCACCTGTCCATG
TGGTTTGTACTCTTCCTTTCTTCTGTTTAGCAAAATGCCCTTTTAAAAAGTCCCAACCTTGCTTCAGTTGAACTGATGGGCAAATGTGATTTCCCACACC
TGAGCTAGGGGATCTAGGCTCTCAGACTGCCCTGAGAGCTGTGCTGCAGAGGCCTGGCCAGAACCCTCAGAGCAGCTCCGGACTCCTTCCTCTGTCACTC
CTCCACATTCAACTAGAATCCTATGTCTCCCGAGTTGACCCTGTTGCAAATCTGTGCCCCTTTTCATTTGCATGGGCCCTGCCGAAATTCAGAAGCTTAG
TTCTTCCCATGACTATAGGGGCCTCGGGCAGGTCTCTTGCTCTGTCAAGGTCAAAACCCCTACTTTCCTAAATTCAACCATTGATTCTCCATCTTCATCT
TACTTGATCAGCCACACTTGACATAGTTGATCACTTCTCCCTTTAAACATCTTCACATGGCTTCTGGGACCTTTTGTTTTCCTCCTACCTCCCTGGCCAC
TCCTTTTCAGACTCCTTTGCTGGTTTGCTCTCATTTTTCCCTAACCTTTACATGTTGATATGCCAGAGCACCTCAAACCCTTAGACCTCATCTCTGCTAC
TCGTGCTCCCATGGTGATCTCATCTAGTCTCTGGTTTCAAACACAGAGTGATCACTCCTGTACTTGCTGTTTCCCTTTTCCTGGAGTTCTCTCTGCCTCC
TGCAGGTAGGAAGTGATTCGAGATAAGAGAGGGAGAGAACTCTTCTGGCCAGGATAGAGGGTGATTCTGAGAAGGCTTCAAGGAAGAAGTGAGCATTTGA
GCACGGCTACTTGAGGAAGGCTAGGCCATGGACATTAGGGTGCAGGCAGGAGCAGAGCAAACATGCTTGTAAAAGGAACAGCAATTATTCTGTTTTATAT
TTATATCAGCCCATGGTGGCCCCCACAGCAGAGTGGCTTGATCTCTCACCTCCTTCAGGTCTTTGTTTAAAGATTAACTTCTCCATGAGGCCTTCTATGA
ACATAACCTTTAAAAACATAAATCCCCTTCCTACTGGGACTCCCCCAGTTCCCACCCTGAGACCCCCTATCTCTCTTCTCGATTTTATTTCTCTCCATAG
GATGTGTATCACCACCTGACTTACTAGCTATTTACTATATATTAGTTTATTTCTTCCCCATTAGAATGTAAACTTCCTGAGGGCAGGGATTTTGTCTGTT
GAGTTCAGTTCTGTATCCCCAGCACCTAAAACAGTGCCTGTCCATAACAGGCATGTTAAACATTGTTGGACAGATGAATGAGTGAATGAAAAATGGTAGT
ACCTTTCCTCCTCCAGTCCATCCTACACAAAGAGGCAAGATTAATTTCCCTAAATGCATGAGCATTAGGAAGTGGGAGGGATTGGAGGAGGAAATTATAA
TAAGGAATCCATAAATTACTTAAGCCCATAAAACAAAGGTAGGAAACATTCAAGATAAGAGACCTCTTCTGGCCAGGATAGAGGTTGGTTCTGAGAAGGC
TTCAAGGAATAGGCAGACATTTCAGCAAGGCTGCTGAGGAAGGATAGGCTGTGGAAATTAGGATGCAGGTAGGAGGATCACAGAGCAAACACTCCAAGGT
GGGAAATGCAAGTGTGTGTAGAAGGAACAGCAAGTATTGTTGGGTTGGGCTGGCTTATGAAGTTGTGACGGGCTGAGGGAGAGACAGGACTGGAAAAGCA
CGTTGGGGTCAGGTTGCAGAGGTCCTTGACTGACAGAGAGGGGAGCTTGGTCTGTGGGGAATCTTCTGCTCTGTGTGGTCAGAGGCTGGTCTGACTCTCC
GGCCTTGCCCCAGTCTTCCTATCCTTCATCCAGCCCCGGCTGGCTCGGTAAAAACGGCGCGAATCTCGCTCTCCCTGGGTAACTAGGGTCCCCACTGCCT
GGCTAGTGGTGCTTTTCGCGTCTTCACTGGCACCATTAATGAATGAAGTCTGGCTCCCACCCGCGGGGAAGGGAGGAGCCTCAACCTCGGGTCCTTTGCT
CTCCTGCASCACTCCTGCCCGGGTCCCGCCTCGGGGTCGCCAGGCCCTGAACCCCAACGCCGGCATTAGTCGCGCCTGCGCACGGCCCTGTGGAGCCGCG
GAGGCAAGGGACGGAGAACGGGGCGGAGGCGGAGTCAGGGCGCCCGCGCGTGGGCCCCGCCCCCTTATGTMGGGTATAAAGCCCCTCCCGCTCACAGTTT
CCCTAGTCCTCGAAGGCTCGGAAGCCCGTCACCATGTCGTGCGAGTCGTCTMTGGTTCTCGGGTACTGGGATATTCGTGGGGTGAGTGCCGTCTCAACGG
TAGAGCCGCTCGGTCAAAGAGACTGACGCGGAGAGGGCGGGTCTCTGGGTCCGCGATCTCCAGCAGGAGCAGCTCTACGCGGGAGCCTTTTCGAGCTGCC
GAGCCACGGATGTCGACCCCTGCCCAGCCTCTGGGATCGCGGGCCCTGTGGGGAGGGGCGGAGGAGACCACGCCGGAGCCGGGCCTAGGGGCCGCTTAAC
CACCGCCCCGGCAGGACGCAGGGACTCGGCAGCCCCGGGCCGGGGAACGTTAGCGGGCGGGGGTTGGGAATGGGTGGGAGCTGCGCAGTCGCTGAACCGC
TGTCTTCCCCAGCTGGCGCACGCCATCCGCCTGCTCCTGGAGTTCACGGATACCTCTTATGAGGAGAAACGGTACACGTGCGGGGAAGGTAATGCCGCTC
CGCGTGCCCGTGCAGCCAAGCTGGCCCTCCACCTGCCCTGGTCTTCTTACGCCCAGAGGGTGGTGGCGTCGCGCCAAGGCCGGGTGGGACGTTTGCCCCA
ATCTGGGTGAATAGAGACACATCCTTTATCTGGAACTGGGGGTTCTCTTTTTAACATAGCCCAAACCCGTCTTAATGCTTAACCAAATAGGGCTCAGAGG
CTCAATGGTTATGCTTTTGGGGCCTGGGAATTTGAGGTATTGGGACCAAGTCATTTCTTTAGATCTTTTGCTCTTGTCAGGTGGGGTATTAAGGAGGTTG
GGTCCCACTTAATTCCGTCTCTTACAGCTCCTGACTATGATCGAAGCCAATGGCTGGATGTGAAATTCAAGCTAGACCTGGACTTTCCTAATGTAAGTGG
CTTTAGTAGAGGTGGCGGGCAGAAGGGAAAGCCTTCAAGTATATCCATCCTTGCCTCTCTCCTGCCTGGTACAGAAGGATGCAAAATAGGGGATCTTAAC
CYGGATAGAATAAATAGAATTCAGGGGTCCTTGAACTGGATGGATATGTATTTTCATTCCCATTAACCACTAGCAAAAGTTATTTCCTTTTATTGTGAAG
AGAGACAATAAGTGACATTGGTTATTAGCCATGTCTGTCACTTTGTCACTAGTAGAAATCAGGTATTTTCTTTTTTGTGTGTTTCTTGTTCTTTTGTTTT
GAGACAGTGTCTCACTCTGTCGCTCAGGCTGGAGTGCAGTGGCGCAATCACAGCTCACTGCAGCCTCAACCTCCCAGGCTCAAGCAGTCCTCCCACCTCA
GCCTCCCAAGGAGCTGGGACTACAGGCACACACCACTATGCCCAGCTAATTTTTGTATTTTTGTAAGAGACGGGGTTTTGCCATGTTACCCAGGCTGATC
CTGAACTTCTGGGCTCAAACAGTCCTCCCACCTCGGCCTTCCAAAGTGTTGGGATTACAGGCATGAGCCACTGTGCCCAGCCTGAAATCAGGTAGTTTCA
TATTCTATAACATGCGTTGCAGATATTTTAAGTGATATTTATATACATGTAAGTAAATATATACATATAATGTTATTTACTTTGAGATTATGTTAGTCAT
TACATCTGCTTGCTATTTAATGCACTAATAGGCACATGTTACTCTTATTTGAATTTTTAAAAATATTTTTTGATTGTGTAAATTATCTATTTTGCTTCAT
GCATTTAACAACTTTATTCTGAGAAAAGGTCCATGGCATGCACATACACTCACACATACACACACCAATTTAAGAACCCCTGTCTAGAATCTTGTGGACC
CAGTTGCTACCTTCTACTTATTTTCTTTTTTCTCCTAACACAGCATCTTCTCACTCTTGTTCACTGCCCTGCAAGTGTTCTTTTCCCCTGGAGAGAGAGG
TAGGGAATCAAGAGAGAGGCAGGTTGTTCATTTGTCCTGTCCTTTTCCTTTCAGCTGCCCTACCTCCTGGATGGGAAGAACAAGATCACCCAGAGCAATG
CCATCTTGCGCTACATCGCTCGCAAGCACAACATGTGTGAGTGGGGTAGGGCTGGTGAGGGACCCCAGGCTGGTAGTTTGTCTGAGAGTGGATGATGCCA
AGGGTGATTTGTTGTCATTTGGCCTACAGGTGGTGAGACTGAAGAAGAAAAGATTCGAGTGGACATCATAGAGAACCAAGTAATGGATTTCCGCACACAA
CTGATAAGGCTCTGTTACAGCTCTGACCACGTGAGTTTCCTTAGCACACATCTGCTGAATGGMGTATCAGAAAAAGGGGTATTTAGGAACCCAAGGGTTA
TCTCTGTTCCATTCTGCTGCTGCTACCTTCCCACCAATCCAGATTGTTAGAATAAGAAACAGAACTTATATTTTTTGGTTTGTTTTGTCATGTAATTCTG
GTGCTGGTGCCTCTTCTTTCTAAACTCCTCTTTCCCCACCCTGCCATCCTCAAGTGAAGGCAATGAGAACCCACCTAGAGAAGGGGCTACTAAGTGTCCA
TCACTGGCCTGTGCCCTGATTAACTACAAAGATGATCACCACTATTCTCATTCTGTTTTTTCCTCTCAGGAAAAACTGAAGCCTCAGTACTTGGAAGAGC
TACCTGGACAACTGAAACAATTCTCCATGTTTCTGGGGAAATTCTCATGGTTTGCCGGGGAAAAGGTAGGAAGAAGGGAAAAGAAGAGGATACTTCTCTA
TCTCTGCAGGCTACTACTCCTCAGACCTAAGCATCTTATTGCTTTTCTTCTAGCTCACCTTTGTGGATTTTCTCACCTATGATATCTTGGATCAGAACCG
TATATTTGACCCCAAGTGCCTGGATGAGTTCCCRAACCTGAAGGCTTTCATGTGYCGTTTTGAGGTGACGTTTCCTGCACCTTTCTCTTATAAAAACACT
CACAGGCTCCCCTGGGACCTGCAGGATCCCATAGTGGAGGATTCTTCCCCGGCTTTTGCCTAATGGGATCAATGGTTGGACACCTCTAGACCTTTAAGTC
TTGGGAAGAGCCTAACTTCTATACCTTGRAGGCACTGTCTACAAAAAAATGGAGGAGGTAGACGCAGGCAACACGTGAATGTTGCTGTTCTGGTATGCAT
CTGTTGGACTGGGTTGGGGTCKTTATAAGATTTGGTGTATTTTCCTTTCAGGCTTTGGAGAAAATCGCTGCCTACTTACAGTCTGATCAGTTCTGCAAGA
TGCCCATCAACAACAAGATGGCCCAGTGGGGCAACAAGCCTRTATGCTGAGCAGGAGGCAGACTTGCAGAGCTTGTTTTKTTTCATCCTGTCCGTAAGGG
GTCAGCGCTCTTGCTTTGCTCTTTTCAATGAATAGCACTTMTGTTACTGGTGTCCAGCTGAGTTTCTCTTGGGTATAAAGGCTAAAAGGGAAAAAGGATA
TGTGGAGAATCATCAAGATATGAATTGAATCGCTGCGATACTGGCATTTCCCTACTCCCCAACTGAGTTCAAGGGCTGTAGGTTCATGCCCAAGCCCTGA
GAGTGGGTACTAGAAAAAACGAGATTGCACAGTTGGAGAGAGCAGGTGTGTTAAATGGGACTGGAGTCCCTGTGAAGACTGGGTGAGGATAACACAAGTA
AAACTGTGGTACTGATGGACTTAACCGGAGTTCGGAAACCGTCCTGTGTACACATGGGAGTTTAGTGTGATAAAGGCAGTATTTCAGACTGGTGGGCTAG
CCAATAGAGTTGGGACAATTGCTTACTCATTAAAAATAATAGAGCCCCACTTGACACTATTCACTAAAATTAATCTGGAATTTAAGGCCCAACATTAAAC
ACAAAGCTGTTGAAATATTGATGAAAATGTAAGAATTTTTGTGACCACGGGGTAGGAGAAGTTTCTTTAAAGACGTAAAAAGAAAAAACCATAGGCTGCT
CTGCCTGTGGAGTARCCATTCTTTATTCTTTTACTTTTTAAAATAATAACAATCACAAAGGAAAGATTTRCCAATTGAATAGGATCAAATTCTACAACTT
TTCCTAAGGCACCCACAAATAAATGACAAGTGAGACAAAAAGCACTAGTATAAAGATTATATAAAGACCTATAAATCATTAAGACAACTGAGTTTTTAAA
AATGGACAAAATCCATGAACAATTTATAAAATAGAAATATAGCCAAAAATGTCTAAAAGATGTTTATGATGTAAGGAATTATCAATTACAACAGTGAGAA
ACCATATTTCCTTCTATCCGATGAGTAAAAAGTTTCTAAAGTGTTGGCAAGGCTTAGGAAAGTGATATGCATTTCCTGCTGGTCAAGTTGTAAATTAGTA
TAGCTACTTTGGAGGACAATTGTAAAATTTAAATCATATCCTATGACCCAGCAATTCCATGCTATAAAAACTCATCCATGGCCGGGCTTGGTGGCTCACG
CCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACGAGGTCAAGAGATCGAGACCATCCTGGCCAACATGATGAAACCCCGTTTCTACTAAA
AATACAAAAATTAGCTGGGCATGGTGGCATGTGCCTATAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGC
AGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGCTACAGGGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAACATTCAAAGAGACA
TATACTAAGATGTTCACTGTGGCATTGTCTGTAATGACAAATAAGTGGAAACCGTGTAAATACCTGTCAATACTATGGAGTACCATGTGGCAACGGAAGA
ATGAGACTGAACTGTGTGAACTAACATGCAAAGATCCCCAAAACAGGCCAGGTGTGGTTGCTCACAGCTGTAATAACAACACCTTCAGAGGCTGAGGTGA
GAGGATCAGTTGAGGCCAGGAGTTTAAGACCAGCCTGGGCAACATAGTGAGACCCCTGTCTCCCAAAAATTTTTTTTAATTAGCTGTGCGCARTTGCTCA
TGCATAGTCCCAGCTACCCAGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAATTTGAAGCTGCAGTGAGCTGTGTTCTTGCCACTGCACTCCAATC
TGGGTGACTGAGCAAGACCCTGTCTCTTAAAAAAATAAAAAAGATCTCCAAGCATAGAGAAGAGTCTGGAGGGAAACACCAAACTCATAACAGTCTTACT
GCAGGCAAGTGGGATAAAGGCCCAGACTCCATGGTGGAAGTTAAAGGGCATTTCCAAGTTAAGGCTAAGACTTGCTTTTCTAACTAAGAGAATGTGCTCA
TGCATTGCTTGTGTAGTAGAAACTAGTTTTTAGAAAAGAAAGCAAACTTAAGAAACACTGACTCCTGTGGAGATGACTTGGCACCACTCTCCTTTCACAG
AGCAGAGTCTGAATAGTCTTCAGAGATAGGCCTGTGGGCCAGATTGCCATCCCCTATGGACCAGAAGCCAAGGATCTCTCTAGTGATGGTCAGAGGGCCC
AAATGGCAGGGATACCCAGTGATGTCAGGAGGAATAGTRCAGACAGAAGGTGCTAAGCAGACAATTCAACTGCCATGTTTTGCCACCCCCTGTGAGCAGG
GATTAGGTGTTCAGGCCAGTATCTTGGGCATGGGGGAGCCTTTGGCCAGAAGAGGTATAAAGCTCAGAAGTTTTTCAGTCTGATAACTATTGATATAATT
TCCATAGTGTGAGGGAGCGGTATGCTCTACCCTTGTGTATTTAAGGCAGGACAGAGAAATTGAGGATGCCCCTGGGGCTAGATCGATGATATGACCAGAA
ATCAAAAAGGGAATGCATTATTTATTGCTGTGTAACACTGTTAAGAGAGGAGGTAGTTAAGGGATGGATAGGCACATAGAGAGGGAAGGTCTCAGGAGAA
GGGATAGAAAGGAACTATGTTCACAAGAACAACGGCAAGACAGTGCCTATACTGCCTCTACAGTTAATAGGAAAAACGGAAGAAGTTACCCTTAAGCTAG
GATGTTGCTCAGAAGTGACCATCCCAACTTTGGTGCGGGCACAATAAATCAGCCTAAATGTCCCTAATTTAACCCAGCTCRTTATAATGTCATTAAACAT
GACATTAGCATTGTGGTTTTAGCACCCCCATGGGTTTTGCTTAGGCACTCATGGGTAATAACCAAGATGGAGTCCCTTTGGCAAAACTTAGGCATGCACA
GCTGTAGTACCCCAAGAAGAAAATGTTACTTCTCTCATCTGGGCAAAACCCACAGAAGACTTCCCAGCTTCTGCCACATAAAAGACACAGAACACAGACG
CCTTACTGGCAACCTGCTTTCAAGACCCCTGTCTTTGCTGAGAGCTTTCCTTTTTCCCAATAAATTCTACTCTGCCCTACTCACTCTCCATGTCCATGTG
CCTAATTTTTCGTGGTCATGGGACAATAGCCTGAACCTTGCCATACTCCAGGGGCAAAAGAAGACTTCTACACTATTCCCACAAATTTAGCAGCTAAAAC
AATACATGTTTATGGTCTCAAAGTTTTGTGGATTAGGAGTCTGGGCACAGCTGAACTGGGTCCTCTGCTCAGGGTTTCATCTGAAAACTGCCATCAGTGT
GTCATCCAGAGCTCTGATCTCATCCCCAGGCTCAGTGGGAGAAGGATCTGCCTCCAAGTCTGTGTAATTGTTGATAGCGTCAGTTCTTTGTTCCCTGTGG
GACAGAGGCCCTCCATTTCTCATTGGCTGTCGGCTAGAGCCACCTTCAGTTCCTTGCAAAAGGGATCTCCTCAACACGGCCACCCATTTCACCAAAGCTA
GTAAAGGAGTCTGCTGGAAGAAGGAACACTACAGTCCTATGTAATCTGATCACAGCAGTGACATCCCATCACCTGTTCTTATTCTATTAGAAGCAAGTCA
CCGGCCCCACCCACACTCAAGGGCATGAGTACCAGGAGGTAGGATCATGGGGGCCATCTTAGAGTCTGTTCACCACAAGAGAAGAAGGAAGGAAACAGGA
GATTGGTCCTGCAGTCCTATGAGAAAAAAATCCTGGGAAAGACAGATGACAGGAGAAAGCAGCAAGGTAGGGAATGAGCAGTTTGCAAGGGAGAAGTTTA
AAAAGCCCAGGTCTGCAGGTGAAATGTATTTCACATGAATTCCAGATGGACAGATCACATAGGCAAATCACGTTTCAATTTTTTTTAATTATTATGTTTG
TTAGTGAAAATCCACTCAACAGTTATGCAAAACCTGGACCTTACTGGCCCAGAAAGCAGGGAAGGCCACTGAGAGGAACAGATCCTTTCCACAAGAGAGG
TGGATCCCCAGTTCTCAATCAGCTCCCAGCTCTAACTCTAATATAGGCCAAGAAAAGAATGCCGTAACAACGGCTGCCTTCAGGCAAGTGGCAGATGCAG
GGGGGTGGCTGGGGACACATCCAAGGCACAGAGGCACAATAGTGATGGCTTTATACAAGTACCATCAGTAAGGGCTTAAAAGAAAACTTGAAACAGGTGC
ATTAGATTTGGTGGAGCAGTTCCCCAAAAGTATCAGGGAAATTCATTTGTATTCATTGTTGAAGGTTGAGCAACTGGGCGTTTCTAGTTCAGAAAGAAAT
AGCTTATGTGATTAAATGAAAGTTTGTTATAGAGTTGTTTCACTGTTACCAGGGAAAGGAGAGAGGGACAGGGATAGGCATGGACACAGATCTGCCTTTA
AAGCCAGTTTAAGAAGCACTTATGAAAACACCTGGACTGTGTATAGAGATTGCACATTCCTTATCCTTCAGCTGCAGGACAGGTGGAGCAAATGAACCAC
GCAGAAAAAGAGGACTTAGGGAGTTCAGATGGATGGTGGGGGAAGGGAATGAAATAAAATTCAGTGGGTAATCTTTCTAATGTGTAAATTTGTTCATGTC
ACTCCCCTGCTTAAAGGCGTTTAGTGGCTTCTAAAACCTCAGGAAAAAAAACTGTCTTCTCAGGCTTACCTTCACAGCCTCACCTCTGCTCCCTTTCCAG
TGACATCCTTGGCATGTGCCCTCCTCCTGCTGCCCTGGAGCACGGGGTCCAGCCTTTCTGAATTTCCAAGGGAGCAGCACTGTGTGGTGCTCAGGAGCAT
GGACTCCGGAGCCGGGCCGTCTGGGTTCAGATCCTGGCTTTGCCCCTGGTAAATGGTGGCCTCCTGTGCTCAGTGTCTTCTTTGATAAATGAACCCTCCC
TCACAAGGTTGTTATGAGAAGGGAGGAGACCACCCCTCATATTGTCTTATGCCCAATTTCTGCCTCAAAGAAAAAGTAGGAGTTAAAGAAAAGACAGAAA
TGAAATCAGTAGTTAGCCTGGCACTGCATTCCAGGCCTGGTAGTTAAAGATCAACCCCTGACCTAACTGGTTCTGTTATCTATAGATTCCAGACATTGTA
TGGAAAAGCACTGTGAAAATCCCTGTCCTGTTTTGTTCCATTCTGATTACCAGTGCATGCAGCCCCCAGTCACATATCCCCTGCTTGCTCAATCGATCAT
GACCCTCTCACACGGACCCCCTTAGAATCATAAACCCTTAAAAGGGATAGGAATTGCTCACTCAGGGAGCTCGGTTTTTGGAGATGTGAGTCCGCCGATG
CTCCCAGCTGAATAAAGCCCTTTCCTTCCACAACTCGGTGCCTGAGGGGTTCTTGTCTGTGGCTCGTCCTGCTACAATGAGAATGAAGTCAATATTTCTA
GAGCACTTGGGCCAGGCGTGGTAGCTCACACCTGTAATCCCAGCACTTTGGGAGGTGGAGGCAGGTGGATCACTTGAGGTCAGGGGTTCAAGTCCAGCCT
GGTCAACATGGCAAAACCCCATCTCTACTAAAAATACAAAAATTAGCTAGGCATGGTGATGCATGCCTGTAATCCCAGCTACTCGGGAGGTTGAGACAAG
GGAATCACTTGAATCTGGGAGGCAGAGATTGCTGTGAGCTGAGATCACACCACTGCACTCCAGCCTAGGTGACACCGTGAGACTCTGTCCCAAAAAAAAA
AAATTTTAGAGCACTTGAAACAGATCAGTGTTACATAAATTTATAAATACTAATTGCCAAAAAGCACCACATTCACTTTTATATTTTCACACTTTAATAC
ATGCTGTCCCCTCTGCCTCTTGCTTTTCCCCCAACTCCCTTAGCCTTCAAATCAGATTTGAAGTCACATCTGATAATCCCTGTGGTGATGGTCACCAAAG
ATTTCTGATTGTTTTCCCATTGGGAAAACTTCATGACACTCTTTAACTTAAATGTGGTCTCCTGAGTTGTTTGGCCAATTAAACACAAGTAGAAATTACA
CACATTTTCCAGGCAGAAGTTTTAAAAGCCAGTGAGTAAGTCACTGTATCTGACCACCACAGTTGTCTAGACTCAGAGCAGGTGCCAAGTTAAAGCCTCC
GTCGGCCTAGGTCTCTAAAAGACTACGAATAGCAGGGCCCCTGTTGATCACATCCGACATGAAGGGTAAGTAAGAAATAAGCGTGTATTAAGCCACTAGG
ATTTGGTTTATCCTGACTGACATTTCTCTACCTCCCACAGGCTAATTTAAATGCACATATTTTAAATTTTTGTTCCCACAGGGTACAATGCTTTCCTCGA
TCAGGACTTAACACACAACTCCAGTTGTTCATTTAGATGTTAGTCTTTGCTGCTAAATTATAAGTTGCCTGAGAGCAGAGACTATGTCTTATGCAAAATT
TTATATTTAGTGCTTGCACAGAGCCTGACACAAAGTAGGCACTCACAACTGTGCACTGATTCCTGTCATTTACTGAGAATTGGAAGAAAAAAAGAAGAGT
TTGCTTGATAGGTAAATGCCTAATGCCCTCAAGGAACTTTAAAAAATTCCTCTTTGTTTTGACTGAGAGACAGAACCCAGAAAAACAGAATGCCCTGTCT
TAAAACAGAGAGAGTTCAGGTAGAAGTACCTGGAGTCAGAACTGAAGTTCGTATTCAGGGAGGTCTCAGAGGATCAGCAAGGCACTGAGGCTGGAGAGTA
GGTTATATGAGTTTGTGAAAGGAAAATATCTTGAGCCCCCAAAATCAGTAAGCTAAAAAGAAAATTCAAACTGGAAACTGCTCAGGACAAACCTACCTCC
CATTCTATTCAAAGCCATCCCTCTGCTCATTGAAATAGATGCATATTCTGATTGCCTCCTTTGGAAAGGCCTATCAGAAATTCAAAAGAAGGAAACCATC
TGTCTCTCACTTACCTGTGACCTGGAAGCCCAACCCCCTCCCCCCTGCTTTGAGTTGTCCCCACCTTTCTGGATGGAACCAATGTACCACTTACATRTAT
TGATTGACGTCTCGTGTCTCCCTAAAATGTATAAAACTAAGCCGTGCCCCAACCACCTGGGGCACATGTCATCAGGGCTTCCTGAGGCTATGTCACAGAC
ACACGCCCTCAACCTTGGCAAAATAGACTTTCTAAATTAACTGAGACCTGTCTCAGATTTTCTGGGTTTACATTTTGGTAACCATGAAGGGATTCTGGGT
GAAGATGCCCCTGACCTTTGACAAATGTCCTATTGGTGCTTGGTACCAGCATGAGCTAACTTTACGGCTCAAACCAACAGGACAATTTGCTGAGGTCTGA
GAGCACCCCCTGCAGAGAATCCCTGATTTCCAAAAATTTGGTTGAGATCTAAAATTTATTTTCCTGTACAACTCCTCTTTTCTTTGGAATTTTACTTGCT
TCCAACAAGGAAGGCAAGTTTTCCTGCTTCCATGATGATGGAAGGCAGGAAACTCCTTAATGGAGTTTGAGCTAGCTTCTAACAGGGAAGATGAGTCTTT
TTTTTCCTGCTTCTAGAATTGTAGAGAGCAGTCTACAGCCTGAGACACACCACTAGGTAAGAAACTGGTCTGGGATTCTGTCTGGCAAATTATTTTTAAA
TGACTAAAGTTAGCATTAACAACCAGCTGGTGTTAATTTCTGCTTACACTTAGAGCATTCAGAAATCATTTAATTTGTGTGATCATTGTTAGTTTTGCTT
AAGTATTTTGTTGTTTGTTTCTGTCTTGTTGGGTTTTGTGTGTGTGTGTGTTTCGGTCCTTTCCTTACCAGATTTGACCAACTCCAAACCCTATACCTCA
TGAGTGTGGAATCTTCCACTCTGAAGAAATAAGAGCACCTTGCTCCCCTGAGCCTTTAGGGGCATTCTCAGGTGACTGAGAATCACGTGAGGGTGTCTGG
GAGGAACGCTCCCTAGACCTGCAGCGGCTTTAAATAGGTTTTCCCCTCAGGAGAACATTCTTAGGGCCTAATCTCAGCCAGCAGGTGCAATATAAGGAGC
TGGCTCCGCCCGCACCTTGAGCCCCTGGCACACTGTGCCAGGTAGCTGCAACACAGGTGGACCAAACTGGTTCAGGGTGTAACGGCCCTGAAAAGCTAGG
TCTGCAAGCAGCACATTTTGGGTCCAACACACATCCTGACTTGGTCAAATCCGAAGGGGAACTCTAAATTATGGGTAACAAGCCACTGAAGTGGCTAAAA
TACCCACACACACAAAAAAAGGTGGTATGGGCCAGGCGTGATGGCTCACACCTGTAATCTCAGCACTTTGGGAAGCCAAGGCAGGCAGATCACGAGGTCA
AGAGATCAAGACCATCCTGGCCAACATGGTAAGACCCCGTCTCTTCTAAAAATACAAAAATTACCTGGGTATGGTGGCACACGCCTGTAGTCCTAGCTAC
TCAGGAGCCTGAGGCAGGAGAATTGCTTGAATCTGGGAGGCAGAGGTCGCAGTAAGCCGTGATCATGCCACTGCACTCCAGTCTGGTGACAGAGCAAGAC
TCCATCTCAAAAAGAAAAAAAAAAAGGTGGTATGGTGGGGGGAGAAAAATGGCCAGCAAAAGGAAACAAAAAAAGAGGAAAGAGAAAAGGAAACAAAAAA
AGAGGAAAGATTTTTTATTTTGACTATTAAAGGGACTTTATAATGTAACAAGGCCACCTTTTTGCCAGCCAGACCAAATTGAAAGCATTGGCTGGCCCCC
CACACTGCAGTTCAATAGCTAAGGTTCTGCCTTCTTTTTTTCTACTATGACACGTTTGGTTCCTAAATCAAGCCCTTGCTGGTTTGATACTTGGTACTTC
TGAAATAGCAGCAATTTGTCTTAGCTGAAATATAGTAATGAGATTTAAAAATATTTTTTTAAAAAGGAGCTCAATGGTTAAATGTCAGCTTAATTAAAAG
CTATCATCCAAGATATGTGTGTGTGCATAAGTGCGTATTCGTATTTAAAAGGCCTTTTTGTTTTTGTTTTTCTCTTCTAGAACCTTGTATTTTTTTGAGC
AAAAGTTTTTTTTCTTCTGAGTTGACTGAATTCTGTTTTCACCTGATTTTTTAACTAAAATATTTATTGCAACAGAGGC


SNP Information

Context             (SEQ ID NO:52351):
AGTCTGATCAGTTCTGCAAGATGCCCATCAACAACAAGATGGCCCAGTGGGGCAACAAGCCTGTATGCTGAGCAGGAGGCAGACTTGCAGAGCTTGTTTT
K
TTTCATCCTGTCCGTAAGGGGTCAGCGCTCTTGCTTTGCTCTTTTCAATGAATAGCACTTATGTTACTGGTGTCCAGCTGAGTTTCTCTTGGGTATAAAG
Celera SNP ID:            hCV8847900
SNP Position Genomic:     9980
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:52352):
TCTTATTGCTTTTCTTCTAGCTCACCTTTGTGGATTTTCTCACCTATGATATCTTGGATCAGAACCGTATATTTGACCCCAAGTGCCTGGATGAGTTCCC
R
AACCTGAAGGCTTTCATGTGCCGTTTTGAGGTGACGTTTCCTGCACCTTTCTCTTATAAAAACACTCACAGGCTCCCCTGGGACCTGCAGGATCCCATAG
Celera SNP ID:            hCV26628687
SNP Position Genomic:     9534
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52353):
AAGACGTAAAAAGAAAAAACCATAGGCTGCTCTGCCTGTGGAGTAACCATTCTTTATTCTTTTACTTTTTAAAATAATAACAATCACAAAGGAAAGATTT
R
CCAATTGAATAGGATCAAATTCTACAACTTTTCCTAAGGCACCCACAAATAAATGACAAGTGAGACAAAAAGCACTAGTATAAAGATTATATAAAGACCT
Celera SNP ID:            hCV8847901
SNP Position Genomic:     10670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52354):
CTTGGAAGAGCTACCTGGACAACTGAAACAATTCTCCATGTTTCTGGGGAAATTCTCATGGTTTGCCGGGGAAAAGGTAGGAAGAAGGGAAAAGAAGAGG
A
TACTTCTCTATCTCTGCAGGCTACTACTCCTCAGACCTAAGCATCTTATTGCTTTTCTTCTAGCTCACCTTTGTGGATTTTCTCACCTATGATATCTTGG
Celera SNP ID:            hCV26628688
SNP Position Genomic:     9390
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52355):
AGAAGTTACCCTTAAGCTAGGATGTTGCTCAGAAGTGACCATCCCAACTTTGGTGCGGGCACAATAAATCAGCCTAAATGTCCCTAATTTAACCCAGCTC
R
TTATAATGTCATTAAACATGACATTAGCATTGTGGTTTTAGCACCCCCATGGGTTTTGCTTAGGCACTCATGGGTAATAACCAAGATGGAGTCCCTTTGG
Celera SNP ID:            hCV27468536
SNP Position Genomic:     12781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52356):
ACTTGGAAGAGCTACCTGGACAACTGAAACAATTCTCCATGTTTCTGGGGAAATTCTCATGGTTTGCCGGGGAAAAGGTAGGAAGAAGGGAAAAGAAGAG
G
ATACTTCTCTATCTCTGCAGGCTACTACTCCTCAGACCTAAGCATCTTATTGCTTTTCTTCTAGCTCACCTTTGTGGATTTTCTCACCTATGATATCTTG
Celera SNP ID:            hCV26628689
SNP Position Genomic:     9389
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,6)   total(G,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52357):
GGGCCCCGCCCCCTTATGTCGGGTATAAAGCCCCTCCCGCTCACAGTTTCCCTAGTCCTCGAAGGCTCGGAAGCCCGTCACCATGTCGTGCGAGTCGTCT
M
TGGTTCTCGGGTACTGGGATATTCGTGGGGTGAGTGCCGTCTCAACGGTAGAGCCGCTCGGTCAAAGAGACTGACGCGGAGAGGGCGGGTCTCTGGGTCC
Celera SNP ID:            hCV27830710
SNP Position Genomic:     6752
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,18)   total(A,53|C,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:52358):
TCACCTTTGTGGATTTTCTCACCTATGATATCTTGGATCAGAACCGTATATTTGACCCCAAGTGCCTGGATGAGTTCCCAAACCTGAAGGCTTTCATGTG
Y
CGTTTTGAGGTGACGTTTCCTGCACCTTTCTCTTATAAAAACACTCACAGGCTCCCCTGGGACCTGCAGGATCCCATAGTGGAGGATTCTTCCCCGGCTT
Celera SNP ID:            hCV25922626
SNP Position Genomic:     9555
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,6)   total(C,35|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52359):
AAGATCACCCAGAGCAATGCCATCTTGCGCTACATCGCTCGCAAGCACAACATGTGTGAGTGGGGTAGGGCTGGTGAGGGACCCCAGGCTGGTAGTTTGT
C
TGAGAGTGGATGATGCCAAGGGTGATTTGTTGTCATTTGGCCTACAGGTGGTGAGACTGAAGAAGAAAAGATTCGAGTGGACATCATAGAGAACCAAGTA
Celera SNP ID:            hCV11618662
SNP Position Genomic:     8782
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,11)   total(C,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52360):
TGAGGTGAGAGGATCAGTTGAGGCCAGGAGTTTAAGACCAGCCTGGGCAACATAGTGAGACCCCTGTCTCCCAAAAATTTTTTTTAATTAGCTGTGCGCA
R
TTGCTCATGCATAGTCCCAGCTACCCAGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAATTTGAAGCTGCAGTGAGCTGTGTTCTTGCCACTGCAC
Celera SNP ID:            hCV8847908
SNP Position Genomic:     11693
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52361):
CCATAGTGGAGGATTCTTCCCCGGCTTTTGCCTAATGGGATCAATGGTTGGACACCTCTAGACCTTTAAGTCTTGGGAAGAGCCTAACTTCTATACCTTG
R
AGGCACTGTCTACAAAAAAATGGAGGAGGTAGACGCAGGCAACACGTGAATGTTGCTGTTCTGGTATGCATCTGTTGGACTGGGTTGGGGTCGTTATAAG
Celera SNP ID:            hCV3184520
SNP Position Genomic:     9729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52362):
GTGCTTTTCGCGTCTTCACTGGCACCATTAATGAATGAAGTCTGGCTCCCACCCGCGGGGAAGGGAGGAGCCTCAACCTCGGGTCCTTTGCTCTCCTGCA
S
CACTCCTGCCCGGGTCCCGCCTCGGGGTCGCCAGGCCCTGAACCCCAACGCCGGCATTAGTCGCGCCTGCGCACGGCCCTGTGGAGCCGCGGAGGCAAGG
Celera SNP ID:            hCV27840394
SNP Position Genomic:     6509
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,38)   total(C,1|G,75)
SNP Type:                 ACCEPTOR SPLICE SITE


Context             (SEQ ID NO:52363):
TTTAGTAGAGGTGGCGGGCAGAAGGGAAAGCCTTCAAGTATATCCATCCTTGCCTCTCTCCTGCCTGGTACAGAAGGATGCAAAATAGGGGATCTTAACC
Y
GGATAGAATAAATAGAATTCAGGGGTCCTTGAACTGGATGGATATGTATTTTCATTCCCATTAACCACTAGCAAAAGTTATTTCCTTTTATTGTGAAGAG
Celera SNP ID:            hCV3184521
SNP Position Genomic:     7702
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,25)   caucasian(C,17|T,17)   total(C,22|T,42)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52364):
CATCTGTCTCTCACTTACCTGTGACCTGGAAGCCCAACCCCCTCCCCCCTGCTTTGAGTTGTCCCCACCTTTCTGGATGGAACCAATGTACCACTTACAT
R
TATTGATTGACGTCTCGTGTCTCCCTAAAATGTATAAAACTAAGCCGTGCCCCAACCACCTGGGGCACATGTCATCAGGGCTTCCTGAGGCTATGTCACA
Celera SNP ID:            hCV29185416
SNP Position Genomic:     16997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:52365):
CGCGCCTGCGCACGGCCCTGTGGAGCCGCGGAGGCAAGGGACGGAGAACGGGGCGGAGGCGGAGTCAGGGCGCCCGCGCGTGGGCCCCGCCCCCTTATGT
M
GGGTATAAAGCCCCTCCCGCTCACAGTTTCCCTAGTCCTCGAAGGCTCGGAAGCCCGTCACCATGTCGTGCGAGTCGTCTATGGTTCTCGGGTACTGGGA
Celera SNP ID:            hCV3184522
SNP Position Genomic:     6671
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,5)   caucasian(A,12|C,18)   total(A,41|C,23)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): caucasian(A,10|C,2)   total(A,10|C,2)   
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,7)      total(A,5|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:52366):
TGTATGCTGAGCAGGAGGCAGACTTGCAGAGCTTGTTTTGTTTCATCCTGTCCGTAAGGGGTCAGCGCTCTTGCTTTGCTCTTTTCAATGAATAGCACTT
M
TGTTACTGGTGTCCAGCTGAGTTTCTCTTGGGTATAAAGGCTAAAAGGGAAAAAGGATATGTGGAGAATCATCAAGATATGAATTGAATCGCTGCGATAC
Celera SNP ID:            hCV25474113
SNP Position Genomic:     10041
SNP Source:               Applera
Population(Allele,Count): african american(A,19|C,5)   caucasian(A,34|C,4)   total(A,53|C,9)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52367):
CCAGATTGCCATCCCCTATGGACCAGAAGCCAAGGATCTCTCTAGTGATGGTCAGAGGGCCCAAATGGCAGGGATACCCAGTGATGTCAGGAGGAATAGT
R
CAGACAGAAGGTGCTAAGCAGACAATTCAACTGCCATGTTTTGCCACCCCCTGTGAGCAGGGATTAGGTGTTCAGGCCAGTATCTTGGGCATGGGGGAGC
Celera SNP ID:            hCV3184516
SNP Position Genomic:     12239
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:52368):
ATATTGATGAAAATGTAAGAATTTTTGTGACCACGGGGTAGGAGAAGTTTCTTTAAAGACGTAAAAAGAAAAAACCATAGGCTGCTCTGCCTGTGGAGTA
R
CCATTCTTTATTCTTTTACTTTTTAAAATAATAACAATCACAAAGGAAAGATTTACCAATTGAATAGGATCAAATTCTACAACTTTTCCTAAGGCACCCA
Celera SNP ID:            hCV3184517
SNP Position Genomic:     10615
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,8)      total(G,8|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:52369):
TTCCTTTCAGGCTTTGGAGAAAATCGCTGCCTACTTACAGTCTGATCAGTTCTGCAAGATGCCCATCAACAACAAGATGGCCCAGTGGGGCAACAAGCCT
R
TATGCTGAGCAGGAGGCAGACTTGCAGAGCTTGTTTTGTTTCATCCTGTCCGTAAGGGGTCAGCGCTCTTGCTTTGCTCTTTTCAATGAATAGCACTTAT
Celera SNP ID:            hCV3184518
SNP Position Genomic:     9942
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,22)   caucasian(A,11|G,27)   total(A,17|G,49)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;Scottish male and female non-demented controls for non-familial Early Onset Alzheimers |isease study(A,200|G,455)   Scottish male and female non-familial Early Onset Alzheimers |isease patients(A,132|G,341)      total(G,796|A,332);(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52370):
TACCTTGGAGGCACTGTCTACAAAAAAATGGAGGAGGTAGACGCAGGCAACACGTGAATGTTGCTGTTCTGGTATGCATCTGTTGGACTGGGTTGGGGTC
K
TTATAAGATTTGGTGTATTTTCCTTTCAGGCTTTGGAGAAAATCGCTGCCTACTTACAGTCTGATCAGTTCTGCAAGATGCCCATCAACAACAAGATGGC
Celera SNP ID:            hCV3184519
SNP Position Genomic:     9822
SNP Source:               Applera
Population(Allele,Count): african american(G,21|T,5)   caucasian(G,26|T,14)   total(G,47|T,19)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52371):
ACATCATAGAGAACCAAGTAATGGATTTCCGCACACAACTGATAAGGCTCTGTTACAGCTCTGACCACGTGAGTTTCCTTAGCACACATCTGCTGAATGG
M
GTATCAGAAAAAGGGGTATTTAGGAACCCAAGGGTTATCTCTGTTCCATTCTGCTGCTGCTACCTTCCCACCAATCCAGATTGTTAGAATAAGAAACAGA
Celera SNP ID:            hCV25623490
SNP Position Genomic:     8963
SNP Source:               Applera
Population(Allele,Count): african american(A,31|C,1)   caucasian(A,36|C,2)   total(A,67|C,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:52372):
TACTTGGAAGAGCTACCTGGACAACTGAAACAATTCTCCATGTTTCTGGGGAAATTCTCATGGTTTGCCGGGGAAAAGGTAGGAAGAAGGGAAAAGAAGA
G
GATACTTCTCTATCTCTGCAGGCTACTACTCCTCAGACCTAAGCATCTTATTGCTTTTCTTCTAGCTCACCTTTGTGGATTTTCTCACCTATGATATCTT
Celera SNP ID:            hCV26628690
SNP Position Genomic:     9388
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Gene Number:                 253
Celera Gene:                 hCG40302 - 104000116756608
Gene Symbol:                 BAT2
Protein Name:                HLA-B associated transcript 2;D6S51;D6S51E;G2
Celera Genomic Axis:         GA_x5YUV32W6W6(4645024..4683473)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12413):
CAAATTAAAATGTTTTGTTAGACATTTCCATATTTTTAAGGGCCTCCTTGGAGCTGCCAGGCTGGGAGTGAGGTTTCTCTCCCTTTCTAAACCCTGTGCC
CATCTTGTCACCCTCCTGGAGCTGCCAGCAGACTTCAGATTCTTCTCCGATCTACAGAGCAGAAAAATTCAGCCAGCCCTTCCTTGTCTTCCTATCCACA
GCTGCCTGCCCAGACTCATGAAACCTGACAAAATGCAAGGTCTTATCATTACCTGAACCTTGGACCTGTTCAAAAATACTAGTTCCTGAGAATAAATATC
CCTGGTGTCTTCCTGCCCTTCCTGCACACCTCCAGTGGCTTATCAAAATATTTGTTTCATGCGCACACTGGGCTCTCATTTAAGAGGAATTTGGGAGAAT
GTTATTTTCTAATCTGCATTTCACACCAGGCTCCCCCTCCTTCCTGGGGTGCTAGTGTCAGCAGAACCTGATGGGGAAGTGAGGTCTGGGAGGCAGAGGA
GGAAGGAATGAGGGGAAAGGGGAAGTTTGGGAGGAAGGCTTCTGAGAAGACTGGTGGGAGAGAAGGAGAGCCTGCAGACAGAGGCCTCCAGCTTGGTCTG
TCTCCCCACCTCTACCAGCATCTGCTGAGCTATGAGCCAAACCAGGGATTTACAGGGTAGGGAGGGTGGGATAGGCAGCGGCATTAGATCRGAGGAATGA
GATGGACAGACCTGGGCTGTGGGCTAGGAGGGCAGTCAGCTGGCCTAGGGTAGCCCGGGCTGGTGTCAGGGTAAGGAGAGGAAGGGAGGGATGAGGGCTG
ATTAATTTTTTTCACCCCACAGGAGGAAAAGCTTTCRGACTGCTGAAGGCCCAGCAGGAAGAGAGGCTGGATGAGATCAACAAGGTAGAAGGAAGAACTA
AGGGGGCAGAGCCAGGGGGATGGGGCGTGGATGGGGAGGGCCTACCCTGGCTCTTATTTTCCCCTCCATAGCAATTCCTAGACGATCCCAAATATAGCAG
TGATGAGGATCTGCCCTCCAAACTGGAAGGCTTCAAAGGTGAGGGGGAAACTGTAGGCGGTGGAGACAGGGCTGGGGGTAGGAGGGTTAGGATTTCCACA
AGAACAAGGCAGGAACAGCAGAGATAAAAAGTTTACTTTTGTGGTAGCAAAAGGGGAACCTGCCTTTATTGCCCTCCTGCCACACTGCGGTCCCTTTCCC
GGGCCTGCCTCTCTCAGCATCCCCTCTAGCTCCTTACACCCTAGCGGGGCCCCTCAACTCCCCAACCCCACTTCCTCTGCCTGCCCCTCCTCCTCCTTCC
ACGTTGTCTCCTCCACCTAGCAGTTGGTTGGCAACCCCTTCCTCAGTCCCCTGCTGAAAACCCTCCAGTCAGCGCTTATCCCTTCTGCTCTCTCCCCTCA
CCCAGAGAAATACATGGAGTTTGACCTTAATGGAAATGGCGATATTGGTGAGAAAYGGGTGATTTGCGGGGGCAGGGTGGTGTGCAGGCCTAAGAAGACA
GAGGTCTCTCCTACATGCTCCATTCCTCATGATTTGGGAGGGGGCCCACCTACCACAGTGGGAGGAAGGAGAATGGGGATGCGGAAGTGGGAGAGGAGAG
AGAGGGTCTCCCCACCTTCTCCCCATCCCCATCCTCTGCCCCCAGATATCATGTCCCTGAAACGAATGCTGGAGAAACTTGGAGTCCCCAAGACTCACCT
AGAGCTAAAGAAATTAATTGGAGAGGTGTCCAGTGGCTCCGGGGAGACGTTCAGCTACCCTGACTTTCTCAGGATGATGCTGGGCAAGAGATCTGCCATC
CTAAAAATGTGAGTGTCAATTTCCAACCTCCCCTGTACTTACCTGTTTTCTCCTCCCCCATCCCTACCCTTGTCCACAGGCTCAACATTTCTACACGTTG
CCCATCATCCCTTCTTCCATCCTTAGAGGGACCCTTCCAAGGTCCCGACCCCATCCCTATCCATAGTCCTGGTCCCCAGAAACTCCAACCCCTGCCCTTC
CTCTTCCCCCTTCCACCCTCACATCCCCATCCCCTTCTAGCCTTTCCTAGCACCCTATGATTTATTCCCTTGAGAGGAGTGTTCCCTGATCCCTGTGCCT
CTTCCCATCTCAACCAGGATCCTGATGTATGAGGAAAAAGCGAGAGAAAAGGAAAAGCCAACAGGCCCCCCAGCCAAGAAAGCTATCTCTGAGTTGCCCT
GATTTGAAGGGAAAAGGGATGATGGGATTGAAGGGGCTTCTAATGACCCAGATAYGGAAACAGAAGACAAAATTGTAAGCCAGAGTCAACAAATTAAATA
AATTACCCCCTCCTCCAGATCAAGTCAGCTTAGTTTTTATTTGGGTGATTTTTTTCCTGGGTTTGGGAAGGAGAGACAGGTCTTGAGGGAAAGGTGGCAA
GGATTTGGCCATATGAACAATCCATCAACAACGCTATAGTGTGTCCACTACAGCAGATGGTTTCACGCACCAAGGGGGATTCCAGCTGTGTAAGACAGCC
TTAACCTCAAAGAATGCAGGCAGGACAAAAACACATGTCCAAACAAGGTACTCAGGCCCATGACAGATTTCATGAAGAGCAAGGAATACCATGAACCAAC
ATTCTCCACCACTATAAGCTTTGTCACTTTGACAAATCACTCAGCCTCTGTGAGGCTTTTTTCTAAAAATGGGGATAAAGTGACCTATGCTATTGTGCCT
GACATATCATAAGCCCTCAATAATGTTTAAAACTTGAATGAGCCGGGGCCGATGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGATGGGGTGGGCAGA
TCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACGAACATGAAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCTGGTGTGGTGGCGCATGCCTGT
AATCCCAGCTACTTGGGAAGCTGAGGCAGGAGAATCTCTTGAACCCAGGAGGTGGAGGTTGTGGTGATCCGAGATCGCATCATTGCACTCCAGCCTGGGC
AACTAAAAAGCGAACTCCGTCTCAAAAAAAAAAAAACCGAACATACAAACAAACAAAAAACACTTGAATGGGTAGATGAATGAAAGAACTGGTGCTATTA
AATAAAGCAAAGAATTTACAGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTCAGGAGGCCGAAGCGGGCAGATTACCTGAAATCAGGAGTTGG
AGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAATACAAAAAATTAGCTGGGCATGGTGGCAGGTGCCTGTAATCCCAGCTACTCGGGAGA
CTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCGGTGAGCCGAGATCACGCCATGGCACTCCAGCCTGGGTGACAAGAGTGAGACTCTGTC
TCAAAAAAAAAAAAAAAAAAAAAAAAAGACTGGAAGGAGAAACTCATTGGAGACAATGACTATGGACATCCCTTTTAAGAATTTTGCTGCAAAGGGTAAC
AAAACGGTATGTGTGGTAGCCGGCCGGGGAGAAGGGAGAAGAGAATCATTTTGGAAGTTTGAAAACAGAAGTCATCTTAAATCTTACTGAGCCTCTGACT
AAAATTCTCATCTGATTTCTGCAAACTTTTCTGCCTTCACTTTTCATAATGAATAAGCCGCCTCCTTTATTTAGCCATATCAGCCTAGGCACAGGCCCCC
AAACTCATGCCTCCACTAATCTGTTCTCTGCACCTGAGATGTACACCTTCTTCTGAAACTTGGGTAAGTTCTAACTCGTTCTTCATATCTATTTATTTAT
ATATTTTTGACAGATATCTACTCCGATCATTCTTCATATCATTTTTTTTTTTTTTTCCTGAGATGGAGTCTCATGTTGGCCAGGCTGGTCTCCAACTCCT
GACCTCAGGTGACCCACCCACCTTGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCTCCCGCTCCCGGCCCTTTTTTTCTTCTTTTTCTTTT
TTTTTTTTTTTTGAGACGTAGTCTCACTCTGTCGCTAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCCGTCTCCCAGGTTCAAGCGATT
CTCCTGCCTCAGCCTCCCAAGTAGCTGAGACTACAGGCACGCGCCACCAGTCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTTGCCATGTTGGC
CAGGATGGTCTCCATTTCTTGACCTTGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCCAGGACTACAGGCATAAGCCACCACGCCCGGCCTCATATCTCT
TAATAAGAGTTTTTCTAGAAACATTTCTCAATCACCCCAGGCATAATCATATTTTATTTCTCTACTTCTTTCTTTTTTTTTTTTTTTTGAGATAGAGTTT
CGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTTGGCTCACCACAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCCGACTCAGCCTCCCGAGT
AGCTGGGATCATAGGCATGCGCCACCACGCCTGGGTAATTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCGTGACC
TCAGGTGATCCGCCCGCCTGAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCATCCTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGA
CGTAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAACCTCCGCCTCCCTGGTTCAAGGAATTCTCTGCCTCAGCTTCCCGAGTAGTTGGGATTACAGGCGC
CCGCCACCACGTAGGGCAAATTTTTGTATTTTTAGTAGAAATGGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGATCTCGTGATCCACCTGC
CTAGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCAGGCCTTATTTCTCTACTTCTATAATATCCTGTGCATTATCTCCAGCGCCTTCA
AATCATAGTCATTGAATGATCTGTTGAATGGGTATAACTCTGATGGGAGCAGAGAGTTCTAGAATCGGGTAGTAAGAGACAAAGGAGGGTAACAGTACTG
CATTTCACAAAATGAAACCCATTGTTAAGAAATTACAAATTCCCAATAATTTCAAATATAAAAATTTATTCATGAAAATTATAGGTTATAAAATTAAATG
TCCGTCTTAGTCGATGGTTGCCCATATTTTGATGAACGAGTCATTCCTAGCCTATCTTTGTTCAAATGATTTGCATACATTATGCAAATAGGTAGAACTG
CCCGAAGAATGCCTACGCTGCGTGGTGCGGACGAAACGCTTCCCGGGGCCTTTGGATTGGTCTGTCTAGCCACCTCATTTGCATGACGTAATWTAATAAC
TGGAAGGCCCCGCCCCTCTGGTGCATTTCCCCGCTCCAACCACCTCCTCAAACTCACGGCAAAGGGATGCGAGAGCTGGAACTCTTACCAGGCCTGCGGA
AACTCAGCCCTCCGGCAGCTAATCCCGCCCGCCAGCCCCCGTCCTCTCTCTCTTTCTCCCTAGCTGAAGGCGCCACGGGCCGTGTGTCGTTGCCTTCCAC
TTTTGGCGTCCCAACGTCTCTCCGCTCCCATCTTTCTACTAACGTCCGACGCACGCTCCGCCTCTTTCTCCCACATTCGTCGTGTAAATTCTGCGTCCCA
ACCGCCCAGCCGACCTGCACCGCATTCCCGCCCCCTCAACACGGCTCAACGGCCGACGCTGGGGGCCCGCCTCCTTAGCCAATCGGGGTCCTAGTGCCCT
TAAGTCCCTCCTCTTTATGCAAATAACCTCCGCATGCTCCGCGCGCCCGGCCCTTTTTTTTTTTTTTTTAAACTAAAGACAGCCCTGGAAGTAGAGGGTT
AGGGTAKAAAGTGCCCCGCCCTTTATGCAAATTAAGGGGCGTGTCTAGGCGCGGAGGGAGGTGGGAGGTGGGAGGGGGTGCTCCCGGGGGCGGCGGTTGC
CCGGATGGGCCGTTAGTCGGGGCTCAGCCGCGGAGTGAGCGAGGGAGACGGGAGGAGCCGAACCCGGCGCCATCCGCCGCCATCCTCCCCCGCCCCACCG
CCATCCCGTCCCGGGGAGCCCCTAGGCCCGGGTCCCGGATCCCCGCGCACCCGGCCAGKTGAGTCTGGGTGAACCGTKCSCTGACGCCCTTTTCCGGCGC
GGGAGAGGTGGTGGCGGTGGCGGTGGCGGCGGCGGCGGCGKTGGTGGGCCGGGGGGAGGAGAAGCTGCCATTAGCCGCCGCCATTTTGTCCTCCTGCTGC
CGGGCCTGCTTGCCCCTCCCCCTCCGGTACCTCTACTCCGGGACCCGCACCTCCGGCAGTTCATTCAGGATCCGTAGTCTGCCCCTAACCACCCACCGTC
TTGGCTTCAGGGGGTGACCCCTGCGCCTGGGTCCGTAACTCCCTACCCTCCGCTGCGCTCCTGGCTTTTCACCCCCATTTGTGGGCCCCCTCCCCGGCTG
CCGCCCCGTGGTGGGCCGCGCCCGACGGTTCTCTCGGAAGGGCGCTTTTCCTCCATATTGGACCCCCTCCTATCATCCAGCGCTGTGTTCCCCCCTCTGG
ACGCCCCTCTTCGTGTCGAGCCACTCCCACTCTAGAATCCTGCTTTTATCCCAGCATCTTTGCTTTCTATGTTGCTCAGTCGCCCTATGTCTGCTTTTTC
ATTTTTCCTKKTCCTCGTCTCCTTTCTCCCCCAACCCCGTTTTTCTTCTTGGGCCTCTGCCCCCTTACTTCGTTGTCTACATCCTTTTTTTTTTTGCCAT
TCCTGTTTCCATATATTTTCCACCTGCTTTCGTATTCATTATTTTCTGTTAGTTTTGGTCTATTCGCTACATGACTCTTGTATTCGTTTTCCCTTCATAT
ATTTATCTTCACAGATTGGCCTCCTCAAACACCTACGAAGCAACATCCATCTTATCTCTAGCTTGTCATAAAGTTCTTTCTCCCCAATTTTAGCTTTCAT
TCTGGGCCTGTCTGGATTTCCCTGCTTTCTTCCCCACTATTTCTCATCTCTTTACACTGTTCCCGTCCATAAACGAATGCCTGGTCACTCTGGAATGGAC
TGAGAGACCTGTCGTCCGGCTTGCTTAGGGAGCTGGAGGTATCGAGTAAAGAAACACTGGTGATGGACATTTTTAATGAGGATAGGAAAACGRAGRTGGC
TCTGGCCTTGGCCCTCTGTTTTCTGGCCCATGGTTACAGGGTGCTAAGGTGGCTYCATAATGCTTTTTCTCAGTTCTTCATATGGTAAAACAGTATTTCA
TCTGGAGGCGATTTTTTCCAGGAGCCAATACAGGAGCAAGTTTAGGAAAAGATGGGATATTTCAAATACTTGAGGTTCCTATAGCCTGGGAGTATGTACA
GCCCTAGTTGTTCTATGAGGATTTCTCTGGTACCAACCCCCATTCCGGCTGAGCAAGCTCATAAAATCCTTAAACTCCCAGCATACCTTCCTGCAAACCT
TCCCAGATGGACACGAGGCTGCTGGGCTGGGAGCCTGGGGTACAGGGCCCTGGGGGCATGATTAGGGAGCTTGTGTCCAATAAACAGGGAATCTAAAGTG
TTGTTTCTTCTTCTCTGATGGAATTGTATGCTTCTTTTTTAGTTTTCTCTTGCTTGAATTTGTCCTGTTGTAAGTCTCTGAAACGATTTTGGTGGAGAGA
GAAGAGATTATTACTTGTAGGGAATTACTCTTTGTAGACAGGCACAAAGGGCAGAGTGTTTATACTAGGAGGATGCTGGATTTTTACTTAGATTTCCTTG
ACAAAGKTGTCTGGGGGAAAGGAGGGAACATGGCATTTGAGCTATGAGGGAGCTAAGTAGATCATGGTTGCTTRAGAAGAGTGGGCAGTTTACATAGACT
GGAGGAAAAGACACCAGAGGGCCTCATATCTGAGTCCCTAATGATAATGCAATGGAGTTTTTAAGTTTCTGTTATGGTCTGTACAGGGGACAGAGACTGA
GACACTTGCTGTCTGGCCCACAGGCTCTGGCACGTTTTGGGGGAGGTGCCTGCAGGACCCAACATACTCAATGAGCTTCCAGCGCAATGTCCGATCGCTC
GGGGCCGACTGCCAAGGGAAAGGATGGAAAGAAGTATTCCTCGCTCAACCTGTTTGATACGTATAAGGGCAAGTCCTTAGAGATCCAGAAACCCGCTGGT
GAGAGTCCTGCAAAGATGCTTCTGATGGTTGAAAGCTAGGCATGCATGGGGCATACGTTTTAGAGYTCTTTAAAGGGAAGTGGCTGTAGTAGAAATACCA
AAAGACTAGAGGAGATTTCCCAACTTTACACTGGGTCCTTTAAAGGGGGTGTGGGCTCTGGGTGAACACCAGTTATCCTCCTACAAAGGCGTGTCTGTGG
TTCCCTGTCTTTGGACAYGTAAGAATTGGAGGAAAATAAAKGTGGATTTGGGAAACTTTGAGGCCAGCTTGCTTCTTGCAGGCTCATGATCAACCAATCT
CACATAAAAGTATTGAATGTTACATATCTCAGCCTTCTTGATAGGGATTTCATAGATTTTTTTTTTTTTTTTTTTTTTTTGAGACCAAGTTTAGCTCCTG
TTGCCCAGGCTGGAGTGCAATGGTGTGATCTTGACTTACCACAACCTCCACCTCCTGGGTTTAAGCGATTATCCTGCCTCAGCCTCCTGAGTAGCTGGGA
TTACAGGCATGCGCCACCACACCCGGCTAATTTTGTRTTTTTAGTAGAGACAGGGTTTCTCCATTTTGGTCAAGCTGGTCTTGAACTCCTGACCTCAGGT
GATCCGCCTGCCTCGGCCTGCCAAAGTGCTGGGATTGCAAAGTGTGAGCCACCACAATCAGCGCGATTTCAGAGATTATTAAGGGCAGGGGAAGGAATCC
CTTCTAAGAGAAGTTTGGAGGAAGTAGGTAATAAAATATTCAACATGTATAAATGTGTCCCAGGATAGGAGGCCATCAGATCTCCCACATGAGGCATTTT
CGACCCTCTCTCCGTCTTGTTCTCCAGTTGCCCCTCGCCATGGCCTGCAGAGTCTCGGGAAAGTTGCCATTGCCCGGCGTATGCSACCTCCAGCCAACCT
TCCAAGCCTGAAAGCCGAGAACAAAGGCAATGACCCCAATGTCTCACTAGTGCCAAAAGWCGGAACAGGATGGGCAAGCAAACAGGAGCAGTCCGACCCC
AAGAGGTAGACAGAGGCTTGGGGGACCTAGAGTGATGGGTATTTTAACTTGAACTTCAGGGAGCATTGGGGCTTGGTTTAGTCCAGCCACGTCTGAGCCR
GAGACGAAGAGGTCCCTTTCTTACCTRTTGCAGGTTCCTTGTTAAATGACTAAGGAATGGTACTAAACTTTAGCTTTTTGTCTTGGAGAGAGAGCATGAA
AAAATAGACAACAGCCTACAAAGGATGACAAAATTAWTTTGTCCTTRTATTTGTAAATGGTAGCAATGGGCATGATTTCAGTCCTGAGTCTCCACCAGTT
GGAGAAGTCAGGGAGGCATCTCAGGTGTGAATAACCTTCCCATTCTGTCCCCTCAGTTCCGATGCCTCAACCGCTCAGCCGCYGGAATCGCAGCCACTGC
CGGCTTCACAGACGCCTGCCTCCAACCAGCCGAAACGACCCCCAGCAGCCCCCGAGGTACCTGGAGAACTGGAGGGGTGGGGAGGAAGAATGGTTCATAG
CTGCCCCACCCACATCATTTATCATCTTTCTGAACACTTCCCCAGAACACTCCTTTGGTTCCAAGCGGGGTAAAGTCCTGGGCACAAGCCAGCGTCACCC
ATGGAGCACATGGAGATGGTGAGTGCAGCACTTAATTGGGGAGCTGTGTCTGGGCACCATGGGATGCATGAACCCTGCACTGTATTTTCAGCCAAGTGAC
CTTGGTCCTCTTTGGCTAAATCAAGGACCACCCATATTCAGTTTCATGGAGGCACATGAGCAAGTTTAAGTCTCAGTCTTATATGATGGAGTGTAGTGGT
GCCAGAACTGACCTCCTTGGGGAATAAGCAGTTATTCTGTAGSGGGGTGAGTTTGAAGGCGGGAAACCTGATGGTCTGGTACCTGTCAGAGCCTTCCACT
TTTTTTTTTTTTGAGACGGAGTCTCATTCTGTCACCCAGGCTGGAGTGCAGTGGYGCAATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGAT
TTTCCTGCCTCAGCCTCCAGAGTAGCGGGACTACAGGCACACGCCAACACACCCAGCTAATTTTTTGTGTGTTTTTAGTAGAGATGGGGTTTCACATGTT
GGCCAGGATGGTCTCGATCTCTTGACCTCGTGATCCGCYCGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCAGAGTCT
TCCACTTTTATAGCATGTCCTCAGGAAATGTCTTCTGTCTCCTGTTCTGCATCCCCATCCTAATAGGTGGAAGGGCATCAAGCCTACTGTCACGATTCTC
TCGAGAGGAATTTCCGACCCTGCAGGCGGCTGGCGACCAGGACAAGGCTGCCAAGGAAAGGGAGTCTGCCGAACAGTCGTCTGGGCCCGGACCAAGCCTC
CGCCCCCAAAGTGAGTGGCTGCCTTTTGGCCAAGACATTACCTATTGCATCTCAGAGCTAGGTGCTGGCTTATTCACCTTCCTCCCCATCACTTTCAGCT
GTGTTCACTTGTCCTCCAATCATTGATACCTCTCTCTACCTTTTCCAAAATACAGATTCTACAACTTGGAGGGACGGAGGTGGKCGTGGCCCTGATGAGC
TGGAGGGCCCGGACTCCAAACTTCATCATGGTCATGATCCCCGGGGTGGGCTACAGCCTTCAGGCCCACCCCAGTTCCCTCCCTACCGCGGAATGATGCC
GCCTTTCGTGAGTCTTGGTGTCTTGTCTTGGAACGATTACACTGGAAGCTGGAGAGCTAGGAATCAGGACTTAGTCTTTGACCTATGAGATAGARGGGAG
GGTGGGAGGATGATTGATAGCAGGCTTAAGGAGCTAGAAGGGTATATGACTGTCCCTCTGAGCAGCTACTGTTGGACCCTTTTACAGATGTATCCCCCAT
ATCTCCCGTTCCCTCCGCCCTATGGACCCCAGGGGCCTTACCGATACCCCACTCCTGATGGGCCCAGGTGAGCAATCCAGGTCTGGGTTTGTGGCTGGGG
GCAGGGGAAGCTTATTGGGGGAGGAGATGGTTTTCTAGCCAGGAGGCTCAGTCTAGGATCAGTCTCGCATGTGGTTATACAACATGCCATATTTCATTTT
CTTTTTTGTGTACAGCCGTTTTCCCCGTGTGGCGGGCCCCCGAGGCTCAGGGCCACCAATGCRCTTAGTAGAGCCTGTGGGTCGTCCCTCTATTCTCAAA
GAGGATAATCTCAAAGAGTTTGATCAGTTGGATCAGGAGAATGATGATGGTTGGGCAGGTAAGTGGATATTAAGGGTCAAGAATTTGGATCTTGAAAGGC
AAAACCTAATGAGGAAAAAAAAATACAGGGTTATGTGGGTGAAAGGCAGACATTGAAGTGTAGGAAGACCAGGCCCAATGGCTCACATCTGTAATCCCAG
TGCTTTGGGAGTGTTAGGTGAGAGGATCGCTTGAAGCCAGGAGTTCAAGACCAGCCTGGGCAACACAGCAAGACCCCCCACCTCTACAAAAAAAAAAAAW
TTTTTTAGTTGGGTGTGGACTGTGCATCTGTGGTCCCAGCTACTCTGGAGGTTGTGGTGGGAGGATCAGTTGAGCCCAGGAGTTGGAGGTCACAGTGAGC
TATGATCGTGCCACTGAACTCCATCCTGGGCAACAGAGCGAGACTTTTAAAAGGAAAAAAAAAAAARAGTAGGGGAGGATGGATGGGGAATACCAAGTCC
TTGCAAAGTGGTGAGAGGAGTAAGAATGACAAGACTTCATTGGTGGATCTAGACTTCGGAGGGAAGGATATTGGCATTGGTAGTCCATCTTGTTACATAG
TTCCAGACTACCTCCCAAGATTGGAGGGCAGAATGCTTGGGTTACTAATACTCATATTTCCCCTCAGGGGCCCATGAAGAGGTTGACTACACTGAAAAGC
TCAAGTTCAGCGATGAGGAAGATGGGCGAGACTCTGATGAGGAGGGWGCTGAGGGCCAGTGAGTTAGGGCCATCAGGGGAGAAGAGGAGGGGGTCTTGGT
TTGTATTTTGGTAATATACTCTTAGAGGAGTATATTAGTTGCAGCTGATTTTAATTTCACTGTTGATCTGCTCACAGCAGGGATTCCCAATCAGCTTCTG
GTGAGGAACGGCCCCCTGAAGCAGATGGCAAAAAGGGCAACTCCCCCAACAGCGAACCGCCCACTCCTAAGACGGCCTGGGCAGAAACCTCTCGGCCTCC
AGAGACAGAGCCGGGACCTCCTGCCCCAAAGCCTCCCCTACCCCCACCTCACCGGGGCCCCGCCRGGAACTGGGGCCCCCCTGGGGACTACCCAGTGAGT
GTCTCCAATAAGGGATTGAGAGGGTCAGCTGTGGGAAATTGGTGTCAGCTGAGTAATTGAAGCGGTTGTGATATAGAGGAAGGGGGGTGCTAAAAATGGG
CTGTGTGAAGTGCCAGGCTGCAGAACATCCTGGGAAGCTTTTAAATATCTTTGGTAATAGGGGAGTCTGGGTAAGAAGTGAGAAACTGGGATGCTAATGA
GGAAAGAAGAAAAAGGAGCCCTGGGTGTTTGGGTTTCGGAAGGAGAGAGGGAACAGAAAAATAAAAAGACTAGGGTGGCTAGATAGCTGGATCTGTTAGT
ATGCATCAGTAGTCCAAGCTACTCAGCAGGCTGAAGCAGAAGGATCACTTGAGCCCAAGTTCAAGACCAGCCTGGGCAACATAGCAAGACGTGGTCTCAA
AGAAGACCAGGATAATGAGTTTGTCACCACCCAGAGAGATCAACCCCAAAGCCTGGGTCGTTGCATCCTGCAAGTAGCGACAGTTGATTTGTYGTAAAAG
AGATGRTAGAAAGCATAGTAACTGATTCCCCTGGCCCTGCTGGGTCTTGCCAATTGACAGGATCGTGGGGGTCCTCCCTGCAAGCCCCCAGCACCTGAAG
ATGAGGATGAGGCATGGCGGCAGCGACGAAAGCAGTCGTCATCTGAGATTTCCCTGGCAGTGGAGCGGGCCCGGCGACGGCGAGAAGAAGAGGAGCGGCG
CATGCAAGAAGAGCGCCGGGCAGCCTGTGCTGAGAAGCTCAAGCGACTCGATGAAAAGTTTGGGGCACCTGACAAGCGGCTCAAAGCAGAGCCTGCTGCC
CCACCTGCTGCCCCTTCTACCCCAGCTCCACCACCTGCAGTCCCTAAAGAACTCCCTGCACCTCCAGCTCCACCTCCAGCATCAGCCCCAACACCAGAGA
MAGAACCTGAAGAGCCAGCACAGGCCCCTCCTGCCCAATCTACTCCTACTCCAGGTGTGGCTGCGGCTCCCACTCTGGTGAGTGGTGGTGGCAGTACCAG
TAGCACCAGCAGTGGCAGCTTCGAAGCCAGCCCAGGTATGGAGATGGGGATAGGTACTACCAGATGTCAGATCACTGCTTCAAGGTGCTTAAAGGTGCAG
GGTGGTAAGGCTGGGGATAAATGAAGTAGAAGGCAGTTGTTTTGGTTTATTGGACTRTCAGTGATAGTGTTCTATCATTTGTATATCTGAAGGAGGGAAG
GTTTTGTCTGGAATCTTAGGTTGTAGYCTAATACCATTTCTTGGCAGAGTACTGTAGCTCACGCCTATAATCCCAACACTTAGGGAGGCTTGGGGTGGAG
GATCGCTTGAGCCTAGGGAGTTTGAGACCAGCCTGGGCAACAAAGCAAGACCCTGTCGGCCAGGCATGGTGGCTCACACTTGTAATCCCAGCACTCTGGG
AGGCCGAGGCGGGCAGAACATGAGGTCAGGAGTTCAAGATCAGCCTGGCCAACATAGTGAAACCCGTCTCTACTAAAAATACAAAAATTAGCCAAGTGTG
GTGGCWTGTGCTTGTAGYCCCAGCTGCTTGGGAGGCTGAGGTAGTAGAAYCSCTTTAACCCGGGAGGCAGAGATTYCTGTGAGCCAAGACCATGCCATTG
CACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAATCCTGTCTCACAAGAAATACATAAATAAAAATGAAAACTATTTCCTATRGGCYAA
GACTGAAGAAAGTACTGTTGTTCTAATGGTTTCATAGAAAGTTAATGCCACCACCATAGGCTCATGAGAGGCCATGAAGTGCTTTAATGGGTCTTAAATG
GGAGGGGCTTCARTAGAATAGATGTTGAATAGAATATTTTAGTCTTAAGGGAGCTAGAGATGAGACGTGAGATTCCTGGGGTGTTCATGGAGTGTCTATT
GTTGGACTAGATCACTCTGTTGTGTTTTTTCCGATGCAGTGGAACCACAACTGCCCTCAAAAGAGGGTCCTGAACCACCAGAAGAGGTTCCTCCTCCTAC
CACACCCCCAGTTCCAAAGGTGGAACCCAAGGGTGATGGGATTGGTCCCACCCGCCAGCCCCCTAGTCAGGGCTTGGGCTACCCCAAATATCAGAAGTCG
TTGCCTCCTCGTTTCCAGCGGCAGCAGCAGGTGAAATCAAGTTGTTTACCCTCTAAGGGCTGCTTTTCTTCCTGGCTTCGGTCCCTAATTCTCTTCATAA
GTTACCTTCTGGGTCCCTTTGCTTCTTTGTCCAGTTGTCTCCATTGTCACGCCAATTTCCCCTAGTCCAAGTTTTTTCTTTGCTGATTCCTTTGTCCATG
TGTGCTTTGAGCCTCTCTCATCTTGYCTTTCCTCCTTTCCTAGGAGCAGCTCCTGAAGCAGCAGCAGCAGCACCAGTGGCAGCAGCATCAACAGGGCTCT
GCCCCTCCTACCCCAGTGCCCCCATCACCACCACAGCCTGTGACCCTGGGGGCTGTGCCAGCTCCAMAGGCTCCACCCCCGCCCCCCAAGGCCCTGTACC
CAGGTGCTCTGGGCCGGCCCCCACCCATGCCCCCAATGAACTTTGATCCCCGATGGATGATGATTCCTCCTTATGTGGACCCCCGGCTCCTCCAGGGTCG
TCCCCCTCTAGACTTCTACCCTCCTGGTGTGCATCCCTCTGGTAAGGGGGCATGGGAGGAGTGAGAAACAGGAAAGTCCCCTCAGTCTTAGGCATTGGAT
ATTAGGGTCTTACTGTGAYTCTGGTAYGATAGGTTTTGCCCATCATAGTGATGAGGGAAGGGCATATGCTTRGCACTGCTGAGATAGCTCTGTTGCAAAA
ATGGGCTTAGTTAAGAAATAAGCAGTGGTTGGCCAGGCATTGTGGCTCACGCCTGTAATCCCAGCACTTAGGGAGGCCGAGGTGGGCAGATCARCTGAGT
TCAGGAGTTCGAGACCACCATGGCTAACGTGGTRAAACCCCATTTCTACTAAAAATACAAAAAAGTAGCCGGCGTGGTGGCGCTCGCCTGTAGTCCCAGC
TACTCGGGAGACTGAGGCAGGAGAAACGCTTGAACCCAGGAGGTKGAGGTTGTAGWGAGCCGAGATTGTGCCATCGCACTCCAGCTTAGGCAACGAGCGA
AACTCCGTCTCAAAAATGAATGAATGAATAGCACAACTCCATCTCAAAAATGAATGAATGAATGAAAGAAGCAGTGGTCCTTCATTTGCCAGGATTTATT
TGGGGTGGGTTGATTCTCTTGTAGGGAATCTGAGTGGATAACCTTGTTATATAAGAGCAGGCAAGGCCCGGACCTACTGGGAACAAGAGATGGAAGAGCT
GACTTGACCGCRAGGGGAGATGCTTTTTGGGCTGGAGGGCTTGTGACATGAATAGGATTATTTTTCTTTTTCTTTGGTTTCTTCAGGCCTAGTTCCCCGA
GAGCGTTCAGACAGTGGGGGCTCAAGCTCAGAGCCATTTGACCGTCATGCACCTGCTATGTTACGGGAACGGGGCACTCCACCGGTGGATCCAAAGTTGG
CCTGGGTRGGAGATGTCTTCACCGCCACACCCGCTGAACCCCGCCCACTTACCTCACCTCTGCGCCAGGCTGCGGATGAGGATGACAAGGGGATGAGGTG
AGTCTTGGTCATGAGAAATGGGTGAGTTCACAGTGAAAGGATCTAGGCCTGGGAGAAAGGTACTTTGGGTTAGTGGTAGGGATAGGGATGAACGGGAAAG
GAGAGGCTGGATGGAGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCAAGAAGATTGCTTGAGCCCAGCAGTTCGAGACTAGCCTCGGCA
ACTGGATGCCRTCTCTGCCAAAACAAACAGAAAAATAGTAAAAGAGAGTCTGCATCATAATAAAGTGTTCTTTTCCCACCTAGTTCTGGTTTTCCTGAGA
TACTTATTTCCATTCTTTCTGTCTKTCTCTTCAGGAGCGAGACTCCTCCAGTACCTCCCCCACCACCCTATCTGGCCAGTTATCCAGGCTTTCCTGAGAA
TGGRRCCCCTGGGCCCCCAATCTCTCGCTTTCCTCTGGAGGAACCAGGGCCCCGTCCACTCCCCTGGCCCCCAGGCAGTGATGAAGTGGCCAAGATACAA
ACTCCACCACCCAAGAAGGAGCCCCCTAAGGAGGAGACTGCACAGCTGACGGGGCCAGAAGCAGGCCGAAAGCCTGCCCGCGGAGTCGGGAGTGGAGGCC
AGGGCCCCCCMCCACCACGCAGAGAGAGTCGCACAGAGACCCGCTGGGGCCCTCGTCCAGGGAGCAGTCGTCGTGGAATCCCTCCAGAGGAGCCAGGGGC
CCCACCCCGCCGGGCTGGGCCTATAAAGAAACCTCCACCACCTACAAAAGTAGAAGAGCTGCCTCCCAAGCCCCTCGAACAGGGGGATGAAACCCCCAAA
CCCCCAAAGCCAGACCCACTCAAGATAACCAAGGGGAAGCTAGGGGGCCCCAAGGAGACCCCACCCAATGGAAATCTTTCCCCTGCCCCAAGGCTTCGGA
GGGACTATTCGTATGAAAGAGTGGGTCCTACCTCTTGCCGGGGTCGGGGCCGAGGCGAGTATTTTGCCAGAGGGAGGGGTTTTCGGGGGACCTATGGGGG
ACGAGGGCGGGGAGSCCGAAGCCGGGAATTCCGCAGTTACCGAGAGTTTCGAGGAGATGATGGGCGTGGAGGTGGGACAGGGGGACCAAACCACCCTCCT
GCTCCCCGAGGCCGCACTGCCAGCGAGACACGGAGCGAGGGTTCAGAGTATGAGGAAATCCCCAAGCGGYGCCGGCAGCGGGGCTCAGAAACAGGCAGCG
AGACCCATGAGAGTGATCTGGCTCCTTCAGACAAGGAGGCTCCCACACCCAAGGAGGGAACACTCACCCAGGTCCCTCTCGCTCCCCCACCACCAGGAGC
CCCACCTTCACCAGCSCCAGCCCGCTTCACTGCCCGGGGTSGGCGAGTCTTCACTCCCAGAGGGGTGCCATCTCGCCGGGGCCGAGGAGGAGGGAGGCCC
CCTCCTCAAGTTTGCCCAGGCTGGAGCCCTCCAGCCAAGTCTCTGGCTCCCAAGAAACCTCCCACAGGCCCTTTGCCACCAAGTAAGGAGCCTTTGAAAG
AGAAGTTGATCCCAGGGCCTCTGTCCCCTGTGGCGCGCGGAGGCAGCAATGGAGGTAGCAATGTGGGCATGGAAGATGGGGAGCGACCCCGAAGGAGGCG
ACATGGGAGGGCTCAGCAGCAGGATAAACCGCCTCGTTTCCGGAGGCTGAAGCAGGAACGGGAGAATGCCGCAAGGGGGTCTGAGGGCAAGCCCTCCCTA
ACCCTTCCAGCCTCCRCTCCTGSACCTGAGGAGGCCCTCACAACAGTCACAGTGGCCCCAGCACCTCGCCGGGCAGCTGCCAAGTCTCCTGATCTGTCAA
ACCAGAACTCAGACCAAGCCAATGAGGAATGGGAGACTGCATCAGAGAGCAGTGACTTCACCAGTGAGCGCCGAGGGGACAAAGAGGCACCCCCACCAGT
ACTGCTGACACCCAAGGCTGTGGGAACTCCTGGGGGAGGTGGAGGTGGAGCCGTACCAGGTATTTCAGCCATGTCCCGYGGAGATCTGAGCCAGAGAGCC
AAGGATTTGAGTAAACGGAGCTTCTCAAGTCAGCGGCCAGGCATGGAACGGCAGAATCGGCGCCCTGGCCCAGGGGGCAAGGCTGGCARCAGTGGCAGCA
GCAGTGGAGGAGSCRGTGGGGGTCCTGGAGGAAGGACCGGGCCAGGACGAGGCGACAAGAGGAGCTGGCCCTCTCCCAAGAACCGAAGGTGGGTAGGAAC
AAACAAATTTATTGTGGTTTAAAAATTGGAGGAGGGGGRRAAAGCCTGAGGGAAAGATAAGTTTGGGTGKAGTGGAGATTGTGGCCTGAGGGGCCATGGG
CTCTAGAATGTCAGTAGGATTTCCATGTCTGGCTAAGGCAACTGGAAAGCGGTTGGTAGGGTGTTAGAGTCAAGAACACCCACCTATGTATTCATTGCTG
GTTCTTTGCTTTCCAGTCTGTGCATCTGTAYGCATAGGAAYCCTTAGAAGGACTCAAAAACACCTGGACTTTAATAGGGAAGAGRATAGGTTGTAAGCAG
AAGTTGGGAAACATAACTTGTGGGAAAAARTAACGATTTAGTGGATACTGGAGCTAATGCTCTGTTTTCTCCAGTCGTCCTCCAGAGGAGCGTCCCCCGG
GGCTTCCCCTGCCTCCCCCACCTCCCAGCAGTTCTGCTGTCTTCCGCCTGGACCAAGTTATCCACAGCAACCCTGCTGGCATCCAACAGGCTCTGGCCCA
GCTTAGTAGCCGTCAAGGGAGTGTAACTGCACCAGGGGGTCATCCAAGGCACAAGCCTGGGCNTCCCCAAGCCCCTCAGGGCCCCTCTCCTAGGCCCCCA
ACCCGATACGAGCCCCAGAGGGTCAACAGCGGCCTCAGTTCTGGTAAGCTGGAGGGGTTATGGGTGGGAATATCTCCATCCCCAGAGAAGGTCAAGTGCT
GGAGGGAGCGGGTGGAGAACCTGGCCTAGGGRRCCTGCYGCTGGGTGCGTTTCTGCAGGGAGCAAGGGTAGAAGAATTGGGAGGTGGAGTAGAGAGGAAA
AGTTAGGGTCAGTGGCAGAGCCAGGCAGATGCTGACCCTTTTTCTCTTTCCCAGACCCCCACTTTGAGGAGCCGGGGCCAATGGTGAGAGGGGTGGRTGG
GACTCCTCGGGACTCTGCCGGGGTTAGTCCCTTTCCCCCTAAACGTCGGGAGCRGCCTCCCAGAAAACCAGAGCTGCTACAGGAGGTAAGGGATGGGTTT
GAGATTGTGCTTCACTGCACTCTTACTCGTGAAAWTTCTTCTGGGTTATGTTTTCTCTGTTYTCTTTCCTGTTTCTTTCACTGTGTTTTTACTCCAGAAT
TCTCAGTATTAGTCTCCCATGTGTCTCCCTTGTTGTCCCCACACCCTGTGTCACCCCACTCTGTCCTGGCTTCCTATAATTCCCAATTCCCACCCAATTC
ATGTTTTGCTTCTGGCCCTTCTCATCTGTAGGAATCTTTGCCACCTCCTCATAGCTCTGGATTCTTGGGCTCTAAGCCTGAGGGCCCAGGCCCTCAGGCA
GAGTCCAGAGATACAGGCACAGAGGCCCTGACCCCTCACATCTGGAACCGTTTACATACTGGTGAGTAAAGCTGAGTGAAAGGACTATGGTAGAAGGGTT
AAGAATGAGAGGGGCTTCTGAACTGTCATCTCCTCACTTCTCTTCTGGTTGGTGCTCCCTTCTCCAGCCACTAGCCGAAAGAGTTACCGGCCCAGCTCCA
TGGAGCCTTGGATGGAGCCCCTGAGTCCTTTTGAGGATGTGGCTGGCACAGAAGTGAGTGAGGGTGGGAGGGTGTGTCTGAGCTGGGACTTTTTTGAGCA
CTGGTCATACCCCCCACCTGCTCTGGKTTGAGTCTGGAGCTGTTYTCTCACTTGGCTGTCCCCTTTCTGCAGTTTGTATGTGTGCATCAGTCAGGTATTG
GGGTGCTYTCTACCCTGACTTAACTAGCTCCTTCTCCACTCCTCTCAGATGAGTCAGTCTGACAGTGGGGTGGACCTGAGTGGGGATTCTCAGGTGTCAT
CAGGTCCCTGCAGCCAGCGAAGTTCCCCTGATGGAGGACTCAAGGGGGCAGCAGAGGGACCCCCCAAGAGGCCTGGAGGCTCCTCACCCCTGAATGCTGT
TCCTTGTGAGGGTCCACCTGGCTCTGAACCTCCTAGGAGACCACCACCTGCCCCCCACGATGGGGACAGAAAGGTAAAAGACCAAAAAAGGATAAGGGGA
ATGTTTCCAGGAATCTGACTTTGGCCCTACCTTTTTCTGCTTTTTCTCTCTGCGTGTGTGTTCTGGGCATTCCAATTTGGATTTCCCTTTCCCTCCCCCA
ATGCACTTTACTGTGTGCCCAATCCAGGAGCTGCCCCGGGAGCAGCCTCTGCCCCCTGGCCCCATTGGCACAGAACGATCACAGCRTACAGACCGAGSCA
CAGAGCCTGGCCCCATTCGGCCATCCCATCGACCTGGTCCCCCAGTCCAGTTTGGCACTAGTGRCAAGGTCTGTGTGGGCTGGATCTGGGTATCCTGAGT
TGGGTGGAGAGAAGGGAAGGACTAAAGGTGGGACATAGAGGACACATGTCTGTCACGGGACAATGTCTCCTGCCTTCTTGTGATCACAGGACTCAGACTT
ACGCCTARTGGTAGGAGACAGCTTGAAAGCAGAGAAGGAGCTAACAGCATCAGTCACTGAGRTAAGTGGGAGTAAGAGTTTGGTGGAAAGGCCCAAGATT
TCTGGGGAAGATTGCTGGGAGTGACCAGGGCGTCCAGGATGCCAGACATCCCTCTCCACGAGGCCTCTCCTTCCCAGGCCATTCCTGTATCACGAGACTG
GGAGCTGCTTCCCAGTGCTGCTGCCTCTGCTGAGCCACAATCCAAGAACCTGGATTCTGGGCACTGTGTCCCGGAGCCCAGCTCCTCAGGCCAGCGCCTG
TATCCTGAGGTTTTCTATGGCAGTGCTGGGCCTTCCAGTTCTCAGGTAGGCCCCGCTTCCCATTGCATGACCCCTTCAGTGAATAATAATTTTTTTCTGC
CTGGTATGTRTTTATAATCAAGCCTTTCTACGTTGCAGAGTTGTGAGATACCACTTTGTCACATCATTTTTCTCCCTACTTTTTGCTTCTATGGGTGGGA
TGGTGATCTTTTTTCTTGACCACAGATACTAAAGCTGTTTCAACCGTGCTCCTCTCCTGCAGATCTCTGGGGGAGCCATGGACTCTCARTTACATCCAAA
CAGTGGAGGCTTCCGCCCTGGGACACCCTCACTGCACCCTTACAGGTAAGACTCGATGCCTGTGGATCACAGAAGTACTTGGAGATGTGTTTCGGGGAGA
GGGAAGGGGAAGACACAGTTCTAGGGTACTAGAAGCTAGTGGACTTAAGGCATTGCTAGGACTCTGGCTTCCTAACAGCTTTTCTCCCCACAATTTATTT
TCAGATCACAGCCCCTATACCTACCCCCSGGCCCAGCCCCTCCCTCAGCACTGCTCTCTGGGKTAGCTCTCAAGGGCCAGTTTCTGGATTTCTCCACAAT
GCAAGCTACAGAGCTGGGGAAGTTGCCGGCTGGAGGAGTTCTCTACCCTCCACCTTCCTTCCTCTACTCTCCGGCTTTCTGCCCCAGTCCTTTGCCTGAC
ACATCGTTGCTTCAGGTAAGAGGGGGGCAGGTATTAGATATTGGGGGATAGGGTAGGGAGAATGATTTTGTGGGGGTTGATATATTTCTCCCTGTTTCCC
GACAGGTACGCCAGGATCTGCCATCCCCTTCGGATTTTTATTCTACTCCTCTGCAGCCTGGTGGCCAAAGTGGMTTTCTCCCTTCAGGGGCTCCTGCCCA
GCAGGTATATTGTATCKTCACACTTCCCCTTCATTTGATTTCTCTGTCCAGTTGCTGGCTTTGATTTTCCCTGGTTTTCTGACATTCCTCCCTGCCCCCA
ACATGCACACCCAAATTTCTTGTTACAGATGCTTCTACCCATGGTAGACTCACAGCTGCCTGTGGTGAACTTTGGCTCCCTGCCGCCAGCACCACCTCCT
GCCCCACCTYCCCTTTCTCTGTTACCTGTGGGCCCTGCTCTGCAGCCCCCCAGCCTGGCTGTGCGGCCCCCACCTGCTCCTGCTACTCGGGTGCTGCCTT
CACCTGCCAGGCCCTTCCCCGCTAGCTTGGGGCGAGCAGAGGTAAGGTACAGGAACTGAGGGGCTAGGGAGCGCCAAGACTTGGGAGTAGGGATTCTGTA
TTTCAAGGTAGGCAGCTCATGATTTTTTTCCCCTCAGCTGCATCCAGTGGAACTAAAGCCGTTCCAGGATTATCAAAAACTGAGCAGCAACCTTGGGGGA
CCTGGATCATCAYGGACTCCCCCAACTGGAAGGTGAAACGGAATAGGGATGTGGACTTTCCAAGTGCTTCCTTACTTTGGAACCAGGGTCTGGATCCTAG
GCTTGCCTTAGACGCCCTTCTTCCCTTAGGTCCTYCTCTGGCCTCAATTCCCGTCTSAAGGCCACGCCTTCCACCTACAGTGGAGTCTTCCGCACCCAGC
GCGTCGACCTTTACCAGCAGGTGAAGGAGAAACCCTTGTGGCCCCAACTCTAAATTYGAGTTGCCACYTGATTTCCTGTCCTTCCRTCTCATCGCTGACC
TCTCACTGTGACTCACTSTTTAACACATGCCTGTCCCCTAGGCCTCCCCACCAGATGCCCTGCGCTGGATACCTAAGCCTTGGGAGCGGACAGGGCYGCC
ACCTCGAGAAGGGCCCTCCCGACGGGCAGAGGAGCCTGGGTCCCGAGGGGACAAGGAGCCTGGGTTGCCCCCACCCCGCTGAGGGAGTTCCTCTTGCCCC
CTACCCCCGGGGCTTGTATATAGATTATAAATATATAAGGGGGAAAGGGGTGGGCGGGGAGGGGTTSTGGGGCTGGGGCCTCACTTCCCCTCCTCCCCCT
TCCCCTGGTCCCCTGTCCCTGGGGCTGTTTGTTAAAAAAGAGTAATAAAAGGATTTAAAAAAAAAAACTTCTACAATGATTTGGGGGATGAGTTGTTTGC
ATTGTCTTAAAGCATGGTGCTGAGTGATCTGTAGTTTCAGTCAGGGAAATATTCATTACTTATTCCAGTGAGCTGTTGAAACTAAAAACATGACCATCGT
ATTGGATCTTTAAATTTTTGTGAGTCTGGAATTTGGGCTGAGCTCAGCTGGATAAATCTGCTTTTTTGTGCCAGTGAGCGAGGTCAACTGGTTATCAGTC
TGCAGCTGACACCTGGGCTGGTCCCAATATGGCTTCCTTTGCATATCTAGGGCCTTGGTGGGACATCTGTAACATTACTGGGTTATCAACCAGTGTCTTC
ACATGGACTCTCCAGCAGGCCTGTTAAATGTCCGTGAGCTCATGTTCCAAGAGGTCTAGCTGGAATTTTCTAAGCTTATGCCATGCTTAGTTGATAGAGC
ACTAAACTAGCCAAGGTAGGGGATGGGGGGGTTTAGAAGGGACTTCAACTGCATCTCAAAGGGACTAGCAAAGAATTTGCAGCCATGGGACTTCAGTTCT
TTATGATGAACTAAGGGGAAATCTCTGTTAAGGCCTCAATGTTGGAGCACACTTAAGGGGCTCTTTGAATTGGATAGACCAATTCCAGCATTGTCAAACT
AAGTGGGATTTCACATGGTAACGCTGCATGCTAGTTATGCTAAAGACTATACTTAGGTCTGCAGCTGCTCAGAAACTTTTTTTGATGGGTAATTTGAGAG
CTCTATGCTAGTGTGCACCTGGAATATGCTCCCAACTCAAAATACAGGTTTTTTATTTATATATAAAGTGCTTTCGCACAAAAAATACAAACARCAGGCT
GGGCGCGGTYGCCCACGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAA
ACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGGACGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCATGAGTGAGAATCACTTG
AACCCGGGAGGTGGAGGTTGTAGTGAGCCGAGCTCGAGATCGGGCCACTGCACTCCAGCCTGGGAGACAGCAATACTCTGTCTCAAAAAAAAAAAAAAAC
AAACATCAAAACTGGCTTGTACAATTTAGCGTGCTGAGTAGAACACAACAGTGTTCCAAGGAAGTATTAATTTWAAAAAGTTCACACAAGATTAAGGGAC
ACACTACCTAATGGAGACAATGTAGAGAGAAAGCAGCCAGAAAAATCCGACTTTTATTTCTTAAATACTGTGAAGGAAGAGGGGGGAAACGGTCCCCTGA
TGAGGAAGGGCCATAGAGCAAAGAGCTAAGGATCATCAGCAAAGGCCCGCTGGSCATTGGGGAAGCGCTGGGGACTGTAGTTGGGGTCTTCCTGYAGTCG
TTTTTGTATATCAGACCGGAGCTAAAGAGAAAAAGYAAGCAGGTTGGAGAAASGCTGGCCAAGTCCCYATGATCCCAGCAAGCACACAAGGCCATCCCTC
AGAAGCTAACATTTCCCCCCCCAAGCACRCTGTCAAATAGCCCGGGGTGGCACTGTCAAGCCTTCCCAGATGCCAAAGGGGAAAACAAATGGTAGCACCA
GGCTGACCAGTTCATCGCTGAAGGGATCCAGGGAAGAGGGACCCTAGCCCAACCCCTCCCACTAGACCATCCCTATTCTGCTTCAAGGTGGCACCTGCTG
CCTGTAGCTCTCCTGAACCTCTGGTGCCTCCAGGTCCCGGCTCAGGCTCTCGGGGCTCGTCAGGGGCCGAGCTCCGGCTGCCTTAGCTGCCCGGCTCACA
GCCTCTGAGAGAAGCAGCTGGGGGCCCTCACCCTGCATCGTCTGGGGGACAGGGGGTTGGGAGGGAAAAGAGGATCAACGTCAGATCCAGTGCCACCATC
CGGCTCACCCTTTCCATGAGTCAACCACTCCACTGAGTCTCCATGCTAGTGGAGAGAGGGGAAATTAAGAGTCCAGGATGTGGTTTTTACAGCAGAAATG
CCTTCCTAATTCTCTTTGGCACTAGCCAAAACTAAAGTGAATGTGCTTGAACGTGCTCTTCAAAACGAAAGGCAGAAGGGGTCAAGCCATCCGGGATTCA
GAGCTAGGTAATCCACAAGAGGAAACCCACCTTAAAGGAAAATGGGATCTAAGCACATGGGGATTAGGCAGCTGAGCAACTAATACAGGACTGCTAGCAA
ACAGACTAAGGTCAAGTCCTGTATGGTTATGCAACAACCAAGAGCAAGTCTGAATCCCAGAAAAAGTTTCCTCATTAAACGAGGGGAGGGGAGACTGAAT
AACAAGAGCTCCCACCATCTCTACATAGTTTGATTCCAGGCATGACGGGGAAACCTGGAYAGAGAGAGAGGCTTAGGGAAGAGGAAAACCAACCTTGCGT
CTCTTGGCAGGCATACCACTGAGGTAGGCATCACTCAGAGGGGGCTGCGGTTTCACCTTCCGCTGGCTCTGAATGTCCTGCTGGATAATAGGGACCCATT
CCTGGGGAGGAAAAGAGAAAATAGTAATGTCCTTGACTTTCAGCTGCCATGACCCACTGGATTACTTCCTGACACTTACTGGGGGGACTGCAGCTGCCCA
AGGTTCTGTCTCAGCTGAAGCTCCATCCTGTTCATCCCGGGAGCCCCCCTCAGGAGCAGGAGGTGGACCTCGGGACATGGCCTCTTCTGCTGTTGTTCCA
GGGGCTGGGGAAGCATTCTCCCGCTGGGTGTCAGATGGCGGGAAGAGCCAGGCTTCAGAATTTTTAGCCTCCAAACCTTTCTCCCCCAGCCCTCCACTCC
ACATTATCTGGCCCCTCAACCTCCCCCTCTCTAGAGTACCTGAGGCTCAGGGGAAGCTCTTTCTGCTCCCTGAACTTCCATTGGCTCCTCAGGAAGYGGC
TGTGAAATTAAAGAACACCATACTTCCTCTCAGATCTCTCCAGTTCTCTCAAGTACCCTGACCCCATCGCCCAACAGGTCCCTTACCTGGGGGGGATCAC
CAACCCTGCGAACGTATCTGAGAATGGCATCAGGGCCTACAGGCATGTGCTCCAGTACCACCTGAAGCCTCAGTCCCATCATAGTGGTCAGCCAGCTCAC
CAAGGAGGGATTCACCCCACGAGACATACGACGCTGAGGGACAGAAAGCAGATTTAGAACACAAAACCCTCAACCACCTTTAGAAATAGATTAGATCCAG
GTTACAGAATGTCAGTTTAGAAAAGAAAAATGAAAACTGCAGAGAATGGAAACCTCAGGAAACAAAAGGCTAAGGATCTGGGGCTAGGTGGTGCTTACAA
TTCGGCCATTGATAACAGCAGCAAGCTCCATCTGCTGTCCCCCCAAGCAGTGCAGGTTTAGGGCCAGGCATTCAAACAGGCCTTGGTTACACAACTCCAG
CAACCGGGCCCCAAATCCACTATCTGTGGGCAAAATACAAGGAGGGAATGCTGGCACGTGGCAGCCCTGCACATGCAACAGGCCCCMCTTGCCCCCGCCT
GGCCAGCCCCTGACCTGTGCAATGCAGCACATGCGCAGCAATGCTATTAAACTGCTCTTGGAGAAATTCCAGGTTTGTCCGGATGATGTCCACACCTGGC
TGAACCTGCACCAAGGACTGAGAGACAAGATAACACAAAGATCCCAAAATCAAGAATCATAAGACTGGGAGTGGAGGAGGCAGCTGCCTYGACCAGACCC
AGGAGAGGAAAGGAATAGAGAAGGGTTACTCACAAAACTCTCCCGCACATACTCTTCTAGCCCCGTGATCAATGTGTGGGTTGCCATCTGTGGAGGAAAC
AGAACAGGTTTAGTTCAAAGCCTCAGTCCTCCCAAGACTTCCACCTCGACCCCAACAAGTCCAGGGCTTGTGTGGGGGCAATTGGAGCTTTACCTGGCAG
AGAAGCAGTCAGAAATAAGGAATAAAATGTGCAAAAGAGGAGAGTTCTGGGGCCCCTGGCCTTCATTTACCCGGATGTTACTGGGTGTGGGCTCCTGACC
ACCCAGGTAGTGCTGGTGGAAGAAGGATCGCAGCTGGGGCTGGAGCCGTTGTAGTGGCTGGAAATGCCCATGGAGAAGCATCACTACGTCCACCATAGAG
AAGTTCTGGCACAGAAGAGAAAGCAAGGCCCCAAAGAATCCTGGGGGACAAGGGCAGATGTTAGCAATGGCCTTTACCACCTGGCCTGCCCACCCACAAC
CAGATCATCAACCTCATCCCACCTTGGCAAYACCCCTAAACCAAGGCCATCTACATTCCTCTGGCTGCCCCTTCCTGGAGCAAGCCAAAGCATCCTTTTT
GCTCACCAAGGGCCCCATCAGCTCCAGGCTCAAAGATGTTGCTGGATCCACTGAGGCGTTGTATGAAGGCAGCAATACTTTCACTGCTGCCAGCCCGAGC
CCCCAGGGAGCCCAGCAGGGAGCTGAGCACACCCTGCACCACTGAGGTAAAAAACTCCGGTGACAGGCTCTCAAGACCCAGGCCTCCAGGACTCCCTGCG
CCACCAGAAGGGGAGCCTGGTGGGGGCATGGTCTGCTGCTCTGGGGCAGGTGGTGGGGGTGGAGGAGGTGGGGGTGGTGGAGGGGCTGTCTGTGTTGCCT
GGCAAATAAAGAACAAAGAACAGAAAGTGAGGTGAGAATGAAGACACACGGAAATAATACGGCATCAAGAGGGCACAAACCAACGGGTCTGGGAAGATGG
GGAGTTACATTCTGATCTTCACTGCTTAAAGCAGAAGTATGGTAGGTATTTAACAGAGTCAGGCAGCACAACTTACCTACCTCTTCCTCTGAACAGGYTG
TCAGAAAGCAGTGACACTAATTACTATACTTTCTTTTTCTAAACCTCATTTTCTTCATCTTTAAAATGAAAGGTTCAGAGTCAATGAATTCCYAGGGCCC
CTTCCCCTAACATGTCACTAGGGGCTCTTACCCAGTGGTTATRTAATGGCAAGAAGGTACCACTGCCTGGCTGGGCCGGGGGACAGGAAGATGAGGTGAA
TGGCAAGCCAGCCACTCACCTGCAAGAAGTCAGTCATGCCTTGGAGAAAGGCAGGGACACCAGGCATCGCCACAGTGATGGTGGGAGAAGCCACACCAGR
CCCTCCAGCCCCTGGCCCTGCAGGCCCTAGCAGGTTCCCCAGAAGCTGAGAGAACTGAAGATCAGCCATGGAGGGTTGAGGGGTGGGTGGAGGCTGGGCA
GGCCCCCCAGGAGCGGGGCCAGCTGTGGTAGCTGTGTTGGTGGTGCCAGCACTGGCAGAAGCAGTGGCAGGGGCTGGCGGTGGAGCCATACCTGGGGTCC
CCTGAGCTGTAAGAAACCAAAAAAAGAAAGCTGGGCTGAGCATGGTGGCTCTTGGCTGTAATCCTAGCAACTTTGGGAGGCCAAGGCATGAGAACTGCTT
GAGCCCAGGAGTCTAGGCCACATAGCAAGACCCCATCTCTACCAGAAAAAAAAAAAGACAATTACTAGCCAGGAGCTAGTACTGCTAGCTACTCAGGAGG
CTGAGGTGGGAGAACTGTTTGAGCCCAGGAGTTCAAGGTTACAGTGAGCTTTAACTCACTGGATTGCACCAYTGCACTCCAGTCTGGGTGACAGAGCAAG
ACTCTGTAACTTAAAAAAAAAAGAAAAAAGCTGGCCGGGCACGATGGCTCAAGCCTGTAATCCCAGCACYTTGGGAGGCCAAGGTGGGTGGATCACAAGG
TCAAGAGTTCGAGACCATCCTGGCCAACATGGTGAAACCCCCTTCTCTACTAAAAACATAAAAAATTAGCTGGGCGTGGTGGCGTGCACCTGTAGTCCCA
GCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGTACACTGCACTCCAGCCTAGCAACAGAGTG
AGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCTGAAACCTGAAGACACAAGACACTACAGCAGCCCCATTCCAGGAAAGCAGGAACCAAG
AAAATATGGAAAGAACTGGAAAGTGCCAGTGAGCAGACTAGGAAAGGAGTTTAAACTCTGAGTGGGGAAGAATGAAAACTCACCCACAAGGACTGGCTGC
ATAAGAAGCTGCCCCACAAGGCCGCTCACCATCTGGGCCAACGAGGCATTGGTACCCAGACCRGCGCCCTGCTGGATAGAGAGCAAGGGAGAAYTTCAGA
CCTGCCCTTCCATGCACCACCACAGGAGTCTCTCCCTAGACTGTTACGCACTAGAAMTCCCCGACCCTTGCTCACCAGTGTCCCAGAGACTGGGGGCCCT
CCAGGATGGGAAGGCCGAGCCTGTGGAGGAGTGGGCCGGGCAATCACCACCCGGGTTGGAGCTGTTGGGAAGCCTGGCACCTGCTGTCCTGTGGGTGGCA
GAAGAGACAGACCGAAGAGGGCTGAGGGCCAGGCCCTTGCCAGCCAGCTGCCACCATGGACTGTGCCCTACCTCCCAAGCCTCCCCTTCCAGGTCATTAC
CTGCGGCCGCGGAGGCAACAGCTGCCACCATGGCCTGATGAGTGATCTGGTGGGCGACGGCGTGCATGAACTCAGGGGGCAGGGAGGGCAGCTGGATGAG
GGTGGAGCCTGGGGGGCGGGTCTGATGTAACCTTGAACCTGGACCCCTTCAACCCACCCACWCAGCCCTTCCCTTTCTCTACCCAGAGCTCAGCCTGCCC
TGATGCCCTCACTCTTACCCAGGGTTTGGCCATGACCAGGGGGTCCCAGGGGGCCAGTGGGAGCACTCGGAACACCACCAGGCTGTGTGCCAGAATCTGG
GCAGGGAGACAGAGACAGTGGCCCTGAGGTAGGTAGGGCCAAGGCCTAACTATATCCTTCTGAGATCAGGCATACTTCAGGCCCATAATCCCCCAATCAG
AAAGCCTGCCTTTCCCTCCATCTAAACAGGGAGAGGTACTCCCTTCACCACACAAACACACCTCCAAAGACAAACCAACCCCCACACCCCCCACATCTGT
CTACTTAAGCTTCTGCTCTGGTCCCCAGGCTACCACCACCAGCATGTGCCTCTCCCTTCCCCACCCTGTTCCCTCACACCTCAGCATGAACCTCCCTCAT
CATGCTGATCCTGCTCTTCTCGCCAGCAACTATTCTCACCTTGAATGTTCATGTGCATCATGACCACGGGTTCCACACTCTGGTGGGAAATCCGGATGAC
CCTYGGGTGGCTGGTGGCTGGCGGGGGAGCTGGACCTGGCGGGGGAGCCCCCTCAGCTGAGGACTCGACATTGGTAGAAGACGGAGCCACGGATGAGGCC
TGCCCAGGACCAGGGGGAGGTGCCTCTGCATTGGGAGTTGGGGGGGGCCGAGTCCCATTTCCTGTCATGGTCACAGTGGTTCCCACATTGATCTGAAAAA
GACAGATGGACAGGCAGATGTGAGAAAAATACAAGAGCCTAACCAAGAAAACCTCATGATAAACCTCTAAAGTATCTCCAGCCTTCATCACCATGTTTCC
AGTCTCCTCCTTTCCTAACCTCCTTCAGGCCCAGTAGCTACCCTGGGTCACTCTATCAACACCCCTCACTCTCCCTCAGGCCAGACTCCCCCTAACCCAC
CTGTATGGGAATGGCTGCCTGCTGGAGCACCATGGGGGTGGTGTAGTGAGACATAGGCCGGACCACATGCAGGTGTCGTGGGGGCGTGCAGGCCAGATTG
CAGCGCAGGTCAGACAGTGCAACAAAGGTGTTGCCCAGCAGTCGCAGGCTCTCCCCTACCAAGTTGATCAACCGCTGATCCTCCTCCCGGCCCTCGTGCT
GCGCACAACCAGCCAAACACAAAAAGGCAGAAAATATCAAGCTGGAGTCCATCTCACTAATAAAAGCAATAATGCCTACTGAGAATACCATGTCCTCCAA
AACTTTCAGTTATATCCTTGGAAGTTTACATGTAGACCAAATCTTTGCAAATAAATTATATCTTATTCACATAAGGAACATCCTATTAAAACACTACTAT
GAATCAGTAAGTCATCATATACTGATCTCCTGTACTTTACATTTTCTAAATTCATTCAGGGGCACAAGGGGTACGATACGAGGACAGTGCTTACAGCAAA
GATTATCACCTTCTCTGTAAGGGAGGACAAAATCACTTACAGGTTTAGAGAGAAAYTGTTTTGTTGCAATGTGTGTTTTTTTGTTTTGTTTTGTTTTTTG
AGACAGTCTCGCTCTGTCACCCAGGCTAGAGTGCAGTAGTGCAATCTCGGCTCACTGCAACCCCCTCCTCCCGAGTTCTAGCGATTCTCCTGCCTCAGCC
TCCTGAGTAGCTGGGATTACAGGTGTGCACCACTACATCCAGCTAATGTTTATATTTTCAGTAGAGATGGGGTTGCACCATGTTGGCCAGGCTGGTCTCA
AACTCCCGATCTCAGATGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCCTGTTGCAATGTTTTTCCAGG
GAGGGAAAGAGTTATCTGYATTTCAGCCTGTTCTGTTTTGGGAGTACTGGGGCTGAGGAGAAAGGGCAGGGCCATCAAAGGGCTCACATTGTTATTGTAG
TCCGTGGTGGCAGCAGCACCCAGAACCTCGTAGTAGCGCTGCAAGAAGGGCTGGAGGCGACTCTCCAGCCGCTGTAGCTCCTGGAGCACCTCGACATACT
CCGCAGGGGAAGGATGGCTGTGGACAAACCCAAGGGGCAATGAGCCAAAGCCTTCCTCAGATTCCCACCCTCACAGTCAACAGGGACCACATGTGCCCTC
TTTCTCCCTGGTCTCCCAGAGCCCTGGCCCAATCCTTCTCTGGACCAGCAGAGCTTCTATTCTCTTCAACCTCCGCCTCCCAGGTTCAAACGATTCTCCT
GCCTCTGCCTCCCAAGTAGCTGGGATTAAGTTGCCTGCCACCACACCCGGCTAATTTTTGTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCT
CTATCACCCAGGCTGGAGTGCAGTGGTGCGACCTCAGCTCACTGCAAGCTCCGTCTCCTGGGTTCACACCATTCTCCTGACTCAGCCTCCCGAGTAGCTG
GGACTACAGGTGCCCGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATGTTAGCCAGGATAGTCTCGATCTCTTGACCT
CATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCGGCCTGTATTTTTTAGTAGAGACAGGGTTTCACCATGTT
GGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACTGCACCCAGCCAAAGC
TTCTATTCTTTACTCCCACCCATGAGAGGATAGGGAGAAGAAAATGAACTGCTCCCACCCTCCCCACCACAATCCTGCACCTACAATGGTGAAAGACTAA
TTCTAAGAAAGAGAGCAGGCCTTCGTGAACTCAGAGGAGAATTCCGATCAGGCTCAGGAGATACCATTTGGATTTCCTTGCCATAGGGAGAGCAGCAGTT
CTTCTCAGCTGCCTGTCCTAGCGTCATTTACCTATACCGAGAGAGCCCCTCCTCGCCCCTCAATGCTAACCCTTCAACTAAGACCTCCAAGTAATCCTTT
CCCTCCCTTGCCATGGTTCATTTCCTTCTCCCCATACTTCACTTAGGATTCCCCACCCACTAAAGATTCCCTCCATCTCTCACTTGGGTGCATTTGTTTC
CGGGGCAGGTGTTGGGCCCGCTGGGGCTGGGCCAGGAGTGAGCTCCGGGTTCTGGGCTGGGGCACGCTCCTCCACTTCTTCTGCCTCCATGGGCTCCCGG
GGAGGTGCTTCACTTTCAACTGGTTCTGAYGTTTGAGAGCTCAAGGCTACTGGCTCCGGGGTCACAGCCGGTGGCTGCGGGGGCGGCTGACTGTGCTGCG
GTTGGGGCCCTCCTCGACACTGAAGGTAGGGGAGAGTCAGGATACCAAAGGCAGGGTAAGACTGCTGCAGAGGATTACTCTACAGGAGACTGAACAGAGA
AAGTATCCTAACTAGACTCCCTGAAGGCATGGCTCTGCAATTTTATCTCCGACTCGCTAGCAACTAGCATAAGACTGACACAAATTAGATGCATAATAAG
CATCTGTAATTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGTAACCTCCGCCTCC
CAGGTTCAAGAAATTCTCTTGCCTCAGCCTTCTAAGTAGCCAGGCCTACAGGCGCGTGCCACCACACCCAACTAATTTTTGTACTTGTAGTAGAGACAGG
GTTTCACCATGTTGGCCAGGCTGGATTGGAACTCCTGACCACACGTTATCCCCCTGCCATGGCGACCCAAAGTGCTGGGATTACAGGCAGGAGCCACCAC
ACCCGGCCACAGCATCTGTAATATTTGTAAATAAATTTCTAACAAAGAGTAGAGATTGTGGTTTCCTTTCCTCCACAAGTTGGTTTCCCAGCCTCCACAA
GTTAAGAGAGTAGAATCCTTTAATTGAAAAGAGATGCCATGAGACTAAGTCTGAAACAAACTCCCCAGATACCAGGCACCAAGAGGATTGGCAGAAATGA
GAGAGCCTCACAAAGATACTTTTTCTGCCCAAAAGAATGAATACTGCAGAGAAGACTAGATTATGAAGGCCAAACCCTGTGGATGTGGCCAGTGAAGCCC
TAACTCCCAGGCTGAGAGAAAAGGGAGAGGGAGGGTGGAGAGAGACCCTAGCCAGCCTTGCCCACTTACCTCCATCCGGGATAGTAAGGTCTGTATATCC
CTGATCATGTGCTGAGCCATCACCAGCCGTACCCGGGGCTCACTCTACAATGAGAGAAGGTTTATCAGGGTAGGTTRCAGATGAAGCCATGAGTTCTACC
ACCTACTAAATCAGGTCCCAGCCATCTCTCAGCCAGGTCCACCCCACCTCCCAGCCTCCTTCTCCCAGATCCCCTTCCCTGACCCTCGGAGGCCCCTCAA
TACCTGAATCGGGGCCTGTTCCATGTTGATGTGAACATCCACAGCAGAGCCGTCACTCTGGGGAAAGGGTAAGGGAAGTTGTTCTGGGAGAAGCCAACAC
TAAGGCCTCCACACCTCCAATTCATTCCCTGGAGCCCTACCTCCTTTTCTCCTTAAAGACTGAGACCAATAGCACACCACAGGGCCCCCTGAACCCAATC
TAAAGATGGAAGCATCTATCTTATTAATTCCCTGGTGCTACCACAACCAAAGCTACCCACAAAAGCCCTCCCCTGTGGAACATAAGCTTACAGGAAGATT
GAAGGTTCCAACCATGACATAGCTGTTGGCATTCCGGTCATGAACAGAGGCCCCAGGCCCCCGAGTACCAGGGGGGGATCCCCCACCATGAGTGGCTGAG
GCAGACCCCGTCCCAGAAGATGCCCCAGAAGGGAGGTGAGTCTGAGGAGGAGCCCGTTCCACCAGGTGGATAACCTTTCCCCCAACATCTGCAGAAAAAT
AGACACACACCAAAACATAGTATGAACAGGTAAACCCATGGCCTCAGTTCATCCCTCCAGACAGTAGCCCCAACCTCTGAACTGCCTCCCCAGCCCCCTT
ACTGTATTCCTGAAGCTTCTTATCATCTTGCAGAACTCGTCCCTGGTAAATGAGCCGTTGTTTTTCAGATGGGATGCTGACAGAGGCAGCAATGTGCTCC
TTAAACTCTTTTACATTCATCTGAAAAGAAGAGGCATGCACAGGAATGGAAAGAATGGAGGAAAGAGGAAGAACAAAGACAGACAACCGAGTTGTGGAGG
TGAGGGGTAAAAACCACCACAGAATCACTACCCGTTTGTCTTGACCGTGAGATCATTACTGTGCAAACCCTTAAACTAAAGTAACAGCTGTCAAAATACA
GACAATAAATTTGGCTTGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACATTAGGTCAGGAGTTCGAGACCAG
CCTGGCCAACATGGTAAAACCCCTTTTTTACCAAAAATACAAAAAAATAAGCCAGGCATGGTGGTCGCCTGTAATCCCAGCTACTAGGGAGGCTGAAGCA
AGAGAATCACTTGAATTCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCATCACTACACTCTAGCCTGGGTGACAGAGAGGGACTCCATCTCAAAAAAT
TAAATAAATAAACTTAATGAAGCTCAGGTTATAGATCCAGGAAAAATAACACGGATGAAAAACAAAAAAAAAACACATGGACATTATATTATCTGTCTGG
CATCCAAGGGAGTATGTGTCTAGAGACATCAGTGACCCCTTTCCAAACACAAGATGATACCAGTTTATTTACCAGACTCTCCTGTGATTTCCAAGATTAA
AAAATGGCAAAGAAGATGGGGTCTGGTATCAGGTTAATGAAGAAAGACTAAGAAGATAAGAAAGCAAAAAAGGTCCCAGCACAGTGGCTCACACCTGTAA
TCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACACGGTAAAACCCTGTCTCTACTAAAAATAC
AAAAATTAGCCGGGCGTGGTAGTAGGCGTCGTCTGTAATCCCAGATACTCAGGAGGCTGAGGCAGGAAAATTGCTTGAACCCAGGAGGCAGAGGTTGCAG
TGAGCTGAGATTGCGCCCCAGCCCTCCATCCTGGGCAACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAGCAAAAAGAGAAATATTTTTCCTAAC
TACAAACTGACTCTTGGGAAGTACCAGAGTATTTATATACATCTAATCACAAGTCTATATATGGCTTTCTTATATCCAGGTAATATCACATTTTAGAAAA
CCATGGACCACCCCACATGCAATTTGTCTCCAAGTATTACAGGAGTAAAGACACAGATAGCTATGTCCAAGGCTTTAAGCTCAAGAGACTCAAGCTATGC
CATAAAAATTAGTAATTTCACTCAACAGTCTATCAAGGACCTATCTCCATTATGGGTTCTGATTTCTACCCTTTAAAAACACAGCATAGACCTGACCAAT
GTCTATCAGTAAGACACACTTGCTTAGGGTTCCTGTGCTGTTTCCCTTCCCAAAGGCCAGAGCCATGCCTGTCCCTTTGGGTTGGGGTCCACCCATGATG
ATGACACACAGATTCTTCCTTCCTCTGTATTTCCCTCTGCATTAAGTTCTATCCATGTGGAGGACAGAACAAAATCAGCCTCACTCACAAAACATCAGAA
AACGTTCTACTGGAATACRAACAAAGGGATCAATAAAAAGAAAATCTGAGGCCAGGTGCGGTGGCTCATGCCTGTAATACCAGCACTTTGGGAGGCCGAG
GAGGGCACATCACCTGAGGTAAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATCAGCTGGGTATAGTGGC
ACACGCCTATAATCCCAGCTACTCAGGAGGCTGAGATAGGAAAATCGCTTGAACCCAAGAGGTGGAAGTTTCAGTGAGTCGAGATCGCGCCACTGCACTC
CAGCCTGGAAGACAGGGCGTGACTCCATCTCAAAAAAAAGAAAAAAAAAGAAAATCTGGTGACCAGAAAATCAAGCTCATCTCTCAGGCTAAGGGGCCTA
AACGAGGAAAAGCTAAAGGTGTCTTCCAGAACTAGTGAGGTGTCTCACCTGGGCCCCCACAATAAAGGTACGAGTTTGAGAGTCCAAGGTCTTCACCAAC
ACCTCCAAGCTGTCAGGCTCCTCCACAGCGGTACTGGTACTATCATTAGGCTCCATGGCCGACAGGTCTCTAAAGAAGAACGAAGGAAGGAAGGCCCGCT
GTTGCCCAGACCAGAGTGTACCCGAAAGACTCCCTAGCATTAATCCCTGCCCCAATACCTAAAAAGTTTCTCCTGCACACACACACATTCACACCTGTCC
CCATCCCCCTTCTGATTCCGGGGCACAGGGAGAGAAACACAAAGGGCAGGAGATCGACGGCTTAGGGAGCTGGAGGACGAGAGGTGGGAGGGGCTCCACG
ACGCCAATCACAATAAGCAGGGAGCCAGTCAGATTAGGAAGGAAGCACGAGACCAGAGACTAGTGTCATCACCGGTCACGGCAGGACAAGCGCCCCAGAG
GTCGGAAAATCCTGGGACAACGCGAAAGCGGTGGTCGCCCCACACTCTGCGGAGAAAGTGGTTTCGCGCACGCGCGCCACGCCCATCGAACCCTCCTAAC
TCACTATAGACCCGAAACGGCACTCACGGGGCGACAGACCTGCTAGCTGACTGCCCGCGTCTACTGCCTTCCCACGGTGTTCCAGCAGAACGGCACAACT
AACCCACAGCCAAACACACACACACACACACACACACACACACACACACACACACMCACCACCCCGCGGCTCCGCCCCCGACTTCCCCACGGACCGTCAC
TTCCGGTCTCCCCCAAACCTGCCACCGACGGCCACTTCCGTTTCCCCGATAGTATTTGGGGATCTCGAAGCGATACTTCCGGCTCCCCCCAGGTCCCCAA
GCTTTACTTTTGTGGGGCACGACGAGAAAGTCCGCAGCCCCAAACAGTGAGTTTCTGAGGGCGAGTCGGGCCGGGGCCGGCCTAKGTGGGAGGGAGCCGA
GCACCCCGAGGAGCCGCCACCGCTGTCGCCCGGGGGACCGTACTACGCCTGCGTGCGTCGCACTACGGATGCGTGGACACTTAAGCATCGCCCCACCCCC
TCCCCCCTCTGGCGGCGTTCACGTCTGTGCGCGCGCTTGAGCGCTAGAAGATTGAGGTGGCTACCGTAAATGCCTGAAAAACAGTCACCAGCTGGGACTC
TACCACTGCCTCGAGAGGGGCTATGGACGGTCGTATGGACCTTGGACTTTGGAGATGGGGGATTATGCCACATTCATCTATGTTTAAATCTTGGCAGGCT
GATAATTTCAGGCGGCACTGTCCTAGCCAGCTAAAACTCTTCTCCACCCTATTGCCCTCGCTGCGCCCTTTCTTCTGTGCCTCCGGAAGTTACTCTTTCA
GTAGGCGTTTGGGGGCGGCACTGGTCAATTTTGTTCTCGGTTGCTTGGTTGGGCTAGATTTCGGTTCTGCCGGGTGGGCGTTTTAAGGGCTGTGGGCGTC
ACATTCGTCGGTGTGTGGCCAAGGGGACATGACACGTTTTAGGAAAAGT


SNP Information

Context             (SEQ ID NO:52373):
GGAGCTAGTACTGCTAGCTACTCAGGAGGCTGAGGTGGGAGAACTGTTTGAGCCCAGGAGTTCAAGGTTACAGTGAGCTTTAACTCACTGGATTGCACCA
Y
TGCACTCCAGTCTGGGTGACAGAGCAAGACTCTGTAACTTAAAAAAAAAAGAAAAAAGCTGGCCGGGCACGATGGCTCAAGCCTGTAATCCCAGCACTTT
Celera SNP ID:            hCV2451879
SNP Position Genomic:     28672
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52374):
CCCCATCACTTTCAGCTGTGTTCACTTGTCCTCCAATCATTGATACCTCTCTCTACCTTTTCCAAAATACAGATTCTACAACTTGGAGGGACGGAGGTGG
K
CGTGGCCCTGATGAGCTGGAGGGCCCGGACTCCAAACTTCATCATGGTCATGATCCCCGGGGTGGGCTACAGCCTTCAGGCCCACCCCAGTTCCCTCCCT
Celera SNP ID:            hCV25623848
SNP Position Genomic:     10784
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,25|T,1)   total(G,60|T,2)
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,27|T,1)   total(G,60|T,2)   
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:52375):
CCTCAGTTCTGGTAAGCTGGAGGGGTTATGGGTGGGAATATCTCCATCCCCAGAGAAGGTCAAGTGCTGGAGGGAGCGGGTGGAGAACCTGGCCTAGGGG
R
CCTGCTGCTGGGTGCGTTTCTGCAGGGAGCAAGGGTAGAAGAATTGGGAGGTGGAGTAGAGAGGAAAAGTTAGGGTCAGTGGCAGAGCCAGGCAGATGCT
Celera SNP ID:            hCV25474249
SNP Position Genomic:     19033
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,2)   caucasian(A,10|G,4)   total(A,14|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:52376):
AAACAGAAAAATAGTAAAAGAGAGTCTGCATCATAATAAAGTGTTCTTTTCCCACCTAGTTCTGGTTTTCCTGAGATACTTATTTCCATTCTTTCTGTCT
K
TCTCTTCAGGAGCGAGACTCCTCCAGTACCTCCCCCACCACCCTATCTGGCCAGTTATCCAGGCTTTCCTGAGAATGGAGCCCCTGGGCCCCCAATCTCT
Celera SNP ID:            hCV7514703
SNP Position Genomic:     16425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52377):
TTATTTCCATTCTTTCTGTCTGTCTCTTCAGGAGCGAGACTCCTCCAGTACCTCCCCCACCACCCTATCTGGCCAGTTATCCAGGCTTTCCTGAGAATGG
R
GCCCCTGGGCCCCCAATCTCTCGCTTTCCTCTGGAGGAACCAGGGCCCCGTCCACTCCCCTGGCCCCCAGGCAGTGATGAAGTGGCCAAGATACAAACTC
Celera SNP ID:            hCV7514704
SNP Position Genomic:     16504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52378):
TATTTCCATTCTTTCTGTCTGTCTCTTCAGGAGCGAGACTCCTCCAGTACCTCCCCCACCACCCTATCTGGCCAGTTATCCAGGCTTTCCTGAGAATGGA
R
CCCCTGGGCCCCCAATCTCTCGCTTTCCTCTGGAGGAACCAGGGCCCCGTCCACTCCCCTGGCCCCCAGGCAGTGATGAAGTGGCCAAGATACAAACTCC
Celera SNP ID:            hCV7514705
SNP Position Genomic:     16505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52379):
TCTTCCGCACCCAGCGCGTCGACCTTTACCAGCAGGTGAAGGAGAAACCCTTGTGGCCCCAACTCTAAATTCGAGTTGCCACCTGATTTCCTGTCCTTCC
R
TCTCATCGCTGACCTCTCACTGTGACTCACTCTTTAACACATGCCTGTCCCCTAGGCCTCCCCACCAGATGCCCTGCGCTGGATACCTAAGCCTTGGGAG
Celera SNP ID:            hCV16222215
SNP Position Genomic:     22686
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(A,3|G,37)   total(A,6|G,68)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,25)   caucasian(A,2|G,20)   total(A,5|G,45)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52380):
GAATGGACTGAGAGACCTGTCGTCCGGCTTGCTTAGGGAGCTGGAGGTATCGAGTAAAGAAACACTGGTGATGGACATTTTTAATGAGGATAGGAAAACG
R
AGATGGCTCTGGCCTTGGCCCTCTGTTTTCTGGCCCATGGTTACAGGGTGCTAAGGTGGCTCCATAATGCTTTTTCTCAGTTCTTCATATGGTAAAACAG
Celera SNP ID:            hCV16134947
SNP Position Genomic:     7193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52381):
GCCCCCACCCCGCTGAGGGAGTTCCTCTTGCCCCCTACCCCCGGGGCTTGTATATAGATTATAAATATATAAGGGGGAAAGGGGTGGGCGGGGAGGGGTT
S
TGGGGCTGGGGCCTCACTTCCCCTCCTCCCCCTTCCCCTGGTCCCCTGTCCCTGGGGCTGTTTGTTAAAAAAGAGTAATAAAAGGATTTAAAAAAAAAAA
Celera SNP ID:            hCV902448
SNP Position Genomic:     22967
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52382):
TACCACAACCTCCACCTCCTGGGTTTAAGCGATTATCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCACACCCGGCTAATTTTGT
R
TTTTTAGTAGAGACAGGGTTTCTCCATTTTGGTCAAGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTGCCAAAGTGCTGGGATTG
Celera SNP ID:            hCV11408824
SNP Position Genomic:     8737
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52383):
ATGGCAAGCCAGCCACTCACCTGCAAGAAGTCAGTCATGCCTTGGAGAAAGGCAGGGACACCAGGCATCGCCACAGTGATGGTGGGAGAAGCCACACCAG
R
CCCTCCAGCCCCTGGCCCTGCAGGCCCTAGCAGGTTCCCCAGAAGCTGAGAGAACTGAAGATCAGCCATGGAGGGTTGAGGGGTGGGTGGAGGCTGGGCA
Celera SNP ID:            hCV2451880
SNP Position Genomic:     28200
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,17)   caucasian(A,19|G,19)   total(A,38|G,36)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52384):
GAAAAAGTTTCCTCATTAAACGAGGGGAGGGGAGACTGAATAACAAGAGCTCCCACCATCTCTACATAGTTTGATTCCAGGCATGACGGGGAAACCTGGA
Y
AGAGAGAGAGGCTTAGGGAAGAGGAAAACCAACCTTGCGTCTCTTGGCAGGCATACCACTGAGGTAGGCATCACTCAGAGGGGGCTGCGGTTTCACCTTC
Celera SNP ID:            hCV2451881
SNP Position Genomic:     25460
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52385):
AGAAAACCAGAGCTGCTACAGGAGGTAAGGGATGGGTTTGAGATTGTGCTTCACTGCACTCTTACTCGTGAAAATTCTTCTGGGTTATGTTTTCTCTGTT
Y
TCTTTCCTGTTTCTTTCACTGTGTTTTTACTCCAGAATTCTCAGTATTAGTCTCCCATGTGTCTCCCTTGTTGTCCCCACACCCTGTGTCACCCCACTCT
Celera SNP ID:            hCV25473308
SNP Position Genomic:     19362
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,19)   caucasian(C,9|T,31)   total(C,14|T,50)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52386):
TACTCTGTCTCAAAAAAAAAAAAAAACAAACATCAAAACTGGCTTGTACAATTTAGCGTGCTGAGTAGAACACAACAGTGTTCCAAGGAAGTATTAATTT
W
AAAAAGTTCACACAAGATTAAGGGACACACTACCTAATGGAGACAATGTAGAGAGAAAGCAGCCAGAAAAATCCGACTTTTATTTCTTAAATACTGTGAA
Celera SNP ID:            hCV2451884
SNP Position Genomic:     24274
SNP Source:               Applera
Population(Allele,Count): african american(A,23|T,5)   caucasian(A,29|T,1)   total(A,52|T,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52387):
CAGGTGAAGGAGAAACCCTTGTGGCCCCAACTCTAAATTCGAGTTGCCACCTGATTTCCTGTCCTTCCGTCTCATCGCTGACCTCTCACTGTGACTCACT
S
TTTAACACATGCCTGTCCCCTAGGCCTCCCCACCAGATGCCCTGCGCTGGATACCTAAGCCTTGGGAGCGGACAGGGCCGCCACCTCGAGAAGGGCCCTC
Celera SNP ID:            hCV2451888
SNP Position Genomic:     22718
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,22)   caucasian(C,15|G,25)   total(C,27|G,47)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,18)   caucasian(C,4|G,14)   total(C,14|G,32)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52388):
TCGTGTCGAGCCACTCCCACTCTAGAATCCTGCTTTTATCCCAGCATCTTTGCTTTCTATGTTGCTCAGTCGCCCTATGTCTGCTTTTTCATTTTTCCTG
K
TCCTCGTCTCCTTTCTCCCCCAACCCCGTTTTTCTTCTTGGGCCTCTGCCCCCTTACTTCGTTGTCTACATCCTTTTTTTTTTTGCCATTCCTGTTTCCA
Celera SNP ID:            hCV16286898
SNP Position Genomic:     6711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52389):
CCCAAATTTCTTGTTACAGATGCTTCTACCCATGGTAGACTCACAGCTGCCTGTGGTGAACTTTGGCTCCCTGCCGCCAGCACCACCTCCTGCCCCACCT
Y
CCCTTTCTCTGTTACCTGTGGGCCCTGCTCTGCAGCCCCCCAGCCTGGCTGTGCGGCCCCCACCTGCTCCTGCTACTCGGGTGCTGCCTTCACCTGCCAG
Celera SNP ID:            hCV2451889
SNP Position Genomic:     22110
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,14)   caucasian(C,26|T,14)   total(C,50|T,28)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52390):
TCCTAAGACGGCCTGGGCAGAAACCTCTCGGCCTCCAGAGACAGAGCCGGGACCTCCTGCCCCAAAGCCTCCCCTACCCCCACCTCACCGGGGCCCCGCC
R
GGAACTGGGGCCCCCCTGGGGACTACCCAGTGAGTGTCTCCAATAAGGGATTGAGAGGGTCAGCTGTGGGAAATTGGTGTCAGCTGAGTAATTGAAGCGG
Celera SNP ID:            hCV25623781
SNP Position Genomic:     12465
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,34)   total(A,1|G,67)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52391):
GGTCTCAAAGAAGACCAGGATAATGAGTTTGTCACCACCCAGAGAGATCAACCCCAAAGCCTGGGTCGTTGCATCCTGCAAGTAGCGACAGTTGATTTGT
Y
GTAAAAGAGATGATAGAAAGCATAGTAACTGATTCCCCTGGCCCTGCTGGGTCTTGCCAATTGACAGGATCGTGGGGGTCCTCCCTGCAAGCCCCCAGCA
Celera SNP ID:            hCV25623785
SNP Position Genomic:     12993
SNP Source:               Applera
Population(Allele,Count): african american(T,30)   caucasian(C,1|T,35)   total(C,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:52392):
TACTGTTGTTCTAATGGTTTCATAGAAAGTTAATGCCACCACCATAGGCTCATGAGAGGCCATGAAGTGCTTTAATGGGTCTTAAATGGGAGGGGCTTCA
R
TAGAATAGATGTTGAATAGAATATTTTAGTCTTAAGGGAGCTAGAGATGAGACGTGAGATTCCTGGGGTGTTCATGGAGTGTCTATTGTTGGACTAGATC
Celera SNP ID:            hCV25623786
SNP Position Genomic:     14313
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52393):
CAGACAGTGGGGGCTCAAGCTCAGAGCCATTTGACCGTCATGCACCTGCTATGTTACGGGAACGGGGCACTCCACCGGTGGATCCAAAGTTGGCCTGGGT
R
GGAGATGTCTTCACCGCCACACCCGCTGAACCCCGCCCACTTACCTCACCTCTGCGCCAGGCTGCGGATGAGGATGACAAGGGGATGAGGTGAGTCTTGG
Celera SNP ID:            hCV25623787
SNP Position Genomic:     16008
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,6)   caucasian(A,24|G,6)   total(A,46|G,12)
SNP Type:                 SILENT MUTATION;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52394):
GAAAGAGTGGGTCCTACCTCTTGCCGGGGTCGGGGCCGAGGCGAGTATTTTGCCAGAGGGAGGGGTTTTCGGGGGACCTATGGGGGACGAGGGCGGGGAG
S
CCGAAGCCGGGAATTCCGCAGTTACCGAGAGTTTCGAGGAGATGATGGGCGTGGAGGTGGGACAGGGGGACCAAACCACCCTCCTGCTCCCCGAGGCCGC
Celera SNP ID:            hCV7514713
SNP Position Genomic:     17115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52395):
AGGTGGGACAGGGGGACCAAACCACCCTCCTGCTCCCCGAGGCCGCACTGCCAGCGAGACACGGAGCGAGGGTTCAGAGTATGAGGAAATCCCCAAGCGG
Y
GCCGGCAGCGGGGCTCAGAAACAGGCAGCGAGACCCATGAGAGTGATCTGGCTCCTTCAGACAAGGAGGCTCCCACACCCAAGGAGGGAACACTCACCCA
Celera SNP ID:            hCV7514714
SNP Position Genomic:     17270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52396):
TCCCACACCCAAGGAGGGAACACTCACCCAGGTCCCTCTCGCTCCCCCACCACCAGGAGCCCCACCTTCACCAGCCCCAGCCCGCTTCACTGCCCGGGGT
S
GGCGAGTCTTCACTCCCAGAGGGGTGCCATCTCGCCGGGGCCGAGGAGGAGGGAGGCCCCCTCCTCAAGTTTGCCCAGGCTGGAGCCCTCCAGCCAAGTC
Celera SNP ID:            hCV7514715
SNP Position Genomic:     17441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52397):
CAGGCATTGTGGCTCACGCCTGTAATCCCAGCACTTAGGGAGGCCGAGGTGGGCAGATCAACTGAGTTCAGGAGTTCGAGACCACCATGGCTAACGTGGT
R
AAACCCCATTTCTACTAAAAATACAAAAAAGTAGCCGGCGTGGTGGCGCTCGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAAACGCTTGAA
Celera SNP ID:            hCV27465416
SNP Position Genomic:     15434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52398):
GCAGCAGGATAAACCGCCTCGTTTCCGGAGGCTGAAGCAGGAACGGGAGAATGCCGCAAGGGGGTCTGAGGGCAAGCCCTCCCTAACCCTTCCAGCCTCC
R
CTCCTGGACCTGAGGAGGCCCTCACAACAGTCACAGTGGCCCCAGCACCTCGCCGGGCAGCTGCCAAGTCTCCTGATCTGTCAAACCAGAACTCAGACCA
Celera SNP ID:            hCV25623791
SNP Position Genomic:     17816
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,19)   caucasian(G,22)   total(A,1|G,41)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52399):
ACGGAGCTTCTCAAGTCAGCGGCCAGGCATGGAACGGCAGAATCGGCGCCCTGGCCCAGGGGGCAAGGCTGGCAGCAGTGGCAGCAGCAGTGGAGGAGGC
R
GTGGGGGTCCTGGAGGAAGGACCGGGCCAGGACGAGGCGACAAGAGGAGCTGGCCCTCTCCCAAGAACCGAAGGTGGGTAGGAACAAACAAATTTATTGT
Celera SNP ID:            hCV25623792
SNP Position Genomic:     18215
SNP Source:               Applera
Population(Allele,Count): african american(G,22)   caucasian(A,1|G,37)   total(A,1|G,59)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:52400):
ATCTGGCTCCTTCAGACAAGGAGGCTCCCACACCCAAGGAGGGAACACTCACCCAGGTCCCTCTCGCTCCCCCACCACCAGGAGCCCCACCTTCACCAGC
S
CCAGCCCGCTTCACTGCCCGGGGTGGGCGAGTCTTCACTCCCAGAGGGGTGCCATCTCGCCGGGGCCGAGGAGGAGGGAGGCCCCCTCCTCAAGTTTGCC
Celera SNP ID:            hCV11917406
SNP Position Genomic:     17416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52401):
AGCCAGAGAGCCAAGGATTTGAGTAAACGGAGCTTCTCAAGTCAGCGGCCAGGCATGGAACGGCAGAATCGGCGCCCTGGCCCAGGGGGCAAGGCTGGCA
R
CAGTGGCAGCAGCAGTGGAGGAGGCGGTGGGGGTCCTGGAGGAAGGACCGGGCCAGGACGAGGCGACAAGAGGAGCTGGCCCTCTCCCAAGAACCGAAGG
Celera SNP ID:            hCV25623793
SNP Position Genomic:     18189
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(G,38)   total(A,2|G,58)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:52402):
ACAAAGAGGCACCCCCACCAGTACTGCTGACACCCAAGGCTGTGGGAACTCCTGGGGGAGGTGGAGGTGGAGCCGTACCAGGTATTTCAGCCATGTCCCG
Y
GGAGATCTGAGCCAGAGAGCCAAGGATTTGAGTAAACGGAGCTTCTCAAGTCAGCGGCCAGGCATGGAACGGCAGAATCGGCGCCCTGGCCCAGGGGGCA
Celera SNP ID:            hCV25623794
SNP Position Genomic:     18079
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,1)   caucasian(C,22)   total(C,41|T,1)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52403):
ATGGAGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCAAGAAGATTGCTTGAGCCCAGCAGTTCGAGACTAGCCTCGGCAACTGGATGCC
R
TCTCTGCCAAAACAAACAGAAAAATAGTAAAAGAGAGTCTGCATCATAATAAAGTGTTCTTTTCCCACCTAGTTCTGGTTTTCCTGAGATACTTATTTCC
Celera SNP ID:            hCV25623795
SNP Position Genomic:     16311
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,2)   caucasian(A,38)   total(A,52|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:52404):
CCAAGAAGGAGCCCCCTAAGGAGGAGACTGCACAGCTGACGGGGCCAGAAGCAGGCCGAAAGCCTGCCCGCGGAGTCGGGAGTGGAGGCCAGGGCCCCCC
M
CCACCACGCAGAGAGAGTCGCACAGAGACCCGCTGGGGCCCTCGTCCAGGGAGCAGTCGTCGTGGAATCCCTCCAGAGGAGCCAGGGGCCCCACCCCGCC
Celera SNP ID:            hCV25623796
SNP Position Genomic:     16711
SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,1)   caucasian(A,33|C,1)   total(A,50|C,2)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52405):
GATAAACCGCCTCGTTTCCGGAGGCTGAAGCAGGAACGGGAGAATGCCGCAAGGGGGTCTGAGGGCAAGCCCTCCCTAACCCTTCCAGCCTCCGCTCCTG
S
ACCTGAGGAGGCCCTCACAACAGTCACAGTGGCCCCAGCACCTCGCCGGGCAGCTGCCAAGTCTCCTGATCTGTCAAACCAGAACTCAGACCAAGCCAAT
Celera SNP ID:            hCV11917408
SNP Position Genomic:     17823
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,21)   caucasian(C,1|G,21)   total(C,2|G,42)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52406):
ATGCATAGGAACCCTTAGAAGGACTCAAAAACACCTGGACTTTAATAGGGAAGAGAATAGGTTGTAAGCAGAAGTTGGGAAACATAACTTGTGGGAAAAA
R
TAACGATTTAGTGGATACTGGAGCTAATGCTCTGTTTTCTCCAGTCGTCCTCCAGAGGAGCGTCCCCCGGGGCTTCCCCTGCCTCCCCCACCTCCCAGCA
Celera SNP ID:            hCV25623797
SNP Position Genomic:     18630
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,33)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:52407):
TATGTATTCATTGCTGGTTCTTTGCTTTCCAGTCTGTGCATCTGTATGCATAGGAACCCTTAGAAGGACTCAAAAACACCTGGACTTTAATAGGGAAGAG
R
ATAGGTTGTAAGCAGAAGTTGGGAAACATAACTTGTGGGAAAAAGTAACGATTTAGTGGATACTGGAGCTAATGCTCTGTTTTCTCCAGTCGTCCTCCAG
Celera SNP ID:            hCV25623798
SNP Position Genomic:     18585
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,28)   total(A,63|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52408):
GTTTTCTATGGCAGTGCTGGGCCTTCCAGTTCTCAGGTAGGCCCCGCTTCCCATTGCATGACCCCTTCAGTGAATAATAATTTTTTTCTGCCTGGTATGT
R
TTTATAATCAAGCCTTTCTACGTTGCAGAGTTGTGAGATACCACTTTGTCACATCATTTTTCTCCCTACTTTTTGCTTCTATGGGTGGGATGGTGATCTT
Celera SNP ID:            hCV3273976
SNP Position Genomic:     21110
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,3)   caucasian(A,18|G,18)   total(A,29|G,21)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,5)   caucasian(A,16|G,20)   total(A,35|G,25)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;(G,-|A,-)   (A,-|G,-)   JBIC-allele(A,261|G,1230)   total(G,1230|A,261)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52409):
CTATGGGTGGGATGGTGATCTTTTTTCTTGACCACAGATACTAAAGCTGTTTCAACCGTGCTCCTCTCCTGCAGATCTCTGGGGGAGCCATGGACTCTCA
R
TTACATCCAAACAGTGGAGGCTTCCGCCCTGGGACACCCTCACTGCACCCTTACAGGTAAGACTCGATGCCTGTGGATCACAGAAGTACTTGGAGATGTG
Celera SNP ID:            hCV7514722
SNP Position Genomic:     21289
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,1)   caucasian(A,18|G,6)   total(A,29|G,7)
SNP Type:                 SILENT MUTATION;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52410):
CTAGAAGCTAGTGGACTTAAGGCATTGCTAGGACTCTGGCTTCCTAACAGCTTTTCTCCCCACAATTTATTTTCAGATCACAGCCCCTATACCTACCCCC
S
GGCCCAGCCCCTCCCTCAGCACTGCTCTCTGGGGTAGCTCTCAAGGGCCAGTTTCTGGATTTCTCCACAATGCAAGCTACAGAGCTGGGGAAGTTGCCGG
Celera SNP ID:            hCV7514723
SNP Position Genomic:     21529
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52411):
CCTTTCCCTCCCCCAATGCACTTTACTGTGTGCCCAATCCAGGAGCTGCCCCGGGAGCAGCCTCTGCCCCCTGGCCCCATTGGCACAGAACGATCACAGC
R
TACAGACCGAGGCACAGAGCCTGGCCCCATTCGGCCATCCCATCGACCTGGTCCCCCAGTCCAGTTTGGCACTAGTGACAAGGTCTGTGTGGGCTGGATC
Celera SNP ID:            hCV3273977
SNP Position Genomic:     20486
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,21)   caucasian(A,18|G,22)   total(A,35|G,43)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,17)   caucasian(A,13|G,19)   total(A,28|G,36)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): (A,2|G,3)      total(G,3|A,2)Gaucasian(A,108|G,196)   Ghinese(A,27|G,31)   Japanese(A,8|G,12)   African(G,48|A,50)    ;(A,-|G,-)   (G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52412):
GACCCCCACTTTGAGGAGCCGGGGCCAATGGTGAGAGGGGTGGGTGGGACTCCTCGGGACTCTGCCGGGGTTAGTCCCTTTCCCCCTAAACGTCGGGAGC
R
GCCTCCCAGAAAACCAGAGCTGCTACAGGAGGTAAGGGATGGGTTTGAGATTGTGCTTCACTGCACTCTTACTCGTGAAAATTCTTCTGGGTTATGTTTT
Celera SNP ID:            hCV25623799
SNP Position Genomic:     19254
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,11)   caucasian(G,26)   total(A,1|G,37)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52413):
ACTGGAAAGCGGTTGGTAGGGTGTTAGAGTCAAGAACACCCACCTATGTATTCATTGCTGGTTCTTTGCTTTCCAGTCTGTGCATCTGTATGCATAGGAA
Y
CCTTAGAAGGACTCAAAAACACCTGGACTTTAATAGGGAAGAGAATAGGTTGTAAGCAGAAGTTGGGAAACATAACTTGTGGGAAAAAGTAACGATTTAG
Celera SNP ID:            hCV3273978
SNP Position Genomic:     18541
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52414):
GACCTCTCACTGTGACTCACTCTTTAACACATGCCTGTCCCCTAGGCCTCCCCACCAGATGCCCTGCGCTGGATACCTAAGCCTTGGGAGCGGACAGGGC
Y
GCCACCTCGAGAAGGGCCCTCCCGACGGGCAGAGGAGCCTGGGTCCCGAGGGGACAAGGAGCCTGGGTTGCCCCCACCCCGCTGAGGGAGTTCCTCTTGC
Celera SNP ID:            hCV7514724
SNP Position Genomic:     22797
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,37|T,3)   total(C,68|T,6)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52415):
CGCGTCTACTGCCTTCCCACGGTGTTCCAGCAGAACGGCACAACTAACCCACAGCCAAACACACACACACACACACACACACACACACACACACACACAC
M
CACCACCCCGCGGCTCCGCCCCCGACTTCCCCACGGACCGTCACTTCCGGTCTCCCCCAAACCTGCCACCGACGGCCACTTCCGTTTCCCCGATAGTATT
Celera SNP ID:            hCV16286906
SNP Position Genomic:     37656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:52416):
GGCTAAGGCAACTGGAAAGCGGTTGGTAGGGTGTTAGAGTCAAGAACACCCACCTATGTATTCATTGCTGGTTCTTTGCTTTCCAGTCTGTGCATCTGTA
Y
GCATAGGAACCCTTAGAAGGACTCAAAAACACCTGGACTTTAATAGGGAAGAGAATAGGTTGTAAGCAGAAGTTGGGAAACATAACTTGTGGGAAAAAGT
Celera SNP ID:            hCV3273979
SNP Position Genomic:     18531
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52417):
TTACACAACTCCAGCAACCGGGCCCCAAATCCACTATCTGTGGGCAAAATACAAGGAGGGAATGCTGGCACGTGGCAGCCCTGCACATGCAACAGGCCCC
M
CTTGCCCCCGCCTGGCCAGCCCCTGACCTGTGCAATGCAGCACATGCGCAGCAATGCTATTAAACTGCTCTTGGAGAAATTCCAGGTTTGTCCGGATGAT
Celera SNP ID:            hCV27898010
SNP Position Genomic:     26587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52418):
TTATTTCTTAAATACTGTGAAGGAAGAGGGGGGAAACGGTCCCCTGATGAGGAAGGGCCATAGAGCAAAGAGCTAAGGATCATCAGCAAAGGCCCGCTGG
S
CATTGGGGAAGCGCTGGGGACTGTAGTTGGGGTCTTCCTGCAGTCGTTTTTGTATATCAGACCGGAGCTAAAGAGAAAAAGTAAGCAGGTTGGAGAAACG
Celera SNP ID:            hCV7514727
SNP Position Genomic:     24454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52419):
GCTTGGTCTGTCTCCCCACCTCTACCAGCATCTGCTGAGCTATGAGCCAAACCAGGGATTTACAGGGTAGGGAGGGTGGGATAGGCAGCGGCATTAGATC
R
GAGGAATGAGATGGACAGACCTGGGCTGTGGGCTAGGAGGGCAGTCAGCTGGCCTAGGGTAGCCCGGGCTGGTGTCAGGGTAAGGAGAGGAAGGGAGGGA
Celera SNP ID:            hCV25630726
SNP Position Genomic:     691
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,17)   caucasian(A,1|G,17)   total(A,2|G,34)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52420):
AAGCCAACAGGCCCCCCAGCCAAGAAAGCTATCTCTGAGTTGCCCTGATTTGAAGGGAAAAGGGATGATGGGATTGAAGGGGCTTCTAATGACCCAGATA
Y
GGAAACAGAAGACAAAATTGTAAGCCAGAGTCAACAAATTAAATAAATTACCCCCTCCTCCAGATCAAGTCAGCTTAGTTTTTATTTGGGTGATTTTTTT
Celera SNP ID:            hCV25630728
SNP Position Genomic:     2255
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,36)   total(C,2|T,70)
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:52421):
GATGCCGCCTTTCGTGAGTCTTGGTGTCTTGTCTTGGAACGATTACACTGGAAGCTGGAGAGCTAGGAATCAGGACTTAGTCTTTGACCTATGAGATAGA
R
GGGAGGGTGGGAGGATGATTGATAGCAGGCTTAAGGAGCTAGAAGGGTATATGACTGTCCCTCTGAGCAGCTACTGTTGGACCCTTTTACAGATGTATCC
Celera SNP ID:            hCV25474050
SNP Position Genomic:     10995
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,25|G,13)   total(A,56|G,20)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(A,631|G,868)   total(G,868|A,631)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52422):
AAAGTTGCCATTGCCCGGCGTATGCCACCTCCAGCCAACCTTCCAAGCCTGAAAGCCGAGAACAAAGGCAATGACCCCAATGTCTCACTAGTGCCAAAAG
W
CGGAACAGGATGGGCAAGCAAACAGGAGCAGTCCGACCCCAAGAGGTAGACAGAGGCTTGGGGGACCTAGAGTGATGGGTATTTTAACTTGAACTTCAGG
Celera SNP ID:            hCV29231527
SNP Position Genomic:     9160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:52423):
CAAGAGGTAGACAGAGGCTTGGGGGACCTAGAGTGATGGGTATTTTAACTTGAACTTCAGGGAGCATTGGGGCTTGGTTTAGTCCAGCCACGTCTGAGCC
R
GAGACGAAGAGGTCCCTTTCTTACCTATTGCAGGTTCCTTGTTAAATGACTAAGGAATGGTACTAAACTTTAGCTTTTTGTCTTGGAGAGAGAGCATGAA
Celera SNP ID:            hCV29231528
SNP Position Genomic:     9300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52424):
CTAGAGTGATGGGTATTTTAACTTGAACTTCAGGGAGCATTGGGGCTTGGTTTAGTCCAGCCACGTCTGAGCCAGAGACGAAGAGGTCCCTTTCTTACCT
R
TTGCAGGTTCCTTGTTAAATGACTAAGGAATGGTACTAAACTTTAGCTTTTTGTCTTGGAGAGAGAGCATGAAAAAATAGACAACAGCCTACAAAGGATG
Celera SNP ID:            hCV25474125
SNP Position Genomic:     9327
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,10)   caucasian(A,26|G,6)   total(A,48|G,16)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52425):
CCCCGCGCACCCGGCCAGGTGAGTCTGGGTGAACCGTGCGCTGACGCCCTTTTCCGGCGCGGGAGAGGTGGTGGCGGTGGCGGTGGCGGCGGCGGCGGCG
K
TGGTGGGCCGGGGGGAGGAGAAGCTGCCATTAGCCGCCGCCATTTTGTCCTCCTGCTGCCGGGCCTGCTTGCCCCTCCCCCTCCGGTACCTCTACTCCGG
Celera SNP ID:            hCV26778747
SNP Position Genomic:     6241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52426):
TTCGTGTCGAGCCACTCCCACTCTAGAATCCTGCTTTTATCCCAGCATCTTTGCTTTCTATGTTGCTCAGTCGCCCTATGTCTGCTTTTTCATTTTTCCT
K
TTCCTCGTCTCCTTTCTCCCCCAACCCCGTTTTTCTTCTTGGGCCTCTGCCCCCTTACTTCGTTGTCTACATCCTTTTTTTTTTTGCCATTCCTGTTTCC
Celera SNP ID:            hCV26778748
SNP Position Genomic:     6710
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52427):
CCCTCCTGGTGTGCATCCCTCTGGTAAGGGGGCATGGGAGGAGTGAGAAACAGGAAAGTCCCCTCAGTCTTAGGCATTGGATATTAGGGTCTTACTGTGA
Y
TCTGGTACGATAGGTTTTGCCCATCATAGTGATGAGGGAAGGGCATATGCTTGGCACTGCTGAGATAGCTCTGTTGCAAAAATGGGCTTAGTTAAGAAAT
Celera SNP ID:            hCV27463035
SNP Position Genomic:     15219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52428):
CCTCTCCCAAGAACCGAAGGTGGGTAGGAACAAACAAATTTATTGTGGTTTAAAAATTGGAGGAGGGGGAAAAAGCCTGAGGGAAAGATAAGTTTGGGTG
K
AGTGGAGATTGTGGCCTGAGGGGCCATGGGCTCTAGAATGTCAGTAGGATTTCCATGTCTGGCTAAGGCAACTGGAAAGCGGTTGGTAGGGTGTTAGAGT
Celera SNP ID:            hCV3273980
SNP Position Genomic:     18370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52429):
GGGCCAGGACGAGGCGACAAGAGGAGCTGGCCCTCTCCCAAGAACCGAAGGTGGGTAGGAACAAACAAATTTATTGTGGTTTAAAAATTGGAGGAGGGGG
R
AAAAGCCTGAGGGAAAGATAAGTTTGGGTGGAGTGGAGATTGTGGCCTGAGGGGCCATGGGCTCTAGAATGTCAGTAGGATTTCCATGTCTGGCTAAGGC
Celera SNP ID:            hCV3273981
SNP Position Genomic:     18339
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,4)   caucasian(A,26|G,6)   total(A,38|G,10)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52430):
GAGAAACGCTTGAACCCAGGAGGTGGAGGTTGTAGTGAGCCGAGATTGTGCCATCGCACTCCAGCTTAGGCAACGAGCGAAACTCCGTCTCAAAAATGAA
T
GAATGAATAGCACAACTCCATCTCAAAAATGAATGAATGAATGAAAGAAGCAGTGGTCCTTCATTTGCCAGGATTTATTTGGGGTGGGTTGATTCTCTTG
Celera SNP ID:            hCV3273983
SNP Position Genomic:     15621
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52431):
TACAAAAAAGTAGCCGGCGTGGTGGCGCTCGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAAACGCTTGAACCCAGGAGGTGGAGGTTGTAG
W
GAGCCGAGATTGTGCCATCGCACTCCAGCTTAGGCAACGAGCGAAACTCCGTCTCAAAAATGAATGAATGAATAGCACAACTCCATCTCAAAAATGAATG
Celera SNP ID:            hCV3273984
SNP Position Genomic:     15556
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52432):
TGCAAAAATGGGCTTAGTTAAGAAATAAGCAGTGGTTGGCCAGGCATTGTGGCTCACGCCTGTAATCCCAGCACTTAGGGAGGCCGAGGTGGGCAGATCA
R
CTGAGTTCAGGAGTTCGAGACCACCATGGCTAACGTGGTGAAACCCCATTTCTACTAAAAATACAAAAAAGTAGCCGGCGTGGTGGCGCTCGCCTGTAGT
Celera SNP ID:            hCV3273985
SNP Position Genomic:     15394
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52433):
GAAAGTCCCCTCAGTCTTAGGCATTGGATATTAGGGTCTTACTGTGACTCTGGTACGATAGGTTTTGCCCATCATAGTGATGAGGGAAGGGCATATGCTT
R
GCACTGCTGAGATAGCTCTGTTGCAAAAATGGGCTTAGTTAAGAAATAAGCAGTGGTTGGCCAGGCATTGTGGCTCACGCCTGTAATCCCAGCACTTAGG
Celera SNP ID:            hCV3273986
SNP Position Genomic:     15272
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52434):
AACTGTTTGAGCCCAGGAGTTCAAGGTTACAGTGAGCTTTAACTCACTGGATTGCACCACTGCACTCCAGTCTGGGTGACAGAGCAAGACTCTGTAACTT
A
AAAAAAAAAGAAAAAAGCTGGCCGGGCACGATGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACAAGGTCAAGAGTTCGAG
Celera SNP ID:            hCV9555509
SNP Position Genomic:     28713
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,8)   total(A,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52435):
TTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAATCCTGTCTCACAAGAAATACATAAATAAAAATGAAAACTATTTCCTATAGGC
Y
AAGACTGAAGAAAGTACTGTTGTTCTAATGGTTTCATAGAAAGTTAATGCCACCACCATAGGCTCATGAGAGGCCATGAAGTGCTTTAATGGGTCTTAAA
Celera SNP ID:            hCV3273987
SNP Position Genomic:     14198
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52436):
GAGGCGGGCAGAACATGAGGTCAGGAGTTCAAGATCAGCCTGGCCAACATAGTGAAACCCGTCTCTACTAAAAATACAAAAATTAGCCAAGTGTGGTGGC
W
TGTGCTTGTAGTCCCAGCTGCTTGGGAGGCTGAGGTAGTAGAATCGCTTTAACCCGGGAGGCAGAGATTTCTGTGAGCCAAGACCATGCCATTGCACTCC
Celera SNP ID:            hCV3273988
SNP Position Genomic:     14006
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,8)   total(A,8|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52437):
ACCAGGATAATGAGTTTGTCACCACCCAGAGAGATCAACCCCAAAGCCTGGGTCGTTGCATCCTGCAAGTAGCGACAGTTGATTTGTTGTAAAAGAGATG
R
TAGAAAGCATAGTAACTGATTCCCCTGGCCCTGCTGGGTCTTGCCAATTGACAGGATCGTGGGGGTCCTCCCTGCAAGCCCCCAGCACCTGAAGATGAGG
Celera SNP ID:            hCV3273989
SNP Position Genomic:     13006
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,10)   caucasian(A,25|G,13)   total(A,53|G,23)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52438):
TTGAGAGCTCTATGCTAGTGTGCACCTGGAATATGCTCCCAACTCAAAATACAGGTTTTTTATTTATATATAAAGTGCTTTCGCACAAAAAATACAAACA
R
CAGGCTGGGCGCGGTGGCCCACGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAATAT
Celera SNP ID:            hCV29231530
SNP Position Genomic:     23894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52439):
AGTGTGCACCTGGAATATGCTCCCAACTCAAAATACAGGTTTTTTATTTATATATAAAGTGCTTTCGCACAAAAAATACAAACATCAGGCTGGGCGCGGT
Y
GCCCACGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAAACCCTGTCTC
Celera SNP ID:            hCV29231531
SNP Position Genomic:     23910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52440):
GAAAAGTTAGGGTCAGTGGCAGAGCCAGGCAGATGCTGACCCTTTTTCTCTTTCCCAGACCCCCACTTTGAGGAGCCGGGGCCAATGGTGAGAGGGGTGG
R
TGGGACTCCTCGGGACTCTGCCGGGGTTAGTCCCTTTCCCCCTAAACGTCGGGAGCGGCCTCCCAGAAAACCAGAGCTGCTACAGGAGGTAAGGGATGGG
Celera SNP ID:            hCV25623800
SNP Position Genomic:     19197
SNP Source:               Applera
Population(Allele,Count): african american(G,10)   caucasian(A,2|G,16)   total(A,2|G,26)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52441):
CCCCCTAAACGTCGGGAGCGGCCTCCCAGAAAACCAGAGCTGCTACAGGAGGTAAGGGATGGGTTTGAGATTGTGCTTCACTGCACTCTTACTCGTGAAA
W
TTCTTCTGGGTTATGTTTTCTCTGTTTTCTTTCCTGTTTCTTTCACTGTGTTTTTACTCCAGAATTCTCAGTATTAGTCTCCCATGTGTCTCCCTTGTTG
Celera SNP ID:            hCV25623801
SNP Position Genomic:     19335
SNP Source:               Applera
Population(Allele,Count): african american(A,21|T,1)   caucasian(A,40)   total(A,61|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52442):
TGGACTGAGAGACCTGTCGTCCGGCTTGCTTAGGGAGCTGGAGGTATCGAGTAAAGAAACACTGGTGATGGACATTTTTAATGAGGATAGGAAAACGAAG
R
TGGCTCTGGCCTTGGCCCTCTGTTTTCTGGCCCATGGTTACAGGGTGCTAAGGTGGCTCCATAATGCTTTTTCTCAGTTCTTCATATGGTAAAACAGTAT
Celera SNP ID:            hCV26778750
SNP Position Genomic:     7196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52443):
CACAGCAACCCTGCTGGCATCCAACAGGCTCTGGCCCAGCTTAGTAGCCGTCAAGGGAGTGTAACTGCACCAGGGGGTCATCCAAGGCACAAGCCTGGGC
N
TCCCCAAGCCCCTCAGGGCCCCTCTCCTAGGCCCCCAACCCGATACGAGCCCCAGAGGGTCAACAGCGGCCTCAGTTCTGGTAAGCTGGAGGGGTTATGG
Celera SNP ID:            hCV15963285
SNP Position Genomic:     18863
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,12)   caucasian(C,26|T,8)   total(C,52|T,20)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52444):
GGCACAGAAGTGAGTGAGGGTGGGAGGGTGTGTCTGAGCTGGGACTTTTTTGAGCACTGGTCATACCCCCCACCTGCTCTGGGTTGAGTCTGGAGCTGTT
Y
TCTCACTTGGCTGTCCCCTTTCTGCAGTTTGTATGTGTGCATCAGTCAGGTATTGGGGTGCTTTCTACCCTGACTTAACTAGCTCCTTCTCCACTCCTCT
Celera SNP ID:            hCV25623802
SNP Position Genomic:     19945
SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(C,35|T,1)   total(C,61|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52445):
GGCCAGGAGTGAGCTCCGGGTTCTGGGCTGGGGCACGCTCCTCCACTTCTTCTGCCTCCATGGGCTCCCGGGGAGGTGCTTCACTTTCAACTGGTTCTGA
Y
GTTTGAGAGCTCAAGGCTACTGGCTCCGGGGTCACAGCCGGTGGCTGCGGGGGCGGCTGACTGTGCTGCGGTTGGGGCCCTCCTCGACACTGAAGGTAGG
Celera SNP ID:            hCV25630735
SNP Position Genomic:     33030
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(C,1|T,39)   total(C,4|T,70)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52446):
ATTATTACTTGTAGGGAATTACTCTTTGTAGACAGGCACAAAGGGCAGAGTGTTTATACTAGGAGGATGCTGGATTTTTACTTAGATTTCCTTGACAAAG
K
TGTCTGGGGGAAAGGAGGGAACATGGCATTTGAGCTATGAGGGAGCTAAGTAGATCATGGTTGCTTAAGAAGAGTGGGCAGTTTACATAGACTGGAGGAA
Celera SNP ID:            hCV26778751
SNP Position Genomic:     7807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52447):
ATTGGCACAGAACGATCACAGCGTACAGACCGAGGCACAGAGCCTGGCCCCATTCGGCCATCCCATCGACCTGGTCCCCCAGTCCAGTTTGGCACTAGTG
R
CAAGGTCTGTGTGGGCTGGATCTGGGTATCCTGAGTTGGGTGGAGAGAAGGGAAGGACTAAAGGTGGGACATAGAGGACACATGTCTGTCACGGGACAAT
Celera SNP ID:            hCV25623803
SNP Position Genomic:     20564
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,35|G,1)   total(A,69|G,1)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52448):
CGGGATAGTAAGGTCTGTATATCCCTGATCATGTGCTGAGCCATCACCAGCCGTACCCGGGGCTCACTCTACAATGAGAGAAGGTTTATCAGGGTAGGTT
R
CAGATGAAGCCATGAGTTCTACCACCTACTAAATCAGGTCCCAGCCATCTCTCAGCCAGGTCCACCCCACCTCCCAGCCTCCTTCTCCCAGATCCCCTTC
Celera SNP ID:            hCV25630736
SNP Position Genomic:     34077
SNP Source:               Applera
Population(Allele,Count): african american(A,32)   caucasian(A,31|G,1)   total(A,63|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52449):
AGGGCAAGTCCTTAGAGATCCAGAAACCCGCTGGTGAGAGTCCTGCAAAGATGCTTCTGATGGTTGAAAGCTAGGCATGCATGGGGCATACGTTTTAGAG
Y
TCTTTAAAGGGAAGTGGCTGTAGTAGAAATACCAAAAGACTAGAGGAGATTTCCCAACTTTACACTGGGTCCTTTAAAGGGGGTGTGGGCTCTGGGTGAA
Celera SNP ID:            hCV26778752
SNP Position Genomic:     8266
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52450):
AGAGAAGGGAAGGACTAAAGGTGGGACATAGAGGACACATGTCTGTCACGGGACAATGTCTCCTGCCTTCTTGTGATCACAGGACTCAGACTTACGCCTA
R
TGGTAGGAGACAGCTTGAAAGCAGAGAAGGAGCTAACAGCATCAGTCACTGAGGTAAGTGGGAGTAAGAGTTTGGTGGAAAGGCCCAAGATTTCTGGGGA
Celera SNP ID:            hCV25623804
SNP Position Genomic:     20708
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(A,1|G,39)   total(A,2|G,70)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,1|G,39)   total(A,3|G,75)   
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52451):
CCCTGATGAGGAAGGGCCATAGAGCAAAGAGCTAAGGATCATCAGCAAAGGCCCGCTGGGCATTGGGGAAGCGCTGGGGACTGTAGTTGGGGTCTTCCTG
Y
AGTCGTTTTTGTATATCAGACCGGAGCTAAAGAGAAAAAGTAAGCAGGTTGGAGAAACGCTGGCCAAGTCCCTATGATCCCAGCAAGCACACAAGGCCAT
Celera SNP ID:            hCV25630737
SNP Position Genomic:     24495
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,1)   caucasian(C,28)   total(C,51|T,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52452):
TCAGCAAAGGCCCGCTGGGCATTGGGGAAGCGCTGGGGACTGTAGTTGGGGTCTTCCTGCAGTCGTTTTTGTATATCAGACCGGAGCTAAAGAGAAAAAG
Y
AAGCAGGTTGGAGAAACGCTGGCCAAGTCCCTATGATCCCAGCAAGCACACAAGGCCATCCCTCAGAAGCTAACATTTCCCCCCCCAAGCACACTGTCAA
Celera SNP ID:            hCV25630738
SNP Position Genomic:     24536
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,23)   caucasian(T,28)   total(C,1|T,51)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52453):
GTGCTTTGGGAGTGTTAGGTGAGAGGATCGCTTGAAGCCAGGAGTTCAAGACCAGCCTGGGCAACACAGCAAGACCCCCCACCTCTACAAAAAAAAAAAA
W
TTTTTTAGTTGGGTGTGGACTGTGCATCTGTGGTCCCAGCTACTCTGGAGGTTGTGGTGGGAGGATCAGTTGAGCCCAGGAGTTGGAGGTCACAGTGAGC
Celera SNP ID:            hCV26778754
SNP Position Genomic:     11700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52454):
AATGTCTCCTGCCTTCTTGTGATCACAGGACTCAGACTTACGCCTAGTGGTAGGAGACAGCTTGAAAGCAGAGAAGGAGCTAACAGCATCAGTCACTGAG
R
TAAGTGGGAGTAAGAGTTTGGTGGAAAGGCCCAAGATTTCTGGGGAAGATTGCTGGGAGTGACCAGGGCGTCCAGGATGCCAGACATCCCTCTCCACGAG
Celera SNP ID:            hCV25623805
SNP Position Genomic:     20762
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,40)   total(A,2|G,72)
SNP Type:                 DONOR SPLICE SITE;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52455):
GGCATTGGGGAAGCGCTGGGGACTGTAGTTGGGGTCTTCCTGCAGTCGTTTTTGTATATCAGACCGGAGCTAAAGAGAAAAAGTAAGCAGGTTGGAGAAA
S
GCTGGCCAAGTCCCTATGATCCCAGCAAGCACACAAGGCCATCCCTCAGAAGCTAACATTTCCCCCCCCAAGCACACTGTCAAATAGCCCGGGGTGGCAC
Celera SNP ID:            hCV25630739
SNP Position Genomic:     24553
SNP Source:               Applera
Population(Allele,Count): african american(C,23|G,1)   caucasian(C,26)   total(C,49|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52456):
CAGTTGAGCCCAGGAGTTGGAGGTCACAGTGAGCTATGATCGTGCCACTGAACTCCATCCTGGGCAACAGAGCGAGACTTTTAAAAGGAAAAAAAAAAAA
R
AGTAGGGGAGGATGGATGGGGAATACCAAGTCCTTGCAAAGTGGTGAGAGGAGTAAGAATGACAAGACTTCATTGGTGGATCTAGACTTCGGAGGGAAGG
Celera SNP ID:            hCV26778755
SNP Position Genomic:     11867
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52457):
TCTGGCTTCCTAACAGCTTTTCTCCCCACAATTTATTTTCAGATCACAGCCCCTATACCTACCCCCCGGCCCAGCCCCTCCCTCAGCACTGCTCTCTGGG
K
TAGCTCTCAAGGGCCAGTTTCTGGATTTCTCCACAATGCAAGCTACAGAGCTGGGGAAGTTGCCGGCTGGAGGAGTTCTCTACCCTCCACCTTCCTTCCT
Celera SNP ID:            hCV25623806
SNP Position Genomic:     21563
SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,1)   caucasian(G,28)   total(G,51|T,1)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52458):
ACATGAGGTCAGGAGTTCAAGATCAGCCTGGCCAACATAGTGAAACCCGTCTCTACTAAAAATACAAAAATTAGCCAAGTGTGGTGGCATGTGCTTGTAG
Y
CCCAGCTGCTTGGGAGGCTGAGGTAGTAGAATCGCTTTAACCCGGGAGGCAGAGATTTCTGTGAGCCAAGACCATGCCATTGCACTCCAGCCTGGGTGAC
Celera SNP ID:            hCV26778757
SNP Position Genomic:     14018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52459):
CAACATAGTGAAACCCGTCTCTACTAAAAATACAAAAATTAGCCAAGTGTGGTGGCATGTGCTTGTAGTCCCAGCTGCTTGGGAGGCTGAGGTAGTAGAA
Y
CGCTTTAACCCGGGAGGCAGAGATTTCTGTGAGCCAAGACCATGCCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAATCCTG
Celera SNP ID:            hCV26778758
SNP Position Genomic:     14050
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52460):
ACATAGTGAAACCCGTCTCTACTAAAAATACAAAAATTAGCCAAGTGTGGTGGCATGTGCTTGTAGTCCCAGCTGCTTGGGAGGCTGAGGTAGTAGAATC
S
CTTTAACCCGGGAGGCAGAGATTTCTGTGAGCCAAGACCATGCCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAATCCTGTC
Celera SNP ID:            hCV26778759
SNP Position Genomic:     14052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52461):
AATACTCATATTTCCCCTCAGGGGCCCATGAAGAGGTTGACTACACTGAAAAGCTCAAGTTCAGCGATGAGGAAGATGGGCGAGACTCTGATGAGGAGGG
W
GCTGAGGGCCAGTGAGTTAGGGCCATCAGGGGAGAAGAGGAGGGGGTCTTGGTTTGTATTTTGGTAATATACTCTTAGAGGAGTATATTAGTTGCAGCTG
Celera SNP ID:            hCV3273990
SNP Position Genomic:     12147
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,3)   caucasian(A,34|T,4)   total(A,69|T,7)
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,7)      total(A,7|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52462):
TCTCGCATGTGGTTATACAACATGCCATATTTCATTTTCTTTTTTGTGTACAGCCGTTTTCCCCGTGTGGCGGGCCCCCGAGGCTCAGGGCCACCAATGC
R
CTTAGTAGAGCCTGTGGGTCGTCCCTCTATTCTCAAAGAGGATAATCTCAAAGAGTTTGATCAGTTGGATCAGGAGAATGATGATGGTTGGGCAGGTAAG
Celera SNP ID:            hCV3273991
SNP Position Genomic:     11363
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:52463):
ACACGCCAACACACCCAGCTAATTTTTTGTGTGTTTTTAGTAGAGATGGGGTTTCACATGTTGGCCAGGATGGTCTCGATCTCTTGACCTCGTGATCCGC
Y
CGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCAGAGTCTTCCACTTTTATAGCATGTCCTCAGGAAATGTCTTCTGTC
Celera SNP ID:            hCV3273992
SNP Position Genomic:     10339
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52464):
GAAGGCGGGAAACCTGATGGTCTGGTACCTGTCAGAGCCTTCCACTTTTTTTTTTTTTGAGACGGAGTCTCATTCTGTCACCCAGGCTGGAGTGCAGTGG
Y
GCAATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTTTCCTGCCTCAGCCTCCAGAGTAGCGGGACTACAGGCACACGCCAACACACCCA
Celera SNP ID:            hCV3273993
SNP Position Genomic:     10155
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52465):
CTTCCTCTGTATTTCCCTCTGCATTAAGTTCTATCCATGTGGAGGACAGAACAAAATCAGCCTCACTCACAAAACATCAGAAAACGTTCTACTGGAATAC
R
AACAAAGGGATCAATAAAAAGAAAATCTGAGGCCAGGTGCGGTGGCTCATGCCTGTAATACCAGCACTTTGGGAGGCCGAGGAGGGCACATCACCTGAGG
Celera SNP ID:            hCV7514740
SNP Position Genomic:     36519
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52466):
TTCATGGAGGCACATGAGCAAGTTTAAGTCTCAGTCTTATATGATGGAGTGTAGTGGTGCCAGAACTGACCTCCTTGGGGAATAAGCAGTTATTCTGTAG
S
GGGGTGAGTTTGAAGGCGGGAAACCTGATGGTCTGGTACCTGTCAGAGCCTTCCACTTTTTTTTTTTTTGAGACGGAGTCTCATTCTGTCACCCAGGCTG
Celera SNP ID:            hCV3273994
SNP Position Genomic:     10043
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,4)   caucasian(C,3|G,11)   total(C,7|G,15)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52467):
CCTTGTTAAATGACTAAGGAATGGTACTAAACTTTAGCTTTTTGTCTTGGAGAGAGAGCATGAAAAAATAGACAACAGCCTACAAAGGATGACAAAATTA
W
TTTGTCCTTATATTTGTAAATGGTAGCAATGGGCATGATTTCAGTCCTGAGTCTCCACCAGTTGGAGAAGTCAGGGAGGCATCTCAGGTGTGAATAACCT
Celera SNP ID:            hCV3273995
SNP Position Genomic:     9437
SNP Source:               Applera
Population(Allele,Count): african american(A,15|T,17)   caucasian(A,15|T,19)   total(A,30|T,36)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,3)      total(A,3|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52468):
CTACCAGATGTCAGATCACTGCTTCAAGGTGCTTAAAGGTGCAGGGTGGTAAGGCTGGGGATAAATGAAGTAGAAGGCAGTTGTTTTGGTTTATTGGACT
R
TCAGTGATAGTGTTCTATCATTTGTATATCTGAAGGAGGGAAGGTTTTGTCTGGAATCTTAGGTTGTAGTCTAATACCATTTCTTGGCAGAGTACTGTAG
Celera SNP ID:            hCV27464282
SNP Position Genomic:     13657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52469):
TAAAGGGGGTGTGGGCTCTGGGTGAACACCAGTTATCCTCCTACAAAGGCGTGTCTGTGGTTCCCTGTCTTTGGACACGTAAGAATTGGAGGAAAATAAA
K
GTGGATTTGGGAAACTTTGAGGCCAGCTTGCTTCTTGCAGGCTCATGATCAACCAATCTCACATAAAAGTATTGAATGTTACATATCTCAGCCTTCTTGA
Celera SNP ID:            hCV3273997
SNP Position Genomic:     8441
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52470):
GCTGATCCTGCTCTTCTCGCCAGCAACTATTCTCACCTTGAATGTTCATGTGCATCATGACCACGGGTTCCACACTCTGGTGGGAAATCCGGATGACCCT
Y
GGGTGGCTGGTGGCTGGCGGGGGAGCTGGACCTGGCGGGGGAGCCCCCTCAGCTGAGGACTCGACATTGGTAGAAGACGGAGCCACGGATGAGGCCTGCC
Celera SNP ID:            hCV25630740
SNP Position Genomic:     30304
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52471):
TGCTGGATTTTTACTTAGATTTCCTTGACAAAGGTGTCTGGGGGAAAGGAGGGAACATGGCATTTGAGCTATGAGGGAGCTAAGTAGATCATGGTTGCTT
R
AGAAGAGTGGGCAGTTTACATAGACTGGAGGAAAAGACACCAGAGGGCCTCATATCTGAGTCCCTAATGATAATGCAATGGAGTTTTTAAGTTTCTGTTA
Celera SNP ID:            hCV3273998
SNP Position Genomic:     7874
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52472):
CCTCCTCTTTATGCAAATAACCTCCGCATGCTCCGCGCGCCCGGCCCTTTTTTTTTTTTTTTTAAACTAAAGACAGCCCTGGAAGTAGAGGGTTAGGGTA
K
AAAGTGCCCCGCCCTTTATGCAAATTAAGGGGCGTGTCTAGGCGCGGAGGGAGGTGGGAGGTGGGAGGGGGTGCTCCCGGGGGCGGCGGTTGCCCGGATG
Celera SNP ID:            hCV3273999
SNP Position Genomic:     5907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:52473):
CTCCACATTATCTGGCCCCTCAACCTCCCCCTCTCTAGAGTACCTGAGGCTCAGGGGAAGCTCTTTCTGCTCCCTGAACTTCCATTGGCTCCTCAGGAAG
Y
GGCTGTGAAATTAAAGAACACCATACTTCCTCTCAGATCTCTCCAGTTCTCTCAAGTACCCTGACCCCATCGCCCAACAGGTCCCTTACCTGGGGGGGAT
Celera SNP ID:            hCV25630741
SNP Position Genomic:     25997
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,36)   total(C,1|T,69)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52474):
TAGAACTGCCCGAAGAATGCCTACGCTGCGTGGTGCGGACGAAACGCTTCCCGGGGCCTTTGGATTGGTCTGTCTAGCCACCTCATTTGCATGACGTAAT
W
TAATAACTGGAAGGCCCCGCCCCTCTGGTGCATTTCCCCGCTCCAACCACCTCCTCAAACTCACGGCAAAGGGATGCGAGAGCTGGAACTCTTACCAGGC
Celera SNP ID:            hCV16134982
SNP Position Genomic:     5393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)   JBIC-allele(T,481|A,958)   total(A,958|T,481) 
SNP Type:                 hmCS


Context             (SEQ ID NO:52475):
CCACACCTGGCTGAACCTGCACCAAGGACTGAGAGACAAGATAACACAAAGATCCCAAAATCAAGAATCATAAGACTGGGAGTGGAGGAGGCAGCTGCCT
Y
GACCAGACCCAGGAGAGGAAAGGAATAGAGAAGGGTTACTCACAAAACTCTCCCGCACATACTCTTCTAGCCCCGTGATCAATGTGTGGGTTGCCATCTG
Celera SNP ID:            hCV25630742
SNP Position Genomic:     26790
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,26)   caucasian(C,9|T,25)   total(C,19|T,51)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52476):
AAAATACAAAAATTAGCCAAGTGTGGTGGCATGTGCTTGTAGTCCCAGCTGCTTGGGAGGCTGAGGTAGTAGAATCGCTTTAACCCGGGAGGCAGAGATT
Y
CTGTGAGCCAAGACCATGCCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAATCCTGTCTCACAAGAAATACATAAATAAAAA
Celera SNP ID:            hCV26778760
SNP Position Genomic:     14076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52477):
GCAGCACCAGTGGCAGCAGCATCAACAGGGCTCTGCCCCTCCTACCCCAGTGCCCCCATCACCACCACAGCCTGTGACCCTGGGGGCTGTGCCAGCTCCA
M
AGGCTCCACCCCCGCCCCCCAAGGCCCTGTACCCAGGTGCTCTGGGCCGGCCCCCACCCATGCCCCCAATGAACTTTGATCCCCGATGGATGATGATTCC
Celera SNP ID:            hCV26778761
SNP Position Genomic:     14967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52478):
GCACTTAGGGAGGCCGAGGTGGGCAGATCAACTGAGTTCAGGAGTTCGAGACCACCATGGCTAACGTGGTGAAACCCCATTTCTACTAAAAATACAAAAA
A
GTAGCCGGCGTGGTGGCGCTCGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAAACGCTTGAACCCAGGAGGTGGAGGTTGTAGTGAGCCGAG
Celera SNP ID:            hCV26778762
SNP Position Genomic:     15464
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52479):
CACTTAGGGAGGCCGAGGTGGGCAGATCAACTGAGTTCAGGAGTTCGAGACCACCATGGCTAACGTGGTGAAACCCCATTTCTACTAAAAATACAAAAAA
G
TAGCCGGCGTGGTGGCGCTCGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAAACGCTTGAACCCAGGAGGTGGAGGTTGTAGTGAGCCGAGA
Celera SNP ID:            hCV26778763
SNP Position Genomic:     15465
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52480):
ACTTAGGGAGGCCGAGGTGGGCAGATCAACTGAGTTCAGGAGTTCGAGACCACCATGGCTAACGTGGTGAAACCCCATTTCTACTAAAAATACAAAAAAG
T
AGCCGGCGTGGTGGCGCTCGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAAACGCTTGAACCCAGGAGGTGGAGGTTGTAGTGAGCCGAGAT
Celera SNP ID:            hCV26778764
SNP Position Genomic:     15466
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52481):
AAACGGAGCTTCTCAAGTCAGCGGCCAGGCATGGAACGGCAGAATCGGCGCCCTGGCCCAGGGGGCAAGGCTGGCAGCAGTGGCAGCAGCAGTGGAGGAG
S
CGGTGGGGGTCCTGGAGGAAGGACCGGGCCAGGACGAGGCGACAAGAGGAGCTGGCCCTCTCCCAAGAACCGAAGGTGGGTAGGAACAAACAAATTTATT
Celera SNP ID:            hCV26778769
SNP Position Genomic:     18213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:52482):
ACCTCATTTTCTTCATCTTTAAAATGAAAGGTTCAGAGTCAATGAATTCCCAGGGCCCCTTCCCCTAACATGTCACTAGGGGCTCTTACCCAGTGGTTAT
R
TAATGGCAAGAAGGTACCACTGCCTGGCTGGGCCGGGGGACAGGAAGATGAGGTGAATGGCAAGCCAGCCACTCACCTGCAAGAAGTCAGTCATGCCTTG
Celera SNP ID:            hCV2215699
SNP Position Genomic:     28043
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,16)   caucasian(A,19|G,19)   total(A,37|G,35)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52483):
TGGCTGCATAAGAAGCTGCCCCACAAGGCCGCTCACCATCTGGGCCAACGAGGCATTGGTACCCAGACCGGCGCCCTGCTGGATAGAGAGCAAGGGAGAA
Y
TTCAGACCTGCCCTTCCATGCACCACCACAGGAGTCTCTCCCTAGACTGTTACGCACTAGAACTCCCCGACCCTTGCTCACCAGTGTCCCAGAGACTGGG
Celera SNP ID:            hCV2355267
SNP Position Genomic:     29294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   (A,-|G,-)   JBIG-allele(A,118|G,1377)   total(G,1377|A,118)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52484):
CACTGGTGATGGACATTTTTAATGAGGATAGGAAAACGAAGATGGCTCTGGCCTTGGCCCTCTGTTTTCTGGCCCATGGTTACAGGGTGCTAAGGTGGCT
Y
CATAATGCTTTTTCTCAGTTCTTCATATGGTAAAACAGTATTTCATCTGGAGGCGATTTTTTCCAGGAGCCAATACAGGAGCAAGTTTAGGAAAAGATGG
Celera SNP ID:            hCV16286863
SNP Position Genomic:     7255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52485):
CCACATGAGGCATTTTCGACCCTCTCTCCGTCTTGTTCTCCAGTTGCCCCTCGCCATGGCCTGCAGAGTCTCGGGAAAGTTGCCATTGCCCGGCGTATGC
S
ACCTCCAGCCAACCTTCCAAGCCTGAAAGCCGAGAACAAAGGCAATGACCCCAATGTCTCACTAGTGCCAAAAGACGGAACAGGATGGGCAAGCAAACAG
Celera SNP ID:            hCV7514683
SNP Position Genomic:     9085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:52486):
TCCCAACTTTACACTGGGTCCTTTAAAGGGGGTGTGGGCTCTGGGTGAACACCAGTTATCCTCCTACAAAGGCGTGTCTGTGGTTCCCTGTCTTTGGACA
Y
GTAAGAATTGGAGGAAAATAAATGTGGATTTGGGAAACTTTGAGGCCAGCTTGCTTCTTGCAGGCTCATGATCAACCAATCTCACATAAAAGTATTGAAT
Celera SNP ID:            hCV16286864
SNP Position Genomic:     8418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52487):
TGACTAAGGAATGGTACTAAACTTTAGCTTTTTGTCTTGGAGAGAGAGCATGAAAAAATAGACAACAGCCTACAAAGGATGACAAAATTAATTTGTCCTT
R
TATTTGTAAATGGTAGCAATGGGCATGATTTCAGTCCTGAGTCTCCACCAGTTGGAGAAGTCAGGGAGGCATCTCAGGTGTGAATAACCTTCCCATTCTG
Celera SNP ID:            hCV7514684
SNP Position Genomic:     9447
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,2)   caucasian(A,23|G,11)   total(A,49|G,13)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52488):
TAGAAGGCAGTTGTTTTGGTTTATTGGACTATCAGTGATAGTGTTCTATCATTTGTATATCTGAAGGAGGGAAGGTTTTGTCTGGAATCTTAGGTTGTAG
Y
CTAATACCATTTCTTGGCAGAGTACTGTAGCTCACGCCTATAATCCCAACACTTAGGGAGGCTTGGGGTGGAGGATCGCTTGAGCCTAGGGAGTTTGAGA
Celera SNP ID:            hCV16286865
SNP Position Genomic:     13727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52489):
CCTTTTGAGGATGTGGCTGGCACAGAAGTGAGTGAGGGTGGGAGGGTGTGTCTGAGCTGGGACTTTTTTGAGCACTGGTCATACCCCCCACCTGCTCTGG
K
TTGAGTCTGGAGCTGTTCTCTCACTTGGCTGTCCCCTTTCTGCAGTTTGTATGTGTGCATCAGTCAGGTATTGGGGTGCTTTCTACCCTGACTTAACTAG
Celera SNP ID:            hCV26778773
SNP Position Genomic:     19927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52490):
CCAATGCACTTTACTGTGTGCCCAATCCAGGAGCTGCCCCGGGAGCAGCCTCTGCCCCCTGGCCCCATTGGCACAGAACGATCACAGCGTACAGACCGAG
S
CACAGAGCCTGGCCCCATTCGGCCATCCCATCGACCTGGTCCCCCAGTCCAGTTTGGCACTAGTGACAAGGTCTGTGTGGGCTGGATCTGGGTATCCTGA
Celera SNP ID:            hCV26778774
SNP Position Genomic:     20498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52491):
GGGTTGATATATTTCTCCCTGTTTCCCGACAGGTACGCCAGGATCTGCCATCCCCTTCGGATTTTTATTCTACTCCTCTGCAGCCTGGTGGCCAAAGTGG
M
TTTCTCCCTTCAGGGGCTCCTGCCCAGCAGGTATATTGTATCTTCACACTTCCCCTTCATTTGATTTCTCTGTCCAGTTGCTGGCTTTGATTTTCCCTGG
Celera SNP ID:            hCV25623829
SNP Position Genomic:     21874
SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(A,1|C,23)   total(A,1|C,49)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52492):
GCCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAATCCTGTCTCACAAGAAATACATAAATAAAAATGAAAACTATTTCCTAT
R
GGCCAAGACTGAAGAAAGTACTGTTGTTCTAATGGTTTCATAGAAAGTTAATGCCACCACCATAGGCTCATGAGAGGCCATGAAGTGCTTTAATGGGTCT
Celera SNP ID:            hCV16286870
SNP Position Genomic:     14194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52493):
GCCTCAGTTCTGGTAAGCTGGAGGGGTTATGGGTGGGAATATCTCCATCCCCAGAGAAGGTCAAGTGCTGGAGGGAGCGGGTGGAGAACCTGGCCTAGGG
R
CCCTGCTGCTGGGTGCGTTTCTGCAGGGAGCAAGGGTAGAAGAATTGGGAGGTGGAGTAGAGAGGAAAAGTTAGGGTCAGTGGCAGAGCCAGGCAGATGC
Celera SNP ID:            hCV16174632
SNP Position Genomic:     19032
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,8)   caucasian(G,4)   total(A,4|G,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52494):
TTTGTCCAGTTGTCTCCATTGTCACGCCAATTTCCCCTAGTCCAAGTTTTTTCTTTGCTGATTCCTTTGTCCATGTGTGCTTTGAGCCTCTCTCATCTTG
Y
CTTTCCTCCTTTCCTAGGAGCAGCTCCTGAAGCAGCAGCAGCAGCACCAGTGGCAGCAGCATCAACAGGGCTCTGCCCCTCCTACCCCAGTGCCCCCATC
Celera SNP ID:            hCV16286871
SNP Position Genomic:     14826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52495):
TGGGGAGTTACATTCTGATCTTCACTGCTTAAAGCAGAAGTATGGTAGGTATTTAACAGAGTCAGGCAGCACAACTTACCTACCTCTTCCTCTGAACAGG
Y
TGTCAGAAAGCAGTGACACTAATTACTATACTTTCTTTTTCTAAACCTCATTTTCTTCATCTTTAAAATGAAAGGTTCAGAGTCAATGAATTCCCAGGGC
Celera SNP ID:            hCV2215700
SNP Position Genomic:     27898
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52496):
GTGTGCATCCCTCTGGTAAGGGGGCATGGGAGGAGTGAGAAACAGGAAAGTCCCCTCAGTCTTAGGCATTGGATATTAGGGTCTTACTGTGACTCTGGTA
Y
GATAGGTTTTGCCCATCATAGTGATGAGGGAAGGGCATATGCTTGGCACTGCTGAGATAGCTCTGTTGCAAAAATGGGCTTAGTTAAGAAATAAGCAGTG
Celera SNP ID:            hCV16286872
SNP Position Genomic:     15227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52497):
TTCTGGTAAGCTGGAGGGGTTATGGGTGGGAATATCTCCATCCCCAGAGAAGGTCAAGTGCTGGAGGGAGCGGGTGGAGAACCTGGCCTAGGGGCCCTGC
Y
GCTGGGTGCGTTTCTGCAGGGAGCAAGGGTAGAAGAATTGGGAGGTGGAGTAGAGAGGAAAAGTTAGGGTCAGTGGCAGAGCCAGGCAGATGCTGACCCT
Celera SNP ID:            hCV16174633
SNP Position Genomic:     19039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52498):
CCAAAGAATCCTGGGGGACAAGGGCAGATGTTAGCAATGGCCTTTACCACCTGGCCTGCCCACCCACAACCAGATCATCAACCTCATCCCACCTTGGCAA
Y
ACCCCTAAACCAAGGCCATCTACATTCCTCTGGCTGCCCCTTCCTGGAGCAAGCCAAAGCATCCTTTTTGCTCACCAAGGGCCCCATCAGCTCCAGGCTC
Celera SNP ID:            hCV2215701
SNP Position Genomic:     27331
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52499):
CCACCTGCTGCCCCTTCTACCCCAGCTCCACCACCTGCAGTCCCTAAAGAACTCCCTGCACCTCCAGCTCCACCTCCAGCATCAGCCCCAACACCAGAGA
M
AGAACCTGAAGAGCCAGCACAGGCCCCTCCTGCCCAATCTACTCCTACTCCAGGTGTGGCTGCGGCTCCCACTCTGGTGAGTGGTGGTGGCAGTACCAGT
Celera SNP ID:            hCV7514692
SNP Position Genomic:     13401
SNP Source:               Applera
Population(Allele,Count): african american(A,22|C,8)   caucasian(A,30|C,8)   total(A,52|C,16)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,23|C,9)   caucasian(A,20|C,6)   total(A,43|C,15)   
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52500):
GATTCTCTTGTAGGGAATCTGAGTGGATAACCTTGTTATATAAGAGCAGGCAAGGCCCGGACCTACTGGGAACAAGAGATGGAAGAGCTGACTTGACCGC
R
AGGGGAGATGCTTTTTGGGCTGGAGGGCTTGTGACATGAATAGGATTATTTTTCTTTTTCTTTGGTTTCTTCAGGCCTAGTTCCCCGAGAGCGTTCAGAC
Celera SNP ID:            hCV16286873
SNP Position Genomic:     15812
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(A,2|G,28)   total(A,4|G,56)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52501):
TACCCCCCACCTGCTCTGGGTTGAGTCTGGAGCTGTTCTCTCACTTGGCTGTCCCCTTTCTGCAGTTTGTATGTGTGCATCAGTCAGGTATTGGGGTGCT
Y
TCTACCCTGACTTAACTAGCTCCTTCTCCACTCCTCTCAGATGAGTCAGTCTGACAGTGGGGTGGACCTGAGTGGGGATTCTCAGGTGTCATCAGGTCCC
Celera SNP ID:            hCV16174634
SNP Position Genomic:     20008
SNP Source:               Applera
Population(Allele,Count): african american(T,26)   caucasian(C,1|T,11)   total(C,1|T,37)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,196|T,551)   total(C,196|T,551) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52502):
GAAAAAGTAAGCAGGTTGGAGAAACGCTGGCCAAGTCCCTATGATCCCAGCAAGCACACAAGGCCATCCCTCAGAAGCTAACATTTCCCCCCCCAAGCAC
R
CTGTCAAATAGCCCGGGGTGGCACTGTCAAGCCTTCCCAGATGCCAAAGGGGAAAACAAATGGTAGCACCAGGCTGACCAGTTCATCGCTGAAGGGATCC
Celera SNP ID:            hCV2215702
SNP Position Genomic:     24629
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,34)   total(A,63|G,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52503):
TCTACTAAAAATACAAAAAAGTAGCCGGCGTGGTGGCGCTCGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAAACGCTTGAACCCAGGAGGT
K
GAGGTTGTAGTGAGCCGAGATTGTGCCATCGCACTCCAGCTTAGGCAACGAGCGAAACTCCGTCTCAAAAATGAATGAATGAATAGCACAACTCCATCTC
Celera SNP ID:            hCV7514693
SNP Position Genomic:     15545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52504):
GGCCAGGACGAGGCGACAAGAGGAGCTGGCCCTCTCCCAAGAACCGAAGGTGGGTAGGAACAAACAAATTTATTGTGGTTTAAAAATTGGAGGAGGGGGA
R
AAAGCCTGAGGGAAAGATAAGTTTGGGTGGAGTGGAGATTGTGGCCTGAGGGGCCATGGGCTCTAGAATGTCAGTAGGATTTCCATGTCTGGCTAAGGCA
Celera SNP ID:            hCV16286874
SNP Position Genomic:     18340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52505):
CTGGGGACTGTAGTTGGGGTCTTCCTGCAGTCGTTTTTGTATATCAGACCGGAGCTAAAGAGAAAAAGTAAGCAGGTTGGAGAAACGCTGGCCAAGTCCC
Y
ATGATCCCAGCAAGCACACAAGGCCATCCCTCAGAAGCTAACATTTCCCCCCCCAAGCACACTGTCAAATAGCCCGGGGTGGCACTGTCAAGCCTTCCCA
Celera SNP ID:            hCV2215703
SNP Position Genomic:     24568
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,15)   caucasian(C,8|T,16)   total(C,17|T,31)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52506):
TCTGCCATCCCCTTCGGATTTTTATTCTACTCCTCTGCAGCCTGGTGGCCAAAGTGGCTTTCTCCCTTCAGGGGCTCCTGCCCAGCAGGTATATTGTATC
K
TCACACTTCCCCTTCATTTGATTTCTCTGTCCAGTTGCTGGCTTTGATTTTCCCTGGTTTTCTGACATTCCTCCCTGCCCCCAACATGCACACCCAAATT
Celera SNP ID:            hCV25623830
SNP Position Genomic:     21917
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,38)   total(G,1|T,75)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52507):
CAGCTCATGATTTTTTTCCCCTCAGCTGCATCCAGTGGAACTAAAGCCGTTCCAGGATTATCAAAAACTGAGCAGCAACCTTGGGGGACCTGGATCATCA
Y
GGACTCCCCCAACTGGAAGGTGAAACGGAATAGGGATGTGGACTTTCCAAGTGCTTCCTTACTTTGGAACCAGGGTCTGGATCCTAGGCTTGCCTTAGAC
Celera SNP ID:            hCV25623831
SNP Position Genomic:     22413
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,32|T,2)   total(C,62|T,2)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,32|T,2)   total(C,68|T,2)   
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52508):
ACAGGCTGTCAGAAAGCAGTGACACTAATTACTATACTTTCTTTTTCTAAACCTCATTTTCTTCATCTTTAAAATGAAAGGTTCAGAGTCAATGAATTCC
Y
AGGGCCCCTTCCCCTAACATGTCACTAGGGGCTCTTACCCAGTGGTTATGTAATGGCAAGAAGGTACCACTGCCTGGCTGGGCCGGGGGACAGGAAGATG
Celera SNP ID:            hCV27462990
SNP Position Genomic:     27993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52509):
TTTCCAAGTGCTTCCTTACTTTGGAACCAGGGTCTGGATCCTAGGCTTGCCTTAGACGCCCTTCTTCCCTTAGGTCCTTCTCTGGCCTCAATTCCCGTCT
S
AAGGCCACGCCTTCCACCTACAGTGGAGTCTTCCGCACCCAGCGCGTCGACCTTTACCAGCAGGTGAAGGAGAAACCCTTGTGGCCCCAACTCTAAATTC
Celera SNP ID:            hCV25623832
SNP Position Genomic:     22557
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,28)   total(C,63|G,1)   
SNP Type:                 SILENT MUTATION;INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 SILENT MUTATION;INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,1)   caucasian(C,32)   total(C,61|G,1)   
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52510):
GACTGCCCGCGTCTACTGCCTTCCCACGGTGTTCCAGCAGAACGGCACAACTAACCCACAGCCAAACACACACACACACACACACACACACACACACACA
C
ACACACCCACCACCCCGCGGCTCCGCCCCCGACTTCCCCACGGACCGTCACTTCCGGTCTCCCCCAAACCTGCCACCGACGGCCACTTCCGTTTCCCCGA
Celera SNP ID:            hCV26778782
SNP Position Genomic:     37649
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,4)   total(C,1|-,4) 
SNP Type:                 INTRON;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:52511):
ACTGCCCGCGTCTACTGCCTTCCCACGGTGTTCCAGCAGAACGGCACAACTAACCCACAGCCAAACACACACACACACACACACACACACACACACACAC
A
CACACCCACCACCCCGCGGCTCCGCCCCCGACTTCCCCACGGACCGTCACTTCCGGTCTCCCCCAAACCTGCCACCGACGGCCACTTCCGTTTCCCCGAT
Celera SNP ID:            hCV26778783
SNP Position Genomic:     37650
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:52512):
CCCCCCAGGTCCCCAAGCTTTACTTTTGTGGGGCACGACGAGAAAGTCCGCAGCCCCAAACAGTGAGTTTCTGAGGGCGAGTCGGGCCGGGGCCGGCCTA
K
GTGGGAGGGAGCCGAGCACCCCGAGGAGCCGCCACCGCTGTCGCCCGGGGGACCGTACTACGCCTGCGTGCGTCGCACTACGGATGCGTGGACACTTAAG
Celera SNP ID:            hCV26778784
SNP Position Genomic:     37885
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON;UTR 5;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52513):
CTTCCACCTACAGTGGAGTCTTCCGCACCCAGCGCGTCGACCTTTACCAGCAGGTGAAGGAGAAACCCTTGTGGCCCCAACTCTAAATTCGAGTTGCCAC
Y
TGATTTCCTGTCCTTCCGTCTCATCGCTGACCTCTCACTGTGACTCACTCTTTAACACATGCCTGTCCCCTAGGCCTCCCCACCAGATGCCCTGCGCTGG
Celera SNP ID:            hCV25623839
SNP Position Genomic:     22668
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,22)   total(C,48|T,2)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,40)   total(C,75|T,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52514):
CGAACCCGGCGCCATCCGCCGCCATCCTCCCCCGCCCCACCGCCATCCCGTCCCGGGGAGCCCCTAGGCCCGGGTCCCGGATCCCCGCGCACCCGGCCAG
K
TGAGTCTGGGTGAACCGTGCGCTGACGCCCTTTTCCGGCGCGGGAGAGGTGGTGGCGGTGGCGGTGGCGGCGGCGGCGGCGGTGGTGGGCCGGGGGGAGG
Celera SNP ID:            hCV16134933
SNP Position Genomic:     6159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 DONOR SPLICE SITE;TFBS;hmCS


Context             (SEQ ID NO:52515):
CGCCATCCTCCCCCGCCCCACCGCCATCCCGTCCCGGGGAGCCCCTAGGCCCGGGTCCCGGATCCCCGCGCACCCGGCCAGGTGAGTCTGGGTGAACCGT
K
CGCTGACGCCCTTTTCCGGCGCGGGAGAGGTGGTGGCGGTGGCGGTGGCGGCGGCGGCGGCGGTGGTGGGCCGGGGGGAGGAGAAGCTGCCATTAGCCGC
Celera SNP ID:            hCV16134934
SNP Position Genomic:     6178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52516):
CCATCCTCCCCCGCCCCACCGCCATCCCGTCCCGGGGAGCCCCTAGGCCCGGGTCCCGGATCCCCGCGCACCCGGCCAGGTGAGTCTGGGTGAACCGTGC
S
CTGACGCCCTTTTCCGGCGCGGGAGAGGTGGTGGCGGTGGCGGTGGCGGCGGCGGCGGCGGTGGTGGGCCGGGGGGAGGAGAAGCTGCCATTAGCCGCCG
Celera SNP ID:            hCV16134935
SNP Position Genomic:     6180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52517):
GAAAACCCTCCAGTCAGCGCTTATCCCTTCTGCTCTCTCCCCTCACCCAGAGAAATACATGGAGTTTGACCTTAATGGAAATGGCGATATTGGTGAGAAA
Y
GGGTGATTTGCGGGGGCAGGGTGGTGTGCAGGCCTAAGAAGACAGAGGTCTCTCCTACATGCTCCATTCCTCATGATTTGGGAGGGGGCCCACCTACCAC
Celera SNP ID:            hCV15876778
SNP Position Genomic:     1456
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,35|T,5)   total(C,69|T,7)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,382|C,1103)   total(C,1103|T,382)no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52518):
ATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCCTGTTGCAATGTTTTTCCAGGGAGGGAAAGAGTTATCTG
Y
ATTTCAGCCTGTTCTGTTTTGGGAGTACTGGGGCTGAGGAGAAAGGGCAGGGCCATCAAAGGGCTCACATTGTTATTGTAGTCCGTGGTGGCAGCAGCAC
Celera SNP ID:            hCV2451872
SNP Position Genomic:     31619
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,10)      total(C,2|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52519):
CAGCTGGCCTAGGGTAGCCCGGGCTGGTGTCAGGGTAAGGAGAGGAAGGGAGGGATGAGGGCTGATTAATTTTTTTCACCCCACAGGAGGAAAAGCTTTC
R
GACTGCTGAAGGCCCAGCAGGAAGAGAGGCTGGATGAGATCAACAAGGTAGAAGGAAGAACTAAGGGGGCAGAGCCAGGGGGATGGGGCGTGGATGGGGA
Celera SNP ID:            hCV16286882
SNP Position Genomic:     837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5;MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:52520):
CCTGAGTCTCCACCAGTTGGAGAAGTCAGGGAGGCATCTCAGGTGTGAATAACCTTCCCATTCTGTCCCCTCAGTTCCGATGCCTCAACCGCTCAGCCGC
Y
GGAATCGCAGCCACTGCCGGCTTCACAGACGCCTGCCTCCAACCAGCCGAAACGACCCCCAGCAGCCCCCGAGGTACCTGGAGAACTGGAGGGGTGGGGA
Celera SNP ID:            hCV15874455
SNP Position Genomic:     9583
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,118|C,1385)   total(C,1385|T,118) 
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:52521):
TCAGGGGCACAAGGGGTACGATACGAGGACAGTGCTTACAGCAAAGATTATCACCTTCTCTGTAAGGGAGGACAAAATCACTTACAGGTTTAGAGAGAAA
Y
TGTTTTGTTGCAATGTGTGTTTTTTTGTTTTGTTTTGTTTTTTGAGACAGTCTCGCTCTGTCACCCAGGCTAGAGTGCAGTAGTGCAATCTCGGCTCACT
Celera SNP ID:            hCV2451873
SNP Position Genomic:     31256
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52522):
GTGCATGAACTCAGGGGGCAGGGAGGGCAGCTGGATGAGGGTGGAGCCTGGGGGGCGGGTCTGATGTAACCTTGAACCTGGACCCCTTCAACCCACCCAC
W
CAGCCCTTCCCTTTCTCTACCCAGAGCTCAGCCTGCCCTGATGCCCTCACTCTTACCCAGGGTTTGGCCATGACCAGGGGGTCCCAGGGGGCCAGTGGGA
Celera SNP ID:            hCV2451874
SNP Position Genomic:     29762
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52523):
CAGACCGGCGCCCTGCTGGATAGAGAGCAAGGGAGAACTTCAGACCTGCCCTTCCATGCACCACCACAGGAGTCTCTCCCTAGACTGTTACGCACTAGAA
M
TCCCCGACCCTTGCTCACCAGTGTCCCAGAGACTGGGGGCCCTCCAGGATGGGAAGGCCGAGCCTGTGGAGGAGTGGGCCGGGCAATCACCACCCGGGTT
Celera SNP ID:            hCV2451875
SNP Position Genomic:     29357
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,3)      total(T,3|G,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52524):
TGGGGAAGAATGAAAACTCACCCACAAGGACTGGCTGCATAAGAAGCTGCCCCACAAGGCCGCTCACCATCTGGGCCAACGAGGCATTGGTACCCAGACC
R
GCGCCCTGCTGGATAGAGAGCAAGGGAGAACTTCAGACCTGCCCTTCCATGCACCACCACAGGAGTCTCTCCCTAGACTGTTACGCACTAGAACTCCCCG
Celera SNP ID:            hCV2451876
SNP Position Genomic:     29263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:52525):
GAAACGGAATAGGGATGTGGACTTTCCAAGTGCTTCCTTACTTTGGAACCAGGGTCTGGATCCTAGGCTTGCCTTAGACGCCCTTCTTCCCTTAGGTCCT
Y
CTCTGGCCTCAATTCCCGTCTCAAGGCCACGCCTTCCACCTACAGTGGAGTCTTCCGCACCCAGCGCGTCGACCTTTACCAGCAGGTGAAGGAGAAACCC
Celera SNP ID:            hCV25623840
SNP Position Genomic:     22535
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:52526):
CACTGCACTCCAGTCTGGGTGACAGAGCAAGACTCTGTAACTTAAAAAAAAAAGAAAAAAGCTGGCCGGGCACGATGGCTCAAGCCTGTAATCCCAGCAC
Y
TTGGGAGGCCAAGGTGGGTGGATCACAAGGTCAAGAGTTCGAGACCATCCTGGCCAACATGGTGAAACCCCCTTCTCTACTAAAAACATAAAAAATTAGC
Celera SNP ID:            hCV2451877
SNP Position Genomic:     28770
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52527):
CAAGGCCACGCCTTCCACCTACAGTGGAGTCTTCCGCACCCAGCGCGTCGACCTTTACCAGCAGGTGAAGGAGAAACCCTTGTGGCCCCAACTCTAAATT
Y
GAGTTGCCACCTGATTTCCTGTCCTTCCGTCTCATCGCTGACCTCTCACTGTGACTCACTCTTTAACACATGCCTGTCCCCTAGGCCTCCCCACCAGATG
Celera SNP ID:            hCV25623841
SNP Position Genomic:     22657
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Gene Number:                 254
Celera Gene:                 hCG40340 - 146000220073481
Gene Symbol:                 TBX3
Protein Name:                T-box 3 (ulnar mammary syndrome);TBX3-ISO;UMS;XHL
Celera Genomic Axis:         GA_x5YUV32W46Y(62353385..62379315)
Chromosome:                  Chr12
OMIM number:                 601621
OMIM Information:            T-BOX 3;TBX3


Genomic Sequence (SEQ ID NO:12414):
GAAAGAGGATGTTGAAGAAAGAAAGGTGCTGGGTGGTCAAAAGTGCCTGGGGCAAAAGTCAGCTCTGGCCTGTGTCTTGGTGGTTCTGGGTCAGATAAAA
TGAGAGAAAAAATTCCTGGCCCCTTCCTTGTGAATTCATTTCTGCTGGCCTAATAATGCCCATTGCATTATCTTTTTTTTTAAAGTAATTAGGTAAAACA
CACACACACACACACACACACACACACACAAAGAGAAGGTTGAAGATATAGATTGACTTGAAATTAGGAAACCACAATTGGTTCCCTTTCCTGAGAGAGG
AAAAAACCTTCACAGATGTAGAAAAAGCACTCTCCCCAGACACACACACATCCTTCAATCTTACCTCTCTCATTTCCCTTCTAACTTATCTAAATCACTG
GCTGTGTACAAATTTGCCATTTTGCAGGGTGATCAGCTTTGAGGAAAGGTAGGTGCTAATAAGAATAATATGGAGGGCAAAATGTTTTCATTTTGCCTCT
GCCAAAAACATATTTACATTAAGGAGGTATGATGAGCATGGATTAAGTGCATAGCGAATGATGCTCTAGAAACGGCATAAACCAACTGGCAACAAACTGA
GCCTCTGTACTAAAAATATTGCTTCTCCAAGCTAGACAACTTTCAGTCTTCTCTCTCTGAAACATGCTACAGACGCTTGCACCAAATTGCCCAGATCAAT
AATTTAGAGGAATGTCAGAGKATAGGGGAAATGTGTGTTACAGGAAAGCTCCGTGCTGCTGGGGCAAGTAGGAAGCTGGGAGCTGGGGGCTATAGAGCTT
AACTTGCAGCTCCTCACCCTAGGTTCCTGCTCTGGAAAAGATGGGGAGGTGGCCTTAGAGCTTAGGGAGCAAAGATGGGGTTCAACTCTGGAGAAAGGGG
TGGCTTTGGAAATGCCAAGAGGAGAAGGTAAAACTGCCACTCTAGGCAAATGCACACAATGTTTTTCTATCTCTCAAGATACTTTATCTTTCTAGTCAAG
GAAGAGAGGGGAAGGTGTTTGCTTCAGCCCCAGGAAGAGGGATCTCCAGGCTGTCATGGTTGCTGGGAAAGATGAGGGAGGGAAAGGGGGCAGAGTACGG
AGGCACCAGGTCAGAAAGACAGGAGAGAATTCAGACAGGACCAAAACAGCCAGAAAAAATAGGATAAAGAAGGTAGAAAAAAAAAAAAAACAAAACAAAA
CATGAGAAGTTAAAGCCTGGGAAATAGATACAAGACAAGAAAGAGAAATAGAAACCAAGAACAAGATTGATGAAAGGAGGAGAAGAGAAAGTAGAAGGAA
AAAGAATAAGAAAGATTCCAGACACGCATTCAAATAATCCTAAATGGGGATGAGCAGAAAGACAAGGAGACCAAAAGAAAAGGGGGGGGGGTGGGGAGGA
GAAAGAAAGGAATGGAAAAAGAAACAAAAGGTGAATGTCCTGCCCTGTCTGTCTGGTCCAACCAAGAAGCTAGTGTCTGCCCTGGAGGGAGGAAAGGTGG
GGGAGTCCAGCCTGTCTCCAAGGGACTGACAGGCAGCTTCTGGACCAGAGAGGAACTAAGCTCTCAAAGCAAGCTTTGGGGAGGAGGAAGGGATGGGGGT
GCATGGTGAGTGGAGACTCCTGGAGGAAGAGCAAGCCTCCACTGGGTTCAGCACTGCCAGGGGGAGAGTCAGGGTTCAGGGTAGCATAGCAGTGCTAATG
TATGTACCCCAGAGGGTAGGGGGTGCTAGGGCAATTTGCAGGAGGACCACAAACAGTAAACTAGAGAGCTACTTCCCTGGGATCCGTGATAAGAAAATCA
CTTCCTCAGGTGGGAGAATTGAGCCCGAAAGAGAATGGGAGCCCTTGGGGGGCAGGCACCTGGTCAGTTTCAAAGCTCGTCAATATCAAAAGAGGCTGGG
ATCCTGAGATCAAATGGGCTGGGGCACTGGGCAGAAACGAGGAGCCATTGCCAAACTGCCAGGATGACCAGAACGCCCCTCCCCCAGGAAAAGTTCATAT
ATGAACCCACCCCTGTATGAAACTTCTTAATTAGGTCTCATACCCCCGGTGAATCTTGGATGCCCTTCTGTCAACAGAATTCCCAATTTAGTGACACCTC
GGACTGAAAAGAGCTCTGCGGCAAACGGGGGTGAAAGTTTAAGAGGGAATAAGCATATAATACTCCCTTGCCAGACCTCACACATGCTGAAGGGAATATT
TACAGCAAACTGGCCAAAGCAAACGACCCCGCCTACCCACCATCCTTTTACCCTCCTCCCCGCCCTTTTTGTAAACTCCAGATAAACACCATTTGATCAC
AAAAGGGTCGGTTTRTCCCCTTTATAGTTTGAGGCAGGCAGTGCGGCAGGGAAAAGTGGCGTGGGCTAAGCTTCCGTCTCGGGCAAGGCCAGCTTCTTTG
CTGGCACCGTGGCCTGGGCTAAGGACAGTTGATTTGGTTTTGTTTCCCCCGACCCCCACCCCGACCCCACCCCCACAAAGGAACATTATTTTCAGGGTCC
TCCCCCCACCCAGCTTTAACACTCGCCTACTTGCACCCGCACTACTTTAAATGCTGCGGGCATTGCAGATAGAGAGGTTTTTCAGTTAATTTACTTTTTT
AATTCTAGAGCTACAATTAAGTGAAAACTCTTTTTGCGAAAAGGTGGAGGAATATTTCAGAGACGCCAGAAATTATCTGGGTCTTTTCTGACCCGGAATC
TGCCCTCTTTCTCCCTTCTCCTCCCCTTAAGTCACCCTTTTCTGGGACTCTGTTGAAGGGCAGGCTCTTTCAACGTCTCTAGTCTGTCTTTTGTTGAGTG
TGAGACCGAAGGAAAGAGGATCGAGGGGTCTGCAGAGAGAAAAAGACCGCAGATAGCCGGCAGCTGGCGCCTAATGCCGGGGTCCGGGGAGCGCTGGCCT
CGTGGGTTCTCCTGGAGGCCAGGCCCAGCACAAGCCTTCGGAACACGCTGGCCAATGTTTAACCCGAATGCAGTGGCCACCAGGCCGCTTTTGTTTGTTC
GCAAATTAATCACCCAGCGCATGGCCGGCGCCAGAGTGGGTTTATCACCCACCGGGAGGGGGGCGCGCCGGRCACGCAGAGACAAAGAGGAGTTCGCACC
TTCCCGCTTTTGATCCCAGAATTACGGCGGCCTCCCTSCCTAATACGAGCCTCCTGGGGCCGAGTCTGGGAGGTCAGTCATAATTGGCGGAAGTTTGCAG
ACCATTAGCAAGATGTCGACATTTTCGATTCGAACCCCGCAAACTTTCCTCTCGTTCTCTGCTTCGCGCGCTGGAGGTTGGTGTGGGAGAGGAGATGGGG
GTCAGAAGTAGCGATCTGGGGTGATCACAGGGTTAAGTTAGAGCTATGGGCAAAAAATAGGCAATTGAGGGAGGAGGACAGTGTGAGGGGCAGAACTCCC
TCTCAGTCCACCCGCGGAGCCAAAAACAAATCTAGACATTTTTAAGTAAAATCCGCAAGCTCCCCTCCCATTTCCAAAGCTGACAGCTGGCCAGAATGCA
GAGGAATGTCTCTCTGCTGTGCGTGGGACGCTTGGGGGCACCGAGTGGGTGAGGAGGAGGTCGGTCACAGTGTGGTTGTAGAACTACTTTGCTTCCACCC
CAAGTAGTGGGGCAGAGATTGGCCTGCGAGGGCAGGCAGGCAAAACCAGATCGCTGGGATTTGGGGCCGCTCTTGAAAGAGCAGCGAAGGGGCCCCAGGC
CCCGGAGGCGAGCAGTCTGGGGGAGGGGGTGCACTTTTTTTTTCTATTTCTTTCTTTTCTTTTCTTTTCCTTTTTTTTGGGGCGGGGGTCCCCAGAGACT
CATGAAACCCTGCAGTGACTTCCGTGTTCTGTGTAAGGCGGGAAATGGCCTGGCCTTTCGCACCCTTCAGGTGGGGAGGAGGGGATGCGGGAGGGGGTGT
TATGAGCCAACACTCTGGGGCACCACCACCTCGTAATTTTCCCTCTCTCCTTTCTCTATTTTAACCACTGGCAGAGACAGAGAGGACGCCAGAGAAAGAC
AGACTGAAAGGGAAAGAAAGGGGCGAGATGGCGAGCCAGACGGAGTTCGCAGAACCACACTATTCTCTCTGGTGACTTCAGRGAATTCTCRACGCTGGCG
CCAAGCTCTCTTAACCATGTGCGTCAAAAATGCGAGGCTGGAGAAGCCTGTCGCCTCAAAAGATCCTCCCCTATCTCAGCGTGGTTGGCCCACAAGAGCA
CTTCATTTTCACCCTTCCCTTGGTGCCACGTTGGGGTTTCGGGGTTGCTGGGGGTTGCGSGGGTGCACAAGGCAAAATGCGAGAGAGGCCTGTGCTGGCC
TACAGAGACACACACATCCAAAGCCCTGAGTCTCTTAAACCCCTAAGCCCCCAGATCAGCCCTTTCTCCGTTCCCTTTCCATCGAAGAAGCTTTCATCTC
AGGAAAGATAAAAGAACATTGTTTTCAAGATTTCCCTCCATCTAAGCAAGGATGGTCCAAGACATTGGCCCCCAGAATCAAGAACTGTGGGCTTAGGCGA
ATCCTCTGACCCCGACCGGGCGCTGCGGTAACAGAGTTGGTAATTCGGCGATTGGTAAGATCCGGTCGTTTCCCTCCCGTCCGCCTAAGAGGAGGCCCCC
ACCCTACCCGTACTAAAAACAGTCAACTCGCCTCTGAGGTGGGGGCGTTTCACGGTTTGTTTTACAAATTCACCCTCCCTCCCCGACTTCTGGCCAGATT
AAGTCCCCGGGGTGGAGAAAGAACTGAGGCACCGAGAGATAAGTGCGATGCCTAGAGAAGATACCAGGCTGGCGCGCCTCCCCCAACCCAATCGCCCACC
CCTTACCCTGTGCTGTGCACCCAGCCGGGCCTCGAGGTGAGGGCAGCGGCTTGGAGGGGACAGGCTCAGAACCCAGTCTCTCGCTGTGCTCGCTTTGTCC
AGATCCTCCATTCTCTTCTCTACACCCACACCCACATCCAGGTGGAATATGGGGGCCCGCATGCAAATGAAAGACGAGATCCAAAAGGGCTGGTAAATGC
ATTTCATAAAAATCCCAAATCCATCTTCCCCAGGAGCTCAGGCAGGGCCAGCCGCGCAGGCTGTGTACGTGTTTGTGTGTACGTGTTTTTCGGTGTGTGT
TTCAGTCCCAGTGTGTTGGCGCGTGTTCGAGTACAGATACACCGGGGGTGTTTGGGTACCCGCACATGGCTGCGGGTGGGGCGCAGTGGAGAGGAAGCCC
ACACATGCGTGTGCTGAGATATGGCCGCATCCTTGTGCTCCCCCAGCCCAGACGCAGGGGAGACCAGCACCGAGACACCCGAGCTCGGGAGCCCTTCAGC
GGCGGCCGGGCGGAGCTTGGCTCCACGTGGGGCTGGAGAGCACGCAAGCCTGGAGTCTCGGCGCTCGCTTCTCGGCTGCCGCCGGCTTTTGTAGAACCGA
GTGGCCGGATGGCAGCTCGCGGGGAGGCTCGGCCACCCGCCCGGCTCGCCCGGGGCGGGGAGAAGAAGGAGAGCTGGAGAGAGAACCGGCCGCGGCGGTC
GGAGAGGCGAGCGGAGTGCAAGAGAGGCGAGCGCCCCTGCCCGGCGCCCGGGCGCGCTCTCCGCCTTCCCCGCCCGGCTCGCCTGCTCGCTGGCTCCCTC
CCTCTCTCCCTCCCCCTTCCTCCTTGGCCCTGCCTCCTCCCTCGATCCCCGGCTGGATGACTGAGGCATTTCAGACGTGGGCTGAACCAGAGCGAGCGAG
CGAGCTCAGGGGCTGCAGCGATCTCTCGATAAGCCACCTAGAGGCGACTCTGTGCGCGCGCGCTCCCCAGTGGCTCCCGCCCGCCCTCYGATCATGTTGA
CATATTCACAGGACAGGCAGTAGTACMGATGCGGCGCTGCGACGTTACAGTTTCSGACACCTTCTTTTTATAACTCAGCTCTATCCCCCAGCACTCGACC
TGTGAAAACCACGCCTATGCAGCAACACAATTGGTCCGAAAGCGTCAAAGAGCCAATCAAGAGGCCTCCGGCTCCCCGCAGCCCACARCGCAGCCCGACC
TTCTAGAGCCGCCGAGCAGACGCCCGGTGAATTCTAGAGGCGGCGGAGGGTGGCGAGGAGCTCTCGCTTTCTCTCGCTCCCTCCCTCTCCGACTCCGTCT
CTCTCTCTCTCTCTCTCTCTYTCTCCCCTCCCTCTCTTTCCCTCTGTTCCATTTTTTCCCCCTCTAAATCCTCCCTGCCCTGCGCGCCTGGACACAGATT
TAGGAAGCGAATTCGCTCACGTTTTAGGACAAGGAAGAGAGAGAGGCACGGGAGAAGAGCCCAGCAAGATTTGGATTGAAACCGAGACACCCTCCGGAGG
CTCGGAGCAGAGGAAGGAGGAGGAGGGCGGCGAACGGAAGCCAGTTTGCAATTCAAGTTTTGATAGCGCTGGTAGAAGGGGGTTTAAATCAGATTTTTTT
TTTTTTAAAGGAGAGAGACTTTTTCCGCTCTCTCGCTCCCTGTTAAAGCCGGGTCTAGCACAGCTGCAGACGCCACCAGCGAGAAAGAGGGAGAGGAAGA
CAGATAGGGGGCGGGGGAAGAAGAAAAAGAAAGGTAAAAAGTCTTCTAGGAGAACCTTTCACATTTGCAACAAAAGACCKAGGGGCTGGAGAGAGATTCC
TGGGACGCAGGGCTGGAGTGTCTATTTCGAGCTCAGCGGCAGGGCTCGGGCGCGAGTCGAGACCCTGCTCGCTCCTCTCGCTTCTGAAACCGACGTTCAG
GAGCGGCTTTTTAAAAACGCAAGGCACAAGGACGGTCACCCGCGCRACTATGTTTGCTGATTTTTCGCCTTGCCCTCTTTAAAAGCGGCCTCCCATTCYC
CAAAAGACACTTYCCCTCCTCCCTTTGAAGTGCATTAGTTGTGATTTCTGCCTCCTTTTCTTTTTTCTTTCTTTTTTGTTTTGCTTTTTCCCCCCTTTTG
AATTATGTGCTGCTGTTAAACAACAACAAAAAAACAACAAAACACAGCAGCTGCGGACTTGTCCCCGGCTGGAGCCCAGCGCCCCGCCTGGAGTGGATGA
GCCTCTCCATGAGAGATCCGGTCATTCCTGGGACAAGCATGGCCTACCATCCGTTCCTACCTCACCGGGCGCCGGACTTCGCCATGAGCGCGGTGCTGGG
TCACCAGCCGCCGTTCTTCCCCGCGCTGACGCTGCCTCCCAACGGCGCGGCGGCGCTCTCGCTGCCGGGCGCCCTGGCCAAGCCGATCATGGATCAATTG
GTGGGGGCGGCCGAGACCGGCATCCCGTTCTCCTCCCTGGGGCCCCAGGCGCATCTGAGGCCTTTGAAGACCATGGAGCCCGAAGAAGAGGTGGAGGACG
ACCCCAAGGTGCACCTGGAGGCTAAAGAACTTTGGGATCAGTTTCACAAGCGGGGCACCGAGATGGTCATTACCAAGTCGGGAAGGTAAGCAGTGGGGGC
CTCCTCCCCTAAGCTGTTGGAGAGTTTTTTCCTCCCTTTATTTCTCTGCTCCCAGAACAGTCGGTTGGTCGGTTATTACGGCTTGGACGAAAAGTTAGTT
CCCCTAGAAATGTATGCACAGACTTCCAGGCCCTGCCCCGGTGGCAGGAAATTTCAGCTTACCTGGGCATCTGCATGGGTCTTGCATTTGGTCTGCATCC
TGGGTTCCCTCCCGAACAGACAGAATTTTTCAGTGGAGCACAGACATCCCTGCAGGGAGCAGGAAAGAAAAAAAAAAAAGGCACTCTACTGCAAGAAACT
CACTCTTCAAACCCTCCTGGAACATCCTTATTTCTTTGTTGATGTTGTGTTGTCTGTTTTATTTTGTTCTCAGAGAGAAAAACTTAAAGCCCTTTCCTTT
TGTGTGGGTATTGGGAGGCCTGACACCATTCCCCGGCCCTTTCTGCCCTCCAGTCTAGCCTCTGGGTCTAAAGGGGCCTGCTGCTGCCCTGGTCAGAGAG
AAATCGAAGGGCATTTTGGTTTGTTTGCCCACACTACTTCACGTGTCTGTAACCCAAGGGCGAGTTCAGCAGGCAATTTTGCATAATTTAAGATTATGTT
TGCAGACTTAAGGAGCCAGTGAGGAGACACACACCTTTTTTTTAATGTGTGAATATTATCAACCATATTTTACATAATGTTTAAAGGTCCTTGCCTGAYC
AAAACCTGCCTGGAAGAGAAGATCCTGTAATAGTCATTTAAAATCACTGATTTTTTTTTTGTAATAGCATTGAAGCCTGTAAAGGCATAAAGTTGATACA
AAAATAAAATCCCCTTCATGATATCTTAAGCGTTCTGTCTCCTTCCAAGCTAAATGAGGCCAAAGTTTGGCATAAAATCCTCCTCAAACTCACAAGACAT
TTAGTCAGTTTTCCAGCAAAGTGCTTCCTTGCTTCCTTTTAAGTCAAGACTACAGAATGCCAACCCTTCTGTGAAATTAACAGCAATGTGGTGGCACAGT
CTTGCGGTTTTGGACTGGCCTAAGAAGTGGGGGAATGTGTTAGCAGCTCCACGGGCAGATCGGTTATCAGGCCCRGGAGTGCACCGAAGTCTGCAAAATT
CGTTCTGGGAACTCACTGAAGTCCAGTTTCACTTCGCCCACAGCGGGATTGCTATTCTGCAGCAGGGAGGGGTGCAACTTGACGTTCATTTCCTTGATAA
GTTTAACATTTTCTCATCAATGGGTGGTGGAAAATTCTAGTCTTAACTGACCGCGCTTTACAAAAATCTTACCCCAACCTGTTTAGAYCTAGATACCCAC
AGAAAAAGACATGGGCAAGAATTTGCTCTCAGGAGGGCAATCTGTAAAGTCAAGCAAGGACAAAAAAAATATTGAAGAAATTGTTAGACAATGTAGAGAA
TTGCAGTGCCACAATGCATTTGTTTTGAACCTTGGGACGTCTAAATATGGCGAAACTGAGAATATTTAATACGTTAGTTGTGGAAGAAAACGATTTTGCA
ACCAGTTGCCTCACTCTGAAACATGTAAGCTTATCAGTCACAATATAAAGTCTTAGACTTGGTTTCAATATTATGTGATACATAGGAAATCAAACCCAAG
ATTAYGGGTGGTTTATCTTTCTTTTTCTTTTCTATTCTTTCGTTTTATAGGCGAATGTTTCCTCCATTTAAAGTGAGATGTTCTGGGCTGGATAAAAAAG
CCAAATMCATTTTATTGATGGACATTATAGCTGCTGATGACTGTCGTTATAAATTTCACAATTCTCGGTGGATGGTGGCTGGTAAGGCCGACCCCGAAAT
GCCAAAGAGGATGTACATTCACCCGGACAGCCCCGCTACTGGGGAACAGTGGATGTCCAAAGTCGTCACTTTCCACAAAYTGAAACTCACCAACAACATT
TCAGACAAACATGGATTTGTAAGTTTCATTGCTCTCTTCAGTAAAATTTTCTCCTCCTTCACTCAGTCAAAGGCAGTGCTTCCCATTTCATGAGTTTCAG
CCCAGACTTCTCCTTTGCTTCTCCCTAAGCATAGCAAACTTGTCCTCGTCTGGAAAAAGGATTCGGGGTGTTTCTCTCCAAATAATGGAAGGCCTGGCGT
TCTAAAAGAAATGGGGCAAGAAAACTTACCGGCTTGTGTTCTATAGCAATTCCAGCTCTTTGGTAGATTCCTGACCTGAGAGTGAAGTTAAAAACCATTT
TTTAAGAGCTAAAATCAATTTCAAGGCTATGTATTCCTAAAGGATTTGTTTTGTTTTAAAATATCATACTTCTGTTTTGAAACCAGTGATATTATTTTCT
CAGGAGAGTTTACGTTTCGGAGCCTTGACTCTGTTGGTTAAATGGTGTGAATACATTTTTAAAAACTCGTTCTTTTACTAAAAAAAGAATTGGGCTTAGG
TGGGAGTCCGGCTTACCCTAAATGAGGCTTAGATCTTCAGAAAAAAATGGTTTGTGTGTTGGGAGTGTATATATGGATTCAGTGACAGTGCTTAGAAACT
TAGAAAACTTTCATTGCTTGTAGATATCAGGCAAAGGACCTTTTGCGCCTTTTCCTACCCCTCCCCAACATTTCAATAAAATAAACAGCGTGATAAGCAA
GGAGTAAGCAGAAAGATTAGGCCCAGGAAGACGCGAATGGCGCGGAAATATCTTCAGCGGGCAGGAATTGCATTTGAAGCCCTTGATTTGATTAAGGCAT
AAATATTCCTCTCTAGAGTTCAGCCTTTCAGGGCTTTAAGTGGATTGGGCTCGTCAATTAGTGGGCGCTTAAAGTACTGAATCATTTTGTAAATTAAAAT
GCATGTTTTTCTCTATCTTTTAAGACTTTGGCCTTCCCAAGTGATCACGCTACGTGGCAGGGGAATTATAGTTTTGGTACTCAGGTAGGCTAGGGTTCAA
GGTATGAATGATCCTTAGATGGTGAGGGTGGGGGGGGCCCTTTGGCAACTGAGGAGCAATTTGGATTCTCCAGAAGATAACATCTGTGGAGCGAAACKTA
CCCAGGGGGTACTCCAAGGAGGTGGGCTCGGTACAAGCGTGGTACCCTGCGGTGGGGAAGATTTCAGCCTGGCAGGGGTCCTAAGATCCCGTTTGTTCTG
CTAAATCCTTGTTTTATGTATGTCTCCTCTTCCCTGCCCCTGCAGACTATATTGAACTCCATGCACAAATACCAGCCCCGGTTCCACATTGTAAGAGCCA
ATGACATCTTGAAACTCCCTTATAGTACATTTCGGACATACTTGTTCCCCGAAACTGAATTCATYGCTGTGACTGCATACCAGAATGATAAGGTAAACTC
AAGGGGCTTTCCTTTTTAATGGTGATATTTTGCCTTCCCCTTAAAAGCTGCTTTAAGTCAGGATGAGAAAGTTACAAGAGAGTGGAGACGAGAGTCTTGA
GTTGTCTTTTGTGATTTGTGGAGCATTTGGGGGGAAAGGACARTGACACCTCGAGGAGACAGAAAAACACCTTGACTAGGTAGGAACAATGCTGAGCAAA
AAAACGCCATACTAATTTTGCCACAGAGAAACTCCTAGAACTGCTGTCATTGATGCCACCCACTCCTCCCCMMCTCTTGGGCTTTGTCCTGTCTGTTTTA
AGGTTCATCTTCTTCCCCTTGGGGAAGAAGGATCAAGAAGTCACATTCAAAAGGAACCAGCTAAAAATTTAAGGCAAAAGCCATTTGGGATCCTGGGAGG
AGAATCCTAGTAGAGACCAGCTTTTCTCCCCTAGCCAGAAATCCTGAGTAGCTGGTCTGGTTTTTATTACCTTTTATGCTGCTGTGTTATGATGTGTGTG
TGTGTGTGCATGTGTGTGCATGCATGCGTGTGGTTGGAAAAACCTACCCTGATCACAGGGTCATATTAATCGAGTTGTCTGAGGCTTTTGAGTTGGGGTG
GCCAAAGTCACCACTTCATTTGAATTCCCCCCCTCCCCCAGGCCTGAATCTGGAGGTTAGAAGGATCCCCAAAAGGGAAAGCACCTGATATCTAGAGCTA
TGGTGGCCTGAAGGTCATGGGCACAGAAAAAGTGACCCTTACTGCTGATTCACCAGTTCCCAGATTGGCTGTTAGCAGTTATGGGGTGGGAGGAGGGACT
GAAGACCCCTGCTCTGCAATCCTGGACTTCAAAGAGAGTCCATTTTACCTGACAACACACTTCATTTTGAACTCACTGTCATTGTCACTGTCCTTGGGTC
CTCTGTGGACTTCATGATGGGGATGTTCCAGCTAAATTTCTTTAGTGTGWATACCAAAACATGATCTTCTCTCCCTGTGAAACCTGAAGTCTTCAATAGA
GCAATTTATTCCAAGAACATGAATCCAACCAAGGGTCCCCCTTTCCACCTCTGAGTAACTCTGTGTATATAACTTCTTCTTCCCACCAAGGGGAAGGGAT
TTGAAAGATTACACACTATAGCATTTTTCTCAAAGTGCAAAATGCATGTGCCCTCTAGACCCAGAATCCTGTGAAATGAAGTTGTTAATGTAATAATAAA
ATGTAGCATTTTTGATCAGACAAAAAGGCCATGGGCCTTCTCCACCTAATGGCCATGGCAGAGCATATAAATGAAAACAGATGTTTCCAGTGGTCATTCA
GTACTGTAACTGTCAATATTGTAATTTCCTCAAACCACCCCCCAGGCAAAGAAAAAAAAAATTAAACTCACTCCCGCACTCACTCCCGCACAAGGGTAGT
GAAACCCCATAAATCATTTATTGGATTCATGGAAAAGGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAAGGGAGTATGCTATAATTTATGA
TTAATTGCACTGTATAAAAATCAAAATGAAAGCATAATTTTAAGATCTACAGGTTTTCCCTCTTGATGACTTTGACAACACTTCCATGTCTAAACCCAAA
CTGTTGGCTGCCCAAAGAAAAGAATTTCTTTGAATAATTTCATCCCCAAATCCCTGGTTTGGCCTCATATAGGAGATACAAGCCCTGCCACAGTTTCCTT
ATTATCTCCTTTCCCTGGCATATCTATATGACTTCTGTTGGCAGTCACATCTCTAGACTTGTTGAGTTGGGAAAAACACCCTCAAAACATTCTAGAAAAT
GAGAACAATGTCTCTGTCTTGCTTGTGTCTCTTCCAATAGATAACCCAGTTAWAAATAGACAACAACCCTTTTGCAAAAGGTTTCCGGGACACTGGAAAT
GGCCGAAGAGAAAAAAGGTGAGTTGAAACAATTATTTATTAGATAGTTTAGAAAAATCCCTTTTTTTAGGATCCAACTCTGAAGTGTTAGAAGTGAGATG
CAGGCACTTATCCTAAGAGCGGGTGGAAATCATTCACTTTCCCCACTGCTACATGCTTGCCGCTATCAGTATACCCAGGACAAGTACTTTTCCTACCTCC
TTACCTTTAAGGAAATTAACTAGGCTACACCATACTTATCTCTGGAAGAGAAGCATCAGGGATAATAGATTATACAGGGATGCCTATTAATTCCTAATTA
ATTTAAGTTCATCCTAGGCAGGTCCCAGAAAGAACCATGCCATTGAGAAAATACTTGGGAATTTTTGCAATCCTGTCTTCCAAATACCATCAGACAGAGC
TGGGGACTTCGGAAAGATGTATGGCTCTCTCCCTCCTTCGTGGGGACATGTATCATTTTGCATTACGTAGACAGCTGGAGAGTATATGAAAGAGGGTCTC
CCCTCCCCCACCCCCTTTCAAAGAATTTCTAAAATCCAGAAAATCACCCCCAAATTTTTAACCTATCCCCTTGGGGCGGGCATTAAAAAATAATTGCTAA
CAGCTAAATATATTTTTATTCCAATTAATTTGTTAGTAAAACGATTACAGTAAAGTGCAGCATGAAATAACCACTTCCTCCCAATCTTAGCCACCATCCA
AAATTTGGGTATGCTGGGGACAGACAGCGTTGTGTTTGCAGGATTGGACACCCGGTTCTCCCTATATAAGGCTGGCAGTCCAGCTGTCTCTGACTAGATC
CAGCCTCTTCTCCTGCTTTTAAATAAAATTTCACAGCCCAAGCAAATGCCTTTTCCTAATGAAACCYCATCTTGAATAAATGCAACTGAAGCCTCCTTCC
TTTCTCCCTAACCCTCTGCCACACTCTTCAGCCCAGTTAGAGGGTCAAGGACAAAGCTTGGGTCTATGTGGCTGCCCTGGGGCAAGCAGATTTCAGTGAA
TTAGCGTTGTCCCTGGGCAGCAGGCAGGGTGTGAGGTATGTGTGTGCCGCTTTGGAAAGGGTAAGGGAAACAAAGAGGGGAAATGTATGTTACATTCTGT
AACCTGGGTGTGGGCTTCTGCCACAGAAAACAGCTCACCCTGCAGTCCATGAGGGTGTTTGATGAAAGACACAAAAAGGAGAATGGGACCTCTGATGAGT
CCTCCAGTGAACAAGCAGCTTTCAACTGCTTCGCCCAGGCTTCTTCTCCAGCCGCCTCCACTGTAGGGACATCGAACCTCAAAGGTAAACCATGTCACCT
TTGTGATCACTGGACTCCAGTCCCTCGTGGCCTGGAAGAGTTGAAGGGGGATGGGGCACCAACCARGGCACTTGCCCTTTAAAAGCTAGAAGCCTTCTAA
ACATCCTTAAACAGAAGCCAGAGTTCAAAAAGGGCTATCAGGTGTGTCTCCCCTTCCCCGCTAAGGCAGTAGAAGGAGAGCACAGAGGCCTTTCTCCCAG
ATCCTTATTTGGCTGGTGGGGAGGGGAGGTGGGTGTCTGTTTGCATACTACCTCTTGGCAAGCAGCTTTGAAAACTTGCTTGAAGCGCTTCTCTCTTTTC
TCTCTGTCTCTGTTTCTTTCTCCTCCCATTCTCTCCAACCAACAGAGGCTCCAACTGCTGACTTTTCACTGTCTTTGAACTCTAGGTTACAATGTGTTGG
ACTGGGTGGGGGGGAAGCAAGGGACTCTGCCACCTGGAACCGAGAAGGTGGCCTAGAAAACATCCAGCTATAAAGCAACAATTGACCTGGGAGAGGAGGT
GGAGCACTGGGGATCTGCGGTGGGGGTAGAGCTGGGGGAGGTGGGTGAGGAGTGGACAAGATGGCTCAAATCCCCCCTCAGTTACCTGTGTTTAAAGAGC
AAGCAGTATTTATTTGGAAAGACACACACACACACACACACACACACTCTCAACGGGAAGAAACCTGTTTTTTAGTGAAATAAAATGCAAGTCCTTTATG
TCTTCAATCCATTTAAGCTTTAAACATAAAATAGGATCCCTTTTTCTTTTCTTCTGGTGGAACACCCACAGAGGGTGTGGTAAAAGCGAAAAAAGAATCT
ATGATCGTCCCCGGGCTGTGAGCCATCTGTCCGACACTCATCTCTCTCTGCAGGGACTGGGGCAAATACAAACGGTTCAACTGAGTACTGGTGTTGAAGG
ACAGGTGTCCGTTCTGCCATTATCAATTCAGATGTCAGGGTTCTTGCCAAACAAATCCTTCCAGAGTAATTCACAAATTTGTGGAAGGTGCTGCTCTCTG
TCRTTCACTGATTTTTTGATAGTAATTAGAATATGTTCCAGCTGTGAGTTTTAATGTTACTTTTTACTTTTAAAAAGTTAATTTGCAATCGAATGGGGAR
ATGCATGTGAAATCTGCCACTGTAGGAACTCAAAAAAAGAAGTAAAATTCATTAAAATAAGAAGAGCTACTGATTAGGGGATTGTCCATCTAAGGGAAAG
TTTAAACTCTGGGTAAATACTTTAAATTCATAATCGCTTATTGAATTTTCCAGCAATGTTGTTGGGCACGATTATCCCCATTTTGCAGATGACAACACTG
AGGTGCAGAGAGGCTAAGGGGCTTTCCCCGGGATTACACAGCCACTAAGCCACGAGCTGGGATTCCAACTTGGGAACTGGAGTTCCGTTGGCTCATACTG
GAGATAACGCCCTTCTGCCTTGGTTTTTTCCTTCGCCTGTGGTAGATTTATGTCCCAGCGAGGGTGAGAGCGACGCCGAGGCCGAGAGCAAAGAGGAGCA
YGGCCCCGAGGCCTGCGACGCGGCCAAGATCTCCACCACCACGTCGGAGGAGCCCTGCCGTGACAAGGGCAGCCCCGCGGTCAAGGCTCACCTTTTCGCT
GCTGAGCGGCCCCGGGACAGCGGGCGGCTGGACAAAGCGTCKCCCGACTCACGCCATAGCCCCGCCACCATCTCGTCCAGCACTCGCGGCCTGGGCGCGG
AGGAGCGCAGGAGCCCGGTTCGCGAGGGCACAGCGCCGGCCAAGGTGGAAGAGGCGCGCGCGCTCCCGGGCAAGGAGGCCTTCGCGCCGCTCACGGTGCA
GACGGACGCGGCCGCCGCGCACCTGGCCCAGGGCCCCCTGCCTGGCCTCGGCTTCGCCCCGGGCCTGGCGGGCCAACAGTTCTTCAACGGGCACCCGCTC
TTCCTGCACCCCAGCCAGTTTGCCATGGGGGGCGCCTTCTCCAGCATGGCGGCCGCTGGCATGGGTCCCCTCCTGGCCACGGTTTCTGGGGCCTCCACCG
GTGTCTCGGGCCTGGATTCCACGGCCATGGCCTCTGCCGCTGCGGCGCAGGGACTGTCCGGGGCGTCCGCGGCCACCCTGCCCTTCCACCTCCAGCAGCA
CGTCCTGGCCTCTCAGGTATGGATCCTTCTTCCTGCCTCCACCAGTCTTTCCACCTTTCGTCCAGTTTCCCTGTCCTTTGCCAGCAGACCCTCACCCGAT
CCCTTTGGCCTAGTAGCTGTAATAATTTTTACTGAGCCATTACCGGGTTCAAGGCTTAGCTCATGGAGTTATTATGACTTCATTCTCCCCATTCACCCCA
AAAATCTTTAAAATTTTTCCGAAGTTAAAGGCTGTTTCCAGCAGAGTAGATAGGTAGTAACAAAGATAACAGCTGGACACAGCACTTACTTTCAGGCATT
CTTCTAAGTGCTTGCTCTGTATTGACTCATTTGACCTAACCCTTCAGGGGTACTATTATCACCTCCACTTTACAGATGAAGGCGAAGACGCCCAGAGATG
TTGAGTGACTTGTCCAAGGTCACACAGCGGGTACATGGTGGAGCTGAGACTCAACCCCAGGCTATCTGACTCCAGGGCCTCTTTGAGGGTTTCTGATTTT
AGCTTCAGAGCTGACATGTCTCTTAAGTGTCTCATAGCCAACCCTTCCCCAGGAATGGGACTCTAGGCCTGGGGAGGGGAAGTGACTACTTCCTGAGTAG
GAGTTCAGTCTTGATTCCTCCAGCCTTTCCTCCCAGTTCGAAGCTCTTCTCCCCACCCCCAACCCCARGCAGGCCAGCCTATTCCTCGAAGGGTTAATGG
TTTGTGCACACGTGGGAAATGTCAGAGGACAGGGATAAGCAGGGACTGGGGCAGGCCTGGAGGCCTGTGTGTGGCTCAGACAGCTGTGCTGGGGGGAGGT
CTCAGGCGGCTGGAAACACCCTGAACTCGATGAAAAGGTTCTATGAGGTTTTGCATGCTGTTGCCTTTTGTTTTGTCTGAGCACATTCGTCTGGTCTCCC
TTCCCTGCGCCAAGAAACCAGATTGGCCTCCCCACTCCAGGGAGGAGGGAGCTGAGGAAAGGCTTGGCTTCTGGCATTTCTCAATTCCTCCCATCTCCTC
TGCTGGCTTCTCCGGGAGACCCTGTCCTAGGTGGGCAGGTGGTTGGTACACCAAGGACTACCTGAACAGACAAAACCTTAAGGGCACCTCAAGGCATGAT
GCAGAGAACTGGCCCAGGCCAGGGTGCCTGCATCTTAAATGCTGCTTCTGCCAATTCCCAGCTTAGTGCACTCCTGAACTCCTGCGGCCTACCTCGGCTT
CTCACCTGGAACACCAGTGAATCATGCTGGACGATTTCTTTGTCTCTGTTTATAACAAATGCCCTTTTTCCCTCCCCCAGCCCCAGTTTCCTTTTGCTTA
AGATCTTCACTGTCTGTTTTTTTTGTTTTGTTTTGTTTTGTTTGGAGAAACTTCTAGGATTGGGGTGGGAGGATGGGGGTTGGGGAAGAAGAAAGATTTA
AAAAATTATTCCTAMTAATTTATGTCCTCCGGCTTCCCCTTGGTTACCTCTGTGGGGTAAACTGAATCTGTATCCCCATTTAACAGGTGCAAGGAGATTT
CCTGGGGGCTGCACACACTGTGTGCAGCATATTGCAGGCTTTCACTCATTTAATATCTACAAAGTCCTCAATAAGTATATGAATTACTTATGATTTCCCT
GTTTTTTCTTCCTATAAGGAAGCTGAGGCACAAGTTAATCAAAGTCTCTTGGCCTAGGGTGACACAGCTAAGATTTGTACCTAGAGATTTCTGAGTGTTG
ACTTCTCTCCTGCCCCCACCTATCTCCCCCCCCMAAAAAAAAMACACAACAACAACAACAACAGAACATACCAGGGATTCATGGCTTGCCCAATGTTGGA
GGGGGAGAAGAGAGGAGAGGGATGAGATAAGCTCCTCCCACCCGGCTGACTCGCTGTGTGTCTCTTTTCTCACCCCAGGGCCTGGCCATGTCCCCTTTCG
GAAGCCTGTTCCCTTACCCCTACACGTACATGGCCGCAGCGGCGGCCGCCTCCTCTGCGGCAGCCTCCAGCTCGGTGCACCGCCACCCCTTCCTCAATCT
GAACACCATGCGCCCGCGGCTGCGCTACAGCCCCTACTCCATCCCGGTGCCGGTCCCGGACGGCAGCAGTCTGCTCACCACCGCCCTGCCCTCCATGGCG
GCGGCCGCGGGGCCCCTGGACGGCAAAGTCGCCGCCCTGGCCGCCAGCCCGGCCTCGGTGGCAGTGGACTCGGGCTCTGAACTCAACAGCCGCTCCTCCA
CGCTCTCCTCCAGCTCCATGTCCTTGTCGCCCAAACTCTGCGCGGAGAARGAGGCGGCCACCAGCGAACTGCAGAGCATCCAGCGGTTGGTTAGCGGCTT
GGAAGCCAAGCCGGACAGGTCCCGCAGCGYGTCCCCGTAGACCCGTCCCAGACACGTCTTTTCATTCCAGTCCAGTTCAGGCTGCCGTGCACTTTGTCGG
ATATAAAATAAACCACGGGCCCGCCATGGCGTTAGCCCTTCCTTTTGCAGTTGCGTCTGGGAAGGGGCCCCGGACTCCCTCGAGAGAATGTGCTAGAGAC
AGCCCCTGTCTTCTTGGCGTGGTTTATATGTCCGGGATCTGGATCAGATTCTGGGGGCTCAGAAACGTCGGTTGCATTGAGCTACTGGGGGTAGGAGTTC
CAACATTTATGTCCAGAGCAACTTCCAGCAAGGCTGGTCTGGGTCTCTGCCCACCAGGCGGGGAGGTGTTCAAAGACATCTCCCTCAGTGCGGATTTATA
TATATATTTTTCCTTCACTGTGTCAAGTGGAAACAAAAACAAAATCTTTCAAAAAAAAAATCSGGACAAGTGAACACATTAACATGATTCTGTTTGTGCA
GATTAAAAACTTTATAGGGACTTGCATTATCGGTTCTCAATAAATTACTGAGCAGCTTTGTTTGGGGAGGGAAGTCCCTACCATCCTTGTTTAGTCTATA
TTAAGAAAATSTGTGTCTTTTTAATATTCTTGTGATGTTTTCAGAGCCGCTGTAGGTCTCTTCTTGCATGTCCACAGTAATGTATTTGTGGTTTTTATTT
TGAACGCTTGCTTTTAGAGAGAAAACAATATAGCCCCCTACCCTTTTCCCAATCCTTTGCCCTCAAATCAGTGACCCARGGGAGGGRGGGATTTAAAGGG
AAGGAGTGGGCAAAACACATAAAATGAATTTATTATATCTAAGCTCTGTAGCAGGATTCATGTCGTTCTTTGACAGTTCTTTCTCTTTCCTGTATATGCA
ATAACAAGGTTTTAAAAAAATAATAAAGAAGTGAGACTATTAGACAAAGTATTTATGTAATTATTTGATAACTCTTGTAAATAGGTGGAATATGAATGCT
TGGAAAATTAAACYTTAATTTATTGACATTGTACATAGCTCTGTGTAAATAGAATTGCAACTGTCAGGTTTTGTGTTCTTGTTTTCCTTTAGTTGGGTTT
ATTTCCAGGTCACAGAATTGCTGTTAACACTAGAAAACACACTTCCTGCACCAACACCAATACCCTTTCAAAAGAGTTGTCTGCAACATTTTTGTTTTCT
TTTTTAATGTCCAAAAGTGGGGGAAAGTGCTATTTCCTATTTTCACCAAAATTGGGGAAGGAGTGCCACTTTCCAGCTCCACTTCAAATTCCTTAAAATA
TAACTGAGATTGCTGTGGGGAGGGRGGAGGGCAGAGGCTGCGGTTTGACTTTTTAATTTTTCTTTTGTTATTTGTATTTGCTAGTCTCTGATTTCCTCAA
AACGAAGTGGAATTTACTACTGTTGTCAGTATCGGTGTTTTGAATTGGTGCCTGCCTATAGAGATATATTCACAGTTCAAAAGTCAGGTGCTGAGAGATG
GTTTAAAGACAAATTCATGAAGGTATATTTTGTGTTATAGTTGTTGATGRGTTCTTTGGTTTTCTGTATTTTTCCCCCTCTCTTTAAAACATCACTGAAA
TTTCAATAAATTTTTATTGAAATGTCTTTGGGCCTTGTGTTAAATGTTTTTTCTTTGGGAACCTTTCCTGAAGATGGACAGTCAGGGGAGGGTTTAGTAT
CTTCTTGTTCTGAGTTTACCCCCTTCCCTTCGCCTTTAAATAATTAAGACCGCCCCCAGCGAACCAAAATGAGATGTCACTCAAGTTACAAAGCTAAAAA
CAAAAGTCCCTTACTTGAGCGAAGGGAGCCACTTCAATCTGAAATTACTTTTCCTTTAAATTAGGGAGCAAAGCAGGGAGACGGAAAGGGGCCTGATGAG
AATACAGAAAGAAGGGTAATTTCAGATACTTTTAAGTTTTAATGGAAAAAGACTGATGTGCTCCCTAAGTCAGGTTTTCCCACCCGAATCCGACCAAAAG
TAAGCTCGGCAAGTACGAATGTTTTTCGTTTTAAGCTCGCCCTCAGTTTTGACATCAATCTGGCGAATCCAAGTCGAAAATACCTTCTTGCACCAGTGTG
TTTGGCTCGGGGAAAAGGCCAGCAGAATGCCCCAGCAGTCCGAGCGGGCTTGGCTAGGCAGCAACCCTCCAGGTTGTAGAAGTGGACAAGACGCAACGCC
TTTCCACTCGGCAACCCCCCACACAGCCTGCAGTCCCTGGTGCCTCAAATTGAACCCGGCTGGCCCAAGGCGCCCCTACGAGGCCCCATCCATCCCGAGT
TGTGCGTGCAAAGCGCGGCCAGCTCCGCGAAAACTTAGCTGTGTCACGCGAGGGAGGAGGGAAATTATCCCCGAAAGGGGAAAGGTAATTCCAGGGTGCA
CATTTCACCCCCTCCACGGCAAAAGTCACCCAGGAGGCTGACATCCTCCCCTAGTCTCCCCTTCAAACCCGTCTCCAGGCTGTTCGGGGAGTTGCCTTTT
GAAGTTCAATTTATCTTTGAAACATTCAATAAAAAATGATGAGGCACTGTCAGTCTTTTGGTCTCCCGACCCCCAGCCTCGCCTCCGAGGTGTGTGTCTG
TTGGGGGGCGGGGGCGGCACGGGAAGGTTCGAGGGTTAGTCCTTAGCCCTTTTCTTGCCCTGGGGGCCATGACGTGAAGACCCAGCTGGAGCCTGCCTGG
CGGCTGCCTCCCTCCCCACCCCCCACCCGCCACCCCCTGGAGCCCGCCAGCCCGGCCCCAAGTCCCTGTCACCTTCAGGCCTCTTGAATGACCGGAGAGG
AGGACGCCCCCTCCCTTCCCTCATCCTGTACTTGGAAGGGATCGAGGTCGAGACCTTTTGGAGAGCGGGGCAAAGCCCCTTCCATCTCTGGCCAGGCACG
TGGGGACCCCTACAGCCTCCTCTGCGATGTCTCCGGGGGTGGGAGGGAAGACAGACAACCAGAGTATGTTGGTGCGGAGTCGCGGGGGGGGGGAGGGTCG
GGGTGCGCTGCGGGGGTGGCAGGGCCTGAGCTGAGACGGGCCCTGGGGACCTTTGAGGCTGGGGCTCCCCCGAGGACTGGGAGATTTCCAGGGCGCGCTC
CTTCTGCGCAGCGGCTACAGCCTGAAGGGGGCAGCTCTGGATCCAGCGACAACGCGCGGTGTCCGCGCCTCTGAGAAGGTGGTAGTTGGCTGGTTGCGCT
CTCCCGAATTGGGGAAAAAAGAACTCAGCCTCCAAAAGGGAAGAAATGCTTTGCTTTTCTCTTCTTTCTCAGTCCAAATTTGCTTACCTCCTCCCTTCTC
TCCCCCCGCCCCCGATTTGGGGACCCTGCTCAGACGTGTGTCCAGCCTCTCTTACTGGCGTTCCTCTTTTTTTTTTTTTTTTTTTTTAATCTCCTGTGTA
TCTCATTTGTATATTGKGATGTTAATGAGTAACTCCTGTAGCGCTGATGGGCGGGGGGTGGAGGGGATGAACGGCTCGCAGTCTCTCTGGATTTTGCTGC
CTATTACTCACCTGGCGCCGGTCGCAATCTCGCCGCAGGCTTTATGGTGGCTGCGGCCGCCCCAGAGGCCACTCAGGGCAGGCGCCTTCGCCTTTTTTCT
GGGCTTCGAGTGCCACCTATCTGTCTCGTCTACGAATGCGTCCAGGTCGCCGCAGCTGGCTCGGCACCCCAGCGCCTCCCGGGTTCCGGAACTTGGGCGC
TTCGCCTTCGCCCCTTCTCATCCCCACCACTCCCAGCCCCACTMCCCTCCTCCTCCGTCCCCAGCCCCATTCTCAGCCTCGGAAGAAGCTGCCTTCCCCT
CTTTCCTGGATATCACTTTCACTCCCGTTTGTGCCTCAGATGAGAAAAACAGCCCTGCCCTCCTCTGGGTTTCCAAAGAATGTTAGAAAATTCAGTGCGG
GAACCCTGGCTCGTAATTCTCTGGACAAGTTCCTTGCTGCTTGTAGAAATCTCTAGACCCTTGTTCTGGACCCCGCCTGGCGGGGGATAACCTGAATTCG
CGATGGGTCGATAGAGAAAGGATACCTCCTTCCCCAACATACACACCTCAAATTCTGCCCTGGGGACAACTTGCCAGTACCAGGATGCTCTCTTTTTTAC
TCCACAACTTTGGAAGTTTTTGTTTTTTAACCTGGCCGCGTCTACAAGGACAAAGGCCATGACTCGCGGGAGCAGCAGTCCCTACGAGGGTCAGCTACCG
CAGCCTGCAGGGCCCAGCACCTTCGTGACTTGTAGATTTAAGGTGACAAATGCGGGTGCCGGTCAGAGGCCTCCAACCCCTGCCTGTCGGGAAGGTCGGC
TCCAGTCCTGGCTGCGCCCTGGAGTCTGAGACCCGCGGAGGGGAGGGGATGGGGTCGCCTTTTGCTGTGCTTTGAGCCGCGGGTGAAGGCGTCCGGGTTC
CTGCTGACCTCCCGGCGCTAATTGCAGGGGCCGAAGGGCGCGCTCGGGCAGAGGCAGGGGTCACGACCTTGCGGCTCCCTCCTCCCGAGGTCCCGGCAAC
CTGAAGGAGCCGGGTGTGTGCAAGAGGGCGTGTGTGTGTGCGCGCTCGCGCGATTAGGGCCTCTCTCTAGATCTGCGCTGTTCTGGGACCCACTCTTTCT
TTGTGGGGACAGTTCCTGACGTGTAGGCCCTTAAAAAAATTTCCATCCAAGAAGGAAAACCCAGATTCTGACCTTTCCCCTAAGCCAGCAGACAGACAGC
CGCCTTCAGGCCGCTACGAGAGGCTTGCAACGCTTCACGACAGCGCGCTTTCTGCCTCGCTGGTTTCCAATGTGACCTCACGGCAACCAGCCAAGAAAGT
GGCTGTCGGGGTGCAGCTGCGAGGCCGCCAGCGGCGACCTGGGTTCTTCTGTAGGTAGCCCAGTATAGACTCCTATCTAAGGGTAGCTCTTGGGTGTCTG
CATTCTGGGGCCAGGAGCTGCAGGTGTTAGAAGGATATGTGTATGTTTGCGTGTAGCTGTGCGTGCTCCATCTGTAGCTGTCTCTTCCAATTTGGGTTTA
GAAGTTCYTGCGCAAGACAGTTCCGGATGTAGATGCATTTGGTTGTTTTATAATCAAGATGCGTATAATCAAGAAGTATATGTTGCAGATGTCGGAGTTC
AAAGTACACGAAACAAGAATAATATAAATACTTGGCATACAAGGGACACGTGCACAAGCCAGGCACTCGGTGAAGCACCCCATAAAAGTGACCCCCGTTA
GCCTTCACAGTTAACCCCATAAACGATATATGATCTTTATCTCTGTTTTACAAGAGAGGAAACTGAGGCATAGACCATTAAATCACTTACCCAAGATCCT
CTGGGGAAATTATGGAGCCAGGATTCAAACCGAAGTGGGCTCCAGGATCCACTGTAATTCCCTTTCCTAATTCAGCTGAAGGTGTACGTACCTGCGGCGC
ATATGTCCCGGATTTACAGAAATCTGAGGGGATGTTCCGGATTTTGGAGTGTGCCGCAGGCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAATACGAGA
ACGTTCAAATTTCTTTGTGCATCTGTCGTGCTATGTAAAAGGACAGCTTTTATTTCAGCATCCCCCTCCCCGGCCAACCCTCTTGTGTGTCCTGGGACAC
CCGTCCCAGCTAAGACCGCGGTTTTGGGGCCTTTGTTCCCCGGTAGAGGAAGAGAGAGGCTGAATGGGGGACGCAATACTCTATTTAAAAATGCCTGCGG
CGGGGCACTGAAGCTGATCGCGTTCTGGTCCCGATCTGAACCGCGAGGGAAACCGCGGGGGAGAGGAAATTCCAACAGCGCTGGCGTACGCCGGGGCCCG
CAGGGCGACCACCAAGCTGACGCCGGGGTTTCCCTCTCCCGCGGGGTCTGGAACCAAGACTGGGGCTTTGGGTGTCTGAGGCTTTCTCTGCTGGCCTCAG
ATCCTCCCCCGCGTCCCTAGCATTTGCTATGTTCTGTCTACCCAGGCGCCAAGGCCGAGCGCAGTCCGGGGACTGCAGGTGGAGACGCCGCAGGCAGAGA
GATCTTCGCTCTTTCTGGGTTCAACCCTGCCCAGCTTCCAGGAACCTATGACATTTTAGTTTTTTCCGCCCTCTCACTTCCAACGTTTTGGCCCCAGCTA
GAAGCCCAGGGGTTCAGCTGGTGGAAAGAAGGATTCTACAGAGAAGCCGGCGAAGGGGTGCTGAGGGTGCAGCCCCGCGAAGGAAAAGCGCTGCCTGGTT
ACCCGGCAGTGCGGCCCAGGTTCCCGCAGCCTGGACAACTGCAGGCCCCACGGCCCTAGAGAGCCAGAGCTTGGGTCTGGCTGCACACTGGGTAGGGGTG
GAAATAACTGGCTTGAGTAGGGAATAGCGCCTGCCCCCAAAACGTAAGGCGCTTCTGTCCCGCGGCTGGGGTGAATTCTGACGGCCTTTGGGTCCCGGGT
CTCCCCAAAGCAGTGAATGAGACTCAGGCGCAGCCTCTGGAATCGGGGGGCGGGGGGCGCAAAAGAGAGGAGGGTTTTGTGGGGGTGGGACCCAACCAGT
TGGAATCTGTACGGCTACTGTCCGGGCGGTCCGGCTCTTCCCCTCACCATCCCCGACCCCCACCATCGCCCCCCCACCCCCCCGCCCCAATTCCAGCGCT
CCCAGTCAGCCTGTCTCTTTGAGCTTTTGAAATGCGATCCCCGCGCCACTTCGGTTTCCCGCTAATGACCCGGGCTCTGGTTTCGGGTTGGGGAATTGCA
CCCGGAGGACAGACTCGCCTCCCCAGGCCCGCACAGCCAACTCTCGCCTAGGTCCTCTTCGCGCCCGCGCGGCGGGCCCAGGAAGGTGCACCCTTTGCCT
CCCAAATGTCCCCAAAGCGTCAAGAACACCGCAGGCACAGAACCCACAGTCGGGCGCGAACTTTTTTCCTAACGCTTTTGCGCATTGTCCACCCCAGTCC
CGAACGCGGGCATCGTTGACAAAACTTTTTTTTTTTTTATGCCGGGACCGGGCGCCCTTCACTCGCGCAGAAGCGCCAGCTGTCTCCGGTCGTTACCTTA
GTCACCCTCAACCTCCAACCCTCCCAACCCAGGCATACAGCCGCAGTGGGAGCCTGTTAGAAGCACCAGCGCTGAATATGTATCTGCCAAATGGCGCACS
CACCACCCCAACCGACACCCGGCTTCCCCCCCGCCCACCCCGCCCCCAGGGCACCCACTCCTCCAGAGCCGGCACCCTTGAGCTAATTGGGGATTAGKCC
CAGGGCTAGGACTTCTAACAGGAAGAGAGGGCTCAGGACTTCCCGTGAATCTCCTGAAATCATACGCAAGTTTGTTATTGTGCAGAGGCGCACATTTCTC
GACGGGATCCTACAATTTATCTCCGATTCTCAGAAGTGTGTGAGCCCAAATAAATTAAGACCCCCCCCATCACTCTCTGGGAACAATACGAAATGAGAGG
ATTGGGGAACATTTCAGGTGGTCCCTAACGATTCTAGTCTTGGCTAAGTAGAATTTAACTTTAGAAGATTTCTCTCTGTGTCTCTCAGGGAAGGACGCTA
TTTCCTTGCTTATCTTAAATAGTCTCCAGACCCCAAGGCCTCGGGCATTGTATAATTTGTTGAGTAATTAATGATATTAACTTATCAACCCAATGGTTAT
GAACAATCATTATCGCCCTCCAATGAATTC


SNP Information

Context             (SEQ ID NO:52528):
GGGCCAGGAGCTGCAGGTGTTAGAAGGATATGTGTATGTTTGCGTGTAGCTGTGCGTGCTCCATCTGTAGCTGTCTCTTCCAATTTGGGTTTAGAAGTTC
Y
TGCGCAAGACAGTTCCGGATGTAGATGCATTTGGTTGTTTTATAATCAAGATGCGTATAATCAAGAAGTATATGTTGCAGATGTCGGAGTTCAAAGTACA
Celera SNP ID:            hCV662285
SNP Position Genomic:     23308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:52529):
ATTTCCTTGATAAGTTTAACATTTTCTCATCAATGGGTGGTGGAAAATTCTAGTCTTAACTGACCGCGCTTTACAAAAATCTTACCCCAACCTGTTTAGA
Y
CTAGATACCCACAGAAAAAGACATGGGCAAGAATTTGCTCTCAGGAGGGCAATCTGTAAAGTCAAGCAAGGACAAAAAAAATATTGAAGAAATTGTTAGA
Celera SNP ID:            hCV11167010
SNP Position Genomic:     8688
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52530):
AGCAGAGGAAGGAGGAGGAGGGCGGCGAACGGAAGCCAGTTTGCAATTCAAGTTTTGATAGCGCTGGTAGAAGGGGGTTTAAATCAGATTTTTTTTTTTT
T
AAAGGAGAGAGACTTTTTCCGCTCTCTCGCTCCCTGTTAAAGCCGGGTCTAGCACAGCTGCAGACGCCACCAGCGAGAAAGAGGGAGAGGAAGACAGATA
Celera SNP ID:            hCV11167011
SNP Position Genomic:     6406
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:52531):
CCTGGGGAGGGGAAGTGACTACTTCCTGAGTAGGAGTTCAGTCTTGATTCCTCCAGCCTTTCCTCCCAGTTCGAAGCTCTTCTCCCCACCCCCAACCCCA
R
GCAGGCCAGCCTATTCCTCGAAGGGTTAATGGTTTGTGCACACGTGGGAAATGTCAGAGGACAGGGATAAGCAGGGACTGGGGCAGGCCTGGAGGCCTGT
Celera SNP ID:            hCV2416157
SNP Position Genomic:     16668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52532):
GTCATTCACTGATTTTTTGATAGTAATTAGAATATGTTCCAGCTGTGAGTTTTAATGTTACTTTTTACTTTTAAAAAGTTAATTTGCAATCGAATGGGGA
R
ATGCATGTGAAATCTGCCACTGTAGGAACTCAAAAAAAGAAGTAAAATTCATTAAAATAAGAAGAGCTACTGATTAGGGGATTGTCCATCTAAGGGAAAG
Celera SNP ID:            hCV2416159
SNP Position Genomic:     15000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   SG_12_G(G,4|A,19)   SG_12_AA(G,1|A,19)   total(G,5|A,38)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52533):
CCAGCACTCGACCTGTGAAAACCACGCCTATGCAGCAACACAATTGGTCCGAAAGCGTCAAAGAGCCAATCAAGAGGCCTCCGGCTCCCCGCAGCCCACA
R
CGCAGCCCGACCTTCTAGAGCCGCCGAGCAGACGCCCGGTGAATTCTAGAGGCGGCGGAGGGTGGCGAGGAGCTCTCGCTTTCTCTCGCTCCCTCCCTCT
Celera SNP ID:            hCV27828456
SNP Position Genomic:     5988
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,34)   total(A,1|G,69)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:52534):
AAAAACGCAAGGCACAAGGACGGTCACCCGCGCGACTATGTTTGCTGATTTTTCGCCTTGCCCTCTTTAAAAGCGGCCTCCCATTCTCCAAAAGACACTT
Y
CCCTCCTCCCTTTGAAGTGCATTAGTTGTGATTTCTGCCTCCTTTTCTTTTTTCTTTCTTTTTTGTTTTGCTTTTTCCCCCCTTTTGAATTATGTGCTGC
Celera SNP ID:            hCV16174320
SNP Position Genomic:     6813
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,29|T,11)   total(C,63|T,15)
SNP Type:                 UTR 5;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,564|C,725)   total(C,725|T,564) 
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:52535):
AGAGCGAGCGAGCGAGCTCAGGGGCTGCAGCGATCTCTCGATAAGCCACCTAGAGGCGACTCTGTGCGCGCGCGCTCCCCAGTGGCTCCCGCCCGCCCTC
Y
GATCATGTTGACATATTCACAGGACAGGCAGTAGTACCGATGCGGCGCTGCGACGTTACAGTTTCCGACACCTTCTTTTTATAACTCAGCTCTATCCCCC
Celera SNP ID:            hCV27828457
SNP Position Genomic:     5789
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,23)   caucasian(C,1|T,29)   total(C,6|T,52)
SNP Type:                 hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,21)   caucasian(T,16)   total(C,3|T,37)   
SNP Type:                 hmCS


Context             (SEQ ID NO:52536):
GCTTCTCCAAGCTAGACAACTTTCAGTCTTCTCTCTCTGAAACATGCTACAGACGCTTGCACCAAATTGCCCAGATCAATAATTTAGAGGAATGTCAGAG
K
ATAGGGGAAATGTGTGTTACAGGAAAGCTCCGTGCTGCTGGGGCAAGTAGGAAGCTGGGAGCTGGGGGCTATAGAGCTTAACTTGCAGCTCCTCACCCTA
Celera SNP ID:            hCV11167018
SNP Position Genomic:     721
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:52537):
CAAGGTATGAATGATCCTTAGATGGTGAGGGTGGGGGGGGCCCTTTGGCAACTGAGGAGCAATTTGGATTCTCCAGAAGATAACATCTGTGGAGCGAAAC
K
TACCCAGGGGGTACTCCAAGGAGGTGGGCTCGGTACAAGCGTGGTACCCTGCGGTGGGGAAGATTTCAGCCTGGCAGGGGTCCTAAGATCCCGTTTGTTC
Celera SNP ID:            hCV25624210
SNP Position Genomic:     10398
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,36)   total(G,71|T,1)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52538):
AATGTATTTGTGGTTTTTATTTTGAACGCTTGCTTTTAGAGAGAAAACAATATAGCCCCCTACCCTTTTCCCAATCCTTTGCCCTCAAATCAGTGACCCA
R
GGGAGGGGGGGATTTAAAGGGAAGGAGTGGGCAAAACACATAAAATGAATTTATTATATCTAAGCTCTGTAGCAGGATTCATGTCGTTCTTTGACAGTTC
Celera SNP ID:            hCV1412080
SNP Position Genomic:     19079
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52539):
TGGTAAGGCCGACCCCGAAATGCCAAAGAGGATGTACATTCACCCGGACAGCCCCGCTACTGGGGAACAGTGGATGTCCAAAGTCGTCACTTTCCACAAA
Y
TGAAACTCACCAACAACATTTCAGACAAACATGGATTTGTAAGTTTCATTGCTCTCTTCAGTAAAATTTTCTCCTCCTTCACTCAGTCAAAGGCAGTGCT
Celera SNP ID:            hCV25624211
SNP Position Genomic:     9280
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52540):
GAGGTGTTCAAAGACATCTCCCTCAGTGCGGATTTATATATATATTTTTCCTTCACTGTGTCAAGTGGAAACAAAAACAAAATCTTTCAAAAAAAAAATC
S
GGACAAGTGAACACATTAACATGATTCTGTTTGTGCAGATTAAAAACTTTATAGGGACTTGCATTATCGGTTCTCAATAAATTACTGAGCAGCTTTGTTT
Celera SNP ID:            hCV1412081
SNP Position Genomic:     18763
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:52541):
AGTCTCTTGGCCTAGGGTGACACAGCTAAGATTTGTACCTAGAGATTTCTGAGTGTTGACTTCTCTCCTGCCCCCACCTATCTCCCCCCCCAAAAAAAAA
M
ACACAACAACAACAACAACAGAACATACCAGGGATTCATGGCTTGCCCAATGTTGGAGGGGGAGAAGAGAGGAGAGGGATGAGATAAGCTCCTCCCACCC
Celera SNP ID:            hCV1412082
SNP Position Genomic:     17743
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52542):
GCCTGCCTATAGAGATATATTCACAGTTCAAAAGTCAGGTGCTGAGAGATGGTTTAAAGACAAATTCATGAAGGTATATTTTGTGTTATAGTTGTTGATG
R
GTTCTTTGGTTTTCTGTATTTTTCCCCCTCTCTTTAAAACATCACTGAAATTTCAATAAATTTTTATTGAAATGTCTTTGGGCCTTGTGTTAAATGTTTT
Celera SNP ID:            hCV8185658
SNP Position Genomic:     19850
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:52543):
TGACAACACACTTCATTTTGAACTCACTGTCATTGTCACTGTCCTTGGGTCCTCTGTGGACTTCATGATGGGGATGTTCCAGCTAAATTTCTTTAGTGTG
W
ATACCAAAACATGATCTTCTCTCCCTGTGAAACCTGAAGTCTTCAATAGAGCAATTTATTCCAAGAACATGAATCCAACCAAGGGTCCCCCTTTCCACCT
Celera SNP ID:            hCV1412085
SNP Position Genomic:     11650
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,5)      total(A,5|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52544):
TGACTAGGTAGGAACAATGCTGAGCAAAAAAACGCCATACTAATTTTGCCACAGAGAAACTCCTAGAACTGCTGTCATTGATGCCACCCACTCCTCCCCC
M
CTCTTGGGCTTTGTCCTGTCTGTTTTAAGGTTCATCTTCTTCCCCTTGGGGAAGAAGGATCAAGAAGTCACATTCAAAAGGAACCAGCTAAAAATTTAAG
Celera SNP ID:            hCV1412086
SNP Position Genomic:     10973
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,6)      total(A,6|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52545):
GGGTTTATCACCCACCGGGAGGGGGGCGCGCCGGGCACGCAGAGACAAAGAGGAGTTCGCACCTTCCCGCTTTTGATCCCAGAATTACGGCGGCCTCCCT
S
CCTAATACGAGCCTCCTGGGGCCGAGTCTGGGAGGTCAGTCATAATTGGCGGAAGTTTGCAGACCATTAGCAAGATGTCGACATTTTCGATTCGAACCCC
Celera SNP ID:            hCV27843967
SNP Position Genomic:     3138
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,34)   caucasian(G,30)   total(C,4|G,64)
SNP Type:                 hmCS


Context             (SEQ ID NO:52546):
GTTAATCAAAGTCTCTTGGCCTAGGGTGACACAGCTAAGATTTGTACCTAGAGATTTCTGAGTGTTGACTTCTCTCCTGCCCCCACCTATCTCCCCCCCC
M
AAAAAAAAAACACAACAACAACAACAACAGAACATACCAGGGATTCATGGCTTGCCCAATGTTGGAGGGGGAGAAGAGAGGAGAGGGATGAGATAAGCTC
Celera SNP ID:            hCV7525078
SNP Position Genomic:     17734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52547):
GTTGCCTCACTCTGAAACATGTAAGCTTATCAGTCACAATATAAAGTCTTAGACTTGGTTTCAATATTATGTGATACATAGGAAATCAAACCCAAGATTA
Y
GGGTGGTTTATCTTTCTTTTTCTTTTCTATTCTTTCGTTTTATAGGCGAATGTTTCCTCCATTTAAAGTGAGATGTTCTGGGCTGGATAAAAAAGCCAAA
Celera SNP ID:            hCV1412087
SNP Position Genomic:     9005
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,10)   caucasian(C,17|T,17)   total(C,41|T,27)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52548):
AGTGGCCACCAGGCCGCTTTTGTTTGTTCGCAAATTAATCACCCAGCGCATGGCCGGCGCCAGAGTGGGTTTATCACCCACCGGGAGGGGGGCGCGCCGG
R
CACGCAGAGACAAAGAGGAGTTCGCACCTTCCCGCTTTTGATCCCAGAATTACGGCGGCCTCCCTGCCTAATACGAGCCTCCTGGGGCCGAGTCTGGGAG
Celera SNP ID:            hCV27843968
SNP Position Genomic:     3072
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,36)   total(A,1|G,71)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:52549):
TTTATAGGGACTTGCATTATCGGTTCTCAATAAATTACTGAGCAGCTTTGTTTGGGGAGGGAAGTCCCTACCATCCTTGTTTAGTCTATATTAAGAAAAT
S
TGTGTCTTTTTAATATTCTTGTGATGTTTTCAGAGCCGCTGTAGGTCTCTTCTTGCATGTCCACAGTAATGTATTTGTGGTTTTTATTTTGAACGCTTGC
Celera SNP ID:            hCV27492620
SNP Position Genomic:     18911
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,84|C,1379)   total(G,84|C,1379) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:52550):
CCTCCTCCCTTCTCTCCCCCCGCCCCCGATTTGGGGACCCTGCTCAGACGTGTGTCCAGCCTCTCTTACTGGCGTTCCTCTTTTTTTTTTTTTTTTTTTT
T
AATCTCCTGTGTATCTCATTTGTATATTGTGATGTTAATGAGTAACTCCTGTAGCGCTGATGGGCGGGGGGTGGAGGGGATGAACGGCTCGCAGTCTCTC
Celera SNP ID:            hCV26387336
SNP Position Genomic:     21687
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 hmCS


Context             (SEQ ID NO:52551):
ACCTCCTCCCTTCTCTCCCCCCGCCCCCGATTTGGGGACCCTGCTCAGACGTGTGTCCAGCCTCTCTTACTGGCGTTCCTCTTTTTTTTTTTTTTTTTTT
T
TAATCTCCTGTGTATCTCATTTGTATATTGTGATGTTAATGAGTAACTCCTGTAGCGCTGATGGGCGGGGGGTGGAGGGGATGAACGGCTCGCAGTCTCT
Celera SNP ID:            hCV26387337
SNP Position Genomic:     21686
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 hmCS


Context             (SEQ ID NO:52552):
AGTTAATCAAAGTCTCTTGGCCTAGGGTGACACAGCTAAGATTTGTACCTAGAGATTTCTGAGTGTTGACTTCTCTCCTGCCCCCACCTATCTCCCCCCC
C
AAAAAAAAAAACACAACAACAACAACAACAGAACATACCAGGGATTCATGGCTTGCCCAATGTTGGAGGGGGAGAAGAGAGGAGAGGGATGAGATAAGCT
Celera SNP ID:            hCV26387338
SNP Position Genomic:     17733
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,3)   total(C,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52553):
CGCCCGGTGAATTCTAGAGGCGGCGGAGGGTGGCGAGGAGCTCTCGCTTTCTCTCGCTCCCTCCCTCTCCGACTCCGTCTCTCTCTCTCTCTCTCTCTCT
Y
TCTCCCCTCCCTCTCTTTCCCTCTGTTCCATTTTTTCCCCCTCTAAATCCTCCCTGCCCTGCGCGCCTGGACACAGATTTAGGAAGCGAATTCGCTCACG
Celera SNP ID:            hCV26387339
SNP Position Genomic:     6121
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1|-,6)   total(C,1|-,6|T,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:52554):
TTGACTAGGTAGGAACAATGCTGAGCAAAAAAACGCCATACTAATTTTGCCACAGAGAAACTCCTAGAACTGCTGTCATTGATGCCACCCACTCCTCCCC
M
CCTCTTGGGCTTTGTCCTGTCTGTTTTAAGGTTCATCTTCTTCCCCTTGGGGAAGAAGGATCAAGAAGTCACATTCAAAAGGAACCAGCTAAAAATTTAA
Celera SNP ID:            hCV11493963
SNP Position Genomic:     10972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,11)      total(A,1|C,11) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52555):
TTGGGGACCCTGCTCAGACGTGTGTCCAGCCTCTCTTACTGGCGTTCCTCTTTTTTTTTTTTTTTTTTTTTAATCTCCTGTGTATCTCATTTGTATATTG
K
GATGTTAATGAGTAACTCCTGTAGCGCTGATGGGCGGGGGGTGGAGGGGATGAACGGCTCGCAGTCTCTCTGGATTTTGCTGCCTATTACTCACCTGGCG
Celera SNP ID:            hCV662290
SNP Position Genomic:     21717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:52556):
CTAGACTTGTTGAGTTGGGAAAAACACCCTCAAAACATTCTAGAAAATGAGAACAATGTCTCTGTCTTGCTTGTGTCTCTTCCAATAGATAACCCAGTTA
W
AAATAGACAACAACCCTTTTGCAAAAGGTTTCCGGGACACTGGAAATGGCCGAAGAGAAAAAAGGTGAGTTGAAACAATTATTTATTAGATAGTTTAGAA
Celera SNP ID:            hCV27860645
SNP Position Genomic:     12553
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52557):
TGTTTTTTTTGTTTTGTTTTGTTTTGTTTGGAGAAACTTCTAGGATTGGGGTGGGAGGATGGGGGTTGGGGAAGAAGAAAGATTTAAAAAATTATTCCTA
M
TAATTTATGTCCTCCGGCTTCCCCTTGGTTACCTCTGTGGGGTAAACTGAATCTGTATCCCCATTTAACAGGTGCAAGGAGATTTCCTGGGGGCTGCACA
Celera SNP ID:            hCV662292
SNP Position Genomic:     17415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52558):
TTTGCAGACTTAAGGAGCCAGTGAGGAGACACACACCTTTTTTTTAATGTGTGAATATTATCAACCATATTTTACATAATGTTTAAAGGTCCTTGCCTGA
Y
CAAAACCTGCCTGGAAGAGAAGATCCTGTAATAGTCATTTAAAATCACTGATTTTTTTTTTGTAATAGCATTGAAGCCTGTAAAGGCATAAAGTTGATAC
Celera SNP ID:            hCV2416160
SNP Position Genomic:     8099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52559):
ACCCACCACCCCAACCGACACCCGGCTTCCCCCCCGCCCACCCCGCCCCCAGGGCACCCACTCCTCCAGAGCCGGCACCCTTGAGCTAATTGGGGATTAG
K
CCCAGGGCTAGGACTTCTAACAGGAAGAGAGGGCTCAGGACTTCCCGTGAATCTCCTGAAATCATACGCAAGTTTGTTATTGTGCAGAGGCGCACATTTC
Celera SNP ID:            hCV2923293
SNP Position Genomic:     25498
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:52560):
GGGACATCGAACCTCAAAGGTAAACCATGTCACCTTTGTGATCACTGGACTCCAGTCCCTCGTGGCCTGGAAGAGTTGAAGGGGGATGGGGCACCAACCA
R
GGCACTTGCCCTTTAAAAGCTAGAAGCCTTCTAAACATCCTTAAACAGAAGCCAGAGTTCAAAAAGGGCTATCAGGTGTGTCTCCCCTTCCCCGCTAAGG
Celera SNP ID:            hCV662296
SNP Position Genomic:     13966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   SC_12_A(G,7|A,10)   SC_12_C(G,10|A,10)   SC_12_AA(G,3|A,14)   SC_95_C(G,52|A,111)   total(G,72|A,145)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52561):
AGTCACCCTCAACCTCCAACCCTCCCAACCCAGGCATACAGCCGCAGTGGGAGCCTGTTAGAAGCACCAGCGCTGAATATGTATCTGCCAAATGGCGCAC
S
CACCACCCCAACCGACACCCGGCTTCCCCCCCGCCCACCCCGCCCCCAGGGCACCCACTCCTCCAGAGCCGGCACCCTTGAGCTAATTGGGGATTAGTCC
Celera SNP ID:            hCV2923294
SNP Position Genomic:     25400
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:52562):
CGCGCGCGCTCCCCAGTGGCTCCCGCCCGCCCTCTGATCATGTTGACATATTCACAGGACAGGCAGTAGTACCGATGCGGCGCTGCGACGTTACAGTTTC
S
GACACCTTCTTTTTATAACTCAGCTCTATCCCCCAGCACTCGACCTGTGAAAACCACGCCTATGCAGCAACACAATTGGTCCGAAAGCGTCAAAGAGCCA
Celera SNP ID:            hCV27842016
SNP Position Genomic:     5855
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,26|G,2)   total(C,54|G,2)
SNP Type:                 hmCS


Context             (SEQ ID NO:52563):
AATTAACAGCAATGTGGTGGCACAGTCTTGCGGTTTTGGACTGGCCTAAGAAGTGGGGGAATGTGTTAGCAGCTCCACGGGCAGATCGGTTATCAGGCCC
R
GGAGTGCACCGAAGTCTGCAAAATTCGTTCTGGGAACTCACTGAAGTCCAGTTTCACTTCGCCCACAGCGGGATTGCTATTCTGCAGCAGGGAGGGGTGC
Celera SNP ID:            hCV2923297
SNP Position Genomic:     8475
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52564):
AGGTCGCCGCAGCTGGCTCGGCACCCCAGCGCCTCCCGGGTTCCGGAACTTGGGCGCTTCGCCTTCGCCCCTTCTCATCCCCACCACTCCCAGCCCCACT
M
CCCTCCTCCTCCGTCCCCAGCCCCATTCTCAGCCTCGGAAGAAGCTGCCTTCCCCTCTTTCCTGGATATCACTTTCACTCCCGTTTGTGCCTCAGATGAG
Celera SNP ID:            hCV2416167
SNP Position Genomic:     22044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:52565):
AGAGAAAGACAGACTGAAAGGGAAAGAAAGGGGCGAGATGGCGAGCCAGACGGAGTTCGCAGAACCACACTATTCTCTCTGGTGACTTCAGGGAATTCTC
R
ACGCTGGCGCCAAGCTCTCTTAACCATGTGCGTCAAAAATGCGAGGCTGGAGAAGCCTGTCGCCTCAAAAGATCCTCCCCTATCTCAGCGTGGTTGGCCC
Celera SNP ID:            hCV27842017
SNP Position Genomic:     4091
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,32)   total(A,69|G,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:52566):
CGTCGGAGGAGCCCTGCCGTGACAAGGGCAGCCCCGCGGTCAAGGCTCACCTTTTCGCTGCTGAGCGGCCCCGGGACAGCGGGCGGCTGGACAAAGCGTC
K
CCCGACTCACGCCATAGCCCCGCCACCATCTCGTCCAGCACTCGCGGCCTGGGCGCGGAGGAGCGCAGGAGCCCGGTTCGCGAGGGCACAGCGCCGGCCA
Celera SNP ID:            hCV25624203
SNP Position Genomic:     15542
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,1)   total(G,25|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52567):
TAAGGCTGGCAGTCCAGCTGTCTCTGACTAGATCCAGCCTCTTCTCCTGCTTTTAAATAAAATTTCACAGCCCAAGCAAATGCCTTTTCCTAATGAAACC
Y
CATCTTGAATAAATGCAACTGAAGCCTCCTTCCTTTCTCCCTAACCCTCTGCCACACTCTTCAGCCCAGTTAGAGGGTCAAGGACAAAGCTTGGGTCTAT
Celera SNP ID:            hCV25624204
SNP Position Genomic:     13467
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,2)   caucasian(C,36)   total(C,56|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:52568):
GAGGACGCCAGAGAAAGACAGACTGAAAGGGAAAGAAAGGGGCGAGATGGCGAGCCAGACGGAGTTCGCAGAACCACACTATTCTCTCTGGTGACTTCAG
R
GAATTCTCAACGCTGGCGCCAAGCTCTCTTAACCATGTGCGTCAAAAATGCGAGGCTGGAGAAGCCTGTCGCCTCAAAAGATCCTCCCCTATCTCAGCGT
Celera SNP ID:            hCV27838195
SNP Position Genomic:     4082
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,32)   total(A,1|G,69)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:52569):
ACAAATACCAGCCCCGGTTCCACATTGTAAGAGCCAATGACATCTTGAAACTCCCTTATAGTACATTTCGGACATACTTGTTCCCCGAAACTGAATTCAT
Y
GCTGTGACTGCATACCAGAATGATAAGGTAAACTCAAGGGGCTTTCCTTTTTAATGGTGATATTTTGCCTTCCCCTTAAAAGCTGCTTTAAGTCAGGATG
Celera SNP ID:            hCV25624205
SNP Position Genomic:     10665
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,38|T,2)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52570):
AAGATCCTCCCCTATCTCAGCGTGGTTGGCCCACAAGAGCACTTCATTTTCACCCTTCCCTTGGTGCCACGTTGGGGTTTCGGGGTTGCTGGGGGTTGCG
S
GGGTGCACAAGGCAAAATGCGAGAGAGGCCTGTGCTGGCCTACAGAGACACACACATCCAAAGCCCTGAGTCTCTTAAACCCCTAAGCCCCCAGATCAGC
Celera SNP ID:            hCV1412090
SNP Position Genomic:     4260
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:52571):
CGATAAGCCACCTAGAGGCGACTCTGTGCGCGCGCGCTCCCCAGTGGCTCCCGCCCGCCCTCTGATCATGTTGACATATTCACAGGACAGGCAGTAGTAC
M
GATGCGGCGCTGCGACGTTACAGTTTCCGACACCTTCTTTTTATAACTCAGCTCTATCCCCCAGCACTCGACCTGTGAAAACCACGCCTATGCAGCAACA
Celera SNP ID:            hCV27832343
SNP Position Genomic:     5827
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,25)   caucasian(C,18)   total(A,1|C,43)   
SNP Type:                 hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,27)   caucasian(C,30)   total(A,1|C,57)
SNP Type:                 hmCS


Context             (SEQ ID NO:52572):
CAAAGCAAACGACCCCGCCTACCCACCATCCTTTTACCCTCCTCCCCGCCCTTTTTGTAAACTCCAGATAAACACCATTTGATCACAAAAGGGTCGGTTT
R
TCCCCTTTATAGTTTGAGGCAGGCAGTGCGGCAGGGAAAAGTGGCGTGGGCTAAGCTTCCGTCTCGGGCAAGGCCAGCTTCTTTGCTGGCACCGTGGCCT
Celera SNP ID:            hCV1412091
SNP Position Genomic:     2315
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 hmCS


Context             (SEQ ID NO:52573):
AGGTGTCCGTTCTGCCATTATCAATTCAGATGTCAGGGTTCTTGCCAAACAAATCCTTCCAGAGTAATTCACAAATTTGTGGAAGGTGCTGCTCTCTGTC
R
TTCACTGATTTTTTGATAGTAATTAGAATATGTTCCAGCTGTGAGTTTTAATGTTACTTTTTACTTTTAAAAAGTTAATTTGCAATCGAATGGGGAAATG
Celera SNP ID:            hCV7525068
SNP Position Genomic:     14903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52574):
AAGTGCTATTTCCTATTTTCACCAAAATTGGGGAAGGAGTGCCACTTTCCAGCTCCACTTCAAATTCCTTAAAATATAACTGAGATTGCTGTGGGGAGGG
R
GGAGGGCAGAGGCTGCGGTTTGACTTTTTAATTTTTCTTTTGTTATTTGTATTTGCTAGTCTCTGATTTCCTCAAAACGAAGTGGAATTTACTACTGTTG
Celera SNP ID:            hCV1412077
SNP Position Genomic:     19625
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:52575):
AAAAGCTGCTTTAAGTCAGGATGAGAAAGTTACAAGAGAGTGGAGACGAGAGTCTTGAGTTGTCTTTTGTGATTTGTGGAGCATTTGGGGGGAAAGGACA
R
TGACACCTCGAGGAGACAGAAAAACACCTTGACTAGGTAGGAACAATGCTGAGCAAAAAAACGCCATACTAATTTTGCCACAGAGAAACTCCTAGAACTG
Celera SNP ID:            hCV25624209
SNP Position Genomic:     10843
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52576):
GAGATAACGCCCTTCTGCCTTGGTTTTTTCCTTCGCCTGTGGTAGATTTATGTCCCAGCGAGGGTGAGAGCGACGCCGAGGCCGAGAGCAAAGAGGAGCA
Y
GGCCCCGAGGCCTGCGACGCGGCCAAGATCTCCACCACCACGTCGGAGGAGCCCTGCCGTGACAAGGGCAGCCCCGCGGTCAAGGCTCACCTTTTCGCTG
Celera SNP ID:            hCV7525069
SNP Position Genomic:     15401
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52577):
AAAAAAATAATAAAGAAGTGAGACTATTAGACAAAGTATTTATGTAATTATTTGATAACTCTTGTAAATAGGTGGAATATGAATGCTTGGAAAATTAAAC
Y
TTAATTTATTGACATTGTACATAGCTCTGTGTAAATAGAATTGCAACTGTCAGGTTTTGTGTTCTTGTTTTCCTTTAGTTGGGTTTATTTCCAGGTCACA
Celera SNP ID:            hCV1412078
SNP Position Genomic:     19314
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:52578):
TGTGGTTTTTATTTTGAACGCTTGCTTTTAGAGAGAAAACAATATAGCCCCCTACCCTTTTCCCAATCCTTTGCCCTCAAATCAGTGACCCAAGGGAGGG
R
GGGATTTAAAGGGAAGGAGTGGGCAAAACACATAAAATGAATTTATTATATCTAAGCTCTGTAGCAGGATTCATGTCGTTCTTTGACAGTTCTTTCTCTT
Celera SNP ID:            hCV1412079
SNP Position Genomic:     19087
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:52579):
GGTGGTTTATCTTTCTTTTTCTTTTCTATTCTTTCGTTTTATAGGCGAATGTTTCCTCCATTTAAAGTGAGATGTTCTGGGCTGGATAAAAAAGCCAAAT
M
CATTTTATTGATGGACATTATAGCTGCTGATGACTGTCGTTATAAATTTCACAATTCTCGGTGGATGGTGGCTGGTAAGGCCGACCCCGAAATGCCAAAG
Celera SNP ID:            hCV28016618
SNP Position Genomic:     9107
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52580):
CGAGAAAGAGGGAGAGGAAGACAGATAGGGGGCGGGGGAAGAAGAAAAAGAAAGGTAAAAAGTCTTCTAGGAGAACCTTTCACATTTGCAACAAAAGACC
K
AGGGGCTGGAGAGAGATTCCTGGGACGCAGGGCTGGAGTGTCTATTTCGAGCTCAGCGGCAGGGCTCGGGCGCGAGTCGAGACCCTGCTCGCTCCTCTCG
Celera SNP ID:            hCV27857681
SNP Position Genomic:     6580
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(T,34)   total(G,1|T,67)
SNP Type:                 UTR 5


Context             (SEQ ID NO:52581):
CCCAAACTCTGCGCGGAGAAAGAGGCGGCCACCAGCGAACTGCAGAGCATCCAGCGGTTGGTTAGCGGCTTGGAAGCCAAGCCGGACAGGTCCCGCAGCG
Y
GTCCCCGTAGACCCGTCCCAGACACGTCTTTTCATTCCAGTCCAGTTCAGGCTGCCGTGCACTTTGTCGGATATAAAATAAACCACGGGCCCGCCATGGC
Celera SNP ID:            hCV11493955
SNP Position Genomic:     18330
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52582):
AGGAGCGGCTTTTTAAAAACGCAAGGCACAAGGACGGTCACCCGCGCGACTATGTTTGCTGATTTTTCGCCTTGCCCTCTTTAAAAGCGGCCTCCCATTC
Y
CCAAAAGACACTTCCCCTCCTCCCTTTGAAGTGCATTAGTTGTGATTTCTGCCTCCTTTTCTTTTTTCTTTCTTTTTTGTTTTGCTTTTTCCCCCCTTTT
Celera SNP ID:            hCV25624196
SNP Position Genomic:     6799
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,8|T,30)   total(C,12|T,64)
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:52583):
TCGGGCGCGAGTCGAGACCCTGCTCGCTCCTCTCGCTTCTGAAACCGACGTTCAGGAGCGGCTTTTTAAAAACGCAAGGCACAAGGACGGTCACCCGCGC
R
ACTATGTTTGCTGATTTTTCGCCTTGCCCTCTTTAAAAGCGGCCTCCCATTCTCCAAAAGACACTTCCCCTCCTCCCTTTGAAGTGCATTAGTTGTGATT
Celera SNP ID:            hCV25624197
SNP Position Genomic:     6746
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,19)   caucasian(G,20)   total(A,1|G,39)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:52584):
CGGCCTCGGTGGCAGTGGACTCGGGCTCTGAACTCAACAGCCGCTCCTCCACGCTCTCCTCCAGCTCCATGTCCTTGTCGCCCAAACTCTGCGCGGAGAA
R
GAGGCGGCCACCAGCGAACTGCAGAGCATCCAGCGGTTGGTTAGCGGCTTGGAAGCCAAGCCGGACAGGTCCCGCAGCGCGTCCCCGTAGACCCGTCCCA
Celera SNP ID:            hCV25624198
SNP Position Genomic:     18250
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,3)   caucasian(A,32)   total(A,63|G,3)
SNP Type:                 UTR 3;SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,36)   total(A,69|G,3)   
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Gene Number:                 255
Celera Gene:                 hCG40729 - 104000117493359
Gene Symbol:                 LAMC1
Protein Name:                laminin, gamma 1 (formerly LAMB2);LAMB2
Celera Genomic Axis:         GA_x5YUV32W2NG(21352415..21486599)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12415):
CACGCCTGTAGTCCCAGCACTTTGGGAAGCTGAAGGGGGTGGATCACGAGGTCAGGTGTTTAAGATCAGCCTGGCCAAGATGGTGAAACCCCGACTCTAC
TAAAAACTACAAAAATTAGCTGGGCACGGTGGCAGGTGCCCAGCTATTCAGGAGGCTGAGGCAGGAGAACTGCTTGAACCTGGGCAGCAGAGATTGCAGT
GAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGYGACACAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAATTACCCTTTCTTTCTAAGAGTAATCAG
TTGATCCTGTCAGGGTCAACAACTTATTAAGGAAATTCTGAGTTCCCATGACAAAAACATGTTATCTACATATAAAAGATTATTTATCTCTATTCTTTAT
AGTGGGATACAGTTCGCATTTGGTTAGTGGAATAATAAGATTTTTGAGATTTGAAGTTCTCTCTTTTCTTCATGGGAAAATTTTGGGTAGGGGTGAGGTT
GGTCTTTGCTACTCATTTTTGGAAATACTTCCTTTTTTATTGTACTTGTATATTGTTATAAATAAAATTCTGGTTTAAATATTATGAATTATGGATGTGT
CCTTTTGTCTCTCTTTTAAAACTAGTATCATGATATAAAGATAGTTTGCATTGGATGCATGGGTAAAAACAGGGGAACCCTTATACACTGCTGGTAGGAA
TGTAAACAAGTACAGTCATTATGGAGAACAGTATTGAAGTTCTTCAGAGAACTACAAATAGAACTATCATATGATCTGGCAATCCCACTACTGGATATAT
ATTCAAAGAAAGGAAATCAGTACACCAAAGATACATCTGTTCCCTAAGTTTACTGCAACATTACTCACAACAGCTAAGATATGGAATCTACCTACCTGTC
CATCAACAGATGAATGAATAAAGAAAATGTGGTATACACAGACAGTCACACACAATGGAATACTATTCAATCATTAAAAAGAATGAAATTCTGTCATTCA
TAGCAACATGGATGAGCCTAGAGGACATTATGTTAAGTGAAATAAGCCAGGAACAGAAAGACAAATACCACATGTTCTCACTCATATGTGGAAGCTAAAA
AAGTTAATCTTGTAGAAGTAGAGAGCAGAATAGTGGTTACTAGAGGCTGGGAAAGGTAGTTGGGATGGGGGATAGATGCAGATTGGTTAAAATATATAAA
ATTACAGCTAGTTAGGAGAAATAAATTCTAGTGTTCCATATAGCACTATAGGCTGACTGTAGTTAAAAATAATTTATTATATATTTTTAAATAGCTAGAG
GAGAGGCTATTGAATGTTCTTAACACAAAGAAATGATGACTGGGCACTATGGCTCACACCCATAATCCCAGCCCTTTGGGAGGCCAAGGCAGGAGGATCG
CTTGAGCCCAGAAGTTCAAGACCAGCCTGGGCAACAAGGTAAGACCACATCTTTACTAAAATTAAAAAAAAATTAGTTGGGCATGGTGGCCCATGCCTGC
GGTCCCAGCTACTCGGGAGGCTGAGGAGGGAGGATTGCTTGAGCCCTGGAGTTGGAGGCTGCAGTGAGCCGTGTTTGCGCCACTGCACTCCAGGGTGGGT
GACTTAAAAAAAAAGATAGATGTTTGAGGTGACATACATGCAAATCACCCTCATTTGATGAATATACACTGTACGTATCAAAACATCATTATGTACTCCA
TAAATATGTATGATTATTATTAGAAAAGTAAATCTTTTTTCAAAACAAAGGAGTTTTGGCAATTCTGTTAAAAAAAAAAAGAATTGGGTGCATGGGGCTG
GGTGGGAAGGAAGGGTTTTACCTCATACAAGAGGAATCCTGTCTTTACCTGAGCTCGCCACGAAAGATACCTTATCTTGTTTTGCTTGGATTTGTACCAA
GGACCTAGGCAGGATCTATAAACCTAACACAAAGCATCATGTGTAGTCATTGTAACTTTGAAGAGGGATATTGTCATTCTCTTCCAGTATCACATTAATT
TTTACCTAATTTTAAATTCTTATTTGATAACCTAAAAACCCTGGAAATGTGAGAACGCTCTTCCCTTATCCTCTTTCCTATCATGACGTTGACATAACAG
AAAAGGAAACAGCATTGGTCAGGGAGCCAGAAAGAGCAGGTTCCTGGCCTGACTTTCCTCCTACTTGTCTACAGAGGTTACTTAATCTCTTTGAGCCTTA
ATTTCTTCAGCTCTGCATAGGTGATAACATTCTTTGCTTCAGTGTAATTTTGAAAAGTGTAACATAGAATGTAAATATAGGCTAACATTGTCAATCATTA
TTAATAATTATTATGTTTAGGTTGCATTTCTAAATATAAAAAGATAAAGCATATAGTATAGTGATGCTTAGGCTTGGGAAGAATACAAGGAAATGAGGTC
AGAAAGAATAAGGACTGGAAAAATAAACGCATTGGTAATTATAAAAATATAAAAAATGACAAAGTTGCAATGGAAAGGTCAATGCAAACTTTTAAATTAT
TTTTCTAATTATATCACACATTCTAAATCCTGCTGTAGTAGACATCCGTTGTTTTTTCTGCCTTATAACCTGCCCTCTTCTGGTAACAGCAAGCTTTCCT
TTCAATTGCTTTTCCCACATTCCATGGTTTTCTGTTGGGCTGCCAAACACCACACACATGGTATTCTATTTACCTAGCTTTGGGGGTATGCCAGGTGACC
AAAGCCAAGCCAATCAACATCCTTCCTTGAAATTATTTATATAGATTATGAAGGGAGAAATCTCTTTTCTCTGGAGTTTCACATTTTTTTTCTTTAATTG
GAGCTCTCTTGCCCATACAATAAACAATAAACAATTACATTTCCTCATCCTGCCTTTGTTGCTGCATAGAGACACTGATGATTGGGCACTAAGATCATCT
TTTGAGGGACCTGAATAAAGTTTTCCCCATCCGTTCACATTTTTCTTCTAAGTACCATGTCTGGTAGATAATGAAACTCCCCTCCCCCTCCCCCTCCCCC
CTCCATCCCTCCTTTTTCTCTCTGTCTTTCAGATAATAGAATTCCTCTCTCTTTCTTTCTTTCTTTTCTTTTTTTTTTTGAGACAGGTTCTCACTCTGTC
GCCCAGGCTGGATGGAGTACAGTGGCGCAATCTCGCTCATTGCAACCTCTGCCTCCTGGGTTCAGGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGG
ATTACAGGCATGGACACAACGCCGGGATGATTTTTTTCCTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTAGAGTGCAGTGGCGCGATCTTGGCTCAC
TGCAACCTCCGCCTCCCTGGTTCAAGGATTCTCCTGCCTCAGCTGCCCAAGTAGCTGGGATTACAGGCACGCGCCACCACGCCTAGCTAATTTTTTTATT
TTTTTAGTAGAGTTGGGGTTTCACCATGTTGGCTAGGCTGGTCTAGAACTCTTTACTTCAAGTAATCCACCCGCCTCGGCCTTCCAAAGTGCTGGGATTA
CAGGCGTGAGCCAACGACCCCAGCCGGCCCGGCTAATTTTTGTAATTTTAGTAGTGTCAGGGTTTCACCATATTGGTTAGGCTGGTCTCGAACTCCTGGC
CTCAAGTAATCCCCTGCCTSGGCTTCCCAAAGTGCTGGAATTACAGGCGTGAGCCACCGCGCCCGGCTGATAATGAAATGTCTAAGCACTTAAGAACGTG
CATTCAAAAGACTGGAGTTTTTTGAAAAACAGGGTAACCTGCAGTAAAAGAAATTCTTACACACTTTCACTTTTTTTCTTTAAATACTGTCTAGTAGACT
GTGGCATCTCTAGGTGGCTAAAATAATTTGTCGATAACATCAAACATCTGGTTAGTGTTCAAATTTCTCAAATTGTCTTAAAAATTTTGTTTTAACCGTT
GATTTGTTTGAATCAAGATCCAAATAACGGAGCAAAATTTTTATCATCAAGCCCACTGGCTGGTTACACTTTACCTCTTTTCAAAATAGATGTTTGTCAC
TGTGACACATTTCCATAAGCAAGAGAATTGAGAGATTAATTCAAGGTCTCTTTATGTGCTTTACAAATATCAGATAAGCTCTGGTAATTAAGTTACGGAA
AATTCGCATAAGTAATATCTTGATGTTAGTCTTGGACATTAGGACTCAAAAGGCAGCAATGACAAACCCATTTATGTTGATTTCACAGCCTTTGGGGGTC
TCCTTGTCTTTATTTTGATTGTTGGAAATAGAGACCCACGCTTTGGCCACTATATAACAAAGTACTAAAAATGTATAATAAYGCAAATTCACTAATATGT
TTATTAAAATATAAACAAGTTTATTACAAATCTGTAGCTTTATTCACAACTAACATCCTTATTTTTGTCCTATATGCCCACGTTTGTCCTCAAGTACAAC
GAAGGACTGAGAGAGCATATAATCCCCTCTAGGTGTAAATGAACGTATTTATTTCGCTTCAACTCATGTATGAAAGGATTAAAAAATTATTAGTCCCCAC
AACTTAATTCTCCCAAAGAGAAGGTGCCAAGAATGAGGCACCTTTAGCCATGCATAATCTCCACCCATCTCATCAAATAAACGGAACAGTGATGAACATA
ACTTGCTAAGTAAGCTCAGCCGTGTAACAAGACCCTAGATTCCCCTCCCTTCTTCATCCTACCAGAACATTATCCTTAAGGTTTTCCTAATCAGCAGTCT
GCGTCTAACTAACCCTAACTATCCAGAGTCACCTAACATATACTTATTTCCTTGTTTCAGATTCCCATTACGCCTATCTTAATGGGACAACTGGGTCCGA
AATTATGCATGTGTTTTTTTGTTTTGTTTTTGCGGTGTACTTATTATCCGCACTTTATCATTAAATTCCTGAAAAGCTAGAACAAAACAAATCCGTGTCA
TTCACTATGTGCATCCTCTCTGCTTGGGGACGCCAAGGGTTTCAAGCTGCTGCCTCCCTGCCCTGGTCTCTGCTTGCCGTATCCAGCACTGGGTAAGCGC
CCAGGTTCTGCTCCGGGACTAAAACTCATGATCTTCTGGCTCAGGTTCTGTGAACTGAGTCATTCTGGCACTGAGAATATTCCGTGACTCAGCAGGCCCG
AAAAGGAGGATGTCAGAATCCACATAATTTCGAGTCTTTTAAAGGCAAGCCGAGGAACACAAACAACACAGTGGAAGAATTTCGCAGTGGGTCGTGCGTA
CCCAAGGGAAAAATTCATTCCATTCCCAGCCTTTTCACTTCCTTCCTTGCCCCGGTAAAACGACTGGTTACACTTTAAATCAGCGGCAGGAAATCGCTTC
ACGAAACTCATCTGGCTGCTGCGACCAGGCCCTTCTGATTCTCCAGGGACCGTGTCGGCCCCATGAACGCCCCGGGACCTCTGTTCGGGAGGGGCTGGAG
CGGGGCCCCGGGCAGCAGCGGGCGCTCCCGGTTCGGACCCACACCTGGCCGGGCGGGGACCCTCTTGCCGCAGCCCAAATTGGCGCGAGGCCCCAGGGAC
GACCCCGAGCGACCTCCTGACCCGGCATCGCCCCTCTAAGGCGCCCTCCCCCGACTCCTCCCGCAATCCGGAGTCTCCCAGGCCGCGCCAGCAAGGACCC
CAGCGACTCCCGCGCGGGGAGCGGGTCTGCGAGGCCGCCCTTCCCTCCCGGCATGCACCACCCAGCCGCCCTCCCCTCCCCTCCTCTCCTCTCCCCTCCC
CTCCTCTCCCCTCCTCTCCCCTCCCCTCCCCCAACCCCCTCCCCCGGCTCCCCGCCCACCTCGCGCGCCCCTCCCCCCGGGTCGCGCGCCGCGGGCCCGA
GCGCGAGACGCCGCTGCTCCCGCCCCCGCCGCCTCCTGGAGTCGCCGGGGCGGACGCGCAGTCCATGGGGCGCGGTGGGCCGGGGAGTTGCCCCAGGGGC
CGCGGGAGTTGCTGAGAGGAGACAGGGTTGGGCTTTCTCCTCGCCCAGACCCCACCCCACCCTGCCGACCCCACCCCCTGCTCCTTCCTCCCCGGGGGCG
CGCACTCGGGCACGCGCTCGGAAGTCGGGGGTCGGCGCGGAGTGCAGGCTGCTCCCGGGGTAGGTGAGGGAAGCGCGGAGGCGGSGCGCGGGGGCAGTGG
TCGGCGAGCAGCGCGGTCCTCGCTAGGGGCGCCCACCCGTCAGTCTCTCCGGCGCGAGCCGCCGCCACCGCCCGCGCCGGAGTCAGGCCCCTGGGCCCCC
AGGCTCAAGCAGCGAAGCGGCCTCCGGGGGACGCCGCTAGGCGAGAGGAACGCGCCGGTGCCCTTGCCTTCGCCGTGACCCAGCGTGCGGGCGGCGGGAT
GAGAGGGAGCCATCGGGCCGCGCCGGCCCTGCGGCCCCGGGGGCGGCTCTGGCCCGTGCTGGCCGTGCTGGCGGCAGGCCGCCGCGGCGGGCTGTGCCCA
GGCAGCCATGGACGAGTGCACGGACGAGGGCGGGCGGCCGCAGCGCTGCATGCCCGAGTTCGTCAAMGCCGCYTTCAACGTGACTGTGGTGGCCACCAAC
ACGTGTGGGACTCCGCCCGAGGAATACTGTGTGCAGACCGGGGTGACCGGGGTCACCAAGTCCTGTCACCTGTGCGACGCCGGGCAGCCCCACCTGCAGC
ACGGGGCAGCCTTCCTGACCGACTACAACAACCAGGCCGACACCACCTGGTGGCAAAGCCAGACCATGCTGGCCGGGGTGCAGTACCCCAGCTCCATCAA
CCTCACGCTGCACCTGGGTAAGCGGTGACAGCCCCGTCCCCTGCTACTGCTCGCCAGCAGCCCAGCTCCCGGACCGGCTCCGTCCCAGTGGCCGGCCTCA
CGGGCGCAGACGGCCGCGTGTTTGCTCTCTGTTCCCCGGCATGGGCCACACAGAAACTCCTTTCTCCAACTTCTTAAATAGATACYGCTTTTAACATCCC
GTGAGGGCCAGGATGTTCCGCACGAGTCTCTCTGCTTTCCTGTTCTTTCTGACTTAACGGGATTCTGGCTCTCTGATTATTCTGCATTTCGGCTGTTAGG
ATTGTGATTTCCCCCTTTTTTTTCTGAAGCGTTAATCAGAAACTCCCATCCCCACTTTTCTCTTTGCTAGCAAGGTCATCACAGCGCATTCTTGGATCGG
AAACAAGAAGGTCCGCCTTAAACACTTTCGCCTTTAAAATGTTTAGATGTCCTTCCAGGGCTGAGGGTGATTGCTCTGTTGAGTTAAGGGGGAATTTGRG
GGGAGCAAATGCCTTCGCTGCCTATATTGCCTATGTGTAATTAAAACATAAATTCACTTTTGAAGTTATTGTTCTTTATAGCTGCTCAGCCTTAATTAAG
AACCACAAAGCGATTTGACTGCTAATCCTGGTGCAGAATGAACAAAAGGAAGTGCACTCACTGTAATTGCTGGGCATAGCCTTGTCCCTGGGTAAAAAGG
CTCTCCTYTACTGTCTTCCCTTTTGCTTTCATTCAAAGCAACTGTAGAAACACGTGTAAGTGATGTTTCAGAAATCAGGAAAGGGATGTGTAGAAAACTT
CATGGCAGGGCAGTGGATTGAGGATGGACATRTGTATCTGGAAGCACCAAAAATAATGTTCGRTCTAGCTAAGGTTTTCTTCATCATTGAGATAYGTAAA
TAGGCAGAAAGTTTCATTATTGTGTTTAACAGAGGAATCTATGTGTGAGAAACACGTTTGACTTAACACTTCACTCCCCATTGCCTTGGAAGGCTTGATT
ATTACCAGTAGCTGGTACTAATGAACTTCCAGAGAGAACAGACTGCCYCAAGCCATTCTTCTGTCAAGGGAGGGTAATTTTGTRAGGCTAATATCACTTA
GGGGTGTTGGAAAGGAACATGTTGTAGGCAAATGGTTCTTTTGATCATGATTTTGCTGCTCTCCGGTACACTAAACTTTATGTAAGTATCAGGATTCCAG
AGAAAGAATTGGACTTAACAAAAAGTACTTTGAAAAGTGGGATTAAATTATTGTGTGTGGAATAAGTGTTAGAAAAGCAGAATTATTTAACATCTTATTT
GCAGTTGAGTCATTAAACAAATGAAACATTTTGAAAATAATTTCATAAAATGATACTATGAGGTATCTGTTTTTCAGGGATTGAAGAAGTAAAGTGCACT
GAGTTCAGTTTTTTAAAGGTGCCTTTCTGAAGACATAGCTAGTGACCGAGGATTTCCTAAGATCTGTGAGATTGCTCTTTATTTTCTCCTGTTATATTTT
TTAAGTTGGCCAAAATTATTTTTGAAATGTGTATCTAAGTATTTCTGTTTAACTTTTGACTTGTTAAAGTTTCTGTGTTCAAGTTTGAATACTCTTGAAG
TCTTATTTTTTTCATTTTCAGATTTTAAAATTTTCAAAGAAAAGGCGTTGCCTGATGTCTGAAATCTCAGATGCCTGAAATTCAATTGACAATTACTGAA
CAACAGTCTCTTATTTACATAAAGGTGGGGTTGTCAATCTTGGCTCTCAGAATTTTCTCTTGTAGGCACTGTGTAGCTAAAGGTTATTTAAGGTGATTTC
AGAGGTAGATAGATTACTCAGTGATTACTACCCTGTTGCAAAGATAATGCGGTAGAGTAACCCAGTATCAGTTACGTTAGATTGCTCCCACTGGGAGGCA
GATATGTTAACTTTGGGTCATGGTTGATTAAAAGGTCAAAAGAGATCTTAGAGTTTACCTCTAACATCACTTTTTACTATRAAATGTTTTATGCTTGGAC
TTGGTTTTGCTGAAATTTTCCTCAACTTTTGGTAATATTCTTGCTAAATGAAATTCATAAAACTATGAGTTTAAAACTTGTAAGTTAAAAGTTAAAGTAT
TTTCTTACAAGCATTGTGATTAACTGTAAAAATATGTACTTTAAACYTCTAGTTTAAACTAACTTGACTAGGATACTTGACTTGTTCTTGGATCAGAAAT
GACATCCTGGAAGAAATCATGCATAGTGGAGGAGGTGGGAAGGGGGAAAGGTTTGTGTGTAGTGAGGTTGAGGTTTCTCTTTCTGTCCTCCCCCCCCCTT
TAATGACAAGGTTATATGTATACATGTATGTTTCGATCAACAATTTATGACAAGTAGGCAAGGTGTCATGTGTCACTGTGTGTTTTGATGTTTAGCATAT
TCACTCCCCAACTCCAGTTACTCCATGGGCTGTAGCTAACTAATTATTTCCCATGAATTAAAGTACCGTGACTGTTTTGTGCATCTATTAAATCTCCCTC
CCAGTTCAAATTTCACATACCCTTAAACAAGTGATGCATATTGTGCTTTGCTATTACAGAGCATGTGAAGCTAGAAATGAGTAGTGTGAAAGAACTAGGT
CTAGCCACCACTTTTCTAGCCTTTCTTTTGATGTTGAACTTTAAATACAGTAAACTTTAAAATAAGCAGTCAAATCATACATAAGAAATGTAAGTAGTTA
TGTAAGTGTTTTGGCACTGACTTTTTTAAATTATGAAAATGAAACATGACATTGTAAATTCAAACAGTAAGTGTAATGACAAGTGAGTTTCTTTATCACY
AGCTGCTAAGCTCCATGCCCTAGAGACCACCCTTCACAATTTCTTACATTAATATGACCCTCTAGAAATTTTTCATGCATACACATGTGTATATAAAATT
ATAGGATCATTTTAACTGATACTTTTTGGGAGGCTGAGGCGTATTTTAACAGATGGCAAATACAAATCTGATTATTGTGCCYGTATCATYACTTGCTGTA
CAAAAGCCAGGAAAATCAGTGTTGATTCTGAAAACAGCSCTCTCTTAAGCACCATACACAGTCATCCAGGGTGCAGGGTGCAGTGCATCCTYGGATAAAA
AGAGTTAAAGTTGCTATGGGAACCAGAATTGCACTTTCTGCTTGTTGTGGGGAGAAATCTCCACCAGCCAYTTTTCTAAGAAGAAGTCTTTTTTGTTTCA
CCTTCAACTTCTGGATGGATTATTCAGTTGCTGTTAAAAAGTTTGGGTTTTATGTCTTATAAGTTATAGTAAGTTTTTATCAGTACCAGTGGGGTAGTAG
TTGATACTAAGATTGTAGCTAAGGATTTGCCTTTTATCAAACAGCCCCATTAATTAATTTGATAATCATTGTGGATGGAAACTTGGCAGACAGGATCCTA
ATCTTGAGAAAGGTAGCTTTTCCTCTTTCTAAAAACAATTAGATTAAGGAAAAGAGTGCTTATAAAACCAACCCAATCAAAGTTTATGAAACTCCTAAAA
TTAACACTGAAACCAGATTAGTTTCCAAGCTCCTCATAAACTGTAGGAACCAATAGTGATTAAATGAAGCTTTTRAATCTGCATCTGCATATCTTTTTTG
TGTGTTTAAGTTAGAATAATTGATATATAAGGCTATTGCCTTTTATTCTCTTTGGTCCTCTGCTGAGTGTGTATGTATTTAACATGGAACAAATGGCAAT
TTTTCCCCCCAGGAAAACCTTTGCAAGGTGGGTTCTGACTATGTCAGGGAATAGCTCACTGTGGTGACTTCACTGTGGTATTTGTGCACCCTGAGGGGAC
ACTATTTTAGTTTGTCTCACAAAGGCCTGATTTACATTTTGCAGGTTTCAACTTGAGAAGTTAAGGAGCTCTTCCTTAATGGCCAGCAGTTGTTGAACAC
AGTTTTATAAAGTTGCTGTTGGCTGCTTTCCTGTTCTACAGTTCACTGCTTTTTCTCCAAATTCCTTCTCCATTCTAAGGGCATTCAAAAAAGAATTTAC
ACATTAGGGGAGAAGTTGGAGCTATAAGGCATTCCTCCCCCCCCCCACCTCTTCCATTTGTCATTKGTCACATTTGTGGGAGGAATCAAGTTTTGACTAT
TTCAGTTCTAAATAATTTTAGAAAATTGGGTGTGCCTTTTGCTATGCACTCCTTCCTCCTGTGCATACATTCTCATGTTATTGCCGGATATTCTGCAAAC
ATTTTAAAAAATACTCTTGAAATACATACCACTGTACCTGATAGAAAGATGTAGAAGATTGAGGGTCCTATCTTCAGAAGATTATACTTTGTTAGGAATT
TACACACTCATAATGGCATTACAATAATAAATCAAGGGTGTCTATATAATATTTTACAGTTTATAAGGCCTCCAGTTTATCACTGATGAGATTTCTCACA
ACGCAAGGAAGGCAAAGATGCCTAAGGTTGTGATTTGCCTAAAGTCATGTGGGAGATAGGTCTTTGACTACCTAGTTGATTGCATTCGTTCTTGCAGCTT
GCAGCTTCYCTAACGAGTCTCTCGAAAGAAAGTCTACTTTATTCTAAGCCACTTTTAAAATTTCATGTATACCCTGGTTCAGAGATACCAGACTCCTTTG
GTTTTCCTTGTTTTTTCTTCTGCATACTTCTTTTTATTTATGTTCCTAGATTCCTCTCTTTTCATGCTGTTCACGCTTCGTGGATGAACTCGTGTTTGTC
TCAAGGCTTTATTTGCAATTTCATTTGTAAATTTGTAAATTCTAAAGTTGTATTTCTAGTCAGCTCTTTTTCCAGATCTAAAATCTTGTTGGTTATGGTC
AATTTGGGATGTCCAGAGACCATATTCAAAACTAAATTCACTCCTTGTTGTCTCACCCAACTCAAAGCTCTTTTGGTATTCCCTATCTCAGTGAACTACA
CTGCTGTCTAACACTGAGTTTCTCAACCGATGTTGCCCACGTCTCTCCTGAAAGAACCATGCTTGACAGGCTTCATGAGTAAAGACTACTCTGGTGAACA
GATAGGATCCACTGCTGTGTGGTCGGTCGGTTCTGGGTAGCTATAACTTCACCCGTTTCTTTCCCACCAATCGTTACTATAATCTGTCCAAGACTCTACT
CTTACCTTCTATATCCAGACACTAYGTGTCTTGAATGCTTATCTTTCTCTCCGTCCTCTTTGTCTCTGCCTTACTGTAAGTTCCTTACTGTAAGTTCCCA
TTGCATTTCACCTGGATTGTTGCCACAGCCTCCWAATAAACTGGTGGGCTTTCTGCCTCCAGTTTTGCCCTTTATATTTGGGCAGCCATCCTTTGGACTG
AGTGATGATTCTAAAATGCAAATCTGATCATACAATTTTGCAGCTAAAAATTCTGCAGTGGTTCCTCAAGGTTTTATGATAAAGTCCAAACTCCTTGGCG
TGGTGTACAGGGTACTTAGGATCTGGACCTTTTTGTTGCTTCACGTGTTCACAGGGCTGTTCTTTGGTTTGGAACACTTCTCCCAGGTGTTAGGACTCCT
TCCCCAGTTTCTCTCTCTCTCCCCTTTCTGCCCCACTCCCTGGCTTGGATTAAGTCTCCCACTGACGCCACCCTGTAGGTATTTATCACAGTCCCTATCA
CATAGGATTATCTGTTTCTTTACTTGTCTGTTTCTACCTTTAAACCATGAAGTTTTTGAAGGACGAGTCAGGGGTTTAGTAATCTTTTAGTTCAGTTAAA
GATGACTAATATTGGTTAATTGCTTGTTATGTATTAGCAACAATGCAAATTCCTGGATGTGTAGTGATTCATGGGACATTGCCCTGACCTCATTCTTAGA
TGAGGTGTAGATGCAGAGACCCATGTCTCTCGATTTGGGGGTAGGCAAATGATGGCCTTCTTAGCCAAGTCCAGTCCAGTCCTKCCTATTTTTGTATGGG
CTGTGAACTAAGAATGGTTTGTACATTTTTAATTGGTTAGAAAAAATCAGAAGAATAATATTTTGTGACATGTGAAAATTTCATGAAATTCAAATTTTAG
TTACCCATAAAGTTTTGTTGGAGCACAGTTTAGCCCATGTAACAAAGCATTGTCTGTGGCTGTTTTTGCACAATAAGGGCAGAGTTGAGTAATAGCGACA
GACTCCATATGTCCCAGCCCACAAAGGCTGAAGTATTTACTATCTGGCTCTCATAGCACAGGTTTGTTGACCTCTGTTCTAGAGCAGTACTTTCATGTTA
TATAGTAAGTCCTAAGTGAGAGATGCAAGCACAGAGAGGATTCACTTCACTGACTGTTTGGGTGGAGGCTGGAGGCATTCTGTCTCCAGTGACACTTGTC
TGGCATAGTGTTCATAAAAATATATGTACAGTGAGTGAATAAATGAATGCCTGAATTATAAAACTCCCAGAACATTGAACATTAACTTAAATTCTTCAAA
GCAAAACTTTTGAGCTTGTGTTTATTTTTTATCAGTGCCATCTCTCCATTTTATAAGATATATGTCACTGTAATAGCTAATATTAAATGTAGTATGTGGT
TTTATTTCTGTAAATTTTTTAAAAAAGTACTAAGGTATGGAACTGGTATGGAATTGGAAAGGCCTATGACTGTCCTTTTTTGGGTAAAAATTAGACTGTT
ATGTGACTTGAAGGCAGCCTAGATAAATCTTAGGCGAAAACTCATGAATTCTCACATGTGAATATGTATTTCTGAAATGTTAATTTGTATTTTTTTCCTT
TAAAAATGGACATAAGCAAATTTTATTTAAAGTATATATATTCTGTAGTTTCAGCTACTTGGGAGGCTGAGGCAGAGGGATCATTCGAKCTAAGAAGTTT
GAGGCTGTAGTACACCATAATTGCGCCTGTTGAATACCCACTACACCCCAGCCTGGACGACGTAGACCCTATCTCAAAAATTAAATAAATAAAATRTATA
TATTCACATGTACATTGTTGAAATAGATTCTTAAAGGGAATTATTAAGCAGCTGAGGGGAAAGGTTACAATGAAATATTTGCTTGTTGTATATAGCATCC
TTTTAAGTTTAGTGAAGTCATCATGAGTAGATTTAGAAGATAGGCATACTGTTTCTTTAGGATAGTGAAAGGACTGTAAATGTAGAGTACGGTATAGCCC
AGTGTATTCCACATTAAAGTGGTTAGGCCGATGAGCAGTAACCACATATTCATCTAAAGTTAATAGGCAGCAGCAACAGTTGCTTCTTTTTTTTCTTTTT
TTTTGGAGACGAGTTTCGCTCTTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCTATTCTTCTG
CCTCAGCCTCCCGAGTAGCTGGGATTACAGACATGTGCCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGGTCAGGCT
GGTTTTGAACTCCCGACCTCAGGTGATCTGCCCGTCGTGGCTGCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCGGCCCTGCTTCTTTACTT
GTTCATTTTTCCTACTGGACTTTATTGACAGCTGTACCACTGTTCTGTTTGGGTTTTAGGGAAAGGTGTTAAAGTTTAGAGCAGAGCTGTTTGTTTATTT
TTACTGCTGAAAATTTCTGAGAAGGTTTTTAAAAATATGGGATTAATGTTTCTTCAAGTTGTCAGCTTGAAAGTGTAAAATTTCAAGATGATTTTGTGCA
GATCCTATTACTTTGCCTTGGTTGCTTGCTATAAGACTTGTTTAAGATAGAACTTGCCCTGTGGAGAAGAATAGAGTAGAATAAAATAATTTAAAAATAA
GAAAAAAAAAGATTAAAGAAAAAAAAACACATATGTAAAAGGGCCCTGCTGGAATTTGCAAGCATCTCCTTTCTTGTGATATAAAGTTAGGTGTTTGCTC
ATTTGGGTCTAAAATTGACAGCTTGCTAATGGGGTTACCAGAAAACCCATTTATAGAAACATTCCTGAGATTTTAGAGTACTGCACCAGACTAGGGTGGC
ACTAATTAAGTATGTCTGCTTTTCTATGTGTGTGCTCTTCTAGGGGCCAGCCCGAAATAMGTGGGCCCAGTCAGCCTGGTACAGCTACATATTCATGAAA
TAAAATAAAGCAGACTTCTCTCTTTCTTAGACAATGGCACCCTCAGATCTCTTGTGGGAGAAGAATCTTATGGTAAGGCTGGGAAATGAATAAGGGGATT
TACCTTATTTCTTTTGAACTTTAGGAGTTACATTTCCTCAGTTCCCTTCTTTTACTCTTTGTTTCCATCTGTGTGTGGCCGCTTCCTCTTATATTGAGGG
CAACATTAGATTCTTTTATTTTTAGATTTTTGTTATTTTATCTTTTTGTTTTGAAAGTTGGAGGAGATAKTAATTCAAAATCAGTCTTCTTCACATTGCT
TGCTTTTTTTTTTATTTTTAAAGAGACAAAGTCTCACTCTGTTGCCTAAGCTGGAAGTGCAGCGGTGCAGTCAGAGCTCACTGCAGCCTTGACCTCCTAG
GCTCAAGTGATCCTCTTGCCTTGGCCTCCCACAGTGCTGGGATTATAGGCATGAGTCACCATGCCTGGCCTCTTTTTTTTCTTTTTTTGAATTTGGTACG
TGGCCTTATATAGAGTTAAGGACTCAGTAAATTTTGTTTCATGATGATAAATCACAGTACTGTGTATATATGAAAGTTTCTGCTAACCAGAATGATTGTT
TGTGGCAGTGACTATACAGGTACCTGTCTGTTTTCAGAGACATGGTTAATGACCAGTCTCTTTTTTTTCCCATCTTCTTTAGAGTTCTGATTTTGTGTTC
TATTCTTGAGCTGGGTGGAGCTCAAGAATAAATTTTACATATGTAAAATTTCAGAGCTATGCATTTAATATTTGTATACTTCATTATATGTAAATTATTC
CTTGAATAAAAAAATGAATTAAGAAACTTTCAGCCAATTGTAGTACACTATAATATAGTTGATTTTGTTTGTTTTTCATATGATTTTTGGCTTAGGAGAG
AACACAATGTGAGGCTTCATCATCTAAAATATATTTCTCTTAGTGTCTTTCTCCTCTGTACCAGAAGTTGCTGGCATTAATAGACATTAACAGATATTTG
TTGAGTGATCAAATCAGTGAACTGGCTGGTTTTAATTGAGTTATGAGCCCATTTTCATTGAAGTACCTGCAGAGCCCTCTCATACAATCAAGCTTGGTAG
ACGCCTCAGGCAGTGGAGCATGGGAAACCTSGGGAAGAGCTGTCCTCTGTTCTCACCTCACTTTAAGCAGGTAGTGGTTTTGGTTGATGCTTCATCGTTT
GATGTGGTAAAATGGTAAGTCTGTGGGTTTTGCTGCAGGTTTAGAGAATTCTTTAAGAATGTCTTTGTGTGGCATATGCTTTGGTCACAATATCTGGTGC
TTAGGTAACTTGCTATTTAATTTCCATGGTGAAATGTAAATGTTCCACATATCACTTAAATAATGGGAAGACCCCATCTTCATTCATTTAAACATGGTCT
AGGTAATGGCTTTCTCTTATTGAGCCTTTTAGAAATAAAAAGTCTGAAGTTTGAATCATGTGGCTTTCTTGGAGAAACTTTTATTTTTTTTTGAGACAGA
GTCTCACTCTGTTGCCCAGGCTAGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGTCTCAGCCTCCCG
AGTAGCTGGGATTACAGGCACACACACCACCATGCCCTGCTAGGTTTTTTGTATTTTTTTTAGTAGAGATCKGGTTTCACCATGTTGGCCAGGCTGGTCT
CGAACTCCTGACCTCAGGTGATGCACCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGTCGTGAGCCACTGTGCCTGGCTGGAGAAACTTATAAAGCTA
TGAAATATTTCCAGTGATCTGAAAAGATCTACCCACTTAAAATGAGATGAGCTTATTGCATTTTGATTCTAATTAGTGGACAAAGGACTTATGTAAATAA
GACTGCTGGGGAGAAAATGGTTCACTCAGACATTATAGTATGGGATGTGTGAGTTATGATAGATGTTGAAGATACTTTTTATATCCTAAAGATAGATTTA
TTCGTAATGTATTTGAGATCAGACAAAAACATTGACCTGTAGGCAAAATAATTCAGTTGAAACTTTTTTCTGAGATGGAGTCTYACTCTGTTGCCCAGGC
TGGAGTGCAGTGGCATGATCTAAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTCTACAGGT
GCATGACACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGTCGGGGTTTTACCATGTTGATCAGGCTTGTCTCGAACTCCTGACCTCGTGATCTGCCY
GCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCCAGTTGAAACTTTTTAAATTGTTAGGAGAATACCTACAGAGCATTTT
GAAGAGTAGGGATTGAAGTCAGCCCGGAAAAGCTTCCCGGATCTTGAAGAAAAGTAATAGACATGAGTGTAGGGTGTTTCCAGGAAGGTTGAGTTGTTTG
AATAAAGATCTAAAAGTAGTTAGATAATGGTGAAGGTATTATTTGCCATTCATGGAGCAATGAGGACGTGCCAGATGGATTCTGAGGAGAACTTGAAAGC
TGGGTGACAAAAGAAACTAAATTACCTTTTGTCAAGTGCCTCCTGGTTACCTCTTTGAATTCTTCAGTCTTGAGAACTATTGTTAGCCCCGGGGAAGAAT
AATATGACTAGTGACTTTTCTGAGGTTGCGTAGGTTGAAATCCAGACCTGCTGTGGTACATAGATTATGTTTTTGCCACTCTGCCATTTTAGGTCAGACC
TGCTGTAAGTGATAGTGAATTCTAGAAAGACCTCAAATTGAGGAGTAAAATGAGAGTGCTAAGGAACTAAGCATTGTTTCTCTGATAGACCACTGCTTTA
GGATCTCTGGATTTCGACTGCTTCTGTTAAAAGGGCTTTACACTTAAGAACAGAGGATTTTTTTTTTAATTAAAAAAATATRTATGTTTTAGACAGGGTC
TTGCTCTGTCATCCAGGTTGGGGTGCAGTGGCACGATCCTATTTCATTGCAGCCTCAAACACCTGGGCTCAAACAAACCTCCCACCTCAGCCTCCTGAGT
AGCTAGGACTACAGGCATATGCCACCATGCCTAGCTAATTTAATTTTTTTGTAGAGATGGGGTCTCTCTGTGTTGTCCAGACTGGACCCGAACTYCTGGC
CTCGAGCAATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGGTTACAGGTGTAAGCCACCATGCCCAGCTGAGGATTGTTTTCAGTGGAAGAATTTTAGGT
TTTGGGCATATGTACTAGTTGTATGATATTTAGCTGTTAATGCTTCTAGAAATTTCTAAGGAATTTATTGAATTTGAGAATGAGGTCCTGGATTTTGTCA
GTGTCTGTTGATAGAAAAAATATGCTCTACCTGTGAAAAGAAAATTTCTACACGTTCTGAATTTATTATGCCAAGCGGAAAAGTTAGGCCCTGGAGACTG
AGTCACATAACATGGCTGTTTTTCTTCTCTGGTGTGTGACTGTTGCTTAGGGACCTTTGTGTTGAGATGTTACCTGTAACCAGATACCCTATTCTTTATT
CAAACCTAGACTAAATGCAGCTGGAGGTAGAGACCCCTGTGATTGTTACTGCTTTACAATGGAGTGTTAAGCAACCCCCTTAGAGTATAATAGTAACCAA
TCAAATCTTGTATCTCTATGTTAGCCTTATGCAGAAAATGTTGTAATCCTGTTCCACTCCCCTATTTTTCCTATATAAATGATTCTCACCTTTCCCAATG
CTGGGGAGTGCTGACCACCATTCTTCAGTGTCCATGTTTCCTGGAAAACTACCCTCACACTTTGTGCTTGAATGAATTCTTTTTTTTTTTTTTTTTTTTA
AGACAGCGTCTTGCTCTATCTCCCAGGCTGGAGTACAATGGCGCAATCTTGGCTCACTGCAACTTCCGCCTCCCGGCTTCAAGTGATTCTTCTGCCTCAG
CCTCCCGAGTAGCTGGGATTACAGGCACTTGCCACTGTGCCCAGCTGATTTTTGGATTTTTTAGTAGAGATGGGGTTTCGCCATGTTAGCCAGGCTGGGC
TCAAACTCCTGACTAGGTGAGCCATCTGCCTTGGCCTCCCAAAGTGCTGGGATTACTGGCGTGAGCCACCACGCCAGTCTTTTTTTTTTTTTTTTTTTTT
TTGAGACAAGAGTTTCGCTCTGTCACCCAGGCTGGAGTGCAATGGCGTGATCTCGGCACACTGCTACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCC
TCAGCCTCCCAAGTAGCTGCGATTACAGGCATGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGAGTTCACCATGTTGGCCAGGCTC
CGACCTCAAGTGATCCGCCCGCCTCGGCTTCCCAAAGTGCTGAGATTACAGACGTGAGCCACTGCGCACAGCTGAATGAATTCTTTTAACTGGATCCTCT
GTAAAAAACACATTACGCTTATTTGTGAAGAACAAAGGATTGTTTTCTTTTTTTGTTTTGTTTTGTTTTGTTTTTTAGATGGTGTTTCACTCTTGTCGCC
CAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCTACCTCCTGGGTTCAAGCAATTCTTCTGTCTCAGCCTCCTGAGTAGCTGGAATTACA
GGCACCCACCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGTCAGGCTGGCSTCGAACTCCTGACCTCAGGTGATC
CATCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCCCCAAAGGATTGTTTTCAGTGGAAGACTTGTAGGTTTTGGGTA
CTTGAACTAGTTGCATGATATTCAGTTGTTAATGGTTCTAGGAATTTCTAAGGAATTTATTGAATTTCAGGATGAGGTCCTGGATTTTGTCAGTGTCTGA
CAGGAAAAGTGTACCCTACCTCATTTCCTGAGGGATGATCAGTGGCTTCATTTATACAGGGAATGCCACCATCTTATCTCCTTTCTGCCTTATCCATGAC
TTCTTTCTGGTTGTTGAGAATTGCTGAGTTAGTTCACTTGCTTACTTTATCTGACATTATTAAAGATAAGGCTGCCTGGTCTGTCTTCACATTCTAGTTC
TTTCCTTCTCTGCTCCAAGTAAATTCTAACCCTTACATGGTATGTTTTGTTGTTAAAGTTTGCTAACTGAATAGGTCTAACCCACCTTTTGTTAATTGAT
GAATAGCTAGCTACTGTAGTCCCAGGAGCTTTCTTTGTCAGTATTAACATTATTCAGGTTCAGAAGTGATACTATTCACTTTGATGTCTGTGTATGTGAA
TTTGCAAATCTGTAAGTCTCTCTTTACCTCTTCCTCTCTCTCTTTCTGCCTCCCTCCTTTTCTCTTTAGTTTCCCCAGAGTGTTGCCGAGCTAAGGTTCA
ATCAGAGGACTCTTAGATACCTTAATTTTTTTTGGCTTTATTTTTGAAGAAAGGGATCRTCGTTCCCATTAGGACATGTATTTACAATGTGTTTTCTTTT
GCTTGCCCACCACACTCTACCACTACTTCTAGAACTTAAAATTCTAGGATTGTTTTTTTCTCCCTCATGCCCTATCCCCTTTTTAAAAAAAGTCAAAACT
CTTATTATAGTAGAACTTCACAGGTTTGAAGTTGGCTGATTAAATATACTAAGTATTACTGAATCACTGCCCTGCCTTTTCTGCTTTCTTTACAGACCTG
TTTAGTATACATTGTATGTATTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAAC
CTCCGCCTCCCAGGTTCAAGCAATTGTCCTGCCTTAGCCTCCTGAGTAGCTGGGACTACACGCGTGGGCCACCATGCCTGGCTAATTTTTGTATTTTTAA
TAAAGATGGGGTTCTACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGAGTCACCCACCTAAAGTCCTGGGGTTACAGGYGTGAGCCACTG
CTCCTGGYCCACAGATGATTTTTAAATGCCCTTGCTCAGTTTCCTTTCTTACAGGGAGAGTGGGTGGCACCCTGTGCTACACCGGAGGGCTGAGTGTTGG
GCTTAAAATGTCCTCAGTGTCCTCCCTTCTCTCTGCTGTTTTTTGTTTTGTTTTGTTTTTGGTCAGTTGGTAAACTATAAATGCATAAATGTTTTCTCAG
GACTTTTCCATCAACTTTCTTCAGAGAGAATGAAGGGATAATGATTTCCAAGAAAAGAGTTTTGCAGTTTTTAGAAAGAGGGTAGTGACAGCATGATGAA
ATGAGCTGAACAGCTTTTTTTGAGTTTTCACTGGCAGGGACTGGGAAGTGATATTTTCCTGCCCTGGCATCACGAATCCCAATTAGAGGCAGGAATCTGC
TGCCCACATGTTCTCAAAATCCTCGACCATTTTATTATCAAAAACTGTAAGGAATAAATAATTTGACAGTGTAAAATGGTTAGATCAAGATTTGGAGTTT
AATAGACTCTTAGTTTTCTGGAATGTCCACAGAGACATCCGTGGACTCTGAAAAATATTTGGCTAACTAGAATAATAAAATCATAAAATTTTGGAGTTGA
AAATTTAAGCTATAAAAAAAAAAGAAAAAAAGTTTTAGGGATAGGTCCTGGTTTAATTTATTTAATCTCTTACCAAATAATTTAAGGTAGGCGTAGTTGC
CTTGGGTGAGCAGTTTTACCTGTAGACTCGTGCATCTGTGCTACCATTCTTCAGTGGTTCCCATCCATCATACCCCTATTATGATGGTGCTGGTGACATC
ATCTGTTTTGATGCCACTAAGTTTAAAGAATTTTTTCTAAAAAAATTCTGGATCATGATCTGATAGAGCTGAGCATGCCGGAATTTTCATTGAAATTGTG
TTCTTTTGGAGGTGGGAATAAACAAGGGACTAAGGATAAAGATTGTGGTGGGGTCGGGGGAGGGTTAGAAACCAAAAGAGCAATTGTGTACTTGAATTGC
TTTGGTCATGTGATTGCCCCTTCTTGGGTAAAGGGTCGTGATCAGTGGCCTTCAGTGTCTTGGATTAACTTTCGGAGCAGTCCATACATAGTTTTGAATT
TGTGGTATTTTAGATAAGTTCATGGGATAGAAAGTCTATTGGAGACTATAAATTCTTAGAATTCTACAAATTATGAGCATTTGTGGGAACATCTGTAATG
CAGCTGTAATAAAATTTGTTTATTATCAGGATTGCTTTAGAGGCTCTTGCTGGGTTGTTTATTATTGTTTTCAGCATTTTTGCCATACGCCCTGAAATAG
CATCAACTCCTGGGTAGACTTCAGGATCATTCAGTTTTGTAGGCATTCTAATCAGGTTTGGGTTTTAAACATATGTCCACTTTAGAGCTTTTATGTCCTG
GCACAGACGTCAATGGTGAATCCAGACCATTTCAAGATGGACACTGATTCTGGAATTAACATACTTCCCAGATGTTTGTAGTACAGATTTGTTTTCTGTG
CTGTCTTTCATGTGTTCTGCTGTGTCTGTCTCTATCTGTGCTTTCCTCTGTTTTTACTTTTAGAACCCCTGGGGAAAGGTAGGTATCTGCTTTTTGRATT
GGGAAATAGAATAGGTATTAAATTTTTGGTAAAAACCTTTGAGTGGGTATTGACATTTCTGTGAGAGGAGAGGCTGCTTTGTTCCCTCGAGGGAGACTGT
TGGTGAGGGTGGTGTTGGAGGTGAGACTCTGAATGTAACTAGAYTCGGACTTCTTCACATCTCTAGTGGTTTTCAATTATGAAATGGGCAACTGATGCTC
TGAGTCAGCAGCCTTTTAACCATGMCTGACTGAAGAGAACTTGTGTTTGAAATTCACAGCATTGCCTGGATCCCTGCTGTCTTTTTGTGCCTCCCGCTAA
CACACAGCTGTTTTTGTTCATACATCATTTTGTGTTCAACTGCCTGGTTACTTCCTCAGGTCCCTTTTATGGTGAATAATGGACACATGGGAGTTTGAAC
ACCCAAGTGTGTGGTTATTCAAACAGGAAGTCTCAAGGAAGCACAGTAACTTTGTCAGAGGAACAAAAGATGGGACAGGAAAGGCTATTGATGATTCTAG
GCTTCAAACATCTGCTGGGAAATCTGACAATTTCTGAAATACAGATATTCCATAGCTTACAAACAAGTTGGTTTGTTTATTTGGAACTTGTTCCATTTTT
TAAAAATCAGGGTATTAAATCTTCGTAAAATAGAAGTGGAGGGAAAAAAAAGGATATAATGTGGCATCATTAGTGTTAAAAAGAGGAGAGAGGCTCTGCC
TGTGGCTTGACTGGGTTTCAGGAGAAAGGCTGGAGCAGCTCATCTTGACTGAAGGTAACCCTGAGGCTGTAACCCGGGGTGAGCACATAGGTGGGACTTG
ACAGAGGCTGCTAGAGCTGACAGAATTGGATTAAAAGATGATTTTATGCAGAGCTTTTGATGATTGAGCACTGGAGGAATATGAGATAAAGAAGAATGTA
GGTTGCACTTAAAGAGCATGCAGTCCAGTGGGAGAGTAAGAATGTGTGTATCAACAAATTTTCTCTGAGACAAAACATGAAGTGCCGTGAGAGAAGGATA
GAAATTCCATGTGATTGCAAAGGAGATATGACTATAGAAGATCAAAATAAATGCTTCCCAGAATGTTGATCTGGTGACCGTGAAGATTCCTTATGACCTT
GGGATTCCTTGTTTATGTGATAAATGACTTACCAGAAATAGTCAAATAAATCCTGATTTTAGATTTAAAAATGAAAATTAAATCTGGAAGTCAAAGAAGG
GGGAGCTCTGGTTTCATAGCAATTTATATTAAGCAAGTGGGGTGATGCAAATGCTACAGAAAAGAGTACTGTGTCAGGCTTAATTAATGGAAGTGATAGT
ATTCAAAGGAGTACAAGTTCTGTGCATCTTATTCCCCTGCCTTTAATTTCAGTCATGGTAAACTGTTCATAGTAAACATGCTCCCACCGTGTGGGTACTA
CTACATTTTTTTCTTGACTCTTTACTTTTCTGTTTTTTCCTTTGGCTACTTCCTAATCATCTTTAAAACTCCTGACAAATTTCAACTCCTCCAAGAAGAT
TTTGCTAATTTCTAATTCCTCTGTTCCCTCCAGAGCACTTGCCTTTATGTCATTTGATGTTTATACGTCCACTCACTTCTAAAATCCAGTAAGCATATTG
CATACCTAGGATGTGAGGGGTGCTATATTGTATTGTTTTCTCTCTTTCCCCCATTAGCTGAGTTCATCAAAGACAAGACGAATCCATAGATTTCTTAATT
CATTCATTTACAAAGATTTATTAAGCACCTGTTACACAAAAGGTACTGCATAGTACCGGAGACAGGGCAGAGAAGACCTAGAGCTTAAGTTCTGGGTAAA
AAAGCATGCAGTACAAAGGACCTGACCTAGGGAGGATTTCATTGGCTTCCCCTCCACCACCCCACTGACTTTTATGCCCCTAGTGTACGGCATAATACCT
TTTATATGGTAGTAGGGGTTCAAAAAAGTTTGCTGAATGAGTGAATTTCTATTTCTTTGAGGCTATGGACACAGAATGCAGATGAGTGCAAGAAACAGCA
ATTTTGTTTAGGTTTTCCCATGATGGAATTTGCCTTGTAGATAGGGTTTTTAAAATTGATCAGGCAGAATAGGATGGCTAGTACATGGTATAGTTTCCTC
ACCAGCATTGTTAGATGAAGAGTAAGTCACTGTATCAAAGAGCCCCAGTATAAAGTAATAAAGTAAATAAAAACCCAGTTTTAAATCATTGAAGTTTGTT
TCTCCTTCAGGTGGTAATTCTGAGGTCAGTGGTTCAGGACAGCAGGGTAGTTCTCCACGCTGACATTCAGGGACTCATGAGTGTTTCCTGGAAATAATCT
GGGATCCTTTAGGRTATCATTCTTATGTGCCTGGTTGAGGCTGGGTGATAGGCCCCTGTGCTTTCCAATTGGGAAGATATTGAGGAGTGTGTGCCTAAAT
CTTAACACTTGAAAATCTTACCTCCCCAAAGTGCCATAACACCTGAAAGTGTATTATCTGCCACCAGAGAGAGCTTAGTCACTTGGCCACCTCATAAACA
CAGTAGAGGCTGGAAAATGGGGTCTAGCTGGGTGGTCTTGTGCCTGGCCACAGATCTATTACAGTGATGGATGGGTTGGTGGGGAGAGAACAGATTTTTG
GCAGACAGCTCTGCCATGCCAACTCCTGTGCTGAAGAGTCTGGTTTCTCCCAAGTTCTGGTCTTTCTGGAGAGTCTTCAGAGGTTCCCATTCTGTGGCTG
GCAGTTGTAGGGAGTGGATATAGAAAAATAGGGACCACGCTCACTGTGGATCCTCACAACTTTAGCTTTTCAGTAAAAGAGCCTCTGAAGAAAGGGTGTG
TACTCATTCTGCTCTTAGTGCACAGCCTTCACTCCCTGACTTTACAGAATTGGTTTATTCTTTGACCTTTTCCATTTTCACACCCCCAGCCCTCTCCTGG
CACTGAGATCCCACTGTACCTTCTTGGTGTTGTGTACTTACACTGATGGGCTCTATGTCTATCTGCCTCGGAGGAGCACATCCCACATGGGCATTGTCTG
AATTCACTTGACGATGCTGATGGTGTTTACCTTCAGCTGTGACAGACCAATCAGAGCTGTTTTAAAATCCAGATGTCTTTTAGGAATGAGAGTTCCAGAA
GTGATAAATCAGTGCTTTTTGTGGCTTGAACATATACAGTTTTGTTGTGGAATCTTCTTAAATGTATATTTATCTTTTTCTTCATTGCGAGTTCATTGAA
GGCAGCTGTGAATCATGTTTTAACCATTAATTAGGTGTCCAACTTAGAGTGGGGTGCTTATGATCTAGTAGATTTAGGAAGATGGGTGTATGTTACATAA
CACCCTCAGCAGGACCCCCATCTCCAAGCAATTGAATATATCTGCAGTAAAATGTATTCGTACGAAACAGRCTGATGAAAGGCTATCATAGCCTCACACT
AGGTCATGTATTGTTGTCACACATTATGAAAATCTCCTGCTGTTTAGGGCTTTTTGAATTGAGAATCACAGATGAAGGATTATGGACTTATATCACATTT
GATTACRTAAGTTATATCACTTTTACAGATAGTGATAAAACTACTGAAGACTATATAAAAATGTGAACAATAGGCATCTGGTAAATTGGTTATCTAAATA
AGCAGATAAAGTTTAATAGGAAATTTCATTTCATTGAAAGGGTGAATTTTGACATGTTCTAACAATTTGAGTGAATGGATTATGAAAYTATGGTAACAAT
ATTTAGAACTACAGATAGGGCATTACATAAATGTTTAAAAGAAGAAAAGAAATAGGGTTGAATTCTGATAAAAAGTGACCTATTAGAAAAGTATTTCTAT
TCCTCTAGGGACATCCGTTCAATTTTTGTTGTTGCTTCATTGATTTTTGTAAAAAGGTGTTGCCTTTTAAAAATCATTTTAGAAAGGCAATGTCATTTTT
AATGACATTACTACCATGCATAGTTTTGTGAGAAACCTGGCTATGTTAAAGCCATTTCATTTGAGATACATTTTGAATTGAAAGTTATTCTGTTGTTCTT
GTTTTCAGAAGCAGATAATTTTGGCGATGTCTGTGTCCTTCTTGTCTGCTCTTTATCTGTTTACCTACCTGCTTATCACAACTAACTTTCTGTCCAGTTT
TTTTTAATCCTTAGTAAATCAGTGTCTAGGAATCTTTAGTCACTCAGTTTTGAGGATGACTGTGTAAATGGTTATAAATGATTGCTTTTGCCTGTTGTGT
TCTGTCAGCTTGGTTTTTGCTTTCTAAAAGATTACAGTCTCCTTGAATTGACATCTTTCTTTTTTATTTTTTTAAAGTCAAACTCATTCTCTTTATTTGT
GCAGAGTCCTTTGCCCAAAATACATCATGTTGTCCTCTGGGCTTTACTGTCCTAGTTTCTTTTGGAAGAAAAATGCCTTCTCTATAAATTCTTCCCCACA
TCTTAGAAGTGTGACACAGCAGTGCTTACTGTATCACTCATTGGTCACTTGAGCATACCATCTTCTTTGGGAATCTTTTTTATGTTTATTTATTTTCATA
TGCACCCAGCGTGGGAACCGTGTTTTAAACCATTAGGTCAGTAACTTAGAGCTGGGTACTTGACTCGTAAAACGATAGGCATTTAAATATTCTTTGGCTC
TTTTGATGAATCAGAAGATKCAATTCTAAACTGACAGAGAAACCTAGGACTAAATTAAAAAAATATATCCAGGCCATGGCTTTGGAAGGGTGTTTGGAAG
AGCTGTGTTCACTAATCATTGGAGAAAGGCCACGGAGCTATTTCCTSAAGATTTAAGACATCCCCCTTTTGTGGACAGTAGTAATAGAAGACCTGTCTGT
TCTGTTGAACTTTCCTTTAAGAACTGGAAAATAACTGAAACCAACCACAAAATTGTTTCTTTTTAAGAAGCGTTGTCTTCCTTTCCAGGATCCACAATGC
CAAGTTAAATACCTTTCTTTTTTTAGGGTAGCAGAGTTTCTCACACTGAGACTTTTAAACGTTTCTGTTATATTAATTGTAAAGTGTCATGAAGTTGGTG
TCTCAATGCTTAAAAAAAAAAAAAGATCCACTAAAGCCTTCTTCTTGTCATTTGAAGGTTATTAAAATGTAATACTTCCCTTGTACATTCTTAATRCTGA
TTTCCAGTGAACCCAGGGATTATTTCTCAGAGAGGAAATTCTGTTGTCACCTAGGCTAATAATTACCAAGTGCTCACCAGTAACAACTAGAATCTTCTCA
GTAGGTTTTTTTTTTTTGGCTTTTTTTGTTTTAAATRTATATGGCCAGTTGATTAGTATGAATTATTGTTTTGTACTTGCAAGTCAATACAAGGTAAAAT
AGATAATTGTTTATGCAGCCAAGTATTCTGTTTTAGTGCACATAAATATGGAGTAGAAATAAAAGTTTCCATATGAAGTAGATTAGTAACTCTAGGGACA
TTTCTTCCAATTTTCCTCACCCCAGGTATCTACTACCATGGATTTTATGTTTTAGTCTTTTGCTTTTAAAAGAAAATAGTTTTGTAATTCCTAAACAATG
TATTGTTTGTTTTTGAGCTTTGTAAAAATGGTATTCTATATGTGGTAATTGGCAACTTGCCAATTGAAAAAAAAGTTCAGTATATTTTTGAAGTGTAGCT
GTAGTTCATTCATTTGCATTCCTGTCTAGTTAAGATTATACTACACCTAAGCTTTTGATTATCCTGCTGATGGATTTTTTGTTGTTGTTGTTGTTTTACG
AATAGAACGCTTCTATGGGCATTCTCACACATGTCTCCTGATGCCTATGTGTGAGATTCTCTCTACCTGGGTTGCTGGGTCATAATACATGAGTTTTTCA
ATGTTATAAAATAATGCAAATTGTTTCCCAGAGTGATCGTGCTAGTTTAGATGCTCAACTAGCAGTGTTAATAGGCCTGTTGATCCACATTGGGTATTGT
GAGAATTCTCAAATTTTGATCATTTGGTGGTATAAAATTGTATCTTAGTGGTTTTATTTATAAAGGAGAGTATCTTTTCATGTGTTTATTGGTCTTTCAT
ATTTCCTCTCCGCAAAATGTCTCATCATGTTTTCTTTCCCTTATTGATTTGTAGAATTCTTCATATATTCTTTATACTAATCCTTTGTCAGTTATGTGTT
TTCCTTATCTTCCAGTGTGTCCAGTGTATAATTTGTCTTTTACATTTTTTCTGTGATATCTTTTGAACAAAATGTCTTAATTTTAATGCGATCACATTTG
TGGGTACTTTTTCTGTTAGCCCTTTTGAGTCTTATGTAAGAAGTCTTTCCTTATATTTTCTTTTAAGGATCTTCTGAAGTTTTGCCTTTCTACATTTAAG
TTTATCTGGAGTCGATTCATGTGCATTGTCTTTATCTGCTAGGACAATTTCCTTTCCAACTTATTCTTCTATTTTAGAAATATCTTAGCTATGTTTAGGC
CTGTGCTTATCCATGTAAAATTTAGAATCAGGTTGTCAAGTTCCTCAGTAAGCTGTTTGCATCTCGATTGAAGTTGCATTGAGTTTGTGTATCCATTTGG
ATTGAATTGACATCTTTATTATTGATTTTTTTCTCCATGAACATGGTATAATTTATATCTTCTCTGTTTAACTCCAATAATATTTAATAGTTTTCTCCTC
ATGAGCCTTGCTCTTTTCCTGATGGATTTATTCCTAGATACATTTTATTTTTTATTGCTATTATAATTTTTTCTGAATTACACTTTCTAACTCTTTTGTC
ACTGGTATATAAAAATAAAACTTTTTTTGTGTGTGTTGACCTTATAACCACTTGCTTAATTGTTTTATTCTAATAATTTGTCTTTAGCTTCTATTGGGTT
TATATGTAGGTAGTCATCATCTGTAATAATGACAGTTTTGTTTCTCCTTACCAAGCCTTAACTCTTTTACTTTTTTCTCTGTTGATTAGAACAATATACA
GAATACATTTAAAAAAATTCCCCTTAAATATTATGCCTTTATAAAGCTCTGCTAATTTGATAGGTGAGATATGTTTTAAAGTTTATCTCTTTTATAATTA
TGAAGGCCATTCTTAATTCTGTTGCATAATATTTATTTCTGTAAGCTACCTCACTTTTTTTGTAAAGAGGTATGATACTAACAGTTTCTTTCAGCTTAGT
TTTCAACTTCTTTTGCTGTAAGGCCATTTTAAGAAATGTTTTGGGTACAGGTTTCAGTTAATTAAAATAGCTCTAAAATATCAAATTAGGTAGTATACAG
ATATTATTCACCTTTTTGGTAAAATTAGCTACCAAATTAGTTGCTGTTCATACTGTTTGATGCAATAAGTGGTAATCTGGAAAATGGAAACATTTCTATT
CATAAAATTCACTGGAGATTTGATTAATACATGTATTTCCCTAAAAAACAAAGCAAACTGAACCAGTGGTAACTCAAGGAAGCATTGATAGAGGGACTTG
GGTTTTGTTTTGTTCTTCATAACTAAATCACTCAATTACAGAGTGTGATAAATTTCTCAAGCTTCTGAGATATTTTAGGTCAGTCTTTATATTTTTATAT
CAATTCTGTGGATCATGCATTTTAAGCTCTTTTGTCTCTTTCTCTTCAAAACTGTCTAACGCCCTCTGAAACCTTATTTATCATCTGAGAAAGGATTGCA
TTTAAAAGACTTGGAACAAAGAGTGTTGAATGTATGGGACCTTGTTAAAATGTTGTCTTGTAAAATGTGATAGATATGAGTCTTTTAAGTTTTGGGGATA
GATAGACCCATGTGTAATTTGTCTGTAAACACTACAGAAGTAGTTCTCAAATGAGTGTGGTACTGTCCCCGTAGGGGTATTTAGTGGACAGGAGGGGATT
GTGGGGAATTGGAGGGGATGGGAGACAGTCCCATACAACAAAGAATTGCCCAAATCCTGCCTAACTTTTGGATTTCTCACGGGACATTTGTGCTATTAAA
AAACCTGATTATAAATACCTGAGCCTAGAACATAACTTTGTCTTTACACATAAACAGTTTTTTTCATAACTTTATTATATGTAATTTCCCATGAATACAA
CCACCATGTATATAAATATTTTTTTAGCTTACCGAGAGTTAGTTCACCAATTCGGAAGGCCCCATCTCTGCCAACGCTGCCTCTCATGATATTCAAGTTG
CCCATACAACACATATGTAAATCAGTCTGCTTTTCTAGCAATCAGAGTGAATCTGTGTACCAATTTGTATATTCTTAGCCTCTTTTTTTCTAAAATATCA
AATGTAAATAAAAGTGTTGATAGTAGCTGAAATTTTGAAATTTGCTTTCAACCATCTTTTCCTAAATGTGAATAGCTATTACTGTGTCTACCYTGTTTCT
TCTTACGGAACAATGAAATCACTAAGAGTAAGTGAACATTTTACAAGGAAACATGCTGATAAAGTTGGCAGAGATACGTCATTGTCCCTCAGTGTAATTT
GTTCTGACCTGTTATACCTACTTAGTTAAAATGTCCTCTTTATCTTAAAACATACAGGTAAATCTGCTGGTGCTACGTTTCCCAACAATGATTTTTATTG
CAGTGTCCACCTATAGCTCTATCCTTTCATTTCCTGTATGCCTTGTACAGAATGACATCCAATTCTGTTTTTAAAAGTATAAACTTGTTATAAATAAGTA
CAAATGTCTGATAGCTTTGTTATACATTCTAGTATAGTAATCCCTGAGCTATTACCTATTAAAAGGCGTGTATTTCCTTTTAACTTCTGCTTTATGTTAT
AGTTAGAGCTACACACRTGTACACCACCCACCCCACTTGTAAGTTATATATGTTGTAGATTATATAATTTATGAGTTTTATTTTGGGATGGTAAAGGAGA
AGCATTTTAAAATATTTGTTATAGTATTGGGGACATGAGTGTCTGTTGGGCTTGAAAATCTTCACTTTACAGCACCTCATCCTCACACGTGTCTTTTAAA
TAGTCTTCTGCCCCTATATTCTCTCTCCCTTCCGCTCTGTTGTACACAGGAAGCCAAAGCCCTCTCGAAAATACCAGGTATCACTTCCTCCTATTCAGAT
TCTTAGCCAAGTTGTTACCTAGTATTAACATTGTGGTATATATATTGTCTCACCAACTGGAGATATGATGGCAGGGACTACATCTTGAATTTCTTCCTGT
CTTTATTATTAATATAGTTCTTTGCATCTAATGTGTACTCCAGAAATGTTTGCTGATATTTCTAGTCTACTTTCCCACTCTTATAGAAGAAACTAAATTT
GGAGCAAATTCTCCAAGTTTTCTTACTAAATCTTCATATTTGTTGTATACAACTGCTCTTTAAATAGTTCTCAGCAGAATCATCTTAATATTTTTCTTGG
TAAAATGCCATCTATAGCATCCCCAGGTGTAGAGAAGACATACAGAAATGGAAAGACTTTAATACTGGTCTGATTGTAATTACAGTATTAGAATAAGTTG
TGGCAGAAGTCTTTTTAAAAAATTGTATAATTGTGGTAAAAGAAATCTAATTTTTTAAGTTTATCTACAGAGGTTGTGTCAATACCATATTCTTGATTTA
TTTTCTTGTAACTATTTTCTCCAATTTTGAATTTAAGGTTTTTTTGTTTTTTTTTTTGTTTTTGAGACGGAGTTTAGCTCTGTCGCCCAGGCTGAAGTGC
AGTGGTGTGATCTCAGCTCACTGCAACCTCCGCTTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGTGTAGCTGGGATTACAGGCATGTGCCACC
ATGCCCAGCTCATTTTTGTAATTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTGAAACTCCTGACCCCAAGTGATCCACCTGCCTTGGC
CTCYGAGAGTGCTGGGATGACAGGCGTGAGCCACCATGCCAAGCCAAAAGTGTCTGTTTTCTTATCTCCTTAAATACCATACTCTCCCATTCTCACCAAA
CTAAAACAAAAAAAAAAAATCATTCTGGATTTTCTTCCTTTGTGTCAATTGTGTTCTTTATTTTTTAAACTGGGCATAATAGGAATAGTTTGGGCAGCAT
CAATAGTAAATCAAATCTGTAGTAGATACCATTTCACATGTGTTTCCGTGCATTATTTTTTTCAAATTCAGTCTCCTTGCATAATACACTTAGAATCTTA
TGTGCTAAAGATGTCGTTCCCACTCAAGGTAGTGTTATCTGCCAGTTGACCTTTATCAATCAGATTTCAAAGTTGGTGTTGGTTATATTGTGTACTCTCC
ATGTGAGCTTTTATTATGTTGTTTAGTCATCTTTTGAAAGATAGTGTTGTCTCTATTTAACCCTATCTCTTATTAGAAATTACTTCTACATTGTGACTGT
TGTAATAGTTCTTTGATATATTTACCTCACTTTATCAATGTTTCTGCTTGTTTTCTCAGATTCTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTC
TCGCCCAGGCTGGAATGCAGTGGCGTGATCTCGGCTCACTGCAAGCGCCACCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGA
CTACAGGCACCCGCTACCATGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGAAGGGGTTTCACCACGTTAGCCAGGATGGTCTCGATCTCCTGACCTCG
TGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCTCTCAGATTCTTAAAGATAGAATCACTGGGCCAGGCT
CGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCTGGTGGATCACATGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACC
CCGTCTCTACTAAAAATACAAAATTAGCTGAGTCTGGTGGTGCATGCCTGTTATCTCAGGTACCTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGG
AGGTGGAGGTTGCAATGAGCCAAGATCGTGCTGTTGCATTCCAGCCTGGGCAACAGGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAGAATTAC
TGAATTAAAAGACGTGGATATTTTTAAGGCCTTTAGATGTTACAGTCCTAAATTCTGAGTTAGCAGGTTATGAGAATATCTGTTCCTCTGAGAATTACCT
TTCCTCTTCTCCTTTCAAATTATTTTTTTATCTGAGGTGTTTACTTTTCAATATTCAATAGTTAATAAGTCACAGCTGTCTAGGATGCAACTCTGATTTT
GATTGTTATGATGGATTAAAGATGACCACAGATGCTTTGACACTCCTCCTTTTGTGTGTGGACTGGGCTGTGACTGCTTTAACCAATATGGGACAGTATG
TGTGATGATATGGCAGTTCTAGGCTTAGCCTTTGAGAGGATGGGCAGCTTCCACCTGCCTTTTGGATCCTGAACTGCCTTCTAGAAGTTCAACTATCCTG
AGACCACCATATTTGACAGGACATGAGCAGGCATTTCTGGTGAGCATTCCTAGCTCTGTCCAGCCTTTCCTCCATCCCCATCAAGGCACCAGGCAGATGA
GCCCACCTGGCAGCTGAGTACCACTGTGTGACTTCAGTCAATACCGTGTGGAGTACACGAATCATCCAGCTGAACCCTTCCCAAATTCTTGACTCTCAAA
ATCATGAGATAAAAATGGTGGTTGTTTTAAGCCACTGAGCTTTGGAGTAGCTTGTTGTGCAGCAGTAGATAACTGGAACACTTACTGAGTCTCTGGGATT
ATTGAGTTRGAGTGCCTATGCTGCTCTTCCCAAGGGGAATCAGCCTTTTTTCCTTCCTGGAATGGTTGCTTAGAAGAACCTGTAGACACCCAGAGGAAGT
TACACTTTTCTTTGGCTTTAACTAGAGAGCCATGGGAGAGGAGCCAGAAATATCCCGAGGCTATGCATTTCTGAGTTCTAACTGAAGCCTGGCAGAAATT
TCAAACCAAGTTATCACAGGGATCTTGTGTCTGAGAGAGCAGACTGTCTTCTGGTCAGTATCCTTGTGTGTCTAATGAAGGGAAGACAGGTGCAGGGATC
CATCTTCAGGGTGTTCTCCAGGAGAGCCATAAATGTAACAGTAGGAAAACAAGCTATGTTCATATTCTTGGTTTCTGCTTATTTCTCTGATAAAAAATCA
TTCCTTTCATTGGTTTCTGCTTGTTCATCTGATAAAAAAATCATTCCTTTTGTTACCTGTCAAAACATACAGCCCCCTGATTGCAACTCAAGGTGCTCTG
CACTGCGTATCCAAGAGTAACCATCACTTCTGCTTCCCCTGTTTTGTTGCATGTGTTGGCTAGCTACCTATCCATTTTTGTGTTCTCATCCCTTTTTCTT
TCTGTTCTGTCTTTCACAATTACCCTACTTTCCATTCCTCTTCCCATCTCTCCCAAACTCTGCTAATTGATATTCTGGTCATACTAAAAGGCTAATCTAT
CTATCTTTCTTTTGTTCTTTCTTTTCTTTTTTTTTTGACACAGTCTCRCTCTGTYGCCCAGGCTGAGTGCAGTGGCATGATCTCGGCTCAATGCAACCTC
TGCCTCCTGGGTTCAAGCAGTTCTCATGCTTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCACGCCCAGCTAATTTTTATATTTTTAGTAG
AGGTGGAGTTTCACCATGTTGGCCAGGCTGGTCTCTTAACTCCTGACCTCAGGTAATCCGCCTGCCTCAGCCTTCCAAAGTGCTGGGATTACAGGTGTGA
GCCACCATGCTCAGCCACTTAACTTTCTTTTTCTTACATTTTCATCTCTTTATCCCTCCTGCTCATGTCCCTTCCTCTCCCTCACCTTAAGCACAGCCTG
CTTGGGTTTTTGGGTGTGTGTCYTATAATAATATATCACTTAGTAAATTATAAGCARCTTGAGAATAAAGAAGGTTCTATTCAGTCATAATGCTTAAGAG
TGTTCATCAAATTATTTGGGTTAAATAAAACCCTTTATTTCCATTTTCTTCTCCCTTACTGAAAAAAGCTACACTAATGTTCTCTAGGATTGATGTGCAT
AGAGAATGGGAACTTAAAGAATTATTGTCTTAAGGGTATGTGGGTTTCCTTATCCAAACACAGGTAAATGAGGGAAGAGATGTAAACAACGATTACTCTG
TTCTTCCTAGTGTTGGTTGGAGTTCTCTGTAMTTCTGTTTCCTGTCCAAGGAGGGAGAGATCCGTCATTCTGAATTTATTTGTTTGAATTTATGGGACAA
AAATGCTATAAATCAAATCCCTTGTTAGGGTTTTCCAGTGCGTTAWATGTAAAAACTTGAAAAGTTTGCTGAAAAACTTGGTTTCCGTGTCCATATTTAA
TAGATCATATTTTCCCCAGATATTTTCGACTATAGCCATTATAAGAAATATATTTTGTATTGCCACCTAGTCAGTACATATAGCTGAAACAGGTTTATCA
AAGCAAGTCTAACCATTATTTCCTGTATCATACTCTGATATTTTCTATTCACTTCTAATTCTTTTTTAAAAATGCTCATCTGGATCTGTTTTTTGTGTGT
GTTTTTTTTTTTCATTTCAAACTAATGGGTTGTTTGAAAAGTATTGAGTTACATAATAGTTGCTTGAATGGTAAGGGTCTGATTCTGAGTCTCATCAGCT
CTCCTGAGAGAATTGGTGTTCTTAGACTGCATTGGTGGCTGAATCTGATCAGAACATTTACATTTTGTGAAGATCTTGTATAATCCAAAACATTCATAAT
GAAAGATAGTTTTGGTTTTTTTTTTTTGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGAACTTGGCTCACTGCAACCTCCATCTCCT
GGGCTCAAACGATTCTTGTGCTTCAGCCTCTTGAGTAGCTGGGATTACAGGCGCACACCATCATGCCTGGCTAATTTTTTGTATTTTAGTAGAGACGGGG
TTTTACCATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAGGCAATCCACCCGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACTGCT
CCTGGCCAAAGATAGGTTTTATTATTGGGAAAAAGTGTTAAGATAGGTGAAATCTATAGTCTTTGCTCAAATGTTGCTTTTTATTTTCTAAGTGTCATCA
CTAGTGTTTTGCAGAATGTTCTCTCAACAAGCAGTACTGCCTATTGAGGTGGGTTGATTTGTTGTTCTGAATAGTTCTGCCACCTCCAATTTCATTTTAA
AGTCATTGATTTTCAGGTGCATTTGTAAGRCTAGCATCATTAATATCAGCACTTAATAGCTAACATTTATTAACTACTATGTGCTATGCATGGTGTTGAG
TGCTTTTCTTAGATTAATTTAATCCTCAGCACAACCCAGTGCGGATGGAGCACTCTCCCAGTTTACGGAGGAGGAAGCCGAGGCATAGAAGCCACACAGC
TATTTGTGAGGATTCAGGCTGTGCACTCTAGGGTCTGGTTATAGAGGCTRTTCTCTGAATCACACTGTGCTCTGCCTCAGAATAAAATGCCTTCTATACA
ACGTGGCTGTAACCTTAACTTCTGGGGACTGGTATCACTTGTTACTCTTTCCTAAATTTTGGGGTCATTTCCAGTATTCTAAYGGCAACGATACTATAAC
ACAGCCCCTAGGATACTGATATTCTGTTATATTGAGAAGAAASCAGGGGTAAATAAGGTCTTTTGACATTTTAATGAACTGATTGCTTAGGGTTTCAAGA
TTAACCCACCCCGTATATTGCAAGGTCGCTTCTCAGCCTGAAGTTTACTTAGGTGAAAAACAGGACATTTTATTTCTTTAGTGTCTACTTTATGCTAGAC
ACAGTTCCTGGCTTGGAGACTACAAAACTCAATGTGGAGCATTTGGCTTTGATTAAGAGGGAAGCCATTGATTATTCATAGACTTCTAGGACCACAGCCA
CCTTAGAGCCTTAGGGGCTTTTCCCACTTGACCCCTTCTTCTACTGAAGAGGAGCAGGCCAGGAAGCCAGTGGTTCCTCATGGTATCAGGATTCCTTGTT
CTTGGTGCTCTATTGTGTTGCCTTTTCTTCTGCCATCTTATTCCTTTGATTAGTGAGAACTTTGTGCATCTTTTTTTTTTTTTTTTTGAGATGGAGTTTC
GCTCTTGTTGCCTAGGCTGGAGTGCAGTGACGCAATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTA
GCTGGGATTACAGGTGCCTGCCACCGCGCCTGGCTAATTTTTTGTATTTTTAGCAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTG
ACCTCAGGTGATCCACCTGCCTTGGCCTCCGGAAGTGCTGGGATTACAGGTATGAGCCACCGCGCCCGGACACATCCTTTCTTTATCATTTCTCTTCCTA
GTGTGTGAAATGTGGCGATAGATGTTTATAACCACTTACTAGGGATTGACTCAGCTATGAACTTGATACCTGCTTAGGGTGACTAATTTAGCCTCTTGAA
GCCTCAGTTTTCTCATTTGTAAAAAAARTTAGGGTAAAAATATACCCTATTGTGTAAAAAAAAAAACCTACTTTATAGGATTGATGTGAGGATTAAATGA
AATAAAGGCATTAGGCCGGGTGCAGTGGCTCATGCCTGTAATCCCAGCATYTTGAGAGGCCAAGGCGGGCAGATCACAAGGTCAAGAGATTGAGACCATC
CTGGCCAACATGGTGAAACCCCATCTGTACTAAAAATACAAAAATGAGATGGGCATGGTGTCGTGCACCTGTAGTTGCAGCTACTCGGGAGGCTGAGGCA
GGATAATCGCTTGAACCTGGGAGGCAGAGATTGCAGTGAACTGAGATCACACCACTGCACTTCAGCCTGGGCAACAGAGGGAGACTCCGTCTCAAAAAAA
AGAAAAAAAAAAGAAATAAAGGCATTAATAGTGTTTATGTGGTGTTTGGTGCAAAGCAAGCATACAATTGATGATTATTTTTCATGAGCTTAATAAAATT
GAGGGTGTAGCTGGGGACACCTTTTGGAAGAGAGAGATTATAGAGTTACTGTTGGATTAAAAAGTGTCTTGTGTATGGAATAAGAATCAAGTGGCATTTT
TATATTTTTATATTTCAGTCCTCTTTCTTTAGTAAAGATGGAGTAGAACTGGCCCAGTCCCCTCTGCTGCTGCCCAGTGCTGCTGAAAGGGCAGTGTGGT
GCAGTGGTTAGAGCATGGGCTGTGGAGGCAGATGGATCTCAGGCCAGCCRTGCTTCAGCTGCCTGCTGCCATGTGTCAGGCCTCCTTGGATATAAAGTTC
CATAATTTCCTCAGGTATTAAAAGTGAGCCATAGTGTTTCCCTTATGGGATTGTAAGGTTTAAATAGAATGGTGAACATAGAGCAGCCAGTGCAGCACCC
ACCCCATGGTCGATCCACCCTCTGCTTCCTTTTCATTTTCTCTGATACTTGACGCTTGCCATATATGGGCTCCTCTTGCTCCCAGTTTCTGTTTCTTCCC
TSTATGACCTTACCAAATCTGGTGTGTTTATTATCCACCAGTCACGTCCCACTGTCTTTCAAGGCCTGACCTGAGCCATCTTCATCCTTGAAGAGTTCTT
CCACCCTCCTCCCCCCATCCCCCCGTTCACCAATTCATTGATCTGTCCTGAATTTCTCCAGTAATACCTGTTTGGCACTTAACTAGTCCATGAGGGGGCA
TAAAGGGACCTCGTAGACCTTGGAAGTCATTYAGTCGACCAYGCTCATTATACAGGTGAGGAAGCTGAGGTCCAGGGAGATAGCAATTGCTTAAGATCAG
GTTTCCCATTTCTAGACTAGAGCTTTCTCCACCACCCTATGTACYGTTTCTGTTTTTAAGCCTGTAAAACAACAAACACCACAATAAACACCAAAACSTG
GAAATAGGAGATTATGTATGCAGACTTGTACTTCATGGGACAGAGAGCTGCTTCTGGGTTTGTACTCTGCTCAGAAGGTGTATGCTTTATTTTACTTTAG
TTGGTAGGTATACTATATGAGTAATTCTCTTTTCTTTAAAATTGTAACACATGAATTAATAAACATACATTTACTAAGCATCTCCTGTGTGCAAAGCTTT
GAGGACTGTGAGCTTCATAAAAGAGTCTGCGCTTTCAGGGCCTACTTGGGCTGTTAAAAAGCTGTAAGGATAAGGAAAATGCAATCCGTATTGAGATTCT
TGAGCTTTCTAAAGTGTTGTTTCCCCACAAGAACTAAAAGGAAACAGATTCAGAGAAACACAGATTGGTGTTCTTACCTTGTTCTCTCCTGTACCCTCTC
CAAGAAAAGGTATTTAGTAGTGGAAGGTATATTCGTTTATATTTCAAAGGCACAATGATGTCTGTTTCACAGCTTTCTGGATGTGGTGAGGGACTTTATT
TGGTCAGCCCTCATTCCTTACCACTCCCTTTGCTATCTTTGATGGGTAAGCAGATTTCATGAGGCAGGCCAGTCTCTCGTTTCACTAGGTTGCCTGACTC
TCTGAAAACTTCCTGACTATCCCAAACCATATAGAAATTTATTTTAAAAGTTTGACAGCTGGCCGGGTGCCGTGGCTTACGCCTGTAATCTCCGCATTTT
GGGAGCCCGAGGTGGGTGGATTACCTGGGGTCAGGAGTTTGAGACCAGGTTGGCCAGCATGGTGAAACCCCGTCTCCACTAAAAATACAAAAATTAGCCG
GGCATGATGGTGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAGCCCGGGGAGGTTACAGTGAGCCAAGATCACACCACT
CCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCATACTTTTTTTTTTGACAGCTGTCAAACTGTAGCCTAAGCCTGAAGGGTTGGGAAGTTGAAAATA
TATGTCATATATATCATGCTCATTTAATCTCTATTGAGATGTTCTTTTTTTCCTTCTTACATAAATATTATGTGCTCTAACTAAACATATTATATATTTT
TATGTGCAGTTCAATGCATAAGGAATTGAATCACAATTGGAAGTCCTCTTTAGAAGGATTTGCTCTTGTTTGACAGATAATAGCAGACTTCATCTCTTTT
TAAAAATAAACCATCAGTTTATGTCATTGAGTATATTTGATCCTTCTAAAAAGAGGTTCTCTYTCATATTTATTTTTTGTCTATGATGTAGTTTTCTAAA
AGTTCGTCTCTATTGGCTACTTCATTTCTGTTCTAAATGTAGTAAGTTCTTGGAAGTGTACTTAGAGGCAATTTAAGGATTTTATCTTAAGCCTGCTGAC
TTGTGTAGTTGAGTGGATGCTAGTTTTTGGTCAGTTGTTCTATTTCATACCTGTAACATAAGGATATTGAGGGTGACTRAATTTTACAATGCTTTGCATT
TTGTACATCTTTATATGTGTCTGCTTCTTGAAATCATTGCTTTTTGTGATAAAGACCCRTCTATGGTTATTTCAATTTGCTTGGCAGGTGTATATTTAAG
TCTGGTTTTGTTTCTTCTAGACAGTTATTTGATAATAGAGATTCATATTGTTTTCTGTCTCCAGCAAATACTCACTGAAATGAAGAATGATGGATTTGGT
GATTTGGGAGTCTGGTGTGTGAAAACACATCTTAAAGGATTCAGGTTTAAGTTTTTTAGTTCTTATACACGGTTCCCATTTTTCTGTAATGTCTTCTTAT
GTCTCAATATGTAAATATTTTGTCTTTACTTATACTAATGTTTCTTGTTACCCAAATTATCTCCTAAGACTGTTTATGTAGACTTGAAATATTTCTTCTG
TCTGTGGGTGTGGGTGTGAGTACCTTCCCAAAAACATCCAGGAATTTTTGCCCACCTACTTGGTTTCCCTGGAGCATGAAAGAAGGTGATTAATGGGGTA
GAAAAAAATTCACAAAAAGCCACCAACAAAAAGCTACCTACATGTTTACATGTATTTTAAAGGAAAAGCCTGTCAGCTGCAATCAAAGCAGCAAGGGCTC
TTCAAGGAAGGTAATATCTATATGTTGTTCTGTTTTATAACATGTAAAATTTTCTCCCCTTGGGAAAAAACGTCTCACAGAAGATTTTCTTGCAAGATGA
CTATGATATGACAGGCTCTGTTTTTGTTATGCATAGGCAGTTGCTTCTATTGTGTTCCCTGCAGCCTAGTGCKTGTGTATTTTCTTAGACTCATCTGGTA
GTGAAGTGGCCTCTAGCTCAGGTCTTCACAGGCAGAACATCCATGCTTTGAGGAGGCTGTATTAGCAAAATAAGAAACCTACTCAGAGATAAGGGAGAAG
CTTCATTGTTGATGCTGTTATTAACTCAGGCTCAGCTTCCTGGTTTGAGAGATGTTCTGAATACATATTGATGGATGGGTTATTAATACATTACATCATG
GTGGAACTTGGCATCCCAGACTGGATAAGCCCACTTGCCCTGTTATATACCAGCATTTGTGGTTTGTATTAATAACTCTGTAATCCCAGCTACATGGAAG
GCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTAAGCCAAGATCATGCCATTCTACTCCAGTATGGGCAACAGGAGCAAAACTCTGG
CCCAATAATAAAAATAACTAACCCAGATTGTGTGACAGGAGATAATGGAAATGATCTGAGTGGCCACCTAATTTCAGTGAAGGAACTAGCCAAGGTAAGT
GACTTGCTCAGTGTAAGTCCACAACTAATTTGTGGCCACTCAGGACATTGAACTGGGTCTCGGAGCAAATTATAAGATAGGTAAAACAGAGGGGACACAA
AYGTGGAATAGTGAGAGGGTGAGGAGAGTGCAGTTCAGGCTGGGATCGTGTGTGGCATATTCGTAGGAAACCACAGAATCTGAAGTTAGTTAGGTTTGGA
TTTCATTTACCACTTAYAAACTACGTGCATCAGAGTAAGAAATTTAATTTCTCTGACTGTAGGTTCCTTGATTATAGAGATGTTGTAAAGATTAAATGAG
ATGACACGTTGGAAGTKTCTGGCACTGTGTAGGGGACATCACATGTTCCATGATGGCAGCTGTTATTGTTCTGGTACCTGAAGTGGGAAGGGGAGCAAGG
AAGGAAACGTGAGGATTGTGATAGTAGGGAGGGCTCTGTTGATTTTGAAAGGAGAGTCCTTTCAAAGCAAGCCTTTAGAAACCTCACATCTGATCATGCC
ACTCACTGTCTGCTTAGAAATCACCCTTGGCCCCTCATCATGTAGCTAGACTTTTAAGTCCTTGTGAATGTGCCTTTCCCACTTGCTCCTTGCAATCCAT
TTGTGCTGTATCTCTGGCAGTTCCTGGAACATGACATGCATTTTCATTTTCATCTTAAGTAGTATGGCATGCACCAATAGTTCCAGCTACTCAGGAGGCT
GAGGCAGGAGGATTGCTTGAGCCCAGGAGTTCAAGGCCAGCCTGGGCTACATAGCAAGACCCCATCTCAAAAAAGAAAAAAAAAAAAAAAGCAATTACCC
CTTTACCCTGTCCCTCTGTCCTGCATTTGCCATCCTTTAAGACTCAATTCAAACTTTATTTCTACTGTGCAGTCTCTTGGACCAGGCTCTCCTCATGTCT
TACTTTCTCTTGCAGTGACTCACTACGCCTATTGTGTTTCCATAGTACCCTGTACACAATATTACAGTGCTTACTACACTGTGTCCTAACGATTTGTTTA
CATGTCTGACTCATAATTATCATTACATTCCCTGGGGACAAGAGCTAGATCTTAATCATGTTTGTATTCTTAGCACTAAGTTGATGCCAGACACACAGTA
GGCACTTATTAGATGCTTATATGACCGAATGAATGGGTGAAAAGCAGAAGTAGAGAAGTTATCTTAAGTTGATATAACAGTATGAGCAAAATATGGATGC
AAAATCAGTGCTATTGTGATGGCAAGAATGAGACAGTTTGAGAAAATATCGTGTTGAGAAGTAGGTTTGTGTAAAATAGAGATAGGAAGATATGATCACT
TCATGAAAGGCTTTGAATATGAAGCTGACCAATTGAGATGTGTTAGGAAGGGTAGCCATTTTAGTTTTTTTGTCAGAAGTGACATGGTTAGATAGCAGAG
TTGCAGGAAAATTAGTMTAATGGTAGTAGGTTAAGTTATTGTAGCAATCCAGATGTGAGTTAATGAGGGATAGGACTAGGGTGATGTCGATCAGAAAGGC
AAAAGGAGAGACACTGAAAACAGCAAACCACAAAAACTCTGGCAAACCAGTTCACTTTTAGATATCTCACATTTTGGTGTGCCAAGGTTCCCAGCCCCCA
TACTCCCTTCAAAAATAAAGTCCTTTCCATTTTAGTCTTTGGTTATTAGTGTGTGAAAACTCTGCCTAAATCCTGAACTYTCTACTCTGATTTGTCAGAG
GAACAGTTCTTTCAGTTTTAATTTTTGTCTTTAGATTTTTTGGTTGGTGTTTTTTTTTTCTTCCCCTAGGCTCATCTGTATAGGACTGTGAGCCCAGAAG
GAAAGTTGGGAAATAATTTGTCAGTATTCTTTGGCATTTACAAGATGTTCCTATAGTCTCATTATAACATGGTTTCCTGACATTTTGTTATGGTTGTTGT
TGATAGTGCTTTTTGGAAAACAACATCTATATCTTTTTTTCTTTTTTAAAAAGTGCTTATATCTTTTAAGTTTTATGTTACTTTGAGATATTACTGTAAG
TTCTTTTGTTCATAGATTATGAAAAATGTCAAAAGGAATTCTAATCAGAAATCAGTTTTGCTCTGTGAATTTGTACATTGAAATTTAAATGATTCTAGTT
AATACATTCTGTCTCTTATTTTCATTTAATGTTGAGGTGAATACACACATGTAAGGCCATATAAGAAGAGAATAACTAATGAGTGCCTATTCTGTCCAGT
CTTGGGCTTCACAGACATCATTTATATTGAATGCTCATAATACCTGATAAAGTAAATATTAATAATCTAGTAAGGCAATTAAGACTTTGGGCAATTAAAT
TCTCACTGTACGTCATTGGGACATGGCAGAGAAGGAAGCCTATGTCTTTTTCTGACTATAGTGCCAGTTGACTCTGCACGTTTGCATACAGCAGTTCTCA
GATCTTCTTAGTAACAGAATCCTTTATCCCATGAAATCAGACTCCCAATATATAAAACAGGTAAGAATAGTGTTCAGTTATATACGTTTATTGTATTTGG
TAYGTTAAATTTAAGGTGGAAATCTATGTTTCAATCTTCACTTGGTTTCATCTTAAAACTTATTTCTATATATTTTGTTTGCAAAATTAAAAAAGTTCAA
AGTTTCAAAGATACGAAGATTCTAATAGCTTTTTTGCTGCATCAATACTATTTTCTTGTCAGAACATGATAAAAATTACAATGTGGAACTTTAATAGCTT
TTTAAATAGTTTGTCTTGTAGTTTCAGGGCAGCATTTGATTATATGGGTGCAGAAAACTTGAGAAATAGGAGGAAATTTTGTTTTAAAGTTGTATTAGGT
GAGGTGCATGGATCACCTAAGGTCAGGAGTTCGAGACCACCTGGCCAACATGGCAAAACCCCTTCTCTACTAAAAATATAAAAATTAKCTGGGCGTGGTG
GGGCGTGCCTGTAGTCTCAGCTACTCGGGAGGCTGTGGCATGAGGATCACTTGAACCCAGGAGGTGGAGTGAGCCAGAATTGCACCACTACGCTCCAGCC
TGGGTGACAGAGCGAGACTCTGTCTAAAAAAATAAAAAACTTTTATTTACTGGCCGGGTGCAGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTG
AGGTGGGCAGATCATTTGAGGCCAGGAGTTTGAGACCTGCCTGGGCAATATGGCGAAACCCCATCTCTACTAAAAACACAAAAAAATTAGCTGTGCTTGG
TGGTGCATGCCTGTAATCCCAGCTACTTGGGTGGATGAGGCTCAAGAATTGTTTGAACCCAGGAGGCAGAGTTGCAGTGAGTCAGCATCACACCACTGCA
CTCCAGCCTGGGCAGATAGAGCAAGACTCAGTATCAAAAAATAATAATAAAAAAAAGTAGTATTACTAATCATATTTAGTGACATCCACAGTAGTTATCA
GTTAAGTACATTTTGAGGGCAGGAAGGGAGTTAGTGAATGCCTCCACATCCAATATTAAATTCATTGTTTGGCAGAAAAACAGTTTTTGAATGTACCTTG
TAATATTTTAAGATGTTACTTTGAACAGTCAAAAAAGGCTGTCAGCTTTTTACTCAAAGTTCCAGAATAGTCAAATTTCTTTTGTTTTACATGTTGAGTC
TAAATGAACACTTTTCTGCAGTCCTTAGTGTAGTAAGATGGGAGCTTGTTCAGCAAGATAGGCAAGTTCATGCATATGAGTTTTATTTCAGAGCDAATTG
ACATAATTTATCAACCAAAGTGATTTATTTTTAAAACACCTCATTAGAAATACTCAGATCTGCACATTGCCACAAAGCAAATGAAAATAAGTTAGAAGTT
GGAGTTGTAATGTATTGGGTATACATACCCTGGTAGTGAGAACTTCCAAGGTACCTTAGTGAAAATGACAGCCTAAATGGCGTTGTCTGTTACTATTTGG
AAGATGCTGACATCTGATGTTTCTAACTGACCACTAGAACATGTGTCAGCAGTTGCTTTTGTAGGGGCCATGCTATTCTCCTGCTCTCTCCTATCATTGC
TTTAAACAGTACACTGTAATGTCTTATAAATCTTCCATGTATTTTTTCTGCAGAAACAAAAACAAACACAGGAAGACAGAGACACATCTGTCTCATCAAT
TCCATTTGAATCATTATAAAGAGTTTAGTCAAATTCATACATCGGATGAACTTATCAAATACAGAGGGTGCTTTTGCTTGAAATCTTCCCCAGGTGGTTT
TGTGAGGATAATGCTCTTAATTTTATTAATTTTATTTTTGTAATACCTTGCTCATCCATCGTAATTGATACGGATCCCTCCATTGCCTTTGGATAATGTT
TACCTCGCACGTAGTTCATTCTGTGTTATGATAATTTACTTTGAATGACAAATTACTTAAATTTTTATTGACAGGCTTTAAGTATAAAAAAGACCTGAAA
TTTGAAATCTGTATTAGGTATTGTGAAGCAAAGTGGGTAAACTTTATTATTGTAGAATTGACTCTTAAACTATGACCAAGTACAGGCACCAGCCAGGCAG
ATGTGTTTAGGCTTTCTCTGGCATTGGAGCATGGTACAGGGCAGTAATGATGTAAGTGCTTCTATATATATGTATATATAGTCATGCATTACTTAACAAT
GGAGTACGTTCTGAGAAATGCTCGTTAGGTGATTTTGTCATTGTGTGAATGTCATAGGGTGAACTTAGACAAACTTCGATGGTATGGGCCTACTACATAC
CTAGGCCATACGGGATGGCCTATTGGTCCTAGGCTATAAACCTGTATAGCATGTGACTGTATTGAATACTGGAGGCCATTGTAACACATTGGTAAGTATA
GTAAGTCCTTACTTACTGGCTTCAATATGCTTCTGGTCACAAAAACATAACCAAACATAAACACTTCTAAAACTAAACTTTGAAATAAGCATGAGTTATA
TGTATATTTTTAAAAGATTAATAAAAACAAGTAAGACAATTTTTACCCAATTTTTGGTGAATCAATGAGTAACAGTGGCCGTAGTGGTGTTGGGTTAAAT
CAAGGAATGAAGTTTGTAAAGCAAAAATTGTAAGGGGCACCTCCTGTTACCATATAATTAAAAAACAAACCAAAAAACCAAAACAAAATAACAAATATGG
CAGGTCACCACATACTTTTGTACTGTATCGTTCATTATGATACATTTATATGATTACTGTTTATTCAATGAATTTGTAGTTGACAATAATTTGTATTCAT
TTTCTGACTTATTCTAGTTTAGGGTCATATGTGGCTGGAGCCTATCCCAGCAGCTCAGGAACCAACTTTGCTAGGATGCCATTCCACTGCAGGGTGCACT
CACACACACCCACGCTCACTCAGACTGGAACCATCTAGACATGCCAGTTAACCTAAAGTGCACATATTTGGGATGTGCACATGGGGAAAATGTGCAAACT
CCACAAAGACAGTGGCCCTGGCTGGGAACTGATTTTTTTTTTTCTTATCAGCATTATAACTGAACAGTGTTGAATGAAACAATGTTGAACAAAATGACAC
TACTTAAGGACCTGCTGTATTTGTGTATCTAAACATGCCAAAAGATAGGAAAAGGTACGGTAAAAATACGGTACTATAATTTATAGGAACACCATCTTAT
ATGTGGTTCGTCTTTGACTGAAACATTGTTATGCAGTGCATGACTGTATGTATAGCGAGGGAGACAGAGACTGTATATATATAGAAAGAGATTTAAGTAA
TTGACTTATGTGATTGTAGGGGCTGGCAAGTCCAAAATCTGTGGGGCAGGCCAGCAGGCTGCAAATTTGGATAAGAATTGATGTTGCAATCTTGAGTCCA
AAAGCTGGAAACTCAACCAGAATTTCTAGGTTGCAGTTTGGAAGCAGAATTCCTTCTTCTGGAACTTAAGTCTGCTATTAAGGCCTATGACACATTGGAT
GAGGCCCACCCATATTATGGATTTGTTTTACTCAGAGCCTACTGATTTAAATAGGTTAATCACATCTAAAAATGCTTTAAAAGCAATGGCTAGACTGGTG
TTTGATCAAGCAGCTGGATACCGTAGCCTAGCCAAGATGACACATGAGATTAATTGTCACGTGTATATTTTTGATTATAATTTTTGAAACATTAATATTT
TAAAATTAAGTTTGATTCAGTGTGAATATGTCTTTGGAAGTCTGGAGCTCTGAGAAGAATGACAAGTAGTTGTTTACTTTGAGAGGCAAATGGTATTGAA
AGAGCCAGTGATTTGCAGCTGGGTGATTTGGGTTCAAATAAATTCCAGCTATGCCATTTACAGTTTGTGTGACTTTGGTCAGGTTTCTTGAACTTGAGTC
TCAATTTCCATGTTAATAAAATAAGGTATTACTTTATCAAGCTACTTTAATAAGCGAGAGAATGCTTGTAAAACTCCCACTGAAGTGACTGGCATATAGT
GGCATTTAATACATGATAACGCATTATTGTCATAGTGATTATCATTATAAGCTTAGGTTTATATTACAAAGTTTTTTATTTCCCTTTATATCTTTTAAAC
TATATCCTTTTACCAAGTGTACTGTACTTTCTGTAGTTTGTGGGAAAAATTGAATCAAAATCTAGCATTCTCAACTTTAGAGTTCTTTTTTCTAAGAATG
TTGTAATTGAACAACTAAAAGAGACAATTGACATTATGCCATCAGAGGGTTGGACGAAGGTTAACTGAGGTATCCTGAAAAGCATCTGCCATGCTGGAGA
GGATGTGGGGAAATAGGAATGCTTTTACACTGTTGATGGGAGTGTAAATTAGTTCAACCATTGTGGAAGACAGTGTGGTGATTCCTCAAGGATCTAGAAC
CAGAAATACCATTTGACTCAGCAATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATTCTACTATAAAGACACATGCACACATACGTTTATTGC
AGCACTGTTCACAATAGCAAGGACTTGGAACCAACCCAAATGTCCGTCAGTGATAGACTGGATAAAGGAAATGTGGCACATAAACACCATGGAATACTAT
GCAGCCATAAAAAAGGATGAGTTCATGTCATTTGCAGGGACATGGATGAAGCTGGAAAGCATCATTCTCAGCAAACTAACACAGGAACAGAAAACCAAAC
ACTGCATGTTCTCACTCATAAGTGGGAGTTGAACAATGAGAACACATGGACACAGGGAGGGGAACATCACATACTGGGGCCTTTCAGGGGGTTGGGGGCT
AGGGAAGGGATAGCATTAGGAGAAATACCTAATGTAGATGACAGGTTGATGGGTTAATGGGTGCAGCAAACCACCATGCACATGTTGTGTACCTATGTAA
CRAACCTGCACATTCTGCACATGTATCTGAGAACTTAAAGTATAATTTAAAAAAAAATGTAAAGAAAAGCATCTGCCACAGAGCTTGGGCCAATAAGTTT
GGTTTATTGTGTTTTAGTCATTGGTATATAGCTTTTCTGAAGTTATGCATTACAGTTAATTACATTCTAAGAGTGCATTATAAGGTTAATTTCTTGTTTT
GATACCAGGGTTTGTTAAAAWGGAACAATATTTTCTAGAAAAGCTTTAAAGTAGTCATATTCTTACAGATTTTAAATCTAGGACTTTGTCTAACTATTGA
TGATTTATTGAGTAGCTCTGGGATTTTTTTCAGAAATTAAAAAAAATCTTTCATCTGTACAATTTTTCAGTTTTGTTTAGAATTCTTTTTTTGTCATTGC
ATTTTTAAAGCACTCATTTTAATTTAATAAAACGATGAGTGTGTCTCCTAAAGTTGACCACACAACTGCAAATTGTATTTTTTGCATTTCTTTGTTGGCA
GTAGTAGTTTCCTATTGGCTGTTCTGTACTTATATATATAGATATACATATATATTTTTGTTGTTGTTGTTGTTGTTGTTGTTTTTGAGAGACGGAGTCT
CRCTCTGTCACCCAGGCTGGAGTGCAGTGGCAGGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTAATTCTCCTGCCTCAGCCTCCTGAGTA
GCTGGGACTACAAGCGCACGCCACCACATCCAGCTATTTTTTTTTGTAGTTTTAGTAGAGATRGGGTTTTACTGTATTGGCCAGGCTGGTGTCAAACTCC
TGACCTCGTTATCCACCTGCCTTGGCCTCCYAAAGTACTGGGATTACAGATGTGAGCCACCACGCCTGGCCACTTGTCAATATATTTAAAAATTTTTTTA
TTTTTGGCTTGTCAGTATTGACCTTAATATTTGTAGTATTGGGAGTATCATGATAGCAGAAAGGACTTTGGAAAATCTATTATTAGAGGGCTTCACATGG
GTGCTTCTGTAATAAAATGAATGGTGAAAAGAGACTTAACCATTTATAGTTGTTGGCTTCGGATAAATCTCCCAGAAAATAAGTGGATTGGAGTCCATTA
ACCCAAGCTTCCCAAAGCATAATGGGAGTTGAGCTTAGGGCCTGTTTCCTAGTGAGTGACCTACTGAGGCTTAGGGGCTAGATCAAAAGGATCTGGTAGT
ACTGAGTTTCTTAGTACCAAATTGAAAATGGATTTCTTTTTTTTAAAAAAGGCCTTTGTTACAATCTTATTGCCTGAGATGATGTAACATGTTAATGGGT
TATCCATTTTGTATTGTTTTTTTKTGTGTGTGTATGTGTGTGTGTAAAGAATACACACAATCTCAATGCTGAAATGAATTTGAAATGTAAACTAATTATT
TTCAAGTGCATAGGATATTACAGTCTAAGGTAAGAAACAGTAAGCTAGTACTCATTTGTTGTGCTAAGCAAATTACTAATTATTTAGGTGAGCATGAAGA
AGAAAACCAAACCAGAAAGGTTTAGGGATATTAATGTTCTTCAAATTAGTTAAGAAAGTTAGCAGCAGCCACTGAATGAGGACCTACTATGTGTAAGCAT
ATTTTATGCTCATTTTCCTCACAAGAACTCTATGAAGTAGAYATCAAATTATTGCAGGTCTCTAATTGCATATCCAGCACTCAAGGCAAGAGGTGTTTCA
CAATTCATGACTTTTTTAGGTTTTTAGAAAAGTGACACATGGGCTGGGCRCGGTAGCTCATGCCTGTAATCCCAGCACTTTGGAAGGCTGAGGTGGGTGG
ATCCATGAGGTCAGGAGATTGAGACCATCCTGGCTAACATGGTGAAACCCCATTGCTACTAAAAACACAAAAAATTAGCCGGGCATGGTGGCGGGCGCCT
GTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGAAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGG
CAACAGAGCGAGACTCCATCTCAAAAAAAAAAGAAAGAAAAGTGACACAGGTATATACTTTATATCAGTGGTCCCCAACCTTTTTGGCACCAGGGACTTG
TTTTGTGGGAGACAGTTTTCCACTGTTGAATTCTGCCTGGAGTATATGTTTTAAAATTCAATATGTAACTTCATATTACAGACTCTCTACTGTACCTGCT
ATATTGTGTATTACAACAACATCTGAACTCAGTGAATGGTTTTAGGTTCATTGTCAGGACTCTGGGTCCATTTATATGGCATATAAGCATTTTAACTTGT
TTCTTGCCATATTTTCAAAACAGCCTTGTGTATGTCTGGGAACAATAAATAGGGAGTTTCATTATCACTGTTGTGCTAATGCATGTTTAAAGTTAGACAG
ATGAGTAGCTGTTCATCAATATATGTAAAACCTAGAGAAATGATTAGCTATTCATCAATATATGTAAAACTTAATTATTAAAAAAATGTAATGTCCTATG
TCTGTGCACTGGGAGATCCAGGAAAGGTAAAAGTTAAGTCATTATCCTCAAGGAGATTACAGTCTAGTTGGAGGTGTATATTATACTATTTATTCTGTTG
TTTCAGTGGGATTTGTTGTGGGAGAGAAAGGTAAGTTAAACAGAAAGCCTGAAGAGAGGTCTGGGTGTCCAGTGTGTCAGGGAATGCCTCCTTCTTGTAG
CATCCAACCAGATTGTTTTGGGAGTTAGAAATGTAATGCAGTCAGTCCCCCAACTTAAAGAAATACAGCCCAGACCATCTGGTATGTCACAGTTGTGTGG
TAACAGCAGTAAGGAGCATCGGCTGAGTCTGAGGGGAGAGCTGGGTGCTCCTTGCACCTCCCTGGCCCTGGCAGGTCTCTTTGCTGATCTTGTGCTGCTT
TCTGAGGAGCCTGTTTTTAGAATGCTTCTCCAGGTAGCCAGCACCAGTGGACCATCATTGAAGTAGGAGTGGGTGTTGAAAGAGATAGGGAGGGCATTCC
AGGTAGATAGTGTGGACAAAGGCACCAAGCCTGAAAAAAGAATGGCCCGGTTGAATAATTTTAAGTAGTTTGAGATGGCACAGTGCCCGGCACACAGTCT
CTTCATAAATGATTACTCAAAGATTGAGTGAGTGGACAGATGAATGAATGGGCTAGATTGTGGCATGTGCGTGGAATTAGGTAAGAGATTCTTAGACTTG
ATCATAATTGCCTAGTAAATCATTCTTCCATAGCCCTTTTATAAGGTAAATACCTAGTCATAAAGTTCAATCTGTGATTCACTAGTTATATTTGCAAATT
ATTTAGTCTCTGGGCCTGTTTCCTCACCTATAAACAAGGTAGTTAGGCTTGAGAACTCCTCTATTCCTTCCATCTTTAGAATAGCTATGATTTTAAGTAA
AGGGACAGGGACCAACTAGTGCTTCTGTTGGGGGTTCAGAGCTGAACCTCTTCTGCTGTCCTGGCTCTTTAGGCATCTCTCTGGCCTGTCACAGAGGTTG
GATGACTGGGATGCCTTGTGGATGCCCAGATGTTCCTGGGATACTTCCAGTTTTGTGGGTGATGGTAATGTCTGTGTGTTCTTCCTTTGTCATCTGGGCC
GTGATTTGAAGGATATACTACCATTTGTATTTAATGTCTAGGGTGGTGAGATAAGAGCTCCTATTAGATTTTTTAACTAGAAATGGAATAAATGCTGTAT
CTAGTTAATAATTAGGAAAACTTTACTCATATTTTTTATTTGGGGCTTAAGGAGAAAATAAACTTTAATTTAGGGATTTTTTTTTTCCTGCTTGAATTCA
GTAGGGTCTTCCTCAAAATCTTAAATGGGAGTTCTCAGTTCCCCTTGTAATGTCAACCTCGGCAAATTTCTTCTGTTGATATGGAAAGAATTGTTGGACA
GGTGGTAAGGGTAACTGAGCAGTGGGTAGGGATGAGTTCAAAGAAGAGAAATCCTACAGACGATGGTTGGTTGGATGATAAATATGAAGGATTGTGTGCT
GATGTATTCCCTGTGGTGGTCTGCAAGAGTGTGTGGGAGACATTTGTTCTCATTTCCTGTTTCATCACAGCCTGCCACCTGCTGTGTCGCTATACAAAGT
AACATCACTTTTAAAGATTGCTGTTTAGGAAATCATGTTTTATATGTCAGGAAGCTGGGTTTTTTTTGTTTTTGTTTTTTTTTTTTTGAGTCCCATTAAA
GACTGATCCAGGAAGCATCTCTCTATATGAAACTTGGTGTGTATGTGTGTGTTTGTGTGTGTGTTGACAACTTAGGAAATTGGTGATTGATGCAGAAAGG
AAGACAATGAGTAACTTGGGATTGTGCCTGTATGGATGTTTTGTCTACACGTGGGTGGAGGAAAATACTTGATGCTGTGTTCTGTAGCTATTACCCTGTG
GAGTTTCTCACTTGAAAATTGAAGCTGTGTCCAGATACAGCTGTAATTCAGAATAATAGCAACATAGTACTGTCTTTGTTTTTCTGGGCCCTGGGAAGAC
AAGTCTACAGCTCTTTGAGGTTCATGTGTGACTCTACATTCCGGCCTCATTATTTGGAGGTTTGATATTTGCATGTTTGCCTGCTTGCTAAGCTTTGAAA
CCACAGAAATCAATCTTTATGGTAGTTTGTGGTCATTTGGGGACATCTGCAGAGCAGTGAAAAATTTGAGTCCCTGAAACACACACAGCTCAGCTGAAGT
AAAAGGAGGTGATGTTCTGCCTTCTTGTTTCAGCTGCACTGCTGTAAATAAATATCACTTTCTTAGCCTATTTAATGCCGTATTTTCCCCATTTCTGTCC
TTTTTATTGGTGATTTCACTGCCTAACATGACCCTCAAGCATAGTGCTGAAGTGCCGTCTTAAGTTCCCAAACACAAGAAGGTGTGTGCCTTAGGGAGAA
GGTGCATGTGATGGGTAAGCTTTGTTCAGGCAAAACACATGGAAAACAAGGTTATATTCTGTCCAGTTGACGAAAATGTTGAGACCAGAGGTTTGCAGAT
GTCAACTTCTGAAACAATGATTCTGTATTCTCTAATGCAGTGTTATGTTATAGAAATACAAGTACCATGAGCAGTAAAAATTGTATTTAGAGTAGAAGCT
AATTGGTCCTAGTCATGGTTCACATATCTGGGTGAACATGGGGAATTTTTATGCCTTGTGAAACATATTTTAAAAGTTACCTTTTGAAAATTAAAGGAAC
TGTTTGATTTGGAGCTAAGAACAAATAATAGCACATAGGTAGTTTGACTTTCTGAATTCTTTTAAGTCTGCTATTTGGAGGCACTGTTTGTCATAATGTG
ACCATAGTGAGCTTCTGAGTATGGATGAAATCTTGTTACAACACATTCCAAAGACGATGAGGCATGGGGACATTTAATTCAAGTGTTCGTTGCAGGGTCT
GCAGACAGCTCTTTGAATATCTTAAACTCCAAGGGTCCTGTCTGACTTATGTATCTGTCKGCTTCCTTAGAGGCCAGCTTCATAGAGAGCCCTCTTTCCT
CAGATTTTCAACATTGTATTCCGTTTGCAAAGACCCTTCTTTATGGGTGTGGTCACTTCTAGAACGAATGCCTCAATTGAAGCTGGGAAATGGTGGAAGA
GACTTTTTCCAAGTTGCTGTTACTGGGAGCTGTGAGAGACTATTGAGGTGTGATTAATGAATGTCTTTTGGGTATTGCAGGTTAAAACAGGGGTCCCCAA
CCCCTGGGCCACGAACCGGTACCAGTCTGTGGCCTGTTAGGAACTGGGCTGCACAGCAGGAGGGGAGCAGCAGGCAAGCGAGCGAAGCTTTATTTGTATT
TATAGCCACTCCCCGTTGCTTGCCTTATGGCCTGAGCTCTGCCTTCTGTCAGGTCAGCTGCAGCATTAGATTCTCATAGGAGCATGAACCCTGTTGTGAA
ATGTGCATGTGAGGGATCTAGGTTGCGTGCTCTTTATGAGAATCTAATGCCTGATGATCTGTCACTGTCTCCCATTGCCCCCAGATGGGGCCGTCTAGTT
GCAGGAAAACAAGCTCAGGGCTCCCACTGATTCTACWTTATGGTTAGTTGCATAATTATTTCATTATATATTACAAATGTAATAATAATAGAAATAAAGT
GCACAATAAATGTAATGTGCTTGAATCATCCTGAAACCGGTTCCTGGTGCCAAAAAGGTTGGGGACTGCTGGATTAAAGGACAGAGTCAGCTGGACATCA
TTGTAACATCATTGCTTGGTGTTTTAGTAGCATTAAGACTTAAGTTTTGCTTTTTAAATTTACTTCTATATGTTGCTGGAGAGGATTTACTTCTGTCTCT
GGTGATATTCAGCTAGGTTTTTTAGAATGGTCTGTCTGTGGGACAAGAAAAAAATCTCAGCTAACAAAATAGGTAGGGATTTCTGGATGTAAACCTAGGA
GAAGTTAGGAACCACAGAAGTAAGCCTTAAATGCCTTTTCCAATCTGAAAGAAATAGCTATAAAAACAAAGGTTTTGGCAGGCTTATGGGGAGACAGAGT
CAGAGTTCAGGGCCTTTCAAAGATATGTGGTCTGATAACCTCCCAAACCTTTGAGCTTGTTCTCTAAAAAGCTTTTATCATCTGTGTAAAGGGAAAACAG
AAATACACCATTCTGTGAGTAGAGTTGGAGCCAGCTTTGCATCACCTAGGTAACCCAGTGGGCACTCAAGCCTTGAACTTGTGTTAAGGTCAAGCCAGTT
TGGTGTTACTCCCAGGTGTCTGGTATAAGCAAGTGAACATTGTTTTGGAGCAAGATACTAGGCCTCAAAGTACTCATATATATGTGTATGTCTGTTTTAA
AATACAGTGTCCAGCACATAGTCAAAGATGGTTAGGCACATTAAAAAATAGGGCTATAAATGAAAGAAAACCTAGCAAAATAATRGACAAGAGAAGCAGA
TACCCAAATTTCAGGTATAGAAATTACAGCTGTGTTTAGTATGCTTAACAGAAAAAAGGACAAGTTTGAAGATCAGGCCACTGGAAACAACAAAAAAGTG
GCATAGATTACATAGATTAGAAAACAACCTTGTAATTCTGGAACTAAAAAAATCCATTGCTGGGTTTAATTTGCAGGATTTACACATGTTGACCTATAAT
TTTTCTTACTCCTTTTTCCCTTATCTGATTTGGTATCAAAGTTATACTAGCTTCATAAAGTGAAATGGAAAATATTCTTTATTTTTCTGTTCTAAAAAAA
TGAAATTATGCAATTATTCAAATGGAATACATAGTAACATTAGTCATATGTATCTTTTACAGACTGACAGGTTAGTGCCACCAAGTATTCACAAGTTTCT
GTTCATAGAGTATTTTTATACAAAAAAACAGTGAATTTAATAGCACTTTTTATTCTCTTGAGTTTTAGGGACGTACAACTCAGGAAATGCTGAGTATTTG
GAATCTAAGAGTGACATGTGCATGTGTAAAATAAGTGCTGTTATCTAAAAAATACATCATAAAAGTTTACCGTACAGTGTGTGCACCCTTGGACATGAAT
AGAAGACAAAAGCAATAAAGCCACTTAGTAGTGGTTTACTAAGTGTTCTGCCACTCTTGACAGGGTCCTGGTCTAAAGCTGGCACTGTCAGCATGTGAAA
GGCTGCAGTCTGTAAGGACCTGGGGAAGAGAAGACATTTTCTGTATGAACATAATTGTACAGTAATATTGAGCCTGAGTTGCAGGTTTTATAAAGGAAGA
GGAGGCTAAGTACTTACTGAAGGAAGAGCTAGACCTTTTCTCTTTATTCTATTATGGGAGATTTTTGACATTTTATGAGTTAGAAAAAGTTATCTTTTTC
ATTCTGATCTGTTAGTTTTATACCTTTAATCCCCAATCTTACTGTGAATTACTGGAGTCTATTTTTAAAATCTTGGAAATTTTTTATTTAGTGCTGCAAA
AAAGAAAAATGAAACTTTACCTGAATACTAGGTAACTGAATAGACATAACGGAAACCTCTTCCATTTATCTACCTTGGGTRTATATATTGGCCTTCATCT
CATTTAGTTTTTACTTCCTCCCAAATTCAGACACAACCTCAATCCCACTTAAGACTAAAAGAATTATACTGAAACAAGATTTGCCCACTGCTTATATTTT
TCTTGTCTAACGGAAAGTATTTTCCAAGATAGATTATTAAAATTATAGATACATTTGAGCAAGAATGAAAAAGAAAAGGGTTACCTCAGAGTTCTGTCTG
ATGTGGGCTTTTTTTTTTTTTTTCGAGACAGGGTGTTACTCCTGTTGCCCAGGCTGGAGTGTAGTAGTGTGATCACAGCCCACTGCAGCCTCGACCTCTC
CAGGCTCACATGATTCTCCCACCTCAACCCCAAGTAGCTGAGACTGCTGGTGTGCGCCACCACACTTGGCTAATTTTTACAAGGACAGGGTTTCGCCATG
TTGCCCAGGCTGGTCTCAAAGTCCTGGACTCAAGCAATCCACCCATCTTGGCCTCCCAAAGTGTTGGGGATACAGGAATGAGCCACCGCGCCCAGCGTAT
CTGATGTTTTTAATCTCTTTACAAGCATGGGTTCCAAGTGGCTATCAGTCCTGTGGTCTCTAAACTTTGATTAAGCATGCTAGTAGTAAAATATTTCTTG
GCATACTCCTGTAATGCCTGTAAATTGATTTATACTTACAAATAATACACATATATGGTATAGTAATATATGTATTACAAGGATAGGAAATAGCTCAGAA
GGATGTGGCAAAACTAAATATAGTGTTTTTAATATTTTCTCCACATCTCAAGGGACCTCTTGTTTACTCATTTTGGATACTGATGATCCAGACTCCCCAC
TCCTTCTCTCAGAAACAGGGAATTTACACTTTCTAGAGTTAGCCCATTTCAAGTGTTGTGTTAGTTTGTATAGTAGAGTGATTGGAATGAGTAGCCACAA
GCATTTGATGGAGCAAAACTCTCATATTCTGGGAGAGTTTTTAAAACTTAATTTCCTTTCAAACAGATCCTTGAGTTCTGGGTATTTGAAATGTTTGGTT
TGTGACTTTCAGCCACCTCCTTTGTGGAGAGGAAGAATAAGAGCTATTAAAATAACAGTTTCTTAATTTCTTGGCACTCTGGGACATATGAAATCAGTAG
ATTTGACATTATGTTGTCTGGTCAATTTCTCTAAATGTTTCTGCAGCTGTCATAAGCAATGGCTCATAAAACCTCATTCTGTCATTTTGCCAGATCTTAT
AGCAATGGGTACAGAGAGAACTTTTTTTTCTTTAGCAATTCCTTTCCAACAGTAAACCTGTAACTATGCCTCCACAGTAAAGAAGGATGGATATGAAGAA
TCCCATCACCCTTTGGAAGTTTGCGTGCTTTCCAAGCTTTTTTTGTTATTGTTGGGCACACTTTATATTCATGCTTTCAGCTTCCTTTCGTTTTCCTTTA
TCCCTGAGTAGGGAAGAAGGACATTTTGTCTAATTGAGATTTGTCATTTTTAATTGTTAGCAGTAAGGAACAAAAGAGTGCTGCAGTGGGATTTTTGATG
AAAAATGAGAAACTTGAGGGAAAGCACCTCAGTAGTTGTACTTTGCTCCTTCGATGTTTTCCATGACCGTTTGTTCATCCTTCTTTACCATCTTTGTCCA
TCAGCCCAGGGGAGCAGTGGAACCAAGCTGGGTGAGAAGGCAGGAGGGGCTAGCCTCCATTTTCTCTTCCCTAGTTCTTCCCCCTCACACCAGCATATCC
TACCTTTGTAGCCCTTTAGGAAGAGACAGTGTACCCAGACCATATTTCATCAAATCCCCCATCAAGACAAAGTCCGTCTGCCACTTGCTTTCCTTCTTTT
CTGCCATTTGTTGCCAGTCCATCATGTGGATATACTGTCTAATGTTGTAGGTTTGACCATTGGTTATTGAAGCTTGGATATACATTTGTGTAGAAAATCA
CTGGCACTCAAAACATTTGTACACATGCAGAAGAAAAATCTCTTAGAGACCCCACTGTGTCTCCCCTTACCATCTAATACCTTGTCCTAAATACTTAAAC
ACAGAAAAATAKTGTAACTTTATACCCAGGTACTTAAAGAAGGACCTCTTGATTTTAGTTGTTACCTAGTGACTTTTCACTGCGGTCTCTTGAAGTAGCC
AAGATTGCGTTTCATGAGTTCATTTTGGTAACTGATGTAATTAAGAGATACTTTGGAGAACAGTGTGGGTTGCTTTTGTCTAATTTAGAGAAAACAGAAG
AAAGGACYTAAAAGGAAAACAATCTCAAACCCAACTTGCCCCTGCATTTCTCCTTTTTTTTTGAAAAGCATGGATGCTTGGTGAAAGTCTTAGGGAAGTG
ATTCCTTTGAAGTACCTAGGAGAATAATTATATAGCATTTTCATTTTACATTGTGATCCTGTTAGTCRTTTTGGAGAGGGAAGACTAATGATAGCAGACA
ATGCTGGCTATTTGCAGGAATGCCTTTCCCTGTATCCTCTTCCCTGTTGCTTGTTCTCAGTGCTGTTCTGATGACTAGCTCTTTTTCCAAACAAATTTTT
AATTTTTCCATAGGTTATTGGGGTACAGGTGGTGTTTGGTTACATGAATAAGTTCTTTAGTGGTGATTTGTCAGATTTTGGTGCACGCGAGCACTATACA
CCACACCCTATTTGTAATCTTTTGTCCCTTGCCCCCCTCCCATCCTTCCCATCAAGTCCTCAAAGTCTATTGTATCTTTCTTAGGCTTTTGCATCCTCAT
AGCTTAGCTCCCACATATCAGTGAGAACATAGGATGTTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAAGAGTCTTCAGTCTCATTCAGGTCACT
GCAAATGCCGTTAATTCATTCCTTTTTATGGCTGAATAGTATTTTTATGGCCATTGTGTATATATATATATATATATATACAGTAGCACAGTTTTTTTAT
TCACTCATTGATTGATGGACATTTGGGTTGGTTCCACGATTTTGCGATTGTGAATTGTGCTGTTATAAAACTGATGACTAGCTCTTACCAGTTTTCTCTC
TCATGTGTTTGGGGCAATAAGTTGTCTCTTAAATTTATTCAACCCTGACATTATATTTTTCTTATCCCTTAAAAGTTGTGTTTTGCTTTTTGTTTGCTTG
TGTGTGTTTGTGTGTTTGCATTTTAGTGTACTTATAAAAGCTTTTGGTTCAGAAAGATTACTCCCAACAAGAATTTTATTATATTTGATATTCTTGACTA
GTTATGTATCCTGTTGTTTTCTGCATCTGGAGATAAGATGTTAACTGGAAAGATATTTATCACATTGGAATGTTAGTTGCTTTTTTAAATGTGCTTAAGG
CCCAAAGCTCARTTAATAAGATAGGATCCTCATATCCCAAAATCTTGAGCCAAGGGAGGGAACTAAACCTTTAACAGATGAGCTGGTCAGGCGCGGTGGC
TCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGTGGATCACGAGGTCAGGAAATCGAGACCATCCTGGCTAACACGGTGAAACCTCGTCTCTAC
TAAAAATACAAAAAAATTAGCCGGGTGTGGTGGTGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTAGGAGAATGGCATGAACCTGGGAGGTGGA
GCTTGCAGTGAGCCAAGATCATGCCACTGCACTCCATCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAATAGATGGAGTAATTTTAACTC
ATTCTTATGTTGTTGTTTAAAGGCAACACTGTGAGATGAAGGGGATCGTGACATGTAATTCATGTAAGAAATTGTAATAATAGAAGCTTTAATAACATAT
AAAGAATATTGAGTCTGGGCACGGTGGCTCACCTCTGTAATCCCAGCAATTTGGGAGGCCGAGGCAGGCGGATCACCTGAGGTCAGAAGTTCGAGACCAG
CCTGACCAACATGGAGAAATCCCATCTCTACTAAAAATACAAAAAAATTAGCTGGGCGTGGTGGTGCATGCCTGTAATCCAGGCAGGAGAATCGCTTGAA
CCCAGGAGGCAGAGTTTGTGGTGAGCCAAGATYGCACCTTTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTGTCTTAAAAAACAAAAGAATATTGGA
AATAAGGAGGAGTGAAGAGTGAAAATTTTAATCTCTGTCCTGCTCTCTGGGAGAGAGAGTGCTCTAATTTTAGACAACTAGACATTATTTTTAGACAGAA
CCATTGCTACAGAAGGGCAGTTTGCCATAATTTGATAGAACTGTTGCCTAAGAATGTTCAACTTTCATTTGTTCCAATTCTCTGCTTATCAAGCAACTTT
CTGATCTCTAATCTGGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTG
TGATCTCAGCTCACTGCAACCTCCACTTGCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTGCAGGCACATGCCACTACACCCA
GCTAATTTTTGTATTTTTTGGTAGAGACGGGGTTTCACTATGTTGGCTAGGCTGGTCTTGATCTCCTGACCTCAAGTGATCTGCCTGCCTTGGCCTCCCA
AAGTGCTGGGAGGCAATTCACCTTCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTGAGCCACTGCACGTGCCCAGCCCTCTAATCTGGTCTTCTKTG
AGGACTTGTCCTGTGCAGATATCTATTCCCATTGTTTTAACAAAAATAGCTTTCATTGAAATTTTACATATGATTGTTTATGGTATTTAAATTAGTTTGA
TTATCACAAGTCAGTTCCCTAGAACCTAATCAGCATTTAATGGACTGATAAAAATTCTGAATTTGAAGAGCGGTAGATCAGGTGATTTTACTTGAAATAA
CTAACAAGCATTATTAGATTACACAGAATTCTGCCAAAAAGAAACATAAATGTTTTTATTACTGTAGTCGTTTTACAGTGTTACTCATGATCTCATTGAG
TAATGATAATGCCATCCATGACAATGTCAAAAACGTGTTTTTTTTGGATGGGTGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGAGGAGCCGAGATGG
GTGGATCACCTGAGGTCAGGAGTTCGAGACTAGGCTGGCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGTGCAC
ATGTGTAATCCCAGCTACTCTGGAGGCTGAGGCAGGTGAATTGCTTGAACCTGGGAAGCGGAGGTTGCAGTGAGCCGAGATTATGCCATTGCACTTTAGC
CTGGGTAACACAGACTCTGTCTTAAAAGAAAAAAAAAWTTTTTTTGCTTTTTAAAAATTGTACTAGCTATTTTTTCCACAGTGCTGTTTAAGTTATCACA
GTTTCTAGGCTGTGTCCTTCATCATTGATTATCTACATCCAGATAGCTGATCACTGATGAAATATACATGTGCAAAACTTGGAGATGTGGACACTAGTTT
TAGCTGCAGCTTCTGAAGTGGCAGGATGGGGTGGGGCAGGGTGAGGTAGTGGGTATAACTGGAGTCTTCAGCGGATCAGCCCCACTTTTGTCACCTCCCT
TTCTCTGGAAGCTAAGGATTCCCTCAGCTGCAGCCTTGGGGCTTAGGATGATTGATAATAACCCCAGCTCCACTTATTGGTCACTGAGTTGAGTCAGACC
TGCTGGGGATCAGAGGTTTTGTTTCTTCCTGTTTTTTTTTYCCATACTCAGTAGCTAGTTAAATYTCAACCATTATAGTTTGATGCCAGTGTTTTAAATC
CTGTGTTAAACAAGAAACTTACGTTGTTAGACTGTGTGGTAAGGTTTTAGTTTTTAGTTAGTTTTTTTTTTTTTCAACACAGTCCTTGGCTTTGCTGATT
TGGACCTAACAGCTGGCCTTAGGACAACTGTTTGGCAGTACTAATGTTCTCAGATATTTTTTAAATGTATTTTATTTATTTATTTTTTTGAGACGGAGTT
TTGCTCTTGTTGCCCAGGGTGGAGTGCGCTGGCGCAATCTTGGCTCACTGCAACCCCCATCTTCTGGTTTCAAACGGTTCTTCTGCCTCAGCCTCCCAAG
TAGCTGGGACTACAGGTGCCTGCCACCACGCCCGGCTAATTTTTATATTCTTAGTAGAGATGGGATTTCACTATCTTGGCCAGGCTGGTCTTGAACCCCT
GACCACGTGATCCGCCTGCATCGGCCTCCCAAAAGTGCTGGGATTATAGGCGTCAGCCACCGCGCCCGGCCTGTTCTCAGGTTTTAATACTTTTGAATGT
AAACTGCCTTTGAAAGGCTATAACACAGTTCAGTTGGCTTCTAAAACAAGTGTTTTAAATGAAATTTAGTAATACTGTTTAAAAAATGAATAACTTTATG
GCCAGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGACGGATCACTTGAGGTCAGGAATTTGAGACCAGCTTGGCCAACGTG
GTGAAACCCCATCTCTACTGAAAATGCAAAAATTAGCTGGGCATGGTGGCACACACCTRTGGTCCCAGCTACAGTGAGGTGAGATTGTGCCACTACACTC
CAGCCTGGGCAACAGAGCGAGACTCCGCCTCAAAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATCTTTAGAGTGTTTTT
AGGTTCACAGAAAAATTAAGTCAAAAGTGCAGAAGTCCCACATATTTCCTTCCTGGATCACCACACACATAGCCTCTGCAATTGTCAACATTTCCTATCA
GAATGGCATAGTTGTTATAATCAATAAAACATTAACATGTCATAATCCCCTAAAGTCTATAGTTTAGGCTCTCTCTTGGTGTTGTGCATTCTAAGGATTT
GGACAAATGTTTCATGATATGTGCTGTTACAGTATCATTCAAAATAGTTTCACTGCCCTAACAATCCTCTGCTTTGTCTTTCATCCTTCTCTCCTCCCCC
ACCTCCAGGCAATCACAGACCCTTTTACTGTCTCCTTTCCCAGAATGTCATATAGTTGGAGTMATATATTATGTAGCCTTTTCAGATTGGCTTCTTTCAT
CTACTTATATGCATTTAAGTTTCCTCTGTATCTTTTTGTAGCGTGATAGCTCATTCTTTTTATCACTGGATAATATTCCATTGTATGCATGTACCACAAT
TTATCCATTCAATTACTGAAGGACATACTGGTTGCTTCCAAGTTTTGTCAATTGTGAATAAAATTTCTATAAACACATCTGTATACATATTTTTGTGTGG
ACATACATTTTCAACTCAGTTGAGCAAATTCAAGGGATGGATTACCATACATTTATCATACCATTCAGCAATTGTATGCTAAGAGTATGTTTAGAAGAAA
CTGCCAAACTGTCTTCCAAAGTAGCTGTACCATTTTGCATTCCCACMAGCAATGAATGAGAGTAGYAATGCTTTCGAATACTAAAGAGATTGCAATGTTA
AATGTATTTTTGATGATTTCCTTGTGGAGATATCATTATGGCAAAGGACCATGAAGCACGGTAAAGCAAAGGACCATGAAGGGTCATGGTAAAGGAGGTT
ACTGGTGATAGGTGTGTGTGTACGCAGGAGTTGAAGGGCAAGGGCTTCCCAATGTTTTCCCATCTCCAAATTACCACAGCCCACCCAGATACTGTGTCTT
ACATTTTAGAATCACTGCTGGAAATGGAGTTATATTGTTAATGTGATTATGCACTGATGTGCTTTCATTATATTAGTATTGGTGATGAAAGTATCTTTGT
CATTTTAGGCATGTAACTAGGCCTGTAAAGATGTCTTAATTGGGGGTTTATTAGGATTAGTGTCAACCGTATGGCAACCATATCCCAGTGCTGGGAGTCA
AAGTTAGAACTGTGACTTTGGACATTGCTCTTTAAGGTCAGGGTAGTGTCCTGTGAGGTTCTGCCAGCCTCAGCCTTGATGTGGATAATACCATCATTTG
TAATGTTGTGATATGGTGGAGCAGRAGTTCTCTGGCCTCAGAAAACATAGCTTGTGTGAAGTTAGTGAAATGCTCATGCTTCTGCTGTCTGTGATACTGA
ATCTTTCAATATTTTTGGCCTTAACTGTGACTTGTTCTGGTGGGAGAACTTGGAAGAAGTGAAAAAAGATCAATAACTTTTTGAATTGGTGCAAGACAGG
TAAAGAAGAGAAGTGTTGGGCTTTCTTTTACATTATTCTGTTACCATCAAAGGTAGATTCCCTACTATTGCCATATACAAATATTCTTTCATTCCACAGG
ATTAGAGTTGATGATGGTCTATCTGTCTTTAAAGGTAGATCTCAACTTTAAACTTTAAAGTTGAGTTTTCTTTTGTAAAGTAAGAGTAAAATGGCAAGCA
GATGGAAGCATCTCAAGCAAGGCATCCTTCCATCTGGGTGAATTGTAGCTAATGTCCAGAAACAGTAAGAATCACACYGGAACGAGTTGCCAGCCAGCTG
CCCATATACTACCTGWTGTATGCTGGTATRTCCTGAGACTGAAACTTTGGTATAGGTACTGCTCAGTTAAATGTAGGTCATTCTCACACAGAATCCCATT
TGGGCTACCATCTTGTTTCTTTTGAATCATAACATGAAATTTACTATATAAGTATGTGTAAAACATTAGGCTATTTATCATTTTTCCTTTTAGAAGTTTT
TTAAAAAGGTTTTTGCCAACTTGAAGGTGTAAAAATTTTAATATAGGTGAAATAATCAGATGTATATTTAAAATATTTATTCATTTACATGTTTTAAATC
ACATATATACAGAATTGGGATTGTTTTCCACATTCTTAACATTTTACGGGACAATTTTATTCCAGTTTTTTTACATACATCTTTGATATCAGTAGTTATT
GAAGTCACTTTTAAATCATCAGCATAATTTCCCATATATTATATTAATTTTCATGAATAAATTGTGATACAGTGCTTTTTTAAATTTGCGTAAGATTGCT
GTCACTGGAAGTCACTGGAAGTTTTATCTCAAGCCATGCATACTGATCTACATAACATTAGGATAGTTTTTCTTAYTGGTTTATATGTGGGATCTTTACA
ATATAACTACTCACTCTCCTGCCTCAAAGTATTCTTTAAAAAGCATATTATTGGCTGGGCGCTGTGGCTCATGCCTGTAATCCCAGCATTATGGGAGGCT
GAGGTGGGCGGATCACAAGGTCAGGAGATCGAGACCAAGTGAAACCCTGTCTCTAGTAAAAAATACAAAAAATTAGCTGGGCGCAGTGGCGGGCCGCCCG
TAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGATCGCGCCGCCGCACTCCAGCCTGGG
CGTCAGAGCAAGACTCCGTCTCAAGAAAAAAAAAAAAAAAGCATATTATTTACAACATCAGCACTTTTAATTTTAAAGCCATACCTACTAAGAATGACTA
CATAAACCTGGGTTAATTTATTTTTCTCTTAAGAAAAGCAAAAGAAAACGAAACAAAACACTTTAGATTACATATCCCAAATAAGTTTCTGAAACTTGTA
TTATCTGAAGTCATATTAAGCTAATTTGATTTCCCCACAGTAATTGGTGGTCTAAAATGAAGTACTTGGGAAGCTCTGTAAGAACTAGAAAATAAGACAG
TTCTCCCTTTTCTGAAAGGACAACTTAGAGGAGAAATTCTTTCATTATATTAGGCATATATTGTATTTAGAACTAGACTCTGTCCCTATCTGTACATGTA
TTCATTTAAATTCTCCGTGGTTTCCTTACGACGCATCCTTTTTTTATTGTGTCATTAAGAGAGACAATGCTAGGCATTTTACTCAATGTGAATATTCTTA
AAATTCATTTATGAAAACGTCAGGAGAAGCCCTGAAAGAAAATGTAGTTGAGGGTGTATATTTTATTGGTCCATTGTGTCAAAACCATCCATTCATATTT
TATTACTTATTCAGAGGAAGAAATGTAAATTTGGCCGGGCATGGTGGCTCACGCCTGTAATCCCAGCATTTTGGGATCACGAGGTCAGAAGTTCGAGACC
AGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAACTACAAAAATTAGCCGGGTGTGGTGGTGTGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAG
GCATGGGAATTGCTTGAACCTAGGAGGTGGGAGGCTACAGTGAGCTGAGATCACGCCAGTGCCCTCCAGCCTGGGCAACAGAGTGAGACTCTGTCTCAAA
AAAAAAAAAAAAAGTTTATGAAATCATCCATTTGGGCTCAGTTTTTGCTGTTTGTACCTTTCCTAAGGCTTAGTACACCCTGCTCTGTGTTGCTCCTTGA
CTGGTGGTTTCACTGAATTGTCCCCATTTTTTGTTTGTTTTCTTGTTTGTTTTGTTTTTTGAGTCAGGATCTTGCTATATCACCCAGGCTGGAGTGCAGT
AGTGTGAATATGACTCACTGCAGCCTCGACCTCCCAGGCTCAAGGGATCCTCCCACCTTAGCCACCTGAGGAGCTCGGACCACAGGTGCAAGCCACCATG
CTTGGCTAATTTTTGTGTTTTTTTTTTCTGTAGAGATGGGGTTTTACCATTGTTGCCCAGGCTTGTCTTGAACACTTGGGGTCAGGTGATCTGCCTGCCT
TGGCCTCCCAAAATGCTAGGATTGCAGGCATAAGCCAGCATTCCCGGCTGTATACTTTTCAAGGGGCGGGGRGAATGCATTTGTCCTTATAGGCTCCGTT
ACTGTAGSCATTTAGTACTGCTTGAAAATTAAATTAGAAAGTAAGTGCCACTTAAAAAGTTTATAAATATGCTTTATAAATTCTAAAGGTGTGGAAAATT
GGTGATAATTGGTTTAGCCTCATACCATTCTTTTGCTCTTGTTTTCTACCACTTAGCTCTTTTTCTCCTTCTCATATACCTTTTATTTTTCACACTAATA
TTGTTCTTTTTCACTTATCACTGGACATTTAAGAACTTGGAGTGCTTGATCCTTAGCATACATTTGTGTCCACTTAGGTCTTTTAGGGGAGCCCTTGAAG
GGCACTAAGTATAAGCAGACAATAAAAACAGGAATGCCTATATCCATAAATAAATAAATATATGTATATACAGGCCTCATTTATGCTAAATTACACAATT
ATACTATATAGTAGACTTGAAATTATATTTTTGTGGAAAGAAGGAAAGTAAGGAGACAAATCTAGTGAAGGCTGCCTTGACTTAACAGTGCAGAATCACT
GTGCAGCAATGTGCTTATATGGCCGCGTTGCGATTATAATCCKCCTACATGCATAAGTCAATGGGGTCTTTGCTCCAAACTTGTGGAAGAATGAATGAGC
CAAGTAGTGGTGGGAGTTCAGTTTAGTTCCACTGTTTTGTAAATTGGGCTAATTTTCAAAGGTATTCAGACATTTACCTTTTCAAGTGATAGAAGCAAGA
GCAGAGAATTCATCCTTTCTTGCTACTAAAGAATTTATTCTAAAACATTACATGTCACTTGTCCCTCGTGGCTAGATGTGGATAGAGATGCTGGATTGTT
TGTTTGGAGCATGCAGATTGCACTGTTTCATCTTTTGTAGACACAGAAATCAAGAGTTATCTTTTTTCTTCCAAAGATGGAAACAACTATTTGAGAACCC
TATCATTAGAAAATTGTAAGCCTTTAAAATAGAACCTTACCTTCTATTATTCATTGCAAATTATTTTAACACAAACTTACCTGCAGCTGGGCATATAGGA
CTCGACTGAGTACAGAATATTGGCAAAAGCATTGTAGAGGGTCAGAAAATTACTTAAGTCTGAACTTGATTGGAAATCAGCTGATATTTCATGTCTCTGA
TGTCCTTCATCTTTGCAAAATCAGTTCCTGTGGCATTTTAGCATTTCTCTAGAACATTACTATGAGAAAGGAAAGTATTGAAAAGATCTAGTAATAGAGA
TATTTTCAGAAATCTAACAGATAAGATGGTAGAGTCAAGCTCTTTGGAGCTAGATGTATACATTAAAGTTCATCTTGTATAAACTCTTTATTTTACACTT
AAGAAAATTGAGGTATGGCTGCTCCTTACTCCCTAGTACAATACTTCTCTCACTGTGTATCTTAATYATTTGTATCTTATCTCATCTGTCATATGGAATT
CCTTTAGGGCAGGGACTCACCCTTATTTTATCTATGTATCTTCAGTACTCAGCCTATTGCCTGGCACTGAGTAAATTTCAGGGTATGTTTGTAAATTGAA
TGAATCATTGACTGAAWTAACCAAACAGCAAGTCAGACTCACCTGGGTTCACTCTCGTTCTTCTATTGGGTTGCTGCTTATTTTACAAGTCAGACAGTTC
TCTCCCTATAAAAGGCAACAACAAAAACATACCTCAAAATAAAGAGATAGCTGGGGATGAGTCCGGGCCCTCAAAATCTTACGTTCTTATGTGTGTATGT
GTGTGACATGTGAATAAAACATGCAGAAAATAAAGGGGATAATTCCAGGTACTGATAATACCATGAAAAAAGTGTCATGAGCATCAGACAGTAATTATCT
AAATGTCTTCTTTTTAGTAGAAATCTAACCCCACACACTGGGCCTCAGTCCATCTATCTCACAGAAAGGAAATCCTTGCTACTACCATGAAAGCTTATCA
CATGCTCATGGCTGAAGGAGTTCTTCTGGAAAGCCAGAGCTGCTAAAAGGAACTTAGGGGATCTGTTCCTAAGTTCCTCTAAGATCCCAATAGAGGACTA
GAGGCTTCTTTCCCTCTTGGGGGATGCCATGTTGATTAATGAAATTTTTGCTACTTAGCTTTAGGAAAAAGGCATTTATTTATTTTCTTTTCTTTCCTTT
TTTTTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATGTCGGCTCACCACAACCTCCACCTCCCAGGTTCAAGCGATT
CTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCCTCACCATGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCTATGTTGGT
CAGGCTGGTCTGGAACTCCTGACCTCAGGTGATCCGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCAACCAGAAAGGTCTATTTTCTT
TGATCTTATTAAAGGCTGCCATATACAAAGGTTTTCTTTTAATGTTGATCTGTTTTTAAAATATGGAAGAAAGCCTTGAAAGGCATCATCATAAGCTCTA
CGTCAATATCCAGAAAATATCGTCTTGTTTTAGAATTCTAGCCTGTTTTGTTTGGTAGATGAGTCAGTCTACTGTAAATAAATATTTATTGAGCACTTGT
TTTGTGCCAAGCACAGTGCCCTAGGGATTGTAGTGTTTTTCAAATTGTGGGTCACAGCTCCCTAATGTCATAAAATCAATTTAGTGAGCTATAACCGGCA
TATTCAATCAAATGGAATGAAAAATAGAATATCAGATTGCATCATGGATAGTATTGTATTATTTTATCAAACTTGAGTTTCAATTGTGTATGTATGTGTG
CAAGGTTGCAATATAAAGTGTCTTTTTTACTTGTGTCATGGTTAGAAAAGCTTGAAAAGCACTATTATAGAGCATACCCAAAAGTATATATTCCTTGCTT
TTGAATAAGTTAAACTCTTGTTGGAGCAAGAAACACAAAAGAATAAATACTCAAGTAGTGAATTACAATAAGTGCTATGTGTTCGGAAAAGTAAGATGAT
AATACAAGTTGAAAGTGGCATGGATGGATATGGTGGAACTTGAACCAAATCTGGAAAGATGGATAGGGCTTGGAAGGRGTGAAGACTAGAGAATGGCTTA
AAGGTGAGACGTGGCATATGGATAATAGGGATGGCAAGACTGGAACAGAGGTTTCAGTTTACATTAGAGAACTGTAGGATATAGTTTGGAGATAGAAAAT
GAAGCACAATTGTCCAGACTTATGGATGCCTTGTGATAACATGCCTGAGGAGTGTGTATTAGATCAGGTAAGCTGCACAGATTCTTAAGCTGGGGAGTGA
TAATGATATAGGGTGGGTTTATAGAATACTTTCCATCTTCTTCCTAACTCCTCTTTAGTCATGGGGAGCTCCTAAGGGAATTTCTTCTAGGTAGGTGTTG
GATACCAAGTCTCTGGCATCAGATCAAAGAGAGCCAGAAAGGACTTTGGCTGTTCTCCAGAATGTAAATAGAAAGGTAGAACAAGTCCCATTGTGGGTGC
ATGTGAAATACTCCCATGGAGGAGAACTGCAGTGCTGTCTGTTTGAAATACGGCAAAGAATGGATTGAAGAACATTTCTTCTGATATCACTGTTTAATGT
TTGCTCTCAATGTAAAGGGAAAAGCAGATTAAAGGGCCCATGTTTTTGAAGTACTGGGAACCTGACTGACCTACCTGAAATATGCTATGTAAATAATTTG
TCATGTGATCTCCTTACCCTCAAGACACCTTCACTGAATATGCTATATACATAATTTATAAAACAGTTTCAAGCGTGATTGCAAAAAGTTTCTCCTCATT
GGAAAGGGACATTTGATATTTATCTGCCAAACTCTTTACTACTTTCCAATTAAAGATAAATTTAAAGAAGTTTCTGAAATGATAATGTGCTTTACGGGGA
AGGTGATTTAACTAGAAAGAAGCTTTTAAAAAAATGACTATTTAATCTATAACACTAAATACACCAATAATTTAGATCGACTTCTGATTGAAAGTTATGA
TTCTTTGTCGTGGCAGATTATCAAATGTTCTAAATTGAGGCTRTTCTAGGACATAGTTTTTAATCTAAGTCATATTAAATAAAGTTTATGGGGGCCCATT
GTTTTAGACTAGCCTCTTGGACTAGGCCCCAGCAGACCAGACTAAACTAGAATGGAGTYGCTCATGCTAGGTACCACATAATTAAACTGAATTCTGAAAC
AGGCCTGGTTTGTTTAAGTAACAAACCAGAAGATTCACAACAACCAGTCAAAAGGGGCCCAGTTTACCTGGGCATGATAAGAAGTCTYCTCTGTTTTAAC
CCTAAAAGGAAAGTAACTTTTGAAACAGTCAATCTGCTTTTTGTTCTGTTTCTGCTTTTCTCAGAACTTTTTTGTCTATAAAACCAATTCCTCTGCTCAG
CTCATTGGAACACTTATTCTATTTTATAGAGTAAGATGTTGCTCAATTCTGGAATCACAAATAAAAGCCAATTAAGACCTTTAAATTTGTTGTAATTTTA
TTTCTTAACAGTCATTAGAAAAAAAAAAGCAGATGCATCTAGGATTGCAAGATTATTTACATGTAGTCCAGGGGGATTACATACATTTTAGCTATTTTGT
AGAAGGTATAATTTAATCAGGAACACAAGTTCAAGCACAGCCCATGAGAGATGAAGGGATATGAAGAACACTAACTTTGGTTTCTAAAGGAAAGTGTGTA
GAGTGTACATTCTTACTCGTCTGCAAAGAGGGTGGATGAATGAAAAATGAAGAAGGGGGTGTATTCGTTTATACTTATGAAGGCATCTGCTCACAATCAG
TCACTTGTAGAGAGAGTGCCAGCTGGCAGGGTACTTGCGTGATGTAAATTGTCCATCCGCTCAGAAGAGCAGAAGTACAAGGAGGCCTTGTGCAAAGGAC
TGAATTCCTACCCAGAGGACAAGGGAGGGAGGTTCTTGTAGATATCTAAATGAGATCTACTTCCATTTTCCACTTTATTTGCAGTTTTCAACATGTCATT
TTTCCTGCTGTCCCAGCTACGATTACTGTTTGACTTGAGTAATCAGTTTCCCCCCTTCACTGCAACTGCTGCTTATTAAGCCTCTGCCTGGTGGGGGGAG
GGTGGGTATAGGAGGGGACACTGCTGGAAAAATGGTGTCACTTTTTCCAAGAGTGTTGTTTTCCTTGTCTTTCTGCTTCACTGGTTCATTTTTGTGAGCT
GTATAAGAGCTAAAGGWTATTATTACAGATTTCATTTTTTGAAATGCATCAAAATCTCCATCCCCTCCCCTACCTGCTAATCTTTTTGCTTGTTAAGAAA
GAAAGTGCTTCTTTCTGTGAAATCATAGATAATTCTAGGGGTATCAAATGTAATGGAATTAAATCTTATAAAATTTCTGAATGGACTTCCTTCTGCTTTT
TTTTCACGATAGTAGAGAAAAAATTCAAACTTCCTTGGACAAAATTTTAAAACAGTATGCCCTGCAGAAGAAGAGGTTTTAGTAGAAATCTTTGTTTTTG
TATTCTTTGATTTCTTAGATCTGGATTGGAGTGGGTCACCAAACTTTTTCTGTGAGAGGCCACTAAGTTAATATTTTAGGCTTTGCTGGCCATGCAGGGT
CTCCACAATTGCCCAACCCTGCCCTTGTAGCCAGAAAAGCAGCGATAAACAGTGTAAAGCATTGTTTACAAAAATAGGTGGTGGGCTAGATTTGATCTTC
CAGCTGTGGTTTGCCAGTCTCTGTCTTGGATTCTAAGCTACTTAAAGTGTGTCCTACCTCCCTCCCTCTGCCCTTCCTCTTCCTCCTTCCCCTCCCTCTC
TAATTACTATATGAACATCTGGCACTTCGTACTTAAGCCCCCCTTTTAATGTATATTTTTTAAATACCTAAAATTTCTTCTCTGAAAAATAAATATTTCT
ATGCTAGTCTGTAGCCAACAGAATGTAACACCCTCCCTGAAAATGCCAACATTACCCGACACAGACTGGGATTAAACAAGTCTAGGCTTCTAGACAAAGA
AGAAACAGTGTTTTCTTATCTTTTTGAGTGTACTGAAGCAGAAGTTAACTCTTTGCTTTCASATGTGTCCCTTATCATCGAGAATTGCTGGTGGTCCTGT
ATCATTTTATTATAGGAAGGAAGGATGGACACCAGAGAGGGTGGGGAATTTGGTTTACAGGGAATCTTGACCAGTGCCTGCCTATAAAGGGTACCACTGT
GAAATCCCCAGCAGTAAGTAGGTTTTCTAAAAATCAAGTGTGTATTTCTACTTGCCTAGGTTTTAGGGCCTTGTGAATGCAAGTCGAATGATAGAGGAAA
TTGGCTTGGAGGAAAATGTTGGGGAGTTTGGGTTTAGCTGGGTGCAGTCACCCCTAGACTTGGATGTGGAGTGAGTACCCCTGTTGACTTTAACATCTGT
GTGTGTCTTAAAGAAGACTGCTACTTTTCTGGTTTATTGTCTATGCCTACAGATGACACGTGGAATAAATTGCACATTAAAATGTCTGACATGAAAATCA
GAAGAGCTTAAGTTCATTCCACAGAAGCCTTTTGTTAGAATCTTCAAAGGATGAGAACCAGGATGAAGAAGAGTTTACAGTAGGGAAGTATTTCTCAACT
GTAATTGTACATAAAAATTGCCTATGGTGCTTTAAAAAAATACAGAGTCTGGGGACACATGTTCTCGGGATCTCCTAAGGGCTGTCACAGACCATAAAGT
TTAAGAAGAAAAAAAAAAAATACAGAGTTTGGGACCTCACCCAAAACCTACCAAAATGAAACTTGTGGAGATGAGGCTCAACAATTTGCATTTTCAAAAG
CTCTGTGGGTGATTCTAATAGCCAGTCTGGGACCTTATTGTGGGCCAGATTATGAGAACTACTATAACAGGAAGACATAGACCTGGGCTGGCTCTAATGG
AAAGGGGCCTTCTAGAGCGCCTGGGGGTTTTGAACTGTTTGGGTACAGATAACTCTTTTTAGTCTGGATWCTTACAGTGATCCTGAAAATGTATATTATG
CCTTTTCTCTTTAGGAAATCTTTGGGAAGGCTTTKTTAGAGAACGTCTTTGTGGATGAAAGGGGCTCTCTTTCTCCACATCTCTTAGACCCACTCCAATC
CACTCCAAACCACCAGAGAAAGTCCTCATTGTTCAGTAGAAATCCAGCTGCCACACTGGATCATTCCCATCAGCACAACACATGATGTCTTCCCATCTTA
AAAAGCAATTTGTTCTTGAACACCCCTTTCCCCCTTCAGCTACCACCTCATTTCTTTATAGAAAAATTACTTAGTGGGCTGGGTGCAGTGGTTCACGCCT
ATAATCCTAGCACCTTGGGAGGCCCAGGTGGGAGGATTGCTTGAGGCCAGGAGTTCAGTGTTGCAGTGAGCTATGATAGTACCATTGCACTCCATCCTGG
GCGATTTAGGGCTCTCCCCTGTCTCTAACAGAAAATAAGAAAAATTACTTGGAAAATTGTTTTTATTACCTGTCTCCAATGCCCCCTTCCCTTGTGCCCA
GCATTCTCTATGGCTTTCATTCCTGTCAGTTCTAACAAAGCACTTCAAGGTCACACCTCCAGGTTGCCAAATCCAGTAGCCAATGCTCAGTCTTYATCTT
TCTTAGCATTTCAGGAGTATATGACAAAGTTCAGTTGGTCACTCTCTTCTTTTTAAAAGAAGCTTTTTAAAATTTGGCTTCTGGAATTCTACTCTTTTGG
TATTCTTTCTACTTCAGTGGCTTTTCTCTCCAGTCTCCTTTTCTGGGTCCTCCCCATTTCCCCCATTGCTAAAAGTTGGTATGTCCYGAGACCCAGTCTG
TGTACCTCTTATCTATCTATGTCCATTCCCTAGTTGTTTTCCTCTAATCCCATGGCTTTGAATACTAACTGTATGCTGACGACTTCCAGATTTCTCTCTC
TTGCTGCAGCCTTTTCCTGAACTCCAGACTTTTATATCCTACCTGCTGAATTGATATTTTCACTTAGAGGTTTCGTGGGTATCTTCAACTTAGTATATCT
GAAACTGAACTCCCAGTTTCTTACTCTCCATCCCCCCATGGCTGCTTCATCATTCCAGTTGTATAAGCCAAAGCTTGCATCCCACATCCAGTYCATCAGT
AAAAGTGGTTTGTTCCACCCTCAAAATATGTCCAAAATACCATTATCTGTTAGCTGGATTGTTGCAAAACTCATCTAACTCATCTTCTTGTTTCTCTGTC
ATCCCTTCTGTAGTCTTTGGTCAGTACAGCAACCAGTCATCCTTTTGAAATGCTAGTTAGAGCCTGTTACTCCTTTGTATRAAACTCTCCAGTGGGTTCT
CATCTTATTCAGAGTACAAACCAAGTCTTACAGTGATCTACAGAGCCCTCCATGTTGGCATTCCCTCCTCCTCTCAGCTTCTCTCACCTCATCTCCTAAT
ACCTTTCCACCTTACTCACTGCTGCTTCAGCCGCACTGGCCTCCTCACCACTCCCTGGAACTTGCCAGCATGTGCCTGCCTCAGGGTATTGCACTTGCCA
TTCCTGGAATGCTCTTCCCATTCCTGGAATGCTCTTCCCCCAGATGTTGCACTGTTTTACTTCTTCAGGACTCTGCTCAGATTTCACCTTATCCATGTCA
TGAGACCATCTCTGATAATGCTGAATTAAATAGGCTCCCCACAAACTTTCTATTCCCACTTCGTTTTTCACTGTCATCTGACACACAGAATTTTCATTTT
TATTTTAAAATCTGTTCCTTACCCAAGCATGCTCCCTACTTTTACTGTAAGTTCTACAAGGTTGAGACCTTGTCTTATTCTCTGCTGATCCCCAGTGCCT
AGAACAGGGACTGACACATAGTAGGTTTTCAGTAAATGTTTGTTGAATGAATGGAAGAATTTGGACTTGAGCAATTATCAAGGCCAGTCATAGCTGTTAA
CCTTGACCTAATGGGTGGCTGTGGTAAGAAATTAATAAGCAATTGTGAAAACTGAGAAAGCCATTTTAGTATGTAAGATATCTTATGGTATTTGTAATTT
GTAATTATTTCCTCTTTTAAGGACAGATGTAAACAGTACATGATCAGGGGAATTAGGGACCAAGTTTATTAGGAATGAAACTAAAGAATAAAAGGCACTG
TAGCAAAATGAAGGATTGGAGGGGTTTTTTTGTTTTTYGTTTTTGAGATGGAGCCTTGCTCTGTCACCCAAGCTGGAGTACAGTAACACGATCTCAGCTC
ACTGCAACCTCTGCCTCCCGATTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGAAGCTAGGATTACAGGCACCTGCCACCACACCCAGCTAATTTTTATA
TTTTTACTAGAGACGGGGTTTCACCATGTTGATCAGGCTGGTCTCCAACTCCCAAACTAAGGTGATCTCCYGCCTTGGCCTCCCAAAGTGCTGGGACTAC
AGGTGTGAGCCACCGCGCCCGGTGGATTAGAGTATTTTAAATAGCACATCACAGTGGACTTTTAAGTTCACTTAGCAAATAGTTGTTGAATAGAAAAAGT
AAACTATTGGTCAACTTTTTGTGACTTTGTGGGATTATTGGAGTTGACCTTAGTCTATTACTATACCACCGTGACTAGGTATTAGAATCTTGKTTTTCTA
ATTAGATTTTCTCTTTTTAAAAAAACTATTTTTCACTCTTCTGTTATAGATAAAAGCCAAACTATAGCCAGCTTTCAATAGTATATGAATATCACAGAAC
AAGAAATAGCTTCCCACACAATTATGGTGTCTTTTTCATATCTTAACAATTACACATTTCTGAAATATGGGCTTATGTAGCTTATATTTAATTGCCTTTT
TATTTCTTTAGTGTTATAATTAACTTAGTTGCCTTCTTTGTGACTCCGTTAAATCTCATGTCAGTCAAATCCCTGTAGTGGGATCTTTGTTCAGCAGAGC
GAGTGGATTTTTTGCCTCAGCTTACACGAGTGGGGGTGAATATTGGCCTTGTTCCTTTAGCCCAGCTCAAGGACTTATTCATGCCTGTAGTCTACCACCA
TGAATTAGGTCTGGTATTGAGTCTTGGAAGCATGGGGTTTGGGTTAATAAGGCATATTCCCCAGTTCTTGGCTTAAAATTTCACTTGGGAATCTTTTTTG
GTGAGTATATCAAATAAAATGGCAAAGATGTGCAGATTAGGATGAATTTATCGTATGTTTTGATAATGGAAATTGTTTGTACCCTCTAACAGTGATTTGC
ACTTATTTGAAATTACTCTCCAAGGGTGTTTGACATTCTAGTGTTCAGTTAAGAATTCTCTCTGTATGCATATAATGGCTGTTTTATGATCACATTTTAA
TTCCTATGATAAGTCAATTTTGGCCCTYCAGTTTACTGAAGTGTATATGGCATTTTGGGGCATTGCAATTAGGCAATGCAAGCAGAAAGCTTTTATTTTT
TAGAACTTCTGCATTAGGTTAGTGCTGTGATCTTATTTAACCATAGCACCAAGTAGTATTTTGAGGGTGATAGGGAAAGAGAATTGTCTTTTTGGCTTAA
ACTTTAATTTTGATACTTCATCGAAAAATCTAATTTCCATAGAGATTACGGRTTTATCTTCTCCAAAATCATACTGTCTATTTCAGAACTTTTGTTTTCC
TCTTAGCTCCATAGTGATAATCATACCATTATTTTTATAATAGCTTTTGATACAGAATTCTGTTAGCTTTAAAAAATTCTAAAATGATATCTTCTATTTT
ACCTACCTGCTTTGTTATATTTCACTGTGGCAACATAGAATTGAGACTTTCCATATTCCATCTCTGTTCATCTTAGTTAGCGTGTCTTTCCGTTATTAAC
AATGGCCCAAGTGTGATAGGAAGTGCTTATTGCCTGTACTCAGAAAACATGACTGTTGAAGCCCTTTGTTCATTCATTTGAAAGGGATACTTTCTCAAAT
TGTAAGTTCCATTGCATTTGTTGTCATAAATTTAGTTAGGAATTACTATTTTATACAAAACTGTAAAGGTTATTTGTCTGCATTTTTAAGTTGTGCTGAT
CTAAATATACTTTCTAAGGGATTGTCCTCTTGCACTGTTGGCATTTGACYGATTGACAAGGGGGAGGCCATGAAAAGGGAGTACAGAAATTAGGGGAAAG
GAACAGGATAATAAGTTTTTAAAAACAAACAATTTTGAAGATAAGTTTTAGCCAATAGAAACTAGCCCTTCAACRGGCAATAATGAGGACTGAGTTTTTC
AGCATCTGGAGTGACTGCACTGTACCAGACCATCTTGGTATATTCCTTATGTGCTTAGTTGTTCTGTAGTGCTTCCGATCATCTGCCTGTGTCTGCTTGA
GGATCCCACAGTCAGTATTAAGTTGGCCTTGGGTCGTCTTAATCAGTGAGGCTCTATTTGTGCAATCCATCCGCTGAGGTGGAACAATAACAGCTGGTKT
GCAGCTGGATATGTTGTCCTGGGAACTCTTGTTTCAGCCAGCAGTTATGCTAACAAAATTGAAAACATTTTCAAATAGTTGCTTTCTGTGACTACTGTTT
GTGTTAACTGTTTGGAGATCCCATTTAGTAGCCTAAACACACCCCATCTCTAATTGACTTTGTGCTACAACTTTATTAAAGTTTTATATGCCTAAAATCA
AGTCTGGCTTCAAGGAGAGCATTCCTTTTCTGACTTCCAAAGAGTTAACACATAAGAGCCAGTAGTGAACCAGTGACTCCTAATTTGATACTTTAGAATG
AACTAGTTTTCTTTTTCTAATTCAAGCTGTGGAAGGGCATTTTGCAATTTTGTAAAATTCTATATGGCTATTGTCATTCATTACTAAACTCTAAAGGAGG
TTGTTTCACAAGATCCTTATGGAATTTTTCTGAGTAGCACATAACAGAGGAGCATTTATGTTCCCCAGCAGTCAGTGCTTGAATCCAATTCTAAGACAAG
AAGAGTTTCTCCCTTATTCAGAGAGATGAGAAATACTTTACCATGTAGGAGGCTTAAGCAGAATTCCTTGGCTTGGTCCCACATGAACAAAGGCTGGATT
CTCATTGTCGATGCGGCCTGTTCCCCTCCTCTCATTCCCTCAACCAGCATGAACTGTAGGATCTAGAGCAGGAAGTATTGGTTAATTTTGTGTGCTTCAT
TCTAAACATCTGCCCTTGAGTTTTTTGTTTATGGAAGGGATATGGCAGGGGGAGGAAGAGGGGCAGTAGAACACTCAGAAGCTAAACATTTTTTTGGTGG
TGTGTATATCCATGGTTAGTCTTCGTGTGTGTGAACATGGGGTGAGGAGTGGAAGATGTTCTGGTTGAATAGTTGCTGGAATACATCCAGAAATGCACTT
ACTGTTTTCCTTAATCATTTGGCTTGGCTACTTTACCTTAAAGCCATACTGTCTACTTTCACTTGCTCCCGCAGCATGTTGATAATCTAGTAGTGTCATC
AGACTGGAAATTAGAAGACCTGGTCCAGTTTTCTATTCATCTACCTGTTAACTGGATCTTCTTACTTTGTCAATTGTGAAATGAGTAGGATGGACAGAGT
AGGGAAGTATAGTGAGAGAGAGGACATGGTAACCCTCAGGTAGAGCTATTTAACAGAATAAAAAGCTCCTTAGTGTTCCAGTTCTGGTTGTAGTTAATTC
CAGATAACACACATACCTCGCACTTTGACCCCTCTATTCCATTTTCTGTATTTGCCTTCTTATTTATCCAGACTGGATTCCAAATTCCTTGAAGCAACTT
TATTCCCCTTGTCTTGTTGTCTTTCTTTTACATTGGCAGAGGGGATGCTGAATGCTGCAGCAGAAATCACACCTCCACAGAGATGTTTGTACAAAGGCAT
GGCCTCCTGCTCTCCTCTCAGCCACCTGGTCTTTGCCCAGTAAGCCTTCTTTTTTCTAGTCAGCTACCTTTGCTGGACTTTACATTGGCTATTATAAAGT
TTCTACACTCTGTTCAAATATTCCCCACCCAACATTACTCCCTGTCTTTGCCGCCAGTCTTGAGCAGGTATCCTTGATTTTCACTACACAGAAAAAAAGT
CATCAGTAGAACTCGAATTTTAACTTCTGCCCCTTAAAACCTACAATGTCACTTTGCATATGCACCCAGACAGAGAGCAAAGAGGCAGGTTTCCTTCTGT
AGAGAACCAGTCTCCCAACAAACATGGAATCCCATTCTTGTTTTCCAGCTTCTATTTTTCACCTTTCCCTCTCTGCTGACTCAAATACAACAGCATTTAA
TACACGTTCATCTCTATCAGAAAACAAAAAAGAAAAGAAAAGTCTTTCCTTGGCCCTGTAACCCTTCCAAATATCATCTTCCCCTCCTTCTCCTCTTCTT
TAGGCAGACTACATGGTAGATTAACTACACTCACTGTGTCTGCCTGCTGTCTATTCTCAATTCCTTTGTTTTTGTTGTTTTTTTTTGAAAGGGAGTCTCG
CTGTGTTGCCTAGGCTGGAGTGCAATGTCGCGATCTCGGCTCACTGCAACCTCCGCCTCCTGAGTTCCAGCAATTCTCCCACCTCATCCTCCTGAGTAGC
TGGGATTACAGGCGCGTACCACCACGCCTGGCTAATTTTTTGAATTTTTAGGAGAGACAGGGTTTCACCATGTTGGCCAGGCTAGTCTCGAACTCCTGAC
CTCAAGTGATCTGCCTGCCTCGGCCTCCCAAAGTACTGGGATTACAGGCCTTAGCTACTGMGCCCGGCCCATTCTCAATTCCAACCACTGCCATCTTGTC
CCTGGCACTGCTTTTGGTGCAGCTGTGACCTCTGTGGCTTGAAGCTGATGGATACTTCTTAGTCATTATCTTACTTGACTCTCCTAGCAGATTTGAACCC
CATTGATTCCTCCCTCCTCAAAACCATCTTTCCTTGGCTTCTGTGGCATTTTTATTCTTTTACTTGCCTTCCTCCCTCTGGCTGCCCCCTCATAGCCTCC
TCTGTCATCTTCCTCTGTGTGTGCTGTGAATGTTTGTGCACCTCAGGGTGGTCTCAGAAGTCAGCTGTCACGGAACACACTTGCTCCATATGCTTCAACT
GTACTCAAGTCTCCAGTGTCCATCTGCATACTAGTGAGTCCCAAGTCTCTGTCTCTAACTCAKACATCTCTCTTGGCCCGTCAAACTGCTCACATCCAGC
TCCCTACAGACATTTCCTCATCTACTGACCTGCAGGCATCCCAGAACTAGTGTATCGGAAACTGAATTCATCTTCCCATCCTGCCCCTGCGCCTGCCTCC
AGTCCTGCCCACGCTTCTCTGTTCTCTATTTCAGTGAGTAGTACTACCCTCCACTTGGTTCATTTGAAACTAGAAAACTGAATGTTATTCTTAATCCTTC
CACCTCATGGAATGGGAAAAAGCAGCTTTGACAATGAAACAGGGTACTAACAGCGACAAGTTGAGGAGCCTTTCAAAAGCAGCTCCCTATCGCCTTTGTA
GTACATCAGTTACTAAGTTACTATTSAAAACGGCTTCCTACACCTCACTGAGGTCCATTCATTTCTCTCCATTCCTCTGTTCCCATTCTTAGTTCAACCT
CTGTCATCTCTCCTGGATTACTGCCACATCTTGACCTCCCCATCTTCGTTCCTGTCCCTTCCAACCTAATCTCCACACTGATCTTTCTAAAAAATCAAAC
CTGATCATGTATTTTCTGGTTTAATGCCTTCAGTGGCTGGCCATTGCCTTTAAGCTGAAGTTGCTCCTTAAACATGACCGTAGCCTGGTGTGCTCTGCTT
CTTGTTTGCCTCATCTCCAGCCACTTCTGTAGTTCTAGCTACCCTAGACAACTCTAATTCCTATGGTGATCACTCCTCTGTGTTCTCTGGGCTTTCATAC
ATGCCATTTCATGTGCCTGGATGATGGGTCCCTGTTTGCTTAGCTCATTCTAAGCATTCCTCATGTCTTGGATTTAGATGCCACTTCCTCTAGGAAGCAT
TTCTTGAACTCATAAATCTGGGTTAGATGATCTTCTCCATGCTTTCCAAACATGATGTACTTCCCCTGTCATGGAGTCATCTCATGATGAGTTGTAAATT
GCAGTTGTCTGTATGYGCCGTTGGGTTGACTGCAACTCTGAGGGTGGTGCACGTGACTCTCTTGTCATGGAGGTGTGTGAGCCTCCATACAGACTGCCAC
AGAGCTCCCTCATTTCCAGCTGTGGCTGTAGATTGGCATAAGAAAGGTAGCCCTGCAAATGAAGCTCAGTGCCAGCAAGGCCAGGCCAGCACCTGCAAGT
AGACTGCATCAGAGTTTAATGCTAGCATAATTGCTTTCTGGACATTTTGCTACTTGTGGCTCTGTGTCTGTGGCTGCAGCAAGAGACATATGCCTGGTTC
TTTCAGAGGGTGGCTTTGTAGTACAGATGTTGATTGGAACACAGGATGCCTTGATTGATTTTACCTTCTCTCCTTTGGCCCAGTCTGCTGCCGTTGGGTT
GCTAAAGAACAATGAGATATCAGAAGGATAGAGAGAAAATAGAGAAAGAAGGATAATCTATAATCTACAGACTAGTGAGCAAGCCTTTGAACAGTCGAGG
CCACCTACTCATGAGTAAAATTACATTGTTTAACCATTCTGTAATGTCTTAGATAGTGAGTCTCTGGAATGCCACAGATACTGTACTATAACCTCGCCCT
CATTCAAAGGTGATGTCTTGACATTTTTGACGCAACAAAGAGATACAGGTAAAACTTGCATTCTTTTAACAGAAAGTGTGTAAACTGTATTTGTGTGACT
TGTGTCTAGGCAAAATGCACTGCATCCTAGATAGAATATTCATGTTTGTATAGTATCCTTTAGTAACTGTACCAGGAACAGTCAGGTCCTTTTATGTGAA
CGTATTCAGAATCCCAGTTCAGGGATTTTCTTTATAAACCCTATTGTGGTAATGCCTTATATTTGTATAGAATTTTACAATTAGTCAAGTATGTGTAGAT
CTTAGTTTGACCTTCCAACAACTCTTGAAGTCGGTGGGGCAGGGATTGTCTTCATTTTTACAAAGAGAAAATGGCAGAGCAGAAATCATATGGTTAGTAA
AGGAGGGAGTCAGGACCTGAACTCAGGTCTCAAAATGCCCCATCCTGTGTTCTTTCTGTTATGCCACATGGCTTTATGTTGAAGCTAATGTGTGTGCAAG
TATGTTTCATGTATGTGGGGGACAGTTAATCCAACCTCCTCTAAGATCTGGGCCAGTTGAGAAATAGTYGGATATTGCTCATCCTGTCAGTTTTATTATA
GAGAACGCTCAGTTGAAGAATGTGGCCTGGACACATAGCTCGCATGGGCTTTCTGCTCTTTTCCTCCCTGAATTGACCTCACCCACTTACTCCCAGATCC
AGCAGCAGGACAGCGGCAGGCCCCACCCCACACAGAGGCAGAGCCCCACTGTGTTGCACTGAGTGCAGGAGAGGAGAGAGGGGGACTCCAGCCGGCAGCC
AGAGAGAGACAAAGCGGGGTCCAGGCCACACATGAGGAATCGCTCCTTGTCTCTCAGGGACTAGTGGGTACGAGGAAGTGAAAGTGGCAGAAGTCTCTCC
TCAACACTTCTGAGAGCACAGAAGTTGCTGTTCTGTGGGTTTTGTAGGAGAGGGTTGGGATGGTTCTTGAATTAATTGGCTTAGGGAGAAAAAACTGTAA
GCTCCTTGAATACAGGGATCTCTGTGTCTTCACACATTCTGTCCCCTGATGTATATAGCATAGAGCTGAGCATAGATTTGTGCCCAACAAATTCTTGTTG
ACCAAACTGGGATCTTCACTATAACATAGAAGTAGCAAAGTATAGATATTGTTAGAGTTAGCAAGACCCAATGTGTGAATGAATGGTGATTTTATATTTT
ACCCATGTGAAGACACACTGGCTGGCAACCAAGCCATCCTGACCATAAGACCACACTCTGGCTTTTGCAGGGAACTGTCTGCCCCAGTGACTGCTGTCTT
TTCCTCTCTGCTCAGAGCTCATTTCTCATATATTCTCTTTTGAACATATTGAAACAACCTTTTTAAACCTCCTTTCTCCCTTTGTCTTTTTTCCCCCATT
TCATTGTTCATCCACTGAAGGAATTTTTTTTCCTCTTTCTTATTCTACTCCCTGCTACATCTCTCAAACACTGTCCTCCCTTCTTCAAATGTCTGTATCT
TAACTTGGTAGATAAGTAGAAGAATAGAGCTGATGATATTCTTTCTGCGTCAAGAGTAACGTTACAGTTAATAGAGAATGAGGTTTTTTTAAAGTCTTAA
AGGGCCTGGAGACCCATTTAGAAAGTTAGCATATATTTGCTTTTGTATCTTTTAATTAAGCTTTTGCTGAAGTACCAGCATTAAGAATAAAYGTACTTTT
TATTCAACTTTAGTTTTAATTAATAGTATAAGTACAGTACTAACATACGCCGCCAGTTTTCATTGCACACAACATTTCCACAATGCACATCACGACAGGC
CTTTATGAGCCAACTTATGGACCCAACTGCAGTTTGTCATTTTGGGGGAAAATACGTAGTTTTCTGTTTTAGAATAGCCTGTCTTCTTGGTTTGATGTGT
ACAAGGAGATTTATATCCTTTGTCAAGTTCCAAACTAAGCTGGGAATAGAGGGCATTTGTTTGCTTCATACGTATGATTTATGACCTTTGATGTGTTTGT
CCCACAGGAAAAGCTTTTGACATCACCTATGTGCGTCTCAAGTTCCACACCAGCCGCCCGGAGAGCTTTGCCATTTACAAGCGCACACGGGAAGACGGGC
CCTGGATTCCTTACCAGTACTACAGTGGTTCCTGYGAGAACACCTACTCCAAGGCAAACCGCGGCTTCATCAGGACAGGAGGGGACGAGCAGCAGGCCTT
GTGTACTGATGAATTCAGTGACATTTCTCCCCTCACTGGGGGCAAYGTGGCCTTTTCTACCCTGGAAGGAAGGCCCAGCGCCTATAACTTTGACAATAGC
CCTGTGCTGCAGGTAAATTCTCACAGGTTGGCCTGAAGCCAGCTAGTTCTACAACATGCGAGGTGTGGGAAGATTATTGTAGTGGGGCTTGTGGTCCCAC
TTCTGAGGTACGGGGTCAGAGTAGAATACTTGAGCAACACAGACAGAGAGCTYGATTCTGCTCTCTGTGTACTATTAATAAGTGAAGGAAAGTAGTTTTG
TTCCTGCTGCCTGGTTGATGTTTGTTCTTATGCACTTGCAGATCTATTCTGGGATGTAAACTTTACACATTTTTTAAAAAGTCAAACAATTTTAACGTTA
GTCTCTGTACCTGAGGTGGAAACATTTTCCTTCTGACCTTTTGAAGAGAACATTTGACCTAATTACCCAGATTTCTTGGATCTTTTCTTGCCTATTTTTT
GATTTGACAAAATAAAATGTATTTTTTAAAATTAGCAAAGGGGAACCGTTGAAGCAAGATATTTAAGAATGCCATCTTCTTTCATTTTTACACAAGAAAA
TTTTGATTAGRTTTGTCTGGCACGATTGCTGATCATTAAAGAAACTCCTCATCACCTAAAATGGATGATGTTAGTAACAGGATATGGATGTTAGTAACAG
GATATTAATTTAGGTACCCATAGCACTGTACTTAAACATTGTGATAGAAACMTTTCCCTGTTTGAGAAGGATTTCTTTTTTCTCCTGAATTCTACATSCA
TATTCCTTATACACCATAATACRGAATTCTTCTATGTTGCTCATATTTCTGTGAACTTTTCATATGTCCTGGCTATTTGATTATGGAAAAGCTGGTGAGC
CTCATGCTGTACTCAGCACTTTAACACAGAATTGGAGATGCTGCTGCATGTGGCTGAAGTCAACAACCACATGGGGATAGCCTTTGTCAGTTGACTGAAA
CAAGAAAGTCTGATAATGGGTTTTCAAATGCTGTGTACATTATATGAAAAGCTATTGTGATTTCTAAATAGGAAATACCCCATTTTTCTAGGGTTTCTAA
TTTGGATCTTCTTATTCTTTCTCACCGTTATTATGTTCAGGGACTCTCTTTCTAATTGTATGGTTTTGGACAGTGACAAAAGATAAGAATATATTTTTCT
GTGGGTTCAGTTGCCCCCCTTCCATTGTATTTCTGTAAGTTGCTGGGAAAGCATGAATGTGAAAGCTGTTGGTAAACTCTGAGGTTATGGTGAGCAATGA
GTGTGCTTGCCAACACCTTGCAAAAAAGTGTTTCTTGCAATGGAGATAAGTTGTGTTCAAAATAAATGGCCGAGAGAATAGCTGATTTTGATAGATGAAA
AAGCAGGGCCAGGCGCAGTGGCTCATGSCTGTAATACCAGCACTTTGGGAGGCGGAGGCAGGTGGATCACTTGAGGTCAGGCATTCAAAACCCACCTGGC
CAACATGGTGAAACCCTGTCTCTACTAAAAATMCAAAAAAAAAAAAAAAGTTAGTTAAGCATGGTGGCAGGTGCCTGTAATCCCAGCTACCCTGGCTGGG
AGGCTGAGGCGGGAGAATCACTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCAAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCA
TCTCAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAAGAAAAGAAAAAGCAGAAGACYGAATGCCCAGTGGAGAGGTGACCTACAAATACTCTTTAAG
TTGATCAGCTAGCAAACATTTGCCAGACTTCTTTCTTTCCTACAGCAAATTATTGCWTTTTCCTGTCCTGATGAGGCAACAATAGAAAGAMCAGAGAAAG
AACAGTGTAGTCAGTAGAAARTGCAGYGATACAAAGTTGTAACTGTGGTTTTCTGGCACCTTTGCTAACTGTACACCCAGTCAGCCTGTCTTGAGCCATT
TCCCCAACTGTAAGAATTGTGATGTTTGTTGCTCTTTATGCCGTAGAAACTAGTGAGACTATATGAGGTAATGAGACTGTGTGGTAAAAATGCTATGGGT
TATGACCTYGCATTTAAAAAAAAAAATGCTGTGGGCATCTGCATAGACGTGGTCAGTCAGTTTCATTATGCAGTAACATGAGTTACGTGTCTCTGGATGT
AAGAGCTCTGTCTCTGATAYCCAGTTGCCAAGGAGGTTGAGCTAATTTGACTTTTAGCTGATCTGACAATGAGAGAGAACTCTTGCCTCTCTTCCTCTCT
TCATTGCTYCCTAAACCTCCCTGCAGAAGCTGTAATCTCCCAGATGGGGAAGGAGACCCTTYTTGGTTTCACCATATTATAAGTATTACTAAGCATGTGT
TGATTTATGGTAATAATTTACATTTATTAAAGCACTTACTATARCATACTATAATGTGACAAGCASTGTTCTAAGCCCTTTGATTTTCTACCTCAGTTAA
CCCTCACAGTAACCCTGTAAGGTAGATACTTTTATTGTCTCCATTTTACAGATGAGGAATCAGAGGCCCAGAAAGGACATAACTTGCCCCAAATCACACA
GTTTAAGTGGCAGAACTGGAATTCAAAACCTGCAGGGTCTAGCTCCGGGGTCTGTTCTTTAAAGATGCCCATTAGGAAAAAAAAATGGCTTAGCTTTTTG
AGAAGCTCTTATTCAAAGAGAGCTGTGATAAGGTCGAAGCCTTGTAGAAGATATAATAARCATTAAACACAGAAATATGTTTAGCTATTTACATTACAGA
YGACTAAAAGATTCCTACTGTTGTGGCCATGAGTAGGAGTTGTTATTGGAGTTCCAAGTTTGGATATGGTGAAATCGTCGTCTCTTTTCCTTTCTAATTA
TACTTGAAGGCTTTGTGGAGATTAGCTTTTATGAGCTCTCCATGTTGTTCTATATGCCAGGTATTTGGTGTGGCTTAAGGCAGTGGTTCCAAATCAGAGC
TGTGCCTCCCAGACTCACCTGGAGCCTTCTGAAAACATAGATGTCTGCACCTCTGCACTTGCTTGTTACGTCTCCARAGGTGATTTTGTTGTGCAGTCCC
TAGGAAAGACTTAAAATGGAAAYGCTSTCTTTGAGTGGTTATATGTAATACACCACCCCAAAACCTAATGGTTTTAGATAACTGTGATTTATGATTTCTC
ATGATTCTGTGTTAGCCTGGGTCACTCACCTGACAGGTCAGCTGGGGCCTGGGTCTCTGTCTCCCTGTGGTCTTTTATCATCAGGAAGCTTGACCAGGAT
TTACACCACAGCGGAAGTGATCTGGGAGGGTGAGTCCCTGTGCACAAGTACTTGTCAAGCCTCTGCTTATGTCACATTTGTTGATGTACCCTCGGCTGAA
ACCAGTCACACACCCAAGCCTAGAGTCAGCAGAGAAAGAGACTGCACTGGTTGTGGGCCCTAGCAGACATGATTCACTGGGATCATTAGTATAGCATTCT
ACCACACATGTAAACATCTGCCTAAAATTAGCTCAGTGTAAGGGCTTAGATCTCATAAAACCTAGGGAAAAACTCTACAGCCCCCATGCTTGTCCTCTGC
CATTATGGTACACCTACCAACTTGATAAGTTRTGGTTTCTTCAAATTCATTCATTCACTTAGCAAATAATAGTTCGCATACCTACTGCATGCTAGGGAAA
TGGCAGTGGACAAAATAGAAATTTCCTGCCCTCGTGGTACTTACAGTGTGGTGGGAAGGGGAAGGTGTGTGTGGAAAAAGACAATGTAAATAAAATGAGA
GTGGGAAATAGGGAGTTGGGTAGGGGTAGCAATGTTAGATAAGGKGGCCAGGGAAGGCCTCAGAGAGAAGGTGATATTGTGGGGAGGGTCAAGACAAACA
CAGACAACATCCTATTGGTTCAAGCYTAAGTAATGATTTATTAGCGAGTACTTGAGCATCTCCCTCAGATCTGTCAGTAGGGGATTGGGTTGGCAGGGAG
GAATAGATGCTATAAAATGGGCAGGGGTGGCCAGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGTATCACGAGGTCAG
GAGATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTAC
TCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAAGAGGTGGAGCTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCAGGGCGACAGAACGAGA
CTCCATCTCAAAAAAAAAGAAAAAAAAGGACAGGGGCAGGCAATGACCAGCATCTCTGATCCAAATGTGGTGCCCCATGAGCTCTAAGCTGGTATCCCTT
ACTGGATTTGGGGTCCAGATACAGGATGGAGGGAAGGGGCATGTGTATCGAGTCCCTAATTTATGCTGCACATTATATTTTATTTAAGCCTCTCAGCAGC
CTTGCAAAGAAATTAGTTATTATCCTTGTTTTTGGAGACTCCGAGTAGTAAAGTAACAAATTAAAGAAGGGAAGAGTCAAGAAGGAGAAAAATATTAGAA
AATTAAAGAAGTCATTGAGTATTATAATAGATTTAGTGCTAAAGAGGGCRTAAGTTAAATGATAATAAGTTAGTGATTTAGAACATTTTGTCACATTTAT
ATCATTTTCAGTCCCTCCACTTCTCTTTTATGTTTCTATTTTTGCTTCCTGACAGGAATGGGTAACTGCCACTGACATCAGAGTAACTCTTAATCGCCTG
AACACTTTTGGAGATGAAGTGTTTAACGATCCCAAAGTTCTCAAGTCCTATTATTATGCCATCTCTGATTTTGCTGTAGGTGGCAGGTAAGTAAACTATT
AAATTAGTCTTGAAAGTGTTTGGAGCTTTTGCATAGAGGTGAATCTAGCAACTTGTTTAYAAYTATGTTAATACCGTTGTTAGATGTTTTCTTTACCAAG
AATAGGAGCGGCAGTCCTTCCTGTGTGATAATGCTTAGCTGAAAAGACAGACAGCAGCCTAGGATATTTTCACTGTGAGATCTTCTTGTTGTTCTGGAAA
CTAAGCATGTAGGTTTTCCAAAACCTTGTCAAATCCACACAYTTAGTGAATTCTTATTGACAATTTAAGTGCAAGGGCACTGTGAAGCACTTGAGGAAGG
GTAAGACTCACCTTATCCTACGGAGAAGTCCTGACCTTCTCGGATCTTACACATGAACAGGGTAGGCAATGTATGAATATGTGAAAACTGAAATACTTGT
AATCACCTGTTTTTAAAAAATAGATAAAGCAGCAGTAGAAAAGATGCCACATATCAAGAATGATCCAAAACTGCCAGGCTAGAGAAGCAGATGGCATCTA
AGCTGGGTCTTGAAAGCTTTGGATAAGGAAGGAGAGGATGCCTTGGTTGGATGCAAGAGGATGGACATGTTGTAAGCAGAAGTTTAGAGACGGGAGAGTA
TAAACCCATTTAACTGAAGGAAAATCTCTTAAATTTGTAGAGTTGTAAACCAGAAAGATAGTTTCGTGGCCAGAGACCTTAAACAGCAGGTGAAGAATCT
TGGACTTACCTCCCCTGTGTTAGACCATGAGATCCCAAAAGCAGAAAACTTATTTTTGTTTACATTGTTTCCGGTATGGGATTGGTGCTTAGTGAAAGTT
GATGGGAACTGTACCCAATGAGAAATCAGGCAGAATTTTTGGAGTAGGACTCTGGTAAGAAAACAGTGGGCCAGGAGGATTAATGTGCAAACAGGGTAAA
AATAGTRTACAATTGAGGGAATTTATATTCCTGTTATGATGCTGGATTAGGCAACAAATACATGACATTAAGCTGGTGGCAGCAGAATGGAAAGGAACAT
ATAGATGCATTTTATTGTGAAGGAAATGTTACCAGGACTTCAGTCAAAGGTCCTTTTATTTAGTGATCAGGAGAATGGTTGGTACCATTAACAAAATAAA
GAAGATGAGCTAAACTGAAGAGTTTGGTTATACATATGTAAAATTTCAGGTCATGGKGGACATCAAAGTTTGTGCAGCAGTCAAGGATAAGAGCTTGAGA
GAAGATGAGAGCTGGAGATCTAAATTTGGGACTTGTCCTGCCACACTATCAATGATTCTGAAGTATTTTAGTGTATCAGTGAATGGTAGTTGAAGCTATG
AGACTGATTGCTGTCATTAAGGAAGCAAGTGAGGGGAACATTACGACTCCATGGTGTACATTAGTATTGATGGGAATTTCCATGAGTCCTTAATTTGTTA
TCATACTTGCATCTAGGGGATCTTTCAGGGATTCTTGCTCCAGACAACCTCAGGGGATATTAGTCTGACTACCAAACATCCATATGGGGGTGAGGTATCT
AATGTGTCTCACCACCTTTAGGTCGGAATACTTTAAAATCATTATGGCAGATAATTGCTGATGTTCATCAACTTATTTTGTGGTTTTGCAATCCTGAGCA
CATAAATAAAGCACTCCTTGATCTTCCCAATAACCTTATGAAATAGGCATTGTCATCATCCCTGTTTTACAGGCGAGGCACAGAGGTTAAGTTACAYTGG
TAAGTGACAGGGAAGGGTTTCAAACCCAGGCAGCCTGGCTTCAGAGTCCATGCTTTTCTGAACCACTATATTCTGCTACCTCTTGACACACAGGTTTGAC
TTCAGGAATTGATCCTACAGRTAGCCTCAGAAATTGTTAGGGACTTTCTTTTCATAYCTGGTTAATCCCTACCCCTGTTAAGTAAAGCTACCTTGTTTAA
TTTTTTTTATCCTTAAAAATTCAGACATCCATTACTTAATCTTGCTCAGTTCCYCAGTTTACACTTTTGAATGGTAAAACTTACTTCTTTGTGTACATAG
TTTTTCTGTGTGCATTTCTGGGACTTTGCAGCTGTTCCATTTTTTGGAGTATCTCTTCTCTCCCCAGATGTAAATGTAATGGACACGCAAGCGARTGTAT
GAAGAAYGAATTTGATAAGCTGGTGTGTAATTGCAAACATAACACATATGGAGTAGACTGTGAAAAGTGTCTTCCTTTCTTCAATGACCGGCCGTGGAGG
AGGGCAACTGCRGAAAGTGCCAGTGAATGCCTGCGTGAGTGCCCCATGACGTCAGTCTGTCAGTTGTCTTAAGGACTTCCAAGGGTGGAAGAAGGAAYGG
GTGACTTTCTTTTATTCCTCCTTGAAAGGAAAGCTCTGAAAGGCCAGCTTTTTGTGTAATTTGAGTAGTATTCAAGTCAGAGGAAAGTCATAGATGAGGG
CAATTCACTGTAAAGGCAAACTGAGGGTTTTGTGTTTCCTTCATGAACACATGTCCCAGAGTTGGAGCAGCATCTGCAAGGTTTAGAAATTTGTTTGGAT
CCAAATACTGGGCCAGTGTAGTCTACTCCGGAATATGGTTTCTCTAGTCGTATTTGTTCCCCTTTAAAATACTATTATTTTTATCAATGCTCAGGCATCC
AAGGTAATTAACATGTATCAAATATAATGAGTTCTAGGCTAAGAGGGCCATTCCAAGATTATTTCTTTTTTCTTTTCTTTTTTTTTTTTTGAGACTGAGT
CTCACTCTGTCAGCTAGGCTGGAGTGAGTGATCTCAACTCACTGCAACTTCCACCTCCTGGGTTCAAGTGATTGTCTTGCCTCAGCCTCCTGAGTAGCTG
GGATTACAGGTGYRTGCCACCATGCCCAGCTAACTTTTGTGTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTC
AGGTGATCCACCTGCCTTGGCCTCCTAAAGTGCTGGGATTACAGGTGGGAGCCACTGCGCCTGGCCGCACAAGATTTTTTCTCRAAACTATTTTTTCTTT
ATCTCACTRAAGAGTACAACGGGGAGAATTTTCCCACTCCCCTGTTGGAGAGGTGGGTAGCTTTGGGAAGAAGAATAGGTCCTAGTATTCCTAGAAAAAG
GTAAAAATGAAAAAAAAGTAAAATGAAAAAACTTRAAACATTGTTTATCCCTTCATAATGTCATGGTTTATTCTGAACAGATAGAGAAAGAAATCTCAGG
AGAAAGGAACCTTTTAATCATGATTTTAAAGCAGAAATACTTTTCTTATGTCCTTACAAATATTGTTTATCATATTCTGTTAAGAATAAAGAGAAAAAGA
AGATACTCTTAACTTGCAGAAATTATTGGCAGAGGCTGGGAACGGTGGCTAACGCCTGTAATCTCAGCATTTGGGAGGCCTATGGGGTTGGATCACCTGA
GGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATASAAAAATTAGCCAGGTGTGGTGGTGCACGCCTGTAATCACA
GCTACTCACTTGGGAAGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGTCAAGATTGCRCCACTGCACTCCARCCTGGGCAAC
AGAGTGAGACTCCGTCTCAAAAAACAAAAACAAACAAAMAAATTATTGGCAGAAACCCCGAGAAGGGACCACTATCTTAACTCACKACTGTTTCCACTGA
ACTGCCGAGAGGAGATTTTCTTATTCATCTTTTCAACAAATCCTAAGATTTGCAAGTAAAATTTACAGCCTCCTCTAACATTTGTAAGCACTTGCTTGAC
CTTCTTTAATTCCATTACTGAACTGTAATATTCAGTGTTGGAAGCTCTACAATAAAGGCTGGTACAAGAATGAAATACTCCTAATATGTGGCATCTAAAT
AAATGGACATGTGTGCTTGAAAAGCATTCTGCTTAATAATGTCGTATTTTGAGTCTATCCAGGAAGTTACTTAAAGAACCAAACATTGCCAATTCACCTC
TAGCAAATGAACTGAGTACTGTAGCTAAAGGACTTTGATGAGGAACTAAGTCAATTTGCTTTTCTCGTTGGTCCCTTCAGCACTGTGACACTTCAAAGAG
TGACATTTCTGGATGTTGTGACAATACTACATTAATTGTCAGGATGCTAGGGCTAGGGAAGAGAACTACCTTCTCTCAAGGAGGGAGCCATGGCATTTGC
TTTAGCTGTAGGTTGGGACAGTGTGGACAGTGGTGTTATTCTGCTTTACCGTCTCAGAACATCAGATCTTCAGGTGGGTTGGGCTTGGTGGATTGAGGGA
TAAGCTAGGGCRTCTTGAGGGAAGAGAAATAGCTAATGAAGGAAGGAAAAGGGCACTTTAAAACTAACTTAACAAAACTCTAATTTTTGGTGGCAATAAC
TCAAGTTTCTAAAAAAGTTTTCAGTTGTAATACTGTACTRTGAAATAACTGATCATAAGAAAGAGAGAAAAAGAACAAAAGGGGCTGAGTATGGTGGCTC
ACACTTGCAGTYCCAGCACTTGGGAGGCCAAGGTGGGAGACTCATTTGGGACCAACCTGGGCAATATAGTGAAACCCTGTCTCTGCAAAAATAAAAAATA
AAATAATTAGCAAGGCATGGTGGCATGTGCCTGTACTCCCAGCTACGTGGCAGGATGAGGCAGAAGGATCACTTGAGCCTGGGAGTTTGAGACCAGTCTG
AGCAACAGAGCAAGACCTTGTCTCTGCAAAAAATTTTTTAAAAATTAGCTGAGTATAGTGGCACACACCTGTAGTCCCAGCTACTTGGGAGGCTAAGGCA
GGAGGAGGATCACGTGAGCTCAGGAATTTGAGGCTGCAATGAGTTATGGTGACACCACTGCACTCMAGAGTGAGACCCTGTCTCCAAAAAACAAACAAAT
CAAAATGTGTTCATGATTTTGGTTAGAAGAAGTCTGCATTAAAAAAGAAAAATATATTCCAAAAAAGATGTATTCGAATATTTTTTTTAAACAACATCCT
GTTCGATTTGAAACCAAATAAAACTTCTTTTTATTTACTCTTCAAGATACTGTCTACATTTTGGGAAGAATCAATAACTCAGAAAAAAATCTTTTTATTA
TAAATATAGTAAGGAATTTTTGTGACTACAGATACTTGGTCTTGAAATATGGTTGTGCCCTGCAGGGAATATAGCTACTTAACAGATCACCCATTTGGAG
TTGAGGCTTCCCTGTACATGGATGTTTCTGGAGGATCTAGATTTCTTTTTAATTCTGCTTTCATCTGTCSTGGCACTAATTTTGACCCATATGTCTCAAG
TTACCCCAGTCTAGATATATAAATAATCTGGCACTTTGGAAGTTAGTGTCTTAATGTATTTGACTCATCTGAGGCCTAAAAAGTTAAGGTAAATTGAAGC
CTGCATATAAAATGGCACTTTGTTTTTGGAGTTGATACTAGAATAAAGGCTAAAGATTCAGGAGAATTATAATTTGACTTGACTTTTACTTGTATATGAA
CAATTACCTGGAGGCAGATTATTTTCTAAGTACGAGAATTCCTTGTATCTTACGATGGTGCTGTTTTTTAGAGGGAGGAACATTTCTTTATCATCTGGCT
GTATATACCCTTTATTGACATCCTGTTGGGTTTTGTTGGTGGTGGTTTTTTGTTTGTTTGTTTTTGAGACAGAGTTTTAGCTCTTGTCGCCCAGGCTGGT
GCCCAGTGGCRTGATCTCAGCTCACTGCAACCTCCGCCTCTCAGGCTCAAGCGATTCTCTTGCCTCAGCCTACCAAGTGGCTGGGATTACAGGCATCTGC
TACCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTGGCCAGGCTGGTCTCAAACTCATGACCTCAGGTGATCTGCCTGCC
TCAGCCTTCCAAAGTGCTGGGATTATAGGCATGAGCCACTGCACCTGACCTTCTTGTTGTTGTTAATGAACAGTGCATCTGGTAATCATTCTYAGTCTAC
CACCATCTGTCTGTCTCAGAGATGTGGGAAATTATGTTTGGTTTTAAGTCTTAAAATGCTCTTCTTAAAGGTACCCAGATCTGATGTAACTCGTGTGTTT
TGACTGACAGCCTGTGATTGCAATGGTCGATCCCAGGAATGCTACTTCGACCCTGAACTCTATCGTTCCACTGGCCATGGGGGCCACTGTACCAACTGCC
AGGATAACACAGATGGCGCCCACTGTGAGAGGTGCCGAGAGAACTTCTTCCGCCTTGGCAACAATGAAGCCTGCTCTTCATGCCACTGTAGTCCTGTGGG
TAAGTGACAGGAAGATGGATTGAAAGACAAAATGATAGTTCCGTGGACCCCCGGAAAGGAAAGCTTTGTTTCCAAGGCATTTGGACAACTAAATGTGGAG
ATGTATACATTATTGTAACACAGAAATCAGTCAAGATCTGTCTCTACCCCATGCCTCCACCTTTTTTAACCAAGTTGAACTTTCAGATGAGTTTCTGGTG
TGTAAGAGGGGGGTGGTGGCCTGAGTAATGGTTCTGCAAATAATTAGCAGCAGGATCATAGAGACAATTTGAACTTTGACTGTAAAAGGTTAACTGCTTT
GTGAGTTCTTCCTTGTTGATGATTTTGTTTAGTCTAATCTCCTTAGAGTGCTGAAATATTCTTAGCATGTTTGYGTGTGTACAGAGATGCACAGCATTCT
TAGTCTAGCCCATTCTTCAAGAGTTTAACCTTTATATTTGTCATTTAGGCCTATATATACTTAAATTCTAGACATGGGCCTTAAGGGGCTGTGATCACCC
ACAGAGAAGTAACTGATCTTGTGTGCAGTGTTTCATTGGGTACAAAGTGATTTTCAACATTGATGAGTAAATTCATCTTAGCATGTGTCTAGAAACTTAA
AATGCCATGACTTAAAGGGTCATGATTTTGAGAAAGTTCTGATTTAAAATTTGGTTTTTATTACCTTTGTGACCATCAGGAGATTGCATACTGGTTCTCA
GGCATTGCTTTTAATTACCAGTTATCTTTCTTTAACACATTGATTTTACTTRMGTATCTGGCCGAATTTTTGTTTGACAATAGGCATYTTACATTTTAGG
CTCTCTAAGCACACAGTGTGATAGTTAYGGMAGATGCAGCTGTAAGCCAGGAGTGATGGGGGACAAATGTGACCGTTGCCAGCCTGGATTCCATTCTCTC
ACTGAAGCAGGATGCAGGTAAAATATTTTCAAAGCCAGAAGAAGGGGGCAGAATCTATATATAGTCAACACATATTAATAGATCTTATGGCTTATTGGCA
GCAGGGTAAACATTTTTCCTGTAATAATTGTCAACAAGACTGAGGACTAGCTGTAATGGTGAGCCACAAGGGGTTTGGCTTGTACAGAGAGTAAGCAGAG
TTTTAATGGGATGACTATCTTAAACTGAAACCAAATATAAAAATGACTTTAGGCTCACACCTGTAATCCCAACACTTTGGGAGGCCAAGGTGGCTGGATC
ACGAGGTCAGGAGATCAAGACCATGGTGAAACCCCGTCTATACTAAAAATACAAAAAAAWTTAGCCAGGCGTGGTGGCGGGCAGCAGTAGTCCCAGCTAC
TCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGYGGAGCTTGCAGTGRGCCGAGATCGCGCCACTGCACTCCAGCGTGGGTGACAGAGCGAGA
CTCTGTCTCAAAAAAAAAAAAAATGACTTTAGGGTCCATTTTGTTCTAYGTGTATTTCTTTTAAAAAARTCTGTTGGCTGGGCGCCTGTGGCTCACGCCT
GTAATCCCAGCACTTTGGGAAGCCGAGGCAGGCGGATCACAAGGTCAAGAGATCAAGACCATCCTGGCCAACATTTTGAAACCCTGTCTCTACTAAAAAT
ACAAAAATTAGCTGGGTGTGGTGGCGTGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCTCTTGAACCCTGGAGGCGGAGGTTGCAGT
GAGCTGAGATGGYGCCACTGCACTCCATCCTGGGCGACAGTGTGAGACTCTGTCTCAAAAAAAAAAAAATCTGTTAACATGTAAAACAAAGGGCTGACTT
GAAGAGTGGAAGTTTTCTCCCTTCTCTGATTGTTTTATCCRTTTTTCATTGAATAGGCCATGCTCTTGTGATCCCTCTGGCAGCATAGATGAATGTAATR
TTGAAACAGGAAGATGTGTTTGCAAAGACAATGTCGAAGGCTTCAATTGTGAAAGGTAGTGCATTCTTTCTCTAGCTGCATTGTGTTTTCTGTTACCATA
TTTCAAGTAAAAAAAAAGTAACTGATTGTGTCTTAATCTTTTTCAGATGCAAACCTGGATTTTTTAATCTGGAATCATCTAATCCTCGGGGTTGCACACC
CTGCTTCTGCTTTGGGCATTCTTCTGTCTGTACAAACGCTGTTGGCTACAGTGTTTATTCTATCTCCTCTACCTTTCAGATTGGTAATTTAGACCTCATC
CCCCAACCTGTTAGAACTGTGAGATTACACTTAAAATATTTTTAAAAATAAAATCAGTGACTCTTTGAGGGCTTTTTGATGGTTGGCAACACTTTGTATT
ATTTAGCATGCATAGTTTTTGTAGTTTGGCCTTTYAATTTAATGAAAATGTACTTTTGGCTTTAGAATTTATCTCAATGAATAGTGATTACAAATGTTAT
ATAAATAGTAATAAAGTAAAATATAGTTTGAGTGGTATAGCATATATTGGTACTGTTGTAGGATCCATTTATTCAAAAAGGTTTATTGATGCCTTTCTGT
ATACAAGGTGTGGTCTTACACATTTTTATGATACATAGAGGACCTGAATTCAGGATGTTTACAGTGTAAAGTGCTTGTGTTTTCCTTCTCTACCTGCAGA
TGAGGATGGGTGGCGTGCGGAACAGAGAGATGGCTCTGAAGCATCTCTCGAGTGGTCCTCTGAGAGGCAAGATATCGCCGTGATCTCAGACAGCTACTTT
CCTCGGTACTTCATTGCTCCTGGTAAGTAAGGCTAGAAAGCAGTCTGACCTGCTGTGTGCCTCTGTTTAGTCTCAGTCTCACATTCTTGCCCACCATTGT
GTCTGTATTCCAGCAAAGTTCTTGGGCAAGCAGGTGTTGAGTTATGGTCAGAACCTCTCCTTCTCCTTTCGAGTGGACAGGCGAGATACTCGCCTCTCTG
CMGAAGACCTTGTGCTTGAGGGAGCTGGCTTAAGAGTATCTGTACCCTTGATCGCTCAGGGCAATTCCTATCCAAGTGAGACCACTGTGAAGTATGTCTT
CAGGTAAGATAGCCTTCTTTGTAAAGTGAGACTTGACGAACATTGTGAAAGTGGTGTCTTTATTTAAGTTTAACTGGCCTCTAGATGTATTTTAAAGAAA
AACTTCTGGGTTATTGTGGTGATTTTGTAAAAGGGAGCCTTCCTTTCTTTACCTTTATCTTTTCCAATTGTACTACCAAACCAATAGTCTTATTTTTTAT
TTGATTTGATTGTTAGAGCATTGCATTGTTGGGGCATAAATGAATAAGAAATATTTCCCCAACATCCAGAATTGTCCTTACAGAGGTTAATGTGGCCCTT
TCTTTCTCTCCAGGCTCCATGAAGCAACAGATTACCCTTGGAGGCCTGCTCTTACCCCTTTTGAATTTCAGAAGCTCCTAAACAACTTGACCTCTATCAA
GATACGTGGGACATACAGTGAGAGAAGTAAGTTATGATATAATTTAGGAGAGTTGTTTAAAAAGATGATTGGTTAGAAAGATTCATGATAATGCAAAAGT
TTCTCTTTCCTAATAATATAACACTGAGAAGTGTATAACAACTCACATTATACATGAATTATATATAAAGACAATGCATTTTTTAACGGCTTTCAAGGAC
CTGGAAAAAATTTGGTAAAATTAGTAAATWGTATTATTTACTAATTGATTACTCAATTGATCAGTAGGTCAATTGAGGTTACATTGTATATAAATAGATT
TTCTAAAAAACCTAATTATAGGCTAGGCGCAGTTGCTTACACCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGAGCAGATCACTTGAGGCCAGGAGTTT
GAGACCAGCCTGGCCAACATGGTGRAACCCCGTCTCTATTAAAAATACAAAAATTAGCCAGGTGGGGTGGCAAAAGCCTGTAATCCCAGCTACTTGGGTG
GCTGAGGGATGAGATTCGCTTAAACCCGGGAGGCAGTGGTTGCAGTGAGCTGAGCTCATGCCACTGCATTCCAGCCTGGGCGACAGAATGAGAATCTGTC
TCAGAAAAAAAAAAAAAATCTGATTATAATTCTACTGGCTCAAGTTGCCTCATCTTCATTTCTTTTTATTTACTGTTGTGTAATTATAATTTATAATTTG
AGCCATTGGTTAAATTATTAAAAGTCATAAATTATTGAATGATTTTGTTATAATTTTWGGTGAACAAGAGTTTAAGACTTAAAAATTTTTTTTTTTGAGA
CGGAGTCTTGCTCTGTCACCCAGGCTGTGGTGCAATAGCATGATCTTGGCTCACTGCAACCTCCGCCTCCTGGTTCAAGCGATTCTCCTGCTCAGCCTCC
CAAGTAGCTGGGATTACCGGCACGCCCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATATTGGCCAGGCTGATCTCAAAC
TCCTGACCTCAGGTGATCCCCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCCCTGCACCCGGYCAAAATTTTTTTTCTTAAAAAAAAG
TTTTAAACAAGGACCTTTTTCTCTAGCAAGGTACAGCTGTTTGGGGAGGTGGAGTTAGTGATGATGTGGTATTGGGAGAGGCATCTGCAGCTTAGATGTG
TTGATTTTTGAAATGCCTGCATGAATATCCAGATAAAAATGGCTTATAAGTAGTTAGAAATATGAATCTGGGGCTTAGGAAGAGATTAGGACTAGCGATC
CAGATTTAGAAGGTTGTCAACATATGGGCAATAATTTTTAAACTTGGAAATATGACAGAAAATATAGATGGRAAAGAAGGATGGAATCCTGGAAACAGTT
AAGTCCATGCTCTAAGACCCAAGGGCAACATGGCGAAACCACATCTCTACTAAAAAGTACAAAAATTAGCACAGTATGGTGGTGCATGCCTGTAGTCCCA
GCTTCTCTGGAGGCTGAGGTGAGAGGATCACGTGCACTCAGGAGGTCAAGGCTGCAGTGAGTGGTAATTGTGCCACTCCACTCCAGCCTGGACAATGAGT
GTGACCCTGTCTGAAAAAAAAGTAAAATAAATAAATAAGAGCCAAGGGAGAAAAAGAATTTTAAGAAAGAGAAACAATTAACAAGTTTAGGAAGCTAGCA
TCGTTGGGTTTTGGATTGGTGATTCCTTAATCRCTGCTGAGTTTTTGTTTTTAAGAAGTGTTAAAACTGTCCAGGCGTGGTAACTCATGCCTGTAATTCC
AGTACTTTGGGAGGCTGAGGCAGGAGGATTGCTTGAGGCTAGGTGTTCAAGAGCAGCCTGGGCAACATAGCAAGATTCTGTCTCTATAAATCAAAAAAAT
TAGCTGGGCATGGTGGCACACACCTGTGGTCCTAGCTACCTCGGAGGCTGAGGGCAGGAGGATGCATGAACCCAAGAGGTCAAGCTCGCAGTGAGCTGTG
ATCATGCCGTTGCACACCAGCCTGAGTTTACAGAGTGGATCTATCTCAAAAAAAAAAAAAAAAAAAAAAAGRTGGCGGGGTGGTGTTGAAACTGAAAGAT
CACAGTGCTTTAAGAAGTAATTTGAAGTTGAGTAAGTAAAATAAAGAATGTTCAGTTAAGAAGTTTGGCTATAAGGAAAAGACATGGACTATAATTTGGG
AGTAGGAACAAGATTGAAGAAAGTATTTTTAGAATGGGGAGACTTAAGGATGTTTAGAATTGGAAGCACAGTAACCAATAAAGCCATATCTCATGACCTA
ACTAGGCAAGATAAACCTGTAAACATACTAAAAGTAGTACATTTAGGGTAGTAATGGAGGTGTCCTTCAGCCTTAGGTGGTTAATTTTCAAATGAATTTT
ATAAACAGCAAGTGCTATTTCATAACATGAAAAATACGCTTTAAGCATAAGACTGCAAAACACTAGAGTGGAATGGAGATTACAGGGAAATATGATGATG
TTACTGAGGCCTATACCTCTCTGATAAAATGTTCCTGTTGATGCTTGTATCAGGGGCACCACTGGATTGGATGAACCATTGGTCTAAGGCAATATAAGGT
TTCCTCTGATTTCTTATAGAAATGGAAAAGCATTGAGCTTTGGAGTAATTGTATACTTGTCAGAAGTAACCCTGAGTATTAGAACTTTACTTGAGAGTTT
TTGTTTTTTGTTTTTTGGGGGGTTTTTTGGCTGTTTTACAGAGGGCAGAAATTATRTAACCTGAGTATTACCTGTTGACAGGTGCTTTCCCTTCTGTCTT
AYCCTTGAACTCTGTAGTGCCTGCTTTTGTAGCAAAAGAATGAAAACACTCCTTAATGGCTGTAGACATAAACTCTTCTTTTCCCCCCACACTCTTGTTC
ATATCTCTTCTCACTCCAAATGATTGTCTGATGCTTTTCATTTTTCACATTGGTGGGGACTGTAAAATTCAGCAAATCTAGGGGTACATGTGTGTGTTTT
AAAAAAAATWAGTTTGGGCCGGGCATGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCTGATCACCTAAGGTCAGGAGTTCGAGA
CCAGCCTGGCCAACATGGTGAAACCCTGTCTCTTCTAAWAAAAAAAAATACAAAAATTAGCCGGGCATGGTGGCATGCGCCTGTAATCCCAGCTGCTTGG
GAGGCTGAGACAGGAGAATTGCTTGAACCCAGGAGGCGGAGRTTGCAGTGAGTCGAGATTGCACCACTGCACTCCAGCCTGGGAGACGGAGTGAGACTCC
ATCTCAATAAATAAATATATATATAAACAAACAAATAAATTAATAAATAAAATAAAAGTTTGCTATACCACCACTCCAGATACTTAGCACTCAGTACCAC
ATGATTGTTCTAAATGCTGTTTTCTAATTCTCTTCTCCAGGGTGTAGACGTGGATATCTCGTTTAGTGTATCAGAGCCCAGTTAAGCAAATGGCTRATTT
TCTCTGGAATTTGGGGTCTAGTTACTTTTTAGTGTTACTGACTTTACACAAGGTTTGGAAAACAAGCCAGTTCAGTGATTTTCTTTTCCTCACTATACAC
AGGTGCTGGATATTTGGATGATGTCACCCTGGCAAGTGCTCGTCCTGGGCCTGGAGTCCCTGCAACTTGGGTGGAGTCCTGCACCTGTCCTGTGGGATAT
GGAGGGCAGTTTTGTGAGATGTGCCTCTCAGGTTACAGAAGAGAAACTCCTAATCTTGGACCATACAGTCCATGTGTGCTTTGCGCCTGCAATGGACACA
GCRAGACCTGTGATCCTGAGACAGGTGAGATGATCTTTGGCAGCTCTTAGACCTAACTTCTCTTTAGCAATTGTGTAGAAAGTGCTCATTGTCTTATATA
CTYGTACATTTGCCTGTTTTCTCACRCCTGCCTTCCAAATAGGTGTTTGTAACTGCAGAGACAATACGGCTGGCCCGCACTGTGAGAAGTGCAGTGATGG
GTACTATGGAGATTCAACTGCAGGCACCTCCTCCGATTGCCAACCCTGTCCGTGTCCTGGAGGTTCAAGTTGTGCTGTTGTTCCCAAGACAAAGGAGGTG
GTGTGCACCAACTGTCCTACTGGCACCACTGGTAAGTCTGCTCRCTTCATCTGCTTTCAGTGTTCCCTTCTATAAAAAGACCTAGGGGAAAGGGGCTTCG
GAGTTGTTTTGGATCTTTGTGTTTGGTTCAGTTTCAGTGGTTATGGTTTTCCTAATAGGAAGCTGAGGCTCACTCTCCTTGTTTCCTTCCATCTCTCTTT
TGGGTATCCCCTGATTGTCTCCATCTGTCAACCAAGGGCTTTCATGTCACCTTGATCTACCGTCTCCCCTTTAGGTGATCAAATCTCATCTTGAGGCTTC
AAAAGCCTTTCTATATCTATGATAGCTAAGTTTGTATTTCCAGCCCTGGCACCTCTCCTGAGCTACCTACTTGCCATTTCCACTTGGATGGTGGGCTAGA
AGCCTTCCACTTGCCTTTCCACATCCCTGTTCACCTTTCTSCACCCTGACTGAGACCTGCATGCACTACATCAAATGTCAGGCTCCATTTGCATTCAGAC
AGCAGAAAGCACATATGGGAGCTCACAGAGAAGGAGGAGGGTGAGGACAGAGTATTTATCCCATRGCCCCTTCTCTATGGGGTTCTCTGGATCGATGACC
TCAAATCYGTCATTGATGAGCCAAATCAGCTCCTGGKAGGCCTTCTCCAAACAGCTCTTTTTGCCTTTAGGTTCTGCTAGCTGCCCCACCCACCACCTGA
GGCCCAGGGTATGGAGCCTATCTCAAGTGCTGCACTCTTCTCGCAGTTTCCTTACACTCCGTGCTGATTTGATTGTGTCAGCCATTTTCTGCTGTGATTT
TGATTCACATAGCCAAAGGAACTCAAATTTAAACAAATCCAAGTTAAATATTTGATTTCCTCCCTTTTTCTTCGACCCTTTRTTTCTCCTCCAGTCTTGT
TCATCTTAGTAAATATGCTGCCATTAGCCTAGTTGCTCAAGCTGAAACCTTAGGGCCTATACTTGATTCATCTTCCTTTCAAGTCCTAGAAACAGTCAGC
AAATCTTACTGATGTTATCTCAGATCTGACCACTTTTCACCACTTCAASTATCACCAACCTGGTTCAAACCTCTGTTATCTCTCACCTGGGATTGCCTAA
TTGTTCTCCCTGCCTCACCTGCTCCCCTACAATGGMTCCAATCTYAACATGAAAGCCAAAATGGTCCTTTCAAAATGTACCTCAGATTACACCACTTTTA
AACCCTCCAATAGCTTCTTGATACACTAAAACCAAATCCTTTACTCTGACCTCCATGCTTCTACATGGGTTTGAACTGCTTCCATGGCTTATCTTGTTTT
TCTGAAACTTTCTTCCCTTGGATATTATCCTGGCTGGTCTCTTCTCTGTCTTTCCATTGCTATCCCAATGTCTCCTTCTTACAGAGGCTTTCCCTACCCA
CCAATATAAAGTAGCCCTCACCTTCACCCCATCATGCTGCTCTATTTTGTTTAAATTTTTTATGCTTATCCCTATCTGAAGTAATCTTGTTTATTTGTAT
GTCTGTGTATTGGTCTTCACCAACCGCTGCATACACTTCATGAGAGCAGAGACCTTGTCCACCTTGTTCACATCATCCTAATGACCTAGAACAGTGCTGG
TATATAGTAGATGCTCAGAAAATACTTGTTGAATGAATTAATAAACCTCGGATTCCCAGAAATTTGAGTCTAATTCAGGCCCTACTGGTTACAAAGATAT
CACGAGCCCAACTTGAACTAATCAAGGTAGGAAAGTGGAAAAGGAAGGATGAGGAGCAGTGAGTAGTAGAGTGGAAAGAGCTCTGGATTCTAGCTCTCCC
TCTCTACCTGTCACTTCTTTGGTTGCAGGCAAATTACTTATCCTCTCTGTTCTCTGAGCTATAATATTTAATACAAGCAGTCAGCAACTGATGATTTYTA
AGTTCTCTTCTAACATGCCCTGATTCTGTACCAATTGATACTGATTAACAAGGATTAGCACATGCCTCTTACATTTTAAGAGAATGGTTCTGCTCACCCT
GTTGTGTGGGAAACTTACAGTGTCAAGAGTGGCACTTCACCTCTTTTAATATCATCTGCCAAAACAACATATATGAATGTGCCATCCTTTGAGACTGGAG
AAGTTTATAAACCTTGGGCTTGACTCATTTACCGAGCACTTTTAATACATGATTTGGGTTGATTGTCACAACAATTAAAGTGAAGTAGGCAGACCAGGTG
CTTCCTGTCTAGTGAGGAAATAGAGATGTGCTCAAGGTCACTCTGGTGGTCTGGCCCCGTGCCAGGGCTGCAGCCCAGGTCCTCTGCCCTCCACTGCACC
ATGTCTTCTCTCATGTGATGATTACACTAGATTACCTGTAGCCAGTGGTAATCTAGCACCAAAAATGTCTAAGGCCTTTCTTTCATAACATCAGATTGTC
TCATCCCCAGGTAAGAGATGTGAGCTCTGTGATGATGGCTACTTTGGAGACCCCCTGGGTAGAAACGGCCCTGTGAGACTTTGCCGCCTGTGCCAGTGCA
GTGACAACATCGATCCCAAYGCAGTTGGAAATTGCAATCGCTTGACGGGAGAATGYCTGAAGTGCATCTATAACACTGCTGGCTTCTATTGTGACCGGTG
CAAAGACGGATTTTTTGGAAATCCCCTGGCTCCCAATCCAGCAGACAAATGCAAAGGTAATCAGCCTTTGATCAGATTCTGTCACAGCTAAATGCCCCTT
TATTGTGAGAATTCTTGTGTGTCTCTTAAAATATGTATAGTTGTTTAGTCCAATAGAAATACATTGTGAACCGCTTTTGTCTTTTAAAATTTTCTAGTCA
CCACATTAAAAAAGTATAAAGAAGGACAGTCATGGYGGCTGACACCTGTGGTCCYGTAAAAAGAAACAGGTGAAATGAATACTAATGTATTTTATTTAAT
ATATCCAACATATGATTTCAATAAGTAATCAATAAAAATTGTTAATGAAATATATGTTYTTTCTCAYGCTAAGCCTTCAAAATCCAGTGTGTATCTCACG
TTTATAGCACATCTCAATTCAGACTCACCAGCCACATTTAAAGTGCTCAGTAGCCACATGTGACAGCAGCTACCAACCTGGCAACACAGGTCTAAAGAAT
CTCTTTAGGTTGTTTATATTTTAGTATTTCTCTCAGGTGATTTGTGTCTTTTGCCATCTCTGTCTTCCTGCCTTAGCCTGCAATTGCAATCYGTATGGGA
CCATGAAGCAGCAGAGCAGCTGTAACCCCGTGACGGGGCAGTGTGAATGTTTGCCTCACGTGACTGGCCAGGACTGTGGTGCTTGTGACCCTGGATTCTA
CAATCTGCAGAGTGGGCAAGGCTGTGAGAGGTGAGACATAGGTGCCTTTGGTGAAARTAATCTTTGCTTTTTCTGTTATAAAAAATGAATTTTTATAAGT
ACATTTAATAATTGACTGTTCAGAAATTACTGGAGCGCCTAATGTARGCAAGGCATCCTTCAGGGGCAGTGCTGGAGAATTGTAATAAAGCTAATGAAAG
AAAGGAGTGGAGCACAGTGGCCCCAGCTGTGCCAGAATCACCTGAGCAACCTTTTAAAAGCACAAATTGCCGGGTCCTTTCTGAGGCACTTAGAATCAGA
CCCTTCAGGGTTGCAGCCTGGGAACTTCTGTTTTCAAAGCTGCTACTTAGTGTCCATACAGTCCCAGGYTGGAGAGCACTGGTAGCAGTTAARTTAGGAA
AAGAGGTTCTGAATAGCACTCATGAAAATTACTTGAACCTTAGGGGCTTAATAACCCTTAACATTCCATCTTAGTAACCCTTACCATTCAGTTTTCTGAT
ACAAGTTACAAATTACATCAGTGCTATACTAAAAAAAAAAAAAAGTTGTGCTTAAAGTCTGTTTTTCTTGCCTGAGAARTGTCCTGTGTTCATTTTCAGG
TGTGACTGCCATGCCTTGGGCTCCACCAATGGGCAGTGTGACATCCGCACCGGCCAGTGTGAGTGCCAGCCCGGCATCACTGGTCAGCACTGTGAGCGCT
GTGAGGTCAACCACTTTGGGTTTGGACCTGAAGGCTGCAAACGTAAGGGGTGTTGGTGGCATACAACTCTAAGCTTCCACTAATTCCAGTTAGTGTCTTA
AGGCCAGAAAGGACTTTGACARCCTCAGTCTAGCCACTTGACTCATAGTCAGGGCTGTACCTAAGTCATCGTAGATGCTTTATTTGAAGAATATTATCCA
TTTCTAAAACTCTGCAGATCAAAGCCTTCTCTGGTTTCTTYGTATGTTTTCTTTTACAACGTTTCTGATGCTTCCTTTTTCCAATCTTTTATTTTTTCCA
AGGAAGTCTTCCTTTGATTACTGAGCTTTCCCACTGTGGTTCATGAAACTTCTTTATTGATTGCATTCTTAGTGCAGATAATGAAATAGTGGAGGATTCT
GTTCACAACRTGTTTGTTGACTTGCTGTAGTTGCTTCCCACCCTTGGGGCCCTTTTGGTATGATTACGTGTAAACATCTGCTTCTCCTTGGCATAAACAC
TTGCCTGGAATTGGGCCTCAGAACAGATTGGCTTTTGCTTTCTGAATTCCTTCATTTCTCCTGTGGAATGTAGCATAAGTAATTGACTCAGTTCAGAGAA
CACAGTGAATAAACAAACTATAAGATAATGCAAAAGAAGCATTAGCATTTGGGTTTTCTAGTTCCTTAGAGAAATATTAAACAGTGGAGAATTGAAGGTA
GAGATGAATCCTTGAAGTGCATGAAACGAGCACTGATAGTTTCATAACTTCTCTAATTGCTAAGTAACCTGAAGTGTGTCCCAAAGGTTGCACGTTTTAC
TTTAAAGCTCATTTTGACTTTTAAAAATGTCAGTTTTCTCTGCTAAACAGACTTAGCCATTTAAGATCTCATAAATAGTCCTGTTTTTCAAAAAAATTAT
AATGACAGTATAGTCAGCTTATAGTCAGCTTATTGTTATCAGTCTGAATTAAGAGATATACTCTTCCTTCTTTTGCTAATTAYGTATTATTTTCTCCTTA
TTCTGCAGCCTGTGACTGTCATCCTGAGGGATCTCTTTCACTTCAGTGCAAAGATGATGGTCGCTGTGAATGCAGAGAAGGCTTTGTGGGAAATCGCTGT
GACCAGTGTGAAGAAAACTATTTCTACAATCGGTCTTGGCCTGGCTGCCAGGAATGTCCAGCTTGTTACCGGCTGGTAAAGGATAAGGTAAGCTGTCAAT
AGTGCATTCATTCATTCATCCAGCAGACGYTGAGTGGCAACTTACTGTGCACTAATCTCTATAGAAAAAGTGGTGAACAAGRTAGATGTGGTCCCTGTTC
TTAAAGACTTATGTTYCAGTTGGGAGGCAAATAATAAAAAAYAAATAAATAAACAAAACAAACACTGAGATAAGTGCCAGGAAGAATACAAATGGAGAAT
AACTGGGGGAAACTACTTTATRTAAGGCCTCTCTACAGAATTCATCTAAGGTGAGATCTGATGGATACAAAGGAATGAGCCGAGTGAAAAGTAATGGTAG
GTTTGTTCCAGGCAGAAGGAACCTGGTRTACAGAGGCCTGAAAGCTGGAGAGTGGCTGGAGCCTGCTGAGTGCAGAGGGTGTGTTCTGTTTTTTAAGACK
GGAGAGGTTGGTACGGRCAGGTTATATGGGAACATGATGACCATAGTAAGAAGTTTAGATTTTATCCCAAATCCAATAAGAATGCATTGAAGAAACTCTT
AAAATCTGGGAAATCCAGATTATATTTTAAGAGGAGCACTCTTGACTGATGTGTGAAGAATGATGGTTAGGAATGGGGCTTAATGGGAAGCCTCAATTGG
ATTGGATAAATATGCGTGTTTGGGGACAGGATAGGAAAAGAGAAGAATAAGGATGTGTCTTGGGTTTTTTGCTTAAGGTAGCTGGAGGCCTTATTTACTG
AGATGGAGATTCCTCAGAGAGAATAGAGGTAAGAGGTATAATTTTGGATGTTAAGTTTGAGATACCTATCAGAGAGCTGAGTGGAGGTATCACGAAGGTA
ATCTGACACTCAAGGGAGAGGTCAGAGCTGAAGTCTCATCAGCATRCAGTCTTTAAAGTCAAAGGAATGGCTCTGAAGGTTTTTTTTGAAGCTGGAAAAA
TAAACTAGCCACGTCTTCTCTTCAGAAGTAGACATGCATGGAGTGGATAGAACTACATATTCATGCAGCACACCAACATGGCACATGTATACATATGTAA
CAAACCTGCATGTTGTGCACATGTATCCTAAAACTTAAAGTATAATAATAATTWWAAAAAAAAAAGAACTACATATTCATGGAGTGCCCATGATTCCTGC
AGGAAGTGTGATTGAGTTCTTCAGGAATACTTGTGTGTCCTACCTTTCCCTTTTCTTTCTTCTTTATGTTTAGGTTGCTGATCATAGAGTGAAGCTCCAG
GAATTAGAGAGTCTCATAGCAAACCTTGGAACTGGGGATGAGATGGTGACAGATCAAGCCTTCGAGGATAGACTAAAGGAAGCAGAGAGGGAAGTTATGG
ACCTCCTTCGTGAGGCCCAGGATGTCAAAGGTACGCATGATTGAACAGTRCATGACTTCTGTGAGATGGACCAATCTTTAGATGTGGCTCCTAAAGCAAG
GTTATTAGTATAGTTTTATAAAATTCTTTCTCAGTTTTTAAACTACTCRTAGATTATAAATCATTTCATTTTTTAAACACTAATTCAAAAAGCAACCTGA
CAAATTTACTGCTTTAAGCTACAGTAAGCATAGGGTGATTTTCCAACAAATAAAAAACTATTCGATATTCAAATTTCAAGCATTTTATGAATCTGTTCTA
TTACAAGGTGTCTTAAAATATTAAAATAGTTTTAAAAATCATTAAAGGCATGCGTTTTCATAAGCTTTTTTTTTTTTTTTTTGAGCCACAGTCACTCTGT
TGCCCAGGCTGGAGTGCAGTGACGCGATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTACCTGGGAC
TACAGGCACATGCCCACCATGCCCAGGYAATTTTTTTGTATTTTGAGTAGAGATGGCAGTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCG
TGATTTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACTGCGCCCAGCCAAAAAATTTTTACATTATCAAATAATTGAGTAACCTT
CCAAGCAGGACCACCATATATAGTTAGGCAAGAGTTTGTAGAATGTCACCTCTGCACATACATTTGGTAGCCAAGTTCCAAGTTGGTTTTTTCCAAACCT
GTATTCATCTTCATTGGTCTTACCTTTGACTTCTCATCTTTTTTTTTTTTCCCACATTCCTTAGAAAATTTAGACCCCAACACCGAGCATGATGCTGAAA
TATGAATTGGTCAATTTACTTAATGGTTTTTATATATTAATAAAACCTCATGATACATGAGAGTTTTAATAATAACAGACTTATATTTATCTTTTGATTT
GTTAGGACCTGAGTATGAGATTTAAGTTGAATGAGCATAYTAATAAAGAATAATTTGAAGAACTATTCAAAAACAGAGATCAGTTTGAAAGAAATTACAC
TGATAATGCTGGCACATGGGGGTGGCAAAAGAGTCTATTTAGTTTAAAATACAAAATGAGTTTAATTTGTCATACTTCAACTTATGTTTTAAACCTAGTT
TTTTCTGGGTTTTGAAAAATGTTCGGCTTTTAGGGCTGGCAGCATTTTTAACAACATTGTAGATTTATGACTAAATTGCATGTGCTGGTATTAAAGTCAG
TCATTCTCACCTTCATTAAACATTCCTTGGGTGTCTTCTCTTTGCCAACCACTGCATAAGACCAGCGATATAGTGGTGAGTAAGAAAGAGTTCGTAGTCA
AGTGGACAGATGGACGCACGGTTGGAGGTGTGATGAGTGCACAGTGAAGGACCTACTGGGTGTGGTAAAGGCTGTCCAGCTATGGCAGGGGCTTTGTGGA
AACCTGGCAGAAAGTTGCGAYGTTTAGAAGAGTAGAGATACATAGGGCCTCAGATTTCATGTGAGATGATATGATCCTCTTCAGATAATTTACAGACTTT
CTTCTGCAAACCATTTTAGATGTTGACCAGAATTTGATGGATCGCCTACAGAGAGTGAATAACACTCTGTCCAGCCAAATTAGCCGTTTACAGAATATCC
RGAATACCATTGAAGAGACTGGAAACTTGGCTGAACAAGCGCGTGCCCATGTAGAGAACACAGAGCGGTTGATTGAAATCGCATCCAGAGAACTTGAGAA
AGCAAAAGTCGCTGCTGCCAATGTGGTAAGTGATTGCAAACRTCTGAGGTGGGGATGGGGGAGGCCCCTGGGGTTTGTAGCAAGTCTGTTACTGGCAGTG
GAGTGCTTCTTCAACTAAATTGACTCCATGCATCTTTTTATTTGTCCCTAAATATGGGGCARAAAAGCCACATTGCTCATAGTTGGCATGAAACAGTTAT
TAAAAACTGGATAAAAACCAAGGGACATCTGGGTTATTTCTCTAGCTTTGTTCCTTCTATGGAACTAGGCAGTTTAATCTTCCTTTATCCTTTACTGAAA
ATAGAATCTGCAATCAAGGGTGCTGATATTAAATAAAGATCTCTGAAAATAAGAAGAGGTATTCTTGGGGCCAGGCGCGGTGGCTCACGCCTGTAATCCC
AGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCGAGAGTTCGAGACCAGCTTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAA
TTAGCCGGGTATGGTGGTGCATGCCTGTAAWCCCGGCTACTTGGGAGGCTAAGGCAGGAGAACCACNTGAACCCAGGAAGCAGAGGTTGCGGTGAACTGA
AATTGTGCCATTGCCCTTCTGCCTGGGCAACAAGAGTGAAACTATCTCAAAAAAAAAAAAAAAAAAAAAAGGTAGAGGCATTCTTTTTGCCCTCTAACAA
AAATTTAGTTTTGACTCTTGCTTTATTAAATGTAAATAATTCAGTCCTTTGAGAATAAGTGCTTTATTTCCTGTGCAGTCAGTCACTCAGCCAGAATCTA
CAGGGGACCCAAACAACATGACTCTTTTGGCAGAAGAGGCTCGAAAGCTTGCTGAACGGTAACTTCTAGATCCCTGTTTAATGGTTAAGTTGTGGCTTCC
GTTATGGKGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTCTTATCCCATAACCCATAAACACTTTCTACATAACCCACTTTT
GCACACTTTGCTCTCTTTTCTAAGATATTATCAGCTGTGTATACTCTTTTCTTCCTTTTACTTTGACATTAGAATATTCACTTTGAATATTAGAATACAA
TGGTTTGAAGACAAATCATATTTATATTTCTCAAAACCATAATATTTTTAGATTTTTAACTTATTTAAGACTGTAGTAACTGAATGAAACTAGCAGATTG
TTGTTAATAAAGATTAGGCGTGGGATTTGTTTTTAACTAGATAAATGATTTCTTGCTGGCATACACAATTTTATATGTACATTACTCTCAAATAATTAAA
TTTAAAAGTAGTTTTTCTGAAGAATTATAAACATTTTCTCTTATAAATGTATACCAATAATTTTTTTGGAAAATATTCTCATCTCAGTTTTAGARTGCTA
TTCATAAATTCAGCCCCACTGAAATGATCACAAAATTCCAAATGAATGACGTTTTCTAATATTTGTAGAATTGTTGCCCATGTTAGTATATGTACATATA
ATAAAGTAGGCCGGGAGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTAAGGTCAGGAGTTTGAGACCAGCCTG
GCCAACATGGCGAAACCCATCTCTACTAAAGATGCATTAGCTGGGCATGGTGTGTATGYGTGTAATACCAGCTACTCAGGAGACTGAGGTAGGAGAATTG
CTTGAACCGGGAGGCGGAGGTTGCAATAAGCCAAGATCACGCCACTGCACACCAGCCTGGGTGACAGAGCGAGACTCCATTTCAAATAATAATAATAATA
MTAATAAKAATAAAGTAAGCATTACCTRAATTTTACTTATGTCCCTATCAGATGGTTGTTTCATGGCTTATTTTTTGTTTTATCTGTATAGTCATAAACA
GGAAGCTGATGACATTGTTCGAGTGGCAAAGACAGCCAATGATACGTCAACTGAGGCATACAACCTGCTTCTGAGGACACTGGCAGGAGAAAATCAAACA
GCATTTGAGATTGAAGAGCTTAATAGGAAGTGAGTATAATTTGAAAGTGGTTTACACCCCTTCAGGTGTTCTGGTAAGTAACACTAGTTCAATGAAAAAT
TAAATGCTGGTGCATTCAGGGCATACATTCATGCAGTAAGATTTCCTTTGTTAATCATGCTTTTGAAATGGAAAAGTAAGTAGAGAAGGGCATGTGAAGC
CACAGAGATTTGGTTTGATTCAATTACTGTAACTACAGAGAATAGTAACAAGATGAGCCATGATACTTAAAATTGTGCACAAATAAAGAAGAAAAAATAT
AATAGAGTAAGTAGAGGAAACATAATTGAACTACAAATCTTTAAAGGGTGTCTGAAATAAGAAAGTATATGGTAAGCCATACATTATAGAAAATTTTTTC
TTTTTTTTGTTGTTTTTGTGAGATGAAGTCTCACTCTTGTCCCCCAGGCTAAAGTGCAATGGCGCGATCTCGGCTCACTGCATCCTCYGCCTCCCGGGTT
CAAGCGATTCTCCTGCCTCGGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACCACACCCAGCTAATTTTTGTATTTTCAGTASAGWCGGGGTTTCA
CTATGTTGGCCAGGCTGGTTTTGAACTCCTGACCTGAAGTGATCTGCTCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCGG
CCAAGCCATACATTATAAATAGAAATGATAAAAGAAAATGTAAATATGCAAAATGTTGGTATTAAAATGCAAGCATTTTAATGTAGCATTTCCTTTGAGG
TTTTGGGCGTATTATCACATGATCATGTTAATCTGGTTAACATTAAGATGCTAAAAGCAGCTAAGATTGTCATTAAACCACATTATTTGTGTCTTAGGTA
TGAACAAGCGAAGAACATCTCACAGGATCTGGAAAAACAAGCTGCCCGAGTACATGAGGAGGCCAAAAGGGCCGGTGACAAAGCTGTGRAGATCTATGCC
AGCGTGGCTCAGCTGAGCCCTTTGGACTCTGAGACACTGGAGGTATGGGGGCAGCCTGTACGCACAGCCCCACCCYGTCTCTCCCCCAAGTCTATGTGAG
AGCCGACTGCTCTGCACCTCCCTCTGTCCTCCCACTGACTCGCTGGTAAAGTTGAGTCTTATTTCACATACGCTAATAGAACTTACCAAGGTAGCCAGAT
GTGGTGGCTCATGCCTGTAATGCCAACCCTGGGAGGCTGAGGTGGGAGGATTCCTTGAGGCCAGGAGTTCAAGACCAGCCTGGTCAACATAGTGAGACCC
CATCTCTTAAAAAAACAAAAACAAAAACTTACCAAGGTAAAGAATCCTGTGATTGTAAACATTAAATAGCAAAGACTACTTTAATGATATGAACAATCAC
TCCTAAGTCTTTAGTGCAAATCCAAATTATAATAATACATTTGAATTGCTTAAAGCAGAGTACATGTAGACATTTACTCCCAGGCTCTGTCTAGTAGAGA
CCTAGAGAGAAATAAGAGAGAATGGTTTAATTAAAAGACTATAGCAGGATGTTCTGAGGCAGGTAAAATATTTTGGAATTGGTAGGATTTTATTTCATAT
CTGTACTCTTAATCATGGATTCTCACTCCAAGCTCTGTATAAATGGTATTTTTTTTGCATTAAGCTTGAGGTTTACTAAGTTTCACTTCTTATATCTGAG
GTGTTGACTTGATTTTTACCATAAAGGTTTAGGTCTCTTTAGATATGTACAGATTGTCTGATTCTATATATTTATAATTAGAAAATAGGCAGAATTAGTC
TATGATGATAAAAATCAGAACAATGGCAGGCACAGTGTTGGAAAGGTAGAGTAGAGATCGGGTGGAAAGGGAGAAAAGGGAGCTTCTTGGGTGATGGAAA
TCTGTATYTTGATTGGGGTGTTGGTTATGCAGAAATGCATTTGTCAAAACTCATCAAACTRTATGTGGATTCTGTGAACTTCAGTGGGTGTAAAGTATAT
CTCATTTTTWAAAAAAGTCCATAAAATCTTGATCTGTGCAGTTCTTTTAAAAATATCATTGAGTATTAGGTGTTACAGAGTTCCTAAGCCTACCTTTTCA
TTAGTTTAAATGTTTTATCCAAAGTGTAGTGATCTTACTTGCTTTTCACAGAATGAAGCAAATAACATAAAGATGGAAGCTGAGAATCTGGAACAACTGA
TTGACCAGAAATTAAAAGATTATGAGGACCTCAGAGAAGATATGAGAGGGAAGGAACTTGAAGTCAAGAACCTTCTGGAGAAAGGCAAGACTGAACAGCA
GGTTGGTTTGATTTGCAGGTCGCTTCATTTCTTGAGGCAACATTTGAACAGTCCAAATGGGTCTGTGATRATGCCGTACTTTCAGAGACAGCAGACCCCA
GTGCTGAGAGAGCAGCCTAACAGATTTTATGCTGGSAAGTCTCAGGGTGGCACCTCTGGAGAGCCTTGTCTGTCCAGGAGACAGAAGGGATTTGCTTTGA
GGGTTCATCCTCTCATCTGCCATGTGTTTGCAGACCGCAGACCAACTCCTAGCCCGAGCTGATGCTGCCAAGGCCCTCGCTGAAGAAGCTGCAAAGAAGG
GACGGGATACCTTACAAGAAGCTAATGACATTCTCAACAACCTGAAAGGTAGAAAAGGCTGAGATAACAGGGGCAAATGCTTCCGCCACTAGAGTGATTT
TTTTTTTAATCATGACTTTTACCATATTTATTACTTCATCCCCAACTCCCTACTTTTTTTATGCTAAAGTATTTCAAAGGGAAATCCCAGAGCTCCTGTC
ATTTTATCCCTGCATACTTCAGTATGGATTTTTTTTTAAAGATGTTTTCTTATTAGGCAAACTCACATAACCAAGATGCCTAYTTAGAGAACTTATATAG
GTAAATGRAGATTATCTTTCATTTTCTCTGCCAGTGGCATCTGATTCTTTGTTGTTGTTTTTTTTTCTTCACCCCAGATAGAAGAGAAATGTGACCAATT
CACTGAGCAACTGTGAATTCTTGTCTGATAAAACAGTCATAGGTTCTATAAATAGAGAAGCTTTACAGGATGCTTTACAGGGTACTAGTTGAAAATATGG
GCCAGGCACGGTGGCCTGTAATCCCAACACTTCGGGAGGAAGGATCACTGGAGGCCAGGAGTTGAASACCAGTTCCTCACTGGGGAATATAGTGAGACCC
CATCTCTATAAAAAAAAAWTTTTTTTTTAATTAGCCGGGCATGCTGGCACATACCTGTAGTCCTAGCTACTTGAGAGGCTGAGGTGGGAGGATCCCTTGR
GCYCAGGAGGTCAMGGCTGCACTAAGCAGTGATTGTGCCACTGCATTCCAGCCAGGGTGACAGAGTGAAACCTTGTCTCTCAAAAAAAAAAAAAAAAAAA
GTAGTAGTTCAAAATATGGACTCTGGTGTCAGTGGGCCTTGGTTCAAAACCCTGCACCCTGCACCACAGGTCATGTAACTTCTTTAATCCTCAATTTTCT
TATAAAAATGATACAGCCTATTTTATGTCAAAGACACAAAGCTCTTAACTCAGTACCCGACACACAGTAAACACTAAATAAATTGCAGCTTTTAATAATG
GTTGAGGTAGTGGTAATGGGATGCTCAGCGCTCTGCATTTTAAAGCACATTGTTGAAGTAAGAATTCTATTTCCAGAAAYGGAACATTTCTATAACACTA
ACTGGGAGACCTATTCTGTAGAGATGTGTAATTTCTAAAATTTCAGCCCATGCTSTCTTCCATTTTTTACCCTGACTTCCATTGTTCATAAAACAAAATC
CAGTTGGAACTCCCTGAAAGGCCCCCTTTTTACTTGTTGGGAGTTTAGCTCAAATGTRTCCTTGAACTTGTTTCAGATTTTGATAGGCGYGTGAACGATA
ACAAGACGGCCGCAGAGGAGGCACTAAGGAAGATTCCTGCCATCAACCAGACCATCACTGAAGCCAATGAAAAGACCAGAGAAGCCCAGCAGGCCCTGGG
CAGTGCTGCGGCGGATGCCACAGAGGCCAAGAACAAGGCCCATGAGGCGGAGAGGATCGCRAGCGCWGTCCAAAAGGTGTGCGTTTCCTCTTCTCCAAGA
GTCCCTGCCCATATCTTTCTCTGGTYACTTTCCAGTTTCTTTCCAGACCCTCAGAGCCCTTGCAGATTTTTTTCCTGAACTTCAGTAAAATTGTCTTAAA
CCATATTTGTCTTTTTTTTTTTCTTTTGACTAGGCATGAGAGTAGGTATCCACATTGAGGAGGGGAACTCAGTAAAAGSGTGCTTTACTCTAAAATTTCT
ACTATGTCTCAGTGTGAGGTCTGGCTTCAGAGGTCTATAGAGCCCATTCCCACAAAAAATCAGACTTTTTCTAAATAAACATTCTTCTTTGACCTAGACA
GGTGGTATTTATTTCAATACTATGTAGTGTGCCTTATCAATATAACTTTCAAGTCCCCCTTTCAAGTATATTGCCATATGTAAGCCACTCCTAGGAGAGA
CTTCCCATAGCTGCCATTGCTAGGATTCTTTGAAGTCATCTTCAAGAATAATGTTTTTTAGTTTGGCTTTCTCTTATTTCAAGGTMAATCTGTTTGTTTT
ATTTAAAAGAGAGATTGGAGCAATTTTAGAATTAGGTATTTAAGAATCAGASAAACCTCTTAGTTTCCTTAGAACAGTTGGCTTTTGGATTAATTATATT
TTATAAAATACTCATATTTCAGGATTGTGGTCTTTTTGTACATTATGATGAACTGCCAAGAATGAACCAAGCTAGCTTTGAATTTAAATTTTACCTCAGC
GAAAGCATCTAATCAATATGATGTCGTAGAAAGTGTATGCCATTAAATGTTTATCATTTGCTGTCTGTATGACCCCAACTAAAAATAGCAATAATAGAAC
AGAAGTTTCCAGGATTAAAGAAGAGGATACAAATGAAAGTGCTAGATAAAATACAAAATGTTATTATGTGGGTAGTAATTTTTTTTATGATTATTTATAA
CCCAAATTGATAATGTAAGTCATGAGATAGTATAAATCAATATATTATTATTTCTGGATTATATTTTTAAGACATTTTATAAATTATAAAAGGARCGGGA
GCATACTTGAGAAAAAGGAAAGCTTTTTTAAAAAAAGTACAATTTTCTTTTGTGCCTAGAATGCCACCAGCACCAAGGCAGAAGCTGAAAGAACTTTTGC
AGAAGTTACAGATCTGGATAATGAGGTGAACAATATGTTGAAGCAACTGCAGGAAGCAGAAAAAGAGCTAAAGAGAAAACAAGATGACGCTGACCAGGAC
ATGATGATGGCMGGGATGGTAAGAGGTTTTGGTATATTTGCTCATTGGCAGAAAGTGAACAGTGTTTAATAATAAAGATCCCCCACTTGTTGAGAAGAGT
CTTTTTTATATTGACTTCTGTTTTTCATCACATTGTCTCGTCAAGAATTGGGTTAGTAGCTTACATAGAAGACAAAGAATTTGGATCTTCTGCCAGGTAA
TTTTGTTGCACAATTGTCCTGTCCCAAAGTTACTCAGTTAAAAGTAAAACATTGCTTTACACGTTTGAGGTTTTAGGACATTAAAAGTATGTGTTTATAT
TTTTCACTGGGTAATTCATAAATGTTAATAAAAAAGGAATGCAATGAAGTTAATTTTCTTCTTATTCTTGTTCTCCCAGCACCTTTAGAGACAAAGACAA
GTTTCTTGTATATAAGAAATTTTTGAAGATGGCATTGTCTACCACCCCACCAAAACATATGAAACTTACATCTAGTTTAATTTTTCACGTTTTGTGATAA
TKTGTATGCAAGGTACTATTTGTAACAAAATTGACTTGTCAATGGATGGCCCAAGGAAGAACTAAGGTCCATTTTTCTGTTCTATGCTATATTTTGCTTT
GAAAAGACTTTAATGGAGTCACAGTAGGAATATTCTTTTTCCAGTTGGGTGTAGCAATCACGGTAATGACATACACGAACTTGTGGTTACTTGCTCACTT
TCAGTGGCAAAGAAGAGGCCRTCGTTCACTGCTGCCAGAAAACATAGTCCCTCASTGTGGGTCATTTTCATCTTGGGATGGAAAAAAGAAGTACAAAGCC
TGTTAATCTCAGTAAAAACTCTAGGGAAGTGATAAAGGAAACTATCTCTGTGCAACCACCTAATTTTATTATGCTTTTTACAGGTAGGGGGGTGGATGTT
GGTTTGGATTGTCCTGATTTTCTCCGTTATGGTGTGGCTCAAGTAAAAATTCCCATAAAGGTGTCTGGGCGCAGTGGTTCACTCCTGTAATCCCAGCACT
TTGAGAGGCCGAGGTGGGTGGATCGCCTGTGGTCAGGAATTCGAGACCAGCCTGGCCAACATGGTGAAACGCTATCTCTACTAAAAATACAAAAATTAGT
TGGGCATGGTGGTGGGTGCCTGTTACCCCAGCTACATAGGAGGCTGAGGCAGGAGAATTGCTTGAACTTGGGAGGTGGAGGTTGTAATGAGCCAAGATCA
CTCCACCCTGGGCCACAGAGGAAGACTCCGTCTCAAAAAAACAAAAATTCCCATAAAAAAAATAGATGTTTCTCACATGTTGAGCATATATGGATTTCAT
TTTTAATATGATTGTAGAAACATTAGATTTAAAGCATATTGAAAAAGAAAACAGTATATTCTTTAGGAGCTTCAAAAAAGGGTTTTGGTTTAGTTCAAAG
GGTGAAAGAAGATCTTTTATTATTTTGGTAAATAACTTCTAAGGAAACAAACCACCCTCACATGCACTATCTCATTTGTATTTCTGTCAATTCTGAAAGG
CCAGCATTTGGCCAGTATTATTTGAATCTGTATTGTATTTTTTAACCAGAAGAATGAAGGTTTATAGCTTCATTCTTTTGGAAGAGGAGGCTGGAGACCA
CAGGTTAAATGCAGGTGCATCGCTCTTGGCCGGCCCTGGCAGGGTCCTTTCTCCCTCCTTTTACACKCGCAGACAAGCTTGTGGATGCTCAATAAGGACA
GCTGCCGTTTGGACAGAGATTAATCATTTATTTGTGAAGGTTTTTTCTGCCTTGCTTTCTTGTTCTTTTTTAAATCTTCACATTGTTTTGATCCCAAAAT
GTTTGTGTTGTCCTTACTCAAAACTAGGAAAAACAATTATGTGGTAAGAGGCTCAGAGCCACTTACTTAAATCTCAACTAGATTTATTTGTGAGAACATC
TGTTTTCTGATATTTAGACACTTCCTCTTCCATTGCTGTTTCCTATGACTCATGCACAGTTATTTGTTCAGGTTTCATGGAATTTCCCAAGTGTATTTAC
CTTTGTTTGGTTTTTAAAATGTAAATTATATTGCCCCAATAAATGAGTATGTGTGTCAGGGGGACTGTGGCTGGGTCATTGCATGTGGARGGGGAGTTTA
CAGAAGAGAACTCCTAGAAGAGCTTTACTTAACTATGAAAATTTTCAAAGAATAGGACATTTCTAATAAGTCCCTAAGAGTGTCCTGAAGGACATGTTTT
GGTTCTGAAACATAGTTTCTATAATCRTCCTTAAAAAATAACTTGTTTCTGCTTAATAGGCTTTACTATGAATATACCTCCATATATTATTRAGTTAGAA
TGTGAGAAAAGGAGATTAATTTTTGAAGTACAAATATAGTGAGTTAGTGAGTGTAGGCATCCTGACTGCCTAGTCATAACTTTGATGAAGTAGAAATACC
AACATCCTCAATATGAAGATATGCAGCAGCCCCACCAAAAAAAAAAAAAAAAAAAAGCAATGAGAGGTTTCAATTTCCTAAGTTAGAAAAGGGAAGAAAA
TCTGGAAATTAGATTTGTTGGGTCATTGGGAAAAAAGATTTAAAGAAGATGAAAACAWACAGTCAAGACTCTTTGCCTCATTTTTCCCTTACAGGCTTCA
CAGGCTGCTCAAGAAGCCGAGATCAATGCCAGAAAAGCCAAAAACTCTGTTACTAGCCTCCTCAGCATTATTAATGACCTCTTGGAGCAGCTGGGTACGT
AGCCATAGAGTCATTTTTGTCAGTCTCTGAATCTTTTGTACTGTTCTTAGGATCTGATATAGTACAGTTGACTCAAAAGCAGATGATATAGGTTTACATG
AATCCCTTTTAAGTCATTAATTAAATTATTAATATTTCCTTTTGCTGTTGCTTATTTTTGAAAGCCTTATAAAATAAATGTTTGTCTTGCATGACAGGGT
CTTTAAGAGCAACTTGCTTCTTTACCATACTTATTATTTGTCAGCTTTACAGTGTGACCTGAATCATGACTTTAGGCTGTGTTAATGTGACAAGTACTTA
CTAGGTGCCTTCTGTGGACCTTGCCCTAAGTAGAACACTGTGGTCTGAGGAGTTTCTTTTTATATTTTGAAGATATATTGCCAGCTAGGGTAGCATTTAT
GGTCCAGTATCATTGTACAACTAAACAGTGATTTTTCTTAACTCATCTTGCTGGCAGTATCTTTAAGGGATTTAAAGTAAAGGATTTCAATAGTAGAATA
AAAGAATAGTAGAATCACAGGCTGGGTGTGATGGCTCACACTGGTAATCCCAGTACTTTAAGAAGCCATGCAAGGAGGATAGCTTGAGGCCAGGAGTTTG
AGACCAGCCTAGGCAACATAGCGAGATCTCACCTCGTCTCTTCAAATTATTTTAAAAATTAGCTGGGTGTGGTGCTACACGCCTGTAGTCCTAGCTACCC
GGGAGACTGAAGCAGGTGCATCACTTGAGTTTGAGGTGATAGTGAGCTGTTATCGTGCCACTGCACTCCACCCTGGGCAACAGAGCGAAACCCTGTCTCA
ATTTAAAAAACGAAAAAGAACACTTAAAACTGGTCATGACTTTACTGCCTGGAATTCTCTTCATTTGCTAAGTAAGGACAGTCCGATGAGGGGAAAGCTT
TCATGCCAAAAGAGAGAAAAACCTTGATTTTTCAAGGAAATCTATGCATACGGAAACCTTCTTTTAATCCAGTTTGATAGGGTGTTAGGGAGCAGGCTTC
ATTTTAGGACAGATGCACTTTTGTCACCAGACTCCATTATAAAGTGTCAACACTCTAGCCAGGACTCTTTGTAGCAAGGCATTATATTTTAATTTGCCAG
CCTTTAAAGACTGGTGCATTTTGTTTTGGTGGGGGGCTACAGGGGTATTTTTTATCRGTCTCAAATGTCAAGAATAAGTTATGTGCCAACAGATGGATAT
AAAATGAAAGTAAGCTAGAAGAGAAAGCTTTTTGTGGAACAGCCAGACTTTTAACATTAGTCTGACTTGGGTTAGTATCTTTGCTTTGTTGCCTATAGGC
TGTGCAAACTTGGGCAAATTATTTAACATCTGAGAATCACTGATGTAAAATGGTCTTGTGAGACTTTAATCAAGTCAAGTATGCATGAAATGCTGTCTAT
TGTGTCTGCTTTTGTTTGTTATGGAAACATCTCATTTCTTTCAAAAGAACCTCTTTTTCTTGCTAAGCTTAAAGTGAAGACTTGCTGAAATTATTTCAGC
ATTTTACTCCTGGCCATTTTCCATAGGAAGGCTCCTAATAGTGTCTAACTCCTGAAAGCAGAAAGTGACCTTCAAAACTGACCCATCTTCCCTGGAATCT
CTCTAAGAGCTGAGGGATTAGGGTTCTTAGAGATTTGTGTATCTTTGATGGCACTAAAATGACATAGAGTTTACATGTATACACCTGGAAAAGGTATTAA
ATGTTATCAGATGGCCCTCAAAGGTCTAGAACATGGTAGCTGTGCATTGAGGAAACATTCTGCAAAAACCATTGTCTCAGAAAGAAACATCCAGCTCTAT
ATTAATTGTATGCTCAGACCCATCCCTGCTGGGTTAGGTCAGCATTTGTACTTGGTTTGCATATTTTATACCATTGTGTGACATCAACAATCTGCAAGTC
ACATTTGCCGGGCTGCCTGTGCAGAATGGCAGCTGCTGGGCCTAGAGTCTAGTGCAGGTACTTGTGAAGGGATCATTCTTACTGAATATGTCTGTTCTCT
TCTATGTACTTTCTGACCCTCCAGGGCAGCTGGATACAGTGGACCTGAATAAGCTAAACGAGATTGAAGGCACCCTAAACAAAGCCAAAGATGAAATGAA
GGTCAGCGATCTTGATAGGAAAGTGTCTGACCTGGAGAATGAAGCCAAGAAGCAGGAGGCTGCCATCATGGACTATAACCGAGATATCGAGGAGATCATG
AAGGACATTCGCAATCTGGAGGACATCAGGAAGACCTTACCATCTGGYTGCTTCAACACCCCGTCCATTGAAAAGCCCTAGTGTCTTTAGGGCTGGAAGG
CAGCATCCCTCTGACAGGGGGGCAGTTGTGAGGCCACAGAGTGCCTTGACACAAAGATTACATTTTTCAGACCCCCACTCCTCTGCTGCTGTCCATSWCT
GTCCTTTTGAACCAGGAAAAGTCACAGAGTTTAAAGAGAAGCAAATTAAACATCCTGAATCGGGAACAAAGGGTTTTATCTAATAAAGTGTCTCTTCCAT
TCACGTTGCTACCTTACCCACACTTTCCCTTCTGATTTGCGTGAGGACGTGGCATCCTACGTTACTGTACAGTGGCATAAGCACATCGTGTGAGCCCATG
TATGCTGGGGTAGAGCAAGTAGCCCTCCCCTGTCTCATCGATACCAGCAGAACCTCCTCAGTCTCAGTACTCTTGTTTCTATGAAGGAAAAGTTTKGCTA
CTAACAGTAGCATTGTGATGGCCAGTATATCCAGTCCATGGATAAAGAAAATGCATCTGCATCTCCTRCCCCTCTTCCTTCTAAGCAAAAGGAAATAAAC
ATCCTGTGCCAAAGGTATTGGTCATTTAGAATGTCGGTAGCCATCCATCAGTGCTTTTAGYTATTATGAGTGTAGGACACTGAGCCATCCGTGGGTCAGG
ATGCAATTATTTATAAAAGTCYCCAGGTGAACATGGCTGAAGATTTTTCTAGTATATTAATAATTGACTAGGAAGATGAACTTTTTTTCAGATCTTTGGG
CAGCTGATAATTTAAATCTGGATGGGCAGCTTGCACTCACCAATAGACCAAAAGACATCTTTTGATATTCTTATAAATGGAACTTACACAGAAGAAATAG
GGATATGATAACCACTAAARTTTTGTTTTCAAAATCAAACTAATTCTTACAGCTTTTTTATTAGTTAGTCTTGGAACTAGTGTTAAGTATCTGGCAGAGA
ACAGTTAATCCCTAAGGTCTTGACAAAACAGAAGAAAAACAAGCCTCCTCGTCCTAGTCTTTTCTAGCAAAGGGATAAAACTTAGATGGCAGCTTGTACT
GTCAGAATCCCGTGTATCCATTTGTTCTTCTGTTGGAGAGATGAGACATTTGACCCTTAGCTCCAGTTTTCTTCTGATGTTTCCATCTTCCAGAATCCCT
CAAAAAACATTGTTTGCCAAATCCTGGTGGCAAATACTTGCACTCAGTATTTCACACAGCTGCCAACGCTATCGAGTTCCTGCACTTTGTGATTTAAATC
CACTCTAAACCTTCCCTCTAAGTGTAGAGGGAAGACCCTTACGTGGAGTTTCCTAGTGGGCTTCTCAACTTTTGATCCTCAGCTCTGTGGTTTTAAGACC
ACAGTGTGACAGTTCCCTGCCACACACCCCCTTCCTCCTACCAACCCACCTTTGAGATTCATATATAGCCTTTAACACTATGCAACTTTGTACTTTGCGT
AGCAGGGGCGGGGTGGGGGGAAAGAAACTATTATCTGACACACTGGTGCTATTAATTATTTCAAATTTATATTTTTGTGTGAATGTTTTGTGTTTTGTTT
ATCATGATTATAGAATAAGGAATTTATGTAAATATACTTAGTCCTATTTCTAGAATGACACTCTGTTCACTTTGCTCAATTTTTCCTCTTCACTGGCACA
ATGTATCTGAATACCTCCTTCCCTCCCTTCTAGAATTCTTTGGATTGTACTCCAAAGAATTGTGCCTTGTGTTTGCAGCATCTCCATTCTCTAAAATTAA
TATAATTGCTTTCCTCCACACCCAGCCACTGTAAAGAGGTAACTTGGGTCCTCTTCCATTGCAGTCCTGATGATCCTAACCTGCAGCACGGTGGTTTTAC
AATGTTCCAGAGCAGGAACGCCAGGTTGACAAGCTATGGTAGGATTAGGAAAGTTTGCTGAAGAGGATCTTTGACGCCACAGTGGGACTAGCCAGGAATG
AGGGAGAAATGCCCTTTYTGGCAATTGTTGGAGCTGGATAGGTAAGTTTTATAAGGGAGTACATTTTGACTGAGCACTTAGGGCATCAGGAACAGTGCTA
CTTACTGRTGGGTAGACTGGGAGAGGTGGTGTAACTTAGTTCTTGATGATCCCACTTCCTGTTTCCATCTGCTTGGGATATACCAGAGTTTACCACAAGT
GTTTTGACGATATACTCCTGAGCTTTCACTCTGCTGCTTCTCCCAGGCCTCTTCTACTATGGCAGGAGATGTGGYGTGCTGTTGCAAAGTTTTCACGTCA
TYGTTTCCTGGCTAGTTCATTTCATTAAGTGGCTACATCCTAACATATGCATTTGGTCAAGGTTGCAGAAGAGGACTGAAGATTGACTGCCAAGCTAGTT
TGGGTGAAGTTCACTCCAGCAAGTCTCAGGCCACAATGGGGTGGTTTGGTTTGGTTTCCTTTTAACTTTCTTTTTGTTATTTGCTTTTCTCCTCCACCTG
TGTGGTATATTTTTTAAGCAGAATTTTATTTTTTAAAATAAAAGGTTCTTTACAAGATGATACCTTAATTACACTCCCGCAACACAGCCATTATTTTATT
GTCTAGCTCCAGTTATCTGTATTTTATGTAATGTAATTGACAGGATGGCTGCTGCAGAATGCTGGTTGACACAGGGATTATTATACTGCTATTTTTCCCT
GAATTTTTTTCCTTTGAATTCCAACTGTGGACCTTTTATATGTGCCTTCACTTTAGCTGTTTGCCTTAATCTCTACAGCCTTGCTCTCCRGGGTGGTTAA
TAAAATGCAACACTTGGCATTTTTATGTTTTAAGAAAAACAGTATTTTATTTATAATAAAATCTGAATATTTGTAACCCTTTATATTTGGTGTGGCCTGA
GTGTGGTACTGGGGACATAAGATGTTTTAAAAGGTATAATGAATGAAAAGCCATACATAATACCTTCTTTGGGTGACTTATTTTCTTGAGAACAATTCAG
TATACATTTTATATATATATAAATATATATATGTATATATGTATATATGCCTCTCTCAAGTTGGGATACTGCAGTGTAGTCTGGAAGTTGGTGAACTTTT
TCTATAAAGAGCTGGATAGTAAATGTTTTAGGCTTTGCAGGCCATGCGCCTATGGGCTGTAGTTTACTGGAACCCCAGTGTAGCCTCAATACTCAGTAAC
AACTGACAGTCAGGCACAGTGGCTCATGCCTGTAATCCCAACACTTTAGGAGGCTGAGGTGGGCTGATCCCTTAAGGTTAGGAGCTCGAGACCAGCCTGA
CCAACATGGTAAAACCCAGTCTCTACTAAAAATACAAAAATAACTGAGCATGGTGGTGCGTACCTGTAATCCTAGCTACTCAGGAGGCTGAGGCAGGAGA
ATAGCTTGAACCCGAGAGGTGGAGTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCTGAGGCAACAAAGCAAGACTCCGTCTCAAAAAAAAAAAAAA
AAACTAAGATTTGTTGGACATCCTAAATTAGCAGATGTATGTTAAAAGTTGTCTGTCTCTCAATACACACGTGTCTAGCTTAAGGTAGTTTCTTTAGATG
ATGAGAAGCTCTTAAGCCTATGATTTAATAAAAAGTAAGTAATGTGCTGCACTAACAGGCTAGAATCGGGTAATTTTACTAGAATTTACCTCACTCTTTC
TGGAGGGAGGACCCATCTGAAGTGACCTGAGACCAGGTGAGGCCTTTGGGAGCTACAGAGACAGCAGGAAGGCTTTGGGCCTGCAAAGGCCTTCCCTTTA
CTCTTTGATGCCCTGTTTATTGCCCTGGGCCTCCGTGGATTTCATGCCACCTTCCCAATCTTAGGAATTGTTACAACTATGATACCTGTAAAGAAGAACC
TGAACTACTCTCATTAGACTTCCTCGGAGAAAGCTTTAGAGGGCACTAATTACTAGTACTATTACAGCTTTCTTACATGCCCTGTTTTTAACCTTTATTG
AGGACCATTTCCCCTCATTTGTAGGACTAATTCAGATGCAGCTATGTCTCCTTTATCATTACTGTCAGAGTGATAAGTGAGATTTTAAAATTTTGCTCCT
ATTCCATCAGTCATTTTCAGGACAGCAGTTTCTCAAAAGTTGCTACTAGCATAATCTGATTCAGAATATCCCCAGAGGTTTACTCCATAAATAAACATCC
TAGCCCCTTAATACACCTGAACTCATCAGCTCCGCTTCCATTAAGCTCAAAATGGAATGCCTGAAGAAGACCCCAGGCACCCAGGAAGGTGAGGAGGTGG
GAAAGCAGGTGGATACATTCATAAGGGAAGGAAGGACAGGCCCAAGGAAAGATTAGATCTCTCCAGGCACATAGATTATGAAAACAGAAACAAGAGAATT
CTAAATGGCAGATAATTTTGTCCACACTAAGCAGGTTTAAATGAATAATAATAGGTAGAGTAAAAAATACGAAGCTTTTTAGGAAGTTATCTGTCCAAGG
TTCCACTAGGGAGCTATGATCAACTATATAGTGCCTTGTATTTGTATTGAGTCTCCTAGAATGACTGTATTTGTTCTACATTAGTGAATGAATTCTAAAT
AATAGAAGTCAAATGCATACTTAAGAGAATTATTTTTCTTTAAATCCAATGAAAAGCCAAAAGCCCCGACTAGGAATTCAAACATTAGAAACATCAACAT
TTCAAAACTTATGACACCTCCATGTCCTTGCCTTAACTCCTCTCTCTGCCTTGAATGTCCTTTCTTTCCTCTGCCCAGTACAGTAAAGCCTAAGGTCAAG
GTATCACCTGTGTTGGGATTGGCCAGTCCTTCTTGTGTCCACCACTTCTCCCACCTTTGCTCTGTCTTCTAGAATGGCCCTTGGACACATCTTTATAGTT
AGGTGCCACTAATCTTTCCCTCCCACTTTGCTCCCACCCCCAAAGATCAGGGTCTGTGTTATTTATGTTATCCTTGGGGCTAGGAGACATACACTAGGCA
CTCAGGTTGTATGATAGTGAAAAGGTAGCCTTTCTCCACCTATGCTCCCATACTTGTTACTTTTTTCCTACTGTGCACAGACAGGGAGTCTTATGGCAGT
TTGTTCACGCACTGTCTCAACTCCTAACAGCGTTCTGCTCTCTCAACATTCCCACCTAAGTGTGGATTGGCCTCTTGTTTGCAGGAAGATAAGCAAAGCC
ACAGTCTTGCATTATATGGCACAGCACACACCACATACACTGCCATGTGGTCAGCAACTGGCTAGTGCAATCTGGTCTGCAAGGCCCATTGCCCTGGCTC
CCAGCCTCAGACCCACCATTCCCAATGCAGGTTTTCCATACAGTTCCTCCTGCAGCCCAGCATTAATTTCCTTTTTCTCTAATTCCTGGAAATCATCCCA
GTAAATTTCAATCAACCAATTAATTTGGTGTTTTATCCTGTTTGCATGTGCACTTTAGCAAGCCTYGTAATTAATACTGGCCATGAAGTTATTATTTATG
ATTAACTCAGTATAGTTTGCTTATTTCTATAAAAAGTCAAGCATCAGGCACTTGATCAAGAATGTGACCTTCTATTACACTATTGTCCCCATGAGTAAGT
CCAACTCAATTTAAGTGATCCTCCATGAAACGTGCCTGGTTTGAAGACAACCCTTCCATCTTCCCATCATTCTTTTCACCTTGGCTACTAACAAAAAAAA
ATCACTTGAACTTCAGACCGATGCTTTTCAGGCCCATCCCATGGTATCTGCCCTAATACAGAGATCCTTTGTCATCTAGTAACTAAATGCAGCCATCAAA
TTTTGTCCATGTTACTTTTGTTAATGTTAAGAATTTCTAATCCAATTCCTTTCTGAATATTCAGTGCCTTCTAGGACATTCTGTCCTAATTTTCCTTACA
CTTCTCTGTTGATCCCCACCACTTTTTCCATGGACATTTCTTTCCTCCTGACCATGGTCTCTGTGTTGGGGTTACTGCAGAGTAAGCACAAATCAGCCAT
GAGCAGAAATGTCTGGGAGATATGCTGTCCTAGTGTGGATTATAAATTCCTCGGTTGCTGAGCTAGCGTCCAGAATAAAGGCTCAGGAGGCACAGCTGTT
ATTTCAATGATTATATGTTTGGCGTGGTCAGAGAGGTTTGTGTTACAACTTGCTGATCGTTTGTGGCTCAGACAGTCTGCTCTCAGAGCTGTCTCACTTG
GGCTGATACAGGAGATCAGACCTGGCCGGAGAGAGTTTTGCCTCATTGATTTCAGATAGGCTGCCTTCTAAGTTTCTGAAGGACTTAGGAAGGACTGGCA
TTATCAAGATAGCTTGTATGTTTTAAGGCACTTTCGTGATTATTTTCTTTCATTTCTCCCTCATTTGAAGAGAGTCTTCATTTGGCCAAGGGGGAAACTC
AAAGCATGGTTTGCTATTCCACCACCTTTACCACTGTTTTAGCACGTTGCCTTATTCTCTCTCATGATTTGGATCAATTTTCCTTTTATGAAGGAAATAT
ACTTGTATTTTATTATAAGCTGCCTCAAATCTCTTTTTTGGAGAGAGTGAGGCAGGATTTAAATATATCAGCAACTTACCCAATATTAAGGAACCACTTA
GTGGCAGAATTATTACGTGGAACCTGATTGTCCTCAAGCAGCCTGGGCCACACACACCATACAGCTCATGCACCTCTCCTGCTCACACACCACACAGCTC
ACACCCCTGTCCTCCTCACACACCACACAGCCCACACCCCTCTCCTCACACCACACAGCTCACACCCCTCTCCTCACACACCACACAGCTCACACCCCTC
TCCTCCTCACACCACACAGCTCACACCCCTCTCCTCCTCACACCACAGAGCCCACACCCCTCTTCCTCACACACCACACAGCTCACACCCCTCTCCTCAC
ACACCACACAGCTCACATCCCTCTCCTCACACACCACACAGCCCACACCCCTGTCCTCCTCACACACCACACAGCCCACACCCCTCCTCACACACCACAC
AGCTCACACCCCTCTCCTGCTCACACACCACACAGCCCACACCCCTCTCCTCCTCACACACCACACAGCTCACACCCCTCTCCTCACACACCACACAGCC
CACACCCCTCTCCTCACACACCAGACAGCTCACACCCCTCTCCTCCTCACACACCACACAGCTCACACCCCTCTCCTCCTCACACACCACACAGCTCACA
CCCCTCTCCTGCTCACACACCACACAGCTCACACCCCACCCCTCTCCTGCTCACACACCACACAGCTCACACCCCTCTCCTCACACACCACACAGCCCAC
ACCCCTCTCCTCACACACCAGACAGCTCACACCCCTCCTCCTCACACACCACACAGCCCACACCCCTCTCCTCCTCACACACCAGACAGCTCACACCCCT
CTCCTCCTCACACACCACACAGCTCACACCCCTCTCCTCACACACCACACAGCTCACACCCCTCTCCTCACACACCACACAGTTCACACCCCTCTCCTCA
CACACCACACAGCTCACACCCCTCTCCTCCTCACACACCACACAGCTCACACCCCTCTCCCGCTGCCCTTGTTTCTCCCTCTCTTTCCCTTTCCCTACTT
AGGCTCAAGGATAAGGCACCTAAGGCTAGTTCACCTAGATAATTTTGCTTAATAAGGGAATTCACCTAGATTTTAACCCTCTTTGGAATATTTTTACACC
ATTTTCATTTCCCTATTCTTTTTGCTTTTTAATAACTTTACTCAGTTTTTGTAATTTTCTTCTTTCAAATAAGTCCCATTATCACAGCATTTTATAAATG
ATGAGATTGTTTTGTATTTTTATGAAAGACTGTTTTTCTCTTTTCTACTTTTTAAACCCTTTTATTTTGAAATAATTTTAGATTTGCAGAAGATTTACAA
AGGTAGTACAGAGAGTTCCCATATACCCTTCACCCAGCCTCCCCCAATATTAGCATGTGACATAACTATGGTACATTTATTAAAACTAAGAAATTAACAT
TGGTACAGTACTATTAATTAAAGTACAGTCTTTTGCCTACTTTTAAACATCTTTTTTTCTAAGGCTCCATTTTTAAAGTAATACTGGGTTTTAAAGCAGA
AAATCAGAATATTTGACATTAATACCCAAGTTATGGGGCAACAGGAATTTGAAGTCCAAAATAATTGATTTTACTTTTATATTATGCTCAAGACTTCCCA
ATGTATAATATATTCATAGTTAATTGCAGATAATGACATTAAGCAACTTAATAAAATACCCTTAAAGTTTTAGAAAGAGATATTAAAATATCCATCTGAA
TAAACATGGCATTCACAATATGTCACAAATTTAAGTATTTATTAGATACAGGAAACTTACTTAGAAGGATTTGTTTTTAAATTTTTTGTATTAAGACATA
ATTTCAGACTTATGAAAAAATTGCAAGAGTAGTACAAAAAAATCCCATTTTTTTTTACCCAGATTCCCTCAGTGTTTTCATGTCTTTTGTAGGGACATGG
ATGAAGCTGGAAACCATCATTCTCAGCAAACTATCGCAAGGACAAAAAACCAAACACTGCATGTTCTCATAGGTGGGAACTGAACAATGAGAACACATGG
ACACAGGAAGGGGAACATCACACACCGGGGCCTGTTGTGGGGTGGGAGGAGCGGGGAGGGATAGCATTAGGAGATATACCTAATGTGGGTGACGGGTTAA
TAGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAAAAAAATATATATAT
ATGTATATACAAAATTTTACTACTATTGCTTTATCCTTTCTCTCTCTGGCTCCCACAAATGAGAGGGAGAGAAAACTGTTTTAA


SNP Information

Context             (SEQ ID NO:52585):
GAGCAGAGAATTCATCCTTTCTTGCTACTAAAGAATTTATTCTAAAACATTACATGTCACTTGTCCCTCGTGGCTAGATGTGGATAGAGATGCTGGATTG
T
TTGTTTGGAGCATGCAGATTGCACTGTTTCATCTTTTGTAGACACAGAAATCAAGAGTTATCTTTTTTCTTCCAAAGATGGAAACAACTATTTGAGAACC
Celera SNP ID:            hCV26124272
SNP Position Genomic:     69099
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52586):
ATGTTTCAGAAATCAGGAAAGGGATGTGTAGAAAACTTCATGGCAGGGCAGTGGATTGAGGATGGACATATGTATCTGGAAGCACCAAAAATAATGTTCG
R
TCTAGCTAAGGTTTTCTTCATCATTGAGATACGTAAATAGGCAGAAAGTTTCATTATTGTGTTTAACAGAGGAATCTATGTGTGAGAAACACGTTTGACT
Celera SNP ID:            hCV190600
SNP Position Genomic:     7563
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52587):
AAACTTCATGGCAGGGCAGTGGATTGAGGATGGACATATGTATCTGGAAGCACCAAAAATAATGTTCGGTCTAGCTAAGGTTTTCTTCATCATTGAGATA
Y
GTAAATAGGCAGAAAGTTTCATTATTGTGTTTAACAGAGGAATCTATGTGTGAGAAACACGTTTGACTTAACACTTCACTCCCCATTGCCTTGGAAGGCT
Celera SNP ID:            hCV190601
SNP Position Genomic:     7595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52588):
CTCTTGTTTGACAGATAATAGCAGACTTCATCTCTTTTTAAAAATAAACCATCAGTTTATGTCATTGAGTATATTTGATCCTTCTAAAAAGAGGTTCTCT
Y
TCATATTTATTTTTTGTCTATGATGTAGTTTTCTAAAAGTTCGTCTCTATTGGCTACTTCATTTCTGTTCTAAATGTAGTAAGTTCTTGGAAGTGTACTT
Celera SNP ID:            hCV56435
SNP Position Genomic:     40663
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,8|C,9)      total(C,9|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52589):
ACATAAAAATTGCCTATGGTGCTTTAAAAAAATACAGAGTCTGGGGACACATGTTCTCGGGATCTCCTAAGGGCTGTCACAGACCATAAAGTTTAAGAAG
A
AAAAAAAAAAATACAGAGTTTGGGACCTCACCCAAAACCTACCAAAATGAAACTTGTGGAGATGAGGCTCAACAATTTGCATTTTCAAAAGCTCTGTGGG
Celera SNP ID:            hCV26124273
SNP Position Genomic:     75009
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52590):
ATTTTATCTTAAGCCTGCTGACTTGTGTAGTTGAGTGGATGCTAGTTTTTGGTCAGTTGTTCTATTTCATACCTGTAACATAAGGATATTGAGGGTGACT
R
AATTTTACAATGCTTTGCATTTTGTACATCTTTATATGTGTCTGCTTCTTGAAATCATTGCTTTTTGTGATAAAGACCCATCTATGGTTATTTCAATTTG
Celera SNP ID:            hCV56436
SNP Position Genomic:     40879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,11)      total(G,11|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52591):
ACATGATCAGGGGAATTAGGGACCAAGTTTATTAGGAATGAAACTAAAGAATAAAAGGCACTGTAGCAAAATGAAGGATTGGAGGGGTTTTTTTGTTTTT
Y
GTTTTTGAGATGGAGCCTTGCTCTGTCACCCAAGCTGGAGTACAGTAACACGATCTCAGCTCACTGCAACCTCTGCCTCCCGATTCAAGTGATTCTCCTG
Celera SNP ID:            hCV26124274
SNP Position Genomic:     77438
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52592):
AGAAACACGTTTGACTTAACACTTCACTCCCCATTGCCTTGGAAGGCTTGATTATTACCAGTAGCTGGTACTAATGAACTTCCAGAGAGAACAGACTGCC
Y
CAAGCCATTCTTCTGTCAAGGGAGGGTAATTTTGTAAGGCTAATATCACTTAGGGGTGTTGGAAAGGAACATGTTGTAGGCAAATGGTTCTTTTGATCAT
Celera SNP ID:            hCV190603
SNP Position Genomic:     7748
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52593):
TAAGGATATTGAGGGTGACTGAATTTTACAATGCTTTGCATTTTGTACATCTTTATATGTGTCTGCTTCTTGAAATCATTGCTTTTTGTGATAAAGACCC
R
TCTATGGTTATTTCAATTTGCTTGGCAGGTGTATATTTAAGTCTGGTTTTGTTTCTTCTAGACAGTTATTTGATAATAGAGATTCATATTGTTTTCTGTC
Celera SNP ID:            hCV56437
SNP Position Genomic:     40959
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,10)      total(G,4|A,10) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52594):
AGGGGTTTTTTTGTTTTTCGTTTTTGAGATGGAGCCTTGCTCTGTCACCCAAGCTGGAGTACAGTAACACGATCTCAGCTCACTGCAACCTCTGCCTCCC
G
ATTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGAAGCTAGGATTACAGGCACCTGCCACCACACCCAGCTAATTTTTATATTTTTACTAGAGACGGGGTT
Celera SNP ID:            hCV26124275
SNP Position Genomic:     77520
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|-,7)   total(G,5|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52595):
CCTTGGAAGGCTTGATTATTACCAGTAGCTGGTACTAATGAACTTCCAGAGAGAACAGACTGCCTCAAGCCATTCTTCTGTCAAGGGAGGGTAATTTTGT
R
AGGCTAATATCACTTAGGGGTGTTGGAAAGGAACATGTTGTAGGCAAATGGTTCTTTTGATCATGATTTTGCTGCTCTCCGGTACACTAAACTTTATGTA
Celera SNP ID:            hCV190604
SNP Position Genomic:     7784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52596):
TCTCACAGAAGATTTTCTTGCAAGATGACTATGATATGACAGGCTCTGTTTTTGTTATGCATAGGCAGTTGCTTCTATTGTGTTCCCTGCAGCCTAGTGC
K
TGTGTATTTTCTTAGACTCATCTGGTAGTGAAGTGGCCTCTAGCTCAGGTCTTCACAGGCAGAACATCCATGCTTTGAGGAGGCTGTATTAGCAAAATAA
Celera SNP ID:            hCV56438
SNP Position Genomic:     41673
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52597):
GTTGTGCTGATCTAAATATACTTTCTAAGGGATTGTCCTCTTGCACTGTTGGCATTTGACTGATTGACAAGGGGGAGGCCATGAAAAGGGAGTACAGAAA
T
TAGGGGAAAGGAACAGGATAATAAGTTTTTAAAAACAAACAATTTTGAAGATAAGTTTTAGCCAATAGAAACTAGCCCTTCAACAGGCAATAATGAGGAC
Celera SNP ID:            hCV26124276
SNP Position Genomic:     79390
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,7)   total(-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52598):
AAGTCTTAAAGGGCCTGGAGACCCATTTAGAAAGTTAGCATATATTTGCTTTTGTATCTTTTAATTAAGCTTTTGCTGAAGTACCAGCATTAAGAATAAA
Y
GTACTTTTTATTCAACTTTAGTTTTAATTAATAGTATAAGTACAGTACTAACATACGCCGCCAGTTTTCATTGCACACAACATTTCCACAATGCACATCA
Celera SNP ID:            hCV3127530
SNP Position Genomic:     85592
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52599):
GTCTCAAGTTCCACACCAGCCGCCCGGAGAGCTTTGCCATTTACAAGCGCACACGGGAAGACGGGCCCTGGATTCCTTACCAGTACTACAGTGGTTCCTG
Y
GAGAACACCTACTCCAAGGCAAACCGCGGCTTCATCAGGACAGGAGGGGACGAGCAGCAGGCCTTGTGTACTGATGAATTCAGTGACATTTCTCCCCTCA
Celera SNP ID:            hCV3127531
SNP Position Genomic:     86035
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;JBIC-allele(T,548|C,909)   total(C,909|T,548)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52600):
ATTGCTCCCACTGGGAGGCAGATATGTTAACTTTGGGTCATGGTTGATTAAAAGGTCAAAAGAGATCTTAGAGTTTACCTCTAACATCACTTTTTACTAT
R
AAATGTTTTATGCTTGGACTTGGTTTTGCTGAAATTTTCCTCAACTTTTGGTAATATTCTTGCTAAATGAAATTCATAAAACTATGAGTTTAAAACTTGT
Celera SNP ID:            hCV190605
SNP Position Genomic:     8681
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52601):
GGGTGAGGAGAGTGCAGTTCAGGCTGGGATCGTGTGTGGCATATTCGTAGGAAACCACAGAATCTGAAGTTAGTTAGGTTTGGATTTCATTTACCACTTA
Y
AAACTACGTGCATCAGAGTAAGAAATTTAATTTCTCTGACTGTAGGTTCCTTGATTATAGAGATGTTGTAAAGATTAAATGAGATGACACGTTGGAAGTT
Celera SNP ID:            hCV56439
SNP Position Genomic:     42417
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,11)      total(C,11|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52602):
ACTCCAAGGCAAACCGCGGCTTCATCAGGACAGGAGGGGACGAGCAGCAGGCCTTGTGTACTGATGAATTCAGTGACATTTCTCCCCTCACTGGGGGCAA
Y
GTGGCCTTTTCTACCCTGGAAGGAAGGCCCAGCGCCTATAACTTTGACAATAGCCCTGTGCTGCAGGTAAATTCTCACAGGTTGGCCTGAAGCCAGCTAG
Celera SNP ID:            hCV3127532
SNP Position Genomic:     86146
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;JBIC-allele(T,245|C,1228)   total(C,1228|T,245)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52603):
AATGAAATTCATAAAACTATGAGTTTAAAACTTGTAAGTTAAAAGTTAAAGTATTTTCTTACAAGCATTGTGATTAACTGTAAAAATATGTACTTTAAAC
Y
TCTAGTTTAAACTAACTTGACTAGGATACTTGACTTGTTCTTGGATCAGAAATGACATCCTGGAAGAAATCATGCATAGTGGAGGAGGTGGGAAGGGGGA
Celera SNP ID:            hCV190606
SNP Position Genomic:     8847
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52604):
GCATAGAGCTGAGCATAGATTTGTGCCCAACAAATTCTTGTTGACCAAACTGGGATCTTCACTATAACATAGAAGTAGCAAAGTATAGATATTGTTAGAG
T
TAGCAAGACCCAATGTGTGAATGAATGGTGATTTTATATTTTACCCATGTGAAGACACACTGGCTGGCAACCAAGCCATCCTGACCATAAGACCACACTC
Celera SNP ID:            hCV26124277
SNP Position Genomic:     85058
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52605):
CACATGTGTATATAAAATTATAGGATCATTTTAACTGATACTTTTTGGGAGGCTGAGGCGTATTTTAACAGATGGCAAATACAAATCTGATTATTGTGCC
Y
GTATCATCACTTGCTGTACAAAAGCCAGGAAAATCAGTGTTGATTCTGAAAACAGCGCTCTCTTAAGCACCATACACAGTCATCCAGGGTGCAGGGTGCA
Celera SNP ID:            hCV190607
SNP Position Genomic:     9682
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52606):
AACATGCGAGGTGTGGGAAGATTATTGTAGTGGGGCTTGTGGTCCCACTTCTGAGGTACGGGGTCAGAGTAGAATACTTGAGCAACACAGACAGAGAGCT
Y
GATTCTGCTCTCTGTGTACTATTAATAAGTGAAGGAAAGTAGTTTTGTTCCTGCTGCCTGGTTGATGTTTGTTCTTATGCACTTGCAGATCTATTCTGGG
Celera SNP ID:            hCV3127533
SNP Position Genomic:     86353
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52607):
ACGCCAGGTTGACAAGCTATGGTAGGATTAGGAAAGTTTGCTGAAGAGGATCTTTGACGCCACAGTGGGACTAGCCAGGAATGAGGGAGAAATGCCCTTT
Y
TGGCAATTGTTGGAGCTGGATAGGTAAGTTTTATAAGGGAGTACATTTTGACTGAGCACTTAGGGCATCAGGAACAGTGCTACTTACTGATGGGTAGACT
Celera SNP ID:            hCV3127460
SNP Position Genomic:     127318
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;JBIC-allele(C,568|T,915)   total(C,568|T,915)   (T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52608):
TATATAAAATTATAGGATCATTTTAACTGATACTTTTTGGGAGGCTGAGGCGTATTTTAACAGATGGCAAATACAAATCTGATTATTGTGCCTGTATCAT
Y
ACTTGCTGTACAAAAGCCAGGAAAATCAGTGTTGATTCTGAAAACAGCGCTCTCTTAAGCACCATACACAGTCATCCAGGGTGCAGGGTGCAGTGCATCC
Celera SNP ID:            hCV190608
SNP Position Genomic:     9690
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52609):
AATAAAATGTATTTTTTAAAATTAGCAAAGGGGAACCGTTGAAGCAAGATATTTAAGAATGCCATCTTCTTTCATTTTTACACAAGAAAATTTTGATTAG
R
TTTGTCTGGCACGATTGCTGATCATTAAAGAAACTCCTCATCACCTAAAATGGATGATGTTAGTAACAGGATATGGATGTTAGTAACAGGATATTAATTT
Celera SNP ID:            hCV3127534
SNP Position Genomic:     86711
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52610):
AATACCAGCACTTTGGGAGGCGGAGGCAGGTGGATCACTTGAGGTCAGGCATTCAAAACCCACCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAAT
M
CAAAAAAAAAAAAAAAGTTAGTTAAGCATGGTGGCAGGTGCCTGTAATCCCAGCTACCCTGGCTGGGAGGCTGAGGCGGGAGAATCACTTGAACCCGGGA
Celera SNP ID:            hCV26124279
SNP Position Genomic:     87633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52611):
TCATTTAGAATGTCGGTAGCCATCCATCAGTGCTTTTAGCTATTATGAGTGTAGGACACTGAGCCATCCGTGGGTCAGGATGCAATTATTTATAAAAGTC
Y
CCAGGTGAACATGGCTGAAGATTTTTCTAGTATATTAATAATTGACTAGGAAGATGAACTTTTTTTCAGATCTTTGGGCAGCTGATAATTTAAATCTGGA
Celera SNP ID:            hCV3127461
SNP Position Genomic:     126022
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;JBIC-allele(T,532|C,777)   total(C,777|T,532)   no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52612):
GCGTATTTTAACAGATGGCAAATACAAATCTGATTATTGTGCCTGTATCATCACTTGCTGTACAAAAGCCAGGAAAATCAGTGTTGATTCTGAAAACAGC
S
CTCTCTTAAGCACCATACACAGTCATCCAGGGTGCAGGGTGCAGTGCATCCTCGGATAAAAAGAGTTAAAGTTGCTATGGGAACCAGAATTGCACTTTCT
Celera SNP ID:            hCV190609
SNP Position Genomic:     9739
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,7)      total(G,7|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52613):
TCACCTAAAATGGATGATGTTAGTAACAGGATATGGATGTTAGTAACAGGATATTAATTTAGGTACCCATAGCACTGTACTTAAACATTGTGATAGAAAC
M
TTTCCCTGTTTGAGAAGGATTTCTTTTTTCTCCTGAATTCTACATGCATATTCCTTATACACCATAATACGGAATTCTTCTATGTTGCTCATATTTCTGT
Celera SNP ID:            hCV3127535
SNP Position Genomic:     86852
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;(C,-|A,-)   JBIC-allele(C,597|A,900)   total(A,900|C,597)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52614):
AGCCAGGACTCTTTGTAGCAAGGCATTATATTTTAATTTGCCAGCCTTTAAAGACTGGTGCATTTTGTTTTGGTGGGGGGCTACAGGGGTATTTTTTATC
R
GTCTCAAATGTCAAGAATAAGTTATGTGCCAACAGATGGATATAAAATGAAAGTAAGCTAGAAGAGAAAGCTTTTTGTGGAACAGCCAGACTTTTAACAT
Celera SNP ID:            hCV3127462
SNP Position Genomic:     124257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52615):
CAGGATATTAATTTAGGTACCCATAGCACTGTACTTAAACATTGTGATAGAAACCTTTCCCTGTTTGAGAAGGATTTCTTTTTTCTCCTGAATTCTACAT
S
CATATTCCTTATACACCATAATACGGAATTCTTCTATGTTGCTCATATTTCTGTGAACTTTTCATATGTCCTGGCTATTTGATTATGGAAAAGCTGGTGA
Celera SNP ID:            hCV3127536
SNP Position Genomic:     86898
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52616):
AGTGTATTTACCTTTGTTTGGTTTTTAAAATGTAAATTATATTGCCCCAATAAATGAGTATGTGTGTCAGGGGGACTGTGGCTGGGTCATTGCATGTGGA
R
GGGGAGTTTACAGAAGAGAACTCCTAGAAGAGCTTTACTTAACTATGAAAATTTTCAAAGAATAGGACATTTCTAATAAGTCCCTAAGAGTGTCCTGAAG
Celera SNP ID:            hCV3127463
SNP Position Genomic:     122490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52617):
GCACTGTACTTAAACATTGTGATAGAAACCTTTCCCTGTTTGAGAAGGATTTCTTTTTTCTCCTGAATTCTACATGCATATTCCTTATACACCATAATAC
R
GAATTCTTCTATGTTGCTCATATTTCTGTGAACTTTTCATATGTCCTGGCTATTTGATTATGGAAAAGCTGGTGAGCCTCATGCTGTACTCAGCACTTTA
Celera SNP ID:            hCV3127537
SNP Position Genomic:     86923
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;(G,-|A,-)   JBIC-allele(G,426|A,685)   total(G,426|A,685)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52618):
CAATCACGGTAATGACATACACGAACTTGTGGTTACTTGCTCACTTTCAGTGGCAAAGAAGAGGCCATCGTTCACTGCTGCCAGAAAACATAGTCCCTCA
S
TGTGGGTCATTTTCATCTTGGGATGGAAAAAAGAAGTACAAAGCCTGTTAATCTCAGTAAAAACTCTAGGGAAGTGATAAAGGAAACTATCTCTGTGCAA
Celera SNP ID:            hCV3127465
SNP Position Genomic:     121155
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;(C,-|G,-)   JBIC-allele(G,594|C,879)   total(G,594|C,879)   no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52619):
TGTAAGAATTGTGATGTTTGTTGCTCTTTATGCCGTAGAAACTAGTGAGACTATATGAGGTAATGAGACTGTGTGGTAAAAATGCTATGGGTTATGACCT
Y
GCATTTAAAAAAAAAAATGCTGTGGGCATCTGCATAGACGTGGTCAGTCAGTTTCATTATGCAGTAACATGAGTTACGTGTCTCTGGATGTAAGAGCTCT
Celera SNP ID:            hCV3127539
SNP Position Genomic:     88209
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52620):
TTATAACCCAAATTGATAATGTAAGTCATGAGATAGTATAAATCAATATATTATTATTTCTGGATTATATTTTTAAGACATTTTATAAATTATAAAAGGA
R
CGGGAGCATACTTGAGAAAAAGGAAAGCTTTTTTAAAAAAAGTACAATTTTCTTTTGTGCCTAGAATGCCACCAGCACCAAGGCAGAAGCTGAAAGAACT
Celera SNP ID:            hCV3127466
SNP Position Genomic:     120195
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,17)   caucasian(A,8|G,10)   total(A,11|G,27)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52621):
CACTCCTAGGAGAGACTTCCCATAGCTGCCATTGCTAGGATTCTTTGAAGTCATCTTCAAGAATAATGTTTTTTAGTTTGGCTTTCTCTTATTTCAAGGT
M
AATCTGTTTGTTTTATTTAAAAGAGAGATTGGAGCAATTTTAGAATTAGGTATTTAAGAATCAGAGAAACCTCTTAGTTTCCTTAGAACAGTTGGCTTTT
Celera SNP ID:            hCV3127467
SNP Position Genomic:     119686
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52622):
TGGCCCAGTCCCCTCTGCTGCTGCCCAGTGCTGCTGAAAGGGCAGTGTGGTGCAGTGGTTAGAGCATGGGCTGTGGAGGCAGATGGATCTCAGGCCAGCC
R
TGCTTCAGCTGCCTGCTGCCATGTGTCAGGCCTCCTTGGATATAAAGTTCCATAATTTCCTCAGGTATTAAAAGTGAGCCATAGTGTTTCCCTTATGGGA
Celera SNP ID:            hCV44139
SNP Position Genomic:     38750
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52623):
ACTTCAGTAAAATTGTCTTAAACCATATTTGTCTTTTTTTTTTTCTTTTGACTAGGCATGAGAGTAGGTATCCACATTGAGGAGGGGAACTCAGTAAAAG
S
GTGCTTTACTCTAAAATTTCTACTATGTCTCAGTGTGAGGTCTGGCTTCAGAGGTCTATAGAGCCCATTCCCACAAAAAATCAGACTTTTTCTAAATAAA
Celera SNP ID:            hCV3127468
SNP Position Genomic:     119379
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,17)   caucasian(C,9|G,11)   total(C,18|G,28)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52624):
AAGCCAATGAAAAGACCAGAGAAGCCCAGCAGGCCCTGGGCAGTGCTGCGGCGGATGCCACAGAGGCCAAGAACAAGGCCCATGAGGCGGAGAGGATCGC
R
AGCGCTGTCCAAAAGGTGTGCGTTTCCTCTTCTCCAAGAGTCCCTGCCCATATCTTTCTCTGGTCACTTTCCAGTTTCTTTCCAGACCCTCAGAGCCCTT
Celera SNP ID:            hCV3127469
SNP Position Genomic:     119161
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(A,13|G,25)   total(A,19|G,55)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52625):
AAAAAAATACAAAAATTAGCCGGGCATGGTGGCATGCGCCTGTAATCCCAGCTGCTTGGGAGGCTGAGACAGGAGAATTGCTTGAACCCAGGAGGCGGAG
R
TTGCAGTGAGTCGAGATTGCACCACTGCACTCCAGCCTGGGAGACGGAGTGAGACTCCATCTCAATAAATAAATATATATATAAACAAACAAATAAATTA
Celera SNP ID:            hCV16154692
SNP Position Genomic:     103942
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52626):
ATGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAAGAAAAGAAAAAGCAGAAGAC
Y
GAATGCCCAGTGGAGAGGTGACCTACAAATACTCTTTAAGTTGATCAGCTAGCAAACATTTGCCAGACTTCTTTCTTTCCTACAGCAAATTATTGCATTT
Celera SNP ID:            hCV26124280
SNP Position Genomic:     87860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52627):
ACTCTTTAAGTTGATCAGCTAGCAAACATTTGCCAGACTTCTTTCTTTCCTACAGCAAATTATTGCATTTTCCTGTCCTGATGAGGCAACAATAGAAAGA
M
CAGAGAAAGAACAGTGTAGTCAGTAGAAAATGCAGTGATACAAAGTTGTAACTGTGGTTTTCTGGCACCTTTGCTAACTGTACACCCAGTCAGCCTGTCT
Celera SNP ID:            hCV26124281
SNP Position Genomic:     87991
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52628):
CTTGCTGTACAAAAGCCAGGAAAATCAGTGTTGATTCTGAAAACAGCGCTCTCTTAAGCACCATACACAGTCATCCAGGGTGCAGGGTGCAGTGCATCCT
Y
GGATAAAAAGAGTTAAAGTTGCTATGGGAACCAGAATTGCACTTTCTGCTTGTTGTGGGGAGAAATCTCCACCAGCCACTTTTCTAAGAAGAAGTCTTTT
Celera SNP ID:            hCV190610
SNP Position Genomic:     9792
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52629):
TGCCAGACTTCTTTCTTTCCTACAGCAAATTATTGCATTTTCCTGTCCTGATGAGGCAACAATAGAAAGAACAGAGAAAGAACAGTGTAGTCAGTAGAAA
R
TGCAGTGATACAAAGTTGTAACTGTGGTTTTCTGGCACCTTTGCTAACTGTACACCCAGTCAGCCTGTCTTGAGCCATTTCCCCAACTGTAAGAATTGTG
Celera SNP ID:            hCV26124282
SNP Position Genomic:     88021
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52630):
ATTGTGATGTTTGTTGCTCTTTATGCCGTAGAAACTAGTGAGACTATATGAGGTAATGAGACTGTGTGGTAAAAATGCTATGGGTTATGACCTTGCATTT
A
AAAAAAAAAATGCTGTGGGCATCTGCATAGACGTGGTCAGTCAGTTTCATTATGCAGTAACATGAGTTACGTGTCTCTGGATGTAAGAGCTCTGTCTCTG
Celera SNP ID:            hCV26124283
SNP Position Genomic:     88216
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,6)   total(A,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52631):
AATCAAAGTTTATGAAACTCCTAAAATTAACACTGAAACCAGATTAGTTTCCAAGCTCCTCATAAACTGTAGGAACCAATAGTGATTAAATGAAGCTTTT
R
AATCTGCATCTGCATATCTTTTTTGTGTGTTTAAGTTAGAATAATTGATATATAAGGCTATTGCCTTTTATTCTCTTTGGTCCTCTGCTGAGTGTGTATG
Celera SNP ID:            hCV190612
SNP Position Genomic:     10275
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52632):
CACTCCCCTGTTGGAGAGGTGGGTAGCTTTGGGAAGAAGAATAGGTCCTAGTATTCCTAGAAAAAGGTAAAAATGAAAAAAAAGTAAAATGAAAAAACTT
R
AAACATTGTTTATCCCTTCATAATGTCATGGTTTATTCTGAACAGATAGAGAAAGAAATCTCAGGAGAAAGGAACCTTTTAATCATGATTTTAAAGCAGA
Celera SNP ID:            hCV26124284
SNP Position Genomic:     94135
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52633):
TTCTCCATTCTAAGGGCATTCAAAAAAGAATTTACACATTAGGGGAGAAGTTGGAGCTATAAGGCATTCCTCCCCCCCCCCACCTCTTCCATTTGTCATT
K
GTCACATTTGTGGGAGGAATCAAGTTTTGACTATTTCAGTTCTAAATAATTTTAGAAAATTGGGTGTGCCTTTTGCTATGCACTCCTTCCTCCTGTGCAT
Celera SNP ID:            hCV190613
SNP Position Genomic:     10766
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52634):
AATCTCAGCATTTGGGAGGCCTATGGGGTTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATA
S
AAAAATTAGCCAGGTGTGGTGGTGCACGCCTGTAATCACAGCTACTCACTTGGGAAGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCA
Celera SNP ID:            hCV26124285
SNP Position Genomic:     94460
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52635):
AAGGCAAAGATGCCTAAGGTTGTGATTTGCCTAAAGTCATGTGGGAGATAGGTCTTTGACTACCTAGTTGATTGCATTCGTTCTTGCAGCTTGCAGCTTC
Y
CTAACGAGTCTCTCGAAAGAAAGTCTACTTTATTCTAAGCCACTTTTAAAATTTCATGTATACCCTGGTTCAGAGATACCAGACTCCTTTGGTTTTCCTT
Celera SNP ID:            hCV190614
SNP Position Genomic:     11209
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52636):
AGTTTGAGGCTGTAGTACACCATAATTGCGCCTGTTGAATACCCACTACACCCCAGCCTGGACGACGTAGACCCTATCTCAAAAATTAAATAAATAAAAT
R
TATATATTCACATGTACATTGTTGAAATAGATTCTTAAAGGGAATTATTAAGCAGCTGAGGGGAAAGGTTACAATGAAATATTTGCTTGTTGTATATAGC
Celera SNP ID:            hCV152941
SNP Position Genomic:     13596
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52637):
AAAAAAATGCTGTGGGCATCTGCATAGACGTGGTCAGTCAGTTTCATTATGCAGTAACATGAGTTACGTGTCTCTGGATGTAAGAGCTCTGTCTCTGATA
Y
CCAGTTGCCAAGGAGGTTGAGCTAATTTGACTTTTAGCTGATCTGACAATGAGAGAGAACTCTTGCCTCTCTTCCTCTCTTCATTGCTCCCTAAACCTCC
Celera SNP ID:            hCV3127540
SNP Position Genomic:     88320
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52638):
ATTTTTTTCCTTTAAAAATGGACATAAGCAAATTTTATTTAAAGTATATATATTCTGTAGTTTCAGCTACTTGGGAGGCTGAGGCAGAGGGATCATTCGA
K
CTAAGAAGTTTGAGGCTGTAGTACACCATAATTGCGCCTGTTGAATACCCACTACACCCCAGCCTGGACGACGTAGACCCTATCTCAAAAATTAAATAAA
Celera SNP ID:            hCV152942
SNP Position Genomic:     13489
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52639):
CCCCATGGTCGATCCACCCTCTGCTTCCTTTTCATTTTCTCTGATACTTGACGCTTGCCATATATGGGCTCCTCTTGCTCCCAGTTTCTGTTTCTTCCCT
S
TATGACCTTACCAAATCTGGTGTGTTTATTATCCACCAGTCACGTCCCACTGTCTTTCAAGGCCTGACCTGAGCCATCTTCATCCTTGAAGAGTTCTTCC
Celera SNP ID:            hCV44140
SNP Position Genomic:     39002
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,9)   total(G,9|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52640):
TGTCTCTGATACCCAGTTGCCAAGGAGGTTGAGCTAATTTGACTTTTAGCTGATCTGACAATGAGAGAGAACTCTTGCCTCTCTTCCTCTCTTCATTGCT
Y
CCTAAACCTCCCTGCAGAAGCTGTAATCTCCCAGATGGGGAAGGAGACCCTTTTTGGTTTCACCATATTATAAGTATTACTAAGCATGTGTTGATTTATG
Celera SNP ID:            hCV3127541
SNP Position Genomic:     88409
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52641):
AACCTGGGAGGCGGAGGTTGCAGTGAGTCAAGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAACAAAAACAAACAAA
M
AAATTATTGGCAGAAACCCCGAGAAGGGACCACTATCTTAACTCACGACTGTTTCCACTGAACTGCCGAGAGGAGATTTTCTTATTCATCTTTTCAACAA
Celera SNP ID:            hCV26124286
SNP Position Genomic:     94639
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52642):
CTGACCTCATTCTTAGATGAGGTGTAGATGCAGAGACCCATGTCTCTCGATTTGGGGGTAGGCAAATGATGGCCTTCTTAGCCAAGTCCAGTCCAGTCCT
K
CCTATTTTTGTATGGGCTGTGAACTAAGAATGGTTTGTACATTTTTAATTGGTTAGAAAAAATCAGAAGAATAATATTTTGTGACATGTGAAAATTTCAT
Celera SNP ID:            hCV152943
SNP Position Genomic:     12584
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,12)   total(G,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52643):
TCTGACAATGAGAGAGAACTCTTGCCTCTCTTCCTCTCTTCATTGCTCCCTAAACCTCCCTGCAGAAGCTGTAATCTCCCAGATGGGGAAGGAGACCCTT
Y
TTGGTTTCACCATATTATAAGTATTACTAAGCATGTGTTGATTTATGGTAATAATTTACATTTATTAAAGCACTTACTATAGCATACTATAATGTGACAA
Celera SNP ID:            hCV3127542
SNP Position Genomic:     88462
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,20)   caucasian(C,6|T,16)   total(C,8|T,36)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,7)   total(C,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52644):
TCTCCAAAAAACAAACAAATCAAAATGTGTTCATGATTTTGGTTAGAAGAAGTCTGCATTAAAAAAGAAAAATATATTCCAAAAAAGATGTATTCGAATA
T
TTTTTTTAAACAACATCCTGTTCGATTTGAAACCAAATAAAACTTCTTTTTATTTACTCTTCAAGATACTGTCTACATTTTGGGAAGAATCAATAACTCA
Celera SNP ID:            hCV26124287
SNP Position Genomic:     95981
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52645):
AAAACAAAATCCAGTTGGAACTCCCTGAAAGGCCCCCTTTTTACTTGTTGGGAGTTTAGCTCAAATGTGTCCTTGAACTTGTTTCAGATTTTGATAGGCG
Y
GTGAACGATAACAAGACGGCCGCAGAGGAGGCACTAAGGAAGATTCCTGCCATCAACCAGACCATCACTGAAGCCAATGAAAAGACCAGAGAAGCCCAGC
Celera SNP ID:            hCV3127470
SNP Position Genomic:     118990
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,21)   caucasian(C,11|T,29)   total(C,20|T,50)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;(C,-|T,-)   JBIC-allele(T,537|C,888)   total(C,888|T,537)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52646):
GTTTCACCATATTATAAGTATTACTAAGCATGTGTTGATTTATGGTAATAATTTACATTTATTAAAGCACTTACTATAGCATACTATAATGTGACAAGCA
S
TGTTCTAAGCCCTTTGATTTTCTACCTCAGTTAACCCTCACAGTAACCCTGTAAGGTAGATACTTTTATTGTCTCCATTTTACAGATGAGGAATCAGAGG
Celera SNP ID:            hCV3127543
SNP Position Genomic:     88566
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,5)   caucasian(C,18|G,16)   total(C,27|G,21)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52647):
CCTGTAATCCCAACACTTTGGGAGGCCAAGGTGGCTGGATCACGAGGTCAGGAGATCAAGACCATGGTGAAACCCCGTCTATACTAAAAATACAAAAAAA
W
TTAGCCAGGCGTGGTGGCGGGCAGCAGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCGA
Celera SNP ID:            hCV26124288
SNP Position Genomic:     98560
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52648):
TAAAGATGCCCATTAGGAAAAAAAAATGGCTTAGCTTTTTGAGAAGCTCTTATTCAAAGAGAGCTGTGATAAGGTCGAAGCCTTGTAGAAGATATAATAA
R
CATTAAACACAGAAATATGTTTAGCTATTTACATTACAGATGACTAAAAGATTCCTACTGTTGTGGCCATGAGTAGGAGTTGTTATTGGAGTTCCAAGTT
Celera SNP ID:            hCV3127544
SNP Position Genomic:     88860
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,18)   caucasian(A,10|G,22)   total(A,18|G,40)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,27)   caucasian(A,10|G,28)   total(A,19|G,55)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52649):
TACTAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGCGGGCAGCAGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGG
Y
GGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCGTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAATGACTTTAGGGTCCATTT
Celera SNP ID:            hCV26124289
SNP Position Genomic:     98641
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52650):
GAAGTAAGAATTCTATTTCCAGAAACGGAACATTTCTATAACACTAACTGGGAGACCTATTCTGTAGAGATGTGTAATTTCTAAAATTTCAGCCCATGCT
S
TCTTCCATTTTTTACCCTGACTTCCATTGTTCATAAAACAAAATCCAGTTGGAACTCCCTGAAAGGCCCCCTTTTTACTTGTTGGGAGTTTAGCTCAAAT
Celera SNP ID:            hCV3127471
SNP Position Genomic:     118855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,6)      total(G,2|C,6) ;JBIC-allele(C,555|G,916)   total(G,916|C,555)
SNP Type:                 INTRON


Context             (SEQ ID NO:52651):
TCATTATACAGGTGAGGAAGCTGAGGTCCAGGGAGATAGCAATTGCTTAAGATCAGGTTTCCCATTTCTAGACTAGAGCTTTCTCCACCACCCTATGTAC
Y
GTTTCTGTTTTTAAGCCTGTAAAACAACAAACACCACAATAAACACCAAAACCTGGAAATAGGAGATTATGTATGCAGACTTGTACTTCATGGGACAGAG
Celera SNP ID:            hCV44143
SNP Position Genomic:     39345
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,9)   total(C,5|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52652):
AAAAATTTTTTTTTTAATTAGCCGGGCATGCTGGCACATACCTGTAGTCCTAGCTACTTGAGAGGCTGAGGTGGGAGGATCCCTTGGGCCCAGGAGGTCA
M
GGCTGCACTAAGCAGTGATTGTGCCACTGCATTCCAGCCAGGGTGACAGAGTGAAACCTTGTCTCTCAAAAAAAAAAAAAAAAAAAGTAGTAGTTCAAAA
Celera SNP ID:            hCV3127472
SNP Position Genomic:     118414
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,8)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52653):
GTAGCAATGTTAGATAAGGTGGCCAGGGAAGGCCTCAGAGAGAAGGTGATATTGTGGGGAGGGTCAAGACAAACACAGACAACATCCTATTGGTTCAAGC
Y
TAAGTAATGATTTATTAGCGAGTACTTGAGCATCTCCCTCAGATCTGTCAGTAGGGGATTGGGTTGGCAGGGAGGAATAGATGCTATAAAATGGGCAGGG
Celera SNP ID:            hCV3127546
SNP Position Genomic:     90026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52654):
TCTCTATAAAAAAAAATTTTTTTTTTAATTAGCCGGGCATGCTGGCACATACCTGTAGTCCTAGCTACTTGAGAGGCTGAGGTGGGAGGATCCCTTGGGC
Y
CAGGAGGTCAAGGCTGCACTAAGCAGTGATTGTGCCACTGCATTCCAGCCAGGGTGACAGAGTGAAACCTTGTCTCTCAAAAAAAAAAAAAAAAAAAGTA
Celera SNP ID:            hCV3127473
SNP Position Genomic:     118403
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52655):
CCATCTCTATAAAAAAAAATTTTTTTTTTAATTAGCCGGGCATGCTGGCACATACCTGTAGTCCTAGCTACTTGAGAGGCTGAGGTGGGAGGATCCCTTG
R
GCCCAGGAGGTCAAGGCTGCACTAAGCAGTGATTGTGCCACTGCATTCCAGCCAGGGTGACAGAGTGAAACCTTGTCTCTCAAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV3127474
SNP Position Genomic:     118400
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52656):
TAATCCCAACACTTCGGGAGGAAGGATCACTGGAGGCCAGGAGTTGAACACCAGTTCCTCACTGGGGAATATAGTGAGACCCCATCTCTATAAAAAAAAA
W
TTTTTTTTTAATTAGCCGGGCATGCTGGCACATACCTGTAGTCCTAGCTACTTGAGAGGCTGAGGTGGGAGGATCCCTTGGGCCCAGGAGGTCAAGGCTG
Celera SNP ID:            hCV3127475
SNP Position Genomic:     118319
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,5)      total(A,5|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52657):
AGGATGCTTTACAGGGTACTAGTTGAAAATATGGGCCAGGCACGGTGGCCTGTAATCCCAACACTTCGGGAGGAAGGATCACTGGAGGCCAGGAGTTGAA
S
ACCAGTTCCTCACTGGGGAATATAGTGAGACCCCATCTCTATAAAAAAAAATTTTTTTTTTAATTAGCCGGGCATGCTGGCACATACCTGTAGTCCTAGC
Celera SNP ID:            hCV3127476
SNP Position Genomic:     118267
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,7)      total(G,5|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52658):
CCCTGCATACTTCAGTATGGATTTTTTTTTAAAGATGTTTTCTTATTAGGCAAACTCACATAACCAAGATGCCTATTTAGAGAACTTATATAGGTAAATG
R
AGATTATCTTTCATTTTCTCTGCCAGTGGCATCTGATTCTTTGTTGTTGTTTTTTTTTCTTCACCCCAGATAGAAGAGAAATGTGACCAATTCACTGAGC
Celera SNP ID:            hCV3127477
SNP Position Genomic:     118008
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52659):
AATCCCAGAGCTCCTGTCATTTTATCCCTGCATACTTCAGTATGGATTTTTTTTTAAAGATGTTTTCTTATTAGGCAAACTCACATAACCAAGATGCCTA
Y
TTAGAGAACTTATATAGGTAAATGGAGATTATCTTTCATTTTCTCTGCCAGTGGCATCTGATTCTTTGTTGTTGTTTTTTTTTCTTCACCCCAGATAGAA
Celera SNP ID:            hCV3127478
SNP Position Genomic:     117983
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52660):
AAAGTAACAAATTAAAGAAGGGAAGAGTCAAGAAGGAGAAAAATATTAGAAAATTAAAGAAGTCATTGAGTATTATAATAGATTTAGTGCTAAAGAGGGC
R
TAAGTTAAATGATAATAAGTTAGTGATTTAGAACATTTTGTCACATTTATATCATTTTCAGTCCCTCCACTTCTCTTTTATGTTTCTATTTTTGCTTCCT
Celera SNP ID:            hCV27851474
SNP Position Genomic:     90750
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,35)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:52661):
TGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCGTGGGTGACAGAGCGAGACTCTGTCTC
A
AAAAAAAAAAAAATGACTTTAGGGTCCATTTTGTTCTATGTGTATTTCTTTTAAAAAAGTCTGTTGGCTGGGCGCCTGTGGCTCACGCCTGTAATCCCAG
Celera SNP ID:            hCV26124290
SNP Position Genomic:     98710
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52662):
CACTGCACTCCAGCGTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAATGACTTTAGGGTCCATTTTGTTCTATGTGTATTTCTTTTAAAAAA
R
TCTGTTGGCTGGGCGCCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCCGAGGCAGGCGGATCACAAGGTCAAGAGATCAAGACCATCCTGGCC
Celera SNP ID:            hCV26124291
SNP Position Genomic:     98769
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52663):
TGGGTGTGGTGGCGTGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCTCTTGAACCCTGGAGGCGGAGGTTGCAGTGAGCTGAGATGG
Y
GCCACTGCACTCCATCCTGGGCGACAGTGTGAGACTCTGTCTCAAAAAAAAAAAAATCTGTTAACATGTAAAACAAAGGGCTGACTTGAAGAGTGGAAGT
Celera SNP ID:            hCV26124292
SNP Position Genomic:     99013
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52664):
CTGAGTAGCTAGGACTACAGGCATATGCCACCATGCCTAGCTAATTTAATTTTTTTGTAGAGATGGGGTCTCTCTGTGTTGTCCAGACTGGACCCGAACT
Y
CTGGCCTCGAGCAATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGGTTACAGGTGTAAGCCACCATGCCCAGCTGAGGATTGTTTTCAGTGGAAGAATTT
Celera SNP ID:            hCV9096979
SNP Position Genomic:     17995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|C,10)      total(C,10|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52665):
TGAGGCAGGAGAATCTCTTGAACCCTGGAGGCGGAGGTTGCAGTGAGCTGAGATGGCGCCACTGCACTCCATCCTGGGCGACAGTGTGAGACTCTGTCTC
A
AAAAAAAAAAAATCTGTTAACATGTAAAACAAAGGGCTGACTTGAAGAGTGGAAGTTTTCTCCCTTCTCTGATTGTTTTATCCATTTTTCATTGAATAGG
Celera SNP ID:            hCV26124293
SNP Position Genomic:     99057
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,9)   total(A,3|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52666):
CTGAGGGCAGGAGGATGCATGAACCCAAGAGGTCAAGCTCGCAGTGAGCTGTGATCATGCCGTTGCACACCAGCCTGAGTTTACAGAGTGGATCTATCTC
A
AAAAAAAAAAAAAAAAAAAAAAGGTGGCGGGGTGGTGTTGAAACTGAAAGATCACAGTGCTTTAAGAAGTAATTTGAAGTTGAGTAAGTAAAATAAAGAA
Celera SNP ID:            hCV26124294
SNP Position Genomic:     102748
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,7)   total(A,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52667):
TTCTTATAGAAATGGAAAAGCATTGAGCTTTGGAGTAATTGTATACTTGTCAGAAGTAACCCTGAGTATTAGAACTTTACTTGAGAGTTTTTGTTTTTTG
T
TTTTTGGGGGGTTTTTTGGCTGTTTTACAGAGGGCAGAAATTATGTAACCTGAGTATTACCTGTTGACAGGTGCTTTCCCTTCTGTCTTACCCTTGAACT
Celera SNP ID:            hCV26124295
SNP Position Genomic:     103411
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52668):
CTTGTCAGAAGTAACCCTGAGTATTAGAACTTTACTTGAGAGTTTTTGTTTTTTGTTTTTTGGGGGGTTTTTTGGCTGTTTTACAGAGGGCAGAAATTAT
R
TAACCTGAGTATTACCTGTTGACAGGTGCTTTCCCTTCTGTCTTACCCTTGAACTCTGTAGTGCCTGCTTTTGTAGCAAAAGAATGAAAACACTCCTTAA
Celera SNP ID:            hCV26124296
SNP Position Genomic:     103456
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52669):
TGTTTTTTGTTTTTTGGGGGGTTTTTTGGCTGTTTTACAGAGGGCAGAAATTATGTAACCTGAGTATTACCTGTTGACAGGTGCTTTCCCTTCTGTCTTA
Y
CCTTGAACTCTGTAGTGCCTGCTTTTGTAGCAAAAGAATGAAAACACTCCTTAATGGCTGTAGACATAAACTCTTCTTTTCCCCCCACACTCTTGTTCAT
Celera SNP ID:            hCV26124297
SNP Position Genomic:     103502
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;JBIC-allele(C,597|T,898)   total(C,597|T,898)
SNP Type:                 INTRON


Context             (SEQ ID NO:52670):
CATCTCTGATTTTGCTGTAGGTGGCAGGTAAGTAAACTATTAAATTAGTCTTGAAAGTGTTTGGAGCTTTTGCATAGAGGTGAATCTAGCAACTTGTTTA
Y
AACTATGTTAATACCGTTGTTAGATGTTTTCTTTACCAAGAATAGGAGCGGCAGTCCTTCCTGTGTGATAATGCTTAGCTGAAAAGACAGACAGCAGCCT
Celera SNP ID:            hCV3127553
SNP Position Genomic:     91060
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,7)   caucasian(C,7|T,11)   total(C,30|T,18)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52671):
CTCACTCCAAATGATTGTCTGATGCTTTTCATTTTTCACATTGGTGGGGACTGTAAAATTCAGCAAATCTAGGGGTACATGTGTGTGTTTTAAAAAAAAT
W
AGTTTGGGCCGGGCATGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCTGATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGGC
Celera SNP ID:            hCV26124298
SNP Position Genomic:     103710
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,6)   total(A,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52672):
ACCTTCTGGAGAAAGGCAAGACTGAACAGCAGGTTGGTTTGATTTGCAGGTCGCTTCATTTCTTGAGGCAACATTTGAACAGTCCAAATGGGTCTGTGAT
R
ATGCCGTACTTTCAGAGACAGCAGACCCCAGTGCTGAGAGAGCAGCCTAACAGATTTTATGCTGGCAAGTCTCAGGGTGGCACCTCTGGAGAGCCTTGTC
Celera SNP ID:            hCV3127480
SNP Position Genomic:     117470
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52673):
CTCTGATTTTGCTGTAGGTGGCAGGTAAGTAAACTATTAAATTAGTCTTGAAAGTGTTTGGAGCTTTTGCATAGAGGTGAATCTAGCAACTTGTTTACAA
Y
TATGTTAATACCGTTGTTAGATGTTTTCTTTACCAAGAATAGGAGCGGCAGTCCTTCCTGTGTGATAATGCTTAGCTGAAAAGACAGACAGCAGCCTAGG
Celera SNP ID:            hCV3127554
SNP Position Genomic:     91063
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,10)   caucasian(C,5|T,11)   total(C,21|T,21)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52674):
GCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCTGATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTTCT
A
AAAAAAAAAAATACAAAAATTAGCCGGGCATGGTGGCATGCGCCTGTAATCCCAGCTGCTTGGGAGGCTGAGACAGGAGAATTGCTTGAACCCAGGAGGC
Celera SNP ID:            hCV26124299
SNP Position Genomic:     103837
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,9)   total(A,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52675):
ACCACATGATTGTTCTAAATGCTGTTTTCTAATTCTCTTCTCCAGGGTGTAGACGTGGATATCTCGTTTAGTGTATCAGAGCCCAGTTAAGCAAATGGCT
R
ATTTTCTCTGGAATTTGGGGTCTAGTTACTTTTTAGTGTTACTGACTTTACACAAGGTTTGGAAAACAAGCCAGTTCAGTGATTTTCTTTTCCTCACTAT
Celera SNP ID:            hCV25473752
SNP Position Genomic:     104196
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,9)   caucasian(A,17|G,19)   total(A,36|G,28)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52676):
GGTGGAAAGGGAGAAAAGGGAGCTTCTTGGGTGATGGAAATCTGTATTTTGATTGGGGTGTTGGTTATGCAGAAATGCATTTGTCAAAACTCATCAAACT
R
TATGTGGATTCTGTGAACTTCAGTGGGTGTAAAGTATATCTCATTTTTTAAAAAAGTCCATAAAATCTTGATCTGTGCAGTTCTTTTAAAAATATCATTG
Celera SNP ID:            hCV3127481
SNP Position Genomic:     117061
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52677):
AAAAGACAGACAGCAGCCTAGGATATTTTCACTGTGAGATCTTCTTGTTGTTCTGGAAACTAAGCATGTAGGTTTTCCAAAACCTTGTCAAATCCACACA
Y
TTAGTGAATTCTTATTGACAATTTAAGTGCAAGGGCACTGTGAAGCACTTGAGGAAGGGTAAGACTCACCTTATCCTACGGAGAAGTCCTGACCTTCTCG
Celera SNP ID:            hCV3127555
SNP Position Genomic:     91242
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52678):
ATAAAAATCAGAACAATGGCAGGCACAGTGTTGGAAAGGTAGAGTAGAGATCGGGTGGAAAGGGAGAAAAGGGAGCTTCTTGGGTGATGGAAATCTGTAT
Y
TTGATTGGGGTGTTGGTTATGCAGAAATGCATTTGTCAAAACTCATCAAACTATATGTGGATTCTGTGAACTTCAGTGGGTGTAAAGTATATCTCATTTT
Celera SNP ID:            hCV3127482
SNP Position Genomic:     117008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52679):
AACTGTACCCAATGAGAAATCAGGCAGAATTTTTGGAGTAGGACTCTGGTAAGAAAACAGTGGGCCAGGAGGATTAATGTGCAAACAGGGTAAAAATAGT
R
TACAATTGAGGGAATTTATATTCCTGTTATGATGCTGGATTAGGCAACAAATACATGACATTAAGCTGGTGGCAGCAGAATGGAAAGGAACATATAGATG
Celera SNP ID:            hCV3127556
SNP Position Genomic:     91907
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;(G,-|A,-)   JBIC-allele(A,586|G,911)   total(G,911|A,586)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52680):
CCTCCCGGGTTCAAGCGATTCTCCTGCCTCGGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACCACACCCAGCTAATTTTTGTATTTTCAGTAGAG
W
CGGGGTTTCACTATGTTGGCCAGGCTGGTTTTGAACTCCTGACCTGAAGTGATCTGCTCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
Celera SNP ID:            hCV3127483
SNP Position Genomic:     115690
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52681):
TATTTAGTGATCAGGAGAATGGTTGGTACCATTAACAAAATAAAGAAGATGAGCTAAACTGAAGAGTTTGGTTATACATATGTAAAATTTCAGGTCATGG
K
GGACATCAAAGTTTGTGCAGCAGTCAAGGATAAGAGCTTGAGAGAAGATGAGAGCTGGAGATCTAAATTTGGGACTTGTCCTGCCACACTATCAATGATT
Celera SNP ID:            hCV3127557
SNP Position Genomic:     92157
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;JBIC-allele(G,500|T,765)   total(G,500|T,765)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52682):
AGCACATAAATAAAGCACTCCTTGATCTTCCCAATAACCTTATGAAATAGGCATTGTCATCATCCCTGTTTTACAGGCGAGGCACAGAGGTTAAGTTACA
Y
TGGTAAGTGACAGGGAAGGGTTTCAAACCCAGGCAGCCTGGCTTCAGAGTCCATGCTTTTCTGAACCACTATATTCTGCTACCTCTTGACACACAGGTTT
Celera SNP ID:            hCV3127558
SNP Position Genomic:     92697
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52683):
AAGCCAAGATCACGCCACTGCACACCAGCCTGGGTGACAGAGCGAGACTCCATTTCAAATAATAATAATAATAATAATAATAATAAAGTAAGCATTACCT
R
AATTTTACTTATGTCCCTATCAGATGGTTGTTTCATGGCTTATTTTTTGTTTTATCTGTATAGTCATAAACAGGAAGCTGATGACATTGTTCGAGTGGCA
Celera SNP ID:            hCV3127485
SNP Position Genomic:     114928
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52684):
CAAACCCAGGCAGCCTGGCTTCAGAGTCCATGCTTTTCTGAACCACTATATTCTGCTACCTCTTGACACACAGGTTTGACTTCAGGAATTGATCCTACAG
R
TAGCCTCAGAAATTGTTAGGGACTTTCTTTTCATACCTGGTTAATCCCTACCCCTGTTAAGTAAAGCTACCTTGTTTAATTTTTTTTATCCTTAAAAATT
Celera SNP ID:            hCV3127559
SNP Position Genomic:     92821
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52685):
CCCAGCTCATTTTTGTAATTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTGAAACTCCTGACCCCAAGTGATCCACCTGCCTTGGCCTC
Y
GAGAGTGCTGGGATGACAGGCGTGAGCCACCATGCCAAGCCAAAAGTGTCTGTTTTCTTATCTCCTTAAATACCATACTCTCCCATTCTCACCAAACTAA
Celera SNP ID:            hCV11630736
SNP Position Genomic:     32304
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52686):
CAGACTGGGATTAAACAAGTCTAGGCTTCTAGACAAAGAAGAAACAGTGTTTTCTTATCTTTTTGAGTGTACTGAAGCAGAAGTTAACTCTTTGCTTTCA
S
ATGTGTCCCTTATCATCGAGAATTGCTGGTGGTCCTGTATCATTTTATTATAGGAAGGAAGGATGGACACCAGAGAGGGTGGGGAATTTGGTTTACAGGG
Celera SNP ID:            hCV324990
SNP Position Genomic:     74362
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52687):
ATGTAAGTGTTTTGGCACTGACTTTTTTAAATTATGAAAATGAAACATGACATTGTAAATTCAAACAGTAAGTGTAATGACAAGTGAGTTTCTTTATCAC
Y
AGCTGCTAAGCTCCATGCCCTAGAGACCACCCTTCACAATTTCTTACATTAATATGACCCTCTAGAAATTTTTCATGCATACACATGTGTATATAAAATT
Celera SNP ID:            hCV28997539
SNP Position Genomic:     9500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52688):
GGGAAGGGATAGCATTAGGAGAAATACCTAATGTAGATGACAGGTTGATGGGTTAATGGGTGCAGCAAACCACCATGCACATGTTGTGTACCTATGTAAC
R
AACCTGCACATTCTGCACATGTATCTGAGAACTTAAAGTATAATTTAAAAAAAAATGTAAAGAAAAGCATCTGCCACAGAGCTTGGGCCAATAAGTTTGG
Celera SNP ID:            hCV471565
SNP Position Genomic:     49502
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52689):
TTGGTATATAGCTTTTCTGAAGTTATGCATTACAGTTAATTACATTCTAAGAGTGCATTATAAGGTTAATTTCTTGTTTTGATACCAGGGTTTGTTAAAA
W
GGAACAATATTTTCTAGAAAAGCTTTAAAGTAGTCATATTCTTACAGATTTTAAATCTAGGACTTTGTCTAACTATTGATGATTTATTGAGTAGCTCTGG
Celera SNP ID:            hCV471566
SNP Position Genomic:     49721
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,8)   total(A,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52690):
AGCACATATGGGAGCTCACAGAGAAGGAGGAGGGTGAGGACAGAGTATTTATCCCATGGCCCCTTCTCTATGGGGTTCTCTGGATCGATGACCTCAAATC
Y
GTCATTGATGAGCCAAATCAGCTCCTGGTAGGCCTTCTCCAAACAGCTCTTTTTGCCTTTAGGTTCTGCTAGCTGCCCCACCCACCACCTGAGGCCCAGG
Celera SNP ID:            hCV28009825
SNP Position Genomic:     105408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52691):
CAATGAGAGGTTTCAATTTCCTAAGTTAGAAAAGGGAAGAAAATCTGGAAATTAGATTTGTTGGGTCATTGGGAAAAAAGATTTAAAGAAGATGAAAACA
W
ACAGTCAAGACTCTTTGCCTCATTTTTCCCTTACAGGCTTCACAGGCTGCTCAAGAAGCCGAGATCAATGCCAGAAAAGCCAAAAACTCTGTTACTAGCC
Celera SNP ID:            hCV25473901
SNP Position Genomic:     122958
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,35)   caucasian(T,40)   total(A,3|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:52692):
TCTGAACCACTATATTCTGCTACCTCTTGACACACAGGTTTGACTTCAGGAATTGATCCTACAGGTAGCCTCAGAAATTGTTAGGGACTTTCTTTTCATA
Y
CTGGTTAATCCCTACCCCTGTTAAGTAAAGCTACCTTGTTTAATTTTTTTTATCCTTAAAAATTCAGACATCCATTACTTAATCTTGCTCAGTTCCCCAG
Celera SNP ID:            hCV3127560
SNP Position Genomic:     92857
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,7)   caucasian(C,13|T,13)   total(C,24|T,20)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;(C,-|T,-)   JBIC-allele(C,567|T,932)   total(C,567|T,932)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52693):
ATACCTGGTTAATCCCTACCCCTGTTAAGTAAAGCTACCTTGTTTAATTTTTTTTATCCTTAAAAATTCAGACATCCATTACTTAATCTTGCTCAGTTCC
Y
CAGTTTACACTTTTGAATGGTAAAACTTACTTCTTTGTGTACATAGTTTTTCTGTGTGCATTTCTGGGACTTTGCAGCTGTTCCATTTTTTGGAGTATCT
Celera SNP ID:            hCV3127561
SNP Position Genomic:     92954
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,13)   caucasian(C,20|T,20)   total(C,45|T,33)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;JBIC-allele(C,567|T,934)   total(C,567|T,934)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52694):
GCTAGGCTGGAGTGAGTGATCTCAACTCACTGCAACTTCCACCTCCTGGGTTCAAGTGATTGTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTG
Y
ATGCCACCATGCCCAGCTAACTTTTGTGTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCT
Celera SNP ID:            hCV3127562
SNP Position Genomic:     93813
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52695):
CAAACTACGTGCATCAGAGTAAGAAATTTAATTTCTCTGACTGTAGGTTCCTTGATTATAGAGATGTTGTAAAGATTAAATGAGATGACACGTTGGAAGT
K
TCTGGCACTGTGTAGGGGACATCACATGTTCCATGATGGCAGCTGTTATTGTTCTGGTACCTGAAGTGGGAAGGGGAGCAAGGAAGGAAACGTGAGGATT
Celera SNP ID:            hCV9064430
SNP Position Genomic:     42517
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,8)      total(G,6|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52696):
CTAGGCTGGAGTGAGTGATCTCAACTCACTGCAACTTCCACCTCCTGGGTTCAAGTGATTGTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGC
R
TGCCACCATGCCCAGCTAACTTTTGTGTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTG
Celera SNP ID:            hCV3127563
SNP Position Genomic:     93814
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52697):
GGCGGGTGGATCACCTAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCATCTCTACTAAAGATGCATTAGCTGGGCATGGTGTGTATG
Y
GTGTAATACCAGCTACTCAGGAGACTGAGGTAGGAGAATTGCTTGAACCGGGAGGCGGAGGTTGCAATAAGCCAAGATCACGCCACTGCACACCAGCCTG
Celera SNP ID:            hCV3127490
SNP Position Genomic:     114759
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52698):
ATTAAATTTAAAAGTAGTTTTTCTGAAGAATTATAAACATTTTCTCTTATAAATGTATACCAATAATTTTTTTGGAAAATATTCTCATCTCAGTTTTAGA
R
TGCTATTCATAAATTCAGCCCCACTGAAATGATCACAAAATTCCAAATGAATGACGTTTTCTAATATTTGTAGAATTGTTGCCCATGTTAGTATATGTAC
Celera SNP ID:            hCV3127491
SNP Position Genomic:     114495
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52699):
CACCTGCCTTGGCCTCCTAAAGTGCTGGGATTACAGGTGGGAGCCACTGCGCCTGGCCGCACAAGATTTTTTCTCAAAACTATTTTTTCTTTATCTCACT
R
AAGAGTACAACGGGGAGAATTTTCCCACTCCCCTGTTGGAGAGGTGGGTAGCTTTGGGAAGAAGAATAGGTCCTAGTATTCCTAGAAAAAGGTAAAAATG
Celera SNP ID:            hCV3127565
SNP Position Genomic:     94009
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52700):
AAATATCAAATGTAAATAAAAGTGTTGATAGTAGCTGAAATTTTGAAATTTGCTTTCAACCATCTTTTCCTAAATGTGAATAGCTATTACTGTGTCTACC
Y
TGTTTCTTCTTACGGAACAATGAAATCACTAAGAGTAAGTGAACATTTTACAAGGAAACATGCTGATAAAGTTGGCAGAGATACGTCATTGTCCCTCAGT
Celera SNP ID:            hCV28997540
SNP Position Genomic:     30793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52701):
TGAGAATCTAATGCCTGATGATCTGTCACTGTCTCCCATTGCCCCCAGATGGGGCCGTCTAGTTGCAGGAAAACAAGCTCAGGGCTCCCACTGATTCTAC
W
TTATGGTTAGTTGCATAATTATTTCATTATATATTACAAATGTAATAATAATAGAAATAAAGTGCACAATAAATGTAATGTGCTTGAATCATCCTGAAAC
Celera SNP ID:            hCV28997541
SNP Position Genomic:     55537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52702):
ATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGGTATGGTGGTGCATGCCTGTAATCCCGGCTACTTGGGAGGCTAAGGCAGGAGAACCAC
N
TGAACCCAGGAAGCAGAGGTTGCGGTGAACTGAAATTGTGCCATTGCCCTTCTGCCTGGGCAACAAGAGTGAAACTATCTCAAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV3127494
SNP Position Genomic:     113667
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52703):
AACATTTGTACACATGCAGAAGAAAAATCTCTTAGAGACCCCACTGTGTCTCCCCTTACCATCTAATACCTTGTCCTAAATACTTAAACACAGAAAAATA
K
TGTAACTTTATACCCAGGTACTTAAAGAAGGACCTCTTGATTTTAGTTGTTACCTAGTGACTTTTCACTGCGGTCTCTTGAAGTAGCCAAGATTGCGTTT
Celera SNP ID:            hCV28997542
SNP Position Genomic:     59512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52704):
GTGGTGGTGCACGCCTGTAATCACAGCTACTCACTTGGGAAGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGTCAAGATTGC
R
CCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAACAAAAACAAACAAACAAATTATTGGCAGAAACCCCGAGAAGGGACCACTATC
Celera SNP ID:            hCV3127568
SNP Position Genomic:     94576
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52705):
AAGGGAGTACAGAAATTAGGGGAAAGGAACAGGATAATAAGTTTTTAAAAACAAACAATTTTGAAGATAAGTTTTAGCCAATAGAAACTAGCCCTTCAAC
R
GGCAATAATGAGGACTGAGTTTTTCAGCATCTGGAGTGACTGCACTGTACCAGACCATCTTGGTATATTCCTTATGTGCTTAGTTGTTCTGTAGTGCTTC
Celera SNP ID:            hCV28997543
SNP Position Genomic:     79475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52706):
CTGTAATCACAGCTACTCACTTGGGAAGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGTCAAGATTGCGCCACTGCACTCCA
R
CCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAACAAAAACAAACAAACAAATTATTGGCAGAAACCCCGAGAAGGGACCACTATCTTAACTCACGACTG
Celera SNP ID:            hCV3127569
SNP Position Genomic:     94590
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52707):
AGGCCCCTGGGGTTTGTAGCAAGTCTGTTACTGGCAGTGGAGTGCTTCTTCAACTAAATTGACTCCATGCATCTTTTTATTTGTCCCTAAATATGGGGCA
R
AAAAGCCACATTGCTCATAGTTGGCATGAAACAGTTATTAAAAACTGGATAAAAACCAAGGGACATCTGGGTTATTTCTCTAGCTTTGTTCCTTCTATGG
Celera SNP ID:            hCV3127496
SNP Position Genomic:     113262
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52708):
CAGCCCTGGCACCTCTCCTGAGCTACCTACTTGCCATTTCCACTTGGATGGTGGGCTAGAAGCCTTCCACTTGCCTTTCCACATCCCTGTTCACCTTTCT
S
CACCCTGACTGAGACCTGCATGCACTACATCAAATGTCAGGCTCCATTTGCATTCAGACAGCAGAAAGCACATATGGGAGCTCACAGAGAAGGAGGAGGG
Celera SNP ID:            hCV28997544
SNP Position Genomic:     105241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52709):
CGTGCCCATGTAGAGAACACAGAGCGGTTGATTGAAATCGCATCCAGAGAACTTGAGAAAGCAAAAGTCGCTGCTGCCAATGTGGTAAGTGATTGCAAAC
R
TCTGAGGTGGGGATGGGGGAGGCCCCTGGGGTTTGTAGCAAGTCTGTTACTGGCAGTGGAGTGCTTCTTCAACTAAATTGACTCCATGCATCTTTTTATT
Celera SNP ID:            hCV3127497
SNP Position Genomic:     113142
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,19)   caucasian(A,19|G,19)   total(A,28|G,38)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;JBIC-allele(G,560|A,933)   total(G,560|A,933)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52710):
GGATGTTAAGTTTGAGATACCTATCAGAGAGCTGAGTGGAGGTATCACGAAGGTAATCTGACACTCAAGGGAGAGGTCAGAGCTGAAGTCTCATCAGCAT
R
CAGTCTTTAAAGTCAAAGGAATGGCTCTGAAGGTTTTTTTTGAAGCTGGAAAAATAAACTAGCCACGTCTTCTCTTCAGAAGTAGACATGCATGGAGTGG
Celera SNP ID:            hCV28997545
SNP Position Genomic:     110846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52711):
CTTCTGCAAACCATTTTAGATGTTGACCAGAATTTGATGGATCGCCTACAGAGAGTGAATAACACTCTGTCCAGCCAAATTAGCCGTTTACAGAATATCC
R
GAATACCATTGAAGAGACTGGAAACTTGGCTGAACAAGCGCGTGCCCATGTAGAGAACACAGAGCGGTTGATTGAAATCGCATCCAGAGAACTTGAGAAA
Celera SNP ID:            hCV3127498
SNP Position Genomic:     113001
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(A,4|G,36)   total(A,6|G,68)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   ;WIAF-CSNP-MITOGP(4(A,4|G,36)   total(G,36|A,4)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52712):
GGTGCCCAGCTATTCAGGAGGCTGAGGCAGGAGAACTGCTTGAACCTGGGCAGCAGAGATTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGG
Y
GACACAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAATTACCCTTTCTTTCTAAGAGTAATCAGTTGATCCTGTCAGGGTCAACAACTTATTAAGGAAA
Celera SNP ID:            hCV11638232
SNP Position Genomic:     235
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 TFBS


Context             (SEQ ID NO:52713):
AGGGCAGTTTTGTGAGATGTGCCTCTCAGGTTACAGAAGAGAAACTCCTAATCTTGGACCATACAGTCCATGTGTGCTTTGCGCCTGCAATGGACACAGC
R
AGACCTGTGATCCTGAGACAGGTGAGATGATCTTTGGCAGCTCTTAGACCTAACTTCTCTTTAGCAATTGTGTAGAAAGTGCTCATTGTCTTATATACTT
Celera SNP ID:            hCV15852069
SNP Position Genomic:     104503
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,1|G,39)   total(A,3|G,73)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52714):
TTTCTCTTTAGTTTCCCCAGAGTGTTGCCGAGCTAAGGTTCAATCAGAGGACTCTTAGATACCTTAATTTTTTTTGGCTTTATTTTTGAAGAAAGGGATC
R
TCGTTCCCATTAGGACATGTATTTACAATGTGTTTTCTTTTGCTTGCCCACCACACTCTACCACTACTTCTAGAACTTAAAATTCTAGGATTGTTTTTTT
Celera SNP ID:            hCV9066112
SNP Position Genomic:     20359
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52715):
GACCGAATGCCCAGTGGAGAGGTGACCTACAAATACTCTTTAAGTTGATCAGCTAGCAAACATTTGCCAGACTTCTTTCTTTCCTACAGCAAATTATTGC
W
TTTTCCTGTCCTGATGAGGCAACAATAGAAAGAACAGAGAAAGAACAGTGTAGTCAGTAGAAAATGCAGTGATACAAAGTTGTAACTGTGGTTTTCTGGC
Celera SNP ID:            hCV15843823
SNP Position Genomic:     87957
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,5)      total(A,5|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52716):
TTGTTATACATTCTAGTATAGTAATCCCTGAGCTATTACCTATTAAAAGGCGTGTATTTCCTTTTAACTTCTGCTTTATGTTATAGTTAGAGCTACACAC
R
TGTACACCACCCACCCCACTTGTAAGTTATATATGTTGTAGATTATATAATTTATGAGTTTTATTTTGGGATGGTAAAGGAGAAGCATTTTAAAATATTT
Celera SNP ID:            hCV226672
SNP Position Genomic:     31217
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52717):
TCACGCTAAGCCTTCAAAATCCAGTGTGTATCTCACGTTTATAGCACATCTCAATTCAGACTCACCAGCCACATTTAAAGTGCTCAGTAGCCACATGTGA
C
AGCAGCTACCAACCTGGCAACACAGGTCTAAAGAATCTCTTTAGGTTGTTTATATTTTAGTATTTCTCTCAGGTGATTTGTGTCTTTTGCCATCTCTGTC
Celera SNP ID:            hCV11632422
SNP Position Genomic:     107864
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|-,7)   total(C,4|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52718):
AATTCTGTTGTCACCTAGGCTAATAATTACCAAGTGCTCACCAGTAACAACTAGAATCTTCTCAGTAGGTTTTTTTTTTTTGGCTTTTTTTGTTTTAAAT
R
TATATGGCCAGTTGATTAGTATGAATTATTGTTTTGTACTTGCAAGTCAATACAAGGTAAAATAGATAATTGTTTATGCAGCCAAGTATTCTGTTTTAGT
Celera SNP ID:            hCV226673
SNP Position Genomic:     27737
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52719):
TCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAACAAAAACAAACAAACAAATTATTGGCAGAAACCCCGAGAAGGGACCACTATCTTAACTCAC
K
ACTGTTTCCACTGAACTGCCGAGAGGAGATTTTCTTATTCATCTTTTCAACAAATCCTAAGATTTGCAAGTAAAATTTACAGCCTCCTCTAACATTTGTA
Celera SNP ID:            hCV3127571
SNP Position Genomic:     94686
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,5)   total(G,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52720):
TGCATGACACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGTCGGGGTTTTACCATGTTGATCAGGCTTGTCTCGAACTCCTGACCTCGTGATCTGCC
Y
GCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCCAGTTGAAACTTTTTAAATTGTTAGGAGAATACCTACAGAGCATTTT
Celera SNP ID:            hCV465596
SNP Position Genomic:     17100
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52721):
TGGTGTCTCAATGCTTAAAAAAAAAAAAAGATCCACTAAAGCCTTCTTCTTGTCATTTGAAGGTTATTAAAATGTAATACTTCCCTTGTACATTCTTAAT
R
CTGATTTCCAGTGAACCCAGGGATTATTTCTCAGAGAGGAAATTCTGTTGTCACCTAGGCTAATAATTACCAAGTGCTCACCAGTAACAACTAGAATCTT
Celera SNP ID:            hCV226674
SNP Position Genomic:     27596
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52722):
GTTGGGACAGTGTGGACAGTGGTGTTATTCTGCTTTACCGTCTCAGAACATCAGATCTTCAGGTGGGTTGGGCTTGGTGGATTGAGGGATAAGCTAGGGC
R
TCTTGAGGGAAGAGAAATAGCTAATGAAGGAAGGAAAAGGGCACTTTAAAACTAACTTAACAAAACTCTAATTTTTGGTGGCAATAACTCAAGTTTCTAA
Celera SNP ID:            hCV3127572
SNP Position Genomic:     95312
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52723):
CTGATAGACCACTGCTTTAGGATCTCTGGATTTCGACTGCTTCTGTTAAAAGGGCTTTACACTTAAGAACAGAGGATTTTTTTTTTAATTAAAAAAATAT
R
TATGTTTTAGACAGGGTCTTGCTCTGTCATCCAGGTTGGGGTGCAGTGGCACGATCCTATTTCATTGCAGCCTCAAACACCTGGGCTCAAACAAACCTCC
Celera SNP ID:            hCV465597
SNP Position Genomic:     17782
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,12)      total(G,3|A,12) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52724):
GGACTAAATTAAAAAAATATATCCAGGCCATGGCTTTGGAAGGGTGTTTGGAAGAGCTGTGTTCACTAATCATTGGAGAAAGGCCACGGAGCTATTTCCT
S
AAGATTTAAGACATCCCCCTTTTGTGGACAGTAGTAATAGAAGACCTGTCTGTTCTGTTGAACTTTCCTTTAAGAACTGGAAAATAACTGAAACCAACCA
Celera SNP ID:            hCV226675
SNP Position Genomic:     27247
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,13)   total(G,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52725):
AGGAAGGAAAAGGGCACTTTAAAACTAACTTAACAAAACTCTAATTTTTGGTGGCAATAACTCAAGTTTCTAAAAAAGTTTTCAGTTGTAATACTGTACT
R
TGAAATAACTGATCATAAGAAAGAGAGAAAAAGAACAAAAGGGGCTGAGTATGGTGGCTCACACTTGCAGTCCCAGCACTTGGGAGGCCAAGGTGGGAGA
Celera SNP ID:            hCV3127573
SNP Position Genomic:     95440
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52726):
GTGTTTTAAACCATTAGGTCAGTAACTTAGAGCTGGGTACTTGACTCGTAAAACGATAGGCATTTAAATATTCTTTGGCTCTTTTGATGAATCAGAAGAT
K
CAATTCTAAACTGACAGAGAAACCTAGGACTAAATTAAAAAAATATATCCAGGCCATGGCTTTGGAAGGGTGTTTGGAAGAGCTGTGTTCACTAATCATT
Celera SNP ID:            hCV226676
SNP Position Genomic:     27120
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,8)   total(G,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52727):
CACCTGTAGTCCCAGCTACTTGGGAGGCTAAGGCAGGAGGAGGATCACGTGAGCTCAGGAATTTGAGGCTGCAATGAGTTATGGTGACACCACTGCACTC
M
AGAGTGAGACCCTGTCTCCAAAAAACAAACAAATCAAAATGTGTTCATGATTTTGGTTAGAAGAAGTCTGCATTAAAAAAGAAAAATATATTCCAAAAAA
Celera SNP ID:            hCV3127574
SNP Position Genomic:     95866
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52728):
GGTTATCTAAATAAGCAGATAAAGTTTAATAGGAAATTTCATTTCATTGAAAGGGTGAATTTTGACATGTTCTAACAATTTGAGTGAATGGATTATGAAA
Y
TATGGTAACAATATTTAGAACTACAGATAGGGCATTACATAAATGTTTAAAAGAAGAAAAGAAATAGGGTTGAATTCTGATAAAAAGTGACCTATTAGAA
Celera SNP ID:            hCV226677
SNP Position Genomic:     26188
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52729):
TATAGCTACTTAACAGATCACCCATTTGGAGTTGAGGCTTCCCTGTACATGGATGTTTCTGGAGGATCTAGATTTCTTTTTAATTCTGCTTTCATCTGTC
S
TGGCACTAATTTTGACCCATATGTCTCAAGTTACCCCAGTCTAGATATATAAATAATCTGGCACTTTGGAAGTTAGTGTCTTAATGTATTTGACTCATCT
Celera SNP ID:            hCV3127575
SNP Position Genomic:     96270
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,8)   total(G,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52730):
TGTATTGTTGTCACACATTATGAAAATCTCCTGCTGTTTAGGGCTTTTTGAATTGAGAATCACAGATGAAGGATTATGGACTTATATCACATTTGATTAC
R
TAAGTTATATCACTTTTACAGATAGTGATAAAACTACTGAAGACTATATAAAAATGTGAACAATAGGCATCTGGTAAATTGGTTATCTAAATAAGCAGAT
Celera SNP ID:            hCV226678
SNP Position Genomic:     26007
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52731):
TTTATTGACATCCTGTTGGGTTTTGTTGGTGGTGGTTTTTTGTTTGTTTGTTTTTGAGACAGAGTTTTAGCTCTTGTCGCCCAGGCTGGTGCCCAGTGGC
R
TGATCTCAGCTCACTGCAACCTCCGCCTCTCAGGCTCAAGCGATTCTCTTGCCTCAGCCTACCAAGTGGCTGGGATTACAGGCATCTGCTACCACACCCG
Celera SNP ID:            hCV3127576
SNP Position Genomic:     96711
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52732):
GATTTAGGAAGATGGGTGTATGTTACATAACACCCTCAGCAGGACCCCCATCTCCAAGCAATTGAATATATCTGCAGTAAAATGTATTCGTACGAAACAG
R
CTGATGAAAGGCTATCATAGCCTCACACTAGGTCATGTATTGTTGTCACACATTATGAAAATCTCCTGCTGTTTAGGGCTTTTTGAATTGAGAATCACAG
Celera SNP ID:            hCV226679
SNP Position Genomic:     25871
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52733):
CTTTGACTGTAAAAGGTTAACTGCTTTGTGAGTTCTTCCTTGTTGATGATTTTGTTTAGTCTAATCTCCTTAGAGTGCTGAAATATTCTTAGCATGTTTG
Y
GTGTGTACAGAGATGCACAGCATTCTTAGTCTAGCCCATTCTTCAAGAGTTTAACCTTTATATTTGTCATTTAGGCCTATATATACTTAAATTCTAGACA
Celera SNP ID:            hCV3127577
SNP Position Genomic:     97674
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;SC_12_T(C,5|T,15)   SC_12_C(C,6|T,10)   SC_12_TT(C,5|T,12)   SC_95_C(C,71|T,106)   total(C,87|T,143)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52734):
TGGTTTTTATTACCTTTGTGACCATCAGGAGATTGCATACTGGTTCTCAGGCATTGCTTTTAATTACCAGTTATCTTTCTTTAACACATTGATTTTACTT
R
CGTATCTGGCCGAATTTTTGTTTGACAATAGGCATTTTACATTTTAGGCTCTCTAAGCACACAGTGTGATAGTTACGGCAGATGCAGCTGTAAGCCAGGA
Celera SNP ID:            hCV3127578
SNP Position Genomic:     98052
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,9)   caucasian(A,11|G,13)   total(A,32|G,22)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,9)      total(G,5|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52735):
GGTTTTTATTACCTTTGTGACCATCAGGAGATTGCATACTGGTTCTCAGGCATTGCTTTTAATTACCAGTTATCTTTCTTTAACACATTGATTTTACTTA
M
GTATCTGGCCGAATTTTTGTTTGACAATAGGCATTTTACATTTTAGGCTCTCTAAGCACACAGTGTGATAGTTACGGCAGATGCAGCTGTAAGCCAGGAG
Celera SNP ID:            hCV3127579
SNP Position Genomic:     98053
SNP Source:               Applera
Population(Allele,Count): african american(A,11|C,23)   caucasian(A,19|C,19)   total(A,30|C,42)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,9)      total(A,5|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52736):
CCTCTCTACAGAATTCATCTAAGGTGAGATCTGATGGATACAAAGGAATGAGCCGAGTGAAAAGTAATGGTAGGTTTGTTCCAGGCAGAAGGAACCTGGT
R
TACAGAGGCCTGAAAGCTGGAGAGTGGCTGGAGCCTGCTGAGTGCAGAGGGTGTGTTCTGTTTTTTAAGACGGGAGAGGTTGGTACGGACAGGTTATATG
Celera SNP ID:            hCV25474579
SNP Position Genomic:     110328
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,6)   caucasian(A,22|G,10)   total(A,42|G,16)
SNP Type:                 INTRON


Context             (SEQ ID NO:52737):
TCCTAAAGATAGATTTATTCGTAATGTATTTGAGATCAGACAAAAACATTGACCTGTAGGCAAAATAATTCAGTTGAAACTTTTTTCTGAGATGGAGTCT
Y
ACTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTAAGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAG
Celera SNP ID:            hCV11630755
SNP Position Genomic:     16884
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52738):
CTTTCTTTTTCTTACATTTTCATCTCTTTATCCCTCCTGCTCATGTCCCTTCCTCTCCCTCACCTTAAGCACAGCCTGCTTGGGTTTTTGGGTGTGTGTC
Y
TATAATAATATATCACTTAGTAAATTATAAGCAGCTTGAGAATAAAGAAGGTTCTATTCAGTCATAATGCTTAAGAGTGTTCATCAAATTATTTGGGTTA
Celera SNP ID:            hCV467776
SNP Position Genomic:     35323
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52739):
AAACTCTGCTAATTGATATTCTGGTCATACTAAAAGGCTAATCTATCTATCTTTCTTTTGTTCTTTCTTTTCTTTTTTTTTTGACACAGTCTCGCTCTGT
Y
GCCCAGGCTGAGTGCAGTGGCATGATCTCGGCTCAATGCAACCTCTGCCTCCTGGGTTCAAGCAGTTCTCATGCTTCAGCCTCCCGAGTAGCTGGGATTA
Celera SNP ID:            hCV467777
SNP Position Genomic:     34955
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52740):
TCCTGCTCATGTCCCTTCCTCTCCCTCACCTTAAGCACAGCCTGCTTGGGTTTTTGGGTGTGTGTCTTATAATAATATATCACTTAGTAAATTATAAGCA
R
CTTGAGAATAAAGAAGGTTCTATTCAGTCATAATGCTTAAGAGTGTTCATCAAATTATTTGGGTTAAATAAAACCCTTTATTTCCATTTTCTTCTCCCTT
Celera SNP ID:            hCV467778
SNP Position Genomic:     35357
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52741):
AGGCAGCATCCCTCTGACAGGGGGGCAGTTGTGAGGCCACAGAGTGCCTTGACACAAAGATTACATTTTTCAGACCCCCACTCCTCTGCTGCTGTCCATG
W
CTGTCCTTTTGAACCAGGAAAAGTCACAGAGTTTAAAGAGAAGCAAATTAAACATCCTGAATCGGGAACAAAGGGTTTTATCTAATAAAGTGTCTCTTCC
Celera SNP ID:            hCV11455644
SNP Position Genomic:     125498
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:52742):
ATTTCCTTTTTCTCTAATTCCTGGAAATCATCCCAGTAAATTTCAATCAACCAATTAATTTGGTGTTTTATCCTGTTTGCATGTGCACTTTAGCAAGCCT
Y
GTAATTAATACTGGCCATGAAGTTATTATTTATGATTAACTCAGTATAGTTTGCTTATTTCTATAAAAAGTCAAGCATCAGGCACTTGATCAAGAATGTG
Celera SNP ID:            hCV1927227
SNP Position Genomic:     130766
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:52743):
ATCTGGATAATGAGGTGAACAATATGTTGAAGCAACTGCAGGAAGCAGAAAAAGAGCTAAAGAGAAAACAAGATGACGCTGACCAGGACATGATGATGGC
M
GGGATGGTAAGAGGTTTTGGTATATTTGCTCATTGGCAGAAAGTGAACAGTGTTTAATAATAAAGATCCCCCACTTGTTGAGAAGAGTCTTTTTTATATT
Celera SNP ID:            hCV11455645
SNP Position Genomic:     120412
SNP Source:               Applera
Population(Allele,Count): african american(A,27|C,1)   caucasian(A,37|C,1)   total(A,64|C,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52744):
TTTAACACATTGATTTTACTTACGTATCTGGCCGAATTTTTGTTTGACAATAGGCATTTTACATTTTAGGCTCTCTAAGCACACAGTGTGATAGTTACGG
M
AGATGCAGCTGTAAGCCAGGAGTGATGGGGGACAAATGTGACCGTTGCCAGCCTGGATTCCATTCTCTCACTGAAGCAGGATGCAGGTAAAATATTTTCA
Celera SNP ID:            hCV11455646
SNP Position Genomic:     98131
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,39)   total(A,1|C,77)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52745):
TGTGTTCGGAAAAGTAAGATGATAATACAAGTTGAAAGTGGCATGGATGGATATGGTGGAACTTGAACCAAATCTGGAAAGATGGATAGGGCTTGGAAGG
R
GTGAAGACTAGAGAATGGCTTAAAGGTGAGACGTGGCATATGGATAATAGGGATGGCAAGACTGGAACAGAGGTTTCAGTTTACATTAGAGAACTGTAGG
Celera SNP ID:            hCV11455647
SNP Position Genomic:     71378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52746):
AGAAGCTCTTATTCAAAGAGAGCTGTGATAAGGTCGAAGCCTTGTAGAAGATATAATAAGCATTAAACACAGAAATATGTTTAGCTATTTACATTACAGA
Y
GACTAAAAGATTCCTACTGTTGTGGCCATGAGTAGGAGTTGTTATTGGAGTTCCAAGTTTGGATATGGTGAAATCGTCGTCTCTTTTCCTTTCTAATTAT
Celera SNP ID:            hCV16198799
SNP Position Genomic:     88901
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,23)   caucasian(C,18|T,20)   total(C,31|T,43)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,19)   caucasian(C,14|T,16)   total(C,23|T,35)   
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52747):
GTAATTCTGAGGTCAGTGGTTCAGGACAGCAGGGTAGTTCTCCACGCTGACATTCAGGGACTCATGAGTGTTTCCTGGAAATAATCTGGGATCCTTTAGG
R
TATCATTCTTATGTGCCTGGTTGAGGCTGGGTGATAGGCCCCTGTGCTTTCCAATTGGGAAGATATTGAGGAGTGTGTGCCTAAATCTTAACACTTGAAA
Celera SNP ID:            hCV226680
SNP Position Genomic:     24814
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,9)   total(G,9|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52748):
AAGGCAGTGGTTCCAAATCAGAGCTGTGCCTCCCAGACTCACCTGGAGCCTTCTGAAAACATAGATGTCTGCACCTCTGCACTTGCTTGTTACGTCTCCA
R
AGGTGATTTTGTTGTGCAGTCCCTAGGAAAGACTTAAAATGGAAATGCTGTCTTTGAGTGGTTATATGTAATACACCACCCCAAAACCTAATGGTTTTAG
Celera SNP ID:            hCV27845590
SNP Position Genomic:     89177
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,13)   caucasian(A,20|G,20)   total(A,41|G,33)
SNP Type:                 INTRON


Context             (SEQ ID NO:52749):
TGAAGAGTGGAAGTTTTCTCCCTTCTCTGATTGTTTTATCCATTTTTCATTGAATAGGCCATGCTCTTGTGATCCCTCTGGCAGCATAGATGAATGTAAT
R
TTGAAACAGGAAGATGTGTTTGCAAAGACAATGTCGAAGGCTTCAATTGTGAAAGGTAGTGCATTCTTTCTCTAGCTGCATTGTGTTTTCTGTTACCATA
Celera SNP ID:            hCV11632431
SNP Position Genomic:     99200
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52750):
TGTGAGACTCTGTCTCAAAAAAAAAAAAATCTGTTAACATGTAAAACAAAGGGCTGACTTGAAGAGTGGAAGTTTTCTCCCTTCTCTGATTGTTTTATCC
R
TTTTTCATTGAATAGGCCATGCTCTTGTGATCCCTCTGGCAGCATAGATGAATGTAATATTGAAACAGGAAGATGTGTTTGCAAAGACAATGTCGAAGGC
Celera SNP ID:            hCV11632432
SNP Position Genomic:     99141
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52751):
TCAACTATCACCAACCTGGTTCAAACCTCTGTTATCTCTCACCTGGGATTGCCTAATTGTTCTCCCTGCCTCACCTGCTCCCCTACAATGGCTCCAATCT
Y
AACATGAAAGCCAAAATGGTCCTTTCAAAATGTACCTCAGATTACACCACTTTTAAACCCTCCAATAGCTTCTTGATACACTAAAACCAAATCCTTTACT
Celera SNP ID:            hCV27498516
SNP Position Genomic:     105945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52752):
ACTTCTTTCTTTCCTACAGCAAATTATTGCATTTTCCTGTCCTGATGAGGCAACAATAGAAAGAACAGAGAAAGAACAGTGTAGTCAGTAGAAAATGCAG
Y
GATACAAAGTTGTAACTGTGGTTTTCTGGCACCTTTGCTAACTGTACACCCAGTCAGCCTGTCTTGAGCCATTTCCCCAACTGTAAGAATTGTGATGTTT
Celera SNP ID:            hCV27498517
SNP Position Genomic:     88027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52753):
AAAAAATTAGCCAGGCGTGGTGGCGGGCAGCAGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTG
R
GCCGAGATCGCGCCACTGCACTCCAGCGTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAATGACTTTAGGGTCCATTTTGTTCTATGTGTAT
Celera SNP ID:            hCV3127582
SNP Position Genomic:     98655
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52754):
GCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCGTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAATGACTTTAGGGTCCATTTTGTTCTA
Y
GTGTATTTCTTTTAAAAAAGTCTGTTGGCTGGGCGCCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCCGAGGCAGGCGGATCACAAGGTCAAG
Celera SNP ID:            hCV3127583
SNP Position Genomic:     98749
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52755):
CCAAAGTGCTGGGAGGCAATTCACCTTCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTGAGCCACTGCACGTGCCCAGCCCTCTAATCTGGTCTTCT
K
TGAGGACTTGTCCTGTGCAGATATCTATTCCCATTGTTTTAACAAAAATAGCTTTCATTGAAATTTTACATATGATTGTTTATGGTATTTAAATTAGTTT
Celera SNP ID:            hCV11632509
SNP Position Genomic:     62198
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52756):
AATATTTTTAAAAATAAAATCAGTGACTCTTTGAGGGCTTTTTGATGGTTGGCAACACTTTGTATTATTTAGCATGCATAGTTTTTGTAGTTTGGCCTTT
Y
AATTTAATGAAAATGTACTTTTGGCTTTAGAATTTATCTCAATGAATAGTGATTACAAATGTTATATAAATAGTAATAAAGTAAAATATAGTTTGAGTGG
Celera SNP ID:            hCV3127588
SNP Position Genomic:     99635
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52757):
AATGCTTATCTTTCTCTCCGTCCTCTTTGTCTCTGCCTTACTGTAAGTTCCTTACTGTAAGTTCCCATTGCATTTCACCTGGATTGTTGCCACAGCCTCC
W
AATAAACTGGTGGGCTTTCTGCCTCCAGTTTTGCCCTTTATATTTGGGCAGCCATCCTTTGGACTGAGTGATGATTCTAAAATGCAAATCTGATCATACA
Celera SNP ID:            hCV11630769
SNP Position Genomic:     11934
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52758):
AGCCTTCTGAAAACATAGATGTCTGCACCTCTGCACTTGCTTGTTACGTCTCCAAAGGTGATTTTGTTGTGCAGTCCCTAGGAAAGACTTAAAATGGAAA
Y
GCTGTCTTTGAGTGGTTATATGTAATACACCACCCCAAAACCTAATGGTTTTAGATAACTGTGATTTATGATTTCTCATGATTCTGTGTTAGCCTGGGTC
Celera SNP ID:            hCV27839687
SNP Position Genomic:     89223
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,21)   caucasian(C,20|T,20)   total(C,33|T,41)
SNP Type:                 INTRON


Context             (SEQ ID NO:52759):
GAATCAGACCCTTCAGGGTTGCAGCCTGGGAACTTCTGTTTTCAAAGCTGCTACTTAGTGTCCATACAGTCCCAGGCTGGAGAGCACTGGTAGCAGTTAA
R
TTAGGAAAAGAGGTTCTGAATAGCACTCATGAAAATTACTTGAACCTTAGGGGCTTAATAACCCTTAACATTCCATCTTAGTAACCCTTACCATTCAGTT
Celera SNP ID:            hCV1927236
SNP Position Genomic:     108493
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52760):
TGCCTGCCTCAGCCTTCCAAAGTGCTGGGATTATAGGCATGAGCCACTGCACCTGACCTTCTTGTTGTTGTTAATGAACAGTGCATCTGGTAATCATTCT
Y
AGTCTACCACCATCTGTCTGTCTCAGAGATGTGGGAAATTATGTTTGGTTTTAAGTCTTAAAATGCTCTTCTTAAAGGTACCCAGATCTGATGTAACTCG
Celera SNP ID:            hCV25473283
SNP Position Genomic:     96993
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,25)   caucasian(T,26)   total(C,5|T,51)
SNP Type:                 INTRON


Context             (SEQ ID NO:52761):
TATTGCAGGTCTCTAATTGCATATCCAGCACTCAAGGCAAGAGGTGTTTCACAATTCATGACTTTTTTAGGTTTTTAGAAAAGTGACACATGGGCTGGGC
R
CGGTAGCTCATGCCTGTAATCCCAGCACTTTGGAAGGCTGAGGTGGGTGGATCCATGAGGTCAGGAGATTGAGACCATCCTGGCTAACATGGTGAAACCC
Celera SNP ID:            hCV11632513
SNP Position Genomic:     51250
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52762):
CAGCTATTTTTTTTTGTAGTTTTAGTAGAGATAGGGTTTTACTGTATTGGCCAGGCTGGTGTCAAACTCCTGACCTCGTTATCCACCTGCCTTGGCCTCC
Y
AAAGTACTGGGATTACAGATGTGAGCCACCACGCCTGGCCACTTGTCAATATATTTAAAAATTTTTTTATTTTTGGCTTGTCAGTATTGACCTTAATATT
Celera SNP ID:            hCV11632514
SNP Position Genomic:     50331
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52763):
CAGGTTCAAGTAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAAGCGCACGCCACCACATCCAGCTATTTTTTTTTGTAGTTTTAGTAGAGAT
R
GGGTTTTACTGTATTGGCCAGGCTGGTGTCAAACTCCTGACCTCGTTATCCACCTGCCTTGGCCTCCCAAAGTACTGGGATTACAGATGTGAGCCACCAC
Celera SNP ID:            hCV11632515
SNP Position Genomic:     50263
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52764):
TCTGTATTCCAGCAAAGTTCTTGGGCAAGCAGGTGTTGAGTTATGGTCAGAACCTCTCCTTCTCCTTTCGAGTGGACAGGCGAGATACTCGCCTCTCTGC
M
GAAGACCTTGTGCTTGAGGGAGCTGGCTTAAGAGTATCTGTACCCTTGATCGCTCAGGGCAATTCCTATCCAAGTGAGACCACTGTGAAGTATGTCTTCA
Celera SNP ID:            hCV3127590
SNP Position Genomic:     100202
SNP Source:               Applera
Population(Allele,Count): african american(A,16|C,10)   caucasian(A,13|C,13)   total(A,29|C,23)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,21|C,11)   caucasian(A,20|C,18)   total(A,41|C,29)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,7)      total(A,7|C,4) ;JBIC-allele(A,569|C,928)   total(A,569|C,928)   (A,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52765):
AAAAAGTTTTCAGTTGTAATACTGTACTATGAAATAACTGATCATAAGAAAGAGAGAAAAAGAACAAAAGGGGCTGAGTATGGTGGCTCACACTTGCAGT
Y
CCAGCACTTGGGAGGCCAAGGTGGGAGACTCATTTGGGACCAACCTGGGCAATATAGTGAAACCCTGTCTCTGCAAAAATAAAAAATAAAATAATTAGCA
Celera SNP ID:            hCV11632442
SNP Position Genomic:     95512
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52766):
AGTGTATAACAACTCACATTATACATGAATTATATATAAAGACAATGCATTTTTTAACGGCTTTCAAGGACCTGGAAAAAATTTGGTAAAATTAGTAAAT
W
GTATTATTTACTAATTGATTACTCAATTGATCAGTAGGTCAATTGAGGTTACATTGTATATAAATAGATTTTCTAAAAAACCTAATTATAGGCTAGGCGC
Celera SNP ID:            hCV3127591
SNP Position Genomic:     100930
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52767):
CTCGAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCTAAAGTGCTGGGATTACAGGTGGGAGCCACTGCGCCTGGCCGCACAAGATTTTTTCTC
R
AAACTATTTTTTCTTTATCTCACTGAAGAGTACAACGGGGAGAATTTTCCCACTCCCCTGTTGGAGAGGTGGGTAGCTTTGGGAAGAAGAATAGGTCCTA
Celera SNP ID:            hCV11632446
SNP Position Genomic:     93984
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52768):
GGTCGGTTCTGGGTAGCTATAACTTCACCCGTTTCTTTCCCACCAATCGTTACTATAATCTGTCCAAGACTCTACTCTTACCTTCTATATCCAGACACTA
Y
GTGTCTTGAATGCTTATCTTTCTCTCCGTCCTCTTTGTCTCTGCCTTACTGTAAGTTCCTTACTGTAAGTTCCCATTGCATTTCACCTGGATTGTTGCCA
Celera SNP ID:            hCV11630770
SNP Position Genomic:     11825
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52769):
CTACAGTTCACTGCTTTTTCTCCAAATTCCTTCTCCATTCTAAGGGCATTCAAAAAAGAATTTACACATTAGGGGAGAAGTTGGAGCTATAAGGCATTCC
T
CCCCCCCCCCACCTCTTCCATTTGTCATTGGTCACATTTGTGGGAGGAATCAAGTTTTGACTATTTCAGTTCTAAATAATTTTAGAAAATTGGGTGTGCC
Celera SNP ID:            hCV11630772
SNP Position Genomic:     10736
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52770):
AAGCGATTTGACTGCTAATCCTGGTGCAGAATGAACAAAAGGAAGTGCACTCACTGTAATTGCTGGGCATAGCCTTGTCCCTGGGTAAAAAGGCTCTCCT
Y
TACTGTCTTCCCTTTTGCTTTCATTCAAAGCAACTGTAGAAACACGTGTAAGTGATGTTTCAGAAATCAGGAAAGGGATGTGTAGAAAACTTCATGGCAG
Celera SNP ID:            hCV190598
SNP Position Genomic:     7408
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52771):
GTGCAGGGTGCAGTGCATCCTCGGATAAAAAGAGTTAAAGTTGCTATGGGAACCAGAATTGCACTTTCTGCTTGTTGTGGGGAGAAATCTCCACCAGCCA
Y
TTTTCTAAGAAGAAGTCTTTTTTGTTTCACCTTCAACTTCTGGATGGATTATTCAGTTGCTGTTAAAAAGTTTGGGTTTTATGTCTTATAAGTTATAGTA
Celera SNP ID:            hCV11630773
SNP Position Genomic:     9871
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2|-,6)   total(C,2|-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52772):
TTCAAAGCAACTGTAGAAACACGTGTAAGTGATGTTTCAGAAATCAGGAAAGGGATGTGTAGAAAACTTCATGGCAGGGCAGTGGATTGAGGATGGACAT
R
TGTATCTGGAAGCACCAAAAATAATGTTCGGTCTAGCTAAGGTTTTCTTCATCATTGAGATACGTAAATAGGCAGAAAGTTTCATTATTGTGTTTAACAG
Celera SNP ID:            hCV190599
SNP Position Genomic:     7532
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52773):
TTCACAGCCTTTGGGGGTCTCCTTGTCTTTATTTTGATTGTTGGAAATAGAGACCCACGCTTTGGCCACTATATAACAAAGTACTAAAAATGTATAATAA
Y
GCAAATTCACTAATATGTTTATTAAAATATAAACAAGTTTATTACAAATCTGTAGCTTTATTCACAACTAACATCCTTATTTTTGTCCTATATGCCCACG
Celera SNP ID:            hCV168212
SNP Position Genomic:     4282
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 TFBS


Context             (SEQ ID NO:52774):
TCTTCTTAGTAACAGAATCCTTTATCCCATGAAATCAGACTCCCAATATATAAAACAGGTAAGAATAGTGTTCAGTTATATACGTTTATTGTATTTGGTA
Y
GTTAAATTTAAGGTGGAAATCTATGTTTCAATCTTCACTTGGTTTCATCTTAAAACTTATTTCTATATATTTTGTTTGCAAAATTAAAAAAGTTCAAAGT
Celera SNP ID:            hCV11632520
SNP Position Genomic:     44703
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52775):
TGCCAAGGTTCCCAGCCCCCATACTCCCTTCAAAAATAAAGTCCTTTCCATTTTAGTCTTTGGTTATTAGTGTGTGAAAACTCTGCCTAAATCCTGAACT
Y
TCTACTCTGATTTGTCAGAGGAACAGTTCTTTCAGTTTTAATTTTTGTCTTTAGATTTTTTGGTTGGTGTTTTTTTTTTCTTCCCCTAGGCTCATCTGTA
Celera SNP ID:            hCV11632521
SNP Position Genomic:     43880
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52776):
ATATGAAGCTGACCAATTGAGATGTGTTAGGAAGGGTAGCCATTTTAGTTTTTTTGTCAGAAGTGACATGGTTAGATAGCAGAGTTGCAGGAAAATTAGT
M
TAATGGTAGTAGGTTAAGTTATTGTAGCAATCCAGATGTGAGTTAATGAGGGATAGGACTAGGGTGATGTCGATCAGAAAGGCAAAAGGAGAGACACTGA
Celera SNP ID:            hCV11632523
SNP Position Genomic:     43617
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,6)   total(A,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52777):
CAGGTTTCCCATTTCTAGACTAGAGCTTTCTCCACCACCCTATGTACTGTTTCTGTTTTTAAGCCTGTAAAACAACAAACACCACAATAAACACCAAAAC
S
TGGAAATAGGAGATTATGTATGCAGACTTGTACTTCATGGGACAGAGAGCTGCTTCTGGGTTTGTACTCTGCTCAGAAGGTGTATGCTTTATTTTACTTT
Celera SNP ID:            hCV11632528
SNP Position Genomic:     39398
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,10)   total(G,3|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52778):
ACAGTAGGAATATTCTTTTTCCAGTTGGGTGTAGCAATCACGGTAATGACATACACGAACTTGTGGTTACTTGCTCACTTTCAGTGGCAAAGAAGAGGCC
R
TCGTTCACTGCTGCCAGAAAACATAGTCCCTCACTGTGGGTCATTTTCATCTTGGGATGGAAAAAAGAAGTACAAAGCCTGTTAATCTCAGTAAAAACTC
Celera SNP ID:            hCV15985310
SNP Position Genomic:     121121
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,563|A,922)   total(G,563|A,922)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52779):
GGTTTGTTCCAGGCAGAAGGAACCTGGTATACAGAGGCCTGAAAGCTGGAGAGTGGCTGGAGCCTGCTGAGTGCAGAGGGTGTGTTCTGTTTTTTAAGAC
K
GGAGAGGTTGGTACGGACAGGTTATATGGGAACATGATGACCATAGTAAGAAGTTTAGATTTTATCCCAAATCCAATAAGAATGCATTGAAGAAACTCTT
Celera SNP ID:            hCV28031600
SNP Position Genomic:     110400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52780):
TTTAATTGAGTTATGAGCCCATTTTCATTGAAGTACCTGCAGAGCCCTCTCATACAATCAAGCTTGGTAGACGCCTCAGGCAGTGGAGCATGGGAAACCT
S
GGGAAGAGCTGTCCTCTGTTCTCACCTCACTTTAAGCAGGTAGTGGTTTTGGTTGATGCTTCATCGTTTGATGTGGTAAAATGGTAAGTCTGTGGGTTTT
Celera SNP ID:            hCV27944532
SNP Position Genomic:     15931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52781):
AGGAACCTGGTATACAGAGGCCTGAAAGCTGGAGAGTGGCTGGAGCCTGCTGAGTGCAGAGGGTGTGTTCTGTTTTTTAAGACGGGAGAGGTTGGTACGG
R
CAGGTTATATGGGAACATGATGACCATAGTAAGAAGTTTAGATTTTATCCCAAATCCAATAAGAATGCATTGAAGAAACTCTTAAAATCTGGGAAATCCA
Celera SNP ID:            hCV27944533
SNP Position Genomic:     110417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52782):
TACTCTTTCCTAAATTTTGGGGTCATTTCCAGTATTCTAATGGCAACGATACTATAACACAGCCCCTAGGATACTGATATTCTGTTATATTGAGAAGAAA
S
CAGGGGTAAATAAGGTCTTTTGACATTTTAATGAACTGATTGCTTAGGGTTTCAAGATTAACCCACCCCGTATATTGCAAGGTCGCTTCTCAGCCTGAAG
Celera SNP ID:            hCV440299
SNP Position Genomic:     37143
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52783):
TCTGTCCTGAATTTCTCCAGTAATACCTGTTTGGCACTTAACTAGTCCATGAGGGGGCATAAAGGGACCTCGTAGACCTTGGAAGTCATTTAGTCGACCA
Y
GCTCATTATACAGGTGAGGAAGCTGAGGTCCAGGGAGATAGCAATTGCTTAAGATCAGGTTTCCCATTTCTAGACTAGAGCTTTCTCCACCACCCTATGT
Celera SNP ID:            hCV11632531
SNP Position Genomic:     39242
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52784):
AATTCATTGATCTGTCCTGAATTTCTCCAGTAATACCTGTTTGGCACTTAACTAGTCCATGAGGGGGCATAAAGGGACCTCGTAGACCTTGGAAGTCATT
Y
AGTCGACCACGCTCATTATACAGGTGAGGAAGCTGAGGTCCAGGGAGATAGCAATTGCTTAAGATCAGGTTTCCCATTTCTAGACTAGAGCTTTCTCCAC
Celera SNP ID:            hCV11632532
SNP Position Genomic:     39232
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52785):
TGTGTAAAAAAAAAAACCTACTTTATAGGATTGATGTGAGGATTAAATGAAATAAAGGCATTAGGCCGGGTGCAGTGGCTCATGCCTGTAATCCCAGCAT
Y
TTGAGAGGCCAAGGCGGGCAGATCACAAGGTCAAGAGATTGAGACCATCCTGGCCAACATGGTGAAACCCCATCTGTACTAAAAATACAAAAATGAGATG
Celera SNP ID:            hCV11632533
SNP Position Genomic:     38151
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52786):
TAAAATGCCTTCTATACAACGTGGCTGTAACCTTAACTTCTGGGGACTGGTATCACTTGTTACTCTTTCCTAAATTTTGGGGTCATTTCCAGTATTCTAA
Y
GGCAACGATACTATAACACAGCCCCTAGGATACTGATATTCTGTTATATTGAGAAGAAAGCAGGGGTAAATAAGGTCTTTTGACATTTTAATGAACTGAT
Celera SNP ID:            hCV11632538
SNP Position Genomic:     37083
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52787):
GCACTCTCCCAGTTTACGGAGGAGGAAGCCGAGGCATAGAAGCCACACAGCTATTTGTGAGGATTCAGGCTGTGCACTCTAGGGTCTGGTTATAGAGGCT
R
TTCTCTGAATCACACTGTGCTCTGCCTCAGAATAAAATGCCTTCTATACAACGTGGCTGTAACCTTAACTTCTGGGGACTGGTATCACTTGTTACTCTTT
Celera SNP ID:            hCV11632539
SNP Position Genomic:     36950
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52788):
GTGTTTCTTGCAATGGAGATAAGTTGTGTTCAAAATAAATGGCCGAGAGAATAGCTGATTTTGATAGATGAAAAAGCAGGGCCAGGCGCAGTGGCTCATG
S
CTGTAATACCAGCACTTTGGGAGGCGGAGGCAGGTGGATCACTTGAGGTCAGGCATTCAAAACCCACCTGGCCAACATGGTGAAACCCTGTCTCTACTAA
Celera SNP ID:            hCV11632467
SNP Position Genomic:     87528
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,12)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52789):
CCCTGTCCGTGTCCTGGAGGTTCAAGTTGTGCTGTTGTTCCCAAGACAAAGGAGGTGGTGTGCACCAACTGTCCTACTGGCACCACTGGTAAGTCTGCTC
R
CTTCATCTGCTTTCAGTGTTCCCTTCTATAAAAAGACCTAGGGGAAAGGGGCTTCGGAGTTGTTTTGGATCTTTGTGTTTGGTTCAGTTTCAGTGGTTAT
Celera SNP ID:            hCV25624004
SNP Position Genomic:     104844
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,1|G,39)   total(A,4|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:52790):
TTTTTATTTAGTGCTGCAAAAAAGAAAAATGAAACTTTACCTGAATACTAGGTAACTGAATAGACATAACGGAAACCTCTTCCATTTATCTACCTTGGGT
R
TATATATTGGCCTTCATCTCATTTAGTTTTTACTTCCTCCCAAATTCAGACACAACCTCAATCCCACTTAAGACTAAAAGAATTATACTGAAACAAGATT
Celera SNP ID:            hCV1770100
SNP Position Genomic:     57481
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52791):
GAGACCTGTGATCCTGAGACAGGTGAGATGATCTTTGGCAGCTCTTAGACCTAACTTCTCTTTAGCAATTGTGTAGAAAGTGCTCATTGTCTTATATACT
Y
GTACATTTGCCTGTTTTCTCACGCCTGCCTTCCAAATAGGTGTTTGTAACTGCAGAGACAATACGGCTGGCCCGCACTGTGAGAAGTGCAGTGATGGGTA
Celera SNP ID:            hCV25624005
SNP Position Genomic:     104603
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(C,1|T,37)   total(C,3|T,71)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,1|T,39)   total(C,4|T,74)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52792):
TGTATGTCTGTTTTAAAATACAGTGTCCAGCACATAGTCAAAGATGGTTAGGCACATTAAAAAATAGGGCTATAAATGAAAGAAAACCTAGCAAAATAAT
R
GACAAGAGAAGCAGATACCCAAATTTCAGGTATAGAAATTACAGCTGTGTTTAGTATGCTTAACAGAAAAAAGGACAAGTTTGAAGATCAGGCCACTGGA
Celera SNP ID:            hCV1770101
SNP Position Genomic:     56385
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52793):
TGATTGGGGTGTTGGTTATGCAGAAATGCATTTGTCAAAACTCATCAAACTATATGTGGATTCTGTGAACTTCAGTGGGTGTAAAGTATATCTCATTTTT
W
AAAAAAGTCCATAAAATCTTGATCTGTGCAGTTCTTTTAAAAATATCATTGAGTATTAGGTGTTACAGAGTTCCTAAGCCTACCTTTTCATTAGTTTAAA
Celera SNP ID:            hCV27481235
SNP Position Genomic:     117110
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52794):
TGGGTAGAAACGGCCCTGTGAGACTTTGCCGCCTGTGCCAGTGCAGTGACAACATCGATCCCAATGCAGTTGGAAATTGCAATCGCTTGACGGGAGAATG
Y
CTGAAGTGCATCTATAACACTGCTGGCTTCTATTGTGACCGGTGCAAAGACGGATTTTTTGGAAATCCCCTGGCTCCCAATCCAGCAGACAAATGCAAAG
Celera SNP ID:            hCV25624006
SNP Position Genomic:     107356
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52795):
AGGCATGGGGACATTTAATTCAAGTGTTCGTTGCAGGGTCTGCAGACAGCTCTTTGAATATCTTAAACTCCAAGGGTCCTGTCTGACTTATGTATCTGTC
K
GCTTCCTTAGAGGCCAGCTTCATAGAGAGCCCTCTTTCCTCAGATTTTCAACATTGTATTCCGTTTGCAAAGACCCTTCTTTATGGGTGTGGTCACTTCT
Celera SNP ID:            hCV1770102
SNP Position Genomic:     54960
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,12)   total(G,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52796):
CACGTGACTGGCCAGGACTGTGGTGCTTGTGACCCTGGATTCTACAATCTGCAGAGTGGGCAAGGCTGTGAGAGGTGAGACATAGGTGCCTTTGGTGAAA
R
TAATCTTTGCTTTTTCTGTTATAAAAAATGAATTTTTATAAGTACATTTAATAATTGACTGTTCAGAAATTACTGGAGCGCCTAATGTAGGCAAGGCATC
Celera SNP ID:            hCV25624007
SNP Position Genomic:     108157
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:52797):
TTCACCACTTCAACTATCACCAACCTGGTTCAAACCTCTGTTATCTCTCACCTGGGATTGCCTAATTGTTCTCCCTGCCTCACCTGCTCCCCTACAATGG
M
TCCAATCTCAACATGAAAGCCAAAATGGTCCTTTCAAAATGTACCTCAGATTACACCACTTTTAAACCCTCCAATAGCTTCTTGATACACTAAAACCAAA
Celera SNP ID:            hCV27481236
SNP Position Genomic:     105936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52798):
AGCAGTACTGCCTATTGAGGTGGGTTGATTTGTTGTTCTGAATAGTTCTGCCACCTCCAATTTCATTTTAAAGTCATTGATTTTCAGGTGCATTTGTAAG
R
CTAGCATCATTAATATCAGCACTTAATAGCTAACATTTATTAACTACTATGTGCTATGCATGGTGTTGAGTGCTTTTCTTAGATTAATTTAATCCTCAGC
Celera SNP ID:            hCV11632540
SNP Position Genomic:     36730
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52799):
CCAAGGAGGGAGAGATCCGTCATTCTGAATTTATTTGTTTGAATTTATGGGACAAAAATGCTATAAATCAAATCCCTTGTTAGGGTTTTCCAGTGCGTTA
W
ATGTAAAAACTTGAAAAGTTTGCTGAAAAACTTGGTTTCCGTGTCCATATTTAATAGATCATATTTTCCCCAGATATTTTCGACTATAGCCATTATAAGA
Celera SNP ID:            hCV11632541
SNP Position Genomic:     35746
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52800):
AAGGGTATGTGGGTTTCCTTATCCAAACACAGGTAAATGAGGGAAGAGATGTAAACAACGATTACTCTGTTCTTCCTAGTGTTGGTTGGAGTTCTCTGTA
M
TTCTGTTTCCTGTCCAAGGAGGGAGAGATCCGTCATTCTGAATTTATTTGTTTGAATTTATGGGACAAAAATGCTATAAATCAAATCCCTTGTTAGGGTT
Celera SNP ID:            hCV11632542
SNP Position Genomic:     35632
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52801):
CTCTCCCAAACTCTGCTAATTGATATTCTGGTCATACTAAAAGGCTAATCTATCTATCTTTCTTTTGTTCTTTCTTTTCTTTTTTTTTTGACACAGTCTC
R
CTCTGTCGCCCAGGCTGAGTGCAGTGGCATGATCTCGGCTCAATGCAACCTCTGCCTCCTGGGTTCAAGCAGTTCTCATGCTTCAGCCTCCCGAGTAGCT
Celera SNP ID:            hCV11632546
SNP Position Genomic:     34948
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52802):
AGTAGTATTTTGAGGGTGATAGGGAAAGAGAATTGTCTTTTTGGCTTAAACTTTAATTTTGATACTTCATCGAAAAATCTAATTTCCATAGAGATTACGG
R
TTTATCTTCTCCAAAATCATACTGTCTATTTCAGAACTTTTGTTTTCCTCTTAGCTCCATAGTGATAATCATACCATTATTTTTATAATAGCTTTTGATA
Celera SNP ID:            hCV11632473
SNP Position Genomic:     78852
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52803):
ATAAAAATGGTGGTTGTTTTAAGCCACTGAGCTTTGGAGTAGCTTGTTGTGCAGCAGTAGATAACTGGAACACTTACTGAGTCTCTGGGATTATTGAGTT
R
GAGTGCCTATGCTGCTCTTCCCAAGGGGAATCAGCCTTTTTTCCTTCCTGGAATGGTTGCTTAGAAGAACCTGTAGACACCCAGAGGAAGTTACACTTTT
Celera SNP ID:            hCV11632547
SNP Position Genomic:     34209
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52804):
GGGATATACCAGAGTTTACCACAAGTGTTTTGACGATATACTCCTGAGCTTTCACTCTGCTGCTTCTCCCAGGCCTCTTCTACTATGGCAGGAGATGTGG
Y
GTGCTGTTGCAAAGTTTTCACGTCATTGTTTCCTGGCTAGTTCATTTCATTAAGTGGCTACATCCTAACATATGCATTTGGTCAAGGTTGCAGAAGAGGA
Celera SNP ID:            hCV8350008
SNP Position Genomic:     127575
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   JBIC-allele(C,556|T,905)   total(C,556|T,905) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:52805):
TGAGATGATCTTTGGCAGCTCTTAGACCTAACTTCTCTTTAGCAATTGTGTAGAAAGTGCTCATTGTCTTATATACTTGTACATTTGCCTGTTTTCTCAC
R
CCTGCCTTCCAAATAGGTGTTTGTAACTGCAGAGACAATACGGCTGGCCCGCACTGTGAGAAGTGCAGTGATGGGTACTATGGAGATTCAACTGCAGGCA
Celera SNP ID:            hCV25473604
SNP Position Genomic:     104626
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(G,32)   total(A,4|G,62)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(G,40)   total(A,5|G,73)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52806):
GTTTTTCAAAAAAATTATAATGACAGTATAGTCAGCTTATAGTCAGCTTATTGTTATCAGTCTGAATTAAGAGATATACTCTTCCTTCTTTTGCTAATTA
Y
GTATTATTTTCTCCTTATTCTGCAGCCTGTGACTGTCATCCTGAGGGATCTCTTTCACTTCAGTGCAAAGATGATGGTCGCTGTGAATGCAGAGAAGGCT
Celera SNP ID:            hCV25624011
SNP Position Genomic:     109783
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,34)   total(C,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:52807):
TCGGTCTTGGCCTGGCTGCCAGGAATGTCCAGCTTGTTACCGGCTGGTAAAGGATAAGGTAAGCTGTCAATAGTGCATTCATTCATTCATCCAGCAGACG
Y
TGAGTGGCAACTTACTGTGCACTAATCTCTATAGAAAAAGTGGTGAACAAGATAGATGTGGTCCCTGTTCTTAAAGACTTATGTTTCAGTTGGGAGGCAA
Celera SNP ID:            hCV25624012
SNP Position Genomic:     110030
SNP Source:               Applera
Population(Allele,Count): african american(T,30)   caucasian(C,1|T,39)   total(C,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:52808):
CAGATCAAGCCTTCGAGGATAGACTAAAGGAAGCAGAGAGGGAAGTTATGGACCTCCTTCGTGAGGCCCAGGATGTCAAAGGTACGCATGATTGAACAGT
R
CATGACTTCTGTGAGATGGACCAATCTTTAGATGTGGCTCCTAAAGCAAGGTTATTAGTATAGTTTTATAAAATTCTTTCTCAGTTTTTAAACTACTCAT
Celera SNP ID:            hCV25624013
SNP Position Genomic:     111350
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,27)   caucasian(G,40)   total(A,3|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:52809):
TGTTTTTTAGTTTGGCTTTCTCTTATTTCAAGGTCAATCTGTTTGTTTTATTTAAAAGAGAGATTGGAGCAATTTTAGAATTAGGTATTTAAGAATCAGA
S
AAACCTCTTAGTTTCCTTAGAACAGTTGGCTTTTGGATTAATTATATTTTATAAAATACTCATATTTCAGGATTGTGGTCTTTTTGTACATTATGATGAA
Celera SNP ID:            hCV27478812
SNP Position Genomic:     119752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52810):
CTTAGGGCCTATACTTGATTCATCTTCCTTTCAAGTCCTAGAAACAGTCAGCAAATCTTACTGATGTTATCTCAGATCTGACCACTTTTCACCACTTCAA
S
TATCACCAACCTGGTTCAAACCTCTGTTATCTCTCACCTGGGATTGCCTAATTGTTCTCCCTGCCTCACCTGCTCCCCTACAATGGCTCCAATCTCAACA
Celera SNP ID:            hCV27478813
SNP Position Genomic:     105849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52811):
GTGTCTTAGGTATGAACAAGCGAAGAACATCTCACAGGATCTGGAAAAACAAGCTGCCCGAGTACATGAGGAGGCCAAAAGGGCCGGTGACAAAGCTGTG
R
AGATCTATGCCAGCGTGGCTCAGCTGAGCCCTTTGGACTCTGAGACACTGGAGGTATGGGGGCAGCCTGTACGCACAGCCCCACCCCGTCTCTCCCCCAA
Celera SNP ID:            hCV25624017
SNP Position Genomic:     116089
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52812):
TGACAAAGCTGTGGAGATCTATGCCAGCGTGGCTCAGCTGAGCCCTTTGGACTCTGAGACACTGGAGGTATGGGGGCAGCCTGTACGCACAGCCCCACCC
Y
GTCTCTCCCCCAAGTCTATGTGAGAGCCGACTGCTCTGCACCTCCCTCTGTCCTCCCACTGACTCGCTGGTAAAGTTGAGTCTTATTTCACATACGCTAA
Celera SNP ID:            hCV25624018
SNP Position Genomic:     116176
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,29|T,5)   total(C,62|T,8)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52813):
CCATTTTCTGCTGTGATTTTGATTCACATAGCCAAAGGAACTCAAATTTAAACAAATCCAAGTTAAATATTTGATTTCCTCCCTTTTTCTTCGACCCTTT
R
TTTCTCCTCCAGTCTTGTTCATCTTAGTAAATATGCTGCCATTAGCCTAGTTGCTCAAGCTGAAACCTTAGGGCCTATACTTGATTCATCTTCCTTTCAA
Celera SNP ID:            hCV27481247
SNP Position Genomic:     105682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52814):
TTCCATTTTTTACCCTGACTTCCATTGTTCATAAAACAAAATCCAGTTGGAACTCCCTGAAAGGCCCCCTTTTTACTTGTTGGGAGTTTAGCTCAAATGT
R
TCCTTGAACTTGTTTCAGATTTTGATAGGCGTGTGAACGATAACAAGACGGCCGCAGAGGAGGCACTAAGGAAGATTCCTGCCATCAACCAGACCATCAC
Celera SNP ID:            hCV25624019
SNP Position Genomic:     118958
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(A,1|G,39)   total(A,2|G,68)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52815):
GGATGGGCAGCTTGCACTCACCAATAGACCAAAAGACATCTTTTGATATTCTTATAAATGGAACTTACACAGAAGAAATAGGGATATGATAACCACTAAA
R
TTTTGTTTTCAAAATCAAACTAATTCTTACAGCTTTTTTATTAGTTAGTCTTGGAACTAGTGTTAAGTATCTGGCAGAGAACAGTTAATCCCTAAGGTCT
Celera SNP ID:            hCV1770044
SNP Position Genomic:     126220
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:52816):
ACATATTCATGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCATGTTGTGCACATGTATCCTAAAACTTAAAGTATAATAATAATTT
W
AAAAAAAAAAGAACTACATATTCATGGAGTGCCCATGATTCCTGCAGGAAGTGTGATTGAGTTCTTCAGGAATACTTGTGTGTCCTACCTTTCCCTTTTC
Celera SNP ID:            hCV1770045
SNP Position Genomic:     111055
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52817):
AGGCGCAGTTGCTTACACCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGAGCAGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGGTG
R
AACCCCGTCTCTATTAAAAATACAAAAATTAGCCAGGTGGGGTGGCAAAAGCCTGTAATCCCAGCTACTTGGGTGGCTGAGGGATGAGATTCGCTTAAAC
Celera SNP ID:            hCV1770048
SNP Position Genomic:     101125
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52818):
ATCTCCTGCCCCTCTTCCTTCTAAGCAAAAGGAAATAAACATCCTGTGCCAAAGGTATTGGTCATTTAGAATGTCGGTAGCCATCCATCAGTGCTTTTAG
Y
TATTATGAGTGTAGGACACTGAGCCATCCGTGGGTCAGGATGCAATTATTTATAAAAGTCCCCAGGTGAACATGGCTGAAGATTTTTCTAGTATATTAAT
Celera SNP ID:            hCV8350016
SNP Position Genomic:     125961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52819):
TACTCTTGTTTCTATGAAGGAAAAGTTTGGCTACTAACAGTAGCATTGTGATGGCCAGTATATCCAGTCCATGGATAAAGAAAATGCATCTGCATCTCCT
R
CCCCTCTTCCTTCTAAGCAAAAGGAAATAAACATCCTGTGCCAAAGGTATTGGTCATTTAGAATGTCGGTAGCCATCCATCAGTGCTTTTAGCTATTATG
Celera SNP ID:            hCV8350017
SNP Position Genomic:     125868
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   JBIC-allele(A,590|G,895)   total(G,895|A,590)   TSC_42_C(A,12|G,71)   TSC_42_AA(A,29|G,54)   total(G,125|A,41)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:52820):
CCATGTATGCTGGGGTAGAGCAAGTAGCCCTCCCCTGTCTCATCGATACCAGCAGAACCTCCTCAGTCTCAGTACTCTTGTTTCTATGAAGGAAAAGTTT
K
GCTACTAACAGTAGCATTGTGATGGCCAGTATATCCAGTCCATGGATAAAGAAAATGCATCTGCATCTCCTGCCCCTCTTCCTTCTAAGCAAAAGGAAAT
Celera SNP ID:            hCV8350018
SNP Position Genomic:     125796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:52821):
ATGAAAAGACCAGAGAAGCCCAGCAGGCCCTGGGCAGTGCTGCGGCGGATGCCACAGAGGCCAAGAACAAGGCCCATGAGGCGGAGAGGATCGCGAGCGC
W
GTCCAAAAGGTGTGCGTTTCCTCTTCTCCAAGAGTCCCTGCCCATATCTTTCTCTGGTCACTTTCCAGTTTCTTTCCAGACCCTCAGAGCCCTTGCAGAT
Celera SNP ID:            hCV25624023
SNP Position Genomic:     119167
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,1|T,37)   total(A,1|T,75)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52822):
GCCAAGAACAAGGCCCATGAGGCGGAGAGGATCGCGAGCGCTGTCCAAAAGGTGTGCGTTTCCTCTTCTCCAAGAGTCCCTGCCCATATCTTTCTCTGGT
Y
ACTTTCCAGTTTCTTTCCAGACCCTCAGAGCCCTTGCAGATTTTTTTCCTGAACTTCAGTAAAATTGTCTTAAACCATATTTGTCTTTTTTTTTTTCTTT
Celera SNP ID:            hCV25624024
SNP Position Genomic:     119226
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,1)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:52823):
AGAAGCAGGAGGCTGCCATCATGGACTATAACCGAGATATCGAGGAGATCATGAAGGACATTCGCAATCTGGAGGACATCAGGAAGACCTTACCATCTGG
Y
TGCTTCAACACCCCGTCCATTGAAAAGCCCTAGTGTCTTTAGGGCTGGAAGGCAGCATCCCTCTGACAGGGGGGCAGTTGTGAGGCCACAGAGTGCCTTG
Celera SNP ID:            hCV25624025
SNP Position Genomic:     125348
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52824):
TTTCTTGTATATAAGAAATTTTTGAAGATGGCATTGTCTACCACCCCACCAAAACATATGAAACTTACATCTAGTTTAATTTTTCACGTTTTGTGATAAT
K
TGTATGCAAGGTACTATTTGTAACAAAATTGACTTGTCAATGGATGGCCCAAGGAAGAACTAAGGTCCATTTTTCTGTTCTATGCTATATTTTGCTTTGA
Celera SNP ID:            hCV16183352
SNP Position Genomic:     120902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52825):
GGTTTCACCATGTTGGCCAGGCTAGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGCCTCGGCCTCCCAAAGTACTGGGATTACAGGCCTTAGCTACTG
M
GCCCGGCCCATTCTCAATTCCAACCACTGCCATCTTGTCCCTGGCACTGCTTTTGGTGCAGCTGTGACCTCTGTGGCTTGAAGCTGATGGATACTTCTTA
Celera SNP ID:            hCV1770055
SNP Position Genomic:     81961
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52826):
GAGGATCCCACAGTCAGTATTAAGTTGGCCTTGGGTCGTCTTAATCAGTGAGGCTCTATTTGTGCAATCCATCCGCTGAGGTGGAACAATAACAGCTGGT
K
TGCAGCTGGATATGTTGTCCTGGGAACTCTTGTTTCAGCCAGCAGTTATGCTAACAAAATTGAAAACATTTTCAAATAGTTGCTTTCTGTGACTACTGTT
Celera SNP ID:            hCV1770056
SNP Position Genomic:     79699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52827):
CTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCTGATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTTCTAA
W
AAAAAAAAATACAAAAATTAGCCGGGCATGGTGGCATGCGCCTGTAATCCCAGCTGCTTGGGAGGCTGAGACAGGAGAATTGCTTGAACCCAGGAGGCGG
Celera SNP ID:            hCV26124300
SNP Position Genomic:     103839
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,8)   total(A,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52828):
CCTCCTTCGTGAGGCCCAGGATGTCAAAGGTACGCATGATTGAACAGTGCATGACTTCTGTGAGATGGACCAATCTTTAGATGTGGCTCCTAAAGCAAGG
T
TATTAGTATAGTTTTATAAAATTCTTTCTCAGTTTTTAAACTACTCATAGATTATAAATCATTTCATTTTTTAAACACTAATTCAAAAAGCAACCTGACA
Celera SNP ID:            hCV26124301
SNP Position Genomic:     111402
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52829):
TTTATACAAAACTGTAAAGGTTATTTGTCTGCATTTTTAAGTTGTGCTGATCTAAATATACTTTCTAAGGGATTGTCCTCTTGCACTGTTGGCATTTGAC
Y
GATTGACAAGGGGGAGGCCATGAAAAGGGAGTACAGAAATTAGGGGAAAGGAACAGGATAATAAGTTTTTAAAAACAAACAATTTTGAAGATAAGTTTTA
Celera SNP ID:            hCV1770058
SNP Position Genomic:     79350
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52830):
CTCCTTCGTGAGGCCCAGGATGTCAAAGGTACGCATGATTGAACAGTGCATGACTTCTGTGAGATGGACCAATCTTTAGATGTGGCTCCTAAAGCAAGGT
T
ATTAGTATAGTTTTATAAAATTCTTTCTCAGTTTTTAAACTACTCATAGATTATAAATCATTTCATTTTTTAAACACTAATTCAAAAAGCAACCTGACAA
Celera SNP ID:            hCV26124302
SNP Position Genomic:     111403
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52831):
GAAAAAGTAAACTATTGGTCAACTTTTTGTGACTTTGTGGGATTATTGGAGTTGACCTTAGTCTATTACTATACCACCGTGACTAGGTATTAGAATCTTG
K
TTTTCTAATTAGATTTTCTCTTTTTAAAAAAACTATTTTTCACTCTTCTGTTATAGATAAAAGCCAAACTATAGCCAGCTTTCAATAGTATATGAATATC
Celera SNP ID:            hCV1770059
SNP Position Genomic:     77893
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,11)   total(G,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52832):
TCCTTCGTGAGGCCCAGGATGTCAAAGGTACGCATGATTGAACAGTGCATGACTTCTGTGAGATGGACCAATCTTTAGATGTGGCTCCTAAAGCAAGGTT
A
TTAGTATAGTTTTATAAAATTCTTTCTCAGTTTTTAAACTACTCATAGATTATAAATCATTTCATTTTTTAAACACTAATTCAAAAAGCAACCTGACAAA
Celera SNP ID:            hCV26124303
SNP Position Genomic:     111404
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52833):
GGACCTGAGTATGAGATTTAAGTTGAATGAGCATACTAATAAAGAATAATTTGAAGAACTATTCAAAAACAGAGATCAGTTTGAAAGAAATTACACTGAT
A
ATGCTGGCACATGGGGGTGGCAAAAGAGTCTATTTAGTTTAAAATACAAAATGAGTTTAATTTGTCATACTTCAACTTATGTTTTAAACCTAGTTTTTTC
Celera SNP ID:            hCV26124304
SNP Position Genomic:     112405
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52834):
ACCTGAGGTCGAGAGTTCGAGACCAGCTTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGGTATGGTGGTGCATGCCTGTAA
W
CCCGGCTACTTGGGAGGCTAAGGCAGGAGAACCACTTGAACCCAGGAAGCAGAGGTTGCGGTGAACTGAAATTGTGCCATTGCCCTTCTGCCTGGGCAAC
Celera SNP ID:            hCV26124306
SNP Position Genomic:     113631
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52835):
CCAGCCGGCCCGGCTAATTTTTGTAATTTTAGTAGTGTCAGGGTTTCACCATATTGGTTAGGCTGGTCTCGAACTCCTGGCCTCAAGTAATCCCCTGCCT
S
GGCTTCCCAAAGTGCTGGAATTACAGGCGTGAGCCACCGCGCCCGGCTGATAATGAAATGTCTAAGCACTTAAGAACGTGCATTCAAAAGACTGGAGTTT
Celera SNP ID:            hCV26124234
SNP Position Genomic:     3620
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:52836):
CCCAAACAACATGACTCTTTTGGCAGAAGAGGCTCGAAAGCTTGCTGAACGGTAACTTCTAGATCCCTGTTTAATGGTTAAGTTGTGGCTTCCGTTATGG
K
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTCTTATCCCATAACCCATAAACACTTTCTACATAACCCACTTTTGCACACTT
Celera SNP ID:            hCV26124307
SNP Position Genomic:     114008
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,7)   total(G,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52837):
TGAGGTAGGAGAATTGCTTGAACCGGGAGGCGGAGGTTGCAATAAGCCAAGATCACGCCACTGCACACCAGCCTGGGTGACAGAGCGAGACTCCATTTCA
A
ATAATAATAATAATAATAATAATAATAAAGTAAGCATTACCTGAATTTTACTTATGTCCCTATCAGATGGTTGTTTCATGGCTTATTTTTTGTTTTATCT
Celera SNP ID:            hCV26124308
SNP Position Genomic:     114885
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52838):
GCTGGCGGCAGGCCGCCGCGGCGGGCTGTGCCCAGGCAGCCATGGACGAGTGCACGGACGAGGGCGGGCGGCCGCAGCGCTGCATGCCCGAGTTCGTCAA
M
GCCGCCTTCAACGTGACTGTGGTGGCCACCAACACGTGTGGGACTCCGCCCGAGGAATACTGTGTGCAGACCGGGGTGACCGGGGTCACCAAGTCCTGTC
Celera SNP ID:            hCV27468996
SNP Position Genomic:     6467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52839):
TTCCTCCCCGGGGGCGCGCACTCGGGCACGCGCTCGGAAGTCGGGGGTCGGCGCGGAGTGCAGGCTGCTCCCGGGGTAGGTGAGGGAAGCGCGGAGGCGG
S
GCGCGGGGGCAGTGGTCGGCGAGCAGCGCGGTCCTCGCTAGGGGCGCCCACCCGTCAGTCTCTCCGGCGCGAGCCGCCGCCACCGCCCGCGCCGGAGTCA
Celera SNP ID:            hCV26124235
SNP Position Genomic:     6085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:52840):
GTTTGACATTCTAGTGTTCAGTTAAGAATTCTCTCTGTATGCATATAATGGCTGTTTTATGATCACATTTTAATTCCTATGATAAGTCAATTTTGGCCCT
Y
CAGTTTACTGAAGTGTATATGGCATTTTGGGGCATTGCAATTAGGCAATGCAAGCAGAAAGCTTTTATTTTTTAGAACTTCTGCATTAGGTTAGTGCTGT
Celera SNP ID:            hCV320578
SNP Position Genomic:     78628
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52841):
AAGGCAGCATCCCTCTGACAGGGGGGCAGTTGTGAGGCCACAGAGTGCCTTGACACAAAGATTACATTTTTCAGACCCCCACTCCTCTGCTGCTGTCCAT
S
ACTGTCCTTTTGAACCAGGAAAAGTCACAGAGTTTAAAGAGAAGCAAATTAAACATCCTGAATCGGGAACAAAGGGTTTTATCTAATAAAGTGTCTCTTC
Celera SNP ID:            hCV8350027
SNP Position Genomic:     125497
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   JBIC-allele(C,602|G,887)   total(G,887|C,602)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:52842):
GGCAGGCCGCCGCGGCGGGCTGTGCCCAGGCAGCCATGGACGAGTGCACGGACGAGGGCGGGCGGCCGCAGCGCTGCATGCCCGAGTTCGTCAACGCCGC
Y
TTCAACGTGACTGTGGTGGCCACCAACACGTGTGGGACTCCGCCCGAGGAATACTGTGTGCAGACCGGGGTGACCGGGGTCACCAAGTCCTGTCACCTGT
Celera SNP ID:            hCV26124236
SNP Position Genomic:     6473
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52843):
GAGGTAGGAGAATTGCTTGAACCGGGAGGCGGAGGTTGCAATAAGCCAAGATCACGCCACTGCACACCAGCCTGGGTGACAGAGCGAGACTCCATTTCAA
A
TAATAATAATAATAATAATAATAATAAAGTAAGCATTACCTGAATTTTACTTATGTCCCTATCAGATGGTTGTTTCATGGCTTATTTTTTGTTTTATCTG
Celera SNP ID:            hCV26124309
SNP Position Genomic:     114886
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52844):
CAGTGGCCGGCCTCACGGGCGCAGACGGCCGCGTGTTTGCTCTCTGTTCCCCGGCATGGGCCACACAGAAACTCCTTTCTCCAACTTCTTAAATAGATAC
Y
GCTTTTAACATCCCGTGAGGGCCAGGATGTTCCGCACGAGTCTCTCTGCTTTCCTGTTCTTTCTGACTTAACGGGATTCTGGCTCTCTGATTATTCTGCA
Celera SNP ID:            hCV26124237
SNP Position Genomic:     6886
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52845):
ACTTAACTATGAAAATTTTCAAAGAATAGGACATTTCTAATAAGTCCCTAAGAGTGTCCTGAAGGACATGTTTTGGTTCTGAAACATAGTTTCTATAATC
R
TCCTTAAAAAATAACTTGTTTCTGCTTAATAGGCTTTACTATGAATATACCTCCATATATTATTGAGTTAGAATGTGAGAAAAGGAGATTAATTTTTGAA
Celera SNP ID:            hCV8350028
SNP Position Genomic:     122627
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52846):
GGAAACAAGAAGGTCCGCCTTAAACACTTTCGCCTTTAAAATGTTTAGATGTCCTTCCAGGGCTGAGGGTGATTGCTCTGTTGAGTTAAGGGGGAATTTG
R
GGGGAGCAAATGCCTTCGCTGCCTATATTGCCTATGTGTAATTAAAACATAAATTCACTTTTGAAGTTATTGTTCTTTATAGCTGCTCAGCCTTAATTAA
Celera SNP ID:            hCV26124238
SNP Position Genomic:     7199
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52847):
ACACTTGGGGTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAATGCTAGGATTGCAGGCATAAGCCAGCATTCCCGGCTGTATACTTTTCAAGGGGCGGGG
R
GAATGCATTTGTCCTTATAGGCTCCGTTACTGTAGGCATTTAGTACTGCTTGAAAATTAAATTAGAAAGTAAGTGCCACTTAAAAAGTTTATAAATATGC
Celera SNP ID:            hCV11632496
SNP Position Genomic:     68272
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52848):
ACAGAGGAATCTATGTGTGAGAAACACGTTTGACTTAACACTTCACTCCCCATTGCCTTGGAAGGCTTGATTATTACCAGTAGCTGGTACTAATGAACTT
C
CAGAGAGAACAGACTGCCTCAAGCCATTCTTCTGTCAAGGGAGGGTAATTTTGTAAGGCTAATATCACTTAGGGGTGTTGGAAAGGAACATGTTGTAGGC
Celera SNP ID:            hCV26124239
SNP Position Genomic:     7729
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52849):
ACTACATCAAATGTCAGGCTCCATTTGCATTCAGACAGCAGAAAGCACATATGGGAGCTCACAGAGAAGGAGGAGGGTGAGGACAGAGTATTTATCCCAT
R
GCCCCTTCTCTATGGGGTTCTCTGGATCGATGACCTCAAATCCGTCATTGATGAGCCAAATCAGCTCCTGGTAGGCCTTCTCCAAACAGCTCTTTTTGCC
Celera SNP ID:            hCV27909518
SNP Position Genomic:     105365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52850):
AGGAGGGCAACTGCGGAAAGTGCCAGTGAATGCCTGCGTGAGTGCCCCATGACGTCAGTCTGTCAGTTGTCTTAAGGACTTCCAAGGGTGGAAGAAGGAA
Y
GGGTGACTTTCTTTTATTCCTCCTTGAAAGGAAAGCTCTGAAAGGCCAGCTTTTTGTGTAATTTGAGTAGTATTCAAGTCAGAGGAAAGTCATAGATGAG
Celera SNP ID:            hCV25472823
SNP Position Genomic:     93298
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,13)   caucasian(C,13|T,7)   total(C,16|T,20)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52851):
ATACTGGTTCTCAGGCATTGCTTTTAATTACCAGTTATCTTTCTTTAACACATTGATTTTACTTACGTATCTGGCCGAATTTTTGTTTGACAATAGGCAT
Y
TTACATTTTAGGCTCTCTAAGCACACAGTGTGATAGTTACGGCAGATGCAGCTGTAAGCCAGGAGTGATGGGGGACAAATGTGACCGTTGCCAGCCTGGA
Celera SNP ID:            hCV25624030
SNP Position Genomic:     98088
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,1|T,39)   total(C,4|T,74)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52852):
TTCTTTAACACATTGATTTTACTTACGTATCTGGCCGAATTTTTGTTTGACAATAGGCATTTTACATTTTAGGCTCTCTAAGCACACAGTGTGATAGTTA
Y
GGCAGATGCAGCTGTAAGCCAGGAGTGATGGGGGACAAATGTGACCGTTGCCAGCCTGGATTCCATTCTCTCACTGAAGCAGGATGCAGGTAAAATATTT
Celera SNP ID:            hCV25624031
SNP Position Genomic:     98128
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52853):
ACCTGCCACCACACCCAGCTAATTTTTATATTTTTACTAGAGACGGGGTTTCACCATGTTGATCAGGCTGGTCTCCAACTCCCAAACTAAGGTGATCTCC
Y
GCCTTGGCCTCCCAAAGTGCTGGGACTACAGGTGTGAGCCACCGCGCCCGGTGGATTAGAGTATTTTAAATAGCACATCACAGTGGACTTTTAAGTTCAC
Celera SNP ID:            hCV1770060
SNP Position Genomic:     77671
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,12)   total(C,12|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52854):
GAGGGTGAGGACAGAGTATTTATCCCATGGCCCCTTCTCTATGGGGTTCTCTGGATCGATGACCTCAAATCCGTCATTGATGAGCCAAATCAGCTCCTGG
K
AGGCCTTCTCCAAACAGCTCTTTTTGCCTTTAGGTTCTGCTAGCTGCCCCACCCACCACCTGAGGCCCAGGGTATGGAGCCTATCTCAAGTGCTGCACTC
Celera SNP ID:            hCV27987907
SNP Position Genomic:     105437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52855):
CATCTTCTTGTTTCTCTGTCATCCCTTCTGTAGTCTTTGGTCAGTACAGCAACCAGTCATCCTTTTGAAATGCTAGTTAGAGCCTGTTACTCCTTTGTAT
R
AAACTCTCCAGTGGGTTCTCATCTTATTCAGAGTACAAACCAAGTCTTACAGTGATCTACAGAGCCCTCCATGTTGGCATTCCCTCCTCCTCTCAGCTTC
Celera SNP ID:            hCV1770061
SNP Position Genomic:     76581
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52856):
GTATATCTGAAACTGAACTCCCAGTTTCTTACTCTCCATCCCCCCATGGCTGCTTCATCATTCCAGTTGTATAAGCCAAAGCTTGCATCCCACATCCAGT
Y
CATCAGTAAAAGTGGTTTGTTCCACCCTCAAAATATGTCCAAAATACCATTATCTGTTAGCTGGATTGTTGCAAAACTCATCTAACTCATCTTCTTGTTT
Celera SNP ID:            hCV1770062
SNP Position Genomic:     76393
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,7)   total(C,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52857):
TTCTACTCTTTTGGTATTCTTTCTACTTCAGTGGCTTTTCTCTCCAGTCTCCTTTTCTGGGTCCTCCCCATTTCCCCCATTGCTAAAAGTTGGTATGTCC
Y
GAGACCCAGTCTGTGTACCTCTTATCTATCTATGTCCATTCCCTAGTTGTTTTCCTCTAATCCCATGGCTTTGAATACTAACTGTATGCTGACGACTTCC
Celera SNP ID:            hCV1770063
SNP Position Genomic:     76087
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52858):
CATTCCTGAGATTTTAGAGTACTGCACCAGACTAGGGTGGCACTAATTAAGTATGTCTGCTTTTCTATGTGTGTGCTCTTCTAGGGGCCAGCCCGAAATA
M
GTGGGCCCAGTCAGCCTGGTACAGCTACATATTCATGAAATAAAATAAAGCAGACTTCTCTCTTTCTTAGACAATGGCACCCTCAGATCTCTTGTGGGAG
Celera SNP ID:            hCV318378
SNP Position Genomic:     14760
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52859):
TGCCCAGCATTCTCTATGGCTTTCATTCCTGTCAGTTCTAACAAAGCACTTCAAGGTCACACCTCCAGGTTGCCAAATCCAGTAGCCAATGCTCAGTCTT
Y
ATCTTTCTTAGCATTTCAGGAGTATATGACAAAGTTCAGTTGGTCACTCTCTTCTTTTTAAAAGAAGCTTTTTAAAATTTGGCTTCTGGAATTCTACTCT
Celera SNP ID:            hCV1770064
SNP Position Genomic:     75895
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52860):
CAAATTAGTTAAGAAAGTTAGCAGCAGCCACTGAATGAGGACCTACTATGTGTAAGCATATTTTATGCTCATTTTCCTCACAAGAACTCTATGAAGTAGA
Y
ATCAAATTATTGCAGGTCTCTAATTGCATATCCAGCACTCAAGGCAAGAGGTGTTTCACAATTCATGACTTTTTTAGGTTTTTAGAAAAGTGACACATGG
Celera SNP ID:            hCV128120
SNP Position Genomic:     51142
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52861):
CTGTTTGGGTACAGATAACTCTTTTTAGTCTGGATTCTTACAGTGATCCTGAAAATGTATATTATGCCTTTTCTCTTTAGGAAATCTTTGGGAAGGCTTT
K
TTAGAGAACGTCTTTGTGGATGAAAGGGGCTCTCTTTCTCCACATCTCTTAGACCCACTCCAATCCACTCCAAACCACCAGAGAAAGTCCTCATTGTTCA
Celera SNP ID:            hCV1770065
SNP Position Genomic:     75335
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,8)   total(G,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52862):
GGAAGACATAGACCTGGGCTGGCTCTAATGGAAAGGGGCCTTCTAGAGCGCCTGGGGGTTTTGAACTGTTTGGGTACAGATAACTCTTTTTAGTCTGGAT
W
CTTACAGTGATCCTGAAAATGTATATTATGCCTTTTCTCTTTAGGAAATCTTTGGGAAGGCTTTTTTAGAGAACGTCTTTGTGGATGAAAGGGGCTCTCT
Celera SNP ID:            hCV1770066
SNP Position Genomic:     75270
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,6)      total(A,5|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52863):
AGGTAGGAGAATTGCTTGAACCGGGAGGCGGAGGTTGCAATAAGCCAAGATCACGCCACTGCACACCAGCCTGGGTGACAGAGCGAGACTCCATTTCAAA
T
AATAATAATAATAATAATAATAATAAAGTAAGCATTACCTGAATTTTACTTATGTCCCTATCAGATGGTTGTTTCATGGCTTATTTTTTGTTTTATCTGT
Celera SNP ID:            hCV26124310
SNP Position Genomic:     114887
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52864):
GACACTGCTGGAAAAATGGTGTCACTTTTTCCAAGAGTGTTGTTTTCCTTGTCTTTCTGCTTCACTGGTTCATTTTTGTGAGCTGTATAAGAGCTAAAGG
W
TATTATTACAGATTTCATTTTTTGAAATGCATCAAAATCTCCATCCCCTCCCCTACCTGCTAATCTTTTTGCTTGTTAAGAAAGAAAGTGCTTCTTTCTG
Celera SNP ID:            hCV1770068
SNP Position Genomic:     73517
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52865):
CTTGAACCGGGAGGCGGAGGTTGCAATAAGCCAAGATCACGCCACTGCACACCAGCCTGGGTGACAGAGCGAGACTCCATTTCAAATAATAATAATAATA
M
TAATAATAATAAAGTAAGCATTACCTGAATTTTACTTATGTCCCTATCAGATGGTTGTTTCATGGCTTATTTTTTGTTTTATCTGTATAGTCATAAACAG
Celera SNP ID:            hCV26124311
SNP Position Genomic:     114901
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52866):
TGAATTCTGAAACAGGCCTGGTTTGTTTAAGTAACAAACCAGAAGATTCACAACAACCAGTCAAAAGGGGCCCAGTTTACCTGGGCATGATAAGAAGTCT
Y
CTCTGTTTTAACCCTAAAAGGAAAGTAACTTTTGAAACAGTCAATCTGCTTTTTGTTCTGTTTCTGCTTTTCTCAGAACTTTTTTGTCTATAAAACCAAT
Celera SNP ID:            hCV1770069
SNP Position Genomic:     72588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52867):
CGGGAGGCGGAGGTTGCAATAAGCCAAGATCACGCCACTGCACACCAGCCTGGGTGACAGAGCGAGACTCCATTTCAAATAATAATAATAATAATAATAA
K
AATAAAGTAAGCATTACCTGAATTTTACTTATGTCCCTATCAGATGGTTGTTTCATGGCTTATTTTTTGTTTTATCTGTATAGTCATAAACAGGAAGCTG
Celera SNP ID:            hCV26124312
SNP Position Genomic:     114908
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52868):
TCTACAGTTCACTGCTTTTTCTCCAAATTCCTTCTCCATTCTAAGGGCATTCAAAAAAGAATTTACACATTAGGGGAGAAGTTGGAGCTATAAGGCATTC
C
TCCCCCCCCCCACCTCTTCCATTTGTCATTGGTCACATTTGTGGGAGGAATCAAGTTTTGACTATTTCAGTTCTAAATAATTTTAGAAAATTGGGTGTGC
Celera SNP ID:            hCV26124240
SNP Position Genomic:     10735
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52869):
AGAAAATTTTTTCTTTTTTTTGTTGTTTTTGTGAGATGAAGTCTCACTCTTGTCCCCCAGGCTAAAGTGCAATGGCGCGATCTCGGCTCACTGCATCCTC
Y
GCCTCCCGGGTTCAAGCGATTCTCCTGCCTCGGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACCACACCCAGCTAATTTTTGTATTTTCAGTAGA
Celera SNP ID:            hCV26124313
SNP Position Genomic:     115588
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52870):
TTGATAAGCTGGTGTGTAATTGCAAACATAACACATATGGAGTAGACTGTGAAAAGTGTCTTCCTTTCTTCAATGACCGGCCGTGGAGGAGGGCAACTGC
R
GAAAGTGCCAGTGAATGCCTGCGTGAGTGCCCCATGACGTCAGTCTGTCAGTTGTCTTAAGGACTTCCAAGGGTGGAAGAAGGAATGGGTGACTTTCTTT
Celera SNP ID:            hCV25472253
SNP Position Genomic:     93212
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(G,40)   total(A,5|G,73)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52871):
TGTGTGTGGCCGCTTCCTCTTATATTGAGGGCAACATTAGATTCTTTTATTTTTAGATTTTTGTTATTTTATCTTTTTGTTTTGAAAGTTGGAGGAGATA
K
TAATTCAAAATCAGTCTTCTTCACATTGCTTGCTTTTTTTTTTATTTTTAAAGAGACAAAGTCTCACTCTGTTGCCTAAGCTGGAAGTGCAGCGGTGCAG
Celera SNP ID:            hCV26124241
SNP Position Genomic:     15070
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52872):
CTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCGGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACCACACCCAGCTAATTTTTGTATTTTCAGTA
S
AGACGGGGTTTCACTATGTTGGCCAGGCTGGTTTTGAACTCCTGACCTGAAGTGATCTGCTCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAG
Celera SNP ID:            hCV26124314
SNP Position Genomic:     115687
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52873):
TCAAGCGATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACACACACCACCATGCCCTGCTAGGTTTTTTGTATTTTTTTTAGTAGAGATC
K
GGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATGCACCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGTCGTGAGCCACTG
Celera SNP ID:            hCV26124242
SNP Position Genomic:     16472
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,10)   total(G,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52874):
AGGTGGGAGGATCCCTTGGGCCCAGGAGGTCAAGGCTGCACTAAGCAGTGATTGTGCCACTGCATTCCAGCCAGGGTGACAGAGTGAAACCTTGTCTCTC
A
AAAAAAAAAAAAAAAAAAGTAGTAGTTCAAAATATGGACTCTGGTGTCAGTGGGCCTTGGTTCAAAACCCTGCACCCTGCACCACAGGTCATGTAACTTC
Celera SNP ID:            hCV26124315
SNP Position Genomic:     118482
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52875):
TGTGTGCATTTCTGGGACTTTGCAGCTGTTCCATTTTTTGGAGTATCTCTTCTCTCCCCAGATGTAAATGTAATGGACACGCAAGCGAGTGTATGAAGAA
Y
GAATTTGATAAGCTGGTGTGTAATTGCAAACATAACACATATGGAGTAGACTGTGAAAAGTGTCTTCCTTTCTTCAATGACCGGCCGTGGAGGAGGGCAA
Celera SNP ID:            hCV25472254
SNP Position Genomic:     93107
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,40)   total(C,73|T,5)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52876):
AGCCTCCTGAGTAGCTGGAATTACAGGCACCCACCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGTCAGGCTGGC
S
TCGAACTCCTGACCTCAGGTGATCCATCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCCCCAAAGGATTGTTTTCAG
Celera SNP ID:            hCV26124243
SNP Position Genomic:     19576
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52877):
GCTTCATTCTTTTGGAAGAGGAGGCTGGAGACCACAGGTTAAATGCAGGTGCATCGCTCTTGGCCGGCCCTGGCAGGGTCCTTTCTCCCTCCTTTTACAC
K
CGCAGACAAGCTTGTGGATGCTCAATAAGGACAGCTGCCGTTTGGACAGAGATTAATCATTTATTTGTGAAGGTTTTTTCTGCCTTGCTTTCTTGTTCTT
Celera SNP ID:            hCV26124316
SNP Position Genomic:     122067
SNP Source:               dbSNP
Population(Allele,Count): (T,-|G,-)   JBIC-allele(T,581|G,868)   total(G,868|T,581)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52878):
ACATAGTTTTTCTGTGTGCATTTCTGGGACTTTGCAGCTGTTCCATTTTTTGGAGTATCTCTTCTCTCCCCAGATGTAAATGTAATGGACACGCAAGCGA
R
TGTATGAAGAACGAATTTGATAAGCTGGTGTGTAATTGCAAACATAACACATATGGAGTAGACTGTGAAAAGTGTCTTCCTTTCTTCAATGACCGGCCGT
Celera SNP ID:            hCV25472255
SNP Position Genomic:     93095
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(G,40)   total(A,5|G,73)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:52879):
TTGTATTTTTAATAAAGATGGGGTTCTACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGAGTCACCCACCTAAAGTCCTGGGGTTACAGG
Y
GTGAGCCACTGCTCCTGGCCCACAGATGATTTTTAAATGCCCTTGCTCAGTTTCCTTTCTTACAGGGAGAGTGGGTGGCACCCTGTGCTACACCGGAGGG
Celera SNP ID:            hCV26124244
SNP Position Genomic:     20889
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52880):
GGGGTTCTACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGAGTCACCCACCTAAAGTCCTGGGGTTACAGGCGTGAGCCACTGCTCCTGG
Y
CCACAGATGATTTTTAAATGCCCTTGCTCAGTTTCCTTTCTTACAGGGAGAGTGGGTGGCACCCTGTGCTACACCGGAGGGCTGAGTGTTGGGCTTAAAA
Celera SNP ID:            hCV26124245
SNP Position Genomic:     20908
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52881):
GGGAGGCAAATAATAAAAAACAAATAAATAAACAAAACAAACACTGAGATAAGTGCCAGGAAGAATACAAATGGAGAATAACTGGGGGAAACTACTTTAT
R
TAAGGCCTCTCTACAGAATTCATCTAAGGTGAGATCTGATGGATACAAAGGAATGAGCCGAGTGAAAAGTAATGGTAGGTTTGTTCCAGGCAGAAGGAAC
Celera SNP ID:            hCV8350036
SNP Position Genomic:     110222
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,20)   caucasian(A,22|G,18)   total(A,34|G,38)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52882):
TATTTTTCCCTGAATTTTTTTCCTTTGAATTCCAACTGTGGACCTTTTATATGTGCCTTCACTTTAGCTGTTTGCCTTAATCTCTACAGCCTTGCTCTCC
R
GGGTGGTTAATAAAATGCAACACTTGGCATTTTTATGTTTTAAGAAAAACAGTATTTTATTTATAATAAAATCTGAATATTTGTAACCCTTTATATTTGG
Celera SNP ID:            hCV26124318
SNP Position Genomic:     128090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIG-allele(G,481|A,800)   total(G,481|A,800)   POOLE|_CEPH(A,87|G,101)   total(G,101|A,87) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:52883):
TTACTGTGCACTAATCTCTATAGAAAAAGTGGTGAACAAGATAGATGTGGTCCCTGTTCTTAAAGACTTATGTTTCAGTTGGGAGGCAAATAATAAAAAA
Y
AAATAAATAAACAAAACAAACACTGAGATAAGTGCCAGGAAGAATACAAATGGAGAATAACTGGGGGAAACTACTTTATGTAAGGCCTCTCTACAGAATT
Celera SNP ID:            hCV8350037
SNP Position Genomic:     110142
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,21)   caucasian(C,19|T,19)   total(C,28|T,40)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52884):
GTTGGAGGTGTGATGAGTGCACAGTGAAGGACCTACTGGGTGTGGTAAAGGCTGTCCAGCTATGGCAGGGGCTTTGTGGAAACCTGGCAGAAAGTTGCGA
Y
GTTTAGAAGAGTAGAGATACATAGGGCCTCAGATTTCATGTGAGATGATATGATCCTCTTCAGATAATTTACAGACTTTCTTCTGCAAACCATTTTAGAT
Celera SNP ID:            hCV3127500
SNP Position Genomic:     112821
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(C,15|T,25)   total(C,18|T,56)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;(T,-|C,-)   JBIC-allele(C,672|T,828)   total(C,672|T,828)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52885):
TCATCCAGCAGACGTTGAGTGGCAACTTACTGTGCACTAATCTCTATAGAAAAAGTGGTGAACAAGATAGATGTGGTCCCTGTTCTTAAAGACTTATGTT
Y
CAGTTGGGAGGCAAATAATAAAAAACAAATAAATAAACAAAACAAACACTGAGATAAGTGCCAGGAAGAATACAAATGGAGAATAACTGGGGGAAACTAC
Celera SNP ID:            hCV8350038
SNP Position Genomic:     110116
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,10)   caucasian(C,19|T,19)   total(C,39|T,29)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52886):
ATAAAACCTCATGATACATGAGAGTTTTAATAATAACAGACTTATATTTATCTTTTGATTTGTTAGGACCTGAGTATGAGATTTAAGTTGAATGAGCATA
Y
TAATAAAGAATAATTTGAAGAACTATTCAAAAACAGAGATCAGTTTGAAAGAAATTACACTGATAATGCTGGCACATGGGGGTGGCAAAAGAGTCTATTT
Celera SNP ID:            hCV3127502
SNP Position Genomic:     112340
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52887):
TCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTACCTGGGACTACAGGCACATGCCCACCATGCCCAGG
Y
AATTTTTTTGTATTTTGAGTAGAGATGGCAGTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATTTGCCCACCTCAGCCTCCCAAAGT
Celera SNP ID:            hCV3127503
SNP Position Genomic:     111828
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52888):
TGCATGACTTCTGTGAGATGGACCAATCTTTAGATGTGGCTCCTAAAGCAAGGTTATTAGTATAGTTTTATAAAATTCTTTCTCAGTTTTTAAACTACTC
R
TAGATTATAAATCATTTCATTTTTTAAACACTAATTCAAAAAGCAACCTGACAAATTTACTGCTTTAAGCTACAGTAAGCATAGGGTGATTTTCCAACAA
Celera SNP ID:            hCV3127504
SNP Position Genomic:     111449
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,6)   caucasian(A,10|G,10)   total(A,24|G,16)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52889):
TCCTTTGATTACTGAGCTTTCCCACTGTGGTTCATGAAACTTCTTTATTGATTGCATTCTTAGTGCAGATAATGAAATAGTGGAGGATTCTGTTCACAAC
R
TGTTTGTTGACTTGCTGTAGTTGCTTCCCACCCTTGGGGCCCTTTTGGTATGATTACGTGTAAACATCTGCTTCTCCTTGGCATAAACACTTGCCTGGAA
Celera SNP ID:            hCV3127506
SNP Position Genomic:     109210
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,10)   caucasian(A,12|G,12)   total(A,32|G,22)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52890):
ACTCATAGTCAGGGCTGTACCTAAGTCATCGTAGATGCTTTATTTGAAGAATATTATCCATTTCTAAAACTCTGCAGATCAAAGCCTTCTCTGGTTTCTT
Y
GTATGTTTTCTTTTACAACGTTTCTGATGCTTCCTTTTTCCAATCTTTTATTTTTTCCAAGGAAGTCTTCCTTTGATTACTGAGCTTTCCCACTGTGGTT
Celera SNP ID:            hCV3127507
SNP Position Genomic:     109041
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,25)   caucasian(C,17|T,15)   total(C,30|T,40)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52891):
TTGGACCTGAAGGCTGCAAACGTAAGGGGTGTTGGTGGCATACAACTCTAAGCTTCCACTAATTCCAGTTAGTGTCTTAAGGCCAGAAAGGACTTTGACA
R
CCTCAGTCTAGCCACTTGACTCATAGTCAGGGCTGTACCTAAGTCATCGTAGATGCTTTATTTGAAGAATATTATCCATTTCTAAAACTCTGCAGATCAA
Celera SNP ID:            hCV3127508
SNP Position Genomic:     108922
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,22)   caucasian(A,19|G,19)   total(A,29|G,41)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,10)      total(G,10|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52892):
CCTTACCATTCAGTTTTCTGATACAAGTTACAAATTACATCAGTGCTATACTAAAAAAAAAAAAAAGTTGTGCTTAAAGTCTGTTTTTCTTGCCTGAGAA
R
TGTCCTGTGTTCATTTTCAGGTGTGACTGCCATGCCTTGGGCTCCACCAATGGGCAGTGTGACATCCGCACCGGCCAGTGTGAGTGCCAGCCCGGCATCA
Celera SNP ID:            hCV3127509
SNP Position Genomic:     108679
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52893):
AGTGTGGTGGGAAGGGGAAGGTGTGTGTGGAAAAAGACAATGTAAATAAAATGAGAGTGGGAAATAGGGAGTTGGGTAGGGGTAGCAATGTTAGATAAGG
K
GGCCAGGGAAGGCCTCAGAGAGAAGGTGATATTGTGGGGAGGGTCAAGACAAACACAGACAACATCCTATTGGTTCAAGCCTAAGTAATGATTTATTAGC
Celera SNP ID:            hCV27857317
SNP Position Genomic:     89945
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,29)   caucasian(T,36)   total(G,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:52894):
TTTAATCTAAGTCATATTAAATAAAGTTTATGGGGGCCCATTGTTTTAGACTAGCCTCTTGGACTAGGCCCCAGCAGACCAGACTAAACTAGAATGGAGT
Y
GCTCATGCTAGGTACCACATAATTAAACTGAATTCTGAAACAGGCCTGGTTTGTTTAAGTAACAAACCAGAAGATTCACAACAACCAGTCAAAAGGGGCC
Celera SNP ID:            hCV1770070
SNP Position Genomic:     72459
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52895):
TAATCTATAACACTAAATACACCAATAATTTAGATCGACTTCTGATTGAAAGTTATGATTCTTTGTCGTGGCAGATTATCAAATGTTCTAAATTGAGGCT
R
TTCTAGGACATAGTTTTTAATCTAAGTCATATTAAATAAAGTTTATGGGGGCCCATTGTTTTAGACTAGCCTCTTGGACTAGGCCCCAGCAGACCAGACT
Celera SNP ID:            hCV1770071
SNP Position Genomic:     72343
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52896):
TCACCCTTATTTTATCTATGTATCTTCAGTACTCAGCCTATTGCCTGGCACTGAGTAAATTTCAGGGTATGTTTGTAAATTGAATGAATCATTGACTGAA
W
TAACCAAACAGCAAGTCAGACTCACCTGGGTTCACTCTCGTTCTTCTATTGGGTTGCTGCTTATTTTACAAGTCAGACAGTTCTCTCCCTATAAAAGGCA
Celera SNP ID:            hCV1770072
SNP Position Genomic:     69817
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,10)   total(A,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52897):
AGTTCATCTTGTATAAACTCTTTATTTTACACTTAAGAAAATTGAGGTATGGCTGCTCCTTACTCCCTAGTACAATACTTCTCTCACTGTGTATCTTAAT
Y
ATTTGTATCTTATCTCATCTGTCATATGGAATTCCTTTAGGGCAGGGACTCACCCTTATTTTATCTATGTATCTTCAGTACTCAGCCTATTGCCTGGCAC
Celera SNP ID:            hCV1770073
SNP Position Genomic:     69667
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52898):
GGAAAGTAAGGAGACAAATCTAGTGAAGGCTGCCTTGACTTAACAGTGCAGAATCACTGTGCAGCAATGTGCTTATATGGCCGCGTTGCGATTATAATCC
K
CCTACATGCATAAGTCAATGGGGTCTTTGCTCCAAACTTGTGGAAGAATGAATGAGCCAAGTAGTGGTGGGAGTTCAGTTTAGTTCCACTGTTTTGTAAA
Celera SNP ID:            hCV1770076
SNP Position Genomic:     68843
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52899):
CCAAAATGCTAGGATTGCAGGCATAAGCCAGCATTCCCGGCTGTATACTTTTCAAGGGGCGGGGAGAATGCATTTGTCCTTATAGGCTCCGTTACTGTAG
S
CATTTAGTACTGCTTGAAAATTAAATTAGAAAGTAAGTGCCACTTAAAAAGTTTATAAATATGCTTTATAAATTCTAAAGGTGTGGAAAATTGGTGATAA
Celera SNP ID:            hCV1770077
SNP Position Genomic:     68308
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52900):
AGTGCTGGGATGACAGGCGTGAGCCACCATGCCAAGCCAAAAGTGTCTGTTTTCTTATCTCCTTAAATACCATACTCTCCCATTCTCACCAAACTAAAAC
A
AAAAAAAAAAATCATTCTGGATTTTCTTCCTTTGTGTCAATTGTGTTCTTTATTTTTTAAACTGGGCATAATAGGAATAGTTTGGGCAGCATCAATAGTA
Celera SNP ID:            hCV26124250
SNP Position Genomic:     32408
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52901):
ACATGTTTTGGTTCTGAAACATAGTTTCTATAATCATCCTTAAAAAATAACTTGTTTCTGCTTAATAGGCTTTACTATGAATATACCTCCATATATTATT
R
AGTTAGAATGTGAGAAAAGGAGATTAATTTTTGAAGTACAAATATAGTGAGTTAGTGAGTGTAGGCATCCTGACTGCCTAGTCATAACTTTGATGAAGTA
Celera SNP ID:            hCV941977
SNP Position Genomic:     122692
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(G,40|A,44)   Asians(G,26|A,48)   total(G,66|A,92)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52902):
TTTAAGGCCTTTAGATGTTACAGTCCTAAATTCTGAGTTAGCAGGTTATGAGAATATCTGTTCCTCTGAGAATTACCTTTCCTCTTCTCCTTTCAAATTA
T
TTTTTTATCTGAGGTGTTTACTTTTCAATATTCAATAGTTAATAAGTCACAGCTGTCTAGGATGCAACTCTGATTTTGATTGTTATGATGGATTAAAGAT
Celera SNP ID:            hCV26124251
SNP Position Genomic:     33623
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52903):
AGTTGTATTAGGTGAGGTGCATGGATCACCTAAGGTCAGGAGTTCGAGACCACCTGGCCAACATGGCAAAACCCCTTCTCTACTAAAAATATAAAAATTA
K
CTGGGCGTGGTGGGGCGTGCCTGTAGTCTCAGCTACTCGGGAGGCTGTGGCATGAGGATCACTTGAACCCAGGAGGTGGAGTGAGCCAGAATTGCACCAC
Celera SNP ID:            hCV457515
SNP Position Genomic:     45088
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52904):
CCCTCTCTACCTGTCACTTCTTTGGTTGCAGGCAAATTACTTATCCTCTCTGTTCTCTGAGCTATAATATTTAATACAAGCAGTCAGCAACTGATGATTT
Y
TAAGTTCTCTTCTAACATGCCCTGATTCTGTACCAATTGATACTGATTAACAAGGATTAGCACATGCCTCTTACATTTTAAGAGAATGGTTCTGCTCACC
Celera SNP ID:            hCV16141564
SNP Position Genomic:     106698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52905):
TGGTTCCTCATGGTATCAGGATTCCTTGTTCTTGGTGCTCTATTGTGTTGCCTTTTCTTCTGCCATCTTATTCCTTTGATTAGTGAGAACTTTGTGCATC
T
TTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCTAGGCTGGAGTGCAGTGACGCAATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAA
Celera SNP ID:            hCV26124255
SNP Position Genomic:     37571
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52906):
AAATTGCAGCTTTTAATAATGGTTGAGGTAGTGGTAATGGGATGCTCAGCGCTCTGCATTTTAAAGCACATTGTTGAAGTAAGAATTCTATTTCCAGAAA
Y
GGAACATTTCTATAACACTAACTGGGAGACCTATTCTGTAGAGATGTGTAATTTCTAAAATTTCAGCCCATGCTCTCTTCCATTTTTTACCCTGACTTCC
Celera SNP ID:            hCV15752363
SNP Position Genomic:     118780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52907):
ATAACCACTTACTAGGGATTGACTCAGCTATGAACTTGATACCTGCTTAGGGTGACTAATTTAGCCTCTTGAAGCCTCAGTTTTCTCATTTGTAAAAAAA
R
TTAGGGTAAAAATATACCCTATTGTGTAAAAAAAAAAACCTACTTTATAGGATTGATGTGAGGATTAAATGAAATAAAGGCATTAGGCCGGGTGCAGTGG
Celera SNP ID:            hCV26124256
SNP Position Genomic:     38028
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52908):
GCCGGGTCCTTTCTGAGGCACTTAGAATCAGACCCTTCAGGGTTGCAGCCTGGGAACTTCTGTTTTCAAAGCTGCTACTTAGTGTCCATACAGTCCCAGG
Y
TGGAGAGCACTGGTAGCAGTTAAGTTAGGAAAAGAGGTTCTGAATAGCACTCATGAAAATTACTTGAACCTTAGGGGCTTAATAACCCTTAACATTCCAT
Celera SNP ID:            hCV3127510
SNP Position Genomic:     108469
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52909):
GATAAGGTAAGCTGTCAATAGTGCATTCATTCATTCATCCAGCAGACGTTGAGTGGCAACTTACTGTGCACTAATCTCTATAGAAAAAGTGGTGAACAAG
R
TAGATGTGGTCCCTGTTCTTAAAGACTTATGTTTCAGTTGGGAGGCAAATAATAAAAAACAAATAAATAAACAAAACAAACACTGAGATAAGTGCCAGGA
Celera SNP ID:            hCV8350047
SNP Position Genomic:     110082
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,20)   caucasian(A,20|G,20)   total(A,30|G,40)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52910):
ATTTCTTTTTATTTACTGTTGTGTAATTATAATTTATAATTTGAGCCATTGGTTAAATTATTAAAAGTCATAAATTATTGAATGATTTTGTTATAATTTT
W
GGTGAACAAGAGTTTAAGACTTAAAAATTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGTGGTGCAATAGCATGATCTTGGCTCACTGCA
Celera SNP ID:            hCV8350048
SNP Position Genomic:     101458
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,5)      total(A,3|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52911):
TATGAACTTGATACCTGCTTAGGGTGACTAATTTAGCCTCTTGAAGCCTCAGTTTTCTCATTTGTAAAAAAAGTTAGGGTAAAAATATACCCTATTGTGT
A
AAAAAAAAAACCTACTTTATAGGATTGATGTGAGGATTAAATGAAATAAAGGCATTAGGCCGGGTGCAGTGGCTCATGCCTGTAATCCCAGCATCTTGAG
Celera SNP ID:            hCV26124257
SNP Position Genomic:     38056
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52912):
TTTGGTGAAAGTAATCTTTGCTTTTTCTGTTATAAAAAATGAATTTTTATAAGTACATTTAATAATTGACTGTTCAGAAATTACTGGAGCGCCTAATGTA
R
GCAAGGCATCCTTCAGGGGCAGTGCTGGAGAATTGTAATAAAGCTAATGAAAGAAAGGAGTGGAGCACAGTGGCCCCAGCTGTGCCAGAATCACCTGAGC
Celera SNP ID:            hCV3127511
SNP Position Genomic:     108247
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52913):
CTAAAGAATCTCTTTAGGTTGTTTATATTTTAGTATTTCTCTCAGGTGATTTGTGTCTTTTGCCATCTCTGTCTTCCTGCCTTAGCCTGCAATTGCAATC
Y
GTATGGGACCATGAAGCAGCAGAGCAGCTGTAACCCCGTGACGGGGCAGTGTGAATGTTTGCCTCACGTGACTGGCCAGGACTGTGGTGCTTGTGACCCT
Celera SNP ID:            hCV3127512
SNP Position Genomic:     107992
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,24)   caucasian(C,10|T,8)   total(C,20|T,32)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,8)   total(C,5|T,8) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:52914):
ACTTGCTCAGTGTAAGTCCACAACTAATTTGTGGCCACTCAGGACATTGAACTGGGTCTCGGAGCAAATTATAAGATAGGTAAAACAGAGGGGACACAAA
Y
GTGGAATAGTGAGAGGGTGAGGAGAGTGCAGTTCAGGCTGGGATCGTGTGTGGCATATTCGTAGGAAACCACAGAATCTGAAGTTAGTTAGGTTTGGATT
Celera SNP ID:            hCV26124258
SNP Position Genomic:     42302
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,11)      total(C,11|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52915):
CAGGTGAAATGAATACTAATGTATTTTATTTAATATATCCAACATATGATTTCAATAAGTAATCAATAAAAATTGTTAATGAAATATATGTTTTTTCTCA
Y
GCTAAGCCTTCAAAATCCAGTGTGTATCTCACGTTTATAGCACATCTCAATTCAGACTCACCAGCCACATTTAAAGTGCTCAGTAGCCACATGTGACAGC
Celera SNP ID:            hCV3127514
SNP Position Genomic:     107767
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52916):
AAAAGAAACAGGTGAAATGAATACTAATGTATTTTATTTAATATATCCAACATATGATTTCAATAAGTAATCAATAAAAATTGTTAATGAAATATATGTT
Y
TTTCTCACGCTAAGCCTTCAAAATCCAGTGTGTATCTCACGTTTATAGCACATCTCAATTCAGACTCACCAGCCACATTTAAAGTGCTCAGTAGCCACAT
Celera SNP ID:            hCV3127515
SNP Position Genomic:     107759
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52917):
AGAAATACATTGTGAACCGCTTTTGTCTTTTAAAATTTTCTAGTCACCACATTAAAAAAGTATAAAGAAGGACAGTCATGGTGGCTGACACCTGTGGTCC
Y
GTAAAAAGAAACAGGTGAAATGAATACTAATGTATTTTATTTAATATATCCAACATATGATTTCAATAAGTAATCAATAAAAATTGTTAATGAAATATAT
Celera SNP ID:            hCV3127516
SNP Position Genomic:     107655
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52918):
TATAGTTGTTTAGTCCAATAGAAATACATTGTGAACCGCTTTTGTCTTTTAAAATTTTCTAGTCACCACATTAAAAAAGTATAAAGAAGGACAGTCATGG
Y
GGCTGACACCTGTGGTCCCGTAAAAAGAAACAGGTGAAATGAATACTAATGTATTTTATTTAATATATCCAACATATGATTTCAATAAGTAATCAATAAA
Celera SNP ID:            hCV3127517
SNP Position Genomic:     107636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52919):
GTGAGCTCTGTGATGATGGCTACTTTGGAGACCCCCTGGGTAGAAACGGCCCTGTGAGACTTTGCCGCCTGTGCCAGTGCAGTGACAACATCGATCCCAA
Y
GCAGTTGGAAATTGCAATCGCTTGACGGGAGAATGCCTGAAGTGCATCTATAACACTGCTGGCTTCTATTGTGACCGGTGCAAAGACGGATTTTTTGGAA
Celera SNP ID:            hCV3127518
SNP Position Genomic:     107320
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,24)   caucasian(C,17|T,21)   total(C,29|T,45)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,25)   caucasian(C,20|T,20)   total(C,33|T,45)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:52920):
TTTTTTAAATTTGCGTAAGATTGCTGTCACTGGAAGTCACTGGAAGTTTTATCTCAAGCCATGCATACTGATCTACATAACATTAGGATAGTTTTTCTTA
Y
TGGTTTATATGTGGGATCTTTACAATATAACTACTCACTCTCCTGCCTCAAAGTATTCTTTAAAAAGCATATTATTGGCTGGGCGCTGTGGCTCATGCCT
Celera SNP ID:            hCV1770080
SNP Position Genomic:     66576
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52921):
CCATCTGGGTGAATTGTAGCTAATGTCCAGAAACAGTAAGAATCACACCGGAACGAGTTGCCAGCCAGCTGCCCATATACTACCTGATGTATGCTGGTAT
R
TCCTGAGACTGAAACTTTGGTATAGGTACTGCTCAGTTAAATGTAGGTCATTCTCACACAGAATCCCATTTGGGCTACCATCTTGTTTCTTTTGAATCAT
Celera SNP ID:            hCV1770081
SNP Position Genomic:     66030
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52922):
TTCTGAAAACATAGATGTCTGCACCTCTGCACTTGCTTGTTACGTCTCCAAAGGTGATTTTGTTGTGCAGTCCCTAGGAAAGACTTAAAATGGAAATGCT
S
TCTTTGAGTGGTTATATGTAATACACCACCCCAAAACCTAATGGTTTTAGATAACTGTGATTTATGATTTCTCATGATTCTGTGTTAGCCTGGGTCACTC
Celera SNP ID:            hCV27847566
SNP Position Genomic:     89227
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,29)   caucasian(G,40)   total(C,5|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:52923):
CTCAGTGTAAGGGCTTAGATCTCATAAAACCTAGGGAAAAACTCTACAGCCCCCATGCTTGTCCTCTGCCATTATGGTACACCTACCAACTTGATAAGTT
R
TGGTTTCTTCAAATTCATTCATTCACTTAGCAAATAATAGTTCGCATACCTACTGCATGCTAGGGAAATGGCAGTGGACAAAATAGAAATTTCCTGCCCT
Celera SNP ID:            hCV941980
SNP Position Genomic:     89732
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,12)   caucasian(A,20|G,20)   total(A,42|G,32)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52924):
TGTGCTGTCTTTCATGTGTTCTGCTGTGTCTGTCTCTATCTGTGCTTTCCTCTGTTTTTACTTTTAGAACCCCTGGGGAAAGGTAGGTATCTGCTTTTTG
R
ATTGGGAAATAGAATAGGTATTAAATTTTTGGTAAAAACCTTTGAGTGGGTATTGACATTTCTGTGAGAGGAGAGGCTGCTTTGTTCCCTCGAGGGAGAC
Celera SNP ID:            hCV188312
SNP Position Genomic:     22497
SNP Source:               Celera
Population(Allele,Count): no_pop(G,7|A,8)   total(G,7|A,8) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52925):
AAGTAAGAGTAAAATGGCAAGCAGATGGAAGCATCTCAAGCAAGGCATCCTTCCATCTGGGTGAATTGTAGCTAATGTCCAGAAACAGTAAGAATCACAC
Y
GGAACGAGTTGCCAGCCAGCTGCCCATATACTACCTGATGTATGCTGGTATGTCCTGAGACTGAAACTTTGGTATAGGTACTGCTCAGTTAAATGTAGGT
Celera SNP ID:            hCV1770085
SNP Position Genomic:     65978
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52926):
TGGGTATTGACATTTCTGTGAGAGGAGAGGCTGCTTTGTTCCCTCGAGGGAGACTGTTGGTGAGGGTGGTGTTGGAGGTGAGACTCTGAATGTAACTAGA
Y
TCGGACTTCTTCACATCTCTAGTGGTTTTCAATTATGAAATGGGCAACTGATGCTCTGAGTCAGCAGCCTTTTAACCATGCCTGACTGAAGAGAACTTGT
Celera SNP ID:            hCV188313
SNP Position Genomic:     22644
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,12)      total(C,4|T,12) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52927):
TTGCTCTTTAAGGTCAGGGTAGTGTCCTGTGAGGTTCTGCCAGCCTCAGCCTTGATGTGGATAATACCATCATTTGTAATGTTGTGATATGGTGGAGCAG
R
AGTTCTCTGGCCTCAGAAAACATAGCTTGTGTGAAGTTAGTGAAATGCTCATGCTTCTGCTGTCTGTGATACTGAATCTTTCAATATTTTTGGCCTTAAC
Celera SNP ID:            hCV1770086
SNP Position Genomic:     65525
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52928):
GACTCTGAATGTAACTAGATTCGGACTTCTTCACATCTCTAGTGGTTTTCAATTATGAAATGGGCAACTGATGCTCTGAGTCAGCAGCCTTTTAACCATG
M
CTGACTGAAGAGAACTTGTGTTTGAAATTCACAGCATTGCCTGGATCCCTGCTGTCTTTTTGTGCCTCCCGCTAACACACAGCTGTTTTTGTTCATACAT
Celera SNP ID:            hCV188314
SNP Position Genomic:     22725
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,9)   total(A,4|C,9) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52929):
CAGCAATTGTATGCTAAGAGTATGTTTAGAAGAAACTGCCAAACTGTCTTCCAAAGTAGCTGTACCATTTTGCATTCCCACAAGCAATGAATGAGAGTAG
Y
AATGCTTTCGAATACTAAAGAGATTGCAATGTTAAATGTATTTTTGATGATTTCCTTGTGGAGATATCATTATGGCAAAGGACCATGAAGCACGGTAAAG
Celera SNP ID:            hCV1770087
SNP Position Genomic:     64966
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52930):
ATACATTTATCATACCATTCAGCAATTGTATGCTAAGAGTATGTTTAGAAGAAACTGCCAAACTGTCTTCCAAAGTAGCTGTACCATTTTGCATTCCCAC
M
AGCAATGAATGAGAGTAGTAATGCTTTCGAATACTAAAGAGATTGCAATGTTAAATGTATTTTTGATGATTTCCTTGTGGAGATATCATTATGGCAAAGG
Celera SNP ID:            hCV1770088
SNP Position Genomic:     64947
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52931):
AATCCTCTGCTTTGTCTTTCATCCTTCTCTCCTCCCCCACCTCCAGGCAATCACAGACCCTTTTACTGTCTCCTTTCCCAGAATGTCATATAGTTGGAGT
M
ATATATTATGTAGCCTTTTCAGATTGGCTTCTTTCATCTACTTATATGCATTTAAGTTTCCTCTGTATCTTTTTGTAGCGTGATAGCTCATTCTTTTTAT
Celera SNP ID:            hCV1770089
SNP Position Genomic:     64563
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52932):
TACATATTCATGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCATGTTGTGCACATGTATCCTAAAACTTAAAGTATAATAATAATT
W
AAAAAAAAAAAGAACTACATATTCATGGAGTGCCCATGATTCCTGCAGGAAGTGTGATTGAGTTCTTCAGGAATACTTGTGTGTCCTACCTTTCCCTTTT
Celera SNP ID:            hCV9100017
SNP Position Genomic:     111054
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52933):
TGAGTCTAAATGAACACTTTTCTGCAGTCCTTAGTGTAGTAAGATGGGAGCTTGTTCAGCAAGATAGGCAAGTTCATGCATATGAGTTTTATTTCAGAGC
D
AATTGACATAATTTATCAACCAAAGTGATTTATTTTTAAAACACCTCATTAGAAATACTCAGATCTGCACATTGCCACAAAGCAAATGAAAATAAGTTAG
Celera SNP ID:            hCV26124261
SNP Position Genomic:     45895
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2|T,2|-,5)   total(G,2|A,2|-,5|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52934):
TAGTAGTTTCCTATTGGCTGTTCTGTACTTATATATATAGATATACATATATATTTTTGTTGTTGTTGTTGTTGTTGTTGTTTTTGAGAGACGGAGTCTC
R
CTCTGTCACCCAGGCTGGAGTGCAGTGGCAGGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTAATTCTCCTGCCTCAGCCTCCTGAGTAGC
Celera SNP ID:            hCV26124262
SNP Position Genomic:     50102
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52935):
GAAAATGGATTTCTTTTTTTTAAAAAAGGCCTTTGTTACAATCTTATTGCCTGAGATGATGTAACATGTTAATGGGTTATCCATTTTGTATTGTTTTTTT
K
TGTGTGTGTATGTGTGTGTGTAAAGAATACACACAATCTCAATGCTGAAATGAATTTGAAATGTAAACTAATTATTTTCAAGTGCATAGGATATTACAGT
Celera SNP ID:            hCV26124263
SNP Position Genomic:     50824
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52936):
GAATTGCTTGAACCTGGGAAGCGGAGGTTGCAGTGAGCCGAGATTATGCCATTGCACTTTAGCCTGGGTAACACAGACTCTGTCTTAAAAGAAAAAAAAA
W
TTTTTTTGCTTTTTAAAAATTGTACTAGCTATTTTTTCCACAGTGCTGTTTAAGTTATCACAGTTTCTAGGCTGTGTCCTTCATCATTGATTATCTACAT
Celera SNP ID:            hCV26124264
SNP Position Genomic:     62838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,5)      total(A,5|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52937):
CTTTGACAATGAAACAGGGTACTAACAGCGACAAGTTGAGGAGCCTTTCAAAAGCAGCTCCCTATCGCCTTTGTAGTACATCAGTTACTAAGTTACTATT
S
AAAACGGCTTCCTACACCTCACTGAGGTCCATTCATTTCTCTCCATTCCTCTGTTCCCATTCTTAGTTCAACCTCTGTCATCTCTCCTGGATTACTGCCA
Celera SNP ID:            hCV8350056
SNP Position Genomic:     82726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52938):
GCTTAGGATGATTGATAATAACCCCAGCTCCACTTATTGGTCACTGAGTTGAGTCAGACCTGCTGGGGATCAGAGGTTTTGTTTCTTCCTGTTTTTTTTT
Y
CCATACTCAGTAGCTAGTTAAATCTCAACCATTATAGTTTGATGCCAGTGTTTTAAATCCTGTGTTAAACAAGAAACTTACGTTGTTAGACTGTGTGGTA
Celera SNP ID:            hCV26124265
SNP Position Genomic:     63241
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,7)   total(C,6|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52939):
GGCAACATTTGAACAGTCCAAATGGGTCTGTGATGATGCCGTACTTTCAGAGACAGCAGACCCCAGTGCTGAGAGAGCAGCCTAACAGATTTTATGCTGG
S
AAGTCTCAGGGTGGCACCTCTGGAGAGCCTTGTCTGTCCAGGAGACAGAAGGGATTTGCTTTGAGGGTTCATCCTCTCATCTGCCATGTGTTTGCAGACC
Celera SNP ID:            hCV15752373
SNP Position Genomic:     117536
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,239|C,1210)   total(G,239|C,1210) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52940):
AGCTGTCACGGAACACACTTGCTCCATATGCTTCAACTGTACTCAAGTCTCCAGTGTCCATCTGCATACTAGTGAGTCCCAAGTCTCTGTCTCTAACTCA
K
ACATCTCTCTTGGCCCGTCAAACTGCTCACATCCAGCTCCCTACAGACATTTCCTCATCTACTGACCTGCAGGCATCCCAGAACTAGTGTATCGGAAACT
Celera SNP ID:            hCV8350057
SNP Position Genomic:     82363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52941):
CTCAAGCAAGGCATCCTTCCATCTGGGTGAATTGTAGCTAATGTCCAGAAACAGTAAGAATCACACCGGAACGAGTTGCCAGCCAGCTGCCCATATACTA
C
CTGATGTATGCTGGTATGTCCTGAGACTGAAACTTTGGTATAGGTACTGCTCAGTTAAATGTAGGTCATTCTCACACAGAATCCCATTTGGGCTACCATC
Celera SNP ID:            hCV26124266
SNP Position Genomic:     66012
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52942):
AGCAAGGCATCCTTCCATCTGGGTGAATTGTAGCTAATGTCCAGAAACAGTAAGAATCACACCGGAACGAGTTGCCAGCCAGCTGCCCATATACTACCTG
W
TGTATGCTGGTATGTCCTGAGACTGAAACTTTGGTATAGGTACTGCTCAGTTAAATGTAGGTCATTCTCACACAGAATCCCATTTGGGCTACCATCTTGT
Celera SNP ID:            hCV26124267
SNP Position Genomic:     66016
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,5)   total(A,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52943):
ATGGGGAAGGAGACCCTTTTTGGTTTCACCATATTATAAGTATTACTAAGCATGTGTTGATTTATGGTAATAATTTACATTTATTAAAGCACTTACTATA
R
CATACTATAATGTGACAAGCACTGTTCTAAGCCCTTTGATTTTCTACCTCAGTTAACCCTCACAGTAACCCTGTAAGGTAGATACTTTTATTGTCTCCAT
Celera SNP ID:            hCV27853481
SNP Position Genomic:     88544
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,35)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:52944):
GGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGATCGCGCCGCCGCACTCCAGCCTGGGCGTCAGAGCAAGACTCCGTCTCAAG
A
AAAAAAAAAAAAAAGCATATTATTTACAACATCAGCACTTTTAATTTTAAAGCCATACCTACTAAGAATGACTACATAAACCTGGGTTAATTTATTTTTC
Celera SNP ID:            hCV26124268
SNP Position Genomic:     66926
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52945):
CCAAGAGGTCAAGCTCGCAGTGAGCTGTGATCATGCCGTTGCACACCAGCCTGAGTTTACAGAGTGGATCTATCTCAAAAAAAAAAAAAAAAAAAAAAAG
R
TGGCGGGGTGGTGTTGAAACTGAAAGATCACAGTGCTTTAAGAAGTAATTTGAAGTTGAGTAAGTAAAATAAAGAATGTTCAGTTAAGAAGTTTGGCTAT
Celera SNP ID:            hCV3127524
SNP Position Genomic:     102772
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52946):
CAAGAGCAGAGAATTCATCCTTTCTTGCTACTAAAGAATTTATTCTAAAACATTACATGTCACTTGTCCCTCGTGGCTAGATGTGGATAGAGATGCTGGA
T
TGTTTGTTTGGAGCATGCAGATTGCACTGTTTCATCTTTTGTAGACACAGAAATCAAGAGTTATCTTTTTTCTTCCAAAGATGGAAACAACTATTTGAGA
Celera SNP ID:            hCV26124269
SNP Position Genomic:     69096
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52947):
AAATAAGAGCCAAGGGAGAAAAAGAATTTTAAGAAAGAGAAACAATTAACAAGTTTAGGAAGCTAGCATCGTTGGGTTTTGGATTGGTGATTCCTTAATC
R
CTGCTGAGTTTTTGTTTTTAAGAAGTGTTAAAACTGTCCAGGCGTGGTAACTCATGCCTGTAATTCCAGTACTTTGGGAGGCTGAGGCAGGAGGATTGCT
Celera SNP ID:            hCV3127525
SNP Position Genomic:     102433
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52948):
GGCTTAGGAAGAGATTAGGACTAGCGATCCAGATTTAGAAGGTTGTCAACATATGGGCAATAATTTTTAAACTTGGAAATATGACAGAAAATATAGATGG
R
AAAGAAGGATGGAATCCTGGAAACAGTTAAGTCCATGCTCTAAGACCCAAGGGCAACATGGCGAAACCACATCTCTACTAAAAAGTACAAAAATTAGCAC
Celera SNP ID:            hCV3127526
SNP Position Genomic:     102072
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52949):
CCATATTGGCCAGGCTGATCTCAAACTCCTGACCTCAGGTGATCCCCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCCCTGCACCCGG
Y
CAAAATTTTTTTTCTTAAAAAAAAGTTTTAAACAAGGACCTTTTTCTCTAGCAAGGTACAGCTGTTTGGGGAGGTGGAGTTAGTGATGATGTGGTATTGG
Celera SNP ID:            hCV3127527
SNP Position Genomic:     101775
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52950):
ATCTGGGTTAGATGATCTTCTCCATGCTTTCCAAACATGATGTACTTCCCCTGTCATGGAGTCATCTCATGATGAGTTGTAAATTGCAGTTGTCTGTATG
Y
GCCGTTGGGTTGACTGCAACTCTGAGGGTGGTGCACGTGACTCTCTTGTCATGGAGGTGTGTGAGCCTCCATACAGACTGCCACAGAGCTCCCTCATTTC
Celera SNP ID:            hCV3127528
SNP Position Genomic:     83316
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52951):
TGGCTTTATGTTGAAGCTAATGTGTGTGCAAGTATGTTTCATGTATGTGGGGGACAGTTAATCCAACCTCCTCTAAGATCTGGGCCAGTTGAGAAATAGT
Y
GGATATTGCTCATCCTGTCAGTTTTATTATAGAGAACGCTCAGTTGAAGAATGTGGCCTGGACACATAGCTCGCATGGGCTTTCTGCTCTTTTCCTCCCT
Celera SNP ID:            hCV3127529
SNP Position Genomic:     84469
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52952):
TTTTGACGATATACTCCTGAGCTTTCACTCTGCTGCTTCTCCCAGGCCTCTTCTACTATGGCAGGAGATGTGGCGTGCTGTTGCAAAGTTTTCACGTCAT
Y
GTTTCCTGGCTAGTTCATTTCATTAAGTGGCTACATCCTAACATATGCATTTGGTCAAGGTTGCAGAAGAGGACTGAAGATTGACTGCCAAGCTAGTTTG
Celera SNP ID:            hCV3127458
SNP Position Genomic:     127602
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   ;JBIC-allele(T,552|C,897)   total(C,897|T,552)
SNP Type:                 UTR 3


Context             (SEQ ID NO:52953):
AATGCCCTTTCTGGCAATTGTTGGAGCTGGATAGGTAAGTTTTATAAGGGAGTACATTTTGACTGAGCACTTAGGGCATCAGGAACAGTGCTACTTACTG
R
TGGGTAGACTGGGAGAGGTGGTGTAACTTAGTTCTTGATGATCCCACTTCCTGTTTCCATCTGCTTGGGATATACCAGAGTTTACCACAAGTGTTTTGAC
Celera SNP ID:            hCV3127459
SNP Position Genomic:     127408
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:52954):
ATCACTTGAGGTCAGGAATTTGAGACCAGCTTGGCCAACGTGGTGAAACCCCATCTCTACTGAAAATGCAAAAATTAGCTGGGCATGGTGGCACACACCT
R
TGGTCCCAGCTACAGTGAGGTGAGATTGTGCCACTACACTCCAGCCTGGGCAACAGAGCGAGACTCCGCCTCAAAAATAAATAAATAAATAAATAAATAA
Celera SNP ID:            hCV1770091
SNP Position Genomic:     64059
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52955):
CAGCTCCACTTATTGGTCACTGAGTTGAGTCAGACCTGCTGGGGATCAGAGGTTTTGTTTCTTCCTGTTTTTTTTTCCCATACTCAGTAGCTAGTTAAAT
Y
TCAACCATTATAGTTTGATGCCAGTGTTTTAAATCCTGTGTTAAACAAGAAACTTACGTTGTTAGACTGTGTGGTAAGGTTTTAGTTTTTAGTTAGTTTT
Celera SNP ID:            hCV1770092
SNP Position Genomic:     63265
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52956):
AAAAATACAAAAAAATTAGCTGGGCGTGGTGGTGCATGCCTGTAATCCAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGTTTGTGGTGAGCCAAGAT
Y
GCACCTTTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTGTCTTAAAAAACAAAAGAATATTGGAAATAAGGAGGAGTGAAGAGTGAAAATTTTAATC
Celera SNP ID:            hCV1770096
SNP Position Genomic:     61533
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52957):
TGTTGTTTTCTGCATCTGGAGATAAGATGTTAACTGGAAAGATATTTATCACATTGGAATGTTAGTTGCTTTTTTAAATGTGCTTAAGGCCCAAAGCTCA
R
TTAATAAGATAGGATCCTCATATCCCAAAATCTTGAGCCAAGGGAGGGAACTAAACCTTTAACAGATGAGCTGGTCAGGCGCGGTGGCTCATGCCTGTAA
Celera SNP ID:            hCV1770097
SNP Position Genomic:     60812
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52958):
GCATGGATGCTTGGTGAAAGTCTTAGGGAAGTGATTCCTTTGAAGTACCTAGGAGAATAATTATATAGCATTTTCATTTTACATTGTGATCCTGTTAGTC
R
TTTTGGAGAGGGAAGACTAATGATAGCAGACAATGCTGGCTATTTGCAGGAATGCCTTTCCCTGTATCCTCTTCCCTGTTGCTTGTTCTCAGTGCTGTTC
Celera SNP ID:            hCV1770098
SNP Position Genomic:     59868
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52959):
CGTTTCATGAGTTCATTTTGGTAACTGATGTAATTAAGAGATACTTTGGAGAACAGTGTGGGTTGCTTTTGTCTAATTTAGAGAAAACAGAAGAAAGGAC
Y
TAAAAGGAAAACAATCTCAAACCCAACTTGCCCCTGCATTTCTCCTTTTTTTTTGAAAAGCATGGATGCTTGGTGAAAGTCTTAGGGAAGTGATTCCTTT
Celera SNP ID:            hCV1770099
SNP Position Genomic:     59708
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52960):
AAGAGCAGAGAATTCATCCTTTCTTGCTACTAAAGAATTTATTCTAAAACATTACATGTCACTTGTCCCTCGTGGCTAGATGTGGATAGAGATGCTGGAT
T
GTTTGTTTGGAGCATGCAGATTGCACTGTTTCATCTTTTGTAGACACAGAAATCAAGAGTTATCTTTTTTCTTCCAAAGATGGAAACAACTATTTGAGAA
Celera SNP ID:            hCV26124270
SNP Position Genomic:     69097
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52961):
AGAGCAGAGAATTCATCCTTTCTTGCTACTAAAGAATTTATTCTAAAACATTACATGTCACTTGTCCCTCGTGGCTAGATGTGGATAGAGATGCTGGATT
G
TTTGTTTGGAGCATGCAGATTGCACTGTTTCATCTTTTGTAGACACAGAAATCAAGAGTTATCTTTTTTCTTCCAAAGATGGAAACAACTATTTGAGAAC
Celera SNP ID:            hCV26124271
SNP Position Genomic:     69098
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON;TFBS


Gene Number:                 256
Celera Gene:                 hCG40998 - 83000099354134
Gene Symbol:                 TCF7L2
Protein Name:                transcription factor 7-like 2 (T-cell specific, HMG-box);TCF-4;TCF4
Celera Genomic Axis:         GA_x54KRFTF114(19195581..19425010)
Chromosome:                  Chr10
OMIM number:                 602228
OMIM Information:            TRANSCRIPTION FACTOR 7-LIKE 2;TCF7L2


Genomic Sequence (SEQ ID NO:12416):
GCATGCCCTCAGGCTACCCAGAACCGGTGTTTGCTAAAGATGACAGTCCACTGGAAGACTCTCTTACTGTTGCTAAACCTTGTGCTGCATATTGTTGTCT
ATACTGAGACCCAAACTCACTCTGGATCCTGGAACTCATTCACTGAAACTTCTTCCCTTTCCTCATCCAAATGAGTGTTTTGTTAGGAAACGTAATCCAT
CCGTACTAATTTGGAATTTGCAGAAACATTTGGGATTTTGCAAGGGAGGAGAGTTGCTGATTCTAATCCAGTCTCAAGTGATTCCGTCAACATAGATTTA
GTATTTTCTCAAGACAGTTTGGGGCTGATGCTGCTGTGGATTCCTAGTGAGGACCAAACCTGAAATCTTCACACTATGGACCTGAGAGTCTCCTTGGATA
TTTTACCTCCTCCCATCCCATATTGCTTCTGGCCAGATGCAGGTGTGTCAGCCCACACCTAGATGAATTTCAAGGGGGAACAATGGCATCATCCTCTCCT
GAAGTTTCACCTGCTCTGTCGCTTGAACGCACGTAAGCCACCTTGTGAGACTGTTCAATACCGGGGGACATAGTATCTGCCTCATTTTAAGGTGCCCATG
TTTTAGTGGAAGGTGCTTTGCTATCTGTGACATTTTTGAATACAGCAATGGATTTGAGTGGGCAAAGCTGCTCTGTAAGACAGGGTGGGGTCATTGAAGC
CATTTTAAAAAGAGAAAACAAAAGAAAACCTCAGGCATTTTAATATGTTAAATACGCATCCAATTATTAATTCTAAAGACTTCTACAAATCAACCTAGAT
GAAACTTTTTTCACCTTTTTCCTGCCTCTTTTCCCCTTCTCAGAAACATTTAGACCTACCCTATGGCAATGACTATTGGGAAGTCTCTGCCCTGTATATC
AGGGTAGCACAAATAATTCAGCACAAAGCAGCCCAGTTACTGTAGCTTGGCATTAGGATAAGTATATCTTAAGAAAGTTCTTATGCAGACTTGGCTTCAG
GCAATAAAACGTCATAGACGTATAACTGTAGCGAGTGAAATTTCTAGGGAGCAAATTAGGCTGAAAACATCTTCTAGAGACAGCTAGAAAGGAATTGTAC
ACCACCCCAAAATAAGGCAAGTTATGCAGTAAATGTTTCATTTATTGGCCTTCTTCCATTACTATTAGGGTTAAAAGACATCTTGTCAATAAGAAAAGTA
TATTTATGGAGGACTGATGTCTTTCAGAAAGCTGTTCCTGTCACAAATGCCTATAGCAGTGGTAATCGGCTTATGAAGGCAGGTGATGAAACCCTGTACA
GATGCGTACATCTCCCCATTAACCCTTGGATCATCAGGTATTATTGTCACTTTATTACCTGGACCTGTTATTAGCTGAAGCAAGGTGATCAAGCCGGGCA
CTTCAGAAAAATGTCAGAACAGAAGAGTGTTCCTCAGGGTTTCAAGGGGAGAGAGTATGTGTCTCTCCAAGTCCCTTCACAGAGTCTTTGGGGGGATAGA
GGATGCCTGTGAAGTGGGCGCTTTTGCCTAACCCTTCCTCTTGCTAAATTTGAAAACTCTTGGGTGTCCAATTTTTTAACGTTCCTATGTTGGCTAAGGG
AGTAGCTTTCCTCAAGGTCCAAATAAGGAACCATCACCCACGCAGAACAAAAAGCAAACAGAAAATCTCACAGCGGAATCAGGACTTTGGCTTCTAAACA
TTTCCCCATTTTATAGCTTCCTTATGTTTTCAGAGTCTTTTTTTGGCTTCCTTTAGCACACTCCCGGCATAGATAAGTCCAACACAGTGGGGTAACAGAT
CATCCATCTTGGAGCCCAGATCTTTAAAGAAAAATCACACAGGAACACAAATACACACACCCACACATGTACATATCACTGTCAAGGGTAACTTAGCAGA
ATCTTGCCGAGTGACTGGGGGAGCTGAATATGGTTGTCAACATGTATTCCCCACTTCGGGTAAATCTGACAGACTAGCCTTGTTTTTCTCAAATTCCAGA
GCCAAGCTTTCAATATGGTTTGTCTTCTTTGCTGGTGTGCGTGAATCTCTGAGCCATAACTGGGGCGTGTGGTGAAACGATGGAATCACGGACTTTTAAA
TATTAACAGGCAACTTAAAAAAGCCCATTCCAACCACCTCATCCACCAGGTGAGACAAGACGAAGGGGCCGTGGGTGACACAGCCTGTGGCAGGCCTATT
TCTGCAGTCCCCTGTCAGGCACATTCCTGTATTTCAATGGGCACCTAACACTTCACCATATCTCCCACGTGGGGAACCAACACTTAAAAGGTGATTTGTG
TAAACAGAAACCTCCTTTTCATGCTCATTGATAGGGATAAACAAGGAAGCACCTCTGGAAGAGGTAACACTACTCACTTAAGTTTTAAGGTATCAGCATG
TATCCAAAGAGAAGGATTTAATCAAGGGAGGGCTGAAGGAGAGGAGAAAACAGAAGAGAAGCAGCAGAAGGGCAGTGGATGAAGAGGGCGAGGTCAAAGT
CAGAGAGGCCTAGGGACAGCTACTTACAGTTCAGGACCTGGACTGGCGCCAGGAATGGACTCCAAGGGGTGAGGGCCCAGCTTCTCCCTGCCTTCCTCCC
AAAATATGCAGAGACCTAACTGGATTCCAAGGGATGAGGGCACAGCTTCTCCCCCCTCCCACCCATTTCCCAACATGCAGAGCCCATGGTGGCAAAATCC
CCTGGCTCAGGCTAAAGTCAGAACTGGTCTGGTTTCCTGTGTTTTTCAAATCTCTGCCATTTGGGCAGAACGCTTGGTCCTATAAACCAGGAGTCATCAG
TATCCACAGAGAAGTTGCCTCAGCACTTGGACCCAAGTCAACTGTGTTTAAAATTTCACACCAAATCTATAAATTACACATTCACATTGTGGGCCAGCCT
ACCTTTTTTTTCAAATAGTATTCAAGGTATTTTTCTTTTTTTTTCTTTTCTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGGCCAGGCTGGA
GTGCAGTGGCGCCATCACGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTTCCGAGTAGCTGGGACTACAGGCACCCGC
CACCACGCCTGGTTAATTTTTTGTATTTTTAGTAGAGACGGTGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTT
GGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCGGCTATTCAAGGTATTTTTCAATACCTTGCTGCCTGGCTACTGCAGTGCCAATTCT
GCCATTCCCCCCCGCTCCTCAATTCAGGCATCACCTGAGGGACTTGCAGAGCATCAGGGATCTGGCCCCTCTGAGATCTTGCTGGTCTACTCAAGCCTTT
GTACAGCACCAGGCAACGAAATTAAATGTGGGACATGCACTATCACAGAATAACTTTTTAATTGCTTAATTAAATCAGAGATTTAAGGAAGGAGAGATTC
AAAAGAGTTCCCTTTGAATGAGAAAAATAAGGATATGCCAAAATGGATAAAGTTACTAATCATGGGAACAAAGCCCTTAGTATTTACATATGATAAAAAT
GCAGGCCAGTATAGTAAAATCAGTAAGTACATTCTTTAAAATTTCAATTCAGTATATTCCTGAGATTTTATTATACAGGTAGTACTATAAAGAACATAGA
AGACCTCATTATCCAACTTAATTCAGACCAGGGTTTGATTAAAAAAATAAAAAACAAAAAACTACCACACAGGACAAAGAAATTGCCATAAAATTGAGTT
CCTATAAATGTGTTCCAGTTTAAGTAACTAAGTCCCTAAAATGAGCCTTAGTAAAGTCTACGCTGCATATAGACAGACTTAGGCACATCAAGTATACAGG
TGACAATTAGCAAGTGTATAAAGCTATGGTCATTTCGCTAAATGTGTAAATCTAAAGGCAACCAAGTAAAAGACCTAAAAAAGGAAACTGTTAAGTCCAT
TTGTACATGGATTTAACAGTGAAGCATTTCATTCTTCATGTTTTCACTTGGTGTCTTGAAATAATCCCCTTTCTGTCTCCACTCTCCCTCTTAGACACTG
CACCTGCCTTATTTATTTATGAAGTCTGAAGGTTAGTCCTACCTGCTGAGACTAATTAGCCCTGTGCTTTGTATCCTATGCAATCCTGTCTGATTAAATG
TACACATTTGTTTTACTTCTTTTCAGGCTCCTTCTCACTCTACTTCTGATATTCTGATTAATATCAAAGTTGGGAGTTACAGTGATTCTCCTCTGCCTCC
CCCCCAACCCATTTTTATTTTGCCTGCATCTTATTCTTTAGTGTGCAAATGTGGTTGTGATTTTTTTCCAGTGCAGGGGAATTCGTTGGCCTTGTCAATC
TCGGTATCATTATTTTTAGTAGTCTTTCTGAGACTTTAGCCTATAAAACAGTTTTGCTGAAACCCCAAACTCTCTAAATATTAYATGGCAAATTTGCTTT
CTTTTGGAAACCTCGGTGCTGATGGGCCAGCTGAAGTGCAGGTGAGCTTTTTCAGGGAAGGGTGGGACAACAGTACATCCTGGACTCTAGACTAATACTA
CTCCTAAGAGGCAATTTGCTAAATCCTACTGATTTATTTTTTTCTTTTTTCTCTTTTTCATGTTGTAGTGTCCAGTCTACTTCTTACTGGGTATTTGCAA
AAATGAATTTTCTTGCTCTATCACCCAGGAACATTGTGTTTTGGGAGCTGGGTCTTTCCTCTTTAACATAATTCCATTCCCCATTTTGTAGCAAATCAGT
CTGCTCCTCCTCTAATACCTAAAAGTCAACAAATACCTGCCTCAAGCCCCAGGTTTCCCATCTTCTCCCGAAGGTCTTCTAGCATCGGTTTGGTTAGCAA
TTTCCTGCCAGAGCCACCTACATCTTGATTATTTTGGTCAGTCTTTCGGGGATTTCATTTCAGACCCCCTTCGAGAAACACTGTAGCCCAACTGATCCCA
GGGGTTGGTGAACTTTCAGTTTTATTTTCCCTGACGGTGTTAACGCCCAAACTTTTCACCTCCTAAGTCAAAAAGGACTTTGACTCTAGCTCATTTCCTA
CTACCTCCAACGTCAGTTAAAAAAAAAAAAAAAAAAGCAAAACACCACTCTACATTTAAAAGAATCATATATTTTTCCTTAAGGATACTTTTAATGTTTC
TGACATTTAGCATTTGTTTTTTGCATAAAAAGTCGTTTTGGCATATCCATCCTAGTGGGACTTAACATTTCATGAAATGATTCACTACTAATAAACAAAA
AAGGGAGGAGGGAGGCCTCATGGGTTAATAGTTTCTTTCATTGTAGATGACCAGGAACTTTGACCAGCCCCTTCACTTCCCCAAGCTCTCTGAAAGTGGA
GGGTTGATCTTTCCTTTTGACCACTTTTGTCGCATCCCGTCTAAGGGTGGCTGATTTCACTGCTGAATTAACCACCAAGCACCCCCCCACCCCCTCCCCC
AGCCACCACTTTCTCAAATACTACCCTTCCTTTTCCCCCTCCCTTAAGACTTATTTCTAATATTTCTAAAGTGCACTGTTTTGGGCCTCTCCCCATCCCC
GCCCCCCAAGTGGGCTTTCCTTCCGCCTTCCTCGGCTCGGATTCCTGACTTGGTCGCCACCCCCTTCTCCTCCTCTCCCACCCCGCATTGTCTTTCTGAA
ACCGCCCCCTCCCGGAGCAAGTCCCTGCACCCTCGCCCAGAATCCCGGGCTCGCACACACTCCGCGCAGGCCGCTCCCCCTGCACACTCCTCCCTCCGTC
TCCCCCCGGCTTCCCCGCCCCTCTCTTCCTCCTTCTTTCCCTCCTCCCTCTCCCGGCGCCCGAAAGGATCATTGTTAGCCGCCCCCGCCCCGCCCACCCC
GGCTGTTTATTTATGCACACGTCACTGGGCCGGCCCCGCCCTCCGGCATCTCATTAAGGCAGTGTGTTCCTCTCGCCCTGTCAATAATCTCCGCTCCCAG
ACTACTCCGTTCCTCCGGATTTCGATCCCCCTTTTTCTATCTGTCAATCAGCGCCGCCTTTGAACTGAAAAGCTCTCAGTCTAACTTCAACTCACTCAAA
TCCGAGCGGCACGAGCACCTCCTGTATCTTCGGCTTCCCCCCCCCTTTGCTCTTTATATCTGACTTCTTGTTGTTGTTGGTGTTTTTTTTTTTTTTACCC
CCCTTTTTTATTTATTATTTTTTTGCACATTGATCGGATCCTTGGGAACGAGAGAAAAAAGAAACCCAAACTCACGCGTGCAGAAGATCTCCCCCCCCTT
CCCCTCCCCTCCTCCCTCTTTTCCCCTCCCCAGGAGAAAAAGACCCCCAAGCAGAAAAAAGTTCACCTTGGACTCGTCTTTTTCTTGCAATATTTTTTGG
GGGGGCAAAACTTTTTGGGGGTGATTTTTTTTGGCTTTTCTTCCTCCTTCATTTTTCTTCCAAAATTGCTGCTGGTGGGTGAAAAAAAAATGCCGCAGCT
GAACGGCGGTGGAGGGGATGACCTAGGCGCCAACGACGAACTGATTTCCTTCAAAGACGAGGGCGAACAGGAGGAGAAGAGCTCCGAAAACTCCTCGGCA
GAGAGGGATTTAGCTGATGTCAAATCGTCTCTAGTCAATGAATCAGAAACGAATCAAAACAGCTCCTCCGATTCCGAGGTAGGAAAAGCCCCTCGGGCTG
GTGGGGTTTTTTATCTGTTTCCTGGGCTTGGCAAATGTTGCTGAAAGGGGAGAAATCGGGGCTGGGGGCGGCGGCGGGGCCCGGCGGGCGGCGTGTGCGT
ACGGTGCCACCATTGCAAAAACTTGTAACCCTGTTTTTTTCTACCCCCCCTCGACCTCGCCGATTCTTTTTCTCCCCCTTCTCCCCCTTCTGCGTGGCGT
TTGCCCCTCGCCCTCCCCACCTCCACCCCTCTGGGAAGGCGGAAAGACGGCCTCCGCCTCGCTCCGAAAGTTTCCGAGACAAATCCCGGGAAAGTTTGGA
AGAAGGTGAGTACGCCCCGCGCGCCCCGCAGCCGCCCGGAGCCGCCCCCCGGGCCGGCCGCCCCGCGCGCCCCGGCCCCGCGCCCGGCTCGGCCTGGCCC
TGCGCCGGCCCGGTCGGGGCGCCCGGCCCCTCGGGGCACTTTCTAAAAAGTTTCTCCTCACTCTCTCCCGCTCCGCGCGGCCGCCGCTGTCCCCTCGCCG
CCCCGCCATGTTAGCGGCCAAGAGGCAAGATGGAGGGCTCTTTAAGGGGCCACCGTATCCCGGCTACCCCTTCATCATGATCCCCGACCTGACGAGCCCC
TACCTCCCCAACGGATCGCTCTCGCCCACCGCCCGAACCGTAAGTGCCTCCGCGCCCGGCCCCCGCCCGCTGCCCGCCCGCCCGCGCCGCCCGCCGGGCC
CCGCATGCGGCCCCTGCCCTGCCCCCTCCCCGCCTCCCCCTCCCCGCCTCCTCCCCTCCCTCCCTCCCCTCCCCCGCTCGTGGCCCAGGAGGCCCGAAAC
TCTCCAAACTTTTCTGCCTTTTGTGGACTGGATTTGTTTGCACTTCGCCACGTTCTTGCTTTCAGTTTGCTGCCTCGTGATGTTGGGGAGACCTCTCTGT
CCAAGCAGGGCTTTGTTGGTGGGGAGGGGGGGGAATCCGAAGAACTTTCCTTTGCGTTCTGGTTCCCCCTCCCCCTTTGGTGGTGGTGTTTGTTTCTTCA
CCCTGGGAAGATGACTCTGTGGCTCTTYCTTTGCTCTCTCTCCCTCTCTCTCCTTCTCTTCCTTCCCTCTTCTGTGGCGTCTTGGGCTTTCCCCGGTTAA
CCCCTTGGCTGCCGCTGCGGGCCACGAGTGACTGACTGTGCTGCGCCCGATGCGCRGGGTAGAGAGTGGGTTTCCTCCAGGCATTGGACTTGAGAACTGG
CTAGCGCGCAGAGCCCGGGGCCCTGGAGAGGCTCCTTGGCTTTCTCTTTTGGGCGRCTATGTATTTAGCTTTCTAGTGGAGATTGCTGGCTCTCGGCCCT
CCTTCCCCCTTCCCCTGGAAGGTCACACTTCCCAGATTGGTCCCACCGCAAACTTGGGGGCTCTGAGGCGTCCTTTTCTTTGGCAACCCGCAGGGCCGCG
AGCGCCCTGGGCGCCGTGGCGGGCTCSGCTGCCCGGCGCACTGGCTGCGGGCTCTCCCGGGCCGCGCAGGGCAGCAGGGCTGAGTGGGGCGGGGAGGCCC
CTGCGGCCCGGATTCTTGGTTTGTGTGCAGCCGGAATGGACTCCTCCAAGCGGACTTGTGTATTTCTAGGGAATTTTGGCGCCTTGGGATGTATGGCGGG
GTCGGCGCTCGCCAGCTTCCGTGTAGGCCCGTCGTGGGCCCCAGGGGGGCCAGAGACCAGGGTGTGCGGGCTCAAGGAGGTGCGGGGGCCGAGGGAGGCT
GGGGCGCCTCTCCTTCAAGGGAGTGGGCCGCCGATCGCCGGCCACCCAACTTTGGGGGCCCCAGGGCAGCGCGGGGTGCCGGGCTCGGGGGGCGCTTCCT
GCAGGGTCGGTCCCGCGCCCWACCCTGACATTTGTTAATACGGCTCATCCCCTCCCCCACCGGCCTGTGCCCCCTGCCCTCACCCTGAACCCCCTCCTCC
TCATCCCTCCCTGCCCTGCCCTACTCACCTCCGGGGTTATTCTTTCCTCAGGTAGGGCCTCGTCAGCTTCAGCCTTCCCTCCCTCTTCTAAGAAGCCTGG
ATTACGAATCCCTGGACGCAAGACGCATTTGTGCCCGGCTTCCGGTATTGTCATTTTACACCTTCTCCAGTTTGGTCCCCTACCCCTTATTTACACACAC
GACTTTTGTTTTTTCTTTTTCGGTAACTCTAGATAGCAATTTGAAATAATGCACCCACTGTTCAGCAGCCATGGATTCGGTGCTAATGGCCGAGGGCTTG
CCGGACGGGAGTCGATCAGATCTACAAGTGTTTTTAAGCATTAAAATATTAACTATCAGGTTTGACTTGCTTTTTTGGGCCCTGGCAAAATGGCAAGGGC
ATGCTAGACCGGTCATTTTTTTTATGGCTAGGGAAGAGAAATAATTATTCCCCCCCTGCCCGGCGCCCARACATGCTTGGGAAGCTGGGAGAGCGGTTCG
GCTCAACCCCCTTCTCCAGGGCCAGTTCCACCAGGCTGCAGGGGCCGCGCTCTGGGCTTGCAGCTGTAGGGGAAGCACAGTTCGCTTACTTTGTATTTTT
CTTGGGAGCTTGTGGGGCATCTTAAACGGGACCGTTCGGCTCAGAATCGCAGTGTTCGCCTACCAATAAACCGGACCAAGCAACATTCCAAAGAATCCCT
GAGAATTTCTGCCTCTCCTCCCCTCCCCCTTCCGATGGAAACCTCCCTGGTATTATTTTAAAATCCACTTAACCATCTGAATATTGAGCTTTGATGGCGG
GCTTGCTAGCTTTCTTGACTCTTTTTAAACTCGCTGTCTGATACTGGCAATCTTGCCATCCCTTCTCAAACTTGAGCAGTTGTGTTGTCTTGTAATTAGC
AAACAGGGAAATTGCTAAAGGCAAATAAATGATTTCCCGGTGAGAAAAGGAAGGCTCCCAATGATCGGTCCCTTTTGTGGGCATTATAGGAATAGACGGC
GTCTAGTTATTTTAATTGTGGACATAGCGGGTGGCCTGGTGCTGTGACATCAGATTGAGTCTCAGAACACATTTCTGAACTCAGTAGGCAGTTTTAGTAC
TTACATGTCAAACACCAGCAGACATCTTTGTGTACACTGCCCCTTCGTCCTTCCTCCCTGTTACCTGGGTTAGATTATGTGCTCCAAAATTAAAGTTATT
TATTTAGGCTGGTCAGCAGAGCAGTGGAAATGAGGATGGTAGGCTGTTGTGTGTCATTCCTGACGTCTTCAATCAGAAGGCCAGCTTGCAATCCAGATTT
GATACAGCTGCGGGAGGAATGGAGGAATGCATAGGCAAGATAGCGGGCTTCCCATACTCTTCTGAAATCCTTAGTGTTTTATAGGGTGTGTTTTTAATGG
CAAGGTGTAAAGACAAATTTCGCTGTATGCTTTATTATTTTCCCTTTGCTCCTTGGTGGCGGTGATTTTTGCTACATTTTCTGTTACTTATGGTGTACCT
GTAAGCAGCTGCATCCTTTAAAAAGCAAACTCTCTGGAACCCTGATTTCTGCTTTTTTATTTAAGAATGTAAAGAATTAGAGAGTATCATTAAATCGGCT
TATGATGAATAATACATTATCTCAAGAATAATGCTTTAATTGCTGAAGACACCATAAAGCTTGATAGTAATAATTTTATTTTAAAATGACAAAGATTTCT
GCATAATATTAATTTAGTCTTTGATTCAGTAATAGGAATGGCTTTTAAAAAGACAGATTCAGATACAAAACTGCATTAAGGAGAGGTCTAGTTAAGTAGA
TGGGAAGTGTTAGAACTGCAAATATTAGAACTGTGGTAACATTTGTATATTAAAGATAAGAATACTGTAACCTATTAAAGTTGATTGGAAAAAGTAGTTT
TACATTTCTTTTTCCCTCCTGGCAAAGKGGAAATAGGAATATGGTGGTTGAAATTCCAGTTAGGTTTGAAATTTCTTTTTAAGGACTTGATTATTCGAGC
CCTTGCATCTTCTCTTATCCAAAGTTATTTGCTTTTCAACCGAGCTCTTTGCTACTAGGTTGAACAGATAAATAAGCTGCATCTTGAATTCATTTTTGAA
CTTGGAATCCAGCATTTAAAGGAAACCGAGAGGGGCCTATTCATTGGGATTTTATTTAGCCGGGYAACTTCTCTTTCTGGCTTGTGAAAAATGGACGTTT
TTTCCTCACTGAAACAACATAATCCTTTCTAATACAAAAGATTTAGACCTTGGAGTGTGAAGGGTTAATGGTGGTCCTTCCCAGTTGTCCTCCCACCCCC
CCACCTCACCCCTGATTGTTTTGACAACACTTTTCAAAGTGTGACATTCCAAGCCCCTACATAACAATGTAATATTACTGTAATTACACAGGTCATTACA
TTTTAAATAGAGAACAATAAAATGCTTATCGCCCTGAAAAAGAACAGGTGTTCTTACCCTTCTTTGGTATTTATGCTAATTGTTTTTCATCTCCTTCAGA
AATATTTATGGCGAACATGTTTAGATTTCAATCTCAATGCAACCGTATTAATTCCATGCTAATCTTTATAGGTTGGGGTTTAATGTCTGCAGTATGGATT
ATAGGCTCAACATTCACCCAATAAGTCATATTTTAATGATTATAAATTAAATATGCCAGCGCTTTCCACTTTGTTGATATTGAAACTTTCTGAAATCCCA
GAAACAAACTCAGGCATTTGGGAGCCTAACGAGCTTATCTGGAAGACGTGTTTTTGGAAACTTTTGACTGTTTAAGGGAAGGAGCTTTGACTGATGCCCT
CTGTGTCTGATTGAGAAAGAGTTTTTTGAGGAAAACAATCCTCGTTCTTGCTAGGAGTTCTTCACCTTGATTTTAATTTTACTGATAGGGATTTCATTTA
GAGTCATTGCTGGAAGTTGGTCAGCTTTCTGTTTCTTAGCAAGCTGTGAAAAAGTTACCGGAAGGTTTCCRGGGGCTTGCAGATCAAGAATGCTGTTCTG
TTTGCCGTGCTGGATCGCTGCAGTTCTGCACGCCATTRAAAAAAATATTTGCTTTAGAAAACTAGCATTTTAATAGTTGCACCAGAGGCTGTGCTTTTAA
AGATTACAGTAGAAGTCTTTCCAGGTTTYGAATGCCTCCTTACATCCCACGAGGTGCCCCTGGCTGTGTGCAAAAAGTGCCTAGATTTCTCGGTGGAGAA
ATCCTGGTGCAACTTCTCTTACACACGTGCAGTGGGTAAACTAGAAGGTATCTAAGAGGATTTTACATTTTGTCAGATGTTTCACAACAGGCCCCCCTGA
ATCACATTAAAAATGCACTGTAGAGAAAGGACAGCTGCAAATTTTTGTGTGGACGCGTGTTTCTGGACCRTGACTAAAACTCCGAGGACCTTTCCCCCAG
CTGTCTGGAAGTTATGTGGAAGTTGGTTTATTGGCAGTTAAGTATGAGACAACCTGGATTTAGCAAATGCTCTCTCCTGCACAGGAAGTAGATGACATTA
TATTGGGGGAAGGGAGGAGATTTCAGGCAAGGAGTGATTTACCTTTTTTTTTTTTTTTTTTTTTTAAATGCTGGAGTTGCCAAATAAATAAGCACTTTCC
AGGGAAGTAAGTGTAAGCTTTTTAGTCTTGGTGAGTGGCATTAGATAATATCTTTGACTGCATTTATAATTCTTTTGAGGTGACACATTTTAAAGTTTGG
AAAAGGAGGCTGAACCAAATTCTTGAGGGTCTTATTTTCAAAGGGGTGTGTGATGTGGGCATCTGAGTTTCTTCTGGGAGTGAATATTGGCAACTATGTA
AGTAAATCTTCAACTCTGACTTATAATTGAGCACATTTGTGAAGGAAATGGTTAATTTTACAACCAAAGGCAAACTCGCACCTCGACAGGTCTGCTGAAA
GAAATGTGCCCCAGTCTTTTTGCTGGCAAGCGCACCACCAGGTCATAAATCCACAGGCTTTATTTACAGCCCATAACACTTATGAATGTTAAGATATTTG
ACGCCACGTTGGCCTTATAATATTCAAGGTCCGCAGACATTGGCAGTAGCTCAGATTTCTCTCACTAATTATAAGCAATGAGATGGGGGGAGGTGGTGGT
ATCCTAATGCAAATGCTGCCCTCCCTTCTCCGCTGACCCCCACCTCTACAATCTTGAGTTTACTGAGACAGACGCCACCACTCCTTTGGCAGCTGACTTG
TACGTTTCCTCTAGGCTATTGTTATACACATTTATAAAGAGCACTTTCAGGAATGGAAATTCAGTGGGGGCTCTGCACAGATGCCTTTTTCAAAAGCAAA
GTTGCTCTAGGTGTTTGCATCTTTTCCCTTTTCTTTTCTCCCTTTTTCCTTTCTTTCTCTTTTCTTAATTCCCCCCAACACCCCCACCTTTTTTTTTTTT
TTTTTTTTTTTTTTGAGATTACATTGCCTATATTGTGCATTTTCCCCAGGAATACTTAAAGAAACCTGGTATGGGAGACGGCTCTTTAATTTATWTGATG
TTCCCCTGAGTGGAAGGGAAAATGTACACATTACATAGTACACTAGTTAAACTAGTTAACGTGAGAGTTTTTAAAAAAGTGAGATGAGGTGAAGAGAGTT
GACTAAAAGAATATAATAGGTGAGGGGRAAAAAAATCCAGGTTTACACTGGGGATGGGAGGGCTGCTTATTTGTGAAAAATGTACTGGTATCTGCGGGAG
GAGGCACAGAAAAGTAGCCAGAGGAGACAGAATAAATGCCTAAGAAAGATAAGAAAAGTATAATACAAGAGAACAAAGATTTGGGTTTGGGGGAATTGAA
ATTGGAGATTGGAAGTTTCCTTATGGAGGGGCGTGGGAGTACCCTGGGCTGGGCTATTAAAAAGGGATATTGCTTTGCTCAGCAAAGATGGGCTGCGATC
CCTTCATTASCCAGGGTGTTCTACCTAGCCACAGATGTGTTTCCTATCAGTTACTGTGTAAGCATCTGAGGGTGAGGCATTATCTGTGGTGGAGACTGGA
GTGTGAGAGAGAAGGCCAGTTGTCCTGCTGATTTTAATTTATGTTGAAAAAGTGGGCTGTTCTGGTGTATTACAAACTGACTACGCGGTATAAGGAGGAA
GTGAGATTCAAAGGTGTTTGCCAGGCCAGGAGAGATGATGGCTCTCATTTCTGACTGGATCCTTCCTTCCATCCAACCCAAACTTAAAGACCCAGGCCGA
AAGGTTTTCTTTTCTAATCAATGGCATGCAGAAACTTACTAGCCCTCAGGGATAGATATGAATCCCTAAACAGCTCATTACAAAGAAGGGGCTGTGGGAT
CTTTGAACGGGTTATCAGCCGAGGTGTTCTTTGCTTTTCCCAAGATAGGTTTTTTCTCCTTAGGCACATCTGATTTCGGGCTAGTAATTCGACCTGTTAT
ATTTTATTCTTTTTGTCATGCAGTAGCCCCAACCAGGTCGGTCTACGGAGGAAGGAATGGCCAGGAGTGGCATCAGCCCTGAAGGAGTTAAAATTGCTCC
CTAAAGTTTGGCATCATGAAAATAAATTTGAGGCCTGGTAGGCATTAGCAGGGCACAGCACATTTACAGAGCTTAATTAGTACGCACTGTAATTGTTCAT
GGTCTGCCAGAAGAAGTAATGTTCAGGAAAAGTGGAGTCCCTCTCTTGCAGTCTTCAGCTTGAAACCGATAAATCACTTGCATATTTGTGTAGTGATTCA
AATGGAGCTAAGACCTCTCCCATCCCAACATGTGGTAAATTGTAAAGTCAATGAATTGCAGATGTAGGCTACAGTGAGATTCTCTAAGAAAATGCAGAAT
GAATGGGAAAGAGTGACGCTATAAATATTTACTGAGAAGATAACTAGATTCCTTCGTGCTGGGCCAATTATGATGTACTAAAATATATTAGTAAAATGCT
TAAAAAATTGAGAGGATTTGTGTGGGTCTTTGGGTGGGTTGGTTTGTTTTGGAAAGTGAAATAAAAGGCACTATGTTGTTGTCGTGTCAGTTTTATTAAG
CCTGAATCACAATGGCATACCCAGGGAAGGACACATGAAACCCACATTAATGCAAATTAATTCGTTATGAGTTGCAGCACTGCGACTGCTAAGTGGAGTA
ATGATGGGGCATCATTTTAAGAGTTTTAGTGTAGCAACTTTTAATGAAAAATGCTGTGTTAGGAACATGTCTCAGCACTTCAGCCCACGTGTTTTTCTAT
ATGCTAGAAATATGTTTTGTACAAGAGCAGGAAACTTGATTCACTTTATTTTTTCCCCCAGACAGTTTAAGAGCTTTAATTATGTTTTGACGTTGARAGA
AAATCATCTAGTTTTTCTCAAAAATCAACCCAGAAATGCCCATCACCATAAAGAAGTTCAAGCTCAACTTTTTTTTTTTGCGAGACTTTGCAGCACAAAG
TGGAGAAACGATGAACATAGCATTTCCCCGCAGACCTACAGATAAAACTTTCTTGAAGCGACTTTTTCCCCTTTTTTTCTTCTTAGAGAATTTTGGTCTC
AGGCAATGTTGCAAGTCAATACTTCTTTCCCCAAATGTGAGTAGGTGGATACGTATAGAAGCTGTAAAAGTTAATGATCGTTCTCTGACTCATAGCTGAT
GGTTTCAGGTTGAGGAAAAGAAAAATTAATGAGGGTAAATAGACATTTGATGGAACATTGAGACAGTAGGAGAGATTGTTCTTGTGTCTAAAGGCATGCA
TTTTGTTGCAGCAGAATTTCTGAGGCAGAATGCCAGGAAGTGAAAGGGGATGCTGTCGTTAAGTTATTGTTTAGGGATGGTACAAATGTTCAGTGTCTAG
ATCTCTGCAGGAATGTTTAAGCTCAAGTACCAGGCAATGCTGGTTTTGCCTTTTCTCTTGAAGTCAGAGGCCCCCCTTGGTACTTTTTATAAGGGCAGGC
AGTCACCCAAAGTCTTGGTCAAAAGTTTATTTCCCATTAAATGTAAAAGGCTCTCAACACAGGACTGGGGGCAGTGGGGTAGGGGAAGCTGGGCTTATAA
TGGCCTGTGGTTGCTCAAATGACTAATGACCTAAGAAAAGGTCTTAGGTATACTAAAAAAAAGTATTTTGTTTCTTAAGGTAATTACATGGAAATTAGAT
TTCAAGTGGCTCATGGTAGCAGCTACAGGGTAGAGAGGAAAGTGGACCAAAAAAACTAACACCTCCTAGGAAATGATCTGTTTTTTTTTTTAATATAGAT
AAGAGAAAGCCAGGTGATTCATAAAACTGAAAATAAAGTAAATGTTCCACCTCTTCCCAATTTAGCAGGACGAATAGGCATCAAAAATTAATGTGCATCA
TGTTAGAAGTTAGCTTAGTGCTGGAAAAACCAACAGAGGATTTCAATTGTTTTAATTGTCTTTGAGGAGGAGATTCCTGTGGTTGAAAAAAGCTGTTTCC
CATTCCATGTCTGGGTATCTCTGATGTTTTGCRTATCAGAAACATCAAATTTAGAGCCCAGTAGTGATTAGAAATAAGATGAAGAATCTAGATATGATGA
TAATAAGGGAAGGGGTTAATCTTAAAATGTTGGTCTTTACATTGCTGAAGAATTTTGCAAGCCTGTGCTGAGAACTGCCGAGTCTTCACCGTTCTTCCTC
TGGACAAGTGAGGGCTGAGGCATTTGTGGGTAGTAGAATGGGGGATGGGCTTGGTCACTGATTTTTGTTGAGAGCTTCATGGGAAGCAATGAAATGGAAA
ATACGCTGGAGTTCTCATCTGGTGACTCCCTGGGTACTCCAGGCAGGGAAGTGCCATTTTGAAGGTGTGAGGCACAGCCAGGTGAGAGCAGCCATGTTTG
CCGGATGAGGAAATGATGTGGAGTGGTCTTGGAGCACTCCTGGTGACTGGTGCAGGACAGTCCCAAGAGATGAGGCAGATGGGAACCTGTTTTTTTTTTT
TTGAGATGGAGTTTCGCTCTTGTTTTCCAGGCCGGAGTGCAGTGGTGCGATCTTGGCTCACTGTAGCCTCTGCCTTCCCGGCTCAAGCAATTCTCCTGCC
TCAGCCTCCCGAGTAGCTGGGATTATAGGCGCACACCACCATGCTGGGCTAATTTTATTTTTGTATTTTTAGTGGAGATGGTGTTTCGCCATCTTGGCCA
GGCTGGTCTGGAACTCCTGTCCTCAGATGATCCGGCCTCCTCGGCCTCCCAAAATGCTGGGATTACAGGCGCGAGCCATTGCGCCCAGCCTGGGAACCTG
GTTTTTATTTTATTTTATTATTATTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGCCTAGATCTCGCTCACCGCAACCTCCCCC
TCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCTCATAGCTGGGATTACAGGAATGCGCCACCACGCCCGGCTAATTTTTGTATTTTTTAGTAGAGA
CGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGACCCCCCCCCCCCCAACCTCGGCCTTCCAAAGCGCTGGGATTACAGGCG
TGAGCCATCGTGCCCGGCCAGAACCTGGTTTTTAAACTCAGATGTGCCTTAGTCATCTTGTCCTGGACTTCGCAGTCTCACCTCATATTCCAAAGCACAC
AAATGGCCTACCATCTTTTATTCTTCCTTCTAGCTTCTGGAGAGAGAAATGATTGTTCCAGTTTAGAATGCCAGGRGTTTACTGGGTGTTTGTATTTTTT
ATCTGTGCCTTAAAAAAATTAGATTATAATGAACAAGACATCTTTATGTTTTACAGGGAAGGAAAAAGCAGTGAAAGTATGCATTTTCGAAAGAAAAGTG
TGTTGGGAAAAGAGAGAGAGGGTGGAAACCCAAAGGAGAAATRAAAATTTTAAGTCCTTGTTGCAGTAGCTGGAGGAAGTGAGCTTGGAAATCTCTCCAG
CGCAATGGTTGCTGGCTGGGAAGAAAGATCTGACTTAGACACAGAATAAGCTGCTTGTGCTGGGTGTGTTTGTRAGCTGGGTGAGGTTTTCTGTGTCGCT
GGGCACSTGAGGGAAGTTACGTGGCTGGGGGGTGGGGTGGGGGGCATTAGAAGGGAGTATGGGTGTCTGTGGGCGCTCGCGTGTGCGTGTATGTGTGTGT
GTGTGTGTGWGAGAGAGAGAGAGAAGGTAAAATTAACTTTGTCCTATATGTTGGTTTCTCTGCTAGAGTCTTAAGGAACTTGCAGCTGCATTTTTATTGT
TTCAATTACAGCATTCTCTCTAGGATTGTTGGTGTTATTTGGGTGATGATGAAGGCAAGGATTAAGAACAGAACTGGACAAGTGAAAATTGAATTTGGAT
TAACCACAGTTTGATTAATTTATTCATAAGATTGTGACTATATGAATTTTTTTCAACAACATATCCTTAGTTATCAGGTGTCCACTCAATTTTAATTGAC
AATATAAGATTCCTRTGGTAACCCTGTGTACAGATTGCCTAGGGGCTCTGCAGGGATTGTGGGAAGAGAAGCTTGGACAAGTTTCCATTAAGATCTGAAT
CAGGCGATTGGAAAAGAAGAGAATAAAACCAACTGAAAAGAGAGGGACAAGTTGTTAGTGTTGCSTACTCTGCTTTGAAGGAGAACCCTCCTCAGACAAG
AGCTACTTTCTGGCCAAGAATTCCAGGCTCGCAGAGAAACCTGTCCCAGGCACAGAAGTTGTTTTAACATGATGCAGAATTGTCACAGTAATTAGTGCAA
TCTCCGTTTACTGACTGGCAGTTTTTACACAAAGGAGATAGGGACAAAGGGTGCAAAGTCATCTTTGTTTTTCAGCAGGTCACTTTACTTATTTATTTTT
ATTTTTTATTTTTGAGATGGAGTCTCACTCTTACCGCCTAGGCTGGAGTGCAGCGATAAGGTCTTGGCTCACTGCAACTTCTGCCTCCTGGRTCCAAGCA
ATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGCGCCCGCCACCACGCCTGGCTAATTTTTGTATTCTTGGTAGAGACGGGGTTTCACCATGT
TGGCCAGGGTGGTCTCAAACCTCTGACCTCAGGTGATCTGCCCGCCTCAGCCCCCCAAARTGCTGGGATTACAGGCGTGAGCCACTGCGCCCTGCCAGCG
GTTCACTTCAGATACTGCTTCTGAGTATGTGTGGGGGGCTGTGTGTGGGGGACAGATCTTCTGTTGTTTTAGGGCAATGTGGTTCATTACTCTCCTTTGA
CAGGTATAGGGTTTTTTTCCCACCTACTTCATTGTGTCTCCTTTTAATTTTGATTAATATTCTGTTTGGGGCAAGCAGACTTACATTATATCTATATATA
AATATATATGTAATGTTTTCTATTTGTTTATTTGGAACAGATAAAATGATCTCAGAGCCCACTGCATCCTAAAATGGATATTTATAGACTTAGCCCATGA
ACAACATGGATTTAGACTATTTTTTTTATGGGATTACTACCCTTGTGTTTATTTTGAGTTAGTTCAAAAGTTCTTATGTGATTTTTTCCACTTTTATTTA
TTTTTTAAAACTGTGTGGACTGAATTGTTTTTCTTCCAGGGAGCAAGATACAAATTATCTGGATCTGAAACTCGCAGCCTAAATTACACTTTGTGCTAGT
AACACAGACGTGTTCTGGTAGTAGTAATAGCACAGGAGTAGTAACGGTAGTTTATTATAATACTACAGATCCATTTTTGGAAATGCAGTTGATTTGCCTG
TTGCAAGGAGGGGAAATGGACATCAATTTCACAGGGTCATCTGATTCCTCATTAGTAGTTCCTATTTGGCAAATTAAAATGCATTTTCAGATAATTGTTG
AGATCCTTCAGTGATTATTGTATTGTTTATAAAGTAAATCAGCAGATGGTGTTTGTTTTCCCAATTGATGGGATCCCAAGATTAGCAAGTATTACTTGGG
AAGATGAGAATTGGGTGAACAATCTTGCTCTTCCTATTTCGGGATACCTGCTTCATTGATGGGTGGTCTCTAGGACTTCAGAGGGAAAGGCTGAGGAYAG
ACTTAGACCTTGGGGAGGGTCTGAGCCAATCAGTGACTTACATTCACTCAGTTGCCATCTAATAGGTGGTCCTCCCTTAGAAAATTGGYGGCTTTCTGGC
AGTGTTTGGCCCTCTCTTTGGGGAAGTGTGGATTACTAGAGTGCAGGCGACAGAGATGGCCTGGGATGGACAGCTTAGTCATCATGAAAGAATGTGTAAG
GCATCGGGTGGCCCCTGAATTCTGTCTGACACATTTGTTTTCCCAGAAATAGAATTGCATTGGAGAGTTGGGGCCCAGTTATTAGAAATATGGGGRTGGG
GTGCTTGTACTTGTTGCAGTCTTGTGGCTTCTCATAATCTTTTCTCTCCTAATCCTTCCTCTTGCCTACATGTTGCAATTCTGATGACTTTTTGCAGCGC
ACAGTTCATTTTTCTTCAGCATCCCGCTCAGCACACTGGCTTCCTTTATGTCTTAATGGGCATCCGTCTTTCCTTTTCATGTCATTGATTCTCACTCGTG
GCCCCCATCTTCCCTGTATGCTTATTGAATAGGTGCTTAAAAAACAAAAACAAAAACAAAAACAAAAAAACTTTACCTTAGATTGTTATGATCATCTTAT
CCATAGCAACAAATGAAAGTACACAGGTCTTGATTGAATGCCAAGGCTGCAGTTCAATCTAGGAAGGTTTGTCTGCTATTCATAAACTGCTTAAGATGTT
TTCTTGTAGTTTGTGACATAAGCAGAACGCTTTGATTTGGTTTCTTTCTACAGCTCCATTTTCAGTCCGGCAGCACACATTACTCTGCGTACAAAACGAT
TGAACACCAGATTGCAGTTCAGGTAGGAAACGCAAGAGATTCTGAAGCTTGAATTGTCTATATGTAGGTCTCTTGTGTGTTTTATTCTCCGCCCCTTCCC
CCAACTGAGATAATGATGATGATGATGATGATGATGATGGTGGTGGTGGTGGTGGTGATGGTGGTGGTGGTGGTGATGGTGGTGGTGGTGATGGTGGTGG
TGGTGGTGGTGGGGGGGGGTTGAATCACTGGGGGAGAAGGGGAGCAAAGGAGAGAGAAGCAGGAGAAATGCTGCTGAAATGATTTAGAGATATGGAAAGA
AAGAGAAGGCTGTGCTTATTGTTAAGAGTTTCTTGACCGGGCATAATGGGCACACAGACCCCAGCTTGACTACTGTTTTTCTTTGCTTAGGGAGGGATCT
TGAATTGGGAGTAAAACGGGGTGGCACAATGTGAATGGGAAGGCTTAAGGGGAGAGGTGGGAGAGGAGGCCGTGCAACAGCCAGAGGGTTGTTTCTGGTG
GATCAAAATCATGTTAAGTGGTGCTAAGAATATCTCTTTGGACCTGATCATCCTGAAATGTTGATTTCTCTTGGACCTGTCTATGTATGACACTAAATGT
GCTGGAAGGGAAAGGCGACAGATCCCAGCTTCTGATGAGTGTCCTGTTTCCTGCTCACGTAGTACTTCCATTCTCTTAAATCCGAAGGCTAAACAAATCA
TGGACTAATATAGACTCGGAGCTGAACTGATGCCAGCAGAATGCAGTAGAGGAGGGAGAGCAGACTAATACGATTTTCGTCTGTCTGCCTGGCCTTGCTG
GGATGGATGTACCTCATGGTGTAACTAATGGTACCAAAACTTCTTGAGTGTTCTGGCTTAACCCTTTGAAGGGATTCTCTTGAAACCGTTTGCTGTAGTG
TTGAGGTCTAGCTGGAGAGCCTTCTTTTTTTGTGAGTTGATGTTGGTTTGTTAGATCATTTGTGTTATTCCATGACTTCTTTTCTGGGCAAGAGCCCTTG
CAGATAACTTGTCTGTGTGTGTGTATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTCTTAGGTAGCTGCAGCCACAATG
CATCTTTGTAGCTCTGTCATCTCAGTTCTGCATCTTCCTTGATAAGACTTCCAGATAGCTGTTTGCCCCAGGTAAACGGAATTATTCCGCCAGTGAAAAG
CATGAGTCAGCAGACATTTTTATTTGGTGCATTCCTAGTGTTTCTGTACTCATTTTCAGGCCACAGCAACTTATTTTAAAAATATTTGAGGCTGGGTGAG
GTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCC
ATCTCTACTAAAAAATGTAAAAGTTAGCTCAGTGTGGTGGTGGGTGCCTGTAATCCCAGTTAATCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGG
AGGCGGAGGTTGCGGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGTGACAAGAGTGAGACTCTGTCTAAAATATATTTATATATATATATATATA
TATATATATTTTCTTTTCTTGATTACTTCTGCAGTTGTGCCGCCAACCTTCTTATGTGTGTCTTTTGGGGGAAAGTGTGACTCTTGATTTTACCCTTCTC
CACTCCTAACTGTTTCCAAGACTGACATGTCTTTAACTTGAGGCTGCAATTGTTCTTTTTGGCATGCTGCCCATTTGTCCCTCCTTCTTCCTTTTGATGG
ACAGCATAGTAAGTCWTGCTCCCAGAAAGTGCTTTAGGTGCGGGACTTGGTTAGAGAACAAGCCCAAACCCTAACTCCTGGTGCCTGAGTGGATGTACAA
CTCTTGGTGAACGGGTGGATGTACCATGTCGAGGCCTCCTACATCTCGGGTAGTGCTGGAAAATCTTATTGCCTGGGGTGTGGGAATTGTTGAGGTTGAA
TAGGATAGTGATCCTTATCTTGGTGTGGAAAGGCTGGCTGGGGCCATGTCACTGGGAGACTAGCCCAGACCAGACCAGCTGTTGTATCTTTACACCCGTT
GCTGAAGTGCCCCTTGTTAGGCCGAGCAGTTCGTCTTTCTCCAAACCACCTGGCACGGTGCAGGCCATGTGAAGCTCTTTCTCAGGAGGAAGATGGAGTA
AATTACAGAGCTCATTGTTTTGGAGGACTGAAACYATTACTATTCCTCCATGAACAGGTAGTATTGTTCTCTGCTTCTATTTGCTAAGGCTTGATGCCCA
TGTGGGCAAACAGAGAGACATTTTATTAGAGACCCAGCACCATGCTTTTGCAGTGTTCATTCTCCCTCAGTCTCTGCTAGACCCGCACAAGGCCAAGCTA
AATGGCATCTAGCTGTAATTTTAGTTTGATCCTCAAAGGATAAATGGAAAAAGCAAAACCAAAGAAGCAAAGGGAAAAGAAGGGGAAAGCTTAGACGAAA
TGAAATTGTTCCCAAAGTACATTGGGGAGCTCATAATCTTTTCGCTCTGGATGTGGCATAGAGCAGATATGTTCCTTTCGCTCCATTCTCCAACTTAAGA
CTAAATGCAGCGTGATTGTCGGGGCAGAATTATTGTCCCTGGAAACTTAAAACTGTTCAACCTTAATAAATACTAGATTTCAATAGAAGCTGAGCTTGTT
GCTCTCCTAAGCTACATCCTAAAATAACCCAGAGTACTATGACCCTGTGCATCACATTAGACTCATACGACTCATACTCTTTTCCCTTCCCATCCCTCCT
GTAATCTCAGGACTCAGCCAAGCTCACTGTTTATATGAATGGCCTTGGGTGATTCTATAGACACGTCACTTTCTTATAAAAGGTTTGGACACAATAGCAG
TTGCTATGTTTAGATCTTTCCTACTTTTGACAGCCTCCTAGCTCCCCTTGGTTTTGAAAAGACAAGAGCAACTCAGATGGCCACGTTCTCCCAAAATGGA
TAACACAAATGAAACTAGAAAGAAAATTAAAAGTTTTTTTTTTTTTTTTGAGACGGAGTTTCGCTCTTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATC
TCGGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCACGCCCGGCTAT
TTTTGTATTTTTAGTGGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCCTCCTGCCTCGGCCTCCCAAAGTGCT
GGGATTACAGGCGTGAGCCACCGCTCCTGGCCAAAAATTAAAAGATCTTTTAGAAAAGACATTGTTTTAAAATTCTATTGACTTTTAAAATGTTTTATTG
AAGTATAATATACATGTAACATAGTACACAGAACTTTAGTAGAGAGTAGAGAGGTGGATGAAGTTTTCCATATGTGAACGTCCATGAAACCATTACTCAG
ATCAATATATATAGAATGAGGTTGGGACACCTTTACTGTCAAGGGCCAGACACTAAATGTTTTGGGCTTTTTGAGCCGCTCAGTCTCTGTTGCAACTACA
TTTGATCCTTGAATGGCACAACATGAGTTTGAACCACATGGATCCACTTAGACATGGATTTTCTTCTGCCTCTGAGACAGCAAGACCAACCCCTTCTCTT
CCTTCTCTTCCTCCTCTTCCTCCTCAGCCAACTCATCCCAAAGACGGCAAGGATGAAGACCTTTATGATGATCCACTTCCACTTAATGAATAGTAAATAT
GTTTTCTTTATGATTTTCCTAATAACATTTTCTTTAGCTTACACTATTGTAAGAATACAGCATATAATATATACATAAATTATATATTAATTGACTGTTT
ATGTTATCGGTCAGGCTTTCAGTCAACAGTAGGCTATTAGTTAAGTTTTTGGGGAGTCAAAAGGTATACTCGGGTTTTCTTTTTCATTTTTTTTGAAACG
GATTCTCATTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGATCAAGCAATTCTCCTACCTCAGCCTCG
CTAGTAGCTGGGACTACGGGTACCTGCCACCACGTTCGGCTCATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGGTCTCAA
TCTCCTGACCTCGTGATCCGGCCATTTGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACTGGGCCTGACCTATACTCGGCTTTTCAGCTGTGTGG
GGGTTCGGTGTCCCTGGCCTGGGGGTTCAGGGGTCAACTGTACTCAGCGCTTCTATTGTGGTTTGAAAGCAGTCAATGATAAACCCAAAGGAATATATAT
ATATTCCTTGTTGTGTCTCAGTAAAACTTTATTTAGAAAAAAACAGGCAGTGGCTGTATTTGGTCCCAGAGGCTAACTTCTGATAAAGAGCTCCCCAGAA
GTCTACCTTGTTTCCCCCTTTTTCCAGTTATTTGGCTTCTTCCTCTCTCCCCTGCCCCCACTGAAAAGTCTGTTAGTTTTATTTATCACTGTGGATTAGT
TTTACCTGTTTTTTGACTTCATGTAAATGGAATCTTATAGAATGTACTGTTTCATGTCTGGCCACACTCAGCATATGTCTGTGAGTTTCATCCATGTTAT
TTTGGGTAGCAATGGTTTGCTCTTTTTCATGGCCAAGTAGTATTCCACTGATGAATATGCTTCAGTGCATGCATCCTTCCTACGTTGTTGGATATTTGGA
GTGCTTCCAGTTTTTTTGCGATTATGAATAAAGTTCTAGTAACATTCTCCCACACATCTTTTGGGGAAACATATATTTCCATTTCTGTTTATACACCAAG
AGTAGACTTGGAGGGGCATGGGGTAAATGTGTGTTTAGTCTTGCACTGACCTTCTGAGAGAGACTTGAGTGCTGGATTTGAGTATTGTCATTGCAACAGG
GCCAGTAGTTGTTAGGTATGTGAGTGATACGTGTAGGGTGAGCAGTAAATTTATCTAGGTGTGATCAGAGGCCAATTGCCCAAGCTCCGGTGCAGGCCCC
TTCATGCAGTGATTTGGCCTTTGGCCCCAGCTCCTAGGAACTCCTCCCACTGTCTCCATTAACCTGGGAGGAGGACTAGCAGGCTGAATTCCAGAGGTGG
ACCCACATTGCAGATGTGTGTAAACAGAGCTGTCTCCCAGGAATGCCCTGCAGGTGATTGTAGATAATGTTTAGGCATCTCTATTGCCTTCATGAAGAAA
GCCCTTCCAACACTCCTACTCTCAGCATTATTCCAAACCTATGAGCACTGTTGTGATGAAGGTCGAGACCCACAGAAGATGTTTCCCTTGGTTTTTGGAA
GGGCTACTTCTGAGCCAATTAAGCCTTTGTTTTAAGAGCGTTTTGGCCAAAGGTTAATGTTTTAACACCAAGTCAGATGTGATTTAGGAAAAACCTCCAC
ATGCAGCAAAAACAAACTGTGTAAACCTTTCTTGGTTGTTATTCTTTTTAGATTTGAAGTGGTTTGTGTGTGTGTGTGTGTGTGCATGTGCGCGCTTGTG
CGTCCACACAAAGACAACTAGGAGAGGATCCAGAAGAAATGGACCATTTTATTTGTTTACACAGCTGAGGAGTGGATACTGTGCRGTGGGGGTTACTTTC
CCTCTTGTTCTTATGCTTGCAAGTTCCCATCTGAGCTTTACCAAAGCCTAACCTTCTGCTTGGTCTTAGAACTCCTCCACCATGAATCAGTAAGGCCACC
AGGACCCTCCTCCAGGGCCTGGGTGCTTTTTGGAGCCAAGGRGAGAAGAATACTAACTGGAGAGTGTCCTTACCCCATGTTGGCCACTTATTCCTGGATG
TGAACTGGATGTTYAGTCTTGTCCGTGTCTTAACATTGTTAAGATTCCTGGGGTGCGTTGACACAGAGTCTATGTCTGTGTCTGAGCAGACCCTTCATAC
TGTGATGAGCATGGCCAGAAATTAGTACCAGCGGACTGGCCCAGCATTGAAGAATGAGGTGGCAGTGTTTGCAGGGCGCTTGACTTTCTCCCACTTCAGG
TTTTTGATGAGGGTCTCTTGTGTTCTGGGCCTTTCCTCTCACCCATCACAAGTTCCCTGGCCTTCTTGTTTTCATGAGGATTTGCTCTCTTGGCTGAGCA
GCAGATCCAGGCTAAGTGAAGAACTCCTGGAAACAGGTTCAGCCCTTGGTGCAGTCACTTCCTCACGTTTCCTTTAGAGCTGTAGCAGACTTAGGCTGTG
ACATTTCATGTCCATTTTCCACAAAGGAATGAAGAATTAGAGAGAGATCATTTCACTAGAGTAGTTTGATAGAACCTGTGGATGGCAGGTAACTTGCTCA
AGAGGTTCATTGACTTGCTATGGTGATGAGTTTTARCCTAATTAGCTAATTTAAGTCCATACCTCAGAAGAATGTTCATTCATGAAAAATATTTGCATCT
AATGTGTGCCAGGCCACTGGAGAATTCATCAGTGAGCAAAACAGACAAAAATCCCTTGCTCTCACCAAGCTTAAATTCTAGTGATATTTTAATATTAATT
TTTAATATTTAAATTCTAGTGATACTGACTTATAAACACCCCGTTCCCAAACTGAGTTAGGTTTCCAGTGTAGTCCAGGAGTTAGATTTTCCTTTTCTTT
TATTTTTTTTGAGACAGAGCCTTACTCTGTTGTCCAGGCTGGAGTTTTTCCTCTGCCTTGCTCTGTTGTCCAGGCTGGAGGTTTTTCCTCCGCCTCCCAG
GTTTCAAGCGATTCCCGTGCCTCAGCCTTTTGAGTAGCTGGGATTACAGGTGTGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAAAGACGGGGG
TTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGATGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACG
CCCGGACAGGAGTTACTTTTTTTTTTTTGAGATGGAATCTTGCTCTGTCACCCAGTCTGGAATGCAGTGGCGTGATGTCGGCTCACTGCAACCTCCGCTT
CCCGGGTTCAAGCAATTCTCCCGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTGTGCCACCACACCCAGCTAAGTTTTGTATTTTTAGTAGAGACG
AGGTCTCACCATGTTGGCCAGGCTAGTCTCAAACTTCTGACCTCAGGTGATCCATCTGCTTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACT
GGGCCTGGCCGTCATTTTTTTCTTTCCTTTTTTTTTGAAGCGGAGTCTCGCTCTATTTCCCAGGCTGGTGTGCAGTGGTGCGATCTCGGCTCACTGCAAC
CTCTGCCTCCTGAGTTCAAGGGATTCTCCTGCTTTAGCCTCCCGCTGGCCGTCATTTTTAATCAGGGTTGTGATTTTCAACCTATTGAAGTTTGAGAATT
GCTGCCTTAGAGTCTTCTGAAACCAATCAATTGATCATTTATTGGCTGTCCCAGTCATTTTCACTAGCCAAATAAAAAGTGAGGGCTGGCTAAGTACTAC
ATTGGGATAATATTTTCTTATTTTGAATGAGAAATTGGACTGCCCTTATGTTCCAGTGAGTTTTTGAGGCCTTTATTTTCCCATTCTTATGTGAAGACAG
CCAGATACTTTTGCAAAGCTTGAGAAAAAGCATTTGTTTATGGAAGAGTAGCTTGGACAATAAGGTGCTTAGACTTTGGGGTCAGAGGCAATAACAGTAG
TTAGTAATAATAGCTGCTTATGCTTATTGAATTCTCTTGAGGGATCCAGTGTTAAATGCTTTTTGTGAATTATTATTACTATTTTGAGACAGGGTCTCAC
TCTGTCACCCAGGCTGGAGCACAGTGGTGTGATCATAGCTCACTGMAGCCTCSACCTCCCTGGACTAAGGTGATTCTCCCACCTCAGCCTCTTGAGTAGC
TGGGACTACAGGTATGCATCACCACACCTGGCTAATTTTTGCATTTTTAGTGGAGATGGGGCTTCGCCATGTTGCCCAGGCTGGTCTCTAACTCCTGAGC
TCAAGCTCTCCGCCTGCCTTAGCCTCCYAAAGTGCTGGGATTACAGGCGTGATCCACCGCGCCCAGCATATGTGAATTCTTTATTGATTCTTCATAACAA
CACAGAGGGAAATTTGAAAGGTGTAGTTACTGGTATTATCACCATTATCCTCATTTTGTAAATGAGGAAACAGATACCTGAGATATTTTGCCCAAGGCCA
ATTAGGATTCAAACCCAGACAGTGTGACTAGAGAGAGATTGTCCTACATAGGCTTATGGTAACTATTGCCTGCTCAAAGTAATGCTCACAGTGGTCTAGG
GGTTCCCTTACAGCAGTGGCTACCAACCAGCCTTCTGGGCAACACACATAGAAATCACGTGGGACCTGGTAAAAAGTACAGAATCCTGGGTTCTACTCCT
TGGAGATTCTCATTTAGGGATTAGGTCAGTGTTTCACAAGCTCAAGTATCACCTGGAGGGCACCCGGAGAGCAGACTGGGAATCCACCCCCAGGGTGTCA
GGTTCTGTAAGCTTGGAACGGGTCCTGACATTTGCAAGCTTTTAATTAATGCTGTGTTCCTTCTCTGGGGATAGCTCTTGGAGAACCACCGGACTAGGGC
AAGGGTTCCCAGCTTGGACTGTTAGGTTATACTCACTCAGGAAGCATTTCAAACAATATTCAGCCCAGGCCCTGCCCTAGACCAACCGAGTCAGCATCTC
TGGGGGTTGTGGCCTGTGCATCCCTGGGTTGCAAAAGCTTCCCAGCTTTTAGTGAGCAGGCCAGGTTGAGGCATCTGGTCTAGGGGATCCTGGAATCTGC
TACCACTTCCCCACACTGGATGATTCTAATGCACACAGTCACACTAGAGAACAACTATTGTAAGCCTTTTTTATTGTTTAATTTTAATTTTATTTATTTA
TTTTTGAGATGGAGTCTCACTCTGTTACCCAGGCTGGAGTACAGTGGTGCCATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCTGTTYGCCTG
CCTCAGCCTCCCAAGTATCTGAGATTACAGGTTCTTGCCACCACGCCCTGGCTAATTTTTGTATTTTTGGTAGATACGGCGTTTCACCATGTTGGCCAGG
CTGGTCTTGAACCCTCACCTCAAGTAATCTGCCCGCCTTGGCCTCCCAAAGTACTGGGATTATAGGTGGGGGCCACTGCACCCTGCCAATTTTTAATTGT
TTTGTAGAGACGGGTCTCACCTTGTTGCCCAGGCTGATACAGTCCATTTTAATAGGCAAGGAAACAGGTGCATGGAGGTGAATGGGTTGGTCCCAGTTCT
TACCACTTGGTGGACACGGGACAAGACAAGAATCCAGGAGTCCAGTGCAGCTATCTTTCAACACGGCTTTCTTTCTATCTTTCCAGGAGAGGTTATCATC
TTGTCTAAGCCAATAGCAATTGGATTACATTGGCCAGATAAAATAAAACAATCTAGTTTTACCGTTTTTACTTATATCATTTTAAAACTTATATCTGTTT
TAATTATATCATTGTATTTGTACGAGTTGAGATATTTGTATCTGTTCATTCTCCACCATATTAGGGCACTTAGTTCGGAAGAGGGCTGGTGAGGATACCA
AGACAATGTCTGGTAGTCTTTAACTGGAACTACCAGAAAGAAAAAAACAACTGTCGTATCAGCCATACGTGTGCCTCTTATGGGCCACGGCAGGTGGGCC
TCGAGGTCTGACCTATGGCAGTCAGCTGCTGGTATTTTCTTTTTTTTTGTTTTTGTTTTTGAGATGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTG
GCGCGATCTCGGCTCACTGCCACTTCTGCCTCCTGAGTTCAAGCAATTCTCTGCCTCAGCCTCCCGAGTGGCTGGGATTACAGGTGCCTGCCACCATGCC
TGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTGACCAGGCTGGTCTTGAACTCCTGACCTCATGATCCACCCACCTCGGCCTCCC
AAAGTGCTGGGATTACAGGCATGAACCACCGCGCCCGGCTGTCTGCTGGTATTTTCTTAGCATAACTTCATTTTGTAAATTCTACTTTATAATATTATTT
TATAAAGTCCCTGAAAATCATGGGATTGTTTAGCTGAGCACAGAAATTTCTAAATGGGTTGTGACCAACATTTACAGGCTTATCAGGCTTAGTAGTTAAT
TTGTTTCTTGAGTTTGATTTGGTTGCATGGTATCAAATCCTGATCAAACAGATAAGTGGTTGCTTCTTTTTTTTTCTTTTTCTTTTTTTTTTACTGGTTT
GCCTTGAAATCTTAGCATCCACTTCAGTTAAACAGAAATGGCATTACCTGTTCCCGGGGGTTCCACCAAAACCACTGGTTGGATGGTAGTGTGTTTAATA
GTTAATGAATACTACATTGAAATGTAAAAATAAAGTTTAAAAGTAGGTACGTGTACTATATTATCTCTATATTTATATGTTATAAAAAGAAACATTCACA
TCAAACATATGTGGAGTCTTTGAAGCATCTTCACAAAATCCTAGTGTTTTAAGGGGTGCAGCTAGGAAAATACTTGGTTATACCACATTCCACCCAGATT
GAGGCTCGGTCTGGAAACTGGCATGTCTGTGTCTTTGGTTAGTAGTAGGGGCTGGATGAGATAGGATGACTTAATGCAGGACTTCTCAGCCTCAGCACTG
TTGACATTTTGGGCTGGAGAATTCTTCGTTGCAGGGGACCATCCCGTGCATTGTAGGGTGTTTATTTTTAAATTTTATTTATTTTTATTTTTATTTGAGA
CAAGAGTCTCACTCTATTGCTTAGGCTGGAGTGCAGTGTTGCGATCTTGGATCACTGCAACTTCTGCCTCCTGGGTTCAAGGGATTCTCATACCTCAACC
TCCCCAGTAGCTGGGATTATAGGCGTGCACCACCATGCTTGGCTAATTTTTGTATTTTCAGTAGAGATGAGGTTTCACCAYGTTGGCCAGGCTGTTCTCA
AACTCCTGACCTCAAGTGATCCGCCCGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCGCCATGGTCGGCCTGTAGGGTGTTTATTTAGCAC
CATTCATTGACCTCTTCCCTCTTGATGCCACTGGCACCCAACAAAAATGTGACAACTGAAAATATCTCTAGACATTGCTGCATGTCCCCTGGGGATCAAA
ATCATCCCTTGGTTGAGAACCTCTGACTCAGTCTAATAGTTTAAAGCATGCATCCTACCATTGATATTATACTATATTACCTTTGCATTTTAAAGAAACA
GGTACGAGTGGAGGTGAATAGTTCAGTTCCTGCTTCTGGAGTCAGGTATATCTATCTGGGTTTGAGTGTCGGCTCTGCTAAGCTTCAGTTTCCTAAATCT
GTAAAATGGGGATAATGGCAGTACCTGTTTCTAGAGTTGGGAGATTAAACAAGGTAAGATATATAATGATCTGGGCAGTACGATGATACAGGGAAGCGTG
CTTGATAAATGTAAGCTGCTATTTTTACCATTGAGGATTATGAAGTACTTGTTTGCACATTTAGAATATGCTTTATCCCAACATGCATTGTGTATTTTTT
ATTTCCTGTCAAGAGCATCACACATGATAAATTTGATAACTTGGACTATCTTTGCTGTGTAACAAAGATTTATGACTCCTATTCCTGTTGGTTGCTGTTT
GCATTTCTCTTATGTCACTGAAAATTTTTTGCTGGGTCCTTGTTACATTTGACTAGAATATAAGCACTTCTGAAGGGCTAAGATTGTGTCTTACTCAGAG
ATTGTGTTTTACTCATATTTATATCCCTGTAGCACCATGCACTAATTTCCTGGGACATCGTAGGTGTACAACTAGGGGTGTGAATGTGTTTGAATATCTA
ATTGTGGGCAGAAAGGAAACAGTATATAAGTGAGATTGGGGTAGGTGTATATTAGAGGTAACAAAGTGTGCTTTTAGAATTTTTAAATAACAGCCCCTTT
TATAATATRAAAGACCAAAAATAATTTGTTTTTGTGCTCAGCCAGGTAGTTTGAGATGAGTGTTCGACCACTTTGTCAACTTGGTGTTCTTTTCCACGTA
TCTTAGATTTTGATTCCAGCTCTCCATCAGTGCGTGAATTTGCACTGCTGTCTTAGAGACTATGGCATCATCCAAACAGTGGTAACTATGGTTGGACTGG
TGTCTATTTCTATGACCATCTTCTGATTTTCAGAATGCTTAGAGGTTAGTTGGCTTTTAAAAGCAATATTACCTTTTTTTTTTTTTTTTAAATGTCAGGC
AGCATTACCTGTCAGATCATAATATTTTCATACACTTTGACAATTGTCATTCATTCCTGCAGGGGACTTCAAAACAAATTTTAAACAAGATGTTTTCCTA
ATTGTGGATGGATGAGCCTGCACAGACAGATTCATTCTTTTCTCTTTCCAAACCTCGTGCCTCCCAGATTTTTGAGGTTGAGATGAAGCACCAGAATAAA
TAGCTTTGGTTGCAAACCAGAAATCTTCCAAGGCTTGAAAATGGATGTGTGTGATAGTAGCCCATTCTAGGGGTACTGGAAGATTCTTYTCACTAGGGCT
TTGGTGAGGCTGCCCTGTAGGGAAGAAGTCTTGTGTCAACAGTTTTTAAGTTGATTCAGTAAGCATTGTTGATGATTGAAATTGAAGAATTGTGAAGACA
ATTCATCTTGAGGAACAGAGAGCATAGGGTGTGAGCCAGGCTGCTGGGAGCAGACATTGACATACGGGCCGTCATCAAACTAATTGTTGTTTGAATTACC
TGTTATGATCCGATGACAAATCTGCCTTGCTCCTGCCACTGGAGCAGAAAATGTAGCTTGAACTGGCGTGATGTTAGCAAGTGTAAACTGTACTTCAACA
AGATGGATAAACCCAATTATGGGGCAGACCTGTAGAGAGAAAATCCATTTAAATCTCATAATGTTAAGCAGAGCTGTGTTTAATTCATTTGGACCAATTT
GGGAATGATGTATGAGTGTTGGTGAACATTAGTCAAAGAGGGGACCACTTGGGGGAAAGGGATGTGCCGATGCCGCAGGCCACTCGGGGGAGGCAGCTGG
GGTGTCGTCTCAGCAGCCTGCACTAATGGCGGGGAAAGGCAGCAATGACCAAACGATGTACTGCCTGCTGTCGGGGAGCAGCGCTGTGTAAATAAACCAA
TAAGGAAAACATACGAAGCAGAAAGGAGAGGAGTTGTTTTTCCTAAATGCTATTGACAGCCCAAAACATAAAGGAAATTTGAGGTTCCCTTTCTCTATTT
CTAAACCCTGAAACCCGTATGGGCTCTGCTAAGCCTTGTAACAGGAGGCCTAGAAAAAGCTCTTGCCAGAAAGCTTAATGATGATTTGAAAGAGAGAAAG
AAAAAGGACAGCTAAATTTAAATTGATATCTTGGGGCATTTGATTCTCTATTGGAAAACAGTTAAGAGGGATTATTATTTTGAAATATATGTCTTATGCA
TATTTGAAATGGAGTCTAGAAGGTCTTGTCTATTTAAAAATCTCCCTCTCTATTTTTTAATAGCTACTAAGTGGTGACCCAGCTTTGCACATAGTGGGTG
CTGAATGTATACTGATTAGGTGAATGAAAGCATTGAACTTGAGAGGCAGTTTTCAGAGCTAGATATTGGTGTTTTCTGTACCTCAAACTCATTAGGATGT
ATAAGGACCTCATATCCTAATTTCTCATAGTAGTCTTTTTTGGCTTTCATTCCCAGGAATTTTGTGATTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTG
TCACCCAGGCTAGAGTACAGTGGTGCGATCTCGGCTCAGTGCAAGCTCTGCCTCCTGGGTTCATGCGATTCTCCTGCCTCAGCCCTCCCGAGTAGCTGGG
ACTACAGGCACCTGCCACCACGCCTGGCTAATTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGATGAGGTTTCACTGTGTTAGCCAGGATGGTCTCGA
TCTCCTGACCTTGTGATCCACCTGTCTTGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGCGCCCGGCCAGATTTTGTGATTTTTATATAATA
ATATATGATTCCACTTCTTTTAAAATATACATATATATTTTTATTATACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTAT
ACATGTGCCATGTTGGTGTGCTGCACCCATTAACTTGTCATTTACATTAGGTATATCTCCTAATGCTATGATTCCACTTTTTATCCCTACTCCTACATTG
TTGGTTTTGCCAAGGATGTTCTTAGAAGACTCCAACCCTCTTTTATGTGGGGAGGAGGTGCTAAAGCCCCCTAGTGAGTTGGTATTGTTTTTTTTCTCTT
TTGATTTGGGGGGTTTTCATCTTTCATGGAGTGGACTGGCCTTGGAGACTTCGCCTGTTGAAAGGAGAACTTAAAAGACTGGAGTGCATAAGGAGCTTGG
CAATGGACCGCCAAGACATTCATGGTTGTGCACTCTTGCCTCAGTACCCATAAATCTAATGATTGGAAGTGCTGGGTGTAAGTGGAGGTTAAAGCCCTAG
AATTTGTTTTCTGTAACTGGGGACAGTTCATTGTATGAGGTCATGGTGCACATTGAGTGCCCATTCCGGGCACATCTTTTATCCCAGAGTCAAATTCGTT
AGGATTTTATACCACTTTCTGGCGTTCTCCAAGTTTCAGCTTAGTTGAAGAACCAGTAAAAGAATGACAATAGACTGGGTGCGGTGGCTCATGCCTGTAA
TTCCAGCACTTTGGGAAGCCGAGGCGGGCGGATCACTTGAGGTCAGGAGTTCGAGATCAGCCTGGCCAACCTGGTGAAATCCTGTCTCTACTAAAAATAC
AAAAAATTAGGTGGGTGTAGTGGCATGCACCTGTAATTCCGGCTACTGGGGAGCTGAGGCAGGAGAATTGCTTGAACTGGGAGGCGGAGGTTGCAGTGAG
CAGAGATGGCGCCACTGTACTCCAGCCTAGGTGACGGAGCAAGACCCTGTCTCAAAAAAAAATAAAAAAAATAAAAAAAATAAACGAAGACCTCACAGTT
ATGTTTCAACACTATGAATTCTGAGAATCTGAATTTTCTGATCTAGTTACCAGTAGAATGTACGTAAAATACTTTGAGAAAATTTAAATTAGCATCTCCA
CCAAAAAGCCCCAGCACATTTAGCCCATGATTTGACCTGCCCAATGGGAGTCTTCCAAATCATTTAAGAACAAGTAAGTACTATTAATTAAATGAACTTG
GAAGAAACATATCAGGATGTGCTTCCAAATCTGAAGGTATTTGTGCTGAAAGAATCATCTGTTGTGTTCCATGAGTTTTATGGGGGACTCTGTCTGGTTT
GGCTCAAAAGCATTTGTCAGGTTTATACTCCTGAGGGTGGGGTATACACAGTGTGAACTGGGCAGGCAGTGAATAAGGGAATTTCTGGAGAACAGACCCT
TAAGGAAAAGAAAGCCTCCGCTTTGCGGGTTAGAATGGCCAGTGTATGTTGGGGGCAAGTCTTTTCAGGGCCTTCTGTGGTTTTTGTCCTGGTGAGCTTA
CTGCTTTCTGATGTAATAGCAAAGCTGAAATCTTGCAGTAATGTGCAGAGAGGAATTTTTGTCCTTTGGATTAGCTTCTAAGATATAAATATATAGCAAA
AGACCCAGGGCTACTTAATTTGATACAGAAATGAAATGGTGAGTTATCTAGATAAGGGCTTGATTGATTTATGAAATGTATCAGACTCAATTCAGGAGTG
TTCCGGGAGTCACGAAGTTCGGAACTAGATTCTTACCCTTAAAATCAAAAACAAACCTCCCCTGCTTCCCTCCTCCTGGTCTTAAGTCACTAGTTTTTAT
TCTGGAATCCAGCGGCATTTGTTTCTTTTTTTTTTTTTTGAAACGGAGTCTCACTCTGTCGCCCAGCCTGGATGGAGTGCAGTGGCACGATCTTGGCTCA
CTGCAAGCTCCGCCTCCCGGGTTCATGCCGTTCTCCTACCTCAGCCTCCCAGTAGCTGGGACTACAGGCATCCACCACCACGCCCGGCTAATTTTTTGTA
TTTTTAGTAGAGACGGGGTTTCACAGTATTAGCCAGGATGGTCTCGATCTCTTGACCTCGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACA
GGCGTGAGCCACCATTCCCGGCCAAAGCATTTGTTTCTTAATAATTGCTGAAGAAGCCAAGAGTTTCCTGTTAATTAAAAAGAGAAATCACTGAAGCAAT
GTATAAAGACACTTTTTTCTTGAAAGAGAACTTAAAGGAAGATTTGAAAGTGTCCCTAAGCTAAGAACATTCTTACCAAACCACCAGTATGTTTTAGGCA
GCCTGCTTTGCTTTGTGTTTTCTTGTCACTTGTTGCTGTTGCTACATTTTCATAATGGTGAAAGCAGATGAGAAATGTCTCCTCACAGAAGATACGATTT
GTGAAGCTGTTTCTCTCTGAAGAATTGGCACTCAGGGCTTGAATTTGAGCAAGTAAAGGGCATCAATAATGTGATGGGCCCCTTTCCTTGGAAGAGACCC
GTCCTCAAAAAAAAAAAAATAAAGAAAGAAAAAAAGGGGAAAAGCTGTGTTTTGCTTGGGTGACTTTTCAGCTTGGTTAAATTTGCCAGTTTATCTCTAT
CAGAAAATAAATCCTAATACTCCTGACATGATTTTGTCATTTTAGGATCGTTTAGGAAAAGCATCAAGTTAGTTTTTGCTGATTGGGTTGGTACCTCCGC
CATCCTTAACTGTTTATTTAATAGTCATAAATTGAGAGTTTGGTGTTTCCTACCACCACCCTCTTTGGAATTTTTGGTCAAGATCATCTCCAGCCACCAA
GTTTGCATAGCAGTGAAAGGAGCCCGACAATGACTTAAATGTGACGGGAACCAATGATGTGACTTGTAAAAAGTACACAGAGAAAACCACATGCCACATG
CAAAGCAGATATGGTTTTGATTTCGGCCTCAGTGGTTCTCTTATCGTTTCTTTCGCCCTGAGAGTGGATTTTTATCTTTCGATCTGACTTCTGTTTTGGT
CATGGTTTGTGGTTTCCTTTTGCCATCACAGCTCTTACATTTGGCTGCATGGGAACCAAAGTGACCAGGACTCCTGGTCGGTGGAAGTCTCAGGCAAGGC
AGCCCCAGCATGCCAGCCCCCAGGAATATTGAGACTGCTGTGGCTTCAGAATTATTGCTCCTGTCCTGCTAACTCACAGGCTCCCCACCTGGGGATTCTT
ATCCCTCTGTCTTTGCTTCTTATGTAATACGTCTGTGGACTATTTTGGAAACATCTAGATGAACTTGTGATCGATCTTCCCATTCTATGTATTTCTCCTG
GTTCCCTGCTTTTCTATCATCTCCTTTGGGAGGGAATATTTTTCCTCATTAACTAGTTTCCAGGTCAAAATTTCTCCATGAAGTATGAACTTTTCTCTAT
CCCAGTATTTAATTTCCACCACTTTTTTTTTTAAAAAATAACATAAGGCTGAAACTTTTTAATTGGGCAGGTTACTTAATTGCTATGTGGCTCTATTTTC
TCATCTGTGAAAAGCAGGTTTACTGAGAAGACTGGCCTATCACGGGGATTCATGTGAGGCTCTGTCACAGGGGCCTAGTCCAGTACCTGGCACATAAGAA
AGGTTTATTGGGTTTATGACTATTCCCAGTGGGGTGTTTCTGGGCAAACTGGGATAGCTGATCACCCTAACACAGTTGTTATTAAAACTCTTGCCAAGCT
TACAAGTGGTGATATATTGTGGCGCATATCTCTTTTTTTCCCCGCTTGCTTAGTACCTCATAGCGGAATCTGGACTTGAGTTATTTCTCCTGAATAAGAG
TAGTCCAGAATACCCTTTATTTTTGTTTTCTTCTTTGAGATGGAGTCTCACTCTGTTGCCCAGACTGGAGTGCAGTGGTGCGATCTTGGCTCATTGCAGC
CTCCATCCACCTCCCGGATTCAAACAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACGCACTACCACGCCCGGCTAATTTTTGTATTT
TTAGTAGAGACAGGGTTTTGCCATGTTGGCCTGGCTGCTCTTGAACTCCTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAG
GTGTGAGCCACTGCCCCTGGCCCCAGAATACCCTTTGAAGAGAGTTAGGGTGAAAGAGTCCATGTTGTGATATCATTTGTCTCCCCATGGAGGGAAACCA
AAAAGCCTGGGGGTGAGATGGGACTTATAATTATTATTTAGCTTCTGATGGGCATGAAATTAGTGACAGCAAGGCAGGAATTTGTGGCCTTTTGGTTGTA
ACGTCTGCTCTGTTTTTGTTTTTTGTTTTTTTGTTTTTTTTTTGTCAGATTTCTGTTGCTTAATACTTCATTAAAAAAATAAATTTAGGCCGGGCACGGT
GGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCATGAGGTCAGGAGATCGAAACCATCCTGGCTAACACGGTGAAACCCCGTCT
CTACTAAAAATACAAAAAATTAGCAGGGCATGGTGGTGGGCGCCTGTAGTCCCAGCTACTCCGGAGGCTGAGGCAGGGGAATGGTGTAAGTAAACCTGGG
AGGTGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAATAAATAAATAAATWAATTAATTAAT
TAAAAAGTCATCCTTTTCAGTTCTCAAATGGCAGAGGTCTGCATCCTGCCTTGCGAACCTATTAACACTCCTTTCTTTCTTTATGTGGGGTTTCCCTTGG
GCCTCTGTGGTCAGGCTATTGTTTGTCTGAGTTTGTAATAAGCGTGTAACAGCCTCCAATTTGCCTCAAAGACAAGTGGTGTTAGTTGGTTACTAGGGAC
AGGAGACCTTTGGAAATTGTGATTGGAAGCTAACTGTTCCAGGGTCCCTGGGTGCCTGTGTCGTATGGGAGAAGGCACTGGTGTTTCACTGCAGGTGAGT
CTGTGCACACAGCATAGGTCAGCTTGTTGGAACTTTCTTGTGTGTCTCTCCTGAGGAAGCAATCAGTTAGTGGCCACGAACCCAGGCCTGTTCACACATA
AACTTAGATGACAGTGGTGCAGTAGGGAGCTTGTCCAGAATGATTTATTCTCAAGAGTGGTGAAGACATAACTTCGATTCTCCCAGTCGACTTGAAAACA
ACCGTTGTTTTCTTTACACCTTCTGATTCCAGAAGGTACAGTTTAAACCTCCCTCATTTGCAGCAGGCTGAATTAAAACACAGTGCTTTGGGATCTATTT
ATTGCTATCTGTCTTTAAGCTTTCAGAAGCCAAAATGAAAAGAGAAATCAGAAAGCAGTGTTGGTCAATAGACTTTCCCCCCGTACTTACCTCCTTTTGA
CTTGGGGAGCTGTAAAACAGTAGGTTATACCTTCCCACCCTTCCCCAGCCCCCTTCAGAAGACTTGTGTTTCAGCAGGCTTTGTGAATCAGAAAGCTATG
TTTTTGTTTTTGTTTTTTTTTGGCATTTGCCAGAACTCTATAGCTGTTCAGTGGCCTTAGGCTGCGGAAGGCCTGTTTTCCTCCCCTCCTTTACTCTAAT
TTGTCCCGGGCATTCTGGCTGATGGCATGGCTTTTTAGCAAGAGCAGTGCCTTACCTCTTTAATTGGTTAGTTCCTCTAAGTGATGATTTATTCCCTACC
TATCAGAAATGTCTTAATTTACTTAATTGCATAGCCCCCCACCCCTTTTAAGTCCCCTCCCTCTAAAAAAAAATTAATACCAACAATAAAACTATTTCCC
CAGGCAGTGCATTGTGAGATGAGGCATTTTTCTCTGGGGAGAACCTTGTCTTTGTGTATGGCAGTGGGGAAGAATTAATTAAGGGAGAGGAKGAAGCTTA
GTAATTGAAGTTAGGGGCYCAGGAGCTCTGAACACTCCTAGGTCTGCTATTAAATTATCTGGCTGCAGATAGCTGGTTCTCTGGGTCTTGGTTTGCTCAT
CTGTGAAATGCCCCCACAGGATGGATGCAGTGGTAAGACCAATTAATTAGAAGCCATAAAAGTGTTGTTTTATCTGAAGTTAAGCATTTTTGTTGTGATA
AGGAGGCGTTCTGGGATGATGGATAAAACGCTTTGGCACTGAAGTCAGACGTAGCTGGGGACTCAAGTCAGCAGTGTCCGTTTATTGCCTGTGGGACCGC
CCTGAGCCTTAGTTTTATCTATAAAATGGGGATAAAACCTCTCTCCGAGGATTAAATGGGATAACATGTACAGCGCCACAGTGCTGACACAATGGCCCAT
GCTAAGGAAAGAGCAACGGTGATTACTTTATTGGAAAGGAAATGATACCTGTGATCCTGGCAGGCTCTAGCTGTTGCTGGGGTACTTTGGTTCCTTTCAC
TTCTAGGGAAGGCAAGTGGCTACTTTGTGGTTGGTTTTCTTGTCTTTTCAAACTTCCATCTCTTCTGGTTAAATTTCTTCTGCTTCTCAGAAGCTGTAAG
AGATGAACCCTATTCTCCTTGTCAGATGGATATCAAAATAGGGCTTTCAAATGGACTTCAGGATCCTTCCATGGGAATTCATTTGCTACCCATTTTCACT
CTTATTTTAGTGACCCCCTCCCCCAAGACATATAATATATAAACACATACATTGATTTTCTTTCTTTTTTCTTGTATTACTACAAGGATCAGTTTCTTCT
GGCCTAAGTCCAGAAACAACATGCCTGTCTTTTTTCATTGTTGAGGAAAAACAGTCTGAAGGCACCATAATTCCTTAAATTGGATTTCAATTCTTGATCC
CCTTATGTTCGGTAAACAGAGTGTTATATGAAACATCATTGTTTAGGAGCAAGAGGCTGGCAGCCTTGCTTTTTTTTGGGTGGAAGGGTCCTCGATTGGA
GCCTCCTGGGGCGAGGCTGTGGGTGGGGTCCCCTAGAGGTGAATGCCCCCCCCTTCACTTGGGATGGAGGCATTAATCCCTTTCCAAAAAATGCTGGTAG
AAGTTGGGAGGGCTGCCTGTTAGTGAGCAGAGTTTAGCTTGGAAAGAAGCCTGTAGTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCATTCTTGTT
AACTCTATTAGTGCCATGGGCAGCCGCTACTTCACTTGAAAGCTTTGGAGTTTCTATATTCAAATCAAAGTCACCCAGAAGCAAAGATGAAGGGGACAGT
GTGATCTTCAAAGACGAGGGAGTAAAGAAGTAGTGGGGAATATTTTCCTGGGTAATTCTGCACCCCCGCTCCCACCTTTACAGAAACACTAAGAGCCTTA
GCCACTTCCTCTTTCTTGGTGGTTATGTGGGTACTCAGGCTCTGGTCAAGTCATTGGCTGTTTATGGAGCAGGAGACAGATGACTTGGGAAAGCAACATG
AAAATGTCTTGGGTTGGTTTTGAGCTTGCATGGGGGGAGTGAGTCAGTAGATGTTTCTCGGGTTCTCTCTCTTCCTCTCTTGCCTTTCCTCCTTTCTTTG
AGCTTGTTTCGCTCTGAGAGTACAGGCTTGGCACCCACTTACCCAAGAACTGATTAGTTCCTAAAAGAAGCAGTGAGTTGATTGCTTACAGAGATGATGT
AAGCTTTGCTCTGGGGTACATCAACTTGGATTTCTCATGCTTTATCTTATAAAGCCTAAATTAACAGCTGGTTTGGTTTGAGTTCTCTGGGATCTGACTA
AGGGATTAGAGTCCATTCTCAAGTGAGTCAATCTAGTTTAATTTATTTCAGGTCTATCAAAAAAGATCAATCAAAGCTCTTTTGAAAGTAAAGCTATAAT
CGGTCTGCACACTTATAAGTCACTGTTGTTGCACTTGGTGTTTCTCTCTGGTGGAAAAATGCTCAGGCTGTGGTTAAGAGGATGTATTAGAGCATTTTCT
GTGTACCTCCCTTTCTTGCAGCCTCCACACCTCCCTGGGAAGATTTTGAGGAAGTGTCATGTTTGAGAACCCCACTTAAGTGGGAGCTGCACTCACCTCC
GTCTCCTTTTTCTCTGGGSATACTGGATCCCTGTTTTGGAAGTTTCTAGTTCAGTATAATTTTAATACCTGGACCTGAACAAGTCCAGCCTGTTTTATGT
CACTGTTTTTGCTCCTGGGCTTTTTCTTGCAGATATTGGTGGGTGAAGACATGCAYTGAATTCTTTCCAGAATGTCTGCTGTGAAGAATTACTCATGTCA
TTTGCAAGGCTTAAGCTGAAGCATTCGCTGCTATGGTCGATCTAGGCTTTTGTGGGCACTGGAAACGACAACCCGAGTTGTTCATTTCTTTTGTTTCTAT
TTTAAAAATACTTACCGAGCATCTTCTGGTAGCTAAGAACTATTCGAGATACACTTGATGTGCCAAGAGAAACATCAAGATAAAGGAGGTAGTTAAGAGC
TTGACTGTAGAGTTAGACCTGTCTTTGAATCCTAGCTTTGCTACTTTGTGACTTTATATGACCTGCAGCAAATAAATCTCAGTTTCCTTGTCTGTAAAAT
AGGCATAGTAAAACTGTCTCCCTCCAAGGATTGTTGTGATAATGAAATGAAATGATACTGTATCTTTTGCTTTTTAAATAAGCCACTTCTGGGGAGCTTC
CAGGAAGCAGAAGTTTTTTTTTTTTTTTTTTCCCCCAAATGCATTCAAAATAAACAAATCTCCTTTTACTACCATAACGGTGTATGTGAATGTCCTGGCG
GATGCTCTCAAGAGCRTCAACAATGTGGGAAAGAGAAGCAAACACCAGGTTCTTCTCAGGTGGAGCTCCAGAGTCGTCCAGTTTCTAAGTGTGATGATGA
AGCATGGGTGCATTGACGAATTTGAAATTACCGATCATCACGAAGCAGGGAAGATTGTGATGAACCTCACAGGCAGGTTATCAAGTGTGAAGTGGTCAGC
TGGAGATTTGATGTGCAGCTCAAAGATCTAAAAAGATGGCAGAATCATCTGCTCCTGTCCCAGCAGCTGGCCTGCATTGTGCTGACCTCAGCTGGCATCA
TGGACCACAAAGAGATGAGATGAAAACACACAGGAGGAAAAAGCCTGGGATTCTTTTTCTAGGGGTGTAATACACCCATGAAAAAATAAATAAATAAATA
AATAAAAATAAAATAAAAATGCCTCAATGGGGGAAAAAAAACRCACCAGAGACAAATACTTATTTAGGATCTGTAATGTACCCATTGCCATACCTAGGCA
TCCTAGATACAGCAACATATCCCTGCCCTTTAGGAATGTACAGTTTACTGGGAAAAAGATAACACTTATCAGAGGAGGGTGTTTGGGACTGTGAATCCCG
TGTGTGTGTGTGTTTTGAGACAGAGTCTTGCTCTTGTTGCCCAGGCTGGAGTACAGTGGCTCTCAGCTCACGGCAACCTCTGTCTCCTGGGTTCAAGCAA
TTCTCTTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCAGGCTGGGCTGATTTTTAGTATTTTTAGTAGTGATGGGGTTTTGCCATGT
TGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTTAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCCGTG
TGTTGTTTTGAGCTTCTGTCTTATGTACCACTTCCCTTGGCTCAAGGCGTCCTTTTTATCTTTCTTCCACTTGACTAAATGAGAATAGTGTGGGTCACTC
TCTACCTGCCTCCCATCTGTGGTTCCTTTTGGAGATAGGCCGAGTGGGCCACTCACCCTTTAATTTTCTCTTAGTTTCCTTTCTGTACACCAGTTTGAAC
CTTAGTATTATCACTAATGCAAATATGAGCCTAGGCTCAATTTTTCCAGTTATGAAATGGGGCTGGCATTATTCCGTGATGTGCATGTTAAGAGAGGGGA
AAGCTCACATTTTTGAGGTCCTCTTGTGGTTCTATYTTGTGTAGGAACTCACGCTTTGTTTATTCAGCAATCATTCCTCCAGAAATAACCTTAATARCAA
CAAGAAAAAAGAATAGGTGTTTTTTGAGCTCTATCTGCCAGTTTCTCTATATATGRACATTATATATTGCAACATAACACTCACAATGCCTTTAAACATC
ATCCCCGTTATACAGATAAGAAAACAGAATTTCAAAGAAGGTAGGGGACTTGCCCAGGGATACATAGCTAGCAAGTGGCAGCGCTGGATTGAGTCTGGGC
CTTGTCTGAGGCTCGGGTCCTGTCATGCTCTGCGGTTGCTATGTTGACATGCAAAGGGAGAGGCAGCTGCTGGGAGTCTAGGTGGGTTTCTCTTTGAGAA
TGCTAACGTGAACCCTCAAGGTGAATCAGAATCCTTTTGCAAGTGAATAATCAGATGTAGGTTCCTGTGTCTCCCTGTAAAATGAAAGCCTCTTTTTTCC
AAGGTCCAGTATAGACCTGAAGCTGGGTTACTCTGGAATTTCCCTCTCTGGCTGGAGTGACTGAGGCCTTGCACGTGACATTGGTGAGGACTCGCAGCCT
CAGGTCTGGCTTCCCTTAGCAACCCCCCTTTCCTGTCTCTGCCTCTGGAGTTCACCATTAAAAAAAAAAAAAGAAAAAAAGCCAAAACACTTTATAAAGT
TACATGCTGGGTTTCTTCTATGTCCTAGAAACTGTCTTAATTCATCTTCCCCTTTACTCTTATATGAGCAGGAAGAAAAAAAAATTGCTAGTCAATGCTA
ATAATTATGGCATGTAATGTAATTGGAAGTGTTTCACTGACATGCTCATGAGAGTTTGCGGCTTCATCTTCAGGCTGGGATGTAGCACTAGACTTGCCTT
GAGTGTCTGCACAAGCCTTTGATGCAGGTAGACCATATTATAAATAGGCGCGTTGCTATGGTGAGGATGGCAGTCCTTGCTTGCTGTGGGTAACCTTTTC
TACCTTCTCGGACACTGTTTTAAAACACAGCAGCGTGATAGCATTTCATTTAATTTGGACCAAGGTGGGGTAGATGAAATGTTGAGATTTAGATCTAAAA
TGTTGTTGTGGTGTTTCAGGGGGTTCTGGCTCACCTAGTACTATGGAAGATTTTGCAGATTGGGCTTCCTCATGATTTATTTAGAAATAGATTTTCTAAT
AGATGGGGTGAGGGGAGGGTGGTGGGCAGAAGGCTGGGCTTTCTTCTCTTCCCCCTCCTCCTTTCATTGAGCGCTTCTGCGAATGTGTTGGCTTTGATGC
CCCAGGAGCTCATACAGTGAAATGGAAGTTCAGGTTGGCACGTTGCAGAAATGATTATTCCTGGTAGTACGTTTCCCATTACTGTTAATAATATAAAGAC
AATTGCCTGCCTCTCAGGACTCCTGCACGTGGCTACAGTCATTTCTTCATGGAATTAGACACATAGCAGTGGGGACCAGGAGTGTTTTATTAGTGATTGT
CCTCCTGCAAGTTTCCAGGGTATCTCAGCTTAGACACATGAATTATTTTTTCCTGTTGCTTGGAGGGTATACTTTTAATTATATTCATTCAATAACAGAG
CAGTTCAGGTTTGTAAAATATTTTTTCTCCCCCAACCTTTTCCCCAGCATACATCCCCGTCCCGTAAGTTTCTGGGCAGAGACAATCTCAGGAACCTAAA
GGTTGCTAAAAAATTAKCTAGTTGGCCAGGCGCATGACTCATGCCAGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCGCTTGAGCCCAGAAAT
TCGAGACCAGCCTARACAACATGGCAAAACCCTGTCTCTACAAACAAAACAAAATCTAGCTGGGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTGGGG
AGGCTGAGGTGGGCGGGCGATTGAGCTCAGGAGGTCCAGGCTGCAGTGAGCCGTGATTGTGCCACTGCACTGCAGCCTGGATGACTGAGTGGGACCCTGT
CTCAATAATAAATAAATAAATAAATAAAAAATAAAAAAAATTAGCTAGCCAAGCTGCTTATAGGTCTTTTACATGGCCAAGCCACTTTCTCACCTTTAAA
ATGGTAATAACGTTTCCGTACTCATCTCAATGGGTTTTGAGTGCCAAGACAGACCGTTTGATGGAAGCCCTCTGGGGAGAAAAATGCTACCCAAGACAGG
CTTTTCAATTGGAGACTGATCCATTGGTGTTTTGGTCAGTTGGTGTTGAAATCCCTATTTTTCCAGCTCAGGACTGCCTCTCTCCCTGGAACTCTTCCCG
AGGTGAGTTCTGCAGCCTTCCTTGGGAACTCTCAGCCTCTGGATCCCTTCTTGCCAGGTGGAGTGGACATGCCAAAGTTGTGGGCCAGACTCGGACTGCC
TGGCTTGTCTCAGCACCTTTGGGGACCCACTTCCCCTCTCTGGGAACTGGGGAAGCTAACAGAGATCTTGCTAGGGGGGTGGAATCCTGTATCCATGTGA
GGTTGTACCCCCAGGCTCCTGAGTGGTTTGAAAGTGGGGAACCCTGGCCGGGCGCGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCTGAGGCGG
GCGGATCACAAGGTCAGGAGATCGAAACCATCCTGGCTAACACGATGAAACCCCGTCTCTATGTGCGTGGTGGCTGGCACCTGTAGTCCCAGCTGCTCGG
GAGTCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCCCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCC
ATCTCAAAAAAAAAAAGAAAGAAAAAAAAAGAAAGTGGGGAACCCCTCCCCCAGGATGAGAAGAGCCATGGGGTGAGTCTCTGCCACCGCCAAGGGGAGT
CAGGCTCAGAGGCTGCTACAGGGACAGCCAGCTCTCTTTAGATGGTCCCCACCATCTAGTCAGGGCTTGTTACATATGGAGCAGAGACAGCGCAGGCTGC
TGCTGTTTTCCTGGAGAAGGCCCCTGTCGGTCTGTTCAGCTGTAGCTGACCTTTCCTCCTTGTGCTTTTTGGGGAGGGAGCCTTGGAAGGAGTAGGGCAC
GTGGGGCACTCTGCTTCCCGGCCCCACACTGGCGAACCTATGGATTCTGCCTCTGATTCCTGAGGAAACATCACTGTGAAGGTGGAATGAGCCACATACA
GAGGTGGCTGTTGGGGCCGGGGAGGGGTGAAACGCCCCCAGGGTGTACATTGCACCAAAAGCCAGGCTGCATATAGACCTCAGGATGGGCTGGCTTTTCT
ATTTATTTAGAAGTATTTCCAGAGGGTAACCTCATTGGCTACAAAGCATGTCTGAACAAGAGCTCCGTTGTTCATTCCCAGCCCTGTTACCCTGGCAGGA
TGCAGACTCCAGGCGGCCTGTTGGTCAGGCCTTGGACTCAGAGAGCAGTGAAGCCTGAGGAGGGGTGGGGGGCAGAGGCGTGAGTGGTCTAGGGCCTCAG
TCCCTCCAGGACACCCCTTGCCAAGCGCAGAGAAAGCTCTGCCCATCCGTCCCCTCAGGCAGTGGGATTGGGCAACCTGGGAAGCAGTGAATGTGCGTCG
GTAGCATAGATTCCATTCCGCACGCCACCCTCGCCTCCGCCCCCCAGCCCTGGGAGGGATGCATGCCCTCCGGGAGACACCCAGACCCGACAGAGAGGCC
TTTGTTGGAGCTGGAGGTGAGAATCTGTGGGCGTTGGGATTCCTGGGTTCGAGTTCCAGCTCACTGCCAATTGCCCGAGTGCTGGGCGAACATTTCTGGA
ATCAAAAGGAGTGCAGCCTGCCCAGCAGGGCCTACGGGAGCCGGAGGCTGCAGGGTGCTAAGATTGCGTTATCTTTACCAAGTGCCCGGAGCTCCTGGGA
GGGAAGAGAGAGTCCTAGGACTCAGGATAGGAGGTGGTTGGAGTTTCTCGAGGAAGACTCCATGCTTTGGTTCTGGCCCCTGGAAACCCCTCCTGAGGAC
TGGACCTCCAAGCAGACCCCCTCTGTGACTCCGGAATGCAGTGTTACTCTCTTATATTTTTCTTTCTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTC
ACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCGCCCTCCGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATT
ACAGGTGCCTGACACCGCGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCATAA
TCCACCCGCCTCGGCCTCCRAAAGTGCTGGGATCACAGGCGTGAGCCACCGCACCCGGCCACTGTCTTGTATTTCTAACGTCCCCCTGACTTTTCTGATC
ATGTAATTCTTAACTTTCTCAAAACTGAGATTTGTCACGTGTCCTCTCCCCACTCCATTTTGTGAATCAGAGTCTTCCAGGGGCAGGACCTGGAGAATGG
GTCTTTATTAACACACATGTGAAAATGCTTTTGCCAGCAAGGCGCGGTGGCTCATGCATGTAATCCCGGCACTTTGGGAGGCCGAGGCAGGCGGATCACT
TGAGGTCAGCCTGGCCAACATGGTAAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTCGTGGGCACCTGTAGTCCCACCTACTCGAGA
GGCTGAGGCATGAGAATCACTGGAACCCAGGAGGTAGAAGTTGCAGTGAGCCGAGATCACACCACTGGACTCCAGCTTGGGTGATAGAGTGAGACTCTGT
CTCAAAAAAAGAAAAAAAAAAGAAAATGCTTTTGCCATGGGCTGTCTCCTGCTTCTGCTTTGCATTGGGCCTCTGTACCTAGGTTGCAAGATTCCTCAGG
GTGCACCTGGGCTTATCGTTATCTGTAAGTTATCCCAGCAAGCACTTAAAACACAGTGTTGGACGATGAATCCCCTCTACAAGAGAGGGACAGGGCAAAA
ACGACACCTCTTGCCTCGCAAGCTGTCTTGGGCCAAACCTCAGGTCTATTCTTTCTTTTTTTTGAAAGTAGTGGCTGGGCACGGTGGCTTACGCCTGTAA
TCCTAGCACTTTGGGAGGCCAAGGCGGGCGGATCTTGAGGTCAGGAGTTCGAGACCAGCTTGGCCAACATGGTAAAACTCCATCTCTACTAAAAATACAA
AAATTAGCTGGGCGTGGTGGCGCATGCCTGTAGACCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGAGAGGCAGAGGTTGCAGTTAGC
TGAGACCATGCCATTGCACTCCAGCCTGGGCGGCAGAGYGAGACTCTGTCTCAAAAAAAAAAAAAAAGAAAGTAGCAGCTCTACTGAGATATTTAGAAAC
CATAAAATCCACCTATTTGAGGTGTACAATTGAGTGATTTTCTGTATAGTCACAGATCTGTGCAGTCATCCACACCCTCTAACTCCAGGACATTTTCCTC
ACCCCCGAGGAGAAACCTCCCTTACCCATTAGCAGTCACTCCTCATTTCCTCTCCCCCCAGCCCCTGGCAATCACTGTGGATTTGCCTGTTCTTGACATT
TCATATAAAYGGTATCATAAAATCTAYGGGCTTTTGTGTCTGTCTGCTTTCACTTAGCATACGGTTCTCAAGGTTCATCCAGTATTGTAGCATCTATCAG
TATGTCATTCCTTTTTATGGCCAAATAATATTTTATTGTATGGATAGACATTTTGTTTATTCATTTATCTGTTTTTGGTTATTATGAGTAACACTACTAT
GAACATTTTGCACAAATTTTTGTATTGACATGTTTTCATTTCTCCTGGGTATAGTCCTATGAGTGGAATTGCTGGGTCATATAATAAATAACTGTTTAAC
ATTTTGGGGAGCTGCCAAACTTTTAAAACCTTGGGTTCTGTGATGTACCAGTTGTGTTAGGCAGCACAGCAAAATGTGACTTTTGATTGCCAGAAACAAT
ATTTAAAAAGTGGTTATAAAAAGTGGTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACCCT
GTTAAAAAAAAAGAAGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACTGAGGCGAGCAGATCACCTAAGGTCAGGAGTTCCAGAC
CAGCCTGGCCAACATGGCGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCCTGGTGGTGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTTG
AGGCAGGAGAATCGCTTGAACCYGGGAGACTGAGGTTGCAGTGAGCGGAGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTGTGTCTCA
AAACAAATGAAAAGAAAAGGCTGTCATGTTAGATCCACCCTCCTCCTCAGGGGAACCCCTGGGCTGCTCTCTGGGTAGAGATGGGAACCCAGGCCTCGGG
CCAGTGAGTGGAAGGAAACTTTGGGATGATTGACTTGGGACTGGGCTAGAGGTGAAGAATCTCCCAGTAGGCAAAGTTCGGCCTTACGTTTTTTTGTTTC
AAGCAAACCACATCATTACCCACAGAGGCCATTGGTGAGATATTTGTAAGTCTCCTGACAGTGGCTGGAGTTCGTTGCTTGGTTGTTGTTTCTCTGTCTC
AGCCCTGGAGATGGGAGTGACCACCTGCTCTCTCTGGACAGAGGCTGTCCACGTTCATGCAATTCCTTGGACACCGGTGGTGCAGCGGGAGGCGTAACTG
GGAGTGGGAGACCCTGAACTGTGCCGGTTCTTGCAGAGTATCACTGTGACTTCAGGCGAGTCACCCCACATCAGGCAGCTCAGAACAAGGGATTGATCTA
GAAGGACCTTTCACCTGGGCTATTCTGTGACTCAAATTATCTTCTCCTAAGCCCACTACTGCCTGGTGTGTTGGTTAAATTAGCCTAAAGGTCATTCCCT
CGGAGAGGCCCTCTGGGAAACCTCCCTTTCCTGAKAGTCACTGCTTGCTGGCGCCTGCCCCTGGGGTTCCTTCAGAGTCGTGATCATGCCCTGGCCTCTT
CCTTTATTTGGCAGTCCCTTCCCTTCCCCATCCCTGATGAGGGTAGGGAGCATCTGTCTGCAGCTTCATCTTCATTGTCTAGGGGCTCCAGAAATATCTG
TGAGTAAATAAGTTATTTAATCTTTGCCTCAAATTTCCAGTGACTGTAGGGATATAGCTGTGAGCCTCTAGGAGCTGAGATTTTTTAAATTTCCCACTTA
AACATTTATTTAAAAATTTTGTGCTCAGCATGGACTAAGGACTTTACATTCATTAACTCATTTACAGCTTGATCCTATGCGGTGGGCATTCATTTACAGA
GGATCCCATTTTACAGGTGAGGAAGAGGCCAGCTAGGGGTGCAGCCTAGGTTAGTATTCTAGAGCTCATCAGGCTGTGTTGTCCCCAGTGAAAGAATAAG
CAAAGAAGTGAATGTTGTGCATTGAGAAAAATGACTCTCGGAGGAGGATGAGCCTCTCGGATATGGCGACCGAAGTGATWTGGGGCCCTTGTCAAGGGTC
TCTATTATGGCATCAAGAAAAGATGCTGCTTTCGGTGATGCCCGAGGAGAGCCTCAATATTTTACATGGGAAACCTAAAAAAGGGGCCATGTTGTGGTCT
CTGCACCTAAGATACTAAAGGAAATATTTTATGGAGAGATGCAACATGTCAGGCCTTGGAGGGAAACCCCAGGATCCAGATGGTTGCACTCTCAAAYCAG
GGCCCCCCTCACCTTGGCCTTCASCATTTAGTGTTGGAACCAATAGCATAAGCTTTGGTCAGGACCTTTGATGGAAGCCACAGTGCTCATTAGTGACCAC
GGTTGACTACCTTCTCTCTCCTAAGCTGACTTCTGGAGGGCACCTGGGATTTCCGGCCAGTGATCAGTGCTGGTGAAGCCTGAAGGCCAATGTGTAGGTT
TAGCTGTTCAGTCAGAACCCAAAAGGGGCCAAAGAGATGGTTTCCTTCAACCTCCACTGAGGGAAGTGAAAGTCATGGTTCGTTAAAAGGCTGAGCTGGG
ACCAGAGTCTAGGGTTCTAGAGGTGGGAATTTCTACAGCTTTGGGGGACCTTGCAAGGGCATTTGCTCTTCTGGGACTGCAGGGAGACTGTGCTTCTCAG
AGATGTTAGCATTTGGCTTGGGGAGAGAGAGGAAAGGAGAGGTTCATGCTCCGCCATGATGGTGGAAAGTGATGTTGGTGTGGTGAGGAGCTGAGCTGAA
TTCTAAGTGGTTCCAGGGAATTAACAATGTTCCTGCCCAAGTGTCCTGTTCCCCCACAAACTAATGAGGCAGCAGGTGTCTGAAGAGAAACATTGCAGAA
TGTCTGCCAGGGGTTTTATGGTTAATTTTCCTCCATTATGAGGGTTGACTCAGCCTTGGGTATTAGATGTCTTTGAGAATCCAGGGTTCAAATACCACAG
CTGGTAGAATGTTTCTCAACTTGGAGCCAATCTCCATCTACTGAAGGTACGCTGGTTTAGACAGACAACAGGGACATCAGCATTTTAAAAAGCGGTGGAA
AAAGTTTGCTTGTCTTGATTGGAGCCATGACATTTTATTTTGAAATTTCAAATAACATGAAGGGAGGTTTGGAGCGGTTTTTGGTTTATCCAAAGGGCAG
TGGATTGAAGGCTGAGAAACACCAGGCTGAATGGGAGAGGGGTTGGGGTCCCCCTGTGAGATAGTGAAACAATGGTAGTGCCATCCAATGATAGGCACTT
TTCTGTCATTCAGAAGCAGAAAGGGGGCCAGAGGCCCATTGGCCTTACTGGGMAGTAAGCTGTAGAGCTGCTGCCTTTTCGTGAAAGGGTTGACACCAAC
CTTCTCCCCCAGGAAGAGTGACCAGGGACCTGAGGGGCATGGTCGAGCAGATGACAGCCTTTGTAAAACATCTCCCTGGTCTCATCAGCGATATTCRTCC
TGCCTTCCTTCTGAGTAATTTCCATCTTAGGACTGGAGTCAGGTGGAGCAAGATTCCATGTTGGTTTCTGTTGGSCCTAGAGTGTCACACTGAGACCTAA
TTTCATACTTTATGAATTCTAGTACTGCTCTCGAAGGTAAGAGCCGTCCTCTTTGGCTGAAGGTTTTTGCCTGCAACCTTGCATTGTAATCCAGTGACAC
CTGACGTATCTGTAAATTTCTTCAAATTTCTAAGTGTATTACAACCCCGTGTGCAAAAGATGATTAATTAATTGCCTTGACAGTAAAACAAAAAACAAAA
AAAAGGTGTGGGGGTATATGGTATCCCTGATTTACTATAGAAGATGCAGAGAGTGAAGGGAGATGAGGTGGGGAGGAGGGGCCCAGGTTCTGGTCCTACT
TTTTTTTTTTTTTTTCTAAAGAGATGGAGTCTTACCATGTTGGCCAGTCTAGGCTTGAACTCCTGGCCTCAAGAGGTGCTCTCACCTCAGCCTCCCAAAG
TGCTGGGATTATAGGCGTGAGCCACCGAGTTTAGCCCAGGTTCTGTTTCTTGCTTAGTCACTTTCTGTTTGAACAAAATTGGAATTTCCTTTTTGGATCT
GTTTCTTTAATTGTAAATTGAATCGGACTAAAACCTTTCCAATTTTTTCACATGTGAAGACATACACAAAAGTTTTATTGGAGGGTTGCACATGTGAAAG
AAAAAGGGAGAAAGCAGGATTGAGCAGGGGGAGCCGTCAGATGGTAATGCAGATGTGATGAGATCTCTGCCGGACCAAAGAGAAGATTCCTTTTTAAATG
GTGACAAATTCATGGGCTTTCTCTGCCTCAAAACCTAGCACAGCTGTTATTTACTGAACAATTAGAGAGCTAAGCACTTTTTAGATAYTATATAATTTAA
TTGCCGTATGAGGCACCCTTAGTTTTCAGACGAGAAACCACAGTTACAGGGAAGGCAAGTAACTTAGTCAATGTCAGATAACTAGGAAAAGGTTAGAGGG
GCCCTGGACACAGGCCTGTGTGACTGAGAAGCTTGGGCACTTCACTGCTACATTTCATCTCTTCGCTATAAACATTTTAGCTTTTTGTGTTTGCTGACTG
GCAACAATACATAGTGAAAGTTCTAATAATTTGTAATGCTTTTGCATGTCTTTGTATTTTTCTTGGTTATCACATCACATCAAATTAAGATACTGATCAG
CAGTGTGAGAGGTTATTTTTCCATGTCCTCTTCATTAGTGTTAGCTTGTGGATGGATTTGAGGCTCTCTGTGCTTTCCCCCCAGCAAAGTGAATACCAGA
CTTTCCTATTAAAAAAAKTATTTTATTTTTCAGAGACAGGGTCTCATTCTGTCTCCCAGGCTGGAGTGCAGTGGCACAATCATAGCCCACTGCAGCCTCC
AACTCTTGGGTTCAAATGATCCTCCTGCCTCAGCCTCTCTTAAGCAGTGCCTTTCCCCATTCTCATGGGACTTTCCAATCCATGAGATACTTTGCTGCAG
GGAAGCCCTGTCTGTCCAGGCCTGTGTAATAGACGACTTCACATGGTCCTGTGTTGTTGTTTGCCTTCTGTGTGGCTAAGTTTCCATGACCTGGTGGCTT
GGAAGCCCCATCCCTGATTTGTGGGAGAGGCAGGGAGGCACCTTGTAGCGCACTAGGCGTTGGGCCTGAACAAGTCTGTGTGCTTCCAATGTCTTTGTGG
GGAGGTTTACGAGTCCTTCTTATTATATAATAGTATCTTGTCTTAGCTTGGTGCCTTTCTTCTCAGAAGCTTGAGGCACTCTGCAGATACCATCTCAATT
TGCTTTCTGGGAGGAGGAGAGGAAGCTACCCAAAAGATGAAGTTCTCTGTGAGGGGCTTGAACACAGGTTGATAGCGTTGCTGGTTAGTTATTCTCATGG
TGTGGATGAAAAATGGAATACGCTGAAATTTCAGTTACTCGTCACAAAAATAAGGCGTATGTAGAAAACATCCTGGGCTAAGGRTTTGCATGCTTCTAGA
ACTTCCTGTTACTTAATGGCTGTTGAGTATAAACCTCGGGAACAGTGGGGATCCTTGGAGACCCCAAATAACTTGTATTTGTGGTTACTCCTGTCTTGTC
TATCAATACCCCTGTCTATATCGTGTTAGAACTAGGACACACAGACTGGATTCAGAAGCTGGCCTGGGGTTTAGGAGAACATGGGACCTAATCCTGGCCA
TCTCGATTTACCTCCTGGATCTTGTTTTCTCATCTGTAAAATGAATTGGGGTGTGGACTGTTTATGGCCTGTAGGATGCTAGCCCTGAGAATTTTCTCCA
GATATTCTACGGTTAAGTAATTTTAGGGGACACTGTCTAAGCAGTTGCCTCTTGGAGAATGAAGATGTTCATTAGGATATTGAAGGCTCTGAGAAGTCCT
AAAGTTAAAGAAAATCTGCAATGTTCTTTGTGGGACCGAATAATGCAACCTGGGAAATGAGGGATTAGATGACACTTGAGTAGCCTTCCAGATCTGAGAC
GAGTCTCACTCTGTTTGTTTACTCCATCTGTGATGGGTGTAGGCACCATCTTGGGGAGCAAGCTGTGATAGAGAGGGAACAATACCTTGTTAATGTTTGT
CTAATTCACTACCCAGGTGCATGGTAGTGAATTAGACACTACTTTGTAGGTTCTGGAGGGAAGAAGAAAAGACGAGACCTGCCTGGACTGGGGCTTGAGA
CCACTGTCAAATACAAGTACAGTTGTACAACTGGTAGGGAGTGGGTCATAGTATGGCCGGTCTTTTTAAAGGTGAGGAATTCTTAGGCCCAGAAAGGCAA
AGTGACAGATCCTGGATTTAACYAGCAGCCCAGATTTGAGGCCTAGCACATAGCAAAGCACCATAGCTATTCAATAGCTGCCAAGTGGGAGTTTGGATGA
TGGCTTTCCTGGACAGCGAAAGCAGTGATGTTTGCTTAGGATGGCCTTTGGCAGTGCTGCTGTTATCCTTACCACTGGCAAGCCATCTCACGGGCCCGGA
GGGGAGGGCAAGGAATCCTAATTCTGTGAGAAGGCTCTGGGTACATGAGTGTGAGATATGGATACCCTAGGCTCTGCCCCTGAAGACAGTGGCATCGGAT
TTACTGCACTATTCCAGTCGGACAGGCACCTTAATTTTTCTCTTTCTGGGTGTTTGATATGGTTGGGTCCTATTTCTTCTCCTCCAAACCCCGCTAGGGC
CATTCCCCCACCCTTCACTTCCCGGCCTTCCACTGCAGTCTCTAAGGATTCTGCTTCATCTTTATGTGTGAACAGGGTTTTGACAAACATGATTAACTGG
GTATTTTTGGAAGGCTCAGGAGGAACGCAGAGTGCTCCGGAGGGCAGGCCTGGAGTCAGGAATGCTTCCTGCAACCTGTTCGTGCAGTGAGCGTGTCTTC
CTCGCCCTGCCCTTGGCTGGGGAATGTGCTGGCTTGGAGGGCAGGAGAGTGACAGGCGGTTTGAGAACTCCRGGCTCTCCCGTCTTCGGATGGCTCCTGT
GAAAGCAGGGCCTGAAACTTTTATCGTCACTGCTGCAGGTGAAAGACTTTCATTTGGCTGTAGTGGTCCAACAAAGAGTATTTTATTTATGTGTTTCCAA
GCCCTTAAAAATTCTTTTAGGGCACATCAGTGGGGAGTTAATAGAAACTTTGAAATAAGAAAAATGCCTGCAGGGTAAGTAGAACCCCAGCCAGCCAGCT
CCGAGTTCTGTGCTGTTAGCTGGTAGGTTGGTTCTCAGAGAAGTGGCTGGCTGGCTGGGTTACGGAGCCCACATCTCTAATGCCTTAGTGTTCAATCATT
AAGTGGATTTTTTTTTTTCCCTTCTCTTCTTTTGGTTTGGAGGGAGGACTACTCTAAACTTTACTCAGGGCAGGGTAGCTCCTGAAAGGGCTCCCTAACC
TTTCTGGTTTATGACACAAAGAAAGTTTGGAGGTACTGGGATAAGAGATGGCTTGGGTGACCCCCCTATCATGCCCCCTAACACATACACAGCAAACCAA
ACCAACTCACCCTTGATCATACTCGTTGTTTACACGAAGGGAATTTTTATTGTCTTGTGAGTGTTGAGTGATGATTAAACAGAAGAGATGTGACTCCAAG
CCTGGCTTCACTAAGATAGTCTTGTTTGTTTCTTTTCCTCCAAAGTAATTTCCTAAAGAATTAAAAGCCCCTTTGAAACCCAGCACTACCTTGTCTCTGA
TTATCAGCATAGGCAGGAAGGGCTTTTAAGGTCTGAGCCCAGCTGTTTAGAGGCTACGAGACGTGAGGCAAATCCTGGTATCTCTCTTTGGGCCTCAGTT
TCTTCATCTGTGAAATGGCACAGTACTACCCTCCACCAAGGATGATGATGAGAATTAAATGGGATGACAGGTTTCATCCCCAGCTCCTGTTCTTAGGAAG
GAAAAACTGTGACTTATGAAGCCTGTAGGTTGTGTTCAGGTTTGTATGAGGCCTCGGACTTCATACAAAGGTATCAAAGTGGCAAACCCTGATCCAGATG
TTTTCAGTTCAGTCAGCTGGTCCTTGAGCCTGTTGTGTGCCAGATATCCTGACCAAAGAAGCTAGATGGGAGCTGCTGTGTTGTTCCTTGGGGCTGCTGG
ATKCAAGTTGTTTAGGTCGGCGGTTTTCAAATGCTGGTGATTTTGCTCACCAGAGGACATTTGGCAATGTCTAGAGACATTTAGCATGGCCAGTCATTGG
GAGGTACTCCTGGCATCTCGTGGGCAGAGGCTAAGGATGCTATTGAACATCCTGCAATGCCCAGGACAGCCCCCTRTGACAGGAGTCATCCAGCCCAACA
TGTCACTAGTGCTGCAGTGGAGAAGCCCTGGCTGTGTGTGGGGGTGTGTGTGTGTCCTCTTCTACATTTGATAAGGTAACTCACACTTGCTGCCCCCATG
ATCGCTGTGGGGGATGCTTATCTATGCCCCAGTCCTGGTGTTGGTTGATGGGAACATCAAGATTCAGGCAAGATGGAAAATAGCCCTTAGAACTAGCAGG
AAAAGAATCTCCTTTCATTTGTCTAGAGGTTCTGTTAAAGTGCCTTTGCTTCTATTTTGAGACTTGTTCTTAAAAAAAATGCGGATATGAAAGAAAATAA
AAACCACATTATCCCTCCACTTTTTCTTGGAGGAGGATGTGTTGAAGAAGTCAAAGTTCASCATCCCTTTAGATAGAATCATTTTGAACAATTTCATATG
TCAATACATTTTGCTCATCTCTAAATTTCATTTTAGAGCCTGTGGTGTTCTGTGCATGGATATGTGTGCGTGTATGCACACAAAAATAAAAGGAAATATT
TATTCTTATGAATAAGTATAGAAATAAATTAATTTTTGGAATCTCAAACTATCAGAGACTTATGTAATAACCAGAGGCAGGCCTGATTATGTATGGGCAA
AGCATTTGTGAACAATGTCTCCATTGTATAACATACAAAACAAGCTTTTCTTCCACATTGGATATGCAAGTCGGCCTTCTCCAATAAGGGCCTGTCTCTT
TCCAACTCCCCCCACCTCCCACCTTTGAGCAAACATTATTTATTGTGGCTGATGTGTGATCAGGTCTTGATTTGGGGCCTCTTTTTGATGCCTTCTCTTT
GTGGGATCTCACCCACGTGCCCCTGGAGACCCTTTGGCTGCCAGGGCCTTTGTTTCCCAGCCACCCATGTGGTGCCAGTAGTGTCTGCTTTGTAGCGAGC
TGTCCCCAGAGCCTCAGCATGGCTTGGGGATGGTCTCTGAGGTTGGGCTTGGATCCCTCCCACTTTTGGGCTCAGAAAGAATGACTGCCCTCTATTTCCC
TGTCCCTGCCCTCTCTTATCCTGTTTCCCAGCCCGCATCATGTTATCTTTGCTTCTTGTAACTTACCAAACGATTTATGGGCAAGTAGGGGAGGTGAAGA
GGGAACTCATCTATCAAGATAACCTACTTTGTGCCAACCACTGAGCATAGCAATTGTCCCTTCTCCAGCCCTCTGAGGACCGTGGATGGGATTCTCATGA
AATGAAACAGGTGAGGAACTTTTCTTTTAGGGAACTTGCTTGAGGTCCCACAGGCAGCGAGTATCAATCAACGTCAGGATCTGAGCCCTGTTCTGTTCGG
CTGAAAATATACTCCCTGAGATGGTGTAGGCCACCATGGCTTTCAGCAGGCTCTGTGCTTGGTGGAAGGAAGCTGGAAGCTGTGTACACACCCACGGGGA
ACAGGGACCATAGAGGAGCACCTTTTGAGTGCAGAACCTGGCGAAACATACACCTTTAGAGGGATTTTAGGTACCCTTGAGGCTGGGAGAATCAAGCAGA
GCTAAGTTTCCCATTGGGGTGTCACAGACTGAAGAAACAGAGCCCTAGGTAGCACAGGGAAGTTGATTGCCCAGTATCAGTTAGTTTGGCTTTAATGACT
GAGAAGAGATTCCACCAGTTCATTGAAGAGAGGGCGGACTTTTTATTGGAGGAAAGAAGAGTGCCTGTAAGTAGAGAAGTCTCCGGGGTGTAGTGCTGTT
TGGGGCAGGAAGAACAGTGTGAGCCACTGTGGAGAGAAAGCCCAAAGAGTCTTGGCAGGGCAGGGAGTAGGATGGATTTGAAGCCAGAGGAAGTATGGGG
TCTCTGTAGACTCCAGGCAAGCCATGTTAATATTTTAGGAAGCCGTGATGGAGCTGCAGATGGGTGTGGAAGTTAAAGTTTAACTGTTCATTCACCAGTC
CTTCCCCTGGAGAATGTGCAGCACGTGGACAGTGGAACTTTAAGGTCCTTGGCTTGTATTTCACACCCAAGAGATGAATAGGTCCAGGTATGTCATAGAC
CAGACTAATGAAATAACAAATTTCTTTTCAAAAATTTTACTTTTTGTAGGAAAGCTTCTCTGTCTGGCATTTTTCTTCTCCCAGTTGTGACTCAATCTTA
AACGTCTTCAGACAATTAGCATAAAATTTCCCACAGTGAATTGACGTATACTTTTGAGGGTTCCATTTCTTTTTTATTTTTTTTTTCTTTTGAGATGGAG
TTTCTCGTCACCCAGGTTGGAGTGCAATGGTGCCATCTTGGCTCGCTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTA
GCTGGGATGTCAGGCACCCGCCACCATGCCCGGCTAATTTTCGTGTGTTTTAGTAGAGATGGGGTTCCACCGTGTTGGCCAGGCTGGTCACAAACTCCCR
MCCTCAGGCAATCCGCCCGCCTCGGCCTCCCAAAGGCTGTGATTACAGGTGTGAGCCACTGTGCCCAGCCTAGGGTTCCATTTCTTAACCCCTCCTTCTG
ATGCCTCAGAAAGTCTTGCTCTGTAAGCCTCTTGTAGCTGCCTCGGTTCAGGGGAAGGGGGAGGCTTTTGTTTTAGGACCGTCCAGACCATAGACACATT
TCCTGGCACCTAGCACGTGTTGGGTCAAACAGGAATGATGAATGCATGCATGAATGAGGTTCTTAGCGCTGAAGACGGTGTCATAGGTGGTCTACCASGC
CGCCTGATCATTCCAATGGCCCATTATGAATGTGTGTGCTGCAGGGCCCTCCCACGATCCCGTCAGCACTGTGCATGTTGTGGGGAGGTGCTGGGAGAAA
GACTGGGTCTCAGAAGATGGGTTAGAGGTGGGTCCTTCTCTGCTGCTGGCTAGCAGGGTAGCTGTGGAGGGGTGCCCCATCTTGCTGGTCTTAAATTTTC
TCACTGTAGRCAGGGAGCATGACCTGGCTGAATTCTAAGTCCTTTTCTACTCTGAGGTTCATTGTGGGTGTGACCTGCTGGGCTCAGCTCTGGCTTTGGG
AGACACCCTCTCCCCTTGATCTCGACAACCCCTTAGCAGAGCCCAGTGGCTCCTACAGTGCCCTGAGCTGCTTGCCCGAAGGATGCGGTTGTGGTTATCT
CACCCCCTGCCACCCTGTTTGCGCAAGGGTTTGAGATTGTGTGGCCCCTCCTTGTACTTCGGGGTGAGGCTTGCTCCAGAAAGGTGGTCTGCAAAGGGGT
TGGCTGGGGGGGAGGAGGAAGTCATTCTCCAAGTGTTTGTCCTCATCGTTATCCCAAATTGCTTGCCTGGAATAAGGAAGGAAAGAAAAAAAAATACTCT
TGAGTGGTTTGGGCCAGGATTTTAGCTGATGGATCTGGTAGTTCCCTCTGTCAGATTTGTTTTCTTTGAACTGTCTGGGCCGGTCACAGTGTCATTGTTT
AAATGTGGAATGTAGGTGTTCTGTGTTCTGGGAAATAAAAACCAAAACTGGTCCAGGGGATCCACAGAGGTAAGAAAAGAACATTMCAATAGGAATGTTT
CAGAACCAGGAGGGGAGGAGAGAAAAACGGCTCTGTTGGTCTCCTAGAGGAAGAACTTGTTAGATTTGGGGAGAGTCAGGATAAATTTGACCCTAAGAGT
CTCTGATTCCTTTTAGAGACTTTTCTTATAAGAAATAAAATGGAACTTGGGAGAGGCGGCAACTTGGGAAACAGCACATTCTGCCGTAATGAAAGTCGTC
CCATAAGAATTTCTCTATCCCTTTAGCCAAATTTCTGTTTCTAAAAGGGGAAAAGGGGCTAGAGATAGGCTTGTTTGTTTTCTTAGTTGAATCTTACTTT
TTGTATTTCCAGCCCATTCTGCAGGGTAAGAACAAGCACAGCCCGAGGGCTCACTCAGTGTGATGTTCTAGAGCCTGGCTCTGCCTCAATCCCTCACGCT
GGAGGATCAGGCAGCAGGGGCCAGTGATGGATTTTTTTTTCTTCCTTTCCTCCCCTATTAATATTTACTGAGGTATAAATTACAGCAAAGTGCGCAGACC
TAGGTATCTAGGACTGTGAGGTTTTCCTGTGTTACCTGTGTAACCACGACCCAGATCAAGATAAGGAACTTTTCTGGCATCTCAGAGGCTCTTCCTGCTC
CCTTTCAGACTCCGTCTCCCAGAAGGAACTACTTCTGATTCCTATAGCCATAGACTGAATTTTCTTTTCCAACTTCATATGCATAGGATCATCATGGGTG
TTTTAATTTTAATTTCATGTCTGCTTGCCACTCCCAAATGGAAATGTGTTGGCATCTCTGGATGTTTCTTCATAAGAAACATGCCCTGTGGGGCAAAGCC
CAGGACAGGGCTGTGCTGCTGCTGGAAGTCCTGTGCAGCTGGCCAGCCTCTGCTCACCCCTCCGGCCACGCTGGCACTTTCAGCTTCTCCAGCCTCCTGC
CCTTCCCACTTCCAGTCCTGCACCTGCTGTCCTCACTGATGCACCTGCCCTTTTCYTTCCGTCCTTTATGTGGCACACCCTTAAGGGAGACATCTTCCTG
TCTGTGTTTTGCACCCTCTTAAAACTACATTCCTTTCCCTTCAGCATTGGCATCTCTGTCCTTGTGTATTACCTGGGATGACTATTCAGTTAACAAATGC
TTTCTTCCTAGGCTGTGAGCCCAAGTTTGTTGGATGATTGGATGGGGGCACGTTGTGTGAGAGAAGGATCATGGGGTAGCATCTGGCTCTCTTAGAGGTG
TGTGGGGGCGTGTGATGCCTGCCAAGGCGCTTTCGTTCTGGGGGGTTCTGTGTGTTTGAAGCACTTGGGTTGTGTGTCCCTGAGGCCTCCGTCACGGGCA
ACCTCATTCCTTCTCTAGCCTCCATCCCCTGCCCCCTGCCCACCCCAGGCCTCTGGAGCTGGCTCCCTTTCCTGCTCACTCTCTTTTGGCCAGGATTTTA
ACATATATCACAGGCTGGTAGGCTAAGAGCTTGGGACTTCCCCTCACCACACTCAAAGCCTTTGATCTTTTGCTTTGGAGGTAACATCAAAAGGAAGGCT
GAGGAAGACAGCCAGGCTGTGAAGTTCAACGTTCAAGTTAATAGCTTGACTGAAGGTTGTGCTGCGTTGTGGCAGCATCACCGAGGCTGGAGTAAACAGA
GTGATTCTGCCACATTTTCCTGGAAATGCACCCCAATATTGGAAGAGGGCTTCTTTTACATTCGGAATGAATTCAGGCTGTAGTCAGAGCTGCTTTTCCC
TTTCCCCATTTTCCTTGGAAGTGTGAAAACTTGGGGGAGAAGATGTTTGTAGGAGGGCATGATGAGGGGTAGAGGAAGCCCAAAGAGAGGATCTGGGGAG
GGGAAGCCCCATGGGATGAGACTCTGAAGTTATCCTTGCCCCGATTCCGGGACTTGCTATCTGCCTGCCTTTTGGCGTGGTGTCTCTGTGCCCCTGACTG
TTCCTGATTTAGCGAGGTGTTTCTGAATTCTGATGGAATTCAAAGAAGCCTGGGCAGGCAGGCAGCTTGACTTGGGGCTTGGGGAAGYGTGCAGCCCAGA
CATAGCAGCRATGAGAGGGCCTCAGGGCTGAGGGCTGAGATGAGAATTTCATCACATGCAAAAGTGAAAGCGACCCATCGTCTTCTCCACTTGATCTCTT
GCTGAGCTTTGCAGACACTTTGGTTGTTGTTTAATTTAACATTTTCTGCAATGCTCCTTTTTTCAGATTTTCATCCAAAGCTCTGTATGAGAGGTTTTCA
AACCCATTTTGGCCCTGATTCTATTTGGCATACGATTCAACTCTGGGGATGGTCATCTTCCCCACACCTGCGTTGGGTACCTTTTTGGTGTATGCTCAGA
GCATCCTTGGACATCTTCCTGGTCAGTGTCCAGCATCGTGAAGCTGCCCTTTAGCCTCTCAGTGCCCCCAGATACACCTGTCTCTCTGCGTAGCGGCACT
CAGCGTCACCTTTCTGTGGGGTCTTGAGACCCTGATGATATCAGCACTATGCTGCCAGAATTCCCCTTGGATTCTTTAGTGTGGCTTCTCAAGCATCCCT
TATCGCTATAACGCCTTCATGGTTTTTGGCATAACTGTATACTACCTGTGCTATTATTTATTTGATGCATTCAAACATTTGATTCATTTATTTAAACTCA
GTCTCACTGTAATCCTTAATTAACACCTGTGAAATTATAGGTTTGATGTGCTACTTATTTATTTATTTTTTAATACACATTAGTATAATCCCGTAACGGC
TAAAGTAACACTTTGTACTGCCTAAAACCATGCTTGGGAGCGCCACAGTTTGAGAAAGTGCTTAGCCTTCCTTTCCCTCCTTTAGTGACTTGTGGTTTGG
GGCATCTGTTGACTCCTAGGGCTCCCTTGTTCATCTTTCTGTTCCTARGCTCAGGGATTAGTTGCTCAACCCAGGTGTGGCCTCAAAATTCTGCTCATGG
AATAGCCTCAGGCTTCTATAAATCTCATCTTTTTTGTTTTGTTTTGTTTTTGTTTTTGAGACTGAGTCTTGCTCTGTTGCCCAGGCTGGAGCACAGTGGC
GCAATCCACTGTAACCATTGCATTCTGGGTTCAAGCGATCCTCCCATCTCAGACTCCCAAGTAGCTGGGACTGTAGGCTGGTACCACCAGGCCCGACTAA
TTTTTAAATTTTTTGAAGAGATGGGGTCTCACTATATTGCCCATGCCGGAAGTCTAGTTTTATAGTGATGAGAATTCATCTGGGGTCCAAGGGGCCCTCC
TGTGTTGCTTCCTGTGCTCCCCTCTAAATAAAGATACTCCTTCCAAGTTGTCCTGATTTTCAGGTCATCACCATTTTTTGAGCTGGATGGGGAAGTTGGC
CTGGAGCAGCCTTCCCTGTCTCCGAGTTGCATTACCTCCTGAGAGGTCTCAGCAAATCACTGCCATCTCTTGATCAGAGTTGCTGGCAAGAGTCCTCTGT
GGTTCTAGGTTTTCAGCCCTGGAGACTCTCGCCTGCATTCATTATACATGTCCTTTTGGTGCCTTGTTGAAAGGCATCTCCTGCCACCGAAGGGTGTGGG
CTTCTGGAAATTCTCAGAAAACACAATATGCCAGCCTCCAGGGATGGGTCTCCAAAGCTTCAGGAACATATCCTGGGGTGTTGAGGAAACACCCACCTTA
AAATGTTCCTCAAGGGGGAATGTTACTGCTTGCCCTAACCCTCTKGAGCTGATGCTCACATGACGTCCCTGAGATGGGCTTCTTTTTTGCCCGTACTTAA
AGCTGTAAAGGGCCATTGTCAAATTTGTTTAGCTTCTCAATTCATGTTCCTTAGAGGATGGTAAATTAAAGTTAGCATTCCTGGACAGAGCCTTTCATAC
ATTGAAGACAACCCGGTGAGTCTCAAGGGGAGAGGTAAGGGAGAGATGAAAGGTTTTCTCCAGGCCTGTTCGGCAGCATGGACTGTTCTTTTAGGTAATT
AAGGGAGACCATAAAAGACAATTGTGTGAGTCCATTTACCTTTCACTTGGGGGTCTTAAGTCTTTGGTTGGGCTTCTTTAACCCTGTGTGTCACCCACGG
GCTCCTATGGGTGCTGTTTTCATTGTTCCGTTATCTAGTTGGCTGGAACACACCTTTGGGGATTGGAGAATGGAGTTCTGGGGGCTTTGGGAACTTTGAG
TTTTCCTGCAATGTCCTATAGAAGCTTGAGTCTGTGATTCCTGGGCAGGGCCTTCTCCTAGTTGAGTGAGATTGGTGGGGCAGGGCAGCCAGTTAGGGGG
TCATGGGAGCAGGTGTGGAAAAGGTTATATGTCTTAGTAATTCTTTGTGACAATCACCCTCATTCATTGATATCTTCTTCCTATCATGTATTAGGGCAGT
GGTTCCCCCAATGTGCTGCACATTAGGTTCACCTGGAGAGCTTTTATAAAAATGCCAATGCCCGGGGCCCACTTTGGGAGGAGCCAGGCATCAGTAATTT
CAAAGGTCTCTAAATGATTTACAGTTTGGGAATCACCGTATGAGGATAGTAAGCTCTGAGTCCTATGCGTTCTGTGCCGAACACCCATGAAGCAGTCTTC
CAAGCATTTTACCTGCATCATCTCAATTCTCACACTGTTAAGGAGATAGACAGTATCATCTCCATTTTGTAGACAAGACAACTGAATCTCAGAGAGGTTT
AAGTCTCAGGACACCAAGGTCATTATTAATCAGGGGGACTGTGATTGCTCCCTTTATAAAATGTAGGAGATATTGTGGAGTACGGTTGAGAAACCATTGC
AATAGTTTTCTTACTTTGTTAAGAAATTAGGCTGGGCGTGGTGGCTCAGGCCTATAATCCCAGCACATTGGGAATCCGAGGTGGACAGATCTCTTGAGCT
CGGGAGTTCCAGACCAGCTTGGGCAACAGGGTGAAACCCCATCTCGACTAAAAATACAAAAATATTAGCCGGGCCTGGTGGTGTGCACCTGTAGTCTCAG
CTACTTGAGAGGCTGAGGTGGGAGGATCACCTGAGTCCGGCTGCAGTGAGCTGGCATTGTGCCACTGTACTCCAGCCTGGGCAATGAGAGTGAGATCCTG
TCTCAAAAAAAAGAAAAAAAAGGAAATTAGTGGTGGAAGGTGACTTTGCATCTGGGCGTATCTGCCTGCAGAGTTGGTGTCCTTACCTTGAAGAAACCCT
GCTTTAGTTGGAGTATCCTTAATGGTTAGTGGCAGGAGGGGAGGAGTGGTTCCTGGGAGACTGGAACAAAATATGGTACCTGAATGCTTAAGGCTTGGCA
GATGAGCAGTCATTTTCTTACACAGAGCTTAGGAAAGGGCATCCAGGTAGAGGAATCAGCATGAACAAAAGCACAGGGCCATAGAGTTCTCAGAAGGAAA
GATGGGGTTAACCGGAGCCAAGCCAGAGATCTGGTGGTAGTGGGGGGTTTCCAAGCTAGAATGGTTGTGTGGTATTCTGTCCTCAGGGGCTTTGAACTST
GTGTGCTAATGAGGCCTCAAATTCTCTGGGGCTCTGGTTAAAATGTAGATTCTGATATCAGTTGGCTTGGGTGGGGCCTTGCATTTCTGTAAGCCCTTAG
CAGTTGCACTGCTGCTACTACCGTGAGTATTGCTGTTGAGCATTACTACCTTGAGTATTGCTGTCAAGTGTTACTACCTTGAGTATTGCTGTTGAGTATT
ACTGTCGAATTTTACTACCTTGAGTGTTGCTGTTGAGTATTACTACCTTGAGTGTTGCTGTTGAATATTACTACTTTGAGTATTACTGTTGAGCATAACC
ACTTTGAGTATTGCTCTTGAGTATTACCACCTTGAGTATTGCTTTTGAGTGCTACTGCCTTGAGTATCGCTGTTGAGTATTGCTACCTTGAATATTACTG
TTGAGTATTACCACCTTGAGTATTGCTCTTGAGTATTACCACCTTGAGTTTTGTTCTTGAGTATTGCTACCTTGAGTATTGCTGTTGAGCATTACTACCT
TGAGTATTGCTGTTGAGCATTACTACCTTGAGTATTGCTGTTGAGCATTACTACCTCAAGGATTGCTCTTGAGCTTTACCGCCTCAAGTATTGCTCTTGA
GCGTTACTGCCTCGAGTATTGCCGTTGAGTATTACTCCCTTGAGTATTGCCATTGAGTTTAGTCCTGTGAGTATTGCTGCTACTGCGCCTTGGCAATGGT
TTTCAAACTTTGCAACACATCAGAATCACTTGGGAAACCTTTAAAATTCTAACGCCCAGGTCACATCCCATTCCAACTAGATCAGAACATCTGGGGAATG
CRAGCCATGCACCAGTAGTTATAAAACCTGCCCAGGTGATTCCAAAGTGTGGGAACCTTTGAGAAGCACTGCTTTAGGGGTTGGAATAGTCCTGGCTGAA
TTTTAATCAGGGAAGACTGACTGCTCCGTTTATGAAACGTAGGAGAGTGGAGCAGGGTTGAGAAACCATCGGGATAGTGTTCTTACTTTGTTACGTGAGC
AATATTTGTTGAGTCTCTGTGGTGGGTTCTAGGGGTTCAGAGGACAGCAGTGTGCTGCTAGGATGGTGGTCTGAACTAGTGGAAAGGCACTCAAAGGAAG
AAAGACAGAATTCTAAGAGGAGAGGAATTTTAGGAAGGAGATACCCAGGACTTTTGAATTACAGGTAATTTGATCAGAACCCAAAACTGAAATGTCTCTG
CTCTGTGATGAAAGGGTTTGCTGGCATTGAGTAAGGAGCTGCAGGAAGGCCTTTAACTTGTCTCCAGGTCTCTTAACAGCTTTGTCATTTACATACAAGC
ACCTGCCTGGCTAAACCATTCATTTCTGTAGCTTCCTTCTGGATCTGTCTAGGGAATATTTGCTTTGCATATTTTGGGGTTATCTTAAGTGTTTGAAGGA
ACCAAAATATTTTTCTTAAAAATAACACTCAAATGTAGTTCACATGATTAATTTTGACTGATTTGTGAGAATCAGTAAGTGCTGACTGACTGAGGCGCCC
CACACATCCGGCTTCCTTCTGTTACTCTACGCGTGTTGCTGAAACTTAACGAACCCATCTGGGGTCTTCTCGCCTGGTGCAGTCCGGCCCAGTATTCATA
CTGAGGTTTGCAGTGGGAGAAAGGAAGGTATTTATTTGTAGGTCACCAAGCAGGGCAAATCCAGCAGCTCACGCTTAAGACCTGACCTCTCCCATGGTTT
ATAAGCAAGTGGTTTTTTTTTTTTTTTTTTTTTTCAGACTGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCT
CCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAATAGCTGGGACTACAGGCGTGCGCCCCCACACCTGGCTAAGTTTTGTCTTTTTAGTA
GAGATGGGGTTTCACCATGTTGCCCAGGCTAGTTTCCAGCTCCTGACCTCAAGTGATCCTCCTGCCTTGACCTCCCAGAGTGCTGGGATTACGGGCATGA
GCCACAGTGCCTGGCCTGTAAGCAAGTGTTTTTAAAGAAAGGGGTAAATTTTAGGGAAACAGAAGTTCTAGGCAAAATGGTAAATTAATACAGGGAGGTA
AGACATTGGTTTGGCCTAAAAAGATGGGATATTTTGAAGTGGGGGCTCATAGGTCATAAGTGGATTTAAAGATTTTTTTGGTTTGTAATTGGTTAAGGAA
GATAAGCTTTGATTAAAGATTTGGGGTCAGCAGAAAGAAATGTTAGGTCTGGCTCGTGGGCATGTCTTTTTMTAGGCCCCTCCTTGGAAAGAACTTTAGA
GCAAAGAAAGGCAGTTGGAGCTTAGTCCCCACTTTCTCCTGATCTGAGGTCTACGGACCACTGGATCCATTTGGTGGGGTCCATCTTTCTGAAAAACAAG
TCAGGGACATGTATTGAGATGATATTATTGGTATTTATAGGGAACCAAACAACGCCCCATGACTCTTTTTTGGCTATTGTTTTAAGCCACTGTTTTTTTT
TGTTTATTGAGTTGTTAACTTATTTTTTAAAGCTAGCTAGCTGCCTGGAATTTCTTTAGAAGGAACTGAAGTTTTTAAAAATTTTTATGTTGGGGGGTAT
TGCCCTGCAGGCCCCTAAAAGGGGTCCCTGCGCTGTCTCAAAACTTGGATGCAAAAAGAAGTTGAGTTAACACAGGAGGACAGGGGTAGACGCACCAAGG
GCATGTGCCTCGAGTGCGTGGTCCTTATTAAGAAGGGTGGTTAGACAGGGAATGGGTTAGTTCCYRGGTCGGCATTCAGCTGAAACAGTGATGGTTAAAA
TTCTGAAAAATGTCCACGCTCTGCATTCTCTTCCTAACACCCAGGACCCAGTAACTATAAAGCCCCCTACCCTGGGGCATAGCAGGGGGCTTCAGGGACC
CATGAGAAGGTCATCTGCTGCTAGTTACACTCCTTCTGGGACCTGATTTAGACAGTTTGGTGGTAGTTTTGCGAGGGTTAATTTCAGGGCCAAGGATGCT
TCTAGAATGGAAATACCTTCTTGACATTGGGAGCTTTATTGGTTGATTATGTCAATGTGAGAATTCAGGAAGCCCAGTGCTAATCCTCCATCCTAAAAGG
AGTAGATTGGCTGGGCGTGGTGGCGCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGGGGCGCGGATCACCTGAGGTCAGGAGTTCAAGACCAACAT
GGCGAAACCCCGTCTCTACTAAAAATACATAAATTAGCCAGGTGTGGTGGTGGGCGCCTGTAATGCCACCTMCTCGGGAGGCTGAGGCAGGGAGAATTGC
TTGATCCCAGGAGGCGGAGGCTGCAGTGAGCCAAGATTGTGCCACTGCCCTCCAGCCTGGGCGACAGAGCGAGACTTCATCTCACAAAAACAAACAAACA
AACAAACAAAAACTAAAAGGAGATTTCCTCCTTCTGTCCTTTATGGGAGACTTCAACCTTGGGAAAGTCTGGAATCCTTGGACATTAGAAATTCTGAAGT
TTTGGCTGGCTGTAGTGGCTCATGCCTATAATCCCAGCACGCTGGGAGGCCGAGGCAGGTGGTCACTTAGGCCAGGAGTTTGAGACCAGCCTGGCCAACA
TGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTAGCGGACGCCTGTAAGCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCTC
CAGAACCTATGAGGTGGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGCAACAGAACAAGATTCCGTTTCAAGAAAKCAGAAACTCT
GAAATTTTTGCCTGTCCAGGCCACATCAATCCCATTCCTCTGCTGTCTCTGCAGGATTCTGTGAGGAATAATTAGTTAATGTTTGCAGAGCACTTTGAAA
TCCTCAGATGAAAGGCACCGGAGAAGCACAAAGTATTATTATTTATTATTAGCTTGCCCCAGAATGGAGGCGCATGAGGCCCTGGCAGCTCCCTGCCTCG
TGCCAGGTGTGATCCTCCTGCTGGGCTTTTCCTGCCTGATGAGCTTTTTTTTTTTTTTTTTTTTTGAGATCAGGTTCAGCTCTGTCGCCCAGGCTGGAGT
GCAGTGGCATGAAAACAGTTCACTGCACACAGCTCACTGCACTGCAGCCTCAAACACCTGGGCTCAAGCAATCCCCCTGCCTCAGCCTCCCAGGTAACTG
GGACTATATACTACAGGCATGCGCCACCACTCCTGGCTAATTAAAAAAAATTTTTTTTTGTAGAGATGGGGGTCTCACTATGTTGCCCAGGCTGGTCTCA
AACTCCTGGGCCTCAAAGATGCCAAAGGTTCACACCTTGGCCTCTCAAAGTGCTGAGATGACAGGCGTGAGCCACTGTGCCTGTGCTCAATTGATTTTCT
TTATTAAAGAAACATGGAAGAAAGTGAAGGATGAGAATCAGTAACGTAACGTGTGCTTCAGATTGTGGACAAGTGATGTGAAGGAAACACATTGGTCCCA
CTGTGGTGACAGAGCAGGGGTTTCCTTACCTGGCAAGGTTGCGGCTGCCATTCCTTGGGGTCTGGGGTTAAGACCATCTGCCTGAGGGTAACGCAGTAAT
AAATCAGTACTAAAGGGCGTACTAAAGTACTGTATTGCTAGGCTAGGCCATGCTTGGTGTATTTTTTTTTTTTTTTAATTGAGACGGAGTCTTGCTTTGT
TGCCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTACAACCTCTGCTGCCCAGTTTCAAGTGATTCTCCTGCCTTAGCCTCCTGAGTAGCTGGGAT
TACAGGCACGTGCTACCATGCTTGGCTAGTTTTAAAATATTTTTAGTAGAGATTGGGTTTTGCCGTGTTGTCCAAGCTGGTCTCAAACTCCTGACCTCAA
GGGATCAGCCCACCTCGGCCTCCCGAAGTGCTGGGATTACAGGCATGAGCCTGGCTGGTGTATTTGTTTTAAATTTAAAGTTTACTAAATTTAATGATAT
CTGGGGAATCAGCTTGCTTCCTGGGGATCTGGATGTACTTGAGGTGAGAGGGTGGGGATTCAGAATTATCCTTTCTATCGCAGCATGTTCTGGATTGATT
CATGTAGGTCTCAAGTGTGTGTAATATTTCATTTCTTTGTGCAATTTTGGCATGCCGAGGCGGGCACCCTGAAGCTCCGGCAGAGCCTGGAGACAGAGTG
GGGAGCTCTCCGCTCTTTCCCTTCCTTCATCCCAGCTGACTTCGACTGGAATTGAATTCATCAGCTGCTGGAGAGTTGTTTTATTTGCCCTGCTGGTGGA
GAGGGAGGAAAGGAACATCATGGGGCCAGGCTTTTTTTTTTTAAAGGAAAGATTTGATTTACTTTCCCCCTTAGTAGCATGATGGGCACCTGCACCCGCC
AGCTAATCAGAAGCCACTGTCCCCTGAATGCCTCCGCTGCCCACCAGATCCTGACAGCATCCCACGCGGGAGCACTCTCGTGTGCCCCTGGCAGCTTCTG
CTGCCTGGCAGTTCTCTAAACTTGCTGGTGTCTCTCTGCCCGGAGGCTCAGAAACCCAGAGGACTGACCACTTCTTGAGGCTCATGTCCAGTTTGCAAAG
AGCCCCCAGCAAGCAGAGAAGGGGATTTTTGTACCAGCGATATCTCTTCTCCACTCCTCAACACACTCCTTTCCACTCTGTCTCCTATAAACATGGAACA
GCCAGGAATACTCAAATCCTAGCCTGTCATGAAGCCAAAAATTGATAGAGATCTACTGTCCAGAATGATTTCTTATAGTGACCCTGTGTTTAGTTGGTAA
GACTTTCTTAAACCATGAGGGATTCTGGTCCCACAGGGCAGTAATATCTGGGGCAGAGCCTGAGACTTTTCTCATTGATTTCCTCTGTGAGCCAGGAGTG
ACTGCTCTGATGCAGGGTGCTGTGTGGTTGGTAGAAGCTGGCGTTATCCCATTTTACCCACGAGGAAACAAATGACCAGCGGGAGCTCAGCATCCCATGT
GCCCACTTCCTCCTCGGGTGGACTTTTCACCTGCCCATGCCGTCTTCTTTGCAAACTTTACTGCAGTGACGGAGACATCTTTAAATACAAATTCTTGGGG
GAACCCTGTGTTCCTTGGCTGGAGCCTGGCTGGGAAGGAGGAGGGAGCAGAGGGCTCTCTTGGGTGTGGCCTATTGCAGTTGAGCCAGGGAAAGGCTGGT
CCACTGGAGACACCCTCTCTGGTCACYGCAGACTTCCTGCCCTCCATCCAGTGTCCTTCTACTTGCAGGATGTGTGCCCAGCAGAGAGAATCTCTGAAGC
CATGTCATTATTGGGATAACATTCCTGTCCCAGTCACCTTATTTCTCAGAAAAAGGACAATGGGAAACAAGTTTTTATTGAATCCTATGCTGGGCCTATT
AATGGGGTCTCTTACTTTTCATAGCAGCACTGCAAACAGAGTTACGTTTCTATTCATTTTATGGATTAGAAAGCTGAGATCCAGAGCGGGCAGATGTAAA
YCTGGGGTCTTTAAAATGCATCCTTTTTGCAAACAAATAAACTTAGTGTATTAARAGGGCTGGAGAGAGCAGAGTAAGGTAACATTTGGGTGGTCAGCAT
GTAGTTCTGGGTCCCCACAGTGGAGATGGCACAGTGCTGGGTGCTGGGGGAACTATGGTCACTAAGAGACACTGAATAATTTAATGCATGCCCCTGATTC
CATCACTGACTGTTGAGGTAACACATACATTTATATTGTCAGTGGTGGTGATGATTACATGAGCTGCGTAAAGCGTTTGACCAGTGCCTGCACATAACAT
AGTAGGTGCTCAATAAAGATCACCCACTCTTAAGAGGTGGGAGGAGGTGAAGTCATCTTTCTGGGGAGTGTTGCCCTGTTGTTCTCTGCTGCATTCTTTC
TGTCCTTTGGGCTCCGAGAATGCTGGGTTGGGCAGTGTGAGTGGTCTTCTCAGGCCTCTGTGACATGTTGCTTTCATGAAAGGTTCCCCTCTAGCCAAAG
ACTGAGTGGTCCTTGCAGGCTTTCTCCTGAGTCCTTTTTTTTTTTTTTTTTTTTTTTTTAAAGACAGAGACTCTGTTGCCAGRTTGGAGTGCAGTGACGC
GGTCTCGGCTCACTGCAACCGCTGCCTCCCAGGTTCAAGCAATCTACAAAATGCATCTATAAAATGATGCATCAGCCTCCTGAGTATTTGGGATCACAGG
TGCCCACTACCATGCCTGGGTATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCCTGTTGACCAGTTTGGTCTCAAACTCCTGACCTCGAGTGATCC
GCCTGTCTTGACCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCTCTCTCCTGAGTCCTTTTGTTTGTGCCTGCTTTGGGGATTCCC
TCTGGCTGGGGTGGACTGCCGGGATCTGTTTGTCCAGTGTACATTTCCTGGTCACCTAGCACCGGCCAGCTGCGGTGCTGGGAGGAACAGGGCCTGGCTC
TGGGAGGCAGCTGGGAGAGTCAGGAAGTGAAGAAAGTTCTTGTGGGTGTGATGGTGGAAACCCAAGCAGCGTCCAGAGGGAGCACAAGAGGGAGGGACAA
ATCTTGGGAGGGTCCCGGGCCAATGGGACCCAGTGTAAGAAATTGCACCTGTCCTGGCAGATAGAGAAGGTGGAAGCAGTGAATGGTAGAGCATCCTCAC
TCTTCTCTCTGCCAGCAAGCACCTTTGGGGAAGTCCTCACGGACAGGAATGTCGTGTGTCTTGGCTTGAGATGTCAAAGAAACATGTTGGACACACCATG
GTGACAGAGCAGGAGTCTCTTAACCCCGGCGTGGTTGAGGCTGYCGTTCTGGTGGGATCTGGGGTCAGTCAGGGGTTAACAGTCGCTCCTGCTTGCCTGA
TTGACACAGTAATAAAGGCAGTGACACCAAACTAGGTCTCAGGAATGTGTCCTCGTTAGAAAGACTCACTAATGGTTGTGGGGGGGTGGCCCATGAGTCC
TTCTGGGTGGTGGCGAGAAGTAGGGGACCCTTTGGGCTTTGCCCTTTTTGGTCATAGGACTTCACTCCACAGACATAATTGAACCGTTGGGTTTCTGCAG
CCAAATTCAAATGTCACCAATCTTGGTCACCCCTTTCATCTCTTGGGTCCTCTGTAAGTTATAGCTATCTGATAGTTTACTGAAAAATAAACTGAAAATA
TGTTTTAAATTGTACTTTCGATTTAAAATAATGTTTAGAGACAAAAAAAAAGGGTCCAATCCACTTGGAGAAAAGCATTGTCAAAGGTGGTTGATTTTTT
TCTTTTGCTGTTTTAAAGTGGTAAGTGGATGAGTGTTTTGGATATATTGATTTTTCAGGTGTGCAGGCGGTCACATGAACAGCTGACATTTTTTTTTTTT
TCATGTGGACTTCAGCCAGTCTTGACACCTGCCCCTTAACGAAAAGTAAACCATCGCCTTGTTTGACAGTTTAAGTGCAGTGATACGGATGGAGGCAGGT
TTACGTTATGTTAAAGGCTTGACAACCCAGAACCCCCCTGTTGGTTTCTTTGTTGTAACCTTTGAGCCGGTGGCCTGCTGAAATGTCACCTTTGCCCTTC
TTTAAAAGCAGGAATAATAGGTGGTGAGTGGGTGGATGCCTCTTAAAATACTGGAAAGTGCTGTGGCCCGAGGGTAAGCTTTTTAGAAGTGAGTGTGTGT
GTTGTGTTGTTTTAATTAATGAATCTTCTGGGCCTGAAGATAATGAGGTCAGTGAGGGCAGCCATGCTGCCTCACAGCTCACCTTAGGGTCCTTGTTGTC
CAGAACGTGCCTGACCTACTGGAGGGGCCTGGGAATGCTTCTTTGATTGACGTGGGTAGGAAGACAGATGTGGCGGCCTCCATGCTGATGGGAGGCAGCT
GGGAAGAAGGTMATGGGCACCATCTCAGGAGTGGCAGAGCCACCTCCCCCTCTCCTCACCCCGTGTGTCTGGATTCTTCCAGCTGTGTGGTCCTTCTTCC
TGCCTGGAAATGAGCATCCTGCAGAGCTCGGCTCCTGTTCACACCCTCCTCCTAACCCCCTACTCTCCCTCTCCCTTTCATCCAGGGCTGGAGGACCAGA
TGGGCTTTACCTGATGGAGTGTGCTTTGCTGACATGGTGCAAAGAGCCAATTCCTGGTTGCAAAGAGGCAGCTGGGTGCAGAGGCGGGGTGCATTCCTGT
AATAATAATAACTTGTGTTTTTATAATACTTTACAGTCTAAGTACTTTTCAAATACTTGACCTCATTTAGTTCTCACCACAGCCCTCTGAAGGGATATTA
CTATTACCTTCATTTTATAGATGCGTTAACCAGGGCTTGTTTTGGGAGGTAGAGGGGGTGTGAGGGGGACAGAGGGGAGGGAACCAGTGTTGAATGAATT
CTGAGGCCCTGCCAAAGCAGCCAGCTAGCTAGGTGTTGTTTAATGGACTCTTTGCATCTACAGCATGAGGGAGGTGGGATGAGGGGAAATTATTTCACAA
TAACTGAAGGTCGGAGAGACTAACTCTCTGCTCATTGTCACACAGCAGTTGAGTGCCAGCTGGGATTTGTCACCCAGGTCACCTGACTCCTAAGCCCTGT
GATCGTTCTCTTCTGTCTCTAGTATACCCAGCATAATGCCCGGCAAAGTGCTGGCATCAATAAATATTTGTCGAATGTTAAATGAGGCTTAAAGAGAACC
ATTCATGCTTGGCACAGGGGCACAGTGAGACAAACATGTTTCCTGCCCTCGTAACCTTCGCTTCCAAATTCTGTGACCTTGGGCGGGTTGCCTGAGCTCT
TTTCCAGCTCAGTTTCCTGAAAACTCATCCGGAAAATGGGTAAAATATCAGAGTGCATTCTGTATGGTAAGACTGCAAATGTTAGATGATTCTGCTACTT
ATTATTGTTTTCTTTTTCTCACCACACACCTTCCCTTTTTATGTACACCTCCTAGGAAGTAAGTTTCTGATAACATACTGCATTGTTGGATAACAGCAAC
AAAAAGCACTTCCTGACATTATTGCCCAAATCACCAAATGAGGCAATTACCAACTTTGGAATAAGAATAGCAACGGTGGTAAGAGCTGACATTTCTTGAG
CGCTTGCCATATGCTGGGTGTACTACTMTAAGCTGCTGCCTGCAATTATGATTTGGGAACAACTCTGAAAGTAGTTACCTCCCATTTTATAGAAGAGTAA
ACTGAGGTTCAGAGAGGTTAAGTAACCCCCCCAGGGTCTCTCAGGAAGTAGTTGGTGGCCTGGGATTCAAACACCAGAATTGGTCTGACTTCCCACTCTT
TAAACCACACTCAAAACTGAACTCTCCACGTGTGTGTGTTCTGGGCATTTTCGCATCTCCCTTGGCTTGTTGACAGCGTGGACTTTTGCTTTCCCATTCT
CATAGAACATGGCCAGTGCAGGAGGAGGAAATCCACACTGGTCTTTGGACTGAACCAGAGGCTGGCGATGGTCCCGAAACAGGGTGCCAAGTGGCTGACC
CTTGTTTTTATGCCTTGCGCTGGTAAGCYTGGGGCACCAGGAGTTCTTTGAATTTCTCTTTCTTGACTGTCCACGCCTTCTTTAGGCAATCTTTTAACAG
GCTATGTTTTAAATCTTATTGACATCTCTGAAGAAAGAGGAGGAAAAAAAAATCAAGACATGGCCTTAGAGAAGTGACAGGTTTTCTTTGAGAKTTTGTT
TTCTGTTTTCCTTTTTATTTTGTGCACATTGCAAAACCTCTTTGGGATGATGATTTCGTGTGGTTTCTTGGTAGCCCTTGGGCAGCTGCTGCCAGGTTTC
ACCCAAATGCATTGTGACCCCCTGTTTCGTGGGACGGCTTTGCCTCCACATGGCTGATTGTGCTCTGTGTGTCCGCTGTGGGCAGAGTGTGATTGTAAGA
ATCAGAATTCTGCTGGGCTTGCAAGCATTTAAAAAATCTCTATAAGTTTGAGAACTGGTTGGAAGGGAGAGATGCAGCGACTTAGAACACCCGGCCTGCA
GCTGAGCTTCCGTGTGCCTGGGAGGAGCCCATATGGAGAAACAGGAAAATTCCACTTCACCAGAAAGCTGGGGAAATGAGTGGGAGTAGGGGCCAGGCTG
GTTAACTAGGAAGACTTKTGGTCACTCTGCTTTACTTAGCCTAAAGTGTTCATTTCCCCCTTAAGCGGTGGTTAATACGCGTATCTGCAGATTTACTTTT
TGGATGATTTAAAATCTTGCAACATCTCAAGGGATTGTATCCTGATGATACTGATTATATTAATAACAAGATAATAGCTTATAATATAATAGCTAGCAAT
TACCAAGCACTTACCTTACACCAGGTACAATGCCAGGCATTTGATCCTTACACGAACTCTGAGAGATGGCTGTTTGTATTCCCATTTTACAGATGAGGGA
AGCTGTGCTGAGAGAGGTGAGTTCATTTGCCCAAGCTCACCCACTTTGAGATGGTCTGCTTTTATATCCTCTTAGCCCAATTCTTTTGGATGTCAGCACT
TGGCATGTATTAGGCACTGGATAAGTGTTTTGTTGAATGAACAAAATGATGGAACTTGGATTTGAACCCAGGTCTGAGCTGGCTTTGAGTCTTCAGAATA
GTAGGTCCAATTAGTGGAGTGGGGGCTCAGTAGYCCAAAGGGAAAGGAGCAAGGAGACATTGTGGGGGCCGAGAAGAGGGCTTCTGGGGTGTTTCCTGGG
CACATTGGCATTAAAGGCATAGTGTGAAGTGCCATTCAAGACCATGTGCTGGATTAGTGTTTTTCCTCTCCACTTGAGGTGCTTGCGATTGGCTTTGTGC
CCCGGTGTCTGCAAAGTGAGTTGGGCTGAACTCAGGAAGACCTTTTGGTTGGGATGACTGTGTATTCACCTGCACCTGAGTAGGGACTGAGTTTCACTTG
CCAGTTTTACCGCAGCAAGACCTCGTTAAGTTGGCTTCCTCTCATTTAGGCATTTGGGAAACTTTAGGCGGCTGGAGTTTAATTCTCAAGGCAAAGCCCC
TTTTCAAGGGACATGAAGAAAGGCAGAGGGATATATTTAAAATACCTGAATGAACTGTTTCTTTTTCTTTTTATTTTTTGAGATGGAGTCTCCCTCTGTC
ACCCAAGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTTCACCTCCCAGGTTCAAGYGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACT
GCAGGTGTGCACCACCACACCCAGCTAATTTTTSTATTGTTTTATTTTATTTTATTTATTTTTTAATTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCC
CAGGCTGGAGTGCAATGGCGTGATCTCGGCTCACTGCAAGCTCCACCTCCCGGGTTCATGCCATTCTCCTGAATCAGCCTCCCAAGTAGCTGGGACTACA
GGCACCTGCCACCACASCCGGCTCATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGTCTCTTGACCTTGTGATCCGCCCGCCTCG
GCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGACTTGCATGTAGACAGTAATGGCAGGTCACTATCAGTGGGTCTGTTAATCAGGTGTCCAA
CCTGGTGCTGGGCTTGGTGGCTCATGCCTGTAATCCTAGCACTCTGGGAGGCCAAGGCGAGTGGATCATCTGAGGTCAGGAGTACAAGACCAGCCTGGCC
AACATAGTAAAACCCCATCTCTACTAAAAATACAAAAATTAGCTAGGCATGGTGGGATGCATCTGTAGTCCCAGCTACTCAAGAAGATGAGGCAGGAGAA
TGGCTTGAACCTGGGAGGCGGAGATTGCAGTGAGCCAAGATCATGCCACTGCACTCCATCCAGCCTGGACAACAAAGCGAGACTCTCACAACAAAACAAA
ACAAACAAACAAACAAACAAAAAGTCACTTGCTTCTTTTTTTGCTTGCTTATGGACATAAACCCTGTAAACTATCTCATACATCATGGGAGTGAGTTTGC
AGTGGGTAGACTGCTATTCACAAACTCATATACATCCTATGAAGGAGTACAGGTTAAATAACCATTATCCAAAATGCTTGGGGCTGAAAGTGTTTTGGAT
TTTTAATTTTTTTCAGATTTTGGAATATTCGCATATACATAATGAGATATCCTGGGGATGGGACCCAAATCTGAACAGGAAATTCATTTATGTTTTATAT
AAACCCTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACGCTTGTTCCCCAGGCTGGAATGCAGTGGTGTGATCTCGGCTCACTGCAACCTCTACCTC
CCAGGTCGAAACGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGGGCTTCCCACCACGCACAGCTAATTTTTGTATTTTTAGTAGAGATGA
GGTTTCACCCTGTTAGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCGCTTTGGCCTCCCAAAGTGCTGGGATTACAATGTGAGCCACTGT
GCATGGCCTTATATAAACCTTAGGTAATTTTATACAATATTTTAAATAATTTTTGTGCATGAAACAGAGTTTTGACTGCATTTTGACTGTGACTCCTCAC
TTGAGGTCAGGTGTAGACTTTTCCACTTGTGGTGTCAAATTTCAGATTTTGAAGCTTTATATAATGAGATAGGGTCTTGCTCTGTTGCCCAGGCTGAAGT
ACGGTGGCACAATCACAGCTCACTGCAACCATGACCTCCTGGGCTCAAGTGATCCTCCCATCTCAGCCACCTGAGTAGCTGGGACTACAGGCATGCACTG
TGACTGGATTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTGGAATCTCAAGTCTCGCTCTGGTGCCCAGGCTGGAGTGCAAGTGGCGCGTTCTTGGC
TCACTGCAATCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTATAGGCGTGTGCCACCACTTCTGGCTAATTTTT
GTAGTTTTAGTAGGGTCGGAGTTTCACTGTGTTGGCCAGGTTGGTCTTGAACTCCTGAACTGAAGTGATCTGCCCACCTTGGCCTCCCAGAGTGATGGGA
TTATAGGCRTGAGCCACCGTGCCCAGCCTTGGCTAATTTTTTATATTTTTTGTAGAGACAGGGTTTCGCTATGTTGCCCAGGTTGGTCTTGAATTCCTGG
ACTCAAGCAATCTGCCCACCTTGGCCTCGCAAAGTGCTGGGATTACAGGTGTGARTCACCGCTCCTGGCCTGAAGCATTTTGGATTTTTGGGTTAGAGTT
GCACAGCCTTTACTGTTATTATCCTGATGTTATTATCCACATTTTACAGGCAAGGATCTGGAGGCGTAGAGAGGTAAAATCATTTTTTCAAAGCCCCAGA
AGTACTAAGCCGCAGATTCTGAATTTGAACTCAGGCATTCTGGGTCAGAATTAGTGAGGTTTTAAGTTAATTTTTTTTTTTTTTTTAGATAGAGTCTTGC
TCTGTTACCCAGGGTGGAGTGACAGTGGTGCTATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCTTCTAGAGTAGC
TGGGACTACAGACATGTGCCACCACGCCTGGCTAATTTTTGTATTTTTATTAGAGATGGTGTTTCGCCACGTTGGCCAGGCTGGTCTTGAACTCCTGACC
TCAGGTGATCTAACCACCTCGGCCTCCAGAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCCTRCCCCCTGTCGCCCAGGCTGGAGTGCAAGTG
GCACAGTCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGATACCCACCACCATGC
CTGGCTAATTTTTTTTTTTTAAGTATTTTTAGTAGAGACAGAGTTTCAACAAGTTGGTCAGGCTCCTCTTGAACTTCTGACCTCRTGATCTGCCTGCCTC
GGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCTGGCCTAAGTTTGGTTTTTAACCATGCTGCTTTTTCTAGACCCTTCTGTCAGCCAGC
TCCACAATGGTGAATCAGGGAGTTAGGTCCGTCTGTAAGAGAGGGCCCAGGAGCTGGGTCAGATAGGTAAAGAGACATTCCTTAGTTCTTATCCTCTGCT
ACCAAGCCATTTCTTGGGATCAAGCCCTCTTTGGCCTGTGTCATTCCACCTCCATTAAGTTCAGCCTTCTTTCCTTCTTTCCACATCTTTCCACTGCTGT
TGAAAACTTGAGACCTGAAATCCCATCTCCTGAATTCCTGGGAGCTCTAGAAGTGGAGATGGCCAGGTTCTGTGGTCAGAGCTGGTTGGGATTACAAATA
AACCAAAGCCTGGGAAACTTTCTTGCTATTAATAGCGCAGACCTTTTGGGGAGGGAATACCCAAACTCGATGCTGTTGGAATTGATTTTGCCTGTCTAGA
TGACATACTAATGAGCTAAGTGGTTAGCTTCGGATCATTATTGCTCTTTCCCAAGCCAAGTTCTTTTAAAGACTAAAACCACAAAAGCAGAGAACGAGTT
GGGTTAGAGAGGCATAGTGGCTGGGTCCAGAGAAGGGAGAGTGGTCAGCCCTGGCCTTAAACATGAGAAAATAAAGGTGGTCCTTGCTTTGGAATGAGTT
AGTGGTGCTGACTAATTCAACTGGTTTTTCTTTTTCTTTTTGGAAGTGGAATTTGATTTGGTGTCTGGATTTTGATAGGGCCATTTATATTTCTTCAGCA
CTTTTTGGTTCTTGCAGAAAGTTACATTCCTAGTTCCTCAACYGCTTATTTCTTTTTGGTTTTTGAAGCAGGAATTTGATTTGGTGTCTGGGTTTTGATA
GGGGTGTTTATGTTTCATCARTGTCTTTTGGTTCTTTCAGCGTTTCTCTCCTTGTCTGTCATGTGTCAGAGAGGGTGCCTGTCAACGATTCTCTCTCTCC
AGGGAGAAAGTCTTTCTTAAAACAGCCCTAAGATCCTTATCTCCTCAAATCACCCACTTTGATGATAATATCCATTGTTCTCTTCTCTGCTTCTTGGCAT
ATTCTAGTCAGTCTATGTATACAATTAAAAAAACAAAACAGCCCTCTGTGTCCAAAGTGCTTGGAATATCCCAGTGTTTCACAGGAGACTTTGGAAGTGG
ACAAAACTGTATTTCCTTCCCCAAATGAGGTTATTGTGCTCGAAATATCTCCTGGTAGTTTATTAAAGGAAACCGCAGGCAGGGGTAAGAGAGGCAGTTT
CTACAGCCTGCAACCCTATTATCTTGCCTCTTCTTTTCGACCCTCCTTCCTCCCTCTCCTCTTCTCTCCCCCCCTCACCCTATTCAACCCAGCCCCACAT
GTCATGCCGTCCCCAGGAGGTAGCCCTGCAGCCCTGCTTCTCTGGGATGGTCTGTTCTTGCCACCCGTCCCATGGAACGTGAAGAAGGAATTTGGGGTGT
GGACTTCCTTGAGTGACTAGGATTAGACCCGTCGGGTCTGCAGTCAGACGAGAAGCGTGTGGGCAAAGGGAACTATTGTGTGAGGCTTCTCTGGACAGAA
AGCCTGCCTTCATCTTTTACTGTGCCTAATGGACAATTGAGACATTCAGCTTATGTCTGAAAGGAAAGTGGGCCGGGATGGTCTAGCAGACCTCCCAGAT
GAAGGCTTGTAGGAGGAGCAAATAGAGACAAGGATTACCAACAGGGGGAACAACTGGGGCAGAGTCCTGGGAGAGAATGTTTATTTCCTTGCTCTCTAGG
AGGGATTTGGAAAGAGCCATAATCCTGGGTTAGGAGTAATTTGTTACAGCAAGATGATACTTGAGTGACAGGCTGCTTCTGGCTGAGGCAGCAAGACTTG
CATGCAGGGGGGTCGTGGGGCCTCCAGAAGGTCAGCCTCCCGTAAATCTTCACCCTGGCTTTGGGGTTTGTTCCTCCCCAAGCAAAATTAACCAGAGGCA
CTGCTGACCTTTGGGCTTCCTGGGTGTAGCGTTACGAAGCATCTCCACATGTTTGTCACAGCTAGAATTTGACAATAAAAATTTGGACAGGGAGACCCTG
CCAGAGCCACTGACCTCTTTCCAATGTGACAAGGGGAAAAAAAACAAAAGGAAAACGCAGCACGGGGTGCGGTTTCAGTTGAAGTTGGAGGACACGGAGC
CCAGCCTGTCTCGCATTTGCTGTCTATGTAGACTCACTAAAGCAAGTTAATTCATTGCTCTTTGACCGCCAAGTCTTTCGTTGTCTTTTGTTGTTGTGGA
ATGGGGGAAAGAAATACAGAATGGGGAGGAGAACCTAATTAGAAAAATCAAGCCTTGAGAGCTCCCAGCCATGGAGAAAGAAAGGGATTTTTTAGAAGTT
GTGATTTTAATATCTGCTGCAATCTGATGATTCATGGATTTAAAATAACCCTTCCAGGTCACCAGGACCCTGTTACTTGCTGGCTTTGTACCTCTCAAAG
GTCATTTGTTGGCTTCGTCTCTTAACAATTTCCATGGTAGACCTAAAATTTCTGGCTGTGAAATCCCCTGTGTAGTGGGAAGAAGAAATAGCAAATCTTA
GCTGCCTTGGACCTGATATAATTATTTGTCTTCATTTACATGGTTYATCCTTCAAGGTTGAATAAATGATGTGGGAGCTAGTCAAGGGGCTTTAGGTATG
TGATTTCATGCCTACTTTTTTTTAGGTAGAGAAACTGAGGTCACAGGGTACTAGAGAATGGACTCTAAGATTCAGGTTTCTGAATTGCCTGTGGTTTTGT
TGACTCAACTGCTCTTCTGTTGTTTTTTAGCCACATGCCTTGAAACAGTCCTCTTTCCCATGTTTCTTCATCAGCACCATTAACCCAAGGTATACTGTCC
TCTCTTAYCTTTCACAAGGTCTTGGAGTTCCCATGCCTTTGTAAGCATCCCTCCCCGAGATTCAGCACCAACCAAAATCACATTTGGAAAAATTGCTTGT
TTCCCAAGAAGCTTTGGAGGATATGATTTTGTATAGAACGGGTTCACAGGTTTTCTGTTCATTCTTCTATGGTGGAGTGTGTGTGTATGTGACTCTGTCT
TCTCTCCATTCCTCTTTTTTTTTTTTTTTTTTTGAGATGGAATTTCGCTTTTGTGGCCCAGGCTTGAGTGCAATGGCGTGATCTCGGCTCACTGCAACCT
CCACCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTCGCAAGTAGCTAGGATTACAGGCATGCGCCACCACGTCCAGCTAATTTTTGTATTTTTAGTA
GAGATGGAGTTTCATCACTTTGGTCAGTCTGGTCACACAAACTCCTGACCTCAGGTGATCCAACCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGT
GAGCCACCGCGCCAAGCCTCCCCATCCCCTTTTATCTCTTAAATGAATGTGGTCACCATCAAAGATGGTGCCTGACTCTTTTTTGTTTTCAGTTCATCTT
AAATTCACATATAATTCACACGTCATAAAATGTACCCATTTAAGGTGTACAGTTCAGTGGTTTTTTAGTCTATTTAGTATATTTACAAGATTGTACAAAC
ATACCAGTATCTTAATATTTTTATCATCCCCAAAAGAAACACTGTAACCCTAGCAGCCAGTCTCTACCCGCCTTCCCCATAGCTCCTGGCAATCACTAAT
TTACTTCCTGTCTCTATGAATTTGCCTATTTTGGTTATTTCATATAAAAAGAATCATACACCATGAAACTTTCTTCATCTGCCTTGAAGTTAGCATATTT
TCAAGGGCTACCATGTTGTGGCATGTGTCAGTACTCCATTTGTTTTTATTACTGAATAGTATTCCATTTTATGGCTGTACCGCATTTTAGTTATCCAGCT
ATCGGTTGAGACTTGGTGCATTCTTATCCCAGAACATACCATATTCAGCTCCCAGTGACACCCACATTCATTCCTGGGCTGCTCCTTGTCTTCCAGCTAT
TTTCCTGGTCTCCTGTTGCCTCTGCCTACTTCAGCATGCTGTAGAGACATGGGTAGTAACTAAAACATTCCAATTAACTGCATTGTACTTGGCCTTTTTA
TAAGAAGCAGTAATTAGAAAATATGGTGGCCACAAGATTGATATTAAAGTGAAAGATTGTAAATACTTTTCTGCCTGAAGGTAGATGGCCTCTGGCCTGC
CTCTTAGTGGGAGGTTCTTCCAGGAGCTTGCAAGCATCCATTATTTGTTAGTCATCAGCTTAGCGGCCAAGGAGCATTAGCCTGTCTTGCTCTGTCTGCT
GAAGACTCTGAGAGACATGGGAGGGCAAGGGCTGCTCCTTTTGAATTCTTCCAATGTCTTCATGTCCTTTAACCTCCTGGCTTAGGGACTTGTGTGCTGG
TGGTGGAGCTGACATTTGTTTGGAATCCACAGCCCTTTGGGTGGGACTCAATCTTGGGGTTGCCTGAAGACTTTGAGATGGCTAGGTCTGGGCCTCTTTT
GGTCACTATGGAACAAGACTGTCTCAGAGGCCAGAGTCTGTCTCACCAGCTCCCTGTCTTGGGACTGCACCATTGCAGGGTCTTTGCCCTCCCCTGGAGA
TTTCTCTTCCTGCCTGGGCACCCATTGGCCATTCTGCCCGTAAGCTCAGTAGGGTGTAGGCAAAAGAGTTCTGGCCTGGAAGTACCAAAGTCCTGCGTTC
TGGTTTCAGTCCCTCATAACTGTGTATAACTAAGTCACTTAGTTTTCTGTGCCTCACTTTCTTCTGTTTTAAGATGGATTTGGAGATTATTGGCTTTGAC
CACCTAAAAAGGATGTAGTGACAATCAATTTAGAGGTCTAAAAGAGCCTTTGAGGAAGTAAAATGGAATCTTCAAATGGACTACATGCTGATTATTGACA
CTGCCCTAGCACTGATAGTTGATGTTGACTGATGGTCAGAATTGCTTGGCAAGTTGGAAAAAAGTACGTACAGATCCTGGGCCACTACCAAGTTTCATTT
AACAGATCTGGAGTGCATCAGGAAAAAAGTCCCTCTAAACAAGCCAGCAAGGTTTGGATACTGTGCAACCTTTTTTTTTTTTTTTTTTTCCTTTTGAGAT
GGAGTCTGGCTCTGTTGCCCAAGCTGGAGTGCAGTTGCACAATCTTGGCTCACTATAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCTTTAGCCTC
CCGAGTAGCTGGCATAACRGGCGCCTGCCACCACACCCAGCTAATTTTTATATTTTTTGGAGAGATGGGGTCTCACCATGTTGGCCAGGCTGGTCTCGAA
CTACTGACCTCAAAGTGATCYGCCCACCTCTGCCTCTTAAAGTGCTGGGATTACAGGCATGAGCCACTGTGTCTGGCCCTACTTACCTTCTTTGTGTTAA
TTCCTGCACCATTGATTAGCTTATTGTCCCATTGACTGTGTCTTTAGATGACTTCTCTGGGCCTCAGAATATCTAGTCCATAGCTGACACAGAGCATCTG
TTTAATGGTAAATGCTGCAGGAATCCATGCATTGGAGTAGAAAGAGTTTTAGATCATGTTCCTCATTTCTTGCTACAGACTTAGGCAAAGCGTGGAGAAG
AGGTTGTCCAATGAAGAAATGAAGTGACATGCCAGGTCAGTGGCAGAGCTAGGCCTGGAAAATAGGTTTCCAGACTCTTCCCTTTCTACCATACTTTTCC
TGGGAGTACGCACTCGTAATTTGAAGAGCGACTTTTGGGAGAGGGTGGAAGGAAGGCCTGGGCCTCAGCCTAAGGGGCCCATTGGTTGTGAGAGGAGGGT
CTGGTGAAATTCCATACCGATTGTCCGTGTGTGAGCTGCTGTACCATAGCCTCCCTGCAGAACCACTAACCTGTCAAATGCAGAAATAGTTCAGGGACAG
AGCTGTTAAAGGATTGGCGGGTTAAAGAAAACAGTGAATCCCAAGTTTTGTTAATTGGATTTTTTTGTTTGTTAGTTATTTGTTTTGCTTCATTGTCTTC
ATCACACCAGGGGCCTCCTTAAATCTGGTGGAAAAATTTCCTTGGAAAACAATTCAGTGTTTGTCCATAGACTTGGGAGGGAGAGATGCTAGATGCTGGA
AAGTCTTGCTTATTACTTTGGGGACACTGAGATGTTCCCTTCACCATGTACTTTGAGACACACATCCTGGTTGAGTTCAGGCAAGGATGCCTAACAGTTG
ATAAGAAAACTGGGAAAGATAGAAGGGATTTGTAAGGTAAGTCAGGGTGAGTGAAAACACATCCGGTATGCTGGAGACCTAGATGCTTGACTGCCACTCG
CTCCTGTCACCTCAGTCAATCTGGGTCTTGCTCTGTTGGCCTTAGTTTCCTCCTTGCTAACAGGTTAGTTCCACCTTTCTGCCCATTTATTTTGTAGGGT
TATTGTGGATGTCATTCTGAACTCTAAAATACCCTCTAAATATGAAGTGATATTAGTGCTCTTTACATTGTTATGATTAAAAATATTTATGAGAAAAAGG
TTAACTGTAAGGATTTCATTGAAAATCTTATAACAACCAACTGATAGAGATAGAAGATAAGGCTATTAAATTGTTCACACAGATGCCTTGATATCCTACC
TTTTTCCCCCTATATTCCTTTTATGTGAGAAATGAGATAGTGATTTAAGGGAAAAACTTAAAAGAGTTCCGACTATGTTGGTTTTTTTTCCCCCAAGTCA
ACCTTAATATCTTACTTAAATCTTTTTCTTTTTTATCTTTTCTTTTCTTTTTTTCTTTTCCCTCCCTCCCTCCTTTCCTCCTCCTCCTTCCCTTCCTCCT
CCTCCTTCTGCTGCTTCTCTCTCTCTCTCTCGTTTCCTTTTCTTTTCTATTCTTCCTTTTTCTTTTGAGACCAGGTCTTGCTCTGTTGCTCAGGCTGGAG
TGCAGTGGCACCTTCTTGGCTTATTGCAACCTCTGCCTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACCACAGGCACGCGCC
ACCACACTCAGCTAATTTTTTTTTTTTGGTAGAGATGGGGTCTCCTAGGCTGGTCTTGAACTCCTGGRCTCAAGCAATCTTCCTGCCTCAGCCTTCCAAA
GTACTGGGATTACTGGCGTGGGCCACCATGCCTGGCTTGAAATTTTTCTATGGCTTTATTCTTTCTCCAAGTACAGAGTCTACCCAACCTTCTGAGATCT
TTGGTTTTCTTTTCCTAGGTAACTATAGTACATACTTATTTATGTTAAACAACAGCAATCACACATTTCTTTTTCTATACARTCATGCTTTATAGGCAAA
TAAAGCCTCCGTCTTAGGCTTTCTGGATTTTTTCAAAAGATGCAATTCCTGGAGTATGTTTTTACTTAGAGCAAAGCAGCCTAGTCTCCTATACCTTCTG
CATCTGCAGAAAAGTTGGTTAAACAGACTTTGTAATGATGCCCCTTACAATTCTGAAGGGACTTGTGAAATAGTTTCACAGAGTTTCAGTGTTAGGTATA
TTTGATCAATGCTAACTTTTGGAAAACTTTGGTGCCTGTATGATTCAGAGGGTAGGGCAGAATATTAAATTAATCACAACTTCTTGTATTTTAACCATTC
TGGGTAAATTGGGATTCCGTGACGCCCAGGCAAAATTATTTGTTTATAGAAGAWGGGCTGAATTTTCCATCGTCCATTTCTGAGAAATGAGGTAGGTTTA
GAAAGAGACAATCAGGCCTCTTCTTTAACAGAAATGTTTGTGTCTACTAGGTGTGTGTCACAATATGAGTTCCTGAAGAAATAAGTGTCCGCTATTGGGT
TGTATACTTGTACTTCCTATTTTCTTATTTTGCACATTTTTCTGGTATTTCCCTTTCTATGGTGAGTGGCTTCTGATCGTCTTTCCTTTTGTAAAGTGTA
ATGATATGAGAATCATAATCGTGGTGCGGTCTTTTGTGTTGCATATTTGTAGGGGGTCAGTATGAATGGCCCGTGGTGAGGCTGCACTGAAAGATTAGGA
GCAGCCACCTTGATGCGGAGGAGGCTTAGTGACTTTGGACATGATGGGCTATGGCTGGCTATACTCTCAGCTTTGGGCGCATAAGCAGAGTATTGATTTT
GTATTTGGTTAAAACCAGAAGTACAACTTTCTGGCACCAGAGGATTAGGAAAATTTAACAGCGGAAAGCCATCATGAGGATAGTAACCAATTAATTCGAT
TTTTTTGGTCAGACATGGCTCCCACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGAGGGTCATCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAA
CATGGTAAAACCCGATCTCTACTAAAAATACAAAAATTAGCCTGGCGTGGTGATACGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATC
ACTTGAAGCTGGAAGGTAGAGGTTGCAGTGAGTCGAGCTTGCGTCACTGCACTCCAGCCTAGGCAACAGAGTAAGACTGTATCTCAAAAATACCATAATT
CGTTTTGTCTTTTCTTTACTTTTTTCTTTCCTTTTCCTTCCCCTCTCCCYTCCCCTCCTTCCCTTTCCTCCCCTTTCCTTCCCTTTCCATCTCTTTCCTT
CCTTTCTTTTCTCTCTTTCTCTCTTTCTTTCAACAGGGTCTCGCTCTGAACCTTTTCCAGTCAGAATTGCTCAGGGATTTTTAGACTTCCATTCTGGAAA
AGAGGGGGTAGTTATTTTGGTGAGATTGTGGTCTTGTGGTTAGACCTTGTGATGGGGGCCTCAGCCAAAGGGTTCAGGATTTTTTTCCAAGCTTTTCCCT
CACAACTTGAGTTAATCCGAAACGTTGCTATTAGGCCACCGGACATGCTTTTCTGCATGCCTGTGTTGGGCTGTTTGGATTGAAGGCCCAGCAAGGGAAG
GCACCCTCGCCCATCTGACACAGGCAGGCCTCTACAATTTTATTCCCTAACCAGGGCATGACAAACTATGGCCCATAGACCAAAATTGGCTTGCCACGTG
CTTTTTTCTGGCCAGTGAGTTAAGAATGACTTTTTATTATCATTATTATTAATATTTTTTGAGCCAGGTTCTCATTTTGTCACCCAGGCTGGAGTGCAGT
GGTGCAATCACGGCTCCTGCAGCGTGAAACTCCTGGGCTCTAGCAATCCTCCTGCTAACTTTTTTTATTTTTGTACAGTCTTGCTGTTGTTGCCCAGGCT
GGTCTGGAACTCCTGGCCTTAAGCAATCTTCCGGCCTTGGCCTTCCAAAATGTTGGGACTACAGGCCTGAGCCGCTGCATCCAGCACTTTTATTATTTTT
AAATGGTTGAAACACATCAAGAGAGGAATAATATTTTCTGACACAGGAAAATGATATGAAATTCACATTTCAGTATCTGTAAATAAGCTTTTATTGGAGC
ACAGCCATGATACAAGACATATACTGACTGCCTGTGGCTGCTTTCGAGTTACAATGGCTGAGTCGAGTAGTTATGACAGAGATTGTGTGGGCCGCAAAGC
CTAAGATATTTGCTGTCTGGCACTTTGCAGAAAAAGTTTGCCAACCCTGCCCTGAACAAATAAAGGGACAAATTCCACTTGCCCCGTCCATCTGTGGAGC
AGAGTCACTGAAAGGAAATACTGGAAATACTGGAAGCCACTTGGTGTTTTATCAAGGATGTGAGGTTTCCTGGCAACTTTGTCGCCATATCATCATCATC
ATCACCATCATCATCATCATCATCATCATCATCATCATCATCATCATCTGCCCTTTAAGTTTTCTGCTTGTTTAGAAAAGAAATTTATACAGAGCCCCCA
GTAGCAGCTGTAAGGGGGCAGGTTCTTGGAGCAGCCCATCCTCAACATTCTTGCTGCTGATGGAAGATTCTCAAGGATGAAGGCCCCTCTATGGGAGCAG
GATCAGTCTGGCTTTAGTAGATGCCAATTTCTGCTAAGACTATTTCCTAAAGGAGCCTCTCCTCATTTGCCTTTTCTCCCTGTTTTCATTGGGGGAGGTG
GAAGAGGAGAAAAATAATTAGAGATGCTCACCTTTTTCTTTTTGCTGGCAATTTAACAGTCTTTTCAGCTGCTTTGATTCCTTTCAGGCCATTGGTGTTG
TATATATTTCAAGATTTGCTCACAGGTCCAAAGCTTAACTTAAGCTCCCTGAGACATATCATAAAATATGATTTGGGGAAAAACCCTAATGGGCCATGAT
CAGAACATTATTATTCAACAAAGGATGAAATGCTTAAGCCAAGATGGCCTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTTTAATGAAAGTTGAGCAGACT
CCCGTCCAACAGTTTTCAATGTAGGAATTCCCACAGCCCCATTTGATTGCAGTTTGTTGAAAAGTTTAATGTTTTTGTAGGCAATTCATAATTTCCACAT
TGAACAGCCTGAGAGGAAGAGAGCTGGAGCCCACTGTTGTTTTTGTAGTGGGATGGTGGGAACTTTTTTTTTCCCTCCCCCAAAAGGATATAAAACTAAG
TCAGATGGTTGGGAAAACGTGGCACAGGGTTCCAGCCCTTTTGTAAATCTGAGATGCCCCCTCCTTTAGGTCTTCCTTTAGGACCCAACAGAATAGAAAT
TCCTGCTGCTTAATGTCTCCAGGAAGGAAAAAAATTTTCCTCTAGGCTGTAATAGTACCTAATTTCCTTTTTCTTCTCTTTATTTATTTATTTTCCCTAT
TAATAAGCACCAATTGTAGAAGATGAAGGAAGCTGGGAAACCCATCACTTTTGGAGAAGGTTAATAGCTTCCTTTAGAAAATCCTGACATAATACTTATT
TCCCCAAAAGGCACTTCATCAGCCTGAATGCCAGTTAAGATTCAAGGAATGGGCTTGGATTTGTGTGTACCCAGCGGTTCTGTGGCATCAAGTTGCACTG
GGAAGGAGAGTTTGGGGCTGTCACTGTGGAGTCCCTGCAAGTCAGCAGGACCAGGGCTGTCTTCCTGCACCATCTGGATTTGGTTAGCTCTCTCTGGGCA
GTGGGGCCGAGTCTCATTTCCTCCAACAATAATGTTATATAGGCAATGATCCTGGGCTGCCCTAACATAATTGAAAATTATGTGTATTGTAGGCTTGGAG
TGCTGAAATGTGGGCTCATAAAAATATGTGGTGCAGGTAGCCTATGGAGATTGGATGTGGCACACAATGAAGCTTTTATGTAAAGTAAGAATTATAAGTC
TCCATGTTAATATTGTATTATGAGTATGACAGTTCTTGGGTGGGTCCTCAGGGCAGGTCTGTCACCTTCAACAAAGCCCGAGTTTCCTAATTCTACAGAG
CTGGTATTTGGATGTAATCAAATCGGTTTTGCAGGTGGCCAAAGATGAAAACTTGTCCACCAATCCAGCTCTCCCCACTGAGGGATAGCATGGGATGTAG
ATGGGTTTGACTCCATTTGGCATTTTTGTTCACGGGTTTTTATGAGATGGAGAGGTGAGTGTTGGTGGGTGTCCATTTTGGTTGGCCTCAAGGAAATGAC
TCTATTGAGTGGTTTTGACCAATGCAGCTCATATAGTTATGTGGTAAGTGAGAATGGGAAGAAGTTGGGATGAGATGGGGCAGTTTAGATTCCCAGAGCC
CTCTGGCCTGGGTTACAGATGGAGACTGGAAATATTTACTTTAGTGGTTCTCAACTTGAGATGATACTGCTCCCAGAGAAGGTATTTGGAAGTGATGAGA
TGGTAAGGATAACCAAGRGGGTTCCTGTTGGTATTTACTGTCTGGGGGCTTGGAGTCCTACAAGTCCTTCAGTGTTTGGGGCAGACTCCCCACCTAATAC
CCTGTCGCAGATAGGACAACTCATTCAGTACACAGATGAAAAAAACAGAGATCACTGAAGCAAGGGGAGTCGATGCAGGGTCTTGTGGCAAGATGCAGAC
ACAACCGGACTAATAACTAGGTTGCTCACCACGGGAGGCCTCTAGGTGAAAGCTCTGAATTTGTAGCAGACACACCCACCTCGTATAGATCCTAGACGTC
ATGGGAAAATCGACTGTGTACTTTGGCAAGTAGTTCTTGGGCAATGATCTTCCAGCTTTAGGTATAACCAAATTTGGTTTGAATTTGCCAAGCAGTCGTA
TCTTCGAGGAACTCCGTCGGCTGGCTTGTGGATGGCTTTGGCACTTCTGTCTCTCGTGGGATTTGTGCAAACCCTTCTTTCTGTATTATCCTTTCCTGTC
TTTTTTCTTTCTATTGAAATTGTTCTGACCATCAAGACCTAACTCTGTGCAGCCTTCCCCAGTCTATTGTCCCAGAAATTCTGTCATCTTTCTTGGCATT
TCCTGAGTCCCTGAGTCTCTGTCACAGTGTCACCATGTTCTGTCTTGATTTACCTGTGTCTGTAAGGCTCCTCATGCTGGCAAAACTCCCCGAGAGCGGA
CATCTTTGTCTCTCCTAGTGCTTGTCACAGCCTGTACACAAAGCAAGTAGTACTCAGTGTTCATTGAGTAAAGTTTTCTATAGAATTAATATTAAAACCA
GCCATTTATTTTGCTTGAGGAGGTCTCCGAAATGACCAAGGTGTCTCCTTATATCTTATATCCCCTCCAAGCATTCATTAACTGATGGATTAGTGAGTTG
GCCTTGAGAAGCATAAAGGCTCGTCTCCATGTGCTTCTAAGCATTGTGTCTAAGTTCTGTTTGGTTTCCTGAGTGAAACTGTCTTAATGTTACCAACAGA
AGTTAAATGCCTAAGAGWTTCTTATACATGGGCTGAGTACCTCTGTGACTGGGCAAGCCACCTCACCTCATTTTACCTTGTCTGCAAAATGAGGAACTGG
GTCAACTCATYGTTCAAATCTCACTGAAAGCTAATTGATCGCTTTTGACAGAAGTAGCTCCCTTGGGCCGTATATTTATTTCCTAGCTTGGAGGAAGGTG
GGGACAGACAGAATTRATGTACACCTTTATTTTTATCTCTATGGTAAACCTGTGCATACTAAAGCATTCCTCTGGTCTTTTGAGATGAGTGTATACRTTG
TGTCTGGCCCTGTGCATTTTTTACCAAGAAGTAAGTTTTGTTGAGTAAACTTGGGTTGTATGAAGAACTGCATGCTCACCGTACTCAAGTAGCTTTTGCT
ACCTAAAGGACAGCTGCTCATATGTACTTGACTTCCTTTAAAGTGAAGGATGATGACATTTGAAAAACGGAGGTTGAAAAGGAGCAGATTTGGAATTGAT
GGTTTCCTAGGACACTTCTGGCTTGAGATTTGTGTTTTACTTTCTTCCTTTGGAATAGCTCTATATTCTTTCCTCTCCCTCCCCACCTCTCCCACTCCCC
TCCAGCCCCCACCAAGTTAAGGTAGTAGTAATGAAATCATTTTTTCTGAAGCTACCCTGTACTTTGAATGCAAAGACAAAAAATACAGTTGCTAGTAACA
TTAATCTTCTATATGTGTACTTACTGAACTTGAGCTCTGAGGAAGACCCTATTGGAATTGCATGCTTTTTTATTTTTTTAATGATTATTTGCATGCTTGT
ATGTTTTTCAGTTTCTGACCCATGTCACAGTTATTTCTTGGGCTAGTTGTTCTGCATTTACTTTCTGAATTCATTGTTTTTCATTTCACTTTTGTTTCCT
CTCGCCAGTATCTCCAGATGAAATGGCCACTGCTTGATGTCCAGGCAGGGAGCCTCCAGAGTAGACAAGCCCTCAAGGATGCCCGGTCCCCATCACCGGC
ACACATTGTCGTAAGTAACCTCCCAGAGATGATGGCTTCCTTTATTGAGGGGGTGAAAAAGAAAATGCTTTTTTGATGATAACAGGCCTTATTTGTCATT
TTTTTCTTTCTTTAAACACATTTTCTTTGGAAATATTGTTGGGTATAGTTTATATCTATAAGGTATTCATTTTCTGCTATTGGACCTTAATGATTGTAAC
CTACCTGGAAATTTTACAAACCTTTCCTCCACTCTTTTCCATGTATTTGGTTAAAATCTAGCCTTGTGGGCTCTAGTTTATAGGACACAATCACCATGGT
ATGGAGGAGACTAGAGGTGGTATCAAAGCAGTTATAAAAATACATTCAGGGCAGGTGAAGTGAAGAAGAGGGAATTAGAAAACTCAAAAGGGGGTCCTGG
ATTTGAAACTTGCCTATTATCCTCTCCCCCAATTTATCTTAATATTTGTTGGCAACATTCTACACTAACATTAGAAAAATTTCATCTGGGCTGGCTGACT
TGTAAACCTAGAGTAGAAATGAACTTTGAAAGGCTAAAATGGAATTTAATCTATACATCCATGGCTTTGAAAGTATGTAGGTTTGATAGAGAAAGCATTT
GTTTTTAGTACTAAGAGACTACAAGTGTGTGTCTACATATATTTTTAATGTATTTTCTTAGGGTTTTGTAGGCTCTAAGAGTGGAATTTATAAATTAACC
TCTTGAGAAGATAGCTCAGCCTTATTTGAAGATTCCCTTCTATGTATTTATATCATGAGCTGGACTTCATACTTTTGAAATAATTAATGGAAGGCATATT
TTTATAATGAATCCATCCATGACAGGTAGAATTATGCAAAGCATGAATCAATCATGGGTTTTTCATTTGAGTATCACAAAATGTTAATCATAAATACATT
TTGCCTCTATATTGTAATTTCTAAAAATTGCAAAATAAGTTTCTTAAGTAGAAAAATCTTAAGATGCATTCTGCCATTTTGGGCTAACTGCCTCCTTATT
TTGGAGCTTGCTGTAATTGAGCATGTGTTATTTAATGAGTTATACCTCTGTCATATGTGTGTGTTTATATCACAAAATAACTTATTTTTATAAAACCATA
TTTTGAGTCATCATTTGTGACAATGTCTTCTTTTCTCTGGTATAAATGAGGCATGTAGAAAGAAGATTGACATTTGCTAGAAGCTTCCCCTTTCCTCTAA
CTCCACAATAAAATGGATGCTCATAATTACATCTGCTCCTATAAGGTCAAGATTTCAGGGCTGGAAGTGACCTTAGATCATTTAGGCCCAACTTGCCCTC
AGGAAAGGAAACTGAGGCCCAGAGATGCCTTAAGTGAATTGCCCAATGTCACACGCTGAGTCAGTGGCCAGAGCAAGGCTTGGATCCAGTTCTCTGCTCC
CTTTCCAGAGCCTTGTGATGTCTTCTCTCCTACAGGAGGTGAAAATAACTGCTGTGGCTGGTTCTGTTTTGCTGACTGTAAATTGGGTCATGGTCAGGGA
CAGTGCATAGGTGTAAAGAAGTTGCTGGTTGGGGGTTCTAATGCAGGTTTCTCCAAAAGTGAATGCCCTGTTAAAAAAAAATTCTTAACAAATATACAGA
GATTTTTTTTTTAAAAAAGTGTGACAGTTCTAGACACCTAGAGAGTAAARTGAAGAAGCCTGTTTTCAGGTTTCCCGCCTCCCTGAATTTCCCAGCATGG
TCCAGGCTTTGAAATTTATTTATCTGCTTTTGGCAATGGTTGATGGGAATTTCCCACATTTATTTTTTAGCTACAGAGAAAGGACATTATCTTTAAAATC
TCTTCGTTGTTCTCTCTCTTTGAGTGAGGAGAGAAGATGTGAATCCTGGCAGTGGTTCAGAGTGGACACAGCCCCTGTGTTTGTGGCATAGGCTCTGTGG
GCCCCATGCCAGGGAGCAGTACCCCCGTGTAAAGGAGTGGGGGTTTGTCCATTTGGATAGAGCAAAGATCCTCCACCTCAAATCCCACAAGAACAGTTGC
CACAACCTGGGCCCTAAGCATCTCATTTTCCTATGTAGAAATTAATGATCTGGAGGAGATGGSAAAACATTCCTTCCAGAGCCTGTGTGGATTTTGGCCA
GGGGTGCAGCAAGGGGGCTTAGGCACCTTTTTCCTCTGCTGTGTCTTAGCAGGCGTGTTGACCATAGCAACTCCCCTGGGGCATACACACCCTCTTGTAG
ATGGAGACCTTTGTCCAAAGCAGCCACAGCTGGCAACTGTCTACAATCTTTTGGGCTTTCTGCTGTGCTCAAGGGGATCTGGGAATGGCCATTGCCTAGA
GGGGATGGGCTGGTGGAGGAAGGTGGGCTCTGGGAGCCGGGGAGAAGGGAAAAGCCATGAATTTGGACAAAAGGACAAATGTGGTTTACATTTGTGAAAT
ACTTGAAYGCTTGTCATGAATGGTGACTTTGGTTCTATGAGTCAGCCCTGTGATGGGGTATTTCTGCAGTCTTCACCTGACACCAGGGGTGAGAAGGAGG
ATTTCTGGGGAGGAGGAAAGAGTTGAGGGAGATAGGAAAGTAGAGTGGAAGAAAGGCCTTGCGTTGTTGACCTCTATCCACCTGGTCACCTATAGTTTTT
GGGATTGAGGATGCATACACCTTGAGACTACAAATTTATGATTATATTTTTGCTGAACATAAGGCAATGTGCCAACCAAAACCAGCTGTTCTTTGGCTGG
TACAGTGTGTCTTTGTTTGTAAAGGGTGCATTCTGAATGGTGGCTGATACATCATTTGGGTCTTTGTACAGTTAAACATTGGCCAGAGGGTCTGGTTCGT
GTTTAGAGTCGCCGATGAAGGGCTAACTTTTCTCCAGACACTTGGGGCTCTTGTTCACACTTTGCTTTTCACTCTTTTAAGTAAGACATAGTCACATCAC
AGTGTTTCATCAGACATGTTTCAAAATAATTGTCTAAGGATTGCTTCTTAATTTCCCCGAAATTTGGAATTGTTGTAACTTTTGGGCCAAGCTATTTCAT
AATTATTTCTAATGTCTCGCTTGAAGAATAGGGATGTATTCAGTGTTGATTATTAATCATTCGAAACTACAACTTTACAGATTGCTAAGAAGAATAACTT
CTTCCAGTACCCATATGGGGCAGAATCTTCACGTGGGAATTCAGAGCATTTTGTTGGACTATTTTAATCTGATTGGATTATTTTCATGTGGTATGTGGGT
TACCACATTAGAAACGATTGATGTGTAGAATAAATGTTCTTAACAAGTGGAGGTCAACTTATCAAATGATATTTACATTAAGAATAGACTCCACAAATTT
TAGTTCCTGTAGCTGATATAGCATCTCATTTGTTATATAATCCAGTGATTCCTAATCTGTGTTCAGAGGAGAGAGGAAATCGATTGCAACAGGGACGATG
CCTTCATTGGCTGGCCCAAAACTGGGAGTTTWTACAAGGCGTCAGTCTTTGCCTTCCTCCTCCCTGCCTTCCCTCTTCCTTCTTCCTTCCCCATACTCCC
CAACAAATTCATGGACTTCTTAACAACTCAGAGACATTAGCCACAAGTTCCAAGACACCCCCACCCCCCAGCCTCCCCAGTCCTATTTTCGCATTCATAT
AACTAAACTCTTTTTCTTTCTTGGTGGAGTTTTGAAATTTATATTTTTAATTCTTTGCTCCCTTTTTTCCTCTTACAAAATGAGTGCCAAGCAGCTAAGT
TGTGCTGAGTGGTAGAGTTTGAGTCAGTCTTGGCTGGTAAGCTGTGGGGTTAGGAGCCGCTCCCTGGATACCACCTCTGGTGTCTTTGCTATACAAAGAC
TTTCATTTAGCCTCCTTTGTATCCAGCAAAAAAAGATTCAGTACCCAAAATGGTGGTATTTTGGTATAGTATGTATCTTACAAAACGGCAAAAGACTTCA
AAAGTTCCTACAATTTTATCTTGGGGGTTTCCTTTTGAAGTCGATGTAGAATTTTACCTTGGGGTGGATTTTTTGTACTTCTTGGTCTGGTGTGTTTTGT
TGTGTAATGAGCATGGAGGTGTGGGATAAGAAAGCAGACTGAATCCCGAGGAACAAAGCCTGCCAGACTGTGGTGGTGTACTTTTCTTGTTGTTATTGCT
TAAATGCTGCAAGAGAGTGGAAAACTCTTACGAAATAATGCACGATGGGTAGAACTTCAGAGAAAATCTCTGCCGTCTACCCTGTGCATTTTCGAGGAAG
CTCAGAGGGCATGCTGAACCTTTGCTTTTTGTTTCTGAAGAGTTCAGGGGAACCTACCCATAATTAATTTTTTAAAACACTACCTAGAGAGCACCCTCTT
GGTTATTAAACACATGCGCTGTTTCGATGGGATGTTTGACCTGGATTGTGGATGCTTGCTGGGACGTGGCATGTGTTGGGAGGCTCTGTGCTGCCTGCTG
AGCACCAGCAAAGCCACAGTGGCCCCTACCTCTGTGGGAGGCCCTGTGCCAGGTGCCCTCAAAGAGTAGGGGGCCCATGAGGGTATGACCAGGGGGACCT
GATTTCGGCTGAGAAGTTGGCGGGGATTACAGGCCTGGGCGGCTCCCTGAGGAAATTGCATTAAAAATGAGATCTGAAGGCTTGATTGGGGTTGGCCCAA
TGAAGGGATAGGAGAAGGGATGGGGAGTGGGCAGAAGGAAACACATGTGTGAAGGTCCTCAAGGGAAAAGTGCTTGGCTTGGACAGAGGCAGGAAATCAG
GTAGGAGGCTAGAGGTCGGGCAGGGCTCCGGGAGAGTGACTTGGGGTGCAGCATATGGTGAGGATCTGACACTGGGGAGTCATTTGAGCAGGTTGGCTGT
TTCTGTAGGAGCGTGTGTTAAGCTGCTGGCAGTGGGGATGGTGAAAATAGAGATGTGGAGGAAACAGCAGCGGAACTTGCTGACAGGTTAGATATTGGCA
TTGAGGGAGAAAGGAGAGTCAAAGGTAGGTAGATGGAGATGCTTCACTGAGTGGGGAGTATTGGAGGAGGAGCAGGTTTGGGGTGGAAGCGTTGTCCTTT
TAGAGAGATTGTATTTGCCATTGATTGATTCATTCATTGTTTCTGCAAATATTTAGTGTGGGAAAAAGCATGCTAGACACCAAGAGAGAGTGGAGTCAAT
GAAGAACGATAACAGCAACAAAGACTGTAGCGCTTCCTATGCGAGGCTTGTTCCAGTTGCTTCAGAGGCTGTGTTACCCCTGTTCTAGAGAGGAGGAACT
AGGCCCAGGKAGGTGGGGATTTGCCCAGTCGTGGGAGTCAGGATGTGAAACAAGGCACCCTGGCTCCAGAGCACACCGTCCTCTCAACCACTGCAGAGAA
GCTGGGAAAGAGACAAATAAGTGGGTGCTTAGAGCACAATGTGTGTGGTGTGCCAAGAGCAGCTGGGAGCCCTGGGACCCCCAGGGAACCCCAGCCCCAC
CTGGGCATGGTGGGCATGGCTGGAGGAGGCCTGCTGGCTTTGCTGGAGAGTGGGACATGCATCAAGGTGGCCAGAGACTGGGCTTCTGGGTGTCGTGCTG
TGACTGCTGCAAAGGGCTCATTGACATATGGTGGGGAGGGCCAGCGTATTTTCTGCGGGCAGGACATTTGGGGGATATGGGGTGTGACCCTGTACTATCT
AAAATCTTTTACTTCTGGATTATCTCCACTTTCTCTACTGCATATATACTTTGTTTTTATTTATTTTATTCATTTATCTATGACTCAGCCAGACTCTCTA
AAAGAGTTGACTTGTGTTTCCTAGCAGCCACTGAGTCAGAACTTTCCCATTTCGCAGTCAGGGCTGTGGTCAGGGTGTCTGTGTTGTCTAAGGATATAAA
GCAAGCCTTCGGGCACTACCAAAACATTATTTTATAAGGAGAACTATGAGTACCTAATAGGAAGAACCAGGCAATCAGGTTATCTTTTGGTGAGGAAGAA
GTGGTAGATGGGATCATTGGTGCTTTGAAGGGAGTGGGTGGTGTAGACTCCAAAGTGTACATGGGGCCATGATAGAGTCTATGTCAGATGTCCAAAGCTT
CCTTCTCTCCTCCCAGAAACTCTGTCCTCTGGTGAAGAGTTTTGAAGTTTCCTGAGGTTTGGGTTCATGGTGTGGCAGGTGATACCATGGCAATAGAAAA
TATCCCATCAAGAAGGATTGTGTGACCTCAGTTGTAGCCCCTGCATGTTGGAATCACAACAATTTGCAGGGCCTTAAAATCAAATGCCATTTCACCAACT
GCCCTCCCCCGTTTTTTTCAGCACTGTTTGGTAGCTATCTGTTTCCCCTGATATTCTTGGACACTTCCAGAGATGGGGGCTCTATCTCCTGGTGGTAGAC
TGTTTCTTTTTGGTACAATATGAACTCTTAAGAGAGTTCTACCTTTAGGGAGCTGCAGTCTCTCTCCTGGAAATGCTCAACTCCTTAATTCATGTTTTGC
TGTTAAATTCTGCTAATGCCTCACCTTACATGTCTTGACAATTTGAAGGTAGCTATTGTATTCCCCGCAACCCCAAGTCTTCTCTTCAAAATGATTATTA
ATTGTAATTCAAATCATCAGTGACTGGTATCTTAGACTACTTAAGGATGGGAATTGCTAATTTTGTATTTAAAAGTTGTACCTCTAAAGTAAGTGAAATT
TATTTTTAAACGTAGCTTTCTTCATTCATAAAGTTTATGTTCATTGTAGGCAGTTTGGAAAACAGCCCATAATCTCACCACTCGGAGATTACATTGTGAA
TAATTTGGTATATTTCCTTTTAGAAATATACCAAATTATCCTTTTTTCCTCTGAGTGTATGAATATTTATATTTGTTTTTAACATACTTGAGCTCATAGT
GCTCAGTATTTCCAACGTTCTGTTTATTTAAGATGAAAATTGCTGTAGTTAATAAGCACTTCCCCATGTCATTAAAATGCTTAAGGATTTTTAATGACCA
CATAACAGTCCATAATATGATTAAACCCCAATTTACTGAATCAATGCCATATTGTTGGGTCTTTAGATTGTCTCCTTTTGTTTCTGCTACTGTGAATGAT
CCTGTGATGATCATCTTTGTGTGTAAATCTTTGTCCCCTCGCCCCCTCCCCTTTTATTATTTTCTTGGGATAGACCCCAGGACAAAAGGTAGAAAAGAAC
AAAGTGTTAAAAAATTTCTTGATACATAGCCACAGATTATTTTCCTGAAAGTTCTCAACATTTATAACTACSAGCAGTATGTAAGAGAGTTATGGTTGGA
ATGATTTTAATGTCTCTGGGGAATTTAACAACAAAAAAACTTTAGGCTTCTTTGGAGAGAGACATGCCCTTAACTCCACCCCGCCCTAGAACAGAGACCC
AGCCCATCCAAGTCAGCCTCCCCAGGTCCTCCACCTTCAAAACAGGCAAACGAAATCATTTCTTGAATAATTGGTAGGCTTCAAGGTCAGATGTTTATTT
TAGATAATTCACAGCATAAATTTATATGTTTTAGGTACCTTAGCCCCTGAATATACTCAGTTCATTTAGGACTATTTTAGAGGTCTTGAGTTTACTCTTA
TAACCTCACATTTTTTTGTGAATTTTTAGTTCTATTATCTTTGTTTTCATGGCATATTATTGGGCAAAGATACTATTTATTCGATGCTATGTGTGAGCTG
GGTCAGGATTATGACCCTGAGTTATGTTTCTGGGAAAATGTACCCACTTGTCAAAGATGCCGTTGGCTCCTGTGATTAAGGTCAGCCCACAATGAATGTG
GGGAGGGCTGGCAGCCTCTCAAATCAGCTCTTGACCATTTCTCAAGCTGGGGCCTGTTGTGCTTGGGGGAAGAGTCTTTGGCAGCTCAGCTCGGGGCTAG
CGTTTCCTGACATTTGTTTCGCTGAATGTTAACAAGGTTACTGGAAAAAAGGGTTCTCTCCTAAAATAGGTTTAGGGAAGCACTGGGATATGCGAAGTGA
ATGAGTTTCTTTAGGGCAGGATCTTGACTCTGCAGGGGGCTTGGAGGCCTTCCCTAGAGTGGGGCTTCCTAACACTGCAGAGCTCTTCCCAGGACGAGGG
GCAAGATTGGGACCTACTTTGGAAGGTTGTTTTTGTTTCGGCACCTGCTCTGTTTACGAAGCGTGGGAGCCTGTTTTAAATTAATGTGCGCCTACTTAGA
GCTACACTCATGGTTTTGACTATGTTTATCTTTCCAGTAAATAAAACAAAATTGTTCATTTGGCACCCAGCCTGTCCTGCTTGTCATTTCTTGTCTYGCT
GATTAACTCTATGGATGGGGCATGTTTCTCCAACCAGATTGTAAGTTTCTTGAAGCCAAGGAGCCCTGTGGTTGATTTCTTCACATGTGGCTCTCTCTCC
TCCCACAATGGTGCTTCGTTAATTAAGCAGAAAACCCATCTCTGGTTAGGGACTGGAGTTGATTTCGTTTGGAATGAGTGTGACTTCATCATGACCTGAA
AGTGTTCAGAACCATCTTGGTTAGCACAAGGGCGTGGACGTGTGTCTACTTTCTACCTGATGGGATAGCATGTTTAATTTGGGGTTATGACACTGAATGG
TTTGCCAGTAACTTGCTAATCCAACCTTATACATTCCAGCTCACAGTGGAGCGTGTCTAATTGCCACAGCAGCATTTATGTGGAACGTGGTTGCACAAAA
GCTCCAGAAAGTCAGGCTGAGGGCTCCTATCTCTCCTCAATCTTGGTTTACGATGTCTGTTTCTGAGGAATCCTGGGATGGGGCCACTGGCTCTTTAAGA
GAGAGCCCGATTTGGAAATCTAGGACTTGATTGTTGATTATGGGCAATAGATACATTTTAAGAATGATGTTGTAGGCTGTATGAAGTCATTTGATGATTG
TTTTGTTAATGGCTTGCAGGTCAGATTTTCATCTTTTTAAATTAATTATCATAGAAGGAGAAAACAACTGGATTTCAGAATTGTCCCTTGAGGTGTACTG
GAAACTAAGGCGTGAGGGACTCATAGGGGTCTGGCTTGGAAAGTGTATTGCTATGTCCAGTTTACACATAAGGATGTGCAAATCCAGCAGGTTAGCTGAG
CTGCCCAGGAATATCCAGGCAAGAATKACCATATTCTGATAATTACTCAGGCCTCTGCCTCATCTCCGCTGCCCCCCCGCCCCCTGACTCTCTTCTGAGT
GCCAGATTCAGCCTCCATTTGAATGCCAAATAGACAGGAAATTAGCATGCCCAGAATCCACGTCTTTAGTGCACTCTCTCCCCAGCTCCAAACCTGTTAC
TGCTTGTGTTCAACATCTCAGTAAAGCTCAACAACATCGACCCATTACTTAGGCCTCAAACCTTGGGTGGCATCGTCGATTGCTCTTTTCTTTCATACCC
CACATTCAACCCATCAGCCCATCCCACAGGCCCAAGTGTGTCCTCTCTACCTTCAAAGCGTGTGTGGCATCCACCGCTTATCACCACCTCTGCCATTACC
ACTGGAGTCCAGTGCCATCATCTCTCACTTGGATGTGGCCAGAGTGTCTTTGCTGGTCTCCTTCTTGCTTCCTACCTTTGTAACAGCCTATCATCTATCT
CTGGTCTCCATAGCTCACTCCCATACTTTGAGAGGGCCTTTGAAAGCCTTAGACAGATCATATCACAGACCTCTATACTGAAAGTCGGGATAAATTTTAT
CTCTGGAAAGAGTCCCAAAGCAGCGATGAACAGATATTTTGTCCTGTCACTTGATGAAGAGGTGGGGCTTTGAGACCCAAGAGCTTAGAATGGAGAGCCT
AGATGCCACTAAGCCCAGGCACTGGCCATGCTTCGAGTGGAGCTTTTGTGCTGGTGGAGGAGAGATGGCTGGGGGACACCTGTAGGCTGAGCAAGTCCCC
GTTCATCAGACCCTGGCTCATCCAGCAGGGCGTGGCTGATGTTTTCAATGTTGTATCCTGAGTGGGACCCAGATGCTTCCCAACTGTGCCACATCTGAGC
CCTGCATGCCATCTGTCCAGTTGCAGCCTGACTGCAATGTGAGGCTGCTGAAGAGCTCTGGATGGTGTGAAGCAATCTGTTTTCTAGCCCGAGCCTGCAT
AGCTGGTGGATCCTGGACCGTGATTAAGTGCATCACCTAGGCTTCAATGAGATGGAGTCACTGTGTGTCCAAACAGTGGGATAAAGGCTTTACTCTTTGT
CTTCCTGCTCTGAGGGCACAAGCTGCTTGTTTCTCTCACAAGGACACCGTCTGTGTTGCTCAGGTGCTGGGGTGAAAAAAACAGCAAGCATTTGAAAAGG
CTGAAGAAGGAAAGAAAGCTGAGAGCGGTACAGCCTTGGGGACTGAGCCATCCCATTGTCCCAGAGGTGGGGGTGTTATCAAGACCTGTTTTTGAGCCAT
ACCTCTGACTCTTCCTGGAAAGTTAGACCCAACTCAAGAACACACTAAGAGAAGTGTTTCCCCCYAGCCCTTTCAGATTGAAAGGAGACGCCAACCTTGA
TGGGTGGAGGTAGAAAATAAAGTCCCAAAACAGTGTCTTGTAAGCGAAGGGGAACATGGCTGGGCAGAGGGCTTCTGGTGAAACTTTTGGGAGTATTCAG
TTGGAACTCAGGAAAAAAAAATTGTTTTTTTGGAAAGAGGTAGCAGCCCCCTTCAGCCAAAGCTCATAAATGAAGGAATGTCTGAGACTCAGAATTACAG
TGACCAAGGCAAGACATTGTCAAAGGCTGAATAAGTGAGTTTGACTGACAGAGGCCATCTCCATTTTTAGTATATGGCCAAGCATCTTTCCCACAGTCTT
CCTTGAGCCCCTTCCCATCCCACTTCTGAAAAGCACTGAGTTGGCCATTATTATGCTTTTTTCTTAAATTATGAAGTTGTTTTCAGGTATTGAGAATAAC
ACCCAGGTGCTGAACTCCCAGCATAAGAAATCAAACATTCAAAATGGAGTAAGGTTCTGAAGCTGACATCTGTCTCTACACATTTTTTTTTTTCTGATAA
TGGCATTTCCTATCTCCACCCTCACTCTTTTTGTTGTGGTGAACTACACTTCCCTTGTTCCACTCGGTTCTGTTGCACATGTGATTAGGCAAGGGGCAGA
TATGTGATATTTATTATGAGTCTTTTCCACGCAGAGAGGATCTAAATCTGGCTCTTTGCAATTGCCTTCATACATGTGCATACACACCACACACACACAC
ACACACACACACACACACACACACACACAGACACATACATATGCACACACCCCGACTCAATGGAGGACCCTCATTTGTAGAAGGGTAAAATGGGTGAGGC
GGAAATGCCTGTATGGCACCATGGAGTTCTGTGTAGCCAGTTCTAATCCTGGGCTATTTGGTAAGGAATGAAGTTGGAGATAGTCTTCTGTCCCTTACAA
CCAAAGGAATTCTAACTAATAGTTTGCCAAGTTTTATGTTTATAATAAAAAATGACATGCTTTTTCTTTTGGATTTTTAATGCTTTTGAATTAAAAATGC
TAGAACATGAACTGATTCTTCTATCGCTATTTAGATAGAGCCYTGCAAGAGCAGAGCACGCATGCTTTCTTTAAGAACAGGTTGGTTTGTGGTCGTCTGA
GGACTGTTTTAAGGAGACTTATTATACACAATCATCCCCCACAAATGATTTCTAAAGAGAGGCTGGTATGAAAGAAGGAGTTTCCATGATTCTGTCCTGT
GGTTCTGGGGAATTCTGAAAATGAACTTTAGATATTTTTGTGAAATTCTTATTTTCATATTTTTGGTATCTCAGAGTTTTCTTTTCTGGCTTCTGTTTAA
CATACTCTTCTTTGCCCTAAATCTCTCTTATTTTTGCTCCTTGGGACAACTGAAGAATCCTTAGATAATTAATAGTATGAAATACTGCCCTTTTAGTTGA
AAAATGTCACAATAATGTAATAAGATAAATAAGGAGGTGTCGCTTTAACCTGTATCGTGTAGTCTCCTCTACTTACTAACACTTACTTGTATTACTAGAA
GCATTATTTTTTAAATCATGGAAAATTGGTGGCAAGCTGAGCATACAGTTGTTTATTTCTGTTTGACTGATTATTACAACTTCATTATTTGATGAAGGTT
CTGTACGTTTTCCTTTAAGACACATAGAAATTGTGAGAAGATCCTGCAGCCCCGAAAGGCTACAGTGTTGATCCAAGGACTCTGAGCCGAGTGCAGGGTT
TGTACTTGGACCTGCAGGCTGGGTGGCGTCTGTGGGAGCAGTGTGTTGAGAGAGATTCTGAGGCTGTATGTGTCAGGGCCTCCAGGGGAAGGATGCAYTG
ATGGATTAATTTCTGCCAAGGCTGAAAGAGGAGAGAGTAAGAGGCTGTAGAGGTGTCACAGCTGTCATTGCTGTTTTAGGCAGTCAAGCTTTTGGGAAAG
TGTCAGAAATTGAGCCCCCTACTGGATCTATCGGAGCCCTGTCAAATGTCCATTTAGATGTCCTGGTGAACAAAAGTTCTCTGACTCACCATTTAAAAAC
TTGTTCCAAATGAAATTATGGGAGAAAGGAACATTTTTCATCCGAACCCAGAATGAGGATGTACCCAAGGAAAAGGACGTAGGCTCAGGAGCTGGACTGT
GGCTCAGCTGGCCTGATGTATCCCACTTTGTTCCTCCCATGGCTGGGATGTCTCTTTGCTCTCCATGACCCATGTATCTTGAGGACATGACACATGGACC
AAGCTTGAACTGCGGATTCATTTTTATGCATTCTACCTGTGAATGATTGCAGCGGATCTAGTCGTATTTCTGAGAGTTACTCAAACTGGACTTCAGCAGT
GAACTCTACAGTTCTCTTTTCCTCCCACCTTTCTATTAGACATTGCATGATACAAAAATCAAGATATTTCTAAGAGGGTGATAACTTCAATGTTATCTAA
ACTTTTAATTTGGAAGAAGAGGGGTTCTTTGTTCTTTTTAAAAAGATACAAACGAACTTCTTTATCTGATTCTTTTTTTGGTGCAAACCCATGATGCCTT
CTTCCTGATTCATCTGCTACACTGTGAGTTCAAGCCTGGCGTGGGACACAGGCACAGCTCTCATGCCAACGATCTCATGGTTAAGTTTTGGAACATAATT
TGAAAAATGTAACCCATTGAGAGGCAGTAAGGACATACGGTGAGCTAGTGCGTGTTTGGACGTCTGTGTGGAATAAGTGAGTGGGTAGAGAGGACATTTG
TCAAGGAGCGGGAGGGCGGGCCATTGGCTTGGGGGAAATGGGCTGAGACTCTAGGGGTGGCCAGCACYGCATAYGGAGGCCAGCAGGGTTGGGCTTGGCT
AAGTGCTGTGGTGTCTGGATGCCTATGTGAGTTTCCTCCAGAAGTTTTCAGTTGGCAAAGTAGAACCTGCTGGATATGTAGCAAGGGTGTGGATTGTCGG
GATCCTGCTGGGCGCAGGCGTGTGATACCAGAGGTCAGAACAGAAGCTGAGGGATGAGGCTTTGGGAGCTTTTTGTCATGCACTGTCCTGGAGCCTCAGT
TACTACAAAGTCTGCAAATGATAGACCGGAGCTTTGGTTCTGCCTGATGCTAGCTCCCCTGTTCCTGATTTTTCTTTTCAATATTAGACTTAATCCCAGA
ATTCACATGTTGAAAGAAAACTTAGAGGTCTAGTGACATAAAAGCCTCATTTTGATCGTTACAGAACTGATGCCTTGAGAAATGGAGAGAGAAGTACACG
ATCATGGTAATACTGGATGTTCACTGAGCACTCACTAGCTCCAGGCCTTTTCTAAGTAATTTATGAAGTTGTCAGGTTTAATCCTCACAACGCCCTTATG
AATGAGCTATTGTTATTATCCCGATTTGGCAGATGAGGAAACTGAGGCTTGAGGGGAGGATGACGTACTCAAGGTCACACAGCTGGGAGGCGGCAAGCTG
GAAGTTGAACCCAAGGAGTCTCACATCGGAGCCAGGACTCTCACCCTTCAGTGTTATGCTGCCTTAATCAGGCACACATACAGGCGGGGAGAGGCAGGTT
TCCGGACACCAGACTAGGCTGGTGCCGGTCAGGCTACACCAGGGAACCTGGAGGCCTGTCATTCTTTTGTGATGCTGTTAGTTCCTGTTGAGGAAGTGAG
GCTTTGTGGGTTCCCAGGAGGAAAAGGTATGAACTCATGGCAAAAGAAAGGAACCAAAAAAGGGAGATTTGCATCACAATGAGCCTTCTATTCATCCCAA
ATTATACCTCCTTTTATACCATGTGTGTCTGCAAACTTGTGGGTAAATCACAAATCTTTCTGGTAAGTTACAATGGATGGAAGGTTTTTGCATTTCTCTC
AAATCACCAACCATTTAATGCTATGTGTAGTCACTCCCTAATCTATCTTTTGTATAAATTTGGATCTTTGAGTATTGGGGTTTTCCATGATGTTTGGCAG
TTCCCCTTAGGGTGTCTATCTCAAAGTTTGTCACACTGACAAGCTTTGGGGAGAGAAGTTAGAGGTGGGCTTCCCTGTTTTTAGTGGCTGTGTCTGATTG
TTCTGTCTGTTCTCCAGGACAGGAGAGATTGATTGCTTTCTAGCTTTTTTTAAAATTAAAACAACAACAACAAAAAAATACAGAAAGGTACAAAGGATAA
CAAACACATTCATGTACCTGCCACCTAAAATAACAATTACTAATCTTTTCACCCTCCTAGCCCATGATCTTCCCTCCCAGGCTGTTATTAATATGAAAAC
CGAGTTCAGGTTTTTATACTTTTCGACATCTATTTATATTAACGTATGTATTATAAATAATCTTAGTAGTTTTTAACTTTGACATAAGTGGCTTCACATT
CCACATAACATTCTGCAGCATGTTTTCTTTTATTTTTATTTTTTTCTTTATTTTTAAATTTTTATTTTGCAGCATGCTTTTCTTATTCAACATTACATTT
GAATTTTTTCAACATTGTACATTGAAATTTAGCTCATTCTTTTTAACTGCTCTGTAGTATTTATTGTATGCATATACTACAGCTTTCTATTTCTGTATTG
ATGGTTAATTAGGTTGCTTACAGTTTTTTAAGATTACAGATTCTGCTGTAATAACCATCCTTTGGGCAAGTGTATGTAGGTACCTATATATGAGTTTCTC
TAGGATTCATACCAAAGTAGAGGAATTGGTAGGGCATTGGTTTGCTGGTTTTAATTTTAATTCACATGCTATTGTCAAGCTCTCCAGAACAACTGGATGA
GTTGATTGGATCAATGAGTATTTCCATCACCAGCATATAAACTCTTTCCTCATAATCACACCAATGCTTGATCCTGTTGGACTTAAAATTTTTGCCAATT
TGCTGGGTATGCAACGGCATCTTACCTAATTTGCCTTTATTTGATGACTCCTGAGGTTGAACATCTGGTCATATGTTTATTTTCTCCTCTGTGGCTTGCC
TGGTTTAATGCCTTCTTCATTTTAAAGAATCAGATAGTTTTCTGTTATTGATTTATAGGAACTCTTTATATAAGTTGAAAACTTGATTATATGTGTTGGA
AATACTTTTTCTAGGCTGTGATGTTTTAAAATATTGCTTTAGATGGGTTTTCATTTTTACCTTTTATTTTAGAGATGGAGTCTCACTGCATTGCCCAGGC
TGGATTGCAGTGGCTATTCACAGGAAAGAGCATAGTATGTTACAGCCTCCACCTCCTGGTACCAAGAGGTCCTCCTGCCCCAGCCTCCTGAATAGGTGGG
ACCACAGGTGCACATCACTGTGCCTAGCTTTGGATGGGTTTTGAAAGAAAGAAGTTTTAAATTTTAATGCCCTCAAATTCATCTGTATTTTCCTCTGTGC
TTTTATTTTGTACCCACTCTAAGTAGCTCCGAATTCTGCAGATAGTTGGTGCAGGAATTCTGATTTTGAGTGGACATCTGCTCTCTAACAGTCACATTGA
AGGAAATTAGGTTTTTTTGGTAGGAATCTAAGCAAGGGGTTGATTTGTAAACTAGGCTTTAAATATGATTTTAAGCAACTCACTTAGAACAAGATACAAA
AATTGTGGACTGGACCTATATCTGGAAAACTTGAAAGTGCTAGGGCAATAAATAATTCTTGGTCACATACAGCCGAGATCCTGGGCTCCTGACTCTGGGA
CAGAAGCTTTCTATATTTTATCTCATCAGTCTTTGCAACAGGCTCCTTGAAGCAATTTTATCCCCATTTTAGAGATAAGAAAACCAGAGCTTAAAGCAGT
TAGATAATTTATGAAGTAAGTGGCAGAGCCAAGATTCAAATCCAGACCTTTCTGACCACAAAGCTCGTTGCTGAATACCGCGCCTCATTGCCTTCTTGCG
AATTACTTGGGATTTGTTTGAATCCCAAAATCTTTATATGTTATTTTAAATTTGAATCTAATTGGAAGTGGGGCAGTGAGGGTAGAGGACAGAAAGAAGG
GGAAGAGCTTGAGACTCAATAATAGAAACAAAAAACCCGTCTCCAGGAGGGCGGTTCAAAAGGAAGAATTCCATATTTCATGTAACTGAAACGTTAAAAG
CCCAAATAATTGCATCATGCAAGTCTGATGCTGAGTAATCACCCTCCCCCATATTATTGGGGAGAGGGGGCAAGAAGTCTGGGAAGCTGTTTTTGCCTAA
GGAATTACATTCCAGGGGACTCTGAGGATTTAGGTAACCACAAAAGCCATTTATTTCGAGTACACTGAGATTTCTACCACTTTGATCCCTAATCCATAGC
ATAATTAATAAATGAAATGTGCTGTAGCATGGGTTTTTTACAAAGTGTACTTTTAAAATGGCTTTTGGTCTGACATGATTCATTTGCCACTTGGAAAAGC
GTCATCGCCTCAGATGGGCAGGCTGGGAGAGGCTGCCTGGTGGGTAGCTGAGGGCGGTTTCCTGGGGCACAGTTCCTGCCTTGGGCCTCTACAGAGCGGT
CTCATCCAAACATCTCCCAGACTCTGCGTTTTCCAGGAAGCGTGCAGAAATAGGAGGCCAGTACTGAAATGCTATCTGCTCTGTGTATGTCAGAAGACCA
CAAACCACTTATAACAAATGAAGATCTTTTTATTTGTTCTTATCCCTTTATGTCACTTGAGGAAAGTTGCTGTGAGTAGGTGATGATCATTACAGTGATC
ACTGGTTGCCCAAACTGAGAAGCCAGACATTTGGCTTGGTTTCTCTCCCTTCCTCTTGTCTCTCCTACCCTGTAAACACATACTTGGTGATTACCCATGG
GGAGACAAGACAGGCTGGGAATATATACTTCTGCAMCTTCAGCCTCCTGGGTTCCAGCGATTCTCCTGCCTCAGTCTCCAGAAGAGCTCGGATTACAGGT
GTGCACCACCAGGCCCAGCTAACTTTTTGTATTTTTAGTAAAGATGGGGTTTCATCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTG
CCCTTCTCGGCCTCCCGAAGTGGTGGGATTATAGGCGTGAGTCACCGAGCCTGGCCCCAGGCRATAATATACCAGTGGGCAAGAAAATATTCTTGCTCTC
ATGGGACTTCTGTTGGGGGTCAGGGTATAGGGAGGAAGGCATAGAGATGAAAACCAGTAAATAAGTAACAGGGGAAAACATTTTAAATACATTAATAACT
AATAAAATAGAAATAAATCTGTTGGCTACTTAACAGGATGTGCCACATTCCAGATACATTACGTTAATCCTTATGATCTTTGGGGGCTAAGTATTAGTAT
TCCATTTTACGGATGAAGAGACTGAGGCTCAGAGGGAAGGGAGGTGGCTTTTCKCAGGTGGAAAGCCAGACCTTTTCAGTGGTCATTCAGTTCATAGCTA
AGGTCTTATTTTCTGTGCTCTCTGTCGGCTGAAAATGGGCAAGGTAATTTCACATAGTGACAGGAGCCATGTCAGAGAAAGAGCAGGACAGTGGGACAGA
GAGGGACCAGGCTGGGGGCTGTTTGAGATGGAGGGTCAGGAAGAACCAAACTAAGATGTGAACAGTGGGAGGTGTTGGAGCTGTGGTGCTTGCCTAGAAG
GACCCTCATCGAGCAAATAGAAGCTTCTGGCAGGAAGAAGTTAATGTCTTGCGTGTGCCCTATGTAGGTTCATTAGGGCCTTTAAAGGGGGAAGAAGGTG
GTGGCTATAAATGTTACAATCTTACCTTTGGCCCCTAGGGATTCTGTCTTTCAACCTTGGTTCAGTAACAACTTGTGACTGCCCAACAGGGCTTCCTTTC
GGGAGAGAATGGCTTGTTACATTCAAATATGCCATGAAAGTATCACCATTTATTTCAGTGTCTGATGCCCCAGCTTGGGCAGCCTGAGCAGGCTCTGAAT
GGGTCTGAAGAGGCCCTTTAGAGTAGAGATGAAGAGGGGGTGGGGAATCCTCAATTCTAAACAAAGAGTCTGCAATGGGAAGATGGCCAAATGCTGTTTT
TGGAGTGGGTGAGAGGGAAAAGAAAGGTATAGATGGTTCGTTGGAAAATGTGGTTTTATACCGGGTTTTGGTGTCAGGTCCCCGAGGGCAACATGGACTC
CACACTGTGATCCTCCGGGCAGCTCATAGCCCCAGCCCCTTCCTTTTGCTTCCTGGTCAGTTTGTGAGAAGGAGGGGTTGTGTCTCCAATCTGAGCAATA
AGGGGTCTGAGGGGGGTTGGATCCATGTGGCTTTCCTGTGTCTTGTTCCTTGTAAAAGTTCCAGGTTTTGGGTCGTGAGCTGTGTGTGTGTGTGTGCGTG
TGTGTGCGCTGTACGTTAATATGGAGAGATGGGCTTGGGCCAGTGGGAAATAGAGAGACCCGCAAGCACAGAGTGACAGGGTTTGATAGTAAGCAGCAGG
CCAGCGTTGCTGCTTTTATTCCTCGGTAAATCCTTGCACAATGCCATATGCTCTTGCATTCCGTAGCTGCTGCATAGGGTGTGATTTAGTTAATGCCCGC
TCTGCAAACAGGAAACGGTGCTCACTGCTGTGTATGCTTTTCATGGAGATAAAGTGTCAGGAGCAAGACCCCAAACCTGCRAAATCACTAATGCAACCRC
CCCCCATGCCCCAAAAGGTGGGAGTGGGGGATAAAAAGAGTAGGAAAGTGGTGTGGGGAGGGGAAGCTTTAGGGCCATAACTCAGACAATTTGTCAGGCA
GTGGCATCGGTTGGGAGGAAAATATTGATGTACACTTTTTGTTTTTGAACCTGAAGTTTGGGTTTTTTCGGATGCATTGGAGGACTTTTAAATGTTTTCG
GAGTGCCAGAGTTTGGACTGTTAGGTCACCGTAGGTACCGGCTTGCATATCATTTCAGAGGAATATTTTCAAAACTCCATAAAAACATGCGGCTTTCAAG
GCTGGACCACTTGTTCAGGTCCTCCTCCCACCCCCCACCCTTTTTGGCAAAACCATGCAAACATTGGTATTCAAAAATATTTTGTTACTTTTCTTGGCAA
AGTGTTCCAAGAAGGAATTGCAACACAGTCTCAGAGTTAGGAGGCAACTTTCTGGGGAAAAGGCGGGGGTTGGGGAGGTTTGGAGTTTGAATCAAAAACA
GACACCGAAGCTTTAATAAAATAAATGAAGCGGAGCCCTTTCAGCTCACGGTGGACTGTGTTGGTGCGCGGGTCAGGCTTTAACGTGCCTAGTGGAAATT
GACAGTCTGAGAACTGGGACATAAACAAAAATGTCAGTCCCTGGGAGTCTTGTTCACTGGACAATGTCTCAATTGTTCCTTTGGTTTTCAAGGCAGCAGG
GAGAGTGGAATATTAACTGTTTACTGCCCAAAGCTGGCTCGGAAATTGCTTGGAGAAGGGGAGAAAAAAGACAGAAAATCACATTTTTTATTTAGAAACT
ATTAAACATGTCAGTAAGAGATAGGAAAAGAGCAGATTGTTTTCTCCTTAATTATCTGCCATTCACTTCCATATTTCTGCATACCATTTTTGGGGTGTGT
GTGTGTGAAGGAACAGCAGGGTGTTTCTTTTTAAATTTGAATGTTAGCCTTGCATATTGTCAGTTTTTAAAGCTTGCTGGCATGTAGATTATCCGCCCCC
GGTGGATATGACAGTGGGCTTTAGGAAAGGAAGTGTGATTTCTGATAACATTTACATCTTAGCTGTTCAGCGGATACCCTGTTAGTGTTTGTTCTTCAGA
ATGCTCAGATAGAACAAAAATCAAGTGGTTGGAATTTTAAAAAACAAAATGTATTTGGCTCTCCATAAAAATGCATTTAGTGATAAAGGGGGGCAGCAAG
TAACTATGTCTGAGAGAAGGAATTGCAGGCACAGAGGAGATCCAGAATTCTGTTCACACTTGAATTTACTTGATTCGAGAAACAAACAGCAAAGCCTGGT
GTATTGGCCTTTATCTGGGCAAAGTTCAAAACTCAACTGGTAATTATGTCCTTAGAAGCCTTAAAAGGACTGTGTTGTTACAAAAGCAGTGACTGAGCTT
ACTTCTTCAGGACCGAATGCACTCGAGTTGTTTGTTAGATAAACTTGTTTTAATAAATGGGGGGGTCAGGGGAGAGGTTTCTGTTCTTGGAAGATTCCCT
GATAAGTAGCTTTCTTCTCTTGGAGAACTTCAGGCTTTCTCTCCAAGCGAGGGGTTTGCAGGCAGCTAAAGTCAGCTTCGGCTTCTGCTTCCTGTCAGTC
AGGAAGTCACTTCCTTAACCCAAATTACAAGCTAGAGCACAACTCCCCAGCCATACCGAAAAGAGCAGGTTTTTCCCAGAAGACTGTGTTTCTAGATGCG
GAAGTGTAAATTGGTACGCTGTGTGATCATGGAATGCCCAAAATACATAGGGAACAGTGTTGTTGGAAAGAGGCGCTGTGTCCCCAAGGAGAAGACGCCG
CCCAGAATGGCTGGATCGCCTGTTGTGGCTGAGTGCGAGGCAGCTGTGGCTGGCTGCTGTGTGACGATGACCTAGTAGCCACCCATGTGGAGTCCTGGCT
GCCTCAGAACCCTATCACATCTAGGCAAAATCTTGCATTTTTTATCTGGGAGGCCTGAGGACTTCAGGGCTGGTGGATAGTAAGCTCCTTGGTTATCTCA
CAGATACAAGAGGTCTTGGGAATCCACGATCAAACTTGATGTGTGCGTTTACCCTCCTCCCTTTGAATCTGTTATTCAAATATTTAAGCCTCCAACCTTG
TGGCCCCTACCTGCACCACCCCTCACCCCCCCGACAAAAATCAAGCTCTTGACCTCATGGCTTCTTTCAGTGACCCTTGGGGGACAGAGTTTCCCAAGGC
TGGTTGCCAGCTGGCATGGTCCCCCGTTGGTGAAGTGGAGACCTGTGTTTTTTTGGTCATTTTGCAAAGAGCTTATGGATGACAGCAGTTCTCTGTGCCT
CGCTGGGACAGAGTGTATTCTGAGGTCCAGCGTCTGCATGGAGATCTGCCTATCCTTCACTTGGGGTGCTCAGTAGATAACGCGGCCACTTTCCTATACA
TTTCCTTAATTTAAGGGAACAGCGTAAACTCAGCCCAGGTGGATTAATCTCTCCAGTGACTTTTGAAACTTCAATYTCCAATTTCCCTCTTATGTCTAGG
TGTGAGTGAGGATACGTGTAGTAATTGTCGCAGGTATTAGTGAGAAAGGGTGCAGATCACACAAATATTTCACACGTTATTAGTTGGACCAGACTTTGGA
GGCAAGGGAGGGCCGTGTCACCTAGGAAATTTGCTCTTCCGTGGAGATGAAAGGGCAGTGAATTAAGTGCCTGCTTTTTCTCCCTTTTTCCCTCTGACGG
TTATTGATCCTCCCCTGGAACTGTACAGTTCACGTTCTGATCTTTTTCTTGACAAAGGGAATTCCCAGTTTGTTCGCTGGTGAACGCACTAGCAGGTGAG
GAGTTAAAAGTTGGCAACGCCTGCCCTCTCGAGAGTGTCAGGATTTTTAGTCTCTTCCTTGAGAGCTAGAAGATGTTTCTAAAAGAATCTCTTTGGTGAC
TTAGAAGTGGAGAGAGCTTTAGAAGCATGGCACAAATAAAAGGAAAGAGGCAAACACCGTCATTCTACATCTGTTTATTTTGTTATTAACAAAAGGCAAG
GCGATTTTCATTAAAGTTTTGCTGGGGTTGGGGKTGAGGGTGTAGAGAGCAAAAGTGTGAGTTGTACACCATGACTGGAATCGCTTGGACATACTCTTCA
GCAGACATCGTGTGACTGTGGAAGAAATGAGTTTCATGAAGATGACTGATAGAAGGAAGCCACTGAACCAGTCCTYTATCACCTCTTCCAAGGCTAAAGT
TTGGAGCCACTTGCAGAAGGCTCTCCTCAAACCCCTGTGTTCTTTGCCTACCCCTGCTGTTGCCACATCATCTTGGAGAGCTGGCTGCTTCCCTCCTCAA
CTAGAAGTTCCTAGTGCCTGCTTAGTTCTTGTCTCTTGCTTCCCAAGTGCTCACAAAATACATCCATGTTCGCTACGAGGAAATGGACCACATAAGGTTT
CCGTGAAAACCTTAGCCCTTAGGTCTAACACAGTAGGAACAGAAGTTAATGTTTTCCTGACGTAGAAGTTTCTCTTGCTGCTTCTGGTCACATTTCTTTC
TTGTGTGGTTCTTCTATGGCTACTGCACTTTTTTTTTTTTCTTACTGTCTCCCCCTTCCCCCACACACCACCTTTTGGGGATAGGGTGGCAGGTGAGAAT
ATAAACAGATAATGGTTAAGAGATAGTTTAGTCTTTCTAGGCCAGATTATTTAGTTTTTGCCATCTAGGTAAAATTCGGTCCAATTAAGYGTCCATTAAG
TGTTTTAATATAAGCTGGAGAAGGAGTTGAACCTGGAGGTCAGGGCTCTGTGGTCTATTACAGTCCCCCTGGGGTCTCTAGCCCAAGGGAGACTCCAGGG
TCTTAATAAATGACTGGGGGTTTCATTTTGAGGCCTTTACTACCAAAGACTGAATAATACATTGGGCATGATGGTTTTGTCCTAAACATTAACAGCCACA
AAAGGTAGAGAGTGTGTCTGTTTAYAGATACACATGTATCATGAATAATTAGTTGGGGACTSTGCRTCAGGTCTCTCATTTTACATTCGAGGAAGCAATG
CACGGAATGAATTCTGGACCTGCGAACTCTGAATTTCAATTCTCTGTCTCCTACTTTTACTGGAGTGCTTGCAAACAGTACAGTGTTTTTGTTGTGAAGT
TATACCGTGCCTGTAATCTCTCTGCGGGTGGCCCTCCTAAGCCCTACTTCAAGAAATAGCTCTAAGCTCATGACACCCGCCCCACCCGATGCCTACATAT
GTCTTATATCCTTGGAGTAGTGTTTGGGGTTGCAAATTTGACTTTAGGGAGACATACTCTCTGATGATAGGCTAATGCTTATATTTACTGATAAACTTCC
TTTTTGACGGTCATGGGCTTCGGGGGCCACCCAACCAAACTGTGTGGCTGCTTTTATGTTGGGCCAAAAGACAGGCTCCTTGTGTCCTCCCAGTTTCTTA
AACAATGAAGTCATGGCATTTTACAGTGCTGGTGAATGGATTGAGATTGTGGTGGCCCTGGAATGTGGCACTGCTCTGGCTGGAGGGAAGATGAGAGTGA
GGGATGGAGAGGAGAGGAGAGCGGGAGATGGGAACCTGGTGGACACAGGAGGGAGTGTGAGTTCTGAGGGCCAAAGGAAACTTGACACCGGATGGGACAT
TAATCTGATTCTGTTATCTGAGGCTGTCACCAGTCCTCCCTGTCCTCCTGGCGTGCTTCTGTTGAAACCCCCACACCCGGGTGATTCCTTGCCTCTCCCA
AGGAGCCGGAGGGTGGAGAAAGCAACAAGAAAAAGGAGCCAAGAAAAGAGCAATGAAAGAGTTCTTTAGGAAAAGGGGAAGGTCCCGAGAGATCTGGTAA
ATGTTAAACTGAAGGGCCAGGCATGAGGAAGAGTAGGCAGTAGGAGAAGAGTGTATGTGTGTGTGCACATGGATGTGGCGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTTTCGTTGGATGGATGGATGATGTGTCGTCATCCAAGCAGATTCAAGGAGGTTCCTAAAAGGCAGTGAGGTTCCTGAAATAGACAAGTCT
AGGGAACTCCTGCGAGGAAGGGGAGGCGTTTATTGGTATTTGGAGAGATTGTTAAGAGCTTGCTGGAGTCAGGTGGAGTCCCTGCCATTTTGCCTCTCAT
CTCCTGAAGAAGGACTGTTTCTTTTGGGATATGTAACAGGCTTCCAATCAGGCATCACAATTTTCTTGCTTGAGGTGTTTATTCTTTCACTCAAGCTAGC
CGGAAGGAGCCTAATACCTGTCAGGAACTGCCTCCTCTGGGAGAGGGAGGGGCCAGGCCCAAATGGTGGCTGCAGAGGTATTTACCAGCTGGTTCCGTGC
TCTGCAGAAGGTTGGTGAACATGTAAATGCGGGTAGTAGGCTCACATCTGCTTCTGTTTTTCCTTTTTCTGTAGGCCAGGCTGAAAGCTTAATAAATTGT
ACGAAACCCAAGTAAGCATGGATGTTAAAGAACATTAAATAAATTATATAAGKATGCCTACCTGTAACACTTTTATAAGGCAAATGCACATGGGTTATTT
TGCCATAAACGTGCACATGGACCAAGATTTATTCTAAAGCCCTCTTGTTTCAGCCTTGCTGCTGGTGAAGGTACTACTGTTCATCAGCTTTTCCCTTTTT
TACCTGGCATGCACTGTAGCTGGTCTTGGAAAATGCGATAATGATGCCATAAGTACCCTTGTGCAAAAGTTGTTTTTTGTTCCAAAACATTGCCAGTTCA
CRGCATATAAAACTACCACGGATGCTTCAGCCGGGTTTCTTTTTCTCCAAATAAGGCAAGCATTAATGAAGCAGCTGAGGGCTTGGGAAAATATTTTGTC
ATTCCCAAAATGAAATTTCTTCCCCTCTCTAGGCCTGCCCATTGATTTTTCAGCTGAAGCACAAGTGTCTAGCCAGACTTGGTGAACAGTAGGCCTTGCA
CCTAAACTTGTCAATTGCCATTGTCACCTCTAATGACCATTGATATAAATAATGCTCAGCCTTCATATTTCCATGCATATTCACCCAGAGACCAGAAGGC
TTTGTGTAGAGGATGGTGGGATCATCCCATTCCATAGGGAAAAAAGGGCCAGGTTCCCTGACTCCACCTGTCATTGAATTACAAGCTGGGAAGCTGGGCC
AGGCAGAGCTCCAGTTGCCAGACACTGTGGCCGCTCTGGTACCAGCTACTCCTAGTACCCAGTGCAGGCAAGGTGTTTAGTGTGGCCTATGAGGATGTTG
TTTAYCAGGCAGCAACCTCATGAATAGGCAAAAGGCCTGTTTTGAATGCCTCCTGTTTAGAAGTCTGAAATGTCACATCCAGACAGTTTGGAAACATTTT
AGGTGGAGTCAAGGGCAGAGACCAGAAGACATTCATAGATCTGCAGTTGCAGATGGAGACTTTGTTCCAGCTACCCATGGTGTGAGTATACCTTACGGGT
GCTATTTGGAATAGGACCTTATTTTTGTTCAGTATATTGGACAAAGTAATTCCTGCTTCCAAACTCACACAGTATTTATGTGGCCCCGGCTGTCTGGCTT
ATCCACCTGCAGCTGTGGAATTACTTATGAAGCGCTTAATATGCAGCCTCGGTTTCTTTATCTGTTAAGAATCGGGATAACTGGGGCTTCTGAAGGGGTA
GGGTCATGTAGCCTGGTGGTTAGGACCTCTGGCTTTAGAGATGGACAGGTTTTGGTTTGGGCTCTGGCTCAGCTGCCTCCTTGCTTTATCAGCTTGAGAA
GTTAATAATCTCCAAGTTTCCTTATCTGTAAAGTAAGGAAAATAATAACTACCTCCCTCATAGGTTGTAGTTAGGAAAAAGATGTTGTGAGGCTCAGGTG
GTCTGAGGGATATAGAATTGCTTCTCAAACATGATATGTTGCTTTGCCCAATGCTTAGGAGGGAGTTGCGGTTAATAGTTGAAGTGTTCTGCAAGTAAGT
CTTTTGGATCAGTATAAGGCTGTGATAATTCTTATTATTTGGTTTGTGTCCGTGCATGAAAGCAGAAAGCAGCCAGAGGAGTCCATGATTCAAGGAGCAT
GAGAATTACTGTTTGCAACACCATGTTTTCTGAATTCCAGTATACCATCAGTTGTAAKATATGCTTAAGGTTGGACGCGGTGGCTCATGCCTGTAATCCC
AGCACTTTGGGAGGCCGAGGAGGGCGGATCACTTGAGATCAGGAGTACGAGACCAGCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAATAAAAAA
AATTTAGCTGGGCTTGGTGGTGCATGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGAAGGCAGAGGTTGCACTGAGC
TGAGATTGCGCCATTGCACTCTAGCTTGGGCAACAAGAGCAAAAGTCCGTCTCAAAAAAAAAAAAAAGTTATGCTTTTAATCTAAAAGCAAATTTTCAGG
GAGAAAAAGAGCACGGCTCTCTTAACTGTATCTACTTACCATATGCATCTGAATTTCAGATGCGTAAAAATGTAGAAACAATGCGAGTCTTCAAATGGAG
GAAATAATGCCTGTGTGCTTATATAATTTGAATAAAAGCTGTGCTGTTTGGAGCCCTAAACTTCAAATGGATGACATGTTAAAAGCTTCCAAACCCACTT
TTGATCAAAAATGGGTGGAACCTATGTGGACCAGATTTTTCAGCTGTGCTGAAAGAGTAACAGCAAACCAGAGTCATTGGGCGTGGTTGTGCCAACGATC
AGCTCTTAGAAGACCATACCAATCACATTTTACAGGATTCTATTCATGAAGATTCTGCATATCTGTTTCCATGTTGTTTCTGACCATTAAGGAGAGTTGC
CGGTATTGACAGATGAGGAGGCTGGGCTGCCCTGCAGCTTGCTTCTCCATAAGCACACCATCAAAAACATGTCCACATTCCAGTCTCACCTTAGCCCATC
TCCTCATTGGGAGGAGTTAGGCTGCAGCATGAATGGGAACAATGAATATGGAGGTTTCTTCAGAAGGCGATATTAGAGCATTTAATATACTGCTGTTCTT
GTGTATTCTATTGGAAAGAATGGGCAACTGCACATTAACCTTACTGTAAGTGTGATGCATTTGAACATACAGTTAAGAATAGCTCAAAGAATATGCATTT
CTGCTGTGAGTGGTTTTGAATAAATCAACATAATAGCCCATGGTTATTAACATATTATGTGAATTGGACAATGATATATACTTTGAGGACCTTGAACTAA
ATCCACCAGCTAAGAGCAACCCGTAGGAGGGGCTCCAGAAGGACCGGAGTTCTGGGTGTTGAGGTTGTCATACAAAGAAATGAACAGCAGACAACTGGCA
GAAGAATTTTCTGGTAATACTCAACCCAAAGTCAATTTTCAAATGCTTGGACTGCAGCACAGAATTGACTAATGTCAGATTAATTGAATTTGGACTTCTA
AATGTGGGTCAGTTTGGGTTGGAAGTGATTTTATTATCCAGAAACTTCTGTGTACCCCTCTTCCCCCACAAGAAATATTCAGCCATAATTTTCCCCTGTT
GCTGAGCTTCTCTTGCAAAGTTTCTGAGAAGCAGTGAATCTTTCTGTTAGATTTCATAAGAAGTAGTGCTAGGCTTTTGATATAATTACGTTTAGATTTC
AAGGAAACTTTCAGTGTGTTGAAAAATAAATTCTAAGGCATAAAGGGGAAGGAGTCCTCGGCTGAGACCCAGACAGCCCGAGTCCTTAGCCCAGTTAGAA
ACTTGCCATGTGACCTTGAGCAAGTCTTGGCATGCTCTGCCTCATGGTTGAACATTTTTTTTTTTTAAGTGGGGAGGGTTATATATGACCTTCTTTTTGT
CCCTTTAGCTCGGACACTTAGAGGTTTAGTGATCTGTGGGTTTTGTTTGTTTGTTTTTGTTTGTTTGTATTTTTGGTGGGAGGGGGCTAGAGTACAAAAT
GGAAAAGAAGATAAGTAGACAGGGGCTCATAATCTTTGAGAACCAGGATTTTCCTTAAATTGCTCTCTTTTGAATCTCCTGGTACCCTTTAAAAAACCTC
TTTACCTGGGTGCGAGTCTTCTTCCGTGACACTTAATATAACTTTATGGACCTCAGTTAGACTCTGATGTCCTTTTCAAAACAGTGTTGTTTTTTAAAGT
ATGAAGTGCTTATTAAACCCGCTTAGGAGATGCAGTCCTAGGAGGCCATTGATCACACGTGAAAACACTCTAGATATAACTCTCCTTTCAAAAAAGTGGC
TAATGAAGTATATACCACCTTCCTATTTTGAATAAAGTGCTATGACTGGACAAAATAGAACAACTTTTTGGACAAAAAGGCTGCTGGAGCCGCTGCCGTC
TCTATTCTTGCACTGCTTGCTGTTGACAGCCCATGTGTGAGGACACTTTGTTAGTGACATTTAGCCAGTGATTGGCCCATCCAAAAGGCGGTTACCCAGA
AGCCCTCGTGAGCAAGCCAGGATGCTGGGAGAGGGATGGGAGGTGGCCTTTTGGAAACAAGGGGACATGGCTGGGTTCTTGTAAGTCATGTGGAGAGTAT
GATACACCTCTACCCTGCCATGCCATGGCAGCTGGGCCTCGCAGAGATGGACACCAGAATTCACAGCACCAGAGTTCAAACACTAAACACGGGCAGCTGG
ACATTGGCCTTGGGAGGCCCAGACGTGGAGCACTGTCCTGGACCTCAGGCTGTTTCAGGGACCTCTGTGGCAGGAATTGACTACCCTTCTCTTTCAGGCT
CAGCCATGATGTGCTTGGCTGTTCCCTTGGGCTCTCTCTTCTGGAAGCTCGTCCCGTCCGCAGGCCCCCTTGCTGTACTTGTACCTTCATTCTCCATCTC
TCAGCTTCTGCGCACTCTGAACTTTGGCCATTCGCATGCTGCCAGACCCCTTCCAACTCTTGGACTCCTCCTTACATCCCTTTACCGTTGGCTCCCAATT
CTTTTTTTTTTTTTAATTTCCCAATTAAAACAACAACCACCACCAAGAACAAGAGTTAGGCCCTGCCTACCCTTCTTTGGATGGGGTGTTTGTGCCAAGT
AGCATCACCAACTGCTGTTCATCCTTGACATGGGTGTCCTGGGGTCAGGTGTTTCCTCTGGCCCAGTTAGCAGGGAGGAATGTCATATGGTTTAGAAAGG
AGGGCCCAGGGCTGGCCGTCTCTTGGAGGGGCCCGGGATGGGGTACGCCCCCTTGGAAGGGGATGGTGGTTGCGGTGGGCGCTGTAAATGTTGTGTCCAG
CTCAGAGGGTGCAACAGTGTCTGTAACTCATATTCTTTTTTTTTTTTTTTAGACAGAGTCTCGCTCCTACACCCAGGCTGGAGTGCCGTGGTGCAATCTC
AGCTCACTGCAACCTAACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGTGCTCAACCACCACGCCTGGCTAATT
TTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCGCCCACCTCTACCTCTCAAAGTGCTG
GGATTACAGGCGTGAGCTGCCGTGCCCAGCCAGTATCTATAACTGAAGGCTGTTTATTTCTGCTTGCCTAACCCGTCCAGGAGGATGTGCTGGGGCCATC
TGAACAACCATTGACATTCAGACATTATTTAGAAATGGAATTGGGAAGTGTTTAAAAGGCATAGACTAGTCTGGCCTTCTGCCCATTCAGAGACTGTGTA
TGTAGTCAGTGTACAGTGTATTCATTGAGGGCCCCTCGCTGGATGTTTCAGCCACTCCCTCACAGGTTCTCGTGTCTGCTTGGTACAGTTGAGATCTGCA
AGAGCTGATTCATCGGCCTGATTGAGATTCCTTTGTAAAACCAGATATTCAAGAATACTAGTGGCAAGAATGCTTTGGTGAGCGTAAGATAGCGGCTCCC
ACTGGATCACATGGCTGGTCGGTGTCAGGGAGATCACCGTGGGAGGTAGCAGGAGTCAGTCTTTAAAAAAATTATTGGGCCGGGCATGGTGGCTCACACC
TGTAATCTCAGYACTTTGGGAGGCCAAGGCGGGTGGATCATGAGGTCAGGAGATCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTATTAAAAA
TACAAAAATCAGCTGAGTGTGGTGGCAAGTGCCTGTAATCCCAKCTACTCGGGAGGCTGAGGCAGGAGAATCCCTTGAACCAGCGAGTCGGAGGTTGCAG
TGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGCGACAGAGTGAGACTCCGTCTTAAAAAAAAAAAAATTTATATATATATATAKATATAWGAATTAAT
TAATTTAATGTTGCATTAACGAGTGGTATAAGGTTCTTAGCCCTTTGTCTGGTATCTGCTGGGTGTTCAGTATTCATTTCCTCGCTTTCCCTGCATATTT
TGAGCTAATAAATGTTTGGGGACACCACTTTCCTGTAGAATCTCATGTAATCCCAAACAGATCCTAGCTGCTTGCTATGGCCCATCTGCGGGACCCRCGT
CAAGGCTTTCCCATAAAGGAGAGCCCTGCGGGAATCATCATGTGCCAGRCACTGTGCTAGGCTCTTTAGGTGCATCTTGAAACTTAATCCTCGTGACATT
TTGGAGTAGATACTATCATCCCCACAGAAGGTACTGAAGTCTCAAGCACATTAATAGCTTACCTAAATATTGCTAAGGGTCTTCCAGATGATCTTTAGGA
AATTTTCAGCCAGGGGAGAGTGAAAGCTCTATTTGCTATAGTTAAAGCAAGGAACCCTCCTTCTTAAAAAATTATACAGTTATTGAGATATAATTCACAT
ACCTTACAATTCATCCATTTAAAGCATGCAATTCAGTGGTTGTAGTAGATTCAGGAGTTGTGCGAGCATCGTCACAGTCAATTTTAGAACATTTTCATCA
CCTTCCACAAAACCCCCGTGTCTCCTAGTAGCCACTCCCCATTTTCCCTAAGTCCCACAGTCCTAGGCAACAACTAATATATTTTCTGCATCTATGGATT
TGCCTATTCTGGACATTTCATATAGATGAAATCATAGGCCCGTGGTCTTTTGTAACTGACTTCTTTCACTTAGCAAATGGAAGGGTTTTTGATGGAATCT
TAGCTCAGATGTCGCCCTAGGCTTGGCCTTCTGGAACTCACTGTTCTCTTGCTTCCTTCCACCCTGCCTCCCTACCCGCTTTGCTACAAGAAGACAGAAT
GTAGAAACCCCCAGTTGACTTTTTGAGTAGAAATGAGCCATGTTCTATTTAGTGGTAGAATGTTTGCTGGGTTAGCCCAGGACTTCAGATGGAGTGCTTC
CTCCTTTTTAATACCTTGTGACTGCTGTGTTGGCAAGCAGAGGGTTAAATGCTGCAGGAGGACATGGGAGAGTTTTTGCTTTGAGGGTCCACTGGAGCAA
GAGAAGCTTGAGAGTCTGTCTCTGAGATCYCAGAACAGACATGAAGATATGGTACCGATTCCCTTGGTGCTAAAAGGAACTCCAGGGGAATTTCAGGAAA
CCCCTCCTTTTCTCRTCTTTATTCTCACCCCGTCCCCCCGCCACCTCTCTCCCCAAGTTCACACTCAGGAGGGAGGAATCTTTTACCTTTTCCGTTCTGG
GCAGCAGCTGTAGGGAATGTTATCAGTGTTGGGACTGGGCACGGGACCAAGCCTTCCTGGTGCCTGGACTGCAACCWAGCTGAGAGCTGACATGGCAGGG
CRAGTTGTGTGTGAGTTGGCTGCCCCTAGGCTCATAGGCCTAGCACAATAGAGACCCTGTCAATGGAGGGACACTATCAGGCAGGTCACTATCAATGTGA
CAGACACTATCAGGCAGGTCACATTGGTGCAGATCCTTGGAGGACTCCCCCCCACCCCCCATGAGTGGATTCCTCCAGGTCAGGGGCTGGCTGGGACTGT
GGATGCTGGAGTAAGTGGAATTGTGGGTGCACTCTGCTTCAGCAGTACTCTCCAAGGAGAATGATTGTTTTAATAAATTACTGTTTTAATAAGGGAGGTG
GAAGAGCTTTTTAATCACTTGCTTTTTAAAAATTTTTAATTTTATTTTAATTAATTAATTAGTTTATTTATTTTTTGAGACGGAGTCTTGCTCTGTCGCC
CAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCTCTGCCTCCTGGATTCACACCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAG
GCACCCGCCACCACGCCCGACTAATTTTTTGTATTTTTAGCAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTGTAGATCTCCTGACCTTGTGATCCT
CCCGCCTCAGCCTTCCAAAGGGAGGGATTACTGGCGTGAGTCACCGCGCCTGGCCTTTATTTTTTATTTCTTTTGAGATGGAGTTTTGCTCTGTCACSCA
GGCTGGAGTACGGTGGTGGGATCTCGCCTCACTGCAACTTGCGCCTCCCGGGTTCAAGCGATTCTCCAGCCTCAGCCTCCTGAGTAGCTGGGATTACAGG
CGTGTGCCACCGCCTCCAGCTAATTTTTGTATTTTTAGTAGAGACCGGGCTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGAGCGT
CCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTACACCCAGCCAATCAGTTGCTTTTAAACTACTTAAATAAAAAGAGCCAACCCAA
AATCTTGTGCATGCTTGGGAAACTGGCAGTGGAATATGAGAAGTTTTTATTTGTGGTGCACACAGGTGACTCGGGCTGTTGTGTATTGGTTCTTGCCTCG
ATCTGTAGCAAGCAATCTGTTGTTTCTTGCCTGCCTTTTGGGAAGAAATGAAAAAAGAAGCAGCACGAGTCTCCATACATCATGATTGTGATGGCACTGG
GCCTGAGACCTTTTCTGCTGTCCAGGTAAAAATGTGAAGACCATGGTTTTGAGGTTTCTTAATAAATTCAGGTGTTAAGTGCCAAGTGATGCTCCCAGCC
CCTGAGCTAGAGCAACTATGCTGTTCATGTCCCCAGGAATGGAAGTGGACCCTAGTTAGGTGCTGGTGGCCAGCCATGTGTACCTAGGGCAGGGCCAGGT
CGTGTGTGTGTGTGTGTGTGTGTGTGAGAGAGAGAGAGAGAGAGAGAGACAGAGAGAGAGATAGAGAGAAACATAAAGGTGATCGGCACTCAGACATCCT
GTGTGGTCCACCTCACTTCTCAAGCAGGTGTCTTTCCAGTCTACAACTCGTTGACCACAGGTGGAATTCATAAGCTCTGTTCCCTGTCCTGCTTGGGTCC
TCCAGRGAAAGAAATGTTGAATTATCATCTTGGTGATGGTCAACTCTGAAAGCCTAAATTTTCATGATCACCAAAGTGTTTGGATTTAAAAGGGTGGCTC
ACTCCGTAATTCCGGCACTTTGGGAGGCTGAGGCAGAAGGATCACTTGAGCCCAGAAGTTTCAGACTAGGCTGGGCAACAAAGCAAGACCCGGTCTCTAC
CAAAAAAAAAAAAAAAAAAAAAAAAAAAAATCAAAAAAATTAGCTGGGGGTGGTGGTGTGCTCCTATAGCTCCAGCTACTCAGGAGGCTGAGGCGGGAGG
ATCGCTTGAGCCCAGGGGTTTGCGGCTGCAGTGAGCTGTGATTGCACCACTGCACTCCAGCCTGGGCGACTGTGAGACCCCGTCTTTAAGAAAAAAAAAA
AAACAAAGGTCACAAGACATTCTTGGCTCCGCCCTGCAGAGCTGCTTCCCGATCTCCTTTTTTATTTGCTTCCCAACCTGCGGGCCTCAGTGTGACTCAC
CACACCGGACTGCCTGGCCCTGCTGCCTGCCGCCCATCCTTGCGGCCTGGACGACTCCATGTGCGAGTTGCTGGCGCAGCGTCCAGAAAACAGACCACAC
CCCAGGAATGATGATACGTTATAGCATTTCTCTGCTCTGTAAGAGAGGCACCAGGGTCGTGTGCTGGGTCTGGGGTTTGTCCATTCCACATCCGGTGCTG
CTGTTGACTCTGGTGTCGGCCGCTGGTGAGCTGGCTGTAGCTGGTCACCTCTGGGTGGTTTCTGGGGCGGTCGCAGGCTGACTAACAYACCAAAGGTCAG
CCAGGGTGTTGAAGCTGGCACCTTTCTTCCTGGAGCACAGACGTCATCTTGGATCTTTTAGATACTTGGACTTACTTTATGCAGAACATTCTGGATTTGT
GAATTAGATGGACTCTTTATTATTTTGTATTTGGATTATTTCTTTAAAGAGATCAGAGATAAAAATATCATTGTTTTGCCAGTTTGCTACCACCAGCCCA
CACCCCTCTTCCCGTTGTCCAAAAAGGGGGTGGTTAGAGTTTTCTTGAGTGACTGGGCTATTATGATTAGCAGATTACTAAAGCTGTGTGATTTTAACAA
GACGTAAACACATATGGGAACCCCTCCTTCCATATCTTGCTAATGTCAATTARCAACATATTAATCTTGCTAATGTCAATCCTGTCACTTCATACATTTA
TAAATATTAGGGACATTTAAAAGAGTTGTCGGACTGTGCGGGACCTTGGCACACTGCTGACGGCTGCACACTCATCACTGCGGGGCTCATCACACATTGA
CACCAGCACCATATTTTGCTGGGTTTCCTGATCTCGGTTGAGTATTTGGATTTGAATGGGATGGTTTTAATGTTGCTACTGACTACTACAGTGATCCAAA
TAAACTTTAAAGCTGGGGCCTCCACGCCAYAGGCARATTTTCATACCAGTTGCCTTTACCTCAGTAGTTTTCAGCTGGGGCAATTTTGTTCCCCAGGAGA
CATCTGGATACAGTGTTGGTTGTAACAGCTGGGCAGGGGGTACTTCTGTCATCATCTCATGGGCACAGGCCAGGGATGCTGCTAGGGCAACCCCTCACCC
TCCCAAAGAATTATCAAAAACATCAACAGTGCCAAAGCTGAGAAGCTCAGCTTTAATGTGTTCATTGAGCAACTAAAGAATAGACTCAGATATAGGAAAG
TATTTATTTATTTATTTATTTAGAGACAGGGTCTGGCTCTGTTGTCCAGATCATAACTMACTGTAACCTTGATCTCCTGGGCTGAAGCAATCTTCTCACC
TTAGTCTCCCAAAGCATGCTGGGATTACAGGTATAAGCCACAGTGCCCAGCCTGAAAAGAATACTTTAAATGGGCGGGGTAATGGTGGCTTATGCCTGTA
ATCCCAGCACTTTGGGAGGCAGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTATCTCTACTAAAAATA
CAAAAATTAGCCGGGAGTGGTGATGGGCACCTGTAATCCGAGCTCTCCTGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGTTTACAGTG
AGCTGAGATCGTGCCATTGCACTCCAGCCTGGGCGACAAGAGCGAAACTCTGTGTCCAAAAAAAAAAGAAAAGAAAAAAGAAAAAAAGAGTATCTTTAAA
TGAATGGCAACCCAATTTGCAAATGTATTTTTTTTAATGTTGCCAATTACTTTATGTGTTTAAAAAATATCTTTCTGGTTTACTAGGGTATTCTTCAAAA
AAAGAGAAAAGATTAAAGCTGCACAGACATGATGATGTAAAAGCTAGTAGCTTCTCAAGCTGTGAAAGGTCTGTGGTGCAGAGAATAGCTCCCTRTGAGC
TGAATTTTGTTTGCTGTGGTGCAGCATGGGTTTAGATCCTACCTGGTTAGTGAAAGAGATAATGTGAAGTCATTGCATTTGCATTTGTCAAAATCCTAGT
TTTCCACTTACCTAATAGTTTTTTGTTTGTTTGTTTGTTTCATTTTGTTTTTAAAGACAGGATCTTACAGCCGGGGCCTGTAATCCTAGCACTCTGGGAG
GCTGAGGCGAGTTGATCACCTGAGGTCAGRAGTTCGAGACACACCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGT
GGTGGCACRTGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCACTTAAACCCAGGAGGCGAAGGTTGTAGTGAGCCGAAATCACGCCACT
GCACTCCAGCGTAGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGACAGGATCTTGCTCTGTCACCCAGGCTGGGATATACTGRC
TTGATCATAGCTCACTGCAACCTTTAGCTCCTRGACTCAAGCAATCCTCCAGCATCAGCCTCCTGAGCAGCTGGGACTATAGGTGTGAATTACCATGCCT
GGCTAACTTTTTTATTTTTTGTAGAGACAGGGTCTTACCCTATTGCCTAGGCTGGTTTCGAACTCCTGGCCTCAAGTGATCCTTTTGCCTTTGCCTCCCA
AAGTGCTGGGATTACATGCGTGAAACACCACACCTGAACTAGTCTTTTTGTTGTTGTTGTTAAAGTGAGAGACCCAGACCAAAATCATCTTTCTTCTCCC
AAAATGCTAATTATTATTTGTTTTAAGTTATAGCTCCAGATTACCTTGTAGGATTATTCACATTTTCTTTCTAAATGCTGTTCTTGAAAGGAACCATCTA
TTGACAGTACATCAGAAATTCTATGGTTCCTTTATGACATTTCTGGGGAAGTAAATGAAAGGTGTAAATTAAGAAAAGCAAGTGTTTGCGGTTCCCACTT
TAACCTTGTGTTATGTTAAGTGGCTTTGTTGAAGAGGGCTGTCACTGTTCTTGAAAACTTGGGAAAATCCATAGCAAGCTGTGCCATTAGTTGCCTTTGG
GAGCACAGGATGTTTGATGTGAAAATTATATGGACACATCTAATTGGGTGTATTTTCACCCCACCAGATATCAAGTAAAGAGGTGACTCTTCCCCCTCCC
CTGCATTTTTAGCTAAATTGTTTAACCTGAATTTCATGCTATTAAGAATTACATTTCAGTAATCCACCTGCCATTTTTCAATGCCTTTTGTTTAGTAGCA
TGTCTGTATGATCCACCTACAGAACATTTCTAGACATCTGGCAAGAGCTAGTTATCATCCCTTCCTGATTTGGGGTGCTAAGACCTGTGGTCCCCTTCTT
CCACCGTAATTTACATTYTTCCCTGAGTCCTGCAGGAACTCAGCCAGGCAGTGGAAAGAAAACAGAAGCTCTGTGGACCTCTGCTTACTGTAAAATGGGA
ATAATAATTCTTATCCTGCCTGTTTCCCAGAGTTGTATATTCTTTTCCAATAAAATGTACTCAAAATTAAAATACAAAGCAGTTACACAGAGATAAGATA
GTGGTAATTATGCCAATTTAAACTCCAGAATTAAAAAATAAGTTTAGTCACATACCATGCAGTTCACCCATTTAAAGTATATAATTCAGTGGTTTTTTGT
ATATTTGCAGAACTATGCAACCAATATCGCCATTGTAGAACATTTTCCTCACCCCCTAAAAGAAACTGTACCCATTAGCTCTCACTCCCCATTTCCCCCA
CTCTGCCTTCTCCCCCATGCCCAAGGCAACTGTCAATCTACTTTCTGTTTCTATGGATTTGCCTGTTCTGGCATTAGATATATACATGAAGTCATAAAAT
TTGTGGTCCTTTGTGACTGCTTCTTTCGCTTAACTTAAATGTTTTCAAGGTTCGTCCATGTTGCTGCATGTATCAGGACATAATTTCTTTCTTTTTCTTT
TCTTCTTTTTTTTTTTTTTTTGAGATAGAGTCTTGCTGTGTCGCCCAGGCTGGAGTGCAGTGGCATATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTT
CAGGCGATTCACCTGCCTYGGCCTCCTGTGTAGCAGGCCCATGCCACCACGCCTGGCTTGCTTATTTATTTATTTATTTATTTATTTATTTATTTATTTA
TTTATWGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCTAGGCTGGTGTAGAACTCCTGACCTCAAGTGATCTGCCCTCCTTGGCCTCCCAAAGTG
CTGGGATTACAGGCATGAGCCACTGTGCCTGGCCAGGACTTTATTCCTTTTATGGCTGAATAATATTTCATTATATGGATATCCCATATTTTGTTGACCC
ATTCATCAGTTGATGGCAAGCTTCAGAATTAAAAAAAAAAAATTAAGCTAGTTCATATTTGCTTTAATTTTCCAAATGATCCCTTTCCTTTTATTGCAAG
TTAAGTGTTCCTATGGTAATGACTGTTATGGGGCAAAGATGATCAAGTCTATGAGCGGTCCACACAGTTCAACAAATATGTACCTCAGCACACTACCTGG
AACCAGACATTGGGTAAAGATAACTTTAGAATTCATGGTCCCCCTGAGACACTAAAGACTTTTTAATGAATGCAATTAGTAACTTTCTACTTACTGTTAC
TCTTTTTATTTTATTTTTTGAGCAGGATCTCACTGTGTTGCCCAGGCTGAAGTGCAATGGCCCAATCACAGCTCACTGCGGCCTTGACCTCCTGGGATCA
AGTGATGGCTGAGACTACAGTCATGTGCCACCACATCCAGCTCTTTAAAAAATTTTTTTTGCAGAGATGGGGTCTCACTATAGGCTGGTCTTGAATTCCT
GGCCTCAAGGGATCTTCCTCCCTCAGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACCACACACACCCAGTTTGTTGCTCTTTCTGTAGGTTGGCT
AAGGATTAAGATGTTATCTCCGGTGGCTGAAACATGCCTCTGATAGGTGCTATCTCCCTTGTCTTCATTTTCACGCTGGTGGTAATCCTGGAAGCCGCAG
GGATCAGTCAGATGGCAACAGCAGATTCTTTTTTTGTTTTTTTTTTTTCTGAGATGGAATTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATTT
CATCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACAATGCCTGGCTAAT
TTTTGTATTTTTAATAGAGACGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTTAAGTGATCCACCCATCCTGGCCTCCCAAAGTGC
TGGGATTACAGGYGTGAGCCAGTGCGCTGGGCCAGCCACAGCAGATTCTGACAGGTGATGCCCTTGCCAGCCTGGGGAGCCTTTTGGTTTTGGGTTTGGT
TTTTAAATTTGTTACTGTTTTGGTGGTTGTTTTTACCTGTTGTAAATATTAAGAAGCCTAGGCATGATGATGCTCTGAAGACAGGAAAATTTGTTTTGTC
CCGATTTGCCACACGGACTCCTGCCTGCATCTGCGTTGATGTGGCCACACGGAGAGCTGCTCTGCTCAGGAGATCCAGCCCGGGCCAGCAGCTTTATAAT
CAGTTCTGATCGCCACCCTGCAGGGCTGTTTTTGGCATTTTAATGTCCCTTAAGTACTTTCAGAAGAAAGTTTTCAAGGAAAACCTGAATTTTTTCTTTA
TTGGCTGCACATGTTAGACATATGAAGATGTGTTTCACTTTACAAAGTGGGGGGAACCCTCAACAATCTTTAAGAGATCCCTAAAAACTGAGGGTTGTTT
CAGAACCATCTAAATCCAAGAACGTTGGACCTGTTATACTTATTCTGGCAGATGGACCCATCCCTTTTTTTTTCTGAGACAGAGTCTCGCTCCATCGCCC
AGGCTGGAGTGCAATGGTGTAATCTCGGCTCACTGCAACCTCTGCCTCTCGGGTACAAGCGATTTTCGTGCCTCAGTTACCCAAGTAGCTGGGATTACAG
GTGTGTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAAATCCTGACCTCAGGTGAACC
ACCCCCCTCCGCCTCCCAAAGTGCTGGGATTACAAGTGTGAGCACTGTGCCTGATCGCCATCCTTTTATTGGTGAGAAGAAAAGGGAGCAAGATGAGGTT
GACCCCTGCATCTTATGTGTGTACTGTCTCTGCCTCTGTACACACACACATGCACCACAGACACACCACACACACACAGCCCACATACACAGCCCACATA
CATGCACACACAATTTAGGGTTTTCCCCCTTCTCACAAAAATCCTCTTTAACGTGATTTTTACTAATAAAGTTATAAATGTCTGGGGTTAGAAGACAGCC
AAAGTTTTGGGTGGCGCAAGAGATAATTCATCCCAGACTCCACACCCCTTATGCCATGAAAACTTCACCTCTCCGTTTCAAGCTGAGAAACCCCACATAC
ACTGCAGATACATTACAAGGCAGCTACCACATCACCAAAGGCCAAGCAGAAGGCATTGTGGATGCCCTGGGTATATACTCTCTGACACAGAGGTGACTGC
CTAAGCAGTCAGATTTGCGACAGTGTGATCCTTTTTGGAATTCATATACTGGGGCAAGTATTGGAACCAAGGTTGCCAGCGAATGGGGCTGGCAAGTCTT
TTTTCAAGTTTCCTTGTGTGTTCCCATTCTGAACAAGGTGGTGTCAAGTTGATCCTGCCTGTGGGAATGCATTGTTCTTGAATATTTATATCTTTGTATG
CTCCCATTGGGATTTCTCCTTTCATAATATCTGAAAAGAACTTGTTTTCATTAAAGCCATTTCAATTTCGTACATTTTTATGCAATAATTTAGTGTTTAT
GGTGTCTCTTAACCAACATGGCTTGTTTTCATAARCACCCGAGAAGGTTTAAATAACATTTTCTCATAAATTAGCCCTCGTTTGCACACTTATTCAGTTA
TTGCATCATGAAGACCCTCTGGAGTTTGATGTTGTCAGGAAACATATTAGCAGAAAATAGTGTGTTATTATCTAATGCTRATAATTGGTTAGTGGAAATG
AGAAAAGAGGATATGTAATTGGGGTTCCTGTGGCTAACAAGATGTGAATTATGAAAGCATTTCCAGGAGAAATTCCAGGGGTGTTCCAGGAACCTGTTAT
TTACATTTTAAAACATTTGATTCCCATTGAAAGGGGAGGAGGGCGCTGTTTACCAACACTGCTTTCTTTTTCAGAGCAAATCCATCTAAATTTCCTGAGT
GGTAGCTAGATCTCCTAATACACCTAGCCCCTATGTTGTTTTGACTTTGCAGTCCCATTTTAGGCTGCTAACGTTCTTTTTGTAAGAGATATGTTGGCTT
TTAAAGAGAGGATTACCTAGTACACATCACAAGTCCTGATCAGACCCTCTTCTCCCTCTTGGCCCCGTGATTCTGCCCAGTAATGTTTACAGCACACAAC
ACGCACCAATACTACTTCCCAAAGGCTGCTTGGGAGAAGGAGCGTACCTTTAGCAAGAATCTCAGTATAAGCACAGTATAATGCTTTCTTCATTAGCTAG
ATTCACAAAGCTTTCTGCAGCCTGTGCTGCTTGAACCCGAGCTTCTGCTTAATGTTCTTCCATAGCCAGTCATTGCTGAGTAAGGTGGATGGGCTTCTGT
GTTATGCTTAAACAAGTGAAATCAACTCCTGTTCTCTCAAAGTCATTGATGAGCATGGTTTTTCATGCTTGCTCGCTATTGACTTGTCTGGAAAGATTAT
ACTGTTAAGGACAGAGACTCTGTCAGTTGCATATGGAAATAATGGATATAAAGATTGCAAGGAGAGTTCATTTTCCACCTGCTTGAGGTCACATTGAACC
TCATCCCTGTTGCGGAAAACAAATGGGAGTGATAGCTGGTGCCAGTTAGTGTATGGATGTCCTCGAAATTAGATGTGCCTTCAAAAAGACTTGATTTAAT
GTTAGCCAGGTCTGTTTGAACTTCATTATTACTATTATTATTTTGAGATGGAGTGTYGCTCTGTTGCCCAGGCTGCGCCCAGGCTGGAGTGCAGTGGCAT
GATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTATGTGGGATTACAGGTGCCTGCCACCACGTCTGG
CTAATTTTTGTATTTTTAGTAGACACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCTTGACCTCAAGTGGTCTGCCTGCCTTGACCTCCCAAA
GTGCTGGGATTATAGGTGTGAGCCACTACCATTTTTTTTTTTTTTTTGCGTGCCTTGGTTAATATCTCAAGTTCAGATAATGTTAAGGTTAACCACTTCA
TCTTATTACCTTTCATCCCAGTAAAGCCTTGACCTTCACATATAAAACTAATTTAGTGTCAATACAGTTAAAAAGTGTCTCCTTTATTCAGAATTACCCA
TATAATGTCTTTTTTTAATAACTTTATTCCAAACTTGAAAAAAATTATTATCTTTACCCATTTTTCCCTGTACTGTTTATGATACAACAATTAAAAAAAT
CTTATTTCCAATTTCTCAATATTTGATAGGTACACTTTCCCCCCCACAGGAAAAAAGAAACAGTTGACAAAACTTTGTTTTAACCAGCAAACACCTTTTG
AAATGGTGCTGCAAATTCCTATTCATGATGCCATATTTCTAAAACACTTTTTCTTGGTCATGTTGAACTTTTATTCAGTAAAAGAAATCTTCATTCTGCT
TGTGTGTGTGTGTGTGTGTGTGCACGTGCACACGCACATGCATGTGGCCTTTTCTCCTTGAATGTGACTTATTTTAATAAATTTACCCTCTTATTATATA
ATGGCCATGTCCAGAAATCGGGGTGCATCGCTTCTGTACGTAGAGAGTCAAGGTCCTAACAAACCCGCCCCTCTGTGTTCTGCTAGCCATACAGAAGTGG
AGTGTGTTGGAGGTGGACACAACCCTTAGAAGTCATCCAGCAGCCAGCATCCTCATATGCTGTGTCAAGCTGAGCCCCAGAAATTCAGAGAGTACAGCTA
GTCAGTGGGAGGGTGGCAGTGGCAGTGACACTGAGGCCCCATGCTCTGTCTGTGCGAGGTTAAGGAGGGGTGAGCAGTGCTTTGTAAAGGTATGTGAAAA
AGTGGTCTCTTTCTATGCTCATTCTGTTTTGCCTTCTGTTTGGAGCCTTGTCTTTTTCTCAGGTGAGGTCTTTGAGGGCTGAGGTAGACTTCATTTCTGC
ATGCCTTGAGTGCAGAGATGGTGATTACATTCCAACTCGTGCCAACTTTGAGCAGAGTGGCTGTGTGCTATGGAGGTAGTAAGGGAAGAGGGAGGTGCCA
TGTGTGACCTGGACACTTGCCATTCGTGACTCTAGGACACTGCCCTCCACATATACTGATAGACACACACACACACACACACACACACACACACACACAC
GTGCAAGTGTGGGCCCATACTCACACCTTGCCACTCACACCTTGCCACTCACACATGCTCACATTAAAAAAAAATAATAATGAGAAAAAAGGATTGCATA
CATCTGCCATGTGAGTGATGATATCCCGGTCTGGGGAGGAACTGGGCTTGTCTTTACGATAAAAATGGTAGCTTATCTGGAGCCCTGATGGCAGTTTCTT
TGCCTTTGCAGTAAGTTGACAGTGTATTTCAGATGTAATTAGTTCCCATCAAAGTTACCTCATCTTCAGAGGTGAGAATTATCGATGGTGCATAAAGCTG
GATCAGTGTGACCTGTAAAGACCTTACCTGTCTCCAAGGTTACGCGTGTGTACGTGGGGTTGGCTGGTTTGGATGGTTGCTCTTTGTTTTTTGGCATCCT
TGTGTGTGAATACATGATAAGAAATATGAGGATGTTACCTTCTCACCAATTTTTAAAAATTGTCAGTTCAGTACTTTGCTTTTTTAGTGGAATGGCCCTT
AGCAATATCCTTCTTTTAAATGGATTTCTTATTGTTCCAAAGATGTGGCATTTCCAAAAGAAAATTCTTCCATTTATGCATAGAACCTTGAACTCTAGTC
TTTAAAAATCTAGGCTTTAGTTTCAGCTCTTTTTTAGCTGTGTGGTCCTGGACAGGCCCTTTTACATCTAGACTTGGAGATTTAAAGAAAATCATAAAGA
ATTAAATGAGATGATTTCTAAGACTCATTTCATTTTAAAACTCTGATCTTTCAGAGACGCACAAATCCATTCCCTCTTGCTGTGGAGGAGAAAATACATG
AAAATCTGAATCCATATGCATTTGTCAGGGTTCTCCAGAGACATAAAACCAATAGGATGTATGTGTTTATATAGAGAGATTTGTAATAAGGAACTGRCTC
ACCCAGTCATGGAATTCCATAATCTGCATCATCAAGTGTCATGGTCTGTAGCTGGGAAGCTGGAGACCCAGGAGAGTCCATGGTGCAGCTCTAGTCTGAG
TCTAAAGGCTGGAGGACTGGTAGAACTGATGGTGTAATTCCTTTTCAAAGGCCGGTGGGCTGGAGCCCAGAGATGCTGCTTTAGCTCAAGCCCGAAGGCA
GTTACTCAGGAGGATGCCGGCTGGTTTGGAGGAAGATCAGCCTTGTATTCTGTTCAGGCCTTCAGCTGATGGGCTGAGGCCTGCTCACATCAAGGAGGAC
CATCYGCCTTACTCAGTGAATGTTAAACTTATCTAAAAATATCCTCAGAGAAACATCCAGAATAGTGTATAACCAAATATCCGGGCACCTTGTGACTTAG
TCAAACTGACACATAAGGCCAGGCATGGTGGCTCACACCTGTAGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACTTGAGACCAGGAGTTGG
ATACCAGCCTGGCCAACATGGTGAAACCCGGTCTCTACCAAAAAAAATACAAACATTWGCCGGGAGTGGTGTTGTGCACCTGTATTCCCAGCTACTCGGG
AGGCTGTCACAAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGCACCCCTGCACTCCAGCCTGGGTGACAAAGTGAGACTCTGTC
TCAAGCCACCCCCCCCCAAAAAAAAAAAACAAAAAACCCTGACACATAAAATTAATCACCACCAGAGTTTTCTGAGGCAAAGAGGAGTAAAGCTGTTGCC
TTTTTCTTCTTGCCTGTGAGGTTGGTTGAGAKTCTTCTAACAGCCAACAGGTGTTGGCCAATGTTACTCTGATTGACACCTTTCTTTTTTTTTATTCAGG
TTTCCCTCTGTCACCCAGGCTGGAGTGCGGGGGCACAATCATGGCTCACTGCAGCCTTGATCTTCCAGGCTTAACCAAACCTTTCACCTTGGCCTTCTGA
GTAGCTACAGGCCTGCACCACCACATCTGGCTATTTTTTTTTTTTTTTTAATTTTTAGTAGAGACGAGGTCTTGCTATGTTGCCCAGTCTAGTCTTGAAC
TCTTGAGCTCAAGCAGTCCTCCAGCCTTGGCCTCTGACAGTGCTGGGATTATAGGTGTAAGCCACCACACCCAGCCCTGAGTGACATTATTTCATACAAA
ATTCTCATCTCTGGAGGCCTTTGTATTTTTAGGGGTTTTGTTTTTCAAATGCTTTTTACCTCTTTCTATACTTGTTCATTTTTAAATGTTTCCTGGCAGA
GCAATTAGTATTTTCTGGCTTACTAGGTGCTATTCGATTGCATTAGCGTTTGAATATTACCCAGCTAGTTGTGGAGTGGGGCAGTAAGCTCATAAAGAAG
CAAGATAATGGAATACACAAATATTACTACGACTTTATGGGTGGCATACCTTGATTCTTGATCCACGTGGCTGTGTTCAGATCTGGTTAGCACACATTGA
CATCAGGGGCTGAGCCACCAGTGAGAGTCAAACCCAGCAGCCCTGTCAGTCTACCTTCTCTCTTGACTTGATCCAGCCTCATAACTTCACTTTCCGCAGG
AGAAACACACCTCTTGAGGTCCTCTGTCACAAATAGGCAGTGTTTCTGGAGAAAGCCAGGAGGCAGATTTTAGTGCTGTTCAGCATCTGTGGTCTCTACT
TTCTGGATCTGGTGCATTATGGAGACCATGAAATGACATGAAATAGCTCAGTGCTGCCAGTGGCGGTGACAGGGACACTAGAGGTGAAGGAGGGCCCTTG
GGGCAATTCCAGCAGGTGGGTGGTGGCTGAAGGTCCTTGTCTTCTTTCTGCAGAGACTGGCCACCTGCTTCATTCTTTCAAGAAGCACCAAATCCCTACT
TCAGTACTTTGCCCACTCGTCATGTCAGGAGCATGAAACTCACGAGGCCTTCATTTACTTTTATCCTGTAACACCTTCAATTTTTCCCACATCCTCCCTT
GATTCGTGGATGGACAACTATGGAGGCCAATCTGGCTGAGGTGAGGACTGCTTGAGTCTAAATTCCTCTCTCCTCAAACCCAATTCAAACTGGCCTGAGC
AAAATGAATGTATTGATCCATAACTGAAAAGTCCAGAATGATCAGGCATCAGGCATGGTTGCATCCAGGGGCCCATGTATTAGAACCATCTCCTTCCAGT
TCTGGGCTCTGCTTGCCTCCCAGTTGGTTTTACTGCACAGAGGCTTATTCAAGTCCAGAGAGATCTTATCTTTCCCTACAAGTCTGTGACCTTGATTCTG
AACCTGCATCTATGGGAAGGGCTTGCAGTGTCTGAGTGAGCTTGGACTGTGTAAACTTTCCCACTTCTGAAGCTGGGGGTGGGGTTCACTCCACTAAGCT
ACATGGCTCTAGAGTCAGGGGGTTGCCCCCTAAGTAACTGGCAGTATTGTTACCAGAAAAATCATGAATGGACACTGAGCAGAAAACTCAGCAGATGTTT
ATTTCCTGGTCTTTAGGATTTGTTGAAGAGTTTTTTATTTGTTTGTTTTTTAAGAAAGACTCAAAAGGAAAAAAAAAAAGAAACTATAGTTATTTTCTCA
TGATATAAAAAGATTCTGTAGTTGTATATACATTTGAACTTTTTGTAAGACATCTCCTACCCCCCTAAAATTGGAAGTCATTTATTAAGACTTTGTATTC
TGTAAGAGGATTGGAAATGAATAATTAAGAACATTAAAGAGGAAAGCAGGGGGTGGTGGGAAAGTGTGGTCTTGAGGGGGTAATAAACCTCCTACAGGCC
ACACACACACAAGRAAAAAAAAAGGGCAATAAGTGTAGCCCAGTAACATAAGGTGGGGAATAAGGTTAGGGGTAAGGTTAATTCTACAAGTTCAAAGCCA
GTAGCCCCTGATGCGCTGTTGGACGTGAACTATAAATTTGGCTCTGAGGTTCCCAGGCATGGAAGAAYATCTAGATCTGTACAGAGAGGTTGTGTGTGTG
TTTAACATTTCCATAATGTACAATTTCCTCTAAGAGTAAAGGCCATGAGGAAATGCCCGTGGAAGATAAAGGAGACCATGTGGTCTGTGGCAACCATGGA
TACATTTCTTTCCCAACGCATTCTCTGAGGCACTTTGGTAACTCTGCCTCTTTGCTCTCAGCATTGTGTTAGAAAATAAAGCCAGCAGACWAGGATTAAA
CCCTCATGTTGCTGGGTTCCTTCTAGAAACAATTGGAGGGCTAACCAAGTCACCTTTGGTGGAAGGCAGTAAGGTGAGTCATTGCTGTGGCTGGACTGAA
TAGGATAGCCTTAGCTGTAAAATTGGGCTGATCTTTCAAATGGACTCATGCTTGCCGAATGACTCACGCTCCTGTTTACAAATCAGCTCTGTGAAGAAAT
GCAGAGTGGGAGGCTCTGCTTGCCAGACGGAGACCTTAGACCTCCAGGGGTGGAGAACGGAGTACTTCCTCTGGTGCTCGGCTTCCCTTCCTGGGGGCAG
ATCTCTCAGCTTCTGGTTGGTGGCTCTCAAAATCCAGACACAAGGTCAGCTGCAGCCAGCGTGGGCCCTGGAGTAGCTCCAGTTATGGGGCAGCAATGGC
CCCCTCTCATTTTGAGAGCTCACTTTGCCTGTGGATGGTTTTAATCCATCTGGATAAACTTGAGGCCCATGGGAATACCATATACTATGGTAACCATGTA
CACTGCTCTAAAGATGTGGCTGCTGTTGTATAACTTTTTCCTTTATTTTTGTCAATTTCCTATTTTCCAGRGTCTTGCATACCCACTATGTCTACTGTGA
TAGTGAACGTAAAAACATACAAGATGTTGGTGTTATCCTCAATCTCTTATTCTTAATCCTGAACAAATTACATGAAAAAATCGTTCATGGAGTTTTTCTT
CATATAAAACTTTTTACAATGAACATAAAGGGCATAGCTATTTCTTTTTTTTWAAAAAGAAACGTAGAATATTATTTCTTGGTTGTGAAATCGCCCTTCT
TGGACCCCAAGTTGTTTTTTACAGCCCTAAATTCTCTTGTTTATAGAGCCTGTTTATAGAGCCATAGACAGGCCAATGGGTCTCTACAGCAGGCACCTGC
ATGAGTTGACTGGGACCTGAGCTATATTCCCCCTCTGCCATTTACTAGCAGTGTGACCTTGGGCATGCTCCTTACAGTCTCTGAGTCAGTTTCCTCCTCT
GTGAAATGGGCATGATACTACCTACCTCATAAGGTAGGGGTGAGGATTAATGGAGTAAGAGGCACACTCCTGTCCAGGGCCCCAGACAGAGTAGGCCGTC
AGTAAACTGTAGCAGCTATTGTGATAGGGTTTGAAATTCAAATTAACGCATATTTCTTGAGCACCCAAGGTGTGTGCTGCTGGATCTTTCAAGGGGTCCA
GAATTGRTAGTATAGTTGCTTTTCTCAAAAGACTGTCGCCTGGCAGAGGAAAAGGTGTTAAGGTATGAGTGAAGACAGATCAGCCAGACATGGTGCCGCT
TGCCTGAGATCTCAACACTTTGGGAGGCCGAGATAGGAGGATTGCCTGAGCCCAGGAGTTCAAGACCAGCCTGAGCAACATAGCAAGATTCTGCCTCCMC
AAAAAAATAAAATAAAAATAAAAAGATTAGCTGAGTGTGGTGGCGTGCACCTGTAGTCCTAACTGTTTGGGAGGCTGAGACAGGAGGATTGCTTGAGCCC
AGGAGTTTAAGTCCAGTCCGGGCAACATAGCAAGACCCCATCTCTTAGAAAAAAAAAAAAAAGATCAGCTCCCCAAACAGCTGAAGTATTAAGTGGAACC
ATATGTAATTGTATTTTTGTAGGACAGAAATATCAGCAATTTCACATAACTAATAGATTCAGTAAGGTAAGTTGAGAGAGAAAATGCTAGCTAACTGGTT
CTTGAGAGGCTCAGAGGAAGGGGAGGCCATGCCCATTAGGAGAATGGTGGGTAGGGGTGGGAATACACAACAGGAAGGCTGCCTGGAGGAGGTTGCATTT
CAGATGTTCCTAGAAGGGACCCTGAGCTGGATGGCAGGGAAATAGGAGAGTTCTGATTTGTGCTGGGAACTGTAATCCCTCTATCATGGAGCTTCTATAG
AAATGTGGGTTAGGGCAGAAAGGAAGGCTGGGGGCTGTGTGTGCCTTGGTGACGTGTCCCCCTCGCTCCCGAGCCTTACTCTGTTCCCCTTTCTTCCTGG
CAGCAGAGCCCCCTCCCTTGCTGCACTCAGGGACATGACTGTCAGCACTTCTACCCCCCCTCAGACTTCACTGTCAGCACTCAAGTCTTCAGGGACATGA
AAAGGAGCCACTCCTTACAAAAAGTTGGGGAGCCCTGGTGTATTGAGGTAGGTCTCGGAGCAGAATCACGGTATGAGATGAGCTAGCTCTAAAATGAAGC
YGCCCACCCAAAGTTTACCTCTCTCTAGGGCAGGGCCCATCCACTGYGATCCCTGAATTCTTGTTGGGTCACTGTCATTTTGGGTGCCATGATGTCTGGG
TGTGCTGACCGCTGATAGGGATATCATAGCCATAAAAACGCCTGTTTACAAGGAGAGGGTGGAGGGTGGTGCTCGCATGACTCCAGGATGCCTGGCTCCC
AGTGAAGGCCCTCGTGATCCAGTGCCACACGTAACTTCTGTGAAAATGAGGAGCACAACATTATCCCATTAAACTTGGCCCCAGGAAGTGTCTCTTGGGA
CTCTTCACAGTTCACAATGGAGGAGAAGTTACCACCTCAACTTTGCCTTCGTTACTAGTAATTTAGAACTTAAAGATTTTCTTTTAAAATTCAGGGTGCT
GGAAAATGCCCACTTTGCCTCGACAATACCTACCTGAGGCAGCCRTGAATGGCTTTACTCGCAGATGTTGCTCTCCAAGGACAGGAAGCATTGTTAATTT
CCTTTAAATAATTCAATACAGTGTCAATACCCCACACTGCTCAGTGCTTGGGAGTAACAGTTCTCTTCAAATTAATAGTCCTGAAGAAAAAATAACACCT
AGAACATGCTTTTATCTTCAGAAAAGCAAAAGTCAATGCAGATGAAAAATTTTCAAGGAACTCTTAGGTTTAAACAGCAAATGATTTAGTACTARTGTTA
GCTTTTAAAAAAAGAAAAGTGAATATTTATGAACCAAATAATAAAGCCTCTGTCTTTAAAAACATTTATTGTATACCTATTGGGTGCTGTGCTATGTGTT
ACAGCCACAGGGACAGAAAGCAGTGCCTCCAGCAGGCAGAGACCTGGAGTAATACATATGTACATAAGTCTTGCTGTTGGAGAGACAAAATGTGGAATAA
GTCATCTTTAAAAGTTTGTTCTGGCGTAGGAAGTGATGAATAGCCACATAAGACAACTAGAAACTGTAAAAATACATAAAGAAAATGTAAATACCTATAC
TCTTATTACCTATTGATAATCTCTCTCTCTTTTTTGAGATAGAGTCTCGCTCTGTTGCCCAGGCCAGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACT
TCTGCCTCCGGTTTCAAGCGATTCGCCTGCCTCAGCCTCCCGAGTAGCTGGACTACAGGTGCGCGCCACCAAGCCCAGCTAATTTTTTGTATTTTTAGTA
AAGACAGGGTTTCACCCTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAACTGCTGGGATTACAGGCATGAAC
AACCATGCCTGGTCTTTTTTATTTTTTATTTTGAGACGGAGTCTTGCTCTGTCTTCCAGGCTGGAGTGTGTGATCTTGGCTCACTGTGACCTCCGCCTGC
CAGCTTCAAGAAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCTGTTACCATACCCGGCTAATTTTTGTATTTTTAATAGAGACAGG
GTTTTGCCATGTTGGTCAGACTGTTCTTGAACTCCTGACCTCAGGTGATCTGCATGACTTGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGT
GTCTGGCCGATAATCTCTTAATATTTGGATACATTTCCACATTTCTAGTCATTCATATGCACAGACCTTAAAAGCGTTTCGCAAAATTGGTATTATACCT
CATACGGTTTTGCAATTTCTTTCTACTTTTAATTCTAGGAACACTTTTTGACACTATAACATGTGCCTAATTCTCTTTAGTAACTTCATGTACTAAAGTG
GAAATCCTCTGGTCCACCTATTCCCTGTTAGCCAGATGTGCATAAAACTGAAGATGTGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGA
AGGCTGAGGCGGGCAGATCACGATATCAGGAGTTCAAGACCAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGCGTGCCC
GTACTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACTCAGAAGGAAGACAGAGGTTTCAGTGAGCTGAGATCACACCACTGCACTCCAGC
CTGGGCAACAGAGTGAGACTCCATCTCAAAATGTTTCTGGAGTCTTTCGGACTTTTCGCTGTCTTGCATGCTTGCCTCTGATCTTGCATGTTCTTGGGCC
ACGCCTATGTCTTGATTACCTGGAGCTGCTGTCTGTGTGTTTAAGGAGCATTCCCTTTAACTGGCCTGGGTCTGATAGAGCAGGGAGGCCCCCTTTTCTC
TGCATTAGCCATGGCCTGGTAGAAGATCTTTTTCAGTAGCCTCTCACTGGTTCAGCTTTTAATAAGCATAGCTGTTCATTCTGGCTATTTATGATAAGAT
GATATGAATATAGCTATTCTCCCATCAGAGCCTGGCACATGGTAACTCATTAATCTTTGGTTGGCGGCAGGAGGTAGATAAAGGAACCAGGCACCCATTT
TAAGTATGAGGAAAATGAAACAGAAAGACTGGGTTTCTTCCTTATAACTCAAGGTCTACAGGAGCTGATTAGATCCCTGGCGCCAGTGACTGAGCATTTC
TCAGCCTTGTCCTCAGAACCCAGAAGCATCTCCCAGGGACGTGCCAAAATGCCACGTTTCCAGGATGTCATCTAAATCTGTAAACTGTGAATAGGTGAGG
TACAAAGATGCCACTTATGGGCTGTGCCAACTTGGGCAAGTTACCCGACTGATCTGTGCTTCAATTTCTCCATCAGTGATAAAGGTTCACATACAGGCTG
TATGTAAAGCGGGAGCTTGATGAGAGAGCTGGTGGGCTCAGACTGGTGCAGGCAATTGGCAAGATTCTTGAGGAATCACAACCTGATGGTGTGTCTGTGT
GATGGGCCAGTCGCTGCTGGAGTAGCTCAGTTATGTGTTCCATGTAGGTTTCCATGGAAATTCACATGTAACATTCCTAGTACCTACTTCAAGAATTTTG
GTGGTGGCTGGGTGTGGTGGGTCATGCCTGTAATCCCAGCACTTCAGAAGGCCGAGGTGGGCAGATCACGAAGTCAGGAGTTCGACATGGTGAAACCCCG
TCTCTACTAAAAATACAAAAATTAACCAGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAATCTGGGGG
ACGGAGGTTGCAGTGAGCCAAGATAGCACCACTGCTGTCCAGCCTGGGCAACAGAGCCAAGACTCCCTCGGCTGGGGGGGTTGGTGGGGGCAGGGTAAGA
ATTTTGGTGATCTCTGAAAATCCGGATCCCACAGCATGGGTGTGATAGAAATGGCTCTGCAGAGTGTGATGGGAACCTCTTGTGACTGGTCGTCAGAACT
AAGTTTGAGTCCAACACTCACTTTTTTGGCAAGGTGCTTCCCCGCTCCGTGATGCAATTCTTGCATCTGCAAAACAGGCGGTGGTCATGGGATATTCCCG
CAGTCTGCTCCACTGGGTACCTACAGAGATCCCTTGACATTTAACACAGGCTTCCTGTGATCCAGGAACTACTGTACGAACTACTGTAACTACCTCCTAT
ATTAACTTTTCCAAACCTTGATAGCAACCTTATGAGGGAGGTGGTGTGATTATTCCCATTTTGCAATTAAGGTAACTGAGCCAGAGAGAGAGAAAGCAAT
ATCCATAAGATCACACAGCTGAAGGGTGAGAGCTATAAAAATTGCTGGGAATGAAGGGCCATGGTTCTTGGCCATGGTTCTTGGCCATGGTTCAGAGCTG
TGATACCAACCATCTTCCACTTGTTCAGGGAGAAGGTGTTTGATCCTTTTCTTCACTCAGCTGCCTTAGGAGTTGGGAGGAAATTTTGTTTCAGGATACC
TAAGTTCTTACAAGTCTCAACAATTGTACTTTCTGTTCCATCTACATTTCAAATTCATTGTCCCTTCTCTTTCTTTCCATGTAATTCAGCCAGATTCGAA
CCCTTTAGATCCCTTCCTCTAGGGAATTAAGGTTGGTAGACCAGCTGAGTAAATGTGACTCAGAAAGTCAATATCCACCTGGGCAGGGATGAGTCATTTC
TTTCTAGTTAGCTATTCATGTACATTTTAAAGCTCGCCACACAAAGTCATTACATTGAGGCTATTAACATGTTTAATAGTGACAATAATAGGGTGTGACC
CATGGCATATAACCGCATTCAGATAAGAAGAAAGAGTTTTCTTTTTTCTTCTTCCTGTAATTGCTCAGTCAATACCATTTTCAYGGAAATACTTGCAAAC
AAACTTTTAAAAAGTTCATTGTCCAAAGCCTTCCCTGATTCCTTGTTTCCTTCCTCTTCAGGGGTTCTATAAACTTTTCCTGATCAGTGGCCGGGGATTA
GCGAGATGGTGCACTCTGTCCTGATTTTGTGGTTGACCTACCCTTTTGCTGGTGTTGAGCCTGTTTTTATTGCATTTTTTGGGGTGTGTGTGCGCGTGCA
CGCGCATGTGTGTTTTTTCAGGAGGGGGCACATTATTGCTGCTACTTGCTTATTAACCTCTCAATCTAGAAATTTCAGGGAAGAAGAGACTTCCGCTAAA
TTTGCCAAGCTAGACACATAAACAGGGAGTTAGCCATTTTGGTGAGAGGAAATGAAACTTTTCTTGGGTTTATTAGACCACATCCTATGTGGCTTATTTT
ATGTCTGATTTCTAAAAAGCATGTCATCACGGTCAAAGTTTTATTTTTGCTTGTTAGTCATTTGAAACAAATATAGATATTGCTTCATTTCCTGGGTACT
GTATTTTTCRGTACGTGGTATGTATGGAAAATTTGGGTTTACACAATGAAGTGCACTAGAAGGGAAGTATTTGCTAATTTAGAACTCTCTACATTATAAC
TTTGGATTAGCAAGCATTCGGCTAACTAAACATTTTCATTTATCTCCTACCCCTGATTATATAAAGAAGCAGATGAGACAACCAAAGAAATACCCCTCCA
AGACAAAGTGAATATTTTGAAATACTTCCTYTCAGTCTTTTAAAAAATGTGATTTAAAAATCGTAGGTGGGATCATACTATACATGCACTTGTTTTCTGT
TTATTTTACATCTCTCTATACTAGAAACACTTTCCTATATATGCCACAAAAACTGTGAAAGTACTAATGATTATCCCTCCTGTCCCTTAATATGCTTAGC
TATTGCCCCAATGAACTCAGACTGTTTCCAAAGTTCCGCTGTTGGCCGGGCACTGTGGCTCATGCCTGAAATCCCAACACTTTGAGAGGCTGAGGCAGGT
GGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGGCAAAACACTGTCTCTACTAAAAAATACAAAAATTAGCTGGGTACGTGGTCCCAGC
TACTCGGGAGGCTGAGACAGGAGAATCGCTTGAACCTGGGAGGCAGAGATTGCAGTAAGCTGAGATTGCACCTTTGCATTCCAGCCTGGGTGACAGAGCA
AGACTCCATCTCAAAAAATAAAAACAAAAAACAAAAAACCAAAAAACAAAGTTCCACTATAAATAGTGCAACTGCATCTCATGTGGCAGAGGGTGGAAGT
TGCAAATAGTGAAGAGAGAGTGATTCTGGGACATTCCATAATGCCCCCTTGATGTATGTGACCCATCATTGCTTCGCATGTATAGCCCCGGATTGTTCTG
TGTGAGTGGGCCGGCAAATTCAACTCCTCCTCACCCCCTCTCTACCCCAGTTCATGCTCACTGGGTAGGATGGGAGGTGGGACTGCCAGATTATTTTTAT
TTTTTCCTTTCCCACATTGTCTATCTGCCAATATTTTTTTGTTGAAGTCTTTTAGGCTAAATGAGCGGACAAATTTTCTCTGCTGATCAACCGCCGTGGT
AGCATCAGTGGGCACTGCAGTGCCTCCCTGGGAATTTTTAATGCCTCAGTGAGGTCATATTCCCAGTGTAGAGGGAACATGACGTAGTCCCACTCTACTT
ATCAGATGCAGAGCTTGCTACCAGGAAAACAGACGCGGAGAAGCYGGGATCATTTCTGGCCCCATTTCCCTCATTGTTCACCATTCCTTGGACTGCAAAG
AGATGTCATTGTAAACGCTATCCTTTTCATTTTGTATACTAAGCAGGAAGCCCAGGCACTCTCTGTGGAGGTCTTCCAAGGAGCTCATCCATGCAGAAGA
TAGGAGTGTTCCTGCACCCTGCATCCTAGCCTCAGTGAGCCCACTTGACACCCCCCAGGGTGCTGCAAGCTGTGCCCATGTCTCTCCACGTTAGTGGCTA
CCTCCCTTTTCCCCTTTCGTCGTGAGTCACGTATTTTCTTTGTGTCTCGTGTGACAAAGGTCACTCGTAGAGAAGATTTGGGCCTTTGGTGTGTGACATG
TCATCCCCACAGTTGATTGTTTTGGCTCCTCCCCTTTTGTAATGCTGTGAGGTGACAGGTCAGTTTTTAATGGGCTAGTCTGCGTCAAGGGAGAGTATAA
ATTAGCCTTAAGACTTTGTATTCCATATAGGGTTTCCCATATGAGAATATGCAGTTAGCACTTAGGGAGAGGGGTAGACGCTGCAGGGGTGGTTTTGACT
TATCTGCCTATCAGTCAGCGTCTCTGTTGACGTACCTGTTTCTCAGATAGCAATCCCTTTTATGACGTCAGCAAGGTAGATGTTTGGAATTTGGAAATGG
AGAGGAACCATATTTCAGCCCAGACTCTGGAACTTAATTTACTCATTTTTATTAAGGGCAGTGATTATTAGGCAAGCAGCTAATAGCAGATCTGAGTTCT
TATTCTTCCTTATAAGGCCTGTCCTATGGACCTTATTGGAAAGGTATTTATTGCATCAGCTGCTGCTGGTTTAGTCAGGAGCACCATCATCTTTCACCTT
TTACTTCACACCCATCCAGTGTTCTCTGTCACGTCTCTGAAAGGCCATTTCAAACCGGTTTGCATTAAGAAAAATCAGTAGTTTCTTTTTTTTTTAGTTT
GGTGGAAGCGCCATAGGAGGCCAGATTTGCTTTTCCTGGTCAATGTCTGGCCTCTTCTGTGGGGGCCAAAAATGAAAGAGGAGCAGCCACACCCTTTTAG
ATTCTGGCCATGTCACAGCACACTTACAGCCAGCTTCAGAGGCCAGTGCAGCAGGGAGAAAAGCTCTTGGCTGGGAAGATCTAAATTAGAGGCCTGTTTG
TGCTCAGAGTGAAAGTTTCTGTTTTGGAAAAGCCAGCTCCCTCCAGAGGGGAGGGTGGGGATGGGAAAGCAACGAAGACACCAGAGAAAGAAGAAATAAG
AGGGGGACGTGAGGAGGCATGTAGTGACTGACTGCAGGACATGGGACCCCCCTGCTCGGCTTCTGCTCCTACCCCACCGGTCACTGGGTCAGACAAGCTT
AGCCTGAGCCCCGCGTCACCATCCCTGTCCTAGTGGTAGCCTCTTGCTGTTTAGAAAAACAGAGTTGGGGGAGATGACAGTAGCTTGCCTGTGATCTACA
CACAGGGCAGGTTGGGAGGGGTCCTGCACACTCTGTCACGTAGTGCTCATCCCAGCTCCTGCCTGCTAGGTTTGTGGCAATATTTGTGGTAAGCCTTGTG
GTTCGCCAGGGGCCAGGGTGACAGATGAGAAGTCCACTTGTTCCTGAGAAATGAGCTCCACTAGAAAGTAGGAGCAGCTTGTAACCAACCAGGGGGAAGT
CCTGTGTGTAGGTTGTCACAACTCTCTCTCAGGACAAATTTCTTTCCTCTTGCCAGTTGTAGAAGAACCCATGAGGAGGCCGGGCACGGTGGCTCACGCC
TATAATCCCAGCACTTTGGGAAGCCAAGGCRGGTGAATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTAAAACCCCATCTCTACTGAA
AATACAAAAATTAGCCAGACATGGTGGCAGGCACCTGTAATCCCAGCTCCTCGGGAGGCCGAGGCAGAAGAATCACCTGAACCTGGGAGGTGGAAGTTGC
AGTGAGCCAAGACTGCACCACTGCAGGGTGACAGAGTAAGACTCTTGTCTCGGAAAAAAAAAAAAAAAAAAAAAAAAAAAACAACCATGAGAAAGATATA
TGGAGGTGAGAGGGAAAGGTGTACCCTGGAGGGATTTCTTATGGCATCTTTTACTGGCTTCAGAAACACAGGTCATGGCCAGACGCAGTGGCTCACACCT
GTAATCCTAGCACTTTGGGAGGCTGAGGCAGGCGGATCGCCTGAGGTCAGGAGTCAGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTTTGCTAAAA
ACAGAAAAATTAGCCAGGCGTGGTAGTGCGCTTGTAATTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGT
GAGCCAAGATAATGCCACTACACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAAGAAGAAGAAGAAACACA
TGTCGTACCTGAAGGGAAGGTAGGTCCTTTCCCTGCCCTTCTTCCCCATTTCCTTGGTAGGGGCAGCAGTGTCTGGCACAGGCTCCTGACCCTTGTGATG
TAATGATATGTTGGGGATGTTTGTTTCTTCTTGGACCTTTCCTGTTTGGGACAGCAAAATCTACAAGATCCAGGTCTCCGTTGGGGCTTTCCGCACTGGG
ATCTTCCTTGGTCAGGTCACTTGCAGCTGTTTTTCAAATCTACACTCAATGGCATGCAATTCTGTGCCCTGATTTAACGTATGAGGGTCAAGTGTGAGAC
GTGGGATTTTTATTTAAAAAATTGTATTTTAGGCCGGGCTCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGATGGATCACAAGGT
CAGGAGTTCGAGACCATCCTGGCCAATGTGGTGAAACCCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCGGGAGCCTGTAGTCCCAGC
TACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGTGGTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGCAACAAAGTG
AGACTCTGTCTCAAAACAAAACAAAAAACAAAAAAAATGTATTTTAAAATATATTATGATCATTGACTTTTTCTTTTGGTCTCCTGTTCTACGAATTGTA
ATATAAATTCGTATTATTGCCACCACGTAGGACACAGAACAGCTCCATCGCCCTGTACATGTCCTGTTGCTGCCTTTGTGTAGTCACTGGAGATGTGGGT
TTTATTTTTATTATTTTCTCCATTTGATAGATAGTGCCGACTTGATTCACTTCATCCATTCCAGGGCCAATTTTTCACTGTTGATTGTCAGGGGCTCTGC
TCTGCTGTTTCTCCAGCCCTCTCCAGTGAAAGAGATGTAACTGCAGTGCCATAGTTGTCAGCTTGTTAGTTATTGGCAAGTCTTGGTTGGATTTTCTATT
CTTCATTGTGGGCTGTCCTTGCCTGTACACCTAGCATGCTCTGGAACCCTTTGTGGATTTATGAGAATTCAAGAAAAAAAAATAGCCAGGGAAATATGTT
ATTGCTAACCATATAGGCCTCAGAGTGAAAACGGCTTTTGGAGTATTCTGCTTTGAATTATTTATTTTAGTCTTTCTCAGATGTCAGGACAGATTTTTAA
GATTTGGGCATAATGTTTAAAATGAAGATGGTATGTCTGTAGATTTTATTGACCCAACTTGGTCCCCCCAGGCTGTCCTCAYCTGCCCCACKACTTAGAT
GAAACCAGGAATGGCAAGAGGAGAGCATCCAAGCCGCCTGCACCAGCCCTCAGTGCATCCCCACCCAGGCTCTGGAACRAGCTGCTACATGCACGGGAAG
ACCAGAGCTGCCGTCTTCCTGGCTGTTGTTCAGAGCTTATGCTTTCTTAGGGAAAAGTACAATGTAGGGCTATGTGTGTGGTGGGGATCTTCTGTGTGTG
CTTGTCCTCCCCCTGGGAAATGATGAGAGGTGACCCCCGAGCTSCCAGCTCAGTGTCACACTCGAGTGAACAGTAGATGATGCTTCTGCCRTGCGTTTTG
CTGGGGAAGGTAACAGCCATCGCACACATGTAAATTCTTGTGTAATCCAATTCCTGTCTTTGTAATTACTTGGAGACTTGCCATCGCAGCCAATTGAGAA
GTGGGAGCAGTGACCCTGGGCAGAAAGCAGAAATTGGAGAGGAGGGGAGGGGCGGGGAGGTGGCATCCAGAACACAGTTGTAGCTCTCCTGGCTTTACAG
CATCTAAAATCACTTCAGGATCAGGAAAAAGCAAAAACATTATAACTGCCCTCCACGCAAGTACCCCAGCTTTTCTGTCCCAAGTTCCCACTCCCTCTAC
CTCTCTCTTAGCAGGCTGGAGGAATTCTCAGCAAGCGTGATAGAGTCAGGTCATCCGTGACTTAGCTGAGAGGAAGGACTTTTACTGATAAGAAACTCCC
ATTGTCTGGCAACAGGTTTCTGTAGAGGAATGTCTTCCAGGTGGGAGAAGAATGGCTTTCATTTTTAACAACCACACACTATAAACAAAGCATCCCGAGA
GCACGGGTACCTAGCAGAAGAAGAACGAAGTAGCCAGGAAACAAGTTGCTTTTCAGCATCCCCACTGAAATGATAGGGTACTTTAGAAAGCGGGTGGTGG
CATTCTTTCCACAAGTACAGCAAGTGTCACTGTGGGGTCTTAATTCTCTCGAATCTGCCTTTAGAAGGCAGAAGGCAGAATGATCAGCTCTGCTCTGAAT
GTGTTTGCCATTTGATTGACGTCGGAAACATGATGTCACTTCTGCAAACACCCACGTGAGAAGGTGTATTTTTTTTTTTTCTTATTTGGGTGACAGATTG
CATGTTAGGGCACTAAAAGATGAAAGCACTAAATACTTGCTTTAGAAAAACACAGTGGAAGATTCTCTCATCCTCCCCGCTGAAAATTTATGGGCTTAGA
ATTCCATRAACCAAAATGACTGTCTTCAGTTAAACTTATTGCGACCCTCTGGGCATGATTAACAAATCAGGTGGAAAGGGAAGGTGGAGGAGTATACGGG
ATTCTTTTTTCATGTTGTGTGGAATAGGGCACTTTAGTTGAAATTGAGGTTCAAGTTAGCAAAAAGAAATTCCATCCTTCGGCTGGGCGTGGTGGCTCAC
GCCTGTAATCCCAGCATTTTGGGAGGCTGACGCAGGTGGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCTCATTTCCACT
AAAAATATAAAATTAGGCAGGCGTGGTGGCGTTTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCAGGGAGGAGGAGGTT
GTGGTGAGCTGAGATCGCGCCATTGCACTCCAGGCTGAGTGACAAGAGCGAAACTCCGTCTCAAGGGGGGAAAAAATCCATCCTTCTTCAATGTGTATCT
TATCCTTCTCAGTGTTTAATAGGACGTTCTACTCAATGGATTGGTTTCCTCCCTATAAAAAGGAGCATTTTGTTATTCCCTCTTTCAGATTTAATGATAA
AGTCATAATTCCTGCAAGCCTTTTGAGGAGGATATATCTTATCTCATAAGATAGCTGGGCACAGTTGTTCAGGCCTATATTGTCAGGGCTTTGGGAGGCC
TCAAGGATCGCTTGAAGGCAGGAGTTTGAGACCAGCTTGGGCAACATAGCAAGACCCCATCTCTACAAAAAATTAAAAAGTTATCCAGGCATGGTGGTGC
ATACCTGTAGTCCCAGCTACTTGGGAGGCCGAGGCAAGAGAATTTCTTGAGTCTAGGAGTTCGAGGCTGCAGTGAGCTCTAATTGAGCCACTGCACTCCA
GCTTGGGTGGCAGAACGAAACCTTGCCTCTTRAAAAAAGAAGAGAGGGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTTGAGGT
GGSCGGATCACAAGGTCAGGAGATCGAGATCATCCTGGCTAACACAGTGAAACTCTGTCTCTACTAAAAAATACAAAAAATTAGCTGGGCATGGTGGCGG
CCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGACGGGGAGCTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCA
GCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGAGAGGTGTGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGG
CCAAGGCGGGTGGATTGCCTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAAACCCCATCTCTACTAAAATACAAAAAATTAGCCGGGCGTG
GTGGTGTACGCCTGTAGTCCCAGCTACTCGGGAGGCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCGT
GACTCCATCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTGAGAAAGAATGTGGTTTTGGTACTCAGTGTCTAGGACGTCTGTTTAATGGGATGGTTAGGA
GCGTGTGCTCTGTACTCTGAGCTCAAACCTTGGCTTTGCCTCTGACCAGCTGAATGACCATGTGCAACTCACTGTTTATGCCTAAGTTTTCACATCATAA
AACCAGGACATTATTTTGCCTATCTTTACTTATTAGTAGATTTGAATGAATTACAGTATATAAGGCAAGTGACATACATGGAAACTGGCAAACATCTGTT
TTTTGTTGTTGTTGTTTGTTTGTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCGAGGCTGGAGTGCATTGGTGCAATCTCTGCTCACTGCAA
CCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGATTACACGTGCCCACCATCATGCCCAGCTAATTTTTTGTATTTTT
AGTAGAGATGGGGTTTCACCGTGTTGGCCAGGGTGGTCTTGAACTCCCGACCTCAGGTGATCTGTCTTCCTCGGCCCCTCTAAGTACTGGGATTACAGGC
ATGAGCACCTGGCCATATCTGTATTTTTTAATTCACTTCTTTGATTTGGGAGGAAAGAAACCTGAACCCTCTTCTTAGTGGGAGTGGGATAGGCTTTAAT
GTTAATACTATGCATCATGTATTAAAAATCCACTATCCTTCTGGCACTGGATTAAGCTTTTCATAAGTATTATTGTTTCACCCTTACAGCTGCCACAGAA
GAGAAAAACCAATATTATTTAAAGTTTATGTATAAATAAGCTAGTCGCTAACATGTACTCAGCACTTACTGTATACCAGGCTCTGCCTTAAGYGGTTTTC
ATATATTAACTCATTTAATCTGCTCAATTTGTGGGAACCATTTTTTCTCATTTTATAGAGAGGAAACTGGTGCAGACTTTTTTTTTCTTTTTAATAATTT
GTCCTTGGTTCCACTGAAAGTAATTGTTAGGACTGGGATTTGAAGGCTGGGTCTTCAAATGTTGTCCAAACGAGGCTGCCCACCTCCCCATCAATGACAA
CCTTCTGTCCTGTAATGTGGAAGTGGGCCCAGCTGTATGAGAAGCTCAGAGCACACAGATGCTGTCCAGATATGCTGGCTTCTGATCCTTGCAGAGAAAA
AATCTTTATTACCGGAAGTTGTGGCTTCTGAGCCTCTCTGCAATTGGCAACATAGATTTTTGTTTTGTTTTGTTTTGTGTGTGTGGTTTTGTTTTTTAAA
TAATTAGAAACAGTTCTACAATTGTTACCACCCACAGTAAAAAATTGCTTGGATCCCGCGAAGTAAGAAAGAAAAAAAAATAGGCCATTTGGTAGAATGA
TTAACAGGGGGCTTTAAAGAGGAAAGTCTGCTTTGGAGGGTGAGCTTTGGATGTACAGATGCTGGGACCCTCGTGTTTTTCAAGTCCCCCATTTGCCTGC
ATTGAGAATCAAATGTGAATGGTGGTTGCCAGTGATAGGAGGGGTTACAATGCGTGAGATGGCTCTGGGAGGAAACTCACATTTTTTCGTACTTATTAAT
GGTATGTCTTTTGTGCGAGTGGGTGTGAGTACTGAGAGCATCAAGTGTATATTTGCACAGTGTGTGGTCCTTGCTGCTGTGTTCCACTCCCCATGATGGT
GGGCTACACTAGGAGGAGAAGCAAGCCTTAGCACAGCTTGACAGTTTCCATTATATGGACAGAGTCACTGAGGCAGGAGCAAGCCAGGCCTTTTTCCAGG
TCAAGGGAGCTGGGTCAGTGTAGCTGGGACTCTTGGTTTCTTAGCACTGTGCTCTGACTATCAAAGCTACGCCCCCACTTTTGTGGGAATAAAATCGGTG
CCCTTGCATATAAGTTGTTCGCTTCACTCCCAGCCCCCTCCTGAGAATTAGGATGGGCCAGGATCTGAGTTCAGTGCCTTTGGTCCAGTAAGATGTGCTA
TTCATTGGCGATCCTTCCCCCATAGTTTCAAGACTGTAAGTGGTCACATGGGCAAAGAGATGATTTCCTAATCCTCGTGGGAGCTTGAAGGATTTGCCTT
TGTTAAAGGAGGAACATCACGCTGGAGGGGTGTCTGTCTATGTGTCCCACTTAAACCACACTGCTTTTGACTTCTCCTCTGTGATGATTCCCAGGCAGCC
TCCTCTTGCCATCCTGACTTGTTTAAATTTATGGGTTGTTGGCAAGCAATTTTTTGATGCTATTCTTCTCATAGCCAGAGGCCAAGATCCCTTGTGGAGC
AGTGCCTGAATTTAATAGATGTCATCTGGACACCAGGGAGGGGCATTGAGAAGCACTGGGGGAAAAGTCTTAGAAGTGAGATTTTACCCCTAACGCCGTC
TCCCAGCCTCTTATTTATCCTTTTCAGGGCAATGCAGCCTGTGATTTTTTTGGTGGTACCATAGTGTCATATACCATACTCTACAATTCTAGGACAAAGG
ACACAGTGTCCTAATGGTCTTGCAGATGGCCTAAAATACATATGGTAAGCCACTTATTTAMTTTGATCTCAAATATCTCAGCATTACTGAGCTCTACACC
TGGATGTTTACAAAGCCTGAAGATCTGTACCCACTGCTGTAACATCAGGTGACACTCAAGGAACACAATTCTACTCTTCTGGCTGTCTGGGGTCTTGGGT
CCCAGGCTAGGGTCTAAGGCAGACAAGACAGTACCATCCCATTAGCTTGGTACATGAGGCTTAAACAGTTCCTCGAAGTCATGGGGTGAAGGAGGGCACA
GTTAACTCAGCCCCCGCTTATTCAAATATCAGATTGCTGGCTGATAGTCTCCCTCCCTGCAATGTTGGCAGGAAGCAGAAAAGAAGGGAAGATTGTGACA
ATAACTGTTGCAAAGGCCATTAACTTGACTTTGTGGGACAGACATGTAGGTCTCTCTTTRCTGCTTCTGGACACAAATTATGGGAAAGCCTGCACAATAG
GTCTCATTAACTTCCAGAGTGACATGACAGGGACTCCAGCTTTTGGGACAGCTTGAGTCCATTTAGTAAAATGTTATTGAGGACTTCTGTGCCAGGCAGG
GTTCTGGTGTTGGGGACAAGGGTGTGAGTGAGAGGACTGAGTTGTTGCCTTTAGGAAGTGTACCGTCTAGCCAGGAGTAACGGCTTGAGTCGAAGTCGGC
TCCCATTGGGCCTCTTAGGGAGTCCCAGTTTGCTCTGAGGCCTGCTCCTCTCTGGGAAGAAATCACCTTGAGAGCTTCTGGGATTTGGAACTCCCTGCAT
GGTTGGATCCCTTCCATCTTCATGTGAATYGTCTTGGTAATGAGGCTGCCCAGGAAAGCCATAACACAGGGACATTTGGTGGGCAGGTCCACTTTCGAAG
TTCTGGGAGTTACCGTGGCTATTGTTCTGACTGCAGTCTAGATGCTCCCAGGCCCATTTCTCTCCTTTTTCACTCTTTAGTTCTGCCTGGTGACCAGGGA
GGTGCCCCGCACCTCACCTGTCTAGTGGGGTTTCCCACCACACTTCCAATTCTTGCTCATTCAACATCAAGTCTTTGCTCTGCCTTTCTTCGAATCACGA
AGATCCTGTCTGCCAGAAGCATCCTGTCCAGGYTCCAGGCAGACGACAGTCTCTGAGCATTCCAGGGTCTTACAGTTTAGAAAGAGGAGAGAGCAAGAGA
ATCTTAAAAGCACCATAAGCTGGAGCTGTTTAGAATAGAGCAAACGGCCCTTGGGGCTCTGGCAATTGATGTTTGTAATTAGTATCCTGATTTATTAAGA
AGAGTTTGTTGTCTCCAGGATTAAAACAAAACAAAACAAAAAAATAGATTCTTTAGGGAGATTAATTGGGACTGTCCTGTGGGTAAGGAGATAGTAAGAA
GATAGCAGTAAGTGGAATGTTACCTAACAGGTAAGGTGCAAATGGGCTCTGAGGTACTCCCTTGAACCTGGGCTTCTGACACAAGAAAAGTAAAATAACT
CAGGTCAGGGAAATGGACCTGAGTGCACTGAGAATATTAATGCAAACAGACCCCAACCAGAGTAATGTGTTCACTGTGGTTGGGGTGGGTGGGTTTGTAG
AATCTGTTACAGAATCTTGGAATTGTGAGAGCAGACTGATAACTCTAACCTGACCACTCTTCAAATCCTCTCTTGAACAGTGAGGAAGCAGAGGCTCAGA
GAAAGAAGACTGCTGTAAGATCAAGCAATCGTGTGTAGCCAGACAGTGGGAGAATCAAGACTAGAATCCAGATCTCTTGGTTTTCCTCTTTCCCCTCGGC
CACCTCCRATTCAAGGGAGAGTTTAATTTTGTGAACCATTCCTGTTAAGTGCCATTAATTTCAAGGTCTTTCTGGATTAGTGTGTGAAATTCAGTGTGTT
CAGTATGAATTCACTTATTTTCCACTTGAAATCCTGATTTTTCTCGGATGCCCCGGGTGTTGATATGATGATCAGGAGGCTCGTGATGGTGATGAGGATG
GATTAATATAATCATCTCTGCTAAAGGTTAACGAGAAAGCAGTGAGCTGGAATTGATACATAAAAAACACTGAAAACTTTTCAAGCAGTGAATGTGCTTT
AGCGATACATAGACAATCAGATCTTACCATTTATGTGTGTATTTTGAATGATGAATGAATAACTAGTCTTTCCCAGAGGACTGGTATTTGGGAATCTTTT
TATAAAGTGTTGCTTTCTGGGCTTTCATTAAAAGCTCAAACATAGAAATGTATGAAAATGATCCTTTKAAAACAAGTTTGGCACCAACACTATGTGAGAA
AACTTGAAAAGTATATAGGTTGTGGATCACCAGTTCTCGAACTCAGGACCACCCTGACTGAGTTGACCATGATCAGAATGGATGSAAGAGTTCACTGGTT
TTATAATTTTTGCGAAGAGCTGTCTTCTGCCCTTAGCACTCCCATGTCCTGTAACCAGGAAACAAGCCGGTGCCCTGGGTTGAGTTCAGCAAGTTTGTTT
TGACTTGCAGCCCATCATGGGAGTGAAACTCTCATTATGTAATGTTAAACTGGGCCTGGAATGTCAGCAGAGCTTGGCCTGCCAAAGCTTGAAGGGTTGG
TTGGGAATGGACTATGTTTAGTATGACTAATCCAGCTCGGCTGGGTACTGGGTGGGTGGGTGGCTCTCTGAGGAGGGAGGTATGACTTGGGCTATTTCAA
ATCTTAGCACTTTGTATAAACTCTGTAGTCCCTCCCCTCACCCCCTTCCCCTCCCACAAAAGAAGTTAAGCCTTACTGACCAACCAGTACAGTCAGGGGC
TGTTGACTGATACCCAAGCCTTGATGTACACATTTGTGGTCAAGACATCAAGTTGCGGCCGGGCGTGGTGGCTCATGCCTATAATCTCAGCACTCTGGGA
GGCCGAGGCGGGTGGATCACGAGGTCAGGAAATCGAGACCATCCTGGCTAACACAGTGAAACCCTGTCTCCACTAAAAATACAAAAAATTAGCCGGGCGT
GGTGGCGAGTACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTACAGCGAGCTTGCAGTGAGCCGAG
ATCGCACCAGTGCACTCCAGCCTGGGCGACCGAGCGAGACTCCGTCTAAAAAAAAAAAAAAAAAAAAAAAACAACAAAAAAATCAAGGTACATCACTTGC
AATTAGGGAAATAATGCTTTTGGGTCCTGTGAAATAATGGTGTTTCTTAAAGCAGCCTATATTGGTCAAGCGTTGCTGGCAGGGGCACTTAGTAATTAAA
GCAATTACACAAAGTAAACATTAGGTTCCTTAATAAAAATAGCAGTGAACCCTAGTAAAAACTGAATGTAAGGAAAGAGGTGGGCTATTTTCCTAATAAA
GATTCCAAAGTATAATTTAGGGTCTGTCGGCTGACCTTCTTGGTCTTCCTTTGAGAGCCTCCAGCCCCCTTTGCCCCCATACTTCCCCACCAAGCTTCCT
CTTGGCTCTTCTTAGGGGACAAAAGAATCCCGTTTTTATGCAAATGTTTTTAGCTGGAGGTAGAATAATCAGGAACCATGTTTGCACAGTGATCCTTAAA
CACAATGTGGACCCCCCCACCCCACCAGGCAAAGGTTGCATTTTGGTGAGGATGACAGAGCCCCCAGCCTCTGCTCCGCCTGAGGTGAAGTGGGGAATCG
CTTTTGTCCCTTCCCTGATGAATGGGTGTAAAGTGTTCACTGAACCTGGAAACACCTCCTTTTGTGTCCGGTGCTCTCCTAACACAGGCCGTTAAACTTG
GGGCAATCGCTCATGGTGGGGGATTGAATGGGGCCATTGTGGGGGGGAGGGGTGCACACTGAAGCCATTGTGGGCATAGAGATGCCATTGTTTTCTCAGT
ATTAAGAAAAGGAGTAGGACTCTAGGGACCTCCAGGCATCAGTGTGGCCGACCACTGCACTGACTGCTTTTCTAGGTTTGCATTATCCCTGAGGAACCCC
CTAGCCTGAGAGGTTGGGCAAGGTCAGCCTAGGCTGGCAGCACCGCGGGGCGCCCCCTGCAGTATGGACGTGGTATTCCCTTTCCGGCCTCTGCAGGGCC
AGGGCGCTCCATTTCTTCCCAGGACTGCCTGCCCTGGTCGTGGCCGTCATTTCTGCAGGGAGGTTGCTGTTTTCCTCCAGGCATCGGAGTTAAAAAGCAT
TTGTTCAAAAATCACTTCTTCCACTTTAGGAATAACATATTCTCCCATTCCCTGCCGGTGACTTTTTCATTTAATTTTCGTTTTGCCATATGGTCTTTCA
GAGGCACTCTGATCTTAATTATAGTATTCAGCCTTTGTTTATTTAAAAATCAGAAGGCAGATAGGCTATTGAGGGTTTATCTGTACTAATTGTACCACCA
TACCTGCCAACTGTCCCCTTAACCACTACAATCCCTGCCGACAGTGTGTATACACAAACACACGCGCGTGCACACATGGGCCACATAACGTAATGTGTTG
ATCAGAAAGGAGCGTATTTCCAGCTTTAGAATTGCCGCACTGGCATTTTCCATCATGAACCCCTGCCATGTAGTGTTGACTTGAAGGGGATTTAGCCATG
GGATTGGGAAGAGCAGGGAGTTAGGGTCAGAAGACCTGAGCTCAAATCCTGATTCTGCCACTTACGGTGTTATCTTGGGGAAACAATTTTATTCCTGGAG
TCTCAGTTTTACCATCTATAAAATAGGGATAGTGCTATCAATGTCCCAGTAAGGGTGTGGGATTTATTTTTTAATTTTTATTTGTTTATTTATTTTTTTG
AGACAGGACAGGCTCTGGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCAAGGCTCACAGCAACCTCCCCTCCTGGGTTCAAGTAATTCTTTTGCC
TCAGCCTCCCAAGTAGCTGGGATTACAGGCTCCTGCCACCACGCCCAGCTAATTTTTGTGTTTTTAGTAGAAGCAGGGTTTCTCCACGTTGGCTAGGCTG
GTCTCGAACTCCTGACCGCAGGTCAACCACCTGCCCCAGCCTCCCAAACTGCTGGGATTACAGGCATGAGCCACTGTGCTGGCTGGGTGTGGGATTTAAG
TGAGATATTATGAAAGGCTGGTGGATGTGTTAAGCATCCTGACATCTGGTGTTCAAGAGTTAGAAAGTGAAGCCCCATACAGCTTTTATAATCAACAGGC
TTAGATGCAATGGCCTCAGTTGTTTTTTGAAACATAATGTGCATATGGTTCATTTTGCTGTTTTACCTGCCTCTTTGATAACTTAAATATTCTAATTAAA
TCATGGCTTATATCAGAATGTATAATATTTTATAGATCTTTTAAAAAGTGACTTGTTTGAAGATTATAACATCATTTCATACAGAAAATAGCTTTGCTAT
GCTTACATTTTGAAAACACCTGTTGAARCCTCTAAAGAAACATGTTTATAAAATGTTAAACACGTCAGTTATATTTTTGGTTTAAAACAAGCATGATAAT
TCTTGACTTCTTCCTCTGAATTTGGGAAGCTCTTCTGTTAGAGAAATCAATTTTTTTCCTCCCTGATGCCTGAATAAAGATGCATTTTAAAAAATATTAT
CTTTGTAGATAATAATGAACTTTTAGTTGTTATACTAGGTTCTAATAACTTTTTCATCAGGCCATCACAGTCTGAATAATTGTAAAAAAGTCAATTGTAG
AAACTGTTTAAAGAATTTCCAATTCTAACATTTTCTTTGAAATGTTTGAGATTGTCTACTGGGGTTTTTTTTTTTTTTTTTTTACGAATTTTTTTCCTAA
AAGATTTTTCAGAAGCAGTGTTTTCACATGTAAATATCTGCAACAAACAGCACTTAACCAGTCCTTAATTGGTTCTATATATTTATACGTGAGACACAGC
AATAAACATGTAGTATACACATGTCTTTGGTAAAGGAAGCTCTTCTTCTCACAAGCCTGGCTGCCCCAAAATTATAGTGAAGGACAATGTCGATTCTAAT
TGCTGGCTTTTGACCCCTACATCTATATATTTTACCTAATTTATAGTTGGAAAAGGAGCTAAAAATGTTAAAAGGGTTCATGCCAGTAGTTTGAGTTGTT
GTAGTTTATAAAGCCCTAAAATTAAGTATGGAAGTACAAGAAAGCCTATGCTATGTACTGGGTCAAAGAGAAGAAATCCAAATTAATATTAATTGGTATT
CATGAGCAATCCCTGAGTGCCCGTAATGTTTCTGTCCCAATCATAGACTAATCTGGCCAATTGTATGGGTCAGACAAAATAGCCAACAGCTCTGAGTTTA
GATTGGTATGAAAAAAGGGGATCTGACTGTTAACACCATATTCCCCAAGTCTGTAATGTTCTCTGACCTCCAGTGCAAATAGCTGTTCATCTTTAGATGA
TTTGACAGCATAATTTAGCATTTGGGATTCCTTTTTTTTTTTTTCTAAGTGGTGATTAAAAACTTGTGCTTCTTCTCTAGCATATAAATCAAGCTTTTCA
GTTATATTTTCCGGGGCATAGAATAATTGAAGTGAATTGAACATTGGGCTGGATGGTCATAGAACTGGTTTCTGTTAGAGGTTAACTGACTTTGAGGAAA
TTATACCATCAAGGTACTCTGGGGTGTATCTGTCAGCTTTTTGACAGTTGTAAATAATTATCTCCCTCTCTAGATTATTAATTCCCTGAGGGCAGGACTT
TGATTCACTGATATATCTATCTATCCCTAGTGCCTAGAACAGAGCCAGGCATGAAATAGGCACTGAATCAGTATTTATTGAATCAGTGAATGAATCTCCA
AGTGCACCTAAGGGAAGGATACCAGGAAGAGTCTACTGTGTTTATGGAAACAGCAGCAATAATTCCTCCTCCTCATTTTCATTTGCTGAAATTACTAACC
AACTGGGTGCGGTGGCTCACGGCTGTAATCTCAGTCCTTTCAGAGGCCAAAGCAGGAGGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAGCAT
GGTGAAACCTCATTTCTACAGAAAATGCAAAAATTAGCCAGGCGTGGTGGCATGTGCCCATCACCTCAGCCACTCGGGAGGCTGAGATGGGAGGATCACC
TGAGTCCAGGAGGTGGAGGCTGTAATGAGCTGTGATCACGCCACTGCACTCCAGCCTGGGCAACTGAGTGACACCTTTTCTTTAAATAAAAWAAAATAAA
TAAATAAATAAAATTATTAACCAGCTRATCTCAAATCAATTCTTCTAAATCCTCTGAGCTTGTTTGTTTTTCTGTCTGTAAAATGGGGCTGTTTTCATGT
GAGACTTAGATTATGAGAAATAGTCACGCCTAAACTTCCTTGAGGAGATGCTAGACAAAAACAAGATGGTTTTGAAAAAAATAACACCACCGTCCAGACT
GTACTAAGATGCCTGGTTGCATTTGAAACCAGTTTCACAGTCTGCTTTGGGCAGGTGATTGCGACATGCTTTCCATCTGTGCCTAATGGGAGTATACTCC
CAGCTCCACATGGCAGCAGGAACATTGGCAGGGCTCTTCTGGAGAGAGGAGAGAGCCAATAGGCGTTGCTATGGTGGAGGCATGACATAATTCAATTTTA
CTTTATTATTCACTGGATGTGCCCATTGTATGTTAGCCTCTGGGTATGTTTACAAGGAGCTTAGGAAAGAGGTAGAGGCTGTGTTGTCTGTAGAGGCTGT
GCTGTCAGCAGAAGGGGCCAGGCATGTTCACACACACACACATGCACACATGCGTGCACACGCACACTTCTCTTCCCTGGCATGCAGCACCAATCTTGGG
GCAGAGGTGAAATCACCACCCGGCTAGCGACTGGCAAGGCTCAGAAGGACTTGCTTTCCTAAAATCTCCTCCCCTGGTCTCATAATTCCCTGTAGCAGCT
TGGGGCTTGGGTGTGTGCACACCTAATTTCTCTGAGAACACATACGTGTTGTAAAGGGCACAGCAATTTCCCGTGCTTACTTAATAGTGTTTAAATCAAC
TTACTGGATTTGGGTGCCTTTCCTTGCCAACATTCCTAAACTTCATGTGAACAGCAAAAGTTCAAAGTCCACCAAAACATCATTTATTTGTTAATGAAAA
CCAAGCAATTTCAGAATGGGATCGTACTGTCCTGTACTGTCACCTTCTCTCTGATGTTATGGAGGCATGTTGTCTTTCTCCAGAGGCAAGCAATATTGTG
TTTTAAGCTTATGAGGCAATCATGGGAGGCGAGTTTGGCCAGTGTTTCTGTGTATTCAGATCCTCCTCCTTTTAAAAAGAATAAAATAAAAGGTAGAAGG
CTTTTCCCTGATTATGCTTTTCTGGTGGGTTTCTATTTGTCATTGCGGTTTATAAAATGGCTTCTTCTCCTCTGCTTCCAATTCATTTGTTAATATTAAC
TCTTGGTTGTAGCAGAGAGTCACCGTTATCTGAAAAGCAAATTCCCTTATTTTTGTCATATTGATGTAGTAGCAGTAGTTAATTAGGGACCTCATGAGTG
ACAGGAGTTTTTGGGTTCTATAACCAAAAACCCAAACACTGGCCAACCCGGTCTGCCTTGTCAAGTCGGTGAAATCCTGACAGCTTGCAGTTTCTTCAGC
CTCTCTCCCTGCACTTCAGTACAGGAGCAGCCCAGTAATAGTCCCGATCGCTAATAAGAGCACAAACACCCGTAAGCAGGTGAATTGGAAATATTGTCAT
TTTGACTACATCAACAACTTATAACTTACCAAAGCAACTTGATGTCCTTACTTAATTCTTCCCCCGCACCTCCCCACCAGTGCTTGATTAACAAACTGGT
CAGTGGCTATTTAGACATGAATCACAGGGCATAGGACATCCTCATAGGATGAGCTGCCTGGGCTGGACACACTGGCCAGGTTGATGACTTCTCTTGAAAG
GGGGGTTCTGTGTTGCTCGCACCTTCACCTAGAAGGAGATGTGAGGCATTTCTTAGAACAGTGTTCACCCCCTTTAGAATTTGTGACCCTTTGTCCTTGT
TAGTCTTGATGGCTTCCAGTTCTCCAAGCCCCAAAGAACTGTGTGGTTTCTCTTATTTCTGCAGCATTTAAAGAAATTAAATTAGTTTTCCTGGGCTCCT
CACCATCTAATTTGTTTCCCATTAGAGATAAATAATGACGTTTGGGGCATCATAAACCCAAGGATTTCCATGTTAGTTTTCCAAGGACCTTTTTTTAAGA
GAGAGGGGAATAAGAATATTTGGGTCAGATGTTTTAAGATGTTAAATATAAAAATCAGCCTTTTAAGAATCAAATGCAAAGCCAGTCACTTAGCCTTGAA
TTTCCCACTGTGATTCCACTTTTCAAAACCCAGGATGACCATCATGATGGGTTTMGTTGKACTATCAGTTGTTACAGGTCAAATCATAGTCTCATGATTG
TTAAAATCTTAATAAGGCCCCCTCTAATCCTGTGAGTTTTCAGAAGGAAATCCCTGTGAACAATCCTGGAATTGCTTTGCCTGGTAACATCTTATTTACT
GACAATATCCCCAGCTGAGCTCTCTTGGTTAATATGTTTGCTCTGGCACTGTAGTTCCTTTTTAATCAGAAATGCTTATCAGTAGGTTGCATGGTTGGGG
AAAATGGCATTTATTTTGTAGCATTTTCCCAAGGAATATTGGATGAATATTYCTTTAGTACTAAATATATAATGGTCTTTGTCTTAAGAACTTATTAGCA
CTGAGATTTCTGTGTTGGAATTTTCTTTATTGATACCGGTTTGTAGGTTCTGGAGAGTCCAACTGATATTTTTTTGCATCTCGATCAGAAGCTCTGACTT
TTTGGTCCTTAGCAGAGAATACATCCCTTGATATCTTGGAGGCGCCCTTAGTGGAGTCAATGGTGTGTGGGCTTAAGGAGAAGTCAGGGCATTAGCAGGT
CTGTATTTTCCTCCAGCGTGGAGTTTTGTCATTTCTAATGATGACAATCTATCAGTCCACATGGTTCAAAATGAAGATAAATTGAATTAATATATGTGAG
TTAACYGACTCATTGATATAATTATACTGTGAGGATTTCTTTAGTGTAACCTAACACATTTAGTAGTGTTAATTGTAATGGCTTTGCACGGGAGCACTTA
ATTTCCTAAGCAAACAGAATAATTTATTAATTCTCAAAAAGCGATTTCAAGGCCTAGACTGAGAGAGAAAGAGTATGTGTTTTACTGTAGTCTCAGTTTG
CTTTGGCTTATCAGATTGAAAATTGCTAAGAATTTTTTTCCAGATTCCAACTTGTTATTGCTACATTTCCATGTGTGCCCAATTCAATAGCGTATTGAAA
TGAAAGTAGGAAATAGGTACCGTCCAGTAAATCTTAATTAAGTTATTGAAAATTGAAGAGCACTGAATAATAAAGCAGTTCTAATTGCAGTTAAAACTGT
ATTSGCAGCAGATATGCTTGAACAGGGATGATAAAACAGCTGAGGAAGAGCGTTGGATGGCAGAATCGAAAAAGGGTAATACACAGATTAAATGCAAAAC
TCAAATGTTTTGTGAAATGTAGGCAAGCTGTGTAAACCTATTTTTTGCTGGAAAGCATGTTTTCTGTCATGTCAGAAATGATCACAGGAATCCTTTTAAT
ATTCATTTAAATAGTTTTTAATTGGCTTCAGAGAGTTTAAAGTTCAGCATGAAGGTGAGATCTAAGCTTACTAATTAGATCGAATGCAGTTTGACTTAAA
GAGCAGACTTGATAATTAAAGAATTTCATACCAAATATACATTTTGAAAACATTTCTTTTCACATCCTTGAGGTAAAATGAGTTTTCCTGAATTTTTTCC
CTTCTTTTCAAATAGAAATTTCTCTTACAGAAAGATGATCAAATCTTGTATCGCTTGTTAGAAAATGACAAACCTCTCATTTGTTTGTCATTTAGCCAAC
ATCCTGTGTTCAGGTTATTCTAATTTTTTTTCCCATCCAAGTAGAATTTTGAATTGCACGGAACGTTGTGATGAACACAAGTTGTTGTGTCTTGTGTTTT
TCCCCCCACCAAGTTGTTTGATGCTGTTGAAATGGAAGGCTGAAGTAGAAGGGGCACTTAAGCAGTGAAGGGTTTTTCTTTGTAAATAATAGATCAAGAG
CACTGGATCTGTATCTAATGGAGCTGTGTGCGGCCTCCATTTCAAGGACAGCGCGCGGTTTTAAAAACCACAACTACCGACCATCCCGTCCACAACCTGT
GGTCAGTTTTGTGAATGTGTGTGCGTGTGTCTCTGCTTGCCTCCTCTAATTCCTTAGCACCCTTCCCCCTTAAACAGGCTGCTGTCACGTCATATTTGAT
TTCATAAAGTTAAAAATAGAAACCTCAAACAATATGAAGATGTGTATCGATATAGCTCCTTACCTGTCTTCTAATATTATGGAATGATTTGAGGAACTTC
AATCCTATTTTACTCAATGTGTGAATGAGCCTATTTGACTATGGTAGGCTTTCTAAGAAAAGGTAGATGTATGTAGCTGACAACAATGCAGAAATGTTTG
TCTTAGGAGCAGAAAAACTGGATTGGTTATGTATAGTTTATCATGATAATCTGATGAAAAATTAAATTTATCATTTTCTCCCTCTTTTCCCTTCCCCTTC
CCCTTTTGTAGGTTATAAATATGTTCTTATATTTGCCAGTTTGAACTTGTGTTTGAAAATCATAGATTTGATACTCTCAAGTATTGTGGTGTTATTGCAT
ACAATTCCTAAAAGCACAATAGGACTTTGTTCCCTCTGAATTTGAATTAGTTATATTTTATCACTTATAATCTAAATTAGACCTAATTAATATTTTCCCT
TGTAGTGTAATAGTGCAAACATTGCCAGTATCTTAAAATATGTAGTCTCTGTTAAAAGCATATTTGAAAACAGAAAAATAAACATTATATGTTAAATATC
AAGTAGGAGTCTATGTAAATAAAATAGAAATGAAAGTACAGATTAAGCCTGGGGATCCTTTGCTTATTTGTGAAATCGTTGTTTATAAGATTACAAGGTA
GTTACTGTAAATTGAAACATTTCTTTTTTTGCTGCTTCCCCCCCGCCCGCCCCAAGTGCATCCTACACATTTGGGCCTATTTTTTAAAAAGGGTTAAATA
GTCTTTCCTTATAAAATAGATCCATAGATAATCTAGGTAAATAGATTTTAAATCATACATTTTAATATTTTTTATTACATACAAAAATAAATGTTGAAAG
CTAATGTTCCTAACACACTGCTTTCTTGAAAGAAAATCATTAATCTTCTCAAATGCAAGTGTAAAGTTGATCCATTTTAGCTTTCTTGTCCATAAATTGT
TGATTATTGGTTTTGAAGGAAAACGCAGTATGAGTGTGGTTTGAATTTTAACACTGAAATCATAGATGTACAACATGTTCATTGCAGTCAAATCACAAGC
AGAGAGAACCCATTTGAAACAATATTTAAAACATTCCTGTCGGGGCATTATTTAATGGGAATGATAAGTTTCAGATTTTAGGTTTTAGAAAGTTGAGGTT
GGCTGTACATCAAATCTACGATTTAACTGCTTTGAAAGAACGCCTTTGCTTGTCTTCAGGGGGAAACAAATAACTTAGGGGACATCAGTTCATTCTCTAA
CAGTCTTTCATCCCTAAGTATAACAAATTGTTTCTTTTATTAATGTGGTACTCGCACTATGGAAGCAGTTCTTTGGGGAAAATAATCAGGAAGATATGCT
TTGCTTCTCCTAGATGCTACAACCTGAAATATGTTGCTACCTTCCTTGAAGGGATTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCYCTCTCTCTCT
CTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTCTCCCCCCAACAAATATAGCTAACGTAATAGAAATTACAGAACAGGATACAATGAGATTTCTTTCCC
CTTCTCTCACAGCACGTTTTGTTTGGCTAGGAGAAGGCAAGGTATTGGAATATGATTATCCCTATTTAAGGAAAAAAAGAATGATATAATTTGTCATCTT
ACCAGTTCTCGGCATTCTTTGTGGTGCGCGCTTAGTCAATGCCGGGAAACGGCGGTCTGACAGCTAATAGATATCTCTGCCCTCAATTGTTTAGACATTT
TTTGTCTTTTGTGACATTGAAGAAAAGACAAGGAAGGGAATGGAAGCAACTAAAAAATGTCAAAAGATCAAAAAATCAATGGGCCGCAGGAATGCAATCT
GTTTACCGGGGTGTAGCTGCTGTTTCTGCTCCGCCACAAGTCCGAGGCGGTTGTCTGGGGCAGGCACCGAAGTTGCGTCGCCTCCCTCCCTGGGAGCTGT
GATACGGCACACAAAGCGGGCACATTAGCTTGCTCGCCCCCACCCCCCGCCCCCATAAATAAATAATAAAATAAATATAAGCTTTTCTCTTAAGACTGCA
AAAACCAAGTTTTTTTTGGTGCTGTGTTTTTCGGTCCATTTCCAACCATTTCCAGGACTCGCTGGGCTCAGCCCAGCAGACGGGGTCGAGAATTTACTGG
TGGTGTTTTAATTTTCTGGCCAGGGGAGAACCCTTGATGTTTTTTATTATTTATTTGTTTGATTTTGGAGAGAAAAAGTCAATTAAAAGCAAATGGGTGA
TAATTAGGTGAAGCACATTGGGCAGATGAATAATGGTTTTGTCTCTGGCTTGGACTATTTGGACGAGGCTTATATGTCTGTCTTGAGGTGATCAGTGGGA
AGAGGGGAAATTTTACTGGAAACTTGTTTCTTAAAGAAGAGAAAGGGGTATGTGGATAGTAAGACTTATTTAGTTTTGTAGGGAGGGACAGAGTGTTGGT
TTTTCTCCATAAAAACATTTGGGTTTTGAATGACAGACTTTGTTGCCTTTTCTTTTTCATTTTTTAAAGTTTTCAACCAACTGGTCATCTGGGGGGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTKTTTGTTCACCTACACATTTGCCTGGAGTATAGTGAGAACCCAGGAAAATGGATAGGCCCTACCAGGAGAGGC
TGCAATCTGTTGGGGAAGTTTTTTTGTTTTTTTTGTTTTTTTTATTTTATTTTATTCCCAAGCCTTGGTTGCTATTTGATAGTAAGTGTGGTCCAGGCTG
CATATTTTATAAACTTTCTATTAAAGTTGTGGCATGTTATCATAAAACTCAATTGCGATACTTTGTATTACGCTCTGGGATTGAGAGATAGACATAGGAT
TAAAAAAACAATTTCTAGGCATTTCTAGATGATAAATTTAATTTTCTTTGCTATTTGGAGGTCTTCTTTGAAAATGCAATTGTAATGAACGCATTCAGAA
CTGGAGAATAGATTTACCCTTGGCTTCAAATAGTCGACGTTATCAGGCGCTGTCATTCGTTCCTTCCTATTTTCGGSCTGCTAATTGATGTTTTTGATGT
CAGCAAGAAAATTGAAGAAAATGTCATGTGTGAACCAGTGCGGAAGTTAATAAGATTGACTTCGTTGACAGAATTTACAATGAGAGCAGAGACCGCATAA
TGGGACCGCTGCGAATTCGTGTGCTCTCTTTGGAGTCAAAATTGACACCTCACGCTAGGCCAGTGGTCGATAGGAGAGATGGAACATTTGGGAAAGTTCC
TAATCTCATTTTTCCCCCCTTACCTTTTGGTCTCCGATGGTGATTTAGTTTCACCGGCAGCTGTTTATCCAGGGGGCTATTGCTGCGGACCACGCCAGGC
CCTTAGTTCAGACTCCTGGTGCCACCAACAATGCTTATTTTTTATGCTGTTTTGAGTTTGAAAGCAAAAGAGTCTTAAAAAGGTTAGATTAAGATGTGTC
TTAAGGAAAGATATACTAATATCGGTCAGGGTCATTGCAGATGCTTAGGTTATGTGCAATAAAGCCGAAACACAAATCCCTCCCTGAATAAAGAAACCAT
GTTGGCACTAAGATCAGTCCTTGAACATAACAGAAGGTTATAACTTGCAAGCAAAAAATAATAAAGTTCTTGGCCACATGTCTCCACCCCCAAAAGAAAC
ATTTTAGCCATGGTGTCCCTTAAGGTGTTTTTTTTTTTWAAAAAACTTATCGAAGGTTTCAATATAATAGACTAATTTTCCAGTTATGTGGCAAAGTTTA
TTGGATTTGTGTGTATAATTATGGATTGGATTAGTTGAGTTTGGTTCAGTGCATCTGATTATCTTCTGGCCTTTAGGGAAATGCGCTAAAACCCTAATAT
GTCCACTACCCCCAAGCGGTCTCTTTTTGAAGGCGCCGCACAAAATGTGGTCTCTACCAGCGCTTGGCCTCCAAGGATCTTCAGTGAGAGACATTATTCT
TGGAATATCCAATTAATTCCACGGGCAGTGATCAGTTAGCGCTTCTTCTTCCTTTCTCGCCATTTGAAATGCTAACACAATGAATATTTTCTCATTGGTC
TGTGTCCCTCGGCTAAGCTGTTGCCGCGGGCTGAGAATTTCATCGACTGATGAGACCAGAGGCTCCGCCAATAAAAGGTTACAGTACGTGATTTGCATGC
CAAGTGGGGTTTGGTTTCATGAACTTAAAAGTTCTTTAACTTTTATTTGACTCTTTTTCTTTTGTTCAAAGTAGATTGAGGGGTAGTATATTTGTGAGTG
TTTAAAGTATGAAAATTACCAGGGACAGGAGGTCACAACTGTATTTTGGACCATCCTCACACAGACGGAGAAGATGGCCTTTGTGTTAGTGGCTTTTATG
GAGAGCAACCACATCAACTTTCTAAGATCAGGTCAATGGGAAGCAGTTTTTCAGATGTTGCGATTTAGTGTTGGGTCCTTCAGTAGCTTGACATTTTGGG
GATTGGTACTGGTAGAGTATCTTGTAGTACTAATAATCAAATACAGCATCATTTGAAATGACAAGGGAGCCATTGAGTAGGACATTAGGAGGAGGAAGGA
CTATTCTTTGGAGTGGTTGGTAATCAGAGTCTTGGGTACYGAGAAAATCATACCTTCTAGAGGAGTGTTCAGAGGCAGAATGTCTTCTGTTTTCAAGGGG
ACGTAGGAGGGTGTTATGAAATACTGAGTTGCACCGAGCACAAGAAAATTTACAACAAACTAACAGCACCAGTGTCACAGGAGGATACCGATAGCGGAGT
AGATTGTGGTGGATTAGATTATGGCCTACAAACCCTGAGTTTCAGAACWGTTTCTCAACCAGACAAAGCCTCAGGAAGTATGAGGCCAAGAGCAGTTACA
CATGCATTAAATTGGCTAAATGCTTGGCTCAGAAAAATAATGTCTGATGGTGTCACCTGCATCTCTTTCATCTTCCAGACTCTTCCAAACTTGGATTTTA
TTAAATCAGGATGCTTCTTGTTGATTTAAAGGCATGATAGATGTCTTCTAATCTAAGGAGTATTGTAGACAAAAGCAAAGAGGGAGTATGGTCAAATGAA
GGTACTTCTATCCCTTCGCAAAATGGGGGGAAAAGGGATTGAGGCAAAAGGAAGAGTCAGCCTTCAAACCACTGTAATCTTAGAGGAAGGGTAATATGAT
TGGAGACTTGACATGTTTCAACTGAATGAAAAATCATGATACCTTTACCAAAATTGTTAGCAAAAGGGAACTGGCAGGGATAGGAATGGAGAGAGCCTTG
CCCCTCTTCTCGCTCTCCCGCCCTCTTCCTTCCTTCCTCTCCTAGCTGTCTGTGAGGAGCAAAGCAGGTGGCTCCCTGTGGCTGACTTTTCATGACAACA
TGCCATTAGAAATTGCCGTCCTGTTGATCAATCCTCTCGACATGACAGATTTGCCGCAAGGCCTGGCTCTTTGAGCGCCAGCACTGTGGCTTTTCCCTCC
TTTTTTCCTGCACTAATTGGTGAAAGTTTTTTTACTGTGCTAGTGGCAGAGGAAATTCTTTTGAACGTTGTCACAATCAAGTGTTGACTTCTTTAGAATT
GCAAGTAGGTTAAGTGAGTATCAACATTGGGGGGTGAATGGGAGGAGGGAAAACACTAACACAAAGTTACTACTACCTAAATTTTATGATTAGAGTAGTG
TTGGAAAGCAAACTAATTGGATTTACCCCCCTTCTCTCAATATATATATTGTGGGGGGAAATGCACACGTACGCACTTGCACACGCACACATACACACAA
CACACACACACGTGCACGCACACATACACACAACACACACACACACACACACAAATGAAGGCAAGTATTTATTAAAATCACAGCCCTTTAAAACTTCCAT
TATGTTTTGTCATGGGGGTGCTGAGGCAGCCCTGACATTTGCAATGGGGAAAACACGTTGCCATATTGATTGAAGAAAATACGTCCATTAGTTTCTTCCT
GTAATACACGGATTCGGAACAACAGTAACACAATYATTACATAACACACTGTAAATCAAAGGAATATATGAAGCTTCTATTAGTCGAGCACATTTTACTC
TGAACTTAGTGACATTCTTCTGTCCAAAATCAGCATACAAAGAATCAAACCTCTTGGCAAAGGATATGTCCTTAGACATTGATTCTTCTCCTGAAGTATC
AAGATACACTTCTGCTTAAATTCTGACATTCTAGTTTATACATAAGATTATTTTTTAACCTAGAACATAACAACCTTTCTTAAATGATTTAAATCCAAAC
TTCTCTATGAAACTGAGAGTTAATAGGGTTTATCTTTCTATTTAGACAGAATTTGAATTGGAAACCTATTTTTAATATTCTATGATTCAAAATGTTTACT
GAAGGAATTTGTAAAATTAATCTTTGCTTAAACATATATTCCTTGATGATTAAAAAACTTGTTAGATTAAAAGCATTGTTTAGCCAGATTGAGACAGAAT
ATGTGTATTTACATTTTTCATGTCACAGAATCTGTGTAGTACATTCTCATTCTTATCTATATACCATTTCAGATAATTCCAAGTTGGTAAGAAAGTAACA
GAGAGTATGAAACCCTGCAACTTAACCGTGGGTTTGTGACTATCAGGAAGAAATTGTATGCAGGAATAAAGATTTTGTACTGGCCCATCATCTAAAAATA
GCAACCACATGTAAAAAAGAGGCTACTTCTATTTAGCAGTAGGTATTTACTAGGAAAGGAGAATTATAGCAATAAAAGTTACTAAGATTATTAGCGGAAT
TTCTAGTAAATTGCTTTAGTTTTAGGTACAAAATGGAAAGAAGATGGGAAAGTGTGGTCCGGAATTACCTGGGCCCGGTATCCCTCCTTGGCCATCACAA
TTGCTGCAACCGTTATAGGGAAGAGAAGTGTAGAAACCAGAAACCCCTATTGAAAGAAGCATCAATTCRTATAATTAATTTTGCCATTATAAAAATCATT
TGTAAAATTTGCATTATTAACATTATCAAGTCACTAGTTGGTAAGACATCAGACATGACGAGAGTGAAGGGCAGCTTAGGGAGAACTGGGCTTTAAACCC
TCAGTAGATCGGAGTTAGGATCAAAGGCGCTTGCTTTATGTGGCTGTGCTAGACTTTGAAGTCATGACTGCACCTACAGCACTCATTTCATCAAGTTCAC
TGGTGTCTTAATAGCAGATCAATAAGTTTCAAAGTCGGAGAGTTAATTTGATACTAGTGCTGATGCGGTCGTGCTGGGGAAGCCGAGAGAGAGGCAGAGA
AAGCTGCCTATTAACAACTCCGGTTCAGAGCGCACAAAGATGCAGATTAAGGATATATCCATGGCCCTGAAAAGACAGGCTCTGGCCAGGAATGGGGAAG
CTCTGGATTGATAAAGCAAAGGCTCTTTACTTTAGACATCTCAGGTTATTTGGAAGTCAGTCTATGCTTGAAAAATCTTTAGTCGGATACACATAAGTAT
GTGTGTTTACACATGTCTGAGTTTTGGTCTAGATAAACAGGTGATGGGGGAAACGTCTGCACATGCCTTTCTAAAATAAAGGAACATATCTGCATAAGGA
CTATTGTAGGTTATGGGATGATGTGGGGGAAAAGGTAGGAAAACTGTGATTTTTGAAGGGAGCATTGAATGTGTGCTTTCATCATAGGGATTACGTTGAT
TTTTTTTAAAGTGGCATTGGGAATATATCCTTAAGTGAATCATATCTAGGCAATAATAATTTGACACAAGTCCATTTTGATCCATTTTTTAAAAAAGGAG
TGCTAGAGGAGAAGTCTTAGCCCCAAATTCCTTTCCTTCTTTGTAGCGTACCTTGACGTGCGTGTGAACAAATGGGATTCTTTATTGCTTTCTTGTATTC
TTATCTCATCCTCTTAACCGATTTTGTCTCAAGTCTTCCCACTTAGAAAGTGATATATTTTTAGGACCTATTCCAAAAACTTGTTGGATATAAAGAGCAC
TGAAAGAGAGAAGAAGAAAAGTTGGGGCAAGATAGGATGTTTGTATGTATGTTTGAGATTTTTCTTTGTTTTCAGCGATTTTACTGGGGTCCTTCTGACG
GGATAGGCATAAACATTATGGGGTGTGTGGCAGAGATGACATCAGTGGCTATGGCAGGAGGGGATTTGGAAAGGCTCTTTTTTTGGGCAAAAGGGGAGGG
TGTAAAGATACAGAGTTCAAAGATGCAAATCACGAGAAAGTAGAAACCTTAAAAAAAWTTTTTTTATGAGAACTTTGCCATCTGTATATACAGCACAGGC
TTCCCAGCATCGAAGGTCAGATTCACACCCTTTTCGAACAAAACTCTAATTTAGAATGTTCATCTAAGGGTTGATAATGGTATTAGAAGGCCAGTAGGGT
GGTCAGTGGGTGTTGTAGATTAGCTCAGTGGCCATTACAGCTTTACCTAGACCCCCACGATTCATTGGGTAGATTAACCATCACATCTGTCATTTTATCC
CTTTTACCACATTTAAAATACGAAAAGGGGGGTGGAAATATCATCTCGAAGACAACTTATATGGAGCAAGCCAATGAAGCCTGCTATTCCTAAAACATCT
AAGAAATCGCCGTATATATCTATGTATGCATATATGTATAATATAGTTATAAGTGATATAACTCTGCAGGACATAGATATAGATGTTGAGATGATTTGGG
TGAATTCAAATATGTTGGTTATGCCAGGTAAGCTGCAAATTTTTAAGCTTAATTCCTTTTAATTAGTCTTCTGCCTATGTTGTAGAGAAAGTTCTGTGTT
TTAATGATCTCGTAAAACGTTTTCTGCTACTGGGCTGATTGCGCAGTTCGTTAAGCTTCTGTTAGTTTAATTTCTGATAAAACTTCCATTTCAACTTTGC
GGCACCCTAAATGAGACCATCTTGGCTCCGAAGGAGTCTAGCGGGCACTCTTTCYGAATGGCGATTTGGGATCTGCTGCATGTATCAGAGGCTTTCGTTG
AGTTGTGTTGTTTCCTGTGTGTTTATGACAGAAAGATGTCATCGTTAAAGGAAACTTAAGAGTTTCTGTAAATGTAATGGTTCATCCTGAATAAAGTGAG
AGAGACAGTGCTTGGAATCTGGGGAATAAGGGTGGAAAGAGCTGAGCTGATGAAGGTGTTTCTTGTCAAATTTGTATAGGAATTATTTACTGTGCTGTCT
TTCCTGAGCCGCTACAGTAAAAGTGAAGACATGGAAAATTATCCCAGATGGGACGAATCGCTCRTTCTCTGTTCTTTTTTTAAAAAGAAAAGATTTCAGA
AAAAAAAAAAAGTCGTCTTTTTCTTTAGAACAGTATGAATAAAATCTGGACAGCTGTCGAAAAAGATATGCCGTCTGCATTTTTTTTTAATTTCTAGCCA
CCACCATAACTAAATAGCTTGAATAGTACCTCTTTTCTTTTTTTTCCCCTTCATACATAATGATCTCTACTTCATTAAAAGCGTATTAATCTGGTTCCCA
GTCTCTTGGGAGACACCTTAAGATGATGATATTGTGGGTTTTTTCCCCCCGAATTGTTTAAAAAAAAATTCTAGCAGATTTGGTCCCTGTCAGTCAGAAA
TAATTGTGTTCTTAATCTTGTCCCTGATGGATGACTCGGAGTTCAGCAACGGGCCGGCTCCAATGACAAATACAATATTAATATTCATTAACTGCTTTGA
CAATGCTAATTTTGATGCAGTAGTAAAGGGCCTTCCAAAGTTACCGGCCAAAGCATCAGAGCTGCGCAAGGTGGCAAGATAATTTGTGCTGGTTTGCTGA
GCTGAAGGCTTTTAAAGTCTATAGCAAAAAGCTAGGTACCACAAACAAAAAAGAGAAAGGGAAAAAAGTTCTGAAGCATTGGAAGGCAGGGCTGCGGAAA
TAATACGATCACAGTCCGCTAAAAAATTTGACACCTCTGATGCAGTTTCTTTGAGTGAAATTTCTACAAAGTTGCAACAAAAAAGCATAGCATGGTAAGT
CAGCACATTCTTGATTTTGTTTAATCTTTTTGATCTTTTCAATTATCGCTATTTGAAGATCAATAGTCATTTTTTCCTACTATGCTTAGAAGACGCGCAG
CGGTGGTTTAATATGTGTTAGGACCATTTGCTTTAAAGGAACACATCCACAAGTTTCGGTAGGTTTTKTTTTTTTTTTAAGTTAGTCATGAAAAATGTTA
TACAGTAAATTGTTCTGAATTCTTTTACATATGGGTGTTTTTAATGATCTATATTGGTTTTTGTATCCCYCCACCTCCAAAAAAAAGAATTCAGCAAGAT
AATTAAGCTCTGGATGTTGCCAAGAATTTTGAGAGTACTTTCAGTTGGCAGAAAACTTTGGAGTGAAGTGGTCCCTCCAAGTTTATCTAAATTCAGCGAG
TTTCCTCCCCTGCCTTCTCTGAATGGCATCAGATAGCTATTAAAGCGTAATTTCACTGGAGAACTGCAAAGCATTACTTTCACCAACTTAGGTGAAGTTC
TTTGGACTATTGAAATTGCCTTTATGTTTGCTAAGTCGGCAAACAAAATATCAGGCTTTGTTCTTTTGATTGAATGCCGGGGTTTGGGGGAAAAAAAGAA
GAGTAAGAAAGCCCTGCCTTTTTTTTTTAAACGCCCCCTCCCTTTTGTGGGGGGGTGGGTTGTTGTGGAATCGGGGGAGATCCCAGTTATTGTGCTCTTC
CCTATCAAGCGAGATAATTCTGTGAATGGAACTGTGCGTGAGCATCTTGTCTGGCGGCGCTGCTGGTGTGTGCTGCTCCCCTGTGCCGCGGGTGCGCGGC
GGCGGCGCGGGCTGCAGGGCGGGTGCTGCCCTCCAGTGGAGCCCGCGGCCGGCGCGGGCCCTGGGCAGCATCTGGGCGCAGGCAGCATGCCCGCGAGCCG
GCAGCGGGAAGGACAGCGCCGCAACCCTCTCTAGATGGTAAGCGCGGCCGGCGGCGGGCGGGCGGGCAGGGGTGCGCGGTGGCCGGCCCGCTGCATCCCG
CGCGCCTGCCCTGCTGCGTCCACGGCTGTCCAGTCCGCATGCATGCTCTCAGCCTTTGCCATGTTCGCTGTCACTTTGCGGTAACTTTCAGGTTGATGTA
CCTTGACTGGTAAGCTGCCGGGGTGGATGCAGTAGATTTATTTTTTTTAGCCTCTCTTTAAAACAAAACAAAACAAAACAAAAAAAACGAAAAAGAGAAA
TTGACTATACCTCCCCCCACCCCGAATTTCAGCTTGTGACTATAAAAACATGCTTTTTTATTATTATTAACTTGGACGTGAATACGGAGGGGTTTCGGGT
TTTTTTTTTTTTTCTGTCCACCAAGTTAAAGACACCAATGCTCCACCCTCCTCGCTCCCCTCCTCCCCATCCCCAAATATTTTCGTAAAGAATCAGCATT
TTGCTACTTTTCGTCCATCCATTCCTCCAAGACCCATTTCCCCTTCCTCCCTTCTTGAACCTCTTTATTTAAAACAAAACAAAASTTTGCTGATGCTGCA
GATGCGGACCGTGGRATGTAAATGAGCAGTTCCTCCCACCTCCTTACTTCATTCCTCCTGCACATGATTGTAATTTCATGCTGAAAGGAAAGGAAGCTTT
CGTTTTTGTTTTGTTGTTGTTGTTTTGTTTTGTTTTGGGGAAGTGTTTTTTTGTTGTTGCTGTCTTTTTTTTTAAACCCTACAGAACTTTGCAGCACTTG
ATCACCTTTTGATTTTTTTGTGGGAATGTTCTAAGCGTGGTGTACTTCTGACAAACTGGGGGCACCCTGGGGATGAATTTAGAGTAGTGCGATGGGATGG
CAAATATCCGGAAAGAGTTTCTGAGGAGCAGTTTTTAGTTTGAAGAAATTCAAGAAATTTCCCTTTACTTTTTAAGGAAGAGGGGGTCTGTCTAGCATGA
GTTAGCTTATGTTGCTGCGTCCTTTTTTTTTTTTTTTTTTTTTCCATTTTTCGGTCTTTTGAGAAAGCTAGAAAATARATTCTTAGTCAAAGTTGCCCAT
CCTGTTTGCCGCACTTTATAAGTTATTGTTGCTGAATGATTGGGAGCTGTCCATCAGCGGCAGAGAACTTGCAGTTTACTTAAGAAATTGCGTGTGTGAC
AAAAGCAGCTGCCAGGAGTGTGGTGGTCCGCGTGAATAGAGGGAGAGAAGGCAATTAGGGGGCTGTGTGGTTGGGGCTTTTTACTTGTCAAAGTGGAGGC
TCATTGCTTTTGTTACCACCATGTAAAGGGAATGGCAGGGTTTTGTTTTGGTATTAAGGGCCTTAAAGATTGCTGCCTGACACTTACACAGGAAGGCCAG
ATAAGTCCAGAAAGAGAGGCCACGGAGCAGTATTTTAAAAAAGAAGAAAAGAAGAAATGAAGAATTCCCACTTTTTTGTTATTTTTAAGCCTGCCCAGCC
CTTGTTTTTGTTGATTTTTTTGGTGGGGAGCGGCGAGGGTGATTAACTTGTCCCGTGTCTTAACAGATTGTTTAAAGACCTACATCGTGAAAACAGTCTT
GTGGGCTTGGAGATAAACAGATGGGCAATCAGTTCAGTAAATTAAAAACATCTCTACCTTAGGTGTCCTGCCGCCAGAAGAAACCAAATCTTTGCCACTG
GTCTTGCTTCAAGCCACACAAGTCCAGGATCCCATGTGGCAGCAGGGGTGTTTTCTTACCTGCATGCAAATCGGAGTTGTGTGTTTGCTTTTGAAGAGGG
TGAAATGGCTTAACACTTGGGGTGGSAAAAGACCGGAAAAGCGTTCTGGATGAGTTTTGTCCCCTGCAACTTTTTCTGTCTGTAATCCCTCCATGAGCAG
CCACCCTCCCACACTCCCCTCCTTCATGTAAAAGAGGACGATTTCTGGCCTGTGATGTCTGAGTGTCTCAACTCAAGTTAAGTTAAAACCACACAAATGT
ACCCRGCCCTGGATCCCATAAGAGCCCCAGGAAAAGTAAGTCGGGTTTGTGGAATTCAGCTCTAGCCTTTGCATCCCTCTGCCGTTTCCCTTCCTTCTCT
CTCTCTCTCTTTCTTTCTCTCTCTSTGTTCCTGGGGAAAGCTCACAAAACTCAACAGTCAAAAAAGCGAGTTAGCATTCTGACTATTGGAATACTAGCGA
GCCCAGGAAGCTTCGTTTCTTCTGCTTCCAGGGAGGTCAGTTGAAAATCTTTCAGGCACATTCTGTTACTCTGGAAGGAAGAGAGGGTGTATACAGGGCA
GGCAAGGCCCTGCAAAGTGTCACTTCCGTGTCACTGTGACAAGAAAATATCCTTTCCTCCTCCCTCCCCTCTCCCATCGCAGCCCTCTCCCTAAGAAATT
TGTTTTGAGGGATTTGACAATCTTGCAGATAAAGTGCCTGCCTCCTGCACTCGGTTGATCATTTTCCCTCATGGCTGACCGTAATTTCTTTGCTACTCTT
AGCGGCAGCTCTGTCCCTGCTGCCCAAGGTAACGGGTGAGGGAGGGGACTTTGCTGAGGTGCCCTGAGCTGGCTGGGGAACATGGACCTTCCCCCTTCCT
TCACGGATTCTGTAGTGGCAAAGATTAGAAAGTAGAAGGAGTTTTTAAAATTTTTTTWAAAAAATTAAATCTGCAACCAGCTGAACTCTAGATTATTAGT
GGACTTTTTTGTTTTTTATTTTTAAGATTTTTTTAGGGATGTGTGTACAGGGGGAAGGATTAACAAGATAATTCTAGGCAATATGAGCGACAACTTTGAG
CATTTTGAGCCTACTCGGCCAGGAATCTGGAGCCATTTCGATCTTTTTAGATGCTTTTTTTCAGTTCTTTAAGTGAAAGGTTTAAAGGGAGGGGAAGCTG
GGAGGAAAAAGAAAAGTGAGAAAAGCAGAAAGGGAGGAGGAAGAAAAACTGGCCCAGTCCCATCTCGAAGGTACAGAGAAAGTTTTTTTAGAGGTGGAGA
GAGGGAAAACCAAGGCTGTTATGTACCCTAGGGACACAATTTTAGTGGGAATGGAAGATTTGAGTGGTAAGGGAGGCGCAGTGGCCTCCGGGGTCTCTCT
GTTCCAGCAGTTGGGCGGTTGGCACCTCAATTTGAATTGCTGGGTGAGTAGTGGGGTGTGTGGTGTGTGTATGGGGGGATGTGTGTATGTTCGTGTCCAT
GCTTATGGTATTGACCATTAAACCTATGCTTTTTCCCCCCCCTTAATTTAGATCATGGGAAGGAAAAAACAAAACAAGAATAAATGGTCAACTCAAKMTA
TGCCCTTTCTTTGAGTCCTTTTCACAGCAGTTTTTTGGGGAGGGGGAGAAAGGGTTAAAAAAAGATGGGGAGGAGAGAAGTCTCACTTTCATCACAGTCC
TTACACTTCTATGGTAAGGCAGACCCTGTTCCCAAAGTACGGGTGAGCTGGAATCTGGGAAGGGGTGGTACGGTTTGGAATTTCTTCTAACAAATAATTG
TTTTCTTCACCCACCAGGGTGGGCTCCATCAGAAAAGAGAGAAGGAAAAATGACATTGCCTCATAGAGGAGCATACTTTAAAAGCTTGAAAGTTTTGAGT
GATAAGGCTTTAACAGTAGCAGGGCTGTGTAAACTGTGTATTTTGGTTTCATATTTAATGCTAACTTTCTGTTGCTCCGTCTTTAGTTGTCAATCTCCAG
ATTTAGATGCTGGCTTTTTAGGGCTATGGTCTTGCTTGTGGTGTGTTTTGTAAACTTAATATAAAATGTGTTTTGGAAACCCGAGCAAGAGCCTGATGAC
AGCTCATTGTGCTGTTAATGATTAGGGAGAAGGCCCTTTTGCAATATGAATTTGGGATTTAGGATCCATTATACTCTCTTCAACTGTGTGGTGATATCTT
TTTAAAAAATTATTATTATTATTATTATTATTATTTTTGAGACGGAGTTTCGCTCTTATTACCCAGGCTGGAGTGCAGTGGCGAGATCTCGGCTCACTGC
AACCTCCACCTCCCGGGTTCAAGCAATTCCCCTGCCTCAGCTTCCTGAGTAGCTGGTATTACAGGCACCCGCCACCATGCCCAGATAATTTTTGTATTTT
TAGTAGAGACGGGGTTTCATCACGTTGGCCAGGCTAGTCTTGAACTCCTGACCTCAGGTGATCCGCCCGTCTCGGTCTCCCAAAGTGCTGGGATTACAGG
CGTGAGCCACCGTGCCCGGCCGGAGTGATTATCTTTTGCCACAAGCTGTAAGAGGATTCTCTTGAATTTGGAGGCAATTCCTTAATTACTTTTATTATTT
GTGATGTTATTGTATGACCAAACAGAAATAATCTGCAGTGGTCGATAAGCTCTTCCATCCAATTTTGGGGTGAGAAGGAATGAAATATACCATAGACTTA
TGTTCATATTTTCAACATCATGAATTAAATTCTGTGTGTCAAATTAAAACACAAGATCATAGATAGTTCTCTCGTTGAGCGTAAAATAATGATGGGTGTA
AATCTTGGTTTTCCTTTCTAGCTGTGTGCAACTCTTTGGTTCAATCTAGGATTGTGTAAACTGTCAGGAATGGTGGTGAAGAGAGTGGAGGCTGTGTTGC
AAATGTGTATGTTGTGTTACTGCAAATATCACACCCAGTACAGTCTCCCATGTTGAGGTTCTAGACCCTAGTTTACTCAAATTACCTGCGTTACTTAATA
GTGGTCCTGTTGGCTTTGATGAGAGTAAACCACTATTCTTGATGTCTTAGGAGAAGGGAGTTCCTTTGAAAACGTAAATTCCCGACTCCAGTGATACAGG
TATTATGATCTCTGTATTGTCACAACAGSCTGCTGCATCGGCATTTTCTGGAAGCAGCAGAGCCTGAAACCTTGTATTCTTAGGGAAACCTCCCCTTTGT
GGTTTGGGGTTGTTGGGGACCTGGCTGAGCTGTGTAATAGAATTCTTTCCTTCTGCAATATTTTGGAATGTGATGAAATCCTGACATGCCCTCCAGATTA
CGTAGTTCTGCACACATTTGAGGATTTTTGAAAAAATTCAACTTTGCCTGGGTCACTCCCTCGTTACCTTAAACTTGCAACACATCAGYTGGAGATCAGA
GGGAGCARCAATTGTGTTTGCCCTCCTTGTCCCATGGTGACTCTGTGTCATTTTCACGCGTGTTATTTATTCTGGCTGTAGATGCCCATTAAAGGATGCC
CATGTTTGGGATACTAACAAGGSAGGATAGAACGGAACAATGCAGTTCTGCCTTTGTGTTCGTCTTCCTTTCTGTCGGTCTTTGCTGAATCACAGGGTTT
GAGCATTTGTGTTTGTTGAGCCACATGAGTGGAAACATTTATTCTTCCTCTTGGCTTACCTCCTCTTTTTCTAGGGAGAAGATTTACCTGATCAGTGAAG
GAAACAGCTGTTTCTTGAGCTTTTCTCAGACTCCATGGAGTAGGCATGATTTTCAAATGCAGGCTGAGATTCGAAAGTTAGGCACAGGGTATACAAGAAA
AACAAAAGACCTTTTTATGCAGCTGTTCCTTGTAAATAAATTAGAAAGTTGGTGTCAGATTTTGTTCACTACTTCTTTCTTTAATTCCCCAGGATGTAAT
AACCATTATGCTCTTAAAATTTACTCTAAATCAAAATTGGTGATTTCCTTTCCATTATATTTAGGAATCCCTAGATTTGGGGTTGTTGTATTTGGTGGCG
AGGGGGTGGTCTGGAAATCATTATTATTTGTTAAAAGTTGTTTTGAATTTGAGCTTTTGGATTTCTTCATTTGGGATAGGTTCGATTTATTTCTGGCTCG
ATTTTGAAGATCTGCTCTCCTAGAAACAGCTGTACTCTCTTACCCAATTCCCAAACATTCTCTGYGAACTCGGGCACTTAACAAGATTGATTATGTTAAC
GCTAATCATTTAATACCCAAGTAGTAGAGAAATATTTGGCAGGAGGGTGGAGGTTGCAAATTCCTGGGAAATTACTTAGGGGTGAAGTGGCTGGTTCTTC
ATCCCTGAGACCTGGCAGAGGATTAGGACAGAGGGCCCCGTTGTGCCTGTCGCACTCCCTCACTGACCTCCAGGTTGAGAATTTTGTGACGCTGCCGGAG
GGAGGCAGAGGCAGGCAGGAAGAAAACCCTGGAAACTCGCTGATCAGGGGCGAGCCTGGACCGGGTGGGCTAAGATGTAAGCTTGCAAGTGTTTTAAAGG
TTGGCTGGGGGAGGCACAATGGGATGTTTTCTTTTTAATTGCAAAATAAATGAGAATGAGGGGAAATAAATTATGTTTAATGAACTTAACTGGAAGTAAT
TGTTCAAGAGCCTGTGAATGCACAGCTTTACTGGGTCGGCCCTTGGCTGCGGTTTTCACAAAGCCAAGCAGCTGGTGCACATCTTTATTTTCCAGGTTCG
AATGTTCCTTTATTCCTCCATCTCAACACCTTCTTTATTTTCCAGGTACGAATGTTCCTCTATTCCTCCATCTTAACACCTTCTTTATTTTCCAGGTTCG
AATGTTCCTCTATTCCTCCATCCCAACACCTCCAGCCCACCCACCACCTCTCACCCCCCAGCCCTTCCATCCTCCTTTTGAGGATAGAGAAAAGGTCTTT
AAGAAGAGCTGAGCTTGGTCCTCTAGACCCTTCATGTTTGGCAGTCTGTTTGGTGTGTTACCAGCTGGGTGGTTATAGTATAGAAAGGGCCACCCCAAGA
AAGGCCAAGGACTTGAAGTGATCGAGTTAGTTCTAGGTATTTGCATGTGTGTGAGAGAATTTGGATGAAAACTGACTGCACGTTTCTCCTCTCCCTGCTT
GCTCTGTTCAGTCATTTCCCAGCAAGAAGAATTTTAATGCCTGTGTGAATCCATGAGAAACTATGAGTCGGCAAAATTTCACAGAYGGCAGGGAGAATCA
TCTCTCTTCCTCTTCTTGCTGTCTAAATGGATTTGATTCCAGAGAGGGAGAGGGAGAGAAATAAAAGCCAGCTATTGATAATTTACAATACAAATAAGCA
GCACCCTTCCTAGGAGGCTCTCAGGGATTGGAGACGCTCTAACTCTGCAGCCTGCGGGGGTAGGTTCTGCAGCAGCCCGGCCAGAGGATGCAGGCTGTGT
ACTGCGGCTGGCAGGGTGGGCTTTGCTTTTCTGCATCTCACAGGCAGATCTCTTTTCTCTTACCACCTTGTTTCTCCAAGTAAAACTCGAACCCTGTGAA
ACCTTCTGTCTTTTATTTATTATTTCCAACAGGCAGTGCTGTAGCTATCGATAGAAGTCTTGTCCAGGGAAACAATCCACCATTAGCTGGGAGCAAGGCC
TTAGACAGAAAGGAGCAACATTCAACTAAGGAAGACCCCGGCCACGGTGATGCATGGGTCCTGGCTAGCTGCGAGGGGAGAGGGGCACGGGCCAGGGTAA
AATGCTCTGAGGAAGCCCACCCATTTGGGGCCACGGGAGGAAGTCATGACTGCTGTTTTTATTCTGTGTATATATAAGAGGTTTGCAGGATGCAAAAGCA
AGTGTTGGCCTGCTGGGTTGGGATGGGACTGTCCATGCAGGCCTAGGCCTAGGTTGCACTGGCTGTGTCTCCTGTGGCCATCCCACCAGCAGAAATAGTT
GCTAACTGCTGGGGTCATAGGCTGTTGGGGACAGGGGGGTTACCTTAACTGACTGTTCACCACCCTCACAGGCTGGAAAAACAGGACTAGTTGAGTTGCC
AAAGGGTAGTTGATGGATAAGAAACAGCCCTTCCTTCATTGTGTTCCCAGCCTGTCCTCTTCCCCAACTTACCACATCTTCAGTGATGTGAAACTTTTAT
TAACGTTTTAGCGGTTGCCATTGGTCTTGCTGCAGCCATAGTAAACGGCATCTGGAAAAATGCATAGAGGTGGACTATAAACCAATTTTTAAATGTAAAC
CTGGAGTGAATGGTGTCCCTTCCTGATGCTGATTTCAGCCCCTGGGAGGGCTGGTAAGTGAAGACCCCCAAAGACCTTCCATGCCCACCCTGAGGAGGGG
AAAAGGCTGACAAATGCTCCTCTGTTGCTTTAGTTTTATTGTGCAGAGCTCCTAAAGGCACTTTCTGGCCCCATTTTGCTTCTGCAGAAAGAGGCAGCAA
TAGGGGCGTATTGAAGAGGAGGGCCAAGGGAGACACCAGGGCCAGCAATGGCTCTATTTGTTTTCAGTGTCTGTTGATTAATAGGTTGCGGAGGTGAATG
GCAAGCTTTCATTCCCTCTAGGTTGCCCACAGTTATAGAGCCTTGTGGGGTCGGGGTGAGAGGGGGACTAAGCAGAGGGATCTTAGAAGTGCCTTAATCA
GTCTTTCACTTGCCAAGTTCCAAATGAGGAACAGCGTCTGGATGGGTGTGTGGGCGCTTGGCGATGAGGGTGGCATGGCCAAGTTGCAGAGCGCTATGCT
TAAGGGTTCTTGAAAGGTCAAAGGTCAGCCACAGGGGCGCCTCCCCCTCCCCATTCCCCCCCACTGTAGTCGATGAATACSATGAATACTTTGGGTGGAA
GGGCTTTGTGTGCCTTGAGGGCTGTTAAAGGACCTTTTCTTTATGATTTAACTATTCAATGCTCAAAACCCATGGAGCCTAAGGAACCAGACAGAGGAAA
GCTTGGCTTTGCCAAAGAGCGTTTTCTCCAGGTAGAAAGCATAAAGCCCTGAATGATTTAAAGTCAGATGAGGATTTTGGTTCCTTTTAAAYAGATATTG
TTTACTTCATTTAATGGTTCGGCTTTTTAGTAGACTTTTTCTTTAGTTTCTTGWCAGCCCAGAACTGACKACATAAAGTGTTTTTATCATCTGAATCCTG
CTGGGCCGAGATACTGCATGTTTGTATTTGAGAAGCAGAAACATCCTATTAAATGTCTTTACCCCTTCCATCCCCAGTCTTCCCATAATCAGCCAAATGT
GTAAAAATCCCTGCTAAAAATATTCAATGCCCTGTGGCATTGTGGCTAAGGCAGGGAACACTGAGCTCCACCTAATTTGGGGTTTAGGGGCAATATTTGC
TGAAAATGGTCTAGGATGCAGTGATTGGTAGGTGGGAGTTTGAGGACAGATCCCMCCGAGAGTCCTGAAGCAGCTGTATCCAATAGGAAGGTTGGCCCAG
GCTGATCTCATTGGGTGCATCTYCCTAGATGAACACAGCAATTAACCCCATCCCAGTAATGCCAGTTTCTGCAGACTGGGAGAGTGTAGAAGTGGGGTGG
TGGAGGCAGGCAGGTGAGKCTGCAAAGCTTAGAAACACCACTCTCTCAAGGCATGTAACCTGGAAAAAAAATATCTTTACCTACCGCGTGGAACTGATAA
CAAATGCCGACTACTTCATAGGCTCGTTGTGAGGATTTCCTAGAATAAAGCATGTSATGCACTCAGCACAGAGGCACACAGMCWCAGAGCCCAAGGCACC
ATTAAACGGCGGCCACCCTGASCTGTGCTGGTGTGGATGGTAGTGCTTCAGGGGTAGCAGCTGGTCAGTCCCCATCCTACCTTCATTTCGTCTAGAAAAG
GTGTTCTAAGCTGATGGTGGTGGTGTGACTTCGGCAGCTGTGGTATAACCGTCTCGAAATTATGTGAGTTATTCATATATGAGTGTTTGCTGTTTTTGTG
GCTCGGAGAATCCGTTGTCATCATGTTTTCAGAGTTCAGTACAGCAACGCAGGCTCTTCACACAGCTCTCCTTGACCATCACTACCATGAACTTGAACAT
TGGTTCGCTGTCACTGGCTGTAATGATTTTGTATCCCCATGTAGTTTTGAAGATGTATTTAGGTGAAATAGTTCCCGAAAGGAACCTGGCCTTACGTTGA
GCTGTTTCCCTTGCACATTGGGCTCTGTTTATAAAGAGATAAAAGGGGGAGGGAATAAGTACTGCAGGCTAATGAGCCCACCAGCACTCCAACTACCCCA
TGGATAGTTGCTGCTAATTTAGTTGCCATGAATACATTTCTGGAAGGTTGTCTATGTTGCAACCAAGTTACTTTTCATATCTAAATTTTCTTAGGGTGGW
GCAGTTTTGAACACAATTCTTAAAGACCTCGTTAGAGAAGTGGGAGGTGTTCAAAGAGAAGGAGAACCATCCAAGGGGCATCTTTCTGTTTGGATTCTTT
TGTGTTTCATTTATGACAGCTCTTACTTAAAGGCCCTTGCCCTGATCTGGAAGGGACCATGATCATCTCCACCTGCCTTTTTTTTTTTCTTTAACTTTCA
GCTCCTCTGTGGCAATCTCATTTATTGGCATAGTAAAGTGATGACTTTTCTCACAAGAGATATTAAAATATATGGATTAATTAAATACCGCATTTTGAAG
AAGGGTATGTGCCTGAGGAGAGTGCCACTAATCATCTAGAATGATCTTGCCCCATAAACAAACATCCTTACCTTTGAAATCAGGAGTGGAATCATGGCTG
TGTATCCCCCCTGCTCCGTGAATTAAATCAGAAGAGGCTAGAGGGATAGTGAACTGTGTCATCATTAGTATTTATCAGATTGCATTTTCAAAGCATCTTT
GTATTGCACGTTTAGCTTGTGCCTGTCACTGTGCTAAATACTTTACGTGCAAGTTCTCATTCAGTTTTCACAACTCTGCGAGGTAGACACGATTCTCATC
CAGAGTTGACAGAGACAGAAAGGAAGTCTTGAGGGAGGTCGAACAGCCAACCTGGTGAGGAAGAATGAAAACTCGGGTCTTCCTTGAATTCAGTTCTTGA
ATCACTGTGTGCAATGCCAGTTGCCCCTAAAACCCTTTTAAAGGCACAGTTGTAATTGAGATAGTGTCTGCAAGGGTATTGAACTGGATGGTCCAGAAGG
ACCACTAAGCTCTGTTCTGTGATTCTAAGGAGACTACATTTAAAGAGCGCCAACATTTACTTGAAGTTAATCTGTGATTGGCTTTGTCTTTCCCTTTGAA
TGCTTGCAGTTGCAATTTGGTGGTTCTTCTGCAGTTTAGGAGAATGTGCTCTCCATTCCRCAGACTGGGCACTTGGGAGGACATAAAGTTCTAGAAGACA
TAGTCCTTGTCCCTAAGGGACTTAGGTATAGTGGGACCAAGAAGGRTGCACACACACCCCCAGCAATGGGCATCGTGTGATGTAGGAAGAAAGGGTTCTG
GGGTCTGAGGCCGGAGAGACATAGGCATTTGTAMGAAGAAAATCCCTCCATCATAGMKGATTCCAGGTAGAGGCAGGTTGGCTGGAGTGGCAATTAGTCC
CTGGTTTTGGCAGGTATGACCACAGAGTTCTCCTCTCTTGCAAGGGAACCCATGAGCTTGGACAGAGAGGAAGTTCTGTTCTTTCACAGGGACCTGCCTG
GCATGCAGTTGAGGTCAGAGGGAGTAAGGCTAGTCCTAGTACAGGTCCCATTTTTTCCCCCTAAAGCCAGGCAGTACCTAAAACTTCCAGTTCCCTGCCA
CCCCCTCCACCCCACCCCCACCCCCATGGTATAGTTTTGACTGAACAGGAAAAAACTAGTTGGCTAGGCTCAGGTGTGCAAAATAATACYGGGAGAGGTG
TTAGTAGCCAGAACACAGGGCTCCACCTTTTGTTGGAATCGCCTTCATATGTATATCTAAGAAGATGGAGACTTAATTTTTAAATCTCACACTCAGTTAA
CTCCATTATTGCCCAAACGCTATCTTCCTCTTTTGTTGTAAAGTAGAGAAAGAGGGTTTTCCCCACATCTCCCCTTAGTCCTGCTTAGAAGATGGCTGTG
GGATTTGTGCTTCTTTACTGTAGACAGATCATGTCATCTGGACAGCTTCTTCCTAACAATAAAAATAATATTAATAATAAACCACTGTAATAGATAATAA
ATAACAAACTTATCATGTGCTAGGTTCTGTGCTAAGCCTTTTCCTGGGTTCCTTAAGAACTAGGATTTGATTCATGATCAGAACCCATGGCTCTTTGCCT
CTGTGCTTGCCTGTGTGCRTGTGGTCCTCATGGCGGAACACAAGAACCACCCACAACACCCAGCAAGCAGGCCCAGGATGCTTGGGTCCTGAGCCCAGAC
CCACTGTGAATGAATTAGGGCCTACTGAGAGATTTCCTAGGATTGGGGAATCTGAATGAGTGAAAAGCATCCCGGGAGATGCTTGACTAGGGGCTGACTG
CTGCTGGTTCTGATGCCCACCACTAGCCCTTTCTCYTCCCATGTGATCCTTCTCCTGGCTGATGGTGGTCCTGCTCCCGTGGCACTTGATCAGTCCTTCC
ACCCCTTAGTAATCATCTTCCCTTCTCTGGGCTATGGGTGGTTCTCCCCACTGGCCCTGGTGTTTTTCCACACTCACTTTAAACTGTCTGGAGCTGGTCT
GCTTTCTTTCMTGTCAGCGGGTATGTATCTTTCCAACCAAAGAGAAAACTTCTGGAAGGCAGCAACAGTCATTTGCCCTGCCTCCTAACAGTCTCCACTT
TGTCCGKGTCTGWCTCTTTCCCTCCCTTCCTCTCCTTTTCCCTTTTCCTTCTCCACCTCAGCACACAGTGGGAGCTTCCTTGTTCCTTATTTCTCAAGTT
GTCCTGAGCAAWTCTTCCTCTTAAGGAATCCTTAGTGCCTGTCCTTGAGGTGCCCAGCACTGGCTGTGGGCAGCAGCCCTTCACCCTGGCCATGGCCTGC
CCCGCCCTTCATGGCTGCCCCTTTTATGGAAGTGTTGCTGGTTTCCAAAGCTCCATCTGCTTTGGTGGCTTTTAGCTTACTTGCTTTGATGCAAAATTGG
TAGCACATAACACAAAGCTCCTGTAAGCAACCTGCTAGCCCCTTTCTCCAAGAGTCCAGTTATACATAGGAATTGGTAAACCAGGCTGTTGGAAACGTTG
ACTTCTTTTTCTGTAGTTTTTTTCTGGGGYATCTAGAGAGAAKGCCTTATTTTTCTTTCCACACATAACCACAAAAAAGTTAAAAGCACTTTTTAAAAGA
CACTTTCCCCTCAATTACCTGTGGTAAGAAATGCTGTTCTTATATTACATTCCTTCCTCACCCATTTAAAAAAAAAAAAAAAAAAAGGACAAGAAGAGAA
ATAGTAAAGAGAACTAACTGCTTAGTGATCCCTCAGCTCAACAGGCACTAGTGGGCAGCACTAGGACCTTCCTTCTTTTCTTTTAATGCAATTCCTTTTC
CTTGATGTTAATGCAAGTTGTGCCTTCCTAAAAGTAATAAAAGGAAATGAAGACACGTTCTGAAATGAAACTTGACTCTAATCCATTCATCATCTAATAC
TTGCCTCTTTATCTTCGCTGGTACCTAATCTGGTTAAATGTCCCTGTTGTAGGATTTTAGCGAAAATCCTCTATGGGGAATAGGGTTTTTTGCAATTGGA
TTACTCTCAGTAAATGGCCCAGTAGTTCGCTTGTTTCAGCTTAATTTTTTCTTTGTGATCTTSCTGGGCTAAGTTATAGCACAGAGTAGTGGAGTGGGGA
GGGGTGGACTGAGCGGGAGGTGGGGGAAAGAGGAGGAGAATAATTTGGGAAAGCCTGGGCATGGCAACTAGAAACATTTTTAAAATGCTTTTCTTCCCCC
CACCCTGCCCTCTGCTTCTCTCCACTGACCCACCCTTCCCAAACACAAAAATGCCTGTACTTTGTTTTTTAGAACTGCCCATTTCTAAAATGCATACCTT
TTATTAGCCCAATTCGTCATCATCCAGTTAATGTATTAGCGTTCCCGGATGACTTTCTAATGAAATTCCTAATGAATCAGGGCTGCTGTAATCTGCATAA
AATATGCAGGTGCTTGTCAGGCAGTTTAGAGCTTTCTGGTAAAGTTCACACTCCCACCCAAACCGTGAGTGGGGTTTTGCATCCATGCTGTCTGTGAAGG
ATTGTAGCATGCCCGCTGTTTCTAAGGGCAGGGAGGGGATAGGAGCTGTCGGGGGGTGGCTAAGGAGGCTGGCTGGGTGGGATTTGGGCCCTGCCRGTTT
CTTGTAAGTGGTGGTTTTCCTAGATGGTCCCCTGTGCAGCCTGCGTGCCTCCTGGMGGTGGGGCCTTGGGGTAGGAGGTCCCCACAACATGYGGAAACGC
AGTAGGCATGGGAGATTGAAGTCYCCACTTCTGACTCACCTGCTAATGGGAAAAGTGCAGACTCTTGGGCTCCATAATGGGGTAGGGGTTGAGAAGGTAT
TTTAAAAGCCAGGCTTAGTGGGGAAATAAAAACTAAAGCAGACCCACCCAGAGAGCTGTCTTACAACTATCTATTATTTTCACATGGACTGGGGGGAGTA
TGGGATGGGCAGAGTTGAGTGCATCTTAGAAAATCCAGGTGAGAGGCTGTGGCCAAGGGAACCCACGGGCCCGGTGCTCTGAAGCCCTGGGCTGCTGGAA
CCGGCTTGACGGTGTCTTTCTCTGTTCTCCTCCCCACAGTCTAACAAAGTGCCAGTGGTGCAGCACCCTCACCATGTCCACCCCCTCACGCMTCTTATCA
CGTACAGCAATGAACACTTCACGCCGGGAAACCCACCTCCACACTTACCAGCCGACGTAGACCCCAAAACAGGTAGGCTGTGGGCTACGGAGCCAAGGTA
GAGTGCTGGTCCTGGGGTTCTGGGGGAACCTTTGAGGCCTCCACAGGAACCCCAGGGGTGGAGYAGTAGGGGACTTTGGGGGAACGGTGGTGGGGGKGCC
CCTGTTGCTTTTCTGGGTGTTGAAAAGGAAGCTCTTTGGGGTGGTTGAGGCCTGGTGTGGCAGTGGTTTTCCACTCCCTTTGGAGAAGTTCATTTGCAGT
GTTAAAGATCTCTTTATGGCTTCCAGTACCCCTGAAGGGGCTGTCTTGGGAACCTGGCTATGAGTCCTCAGTATGTTTCAGGAGTGGCTTTTAACTCTAA
GAGCCTCAGGCAGACATGGATGCAGGAATCATATTGAAGGCATTTCTTGGGTTCCTCCTCAGCTTCCTGGGAAGATGAGACAGCATGGCTTTCCAAGCCT
CGGCTCCCTCACTGGCTAAGAGGCTCCAGTCACTACTTGACAATGACTTGTTGGTATAGCCTCAAAAAGCCACATCACTGGATTCTGCATTTTCTTTGCT
AATTTATTTAGGTTCTTTTTCCCCTACAATATTCTAGGTATTGTTGAACCCATTTTACAGATATGAATACTGAAGTCCAGGCAGGTTGCTTCATTTCTTC
GTAGAACAACCAATGGGTGTCTGAGAAAAGTTGCCATGCTTTTCAACGTCTTTTTGTTGTTGTTGTTGTTGTTGTTTTTAAACAGAGTCTTGCTCTGTCA
TCCAGGCTGGAGTGCCGTGGCACAATTTTGGCTCCCTGCAACCTCTGCCTCCCAGTTTTAAACAATTCTCCTGCCTGAGCCTCCCAAGTAGCTGGGACTA
CAGGCATGTGCCACCATACCCGGCTAATTTTTGTATTTTTAGGAGAGACAGGTTTTCACCATGCTGGCCAGGCTGGTCTCGAACTCCTGACCACCTCGGC
CTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCAGCCCAGCATCCCCTTTTTATCCCAGTTGTTCATTGACTGCTTTTTTCCCAAAGGGGAG
AGGGAGGGAAGGTGGGGTTACTTGTAGCTCTCCTCCAACAAGATCTAAATCAGGCAGGCAGCCCCAGCAGCCTGGTGGGGTGGTCTTGGGAGAACAGGTA
AGGTTAGTGTGTGTCTTTCAGGCTACCCAGTGTGTTGGTAGGATTTCCCCTTCCTAGCTCAGTAATTGGAAGGATGGGTTTAAAGTGGTGATTGCACATC
ACTTTGTTAGAGGGGATTGGTAGTGTTGGGGTAGGTAGGCTGCCTGGTTAGGCGGCCTTCACTGCCCCTGAACGAAGCCACACATGAGCTGGGTTTTACT
GGTCTCTGAGCCCCTTTGTGCTGGTGCAGGACTGAGCCTGGCGCTTGGATGCCTGGTGGCCTCCTCCAGCCGGCCCCAGGCTCCACCAGTGAATGGCAGC
GTCAACGTCTCATTTAAATAATGGTAGTACAGGGAATAGCTTTTAAATGGTTATCGTAAAACATATGATTAACGTCTGTGGACTGTTTACTTTTCCTCTG
CGAACATTCTTTCAAGTGTGCAAATGGCTCGATGTAGGGTCCAAGCCCAGCTAATCTGTTTGGTTTTTGTAATAGAGAGAAAGCAATGTCTGCATGAAAA
TGTCACCCAGGGAGACTTAATTTACAGATTAAAAGCTTCCTGAATGAATTTTTTAAAAAATGAAGTCGTTTTCGTCCACGAACATGCAGCCCGTTCCCTC
CATTACTSTGTTTTAATTCTGTGGTATTGTGCCTTTTGCCTCCCACTTCAATGGCATACATCAATTCCTCTCTGTCAGAGTGGACTACAGGATGTGCTCC
TGTGGAACTGGCAGATGTGCGGTGGCACGTACTTGCAGAATCCGCTCATGTGTGCCTTGTGAAGCTCTTAGCCCCTGCGACGCACGCGGTGCCCATTCAG
CAGGTGGGCTTAATCCCCACAGACGACTCTGTCCTCTAGCGGATGAAGTTCCAGAATGGAGTACACAAGCCTCCAACACCTCCTTGTCTGTTCAGCTCTG
WCTCTGCCTTAGATAAGATGCCAGATGGCATTTGATCAGTTTCTCCAGCTCATCCAAATAGAGGCAGAGACATTTTAGAGGAGTCACCATTTTTGAAAAA
AGGCAAGGGTAGTAACTTTTCAAATGCCACAGCTCAAAAAGTGTGTTAGAAATCAGAGGAGTAGCTCTTGTGCAGGTAAGGCATGAAACTCCGCAGGGTG
AAGGGCCAGAGTTGTAAGAGCAACAGGGATTACCATTGCTTCATTCTCCACCAGGTGCTGAGCCTTTTTGATGTTGTTTCTTTTAAACTTGAAACAATCA
CACCAGTCACATGAGGCACAAATACCCAAGATGGCATATCTTGAGTCTACTCAGTATACCAGTCCATTTAGAAGGAGATAAACTAATTTTTCAAACTGAG
GCTGAGGGAAAATGAGATGAAACCTACCAACAACTCAGGATTTATAATCATGAATGAACCTTGTGCTAGGATTCCAGAAGAGATGCGTCTCTTCCTCCTT
TCCCTGTTCCCATCCCCTAATGGATTGCTCTTTCCTTCTCTCCCTCCTTTGTACCTAAAATGCTGCTTCTTCCCTCAGGAATCCCACGGCCTCCGCACCC
TCCAGATATATCCCCGTATTACCCACTATCGCCTGGCACCGTAGGACAAATCCCCCATCCGCTAGGATGGTTAGTACCACAGTAAGGAGTTCCATTTTTT
AATTTCCTTTTTGTTTCTTACATGGGCAYGTTTATTATTTATTCTGTGTGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTG
TTARAAGCCAGGGTTGGGGAGGGGGCTGCGGGAGGGCACAGAAAAGGTGTTGCTGAGGTGTCCTGTGGGAATACAGGCAAATCCACAGCCATTCAGGTGG
CTTATGTTACTGGCACTTAGCATTCCGCGACCATGGTCCCCAGAGGCTCTGTGGACAGAGGTGCCCTGCAGTTCCTTTGGGAATTGCAGAAGACTACTGG
AACTTCCACCCAATGAAGCTGGTCATGACCCTTCTGCTGTTGGCTGCCCAAACTGCAGTCATGTCATTGGGTTGAGGCTGTCGAGTCCTCCATKTTAGGT
GTTACATATTTTGGGGCACAGAAGCAGGAACAAGAACGGCCTTGTTTTGAAATCCAGGGTTGGGATTAGGGCATGTTCTTGTATGATTCCAGGACCCCCC
ACCTCATCCTGAACATTACTCCCAAGGTTGACAACAACAGTGGAAAGTTTTGTCTGTTGAGAAGCTCCATGGGACTGAATCAGCATCTCTCTGAGAGTCT
TTGCACGTTGAATGTTTTACCTAACTGTGAACGGTGGGAATGGGGCATTTGGAACCGTCACTGCAGCATGTGGGGCCTTCGTAAGCATCAATCCTAGCTC
CTGGCAGTGCCCAGATTATTTGACTAWCTTTTGCAACTTAAAAAAACTGTGTTTTAAATTCAGAGTAGAAAGGCCTTTGATGCATTAGCATACTGTGGCA
GGTTGTGTGTATGTATATTTTTGCATGAGCATGTGTGTAATATGTGTTTCGTGATTGTTTCTGTGGATGTATTTCTCCTTACCAGTGATCTGTACTCTGA
ACAACACAGGACAATACATTGAATGCTAAAAGGAATAAATCCTGGTAAAACTCAGGTTTGAGTCTTAGGGAAGATGGCCTTTCAAAGCCTTAAGGAAGAT
AAAATTTTGGAGTGGCTTACCCCMCAATTCTACCCGTATTTCTCTAGTTARATAGATTCTATGCTGTTTTTTTTTTTTTAATAAAAAACAGATTGCATTA
TGTAGTAGCTGTACCAAATACCAACCCTGGGTATAGTTTCTGTTTCTCTGTCTCTTCTTATTTTTATTGGGACGGTAGACATGAACATGAGCTTGTGACC
CATTTCTTCTAAATAGATGGGGCCAACCCTCGAATAGTTCTCAGTGATCATTTGCCCCATTCGGCTGATGGGGAGATATTTGAAGGCTAGATAAAAAGGA
ATAGCCAACTCAGACAACCCTCTGTCAGAAAAAGTTGTGTGTCTTTCATGAGGATGCTATTTTGCATGTTGCTGTATTTTTTAATTATTGTAATGAGGTG
TGATTGTCTATTGGTTACCCACAATTCTTCTTGGGGACTCTCCCCCCGGTAACTCTTGTCAACACTTGTTAATTTGACAAAAGGCTACAAATTAAGCTCT
GTTAATTTAATGTTTTCTCACCGAGATCTAAATACCGAAAGAGGCCCAAAGCGCAACTGAAGTCCTTTGATTCACTGTACTTTATTTTGGTATAAATTTA
CATTCATTATTGTTTTCCTTTGGATGTGTAGCCCTCAATTAGTGTGATGGCTCCATTAAAGCAAGCGAGACTTCGCCTTTAATTATTACAACAAAACACC
TAGTTTCAGCTTGGGGAGAGGGTCTCTATTGACATAAGCAGAGGTTATAAAATTTAATTAGCCATTCCTATCAGATTTATGGCATTCAAATTGTTCTGTG
TTTCTTCCCTTTGATCCTTCCTGTACAATCCCCAAGATTTTTGTTCTGATCAAATGAGAATAAAGCTTACTGTGCAGAGAGAACTTTTCCCTTTTCTTCT
TTTTCTTGTCCCCACCCCCACCCTTGTTTCAAGTCTCTTACTTTGTACCCCTTCTTTGTAGGCAAGGTCAACCAGTGTACCCAATCACGACAGGAGGATT
CAGACACCCCTACCCCACAGCTCTGACCGTCAATGCTTCCATGTCCAGGTGAGTTCCAAGAACCGGGGCCTTCATCCAAGGCCATGTGTGACTTCTCAAG
AAGTTCTCTAGATGGCCACCAAGCCACCCAGGGACCACAGCTACATGTAGTTCTATTAGTGTAAAGCCAATGTGGCATTAGGCTGTACTCCCAGAAAATC
CTGAAAAATTGCCCTGAAATTCCAAGGTAAATGATGTCTTTCTGGGTAAAATTTTTGAGTCACTCAGTTGAACAATGTATTTTAATGAATTAAGAAGGTA
AGGGAGAAACAGGACAGAAGCTTTTAAAAATGCCATTTCTCTGTTGTCCTGTCCTCAGCAAGAAAGGTAGCGGTGAAGGTAGTTTTATTATTATACCAAG
AAGAGTTCGAAAAAAGATTACTGGTGTTCTCAAAGCTCAGACTCTGATTGCAAGTCAACAAGAAAGCATCCGCCTCCTCCCCTCGAAGGTAGCACTGTCC
AATAGAAATATAGTGTGAGCCMCAGAGGGAATTTTAAATTTCGTAGTARCCGTGTTTTTAAAAAAGTTTTTGKTTTTTTTTTTTTAAAAAAAAGATAAAG
TTATTTTTAATGACATGTTTTTATTCAATGCAATATAGCCAAAATATTATCATTTTAACATGCTATTCCTGGACAACAACTATTAATAAGATGTTATGTT
CTTTTTTGTGCTGAGCTTTGGTACAAAATCTGATGTGTATCTTATACGCACAGCACTTCTCAGTTTAGACTGGCCACATTTCAAATATTCAATAGCCACA
CGTGGCTGGTGCATATCATAGTGGTCTGTGCAGCTCTAAGTCTTTGAAAGTTAAAAAAAAACATGTGTGTGTGTGCTGTACATTCATATATATTTATATT
TCAGCRTAGAAACATATTTACAAGATACATTCCTATCCCCATGTTCTTCTTTTCCTCCCTCTGATTAATTCTGGCTAATTTTTCAGTGACTGCTAGTTTA
TTTACAAACTGGTTGGCAGCAGTATGTTTTAGTCGCTAATTGTTTCTAATGATAGTTTTATTTTCTGTTCATCTGATTTTCAGTCAAGTTAATTAAATCG
GTGGAGGTTTAGACTTTGCTGATGGTCTGAAATCACCAACCCATTCTGATGATGGCACATAATGAAATTAGCATGCGTTACATGGCAGGGGTGCTGTCCC
CAGCTTCTTTCCCCAGTCCCTGTGGCCAACATGGGAAGCCAAGACCRGAGAAGGGCCTGGAAAGACAGGTCAAGATGCTGCTTTTCCTACTTACAAAACA
GTAACTTTAGCAGTGATAGAGAGTTACATTCATTAAGAAAAACAAACCGTGGCATATCTAGCATCGGTAACTATGCCGTGGATATCATAGTTGAAGAGAT
CCATTTTCTACCTGCGATATATCATCAAAATTTCAAAATCCATGCCAGTATTAGTTAGGTAGGAAAACGCTCGTGTGTTCTCTGGCCTAGAGAGAAGAGG
AGGCGTAACACTTATTAAATAGTGTCATCACAGCCTCGCAAAGCATGGGAATGAGTAGGGGGTCTCCCAGGTGGAGAGCACCCAGGGACCACGGCTACAT
GTCATTCTATTAGTGTAGCAGCTTATACTCCACAGCTCATCTTCCCACCTTCCCAGCATTTGTATATTACACCTGGTTATTTTTCATGTTTGTTTATTTG
GTGCGTTCTGGAGGTTAACAGTGGTAAAGTAATTGTAGGATAGGGATTGGGGTTAAGCTGATCGATTGAATTATCATTAGGAGGTTAGTCGATGAATTAT
AGGTGGGCRTGGGGGTGGAGGAAAGGCAGGGAACGTCAGGAAGAAAGGTTAGGGCCTCAAGGTGCGGGGAGAGGCGGCCGACTCCCCAGGTAGGCCAAAT
GAAAGATAGCTAGTTAAAAAGCATATACAGCAAATTAAATACATTATTGTGATAATGGGGCGACAGAAGTATAGGTCTATTATACTTATGGCAGTTATAG
CAAATGTAGGCAGCTTGCCCTGTTCCAGAACACCCTTTGATATTCATTCTATTCAGCAGTGGGGCCAGGACTTCTCAGAATTAAGTGATGGGTCATTATA
CTTTAAACACCATGGAGAAGCCTAGATTGGCAATTAAACAGCTCTTGCTGACACTCACTTGTGCCACCCTGTGACCCCCTTTAGATTGAGATGTTGGAGC
TCCGGGCCCTCAGCCTGCTAAATTGGTGCAAGGCTCTTCTCCTGACRAGAGCCGGCTCTGAAATCTGCCGGCTTCAAAGGGAGCGAGATCATGTATAAAC
CATAATGTGGGTGCACCGTGGCTCACAAAAAATAAGGCAGGAAGAGATGAAATGTTACAAGTGCAAGGGGGAAAATGAGAGAATAATGACAAACCTAATG
CAACTCAAAGCAGGATTGTTGCACAGGAAAATGCATCCTACTGCTTGTGCATAAAATCAAKGCCGGCAGATGACATCCGGTTAACAGAAACGTGTCAACA
GTGAAGTAAAGTGAGAGTGAGTAAGAGAGAAGCCCCTGAGACAGCCAGAAACAAAAATTAGTTGTTCTTAACAAGTTAAGGTTCATCATTATATTCTGGC
TTGGAGCCATGAAAGCAGACGGKGGTATATAATGAGCTGCTTASAATTTTTAGGGTGTTTATTGCATTTCATGAAATAGTAGTCTGCAGAAAGGAATTTC
TTAAGCGAAGGTATGTGTATACAGCCCACATCCATGTTCACACATGGTCTCTTTCTTTGCTGAACATTTTTCAGATATGGGAATATACGCGTAGGTATGG
GAACTTAGAAATGTGCCTTCTTCATGGCTGCATTAGAAGTTTGTCTGCACCCCAAAATGTACTCAGATTGTGGTGCCTTCCCGTGGTATTTGGTGTATGT
ACACACACGTACACACACACACTCACACATGCAGTGTTTTTCTCTCTCCCCCTCCCTCTCCCTCTCACGTCTGTACACATATTCTCATTCTGCAGGAAGG
GAACATATGTATTTGAGGAATGTCAGGCCTTCAAAATTCACAGTAAAAGCTGCCACCCACCACTTCACCCAAGGGCTTCCAAGAACACATGTTCTTAACT
TCTGTTTCCTCTGAGGCCTTCGAGCAGTGGGAAGGAACAGGGTGTCACTTGGAGCCCAAGTGTCTCCCAAGGGSTTTTGCTTTTTTTGTTTTTCACATTA
TTTTGAGAGGAAGGGGATGAAGATGAAGGTTGTTAGCATGTTTGTTTCCTTACATTTTCCTTCTCTCTCTCTTTTTTTGATACATTCGAAGGACTTGTAT
TGTTGTTATTTTTAAAATCATGTCATGCAGTCTTCACTACTGGCTTAAATTTGTAAAGGCAGTGGCAGGAAAGGCCACGTCAGCGTGGGATTTTTGAGTG
AAATGTCTACTGTGGCTTGGGCCTTCTTCAAGAATCAGCATTAACTTTCCTTCCTCTGTTGATCTGTGTAGATTCAGTTAGTACTTTAATCATTTTATTA
TTTTTCAAATTAATGTTTGTTACCTTATTTTGGCTGAATGGAAACTATCTCTAGCCCGCTTCTGGAAAAAACTTTGTAAATACATACAGAATCATTTTGG
AAGAATTGTCGTGATCGATCCTCATTAGGCCCTCTAGTTCCCACCAGAATTGGCTTTGTAAAGAGCAGATTGTTATTCCTTGGATGGTACATTGGACTGC
TTTGGTTTGGACTTATTAAGAAAGCAACAGTTGCCATGATCTTCATCTGAACAGCTTCCCATCTGCTCACTTGAATCACCTTGCCAGGTTGGAGCAGGAG
GCTGCCATATTGTTTACTTTTGGGATTCTGCCCTTTCTGTCCCTCACTATTTTTTCTATAGTAGGATATGTTGCTTGAAGAGGGGTGAGTCTTCCAACCC
AGTACAAATCATGGTGACACCAYGCAAAATWGAAAATGAGAAAGGTGTTTGATCCAGTTGTCAGTCTGCAGATGGGCCAAGAGTAGGTTGAGATTAGCTC
TTTCTGTCCTGGCTAATGTACTTGGTTGGGAAATGCCAATTCAGGTCCTAAAATGTGCCTTAGAGAACTGTCCAAAAAATGAGCAGCATGAGAGGAGAAA
ACACAAACTGTWTCTTTCATTTATAATTTTGATAATCATTTAGAAGACTTCTTAATGATGCCTAGACAACATATGAAGTAAAAGTGATATAGGAATCCTA
AATTTTAGAGGAGAAAGGGCATACAAATCAGAATCAAAGGTTTATTGTGTGTGTGTGCACCTTTCCTTTCCTTTTTTTTTTTGCATCTTTCCATAAAGGG
ATAGAAACTTATTTAAAATGTCCATGACTTATGATATGAACCAAATAGGAACTATTTGAATTTTCCCTGTCTTCCTGCCTCACTCTCTCCCATTCCTGTC
AAATGATGGGACMCAGCMCAAAAGAAAAATAAAAATTGTATTGCACTTCATCAACAGGATGAGGCCTAATGAGGCTTGCACAGCATTGTCAAAAATGTAT
GTATATTTCAACCMCGTTAATATTTTATTTAGCTGTCAATATACAACAAAAGATTTCACCTTTCATTTTAGAGCTGATTAGGACTTAGGAAATTGTCTTC
TTAGATGCCACTAATAATGCCTCAAAAAACAAGTGGACGTGYGATTTCTGGCAGGTAGTCCAAGCCCACTTTTCCGCCCAAGTACGTCAGTTGAATTTGT
CTTTTGCTAAAGATGTTAAAAATCATAATGTCTTATGTCAGTAGCAATAATGAATTGGCTTTAATGACATTATGAGAATCATTATGTTTAATTTATCGCT
AATTAATGCTGACAGGTTTCATATGCCTTGGGTTGCTTTCATGTGAGTGTTACGTGCTGTTTTTTTTTTTCTTTTTAATTGTGTGTACACATCCCTCCTC
ATTCATTCATTTTGATTCTGACGATTTACACAGCTTTCTGTCTTCTAGGTTCCCTCCCCATATGGTCCCACCACATCATACGCTACACACGACGGGCATT
CCGCATCCGGCCATAGTCACACCAACAGTCAAACAGGAATCGTCCCAGAGTGATGTCGGCTCACTCCATAGTTCGTAAGTGTTGCTGTTTTTCTCACCTT
CTTCGTAGCCGCAGTGTTCTGCAAGCCTGTTGCAGCTGCTGGGTGGTGGCTTTCTGCCTAAGGTTGGCCTCGTTTGGTTTGACTGCAGCCAATACCCAGC
CTGTGTGGGCTCTTCACTCCCTTACAAAGAGAGAGAGAGTGCACAGTGGCAGAATCTCACTGTACCACCGYGGGTTAGAACAGAACTGTTTTTTGTGTGT
GTACTTGGATACACTGGGATTTGCAACCACTTCCCTGCCCCCTAACCGCATCATTGAACATTTAGAGCTTTGTTCTGCAAGCAGGAGAAAACCCTGCCGA
GGTGAAGACAGCAACCATGTGCTTTCCCCTCTGGCTTGGGAAAATTGTATATTTGTGAAACTTGAGGAAGTGATTGCAAAATCCCTCTCTTCCCCCAACC
CCTCCCCAAGCTATTTTTGTTCCATTTTCCGGGGTGCAGAAGAACTAAAAGCATGCTTTTTAATCCAAAACTGCTAGGCTTGGGGGTTATGAGACAAGGA
GATACGTTCCCTGCCATGGAGGAAGTTGGACCACGACCTTGTTTATTGGGTTGCGTCTGTTTTGTCTATCTCCAGAAAGCATCAGGACTCCAAAAAGGAA
GAAGAAAAGAAKAAGCCCCACATAAAGAAACCTCTTAATGCATTCATGTTGTATATGAAGGAAATGAGAGCAAAGGTCGTAGCTGAGTGCACGTTGAAAG
AAAGCGCGGCCATCAACCAGATCCTTGGGCGGAGGGTAGGTGACGCCCTTCTCAGGGAGAAGCKGGGGGCGGGTGGTGAGGGACCAGAGTGCAGCAGGTC
AGGTGGCAGAATGTCTCTGTCCCCATTTCTTTGGAGAATTCTTGCCCTTCAGCCACATTCTGAATCCTTGAATGGCCTTCACTGAGTCAGGACTAGTTAT
TCTGCACTCAGCGTTCAGAACAGCCACAGCCATGCTCTTCCCCTACCCGAGCGAGTGAGCAAATGACAGAATGACATAGATAACAAATCAAGTTTTGTCT
AAACATTCCTGTTAGTGCCAGGACCCAGCCGACGGTCAGTATGTACAGATTATACCATTTCTGGAYGGACTCACCCAAAAAGGCAGCATTATTTATCCCC
TGACCTTGGCGTAATGTGTGATGTTCTTTCATGCTTTTCTCTTTGTTCATGTCTTTCTCATCTGTACCCCACGTCCCCTCCAGTGGCATGCACTGTCCAG
AGAAGAGCAAGCGAAATACTACGAGCTGGCCCGGAAGGAGCGACAGCTTCATATGCAACTGTACCCCGGCTGGTCCGCGCGGGATAACTATGTAGGTGGA
TCATTTTCGTTAGGATTGGAGTCTGTAGAGCTGTGTTGTGCGTCTATAYGGACAAAGAGAACAGGACCTGCCACTTGACTAGGGTGGGCCTCAGGACCAT
CCAATCTGCCCGCTTTGGGGACTGGTAGCATCTTCCTGGATCGCTAAACTGCAGGGAGGGGCTTCCCGTGTGGATGGTTGGATCAGCTCACAGTCATTCT
TCAGGGTGGAGAGAGGAGGCTGCAGTCCCAGTGTTCCAGCTCAGGACCAATGAGGTTGATTTGGTGCTTGTCTCCTTTCTAGAGGAGGCAAGGCTCTTAG
GATACACCCAAAGGACCTTATGTTCYGGATTAGGTTCCGCAGGCTCCTCAGCAGTGATCAGTGGTGTGGCCTTCTAGGGAAGACCAGTGGGTAGGTGTGG
AGGAACAGAATTTAATTCCTCCCAGGCCTTTCAGCAGGCCCTTTACCRTTAAGAAGGAAAAACAAAACTATTCCTTTGTGCCATGGTGCAGTAGAAGTTA
GAAGCCTATTTCATCCTGAGAGGAGCATGATGGGAATATCCCTGAAAGCAGCCAGAGGAAGTCAGCCTTTGGCAGGATGCATGAACCGACTCTGGCCCCA
GCAAGGGCAGGGAAAGTGTGCTATGCGGTGTGTGTGTTCCTGGGCTCTGTGTTGGCTACAGGATCTGCCTAGTCCTCTCTTGGGTTGTAGGAAACACCAT
GGGATGATTGTTTTTACTAATTGCAGTGGTTGTGACCCCACGATTCCTCTCCTCCCATGAGCACGCTGTCTTCCGGAGACTTCTGTCACTTCTCACCATT
GCTGGTTATCCTCCATTTTGCCCAGTAACTCCGCTTTCCTCTCTCGAGGGATGAAATGCCTCTTGTTTTGCCTGATACTTTATTTCATGACATTTGGTTC
CGTGAAGGGATTTCACCATCCACTCTTAGGGGAACACCAAAACTTGTCTTAAGGCCGGCACAGGCCTCTCATCCCCTTCCTGTCGATGTCTTGGAGCCAT
GGATGGTTACTTTTCCAGTTACTTTTGACTCTCCCACTGGCATCATCCGCGGTGAAGCAGCTTGACGTATAGGGGTCGAGGTCGTTAAATTATTACTGAA
TTGAGTGAAACATATCATGGCCTTTGAGGCTTCTGTGGCAGGGGCTGGGGACACACAGCTCTTAACTGCCTTGGCCTGGAAGTGTCATGGGTCACTTACT
CCCATCACCCATTGGCCAGAGCTAGTCATGTGACCCAACCTAACTGCAGGAGATGCTGGGAAATGTGCAKTTACTGTGCACAAGTTATTACAGGGATTCA
GAGTTAAGTCGGATATCTTTACTCCCTCAGAACTTAGCATCCGCCAGGAAWTCGCAAACATCTGCCGGCCTATGTGATCCTGAGGAAGAGCTGCTTCTGC
CTGCTCTGATGAGTAATTTCAGGCCTCCTTCCTCTTTCTTCTCATACTTTTAAACCCGTGCTTGCCATGTAGATGAGGGAACAGGGAGGTGCCCCTGGCC
ATCTTTCTCGAGGCCCTGCCCCCTTAGCTGGCAGCGCTAGACTGTGCTCCTCCTGGGAGTTGAATCAGGAAGGAGTGCTGGCACCTCTGGGATGGCGCGT
GTGCTCTGCTGAGAGCCCTTGTCGCCGACAGATGGGCTTGCACGGGGTCTCCACTGCTTGGGACCTTTCTGTTTGTCCCCAGCATGTGTGCAGTGGGGAG
GCCTTTCTTCTGGAGCTGAAAGGAAGAGGATGAGAAAGTGAATGCTCTCCCACAGGCTTGCTGTTCACCCCCACCTGACCCTGAGGTGGAGATTTCCAGT
AGCAGGCAGGCTCCATAGCCTCCACGTACACAACCATATCATTTCAGGACAGCTGCTCTCCTGGTTTCGGGTCAGAAGTTCTTAGAGTTCATCTTGAGCT
TCTACCTGCTACAGACCCAATTCTTTGAGTAATCTAGAATGATACCACAGAGCGGAATTCAGCTTCTCTATAGAGATCATATCCCCAATAGACATTTTGG
GTCATAGTAGGGCCTTCATGTACAGCTGTGCAGGGCGTGCACTGCACAACTCTAGAGTATGTCATTTACACTGGGGTCTATGTGAATGGTGCCCCCTGGA
GTTGTGCAGGGTGAAATCTCTACAAAGGTACAAGGCAGACTGTGATAGCTTCAAAAGAATACCGTGTTTGACTTGCCTGGGAGTCGTTTAGAGAAAGTAT
TGCTCGAGGCTTTTTGTGACATACTTTCTCGGTTTCAGAAGGGCTGTTAGGCACTCGAAATGACTTTAGCTCAGTTTTAAATTTGGAAGATGGTTTGGTA
TAATAAGGGAACTCCTGAGACGATTTGAGGTTTAGAGATCTGGATTTAGGGCTCTAGGAACTTTATCTCTTGTAAGAGGTACTTAGATTCCTATTACAAT
GGCTCATTACACATGGGTGTGAACACACACACTCACACTCACGCCTTCCTTTTATGYGCTAGGGAACACTGGGACTAAGAACCGCAGCACTGAAGCTTTT
ATGSATTTGAATGTGGTAGCAACTTAACTAGTATTTTTTTTTTTTTTTTTAACTAACTTGACGTGGGAGTTTCCATATATTACTTTGGTCATTGTAAACT
CCAAAAGCTTCTTCTGGAAAATATTTCCTGAGATCTTCTCATGGCTCTTTCACATTCCTGCTTTTCCAGCCAACTGGTAACGGAAGCCTTTATATCTTTA
CCTTAGGACAACAGAATTGAGTGAAACAGTCACGTTTGGATTGTCAGACTTGGTACCTTCTTTAGAGCCCAAGAGAAAACATCTTGAGTCCCATAGTAAT
ATGTAACCCCTGGGATTATATTTGACATTATTTCCTTTTTAACCCTCTACACTGGGTAAAGGATAGAGGTCCCATGCCATTTGCTCACCTGAGTTTCTTT
TCTTCTACCCATATCGTAGGCCCTTTCTTTCTTCTGTTACATTTAAAGGGGTAGTAGCGTGGCCACTTCCCTGGAGATGCATCTTCCTCTTCACTAAGTG
TAGGKTTTATCCACTTTCTCATGTCTTCTTTTTATTAAAACACAATCCCTGTCCTCCAGAAGTCTCTAGTCTAAATGACAACTTCTTCAGTAGTCAACAT
CTCCGTGCTATATCCTAAAGGCACAGCTTCTTTGTGTGTAGAGGAATTTTCAGATGCCTTCACAGTATATTGCAAGGAATTGGAAACGGGGATGCTTTTT
CACACATGGCTGAGAAGCCCTTGGGTATGTGGATGCTGATACTCCTTGAAGTTAAAACATTTCTGTGCCCAGTTTTTATGAATACTTCAGGCTCCTAAAT
GAACCGAAACTAGGCCCGCCTGCCTGTTCCAGGATAGCCAGGTGGCACTTTGCCCCTCACGTGGGAGAGGCGCGGGCATGGAGATGGTCCATTGCAGGCC
CATGAGATGCCAGCTTCATGATAAAGCACATGAGGTCCTTTTAAAAGAAATTGTACATGAAGGAACATAGCGCGTTTCAACAAGATCCCCGAACAGAAGG
CCAAAACAAAGCTCCCAAGTTGCACAGGCCCCTTCCCCTCACAGAAAAGATAGGCCATTTCTACAACAGATGGCCCTCAGCCCTGGGTGGAGCCTAAGCT
TGGTGGCATCACCACCTTGAGGTTTTCCTGACAGAACCTAACGTGTTCTCGAGTTTCTTTCTTTCTTTTTTTTTTTTTTTTTGAGACTGAGTCTTGTTCT
GTCACCAGGGTGGAGTGCAGTAGCACGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATCCTCCTGTCTCAGCCTCCCSAGTAGCTGGGA
CTACAGATATGTGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTTGT
GATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGACCTCAAGTTTCTTTCTGCCTATCATTGTCTTTTTCTCTT
CCGAGTTGACATCAACATACTGTGAGAAGCTTTAGGCAAAGGCAACTTTTAGCTGTTCTGAAACATATAGCAGTGTAAGACCATTTCATTTCAATGTATG
CCAGGCAGCTACTTCATCTGGTAGGGCTATGAGGGGAGGGAGAACTAGTCCAATCCGGAATGAGGCAGTCGCCTCTCCTGAATTCCCCCCAGTCCCATTC
CACATTTGCAACCTCGAGCAGATGGATCAGGTTGGAGAATATGAAAGACTCCATGCAGTTCATCCCCTAAAGCCCTCACTAAAAGAGCTTCCTTGGAGGG
CTGGGCATTAAACTTGTAGGCAGCAGAGCCTTGTGGTTGAGGGCTTTGGAGCCAAGACCACCTGAGTTCTCTCCTTGCCCCACCACTTGCTAGATGTGTG
ACCCTGGCAAAGTTACCTAACTCGTCAGTTTTCTCCTCTGTGAAACTGGAATGGTGGTAATACCTGTTGAAGAGGATTGTTGTGATGATTAAAATGAGTC
CATCTGCGTAGCACACCTAGAATCATGCCTGGCACCTGGCATATGCTCAACACATGTGACCCATTCATGGGAGGAGTGGTATCATCCTCATTATGTCAGC
TAGAAGAGAATTGAGGGAACATCTTCTTTCTTACAGATGTCCACTCAGCAGGTTTTTTTTGTTTGTTTTTTGTTTTTTTGTTTTTAAACAGAGTTTTGCT
CTTGTTGCCCAGGCTGGCATGCAGTAGCATGATCTCGGCTCACTGCAACCTCCGCCTTCTGGGTTCAGGCGATTCTCCTGCCTCGGCCTCCCGAGTAGCT
GGGGCTACAGGCATGCACCACCATGCCCGGCTAATTTTGCATTTTTAGTAGAGACGGGGTTTCGCCACGTTGGCCAGGCTGGTCTTGAACTCCTGACTTC
AGGTGATCCTCCCACCTCCGCCCCTCAGAGTGCCAGGATTATAGGCGTCAGCCACTGCTCCCAGCCCACTCAGCAGTTGTGAAAGGAGCCCAGATGATTC
CTCGTTCTATTTCACCCTTTTCCCCTGCATCTTTAACAGCAAACTCTAAGAGAAGCCTCTGCTAAAGCTTTCATTCTCTTGATTCAGAGTGGGACCCTTT
GGCCTTCATAAGTAAGAACTGTGAGCAGGTCAGGCAGGGCAGCCCTTGAAGCTGGTGCGGCCATGACCACCTTCATGTGCTCCTCAAAGATGGGCTCTCA
GACTGCTTGCAACGCCATCATCCCACTCCTCYCTGAATCTTCCTCGTGCCGTCCCCCATTCCCTTTTATGGATCAAATGCTGTGGGTCAGGTTTGACAAT
GGACATAGGTACATGAGAAATGAGAGCTTCCCTTCACCACCCGCCAATCCCTTCTCTGCTCCCAAGAAGCGTGTGTCCCTCCAGCTGGGGTACAATGCAA
GGGCATTTGGCTTGAAGCGGGGTTGGAGGTTGGACAAATACCGGGGGTTTGTGTGGATGGAGATGGCAGTATGGTCACTTCCTCCTGCCTTCTCCTTCCA
GGTGCGCCCAGACACTCTTCTCACATCTGTTTCTTGCAGTAATTCCCTGTGTTTCATCTCTTCATCTAGGGAAAGAAGAAGAAGAGGAAAAGGGACAAGC
AGCCGGGAGAGACCAATGGTAAGTGACAATCATCAGGTTAGAGGAAGGAGCTGTAGCCTGAGGACCACCCTTTTATGTTAGGTTTCCATCTGGGGGAGGC
AGGAGAAATTCAAGGCCAGGACATTGTGGGGGAACCCTTCTTAGCTAGCCTTTTTGTTTATGCATTTTAATTAATTGCTTCATGACTGCCCTTTTAAAGC
TAGTAACATCCATTGTTGCATGAAAAGCACATTGTAATTCTAGTGGAATGTGTTTTAAAATAACTGCAGAGCCTATAACTGGAGAGCAAGCGGTAGGCAT
GCCTATGCCGGGATTTATACAGTCTGCTTATTTTGTGTGTGCCTGAGAAGGGATGAGGAGGGGGCGGGGCTTAGGGGAGTAGGAGGGGGTGTGTGTGAGT
GTTTGATATTAACTGGGCTGTTCCTGAATGTTCTGATGCATGCCTTTACAGTGGTAAATTACACCCATTTTAAATTAAGGAGGTTTGTCATTCTCTAGAA
GAAATTAGAAATACTGCATAGGCAATCTCAGAGGTCCCTTGGAGAAGGCCAGGCTTTTACAAACAAACAAAACAAAAATTTTGAAGGCTTTGTATAATTT
GTTCTTTTTTTTCAGAACACAGCGAATGTTTCCTAAATCCTTGCCTTTCACTTCCTCCGATTACAGGTGCTAATGTCATTTTGAGTCATTAAAATAGTTG
ATAAACTGTTTTTTAATTTTTCTTGCCATTATAGTTTTATTAACATTTAAACACGTATGACATTTGAACATTCTTTAAAATGACCATCAACACGGTTTCG
TATGTTTCAGTAGATTTTTTTTTTCAGTTGCTTCTGTTTTTTTTTTTTAATTTAACCTTTGTTTTGTTTATTTATTTTTCCCATAACAGTTGTTTAAGCA
GTGATGACAGTGATTTAGAGTTGAACTAACTGTGCAAATTGAATATGCAGTATTTCTTTAAAAGAGACTGGTTAAAAAAAAAAATGGAAGGAATTCAGTA
ATAAACCTCCTTAATCTAATGGCATTTTTTTCATTGCTCCCACTAAGTTTTCTCACGCAAGCATGCATCCGCAGTATGATTATTTTTTCCTTTGCTTTTT
TTTATTTTAGTTTTTTCTTTCTTTTGCTTTTCTGCTCATAATTTGCAAGTCCACTAGCATTTTACTGACTGTGCCTGCTTAAATGCTGCTATGAGCTTCT
AACTAACTCCTAACAGCTCATTCACACAGCCTGTTTACCTTTATCTTTTCCTCTCTTAATAATTAATGAAAATAGATTTAAAAAAAAGACGAACGTTCCA
AAAGCTGCAATATCCCAGTACCACAACCCTTTTCTTTCTTTATTTCTTTCTATTTTGTTTCGTTTTGTTCTGTTTTTATTTGTAATTTTTTTCTTTTTTT
AAACTATTGTATTCTGAGAAGAAAAAAGCATGTTACAAACTTAATTCCCTCCTTCGCTTTATTTTCTTCTTTAAGAAAAAAAATTGAGAGAAAAAAGGGA
AAGCAGAACTAAAAGAGGAAAAATATTTAAGAGTTATTCCATGTCTAACTTCCCTTTGTCAGCTCGAACCAAATCTGAGAGACAGTCCTTAAAGAAGGGA
TACTGCAGCTTTATTTGCAACAGCTAATTTCAAAAGTTGAATAAGAATGTGACTTTTACTTTTTTTTTTTTAATTAAAGAAAGTTAAAAAACGAAAGTCA
ATATTTTGCAATTAGTAACCAGGTCATTGATTTATTCCCTTTTTTATTTTTATTTTTTTCTTATTTGTATCTTTCTCTTCCCCCCCCCCCCTCCCTCTCT
CTCTTTCTCTCTCTCTCTCTCTCCCTTTCTCCCACGTTCTCCTCCTCTGCTCGCTTCTCTCTTGAACTCATTCAGACCTGAGCGCTCCTAAGAAATGCCG
AGCGCGCTTTGGCCTTGATCAACAGAATAACTGGTGCGGCCCTTGCAGGTGTGTATAGTTTTCCAGATTCGCTGTGCTGGTTTGCAGCTGGTCTATTCGA
TCCTCTCCCCCTTCTCTGGCCTGTTGCTTTGTAGCTCTGTGTGTGGATCTCAGGAGACACAGGGGAGTGGGACACTGCCAAGTGTATGGGTTCTATGAGG
GATGTGCTTGTTCTCCTGCTGCTGCCAGCCAAAATGCCACTGTAAAACAGCATCACTCGTGCCTCCTCGGGTCAGCGACAGCAAACCTTAGCGCGCCCCC
TCCCAGGGAATGTTACCTGCCAACCCCCATCCCTTCCTTGTGACAGCCCAGGATCGGAATCCTGGCCTAGGTAGAAGCAAATGACRTCACCTTCTCCCCT
CCTCTTCTCTCTCTCTTTTTATTTATTTATTTTTTCATTGTTGTTTTTTGGTTTCTGGTTGTTGTTTTGTGTGTGTGTGTTTTATTGKTTTATTTTATTA
TTTTTTTTCTTTTGGCTCATAGAAGTCCTTTCCTTTCATGTCCTTGGTGAGGGAAGATTATCAAATAGAACCAAGGTGATAGAGAAGAAAAGGAAGCTGT
AGCTGAGATTTCACATCCAACTGAGCACGACCCACCATTGTGTTGTATTTTTTGTGTTTACCTTATGCTAACAGATGCAAATACTCCAAAGAAGTGTCGG
GCACTGTTCGGGCTTGACCGACAGACTTTATGGTGCAAACCGTGCAGGTATATTACCACTGCGAGGCCTTTGGGAAAATCAAAGCATTCTGTCCTTCCGG
TACCTTAGCGTGATAATTTATTTTGACCTCGTTCCCCATCTACTTCCCCTCTGGCATCAATGACTAATGATCCTCATTCTTCAAAATTTCCTTGCTAATT
TTATGCCATTTCCTCTCCCCACTTTCTCTTTCTCTCTTTTCCCCCTGCTCTCATGAACAATATCCCTGGTGGCAGGACTGAGACCACAGCCTTAACAAAC
AAGGAGGGGCACTTATCTTTTTGCTTTGAAAGCCAGCATCCTGGAGCTGGTCCGGCCCTATGAATGCCTTGGTGGCCCGGGTACTGAGCACAGAGAGCCA
CCATTTCCAAAGGTTTGAATGAGTTAACACTTGGCAGCAATTGCATTCCCGTGCACTTAGAGTCGAGACACATGGAGAAGGGTTCTGGGGTAGGCTTCTT
CTTTCCCTTTTTTCTTTTTCCTTTTTGGTTGTTTTATGTTTAAAAACCACATGTCTGTACGGAGGAGCTTGGTTAGCTGACATTGTTTTACAGTGCTGAA
AAAGAAGCGTGGCATTGAACGGCATGCACCAGCTAAAGGGCTGCAAGCAGTGAGTCATGCAGTCTCAGACTGCAGCGTCCCTAGGCCTGCAGAATTAACA
AAATATATGTGTGTATATATGTAGCATTGGTTCCAAAAGGAATCAGAACAGCCCAGAAGTGTCCAAATTAAGCACCCATGTTCCACCTGCAGGTCTCCAT
CCAGCCTGCATTCTCAGGGAAAGTGTAGGTACTTCCTTCTTGGTGGAGGGATACCGACTAGCTCCTGTCTCATTTCCTTTCTTTAATGACCACCTTTGGT
TAAATGTGTTGTTTCTTTGTTCTGATACAAGCAGTCTTTGAATTTGGAATATTACAATGGTAGGTATTTCAACACCCTAAACACGCTTCCCTGTTTGTAG
TGCCTCCCTCGTCACGTGTCCCTCCCCTTCATGACTTTGCCATGTGCTCCGTGTTTAGACGTTAGATCAGATGTGCATCCCATTACGTGCATGCCCACGA
GTCTCCTGTGTCTCTTCCCCCCTTCTCTGATGCCAATACGAGAGATCGGTGAAGTGCCTCGTGTTGACCCCAGCACACATTAGAGGAGAGAGGGCCTGAG
AGTATTCCCTGAGAGGGAGCCACACAGACAGCCCTCTGCCTGTGGAATGAGGGATTTGGGGGCGAGTTGAACACCCGGCAGGAGAGGAACTCCCCAGGCA
TTCTGTGAGATGGTAGTGTTCACAGCGCTGACAGATGTCCCTTTGACACAGTCCTGGGGTCTTCTCTGCACAACAGAAAGGAGTTTTGTGACAAAGTTGA
TGGAGGAGGTTAGGTATTTAATTAGGACTAGCCAGGGAGGGCAGGGACTCTGTTAAGCAGTGAATTTGTCAAAATTTTACTTGTACCAGGTGGGAAGATA
ACTAGCTGTGGAAGCCTGTTCTGAGATGCCCTGCCATGGCCAATGACTGGTTAACCACAAGGGTCACTAAAAGAGAGGGTTTCTCATGATCTGTAGAAAT
GTACAACTGACACTATTGTGTGCTCCTCACAATAAGGCCGGTTCAGGTACCTAGTTTGTTTATTTTATTAATGGGGTGGGTGGTGGTTTATGAATCCTTT
TTTTGTTTTGGAAGCAGTTGCTGCAAGTCAGACTTTTTTTTTTCTTGAAGTTATTCCTAACATTGACCCAAACATGCATCCCCCATTTGGGCATAGCTTT
AGCTTACACCTTGCTTACAGCCTGGGTGTATCTTCAGAGACCAGAATTTTATTGATATATAAAAAAAAAATCTGCCAACCGAAAACCTTTGTAGCTGCTT
CCTGTTTGAGCAGCATGGTTTTCTAAAATGCATCTTGGAGGGGCTGTCAATAGGGCAGCATTTCTGCTGCAGACGCTGAGCCCCTGGTCCTAGGTGCCAG
AGTTCCCCAGGTCCCTGTCTCCACCTGGTTTTCTTTCCAGTCTCAGCAGTGTTCAGACTTTCCCAGCAGATATTTTTCTTTGTTGGTGACTTTTCCATAC
CATGGAATGATTAGCAAATGCATTTCTGCTGTCTTTGAAGGATGCTATTCCAAAACAGGATCAGGAAGAACCCTTAGTTTCCTTTCAGAATAAACAAGAA
GCTAGAAAGGGGTTTCTAAGAGGCCACTCCTCTGAATCGAGATGAAGCCTAGGTTGGGGGTGCTAAGAGTATGGGTTACCTTCCCCCTTTTACTCAACTT
TTCCTTTTAACGTGGCTATGGCCACCCCTGGCTTAATGCTAAAACTCATAGGACAAAATGTACTTAAAAAAAAAAAAAAAGGAAAAAAAGAAAAGCAGTT
GCCAACCGAGGCATTTTCTGACTCGTCAGAAATGTGTGTGCGTGCCAGCTGCCCTGTGCTCAGCCACCTTAGGAGACCCATTGCTCTGTCGCCATAGTCT
TCATGTCCCGTGTTCCAGATACCCCTCTCATTCCTATGATCTGGAAACTTCCACGTCATGAGGGTGGGAGGGGTGAGGAAGGTACCAGAATGCTCCTAGC
CAATCAGGGCTTCTAGCTTGCCACACAAGGTTTCTAGTTTCATTTGACATTTGTGGACATTTTAACAAGATTCTGTTTTGAGCCCACCAAGTTGCTTTTC
CCATCTTTTCACTCTGCCCTAATATAGCATGGAATGCTGCTTGGTGCTGTTCCCTTGTCTTCCTGGTTGTTCTCCCTGCTTCTTTCTTTCTCCCTTTCCT
TTCCTCTCTCTGTTTTTCTCTGTTGCTTTCTCAGTTTTGCTTATGCCCTCCCCCTCCCCACCTCCTTTCCTTCTCCCATTTTTAAAATGCATGGACATCT
TAGTTTTTTGAGCATGTTTTGATCTGCAGGCTAAGGTGGTTTAAAACTCTGAGAGGCTTAATTATTTATCTTGGTTTCTGGGATGGAAGCAGAACCCATA
GTCTATTTACTCTCTCCCAGGGAGAAAAAGGAACCTTGCCAAATTGAGGGTGAGAGGGGGTGGTGCTTGCTCCCCTAGAGTTCCTTCTGACCCAGAAGGA
ACAGACAGACCCTGAGGCCACTAGCCCCCATGAATCTCAGCCTCTGGGAGGCAGGGAGGACTGAGCATGCTCCCTTACACCCCTCCCCTCCTTCCCTGCC
TTCCTGCCATCTTGCTGAGTCCAAACCCCAAGCACAGAGGGGCATGATCAGACAGCTCTGGGGCACAGACTGAGAGGAGGAACTCAGCACACCCTTCCTT
TCCAAGGCCAGTGACATTGTCTGACAGTGGTTGCCTTCAAGCAGGCAGCATCTTGGTTGCTTCCAGCGGCAGAAAGCTGGCCAGTGCTTACACACGTGTT
TCCAGTTGGAGTGTTATCAGCYATGGTTCTGACAATATTCTAGGGTCCTTAGATGAGCACACTTCCTGTATCTGCATTATTTTTATAGCATTAGTGGGGT
TGATCCCCAGGCTCACCTTTCCTTACCAAATACCATCCCATCAGACTGGGATTAATGGGAGGAGAAGCTTTGAAGTCACATGCTCAATTTCTTGAGTTGA
TTTTCCCCGACCTCATCCTTTGATGCTAAGCAAGAAGGGCTCTGAAATTCTCATTCCTATTTCTTACATGAATGAGTAGTGAAGAGGGGAGATGCTGGTT
TTGGTGCAGGGCAAAATTAGTCTTTCTGGTTTAAACACGAATCACGATAACCCAAACCCAGGAAGGTCCATGCTGCGATTCCCTGGCACTTCTTCTTTGT
AGTCACTTCGGTGACCGGCTTGTGCTGCACCCTCCATTGACTAGCCTTGGCATATTGACAAGAGCAGGATGCCCCTCCATCCATCCCATCCTCACCATCT
CTCCTTCCAACCTTCTCACTACGGGGTGGGGGAGGGGAAAGCCCCAAATCTTAAAAAAAAAAAAAAAATCAAGTTTGAATCTTAATTTAATCCACAACCT
GCAGGCCATACAACCAGTTATTCTTGTTCCTTTGAATCATTTTCTGTTTTTCTTATTCTTCCCCCTCCCCCACCTTTGTTTATCCTCTTCTACCTGTTTT
TGGTGGTTTCTTTTTTTTGTTTCGTTTTTTGTTTTTTGTTTTTGTTTTAAGTTTATTTTGTTTTATTTTTGTTTCCCTTCCTCCCTTCTCACCTGATTCT
GACCTCTCTTGATTTGGTGTGGTTCTTAACAGACAAGCCCGAAAGCTCTCTGGGCGCCAGCAGCCTCATGGTGGTGGTGTGTTAAAACCTTTAAGCCTCT
TGCTAGCGCTGCCTTCAGCTATGTGGGCTCAACAGTGAGCATTTTGAGAGTTTCATATTGATACGAGGCGGCTGGGGAAGGAGCTCTGTCTTTCTCTTTT
AAACACACACACACTCACACTCACACACTCACACACACACATCACTGGGGGATGGGGGTGGTAGTGGTGGGAATGGGAGTGAAGGGCCGAGGAAACTTGA
TGGGAAAGTGAGGGACTGTCTAAGCCAAAAGAGCTTTTCAGTTCTTCTCAATTTGGACAAAGCCACTTTTTGGCAAATAGATGCCACCATCTGCAGGTGG
CCGCCTCCATGCTGCTCTCGTATATAATTTGGGCATGGTGGGGCATGGGTGTTTAGTAGGGGTTGGGGGAAGCAAGTAGAGAGTTCAGACTCTTAAATAA
GTTGTTTGCCAGAGCAGGCTTAGATCTGGGCACTGTGAAGTAAGCGACCCACCCTGGGGGGGCGCCACTGTAATTGTCCTCGGACCACTGGGCGTGCCAC
CTCTGTGGGACATCCCTTAGGTGACCTCAGCTTGGGTGTGAGCATTAGGTAACTCTCTCCCTTGGCATCTGTGCCCTCTATTCACAGATAACTCTCTCCC
CTGTTTCTAGGAGAAAAAAAAAGTGCGTTCGCTACATACAAGGTGAAGGCAGCTGCCTCAGCCCACCCTCTTCAGATGGAAGCTTACTAGATTCGCCTCC
CCCCTCCCCGAACCTGCTAGGCTCCCCTCCCCGAGACGCCAAGTCACAGACTGAGCAGACCCAGCCTCTGTCGCTGTCCCTGAAGCCCGACCCCCTGGCC
CACCTGTCCATGATGCCTCCGCCACCCGCCCTCCTGCTCGCTGAGGCCACCCACAAGGCCTCCGCCCTCTGTCCCAACGGGGCCCTGGACCTGCCCCCAG
CCGCTTTGCAGCCTGCCGCCCCCTCCTCATCAATTGCACAGCCGTCGACTTCTTCCTTACATTCCCACAGCTCCCTGGCCGGGACCCAGCCCCAGCCGCT
GTCGCTCGTCACCAAGTCTTTAGAATAGCTTTAGCGTCGTGAACCCCGCTGCTTYGTTTATGGTTTTGTTTCACTTTTCTTAATTTGCCCCCCACCCCCA
CCTTGAAAGGTTTTGTTTTGTACTCTCTTAATTTTGTGCCATGTGGCTACATTAGTTGATGTTTATCGAGTTCATTGGTCAATATTTGACCCATTCTTAT
TTCAATTTCTCCTTTTAAATATGTAGATGAGAGAAGAACCTCATGATTCTACCAAAATTTTTATCAACAGCTGTTTAAAGTCTTTGTAGCGTTTAAAAAA
TATATATATATACATAACTGTTATGTAGTTCGGATAGCTTAGTTTTAAAAGACTGATTAAAAAACAAAAAGAAAAAAAAAGCAATTTTGAAGCAGCCCTC
CAGAAGGAGTTGGTTCTGTATTATTTGTATTAAATACGAGCTTGCGAACCAATCATTTTACATCTGGTTTTTAAACCGTAAGGGCACCATGAATGCAGTG
CCGTTACTTTTTTTTTTTTTTTTCTGTGTGAAACAACTCTTATTGTGATGTTACTTGTTATTGTTTAAATGTACAGAAACAAAGGGTAAAAATGTGTTAA
TATACCTTGTTCCATGGTGTTGTTCTTTTGGGGGGAGGGGACGCTACTCAACACTTAATAGAATCACAACSCTGTTGGGCCAGTAGTATTTATTGCTTTA
GAGATTGCTTGTCGTACCTGTATGTCGTCCCTTTTTAAATATGTTTTCCTTTTTCTTGAAACTGTATAAAGTTTTTTTCCCCCTTAGCATAAGCATCTTA
TATATAACAACTCATTTGTACAAGGTTTTTAAGTTTATATATAAAATGTGTATATATATTTTTGTTTCCCCTTTTTGACTTTTTTTTTTCTGTATGAAAC
CCAGATGTCACCAAATGGACATTAATAGTTGCATTAAGGATCAGTAGCATTAACAAAAGTTGCTTTAAAAGCCATTATGTAAAACAAGACTTGAAAATGA
GTGAGGGAATTTTAGCGACACTGTCTGAGCAGCAGTGGGAACCATCTTCGTTTCCCCTTTGAACTCCCAGTGGGATGCCCTACCCTGCGCCCTTAGGACC
CGGACTGACCGTGTACAAAACTTTACGTGCSAAAATTCTCAGTGAATTTAGCTTTCTCCCTCTTTTTGATGCTGTAATTTTTGTTCATCATGTTTTGCTG
TGATGTTACATAGGTAGATTTGTATGTAGTTTTAATGTCACCTATAACAAAATGTGTTTGGTAGCAGATTGTCCAGAAAGCATTTTAAATGAAGAGGTAT
AAACCCTTAAGGGCCAAAATTCTGTATATTAGATTACTCTTAAACGAAAAACCAGCTGCCGCTTTTATGTACACATATTACATACGAGTAGGCAGCAGAC
TTTAAAAATAAAAAAAACCTAGGCATGTTGATGTTGCAAAATGCTGTATAAAGCTGAAACCTGTTCATTCAGTGCCATTGTAGTTGACATGAAGCGATTG
TAAAACTGTCTCCGATTTTTCTCTGGTTTATTAAAATGCTAACTATAACATTTTTTGTGAATACTTTGAATGTTTCCTAACAGTTGTGATGTTACTGTTC
CGTTTTATGCTCTTATTCCRAGTTCATTTTTAATGGTTTGGAAGCCATTTTTGTAATGAATAAATGTTCATGCTGTACAGTATCTGTAGCATGCCGTTCT
GGATTAATAAAAGCAACTTAGTATGTGCAGATAAAGGCTGGTCACTTGTTTCTGTGATTTGGATTTTTATCTCTAGGGAAACTGGACCTACCGTAATCAA
GAAAAACATATTCCCACGTTGGAACTTGACCATACAGTTAGTGTGTAGGTGATGACTTAGATACCAGAACGTGGTCTTGGACTCTTTTGAGGGGTTGATC
CCCTCCCCTCCATCCTCGTGGCCCATTTGGTGTATCTGGTTTGCATAATGTGTCATTTGCAATGGAGATGATCAGTATCAAAGGGGATCCCTGGTGTGTG
TCTTCTGTAGTATTTCACCGTGCCATTCCCAGTAGTTTGTTGCTGAAAGCAAAGCACAGTTACAGAGCAAATGTCACTTTTTTGGGGGCTATAAACCAGT
TTCTCTGAAATATCCTACTCATCCTCTCACAGTAGCAAGCAGAAAGAATTTAATTCTGGTGAATGAGACTTAGTCCACCAAGAGTGCACTTAAGAAACCA
CATCCTTAGCAGTTAAGGATCATGGGTGTGAAAGCATCCTAACCTCCAAGAGTTGCATCCTGGGAGAGATGCAAGGGTATCAAACTGCCCTTTCTCTAGC
AGTGAGCGATTATTGAGTAAGCAGCTTTTTAGAAAATTGGATTAAGGTGATGCACTGAAAGGTGTGTGTGGAAGGGCCTTGCTGTATGTGGGATCCAAGT
GTTCTGGCTGTACCCTGGTAAGAGCCCAAGTTCATCACCATCACTGAGCAGGGGCCATGATACAGATCTTCCCTAAGGTTTCCCCTGGATTTCATTTCTC
TTGCTGACTAGATGGATGGATGGACACATTGTTCCATTTATCTAGGACATTTATACCTTCAAAGGATGACGATTTCAATGGGCATGGAACTGTTCGTGTT
GCCGTTGTGGTTTCTTAAGGTGACCACAGTATCGCATCAAGGACTTAAGAGCCCCTCGGAAACTGCTTTGCTCAAGCAAGTTTTTCTTCTGTAAAATCTC
GGCATTTTGTTTTTGCTTTGCTTTGTATTCCCAGGGAGGAGTGTTTCTGGTTGTCCTTCCTCATTTTATTTTGCACACTGGGCCGAGTGACCTTTGAAAA
CACAAATAAGAACAGTATCTGTTATTCGTGGCAGTGTGCCAAGCTGTTTATGTGCATTTTCTCATTTAATCCTAACACTACCACCTAAGGCAGACATTCT
TCTCCTCCGCCACCCTCTGCTTCATTTTCTGAAAATGGATTTAGAAACTGAGGGTTTTAGGTGCCTTGTCTAAGGCCACACAGGAGGTGGTGGGGCTGGG
ATTTAAATTCAGATCTGACTCCGGGCCCCTGCTCTTAAATAAAGACAGCCCTTCCCCTCCAAAACAGAAGTGAGGGAACAGTCCTTTCAGAGGATTTCCT
TGATTCCCCCACCTCCTCTGCCTCACACACTCGCTCACTCCCTTTCCTCTCTGGCTGTACTACAGAGTTAAGCTTACCTAAAAGCATTTTTGCTCTTCCT
GCCTGGAAAACAACCCCTCATGCTTCAGGTCTTGACGAAGACGTCCCTTTGTTGGGGGAATTGGTCCGGAGCCCCTGAGGGTTGCCTGTCTCCCTCCTGT
GTGGTCTTTCAGGCCTCTGTCTTCTAGTCTCCTTTGAAAGTGGCTGTCGTCTGCTTAGGTCATTCCAGCCTCACCGTGTTTCTCAACCTCAGCACTCGTG
ACATTTTGGGCCAGATAATTGTTAGTTGTGGGGGTCTGACCTCTGCACTGTAGGATGTTATCAACACCCCTGGCCTCCACCCACTAGATAACCTGTCAGC
GCTTGCCCCACCGCCAGTCATGACAGCCAGAAACGTCTCCAGACATCGCCAGATGTCCCCTGGGGGGCAAAATCACCCTCAGTTGAAAACCATTTCTCTA
GAGAGCCCTCCAGGATGACAGGATTGTGGCTTTCGTGCCACTGCTGTATGCTAGGGTCTTGGTTTAGTGCGGGGCACACAGTGGGGTGCTTGATATACAT
TTTTTGAAGGAAAGAAGGAATGAGGTTGGCCAACTCAACACTCGTATTGTAGGAAGCAGCAAAATGGAAACTTTCCATGAGCCTTCCAAATTTTGTGTTC
TCACAACTTTCAGGGTGGTGGTGACCTTAATCCTTTCGGCCATGCTGGGATGTAACCCACTGCCCTTGTTACAAAGGCCAGAAAAAGGGCAGGGGGGTCA
GTCCCTCTGCTGTCAGCCAGCCCGAGTGCCGATCTCTATAAAAATCAAAATGGGGGTCACCAAGTCACACGCTTGCCTGCCTTACAACACCTGGTTGGTA
CTTGGAGGATCCTTCCACCCAAGATGGAACTTCCTTTCCCCCAGGCCTGTGTTCTCAGCAGCCCAAGCTCTAGTCTTCCAAATGCCCAGCCAAGTCTTTG
CCCTTCGGCACTTCCTCTCTCTGTCTGATTTCTTCTTACCTCAAGAGTTTCTTTTCAAACTCAGCATCTTCTAATTTCATCTGTAAGAGTGGATCTGCGG
GTTTTTTTGTTACTAAGAGACCCTGAAACAACGTCTGGGAAACGATAACTCTCACTTTCCCAGCCACATCACTTTCGGCCTCTTACGGGGCTTAGCCAAA
GATGTTTGCATATTAGTAGGGCGTATGTTTCCTGTGGCTGCCGTAATGAATCGCCACAAATGTGGTGGTTTAAAACAACAGAAATTTGCTCTTGCACAGC
CTTGCAAACCAGAAGTCTGAAATCAAAGTGGTGGCAGGGCCGAGCTTCCTCCAAGGCTCTGGAGGCTAATCTGTTCCGTGTCTGTTTCAGCTTCCAGTGG
CTGCCTGTAATCCTTGGCACTCCGTGGATTGAAGCCACATCACTCCAATCTCTGCTTCCATCTTCACATCGCTTTCTCCTCTTGTCTGTCCCCAGACACC
TTCTGCCTCTCTCTTACAAGGATACATGTTTTTGTATTTTGGGCCTACCTAGATACTCCTGGATAAATATCCCTTCTCTTCAGATCTTTCACTTAATCAC
ATATTTTGCTATATAAAGCAATACATGTTTTAACAGGATTTGCATATGGACATATATTTTGGGGGGGCCACCATTCAGCCCACTACAGAATCATTCTCCA
ACTGCTGAGTCTCAGCACAGAACCCTTCAGAATGGGCAGTTGTTCGTTCCACTATTGGTGGTGGTCTTGGATAGGCCCATGTGGAAAGCAATTTTTACAG
TACATGGCATTTCATTTCAGATATTAAAAGGTTCGTTGTTTTTTTTTTTTCCTGATGATGTGGATTCACATAGGGTCAGAGAGCCTTGGACCTGGATGCA
GGATTTCGAGAAAGTAAGTAGCTTGGAGCAGTGGAGTGAATCTGAGCTTGGAGGATCCCACATCTGACTCTCTCGCCGTGTGTCCTTGGGTAATTCCTTC
ATCTCTCTGAGTCTTTGTTTCTTCACCTAACAAGTGATGATACTGGTGTTCATCTGGACAGATTTGTATGAGGGCTAAGATGCAAAGTTGCTAGACTAGT
AGGTCATAGTGTTTATTATTAATATAAAAGCCAAAGGCCAGTCTTCTATTTGTTTTCATTATTTCTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCT
CATTCTGTCACCCAGGCTGGAGAGTGCATGGAGTGCAGTGGCACAATCTTGGCTCACTGTAATCTTCTCCTTCCAAGTTCAAATGATTCTCCTGCCTCAG
CCTCCTGAGTAGCTAGGACTACAGGCGTGTGCTACCACGCCCGGCCAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCACGTTGGCCGGGCTGGTCT
TGAACTCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTATTGTTTTCATTATTTCTCTTTGGGATTCTGCTGGTTAGTCCAGC
TCTTCACACCCAAGTAAGAGAATCACAAAGATCTAGATGCAGAAGACACATCTACATGACCCAGGGACAGACATTGTGACTCATCCACACTCATTCATTT
TACCTGCAACTTAATGGCCTTAGGAAAATGACTTCTAGTCTCTGGGGAGCCACAGCCCTGTCTGGGTTGCTTTTTGTGATATAGAAATGCGGCATAGAAA
CGTGTTTTCAATTAAAGCCCTTTGCAAAGAAATTGAGGAGTAGCCTAAAAGCCTCTCGTGAACGGTGCCTGAGGCAAATGTTGCAAACCAGAGCTGGGAA
TCACGAATGAACAGGGCCACAGATTGGGTTTTCGAAAGGATTCCTATCTGAGGTTGGCTTCTTTGTCTCCCATTCCATATCTGGTTCCGCACTCCCAGGC
ACCTGGCCATCGGAGAGGCCTGCCGTGAACTCTGGCCTGTGTCCGATGGGCAACACTGGTGAGTTCTGGCTCTGAAGCTGGGTTTTTAAAAGCTAGTACC
TCGTGGATACACTTGATGGGAGATGTAAGCACTTTCATTCATTCAGTGACTATTTCTTGGGCACCTGCTTACACCAGGGACTGTTCTAGGAACTGGCATG
TAAGTCTGGGTGAAGCCAGCTTGGTCTCCAGTTTTCCTGGGTTTATTTCTGCACCATCTTATAGGCTGGAGTTTTTAAGGAAAGGGAACACCAACATTCC
TGAGGCCTGGACAAGCCGCTCACCTAGAAAGACATTTTATGTAAGGATAATAACAATAGAAATTGCTAAAAACTCGACTTGCATTTCTCTTTTAATACTC
ATGGGGATGGAAATTGCTTTTATGTTCATTTTACAGATGTAGAAAGTGACACTAAGAGGAGTTAAGTTGCTTCCCCAAAAACACATATCTGGGAAGCAAA
GAGCTTAAGATTTGAACCCAGGCAGCCTGACTTAGGAGCCTGCATAGCTAAATACCATGTTATATTTCTTATTATAAAGATGGCTCATCGGGGTAACTAG
GGAGAGGTGGAGGGTAGAGCCAATTTGATCCACGGCCTTGTGAGAGGGTATTGCTATGGGACCACCAGGCATTCTTTCTCCCTGTCAGTGCACAGAAGTT
TTCTTACTCTGGTATCTGTGCATGTAATAATAATAACAACAGTTGATAATTATATAAATCAAGCATTTTGGACCCAGCACTAAAAGCTATATGATCCTGG
AACTGGAAGAAAATTAGAAGTATATATTCTAATTTGTATATACATATTATATAGTGTTTTTCAGATTGTGGCTTGCAATGTATCCATAGGTCAGGAGATA
GATTTTGTGGAATAAGACCAATATTTTTAAAAAATAAGATTGAATGGGCCGGGTGCAGTGGCTCATGTCTATAATCCCAGCACTTTGGGAGGCCAAGCTG
AGTGGATCACTTGAGGTCAGGAGTTGAAGACCAGCCTGGCCAACATGGTAAAACCCCATATCTACTAAAAATGTAAAAATTTAGCTGGGCATTGTGGCGA
ATGCCTGTAGTCCCAGCTACTTGGGAGCCTGAGGCACAAGAATCGCTTGAATCTGGAAGGTGGAGGTTGCAGTGAGCCGAGATCACAACACTGCACTCCA
GCCTGGGCAACATCGCAAGACTCCATCTCCAAAAAAAAAAAAAAAAGAAAGATGGAATGAAATAGAAAATATGGAAGACAGAATATATTGCTGTATGTGT
GTACTGTATTTTGTAAAATCTTTCTTACTGTGGTTAGGGTAAGAAAGTTTAGAAGCCAAGTCTGAACATTAATATTAGCTATCATATATTGAATATAATA
GTTTCAATATATAAAATGCAGTATGCACGGTGTATAAAATTCAGTTAATGGACTAAAGTTTATTGATGGGCATTTATTAAGTGTTACACCAGTATTTCCC
AAAACGGGCTCTATGGGGCACTTAAACCCCATGACGTCTTCTTGGGCAAATCTGTTTGGGTAACATCTCATACTTTGCCTCCTCTTAGAGTTTCAGAATG
CTCATTCATTTATAAGCCTTTATGAAAGTCTGCCAAAAAGGACCCTCTTTCACTTTACCTATCATGTTTCCCAAATGTAATTGACCATAGAAAACTTTTT
TGAGAGGGTAATACTTATTAATTTCCTTC


SNP Information

Context             (SEQ ID NO:52962):
GGGAAGATGAGAATTGGGTGAACAATCTTGCTCTTCCTATTTCGGGATACCTGCTTCATTGATGGGTGGTCTCTAGGACTTCAGAGGGAAAGGCTGAGGA
Y
AGACTTAGACCTTGGGGAGGGTCTGAGCCAATCAGTGACTTACATTCACTCAGTTGCCATCTAATAGGTGGTCCTCCCTTAGAAAATTGGCGGCTTTCTG
Celera SNP ID:            hCV16184912
SNP Position Genomic:     19598
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,443|C,1046)   total(C,1046|T,443)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52963):
CGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTAACCACCTCGGCCTCCAGAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCCT
R
CCCCCTGTCGCCCAGGCTGGAGTGCAAGTGGCACAGTCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGT
Celera SNP ID:            hCV11290202
SNP Position Genomic:     81970
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52964):
ACTGCTCTTCTGTTGTTTTTTAGCCACATGCCTTGAAACAGTCCTCTTTCCCATGTTTCTTCATCAGCACCATTAACCCAAGGTATACTGTCCTCTCTTA
Y
CTTTCACAAGGTCTTGGAGTTCCCATGCCTTTGTAAGCATCCCTCCCCGAGATTCAGCACCAACCAAAATCACATTTGGAAAAATTGCTTGTTTCCCAAG
Celera SNP ID:            hCV11290203
SNP Position Genomic:     85108
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52965):
CCTCCCAAGTAGCTGGGACCACAGGCACGCGCCACCACACTCAGCTAATTTTTTTTTTTTGGTAGAGATGGGGTCTCCTAGGCTGGTCTTGAACTCCTGG
R
CTCAAGCAATCTTCCTGCCTCAGCCTTCCAAAGTACTGGGATTACTGGCGTGGGCCACCATGCCTGGCTTGAAATTTTTCTATGGCTTTATTCTTTCTCC
Celera SNP ID:            hCV11290204
SNP Position Genomic:     89268
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52966):
ACCCAACCTTCTGAGATCTTTGGTTTTCTTTTCCTAGGTAACTATAGTACATACTTATTTATGTTAAACAACAGCAATCACACATTTCTTTTTCTATACA
R
TCATGCTTTATAGGCAAATAAAGCCTCCGTCTTAGGCTTTCTGGATTTTTTCAAAAGATGCAATTCCTGGAGTATGTTTTTACTTAGAGCAAAGCAGCCT
Celera SNP ID:            hCV11290205
SNP Position Genomic:     89482
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52967):
CAATGTTGGCAGGAAGCAGAAAAGAAGGGAAGATTGTGACAATAACTGTTGCAAAGGCCATTAACTTGACTTTGTGGGACAGACATGTAGGTCTCTCTTT
R
CTGCTTCTGGACACAAATTATGGGAAAGCCTGCACAATAGGTCTCATTAACTTCCAGAGTGACATGACAGGGACTCCAGCTTTTGGGACAGCTTGAGTCC
Celera SNP ID:            hCV27522587
SNP Position Genomic:     160860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52968):
TGGCTGGTCGGTGTCAGGGAGATCACCGTGGGAGGTAGCAGGAGTCAGTCTTTAAAAAAATTATTGGGCCGGGCATGGTGGCTCACACCTGTAATCTCAG
Y
ACTTTGGGAGGCCAAGGCGGGTGGATCATGAGGTCAGGAGATCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTATTAAAAATACAAAAATCAG
Celera SNP ID:            hCV52080
SNP Position Genomic:     125812
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52969):
GAGACAGGGTTTCGCTATGTTGCCCAGGTTGGTCTTGAATTCCTGGACTCAAGCAATCTGCCCACCTTGGCCTCGCAAAGTGCTGGGATTACAGGTGTGA
R
TCACCGCTCCTGGCCTGAAGCATTTTGGATTTTTGGGTTAGAGTTGCACAGCCTTTACTGTTATTATCCTGATGTTATTATCCACATTTTACAGGCAAGG
Celera SNP ID:            hCV114329
SNP Position Genomic:     81455
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52970):
GGTAGAGTGCTGGTCCTGGGGTTCTGGGGGAACCTTTGAGGCCTCCACAGGAACCCCAGGGGTGGAGCAGTAGGGGACTTTGGGGGAACGGTGGTGGGGG
K
GCCCCTGTTGCTTTTCTGGGTGTTGAAAAGGAAGCTCTTTGGGGTGGTTGAGGCCTGGTGTGGCAGTGGTTTTCCACTCCCTTTGGAGAAGTTCATTTGC
Celera SNP ID:            hCV25996136
SNP Position Genomic:     197197
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(T,2)   total(G,30|T,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52971):
AATGGGGTCTCTTACTTTTCATAGCAGCACTGCAAACAGAGTTACGTTTCTATTCATTTTATGGATTAGAAAGCTGAGATCCAGAGCGGGCAGATGTAAA
Y
CTGGGGTCTTTAAAATGCATCCTTTTTGCAAACAAATAAACTTAGTGTATTAAAAGGGCTGGAGAGAGCAGAGTAAGGTAACATTTGGGTGGTCAGCATG
Celera SNP ID:            hCV8148351
SNP Position Genomic:     73701
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52972):
AAATTTCTGGCTGTGAAATCCCCTGTGTAGTGGGAAGAAGAAATAGCAAATCTTAGCTGCCTTGGACCTGATATAATTATTTGTCTTCATTTACATGGTT
Y
ATCCTTCAAGGTTGAATAAATGATGTGGGAGCTAGTCAAGGGGCTTTAGGTATGTGATTTCATGCCTACTTTTTTTTAGGTAGAGAAACTGAGGTCACAG
Celera SNP ID:            hCV447416
SNP Position Genomic:     84846
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52973):
CAACCTTCTCCCCCAGGAAGAGTGACCAGGGACCTGAGGGGCATGGTCGAGCAGATGACAGCCTTTGTAAAACATCTCCCTGGTCTCATCAGCGATATTC
R
TCCTGCCTTCCTTCTGAGTAATTTCCATCTTAGGACTGGAGTCAGGTGGAGCAAGATTCCATGTTGGTTTCTGTTGGGCCTAGAGTGTCACACTGAGACC
Celera SNP ID:            hCV25652128
SNP Position Genomic:     53497
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(G,40)   total(A,4|G,74)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52974):
GTTACATTCCTAGTTCCTCAACTGCTTATTTCTTTTTGGTTTTTGAAGCAGGAATTTGATTTGGTGTCTGGGTTTTGATAGGGGTGTTTATGTTTCATCA
R
TGTCTTTTGGTTCTTTCAGCGTTTCTCTCCTTGTCTGTCATGTGTCAGAGAGGGTGCCTGTCAACGATTCTCTCTCTCCAGGGAGAAAGTCTTTCTTAAA
Celera SNP ID:            hCV447417
SNP Position Genomic:     83121
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52975):
GAAGTGGAATTTGATTTGGTGTCTGGATTTTGATAGGGCCATTTATATTTCTTCAGCACTTTTTGGTTCTTGCAGAAAGTTACATTCCTAGTTCCTCAAC
Y
GCTTATTTCTTTTTGGTTTTTGAAGCAGGAATTTGATTTGGTGTCTGGGTTTTGATAGGGGTGTTTATGTTTCATCAATGTCTTTTGGTTCTTTCAGCGT
Celera SNP ID:            hCV447418
SNP Position Genomic:     83043
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52976):
TGATTTAAAGTCAGATGAGGATTTTGGTTCCTTTTAAATAGATATTGTTTACTTCATTTAATGGTTCGGCTTTTTAGTAGACTTTTTCTTTAGTTTCTTG
W
CAGCCCAGAACTGACGACATAAAGTGTTTTTATCATCTGAATCCTGCTGGGCCGAGATACTGCATGTTTGTATTTGAGAAGCAGAAACATCCTATTAAAT
Celera SNP ID:            hCV16118407
SNP Position Genomic:     191354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52977):
AGAGCTCCAGTTGCCAGACACTGTGGCCGCTCTGGTACCAGCTACTCCTAGTACCCAGTGCAGGCAAGGTGTTTAGTGTGGCCTATGAGGATGTTGTTTA
Y
CAGGCAGCAACCTCATGAATAGGCAAAAGGCCTGTTTTGAATGCCTCCTGTTTAGAAGTCTGAAATGTCACATCCAGACAGTTTGGAAACATTTTAGGTG
Celera SNP ID:            hCV11290211
SNP Position Genomic:     121005
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52978):
GCTCGTTGTGAGGATTTCCTAGAATAAAGCATGTGATGCACTCAGCACAGAGGCACACAGACACAGAGCCCAAGGCACCATTAAACGGCGGCCACCCTGA
S
CTGTGCTGGTGTGGATGGTAGTGCTTCAGGGGTAGCAGCTGGTCAGTCCCCATCCTACCTTCATTTCGTCTAGAAAAGGTGTTCTAAGCTGATGGTGGTG
Celera SNP ID:            hCV16118408
SNP Position Genomic:     192022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52979):
GGACCAAGAAGGGTGCACACACACCCCCAGCAATGGGCATCGTGTGATGTAGGAAGAAAGGGTTCTGGGGTCTGAGGCCGGAGAGACATAGGCATTTGTA
M
GAAGAAAATCCCTCCATCATAGAGGATTCCAGGTAGAGGCAGGTTGGCTGGAGTGGCAATTAGTCCCTGGTTTTGGCAGGTATGACCACAGAGTTCTCCT
Celera SNP ID:            hCV16118409
SNP Position Genomic:     193734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52980):
AGTAGGGTCGGAGTTTCACTGTGTTGGCCAGGTTGGTCTTGAACTCCTGAACTGAAGTGATCTGCCCACCTTGGCCTCCCAGAGTGATGGGATTATAGGC
R
TGAGCCACCGTGCCCAGCCTTGGCTAATTTTTTATATTTTTTGTAGAGACAGGGTTTCGCTATGTTGCCCAGGTTGGTCTTGAATTCCTGGACTCAAGCA
Celera SNP ID:            hCV114330
SNP Position Genomic:     81309
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52981):
CCTCCCGCCTCAGCCTTCCAAAGGGAGGGATTACTGGCGTGAGTCACCGCGCCTGGCCTTTATTTTTTATTTCTTTTGAGATGGAGTTTTGCTCTGTCAC
S
CAGGCTGGAGTACGGTGGTGGGATCTCGCCTCACTGCAACTTGCGCCTCCCGGGTTCAAGCGATTCTCCAGCCTCAGCCTCCTGAGTAGCTGGGATTACA
Celera SNP ID:            hCV11290218
SNP Position Genomic:     128198
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:52982):
TTCAGTTCAGTCAGCTGGTCCTTGAGCCTGTTGTGTGCCAGATATCCTGACCAAAGAAGCTAGATGGGAGCTGCTGTGTTGTTCCTTGGGGCTGCTGGAT
K
CAAGTTGTTTAGGTCGGCGGTTTTCAAATGCTGGTGATTTTGCTCACCAGAGGACATTTGGCAATGTCTAGAGACATTTAGCATGGCCAGTCATTGGGAG
Celera SNP ID:            hCV384578
SNP Position Genomic:     58103
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52983):
ATCTTCAACTCTGACTTATAATTGAGCACATTTGTGAAGGAAATGGTTAATTTTACAACCAAAGGCAAACTCGCACCTCGACAGGTCTGCTGAAAGAAAT
G
TGCCCCAGTCTTTTTGCTGGCAAGCGCACCACCAGGTCATAAATCCACAGGCTTTATTTACAGCCCATAACACTTATGAATGTTAAGATATTTGACGCCA
Celera SNP ID:            hCV11290149
SNP Position Genomic:     12506
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,9)   total(G,1|-,9) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:52984):
TTGTACAACTGGTAGGGAGTGGGTCATAGTATGGCCGGTCTTTTTAAAGGTGAGGAATTCTTAGGCCCAGAAAGGCAAAGTGACAGATCCTGGATTTAAC
Y
AGCAGCCCAGATTTGAGGCCTAGCACATAGCAAAGCACCATAGCTATTCAATAGCTGCCAAGTGGGAGTTTGGATGATGGCTTTCCTGGACAGCGAAAGC
Celera SNP ID:            hCV384579
SNP Position Genomic:     56323
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52985):
TGGCTGGGAAGGAGGAGGGAGCAGAGGGCTCTCTTGGGTGTGGCCTATTGCAGTTGAGCCAGGGAAAGGCTGGTCCACTGGAGACACCCTCTCTGGTCAC
Y
GCAGACTTCCTGCCCTCCATCCAGTGTCCTTCTACTTGCAGGATGTGTGCCCAGCAGAGAGAATCTCTGAAGCCATGTCATTATTGGGATAACATTCCTG
Celera SNP ID:            hCV8148361
SNP Position Genomic:     73427
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52986):
CCTGGTCTCATCAGCGATATTCGTCCTGCCTTCCTTCTGAGTAATTTCCATCTTAGGACTGGAGTCAGGTGGAGCAAGATTCCATGTTGGTTTCTGTTGG
S
CCTAGAGTGTCACACTGAGACCTAATTTCATACTTTATGAATTCTAGTACTGCTCTCGAAGGTAAGAGCCGTCCTCTTTGGCTGAAGGTTTTTGCCTGCA
Celera SNP ID:            hCV25652139
SNP Position Genomic:     53575
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,22)   caucasian(C,2|G,38)   total(C,10|G,60)
SNP Type:                 INTRON


Context             (SEQ ID NO:52987):
CTCAATTTTTCCAGTTATGAAATGGGGCTGGCATTATTCCGTGATGTGCATGTTAAGAGAGGGGAAAGCTCACATTTTTGAGGTCCTCTTGTGGTTCTAT
Y
TTGTGTAGGAACTCACGCTTTGTTTATTCAGCAATCATTCCTCCAGAAATAACCTTAATAGCAACAAGAAAAAAGAATAGGTGTTTTTTGAGCTCTATCT
Celera SNP ID:            hCV315086
SNP Position Genomic:     44536
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:52988):
TTGTTTATTCAGCAATCATTCCTCCAGAAATAACCTTAATAGCAACAAGAAAAAAGAATAGGTGTTTTTTGAGCTCTATCTGCCAGTTTCTCTATATATG
R
ACATTATATATTGCAACATAACACTCACAATGCCTTTAAACATCATCCCCGTTATACAGATAAGAAAACAGAATTTCAAAGAAGGTAGGGGACTTGCCCA
Celera SNP ID:            hCV315087
SNP Position Genomic:     44656
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52989):
GAGTCTTGTTCTGTCACCAGGGTGGAGTGCAGTAGCACGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATCCTCCTGTCTCAGCCTCCC
S
AGTAGCTGGGACTACAGATATGTGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCT
Celera SNP ID:            hCV27104356
SNP Position Genomic:     211989
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52990):
CATTTTTTCCTACTATGCTTAGAAGACGCGCAGCGGTGGTTTAATATGTGTTAGGACCATTTGCTTTAAAGGAACACATCCACAAGTTTCGGTAGGTTTT
K
TTTTTTTTTTAAGTTAGTCATGAAAAATGTTATACAGTAAATTGTTCTGAATTCTTTTACATATGGGTGTTTTTAATGATCTATATTGGTTTTTGTATCC
Celera SNP ID:            hCV27104357
SNP Position Genomic:     181868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:52991):
GAAGATATGCTTTGCTTCTCCTAGATGCTACAACCTGAAATATGTTGCTACCTTCCTTGAAGGGATTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
Y
CTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTCTCCCCCCAACAAATATAGCTAACGTAATAGAAATTACAGAACAGGATACAATGAGA
Celera SNP ID:            hCV27104358
SNP Position Genomic:     173190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52992):
GTTAGTTATTCTCATGGTGTGGATGAAAAATGGAATACGCTGAAATTTCAGTTACTCGTCACAAAAATAAGGCGTATGTAGAAAACATCCTGGGCTAAGG
R
TTTGCATGCTTCTAGAACTTCCTGTTACTTAATGGCTGTTGAGTATAAACCTCGGGAACAGTGGGGATCCTTGGAGACCCCAAATAACTTGTATTTGTGG
Celera SNP ID:            hCV384580
SNP Position Genomic:     55484
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52993):
AGGATCACCTGAGTCCAGGAGGTGGAGGCTGTAATGAGCTGTGATCACGCCACTGCACTCCAGCCTGGGCAACTGAGTGACACCTTTTCTTTAAATAAAA
W
AAAATAAATAAATAAATAAAATTATTAACCAGCTAATCTCAAATCAATTCTTCTAAATCCTCTGAGCTTGTTTGTTTTTCTGTCTGTAAAATGGGGCTGT
Celera SNP ID:            hCV27104359
SNP Position Genomic:     167592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52994):
CCTGTGAGATAGTGAAACAATGGTAGTGCCATCCAATGATAGGCACTTTTCTGTCATTCAGAAGCAGAAAGGGGGCCAGAGGCCCATTGGCCTTACTGGG
M
AGTAAGCTGTAGAGCTGCTGCCTTTTCGTGAAAGGGTTGACACCAACCTTCTCCCCCAGGAAGAGTGACCAGGGACCTGAGGGGCATGGTCGAGCAGATG
Celera SNP ID:            hCV384581
SNP Position Genomic:     53353
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,39)   total(A,1|C,77)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52995):
CCCCCAGCAATGGGCATCGTGTGATGTAGGAAGAAAGGGTTCTGGGGTCTGAGGCCGGAGAGACATAGGCATTTGTAAGAAGAAAATCCCTCCATCATAG
M
GGATTCCAGGTAGAGGCAGGTTGGCTGGAGTGGCAATTAGTCCCTGGTTTTGGCAGGTATGACCACAGAGTTCTCCTCTCTTGCAAGGGAACCCATGAGC
Celera SNP ID:            hCV16118419
SNP Position Genomic:     193757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:52996):
TGTCCCCAGTGAAAGAATAAGCAAAGAAGTGAATGTTGTGCATTGAGAAAAATGACTCTCGGAGGAGGATGAGCCTCTCGGATATGGCGACCGAAGTGAT
W
TGGGGCCCTTGTCAAGGGTCTCTATTATGGCATCAAGAAAAGATGCTGCTTTCGGTGATGCCCGAGGAGAGCCTCAATATTTTACATGGGAAACCTAAAA
Celera SNP ID:            hCV384582
SNP Position Genomic:     52080
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,8)      total(A,2|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:52997):
CATTAGCAGTCACTCCTCATTTCCTCTCCCCCCAGCCCCTGGCAATCACTGTGGATTTGCCTGTTCTTGACATTTCATATAAATGGTATCATAAAATCTA
Y
GGGCTTTTGTGTCTGTCTGCTTTCACTTAGCATACGGTTCTCAAGGTTCATCCAGTATTGTAGCATCTATCAGTATGTCATTCCTTTTTATGGCCAAATA
Celera SNP ID:            hCV384583
SNP Position Genomic:     50127
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52998):
GAGAAACCTCCCTTACCCATTAGCAGTCACTCCTCATTTCCTCTCCCCCCAGCCCCTGGCAATCACTGTGGATTTGCCTGTTCTTGACATTTCATATAAA
Y
GGTATCATAAAATCTATGGGCTTTTGTGTCTGTCTGCTTTCACTTAGCATACGGTTCTCAAGGTTCATCCAGTATTGTAGCATCTATCAGTATGTCATTC
Celera SNP ID:            hCV384584
SNP Position Genomic:     50110
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:52999):
CCACGCCATAGGCAGATTTTCATACCAGTTGCCTTTACCTCAGTAGTTTTCAGCTGGGGCAATTTTGTTCCCCAGGAGACATCTGGATACAGTGTTGGTT
G
TAACAGCTGGGCAGGGGGTACTTCTGTCATCATCTCATGGGCACAGGCCAGGGATGCTGCTAGGGCAACCCCTCACCCTCCCAAAGAATTATCAAAAACA
Celera SNP ID:            hCV11290228
SNP Position Genomic:     130622
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53000):
GCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGAGAGGCAGAGGTTGCAGTTAGCTGAGACCATGCCATTGCACTCCAGCCTGGGCGGCAGAG
Y
GAGACTCTGTCTCAAAAAAAAAAAAAAAGAAAGTAGCAGCTCTACTGAGATATTTAGAAACCATAAAATCCACCTATTTGAGGTGTACAATTGAGTGATT
Celera SNP ID:            hCV384587
SNP Position Genomic:     49839
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53001):
GGCTGGTGGAGGAAGGTGGGCTCTGGGAGCCGGGGAGAAGGGAAAAGCCATGAATTTGGACAAAAGGACAAATGTGGTTTACATTTGTGAAATACTTGAA
Y
GCTTGTCATGAATGGTGACTTTGGTTCTATGAGTCAGCCCTGTGATGGGGTATTTCTGCAGTCTTCACCTGACACCAGGGGTGAGAAGGAGGATTTCTGG
Celera SNP ID:            hCV25652140
SNP Position Genomic:     98308
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:53002):
TCTGTTTTTCCTTTTTCTGTAGGCCAGGCTGAAAGCTTAATAAATTGTACGAAACCCAAGTAAGCATGGATGTTAAAGAACATTAAATAAATTATATAAG
K
ATGCCTACCTGTAACACTTTTATAAGGCAAATGCACATGGGTTATTTTGCCATAAACGTGCACATGGACCAAGATTTATTCTAAAGCCCTCTTGTTTCAG
Celera SNP ID:            hCV25652141
SNP Position Genomic:     120253
SNP Source:               Applera
Population(Allele,Count): african american(G,18|T,16)   caucasian(G,25|T,11)   total(G,43|T,27)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53003):
GAGTTGATCACCTGAGGTCAGGAGTTCGAGACACACCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCAC
R
TGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCACTTAAACCCAGGAGGCGAAGGTTGTAGTGAGCCGAAATCACGCCACTGCACTCCAG
Celera SNP ID:            hCV27104360
SNP Position Genomic:     131809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53004):
CAAAGCCTAACCTTCTGCTTGGTCTTAGAACTCCTCCACCATGAATCAGTAAGGCCACCAGGACCCTCCTCCAGGGCCTGGGTGCTTTTTGGAGCCAAGG
R
GAGAAGAATACTAACTGGAGAGTGTCCTTACCCCATGTTGGCCACTTATTCCTGGATGTGAACTGGATGTTCAGTCTTGTCCGTGTCTTAACATTGTTAA
Celera SNP ID:            hCV27104361
SNP Position Genomic:     26242
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;(A,-|G,-)   Caucasian(G,17|A,67)   African-American(A,84)   Asians(A,84)   total(G,17|A,235)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53005):
AAATGCTCTCTCCTGCACAGGAAGTAGATGACATTATATTGGGGGAAGGGAGGAGATTTCAGGCAAGGAGTGATTTACCTTTTTTTTTTTTTTTTTTTTT
T
AAATGCTGGAGTTGCCAAATAAATAAGCACTTTCCAGGGAAGTAAGTGTAAGCTTTTTAGTCTTGGTGAGTGGCATTAGATAATATCTTTGACTGCATTT
Celera SNP ID:            hCV27104362
SNP Position Genomic:     12165
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,6)   total(-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53006):
TACAACAAAAGATTTCACCTTTCATTTTAGAGCTGATTAGGACTTAGGAAATTGTCTTCTTAGATGCCACTAATAATGCCTCAAAAAACAAGTGGACGTG
Y
GATTTCTGGCAGGTAGTCCAAGCCCACTTTTCCGCCCAAGTACGTCAGTTGAATTTGTCTTTTGCTAAAGATGTTAAAAATCATAATGTCTTATGTCAGT
Celera SNP ID:            hCV29347830
SNP Position Genomic:     206442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53007):
AGGAGAATCTCCAGAACCTATGAGGTGGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGCAACAGAACAAGATTCCGTTTCAAGAAA
K
CAGAAACTCTGAAATTTTTGCCTGTCCAGGCCACATCAATCCCATTCCTCTGCTGTCTCTGCAGGATTCTGTGAGGAATAATTAGTTAATGTTTGCAGAG
Celera SNP ID:            hCV445764
SNP Position Genomic:     70990
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53008):
TGGAGGTTAACAGTGGTAAAGTAATTGTAGGATAGGGATTGGGGTTAAGCTGATCGATTGAATTATCATTAGGAGGTTAGTCGATGAATTATAGGTGGGC
R
TGGGGGTGGAGGAAAGGCAGGGAACGTCAGGAAGAAAGGTTAGGGCCTCAAGGTGCGGGGAGAGGCGGCCGACTCCCCAGGTAGGCCAAATGAAAGATAG
Celera SNP ID:            hCV29347831
SNP Position Genomic:     203609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53009):
CATGTGCGCGCTTGTGCGTCCACACAAAGACAACTAGGAGAGGATCCAGAAGAAATGGACCATTTTATTTGTTTACACAGCTGAGGAGTGGATACTGTGC
R
GTGGGGGTTACTTTCCCTCTTGTTCTTATGCTTGCAAGTTCCCATCTGAGCTTTACCAAAGCCTAACCTTCTGCTTGGTCTTAGAACTCCTCCACCATGA
Celera SNP ID:            hCV27473953
SNP Position Genomic:     26085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53010):
TGCCAGTTTCTTGTAAGTGGTGGTTTTCCTAGATGGTCCCCTGTGCAGCCTGCGTGCCTCCTGGAGGTGGGGCCTTGGGGTAGGAGGTCCCCACAACATG
Y
GGAAACGCAGTAGGCATGGGAGATTGAAGTCTCCACTTCTGACTCACCTGCTAATGGGAAAAGTGCAGACTCTTGGGCTCCATAATGGGGTAGGGGTTGA
Celera SNP ID:            hCV29347832
SNP Position Genomic:     196592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53011):
GTGGCTAAGGAGGCTGGCTGGGTGGGATTTGGGCCCTGCCAGTTTCTTGTAAGTGGTGGTTTTCCTAGATGGTCCCCTGTGCAGCCTGCGTGCCTCCTGG
M
GGTGGGGCCTTGGGGTAGGAGGTCCCCACAACATGTGGAAACGCAGTAGGCATGGGAGATTGAAGTCTCCACTTCTGACTCACCTGCTAATGGGAAAAGT
Celera SNP ID:            hCV29347833
SNP Position Genomic:     196556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53012):
GAAGGATTGTAGCATGCCCGCTGTTTCTAAGGGCAGGGAGGGGATAGGAGCTGTCGGGGGGTGGCTAAGGAGGCTGGCTGGGTGGGATTTGGGCCCTGCC
R
GTTTCTTGTAAGTGGTGGTTTTCCTAGATGGTCCCCTGTGCAGCCTGCGTGCCTCCTGGAGGTGGGGCCTTGGGGTAGGAGGTCCCCACAACATGTGGAA
Celera SNP ID:            hCV29347834
SNP Position Genomic:     196496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53013):
CTCCTCTCCCTGCTTGCTCTGTTCAGTCATTTCCCAGCAAGAAGAATTTTAATGCCTGTGTGAATCCATGAGAAACTATGAGTCGGCAAAATTTCACAGA
Y
GGCAGGGAGAATCATCTCTCTTCCTCTTCTTGCTGTCTAAATGGATTTGATTCCAGAGAGGGAGAGGGAGAGAAATAAAAGCCAGCTATTGATAATTTAC
Celera SNP ID:            hCV29347836
SNP Position Genomic:     189486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53014):
CTGCACTCCAGCGTAGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGACAGGATCTTGCTCTGTCACCCAGGCTGGGATATACTG
R
CTTGATCATAGCTCACTGCAACCTTTAGCTCCTGGACTCAAGCAATCCTCCAGCATCAGCCTCCTGAGCAGCTGGGACTATAGGTGTGAATTACCATGCC
Celera SNP ID:            hCV11290232
SNP Position Genomic:     131999
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53015):
GCTTCTGTTAGTTTAATTTCTGATAAAACTTCCATTTCAACTTTGCGGCACCCTAAATGAGACCATCTTGGCTCCGAAGGAGTCTAGCGGGCACTCTTTC
Y
GAATGGCGATTTGGGATCTGCTGCATGTATCAGAGGCTTTCGTTGAGTTGTGTTGTTTCCTGTGTGTTTATGACAGAAAGATGTCATCGTTAAAGGAAAC
Celera SNP ID:            hCV29347837
SNP Position Genomic:     180655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53016):
AGGGGTAAGGTTAATTCTACAAGTTCAAAGCCAGTAGCCCCTGATGCGCTGTTGGACGTGAACTATAAATTTGGCTCTGAGGTTCCCAGGCATGGAAGAA
Y
ATCTAGATCTGTACAGAGAGGTTGTGTGTGTGTTTAACATTTCCATAATGTACAATTTCCTCTAAGAGTAAAGGCCATGAGGAAATGCCCGTGGAAGATA
Celera SNP ID:            hCV27495375
SNP Position Genomic:     142968
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,83|T,1408)   total(C,83|T,1408) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53017):
TTTGAGATAGAGTCTTGCTGTGTCGCCCAGGCTGGAGTGCAGTGGCATATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAGGCGATTCACCTGCCT
Y
GGCCTCCTGTGTAGCAGGCCCATGCCACCACGCCTGGCTTGCTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTGTATTTTTAGTAG
Celera SNP ID:            hCV11290233
SNP Position Genomic:     133619
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53018):
CTGGGCCCGGTATCCCTCCTTGGCCATCACAATTGCTGCAACCGTTATAGGGAAGAGAAGTGTAGAAACCAGAAACCCCTATTGAAAGAAGCATCAATTC
R
TATAATTAATTTTGCCATTATAAAAATCATTTGTAAAATTTGCATTATTAACATTATCAAGTCACTAGTTGGTAAGACATCAGACATGACGAGAGTGAAG
Celera SNP ID:            hCV29347838
SNP Position Genomic:     178669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53019):
TATAACTTGCAAGCAAAAAATAATAAAGTTCTTGGCCACATGTCTCCACCCCCAAAAGAAACATTTTAGCCATGGTGTCCCTTAAGGTGTTTTTTTTTTT
W
AAAAAACTTATCGAAGGTTTCAATATAATAGACTAATTTTCCAGTTATGTGGCAAAGTTTATTGGATTTGTGTGTATAATTATGGATTGGATTAGTTGAG
Celera SNP ID:            hCV29347839
SNP Position Genomic:     175439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53020):
AGAGAAGCTTGGACAAGTTTCCATTAAGATCTGAATCAGGCGATTGGAAAAGAAGAGAATAAAACCAACTGAAAAGAGAGGGACAAGTTGTTAGTGTTGC
S
TACTCTGCTTTGAAGGAGAACCCTCCTCAGACAAGAGCTACTTTCTGGCCAAGAATTCCAGGCTCGCAGAGAAACCTGTCCCAGGCACAGAAGTTGTTTT
Celera SNP ID:            hCV11290163
SNP Position Genomic:     18165
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53021):
CTAATTTTTGTATTCTTGGTAGAGACGGGGTTTCACCATGTTGGCCAGGGTGGTCTCAAACCTCTGACCTCAGGTGATCTGCCCGCCTCAGCCCCCCAAA
R
TGCTGGGATTACAGGCGTGAGCCACTGCGCCCTGCCAGCGGTTCACTTCAGATACTGCTTCTGAGTATGTGTGGGGGGCTGTGTGTGGGGGACAGATCTT
Celera SNP ID:            hCV11290165
SNP Position Genomic:     18660
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,5)   caucasian(G,6)   total(A,11|G,11)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53022):
CTTTCTCCAAACCACCTGGCACGGTGCAGGCCATGTGAAGCTCTTTCTCAGGAGGAAGATGGAGTAAATTACAGAGCTCATTGTTTTGGAGGACTGAAAC
Y
ATTACTATTCCTCCATGAACAGGTAGTATTGTTCTCTGCTTCTATTTGCTAAGGCTTGATGCCCATGTGGGCAAACAGAGAGACATTTTATTAGAGACCC
Celera SNP ID:            hCV2013845
SNP Position Genomic:     22635
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53023):
CATGAAAATCTGAATCCATATGCATTTGTCAGGGTTCTCCAGAGACATAAAACCAATAGGATGTATGTGTTTATATAGAGAGATTTGTAATAAGGAACTG
R
CTCACCCAGTCATGGAATTCCATAATCTGCATCATCAAGTGTCATGGTCTGTAGCTGGGAAGCTGGAGACCCAGGAGAGTCCATGGTGCAGCTCTAGTCT
Celera SNP ID:            hCV28015673
SNP Position Genomic:     139997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53024):
ACACCTAGAACATGCTTTTATCTTCAGAAAAGCAAAAGTCAATGCAGATGAAAAATTTTCAAGGAACTCTTAGGTTTAAACAGCAAATGATTTAGTACTA
R
TGTTAGCTTTTAAAAAAAGAAAAGTGAATATTTATGAACCAAATAATAAAGCCTCTGTCTTTAAAAACATTTATTGTATACCTATTGGGTGCTGTGCTAT
Celera SNP ID:            hCV25652151
SNP Position Genomic:     146095
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,29)   caucasian(G,40)   total(A,7|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:53025):
GGGGTAGAGAGTGGGTTTCCTCCAGGCATTGGACTTGAGAACTGGCTAGCGCGCAGAGCCCGGGGCCCTGGAGAGGCTCCTTGGCTTTCTCTTTTGGGCG
R
CTATGTATTTAGCTTTCTAGTGGAGATTGCTGGCTCTCGGCCCTCCTTCCCCCTTCCCCTGGAAGGTCACACTTCCCAGATTGGTCCCACCGCAAACTTG
Celera SNP ID:            hCV2013849
SNP Position Genomic:     7956
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53026):
GCCTTCGTTACTAGTAATTTAGAACTTAAAGATTTTCTTTTAAAATTCAGGGTGCTGGAAAATGCCCACTTTGCCTCGACAATACCTACCTGAGGCAGCC
R
TGAATGGCTTTACTCGCAGATGTTGCTCTCCAAGGACAGGAAGCATTGTTAATTTCCTTTAAATAATTCAATACAGTGTCAATACCCCACACTGCTCAGT
Celera SNP ID:            hCV25652152
SNP Position Genomic:     145845
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:53027):
TCAGCCTTTTAAGAATCAAATGCAAAGCCAGTCACTTAGCCTTGAATTTCCCACTGTGATTCCACTTTTCAAAACCCAGGATGACCATCATGATGGGTTT
M
GTTGTACTATCAGTTGTTACAGGTCAAATCATAGTCTCATGATTGTTAAAATCTTAATAAGGCCCCCTCTAATCCTGTGAGTTTTCAGAAGGAAATCCCT
Celera SNP ID:            hCV29347840
SNP Position Genomic:     169755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53028):
TTTTATAGATCTTTTAAAAAGTGACTTGTTTGAAGATTATAACATCATTTCATACAGAAAATAGCTTTGCTATGCTTACATTTTGAAAACACCTGTTGAA
R
CCTCTAAAGAAACATGTTTATAAAATGTTAAACACGTCAGTTATATTTTTGGTTTAAAACAAGCATGATAATTCTTGACTTCTTCCTCTGAATTTGGGAA
Celera SNP ID:            hCV29347841
SNP Position Genomic:     165828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53029):
CAACACTATGTGAGAAAACTTGAAAAGTATATAGGTTGTGGATCACCAGTTCTCGAACTCAGGACCACCCTGACTGAGTTGACCATGATCAGAATGGATG
S
AAGAGTTCACTGGTTTTATAATTTTTGCGAAGAGCTGTCTTCTGCCCTTAGCACTCCCATGTCCTGTAACCAGGAAACAAGCCGGTGCCCTGGGTTGAGT
Celera SNP ID:            hCV29347842
SNP Position Genomic:     162785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53030):
GGGCACTAAAAGATGAAAGCACTAAATACTTGCTTTAGAAAAACACAGTGGAAGATTCTCTCATCCTCCCCGCTGAAAATTTATGGGCTTAGAATTCCAT
R
AACCAAAATGACTGTCTTCAGTTAAACTTATTGCGACCCTCTGGGCATGATTAACAAATCAGGTGGAAAGGGAAGGTGGAGGAGTATACGGGATTCTTTT
Celera SNP ID:            hCV29347844
SNP Position Genomic:     156408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53031):
TCTGTGTGTGCTTGTCCTCCCCCTGGGAAATGATGAGAGGTGACCCCCGAGCTCCCAGCTCAGTGTCACACTCGAGTGAACAGTAGATGATGCTTCTGCC
R
TGCGTTTTGCTGGGGAAGGTAACAGCCATCGCACACATGTAAATTCTTGTGTAATCCAATTCCTGTCTTTGTAATTACTTGGAGACTTGCCATCGCAGCC
Celera SNP ID:            hCV29347845
SNP Position Genomic:     155491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53032):
TTCTTAGGGAAAAGTACAATGTAGGGCTATGTGTGTGGTGGGGATCTTCTGTGTGTGCTTGTCCTCCCCCTGGGAAATGATGAGAGGTGACCCCCGAGCT
S
CCAGCTCAGTGTCACACTCGAGTGAACAGTAGATGATGCTTCTGCCATGCGTTTTGCTGGGGAAGGTAACAGCCATCGCACACATGTAAATTCTTGTGTA
Celera SNP ID:            hCV29347846
SNP Position Genomic:     155444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53033):
TCATCTGCCCCACTACTTAGATGAAACCAGGAATGGCAAGAGGAGAGCATCCAAGCCGCCTGCACCAGCCCTCAGTGCATCCCCACCCAGGCTCTGGAAC
R
AGCTGCTACATGCACGGGAAGACCAGAGCTGCCGTCTTCCTGGCTGTTGTTCAGAGCTTATGCTTTCTTAGGGAAAAGTACAATGTAGGGCTATGTGTGT
Celera SNP ID:            hCV29347847
SNP Position Genomic:     155279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53034):
GATTTTTAAGATTTGGGCATAATGTTTAAAATGAAGATGGTATGTCTGTAGATTTTATTGACCCAACTTGGTCCCCCCAGGCTGTCCTCATCTGCCCCAC
K
ACTTAGATGAAACCAGGAATGGCAAGAGGAGAGCATCCAAGCCGCCTGCACCAGCCCTCAGTGCATCCCCACCCAGGCTCTGGAACGAGCTGCTACATGC
Celera SNP ID:            hCV29347848
SNP Position Genomic:     155192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53035):
TACAGAACATTTCTAGACATCTGGCAAGAGCTAGTTATCATCCCTTCCTGATTTGGGGTGCTAAGACCTGTGGTCCCCTTCTTCCACCGTAATTTACATT
Y
TTCCCTGAGTCCTGCAGGAACTCAGCCAGGCAGTGGAAAGAAAACAGAAGCTCTGTGGACCTCTGCTTACTGTAAAATGGGAATAATAATTCTTATCCTG
Celera SNP ID:            hCV29347849
SNP Position Genomic:     132918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53036):
GGGATTCTCATACCTCAACCTCCCCAGTAGCTGGGATTATAGGCGTGCACCACCATGCTTGGCTAATTTTTGTATTTTCAGTAGAGATGAGGTTTCACCA
Y
GTTGGCCAGGCTGTTCTCAAACTCCTGACCTCAAGTGATCCGCCCGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCGCCATGGTCGGCCTG
Celera SNP ID:            hCV11290174
SNP Position Genomic:     31481
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53037):
CTCAGTGAGGTCATATTCCCAGTGTAGAGGGAACATGACGTAGTCCCACTCTACTTATCAGATGCAGAGCTTGCTACCAGGAAAACAGACGCGGAGAAGC
Y
GGGATCATTTCTGGCCCCATTTCCCTCATTGTTCACCATTCCTTGGACTGCAAAGAGATGTCATTGTAAACGCTATCCTTTTCATTTTGTATACTAAGCA
Celera SNP ID:            hCV11290247
SNP Position Genomic:     151445
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53038):
CAGCCTCCACACCTCCCTGGGAAGATTTTGAGGAAGTGTCATGTTTGAGAACCCCACTTAAGTGGGAGCTGCACTCACCTCCGTCTCCTTTTTCTCTGGG
S
ATACTGGATCCCTGTTTTGGAAGTTTCTAGTTCAGTATAATTTTAATACCTGGACCTGAACAAGTCCAGCCTGTTTTATGTCACTGTTTTTGCTCCTGGG
Celera SNP ID:            hCV11290175
SNP Position Genomic:     42619
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)      total(G,6|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53039):
TGTCAGGACAGATTTTTAAGATTTGGGCATAATGTTTAAAATGAAGATGGTATGTCTGTAGATTTTATTGACCCAACTTGGTCCCCCCAGGCTGTCCTCA
Y
CTGCCCCACTACTTAGATGAAACCAGGAATGGCAAGAGGAGAGCATCCAAGCCGCCTGCACCAGCCCTCAGTGCATCCCCACCCAGGCTCTGGAACGAGC
Celera SNP ID:            hCV11290248
SNP Position Genomic:     155182
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53040):
CTCTTCCTTCCCTCTTCTGTGGCGTCTTGGGCTTTCCCCGGTTAACCCCTTGGCTGCCGCTGCGGGCCACGAGTGACTGACTGTGCTGCGCCCGATGCGC
R
GGGTAGAGAGTGGGTTTCCTCCAGGCATTGGACTTGAGAACTGGCTAGCGCGCAGAGCCCGGGGCCCTGGAGAGGCTCCTTGGCTTTCTCTTTTGGGCGA
Celera SNP ID:            hCV2013850
SNP Position Genomic:     7856
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53041):
AGGCAAGAGAATTTCTTGAGTCTAGGAGTTCGAGGCTGCAGTGAGCTCTAATTGAGCCACTGCACTCCAGCTTGGGTGGCAGAACGAAACCTTGCCTCTT
R
AAAAAAGAAGAGAGGGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTTGAGGTGGGCGGATCACAAGGTCAGGAGATCGAGATCA
Celera SNP ID:            hCV11290249
SNP Position Genomic:     157332
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53042):
AGGGCCTGGGTGCTTTTTGGAGCCAAGGAGAGAAGAATACTAACTGGAGAGTGTCCTTACCCCATGTTGGCCACTTATTCCTGGATGTGAACTGGATGTT
Y
AGTCTTGTCCGTGTCTTAACATTGTTAAGATTCCTGGGGTGCGTTGACACAGAGTCTATGTCTGTGTCTGAGCAGACCCTTCATACTGTGATGAGCATGG
Celera SNP ID:            hCV2013852
SNP Position Genomic:     26314
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53043):
TTCTAAAAAGCATGTCATCACGGTCAAAGTTTTATTTTTGCTTGTTAGTCATTTGAAACAAATATAGATATTGCTTCATTTCCTGGGTACTGTATTTTTC
R
GTACGTGGTATGTATGGAAAATTTGGGTTTACACAATGAAGTGCACTAGAAGGGAAGTATTTGCTAATTTAGAACTCTCTACATTATAACTTTGGATTAG
Celera SNP ID:            hCV1349600
SNP Position Genomic:     150210
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53044):
ATTAGAGAGAGATCATTTCACTAGAGTAGTTTGATAGAACCTGTGGATGGCAGGTAACTTGCTCAAGAGGTTCATTGACTTGCTATGGTGATGAGTTTTA
R
CCTAATTAGCTAATTTAAGTCCATACCTCAGAAGAATGTTCATTCATGAAAAATATTTGCATCTAATGTGTGCCAGGCCACTGGAGAATTCATCAGTGAG
Celera SNP ID:            hCV2013853
SNP Position Genomic:     26836
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53045):
ATAATTTTAATACCTGGACCTGAACAAGTCCAGCCTGTTTTATGTCACTGTTTTTGCTCCTGGGCTTTTTCTTGCAGATATTGGTGGGTGAAGACATGCA
Y
TGAATTCTTTCCAGAATGTCTGCTGTGAAGAATTACTCATGTCATTTGCAAGGCTTAAGCTGAAGCATTCGCTGCTATGGTCGATCTAGGCTTTTGTGGG
Celera SNP ID:            hCV11290179
SNP Position Genomic:     42756
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53046):
AATAATAGGGTGTGACCCATGGCATATAACCGCATTCAGATAAGAAGAAAGAGTTTTCTTTTTTCTTCTTCCTGTAATTGCTCAGTCAATACCATTTTCA
Y
GGAAATACTTGCAAACAAACTTTTAAAAAGTTCATTGTCCAAAGCCTTCCCTGATTCCTTGTTTCCTTCCTCTTCAGGGGTTCTATAAACTTTTCCTGAT
Celera SNP ID:            hCV1349601
SNP Position Genomic:     149684
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53047):
GGTAGGTCTCGGAGCAGAATCACGGTATGAGATGAGCTAGCTCTAAAATGAAGCCGCCCACCCAAAGTTTACCTCTCTCTAGGGCAGGGCCCATCCACTG
Y
GATCCCTGAATTCTTGTTGGGTCACTGTCATTTTGGGTGCCATGATGTCTGGGTGTGCTGACCGCTGATAGGGATATCATAGCCATAAAAACGCCTGTTT
Celera SNP ID:            hCV1349602
SNP Position Genomic:     145447
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,32|T,8)   total(C,66|T,10)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53048):
AAAGGAGCCACTCCTTACAAAAAGTTGGGGAGCCCTGGTGTATTGAGGTAGGTCTCGGAGCAGAATCACGGTATGAGATGAGCTAGCTCTAAAATGAAGC
Y
GCCCACCCAAAGTTTACCTCTCTCTAGGGCAGGGCCCATCCACTGCGATCCCTGAATTCTTGTTGGGTCACTGTCATTTTGGGTGCCATGATGTCTGGGT
Celera SNP ID:            hCV1349603
SNP Position Genomic:     145401
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,6)   caucasian(C,26|T,14)   total(C,56|T,20)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53049):
TTAATCCTGAACAAATTACATGAAAAAATCGTTCATGGAGTTTTTCTTCATATAAAACTTTTTACAATGAACATAAAGGGCATAGCTATTTCTTTTTTTT
W
AAAAAGAAACGTAGAATATTATTTCTTGGTTGTGAAATCGCCCTTCTTGGACCCCAAGTTGTTTTTTACAGCCCTAAATTCTCTTGTTTATAGAGCCTGT
Celera SNP ID:            hCV1349604
SNP Position Genomic:     143953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53050):
AATACAGCATCATTTGAAATGACAAGGGAGCCATTGAGTAGGACATTAGGAGGAGGAAGGACTATTCTTTGGAGTGGTTGGTAATCAGAGTCTTGGGTAC
Y
GAGAAAATCATACCTTCTAGAGGAGTGTTCAGAGGCAGAATGTCTTCTGTTTTCAAGGGGACGTAGGAGGGTGTTATGAAATACTGAGTTGCACCGAGCA
Celera SNP ID:            hCV27927016
SNP Position Genomic:     176340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53051):
ATTTTGAGCTAATAAATGTTTGGGGACACCACTTTCCTGTAGAATCTCATGTAATCCCAAACAGATCCTAGCTGCTTGCTATGGCCCATCTGCGGGACCC
R
CGTCAAGGCTTTCCCATAAAGGAGAGCCCTGCGGGAATCATCATGTGCCAGGCACTGTGCTAGGCTCTTTAGGTGCATCTTGAAACTTAATCCTCGTGAC
Celera SNP ID:            hCV27927017
SNP Position Genomic:     126297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53052):
CAACCATGGATACATTTCTTTCCCAACGCATTCTCTGAGGCACTTTGGTAACTCTGCCTCTTTGCTCTCAGCATTGTGTTAGAAAATAAAGCCAGCAGAC
W
AGGATTAAACCCTCATGTTGCTGGGTTCCTTCTAGAAACAATTGGAGGGCTAACCAAGTCACCTTTGGTGGAAGGCAGTAAGGTGAGTCATTGCTGTGGC
Celera SNP ID:            hCV1349606
SNP Position Genomic:     143191
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;JBIC-allele(T,65|A,1432)   total(A,1432|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:53053):
GTGCCCCTGACTGTTCCTGATTTAGCGAGGTGTTTCTGAATTCTGATGGAATTCAAAGAAGCCTGGGCAGGCAGGCAGCTTGACTTGGGGCTTGGGGAAG
Y
GTGCAGCCCAGACATAGCAGCGATGAGAGGGCCTCAGGGCTGAGGGCTGAGATGAGAATTTCATCACATGCAAAAGTGAAAGCGACCCATCGTCTTCTCC
Celera SNP ID:            hCV27927018
SNP Position Genomic:     63788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53054):
AAAAACCCTGACACATAAAATTAATCACCACCAGAGTTTTCTGAGGCAAAGAGGAGTAAAGCTGTTGCCTTTTTCTTCTTGCCTGTGAGGTTGGTTGAGA
K
TCTTCTAACAGCCAACAGGTGTTGGCCAATGTTACTCTGATTGACACCTTTCTTTTTTTTTATTCAGGTTTCCCTCTGTCACCCAGGCTGGAGTGCGGGG
Celera SNP ID:            hCV1349608
SNP Position Genomic:     140832
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53055):
TTGGGAGGCCGAGGTGGGCGGATCACTTGAGACCAGGAGTTGGATACCAGCCTGGCCAACATGGTGAAACCCGGTCTCTACCAAAAAAAATACAAACATT
W
GCCGGGAGTGGTGTTGTGCACCTGTATTCCCAGCTACTCGGGAGGCTGTCACAAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATTG
Celera SNP ID:            hCV1349609
SNP Position Genomic:     140558
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53056):
ACAGAATGACATAGATAACAAATCAAGTTTTGTCTAAACATTCCTGTTAGTGCCAGGACCCAGCCGACGGTCAGTATGTACAGATTATACCATTTCTGGA
Y
GGACTCACCCAAAAAGGCAGCATTATTTATCCCCTGACCTTGGCGTAATGTGTGATGTTCTTTCATGCTTTTCTCTTTGTTCATGTCTTTCTCATCTGTA
Celera SNP ID:            hCV8898702
SNP Position Genomic:     207966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53057):
TGACAGTGGTTGCCTTCAAGCAGGCAGCATCTTGGTTGCTTCCAGCGGCAGAAAGCTGGCCAGTGCTTACACACGTGTTTCCAGTTGGAGTGTTATCAGC
Y
ATGGTTCTGACAATATTCTAGGGTCCTTAGATGAGCACACTTCCTGTATCTGCATTATTTTTATAGCATTAGTGGGGTTGATCCCCAGGCTCACCTTTCC
Celera SNP ID:            hCV1349537
SNP Position Genomic:     219822
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;(C,-|T,-)   no_pop(T,-|C,-)   JBIC-allele(C,511|T,940)   total(C,511|T,940)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53058):
ATGAGAGCAAAGGTCGTAGCTGAGTGCACGTTGAAAGAAAGCGCGGCCATCAACCAGATCCTTGGGCGGAGGGTAGGTGACGCCCTTCTCAGGGAGAAGC
K
GGGGGCGGGTGGTGAGGGACCAGAGTGCAGCAGGTCAGGTGGCAGAATGTCTCTGTCCCCATTTCTTTGGAGAATTCTTGCCCTTCAGCCACATTCTGAA
Celera SNP ID:            hCV8898703
SNP Position Genomic:     207664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53059):
CAGGTGAGAATATAAACAGATAATGGTTAAGAGATAGTTTAGTCTTTCTAGGCCAGATTATTTAGTTTTTGCCATCTAGGTAAAATTCGGTCCAATTAAG
Y
GTCCATTAAGTGTTTTAATATAAGCTGGAGAAGGAGTTGAACCTGGAGGTCAGGGCTCTGTGGTCTATTACAGTCCCCCTGGGGTCTCTAGCCCAAGGGA
Celera SNP ID:            hCV29347850
SNP Position Genomic:     118490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53060):
TAAGTGAGTGGGTAGAGAGGACATTTGTCAAGGAGCGGGAGGGCGGGCCATTGGCTTGGGGGAAATGGGCTGAGACTCTAGGGGTGGCCAGCACCGCATA
Y
GGAGGCCAGCAGGGTTGGGCTTGGCTAAGTGCTGTGGTGTCTGGATGCCTATGTGAGTTTCCTCCAGAAGTTTTCAGTTGGCAAAGTAGAACCTGCTGGA
Celera SNP ID:            hCV261374
SNP Position Genomic:     109074
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53061):
GCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCCTTCTCGGCCTCCCGAAGTGGTGGGATTATAGGCGTGAGTCACCGAGCCTGGCCCCAGGC
R
ATAATATACCAGTGGGCAAGAAAATATTCTTGCTCTCATGGGACTTCTGTTGGGGGTCAGGGTATAGGGAGGAAGGCATAGAGATGAAAACCAGTAAATA
Celera SNP ID:            hCV29347851
SNP Position Genomic:     113263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53062):
GTGGAATAAGTGAGTGGGTAGAGAGGACATTTGTCAAGGAGCGGGAGGGCGGGCCATTGGCTTGGGGGAAATGGGCTGAGACTCTAGGGGTGGCCAGCAC
Y
GCATACGGAGGCCAGCAGGGTTGGGCTTGGCTAAGTGCTGTGGTGTCTGGATGCCTATGTGAGTTTCCTCCAGAAGTTTTCAGTTGGCAAAGTAGAACCT
Celera SNP ID:            hCV261375
SNP Position Genomic:     109068
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53063):
CCCTCCAGATTACGTAGTTCTGCACACATTTGAGGATTTTTGAAAAAATTCAACTTTGCCTGGGTCACTCCCTCGTTACCTTAAACTTGCAACACATCAG
Y
TGGAGATCAGAGGGAGCAGCAATTGTGTTTGCCCTCCTTGTCCCATGGTGACTCTGTGTCATTTTCACGCGTGTTATTTATTCTGGCTGTAGATGCCCAT
Celera SNP ID:            hCV16118444
SNP Position Genomic:     187689
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53064):
GTTTGTACTTGGACCTGCAGGCTGGGTGGCGTCTGTGGGAGCAGTGTGTTGAGAGAGATTCTGAGGCTGTATGTGTCAGGGCCTCCAGGGGAAGGATGCA
Y
TGATGGATTAATTTCTGCCAAGGCTGAAAGAGGAGAGAGTAAGAGGCTGTAGAGGTGTCACAGCTGTCATTGCTGTTTTAGGCAGTCAAGCTTTTGGGAA
Celera SNP ID:            hCV29347852
SNP Position Genomic:     108098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53065):
CTCCTTGTCCCATGGTGACTCTGTGTCATTTTCACGCGTGTTATTTATTCTGGCTGTAGATGCCCATTAAAGGATGCCCATGTTTGGGATACTAACAAGG
S
AGGATAGAACGGAACAATGCAGTTCTGCCTTTGTGTTCGTCTTCCTTTCTGTCGGTCTTTGCTGAATCACAGGGTTTGAGCATTTGTGTTTGTTGAGCCA
Celera SNP ID:            hCV16118445
SNP Position Genomic:     187823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53066):
AAATCTCACTGAAAGCTAATTGATCGCTTTTGACAGAAGTAGCTCCCTTGGGCCGTATATTTATTTCCTAGCTTGGAGGAAGGTGGGGACAGACAGAATT
R
ATGTACACCTTTATTTTTATCTCTATGGTAAACCTGTGCATACTAAAGCATTCCTCTGGTCTTTTGAGATGAGTGTATACATTGTGTCTGGCCCTGTGCA
Celera SNP ID:            hCV29347853
SNP Position Genomic:     95116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53067):
GATGGAGACTGGAAATATTTACTTTAGTGGTTCTCAACTTGAGATGATACTGCTCCCAGAGAAGGTATTTGGAAGTGATGAGATGGTAAGGATAACCAAG
R
GGGTTCCTGTTGGTATTTACTGTCTGGGGGCTTGGAGTCCTACAAGTCCTTCAGTGTTTGGGGCAGACTCCCCACCTAATACCCTGTCGCAGATAGGACA
Celera SNP ID:            hCV29347854
SNP Position Genomic:     93918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53068):
TTGGGTGGCAGAACGAAACCTTGCCTCTTGAAAAAAGAAGAGAGGGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTTGAGGTGG
S
CGGATCACAAGGTCAGGAGATCGAGATCATCCTGGCTAACACAGTGAAACTCTGTCTCTACTAAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGCCG
Celera SNP ID:            hCV11290250
SNP Position Genomic:     157403
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53069):
AGGGCAGAATATTAAATTAATCACAACTTCTTGTATTTTAACCATTCTGGGTAAATTGGGATTCCGTGACGCCCAGGCAAAATTATTTGTTTATAGAAGA
W
GGGCTGAATTTTCCATCGTCCATTTCTGAGAAATGAGGTAGGTTTAGAAAGAGACAATCAGGCCTCTTCTTTAACAGAAATGTTTGTGTCTACTAGGTGT
Celera SNP ID:            hCV29347855
SNP Position Genomic:     89854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53070):
TGAATGAACAAAATGATGGAACTTGGATTTGAACCCAGGTCTGAGCTGGCTTTGAGTCTTCAGAATAGTAGGTCCAATTAGTGGAGTGGGGGCTCAGTAG
Y
CCAAAGGGAAAGGAGCAAGGAGACATTGTGGGGGCCGAGAAGAGGGCTTCTGGGGTGTTTCCTGGGCACATTGGCATTAAAGGCATAGTGTGAAGTGCCA
Celera SNP ID:            hCV29347856
SNP Position Genomic:     78834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53071):
TTCAAACTTTGCAACACATCAGAATCACTTGGGAAACCTTTAAAATTCTAACGCCCAGGTCACATCCCATTCCAACTAGATCAGAACATCTGGGGAATGC
R
AGCCATGCACCAGTAGTTATAAAACCTGCCCAGGTGATTCCAAAGTGTGGGAACCTTTGAGAAGCACTGCTTTAGGGGTTGGAATAGTCCTGGCTGAATT
Celera SNP ID:            hCV29347857
SNP Position Genomic:     68002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53072):
ACCCCTCCGGCCACGCTGGCACTTTCAGCTTCTCCAGCCTCCTGCCCTTCCCACTTCCAGTCCTGCACCTGCTGTCCTCACTGATGCACCTGCCCTTTTC
Y
TTCCGTCCTTTATGTGGCACACCCTTAAGGGAGACATCTTCCTGTCTGTGTTTTGCACCCTCTTAAAACTACATTCCTTTCCCTTCAGCATTGGCATCTC
Celera SNP ID:            hCV29347858
SNP Position Genomic:     62756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53073):
GACTTGTTCTTAAAAAAAATGCGGATATGAAAGAAAATAAAAACCACATTATCCCTCCACTTTTTCTTGGAGGAGGATGTGTTGAAGAAGTCAAAGTTCA
S
CATCCCTTTAGATAGAATCATTTTGAACAATTTCATATGTCAATACATTTTGCTCATCTCTAAATTTCATTTTAGAGCCTGTGGTGTTCTGTGCATGGAT
Celera SNP ID:            hCV29347859
SNP Position Genomic:     58661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53074):
GTTGCAGTTAGCTGAGACCATGCCATTGCACTCCAGCCTGGGCGGCAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAGAAAGTAGCAGCTCTACTGAG
A
TATTTAGAAACCATAAAATCCACCTATTTGAGGTGTACAATTGAGTGATTTTCTGTATAGTCACAGATCTGTGCAGTCATCCACACCCTCTAACTCCAGG
Celera SNP ID:            hCV11290183
SNP Position Genomic:     49889
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53075):
CCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCCTGGTGGTGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTTGAGGCAGGAGAATCGCTTGAACC
Y
GGGAGACTGAGGTTGCAGTGAGCGGAGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTGTGTCTCAAAACAAATGAAAAGAAAAGGCTG
Celera SNP ID:            hCV11290184
SNP Position Genomic:     50823
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53076):
AGACCCCAGGACAAAAGGTAGAAAAGAACAAAGTGTTAAAAAATTTCTTGATACATAGCCACAGATTATTTTCCTGAAAGTTCTCAACATTTATAACTAC
S
AGCAGTATGTAAGAGAGTTATGGTTGGAATGATTTTAATGTCTCTGGGGAATTTAACAACAAAAAAACTTTAGGCTTCTTTGGAGAGAGACATGCCCTTA
Celera SNP ID:            hCV27432600
SNP Position Genomic:     103072
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53077):
CACTCCAGCCTAGGCAACAGAGTAAGACTGTATCTCAAAAATACCATAATTCGTTTTGTCTTTTCTTTACTTTTTTCTTTCCTTTTCCTTCCCCTCTCCC
Y
TCCCCTCCTTCCCTTTCCTCCCCTTTCCTTCCCTTTCCATCTCTTTCCTTCCTTTCTTTTCTCTCTTTCTCTCTTTCTTTCAACAGGGTCTCGCTCTGAA
Celera SNP ID:            hCV27432601
SNP Position Genomic:     90750
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53078):
CTCAGGAGGATGCCGGCTGGTTTGGAGGAAGATCAGCCTTGTATTCTGTTCAGGCCTTCAGCTGATGGGCTGAGGCCTGCTCACATCAAGGAGGACCATC
Y
GCCTTACTCAGTGAATGTTAAACTTATCTAAAAATATCCTCAGAGAAACATCCAGAATAGTGTATAACCAAATATCCGGGCACCTTGTGACTTAGTCAAA
Celera SNP ID:            hCV1349610
SNP Position Genomic:     140305
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53079):
ATACCCACCACCATGCCTGGCTAATTTTTTTTTTTTAAGTATTTTTAGTAGAGACAGAGTTTCAACAAGTTGGTCAGGCTCCTCTTGAACTTCTGACCTC
R
TGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCTGGCCTAAGTTTGGTTTTTAACCATGCTGCTTTTTCTAGACC
Celera SNP ID:            hCV27432603
SNP Position Genomic:     82185
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53080):
ATGTCCTCGAAATTAGATGTGCCTTCAAAAAGACTTGATTTAATGTTAGCCAGGTCTGTTTGAACTTCATTATTACTATTATTATTTTGAGATGGAGTGT
Y
GCTCTGTTGCCCAGGCTGCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGC
Celera SNP ID:            hCV1349612
SNP Position Genomic:     137657
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53081):
TCACTGCAACCTTCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTGCAGGTGTGCACCACCACACCCAGCTAATTTTT
S
TATTGTTTTATTTTATTTTATTTATTTTTTAATTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTCAC
Celera SNP ID:            hCV27432604
SNP Position Genomic:     79434
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53082):
AAAGAACTTGTTTTCATTAAAGCCATTTCAATTTCGTACATTTTTATGCAATAATTTAGTGTTTATGGTGTCTCTTAACCAACATGGCTTGTTTTCATAA
R
CACCCGAGAAGGTTTAAATAACATTTTCTCATAAATTAGCCCTCGTTTGCACACTTATTCAGTTATTGCATCATGAAGACCCTCTGGAGTTTGATGTTGT
Celera SNP ID:            hCV1349613
SNP Position Genomic:     136535
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53083):
TTTCTTTTTATTTTTTGAGATGGAGTCTCCCTCTGTCACCCAAGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTTCACCTCCCAGGTTCAAG
Y
GATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTGCAGGTGTGCACCACCACACCCAGCTAATTTTTGTATTGTTTTATTTTATTTTATTTATTTTTT
Celera SNP ID:            hCV27432605
SNP Position Genomic:     79364
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53084):
AATAGAGACGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTTAAGTGATCCACCCATCCTGGCCTCCCAAAGTGCTGGGATTACAGG
Y
GTGAGCCAGTGCGCTGGGCCAGCCACAGCAGATTCTGACAGGTGATGCCCTTGCCAGCCTGGGGAGCCTTTTGGTTTTGGGTTTGGTTTTTAAATTTGTT
Celera SNP ID:            hCV1349614
SNP Position Genomic:     134913
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53085):
TTAACAGGCTATGTTTTAAATCTTATTGACATCTCTGAAGAAAGAGGAGGAAAAAAAAATCAAGACATGGCCTTAGAGAAGTGACAGGTTTTCTTTGAGA
K
TTTGTTTTCTGTTTTCCTTTTTATTTTGTGCACATTGCAAAACCTCTTTGGGATGATGATTTCGTGTGGTTTCTTGGTAGCCCTTGGGCAGCTGCTGCCA
Celera SNP ID:            hCV27432606
SNP Position Genomic:     77894
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53086):
GCTAATGTACTTGGTTGGGAAATGCCAATTCAGGTCCTAAAATGTGCCTTAGAGAACTGTCCAAAAAATGAGCAGCATGAGAGGAGAAAACACAAACTGT
W
TCTTTCATTTATAATTTTGATAATCATTTAGAAGACTTCTTAATGATGCCTAGACAACATATGAAGTAAAAGTGATATAGGAATCCTAAATTTTAGAGGA
Celera SNP ID:            hCV1349542
SNP Position Genomic:     205912
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53087):
GGATTCTGCCCTTTCTGTCCCTCACTATTTTTTCTATAGTAGGATATGTTGCTTGAAGAGGGGTGAGTCTTCCAACCCAGTACAAATCATGGTGACACCA
Y
GCAAAATAGAAAATGAGAAAGGTGTTTGATCCAGTTGTCAGTCTGCAGATGGGCCAAGAGTAGGTTGAGATTAGCTCTTTCTGTCCTGGCTAATGTACTT
Celera SNP ID:            hCV1349543
SNP Position Genomic:     205723
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53088):
TGTGACATGTTGCTTTCATGAAAGGTTCCCCTCTAGCCAAAGACTGAGTGGTCCTTGCAGGCTTTCTCCTGAGTCCTTTTTTTTTTTTTTTTTTTTTTTT
T
AAAGACAGAGACTCTGTTGCCAGATTGGAGTGCAGTGACGCGGTCTCGGCTCACTGCAACCGCTGCCTCCCAGGTTCAAGCAATCTACAAAATGCATCTA
Celera SNP ID:            hCV27432607
SNP Position Genomic:     74259
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53089):
GCTGACACTCACTTGTGCCACCCTGTGACCCCCTTTAGATTGAGATGTTGGAGCTCCGGGCCCTCAGCCTGCTAAATTGGTGCAAGGCTCTTCTCCTGAC
R
AGAGCCGGCTCTGAAATCTGCCGGCTTCAAAGGGAGCGAGATCATGTATAAACCATAATGTGGGTGCACCGTGGCTCACAAAAAATAAGGCAGGAAGAGA
Celera SNP ID:            hCV1349544
SNP Position Genomic:     204047
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53090):
ATTTTTTTGGTTTGTAATTGGTTAAGGAAGATAAGCTTTGATTAAAGATTTGGGGTCAGCAGAAAGAAATGTTAGGTCTGGCTCGTGGGCATGTCTTTTT
M
TAGGCCCCTCCTTGGAAAGAACTTTAGAGCAAAGAAAGGCAGTTGGAGCTTAGTCCCCACTTTCTCCTGATCTGAGGTCTACGGACCACTGGATCCATTT
Celera SNP ID:            hCV27432608
SNP Position Genomic:     69472
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53091):
TGATGATGGCACATAATGAAATTAGCATGCGTTACATGGCAGGGGTGCTGTCCCCAGCTTCTTTCCCCAGTCCCTGTGGCCAACATGGGAAGCCAAGACC
R
GAGAAGGGCCTGGAAAGACAGGTCAAGATGCTGCTTTTCCTACTTACAAAACAGTAACTTTAGCAGTGATAGAGAGTTACATTCATTAAGAAAAACAAAC
Celera SNP ID:            hCV1349545
SNP Position Genomic:     203047
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53092):
ATTTGTAGGTCACCAAGCAGGGCAAATCCAGCAGCTCACGCTTAAGACCTGACCTCTCCCATGGTTTATAAGCAAGTGGTTTTTTTTTTTTTTTTTTTTT
T
CAGACTGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCA
Celera SNP ID:            hCV27432609
SNP Position Genomic:     68934
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53093):
CTGGTGCATATCATAGTGGTCTGTGCAGCTCTAAGTCTTTGAAAGTTAAAAAAAAACATGTGTGTGTGTGCTGTACATTCATATATATTTATATTTCAGC
R
TAGAAACATATTTACAAGATACATTCCTATCCCCATGTTCTTCTTTTCCTCCCTCTGATTAATTCTGGCTAATTTTTCAGTGACTGCTAGTTTATTTACA
Celera SNP ID:            hCV1349546
SNP Position Genomic:     202706
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53094):
CAGAGGAAAGCTTGGCTTTGCCAAAGAGCGTTTTCTCCAGGTAGAAAGCATAAAGCCCTGAATGATTTAAAGTCAGATGAGGATTTTGGTTCCTTTTAAA
Y
AGATATTGTTTACTTCATTTAATGGTTCGGCTTTTTAGTAGACTTTTTCTTTAGTTTCTTGTCAGCCCAGAACTGACGACATAAAGTGTTTTTATCATCT
Celera SNP ID:            hCV8898713
SNP Position Genomic:     191292
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53095):
CTACTGGAACTTCCACCCAATGAAGCTGGTCATGACCCTTCTGCTGTTGGCTGCCCAAACTGCAGTCATGTCATTGGGTTGAGGCTGTCGAGTCCTCCAT
K
TTAGGTGTTACATATTTTGGGGCACAGAAGCAGGAACAAGAACGGCCTTGTTTTGAAATCCAGGGTTGGGATTAGGGCATGTTCTTGTATGATTCCAGGA
Celera SNP ID:            hCV1349548
SNP Position Genomic:     200194
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53096):
GGTGCCCTGAGCTGGCTGGGGAACATGGACCTTCCCCCTTCCTTCACGGATTCTGTAGTGGCAAAGATTAGAAAGTAGAAGGAGTTTTTAAAATTTTTTT
W
AAAAAATTAAATCTGCAACCAGCTGAACTCTAGATTATTAGTGGACTTTTTTGTTTTTTATTTTTAAGATTTTTTTAGGGATGTGTGTACAGGGGGAAGG
Celera SNP ID:            hCV8898714
SNP Position Genomic:     185258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53097):
CAGGTGGGCTTAATCCCCACAGACGACTCTGTCCTCTAGCGGATGAAGTTCCAGAATGGAGTACACAAGCCTCCAACACCTCCTTGTCTGTTCAGCTCTG
W
CTCTGCCTTAGATAAGATGCCAGATGGCATTTGATCAGTTTCTCCAGCTCATCCAAATAGAGGCAGAGACATTTTAGAGGAGTCACCATTTTTGAAAAAA
Celera SNP ID:            hCV1349549
SNP Position Genomic:     199101
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53098):
TAACAGCAACAAAGACTGTAGCGCTTCCTATGCGAGGCTTGTTCCAGTTGCTTCAGAGGCTGTGTTACCCCTGTTCTAGAGAGGAGGAACTAGGCCCAGG
K
AGGTGGGGATTTGCCCAGTCGTGGGAGTCAGGATGTGAAACAAGGCACCCTGGCTCCAGAGCACACCGTCCTCTCAACCACTGCAGAGAAGCTGGGAAAG
Celera SNP ID:            hCV214024
SNP Position Genomic:     101110
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53099):
GTTATATAATCCAGTGATTCCTAATCTGTGTTCAGAGGAGAGAGGAAATCGATTGCAACAGGGACGATGCCTTCATTGGCTGGCCCAAAACTGGGAGTTT
W
TACAAGGCGTCAGTCTTTGCCTTCCTCCTCCCTGCCTTCCCTCTTCCTTCTTCCTTCCCCATACTCCCCAACAAATTCATGGACTTCTTAACAACTCAGA
Celera SNP ID:            hCV214025
SNP Position Genomic:     99332
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53100):
CAAAGATCCTCCACCTCAAATCCCACAAGAACAGTTGCCACAACCTGGGCCCTAAGCATCTCATTTTCCTATGTAGAAATTAATGATCTGGAGGAGATGG
S
AAAACATTCCTTCCAGAGCCTGTGTGGATTTTGGCCAGGGGTGCAGCAAGGGGGCTTAGGCACCTTTTTCCTCTGCTGTGTCTTAGCAGGCGTGTTGACC
Celera SNP ID:            hCV214026
SNP Position Genomic:     97963
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53101):
CAACCTGTTCGTGCAGTGAGCGTGTCTTCCTCGCCCTGCCCTTGGCTGGGGAATGTGCTGGCTTGGAGGGCAGGAGAGTGACAGGCGGTTTGAGAACTCC
R
GGCTCTCCCGTCTTCGGATGGCTCCTGTGAAAGCAGGGCCTGAAACTTTTATCGTCACTGCTGCAGGTGAAAGACTTTCATTTGGCTGTAGTGGTCCAAC
Celera SNP ID:            hCV29347860
SNP Position Genomic:     56972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53102):
TCTCCAAAAGTGAATGCCCTGTTAAAAAAAAATTCTTAACAAATATACAGAGATTTTTTTTTTAAAAAAGTGTGACAGTTCTAGACACCTAGAGAGTAAA
R
TGAAGAAGCCTGTTTTCAGGTTTCCCGCCTCCCTGAATTTCCCAGCATGGTCCAGGCTTTGAAATTTATTTATCTGCTTTTGGCAATGGTTGATGGGAAT
Celera SNP ID:            hCV214027
SNP Position Genomic:     97550
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53103):
TCCTTTTTAAATGGTGACAAATTCATGGGCTTTCTCTGCCTCAAAACCTAGCACAGCTGTTATTTACTGAACAATTAGAGAGCTAAGCACTTTTTAGATA
Y
TATATAATTTAATTGCCGTATGAGGCACCCTTAGTTTTCAGACGAGAAACCACAGTTACAGGGAAGGCAAGTAACTTAGTCAATGTCAGATAACTAGGAA
Celera SNP ID:            hCV29347861
SNP Position Genomic:     54388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53104):
GGTGGGGACAGACAGAATTGATGTACACCTTTATTTTTATCTCTATGGTAAACCTGTGCATACTAAAGCATTCCTCTGGTCTTTTGAGATGAGTGTATAC
R
TTGTGTCTGGCCCTGTGCATTTTTTACCAAGAAGTAAGTTTTGTTGAGTAAACTTGGGTTGTATGAAGAACTGCATGCTCACCGTACTCAAGTAGCTTTT
Celera SNP ID:            hCV214028
SNP Position Genomic:     95197
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53105):
ATATTTTATGGAGAGATGCAACATGTCAGGCCTTGGAGGGAAACCCCAGGATCCAGATGGTTGCACTCTCAAACCAGGGCCCCCCTCACCTTGGCCTTCA
S
CATTTAGTGTTGGAACCAATAGCATAAGCTTTGGTCAGGACCTTTGATGGAAGCCACAGTGCTCATTAGTGACCACGGTTGACTACCTTCTCTCTCCTAA
Celera SNP ID:            hCV29347862
SNP Position Genomic:     52324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53106):
TGCTAAAAGGAATAAATCCTGGTAAAACTCAGGTTTGAGTCTTAGGGAAGATGGCCTTTCAAAGCCTTAAGGAAGATAAAATTTTGGAGTGGCTTACCCC
M
CAATTCTACCCGTATTTCTCTAGTTAGATAGATTCTATGCTGTTTTTTTTTTTTTAATAAAAAACAGATTGCATTATGTAGTAGCTGTACCAAATACCAA
Celera SNP ID:            hCV16118455
SNP Position Genomic:     200824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53107):
CTAAGAGTTTCTTATACATGGGCTGAGTACCTCTGTGACTGGGCAAGCCACCTCACCTCATTTTACCTTGTCTGCAAAATGAGGAACTGGGTCAACTCAT
Y
GTTCAAATCTCACTGAAAGCTAATTGATCGCTTTTGACAGAAGTAGCTCCCTTGGGCCGTATATTTATTTCCTAGCTTGGAGGAAGGTGGGGACAGACAG
Celera SNP ID:            hCV214029
SNP Position Genomic:     95011
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53108):
GTCTCTGCACCTAAGATACTAAAGGAAATATTTTATGGAGAGATGCAACATGTCAGGCCTTGGAGGGAAACCCCAGGATCCAGATGGTTGCACTCTCAAA
Y
CAGGGCCCCCCTCACCTTGGCCTTCAGCATTTAGTGTTGGAACCAATAGCATAAGCTTTGGTCAGGACCTTTGATGGAAGCCACAGTGCTCATTAGTGAC
Celera SNP ID:            hCV29347863
SNP Position Genomic:     52297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53109):
TGGTGTTCTCAAAGCTCAGACTCTGATTGCAAGTCAACAAGAAAGCATCCGCCTCCTCCCCTCGAAGGTAGCACTGTCCAATAGAAATATAGTGTGAGCC
M
CAGAGGGAATTTTAAATTTCGTAGTAGCCGTGTTTTTAAAAAAGTTTTTGTTTTTTTTTTTTTAAAAAAAAGATAAAGTTATTTTTAATGACATGTTTTT
Celera SNP ID:            hCV16118456
SNP Position Genomic:     202322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53110):
TGTCAAATTTGTATAGGAATTATTTACTGTGCTGTCTTTCCTGAGCCGCTACAGTAAAAGTGAAGACATGGAAAATTATCCCAGATGGGACGAATCGCTC
R
TTCTCTGTTCTTTTTTTAAAAAGAAAAGATTTCAGAAAAAAAAAAAAGTCGTCTTTTTCTTTAGAACAGTATGAATAAAATCTGGACAGCTGTCGAAAAA
Celera SNP ID:            hCV11290262
SNP Position Genomic:     180964
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53111):
CACCAGAATAAATAGCTTTGGTTGCAAACCAGAAATCTTCCAAGGCTTGAAAATGGATGTGTGTGATAGTAGCCCATTCTAGGGGTACTGGAAGATTCTT
Y
TCACTAGGGCTTTGGTGAGGCTGCCCTGTAGGGAAGAAGTCTTGTGTCAACAGTTTTTAAGTTGATTCAGTAAGCATTGTTGATGATTGAAATTGAAGAA
Celera SNP ID:            hCV29347866
SNP Position Genomic:     33089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53112):
AGCAAGCTGTGAAAAAGTTACCGGAAGGTTTCCAGGGGCTTGCAGATCAAGAATGCTGTTCTGTTTGCCGTGCTGGATCGCTGCAGTTCTGCACGCCATT
R
AAAAAAATATTTGCTTTAGAAAACTAGCATTTTAATAGTTGCACCAGAGGCTGTGCTTTTAAAGATTACAGTAGAAGTCTTTCCAGGTTTCGAATGCCTC
Celera SNP ID:            hCV16095962
SNP Position Genomic:     11638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53113):
GACATTTAGCATGGCCAGTCATTGGGAGGTACTCCTGGCATCTCGTGGGCAGAGGCTAAGGATGCTATTGAACATCCTGCAATGCCCAGGACAGCCCCCT
R
TGACAGGAGTCATCCAGCCCAACATGTCACTAGTGCTGCAGTGGAGAAGCCCTGGCTGTGTGTGGGGGTGTGTGTGTGTCCTCTTCTACATTTGATAAGG
Celera SNP ID:            hCV11290190
SNP Position Genomic:     58276
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53114):
CAGAAAGGAAACAGTATATAAGTGAGATTGGGGTAGGTGTATATTAGAGGTAACAAAGTGTGCTTTTAGAATTTTTAAATAACAGCCCCTTTTATAATAT
R
AAAGACCAAAAATAATTTGTTTTTGTGCTCAGCCAGGTAGTTTGAGATGAGTGTTCGACCACTTTGTCAACTTGGTGTTCTTTTCCACGTATCTTAGATT
Celera SNP ID:            hCV29347867
SNP Position Genomic:     32509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53115):
TAAATGCTTTTTGTGAATTATTATTACTATTTTGAGACAGGGTCTCACTCTGTCACCCAGGCTGGAGCACAGTGGTGTGATCATAGCTCACTGCAGCCTC
S
ACCTCCCTGGACTAAGGTGATTCTCCCACCTCAGCCTCTTGAGTAGCTGGGACTACAGGTATGCATCACCACACCTGGCTAATTTTTGCATTTTTAGTGG
Celera SNP ID:            hCV29347868
SNP Position Genomic:     28353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53116):
AGCTGGGATGTCAGGCACCCGCCACCATGCCCGGCTAATTTTCGTGTGTTTTAGTAGAGATGGGGTTCCACCGTGTTGGCCAGGCTGGTCACAAACTCCC
R
ACCTCAGGCAATCCGCCCGCCTCGGCCTCCCAAAGGCTGTGATTACAGGTGTGAGCCACTGTGCCCAGCCTAGGGTTCCATTTCTTAACCCCTCCTTCTG
Celera SNP ID:            hCV11290192
SNP Position Genomic:     60700
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53117):
CCAGTGTTAAATGCTTTTTGTGAATTATTATTACTATTTTGAGACAGGGTCTCACTCTGTCACCCAGGCTGGAGCACAGTGGTGTGATCATAGCTCACTG
M
AGCCTCGACCTCCCTGGACTAAGGTGATTCTCCCACCTCAGCCTCTTGAGTAGCTGGGACTACAGGTATGCATCACCACACCTGGCTAATTTTTGCATTT
Celera SNP ID:            hCV29347869
SNP Position Genomic:     28346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53118):
TAGCGAGGTGTTTCTGAATTCTGATGGAATTCAAAGAAGCCTGGGCAGGCAGGCAGCTTGACTTGGGGCTTGGGGAAGTGTGCAGCCCAGACATAGCAGC
R
ATGAGAGGGCCTCAGGGCTGAGGGCTGAGATGAGAATTTCATCACATGCAAAAGTGAAAGCGACCCATCGTCTTCTCCACTTGATCTCTTGCTGAGCTTT
Celera SNP ID:            hCV11290193
SNP Position Genomic:     63810
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53119):
ACCTGAGGTCAGGAGTTCAAGACCAACATGGCGAAACCCCGTCTCTACTAAAAATACATAAATTAGCCAGGTGTGGTGGTGGGCGCCTGTAATGCCACCT
M
CTCGGGAGGCTGAGGCAGGGAGAATTGCTTGATCCCAGGAGGCGGAGGCTGCAGTGAGCCAAGATTGTGCCACTGCCCTCCAGCCTGGGCGACAGAGCGA
Celera SNP ID:            hCV11290195
SNP Position Genomic:     70472
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53120):
GGCCCGAGGGTAAGCTTTTTAGAAGTGAGTGTGTGTGTTGTGTTGTTTTAATTAATGAATCTTCTGGGCCTGAAGATAATGAGGTCAGTGAGGGCAGCCA
T
GCTGCCTCACAGCTCACCTTAGGGTCCTTGTTGTCCAGAACGTGCCTGACCTACTGGAGGGGCCTGGGAATGCTTCTTTGATTGACGTGGGTAGGAAGAC
Celera SNP ID:            hCV11290197
SNP Position Genomic:     75965
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53121):
TATTTGTAGGTCACCAAGCAGGGCAAATCCAGCAGCTCACGCTTAAGACCTGACCTCTCCCATGGTTTATAAGCAAGTGGTTTTTTTTTTTTTTTTTTTT
T
TCAGACTGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTC
Celera SNP ID:            hCV27432610
SNP Position Genomic:     68933
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53122):
TCAAAAAAAGAGAAAAGATTAAAGCTGCACAGACATGATGATGTAAAAGCTAGTAGCTTCTCAAGCTGTGAAAGGTCTGTGGTGCAGAGAATAGCTCCCT
R
TGAGCTGAATTTTGTTTGCTGTGGTGCAGCATGGGTTTAGATCCTACCTGGTTAGTGAAAGAGATAATGTGAAGTCATTGCATTTGCATTTGTCAAAATC
Celera SNP ID:            hCV1349620
SNP Position Genomic:     131495
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53123):
TGTTCATTGAGCAACTAAAGAATAGACTCAGATATAGGAAAGTATTTATTTATTTATTTATTTAGAGACAGGGTCTGGCTCTGTTGTCCAGATCATAACT
M
ACTGTAACCTTGATCTCCTGGGCTGAAGCAATCTTCTCACCTTAGTCTCCCAAAGCATGCTGGGATTACAGGTATAAGCCACAGTGCCCAGCCTGAAAAG
Celera SNP ID:            hCV1349621
SNP Position Genomic:     130859
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53124):
CTGGGAGGAGCCCATATGGAGAAACAGGAAAATTCCACTTCACCAGAAAGCTGGGGAAATGAGTGGGAGTAGGGGCCAGGCTGGTTAACTAGGAAGACTT
K
TGGTCACTCTGCTTTACTTAGCCTAAAGTGTTCATTTCCCCCTTAAGCGGTGGTTAATACGCGTATCTGCAGATTTACTTTTTGGATGATTTAAAATCTT
Celera SNP ID:            hCV11290198
SNP Position Genomic:     78318
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53125):
TGGGTCTCCAAAGCTTCAGGAACATATCCTGGGGTGTTGAGGAAACACCCACCTTAAAATGTTCCTCAAGGGGGAATGTTACTGCTTGCCCTAACCCTCT
K
GAGCTGATGCTCACATGACGTCCCTGAGATGGGCTTCTTTTTTGCCCGTACTTAAAGCTGTAAAGGGCCATTGTCAAATTTGTTTAGCTTCTCAATTCAT
Celera SNP ID:            hCV27432612
SNP Position Genomic:     65445
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,8)      total(G,1|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53126):
TTTCCATGTCCTCTTCATTAGTGTTAGCTTGTGGATGGATTTGAGGCTCTCTGTGCTTTCCCCCCAGCAAAGTGAATACCAGACTTTCCTATTAAAAAAA
K
TATTTTATTTTTCAGAGACAGGGTCTCATTCTGTCTCCCAGGCTGGAGTGCAGTGGCACAATCATAGCCCACTGCAGCCTCCAACTCTTGGGTTCAAATG
Celera SNP ID:            hCV27432613
SNP Position Genomic:     54818
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53127):
ATGGTCCCCTGTGCAGCCTGCGTGCCTCCTGGAGGTGGGGCCTTGGGGTAGGAGGTCCCCACAACATGTGGAAACGCAGTAGGCATGGGAGATTGAAGTC
Y
CCACTTCTGACTCACCTGCTAATGGGAAAAGTGCAGACTCTTGGGCTCCATAATGGGGTAGGGGTTGAGAAGGTATTTTAAAAGCCAGGCTTAGTGGGGA
Celera SNP ID:            hCV1349550
SNP Position Genomic:     196624
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53128):
GGTTGAGTATTTGGATTTGAATGGGATGGTTTTAATGTTGCTACTGACTACTACAGTGATCCAAATAAACTTTAAAGCTGGGGCCTCCACGCCATAGGCA
R
ATTTTCATACCAGTTGCCTTTACCTCAGTAGTTTTCAGCTGGGGCAATTTTGTTCCCCAGGAGACATCTGGATACAGTGTTGGTTGTAACAGCTGGGCAG
Celera SNP ID:            hCV1349623
SNP Position Genomic:     130536
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53129):
AATTATCTTCTCCTAAGCCCACTACTGCCTGGTGTGTTGGTTAAATTAGCCTAAAGGTCATTCCCTCGGAGAGGCCCTCTGGGAAACCTCCCTTTCCTGA
K
AGTCACTGCTTGCTGGCGCCTGCCCCTGGGGTTCCTTCAGAGTCGTGATCATGCCCTGGCCTCTTCCTTTATTTGGCAGTCCCTTCCCTTCCCCATCCCT
Celera SNP ID:            hCV27432614
SNP Position Genomic:     51535
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53130):
TTTCTCCAAGAGTCCAGTTATACATAGGAATTGGTAAACCAGGCTGTTGGAAACGTTGACTTCTTTTTCTGTAGTTTTTTTCTGGGGCATCTAGAGAGAA
K
GCCTTATTTTTCTTTCCACACATAACCACAAAAAAGTTAAAAGCACTTTTTAAAAGACACTTTCCCCTCAATTACCTGTGGTAAGAAATGCTGTTCTTAT
Celera SNP ID:            hCV1349551
SNP Position Genomic:     195443
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53131):
GATCTCGGTTGAGTATTTGGATTTGAATGGGATGGTTTTAATGTTGCTACTGACTACTACAGTGATCCAAATAAACTTTAAAGCTGGGGCCTCCACGCCA
Y
AGGCAGATTTTCATACCAGTTGCCTTTACCTCAGTAGTTTTCAGCTGGGGCAATTTTGTTCCCCAGGAGACATCTGGATACAGTGTTGGTTGTAACAGCT
Celera SNP ID:            hCV1349624
SNP Position Genomic:     130530
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53132):
CACTTGAACCTGAGAGGCAGAGGTTGCAGTTAGCTGAGACCATGCCATTGCACTCCAGCCTGGGCGGCAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAA
A
GAAAGTAGCAGCTCTACTGAGATATTTAGAAACCATAAAATCCACCTATTTGAGGTGTACAATTGAGTGATTTTCTGTATAGTCACAGATCTGTGCAGTC
Celera SNP ID:            hCV27432615
SNP Position Genomic:     49867
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53133):
ACCTGCTAGCCCCTTTCTCCAAGAGTCCAGTTATACATAGGAATTGGTAAACCAGGCTGTTGGAAACGTTGACTTCTTTTTCTGTAGTTTTTTTCTGGGG
Y
ATCTAGAGAGAATGCCTTATTTTTCTTTCCACACATAACCACAAAAAAGTTAAAAGCACTTTTTAAAAGACACTTTCCCCTCAATTACCTGTGGTAAGAA
Celera SNP ID:            hCV1349552
SNP Position Genomic:     195430
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53134):
CTGGGCTATTATGATTAGCAGATTACTAAAGCTGTGTGATTTTAACAAGACGTAAACACATATGGGAACCCCTCCTTCCATATCTTGCTAATGTCAATTA
R
CAACATATTAATCTTGCTAATGTCAATCCTGTCACTTCATACATTTATAAATATTAGGGACATTTAAAAGAGTTGTCGGACTGTGCGGGACCTTGGCACA
Celera SNP ID:            hCV1349625
SNP Position Genomic:     130253
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53135):
GTCTCTTTCCCTCCCTTCCTCTCCTTTTCCCTTTTCCTTCTCCACCTCAGCACACAGTGGGAGCTTCCTTGTTCCTTATTTCTCAAGTTGTCCTGAGCAA
W
TCTTCCTCTTAAGGAATCCTTAGTGCCTGTCCTTGAGGTGCCCAGCACTGGCTGTGGGCAGCAGCCCTTCACCCTGGCCATGGCCTGCCCCGCCCTTCAT
Celera SNP ID:            hCV1349553
SNP Position Genomic:     195112
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53136):
ACATCCGGTGCTGCTGTTGACTCTGGTGTCGGCCGCTGGTGAGCTGGCTGTAGCTGGTCACCTCTGGGTGGTTTCTGGGGCGGTCGCAGGCTGACTAACA
Y
ACCAAAGGTCAGCCAGGGTGTTGAAGCTGGCACCTTTCTTCCTGGAGCACAGACGTCATCTTGGATCTTTTAGATACTTGGACTTACTTTATGCAGAACA
Celera SNP ID:            hCV1349626
SNP Position Genomic:     129888
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;JBIC-allele(T,271|C,1222)   total(C,1222|T,271)
SNP Type:                 INTRON


Context             (SEQ ID NO:53137):
CCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCATAATCCACCCGCCTCGGCCTCC
R
AAAGTGCTGGGATCACAGGCGTGAGCCACCGCACCCGGCCACTGTCTTGTATTTCTAACGTCCCCCTGACTTTTCTGATCATGTAATTCTTAACTTTCTC
Celera SNP ID:            hCV27432616
SNP Position Genomic:     48820
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53138):
TTTATTTTTATTTTTTATTTTTGAGATGGAGTCTCACTCTTACCGCCTAGGCTGGAGTGCAGCGATAAGGTCTTGGCTCACTGCAACTTCTGCCTCCTGG
R
TCCAAGCAATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGCGCCCGCCACCACGCCTGGCTAATTTTTGTATTCTTGGTAGAGACGGGGTTT
Celera SNP ID:            hCV27833377
SNP Position Genomic:     18492
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,34)   total(A,1|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:53139):
AATCATCTTCCCTTCTCTGGGCTATGGGTGGTTCTCCCCACTGGCCCTGGTGTTTTTCCACACTCACTTTAAACTGTCTGGAGCTGGTCTGCTTTCTTTC
M
TGTCAGCGGGTATGTATCTTTCCAACCAAAGAGAAAACTTCTGGAAGGCAGCAACAGTCATTTGCCCTGCCTCCTAACAGTCTCCACTTTGTCCGTGTCT
Celera SNP ID:            hCV1349554
SNP Position Genomic:     194911
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53140):
TAGCTAGTTGGCCAGGCGCATGACTCATGCCAGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCGCTTGAGCCCAGAAATTCGAGACCAGCCTA
R
ACAACATGGCAAAACCCTGTCTCTACAAACAAAACAAAATCTAGCTGGGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTGGGGAGGCTGAGGTGGGCG
Celera SNP ID:            hCV27432617
SNP Position Genomic:     46315
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53141):
CCTAGGATTGGGGAATCTGAATGAGTGAAAAGCATCCCGGGAGATGCTTGACTAGGGGCTGACTGCTGCTGGTTCTGATGCCCACCACTAGCCCTTTCTC
Y
TCCCATGTGATCCTTCTCCTGGCTGATGGTGGTCCTGCTCCCGTGGCACTTGATCAGTCCTTCCACCCCTTAGTAATCATCTTCCCTTCTCTGGGCTATG
Celera SNP ID:            hCV1349555
SNP Position Genomic:     194736
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53142):
GTCCACCTCACTTCTCAAGCAGGTGTCTTTCCAGTCTACAACTCGTTGACCACAGGTGGAATTCATAAGCTCTGTTCCCTGTCCTGCTTGGGTCCTCCAG
R
GAAAGAAATGTTGAATTATCATCTTGGTGATGGTCAACTCTGAAAGCCTAAATTTTCATGATCACCAAAGTGTTTGGATTTAAAAGGGTGGCTCACTCCG
Celera SNP ID:            hCV1349628
SNP Position Genomic:     129106
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:53143):
AATATTTTTTCTCCCCCAACCTTTTCCCCAGCATACATCCCCGTCCCGTAAGTTTCTGGGCAGAGACAATCTCAGGAACCTAAAGGTTGCTAAAAAATTA
K
CTAGTTGGCCAGGCGCATGACTCATGCCAGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCGCTTGAGCCCAGAAATTCGAGACCAGCCTAGAC
Celera SNP ID:            hCV27432618
SNP Position Genomic:     46217
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53144):
GCTAGGTTCTGTGCTAAGCCTTTTCCTGGGTTCCTTAAGAACTAGGATTTGATTCATGATCAGAACCCATGGCTCTTTGCCTCTGTGCTTGCCTGTGTGC
R
TGTGGTCCTCATGGCGGAACACAAGAACCACCCACAACACCCAGCAAGCAGGCCCAGGATGCTTGGGTCCTGAGCCCAGACCCACTGTGAATGAATTAGG
Celera SNP ID:            hCV1349556
SNP Position Genomic:     194519
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53145):
AAAACACTTTATAAAGTTACATGCTGGGTTTCTTCTATGTCCTAGAAACTGTCTTAATTCATCTTCCCCTTTACTCTTATATGAGCAGGAAGAAAAAAAA
A
TTGCTAGTCAATGCTAATAATTATGGCATGTAATGTAATTGGAAGTGTTTCACTGACATGCTCATGAGAGTTTGCGGCTTCATCTTCAGGCTGGGATGTA
Celera SNP ID:            hCV27432619
SNP Position Genomic:     45284
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53146):
CTTGAAGTTAATCTGTGATTGGCTTTGTCTTTCCCTTTGAATGCTTGCAGTTGCAATTTGGTGGTTCTTCTGCAGTTTAGGAGAATGTGCTCTCCATTCC
R
CAGACTGGGCACTTGGGAGGACATAAAGTTCTAGAAGACATAGTCCTTGTCCCTAAGGGACTTAGGTATAGTGGGACCAAGAAGGGTGCACACACACCCC
Celera SNP ID:            hCV1349557
SNP Position Genomic:     193560
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53147):
CTTCATTTGGGATAGGTTCGATTTATTTCTGGCTCGATTTTGAAGATCTGCTCTCCTAGAAACAGCTGTACTCTCTTACCCAATTCCCAAACATTCTCTG
Y
GAACTCGGGCACTTAACAAGATTGATTATGTTAACGCTAATCATTTAATACCCAAGTAGTAGAGAAATATTTGGCAGGAGGGTGGAGGTTGCAAATTCCT
Celera SNP ID:            hCV1349558
SNP Position Genomic:     188465
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53148):
ACCACTATTCTTGATGTCTTAGGAGAAGGGAGTTCCTTTGAAAACGTAAATTCCCGACTCCAGTGATACAGGTATTATGATCTCTGTATTGTCACAACAG
S
CTGCTGCATCGGCATTTTCTGGAAGCAGCAGAGCCTGAAACCTTGTATTCTTAGGGAAACCTCCCCTTTGTGGTTTGGGGTTGTTGGGGACCTGGCTGAG
Celera SNP ID:            hCV1349559
SNP Position Genomic:     187429
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53149):
GGCTCGTCTCCATGTGCTTCTAAGCATTGTGTCTAAGTTCTGTTTGGTTTCCTGAGTGAAACTGTCTTAATGTTACCAACAGAAGTTAAATGCCTAAGAG
W
TTCTTATACATGGGCTGAGTACCTCTGTGACTGGGCAAGCCACCTCACCTCATTTTACCTTGTCTGCAAAATGAGGAACTGGGTCAACTCATCGTTCAAA
Celera SNP ID:            hCV214030
SNP Position Genomic:     94918
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,10)   total(A,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53150):
GAAATGAATAATTAAGAACATTAAAGAGGAAAGCAGGGGGTGGTGGGAAAGTGTGGTCTTGAGGGGGTAATAAACCTCCTACAGGCCACACACACACAAG
R
AAAAAAAAAGGGCAATAAGTGTAGCCCAGTAACATAAGGTGGGGAATAAGGTTAGGGGTAAGGTTAATTCTACAAGTTCAAAGCCAGTAGCCCCTGATGC
Celera SNP ID:            hCV8898726
SNP Position Genomic:     142814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53151):
ACAGAGGATTTCAATTGTTTTAATTGTCTTTGAGGAGGAGATTCCTGTGGTTGAAAAAAGCTGTTTCCCATTCCATGTCTGGGTATCTCTGATGTTTTGC
R
TATCAGAAACATCAAATTTAGAGCCCAGTAGTGATTAGAAATAAGATGAAGAATCTAGATATGATGATAATAAGGGAAGGGGTTAATCTTAAAATGTTGG
Celera SNP ID:            hCV29347871
SNP Position Genomic:     16033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53152):
TGGAAGTTTCCTTATGGAGGGGCGTGGGAGTACCCTGGGCTGGGCTATTAAAAAGGGATATTGCTTTGCTCAGCAAAGATGGGCTGCGATCCCTTCATTA
S
CCAGGGTGTTCTACCTAGCCACAGATGTGTTTCCTATCAGTTACTGTGTAAGCATCTGAGGGTGAGGCATTATCTGTGGTGGAGACTGGAGTGTGAGAGA
Celera SNP ID:            hCV29347872
SNP Position Genomic:     13510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53153):
ACATTACATAGTACACTAGTTAAACTAGTTAACGTGAGAGTTTTTAAAAAAGTGAGATGAGGTGAAGAGAGTTGACTAAAAGAATATAATAGGTGAGGGG
R
AAAAAAATCCAGGTTTACACTGGGGATGGGAGGGCTGCTTATTTGTGAAAAATGTACTGGTATCTGCGGGAGGAGGCACAGAAAAGTAGCCAGAGGAGAC
Celera SNP ID:            hCV29347873
SNP Position Genomic:     13228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53154):
TTAAAATGTCCATGACTTATGATATGAACCAAATAGGAACTATTTGAATTTTCCCTGTCTTCCTGCCTCACTCTCTCCCATTCCTGTCAAATGATGGGAC
M
CAGCACAAAAGAAAAATAAAAATTGTATTGCACTTCATCAACAGGATGAGGCCTAATGAGGCTTGCACAGCATTGTCAAAAATGTATGTATATTTCAACC
Celera SNP ID:            hCV16118466
SNP Position Genomic:     206213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53155):
CCCCAGGAAAAGTAAGTCGGGTTTGTGGAATTCAGCTCTAGCCTTTGCATCCCTCTGCCGTTTCCCTTCCTTCTCTCTCTCTCTCTTTCTTTCTCTCTCT
S
TGTTCCTGGGGAAAGCTCACAAAACTCAACAGTCAAAAAAGCGAGTTAGCATTCTGACTATTGGAATACTAGCGAGCCCAGGAAGCTTCGTTTCTTCTGC
Celera SNP ID:            hCV11290270
SNP Position Genomic:     184725
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,2)      total(G,1|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53156):
CATTTTATGGATTAGAAAGCTGAGATCCAGAGCGGGCAGATGTAAACCTGGGGTCTTTAAAATGCATCCTTTTTGCAAACAAATAAACTTAGTGTATTAA
R
AGGGCTGGAGAGAGCAGAGTAAGGTAACATTTGGGTGGTCAGCATGTAGTTCTGGGTCCCCACAGTGGAGATGGCACAGTGCTGGGTGCTGGGGGAACTA
Celera SNP ID:            hCV122550
SNP Position Genomic:     73755
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53157):
TTTTAATTTTACTGATAGGGATTTCATTTAGAGTCATTGCTGGAAGTTGGTCAGCTTTCTGTTTCTTAGCAAGCTGTGAAAAAGTTACCGGAAGGTTTCC
R
GGGGCTTGCAGATCAAGAATGCTGTTCTGTTTGCCGTGCTGGATCGCTGCAGTTCTGCACGCCATTGAAAAAAATATTTGCTTTAGAAAACTAGCATTTT
Celera SNP ID:            hCV29347874
SNP Position Genomic:     11571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53158):
ATGTCCATGACTTATGATATGAACCAAATAGGAACTATTTGAATTTTCCCTGTCTTCCTGCCTCACTCTCTCCCATTCCTGTCAAATGATGGGACACAGC
M
CAAAAGAAAAATAAAAATTGTATTGCACTTCATCAACAGGATGAGGCCTAATGAGGCTTGCACAGCATTGTCAAAAATGTATGTATATTTCAACCACGTT
Celera SNP ID:            hCV16118467
SNP Position Genomic:     206218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53159):
GTTCCCCTCTAGCCAAAGACTGAGTGGTCCTTGCAGGCTTTCTCCTGAGTCCTTTTTTTTTTTTTTTTTTTTTTTTTAAAGACAGAGACTCTGTTGCCAG
R
TTGGAGTGCAGTGACGCGGTCTCGGCTCACTGCAACCGCTGCCTCCCAGGTTCAAGCAATCTACAAAATGCATCTATAAAATGATGCATCAGCCTCCTGA
Celera SNP ID:            hCV122551
SNP Position Genomic:     74283
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53160):
CAGCACAAAAGAAAAATAAAAATTGTATTGCACTTCATCAACAGGATGAGGCCTAATGAGGCTTGCACAGCATTGTCAAAAATGTATGTATATTTCAACC
M
CGTTAATATTTTATTTAGCTGTCAATATACAACAAAAGATTTCACCTTTCATTTTAGAGCTGATTAGGACTTAGGAAATTGTCTTCTTAGATGCCACTAA
Celera SNP ID:            hCV16118468
SNP Position Genomic:     206314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53161):
CAGGAATGTCGTGTGTCTTGGCTTGAGATGTCAAAGAAACATGTTGGACACACCATGGTGACAGAGCAGGAGTCTCTTAACCCCGGCGTGGTTGAGGCTG
Y
CGTTCTGGTGGGATCTGGGGTCAGTCAGGGGTTAACAGTCGCTCCTGCTTGCCTGATTGACACAGTAATAAAGGCAGTGACACCAAACTAGGTCTCAGGA
Celera SNP ID:            hCV122552
SNP Position Genomic:     75044
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53162):
TGACCTACTGGAGGGGCCTGGGAATGCTTCTTTGATTGACGTGGGTAGGAAGACAGATGTGGCGGCCTCCATGCTGATGGGAGGCAGCTGGGAAGAAGGT
M
ATGGGCACCATCTCAGGAGTGGCAGAGCCACCTCCCCCTCTCCTCACCCCGTGTGTCTGGATTCTTCCAGCTGTGTGGTCCTTCTTCCTGCCTGGAAATG
Celera SNP ID:            hCV122554
SNP Position Genomic:     76112
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53163):
AAATCACCAAATGAGGCAATTACCAACTTTGGAATAAGAATAGCAACGGTGGTAAGAGCTGACATTTCTTGAGCGCTTGCCATATGCTGGGTGTACTACT
M
TAAGCTGCTGCCTGCAATTATGATTTGGGAACAACTCTGAAAGTAGTTACCTCCCATTTTATAGAAGAGTAAACTGAGGTTCAGAGAGGTTAAGTAACCC
Celera SNP ID:            hCV122555
SNP Position Genomic:     77328
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,9)   total(A,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53164):
GTGCTCTCCATTCCGCAGACTGGGCACTTGGGAGGACATAAAGTTCTAGAAGACATAGTCCTTGTCCCTAAGGGACTTAGGTATAGTGGGACCAAGAAGG
R
TGCACACACACCCCCAGCAATGGGCATCGTGTGATGTAGGAAGAAAGGGTTCTGGGGTCTGAGGCCGGAGAGACATAGGCATTTGTAAGAAGAAAATCCC
Celera SNP ID:            hCV11290276
SNP Position Genomic:     193646
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53165):
AAATCCACACTGGTCTTTGGACTGAACCAGAGGCTGGCGATGGTCCCGAAACAGGGTGCCAAGTGGCTGACCCTTGTTTTTATGCCTTGCGCTGGTAAGC
Y
TGGGGCACCAGGAGTTCTTTGAATTTCTCTTTCTTGACTGTCCACGCCTTCTTTAGGCAATCTTTTAACAGGCTATGTTTTAAATCTTATTGACATCTCT
Celera SNP ID:            hCV122556
SNP Position Genomic:     77729
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53166):
ATTTCCTGGCACCTAGCACGTGTTGGGTCAAACAGGAATGATGAATGCATGCATGAATGAGGTTCTTAGCGCTGAAGACGGTGTCATAGGTGGTCTACCA
S
GCCGCCTGATCATTCCAATGGCCCATTATGAATGTGTGTGCTGCAGGGCCCTCCCACGATCCCGTCAGCACTGTGCATGTTGTGGGGAGGTGCTGGGAGA
Celera SNP ID:            hCV463158
SNP Position Genomic:     60998
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53167):
TCAGAAGATGGGTTAGAGGTGGGTCCTTCTCTGCTGCTGGCTAGCAGGGTAGCTGTGGAGGGGTGCCCCATCTTGCTGGTCTTAAATTTTCTCACTGTAG
R
CAGGGAGCATGACCTGGCTGAATTCTAAGTCCTTTTCTACTCTGAGGTTCATTGTGGGTGTGACCTGCTGGGCTCAGCTCTGGCTTTGGGAGACACCCTC
Celera SNP ID:            hCV463159
SNP Position Genomic:     61210
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,11)      total(G,11|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53168):
GGGAAAGCTCACATTTTTGAGGTCCTCTTGTGGTTCTATTTTGTGTAGGAACTCACGCTTTGTTTATTCAGCAATCATTCCTCCAGAAATAACCTTAATA
R
CAACAAGAAAAAAGAATAGGTGTTTTTTGAGCTCTATCTGCCAGTTTCTCTATATATGGACATTATATATTGCAACATAACACTCACAATGCCTTTAAAC
Celera SNP ID:            hCV27432620
SNP Position Genomic:     44597
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53169):
TAGAGCTACACTCATGGTTTTGACTATGTTTATCTTTCCAGTAAATAAAACAAAATTGTTCATTTGGCACCCAGCCTGTCCTGCTTGTCATTTCTTGTCT
Y
GCTGATTAACTCTATGGATGGGGCATGTTTCTCCAACCAGATTGTAAGTTTCTTGAAGCCAAGGAGCCCTGTGGTTGATTTCTTCACATGTGGCTCTCTC
Celera SNP ID:            hCV291483
SNP Position Genomic:     104097
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53170):
GCCTGGGATTCTTTTTCTAGGGGTGTAATACACCCATGAAAAAATAAATAAATAAATAAATAAAAATAAAATAAAAATGCCTCAATGGGGGAAAAAAAAC
R
CACCAGAGACAAATACTTATTTAGGATCTGTAATGTACCCATTGCCATACCTAGGCATCCTAGATACAGCAACATATCCCTGCCCTTTAGGAATGTACAG
Celera SNP ID:            hCV27432621
SNP Position Genomic:     43743
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53171):
GGGTCTGGCTTGGAAAGTGTATTGCTATGTCCAGTTTACACATAAGGATGTGCAAATCCAGCAGGTTAGCTGAGCTGCCCAGGAATATCCAGGCAAGAAT
K
ACCATATTCTGATAATTACTCAGGCCTCTGCCTCATCTCCGCTGCCCCCCCGCCCCCTGACTCTCTTCTGAGTGCCAGATTCAGCCTCCATTTGAATGCC
Celera SNP ID:            hCV291484
SNP Position Genomic:     104927
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53172):
TTTTTTTTTTTTTTTTCCCCCAAATGCATTCAAAATAAACAAATCTCCTTTTACTACCATAACGGTGTATGTGAATGTCCTGGCGGATGCTCTCAAGAGC
R
TCAACAATGTGGGAAAGAGAAGCAAACACCAGGTTCTTCTCAGGTGGAGCTCCAGAGTCGTCCAGTTTCTAAGTGTGATGATGAAGCATGGGTGCATTGA
Celera SNP ID:            hCV27432622
SNP Position Genomic:     43316
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53173):
ATTTGTATTAAATACGAGCTTGCGAACCAATCATTTTACATCTGGTTTTTAAACCGTAAGGGCACCATGAATGCAGTGCCGTTACTTTTTTTTTTTTTTT
T
CTGTGTGAAACAACTCTTATTGTGATGTTACTTGTTATTGTTTAAATGTACAGAAACAAAGGGTAAAAATGTGTTAATATACCTTGTTCCATGGTGTTGT
Celera SNP ID:            hCV27432550
SNP Position Genomic:     222223
SNP Source:               Celera
Population(Allele,Count): no_pop(-,9|T,9)   total(T,9|-,9) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:53174):
AGGTGGGGGTGTTATCAAGACCTGTTTTTGAGCCATACCTCTGACTCTTCCTGGAAAGTTAGACCCAACTCAAGAACACACTAAGAGAAGTGTTTCCCCC
Y
AGCCCTTTCAGATTGAAAGGAGACGCCAACCTTGATGGGTGGAGGTAGAAAATAAAGTCCCAAAACAGTGTCTTGTAAGCGAAGGGGAACATGGCTGGGC
Celera SNP ID:            hCV291485
SNP Position Genomic:     106265
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53175):
TTGTTGTGATAATGAAATGAAATGATACTGTATCTTTTGCTTTTTAAATAAGCCACTTCTGGGGAGCTTCCAGGAAGCAGAAGTTTTTTTTTTTTTTTTT
T
CCCCCAAATGCATTCAAAATAAACAAATCTCCTTTTACTACCATAACGGTGTATGTGAATGTCCTGGCGGATGCTCTCAAGAGCGTCAACAATGTGGGAA
Celera SNP ID:            hCV27432623
SNP Position Genomic:     43231
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53176):
CATGCTTATGGTATTGACCATTAAACCTATGCTTTTTCCCCCCCCTTAATTTAGATCATGGGAAGGAAAAAACAAAACAAGAATAAATGGTCAACTCAAG
M
TATGCCCTTTCTTTGAGTCCTTTTCACAGCAGTTTTTTGGGGAGGGGGAGAAAGGGTTAAAAAAAGATGGGGAGGAGAGAAGTCTCACTTTCATCACAGT
Celera SNP ID:            hCV1349560
SNP Position Genomic:     185898
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53177):
GGATGCCCCTCCATCCATCCCATCCTCACCATCTCTCCTTCCAACCTTCTCACTACGGGGTGGGGGAGGGGAAAGCCCCAAATCTTAAAAAAAAAAAAAA
A
ATCAAGTTTGAATCTTAATTTAATCCACAACCTGCAGGCCATACAACCAGTTATTCTTGTTCCTTTGAATCATTTTCTGTTTTTCTTATTCTTCCCCCTC
Celera SNP ID:            hCV27432551
SNP Position Genomic:     220367
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53178):
TAATAAAAAATGACATGCTTTTTCTTTTGGATTTTTAATGCTTTTGAATTAAAAATGCTAGAACATGAACTGATTCTTCTATCGCTATTTAGATAGAGCC
Y
TGCAAGAGCAGAGCACGCATGCTTTCTTTAAGAACAGGTTGGTTTGTGGTCGTCTGAGGACTGTTTTAAGGAGACTTATTATACACAATCATCCCCCACA
Celera SNP ID:            hCV291486
SNP Position Genomic:     107343
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53179):
ATGAGGCATTTTTCTCTGGGGAGAACCTTGTCTTTGTGTATGGCAGTGGGGAAGAATTAATTAAGGGAGAGGATGAAGCTTAGTAATTGAAGTTAGGGGC
Y
CAGGAGCTCTGAACACTCCTAGGTCTGCTATTAAATTATCTGGCTGCAGATAGCTGGTTCTCTGGGTCTTGGTTTGCTCATCTGTGAAATGCCCCCACAG
Celera SNP ID:            hCV27432624
SNP Position Genomic:     40519
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53180):
CCATGCTTATGGTATTGACCATTAAACCTATGCTTTTTCCCCCCCCTTAATTTAGATCATGGGAAGGAAAAAACAAAACAAGAATAAATGGTCAACTCAA
K
CTATGCCCTTTCTTTGAGTCCTTTTCACAGCAGTTTTTTGGGGAGGGGGAGAAAGGGTTAAAAAAAGATGGGGAGGAGAGAAGTCTCACTTTCATCACAG
Celera SNP ID:            hCV1349561
SNP Position Genomic:     185897
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53181):
CACCTTCTCCCCTCCTCTTCTCTCTCTCTTTTTATTTATTTATTTTTTCATTGTTGTTTTTTGGTTTCTGGTTGTTGTTTTGTGTGTGTGTGTTTTATTG
K
TTTATTTTATTATTTTTTTTCTTTTGGCTCATAGAAGTCCTTTCCTTTCATGTCCTTGGTGAGGGAAGATTATCAAATAGAACCAAGGTGATAGAGAAGA
Celera SNP ID:            hCV27432552
SNP Position Genomic:     216188
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,11)   total(G,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53182):
AGCAGTGGGAACCATCTTCGTTTCCCCTTTGAACTCCCAGTGGGATGCCCTACCCTGCGCCCTTAGGACCCGGACTGACCGTGTACAAAACTTTACGTGC
S
AAAATTCTCAGTGAATTTAGCTTTCTCCCTCTTTTTGATGCTGTAATTTTTGTTCATCATGTTTTGCTGTGATGTTACATAGGTAGATTTGTATGTAGTT
Celera SNP ID:            hCV624915
SNP Position Genomic:     222831
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,9)      total(G,1|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:53183):
CTATTTCCCCAGGCAGTGCATTGTGAGATGAGGCATTTTTCTCTGGGGAGAACCTTGTCTTTGTGTATGGCAGTGGGGAAGAATTAATTAAGGGAGAGGA
K
GAAGCTTAGTAATTGAAGTTAGGGGCCCAGGAGCTCTGAACACTCCTAGGTCTGCTATTAAATTATCTGGCTGCAGATAGCTGGTTCTCTGGGTCTTGGT
Celera SNP ID:            hCV27432625
SNP Position Genomic:     40492
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,3)      total(G,1|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53184):
CCTTAGCGCGCCCCCTCCCAGGGAATGTTACCTGCCAACCCCCATCCCTTCCTTGTGACAGCCCAGGATCGGAATCCTGGCCTAGGTAGAAGCAAATGAC
R
TCACCTTCTCCCCTCCTCTTCTCTCTCTCTTTTTATTTATTTATTTTTTCATTGTTGTTTTTTGGTTTCTGGTTGTTGTTTTGTGTGTGTGTGTTTTATT
Celera SNP ID:            hCV27432553
SNP Position Genomic:     216086
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,11)   total(G,2|A,11) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53185):
CTACCCATATCGTAGGCCCTTTCTTTCTTCTGTTACATTTAAAGGGGTAGTAGCGTGGCCACTTCCCTGGAGATGCATCTTCCTCTTCACTAAGTGTAGG
K
TTTATCCACTTTCTCATGTCTTCTTTTTATTAAAACACAATCCCTGTCCTCCAGAAGTCTCTAGTCTAAATGACAACTTCTTCAGTAGTCAACATCTCCG
Celera SNP ID:            hCV624917
SNP Position Genomic:     211205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53186):
CCTCCCACACTCCCCTCCTTCATGTAAAAGAGGACGATTTCTGGCCTGTGATGTCTGAGTGTCTCAACTCAAGTTAAGTTAAAACCACACAAATGTACCC
R
GCCCTGGATCCCATAAGAGCCCCAGGAAAAGTAAGTCGGGTTTGTGGAATTCAGCTCTAGCCTTTGCATCCCTCTGCCGTTTCCCTTCCTTCTCTCTCTC
Celera SNP ID:            hCV1349563
SNP Position Genomic:     184605
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53187):
AGTAAACCTGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAATAAATAAATAAAT
W
AATTAATTAATTAAAAAGTCATCCTTTTCAGTTCTCAAATGGCAGAGGTCTGCATCCTGCCTTGCGAACCTATTAACACTCCTTTCTTTCTTTATGTGGG
Celera SNP ID:            hCV27432626
SNP Position Genomic:     39289
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53188):
CTTTCAAAGCCTTAAGGAAGATAAAATTTTGGAGTGGCTTACCCCACAATTCTACCCGTATTTCTCTAGTTAGATAGATTCTATGCTGTTTTTTTTTTTT
T
AATAAAAAACAGATTGCATTATGTAGTAGCTGTACCAAATACCAACCCTGGGTATAGTTTCTGTTTCTCTGTCTCTTCTTATTTTTATTGGGACGGTAGA
Celera SNP ID:            hCV27432554
SNP Position Genomic:     200879
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53189):
TCATTACACATGGGTGTGAACACACACACTCACACTCACGCCTTCCTTTTATGTGCTAGGGAACACTGGGACTAAGAACCGCAGCACTGAAGCTTTTATG
S
ATTTGAATGTGGTAGCAACTTAACTAGTATTTTTTTTTTTTTTTTTAACTAACTTGACGTGGGAGTTTCCATATATTACTTTGGTCATTGTAAACTCCAA
Celera SNP ID:            hCV624918
SNP Position Genomic:     210704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53190):
GCCTCCTGGGTTCATGCGATTCTCCTGCCTCAGCCCTCCCGAGTAGCTGGGACTACAGGCACCTGCCACCACGCCTGGCTAATTTTTTTTTTTTTTTTTT
T
GTATTTTTAGTAGAGATGAGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCTGTCTTGGCCTCCCAAAGTGCTGGGATT
Celera SNP ID:            hCV27432627
SNP Position Genomic:     34450
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53191):
AAGAGGGGGTCTGTCTAGCATGAGTTAGCTTATGTTGCTGCGTCCTTTTTTTTTTTTTTTTTTTTTCCATTTTTCGGTCTTTTGAGAAAGCTAGAAAATA
R
ATTCTTAGTCAAAGTTGCCCATCCTGTTTGCCGCACTTTATAAGTTATTGTTGCTGAATGATTGGGAGCTGTCCATCAGCGGCAGAGAACTTGCAGTTTA
Celera SNP ID:            hCV1349565
SNP Position Genomic:     183678
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53192):
GTAGTTAATTTGTTTCTTGAGTTTGATTTGGTTGCATGGTATCAAATCCTGATCAAACAGATAAGTGGTTGCTTCTTTTTTTTTCTTTTTCTTTTTTTTT
T
ACTGGTTTGCCTTGAAATCTTAGCATCCACTTCAGTTAAACAGAAATGGCATTACCTGTTCCCGGGGGTTCCACCAAAACCACTGGTTGGATGGTAGTGT
Celera SNP ID:            hCV27432628
SNP Position Genomic:     30792
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53193):
CCAAGACTGACATGTCTTTAACTTGAGGCTGCAATTGTTCTTTTTGGCATGCTGCCCATTTGTCCCTCCTTCTTCCTTTTGATGGACAGCATAGTAAGTC
W
TGCTCCCAGAAAGTGCTTTAGGTGCGGGACTTGGTTAGAGAACAAGCCCAAACCCTAACTCCTGGTGCCTGAGTGGATGTACAACTCTTGGTGAACGGGT
Celera SNP ID:            hCV27432629
SNP Position Genomic:     22216
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53194):
CGTTTGGTTTGACTGCAGCCAATACCCAGCCTGTGTGGGCTCTTCACTCCCTTACAAAGAGAGAGAGAGTGCACAGTGGCAGAATCTCACTGTACCACCG
Y
GGGTTAGAACAGAACTGTTTTTTGTGTGTGTACTTGGATACACTGGGATTTGCAACCACTTCCCTGCCCCCTAACCGCATCATTGAACATTTAGAGCTTT
Celera SNP ID:            hCV624919
SNP Position Genomic:     207071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53195):
GCACTTTTTAAAAGACACTTTCCCCTCAATTACCTGTGGTAAGAAATGCTGTTCTTATATTACATTCCTTCCTCACCCATTTAAAAAAAAAAAAAAAAAA
A
GGACAAGAAGAGAAATAGTAAAGAGAACTAACTGCTTAGTGATCCCTCAGCTCAACAGGCACTAGTGGGCAGCACTAGGACCTTCCTTCTTTTCTTTTAA
Celera SNP ID:            hCV27432556
SNP Position Genomic:     195586
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53196):
CCATCCATTCCTCCAAGACCCATTTCCCCTTCCTCCCTTCTTGAACCTCTTTATTTAAAACAAAACAAAAGTTTGCTGATGCTGCAGATGCGGACCGTGG
R
ATGTAAATGAGCAGTTCCTCCCACCTCCTTACTTCATTCCTCCTGCACATGATTGTAATTTCATGCTGAAAGGAAAGGAAGCTTTCGTTTTTGTTTTGTT
Celera SNP ID:            hCV1349566
SNP Position Genomic:     183215
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53197):
AGCACTTTTTAAAAGACACTTTCCCCTCAATTACCTGTGGTAAGAAATGCTGTTCTTATATTACATTCCTTCCTCACCCATTTAAAAAAAAAAAAAAAAA
A
AGGACAAGAAGAGAAATAGTAAAGAGAACTAACTGCTTAGTGATCCCTCAGCTCAACAGGCACTAGTGGGCAGCACTAGGACCTTCCTTCTTTTCTTTTA
Celera SNP ID:            hCV27432557
SNP Position Genomic:     195585
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53198):
GTAAAGAATCAGCATTTTGCTACTTTTCGTCCATCCATTCCTCCAAGACCCATTTCCCCTTCCTCCCTTCTTGAACCTCTTTATTTAAAACAAAACAAAA
S
TTTGCTGATGCTGCAGATGCGGACCGTGGAATGTAAATGAGCAGTTCCTCCCACCTCCTTACTTCATTCCTCCTGCACATGATTGTAATTTCATGCTGAA
Celera SNP ID:            hCV1349567
SNP Position Genomic:     183185
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53199):
AAGCACTTTTTAAAAGACACTTTCCCCTCAATTACCTGTGGTAAGAAATGCTGTTCTTATATTACATTCCTTCCTCACCCATTTAAAAAAAAAAAAAAAA
A
AAGGACAAGAAGAGAAATAGTAAAGAGAACTAACTGCTTAGTGATCCCTCAGCTCAACAGGCACTAGTGGGCAGCACTAGGACCTTCCTTCTTTTCTTTT
Celera SNP ID:            hCV27432558
SNP Position Genomic:     195584
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53200):
TTTTTTTTTAAGTTAGTCATGAAAAATGTTATACAGTAAATTGTTCTGAATTCTTTTACATATGGGTGTTTTTAATGATCTATATTGGTTTTTGTATCCC
Y
CCACCTCCAAAAAAAAGAATTCAGCAAGATAATTAAGCTCTGGATGTTGCCAAGAATTTTGAGAGTACTTTCAGTTGGCAGAAAACTTTGGAGTGAAGTG
Celera SNP ID:            hCV1349568
SNP Position Genomic:     181970
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53201):
CATCTGCTTTGGTGGCTTTTAGCTTACTTGCTTTGATGCAAAATTGGTAGCACATAACACAAAGCTCCTGTAAGCAACCTGCTAGCCCCTTTCTCCAAGA
G
TCCAGTTATACATAGGAATTGGTAAACCAGGCTGTTGGAAACGTTGACTTCTTTTTCTGTAGTTTTTTTCTGGGGCATCTAGAGAGAATGCCTTATTTTT
Celera SNP ID:            hCV27432559
SNP Position Genomic:     195354
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53202):
TTGGCAAGCAGAGGGTTAAATGCTGCAGGAGGACATGGGAGAGTTTTTGCTTTGAGGGTCCACTGGAGCAAGAGAAGCTTGAGAGTCTGTCTCTGAGATC
Y
CAGAACAGACATGAAGATATGGTACCGATTCCCTTGGTGCTAAAAGGAACTCCAGGGGAATTTCAGGAAACCCCTCCTTTTCTCGTCTTTATTCTCACCC
Celera SNP ID:            hCV27488342
SNP Position Genomic:     127230
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:53203):
ACAGTGTCATTGTTTAAATGTGGAATGTAGGTGTTCTGTGTTCTGGGAAATAAAAACCAAAACTGGTCCAGGGGATCCACAGAGGTAAGAAAAGAACATT
M
CAATAGGAATGTTTCAGAACCAGGAGGGGAGGAGAGAAAAACGGCTCTGTTGGTCTCCTAGAGGAAGAACTTGTTAGATTTGGGGAGAGTCAGGATAAAT
Celera SNP ID:            hCV463160
SNP Position Genomic:     61786
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53204):
CTTTTTTGGGCCCTGGCAAAATGGCAAGGGCATGCTAGACCGGTCATTTTTTTTATGGCTAGGGAAGAGAAATAATTATTCCCCCCCTGCCCGGCGCCCA
R
ACATGCTTGGGAAGCTGGGAGAGCGGTTCGGCTCAACCCCCTTCTCCAGGGCCAGTTCCACCAGGCTGCAGGGGCCGCGCTCTGGGCTTGCAGCTGTAGG
Celera SNP ID:            hCV995534
SNP Position Genomic:     9070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53205):
GATAACGCGGCCACTTTCCTATACATTTCCTTAATTTAAGGGAACAGCGTAAACTCAGCCCAGGTGGATTAATCTCTCCAGTGACTTTTGAAACTTCAAT
Y
TCCAATTTCCCTCTTATGTCTAGGTGTGAGTGAGGATACGTGTAGTAATTGTCGCAGGTATTAGTGAGAAAGGGTGCAGATCACACAAATATTTCACACG
Celera SNP ID:            hCV8172190
SNP Position Genomic:     117276
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53206):
GTTTGAGAAAGTGCTTAGCCTTCCTTTCCCTCCTTTAGTGACTTGTGGTTTGGGGCATCTGTTGACTCCTAGGGCTCCCTTGTTCATCTTTCTGTTCCTA
R
GCTCAGGGATTAGTTGCTCAACCCAGGTGTGGCCTCAAAATTCTGCTCATGGAATAGCCTCAGGCTTCTATAAATCTCATCTTTTTTGTTTTGTTTTGTT
Celera SNP ID:            hCV463162
SNP Position Genomic:     64648
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53207):
GACAAGTTTCCATTAAGATCTGAATCAGGCGATTGGAAAAGAAGAGAATAAAACCAACTGAAAAGAGAGGGACAAGTTGTTAGTGTTGCCTACTCTGCTT
T
GAAGGAGAACCCTCCTCAGACAAGAGCTACTTTCTGGCCAAGAATTCCAGGCTCGCAGAGAAACCTGTCCCAGGCACAGAAGTTGTTTTAACATGATGCA
Celera SNP ID:            hCV27432630
SNP Position Genomic:     18176
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53208):
CCCTTTCTGTCCCTCACTATTTTTTCTATAGTAGGATATGTTGCTTGAAGAGGGGTGAGTCTTCCAACCCAGTACAAATCATGGTGACACCACGCAAAAT
W
GAAAATGAGAAAGGTGTTTGATCCAGTTGTCAGTCTGCAGATGGGCCAAGAGTAGGTTGAGATTAGCTCTTTCTGTCCTGGCTAATGTACTTGGTTGGGA
Celera SNP ID:            hCV624920
SNP Position Genomic:     205731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53209):
CGGATGAGGAAATGATGTGGAGTGGTCTTGGAGCACTCCTGGTGACTGGTGCAGGACAGTCCCAAGAGATGAGGCAGATGGGAACCTGTTTTTTTTTTTT
T
GAGATGGAGTTTCGCTCTTGTTTTCCAGGCCGGAGTGCAGTGGTGCGATCTTGGCTCACTGTAGCCTCTGCCTTCCCGGCTCAAGCAATTCTCCTGCCTC
Celera SNP ID:            hCV27432631
SNP Position Genomic:     16502
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53210):
GGCTTCCAAGAACACATGTTCTTAACTTCTGTTTCCTCTGAGGCCTTCGAGCAGTGGGAAGGAACAGGGTGTCACTTGGAGCCCAAGTGTCTCCCAAGGG
S
TTTTGCTTTTTTTGTTTTTCACATTATTTTGAGAGGAAGGGGATGAAGATGAAGGTTGTTAGCATGTTTGTTTCCTTACATTTTCCTTCTCTCTCTCTTT
Celera SNP ID:            hCV624921
SNP Position Genomic:     204974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53211):
GAAATTAGATTTCAAGTGGCTCATGGTAGCAGCTACAGGGTAGAGAGGAAAGTGGACCAAAAAAACTAACACCTCCTAGGAAATGATCTGTTTTTTTTTT
T
AATATAGATAAGAGAAAGCCAGGTGATTCATAAAACTGAAAATAAAGTAAATGTTCCACCTCTTCCCAATTTAGCAGGACGAATAGGCATCAAAAATTAA
Celera SNP ID:            hCV27432632
SNP Position Genomic:     15791
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53212):
GTGAACGGTGGGAATGGGGCATTTGGAACCGTCACTGCAGCATGTGGGGCCTTCGTAAGCATCAATCCTAGCTCCTGGCAGTGCCCAGATTATTTGACTA
W
CTTTTGCAACTTAAAAAAACTGTGTTTTAAATTCAGAGTAGAAAGGCCTTTGATGCATTAGCATACTGTGGCAGGTTGTGTGTATGTATATTTTTGCATG
Celera SNP ID:            hCV624922
SNP Position Genomic:     200527
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,2)      total(A,2|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53213):
ATTATGTTTTGACGTTGAAAGAAAATCATCTAGTTTTTCTCAAAAATCAACCCAGAAATGCCCATCACCATAAAGAAGTTCAAGCTCAACTTTTTTTTTT
T
GCGAGACTTTGCAGCACAAAGTGGAGAAACGATGAACATAGCATTTCCCCGCAGACCTACAGATAAAACTTTCTTGAAGCGACTTTTTCCCCTTTTTTTC
Celera SNP ID:            hCV27432633
SNP Position Genomic:     14979
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53214):
AAAATCCTCTATGGGGAATAGGGTTTTTTGCAATTGGATTACTCTCAGTAAATGGCCCAGTAGTTCGCTTGTTTCAGCTTAATTTTTTCTTTGTGATCTT
S
CTGGGCTAAGTTATAGCACAGAGTAGTGGAGTGGGGAGGGGTGGACTGAGCGGGAGGTGGGGGAAAGAGGAGGAGAATAATTTGGGAAAGCCTGGGCATG
Celera SNP ID:            hCV624923
SNP Position Genomic:     195963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53215):
CCATCTGCTTTGGTGGCTTTTAGCTTACTTGCTTTGATGCAAAATTGGTAGCACATAACACAAAGCTCCTGTAAGCAACCTGCTAGCCCCTTTCTCCAAG
A
GTCCAGTTATACATAGGAATTGGTAAACCAGGCTGTTGGAAACGTTGACTTCTTTTTCTGTAGTTTTTTTCTGGGGCATCTAGAGAGAATGCCTTATTTT
Celera SNP ID:            hCV27432560
SNP Position Genomic:     195353
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53216):
AGGATCCCATGTGGCAGCAGGGGTGTTTTCTTACCTGCATGCAAATCGGAGTTGTGTGTTTGCTTTTGAAGAGGGTGAAATGGCTTAACACTTGGGGTGG
S
AAAAGACCGGAAAAGCGTTCTGGATGAGTTTTGTCCCCTGCAACTTTTTCTGTCTGTAATCCCTCCATGAGCAGCCACCCTCCCACACTCCCCTCCTTCA
Celera SNP ID:            hCV27432561
SNP Position Genomic:     184426
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53217):
CTTTCCCAGAGGACTGGTATTTGGGAATCTTTTTATAAAGTGTTGCTTTCTGGGCTTTCATTAAAAGCTCAAACATAGAAATGTATGAAAATGATCCTTT
K
AAAACAAGTTTGGCACCAACACTATGTGAGAAAACTTGAAAAGTATATAGGTTGTGGATCACCAGTTCTCGAACTCAGGACCACCCTGACTGAGTTGACC
Celera SNP ID:            hCV624925
SNP Position Genomic:     162668
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53218):
AGATTTGATACAGCTGCGGGAGGAATGGAGGAATGCATAGGCAAGATAGCGGGCTTCCCATACTCTTCTGAAATCCTTAGTGTTTTATAGGGTGTGTTTT
T
AATGGCAAGGTGTAAAGACAAATTTCGCTGTATGCTTTATTATTTTCCCTTTGCTCCTTGGTGGCGGTGATTTTTGCTACATTTTCTGTTACTTATGGTG
Celera SNP ID:            hCV27432634
SNP Position Genomic:     9995
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,14)   total(T,14|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53219):
ACATTTGCAATGGGGAAAACACGTTGCCATATTGATTGAAGAAAATACGTCCATTAGTTTCTTCCTGTAATACACGGATTCGGAACAACAGTAACACAAT
Y
ATTACATAACACACTGTAAATCAAAGGAATATATGAAGCTTCTATTAGTCGAGCACATTTTACTCTGAACTTAGTGACATTCTTCTGTCCAAAATCAGCA
Celera SNP ID:            hCV1349572
SNP Position Genomic:     177735
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53220):
AAGAAATTCAAGAAATTTCCCTTTACTTTTTAAGGAAGAGGGGGTCTGTCTAGCATGAGTTAGCTTATGTTGCTGCGTCCTTTTTTTTTTTTTTTTTTTT
T
CCATTTTTCGGTCTTTTGAGAAAGCTAGAAAATAAATTCTTAGTCAAAGTTGCCCATCCTGTTTGCCGCACTTTATAAGTTATTGTTGCTGAATGATTGG
Celera SNP ID:            hCV27432562
SNP Position Genomic:     183643
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53221):
CTTGCCTGAGATCTCAACACTTTGGGAGGCCGAGATAGGAGGATTGCCTGAGCCCAGGAGTTCAAGACCAGCCTGAGCAACATAGCAAGATTCTGCCTCC
M
CAAAAAAATAAAATAAAAATAAAAAGATTAGCTGAGTGTGGTGGCGTGCACCTGTAGTCCTAACTGTTTGGGAGGCTGAGACAGGAGGATTGCTTGAGCC
Celera SNP ID:            hCV624926
SNP Position Genomic:     144599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53222):
TCGCCTGGCACCGTAGGACAAATCCCCCATCCGCTAGGATGGTTAGTACCACAGTAAGGAGTTCCATTTTTTAATTTCCTTTTTGTTTCTTACATGGGCA
Y
GTTTATTATTTATTCTGTGTGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTGTTAGAAGCCAGGGTTGGGGAGGGGGCTGC
Celera SNP ID:            hCV16179886
SNP Position Genomic:     199829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53223):
GAGTGGGCCGCCGATCGCCGGCCACCCAACTTTGGGGGCCCCAGGGCAGCGCGGGGTGCCGGGCTCGGGGGGCGCTTCCTGCAGGGTCGGTCCCGCGCCC
W
ACCCTGACATTTGTTAATACGGCTCATCCCCTCCCCCACCGGCCTGTGCCCCCTGCCCTCACCCTGAACCCCCTCCTCCTCATCCCTCCCTGCCCTGCCC
Celera SNP ID:            hCV27432635
SNP Position Genomic:     8521
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1)   total(A,1|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53224):
TTTACAACAAACTAACAGCACCAGTGTCACAGGAGGATACCGATAGCGGAGTAGATTGTGGTGGATTAGATTATGGCCTACAAACCCTGAGTTTCAGAAC
W
GTTTCTCAACCAGACAAAGCCTCAGGAAGTATGAGGCCAAGAGCAGTTACACATGCATTAAATTGGCTAAATGCTTGGCTCAGAAAAATAATGTCTGATG
Celera SNP ID:            hCV1349573
SNP Position Genomic:     176549
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53225):
TAGTCATTTTTTCCTACTATGCTTAGAAGACGCGCAGCGGTGGTTTAATATGTGTTAGGACCATTTGCTTTAAAGGAACACATCCACAAGTTTCGGTAGG
T
TTTTTTTTTTTTTTAAGTTAGTCATGAAAAATGTTATACAGTAAATTGTTCTGAATTCTTTTACATATGGGTGTTTTTAATGATCTATATTGGTTTTTGT
Celera SNP ID:            hCV27432563
SNP Position Genomic:     181864
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53226):
CTGTAGCAGCTATTGTGATAGGGTTTGAAATTCAAATTAACGCATATTTCTTGAGCACCCAAGGTGTGTGCTGCTGGATCTTTCAAGGGGTCCAGAATTG
R
TAGTATAGTTGCTTTTCTCAAAAGACTGTCGCCTGGCAGAGGAAAAGGTGTTAAGGTATGAGTGAAGACAGATCAGCCAGACATGGTGCCGCTTGCCTGA
Celera SNP ID:            hCV624927
SNP Position Genomic:     144407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53227):
ACTTCCCAGATTGGTCCCACCGCAAACTTGGGGGCTCTGAGGCGTCCTTTTCTTTGGCAACCCGCAGGGCCGCGAGCGCCCTGGGCGCCGTGGCGGGCTC
S
GCTGCCCGGCGCACTGGCTGCGGGCTCTCCCGGGCCGCGCAGGGCAGCAGGGCTGAGTGGGGCGGGGAGGCCCCTGCGGCCCGGATTCTTGGTTTGTGTG
Celera SNP ID:            hCV27432636
SNP Position Genomic:     8127
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,3)      total(G,2|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53228):
GTTCCCTGCCACCCCCTCCACCCCACCCCCACCCCCATGGTATAGTTTTGACTGAACAGGAAAAAACTAGTTGGCTAGGCTCAGGTGTGCAAAATAATAC
Y
GGGAGAGGTGTTAGTAGCCAGAACACAGGGCTCCACCTTTTGTTGGAATCGCCTTCATATGTATATCTAAGAAGATGGAGACTTAATTTTTAAATCTCAC
Celera SNP ID:            hCV27493391
SNP Position Genomic:     194090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53229):
TTTGGAAAGGCTCTTTTTTTGGGCAAAAGGGGAGGGTGTAAAGATACAGAGTTCAAAGATGCAAATCACGAGAAAGTAGAAACCTTAAAAAAAATTTTTT
T
ATGAGAACTTTGCCATCTGTATATACAGCACAGGCTTCCCAGCATCGAAGGTCAGATTCACACCCTTTTCGAACAAAACTCTAATTTAGAATGTTCATCT
Celera SNP ID:            hCV27432564
SNP Position Genomic:     179965
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53230):
GGGGGGAATCCGAAGAACTTTCCTTTGCGTTCTGGTTCCCCCTCCCCCTTTGGTGGTGGTGTTTGTTTCTTCACCCTGGGAAGATGACTCTGTGGCTCTT
Y
CTTTGCTCTCTCTCCCTCTCTCTCCTTCTCTTCCTTCCCTCTTCTGTGGCGTCTTGGGCTTTCCCCGGTTAACCCCTTGGCTGCCGCTGCGGGCCACGAG
Celera SNP ID:            hCV27432637
SNP Position Genomic:     7728
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53231):
CAATTGTAATGAACGCATTCAGAACTGGAGAATAGATTTACCCTTGGCTTCAAATAGTCGACGTTATCAGGCGCTGTCATTCGTTCCTTCCTATTTTCGG
S
CTGCTAATTGATGTTTTTGATGTCAGCAAGAAAATTGAAGAAAATGTCATGTGTGAACCAGTGCGGAAGTTAATAAGATTGACTTCGTTGACAGAATTTA
Celera SNP ID:            hCV1349575
SNP Position Genomic:     174777
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53232):
GAGGGGATTTGGAAAGGCTCTTTTTTTGGGCAAAAGGGGAGGGTGTAAAGATACAGAGTTCAAAGATGCAAATCACGAGAAAGTAGAAACCTTAAAAAAA
W
TTTTTTTATGAGAACTTTGCCATCTGTATATACAGCACAGGCTTCCCAGCATCGAAGGTCAGATTCACACCCTTTTCGAACAAAACTCTAATTTAGAATG
Celera SNP ID:            hCV27432565
SNP Position Genomic:     179958
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53233):
TTATAACTTGCAAGCAAAAAATAATAAAGTTCTTGGCCACATGTCTCCACCCCCAAAAGAAACATTTTAGCCATGGTGTCCCTTAAGGTGTTTTTTTTTT
T
AAAAAAACTTATCGAAGGTTTCAATATAATAGACTAATTTTCCAGTTATGTGGCAAAGTTTATTGGATTTGTGTGTATAATTATGGATTGGATTAGTTGA
Celera SNP ID:            hCV27432566
SNP Position Genomic:     175438
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53234):
TCACCTACACATTTGCCTGGAGTATAGTGAGAACCCAGGAAAATGGATAGGCCCTACCAGGAGAGGCTGCAATCTGTTGGGGAAGTTTTTTTGTTTTTTT
T
GTTTTTTTTATTTTATTTTATTCCCAAGCCTTGGTTGCTATTTGATAGTAAGTGTGGTCCAGGCTGCATATTTTATAAACTTTCTATTAAAGTTGTGGCA
Celera SNP ID:            hCV27432567
SNP Position Genomic:     174434
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53235):
TTCACCTACACATTTGCCTGGAGTATAGTGAGAACCCAGGAAAATGGATAGGCCCTACCAGGAGAGGCTGCAATCTGTTGGGGAAGTTTTTTTGTTTTTT
T
TGTTTTTTTTATTTTATTTTATTCCCAAGCCTTGGTTGCTATTTGATAGTAAGTGTGGTCCAGGCTGCATATTTTATAAACTTTCTATTAAAGTTGTGGC
Celera SNP ID:            hCV27432568
SNP Position Genomic:     174433
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53236):
GTTCACCTACACATTTGCCTGGAGTATAGTGAGAACCCAGGAAAATGGATAGGCCCTACCAGGAGAGGCTGCAATCTGTTGGGGAAGTTTTTTTGTTTTT
T
TTGTTTTTTTTATTTTATTTTATTCCCAAGCCTTGGTTGCTATTTGATAGTAAGTGTGGTCCAGGCTGCATATTTTATAAACTTTCTATTAAAGTTGTGG
Celera SNP ID:            hCV27432569
SNP Position Genomic:     174432
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53237):
AAGTAGGAAATAGGTACCGTCCAGTAAATCTTAATTAAGTTATTGAAAATTGAAGAGCACTGAATAATAAAGCAGTTCTAATTGCAGTTAAAACTGTATT
S
GCAGCAGATATGCTTGAACAGGGATGATAAAACAGCTGAGGAAGAGCGTTGGATGGCAGAATCGAAAAAGGGTAATACACAGATTAAATGCAAAACTCAA
Celera SNP ID:            hCV1349579
SNP Position Genomic:     170804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53238):
CTTGGCCTGGAAGTGTCATGGGTCACTTACTCCCATCACCCATTGGCCAGAGCTAGTCATGTGACCCAACCTAACTGCAGGAGATGCTGGGAAATGTGCA
K
TTACTGTGCACAAGTTATTACAGGGATTCAGAGTTAAGTCGGATATCTTTACTCCCTCAGAACTTAGCATCCGCCAGGAAATCGCAAACATCTGCCGGCC
Celera SNP ID:            hCV11290294
SNP Position Genomic:     209470
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,12)   total(G,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53239):
AGATGCTGGGAAATGTGCAGTTACTGTGCACAAGTTATTACAGGGATTCAGAGTTAAGTCGGATATCTTTACTCCCTCAGAACTTAGCATCCGCCAGGAA
W
TCGCAAACATCTGCCGGCCTATGTGATCCTGAGGAAGAGCTGCTTCTGCCTGCTCTGATGAGTAATTTCAGGCCTCCTTCCTCTTTCTTCTCATACTTTT
Celera SNP ID:            hCV11290295
SNP Position Genomic:     209551
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,13)   total(A,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53240):
TGTTCACCTACACATTTGCCTGGAGTATAGTGAGAACCCAGGAAAATGGATAGGCCCTACCAGGAGAGGCTGCAATCTGTTGGGGAAGTTTTTTTGTTTT
T
TTTGTTTTTTTTATTTTATTTTATTCCCAAGCCTTGGTTGCTATTTGATAGTAAGTGTGGTCCAGGCTGCATATTTTATAAACTTTCTATTAAAGTTGTG
Celera SNP ID:            hCV27432570
SNP Position Genomic:     174431
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53241):
TTGTTCACCTACACATTTGCCTGGAGTATAGTGAGAACCCAGGAAAATGGATAGGCCCTACCAGGAGAGGCTGCAATCTGTTGGGGAAGTTTTTTTGTTT
T
TTTTGTTTTTTTTATTTTATTTTATTCCCAAGCCTTGGTTGCTATTTGATAGTAAGTGTGGTCCAGGCTGCATATTTTATAAACTTTCTATTAAAGTTGT
Celera SNP ID:            hCV27432571
SNP Position Genomic:     174430
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53242):
TTTTCCTCCAGCGTGGAGTTTTGTCATTTCTAATGATGACAATCTATCAGTCCACATGGTTCAAAATGAAGATAAATTGAATTAATATATGTGAGTTAAC
Y
GACTCATTGATATAATTATACTGTGAGGATTTCTTTAGTGTAACCTAACACATTTAGTAGTGTTAATTGTAATGGCTTTGCACGGGAGCACTTAATTTCC
Celera SNP ID:            hCV1349581
SNP Position Genomic:     170406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53243):
GTGTTTGTTCACCTACACATTTGCCTGGAGTATAGTGAGAACCCAGGAAAATGGATAGGCCCTACCAGGAGAGGCTGCAATCTGTTGGGGAAGTTTTTTT
G
TTTTTTTTGTTTTTTTTATTTTATTTTATTCCCAAGCCTTGGTTGCTATTTGATAGTAAGTGTGGTCCAGGCTGCATATTTTATAAACTTTCTATTAAAG
Celera SNP ID:            hCV27432572
SNP Position Genomic:     174426
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,1)   total(G,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53244):
TAGTTCCTTTTTAATCAGAAATGCTTATCAGTAGGTTGCATGGTTGGGGAAAATGGCATTTATTTTGTAGCATTTTCCCAAGGAATATTGGATGAATATT
Y
CTTTAGTACTAAATATATAATGGTCTTTGTCTTAAGAACTTATTAGCACTGAGATTTCTGTGTTGGAATTTTCTTTATTGATACCGGTTTGTAGGTTCTG
Celera SNP ID:            hCV1349582
SNP Position Genomic:     170052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53245):
GTACAGAAACAAAGGGTAAAAATGTGTTAATATACCTTGTTCCATGGTGTTGTTCTTTTGGGGGGAGGGGACGCTACTCAACACTTAATAGAATCACAAC
S
CTGTTGGGCCAGTAGTATTTATTGCTTTAGAGATTGCTTGTCGTACCTGTATGTCGTCCCTTTTTAAATATGTTTTCCTTTTTCTTGAAACTGTATAAAG
Celera SNP ID:            hCV27502130
SNP Position Genomic:     222371
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,46|G,1255)   total(G,1255|C,46) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:53246):
TGTGTTTGTTCACCTACACATTTGCCTGGAGTATAGTGAGAACCCAGGAAAATGGATAGGCCCTACCAGGAGAGGCTGCAATCTGTTGGGGAAGTTTTTT
T
GTTTTTTTTGTTTTTTTTATTTTATTTTATTCCCAAGCCTTGGTTGCTATTTGATAGTAAGTGTGGTCCAGGCTGCATATTTTATAAACTTTCTATTAAA
Celera SNP ID:            hCV27432573
SNP Position Genomic:     174425
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53247):
CTTTTAAGAATCAAATGCAAAGCCAGTCACTTAGCCTTGAATTTCCCACTGTGATTCCACTTTTCAAAACCCAGGATGACCATCATGATGGGTTTCGTTG
K
ACTATCAGTTGTTACAGGTCAAATCATAGTCTCATGATTGTTAAAATCTTAATAAGGCCCCCTCTAATCCTGTGAGTTTTCAGAAGGAAATCCCTGTGAA
Celera SNP ID:            hCV1349583
SNP Position Genomic:     169760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53248):
GAGCTGTGATCACGCCACTGCACTCCAGCCTGGGCAACTGAGTGACACCTTTTCTTTAAATAAAATAAAATAAATAAATAAATAAAATTATTAACCAGCT
R
ATCTCAAATCAATTCTTCTAAATCCTCTGAGCTTGTTTGTTTTTCTGTCTGTAAAATGGGGCTGTTTTCATGTGAGACTTAGATTATGAGAAATAGTCAC
Celera SNP ID:            hCV1349584
SNP Position Genomic:     167627
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53249):
AATGACAGACTTTGTTGCCTTTTCTTTTTCATTTTTTAAAGTTTTCAACCAACTGGTCATCTGGGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
TTGTTCACCTACACATTTGCCTGGAGTATAGTGAGAACCCAGGAAAATGGATAGGCCCTACCAGGAGAGGCTGCAATCTGTTGGGGAAGTTTTTTTGTTT
Celera SNP ID:            hCV27432574
SNP Position Genomic:     174329
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53250):
GACTGCTGTAAGATCAAGCAATCGTGTGTAGCCAGACAGTGGGAGAATCAAGACTAGAATCCAGATCTCTTGGTTTTCCTCTTTCCCCTCGGCCACCTCC
R
ATTCAAGGGAGAGTTTAATTTTGTGAACCATTCCTGTTAAGTGCCATTAATTTCAAGGTCTTTCTGGATTAGTGTGTGAAATTCAGTGTGTTCAGTATGA
Celera SNP ID:            hCV1349585
SNP Position Genomic:     162208
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53251):
GAATGACAGACTTTGTTGCCTTTTCTTTTTCATTTTTTAAAGTTTTCAACCAACTGGTCATCTGGGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
K
TTTGTTCACCTACACATTTGCCTGGAGTATAGTGAGAACCCAGGAAAATGGATAGGCCCTACCAGGAGAGGCTGCAATCTGTTGGGGAAGTTTTTTTGTT
Celera SNP ID:            hCV27432575
SNP Position Genomic:     174328
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2|G,2)   total(G,2|-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53252):
TCCCACCACACTTCCAATTCTTGCTCATTCAACATCAAGTCTTTGCTCTGCCTTTCTTCGAATCACGAAGATCCTGTCTGCCAGAAGCATCCTGTCCAGG
Y
TCCAGGCAGACGACAGTCTCTGAGCATTCCAGGGTCTTACAGTTTAGAAAGAGGAGAGAGCAAGAGAATCTTAAAAGCACCATAAGCTGGAGCTGTTTAG
Celera SNP ID:            hCV1349586
SNP Position Genomic:     161533
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53253):
TCACCTGAGTCCAGGAGGTGGAGGCTGTAATGAGCTGTGATCACGCCACTGCACTCCAGCCTGGGCAACTGAGTGACACCTTTTCTTTAAATAAAATAAA
A
TAAATAAATAAATAAAATTATTAACCAGCTAATCTCAAATCAATTCTTCTAAATCCTCTGAGCTTGTTTGTTTTTCTGTCTGTAAAATGGGGCTGTTTTC
Celera SNP ID:            hCV27432576
SNP Position Genomic:     167596
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53254):
TTGCTCTGAGGCCTGCTCCTCTCTGGGAAGAAATCACCTTGAGAGCTTCTGGGATTTGGAACTCCCTGCATGGTTGGATCCCTTCCATCTTCATGTGAAT
Y
GTCTTGGTAATGAGGCTGCCCAGGAAAGCCATAACACAGGGACATTTGGTGGGCAGGTCCACTTTCGAAGTTCTGGGAGTTACCGTGGCTATTGTTCTGA
Celera SNP ID:            hCV1349587
SNP Position Genomic:     161230
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53255):
GAGGATCACCTGAGTCCAGGAGGTGGAGGCTGTAATGAGCTGTGATCACGCCACTGCACTCCAGCCTGGGCAACTGAGTGACACCTTTTCTTTAAATAAA
A
TAAAATAAATAAATAAATAAAATTATTAACCAGCTAATCTCAAATCAATTCTTCTAAATCCTCTGAGCTTGTTTGTTTTTCTGTCTGTAAAATGGGGCTG
Celera SNP ID:            hCV27432577
SNP Position Genomic:     167591
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53256):
AGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCGTGACTCCATCAAAAAAAAAAAAAAAAAAAAAAAAAAA
A
GTGAGAAAGAATGTGGTTTTGGTACTCAGTGTCTAGGACGTCTGTTTAATGGGATGGTTAGGAGCGTGTGCTCTGTACTCTGAGCTCAAACCTTGGCTTT
Celera SNP ID:            hCV27432578
SNP Position Genomic:     157937
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53257):
ATAGTGTCATATACCATACTCTACAATTCTAGGACAAAGGACACAGTGTCCTAATGGTCTTGCAGATGGCCTAAAATACATATGGTAAGCCACTTATTTA
M
TTTGATCTCAAATATCTCAGCATTACTGAGCTCTACACCTGGATGTTTACAAAGCCTGAAGATCTGTACCCACTGCTGTAACATCAGGTGACACTCAAGG
Celera SNP ID:            hCV1349588
SNP Position Genomic:     160461
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53258):
CCACAGAAGAGAAAAACCAATATTATTTAAAGTTTATGTATAAATAAGCTAGTCGCTAACATGTACTCAGCACTTACTGTATACCAGGCTCTGCCTTAAG
Y
GGTTTTCATATATTAACTCATTTAATCTGCTCAATTTGTGGGAACCATTTTTTCTCATTTTATAGAGAGGAAACTGGTGCAGACTTTTTTTTTCTTTTTA
Celera SNP ID:            hCV1349589
SNP Position Genomic:     158793
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53259):
CCTTACATTCCCACAGCTCCCTGGCCGGGACCCAGCCCCAGCCGCTGTCGCTCGTCACCAAGTCTTTAGAATAGCTTTAGCGTCGTGAACCCCGCTGCTT
Y
GTTTATGGTTTTGTTTCACTTTTCTTAATTTGCCCCCCACCCCCACCTTGAAAGGTTTTGTTTTGTACTCTCTTAATTTTGTGCCATGTGGCTACATTAG
Celera SNP ID:            hCV8898682
SNP Position Genomic:     221755
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,9)   caucasian(T,2)   total(C,17|T,11)
SNP Type:                 UTR 3;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:53260):
TTAATTTATTCATAAGATTGTGACTATATGAATTTTTTTCAACAACATATCCTTAGTTATCAGGTGTCCACTCAATTTTAATTGACAATATAAGATTCCT
R
TGGTAACCCTGTGTACAGATTGCCTAGGGGCTCTGCAGGGATTGTGGGAAGAGAAGCTTGGACAAGTTTCCATTAAGATCTGAATCAGGCGATTGGAAAA
Celera SNP ID:            hCV27844986
SNP Position Genomic:     18015
SNP Source:               Applera
Population(Allele,Count): african american(A,8)   caucasian(A,26|G,2)   total(A,34|G,2)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53261):
GTAAGGCATCGGGTGGCCCCTGAATTCTGTCTGACACATTTGTTTTCCCAGAAATAGAATTGCATTGGAGAGTTGGGGCCCAGTTATTAGAAATATGGGG
R
TGGGGTGCTTGTACTTGTTGCAGTCTTGTGGCTTCTCATAATCTTTTCTCTCCTAATCCTTCCTCTTGCCTACATGTTGCAATTCTGATGACTTTTTGCA
Celera SNP ID:            hCV2011516
SNP Position Genomic:     19896
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,20)   caucasian(A,22|G,8)   total(A,28|G,28)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;JBIC-allele(A,363|G,1108)   total(G,1108|A,363)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53262):
AAGTTGCAGAGCGCTATGCTTAAGGGTTCTTGAAAGGTCAAAGGTCAGCCACAGGGGCGCCTCCCCCTCCCCATTCCCCCCCACTGTAGTCGATGAATAC
S
ATGAATACTTTGGGTGGAAGGGCTTTGTGTGCCTTGAGGGCTGTTAAAGGACCTTTTCTTTATGATTTAACTATTCAATGCTCAAAACCCATGGAGCCTA
Celera SNP ID:            hCV16253775
SNP Position Genomic:     191081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53263):
GGCTGAGGATAGACTTAGACCTTGGGGAGGGTCTGAGCCAATCAGTGACTTACATTCACTCAGTTGCCATCTAATAGGTGGTCCTCCCTTAGAAAATTGG
Y
GGCTTTCTGGCAGTGTTTGGCCCTCTCTTTGGGGAAGTGTGGATTACTAGAGTGCAGGCGACAGAGATGGCCTGGGATGGACAGCTTAGTCATCATGAAA
Celera SNP ID:            hCV2011517
SNP Position Genomic:     19689
SNP Source:               Applera
Population(Allele,Count): african american(C,14)   caucasian(C,27|T,3)   total(C,41|T,3)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;JBIC-allele(C,478|T,1005)   total(C,478|T,1005)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53264):
GAACTGTGGTAACATTTGTATATTAAAGATAAGAATACTGTAACCTATTAAAGTTGATTGGAAAAAGTAGTTTTACATTTCTTTTTCCCTCCTGGCAAAG
K
GGAAATAGGAATATGGTGGTTGAAATTCCAGTTAGGTTTGAAATTTCTTTTTAAGGACTTGATTATTCGAGCCCTTGCATCTTCTCTTATCCAAAGTTAT
Celera SNP ID:            hCV16107714
SNP Position Genomic:     10528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(G,2|T,7) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53265):
CTGGGAGGTGGAGGTTGCAGTGAGCCAAGATAATGCCACTACACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAA
A
GAAGAAGAAGAAGAAACACATGTCGTACCTGAAGGGAAGGTAGGTCCTTTCCCTGCCCTTCTTCCCCATTTCCTTGGTAGGGGCAGCAGTGTCTGGCACA
Celera SNP ID:            hCV27432580
SNP Position Genomic:     153880
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53266):
CAGATAAATAAGCTGCATCTTGAATTCATTTTTGAACTTGGAATCCAGCATTTAAAGGAAACCGAGAGGGGCCTATTCATTGGGATTTTATTTAGCCGGG
Y
AACTTCTCTTTCTGGCTTGTGAAAAATGGACGTTTTTTCCTCACTGAAACAACATAATCCTTTCTAATACAAAAGATTTAGACCTTGGAGTGTGAAGGGT
Celera SNP ID:            hCV16107715
SNP Position Genomic:     10765
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53267):
TAACCTGGAAAAAAAATATCTTTACCTACCGCGTGGAACTGATAACAAATGCCGACTACTTCATAGGCTCGTTGTGAGGATTTCCTAGAATAAAGCATGT
S
ATGCACTCAGCACAGAGGCACACAGACACAGAGCCCAAGGCACCATTAAACGGCGGCCACCCTGAGCTGTGCTGGTGTGGATGGTAGTGCTTCAGGGGTA
Celera SNP ID:            hCV16253779
SNP Position Genomic:     191956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53268):
CACGCCATTGAAAAAAATATTTGCTTTAGAAAACTAGCATTTTAATAGTTGCACCAGAGGCTGTGCTTTTAAAGATTACAGTAGAAGTCTTTCCAGGTTT
Y
GAATGCCTCCTTACATCCCACGAGGTGCCCCTGGCTGTGTGCAAAAAGTGCCTAGATTTCTCGGTGGAGAAATCCTGGTGCAACTTCTCTTACACACGTG
Celera SNP ID:            hCV16107716
SNP Position Genomic:     11729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53269):
GGGAATACCATATACTATGGTAACCATGTACACTGCTCTAAAGATGTGGCTGCTGTTGTATAACTTTTTCCTTTATTTTTGTCAATTTCCTATTTTCCAG
R
GTCTTGCATACCCACTATGTCTACTGTGATAGTGAACGTAAAAACATACAAGATGTTGGTGTTATCCTCAATCTCTTATTCTTAATCCTGAACAAATTAC
Celera SNP ID:            hCV27432582
SNP Position Genomic:     143771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53270):
AAATGCAGAGTGGGAGGCTCTGCTTGCCAGACGGAGACCTTAGACCTCCAGGGGTGGAGAACGGAGTACTTCCTCTGGTGCTCGGCTTCCCTTCCTGGGG
G
CAGATCTCTCAGCTTCTGGTTGGTGGCTCTCAAAATCCAGACACAAGGTCAGCTGCAGCCAGCGTGGGCCCTGGAGTAGCTCCAGTTATGGGGCAGCAAT
Celera SNP ID:            hCV27432583
SNP Position Genomic:     143497
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,6)   total(G,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53271):
GCAGAAAACTCAGCAGATGTTTATTTCCTGGTCTTTAGGATTTGTTGAAGAGTTTTTTATTTGTTTGTTTTTTAAGAAAGACTCAAAAGGAAAAAAAAAA
A
GAAACTATAGTTATTTTCTCATGATATAAAAAGATTCTGTAGTTGTATATACATTTGAACTTTTTGTAAGACATCTCCTACCCCCCTAAAATTGGAAGTC
Celera SNP ID:            hCV27432584
SNP Position Genomic:     142579
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53272):
CTGCAGCCTTGATCTTCCAGGCTTAACCAAACCTTTCACCTTGGCCTTCTGAGTAGCTACAGGCCTGCACCACCACATCTGGCTATTTTTTTTTTTTTTT
T
AATTTTTAGTAGAGACGAGGTCTTGCTATGTTGCCCAGTCTAGTCTTGAACTCTTGAGCTCAAGCAGTCCTCCAGCCTTGGCCTCTGACAGTGCTGGGAT
Celera SNP ID:            hCV27432585
SNP Position Genomic:     141049
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53273):
CTGCTGGAACCGGCTTGACGGTGTCTTTCTCTGTTCTCCTCCCCACAGTCTAACAAAGTGCCAGTGGTGCAGCACCCTCACCATGTCCACCCCCTCACGC
M
TCTTATCACGTACAGCAATGAACACTTCACGCCGGGAAACCCACCTCCACACTTACCAGCCGACGTAGACCCCAAAACAGGTAGGCTGTGGGCTACGGAG
Celera SNP ID:            hCV27467752
SNP Position Genomic:     196992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53274):
GTTTGCACACTTATTCAGTTATTGCATCATGAAGACCCTCTGGAGTTTGATGTTGTCAGGAAACATATTAGCAGAAAATAGTGTGTTATTATCTAATGCT
R
ATAATTGGTTAGTGGAAATGAGAAAAGAGGATATGTAATTGGGGTTCCTGTGGCTAACAAGATGTGAATTATGAAAGCATTTCCAGGAGAAATTCCAGGG
Celera SNP ID:            hCV27432586
SNP Position Genomic:     136680
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53275):
GATTCACCTGCCTCGGCCTCCTGTGTAGCAGGCCCATGCCACCACGCCTGGCTTGCTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTAT
W
GTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCTAGGCTGGTGTAGAACTCCTGACCTCAAGTGATCTGCCCTCCTTGGCCTCCCAAAGTGCTGGGA
Celera SNP ID:            hCV27432587
SNP Position Genomic:     133706
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,5)   total(A,3|-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53276):
AGGACAAATTTCTTTCCTCTTGCCAGTTGTAGAAGAACCCATGAGGAGGCCGGGCACGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAAGCCAAGGC
R
GGTGAATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTAAAACCCCATCTCTACTGAAAATACAAAAATTAGCCAGACATGGTGGCAGG
Celera SNP ID:            hCV1349597
SNP Position Genomic:     153231
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53277):
ATCTCAAAAAAAAAAAAAAAAAAAAAAGACAGGATCTTGCTCTGTCACCCAGGCTGGGATATACTGGCTTGATCATAGCTCACTGCAACCTTTAGCTCCT
R
GACTCAAGCAATCCTCCAGCATCAGCCTCCTGAGCAGCTGGGACTATAGGTGTGAATTACCATGCCTGGCTAACTTTTTTATTTTTTGTAGAGACAGGGT
Celera SNP ID:            hCV27432588
SNP Position Genomic:     132033
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53278):
AGGAAGTGAGCTTGGAAATCTCTCCAGCGCAATGGTTGCTGGCTGGGAAGAAAGATCTGACTTAGACACAGAATAAGCTGCTTGTGCTGGGTGTGTTTGT
R
AGCTGGGTGAGGTTTTCTGTGTCGCTGGGCACGTGAGGGAAGTTACGTGGCTGGGGGGTGGGGTGGGGGGCATTAGAAGGGAGTATGGGTGTCTGTGGGC
Celera SNP ID:            hCV11692080
SNP Position Genomic:     17574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53279):
ACCCAGGAGGCGAAGGTTGTAGTGAGCCGAAATCACGCCACTGCACTCCAGCGTAGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAA
A
GACAGGATCTTGCTCTGTCACCCAGGCTGGGATATACTGGCTTGATCATAGCTCACTGCAACCTTTAGCTCCTGGACTCAAGCAATCCTCCAGCATCAGC
Celera SNP ID:            hCV27432589
SNP Position Genomic:     131959
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53280):
CATTTTCATTTATCTCCTACCCCTGATTATATAAAGAAGCAGATGAGACAACCAAAGAAATACCCCTCCAAGACAAAGTGAATATTTTGAAATACTTCCT
Y
TCAGTCTTTTAAAAAATGTGATTTAAAAATCGTAGGTGGGATCATACTATACATGCACTTGTTTTCTGTTTATTTTACATCTCTCTATACTAGAAACACT
Celera SNP ID:            hCV1349599
SNP Position Genomic:     150431
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53281):
GGAACTTTATCTCTTGTAAGAGGTACTTAGATTCCTATTACAATGGCTCATTACACATGGGTGTGAACACACACACTCACACTCACGCCTTCCTTTTATG
Y
GCTAGGGAACACTGGGACTAAGAACCGCAGCACTGAAGCTTTTATGCATTTGAATGTGGTAGCAACTTAACTAGTATTTTTTTTTTTTTTTTTAACTAAC
Celera SNP ID:            hCV8898693
SNP Position Genomic:     210657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53282):
TCAGCAGTGATCAGTGGTGTGGCCTTCTAGGGAAGACCAGTGGGTAGGTGTGGAGGAACAGAATTTAATTCCTCCCAGGCCTTTCAGCAGGCCCTTTACC
R
TTAAGAAGGAAAAACAAAACTATTCCTTTGTGCCATGGTGCAGTAGAAGTTAGAAGCCTATTTCATCCTGAGAGGAGCATGATGGGAATATCCCTGAAAG
Celera SNP ID:            hCV8898694
SNP Position Genomic:     208648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53283):
TCCCAGTGTTCCAGCTCAGGACCAATGAGGTTGATTTGGTGCTTGTCTCCTTTCTAGAGGAGGCAAGGCTCTTAGGATACACCCAAAGGACCTTATGTTC
Y
GGATTAGGTTCCGCAGGCTCCTCAGCAGTGATCAGTGGTGTGGCCTTCTAGGGAAGACCAGTGGGTAGGTGTGGAGGAACAGAATTTAATTCCTCCCAGG
Celera SNP ID:            hCV8898695
SNP Position Genomic:     208526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53284):
ATGGATAGTTGCTGCTAATTTAGTTGCCATGAATACATTTCTGGAAGGTTGTCTATGTTGCAACCAAGTTACTTTTCATATCTAAATTTTCTTAGGGTGG
W
GCAGTTTTGAACACAATTCTTAAAGACCTCGTTAGAGAAGTGGGAGGTGTTCAAAGAGAAGGAGAACCATCCAAGGGGCATCTTTCTGTTTGGATTCTTT
Celera SNP ID:            hCV11692089
SNP Position Genomic:     192600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53285):
TCATATGCAACTGTACCCCGGCTGGTCCGCGCGGGATAACTATGTAGGTGGATCATTTTCGTTAGGATTGGAGTCTGTAGAGCTGTGTTGTGCGTCTATA
Y
GGACAAAGAGAACAGGACCTGCCACTTGACTAGGGTGGGCCTCAGGACCATCCAATCTGCCCGCTTTGGGGACTGGTAGCATCTTCCTGGATCGCTAAAC
Celera SNP ID:            hCV25993475
SNP Position Genomic:     208249
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,2)   total(C,29|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:53286):
AGGGAAGTTACGTGGCTGGGGGGTGGGGTGGGGGGCATTAGAAGGGAGTATGGGTGTCTGTGGGCGCTCGCGTGTGCGTGTATGTGTGTGTGTGTGTGTG
W
GAGAGAGAGAGAGAAGGTAAAATTAACTTTGTCCTATATGTTGGTTTCTCTGCTAGAGTCTTAAGGAACTTGCAGCTGCATTTTTATTGTTTCAATTACA
Celera SNP ID:            hCV2011521
SNP Position Genomic:     17710
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,1)   caucasian(A,10|T,12)   total(A,11|T,13)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,11)      total(A,11|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53287):
GGTTGCTGGCTGGGAAGAAAGATCTGACTTAGACACAGAATAAGCTGCTTGTGCTGGGTGTGTTTGTGAGCTGGGTGAGGTTTTCTGTGTCGCTGGGCAC
S
TGAGGGAAGTTACGTGGCTGGGGGGTGGGGTGGGGGGCATTAGAAGGGAGTATGGGTGTCTGTGGGCGCTCGCGTGTGCGTGTATGTGTGTGTGTGTGTG
Celera SNP ID:            hCV2011522
SNP Position Genomic:     17607
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   Caucasian(C,23|G,61)   Asians(C,39|G,43)   total(G,104|C,62) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53288):
TACCGCGTGGAACTGATAACAAATGCCGACTACTTCATAGGCTCGTTGTGAGGATTTCCTAGAATAAAGCATGTGATGCACTCAGCACAGAGGCACACAG
M
CACAGAGCCCAAGGCACCATTAAACGGCGGCCACCCTGAGCTGTGCTGGTGTGGATGGTAGTGCTTCAGGGGTAGCAGCTGGTCAGTCCCCATCCTACCT
Celera SNP ID:            hCV16253780
SNP Position Genomic:     191982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53289):
TTTCATGTCAGCGGGTATGTATCTTTCCAACCAAAGAGAAAACTTCTGGAAGGCAGCAACAGTCATTTGCCCTGCCTCCTAACAGTCTCCACTTTGTCCG
K
GTCTGTCTCTTTCCCTCCCTTCCTCTCCTTTTCCCTTTTCCTTCTCCACCTCAGCACACAGTGGGAGCTTCCTTGTTCCTTATTTCTCAAGTTGTCCTGA
Celera SNP ID:            hCV16253781
SNP Position Genomic:     195007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53290):
TTTATGTTTTACAGGGAAGGAAAAAGCAGTGAAAGTATGCATTTTCGAAAGAAAAGTGTGTTGGGAAAAGAGAGAGAGGGTGGAAACCCAAAGGAGAAAT
R
AAAATTTTAAGTCCTTGTTGCAGTAGCTGGAGGAAGTGAGCTTGGAAATCTCTCCAGCGCAATGGTTGCTGGCTGGGAAGAAAGATCTGACTTAGACACA
Celera SNP ID:            hCV2011523
SNP Position Genomic:     17443
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53291):
TCTCACCTCATATTCCAAAGCACACAAATGGCCTACCATCTTTTATTCTTCCTTCTAGCTTCTGGAGAGAGAAATGATTGTTCCAGTTTAGAATGCCAGG
R
GTTTACTGGGTGTTTGTATTTTTTATCTGTGCCTTAAAAAAATTAGATTATAATGAACAAGACATCTTTATGTTTTACAGGGAAGGAAAAAGCAGTGAAA
Celera SNP ID:            hCV2011524
SNP Position Genomic:     17276
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53292):
CTATATGCTAGAAATATGTTTTGTACAAGAGCAGGAAACTTGATTCACTTTATTTTTTCCCCCAGACAGTTTAAGAGCTTTAATTATGTTTTGACGTTGA
R
AGAAAATCATCTAGTTTTTCTCAAAAATCAACCCAGAAATGCCCATCACCATAAAGAAGTTCAAGCTCAACTTTTTTTTTTTGCGAGACTTTGCAGCACA
Celera SNP ID:            hCV2011527
SNP Position Genomic:     14897
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53293):
TTGTCAGATGTTTCACAACAGGCCCCCCTGAATCACATTAAAAATGCACTGTAGAGAAAGGACAGCTGCAAATTTTTGTGTGGACGCGTGTTTCTGGACC
R
TGACTAAAACTCCGAGGACCTTTCCCCCAGCTGTCTGGAAGTTATGTGGAAGTTGGTTTATTGGCAGTTAAGTATGAGACAACCTGGATTTAGCAAATGC
Celera SNP ID:            hCV2011529
SNP Position Genomic:     11970
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53294):
TTTGTTTGTTTCATTTTGTTTTTAAAGACAGGATCTTACAGCCGGGGCCTGTAATCCTAGCACTCTGGGAGGCTGAGGCGAGTTGATCACCTGAGGTCAG
R
AGTTCGAGACACACCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACGTGCCTGTAATCCCAGCTACTG
Celera SNP ID:            hCV27432590
SNP Position Genomic:     131730
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53295):
ATGATTGTTTTAATAAATTACTGTTTTAATAAGGGAGGTGGAAGAGCTTTTTAATCACTTGCTTTTTAAAAATTTTTAATTTTATTTTAATTAATTAATT
A
GTTTATTTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCTCTGCCTCCTGGATTCACACC
Celera SNP ID:            hCV27432591
SNP Position Genomic:     127861
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:53296):
AATGATTGTTTTAATAAATTACTGTTTTAATAAGGGAGGTGGAAGAGCTTTTTAATCACTTGCTTTTTAAAAATTTTTAATTTTATTTTAATTAATTAAT
T
AGTTTATTTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCTCTGCCTCCTGGATTCACAC
Celera SNP ID:            hCV27432592
SNP Position Genomic:     127860
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:53297):
GAATGATTGTTTTAATAAATTACTGTTTTAATAAGGGAGGTGGAAGAGCTTTTTAATCACTTGCTTTTTAAAAATTTTTAATTTTATTTTAATTAATTAA
T
TAGTTTATTTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCTCTGCCTCCTGGATTCACA
Celera SNP ID:            hCV27432593
SNP Position Genomic:     127859
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:53298):
AGAATGATTGTTTTAATAAATTACTGTTTTAATAAGGGAGGTGGAAGAGCTTTTTAATCACTTGCTTTTTAAAAATTTTTAATTTTATTTTAATTAATTA
A
TTAGTTTATTTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCTCTGCCTCCTGGATTCAC
Celera SNP ID:            hCV27432594
SNP Position Genomic:     127858
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:53299):
AGGTTGCAGTGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGCGACAGAGTGAGACTCCGTCTTAAAAAAAAAAAAATTTATATATATATATATATATA
W
GAATTAATTAATTTAATGTTGCATTAACGAGTGGTATAAGGTTCTTAGCCCTTTGTCTGGTATCTGCTGGGTGTTCAGTATTCATTTCCTCGCTTTCCCT
Celera SNP ID:            hCV27432595
SNP Position Genomic:     126092
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,3)   total(A,1|-,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53300):
AGTCGGAGGTTGCAGTGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGCGACAGAGTGAGACTCCGTCTTAAAAAAAAAAAAATTTATATATATATATA
K
ATATATGAATTAATTAATTTAATGTTGCATTAACGAGTGGTATAAGGTTCTTAGCCCTTTGTCTGGTATCTGCTGGGTGTTCAGTATTCATTTCCTCGCT
Celera SNP ID:            hCV27432596
SNP Position Genomic:     126086
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,2|T,2)   total(G,2|T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53301):
AATCCCTTGAACCAGCGAGTCGGAGGTTGCAGTGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGCGACAGAGTGAGACTCCGTCTTAAAAAAAAAAAA
A
TTTATATATATATATATATATATGAATTAATTAATTTAATGTTGCATTAACGAGTGGTATAAGGTTCTTAGCCCTTTGTCTGGTATCTGCTGGGTGTTCA
Celera SNP ID:            hCV27432597
SNP Position Genomic:     126069
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53302):
TTAGCCCTGTGCTTTGTATCCTATGCAATCCTGTCTGATTAAATGTACACATTTGTTTTACTTCTTTTCAGGCTCCTTCTCACTCTACTTCTGATATTCT
G
ATTAATATCAAAGTTGGGAGTTACAGTGATTCTCCTCTGCCTCCCCCCCAACCCATTTTTATTTTGCCTGCATCTTATTCTTTAGTGTGCAAATGTGGTT
Celera SNP ID:            hCV11860707
SNP Position Genomic:     4256
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,7)   total(G,1|-,7) 
SNP Type:                 hmCS


Context             (SEQ ID NO:53303):
GGTCAGGAGATCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTATTAAAAATACAAAAATCAGCTGAGTGTGGTGGCAAGTGCCTGTAATCCCA
K
CTACTCGGGAGGCTGAGGCAGGAGAATCCCTTGAACCAGCGAGTCGGAGGTTGCAGTGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGCGACAGAGTG
Celera SNP ID:            hCV27432598
SNP Position Genomic:     125944
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53304):
ACTCTGAACTTTGGCCATTCGCATGCTGCCAGACCCCTTCCAACTCTTGGACTCCTCCTTACATCCCTTTACCGTTGGCTCCCAATTCTTTTTTTTTTTT
T
AATTTCCCAATTAAAACAACAACCACCACCAAGAACAAGAGTTAGGCCCTGCCTACCCTTCTTTGGATGGGGTGTTTGTGCCAAGTAGCATCACCAACTG
Celera SNP ID:            hCV27432599
SNP Position Genomic:     124714
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53305):
AGGCAGGGCAGCCCTTGAAGCTGGTGCGGCCATGACCACCTTCATGTGCTCCTCAAAGATGGGCTCTCAGACTGCTTGCAACGCCATCATCCCACTCCTC
Y
CTGAATCTTCCTCGTGCCGTCCCCCATTCCCTTTTATGGATCAAATGCTGTGGGTCAGGTTTGACAATGGACATAGGTACATGAGAAATGAGAGCTTCCC
Celera SNP ID:            hCV11692091
SNP Position Genomic:     213432
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,94|T,1219)   total(C,94|T,1219)   no_pop(C,-|T,-)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53306):
TCTCTGGTTTATTAAAATGCTAACTATAACATTTTTTGTGAATACTTTGAATGTTTCCTAACAGTTGTGATGTTACTGTTCCGTTTTATGCTCTTATTCC
R
AGTTCATTTTTAATGGTTTGGAAGCCATTTTTGTAATGAATAAATGTTCATGCTGTACAGTATCTGTAGCATGCCGTTCTGGATTAATAAAAGCAACTTA
Celera SNP ID:            hCV11692092
SNP Position Genomic:     223320
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:53307):
CTCAGGTTTGAGTCTTAGGGAAGATGGCCTTTCAAAGCCTTAAGGAAGATAAAATTTTGGAGTGGCTTACCCCACAATTCTACCCGTATTTCTCTAGTTA
R
ATAGATTCTATGCTGTTTTTTTTTTTTTAATAAAAAACAGATTGCATTATGTAGTAGCTGTACCAAATACCAACCCTGGGTATAGTTTCTGTTTCTCTGT
Celera SNP ID:            hCV16288387
SNP Position Genomic:     200851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53308):
TGCAAGTCAACAAGAAAGCATCCGCCTCCTCCCCTCGAAGGTAGCACTGTCCAATAGAAATATAGTGTGAGCCACAGAGGGAATTTTAAATTTCGTAGTA
R
CCGTGTTTTTAAAAAAGTTTTTGTTTTTTTTTTTTTAAAAAAAAGATAAAGTTATTTTTAATGACATGTTTTTATTCAATGCAATATAGCCAAAATATTA
Celera SNP ID:            hCV16288388
SNP Position Genomic:     202349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53309):
CCTCCTCCCCTCGAAGGTAGCACTGTCCAATAGAAATATAGTGTGAGCCACAGAGGGAATTTTAAATTTCGTAGTAGCCGTGTTTTTAAAAAAGTTTTTG
K
TTTTTTTTTTTTAAAAAAAAGATAAAGTTATTTTTAATGACATGTTTTTATTCAATGCAATATAGCCAAAATATTATCATTTTAACATGCTATTCCTGGA
Celera SNP ID:            hCV16288389
SNP Position Genomic:     202373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53310):
CGTTGGCCTTGTCAATCTCGGTATCATTATTTTTAGTAGTCTTTCTGAGACTTTAGCCTATAAAACAGTTTTGCTGAAACCCCAAACTCTCTAAATATTA
Y
ATGGCAAATTTGCTTTCTTTTGGAAACCTCGGTGCTGATGGGCCAGCTGAAGTGCAGGTGAGCTTTTTCAGGGAAGGGTGGGACAACAGTACATCCTGGA
Celera SNP ID:            hCV2011531
SNP Position Genomic:     4484
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:53311):
AATCCCAAACAGATCCTAGCTGCTTGCTATGGCCCATCTGCGGGACCCGCGTCAAGGCTTTCCCATAAAGGAGAGCCCTGCGGGAATCATCATGTGCCAG
R
CACTGTGCTAGGCTCTTTAGGTGCATCTTGAAACTTAATCCTCGTGACATTTTGGAGTAGATACTATCATCCCCACAGAAGGTACTGAAGTCTCAAGCAC
Celera SNP ID:            hCV28037462
SNP Position Genomic:     126349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53312):
AAATAAAAGGAAAGAGGCAAACACCGTCATTCTACATCTGTTTATTTTGTTATTAACAAAAGGCAAGGCGATTTTCATTAAAGTTTTGCTGGGGTTGGGG
K
TGAGGGTGTAGAGAGCAAAAGTGTGAGTTGTACACCATGACTGGAATCGCTTGGACATACTCTTCAGCAGACATCGTGTGACTGTGGAAGAAATGAGTTT
Celera SNP ID:            hCV28037463
SNP Position Genomic:     117834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53313):
GTGCAAGGGGGAAAATGAGAGAATAATGACAAACCTAATGCAACTCAAAGCAGGATTGTTGCACAGGAAAATGCATCCTACTGCTTGTGCATAAAATCAA
K
GCCGGCAGATGACATCCGGTTAACAGAAACGTGTCAACAGTGAAGTAAAGTGAGAGTGAGTAAGAGAGAAGCCCCTGAGACAGCCAGAAACAAAAATTAG
Celera SNP ID:            hCV16288390
SNP Position Genomic:     204261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53314):
AAGAGAGAAGCCCCTGAGACAGCCAGAAACAAAAATTAGTTGTTCTTAACAAGTTAAGGTTCATCATTATATTCTGGCTTGGAGCCATGAAAGCAGACGG
K
GGTATATAATGAGCTGCTTAGAATTTTTAGGGTGTTTATTGCATTTCATGAAATAGTAGTCTGCAGAAAGGAATTTCTTAAGCGAAGGTATGTGTATACA
Celera SNP ID:            hCV16288391
SNP Position Genomic:     204423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53315):
GCCAGAAACAAAAATTAGTTGTTCTTAACAAGTTAAGGTTCATCATTATATTCTGGCTTGGAGCCATGAAAGCAGACGGGGGTATATAATGAGCTGCTTA
S
AATTTTTAGGGTGTTTATTGCATTTCATGAAATAGTAGTCTGCAGAAAGGAATTTCTTAAGCGAAGGTATGTGTATACAGCCCACATCCATGTTCACACA
Celera SNP ID:            hCV16288392
SNP Position Genomic:     204444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53316):
GGAACACTGAGCTCCACCTAATTTGGGGTTTAGGGGCAATATTTGCTGAAAATGGTCTAGGATGCAGTGATTGGTAGGTGGGAGTTTGAGGACAGATCCC
M
CCGAGAGTCCTGAAGCAGCTGTATCCAATAGGAAGGTTGGCCCAGGCTGATCTCATTGGGTGCATCTCCCTAGATGAACACAGCAATTAACCCCATCCCA
Celera SNP ID:            hCV16288393
SNP Position Genomic:     191655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53317):
TTCCTTTTTGTTTCTTACATGGGCATGTTTATTATTTATTCTGTGTGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTGTTA
R
AAGCCAGGGTTGGGGAGGGGGCTGCGGGAGGGCACAGAAAAGGTGTTGCTGAGGTGTCCTGTGGGAATACAGGCAAATCCACAGCCATTCAGGTGGCTTA
Celera SNP ID:            hCV16288394
SNP Position Genomic:     199904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53318):
TGCCATGGAGGAAGTTGGACCACGACCTTGTTTATTGGGTTGCGTCTGTTTTGTCTATCTCCAGAAAGCATCAGGACTCCAAAAAGGAAGAAGAAAAGAA
K
AAGCCCCACATAAAGAAACCTCTTAATGCATTCATGTTGTATATGAAGGAAATGAGAGCAAAGGTCGTAGCTGAGTGCACGTTGAAAGAAAGCGCGGCCA
Celera SNP ID:            hCV16288395
SNP Position Genomic:     207512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53319):
CAGCAGCTGTAGGGAATGTTATCAGTGTTGGGACTGGGCACGGGACCAAGCCTTCCTGGTGCCTGGACTGCAACCAAGCTGAGAGCTGACATGGCAGGGC
R
AGTTGTGTGTGAGTTGGCTGCCCCTAGGCTCATAGGCCTAGCACAATAGAGACCCTGTCAATGGAGGGACACTATCAGGCAGGTCACTATCAATGTGACA
Celera SNP ID:            hCV25984675
SNP Position Genomic:     127502
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:53320):
GAAAGCAGAAAGCAGCCAGAGGAGTCCATGATTCAAGGAGCATGAGAATTACTGTTTGCAACACCATGTTTTCTGAATTCCAGTATACCATCAGTTGTAA
K
ATATGCTTAAGGTTGGACGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGGCGGATCACTTGAGATCAGGAGTACGAGACCAGCC
Celera SNP ID:            hCV430509
SNP Position Genomic:     121858
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53321):
TATTTATTTTTGAGATGGAGTCTCACTCTGTTACCCAGGCTGGAGTACAGTGGTGCCATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCTGTT
Y
GCCTGCCTCAGCCTCCCAAGTATCTGAGATTACAGGTTCTTGCCACCACGCCCTGGCTAATTTTTGTATTTTTGGTAGATACGGCGTTTCACCATGTTGG
Celera SNP ID:            hCV8160800
SNP Position Genomic:     29495
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53322):
CTGGCTAATTTTTGCATTTTTAGTGGAGATGGGGCTTCGCCATGTTGCCCAGGCTGGTCTCTAACTCCTGAGCTCAAGCTCTCCGCCTGCCTTAGCCTCC
Y
AAAGTGCTGGGATTACAGGCGTGATCCACCGCGCCCAGCATATGTGAATTCTTTATTGATTCTTCATAACAACACAGAGGGAAATTTGAAAGGTGTAGTT
Celera SNP ID:            hCV8160801
SNP Position Genomic:     28528
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53323):
CTGCACACATTTGAGGATTTTTGAAAAAATTCAACTTTGCCTGGGTCACTCCCTCGTTACCTTAAACTTGCAACACATCAGCTGGAGATCAGAGGGAGCA
R
CAATTGTGTTTGCCCTCCTTGTCCCATGGTGACTCTGTGTCATTTTCACGCGTGTTATTTATTCTGGCTGTAGATGCCCATTAAAGGATGCCCATGTTTG
Celera SNP ID:            hCV16279650
SNP Position Genomic:     187708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53324):
GAGGATTTTGGTTCCTTTTAAATAGATATTGTTTACTTCATTTAATGGTTCGGCTTTTTAGTAGACTTTTTCTTTAGTTTCTTGTCAGCCCAGAACTGAC
K
ACATAAAGTGTTTTTATCATCTGAATCCTGCTGGGCCGAGATACTGCATGTTTGTATTTGAGAAGCAGAAACATCCTATTAAATGTCTTTACCCCTTCCA
Celera SNP ID:            hCV16279651
SNP Position Genomic:     191370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53325):
CCAAGCTGGAGTGCAGTTGCACAATCTTGGCTCACTATAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCTTTAGCCTCCCGAGTAGCTGGCATAAC
R
GGCGCCTGCCACCACACCCAGCTAATTTTTATATTTTTTGGAGAGATGGGGTCTCACCATGTTGGCCAGGCTGGTCTCGAACTACTGACCTCAAAGTGAT
Celera SNP ID:            hCV489068
SNP Position Genomic:     87419
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53326):
GCGCCTGCCACCACACCCAGCTAATTTTTATATTTTTTGGAGAGATGGGGTCTCACCATGTTGGCCAGGCTGGTCTCGAACTACTGACCTCAAAGTGATC
Y
GCCCACCTCTGCCTCTTAAAGTGCTGGGATTACAGGCATGAGCCACTGTGTCTGGCCCTACTTACCTTCTTTGTGTTAATTCCTGCACCATTGATTAGCT
Celera SNP ID:            hCV489069
SNP Position Genomic:     87521
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53327):
ACCTGGCATGCACTGTAGCTGGTCTTGGAAAATGCGATAATGATGCCATAAGTACCCTTGTGCAAAAGTTGTTTTTTGTTCCAAAACATTGCCAGTTCAC
R
GCATATAAAACTACCACGGATGCTTCAGCCGGGTTTCTTTTTCTCCAAATAAGGCAAGCATTAATGAAGCAGCTGAGGGCTTGGGAAAATATTTTGTCAT
Celera SNP ID:            hCV151617
SNP Position Genomic:     120502
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,4)   caucasian(A,11|G,15)   total(A,15|G,19)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53328):
GCATGATGGTTTTGTCCTAAACATTAACAGCCACAAAAGGTAGAGAGTGTGTCTGTTTATAGATACACATGTATCATGAATAATTAGTTGGGGACTGTGC
R
TCAGGTCTCTCATTTTACATTCGAGGAAGCAATGCACGGAATGAATTCTGGACCTGCGAACTCTGAATTTCAATTCTCTGTCTCCTACTTTTACTGGAGT
Celera SNP ID:            hCV151618
SNP Position Genomic:     118766
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53329):
GATTGGTAGGTGGGAGTTTGAGGACAGATCCCACCGAGAGTCCTGAAGCAGCTGTATCCAATAGGAAGGTTGGCCCAGGCTGATCTCATTGGGTGCATCT
Y
CCTAGATGAACACAGCAATTAACCCCATCCCAGTAATGCCAGTTTCTGCAGACTGGGAGAGTGTAGAAGTGGGGTGGTGGAGGCAGGCAGGTGAGGCTGC
Celera SNP ID:            hCV16279658
SNP Position Genomic:     191723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53330):
TTGGGCATGATGGTTTTGTCCTAAACATTAACAGCCACAAAAGGTAGAGAGTGTGTCTGTTTATAGATACACATGTATCATGAATAATTAGTTGGGGACT
S
TGCGTCAGGTCTCTCATTTTACATTCGAGGAAGCAATGCACGGAATGAATTCTGGACCTGCGAACTCTGAATTTCAATTCTCTGTCTCCTACTTTTACTG
Celera SNP ID:            hCV151619
SNP Position Genomic:     118762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53331):
ATCTCCCTAGATGAACACAGCAATTAACCCCATCCCAGTAATGCCAGTTTCTGCAGACTGGGAGAGTGTAGAAGTGGGGTGGTGGAGGCAGGCAGGTGAG
K
CTGCAAAGCTTAGAAACACCACTCTCTCAAGGCATGTAACCTGGAAAAAAAATATCTTTACCTACCGCGTGGAACTGATAACAAATGCCGACTACTTCAT
Celera SNP ID:            hCV16279659
SNP Position Genomic:     191819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53332):
TCTGTCTCTGAGATCCCAGAACAGACATGAAGATATGGTACCGATTCCCTTGGTGCTAAAAGGAACTCCAGGGGAATTTCAGGAAACCCCTCCTTTTCTC
R
TCTTTATTCTCACCCCGTCCCCCCGCCACCTCTCTCCCCAAGTTCACACTCAGGAGGGAGGAATCTTTTACCTTTTCCGTTCTGGGCAGCAGCTGTAGGG
Celera SNP ID:            hCV25651168
SNP Position Genomic:     127315
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)   
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)   
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:53333):
GTTAACACAGGAGGACAGGGGTAGACGCACCAAGGGCATGTGCCTCGAGTGCGTGGTCCTTATTAAGAAGGGTGGTTAGACAGGGAATGGGTTAGTTCCC
R
GGTCGGCATTCAGCTGAAACAGTGATGGTTAAAATTCTGAAAAATGTCCACGCTCTGCATTCTCTTCCTAACACCCAGGACCCAGTAACTATAAAGCCCC
Celera SNP ID:            hCV51778
SNP Position Genomic:     69966
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53334):
AGTTAACACAGGAGGACAGGGGTAGACGCACCAAGGGCATGTGCCTCGAGTGCGTGGTCCTTATTAAGAAGGGTGGTTAGACAGGGAATGGGTTAGTTCC
Y
AGGTCGGCATTCAGCTGAAACAGTGATGGTTAAAATTCTGAAAAATGTCCACGCTCTGCATTCTCTTCCTAACACCCAGGACCCAGTAACTATAAAGCCC
Celera SNP ID:            hCV51779
SNP Position Genomic:     69965
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53335):
CAGGGAGACTTAATTTACAGATTAAAAGCTTCCTGAATGAATTTTTTAAAAAATGAAGTCGTTTTCGTCCACGAACATGCAGCCCGTTCCCTCCATTACT
S
TGTTTTAATTCTGTGGTATTGTGCCTTTTGCCTCCCACTTCAATGGCATACATCAATTCCTCTCTGTCAGAGTGGACTACAGGATGTGCTCCTGTGGAAC
Celera SNP ID:            hCV27950583
SNP Position Genomic:     198808
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53336):
GCTGGGATGTCAGGCACCCGCCACCATGCCCGGCTAATTTTCGTGTGTTTTAGTAGAGATGGGGTTCCACCGTGTTGGCCAGGCTGGTCACAAACTCCCG
M
CCTCAGGCAATCCGCCCGCCTCGGCCTCCCAAAGGCTGTGATTACAGGTGTGAGCCACTGTGCCCAGCCTAGGGTTCCATTTCTTAACCCCTCCTTCTGA
Celera SNP ID:            hCV27950585
SNP Position Genomic:     60701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53337):
TTTTTTTTTTTTTTTTTTTTGAGATTACATTGCCTATATTGTGCATTTTCCCCAGGAATACTTAAAGAAACCTGGTATGGGAGACGGCTCTTTAATTTAT
W
TGATGTTCCCCTGAGTGGAAGGGAAAATGTACACATTACATAGTACACTAGTTAAACTAGTTAACGTGAGAGTTTTTAAAAAAGTGAGATGAGGTGAAGA
Celera SNP ID:            hCV16091617
SNP Position Genomic:     13095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53338):
CCAAAACAGGTAGGCTGTGGGCTACGGAGCCAAGGTAGAGTGCTGGTCCTGGGGTTCTGGGGGAACCTTTGAGGCCTCCACAGGAACCCCAGGGGTGGAG
Y
AGTAGGGGACTTTGGGGGAACGGTGGTGGGGGGGCCCCTGTTGCTTTTCTGGGTGTTGAAAAGGAAGCTCTTTGGGGTGGTTGAGGCCTGGTGTGGCAGT
Celera SNP ID:            hCV25996056
SNP Position Genomic:     197164
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,2)   total(C,31|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:53339):
AATCTTTTACCTTTTCCGTTCTGGGCAGCAGCTGTAGGGAATGTTATCAGTGTTGGGACTGGGCACGGGACCAAGCCTTCCTGGTGCCTGGACTGCAACC
W
AGCTGAGAGCTGACATGGCAGGGCGAGTTGTGTGTGAGTTGGCTGCCCCTAGGCTCATAGGCCTAGCACAATAGAGACCCTGTCAATGGAGGGACACTAT
Celera SNP ID:            hCV52079
SNP Position Genomic:     127477
SNP Source:               Applera
Population(Allele,Count): african american(A,29|T,3)   caucasian(A,26|T,12)   total(A,55|T,15)   
SNP Type:                 UTR 3;INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,34|T,4)   caucasian(A,28|T,12)   total(A,62|T,16)
SNP Type:                 UTR 3;INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,6)      total(A,6|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3;INTRON;hmCS


Context             (SEQ ID NO:53340):
ATTTTGAGGCCTTTACTACCAAAGACTGAATAATACATTGGGCATGATGGTTTTGTCCTAAACATTAACAGCCACAAAAGGTAGAGAGTGTGTCTGTTTA
Y
AGATACACATGTATCATGAATAATTAGTTGGGGACTGTGCGTCAGGTCTCTCATTTTACATTCGAGGAAGCAATGCACGGAATGAATTCTGGACCTGCGA
Celera SNP ID:            hCV151620
SNP Position Genomic:     118725
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53341):
CCGCGTGGAACTGATAACAAATGCCGACTACTTCATAGGCTCGTTGTGAGGATTTCCTAGAATAAAGCATGTGATGCACTCAGCACAGAGGCACACAGAC
W
CAGAGCCCAAGGCACCATTAAACGGCGGCCACCCTGAGCTGTGCTGGTGTGGATGGTAGTGCTTCAGGGGTAGCAGCTGGTCAGTCCCCATCCTACCTTC
Celera SNP ID:            hCV16279660
SNP Position Genomic:     191984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53342):
TGGAATCGCTTGGACATACTCTTCAGCAGACATCGTGTGACTGTGGAAGAAATGAGTTTCATGAAGATGACTGATAGAAGGAAGCCACTGAACCAGTCCT
Y
TATCACCTCTTCCAAGGCTAAAGTTTGGAGCCACTTGCAGAAGGCTCTCCTCAAACCCCTGTGTTCTTTGCCTACCCCTGCTGTTGCCACATCATCTTGG
Celera SNP ID:            hCV151621
SNP Position Genomic:     117976
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53343):
GCTCTGCAAACAGGAAACGGTGCTCACTGCTGTGTATGCTTTTCATGGAGATAAAGTGTCAGGAGCAAGACCCCAAACCTGCGAAATCACTAATGCAACC
R
CCCCCCATGCCCCAAAAGGTGGGAGTGGGGGATAAAAAGAGTAGGAAAGTGGTGTGGGGAGGGGAAGCTTTAGGGCCATAACTCAGACAATTTGTCAGGC
Celera SNP ID:            hCV151622
SNP Position Genomic:     114799
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53344):
GTGATTTAGTTAATGCCCGCTCTGCAAACAGGAAACGGTGCTCACTGCTGTGTATGCTTTTCATGGAGATAAAGTGTCAGGAGCAAGACCCCAAACCTGC
R
AAATCACTAATGCAACCGCCCCCCATGCCCCAAAAGGTGGGAGTGGGGGATAAAAAGAGTAGGAAAGTGGTGTGGGGAGGGGAAGCTTTAGGGCCATAAC
Celera SNP ID:            hCV151623
SNP Position Genomic:     114781
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53345):
ATACATTACGTTAATCCTTATGATCTTTGGGGGCTAAGTATTAGTATTCCATTTTACGGATGAAGAGACTGAGGCTCAGAGGGAAGGGAGGTGGCTTTTC
K
CAGGTGGAAAGCCAGACCTTTTCAGTGGTCATTCAGTTCATAGCTAAGGTCTTATTTTCTGTGCTCTCTGTCGGCTGAAAATGGGCAAGGTAATTTCACA
Celera SNP ID:            hCV151624
SNP Position Genomic:     113554
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53346):
TTGGTTTCTCTCCCTTCCTCTTGTCTCTCCTACCCTGTAAACACATACTTGGTGATTACCCATGGGGAGACAAGACAGGCTGGGAATATATACTTCTGCA
M
CTTCAGCCTCCTGGGTTCCAGCGATTCTCCTGCCTCAGTCTCCAGAAGAGCTCGGATTACAGGTGTGCACCACCAGGCCCAGCTAACTTTTTGTATTTTT
Celera SNP ID:            hCV151625
SNP Position Genomic:     113036
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53347):
CCCCAGCAATGGGCATCGTGTGATGTAGGAAGAAAGGGTTCTGGGGTCTGAGGCCGGAGAGACATAGGCATTTGTAAGAAGAAAATCCCTCCATCATAGA
K
GATTCCAGGTAGAGGCAGGTTGGCTGGAGTGGCAATTAGTCCCTGGTTTTGGCAGGTATGACCACAGAGTTCTCCTCTCTTGCAAGGGAACCCATGAGCT
Celera SNP ID:            hCV16279666
SNP Position Genomic:     193758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53348):
GTCAGCGGGTATGTATCTTTCCAACCAAAGAGAAAACTTCTGGAAGGCAGCAACAGTCATTTGCCCTGCCTCCTAACAGTCTCCACTTTGTCCGTGTCTG
W
CTCTTTCCCTCCCTTCCTCTCCTTTTCCCTTTTCCTTCTCCACCTCAGCACACAGTGGGAGCTTCCTTGTTCCTTATTTCTCAAGTTGTCCTGAGCAAAT
Celera SNP ID:            hCV16279667
SNP Position Genomic:     195013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53349):
AAGATGGGGTTAACCGGAGCCAAGCCAGAGATCTGGTGGTAGTGGGGGGTTTCCAAGCTAGAATGGTTGTGTGGTATTCTGTCCTCAGGGGCTTTGAACT
S
TGTGTGCTAATGAGGCCTCAAATTCTCTGGGGCTCTGGTTAAAATGTAGATTCTGATATCAGTTGGCTTGGGTGGGGCCTTGCATTTCTGTAAGCCCTTA
Celera SNP ID:            hCV51781
SNP Position Genomic:     67199
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53350):
GGCGTGATCTCGGCTCACTGCAAGCTCCACCTCCCGGGTTCATGCCATTCTCCTGAATCAGCCTCCCAAGTAGCTGGGACTACAGGCACCTGCCACCACA
S
CCGGCTCATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGTCTCTTGACCTTGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGG
Celera SNP ID:            hCV11290201
SNP Position Genomic:     79617
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Gene Number:                 257
Celera Gene:                 hCG41080 - 119000107771256
Gene Symbol:                 C1orf33
Protein Name:                chromosome 1 open reading frame 33;dJ657E11.4
Celera Genomic Axis:         GA_x5YUV32W3P1(2375430..2396048)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12417):
GATGCAAAGAGAGTAAGAGAAGAAAATTAGCTCCTAATAGATAATACTAACTCTTCCTTCTAAATGGAAGCACATATTTACCTTCAGATAAGTGACACCC
AAAAGGGCACCTTACCTTTCTTTTTTTTTTTTTTGAGACGAAGTCTCACTCTTGTCCCCCAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTGCAACC
TCCACCTCCCAGGTTCAAGCGATTCTCCTATCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCTGCCACCACGCCCGGCTAATTTTTTTGTATTTTTA
GTAGACATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAACTGACCCACCCGCCTCGGCCTTCCAAAGTGTTGGGATTACAGGCG
TGAGTCACCACGCCCGACTGAGATCACAGCACTTCTTAACAGCACAGAGCAAGCACCTCCTTTGTACTTGGTAGCCTACCATGTGAGGCTAATAATTTTC
TCGATTAGGATCGCTTGAGCCCAGGAGGTCGAGGCTGCAGTGAGCCGAGATCACACCATTGCACTCCAACCTGACAAGACTCTGTCTCAAAAAAATAAAC
AGGCCAGGCGCAGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCATTTAAGATCAGGAGTTCGAGACCAGCTGGCCAACTT
GGTGAGAACCCATCTCTACTAAAAATGCAAAAATTAGCTGGGCGTGGTGGCACGTGCCTGTCATCCCAACTACTCGGGAGGCTGAGGCAAAAGAATCGCT
TGAACTCAGGAAGCAGAGGTTGCAGTGATCCAAGATCGTGTCACTGAACTCCATCCTGGGCGACAGAGTGGGCCTCTGTCTCAAATAAATAAGTAAATAA
AATACTGTTGTTTTATCTGGATATAAAAGTAATGCCTCCTTATTACAGAAAATGAGTGGGTGGGGGGAACACTTATAACAATTTAAAAATCTCCACCAGG
CACGGTGGCTCACACCTGTAATCTCAGCACTTTGGAAGGTCCAGGCATGCCGAACACTTGAGGTCCGGAGTTTGAGACCAGCCTGGCCAACATGGTAAAA
CTCCATCTCTTATAAAAGTACAAAAATTAGCTGGGCGTGATGGGCACCTATAATCCCAGCTACTTGGGAGGCTAAGGCAGGAAAATCGTTTGAACCCTGG
AAGCGGAGGTTGCAGTGAGCCAAGATCATGCCACTGTACTCCGGCGTGGGTGACAGAGCAAGACTCTGTCTCAAAACAATAAAAAATAAATAAATAATAA
AAATTTTAAAATGTAATATATCACTCTTCTGGATTGAATTGTATCCTCAAAAACTCCTGTGTTGAAACCCTATCCCCCAGTGTTACAGTATTTGACGGCA
AGGCCTTTAAAAATGTAATTATGTTTTAATAAAGTCAAAAGGGTGAGGCCTTAATCCAATAGAGGAAGAGACATCAGGGATGTGTAAGCACAGTAAAGGC
CATGTAAGGATACAGCAAGAAGGCAGCCTTTTGCAAGCCAATGAGCGAGGCCTCAGAGGAAACAAAACCTGCCAATGCCTTGATCTTGAATTTCCAGCCT
CCAGAACTGTGAGAATATCAATTTCTATTGTTTAAGCCACCTAGTCTATGGTATTTCATTATAGCAGCCTGAGAAAACTAATACAACCACCACTATAGAT
ACACTTTTTATTATTTGAGATGGGATCTCACTGTGCTGCCTAGGCTGGATTGAACTCCTGGGCTCAAGTAATACTCCCATCTCAGCCTCCCAAGTAGCTG
GGATTTCAGGTGCATGCCATTGTGCCCAGCTTTGTACATATACTTTTAACGTTTTACTATACAGTCATGCACTGCAAAACAATGTTTCAGTCAATGATTG
ATCGCATATACAGCATATACAGTGGTGGTCACACAAGAGTATAATGGAGCTGAAAAATTCCTATAACCTAGTAACATTGTAGCTGCTATAACATTGTAGT
CGAATGCATTAATCACGTTTGCGGTGAAGGTGGTGTAAACAAACCCACTGTACTGCCAGCTGTATAAAAGTACAGCATATTCAATAATGTATACTACATA
ATACTTGACAATGATAATAAATGACTGTGTTACTGGTTTACGTATCTACTTTTTATGGTTAGAGTACTCCTTCTACTTATTAAAAGAAAATTAACTGTAA
AATAGTCTCATGCAGGTGCTTCAAGAGGTATTCCAAGCTGGCCGCAGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCGGAGGCGAGCAGATCACC
TGAGGTCAGGAGTTCAAGAACAGCCTGGCCAACATGGTGAAACCCCATTTCTACTAAAAATACAAAAATTAGCCAGGCATAGTGCTGTGCACCACAGTCC
CAGCTACTTGGGAGGCTGAGACATGAGAATCACTTGAACCCGGGAGGTGGAGGTTGTAGTGAGCTGAGATCATGCCACTTCACTCCAGGCTGAGCGACAG
AGTAAGACTCTGTCCCAAAAAAAAAAAGAGGTATTCCAGAAACAGGCATTGTTATCACAGATGATAGCTCCATGGGTGTTACTGCTCCTGAAAACCTGCC
AGTAAGACAGTATGTGGAGGTGGAAGACAGTGATATTGATGATCCTGACCCTATTTAGGCCCAGGCTAATGTGTTTGTGTCTTAGTTTGTTTTTTGTTTG
CTTGTTTTTTGAGATGCTCTTACTCTGTCACCCAGACTGGAGTACAGAGGCACCATCACAGCTCACTACAGCCACGACCTCCCAGGCTTAGGTGATCCTC
CCACCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCACCACCATGCCCGGCTAATTTTTGTATGCTTTGCAGAAATGGGGTTTCGCCATATTGCCCA
ACCTGTTTTTTGTTTTGTTTTGTTTTGTTTCTGAGATGGAGTCTCGCTCTGTTGCCAGGCTGAGTGCAGTGGCGTGATCTCAACTCACTGCAACCTCCGT
CTCCCAGGTTCAAGTAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGTGTGCCACCACGCCCAGCTAATTTTCGTATTTTTAGGAGAGA
CGGGGTTTCACCATGTTGGCCACGATGGTCTTGACCTCTTGACTTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACC
ACGCCCAGCCCCAAGCTGGTCTTGAACTCCTGGACTCAAGCCATCCACCCACCTCAGCCTCCCAAAGTGCTAGGATTACAGATGTTAGCCACTGCGCCCG
GCCTGTGTCTTAGTTTTTAACAAAATAGTTTAAGACTGAAAAAAAAAATTTTAGTATTGTAGGAAAAAGCTTATAGAATAAAGATATAAGAAAAATATTA
TTAAGTCAGGCATGGTAGCATATGCCTGTAATCCCAGTTGCTAGGGAGGCTGAGGCAGGAGGCTTGCTTGAGTCCAGGAGTTCAATATCTGCCTGGGGAA
CATAGCAAGATCCCATGTCAAAAATAAATTTTAAAAATATATTTTTGTACAGCTGTAAAGTCTGTGTTTTATACTAAGTATTATTACAAAAGTCAAAAAT
TAAAAAAATAAAATGTTTGTAAAGTAAAAAAGTTACATTAAGCTAAGGTTAACTTATTATTGAAGAAATTTTATAAATTTAGTATAGTCTAAATGCACAG
TATTTATAAAGTCCACAGTAGTGTACAGTAATGTCCTAAGCCTTTACATTTACTCACCAACCACTTACTGACTAACCCCAGAACAACTCCTAGTTCTGCA
AGATACATTCATGTTAAGTGCCCTATACCAGTGTACCATTTTTTATCTTTCATATCCTATTTTTACCATACATTTTCTATGTTTAGATACACAAATATTT
ACCATTGTGTTACAATTGCCTACAGTTTTCAGTAAAGTAACATGCCGTACAGGTTTGTAGCCTAGGAAGAATAGGCTGTACCATATAGCCTAGGTGTGTA
GTAGGCTAAACCATCTAGATTTACATAAGTACATGCTACAACGTTTGCACAAGAGGGCATTTCTCAGGATGTATTCCCATCATTAAGTGATGCATACCTG
TATGTCTTCATTTATTTTTCAATCTGAAAACTGTAGGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGCCAGATTGCT
TGAGCCCAGGTGTTCAAGACCAGCCTGGGCAACATGGCAAAACCCCGTCTCTACAAAAAATACAAAGAAACTGGAGAGGTGTGCACCAGTAGTCCCAGCT
ACTCAGGAGGCTGAGCTGGGAGGGTCACTTGAACCTGCAAGGTCAAAGCTGCAGTGAGCCATGATAGTACTGTACTCCAGCCTGGGCTACAGAATGAGTC
CCTGTCTCAAAAAATTTTAAAAAGTCTTGGCTGGGCGCAGTGGCTCCCACCTGTAATTCCAACACTTTGGGAGGCCTAGGCGGGTGGATTACCTGAGATC
GGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACCAAAAATACAAAAATTAGCTGGGTGTGGTGGCGCATGCCTGTAATCCCAGCTA
CTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCCAGAGGCGGAGGTTGTGGTGAGCCATGAGATCGCGCCATTACACTCCAGCCTGGGCAACAAGAGC
AAAACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTCTTAAACAGAGTCCTTTTCCCCCCTCATCAGCCTAACCTGGCCCTGGGCTCAGAGCAGA
GCTGCCCAAGACACTAAGCAGTTAGGAAATGCCATTCATTCATTCATTCATTCATGAAAATAAAATTAAGAAAATTGCATATATCAAGTATTCTGCAAAA
TTAGATACACATATCACCCGATATATATGTGTAACATACACATATGACATTGTGAACAGTTGTGCACATCATTAAAAATGTAACATGTTTTATTTGTCAC
ACTGTCTGGCATAACAGGTACTCAACATATATGCGAATCAACTTTTCCAAGACAGAAAATACTTCAGAGGAGGAGAAATCTGACCTGGGCCCTGAAGAAT
AAAGTGTAAATAGCAATAATAACAGATAACGCTTAATGACTGCATTCAATGAGCCAGGCATTGTGCTAAGTAATTTAATGGGATTGTCTCATTCATTCTC
ACAAGTACTGTAAGAGATAACGGACTGTTAGTAAACCCATTCTACAGACAAAGAAACCAAGGCACAGAGTGGTTAAGTCACTTTCCCCAAGATCACACAA
GTCTTAACTAGTAAAATTCAAACAAAAGCAAGCTACTCCAGGGCCTTAAGGAAGACGTGGGTGGGTGAATGAATGAATGAGTGAATGGCATATTCTAGCT
GCTTAGTGTTTTGGGCAATCCTGCTGTGAGCCCAGGGCCAGACTAGGTTGATGAGAGGGGAAAAGGACTCAGTTTAGGACTTTTAAGACGAAAGCTCCTG
TTCACTTGCCTACAAGACACCAATTCGAGTAGGAATTAAAGTTCACTGACAGCTTGGCGACCTCTGACACCTGGTAGACCAGAAACCTCACAGTCAAAAA
AATCGAACCTGACGAGGGAGGACGGGATCAGTGATCTCTGACCGGCACCCCAAGCATTCCTGGATGGCAGGGCCGGCTTACACGCAAGGATCAGCTTAGA
ATGACCCCTAACACTTGGTTTAAGGCTCTGCTTCCAACGACTTTAAATCCTTAATAATTTTTTAACAAGGGGCCCCACGTTTTCATTTTGTACTGGGTCC
TGCAAATTATGCGGCCAATCCTGTTAAGTGACAACCTTTAGCAGGTAGGAGACAGGTACTGGGGAAACAGCCACTTATCTCTCGAATATGTTCCACACGT
ACGCACCAATCAAACTTGCCCACTTGGTCTTCGTAGACCGCGGCCGCAGGAATCAGCAGCGTAGCCCAAAGCCAGAAACGAGAAGCCCACTCAGCCGCCA
TGATGCGAGCGCATGCACCACCCAYCGCCGTCCCGGCATGCACCGCGCCGSGGGCTCCGYCTCCGCGGGACCACAGAGCTGGGATAGCGCGCGAGGSCCT
CGGTCGGACGGGACGCTCGGGATTCAGGGACTGCCTCGGCACACGGGAAGTTGCCCTACAGGCGCGGGAGAAAGCGCAGGCGGCGGCTTRGCAGGGAGAG
GCAGGCTGCAGTGCACATTGGGTCAGGCACACGCGAGGGGCAGCCCCCGAGGGCCGTCCCAGAGTCCCCCGCGCCGCCGGGGTCCTAACGGGGTGCACCG
TCTTCCGCCGCACGTGGATTCAGCGCGATGCCCAAATCCAAGCGCGACAAGAAAGGTGGGCGAAGGGGGAGTCGGGACCCTGSGGGGAGCTCCGTGGGCT
GGCTACCCAGCCTGCGGTGAGGGCTTCGGGGCGGCGGGGGCGCAGATTGGAACGCCAGGACATCCTCGAGGTGTTCCGCTGCCTCGCTGCGAGCTGGAAT
GGGGGCTTCGGGGCTGTAAAACCGCCAGAGGTGGCTGACGCCCGGTCGGGTCTGGGGAGCGGAGACTCGTTTTGCCTAGTTTCAGGTGCTCTTGCAAGGC
CAACTGGGTCGGGAGGCAGCTCCTGAACACCGCCCCCGGCTATGCCTGCTGCCGTTTCGGCCCACTTTTCCCAACTTCGGCCCTTTCTCATCTTCCTGCG
CTCCCGCCACCCTGGCTGCCTTTCCCTTCTTTCAGCACAGGTTTGTTCCCGTGTCTGGCGTTGTGTGTCTGCGGTTGTTTCTGCCTGGCATGCTTACATC
TTCGTATGGTTTGCGCCTTCTTAGTTGTCAGTTAATAGGATCCCTCTGAGACAGGGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCGTAA
CACTGCAGGCCGGATGCGGTGGCTCACGCCTGTAATCCCAGCACTCTGGGAGGCCGAGGCGGGCGAATCATCTGAGGTCGGGAGTTCCCGACCAGCCTGG
CCAATATGGTGAAACCCCTTTTCTACTAAAAATACTAAAAATTAGATGGGCATGGTGGCAGGTGCCTGTAATCCCAGCTACTTGGGAGACTGAGGCGGGA
GAATCGCTTGAATCCGGGAGGCGGAGGTTGCAATGAGCCGAGATCGCTCCACTGTACTGCAGCCTGGGCACGACAGAGCGAGACTCCGTCTCAAAAATAA
ATAAATAAAATAAGTCACTGCAGCCTTGACCTCCTTGGCTTAAGCGATCCTCCCACCTCAACCTCCCGAGTAGCTGAGACTACAGGCGCACGCCACCACA
CCCAGCTAGGTTTTTTTTGTTTATTTTTTATAGAGAAGACTCAGTGTGTTGCCAAGCTGGTCTCGAACACCTGGGCTCCAACCACCCTCCCTGAGTGCTG
GGATTACAGGCGTGAGCCACTACACCCGACTTGCGCACCTCTTAAGAGACCGTTTTTGACCACCTTTGCTGTGGTGGCCTCTCTCTTAACCCGGCTCCCT
GGAATATTCAAAAATATTTAGGGGTCTGGCACTTTCTAGGCGTTAGAGGATACAGCAGTCACAAGGAAAGCCTATTTCTTATCGAGCCTAACGTTTTAGG
AGAAACATATTCCGCAAAATGCTAAAAATCAGATTGAAAATGGGGTGAAGAGATGTTGATATTTTGTATAGTGTGGTCGGGAAAGGTCTCACTGATGAAG
TGACAAATGAGCAGAAAATAAAGAAAGGAAGCGAGCAACCTGTGGAATTGAGCAGCTGTGGAATTATCTGGGAGAATGCTGTTCCAAGTAGAGGGAACCT
GAAGTGAAAAGGCTCTGAAATGGGAGCAGATATGACGTGTTTGGGACAAGAGGCCAGTGAGGCTGGAGCAGAAGGAGCCAAATAGAGTTTGGGGAGGGAG
TTAGGCAGAGAGGGCAGGACTTCCTCGGCCTTGGCAAGGCATTGGCTTTCCTGCCCAGGTGAAGTGAGTAGCAGAGGACCCATGTGATTTACCTTTACTT
ATGAAGGGTCACTCTGGTTGCCTTGGTGAGAATAGTTGGGGAAGACAGGGCAGAGGGCAGGAATGGAAGCAGTGAGACCAGCATTAATCCAAGACAGGGT
GATGCTGGCTTGAGCCAAAGGTATAACAGTGGAAATGATGGGAAGTGGCCCGCTATATTTCGTTTGCCCTCCTCTGCTCCACTTACCATTGACTGATGTC
ATTGTCTTTGTCTGTGTGGTACCTAGTTAAGAGGGGCTGAGTGCGGGCAGGTTAAAGAAGAGAGGCCTGGGTCCCTTTGTGAAGGCGCCCGGGGCTTTGC
AGWTGGAGTTCTGTTAAGTGTTTCTGGAACGATTTGATTCTGTGGAGGGGCCTGGGTCAGGTCTGGCAAATGCCAAACTCTGTGGGTAGAGGGCAAATTG
GGCCCCAGCCATTTTTACAGTAGAGGTACATGTTCCTCCCCAGAGAGGTGTTGCTGCGTCTTTGGGTCCAAATTGCAATACTGGGGTGCAGATACATACC
AGGAGATTCAGTCCCCAGCCTCATGGTTGCACAGCATAGGCCAGCTAGAGTGGCCTCTGCATCATGGTCAAGAGCAGCAAGGGGCCAGGCATGGTGGCTC
ACACCTATGATTCCAACACTTTGGGAGACTGAGGTAGGCAGATCTCTTGAGCCCAGGAGTTCGAGACCAACCTGGGCAACRTGGCAAAAGCCATCTCTGC
AAAAAATACAAAACTCACCTGGGCATGGTGGTGCATTTCTGTGGTCCCAGCCAAAATTAGCAGGCCATGGTGGTGTGTGCCTGTAGTCCTGTGTGGGAGG
ATTGCCTGAGCCTAGGAGCTCAARGTTGCAGTGAGCCCAGATCGTGCCATTGCASTCCAGCCTGGGTGACAGAGTGAGACCCCATGTCAAAAAAAAAACA
AAAAACAGGGGCCTGCCTCAGCCAGCAGGTGAGGTCTGCCACTGAGAGCACTTCTAGCAGCAGGAACAGCCTCCACCCCCACACTGCAATCAAGTTTTTT
GGGTCAGCCTTAGGAGCTAAGAAAGGCCTAGTTTGTCTAAATAGCAGGAGTTATATCCAGGGATCTTCAGGCCCAGGAATGCTAATGAGTAGGCATTCCA
TGGGCCCTGGGAATGGCTTTGTGTGCCAGAAATGATGGCCACAAAGGCCTTGCTGCCTTTTTTCAGAATGGCTGCATCCAGCTGAGTGCTCTCTGCCAAA
GGGGAGAAGAAAATAAGTCTCCARTGCATTTAGATTGGTCTCTCATCATCTCTCTCCTTTTTGTTTTTATTAGTCTCCTTAACCAAAACTGCCAAGAAAG
GCTTGGAATTGAAACAAAACCTGATAGAAGAGGTAAGAGGTTGTTCTTTTCTAGAGCTTGCAATTGTTTGGTTTATAAAGGTAGGTATAGGACTGTTGGC
CAGGGATAGGACTGTTGGCCAGGGGAACATACTAGTGGGGAAAAAAAAAAAATCTCCAAGCTGCYAATCCAGGCCTTTTTCCTCCAGCAGCAGCACCAGC
AAAAACTTCCATAGTGATGATTTCCAGCTTTGACTAGCTCRTACTCTGTGCCCTGTCCTGCACTGTGTTTCTTATGCGTTGTTCCACTCCATCCTCATAA
CATCCCTGTGATGTGGGTACTAGGTGATGATGTTGCTGTTTTGCATTTGGGGTCACTGAAGCTTACAGAGATTTGTTAGCCTGCCYAATGTCAAAAAACA
GGAGGCCAGGAAYGGTGGGCCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGTGGGTCAGACAGCTTGAGTCTGGGAGCTCAAGAGCAGCCTGGGCAA
CATGACAAAACCTCATCTCTACAAAAAGAAAAGAAAAAAAAACTAGCTGGACGTGGTGGTACGCAGCCTGGGCAACAGAGTGAGACCCTGTCTTTAAAAA
AAAAAAAAAGAGCTGGGAGATTTACCAGGTGTAGGTGACTGCACCAACCCACTGTCTGTACAGCTTCTGACCTGCCAACCTGGGCTGCAGGCTGGGTGAA
ACAGTCTCCTCCTGCACAATGACTCCACTCCTAGAGGCTGCCTCATGGTGGCTTTGGCCAGCACCACGTGCAGAGCAGTACCGATCAGCTGCCTCCCCTT
ATAACAGAGAGGCTCCATGTGTTTCCATGTAGCAGGACCCTTCCTAATGTGGGTGAATGTTTCTAGGTTAACAGCTGATGATCAGTTCCACTGTTGGTCA
TAAATAAGTGAGAGACCTGGAAAAGGCCGTGGGGTGTAGATCCATGGCTCAGCCTCCCCTGTGGTTAGGGATCCTAATTTCAGTAATGGAGGTAGGAGAC
AACCAAATTAGAGGCCTCCAGTTCTTCCAGTTTCMATAGTTGTCAGGGGCCCAGAGCAGATTCATTCTCATCTGAGGCCAGAGTAGTGCCCGTTGTATGC
TGCTGCTTGAACTCAGAGCCTCGTGAATTGTCCCACAGCTTCGGAAATGTGTGGACACCTACAAGTACCTTTTCATCTTCTCTGTGGCCAACATGAGGAA
CAGCAAGCTGAAGGACATCCGGAACGCCTGGAAGCACAGCCGGTGAGCGGGCAGGGGGARGAAGGCCCTTCTGAGTGGGGACCCGGCCAGGCTGCTCTCA
GTCAAAGCACAGGAGCAATTTCTGACCCTTTAGGTGCCTGGGTCATGCCGCTGACACCTTAATAAGGACAAAGTGCTACCTGCCACTGAAGAGCACTTCC
TTTTCACTGTTAAAGCTGGTCTTGGGCAGGGTGCGGTGGTTCACGCCTGTAATCCTGGCACTTTGGGAGGCTGAGGCAGGGGGATCACCTGAAGTCAGGA
GTTTGAGACCAGCCTGGCCAACATGGCGAAACCCCTTCTCTACTGAAAATACAAAAATTAGCCGGGCATGGTGGCAGGCACCTATAATCCCAGCTACTCA
GGAGGCTGAAGCAGAAGAATCACTTGAACCCATGAGGCAGAGGCTGCAATGAGCTGAGATTGCACCATCGCACTCCAGCCTGGGTGACAGAGTGAAACTC
CACCTCAAAAAGCAGATTTTGCACTGAGCTCCTAGGGGCAGGACTTGGCAGTTGCTCAGGAGATGTTTGAGAGGTGGGCCTTTCCGGAGAAGTGGCCCTT
TAACCCTGGACTGTGGGCCATTTAGGAGCATCACACCAGTTTTAGAATGTCAGTAGGGACACTGCGACACAGACAGTGACCTGGGAGCAGGATGCAGGAG
CCACATGGCAAGTTTCTGTCCTGGGGCAGGTGGCTCTGGTGGTGGTCTCTTGCCGCACCAGCTCTGGTTCAGGCTGTTAACATGCCTCCCGCATACATCC
AGATAGAGAACTGGTACATGATGCTCSTGATGGGCTGGGAGACAAAATGTTGCCATGTCAGGAGTCTGTGGGTGGGAACATAATGAAAGGGACCCCRACG
TGGGGACAGTGTGGCCAGGCAGCATGGAGAAGTGGGTGCCACTGGCTCAGCCTGGGCCTGAGCTCACTGGGGACCGGAGCTACTTTGCATGTTGCTGAGG
GATGGGGAGGGCAGGGCTCTTCCTTCACAGAATGCTCTTTCTCTTGCTTGGTAGGATGTTCTTTGGCAAAAACAAGGTGATGATGGTGGCCTTGGGTCGG
AGCCCATCTGATGAATACAAAGACAACCTGCAYCAGGTAAGTCTCTGGCCCTCACGGGGTGGAGCTAAGGCAAAGCYGCCYTCTCTCCCACTACTCCCAT
GTGACAGCCTCCCCCAGCCATYGGCAGGCCRGAGGCTCAGGGAGAGCAGGGCCTGGCTTAAAGCTCTGGGTTCTCCCTTCACCTCCGGACCCAAGGAATA
GCAGCTTCCTGCCTCCCACTCCTTCCTGCTATGACAACCAAAAACGTCTTTAAATGTTGCCAAATGTACCCGGTGAGCAAAAACGTGCCTAGTAGAGAAC
CACTGCTCTAATGTGACCAAGCTGTCCTCACTCCTGATTTGTAGGTCAGCAAAAGGTTGAGGGGTGAGGTGGGTCTCCTGTTCACCAACCGCACAAAGGA
RGAGGTGAATGAGTAAGTACTGCTGAGGAACRGAGGGAAAGAGGCGGGTGAGAGGGGATTTCAGGGAGGGAATGATGCAGGAACTTCGTTCCATATGTGG
CATCAAGTTGGAACTGCTCCTGGAAGCCTGTCACTGAGCTAGTGGCCTGGGACCACAGCCCTCTCTGTCCTCTCCAGCATGGTGCTCTGGGCTGGCTGCT
GGCCAGCAGCCAAGGTCTGTGATGGGGGAAGGCCCAGGGCCACGGGACACTTGGGGGAGCCTGACTCATGGGCTGGTGGCGTGGCCAGGAGCATCTCCTC
CTACCACTTCTCTTTTCCCTTAGGTGGTTCACGAAATACACAGAAATGGACTACGCCCGAGCTGGTAACAAAGCAGCTTTCACTGTGAGCCTGGATCCAG
GGCCCCTGGAGCAGTTCCCCCACTCCATGGAGCCACAGCTCAGGCAGCTGGGCCTGCCCACCGCCCTCAAGAGAGGTATGGGCAGCCCTGGAGCCAAAAG
GTCACAGCCTAGAGTCCAAGAGCACGGGCCTGCAAGCTCATCCCTTTCTAGCTRAGCAAGTTATTTCTACAAGCYTCCATTTTCTCATGAGAAAATGGGG
CTAAGAGTGCATGCCTCACAGTGGGGGTGAAAGCAGACAGTAACTTACAGCCAAAATGCAGCCCTTGAGGCCCATCAGGGGCCTTGCGCTTGTTTAAAAA
AAAAAAAAGTCAAAAAATTAGACAGCCATGGTGGTGTGTGCCTGTGGTCCTAGCTACATGGGAGGCTGAGGCAAGAGGATCACTAKAGCCCAGGAGGTCG
AGGCTGCGGCAAATCAAAGGGACCTCAGGGAGACAGCCACTGCCCAGTGTGTGTTGGAGCCGTGGGGAGGGCAGGTGGCTGACTGGATTCCTCCCAACAT
GACCAGGGCAGAGAGGGCTCTGCAGGCCTCTGGGCCAGAGGTAACTGAGAGCCACCCTCTTCTGCAGGTGTGGTGACTCTGCTGTCTGACTACGAGGTGT
GCAAGGAGGGCGATGTGCTGACCCCAGAGCAGGCTCGCGTCCTGGTGAGTCTGGCRCCTTGCGGGCTGTTGCGGGCGGGGTTGCTGGCTTTCCTCTGCCT
GCTGAAAATGCSCCCCTGCAYTTTGAATACCTTCATTCCTCCTGATTCTTTGTTCCCTTTGTCTCTTGCAGAAGCTTTTTGGGTATGAGATGGCTGAATT
CAARGTGACCATCAAATACATGTGGGATTCACAGTCGGGAAGGTTCCAGCAGATGGGAGACGACTTGCCAGAGAGCGCATCTGAGTCCACAGAAGAGTCA
GACTCAGAAGATGATGACTGAAAGGGACTCGGGACTGAAGGTCTCCTGGAAGCTTCTGGGTCTCACTGGACCATCAGGACTGCTGCCGCCCCTCTGGAGA
GAGCAGCTTTTTATTTGTCTGTAGACAGGGAACATGATGGGCACTGACCTCCTGTAAAGAATAAAACTGTGGGCCGGGCGCGGTGGCTCACGCCTGGAAT
CCCAGCACTTTGGGAAGCCGAGGTGGGCAGATCATAAGGTCRGGAGATTAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATAGAAA
AAAAAACTAGTTGGGCATAGTGGCATGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGTGGAGGTTGCCGTG
AGTTGAGATTGGACCACTGCTCTCCAGCCTGGGCAACAGAGTAAAACTCTGTCCCAAAAAAAAAAAAAGAATACAACCTTGCAGGATGTCTCTCCTGGAG
ACAGCAAGAGGGAGAGGAGGGAGAGGGCTCTTTCTTAGAAAAGAGGCCTTTGGTGAGCCCAGAAGTTTGAAACCAGCCTGGGCAATTCAGCAAGATCCCG
TCTCTACAAAAAATAAAAAAAAATTAGTCGTGGTGCCACTTGCCTGTGGTCCCCACTGCTTGGGAGGCTGAGGTGGGAGAATTGCTTAAGCCTGAGAGTT
GGAGGCTCAGTGAGCCATGATCATGCCACTGCACTCCAGCCTGGGTGGCCATTGAATTCTGCGTGGATTGCCTCAGTTTGCCTTGTCAGCCAACTTCCAC
TGGCTGCCTTGGCACTGCCATGACAGCACAGCTCCACACCAGAGCTGGGGTTTCTCTTCAGTCCTGGGTACCCCTTGGCAGAGGGATTTGCTGAGGAAAA
TTAGGTATCCTTCCTAGCCCTCCACACACTTCCAAACCAGGGCTGCGGATCTGATGGATGCCAGGAAGACAGCCTTGGGCTGAGAGTGACRTCACTGCAA
GAGTTGAGAGCCAGCGTCTAAAGTGTCCACGGCATCCTGGGAGGTTTTATCCTTGGYGACTCTAATGGTAGATTTTTGTCCACCTTGTTCTATTTGCTTT
TGTTTGTTTTTGATTTTTCTGTTTTAAAATTTTAAGGAGAGATGGGGTTTCACCATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGCGATCTRCC
CACCTTGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGCATCCAGCCCACATTGTTCTATYTGTATTTCATGAAAGCAGTTCTGAATGAGAGT
AAATCAGCTTCAGGGTGTACAGTGGCCCTCTTTTTTCTGCCATGCATGGAAGAGGGCCACCTCCAGCCCTGCTGTTGGGAGGTCAGGCTGGGTCCCACGG
TGTGGGGTGACCTTCACAACGGCATTGTGCCTCTGACACCCTCTCAGTGCCTCTGTTCTTTGGAGACTTCCTACTCCCGCCCACTTCTCACCACGCCCTT
GGGAAGGACAGCAGGAAGCAGGSTTCGGGCAGAAGAGGAATTCACCATGTTCACCCAGGCCTAGGCCAGGTCAAGCACCAGCCTCAGCAGGAAGTGCTGA
AGGAGAGCTCAGGCCCGGCCCTCTCGCCTTGTGAGGATGACTGGGAAGACTGCACGAGTGTAGAGGAGGATCTGCAAACCGGGCTGAGAGGGGAAAGCAG
CCTACAACCATTTAAGGCCAAAACTGGCCAGGGGGAGAGAATGAAGGGTGGCAGGTGGTGCCCTCCGCACCTGAGCCAGGTCTAGCCAGACCTGGAGGAG
GTAGTGGGATGGTCAGGTGCCAGGCTTGGTCGGCGGCCTCTGTGACAGCCGAGTCCAGGGKCCCTTTGCTGCTGCCAGTTTCTCCAATTGCTCCATCCAG
GATGACCACGTCCCTATGCATGCCCTGTAAGGGAGACAGCTAGACTTCAACACATTTCTGCTGCACAGTGACTAATCATGCCCCTCCCAGCCATGGCCCC
GCCGCTAACTGGGCTCTGGTTATTCACGTATGCCTTGCATTACTGCTTGCAAACAGCCATGACCGTTGGGCTTTAAAGCCCTGCCTCCACGCTGTCTCAG
CTTTAGACAGCTGACTTCAGAGCCACTCATCTGCTGCTCAGCAGCTGGGTAAACCCAGGTCAGTCACCCAGCCTTTCAGCTTCAGACTTCAGGCCGCTTG
TCTGAATTAGAAATTGTGTGAAGCACTTTGCCTGCAGACCAGGCACGTAACGTGCTCACTAAAGGGAAGCCATAACCATATAATACCCAAGCTGGAGAAG
GGGGTTAGGGACAGCAGGGAGAGGGAAACCCTGCCACTACACACAGGGTTGGGCTGTCTCCAGGGTGGGCAGCCAAGGAGCCAGGAAAAGCTAATGGTTA
AAAATGTAGGTTTCAGACCAGATGCAGTGGCTTGCACCTGTAATCCTAGCAATTTGGAATGCTGAGGTGGGCGGATTGCTTGAGCCCAAAGACTCAAGAT
CAGCCCAGGCTCAGGCCGGGCACGGTGGCTCATGCCTGTAATCCCAGCCCTTTGGGAGGCCGAGGCAGGCRGATCACGAGGTCAGGAGATGGAGACCATC
CTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGACGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGC
AGGAGAATGGCTTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCACAGCACTACACTCAGCCTGGGTGACAGAGCTAGACTCTGTCTCAAAAAAA
AAAAAAAGATCAGCCCAGGCAATGTAGTGAGACCCCTGTCTCTACAAAAAATACAGAAGTTAGTCACATGGTGGTGTATGCCTGTGGTCCCAGCTACATG
GGAGACTGAAGCGGAGCATTGCCTGAGCCCTGGAGGTCAAGGCTGCAGTGAACCATGATCAAGCCACTGCACTCCAGCCTGGGTGACAAGAGGAAGACCT
TGTCCCCCCAAAAAGAAAAACATTAGTTTCAGTCAAACCCACGTTCGTTCCCTACCATGTGTAGCTGTGGGACCCTACACAAGTGAAATTGCCTCTGAGC
CARTTGCCTCATGTAAAACTGAGATGACCATACTTAACATGGCCATCGCAATAACTAGTGTTGGTTACCTGGCCGCTTAAGTAATTTGTGTAAGAACAGG
TTTACCCCACCCAAAAGAACTGGGCCATGGAGAGCCTTCATAGGAAGAAAAGGACTTAWCTCCTCTTGGTCAAAGTGACCAAATGACTGCATAGCCCTCG
CAGCTTCCCCAGTCTCCCCACCCCCACAGAATTTGAGAGAAGCAGCTGAGCATCTAGAGACAGCTGGGTTACCTGCAGCTTGCGAGTGGTCCATCGCAGG
ACAGTCAAGGCCATGCCAGGGGCACTGGTGCTATATACACAATCTGCAGGACCTGCTCCACCAGGGCCATGGCCTTGAAGTGGTGCTTGTTCCAGAAGCT
GGGTTGGGGGAGGGTATTGCACGGGGGTCAGTACTAGGGGTCATCTCAGGGCGGTTGCCTGCACCCAGGTCCCTGAAGCACTGAGGGGCTAATGGCTTCT
AAGTAGACATCTTACATTTTTGAGCATCAGAATGCATGCATGTTTCTGGGCCCCTCATCCGTGTTCTTGGGTGGCTAGAGGGGAGGCAGTGGGCGAGAAT
CCTTGCATTTGGCCAGGCGTGATGGCCACACCTGTAATCCAAGCCCTTTGGGAGGCCAAGAAGGGAGGATTGCTTGATGCCGGAAGTTAGAAGTCAGCCA
AGATAACGTAGGGAGACCTCCTGTCTCTACAAAAAAAAAAAAAAAAAATTAGCCGGGCGTAGTGATGTGCGCCTCTAGTCTCAGCTGCTCTGGAGGCTGA
GGCAGGAAGATCACTTGAGTCTGGGAGGTAGAGGCTACAGGGAGTGGTGATCGAGCCCCTGCACTCCATCCTGAACAACAGAGTGAGACCCCATTTCGAA
GAAAAAACCCTAGCATTTAACCTCACCAGGTGTTAAACACCCGCCACCTTAGGACCCCTCAGCACCTACAGCACCACACCTGTGTGCCCTGGGGGACACA
AGGACCCATGACAAGTCCTGATCTCCAATCCTGGCTCTGCGGCCTTGGCTGAGCCACCTGCCCTCACCTGCTCAGTGAGGAAGGGAAATGCCCCATGCCA
GCCCCATGTGCTAAATGCCAAGTATAAAGGTAGTAAGGGGCCTGGCCAGCTTTGCACACTGTAAAGAACAGATGGGATGAAACCCAGCAGGTCTCGATGC
TCCAGGGCTGTAGCCTGGGCCCTGCAGTGTGAAAAGCTTGAGAAAACCTCCGCTTAGGACGGTGGTTCCTGAACATGGCAAGGATTATTAGAAACCCTTG
GGGTTTCTGATCATCCTTATCATCCAAATAAGGCTGTAAATCACAGCAGTGCACACAAGGTGAACCCAAATGTTGGACACTGCTGCCTAAGTCCTTGGCC
ATTTCAACAAAACTAGCACTGGCACCACTTCCATGGAGCTTGGCTTGTTTCTGCCTTCCTCCCAGGGGGAGAAAACAAAAAGAAGTAATAAATCACATTG
TGCACAAATATTAACCTTGCAGGTGTGGATTTGGTAAATCTAAGATCAGGAACTTTCCAGCAGCCCACACACGACATCTAAATTTGATATATTAAGGAAT
AGCGATAAAGTGTGTAGCTTTTTTTTTAATAAGAGATGGYGGTCTTGCTTTAATATCCAGGCCAAACTCCTAAGCTCAAGCAATCCTCCTATCTTGGCCT
CCTAAGGCTGGAACTACAGGCCTATGACACCATGCCTGGCTAGTTTTTAAAATTTTTTTGTAGAGACAGTCTCACTGACCTGCCCAGGCTGGTCTCAAAC
TCCTGGGCTCAAGCGATTCACCTTTGTCTCCCAAAGTGTTGGGATTATAGGTGTGAACCACCACCCCCAGCCAAGTGTATACTTTAGACATAGTGCAGCA
GTAACTGCTAGAGAAAAAGAAAGCTGCAAGAATTTCTAGAAGTTGCCTCTGAGGAATGAGACTTGGAAAGTGACAGCTTTTAACCATGGGCACATATCAC
TTTAATAAATTGTCCAAATTTTAAGAAATAGACTGGGTGTGGTGGCTTCCAGCTTGTATATATAAACTGTCTTCCATCCAACTCTTGGAATCAGAGTAAA
GCTTTTGGAAATCCATTTTGTGAGAGAGAAAGCATCTAACTGTTGTGAATGCTATTTCAAATTCAGTTAATAAAGCTCAACATTGAGAATAGAAATTTGT
TTCTGCAGTGGACATACACTTACAAATGCCATGGTAAGGACGGTGGCTCACGCCTGCAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGT
CAGGAGTTCAAGACCAGGCTGGCCAAGATGGTGAAACCCCGTCTCTACTAAAAATATAAAAAATGAGCCAGGTGTGGTGGCAGGCGCCTGTAGTCCCAGC
TACTCGGGAGGCTGAGGCAGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGCTA
GACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGCCATGGTAAAAACAGCCTTATTAAATTAAAAATCCATGCAGCAGAAATGTACTTGTTCATAAACAA
TTGTGGAGCCTGGCACTCTTACCTTCCTGTTGCTTCTGAAATGTATTCAGAATGGCCCAATTTGAGACACTGGTGATGCCAACCAACCCAGTCACTGGGA
ACAAGCAGGTCAGAAATGAAGCAAGTAGGGCAGCCCATGGCAGCCTGAAGTTTCAGGAACTCCCCTCCTCATGAATTCCCATGTGCAAAATCTATGTCAC
CTCCTTCTCCAGTCTTTTTTTTTTTTTTTTTTCTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGC
AAGCTCCACCTCCCGGATTTACGCCATTCTCCCGCGTCAGCCTCCCGGGTAGCTGGAACTACAGGCGCCCACCACCATGCCCGGCTAATTTTTTGTATTT
TTAGTAGAGACGGGGTTTCACCATGTTAACTAGGATGGTCTTGATCTCCTGACCCCATAATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGC
GTGAGCCACTGCGCCTGGCCCTTCTCCAGTCTTTTATACAGCACAGAGCAGTTTCCTTAGTTTGAGGATGAATAAATATATATTAGACGCTCTCCAGATC
CAGCTCTGCTCCTTTAGGTCTTTTTGTTCCTTCTCATTTGTTTTTAAATTAACAAATACGAATTGTATATATATTTAAGGTGCTGTTTGGGAACTGTCTC
TTGAAGAAGCTCTTTAGATATAAAATGGCTGAGGGAGGAGGTGGAGTGGGAAAAAAAGAAGAGAAAAAAGATATGAAATGGCTGAATTCAAGTGGACATC
AACTATCTTTGAGATATAGTATCCAGAAGATTCTAATAGGTGGGATGTGGCATAGCAGAGAATGCATCCCTGATGGGGATACTCAAGAGTCTCAGCAGCT
CCTGGGGCTCATCTCGACTTGACCACTCAGGACCGTTGCTCCCAGTGTTACAGTTTATTTTCCTAAGATAACCACCCCATGCTCTCAAATGCTCTTTGTA
CAGGTATCTTTGACTCCCCTCCCAGGACACAAGAGTGATGCTATGGACTCCTGAGGCTGGGACATAAAAGGCCACATGGCTTCTGCCTAGATTGCTTGAG
ATGTGCTCCCTTGGAAGCCACATGCAGAGGCCACATGTGTGCCAGTTAATGACAGCAGCTGATAAGTGAATGTCTTCAGGTGACCCTAGCCTACAGCTGC
TAAATCACGCCTCAGACACCGGGGAACAGATGAGGCTTCCCCCACTGAGTTCTACCCAAACAGTGGGTTTGCCACCACCCAGCTAATTTTTGTATATTTT
GTCAAGATGGGATTTCACCATGTTGCCCAGGCTGCTCTTGAACTCCTGGATTCAAGCAATCCCCTTGCCTAGGCCTCTCAGAGTTCTGGGATTTCAGGAA
TGAGACACCGTGCCTGGCCTGTTTTGTTTTTTAAAAACAACAGTATTGAGACATAATTCAGACACTATACAGTTGACTTACTTAAAGTGATGTTTAATGC
TGTTTCATGTATTCAGAGTTGTACAACCATCACAATCAATTTCAGAGCATCTTCATAAGCGCCCCCAAAAGAAACCCTGTACTCATTAGCAGTGAATCTC
CATTTCCTCGCAATCCTC


SNP Information

Context             (SEQ ID NO:53351):
GGGGCCAGGCATGGTGGCTCACACCTATGATTCCAACACTTTGGGAGACTGAGGTAGGCAGATCTCTTGAGCCCAGGAGTTCGAGACCAACCTGGGCAAC
R
TGGCAAAAGCCATCTCTGCAAAAAATACAAAACTCACCTGGGCATGGTGGTGCATTTCTGTGGTCCCAGCCAAAATTAGCAGGCCATGGTGGTGTGTGCC
Celera SNP ID:            hCV27269117
SNP Position Genomic:     8681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53352):
AATTAGCAGGCCATGGTGGTGTGTGCCTGTAGTCCTGTGTGGGAGGATTGCCTGAGCCTAGGAGCTCAAAGTTGCAGTGAGCCCAGATCGTGCCATTGCA
S
TCCAGCCTGGGTGACAGAGTGAGACCCCATGTCAAAAAAAAAACAAAAAACAGGGGCCTGCCTCAGCCAGCAGGTGAGGTCTGCCACTGAGAGCACTTCT
Celera SNP ID:            hCV27269118
SNP Position Genomic:     8855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53353):
TGTTTGGTTTATAAAGGTAGGTATAGGACTGTTGGCCAGGGATAGGACTGTTGGCCAGGGGAACATACTAGTGGGGAAAAAAAAAAAATCTCCAAGCTGC
Y
AATCCAGGCCTTTTTCCTCCAGCAGCAGCACCAGCAAAAACTTCCATAGTGATGATTTCCAGCTTTGACTAGCTCATACTCTGTGCCCTGTCCTGCACTG
Celera SNP ID:            hCV27269119
SNP Position Genomic:     9465
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;TSC_42_T(T,10|C,62)   TSC_42_C(T,18|C,64)   TSC_42_TT(T,40|C,42)   total(C,168|T,68)   (C,-|T,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53354):
TGTTGGTTACCTGGCCGCTTAAGTAATTTGTGTAAGAACAGGTTTACCCCACCCAAAAGAACTGGGCCATGGAGAGCCTTCATAGGAAGAAAAGGACTTA
W
CTCCTCTTGGTCAAAGTGACCAAATGACTGCATAGCCCTCGCAGCTTCCCCAGTCTCCCCACCCCCACAGAATTTGAGAGAAGCAGCTGAGCATCTAGAG
Celera SNP ID:            hCV2242019
SNP Position Genomic:     16559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53355):
CCCTCCGCACCTGAGCCAGGTCTAGCCAGACCTGGAGGAGGTAGTGGGATGGTCAGGTGCCAGGCTTGGTCGGCGGCCTCTGTGACAGCCGAGTCCAGGG
K
CCCTTTGCTGCTGCCAGTTTCTCCAATTGCTCCATCCAGGATGACCACGTCCCTATGCATGCCCTGTAAGGGAGACAGCTAGACTTCAACACATTTCTGC
Celera SNP ID:            hCV27959028
SNP Position Genomic:     15161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:53356):
GGTATGGGCAGCCCTGGAGCCAAAAGGTCACAGCCTAGAGTCCAAGAGCACGGGCCTGCAAGCTCATCCCTTTCTAGCTGAGCAAGTTATTTCTACAAGC
Y
TCCATTTTCTCATGAGAAAATGGGGCTAAGAGTGCATGCCTCACAGTGGGGGTGAAAGCAGACAGTAACTTACAGCCAAAATGCAGCCCTTGAGGCCCAT
Celera SNP ID:            hCV25938953
SNP Position Genomic:     12575
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(C,4|T,34)   total(C,7|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:53357):
GTGATGATGGTGGCCTTGGGTCGGAGCCCATCTGATGAATACAAAGACAACCTGCACCAGGTAAGTCTCTGGCCCTCACGGGGTGGAGCTAAGGCAAAGC
Y
GCCCTCTCTCCCACTACTCCCATGTGACAGCCTCCCCCAGCCATTGGCAGGCCGGAGGCTCAGGGAGAGCAGGGCCTGGCTTAAAGCTCTGGGTTCTCCC
Celera SNP ID:            hCV25971413
SNP Position Genomic:     11677
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,31|T,1)   total(C,65|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:53358):
TGTCTTTGTCTGTGTGGTACCTAGTTAAGAGGGGCTGAGTGCGGGCAGGTTAAAGAAGAGAGGCCTGGGTCCCTTTGTGAAGGCGCCCGGGGCTTTGCAG
W
TGGAGTTCTGTTAAGTGTTTCTGGAACGATTTGATTCTGTGGAGGGGCCTGGGTCAGGTCTGGCAAATGCCAAACTCTGTGGGTAGAGGGCAAATTGGGC
Celera SNP ID:            hCV8860734
SNP Position Genomic:     8303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53359):
TGGTCTTCGTAGACCGCGGCCGCAGGAATCAGCAGCGTAGCCCAAAGCCAGAAACGAGAAGCCCACTCAGCCGCCATGATGCGAGCGCATGCACCACCCA
Y
CGCCGTCCCGGCATGCACCGCGCCGCGGGCTCCGCCTCCGCGGGACCACAGAGCTGGGATAGCGCGCGAGGCCCTCGGTCGGACGGGACGCTCGGGATTC
Celera SNP ID:            hCV16188754
SNP Position Genomic:     6025
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|T,2)   total(C,74|T,2)   
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,1)   total(C,73|T,1)
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(T,49|C,1426)   total(C,1426|T,49)
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53360):
CATGGTGGTGCATTTCTGTGGTCCCAGCCAAAATTAGCAGGCCATGGTGGTGTGTGCCTGTAGTCCTGTGTGGGAGGATTGCCTGAGCCTAGGAGCTCAA
R
GTTGCAGTGAGCCCAGATCGTGCCATTGCAGTCCAGCCTGGGTGACAGAGTGAGACCCCATGTCAAAAAAAAAACAAAAAACAGGGGCCTGCCTCAGCCA
Celera SNP ID:            hCV8860736
SNP Position Genomic:     8824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53361):
CCTCTTCTGCAGGTGTGGTGACTCTGCTGTCTGACTACGAGGTGTGCAAGGAGGGCGATGTGCTGACCCCAGAGCAGGCTCGCGTCCTGGTGAGTCTGGC
R
CCTTGCGGGCTGTTGCGGGCGGGGTTGCTGGCTTTCCTCTGCCTGCTGAAAATGCCCCCCTGCACTTTGAATACCTTCATTCCTCCTGATTCTTTGTTCC
Celera SNP ID:            hCV25942816
SNP Position Genomic:     13056
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53362):
GCGCTTGTTTAAAAAAAAAAAAAGTCAAAAAATTAGACAGCCATGGTGGTGTGTGCCTGTGGTCCTAGCTACATGGGAGGCTGAGGCAAGAGGATCACTA
K
AGCCCAGGAGGTCGAGGCTGCGGCAAATCAAAGGGACCTCAGGGAGACAGCCACTGCCCAGTGTGTGTTGGAGCCGTGGGGAGGGCAGGTGGCTGACTGG
Celera SNP ID:            hCV2506960
SNP Position Genomic:     12786
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53363):
TCCTGATTTGTAGGTCAGCAAAAGGTTGAGGGGTGAGGTGGGTCTCCTGTTCACCAACCGCACAAAGGAGGAGGTGAATGAGTAAGTACTGCTGAGGAAC
R
GAGGGAAAGAGGCGGGTGAGAGGGGATTTCAGGGAGGGAATGATGCAGGAACTTCGTTCCATATGTGGCATCAAGTTGGAACTGCTCCTGGAAGCCTGTC
Celera SNP ID:            hCV2506961
SNP Position Genomic:     12032
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,27)   caucasian(A,4|G,36)   total(A,11|G,63)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53364):
CACCAGGTAAGTCTCTGGCCCTCACGGGGTGGAGCTAAGGCAAAGCCGCCCTCTCTCCCACTACTCCCATGTGACAGCCTCCCCCAGCCATTGGCAGGCC
R
GAGGCTCAGGGAGAGCAGGGCCTGGCTTAAAGCTCTGGGTTCTCCCTTCACCTCCGGACCCAAGGAATAGCAGCTTCCTGCCTCCCACTCCTTCCTGCTA
Celera SNP ID:            hCV2506962
SNP Position Genomic:     11731
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,16)   caucasian(A,15|G,15)   total(A,29|G,31)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,10)   caucasian(A,25|G,9)   total(A,43|G,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53365):
GACAACCTGCACCAGGTAAGTCTCTGGCCCTCACGGGGTGGAGCTAAGGCAAAGCCGCCCTCTCTCCCACTACTCCCATGTGACAGCCTCCCCCAGCCAT
Y
GGCAGGCCGGAGGCTCAGGGAGAGCAGGGCCTGGCTTAAAGCTCTGGGTTCTCCCTTCACCTCCGGACCCAAGGAATAGCAGCTTCCTGCCTCCCACTCC
Celera SNP ID:            hCV2506963
SNP Position Genomic:     11722
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,21)   caucasian(C,5|T,21)   total(C,14|T,42)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53366):
TGATGGTGGCCTTGGGTCGGAGCCCATCTGATGAATACAAAGACAACCTGCACCAGGTAAGTCTCTGGCCCTCACGGGGTGGAGCTAAGGCAAAGCCGCC
Y
TCTCTCCCACTACTCCCATGTGACAGCCTCCCCCAGCCATTGGCAGGCCGGAGGCTCAGGGAGAGCAGGGCCTGGCTTAAAGCTCTGGGTTCTCCCTTCA
Celera SNP ID:            hCV2506964
SNP Position Genomic:     11681
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,13)   caucasian(C,23|T,5)   total(C,42|T,18)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53367):
TGCTCTTTCTCTTGCTTGGTAGGATGTTCTTTGGCAAAAACAAGGTGATGATGGTGGCCTTGGGTCGGAGCCCATCTGATGAATACAAAGACAACCTGCA
Y
CAGGTAAGTCTCTGGCCCTCACGGGGTGGAGCTAAGGCAAAGCCGCCCTCTCTCCCACTACTCCCATGTGACAGCCTCCCCCAGCCATTGGCAGGCCGGA
Celera SNP ID:            hCV2506965
SNP Position Genomic:     11633
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,4)   caucasian(C,28|T,2)   total(C,56|T,6)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:53368):
CAGGTGGCTCTGGTGGTGGTCTCTTGCCGCACCAGCTCTGGTTCAGGCTGTTAACATGCCTCCCGCATACATCCAGATAGAGAACTGGTACATGATGCTC
S
TGATGGGCTGGGAGACAAAATGTTGCCATGTCAGGAGTCTGTGGGTGGGAACATAATGAAAGGGACCCCGACGTGGGGACAGTGTGGCCAGGCAGCATGG
Celera SNP ID:            hCV2506966
SNP Position Genomic:     11327
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,22)   caucasian(C,9|G,23)   total(C,21|G,45)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;JBIC-allele(C,201|G,1298)   total(G,1298|C,201)
SNP Type:                 INTRON


Context             (SEQ ID NO:53369):
CGTAGCCCAAAGCCAGAAACGAGAAGCCCACTCAGCCGCCATGATGCGAGCGCATGCACCACCCACCGCCGTCCCGGCATGCACCGCGCCGCGGGCTCCG
Y
CTCCGCGGGACCACAGAGCTGGGATAGCGCGCGAGGCCCTCGGTCGGACGGGACGCTCGGGATTCAGGGACTGCCTCGGCACACGGGAAGTTGCCCTACA
Celera SNP ID:            hCV25941224
SNP Position Genomic:     6060
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,38)   total(C,72|T,2)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,36)   total(C,70|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:53370):
TACAAGTACCTTTTCATCTTCTCTGTGGCCAACATGAGGAACAGCAAGCTGAAGGACATCCGGAACGCCTGGAAGCACAGCCGGTGAGCGGGCAGGGGGA
R
GAAGGCCCTTCTGAGTGGGGACCCGGCCAGGCTGCTCTCAGTCAAAGCACAGGAGCAATTTCTGACCCTTTAGGTGCCTGGGTCATGCCGCTGACACCTT
Celera SNP ID:            hCV2506967
SNP Position Genomic:     10560
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,24|G,4)   total(A,57|G,7)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53371):
TGCCAGAAATGATGGCCACAAAGGCCTTGCTGCCTTTTTTCAGAATGGCTGCATCCAGCTGAGTGCTCTCTGCCAAAGGGGAGAAGAAAATAAGTCTCCA
R
TGCATTTAGATTGGTCTCTCATCATCTCTCTCCTTTTTGTTTTTATTAGTCTCCTTAACCAAAACTGCCAAGAAAGGCTTGGAATTGAAACAAAACCTGA
Celera SNP ID:            hCV2506968
SNP Position Genomic:     9224
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,12)   caucasian(A,4|G,22)   total(A,14|G,34)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53372):
CGCGAGGCCCTCGGTCGGACGGGACGCTCGGGATTCAGGGACTGCCTCGGCACACGGGAAGTTGCCCTACAGGCGCGGGAGAAAGCGCAGGCGGCGGCTT
R
GCAGGGAGAGGCAGGCTGCAGTGCACATTGGGTCAGGCACACGCGAGGGGCAGCCCCCGAGGGCCGTCCCAGAGTCCCCCGCGCCGCCGGGGTCCTAACG
Celera SNP ID:            hCV2506969
SNP Position Genomic:     6190
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,14)   caucasian(A,6|G,6)   total(A,14|G,20)
SNP Type:                 UTR 5;NONSENSE MUTATION

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   ;JBIC-allele(G,261|A,1230)   total(G,261|A,1230)
SNP Type:                 UTR 5;NONSENSE MUTATION


Context             (SEQ ID NO:53373):
GCCATGATGCGAGCGCATGCACCACCCACCGCCGTCCCGGCATGCACCGCGCCGCGGGCTCCGCCTCCGCGGGACCACAGAGCTGGGATAGCGCGCGAGG
S
CCTCGGTCGGACGGGACGCTCGGGATTCAGGGACTGCCTCGGCACACGGGAAGTTGCCCTACAGGCGCGGGAGAAAGCGCAGGCGGCGGCTTGGCAGGGA
Celera SNP ID:            hCV25941260
SNP Position Genomic:     6097
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,2)   caucasian(C,38)   total(C,72|G,2)   
SNP Type:                 UTR 5;MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,36)   total(C,72|G,2)
SNP Type:                 UTR 5;MISSENSE MUTATION


Context             (SEQ ID NO:53374):
GAAAATGCCCCCCTGCACTTTGAATACCTTCATTCCTCCTGATTCTTTGTTCCCTTTGTCTCTTGCAGAAGCTTTTTGGGTATGAGATGGCTGAATTCAA
R
GTGACCATCAAATACATGTGGGATTCACAGTCGGGAAGGTTCCAGCAGATGGGAGACGACTTGCCAGAGAGCGCATCTGAGTCCACAGAAGAGTCAGACT
Celera SNP ID:            hCV25939437
SNP Position Genomic:     13204
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,6|G,34)   total(A,10|G,66)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,6|G,34)   total(A,9|G,67)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53375):
GCAACATGACAAAACCTCATCTCTACAAAAAGAAAAGAAAAAAAAACTAGCTGGACGTGGTGGTACGCAGCCTGGGCAACAGAGTGAGACCCTGTCTTTA
A
AAAAAAAAAAAAGAGCTGGGAGATTTACCAGGTGTAGGTGACTGCACCAACCCACTGTCTGTACAGCTTCTGACCTGCCAACCTGGGCTGCAGGCTGGGT
Celera SNP ID:            hCV27269120
SNP Position Genomic:     9897
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53376):
GTGGGTACTAGGTGATGATGTTGCTGTTTTGCATTTGGGGTCACTGAAGCTTACAGAGATTTGTTAGCCTGCCCAATGTCAAAAAACAGGAGGCCAGGAA
Y
GGTGGGCCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGTGGGTCAGACAGCTTGAGTCTGGGAGCTCAAGAGCAGCCTGGGCAACATGACAAAACCT
Celera SNP ID:            hCV2242021
SNP Position Genomic:     9713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53377):
ACTCCATCCTCATAACATCCCTGTGATGTGGGTACTAGGTGATGATGTTGCTGTTTTGCATTTGGGGTCACTGAAGCTTACAGAGATTTGTTAGCCTGCC
Y
AATGTCAAAAAACAGGAGGCCAGGAACGGTGGGCCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGTGGGTCAGACAGCTTGAGTCTGGGAGCTCAAG
Celera SNP ID:            hCV2242022
SNP Position Genomic:     9686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53378):
CACTGACCTCCTGTAAAGAATAAAACTGTGGGCCGGGCGCGGTGGCTCACGCCTGGAATCCCAGCACTTTGGGAAGCCGAGGTGGGCAGATCATAAGGTC
R
GGAGATTAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATAGAAAAAAAAACTAGTTGGGCATAGTGGCATGTGCCTGTAGTCCCAG
Celera SNP ID:            hCV27269123
SNP Position Genomic:     13542
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:53379):
AAAAAAAAAAAATCTCCAAGCTGCCAATCCAGGCCTTTTTCCTCCAGCAGCAGCACCAGCAAAAACTTCCATAGTGATGATTTCCAGCTTTGACTAGCTC
R
TACTCTGTGCCCTGTCCTGCACTGTGTTTCTTATGCGTTGTTCCACTCCATCCTCATAACATCCCTGTGATGTGGGTACTAGGTGATGATGTTGCTGTTT
Celera SNP ID:            hCV2242023
SNP Position Genomic:     9541
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53380):
TTTTGTTTGTTTTTGATTTTTCTGTTTTAAAATTTTAAGGAGAGATGGGGTTTCACCATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGCGATCT
R
CCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGCATCCAGCCCACATTGTTCTATTTGTATTTCATGAAAGCAGTTCTGAATGAGA
Celera SNP ID:            hCV27501452
SNP Position Genomic:     14498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53381):
GCGGATTGCTTGAGCCCAAAGACTCAAGATCAGCCCAGGCTCAGGCCGGGCACGGTGGCTCATGCCTGTAATCCCAGCCCTTTGGGAGGCCGAGGCAGGC
R
GATCACGAGGTCAGGAGATGGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGACGGGCGCCT
Celera SNP ID:            hCV27269124
SNP Position Genomic:     15871
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:53382):
ATCCAGATAGAGAACTGGTACATGATGCTCGTGATGGGCTGGGAGACAAAATGTTGCCATGTCAGGAGTCTGTGGGTGGGAACATAATGAAAGGGACCCC
R
ACGTGGGGACAGTGTGGCCAGGCAGCATGGAGAAGTGGGTGCCACTGGCTCAGCCTGGGCCTGAGCTCACTGGGGACCGGAGCTACTTTGCATGTTGCTG
Celera SNP ID:            hCV8860740
SNP Position Genomic:     11397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53383):
CTGCCCACCGCCCTCAAGAGAGGTATGGGCAGCCCTGGAGCCAAAAGGTCACAGCCTAGAGTCCAAGAGCACGGGCCTGCAAGCTCATCCCTTTCTAGCT
R
AGCAAGTTATTTCTACAAGCTTCCATTTTCTCATGAGAAAATGGGGCTAAGAGTGCATGCCTCACAGTGGGGGTGAAAGCAGACAGTAACTTACAGCCAA
Celera SNP ID:            hCV25938929
SNP Position Genomic:     12554
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,2|G,36)   total(A,2|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:53384):
CACTGCTCTAATGTGACCAAGCTGTCCTCACTCCTGATTTGTAGGTCAGCAAAAGGTTGAGGGGTGAGGTGGGTCTCCTGTTCACCAACCGCACAAAGGA
R
GAGGTGAATGAGTAAGTACTGCTGAGGAACGGAGGGAAAGAGGCGGGTGAGAGGGGATTTCAGGGAGGGAATGATGCAGGAACTTCGTTCCATATGTGGC
Celera SNP ID:            hCV8860741
SNP Position Genomic:     12001
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,23)   caucasian(A,4|G,36)   total(A,11|G,59)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53385):
TGTAGATCCATGGCTCAGCCTCCCCTGTGGTTAGGGATCCTAATTTCAGTAATGGAGGTAGGAGACAACCAAATTAGAGGCCTCCAGTTCTTCCAGTTTC
M
ATAGTTGTCAGGGGCCCAGAGCAGATTCATTCTCATCTGAGGCCAGAGTAGTGCCCGTTGTATGCTGCTGCTTGAACTCAGAGCCTCGTGAATTGTCCCA
Celera SNP ID:            hCV25934357
SNP Position Genomic:     10335
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,15)   caucasian(C,30)   total(A,5|C,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:53386):
CTGAGGAAAATTAGGTATCCTTCCTAGCCCTCCACACACTTCCAAACCAGGGCTGCGGATCTGATGGATGCCAGGAAGACAGCCTTGGGCTGAGAGTGAC
R
TCACTGCAAGAGTTGAGAGCCAGCGTCTAAAGTGTCCACGGCATCCTGGGAGGTTTTATCCTTGGTGACTCTAATGGTAGATTTTTGTCCACCTTGTTCT
Celera SNP ID:            hCV8860742
SNP Position Genomic:     14291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53387):
GATGCCAGGAAGACAGCCTTGGGCTGAGAGTGACATCACTGCAAGAGTTGAGAGCCAGCGTCTAAAGTGTCCACGGCATCCTGGGAGGTTTTATCCTTGG
Y
GACTCTAATGGTAGATTTTTGTCCACCTTGTTCTATTTGCTTTTGTTTGTTTTTGATTTTTCTGTTTTAAAATTTTAAGGAGAGATGGGGTTTCACCATG
Celera SNP ID:            hCV8860743
SNP Position Genomic:     14357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53388):
TGGTCTCAAACTCCTGAGCTCAAGCGATCTACCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGCATCCAGCCCACATTGTTCTAT
Y
TGTATTTCATGAAAGCAGTTCTGAATGAGAGTAAATCAGCTTCAGGGTGTACAGTGGCCCTCTTTTTTCTGCCATGCATGGAAGAGGGCCACCTCCAGCC
Celera SNP ID:            hCV8860744
SNP Position Genomic:     14568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:53389):
GATGTGCTGACCCCAGAGCAGGCTCGCGTCCTGGTGAGTCTGGCGCCTTGCGGGCTGTTGCGGGCGGGGTTGCTGGCTTTCCTCTGCCTGCTGAAAATGC
S
CCCCTGCACTTTGAATACCTTCATTCCTCCTGATTCTTTGTTCCCTTTGTCTCTTGCAGAAGCTTTTTGGGTATGAGATGGCTGAATTCAAGGTGACCAT
Celera SNP ID:            hCV16188764
SNP Position Genomic:     13112
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|G,2)   total(C,74|G,2)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|G,2)   total(C,74|G,2)   
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53390):
TCCCCCCAAAAAGAAAAACATTAGTTTCAGTCAAACCCACGTTCGTTCCCTACCATGTGTAGCTGTGGGACCCTACACAAGTGAAATTGCCTCTGAGCCA
R
TTGCCTCATGTAAAACTGAGATGACCATACTTAACATGGCCATCGCAATAACTAGTGTTGGTTACCTGGCCGCTTAAGTAATTTGTGTAAGAACAGGTTT
Celera SNP ID:            hCV8860745
SNP Position Genomic:     16403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53391):
ACCCCAGAGCAGGCTCGCGTCCTGGTGAGTCTGGCGCCTTGCGGGCTGTTGCGGGCGGGGTTGCTGGCTTTCCTCTGCCTGCTGAAAATGCCCCCCTGCA
Y
TTTGAATACCTTCATTCCTCCTGATTCTTTGTTCCCTTTGTCTCTTGCAGAAGCTTTTTGGGTATGAGATGGCTGAATTCAAGGTGACCATCAAATACAT
Celera SNP ID:            hCV16188765
SNP Position Genomic:     13121
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|T,2)   total(C,74|T,2)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|T,2)   total(C,74|T,2)   
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53392):
TTGTTCTTTTCTAGAGCTTGCAATTGTTTGGTTTATAAAGGTAGGTATAGGACTGTTGGCCAGGGATAGGACTGTTGGCCAGGGGAACATACTAGTGGGG
A
AAAAAAAAAAATCTCCAAGCTGCCAATCCAGGCCTTTTTCCTCCAGCAGCAGCACCAGCAAAAACTTCCATAGTGATGATTTCCAGCTTTGACTAGCTCA
Celera SNP ID:            hCV9682283
SNP Position Genomic:     9441
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53393):
AATCAGCAGCGTAGCCCAAAGCCAGAAACGAGAAGCCCACTCAGCCGCCATGATGCGAGCGCATGCACCACCCACCGCCGTCCCGGCATGCACCGCGCCG
S
GGGCTCCGCCTCCGCGGGACCACAGAGCTGGGATAGCGCGCGAGGCCCTCGGTCGGACGGGACGCTCGGGATTCAGGGACTGCCTCGGCACACGGGAAGT
Celera SNP ID:            hCV25941214
SNP Position Genomic:     6051
SNP Source:               Applera
Population(Allele,Count): african american(C,21|G,15)   caucasian(C,34|G,4)   total(C,55|G,19)   
SNP Type:                 MISSENSE MUTATION;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,23|G,15)   caucasian(C,32|G,4)   total(C,55|G,19)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:53394):
TCCTAACGGGGTGCACCGTCTTCCGCCGCACGTGGATTCAGCGCGATGCCCAAATCCAAGCGCGACAAGAAAGGTGGGCGAAGGGGGAGTCGGGACCCTG
S
GGGGAGCTCCGTGGGCTGGCTACCCAGCCTGCGGTGAGGGCTTCGGGGCGGCGGGGGCGCAGATTGGAACGCCAGGACATCCTCGAGGTGTTCCGCTGCC
Celera SNP ID:            hCV25935825
SNP Position Genomic:     6383
SNP Source:               Applera
Population(Allele,Count): african american(G,4)   caucasian(C,4|G,4)   total(C,4|G,8)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:53395):
CATTGTGCCTCTGACACCCTCTCAGTGCCTCTGTTCTTTGGAGACTTCCTACTCCCGCCCACTTCTCACCACGCCCTTGGGAAGGACAGCAGGAAGCAGG
S
TTCGGGCAGAAGAGGAATTCACCATGTTCACCCAGGCCTAGGCCAGGTCAAGCACCAGCCTCAGCAGGAAGTGCTGAAGGAGAGCTCAGGCCCGGCCCTC
Celera SNP ID:            hCV2506958
SNP Position Genomic:     14823
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:53396):
CTAAGATCAGGAACTTTCCAGCAGCCCACACACGACATCTAAATTTGATATATTAAGGAATAGCGATAAAGTGTGTAGCTTTTTTTTTAATAAGAGATGG
Y
GGTCTTGCTTTAATATCCAGGCCAAACTCCTAAGCTCAAGCAATCCTCCTATCTTGGCCTCCTAAGGCTGGAACTACAGGCCTATGACACCATGCCTGGC
Celera SNP ID:            hCV15839565
SNP Position Genomic:     18040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Gene Number:                 258
Celera Gene:                 hCG41083 - 119000107776268
Gene Symbol:                 KIAA0090
Protein Name:                KIAA0090 protein
Celera Genomic Axis:         GA_x5YUV32W3P1(2341385..2387460)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12418):
TTCCTCAGCAGTACTTACTCATTCACCTCCTCCTTTGTGCGGTTGGTGAACAGGAGACCCACCTCACCCCTCAACCTTTTGCTGACCTACAAATCAGGAG
TGAGGACAGCTTGGTCACATTAGAGCAGTGGTTCTCTACTAGGCACGTTTTTGCTCACCGGGTACATTTGGCAACATTTAAAGACGTTTTTGGTTGTCAT
AGCAGGAAGGAGTGGGAGGCAGGAAGCTGCTATTCCTTGGGTCCGGAGGTGAAGGGAGAACCCAGAGCTTTAAGCCAGGCCCTGCTCTCCCTGAGCCTCC
GGCCTGCCAATGGCTGGGGGAGGCTGTCACATGGGAGTAGTGGGAGAGAGGGCGGCTTTGCCTTAGCTCCACCCCGTGAGGGCCAGAGACTTACCTGRTG
CAGGTTGTCTTTGTATTCATCAGATGGGCTCCGACCCAAGGCCACCATCATCACCTTGTTTTTGCCAAAGAACATCCTACCAAGCAAGAGAAAGAGCATT
CTGTGAAGGAAGAGCCCTGCCCTCCCCATCCCTCAGCAACATGCAAAGTAGCTCCGGTCCCCAGTGAGCTCAGGCCCAGGCTGAGCCAGTGGCACCCACT
TCTCCATGCTGCCTGGCCACACTGTCCCCACGTCGGGGTCCCTTTCATTATGTTCCCACCCACAGACTCCTGACATGGCAACATTTTGTCTCCCAGCCCA
TCACGAGCATCATGTACCAGTTCTCTATCTGGATGTATGCGGGAGGCATGTTAACAGCCTGAACCAGAGCTGGTGCGGCAAGAGACCACCACCAGAGCCA
CCTGCCCCAGGACAGAAACTTGCCATGTGGCTCCTGCATCCTGCTCCCAGGTCACTGTCTGTGTCGCAGTGTCCCTACTGACATTCTAAAACTGGTGTGA
TGCTCCTAAATGGCCCACAGTCCAGGGTTAAAGGGCCACTTCTCCGGAAAGGCCCACCTCTCAAACATCTCCTGAGCAACTGCCAAGTCCTGCCCCTAGG
AGCTCAGTGCAAAATCTGCTTTTTGAGGTGGAGTTTCACTCTGTCACCCAGGCTGGAGTGCGATGGTGCAATCTCAGCTCATTGCAGCCTCTGCCTCATG
GGTTCAAGTGATTCTTCTGCTTCAGCCTCCTGAGTAGCTGGGATTATAGGTGCCTGCCACCATGCCCGGCTAATTTTTGTATTTTCAGTAGAGAAGGGGT
TTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACTTCAGGTGATCCCCCTGCCTCAGCCTCCCAAAGTGCCAGGATTACAGGCGTGAACCACCGCAC
CCTGCCCAAGACCAGCTTTAACAGTGAAAAGGAAGTGCTCTTCAGTGGCAGGTAGCACTTTGTCCTTATTAAGGTGTCAGCGGCATGACCCAGGCACCTA
AAGGGTCAGAAATTGCTCCTGTGCTTTGACTGAGAGCAGCCTGGCCGGGTCCCCACTCAGAAGGGCCTTCYTCCCCCTGCCCGCTCACCGGCTGTGCTTC
CAGGCGTTCCGGATGTCCTTCAGCTTGCTGTTCCTCATGTTGGCCACAGAGAAGATGAAAAGGTACTTGTAGGTGTCCACACATTTCCGAAGCTGTGGGA
CAATTCACGAGGCTCTGAGTTCAAGCAGCAGCATACAACGGGCACTACTCTGGCCTCAGATGAGAATGAATCTGCTCTGGGCCCCTGACAACTATGGAAA
CTGGAAGAACTGGAGGCCTCTAATTTGGTTGTCTCCTACCTCCATTACTGAAATTAGGATCCCTAACCACAGGGGAGGCTGAGCCATGGATCTACACCCC
ACGGCCTTTTCCAGGTCTCTCACTTATTTATGACCAACAGTGGAACTGATCATCAGCTGTTAACCTAGAAACATTCACCCACATTAGGAAGGGTCCTGCT
ACATGGAAACACATGGAGCCTCTCTGTTATAAGGGGAGGCAGCTGATCGGTACTGCTCTGCACGTGGTGCTGGCCAAAGCCACCATGAGGCAGCCTCTAG
GAGTGGAGTCATTGTGCAGGAGGAGACTGTTTCACCCAGCCTGCAGCCCAGGTTGGCAGGTCAGAAGCTGTACAGACAGTGGGTTGGTGCAGTCACCTAC
ACCTGGTAAATCTCCCAGCTCTTTTTTTTTTTTTTAAAGACAGGGTCTCACTCTGTTGCCCAGGCTGCGTACCACCACGTCCAGCTAGTTTTTTTTTCTT
TTCTTTTTGTAGAGATGAGGTTTTGTCATGTTGCCCAGGCTGCTCTTGAGCTCCCAGACTCAAGCTGTCTGACCCACTTGGCCTCCCAAAGTGCTGGGAT
TACAGGCGTGGCCCACCGTTCCTGGCCTCCTGTTTTTTGACATTGGGCAGGCTAACAAATCTCTGTAAGCTTCAGTGACCCCAAATGCAAAACAGCAACA
TCATCACCTAGTACCCACATCACAGGGATGTTATGAGGATGGAGTGGAACAACGCATAAGAAACACAGTGCAGGACAGGGCACAGAGTATGAGCTAGTCA
AAGCTGGAAATCATCACTATGGAAGTTTTTGCTGGTGCTGCTGCTGGAGGAAAAAGGCCTGGATTGGCAGCTTGGAGATTTTTTTTTTTTCCCCACTAGT
ATGTTCCCCTGGCCAACAGTCCTATCCCTGGCCAACAGTCCTATACCTACCTTTATAAACCAAACAATTGCAAGCTCTAGAAAAGAACAACCTCTTACCT
CTTCTATCAGGTTTTGTTTCAATTCCAAGCCTTTCTTGGCAGTTTTGGTTAAGGAGACTAATAAAAACAAAAAGGAGAGAGATGATGAGAGACCAATCTA
AATGCACTGGAGACTTATTTTCTTCTCCCCTTTGGCAGAGAGCACTCAGCTGGATGCAGCCATTCTGAAAAAAGGCAGCAAGGCCTTTGTGGCCATCATT
TCTGGCACACAAAGCCATTCCCAGGGCCCATGGAATGCCTACTCATTAGCATTCCTGGGCCTGAAGATCCCTGGATATAACTCCTGCTATTTAGACAAAC
TAGGCCTTTCTTAGCTCCTAAGGCTGACCCAAAAAACTTGATTGCAGTGTGGGGGTGGAGGCTGTTCCTGCTGCTAGAAGTGCTCTCAGTGGCAGACCTC
ACCTGCTGGCTGAGGCAGGCCCCTGTTTTTTGTTTTTTTTTTGACATGGGGTCTCACTCTGTCACCCAGGCTGGACTGCAATGGCACGATCTGGGCTCAC
TGCAACTTTGAGCTCCTAGGCTCAGGCAATCCTCCCACACAGGACTACAGGCACACACCACCATGGCCTGCTAATTTTGGCTGGGACCACAGAAATGCAC
CACCATGCCCAGGTGAGTTTTGTATTTTTTGCAGAGATGGCTTTTGCCATGTTGCCCAGGTTGGTCTCGAACTCCTGGGCTCAAGAGATCTGCCTACCTC
AGTCTCCCAAAGTGTTGGAATCATAGGTGTGAGCCACCATGCCTGGCCCCTTGCTGCTCTTGACCATGATGCAGAGGCCACTCTAGCTGGCCTATGCTGT
GCAACCATGAGGCTGGGGACTGAATCTCCTGGTATGTATCTGCACCCCAGTATTGCAATTTGGACCCAAAGACGCAGCAACACCTCTCTGGGGAGGAACA
TGTACCTCTACTGTAAAAATGGCTGGGGCCCAATTTGCCCTCTACCCACAGAGTTTGGCATTTGCCAGACCTGACCCAGGCCCCTCCACAGAATCAAATC
GTTCCAGAAACACTTAACAGAACTCCAACTGCAAAGCCCCGGGCGCCTTCACAAAGGGACCCAGGCCTCTCTTCTTTAACCTGCCCGCACTCAGCCCCTC
TTAACTAGGTACCACACAGACAAAGACAATGACATCAGTCAATGGTAAGTGGAGCAGAGGAGGGCAAACGAAATATAGCGGGCCACTTCCCATCATTTCC
ACTGTTATACCTTTGGCTCAAGCCAGCATCACCCTGTCTTGGATTAATGCTGGTCTCACTGCTTCCATTCCTGCCCTCTGCCCTGTCTTCCCCAACTATT
CTCACCAAGGCAACCAGAGTGACCCTTCATAAGTAAAGGTAAATCACATGGGTCCTCTGCTACTCACTTCACCTGGGCAGGAAAGCCAATGCCTTGCCAA
GGCCGAGGAAGTCCTGCCCTCTCTGCCTAACTCCCTCCCCAAACTCTATTTGGCTCCTTCTGCTCCAGCCTCACTGGCCTCTTGTCCCAAACACGTCATA
TCTGCTCCCATTTCAGAGCCTTTTCACTTCAGGTTCCCTCTACTTGGAACAGCATTCTCCCAGATAATTCCACAGCTGCTCAATTCCACAGGTTGCTCGC
TTCCTTTCTTTATTTTCTGCTCATTTGTCACTTCATCAGTGAGACCTTTCCCGACCACACTATACAAAATATCAACATCTCTTCACCCCATTTTCAATCT
GATTTTTAGCATTTTGCGGAATATGTTTCTCCTAAAACGTTAGGCTCGATAAGAAATAGGCTTTCCTTGTGACTGCTGTATCCTCTAACGCCTAGAAAGT
GCCAGACCCCTAAATATTTTTGAATATTCCAGGGAGCCGGGTTAAGAGAGAGGCCACCACAGCAAAGGTGGTCAAAAACGGTCTCTTAAGAGGTGCGCAA
GTCGGGTGTAGTGGCTCACGCCTGTAATCCCAGCACTCAGGGAGGGTGGTTGGAGCCCAGGTGTTCGAGACCAGCTTGGCAACACACTGAGTCTTCTCTA
TAAAAAATAAACAAAAAAAACCTAGCTGGGTGTGGTGGCGTGCGCCTGTAGTCTCAGCTACTCGGGAGGTTGAGGTGGGAGGATCGCTTAAGCCAAGGAG
GTCAAGGCTGCAGTGACTTATTTTATTTATTTATTTTTGAGACGGAGTCTCGCTCTGTCGTGCCCAGGCTGCAGTACAGTGGAGCGATCTCGGCTCATTG
CAACCTCCGCCTCCCGGATTCAAGCGATTCTCCCGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGCACCTGCCACCATGCCCATCTAATTTTTAGTATT
TTTAGTAGAAAAGGGGTTTCACCATATTGGCCAGGCTGGTCGGGAACTCCCGACCTCAGATGATTCGCCCGCCTCGGCCTCCCAGAGTGCTGGGATTACA
GGCGTGAGCCACCGCATCCGGCCTGCAGTGTTACGATCGCGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACCCTGTCTCAGAGGGATCCTATTAAC
TGACAACTAAGAAGGCGCAAACCATACGAAGATGTAAGCATGCCAGGCAGAAACAACCGCAGACACACAACGCCAGACACGGGAACAAACCTGTGCTGAA
AGAAGGGAAAGGCAGCCAGGGTGGCGGGAGCGCAGGAAGATGAGAAAGGGCCGAAGTTGGGAAAAGTGGGCCGAAACGGCAGCAGGCATAGCCGGGGGCG
GTGTTCAGGAGCTGCCTCCCGACCCAGTTGGCCTTGCAAGAGCACCTGAAACTAGGCAAAACGAGTCTCCGCTCCCCAGACCCGACCGGGCGTCAGCCAC
CTCTGGCGGTTTTACAGCCCCGAAGCCCCCATTCCAGCTCGCAGCGAGGCAGCGGAACACCTCGAGGATGTCCTGGCGTTCCAATCTGCGCCCCCGCCGC
CCCGAAGCCCTCACCGCAGGCTGGGTAGCCAGCCCACGGAGCTCCCCCCAGGGTCCCGACTCCCCCTTCGCCCACCTTTCTTGTCGCGCTTGGATTTGGG
CATCGCGCTGAATCCACGTGCGGCGGAAGACGGTGCACCCCGTTAGGACCCCGGCGGCGCGGGGGACTCTGGGACGGCCCTCGGGGGCTGCCCCTCGCGT
GTGCCTGACCCAATGTGCACTGCAGCCTGCCTCTCCCTGCCAAGCCGCCGCCTGCGCTTTCTCCCGCGCCTGTAGGGCAACTTCCCGTGTGCCGAGGCAG
TCCCTGAATCCCGAGCGTCCCGTCCGACCGAGGGCCTCGCGCGCTATCCCAGCTCTGTGGTCCCGCGGAGGCGGAGCCCSCGGCGCGGTGCATGCCGGGA
CGGCGRTGGGTGGTGCATGCGCTCGCATCATGGCGGCTGAGTGGGCTTCTCGTTTCTGGCTTTGGGCTACGCTGCTGATTCCTGCGGCCGCGGTCTACGA
AGACCAAGTGGGCAAGTTTGATTGGTGCGTACGTGTGGAACATATTCGAGAGATAAGTGGCTGTTTCCCCAGTACCTGTCTCCTACCTGCTAAAGGTTGT
CACTTAACAGGATTGGCCGCATAATTTGCAGGACCCAGTACAAAATGAAAACGTGGGGCCCCTTGTTAAAAAATTATTAAGGATTTAAAGTCGTTGGAAG
CAGAGCCTTAAACCAAGTGTTAGGGGTCATTCTAAGCTGATCCTTGCGTGTAAGCCGGCCCTGCCATCCAGGAATGCTTGGGGTGCCGGTCAGAGATCAC
TGATCCCGTCCTCCCTCGTCAGGTTCGATTTTTTTGACTGTGAGGTTTCTGGTCTACCAGGTGTCAGAGGTCGCCAAGCTGTCAGTGAACTTTAATTCCT
ACTCGAATTGGTGTCTTGTAGGCAAGTGAACAGGAGCTTTCGTCTTAAAAGTCCTAAACTGAGTCCTTTTCCCCTCTCATCAACCTAGTCTGGCCCTGGG
CTCACAGCAGGATTGCCCAAAACACTAAGCAGCTAGAATATGCCATTCACTCATTCATTCATTCACCCACCCACGTCTTCCTTAAGGCCCTGGAGTAGCT
TGCTTTTGTTTGAATTTTACTAGTTAAGACTTGTGTGATCTTGGGGAAAGTGACTTAACCACTCTGTGCCTTGGTTTCTTTGTCTGTAGAATGGGTTTAC
TAACAGTCCGTTATCTCTTACAGTACTTGTGAGAATGAATGAGACAATCCCATTAAATTACTTAGCACAATGCCTGGCTCATTGAATGCAGTCATTAAGC
GTTATCTGTTATTATTGCTATTTACACTTTATTCTTCAGGGCCCAGGTCAGATTTCTCCTCCTCTGAAGTATTTTCTGTCTTGGAAAAGTTGATTCGCAT
ATATGTTGAGTACCTGTTATGCCAGACAGTGTGACAAATAAAACATGTTACATTTTTAATGATGTGCACAACTGTTCACAATGTCATATGTGTATGTTAC
ACATATATATCGGGTGATATGTGTATCTAATTTTGCAGAATACTTGATATATGCAATTTTCTTAATTTTATTTTCATGAATGAATGAATGAATGAATGGC
ATTTCCTAACTGCTTAGTGTCTTGGGCAGCTCTGCTCTGAGCCCAGGGCCAGGTTAGGCTGATGAGGGGGGAAAAGGACTCTGTTTAAGACTTTTTTTTT
TTTTTTTTTTTTTTTTTTTGAGACAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGTAATGGCGCGATCTCATGGCTCACCACAACCTCCGCCTCTGGGGTT
CAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCRCACCCAGCTAATTTTTGTATTTTTGGTAGAGACAGGGTTTCT
CCATGTTGGTCAGGCTGGTCTCAAACTCCCGATCTCAGGTAATCCACCCGCCTAGGCCTCCCAAAGTGTTGGAATTACAGGTGGGAGCCACTGYGCCCAG
CCAAGACTTTTTAAAATTTTTTGAGACAGGGACTCATTCTGTAGCCCAGGCTGGAGTACAGTACTATCATGGCTCACTGCAGCTTTGACCTTGCAGGTTC
AAGTGACCCTCCCAGCTCAGCCTCCTGAGTAGCTGGGACTACTGGTGCACACCTCTCCAGTTTCTTTGTATTTTTTGTAGAGACGGGGTTTTGCCATGTT
GCCCAGGCTGGTCTTGAACACCTGGGCTCAAGCAATCTGGCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCCTACAG
TTTTCAGATTGAAAAATAAATGAAGACATACAGGTRTGCATCACTTAATGATGGGAATACATCCTGAGAAATGCCCTCTTGTGCAAACGTTGTAGCRTGT
ACTTATGTAAATCTAGATGGTTTAGCCTACTACACACCTAGGCTATATGGTACAGCCTATTCTTCCTAGGCTACAAACCTGTACGGCATGTTACTTTACT
GAAAACTGTAGGCAATTGTAACACAATGGTAAATATTTGTGTATCTAAACATAGAAAATGTATGGTAAAAATAGGATATGAAAGATAAAAAATGGTACAC
TGGTATAGGGCACTTAACATGAATGTATCTTGCAGAACTAGGAGTTGTTCTGGGGTTAGTCAGTAAGTGGTTGGTGAGTAAATGTAAAGGCTTAGGACAT
TACTGTACACTACTGTGGACTTTATAAATACTGTGCATTTAGACTATACTAAATTTATAAAATTTCTTCAATAATAAGTTAACCTTAGCTTAATGTAACT
TTTTTACTTTACAAACATTTTATTTTTTTAATTTTTGACTTTTGTAATAATACTTAGTATAAAACACAGACTTTACAGCTGTACAAAAATATATTTTTAA
AATTTATTTTTGACATGGGATCTTGCTATGTTCCCCAGGCAGATATTGAACTCCTGGACTCAAGCAAGCCTCCTGCCTCAGCCTCCCTAGCAACTGGGAT
TACAGGCATATGCTACCATGCCTGACTTAATAATATTTTTCTTATATCTTTATTCTATAAGCTTTTTCCTACAATACTAAAATTTTTTTTTTCAGTCTTA
AACTATTTTGTTAAAAACTAAGACACAGGCCGGGCGCAGTGGCTAACATCTGTAATCCTAGCACTTTGGGAGGCTGAGGTGGGTGGATGGCTTGAGTCCA
GGAGTTCAAGACCAGCTTGGGGCTGGGCGTGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAAGTCAAGAGGTCAA
GACCATCGTGGCCAACATGGTGAAACCCCGTCTCTCCTAAAAATACGAAAATTAGCTGGGCGTGGTGGCACACGCCTGTAGTCCCAGCTACTTGGGAGGC
TGAGGCAGGAGAATTACTTGAACCTGGGAGACGGAGGTTGCAGTGAGTTGAGATCACGCCACTGCACTCAGCCTGGCAACAGAGCGAGACTCCATCTCAG
AAACAAAACAAAACAAAACAAAAAACAGGTTGGGCAATATGGCGAAACCCCATTTCTGCAAAGCATACAAAAATTAGCCGGGCATGGTGGTGGGTGCCTG
TAGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGGATCACCTAAGCCTGGGAGGTCGTGGCTGTAGTGAGCTGTGATGGTGCCTCTGTACTCCAGTCTGGG
TGACAGAGTAAGAGCATCTCAAAAAACAAGCAAACAAAAAACAAACTAAGACACAAACACATTAGCCTGGGCCTAAATAGGGTCAGGATCATCAATATCA
CTGTCTTCCACCTCCACATACTGTCTTACTGGCAGGTTTTCAGGAGCAGTAACACCCATGGAGCTATCATCTGTGATAACAATGCCTGTTTCTGGAATAC
CTCTTTTTTTTTTTGGGACAGAGTCTTACTCTGTCGCTCAGCCTGGAGTGAAGTGGCATGATCTCAGCTCACTACAACCTCCACCTCCCGGGTTCAAGTG
ATTCTCATGTCTCAGCCTCCCAAGTAGCTGGGACTGTGGTGCACAGCACTATGCCTGGCTAATTTTTGTATTTTTAGTAGAAATGGGGTTTCACCATGTT
GGCCAGGCTGTTCTTGAACTCCTGACCTCAGGTGATCTGCTCGCCTCCGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACTGCGGCCAGCTTGGAA
TACCTCTTGAAGCACCTGCATGAGACTATTTTACAGTTAATTTTCTTTTAATAAGTAGAAGGAGTACTCTAACCATAAAAAGTAGATACGTAAACCAGTA
ACACAGTCATTTATTATCATTGTCAAGTATTATGTAGTATACATTATTGAATATGCTGTACTTTTATACAGCTGGCAGTACAGTGGGTTTGTTTACACCA
CCTTCACCGCAAACGTGATTAATGCATTCGACTACAATGTTATAGCAGCTACAATGTTACTAGGTTATAGGAATTTTTCAGCTCCATTATACTCTTGTGT
GACCACCACTGTATATGCTGTATATGCGATCAATCATTGACTGAAACATTGTTTTGCAGTGCATGACTGTATAGTAAAACGTTAAAAGTATATGTACAAA
GCTGGGCACAATGGCATGCACCTGAAATCCCAGCTACTTGGGAGGCTGAGATGGGAGTATTACTTGAGCCCAGGAGTTCAATCCAGCCTAGGCAGCACAG
TGAGATCCCATCTCAAATAATAAAAAGTGTATCTATAGTGGTGGTTGTATTAGTTTTCTCAGGCTGCTATAATGAAATACCATAGACTAGGTGGCTTAAA
CAATAGAAATTGATATTCTCACAGTTCTGGAGGCTGGAAATTCAAGATCAAGGCATTGGCAGGTTTTGTTTCCTCTGAGGCCTCGCTCATTGGCTTGCAA
AAGGCTGCCTTCTTGCTGTATCCTTACATGGCCTTTACTGTGCTTACACATCCCTGATGTCTCTTCCTCTATTGGATTAAGGCCTCACCCTTTTGACTTT
ATTAAAACATAATTACATTTTTAAAGGCCTTGCCGTCAAATACTGTAACACTGGGGGATAGGGTTTCAACACAGGAGTTTTTGAGGATACAATTCAATCC
AGAAGAGTGATATATTACATTTTAAAATTTTTATTATTTATTTATTTTTTATTGTTTTGAGACAGAGTCTTGCTCTGTCACCCACGCCGGAGTACAGYGG
CATGATCTTGGCTCACTGCAACCTCCGCTTCCAGGGTTCAAACGATTTTCCTGCCTTAGCCTCCCAAGTAGCTGGGATTATAGGTGCCCATCACGCCCAG
CTAATTTTTGTACTTTTATAAGAGATGGAGTTTTACCATGTTGGCCAGGCTGGTCTCAAACTCCGGACCTCAAGTGTTCGGCATGCCTGGACCTTCCAAA
GTGCTGAGATTACAGGTGTGAGCCACCGTGCCTGGTGGAGATTTTTAAATTGTTATAAGTGTTCCCCCCACCCACTCATTTTCTGTAATAAGGAGGCATT
ACTTTTATATCCAGATAAAACAACAGTATTTTATTTACTTATTTATTTGAGACAGAGGCCCACTCTGTCGCCCAGGATGGAGTTCAGTGACACGATCTTG
GATCACTGCAACCTCTGCTTCCTGAGTTCAAGCGATTCTTTTGCCTCAGCCTCCCGAGTAGTTGGGATGACAGGCACGTGCCACCACGCCCAGCTAATTT
TTGCATTTTTAGTAGAGATGGGTTCTCACCAAGTTGGCCAGCTGGTCTCGAACTCCTGATCTTAAATGATCCACCCACCTTGGCCTCCCAAAGTGCTGGG
ATTATAGGCGTGAGCCACTGCGCCTGGCCTGTTTATTTTTTTGAGACAGAGTCTTGTCAGGTTGGAGTGCAATGGTGTGATCTCGGCTCACTGCAGCCTC
GACCTCCTGGGCTCAAGCGATCCTAATCGAGAAAATTATTAGCCTCACATGGTAGGCTACCAAGTACAAAGGAGGTGCTTGCTCTGTGCTGTTAAGAAGT
GCTGTGATCTCAGTCGGGCGTGGTGACTCACGCCTGTAATCCCAACACTTTGGAAGGCCGAGGCGGGTGGGTCAGTTGAGGTCAGGAGTTCGAGACCAGC
CTGGCCAACATGGTGAAACCCCATGTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCAGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGA
TAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCACCATTGCACTCCAGCCTGGGGGACAAGAGTGAGACTTCGTCTCAAAA
AAAAAAAAAAGAAAGGTAAGGTGCCCTTTTGGGTGTCACTTATCTGAAGGTAAATATGTGCTTCCATTTAGAAGGAAGAGTTAGTATTATCTATTAGGAG
CTAATTTTCTTCTCTTACTCTCTTTGCATCTGACTACATTGAATGGAAATCTTGCTTTTGGTCAGAGCTCTTCACTAACAAACACTTCTTTTTTTTGAGA
TGGAGTTTTGCTCTTGTTGCCCAGGCTGAAGTGCAATGGTGCGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCCAGCAATTCTCCTGCCTCAGCC
TCCCGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCCAGCTAATTTTGTATTTTTCATAGAGACAGACGGGGTTTCTCCATGTTGATCAGGTTGGTC
TCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCACTGCGCCCAGCTAACAAACACGTCTTATGT
GTCCTAAAATGAATGTGATGGTGATAGCCCTGTGATTTTTTTTCCRGAGCATTTTGTGGAATGGTGATTTTAGCTCCTTATGGTCCCCTGTACTCTTTTT
TTCTCAGGAGACAGCAATATGTTGGGAAGGTCAAGTTTGCCTCCTTGGAATTTTCCCCTGGATCCAAGAAGTTGGTTGTAGCCACAGAGAAGAATGTGAT
TGCAGCATTAAATTCCCGAACTGGGGAGATCTGTGAGTGAACTGAGAACTGTGTSTACTGGCTGCCTCAGGGATGAAAGACTTACCATTGCCAACTCTGC
CTGGCTGATTCCTGAATAAGGAACATGTTGGCCAAAAGATGCCTCTCCTAGTGGATTCTGATACTTTTTTTTTTTCAGTCTTACCATCTTTGAATATTTG
TATGTTCCTATAACTGACCTTTGCGGTTTGTTCTCTCAGCTTGAATCCTGAGTGTCCTTAAATAAGATATTGCTGCAAGCCCAGGYGGGAGGATCACTTG
AGCTCAGGAGTTCGAGACCAGCCTGGGGATCACAGTGAGGCCCCATGTCTAAAATTAAAAAAATCAGGCATGGTGGCGTGTGCCTAGATTCCCAGCTACT
TGGGAGACTGAGGTGGGAGGATTGCTTGAGCCCAGCAGGTTGAGGCTGCAGTGAGCTGTGATCATGCCAGTTCACTCCAGCCTGGGCAATAGRGCAACAC
CTTGTCTCAAAAAAAAAGATGCTGCTGCAAAAAACACATTATTCTACTTTGCAGTAAACTCTCAGATACCCTCACTTAATTACCTACACTGGCCGGATGT
TTTTAGGCACTAAAATAAGGGAAATAGAATTTATGATCACTATTTTTCTTGTGAATTGGATGGATTTTATTAATCTTATTGTTGTTTGTTTATATGTTTG
ATGGGGTGGTAGTGGGGCCTGGACAGTAGTGGCCCCTCTTAACCCCTTCTACCCTCATTACCCCGTGAATGGGACTGGATCACTGCCAGTTAGCTATACT
CCTTCACTCCCTCGAGATAAAATTGGACATTGCTGTGCAAATGAAGAGCTCTTCATTTATTTCTTAGTCTTCTGGGTTGCCACCTTTTGTTCATAGTAAT
GTCTAACTTTCATGTCTCTCAGTGTGGCGCCATGTTGACAAGGGCACGGCAGAAGGGGCTGTGGATGCCATGCTGCTGCACGGACAGGGTAAGCAGAGTC
CTCCCSTGTCTCCATTGTGCGGCCAGCTCCCTGTCCCATTCCTTGGCTCCTTGATCTGTACAGGGTCTGGTAGGGAAAGRAGACTGGGGACTCCTGACAG
TGAAGGACAGGTACCTGTTTAACATGTATTTGCATCCAGAAATCAGAGGTGAGGCCACTGCTCACAGTGGGACCCTAGGAAGCGACAGAGCAAGTGGGAA
ATGACTTCACCACGATCTTTTCTTTTCCAGATGTGATCACTGTGTCCAATGGAGGCCGAATCATGCGTTCCTGGGAGACTAACATYGGGGGCCTGAACTG
GGAGATAACCCTGGACAGTGGCAGGTAGGGGAGAAACTGGATTTTATCTTGACTGAGTTAAAGGCTTCACCGGAACACAGATCTGCATAGACAGCAACTC
TGGGCTTTTGGCTTTTTCCCAGGGACCACTGAAGAGCCAGCCATTGACATTGAGTACCCATTGTGGATATGCTTGCTCAGCCAACATGTATTGAGCGCCT
GTTAGATGCAGAGTTTCTAGGTGCAATRTTTGCGCTTGTGCTTGAATGCTGTTCCTAATTTCACTGTGATTCGTGAGTTTTGCAATGTTCCAGATATAAG
AACATAATATAAAACTTCCACTGTTTAGTTTTGTTTAAAGAACAGCCTGACCTATTGTTAACATCTTTGCTAAAGTTGTTTATTTTTATTTATTGAGTTT
TTTGAGACATAGTTTCACTCTGTCACCCAGGCTAGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACCTTCACCTCCCAGGTTCAAGCAGTTCTCGTGCC
TCAGCCTCTCCAGTAGCTGGGATTATAGGCATGTGAACCACGCCTGGCTAATTTTTGTATTATTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGG
TCTCGAACTCCTGACCCCGTGATCCTCCCACCTCAGCCTCTCAAAGTGTTGGGATTACAGGCATGAGCCACCGGGCCTGGCCCCTAAAGTTGTTCAAATG
ATAGGGTCATTTGTATTAGCTTATACATTTTCTGATAGTAATTCATTTGGTAAACACGTGCTGAGCCCCAGGCGATGAGAACACATGGGACTGTGAGACA
GTTGCTGTCATTGAGGATTCCGCTGTCCATTGGGAGGCAGGCAGGTAGCACAGTAATGACAGCACTGTCTCATGGATATGTGGCAGAGGGTAGGTCCAGT
TGCTGTGAAGTCCCAGGGGAAGGAGGGAACAGCCCTTAGGAGATACAGATGGTTTCAGGGAAGCAAGTAGTGTGGCCAAATGGTTGCAAGTGCAGAATCT
CAAGTTGACTAACAAGAGGCAGAGCCAGGGTTAGGATCCAGCTGTGTTTGACCCCAAAGCCTGTTTTCTTACCCACTAAGCAACAGTGGGTACTGTTCTG
GACTGTCTCTCCCAGCCTGAGGCTCTGCASGTGTGGGCTGCTCTCAACCTGTACTTGTGYTCAGTTTCCAGGCACTTGGGCTGGTTGGCCTGCAGGAGTC
TGTAAGGTACATCGCAGTCCTGAAGAAGACTACACTTGCCCTCCATCACCTCTCCAGTGGGCACCTCAAGTGGGTGGAACATCTCCCAGAAAGGTAAGGC
TGCCTGCTCACAGGCAATAGCTGCCTCGTTCTACTCTCTAGGAGCTCCTCTTTCTCCTCGAGGGACCCGAAGCATTTGCTTTAACCCAGGCCTGTCTCTT
GTTGGTGTTSCATGGAGTGTGTTGCACTCAGAATATCTTGAAGGCTGTGAGTATGGGTGAAACTCCGGAGTATGCCTGGAGTTTCCTTTGCACTGAGGAG
AACACTCTCAAACTGGGGTGCTAGGGCGWGCCATGCTACGGGAGCCACTCACTCGCTCATGGTTATGGTACTTTGTGCCTTCTGACTTCTAGTTCAAGTT
CTAGTTCTAGTTCTAGTTCTGACTGAGCCTTTCGTTCATATTAAGAGTTAGAACAACTCAAGAAGACCCAGGGTAGGCTGAGTGAGGTGTGAAATGGTTT
CTCGAGGTCCTGCTGGTAGAAAGCATCGAAATTGGGAAGGAACAAGAGAGAAGGAACAAGATAAAAGGATCTACTTAGACACCCTGTGGCCATTTTCAAA
GTTTAGAGCAGGACTCAAAACTTCAAATTCTGGCCTGGCATGGTGTCTCACGCCTGTAATCCCTGCACTTTGGGAGCCTGAGGTGGGTAGATCACTTGAG
CTCAGGAGTTCRAGACCAGCCTGGGCAACCCCATCTCTACAAAAAGTACAAAAAATTAGCCAGGCATGGTGGTGCGTGCTTGTGATCCCAGCTACTTGGG
AGGCTGAGGTGGGAGGATCACCTGAGCCTCGGGAGGTAGAGGCTGCAGTGAGCCGTGATCRCACCACTGCACTGCAGCCTGGGTGACAGAGTGAGACGCT
GTCTAAAAAAAAACACAACAAAGAAAATGCTAYGAGGCGGGTTATGAAATATCCATGAGCAACACTGGCTGGATGGGAGCTGCAGTGCTCCTGGCCTGCC
TGGAGGGGGCAGCCTTACCCACCTGATTGGTGCTCTGTATTTAGGCCTAGTGTTGCCACATCTTCTAACCGTAGGAAAATTTAGAAATCTGATTGTGAAG
TATAATATCTTCTAAATGTTGACAACTAATTCAAATTAAGAACAACWACAACAAAAGCCCCCAAACTGTGTGAGCCAAACAAAACCTATTTGGGAATTAC
TAGTTTGTGACATCTGGCTGAGGCCTGGCAGCCCCTGAGGATAATCCTGTCCTGGGTTGAAAGCTGACGCTGCGGTTTCTTCTTCCCTCTCTTAGTGACA
GCATCCACTACCAGATGGTGTATTCTTACGGCTCTGGGGTGGTGTGGGCCCTCGGAGTTGTTCCCTTCAGCCATGTGAACATTGTCAAGTTTAATGTGGA
AGATGGAGAGATTGTTCAGCAGGTACAGGAGGGTGACAGGAGCCTGTGAATAAGGTGGGGTTGGGGGAGACTTGATAGATTTCTTTGTACTGGGGAACAG
GGAACTTGGCTGGGCAGATGCAAAAGCTACTTATGCTCCCTCATTCTGGTCACTTGCCAGCTGCCTTCCCATTAGGCCTYTWTTTAAAGTACTCATATTT
GCATGTGTTATCTTCTGGGGTGGCTAAAAAATTACATAGATCTAGTCTCTGCCTGTAAGTATCTTACAGTGCTGTGAAATCACAGTAGGACACCACATAT
GGCAAATATAGTAAAGAAGTGCTGATTCTGAAGTGCCAGGTATTTAAAATTATCGGATATATTTTTCCAGTGACCAGAAAGAAAATCCTGATATTTTTTC
CAACTTTGAAGGCTCTCAGGAGGTTGGAGGGTGGGGTTTCAGGGGACAGGAAGAACTCCTATACAACCAACCATGAAGAACCTTTGAGCTTAGGACCCCC
AGTGGGATGCTGGCAGCAATATTGCTGTTGGGCTGAGAGGGAAATGTAAAAATCTTTCACGAGCTTCCTGTTAAYGATGACTTTTCTGTAGGTTAGGGTT
TCAACTCCGTGGCTGCAGCACCTGTCTGGAGCCTGTGGTGTGGTGGATGARGCTGTCCTGGTGTGTCCTGACCCGAGCTCACGTTCCCTCCAAACTTTGG
CTCTGGAGACGGAATGGGAGTTGAGACAGATCCCACTGCAGGTGAGAGGCTGCCACTGCTTCTTCTGGCCTGAGGCATTTCCTGCGGGGAGTAGAAAGTT
TGGCATGATTCCCCTGGAGGGTCTTTCTCCTAGACTCTTCCTGAGCAGTGGAAGCCATTCAGGCCTCTGGCTGAACTGGTGTAAGAGGAAATCAGTCACT
TTCCYCTTTGGGGAACTTGAACTGGAGCATTTGGAGCCACCTGCCATGGCCCAGTTACTTCCCCCGGCAAAGTAGGGCAGAGGTTGTGAGCCTGGGATGG
GTCAGGGAGTCGTCAGCTGTTAGCCATAATCCTCCTCCTYCTTGCCTTCCAGTCTCTCGACTTAGAATTTGGAAGTGGATTCCAACCCCGGGTCCTGCCT
ACCCAGCCCAACCCAGTGGACGCTTCCCGGGCCCAGTTCTTCCTGCACTYGTCCCCAAGCCACTATGCTCTGCTGCAGTACCATTATGGAAYGCTGAGTT
TGCTTAAAAACTTCCCACAGGTAACTGCAGGCAACRTGGTTTGCTAGGATTCAGGAGATCTCTCCAAGACATGGATGCTAGAAGGCAGTGCTTTTGAATC
TGGAAACGTTTGCTCTTAGGCCCAAGATTGATGACACCTTCCCGTAAGTGGTTTGAGAGGGGGTAGGTAGCCTTATCATAGAAATGGTGTATTTCCTCCT
GAGTATTACAAAGGATCTTTAGAGCAAAACTAGTGCCTTCCTTAGTCCAAAGGAAATATGGGGACATAAATGAGAGCTTCCCCATAGATAGTAAGAACAA
GCAGCATGGGATTTAAGATTGACCTGTGCCTGCGTTGGAGGTAGGGAGAGTTCTGTTTTCAGCTGTAGATGCAACTGAGGCCTCCCTCTGCTCTTAAATG
CCTGACCATTCTGCTCCAAAGTGGGGAGCACTTTCAACTCTAAGGCCAAGGGCCTTCCCTGGAGAGGTGACCCTCTGTAAGGCAGCTGGCTAGTACTGGT
CCCATTTAGGAGCTGATGCCTTGCTTTTCCCCCAGACTGCCCTAGTGAGCTTTGCCACCACTGGGGAGAAGACGGTGGCTGCAGTCATGGCCTGTCGGAA
TGAAGTGGTGAGTATTGAGAACAACAGTCAGCACTTGGGATTTTCCTTCCTGGTCTCCACTAGGAACCCTGAAAATCAGAAGTCTGGGCACATTGACCTG
GTCAGTTTGAACCCAGCGGGCAGGAGGCTGTTGAGAAGTGAGGTMTTGCCTCAACTATAGAGCTTTCTGCACACCCCATTTCTCCCCAGGAACGAGACCC
TAATGTGATGACCTTACTTTCATATGGGGCTATTAAGGGTTGAATAGGCTTTGTGGGCAGGGGTGAGAAATGAGCTTTGTCTTCTCTCAAGTGCTAAGAA
GACAAAAACAAAAGCTTCATTTCAGTGACTGGGAAGTGACCCTTTGGCTGAATTTTCTCCTGTCCTTCTCTTTCTCATAGCAGAAAASTAGCARTTCTGA
AGATGGGTCAATGGGGAGCTTTTCGGAGAAGTCTAGTTCAAAGGTATGGTGTGGCACTGGGCAGTATGCCAGACCTAGAGACGCAGGAGGCCACCAAAGA
GAGTTGGGGGAAGAGCTTTGGTTAGGAGCAGGTCCTAGAGTTCCCAGCTTCAAATGRGGTTTCCTAAGTACTGTAAATTAAATGATGTTTCTCTTAATCT
CATTTTACCGGGAGATTAGGAGGTAGAATCCCTAGAGTCTGTTTCTAGCCACTTTCTCCTCTGGGCCTCAGCGTCCCCATTTCTTTTGGGATCCTGGCTG
GCACAGTTGAGTAGTACTCTGTGCAGTTACCCTGTAGCAGAGGCATGAGCCCCTGGCTGGAGGCATAGGTTCCTGCTGTGGCTTCCATCTAAGCGTTTCC
CTGCCTCCTGTCTTGCTCAGTCTTACCTTGCTCAGCCCTACCTCTCTCTCAGAAGTCTCTGCTACTCTGTACTGGCTTCCAAGACAAGTATGGTAGTTGT
AATTTCATTTATTTACTCAGGCACCTTATTTCTGCCTTAGGATTTAGCTTGCTTTTCTCTTTTATTCTCCTTTGCATATATTTCCCCTTCTGGCCTGGCT
CCTTCTCTAGGGTATTTGCCCCCAATCCTTGGACTTCCTTTGGTGGGCTTTGCTTTCGGGGGATACCTGTAGTTGACACGTSCTGTCTGTACTCCTAGGA
CTCTCTGGCTTGCTTCAATCAGACCTACACCATTAACCTATACCTCGTGGAGACAGGTCGGCGGCTGCTGGACACCACGATAACATTTAGCCTGGAACAG
AGCGGCACTCGGCCTGAGCGGGTAAGGCAGAGCCTTTCTTTGCAGACTGTCCTGTGGGCTTCTCAGCACATGGCTTCCTTTCCTCAGGGCCAGGTCTTAG
CCATGGGGCTTGGATTAGGCTCTCTAAACATGTGTTCTAGTGCTCTCTGAGCCACTGACTTGTTAGAAGTCACAGTAAAGGCGGGTATTATTTATGCCAG
CTCATCATTGTGCACCAGGGACTGTTCTAAGCTTTTAACTTACACATTAATTGATTTAACCCTCCAAACACTCTCATGAAGCRGTTGTTCCTGACCTGGT
TTTAAAATGATTCTGTGGCCTGGTGGGATYGAGTACCATAGCCAGAGTCACGGAGCCAGYAAGAGGTGTCACTGCGGTTCAGATTCAGGTCTAACCCCAC
AGCCTGGACTCCTCATCACTACCCAGTATTGCCTCTGTGTGCATCTGGTTGTGTTCCTCAGCTGCTTGGGCTGTGGCTTCTTYGTTTCTAAAGCRGAAAG
TCTAATCCCGGCCTCCTGCTCACTTTGTGGGGTGTGATTAGAGCATGGATGAATGGCGTGGTACCCGTGGAGTACTCAGGTTCTTCCATGGAAAGGTCTG
GGAGACCCCAGCATCATTATGTTGGCTCCTAMGAATATGTATCACTTACTGGCATCCAGATAATAGCTACATTGTTTAGACATCAAATAATGCCATGGCC
TGTACCTCTGTTAAGTCCAGGCTTTGACTCCTGGGGTCTGGTGCTCTCAGAGGCATTTGGATCCTCACTGACTACACCGGTCTTGACTGTGGCTTATAGC
TGTATATCCAGGTGTTCTTGAAGAAGGATGACTCAGTGGGCTACCGGGCTTTGGTGCAGACAGAGGATCATCTGCTACTTTTCCTGCAGCAGTTGGGTAA
GTAGACCTCATTCAACCCATTTTTTTATTTCCCCAGGCCTTCCAATGTGTTCCAATCAGACTGTTTTTTGGGAGGCTGCAGGTTTCTGGAARAGATTCAA
GTGGAGTGTGCCCTGAGTGTTTCGTTCATAGCCAAATGTCACCTGCTTTTTTTTTTTTTTTTTTTTTTTGAGATAGAGTCTTGCTCTCTTGCCCAGGCTG
GAGTGCAGTGGCATGATCTCGGCCCACTGCAATCTCCACCTTTCGGATTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGT
GCCACCACGACCAGCTAATTTTTGTATTTTCAGTAGAGACAGGGTTTCCCCATGTTGGCCAGGCTGGTCTCGAATTCCTGACCTCAAGTGATCCRCCTGC
CTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCTGTCACCTGCTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGTTG
CTCAGACTGCTGGAGTACAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTTAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGA
TTACAGGCATGCACCACCACGCCTGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTTGTCAGGCTGGTCTCAAACTCCTGACCTCAGGT
GATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCTCTTTTTTTCTTTTTTGAGACAGAGTTTTGCTCTTGTTG
CCCAGGCTGGAGTGGAATGGTGTAATCTCAGCTCTTTGCAACTTCTGCCTCCTGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAT
AGGCGCTAATTTTGTATTTTTAGTAAGAGACAGGGTTTCACCATGTTGGCCCAGGCTGGTCTCAAGCTCCTAACCTCAGGTGATCTGCCCGCCTTGGCCT
CCCAAAGTGCTGGGATTACAGGCATGAGCCACTATGCCCGGCCCCGTTACCTGCTTTTGAAGAATAACTTGGCATTCTCGGTGGGATACAGAACTTTCCT
CCTTTGACCTATTGATTCCAGCCCCTTGCTCTGCCATTTCTCCTTTTATGCAAGAGCTTGTAGTAATCCCTGAGTCAGCGAGAAGAGTCTCTCTAGAAAA
TCTGGGAGACAGGCTTAGCTTTTGTTTATTTATTTATTTATTTTTTGAGACAAGGTCTCACTGTTGCCCAGTCTGGAGTACAGTGGCGTGATCATAGCTC
ACTGCAGCCTCAATCTCCCGGGCTCAAGTGATCTTCCTATCTCAGCCTCCTAAGTAGCTGTGACTACAGGCGCTCGCCACCATGCTTGGCTAATTTTTTG
ATATTTATTTATTTTTATTTTATTTTATTTTATTTCAAGACGGAGTCTCGCTGTGTCGCCCAGGCTGGAGTGCAATGGCACRATCTCGGCTCACTGCAAC
CTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGAACTACAGGCGCCCACCATCATGCCTGGCTAATTTTTTGTATTTTTA
GTAGAGRGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGA
GCCACTGTGCCCAGCCCTGATATTTATTTTTTGTTGAGATAAGGTTTTGCCCTGTTGTCCAGGCTGGTCTCAAATTCCTGGGCTCAAGAGATTCACCCAC
CTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCCCAGGCTTAGCTTTGTAAAAATGTTTCCTGTAGCAGGGAAGGTGGTGCT
GTGGAGCCGTGAGGAGTCCCTGGCAGAAGTGGTGTGCCTAGAGATGGTGGACCTCCCCCTGACTGGGGCACAGGCCGAGCTGGAAGGAGAATTTGGCAAA
AAGGCAGGTATGRACCTAAGAGGTTGGARCTGCAGAGTTGCTGGAGGGGCCAGTCTGGAAATGACCACAAGAGACACTGTATCATGCATCTCTGGCTTCC
TAGGCTGGGCAGATTGCTAGTCTTTTCTGAATGAGCTCTGTGATGAGGTTCCGGTGCATTCATGGCCATATGGTTTATGAAACCATTCTTTTCTGTGAAA
GAATGAACTGTGAATCCTTCTAGGGAAAGCTAGGGAAAAATCCCTCTAGGGAAAGCTGAGGGAAAAAAGTCTTTTTTTTTTTCTTTTTTTGAGACAAGAG
TCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAGCTCTCCTGCCTCAGCCTCCTGA
GTAGCTGGGATTACAGGCATGCGCCACCATGCCCGGTTAATTTTTGTATTTTTAGTAGCAACAGGGTTTCAGCATGTTGGTCAGGCTGGTCTCAAACTCC
TGACCTCATGATCTGCCAGCTTTGGCCTCCCAAAGTGTTGGGGATTACAGGCGTGAGCTGCTGCGCCTGGGGGGAATAAAGTCTTAACTTGGTATTGTAA
TAGCTACCATTGCCTGTGTACTAAAAATTTGCCAGGCACCTTATACTCATTGTCCCTAAAGCAGCAGCCATATCTGTCTGGAGACACCATTGGGTTGATC
TGGGTATTGTGGAAACAGCCCAGTGCCCTCTAAAGCTGGCCATGGTCCCAACTGCCAGGATGAACTTGATTCACTCTGCTCTGATTCAGTCCTGYCCCCC
ACCCTCTCTCTTCTCTCCATTCATCCAGCCCTCCAACGGATAGCTGTTGAGGGCCTGCTCTGGACCAGGCACTCTGCTAGGCAATGCACATTTTCTTAAG
CTGAGGATTAATTTGACTTTACTGTTTATTTCTGCTGCCTGGATCCAGCAATTCAAGGTAAAACCTGCTTCTTGCTGCCTTGTTGCTCGTTGCCTGCTCA
CATGGCTAGCTTTTGGTTAATTGTTTTTCTTCCTAACTTGGACCAATGAGGTACATCCTTGGGGTGTGTGTGTGTGTGTGTTGACTGCCATGCTTGTGAG
TTGTCCTGTTGCTTCTCACTTCTCTTCCTTGAGCAGAGGTGGGTGGAAAATAAGATAAGCAGAGGTTCTGCTCCTTTTTTAGTGAGTTATTACCATGTAC
CAGSCACCACGCTAAATCCTTTATGTACATCGTATGATGTAATTTTGGAACAGTCCAGTGGGTTACATGCCACTTTACAGATGAGGAACCAGAAGCAAAA
AGGTGAAGTACATTTCTCAGTGTTACCCCGCAGTGAGTGGTGAAGCTGGGATCTTAATCTGGGCCTGCTAGATTCCAGAGACCATGCTCTTTACCTTGCT
TCCTTGCATCTGTTTACAAATCTGTGGTCTCCAATGGAGGAGATTTGGAGGGCAGTGGCTTCATTGACRGAATCAGGGAAAGAGTGAATGATGGTCCTGG
GAACTCGTTGCAAGTACGTCTGTTGGGTGCAGGTTAAACAGCTGACAAAGTAGGAATGAAGCAATGGGAGATGGAAGTACCTGCTCATGATACATATTCA
CTGACCTGCACCCTCCACCCCCACACTCATACCTCTTCTGGCTTTGTCATGGCACCCAGAAACCTTCTTTTAGCATCTTGGATGTGGGGCTGTGGTGGAG
ACATTCACAGCATGGCTGTCTCCTGCATGCCTGATCCCTGACCTCTTAGTCTCCTATTCCAAGATTCCAGCTGGGTTTAGTTGTTAAGAGCCAGTTAAGC
AGTTTTTGGAAGCTCCTGCATGAGCCTCACCTGAGTGTGAGACTTTGGGCATCAGATACAGGACTGCCCTTTGGGCTTGTGGCCTAGAGTGTGGACTTTA
TYGCTCCAGAGGAGAGGCAGAGATCCCTCATTAGGAAAATCATGTACCTCCTTATGGACCCCTAGTCTGATGTAGAGTATGTTACTTTTCCTTTACACCA
GATGGCTTGCTGGGGATGTTCCTGAAACGCCTCTCGTCTCAGCTTATCCTGCTGCAAGCATGGACTTCCCACCTCTGGAAAATGTTTTATGATGCTCGGA
AGCCCCGGAGTCAGATTAAGAATGAGATCAACATTGACACCCTGGCCAGAGATGAATTCAACCTCCAGAAGATGATGGTGATGGTAACAGCCTCAGGCAA
GGTGAGTGGGGTTTAAGCTCCAGTTACTGAACCTTTTCAAATTCTGAGGGTGAGGAACAAAAAGCCTTCAGTGAGGGATAACACTGGTTCTAGTTTTCAA
GGACAGACTCAGTTCTTTGGTTTCYCTTTCTAGTAGTGAGCCAAGTATTTGTTTATCTTGCAGCTTTTTGGCATTGAGAGCAGCTCTGGCACCATCCTGT
GGAAACAGTATCTACCCAATGTCAAGCCAGACTCCTCCTTTAAACTGATGGTCCAGAGAACTACTGCTCATTTCCCCCATCCCCCACAGTGCACCCTGCT
GGTGAAGGACAAGGTGAGGCATCCAGCTCTGACTTGAGCCAGACTCAGTGTGGCTTTTTTGCTATTTTGTAACTTAAATTGCTCCTAGGCCCTTGGAATT
GTGTGAGTTAATGAGGAACATTCAGGGGTTAGAACTCTGTTTCTTCTAGTTTCATGCATGGGTGGAGGAACCATCCAGCACTGATGTGGAATTGTTTAGA
AAGTGGGTGTGACTTCACCAGCTATGTAGGGAGCCAGCTCTCCTCTTTTCTAAACATTGGCTGTTGGTTGCTGAGTGGCTATTTTCTCTTCTCTCTTTGA
GGAAGAGCAGGACACAAAGATATTTTTGTGTCTTCCCAGAATTAGAATGGATTTTTGTGTATTCATTCTAGCATAGAAGGCGGGCTTGGTAGACACTTTC
CTGGAACGGCTGCCTGGTGCGATCTCGGCTCACTGCAGCCTCCACCTCCCAGGTTCAAGCAATTCTTGTGCCTCAGCCTCCCGAGTAGCTGGGATTACAG
GCACACGCCATCATGCCCGGCTGATTTTTGTATGTTTAGTAGAGACAGGGTCTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTTAGATGATCC
ACCTGCCTCGGCCTCCCAAAGTACTGGGATTACAGGTGTGAGCCACCACGCCCGGCCAGGTTGCTGAATTGTTACTTGACTTTTTTATTAGTTCTTGTTT
AGAACTGGCAGAGCAGCCAGGCGCGGTGGCTCACGCTTATAATCTCAGCACTTTGGGAGGCCAAGGAGGGCGGATTGCTTGAGTCCAGGAGTTCGAGACC
AGCCTGGGCAACATGGTGAAACCCCTCTCTACAAAAAATAAAAACAGAATTAGCCACGTGTGGTGGTTTGTGCCTGTAGTCCCAGCTACTTGGGAGGTTG
AGGTGGGAGGATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCTTGATCATGCCACTGTACTTCCAGCTTGGGTGATAGAGAGAGACCCTGTCTCA
AACGAAAAAGAACTGGCAGAGACAGTTTGACTTTTTTCTTTGTGACGTTAGCCTAGGGGACTATTCACCTACAGCCAAGAACTTATTTTCCACAAAGAGG
GCAAAGACTAGAGAACCCCCACAGTTGTTGAGCTGGAGTCCCAGCTCTTCAGGTCTATCCCTAGGATTTGCAGTCTTTTYTTGTTGGTGGAGCCTGACAG
TTTGCTCATTTTAGGAGTCGGGAATGAGTTCTCTGTATGTCTTCAATCCCATTTTTGGGAAGTGGAGTCAGGTAGCTCCCCCAGTGCTGAAGCGCCCCAT
CTTGCAGTCCTTGCTTCTCCCAGTCATGGATCAAGACTACGCCAAGGTGTTGCTGTTGATAGATGATGAATACAAGGTACTGTCTTCAGAGGGGATGGAG
MACATGCTAGCGGAGTCSGGTTTGGGGCCAGGTGGTCAAACACAGCGGCCCGGAGATGGAGTGCTCTCTGCACCCAGCACGTGTTTGGGCTCTAAGGCCA
TCCCGAAGAGAAATGATGGCTGTGTCTGCATTTGTGAAAACTCAGGTTCTTAACAGAACTGAATGTAAACCCTAAACTGAGTTCAAATCAACTGATTTGC
AGTTTTATTCTTAAGGCTCTCTTTGATGGGGAAATTTCCTAACTCTTTCCTTGGGCTCTCTGGGTTTTTCAAGGTCACAGCTTTTCCAGCCACTCGGAAT
GTCTTGCGACAGCTACATGAGCTTGCCCCTTCCATCYTCTTCTATTTGGTGGATGCAGAGCAGGGACGGCTGTGTGGATATCGGCTTCGAAAGGTAGGAA
GGCATGTCCTGGCACAACCCTTTGTGGATGAGATGCAGGTGTTTCCTGGCCATTTGGCTAAGAAGTGAATTATGCTACTCATTCTACTGTAAACTTAGAT
TAGCATAATCCTGATGTCTGATACAAAGTCAATCATTTGTTCATATTTGTTGGGCAGCTACTACATGGCAGATACGGTTCTAGGTGCTGTGGATGGAGTG
GTGCACAGTAGAACAAATCTCTGCCCTTGTGGAGCTTTCATTCCACATTCTTTTTCTTTTTTTTTTTGAGATGGAGTCTTGCACTGTCGCCCGGGCTGGA
GTGCAGTGGTGCGATCTCGGCTCACTGCAACCTCTGCCTCCTTGGTTCAAGCGATTCTCCTGCCTCAGACACCCAAGTAGCTGGGATTACAGGCGTGCGC
CACCGCGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGCTTTGCTGTGTTGGCCAGGATGGTCTCAAACTCCTGACCTTGTGATCCACCTGCCTC
AGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCCCATTATTTTTCTATAGCAGAGAGATGGGACTTTTTTTCCATTCTTGGGAGG
GTAGAAGGTAGGAATGTGGGTTGAGTAATAAGTTGTACTTTTATATGAAGATGATGTTGACCAACTCGTGATGGAATGTGTGCTTTGAATTTTATTTCTA
GAAAGGGGGTCAGTTTGCTTTAATCCTCACATACTTGAGACCAACTCTTGTAAACAGTAATACACGCTGGCTGTGAAGTCCAGCTCTGAAGTTCACGAGG
GGCTGGCATGGCCTTGTTAGCAGGACTGTTTGGAGAAGTACTCTGTGGTGTGTACTCACAAACAGCTCTCCCATCCTGTCCTGTAAGGCCTTTTGAGAGG
CATAGAGTTTAACCAATTTGCTRGATTGGAAGTCTAGGTTTGTCACTTACTAACTTTGTGACCTTGGGCTCTGGTCTTCTGTTTTCTTATCTGTAAAATA
AGGTGATAAGTACCTGTCTCATAAGGTTGTTGTGAGAATTCAACACATAAATCACATAAAACTGCCTGGCACATGGTAAATGCCATCTGAGTTGGAGGTG
CTGTTGTTTTGAAAATGCAGCGCCCTTTTGTGACATTTGTAACAGCTAACCTTAGCATAAACAGCACTGGAAATGGTCTGCCCAGAAGACACATCCTTTA
CCCTTGTGAATGAAAACATAAATAAATAAAATCATCCTTCTGAGTTAATAAAAAGAGGACCTTGAAAGAGACAGTTTTGTAGATTCAGGGGAGTGAACTG
GAGTGTGGGTGTCATGAATCTGGAGTCCTGAGGACATCATCTGAGTGAACAATGACCAAGGAAGACAAAGGAGGCAGAGCTGTCTGTGGGAAGTGAGCCA
GCTGTGTGCGCGAGTCCGGGACCACAAGGGAGTGTGCTGCCTTTGCCCTCACTTGGTGACCTTCCTCTCTGGGGATGTTTTAGTGAGTTCTTATGTTTTC
AAAGAAGGTTGTGGCAATGAAGGCTTATTATTAATAATTTTCACTATTTTAAAAATTTAGGTAATACATTGAGTATATTCTCATTGTAAAAGAGTCCATT
GATACAGAGAGGTGAACAAGCAAAATGTGAACAGACCCTTGTAGCCCCATTCCCAGCGGTCTTCCCCTCCCCAGGTGGAAAGCCTGTCAGCAGTTTGCTG
TGCCTCTTTCTACTGTCCTTGTGTATTTATGATTCCCTATCAACAGCTGTGTGGACACACGTGTGTGGCTCATACTTTATTTATTTTTTTTTAGAGACAG
AGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGGGGCGCAGTCTCAGCTCACTGCAACCTCTGCCTCCTGGTTTCAAGCGATTCTCCTGCCTCAGCTTCCC
AAGACTACATGTGCACGCCACCATGCCTGGCTAATTTTTGTATTTTCAGTAGAGACGGGGTTTCACCATGTTGACCAGGCTGGTCTCAAACTCCTGACCT
CAAGTGATCCTCCCGCCTCGGGCTCCGAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCCATTTTATTTTTTTTTCTCATTCACATGCAATT
GACCTATATTTATTCTTATGAAATTTGCTTTTTTTCATTTAATGGGTTTTCTACCTCATTGTTTTGTCAACTTCAGTTTTTTATTACAGAAAAATATTGA
CAAAAGTGCAAAATCATGAGGTATGGCTCAGTGAACCCTCACCAAGGGAATACACTTGTGTACCTGGTGAYCACTTCAGGAAACAGAATAGCACCAGCTC
CTAGAAGGCCCTTGTGCCCTTTGCCAGTAACTACCTCCTGTCTCCACCCCCAAGGGCTCCGCATAATTCCATAGGATGGATGTATAATAATGTATTTAAC
CATGAGTGTTTATTGGTTGGTTTCCTATGACCATAAACAATCATACACGAAATGTTTTGAGCTCCCTGTTAGCTTAGACATTCACTGCTGGCCCCAGTAT
ACAGGGATCTTGGAGTTTAGTAATAAATGGTAAATTTTCCTTGCATATTTCCTACTCAGATAAACAACGGGATACTATTGAGCGTTCGCCTCCTTTCCTA
CTGGCTTTATTATCTTTTTTTTTTTTTTTTTGAGCCGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCAGTCTCGGCTCACTGCAACCTCC
ACCTCCTGGGTTCAAGTGATTCTCTTGCCTCAGCCTCCTGAGTACCTGGGATTAAAAGCATGCGCCACCACACCCGGCTAATTTTGCATTTTTAGTAGAG
ATGTGGTTTCTCTATGTTGGTCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCCACCTGCCTCGGCCTCCCGAAGTGCTGGGATTACAGGTGTGAGCC
ACCACGCCCGGTCTAGTATCTATCTTAATCAAACCGAGAGTTCTGAAATTTCTTCATAAACTAGATCTCTATTGCTGTTTTTCTGGTTTATTTTTTGTTT
TGAGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAGCCTCTGCCTCAGCCTCCCGAGTGGCTAGGATTATAGGTGCCT
GCCACCACATCTGGCTAATTTTTTGTATGTTTAGTAGAGATGGGGTTTGGCCATGTTGGCCAGGTTGGTCTTGAACTCCTGACCTCAAGTGATCCGCCCG
CCTTGGCCTCCCAAAGTGCTGGGATTACAAGMATGAGCCACTGCTCCTGGCTCATTTTTCTAGTTCTGATCTCTATTCCTTCCTGCACAAAGGCCTCAAA
TAATGAACTGTAGGATGTGTCTAACTCCAGCTGTTTCAGTTCTAAGTGTACCCTCCTGATTACAGGCTTTTTTGCCCCTGCCCTAGGATCTCACCACTGA
GCTGAGTTGGGAGCTGACCATTCCCCCAGAAGTACAGCGGATCGTCAAGGTGAAGGGGAAACGCAGCAGTGAGCACGTTCATTCCCAGGGCCGTGTGATG
GGGGACCGCAGTGTGCTCTACAAGGTACATACAGCCAGCTGTCTGGTCTACAGCAAGGGCTTTCGAATCAGGAAAACAAGGGCTTCAAGTCTGGCTGTAG
GACTTGGTACATATATGACCTTGAGTAAGTCATTTAATCCCTTTGAGCCTTAATTTTTGTTTGTGAAATGGGGATAATATACCCTCCTCCTGGGCTTGTT
GTGATGATCACATGGGATGTTCATGTCTAGCCCAGTGCCTAGCATATGGTAAGTAAGCAACAGATGTTAGCTCTTATTTTTTTGACTTTTTTTTTGTTTG
TTTGTTTCCTGTGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGATGCAGTCATGGCTCACTGCAGCTTCGTCCTCCTGGGCTTATGCAATCC
TTTCACCTCAGTCTCCCAAGTAATTGGAACCACAGGCACATGTCATGCTAATTTTTTAAAAACGGCTGGGCTTGGTGGCTCATGCCAGTAATCCCAGCAT
TTTGAGAGGTCGAGGTGGGTGGATTACTTGAGTCCAGGAGTTTGAGGCCAGCTTGGGCAACATGGCTGAAACCTTGTCTTTACCACCCCCMAAAAAAAAA
AACAAAAAAAACAATTAGCTGGGCATGGTGGTGCATGCCTGTGGTCTCAGCTACTCGGGAGGCTGAGGTAGGAGGATCACCTGAGCCTGGGGAGGTTGAG
GCTACAGTGAGCTGCAATTGTGCCGCTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCCAAACAAACAAAAAAAATTTTTTTTAAATTTTTTAT
TTTTGTAGAAGATAGAGATCAACCTAGGAAACATAGTAAAACCCTGTCTTCAAAAAAAAATTTTTTTTTAATTTTTTRTTTTTATATTGACAGGGTCTCA
CTATGTTGCCTAGGTTGGTCTCTATCTCCTGGCCTCAAGCAGTTCTCTTACCTTAGCCTCCCAAAGTGTTGAGGTTAGAGACTTGAGCCACTGCGCCTAG
CCCAGCTCTTATTACTAGTGGTAGTACTGATAGAGCATTCTGGGGTTAAACCATAGTCGAGCCATCAGAAACTCCATCTCTGTGATCCAACACTCTAGTT
AGTGTTAAAGAGAGGGAGATTAAGGTGACTAGTGGGCTGCAAAACTGTTATGGGAGAGAATGTAATGATAGTAGTAATGCACATTAATTACACCCTCTGG
TACAGCAGAGACTGAATTGGAGGGGGTGTCATAGAATAGAGATCACGGAACTTGACGGTAAAGCTGGATCACTAAGCATGAGCCAGTGCAACACAGTGCA
AGCCTCTAGTTTGACTGTTAAGACTTGGCTCTGCCGTGGCCTAGCTGTTCATCTCTTAGGCTGCCTGAGCTTCAATTTTCCCCAGTATAATGGGGATAAT
AGCACCAACGTCAGAGGATTGTTTTGAAGATTAATGATAACATGTAAAGTGATTAGAATAGTGCCTGCCACATACTTAACATTATTATTAGTGCTATTGA
CTCTTTTTTTTTTTTTTTGAGACAGGGTCTTGCCATGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCACAGCTCACTGCAGCTTTGACCTCCCGGGCTTA
AGCAGTCCTCCCATCTCAGCCTCCTAAGCAGCTGGGACAACAGGTGCATGTCACCATGGCTTATTTTCTTTTCTTTCTTTTCTTTTTTTTTGAGATGGAG
TCTTGCTCTTTCACCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCCACGTCCCAGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCGAG
TAGCTGGGACTACAAGCGCGCACCACCATGCCCAGCTAAATTTTGTATTTTTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTTGATCTCTTGAT
CTCGTGATCTGCCCGCCTTGGCCTCCCTAAGTGCTGGGATTACAGGCGGGAGCCACCGTGCCCAGGCACTTATTTTATTTTCTTTAGAGATGGGGTCTTG
CTGTGTTGTTCAGATTGGTCTTAAACTCCTGGGCTCAAGCAATCCTCCCATCTTGGCCTCCCAAAGTGTTAGGATTACAGGCATGAGCCACCGCACCCGG
CCAGCAGCAAGCAGTTTTTGAGTGCTAGCTGGATGCAGGCACTCATTTAGACACTGGGATATAAAATGGGCAAAAYAGACAAAACTTCCTGACCTCGTGA
GGCTTTCATCATAGTTGGGTGAGGCTAATAATAAAGAAAATAAATAGGTAAATTAGATAGTATATTAGAAAGTGACCAGTTCTATAGAGAAAAATAAAGC
CGGGAAGAGGGAAAGCAGGTACAGTGTAAGTCGGGTGGCTAAGGAGGGGCTTAGTGAGAAAGTGGCACGGAGTGAGTGGACTTGAGTGAGGAAGTGAGTT
GTGTGGGTAGCTGCGGGGAGAGCCTTCCAGAGAGAAAAGTCAAAGTGCTCCTGGTATGTGTGAGAAACAGCAAAGAAGACCAGGTAACTAGAAGATGATG
AGTGAGGAGGCATGTCAGGCCTGCTGAGGGCAGAGGGCAACAGGGCCAGATCACAGGCCACCACCGTGGCCTTCACTTTGGAGCACGGTGAAGAGCCACT
GGGAAGTTTTCAGCAGAGGAGTGACATCAGTGACTGAGATTCCACAGGCTCATTTGACCTAGATTAGACTGTAGAGGGGTGAGGAGGAAAGCAGACCATT
TAGGCTGTGGGGTCATCCAGGTGCTGATGGTGGCTGGAGCTGGGCTGGTAGCATGGAGGTGGGAAGGAGGGATCAGGTTCTGGGTACTTTTGAAGGTAGA
GCCAAGAGCAGGTATATGTGTGTTACAGAGAAAGGAGTCAAGGATAACTCGAGGCTTTAGGTCTGAGCCACTGATGTATGGAGTCGTGACTGGCTGGGGA
GGAGAGAGGAGCAGATTTTAGGCAGGAGTTAGAACAGTTCAGCTTGGGCCATGTTAAGTTTCAGATGAAACATCTGAGAAAAGATACTGAGATAATTTCT
TAGTGAAGTCTGGAGTTCAAAGGAGTATCTGGTTTGGATATATACATTGGGCATTGCCAACATCCATAAATGGTGTTCAAGCCATGAGATTGGCTTGAGA
TCACCACGAGGGTAAGTGTGACGGAAATGCTCAAGGCTTGAGAGCTTTCTGATGTGTTCCACCATGAAGAAACTGGGGAGATGTGGAAGAACCTCCAAAA
GAGACTGAGAAGGAGAGGCCAGTAAAGTAGAAGGAGTGCTGGGCAGGGATGTTCTGGAAGCCAGGTGAGAAAATGTCGCAAGGAGGTAGTGATCACCTGC
GTCACGTGGTACTAGTGGGTCAAGTAAGTTGAGGGCCAAGACTTAGCCACTGGATTTAGCGATGGGGAGGGSGGTGGTGACCCTCAGAAGAAAAATATCA
CTGCAGCATTTGTCCCTAGGTCAATGAGTGGGCAGACCTGGATTTTGTCTTGGGTTACCATTTGCTATCTGTGACTTGAAAAGCTGCTTAACTACTTTGG
GACTTTTCTGCAAAATGTGGACCATAATAGCTACTCTGCAAGACTGTTTAAGGGATTAGATAAAATACAAGGTACCTGGCATGGCACCCAGTACCCAATG
CACATAAAACAAGTGCAGTGATGAGAAATTCCAAACAGGAAGCTCTTTTCACCAGAAACCCTGATTCCTCTGCCAGGCTGGAGAGCTCCAGGTTGGTCTC
ACAGCACAGGAATGGAGTGTGTGATGAGTYRTCGTGGTTCTAAGGGAGGTTTTCTCTCTCTCTCCAGAGCCTGAACCCCAACCTGCTGGCCGTRGTGACA
GAGAGCACAGACGCGCACCATGAGCGCACCTTTATTGGCATYTTCCTCRTTGATGGCGTCACTGGGCGTATCATTCACTCCTCTGTGCAGAAGAAAGCCA
AAGGCCCTGTCCATATCGTGCATTCAGAGAACTGGGTGGTGGTAAGCGGTCACTACCAGGGACCCARGGTAGCTCCAGAGGTCTCCCTGCCTCCTGAGTC
CTTTCCAGAAACCCAGTTGCTGCTTTGGTTTTCTTAGGATCTCAAATTCCCTGGATGGCAGCAAAGCGTGCYGGTTAGGGCACTGGGCTCAGGAATCAGA
TTGCCTAGGTTTAATCTTACCTCTTCCGTTTCCTGACTGTATAACCTTGAACTAGTTATGTACACGCTCTGTGTTGCATCATTGTTAAAATAGGGATAAT
AACAGTCACCTTCAGTCTAGCAAAGAACAATGCCTGGCACCTAGTAATGATTCAAAGGTTAGCTACTATTATGGCTTCTAAGACTCTTGAGAATTTCCTT
TGTTTTGTGGTGAACTTTCGATAGCCTAGATAAAACTACTTTGAAAGTTAGTAAACTTGATAGTAAGGAAGAAAAGTGAGGTGCTAGTTGATGGTTCTCC
TTCATGGATCTGTAGCTAATTAGAGGGGTGCCTTCCAGTGCAATTTCCCTTTCCAGTTGAAGCAGCTGCTAAGCCCTGAGCTGCCACSTCCTATCCCTGC
AGTACCAGTACTGGAACACCAAGGCTCGGCGCAACGAGTTTACCGTACTGGAGCTCTATGAGGGCACTGAGCAATACAACGCCACCGCCTTCAGCTCCCT
GGACCGCCCCCAGCTGCCCCAGGTCCTCCAGCAGTCCTATATCTTCCCGTCCTCCATCAGTGCCATGGAGGCCACCATCACCGAACGGGGCATCACCAGC
CGACACCTGCTGAGTGAGTGACTGGGGAGCCTCTGGGATGGCTGGGTTCCCTTGGGCAACCACACTTAAGGACAGAGCAAGGGACACATTGCTGGCAGAG
CCTTGTTGAACCACCTGTAAGGGAAAGGTGGTGAGGAGGGCTATATATCRGTGGAAAAAGTTTCTTAGTTCATCTTTGCCACCTATGAAGGTGACCACTT
CTCTCTCAGTTCTCATCTTTTTTTTGTTTTTCGAGACAGGGTCTCACTCTGTCATCCAGGCTGGAGTGCAGTGGTGTGATCATGACTCACTGCAGCCTCA
ACCTCCTGAGCTCACCTGGCTAATTAAAAAAATTTTTTTTGGTAGAGACAGGGATTTGCCATGTTGCCCAGGCTGATCTAGACTCCTGGGCTCATGTGAT
CCTCCTGCCTTGGCCTCCTGAAGTGTTGGGATTACAGGTGTGAGCCATCGTGCCTGGCTGCCTGGCCTTCAGTCCTCATTTCTGATATACCACCTCTCTA
TTTGGCATTTTCACCTAGCTCAAAAAGTCAGTTCCTGATAGCATTGTTAACATAGCTAGCCTGTGCTGACAGCTTGCAGAAACTGGCAGGGTCTATTGCC
CAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATCCTCCTCCTCAGCCTCCCAAGTAGTTAACAGGCGTG
CACCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCGCCTG
CCTTGGCCTCCCAAAGTGTTGGGATTATATGTGTGAGCCACTGCGCCAGCCCTAAAATCTCATCCTTATGTAACCTAAGCCCAGGACTTAGGACTTAGTG
GTTAACAGGTTCCTGTGTTTAGTTGATTTTACCGAAGATGTTTGGGACTCTCAGATCTGATGGGCACTTGGCATTGCTGTTGCTTTTTTTTTTTTTTTTT
TGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACTTCAGCCTCCCTGGTTCAAGTGATTCTCCTGCCTC
AGTCTGCTGAGTAGCTGGGACTACAGGTGCGTGCCACTGTGCCCAGCTCATTTTTAAATTTTTGGTAGAGACGGAGTTTCACCATGTTGGCCAGGATGGT
CTCAATCTCCTGACCTTGTGATCCACACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCGCCGCGACTGGCCTATTGAATTCTTAAATA
TGAAGAAGCCAGCCCTGTTGGCAGTTTATCAGCTTTAATCACCATTACTGAAACTGGTGCTATGATTGATCATGCCTGGTCCTCCAGTCTTCCCTGGCCA
CTGTACCGCAGCTGCATGAACAGCTGCGTTTGCTCAATGGGAAGGAGACTTCCTGCTGGGGGAGGTATGGGAGGGAGGCCCCGGGGAGAGGCATGAGGAA
ATCCAAGTGGCCTTCTACATTTTTCTCTTTCATCATTATCCATATCTTGATTCTAGAACTTTATTTTCTGGTGTCTCAGAAAGTTAAGAAACCAGTGTCT
TCAAAAGTGAGAACCTTCATTCAGACCCATGCGTATCATTGGATTATTATTTTTGGCTATGTAAGGGAGCCTCATTGASCCATTTTTTTGTTTTAAATTC
TTATTTAAATGTCTGCAATAATGACATTTTTGTAACTGGCCCTTGCTGGACACTGGATCGGTGTGAACATTCACTTCCTCCTGTGTAGTTGGACTACCTT
CTGGAGCAATTCTTTCCCTTCCTAAGGCTTTGCTGGATCCCCGCCGCCCCGAGATCCCAACAGAACAAAGCAGGTGAGACCCTCATGGGCAGTGCTGAAG
GCTCTGACCTTACATAACTTAACCTCACTGATTAAGCTTGGTTCTTGGTCTCTGTGTGCCTTCATGCTGTGCTAGGGGCTGGGGATGTAGCAGGGGGCAA
GTCTGAAAAAGTCACCTGCCCTCATGGAGCTTACAGTCTGCTGGGAAATGGACAATAAATACATAAGATAAACAAGTAAAATATATACTATGTTAGGTAC
TCAAATGCTAAGCAGAGTAAAACAGGAATGAGCTAGGAAGTGGGGATGGGGATGTGCGTGGGTGTAATTTGAGAGGTGGCCTGGGAAAGCCCCTTTGAGA
AGGTGCATTTTGAGTGAAGGCCTGAAGGAGGTGAAGGAGCTAGCTGTGTAGATACCTGAGGAAGAACTTTCTAGGCAGAGGGAACAGGCAATGCAAATCC
CCTGAGATCATGTCTGGTGAGTTTGCGGAGGGCAACGCTAGGAAATGAGATCACTGAGGTAATTCGGGCCAGACCATGTGGGCAAGCCAATATCTTATTC
ACTGTTGGTATTGTTGTATTAACAACCACCATCTTGTCGGGTTTTCTTACCTCCATCCTGAATTTCTTTGCCTAGGGGCATGAGGAATGGAGAGGAGTGT
GTTTTGGAGAAGTATATGAGAGAGAGGAGGTTAAAGCTAGGAAAAGACACAGGATGATAATCAGGTTTCAGAGAAATGGGGACTGAGAGGCACCCTGGAG
TGGAGAGCAGGAATTAGCTTAGTGGTTCAGTGTGTTGGCTTTAAAATGGTCGGCTTTCCTCTTGTGGTGTGAAGTGCCAGTCATCTGTATGTTCTTTCTT
TTCAGATTTAGAACAAAGTAGGAATCTAGATCTCAGTCTTACTCTCCAGAGAGCTTCCTTTCTTGTAGTCCTTCCTAACATTCAGCTGCTAAATTTTTAA
CTACCTAATGCAAGCAGACCTCCTAGGAGATTTGAGGCTAGATATGTAGCCTGGAAACCTCCCAGGACTCAGGAAGGGCAGCCAAGAGATCCCTTTACAG
CAGTGCTCAGACTGCCTGTCCCGGCTGGTGTTTTGCAGAGAGGAGAACTTAATCCCGTATTCTCCAGATGTACAGATACACGCAGAGCGATTCATCAACT
ATAACCAGACAGTTTCTCGAATGCGAGGTATCTACACAGCTCCCTCGGGTCTGGAGTCCACTTGTTTRGTGAGTAGAGCCCACAGCTGCCCTATTTCACC
CTTGGTGGATCATTGGTTGTTTCTTTCCTAATTCTTATTCCATCTGCCTTCCAGGTTGTGGCCTATGGTTTGGACATTTACCAAACTCGAGTCTACCCAT
CCAAGCAGTTTGACGTTCTGAAGGATGACTATGACTAYGTGTTAATCAGCAGCGTCCTCTTTGGCCTGGTTTTTGCCACCATGATCACTAAGAGACTGGC
ACAGGTGAAGCTCCTGAATCGGGCCTGGCGATAAAGAACAAAGACTGTGCCTAAAAGTGGAGAGCCAGGGGAGTGTGGGTCAGATAAGCAGCTACAGCTG
CAGTTTGGTGGATTGGTGGAGTATGTGTGTGTGTCAGTGCTCAGCTAAGAACTGTAGGGAAGATGGATGACCTTCACGCAGAACTCCTTTTGGGATATAC
ATGATGCAGAAAGGATCCTACATGGAGAGAGACAGAACTCTCTCAGCTGACACTCTCAGAGATTCCTGATGGGCTTTCTCTTGAAGTCCAAAGGCGTCTG
CATTGTTTCCTTTCTTTGCCCATCCATGAATGTTCTGTTTTGTTTTTTTTAATAAGAATTCCGGCTGATTTTTGTGAGGCCTGTTTAAATTGACTTTACT
TTGCCTTTTGTGTTTCTCAATTTTATCTAGAAATCTTTCTGACTTTTTCCATCTCTTGCTTCAAAGTAAGAGGGGAACTCTCCTTGCCGACTCCACCTTA
TAGGTACATTTGGTGTTTTGCACTGGGAAGAAATAGGATCCATCCTTAGCTGAGGCTTGAGGACTGATCCAGCCTCTCATGGCTTCCCTCCAAAGTAACT
TAGGGTTGAGGGATCTATATGTGATGTCAAAACTTACTTTAAACCTCTAGTTTCGTGCTGTCATTTATTAGGCTGGGCCACCAAATCTTTGTTTCAATTT
ATCAGAAGCCAAGTGCATACTAGCGTCTTGTTTGTTGCCCATTGCCTATACTTTTCACCTGAGATGTGTGAGTTGGGGCCTTTTAAAAACTACTGAATTG
TCTGAGCCTTGAAGACATTTCCAGGGAGAAGAGATAATCTCTCATTTCACCCACAGGCTGGTCTAATCATAACCTAGTTAAAGATGTCCTTGTTTAAGAA
CCCCATTATTTATTTTTAGTTTTTAATATAAATTAACATGTGGGTCATTATATTTCTCCTTAAATGAGGAAATTTTAAATTTTATTGATCTAACCTTTGA
AGCTTTAAAAAAGGAGAAAGAGGGTAGGGGTGGGAAACTGGCATACTGTGTGTATAGCACTGCCGATTGGCTAGGCCMCTGTGTCTCTGCTACAAATTAA
AGAAATCCTAAAAGTTTTCCTTGGTCATAGAGTTGGGGAATGACAGAATTTTTCTTTGTTGTGAAATGTATGTACAGAGTAGACCATCTCTAGCCCTGTG
GTGAAAGAGGTACACTCGAATGTTTGCATAAAGCAAGTGACAAATGACACTGTTTAAGTCCTCTTTTGTGTCTTAGAAGATCATTTTGAGGCTATTTTCA
CATTAGAGGGGATAAAAGCAGTGAAGACATGGAGTAAGTGTATTTTATTTTAGTAAGGAAAGGTCAGTTTAATCATATATGGGTTGGTTAGGTTATCTAA
AAATTTGTCATCTTTCTATGGTCATATGCTGATGGTAGATTATGGCAGAGAAGGAAGAGGAAATGACAACCATTTTATTAATTGTCAGTTTGATATTGAG
TGACTGAATGTCTAAGAATCTCCAGAAAAAAACAGGCATCTATCATCCTGACCCAAGGCATATTTTAACATAACCTGGGAGAAGAGAGTTAAGTACAAGT
TAAAAAAAATTCTGCCCTAGTTTTGAGAAAGCCTGGCTGGAATTCTGACTGTCTTACATACATATGTGCAAGGTTAGCCTGCAAGATTCTAGTTTTTATT
TACCAGTGTGCCAGAATCTGAAACAAGCTACTGGGAGGGAAGGTATTTGTCCTTTAGTAAAATTCCCTGTATTTCAGCTGTAATCAAAGTTACCTCAAAG
CAGGTGCTTTTTTTTTTTTTGAGACAGAATCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACGGCAACCTCCACCTCACAAGCA
GCTGGGACTATAGGCATGTGCCACCACGCTCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCATTGTGTTGGCCAGGCTGGTCTCGAACTCCTG
GCCTCAAGTGATCTGCTGGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGAGCTTGGCCAAGTGCTTAAAATAGTTAATGCTAATGCC
ACAGTCCAATTTAAATCTTTTCTTAGTTCTCAACTTTCCTTAATCTTAAAGCAGCATTCGGTTCTGAGCAGCTACACTCAGTCTCCACTAATGGCTGCTG
AGACTATGTTTCCTCTCTCAATTCTCTGATCTATTTGCTTTCTTGTCATTCCTTGTTTTTTGTGTGTATTCCTTGACTTACCTCTTCTCCTGTCTTCATT
AATTAGGTTAATTTTGGGGCCCCATGGTGTTTCACGTAAAAAGATTTGGCTGGGCGTGATGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCATAGT
GGAGGATCTCTTGAGCCCAGGAGTTCCAGACCAGCCTGGGCAACATAGCAAGACTCTATCTACAAAAAATAAAAAAAAATTAGCCGGGCCTGGTGGCATG
TGCCTGTGGTCCTAGCTACTCAGGAGGCTGAGGTAGGAGGATCACTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGCCATGAACATGCTACTGCATTCCAG
CCTGGGCAACAGAGTGAGACCCTGGCTCAAAAACAAAAACAAAAACTAGTTTGTTTTAGTATTCATTAATTACGTATATGAGCACTGGTAGTCTAGTGTT
TGTTCTTGTATACAGTGTTTTCTTAAATGAGATGATGCTATTTAATTCTGTTACTTGTTTTTTCAACTAATGGATCTTTTAAAGTTTTTTATTTAAATTT
TTTGTGGGTACATATTAGGTACATATACTTATGGGGTACATGAGATGTTTTTATAAAGGCTCAGCTAATGTATCTTGAATATCATGTATTCATAAAGATG
ACTGAAATAGTTTCTGGAACAAAGTCTGATAGAAAAAATACTCAATTCCTAATTTAAGTGTTAGAGACTTTAATGTAAGCTATCTAATCTGAACTAGTTT
CATTATTTGTGTGTGGGTACATGTTATGTGCTCCGTAAGGCATCTTTCAATTTGAAAATTTCATAATTGTAATTTCACTGCCTTTATAAATTGCTTTTTT
TTTGGAGGCAGGGTCTCTGTCACCCAGGCTGGAGAGCAGTGGCACAGTCATAGCTCACTGCAGCCTCGAACACCTGGGCTGAAGTGATCCTCCCTCCTTA
GCCTCCCAAAGTGCCGGGATTACAGGCATGAGCTACTGCACCTGGCCCATAAATTGTCATACTTTTAAAGAGCCTATTACACAAAGTATCATCAGAATCA
TCCCAAGACTCATTTCCTGATTCCTAATTATTTAAAATTTTGCTTTTAGGCGAGGCATGGTGGCTCAAGCCTATAATCCCAGCACTTTGGGAGGCCAAGG
CAGGCAGATCATTTGAGGTCAGGAGTTTAAGACCAGCCTGGCCAACATGGTGAAACCTGAAACCCCATCTCTACCAAAAAAATAAAAAAATTTAGCCAGG
TGTGGTGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGAACCCAGGAGGCAAAGGCTGCAGTAAGCCGAGATCATGCCTCTG
CACTCCAGTCTGGGCAACACAGTGAGACCCTGTCTCAAAAATAAATAAAATGAAAAAATTGCTTTTAAATCATGAAACCATTCTGTTTTCTTTACTTGGA
ATGTTTTCTTCCCTGCTTAAAATCTGGCTTGTCTCAAATCTGAACTCCTCCATAAAGTCTTCCCTATTGGTTTCAGCTACTCAGGACCTTCAACCATCCT
GGCTGCTTACCACGTAACTTCCTGAGTGATATACCACACCCCTTTATTATTTCAGATATTGTGTCTCTTAGGGACTGTTTTCTGAATTACCTATTGTCCC
AGACATGAAGTTGCTCCTTGACAAATAGTTCCCCAAATGGCTGTACCTTCTTCTCCAGAACCCTTAGGAACTTTGTCCTCAGTTTCCCAAATTTCTAAGA
CTTCGGTGACTTAGTAAAGGATTTTTTTCCTTTTTTTGAGACAGAGTCTCATTCTGTCTCCCAGGCTGGAGTGCAGTGCCTTGATCTCGACTCACTGCAG
TTTCCACCTCCCGGGTTCAAGAAATCCTCCTGCCTCAGCCTTCCGAGTAGCTGGGACTCCAGGAGTGTGCTACCACACCCAACTAATTTTTGTATTTTTA
GTAAAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACTTCAGGTGGTCTGCCTGTGTGGCCTCCCAGAGTGCTGAGATTATAGGCGT
GAGCCACCGTGCCTGGCCCCAATAATTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAAT
CTCGGCTCACCACAACCTCTGCCTCCCTGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGCTCAGGCGTGCGCCACCATGCCCGGCTAA
TTTTTGTATATTTATGGAAATGCCAAGAGATAGTTCAATCTGCCTCTCTGGCAAGCCATGGACACCAGGTCTGACAAACTCTCTTACTCCTTAAGACAAA
TGCTCACCTGATCAATATGGGGAAATAAGCTGCATGGTACCATAATTTCTATTCTAAAAGGGAAAAGTATCTCTTTGGTATTGCTTTGGAAAACATTCTT
TATAACTATCTTGCTATTTAAAAATTGACAATTATCCTTCCATAATTAAAACAGGTAGACAACATCCTGTGCTCTTTCATTTTTTTGTAAAATGTAACAA
ACTATTCAGCATTCTTGAAGCAACCTTTCAATAATGGAGATACTGGTGCTTCATATCAATCAGCTGTTTTGATTTTGTGGCTAAGTTCTTTATTTTAAAA
AGACTATGTAAGTAAAAAAAATTTTTTAACAATATCCCCAAATTAAGGTGAGTGTTGCCTTCAAAACCTCCCCCACCATGTTTCCCAGAGGTCACCACTG
AACAATTTGGTATCTCTCCAGGTAATACAATCTTCTGCAGCTTGGTTTTATCACTTAGTCTATCGTGGAGAGTGCCTATGTGAGAGGTAATGGATCTACA
CCATTCTTAGTGGTCACACGGTTGAAATTCTTAAGTGCTGTTCCATTAGAGATTTTTATGAGACTCAATACTCTTTCGGGAAAGTCTAATATTTAGGTCA
CCTTTCCAGTAAGAAATTTGTAACATAAAGGATGTGTACACACCCACCTTCCCATTTTTTTTTAGGAATCAGAGTGTGAAGTTAGTTGAGACTGACCTCC
AACGAAGAAGCCTGTTTTCCACCAGCACTAAGGCTTTTATATATTTCTGATCCAAGAAGGTGACTTTTGCAGGATAGAGACTAAGAACATTTAGCAAAGT
GTGTTTGTAAAATAGCCAAAGGTTTATATTGAAGCACCCTCTTCTCTGTCCCCTAATGTGCAATCTGAATGAATGGAAGTCAAGAAAGCAAACTAAAACT
ATAATTAAAAGGCACAATTACTCATACAAACTCCATTATACCTCATGGTTTGTTCACATCATGGCTTTGATGATATCATATATCCCATGTGCTGTGATAA
AATAAGAACTAGACTAGATCAATCAACCAGAGGCCAGTTTATTGATGATAATGAATGAAGACTGCAATTGCAAAGAGGGCTAAAATACTCATGCTGCTGG
AATATATATCCGCTCCTATAAAAAAGGTGATATAAGTTAAAATGCTATTATAAGTTTGCTTGGTTGTTACGGAGTTAGGAGATGTGATATCTTACTCATG
CTTTTTACTATAGGCACATACCTTCCAAGGAGACCAGAACAGTCCCTCTCTGCACCCTGACCCCCCATGTCCCCACCCCAAACAGTGCTAAAGGGTACAC
ACAGTGTAATCATTTGGCTCCACTTTTCCCAGAGTTTACATATAAACTACTTTCCTTCTGTTAAGTATCTGGCATACAGTAGGCTCTCTCTGTCATCATA
CTCTGTACCTAATTATAAAGCAAATGGATGATAAAGTATTTATAAATTTTTTCTTTTGACTTTTGACAACACAATTTCAGACTTACAGAAAAGTTGCAAT
AGTACAAATAATTCCCAGATCCCCTCTACCCAGATCCCCCAAAGGTTAACATTTTACCACATTTGATTTATCCTTCTCCTTCTGTCTGTCTCTCTCTCTG
GCTCTCAATCTGATAGGTCAAAACTTTTGAGAGTGTAAATCTTAAAGTGACATTGTATTCTAGTCCCTCCACAGCTAGCAAAATTGTTTTTTTCGCTCTT
AAAGCAAGAAGGCTGCAATAAGCATTTTCTTCTTTTAAGTTCATGCCAGGTGAATTGTTCAGTATCATGGGAAAAATAATACTTGTGGGTTACAAATAAT
GTCTCATAATTCTAAATTGAATTAGGCTTCTAATCTAATTCCTTATATTCTTGGTAATTTGAAAACTAAGTCTGTTGTGAATTACCAAAAAGGAGCTGCT
CTCCATTTGAAGTTTTCAGTATTGCAGTAGGAGTTTCAACAAAATATGCACTGATTACTTGTTCTTGTAACTTTGTAAAAGCTTGAGAACAGATTGACCT
CTGTTGGCTCCTACGGGGTAACAGCTAAGGTTTATTCATTTACTTGTTTCTAGAAACACTGTATCTATTAGGATTTATTCCAAGCAACTCTGTATTAGAT
GGCTTAAAAGAAAAAAGAGATGTGCTATCTACCACTTTTGAAGCTCTGTAGTGAGGCACACTGACCTCATTTGTTTTTAGATTGCTGTACAATTTACAAC
CACCAAAGTGTGCAAATCATAAGTACAAATCATGGCTTAGTGACTACTGTGTGTGTATATCCATGTAAGCATAACTGTGTCAAGGTATAGAACTTTTCCA
GCTCCCAGCAGGCCTCCTCATCACTACCTCTACACAAATCTTTAAACCATACCATTCATCAATGTCTGCCATTTTTACTTCATTGAATTCCCTGTAACAT
GACTGTATCATGTCTTTTATCATTTTAAATTTCAGTTCCTTGGCAGACACTTGGGATTAGAATGGAACAAGTATTTTAAGTCCTTCAGTTAATTCATAAA
AGTTATTTATTGTTTTTTAGTTTCTATCTTATTTCCTGGACCAGAATATTAGAAGCTTGTGTTTCATCTAGAAGTCTTTTATTAGTCTCTTTTGTCATCT
AAATTTATAACATAGATGCCATTCCAAATCTTTGTGGCAACACAAGACCAAACCTCCAGTACTGAAATAAATGTGGCATTTATAAAGGAAGTTCTTTATC
TGGAGTGCTCTCTCCCAATCTATTAACCAGAAATATAAAGTATATAATAAATAATTTAGGTAAAGGTGAAAATCTCCCTGTGATAGTTTGCATTTGCCTT
TTATTCTCCTGGAGAGGGAAGGGAGGACAGCAGATACATTTGATCTTTTATTTCCTGAAATTTCTCCAAGACAGCTTTTGCAGATTAATTTTGTCCTCTG
GTTAAAATAAAATTCATGTCCCAAAGCCATTATAAAATTCTGGGTCTCCAGCCTTTCCTTAGGGCTCTGGTTCAGTATCTTGAAATACTGCAATATTTAT
AGTGTTATGGAAAGTTCTTTTTCATTTCTGATGTTTTTATGTTTAAGAAACTTGCTGTTATTATTATCCTCTGGTAAGTAGGCACTGAAGGAAAATCCCT
ACTGCTGTCATCAAAGCCACATTTTCCTCCAAGACCGGCTTTGACTTGACTGAATTTTATTTCGAATGTAAAGATGCAGGCTGGGCGCAGTGGGTCAAGC
CTGTAATCCCAGCACTTTGGGAGTCCAAGGTGGGAGGAACCTAGGACTTCGAAAACAGCTTGGGCTACGTAGGGA


SNP Information

Context             (SEQ ID NO:53397):
TTCCATCTGCCTTCCAGGTTGTGGCCTATGGTTTGGACATTTACCAAACTCGAGTCTACCCATCCAAGCAGTTTGACGTTCTGAAGGATGACTATGACTA
Y
GTGTTAATCAGCAGCGTCCTCTTTGGCCTGGTTTTTGCCACCATGATCACTAAGAGACTGGCACAGGTGAAGCTCCTGAATCGGGCCTGGCGATAAAGAA
Celera SNP ID:            hCV25932323
SNP Position Genomic:     38138
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,39|T,1)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:53398):
TCTGGCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCCTACAGTTTTCAGATTGAAAAATAAATGAAGACATACAGGT
R
TGCATCACTTAATGATGGGAATACATCCTGAGAAATGCCCTCTTGTGCAAACGTTGTAGCATGTACTTATGTAAATCTAGATGGTTTAGCCTACTACACA
Celera SNP ID:            hCV149749
SNP Position Genomic:     7936
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53399):
ATGTACAGATACACGCAGAGCGATTCATCAACTATAACCAGACAGTTTCTCGAATGCGAGGTATCTACACAGCTCCCTCGGGTCTGGAGTCCACTTGTTT
R
GTGAGTAGAGCCCACAGCTGCCCTATTTCACCCTTGGTGGATCATTGGTTGTTTCTTTCCTAATTCTTATTCCATCTGCCTTCCAGGTTGTGGCCTATGG
Celera SNP ID:            hCV25933127
SNP Position Genomic:     37968
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53400):
CCTTCCTGGTCTCCACTAGGAACCCTGAAAATCAGAAGTCTGGGCACATTGACCTGGTCAGTTTGAACCCAGCGGGCAGGAGGCTGTTGAGAAGTGAGGT
M
TTGCCTCAACTATAGAGCTTTCTGCACACCCCATTTCTCCCCAGGAACGAGACCCTAATGTGATGACCTTACTTTCATATGGGGCTATTAAGGGTTGAAT
Celera SNP ID:            hCV25934149
SNP Position Genomic:     18445
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,2|C,38)   total(A,2|C,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:53401):
GAGGTAGAGGCTGCAGTGAGCCGTGATCGCACCACTGCACTGCAGCCTGGGTGACAGAGTGAGACGCTGTCTAAAAAAAAACACAACAAAGAAAATGCTA
Y
GAGGCGGGTTATGAAATATCCATGAGCAACACTGGCTGGATGGGAGCTGCAGTGCTCCTGGCCTGCCTGGAGGGGGCAGCCTTACCCACCTGATTGGTGC
Celera SNP ID:            hCV8860730
SNP Position Genomic:     16033
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53402):
ACTGAAGAGCCAGCCATTGACATTGAGTACCCATTGTGGATATGCTTGCTCAGCCAACATGTATTGAGCGCCTGTTAGATGCAGAGTTTCTAGGTGCAAT
R
TTTGCGCTTGTGCTTGAATGCTGTTCCTAATTTCACTGTGATTCGTGAGTTTTGCAATGTTCCAGATATAAGAACATAATATAAAACTTCCACTGTTTAG
Celera SNP ID:            hCV8860733
SNP Position Genomic:     14128
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53403):
GTGGTGTGCCTAGAGATGGTGGACCTCCCCCTGACTGGGGCACAGGCCGAGCTGGAAGGAGAATTTGGCAAAAAGGCAGGTATGAACCTAAGAGGTTGGA
R
CTGCAGAGTTGCTGGAGGGGCCAGTCTGGAAATGACCACAAGAGACACTGTATCATGCATCTCTGGCTTCCTAGGCTGGGCAGATTGCTAGTCTTTTCTG
Celera SNP ID:            hCV25935168
SNP Position Genomic:     22429
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:53404):
TAAATTTTCCTTGCATATTTCCTACTCAGATAAACAACGGGATACTATTGAGCGTTCGCCTCCTTTCCTACTGGCTTTATTATCTTTTTTTTTTTTTTTT
T
GAGCCGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCAGTCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCTTGCCTC
Celera SNP ID:            hCV11461375
SNP Position Genomic:     29331
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53405):
CTTCAGTTTTTTATTACAGAAAAATATTGACAAAAGTGCAAAATCATGAGGTATGGCTCAGTGAACCCTCACCAAGGGAATACACTTGTGTACCTGGTGA
Y
CACTTCAGGAAACAGAATAGCACCAGCTCCTAGAAGGCCCTTGTGCCCTTTGCCAGTAACTACCTCCTGTCTCCACCCCCAAGGGCTCCGCATAATTCCA
Celera SNP ID:            hCV11461376
SNP Position Genomic:     28971
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53406):
ACAGTTTTCAGATTGAAAAATAAATGAAGACATACAGGTATGCATCACTTAATGATGGGAATACATCCTGAGAAATGCCCTCTTGTGCAAACGTTGTAGC
R
TGTACTTATGTAAATCTAGATGGTTTAGCCTACTACACACCTAGGCTATATGGTACAGCCTATTCTTCCTAGGCTACAAACCTGTACGGCATGTTACTTT
Celera SNP ID:            hCV149750
SNP Position Genomic:     7997
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53407):
TCCGGCCTGCCAATGGCTGGGGGAGGCTGTCACATGGGAGTAGTGGGAGAGAGGGCGGCTTTGCCTTAGCTCCACCCCGTGAGGGCCAGAGACTTACCTG
R
TGCAGGTTGTCTTTGTATTCATCAGATGGGCTCCGACCCAAGGCCACCATCATCACCTTGTTTTTGCCAAAGAACATCCTACCAAGCAAGAGAAAGAGCA
Celera SNP ID:            hCV2506965
SNP Position Genomic:     398
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,2|G,28)   total(A,6|G,56)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:53408):
AAGGTGTCAGCGGCATGACCCAGGCACCTAAAGGGTCAGAAATTGCTCCTGTGCTTTGACTGAGAGCAGCCTGGCCGGGTCCCCACTCAGAAGGGCCTTC
Y
TCCCCCTGCCCGCTCACCGGCTGTGCTTCCAGGCGTTCCGGATGTCCTTCAGCTTGCTGTTCCTCATGTTGGCCACAGAGAAGATGAAAAGGTACTTGTA
Celera SNP ID:            hCV2506967
SNP Position Genomic:     1471
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(C,4|T,24)   total(C,7|T,57)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53409):
CTTGCAGTCCTTGCTTCTCCCAGTCATGGATCAAGACTACGCCAAGGTGTTGCTGTTGATAGATGATGAATACAAGGTACTGTCTTCAGAGGGGATGGAG
M
ACATGCTAGCGGAGTCCGGTTTGGGGCCAGGTGGTCAAACACAGCGGCCCGGAGATGGAGTGCTCTCTGCACCCAGCACGTGTTTGGGCTCTAAGGCCAT
Celera SNP ID:            hCV25937278
SNP Position Genomic:     26301
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|C,1)   total(A,77|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:53410):
ATCCCAGCATTTTGAGAGGTCGAGGTGGGTGGATTACTTGAGTCCAGGAGTTTGAGGCCAGCTTGGGCAACATGGCTGAAACCTTGTCTTTACCACCCCC
M
AAAAAAAAAAACAAAAAAAACAATTAGCTGGGCATGGTGGTGCATGCCTGTGGTCTCAGCTACTCGGGAGGCTGAGGTAGGAGGATCACCTGAGCCTGGG
Celera SNP ID:            hCV27269105
SNP Position Genomic:     30791
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53411):
ATGCTTGGCTAATTTTTTGATATTTATTTATTTTTATTTTATTTTATTTTATTTCAAGACGGAGTCTCGCTGTGTCGCCCAGGCTGGAGTGCAATGGCAC
R
ATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGAACTACAGGCGCCCACCATCATGCCTGGC
Celera SNP ID:            hCV27269107
SNP Position Genomic:     21882
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53412):
GCGTGTGCCACCACGACCAGCTAATTTTTGTATTTTCAGTAGAGACAGGGTTTCCCCATGTTGGCCAGGCTGGTCTCGAATTCCTGACCTCAAGTGATCC
R
CCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCTGTCACCTGCTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCT
Celera SNP ID:            hCV27269108
SNP Position Genomic:     20795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53413):
TTGGGAGGCTGCAGGTTTCTGGAAGAGATTCAAGTGGAGTGTGCCCTGAGTGTTTCGTTCATAGCCAAATGTCACCTGCTTTTTTTTTTTTTTTTTTTTT
T
TGAGATAGAGTCTTGCTCTCTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCCCACTGCAATCTCCACCTTTCGGATTCAAGCGATTCTCCTGCCTC
Celera SNP ID:            hCV27269109
SNP Position Genomic:     20568
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53414):
GTTGGGTAAGTAGACCTCATTCAACCCATTTTTTTATTTCCCCAGGCCTTCCAATGTGTTCCAATCAGACTGTTTTTTGGGAGGCTGCAGGTTTCTGGAA
R
AGATTCAAGTGGAGTGTGCCCTGAGTGTTTCGTTCATAGCCAAATGTCACCTGCTTTTTTTTTTTTTTTTTTTTTTTGAGATAGAGTCTTGCTCTCTTGC
Celera SNP ID:            hCV25937024
SNP Position Genomic:     20492
SNP Source:               Applera
Population(Allele,Count): african american(G,24)   caucasian(A,2|G,20)   total(A,2|G,44)
SNP Type:                 INTRON


Context             (SEQ ID NO:53415):
GAAGAACCTTTGAGCTTAGGACCCCCAGTGGGATGCTGGCAGCAATATTGCTGTTGGGCTGAGAGGGAAATGTAAAAATCTTTCACGAGCTTCCTGTTAA
Y
GATGACTTTTCTGTAGGTTAGGGTTTCAACTCCGTGGCTGCAGCACCTGTCTGGAGCCTGTGGTGTGGTGGATGAGGCTGTCCTGGTGTGTCCTGACCCG
Celera SNP ID:            hCV25940216
SNP Position Genomic:     17075
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,36|T,2)   total(C,74|T,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53416):
TCCAGAAGAGTGATATATTACATTTTAAAATTTTTATTATTTATTTATTTTTTATTGTTTTGAGACAGAGTCTTGCTCTGTCACCCACGCCGGAGTACAG
Y
GGCATGATCTTGGCTCACTGCAACCTCCGCTTCCAGGGTTCAAACGATTTTCCTGCCTTAGCCTCCCAAGTAGCTGGGATTATAGGTGCCCATCACGCCC
Celera SNP ID:            hCV2506970
SNP Position Genomic:     10798
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53417):
GGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCCGATCTCAGGTAATCCACCCGCCTAGGCCTCCCAAAGTGTTGGAATTACAGGTGGGAGCCACTG
Y
GCCCAGCCAAGACTTTTTAAAATTTTTTGAGACAGGGACTCATTCTGTAGCCCAGGCTGGAGTACAGTACTATCATGGCTCACTGCAGCTTTGACCTTGC
Celera SNP ID:            hCV313199
SNP Position Genomic:     7594
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53418):
ATCTTTGAATATTTGTATGTTCCTATAACTGACCTTTGCGGTTTGTTCTCTCAGCTTGAATCCTGAGTGTCCTTAAATAAGATATTGCTGCAAGCCCAGG
Y
GGGAGGATCACTTGAGCTCAGGAGTTCGAGACCAGCCTGGGGATCACAGTGAGGCCCCATGTCTAAAATTAAAAAAATCAGGCATGGTGGCGTGTGCCTA
Celera SNP ID:            hCV2506971
SNP Position Genomic:     12886
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53419):
CAGCTACTTGGGAGACTGAGGTGGGAGGATTGCTTGAGCCCAGCAGGTTGAGGCTGCAGTGAGCTGTGATCATGCCAGTTCACTCCAGCCTGGGCAATAG
R
GCAACACCTTGTCTCAAAAAAAAAGATGCTGCTGCAAAAAACACATTATTCTACTTTGCAGTAAACTCTCAGATACCCTCACTTAATTACCTACACTGGC
Celera SNP ID:            hCV2506972
SNP Position Genomic:     13093
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53420):
GTTTTTGGAAGCTCCTGCATGAGCCTCACCTGAGTGTGAGACTTTGGGCATCAGATACAGGACTGCCCTTTGGGCTTGTGGCCTAGAGTGTGGACTTTAT
Y
GCTCCAGAGGAGAGGCAGAGATCCCTCATTAGGAAAATCATGTACCTCCTTATGGACCCCTAGTCTGATGTAGAGTATGTTACTTTTCCTTTACACCAGA
Celera SNP ID:            hCV25939138
SNP Position Genomic:     24302
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,25)   caucasian(C,6|T,30)   total(C,15|T,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:53421):
CCTGTTTTCTTACCCACTAAGCAACAGTGGGTACTGTTCTGGACTGTCTCTCCCAGCCTGAGGCTCTGCAGGTGTGGGCTGCTCTCAACCTGTACTTGTG
Y
TCAGTTTCCAGGCACTTGGGCTGGTTGGCCTGCAGGAGTCTGTAAGGTACATCGCAGTCCTGAAGAAGACTACACTTGCCCTCCATCACCTCTCCAGTGG
Celera SNP ID:            hCV2506973
SNP Position Genomic:     15060
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,13)   caucasian(C,13|T,15)   total(C,32|T,28)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   ;(C,-|T,-)   JBIC-allele(T,354|C,1121)   total(C,1121|T,354)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53422):
ACAGGCAATAGCTGCCTCGTTCTACTCTCTAGGAGCTCCTCTTTCTCCTCGAGGGACCCGAAGCATTTGCTTTAACCCAGGCCTGTCTCTTGTTGGTGTT
S
CATGGAGTGTGTTGCACTCAGAATATCTTGAAGGCTGTGAGTATGGGTGAAACTCCGGAGTATGCCTGGAGTTTCCTTTGCACTGAGGAGAACACTCTCA
Celera SNP ID:            hCV2506974
SNP Position Genomic:     15310
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|C,8)      total(G,2|C,8) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53423):
CCCCTGGATCCAAGAAGTTGGTTGTAGCCACAGAGAAGAATGTGATTGCAGCATTAAATTCCCGAACTGGGGAGATCTGTGAGTGAACTGAGAACTGTGT
S
TACTGGCTGCCTCAGGGATGAAAGACTTACCATTGCCAACTCTGCCTGGCTGATTCCTGAATAAGGAACATGTTGGCCAAAAGATGCCTCTCCTAGTGGA
Celera SNP ID:            hCV25932888
SNP Position Genomic:     12655
SNP Source:               Applera
Population(Allele,Count): african american(C,32|G,2)   caucasian(C,38)   total(C,70|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:53424):
CAGGCATGGTGGTGCGTGCTTGTGATCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACCTGAGCCTCGGGAGGTAGAGGCTGCAGTGAGCCGTGATC
R
CACCACTGCACTGCAGCCTGGGTGACAGAGTGAGACGCTGTCTAAAAAAAAACACAACAAAGAAAATGCTATGAGGCGGGTTATGAAATATCCATGAGCA
Celera SNP ID:            hCV2506976
SNP Position Genomic:     15961
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53425):
AATCTTTCACGAGCTTCCTGTTAACGATGACTTTTCTGTAGGTTAGGGTTTCAACTCCGTGGCTGCAGCACCTGTCTGGAGCCTGTGGTGTGGTGGATGA
R
GCTGTCCTGGTGTGTCCTGACCCGAGCTCACGTTCCCTCCAAACTTTGGCTCTGGAGACGGAATGGGAGTTGAGACAGATCCCACTGCAGGTGAGAGGCT
Celera SNP ID:            hCV2506977
SNP Position Genomic:     17151
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,17|G,23)   total(A,27|G,51)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:53426):
GTTTTCTCTCTCTCTCCAGAGCCTGAACCCCAACCTGCTGGCCGTGGTGACAGAGAGCACAGACGCGCACCATGAGCGCACCTTTATTGGCATCTTCCTC
R
TTGATGGCGTCACTGGGCGTATCATTCACTCCTCTGTGCAGAAGAAAGCCAAAGGCCCTGTCCATATCGTGCATTCAGAGAACTGGGTGGTGGTAAGCGG
Celera SNP ID:            hCV25933216
SNP Position Genomic:     34049
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53427):
GGGTATTATTTATGCCAGCTCATCATTGTGCACCAGGGACTGTTCTAAGCTTTTAACTTACACATTAATTGATTTAACCCTCCAAACACTCTCATGAAGC
R
GTTGTTCCTGACCTGGTTTTAAAATGATTCTGTGGCCTGGTGGGATCGAGTACCATAGCCAGAGTCACGGAGCCAGTAAGAGGTGTCACTGCGGTTCAGA
Celera SNP ID:            hCV2506978
SNP Position Genomic:     19783
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53428):
CAGTCTCTCGACTTAGAATTTGGAAGTGGATTCCAACCCCGGGTCCTGCCTACCCAGCCCAACCCAGTGGACGCTTCCCGGGCCCAGTTCTTCCTGCACT
Y
GTCCCCAAGCCACTATGCTCTGCTGCAGTACCATTATGGAACGCTGAGTTTGCTTAAAAACTTCCCACAGGTAACTGCAGGCAACATGGTTTGCTAGGAT
Celera SNP ID:            hCV27269110
SNP Position Genomic:     17650
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53429):
TAGATTCCAGAGACCATGCTCTTTACCTTGCTTCCTTGCATCTGTTTACAAATCTGTGGTCTCCAATGGAGGAGATTTGGAGGGCAGTGGCTTCATTGAC
R
GAATCAGGGAAAGAGTGAATGATGGTCCTGGGAACTCGTTGCAAGTACGTCTGTTGGGTGCAGGTTAAACAGCTGACAAAGTAGGAATGAAGCAATGGGA
Celera SNP ID:            hCV2506979
SNP Position Genomic:     23869
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53430):
TCTTTGTACTGGGGAACAGGGAACTTGGCTGGGCAGATGCAAAAGCTACTTATGCTCCCTCATTCTGGTCACTTGCCAGCTGCCTTCCCATTAGGCCTCT
W
TTTAAAGTACTCATATTTGCATGTGTTATCTTCTGGGGTGGCTAAAAAATTACATAGATCTAGTCTCTGCCTGTAAGTATCTTACAGTGCTGTGAAATCA
Celera SNP ID:            hCV27269111
SNP Position Genomic:     16682
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,10)      total(A,10|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53431):
TTTCTTTGTACTGGGGAACAGGGAACTTGGCTGGGCAGATGCAAAAGCTACTTATGCTCCCTCATTCTGGTCACTTGCCAGCTGCCTTCCCATTAGGCCT
Y
TATTTAAAGTACTCATATTTGCATGTGTTATCTTCTGGGGTGGCTAAAAAATTACATAGATCTAGTCTCTGCCTGTAAGTATCTTACAGTGCTGTGAAAT
Celera SNP ID:            hCV27269112
SNP Position Genomic:     16680
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53432):
TCCTAACTCTTTCCTTGGGCTCTCTGGGTTTTTCAAGGTCACAGCTTTTCCAGCCACTCGGAATGTCTTGCGACAGCTACATGAGCTTGCCCCTTCCATC
Y
TCTTCTATTTGGTGGATGCAGAGCAGGGACGGCTGTGTGGATATCGGCTTCGAAAGGTAGGAAGGCATGTCCTGGCACAACCCTTTGTGGATGAGATGCA
Celera SNP ID:            hCV15878720
SNP Position Genomic:     26637
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,9|T,1492)   total(C,9|T,1492) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53433):
GACTCAAAACTTCAAATTCTGGCCTGGCATGGTGTCTCACGCCTGTAATCCCTGCACTTTGGGAGCCTGAGGTGGGTAGATCACTTGAGCTCAGGAGTTC
R
AGACCAGCCTGGGCAACCCCATCTCTACAAAAAGTACAAAAAATTAGCCAGGCATGGTGGTGCGTGCTTGTGATCCCAGCTACTTGGGAGGCTGAGGTGG
Celera SNP ID:            hCV27269113
SNP Position Genomic:     15812
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53434):
TGGTAAAAATAGGATATGAAAGATAAAAAATGGTACACTGGTATAGGGCACTTAACATGAATGTATCTTGCAGAACTAGGAGTTGTTCTGGGGTTAGTCA
G
TAAGTGGTTGGTGAGTAAATGTAAAGGCTTAGGACATTACTGTACACTACTGTGGACTTTATAAATACTGTGCATTTAGACTATACTAAATTTATAAAAT
Celera SNP ID:            hCV27269114
SNP Position Genomic:     8263
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53435):
CTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGAACTACAGGCGCCCACCATCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAG
R
GGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTG
Celera SNP ID:            hCV327281
SNP Position Genomic:     22007
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53436):
ATGGTAAAAATAGGATATGAAAGATAAAAAATGGTACACTGGTATAGGGCACTTAACATGAATGTATCTTGCAGAACTAGGAGTTGTTCTGGGGTTAGTC
A
GTAAGTGGTTGGTGAGTAAATGTAAAGGCTTAGGACATTACTGTACACTACTGTGGACTTTATAAATACTGTGCATTTAGACTATACTAAATTTATAAAA
Celera SNP ID:            hCV27269115
SNP Position Genomic:     8262
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53437):
AATTTTATTGATCTAACCTTTGAAGCTTTAAAAAAGGAGAAAGAGGGTAGGGGTGGGAAACTGGCATACTGTGTGTATAGCACTGCCGATTGGCTAGGCC
M
CTGTGTCTCTGCTACAAATTAAAGAAATCCTAAAAGTTTTCCTTGGTCATAGAGTTGGGGAATGACAGAATTTTTCTTTGTTGTGAAATGTATGTACAGA
Celera SNP ID:            hCV8860710
SNP Position Genomic:     39278
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:53438):
TATGGTAAAAATAGGATATGAAAGATAAAAAATGGTACACTGGTATAGGGCACTTAACATGAATGTATCTTGCAGAACTAGGAGTTGTTCTGGGGTTAGT
C
AGTAAGTGGTTGGTGAGTAAATGTAAAGGCTTAGGACATTACTGTACACTACTGTGGACTTTATAAATACTGTGCATTTAGACTATACTAAATTTATAAA
Celera SNP ID:            hCV27269116
SNP Position Genomic:     8261
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53439):
GCTCCAGAGGTCTCCCTGCCTCCTGAGTCCTTTCCAGAAACCCAGTTGCTGCTTTGGTTTTCTTAGGATCTCAAATTCCCTGGATGGCAGCAAAGCGTGC
Y
GGTTAGGGCACTGGGCTCAGGAATCAGATTGCCTAGGTTTAATCTTACCTCTTCCGTTTCCTGACTGTATAACCTTGAACTAGTTATGTACACGCTCTGT
Celera SNP ID:            hCV8860712
SNP Position Genomic:     34272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53440):
GTTAGGATCCAGCTGTGTTTGACCCCAAAGCCTGTTTTCTTACCCACTAAGCAACAGTGGGTACTGTTCTGGACTGTCTCTCCCAGCCTGAGGCTCTGCA
S
GTGTGGGCTGCTCTCAACCTGTACTTGTGTTCAGTTTCCAGGCACTTGGGCTGGTTGGCCTGCAGGAGTCTGTAAGGTACATCGCAGTCCTGAAGAAGAC
Celera SNP ID:            hCV25939647
SNP Position Genomic:     15030
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:53441):
AAGGGAGGTTTTCTCTCTCTCTCCAGAGCCTGAACCCCAACCTGCTGGCCGTGGTGACAGAGAGCACAGACGCGCACCATGAGCGCACCTTTATTGGCAT
Y
TTCCTCATTGATGGCGTCACTGGGCGTATCATTCACTCCTCTGTGCAGAAGAAAGCCAAAGGCCCTGTCCATATCGTGCATTCAGAGAACTGGGTGGTGG
Celera SNP ID:            hCV8860713
SNP Position Genomic:     34042
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,38)   total(C,68|T,4)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53442):
TGGTCTCACAGCACAGGAATGGAGTGTGTGATGAGTCGTCGTGGTTCTAAGGGAGGTTTTCTCTCTCTCTCCAGAGCCTGAACCCCAACCTGCTGGCCGT
R
GTGACAGAGAGCACAGACGCGCACCATGAGCGCACCTTTATTGGCATCTTCCTCATTGATGGCGTCACTGGGCGTATCATTCACTCCTCTGTGCAGAAGA
Celera SNP ID:            hCV8860714
SNP Position Genomic:     33994
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(G,38)   total(A,4|G,70)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53443):
CCAAACAGGAAGCTCTTTTCACCAGAAACCCTGATTCCTCTGCCAGGCTGGAGAGCTCCAGGTTGGTCTCACAGCACAGGAATGGAGTGTGTGATGAGTC
R
TCGTGGTTCTAAGGGAGGTTTTCTCTCTCTCTCCAGAGCCTGAACCCCAACCTGCTGGCCGTGGTGACAGAGAGCACAGACGCGCACCATGAGCGCACCT
Celera SNP ID:            hCV8860715
SNP Position Genomic:     33931
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(A,1|G,35)   total(A,5|G,65)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53444):
AAAATTTTTTTTAAATTTTTTATTTTTGTAGAAGATAGAGATCAACCTAGGAAACATAGTAAAACCCTGTCTTCAAAAAAAAATTTTTTTTTAATTTTTT
R
TTTTTATATTGACAGGGTCTCACTATGTTGCCTAGGTTGGTCTCTATCTCCTGGCCTCAAGCAGTTCTCTTACCTTAGCCTCCCAAAGTGTTGAGGTTAG
Celera SNP ID:            hCV8860716
SNP Position Genomic:     31078
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53445):
ACGGACAGGGTAAGCAGAGTCCTCCCGTGTCTCCATTGTGCGGCCAGCTCCCTGTCCCATTCCTTGGCTCCTTGATCTGTACAGGGTCTGGTAGGGAAAG
R
AGACTGGGGACTCCTGACAGTGAAGGACAGGTACCTGTTTAACATGTATTTGCATCCAGAAATCAGAGGTGAGGCCACTGCTCACAGTGGGACCCTAGGA
Celera SNP ID:            hCV16188752
SNP Position Genomic:     13680
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;JBIC-allele(A,32|G,1467)   total(G,1467|A,32)
SNP Type:                 INTRON


Context             (SEQ ID NO:53446):
TCCTGTTGCTTCTCACTTCTCTTCCTTGAGCAGAGGTGGGTGGAAAATAAGATAAGCAGAGGTTCTGCTCCTTTTTTAGTGAGTTATTACCATGTACCAG
S
CACCACGCTAAATCCTTTATGTACATCGTATGATGTAATTTTGGAACAGTCCAGTGGGTTACATGCCACTTTACAGATGAGGAACCAGAAGCAAAAAGGT
Celera SNP ID:            hCV8860718
SNP Position Genomic:     23604
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53447):
ACTTTCATGTCTCTCAGTGTGGCGCCATGTTGACAAGGGCACGGCAGAAGGGGCTGTGGATGCCATGCTGCTGCACGGACAGGGTAAGCAGAGTCCTCCC
S
TGTCTCCATTGTGCGGCCAGCTCCCTGTCCCATTCCTTGGCTCCTTGATCTGTACAGGGTCTGGTAGGGAAAGGAGACTGGGGACTCCTGACAGTGAAGG
Celera SNP ID:            hCV16188753
SNP Position Genomic:     13606
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,26)   caucasian(C,4|G,36)   total(C,12|G,62)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,28)   caucasian(C,4|G,36)   total(C,12|G,64)   
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;JBIC-allele(C,74|G,675)   total(G,675|C,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:53448):
AACTTATTTTCCACAAAGAGGGCAAAGACTAGAGAACCCCCACAGTTGTTGAGCTGGAGTCCCAGCTCTTCAGGTCTATCCCTAGGATTTGCAGTCTTTT
Y
TTGTTGGTGGAGCCTGACAGTTTGCTCATTTTAGGAGTCGGGAATGAGTTCTCTGTATGTCTTCAATCCCATTTTTGGGAAGTGGAGTCAGGTAGCTCCC
Celera SNP ID:            hCV25931944
SNP Position Genomic:     26080
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:53449):
GAATCCCGAGCGTCCCGTCCGACCGAGGGCCTCGCGCGCTATCCCAGCTCTGTGGTCCCGCGGAGGCGGAGCCCGCGGCGCGGTGCATGCCGGGACGGCG
R
TGGGTGGTGCATGCGCTCGCATCATGGCGGCTGAGTGGGCTTCTCGTTTCTGGCTTTGGGCTACGCTGCTGATTCCTGCGGCCGCGGTCTACGAAGACCA
Celera SNP ID:            hCV16188754
SNP Position Genomic:     6006
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,2|G,38)   total(A,2|G,74)   
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,35)   total(A,1|G,73)
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;JBIC-allele(A,49|G,1426)   total(G,1426|A,49)
SNP Type:                 UTR 5;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53450):
TTGATCTGGGTATTGTGGAAACAGCCCAGTGCCCTCTAAAGCTGGCCATGGTCCCAACTGCCAGGATGAACTTGATTCACTCTGCTCTGATTCAGTCCTG
Y
CCCCCACCCTCTCTCTTCTCTCCATTCATCCAGCCCTCCAACGGATAGCTGTTGAGGGCCTGCTCTGGACCAGGCACTCTGCTAGGCAATGCACATTTTC
Celera SNP ID:            hCV8860719
SNP Position Genomic:     23195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53451):
TACTGAACCTTTTCAAATTCTGAGGGTGAGGAACAAAAAGCCTTCAGTGAGGGATAACACTGGTTCTAGTTTTCAAGGACAGACTCAGTTCTTTGGTTTC
Y
CTTTCTAGTAGTGAGCCAAGTATTTGTTTATCTTGCAGCTTTTTGGCATTGAGAGCAGCTCTGGCACCATCCTGTGGAAACAGTATCTACCCAATGTCAA
Celera SNP ID:            hCV25932749
SNP Position Genomic:     24725
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,2|T,36)   total(C,2|T,74)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,2|T,38)   total(C,2|T,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:53452):
GGACTGTTTGGAGAAGTACTCTGTGGTGTGTACTCACAAACAGCTCTCCCATCCTGTCCTGTAAGGCCTTTTGAGAGGCATAGAGTTTAACCAATTTGCT
R
GATTGGAAGTCTAGGTTTGTCACTTACTAACTTTGTGACCTTGGGCTCTGGTCTTCTGTTTTCTTATCTGTAAAATAAGGTGATAAGTACCTGTCTCATA
Celera SNP ID:            hCV27478964
SNP Position Genomic:     27623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53453):
CAGAATATCTTGAAGGCTGTGAGTATGGGTGAAACTCCGGAGTATGCCTGGAGTTTCCTTTGCACTGAGGAGAACACTCTCAAACTGGGGTGCTAGGGCG
W
GCCATGCTACGGGAGCCACTCACTCGCTCATGGTTATGGTACTTTGTGCCTTCTGACTTCTAGTTCAAGTTCTAGTTCTAGTTCTAGTTCTGACTGAGCC
Celera SNP ID:            hCV11461395
SNP Position Genomic:     15429
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53454):
GTCCTGCCTACCCAGCCCAACCCAGTGGACGCTTCCCGGGCCCAGTTCTTCCTGCACTTGTCCCCAAGCCACTATGCTCTGCTGCAGTACCATTATGGAA
Y
GCTGAGTTTGCTTAAAAACTTCCCACAGGTAACTGCAGGCAACATGGTTTGCTAGGATTCAGGAGATCTCTCCAAGACATGGATGCTAGAAGGCAGTGCT
Celera SNP ID:            hCV25935724
SNP Position Genomic:     17692
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53455):
TCCCAGTCATGGATCAAGACTACGCCAAGGTGTTGCTGTTGATAGATGATGAATACAAGGTACTGTCTTCAGAGGGGATGGAGAACATGCTAGCGGAGTC
S
GGTTTGGGGCCAGGTGGTCAAACACAGCGGCCCGGAGATGGAGTGCTCTCTGCACCCAGCACGTGTTTGGGCTCTAAGGCCATCCCGAAGAGAAATGATG
Celera SNP ID:            hCV2506980
SNP Position Genomic:     26318
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,31)   caucasian(C,10|G,26)   total(C,15|G,57)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,3)      total(G,3|C,3) ;JBIC-allele(C,364|G,1129)   total(G,1129|C,364)   (G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53456):
GTGTGATTAGAGCATGGATGAATGGCGTGGTACCCGTGGAGTACTCAGGTTCTTCCATGGAAAGGTCTGGGAGACCCCAGCATCATTATGTTGGCTCCTA
M
GAATATGTATCACTTACTGGCATCCAGATAATAGCTACATTGTTTAGACATCAAATAATGCCATGGCCTGTACCTCTGTTAAGTCCAGGCTTTGACTCCT
Celera SNP ID:            hCV25937544
SNP Position Genomic:     20132
SNP Source:               Applera
Population(Allele,Count): african american(A,32|C,6)   caucasian(A,36|C,2)   total(A,68|C,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:53457):
TAGTAGAGATGGGGTTTGGCCATGTTGGCCAGGTTGGTCTTGAACTCCTGACCTCAAGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAAG
M
ATGAGCCACTGCTCCTGGCTCATTTTTCTAGTTCTGATCTCTATTCCTTCCTGCACAAAGGCCTCAAATAATGAACTGTAGGATGTGTCTAACTCCAGCT
Celera SNP ID:            hCV2506983
SNP Position Genomic:     29932
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53458):
GTTCTTCCTGCACTTGTCCCCAAGCCACTATGCTCTGCTGCAGTACCATTATGGAACGCTGAGTTTGCTTAAAAACTTCCCACAGGTAACTGCAGGCAAC
R
TGGTTTGCTAGGATTCAGGAGATCTCTCCAAGACATGGATGCTAGAAGGCAGTGCTTTTGAATCTGGAAACGTTTGCTCTTAGGCCCAAGATTGATGACA
Celera SNP ID:            hCV16177615
SNP Position Genomic:     17736
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,16)   caucasian(A,27|G,11)   total(A,47|G,27)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,441|G,1044)   total(G,1044|A,441)   (G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53459):
TACAGGCATGAGCCACCGCACCCGGCCAGCAGCAAGCAGTTTTTGAGTGCTAGCTGGATGCAGGCACTCATTTAGACACTGGGATATAAAATGGGCAAAA
Y
AGACAAAACTTCCTGACCTCGTGAGGCTTTCATCATAGTTGGGTGAGGCTAATAATAAAGAAAATAAATAGGTAAATTAGATAGTATATTAGAAAGTGAC
Celera SNP ID:            hCV2506985
SNP Position Genomic:     32376
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53460):
CAGAGCAAGTGGGAAATGACTTCACCACGATCTTTTCTTTTCCAGATGTGATCACTGTGTCCAATGGAGGCCGAATCATGCGTTCCTGGGAGACTAACAT
Y
GGGGGCCTGAACTGGGAGATAACCCTGGACAGTGGCAGGTAGGGGAGAAACTGGATTTTATCTTGACTGAGTTAAAGGCTTCACCGGAACACAGATCTGC
Celera SNP ID:            hCV25936566
SNP Position Genomic:     13886
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,6)   caucasian(C,40)   total(C,70|T,6)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53461):
AATGTCGCAAGGAGGTAGTGATCACCTGCGTCACGTGGTACTAGTGGGTCAAGTAAGTTGAGGGCCAAGACTTAGCCACTGGATTTAGCGATGGGGAGGG
S
GGTGGTGACCCTCAGAAGAAAAATATCACTGCAGCATTTGTCCCTAGGTCAATGAGTGGGCAGACCTGGATTTTGTCTTGGGTTACCATTTGCTATCTGT
Celera SNP ID:            hCV2506986
SNP Position Genomic:     33572
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53462):
CCTTGGGCAACCACACTTAAGGACAGAGCAAGGGACACATTGCTGGCAGAGCCTTGTTGAACCACCTGTAAGGGAAAGGTGGTGAGGAGGGCTATATATC
R
GTGGAAAAAGTTTCTTAGTTCATCTTTGCCACCTATGAAGGTGACCACTTCTCTCTCAGTTCTCATCTTTTTTTTGTTTTTCGAGACAGGGTCTCACTCT
Celera SNP ID:            hCV2506987
SNP Position Genomic:     35050
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53463):
TGGCGCGATCTCATGGCTCACCACAACCTCCGCCTCTGGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACC
R
CACCCAGCTAATTTTTGTATTTTTGGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCCGATCTCAGGTAATCCACCCGCCTAGGCC
Celera SNP ID:            hCV313200
SNP Position Genomic:     7458
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53464):
CCTGCCATGGCCCAGTTACTTCCCCCGGCAAAGTAGGGCAGAGGTTGTGAGCCTGGGATGGGTCAGGGAGTCGTCAGCTGTTAGCCATAATCCTCCTCCT
Y
CTTGCCTTCCAGTCTCTCGACTTAGAATTTGGAAGTGGATTCCAACCCCGGGTCCTGCCTACCCAGCCCAACCCAGTGGACGCTTCCCGGGCCCAGTTCT
Celera SNP ID:            hCV25936495
SNP Position Genomic:     17540
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:53465):
GAAAGTTAAGAAACCAGTGTCTTCAAAAGTGAGAACCTTCATTCAGACCCATGCGTATCATTGGATTATTATTTTTGGCTATGTAAGGGAGCCTCATTGA
S
CCATTTTTTTGTTTTAAATTCTTATTTAAATGTCTGCAATAATGACATTTTTGTAACTGGCCCTTGCTGGACACTGGATCGGTGTGAACATTCACTTCCT
Celera SNP ID:            hCV2506988
SNP Position Genomic:     36579
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53466):
GTGTTGGGATTACAGGTGTGAGCCACTGCGCCCAGCTAACAAACACGTCTTATGTGTCCTAAAATGAATGTGATGGTGATAGCCCTGTGATTTTTTTTCC
R
GAGCATTTTGTGGAATGGTGATTTTAGCTCCTTATGGTCCCCTGTACTCTTTTTTTCTCAGGAGACAGCAATATGTTGGGAAGGTCAAGTTTGCCTCCTT
Celera SNP ID:            hCV25943137
SNP Position Genomic:     12446
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,40)   total(A,3|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:53467):
CCCCACAGCCTGGACTCCTCATCACTACCCAGTATTGCCTCTGTGTGCATCTGGTTGTGTTCCTCAGCTGCTTGGGCTGTGGCTTCTTCGTTTCTAAAGC
R
GAAAGTCTAATCCCGGCCTCCTGCTCACTTTGTGGGGTGTGATTAGAGCATGGATGAATGGCGTGGTACCCGTGGAGTACTCAGGTTCTTCCATGGAAAG
Celera SNP ID:            hCV8860721
SNP Position Genomic:     19995
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53468):
ATTCAGGTCTAACCCCACAGCCTGGACTCCTCATCACTACCCAGTATTGCCTCTGTGTGCATCTGGTTGTGTTCCTCAGCTGCTTGGGCTGTGGCTTCTT
Y
GTTTCTAAAGCGGAAAGTCTAATCCCGGCCTCCTGCTCACTTTGTGGGGTGTGATTAGAGCATGGATGAATGGCGTGGTACCCGTGGAGTACTCAGGTTC
Celera SNP ID:            hCV8860722
SNP Position Genomic:     19983
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53469):
CCCTCCAAACACTCTCATGAAGCGGTTGTTCCTGACCTGGTTTTAAAATGATTCTGTGGCCTGGTGGGATCGAGTACCATAGCCAGAGTCACGGAGCCAG
Y
AAGAGGTGTCACTGCGGTTCAGATTCAGGTCTAACCCCACAGCCTGGACTCCTCATCACTACCCAGTATTGCCTCTGTGTGCATCTGGTTGTGTTCCTCA
Celera SNP ID:            hCV8860723
SNP Position Genomic:     19860
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53470):
AGCTTTTAACTTACACATTAATTGATTTAACCCTCCAAACACTCTCATGAAGCGGTTGTTCCTGACCTGGTTTTAAAATGATTCTGTGGCCTGGTGGGAT
Y
GAGTACCATAGCCAGAGTCACGGAGCCAGTAAGAGGTGTCACTGCGGTTCAGATTCAGGTCTAACCCCACAGCCTGGACTCCTCATCACTACCCAGTATT
Celera SNP ID:            hCV8860724
SNP Position Genomic:     19830
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53471):
CTGGGCAGTATGCCAGACCTAGAGACGCAGGAGGCCACCAAAGAGAGTTGGGGGAAGAGCTTTGGTTAGGAGCAGGTCCTAGAGTTCCCAGCTTCAAATG
R
GGTTTCCTAAGTACTGTAAATTAAATGATGTTTCTCTTAATCTCATTTTACCGGGAGATTAGGAGGTAGAATCCCTAGAGTCTGTTTCTAGCCACTTTCT
Celera SNP ID:            hCV8860725
SNP Position Genomic:     18857
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53472):
CTAAGAAGACAAAAACAAAAGCTTCATTTCAGTGACTGGGAAGTGACCCTTTGGCTGAATTTTCTCCTGTCCTTCTCTTTCTCATAGCAGAAAAGTAGCA
R
TTCTGAAGATGGGTCAATGGGGAGCTTTTCGGAGAAGTCTAGTTCAAAGGTATGGTGTGGCACTGGGCAGTATGCCAGACCTAGAGACGCAGGAGGCCAC
Celera SNP ID:            hCV8860726
SNP Position Genomic:     18694
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,6|G,34)   total(A,16|G,62)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53473):
CAAGTGCTAAGAAGACAAAAACAAAAGCTTCATTTCAGTGACTGGGAAGTGACCCTTTGGCTGAATTTTCTCCTGTCCTTCTCTTTCTCATAGCAGAAAA
S
TAGCAGTTCTGAAGATGGGTCAATGGGGAGCTTTTCGGAGAAGTCTAGTTCAAAGGTATGGTGTGGCACTGGGCAGTATGCCAGACCTAGAGACGCAGGA
Celera SNP ID:            hCV8860727
SNP Position Genomic:     18688
SNP Source:               Applera
Population(Allele,Count): african american(C,24|G,14)   caucasian(C,19|G,21)   total(C,43|G,35)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53474):
ATGATTCCCCTGGAGGGTCTTTCTCCTAGACTCTTCCTGAGCAGTGGAAGCCATTCAGGCCTCTGGCTGAACTGGTGTAAGAGGAAATCAGTCACTTTCC
Y
CTTTGGGGAACTTGAACTGGAGCATTTGGAGCCACCTGCCATGGCCCAGTTACTTCCCCCGGCAAAGTAGGGCAGAGGTTGTGAGCCTGGGATGGGTCAG
Celera SNP ID:            hCV8860728
SNP Position Genomic:     17405
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,27)   caucasian(C,6|T,28)   total(C,17|T,55)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53475):
GGAGTCCCTGGCAGAAGTGGTGTGCCTAGAGATGGTGGACCTCCCCCTGACTGGGGCACAGGCCGAGCTGGAAGGAGAATTTGGCAAAAAGGCAGGTATG
R
ACCTAAGAGGTTGGAGCTGCAGAGTTGCTGGAGGGGCCAGTCTGGAAATGACCACAAGAGACACTGTATCATGCATCTCTGGCTTCCTAGGCTGGGCAGA
Celera SNP ID:            hCV25935193
SNP Position Genomic:     22413
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,38|G,2)   total(A,76|G,2)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53476):
CTAGTGTTGCCACATCTTCTAACCGTAGGAAAATTTAGAAATCTGATTGTGAAGTATAATATCTTCTAAATGTTGACAACTAATTCAAATTAAGAACAAC
W
ACAACAAAAGCCCCCAAACTGTGTGAGCCAAACAAAACCTATTTGGGAATTACTAGTTTGTGACATCTGGCTGAGGCCTGGCAGCCCCTGAGGATAATCC
Celera SNP ID:            hCV8860729
SNP Position Genomic:     16247
SNP Source:               Applera
Population(Allele,Count): african american(A,32|T,6)   caucasian(A,36)   total(A,68|T,6)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53477):
ATTGTTTTGAAGATTAATGATAACATGTAAAGTGATTAGAATAGTGCCTGCCACATACTTAACATTATTATTAGTGCTATTGACTCTTTTTTTTTTTTTT
T
GAGACAGGGTCTTGCCATGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCACAGCTCACTGCAGCTTTGACCTCCCGGGCTTAAGCAGTCCTCCCATCTCA
Celera SNP ID:            hCV11461369
SNP Position Genomic:     31718
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53478):
TCCAAACAGGAAGCTCTTTTCACCAGAAACCCTGATTCCTCTGCCAGGCTGGAGAGCTCCAGGTTGGTCTCACAGCACAGGAATGGAGTGTGTGATGAGT
Y
GTCGTGGTTCTAAGGGAGGTTTTCTCTCTCTCTCCAGAGCCTGAACCCCAACCTGCTGGCCGTGGTGACAGAGAGCACAGACGCGCACCATGAGCGCACC
Celera SNP ID:            hCV25933665
SNP Position Genomic:     33930
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:53479):
TTGATGGTTCTCCTTCATGGATCTGTAGCTAATTAGAGGGGTGCCTTCCAGTGCAATTTCCCTTTCCAGTTGAAGCAGCTGCTAAGCCCTGAGCTGCCAC
S
TCCTATCCCTGCAGTACCAGTACTGGAACACCAAGGCTCGGCGCAACGAGTTTACCGTACTGGAGCTCTATGAGGGCACTGAGCAATACAACGCCACCGC
Celera SNP ID:            hCV15950431
SNP Position Genomic:     34688
SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   JBIC-allele(C,384|G,925)   total(G,925|C,384)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53480):
ACTTCCCGTGTGCCGAGGCAGTCCCTGAATCCCGAGCGTCCCGTCCGACCGAGGGCCTCGCGCGCTATCCCAGCTCTGTGGTCCCGCGGAGGCGGAGCCC
S
CGGCGCGGTGCATGCCGGGACGGCGGTGGGTGGTGCATGCGCTCGCATCATGGCGGCTGAGTGGGCTTCTCGTTTCTGGCTTTGGGCTACGCTGCTGATT
Celera SNP ID:            hCV25941214
SNP Position Genomic:     5980
SNP Source:               Applera
Population(Allele,Count): african american(C,15|G,21)   caucasian(C,4|G,34)   total(C,19|G,55)   
SNP Type:                 MISSENSE MUTATION;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,15|G,23)   caucasian(C,4|G,32)   total(C,19|G,55)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:53481):
CGTATCATTCACTCCTCTGTGCAGAAGAAAGCCAAAGGCCCTGTCCATATCGTGCATTCAGAGAACTGGGTGGTGGTAAGCGGTCACTACCAGGGACCCA
R
GGTAGCTCCAGAGGTCTCCCTGCCTCCTGAGTCCTTTCCAGAAACCCAGTTGCTGCTTTGGTTTTCTTAGGATCTCAAATTCCCTGGATGGCAGCAAAGC
Celera SNP ID:            hCV15950432
SNP Position Genomic:     34167
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,28|G,10)   total(A,60|G,14)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(A,437|G,1058)   total(G,1058|A,437)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53482):
TTCCCCTTCTGGCCTGGCTCCTTCTCTAGGGTATTTGCCCCCAATCCTTGGACTTCCTTTGGTGGGCTTTGCTTTCGGGGGATACCTGTAGTTGACACGT
S
CTGTCTGTACTCCTAGGACTCTCTGGCTTGCTTCAATCAGACCTACACCATTAACCTATACCTCGTGGAGACAGGTCGGCGGCTGCTGGACACCACGATA
Celera SNP ID:            hCV15950433
SNP Position Genomic:     19382
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,31)   caucasian(C,12|G,28)   total(C,17|G,59)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   JBIC-allele(G,497|C,808)   total(G,497|C,808)    
SNP Type:                 INTRON;TFBS


Gene Number:                 259
Celera Gene:                 hCG41227 - 79000075609985
Gene Symbol:                 NAB2
Protein Name:                NGFI-A binding protein 2 (EGR1 binding protein 2);MADER
Celera Genomic Axis:         GA_x5YUV32W46Y(4754197..4774121)
Chromosome:                  Chr12
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12419):
GCCATGATCATGCCTCTGCACTCCACCCTGGGTGACAGAGTAAGACCTTGTTGCTAAAAAAATGAATAAATTGGGCAGGTGCAGTGGCTCATGCCTGTAA
TCCCAATGTCTTGGGAGGCCGAGGCAGGTGGATCACTTGAGCCTAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAAACCCCGTCTCTACAAAGAATAC
AAAAAAAAAAAAAATTAGCCAGGTGTGGTGGCATGCACCTGTGGTCCCAGCTACTTGGGAGGTTGACGTGGGAGAATCACCTGAGCCTGGGAAGTCAAGA
CTGCAATGAGCTGTGATTGCACCACTGTGCAGCCTAGGTGACAGAGTGAGACCCTGTCTCAAAATAAATAAATAAAATAAAATAAAGGCTAATATATATG
TATAGATATGTATATGTATTTTTTTATGTGTAGGTATATATACACATATATATACACATACTTCATTTTTTTTTATCAGGCCCCATTCTCATCATTCAGA
GCTTGCTCTTTGGTTTTCACTAAAGCAAATCCAGGGGAACTAATTTCAGAAGATCACTGACCACTGACTATTAAAATATATAAATGAAGTGTATGGTAAT
GAGACTGGCTGTCCATAAACACATTACAACTTATCATCCAAATGAGTGCTGTCATTTCAAGATAGTCATTCAAGAAGCTTTTAGCTTTGTTTTAATGAGG
ACACTGCTCAAAACAACAAGAATCTCCTTCAGAGTCTATAACACACAATGCAATGAATATTCATTATCTGCAGGTGGATTGGATTTATGCAAATAGCCAA
AAGAACTCAGGCCAACACTGATGAGTAAATGGGGTGGGAAATCTGGATGGTTAATGTGTTTCAAAATTTTTTGGATTTTTGAAAGATAGTATGGTGCATA
TACAAAATATAAAGCAACAATCCCAATGCATCAGGACAGCACCCAGTAATCAAACAAATTAATATTTCTGGAATGACACATATGACTTCATACTGTGGTA
AGTGAAAGATGGAAAAGTGAAAACTATAAATAACCTTATGTAAGTTTAGGTCAGGTTCTGCCACAAAATAAATTCAGTTCAGATTAGGTTTTATTGTCAA
ATATGTTATGAAAAAGATTTTGTTTTTGTTTTTGAGACGGAGTTTTGCTTTTATCGCCCAGGCCAGAGTGCAATGGCGTGATCTCAGCTTGCTGCAACTT
CTGCTTCCCAGGTTCAAGCGATTCTCATGCCTCCACCTCCCGAGTAGCTGGGATTACAGGCGCCCGCCACCACGCCCAGTTAATTTTTGTTTTCTTCTGT
TTTGTTTTGTTTTGTTTTGTTTTGAGACCGAGTCTCACTCTGTCACCCAGGCTGGAGTGCGATGGCGCGATCTCGGCTCACTGCAACTTCTGCTTCCCAG
GTTCAAGCGATTCTCGTGCCTCCACCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCACGCCCAGGTAATTTTTGTATTTTTAGTAGAGACGGGGTT
TCGCTATGTTGGCCGGCTTGTCTTGGACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGAGATTAAGGGCATAAACCACAGTACCC
GGTCAAGCTTTTGGTTTTCATAATTTTTTTAAATTTAGGAATTGTGGATAAAGGATTTGCAGGCCACGAATATTTGATGAAGGCTATTCCAGAGTTTTGA
GAAGGAACACTCCATTCCACATACTCMGTCACCCAAGCTAGGAGCCTGAGAGTCACCCTAAACCCTCATTCTCTCCTCTCAACCCCTCAGCCAATCAATC
AAGTCCTGTCGATCTTATTTTCTATATTTTGAATCTGTTCTTTCCCCCCATGCCAGTGCCTTGCCATCTTTCAACTGAGAGGGTCCTTCAGTATTTTTCA
AGCTGACCTTCCTACTGTTTTTGCAGCCATAAATCCTTCCTCCACTCTGCTCCTAAGTGCAGATCTGACCATGCCATGAGTCTTTGTTTCCAGAGTCTTT
ATGGTTCCAGTAACACCACAGGATGAAGTCCAACATCCTTAGTATGATCTAAAACTCAGAGGCAAAGACACAAATAACTATAATAATGTTATTCAATGTT
TGTCACCAATCTGTAATGAAACAATTTCAGAAATTAAGTGTAAGCATTTAGAAAGTTTTATAGGAATTTGACAGAGAAATTTTATATTTATTGAATCTAA
CAAAATGGTAGTTTATTTTGTTTTTTGAATAATTCATTTTTAGTGCATTCTACAAAAGTAGTGGACAATAATAGATTGGAAATGTTTTAAAAATTGGTCC
TTAACCATACTTTGAAAAGCACTGGTCCAAAATATTTTTAATGTAATGTACCTGTACACCTCCCTAGGCTCGTTTCTAACCAGCTCCACCCACCACCCAG
CAATAATGAACAACCTTTTATAGTTTCTGAAACATATCACTCTGTTTCATACCTCCACCTCCATGGAAATGCACTTTCTGGCCTCTCTGACTTGACTTCC
CTTCCTCCTAGAATTTTTGTTTTTGTTTTTGTTTTTTGTTTTTGAGACTCACTTTTTGCTCTGTGGTGCAGGGATGCAGTGGCGCCATCAAGGCTCACTG
CAGCCTTCAACTTCTGGGCTCAAATGTTCCTCCCACCTCAGCCTCCTGAAGTGCTATGATTACAGGTGTGAGCCACCGCCCTGGCCACTCCTGGAAATCT
CATACTGACTGCATCATCACCTCCTTTGGATGCCTGTCTAAACCAAGGCCCCTCACAACTCCAAGCAGAACAGATCACTCACCCTCTTATACTTCTGTCA
TTGTTGTACCCATATTATTGCACTATGTTGTAATTATTCGTTTATAGGTCTATTTCCCCTATTAGTCTGTGAGCTCCTTAAAGGCAGTGGTTAGGATTAT
CTGTCTTTCAGGAGTGAAACATTTCTTGTAAAATAACTAACTTGAAGGACAACATTCCTTAGATGATAAATTCTGCCATGTTACTGAAAGAGAAAAAAGG
GATCATTACTTTATACTTTTCTATTACCAGCCAGGACTTCGGCCTACTACCTTTAGCATCTGAGTGTGAATTAATTTACCAGAATGGTGGACATTTTAGA
AGGCCAAGGAGCCAGATTTGTGGGACTCACTGGAAACTTTACAAGGGAAAGAGATATGGAAAACAAATGTCTTCACTTAAACAGTTTTGCCCAGGCTCAG
CCCCTTTGGGAGTAAAATCTGTGTCATGTGCCCTTTCAAAGTTGCACAGGCCTGTGAATAGGATCAATTTATTCATTTCAGAGGGTCCACCAGATAACAG
GCCTATCCTGGAGAGGTCCTGGATTTCGGCTGAAACAAGCAACTATAATTGGAAATGTGTACAAAGAGCAATGAGGAGGCCACCGAGGGGTGGGAGGAAT
TAATTCTGCCTGGAGGAGTGGAAGGGGTCCAGGAAGGAGAGGGTGAGCCAAACCTTGCTGAGTGAGTCGGATCTGGCCCAGTGGAGACGTTGGGGGAGGA
GTGAGCAGAGCAATCTGCTAGATGAAAATCTACACGTGCGCGTAGGGACGACAGTCTCTGCACTCCTCTTCCGCCCACTTTCCTCCCTTTCCTCGCAATC
GTTTCCCCTTTTCTTGGAAAACTAGGACTGAGGATACTGTTTCCCTTCACGGAGGAGACCAGCACAGATAAAAGAATATTAATCCTTTTTATCACGAGAT
CAGTTCCTCTGGTCTGTCTTTGAGAGCACTGGGGATGGGGAGAGCAGGTGAGTCAGGCACAGAAGTGGTCCTTCTTTGAGTGAGCCAAGGGGACACAGGG
GAGAACAGGTCCCATGCAGGAAACAAATGAAAATTTTTGTATTTGTCCCCACTCCCTTTTTGTCACCACTCCCCCCCMCMCACACACACACCTGTCTCTT
TATGTTTTTCTATAGTTTCCCATGGTCTCCGTCTTTGTCTTTGCCTCTTTCCCTTTGCTACAGGCTGGAAATTCCTTGTTCTCAACGGAAGGGAGTAGGA
GGGGAGTTGGGGGTGGCAGGAGTGGGCGGGAAGAACAGACATCTCGGCAGCTCTGGCTGCGGGCTGCGGGGGCGCTCTGGGCCTCTGGCGGGCCCTGACA
AGTCAATGATTTTTTAAATAGGGGCTCATACACAAACCTAGAGAGAGAGAGGAACACAGATATACAAGTGGATATAAAGAAACATATAAATACATAATCT
CGGGTACAGAGACACAAACTGGCAGTAGCGTCTTAAATATGCTTAGCATTCTACAATTTAGAGAGTTTTCCCGTACATTCTCTCATCCGAATCTCACGAC
AATCTTGAGAAACAAGGGCACAAAGACACAAACACCCGGTAGTTTCACTCTCACACACGGGTTCGCACCCGGACCCCCGCTGGCTCCCCTAGGGGAGTGG
GCAGGCCCCTTCTGCGGAATTTCTCTTCCCTCGTCCCTCTCTGGCCGAGCACCCCCTCTCCCAGGACCCGGGAGCGGAGAGCTCAAAATCGGCTCCTCCC
TCCCCCTCTTTCCCGGATCAGGACCGGGACCCGGGCGCCCCGCGCCCAGTAGGTTGCCGCTCACTTGCTCACGCCCTACTCCGCCTCCTCCTTGGGCGGG
CGTCTCCCTCCAGATCCTAAGGCTCAGCGCCGCCCCAAGGGGGCCGGGGTGGGAGGGAGGGGGGCGCCTCGAGCAGAGGCTGCGTGGGCGGAGGATGTGC
GTCACGGGGAGCGTGGGCTGGGGGAGGGAGGGGGCACGTGGAAACCCGGGGCCAGCGGCTGGCAGCCCGGGATCCAAAATAACCTGAGGTGGGGGGGGAG
GGGTCGCCCACACCCCGTACGGGGTCGGGAGCGTCCCCAGGGGAGCCCGTCTAGCCGCACCCTCCAGTTGCGGGGCGGGGGACTGGGAGACGGGACTCTG
CTCGTTCCCACCACCCCCACTGTGTTTGGCGCTTAATAGGTTGGAGAAGAGGACCTGAGCAACTGAAATCCTCCCACCAACAACGCGCTCCTTCTCCCCG
GACCCCACAAGGCGGAAAGGTCTCCTCGCTAGGCCACATTGTAAAACCAGCCCCGGTCCACGGCCTCCACGCCCCGCCATGCCCCACCCCAGCCCCTCAG
AAGTGCGGACAGAGAGGCGGGGCGGGGCTGAGATTCCGGACTAGGGGAAACCTCACCTGTGGCCAGTCCGCTCGCTTTCCCCGGCCCCCACCCCCCCTCC
TTTCCCTGGGGCTTAGAGTCTATGGGCCGGGCCCTTAGAGCCCCCGCCTCCCCCAACAGCCCTCCCAGCCGTGGGCGGGAGTGCAATGCGAACCAGATGG
GGCTAGGAGAAACCAAAGGGGGAGACGGTGGTGGGTTGCAGAGGCGGGGGCTAAGCTCCTTCAAGGCGCTCCTCCTTCCAGCTCCGCCGCAGGAAGTCAC
GTCGTAGGCTCCCGACCTCTTACTCATCTTCCACTAGACTCTCGGGCGAGGTCCCTAATAGACGGCCCCAGGAAGGGTATCGTCTTTGTCACACAAAATT
CCCAGGCAGGGCCTCATCCTCAGCAAACAGAGGACAAGTGGAGGAATCCCTGCCTGACCTACGCGCTGACAAAAGCCGACGCGTCTAATCAACACGCGCA
CCTAAGTGGTGGCGTGCAGCATAACCCTCCCATTCCTGTTTCCCAAACTTTCCAGGCTAGCATGGAGGCCTGGGTTTCTGAGAGCGACCCCCTCAGATTA
TTCCATTGGGGCTGAGGAGGGGCGCGGGGATATCTAGGAGATCCCTGCAGAGCCCCACGCTCTCAGGCCCGCCTTAAGTGCACACTATACGGGAGTCAGA
TGCACGCACAGGAGAAGCCGCACAGCCCAGCCTTCGCTAACTTTTCCCGGCTCACTGCTAACATTCACACGTCCAGCACCACAAGGCCTGAGTATGGGCA
ACGGGCGTCCCCGTAGTTGTTTAGGCGCGTGTGCACGTCCGTGCGCTTCTGTGTCTTTGTGTACTTGTGCGTGGTTGTGAAACTCCTCTCTCAGCTCGGA
GGGGTGGGGGAGAGAAGGAATGTCGCCGGCGGGGCGCTCACGTGGGTACGTGGGCGCCAAGAGGGCCGGCTGTGCATCCGGCGTGGGCGGCACAGAACGA
CCTCGCCCCGCCCGCTGGGTCCCCAAGCCCGCCCTGCACAGCCGGGCCTCGGTCACCTCGGTCCCCAATTCGGCGCCCCGGCTCTGAATCCCCGCCCCCG
CCTCCTGCTCCACACCCCCTCCCCCCCCGTCTCCGCCTCTCCCAGTCTCTAAGCCGCGGCGTCTCCGCGGCCGAGAGGCCCCAGCGCCCGCCTCCCCGGC
CCCCGCCCCCACCCCCGCCCCCGGCTCTGCCCACGCCCTCCGCCCGCCAGCCCGGCAGCCAGCGCAGCTCCGGGCCTCGCTCCCTGTGCGTCCTGCGGGG
GCGGAGGCGCGGAGAGGCGGCAAGCGCAGCCGGGGAGGGTGGGGGGGCAGAGGCACAGACAGAGGCGCGGAGGCTCGGAGAGAGAAGACGTGGAGGGAGG
GACAGAGCCTGGACAGCGGTGGACACGGCATCGTGCGCGGGGAAGAGGGCAGCACGCAGCAGGCGCCGAGCGCCGGGCACCGAGAAGGGCAGCCCGGGTG
ATCTCCGGCCGTCCATGCACAGAGCGCCTTCCCCCACAGCCGAGCAGCCGCCGGGCGGAGGGGACAGCGCCCGCCGGACCCTGCAGCCCAGACTCAAGTT
AGTGGGCAAAGGGAGGCAGCGGGGAGTGGAGATGGGTGGAGCTGGACTTGGGAATGGGGTCCAGAGGGCGGAGGTCGAGGGGAGGACGTGGGGAAGSAGG
ACGGGGGTGGGGGGTGGAGACTGATGGAAAAGGGGGTGCGTCTTCGAATTAGGGGGCCCTGGGAGCAGGCAAGCATCTGATGAAGCTGGATATGAAAGAG
TAGTACCCAAATCTCCATTCCTGGTTTACTCTGTGGGCTCCATCTGGCCTAAGAGCCCCCTGCAAAGAATGTGGGAGCCTCCAAGCACCAGGGGATGCCC
TGGAGCTCGAGCTGGCATCAGTGCGGAAGGTGGGGGGACGCTCAGTTGCCTCAGTCCCTCGTTGGCACGGAGCGCGCGGGCCCCCGGTGCCTTTGAGTTA
AAGGAGCATCAGCGGGGGAAAGGGGGGGTGACGAGGGAGGCAGGGAGGCCTTAGGCGTTCCTTCCCATATCTGTCCCTTTATTCACAGAGCGGGGAGGGG
AGTTTCAGTGTGCAGCCCCTTCATCAAGAGGCCTTGAGCCGCTCCCCCACTCCACTTGAAGATGCGGGTGGAAAATATGGGAGAGGAGAGTAGGCGGGAG
CCCCTGGGCGGTTTTCGCCTACAGACGCTACCACTGTGGGAGTGTGTGTGGGCGGAACGGCCCCGGAGCAGAACAATTGCGCCCCTCCCCCTGCCACGGC
CCCTGAGCTGAAGGAAAAGGCTGACCGAGGAAGTGGGGAGTGTCACTGCTAGGAGAGGGGCCACTGAGGAGCACTGGGCAGCCTGGAAGGGTGGAGAGGT
TCTGAGGGGAGAGAGGAAGCGTGCGTTAAGAATGCTTAACCAGGCCGGGCGGGCCCGGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCG
GGTGGATCACGAGGTCAGGAATTCGAGCCCAGCCTGACCAACATGGTGAAACCCCGTTTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCGGGCG
CCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGACAGCGCCACTGCACTCCAGCCTGGGTGA
CAGAGCGAGACTCCGTCTCAAATAAATAAATAAATAAATAAATAAATAAATGCTTAACCCCTGGGAAAAGCTGAGCGGAGAAGAGTAAGGCACCACCTGG
CTCACTGAGTGGGAAAGCCAGGGAAGGTGCCACACCCTCCCTTTTAGCCACCTGGGGCTGTGGCCCCTTCACAGGGAATGAAGCTGGCCAGCAGCGTCCA
CTGTGGGGGAGACTGGGCTCCTACATTCACTTTAGTATGGGTGACTTCACTTCAGTGTTGAGACTGCTGAGTGWKTAGAGGGGAAGGTGAGGATTGTGTT
TTGGGGGAGAGGGAGGTCCAGCCATCCCAGGTCGGTGCTGGTCAGCCTCAGCGCTCAAGTTCTTCTTGCCCCAGACCAAAAAGATAAAAGCTGAAGATAA
GGTTGTAAGACGCTTCGACTCCTACAGACACAGGCCACTGACTTTTGGGGCTTCGGGCCAGTCTAGGACGGCACTGGCTTGTCCATGCCTCTGAGCAGTG
CCTGATTCTGAGAGTCTGTACTCAGACCTGGGCACTGGGCAGGATAGCATCCAAATGAGGGAGGGGAAGAAAAGCAGGCAGGAAAGAGGGAACAATTGTT
AGTGTGGGTTGGTACCCAGTAGGGGGACTTGCACCGACTGCCTCTCTCTTGTGCCCCTCCTTCTCAGGCCCAGTGCCCGAGCCATGGCACTGCCTCGGAC
GCTGGGGGAGCTGCAGCTGTACCGGGTCCTGCAGCGCGCCAACCTCCTTTCCTACTATGAGACCTTCATCCAGCAGGGAGGGGACGACGTGCAGCAGCTG
TGTGAGGCGGGTGAGGAGGAGTTTCTGGAGATCATGGCACTTGTGGGCATGGCCACCAAGCCCCTCCATGTCCGGCGCCTGCAGAAGGCACTGAGAGAGT
GGGCCACCAATCCAGGGCTCTTCAGTCAACCAGTGCCTGCTGTTCCCGTCTCCAGCATCCCGCTCTTCAAGATCTCTGAGACTGCGGGTACCCGGAAAGG
GAGCATGAGCAATGGGCATGGCAGCCCAGGGGAAAAGGCAGGCAGTGCCCGCAGTTTTAGCCCCAAGAGCCCCCTTGAACTTGGAGAGAAGCTATCACCA
CTGCCTGGGGGACCTGGGGCAGGGGACCCCCGGATCTGGCCAGGCCGGAGCACTCCAGAGTCGGACGTTGGGGCAGGAGGAGAAGAGGAGGCTGGCTCGC
CSCCCTTCTCCCCCYCTGCAGGGGGAGGAGTCCCTGAGGGGACTGGGGCTGGGGGGCTGGCAGCAGGTGGGACTGGGGGTGGTCCAGACCGACTGGAGCC
AGAGATGGTACGCATGGTGGTGGAAAGTGTGGAGAGGATCTTCCGGAGCTTCCCAAGGGGGGATGCTGGGGAGGTCACATCCCTGCTAAAGCTGAATAAG
AAGCTGGCACGGAGCGTTGGGCACATCTTTGAGATGGATGATAATGACAGCCAGAAGGAAGAGGAGATCCGCAAATACAGCATCATCTATGGCCGTTTCG
ACTCTAAGCGGCGGGAGGGCAAGCAGCTCAGCCTGCACGAGGTGAGAACCCCCAGGCYTCCTAGGATTGCCCTTGACTTCCAGGTCTCCAGCCGCTTACC
TCTGCGAGTTTCTACAGTCTCCRACTATCTTTCATTATCTCTTGACCAGGACCCCAGGCCCTGATCCCCTCCCCAACAGGCCCCTACCCCAGCGGCCGCA
GTGCTTCCATCCTCAGCTGAGGGGGAAGCAGAGATACAGGCAGCACCGAGCTGTTCAGCTCCTTGTCACTCAGGACCCCACAGGAGAGGAGGMGGCCCCG
GGCATTCCTAGGAAGCTGTGGGTGCTGACCTCTGTCTTCCCACCTCAGAAAGCTCCCATGTAGTGTCAAAACCAAAGCAAGCGTCTGATGGATGGGCCTC
ATTTGTCCAATGGTGAAGGGGTGTGAGGAGGTCTGGTGAGGCAGCGGGGAAGTTCGAATTCTGACTCTCCTGGCTGCCCTCCCTCCACAGCTCACCATCA
ACGAGGCTGCTGCCCAGTTCTGCATGAGGGACAACACRCTCTTATTACGGAGAGTGGAGCTCTTCTCTTTGTCCCGCCAAGTAGCCCGAGAGAGCACCTA
CTTGTCCTCCTTGAAGGGCTCCAGGTGAGACCCCTTCCCCAGGTCCTTCCTGGACTGGAATCCTGCTATGGAGTTAGATCATGTCCTAACCTTCAGCTCA
GGCAGCTCTAGGCCTGCTTCCCGCCCACCTGGATGTCCTGCTTTTGGCCAAGTCAGCTTGTCTCAGGTCTGGTCTCTCCTCCCATCCATGTCGGGTCCCC
CCAACCCCCTACAACAATAGTGCTTGAACTAGAGACTCTTTCTCGGCCAGCTTCTTGGCAAAGGTTTTAAATAACACATGCCTCTGGCTGGGTTCTGTGC
TCTGCCRGTCGAGTGGCCCTCGTCAGCCTCATCCACTTTATTCTTACCCATCTTTTCAGGCTTCACCCTGAAGAACTGGGAGGCCCTCCACTGAAGAAGC
TGAAACAAGAGGTATGTTTTCCGGGGTGCATATAGGGGCACTGGGCAGCCTTCCCCAATCCCCTCCCTTGGCAGGTCTTCATTTCCCCATGTTGGGCATC
CACAGGTTGGAGAACAGAGTCACCCTGAAATCCAGCAGCCTCCCCCAGGCCCTGAGTCCTATGTACCCCCATACCGCCCCAGCCTGGAGGAGGACAGCGC
CAGCCTGTCTGGGGAGAGTCTGGATGGACATTTGCAGGGTGAGTGTGCCTCAGAACACTTTTCTCTTCATTGAGGGTGGGGGAGTAGGGGAGGGGGTTGG
GGGAGGAGTGAGCCAGGAGGCAGTGCCTGAAACAGGGTTGGGAGACCTGGCTGGAGGGGGGGCAGAAGGGCCTGTGGGCTGGCTATGTGGTTGAGGGTGG
GGGTTCCATTGGCTGCAGCCCCTTACCTGACCAGTGCCCATGCCCACAGCTGTGGGGTCATGTCCAAGGCTGACGCCGCCCCCTGCTGACCTGCCTCTGG
CATTGCCAGCCCATGGGCTATGGAGCCGACACATCCTGCAGCAGACACTGATGGACGAGGGGCTGCGGCTCGCCCGCCTCGTCTCCCACGACCGCGTGGG
CCGCCTCAGCCCCTGTGTGCCTGCGAAGCCACCTCTCGCAGGTGAGGCAGCCAGCAGTGCTGTCCCCAAGCACCCCGGCCACTCAGGCCCCACACAGCAA
TTCTGGTGTCCTGGGGCCAGGTGGGAGGAAGAGGGATATAGTCGTCAGAGAGGGCAGTAGGATGGCTGGGCTCCAGCCAGCCAGGCCTTGGGGTGCAGAG
AGGCAGACCCTGCCGAGCTGCTCCCACCATGGAAAGTCTGGTCCTAGTGTAGATCTGTRAAAGGGGAACTGGGGAATGGGGGGACAGAGAAAAGAGGATG
AAGGAGCAGGAAGGAGGAGCATCAATAAGGGAAGCTCAGATGGCACTTCCACCAACCCAGGAGTGGGGAGCAGGCTAGGAGTTGTGGGKATGGGGATGGG
GATGCCCAGCTTGGAAGCAGAGGAGCCCAAAGCAGTSATGCTTTGTGTGTGGAAGGGGGAAGAGGGAGTGGGCMGGCGGAGGGCCGGGCAGCCGCTGGGC
TGAGAGTGACGCAGCAGACAAAGCCACCAACCCTGGCTTGGTATTTTTAAACTGTGCGTGGGTGGGAAGTGGGGGCGGGGACTGGAAGGGGGGCTCTTCT
TGAGGGAGGAGCTCGGAGGCTGGCTTCCTGTTCTCCCTCTGATTTGGCTACCAAAAAACTTGGGGGGCCATGGTAGAGTGGCCTGGGAGGGGCCTGGGAG
GGGGCCAGGGATGAGTGGGGGTGGCAGAGCTTGGGAAGGGGGGAGGGGAGAGGTCAGAGCCAAACCACCCCCGCAGCTCCTGACAGAACCAGAAATTCCA
GCGCAACCGAGGAGGCGGGAGAGAAAGAGASAGARACAGACAGAGACAGAGCTACGCACAGCCAGGGAGGGGAGGGGGCTCACACACATGGGAATGGAAC
CCCCCATACACATGCAGTGGGCAGGAGGCAGTAATTCAATAAACCTAAACTGWGCCCATCTTCACAGCTTTCTTTGCCCCTGCTTCTGTTCCCAACCACC
TCTGTCTGCAGCCAGTCACCCTGCAGTCTCCTAACTGCCCCCTTTTCCCTGCAGAGTTCGAGGAAGGGCTGCTGGACAGATGTCCTGCCCCAGGACCCCA
TCCCGCGCTGGTGGAGGGTCGCAGGAGCAGCGTGAAAGTGGAGGCTGAGGCCAGCCGGCAGTGAGGGTTGGACTGGTGTCTTCAGACCCAGGMCCTCAGA
CTTCTGGCTCMCMCAGACCCCCACGCTCTCCATCCCCGGAATCTAGTCACMMCCCTGGATCCTTCCTCTGCCCTTCTCCTGCCTCCCCACCTGCTCCATG
GGCATAAGACTGTGGGGCTTCAAGCAATAACAAGCAGAGGCCTGGAGAGAGGACACAAGGAGGGTGYGTGGTGCCCTCACCCCTGCCCAGAGCGAGGGGG
CAAGGACTCTGCCTCCAGGGCATCTGGGGTTTTCCCCTCCCTCACACAACASACTCCCATTCTCTTTAGGTTTGCACCAGTGGTGTGAGCAGTTGGACTC
AGTTTGGACAAGGGGGAAAGGGGGACTTCCCTGGGAAGGTCCAGCTAAAAGTGGCAACATTTGCCCCCAGAATTGGGGGCCTGGGAACACTGGACCTGCT
CCTTCTCCCCTCTCCTTCCCCGTTTTTGTGCTTCTGGTTTGTTTCTTTAATTAATTTAACAAGTGCTGCAGTTTGCCCTCCCATTCCCATCTATCCCCCA
AGTCCTTTGCAATTTCTTCCCTGCCCTACATAGGGGCGGTGGGTGTGGGATCCCTTCACTGGCCCCCTCGGGAGGCCTGGGTTGGACTCAGGGTCTCCTC
CAGCTGGGGGCTGGACYGCAGCACCTATYTGAGCAGTTAGAGCGTCTTTCTTTTCAGATTGTGTACAGTAGATTATTTATTTTGTTATTTTGGAATAAAA
TTTATTTTATGGCTTAGGATCTATGACCCCTGCCTTGAGAGGGAGAATGGGATAGGGGAGTGAAGGGAAGCTGGCGGTGGATGGGGCAACAGAAAAGATG
CAGCAGGCAGGGCCCTCTCATACACTGGAGGGCCACATGGCCAGGCCTGGACCCAGACTCTCACCCTGGCTCCCAGGYAGCATTGGAGGTGTGGAGCCAT
ACGTAGATGTCACAGCCACTTGGACCCACTTGGGCACAGTCAGACTCCAAATTCAGAGTATTTGGGGGTTAGCATATGTCAGAGAGGCCAGCACACTTGC
TGCTGTMTTCTGTGCAGTGTCTCACCCTCCCAAATTTGTGTTGTCACGTAGGCAAAAGCAGATAGACACATGTTCTATGTGGTCATGCAACTAAGGTGCC
AGCTATAYATTTAACATATCCTAGGTACATACACGTTCACACAGCTATACACGAAGAATCTCAGCCCTYGTACTTTTGCATAGTCTCATACACGTATCAG
AAGCCTCCACCTGGCTAACAGGAATTTGGGGCTTTGGGAGATTTTTTAATCAGGGCAAAACCTGTACTAGTAACCACATGTCCAGACYCCTCCTATGCTC
CCACCCAGGGTCCCTTGAGCTGCTTCCCATTCCCCTAGGGCTGAGACCCAATATCCTCTATCCCTGGCCTCTAGTGTAAATGTGTCTGTATGTTCCTGCC
TATCCGTCCTAGGCCCTGGGTCAGAATGGGCGGAGAAGCCTTCCATGCCCTAACCTGTGCTCTTACCCAGCCCCCCTCCTGCTCAGCCCCATCACCCTCA
GAGAGCTCTGTATGTGTGTGTGCGTGCGTGTGCGCGCTGCAGGTGCAGGCATGTTGGGGYGTGTCTCAGAGCCTGAACTTCCCTTCCAGTCAGTGCTGGA
AGGAGGTGGGCAGGGGAATGATAGAAAGGAAGGAGTGGATTGGCTCCACCCACTGTGCATTCTCCTGTTAGTCTTTTCCTCCTGACCCAGGAGTAGGTGG
GGATAGGAGGGCACCCTCCCCATCTGCTGCTTGGCAGGGCATGAGCAAGTGTCCAGAGCAGGTCTGTGGGGGTAGTAGAAGAGCTGTCTCTTTGGGTTCT
CCCTCCAGCTGGGATCACCAACTGGGGTTGGCCCTTAGGTCCATGTGGGACATTGAGATCCCAGATTGCCCATAGTGGGAGGGCTGCAGGAGGGGCTGTG
CCCCCAAGGACCCTCCCCCCGACTCCCCTTGCCCCTCCAGGAGAAGCTTAGTGAGGTCCTGTTCAGTGGGAGGCAGCAGAGGAGGGAATATGTCTTCACC
AATCCTGCAAGGAGATGGGAGAAGCAGTGGAGTAGGCATGGCGCCCACTCCCCTAGATGCCACCCAGCCTCCACTCCCAAGCTGCCACTCACCAAGTGCC
CTGAGGAAACGCTGTCACTGGCTGGCTCAGGCAGCTGTCTTCCACCATGGTCACATCTGAGCAGAGCAGGGGGTCAGGGCTGGACACAGCATGCTCCTGA
GGCTGGCACGGCAGCAGGCCCCTGCCAGGAACCAGCAATGGAAATAAGGAGAGCGGGGCAAGGCCAGGAAAGAAGAGGCACATGGGGTCAGGAGGGGCTT
TGTCACTCACTGGGGGTGAGGCTGGTCAAAGGGCAGGCTCATCTGGCCCAGGCTGGGGGGCATCTGCAGGTGAGGCCTGGAAGTAGGGAGAGCACAGTTA
GAGGAAGGCAGGCTAGGCAAATGCAGAGTGGTGCAAAGTCAGGACCACTGAGTGAGGAAACAAGCTCCAGCTCCTTATCCTGACTTAGTCATGGCCTGGG
CAAGCTATTTCTATGCTCTGAGCTCAGTCTTCTCATCTGTAAAATGTGCGTGTTATGGGGGTGGATTAGCCAATTTCTAATGTTTCTTTGGACTCTGAAC
TTTGGTAGTTCTTAAGTCCCCAAGTCCTCACTCCCGCCTCACCTTCTGGGAAGGGAGATGTTGTGTCTTGACTAAGTTAATAAGCACCCGAGTGTCATAC
TTCGGGAAGAAAAATGTCTAGGCCATTTCAAGGCCAAAACAGATGAGTAAACAAAAACCAATACAGCAGAGAAGTGACAGTGGCTCTCAGGGGCAGGACA
GAAAATAATAATAACAGTCATGCACCACATTAACGACATTTCTGTCAACTACAGACCACAGTGGTCCCATAAGATTATAATCAAGGCCAGGCAGAGTGAC
TCACGCCTGTAATCCTAACGCTTTGGGAGGCCGAGGTGGGAGGATCACTTAAGCCCAGGAGTTTGAGACCAGCTTGGGCAGTAAGTGAGACCTTGTCTGC
AGAAAAATCTTAAAAAAGAATTAGCCGAGTGTCGTGGTGCACTACAGCAGGAGGATTGCTCGAGCCCAAGAGGCGGAGGTTGCAGGGAGCTAAGATCGCA
CCACTGCACTCCAGTGAGTGAGACCCTGTCTCAAAAAAAAAAAATTATAATCAAGCTGAAAATTCCTATCACACAAATATTTACCATTATGTTACTATTT
CCTTATACTATTCAGAACAGTATCATGCTGCTCGGGTTTAAAGCTAGGATCAATAGGCTACACAATATAGCCTCAGTGTATAGTAGTCTATACCATCTAG
GTTTGTGTAATTATACTCAATGGTATTCGCATAATTATGAAACTGCCAAAGACAGAAAATGCTCCTTCATTAAGTGATCCACGACTGGACTTACACAGCT
TTTGCTATGAGCCATGCACTATGCTCAGCTTTTTAAGTGTTATGAACTCATTTAATCTCCACAATAATGCAGTGAGGTAGGTTATTATTATTAGCATTAT
TATCCCCCATTGTGCAGATAAGGCACCAAAGGCTAAGTAATTTGCCCCAAACCAGTAAGTGGTGGAGCTAGAATTCAAACCTAGGCAGTCCAGATCTTAA
CTACTACCCCCTCATTAGAGTGGACAGAAGAGAAGAAGACAGGCTGTTAGCATTTGCTGCTCCTTTCTCACAGAAGAGCCTCTTCTAACAATTCAAATGC
CCACCCCCTTAGAGTGGGATGGTATCCCCATGAGGTTTTTCACTTACTCCTGGAAGGCTGACAACACGTTGACTGATTCTTCTGGGGAGAGGCCTTGATA
CGGGGGGATGGAGTGAGAGTGTGGTGGGTACACCTGGGGCCTGGGGAAAGAAAACAGACCCCCTGATGCCAGCCCTTCTCCTGGACACCACCACACCCTG
CTTTTGAACAGGTGTCCCTCTCATGGAAAGGAAGATTCCCTGTTCAGCCCCCAGTGCCAGCTCTCCCAGCTGCCCATGCTAAGATTAGCCCATCTGCACA
GACCACTCCCATTCCTGTCTTTCCAGCTCCTTACACCATATCTGGGCCAAGCTGCATGCTCATGGAGGAATCAGGGGCCATTCCAAGGTCATAAGAAGGC
ACCATGGTAGGCATCTGGAGCTCTGGGGTAGGAAGTGGTTGGTCCCTGGAGGAGGGAAGGAGGTACATGTGACTGACCAAGGGTTGATGCCACCCCTCCT
TCCTGCAGATAAGCACTAAGCCCCTGACCTACCCACTGTCCATACCACCACACTCACCTTTCCACGGTCATCTTGATGGTAGCTGGGACATAACCCCTGC
CATCCTTACCCATCTGTTCAGCTGTTGTGAGAAGGAAAAGACAGCCATGGAGTGCTCTGGGGTTAGGGAGGAAGGGAGGTGGAAAAGGTGGGCATGGATC
ATGGGGAAGTAAGAGAAGCACAGCTATGAAATAGGGAGTGACATCAGGATGACACGCGGGCAGGGAGAGGAGGGCAGCGGGGAGCAGGGAGGAAGTGGGT
GACAGGAAGGAATCAGAGCTGCCAGTTCCAGCTCACGCTTGTAGTGGCTCCGGAAAGCCTCATCCTTGGGCTTCTTGGGATAGAGATTTTTGAGCTGAGC
AAGATCCCGGATTCGGTCCCCCAGTGAGCGAATGGACAGGTCTTTGGCAGAGAATGGCTGGATGTTCTCTATCTGTGGAGAGCCTATGGTAGGAAGGAGA
CCCTGAGATCCCTCTGTCCGGACTTTCTTCCCCTTCCCCAACCCCTACCATAAGACCTGTTCTCACTCCACCAAGGCAAGGGAGAGAGGACCTAGGGTGG
GGCTCCTGAGGGAGAGAGACCCACTAGTCTCCGTTCCCACAGAGCTCACAGTGAGAAGGTGAACATTTAGACCACAGAAGGAAGAAGAGAAGCTGGAAGA
ACTTCCTGAAGATCAGGATCGGCATCAGGAAGGTCAGGACATTTCATTCCCAGAAGAAACCCCAGAGGGCACAGGCACAGAGACAGAGGACTGGCTGGGG
TGGCCTCACCATCCTGGCCCCGGATGACATGGGCAATGGTGATGCCCCCAATCTCTGAGTCGCTGAAGCGGAGGAGAAAGGTTCCGTCGGGCTCATTGAG
AAGAAGGCTAGTAACGTACTGTTTGCTGATGAAGCCAATGATCAGCCTGGCCGGGATGAAGGAGAGGATGGGGCATGGGCAGTGAGTATGGAGGTGACTG
GTGTATGGCTGCTCAGACTACCCAGGGTGGGGACTCACCGGTCAGACCAGTAGCTCCGGAGACAGCGTTTGGTGAGGTCCAGGACACCATCAAACCACTG
CCAAAAGGTGAAGCCACGGCCCAGCAGGATCTCCTAGGGGGAGAGGGGGAAAGGTGTGAGCCGAGGGAGGGCCAGAGCTGGAGCCTGTTTAGGGCAGGCA
GTGAGCTGTGAGTGCCCTCACGACAGAATCACAGGGCTGAGGATCAGACCGAACCTGAGACTCCATCAATGACAACGACCAATCCTAATGCTTACACGTG
CCAGCCACTATTTCAAGCCTTTCCATATATTTATTTGCTCTTTACCAGGCTATGGAAGTAGGGATTATAATAATTCCATCTTACAGATGAAGAAATGGAA
GTCCAAAAACGTCGAATGACTTGCCCAGGTCTACATAGCTGGTAAGAGGCAGAGCTAGGATTTAAACCCAGGCATTCTGGCCCTGGAGCCCCTCTTAACT
ACTATGCTACACCCTCTCCCTAAGGAGGTGTGGCAGAGGTGACGCCCAAAGGAAGGTAACCTGCTGGGTGTGACTGTCTTGCTCCCTTTAGCTAACACAC
CCTCTGGTCACATGAGCATTTCTTTCTTCTCTTTAAAGATTCTGTCTCACACAAAAGAAAGAAAAAGAGAGAAAGAGAAAGAGAAAGAAAGAAAGAAAGA
AAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAAGAAAAAA
AAACCAAAACATAAAATAACATAATATAACATAAAATAAAAGAGCAAGAGTCAGAAATATGTGGTTCTCTCCTAGCCATGGCACTCACCTGCTTTGGGAA
CTTGAACAAACTACATAACCCTCTGAGCATCAGATTCCTCATCTGTAAAATGGGGATAATAATAGTATCTACCTCAAAGAGATGTTGGGAGGATTAAGTG
AGATAACATACATAAGGTGTTAAGCACAGCGCCTGGCATATAAGCTGTCAACACGTGGTAGCTGGTATTACTGCACATGTCCCTGTGGGATTTTGTTCAG
TTTTTGCAACAGGAATTCTTTTTCTTTCTTTCTTTCTTTCTTTTTTTTTTTAGACAGAATCTCATTCTGTTGGCAGGCTGGAGTGCAGTGGCACAATCTT
GGCTCGCTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGTTGGGACTACAGGCATGCGCCACCATGCCCAGGTAATT
TTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGATGGTCTCGATCTCTTGACCTTGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGG
ATTACAGGTGTGAGCCACCACACCTAGCCTTTTTTTTTTTTTTTTTTGATACAGAGTCTTGCCCAGGCTGGAGTGCAATGGTTTCATCTTCCCTGCAGCC
TCTACCTCCTGGGTTCACCTCCTGCCTCAGCCGAGTAGCTGGGATTACAGACGCAAACGACCACTCCTGGCTATTTTTTTGTTTTTAGTAGAGACGGGGT
TTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTATCCGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAACCACCATGC
CTGGCCTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTTGAGTGCAGTGGTATGATCTCAGCTCACTGCAACCTCCACCTCCT
GGGTTCAAGCAATTCTCCTGCGTCAGCCTCCCATGTAGCTGGGATTACAGGCATGTGCCACCGCAACTGGCTAATTTTTGTATTTTTAGTAGAGATGGAG
TTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCCCGGCATGTCAAAGACTGGGATTACAGGCATGAGCCGCTGTGC
CCGGCCAGGAACTATTTTTCCAACAGGTCAAAGTCACTTTGAATCAGAGCTCTGTTTACACACAACCTGGGTGAGTCATGCAAGTCACTGGTAAAGAGGA
AGGACAGATGGCCCCCAGACCAAAACCTCAGGGATGTCAGAGAACGCATCTCCAGAGCCAACCCCCAGGCCTGGGGTTTTTCCTCCCTGGTCCATGACAG
GCCTTCCTAAAGGACCTGAGGGGGCACTGTGGAGAATCCAGTGGAAGGTCCCTGCATGGAGGCTGAGCAGGCCCTGAGTGCCCCAGGGATGAAGAGCTTG
GGGGTGGGAGGTCCAAAGGGCAGGAGAATGACCTTGTTGAACTGCGACCAGGACACAGAACGGTGCTGGAAGGCCTCCATACTGAGGCTGTTGTCATTGA
AGATCTTCTGGGCCAGGAAGAGGAAGTGCTCTGGGAGCAGCCCCCGGTTGGTCCCCACCTCAGCCATGAACTTCAGGTTCAGAGTTTCACACATCTTCTC
CCAGGGCACCCGCTCAGCCACCACAAAGGGCACGCGGTCCTGGGGAGAAGGGGGAAGAAGAGAGCACTGCAGGCTACCGTCTTGTTATTCCTCGGGCCGG
CCTTCATCCCTCCCACCTGCCTGT


SNP Information

Context             (SEQ ID NO:53483):
GTGAGCCAAGGGGACACAGGGGAGAACAGGTCCCATGCAGGAAACAAATGAAAATTTTTGTATTTGTCCCCACTCCCTTTTTGTCACCACTCCCCCCCCC
M
CACACACACACCTGTCTCTTTATGTTTTTCTATAGTTTCCCATGGTCTCCGTCTTTGTCTTTGCCTCTTTCCCTTTGCTACAGGCTGGAAATTCCTTGTT
Celera SNP ID:            hCV7499355
SNP Position Genomic:     3880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53484):
GAAGGGGGGAGGGGAGAGGTCAGAGCCAAACCACCCCCGCAGCTCCTGACAGAACCAGAAATTCCAGCGCAACCGAGGAGGCGGGAGAGAAAGAGAGAGA
R
ACAGACAGAGACAGAGCTACGCACAGCCAGGGAGGGGAGGGGGCTCACACACATGGGAATGGAACCCCCCATACACATGCAGTGGGCAGGAGGCAGTAAT
Celera SNP ID:            hCV620390
SNP Position Genomic:     11735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53485):
GGACCCCATCCCGCGCTGGTGGAGGGTCGCAGGAGCAGCGTGAAAGTGGAGGCTGAGGCCAGCCGGCAGTGAGGGTTGGACTGGTGTCTTCAGACCCAGG
M
CCTCAGACTTCTGGCTCACACAGACCCCCACGCTCTCCATCCCCGGAATCTAGTCACAACCCTGGATCCTTCCTCTGCCCTTCTCCTGCCTCCCCACCTG
Celera SNP ID:            hCV620391
SNP Position Genomic:     12093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:53486):
CATGTTCTATGTGGTCATGCAACTAAGGTGCCAGCTATATATTTAACATATCCTAGGTACATACACGTTCACACAGCTATACACGAAGAATCTCAGCCCT
Y
GTACTTTTGCATAGTCTCATACACGTATCAGAAGCCTCCACCTGGCTAACAGGAATTTGGGGCTTTGGGAGATTTTTTAATCAGGGCAAAACCTGTACTA
Celera SNP ID:            hCV7480847
SNP Position Genomic:     13269
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   no_pop(C,-|T,-)   PGA-AFRICAN-PANEL(C,2|T,46)   PGA-EUR(EAN-PANEL(C,6|T,40)   total(C,8|T,86)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:53487):
GTGGAGGGTCGCAGGAGCAGCGTGAAAGTGGAGGCTGAGGCCAGCCGGCAGTGAGGGTTGGACTGGTGTCTTCAGACCCAGGACCTCAGACTTCTGGCTC
M
CACAGACCCCCACGCTCTCCATCCCCGGAATCTAGTCACAACCCTGGATCCTTCCTCTGCCCTTCTCCTGCCTCCCCACCTGCTCCATGGGCATAAGACT
Celera SNP ID:            hCV620392
SNP Position Genomic:     12111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:53488):
GGGAATGAAGCTGGCCAGCAGCGTCCACTGTGGGGGAGACTGGGCTCCTACATTCACTTTAGTATGGGTGACTTCACTTCAGTGTTGAGACTGCTGAGTG
W
TTAGAGGGGAAGGTGAGGATTGTGTTTTGGGGGAGAGGGAGGTCCAGCCATCCCAGGTCGGTGCTGGTCAGCCTCAGCGCTCAAGTTCTTCTTGCCCCAG
Celera SNP ID:            hCV620384
SNP Position Genomic:     8074
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53489):
ATACACGTATCAGAAGCCTCCACCTGGCTAACAGGAATTTGGGGCTTTGGGAGATTTTTTAATCAGGGCAAAACCTGTACTAGTAACCACATGTCCAGAC
Y
CCTCCTATGCTCCCACCCAGGGTCCCTTGAGCTGCTTCCCATTCCCCTAGGGCTGAGACCCAATATCCTCTATCCCTGGCCTCTAGTGTAAATGTGTCTG
Celera SNP ID:            hCV7480848
SNP Position Genomic:     13388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   (T,-|C,-)   no_pop(T,-|C,-)   PGA-AFRICAN-PANEL(T,11|C,35)   PGA-EUR(EAN-PANEL(T,20|C,24)   total(C,59|T,31)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:53490):
GGAGGGTCGCAGGAGCAGCGTGAAAGTGGAGGCTGAGGCCAGCCGGCAGTGAGGGTTGGACTGGTGTCTTCAGACCCAGGACCTCAGACTTCTGGCTCAC
M
CAGACCCCCACGCTCTCCATCCCCGGAATCTAGTCACAACCCTGGATCCTTCCTCTGCCCTTCTCCTGCCTCCCCACCTGCTCCATGGGCATAAGACTGT
Celera SNP ID:            hCV620393
SNP Position Genomic:     12113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:53491):
GGAATGAAGCTGGCCAGCAGCGTCCACTGTGGGGGAGACTGGGCTCCTACATTCACTTTAGTATGGGTGACTTCACTTCAGTGTTGAGACTGCTGAGTGT
K
TAGAGGGGAAGGTGAGGATTGTGTTTTGGGGGAGAGGGAGGTCCAGCCATCCCAGGTCGGTGCTGGTCAGCCTCAGCGCTCAAGTTCTTCTTGCCCCAGA
Celera SNP ID:            hCV620385
SNP Position Genomic:     8075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53492):
CCAGCCGGCAGTGAGGGTTGGACTGGTGTCTTCAGACCCAGGACCTCAGACTTCTGGCTCACACAGACCCCCACGCTCTCCATCCCCGGAATCTAGTCAC
M
ACCCTGGATCCTTCCTCTGCCCTTCTCCTGCCTCCCCACCTGCTCCATGGGCATAAGACTGTGGGGCTTCAAGCAATAACAAGCAGAGGCCTGGAGAGAG
Celera SNP ID:            hCV620394
SNP Position Genomic:     12151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:53493):
AGGATGGCTGGGCTCCAGCCAGCCAGGCCTTGGGGTGCAGAGAGGCAGACCCTGCCGAGCTGCTCCCACCATGGAAAGTCTGGTCCTAGTGTAGATCTGT
R
AAAGGGGAACTGGGGAATGGGGGGACAGAGAAAAGAGGATGAAGGAGCAGGAAGGAGGAGCATCAATAAGGGAAGCTCAGATGGCACTTCCACCAACCCA
Celera SNP ID:            hCV16035648
SNP Position Genomic:     11159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53494):
CGGCCGCAGTGCTTCCATCCTCAGCTGAGGGGGAAGCAGAGATACAGGCAGCACCGAGCTGTTCAGCTCCTTGTCACTCAGGACCCCACAGGAGAGGAGG
M
GGCCCCGGGCATTCCTAGGAAGCTGTGGGTGCTGACCTCTGTCTTCCCACCTCAGAAAGCTCCCATGTAGTGTCAAAACCAAAGCAAGCGTCTGATGGAT
Celera SNP ID:            hCV620386
SNP Position Genomic:     9593
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|C,6)      total(A,6|C,6) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53495):
CAGCCGGCAGTGAGGGTTGGACTGGTGTCTTCAGACCCAGGACCTCAGACTTCTGGCTCACACAGACCCCCACGCTCTCCATCCCCGGAATCTAGTCACA
M
CCCTGGATCCTTCCTCTGCCCTTCTCCTGCCTCCCCACCTGCTCCATGGGCATAAGACTGTGGGGCTTCAAGCAATAACAAGCAGAGGCCTGGAGAGAGG
Celera SNP ID:            hCV620395
SNP Position Genomic:     12152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:53496):
GAAAAGAGGATGAAGGAGCAGGAAGGAGGAGCATCAATAAGGGAAGCTCAGATGGCACTTCCACCAACCCAGGAGTGGGGAGCAGGCTAGGAGTTGTGGG
K
ATGGGGATGGGGATGCCCAGCTTGGAAGCAGAGGAGCCCAAAGCAGTGATGCTTTGTGTGTGGAAGGGGGAAGAGGGAGTGGGCAGGCGGAGGGCCGGGC
Celera SNP ID:            hCV620387
SNP Position Genomic:     11289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53497):
GCAGCTCAGCCTGCACGAGGTGAGAACCCCCAGGCCTCCTAGGATTGCCCTTGACTTCCAGGTCTCCAGCCGCTTACCTCTGCGAGTTTCTACAGTCTCC
R
ACTATCTTTCATTATCTCTTGACCAGGACCCCAGGCCCTGATCCCCTCCCCAACAGGCCCCTACCCCAGCGGCCGCAGTGCTTCCATCCTCAGCTGAGGG
Celera SNP ID:            hCV25999467
SNP Position Genomic:     9423
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,20)   total(A,1|G,51)
SNP Type:                 INTRON


Context             (SEQ ID NO:53498):
GCTAGGAGTTGTGGGTATGGGGATGGGGATGCCCAGCTTGGAAGCAGAGGAGCCCAAAGCAGTGATGCTTTGTGTGTGGAAGGGGGAAGAGGGAGTGGGC
M
GGCGGAGGGCCGGGCAGCCGCTGGGCTGAGAGTGACGCAGCAGACAAAGCCACCAACCCTGGCTTGGTATTTTTAAACTGTGCGTGGGTGGGAAGTGGGG
Celera SNP ID:            hCV620388
SNP Position Genomic:     11374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53499):
TTCTGTGCAGTGTCTCACCCTCCCAAATTTGTGTTGTCACGTAGGCAAAAGCAGATAGACACATGTTCTATGTGGTCATGCAACTAAGGTGCCAGCTATA
Y
ATTTAACATATCCTAGGTACATACACGTTCACACAGCTATACACGAAGAATCTCAGCCCTTGTACTTTTGCATAGTCTCATACACGTATCAGAAGCCTCC
Celera SNP ID:            hCV620397
SNP Position Genomic:     13208
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:53500):
CATAGGGGCGGTGGGTGTGGGATCCCTTCACTGGCCCCCTCGGGAGGCCTGGGTTGGACTCAGGGTCTCCTCCAGCTGGGGGCTGGACCGCAGCACCTAT
Y
TGAGCAGTTAGAGCGTCTTTCTTTTCAGATTGTGTACAGTAGATTATTTATTTTGTTATTTTGGAATAAAATTTATTTTATGGCTTAGGATCTATGACCC
Celera SNP ID:            hCV27469920
SNP Position Genomic:     12729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:53501):
TTGGGAAGGGGGGAGGGGAGAGGTCAGAGCCAAACCACCCCCGCAGCTCCTGACAGAACCAGAAATTCCAGCGCAACCGAGGAGGCGGGAGAGAAAGAGA
S
AGAGACAGACAGAGACAGAGCTACGCACAGCCAGGGAGGGGAGGGGGCTCACACACATGGGAATGGAACCCCCCATACACATGCAGTGGGCAGGAGGCAG
Celera SNP ID:            hCV620389
SNP Position Genomic:     11731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53502):
CTCTTACCCAGCCCCCCTCCTGCTCAGCCCCATCACCCTCAGAGAGCTCTGTATGTGTGTGTGCGTGCGTGTGCGCGCTGCAGGTGCAGGCATGTTGGGG
Y
GTGTCTCAGAGCCTGAACTTCCCTTCCAGTCAGTGCTGGAAGGAGGTGGGCAGGGGAATGATAGAAAGGAAGGAGTGGATTGGCTCCACCCACTGTGCAT
Celera SNP ID:            hCV620398
SNP Position Genomic:     13660
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;no_pop(C,-|T,-)   ;(T,-|C,-)   no_pop(T,-|C,-)   PGA-AFRICAN-PANEL(T,8|C,40)   PGA-EUR(EAN-PANEL(T,16|C,30)   total(C,70|T,24)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:53503):
ATGTCACAGCCACTTGGACCCACTTGGGCACAGTCAGACTCCAAATTCAGAGTATTTGGGGGTTAGCATATGTCAGAGAGGCCAGCACACTTGCTGCTGT
M
TTCTGTGCAGTGTCTCACCCTCCCAAATTTGTGTTGTCACGTAGGCAAAAGCAGATAGACACATGTTCTATGTGGTCATGCAACTAAGGTGCCAGCTATA
Celera SNP ID:            hCV29119645
SNP Position Genomic:     13107
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:53504):
GAGTGAGCCAAGGGGACACAGGGGAGAACAGGTCCCATGCAGGAAACAAATGAAAATTTTTGTATTTGTCCCCACTCCCTTTTTGTCACCACTCCCCCCC
M
CCCACACACACACCTGTCTCTTTATGTTTTTCTATAGTTTCCCATGGTCTCCGTCTTTGTCTTTGCCTCTTTCCCTTTGCTACAGGCTGGAAATTCCTTG
Celera SNP ID:            hCV27842082
SNP Position Genomic:     3878
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,38)   total(A,1|C,71)
SNP Type:                 TFBS


Context             (SEQ ID NO:53505):
AGTTAGTGGGCAAAGGGAGGCAGCGGGGAGTGGAGATGGGTGGAGCTGGACTTGGGAATGGGGTCCAGAGGGCGGAGGTCGAGGGGAGGACGTGGGGAAG
S
AGGACGGGGGTGGGGGGTGGAGACTGATGGAAAAGGGGGTGCGTCTTCGAATTAGGGGGCCCTGGGAGCAGGCAAGCATCTGATGAAGCTGGATATGAAA
Celera SNP ID:            hCV15945470
SNP Position Genomic:     6797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53506):
TTTTAAATTTAGGAATTGTGGATAAAGGATTTGCAGGCCACGAATATTTGATGAAGGCTATTCCAGAGTTTTGAGAAGGAACACTCCATTCCACATACTC
M
GTCACCCAAGCTAGGAGCCTGAGAGTCACCCTAAACCCTCATTCTCTCCTCTCAACCCCTCAGCCAATCAATCAAGTCCTGTCGATCTTATTTTCTATAT
Celera SNP ID:            hCV1338394
SNP Position Genomic:     1727
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,10)   total(A,10|C,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:53507):
TACGCACAGCCAGGGAGGGGAGGGGGCTCACACACATGGGAATGGAACCCCCCATACACATGCAGTGGGCAGGAGGCAGTAATTCAATAAACCTAAACTG
W
GCCCATCTTCACAGCTTTCTTTGCCCCTGCTTCTGTTCCCAACCACCTCTGTCTGCAGCCAGTCACCCTGCAGTCTCCTAACTGCCCCCTTTTCCCTGCA
Celera SNP ID:            hCV15985113
SNP Position Genomic:     11853
SNP Source:               Applera
Population(Allele,Count): african american(A,34|T,2)   caucasian(A,23|T,3)   total(A,57|T,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|A,44)   PGA-EUR(EAN-PANEL(T,6|A,38)   total(A,82|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53508):
TGCCTGGGGGACCTGGGGCAGGGGACCCCCGGATCTGGCCAGGCCGGAGCACTCCAGAGTCGGACGTTGGGGCAGGAGGAGAAGAGGAGGCTGGCTCGCC
S
CCCTTCTCCCCCCCTGCAGGGGGAGGAGTCCCTGAGGGGACTGGGGCTGGGGGGCTGGCAGCAGGTGGGACTGGGGGTGGTCCAGACCGACTGGAGCCAG
Celera SNP ID:            hCV15945480
SNP Position Genomic:     9002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 DONOR SPLICE SITE;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53509):
TGGATGGGGCAACAGAAAAGATGCAGCAGGCAGGGCCCTCTCATACACTGGAGGGCCACATGGCCAGGCCTGGACCCAGACTCTCACCCTGGCTCCCAGG
Y
AGCATTGGAGGTGTGGAGCCATACGTAGATGTCACAGCCACTTGGACCCACTTGGGCACAGTCAGACTCCAAATTCAGAGTATTTGGGGGTTAGCATATG
Celera SNP ID:            hCV11964058
SNP Position Genomic:     12978
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:53510):
TGGGGCAGGGGACCCCCGGATCTGGCCAGGCCGGAGCACTCCAGAGTCGGACGTTGGGGCAGGAGGAGAAGAGGAGGCTGGCTCGCCCCCCTTCTCCCCC
Y
CTGCAGGGGGAGGAGTCCCTGAGGGGACTGGGGCTGGGGGGCTGGCAGCAGGTGGGACTGGGGGTGGTCCAGACCGACTGGAGCCAGAGATGGTACGCAT
Celera SNP ID:            hCV15945481
SNP Position Genomic:     9015
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53511):
GAGGCAGCGGGGAAGTTCGAATTCTGACTCTCCTGGCTGCCCTCCCTCCACAGCTCACCATCAACGAGGCTGCTGCCCAGTTCTGCATGAGGGACAACAC
R
CTCTTATTACGGAGAGTGGAGCTCTTCTCTTTGTCCCGCCAAGTAGCCCGAGAGAGCACCTACTTGTCCTCCTTGAAGGGCTCCAGGTGAGACCCCTTCC
Celera SNP ID:            hCV1338396
SNP Position Genomic:     9838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53512):
GAAGAGGAGATCCGCAAATACAGCATCATCTATGGCCGTTTCGACTCTAAGCGGCGGGAGGGCAAGCAGCTCAGCCTGCACGAGGTGAGAACCCCCAGGC
Y
TCCTAGGATTGCCCTTGACTTCCAGGTCTCCAGCCGCTTACCTCTGCGAGTTTCTACAGTCTCCGACTATCTTTCATTATCTCTTGACCAGGACCCCAGG
Celera SNP ID:            hCV15945482
SNP Position Genomic:     9358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53513):
CCCTACAACAATAGTGCTTGAACTAGAGACTCTTTCTCGGCCAGCTTCTTGGCAAAGGTTTTAAATAACACATGCCTCTGGCTGGGTTCTGTGCTCTGCC
R
GTCGAGTGGCCCTCGTCAGCCTCATCCACTTTATTCTTACCCATCTTTTCAGGCTTCACCCTGAAGAACTGGGAGGCCCTCCACTGAAGAAGCTGAAACA
Celera SNP ID:            hCV1338397
SNP Position Genomic:     10207
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,9)      total(G,7|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53514):
CAGATGGCACTTCCACCAACCCAGGAGTGGGGAGCAGGCTAGGAGTTGTGGGTATGGGGATGGGGATGCCCAGCTTGGAAGCAGAGGAGCCCAAAGCAGT
S
ATGCTTTGTGTGTGGAAGGGGGAAGAGGGAGTGGGCAGGCGGAGGGCCGGGCAGCCGCTGGGCTGAGAGTGACGCAGCAGACAAAGCCACCAACCCTGGC
Celera SNP ID:            hCV1338398
SNP Position Genomic:     11337
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,9)   total(G,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53515):
TCTGCCCTTCTCCTGCCTCCCCACCTGCTCCATGGGCATAAGACTGTGGGGCTTCAAGCAATAACAAGCAGAGGCCTGGAGAGAGGACACAAGGAGGGTG
Y
GTGGTGCCCTCACCCCTGCCCAGAGCGAGGGGGCAAGGACTCTGCCTCCAGGGCATCTGGGGTTTTCCCCTCCCTCACACAACACACTCCCATTCTCTTT
Celera SNP ID:            hCV15985124
SNP Position Genomic:     12267
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:53516):
GACACAAGGAGGGTGCGTGGTGCCCTCACCCCTGCCCAGAGCGAGGGGGCAAGGACTCTGCCTCCAGGGCATCTGGGGTTTTCCCCTCCCTCACACAACA
S
ACTCCCATTCTCTTTAGGTTTGCACCAGTGGTGTGAGCAGTTGGACTCAGTTTGGACAAGGGGGAAAGGGGGACTTCCCTGGGAAGGTCCAGCTAAAAGT
Celera SNP ID:            hCV15985125
SNP Position Genomic:     12352
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(G,1|C,39)   total(G,1|C,39) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:53517):
TTCCCTGCCCTACATAGGGGCGGTGGGTGTGGGATCCCTTCACTGGCCCCCTCGGGAGGCCTGGGTTGGACTCAGGGTCTCCTCCAGCTGGGGGCTGGAC
Y
GCAGCACCTATCTGAGCAGTTAGAGCGTCTTTCTTTTCAGATTGTGTACAGTAGATTATTTATTTTGTTATTTTGGAATAAAATTTATTTTATGGCTTAG
Celera SNP ID:            hCV15985126
SNP Position Genomic:     12717
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,3|C,33)   total(C,33|T,3) 
SNP Type:                 UTR 3;hmCS


Gene Number:                 260
Celera Gene:                 hCG41235 - 79000075624816
Gene Symbol:                 STAT6
Protein Name:                signal transducer and activator of transcription 6, interleukin-4 induced;D12S1644;IL-4-STAT;STAT6B;STAT6C
Celera Genomic Axis:         GA_x5YUV32W46Y(4758983..4789815)
Chromosome:                  Chr12
OMIM number:                 601512
OMIM Information:            SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION 6;STAT6


Genomic Sequence (SEQ ID NO:12420):
GGAATAGAAATACTGTGATTGGCTATGCCAATTAGATTCACCCCGTGAATACATAGGAGGGGGACACCTGTGTGAAATCCAGACTTTGCTAGCAAGGGAG
AAAAGCTTGGCTGCTGAATAGGCACCACCAGTGCTTGCCTCAGTAGTCACATCAAATTCCTCTTCCTTTAAGAGCCAACTATTTCACCTTCCATTGGGAT
GTGCAACATAGGGCTTAAGGGCAACATTTCTGGTGCCAAACTAACTGGATTTGAATCCCAGCTCTCTCACCTTAGCCTTGAGCAAGTTGCTGAGTTTTCC
ATGCCAGTTTCCTCATTTGTAAAATGAGGGTTATCAGCACTATCCAATAGAATTTTCTGTGATGATGGAAATGCCCCGTGTCTGTTTTAATATAGTAGCC
ACAAGTCATACATGGCTATTGCACATTTGAAATGTGGCTGATACATCAGAGGCATTGAATTTTAAAATTGAAATAGCCACAAGTGGTTAGTAGCTACTGT
AGTGGGCACATAGTTCTAGCTCATAGTATTATTGTAGGATAAAAAGTACAGTGCTTCAATTTTAGAGTAAGAATTGAAGTAACACATAAAGCCCCACTAA
GTGTTAGTTATTATTTTTGCTGTTATCCACTGATGTCCTGGTCACTTTATCCGTGAAGTCTTTGTTTATTTTATTTTATTTTAATTTTTTTGAGACAGGC
TCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATTATGGCTCACTGCAGCCTTGACATCCTGGGCTCAGGGATCCTCCCACCTCAGCCTCCCCAG
TGGCTGGAACTATAGGCATGCACCACCACACCAGGCTAATTTTTGTATTTTTTCGAGAGACGGCATTTCACCATGTTGCCCAGGCTGGTCTCAAACTCCT
GGCCTCAAGCAGTCTGCCCACCTCAGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCCACCACGCCTGGCCTTCTGTGAAGACTTTAGCAGCTGACTGT
CTTCCTGTCCACCTCAAGTTTTCCACAAACCCAGATGGTTTCAGTGCTCCGGCAGGTAGTCCAGCCAACACCCTGGCCTCTTGGTTCCTTGTTCTCTTTG
ACTCCAATGACTTACCTCTGTGTTGCTGTAGCCACTCACTCTCATAGCCACCACCTTTATCACACCCTTGCAGGAGAGCTGGACTGAAATCTCACTCCCT
AGATTCTGACCGCAACATCCTAGCCTTACAGCTCTTCTTTCCCTTGCCCCCGGGAAGCCTGGTCTTTAAGTCTGTTGAGACTTCCAGTTTCTTGCCTTTC
TTTCCTTTGACACTGGCCCCTCATGTCTTCACTTTTCTTCCTAACCAGTCTCCATTCCACAATGCTTCACCTCTGCTCTTCAACTGTGTCGTCTCCCTCT
CTGTTGTTATTAACCTTCTGAATGGATCTCCTGGCTTCAGAACTTATCTTTTAAATCCATCCTCCACATTGCAGCTAGGCTGATCCCTCTACTAAATCTT
ATCATATGACTCACCTGTCTAAATCTTCTAATGCTCCGCATTGCCCATTACTACCCATTCCCAGAAGGTRCCATGCTCCCACAGGTATCCATGCCTTTGC
ATATGCTAGACCTTCTTCCTGCTTTAATGCTTTCCTTGTTCTTTGCCTGAATAATTCTTATGTCCCTTCAAGATTCATTTCAGGCTGGGCACGGTGGCTC
ACGCCTGTAATCCCRAAACTTTGGGAGGTCGAGGCAGGARGATCACTTGAGTTCAGGAGTTTGAGAGCCTGGACAACATATTGAGACCCTGTTCTATGAG
AGAGAGAGAGAGAGGAGAGAGAGAGAGAGGAGAGAGAGAAGGATTCGAACATGCTTTATGCTGAAAGTATAGAGCTGTCATAACTACAGAGCAGGAGGGT
GGAGATTTGAAGAATGAAGGGGATAATAAATTGAACAAGTGCCTGAAGAGGCAGAAGGGAGGGGCCTTGAGCACAGGTGTTTTCTAATTAAATGATGAGT
TGGTATGAAGATGGATGGAAACTTGAGGAGAATAGTGAAGGCCTGGGAGATAGAGCTGGCTAGGGGCCCTCAGCAGCTTCCCACAATTCTTTTGTGACCT
CCTCCTCCTTTCCCTCATCCTCCACAAATCACAGTCCACTATTCAGTGTTCTTGAACTGTCTTGTCTGTGAAATGTACTGAGCTCCAGCAATCAATCCAT
CAATCAGTTTAGTCCTTACGTAGGAGAGTATGTATAAAACATTTAGCCCAGCACCAAGTACATGGGAGACACTCAGTTAATTGCAGCCCTTCATATCTTT
ACCACCAAGAATGCATGTTGTTTTTTCTAGCTGCTGCACAGCAGTGTGTACAGTATGATATGAGTCCTTGCCCTCCTTGAACTTGTGTTATTGTTGAGGA
AGAAAGATGTACCCACAAAATAATTAAAAAGCAATACAAAGGAATATGTAGTGGCCACCAGTACCCAAATTGTGCTTCTGTTATTATTATTATTATTATT
ATTTTTGAGACAAACCCTCACTCTGTTGCTGGAGTGCAGTGGTGTGATCCTGGCTCACTGTAACCTCCACCTCCTGGGTTTAAGCAATTCTCGTGCCTCA
GCCTCCCAAGTAGCTGGGACTACAGGGCAGTGCCACCACACCTGGCTAATTTTTGTATTTTTAGAGACGGGGTTTCACCATGTTGGCCAAGCTGATCTCG
AACTCCTTACCTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCATGGCTGTGCTTTTTTTTTTTTTCCCC
ACAACCAGCACTAAAAAGTATGTTTTATCATGACTTAGAATTCAGATACATATAGGGCCGGGAGTGGTGGCTCATGGCTGTAATCCCAGCACTTTGGGAG
GCTGAGGTGGGTGGATCACCTGAGGCCAAGAGTTTGAGAGCAGCCTGACCAATATGGTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTCATGGCAT
GTGCCTGTAGTCCCAGCTACTGGGGAAGCTGAGACAGGAGAATTGCTTGAACCCAGGAGGCAGAAGTTGCAGTGAGCCGAGATCCCGCCACTGTACTCCA
GCCTGGGCGACAGAGGGAGACTCCATCTCAAATAAAAAAAAAAAAAAAAGAATTCAGATACATATATAAAGCTGAAACAAAAGTTTAATTAAACAATACT
TATCCTTACTTCGCTTGATGCCTTCTGATATTTTCTGTACTGTTCTATTCTACTTCAGTTTTATTTTTTAATTTTATTCACTTTATTTTTTATTTTTTGA
GATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGGGGTGTAATCTCAGCTCACTGCAGCCTCTGCCTCCCGGATTCCAGTGATTTTCCTGCTTCAGA
TTCCCAGGTAGCTGGGATTGCAGGCACATGCCACTGTGCCCAGATAATTTTTTGTATTTTTTAGTAGAGACGGGGCTTCACCATGTTGGCCAGGCTGGTC
TTGAACTCCTAACCTCAGATGATCCGCACACCTCGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCTCTGCGCCTGGCCTTTACTTCAGTTTCAAAG
AGTGAAGGTCAAGACACTGTTTTTTTTTATGTTTTGTTTTTAATTTTGTTTTAAATTTTTTTTGTAGAGATGGGATCTTGCTATGTTGCCCAGGCTGGTC
TCGAACTCCTGGCCTCCAGCAATCCTCCTGCCTCAGCCTCCCAGAGTATTGGGATTACAGGTGTGAGCCATTGTGCTTGATCAAGATGCTGTTATGGGCT
GAGTTGTGTTCCTCAAAAATTCTCTTGAAGTCCTAATCTCAAGTACTTCAGGACGTGACCTTATTTTGAAGGACCCCCTTATAGGGTCTTTACAGAGGTA
ATTAAGTTAAAATGAGGCCATTAGGATGGGGCCTAATGCAATATGACTGGTATCCTTGAAAAAAGGGGAAACTTGGAGACTGACTTGCATACAAAGAGAA
CAGTGTGTGAACGTGAAAATGGCCAAGGAGGGAGGCCTGGAATAGAGCCTTCCTTCACATCCCTGAGAAGGAATCAATCAATCCTGCTCAGGTTAACCTT
GATCTTGGACTTCTAGCCTCCAGCATCTTGAGAGATTTCTGTTGTTTAAGTCATGCAATATGTAGTACTTTGTTACAGCAGCCCTAGCAAACTGATACAC
TCACCAAATCGATTTTGTGACTCACTATTGGGTTGTAACCAGCAGTACATAGACATAAAGTTATTTTTTCCTTACGCTTTATCTTGTGCAATCGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGACGGAGTCTTGTTCTGTCACCAGGCTGGAGTGCAGTGGCTTGATCTCGGCTCACTATAATCT
CTGCCTTCCAGATTCAAGTGATTTCCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCGCACCACCACGCCCGACTAATTTTTTGTATTTTTAGT
AGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAG
CCTCTCTTGTGCAATCTTTACCACCACTCAATGGGATGTCAAGGTCCAGGGGAGGGTGATACAGTCACCCTCACAGTCATGCAGGTGCAGATGTCATTAA
TGAAGGTCTGACAGACCCTGCAATTGTACAATCTGAAGATGAGTATCTCCTTAAATTTCATACTCTAGGCACTTTACCCTAGCCTAGACTCTGTTGAAGT
AGGTATAACTATTATTCTCATTTGAGGGATTGACACCTGATTGTGAACCTCCTAAATGGAGTCATACCCAAGCCAGATTTGCCTCTAAATTCTGTTTTTT
CCCCTTACATCACAGTGTTCCCATTGGTATAGTCAGTTACAGAGGGAGTAATATATACTATTTTTCTACCAGTACTTGCTCCTCGCCTTCCTACCCCCTA
AAAGGAGCCAAAGTCAGAGATCACATTTACTCTTTTCCCTCCTCCTCTCCAAGTCTTTGGGGACTTGTAGCTCTGACACCCTTAGATGGTGAAACCTGGC
TTCACCTACTGTCTGTGGATGTCTGCAGGCAGAGTGGGCACTCGGGAGCACATACAAAGCACGTGTGCCGTGAACACGTATGTGCACACACCTTGATCCT
AGCATGGCTTGTTGGACAAGCCAATGGACAGAGTCCCTGCCTGCCACCTCCACCCCTGCTCTCCCTTCTCTTCCATTCACTGTCCTGCAGACACAGCAAA
CACATACGCACATACACCCTCAATATCCTTTTGGCAGTAACATGACCCCCAAATCTGGGGACTTCTATGTAGGATGGAGACCCTTCTCCTTTCCTCATAC
CTGGTTTATTATGAACCATAAAAATAGTGCCTGACAGTTACTGTGTGTCAGGCATTGTTCTAAGCCTTCAGATGTTTTACTGCATTTTATTCTCACATTA
TGGGTTAAGACTTATTTGCTCCATTTTACAGATGACGAGAATGAATCACAGAGTAAATTGCTCAGGGTTGTGTGGTTAGCAGCATTAGCAGGATTTGAAC
CCAAGCAGCCTGTATCCACAGTCCAGTCTTTTAACTGCTATATTTTGCTGTGTTCAAACCCTCTGCTGCCTGGCTGGGTCCACACACGTGCACTCATGCA
CAGACCTGCGGGGTAGCAAGGGATGGAGGAGGAGGAGCTGGTTCTGGAAATCAATTCAGGCACCAGGGGGCAGCATAGGCCTAGCTTTGGCCCCTCAGCC
CAGCCCCTGCTATGGGAGGGAGGAGGGGAGTAGAAACTTCCTCCCACCGCCCCTCAGACACCACCTCTTCCACACACCGGGGCTCTCAGGTGTCCGGGAG
TAAAGGCCTCTCTGGATCCCTTGGTCTCCTCCAGCTCCTCCCCCAGCAAAAACTGCAGAACCCTCCACTAGTTATGTTGATGACTCAGAAGTTGAGCAAG
ACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTGTTGTGATTGCAATGGGCTCTGTTTGTGAGCCTGCCTGCACGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTCTTGTGGTCAGGGAAGTTGTGCATGTGTGTGTTTGTTTCTTGGCGTGTCTCAGTGTTTACCCCAGAAA
CATATAGGAACTTGGCAGATAGGAACACAGCAGATTCGTATTCAAACTTGCCCCTTGTGAATCTGCAGGSAGCAGCTCCGGCTTGTGCTGGTTCCCACCA
CAGTCTCAGGAGGGGTGCCCTGTGAGGAGAGAGCAAAGACCAGCTTCAGTCCAAGGGACTCCTAGAGTCTTCCAGAATTCTGAGCTGAGGGTTYCCCTCC
CCCACTCCCTCCCGTCAGTGGTCACGAGACCGACCTCTAAGGCGTTCCCTGCCGGAAGGGAGGGGGACCTAGGAGTTGGCTGGCATCGAGCTCCCTGGCG
GCTTTTTAGGGTCCTCCACTGGAGGGAGCGCAGAGTCCAGAGGGATTTACTTTTCCTGAGGCCCTGGRGAGCCCAGTCCCTTGTGGGTCCAAACCCCAGC
CCTTGGCAGASTTTGAGTTTGGGAGCCAGGCAGTTAGGGGTGGCAAATCTCTGTTTGATATTGGGTGACTTTCTGGAGAAAAGCTGATGCTTTTGAGGGG
GACAGAGTAAGTGGGGGTCAGCCTCCCCCCAAGCCTGGCTCCAAGGCCTGGACCCCAGTCCTGATCCCCCACGTGTTCCCCCACTCGGCACAGGAGGCAC
ACATATTCACCCCACTTTCTTCCTCTTCCTCCTCCAGCCCACTTTCTCTTCTCTGTGTCGTCAGAGCTCCAGGGAGGGACCTGGGTAGAAGGAGAAGCCG
GAAACAGCGGGCTGGGGCAGCCACTGCTTACACTGAAGAGGGAGGACGGGAGAGGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTATGTGTGTGC
TTTATCTTATTTTTCTTTTTGGTGGTGGTGKTGGAAGGGGGGAGGTGCTAGCAGGGCCAGCCTTGAACTCGCTGGACAGAGCTACAGACCTATGGGGCCT
GGAAGTGCCCGCTGAGAAAGGGAGAAGACAGCASAGGGGTTGCCGAGGTGAGGGGTTGCCTCCGAGGTGGGTGCGGGGGCCTCTATGAGTGCATGGGGGT
GGATTCGTGGGGGGAGCTCTCGGGATCCTCCCCTGGCTGGGTGGATGGTCCCCAAGAGATGGTTTCAGCTAGTGTTGGTGGCTGGTGGCACTGGGTTTTA
GCAGTTTCGAACTCCTGGAGGAATCTGGGAGGGTCCAGGCCTCAGTACTCCCCTCCCCCATGGGTCACGTTTTCACAGCCTCACCCCTGCACCCCCAGGG
CCATGGAAAGTCAGGGAAAGGAGGTGAAGGAGTGCCCCTCTGCCCTGAGTCGGGGGAAGTGGCCGCCCCTCCCTGGAAGGTTGATSSCAGAGGGCAGTGG
ATCCTTGTTAAACCCCTATCCTGCCCTCCACTAAAGGTTCCTGTTCAAGGGTGTGGCTGGGGCGTGAGCAAGCCCCAGATGTAGACCTCATGGTGGCCCA
GACGAGGGGGAATTTCCCCCTCAAAACTGCTCCACGCTTGGCTSSTGTAGACGCTGAGATTTCCCAGCGGCGGCGCCGARTTAACCCTCCTCGTGCTGAA
CTGGCTCCACCTCCCCGCCTGCCCCCACCGCCACATTCACGCATTGGGCAACTCAGAGAAGMTGTTTTAACTTTCGATCCTGTGGTCCCACAATCAGAGG
ACTCGGGCAGATAGGGGTTGAGATAAGCGAGTTTAGGCCACCAAGCGGGCGGACGAGGATCCCAGACCTTGCGCTTCCCTTCTGAGTTTGGGAGGTAACA
CTGGCCCCGCCCCTCACGCCGTGGCTCCTCCCTCCCTTCCCCTTCAAGGGGCTGAAGACAAAAGGTGCCCCTGTCCTGGTCAAGCCAATCGACCCAGCCT
TGTTATGGGTTGGGGTGGGGARAAATGWGTCCTCCTGATGGCTGGGGAAGAAGAGGGGTTGGATATTTCTAGCCAGGGCCATGCCAGGAGGCTGGTCACT
CTGCAAGGGGATGCAGAGGAAAGCGGWGCCCACTCACTCCAGAGGACCTTTCTCTCTTGGGCTAGAGAAAGGCCTATTGGAGGAACCTGAGCAGGAGGGG
TAAGGATTCTGCCTTGAGGAGAAAAGAGCTGGGGTAAGTGGGCACTGGAGGAAAGAGGGGCATGAAGGTCTTGGAGCAGAAACRTCCAGAGAAGGGACCT
CTCCATTTTCCATCCCTCTGAGAGGCCTGGGAGAGGTGAGAGGCTGAACGTGCAACAGGAGGACTTGGGGTTACTGGGTTTGGGGAGACCTGGGGAGTTG
TCATCCCATCCTCTCCCTCATCTCTGGGAGAGGGATATTATGAGAAACGTGAACTGAGAGGCCCCTGGGAAACCACTGGTTACCCAGTCCTCCCTGAACC
TGGAAATGGGGATGCAACCCCCTCTTCTACTTCCCTGTCCCCTCCTCTCCTTTCTACCTGTTTTCGTCTCTCATCTTTGCCTTCTAGCCCTCCAGCTTCC
TCTCTCTTCTAGGCTCTTTCCTCCTAGCTTACTAAACCCGCCTTTTTTCCAGTCTCTTCCATCCTCTTCCTTAGTTCTCTCTACTTTCCTTTTCCACCTC
TCCTCCTTCAAGTCTCCTCCCACCTTCCCCCACTTCTTAGGATGATCAGATTTGCCCCTGGAAGGGATCCTAACAACACAGTGCGATGGTTAATCCCCAC
TCAGATTCAAAGCCTGCTTTCCAAACTCACTTACTGAGTGGCCTTGGGCAGAGTAGAGAAACTCCTTAAGCCTCAGTTTCTTCATCTATAAAATGGGATA
TTATATATTTTAAAAAGTGTCGTGAGGCCTGAAGGAGATAATACACTGAGTGTAATGCCTCATACACAGTAAGTGCTTAACAAATAGTAGCTGTTATTAC
TCTCCCATCCTCTTCATCATCTAGCCTTGTGGTTTTCATTTTTATTTTATTTCATTTATTTATTTATTTATTTTGAGRCAGAGTCTCTCTCTGTCGCCCA
GGCTGGAGTGCAGTGGCTCGATCTCTGCTCACTGCAAGCTCCGCCCCCCAGGTTCACGCCATTCTGTCACCTCAGCCTCCCCAGTAGCTGGGASTACAGG
CGCTCGCCACCACGCCCTGCTAATTTTGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGAT
CTGCCYGCCTCGGCCTCCCAAAGCGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCCGAGCCTTGTGGTTTTCAAATTATCTCATGGAGTCCTAGAAT
TTTGAGAGGTTTGTCTAGGGATGCCTTTGGCGTCAGGAGGTGGGGAGAGGGAAGTAGAAGCAGTCGAGTTTCAGGCTTTCCATGCTTGCTTTCAACAGGG
CATCTTCGGTTTCGTACCTTTTATGTAATTGAGATTCCACAGATTAAAAGCTGACATTGCCTACCGCTTTAAAAAGTTTGGAAAGTTTTCCACTCATCTA
ACACTCATATTTTATAGATGAGAAGATCGAAGCCCACAAAGGGAAGGCTCTTTGCCCACAGAACCAGAGCCAGGTCTAGAGCTGCAACTAAATCCTCTGC
CACTCTAAGAGAGCTCTCGCTCTACTGCCCTGTCTCCCYTTGCCTCCCCATCCCTCTGGCTACAGCTCAGCTCTTCCCACCCCTGTGTCTATCACTGAAG
GAGTTACCCCCATCTCAGGCATTGACTCAGGATGCCCCTGGTTTAAGGTGGTCTGGCCATGAGTGGTGGTGGGGACRGTCCCTAGGAGGGCTATCTATGG
GAGGTCCCTGGCTGCCCCAGGAGATAGGYCAAGTTTCTTGGGCACCCCTCAGAGTGGCCTTATTTTTYTCCTCCAGGCAACCTCCAAGTCCCAGATCATG
TCTCTGTGGGGTCTGGTCTCCAAGATGCCCCCAGAAAAAGTGCAGCGGCTCTATGTCGACTTTCCCCAACACCTGCGGCATCTTCTGGGTGACTGGCTGG
AGAGCCAGCCCTGGTGAGTCCTGGCTGCTCCCTGCTGGTCCCCCAAGTCTTCCCTAACTCATCTTCCTTCTCCTTAGATTTTTCTCCCCTCACCCATGGA
TTCAGAACTTGAGACCTGTTATTCCATGTGTAGTGACCTAGATTTAGCAGGGAGTCTGTGCCCCATCAAGACCAGGCTATGAATGTTGACAGATGGAGAC
CCCATCTCTTAGGAGGCTGAGCCRAAGAGGAGGGGGGTTTGGGCTGGGACAAAGGCACTTCTCATAACAGCTAGAAGACTGGGAAACAAGGCRCATGGGT
GAAAGCTACAGAGGGCCTAGATGGAGAATAAGGAGCGAGAAAGGAACTGCTGAGCTTTTGGCTGTGGGGTAAAGGGTCAGGAGAGCTGAGGAAGCCCTGG
CCTGARGTAGCCTCATCCTGATCTTCCTGCAGGGAGTTCCTGGTCGGCTCCGACGCCTTCTGCTGCAACTTGGCTAGTGCCCTACTTTCAGACACTGTCC
AGCACCTTCAGGCCTCGGTGGGAGAGCAGGGGGAGGGGAGCACCATCTTGCAACACATCAGCACCCTTGAGGTGGGGCAGGAGGGGAGGGGACAAGGCTG
GGTGGGGCTGAGGTTGAACTGGGTTGAGCATTGGGCCCTGGAAGAAAATTGGTTGGATGCTGGAAGCAAATTGGTGTTCCTGTGGTTAACTGCTAGCTAG
CAGGCAAATTAGATTTTAAAAGCATGCAAATGCACAAAAACTTCTGGAGTCTACAGTTGTGCTTCCTTATAGTATATGTGTGAATGCAGGCCTGGGGATT
GGAGGGATTGAAGGACATGGGTAAGAGCAAAGCTCACTGTTTACCACCCTCATTTCTGTAGAGCATATATCAGAGGGACCCCCTGAAGCTGGTGGCCACT
TTCAGACAAATACTTCAAGGAGAGAAAAAAGCTGTTATGGAACAGGTATTGTGATATTCCACCTCCCACCCCAACTCAATCCCCTGAGACTTTGGCCTGA
GCCATGACAAACTAGAAAGAATTTGAWCCTCAGWAAAGGCTCAGTGTTCTAGGCCCAGGAATGACCAAAGGAGGTTCCTAGGGTCAGAGTGAACCCCAAG
TCAAGCTCAGGGAATCTTTCTATGAGGGACTGAAGGTAAGAGGCCGGGGAGAACAGAGCAAGGGATAAGGAGCTGATTCTGCTAGGAGCAAGGTCTTATC
TCCACGATATTCCAAAAGGTCAGGAAGAACTGCCAAAGGGGAGAGGGGAACAAGAAAACGCTATMTGCAGAGCAGAGAGTGGAGGCCAGGTATAGAGGGA
TGAGCAGAGTGTTTSASTTCTTGGCATCTGTCCTTCCTGTGTAGTTCCGCCACTTGCCAATGCCTTTCCACTGGAAGCAGGAAGAACTCAAGTTTAAGAC
AGGCTTGCGGAGGCTGCAGCACCGAGTAGGGGAGATCCACCTTCTCCGASAAGCCCTGCAGAAGGGGGCTGAGGCTGGCCAAGGTGGGGGCCAGGGTGGT
TCTGGGGAGTGTGTARGAGTGGTTGCCTCTTGGATCTCAACCTTATCTGAACCTCTAATCTGTCTGCACCCTTGATTTCTGCCCCCAACCCTCAGTGTCT
CTGCACAGCTTGATAGAAACTCCTGCTAATGGGACTGGGCCAAGTGAGGTGAGTAATGGGCTGACAGGTGGAGACCTTGGTCAAAGTGCAGCTGGAGGGA
TGGAAGCTAGACCTCAGAAAGACACAGGCTGAAGTAGGGCAAGGGAATGCCAGAGGAGTGAGAAAAAGAGCCGTATCCCAGGAGCTGGGTGTGGAGGCAG
CGTGAGGCCCTGGCTCAGGCCCCTCTCTGCCCATAGGCCCTGGCCAKGCTACTGCAGGAGACCACTGGAGAGCTAGAGGCAGCCAAAGCCCTAGTGCTGA
AGAGGATCCAGATTTGGAAACGGCAGCAGCAGCTGGCAGGGAATGGCGCACCGTTTGAGGAGAGCCTGGCCCCACTCCAGGAGAGGTTGGGCTAGGGCTG
ATGGGGAAGAGGGGGCAAGCTGGGGGTGGGCAGCTGACCCTGCTGAAGGCCCTACAGGTGAGAGAAAGAAGCCAGGCGGGAGGGCCTTGGAGTGGACCAA
GWTGCATAAAAGCCAGTTCCAGCGGGGCTGTGCACACTGTCGTTCAGGTCGCATCCTGTACAAGTGGGCCTAGTGGAGGGGCACAAGCGGGGACTCATCC
AACCCAGGCTTCTCTCCTCAAGCCCCATGCCTAGAGGAATAGGAGGGCTTTTCCATTTGGTTTATTGGGTGGGAACACTTYCCAATTTGCCACAAAGCAC
TGTAAGTGGTGGCAGTTGTCCTGGGTGCAAGARCCGTCGGGGGAGAGGCAGCTGGGTTTCCACAGGGGGTGTAGGCACTGAGAATGAACCTCCCACCCAS
ACCCTAGGCCAACAGATCACAGAACCCCCTTCAGCCCAGGTGCCTTGCAGCCACACCCACTACCCACCCCACTTCTCCACACATGATAGCCTTTCTCCCT
GGGTATAGGGGAAGGGGGTCTGGGCCGGAGCAAGCAGCCTTAATCCTGTGCCCCCTGACCACTGTCCTGGCCCCAGGTGTGAAAGCCTGGTGGACATTTA
TTCCCAGCTACAGCAGGAGGTAGGGGCGGCTGGTGGGGAGCTTGAGCCCAAGACCCGGGCATCGCTGACTGGCCGGCTGGATGAAGTCCTGAGAACCCTC
GTCACCAGGTATTCCCYGGGAGCTCCCAGTCTGGCCTAGAACAGACCTCGGGAAGAAAAGAAGGGGGCTAGAGCTGTGGGGAGGGCACCAGCAGGGACCT
AGCCSCCAACTCCCCTTGTGTCCTCCTCACTCCCAGTTGCTTCCTGGTGGAGAAGCAGCCCCCCCAGGTACTGAAGACTCAGACCAAGTTCCAGGCTGGA
GTTCGATTCCTGTTGGGCTTGAGGTTCCTGGGGGCCCCAGCCAAGCCTCCGCTGGTCAGGGCCGACATGGTGACAGAGAAGCAGGCGCGGGAGCTGAGTG
TGCCTCAGGGTCCTGGGGCTGGAGCGTAAGCTGGRATTGGACCTGGGGTTGGAGAAGGGCTGTTAGGGTGATGGAGGCAGCCTGGAGGGCTGGCACTGAA
AAGAGCAAGGGATGGGGAGGGAGGGCCATGGGATGTGGAGACCCTGAATGGTCAAGGCAGAGGAAAGGGAGGGACCCATTTAGGGCTGGAATGGGGTGGG
GGCATCATGATTTGGCCAAGATGGGGACTCCTCCCTTAAGAACCCAAACAGAGACATGGAGATTTAGGGCTGGTGACAGTGGGTAGTCTACACTCACCCA
TGCACTCGCCACACCTGACGACAGTGAGATGAGCTCGTTCACACTCTGACCTCCCCTGGCAGAGAAAGCACTGGAGAAATCATCAACAACACTGTGCCCT
TGGAGAACAGCATTCCTGGGAACTGCTGCTCTGCCCTGTTCAAGAACCTGGTGAGGGGCTTTGGGGTGCAGTGAGGGGRGCACCACTAGGAGACTGTGGG
ACTCTCCTTGGAGAGGATGTCAGGAAGCCCAGGAGGAGCGGTCTCTGTCCTCATGACCTCGCCCTTGCTCTCCCTCACCCCACCCACAGCTTCTCAAGAA
GATCAAGCGGTGTGAGCGGAAGGGCACTGAGTCTGTCACAGAGGAGAAGTGCGCTGTGCTCTTCTCTGCCAGCTTCACACTTGGCCCCGGCAAACTCCCC
ATCCAGCTCCAGGTGAACCGTGGCCCAGCCCTGCCCCAATCTGGGACCCCGAGTCCTCCTCCAATGCCACRCACAAGGGCCCTGGACCCTCACCTCTTGT
GACTGCCCCATACCCCATGTGTCTGGGATTCATGCACACTGGGGCCCGGGTGAGTGGGGGTGAGCAAGAGCATGGAGTGCACAGGGCAGGGAATGGTAGT
GGATAGCAGCAAACACTTCGGAASCACTTCCTATAGACCAGGGCACTCTATTAAATGATACATACGCACATGCGTGCCAGCACACACACGTCTGGTTTTC
ACAATAACATTATGAGGTAGGCAGTATTATCAGCCTCATTTTATAGATAAGGACATTGAGACAGAGAGTTTAAGTAGTTTGTCCCAGTCACMCAGCTAAG
TGTTGGAGCTGGTATYTGAAACCTGGARGTCTGGTTCCATAGCGATGACTAATAACCACTTCTCTAYGGTGAGGCCCTGATTGAGCTTCAGAACGCATTT
AATAACATGGCATGAGCTTTTTGATTATGATGTGTGAGTCCAATAACTTCTCTGAGTGCTCAGAGCCAGTCCCCTGAGGAAACTTCTTGCTTCACTAAGA
AACCCCTGTCCGGCTGGGCATGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTAGATCACAAGGTCAGGAGTTCAAGACCAGCCT
GGCCAATATGGTGAAACCCCGTCTCCACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGCAGGCCTGTAGTCCCAGCTGCTCGGGAGGCTAAGCAGGA
GAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCGCCACTGCCCTTCAGCCTGGGCGACAGAGCAAGACTATGTCTCAAAAACAAAA
CAAAACAACTCAGCACTTTGGGAGGCCAAGGTAGGAGGATCGCTTGAGCCTGCAAGTTTAAGACCAGCCTGGGCTACATAGGGAGATCCAATCTCTACAA
AAAATAAAAAATTGGCCGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCATGAGGTCAGGAAATCGAGACCATC
CTGGCTAACACGGTGAAACCTCGTATCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCGGGCGCCTGAGTCCCAGCTACTCGGGAGGCTGAAGCA
GGAGAATGGCGTGAACCTGGGAGGGAGAGCTTGCAGTGAGCCAAGATCGCGCCRCTGCACTCCAGCCTGAGTGACAGAGCGAGACTCTGTCTCAAAAATA
AATAAATAAATAATTAGCTGGATTAGGTGGTACATTTCTGTAGTTCCAGCTATTCAGGAGGCTGAGGTGGAAGGATCACTTGAGCCCTGAAGGCTGAGGC
TGCAGTGAGCTGAGATTGCACTACTGCACTCCAGCCTGGGCAACAGAGTGAGATACTATCTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAGGAAAGAAAGAAAGAAAAGAAACCCCTGTCCTCACCCTCTTCAGGCCCTGTCTCTGCCCCTGGTGGTCATCGTCCATGGCAACCAAGACA
ACAATGCCAAAGCCACTATCCTGTGGGACAATGCCTTCTCTGAGATGGTGAGGAAAGTCCTGGAGTTGGAGGGAACAGGGGCAGGGTGGGTTCTAACATG
GGCAGTGGTGCAGGCCTGCTGATGGGGTGGTGGGCATGTTTAAATGGGTGTGACCTTAACACTTTCTCATGGGCCTGCTTTCGTGCTTCTGACCTCTTTT
CACCCCAGTCTTAACAACTATCAGGCCACAGCACTGTAACCTAGAAAAAACAGCATGTTTRTGAGCGATATCAGGGGCTGTGGAGGGGTAGGCCACAGGC
AGGTGGGAGGGATGAAGGCCGGCCCGAGGAATAACAAGACRGTAGCCTGCAGTGCTCTCTTCTTCCCCCTTCTCCCCAGGACCGCGTGCCCTTTGTGGTG
GCTGAGCGGGTGCCCTGGGAGAAGATGTGTGAAACTCTGAACCTGAAGTTCATGGCTGAGGTGGGGACCAACCGGGGGCTGCTCCCAGAGCACTTCCTCT
TCCTGGCCCAGAAGATCTTCAATGACAACAGCCTCAGTATGGAGGCCTTCCAGCACCGTTCTGTGTCCTGGTCGCAGTTCAACAAGGTCATTCTCCTGCC
CTTTGGACCTCCCACCCCCAAGCTCTTCATCCCTGGGGCACTCAGGGCCTGCTCAGCCTCCATGCAGGGACCTTCCACTGGATTCTCCACAGTGCCCCCT
CAGRTCCTTTAGGAAGGCCTGTCATGGACCAGGGAGGAAAAACCCCAGGCCTGGGGGTTGGCTCTGGAGATGCGTTCTCTGACATCCCTGAGGTTTTGGT
CTGGGGGCCATCTGTCCTTCCTCTTTACCAGTGACTTGCATGACTCACCCAGGTTGTGTGTAAACAGAGCTCTGATTCAAAGTGACTTTGACCTGTTGGA
AAAATAGTTCCTGGCCGGGCACAGCGGCTCATGCCTGTAATCCCAGTCTTTGACATGCCGGGGTGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGC
CTGGCCAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAATTAGCCAGTTGCGGTGGCACATGCCTGTAATCCCAGCTACATGGGAGGCTGACGCA
GGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATCATACCACTGCACTCAAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAA
AAAAAAAAAAAAGGCCAGGCATGGTGGTTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGACGGATAGATCACCTGAGGTCAGGAGTTCGAGACCAG
CCTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAACAAAAAAATAGCCAGGAGTGGTCGTTTGCGTCTGTAATCCCAGCTACTCGGCTGAGGCAGGAG
GTGAACCCAGGAGGTAGAGGCTGCAGGGAAGATGAAACCATTGCACTCCAGCCTGGGCAAGACTCTGTATCAAAAAAAAAAAAAAAAAAGGCTAGGTGTG
GTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACAAGGTCAAGAGATCGAGACCATCCTGACCAACATGGTGAAACCCCGT
CTCTACTAAAAATACAAAAATTACCTGGGCATGGTGGCGCATGCCTGTAGTCCCAACTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGG
CAGAGGTTGCAGCGAGCCAAGATTGTGCCACTGCACTCCAGCCTGCCAACAGAATGAGATTCTGTCTAAAAAAAAAAAGAAAGAAAGAAAGAAAGAAAAA
GAATTCCTGTTGCAAAAACTGAACAAAATCCCACAGGGACATGTGCAGTAATACCAGCTACCACGTGTTGACAGCTTATATGCCAGGCGCTGTGCTTAAC
ACCTTATGTATGTTATCTCACTTAATCCTCCCAACATCTCTTTGAGGTAGATACTATTATTATCCCCATTTTACAGATGAGGAATCTGATGCTCAGAGGG
TTATGTAGTTTGTTCAAGTTCCCAAAGCAGGTGAGTGCCATGGCTAGGAGAGAACCACATATTTCTGACTCTTGCTCTTTTATTTTATGTTATATTATGT
TATTTTATGTTTTGGTTTTTTTTTCTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTCTTTCTTTCTTTCTTTCTTTCTTTC
TTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTCTTTCTCTTTCTCTCTTTTTCTTTCTTTTGTGTGAGACAGAATCTTTAAAGAGAAGAAAGAAA
TGCTCATGTGACCAGAGGGTGTGTTAGCTAAAGGGAGCAAGACAGTCACACCCAGCAGGTTACCTTCCTTTGGGCGTCACCTCTGCCACACCTCCTTAGG
GAGAGGGTGTAGCATAGTAGTTAAGAGGGGCTCCAGGGCCAGAATGCCTGGGTTTAAATCCTAGCTCTGCCTCTTACCAGCTATGTAGACCTGGGCAAGT
CATTCGACGTTTTTGGACTTCCATTTCTTCATCTGTAAGATGGAATTATTATAATCCCTACTTCYATAGCCTGGTAAAGAGCAAATAAATATATGGAAAG
GCTTGAAATAGTGGCTGGCACGTGTAAGCATTAGGATTGGTCGTTGTCATTGATGGAGTCTCAGGTTCGGTCTGATCCTCAGCCCTGTGATTCTGTCGTG
AGGGCACTCACAGCTCACTGCCTGCCCTAAACAGGCTCCAGCTCTGGCCCTCCCTSGGCTCACACCTTTCCCCCTCTCCCCCTAGGAGATCCTGCTGGGC
CGTGGCTTCACCTTTTGGCAGTGGTTTGATGGTGTCCTGGACCTCACCAAACGCTGTCTCCGGAGCTACTGGTCTGACCGGTGAGTCCCCACCCTGGGTA
GTCTGAGCAGCCATACACCAGTCACCTCCATMCTCACTGCCCATGCCCCATCCTCTCCTTCATCCCGGCCAGGCTGATCATTGGCTTCATCAGCAAACAG
TACGTTACTAGCCTTCTTCTCAATGAGCCCGACGGAACCTTTCTCCTCCGCTTCAGYGACTCAGAGATTGGGGGCATCACCATTGCCCATGTCATCCGGG
GCCAGGATGGTGAGGCCMCCCCAGCCAGTCCTCTGTCTCTGTGCCTGTGCCCTCTGGGGTTTCTTCTGGGAATGAAATGTCCTGACCTTCCTGATGCCGA
TCCTGATCTTCAGGAAGTTCTTCCAGCTTCTCTTCTTCCTTCTGTGGTCTAAATGTTCACCTTCTCACTGTGAGCTCTGTGGGAACGGAGACTAGTGGGT
CTCTCTCCCTCAGGAGCCCCACCCTAGGTCCTCTCTCCCTTGCCTTGGTGGAGTGAGAACAGGTCTTATGGTAGGGGTTGGGGAAGGGGAAGAAAGTCCG
GACAGAGGGATCTCAGGGTCTCCTTCCTACCATAGGCTCTCCACAGATAGAGAACATCCAGCCATTCTCTGCCAAAGACCTGTCCATTCGCTCACTGGGG
GACCGAATCCGGGATCTTGCTCAGCTCAAAAATCTCTATCCCAAGAAGCCCAAGGATGAGGCTTTCCGGAGCCACTACAAGCGTGAGCTGGAACTGGCAG
CTCTGATTCCTTCCTGTCACCCACTTCCTCCCTGCTCCCCRCTGCCCTCCTCTCCCTGCCCGYGTGTCATCCTGATGTCACTCCCTATTTCATAGCTGTG
CTTCTCTTACTTCCCCATGATCCATGCCCACCTTTTCCACCTCCCTTCCTCCCTAACCCCAGAGCACTCCATGGCTGTCTTTTCCTTCTCACAACAGCTG
AACAGATGGGTAAGGATGGCAGGGGTTATGTCCCAGCTACCATCAAGATGACCGTGGAAAGGTGAGTGTGGTGGTATGGACAGTGGGTAGGTCAGGGGCT
TAGTGCTTATCTGYAGGAAGGAGGGGTGGCATCAACCCTTGGTCAGTCACATGTACCTCCTTCCCTCCTCCAGGGACCAACCACTTCCTACCCCAGAGCT
CCAGATGCCTACCATGGTGCCTTCTTATGACCTTGGAATGGCCCCTGATTCCTCCATGAGCATGCAGCTTGGCCCAGATATGGTGTAAGGAGCTGGAAAG
ACAGGAATGGGAGTGGTCTGTGCAGATGGGCTAATCTTAGCATGGGCAGCTGGGAGAGCTGGCACTGGGGGCTGAACAGGGAATCTTCCTTTCCATGAGA
GGGACACCTGTTCAAAAGCAGGGTGTGGTGGTGTCCAGGAGAAGGGCTGGCATCAGGGGGTCTGTTTTCTTTCCCCAGGCCCCAGGTGTACCCACCACAC
TCTCACTCCATCCCCCCGTATCAAGGCCTCTCCCCAGAAGAATCAGTCAAYGTGTTGTCAGCCTTCCAGGAGTAAGTGAAAAACCTCATGGGGATACCAT
CCCACTCTAAGGGGGTGGGCATTTGAATTGTTAGAAGAGGCTCTTCTGTGAGAAAGGAGCAGCAAATGCTAACAGCCTGTCTTCTTCTCTTCTGTCCACT
CTAATGAGGGGGTAGTAGTTAAGATCTGGACTGCCTAGGTTTGAATTCTAGCTCCACCAYTTACTGGTTTGGGGCAAATTACTTAGCCTTTGGTGCCTTA
TCTGCACAATGGGGGATAATAATGCTAATAATAATAACCTACCTCACTGCATTATTGTGGAGATTAAATGAGTTCATAACACTTAAAAAGCTGAGCATAG
TGCATGGCTCATAGCAAAAGCTGTGTAAGTCCAGTCGTGGATCACTTAATGAAGGAGCATTTTCTGTCTTTGGCAGTTTCATAATTATGCGAATAYCATT
GAGTATAATTACACAAMCCTAGATGGTATAGACTACTATACACTGAGGCTATATTGTGTAGCCTATTGATCCTAGCTTTAAACCCGAGCAGCATGATACT
GTTCTGAATAGTATAAGGAAATAGTAACATAATGGTAAATATTTGTGTGATAGGAATTTTCAGCTTGATTATAATTTTTTTTTTTTGAGACAGGGTCTCA
CTCACTGGAGTGCAGTGGTGCGATCTTAGCTCCCTGCAACCTCCGCCTCTTGGGCTCGAGCAATCCTCCTGYTGTAGTGCACCACGACACTCGGCTAATT
CTTTTTTAAGATTTTTCTGCAGACAAGGTCTCACTTACTGCCCAAGCTGGTCTCAAACTCCTGGGCTTAAGTGATCCTCCCACCTCGGCCTCCCAAAGCG
TTAGGATTACAGGCGTGAGTCACTCTGCCTGGCCTTGATTATAATCTTATGGGACCACTGTGGTCTGTAGTTGACAGAAATGTCGTTAATGTGGTGCATG
ACTGTTATTATTATTTTCTGTCCTGCCCCTGAGAGCCACTGTCACTTCTCTGCTGTATTGGTTTTTGTTTACTCATCTGTTTTGGCCTTGAAATGGCCTA
GACATTTTKCTTCCCGAAGTATGACACTCGGGTGCTTATTAACTTAGTCAAGACACAACATCTCCCTTCCCAGAAGGTGAGGCGGGAGTGAGGACTTGGG
GACTTAAGAACTACCAAAGTTCAGAGTCCAAAGAAACATTAGAAATTGGCTAATCCACCCCCATAACACGCACATTTTACAGATGAGAAGACTGAGCTCA
GAGCATAGAAATAGCTTGCCCAGGCCATGACTAAGTCAGGATAAGGAGCTGGAGCTTGTTTCCTCACTCAGTGGTCCTGACTTTGCACCACTCTGCATTT
GCCTAGCCTGCCTTCCTCTAACTGTGCTCTCCCTACTTCCAGGCCTCACCTGCAGATGCCCCCCAGCCTGGGCCAGATGAGCCTGCCCTTTGACCAGCCT
CACCCCCAGTGAGTGACAAAGCCCCTCCTGACCCCATGTGCCTCTTCTTTCCTGGCCTTGCCCCGCTCTCCTTATTTCCATTGCTGGTTCCTGGCAGGGG
CCTGCTGCCGTGCCAGCCTCAGGAGCATGCTGTGTCCAGCCCTGACCCCCTGCTCTGCTCAGATGTGACCATGGTGGAAGACAGCTGCCTGAGCCAGCCA
GTGACAGCGTTTCCTCAGGGCACTTGGTGAGTGGCAGCTTGGGAGTGGAGGCTGGGTGGCATCTAGGGGAGTGGGCGCCATGCCTACTCCACTGCTTCTC
CCATCTCCTTGCAGGATTGGTGAAGACATATTCCCTCCTCTGCTGCCTCCCACTGAACAGGACCTCACTAAGCTTCTCCTGGAGGGGCAAGGGGAGTCGG
GGGGAGGGTCCTTGGGGGCACAGCCCCTCCTGCAGCCCTCCCACTATGGGCAATCTGGGATCTCAATGTCCCACATGGACYTAAGGGCCAACCCCAGTTG
GTGATCCCAGCTGGAGGGAGAACCCAAAGAGACAGCTCTTCTACTACCCCCACAGACCTGCTCTGGACACTTGCTCATGCCCTGCCAAGCAGCAGATGGG
GAGGGTGCCCTCCTATCCCCACCTACTCCTGGGTCAGGAGGAAAAGACTAACAGGAGAATGCACAGTGGGTGGAGCCAATCCACTCCTTCCTTTCTATCA
TTCCCCTGCCCACCTCCTTCCAGCACTGACTGGAAGGGAAGTTCAGGCTCTGAGACACRCCCCAACATGCCTGCACCTGCAGCGCGCACACGCACGCACA
CACACATACAGAGCTCTCTGAGGGTGATGGGGCTGAGCAGGAGGGGGGCTGGGTAAGAGCACAGGTTAGGGCATGGAAGGCTTCTCCGCCCATTCTGACC
CAGGGCCTAGGACGGATAGGCAGGAACATACAGACACATTTACACTAGAGGCCAGGGATAGAGGATATTGGGTCTCAGCCCTAGGGGAATGGGAAGCAGC
TCAAGGGACCCTGGGTGGGAGCATAGGAGGRGTCTGGACATGTGGTTACTAGTACAGGTTTTGCCCTGATTAAAAAATCTCCCAAAGCCCCAAATTCCTG
TTAGCCAGGTGGAGGCTTCTGATACGTGTATGAGACTATGCAAAAGTACRAGGGCTGAGATTCTTCGTGTATAGCTGTGTGAACGTGTATGTACCTAGGA
TATGTTAAATRTATAGCTGGCACCTTAGTTGCATGACCACATAGAACATGTGTCTATCTGCTTTTGCCTACGTGACAACACAAATTTGGGAGGGTGAGAC
ACTGCACAGAAKACAGCAGCAAGTGTGCTGGCCTCTCTGACATATGCTAACCCCCAAATACTCTGAATTTGGAGTCTGACTGTGCCCAAGTGGGTCCAAG
TGGCTGTGACATCTACGTATGGCTCCACACCTCCAATGCTRCCTGGGAGCCAGGGTGAGAGTCTGGGTCCAGGCCTGGCCATGTGGCCCTCCAGTGTATG
AGAGGGCCCTGCCTGCTGCATCTTTTCTGTTGCCCCATCCACCGCCAGCTTCCCTTCACTCCCCTATCCCATTCTCCCTCTCAAGGCAGGGGTCATAGAT
CCTAAGCCATAAAATAAATTTTATTCCAAAATAACAAAATAAATAATCTACTGTACACAATCTGAAAAGAAAGACGCTCTAACTGCTCARATAGGTGCTG
CRGTCCAGCCCCCAGCTGGAGGAGACCCTGAGTCCAACCCAGGCCTCCCGAGGGGGCCAGTGAAGGGATCCCACACCCACCGCCCCTATGTAGGGCAGGG
AAGAAATTGCAAAGGACTTGGGGGATAGATGGGAATGGGAGGGCAAACTGCAGCACTTGTTAAATTAATTAAAGAAACAAACCAGAAGCACAAAAACGGG
GAAGGAGAGGGGAGAAGGAGCAGGTCCAGTGTTCCCAGGCCCCCAATTCTGGGGGCAAATGTTGCCACTTTTAGCTGGACCTTCCCAGGGAAGTCCCCCT
TTCCCCCTTGTCCAAACTGAGTCCAACTGCTCACACCACTGGTGCAAACCTAAAGAGAATGGGAGTSTGTTGTGTGAGGGAGGGGAAAACCCCAGATGCC
CTGGAGGCAGAGTCCTTGCCCCCTCGCTCTGGGCAGGGGTGAGGGCACCACRCACCCTCCTTGTGTCCTCTCTCCAGGCCTCTGCTTGTTATTGCTTGAA
GCCCCACAGTCTTATGCCCATGGAGCAGGTGGGGAGGCAGGAGAAGGGCAGAGGAAGGATCCAGGGKKGTGACTAGATTCCGGGGATGGAGAGCGTGGGG
GTCTGKGKGAGCCAGAAGTCTGAGGKCCTGGGTCTGAAGACACCAGTCCAACCCTCACTGCCGGCTGGCCTCAGCCTCCACTTTCACGCTGCTCCTGCGA
CCCTCCACCAGCGCGGGATGGGGTCCTGGGGCAGGACATCTGTCCAGCAGCCCTTCCTCGAACTCTGCAGGGAAAAGGGGGCAGTTAGGAGACTGCAGGG
TGACTGGCTGCAGACAGAGGTGGTTGGGAACAGAAGCAGGGGCAAAGAAAGCTGTGAAGATGGGCWCAGTTTAGGTTTATTGAATTACTGCCTCCTGCCC
ACTGCATGTGTATGGGGGGTTCCATTCCCATGTGTGTGAGCCCCCTCCCCTCCCTGGCTGTGCGTAGCTCTGTCTCTGTCTGTYTCTSTCTCTTTCTCTC
CCGCCTCCTCGGTTGCGCTGGAATTTCTGGTTCTGTCAGGAGCTGCGGGGGTGGTTTGGCTCTGACCTCTCCCCTCCCCCCTTCCCAAGCTCTGCCACCC
CCACTCATCCCTGGCCCCCTCCCAGGCCCCTCCCAGGCCACTCTACCATGGCCCCCCAAGTTTTTTGGTAGCCAAATCAGAGGGAGAACAGGAAGCCAGC
CTCCGAGCTCCTCCCTCAAGAAGAGCCCCCCTTCCAGTCCCCGCCCCCACTTCCCACCCACGCACAGTTTAAAAATACCAAGCCAGGGTTGGTGGCTTTG
TCTGCTGCGTCACTCTCAGCCCAGCGGCTGCCCGGCCCTCCGCCKGCCCACTCCCTCTTCCCCCTTCCACACACAAAGCATSACTGCTTTGGGCTCCTCT
GCTTCCAAGCTGGGCATCCCCATCCCCATMCCCACAACTCCTAGCCTGCTCCCCACTCCTGGGTTGGTGGAAGTGCCATCTGAGCTTCCCTTATTGATGC
TCCTCCTTCCTGCTCCTTCATCCTCTTTTCTCTGTCCCCCCATTCCCCAGTTCCCCTTTYACAGATCTACACTAGGACCAGACTTTCCATGGTGGGAGCA
GCTCGGCAGGGTCTGCCTCTCTGCACCCCAAGGCCTGGCTGGCTGGAGCCCAGCCATCCTACTGCCCTCTCTGACGACTATATCCCTCTTCCTCCCACCT
GGCCCCAGGACACCAGAATTGCTGTGTGGGGCCTGAGTGGCCGGGGTGCTTGGGGACAGCACTGCTGGCTGCCTCACCTGCGAGAGGTGGCTTCGCAGGC
ACACAGGGGCTGAGGCGGCCCACGCGGTCGTGGGAGACGAGGCGGGCGAGCCGCAGCCCCTCGTCCATCAGTGTCTGCTGCAGGATGTGTCGGCTCCATA
GCCCATGGGCTGGCAATGCCAGAGGCAGGTCAGCAGGGGGCGGCGTCAGCCTTGGACATGACCCCACAGCTGTGGGCATGGGCACTGGTCAGGTAAGGGG
CTGCAGCCAATGGAACCCCCACCCTCAACCACATAGCCAGCCCACAGGCCCTTCTGCCCCCCCTCCAGCCAGGTCTCCCAACCCTGTTTCAGGCACTGCC
TCCTGGCTCACTCCTCCCCCAACCCCCTCCCCTACTCCCCCACCCTCAATGAAGAGAAAAGTGTTCTGAGGCACACTCACCCTGCAAATGTCCATCCAGA
CTCTCCCCAGACAGGCTGGCGCTGTCCTCCTCCAGGCTGGGGCGGTATGGGGGTACATAGGACTCAGGGCCTGGGGGAGGCTGCTGGATTTCAGGGTGAC
TCTGTTCTCCAACCTGTGGATGCCCAACATGGGGAAATGAAGACCTGCCAAGGGAGGGGATTGGGGAAGGCTGCCCAGTGCCCCTATATGCACCCCGGAA
AACATACCTCTTGTTTCAGCTTCTTCAGTGGAGGGCCTCCCAGTTCTTCAGGGTGAAGCCTGAAAAGATGGGTAAGAATAAAGTGGATGAGGCTGACGAG
GGCCACTCGACTGGCAGAGCACAGAACCCAGCCAGAGGCATGTGTTATTTAAAACCTTTGCCAAGAAGCTGGCCGAGAAAGAGTCTCTAGTTCAAGCACT
ATTGTTGTAGGGGGTTGGGGGGACCCGACATGGATGGGAGGAGAGACCAGACCTGAGACAAGCTGACTTGGCCAAAAGCAGGACATCCAGGTGGGCGGGA
AGCAGGCCTAGAGCTGCCTGAGCTGAAGGTTAGGACATGATCTAACTCCATAGCAGGATTCCAGTCCAGGAAGGACCTGGGGAAGGGGTCTCACCTGGAG
CCCTTCAAGGAGGACAAGTAGGTGCTCTCTCGGGCTACTTGGCGGGACAAAGAGAAGAGCTCCACTCTCCGTAATAAGAGYGTGTTGTCCCTCATGCAGA
ACTGGGCAGCAGCCTCGTTGATGGTGAGCTGTGGAGGGAGGGCAGCCAGGAGAGTCAGAATTCGAACTTCCCCGCTGCCTCACCAGACCTCCTCACACCC
CTTCACCATTGGACAAATGAGGCCCATCCATCAGACGCTTGCTTTGGTTTTGACACTACATGGGAGCTTTCTGAGGTGGGAAGACAGAGGTCAGCACCCA
CAGCTTCCTAGGAATGCCCGGGGCCTCCTCCTCTCCTGTGGGGTCCTGAGTGACAAGGAGCTGAACAGCTCGGTGCTGCCTGTATCTCTGCTTCCCCCTC
AGCTGAGGATGGAAGCACTGCGGCCGCTGGGGTAGGGGCCTGTTGGGGAGGGGATCAGGGCCTGGGGTCCTGGTCAAGAGATAATGAAAGATAGTCGGAG
ACTGTAGAAACTCGCAGAGGTAAGCGGCTGGAGACCTGGAAGTCAAGGGCAATCCTAGGAGGCCTGGGGGTTCTCACCTCGTGCAGGCTGAGCTGCTTGC
CCTCCCGCCGCTTAGAGTCGAAACGGCCATAGATGATGCTGTATTTGCGGATCTCCTCTTCCTTCTGGCTGTCATTATCATCCATCTCAAAGATGTGCCC
AACGCTCCGTGCCAGCTTCTTATTCAGCTTTAGCAGGGATGTGACCTCCCCAGCATCCCCCCTTGGGAAGCTCCGGAAGATCCTCTCCACACTTTCCACC
ACCATGCGTACCATCTCTGGCTCCAGTCGGTCTGGACCACCCCCAGTCCCACCTGCTGCCAGCCCCCCAGCCCCAGTCCCCTCAGGGACTCCTCCCCCTG
CAGRGGGGGAGAAGGGSGGCGAGCCAGCCTCCTCTTCTCCTCCTGCCCCAACGTCCGACTCTGGAGTGCTCCGGCCTGGCCAGATCCGGGGGTCCCCTGC
CCCAGGTCCCCCAGGCAGTGGTGATAGCTTCTCTCCAAGTTCAAGGGGGCTCTTGGGGCTAAAACTGCGGGCACTGCCTGCCTTTTCCCCTGGGCTGCCA
TGCCCATTGCTCATGCTCCCTTTCCGGGTACCCGCAGTCTCAGAGATCTTGAAGAGCGGGATGCTGGAGACGGGAACAGCAGGCACTGGTTGACTGAAGA
GCCCTGGATTGGTGGCCCACTCTCTCAGTGCCTTCTGCAGGCGCCGGACATGGAGGGGCTTGGTGGCCATGCCCACAAGTGCCATGATCTCCAGAAACTC
CTCCTCACCCGCCTCACACAGCTGCTGCACGTCGTCCCCTCCCTGCTGGATGAAGGTCTCATAGTAGGAAAGGAGGTTGGCGCGCTGCAGGACCCGGTAC
AGCTGCAGCTCCCCCAGCGTCCGAGGCAGTGCCATGGCTCGGGCACTGGGCCTGAGAAGGAGGGGCACAAGAGAGAGGCAGTCGGTGCAAGTCCCCCTAC
TGGGTACCAACCCACACTAACAATTGTTCCCTCTTTCCTGCCTGCTTTTCTTCCCCTCCCTCATTTGGATGCTATCCTGCCCAGTGCCCAGGTCTGAGTA
CAGACTCTCAGAATCAGGCACTGCTCAGAGGCATGGACAAGCCAGTGCCGTCCTAGACTGGCCCGAAGCCCCAAAAGTCAGTGGCCTGTGTCTGTAGGAG
TCGAAGCGTCTTACAACCTTATCTTCAGCTTTTATCTTTTTGGTCTGGGGCAAGAAGAACTTGAGCGCTGAGGCTGACCAGCACCGACCTGGGATGGCTG
GACCTCCCTCTCCCCCAAAACACAATCCTCACCTTCCCCTCTAAACACTCAGCAGTCTCAACACTGAAGTGAAGTCACCCATACTAAAGTGAATGTAGGA
GCCCAGTCTCCCCCACAGTGGACGCTGCTGGCCAGCTTCATTCCCTGTGAAGGGGCCACAGCCCCAGGTGGCTAAAAGGGAGGGTGTGGCACCTTCCCTG
GCTTTCCCACTCAGTGAGCCAGGTGGTGCCTTACTCTTCTCCGCTCAGCTTTTCCCAGGGGTTAAGCATTTATTTATTTATTTATTTATTTATTTATTTG
AGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCTGTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTG
AGTAGCTGAGATTACAGGCGCCCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATGTTGGTCAGGCTGGGCTCGAATTC
CTGACCTCGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGCCACCGGGCCCGCCCGGCCTGGTTAAGCATTCTTAACGCACGC
TTCCTCTCTCCCCTCAGAACCTCTCCACCCTTCCAGGCTGCCCAGTGCTCCTCAGTGGCCCCTCTCCTAGCAGTGACACTCCCCACTTCCTCGGTCAGCC
TTTTCCTTCAGCTCAGGGGCCGTGGCAGGGGGAGGGGCGCAATTGTTCTGCTCCGGGGCCGTTCCGCCCACACACACTCCCACAGTGGTAGCGTCTGTAG
GCGAAAACCGCCCAGGGGCTCCCGCCTACTCTCCTCTCCCATATTTTCCACCCGCATCTTCAAGTGGAGTGGGGGAGCGGCTCAAGGCCTCTTGATGAAG
GGGCTGCACACTGAAACTCCCCTCCCCGCTCTGTGAATAAAGGGACAGATATGGGAAGGAACGCCTAAGGCCTCCCTGCCTCCCTCGTCACCCCCCCTTT
CCCCCGCTGATGCTCCTTTAACTCAAAGGCACCGGGGGCCCGCGCGCTCCGTGCCAACGAGGGACTGAGGCAACTGAGCGTCCCCCCACCTTCCGCACTG
ATGCCAGCTCGAGCTCCAGGGCATCCCCTGGTGCTTGGAGGCTCCCACATTCTTTGCAGGGGGCTCTTAGGCCAGATGGAGCCCACAGAGTAAACCAGGA
ATGGAGATTTGGGTACTACTCTTTCATATCCAGCTTCATCAGATGCTTGCCTGCTCCCAGGGCCCCCTAATTCGAAGACGCACCCCCTTTTCCATCAGTC
TCCACCCCCCACCCCCGTCCTSCTTCCCCACGTCCTCCCCTCGACCTCCGCCCTCTGGACCCCATTCCCAAGTCCAGCTCCACCCATCTCCACTCCCCGC
TGCCTCCCTTTGCCCACTAACTTGAGTCTGGGCTGCAGGGTCCGGCGGGCGCTGTCCCCTCCGCCCGGCGGCTGCTCGGCTGTGGGGGAAGGCGCTCTGT
GCATGGACGGCCGGAGATCACCCGGGCTGCCCTTCTCGGTGCCCGGCGCTCGGCGCCTGCTGCGTGCTGCCCTCTTCCCCGCGCACGATGCCGTGTCCAC
CGCTGTCCAGGCTCTGTCCCTCCCTCCACGTCTTCTCTCTCCGAGCCTCCGCGCCTCTGTCTGTGCCTCTGCCCCCCCACCCTCCCCGGCTGCGCTTGCC
GCCTCTCCGCGCCTCCGCCCCCGCAGGACGCACAGGGAGCGAGGCCCGGAGCTGCGCTGGCTGCCGGGCTGGCGGGCGGAGGGCGTGGGCAGAGCCGGGG
GCGGGGGTGGGGGCGGGGGCCGGGGAGGCGGGCGCTGGGGCCTCTCGGCCGCGGAGACGCCGCGGCTTAGAGACTGGGAGAGGCGGAGACGGGGGGGGAG
GGGGTGTGGAGCAGGAGGCGGGGGCGGGGATTCAGAGCCGGGGCGCCGAATTGGGGACCGAGGTGACCGAGGCCCGGCTGTGCAGGGCGGGCTTGGGGAC
CCAGCGGGCGGGGCGAGGTCGTTCTGTGCCGCCCACGCCGGATGCACAGCCGGCCCTCTTGGCGCCCACGTACCCACGTGAGCGCCCCGCCGGCGACATT
CCTTCTCTCCCCCACCCCTCCGAGCTGAGAGAGGAGTTTCACAACCACGCACAAGTACACAAAGACACAGAAGCGCACGGASGTGCACACGCGCCTAAAC
AACTACGGGGACGCCCGTTGCCCATACTCAGGCCTTGTGGTGCTGGACGTGTGAATGTTAGCAGTGAGCCGGGAAAAGTTAGCGAAGGCTGGGCTGTGCG
GCTTCTCCTGTGCGTGCATCTGACTCCCGTATAGTGTGCACTTAAGGCGGGCCTGAGAGCGTGGGGCTCTGCAGGGATCTCCTAGATATCCCCGCGCCCC
TCCTCAGCCCCAATGGAATAATCTGAGGGGGTCGCTCTCAGAAACCCAGGCCTCCATGCTAGCCTGGAAAGTTTGGGAAACAGGAATGGGAGGGTTATGC
TGCACGCCACCACTTAGGTGCGCGTGTTGATTAGACGCGTCGGCTTTTGTCAGCGCGTAGGTCAGGCAGGGATTCCTCCACTTGTCCTCTGTTTGCTGAG
GATGAGGCCCTGCCTGGGAATTTTGTGTGACAAAGACGATACCCTTCCTGGGGCCGTCTATTAGGGACCTCGCCCGAGAGTCTAGTGGAAGATGAGTAAG
AGGTCGGGAGCCTACGACGTGACTTCCTGCGGCGGAGCTGGAAGGAGGAGCGCCTTGAAGGAGCTTAGCCCCCGCCTCTGCAACCCACCACCGTCTCCCC
CTTTGGTTTCTCCTAGCCCCATCTGGTTCGCATTGCACTCCCGCCCACGGCTGGGAGGGCTGTTGGGGGAGGCGGGGGCTCTAAGGGCCCGGCCCATAGA
CTCTAAGCCCCAGGGAAAGGAGGGGGGGTGGGGGCCGGGGAAAGCGAGCGGACTGGCCACAGGTGAGGTTTCCCCTAGTCCGGAATCTCAGCCCCGCCCC
GCCTCTCTGTCCGCACTTCTGAGGGGCTGGGGTGGGGCATGGCGGGGCGTGGAGGCCGTGGACCRGGGCTGGTTTTACAATGTGGCCTAGCGAGGAGACC
TTTCCGCCTTGTGGGGTCCGGGGAGAAGGAGCGCGTTGTTGGTGGGAGGATTTCAGTTGCTCAGGTCCTCTTCTCCAACCTATTAAGCGCCAAACACAGT
GGGGGTGGTGGGAACGAGCAGAGTCCCGTCTCCCAGTCCCCCGCCCCGCAACTGGAGGGTGCGGCTAGACGGGCTCCCCTGGGGACGCTCCCGACCCCGT
ACGGGGTGTGGGCGACCCCTCCCCCCCCACCT


SNP Information

Context             (SEQ ID NO:53518):
TAGAAGGAGAAGCCGGAAACAGCGGGCTGGGGCAGCCACTGCTTACACTGAAGAGGGAGGACGGGAGAGGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
ATGTATGTGTGTGCTTTATCTTATTTTTCTTTTTGGTGGTGGTGGTGGAAGGGGGGAGGTGCTAGCAGGGCCAGCCTTGAACTCGCTGGACAGAGCTACA
Celera SNP ID:            hCV26439034
SNP Position Genomic:     6986
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,8)   total(T,8|-,6) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:53519):
ACTTTCTCATGGGCCTGCTTTCGTGCTTCTGACCTCTTTTCACCCCAGTCTTAACAACTATCAGGCCACAGCACTGTAACCTAGAAAAAACAGCATGTTT
R
TGAGCGATATCAGGGGCTGTGGAGGGGTAGGCCACAGGCAGGTGGGAGGGATGAAGGCCGGCCCGAGGAATAACAAGACGGTAGCCTGCAGTGCTCTCTT
Celera SNP ID:            hCV15985066
SNP Position Genomic:     15661
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,40)   total(A,3|G,73)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|G,42)   total(G,42|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53520):
GTAGAAGGAGAAGCCGGAAACAGCGGGCTGGGGCAGCCACTGCTTACACTGAAGAGGGAGGACGGGAGAGGAGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TATGTATGTGTGTGCTTTATCTTATTTTTCTTTTTGGTGGTGGTGGTGGAAGGGGGGAGGTGCTAGCAGGGCCAGCCTTGAACTCGCTGGACAGAGCTAC
Celera SNP ID:            hCV26439035
SNP Position Genomic:     6985
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|G,8)   total(G,8|-,6) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:53521):
GGTAGAAGGAGAAGCCGGAAACAGCGGGCTGGGGCAGCCACTGCTTACACTGAAGAGGGAGGACGGGAGAGGAGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GTATGTATGTGTGTGCTTTATCTTATTTTTCTTTTTGGTGGTGGTGGTGGAAGGGGGGAGGTGCTAGCAGGGCCAGCCTTGAACTCGCTGGACAGAGCTA
Celera SNP ID:            hCV26439036
SNP Position Genomic:     6984
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,8)   total(T,8|-,6) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:53522):
GGGTAGAAGGAGAAGCCGGAAACAGCGGGCTGGGGCAGCCACTGCTTACACTGAAGAGGGAGGACGGGAGAGGAGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTATGTATGTGTGTGCTTTATCTTATTTTTCTTTTTGGTGGTGGTGGTGGAAGGGGGGAGGTGCTAGCAGGGCCAGCCTTGAACTCGCTGGACAGAGCT
Celera SNP ID:            hCV26439037
SNP Position Genomic:     6983
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|G,8)   total(G,8|-,6) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:53523):
AGCAAAAACTGCAGAACCCTCCACTAGTTATGTTGATGACTCAGAAGTTGAGCAAGACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
GTGTGTGTGGTGTTGTGATTGCAATGGGCTCTGTTTGTGAGCCTGCCTGCACGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGTCTTGTGGTCAGGG
Celera SNP ID:            hCV26439038
SNP Position Genomic:     6045
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:53524):
GCCACCACGCCCTGCTAATTTTGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCTGCC
Y
GCCTCGGCCTCCCAAAGCGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCCGAGCCTTGTGGTTTTCAAATTATCTCATGGAGTCCTAGAATTTTGAG
Celera SNP ID:            hCV27484389
SNP Position Genomic:     9306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53525):
GCCCGGCCCTCCGCCTGCCCACTCCCTCTTCCCCCTTCCACACACAAAGCATCACTGCTTTGGGCTCCTCTGCTTCCAAGCTGGGCATCCCCATCCCCAT
M
CCCACAACTCCTAGCCTGCTCCCCACTCCTGGGTTGGTGGAAGTGCCATCTGAGCTTCCCTTATTGATGCTCCTCCTTCCTGCTCCTTCATCCTCTTTTC
Celera SNP ID:            hCV620387
SNP Position Genomic:     24330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53526):
TTTCCGGAGCCACTACAAGCGTGAGCTGGAACTGGCAGCTCTGATTCCTTCCTGTCACCCACTTCCTCCCTGCTCCCCGCTGCCCTCCTCTCCCTGCCCG
Y
GTGTCATCCTGATGTCACTCCCTATTTCATAGCTGTGCTTCTCTTACTTCCCCATGATCCATGCCCACCTTTTCCACCTCCCTTCCTCCCTAACCCCAGA
Celera SNP ID:            hCV7480858
SNP Position Genomic:     19063
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,15)   caucasian(C,16|T,16)   total(C,37|T,31)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53527):
CCCCACTTCCCACCCACGCACAGTTTAAAAATACCAAGCCAGGGTTGGTGGCTTTGTCTGCTGCGTCACTCTCAGCCCAGCGGCTGCCCGGCCCTCCGCC
K
GCCCACTCCCTCTTCCCCCTTCCACACACAAAGCATCACTGCTTTGGGCTCCTCTGCTTCCAAGCTGGGCATCCCCATCCCCATACCCACAACTCCTAGC
Celera SNP ID:            hCV620388
SNP Position Genomic:     24245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53528):
CTGCCTCCTGCCCACTGCATGTGTATGGGGGGTTCCATTCCCATGTGTGTGAGCCCCCTCCCCTCCCTGGCTGTGCGTAGCTCTGTCTCTGTCTGTCTCT
S
TCTCTTTCTCTCCCGCCTCCTCGGTTGCGCTGGAATTTCTGGTTCTGTCAGGAGCTGCGGGGGTGGTTTGGCTCTGACCTCTCCCCTCCCCCCTTCCCAA
Celera SNP ID:            hCV620389
SNP Position Genomic:     23888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53529):
CTCCCTCCCTTCCCCTTCAAGGGGCTGAAGACAAAAGGTGCCCCTGTCCTGGTCAAGCCAATCGACCCAGCCTTGTTATGGGTTGGGGTGGGGAGAAATG
W
GTCCTCCTGATGGCTGGGGAAGAAGAGGGGTTGGATATTTCTAGCCAGGGCCATGCCAGGAGGCTGGTCACTCTGCAAGGGGATGCAGAGGAAAGCGGTG
Celera SNP ID:            hCV15905766
SNP Position Genomic:     8028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53530):
TCCCAGCGGCGGCGCCGAGTTAACCCTCCTCGTGCTGAACTGGCTCCACCTCCCCGCCTGCCCCCACCGCCACATTCACGCATTGGGCAACTCAGAGAAG
M
TGTTTTAACTTTCGATCCTGTGGTCCCACAATCAGAGGACTCGGGCAGATAGGGGTTGAGATAAGCGAGTTTAGGCCACCAAGCGGGCGGACGAGGATCC
Celera SNP ID:            hCV15905767
SNP Position Genomic:     7762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53531):
GAGGTAGGGGCGGCTGGTGGGGAGCTTGAGCCCAAGACCCGGGCATCGCTGACTGGCCGGCTGGATGAAGTCCTGAGAACCCTCGTCACCAGGTATTCCC
Y
GGGAGCTCCCAGTCTGGCCTAGAACAGACCTCGGGAAGAAAAGAAGGGGGCTAGAGCTGTGGGGAGGGCACCAGCAGGGACCTAGCCCCCAACTCCCCTT
Celera SNP ID:            hCV22275465
SNP Position Genomic:     12817
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,8)   caucasian(C,40)   total(C,66|T,8)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,12)   caucasian(C,28)   total(C,46|T,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,10|C,38)   total(C,38|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53532):
TGGGATTCATGCACACTGGGGCCCGGGTGAGTGGGGGTGAGCAAGAGCATGGAGTGCACAGGGCAGGGAATGGTAGTGGATAGCAGCAAACACTTCGGAA
S
CACTTCCTATAGACCAGGGCACTCTATTAAATGATACATACGCACATGCGTGCCAGCACACACACGTCTGGTTTTCACAATAACATTATGAGGTAGGCAG
Celera SNP ID:            hCV15985100
SNP Position Genomic:     14024
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|G,42)   total(G,42|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53533):
CTGGTTTTCACAATAACATTATGAGGTAGGCAGTATTATCAGCCTCATTTTATAGATAAGGACATTGAGACAGAGAGTTTAAGTAGTTTGTCCCAGTCAC
M
CAGCTAAGTGTTGGAGCTGGTATTTGAAACCTGGAGGTCTGGTTCCATAGCGATGACTAATAACCACTTCTCTACGGTGAGGCCCTGATTGAGCTTCAGA
Celera SNP ID:            hCV15905697
SNP Position Genomic:     14192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53534):
CCAGGTATTCCCCGGGAGCTCCCAGTCTGGCCTAGAACAGACCTCGGGAAGAAAAGAAGGGGGCTAGAGCTGTGGGGAGGGCACCAGCAGGGACCTAGCC
S
CCAACTCCCCTTGTGTCCTCCTCACTCCCAGTTGCTTCCTGGTGGAGAAGCAGCCCCCCCAGGTACTGAAGACTCAGACCAAGTTCCAGGCTGGAGTTCG
Celera SNP ID:            hCV15985102
SNP Position Genomic:     12905
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,3)   caucasian(C,40)   total(C,71|G,3)   
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,6)   caucasian(C,28)   total(C,48|G,6)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,6|C,42)   total(G,6|C,42) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53535):
CTTCCTGCTTTAATGCTTTCCTTGTTCTTTGCCTGAATAATTCTTATGTCCCTTCAAGATTCATTTCAGGCTGGGCACGGTGGCTCACGCCTGTAATCCC
R
AAACTTTGGGAGGTCGAGGCAGGAAGATCACTTGAGTTCAGGAGTTTGAGAGCCTGGACAACATATTGAGACCCTGTTCTATGAGAGAGAGAGAGAGAGG
Celera SNP ID:            hCV11964064
SNP Position Genomic:     1715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:53536):
TTTCATATCCAGCTTCATCAGATGCTTGCCTGCTCCCAGGGCCCCCTAATTCGAAGACGCACCCCCTTTTCCATCAGTCTCCACCCCCCACCCCCGTCCT
S
CTTCCCCACGTCCTCCCCTCGACCTCCGCCCTCTGGACCCCATTCCCAAGTCCAGCTCCACCCATCTCCACTCCCCGCTGCCTCCCTTTGCCCACTAACT
Celera SNP ID:            hCV15945470
SNP Position Genomic:     28822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53537):
GGAAGGGGTCTCACCTGGAGCCCTTCAAGGAGGACAAGTAGGTGCTCTCTCGGGCTACTTGGCGGGACAAAGAGAAGAGCTCCACTCTCCGTAATAAGAG
Y
GTGTTGTCCCTCATGCAGAACTGGGCAGCAGCCTCGTTGATGGTGAGCTGTGGAGGGAGGGCAGCCAGGAGAGTCAGAATTCGAACTTCCCCGCTGCCTC
Celera SNP ID:            hCV1338396
SNP Position Genomic:     25781
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53538):
AGCTTCACACTTGGCCCCGGCAAACTCCCCATCCAGCTCCAGGTGAACCGTGGCCCAGCCCTGCCCCAATCTGGGACCCCGAGTCCTCCTCCAATGCCAC
R
CACAAGGGCCCTGGACCCTCACCTCTTGTGACTGCCCCATACCCCATGTGTCTGGGATTCATGCACACTGGGGCCCGGGTGAGTGGGGGTGAGCAAGAGC
Celera SNP ID:            hCV15816976
SNP Position Genomic:     13871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53539):
CTACAGAGGGCCTAGATGGAGAATAAGGAGCGAGAAAGGAACTGCTGAGCTTTTGGCTGTGGGGTAAAGGGTCAGGAGAGCTGAGGAAGCCCTGGCCTGA
R
GTAGCCTCATCCTGATCTTCCTGCAGGGAGTTCCTGGTCGGCTCCGACGCCTTCTGCTGCAACTTGGCTAGTGCCCTACTTTCAGACACTGTCCAGCACC
Celera SNP ID:            hCV15899901
SNP Position Genomic:     10506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53540):
GCCAGGGTTGGTGGCTTTGTCTGCTGCGTCACTCTCAGCCCAGCGGCTGCCCGGCCCTCCGCCTGCCCACTCCCTCTTCCCCCTTCCACACACAAAGCAT
S
ACTGCTTTGGGCTCCTCTGCTTCCAAGCTGGGCATCCCCATCCCCATACCCACAACTCCTAGCCTGCTCCCCACTCCTGGGTTGGTGGAAGTGCCATCTG
Celera SNP ID:            hCV1338398
SNP Position Genomic:     24282
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53541):
TGGCTCCTCCCTCCCTTCCCCTTCAAGGGGCTGAAGACAAAAGGTGCCCCTGTCCTGGTCAAGCCAATCGACCCAGCCTTGTTATGGGTTGGGGTGGGGA
R
AAATGTGTCCTCCTGATGGCTGGGGAAGAAGAGGGGTTGGATATTTCTAGCCAGGGCCATGCCAGGAGGCTGGTCACTCTGCAAGGGGATGCAGAGGAAA
Celera SNP ID:            hCV15899902
SNP Position Genomic:     8022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53542):
TCAAGGGTGTGGCTGGGGCGTGAGCAAGCCCCAGATGTAGACCTCATGGTGGCCCAGACGAGGGGGAATTTCCCCCTCAAAACTGCTCCACGCTTGGCTG
S
TGTAGACGCTGAGATTTCCCAGCGGCGGCGCCGAGTTAACCCTCCTCGTGCTGAACTGGCTCCACCTCCCCGCCTGCCCCCACCGCCACATTCACGCATT
Celera SNP ID:            hCV15899903
SNP Position Genomic:     7645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53543):
CCCCAGCCAAGCCTCCGCTGGTCAGGGCCGACATGGTGACAGAGAAGCAGGCGCGGGAGCTGAGTGTGCCTCAGGGTCCTGGGGCTGGAGCGTAAGCTGG
R
ATTGGACCTGGGGTTGGAGAAGGGCTGTTAGGGTGATGGAGGCAGCCTGGAGGGCTGGCACTGAAAAGAGCAAGGGATGGGGAGGGAGGGCCATGGGATG
Celera SNP ID:            hCV25627520
SNP Position Genomic:     13135
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53544):
AAAGCTGTGTAAGTCCAGTCGTGGATCACTTAATGAAGGAGCATTTTCTGTCTTTGGCAGTTTCATAATTATGCGAATACCATTGAGTATAATTACACAA
M
CCTAGATGGTATAGACTACTATACACTGAGGCTATATTGTGTAGCCTATTGATCCTAGCTTTAAACCCGAGCAGCATGATACTGTTCTGAATAGTATAAG
Celera SNP ID:            hCV15985148
SNP Position Genomic:     20217
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|A,47)   total(A,47|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53545):
GTGTCCTGGACCTCACCAAACGCTGTCTCCGGAGCTACTGGTCTGACCGGTGAGTCCCCACCCTGGGTAGTCTGAGCAGCCATACACCAGTCACCTCCAT
M
CTCACTGCCCATGCCCCATCCTCTCCTTCATCCCGGCCAGGCTGATCATTGGCTTCATCAGCAAACAGTACGTTACTAGCCTTCTTCTCAATGAGCCCGA
Celera SNP ID:            hCV22273185
SNP Position Genomic:     18332
SNP Source:               Applera
Population(Allele,Count): african american(A,34|C,4)   caucasian(A,36|C,4)   total(A,70|C,8)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,28|C,4)   caucasian(A,30|C,2)   total(A,58|C,6)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,3|A,45)   PGA-EUR(EAN-PANEL(C,6|A,40)   total(A,85|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53546):
CATAGTGCATGGCTCATAGCAAAAGCTGTGTAAGTCCAGTCGTGGATCACTTAATGAAGGAGCATTTTCTGTCTTTGGCAGTTTCATAATTATGCGAATA
Y
CATTGAGTATAATTACACAAACCTAGATGGTATAGACTACTATACACTGAGGCTATATTGTGTAGCCTATTGATCCTAGCTTTAAACCCGAGCAGCATGA
Celera SNP ID:            hCV15985149
SNP Position Genomic:     20196
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|C,45)   PGA-EUR(EAN-PANEL(T,1|C,45)   total(C,90|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53547):
ATTACTGCCTCCTGCCCACTGCATGTGTATGGGGGGTTCCATTCCCATGTGTGTGAGCCCCCTCCCCTCCCTGGCTGTGCGTAGCTCTGTCTCTGTCTGT
Y
TCTCTCTCTTTCTCTCCCGCCTCCTCGGTTGCGCTGGAATTTCTGGTTCTGTCAGGAGCTGCGGGGGTGGTTTGGCTCTGACCTCTCCCCTCCCCCCTTC
Celera SNP ID:            hCV620390
SNP Position Genomic:     23884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53548):
CAGGTGGGGAGGCAGGAGAAGGGCAGAGGAAGGATCCAGGGTTGTGACTAGATTCCGGGGATGGAGAGCGTGGGGGTCTGTGTGAGCCAGAAGTCTGAGG
K
CCTGGGTCTGAAGACACCAGTCCAACCCTCACTGCCGGCTGGCCTCAGCCTCCACTTTCACGCTGCTCCTGCGACCCTCCACCAGCGCGGGATGGGGTCC
Celera SNP ID:            hCV620391
SNP Position Genomic:     23526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:53549):
AGTCTTATGCCCATGGAGCAGGTGGGGAGGCAGGAGAAGGGCAGAGGAAGGATCCAGGGTTGTGACTAGATTCCGGGGATGGAGAGCGTGGGGGTCTGTG
K
GAGCCAGAAGTCTGAGGTCCTGGGTCTGAAGACACCAGTCCAACCCTCACTGCCGGCTGGCCTCAGCCTCCACTTTCACGCTGCTCCTGCGACCCTCCAC
Celera SNP ID:            hCV620392
SNP Position Genomic:     23508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:53550):
ACAGTCTTATGCCCATGGAGCAGGTGGGGAGGCAGGAGAAGGGCAGAGGAAGGATCCAGGGTTGTGACTAGATTCCGGGGATGGAGAGCGTGGGGGTCTG
K
GTGAGCCAGAAGTCTGAGGTCCTGGGTCTGAAGACACCAGTCCAACCCTCACTGCCGGCTGGCCTCAGCCTCCACTTTCACGCTGCTCCTGCGACCCTCC
Celera SNP ID:            hCV620393
SNP Position Genomic:     23506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:53551):
CTCTCTCCAGGCCTCTGCTTGTTATTGCTTGAAGCCCCACAGTCTTATGCCCATGGAGCAGGTGGGGAGGCAGGAGAAGGGCAGAGGAAGGATCCAGGGT
K
GTGACTAGATTCCGGGGATGGAGAGCGTGGGGGTCTGTGTGAGCCAGAAGTCTGAGGTCCTGGGTCTGAAGACACCAGTCCAACCCTCACTGCCGGCTGG
Celera SNP ID:            hCV620394
SNP Position Genomic:     23468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:53552):
CATCAGGGGGTCTGTTTTCTTTCCCCAGGCCCCAGGTGTACCCACCACACTCTCACTCCATCCCCCCGTATCAAGGCCTCTCCCCAGAAGAATCAGTCAA
Y
GTGTTGTCAGCCTTCCAGGAGTAAGTGAAAAACCTCATGGGGATACCATCCCACTCTAAGGGGGTGGGCATTTGAATTGTTAGAAGAGGCTCTTCTGTGA
Celera SNP ID:            hCV25627527
SNP Position Genomic:     19751
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:53553):
CCTCTCTCCAGGCCTCTGCTTGTTATTGCTTGAAGCCCCACAGTCTTATGCCCATGGAGCAGGTGGGGAGGCAGGAGAAGGGCAGAGGAAGGATCCAGGG
K
TGTGACTAGATTCCGGGGATGGAGAGCGTGGGGGTCTGTGTGAGCCAGAAGTCTGAGGTCCTGGGTCTGAAGACACCAGTCCAACCCTCACTGCCGGCTG
Celera SNP ID:            hCV620395
SNP Position Genomic:     23467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:53554):
CCTTCATCCCGGCCAGGCTGATCATTGGCTTCATCAGCAAACAGTACGTTACTAGCCTTCTTCTCAATGAGCCCGACGGAACCTTTCTCCTCCGCTTCAG
Y
GACTCAGAGATTGGGGGCATCACCATTGCCCATGTCATCCGGGGCCAGGATGGTGAGGCCACCCCAGCCAGTCCTCTGTCTCTGTGCCTGTGCCCTCTGG
Celera SNP ID:            hCV25627528
SNP Position Genomic:     18457
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,31|T,1)   total(C,63|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:53555):
GGAGGCTTCTGATACGTGTATGAGACTATGCAAAAGTACAAGGGCTGAGATTCTTCGTGTATAGCTGTGTGAACGTGTATGTACCTAGGATATGTTAAAT
R
TATAGCTGGCACCTTAGTTGCATGACCACATAGAACATGTGTCTATCTGCTTTTGCCTACGTGACAACACAAATTTGGGAGGGTGAGACACTGCACAGAA
Celera SNP ID:            hCV620397
SNP Position Genomic:     22411
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:53556):
GGTAGGCAGTATTATCAGCCTCATTTTATAGATAAGGACATTGAGACAGAGAGTTTAAGTAGTTTGTCCCAGTCACACAGCTAAGTGTTGGAGCTGGTAT
Y
TGAAACCTGGAGGTCTGGTTCCATAGCGATGACTAATAACCACTTCTCTACGGTGAGGCCCTGATTGAGCTTCAGAACGCATTTAATAACATGGCATGAG
Celera SNP ID:            hCV15899879
SNP Position Genomic:     14216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53557):
ATGCACAGTGGGTGGAGCCAATCCACTCCTTCCTTTCTATCATTCCCCTGCCCACCTCCTTCCAGCACTGACTGGAAGGGAAGTTCAGGCTCTGAGACAC
R
CCCCAACATGCCTGCACCTGCAGCGCGCACACGCACGCACACACACATACAGAGCTCTCTGAGGGTGATGGGGCTGAGCAGGAGGGGGGCTGGGTAAGAG
Celera SNP ID:            hCV620398
SNP Position Genomic:     21959
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;no_pop(C,-|T,-)   ;(T,-|C,-)   no_pop(T,-|C,-)   PCT-TFRICTN-PTNEL(T,8|C,40)   PCT-EUR(ETN-PTNEL(T,16|C,30)   total(C,70|T,24)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:53558):
CCACCCCTGTGTCTATCACTGAAGGAGTTACCCCCATCTCAGGCATTGACTCAGGATGCCCCTGGTTTAAGGTGGTCTGGCCATGAGTGGTGGTGGGGAC
R
GTCCCTAGGAGGGCTATCTATGGGAGGTCCCTGGCTGCCCCAGGAGATAGGCCAAGTTTCTTGGGCACCCCTCAGAGTGGCCTTATTTTTCTCCTCCAGG
Celera SNP ID:            hCV620399
SNP Position Genomic:     9877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   PGA-AFRIGAN-PANEL(A,8|G,40)   PGA-EUR(EAN-PANEL(A,14|G,30)   total(G,70|A,22) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53559):
TATAGCTGGCACCTTAGTTGCATGACCACATAGAACATGTGTCTATCTGCTTTTGCCTACGTGACAACACAAATTTGGGAGGGTGAGACACTGCACAGAA
K
ACAGCAGCAAGTGTGCTGGCCTCTCTGACATATGCTAACCCCCAAATACTCTGAATTTGGAGTCTGACTGTGCCCAAGTGGGTCCAAGTGGCTGTGACAT
Celera SNP ID:            hCV29119645
SNP Position Genomic:     22512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:53560):
CCTGCACCCCCAGGGCCATGGAAAGTCAGGGAAAGGAGGTGAAGGAGTGCCCCTCTGCCCTGAGTCGGGGGAAGTGGCCGCCCCTCCCTGGAAGGTTGAT
S
CCAGAGGGCAGTGGATCCTTGTTAAACCCCTATCCTGCCCTCCACTAAAGGTTCCTGTTCAAGGGTGTGGCTGGGGCGTGAGCAAGCCCCAGATGTAGAC
Celera SNP ID:            hCV15905777
SNP Position Genomic:     7486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53561):
AGGTCAGGAAGAACTGCCAAAGGGGAGAGGGGAACAAGAAAACGCTATCTGCAGAGCAGAGAGTGGAGGCCAGGTATAGAGGGATGAGCAGAGTGTTTCA
S
TTCTTGGCATCTGTCCTTCCTGTGTAGTTCCGCCACTTGCCAATGCCTTTCCACTGGAAGCAGGAAGAACTCAAGTTTAAGACAGGCTTGCGGAGGCTGC
Celera SNP ID:            hCV15816980
SNP Position Genomic:     11417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53562):
AAAGGTCAGGAAGAACTGCCAAAGGGGAGAGGGGAACAAGAAAACGCTATCTGCAGAGCAGAGAGTGGAGGCCAGGTATAGAGGGATGAGCAGAGTGTTT
S
ACTTCTTGGCATCTGTCCTTCCTGTGTAGTTCCGCCACTTGCCAATGCCTTTCCACTGGAAGCAGGAAGAACTCAAGTTTAAGACAGGCTTGCGGAGGCT
Celera SNP ID:            hCV15816981
SNP Position Genomic:     11415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53563):
GTCCTCCACTGGAGGGAGCGCAGAGTCCAGAGGGATTTACTTTTCCTGAGGCCCTGGGGAGCCCAGTCCCTTGTGGGTCCAAACCCCAGCCCTTGGCAGA
S
TTTGAGTTTGGGAGCCAGGCAGTTAGGGGTGGCAAATCTCTGTTTGATATTGGGTGACTTTCTGGAGAAAAGCTGATGCTTTTGAGGGGGACAGAGTAAG
Celera SNP ID:            hCV15985008
SNP Position Genomic:     6611
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,3|G,43)   total(G,43|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53564):
TGCAGGGAAAAGGGGGCAGTTAGGAGACTGCAGGGTGACTGGCTGCAGACAGAGGTGGTTGGGAACAGAAGCAGGGGCAAAGAAAGCTGTGAAGATGGGC
W
CAGTTTAGGTTTATTGAATTACTGCCTCCTGCCCACTGCATGTGTATGGGGGGTTCCATTCCCATGTGTGTGAGCCCCCTCCCCTCCCTGGCTGTGCGTA
Celera SNP ID:            hCV15985113
SNP Position Genomic:     23766
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,34)   caucasian(A,3|T,23)   total(A,5|T,57)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|T,44)   PGA-EUR(EAN-PANEL(A,6|T,38)   total(A,8|T,82) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53565):
CTGGCTCCAGTCGGTCTGGACCACCCCCAGTCCCACCTGCTGCCAGCCCCCCAGCCCCAGTCCCCTCAGGGACTCCTCCCCCTGCAGGGGGGGAGAAGGG
S
GGCGAGCCAGCCTCCTCTTCTCCTCCTGCCCCAACGTCCGACTCTGGAGTGCTCCGGCCTGGCCAGATCCGGGGGTCCCCTGCCCCAGGTCCCCCAGGCA
Celera SNP ID:            hCV15945480
SNP Position Genomic:     26617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 DONOR SPLICE SITE;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53566):
CCTAGGAGTTGGCTGGCATCGAGCTCCCTGGCGGCTTTTTAGGGTCCTCCACTGGAGGGAGCGCAGAGTCCAGAGGGATTTACTTTTCCTGAGGCCCTGG
R
GAGCCCAGTCCCTTGTGGGTCCAAACCCCAGCCCTTGGCAGAGTTTGAGTTTGGGAGCCAGGCAGTTAGGGGTGGCAAATCTCTGTTTGATATTGGGTGA
Celera SNP ID:            hCV15985009
SNP Position Genomic:     6568
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|G,44)   total(G,44|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53567):
ATGCGTACCATCTCTGGCTCCAGTCGGTCTGGACCACCCCCAGTCCCACCTGCTGCCAGCCCCCCAGCCCCAGTCCCCTCAGGGACTCCTCCCCCTGCAG
R
GGGGGAGAAGGGGGGCGAGCCAGCCTCCTCTTCTCCTCCTGCCCCAACGTCCGACTCTGGAGTGCTCCGGCCTGGCCAGATCCGGGGGTCCCCTGCCCCA
Celera SNP ID:            hCV15945481
SNP Position Genomic:     26604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53568):
TCTCAATGAGCCCGACGGAACCTTTCTCCTCCGCTTCAGCGACTCAGAGATTGGGGGCATCACCATTGCCCATGTCATCCGGGGCCAGGATGGTGAGGCC
M
CCCCAGCCAGTCCTCTGTCTCTGTGCCTGTGCCCTCTGGGGTTTCTTCTGGGAATGAAATGTCCTGACCTTCCTGATGCCGATCCTGATCTTCAGGAAGT
Celera SNP ID:            hCV15985042
SNP Position Genomic:     18518
SNP Source:               Applera
Population(Allele,Count): african american(A,32)   caucasian(A,31|C,1)   total(A,63|C,1)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|A,47)   total(A,47|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53569):
TGGGGAAGAGGGGGCAAGCTGGGGGTGGGCAGCTGACCCTGCTGAAGGCCCTACAGGTGAGAGAAAGAAGCCAGGCGGGAGGGCCTTGGAGTGGACCAAG
W
TGCATAAAAGCCAGTTCCAGCGGGGCTGTGCACACTGTCGTTCAGGTCGCATCCTGTACAAGTGGGCCTAGTGGAGGGGCACAAGCGGGGACTCATCCAA
Celera SNP ID:            hCV15984967
SNP Position Genomic:     12202
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,5|A,43)   total(A,43|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53570):
CTGTAAGTGGTGGCAGTTGTCCTGGGTGCAAGAGCCGTCGGGGGAGAGGCAGCTGGGTTTCCACAGGGGGTGTAGGCACTGAGAATGAACCTCCCACCCA
S
ACCCTAGGCCAACAGATCACAGAACCCCCTTCAGCCCAGGTGCCTTGCAGCCACACCCACTACCCACCCCACTTCTCCACACATGATAGCCTTTCTCCCT
Celera SNP ID:            hCV7499170
SNP Position Genomic:     12500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53571):
GAGTCTCAGGTTCGGTCTGATCCTCAGCCCTGTGATTCTGTCGTGAGGGCACTCACAGCTCACTGCCTGCCCTAAACAGGCTCCAGCTCTGGCCCTCCCT
S
GGCTCACACCTTTCCCCCTCTCCCCCTAGGAGATCCTGCTGGGCCGTGGCTTCACCTTTTGGCAGTGGTTTGATGGTGTCCTGGACCTCACCAAACGCTG
Celera SNP ID:            hCV15985044
SNP Position Genomic:     18156
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|C,43)   total(G,1|C,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53572):
GCACAAGCGGGGACTCATCCAACCCAGGCTTCTCTCCTCAAGCCCCATGCCTAGAGGAATAGGAGGGCTTTTCCATTTGGTTTATTGGGTGGGAACACTT
Y
CCAATTTGCCACAAAGCACTGTAAGTGGTGGCAGTTGTCCTGGGTGCAAGAGCCGTCGGGGGAGAGGCAGCTGGGTTTCCACAGGGGGTGTAGGCACTGA
Celera SNP ID:            hCV7499171
SNP Position Genomic:     12381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53573):
CAGCAAATGCTAACAGCCTGTCTTCTTCTCTTCTGTCCACTCTAATGAGGGGGTAGTAGTTAAGATCTGGACTGCCTAGGTTTGAATTCTAGCTCCACCA
Y
TTACTGGTTTGGGGCAAATTACTTAGCCTTTGGTGCCTTATCTGCACAATGGGGGATAATAATGCTAATAATAATAACCTACCTCACTGCATTATTGTGG
Celera SNP ID:            hCV15985150
SNP Position Genomic:     19960
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53574):
TTCAAGGGTGTGGCTGGGGCGTGAGCAAGCCCCAGATGTAGACCTCATGGTGGCCCAGACGAGGGGGAATTTCCCCCTCAAAACTGCTCCACGCTTGGCT
S
CTGTAGACGCTGAGATTTCCCAGCGGCGGCGCCGAGTTAACCCTCCTCGTGCTGAACTGGCTCCACCTCCCCGCCTGCCCCCACCGCCACATTCACGCAT
Celera SNP ID:            hCV15899912
SNP Position Genomic:     7644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53575):
CTGCACCCCCAGGGCCATGGAAAGTCAGGGAAAGGAGGTGAAGGAGTGCCCCTCTGCCCTGAGTCGGGGGAAGTGGCCGCCCCTCCCTGGAAGGTTGATG
S
CAGAGGGCAGTGGATCCTTGTTAAACCCCTATCCTGCCCTCCACTAAAGGTTCCTGTTCAAGGGTGTGGCTGGGGCGTGAGCAAGCCCCAGATGTAGACC
Celera SNP ID:            hCV15899913
SNP Position Genomic:     7487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53576):
AGAGGAATAGGAGGGCTTTTCCATTTGGTTTATTGGGTGGGAACACTTTCCAATTTGCCACAAAGCACTGTAAGTGGTGGCAGTTGTCCTGGGTGCAAGA
R
CCGTCGGGGGAGAGGCAGCTGGGTTTCCACAGGGGGTGTAGGCACTGAGAATGAACCTCCCACCCAGACCCTAGGCCAACAGATCACAGAACCCCCTTCA
Celera SNP ID:            hCV15905707
SNP Position Genomic:     12433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53577):
TGTAGACCTCATGGTGGCCCAGACGAGGGGGAATTTCCCCCTCAAAACTGCTCCACGCTTGGCTGCTGTAGACGCTGAGATTTCCCAGCGGCGGCGCCGA
R
TTAACCCTCCTCGTGCTGAACTGGCTCCACCTCCCCGCCTGCCCCCACCGCCACATTCACGCATTGGGCAACTCAGAGAAGCTGTTTTAACTTTCGATCC
Celera SNP ID:            hCV15905709
SNP Position Genomic:     7680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53578):
CCATGTGTAGTGACCTAGATTTAGCAGGGAGTCTGTGCCCCATCAAGACCAGGCTATGAATGTTGACAGATGGAGACCCCATCTCTTAGGAGGCTGAGCC
R
AAGAGGAGGGGGGTTTGGGCTGGGACAAAGGCACTTCTCATAACAGCTAGAAGACTGGGAAACAAGGCGCATGGGTGAAAGCTACAGAGGGCCTAGATGG
Celera SNP ID:            hCV25921635
SNP Position Genomic:     10324
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:53579):
GGTGGGGACGGTCCCTAGGAGGGCTATCTATGGGAGGTCCCTGGCTGCCCCAGGAGATAGGCCAAGTTTCTTGGGCACCCCTCAGAGTGGCCTTATTTTT
Y
TCCTCCAGGCAACCTCCAAGTCCCAGATCATGTCTCTGTGGGGTCTGGTCTCCAAGATGCCCCCAGAAAAAGTGCAGCGGCTCTATGTCGACTTTCCCCA
Celera SNP ID:            hCV15905743
SNP Position Genomic:     9968
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53580):
TGGGTTGGTGGAAGTGCCATCTGAGCTTCCCTTATTGATGCTCCTCCTTCCTGCTCCTTCATCCTCTTTTCTCTGTCCCCCCATTCCCCAGTTCCCCTTT
Y
ACAGATCTACACTAGGACCAGACTTTCCATGGTGGGAGCAGCTCGGCAGGGTCTGCCTCTCTGCACCCCAAGGCCTGGCTGGCTGGAGCCCAGCCATCCT
Celera SNP ID:            hCV16035648
SNP Position Genomic:     24460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53581):
GGGTCATAGATCCTAAGCCATAAAATAAATTTTATTCCAAAATAACAAAATAAATAATCTACTGTACACAATCTGAAAAGAAAGACGCTCTAACTGCTCA
R
ATAGGTGCTGCGGTCCAGCCCCCAGCTGGAGGAGACCCTGAGTCCAACCCAGGCCTCCCGAGGGGGCCAGTGAAGGGATCCCACACCCACCGCCCCTATG
Celera SNP ID:            hCV27469920
SNP Position Genomic:     22890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:53582):
GCAGCACCGAGTAGGGGAGATCCACCTTCTCCGAGAAGCCCTGCAGAAGGGGGCTGAGGCTGGCCAAGGTGGGGGCCAGGGTGGTTCTGGGGAGTGTGTA
R
GAGTGGTTGCCTCTTGGATCTCAACCTTATCTGAACCTCTAATCTGTCTGCACCCTTGATTTCTGCCCCCAACCCTCAGTGTCTCTGCACAGCTTGATAG
Celera SNP ID:            hCV15899889
SNP Position Genomic:     11616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53583):
AACCTGAGCAGGAGGGGTAAGGATTCTGCCTTGAGGAGAAAAGAGCTGGGGTAAGTGGGCACTGGAGGAAAGAGGGGCATGAAGGTCTTGGAGCAGAAAC
R
TCCAGAGAAGGGACCTCTCCATTTTCCATCCCTCTGAGAGGCCTGGGAGAGGTGAGAGGCTGAACGTGCAACAGGAGGACTTGGGGTTACTGGGTTTGGG
Celera SNP ID:            hCV620401
SNP Position Genomic:     8284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIG-allele(A,296|G,1181)   total(G,1181|A,296)   PGA-AFRIGAN-PANEL(A,8|G,40)   PGA-EUR(EAN-PANEL(A,16|G,30)   total(G,70|A,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53584):
AAAGAGAATGGGAGTGTGTTGTGTGAGGGAGGGGAAAACCCCAGATGCCCTGGAGGCAGAGTCCTTGCCCCCTCGCTCTGGGCAGGGGTGAGGGCACCAC
R
CACCCTCCTTGTGTCCTCTCTCCAGGCCTCTGCTTGTTATTGCTTGAAGCCCCACAGTCTTATGCCCATGGAGCAGGTGGGGAGGCAGGAGAAGGGCAGA
Celera SNP ID:            hCV15985124
SNP Position Genomic:     23352
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,1|G,43)   total(G,43|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:53585):
CCCACCACAGTCTCAGGAGGGGTGCCCTGTGAGGAGAGAGCAAAGACCAGCTTCAGTCCAAGGGACTCCTAGAGTCTTCCAGAATTCTGAGCTGAGGGTT
Y
CCCTCCCCCACTCCCTCCCGTCAGTGGTCACGAGACCGACCTCTAAGGCGTTCCCTGCCGGAAGGGAGGGGGACCTAGGAGTTGGCTGGCATCGAGCTCC
Celera SNP ID:            hCV15985019
SNP Position Genomic:     6394
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,39)   total(C,39|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:53586):
TCTTTGCCTGAATAATTCTTATGTCCCTTCAAGATTCATTTCAGGCTGGGCACGGTGGCTCACGCCTGTAATCCCGAAACTTTGGGAGGTCGAGGCAGGA
R
GATCACTTGAGTTCAGGAGTTTGAGAGCCTGGACAACATATTGAGACCCTGTTCTATGAGAGAGAGAGAGAGAGGAGAGAGAGAGAGAGGAGAGAGAGAA
Celera SNP ID:            hCV620404
SNP Position Genomic:     1740
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:53587):
ACTTTTAGCTGGACCTTCCCAGGGAAGTCCCCCTTTCCCCCTTGTCCAAACTGAGTCCAACTGCTCACACCACTGGTGCAAACCTAAAGAGAATGGGAGT
S
TGTTGTGTGAGGGAGGGGAAAACCCCAGATGCCCTGGAGGCAGAGTCCTTGCCCCCTCGCTCTGGGCAGGGGTGAGGGCACCACGCACCCTCCTTGTGTC
Celera SNP ID:            hCV15985125
SNP Position Genomic:     23267
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,1|G,39)   total(G,39|C,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:53588):
TGCAGCTAGGCTGATCCCTCTACTAAATCTTATCATATGACTCACCTGTCTAAATCTTCTAATGCTCCGCATTGCCCATTACTACCCATTCCCAGAAGGT
R
CCATGCTCCCACAGGTATCCATGCCTTTGCATATGCTAGACCTTCTTCCTGCTTTAATGCTTTCCTTGTTCTTTGCCTGAATAATTCTTATGTCCCTTCA
Celera SNP ID:            hCV620405
SNP Position Genomic:     1570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53589):
CTCTGCCTCTTACCAGCTATGTAGACCTGGGCAAGTCATTCGACGTTTTTGGACTTCCATTTCTTCATCTGTAAGATGGAATTATTATAATCCCTACTTC
Y
ATAGCCTGGTAAAGAGCAAATAAATATATGGAAAGGCTTGAAATAGTGGCTGGCACGTGTAAGCATTAGGATTGGTCGTTGTCATTGATGGAGTCTCAGG
Celera SNP ID:            hCV15985053
SNP Position Genomic:     17965
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53590):
CTAAGCCATAAAATAAATTTTATTCCAAAATAACAAAATAAATAATCTACTGTACACAATCTGAAAAGAAAGACGCTCTAACTGCTCAGATAGGTGCTGC
R
GTCCAGCCCCCAGCTGGAGGAGACCCTGAGTCCAACCCAGGCCTCCCGAGGGGGCCAGTGAAGGGATCCCACACCCACCGCCCCTATGTAGGGCAGGGAA
Celera SNP ID:            hCV15985126
SNP Position Genomic:     22902
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,3|G,33)   total(G,33|A,3) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:53591):
GGATGGCAGGGGTTATGTCCCAGCTACCATCAAGATGACCGTGGAAAGGTGAGTGTGGTGGTATGGACAGTGGGTAGGTCAGGGGCTTAGTGCTTATCTG
Y
AGGAAGGAGGGGTGGCATCAACCCTTGGTCAGTCACATGTACCTCCTTCCCTCCTCCAGGGACCAACCACTTCCTACCCCAGAGCTCCAGATGCCTACCA
Celera SNP ID:            hCV26439023
SNP Position Genomic:     19314
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,33|T,7)   total(C,70|T,8)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|C,45)   PGA-EUR(EAN-PANEL(T,1|C,43)   total(C,88|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53592):
TGGACCTCCCACCCCCAAGCTCTTCATCCCTGGGGCACTCAGGGCCTGCTCAGCCTCCATGCAGGGACCTTCCACTGGATTCTCCACAGTGCCCCCTCAG
R
TCCTTTAGGAAGGCCTGTCATGGACCAGGGAGGAAAAACCCCAGGCCTGGGGGTTGGCTCTGGAGATGCGTTCTCTGACATCCCTGAGGTTTTGGTCTGG
Celera SNP ID:            hCV15985055
SNP Position Genomic:     16104
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,5|G,41)   total(G,41|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53593):
CCAAGAAGCCCAAGGATGAGGCTTTCCGGAGCCACTACAAGCGTGAGCTGGAACTGGCAGCTCTGATTCCTTCCTGTCACCCACTTCCTCCCTGCTCCCC
R
CTGCCCTCCTCTCCCTGCCCGCGTGTCATCCTGATGTCACTCCCTATTTCATAGCTGTGCTTCTCTTACTTCCCCATGATCCATGCCCACCTTTTCCACC
Celera SNP ID:            hCV26439024
SNP Position Genomic:     19041
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,41)   total(G,41|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53594):
ATCATCAACAACACTGTGCCCTTGGAGAACAGCATTCCTGGGAACTGCTGCTCTGCCCTGTTCAAGAACCTGGTGAGGGGCTTTGGGGTGCAGTGAGGGG
R
GCACCACTAGGAGACTGTGGGACTCTCCTTGGAGAGGATGTCAGGAAGCCCAGGAGGAGCGGTCTCTGTCCTCATGACCTCGCCCTTGCTCTCCCTCACC
Celera SNP ID:            hCV15985161
SNP Position Genomic:     13579
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,3|G,43)   total(G,43|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53595):
TATCAGCCTCATTTTATAGATAAGGACATTGAGACAGAGAGTTTAAGTAGTTTGTCCCAGTCACACAGCTAAGTGTTGGAGCTGGTATTTGAAACCTGGA
R
GTCTGGTTCCATAGCGATGACTAATAACCACTTCTCTACGGTGAGGCCCTGATTGAGCTTCAGAACGCATTTAATAACATGGCATGAGCTTTTTGATTAT
Celera SNP ID:            hCV16285173
SNP Position Genomic:     14228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53596):
GCATGGTGGCGGGCGCCTGAGTCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATGGCGTGAACCTGGGAGGGAGAGCTTGCAGTGAGCCAAGATCGCGCC
R
CTGCACTCCAGCCTGAGTGACAGAGCGAGACTCTGTCTCAAAAATAAATAAATAAATAATTAGCTGGATTAGGTGGTACATTTCTGTAGTTCCAGCTATT
Celera SNP ID:            hCV26439025
SNP Position Genomic:     15054
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53597):
AGTTTAAGTAGTTTGTCCCAGTCACACAGCTAAGTGTTGGAGCTGGTATTTGAAACCTGGAGGTCTGGTTCCATAGCGATGACTAATAACCACTTCTCTA
Y
GGTGAGGCCCTGATTGAGCTTCAGAACGCATTTAATAACATGGCATGAGCTTTTTGATTATGATGTGTGAGTCCAATAACTTCTCTGAGTGCTCAGAGCC
Celera SNP ID:            hCV15985090
SNP Position Genomic:     14267
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,43)   total(C,43|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53598):
ATAAGGAGCTGATTCTGCTAGGAGCAAGGTCTTATCTCCACGATATTCCAAAAGGTCAGGAAGAACTGCCAAAGGGGAGAGGGGAACAAGAAAACGCTAT
M
TGCAGAGCAGAGAGTGGAGGCCAGGTATAGAGGGATGAGCAGAGTGTTTCACTTCTTGGCATCTGTCCTTCCTGTGTAGTTCCGCCACTTGCCAATGCCT
Celera SNP ID:            hCV26439027
SNP Position Genomic:     11365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53599):
AAAAGCTGTTATGGAACAGGTATTGTGATATTCCACCTCCCACCCCAACTCAATCCCCTGAGACTTTGGCCTGAGCCATGACAAACTAGAAAGAATTTGA
W
CCTCAGTAAAGGCTCAGTGTTCTAGGCCCAGGAATGACCAAAGGAGGTTCCTAGGGTCAGAGTGAACCCCAAGTCAAGCTCAGGGAATCTTTCTATGAGG
Celera SNP ID:            hCV26439028
SNP Position Genomic:     11127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53600):
TCGCCCAGGCTGGAGTGCAGTGGCTCGATCTCTGCTCACTGCAAGCTCCGCCCCCCAGGTTCACGCCATTCTGTCACCTCAGCCTCCCCAGTAGCTGGGA
S
TACAGGCGCTCGCCACCACGCCCTGCTAATTTTGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCTGACCT
Celera SNP ID:            hCV26439029
SNP Position Genomic:     9194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53601):
GTGTCCTCCTGATGGCTGGGGAAGAAGAGGGGTTGGATATTTCTAGCCAGGGCCATGCCAGGAGGCTGGTCACTCTGCAAGGGGATGCAGAGGAAAGCGG
W
GCCCACTCACTCCAGAGGACCTTTCTCTCTTGGGCTAGAGAAAGGCCTATTGGAGGAACCTGAGCAGGAGGGGTAAGGATTCTGCCTTGAGGAGAAAAGA
Celera SNP ID:            hCV16035654
SNP Position Genomic:     8127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53602):
TAGTACAGGTTTTGCCCTGATTAAAAAATCTCCCAAAGCCCCAAATTCCTGTTAGCCAGGTGGAGGCTTCTGATACGTGTATGAGACTATGCAAAAGTAC
R
AGGGCTGAGATTCTTCGTGTATAGCTGTGTGAACGTGTATGTACCTAGGATATGTTAAATATATAGCTGGCACCTTAGTTGCATGACCACATAGAACATG
Celera SNP ID:            hCV7480847
SNP Position Genomic:     22350
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   no_pop(G,-|A,-)   PGA-AFRICAN-PANEL(G,2|A,46)   PGA-EUR(EAN-PANEL(G,6|A,40)   total(G,8|A,86)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:53603):
CCACTTGCCAATGCCTTTCCACTGGAAGCAGGAAGAACTCAAGTTTAAGACAGGCTTGCGGAGGCTGCAGCACCGAGTAGGGGAGATCCACCTTCTCCGA
S
AAGCCCTGCAGAAGGGGGCTGAGGCTGGCCAAGGTGGGGGCCAGGGTGGTTCTGGGGAGTGTGTAGGAGTGGTTGCCTCTTGGATCTCAACCTTATCTGA
Celera SNP ID:            hCV15899890
SNP Position Genomic:     11550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53604):
CAGACACATTTACACTAGAGGCCAGGGATAGAGGATATTGGGTCTCAGCCCTAGGGGAATGGGAAGCAGCTCAAGGGACCCTGGGTGGGAGCATAGGAGG
R
GTCTGGACATGTGGTTACTAGTACAGGTTTTGCCCTGATTAAAAAATCTCCCAAAGCCCCAAATTCCTGTTAGCCAGGTGGAGGCTTCTGATACGTGTAT
Celera SNP ID:            hCV7480848
SNP Position Genomic:     22231
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   (T,-|C,-)   no_pop(T,-|C,-)   PCT-TFRICTN-PTNEL(T,11|C,35)   PCT-EUR(ETN-PTNEL(T,20|C,24)   total(C,59|T,31)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:53605):
GTTATGGAACAGGTATTGTGATATTCCACCTCCCACCCCAACTCAATCCCCTGAGACTTTGGCCTGAGCCATGACAAACTAGAAAGAATTTGAACCTCAG
W
AAAGGCTCAGTGTTCTAGGCCCAGGAATGACCAAAGGAGGTTCCTAGGGTCAGAGTGAACCCCAAGTCAAGCTCAGGGAATCTTTCTATGAGGGACTGAA
Celera SNP ID:            hCV15899891
SNP Position Genomic:     11134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53606):
TCTTGGCGTGTCTCAGTGTTTACCCCAGAAACATATAGGAACTTGGCAGATAGGAACACAGCAGATTCGTATTCAAACTTGCCCCTTGTGAATCTGCAGG
S
AGCAGCTCCGGCTTGTGCTGGTTCCCACCACAGTCTCAGGAGGGGTGCCCTGTGAGGAGAGAGCAAAGACCAGCTTCAGTCCAAGGGACTCCTAGAGTCT
Celera SNP ID:            hCV15985020
SNP Position Genomic:     6270
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|C,34)   total(G,2|C,34) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53607):
CATATGCTAACCCCCAAATACTCTGAATTTGGAGTCTGACTGTGCCCAAGTGGGTCCAAGTGGCTGTGACATCTACGTATGGCTCCACACCTCCAATGCT
R
CCTGGGAGCCAGGGTGAGAGTCTGGGTCCAGGCCTGGCCATGTGGCCCTCCAGTGTATGAGAGGGCCCTGCCTGCTGCATCTTTTCTGTTGCCCCATCCA
Celera SNP ID:            hCV11964058
SNP Position Genomic:     22641
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:53608):
GAGGTTTCCCCTAGTCCGGAATCTCAGCCCCGCCCCGCCTCTCTGTCCGCACTTCTGAGGGGCTGGGGTGGGGCATGGCGGGGCGTGGAGGCCGTGGACC
R
GGGCTGGTTTTACAATGTGGCCTAGCGAGGAGACCTTTCCGCCTTGTGGGGTCCGGGGAGAAGGAGCGCGTTGTTGGTGGGAGGATTTCAGTTGCTCAGG
Celera SNP ID:            hCV27477990
SNP Position Genomic:     30565
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,45|G,1442)   total(G,1442|A,45) 
SNP Type:                 TFBS


Context             (SEQ ID NO:53609):
ATGCCAGAGGAGTGAGAAAAAGAGCCGTATCCCAGGAGCTGGGTGTGGAGGCAGCGTGAGGCCCTGGCTCAGGCCCCTCTCTGCCCATAGGCCCTGGCCA
K
GCTACTGCAGGAGACCACTGGAGAGCTAGAGGCAGCCAAAGCCCTAGTGCTGAAGAGGATCCAGATTTGGAAACGGCAGCAGCAGCTGGCAGGGAATGGC
Celera SNP ID:            hCV15984983
SNP Position Genomic:     11947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53610):
ATGGAGACCCCATCTCTTAGGAGGCTGAGCCGAAGAGGAGGGGGGTTTGGGCTGGGACAAAGGCACTTCTCATAACAGCTAGAAGACTGGGAAACAAGGC
R
CATGGGTGAAAGCTACAGAGGGCCTAGATGGAGAATAAGGAGCGAGAAAGGAACTGCTGAGCTTTTGGCTGTGGGGTAAAGGGTCAGGAGAGCTGAGGAA
Celera SNP ID:            hCV15984984
SNP Position Genomic:     10393
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,4|G,44)   total(G,44|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53611):
AAGGGAAGGCTCTTTGCCCACAGAACCAGAGCCAGGTCTAGAGCTGCAACTAAATCCTCTGCCACTCTAAGAGAGCTCTCGCTCTACTGCCCTGTCTCCC
Y
TTGCCTCCCCATCCCTCTGGCTACAGCTCAGCTCTTCCCACCCCTGTGTCTATCACTGAAGGAGTTACCCCCATCTCAGGCATTGACTCAGGATGCCCCT
Celera SNP ID:            hCV27454007
SNP Position Genomic:     9739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53612):
AGGATGCCCCTGGTTTAAGGTGGTCTGGCCATGAGTGGTGGTGGGGACGGTCCCTAGGAGGGCTATCTATGGGAGGTCCCTGGCTGCCCCAGGAGATAGG
Y
CAAGTTTCTTGGGCACCCCTCAGAGTGGCCTTATTTTTCTCCTCCAGGCAACCTCCAAGTCCCAGATCATGTCTCTGTGGGGTCTGGTCTCCAAGATGCC
Celera SNP ID:            hCV15984985
SNP Position Genomic:     9929
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,40)   total(C,72|T,2)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,38)   total(C,38|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53613):
TAACAAATAGTAGCTGTTATTACTCTCCCATCCTCTTCATCATCTAGCCTTGTGGTTTTCATTTTTATTTTATTTCATTTATTTATTTATTTATTTTGAG
R
CAGAGTCTCTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCTCGATCTCTGCTCACTGCAAGCTCCGCCCCCCAGGTTCACGCCATTCTGTCACCTCAGCCT
Celera SNP ID:            hCV26439030
SNP Position Genomic:     9078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53614):
GCGCCCCGCCGGCGACATTCCTTCTCTCCCCCACCCCTCCGAGCTGAGAGAGGAGTTTCACAACCACGCACAAGTACACAAAGACACAGAAGCGCACGGA
S
GTGCACACGCGCCTAAACAACTACGGGGACGCCCGTTGCCCATACTCAGGCCTTGTGGTGCTGGACGTGTGAATGTTAGCAGTGAGCCGGGAAAAGTTAG
Celera SNP ID:            hCV15945469
SNP Position Genomic:     29682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:53615):
GAAGGGGGGAGGTGCTAGCAGGGCCAGCCTTGAACTCGCTGGACAGAGCTACAGACCTATGGGGCCTGGAAGTGCCCGCTGAGAAAGGGAGAAGACAGCA
S
AGGGGTTGCCGAGGTGAGGGGTTGCCTCCGAGGTGGGTGCGGGGGCCTCTATGAGTGCATGGGGGTGGATTCGTGGGGGGAGCTCTCGGGATCCTCCCCT
Celera SNP ID:            hCV26439031
SNP Position Genomic:     7134
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,15)   total(G,15|C,1) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:53616):
GGAGGGGCAAGGGGAGTCGGGGGGAGGGTCCTTGGGGGCACAGCCCCTCCTGCAGCCCTCCCACTATGGGCAATCTGGGATCTCAATGTCCCACATGGAC
Y
TAAGGGCCAACCCCAGTTGGTGATCCCAGCTGGAGGGAGAACCCAAAGAGACAGCTCTTCTACTACCCCCACAGACCTGCTCTGGACACTTGCTCATGCC
Celera SNP ID:            hCV15985136
SNP Position Genomic:     21681
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53617):
CACTGAAGAGGGAGGACGGGAGAGGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTATGTGTGTGCTTTATCTTATTTTTCTTTTTGGTGGTGGTG
K
TGGAAGGGGGGAGGTGCTAGCAGGGCCAGCCTTGAACTCGCTGGACAGAGCTACAGACCTATGGGGCCTGGAAGTGCCCGCTGAGAAAGGGAGAAGACAG
Celera SNP ID:            hCV26439033
SNP Position Genomic:     7031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:53618):
TATTATTTTCTGTCCTGCCCCTGAGAGCCACTGTCACTTCTCTGCTGTATTGGTTTTTGTTTACTCATCTGTTTTGGCCTTGAAATGGCCTAGACATTTT
K
CTTCCCGAAGTATGACACTCGGGTGCTTATTAACTTAGTCAAGACACAACATCTCCCTTCCCAGAAGGTGAGGCGGGAGTGAGGACTTGGGGACTTAAGA
Celera SNP ID:            hCV15985137
SNP Position Genomic:     20809
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|T,39)   total(G,1|T,39) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53619):
TAATTTTTTTTTTTTGAGACAGGGTCTCACTCACTGGAGTGCAGTGGTGCGATCTTAGCTCCCTGCAACCTCCGCCTCTTGGGCTCGAGCAATCCTCCTG
Y
TGTAGTGCACCACGACACTCGGCTAATTCTTTTTTAAGATTTTTCTGCAGACAAGGTCTCACTTACTGCCCAAGCTGGTCTCAAACTCCTGGGCTTAAGT
Celera SNP ID:            hCV15985138
SNP Position Genomic:     20472
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53620):
CTAGAAAAAACAGCATGTTTGTGAGCGATATCAGGGGCTGTGGAGGGGTAGGCCACAGGCAGGTGGGAGGGATGAAGGCCGGCCCGAGGAATAACAAGAC
R
GTAGCCTGCAGTGCTCTCTTCTTCCCCCTTCTCCCCAGGACCGCGTGCCCTTTGTGGTGGCTGAGCGGGTGCCCTGGGAGAAGATGTGTGAAACTCTGAA
Celera SNP ID:            hCV15985065
SNP Position Genomic:     15741
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON;TFBS


Gene Number:                 261
Celera Gene:                 hCG41475 - 145000147777958
Gene Symbol:                 MMP20
Protein Name:                matrix metalloproteinase 20 (enamelysin);MMP-20
Celera Genomic Axis:         GA_x5YUV32VVY5(12472013..12532168)
Chromosome:                  Chr11
OMIM number:                 604629
OMIM Information:            MATRIX METALLOPROTEINASE 20;MMP20


Genomic Sequence (SEQ ID NO:12421):
ACTATCCAATCTCAAAAGCTCACATTGGTGATCATTGCAATATATGCCAGAGATTTTACAAGAATAAACAAAATGCTCTTTATACTGACAGCTCGTCTCT
CACAGTTCATGACCTAAGATAAACATAACGGTAAGCCTTGTGACTGGACCTCCTATAACCCTCCCCTTGGTGCCCCCAGCAGCCTCCATCCTCACTCCCC
TCCGATCCATCCCGCATGCTCCTTTCAGAGCAATCTTCCTGTAAATGCAAACCTCATCATGTCATTGCTGGGGAAGAAACTCTCCAGTGGTTTCCCATCA
CAAACCATTAATGTCTAGATGCCTTAGCCTGGCACACAAGATGCCTGTGACGTTGCCCAGCACACTCCTCTCCAGGCCCTTTAAATAAAACTCCACAAGC
CCTCCAAGCCTTTGCTGCACTGTGGCTGCTCCGGATTTGTTCCATGCCATTCTGCCCATCTTCTGCCTTCTCTGTTTTGCCAACCATATTCCAGCTCTGC
ACCCTGGAGCCTCATGTCAGTCCTGCCCTTTGGATCTGCAGCTTGTGCKRGAAATTGCTCTCTGGCTTTCCCTTTGACCAAGGTTCACCCGGCAAATGAC
TCCTGGCCTCTGCTTTTCTGTGTCAGTACCTGGAACTGTGGGTGAGAGGCGTCCTCCAACAGACCGGTCTCTGCCTTTCTTTTCTGCCCACCTCCTGTTG
GCTGCCCCCAAACTGCCTTGTACATAGAAATATCTTCAGTTTCTTAGAAGAGATGCTCTTCTTTAACATCTCCTTACCTCATCGCCTCGTCTGCTTGGAA
TTTCCCCCTTCCCACTACCTGTCACTCTCCTTCCTTCTCACTGCACCCTTCTTGCAGGTGAGTTCTAATTCCATTAGCAATCAGCCCTCAATTAAAGCCC
CATCCCCATGGAAAGTCCGCCCTGGCCCCTACTTTCCTCCATTTTACTCTCATTCTCAGCTGCCCAGGCAGAGATGGGCTTTCCCTCTTCTGCCCTCATT
TGGACCTTTAAATACCTTTCTTTTTTTTTTTTTACTAATTACACTGTAAGGTATTTTGAGTGTATATCTGAGTCTCTCCCTGGAGATTCTAAGACTCTGG
TTAAGGACAGGTTTTATTTGCCTTTTGTACCTCCAGGACTAAGTCTAGTGCCAGCATGTAGAATAAATACAAGAGTTCTAGACTGAGTAAATAGAAAGAA
GAATCACAACTGAACAAAAGAATGAGTTAAATATGCCACTGAGCTCATCATGTATGTCTTCTGTTTACTCAAGTACAAATATAAAGGGTACGTTGATATA
GTCTTTCACACTTTCACTTACTGTTTTGAAATGTAATGCATGGTAGCATTAAAGGAAATTTTATAAGAATTGGTAGGTGTAAGGCCCTACCCCTCACACT
ACTGTTTTCTTTACCCCAGGTTTCCTTTTATTCCTTTTTTTTTTTTTTTTTTTTTTTTGCCTATATACTTCTCCTTGGCAGATACAGAATCAAATGTTGT
GTAATTTTTATTTGCCTTTTTGGTTAAAATTGTCCTTTTAATATTTTACACATTGCTAAATCATTTATACTTTTTTAGAAGGATTCTACCAATTTGCAAT
GTAAAGACACATTTTTATCACTAAGATTAAGTCGATCTTTATCTGATTTTACTCCAAGTTCAATTTTATTGCAGCAGTAAATTTTGAGCTCCTAGAGTGT
TAAAACAGTGTTTCCTATCTCTGTATTCCTGGTGCCTAACAAACAACTGATACTTAATAAATCTTTGTTGAAAATATGAAGGTATTTTACTTATTGTATA
TGTAAAAATTATATCAATAAGTATTTATAAATTATATATGTGTGTGTATATATATATATATATATGAATAAAATTTGGCAGAGCAATCTAATCTAAGTTC
TTTTCACATACCCCAAGCCTGAGCAGATAGGCAAAACCCCACTGAACCAAATCTTTTCTAAAAGCTTGATATTCTATCCTATACTCAAAGACTGCTGAAG
GCAACCTCACAACCTTCTTTAATGGTTCATTTTAATGCTAATAATTGCCAAATCAGAAGGCTGTTTGCTTCTTCCTCTCTAACCAAAGTTACCTACAGTA
CAAAGTAAGTGTATTTTTTTTTCTTCCCTTCCCTTCCTTTTTCTCTTTCTTTTTCTGTTCTTGGTGAAAACAAACCAGTTGGCTTCTGGATATAAGCTTG
CCAGGTCCTCTCTGAGCTTCTCATTCTCACAAATGAGGTAAGATCATTCACTCATTTTCTATATGAGATTCTGGGGGTAGTCTTTGGTTTTAAATACACT
TTTTTCTTTCCTCTATTTTTATTCCATCTGATTCTAGAATATGTGTGCTCTAGAAATTGAGAATATGGTTCATGTTATTCTGTATTCTAATCATAAATTT
CTAAACTTAAAAAAACCATTACAAAATAGAATATGATATGATTTACAAGTTATATAAATAAACTCTTTTTAGAGTTGGCCATTCAAAGTGGTATATATTT
ACTGGAGTCATTTGAAAGAAGGGCCATGGTAAGTCTGGGTATAGAATAAAACGTAGCTGGTGACTGATCCACTCAGAATCCTGCCTCAATGGGAAGCATC
CCTTACTCTGAAAAATTTACCAGGCTGTAACTGAACTCTTTGGAAATCTAGAAATTTAATCATTTATGAAAGTTAAATTCACTGAAGATTGAAAAACAGA
AACCACAGTAACAAAGGAGTCATTCGCAATAAGAAACATCGTCACCAGCCAGGGAGCTTGCGCAGTCTGGTCAGCCCAACTTCTGCTCAGGCCAGACACA
CGGGAGTGCCAGGGAGCTGCAGGGCAGCTGGAATAAGCCTAGGGATCTCCCTGCCAGCCACCTTGAAATACCATGTTCCCAAGTCACTGCTCCACGAAGG
CACCAACGTATGCTTCCTGTAACTGTTAAGAACACAGGCTTCAATGTCTAACAGAGCTGTGTGAAAATCCTGGAGCCATCGCCTTAATATCTATATGAAG
TTAACAAATCATTTATCCTCCATGAGCCCATTTCTTCACTTGAAAAACAGCGTGTCATAAAGTTGTGTGAAAAATGTACATAAGGTACTTGGCTACATGT
CTGGCATATAATGTGGGTTTAATAAAGGTTCTGGTTTCTTAGGGTGATGCTACACACCTTCATTTGATCCATTATATGGGTTGACTTAAAATTTATCCCT
CTAAGGACAATCTTGTTTTTCTTCTTTCTATCTTTAATCATTAATTAATCACTCATTCATACATTCACTTATTCAACAACTGTTTATTTTGTGCTAGGAA
CTGTTCCATGCACTAGAGACACTGCTGTGAAAAGAATATATAGAGTCCTTACCCTTATGGGACTTACATTCTACTGGTGAAAGACAATAAGCACATAACA
ACATACAGTATGTCGACGTATACATTTAATGGTGTAATGATTTATTTTTCCCATAACTTATTTAATCAGTGGTATTTTCCCTTTCATATTTCTCTGATAG
GGTCTCTCATTTCATTTTCTTTTAGTCATTGACTTGCTTTCATGTGATTTTTTAGATTTCAGTGATTTGGGTTTCAATTTAGAGTTGATACAAGAATGAT
AGAAAGAAAGCAGACATTTGCTCCCCTGTGAAGAAAGAAAAATCAGGAAAAGGAAATCATAGTGAGGAATTACCAGGCATTTACTCTATTATTCTCTCTC
TAGAAAGGTCAAAGATGTTGCCTAGTGCTGACTCTGAGGTGAAATTTAGTCACACTAATATATAAATGACTTATAAGAACATAAATTGCTATTCCTCTTC
AAAATTTTTGCACTTGATAATTAAAATGTTGCACTTAGGAACATTGGGATTGACTGCATTTGTGTGTTAGAAAAGTGGATACTGGAACCTTCTATAAGTA
TGTAGATCACACCCTATAGGCAATTATTAACTTCCATGTGCTTCCAAAAACGGAACCTAGAATACTCTTTAGAGTCCTAGAGGTGAGAATATTTTCTCTC
TATTGGTCCCAGAATTTCTTACCGTCATTCCTTCCACTCCAATGTTCACTTCCATGTCTGTCTTTGCTTTGGGGCCATCATAATGAATTGGAACAGTGTT
TAAAGGAGAGAAAAAGGGAAGAGGATGACCAGTTGAAGGGAAGTTTCAAAGATTCTTTTTGTTCTTCAATTTTGGCAGCTGTTGAAGATAAGGCTCTAGA
AGACAGGAGACCATATAAATGCAAATTTTGAAAAATTATTGCAATATCCTATTCCTTTCCTGAAACCAAAAAGCAATGATTACTATATGTTTGTACATTC
ATTCATTCTTTTTTTTTAACAAACTTGATTAAGTAACATTTTTTAGAATACAGTCTTCAAACAGCTTACAATTTAGTTGAATGAATCTAATCTGTGGTTT
TCTTTTTTCTTCTTCTGAGACACATGTTTTGTCTATCTCACAGTACATGCCAGAAATTCTGTTTGCATGTGTGTATTAGTCCATTCTCACACTGCTATAA
AGGAATACCCGAGACTGGGTAATTTATAAAGGAAAGAGGCTTAGTTGACTCACAGTTTTACATGGCTGGGGAGGCCTCAGGAAACTTAGAATCATGGTGC
AAGGCAAAGGGGAAGCAGGCACCTTCTTGACAAGGCAGCAGGAGAGAGAAGATCAATGGAGGAACTTTCAAACACCTATAAAACCATCATATCTTGTGAG
AACTCACTCATTGTCATGAGAACAGCATGACGGAACCACCCCCATGATCCAATCMCCTCCCTCCCTCAACACATGGGGATTACAATTCGAGATGAGATTT
GGTTAGGGACACAGAGCCAAACCATATTAATGTGTGACAAACTCTTGTTCAGTGCCTGGGGTTGTACACTAGATACCAAACATTGGCTGTAACTCCACCA
CCTTCTCTTCCATGCAAAGAAAGCATATCAAAATGCAACAGAGTGAGAAAGACTATAGGAATTCACTGTATTCACTATAGGAATAACCTTGAATCTAGTC
TAAAATCAAAATTAGGATTTGAATCCACATCTAGTGGATGCCAAGTGGTGCTTGCAGATGTCATGCTATATGTGTTACTCCATAACACTGAAAAGTTTAT
ACATAGTAGTAGTATTGTCAGTCTTTTGTAGATTAAAAAAAACTTGATATTCAGAGATTAAATGACATACCCAACATCACACAGCTAGGAAATATCTTTT
TAAATATTTAGTCTTGCTTTGTCTGACTCTAAGTGCTTTTCCCACCATATGACACCATTTCACCATATCATCTCTGGATCCAAATCCATCTTAATCAGAC
CCAGGAAAAACAATATGACTCCAATTAACCAGAGTACACAGAGATTGGGGAGTTCTGGCTATTGTTTTGGTTAACGAAGACGTAACTCTTGCCTTAATTC
ATCCAAAAGCTTTCTAACAGTTACCAGTTCACTTTCCACCCTAAGTCAGCACAGTATAATGTAATCTTGCCTTGATGATTCAGGATCTTATGTGTCTCAG
AGCCATCATTATGAACAGCAGTTGCTACTAAGAAATTTTGAAGTGAATGCAGGAGATACAGGCGATTGGGTTGAATGCATGGGGAGTTTGGGATTACTTG
GAAGACAAATTCAATTATACTGTAATCATCTAACTTTTCTGTAATCAGAATGGAAAAAGGCCCCCAAATGAAGACTAATCAAATGTTTCAGTTGAGTTGG
GTTCAAATCAATCAAGTTTACTTCARTTTTTGTAACTAGCTGACCAACTTCATTAAAAGTGACTGTTTTTCTCCTTTTGCCACTTGGTAAATAACAAAAA
AAATATGAAGCTTTCCCTGATTCCTGTGTACAGTTGTGTTACCCCATCATCAGGGAGAGAAATGAGCTGTATAATTACTGTTTGAGACATGAATCATCCT
TGCTCGGAGGGTCCAGACCTGTTTGACTCTATAAAAGGAGCTCAAGGTCGAAGTGCAAACGTGCACTGTCTGCCATCCCCCAGGCTGATATAATTACCAA
GCTACTGTGAGGGGATGAAGGTGCTCCCTGCATCTGGCCTTGCTGTCTTCCTCATCATGGCTTTGAMGTTTTCCACTGCAGCCCCCTCCCTAGTTGCAGC
CTCCCYCAGGACCTGGAGGAACAACTACCGCCTCGCACAGGTTTGTGAATTTTTGCCCAATTCCTTCTTGCTCCTCTGCCCTAGAAAACCTAAAAGGGCA
TAGTGAGAAAATAAGAAAAAAATTCTATTGTTCTTTTAAAATCATTTTATATAAGTCCATTGAAGTCTAACTGATGCTATCTTCTGTCCACCTAGATTGG
TGTCTGGTGCATATTAGGTRTACCATGYTACATGACTGAATAAATASATGAGKATATATCTACCTAGCTATCTTGCTTCATAAAGAATTCCAGGTGGCTT
GTGAAAACCATGCAATATAAAAGGAGCAAACAAGTACTTCCCGGGAATGATGTAGGAGGAAAAATAGAAGCAGAAAAATAAAAACCGAGGCATAATCCAC
ACGCTAGAGGCAGGTTGTGAATTTAGTGCTAAGCTTTAGCGGTCACAACAAGGAGATTTCCTGTGTTTCCACTTTTTAAATGGCTCTTATATTCAAGGTA
ACCCTGATCAAAATTTAAAGTGGACTAAGTTCTTCCTGGGTGCCAACCCACTTCTCATTTGAAGGCCTTTTCTCCCTAAAGCATATTCCCCAATGAAGTA
AAAGTTTATGTACAAAGTACATAACAAAGTTTATGTAGTAAGTATAAAGTACAACGTTTATGTACTTAAACTTTGTGTATTTTCCTCTTTTGAGATCTCT
CCTCTATGACTGCTGGAAAGGGTCTGATAGAAATGATCCATATTCAAATATTTCACAAAGACTGCTTGACTCAAAATGATTTCTACATATATATATATAT
ATATATGCTTCCAAGCGTGTTTTGTTTTTAAAAGAAGGGTGGCATCCTTAACCTAAAGAAATGGATGTCTACRGATGGAATTTCCAACATTAGTGAAAGA
TATRTAGAGGAAATGCTTTTGCACACAGGCCTCCCTTTCAAGAGTCTGCCAACATTACAGCACATCTGTGATCACCAGCTCCGCCTCAGGGCTGCTTTCC
TGACTGCCAGGCTGCACCTGTGTACCGCTTGGCTGTCTGCATCGTAGAGCTGATTTGCACCCATGTGCAATGGCATGTCCCTACCGATTGTTTCTGCCAC
TCATCCTTATTAACTGGTCAGTTCCCCGGCCATACCAGTCATTAAACACTTAAATATCAGCCCCGCAGATGAACAGCACAGCTGATGCCCAGCAYAACCA
TGTTGAACTGAACTTCTTTTGACTTTAGCCCACTTTTAGATGAACTAAATTCAAAATAACTCAGGATACTGGGATCCTTATTCAATTGTATTTTGTCCAT
GCCACCTAGCTTTAGGTGCCTTCTTCCCAAATGTAATTTTCCCTACCCTGCCTCATGCCACTGTGATTCTGAAACTAAAGAGGTTTTGTGACCTCCAGAA
GGAGAGCCATGCTGAGGCCAGAATGGATCTGAGGTGTTGGGAGACCCCCCTTCTAATCCACAGTTCAGGAAAACTACAGTTGGCCCTGCCCCTTAGTTTA
CAGATTGTCTATGATTGCTTTTGTGCCACAATGGCAGAGGTTAGCCTAGAAGCAAAGAATATTAATTATTGGTCCTTTGCAGAAAAAATTAGTCACCCCT
GACCAGTCTATTAAGGAATAAGGCTAGACCAGCCAAGCACCAGTTTCATRGAAGACAGTTTTTCATGGACGTGGGAAGTAGGAGGCTGGAGGGGTGATGG
TTTTGGGACGAAACTGTTCCACCTCAGATCATCAGGCATAAGATTCTCAAAAGAGCATGCAACCTAGGTCCCTCACAYRTGCAGTTCACAATAGGGTTCT
GCTCCTATGCGAATCTGATGACTCTGCTGATCTGACAGGAGGCAGAGCTCAGGAAGTAATGCTGGCCCGCCACTCACCTCCTGCTGTGGGGCCAGGTTCC
TAACAGGCCACAGACTGGTTTCCGGGTGCAGCCCAGGATCAGGGGACCCCTGGGCTAGACACTCTTGGGTGGAGTCACTCTTGCTATTCTAGCTGGTCAG
GAGTCAGCTAGGCACGTTTAGAAACAGTAGCATGGCCTGGGAATATTGGGGACCTTTWGTGATTCCTTACTTCTTCCTCTCCAAAATAAATCAACCCTTC
TCTGTCTCCCTTATGACATACTCTCAGAAAGACCTTAGACCAAGGAGCAGGGAAACTTGTCCACATCTCCTCACCTGACACACAGCACCTTTGCTTGCAA
TGGCCCTGGTCCTCAGCTCTGGGCAGGGACACTCAGGAGCCTGGAATGATCTGGCTGAACCTCTAATGAGGATCACAATGACAGGAAACAATTATTTAAT
AACATCCCACCTTATAATTTATAGAAACATTATATAACAACCTCATCAGCCTCATAAAATCACAAACAAAAGCAGTAAAATAGGCAGCATAAGTTCATGT
ATTGAATGCTTACAGCATGGCATATGCTGGAGAAATATGAGAGAATCAAACAAATCAAGCCCCTGTTCTTATGCTCCTTCCATGAGGATGAGGGAGCTGG
TGGGAAGGTGCTGGGAGAAGATAAACAAGTCAACCAATGAGTGCACAAGATGTTTCAGAAAGTGATCAGTGAGCCTGGAAAGAAGTTAATCAGGATGACA
GAGWGTTGCTGACTGGGACAGTGGTCTGGTGAGGGAGTATTTTTAATGGCGTAGTCCAGGAAGTCCTCTYGGAGGAAGTGAACTTTGAGATGAACCTGAG
CTGCATGAAAGAGCCAGTCACGTGAAGACCTGGAGATRGGGCAGTCCAGACGGAGGAAACAGCAGCTGCTTGGAATGCAATCATCAGGCCCATGTGACTA
GAGCTCAGAGGTCAGGAAAGAGGGTCCCAGAGGAGTCCCAAGGACAGGTGAGGCCAGCAGGTCCTCTGGTGCCTGGTGGCCTGGGTCACGCTAAGCAGAG
AGAGTGCTTAGGGATGCTCTCTTCTTGCTAAGTGATCTGTTAGGTCACTCGCTAAGAAAGAACAAATGGCTCCTGGAAACACCAGAGAGGCCACGTTTCC
AAACACCATACACCTCTCCCTCCCCTAAAAAATCTACACTTGAAAAGATAAACAGCTTCTTGATTTATTTAATGTCCACTTGTGTCCTTTAAATTCTGAT
TTGCTAATTTGCCTAAATGCTTTGAAAATGGTAAGATGGCAAAATGCTTACCTATTCTCATAATCCAGGATTTTATTCTGGGTTTGTTTGTTTGTTAAAC
AAAATTAGTGTCAATATGACATTTAAAACATACTTTTTAAATTATGYTTAAAAATAAAAATTTTAACTACCACATTATTATGAACTCATAACTAAGGAAA
ATGAAAATACACACTGTTAATTCAGGTGTTTTTACTACCATTTTATTTTCTATGATAAAGACTTTTTAAAATTGTTACTGTCTTCAAAATGTGGTTTTTA
CTTTTCTAACTATTATGTCATAAGAAAATTTTGRTTTTATACTATTTTCATAACATCACTTTAAACAGTCAGAAATATTCCAGAATATGAGTTATAATTT
ATTTGACCATTTCCTTTAACAAATAGATTACTTCCATATGAATAAGGCTTCTATAAGCATCTTTGTACATCAAGCTAATTTAAACAATTATTTTTTCAGG
ATAGGTTTCCAGACATGGACTTAATGAGTAAAAGGGCATTTGAAAGTATTTTGTCACATTTAAAAGCATTCATATTGAGGACCTCATTGGATCCTCACAC
TCACGTAGCCAGTAGGGCAGAAACCACTCTATAGATGAGAAAACTGAAACCACAAGAAATTAAAAGAATTGCCCAAGCGTGTTAGTGACACAGCCTGGAC
TAGAACCTAGGATTTTTCAGACAGCTTTAAAAGTTCTCACAAATCTATTTGTGTGACTGTAAGGAACATGGCTGTGCTGCAGCCAAGCGGGCATAGGCCA
AGGTAAACATCCTGCGTGACTCAGCGAGTTTAGGGTGCAGGCGTACATYTCCACTTGTTATCACAGCCATGTAGCCATAACATGGGAAGGCCATCACTTA
GCTCTAAGCCACTATTGTCTGTAAAAGGTATAATTGCCCTGCTGACATTGTACAGGAGTCCTCTCACCCAGAGAAATAGAGAGAGAGCCAAAGGTATCCA
TCTTGCAGGCGGGTAGGAGGGAGCCAGGAACCGGCTTGTGCCCAGAGAGAGAAAGAGTTAAGCTGCTGACCCTGAAGGGTGGGCCAGCCACGCAGATGTG
TGTGGGAGCAGCCGGCTCAAGCAGCCGAAACAGGGCGGACAGTGTGAGAAAGCTGCTGATGAGAGAGCTGCTGAATAAAACCATATTCATCTGCCTATGC
CCTCACCCCCTCCCTGAGGATTCTTTCAGCTATCTGCCACCCACCCATTCCCCTCAGACCTCAGCATGGGCTGGAACCTGACACTGAGMATGACATTTAG
TGTAGTCGTGGCCCCAAACCTGAYCCTGGAACCTGACAGTGACTTTGCCAAAAAAGAAAAATGTTGAGGAAATGTACCTTAAGTTTCACCCTGTYCTGGA
GCGTACTTAAACTGAGTTTTAAACTCTTAAGTCTCAGGAAGGACACTAGGAAAATGCACGGAATAAGGGCTTGGAAGGGAGACCTAAGCTGCTAGCCTGC
AGGAATGGAACCCCTGGCCTCCTGTACTTTTATCTGTCAGATACCAGAAGAGAAGTGGAGAGAGGACCACCTGATAATTGACCCAAAAATTCTACAATTT
TAACAATGAGGAAGTGGGGAAGATTGGAGGGAAATGGGACAACTCTGGTGAATTCTGAATTCTTTGTCCCAGTGCCAACATTAAGTGCTGAGCCAACATA
TGCAAGTGTTAGAGCATCACATGAAAGCAATTCTAAGTACACACCTAAGTGCCTGATAGAATATTGTGACAGTGAAAAGTATGCCAAAACCTTGTCAGTA
ACTTTAGCAAGAAAGTGCCCAGAGTTCTGAGCTCTCAGTACTTCAGGATATCTGATAATTCTTCAAGGAAACATACTTTCATATTTTGCCTAAAGAAAAA
GMGCTCAAACATTAACTGAGCATCTACTCTGAGCCTAGAACTGAGTCAAACACAGGGTTTGCATCTGTGAAGGCAAAACGGTGCCTGACTGGAAGGAGGT
TGCAAACAAGCAGGTGAGAGTGATAAGAAATTGGTAGGAAGTGATGGTTTATGGTGCAATGAGACAAGTGTTTTACTAGAACAAGAATCACATCTTATGG
AAGCACCAACTAGGGAGAGATTTTGTTTATATCACTGCAGTGATGAATTTTTGTTTTTAAGAAGGAAYAGTTTCTAATTTTATTTTTACTTCATTAAAAG
GTACTATTTCAATCCTGCCTATATGACCAGCCAGAAACCTTTTGTGCTCTAAGACTAACATTTTGTGCATATTTTAAAGAAACAAACAGCTGGTTATAAA
AATTACGCAGGTTCATAGTAAAAAAAAAAAAAGTAAAAGCCCTATCTTTAAAAATACATCATCTTAAATCCATTATTAAGGTTTAACCACTGTTAGTCCC
TTAGACTATATCTTTCATAATACTTTTCTRTGATTCAGGGCCAGGATTAGTGTGAGACAACCAAAGCAGGAATGCATCCTGTATTTAAAATTTTGAAATT
TTGTTTATCATGGATTTTTTTGGCATTTATTTTGTTTTTTTTAATTCTGCATTAAATTATGATTTATCTTGATTACGGAGTTTTTGGTAACCCACCACTG
GCCTCATCTCAGCCCTGGTGATATGACTGGGATGGTGTGACTAGATACCACTTATGTTTATAAACATGGCTCATGTTGTAACAGCAGTGGTAAACACGGC
AAACATGYTTTCCACTTAATTTATCATGAGCATCTTCCCTTATATAACCTATTTTGTGAAACAAAAACTAGAATGTAGAGTGTAATACATAACCTAACAG
GAGAACAAAATATTTGAAATCAATGATCTCAGAGACACAGAGGACCTGGTCTTATACATGGAGCTTAACCCTGAGGAGTATAATTCAGACATTACCACAA
GCATTGCATTATCACAGCATCAACTTGCACAGACAGGAACAATTCATCCCATCAACCTCATTTGCAAAAAAAAAAAGATGAGAAACATCAATACTTAAGG
TGGTCTAACTAGAGACGGAATGGAACCAAATAGTCGCAGCTTTGTTTCAGAACACCTAGGCTAGGTTTCAGAGCCTGGGCACCCCATGTTCCCTCTCCCT
TTTCCTCCTCTTGGCTTCTCATCTCACCTAAGGTTTTTACAAGGGACAACAATGGGGAAAGYGATCTTCTCTCACAGGAAGGGCAGGGAGTAAAGGATCA
GCTGATCCTGCAGTGAAAAAATAGCGTACCCTCTCCAAACATGAGTGATACTTACTCCTTTTTATTTTTTCCCCAGCAGTAATGGTTCATGCTCATTGTA
AAAACTTTTGGAATATAGGAAGGAATAAAGAATAAATTAAGTCATCTGTAATTTCATTACCCAGACATAATCAACATTAATATTCAGGCAGACTTCCTTT
TATTATTGTATGTGTGTGCRTGTGTGTATATGCGTGTATATGTATGATTTATTCAGAAAATTATTATTATAACCTTATAAAGATTTCTCCTCTTCTTTTC
TCAGTATATTGCCATTACATAAAGAGCATTCTTTCATACCATTAAATATTTATTTTTCAAAACTGATCTTAGTAGAGGCCTAGTACTGTCTCATATAAAT
ATARGATAATATATATAATAAATCCCCTGACATCAGACATTAAGGTTACTYCCAATTACTTATTATCTTTATATATATGTTAAAAATATGTGTGTATAAT
ATGTAAGTAAACAATTTGCATAGTTTATATGTGGTAATATATGGTTAATATATAGGCTAATAATATGTAATTTATATCTAATAAATAAACATGTCTATAC
TATATAAATATAAAATTGTATATAATTAAATACAATCAGTGCTCTGTATCCATGGGATCTGTACACATGGAATCAAACAATTGTGGATTGAAAATATTCA
GGAAAAAATCGACGGTTGCATCTGTTTCAGGGAAGACATGTTCAAAACAGACATTTTTTTTGTAGCTTTTCCCTAAACAATACAGTATAACAACTATTTA
CATAGCATTTATATTATAGTACATATTATAAGTAATTTAGAGATGATTTAAAGCATACAGGAGGCTGTACTTAAGTTGTATGCAAATATTATGCCATTTT
ATATCAGAGACTTGAGCATCTGTGGATTTAGGTATCTGAGAGAGGTCCTGGGACCAATTCCCCCATGGACATGAAAGGAGGACTGAACCCTTAGCTGCTC
TTTGGTTATTTTCCTAAAATCAGCTGAGTAGGTGAAATTCCTGAGCCAAAGGCAGGCCTCAACCCTGTATTTGCATGCCCCTGCATCACTCGTTTTACCC
TAATCCCAGCCCTGAGTCATAGAAAAGTGTTTTGAACAATATATACTGAGGGGCTTTATGTCTTTTTGTGCAAATGAAAGCCTTATAATTTATGGCTTAT
TTTATTTGCTTCAAGAGACAAAGAGCCTTGCCTAGGAAAGTTGTCTCATGGAAACAAAATCCAGCCCACATACTAAACACATCTGAACTCATTAAAATCC
TCAGCTGAAAAAAAGGTGGACCCTYTGCCTTTGTAAAGTGTGAGAGGCTGGAATACAATGCCTTTAAGAGTTAAAAGCATACTGATCTTGCATTATGTAC
AATGGAAAGATGATACCAATAACTGTTTACCAAAGAAACCAGATAGCCTTTGTTTTGCAAATTGGGTAAAGAACTTCAGTGACAAATAAGTGATCCATGG
AAATAATGYTCACATCAGCTTCCTTCCCTGAATTTTTTTCTTTTAAAAAAATTAGAAGCAAAAAGGYGTATTTGTTATATTCATTGCATTGTAGAAAAAC
TATAAAATGCAGGTGGACAAAAGGAAATAATTAAATAATCTATAATCCCCACTACCCAAAACCAATCATCGTTAATAATTTGGAGTATAGCTAAGCTTTA
TGTAAACAAATATGTCTACTTTTTTCATAAATGGGAAAATACTCTACACACTGCTTTTAATACATCAGGAATGCTGTCCCCTGCCTTACCTGAGCATGAG
TATTTCCCAGACTACGCTGTAGACGCGTCAGCCTGCCTCTCCATTTCAGGCGTATCTTGACAAATATTACACAAATAAAGAAGGACACCAGATTGGTGAG
ATGGTTGCAAGAGGAAGCAATTCCATGATAAGGAAGATTAAGGAGCTACAAGCGTTCTTTGGCCTCCAAGTCACCGGGAAGTTAGACCAGACCACARTGA
ACGTGATCAAGAAGCCTCGCTGTGGAGTTCCTGATGTGGCCAATTATCGCCTCTTCCCTGGTGAACCCAAATGGAAAAAAAATACTTTGACATACAGGTA
ATGAGATCAAGTCTTTCCAAATTCAGAGAAAAACACCACCTCTMTCTTTTTCCCTTTTCTTGAAAAAATATTTTCCTTCTCATCCGTATAAAAATCCTGA
CACCTCACAACCATAAGAATAAGAACTTTTTACATCCATCCRTCAGGCAATGACAATGGGCAATTCACCAGAAAATACGGTTTTAGGATTATCATAATGA
CTGGCTATTTTAGGCATTCCAAACAATTTTACCAGCTAGAAACAACACAATTATCTTTAATCTAGTCTAGGATTAATGACCTGGCAGTACAAACCAGTTT
TCTTAAAACAACCTGCTTAATGAGAAAGAAAAAAATAACCTACTAATAAAGTAATTTATTTCATTGATTCCAAAAATCTTTTATTGATGATTCAAGAAAT
GCATTCCATTTGAGGGTTATAAAGGTGAACAGGTCAACTTTCTTGACCTTAGGGAACTCACAGTCCTTTAAGGARAGACAGACATGCAAACAGACAGCTG
TAGCTCTGTGTGAAAAGTGCAAAAGCATAGCTCTAAGCAGTGAACTGTGGGACCACAGTTCACATGGACAGAGCTACCAAGTGGCCCAGGGACCAGCAGT
AACATCTGAGCCTGATTCGAAGGCAAAGCAGAAGCAGTTCCACTCTTAGCCCCAAGCTCCCCTCACTCCTTCCCTGCCCTCTTTCTTCCCTCCCCTAATC
CTCTGGCTTCATCCCTTATAAACCAAGGGGACACACCCARCCAGAACCTCTGTCCCTCCCTGCTGTGCTCAGGGTACGGAGTCTGGAATTCCCTCTCCCA
CAGCCAGACCTGATTCTGGGAGCCAGCGCAGACTTCCTCCCCAGGTTGGTCCAACCAAGGGCAAACTATGTATGGTACCTGCCCCTCAGCCTGAGGTAGG
GGTGGATGGTGCCTGCCTGCGTGGGCCTCATGCATGACAGATGGGTGCAGGTCAGAAAAGAAGAGTGGACTCCACTCTTTGTGGTCCTGCCCCAGGCCTT
GCACATGTAAGGAGTTTTCTAAGGAGAAAACCAGACCAAGCATATAGCAGCAGAGAGTGGACAGACTGGCATGTTGATGGGCAGCATTCCCACCACAAGT
GCCTAGTGCATGCGGCTGCAGCAGAGGGTGCAGGAAGGGCAATGGCAGGAAATGAGCTGGAGGGGCAGCCTGAAGGGCAACTAGAGCGTGATGTCAAGGA
GTTTGGACTTTATCCCCAGGGCGGTGGAGAGCCAGGCCAGGACCAGGATCAGATTTCSCTTTTAGGATGAGCACATCTAGATGATAACTGGAGATGGGGA
AAGGCTGGACTCGTGCAATAGTCTAAGCAGTGGTATGGTAGAGCTGCCGCCTAATAGCTCACAGAAGCCAATCCTTAAAATGTCAGGAATTTTGCAGCCA
CTTGTTAAGCTCCCAAGAATTTTGTGAGCTGGTTGCTAAGACAGCCATTGTTAAATTATGTAAATTTACTATTAAATAAATCATATTACATTACATTAAA
TAAATTAAATTATATTATATTAAATAAATTATATTAAATAAGTATATTATTTCATATTTATATTTATTATTAAAATATATTTTTGTAGTAATAAATATAC
TATTTATTAATAATATATTATTAAAACATTATTTTATAATAATAAATAAAATACKTTATTTATTATTATATGTTATATTATTTAATAKGTATAATTATTT
AATAAATTACATTAAATTATATTAAATACATTATATTAAATAATTACATTAATATAATAAATTATATTAAATTATATTAAAAATAAAGGTAATAACATAT
TGCCTCYTATTTCACTACATTTTATTATTTTCTCTGTTCATGAGGCTATGTACATCTGTATAATCTGAGTGGTTCATTCATGCTCATCTCTTCACAACCT
GGCATTCAGTGATGGTAAGTTGGTAGCTTGAATTAGCCATAGTGAGAATATTTACAACACAGAAATCAGCAAGTCATGCAAATYAAGTGGGTTTTTTTTT
TCTCCTTGTAGAGCCACTTGTTAACCTGTTCCAGCACACCAGTGAGTCCATTTGATCAAAGGAGGGGCCAGAATCCAGGGAACAGTCATGAATCCCCTAG
GCCACTTGTTACCTGCTATCAGCCAATAAATCCATAAGGTGGCAGGCTGAACAAAAAAACAAAGCAATTGGGGGAGAAAAACCTCATAGGAGTTGAACAC
AAAAGTGATTCTGAAATAGTAAGAATAAGACAAGAAAAATGTGTACGCATCGACAGAGTCTTTTCATAGTTTTCTTAAAGTAAACTGTGTTCTGGAATTT
TAGTCCATGACTATGTACAACAAAGACAAGAAGCCTGGGTCAAGATAATGTGATGCTTAGGGAAGTATAATATTCTTGTGATAAGCTGGGCAGTCTTAAA
AAKCCCTCAACACACACATTGCCTATCCACTCTTGCTCCCCAATAACTCTACCATCGCCTCCCCATGAAAAAGGACACTAGAGGCTATCACAGTACTCTG
CCTGTGTAGCTACTGACTTTCAGAATAACTTCTTACAACATAACCCAGAGGATTACAAAAGGAAAAAAAATACAGCATAGTGCTTATATRMATAAGCTTT
GGAGTCAGACAGAACTGGGCTCAAACCTGACTAATCATAACATGTAGATGATGATGATGATCTTCCTCTTAGGGGTCGAAGTGAGGATTAGATAAATGCC
ACATTAAAAAGTGCATACAGCAACAGCACATAGTGTGACTTCAAAGAATATTGGCTAGTATTACTATTGCTTTATCAAGCTCCAGACCCTGATTCGGGGA
TCCCTTTTTCCATGTTCTCTTCTTCTCTGGTGCTATCCCTCTCTCCTTCCTTGTCTTCTCCAGGCCAACACACAAAGTCAGCTCAAAGATATGGCTGACT
TACCAAAAATGCGAGGGCATGTCAAAGTACTAAGTCCACCTAGTTGTGATAAATTGCAGACTCATATTATGCAGTGGGCTTGGCATATTTTGAAAGCATT
AAATAGTCCCTTTAAGGGTCTGTCTGGTATCCCCCTTCAATTCTATAGCTCTCTTCTTTTGGCCCCAAACCTGGGGTTAAAGAGCTCCTTGTTCCTTCCC
TCTCAAGTCCTGAATTGAGCTATTTGCTATCCTTTCTGTRGGCACAGTCCTTTCATTTGGGACCCTAGGATTACTGCTGTTGGTTTCTCATTGAAATTGC
ACCATCTGCATTATAATAACCTAAGATACCTTTCAAAACACAGATTTCTGGATCATACCTGTATTTTTAACAAGCTTCCTAGGTAATTATCACAGGTCCT
AAACTTCGAGAGCCACTGAGTGGGCCCTAAAACAGCTAGCTTTAATTCTTTAATTCATTCATTTATTTATCAAGCAATTGCTAAGCATCTGCTATGTGCA
AGGCACTAAACTAGGAGCTAGAGAGAGAGAGAGAAAGCAGGGCCGGTCCCTGCTCATGGGGTTGGCTCTCACAGACACAGCTTCTCACTTTGCATCATAT
TCCAGCCCAGCCCAAGGTCTCGGGTAGAAGTTGCCCTYCCTGCCTTTCCTTTGTGTGCTGCCAGAAATCCCCAGACCCTGGGCTTCAGAGCAGAAAGTTC
TAACAATCACCAACTCTGACTCCACCCACAGTCCAAAAAGCACTACATTTTTCTGCCTTCAGGTGTCATCGTCACACCAGTAATTGCTGAAAGGCTCACC
CTTTTTTCARTTCCAGTGAGCCTCCGTTTTTAAAGCTAGCCCTTCCTCTTTAAGAATGTATTATTTTGGGCTGGGGGCAGTGGCTCACGCCTGTAATCCG
AGCACTTTGGGAGGCTGAGGAGGGCGGATCACCTGAGGTCAGCAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCCACCAAAAATATAAAA
ATTAGCCCGGCGTGGTGGCGGGCACCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGARTCAATTGAACCTGGGAGGCAGTGGTTGCAGTGAGCAG
AGATCATGCCATTGCACTCCAGCCTGGGCGACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAGAAAGAAAAGAAAAAGAAAAAAGAAAAGAATGC
ATTATTYTGAGGGAAAAAAAAACCTTCCCCAATAGCCCTGGGGAAATCCTGAGGAGCTTTGAATAAGAATTAGCAAAACTTCAAAACTCCACATTTCTAT
TTTTTATAATTGAAAACATCCAGTCCCTTTGGGGAAAAAGAGGTCCTCTCTCAATGAAAACGACTTTAAGAAAAATTGACTACTTACTACCTGTAACATT
TCACAAGTTTTATTTATCTTATTTATTTATTTAATTATTTTTGAGTGAAGTCTCACTGTGTCACCCAGGCTGGAGTGCAGTCGCCCGATCTTGGCTCACT
GCAACCTCCACTTCCCAGGTTCAAATGATTCTTCTGCCTCAGCCTCCCAAGTAACTGGGACTACAGGTTTGCACCACCACGCCCAGCTAATTTTTGTATT
TTTAGTAGAGATGGGGTTTCACCATCTTGGCTAGGCTGATCTCGAACTCTTGACCTCAAGTGATCCTCCCACCTCAGCCTTCCAAAGTGCTGGGATTACA
GGCGTGAGCCACTGCGCCCGGCCACAAATTTTATTCTTTTAAGTCGGTGGTAGTATAATAACAATGAAAGCTAAATGGTTTCAGTACCGGATTATCCCAA
CTGTCTCTCATCTCTCCCTTTCATTTGTCTTGTTGTTTCATATGCAGAAATTTAACATATAATAAAGCAAAATAAGAATTATTATTTCAGAGAAAAATYT
AAATTGTAGATTTACATTTAACATTTTTTGAATACAACATATAATTCTTGCCTTCTTCGGAGCAGTTACTGAAAAGAAAACATGTTCCTTCCGTTTTCAC
AGAATATCTAAATACAYACCTTCCATGAGTTCTGTCGAGGTGGACAAAGCAGTGGAGATGGCCTTGCAGGCCTGGAGTAGCGCCGTCCCTCTGAGCTTTG
TCAGAATAAACTCAGGAGAAGCGGATATTATGATATCTTTTGAAAATGGAGGTATTGTGGTACTTGGATTCCATCTACTAATTCAAAGGAGAGTTGTCCC
AATACTGTTCCTTCTACATCTTTAATTCGAGTGATCACACACTCCTCCTTCGCACAGTGCTGTGATGGGCCAAGGCCAAGACCATGGCAAAGCCATGATC
TTCATCTGGCCAGAAAATAGAACCAAAGGAGTTCTTAGCATGTCTTGTCATCATCAGACACAGCTGTAGAGTAGATTCACTGTAACAAACTTTCATTATG
ACTTTGCCCCACTAGGGGACAAATTCTTGCAGATTTTGCTTTCCCGTTAGCCACATGACCTCATCCATTCCCATGATAGTGTTTATCACTTATATAACCC
CTTCTATATTAGCCAAGGATATCCTACCATGAATCCTCACTGAAGCAAATACCTTCCACAGTGACCTTGAAGCAGCTTTCCCCCTGCAGCAATGGTTAGG
AAAGTATCGTTTCTGTCTTGCCCACACTTGCAGACCACCTTCTGGGAGATATGCAAGAGGTCTGCCTCCAACTTTCCCACTTCTTCTCCATTCCATTGCT
CACCCTCCTCAGATAACATTTCTAGTGTCCTTGTCATTTCAAGCCCAGATCTTAATTTTAATCTGATGTCACTGGGGGGAAAACATGCTTAGGAGCTAGA
AAAAAGAAGATCAAGCAAGTCCTGAGAATAAAGCCTTTAGAAATGGCCCTGGGCGTGACCTGGCCCAGGTTATGTCCTATTCCTCCCAGAAGAGAAAGGC
CACCCCTGGTGAAGTGGCAGGGAAAGCAGTGTGACTCGGGGTAGCTTTGAAGGCCAAGGAATGAATGTCTGGCTCTCTCTTGATCTTTCAAGCTTACAGT
CTGTCCCCTAATACACAAGCCAACCAGGGACTGTGCTGCCATTGCATGAAGTCCTCGGTGTGTGCACCTGAGTAGACTGCATTTCACTGAAACCTGAGAA
ATGCCATACCAAAACTTTGTTCTGTCGGCTTTTWAAAAAAAAAAAAMMAACTAAAACTGGGTATCCTTACTAAGATTTTTTTAAGTGGTAAACTATATCC
CTTATTTTGTTCTTCCTCCTCCTCTTCTATTAAATTTGTAATGAATTGTTAGTTAAAATAGWTAATTAAACAAAAACTTAAAAAGCTTTAAAAGTTAGGA
TTTTATAAACACCTTTATGACTTTCATATGTTTTCCACATGAAAGTATGTCAAAATTACAGAGAGATTTTTGACACTTCCTTAAACTGTATTGTGCTATA
GAAACAGAAAGCACACACTTGTTCAATTCACTATCACTGTCTCAGCTGAATCAAATTTGAAAGGTCATTCTGCTAACAGGTTCACATTCCAATCAGTGGG
GTAGGTTTTGCTATCGAATGCCGCCCCMCCGCCGCCCCGCCCCRCCCCAGTCGTTCTCYTTTTGTAATCTGTGGCACATGCAAAGTCCACAGTATCCTAT
GTGTCAGTTAACAGATGTCATGATAGCAACAATAACCCAAAACAGGTGTTTTTTTATTGCTAATGCTTACTATCTTTGCAGTATGAATTAGCCTTTTTTA
TTTTTCAATGGGCTGTTACTCATTGACAAATGAACTTCCCATTATAACAAATAAATACTGAAAAGTGAATTTAAGTGTCAATGCTACTCAAAAYGTCCCT
TTTCTGTAATATGATGCGCCCCTCAGAATTTCTAGAAGGACTCAATCTTGTTGRCCTTTCTCCCCACTTGTTTAGATCACGGGGATTCCTATCCATTCGA
TGGGCCTCGGGGGACTCTAGCCCATGCATTTGCTCCTGGAGAAGGCCTGGGAGGAGATACACATTTCGACAATGCTGAGAAGTGGACTATGGGAACGAAT
GGTATATATGCACAATTCACCATAACCTGGAAAATATTGTACCTTCTTCTGGGCTCCATCATGAAACCTTGAGGTTCAACGTCCCAAGCCACCCTTTAAC
TAGGGGGGCTGGCTAGGAAAAACAAGTAAGCCAAAAATCCAAAAGGGATCACATAAGGGAAAAAAATCCACCCCAAATTGTGTTGTAGACTTGTCTGATC
TGTTTCATAGCATATCATCTGAAGAACCAGTCATCCCCTTCTCAACGCACTGCTCTCGTTTCCTTCAACAACCTAGTATTTATGATTTCTTACTTATTCT
TGGAAATGGGCTACATTCAGAAATGACCCAAGAGAATCAGTACTGTCCTGAGAAGTGTGTTGGGGATGGGAATAAAGTTTCCAGAATATCATACAGGTCA
TCTGGAAATCTTCAGTGTGAAACGTGTGGATCAAAAGGTGTAGGCTGTAATAGCAGGGAACTATTAAGGCATTTGTGGTCTAAATTTATGAATTATTGCC
AAATAGCATTGCCACTATTTGTTCCAAGGCTCTGCTTTATCAGTCTACCAAACATCACTGATGATGAATAAAATGGATTGATGTGCATTTCTGTCCTCCC
CCACCCCCAACCCCCTTCTAGCCAAGGGGGGAAGAATTAAAGTCACCAAAGCTAAGTGCCAGAATAACCTACCAACCTTTGAATAATCCAGTTAGGAGAA
GGAGATGGGTTAACTGTAATGTGGGCATAAATTATACTATAAAGATGGAAGATGGAGAAAACAAAAACCTGTGTTGATACTGTTTTTTTCTCTCTCATAT
TGTCTAGGTTTTAATTTGTTTACCGTTGCTGCTCATGAATTTGGCCATGCCCTGGGCCTGGCCCATTCCACAGACCCATCAGCACTGATRTACCCAACTT
ATAAGTACAAGAATCCCTATGGATTCCACCTCCCCAAAGATGATGTGAAAGGGATCCAGGCATTATAYGGTAAGATTATTACCTTCTTTGATGACTCACC
CTGAAATTGGCAGGCATTCAGTCTCCGAATTAAAGAAAGTGCATTTTATCTGCATTGGTAAAGATCAATCTAGAAACCATARCCCCARCTATGCCTTCYT
GTGAAGAGCTGATTTGCTAGTTATAAATATGTGTGTGATGTGTGATTAAATTTTGCATCTTTCCTTTACAGCATATTAGTCCTGGATAGCCTTAGAAAAT
ATAGTCATTTGTCTGTTTRTTTRTGTTTTTCCTTTGAGTGCAGGTTAGAATTTACACATTGGGAGAGGATGGATATAGTTTATAGTTCATATATGTGGTG
CTTACCCATTTGCAGATAAGTGACCTTATCTCCCTAAAAATAGCAATCATGATTAAAATAACTCTGCACCCAGTCATGTAGCCAATCTGCAGTTTACAAA
ACAGGTTCATGTGTGTAGTCTTACACCAGCCTCACAACCAACCTGTGGGGTGTGAAGTGTTTTCCTCATTTGATAGCTGAGAAAGCTGAGGTTTGAAGAC
AGTAAGTATCCTAAGATAWCCTAAGRTAAGTTACCTCAAGTATTAATATTCTTCCAAAAGGTAATAAGGGATTATTAGAARCTCTGTATCCAATTTTCCT
TAAGGGAAAAACAAACCAATTAATCCATCAGAAGGAATCTTGAAACATCCTTAGACCTTGACAATTTTTCTTTAATGGATAAAAGGCAAAAAGATCTAGG
AAATTGCTTTTCCTTTGAGCCCTGGAGACCTGGTTATTAGGCTTCTGATTATCAGAGCTTCTCCCCATCTTCTCAGTGCCTAGAGACCCAGATCCCCCAA
CAGCTTCCTGGGGTGCYAGGAATCTGGCCCCAGGGGATCTGGAGGGTGGGAAGCCCAGAAATGGGCACACCATTCAAAATCAGTCAGATTTCACCTGAGG
CACAAAAGACAAATTTCATCCCAAGAAGCTTTCAGCCAGCTCTATCCATTTCCAGGAGGGGGAAAGCACCAGATCTGCCTGACCCTTGAGGGACAGGAAA
AATGCCATGAATGTCTCCATGTCACAAACTCAGCTCCAGAGCCTTGGTGGCAGTGTTCCAATGGGAAGCGATTCCTGTGGGCCRCCGAGAAGGGCTGAGC
TCAAACACTTGCCTTTGGAGGTCCTTGTGCCCTGGAAAGTCACTGCCTTCGGATGGCCACTGTCACTCAGCCAGRAGGCAAAGCACATATTTTGGCACAG
CTATTATGACACAGGTGAACMAAATGTGAAAACATGGGTTTATGTTACAAGGGAGCATTCATATCACCCASCCGATCGCTTGCCGCTGCTGACCCTCTCC
AATTTCCAGCTTCGATATTCTCCCAAAGCCTCACCCCGCCTCTGATCTTCGCCTTGATGCTAACCCTACTYCATCCCTGAYCTCAAACCTCATCTGACCC
TTATCAGAGGCCTGAACCTTTCCCTTCCCTGTGCCTCATTCCTTCCCTGACTCTCACCTGTRATTATGACGAGGCTTCATCAAAGAGCAGGAACCTGCCA
GAGGTGACAGTCCAAGCTGTGCAGGCTCATTCTTCTGGAGCTGGGACACAGTCCTGAGAGATGCAGAGCAGGAGAGGAGACTCACTGATAGCTCTCGCAA
GATTTGGGTCCATGTTTTCCAAGACGATCCACCAGAAGATACCTTTAAATAGCAAACACCTTCAGTGTACTTCAGTTTCACAAGAACTCGCTCAGTTTTT
CCTGGATGCCTAGTAAAAGACAAAAGCACAGGGCAGGATGCCAAGGAGTCTATGAAAATAATAGGAAAACACACAAGAAAGTTTTCTTATTGAGAAAAAA
AGAACTTAATTACAAACAAACAATCCATGCCAATTTTTAAATTACATTTCTAATTTGGAACACTTGTAGATATCAAAGAAGTTCTATAATAAAATAATAA
TCTTTAGAAGACTTACTATGTGCCAAGCACTCTGCTACCTGCTTTACAGGAATTATTTAATTCTCACAACAGCCTTCTGAGGTGAGTACTATTATTATCC
CTCCCTTTTAACAAGTGAGGAAGCTGAGGCTTGCAAAGTTGAATAATGTGCCTCAAATCACACAGCTCAGCAACCAGGAGAGCCRGGACTCAAACCCATA
CCTGCCCTCAACAGCCATGATCATGRTCACATGTCCAGCGTGAAAGTGTACAACCTCCCCTGGGGCTCTAGAGCAGAAGTGTGTGAACTCCAAATTCCCG
TTACCATTTTGACCAACTCATTTTGAATCCTAGGACCTCGGAAAGYATTCCTGGGGAAGCCCAMTCTGCCCCATGCCCCCCATCACAAGCCWTCCATCCC
TGACCTCTGTGACTCCAGCTCATCCTTTGACGCTGTGACAATGCTGGGGAAGGAGCTCCTGCTCTTCAAGGACCGGTAAGCCTCAGACACGCCACCGACT
CTCATTGGGCCTCAYCTCCACTCCCAGACAAACGTCGTCCCACAGGTCCTTGTTGCTGCCTTGTATGAAGATCATGCAGAAATGCTGTCCTATGCAGCAG
AAGGGTGGKAGGCAGGGGTCTTTGGGGGAGATAGAGAACTGCCAAAACTACTGTTTGTGGTGCACCTACTGTGGTCTTGCTACTGTGCTAAGTTATGTCC
ATATATGGACAATATTTATTGTAACCTTTTTCACYGTAGAGATTAGAATCCCTAATGTGCAGATAAAGAAAGCAGCTCAAAGACAGCAAGCAAGTTTCCC
AAGGTGACAGTTAAATGGCTGAGCTAGGACACCAGCCTGAATTGATCTGATGTCCATTTTGTTTACCACTTTATCCCTAGTGAGTGTGCATAGCAAATGC
TCAATAAATATTTGGTGAATGAGGGTTGGCTAGCTGGACAGATGGACAGATAGGAGATTGGATAAAAGGATGGATGGATGGATGGATGATCAGATGGATA
GATAGGTGGGTAGATAATTCCAAGGCCAGCATTCTTCCGAAACTGCTCCTTTTCAGTGCCTCCGGGCCTTTCACAGAGAAGGCAGATCCCTCTTCTCCCC
CAACTCTGGTWTCTTGGGGAGTAAGGCTGTTGTCTCCATGATGCTGGTTACTCCAAATACTTCTTTCCATGGAGGCAAAGAGAAACATAGCAACATTCAC
CCCATTCCTCCCTTTGCTGGGGACAGAATTCAATCACACCAGAATAGGCAGAGGCATCTCAGGAGCATTCATGYGTGGCATTATTTTTTCTTCTTCTTCA
CTATTGCAAAAGTGTTTATGGAGCCCATTGTGGTTTTCAAGCAGTGTAGTCTCATGTATGAGAAGGTGTATGAGTAGGGGACTCCAAAAGCCCTGCAAGA
TAGTGAGACATGAGCTCTAAAAGTTAGGCCCATGAAACAAAACAAGAAGCAAGTACCTGGGAAGATCTAGAGAGAGTTCCCTGAGGAGCAGACGTTTGAG
AAATGTGATGTTCCTTATCTTGTATGCTTTTGGGGATATATTGTTGAGCTACTATTATAAGAATACTTTTTGCTCCTTCAGCACAGAGAGAAAGTAACAA
AGTATTTTTTAAAAAGCAAAATTTACCCAGAATCCCACCACCTGGAGTGTATCAGTCTGCAGGAGCTGCTATAACCAAGTACCATAGACCAGGTGGCTTA
GACAACAGAAATKTATTCCTCACAGTTTTGGAGGGTAAGAAGTTCAAGATCAAGGTACTGCAAGGTAAGTTTCACCCCAAGGCCTCTTTTCCTGGCTTGT
AGGCAGCCGCCATCTTGCTGTGAGCTCTCATGATCCCTTCATGTACAGAGAGAGAGGACTGAGATTTCCAGTTTCTCTTCTTATAAGTGCACTAGTCCCA
TCATGGGGCCCCCACCCTCATGACCTCATGAGTCAGGAATGTCCTCTTCCAGCACTAACCCTAATTACTTCTTGAAGGTAATACCATCCCATTGAAGGTW
AAGGCTTCAGCATAGGAATTTGGAGGGCACATAACACAGAGCATTCCCATTGTTAAGCATATTGTTTTATGTCCCTCCTGACGTTTTCTCTGGATAGAGA
GCTAGATATTGTACATATGGGAGTAGGGCGCAATGATTTCTAAAAAAATAGGATTTTACTAGTGGTGTTGATTTATAAACTTTTTCACTCACAAAATTTT
ATTTTTTCCTGTCAACGGATTTTAATTCTCATCCTTTATATATTATATGTTATTCCAATGAATAGATATATCATTACTTAATCAATCCCATACTGGATTA
TTTCTAATTTTTAAAAATTAGAAACAGYTTGAACTAAATCTTTGACAATGGACAGACATTCACTTTTCAAAGGCAAATTAGAGCTGAGCCCARGAACCCA
GGCTTTCACAGCAGAGTCAGTGGGTGGCCCTACTGCTTACTGATGAGGTGATCCCCAGCAAGTAATGTGCCAGACACATAGTGTCAATAAATGGCAGTTA
CTATTCTTAAGAGTGGGAATCAAAAAATATTTACAATGGCAGGGAGGCTTATAAACAACTTCAGGTATTTAGAGAACCCAATTTATTCTTTTGTGTTATT
AATTTTCTGATGATTTTTTATTTTTAAGACACTGACCATTGACATTTTTCTTGAATATTACCAAAAAGTACACCAAATGGAATTGGTAAGCAATGACCCG
GGAGTGGTAGACCAGGCAGGGCAGGAGGAGCTTGGAGCACAGATCTGAGTAAACTTGGCTTCACCTAAGGGATATCATTGTCAGGCTCCACACTCCCAGA
CACTGAAATAGCATGTAGCACTCATTCAGTGATAAAGCAGTGAGGTGCTAGCCATCATGCAGGGTGTAGCTTATTCTTGTGGTAAATATCAGAGGTTGCA
GTGGGGGYAAAGGAGGYRGTGAAGTCARACATATGATACCATTTCATTCAATGATCATTGTTTTCTTAAAAAAAAGCAAAAAAAAAAAACACCTCTGTTT
ATCAAACTGTGAGCATTTAGCAATTACTAATGACTACTTAAAGTCAATACATCTTTTGACATAGTCTTGATTATAAATACTGAGGGTGATAACAGACTAG
TAAGTGAGACATTGGTGCAAGAGACGTCTAGAAATGAAAAATCAGCAGAGGGACYGCAGGAGAGATGGCCTGCTACMATGTACGTATCTGCTTAGTCACC
ACCTTCTCATCTTCTTCCATTTCAGATTCAATGAGCTACTGGGGTAGGGCAGATGATTCCAAAGAACTAGAACKAGCTATAAGCAGGATGGGGAGTCAGG
AGTGGTCCCAGCACTGGACTTGCCACTAACTCACCGTGGCACCTGGAGCTTCTCTTCCTTTTCTATAAAGTGAGGGAGTTGTCTGTAATAATAGTGACTT
AAAAGTGTTCAGTACTTAYTATGCAAAGCACTATATTATCACATCCTTACAATTCCCCTGTGAGGCCTGAAGTATTATTCCTTTTACAAGTCATAGAAAG
GATAAGCAACTTGTTCAAGAGTACATAGCTAGTAAGGGGTGGAGSTGGAATTCAAACCCAAACTAGCAAACTTCAGARTCCGTGCCCCTAACTACCCTGC
CTCCTAAGGTGCTGTCCAGAGCTGGAATCCCATGACTCTATAGCTCTGATCCCCTACCAGCTGCCGCTAAAWGTCCCAGAGTGCTTGCTAAGCCTGGACA
AAGAACAAAGAATTCTTTCAAGCCACAGTTCTAATGGCAACCAGGGAGCCACTGATTATGAAAGCGCTCCCAGTCTCTTCTCTCCCACTCAACAGCCTGG
AATTCCCCGTCACCAACAATGATCTGTTGATGGGACATTTCAAGCTGTGGGCATAATAACCACATGGTTTGTTTCCAAAGCAAGATGGAATGCAGTACCT
TTTAAAGTCACCGTGAGATTTGTCAGATATTCTCCATAGTGTATAAACGTACATTCAAATGTTCTGTGTGAAGAGAAATAAGTGTTAGCTATAATAAGTT
GAGAGGCATATATATAGCTAGATATACTTAATGAACATACACTTACTTTTTATAATAGATGACAAATTTATTAAGGCTATATCASATTTCCTCAGTCACT
TAGGGAAAATAAGAGAGAAATGACTGGAATTGTAGCCAYACCAAAATTATATTTGCATCTRTCATATTATGTTGGGTTTTGCCCAATATAATTTTAAGGG
TAAAATCAAGAATATCACACACAATCATCTATAAATCTTAGAAGTACAATAGGTTTTACAAATAGAGTAAGCATAAAGGTTGATCATATCCAAATCCTTC
AGTGTAGAGATAAGGAAAATAGGCACAGGTCTTTTAGCCTCAGCAGACCCTCCCATGAGACCCAGATCTTCTGACTCCAGTCCAGAATCTATCCTRGCAC
TAATATAGAAAGCTTTCTGCCTATGAAATGGAAATACCAAGAAAAGCACTGAAATTTAACCTGAATGAACATATGCCCATTGACTGTTATGCRTTTGAGT
TAGTAGGAAGAGCACTTCCGAGCTGTTCCTTTGCTTCCACACCCTCTGCTTGCARGTGGGGCAACCAGCCACAAAGAGGAGGATGTTCATAGACTATCTA
GGTTTCCCAAGGATGTCTAATATGTTTCTTCACATTTTTTTTTCCAAAATAGGATTCTATATATTTTTTTAATCTGTCACTAATTGTCACATTTTAAAAG
ATGTTATGTGTCTTAAATTAGAAGGCAAAGAAAAGCATTTTTGGCCGGGCGCGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCA
GATCACAAGGTCAGGAGATGGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAAAAAAAAAAAAAATTAGCCGGGC
GTGGTGGTGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGTAGTGAGCCGAGATCGCGCCA
CTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAGAAAGAAAGAAAAGAAAAGCATTTTTAAGGGTTATGCAAGTAGGAA
TTGGAGAGAAGAATGGATGTATTAATAAAAGGCATTCTGAGGACTCACCAGTGGGATTAGGACACTAATTTGGTGAGAAGAACAATGGAAAAGGGAAAGT
TAAAGCAGGTAGAAGCCTCATGGCTGAGAGTATAATATACAGCATTGTTCACTTAGAAAAATTCAGAGGATTTGTTGGGAACACGATGTAAAACAGGGTT
AGATGTATCAGATTTAAAGCAATGACAATTTTCACGGAGTTTCATAGAAATAAGCTAGTGCTCAGGGAAGAGGTCACAGTTGGAGGCTTCGTGGGTTTTG
AATCTCCCACATAAAGGAGACATTTAAAGATGTGGAGATGAAAAACAGCTCTGTAGAGAGAATGAGGAGAAAGAAAAAAAGTCTAAAGAATGAGCCTAGG
AAATGGAAGAAAAGGATTTAATAACAACCAGAGAGATTCAGCACTCCGAAAATAATAACGATAAGAATAGCCGACACTTCGTGGTCATTTGCAACGTGCT
ATGTGTTGTGCTAAGAATTTTACAGATATTCACTCATTTAATCCATACTGTCATTGTCCTCAGCTGGAATTATAACTTAGTTCTGTTTGACATCAGAGAC
AAAACCCCTGTGGTGAAATCCCAAATAAATCTGGGAAAAAAGGGTGTATTTTTTTTAAGTGATTAACAGTGGAAAATGTTGCCAAGGTCACCAGACTGAG
GACTGAAGAAAAGGGACTGAGTGGCCAGGATAGTTTGGAATATAGTCACAGCAGAGCAGTGAGGAAGAAAGCCAGATCATGGAAAGGGGTTAAAGAGCAA
ATGGGGCCAGGCGCARTGGCTCACACCTGTAATCCCAGCACTTTGGGAGAGGCGGCGAGTGGATCACTGGAGGTCAGGAGTTCAAGACCWGCCTGGGAAA
CATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAAATTAGCCAGATGTGGTGGCAGTGCCTTGTAATCCCAGCTTCTCAGGAGGCTGAGGTGGGAGA
ATCACTTGAACCCTGGAGGCAGAGGTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACCCTATCTTAAAATAAATAAA
TAAATAATAAAAAGCAAATGGGRGGAAACAMAAGAGTTGAGAYAGATCATTCATTTGAGAAGCTTGTTAATAACAAAAGAAGTTAAGATAATAGTTGGCA
GTGGCAGCAGGGCCAAGACAGGATTTCAAAGAGGGAACTGTTCATGTTTGAAGACAGTGGAGAAAAAGAAATACAAGATGCTACAGGAAGGAAAACAATA
ACAGTAACCACTATTTCTGGAGAGTAGATTTGAAATTGGGAATTCCCAGGATGCCATGGGCTTGAGGTAAGCCCACCATGGAACAGGAGGAAGTCTTCCT
CCTTCGCATTCTCCCTGGGAATGTGTCTTTTCTGGCTGTAAGATTACTTCCCTGAAAGCCAACAAATGGCATTGTGTTTACTTAGAGCGGTTCTCTGTGA
TCTATTAAGAATTCAGATAAAGAAGCAGAGGTGAAGTAACATCCCTGACTCATTGTCATTTCTTCTGAACCACCTGATTCTGAGAGAGGAGGGGCCCTTT
ACATGTTCACAGGTTATGGCTTATGAATATGGATTTTCACGGGCTCTTCAGATGGGTACAAACATTCTTAATTTAAGGGCACTATGCACAGCTTTGACTA
TCATTAATCCACAGCACTGGCTACAGATGGGTTTTTAGTTGTATGAACTATATTTTTCTTGGGTTCAGTGAGGTGGATGATTCATGGTTGATTTCTTGGC
TTCTGACTCATCATGAACTAAGCAGCCCTGGTTAATGAGTCCCATAGAATGAATGGCTTCTCAGCCMATGACATGACAGTTTGTACTTCAAAGTTTCCAG
TGAAGCAAACTAAGAAGGAAACTTGGCTATATTGATAAACTCTAAGTTTATATTCTGCATATCATCTATTAATAAATTTGTGGAGTAAAAACATGTCTTT
TTAAAGTGTCTACAAATAAGAATAGTCCTGAATTTATAAAACACTTTCATATGCATTATTTCAAYTGATCCTTTTAAGTGTTTGTGCAGATATTATTCTC
ACTCTTATTTGACAGTAGGAAATTGAGTCTCAGAAAAATTGAATGACTCACACGAGGTCACACAGCCAGTTATAAAACAAGGTTTCAAGCATTTCTTGTT
CTGTTCACTGCACCACATCACCTGATCTCAGGGGAGTGAGCAGTAATTAAACAGAGAATCAAAAAGATAGAGGCCGGCATGGTGGCTCATGCCTGTAATC
CCAGCACTTTGGGAAGCCGAGRCAGGCAGATCACTTGAGGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTCAAACCCCATCTCTACTGAAAAAAATA
CAAAAATTAGCTGGGCAGGTGTGGTGACACGTGCTTGTAGTCCCTGCTACTTGGGAGGCTGAGGCAGGAGAATCGTTTGAACCCAGGAGGCAGAGGTTGC
AGTGAGCTGAGATTGCGCCGCTGCACTCCAGCCTAGGCACCAAAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAGATAGAAGAAAGACACCCCTTCCC
ACAAATAGGAAAGAAGATGACAGAGATCAGAATCTAAGAGAGTGTGAGACTAAAGACGATGAAAATTGGGCCACTCATTCAGCTTGTGCTGAGTTGCCTT
GATTGTCCAGCAAATAAAGGGTGAAGGCATCTCCTGAAAATGAAAGTCTGATGGGGTCAGCTTAGGTAGGTGGAGAATGATGACTGGGTAAAACAAAAGA
AGACCTTTAASGCTCAACAACATGCATCAAGTCCCTGGATGCACCAGGCAGCATGCTAAGCCCAAGGATAAAAAGATGAATAATACATGATGCTGGAGGA
GGAATTCAAGGAACTAGCAAAGAGCTGCAAGAGGCCAGGTGAAAGTTATCAGAGACCRAATCTCAAATTTGATGAGTTAGTTACTGTTCTTTGGTAAAAG
TGAATGAAAATTTTAAAGAATATGAAACTTGTTGATCARGTAAGTTCCAATCATCTCTCTGGCACCCGTTCATTTAGCCAACAAATGTGTATTGAACCCT
GACTATGTGCCAGCATAGCATAAGATAGTGGGTACATGAAGATAAACAGTGCAGCTAAATATCTAATCAGCAGATCTAAAATATCAATAAACTCCATTGT
TTTGCCTTCCTTATCAAAGATCAAATTATAGACTAGTGATATAATCTGTTTATTTTCATTCCAATACATCCTGCAGCTGTTCTTTTCCAAGAGGCTTATA
GATTTTTTTGTTTATATTTTAAATCCATTCACAGATGTATAAGGAAGTTACTTGCTATCATTGTTTTTGTGAGTTTTACTTCACTTATTACTACAATCTA
TARGTCTAAGGATGCAAATTGTCTGAGTATGTTACTGTTTTATTGCCACAAGACATCATTTTTTTCATTAGTTTACTGAAATTTTTCATGACTACAGATT
CTTTTTGAAATTTGTGATAATTTGGCCAGGCATGGTGTCTAYGCCTGTAATCTCAGCACTTTGGGAGGTGGAGGCAGGCAGATCACCTGAGGTCGGGAGT
TCGAGACCAGCCTGACCAACATGGAGAAACCCCACCTCTACTAAAAATACAAAATTAGCCGGGAGTGGTGTCACATGCCTGTAATCCCAGCTACTCGGGA
GGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGARGTTGCCATGAACTTAGATCACGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCA
TCTCAAAAAAAAGAAAAGAAAAGAAATTTGTCATAATTTATATAAGTGATGGATAGCATTTATTTCTATCCTATGTGCACATTATATACATTACACTACA
TCATAGTGGTGTTTAAAGCAGGGTTTCTTAACATTGACACTACTGGTATCTTGAGCCAGATAAGTCTTAGTTGTGTTGAGCTGTCTTTTGCATTAGGATG
TTTAGTGRCATCCCTGGCTGTACTCATTAGACTCCAATAGCACTGCTCATCCCCACCTGTGACAACCAAAATTGTCACCAGATATTGCCTAACGTCCCCC
AGGGTGCAAAATCACACTTGATTTACAATGACTACTTCAATTTAGTCCTCACGATATCCTACATCAATATTTCYTTAGTAAGGAATTTGAGAGTCTACCA
CTTGTGAAAAGTTTCAAGAGTACAGTTTTCCTTTGCCTGAGCTCGTAACTACTACCCTTTACTACTTCTCATGTTGAGTCATTCMAGATATCACTGTCCC
AAAACTTCAACTAAAAAGTAGGACTTAGCTTTGCCTAGAGTTGSTTGTTGATTTTTAAGTGAGAAATGCAAGAAAATGCATCTGGCTTTAGAGTGATCAA
AGAGAAAGCAGCTGGAAGTCTACTACACCTCATCAGAGACATCATTCAGACAGAGCCTAGTTTTGGGAAGACATATCTGCTCCTCTACCTCCCCACTTTC
CCCACATGGCCTCATCATTATAATATTCTTAAATGCACACTTTGTGTCTTAGCACAGCAACTTATAAGAGAMAACATTTCAGAGCTATGTATTGAATTGC
ATTAATTGGAACACACTTGCTCTTCAGGTTTCATCCCAGGTTCCCAATTAATCCAAGAAGTAGTTGCGGGATTCTGGATACCCAAAACTGTATTCATTAC
GAGGTGGTGGAGAGAAAAGGGAAAAGGGAAGCAGTCCCTCTGGCCTTCAGAAAAGCCCAGGTCTGATTGGACAAAGGGTCAAAGTACAAACAAAGAAAAA
ACCAGAGGTCACGAGACTGAGCATGAGCAAGTAGGTGAGATCGGACATGTGACTAACCTCAAGGCAGCTAGAGCCTGAGCTGGGCCGTCTCTGCCCCTCA
CCACCAGTGACCTTTGGGCCAGCAGCCCTTCTGGATCTCAGTTTTTCATCAGTTAAAACATACGCTTTAGATAAGGCTGTGATGTTTGGGGCTTGTGTAT
TGTCTATGGAGGGTGCCCAATTACCAGGAAATTAAGGCCTAAGCAAATAATACCTTTTCAAACTAACAGTATCTATCCATATGGCACCTTACAGTTTATA
ATACACTTTCATATTCATTATCTCATTTTATCCTTATAATGGTCTCATGATATTGGCCAGGAAATTATTTTTSCCATGTAAGCTGATTAAACTGAGGCTT
GGAGAGGCTGGTCAGCAGTGGAGTTAAAACTCTAGCCCACATCTTCTCAAACACAATGTGTTTTTCCTTCTGCMCCATGATGCCTCTTACGAAACATGAG
GAAATATTTATCTTTTCCCAATACATTCCTTTTTTGGATTTTATCATCAGCTTAAGTTGCCTCATTAGGGATACCTTTATTAAGCCCCTAAATGCAATGG
GATATACTTCTTGTGTGTTCTCARAGTATCCTGAACTTAACTCTTCGTAGCACCAATCACTCTGATCGTTACTAATCAGTCTCTACTATTAGATTGTAAA
CATATTGAGGGCAGGGCCGACATCTTCTTCAGTGTTTCATCCTTGATGTCCACCACAGTGCCTGATGATAGGTGCTCCATAAATATTTGTTAGATTAACT
GAATAGGAAAACTCTACATAAAATTTGGAGAATTCCTAAATTAGCCACTAGGAAAGTTCAATGTCAAAATTTTATTACAGTTTCCCAGTCCCCAAATAAT
CCTGTGAAGTAATTCTGGGCTCCTAAGAAGACAAGTAAATTATTCGTGTTTTATAAAAAATGATTTTCATCTTCAAACTATAAAATAGAGCACATTACAT
TGTCAGTTTCAATCCAGTACCCTCATGGGTATACTGCCACAATTTTATGACTATAATATTGGGTAAATGGATAGATGAATTGCTAAGCCTTAAATCAATA
TGTGTGTACTAGATTTTCTGTTAACTAGCCATCAGACTCAAAGATGTAAATGCTTCCAGCGCACAATTATGTAGGCAACACCATAACTTATGATTATTAA
TGTTTTCGCTATTTTTACAGGGTCTAATCAGCATGACTCAACCATAGACTTCTGGTTCATTTACATACTATTCACAATGTCCACCTTCTGGATCATAGTT
ACCTTTGTAAGATTTTAACTTTTAAAAGATCAGAAAAGGAAAGAGAAATTTGTATCAAGTGATATTTGGAATGGGGGGGTGCATAGCTTAAATGTGTAAA
TAATTGATACTATTACTTTGCTATATTCTTTCATTATTTTGAACATCCTTAAATAAACGAAGGAGAGGGGATCACAGAAATGCTAAGACAATGAAAAGGG
AGTAGAAACTGTTTACCAAGGTCCAAAAAGTTGTGTTTTTCCTTAAAAACATGGCAAGGGTGGRATGGACATGGTCATTCATGTCTGTAATCCCAGCACT
TTGGGAGGCCGAGGCAGGTGGGTCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATGTGGTGAAGTGAAACCCTGTCTCTACTAAAAGTACAAAAA
TTAGTGAGGCATGGTGGCACACAGCTGTAGCCCCAGTTATTCGGGAAGCTGAGGCAGGAGAATTGCTTGAACTGGAGAGGTGGAGGTTGCAGTGAGCCGA
GGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCCAAACAGCAAGACTCCATCTCAAAAAAAAAAAAAAAGAAAAGAGAAAAAAAACAAG
GCAAGGCAAGGCAAGAGCAAAGGGCATTTAGTGAGTGGCCTCTGAGTACATTTCAGTCAAAGTGCAATTTTATATGTAAATCAATCATTGATCTTGATTT
TTTTTTTTTTTTTTTGGAATGTCCCATWGGATTTTCTGGAGACGGCAGGTTCACTTGCGGACAGGAATTCGGCCCAGCACTATTACCAGCTCCTTCCCCC
AGCTCATGTCCAATGTGGATGCAGCTTACGAAGTGGCTGAGAGGGGCACTGCTTACTTCTTCAAAGGTACCCTACAGATCCCTCAAAGAAAGAAATGGCA
GGGCTGCAGTGCCCCATTCATTTGGCATATCTAGCCYTGCCAGCATTTTTCCAGTCATCATGGAGCACATTTCAGTTGCTCTTTGTCCTCARGTTGGGTA
TGAAATGCCACCCTACATTTGTTATACCCGACATTGTGTAACAATGGAAATGATGGCAGTGGCCCTSAGAACCAAGCCTGTTAGGCTAGTAAGGCACTGT
GTTAGGTGATAGTGCCTAGGGAGCTAGAAACATGGTCCCTGCCACACAGGACCTCTGCTCAGAGTGACAGTGTATACTCTACTGACATCCTTTAATAAAT
AAAAGCCAGTGTGGAACTCAGTGGGAGGTAAACAATACCCTTACTTCTATGCTGTGGTCAGAAGCAGCCAGGAGAGGAGGACGCCTTTGACTTCAGGAGG
TGGACACATATACCAATCTCTGGCTCTAGCCCTTTACTATTTGAGTGACTTTGGAAAGTTATCTAATGGCTCTGAGCTCCATTTCTTCCTCTGCAAAGTG
ATTATAGCAATATAAACCTTGAAGRTGCGTTGTGACAATGGYGAGCCAATGGAAGTTATCCAGTAGGTGATAACTATCAGTTTTAGCTTATATGTTCTTG
ATACTGAGGGATAAGGTTAGAAAGCAAGTGCCAATTTAAGTAAAAATCATGACATTTGCATGTCACTTGCCCATTCTCTCTCGTAGATCTATGAAGGTGA
AATGAGATTATAAATGAAGGATATCTTGAAAGACATAGTATGTTAAATGTAAAACACAATTTTATCAATGTTATTGCTTTCTTAAGGCATAACTAGGGAC
TTTTGCCTCCAGGGAAGTTTGAAGTCTTTTACTGAACTGAATAGTTAGAAGCTTATATCTCTTGTTRGGTTATAGCCATGGCAAGTATCCCATAAACTAA
CCCCATTTAAGAGCCTTCATAGAAATCTTTATGAGAGAAGTGCATCACCAAGTGGTGCAGAGTTTTCGTAAACTTTAATTTCTGTTTTCAGGTCCCCACT
ACTGGATAACAAGAGGATTCCAAATGCAAGGTCCTCCTCGGACTATTTATGACTTTGGATTTCCAAGGCACGTGCAGCAAATAGATGCTGCTGTCTACCT
CAGGGAGCCACAGAAGACCCTTTTCTTTGTGGGAGATGAATACTACAGGTATGGCTTTTTTCCTTTTTACTRTCTATCTTTATTTAATGAGAATGATTTT
AAAAAGATAAAAACCCTTCCACGAAAGAATGCAAAGCAAGTTTGCGATAGGCCCRTTGACTCTTCTCGGCCACTGGGGTGCGATTTACAGATGGTTGACT
GTCTTCAAGATATGGAACCATCAAAATGATGAGTGAAACCTTCATTCAATAATCCCATTGTTTGGTCYGTAGGACTTGACACATCCTGATCTTTCAATGC
ACTCATTAACCGGACACCTAGTGGCCTAAAAGCGTAGATGCAGCATCACCAAATCCCTAACTACCCACTGAGAATGCCTGACTTTGCTGTTWTGTGASCA
TCAAATGCATCCCACAATACTCCATGATTTGGGGCAAAATGGAGATGGTCCTGACCATGGGTCTCTTTGAAGGATAGTTCTGCTGGAAGGAAAAGGCCTT
ATTGCTTAGTCCTTTTATCCAGCCTAGAATATGAAAATCCTTCTTATCCAAAGGAAAMCATATAATTTCAATTCCTGTCCTCAGGGGCTTCGTATGAGCA
AGTCTGAATCWRATGTCATCTGTCATCCAATCACTGCACATAGGGTYACACCTTATCTTAGCTACTGAGTTTCTATCCTTAGTTGACTCATGTTGAGGAA
TGAGWGGAGCTCCTTCAAAGATCACCTCTGCCTCTGCACAGCTTTCCTCTGTTCCCAGTTTTCTCTTTTTTGCCTGTTTATCTAAAMATCCGAAGAGAAA
MGCAMAAGCAGMTTCTAAGCAGGTGACAATGCTAGACACCTTAGGCTCATGAAAGGGTSTTGAAGAAAACAGGAGAGCACCCAACTTTGTTCCAAGAGCT
TTCATTTTATTTTCTATCACGTATTTTAAATAATCATTTTTGTGGTATAAAAGAAATTTCAAAACAAATATTTGTCATCTTATTCTATCTGATTCATATT
TTCTTCCCCAATTTGGAGTTGAGAAAATAATATAAGTGAGGCACATAAATATATTTCATAAGAAAGCAAATTTCTTTTATAAAGAAGGAATTGCAAACAA
ATATGGACTCTGCTGACTCTTCTGGGCCACTGAGAGCCCTGGAAGCATTGCTCAGTGTCATGCGGTGTCATGAGCTGTCACTTCCAGACCAGTGTTTAAG
CCACTAGRCCAGCTATTTTTCTCTCAGACCTTCCTTTTTAAAACATGATGACAGGAATTCACTTATTAAGGCCCTAATATCTGCAAGACAGAGTATGATT
CTCTAAAGTCTTTCTTTAAGATAAGGTGGCTGTAGTCACACAGCAGATATACAGGAAGATAGGTATTGAGAAATCCAATTCCCCTGGTGAATTTTCAGAG
AATAAAATCAAGAGATGCATGTGTAAGCACGTCTGTTGGAGTATGAGGGCGTTTATGTTAGGATTATTCAGTTAATGTTTTAAAGGGTATTCACAGTGTG
ATTCTCAATGGGGGAATTATCCACTCTCCCATTGTCTCTCTTGCCCATTTATCACCTGATCTTTGGTCTAATCTACCACCCACCAGCACCTGCAGTAAAG
CATATACCTTCAGCCAGGCTGGATTGAAACTTAACAGCTAAGTTAAGAGATGTGGGCAGAGGTTCAAAATTCTCTGTAAGTTTTAGGATGGGGAGGTCAA
GGCTCTCTGATTTTAGTGATGCTCTTTGCCCCCAGAGAAAATCGTACTGTACCTTTCCAACTGGGCCTCTGTGAGTGTCTACTAAGGAGAAGTCTTTTGT
AATCTAGATAAATAGATTCACCGAAAAGTTGGTCTAGGGCATTAACTAAAATGTTAACAAGCTCATTTTTCTGGTTAAGGAAGGAAACCATCGTAGGCAC
TTCTAACCTTCTCAGGTTACAGAGGGTATTAAGTGATGTAATGCATGCAGACACAGATACCTAGCAAGGTCTGCATAGAGCAGGTGCTCAAAAAGAGTTA
TTCTTCAGCAACAGAACTTATATGGTAACTAACAAATAATTTCTTAACAAGTTGTGATGCATAACAAATTGCTTAAACCTCAATATTTCTCTGAGCGGCG
ATTCAGTCAAAAATCTGGTCAAAGGGAATTTCCTTTTTAAATACTGAAGGCCCCTAACATTGGACTGAAATTGCTGCTTTTGGCAAAACATAGACAATCC
CTTCAGCAATGGCAGTCTTCTACTTTACGCACTCCAACACATACACTGGTGTATGCAACAAGGAGTAAGACAACCCTCACCTATAGCTCAAAAGTTTAGA
GAAACCTATTGTACTGGCCCTATTCATAAACACCCCTGAATTCTGCACAGTGTGCTTTACAGGGCCTCATATGTGTGACATCTTATTGTCATATGAAGCC
TTCTATTGGTTTGAAATTTAATTTAGCCACTAGTATCAGAGACCCCAAAATAATTGTGGCTTAAACACATGAGGGTTTGTTTTTCTCATATGTGTAAAAA
GTCTGACAGTTTAGAGCCAGTATGGCAGGCTGGTGATCAACAGGGACCCAAGTTCCCTTAAACATTTTGCTCTGCTATTCTTAACACATACTTSCATTCT
CGTGGTTGCCTCATGACTYGAGGTGGCCAGGGGAGCTTTAGTCATTATGTCCCTACTGTAGAAGGATGGAACTGAGAAGAAAGGACAAAGGAGATAAATG
AAGTTTTGTAGGTAAGCACATGGCCATACTCAAAAATATGGAAGGTCCCAAGCCTCAAGTTATGGAATAAGAATTTCACTACATTGACATCCACTGAAAG
TGTGTTAGGTYTTATTTGTCTTAGACATTTCTCAAGTTCTTCCTTGCTCCTCATGCTAGTTCAGTCTGTGACGTAAGTAATGTGCCAAGGGAAGAAAAGT
CTCTRGAAATTCTGCAAGAACTCCCAGAGTTTGGACCCAGTTTTAGTGAATGAAATGCCATGAGGAAATGACCGAGGAACTTCCTCCACAGAGGATTGAA
GGTTGGCTTGGGGCCAGGTTGGATTAGGCTCTAAAAGGGAGGACCCATGTCTCTGTGTGGTAGTTACTTATAGGGGAGCAGCGCACAGAGGACCACAATG
TCAAATCCAAATAGGAGGCTCTACTATGTTGATGCCGTTACATGCTACATCAGCAAATGACATATTGGTTAAACTTTGCCAACTAGAACCACTTCCCCTT
ACTTTTATTCCTTCCTATTCTCTTTCTAGCAGGCCCTAATGGTTCCATCAGTTTTTCATTTTTTACATTATTTCCACTACCTATGGCTGATTTCTCCTTT
TACATATTCTTCCTTGCCTACCAGTAGCAGAGCAGTGGCTACATCAAGGGATTTCTGGCAGCAGGGGGTGTCACCACCTCCATAATTCTTCAAGATAGTC
AATGATTTCTGAATTTTATGCAAAGTGACTTGCAAATCTGCAGATCCTACCCCTTTTCAATCATATTGCCCCTCTACCCTGAATCACTCTTTCTGTACAG
TCAGACTCGGGGCATCATTGCTGCAAAGTAGAATACGTCTTCCACATTCTCTTCTTCCTGAATGCCTCAGAAATACTAGAAATAGATGTTTTTATTTGAG
GATTTTATAGTCACCATAARTAAATAAATAATAAGTAATAAAAATAAGATGAAATAGGGTTCAAAAATCTTGTTTTTTCATGTTTTAAATTTTAAAAAAC
TTATGACTAAACTACCACATTCAACCTACATTTATTAGACATATTATGTGTCAGCCTGTGTACTAGTGACATTCAAGAGAAGGTGTAGAGTTTSCTGGTT
AAGAATGGGCAGAAGTAAAAAGTCCTAGTGTTAATCTTAACTCTACCAACAATTATCTGRCAATTTGGATCACCTTTCTGTCTGTTTCATCATCTGCAAA
ATGGGGGTAGAAATAGTATACACTTCCTAGAATTATGGCATTGAAAGGGAAAAATGTGAAATGCCTGTCACATAATAAGCATTCAGCTCATGTTGGGTGT
TATTAATGCCSTCAACAGATCTTACAGTTGAGGGTAAATATATAGATAAATAACTAACAGAAATCCAAGTGCCAAAAGTGCTCTGATACAAGACTTCATG
AAGATCAGTGGGTCAAAACAAAGAGGAAATGGCCAACTTAGCAAAATTATCAGGAAATAATTCTTAGAGGAAGTGATGGCTGAGCTCCACTTTGAGAGTT
GTGTAGGAGTTTCCCAGACAGAGGGTGAGGTGCGGGTGGGTGGCTTCCAGGCAGAGAAAGCAGTTGAAGCAAATTTACTGATGCACAAAATAGCATGTGA
GCATGGGGAAAACCTCAAACAGTTCAGTATGACTAGAATATAGACTAAAATCAGAACGATGGCCCAAGGAAACCAGGTTACAGATCATGTAGTGTCAATG
YCTTTCTAGGGAGATCAGTGTTTATTCTGCAGAGAAGAGGGACATGTTAAATACCTTCCATAAGGGAGAAACTCAATAAGATTAATGTTATAAAAATAAC
ACTCCCCTAGCAATGTGACTGAATTAGAGGGAAACGAGACTTGAAGCCAGATAAACTAGTTAGGCCAAAAGGCAGTGGAAAGCATACTCAAAGTTCTCAA
AGAAAAGACTCAACCAAGAATCTTATATCCACTAGAGTTATCTTTCAAAAATGAAGGAGAAATAAAGACATTCCCAGAGAAACAAAAACTGAGAGAATTT
GTTACTTGCAGATTGCCTGACCAGAGATACTAAAGAAAGTTCTTTAGGCTGAAAGCAAGTGAGCTTAGATAGCAATTCAAGCCCCCACAAAAATCCAGAG
AGCATCAGTAGTAAGTGTAATTATGTAAAAGACAGTATAAATGCATATTTCTTCTTCTTTATTCTCTTAATTTAAAAATGGAAAATCAATTATATTAAAC
AATGTGCATATAATTGTATAATTGTATTGTTAAGGCTATGACATGTAGAAATATACTTGTCAATAATAATATGAAGGAAGTAGGTGGGAGCAAAACTGTA
TTTGGCTAAAGAAAAGACACTAGATGGTAACTAAAATTCACAGGAACAAAAGAACAGAACCAGAAATGGCAACTAAGAAACTTAATATAACAAAAGCTGC
AAATATATACATCTTCTCTTTTCTCTTCTCAGCTTCTTTAGAAGACATTAAATTATATAAAATAATAATTATAACAATTAATTTGGGGCTTCAGATGTAG
ATAGATACAATAGGTATAACAATAATAACACAGAAGGAAGGGGAGAGAAATAGAGTTATATAGGAGTAATGTTTCTATATCTCACTGGAATTAATTTAGT
ATAAGTCTTAAGCAGATTTTTATAAGTTAAGATGTATATGGCAAGCCCTACATCAACCACTAAGGAAATCACTTAGGAAAATACAGTTAAACAATTATAA
AAGAAATTAAAATGTTACATTAGAAAATTTTTACTAATGCAAAAGAAAACAGTGAGGATGAATAGAGGAACCAAAAAGACATGAGTTATACAGAAAACAA
AAAGTAAAATGGCAAGCATAAATTCAACTTTATCAATAACATTAAATGTGAATAGATTAAACCGTCTAATCAAATGGCAAAGACTGCCAGATTGGATTGT
AAAAAACAAGACCCACCTATATGCTGTCTACAGCAGATACATTTTAGGTTCAAAGATACAAATAGATTGAAAGTAAAAGAATGGAAAAAATATATCATGC
AAATAGCAACCATAAGAAAGCTTGAATGGCTATACTATTATCAGGCAAAACAGACTTTGAAATAAAAAATGCTACTAGCAATAAAGAAGGACATTTTATA
ATGACAAAAAGTCAATATACCATGAAGATGTAATTATAAACATATGTGAATCTAACACAGGGCCCCAAAAATGTATGAAGCAGTAATTGACAGAAATGAA
GGGATAAGTCAATAATGAAACAATAATAGTTAAAGATTTCAATACCCCACTTTCAGTAATGGATAGAACAACCAGAGAGATCAACAAAGAATAAAAGACT
TGAACAATACTGTAAACCAACTAGACCTAACATATATCTATAGAATGCTATACCCAAAAAGAGCAGAATACACATTCTTTTCAAGTGAACATGGAACATT
CCCCAGAATAGACTATATGTTAGGCCACCACACAAGTCTCAACAAATTTAAAACAACTTAAGTCGTACAAGTATCTCTTCTGATCACAATAGAATAAAGC
CAGAAATCAATACCAGAAAGACAACTAGAAAACTTACAAATATGTGGAAATTAAACAACATACTATTAAACAACCAATGGGTCAAAGAAGAAATCACAAG
GGAAATTAGAAAGTACTTAGAAATAAATGAAAATTAAAATACAACATACCAGAACTTATGAGATGCAGTGAAAGCAGCACTCAGAGAAAAAAATTATAGC
TATAAAAGCCTATAYTTAAAAAGGAGAAAAATCTCAAATCAATAACTTCACCTTCCACTTTGAGATAATGGAAAATCAAGAACATATTAAACCTAAAGCA
AGAAGAAAGAAGGAAATATAAACATTATAATGGAAATAAATAAAATAGATGATAAATAAACAATTTGAGAAAACCAACAAAACTGAAGGTTGGTTCTTTG
AGAAAATAAACAAAGGTGACAAACTTTCTACTAGATTGATCAAATAAAAAAGAAACAATTTTTTTTTTTTGAGGCGGAGTCTKGCTCTGTCCCCCAGGCT
GGAGTACAGTGGCATGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGACTACAGGCACC
CGCCACCATGCCCAGCTAATTTTTTTTTGTATTTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGC
CCACCTCAGCCTCACAAAATGCTGGGATTACAGGTGTGAGCCACTGTGCCCAGCCAAAAGAAAAAATTTAAATTACTAAAATCAGAAATAAAAGAGGAGA
CATTGCTACTCACCTTACAGAAATAAAAAAGGTCATAAAGGAATACTATGAACAATTGTATACCAATAAATTAGATAAATGAAATGGACAAATTCMTAAG
AAGACACAATCTAGTAAAACCGAGTCAAGAAGAAATACACAGTCTGAATATRCCTACAATAAGAAAAGATATTAAAGCAGTAATCAAAAACTATCCACAA
AGAAAAGCCCAGGCCCAGAAGGGTTCACTGGTAAATTCTACCAATACATTGAAAGAAGAATTAATGTCAATTTTTTTACAAACTCCTCCAAACCTTAGAA
AAGAACAGAATTAATACCAGTTTTTCACAGACTTTTCCAAAACATAGAAGAGTGGAAAACACTACCTAACTCACTGAAGTCAGCATTATCCTTATACCAA
AACCACACAGAAACATGACAARAAAATAAAGCTTCAGACCAGTATCTATTGTGAATATGGCTACAAAGATCCTCCAAAAACACCAACAACCTAAATCCAG
CAACGTATGAAAAGAATTATACACCAAGACCAAGTAGGATTTGTCCCAGGAATTCATCCAAAAATCAATTAATGTAATGTCCCATATCAATAGAATAAAA
ACAAAAATCATATGATCATCTCAGTAGATACAGTAAAAGCATTTGGCAAAATTCAACATTATTTCATGATAAAAAAACATTYAGCAACCTAGGAATAAAA
CCTAGGAATAAAAATAACCGTTTTCAAATCAATAAAGAGCGTCTATGAAAACCCACAGCTGATGGCATAGTCAGTGGTGAAAGACTGGATGCATTCCTCC
TAACATCAAAAACAAAACAAAAATTTCTGCTCTCATCTCTCCATTCACATTGTACTGGAGGTCCTAACCAAGAGAATTAAGCAAGAACGAATGAAATAAA
AATTATCCAGATAGGAGAGAAAGTAAAACTATTTCTTTTTGCATATGGTATTATCTTTTATATAGAAAAACCCTASAGAATACTCTAAAAAAACTTTTAG
AACTAATAAATGAGTTCAGAAAGGTTGCAAGGAATGAATTCAATGTGTTAATCAATTGTGTTTTTATACACCTGAACAAACAATTTGAAAATGAAATTAA
GAAAGCAATTCCAACTGGAATAGCATCAAAAAGAGTCAAATACTTAAAAATAAATTTAACAAAAGAAATGGAAAATGTTGTTTTGTAGTCTGAAAACTAC
AAAACATTGTTGAAAGAAATTAAGCAAGATCTAAATGGAGTGATATCTCATGTTCATGGATGAGGATATTTTTAAGATGATAGTAGTCCCCAAATTGATC
TGTAGATTCAACACAATCTCTTTCAGAATACCACTGGTTTCTTTGTAGAAATTGACAAGTTTTTCTTGAAACTCGAAACTCACGGGCCTAGAATAGCCAA
AATATCTTTAAAAAGAACAAAGTTGGAGGATTCATACTTCCCAATTTCAAAAGTTACTACAAAGAAACAGTAACTAAGACTGTGATATTTGCATAAGGAT
AGCCATACATGTTAATAGAATAAAATTTAGAGTAAGGAAATAAAGCCATGTATCTATGGGCAACTGATTTTTGACAACGATATAAAGTCATTCAAAGGAG
AAAAATGGTATCTTCAACAAATGATGCTGGAAGGAGTGGATAGCCRCATGCAAAAGAATGGACTTAGACCCCAACCTCTCAACATATACAAAAATTAACT
CAAAATTGATCAAATTCCTTAAATATAAGAGCTAATCTGACAAAACTCTTAAAAGAAAATGTAAGATAAATCTTCGTGATCTTGGATTTAGCAATGAATA
CTCAGATACAACATGAAAAGCATAAGCCAAAAAGAAAAAAAGGACAAGTTGGAYTTACTCAAAATTAAAAACTTTTCTGCTTCACAGTACACTATCAACA
AAGTAAAAAGACAACCCAGGGAATGGGAAGAAATGTTTGTAAGTCATATATCTGATAAAGAACTTGTGTCTAGAATATATAAACGACTATTCAATTAATA
ACAAGAAAAATAACTCAGTTAAAATATGGGCAAAGGATCTGAATAGCCATTTCTCCAACAAAGATATACAAATGGCCAATAAGCACATGAAAAGATGCTC
AACATCAATAGTCATGAGGAAAATGCAAATGAAACCCGCAGTGAAATACTTCTTCACACCTACTAGAATGCCATAATCAAAAAGTCAGATAATAATAAGT
GTTGGTGAGAATATGGAGAAATCAGAACCCTCATACATTGGTAGTAGAAATGTAAATTAGTATAGCCACTTTGGAAAGCAGTCTCCTGCTCCTCAAAAAA
TTGAACATAGAATTATCATTTGACCCAGAATTCCACTTTCTTGAGGATATACCCAAGAGAAGTAAAAACATAAGTCCACATAATAGCTGTATACAAATAT
TCATAGCAGCATTATTAATAATAGACGAATGCTGGAAACAACCCAAATCTCCATCAAGTGTTGAATGGATATATAAAATGTGATAAATTCATACAATGGA
ATATTATTTGGCCACAAAAATGAATGAAATGCTGGTACATGGTACGACATGGATGAATCTTGAGAGCATTATACTAARTGAAAGATGTCAGTCATGAAAA
TCTGCATATTGTATAAAATGTCCATAATAGGCAAGTTAAAACAGACAGAAAGTAGATAGTGATTGTCTAGGTCTGGTTGAGATGGGGGATGAGGATGTGG
AGTATGGGGACTTACAGTGAAAAGGCATAAGGTTTTTGTGGGGGCGGGTGATGGCAACATTCTAAAATTGATTGTGTTGATGGTAGCACAATTCTGTGAC
TATAGTCATGCATCGCTTGCTTAACAATGGGGCTGTGTTCTGAGGAATGTGTCATTAGGTGATTTGGTCAATCAGTGAACATCCTAGAGTGTACTTACAC
AAACCTAGATGGTATTGCTTACTACCCACTTAGGCTATATGGTATACCCTGTTGCTCCTATAGCTCCTACAGACCTATACAACATGATACTGTACTGAAT
ACTGTAGGCAAWTGTGATACAATGGTAAGTATTTGTGTATCTAAACTTAGAAATGGTACAGTAAAAATACAGTGTTATAATCTTATGGGACCACTATCAT
GTACATGGTCTGTCATTTCCTGAAATGTCAACATATGGCAAATGACTGTGCACTAAAAAACCACTGAATTGTTTAAATAAGAGAGAGAACTATTGCAAGA
ATTCTGCCAGAGATGATGGGTTTGGGAGTTGGGGTAGATTTGATTGTTCTTCAAACAGTAGAAAACATAGGTCTGGATGACTGACTAGTTGGGGGTCATT
TCCTTAATAAATGGGTTTTCAATTTTGGCATTTATCAAGACAGTAAACTTAAGAAATGAAGCAGATTTAGGGGAACAAGAAGCAGCTTCAATTTGTACAT
ATGGAGTTTGACATGCTGGTGAGAACTGAGAAGAAAAATATCAGAAGAGATTTGGACATACAGGTCTTGAACTCAAGAGCAGTCAGGCTGGAAAGATAAG
TTTGGAATTCATCATGTAATCAGATGGTGATTGAGGCCATGTGAGGATATAAGACTGCCCAGGAAGATGGGGTCCAAGGACAGCATGTGATGTTTGTTAT
AGAAAACACAGAATGTATGAAAAGGAAAGAAATTCTTCAATGGTCAACACTTGCAACATCTTTTGATACTCATTTAATATTTTTCTTCTATTTTTTTCCT
GCAGTTTTCCCCATTTTTAAGTAATTATGTATGAAATTTTGTGTCCTGACATTCTTCTACTTAATACTATAGGATACATATTTTTCTATGTTGTTACAAA
TTATTTGTCCCAGAATCTCCTCACTATCATTTTCCTCATGGGGTCCTGTTTCCTGACCCTCATCTGGGATTGTACATGGCAGCTTCCTCCTCTCCTGCCT
TCTCTTCATTCCCGATCACTGTCCTACCTGCCCTTCTCTAGTATAGATCACAAAGSCCACTTCATTCATGAAAGTCATGTGATTTCTGGCTGAAATCATT
AACTTCAAAATGGAATTTCAGATTTCTATTTCATTGTCCCTCCTGACCCACACTGGAAAGGTCACCTTGAGAAAACTTCCTGAAACCATCTTAGAAACCT
TATCAGTAAATTCCCCTTTTTGCCGCCCTTTCTTGCATTCTCTTTAAGCATCCTTTAGCTGACTCAGTTCCCCATTTAGTGCTTCTAAGAGGGTAGAATG
GAGTCAGTTATGCCCTTGACAKGTGACTGAAATCAGCACAATCAAAACACCAAAAATACCTAACAAATCTAAGTTCTAAGCATGCAGATTAGGTTAAACA
AAAATGCAGGCACTTTATCAAAACAGTCCCTGAGTCCTTAGAATACAAATGTGGAGAGTAAGATAACRTATCTGAAAAACTACATCAGATATCTGTTGCA
GGCAATGATTTATTTAATATATATTAAATGTAAATACCTTGAATCAATATTAAATGATGTAACAAATGCCCACAAAGGAAATAAACATAATTCAGATCAC
TATTTCTAGTTTGGTATTTAGGTTTCACAAACAAGACCTCAGTGATGAGAGGATATATGCAATGATTTTAGCAGATACTCAAGATATAGTTGATTCTCAA
TAAAAATTGTATTTATTTCCTTAATATTGAAATTCAGTTACTATTTYTTGATGGCTGGCTTACTGTGTGCCAGGAATCATGCTGAGCGTTTTCTCATATT
CTCTCATTGTCCCATCCACCTTTCAACAATCTTGAGAAGTAGGTATTTCTTTTATTTTCATTGAACATTGTGTCTCTGAGGGGTTACATGATTCACTCAA
GATCACACAGCTACAGTGGTCCATCTGAAGCTGTATTTCATGTCCTCTGAATTCAAATTCAGTGGGCCTTCCCAACCACCACATATTTTCATTCTTCAAT
TCTCTTCATCATTTATTTATTATTGGTAAAAATCCCCGTGATCTTCATCCTATCATATAATCTCCTTTTCTGTTACTCTCTCAGTAAAATCCTCACCACA
CCAGCAGACCTACTTCATCTTAATCCCCTCTCTGACTTGGTTCTCTGGACTGCCTCCAACACTTTTTAGCCCTCCTTTTTCACCCCTTCTCAACCTTGCC
TACCACCGCAAATATTATCTTGTAAAGTAAGTTTAAAGATTAAACTCCTTAGTGACTTAGAATCTCAGATCAAACCATGAAGTTCACTCAACCTTACACT
GACAAGTCAGAGTTAATTGTTCTTGGGGCCAGAATAAATGACAAAGACTGCTGGCTTGGGCCTACTCTTGGTGCTACATGTGCCAGGTGTGTGTGTGTGT
GTGTGTGTGGTGTGTGCGTGTGCATGTGTGTGTGTGTAAATTGTCTCTTACCCTCATGACCAATGTTTTCCAGATGAGAAAAACCAGGGCTCAGAGCTCA
AAGTACGTTTTCCTGATCACGGAGTCAGCAGGTAACAGAGTCAGAAATTCAAACCCAGTACCATCAGACTGTATCTGTTGAGCTCTTTGGACTATAACAG
AAATCCTTAAATATCTGTCCACAAACAAAGGGCTAGATCATCACAAAGTTCTCACCAGTTCACASCTAAATAAGGACAGCACAATATTATAAATCAGGGA
GCTGCAGTCTGTGTCAGCATAAAAACAGATTATTGGCGAGAACCATCTTTTATTCTCAGTTTATGTCCTTCCTGCCTTTTTGGTGTTAACGTTTCTTTGT
CTTTGTGAAATGAGTGTGAAAACAGGTGGTAGTAGTTCTTTTGATGGTTAAATGGTAATGTYCTTACTTAGTAAAATGAAAAGTAGGTAACCTCGTGTTT
GTTATGCAGGCCCCTGCATAATGTCTACACATAAGGTCCACATGAAATATTAATGGTTATAGTTAATATGGATAATATGCTGGGACAGTTAGCTTCCACC
CCTAGCTCCAAACATTCTGTAAAGCAGCTCAGACTTGCACTTAGTTTCAGCCTGAGTACATCTTTTTCAATGTTTGCCTTTGGCTCAACATCACTAGAGA
GTTATCCCTGGCCTGTGTAGTCATAGCCACACAAGAGGGACATTTCAAGAGATGGTGGGTGGATCTGCTGCCACAGGAAATTTTTCAGTAGCCCAGGCAC
TGGGAGAAATTGTCTGACCTTTTGGTGGGAAAGGAGTGGGGTGTCCACCTGGGAGTGTCCCCATTTGGAACTCTGTGCTAATGAAGAAGGGACTTTCTCA
AACTTTAAATGAAGTCTGATTCTCATACAAGTCATGCTGACTCACACAGTCACAGTCTTTTTTAACAATGAGTAGTTTAGATCACAAAGAGATATATTAA
TCAATCTTCAGAGTTATCATTGAATGCTGGTTGCTGATCCAGAAAAAGAAATCAGGTCTACTATTCAGTCAGTCATATAAGCTTTCCAGGAAACAAAAGC
AATGGAATTCAAGTAAATTGGTTTAAAAGGCAGAAGTTCAATTATTACATATTTACTTGCTTCTTATTTACTTATTGTTCACACATTTCTTTATTCATTC
AGTGTGCATTATTTGTTCAACCCTTTCTCCATGGATACATAGCACTAAGTTCATGAATAAAAGCACCTATGAAAGGCTTTCAATGATTTGATGAACCAAG
GAATTGATAGAGAAATAATTACAACAATAAATAAGGCAATAAAAAATATAGAGAGTTCCTTTCAAATGGCAAGTTTTTTTTTGAGTTAACAGAACATGTT
GCTATAATATATAGAATGAATATTTCTAAACAATGTATGTGGAAACTTTTTGGAGACTGCTTTAAGCAAGTGACTTCCAAGCTTGTGGTACCAGAATCTC
AGGAACATGGGAGCATAGTGATAAAGGTCTATAATCTCTTTTAGGTATTTTAAGAGCCCGATTTAAACAACAAGGGCCAGGCCCAGTGGCTTATTCCTGT
AATCCCAGCACTTTGGGAGGCTGAGGTGTGGGAGGATTKCTTGAGACCAGGAGTTTGAGACCAGCCTGGGCAACATGGCAAGACCCTGTCTTTATAAAAA
ATAAAAATTAGCCAGGGTGTGGTGGTACATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGACAGGAGGATCGCTTGAGCCTGGAAGGTCAAGGCAGTGG
TGAGCCATGATGGCACCACTACACTTCAGCCTGGGCAACAGTGAGACCCCATCTCAAAAAAAAAACAAAAACACAACAAAGAAAAAATAAATAACAACAT
AAATGCATGTGTATGTGTATGTGAAACAGAGAGAGAGAGGAACACCTAAATAAGTTATGTGTCCATAKGCCTGACCAGTATAGTGTCATCTACAACCAGT
AAAAACCTCTTAGTAATATTATTTATGAAATAATACTTTTTCTAGCTACGACGAAAGGAAAAGGAAAATGGAAAAAGACTATCCAAAGAATACTGAAGAA
GAATTTTCAGGAGTAAATGGCCAAATCGATGCTGCTGTAGAATTAAATGGTAAGTGTTTCCACTGAAAACTTTCTTCATGAAAACTATCATAAGAAATCT
TGGCTTTGCTTTAACACAACAGAAAGTGGATTTCCAAGTGGGAGTCCTTGGTTTTTATATTTGGTCTTAGGTCCTTTCATAAGTTTATCTAAACAGATTG
TCCACTAGAAAGAGTAACTGTAAAAGTTCTGGTATTTTAGTTCTCTCTTTCCTAATGGAAAGTTTTTGTTTGTTTGTTTGTTTGTTTTTKTTTTTTTGTG
TGTGTGTGTTGTTTTTTGTTTTTGTTTTTTGTTTTTTGTTTTTTGTTTTTTTTGAGACGGAGTCTCGCTCTGTGGCCAGGCTGGACTGCAGTGGCGCGAT
CTCTGCTCACTGCAACTTCTGCCTCCCAGATTCGAGCGATTCTCCTACCTCAGCCTCCCRAGTAGCTGGGACTACAGGCGCTGGCCACCAGGCCCAGCTA
ATGTTTGTATTTTTAGTGGAGATGGAGTTTCACCATGTTKGCCACCTAATGGAAAGTTTTTAAAGTATAGCTTCAATCGATTAGTCAGCTAGATCATAAA
GTCTACCGGGGTCAAGATTACCTTTTCTATCTTTAAAATACACATAGTCTTGGTTGGGCACAGTGACACACACCTGTAATTCCAGCACTTTGGGAGGATG
AGGTGGTAGGATCACTTCAGCCCAGGAATTCAATACCAGCTTGGGCAATATGGCAAAACTCTGTCTCTACAAAAAAGTTAGCTGAGAATGATGGCACACA
CCTGTAGTCCCAGCTACTCAGGATGCTGAGATGGGAGGATTACTTGAGCTCAGGAGGTCGAGGCTGCGGTGAACTGTGATTGCACCACTGCACTCTAGCC
TGGGCAACAGAGTGATACCCTGTCTCAAAAAAAAAAAAAAATCTGTCTCAAGCTTCTCAGTGCTTTTTCCCACTCCATCATCCAACTCCTGCAATTTAAC
ACATAGCTAGGAAAGTTGAATAGAACTTTGTTGAATACATTTAATTAAATCTTCTGAAGTAGTCAGTTAGCACACTCTTCTTGAAAAAATAGCACAGGGC
TGGACACTGTTCAGAAGTGCAAAGACCATTCCAGATGTGGCCACTGCTCTCACAGAATGGTTCACCCAACACAGATGAAATGACTGGAAAACAGACAATC
TATAATTTAGTGTTGAGTCATGTGGTAGACTGCACAATAATTGCAAGAGCTGATCTGAGAATTAAAATATCAGAATCGGCAGCAGTCATTGGAAATTTTA
TAGTAGGACTTCAGATGGGTTTTGAAGATTGGCCGGAGGCTTAACTAGGGAAAGAAAAGGGGAGTGGCTTCCTGGAGGAGAGCAGCCTGAGCAGAAGCAC
AGTACAYAACTGAGCATGGCACATTGGATGACCCCAACAAGAAGGCCTTACCCCGGCTGGAACAAGGAGAAAGCTCAGAAATGACTGAGAAGTTCAGGAG
TCAGGTTCTAGGGCATGAAGACAGAAGACAAGCTAACTGCCACCTGACAAATTCACAATTCCYCTTTGGTGACACTTTAAGAAAGTGACAGTGACAAATT
CTTCCATTTATATATGTGCTGGACATCTTCAGTAACCCAATTTCAACTTTGTCTCTTTTAGGCTACATTTACTTCTTTTCAGGACCAAAAACATACAAGT
ATGACACAGAGAAGGAAGATGTGGTTAGTGTGGTGAAATCTAGTTCCTGGATTGGTTGCTAAATAGAAAAGCCTAGTCTTCTCAAGCAATGAGGATGACT
ACAAGCAGCCTCTAACTGGATCTTAAGGACTAAAGCAGAATGTAGGAGAGGGATTCTTCCAAAGGCCTTCAAATCAAATTAGAATTCACTGAGAATAATA
ATACTTCCAATTTTTTTCATAGTTGTATAATCAGAATTTCAATCCACATTAGAAAAGTTTTTATATGGGCAACTTTATGCGAAATCCAAATCAACACAAT
GCACTCTGCAGTTAGACACCATTATTTTTTCTTACCTAATATACTGAAGCAGATTGATCCGTTTGATTTTTATTTCCAGGAGGAAGACTAGTGGTGGATT
CCATGACATATATTGTAATTCTTTTCATAGGAAATGTCATTACAGTATGAATTATAATTATTTACAAGCAATGGCTTTTGTGGCCATCWTTTGGCCATCA
TTTGTTATAATAAATATAAATTTCCCAATTTTTACTTAAAAGACATCACAACAAAATACTGCATAAGAGTGGTTTCTTGTGTGTTTAACTTTGTGTCTAC
TCACTGGTATCTGATGTAGGCTTAGGTGGATAAACCTATTCAAACAAATTTTCATAGTAGGCAAGAGATGGGCACTTTGCAACAGAAAAATTTTTTAACA
ATAGCTAATAAAATGTTTTAATAGAACAGTTCCTCATTTCTTTTTTCTGTTAATATTTACTAGCTTCTATAATACTTTAATTGGCTACCCACACATCCTG
TGTACCTATAGAAAAATTAAACCGTAAGATAACATCATAAGTACACAGACCCGGAAAGAAATAACAGTAACTCATTCTACTTCCTGCTTCCTGAAAACAG
CCTCAGTGAAACTATCTTTTACCCAGCTAAGTGAGTGTCTTTTGAATAGTCTTCCATTCAGGGGAGTTCATCTTTTTGTTTTAGTTTTTCTTACGTCAAG
CTAAACCTTTTTCCCCTACCTAGTCATCAGAATAGATAAAACTATGGCTCTGTCATTCTTATAATTTTGCTTTAATCTTACTCTCTAGAATGTAAAGATT
CTAAAATATTTTAGTGATTCTAAAATTGAATGATAAGATACTTGTAATACTTCATAGACCTCCTGATACATCTACAGTGTTTAACAGATGCTACTATTGT
TACCATCATTTATTAAATTTGTTTCATATAGTCACTTAAAAGACCTAATATTAAGAAAGGATGGGGTAGTTACTCAAGATTATTCTACACTTTCCATTTG
GTTTCTGTTACTGAAAGTGGCCACTTATAGTCCACCAGATGTTGAATATTTGTTGAAGACAAGGTCTGGCATCCTTGCCTTCTAATGTCAAGGTGCTTCT
ATAGAGGAGAAAAGTCACTTTTGCAAAAACTGCTAAGAAGGACTTCTTACTATCAATAAGCAAGGAGAAAAACAGGCTGGCAATTTCTTAAAATATTTAA
CGTAGACTTACCCTATGACACAGCAATTTCACTCCTAAGTATATACCTATGAGAAATTAAAACATGTCTACACAAAAAACTTGCACATAAATGTTCATAG
CATCGTTATTTATAATAGCCAAAGAGTGGAAAAATGTCCATTGAGTAATGAATGAATACGTAAAATGTGGCAAATTCAGACAACAGAATGTTATTCGACA
ATAAGCAGAAATGAAGTCCTAACACATGCTGTAACATGGATGAAGCTTGAAAACATCATGCTAAATGAAAGAAGCCAGACAGAAAAGGTCACATATTGTA
TGATTCTATTTATATGAAATGTTCACAATAAAAAAATCTATGGAGACATAAAGCGGACCAGTGCTTGTCAGTAGTTGGGGGAGGGGGTTATAAGGAGTGA
CTACTAATGGGTATGGGGTTCTTTTTTTTGGGATAATGAAAATGTTCTAAAACTGATGATGGTGATGGTTGCACAACTCTGTGAATATATTAAAAGCCAT
TAAATTGTACACTTTACATGAGTGAATTATATGTTATGTTAACTATATCTTGATAAAGCTGTTACATTAAAAAAAAGAAGGAGATCAAAGTAGTGTGATG
ATCCATGGAGGTCAYGCATTCTGGCAACTGTGTCAGGGACCACATGACAATGAAGCACCAGCCTGAGGACATCCAGTGCTGCACGCAACCAGCCAGATGT
CCTCCTCATGTCCAGCACTAGCCCAGAATCGTGCATACAGAAGACACTTCACTAGTCAATGAATTCACTGAAAGCAATAAAGCATATGCTCTCAGGTCTG
ACTGATGGATTCAAACTCCAGATCTTCTATTTTCAACTGTGTGATGTTGACCAAATTCCCTCATCCTCATTCTCTGTCTCAGTGTCTTCCTTTATAAAAT
TGGAATAATGGCAGTTTTTATCTCCTAAGGATATTTAGAGCCTTAAATATATGAGTCAAAATATGCAAAGTAGTCCCTGGCACTCTACAGGGGCTCTATA
ATTGTTGTTTTTGAAGCCATTAGAGTTCATTTTGTTTGGTGATATTTTGGAGAATTTGTATATGTCCCTTGAGATAGCTAAACATCTGATGAGCTATAAT
ATCACAAGAATTGATAATCAATGACCTGAAATTTTTCTCTTCCAAATGTCAAATTAAATCAAATAATTAAAAATACTATGTTTATCCCCCATCTCCAAAA
AATAATTCTTATAAATCATTATTTTTTGTTGAGTTAAAGAATTCTTGGCTTTTAGGCCAGGCATAGGGGCTTACACCTGTAGTCCTAACACTTTGGGAGG
CCAAGGTGGATGGATCACTTGAGCTCAGGAGTTTGAGACCAGCCTGGGAAAGATGGTGAGACCCTGTCTCTACTAAAAATACAAAAAATTAGCTAGGCAT
GGTGGCGCATGCCTGTGGTCCCAGCTACTTGGAAGGAGGTGGGCTGAGGTGGGAGGACCACTTGAGCCCAGGGGTCAGAGGTTGCAGTGAGCTGAGATTG
TGCCACTGCACCAGCCTGGGTGACAGAGCAAGACCCTGTCTTAAGAAGAAAGCTCTTTGCTCTCAGATATAAAATTAGTATGTATTTTGGAAAAATACAG
TCTCTCTAAAGCACAAGAAGGTGTGATTGTGTCATAACACAGAGCACTTATCCTCATATGATACAAGAACGTTGTGCAGAAATAATTTATAACATAAACT
ACTCATTTGACTTCAGAGTAACTGAGTGCAAACATGACTTATTAAATAACAGTTTTGGACAAAGTGTGGTTGAAGTACTCCCTTGAGGATCACGAGGTAG
CAAAACAGAGTTCACTTCCTGATGAATTCTATGCATTATCCTATTAATCTCAGTGATGACTCTTTGTGGGCTGAACCTTTGAAAGCACTACACAGGCTAC
TAAGGATGAATGGATTCACCTCCTTGGGGAGCTTTCCTAACAGCTCCATATTAAATTTTCTCTGGTATAAACCAAGCCCTCTTCCATTTAGCCTAGTCCT
AAATGAAAGACCTAAGTTTGCCTTTGGGTCTTCTGTTTCTTTTCAAATGTTTATTGCAAAACACCTTAGATGTCCATTTCACAAAGCAAATGGCAAAAAA
ACTATGCAGTTTTTCATTCAGAATTCTGTGTATAATATTTTTAAATGCTCACAGGGTCTTCAGGGTGCTTTTATTTATATATTATCCAGATGTTTTTCTT
TATTCCTGTTAGTTATTTTTCTTCTACAGACAATGATATTGAAGGTTCTTTGTGAATATTCATAGCTAAAATTACCCAATGAAGTGCCATTTGAGAGGAA
ATGCATACTGCTGGCCAATAGGTTGGTGTTTTAGACTACCATAATGGAGCTTAGAAGAGTCCAAGCCAAAAGATCGTCGGCATTTCTCCCCAGTAGGTCT
GGGTAAAAAGTAGAAACAGCATCTTCTGATCATCTGTCATCTGCCAAGTCTCCTGTCTTTGGTCTCATTCCAATCCCTACATGGCTTGTCAACACGATCA
GTTTAAAAGGTATCCTGTTATACTCAAAATGTCATAATTTCAGGTTTGCTCCCAACACCTAGACCCTTGGAATTGAACTAGAAGCAGAATTGGGAAGCTT
GCTGGTAAATAAATTACAATGGGAAATTAGTGAATGGCTTTGGGATCCAAAATAGGACTCTTTTTTTTTTTAATGCAACATCTCTTCATTTTAATGTCTT
CTCCATTAGTCTTAACATTCTTTCCTTTAATCTAATGTATCATTTAACATGTTTGGAGATGAAAGTAAACTTTTGTTGCACAATGCAGCATGTTGTTCTG
ACAAGAGTTTGAGGAGAGATGAGAAGAGAAAACATGGGAGGGAGTTAATGAGAAAACAATTGCAAAACATCAGTTAAGAAATGTAACGCTTAAGTCCATC
TCAGATCATTTGCAGTGAATGTCCATAAAAAAAAGAATGTCTGTATAAATAGTTAGCAATTTGTTTATTCTTGGAAAGTCCCAGGTCTGTAATGCAGTGA
TAAACAATGTGAGTTTTTGAGTTGGGTATTAAATGTGTTTACAGCTGCCTCTATAGAGAATGGATGTCAAAAGTCCCATTACAGCCCATTCCACTTGAAC
TGCAGACTGCTCAATGATTGTAGCATGTCACTTTGCCAGATTTTAAATGTATTTCCATATATGAATCAGCAATTTCTGTGAGTAATTTTATCAGTGGTTT
CTTTTGAAATGCTTAATTTCTAAAATTAGTTCATCTTTACAAACAGCCAATTCAGCCTTTTTGAAGGATCTAGCTACCCCCCCATCTCTATCCTTAATAT
TCACTCTCAATTCACTAGAAAATAATTACTAAGCGCCTACTTTGTGCTGGCACCAACCTATGCTCAGCTGCTTTCTTGCATAAACTCCTGCCCTCAAGGA
GCTTACATTCCATTAAAGAGACACACAATATTCAAATGAATAGAGATCTATAATGAAAGATAGTGAAAGTGCTTTGAAAAAATAAATAAAGCAGTGCAAG
TAATAAAGAACGTTGGAGTGCCATTTTATAAAAATATGTTTAGGAAAAGGACATACTGGGTCCAGGGTATTCATGCAGAATAACTAAAGGGAGGGAGGAA
GCTGTGGAAGTCTCTAGAAGTTTCAGGTAGAAGAAGCAATAAGCGCAAGACCTTGAGGTAGGTAGGAAGGATCTGCACCTGTTTTAGGCACACCAGGAAG
GCCAGTGTGGCTGGAGACAGTGAGGGAGAAGGAAAGTAGAAACAGATCAGATCAGAGAAGCAGCTAACCAAGCTATGGAAGCCTTGCGGGTCCCTGTGAT
AAGAAGGGTTTTCAGCAGGTTCATAACATGATCTGACTGCTGAGTAGCAAACAGATTATAAAAGCACATGATGGATTCAGGGACACTAGACAGTGCCATT
TGCCAGGGTAAAAATGATGGTGGCACTGACCAAAGAAGTGGCAGTGAAAATGCTAAGATTGTCAGATTGAGGAATATTTTCAAGGTAAAGCCAACAGTAT
TTGTATCTAAAGTGCATGCAGAATTTAATAAAAAGAGAAGGATCCACAATGACTCCAACGTTTTTGGCCTAAACAAGTGAAAGAGTAGTGGTGAAATGGA
AAGACCAAAGTAAGAGCAGGTTTACGGGGGCTGGAGGTCAAGAGTGTAATTTTGAATTCATTGAGTTTGAGATGCCTATTACACATCCAAGGGGAAATGT
CCATACATAAAAAGCTTAAGTAGGTAGATAGATATAAAAAGCTTGAGTTCAAGGAAGAGTTTGAGACCCAATAGAAATTTAGGACTTAAGCCTTAAATTG
TTATCTACATTCCTTTTGATTTCCTCCACATTCTATGTGGAATTTAGGACAACGTAAATCATTAAAATATAAGAAGGCAGGTGAAAAATGATCTCAAGAT
TTTAATTATTGTCCGGTGTTAGTAAGCGCATCCTTTCCCACCTCAAGAACATAGTTTAGTTTTCAACAAAAGTTGCACACTTTTTTTGAAGTTTTTGTTT
TTTAGTCTTCATTTTTCTATTTCTTGTTTCCAAAATCAAAGAAGAAATCAGAAAAGAAAATATAAAATCTTCAAGATTGTTCTGAATGAAAGTTGTTGAA
AATCTTAAGGATTGTTCTTCAGGAACTAACAAGATCCTATGCTAATAAGTATTACTTATTAATACAGTAATAAGTAGCCTAAGAACTTATTAATACTTTA
ATAAGTAGCTTAGGAACTTACTAAGAAGGATAAAAGAATTTTTGAGATTTAAAAACATCTGTTTTATTCTTACAGTAAAAACAGTTCTGTTTGTTATCTC
ATCACGTCCTATAGAGAAAGTGAGTAGCAAGTTCCCTTAATAAAGTTTTCAAATAAGGCAGTTTTTTCAATTAATTTTTTAATTAACTTCTAATTTAATT
GCATTATAGTTTGAGAATGTGGTCTGAATGATACAAGCTTTTTTAAATTTGTTGAGACTTACCTAAATTTGTCTTTTGACTTACCATATGATTACAAATT
TTTGTAAATGCTGTGTGTTCAGATATACGTTTTCAGTAAGTGAATTTTCTTTTGC


SNP Information

Context             (SEQ ID NO:53621):
GACAAATTTATTAAGGCTATATCAGATTTCCTCAGTCACTTAGGGAAAATAAGAGAGAAATGACTGGAATTGTAGCCACACCAAAATTATATTTGCATCT
R
TCATATTATGTTGGGTTTTGCCCAATATAATTTTAAGGGTAAAATCAAGAATATCACACACAATCATCTATAAATCTTAGAAGTACAATAGGTTTTACAA
Celera SNP ID:            hCV2158829
SNP Position Genomic:     28461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53622):
CTGGATTATTTCTAATTTTTAAAAATTAGAAACAGTTTGAACTAAATCTTTGACAATGGACAGACATTCACTTTTCAAAGGCAAATTAGAGCTGAGCCCA
R
GAACCCAGGCTTTCACAGCAGAGTCAGTGGGTGGCCCTACTGCTTACTGATGAGGTGATCCCCAGCAAGTAATGTGCCAGACACATAGTGTCAATAAATG
Celera SNP ID:            hCV7492720
SNP Position Genomic:     26693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53623):
AGCACTCATTCAGTGATAAAGCAGTGAGGTGCTAGCCATCATGCAGGGTGTAGCTTATTCTTGTGGTAAATATCAGAGGTTGCAGTGGGGGCAAAGGAGG
Y
AGTGAAGTCAAACATATGATACCATTTCATTCAATGATCATTGTTTTCTTAAAAAAAAGCAAAAAAAAAAAACACCTCTGTTTATCAAACTGTGAGCATT
Celera SNP ID:            hCV7492721
SNP Position Genomic:     27217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53624):
CAGACTGTATCTGTTGAGCTCTTTGGACTATAACAGAAATCCTTAAATATCTGTCCACAAACAAAGGGCTAGATCATCACAAAGTTCTCACCAGTTCACA
S
CTAAATAAGGACAGCACAATATTATAAATCAGGGAGCTGCAGTCTGTGTCAGCATAAAAACAGATTATTGGCGAGAACCATCTTTTATTCTCAGTTTATG
Celera SNP ID:            hCV290979
SNP Position Genomic:     50065
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53625):
ATTTAGTGTAGTCGTGGCCCCAAACCTGACCCTGGAACCTGACAGTGACTTTGCCAAAAAAGAAAAATGTTGAGGAAATGTACCTTAAGTTTCACCCTGT
Y
CTGGAGCGTACTTAAACTGAGTTTTAAACTCTTAAGTCTCAGGAAGGACACTAGGAAAATGCACGGAATAAGGGCTTGGAAGGGAGACCTAAGCTGCTAG
Celera SNP ID:            hCV7492650
SNP Position Genomic:     10595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53626):
CTCATGTTGAGGAATGAGAGGAGCTCCTTCAAAGATCACCTCTGCCTCTGCACAGCTTTCCTCTGTTCCCAGTTTTCTCTTTTTTGCCTGTTTATCTAAA
M
ATCCGAAGAGAAAAGCAAAAGCAGATTCTAAGCAGGTGACAATGCTAGACACCTTAGGCTCATGAAAGGGTCTTGAAGAAAACAGGAGAGCACCCAACTT
Celera SNP ID:            hCV27979708
SNP Position Genomic:     38287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53627):
CTTTAGCAAGAAAGTGCCCAGAGTTCTGAGCTCTCAGTACTTCAGGATATCTGATAATTCTTCAAGGAAACATACTTTCATATTTTGCCTAAAGAAAAAG
M
GCTCAAACATTAACTGAGCATCTACTCTGAGCCTAGAACTGAGTCAAACACAGGGTTTGCATCTGTGAAGGCAAAACGGTGCCTGACTGGAAGGAGGTTG
Celera SNP ID:            hCV7492654
SNP Position Genomic:     11102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53628):
GCCTTGCCTAGGAAAGTTGTCTCATGGAAACAAAATCCAGCCCACATACTAAACACATCTGAACTCATTAAAATCCTCAGCTGAAAAAAAGGTGGACCCT
Y
TGCCTTTGTAAAGTGTGAGAGGCTGGAATACAATGCCTTTAAGAGTTAAAAGCATACTGATCTTGCATTATGTACAATGGAAAGATGATACCAATAACTG
Celera SNP ID:            hCV7492655
SNP Position Genomic:     13725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53629):
TAAAGAACTTCAGTGACAAATAAGTGATCCATGGAAATAATGTTCACATCAGCTTCCTTCCCTGAATTTTTTTCTTTTAAAAAAATTAGAAGCAAAAAGG
Y
GTATTTGTTATATTCATTGCATTGTAGAAAAACTATAAAATGCAGGTGGACAAAAGGAAATAATTAAATAATCTATAATCCCCACTACCCAAAACCAATC
Celera SNP ID:            hCV7492656
SNP Position Genomic:     13967
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,307|C,414)   total(C,414|T,307)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53630):
GCACTCATTCAGTGATAAAGCAGTGAGGTGCTAGCCATCATGCAGGGTGTAGCTTATTCTTGTGGTAAATATCAGAGGTTGCAGTGGGGGCAAAGGAGGC
R
GTGAAGTCAAACATATGATACCATTTCATTCAATGATCATTGTTTTCTTAAAAAAAAGCAAAAAAAAAAAACACCTCTGTTTATCAAACTGTGAGCATTT
Celera SNP ID:            hCV7492729
SNP Position Genomic:     27218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53631):
TATGCTTCCAAGCGTGTTTTGTTTTTAAAAGAAGGGTGGCATCCTTAACCTAAAGAAATGGATGTCTACGGATGGAATTTCCAACATTAGTGAAAGATAT
R
TAGAGGAAATGCTTTTGCACACAGGCCTCCCTTTCAAGAGTCTGCCAACATTACAGCACATCTGTGATCACCAGCTCCGCCTCAGGGCTGCTTTCCTGAC
Celera SNP ID:            hCV15807790
SNP Position Genomic:     7004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53632):
TATTTATATTTATTATTAAAATATATTTTTGTAGTAATAAATATACTATTTATTAATAATATATTATTAAAACATTATTTTATAATAATAAATAAAATAC
K
TTATTTATTATTATATGTTATATTATTTAATAGGTATAATTATTTAATAAATTACATTAAATTATATTAAATACATTATATTAAATAATTACATTAATAT
Celera SNP ID:            hCV7492659
SNP Position Genomic:     16155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53633):
AAGGAATAAAGAATAAATTAAGTCATCTGTAATTTCATTACCCAGACATAATCAACATTAATATTCAGGCAGACTTCCTTTTATTATTGTATGTGTGTGC
R
TGTGTGTATATGCGTGTATATGTATGATTTATTCAGAAAATTATTATTATAACCTTATAAAGATTTCTCCTCTTCTTTTCTCAGTATATTGCCATTACAT
Celera SNP ID:            hCV16022567
SNP Position Genomic:     12620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53634):
ACACTTACTTTTTATAATAGATGACAAATTTATTAAGGCTATATCAGATTTCCTCAGTCACTTAGGGAAAATAAGAGAGAAATGACTGGAATTGTAGCCA
Y
ACCAAAATTATATTTGCATCTATCATATTATGTTGGGTTTTGCCCAATATAATTTTAAGGGTAAAATCAAGAATATCACACACAATCATCTATAAATCTT
Celera SNP ID:            hCV2158830
SNP Position Genomic:     28439
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53635):
AGTGATAAAGCAGTGAGGTGCTAGCCATCATGCAGGGTGTAGCTTATTCTTGTGGTAAATATCAGAGGTTGCAGTGGGGGCAAAGGAGGCAGTGAAGTCA
R
ACATATGATACCATTTCATTCAATGATCATTGTTTTCTTAAAAAAAAGCAAAAAAAAAAAACACCTCTGTTTATCAAACTGTGAGCATTTAGCAATTACT
Celera SNP ID:            hCV2158831
SNP Position Genomic:     27228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53636):
ATAGCATGTAGCACTCATTCAGTGATAAAGCAGTGAGGTGCTAGCCATCATGCAGGGTGTAGCTTATTCTTGTGGTAAATATCAGAGGTTGCAGTGGGGG
Y
AAAGGAGGCAGTGAAGTCAAACATATGATACCATTTCATTCAATGATCATTGTTTTCTTAAAAAAAAGCAAAAAAAAAAAACACCTCTGTTTATCAAACT
Celera SNP ID:            hCV2158832
SNP Position Genomic:     27208
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53637):
GAGGCTTGCAAAGTTGAATAATGTGCCTCAAATCACACAGCTCAGCAACCAGGAGAGCCGGGACTCAAACCCATACCTGCCCTCAACAGCCATGATCATG
R
TCACATGTCCAGCGTGAAAGTGTACAACCTCCCCTGGGGCTCTAGAGCAGAAGTGTGTGAACTCCAAATTCCCGTTACCATTTTGACCAACTCATTTTGA
Celera SNP ID:            hCV2158833
SNP Position Genomic:     24526
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53638):
AATGGAGGAACTTTCAAACACCTATAAAACCATCATATCTTGTGAGAACTCACTCATTGTCATGAGAACAGCATGACGGAACCACCCCCATGATCCAATC
M
CCTCCCTCCCTCAACACATGGGGATTACAATTCGAGATGAGATTTGGTTAGGGACACAGAGCCAAACCATATTAATGTGTGACAAACTCTTGTTCAGTGC
Celera SNP ID:            hCV3256545
SNP Position Genomic:     4755
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|C,6)      total(A,5|C,6) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53639):
AGTACTATTATTATCCCTCCCTTTTAACAAGTGAGGAAGCTGAGGCTTGCAAAGTTGAATAATGTGCCTCAAATCACACAGCTCAGCAACCAGGAGAGCC
R
GGACTCAAACCCATACCTGCCCTCAACAGCCATGATCATGATCACATGTCCAGCGTGAAAGTGTACAACCTCCCCTGGGGCTCTAGAGCAGAAGTGTGTG
Celera SNP ID:            hCV2158834
SNP Position Genomic:     24485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53640):
CTTACCTATTCTCATAATCCAGGATTTTATTCTGGGTTTGTTTGTTTGTTAAACAAAATTAGTGTCAATATGACATTTAAAACATACTTTTTAAATTATG
Y
TTAAAAATAAAAATTTTAACTACCACATTATTATGAACTCATAACTAAGGAAAATGAAAATACACACTGTTAATTCAGGTGTTTTTACTACCATTTTATT
Celera SNP ID:            hCV3256547
SNP Position Genomic:     9347
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,10)      total(C,6|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53641):
CCCTGAAATTGGCAGGCATTCAGTCTCCGAATTAAAGAAAGTGCATTTTATCTGCATTGGTAAAGATCAATCTAGAAACCATAGCCCCAGCTATGCCTTC
Y
TGTGAAGAGCTGATTTGCTAGTTATAAATATGTGTGTGATGTGTGATTAAATTTTGCATCTTTCCTTTACAGCATATTAGTCCTGGATAGCCTTAGAAAA
Celera SNP ID:            hCV2158836
SNP Position Genomic:     22499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53642):
ACTACCATTTTATTTTCTATGATAAAGACTTTTTAAAATTGTTACTGTCTTCAAAATGTGGTTTTTACTTTTCTAACTATTATGTCATAAGAAAATTTTG
R
TTTTATACTATTTTCATAACATCACTTTAAACAGTCAGAAATATTCCAGAATATGAGTTATAATTTATTTGACCATTTCCTTTAACAAATAGATTACTTC
Celera SNP ID:            hCV3256548
SNP Position Genomic:     9534
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,8|A,10)      total(G,8|A,10) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53643):
TTGATGACTCACCCTGAAATTGGCAGGCATTCAGTCTCCGAATTAAAGAAAGTGCATTTTATCTGCATTGGTAAAGATCAATCTAGAAACCATAGCCCCA
R
CTATGCCTTCTTGTGAAGAGCTGATTTGCTAGTTATAAATATGTGTGTGATGTGTGATTAAATTTTGCATCTTTCCTTTACAGCATATTAGTCCTGGATA
Celera SNP ID:            hCV2158837
SNP Position Genomic:     22488
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,5)   caucasian(A,13|G,3)   total(A,30|G,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53644):
GACACTCTTGGGTGGAGTCACTCTTGCTATTCTAGCTGGTCAGGAGTCAGCTAGGCACGTTTAGAAACAGTAGCATGGCCTGGGAATATTGGGGACCTTT
W
GTGATTCCTTACTTCTTCCTCTCCAAAATAAATCAACCCTTCTCTGTCTCCCTTATGACATACTCTCAGAAAGACCTTAGACCAAGGAGCAGGGAAACTT
Celera SNP ID:            hCV2158765
SNP Position Genomic:     8158
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,7)      total(A,7|T,2) ;JBIC-allele(A,150|T,943)   total(A,150|T,943)no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53645):
CCTTCTTTGATGACTCACCCTGAAATTGGCAGGCATTCAGTCTCCGAATTAAAGAAAGTGCATTTTATCTGCATTGGTAAAGATCAATCTAGAAACCATA
R
CCCCAGCTATGCCTTCTTGTGAAGAGCTGATTTGCTAGTTATAAATATGTGTGTGATGTGTGATTAAATTTTGCATCTTTCCTTTACAGCATATTAGTCC
Celera SNP ID:            hCV2158838
SNP Position Genomic:     22482
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53646):
GAAGGTGCTGGGAGAAGATAAACAAGTCAACCAATGAGTGCACAAGATGTTTCAGAAAGTGATCAGTGAGCCTGGAAAGAAGTTAATCAGGATGACAGAG
W
GTTGCTGACTGGGACAGTGGTCTGGTGAGGGAGTATTTTTAATGGCGTAGTCCAGGAAGTCCTCTCGGAGGAAGTGAACTTTGAGATGAACCTGAGCTGC
Celera SNP ID:            hCV2158766
SNP Position Genomic:     8704
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,7)      total(A,7|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53647):
GAAAGGTCATTCTGCTAACAGGTTCACATTCCAATCAGTGGGGTAGGTTTTGCTATCGAATGCCGCCCCCCCGCCGCCCCGCCCCGCCCCAGTCGTTCTC
Y
TTTTGTAATCTGTGGCACATGCAAAGTCCACAGTATCCTATGTGTCAGTTAACAGATGTCATGATAGCAACAATAACCCAAAACAGGTGTTTTTTTATTG
Celera SNP ID:            hCV2158839
SNP Position Genomic:     20959
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53648):
TGAGCCTGGAAAGAAGTTAATCAGGATGACAGAGAGTTGCTGACTGGGACAGTGGTCTGGTGAGGGAGTATTTTTAATGGCGTAGTCCAGGAAGTCCTCT
Y
GGAGGAAGTGAACTTTGAGATGAACCTGAGCTGCATGAAAGAGCCAGTCACGTGAAGACCTGGAGATGGGGCAGTCCAGACGGAGGAAACAGCAGCTGCT
Celera SNP ID:            hCV2158767
SNP Position Genomic:     8770
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53649):
GTGTTTTACTAGAACAAGAATCACATCTTATGGAAGCACCAACTAGGGAGAGATTTTGTTTATATCACTGCAGTGATGAATTTTTGTTTTTAAGAAGGAA
Y
AGTTTCTAATTTTATTTTTACTTCATTAAAAGGTACTATTTCAATCCTGCCTATATGACCAGCCAGAAACCTTTTGTGCTCTAAGACTAACATTTTGTGC
Celera SNP ID:            hCV2158768
SNP Position Genomic:     11368
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53650):
CTTTTATCCAGCCTAGAATATGAAAATCCTTCTTATCCAAAGGAAAACATATAATTTCAATTCCTGTCCTCAGGGGCTTCGTATGAGCAAGTCTGAATCA
R
ATGTCATCTGTCATCCAATCACTGCACATAGGGTCACACCTTATCTTAGCTACTGAGTTTCTATCCTTAGTTGACTCATGTTGAGGAATGAGAGGAGCTC
Celera SNP ID:            hCV7492800
SNP Position Genomic:     38112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53651):
TTCCTTTTACAAGTCATAGAAAGGATAAGCAACTTGTTCAAGAGTACATAGCTAGTAAGGGGTGGAGCTGGAATTCAAACCCAAACTAGCAAACTTCAGA
R
TCCGTGCCCCTAACTACCCTGCCTCCTAAGGTGCTGTCCAGAGCTGGAATCCCATGACTCTATAGCTCTGATCCCCTACCAGCTGCCGCTAAATGTCCCA
Celera SNP ID:            hCV7492730
SNP Position Genomic:     27878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53652):
TTCAGAATCCGTGCCCCTAACTACCCTGCCTCCTAAGGTGCTGTCCAGAGCTGGAATCCCATGACTCTATAGCTCTGATCCCCTACCAGCTGCCGCTAAA
W
GTCCCAGAGTGCTTGCTAAGCCTGGACAAAGAACAAAGAATTCTTTCAAGCCACAGTTCTAATGGCAACCAGGGAGCCACTGATTATGAAAGCGCTCCCA
Celera SNP ID:            hCV7492731
SNP Position Genomic:     27972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53653):
TCCAAAGGAAAACATATAATTTCAATTCCTGTCCTCAGGGGCTTCGTATGAGCAAGTCTGAATCAGATGTCATCTGTCATCCAATCACTGCACATAGGGT
Y
ACACCTTATCTTAGCTACTGAGTTTCTATCCTTAGTTGACTCATGTTGAGGAATGAGAGGAGCTCCTTCAAAGATCACCTCTGCCTCTGCACAGCTTTCC
Celera SNP ID:            hCV7492805
SNP Position Genomic:     38147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53654):
GTCCATGACTATGTACAACAAAGACAAGAAGCCTGGGTCAAGATAATGTGATGCTTAGGGAAGTATAATATTCTTGTGATAAGCTGGGCAGTCTTAAAAA
K
CCCTCAACACACACATTGCCTATCCACTCTTGCTCCCCAATAACTCTACCATCGCCTCCCCATGAAAAAGGACACTAGAGGCTATCACAGTACTCTGCCT
Celera SNP ID:            hCV7492660
SNP Position Genomic:     16903
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(G,10|T,13)   SC_12_C(T,12|G,12)   SC_12_AA(T,4|G,19)   total(G,41|T,29) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53655):
CTCTGCTGACTCTTCTGGGCCACTGAGAGCCCTGGAAGCATTGCTCAGTGTCATGCGGTGTCATGAGCTGTCACTTCCAGACCAGTGTTTAAGCCACTAG
R
CCAGCTATTTTTCTCTCAGACCTTCCTTTTTAAAACATGATGACAGGAATTCACTTATTAAGGCCCTAATATCTGCAAGACAGAGTATGATTCTCTAAAG
Celera SNP ID:            hCV7492807
SNP Position Genomic:     38708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53656):
ATTCTATAGCTCTCTTCTTTTGGCCCCAAACCTGGGGTTAAAGAGCTCCTTGTTCCTTCCCTCTCAAGTCCTGAATTGAGCTATTTGCTATCCTTTCTGT
R
GGCACAGTCCTTTCATTTGGGACCCTAGGATTACTGCTGTTGGTTTCTCATTGAAATTGCACCATCTGCATTATAATAACCTAAGATACCTTTCAAAACA
Celera SNP ID:            hCV7492661
SNP Position Genomic:     17640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53657):
TTAGCTATAATAAGTTGAGAGGCATATATATAGCTAGATATACTTAATGAACATACACTTACTTTTTATAATAGATGACAAATTTATTAAGGCTATATCA
S
ATTTCCTCAGTCACTTAGGGAAAATAAGAGAGAAATGACTGGAATTGTAGCCACACCAAAATTATATTTGCATCTATCATATTATGTTGGGTTTTGCCCA
Celera SNP ID:            hCV7492736
SNP Position Genomic:     28385
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53658):
AGTGAGGTGGATGATTCATGGTTGATTTCTTGGCTTCTGACTCATCATGAACTAAGCAGCCCTGGTTAATGAGTCCCATAGAATGAATGGCTTCTCAGCC
M
ATGACATGACAGTTTGTACTTCAAAGTTTCCAGTGAAGCAAACTAAGAAGGAAACTTGGCTATATTGATAAACTCTAAGTTTATATTCTGCATATCATCT
Celera SNP ID:            hCV7492737
SNP Position Genomic:     31267
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(A,7|C,14)   SC_12_C(C,12|A,12)   SC_12_AA(C,6|A,17)   total(A,36|C,32) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53659):
CAAATAAAGGGTGAAGGCATCTCCTGAAAATGAAAGTCTGATGGGGTCAGCTTAGGTAGGTGGAGAATGATGACTGGGTAAAACAAAAGAAGACCTTTAA
S
GCTCAACAACATGCATCAAGTCCCTGGATGCACCAGGCAGCATGCTAAGCCCAAGGATAAAAAGATGAATAATACATGATGCTGGAGGAGGAATTCAAGG
Celera SNP ID:            hCV7492738
SNP Position Genomic:     32211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53660):
TGAAGTCCTCGGTGTGTGCACCTGAGTAGACTGCATTTCACTGAAACCTGAGAAATGCCATACCAAAACTTTGTTCTGTCGGCTTTTTAAAAAAAAAAAA
M
AAACTAAAACTGGGTATCCTTACTAAGATTTTTTTAAGTGGTAAACTATATCCCTTATTTTGTTCTTCCTCCTCCTCTTCTATTAAATTTGTAATGAATT
Celera SNP ID:            hCV16010051
SNP Position Genomic:     20547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53661):
TGCCATTGCACTCCAGCCTGGGCGACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAGAAAGAAAAGAAAAAGAAAAAAGAAAAGAATGCATTATT
Y
TGAGGGAAAAAAAAACCTTCCCCAATAGCCCTGGGGAAATCCTGAGGAGCTTTGAATAAGAATTAGCAAAACTTCAAAACTCCACATTTCTATTTTTTAT
Celera SNP ID:            hCV7492668
SNP Position Genomic:     18607
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53662):
AACTGTCTCTCATCTCTCCCTTTCATTTGTCTTGTTGTTTCATATGCAGAAATTTAACATATAATAAAGCAAAATAAGAATTATTATTTCAGAGAAAAAT
Y
TAAATTGTAGATTTACATTTAACATTTTTTGAATACAACATATAATTCTTGCCTTCTTCGGAGCAGTTACTGAAAAGAAAACATGTTCCTTCCGTTTTCA
Celera SNP ID:            hCV7492669
SNP Position Genomic:     19299
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,6)   caucasian(C,13|T,15)   total(C,31|T,21)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53663):
AAATTCTATTGTTCTTTTAAAATCATTTTATATAAGTCCATTGAAGTCTAACTGATGCTATCTTCTGTCCACCTAGATTGGTGTCTGGTGCATATTAGGT
R
TACCATGTTACATGACTGAATAAATACATGAGGATATATCTACCTAGCTATCTTGCTTCATAAAGAATTCCAGGTGGCTTGTGAAAACCATGCAATATAA
Celera SNP ID:            hCV60473
SNP Position Genomic:     6320
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,10)   caucasian(A,25|G,11)   total(A,51|G,21)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53664):
TTATATAAGTCCATTGAAGTCTAACTGATGCTATCTTCTGTCCACCTAGATTGGTGTCTGGTGCATATTAGGTGTACCATGTTACATGACTGAATAAATA
S
ATGAGGATATATCTACCTAGCTATCTTGCTTCATAAAGAATTCCAGGTGGCTTGTGAAAACCATGCAATATAAAAGGAGCAAACAAGTACTTCCCGGGAA
Celera SNP ID:            hCV60474
SNP Position Genomic:     6347
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,25)   caucasian(C,13|G,25)   total(C,22|G,50)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,7)      total(G,4|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53665):
AAGTCCATTGAAGTCTAACTGATGCTATCTTCTGTCCACCTAGATTGGTGTCTGGTGCATATTAGGTGTACCATGTTACATGACTGAATAAATACATGAG
K
ATATATCTACCTAGCTATCTTGCTTCATAAAGAATTCCAGGTGGCTTGTGAAAACCATGCAATATAAAAGGAGCAAACAAGTACTTCCCGGGAATGATGT
Celera SNP ID:            hCV60475
SNP Position Genomic:     6353
SNP Source:               Applera
Population(Allele,Count): african american(G,10|T,28)   caucasian(G,12|T,26)   total(G,22|T,54)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,7)      total(G,7|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53666):
TGCCACTCATCCTTATTAACTGGTCAGTTCCCCGGCCATACCAGTCATTAAACACTTAAATATCAGCCCCGCAGATGAACAGCACAGCTGATGCCCAGCA
Y
AACCATGTTGAACTGAACTTCTTTTGACTTTAGCCCACTTTTAGATGAACTAAATTCAAAATAACTCAGGATACTGGGATCCTTATTCAATTGTATTTTG
Celera SNP ID:            hCV60476
SNP Position Genomic:     7295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53667):
AAGCAAAGAATATTAATTATTGGTCCTTTGCAGAAAAAATTAGTCACCCCTGACCAGTCTATTAAGGAATAAGGCTAGACCAGCCAAGCACCAGTTTCAT
R
GAAGACAGTTTTTCATGGACGTGGGAAGTAGGAGGCTGGAGGGGTGATGGTTTTGGGACGAAACTGTTCCACCTCAGATCATCAGGCATAAGATTCTCAA
Celera SNP ID:            hCV60477
SNP Position Genomic:     7750
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53668):
TAGGTTTCAGAGCCTGGGCACCCCATGTTCCCTCTCCCTTTTCCTCCTCTTGGCTTCTCATCTCACCTAAGGTTTTTACAAGGGACAACAATGGGGAAAG
Y
GATCTTCTCTCACAGGAAGGGCAGGGAGTAAAGGATCAGCTGATCCTGCAGTGAAAAAATAGCGTACCCTCTCCAAACATGAGTGATACTTACTCCTTTT
Celera SNP ID:            hCV3256550
SNP Position Genomic:     12362
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53669):
GTAGGAGGCTGGAGGGGTGATGGTTTTGGGACGAAACTGTTCCACCTCAGATCATCAGGCATAAGATTCTCAAAAGAGCATGCAACCTAGGTCCCTCACA
Y
ATGCAGTTCACAATAGGGTTCTGCTCCTATGCGAATCTGATGACTCTGCTGATCTGACAGGAGGCAGAGCTCAGGAAGTAATGCTGGCCCGCCACTCACC
Celera SNP ID:            hCV60478
SNP Position Genomic:     7878
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53670):
TAGGAGGCTGGAGGGGTGATGGTTTTGGGACGAAACTGTTCCACCTCAGATCATCAGGCATAAGATTCTCAAAAGAGCATGCAACCTAGGTCCCTCACAC
R
TGCAGTTCACAATAGGGTTCTGCTCCTATGCGAATCTGATGACTCTGCTGATCTGACAGGAGGCAGAGCTCAGGAAGTAATGCTGGCCCGCCACTCACCT
Celera SNP ID:            hCV60479
SNP Position Genomic:     7879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,9)      total(G,5|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53671):
AGCTGAATCAAATTTGAAAGGTCATTCTGCTAACAGGTTCACATTCCAATCAGTGGGGTAGGTTTTGCTATCGAATGCCGCCCCCCCGCCGCCCCGCCCC
R
CCCCAGTCGTTCTCCTTTTGTAATCTGTGGCACATGCAAAGTCCACAGTATCCTATGTGTCAGTTAACAGATGTCATGATAGCAACAATAACCCAAAACA
Celera SNP ID:            hCV2158840
SNP Position Genomic:     20944
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;SG_12_A(G,9|A,12)   SG_12_G(G,7|A,10)   SG_12_AA(A,3|G,18)   total(G,34|A,25)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53672):
CCAACTCTGACTCCACCCACAGTCCAAAAAGCACTACATTTTTCTGCCTTCAGGTGTCATCGTCACACCAGTAATTGCTGAAAGGCTCACCCTTTTTTCA
R
TTCCAGTGAGCCTCCGTTTTTAAAGCTAGCCCTTCCTCTTTAAGAATGTATTATTTTGGGCTGGGGGCAGTGGCTCACGCCTGTAATCCGAGCACTTTGG
Celera SNP ID:            hCV2158841
SNP Position Genomic:     18210
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53673):
CAGGGCCGGTCCCTGCTCATGGGGTTGGCTCTCACAGACACAGCTTCTCACTTTGCATCATATTCCAGCCCAGCCCAAGGTCTCGGGTAGAAGTTGCCCT
Y
CCTGCCTTTCCTTTGTGTGCTGCCAGAAATCCCCAGACCCTGGGCTTCAGAGCAGAAAGTTCTAACAATCACCAACTCTGACTCCACCCACAGTCCAAAA
Celera SNP ID:            hCV2158842
SNP Position Genomic:     18038
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53674):
TCATCTCTTCACAACCTGGCATTCAGTGATGGTAAGTTGGTAGCTTGAATTAGCCATAGTGAGAATATTTACAACACAGAAATCAGCAAGTCATGCAAAT
Y
AAGTGGGTTTTTTTTTTCTCCTTGTAGAGCCACTTGTTAACCTGTTCCAGCACACCAGTGAGTCCATTTGATCAAAGGAGGGGCCAGAATCCAGGGAACA
Celera SNP ID:            hCV2158843
SNP Position Genomic:     16484
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53675):
TTACATTAAATTATATTAAATACATTATATTAAATAATTACATTAATATAATAAATTATATTAAATTATATTAAAAATAAAGGTAATAACATATTGCCTC
Y
TATTTCACTACATTTTATTATTTTCTCTGTTCATGAGGCTATGTACATCTGTATAATCTGAGTGGTTCATTCATGCTCATCTCTTCACAACCTGGCATTC
Celera SNP ID:            hCV2158844
SNP Position Genomic:     16307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53676):
CCTTCAAAGATCACCTCTGCCTCTGCACAGCTTTCCTCTGTTCCCAGTTTTCTCTTTTTTGCCTGTTTATCTAAACATCCGAAGAGAAAAGCAAAAGCAG
M
TTCTAAGCAGGTGACAATGCTAGACACCTTAGGCTCATGAAAGGGTCTTGAAGAAAACAGGAGAGCACCCAACTTTGTTCCAAGAGCTTTCATTTTATTT
Celera SNP ID:            hCV27884102
SNP Position Genomic:     38312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53677):
AGGAGCTCCTTCAAAGATCACCTCTGCCTCTGCACAGCTTTCCTCTGTTCCCAGTTTTCTCTTTTTTGCCTGTTTATCTAAACATCCGAAGAGAAAAGCA
M
AAGCAGATTCTAAGCAGGTGACAATGCTAGACACCTTAGGCTCATGAAAGGGTCTTGAAGAAAACAGGAGAGCACCCAACTTTGTTCCAAGAGCTTTCAT
Celera SNP ID:            hCV27884103
SNP Position Genomic:     38305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53678):
GTAATAAATATACTATTTATTAATAATATATTATTAAAACATTATTTTATAATAATAAATAAAATACGTTATTTATTATTATATGTTATATTATTTAATA
K
GTATAATTATTTAATAAATTACATTAAATTATATTAAATACATTATATTAAATAATTACATTAATATAATAAATTATATTAAATTATATTAAAAATAAAG
Celera SNP ID:            hCV2158845
SNP Position Genomic:     16188
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,8)      total(G,8|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53679):
TGAGAGGAGCTCCTTCAAAGATCACCTCTGCCTCTGCACAGCTTTCCTCTGTTCCCAGTTTTCTCTTTTTTGCCTGTTTATCTAAACATCCGAAGAGAAA
M
GCAAAAGCAGATTCTAAGCAGGTGACAATGCTAGACACCTTAGGCTCATGAAAGGGTCTTGAAGAAAACAGGAGAGCACCCAACTTTGTTCCAAGAGCTT
Celera SNP ID:            hCV27884104
SNP Position Genomic:     38301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53680):
TGGAGGGGCAGCCTGAAGGGCAACTAGAGCGTGATGTCAAGGAGTTTGGACTTTATCCCCAGGGCGGTGGAGAGCCAGGCCAGGACCAGGATCAGATTTC
S
CTTTTAGGATGAGCACATCTAGATGATAACTGGAGATGGGGAAAGGCTGGACTCGTGCAATAGTCTAAGCAGTGGTATGGTAGAGCTGCCGCCTAATAGC
Celera SNP ID:            hCV2158846
SNP Position Genomic:     15758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53681):
AAAACACAACAAAGAAAAAATAAATAACAACATAAATGCATGTGTATGTGTATGTGAAACAGAGAGAGAGAGGAACACCTAAATAAGTTATGTGTCCATA
K
GCCTGACCAGTATAGTGTCATCTACAACCAGTAAAAACCTCTTAGTAATATTATTTATGAAATAATACTTTTTCTAGCTACGACGAAAGGAAAAGGAAAA
Celera SNP ID:            hCV11911665
SNP Position Genomic:     51768
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53682):
AATCTTTTATTGATGATTCAAGAAATGCATTCCATTTGAGGGTTATAAAGGTGAACAGGTCAACTTTCTTGACCTTAGGGAACTCACAGTCCTTTAAGGA
R
AGACAGACATGCAAACAGACAGCTGTAGCTCTGTGTGAAAAGTGCAAAAGCATAGCTCTAAGCAGTGAACTGTGGGACCACAGTTCACATGGACAGAGCT
Celera SNP ID:            hCV2158848
SNP Position Genomic:     14975
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,14)   total(G,14|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53683):
GATGATACCAATAACTGTTTACCAAAGAAACCAGATAGCCTTTGTTTTGCAAATTGGGTAAAGAACTTCAGTGACAAATAAGTGATCCATGGAAATAATG
Y
TCACATCAGCTTCCTTCCCTGAATTTTTTTCTTTTAAAAAAATTAGAAGCAAAAAGGCGTATTTGTTATATTCATTGCATTGTAGAAAAACTATAAAATG
Celera SNP ID:            hCV2158849
SNP Position Genomic:     13909
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(C,-|T,-)   JBIC-allele(C,613|T,866)   total(C,613|T,866)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53684):
CCATGTATCTATGGGCAACTGATTTTTGACAACGATATAAAGTCATTCAAAGGAGAAAAATGGTATCTTCAACAAATGATGCTGGAAGGAGTGGATAGCC
R
CATGCAAAAGAATGGACTTAGACCCCAACCTCTCAACATATACAAAAATTAACTCAAAATTGATCAAATTCCTTAAATATAAGAGCTAATCTGACAAAAC
Celera SNP ID:            hCV15923566
SNP Position Genomic:     46146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53685):
GTAAAAAGTCTGACAGTTTAGAGCCAGTATGGCAGGCTGGTGATCAACAGGGACCCAAGTTCCCTTAAACATTTTGCTCTGCTATTCTTAACACATACTT
S
CATTCTCGTGGTTGCCTCATGACTTGAGGTGGCCAGGGGAGCTTTAGTCATTATGTCCCTACTGTAGAAGGATGGAACTGAGAAGAAAGGACAAAGGAGA
Celera SNP ID:            hCV7492814
SNP Position Genomic:     40094
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(C,7|G,14)   SC_12_C(G,12|C,12)   SC_12_AA(G,6|C,17)   total(G,32|C,36) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53686):
TATGTCCTTCCTGCCTTTTTGGTGTTAACGTTTCTTTGTCTTTGTGAAATGAGTGTGAAAACAGGTGGTAGTAGTTCTTTTGATGGTTAAATGGTAATGT
Y
CTTACTTAGTAAAATGAAAAGTAGGTAACCTCGTGTTTGTTATGCAGGCCCCTGCATAATGTCTACACATAAGGTCCACATGAAATATTAATGGTTATAG
Celera SNP ID:            hCV29361183
SNP Position Genomic:     50262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53687):
AGTATGGCAGGCTGGTGATCAACAGGGACCCAAGTTCCCTTAAACATTTTGCTCTGCTATTCTTAACACATACTTCCATTCTCGTGGTTGCCTCATGACT
Y
GAGGTGGCCAGGGGAGCTTTAGTCATTATGTCCCTACTGTAGAAGGATGGAACTGAGAAGAAAGGACAAAGGAGATAAATGAAGTTTTGTAGGTAAGCAC
Celera SNP ID:            hCV7492815
SNP Position Genomic:     40119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53688):
AAATAGTATACACTTCCTAGAATTATGGCATTGAAAGGGAAAAATGTGAAATGCCTGTCACATAATAAGCATTCAGCTCATGTTGGGTGTTATTAATGCC
S
TCAACAGATCTTACAGTTGAGGGTAAATATATAGATAAATAACTAACAGAAATCCAAGTGCCAAAAGTGCTCTGATACAAGACTTCATGAAGATCAGTGG
Celera SNP ID:            hCV29361184
SNP Position Genomic:     41511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53689):
GGTAAGCACATGGCCATACTCAAAAATATGGAAGGTCCCAAGCCTCAAGTTATGGAATAAGAATTTCACTACATTGACATCCACTGAAAGTGTGTTAGGT
Y
TTATTTGTCTTAGACATTTCTCAAGTTCTTCCTTGCTCCTCATGCTAGTTCAGTCTGTGACGTAAGTAATGTGCCAAGGGAAGAAAAGTCTCTGGAAATT
Celera SNP ID:            hCV7492816
SNP Position Genomic:     40311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53690):
TTAGGTTTTATTTGTCTTAGACATTTCTCAAGTTCTTCCTTGCTCCTCATGCTAGTTCAGTCTGTGACGTAAGTAATGTGCCAAGGGAAGAAAAGTCTCT
R
GAAATTCTGCAAGAACTCCCAGAGTTTGGACCCAGTTTTAGTGAATGAAATGCCATGAGGAAATGACCGAGGAACTTCCTCCACAGAGGATTGAAGGTTG
Celera SNP ID:            hCV29361185
SNP Position Genomic:     40405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53691):
CTATCCATATGGCACCTTACAGTTTATAATACACTTTCATATTCATTATCTCATTTTATCCTTATAATGGTCTCATGATATTGGCCAGGAAATTATTTTT
S
CCATGTAAGCTGATTAAACTGAGGCTTGGAGAGGCTGGTCAGCAGTGGAGTTAAAACTCTAGCCCACATCTTCTCAAACACAATGTGTTTTTCCTTCTGC
Celera SNP ID:            hCV29361186
SNP Position Genomic:     34573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53692):
CCTTCAGTGTAGAGATAAGGAAAATAGGCACAGGTCTTTTAGCCTCAGCAGACCCTCCCATGAGACCCAGATCTTCTGACTCCAGTCCAGAATCTATCCT
R
GCACTAATATAGAAAGCTTTCTGCCTATGAAATGGAAATACCAAGAAAAGCACTGAAATTTAACCTGAATGAACATATGCCCATTGACTGTTATGCATTT
Celera SNP ID:            hCV29361188
SNP Position Genomic:     28696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53693):
AAGCCCAAGGATAAAAAGATGAATAATACATGATGCTGGAGGAGGAATTCAAGGAACTAGCAAAGAGCTGCAAGAGGCCAGGTGAAAGTTATCAGAGACC
R
AATCTCAAATTTGATGAGTTAGTTACTGTTCTTTGGTAAAAGTGAATGAAAATTTTAAAGAATATGAAACTTGTTGATCAAGTAAGTTCCAATCATCTCT
Celera SNP ID:            hCV7492747
SNP Position Genomic:     32358
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,715|G,778)   total(G,778|A,715)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53694):
TCTTACACCAGCCTCACAACCAACCTGTGGGGTGTGAAGTGTTTTCCTCATTTGATAGCTGAGAAAGCTGAGGTTTGAAGACAGTAAGTATCCTAAGATA
W
CCTAAGATAAGTTACCTCAAGTATTAATATTCTTCCAAAAGGTAATAAGGGATTATTAGAAACTCTGTATCCAATTTTCCTTAAGGGAAAAACAAACCAA
Celera SNP ID:            hCV7492674
SNP Position Genomic:     22919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53695):
GAGCCCTGGAGACCTGGTTATTAGGCTTCTGATTATCAGAGCTTCTCCCCATCTTCTCAGTGCCTAGAGACCCAGATCCCCCAACAGCTTCCTGGGGTGC
Y
AGGAATCTGGCCCCAGGGGATCTGGAGGGTGGGAAGCCCAGAAATGGGCACACCATTCAAAATCAGTCAGATTTCACCTGAGGCACAAAAGACAAATTTC
Celera SNP ID:            hCV29361189
SNP Position Genomic:     23217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53696):
TAACTGTAAAAGTTCTGGTATTTTAGTTCTCTCTTTCCTAATGGAAAGTTTTTGTTTGTTTGTTTGTTTGTTTTTGTTTTTTTGTGTGTGTGTGTTGTTT
T
TTGTTTTTGTTTTTTGTTTTTTGTTTTTTGTTTTTTTTGAGACGGAGTCTCGCTCTGTGGCCAGGCTGGACTGCAGTGGCGCGATCTCTGCTCACTGCAA
Celera SNP ID:            hCV27134374
SNP Position Genomic:     52215
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53697):
AGAGTAACTGTAAAAGTTCTGGTATTTTAGTTCTCTCTTTCCTAATGGAAAGTTTTTGTTTGTTTGTTTGTTTGTTTTTGTTTTTTTGTGTGTGTGTGTT
G
TTTTTTGTTTTTGTTTTTTGTTTTTTGTTTTTTGTTTTTTTTGAGACGGAGTCTCGCTCTGTGGCCAGGCTGGACTGCAGTGGCGCGATCTCTGCTCACT
Celera SNP ID:            hCV27134375
SNP Position Genomic:     52211
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53698):
TAAACAGATTGTCCACTAGAAAGAGTAACTGTAAAAGTTCTGGTATTTTAGTTCTCTCTTTCCTAATGGAAAGTTTTTGTTTGTTTGTTTGTTTGTTTTT
K
TTTTTTTGTGTGTGTGTGTTGTTTTTTGTTTTTGTTTTTTGTTTTTTGTTTTTTGTTTTTTTTGAGACGGAGTCTCGCTCTGTGGCCAGGCTGGACTGCA
Celera SNP ID:            hCV27134376
SNP Position Genomic:     52190
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53699):
ATTAAGCAAGAACGAATGAAATAAAAATTATCCAGATAGGAGAGAAAGTAAAACTATTTCTTTTTGCATATGGTATTATCTTTTATATAGAAAAACCCTA
S
AGAATACTCTAAAAAAACTTTTAGAACTAATAAATGAGTTCAGAAAGGTTGCAAGGAATGAATTCAATGTGTTAATCAATTGTGTTTTTATACACCTGAA
Celera SNP ID:            hCV27134377
SNP Position Genomic:     45476
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53700):
GAAAGCTGAGGTTTGAAGACAGTAAGTATCCTAAGATATCCTAAGATAAGTTACCTCAAGTATTAATATTCTTCCAAAAGGTAATAAGGGATTATTAGAA
R
CTCTGTATCCAATTTTCCTTAAGGGAAAAACAAACCAATTAATCCATCAGAAGGAATCTTGAAACATCCTTAGACCTTGACAATTTTTCTTTAATGGATA
Celera SNP ID:            hCV7492679
SNP Position Genomic:     22981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(G,613|A,868)   total(G,613|A,868) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53701):
CCATATCAATAGAATAAAAACAAAAATCATATGATCATCTCAGTAGATACAGTAAAAGCATTTGGCAAAATTCAACATTATTTCATGATAAAAAAACATT
Y
AGCAACCTAGGAATAAAACCTAGGAATAAAAATAACCGTTTTCAAATCAATAAAGAGCGTCTATGAAAACCCACAGCTGATGGCATAGTCAGTGGTGAAA
Celera SNP ID:            hCV27134378
SNP Position Genomic:     45182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53702):
TTTTCACAGACTTTTCCAAAACATAGAAGAGTGGAAAACACTACCTAACTCACTGAAGTCAGCATTATCCTTATACCAAAACCACACAGAAACATGACAA
R
AAAATAAAGCTTCAGACCAGTATCTATTGTGAATATGGCTACAAAGATCCTCCAAAAACACCAACAACCTAAATCCAGCAACGTATGAAAAGAATTATAC
Celera SNP ID:            hCV27134379
SNP Position Genomic:     44922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53703):
CCAGGAGGCAAAGCACATATTTTGGCACAGCTATTATGACACAGGTGAACAAAATGTGAAAACATGGGTTTATGTTACAAGGGAGCATTCATATCACCCA
S
CCGATCGCTTGCCGCTGCTGACCCTCTCCAATTTCCAGCTTCGATATTCTCCCAAAGCCTCACCCCGCCTCTGATCTTCGCCTTGATGCTAACCCTACTC
Celera SNP ID:            hCV15878403
SNP Position Genomic:     23671
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53704):
GACTTCAGATGGGTTTTGAAGATTGGCCGGAGGCTTAACTAGGGAAAGAAAAGGGGAGTGGCTTCCTGGAGGAGAGCAGCCTGAGCAGAAGCACAGTACA
Y
AACTGAGCATGGCACATTGGATGACCCCAACAAGAAGGCCTTACCCCGGCTGGAACAAGGAGAAAGCTCAGAAATGACTGAGAAGTTCAGGAGTCAGGTT
Celera SNP ID:            hCV2158789
SNP Position Genomic:     53307
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53705):
TATCCTTACTAAGATTTTTTTAAGTGGTAAACTATATCCCTTATTTTGTTCTTCCTCCTCCTCTTCTATTAAATTTGTAATGAATTGTTAGTTAAAATAG
W
TAATTAAACAAAAACTTAAAAAGCTTTAAAAGTTAGGATTTTATAAACACCTTTATGACTTTCATATGTTTTCCACATGAAAGTATGTCAAAATTACAGA
Celera SNP ID:            hCV29361190
SNP Position Genomic:     20662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53706):
ATTCTGCCCATCTTCTGCCTTCTCTGTTTTGCCAACCATATTCCAGCTCTGCACCCTGGAGCCTCATGTCAGTCCTGCCCTTTGGATCTGCAGCTTGTGC
K
GGAAATTGCTCTCTGGCTTTCCCTTTGACCAAGGTTCACCCGGCAAATGACTCCTGGCCTCTGCTTTTCTGTGTCAGTACCTGGAACTGTGGGTGAGAGG
Celera SNP ID:            hCV15923574
SNP Position Genomic:     549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53707):
CAGTACTCTGCCTGTGTAGCTACTGACTTTCAGAATAACTTCTTACAACATAACCCAGAGGATTACAAAAGGAAAAAAAATACAGCATAGTGCTTATATG
M
ATAAGCTTTGGAGTCAGACAGAACTGGGCTCAAACCTGACTAATCATAACATGTAGATGATGATGATGATCTTCCTCTTAGGGGTCGAAGTGAGGATTAG
Celera SNP ID:            hCV29361191
SNP Position Genomic:     17091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53708):
ACAGTACTCTGCCTGTGTAGCTACTGACTTTCAGAATAACTTCTTACAACATAACCCAGAGGATTACAAAAGGAAAAAAAATACAGCATAGTGCTTATAT
R
CATAAGCTTTGGAGTCAGACAGAACTGGGCTCAAACCTGACTAATCATAACATGTAGATGATGATGATGATCTTCCTCTTAGGGGTCGAAGTGAGGATTA
Celera SNP ID:            hCV29361192
SNP Position Genomic:     17090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53709):
GCTGCAAAGTAGAATACGTCTTCCACATTCTCTTCTTCCTGAATGCCTCAGAAATACTAGAAATAGATGTTTTTATTTGAGGATTTTATAGTCACCATAA
R
TAAATAAATAATAAGTAATAAAAATAAGATGAAATAGGGTTCAAAAATCTTGTTTTTTCATGTTTTAAATTTTAAAAAACTTATGACTAAACTACCACAT
Celera SNP ID:            hCV7492824
SNP Position Genomic:     41120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53710):
AAAAAACTTATGACTAAACTACCACATTCAACCTACATTTATTAGACATATTATGTGTCAGCCTGTGTACTAGTGACATTCAAGAGAAGGTGTAGAGTTT
S
CTGGTTAAGAATGGGCAGAAGTAAAAAGTCCTAGTGTTAATCTTAACTCTACCAACAATTATCTGGCAATTTGGATCACCTTTCTGTCTGTTTCATCATC
Celera SNP ID:            hCV7492825
SNP Position Genomic:     41294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53711):
CCTTGAGGGACAGGAAAAATGCCATGAATGTCTCCATGTCACAAACTCAGCTCCAGAGCCTTGGTGGCAGTGTTCCAATGGGAAGCGATTCCTGTGGGCC
R
CCGAGAAGGGCTGAGCTCAAACACTTGCCTTTGGAGGTCCTTGTGCCCTGGAAAGTCACTGCCTTCGGATGGCCACTGTCACTCAGCCAGGAGGCAAAGC
Celera SNP ID:            hCV7492680
SNP Position Genomic:     23484
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,603|A,852)   total(G,603|A,852)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53712):
ACAATTGTATACCAATAAATTAGATAAATGAAATGGACAAATTCCTAAGAAGACACAATCTAGTAAAACCGAGTCAAGAAGAAATACACAGTCTGAATAT
R
CCTACAATAAGAAAAGATATTAAAGCAGTAATCAAAAACTATCCACAAAGAAAAGCCCAGGCCCAGAAGGGTTCACTGGTAAATTCTACCAATACATTGA
Celera SNP ID:            hCV27134380
SNP Position Genomic:     44652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53713):
CTGAAGGTTGGTTCTTTGAGAAAATAAACAAAGGTGACAAACTTTCTACTAGATTGATCAAATAAAAAAGAAACAATTTTTTTTTTTTGAGGCGGAGTCT
K
GCTCTGTCCCCCAGGCTGGAGTACAGTGGCATGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCTGAGTAG
Celera SNP ID:            hCV27134381
SNP Position Genomic:     44183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53714):
GTCACCAGATATTGCCTAACGTCCCCCAGGGTGCAAAATCACACTTGATTTACAATGACTACTTCAATTTAGTCCTCACGATATCCTACATCAATATTTC
Y
TTAGTAAGGAATTTGAGAGTCTACCACTTGTGAAAAGTTTCAAGAGTACAGTTTTCCTTTGCCTGAGCTCGTAACTACTACCCTTTACTACTTCTCATGT
Celera SNP ID:            hCV7492755
SNP Position Genomic:     33574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53715):
TTTTCTCTTTTTTGCCTGTTTATCTAAACATCCGAAGAGAAAAGCAAAAGCAGATTCTAAGCAGGTGACAATGCTAGACACCTTAGGCTCATGAAAGGGT
S
TTGAAGAAAACAGGAGAGCACCCAACTTTGTTCCAAGAGCTTTCATTTTATTTTCTATCACGTATTTTAAATAATCATTTTTGTGGTATAAAAGAAATTT
Celera SNP ID:            hCV27134382
SNP Position Genomic:     38359
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,10)      total(G,3|C,10) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53716):
ATTTGAGAGTCTACCACTTGTGAAAAGTTTCAAGAGTACAGTTTTCCTTTGCCTGAGCTCGTAACTACTACCCTTTACTACTTCTCATGTTGAGTCATTC
M
AGATATCACTGTCCCAAAACTTCAACTAAAAAGTAGGACTTAGCTTTGCCTAGAGTTGCTTGTTGATTTTTAAGTGAGAAATGCAAGAAAATGCATCTGG
Celera SNP ID:            hCV7492756
SNP Position Genomic:     33685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,4)      total(A,4|C,4) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53717):
CGTAACTACTACCCTTTACTACTTCTCATGTTGAGTCATTCCAGATATCACTGTCCCAAAACTTCAACTAAAAAGTAGGACTTAGCTTTGCCTAGAGTTG
S
TTGTTGATTTTTAAGTGAGAAATGCAAGAAAATGCATCTGGCTTTAGAGTGATCAAAGAGAAAGCAGCTGGAAGTCTACTACACCTCATCAGAGACATCA
Celera SNP ID:            hCV7492757
SNP Position Genomic:     33744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53718):
AAAATGATTTCTACATATATATATATATATATATGCTTCCAAGCGTGTTTTGTTTTTAAAAGAAGGGTGGCATCCTTAACCTAAAGAAATGGATGTCTAC
R
GATGGAATTTCCAACATTAGTGAAAGATATGTAGAGGAAATGCTTTTGCACACAGGCCTCCCTTTCAAGAGTCTGCCAACATTACAGCACATCTGTGATC
Celera SNP ID:            hCV11911602
SNP Position Genomic:     6973
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53719):
TGAATCAGATGTCATCTGTCATCCAATCACTGCACATAGGGTCACACCTTATCTTAGCTACTGAGTTTCTATCCTTAGTTGACTCATGTTGAGGAATGAG
W
GGAGCTCCTTCAAAGATCACCTCTGCCTCTGCACAGCTTTCCTCTGTTCCCAGTTTTCTCTTTTTTGCCTGTTTATCTAAACATCCGAAGAGAAAAGCAA
Celera SNP ID:            hCV27134383
SNP Position Genomic:     38205
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|T,8)      total(A,7|T,8) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53720):
CTGTGGGCCACCGAGAAGGGCTGAGCTCAAACACTTGCCTTTGGAGGTCCTTGTGCCCTGGAAAGTCACTGCCTTCGGATGGCCACTGTCACTCAGCCAG
R
AGGCAAAGCACATATTTTGGCACAGCTATTATGACACAGGTGAACAAAATGTGAAAACATGGGTTTATGTTACAAGGGAGCATTCATATCACCCACCCGA
Celera SNP ID:            hCV7492685
SNP Position Genomic:     23575
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,624|G,873)   total(G,873|A,624)no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53721):
TACTAAAAATACAAAATTAGCCGGGAGTGGTGTCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGA
R
GTTGCCATGAACTTAGATCACGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAGAAAAGAAAAGAAATTTGTCATAATTT
Celera SNP ID:            hCV27134384
SNP Position Genomic:     33139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53722):
GTCCTTGTGCCCTGGAAAGTCACTGCCTTCGGATGGCCACTGTCACTCAGCCAGGAGGCAAAGCACATATTTTGGCACAGCTATTATGACACAGGTGAAC
M
AAATGTGAAAACATGGGTTTATGTTACAAGGGAGCATTCATATCACCCACCCGATCGCTTGCCGCTGCTGACCCTCTCCAATTTCCAGCTTCGATATTCT
Celera SNP ID:            hCV7492686
SNP Position Genomic:     23621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)   JBIC-allele(C,618|A,867)   total(A,867|C,618) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53723):
ATTGCCACAAGACATCATTTTTTTCATTAGTTTACTGAAATTTTTCATGACTACAGATTCTTTTTGAAATTTGTGATAATTTGGCCAGGCATGGTGTCTA
Y
GCCTGTAATCTCAGCACTTTGGGAGGTGGAGGCAGGCAGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCACCTCTACT
Celera SNP ID:            hCV27134385
SNP Position Genomic:     32942
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53724):
CCCGATCGCTTGCCGCTGCTGACCCTCTCCAATTTCCAGCTTCGATATTCTCCCAAAGCCTCACCCCGCCTCTGATCTTCGCCTTGATGCTAACCCTACT
Y
CATCCCTGACCTCAAACCTCATCTGACCCTTATCAGAGGCCTGAACCTTTCCCTTCCCTGTGCCTCATTCCTTCCCTGACTCTCACCTGTAATTATGACG
Celera SNP ID:            hCV7492687
SNP Position Genomic:     23771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53725):
AGAAGAAAGACACCCCTTCCCACAAATAGGAAAGAAGATGACAGAGATCAGAATCTAAGAGAGTGTGAGACTAAAGACGATGAAAATTGGGCCACTCATT
C
AGCTTGTGCTGAGTTGCCTTGATTGTCCAGCAAATAAAGGGTGAAGGCATCTCCTGAAAATGAAAGTCTGATGGGGTCAGCTTAGGTAGGTGGAGAATGA
Celera SNP ID:            hCV27134386
SNP Position Genomic:     32080
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,13)   total(C,1|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53726):
TTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATTGCGCCGCTGCACTCCAGCCTAGGCACCAAAGCAAGACTCCATCTCAAAAAAAAAAAAAAAA
A
GATAGAAGAAAGACACCCCTTCCCACAAATAGGAAAGAAGATGACAGAGATCAGAATCTAAGAGAGTGTGAGACTAAAGACGATGAAAATTGGGCCACTC
Celera SNP ID:            hCV27134387
SNP Position Genomic:     31976
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,12)   total(A,3|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53727):
TTAAAGAGCAAATGGGGCCAGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGAGGCGGCGAGTGGATCACTGGAGGTCAGGAGTTCAAGACC
W
GCCTGGGAAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAAATTAGCCAGATGTGGTGGCAGTGCCTTGTAATCCCAGCTTCTCAGGAGGCTG
Celera SNP ID:            hCV27134388
SNP Position Genomic:     30290
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53728):
ACTGAGTGGCCAGGATAGTTTGGAATATAGTCACAGCAGAGCAGTGAGGAAGAAAGCCAGATCATGGAAAGGGGTTAAAGAGCAAATGGGGCCAGGCGCA
R
TGGCTCACACCTGTAATCCCAGCACTTTGGGAGAGGCGGCGAGTGGATCACTGGAGGTCAGGAGTTCAAGACCTGCCTGGGAAACATGGTGAAACCCTGT
Celera SNP ID:            hCV27134389
SNP Position Genomic:     30216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53729):
TTCTCCTACCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCTGGCCACCAGGCCCAGCTAATGTTTGTATTTTTAGTGGAGATGGAGTTTCACCATGTT
K
GCCACCTAATGGAAAGTTTTTAAAGTATAGCTTCAATCGATTAGTCAGCTAGATCATAAAGTCTACCGGGGTCAAGATTACCTTTTCTATCTTTAAAATA
Celera SNP ID:            hCV2158790
SNP Position Genomic:     52440
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53730):
AAAGTAAAAGCCCTATCTTTAAAAATACATCATCTTAAATCCATTATTAAGGTTTAACCACTGTTAGTCCCTTAGACTATATCTTTCATAATACTTTTCT
R
TGATTCAGGGCCAGGATTAGTGTGAGACAACCAAAGCAGGAATGCATCCTGTATTTAAAATTTTGAAATTTTGTTTATCATGGATTTTTTTGGCATTTAT
Celera SNP ID:            hCV16240100
SNP Position Genomic:     11630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53731):
TTGTTCTTTTAAAATCATTTTATATAAGTCCATTGAAGTCTAACTGATGCTATCTTCTGTCCACCTAGATTGGTGTCTGGTGCATATTAGGTGTACCATG
Y
TACATGACTGAATAAATACATGAGGATATATCTACCTAGCTATCTTGCTTCATAAAGAATTCCAGGTGGCTTGTGAAAACCATGCAATATAAAAGGAGCA
Celera SNP ID:            hCV25628173
SNP Position Genomic:     6328
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,36)   total(C,2|T,70)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53732):
TGTGAGGGGATGAAGGTGCTCCCTGCATCTGGCCTTGCTGTCTTCCTCATCATGGCTTTGACGTTTTCCACTGCAGCCCCCTCCCTAGTTGCAGCCTCCC
Y
CAGGACCTGGAGGAACAACTACCGCCTCGCACAGGTTTGTGAATTTTTGCCCAATTCCTTCTTGCTCCTCTGCCCTAGAAAACCTAAAAGGGCATAGTGA
Celera SNP ID:            hCV25628174
SNP Position Genomic:     6106
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,1)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53733):
TTAGTGAGTGGCCTCTGAGTACATTTCAGTCAAAGTGCAATTTTATATGTAAATCAATCATTGATCTTGATTTTTTTTTTTTTTTTTTGGAATGTCCCAT
W
GGATTTTCTGGAGACGGCAGGTTCACTTGCGGACAGGAATTCGGCCCAGCACTATTACCAGCTCCTTCCCCCAGCTCATGTCCAATGTGGATGCAGCTTA
Celera SNP ID:            hCV25628175
SNP Position Genomic:     36228
SNP Source:               Applera
Population(Allele,Count): african american(A,26)   caucasian(A,37|T,1)   total(A,63|T,1)
SNP Type:                 ACCEPTOR SPLICE SITE;hmCS


Context             (SEQ ID NO:53734):
TGAGATGGTTGCAAGAGGAAGCAATTCCATGATAAGGAAGATTAAGGAGCTACAAGCGTTCTTTGGCCTCCAAGTCACCGGGAAGTTAGACCAGACCACA
R
TGAACGTGATCAAGAAGCCTCGCTGTGGAGTTCCTGATGTGGCCAATTATCGCCTCTTCCCTGGTGAACCCAAATGGAAAAAAAATACTTTGACATACAG
Celera SNP ID:            hCV25628176
SNP Position Genomic:     14397
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53735):
TTATCGCCTCTTCCCTGGTGAACCCAAATGGAAAAAAAATACTTTGACATACAGGTAATGAGATCAAGTCTTTCCAAATTCAGAGAAAAACACCACCTCT
M
TCTTTTTCCCTTTTCTTGAAAAAATATTTTCCTTCTCATCCGTATAAAAATCCTGACACCTCACAACCATAAGAATAAGAACTTTTTACATCCATCCGTC
Celera SNP ID:            hCV25628177
SNP Position Genomic:     14544
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(A,1|C,37)   total(A,1|C,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:53736):
GTACTAGTGACATTCAAGAGAAGGTGTAGAGTTTGCTGGTTAAGAATGGGCAGAAGTAAAAAGTCCTAGTGTTAATCTTAACTCTACCAACAATTATCTG
R
CAATTTGGATCACCTTTCTGTCTGTTTCATCATCTGCAAAATGGGGGTAGAAATAGTATACACTTCCTAGAATTATGGCATTGAAAGGGAAAAATGTGAA
Celera SNP ID:            hCV7492830
SNP Position Genomic:     41360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53737):
CTCTCTTTTTCCCTTTTCTTGAAAAAATATTTTCCTTCTCATCCGTATAAAAATCCTGACACCTCACAACCATAAGAATAAGAACTTTTTACATCCATCC
R
TCAGGCAATGACAATGGGCAATTCACCAGAAAATACGGTTTTAGGATTATCATAATGACTGGCTATTTTAGGCATTCCAAACAATTTTACCAGCTAGAAA
Celera SNP ID:            hCV25628178
SNP Position Genomic:     14642
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,36)   total(A,1|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:53738):
GCATGGGGAAAACCTCAAACAGTTCAGTATGACTAGAATATAGACTAAAATCAGAACGATGGCCCAAGGAAACCAGGTTACAGATCATGTAGTGTCAATG
Y
CTTTCTAGGGAGATCAGTGTTTATTCTGCAGAGAAGAGGGACATGTTAAATACCTTCCATAAGGGAGAAACTCAATAAGATTAATGTTATAAAAATAACA
Celera SNP ID:            hCV7492831
SNP Position Genomic:     41901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53739):
TTTAACATTTTTTGAATACAACATATAATTCTTGCCTTCTTCGGAGCAGTTACTGAAAAGAAAACATGTTCCTTCCGTTTTCACAGAATATCTAAATACA
Y
ACCTTCCATGAGTTCTGTCGAGGTGGACAAAGCAGTGGAGATGGCCTTGCAGGCCTGGAGTAGCGCCGTCCCTCTGAGCTTTGTCAGAATAAACTCAGGA
Celera SNP ID:            hCV25628179
SNP Position Genomic:     19417
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,32|T,2)   total(C,66|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53740):
ACTTAGAAATAAATGAAAATTAAAATACAACATACCAGAACTTATGAGATGCAGTGAAAGCAGCACTCAGAGAAAAAAATTATAGCTATAAAAGCCTATA
Y
TTAAAAAGGAGAAAAATCTCAAATCAATAACTTCACCTTCCACTTTGAGATAATGGAAAATCAAGAACATATTAAACCTAAAGCAAGAAGAAAGAAGGAA
Celera SNP ID:            hCV7492832
SNP Position Genomic:     43915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53741):
GAGAGGATATATGCAATGATTTTAGCAGATACTCAAGATATAGTTGATTCTCAATAAAAATTGTATTTATTTCCTTAATATTGAAATTCAGTTACTATTT
Y
TTGATGGCTGGCTTACTGTGTGCCAGGAATCATGCTGAGCGTTTTCTCATATTCTCTCATTGTCCCATCCACCTTTCAACAATCTTGAGAAGTAGGTATT
Celera SNP ID:            hCV12088628
SNP Position Genomic:     49147
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53742):
AAAGCAAAATTTACCCAGAATCCCACCACCTGGAGTGTATCAGTCTGCAGGAGCTGCTATAACCAAGTACCATAGACCAGGTGGCTTAGACAACAGAAAT
K
TATTCCTCACAGTTTTGGAGGGTAAGAAGTTCAAGATCAAGGTACTGCAAGGTAAGTTTCACCCCAAGGCCTCTTTTCCTGGCTTGTAGGCAGCCGCCAT
Celera SNP ID:            hCV27134390
SNP Position Genomic:     26013
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53743):
CCAGCCTCACAACCAACCTGTGGGGTGTGAAGTGTTTTCCTCATTTGATAGCTGAGAAAGCTGAGGTTTGAAGACAGTAAGTATCCTAAGATATCCTAAG
R
TAAGTTACCTCAAGTATTAATATTCTTCCAAAAGGTAATAAGGGATTATTAGAAACTCTGTATCCAATTTTCCTTAAGGGAAAAACAAACCAATTAATCC
Celera SNP ID:            hCV27134391
SNP Position Genomic:     22926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53744):
CATATCTGCTCCTCTACCTCCCCACTTTCCCCACATGGCCTCATCATTATAATATTCTTAAATGCACACTTTGTGTCTTAGCACAGCAACTTATAAGAGA
M
AACATTTCAGAGCTATGTATTGAATTGCATTAATTGGAACACACTTGCTCTTCAGGTTTCATCCCAGGTTCCCAATTAATCCAAGAAGTAGTTGCGGGAT
Celera SNP ID:            hCV7492766
SNP Position Genomic:     33972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53745):
CATTCCTTTTTTGGATTTTATCATCAGCTTAAGTTGCCTCATTAGGGATACCTTTATTAAGCCCCTAAATGCAATGGGATATACTTCTTGTGTGTTCTCA
R
AGTATCCTGAACTTAACTCTTCGTAGCACCAATCACTCTGATCGTTACTAATCAGTCTCTACTATTAGATTGTAAACATATTGAGGGCAGGGCCGACATC
Celera SNP ID:            hCV7492767
SNP Position Genomic:     34824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53746):
ATAAATATGTGTGTGATGTGTGATTAAATTTTGCATCTTTCCTTTACAGCATATTAGTCCTGGATAGCCTTAGAAAATATAGTCATTTGTCTGTTTGTTT
R
TGTTTTTCCTTTGAGTGCAGGTTAGAATTTACACATTGGGAGAGGATGGATATAGTTTATAGTTCATATATGTGGTGCTTACCCATTTGCAGATAAGTGA
Celera SNP ID:            hCV27134392
SNP Position Genomic:     22623
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53747):
AGAGGGGATCACAGAAATGCTAAGACAATGAAAAGGGAGTAGAAACTGTTTACCAAGGTCCAAAAAGTTGTGTTTTTCCTTAAAAACATGGCAAGGGTGG
R
ATGGACATGGTCATTCATGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGGTCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATGTGG
Celera SNP ID:            hCV7492768
SNP Position Genomic:     35764
SNP Source:               dbSNP
Population(Allele,Count): SC_12_C(A,1|G,22)   SC_12_AA(A,6|G,18)   total(G,40|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53748):
TGCCGCTGCTGACCCTCTCCAATTTCCAGCTTCGATATTCTCCCAAAGCCTCACCCCGCCTCTGATCTTCGCCTTGATGCTAACCCTACTCCATCCCTGA
Y
CTCAAACCTCATCTGACCCTTATCAGAGGCCTGAACCTTTCCCTTCCCTGTGCCTCATTCCTTCCCTGACTCTCACCTGTAATTATGACGAGGCTTCATC
Celera SNP ID:            hCV7492695
SNP Position Genomic:     23781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53749):
AGTTATAAATATGTGTGTGATGTGTGATTAAATTTTGCATCTTTCCTTTACAGCATATTAGTCCTGGATAGCCTTAGAAAATATAGTCATTTGTCTGTTT
R
TTTGTGTTTTTCCTTTGAGTGCAGGTTAGAATTTACACATTGGGAGAGGATGGATATAGTTTATAGTTCATATATGTGGTGCTTACCCATTTGCAGATAA
Celera SNP ID:            hCV27134393
SNP Position Genomic:     22619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53750):
AACCCTACTCCATCCCTGACCTCAAACCTCATCTGACCCTTATCAGAGGCCTGAACCTTTCCCTTCCCTGTGCCTCATTCCTTCCCTGACTCTCACCTGT
R
ATTATGACGAGGCTTCATCAAAGAGCAGGAACCTGCCAGAGGTGACAGTCCAAGCTGTGCAGGCTCATTCTTCTGGAGCTGGGACACAGTCCTGAGAGAT
Celera SNP ID:            hCV7492696
SNP Position Genomic:     23862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53751):
TAGTTATAAATATGTGTGTGATGTGTGATTAAATTTTGCATCTTTCCTTTACAGCATATTAGTCCTGGATAGCCTTAGAAAATATAGTCATTTGTCTGTT
T
GTTTGTGTTTTTCCTTTGAGTGCAGGTTAGAATTTACACATTGGGAGAGGATGGATATAGTTTATAGTTCATATATGTGGTGCTTACCCATTTGCAGATA
Celera SNP ID:            hCV27134394
SNP Position Genomic:     22618
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53752):
CTAGTTATAAATATGTGTGTGATGTGTGATTAAATTTTGCATCTTTCCTTTACAGCATATTAGTCCTGGATAGCCTTAGAAAATATAGTCATTTGTCTGT
T
TGTTTGTGTTTTTCCTTTGAGTGCAGGTTAGAATTTACACATTGGGAGAGGATGGATATAGTTTATAGTTCATATATGTGGTGCTTACCCATTTGCAGAT
Celera SNP ID:            hCV27134395
SNP Position Genomic:     22617
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53753):
GTGTACAACCTCCCCTGGGGCTCTAGAGCAGAAGTGTGTGAACTCCAAATTCCCGTTACCATTTTGACCAACTCATTTTGAATCCTAGGACCTCGGAAAG
Y
ATTCCTGGGGAAGCCCACTCTGCCCCATGCCCCCCATCACAAGCCATCCATCCCTGACCTCTGTGACTCCAGCTCATCCTTTGACGCTGTGACAATGCTG
Celera SNP ID:            hCV7492697
SNP Position Genomic:     24646
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,26)   caucasian(C,15|T,23)   total(C,23|T,49)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,10)      total(C,3|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53754):
GCTAGTTATAAATATGTGTGTGATGTGTGATTAAATTTTGCATCTTTCCTTTACAGCATATTAGTCCTGGATAGCCTTAGAAAATATAGTCATTTGTCTG
T
TTGTTTGTGTTTTTCCTTTGAGTGCAGGTTAGAATTTACACATTGGGAGAGGATGGATATAGTTTATAGTTCATATATGTGGTGCTTACCCATTTGCAGA
Celera SNP ID:            hCV27134396
SNP Position Genomic:     22616
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53755):
TATTTTTCAAAACTGATCTTAGTAGAGGCCTAGTACTGTCTCATATAAATATAGGATAATATATATAATAAATCCCCTGACATCAGACATTAAGGTTACT
Y
CCAATTACTTATTATCTTTATATATATGTTAAAAATATGTGTGTATAATATGTAAGTAAACAATTTGCATAGTTTATATGTGGTAATATATGGTTAATAT
Celera SNP ID:            hCV303459
SNP Position Genomic:     12851
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53756):
TTGCTAGTTATAAATATGTGTGTGATGTGTGATTAAATTTTGCATCTTTCCTTTACAGCATATTAGTCCTGGATAGCCTTAGAAAATATAGTCATTTGTC
T
GTTTGTTTGTGTTTTTCCTTTGAGTGCAGGTTAGAATTTACACATTGGGAGAGGATGGATATAGTTTATAGTTCATATATGTGGTGCTTACCCATTTGCA
Celera SNP ID:            hCV27134397
SNP Position Genomic:     22614
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53757):
GTATATTGCCATTACATAAAGAGCATTCTTTCATACCATTAAATATTTATTTTTCAAAACTGATCTTAGTAGAGGCCTAGTACTGTCTCATATAAATATA
R
GATAATATATATAATAAATCCCCTGACATCAGACATTAAGGTTACTTCCAATTACTTATTATCTTTATATATATGTTAAAAATATGTGTGTATAATATGT
Celera SNP ID:            hCV11911617
SNP Position Genomic:     12804
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53758):
TCACTATCACTGTCTCAGCTGAATCAAATTTGAAAGGTCATTCTGCTAACAGGTTCACATTCCAATCAGTGGGGTAGGTTTTGCTATCGAATGCCGCCCC
M
CCGCCGCCCCGCCCCGCCCCAGTCGTTCTCCTTTTGTAATCTGTGGCACATGCAAAGTCCACAGTATCCTATGTGTCAGTTAACAGATGTCATGATAGCA
Celera SNP ID:            hCV27134398
SNP Position Genomic:     20928
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53759):
GAAGTCCTCGGTGTGTGCACCTGAGTAGACTGCATTTCACTGAAACCTGAGAAATGCCATACCAAAACTTTGTTCTGTCGGCTTTTTAAAAAAAAAAAAC
M
AACTAAAACTGGGTATCCTTACTAAGATTTTTTTAAGTGGTAAACTATATCCCTTATTTTGTTCTTCCTCCTCCTCTTCTATTAAATTTGTAATGAATTG
Celera SNP ID:            hCV27134399
SNP Position Genomic:     20548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53760):
CTTTTTTCCTTTTTACTATCTATCTTTATTTAATGAGAATGATTTTAAAAAGATAAAAACCCTTCCACGAAAGAATGCAAAGCAAGTTTGCGATAGGCCC
R
TTGACTCTTCTCGGCCACTGGGGTGCGATTTACAGATGGTTGACTGTCTTCAAGATATGGAACCATCAAAATGATGAGTGAAACCTTCATTCAATAATCC
Celera SNP ID:            hCV15969105
SNP Position Genomic:     37655
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;JBIC-allele(A,59|G,1428)   total(G,1428|A,59)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53761):
TTTCAATGCACTCATTAACCGGACACCTAGTGGCCTAAAAGCGTAGATGCAGCATCACCAAATCCCTAACTACCCACTGAGAATGCCTGACTTTGCTGTT
W
TGTGAGCATCAAATGCATCCCACAATACTCCATGATTTGGGGCAAAATGGAGATGGTCCTGACCATGGGTCTCTTTGAAGGATAGTTCTGCTGGAAGGAA
Celera SNP ID:            hCV15969106
SNP Position Genomic:     37892
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   JBIC-allele(T,709|A,780)   total(A,780|T,709) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53762):
TAGTGGTGGATTCCATGACATATATTGTAATTCTTTTCATAGGAAATGTCATTACAGTATGAATTATAATTATTTACAAGCAATGGCTTTTGTGGCCATC
W
TTTGGCCATCATTTGTTATAATAAATATAAATTTCCCAATTTTTACTTAAAAGACATCACAACAAAATACTGCATAAGAGTGGTTTCTTGTGTGTTTAAC
Celera SNP ID:            hCV15969107
SNP Position Genomic:     54089
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:53763):
CCTTACAATTCCCCTGTGAGGCCTGAAGTATTATTCCTTTTACAAGTCATAGAAAGGATAAGCAACTTGTTCAAGAGTACATAGCTAGTAAGGGGTGGAG
S
TGGAATTCAAACCCAAACTAGCAAACTTCAGAATCCGTGCCCCTAACTACCCTGCCTCCTAAGGTGCTGTCCAGAGCTGGAATCCCATGACTCTATAGCT
Celera SNP ID:            hCV3256585
SNP Position Genomic:     27845
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,8)      total(G,3|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53764):
CTTGCCACTAACTCACCGTGGCACCTGGAGCTTCTCTTCCTTTTCTATAAAGTGAGGGAGTTGTCTGTAATAATAGTGACTTAAAAGTGTTCAGTACTTA
Y
TATGCAAAGCACTATATTATCACATCCTTACAATTCCCCTGTGAGGCCTGAAGTATTATTCCTTTTACAAGTCATAGAAAGGATAAGCAACTTGTTCAAG
Celera SNP ID:            hCV3256586
SNP Position Genomic:     27719
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53765):
TACAATGTACGTATCTGCTTAGTCACCACCTTCTCATCTTCTTCCATTTCAGATTCAATGAGCTACTGGGGTAGGGCAGATGATTCCAAAGAACTAGAAC
K
AGCTATAAGCAGGATGGGGAGTCAGGAGTGGTCCCAGCACTGGACTTGCCACTAACTCACCGTGGCACCTGGAGCTTCTCTTCCTTTTCTATAAAGTGAG
Celera SNP ID:            hCV3256587
SNP Position Genomic:     27574
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,8)      total(G,3|T,8) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53766):
ATACTGAGGGTGATAACAGACTAGTAAGTGAGACATTGGTGCAAGAGACGTCTAGAAATGAAAAATCAGCAGAGGGACCGCAGGAGAGATGGCCTGCTAC
M
ATGTACGTATCTGCTTAGTCACCACCTTCTCATCTTCTTCCATTTCAGATTCAATGAGCTACTGGGGTAGGGCAGATGATTCCAAAGAACTAGAACTAGC
Celera SNP ID:            hCV3256588
SNP Position Genomic:     27477
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,7)      total(A,7|C,5) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53767):
TTTGACATAGTCTTGATTATAAATACTGAGGGTGATAACAGACTAGTAAGTGAGACATTGGTGCAAGAGACGTCTAGAAATGAAAAATCAGCAGAGGGAC
Y
GCAGGAGAGATGGCCTGCTACAATGTACGTATCTGCTTAGTCACCACCTTCTCATCTTCTTCCATTTCAGATTCAATGAGCTACTGGGGTAGGGCAGATG
Celera SNP ID:            hCV3256589
SNP Position Genomic:     27455
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53768):
TTTTTTATTTTTCAATGGGCTGTTACTCATTGACAAATGAACTTCCCATTATAACAAATAAATACTGAAAAGTGAATTTAAGTGTCAATGCTACTCAAAA
Y
GTCCCTTTTCTGTAATATGATGCGCCCCTCAGAATTTCTAGAAGGACTCAATCTTGTTGGCCTTTCTCCCCACTTGTTTAGATCACGGGGATTCCTATCC
Celera SNP ID:            hCV25628183
SNP Position Genomic:     21194
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,36)   total(C,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:53769):
AATACTGAAAAGTGAATTTAAGTGTCAATGCTACTCAAAATGTCCCTTTTCTGTAATATGATGCGCCCCTCAGAATTTCTAGAAGGACTCAATCTTGTTG
R
CCTTTCTCCCCACTTGTTTAGATCACGGGGATTCCTATCCATTCGATGGGCCTCGGGGGACTCTAGCCCATGCATTTGCTCCTGGAGAAGGCCTGGGAGG
Celera SNP ID:            hCV25628184
SNP Position Genomic:     21254
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,2|G,34)   total(A,2|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:53770):
CTCTCTCATATTGTCTAGGTTTTAATTTGTTTACCGTTGCTGCTCATGAATTTGGCCATGCCCTGGGCCTGGCCCATTCCACAGACCCATCAGCACTGAT
R
TACCCAACTTATAAGTACAAGAATCCCTATGGATTCCACCTCCCCAAAGATGATGTGAAAGGGATCCAGGCATTATACGGTAAGATTATTACCTTCTTTG
Celera SNP ID:            hCV25628185
SNP Position Genomic:     22290
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,37)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53771):
CCACAGACCCATCAGCACTGATGTACCCAACTTATAAGTACAAGAATCCCTATGGATTCCACCTCCCCAAAGATGATGTGAAAGGGATCCAGGCATTATA
Y
GGTAAGATTATTACCTTCTTTGATGACTCACCCTGAAATTGGCAGGCATTCAGTCTCCGAATTAAAGAAAGTGCATTTTATCTGCATTGGTAAAGATCAA
Celera SNP ID:            hCV25628189
SNP Position Genomic:     22368
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,4)   caucasian(C,36)   total(C,60|T,4)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:53772):
GGAGACATTGCTACTCACCTTACAGAAATAAAAAAGGTCATAAAGGAATACTATGAACAATTGTATACCAATAAATTAGATAAATGAAATGGACAAATTC
M
TAAGAAGACACAATCTAGTAAAACCGAGTCAAGAAGAAATACACAGTCTGAATATACCTACAATAAGAAAAGATATTAAAGCAGTAATCAAAAACTATCC
Celera SNP ID:            hCV7492843
SNP Position Genomic:     44596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53773):
TCATCTAACTTTTCTGTAATCAGAATGGAAAAAGGCCCCCAAATGAAGACTAATCAAATGTTTCAGTTGAGTTGGGTTCAAATCAATCAAGTTTACTTCA
R
TTTTTGTAACTAGCTGACCAACTTCATTAAAAGTGACTGTTTTTCTCCTTTTGCCACTTGGTAAATAACAAAAAAAATATGAAGCTTTCCCTGATTCCTG
Celera SNP ID:            hCV27856804
SNP Position Genomic:     5726
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,26)   total(A,53|G,1)
SNP Type:                 hmCS


Context             (SEQ ID NO:53774):
ACCCTCATCTGGGATTGTACATGGCAGCTTCCTCCTCTCCTGCCTTCTCTTCATTCCCGATCACTGTCCTACCTGCCCTTCTCTAGTATAGATCACAAAG
S
CCACTTCATTCATGAAAGTCATGTGATTTCTGGCTGAAATCATTAACTTCAAAATGGAATTTCAGATTTCTATTTCATTGTCCCTCCTGACCCACACTGG
Celera SNP ID:            hCV7492845
SNP Position Genomic:     48456
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(G,1|C,12)   SC_12_C(C,11|G,12)   total(G,13|C,23) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53775):
TTTTAGGTATTTTAAGAGCCCGATTTAAACAACAAGGGCCAGGCCCAGTGGCTTATTCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGTGGGAGGATT
K
CTTGAGACCAGGAGTTTGAGACCAGCCTGGGCAACATGGCAAGACCCTGTCTTTATAAAAAATAAAAATTAGCCAGGGTGTGGTGGTACATGCCTGTAGT
Celera SNP ID:            hCV2158801
SNP Position Genomic:     51439
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,12)   total(G,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53776):
GTATTGCTTACTACCCACTTAGGCTATATGGTATACCCTGTTGCTCCTATAGCTCCTACAGACCTATACAACATGATACTGTACTGAATACTGTAGGCAA
W
TGTGATACAATGGTAAGTATTTGTGTATCTAAACTTAGAAATGGTACAGTAAAAATACAGTGTTATAATCTTATGGGACCACTATCATGTACATGGTCTG
Celera SNP ID:            hCV2158802
SNP Position Genomic:     47512
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53777):
TCTAGCCCTTTACTATTTGAGTGACTTTGGAAAGTTATCTAATGGCTCTGAGCTCCATTTCTTCCTCTGCAAAGTGATTATAGCAATATAAACCTTGAAG
R
TGCGTTGTGACAATGGCGAGCCAATGGAAGTTATCCAGTAGGTGATAACTATCAGTTTTAGCTTATATGTTCTTGATACTGAGGGATAAGGTTAGAAAGC
Celera SNP ID:            hCV7492777
SNP Position Genomic:     36925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53778):
AGAAAATGTAAGATAAATCTTCGTGATCTTGGATTTAGCAATGAATACTCAGATACAACATGAAAAGCATAAGCCAAAAAGAAAAAAAGGACAAGTTGGA
Y
TTACTCAAAATTAAAAACTTTTCTGCTTCACAGTACACTATCAACAAAGTAAAAAGACAACCCAGGGAATGGGAAGAAATGTTTGTAAGTCATATATCTG
Celera SNP ID:            hCV2158803
SNP Position Genomic:     46354
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53779):
ACATTTCAGTTGCTCTTTGTCCTCAAGTTGGGTATGAAATGCCACCCTACATTTGTTATACCCGACATTGTGTAACAATGGAAATGATGGCAGTGGCCCT
S
AGAACCAAGCCTGTTAGGCTAGTAAGGCACTGTGTTAGGTGATAGTGCCTAGGGAGCTAGAAACATGGTCCCTGCCACACAGGACCTCTGCTCAGAGTGA
Celera SNP ID:            hCV2158804
SNP Position Genomic:     36567
SNP Source:               Applera
Population(Allele,Count): african american(C,13|G,17)   caucasian(C,19|G,21)   total(C,32|G,38)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,4)      total(G,4|C,4) ;JBIC-allele(G,680|C,745)   total(G,680|C,745)no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53780):
TGAGTGACTTTGGAAAGTTATCTAATGGCTCTGAGCTCCATTTCTTCCTCTGCAAAGTGATTATAGCAATATAAACCTTGAAGGTGCGTTGTGACAATGG
Y
GAGCCAATGGAAGTTATCCAGTAGGTGATAACTATCAGTTTTAGCTTATATGTTCTTGATACTGAGGGATAAGGTTAGAAAGCAAGTGCCAATTTAAGTA
Celera SNP ID:            hCV7492778
SNP Position Genomic:     36942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53781):
GAAATGGCAGGGCTGCAGTGCCCCATTCATTTGGCATATCTAGCCCTGCCAGCATTTTTCCAGTCATCATGGAGCACATTTCAGTTGCTCTTTGTCCTCA
R
GTTGGGTATGAAATGCCACCCTACATTTGTTATACCCGACATTGTGTAACAATGGAAATGATGGCAGTGGCCCTGAGAACCAAGCCTGTTAGGCTAGTAA
Celera SNP ID:            hCV2158805
SNP Position Genomic:     36492
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,21)   caucasian(A,15|G,25)   total(A,24|G,46)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;JBIC-allele(A,565|G,922)   total(G,922|A,565)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53782):
AATGTTATTGCTTTCTTAAGGCATAACTAGGGACTTTTGCCTCCAGGGAAGTTTGAAGTCTTTTACTGAACTGAATAGTTAGAAGCTTATATCTCTTGTT
R
GGTTATAGCCATGGCAAGTATCCCATAAACTAACCCCATTTAAGAGCCTTCATAGAAATCTTTATGAGAGAAGTGCATCACCAAGTGGTGCAGAGTTTTC
Celera SNP ID:            hCV7492779
SNP Position Genomic:     37267
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,21)   caucasian(A,17|G,19)   total(A,30|G,40)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)   JBIC-allele(G,713|A,784)   total(G,713|A,784) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53783):
CTGAGAGGGGCACTGCTTACTTCTTCAAAGGTACCCTACAGATCCCTCAAAGAAAGAAATGGCAGGGCTGCAGTGCCCCATTCATTTGGCATATCTAGCC
Y
TGCCAGCATTTTTCCAGTCATCATGGAGCACATTTCAGTTGCTCTTTGTCCTCAAGTTGGGTATGAAATGCCACCCTACATTTGTTATACCCGACATTGT
Celera SNP ID:            hCV2158806
SNP Position Genomic:     36437
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,8)   caucasian(C,30|T,10)   total(C,50|T,18)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53784):
CCATGTAAGCTGATTAAACTGAGGCTTGGAGAGGCTGGTCAGCAGTGGAGTTAAAACTCTAGCCCACATCTTCTCAAACACAATGTGTTTTTCCTTCTGC
M
CCATGATGCCTCTTACGAAACATGAGGAAATATTTATCTTTTCCCAATACATTCCTTTTTTGGATTTTATCATCAGCTTAAGTTGCCTCATTAGGGATAC
Celera SNP ID:            hCV2158807
SNP Position Genomic:     34674
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,12)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53785):
GGTGTTTAAAGCAGGGTTTCTTAACATTGACACTACTGGTATCTTGAGCCAGATAAGTCTTAGTTGTGTTGAGCTGTCTTTTGCATTAGGATGTTTAGTG
R
CATCCCTGGCTGTACTCATTAGACTCCAATAGCACTGCTCATCCCCACCTGTGACAACCAAAATTGTCACCAGATATTGCCTAACGTCCCCCAGGGTGCA
Celera SNP ID:            hCV2158808
SNP Position Genomic:     33408
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53786):
GTGAAAGTTATCAGAGACCGAATCTCAAATTTGATGAGTTAGTTACTGTTCTTTGGTAAAAGTGAATGAAAATTTTAAAGAATATGAAACTTGTTGATCA
R
GTAAGTTCCAATCATCTCTCTGGCACCCGTTCATTTAGCCAACAAATGTGTATTGAACCCTGACTATGTGCCAGCATAGCATAAGATAGTGGGTACATGA
Celera SNP ID:            hCV2158809
SNP Position Genomic:     32439
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53787):
GGCTCTAGAGCAGAAGTGTGTGAACTCCAAATTCCCGTTACCATTTTGACCAACTCATTTTGAATCCTAGGACCTCGGAAAGTATTCCTGGGGAAGCCCA
M
TCTGCCCCATGCCCCCCATCACAAGCCATCCATCCCTGACCTCTGTGACTCCAGCTCATCCTTTGACGCTGTGACAATGCTGGGGAAGGAGCTCCTGCTC
Celera SNP ID:            hCV7492701
SNP Position Genomic:     24664
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,25)   caucasian(A,14|C,22)   total(A,23|C,47)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,11)      total(A,3|C,11) ;no_pop(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53788):
TGCTGCCATTGCATGAAGTCCTCGGTGTGTGCACCTGAGTAGACTGCATTTCACTGAAACCTGAGAAATGCCATACCAAAACTTTGTTCTGTCGGCTTTT
W
AAAAAAAAAAAACAAACTAAAACTGGGTATCCTTACTAAGATTTTTTTAAGTGGTAAACTATATCCCTTATTTTGTTCTTCCTCCTCCTCTTCTATTAAA
Celera SNP ID:            hCV27134400
SNP Position Genomic:     20534
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53789):
GCCTCATCTCCACTCCCAGACAAACGTCGTCCCACAGGTCCTTGTTGCTGCCTTGTATGAAGATCATGCAGAAATGCTGTCCTATGCAGCAGAAGGGTGG
K
AGGCAGGGGTCTTTGGGGGAGATAGAGAACTGCCAAAACTACTGTTTGTGGTGCACCTACTGTGGTCTTGCTACTGTGCTAAGTTATGTCCATATATGGA
Celera SNP ID:            hCV7492702
SNP Position Genomic:     24909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,9)      total(G,3|T,9) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53790):
CAACATGGTGAAACCCCGTCTCCACCAAAAATATAAAAATTAGCCCGGCGTGGTGGCGGGCACCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGA
R
TCAATTGAACCTGGGAGGCAGTGGTTGCAGTGAGCAGAGATCATGCCATTGCACTCCAGCCTGGGCGACAAGAGCAAAACTCCATCTCAAAAAAAAAAAA
Celera SNP ID:            hCV27134401
SNP Position Genomic:     18463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53791):
AGAACTGCCAAAACTACTGTTTGTGGTGCACCTACTGTGGTCTTGCTACTGTGCTAAGTTATGTCCATATATGGACAATATTTATTGTAACCTTTTTCAC
Y
GTAGAGATTAGAATCCCTAATGTGCAGATAAAGAAAGCAGCTCAAAGACAGCAAGCAAGTTTCCCAAGGTGACAGTTAAATGGCTGAGCTAGGACACCAG
Celera SNP ID:            hCV7492703
SNP Position Genomic:     25035
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;SC_12_C(C,0|T,15)   SC_12_TT(C,1|T,16)   total(C,1|T,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:53792):
CCCTGCTGTGCTCAGGGTACGGAGTCTGGAATTCCCTCTCCCACAGCCAGACCTGATTCTGGGAGCCAGCGCAGACTTCCTCCCCAGGTTGGTCCAACCA
A
GGGCAAACTATGTATGGTACCTGCCCCTCAGCCTGAGGTAGGGGTGGATGGTGCCTGCCTGCGTGGGCCTCATGCATGACAGATGGGTGCAGGTCAGAAA
Celera SNP ID:            hCV27134402
SNP Position Genomic:     15358
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53793):
CCACTCTTAGCCCCAAGCTCCCCTCACTCCTTCCCTGCCCTCTTTCTTCCCTCCCCTAATCCTCTGGCTTCATCCCTTATAAACCAAGGGGACACACCCA
R
CCAGAACCTCTGTCCCTCCCTGCTGTGCTCAGGGTACGGAGTCTGGAATTCCCTCTCCCACAGCCAGACCTGATTCTGGGAGCCAGCGCAGACTTCCTCC
Celera SNP ID:            hCV27134403
SNP Position Genomic:     15240
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53794):
AAATTCCCGTTACCATTTTGACCAACTCATTTTGAATCCTAGGACCTCGGAAAGTATTCCTGGGGAAGCCCACTCTGCCCCATGCCCCCCATCACAAGCC
W
TCCATCCCTGACCTCTGTGACTCCAGCTCATCCTTTGACGCTGTGACAATGCTGGGGAAGGAGCTCCTGCTCTTCAAGGACCGGTAAGCCTCAGACACGC
Celera SNP ID:            hCV25628190
SNP Position Genomic:     24692
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,1)   caucasian(A,38)   total(A,71|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53795):
TTGTGTGACTGTAAGGAACATGGCTGTGCTGCAGCCAAGCGGGCATAGGCCAAGGTAAACATCCTGCGTGACTCAGCGAGTTTAGGGTGCAGGCGTACAT
Y
TCCACTTGTTATCACAGCCATGTAGCCATAACATGGGAAGGCCATCACTTAGCTCTAAGCCACTATTGTCTGTAAAAGGTATAATTGCCCTGCTGACATT
Celera SNP ID:            hCV27134405
SNP Position Genomic:     10049
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53796):
CCAGCTCATCCTTTGACGCTGTGACAATGCTGGGGAAGGAGCTCCTGCTCTTCAAGGACCGGTAAGCCTCAGACACGCCACCGACTCTCATTGGGCCTCA
Y
CTCCACTCCCAGACAAACGTCGTCCCACAGGTCCTTGTTGCTGCCTTGTATGAAGATCATGCAGAAATGCTGTCCTATGCAGCAGAAGGGTGGTAGGCAG
Celera SNP ID:            hCV25628191
SNP Position Genomic:     24815
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,30)   caucasian(T,38)   total(C,4|T,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:53797):
TAGATAATTCCAAGGCCAGCATTCTTCCGAAACTGCTCCTTTTCAGTGCCTCCGGGCCTTTCACAGAGAAGGCAGATCCCTCTTCTCCCCCAACTCTGGT
W
TCTTGGGGAGTAAGGCTGTTGTCTCCATGATGCTGGTTACTCCAAATACTTCTTTCCATGGAGGCAAAGAGAAACATAGCAACATTCACCCCATTCCTCC
Celera SNP ID:            hCV7492708
SNP Position Genomic:     25411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53798):
GGCAAAGAGAAACATAGCAACATTCACCCCATTCCTCCCTTTGCTGGGGACAGAATTCAATCACACCAGAATAGGCAGAGGCATCTCAGGAGCATTCATG
Y
GTGGCATTATTTTTTCTTCTTCTTCACTATTGCAAAAGTGTTTATGGAGCCCATTGTGGTTTTCAAGCAGTGTAGTCTCATGTATGAGAAGGTGTATGAG
Celera SNP ID:            hCV7492709
SNP Position Genomic:     25574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53799):
GAGTCTCGCTCTGTGGCCAGGCTGGACTGCAGTGGCGCGATCTCTGCTCACTGCAACTTCTGCCTCCCAGATTCGAGCGATTCTCCTACCTCAGCCTCCC
R
AGTAGCTGGGACTACAGGCGCTGGCCACCAGGCCCAGCTAATGTTTGTATTTTTAGTGGAGATGGAGTTTCACCATGTTGGCCACCTAATGGAAAGTTTT
Celera SNP ID:            hCV12088645
SNP Position Genomic:     52360
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53800):
GCCGCCCTTTCTTGCATTCTCTTTAAGCATCCTTTAGCTGACTCAGTTCCCCATTTAGTGCTTCTAAGAGGGTAGAATGGAGTCAGTTATGCCCTTGACA
K
GTGACTGAAATCAGCACAATCAAAACACCAAAAATACCTAACAAATCTAAGTTCTAAGCATGCAGATTAGGTTAAACAAAAATGCAGGCACTTTATCAAA
Celera SNP ID:            hCV7492851
SNP Position Genomic:     48722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53801):
GTGCAGCAAATAGATGCTGCTGTCTACCTCAGGGAGCCACAGAAGACCCTTTTCTTTGTGGGAGATGAATACTACAGGTATGGCTTTTTTCCTTTTTACT
R
TCTATCTTTATTTAATGAGAATGATTTTAAAAAGATAAAAACCCTTCCACGAAAGAATGCAAAGCAAGTTTGCGATAGGCCCGTTGACTCTTCTCGGCCA
Celera SNP ID:            hCV25628198
SNP Position Genomic:     37572
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:53802):
CAAGGAGAAAGCTCAGAAATGACTGAGAAGTTCAGGAGTCAGGTTCTAGGGCATGAAGACAGAAGACAAGCTAACTGCCACCTGACAAATTCACAATTCC
Y
CTTTGGTGACACTTTAAGAAAGTGACAGTGACAAATTCTTCCATTTATATATGTGCTGGACATCTTCAGTAACCCAATTTCAACTTTGTCTCTTTTAGGC
Celera SNP ID:            hCV12088647
SNP Position Genomic:     53463
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,8)   caucasian(C,17|T,15)   total(C,45|T,23)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53803):
TCTAAGTTCTAAGCATGCAGATTAGGTTAAACAAAAATGCAGGCACTTTATCAAAACAGTCCCTGAGTCCTTAGAATACAAATGTGGAGAGTAAGATAAC
R
TATCTGAAAAACTACATCAGATATCTGTTGCAGGCAATGATTTATTTAATATATATTAAATGTAAATACCTTGAATCAATATTAAATGATGTAACAAATG
Celera SNP ID:            hCV7492852
SNP Position Genomic:     48868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53804):
CTCAGCCCTGGTGATATGACTGGGATGGTGTGACTAGATACCACTTATGTTTATAAACATGGCTCATGTTGTAACAGCAGTGGTAAACACGGCAAACATG
Y
TTTCCACTTAATTTATCATGAGCATCTTCCCTTATATAACCTATTTTGTGAAACAAAAACTAGAATGTAGAGTGTAATACATAACCTAACAGGAGAACAA
Celera SNP ID:            hCV16240128
SNP Position Genomic:     11908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53805):
TACATGAGTGAATTATATGTTATGTTAACTATATCTTGATAAAGCTGTTACATTAAAAAAAAGAAGGAGATCAAAGTAGTGTGATGATCCATGGAGGTCA
Y
GCATTCTGGCAACTGTGTCAGGGACCACATGACAATGAAGCACCAGCCTGAGGACATCCAGTGCTGCACGCAACCAGCCAGATGTCCTCCTCATGTCCAG
Celera SNP ID:            hCV7492853
SNP Position Genomic:     55715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53806):
TTTTTTTGTTTATATTTTAAATCCATTCACAGATGTATAAGGAAGTTACTTGCTATCATTGTTTTTGTGAGTTTTACTTCACTTATTACTACAATCTATA
R
GTCTAAGGATGCAAATTGTCTGAGTATGTTACTGTTTTATTGCCACAAGACATCATTTTTTTCATTAGTTTACTGAAATTTTTCATGACTACAGATTCTT
Celera SNP ID:            hCV1074890
SNP Position Genomic:     32803
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,13)      total(G,13|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53807):
TGTCTGCCATCCCCCAGGCTGATATAATTACCAAGCTACTGTGAGGGGATGAAGGTGCTCCCTGCATCTGGCCTTGCTGTCTTCCTCATCATGGCTTTGA
M
GTTTTCCACTGCAGCCCCCTCCCTAGTTGCAGCCTCCCCCAGGACCTGGAGGAACAACTACCGCCTCGCACAGGTTTGTGAATTTTTGCCCAATTCCTTC
Celera SNP ID:            hCV12088577
SNP Position Genomic:     6067
SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,26)   caucasian(A,16|C,22)   total(A,28|C,48)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,7)      total(A,5|C,7) ;JBIC-allele(A,211|C,1280)   total(A,211|C,1280)   (A,-|C,-)   no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53808):
CTGATCTCAGGGGAGTGAGCAGTAATTAAACAGAGAATCAAAAAGATAGAGGCCGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCCGAG
R
CAGGCAGATCACTTGAGGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTCAAACCCCATCTCTACTGAAAAAAATACAAAAATTAGCTGGGCAGGTGT
Celera SNP ID:            hCV2158810
SNP Position Genomic:     31722
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,8)   total(G,8|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53809):
TCTATTAATAAATTTGTGGAGTAAAAACATGTCTTTTTAAAGTGTCTACAAATAAGAATAGTCCTGAATTTATAAAACACTTTCATATGCATTATTTCAA
Y
TGATCCTTTTAAGTGTTTGTGCAGATATTATTCTCACTCTTATTTGACAGTAGGAAATTGAGTCTCAGAAAAATTGAATGACTCACACGAGGTCACACAG
Celera SNP ID:            hCV2158811
SNP Position Genomic:     31465
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53810):
TGCACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACCCTATCTTAAAATAAATAAATAAATAATAAAAAGCAAATGGGGGGAAACAAAAGAGTTGAGA
Y
AGATCATTCATTTGAGAAGCTTGTTAATAACAAAAGAAGTTAAGATAATAGTTGGCAGTGGCAGCAGGGCCAAGACAGGATTTCAAAGAGGGAACTGTTC
Celera SNP ID:            hCV2158812
SNP Position Genomic:     30543
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53811):
GTGAGCTGAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACCCTATCTTAAAATAAATAAATAAATAATAAAAAGCAAATGGGGGGAAACA
M
AAGAGTTGAGATAGATCATTCATTTGAGAAGCTTGTTAATAACAAAAGAAGTTAAGATAATAGTTGGCAGTGGCAGCAGGGCCAAGACAGGATTTCAAAG
Celera SNP ID:            hCV2158813
SNP Position Genomic:     30531
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53812):
GGCCACTGGGGTGCGATTTACAGATGGTTGACTGTCTTCAAGATATGGAACCATCAAAATGATGAGTGAAACCTTCATTCAATAATCCCATTGTTTGGTC
Y
GTAGGACTTGACACATCCTGATCTTTCAATGCACTCATTAACCGGACACCTAGTGGCCTAAAAGCGTAGATGCAGCATCACCAAATCCCTAACTACCCAC
Celera SNP ID:            hCV7492787
SNP Position Genomic:     37768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   JBIC-allele(T,706|C,763)   total(C,763|T,706)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53813):
AGGTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACCCTATCTTAAAATAAATAAATAAATAATAAAAAGCAAATGGG
R
GGAAACAAAAGAGTTGAGATAGATCATTCATTTGAGAAGCTTGTTAATAACAAAAGAAGTTAAGATAATAGTTGGCAGTGGCAGCAGGGCCAAGACAGGA
Celera SNP ID:            hCV2158814
SNP Position Genomic:     30523
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53814):
TGCACTCATTAACCGGACACCTAGTGGCCTAAAAGCGTAGATGCAGCATCACCAAATCCCTAACTACCCACTGAGAATGCCTGACTTTGCTGTTTTGTGA
S
CATCAAATGCATCCCACAATACTCCATGATTTGGGGCAAAATGGAGATGGTCCTGACCATGGGTCTCTTTGAAGGATAGTTCTGCTGGAAGGAAAAGGCC
Celera SNP ID:            hCV7492788
SNP Position Genomic:     37898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53815):
ATCATGGGGCCCCCACCCTCATGACCTCATGAGTCAGGAATGTCCTCTTCCAGCACTAACCCTAATTACTTCTTGAAGGTAATACCATCCCATTGAAGGT
W
AAGGCTTCAGCATAGGAATTTGGAGGGCACATAACACAGAGCATTCCCATTGTTAAGCATATTGTTTTATGTCCCTCCTGACGTTTTCTCTGGATAGAGA
Celera SNP ID:            hCV7492710
SNP Position Genomic:     26300
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,6)      total(A,6|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53816):
TTCTGCCCATCTTCTGCCTTCTCTGTTTTGCCAACCATATTCCAGCTCTGCACCCTGGAGCCTCATGTCAGTCCTGCCCTTTGGATCTGCAGCTTGTGCG
R
GAAATTGCTCTCTGGCTTTCCCTTTGACCAAGGTTCACCCGGCAAATGACTCCTGGCCTCTGCTTTTCTGTGTCAGTACCTGGAACTGTGGGTGAGAGGC
Celera SNP ID:            hCV15822008
SNP Position Genomic:     550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53817):
CTCATCCTTTATATATTATATGTTATTCCAATGAATAGATATATCATTACTTAATCAATCCCATACTGGATTATTTCTAATTTTTAAAAATTAGAAACAG
Y
TTGAACTAAATCTTTGACAATGGACAGACATTCACTTTTCAAAGGCAAATTAGAGCTGAGCCCAGGAACCCAGGCTTTCACAGCAGAGTCAGTGGGTGGC
Celera SNP ID:            hCV7492719
SNP Position Genomic:     26628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53818):
TATTTTTAATGGCGTAGTCCAGGAAGTCCTCTCGGAGGAAGTGAACTTTGAGATGAACCTGAGCTGCATGAAAGAGCCAGTCACGTGAAGACCTGGAGAT
R
GGGCAGTCCAGACGGAGGAAACAGCAGCTGCTTGGAATGCAATCATCAGGCCCATGTGACTAGAGCTCAGAGGTCAGGAAAGAGGGTCCCAGAGGAGTCC
Celera SNP ID:            hCV7492646
SNP Position Genomic:     8838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53819):
ATCTGCCTATGCCCTCACCCCCTCCCTGAGGATTCTTTCAGCTATCTGCCACCCACCCATTCCCCTCAGACCTCAGCATGGGCTGGAACCTGACACTGAG
M
ATGACATTTAGTGTAGTCGTGGCCCCAAACCTGACCCTGGAACCTGACAGTGACTTTGCCAAAAAAGAAAAATGTTGAGGAAATGTACCTTAAGTTTCAC
Celera SNP ID:            hCV7492648
SNP Position Genomic:     10489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53820):
TTTCAGCTATCTGCCACCCACCCATTCCCCTCAGACCTCAGCATGGGCTGGAACCTGACACTGAGCATGACATTTAGTGTAGTCGTGGCCCCAAACCTGA
Y
CCTGGAACCTGACAGTGACTTTGCCAAAAAAGAAAAATGTTGAGGAAATGTACCTTAAGTTTCACCCTGTTCTGGAGCGTACTTAAACTGAGTTTTAAAC
Celera SNP ID:            hCV7492649
SNP Position Genomic:     10524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53821):
ATGTGATAAATTCATACAATGGAATATTATTTGGCCACAAAAATGAATGAAATGCTGGTACATGGTACGACATGGATGAATCTTGAGAGCATTATACTAA
R
TGAAAGATGTCAGTCATGAAAATCTGCATATTGTATAAAATGTCCATAATAGGCAAGTTAAAACAGACAGAAAGTAGATAGTGATTGTCTAGGTCTGGTT
Celera SNP ID:            hCV16022557
SNP Position Genomic:     47078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53822):
TGGGTCTCTTTGAAGGATAGTTCTGCTGGAAGGAAAAGGCCTTATTGCTTAGTCCTTTTATCCAGCCTAGAATATGAAAATCCTTCTTATCCAAAGGAAA
M
CATATAATTTCAATTCCTGTCCTCAGGGGCTTCGTATGAGCAAGTCTGAATCAGATGTCATCTGTCATCCAATCACTGCACATAGGGTCACACCTTATCT
Celera SNP ID:            hCV7492798
SNP Position Genomic:     38058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)   JBIC-allele(A,711|C,766)   total(A,711|C,766)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53823):
TTTAACCTGAATGAACATATGCCCATTGACTGTTATGCATTTGAGTTAGTAGGAAGAGCACTTCCGAGCTGTTCCTTTGCTTCCACACCCTCTGCTTGCA
R
GTGGGGCAACCAGCCACAAAGAGGAGGATGTTCATAGACTATCTAGGTTTCCCAAGGATGTCTAATATGTTTCTTCACATTTTTTTTTCCAAAATAGGAT
Celera SNP ID:            hCV2158825
SNP Position Genomic:     28855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53824):
CCTAGCACTAATATAGAAAGCTTTCTGCCTATGAAATGGAAATACCAAGAAAAGCACTGAAATTTAACCTGAATGAACATATGCCCATTGACTGTTATGC
R
TTTGAGTTAGTAGGAAGAGCACTTCCGAGCTGTTCCTTTGCTTCCACACCCTCTGCTTGCAAGTGGGGCAACCAGCCACAAAGAGGAGGATGTTCATAGA
Celera SNP ID:            hCV2158826
SNP Position Genomic:     28793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53825):
CCTTTTATCCAGCCTAGAATATGAAAATCCTTCTTATCCAAAGGAAAACATATAATTTCAATTCCTGTCCTCAGGGGCTTCGTATGAGCAAGTCTGAATC
W
GATGTCATCTGTCATCCAATCACTGCACATAGGGTCACACCTTATCTTAGCTACTGAGTTTCTATCCTTAGTTGACTCATGTTGAGGAATGAGAGGAGCT
Celera SNP ID:            hCV7492799
SNP Position Genomic:     38111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 262
Celera Gene:                 hCG41527 - 83000099133445
Gene Symbol:                 APOL3
Protein Name:                apolipoprotein L, 3;APOLIII;CG12-1
Celera Genomic Axis:         GA_x5YUV32VU5C(14599137..14631709)
Chromosome:                  Chr22
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12422):
AAACTCAGATCATACTCCTGGCCCATTTAAGAGATGGTTATCAAATTCCAATTAAATAGAGAAGTGGGTATATTTCAAAGTGTATCGTACAGTTCTTGTG
TAATCACCCTCCTGTTCCTCCCTGAAAATCTGGCAGGTGTATGGGGTGGTGGCCACGAGGCTGCAGGGACATTTGCCCAGGATGAAACAGTTCCCAGTGA
AAGGGTCATGTTGGTCAGGGTTCAGCCCCTCTCAAAACCCTTCTGCCTGGGGTAAAGCAGAAAAGTCCGCCAGCAATCCGACAGCACGCCTTCTTAGCCA
CGGGACTGTGGCTGAGCAGTGGGCTTAGGCCCCTTCCCTCTAAGTGTTACCAATAATCCTGCACTGGGATGGATTCTTAACAGAGGTGGGGATTAACAGA
GCTGGAGCTCTGGACCAGCAATCTCAGTTCCTCTGATAGTGAGCGAAGAATTGCAGACTAACACCAAAATGCAAGCTCAAGGCAAAGTGTATTGAAGCAC
AGTAATATACTCTCAGAGGGAGAGCGGAATGATTTCTGCGAAGTGAAATAAGCCCCTCTTTACAGGGTTTAAGGTGCTTTTATGGGGTTTGTGGGGAGGA
GTCAAGGTTTGGGTTGTGTCTGAGTAACAGGATGATGTCATTTGATTGGCAGTTTATGGTTATATAACTAAAATTAAACTGGCATGGTTTTACCCATCAT
TTATAAAGAAAAGCCCACTCTGGGGAAAGGAGGGTACAACCACATGTAAATTTTATTATAATGATGGTATAATGAACTTGGGGTGACCTGAGGGCATGTT
TTTGTGTTACTGGGCATGTGCCCCTTTAGGAGACTTCCACCTGTGCCTTACTTTCTCTTTCTTTGGGATGTGCTGGCCACAGACTTTACCAAAAACTCCA
TCCATTAGGATGGCATTAGGACGGTTCTGGGGCTAAACTTAGGTGGGCCAGGGGCTGTTTCACTGTCAGCCTTTCTACTCTCTTTTCTTACCCACTCCTA
GCTGCTAATGTCTATTTAACTACCTAATATTTCCCCCTTTAGAGAAAAAAAGCCAAATTTTTGGGTAGATCGGTGACAATTAATCTGGCTACTTCCTGCT
GACAAGAGGCAGTGGTAATAATTGGGTTCTCTTTTTTGCTCTCTTGTAGCTGGTAGGTTGGGCAGAGAAAAGTGGTGGCCATCCAAGGGGCCCACGTAGA
TATCAGACATGGTTGAGACCTCGCGGTAACCTTGTGTAGAATCATTTGGAGTTTTATGGATTCTAGGTGGGAAGAAACAAAACAACCTTGTAAATCAAAT
GAGCATCGTTTGAAAGCTATAAGTTGTATAAAGCTGTTTTAGGACCAAGAAAGGGGGCTAACCAGGAAAACCAGGACCAGTTGTTAAATTTCCACCAGTC
AAAGCCTCCTGAAACTCTGTTTTCCATTAACTTGTTGGCCCTGTCTGTAATTTTTTTAAGTTGGTTTGCACTTTACCTGATTGGTTGATGAAAACAGCAA
TGTTTATCAAGTGTTGCACAAGCTCCCCCTTGATTGGCTGTGAGCAAATTAAAAGCTCATCAATTTCATAAGACTATGCTTGCTAATGAAGCAATTTGTT
CTGAAAGGGTATTGACCTGGTTAGTTAGATTAATAATTTGTTGAGTAATTTTTAAGAAGAGTTTCTGGGCAGTAAAAATGGAGTTAAGGAGGTCCTCCAG
TTCCCGTGCCAATACCAGCCAGAACGCCAATTATAGTCAGTGCTGTTAAAACTCCTCTTTCAGTTTTACCAGATTGAGCGTGTATAGGGAGGGGAATGCT
ATCGATAAGAGTGAGTTTGGGGATGATGTAAACTAGGGCCAAATCCCCGTTTAATTAGCAGACAAGCAGAGATATGCCTTGTTTCTATACAAAAATGTGA
TTTGTCATGTTAAGACAAATATCAACAGTGATACTAAAGTAGGGTTTTTCCATGCTGTGTAAGTCTGCTTTAATACCCTCAGAAGTGGAAGTCAAGGCTA
GTTCATGTAATGGGGGAACACAGGCAGTACTTGACAGAATGAAAGAGGAATCAAAAGCCCAATTAGAGGAAGGAGTGATGGGATCCCAACCAATATTGTG
AAATTATGGGGAGCTGCAGTTTTTTGCAATGATTTTGCCCGAAGTTGTGAGACTGAAACCAGAAGTTGTTATGTTTAAAATGATATTCTGGTGTGGGTCT
GGGGAAAAGGGTAGATCCAGAATAGCTGGCTTCTTTCCACATAGTGGTTCTGTTGGGGGGCTTGGGAAATGAATAAAACACAAAGAAGAATTAGAATATC
AGGTATGTTTGCATTTTTTGTTGTCAGTGACTAAGCTGACACATAATTGGGTGGAAAATAGGGTACAAGTGTGATTGCAAGCCTTGGAAATATTAGGAAA
AAATCCAAGTAATGGCCTCATCCTCAATGAAGATAGAAGACAAAGGAGTGCTTAGTCAGATAGTATTACAGATAGACGACAGGTCCTCGGAGGTTGTAAC
AGGTTTGTTGGTATAGACTTTTAAGGAGTATGCAATTGACTGTGGGCTCGACCCTAGGATTGACAGCTTATTCTGGTCGGTTAACAGAAGTGGGGGCTGG
AAATGTTTCTGATTGATTCCACTCAGAAGCAGGAATGGAAATGGCTGATAGACCTCTGCTAGGGAAGGTGTAAACACAGATTCAACAGTTTCTGTGATGT
TGTGCAGTCCGTTGATGTTGTGTTTAAACAAGGTTTTAAAACTTCTTTGATGGTAGCTAAATATGGGTGTTGGAAAAAAACATTAGGAGAAATGATTGCA
AGGGTTAATCTAGTTTAAAAAGCAAAAATATTGGTTACTGCATTTAAAACAGCTATTTTAGCATAAAAAATTATTTCACCCATTCAGGAGGAGGCAATTG
AACTGCAAATATATGAGAATAACTATAACAATCCAACTTAAAGCTAATATTTAAAAAAAGGCACTAGGGAAAGTCAGTGGGCATTACTTATTTTTTGGCA
GTCTTTTAAAGAGAGGCTTGAGGTCCACTAAAGTCTCACAAGTGTATTTGTCTGTGGAGACATCATCAGTTTGGGCAGCCCTCTGTGGTTTTACATAGGA
GTGTGGATGCAGCTGGCAATCCAGAATACACAGCACTGAGATCAAGGTAGTCTCGACATCCCAATATCCTTGACCATTACCAGGAGAGAGTGTCCCCTGC
TCTTTAGATGGAGGCTCCGCCTCCCCTGGGGCAGTCTGTGTGTCTCTCAAGTTGTACCTATGTGTGGACCATGGCTGTGCCCAGCATGGAGACCCCTTCC
TACAGTGGGTACTACAGCCTTGCTGAAAACATTTGTCCCCTAGATTCTGAATAAAAGTGGTTAGAAAGAAAGAAAAGAAATGAAGCTCTGTTCAAAAGAA
AAAGGAAAAAAAATTGCAAAACGATCTTCAGAAGCTGTGCTGCTGCCTATGGCAGTGTGGCAGGGAGGGGGCCTCGGGTGGGGTGAGTGCCCAAAAGGGT
GGGCRAGGACGATTTGGGGAGTTCTCCAAAGGTTATGACCCACTATGGGCCTACCCTTCGTTCCCGGCTGTAAACCTCTAAACTTAGCATTTATCCAAGC
TATCCCATGATCTGAATCCCAATCGGCTCTCTTAATCAGTAATTTTAAAAATTGCATCCAGCCAAAATGCCCAGTCTAAAGGGAGTTGAGGGTGATTCCT
GGCTCTGTGGCCAGAGCATAAGAAACCATTTTGCCTCTCAAAGCTTCCCTGGGCTGTTAACAAGCTCTGGGCTTCAATGGCCACTACAACCTAATGAAGT
TGTTTAATCACGTTAAACAGCTAATTAAACCTAAATCCAGAGAAGATTTCTCTAAGCCCTTCTCTAAAAGTTATTGGTGGCATGTTGGGGGATATACCCC
CTCTCTAATGCAGCAAATACAACACTCATTGCAACTTCTCTTAGCCAAGCAGCGAAACATAGCACAAACATCTTGACCCAAAGCGAAAGGAAGCATTTTA
GCAAAATATGTTTCAGTTCCCCAAGCTAAAATCAAGCACATATTAAAAGCCATGCTGAACGTAAATCATCCAGGTCACAGCACTAAGATATTACCAGGAA
TTCTGCGCTGGGATGGATCCTTTAACTGAGGAGATTAACAGAGCTGGAGTTCTGGACCAGTAATCTCAGTTCTTCTGAGAGTGAGCAAACAATTGCAGGC
TAACTCCAAAATGCAAGCTCAAAGCAAAGTGTATTGAAGCACAGTTAGACACTCTCAGAGGGACAGTGGGCTAATTTCTGTGAAGTGAAGTCAGCCCCTC
TATATAGAGTTTAAGGTGCTTCTGTGCGGTTTGTGGAGAGAAGTTGAGGTTGGGGCTGTGTCTGAGTAAAGGACGATGTCATCTGATTGGCAGTTTATGG
TTATATAACTAAAATTAGGCAATGCATGTTTTTACCCATAATTTTCACAGAAAAGCCCACTCTGGGGCTTTTGTATAATAAAACCACATTTTATTATAAT
GATGGTATAATGAACTTGGGGTGACCTGAGGGCACAGTTTCATGTTACTGGGCATGTGCCCCTTTAGGGAATTTCCACCTGTGCCCTAGTTTCTCTTTCT
TCAGGATGTGCTGGCCACAAACTATACCACCAACTTCATCAGTTAGGGGGGTCTTAGAATGGCTCTGGGGCTGAACTTAGGTGGGCCAGGAGCTGTTGCA
GTGACAGGCTTTCTGCTCTCTTTTCTCCTCCCAGCTGCTAATGTCTACTTAACTGCCTGTTGGGAGCTGAAAAGGCCAAAGGGATTGTGACCAACTCAGC
ATTTCACTGGAGGCTATATGATCAAACAGCAAACTGTTTATCATGAATGCGGGATGTGGGTAAACTCACACTGCACCCGCCGCCAGAAGGTTTCCTGAGG
GCCATCACTCCCTGGTGCTGGGCTCCTTGAAGTTATCTGTTGGGATATCTAGCACCTATTATTTGAAGGATGCAGTCTTGCAAGCCTGCTGTGAACCAAA
CGGCTGACTGACAATTACCTGACAATCACCCCCCACCTTTTTCTCGTCATCTCTTTTACCTAATAAACTCAGAGAGCTTGAAAAGCTCAGAGCCCTTGTT
CACTAGAAGCAAGGAACCCCCTGACCCCTTCTTCCTAATATACTCTTTTGTCTTTGTCTTTTACTCCCACATCCACCCCCCACTTTGTTCAGTCAACCTG
GGACTGTGGCCAATTACAACAGCCTAACAAAAGTGCCACAGGAGTGGAACATGGGGCAGTGGGCTCTGCTGAAGAGGATGCTAGGGGGCTTCTCAGGGGA
GGAAATGCTAGATTTGCATTCTGATAGAGGAGCGTGACTTTTCCAGGTGAAGGTAGCAGGTGCTCCTGGCAGAAGAACCCACATAAGGAAGTGTCCAGAA
GCCACACAGGTATGGCGTTCGACAAGAGCAGGTCTGGAACGGTGGCTCATGCTGAGGCAGGAGGATCATTTGAGGCCAGAGTTTGAAACCAACCTGGTAA
AAATAGTAAGATTTCACCCCTTCAAAATCATTTTTTAAAAGTAGCCAGGCCGAGTGGCTCATGCTTGTAGTCCCAGCTACTCAGGAGGTTCATTTGAACC
CTGGAATTTGAGGCTACAGTGAGCTATTATTGTGCCACCGCACTCCAGCCTGGGTGACAGAGCCAGACCCCATCTCAAAAACAAAACAAAACAAAACAAC
AAAATAACCCCAACAGCAATACAATCAATATGCAATAAGCGTCCACCCGGCATGTGTGATGGACTGTGGTAATGCTGATGGCATGGAGGGAGTGAGGTGG
GCATCTGGGGAGTGTGGTGTTATTGGGGGTGGGGAGTAATCTGGAGGGTCTCATAGTCTTTCAGTGGTAGGTCTTTCTTCCTGAAGACACAGCAAACCCC
CAACCCTAAGTATGGGAGGCAGGTGGGTTGGCCAAGAAGGACGTCTGGGGCTGCTCTTGGATCAGCAGGAGGGTGGGACCAAGGGTGCTGCTGGACCAAG
GATGGGACTGGGCCAAGGGTGGGGCTGGGAAGCATCCTGTTTTGCATGTTTGATCAGGAGCTGCTGCCAAGTTGTGACTTTCACTTTCCCTTTTGGGTTC
CAGGGTATATCTCAGAGMCTGGAGAACGTGTCTGGTTATTATGCAGATGCACGGCTGGAGGTGGGATCCACAYAGCTCAGAACAGCTGGATCTTGCTCAC
ACTCTTTCAAGAGAAGCTTCCTTGGTAAGTTAGGGGTGGTCTGACCTTCCCCATCTCCCCATCCTCACAGCAGCTCTATAAGAGAAGGGTCATTCACCTT
TTGTAGATGAGCTCAGAGAGGTTAGGTAACTGACTGAGGTCACATCTCGGTCCATGGCAGAGCCTGAATTTGCACCCAGGTTTTAGCTGGACTTCTCCCT
CCCTCTCTCTGGGCCCCCAAACAGTAGAGACAGAGGCAGAATCAGCTCAGCTGGGTTCACAAAGCTTCCTAGGGCTCAGCTCTAGTTCCAGCCTGCGTGA
GACATGGCCCGGTGACCCCAGAAGGAAGGCAGATGTTGGGACTGTCCATTCCTTTAGAATATTTGGAGGAACCAGAGAAGGTGGAGGACAGGAGGTGATC
CAGAGCCTGGCCTGTCCTTCTTGTGGCCTGGCCACCCTGAGGCTGGCCCCAGGGTGCTGCTGCTGAGGCCCGATGGGGACAGAGGATTTCCTTTGAGATA
CAAGGAACCTGGCTGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGGCCGAGACGGGTAGATCACTTGAGGTTAGGAGTTCGAGACCTGCC
TGGCCAATATGGAGAAACCCTGCCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCACAAGCCAGTAATCCCAGCTACTTGGGAGGCTGAGGCA
TGAGAATCACTTGAACCCAGGTGATGAAGGTTGCAGTGAGTCGAGATCGCACCAGTCACTCCAGCCTGAGTGCACTCCTGACAGAGTGAGACTCTGTCTC
AAAAAAAAAAAAGAGAGAGAGAGCGAAAAGAGATAACAAGGAACCCAGAGGTTGTTTCACCCACCCTGACTCTGAGCACCTACTTGAGCCAGGCCCTGTG
GGTAAACTGAGGCCATGGGAGATGAGTGACTCGCTGAGGGTCCCATRTCAGGAAGTTGAGCAGGTAGATCACAGGACTCCATGTCCCTGACACTCACCTG
GTTCCTTTTCAGGCCTCTGGGTGATAGAGAAGAAAGAAGCTGTGCTGTTCCCTAGTGGGAAAGATGGCCCAGACAGGGGCAGTGAGAACGGCATGTTGCA
GAATGGTGTCTGCCACATGATCCCAGCTTGACAATCATGAGATTAAAAGTCAAACTGTGGAAGCGTGAGCATAACTGTGGGAGCGTGAGCTTAGCCCTCT
GTGTTTGTAGAAGCAGAAACAAACCTGGAAGATTTTGGATTATTAACATTATACTTTCTTGCTTCAATSTCAGAGTCAGGAGGTCAGGTGTTGACCTTCC
CCCTGCCCTCCAAGAGGTGTGTGACACTGGGGAAGTCACTTCCCCTCTCTGAGCCTCAGGGTTTTTCACCTGCCWKAGGGGGTTAGGATGCCCTACCCTG
CTGACYCCCAGCAGGCTGCTGACCCCATCTGGGGTGAGGTGGGAGGCGGGGCAGTGCGAGTCAGGGGAAAGTTGACATTGCAGCCCAGATGCCTGCAGGG
GCTGCAGGAAAGTGGGGAGAGCTGGAGGCCTGCATGGGCTTCTCAGATCCAGGTGATGCCCAGCAGGTGAGAGGGTGGGCCTGGCTCCTCAGAGCTCAGA
TGACGGAACATTTGCTATAAACTCAGGTGCAATTACATTTGACATGCTGGCAACCAAATAAAAGGCAAACCTTGCATATGCCACACACACACTCACAAAT
TCACACACACACACACACACACACACGCACACTCACACCTGCTATTCAGATTTCACTTCATGGAGCCCTGTGTTTCTCACCTCTGTGTCGTGGCCTCGAA
GGGTCTTTGATTCTGTGCAGCTTCTTTTCCTCCTCATTTCTTTAAGGGAGGCATCGCATTCATTAGTCTTTTTTTTCTGAYGGAGTCTTGCTCTGTCGCC
CAGGCTGGAGTGCAAGTAGCACCATCGGCTCACTGCACCCTCCGCCTCCTGGGTTCAAGTGATTCTCCAGCTCACCCTCCTGAGTAGCTGGGACTACAGA
GGCGTGCCACCACGCCCGGCTAATTTTTAGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGTTCTCGATCTCCTGACCTTGTGATCCAC
CCACCTCCGCCACCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCAGRCGCATTCCTTAGTCTTAATGGGCATAGTGTTAGGGACCCGCCTACTC
CCTATGGCAGGAGATTTAGTGATTTCTCCCTTTTTGGTGATAGAAACAACGCTGCATGGCACCCTCTAAAGCCCCTGTCCCTGCACACTTGCCCTCTGCT
CCCTGGAGGCTGAGACCTAGGAGTGGGTGCTGTGCCATGACGTGGGGGCACTTTGTAAAGTGTGCTGAGTATCGCTGACGATCCTCCAGGACACCAGAAC
CTTTCACACTCCATCAACAGTGAAGGGGCTTGTGCCACCTTTACCTCCCTAACAGTGGACATTATTAGTCACTTTAGGTTTGGCTTATCTAATGTTTCAA
AAACGTATGTCTCTGTGATCACTTACATATATGGTTCAAAAGTGAGCTTGAGTGCCTTTTCATATGGTTAACGTTAATTTCTATTTCTTCAGATCCTATC
TTTTACCCATTTTTAAATTTTATTTATTTATTTATTTATTTATGAGATGGAGTCTGGCTTTGTTGCCCAGGCTGAAGTGCAGTGGCGCAATCTCAGCTCA
CTGCAACCTCCACCTCCGGGGTTCAAGCAATTCTCCTGTCTCAGCCTCCCAAGTAGCTAGGACTACAGGCGCGTGCCTCCACACCTGGCAAATTTTGATA
TTTTTAGTAGAGTCAGAGTTTCACCATATTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTGCCAAAGTGCTGGGATTA
CAGGTATGAGCCACCGCACCTGGCTATATTTTTAGAAACTTGATTTCAGTCTTTTCATGTTGATTTGAGCATTTCTTGTGGATTGTGGACAGTTACCTTT
GCTTTAAGTATTGCAAACCGTGCTTCCTATTCTTTCATTTTATTCTGGCTCTTGAATGATGTTCTTTCTAATTTTTAATTTGTAAGAGGTAAAACTCTAT
TCAATTTTCCCTTTAAGTCTTCTGGGAATTGAGTTTTGATTCGAAAGGTCTTCCCAACTCAACATTGTTTTTAACATTTCTTCTAGTATAGTTTTAATTT
TTTCTTTCTGGGGTACACTTAGATCCCTTTGGGATTGATTTACTTATTTTTGGAGAAGAATTTGTTTCTTCTTCTTTTAAATGTAGGACCTATTTCATGG
GTACCTACTACAGACAAAGAAGAACAAGACTTTTTTGTGTGTATTCTAAGGCACAACAAGTGCAGGAAGGAAATGACCTCTTTCCCGTAAAAGTCCCTGG
CAGTAGTTGGTTGCTGCATAAGAGTGTCATGGACCCGGAGGGAGCTGGGCCCAGATGCAGGCCTGGGCCATTGCCGTGGGGGAGGGGAGGCTTGGAAACC
ATGGCTATGATTCAGAGGTTAGCTGGCTCGCGTGTTTTTAGAAATTTCTTTTTTCTTTCYCCTCGTACAAAAGTAATAAGACTGGGGAGGACACGGGAGA
AAATAAATGGAAACTCAGAAACCTGATAGAGCCACCAAAAGTACATGAAATCAGAGTCATGGTCTTATTTGTTCTTCCCCAAAAAGAGATGAGCATCTAG
ATAGCAAGGAAAAACATTCAATCCCTCAACTGAAAGTGAAACTGAAGCTGGGCCATGTTGTCCAGAGGCTGGTTGCTTTTAGTCCAAGTGCTGCCTCCCA
CACCTCGGATTTCAGCCAGGCTGTGCCACGGAGGGCAGAGGCCACCCAGGTCAGTCATAGGGGATGCAGCTGGGAACACCGCAGGGTCCCTGCCGGATGC
TCAGAGTTTAACGGGGAGACAGAGGCCCAAAGAGCCACACAGAGGTAGAGCTGCCCCCGGAAAGCAGAGTGCTCAGGGAGCCTGGGGAGGGCTGGGGGAC
GCTGCAGGGTCCAGGCAGCTTTGGCTGAGCCTCTGAGGATGGGTGACTTGCACATGGTGGGGAAGGTGGGGGAGGCATTCCAAGGGGAGGGAGCAGCCTG
AGCAAAGGCCTGAGGCTGGGAATGGGAGTGGGGGGAGTAGATGGGCTCTGGGAGGCAGGGAAGCAGGGCGTCAGTGTGTACCTGGACCCAAGGTGACTGT
GTGGGCAGGGAGCAGTGAGGAAAGTAGGAGCCCGTGTGCCCAGTTAAGGGGTTGAACTTGACCCTGGCAGGTCATTAAAGATTCCTCAGGAGACCTAGGT
ATTGTGGCTCAGGGCTGTAATTCCCGTGCTAATGCACGRAGGCTAATGCAGGAGGATCCCTCGAACCCAGGAGTTCAGGACAAGCCTGGGCAGCATAGCA
CRACCCCATCTCTGCAAAAATGAAAATAAAAAGATTGACTGACATAGTGATGCACTTGTAGTTCCCACTACTCAGAAGGATGAGGCAGGAGGATCGATTG
ATCCTAGAACGTCAACACTACAGTGAGTTATGGTGGTGCCACTGCGTTCCAGCCTGGGTAACAGAGCAAAAAAAAAAAATATTGAAAATAAAAATAAAGA
TTCCTCAGGAGGAGCACGGTGTCTTCACCCCTCTCTCCCTCTCTCTCTGCCTAAGGAGGAGGCCCCACAGCCACTTGCAGGGAGCTGCTTTGCTGAGAGT
CTCTGTCCTCTGCATCTGGAGAGCTTGGCTCAGAGCTGAGGCAGGAGGGAGGGCTCCCTGTCTGGGCCTCCTCCAGGAACTAAAGTCCCTTTCCGGGAAT
TGACCAAACTGCAGGCTTGCCCAGRGAGGACATGCTGTGTCCTAGTTCAGCTCGAGGGGCAGTATCCAGCTTCAACCCTCAGCGGATGCCCCAGACAAGA
TTCCGAGCCAGGCCAACAACGCCTAAGGAGGACGAGACCCTGGGTGTAGCTCATCAGAGGTGTCAGGTGTGGTCTGAGGCCCCAGCTCTCTCTGCCCTCC
TGCTCCTCTGCTCTGTGCTGGCTCCTGGTCCTTATGGCTCATGATGTTGAGACAGCTGCCCTGGCCTAGGGGGTCACACACTGAACAAAGCAGGAAGAAG
GGGAAGGGGAGCCCTCCTTCTATCACCCTTATCCCTTACAGCAAGAAGCACCCAGAAACCCCTCAGCACACTCCCCTAGTGCCTCTATTGGCCTCACTGT
CACCATGGTTGCATGGGGGCCCCAGACAATAGACACCTGGATGCAAGATCCCTAAGACAGAGGCAGGAAATAGGAAGAGGGAGGTGAGAGGCTTTCGATG
AGGATGCTTCTACACATGACCTTGAGRATGAAAACGCATCAGGGGGTCCCGGGAACCACTGCGTTGTTAACATAAAGTCTGGGAGCAAAGACCAGCGGCT
GGAATGGATGTGCCTGGGAGCCAGCTGAAACAGATGCAGCCGAAGCCACAGTAAAGAAGAAAGAGATAGGGGCCTGCTTGGAGCCAACCCCTACCTTTGA
GGGGCCTGACAGGGCCACCTCACAGCTGCCTGGGCTTGTTGTTGCCTCCTCACTACAGAAACCATGGAAGTCTCTAGAGTCARTGTTTCCAGGCTGGGGC
TGCCAGATCACTCCTGTAGGTGGTTGAACCAGTTGAGTTCATTCTTCTCAGTGAGGGGGACACAGGTGGAGGTCCATCGGCACCTCCATAAGGGGTGCGA
GAAGGAACCTGTTAGAATATCTGGGTTCTGGCTGGGTGATTGGCAGGAGGGCCTATGAAATGGAGCCCACTCTGGATTGGGTGTTGCAGAAAGTGGGGGG
CAAGTCTACCAGTGGGTATCTCAGCAAATCTCATCTAGAGAGAGGGAGACCAGGAAGAGGTTAGAGTTGACTTGGTGTAGAAAAAACAGGCATTCTATTT
AGCCAGGAGAGGGAGTGTTTGGTATTTTGTGGGTGGAGCAGAGACTCAGTTTCTGTCTATACTTAGACAGTATTATGAAGTCTAATTGCTCTGTCTCATT
TGCTCACAATCTCAGAGTCACCCTGTGTGTGGTTACTATTCTGTGACATTATTTCTGTCCATAGGAGAATAACACAGCCCTTCTGGGAGTCCACGCCAGC
TTCCAAATGTCTGTGGCAGCTCTTCCTTCATTCTCAACACTTACGAACAGGAACATAAATAAATAGAAGGAAAAATATCCATTTATATTAAGATGCTCTT
CTTGTTAAAACCAATTAACAATTAAACATTCTCTGTTACGATAAGTCTTTGCATTTCAAGTACCCTGTTTTAGCCTTTTCTGTATACTTTTCTCAAATGT
TCTCACTTGAATGTTAGTATCAACCCAAGGCCTTTCACAGATTCATCTTGGACCAAGTAAACATGATCATAATAATCACAATCAATTATTACTRTTGAAT
ATAAGCGGTATAAACCAAAAGTAAGATTCTAAGCCTCCCCCTCATTTMAAGGACTTCCTCCTCAGCCRGGGCTCTTAAAATTTAACCTGAAAGACTGGTT
CAGGCCRTGAAGGGAAATGGGGGTCAGACATGCTTCATTATGCCTCTCTGGCATTAATATCAACACAGGCTTTCAGTCTAATAAGAAACATTTTACAGCC
TGTTTCTCTGTGAAGCCTGCTAGCTGAAAGCTTCATCTGCAGGATAAAACTTTGGTCTCCACAACCTCTTATCRCAACTCAAACATTCCTTCCTATTGAT
CTCCGGTCTTTRGACAAACTCAACCAATTGTCAACCAGAAAACGTTTCAATTTACCTGTAGCCTGGAAACGCCCACTTTGAGTTGTCCCGCCTTTCTAGA
CCAAACCGATGTATTTCTCAAGTGTACTTRATTGATGTCTCATGCTCCCTAAGTGTATAAAATCAAGCTACACCCCAACCACCTTGGGCACATGTCATCA
GGACTTCCTGAGGCTGTGTCACAGGCATRCGTCCTCAACCTTGGCAAAATAAACTTTCTAAATTAACTGACACCWGTCTCAGATTTTCCGGGTTCACAGC
GGTTGGGACTGACCAGTGGGCATCCCTTTGAACACTGCTCTGAACATCTTTGGAAGCGTCCTTGCTTTCTGGGGTAACACATATCACAGTCTGGGGAATT
TGGTTCCCCACAAGACGTCTTGGTTCCTTTGGGTGGAAAAGAAGCCCGTATGTTGAGTGGCAAGGTGCCACTGGAAATTATACTGATTCAAGATAGGAGT
TCACTCTGATTATGCTGTTAATATTAACAGTTTAACATAAAATGACAACATCCGTACTTTTCTTAGCAGCTTGGTTACCCCAGCCACCGAGGTTTCTCTG
AAGCTGACATTTCTCCCATCAGGAGGCAGGTGTATTTCTCTTTGGCACTTGCTCACACTTCTCCATCAACTTTAAGGTGGTGGCACCACAATCCAAACCA
TTATTGAGGTTAGCAGTTACTAACTACTATAAAGTAACTTCTGTTTTGTTAAAATTTAAAAAAATCAATTAATAAGTGTATACGGTTCAGACAAATCATT
TAATAAAGAGGGCTCCACTCACTCCCTTCCCAATTAAAAGCAGCTAATTTTGATGTTCAGATTTTCCTTTTTTTWTTTTCTGAGACAGAATTTCACTCTT
GTTGCCCAGGCTGGAGTGCAATGTAGCTATCTTGGCTCACCACAAACTCCACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAG
ATAACAGGCATGCACCACCATGCCCGGCTAATTTTTTCATTTTTTTAGTAGAGACAGAGTTGCTCCATGTTGGTCAGGCTGCTCTCGAACTCCCAACCTS
AGGTGATCCACCCACCTCAGCTTCCTAAAGTGCTGGGATTACAGATGTGAACCAGTGTGCCTAGCCAGCTTTTCTTTAGGGAGTAAATCATTTTCTTTAC
ATAATATTCTTATGCTAGCAGATGAAATAGAGTGAGAGTGCATGCTCTGGAGATTGGGCACTTGAGTTTGGCTTCTGGCTGTCACTAGCTAGGGGCTCCA
GGTGAATTACTTAACTTCTCCAAGCTTTAGTTTTCCCCTCAGAACTATTAAGATGATAACAGTGCCTACGTAGGATGGTTGTTGTGAGAACTAAACGTGA
GTTTATTTAACTTTATTTCTTATGCCCTTAACTGTAGCCAGTATTTCTTGACTCTTCACTTTACAAAATGGCCATATTAATCCTCCCCCTCCTTCCTTCA
GTGTTTCACCTCCCACCTTTACCATGGAACATTAATTATACTGACTGGTAACAAGTAGATTTAGTTCTCATATGTAAATGTTCTGTTTTGTTCTAAAAGT
TAAAAGTTAACCAAGTGTTTACATTTTGGTGACGYTTTAAATCTTGCTTACTGTTGAGCTGAGTTGTACAATATGGTTGCACATGTTTTGCTGCACGGCT
TTAGTTTTTCCTGATGTTTCTAATTGCCTTTGTTTTTTCCCCCTCTTGTACTGTTTGCCTTCATGATTTCCTCAGTTTTTCTCAAACTGTGAATTATATG
CAATGTTCTATCGAGTCCCCTTTCCCTACAGAGCCCTTTCCTTCTTATTCTATCCTGGACTGGTTGCTTTCTAGGCCTGCTGCATGCCCAGCTGTGATCC
TTGCATTTCCTTCTCCCTGGGTTGATTTTTCTCTTTCACGTCTTTTTCTCTCTTGGTTTTCCTTATCCCCTCTCCATGAGTGTGCGTGCACACACACACA
CACACTCACATTCTTCCTCCTCTCAGCCTCCACAGCTCATTCTCAAGTAACTTTCTTTTCTGTTATTTACTTGTTTTTCTTTTAACAGAGACAGGGTCTT
GCTCTGTGACCTCTTGGGCTCAAGAGATTCTCCCCAGTCAGCTTCCAGAGTAGTTGGGACTAGAGGCATGCATCACCACACCTGGTTCATTTTTGTATTC
TTTGTAATGATGGGGTGTCACTATGTGGCCCATACTGGTCTAGAACTCCTGGACTCAAAGAATTCTCCTGCTTACCCTCCCAAAGTATGGGGTTATAGGC
ATGAGCCACCATGCTCAGACTCAAGTAGCTTTCTATGTAATTATTATGTATGGTAACTTTCTTATTCTATATCTAGCTCTGTTTTTGTTTTTGTTTTTTT
CTTTTTCTGTCATCCTTTTAGTTGATTTTCTGGAAAGCTTCCTTGCCTATCTTTTTGAATCTTGTCCTAGAGTTGTTTATTTTCTCAATCACCTTTTAAT
TCTCAAGAAGTCTTTTTTGTTCCATCATCTTTGTTCCTTTTCAGTACATAATGTTCTCATTTATGAATAAAACATTTTTATGTCCCTGAGGACATGGGTT
TGAGTTTTTAAAAATTATTTTCTATTTTCGCAATCATCCATTTCTTCTGGACTCATTTTTTACTTGTTATCTTGACCTTTTCCCCATTTTTTGTCTTTCT
GCTTTATCTGATCCTAGATCTATTCATATTAAAGAAAGGGGCAGGTCCACTGGCAGTCTTCCCTGTAGAGTGATGAAATGAGAACTCCTTGGCATCAGGA
TACAAAGATATTATTTCTGGGGCCTTTAGATGCAGTTATGAAGTCTCTAATTTTTTCCATTGGTGTAGACTCACGGCTACTGTGAATCCTGTATGGGTCG
TGGGGCTGGTGAACTTCTCCCCTCTCTGAGGCTCTGCTTAGCAGGCAATTCTTGGCTGAATGTGCTCTTGGTGTTGCTGTGGATTGCAGATCCCTTTACC
CCTCTCTATTCAGTTGTCACTTCTTCAGCCAGTTCTGTCTTCCAAATATCTGTTGAAGTCTCTGATCTCCTGTTTTCCTCATTCAAATTTTCATATGTAT
ATATTTTTTGAGACAGAGTCCCAGTCTGTCACCAGGGTGGAGTGCAGTGACCCAATCTCGGCTCACTGCAACTTCTGCCTCCTGGGTTCAAGCGATTCTC
CTGCCTCAGCCTCCCGGGTAACTGGGATTACAGGCACACGCCACCACGCCCAGCTAATTTGTGTGTGTGTGTGTGTGTGCATTTTTAGTAGAGACAGGGT
TTCACTATGTTGGCCAGCATGGTCTTGATCTCCTGACCTCGTGATCCACCTGCCTCGGTCTCCCAAATTGCTGGGATTAAGGCGTGAGCCACCACAACTG
GTCCATTCACATTTTCATTGGCAGCAGAGGGTGCAGAGGCAGTGTGTGTGTTCTTGAGTCCGTCTGGTTGGGTGGGAACCCAGTCTTTACACCTTAGTAG
ATTTCTGAGATTGGGCAAGTCGCTGAACATCTGTTTCAGTTTTCTTATCTGAAAATGGAAATACAAATGGTACCCACTTAATAGGCTCTTGGAAGAGGAC
TGTGAGTTATTATTTATAMCATCTTAGAGCAATTAGTGGTGCAAAGTCGAGTCCACAAATGTTCACCCCTATTTCTCATTGACTGTTATTATACCTATAA
GTGCCTTGACTAACACTGTAGTCAGATCTTGAAGGGATAGTCAATAAATGTTCTTCTACCTTCTTAGAACAATGCCTAAACATAATCAACATTTGCTTTC
TTTTTTCTCATTTCCCAAGGCAAGATCATCACAAGCAGAATGTGAAGAGTGTTTCTCTGTATAAAGATCAGCATTTATTTAGGCTGGTTGTAGTGGCTGA
TGCCTGCAATCGCAGGACTTTGGGGGGCTCAGGCAGGAGGATTGCTTGAAACCAGGAGTTGGAGACCAGCTCTGGGCAACAAAGCAAGATCCACATTTCT
AAAAAAAATTTTTTTTTAATGTGCCTAGCGTGGTGGTATGTACCTGTAGGGACAACTACTTGGGAAGTTGAAGCAGAAGCATCACTTGCAGCCAGGACAT
ACAGGCAGAAGCAAGGGGGACAAAGGGTGTCCAGCACAGCACCAGTGAATTCACCAAGACAGACACTTGGGCATAGAGTGCAAGACACAGATTTGGAATG
AGGAGTCATTTACARTAAGCATGTATGCATGAGTCAATATTTTTATATATTTAAGGGAGTRGAGCCCAGTCATGGAAGACATGGGATTTGAATCAGAAGT
CCTGGCTCTACCCCTATTGTGAAAACATGGCAAGGTTGCTTAACATTTGAGGTTTCTTCTGTTTCAAAATGGGAGCCACRGTTGCACCCATCTCCTGGCC
TGTGTGTGATCATCGAATGAGGCACATATGAGGAGCCCTGCAGATCACAGACACCCAGTACACACTGGCTRTTATCAATTAGTTATCACACATGTTGCCA
GGCCCAGGTCATTGTCAGAACGTTCCTTCCCATCTCTATTTCGGTGTATAGACTCTGTAGTTTCTGTGATTATCAGATGTCCATCCCTTCCTCTGATTAT
CTTCTCTTCATACCCCTACAGGACAAAAGGACCCTGCCTTGGTGTGAGAGTGAGGGCAGAGGGAGCTGGAGCAAGTAGAATTTCTCTAAATACCAGCTGG
CTGGGGCCCAGGAGATTAAAAAACACCGGGCTAGGTTGGTCTTGGCATTTGCTGACACGCAAAGGGATTGCAGAGATCCAGCCCCTCCAACCTCCCTCTG
TCCACAGGTGGCTCACATTCAGTCCCACAATTTGCTTTCTCCTCCTCAAGGGTTAAGAAAAAAAACGAACCCTTCCAGTCAGGTCAGTGACTGGAGAGCT
CCAWGGAAAGTCTCTCAGTGACCTGGCTGCTGGCACCATGGACTCAGGTAGGCTTGCTTCTTCCTCTTCCCTGGCTGGTTCCTACTCGCACCTAGAATGG
AGGGTGGCGTTTCCACAACTCAGTSAGCCCCAGAGGAACCCGGATGGTCAAGCAGGCCGATGAGTCTTCCCTGAGCCCCAAAAGAGGCCACATGGAGTCC
CCCGACCCAAGGGTCTGTGGGGGCATCTATGTCCTGACCTCTCCTCAGGGGAGCATGGCCCAGGTGCCCACTTCCTCCCTGCCCTGGCACCTAGCAAAYG
ACTCAAGTGGGGCACCACAGCCTTGGGGAAGTGGAAACAGCAGGGTCGGGGAGTAGGGGGAGAGCAGGGTCCAGGAGGTGCGGAGGGCTGAGAGAGGAGG
TTGACCAGCAGYCCCGACCTCTGACCTCCCGCTCTGCTCCCAGCTGACCCTGGGGTGTTTCCAGCACAGGCCAGTCCCCTCCCTCCAGCTCTTGCCCTGC
ACCAGCCCCTCTGCTCTGAGTGGCCCTGTGAAAAGAGTGACTCAGCGTCCCACTGAACTGAGCCCCATTCTGGCCTTYGCCACGTCTTCTCTGTGTCACC
TGGAGCTTCTTACCTCCCCTCACCTGGAATGCGAGTATAATATTTCCCCATGTGGTCATGAGGATCAAATAGTACATGGGTACCTGGCCCAGCCAGTGCC
TGCCACACAGTAGGGCCTCCCTAAGAGTTGGTTCCCATCCCCTTTACCTGCCACTGTTGATTCCAGGTGGAAGCCCCTTTTTGTCCCCCAGGGCGCCTGC
CCTGCACGGCCCATCACAAGCACCTGCTTACCAGGGATGACTGCCTCAGGCAGGGCCTCATTCCCATGATCTCAAATACCCCTTGTCAAAGAAAAATCTG
AGGTCCAATCGAATTTTGAAGACTTTATTTGAGGAAGAAGCAAGTCATGAAGTGGGAAACATCAAAATGAAAGACATTTCATGTTATGATGGAAAAGTGT
CAGAGGCAGGTATTTATAGGGTGAATATGGAAGTGGAATAAGGACATTATTTGATTTGTTGCAGTTGTCAAATTATGTTTTTTGGTTTACCTTGTTGGAA
AATTCCTAGTCGTGTACCCGTCTGTCAGCTGGCTGCTCATGACTGGCCGAAGTTAAGTTTTGTTTGTGCCTAACGTAAGCACCCATCTGAAACGACTCCA
GTTAAGTTCCCCATAGTTGGCAGTTTAAGGGGGGTTACAGCCWTTCTGAAGGCCTGTTTGCTTTTGTTTGCCCAGGTGTTCATTTTAAGTTTGCTTTAAC
ACCCTGGTACTCCCACCCCAGCAATAAATACACAGATCTAGTGCTGGAGGTTCCCTCCATCCAACCCTGGTTTCCTTCATCCTTTCAGTGAAGGAGGAAA
AAATAAAAGCAAAATACCCSTCACCCAAGTCAGCACTGTGTTCATTTCCCTAAGGCCTGTTTTCTCCCCTCACTGAGTTGCCTTGGCAACCAAGTCACAT
CTGCTCAGGAGCCGCCCTGGACAGCAAACTGGGCTCTGCTGAGTCCTGTCCAAGATGAGGAGAGGGCAGGGAAGATTAGAAGCCGGGACCTACCAGCCAA
CCCCGGAATCCTTCAGAAGGGCTTGGCTGGGAGGCTCAAGGAAGAAACTCTSTCTCCGAAACAAGATGATCTGTGGTTTAATAACGCGGCCAGCTGGGTT
CAGAGGTGATAGTGGGGAGCCATGTCCCCTGAGACCAGCCTGCAGAGGACAGAGGTAACACAGAAGGGCCACAGGGATCAGTGCTGAGGGTCTTGCTCCC
CTGCCCGCCTAAAGAACCCCCTCCACTGCCCATCTGAGAGCGCCCATGAGCAGCAGGAGGAATCCTCTGTGCATGGTAGTTTATTCAATGGTGTAGGGTT
GAAATATTCTTTTTCAATAAAATGTTTAAAATCCCACAGGTATACTACAGTGGAGAATGCAGGAACCACAGGCATTTTCAAAATATATGGAGTCTTCAAA
GTAATGGCAAGGGAACGCTGGCCTTGAGTCAAATCCTGAGCTTCCTGCTTGCTGGGTTGGGTGGTGTCTTTCGCTGTCTGGGTCTCAATTTCTCCTTCTG
TGAAATGAGAATGAGGCCTCGCAAGTGTGTCCACGGCAGGAAACGATTTTACCTCATGTCCCAGTGCATACATAAATCCATACTGCTTCCCAGTCCCTTC
TCTGCAGTTCCATAATTCCCAAATCCCTGCAAACCACACATTTTTGGGGCAACTCMTCTGGGCAGTAATCCTGCTGTGTACTAAGATGCTTTGTACTGAT
AATATTATGTATCCCATTTAAGGTGAATATTCATTGGTTTCTCTGTTGAAACATTTGTACCTTTGATTACAAGGTTGAAACATTTGTAGCGTTGACCAGT
GTGGGAGTGGTCAGTGATACAGCATATGCACCCTGTGTCATATTGACACAGATTGAAAATGCTGCCATCCTAAACACATCTAKATCCCAGGAATTTACAT
AAGGGTATATATATATACACCCTTATGTATATATATATTATATATATTTCAAATATCTTACAAAAGAAWACTCACTCTTGCTGTGTTCAATACACTCTGA
TATTTTCAATGCTCTTTTCTTTTTAAAATGCTGCTCTTGACAAAATGAACTATTTTCATAACCCACTGATGGGTCGAAACTCAGATTTTGAAGACACTGG
TGTAAAGCGTTTGACAATAGGCACATGGCAGRAGGAAGCGATCACTGGAATATTTCCCGTACATGGGGAGAAARCATGGTGGAAAGCTCACTTTCTGGTG
ATTCTCAGCTGAAATAGATYGGTTCCTCCACAAAGCACCRTGGCACTTCCCTGGTGAATCACTCTTCTCAGGATGCCTTAGTAAAACGCCACAGGCTGGG
TGGCTCCAACAACTGATGTATTTTCTYACAGTTCTGGAGGCAAAAAKTCCAAGGTGAAGGTGCCAGCAGGGTTGATGTCTGGGGAGGGCTCTGCTCCTGG
CTTACAGAGKCTGCCTCAGGGCTGTGTCCTCACATGGCCTTCCCAGTGTGGGGGGTGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGAGTGTGAGAGAGA
GAGAGAGAGAGAGAAAGAGAGACAGGGAGAGAGGGCTGGAAGGCAAGAGAGACAGCGAGGGCGGGGTGGGGTGAGGAGAGAGAGAGAGATCTTCTGCCTC
TTTTTTTTCTTTTAACTAGACACCAGTCCTGTAGGATTAGGGCCCTACCCTTACGACTCTCTTTAAATTAATGACTTCCTTAAAGGCTCAATCTCCAAAT
ATAGTTACTGGGGTTTARGGTCTCAGTATATGAATTTGGAGGGCACACAACTCAGTCTATAGCACTGATGCCTCCATCAAAAATACCCCATGTGACAGCT
GGTTGAGGAGGATTAACMTCGAACCACCTTATTCTCAATGCCATTTAGGCTGTAGCACACTTTCTTCCAATCTTATGCTTTTTGTTTCCAAGTAGAAAAG
AAACGCTTTACTGAAGAGGCCACCAAATACTTCCGGGAGAGAGTCAGCCCAGTGCATCTGCAAATCCTGCTGACTAACAATGAAGCCTGGAAGAGATTYG
TGACTGCGGCTGAATTGCCCAGGTAACCTCCGTGGGGTTACCTCCATGGGGCGCCCCGGCTATGCCATCCTGATCTCCCCTGGGCTAGTTTTCTCTGGCA
GGCACACCTCCTCCAGGCAGCCCCCTCTGCTGAACTTGAGAATGTCCCTCTCAGCAGTCCAGGAGGAATATTTCCTCCAAGTCCTTCGCTGGCAGTGAGT
GACCTCAGGCTGAGGGGAGAGGAAGCCCACAAGGGCAGGGTCAGTTCTGCCATCTACTGGTGATGGGAGCTTTGCAAGCTACTTGACTACTTTCTGCCTT
CCTTTCTTCATCCATTGAGCTTTATTGTGAGAAAAATAAGCTAATGCATGTAAAGTATTTAGCATAATGACTGACACATGGTAGGTGCTCCGTTAATGTT
ACCTTTTAAAAAGATTGCTGGGGAGAGACCAGGACCAAAAGTGTTTTTCTTTTTTTTTCYTTTTTTTTYTTTTTTTTTTTTTTTTGAGACAGAGTCTTGC
TTGTCCCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCYCAYYGCAACCTCCGCCTCCCGGTTTCACGCCATTCTCCTGCCCCAGCCTCCCAAGTAGCTG
GGACTACAGGCTCCGGCCACCGCATCCGGCTAWTTTTTTTTGTATTTTTAGTACAGACGGGGTTTCATCGTGTTAGCCAGGATGGTCTTGATCTCCTGAC
CTCGTGATCCTCCCGCCTCGGCCTCCCAAGGTGCTGGGATTACAGGCATGAGCCGCTGCRCCCGACCAAGTGTTTTTCTTAGAGTTGGATGCCCAGCAGG
ACTTTCTTTGAAAAAAGCCAGAAAAATCTTGACCTGATCAATGTGTGTTCCTGGAGATGCTGTCCGGGGCCCTTTTCTTCCACCTCTGAGGAACTGCACA
AACACAGCAGGATCCTCCTGCTGACMCAGAACACAGAGAGGCTGGAATGGAGTTGGACAGAGCTGGGGGTGGATCTTGGCTCTGTCCCTGCACAGCTCTG
GGGCTGTTGTTTTATGTCTTGGAGACTGGGACCTGCCATCTCTCCAATGCTAATAGTAGTTCAATCAGATGGGCRTGTGGTTAAAGCCTGAGAATGAACA
GCAGGTCARAGGTGGGGAACCAAGTAGCATGATGCCATSCAAAGACCCAGAGAGACGTTTCAGGGGCAGAGCCAGGGGTCAGGATGGGGCAGGGGTGGGC
CTGGGTTGGAGGAGCAGCAGGAAGGCTCGGGCACCAAGGCTGGGAGTAGGGTGAGAAGAGGGAGGCACTGAGGGCATGAAAKGTAACGTGGCCATGGACT
TGCAGAGGACCAGTGAGTGGGAGAGGGATATTTCTTCCCTCCCTGATTTGATCCCATCACTGATGGGCATAGTGGGCCATGGGTGACTGTTTCCCTGACA
GCATGCCTGGGAACTGGGGCRTTCTGAACTGCCATTTGGGACCCTCTTCTGTTCTACATAGAGTAGAGGAAGTGTTTCTTCGGGCCAGCTTGGAGAGTTG
GAACAAGTGTCTGCCAACTGGGTAATTTGAAGGGTTCTCAGGAGACTCACAAGTCCCCAACCAAAGAGAAAAACACTTTCTCTATCATCTTGTCCAAATG
CAGGTCTTTTCAGCATTAGTGATTTATAGAGATGATTTTCAAAGTCTCATGAGTCCATAAGAGGTTCCATGAAATTGCACATGGCATTGGYATGCACACA
GGTGAAGCTGTCACCTGCTAAGGCATTAGTTTGGCTGGYGACATGTGACAGTGAGACCCTGAAGCTTGGAGGTGCCAGGTCAGGAGGCMGTCAAGTGGCT
TGAGAGTTCATGTGCAGCCAGGACTAATAGCCAGGCCTTTCACTTTTCAGTCAAAGGGGGCAGTGGCTGGACCCAGTGGCCTTCAGTCAGAAGATCAAAG
GGCATGTGGCATTGGAAGAGAGAACATGCCAGGCAAGGTGATCTCTTCCAGTCTGAGGTTTTATTTGATAGCTTAAGGACTCAGAGTTAGTCAAAATGCA
ATGTCTGAAGGCACCCTTCYTTCTGACACCAGTTGCAGATTTGAAGGTGTTTCTTAAGCCCCCACTCAGGTTTGATAATTCACTACAAAGACTTACGTAA
CTCACTGATAACTGTTATTGCACGATTGTGGTTTATCACAGGGAAAGAACACAGATTAAAATCAGCCTAAGGAAGAGACACACAGGGCAGAGTCTGGGAG
GGTTTCAGGTGTGAAGCTTCGTTGTCCTCAGGACGCTGTGTTCTCCTGTGTGAATGTGGGACAAAACACATGGGGTGTTGCCAACCAGAGAAGCTCACCC
AGTTAAGGAAAAATTCCTGTGAATCACATTAGATCAGGAAGCCTTTATTCAGGATTGTTGTTACAGGGGAGGGAGACTGAGCCCAGCTCCCAATATAGTA
AAGACAGAGGGGGAGTCACAGCCAACACCAGGGTGAGGAGTGGGAGATGGACCAGTTCTGACTGGAGACACCAGAATGGGGGGTTTCTGCTAAACTGGCC
TAACAAGCTGCTCAACTAAAGGCAGGTAAGGAGCGGGTGAAGACCGTGATCAGACAGCAAGAATGCTCAGACAGCAAGTGGGGAGGACCCTCCCTAACTG
CCTTGGGGGATTCTTGCTGAACTGGGGCAGTACAGGCCCAGCAAGCACGGGATGGGCATGGAAGGTCAGCGCCTAGAGGAGAAAAGGCTCAGAGCAGCCT
GACTGGAGTTTGGCCAAGGAGAAAGTCTTTCTCAACCTATGCCTCAATGTACAGAGCTCTTTCTGGGGCTGGATCACAAGCTGTCCTGATGGCTGACATG
GAGTCCCCAGCCCCTCCCTGAGGTCTAACACCCTTAGTTCCCAGTTCCTTTGGAAGGCAGAAAAGATACGTAATAGCCCCAAAACCCATCACCCATAACA
TTGCTATACTGTGCTGTAGCCAAACCACCAGGGAAACAAAGATGTTCCTACCAGGCAGGACATTCCAGGGCCCCAGAGATCCCTTCCCAGGGCCCAAAGA
CAAAAGAACGACCTCTCTTCTAATAAAGTTAATCCTTCACTGTTCTATGATCCTCTGAATGAAGGTCTTTTTGCTCCGAACCCACTTCTCTTTGTTCATC
TACAAAATTTCCCCTCTCCACACACTATTGGAGGGATGATGTTGACCTCTCTTGCTTGAGGAGCCATCTTTATCGAATACCTACCACTAAAGAGCATCTG
AAGATGACTTTAAGTTTTTTATTCCCATACAGAATAAGTACTGTGGCATATCTATGATATACAAAACATGTTTAACCTTGGAAAAATTATTTTAAATTTT
TCCATTTAAAATTTAAAGCTTTATTTCCATTTGACTCATAGTAATAGCTCTGTGATTTATGTAGAACAGATCTTATTGAGCTGATTTTACAGATAAGTAA
GCTGCCTTTCTTAATCATCTGTCCTTTATTGGTACAGGGATGAGGCAGATGCTCTCTACGAAGCTCTGAAGAAGCTTAGAACATATGCAGCTATTGAGGA
CGAATATGTGCAGCAGAAAGATGAGCAGTTTAGGGAATGGTTTTTGAAAGAGTTTCCCCAAGTCAAGAGGAAGATCCAGGAGTCCATAGAAAAGCTTCGT
GCCCTTGCAAATGGTATTGAAGAGGTCCACAGAGGCTGCACCATCTCCAAYGTGGTGTCCAGCTCCACTGGCGCTGCCTCTGGCATCATGTCCCTTGCTG
GTCTTGTTTTGGCACCATTTACAGCAGGGACGAGTCTGGCCCTTACTGCAGCTGGGGTAGGGCTGGGAGCAGCGTCTGCTRTGACTGGGATCACCACCAG
CATCGTGGAGCACTCATAYACATCATCAGCAGAAGCTGAAGCCAGCAGGCTGACTGCAACCAGCATTGACCGMTTGAAGGTATTTAAGGAAGTTATGCGT
GACATCACACCCAACTTACTTTCCCTTCTTAATAATTATTACGAAGCCACACAAACCATTGGGAGTGAAATCCGTGCCATCAGGCAAGCCAGAGCCAGGG
CCCGACTCCCTGTGACCACCTGGCGAATCTCAGCTGGAAGTGGWGGTCAAGCAGAGAGAACGATTGCAGGCACCACCCGGGCAGTGAGCAGAGGAGCCCG
GATCCTGAGTGCGACCACTTCAGGCATCTTCCTTGCACTGGATGTGGTCAACCTTGTATACGAGTCAAAGCACTTGCATGAGGGGGCAAAGTCTGCATCT
GCTGAGGAGCTGAGGCGGCAGGCTCAGGAGCTGGAGGAGAATCTAATGGAGCTCACTCAGATCTATCAGCGTCTGAATCCATGCCATACCCACTGACCCC
AGACCAGTGCAGCCAGCAGGGGAGGTGAGCCATACACAGGCCACGACAAAATGCAGGCATTTTATTAGGGGGATAAAGAGGGCAAGGTAAAGTTTATGGA
GCTGAGTGTTAGTGACTTTGGCATTTCTGTAGCTGAGCACAGCAGGGGAGGGGTTAATGCAGATGGCAAGTGCACCAAGGAGAAGGCAGGAATGCTGGAG
CCTGGAATAAGGGARGAGAGGGGACTGGAGAGTGTGGGGAATAGGAAGAAGAAATTTCCTTTAGACTAACGAATATATTGGGGGGAGGAATAGAGGGGAG
GTGTGCAGGAACCAGCAATGAGAAGGCCAGGAAAAGAAAGAGCTGAAAATGCAGAAAGCCGAAGAGTTAGAACTTTTGGATACAGCAGAAGAAACAGCGG
CTCCACTACCGACCTGCCCCCGGTTCGATGTCCTTCCAAGAATGAAGTCTTTCCCTGGTGATGGTCCCCTGCCCTGTCTTTCCAGCATCCACTCTGTCTT
GTCCTCCTGGAAGTGTATCTCAGTCAGCCAGTGGCTTCTTGATGATGGCGGTGGAGGTGGTGGTTGTAGTGTGATGGATCCCCTTTAGGTTATTTAGGGG
TATATGTCCCCTGCTTGAACCCTGAAGGCCAGGTAATGAGCCATGGCCATTGTCCCCAGCTGAGGACCAGGTGTCTCTAAAAACCCAAACATCCTGGAGA
GTATGCGAGAACCTACCAAGAAAAACAGTCTCATTACTCATATACAGCAGGCAAAGAGACAGAAAATTAACTGAAAAGCAGTTTAGAGACTGGGGGAGGC
CGGATCTCTAGAGCCATCCTGCTGAGTGCCCTGTGTGTAAGTCCTAATAAACTCACCTACTCACCAAGCTGGACTTATTCGAGTCATTCCTTGGTCTCCT
GGCTCCTTTCTCGCTTTGGGAGCAAGTTCCTGTCTGAAGTTTTTGTCTGAACAGTGGTAAAGGTGATGGTGATGATGTCAGCAGACAGCAGGAGGACTTG
ACAAATGTCAGCCCTGCTTGGGGCCAGGATACACTGAGGGAACGATGACATTCCAATGAAACTCCAAATTCTGTATTGGAAAAGTCATTGATTTGTGAAG
AAAAATAAAAGGAGGCTGGGCACGGTGGCTCAGGCCTGTAATCCTGGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGTAGTTGGAGACCA
GCCAGGACAACACAGTGAAACCCCTTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGGGTGCCTGTAATCTTAGCTACTAAGGAGGCTGAGG
CAGGCGGATTGCTTGAACTCAAGAGGAGGAGGTTGCAGTGAGCCGAGATGGCGCCAATGCACTCCAGTCTGGGAGACAGAGCGAGACTCCATCCCCCGCG
TCCCCCCCCCAAAAAAAAACAAGGAAGAGAAAAGCAAAACCAGATGCCAGGAACCAATCAAGGAACTTTGTGGTGCATTGAGGAGATGAACCAGCCTGCA
GTCAAGAGACCCCGCCTCTCTGAGCCTCAGTTTCCTCATCAGCTGGGAAAGAGGGGCTGGACAAGATGATATCTCAGGTCCACCTGGCTCTCTCCTCTTG
TGTTCTGGAGATCTGGGTTCAAGCAACACTGATCTATGCCTGTGCCTTTGTGGTGCTGATGGATGGGCTCCCCTGGGCTCTCGGTGCCTGACTTCACTTC
CTCATGATCCTTCTTCCAGGGACTCAGGGAGCTAGGCCTCCATGGCCCCTTCTGCTTGTTCTTCTGGTCGGTCATTTCTGGGCGACCCCAGTGCCCAGTG
GCCTGTGAGGCACTCAGGGAAAGCTTGTAGACATCTGGCTTGGCCCAAGTGCAGGCATGGTCCCCATCTAGCAGCCAGGGCCCACGAATGACATGGGTCA
CACAAGGCTGACTAAAATCAGAGGGGCCTGTGTGTAGGTTGAGAGAAAGTCCATGAGAAATAGAGGAACAGAGAGAGATAGCCAGACAGCAAACACCCTC
ATCCAGTCTGCAAACACCCTCATCCAGTCTGCAAACACCCTCATCCAGTCAGCCCTCTCATTTCACCCAGACTCCTGCAAAAGCTTCCAGAATGGTCTTC
CCTGTTATACAGCCCTTGCCACTATCCCTGCCCATCCTCCACACTGGGCCAAKTTGCCCCGTAAGAACATAGATTTCTTCAAGCCCATGCTTCCATGTCT
TCAATGGCTTCCTATTACTCTTAGCACAAAAGCCCAGAGCCTTCATGCTGTCTAATGTAGGCTGCTGTGGCCTGAGTTCCCCTGAAGGGAGAGCCCTAGG
CAAGGCTCCCAGGCAGAGGATTTGTTTGGGAAGTGATTCTAGGAGCAGGACTGGGGTACTGGGAGGAGTGACACAGAGAAGGACAGAAGGCTGATGCCGG
GAGAAATTCTTGATAGGGTCACCCATGTGGGCGACTGGAGACCTCCTGAGGAGTCTTCAAGGAGCGTCTTCAGAATGTTCCTCTACAGGGAGGAGAGAGG
GAGGCCTGTAACCACTGCTCCTGTCCCCCATGGCCTTGCCCCAGTGGACATTAATTATCTGTATTTCCATGCATAGAATATAGAACTGCTGGGCGCCTCA
GCTGGAGCCCAGAGCAGGGGCAAGAGATACAGAATGCACAAAATCACCCCAGAACCTCTCCTAAGTCACTCGTAAAGTGCACCCAGGGCCTACTTAGTCC
TTTTTTATGTAGCATCCTGCAGAACACTTGCCTCAGTCCCTGTAACTCTCCATCAGCCAAGGCTTCCCTGACCTTCAGTTGATTCATCTATTTCTTCCTG
AAGAAGTCAACAGAGCAACGGCCACCGACTTGCCTAACGCCAGAACATTGTGTTTCATTTGTTTGTCAATTGTTCATCAATTCCTGGATAATTCCCATTC
TTTTCATACATTTCACTTAAGCTTTGAATGTTTCTGGCACTGAGTAATTTACTTCTTCAGTGATCCAGCCAGCATTTGCCCTGACACTTAGAGTTGAAAT
GCCATCAGGCTACCTGCATTTGATGCAATTCCACTGTACTGCTAGTATTGYTTAAAAATTTTTCAATTGCAAGCAACAGAAACAGAAACTATCTGTCTTA
AACAAAATAGAAGATTCATTGGATGAAAACTAGAGCAGGTCAGAGGATGGAAGGAAGAACAAAATCTACAGAATTTGGAAGGACAGGAGCAGACCATTAC
CAACATCAGGAATATATGGTTTGCCCTTTCAGGGCTCTGCCTGCACCTGGCTTAGCTCCACACACTTTGATTCCTAGTGTCTCTGATTAAAGTTTCACAT
ACTCAGTAGACAGAATAGCTTGGGTTAGTGACTCTTCTTGAACTAATCAGTGAGGCTATGGTATCAGGAATGGGGATGGGTAACAGAGACACAAACCCTA
ATGGGAAGCCTCTGGCCAAACAGCCACCTGAATTTGTGCTCATTGTATACAGTCAATCGCTTGCTACTGCACACACACTCTTCTTCTCATACAAACAAAA
AGAACTCTCCTTATCTGCTATGAACCCAGCCATCCCAAGGAAAAAGGCAAATGCACTTGCCTCTTCCCCAGTGAGAGCCACACACAGCATCTCCACCTTC
TGCATGCTGAAGTTATGTCACAGGAGGAGGGCCTCAGCACACGATCAATTTTTCTTTTGGTCCATTGGCAGCTTCTGTCTCAGAATTTTTGTGTGTGTAT
ATTTGTAGAAAATAAAGAGGTACGGTCAAGGCTACAGCCACTACTGACCATTGCTGCCACCATCAGAAGTCTTGAATTGTTCCACTCAATGTTCCTCTTA
CTTATGGGCAAAGTCATTCTCGTGGTGTCTAAGCTCCTTGATGGTCTGGCCTCAGTAAGTTGGTGAAATTTCCTATTCACATTTACACTAATACTCTAAC
ACTTTAGAGTATTACAAGGAGCAATCCTAGGGGATCCCTCAATTCCTCCTGTCCTGCTGTGTAATAACAACATGAGCTTCCCTGGAGGAACATGATGCAT
GATTATATCCAACCCAGTGACGTCATTGCTATCCCTACATCAGGGAGCATGAGAAGCCAGCTATGGTTTCTGCTGAAACAACTTTTGTCAACCTTAGATA
CTGAAACTTCCAGACCTAAAAGTCTGTGAGTTAGGAGTATGTATCATAAACAAAATTTTTGAAAGTGGTTTATTGTGGGTAACCATAGAGCTATCACCCT
CATCTTAACCTCTGACTGCCCAGCTCCATGAATTCTGGCTATTACAGGAAATGGGGAAAATTCTGGGTATGGATTCAAAACATATCACATCCTAAGGGCA
GCTCCCAGCCTCTGATATGGAGCTGAGTCCCCTTTGGGCCATTTCCATGGGACCTAAGGCTGTCATTTCCGGGGTTGAGATTCACTGGGTGCCAAGTGGT
CAGCCTTGATGAGTGGGGTCCGTGTTGTGTGGTTACATAGAGCTCCACATTAGGCAAGTTGGTTAATGAGCCCATTCTGAAAATGTCAGGCTGCCTGGGG
AACAGAGGAGATTTGAGCCTTAAAGAGTGACTTCTTCCCTTGTTTATTAACAGCCTCTGAGCCAGGCATGGTGACTCACGCCTGTAATCCCAGCACATTG
GGAGACCAAGGCGAGTGGATCAGTTGAAGTCAGGAGTTGGAGACCAGCCTGGTCAACATGGTGAAACCCTATTTCTACTAGAAATACAAAAACTAGCCAC
CAGACATGGTGACGGGTGCCTGTAATCCCAGCTACTTTGGAGGCTGAGGCACGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTG
CACCACTGCACTCCAGCCTGGGCGATACAGTGAGACCCAGTCTCAAAAAAAAAAAAAAAGGAGTCTTTTTTGATGGTGGACATCTTCCAATGAGCATTCA
CATGGGACAGATTTTTTTTTACTTCTACCGTTGTTCTGAAAGCTCTATGTATGTTCCTCTTCCCTAAAAATCTTTGTCACCAAGCCTCCAGATTTATTCC
TTCTAAAATGTTGAAATTCCAGCTAATTCCTTAGTTGTTACCCAGGAAACAATGCAGATCCTGGTCCGAGGATGCAGCTCCTTCCAGGCAGCCTGGACTG
TGAGGTGTGCTCCATTGCTCTTCAGGAACCGTCCTTGAGAGGCGTTCCACAGCAGGCCAGACCTGGGGGGAGCAGGTGGGCCAGGCGGAAAGCACAGCAC
AATTTGAGAGATGCTGAGTACTCATGACTCTGTGTAAGCACCTGAATTCAGCCCTCATGGTCTTTTCTGAGCTGTCAGTCATTTATCTCTATTTAGTCAT
TTTGCGAATTGGAGTTAGCTTCCTTCCCTCTACACTCAAAGACGGCATGTCAACATTTTAGGCCTCTGGGTGGAATGAACTCCCAGTTTCCTGGGAGGGA
GCTGATTGGCATCTATTCGCCTCTTCCTAGTTTTGTGGGGTTTCCCAGCATGTGGAGTCATAGAGAAAGACTGGTCCCACCTTCTATGTAATGCCCAAGA
GAATAGATGACTCTCTGTCCACCCCCACCCTGGCATCCAGGGCTTCTGGACAAGACCTAGGCTGGCTAATTGGCTGCTTCCACATGGGATCCTGAATCTG
GAGCAAGTGAGGCAAAGCCCAGGGTGCTTAGAATCCATTCTCAGTGAGAGCAGCAGGACTGCCCGGGAGGGGAATAGAGACGGGGACGACCGAGTCCTGC
ACCAGCAGAGATGACGTCCGCAGGTGGCAGGGCAGCGCTGTGGCCGTGTCACTCCTCACAAAGCAGGGCTCTTGTGCTCGCAGCCTTCGATACCGTCTCA
CTGTCTTGGCTTCTATTTATCTTCCAAGCCAATTTCCAGCCTCCTACACACGTGGGGTTCTTCTGGTATCATTCCAGTGAATTTCATGTTGTTTTCTGCC
CTAAGAAAACAGAGTTGGTACCTCTGCTCGACCAAGAAGCCTGATTGATACAGACTGAGAGCTGCAGGCTGTGTTTATTTGCTTCATTAACAAGAACAAC
TTAGGAATGGCAACTTCCATTGATGAGCTTCCTACTTTGTTCTGCGGTTGGAAAACAAACAGTTGTTTCCCTGTTGACGACTGGCCACACTGGAGAGGTG
AACAGGTGAGTCACAGGAATCACTGCTTCTGCTCCCTTTAAATCTTGATGATGGCAGAAATCTCTGTAACTGCCTCTGTAACTCCTCCATGAAGTTGGTG
TTGACTTTGAGTAAAATATTTAGGCAGGTATGTAAAACCAATGGCCTCCACTGGCGTATGTCACTGAAATAGTCCCCGTCCGTGGGTCTGGGTGAACAAT
CTGAAGCTTCCAAGAGTATTCTTTCCAGTTATCCACCCAGGAATTTGAAAAATGATGACCAGGTGAGGGTGGGACCCTGATGGACTTAATCAAAGGTAAA
CGAATATAGATATTCACTAATTACTTGTGCCCTATAATCTCCCCCTCTGACCCAGGCCTAAGAATTGGGTGACAAGCAGGGACTATCCAGCCTGATGACC
TGTGACAGGTATCCACTCACCAGATTGGGGGTTTTGTAAAGTCAGTGGACTGTCTTCCAGCTCTATTTTGGAACCTTGTTCCTATCAAATGTCCCTTGAG
CCATGATCATGCGCCCTCCTGGTGCGTGACCTGGCGCCCGCACTCTCTTTTCTTCTGGCAGTTACCTGCCTCCCCTACAGTCGGCCTCTTGGAATTTCTC
CCACCCTAAAGAGACCAGAGTCCCAGCCCCTCCCCTATTATAGAGAGTTCCTGGTTATCCATTGACTCTTCTCGTTAAAGGAGCGGGAAATCTTTTGGGC
CCTGGCAGGAAACAGTGTGGGCAGGAAGTGCTTGAGAAATCAAATCTAGCATTTCAGCCTCCTACACACTTT


SNP Information

Context             (SEQ ID NO:53826):
AAGTGTTTTTCTTTTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTTGTCCCCCAGGCTGGAGTGCAGTGGCATGATCTCGGC
Y
CACTGCAACCTCCGCCTCCCGGTTTCACGCCATTCTCCTGCCCCAGCCTCCCAAGTAGCTGGGACTACAGGCTCCGGCCACCGCATCCGGCTAATTTTTT
Celera SNP ID:            hCV26581133
SNP Position Genomic:     21939
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53827):
GACTGACACATGGTAGGTGCTCCGTTAATGTTACCTTTTAAAAAGATTGCTGGGGAGAGACCAGGACCAAAAGTGTTTTTCTTTTTTTTTCTTTTTTTTT
Y
TTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTTGTCCCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCGCCTCCCGGTTTCACGC
Celera SNP ID:            hCV26581134
SNP Position Genomic:     21869
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53828):
TAGCATAATGACTGACACATGGTAGGTGCTCCGTTAATGTTACCTTTTAAAAAGATTGCTGGGGAGAGACCAGGACCAAAAGTGTTTTTCTTTTTTTTTC
Y
TTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTTGTCCCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCGCCTCCCG
Celera SNP ID:            hCV26581135
SNP Position Genomic:     21860
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53829):
GCATAACTGTGGGAGCGTGAGCTTAGCCCTCTGTGTTTGTAGAAGCAGAAACAAACCTGGAAGATTTTGGATTATTAACATTATACTTTCTTGCTTCAAT
S
TCAGAGTCAGGAGGTCAGGTGTTGACCTTCCCCCTGCCCTCCAAGAGGTGTGTGACACTGGGGAAGTCACTTCCCCTCTCTGAGCCTCAGGGTTTTTCAC
Celera SNP ID:            hCV27963154
SNP Position Genomic:     7469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53830):
GGGTCTCAGTATATGAATTTGGAGGGCACACAACTCAGTCTATAGCACTGATGCCTCCATCAAAAATACCCCATGTGACAGCTGGTTGAGGAGGATTAAC
M
TCGAACCACCTTATTCTCAATGCCATTTAGGCTGTAGCACACTTTCTTCCAATCTTATGCTTTTTGTTTCCAAGTAGAAAAGAAACGCTTTACTGAAGAG
Celera SNP ID:            hCV26581136
SNP Position Genomic:     21218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53831):
AGACACCAGTCCTGTAGGATTAGGGCCCTACCCTTACGACTCTCTTTAAATTAATGACTTCCTTAAAGGCTCAATCTCCAAATATAGTTACTGGGGTTTA
R
GGTCTCAGTATATGAATTTGGAGGGCACACAACTCAGTCTATAGCACTGATGCCTCCATCAAAAATACCCCATGTGACAGCTGGTTGAGGAGGATTAACA
Celera SNP ID:            hCV26581137
SNP Position Genomic:     21118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53832):
CAACTGATGTATTTTCTCACAGTTCTGGAGGCAAAAAGTCCAAGGTGAAGGTGCCAGCAGGGTTGATGTCTGGGGAGGGCTCTGCTCCTGGCTTACAGAG
K
CTGCCTCAGGGCTGTGTCCTCACATGGCCTTCCCAGTGTGGGGGGTGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGAGTGTGAGAGAGAGAGAGAGAGA
Celera SNP ID:            hCV26581138
SNP Position Genomic:     20810
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,112|T,633)   total(G,112|T,633)no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53833):
TTCCCTGGTGAATCACTCTTCTCAGGATGCCTTAGTAAAACGCCACAGGCTGGGTGGCTCCAACAACTGATGTATTTTCTCACAGTTCTGGAGGCAAAAA
K
TCCAAGGTGAAGGTGCCAGCAGGGTTGATGTCTGGGGAGGGCTCTGCTCCTGGCTTACAGAGGCTGCCTCAGGGCTGTGTCCTCACATGGCCTTCCCAGT
Celera SNP ID:            hCV26581139
SNP Position Genomic:     20747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53834):
TGTGACTTTCACTTTCCCTTTTGGGTTCCAGGGTATATCTCAGAGACTGGAGAACGTGTCTGGTTATTATGCAGATGCACGGCTGGAGGTGGGATCCACA
Y
AGCTCAGAACAGCTGGATCTTGCTCACACTCTTTCAAGAGAAGCTTCCTTGGTAAGTTAGGGGTGGTCTGACCTTCCCCATCTCCCCATCCTCACAGCAG
Celera SNP ID:            hCV11748981
SNP Position Genomic:     6173
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 NONSENSE MUTATION;UTR 5


Context             (SEQ ID NO:53835):
TCAGGAGGTCAGGTGTTGACCTTCCCCCTGCCCTCCAAGAGGTGTGTGACACTGGGGAAGTCACTTCCCCTCTCTGAGCCTCAGGGTTTTTCACCTGCCA
K
AGGGGGTTAGGATGCCCTACCCTGCTGACCCCCAGCAGGCTGCTGACCCCATCTGGGGTGAGGTGGGAGGCGGGGCAGTGCGAGTCAGGGGAAAGTTGAC
Celera SNP ID:            hCV11748982
SNP Position Genomic:     7576
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,3)      total(G,3|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53836):
TCTCTCCAATGCTAATAGTAGTTCAATCAGATGGGCATGTGGTTAAAGCCTGAGAATGAACAGCAGGTCAAAGGTGGGGAACCAAGTAGCATGATGCCAT
S
CAAAGACCCAGAGAGACGTTTCAGGGGCAGAGCCAGGGGTCAGGATGGGGCAGGGGTGGGCCTGGGTTGGAGGAGCAGCAGGAAGGCTCGGGCACCAAGG
Celera SNP ID:            hCV28006609
SNP Position Genomic:     22539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53837):
GTCGCTGAACATCTGTTTCAGTTTTCTTATCTGAAAATGGAAATACAAATGGTACCCACTTAATAGGCTCTTGGAAGAGGACTGTGAGTTATTATTTATA
M
CATCTTAGAGCAATTAGTGGTGCAAAGTCGAGTCCACAAATGTTCACCCCTATTTCTCATTGACTGTTATTATACCTATAAGTGCCTTGACTAACACTGT
Celera SNP ID:            hCV11748987
SNP Position Genomic:     16519
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53838):
GGCTGCTGGCACCATGGACTCAGGTAGGCTTGCTTCTTCCTCTTCCCTGGCTGGTTCCTACTCGCACCTAGAATGGAGGGTGGCGTTTCCACAACTCAGT
S
AGCCCCAGAGGAACCCGGATGGTCAAGCAGGCCGATGAGTCTTCCCTGAGCCCCAAAAGAGGCCACATGGAGTCCCCCGACCCAAGGGTCTGTGGGGGCA
Celera SNP ID:            hCV2189860
SNP Position Genomic:     17925
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,16)   caucasian(C,5|G,31)   total(C,15|G,47)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,8)   total(G,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53839):
AGACACTTGGGCATAGAGTGCAAGACACAGATTTGGAATGAGGAGTCATTTACAGTAAGCATGTATGCATGAGTCAATATTTTTATATATTTAAGGGAGT
R
GAGCCCAGTCATGGAAGACATGGGATTTGAATCAGAAGTCCTGGCTCTACCCCTATTGTGAAAACATGGCAAGGTTGCTTAACATTTGAGGTTTCTTCTG
Celera SNP ID:            hCV2189861
SNP Position Genomic:     17161
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53840):
GGTATAAACCAAAAGTAAGATTCTAAGCCTCCCCCTCATTTAAAGGACTTCCTCCTCAGCCAGGGCTCTTAAAATTTAACCTGAAAGACTGGTTCAGGCC
R
TGAAGGGAAATGGGGGTCAGACATGCTTCATTATGCCTCTCTGGCATTAATATCAACACAGGCTTTCAGTCTAATAAGAAACATTTTACAGCCTGTTTCT
Celera SNP ID:            hCV2189862
SNP Position Genomic:     12707
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53841):
CAGTCTAATAAGAAACATTTTACAGCCTGTTTCTCTGTGAAGCCTGCTAGCTGAAAGCTTCATCTGCAGGATAAAACTTTGGTCTCCACAACCTCTTATC
R
CAACTCAAACATTCCTTCCTATTGATCTCCGGTCTTTAGACAAACTCAACCAATTGTCAACCAGAAAACGTTTCAATTTACCTGTAGCCTGGAAACGCCC
Celera SNP ID:            hCV1088451
SNP Position Genomic:     12874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53842):
GCCAACCCCTACCTTTGAGGGGCCTGACAGGGCCACCTCACAGCTGCCTGGGCTTGTTGTTGCCTCCTCACTACAGAAACCATGGAAGTCTCTAGAGTCA
R
TGTTTCCAGGCTGGGGCTGCCAGATCACTCCTGTAGGTGGTTGAACCAGTTGAGTTCATTCTTCTCAGTGAGGGGGACACAGGTGGAGGTCCATCGGCAC
Celera SNP ID:            hCV2189863
SNP Position Genomic:     11783
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53843):
CCCAGTTAAGGGGTTGAACTTGACCCTGGCAGGTCATTAAAGATTCCTCAGGAGACCTAGGTATTGTGGCTCAGGGCTGTAATTCCCGTGCTAATGCACG
R
AGGCTAATGCAGGAGGATCCCTCGAACCCAGGAGTTCAGGACAAGCCTGGGCAGCATAGCACGACCCCATCTCTGCAAAAATGAAAATAAAAAGATTGAC
Celera SNP ID:            hCV2189864
SNP Position Genomic:     10539
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53844):
CTCTGTGTCGTGGCCTCGAAGGGTCTTTGATTCTGTGCAGCTTCTTTTCCTCCTCATTTCTTTAAGGGAGGCATCGCATTCATTAGTCTTTTTTTTCTGA
Y
GGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAAGTAGCACCATCGGCTCACTGCACCCTCCGCCTCCTGGGTTCAAGTGATTCTCCAGCTCACCCTCCT
Celera SNP ID:            hCV2189865
SNP Position Genomic:     8081
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53845):
CCCTCCAAGAGGTGTGTGACACTGGGGAAGTCACTTCCCCTCTCTGAGCCTCAGGGTTTTTCACCTGCCAGAGGGGGTTAGGATGCCCTACCCTGCTGAC
Y
CCCAGCAGGCTGCTGACCCCATCTGGGGTGAGGTGGGAGGCGGGGCAGTGCGAGTCAGGGGAAAGTTGACATTGCAGCCCAGATGCCTGCAGGGGCTGCA
Celera SNP ID:            hCV2189867
SNP Position Genomic:     7606
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53846):
GTCAGGAGGTCAGGTGTTGACCTTCCCCCTGCCCTCCAAGAGGTGTGTGACACTGGGGAAGTCACTTCCCCTCTCTGAGCCTCAGGGTTTTTCACCTGCC
W
GAGGGGGTTAGGATGCCCTACCCTGCTGACCCCCAGCAGGCTGCTGACCCCATCTGGGGTGAGGTGGGAGGCGGGGCAGTGCGAGTCAGGGGAAAGTTGA
Celera SNP ID:            hCV2189869
SNP Position Genomic:     7575
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,4)      total(A,4|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53847):
TCCACAAAGCACCATGGCACTTCCCTGGTGAATCACTCTTCTCAGGATGCCTTAGTAAAACGCCACAGGCTGGGTGGCTCCAACAACTGATGTATTTTCT
Y
ACAGTTCTGGAGGCAAAAAGTCCAAGGTGAAGGTGCCAGCAGGGTTGATGTCTGGGGAGGGCTCTGCTCCTGGCTTACAGAGGCTGCCTCAGGGCTGTGT
Celera SNP ID:            hCV26581140
SNP Position Genomic:     20727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53848):
ACTTTGGCATTTCTGTAGCTGAGCACAGCAGGGGAGGGGTTAATGCAGATGGCAAGTGCACCAAGGAGAAGGCAGGAATGCTGGAGCCTGGAATAAGGGA
R
GAGAGGGGACTGGAGAGTGTGGGGAATAGGAAGAAGAAATTTCCTTTAGACTAACGAATATATTGGGGGGAGGAATAGAGGGGAGGTGTGCAGGAACCAG
Celera SNP ID:            hCV9210923
SNP Position Genomic:     25915
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:53849):
GATCACTGGAATATTTCCCGTACATGGGGAGAAAGCATGGTGGAAAGCTCACTTTCTGGTGATTCTCAGCTGAAATAGATCGGTTCCTCCACAAAGCACC
R
TGGCACTTCCCTGGTGAATCACTCTTCTCAGGATGCCTTAGTAAAACGCCACAGGCTGGGTGGCTCCAACAACTGATGTATTTTCTCACAGTTCTGGAGG
Celera SNP ID:            hCV26581141
SNP Position Genomic:     20640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53850):
CCAACCACCTTGGGCACATGTCATCAGGACTTCCTGAGGCTGTGTCACAGGCATACGTCCTCAACCTTGGCAAAATAAACTTTCTAAATTAACTGACACC
W
GTCTCAGATTTTCCGGGTTCACAGCGGTTGGGACTGACCAGTGGGCATCCCTTTGAACACTGCTCTGAACATCTTTGGAAGCGTCCTTGCTTTCTGGGGT
Celera SNP ID:            hCV29175496
SNP Position Genomic:     13175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53851):
GGCACATGGCAGAAGGAAGCGATCACTGGAATATTTCCCGTACATGGGGAGAAAGCATGGTGGAAAGCTCACTTTCTGGTGATTCTCAGCTGAAATAGAT
Y
GGTTCCTCCACAAAGCACCATGGCACTTCCCTGGTGAATCACTCTTCTCAGGATGCCTTAGTAAAACGCCACAGGCTGGGTGGCTCCAACAACTGATGTA
Celera SNP ID:            hCV26581142
SNP Position Genomic:     20620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53852):
TAATTGATGTCTCATGCTCCCTAAGTGTATAAAATCAAGCTACACCCCAACCACCTTGGGCACATGTCATCAGGACTTCCTGAGGCTGTGTCACAGGCAT
R
CGTCCTCAACCTTGGCAAAATAAACTTTCTAAATTAACTGACACCAGTCTCAGATTTTCCGGGTTCACAGCGGTTGGGACTGACCAGTGGGCATCCCTTT
Celera SNP ID:            hCV29175497
SNP Position Genomic:     13129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53853):
TCGAAACTCAGATTTTGAAGACACTGGTGTAAAGCGTTTGACAATAGGCACATGGCAGAAGGAAGCGATCACTGGAATATTTCCCGTACATGGGGAGAAA
R
CATGGTGGAAAGCTCACTTTCTGGTGATTCTCAGCTGAAATAGATCGGTTCCTCCACAAAGCACCATGGCACTTCCCTGGTGAATCACTCTTCTCAGGAT
Celera SNP ID:            hCV26581143
SNP Position Genomic:     20574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   (G,-|A,-)   African American (pooled) - WICGR(G,34|A,66)   Asian (pooled) - WICGR(G,11|A,73)   Caucasian (pooled) - WICGR(G,35|A,61)   total(G,80|A,200) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53854):
GTCAACCAGAAAACGTTTCAATTTACCTGTAGCCTGGAAACGCCCACTTTGAGTTGTCCCGCCTTTCTAGACCAAACCGATGTATTTCTCAAGTGTACTT
R
ATTGATGTCTCATGCTCCCTAAGTGTATAAAATCAAGCTACACCCCAACCACCTTGGGCACATGTCATCAGGACTTCCTGAGGCTGTGTCACAGGCATAC
Celera SNP ID:            hCV29175498
SNP Position Genomic:     13030
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53855):
GAAGCCTGCTAGCTGAAAGCTTCATCTGCAGGATAAAACTTTGGTCTCCACAACCTCTTATCGCAACTCAAACATTCCTTCCTATTGATCTCCGGTCTTT
R
GACAAACTCAACCAATTGTCAACCAGAAAACGTTTCAATTTACCTGTAGCCTGGAAACGCCCACTTTGAGTTGTCCCGCCTTTCTAGACCAAACCGATGT
Celera SNP ID:            hCV29175499
SNP Position Genomic:     12912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53856):
TGCTCTTGACAAAATGAACTATTTTCATAACCCACTGATGGGTCGAAACTCAGATTTTGAAGACACTGGTGTAAAGCGTTTGACAATAGGCACATGGCAG
R
AGGAAGCGATCACTGGAATATTTCCCGTACATGGGGAGAAAGCATGGTGGAAAGCTCACTTTCTGGTGATTCTCAGCTGAAATAGATCGGTTCCTCCACA
Celera SNP ID:            hCV26581144
SNP Position Genomic:     20532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53857):
AGAAACGCTTTACTGAAGAGGCCACCAAATACTTCCGGGAGAGAGTCAGCCCAGTGCATCTGCAAATCCTGCTGACTAACAATGAAGCCTGGAAGAGATT
Y
GTGACTGCGGCTGAATTGCCCAGGTAACCTCCGTGGGGTTACCTCCATGGGGCGCCCCGGCTATGCCATCCTGATCTCCCCTGGGCTAGTTTTCTCTGGC
Celera SNP ID:            hCV25628431
SNP Position Genomic:     21399
SNP Source:               Applera
Population(Allele,Count): african american(C,22)   caucasian(C,1|T,1)   total(C,23|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:53858):
CCTAAACACATCTAGATCCCAGGAATTTACATAAGGGTATATATATATACACCCTTATGTATATATATATTATATATATTTCAAATATCTTACAAAAGAA
W
ACTCACTCTTGCTGTGTTCAATACACTCTGATATTTTCAATGCTCTTTTCTTTTTAAAATGCTGCTCTTGACAAAATGAACTATTTTCATAACCCACTGA
Celera SNP ID:            hCV26581145
SNP Position Genomic:     20369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53859):
TTACAGCAGGGACGAGTCTGGCCCTTACTGCAGCTGGGGTAGGGCTGGGAGCAGCGTCTGCTGTGACTGGGATCACCACCAGCATCGTGGAGCACTCATA
Y
ACATCATCAGCAGAAGCTGAAGCCAGCAGGCTGACTGCAACCAGCATTGACCGATTGAAGGTATTTAAGGAAGTTATGCGTGACATCACACCCAACTTAC
Celera SNP ID:            hCV25628432
SNP Position Genomic:     25219
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,31|T,1)   total(C,39|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:53860):
TTTGTAGCGTTGACCAGTGTGGGAGTGGTCAGTGATACAGCATATGCACCCTGTGTCATATTGACACAGATTGAAAATGCTGCCATCCTAAACACATCTA
K
ATCCCAGGAATTTACATAAGGGTATATATATATACACCCTTATGTATATATATATTATATATATTTCAAATATCTTACAAAAGAATACTCACTCTTGCTG
Celera SNP ID:            hCV26581146
SNP Position Genomic:     20283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53861):
TTGTGGCTCAGGGCTGTAATTCCCGTGCTAATGCACGGAGGCTAATGCAGGAGGATCCCTCGAACCCAGGAGTTCAGGACAAGCCTGGGCAGCATAGCAC
R
ACCCCATCTCTGCAAAAATGAAAATAAAAAGATTGACTGACATAGTGATGCACTTGTAGTTCCCACTACTCAGAAGGATGAGGCAGGAGGATCGATTGAT
Celera SNP ID:            hCV16097196
SNP Position Genomic:     10602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53862):
ATGTCCCAGTGCATACATAAATCCATACTGCTTCCCAGTCCCTTCTCTGCAGTTCCATAATTCCCAAATCCCTGCAAACCACACATTTTTGGGGCAACTC
M
TCTGGGCAGTAATCCTGCTGTGTACTAAGATGCTTTGTACTGATAATATTATGTATCCCATTTAAGGTGAATATTCATTGGTTTCTCTGTTGAAACATTT
Celera SNP ID:            hCV26581147
SNP Position Genomic:     20056
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53863):
GCACCACAGCCTTGGGGAAGTGGAAACAGCAGGGTCGGGGAGTAGGGGGAGAGCAGGGTCCAGGAGGTGCGGAGGGCTGAGAGAGGAGGTTGACCAGCAG
Y
CCCGACCTCTGACCTCCCGCTCTGCTCCCAGCTGACCCTGGGGTGTTTCCAGCACAGGCCAGTCCCCTCCCTCCAGCTCTTGCCCTGCACCAGCCCCTCT
Celera SNP ID:            hCV26581148
SNP Position Genomic:     18212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53864):
GGGAGCCACGGTTGCACCCATCTCCTGGCCTGTGTGTGATCATCGAATGAGGCACATATGAGGAGCCCTGCAGATCACAGACACCCAGTACACACTGGCT
R
TTATCAATTAGTTATCACACATGTTGCCAGGCCCAGGTCATTGTCAGAACGTTCCTTCCCATCTCTATTTCGGTGTATAGACTCTGTAGTTTCTGTGATT
Celera SNP ID:            hCV26581149
SNP Position Genomic:     17371
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53865):
TCACCATGTTAGCCAGGATGTTCTCGATCTCCTGACCTTGTGATCCACCCACCTCCGCCACCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCAG
R
CGCATTCCTTAGTCTTAATGGGCATAGTGTTAGGGACCCGCCTACTCCCTATGGCAGGAGATTTAGTGATTTCTCCCTTTTTGGTGATAGAAACAACGCT
Celera SNP ID:            hCV27899811
SNP Position Genomic:     8353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53866):
AAGCCACACAAACCATTGGGAGTGAAATCCGTGCCATCAGGCAAGCCAGAGCCAGGGCCCGACTCCCTGTGACCACCTGGCGAATCTCAGCTGGAAGTGG
W
GGTCAAGCAGAGAGAACGATTGCAGGCACCACCCGGGCAGTGAGCAGAGGAGCCCGGATCCTGAGTGCGACCACTTCAGGCATCTTCCTTGCACTGGATG
Celera SNP ID:            hCV1088426
SNP Position Genomic:     25444
SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,29)   caucasian(A,18|T,20)   total(A,25|T,49)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)   JBIC-allele(A,533|T,948)   total(A,533|T,948)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:53867):
CGTCTGCTGTGACTGGGATCACCACCAGCATCGTGGAGCACTCATACACATCATCAGCAGAAGCTGAAGCCAGCAGGCTGACTGCAACCAGCATTGACCG
M
TTGAAGGTATTTAAGGAAGTTATGCGTGACATCACACCCAACTTACTTTCCCTTCTTAATAATTATTACGAAGCCACACAAACCATTGGGAGTGAAATCC
Celera SNP ID:            hCV1088427
SNP Position Genomic:     25273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:53868):
GAGAACATGCCAGGCAAGGTGATCTCTTCCAGTCTGAGGTTTTATTTGATAGCTTAAGGACTCAGAGTTAGTCAAAATGCAATGTCTGAAGGCACCCTTC
Y
TTCTGACACCAGTTGCAGATTTGAAGGTGTTTCTTAAGCCCCCACTCAGGTTTGATAATTCACTACAAAGACTTACGTAACTCACTGATAACTGTTATTG
Celera SNP ID:            hCV1088429
SNP Position Genomic:     23420
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   (T,-|C,-)   Asian (pooled) - WICGR(T,24|C,60)   total(C,60|T,24)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53869):
GATAACAGGCATGCACCACCATGCCCGGCTAATTTTTTCATTTTTTTAGTAGAGACAGAGTTGCTCCATGTTGGTCAGGCTGCTCTCGAACTCCCAACCT
S
AGGTGATCCACCCACCTCAGCTTCCTAAAGTGCTGGGATTACAGATGTGAACCAGTGTGCCTAGCCAGCTTTTCTTTAGGGAGTAAATCATTTTCTTTAC
Celera SNP ID:            hCV2958213
SNP Position Genomic:     14000
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,11)   total(G,2|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53870):
CATGGGATTTGAATCAGAAGTCCTGGCTCTACCCCTATTGTGAAAACATGGCAAGGTTGCTTAACATTTGAGGTTTCTTCTGTTTCAAAATGGGAGCCAC
R
GTTGCACCCATCTCCTGGCCTGTGTGTGATCATCGAATGAGGCACATATGAGGAGCCCTGCAGATCACAGACACCCAGTACACACTGGCTGTTATCAATT
Celera SNP ID:            hCV346908
SNP Position Genomic:     17280
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(A,37|G,55)   African(A,18|G,70)   (A,4|G,6)      total(G,6|A,4) ;(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53871):
ATTATACTGACTGGTAACAAGTAGATTTAGTTCTCATATGTAAATGTTCTGTTTTGTTCTAAAAGTTAAAAGTTAACCAAGTGTTTACATTTTGGTGACG
Y
TTTAAATCTTGCTTACTGTTGAGCTGAGTTGTACAATATGGTTGCACATGTTTTGCTGCACGGCTTTAGTTTTTCCTGATGTTTCTAATTGCCTTTGTTT
Celera SNP ID:            hCV26581150
SNP Position Genomic:     14535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53872):
AGTGTATACGGTTCAGACAAATCATTTAATAAAGAGGGCTCCACTCACTCCCTTCCCAATTAAAAGCAGCTAATTTTGATGTTCAGATTTTCCTTTTTTT
W
TTTTCTGAGACAGAATTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGTAGCTATCTTGGCTCACCACAAACTCCACCTCCTGGGTTCAAGCGATTCTCC
Celera SNP ID:            hCV26581151
SNP Position Genomic:     13775
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,5)      total(A,5|T,2) ;(T,-|A,-)   African-American(A,21|T,63)   total(A,21|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:53873):
GGTGCAATTACATTTGACATGCTGGCAACCAAATAAAAGGCAAACCTTGCATATGCCACACACACACTCACAAATTCACACACACACACACACACACACA
C
GCACACTCACACCTGCTATTCAGATTTCACTTCATGGAGCCCTGTGTTTCTCACCTCTGTGTCGTGGCCTCGAAGGGTCTTTGATTCTGTGCAGCTTCTT
Celera SNP ID:            hCV26581152
SNP Position Genomic:     7926
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,4)   total(C,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53874):
AGGTGCAATTACATTTGACATGCTGGCAACCAAATAAAAGGCAAACCTTGCATATGCCACACACACACTCACAAATTCACACACACACACACACACACAC
A
CGCACACTCACACCTGCTATTCAGATTTCACTTCATGGAGCCCTGTGTTTCTCACCTCTGTGTCGTGGCCTCGAAGGGTCTTTGATTCTGTGCAGCTTCT
Celera SNP ID:            hCV26581153
SNP Position Genomic:     7925
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53875):
ACTTCTTCAGTGATCCAGCCAGCATTTGCCCTGACACTTAGAGTTGAAATGCCATCAGGCTACCTGCATTTGATGCAATTCCACTGTACTGCTAGTATTG
Y
TTAAAAATTTTTCAATTGCAAGCAACAGAAACAGAAACTATCTGTCTTAAACAAAATAGAAGATTCATTGGATGAAAACTAGAGCAGGTCAGAGGATGGA
Celera SNP ID:            hCV27526700
SNP Position Genomic:     28751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53876):
AGAGGTTGTTTCACCCACCCTGACTCTGAGCACCTACTTGAGCCAGGCCCTGTGGGTAAACTGAGGCCATGGGAGATGAGTGACTCGCTGAGGGTCCCAT
R
TCAGGAAGTTGAGCAGGTAGATCACAGGACTCCATGTCCCTGACACTCACCTGGTTCCTTTTCAGGCCTCTGGGTGATAGAGAAGAAAGAAGCTGTGCTG
Celera SNP ID:            hCV26581154
SNP Position Genomic:     7147
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   African American (pooled) - WICGR(G,1|A,99)   Asian (pooled) - WICGR(G,2|A,82)   Caucasian (pooled) - WICGR(G,10|A,86)   total(G,13|A,267)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53877):
GGTGGGGCTGGGAAGCATCCTGTTTTGCATGTTTGATCAGGAGCTGCTGCCAAGTTGTGACTTTCACTTTCCCTTTTGGGTTCCAGGGTATATCTCAGAG
M
CTGGAGAACGTGTCTGGTTATTATGCAGATGCACGGCTGGAGGTGGGATCCACACAGCTCAGAACAGCTGGATCTTGCTCACACTCTTTCAAGAGAAGCT
Celera SNP ID:            hCV26581155
SNP Position Genomic:     6118
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,8)      total(A,8|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:53878):
CATAATAATCACAATCAATTATTACTGTTGAATATAAGCGGTATAAACCAAAAGTAAGATTCTAAGCCTCCCCCTCATTTAAAGGACTTCCTCCTCAGCC
R
GGGCTCTTAAAATTTAACCTGAAAGACTGGTTCAGGCCATGAAGGGAAATGGGGGTCAGACATGCTTCATTATGCCTCTCTGGCATTAATATCAACACAG
Celera SNP ID:            hCV29175500
SNP Position Genomic:     12668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53879):
TTGGACCAAGTAAACATGATCATAATAATCACAATCAATTATTACTGTTGAATATAAGCGGTATAAACCAAAAGTAAGATTCTAAGCCTCCCCCTCATTT
M
AAGGACTTCCTCCTCAGCCAGGGCTCTTAAAATTTAACCTGAAAGACTGGTTCAGGCCATGAAGGGAAATGGGGGTCAGACATGCTTCATTATGCCTCTC
Celera SNP ID:            hCV29175501
SNP Position Genomic:     12648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53880):
CAAATGTTCTCACTTGAATGTTAGTATCAACCCAAGGCCTTTCACAGATTCATCTTGGACCAAGTAAACATGATCATAATAATCACAATCAATTATTACT
R
TTGAATATAAGCGGTATAAACCAAAAGTAAGATTCTAAGCCTCCCCCTCATTTAAAGGACTTCCTCCTCAGCCAGGGCTCTTAAAATTTAACCTGAAAGA
Celera SNP ID:            hCV29175502
SNP Position Genomic:     12594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53881):
AGTTTCCCCAAGTCAAGAGGAAGATCCAGGAGTCCATAGAAAAGCTTCGTGCCCTTGCAAATGGTATTGAAGAGGTCCACAGAGGCTGCACCATCTCCAA
Y
GTGGTGTCCAGCTCCACTGGCGCTGCCTCTGGCATCATGTCCCTTGCTGGTCTTGTTTTGGCACCATTTACAGCAGGGACGAGTCTGGCCCTTACTGCAG
Celera SNP ID:            hCV22271779
SNP Position Genomic:     25051
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,28)   caucasian(C,7|T,15)   total(C,11|T,43)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,554|C,931)   total(C,931|T,554) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:53882):
CAATAGACACCTGGATGCAAGATCCCTAAGACAGAGGCAGGAAATAGGAAGAGGGAGGTGAGAGGCTTTCGATGAGGATGCTTCTACACATGACCTTGAG
R
ATGAAAACGCATCAGGGGGTCCCGGGAACCACTGCGTTGTTAACATAAAGTCTGGGAGCAAAGACCAGCGGCTGGAATGGATGTGCCTGGGAGCCAGCTG
Celera SNP ID:            hCV29175503
SNP Position Genomic:     11527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53883):
AAGATGAGGAGAGGGCAGGGAAGATTAGAAGCCGGGACCTACCAGCCAACCCCGGAATCCTTCAGAAGGGCTTGGCTGGGAGGCTCAAGGAAGAAACTCT
S
TCTCCGAAACAAGATGATCTGTGGTTTAATAACGCGGCCAGCTGGGTTCAGAGGTGATAGTGGGGAGCCATGTCCCCTGAGACCAGCCTGCAGAGGACAG
Celera SNP ID:            hCV27482445
SNP Position Genomic:     19452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53884):
GTTTTTCTTTTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTTGTCCCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCAC
Y
GCAACCTCCGCCTCCCGGTTTCACGCCATTCTCCTGCCCCAGCCTCCCAAGTAGCTGGGACTACAGGCTCCGGCCACCGCATCCGGCTAATTTTTTTTGT
Celera SNP ID:            hCV2189846
SNP Position Genomic:     21943
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53885):
ACAGGTGGCTCACATTCAGTCCCACAATTTGCTTTCTCCTCCTCAAGGGTTAAGAAAAAAAACGAACCCTTCCAGTCAGGTCAGTGACTGGAGAGCTCCA
W
GGAAAGTCTCTCAGTGACCTGGCTGCTGGCACCATGGACTCAGGTAGGCTTGCTTCTTCCTCTTCCCTGGCTGGTTCCTACTCGCACCTAGAATGGAGGG
Celera SNP ID:            hCV15845
SNP Position Genomic:     17804
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,33|T,7)   total(A,68|T,8)
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): (T,-|A,-)   African American (pooled) - WICGR(A,100)   Asian (pooled) - WICGR(T,3|A,81)   Caucasian (pooled) - WICGR(T,14|A,82)   total(A,263|T,17)no_pop(T,-|A,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:53886):
GGGGGACAAAGGGTGTCCAGCACAGCACCAGTGAATTCACCAAGACAGACACTTGGGCATAGAGTGCAAGACACAGATTTGGAATGAGGAGTCATTTACA
R
TAAGCATGTATGCATGAGTCAATATTTTTATATATTTAAGGGAGTGGAGCCCAGTCATGGAAGACATGGGATTTGAATCAGAAGTCCTGGCTCTACCCCT
Celera SNP ID:            hCV15846
SNP Position Genomic:     17115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53887):
GGACAAAACACATGGGGTGTTGCCAACCAGAGAAGCTCACCCAGTTAAGGAAAAATTCCTGTGAATCACATTAGATCAGGAAGCCTTTATTCAGGATTGT
T
GTTACAGGGGAGGGAGACTGAGCCCAGCTCCCAATATAGTAAAGACAGAGGGGGAGTCACAGCCAACACCAGGGTGAGGAGTGGGAGATGGACCAGTTCT
Celera SNP ID:            hCV26581120
SNP Position Genomic:     23759
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53888):
CTTGGCTCTGTCCCTGCACAGCTCTGGGGCTGTTGTTTTATGTCTTGGAGACTGGGACCTGCCATCTCTCCAATGCTAATAGTAGTTCAATCAGATGGGC
R
TGTGGTTAAAGCCTGAGAATGAACAGCAGGTCAAAGGTGGGGAACCAAGTAGCATGATGCCATCCAAAGACCCAGAGAGACGTTTCAGGGGCAGAGCCAG
Celera SNP ID:            hCV11476856
SNP Position Genomic:     22475
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,549|G,936)   total(G,936|A,549)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53889):
GGTATGCACACAGGTGAAGCTGTCACCTGCTAAGGCATTAGTTTGGCTGGCGACATGTGACAGTGAGACCCTGAAGCTTGGAGGTGCCAGGTCAGGAGGC
M
GTCAAGTGGCTTGAGAGTTCATGTGCAGCCAGGACTAATAGCCAGGCCTTTCACTTTTCAGTCAAAGGGGGCAGTGGCTGGACCCAGTGGCCTTCAGTCA
Celera SNP ID:            hCV26581122
SNP Position Genomic:     23189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53890):
TCAAAGTCTCATGAGTCCATAAGAGGTTCCATGAAATTGCACATGGCATTGGTATGCACACAGGTGAAGCTGTCACCTGCTAAGGCATTAGTTTGGCTGG
Y
GACATGTGACAGTGAGACCCTGAAGCTTGGAGGTGCCAGGTCAGGAGGCAGTCAAGTGGCTTGAGAGTTCATGTGCAGCCAGGACTAATAGCCAGGCCTT
Celera SNP ID:            hCV26581123
SNP Position Genomic:     23139
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   no_pop(T,-|C,-)   (T,-|C,-)   Caucasian(T,11|C,49)   Caucasian, from CEPH families(T,45|C,235)   African-American(C,60)   Asians(C,56)   total(C,400|T,56)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53891):
TGTCCAAATGCAGGTCTTTTCAGCATTAGTGATTTATAGAGATGATTTTCAAAGTCTCATGAGTCCATAAGAGGTTCCATGAAATTGCACATGGCATTGG
Y
ATGCACACAGGTGAAGCTGTCACCTGCTAAGGCATTAGTTTGGCTGGCGACATGTGACAGTGAGACCCTGAAGCTTGGAGGTGCCAGGTCAGGAGGCAGT
Celera SNP ID:            hCV26581124
SNP Position Genomic:     23091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53892):
GAGAGGGATATTTCTTCCCTCCCTGATTTGATCCCATCACTGATGGGCATAGTGGGCCATGGGTGACTGTTTCCCTGACAGCATGCCTGGGAACTGGGGC
R
TTCTGAACTGCCATTTGGGACCCTCTTCTGTTCTACATAGAGTAGAGGAAGTGTTTCTTCGGGCCAGCTTGGAGAGTTGGAACAAGTGTCTGCCAACTGG
Celera SNP ID:            hCV26581125
SNP Position Genomic:     22821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(G,527|A,918)   total(G,527|A,918)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53893):
GGATGGGGCAGGGGTGGGCCTGGGTTGGAGGAGCAGCAGGAAGGCTCGGGCACCAAGGCTGGGAGTAGGGTGAGAAGAGGGAGGCACTGAGGGCATGAAA
K
GTAACGTGGCCATGGACTTGCAGAGGACCAGTGAGTGGGAGAGGGATATTTCTTCCCTCCCTGATTTGATCCCATCACTGATGGGCATAGTGGGCCATGG
Celera SNP ID:            hCV26581126
SNP Position Genomic:     22682
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,549|G,934)   total(G,934|T,549)   (T,-|G,-)   African American (pooled) - WICGR(T,46|G,54)   Asian (pooled) - WICGR(T,35|G,49)   Caucasian (pooled) - WICGR(G,23|T,73)   total(G,126|T,154)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53894):
GTTTTATGTCTTGGAGACTGGGACCTGCCATCTCTCCAATGCTAATAGTAGTTCAATCAGATGGGCATGTGGTTAAAGCCTGAGAATGAACAGCAGGTCA
R
AGGTGGGGAACCAAGTAGCATGATGCCATCCAAAGACCCAGAGAGACGTTTCAGGGGCAGAGCCAGGGGTCAGGATGGGGCAGGGGTGGGCCTGGGTTGG
Celera SNP ID:            hCV26581127
SNP Position Genomic:     22509
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,537|G,922)   total(G,922|A,537)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53895):
ATCTTGACCTGATCAATGTGTGTTCCTGGAGATGCTGTCCGGGGCCCTTTTCTTCCACCTCTGAGGAACTGCACAAACACAGCAGGATCCTCCTGCTGAC
M
CAGAACACAGAGAGGCTGGAATGGAGTTGGACAGAGCTGGGGGTGGATCTTGGCTCTGTCCCTGCACAGCTCTGGGGCTGTTGTTTTATGTCTTGGAGAC
Celera SNP ID:            hCV26581129
SNP Position Genomic:     22326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53896):
GAAAAAAAATTGCAAAACGATCTTCAGAAGCTGTGCTGCTGCCTATGGCAGTGTGGCAGGGAGGGGGCCTCGGGTGGGGTGAGTGCCCAAAAGGGTGGGC
R
AGGACGATTTGGGGAGTTCTCCAAAGGTTATGACCCACTATGGGCCTACCCTTCGTTCCCGGCTGTAAACCTCTAAACTTAGCATTTATCCAAGCTATCC
Celera SNP ID:            hCV1129473
SNP Position Genomic:     3505
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;JBIC-allele(G,218|A,1093)   total(G,218|A,1093)no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53897):
TTGGCTCAGAGCTGAGGCAGGAGGGAGGGCTCCCTGTCTGGGCCTCCTCCAGGAACTAAAGTCCCTTTCCGGGAATTGACCAAACTGCAGGCTTGCCCAG
R
GAGGACATGCTGTGTCCTAGTTCAGCTCGAGGGGCAGTATCCAGCTTCAACCCTCAGCGGATGCCCCAGACAAGATTCCGAGCCAGGCCAACAACGCCTA
Celera SNP ID:            hCV16114107
SNP Position Genomic:     11025
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,14)      total(G,14|A,2) ;WICGR7_african_american_pooled(A,11|G,89)   WICGR8_asian_pooled(A,15|G,68)   WICGR6_caucasian_pooled(G,46|A,49)   total(G,203|A,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:53898):
TGGCATCATGTCCCTTGCTGGTCTTGTTTTGGCACCATTTACAGCAGGGACGAGTCTGGCCCTTACTGCAGCTGGGGTAGGGCTGGGAGCAGCGTCTGCT
R
TGACTGGGATCACCACCAGCATCGTGGAGCACTCATACACATCATCAGCAGAAGCTGAAGCCAGCAGGCTGACTGCAACCAGCATTGACCGATTGAAGGT
Celera SNP ID:            hCV22271781
SNP Position Genomic:     25181
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,5)   caucasian(A,5|G,19)   total(A,6|G,24)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:53899):
GGCCTGGGCCATTGCCGTGGGGGAGGGGAGGCTTGGAAACCATGGCTATGATTCAGAGGTTAGCTGGCTCGCGTGTTTTTAGAAATTTCTTTTTTCTTTC
Y
CCTCGTACAAAAGTAATAAGACTGGGGAGGACACGGGAGAAAATAAATGGAAACTCAGAAACCTGATAGAGCCACCAAAAGTACATGAAATCAGAGTCAT
Celera SNP ID:            hCV529957
SNP Position Genomic:     9760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53900):
AGCAATAAATACACAGATCTAGTGCTGGAGGTTCCCTCCATCCAACCCTGGTTTCCTTCATCCTTTCAGTGAAGGAGGAAAAAATAAAAGCAAAATACCC
S
TCACCCAAGTCAGCACTGTGTTCATTTCCCTAAGGCCTGTTTTCTCCCCTCACTGAGTTGCCTTGGCAACCAAGTCACATCTGCTCAGGAGCCGCCCTGG
Celera SNP ID:            hCV15851
SNP Position Genomic:     19220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53901):
CTGGCCGAAGTTAAGTTTTGTTTGTGCCTAACGTAAGCACCCATCTGAAACGACTCCAGTTAAGTTCCCCATAGTTGGCAGTTTAAGGGGGGTTACAGCC
W
TTCTGAAGGCCTGTTTGCTTTTGTTTGCCCAGGTGTTCATTTTAAGTTTGCTTTAACACCCTGGTACTCCCACCCCAGCAATAAATACACAGATCTAGTG
Celera SNP ID:            hCV1088446
SNP Position Genomic:     19043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53902):
CCTCCCTCCAGCTCTTGCCCTGCACCAGCCCCTCTGCTCTGAGTGGCCCTGTGAAAAGAGTGACTCAGCGTCCCACTGAACTGAGCCCCATTCTGGCCTT
Y
GCCACGTCTTCTCTGTGTCACCTGGAGCTTCTTACCTCCCCTCACCTGGAATGCGAGTATAATATTTCCCCATGTGGTCATGAGGATCAAATAGTACATG
Celera SNP ID:            hCV2189858
SNP Position Genomic:     18378
SNP Source:               Celera;dbSNP
Population(Allele,Count): (C,3|T,8)      total(C,3|T,8)Caucasian(C,31|T,61)   African(C,28|T,62)    ;(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53903):
CCCCCGACCCAAGGGTCTGTGGGGGCATCTATGTCCTGACCTCTCCTCAGGGGAGCATGGCCCAGGTGCCCACTTCCTCCCTGCCCTGGCACCTAGCAAA
Y
GACTCAAGTGGGGCACCACAGCCTTGGGGAAGTGGAAACAGCAGGGTCGGGGAGTAGGGGGAGAGCAGGGTCCAGGAGGTGCGGAGGGCTGAGAGAGGAG
Celera SNP ID:            hCV2189859
SNP Position Genomic:     18099
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53904):
GGGTTTCATCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCTCCCGCCTCGGCCTCCCAAGGTGCTGGGATTACAGGCATGAGCCGCTGC
R
CCCGACCAAGTGTTTTTCTTAGAGTTGGATGCCCAGCAGGACTTTCTTTGAAAAAAGCCAGAAAAATCTTGACCTGATCAATGTGTGTTCCTGGAGATGC
Celera SNP ID:            hCV26581130
SNP Position Genomic:     22160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53905):
CTCGGCTCACTGCAACCTCCGCCTCCCGGTTTCACGCCATTCTCCTGCCCCAGCCTCCCAAGTAGCTGGGACTACAGGCTCCGGCCACCGCATCCGGCTA
W
TTTTTTTTGTATTTTTAGTACAGACGGGGTTTCATCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCTCCCGCCTCGGCCTCCCAAGGTG
Celera SNP ID:            hCV26581131
SNP Position Genomic:     22033
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,7)      total(A,7|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53906):
CCCTCTCATTTCACCCAGACTCCTGCAAAAGCTTCCAGAATGGTCTTCCCTGTTATACAGCCCTTGCCACTATCCCTGCCCATCCTCCACACTGGGCCAA
K
TTGCCCCGTAAGAACATAGATTTCTTCAAGCCCATGCTTCCATGTCTTCAATGGCTTCCTATTACTCTTAGCACAAAAGCCCAGAGCCTTCATGCTGTCT
Celera SNP ID:            hCV27535867
SNP Position Genomic:     27853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53907):
TGTTTTTCTTTTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTTGTCCCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCA
Y
TGCAACCTCCGCCTCCCGGTTTCACGCCATTCTCCTGCCCCAGCCTCCCAAGTAGCTGGGACTACAGGCTCCGGCCACCGCATCCGGCTAATTTTTTTTG
Celera SNP ID:            hCV26581132
SNP Position Genomic:     21942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 263
Celera Gene:                 hCG41767 - 146000220214940
Gene Symbol:                 ADRM1
Protein Name:                adhesion regulating molecule 1;GP110;MGC29536
Celera Genomic Axis:         GA_x5YUV32VYHA(1980044..1999241)
Chromosome:                  Chr20
OMIM number:                 601033
OMIM Information:            LAMININ, ALPHA-5;LAMA5


Genomic Sequence (SEQ ID NO:12423):
TCTGCAAATGCTAACACATAAACCATGACCTAACTTTTGTCACCTTGGATATCTATTGAATGTTAAACATCTCTAATAAAGATGGCCACCACTTAATGTG
TGGAAAGTGATGGCCTTCTCGTGGGCCACGCGTTTGGGTGTGAGTATGGCCTTGACCAAGGGTCTTGGTGCTTTATTCACTTTTAGAGATAGGGTCAGTT
GCCCAGGCTCGAGTGCAGTGGTGCAGTCATAGCTCACTGCAGCCTCGACATCCTGGGCTCAAGCAGTCCTCCAGCCTCAGCCTCCCAAGTAGCTAGGACC
ATAGGCACATGCCACCAAACCCAGCTATTTTTTTAAAACAATTTTGTAGAGACAGGATCTCACTGTGTTGCCCAAGCTGGTCTTGAACTCCTGGGCTCAA
GCAATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCAGGCCCTTGGTTCTTTTAAAAAATTAATCCTGTCATGTAGG
ATGTCCTTACAGAATGAAAAACCTAGCAAGCTTATTCCCCAACAGAACCTAATACCTTGGTTGGATTCTATTGCTAATTGAAATGAGAATTCGGTTCTAT
GGTCATTGGTTCAGGGTGTATGTATTGTGAGCTGCTGGAGACAGAACGGTGAACAGGCATGCCTCCCGGAGAGCCATATGCAAAGCACGGAGAGCCACAT
GCAAAGCACGTGTTGGCAACATAGCACATGCTGCTGCTCACCAGGCTCACCTGGGATGACGGTGTGGATCTGAGTCGCTGGCCACGTGGCGACGTCTGCC
CTGCCCTAGTGTCCAAGGACGGTGAAGGGTCGGGTGTCACCAACACCTGCAGCCTTCTCACCGGGCGAGGCTTGGGTTGTGGGAAGTGGGGGACAGCTGG
CCCTGGTCCCCAGCCCTGATGGACATCCGGCATTTTGCTGGTGCAGGCTGTCCTGAAGCCAGACCCTCCCGAGACTGCTGTCTGGGAGGAGAGCGAGCCA
GCGGCCCAGATGCCTTGGTCGCGGGGAGGTGCCTGTGTGTACCGTGAGTTTCCCAGCCTCCGGCGGCAAGTGGGAAAGCCGGTACAGGAAGAGTGGTGCC
TGCAGGTGCTCCCGGTCACCACCACCCCTTCCAGACGCCATCCCCAGAGCTCACATCTGTGCTGGCTGGAGGGTCAGGGCTCCACTCTGCCCGACAAGCA
GTCTGGTGCAGGGGACGCAAATGTCAGACCCAGCAGGGCCCGGCACTTGGAGAAGTGCCACATGCCACCCTGGTGGCCTCCGGGCACCCCACTGTCCACG
TGTCTGAGCATGGAGCTGTCCATCTGGGGCATTGGCCTTGAACACCAAGGACCTGCCCCGGTTTGCCAGGCACATCTGAACACAAGGTCAGGAGGTTAGA
ACAGGACAAGAGAAACGCCTGGAGGCCTCCTCACAAGGCATCCTGCTCTTTGGGGAAAATTTCTCCCCAGCAGAAATGGGGATTTACAAGTTTTACAGGT
CCTTGTCATTTCCGTGAAGGAAAACAAAGCAAAGACAGTTACGAGTTCTGGTGAGCTTCCCACTGAGCTGGGCGACAGAGTTCAGGTCTCCAAGTGCCGG
GCCCTGCTGGGTGTGACATTTGCGTCCCCTGCACCAGACTGCTTGTCGGGCAGAGTGGAGCCCTGACCCTCCAGCCAGCACAGATGTGGACGAGGGGCGC
AGCTGGACCCCAGAGGAGAGTTCGATCCATCTGCAGGAAGTCCTGATGGTCCCAGTTTTCTTTGATGGCCACATCTGGACTTGCCTGTGTGTAAAGTGGA
CACAAAAGACGGGGCCCCTGCCGTGGCCGAGAACGTGGCGGTGGCTCCTGCTGCTTGCCAGGCAGCACGGGAGCTGGGTCTCCCTCGGACCCCTCAAAAG
ATGGTTCCTCACCGTCTTCTACAGGCTGATGTAAAATTTCTGTGAGGCGAAAGCCACATTTGCCAGCTCTGGGTACGAAGTTCACTTCACAGTCGGTCCT
TCGCTTGGTGAGCTTTGGGAGCCAGGCTGCCGTGGCCAGATGTTTAGGAGCACGACGGTGGCTCTGCAGAGGGCGATGGTGTGCAGCCGGGCTTTCCTGT
CGCCCACACCTTGCAGGCCCTCACCCCTCCCCGTGCCTTCACCCAGCTGCTCCTCCAGTGCCATTCATCCCAGCAGGCAGCAAGGACATGGCAGCTGAGA
AAAGATGCCAGCAGAACGCACTTATTTTATAATATTTAACAACTGTCAGTGCCAAACTGCATTAACACAGTCATCCTCAGATTTTTCAGAGGGCTGTGTA
CACATCTGTGAAAATAAATGTTAACCTCTAAGATTTGAATGAAGATTCTCTGAAGATGGGCAGCAGGTGACCTTTGTTTTACACTGAGCAATTTTTCACC
ATCTCAGCCGCTCTGGCCATTTTGAAAAGGGCTACAAATCTGCTAAGGATGAGTCCTCATGCCTGGTTATCAGAAGTTTGGACCGCGTGTTCCTGAGGAT
TGGCCAAGCAAATGGCTCATTTCCAAAAACTGCCCTGTGGAGAGGGGGCTGGGGGACACTCGTGACACCTGTCGGGCGGCACATGTGATGGGTGGAGCAC
CCAGGTTCTCCAAGCAGCAGGAGGCTCTGATGGACCCCCCTCCCCTGGCGGGGGGACGCTACTGCTAGAAGCAGCGAAGGGCCCGGTGCCCCAGGTTTCA
GCTGCCTGCCTTCTGCCGTAAGTTGCCCCAGCACCTTCGTGCTTTTCAGGAGCGTAAGCTGAGCAGACTCAGTCGTCCCAGTGGTCAGTGTGGCTGGGGC
AGAGGGACACACGGTCCACAAGATGTCCATGCTCTCGGAATGCTCCAGGGGTTTGGCTGTGGGGCTCCACCACCATTGCCTGAGCCCGGAGCCAGAGGCT
CCTCCCACACTGCCTGGTCTGCCCCACAGAGCATCAGTGCCACGCCAGGTGAGGACAGCGCTCACCAGACAACCAGGCCTGCCGCCCCACTGACGCTGAC
TTCCGGACCTGCAGAACTGTGAGAAAGTACGTTTCGCTTCTTTGTAAACTGCCTGGTCAGTGGTGGCAGCACAGATGGACCGACGTGGACCTCGACGCGA
ATGGCGGGCTCTGGGCGCTGACCCGGTGGCGGCGTAGCTCACCGAACACCCAGGGGGACCAGAACTCTCTGCCTTCCACTCAGTTGTGACTTGTCTATTT
TTAAAATGTTAAAAAAAAAAAAACCCACAAGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGTTGAGGCGGGTGGATCGCTCAAGCTCAGG
AGTTCGAGACCAACCTGGCCCACATGGTGAAACCCTGTCTCTAATAAAAATACAAAAATTAACCGGGTCTGGTGACACATGCCTGTAATCCCAGCTACTC
AGGAGGCTGAGGTAGGAGAACTGCTTGAACTCAGGAGGCGGGGGCTGCAATGAGCTGAGATCAAGCCACTGCACTCCAGCCTATGGGATAGAGTGAGATT
CCATCTCAAAAAAAAAAAAAAAAAAAAGTTTAAAAAACCCTACCCCTGCCAAATGCTTTTCCGAAGTAGCCGTGCCATTGGTGTTTCCAACTTTGCCTGG
CACCTTCCATCGTTTGCTAAGTTCCAGCAGGTGTATTTCATTTGCATTTCCCTCATGAATAATGGTGTTGAGCAGCTTGCCATGGTGCCTTTGCYGCCTG
TGACCTCTTTGGTGAAACATCCGGAGGTGTCTTCTGCCCACGTGGAGGCGCAGCCTGGGCTCTGCCGCCCACCTTTCACCCGAGGAGCCTGCAGCACGTG
GAGAGCATCAGGGTGTGCTTTCTTTACAGTTTGGGGCTTTTTTGAGACAGGGTCTCGCTCTGTCACCCAGGCTGCAGTGCAGTGGTGCCATCACGGCTCA
CCGCCAGCCTTGACCTTCACCTCAGCCTCCCAAGTAGCTGAGACTACAGGCATGCACCGCCATGGCTGGCTCTTTTTTAATTTGTCTTTTTCTAAAGACA
GGGTCTCACTGTCTTGATTAAGCTGGTCTTGGAACTCCTGGGCTTCAAGGGACCCTCTCAGCTCGGCCTCCCAAAGTGCTGGGATTGCAGGTGTGAGCCA
TCATGCAAGTCTGGGGTTGTTTTTTTTTTGCTAAACAGGATGAATAGAAATCTCTTTTGGGGGATCTCTTAGTCCAAATCCTTTAGCTGAATGCGCGTGT
CCCGGTGAGGCTGCTCCTCTAGATGCTGCGGGCATTTTGCAGACGTCCCACCAACTGCCATCAGCGACCAATTAGAAGATAGGGACAGCTGCACATGTCA
CACAGCCCTTCTGACCTTGTGTGTGCTTCAAGTCCGAGATTCCTGACACAAAGCAGCGTGTGCCCCCCCACCCACTCTGTGGCCACAGCTGGAGTCCTGG
GCTGCTGGGTGCTCCAGGTGCCATACCCCACACACGCATAGAGCCCGTGGGCTGGCAGCGGGCACCCACAGTGGCCTCTGCAAAGCCTGCCTGGCTGCGG
CTCGTTTCCTCACTGCAGCATGCTCATAGGAATGTGGGAGTTTCGCTTGAAGTGTGGGTAAAGAGTTCTGGGGTTGTTTGAGCCATCCCAGGCCACAGGG
CCTCCAGGAAGTGGAGGAAATGGTAAATCCAGGGTCCTCTTGGCCACTGCGTTGGCCTCTGCACACTTGGCCCCTGCGGACCCTGGGGCTTCTGCTTTAC
TGTCTGTGACATAAACAAGTGACGCTTGCCACCTTCTTGCCGGGAAAGCCAGGCTGGGTTTTCTCATTTCCACCTTTTCCCTGTTTTACACGAGGGCACG
AGGATGGGGCTGCAGTATCAGTGACGCACCTGTCACCAGCGGGCCACAGAGCTTTGTGTTAGCCCCTCTCAAGCCCTTTAGCTTCTGGAACCGTTTAAAT
TCTTAAAAATTATACAGGACCCCAAAGAGCTTTTGTTTATGTGAGCTTTATCTATTGACATTTACCATACTAGGAATTAAGAGGACATTTAAAATTATTT
AGCTACATAAAAATAACAATAACAAACTTACTACCTGTTAACACACATTTTAAAATGAAAAGTGGCTACATTTTCCAAAACAAAAAACGTGAATCTTTAG
CTCAATCAATGTTTCAAATGGAAGCATTATGACAGTCAAAAGCTGGCAACTAAACATAACTGGCACAAGCTCTGCCACCGAGACAATGGAGGCCTGAGTA
GTAGGCTCCCTGCAGAATGAAAGGACTGGAGCTGCCAGCATCAACACCAACGCATCTCCCAACAAGGGTGAGTGAAAACACACACCTAAAGACCTCAGAG
AGCACGTAAGCACACAGCTGTGCATCCACTCTGAGGGTGAGCCACCAAGCACACGGTGACCCCGGGGAGCGCCCGAAGGGAGTGAAGTATCTGAAGGAAA
GAAGGAAGTGAGCGATGGGCAAAGGAGAACCTGAGGACCCTGGCACAGTCTCAGCTGCAAACATCTAGTCTTGCTTAACTGGGGTGCAGAGGCCACTGCA
CCTCAGGGTTCTCACGAAGCGCCTGACCTCTCTATTTTATTACTATTATTATTATTATTTTTTTTTTTTGAGAAGGAGTCTTCCTCTGTCGCCCAGGCTG
GAGTGCAGTGGCGCAATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAGGCGATTCTCGTGCATCAGCCTCCTGAGTAGATGGAATTACAGGCATGT
GCCAGCATACCTGGCTAATTTTTGCATTTTTAGTAGAGTCGGGGTTTCATTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTAATCCGC
CCGCCTCGGCCTCCCAAAGTTCTGGGTTTACAGGCGTGAGCCACCGCGCCTGAGCCCTCTAAGAGCCCCCGCCTGGCGTCGCTGTAGGCAAATCCCAAAG
AACGTGTCCCTTCAGCAGCCGGCTGGGGCGCCACAAACACTATCTGTTGTCTTCGCTTTAGTTTGTGTCAAAGTGACTCAAAGTTACACAACACTGGCGG
GCGACTGCCGCCTTTTTACCCTGTGGCCTTTCCCATCCAGGCGTCCAGAGGGTGAGCCCCTGCCCTCCAGGACCCCTCCCTTCCAGGACCCTACCCGTCT
GGGACTCAGGCCTTCCCTGACTCCTCCCTCCCGGACTCACCCCTCCCAGATCCCTCCCCTCCGGGACCCTCTCCCCTCCCGGGCCCCCTCCCCTCCGGGA
ACCCCTCCCCTCCCGGACTCACCCCTCCCAGATCCCTCCCCTCCAGGAGCCCCTCCCCTCTCGGGACCCCTCTCCTCCCGGACCCACCCCTTCCTGACCC
CTGCCCTCCCGGACCCCTGCGGGACTAGATGTATACAGCTGAGACCATATCACGGTTCTCACCCTCGCTCTACCCTCCCGGACCCCTGCTCTCCCGGACG
CGTGGACTCCAGCTCCCGCCTGGGTCCCCAAAGCGCTGAACCCATGGTCACTTCTATGCGTAGCCCTGGTGCCCGCCGCCCACAGCCGGACCGCACTCCT
CGGCCTCCGCCTAACCCCTGGCTCAGCCACACGAGTGACAGCTCTGCCCGCCCGGGCGGGCGACGCCGAGGGGTGGGCTCGGCCCCACCTGAGCAGTTCC
CCAGCGCCCCTCTGAAACCCGCCTGTGGTCCCTGGCGCCGCCTCTAGGGGCCGCCGCCGCTCCCCTATGACACAGCAACAATAGGGGCCGCTCTGGTCCA
AGCGCCCTGCGGCCCGCGCTTCCGCCGGAAAAGAGCCGCCGGCGCGGGGGCGGACCGGGGAGGAGCGAGTGCGATGGACGGTCGCCCTCGCCAATCGTTG
GCAGGTTAGAGCCGGCTGCGCGGCTTACGGGGCTCAATCGGCGGCGAGAGCGGCAGGCGGGGCGGGCCGAACGCGGGTTTCCGGCGGGGCCCGGCAGGCG
CCGAGGAGGAAGAGCGAGCCCGGACGGCGCCTCTCGAACGAGTGTGGGCGCGAGGCAGGTGCGGGAGTCGCCGGGCCTGGGGCGGCCGGGGGCGACCGGA
GGCGGGGGCAGGGGCTGCTGGACCAAGGATGGGGCGGGGGCAGCCAAGACGAGAAGGTGGCCGGCGCGGCGGGTGGGGCCTGCGGGGGCCGGGCCGGGCG
GGGGTTCTGGGGTCTCGGGCGCCGCCCCGGTTCCGCCTGCGGCTCTGAACGTGGGGCTCGGCGGGAGCTCGGGCGGGTCTGCCCCGCGGAGCGGGTCGCC
GGGGTGGCGCGTCGAGGCTGGTGCCCCGCGGAGACGGCGTCAAGCCTAGGGCCGGCCCCACTAGGCTTGGCGGGGCTGCCCCGGCCCAGCGCCGAGTGCG
GGCGGTGCGATCGTCGTGAGCGGGGCAAACGCGGAAAGGCAGCCCGGCGTGTCTGAGTCTGCCTTAGGCAGCTCTGGGCGCAGGCCCCCTGCTCGCAAAC
ACCCCAGGGGGCGGGAGCTTGCCGGACCGCAGGCGACAGTGACCGCCGCGTCTCAGCGTCCTCTCCGCGCTTTCAGGATGACGACCTCAGGCGCGCTCTT
TCCAAGCCTGGTGCCAGGCTCTCGGGGCGCCTCCAACAAGTACTTGGTGGAGTTTCGGGCGGGAAAGATGTCCCTGAAGGGGACCACCGTGACTCCGGAT
AAGCGGAAAGGGCTGGTGTACATTCAGCAGACGGACGACTCGCTTATTCACTTCTGCTGGAAGGACAGGACGTCCGGGAACGTGGAAGACGTGAGTGTCC
CTGAGCCGCAGCAGCAGGACAGGCGACTTCTCGGGCCCTCGGAGTCCTCGCTTTGGAGTTCGCGGTGGGGGCTTGGCCGCATCTGGGGACCGCTCGTGGG
GCCGTCATCGACTGCCCTGCTGATGGGTCGTCCTGGTTTCCGCGGTGACAGGGGCATCTCGGCCACTGTGTATCTTGAACTGTCCGTGTGAGGTGCCTGG
GTTGGAGGTGTGGCCCTGGAGAGCCCGGAGCTCTGTGCCTGGCCTTGAACTGTCCGTGTGAGGTGCCTGGGGTTGGAGGTGTGGCCCTGGAGAGCCTGGA
GCTCTGTGCCTGGCGGCTTCACTCAGTCTTCTTTGTTTTTCAAACTCTTAGTTGTTCTTTGTTACATTTGAGAGCAGTTCAGCGTTGACTTTTTAACTAC
TCTGGGAATGTTGTTTCCAGCACGTCTCAGAAACCCCGTTGCCATCTGAAAGGCCCCTTTCCCTGCTCTCTCCCCCGGCCTTGCCTTTCATGGGCTGTCT
CTGACCCTGGCTTCTCTGCCTTGTGGAGACCCTGCCAGCGAGGGGTCTGGCGGCTTAGCTGCCCCTTGCGCACCCCACCCGGTTAGACCCAGGGCTCAGT
ACGCTCTCCTGAGACTGGGCACAGTGATGCCATCTGCGCCACTGACTCTCTCTTCCCCTGGCTTGCCAGGACTTGATCATCTTCCCTGACGACTGTGAGT
TCAAGCGGGTGCCGCAGTGCCCCAGCGGGAGGGTCTACGTGCTGAAGTTCAAGGCAGGGTCCAAGCGGCTTTTCTTCTGGATGCAGGTATGGGGCAGGCC
TTGGGGTTGTGCCTTTTTGTTGCCCTGCGATTCGGTTAGGAACTTGCTTACAGTGTGGTGCAATTGGCTTTTATAAACCAGCAGGCGCCGGCCACACCCG
GCCACACGGCCTGAGATGCCACCTCAGGGCTGCGGTGCATGCTACCTGGGGCCGAGGTCCTCTCCCAGAGTACGGAGGCTCYAGGCTGGGCTGCGGGCAA
CCGATTGCGGTGTGAAATTTCCAGGCAGACAGACATGCTGGCCCTGGTTCTAACGATGCCCAGTGCCCTCTCTCTGCCCCTTGCCGTGGGTCACTGAGGC
CCCCACAGCAGAGGCAGAGGCCCCTGTGTGGCTTCCCTGCTGGTGCTCACAGAAACGAAGCATCCTGCTCACACTTTCCACAGTCCTGCCCCTTCCCTGG
CAGTGTGTCCTGGAGGCCAGGGGTGTCAGTGCCCAGGGTTTCTCTTACCCACAGCTGCAGAGCGTCTTTTGGGTCTAGAGGCCGCTGCTCATTCTGCCAT
CTGTCAGTGACCATTGAGCTTGTTGCCGTTTTTTGTGCTGTTACAGGCAGTGTTGCAAAGAATTTCCCGGTACACAGATCATTTTCCATAAGCCAGTATC
ATCTGTAGGTGAAAACTGGTGGCGGGCCTGTGGTCAGGAAGCGTGTGCATGCGTTTGCAGTGTGGAGAGAGAAGGCCATGCTCTCTGCCAGAGGTGGAGC
TGCTGTCCCCACCCCACCCCCCTTGGCACTTTCAAGAGCAGGGGTGGCCCTGGCTGAGGTCTCTGTGGAGCACATGGTCTGTGTTGCTGGTCACCTGTGC
AAGTAGTGTGCAGCGGCCTGAGAAAATGAACAGGCATAGCCAAACTCCAGTTAAACTTTATTTGCAAACACAGATGGCGGCCACAATTTGCCACCTGCTG
GTGTAGAACGTGTTTTTCCACGGTTTTGCCAAGAAATAGTGTCCAACTGTTACCACCATCTCCCTTTTTTCCCCGATTTTCCTGTTGGTGGCTTTTAAGT
CCCCCRTCCCTGCTTTGCCATGAGAGCAGGGACTCCCAGTGTCCCTGGCGCCCTGCAGCTTCCATAGCCATTCGGGGTGTGCGTGGGTGCTCTGCTCCCA
GCTCTGTGAGCTCGCAGGTCGATGCTTCTGACACTGATCTGTGCACATGTGTGTGCACACGCGTGTGCTCGATTGTGAGCGCCTGCCGTGGCCCTGGGCC
GCGGTGTGCTGAGCGGGCCAGTTCGCTGCCTTCCACTGGTTGAAGGAAGGAGACGGGTGTGTAAAGAACCGCACCCCAGAGGGCAGGAGGGTGAGAGGGC
TTGGTCTGGCAGCAGCTAAGTGCCTTCGGAGCTCTAGGCTCCCCATTTGTGAAATGGGCGGAGGGGGACAGGGCACACCCGGGATTGCGGCGGATGGGGA
CAGGGCGCAGAGCATCGTGCTCAGGAGGCGCCACTGCCGTCCCCTCACCTGCTGGGCCGGGTCCTGTCTCCTCAGCATTGTGTGGCCAGGCACACGCGCC
TCTGCGTCTCAGGTCCCTCACCTGGAAGCCAGGTCAGAGGATGGCTGTGGTGGCCCTGGGTGAGCTGGCRCCAGCTCCTGCCCTTACATGCCCTTCCTCT
TGCAGGAACCCAAGACAGACCAGGATGAGGAGCATTGCCGGAAAGTCAACGAGTATCTGAACAACCCCCCGATGCCTGGGGCRCTGGGGGCCAGCGGAAG
CAGCGGCCACGAACTCTCTGCGCTAGGCGGTAACTGTCACATGTGTCACGTGAGCTCAGGGTTTCCTGGGAGGCCAGAGTCTACTGTGGATGACTCGCCC
CCTCAGCACAGGTTGTTTGGAAGTGGAAATAGAAGATTCTAAAAGTTAGAGACCCTGTGAGCKCCCTGGRTCACTCCCCACTCCCACCTTCACGGGGTAG
GACGGGTCTGCATCCCACCGTCGCCTCACTTCAAGTGGTGCCCCCTGTAGGGTTCAGGGGCAGCCGAGTGCGGTGCTCAGCAGAGGCGCAGGCAGYGCGG
TGGGGCCCGCGTGGATCTGGCTGGGGCAGGCCCGCCTGAGCTGCAGTGTTTTCCAGGTGAGGGTGGCCTGCAGAGCCTGCTGGGAAACATGAGCCACAGC
CAGCTCATGCAGCTCATCGGACCAGCCGGCCTYGGAGGACTGGGTAACGTGCGCCACCCGGGCTCTCGGGCAGCTTCTGCTGGGAATGCTTTGAGGCCCG
GTCTCTGTTTCSTTTAAACTTCTGCTGGCTCTGTCTGCGTAGTGTCGGGGAGCCTGTGTGTCCGCAAGCTGGTTCCCCTTTGGGAATGCGCTTGTTTGCC
TGTGGCTAGAGCTGGGTAGGCGAGGGCTTCTGGGCCCCTGGTGAGGACCCCAGCTGGGTACTTCAGAGGAGGGTGGCTGGCCGAGCGGTGGGGCTGGAGG
ACTGGAGGGAGCTGGGGTTCCTGCGCCCTGGGTCCCCTGGCCCYACATGGCTGCCTGCCTGCTGCCAGCTCATGGAGTGCAGACCCGTGTGCTTGGCCCT
TCAGAAATGCTTGTCCCTTTGGGTGGGATCTGGACTGAATCTTCTAATCTAAGCACATGAATTGTGTAATGGGATGGAAYAGAAATGACCTTGCTTCCAG
AACACAGCCGCAAGTGTCCACCCGCCCCAYGCCGCTCCTCCAGGCCTGTGGGTCCCCACCGCCCCGCTTCTTCCTGGCTTTGGTGTTGGGAATTCCTGCT
CCTCTGGCCTGGGGAGGGGCCAGGCTCTTTCTGGTGGGCTAGAGGGCATCCTGAGCTCGCATTTCCTTGCCCCTCGCAGGTGGGCTGGGGGCCCTGACTG
GACCTGGCCTGGCCAGCTTACTGGGGAGCAGTGGGCCTCCAGGGAGCAGCTCCTCCTCCAGGTGAGCCTCATCGCTCCTGCCACGCAGGTGCCACGGTGT
TAAGGGAGGGGCAGTGGGGAATCCTGGCCCAGCACCCTGGACCCTGCGAGTAGGCCCTGCCGTGTGGGGCGYGTCCGCTCCAGCGGTGCCCTCTCTCTTC
GCAGCTCCCGGAGCCAGTCKGCAGCGGTCACCCCGTCATCCACCACCTCTTCCACCCGTGCCACCCCAGCCCCTTCTGCTCCAGCAGCTGCCTCAGCAAC
TAGCCCGAGCCCCGCGCCCAGTTCCGGGAATGGAGCCAGCACAGCAGCCAGMCCGACCCAGCCCATCCAGCTGAGCGACCTCCAGAGCATCCTGGCCACG
ATGAACGTACCAGCCGGGCCAGCAGGCGGCCAGCAAGGTARCGTGTGCTGTCGCCTGGAGCTGGGTGGGGGGCATGGGGCCTGCTGACCCTCGCACGCTC
ACCTTCCAAGGCATCTGCCTAGTGTGCGCGCCTGGGGTGCTGGGGCCATGGGCTGAGTCCCTGCTTGCATGCCTTCCATGTGGGCACTTAGGCTGTCATC
GAGCTGATGGCCGTGTTCTTGTGCCCCAGTGGACCTGGCCAGTGTGCTGACGCCGGAGATAATGGCTCCCATCCTCGCCAACGCGGATGTCCAGGAGCGC
CTGCTTCCCTACTTGCCATCTGGGGAGTCGCTGCCGCAGACCGCGGATGAGATCCAGAATACCCTGACCTCGCCCCAGTTCCAGCAGGTAGAGGCCGGGC
CCAGGGTGTCCYCCACTGTGTGCTCMGGGAGTGGGCAGGGGGGAGGAGGAGGCCCTGCCCCACCTTCACCATGGCCAGTGCTTCATGTGCCTGACCCGCA
SAGCTGGCAGCTGAGCAGTGTGGCTCTRGGGTGCAGCCCGGGTTGGAGCTCAGCCCTCGCCTGGCTCTTCTTGCAGGCCCTGGGCATGTTCAGCGCAGCC
TTGGCCTCGGGGCAGCTGGGCCCCCTCATGTGCCAGTTCGGTCTGCCTGCAGAGGCTGTGGAGGCCGCCAACAAGGGCGGTAAGTGGCTGCGCCTGCACC
TCCAGGCCAGAGCCAGGGGCAGGGTCCATTCCTGTCCCCCTGGATCTGCAGAAGTGGGGCTGAGGGGGTAAAGGTCACAGCCCTTCTGCCCTTGATCCCA
TCGCTTTGATCCCMAGTTCTGGGCAAGGGTTAGACACCACCTTGTGTCTTTAACGTGTTCTAGATGTGGAAGCGTTTGCCAAAGCCATGCAGAACAACGC
CAAGCCCGAGCAGAAAGAGGGCGACACGAAGGACAMGAAGGACGAAGAGGAGGACATGAGCCTGGACTGAGCCACGCGCCGTCCTCCGAGSAACTGGGCG
CTTGCAGTGCGTTGCACACCCTCACCTCCCACCCACTGATTATTAATAAAGTCTTTTCTTTTACCTGCCAAYGCTTAGTTTCTTTGCCCAAAGGGAGTTT
CGGCTGGACAGGTGCTAGCGTGGGGAGCTGCTGTAGGGTCCCAGAGACAGTTAGTTATTTGACCTAACAACGGAAAACGGTCACCCCAGGAAGAGTTTGG
TGCCTCTGTCCAGGCCGGTTCCAGAYCTGTCTTGAGACTHTCTCCGTATTTAAGTCAACATTCATTCGGTTACACAGAAGTTACTTTTTAATTTTTAAGG
AGGAACCAGTGATGATTGGTGACAAATCTCTCACAATTAAAAATGGGTGGAAGGGCCAAATATAAAAACATTTTGCAGTATTTTATTCTTTCGTTTAAGA
AGCTATAACTTAAACCATCTTCAGAAACAAGATCTGTCACCCGTAGAGCTTAGAGTCCAAATAGACACCTATGAGGCGAGCACAAGGRGCGGTGTGAGGC
AGCTGCAGGGGCCTGACCAGGGGCCGGGGTTGGCTGTGTCCTAGGCGGCTGGGCAGCCACTGGCCCCCACTGCCCCGTGGACCTCCACAGAGCGAGTCAT
GGCGACGGGGGACCGGTTCACCGCCAGCCTCCTCATGCAGCCGCAGTAGGCGGGGGGCCAGGGCTGCACGGCCATGGGCTCTGGGGGCACAGGGAAGATG
GAAGAAGGCTGGTTGGTGGGCAGCTAGAGACCCACAGGCCCTTCCCAAACGTCAGTGCCCCACCCAGCCCCTGTCTCATTCCACATCATAGGAGGGTGGT
AGGGGGGTGGGAGGAGGGTGGGAGGGGGCAGGGGGTGGAGGGGTGGGGGGAGGGTGGTAGGTTACGCAGCACCTAGTCCTGAGGGGCAGCTCCCCCACCC
TTGATCAAGGCCGCACTCACCAGGCAGGCCCCCGAGGTACAGAGGGGCTGGGGCACCAGCTGCAGCCGCCAGCAAGGGGCCCACGGTGTGGTTGCTCTGC
GCGTCCACCTCCAGCCGGAGCACATTCCCGCTTTTCATCACTGGGAGAAAGGGGGACTCCTGAGGCCAGGTGGTCCTCAGCCCAGCCTCTCTCCAGCCCC
AAAAGAAGCCACCCCACCCAGAGTCCCGCCTGGCTCCCGCTCTGCAGAAGGGTGGGGGTGGCAGAGTGCCCTGGCCACAGGAGGGGCCTCACCCGCTAGC
CGGTGCCACTGGCCATCACACAGCACTGAGGGGCGGGTCACTGACGTGGAGAACTCCCCTGCTCCGTCATCCGCCCGCAGCAGGACCTGGAGGGGTAGGA
AGGGAGGGTCAGGCTATGCCCCCGAGGTCACCAGAATGGGGAGGCAAACCCTGCCCTGGCACGCCACCTCTGCCAGGCTTACTTGCTTCTCGGTCACCTG
CAACTGCAAGTAGGGGGGCGTCCGGGCCTGGCCCAAGTGGAAGATCAGTCCGGTGACTGCCAGGGGCCGCACCTCCAGTTCCAGGCCCACATCAGGCAGT
GTAGCTCCTGGGAGGTCTGCGGGGAGGGGTTGTGATGGAGAAGAAAGGGGGGGCCCCTCCCCAGAACCTCCTGGAGCCCCCTGCCCTGCCCTGCTGGGGC
CTGGGATGCCAGCACCCACAGACCTAAAGTGATAACTCCCCCGCTGCCTGGGAAGAACAGGCCCGCCTCCAGGGGGCCCAAGATGCAGGGTGTGACCCCT
GCCATCCGTGTGGGGGCCCCCAGGGGCCTCCCGTGCAGCCTCAGTCTCTTCACACAGCCGCTGAACCCGACGGTCACCTATAGGAGCAGACCGGGCAGGG
ATCAGGGCCCAGGGCAGCTGAAAGGGAACAGTGGGTGGGGAGTGGGGGCTGGGGCAAGATGGTTCTCACCGGAAGTTTGGAGCTGTGGCTGCTGGCCGGG
AGGCCGCCCACAAAGAGGGTGTGGGGCTGGGGGTGCTCTGCCCCCTGGTGCTGCCGGTGCGGCCCCTCCTGGCTCCAGGCCCGGGCCCCGTCCGTCACCA
GCAGGATCCGGTTCTTCTCCCAGCGCACGGAGACCTGGGGGCAGGAGATGGGTCAGGGTAGGGCTGCCAGGCCCTGCCCACCACCTTCCTTCTTCTCGGC
CCTCACCTTGTGCCAGCGGCCAGGCCGGGAGCGCTGGCGGCTCTGGGCGCGGAGCCGAGTCCCGAGGCCTTCCATCTGTGCAACGAAGTGGCCATTGCTC
AGGAAGAGCGCCAGGGAGGGGCTGCCGGGCCTCAGACGGGCAGTGAAGAGGAGGAGGCCTCGGGAGCTTCGCGGGAGGACGTGCATGGAGAGACTGGGCC
TGGAAGCGGAGCTGGCGTCAGCCTGCGCGGCCCCTCTCAGCCCACCCCAGCCGGGCCTGGCCTTACCAGTTCCTATGTCGGGCCAGGATGCCCACAAACT
CCAGGTGACTGGACAGGGAACCCCCAAACTGGTAGGAGTCTCGGGTGGTCCTGAGGTGTGGGGGCAGCATGCAGGCAGGATGCCGGGCGGGCTGACGGCT
GCGGCGGGAGGCCTGGGGGCGTGGATGGTGAATGCAGGGGCCGCCCACACAGGGGCCACCCTTCCAGCCACCCCAGCTCTGCCTGCTCACCCCTGGGGTG
CCCACCTTCCGGGCGGTGGCCTGCAGTCCTCTAGGCCCCAGGCCCGGGGTCTGGGCTTGCAGGGCGGGTGCACAGCCCGTGCTCACATTGACGCTGCCCA
GGTTCTGCTGCAGATCAAATACGCGCTGTGGGCCCAGGAGCCTGTGCAGGGCGGGCAGGCGGTCAGCAGCTGCGGAAGGCCAGCTGGGACCTTGTCCCCC
AGCGCCCACCAGGCTCACCGCTGCACGAAGACGTTGCTGATGCAGCCACTGAAGTTGTAAATGGTGCCAGACTCAGGCAGGCCTCCCAGGAGGAGCCTCG
GGGGCCCCTCAGGCTGCGGCTGGAGCTCGGGGGGTGGTCCCCGGTGGGGCTTCATCTGCTGGAGCTGGTCATCGACATACAGCCAGACTCTGGGGGGCGG
GAGGCCGGAGGCTCGGTTTTTCCCCACCCTGCCCACCCCCACCTCAGAGGAGACAGAGGTCCAGGCAAGTGCAGGCGGGCGTCCCTCCAGACCTTCACGA
TGAGGGCCCAGCGGCCAGGCTCACCCCGTGGCATTGCTGTAGAAGGCGACGTAATGGGGGGCACCATCGGCGAAGCCCGCTTGAGTTTTCACTTCAGTCC
TCAGGAGCTGTAGGCTCACACGGCCCTGCTGCAGGGACACCTGGCATAGCCCATCCTGGGGACGGCAGCCAGGTCAGCCGGCCGGCCTGGGGACCCAGAC
TCATTCCAGACACCCCAGTCCCAACTGCTCCGACGGCCACCGCGGGGTGGGGAATGGGCACGGGTGTGAGGTCTCACCGGGGACGCCCGGTAGTAGAGCA
GGGCACTGTCCTGGGCGCTGTGGAAGCCGAAGCCGGAGTAGACGTTGCCAGTGAGCGGTGCCACGTTCGAGAGCGCCAGGCGAAGGAAGCCGTGGCCATG
GAAAGTCATGGCGCGCCCCACCTGCGGGGAGGCCATCCCTGAGTGCCCGCGGGTGCCCCTGCATGTCCACAGATGCCACCCCCAGCCCGGGGAGGGCTGC
TCACCAGCAGGTCGGCGGTGCAGCCGGCGCTCACGCCTGTCGTGTTCAGCCGCTTGAGGTCCACATACTTGCCCAGGGCCTTGATGCCTTTGACGCAGCC
ACGGACTGAGCCTCCGGTGGGGAAGAGCCGTCGCAGGCTGTGGGGAAGCGGGGATGCGGGTCAGGGCGCCACCTCCAAGCCCAGCCTACCGCCCCAACAG
CCTGGCCTCGGAGCCCCAGCTGCGCACAGTGCTTACCTCGGGGGCAGCTGGTCGGGCGGCACGCCCCCCAGGTAGTAGGCGTCGGCCAGCTCCAGATCAT
TGTCCTGCTCCACGCTGTACACCGTGGCCCGCTCCACACGCACCAGCACACGCTTGCGGCTGCCCCCCAGCAGGAACACCTGGATCTACAGGACCAGTGG
GGGCTCCAGGGCCAGCTGTGTCCCTGCGGCCTGCCCCGCCCCCATCGTTCCATCTCCTCTCCCTGCCACCCTGGTCCCCACCCTGGCCCTACCGCCTTGC
TGGCCGAGGTCAGGGGCGGTGGGGGCTGCAGTGGGACGGCCTTTTTCAGGCCAGCCCCAAAGTCATACAACAGCACGAGGCTGCCTTCTTGCACGGCCAA
GCACAGGAACTGGCTCTGCAGAAACAGGGCAGGGTTAGTGTGGGGCAGGGTCAGTGCAAGTGGGGATGGCAGGACGGGTGTGCCTGGCGCACCTGCTGCT
TCAGGAAGAAGAGCACCCCGCTGTAGGACACGAGCCGCAGCTCCTGCTCGAAGCGCTTGGTGGTGCTGATCTGACTGTCGAAGCTGATGCGGGCGAAGCC
GGTGCCGTCCAGGTAGGAGCCGTCCGTGAGCCACGGGTCCCCGGTCGACTTGGAGCTGCAGGTCGGAGATTCTGGGGTCAGCGGAGGGTGGGGTGGGGTG
GGTGGAGACGGGGAGGGCAGGCCACACGCACCGGGCACAAGGCCTGTCCACAGCCGTGTCCAGCTGGAAGGTCCTCTCGAAGTTGTAGAGGCTGACCACC
TCCTCATTCAGCGTGTCCATCTCGATGCAGCCCCGGTAGCCGGGGAAGCGAAGCAGGGGAGGGGGCTGTGGGCACAGGGCTGGGTCAGGGCACCTGGCCT
GAGGCGCCTCCCCTCCAGGATGGACCAAGGGGACTTCAGACTACAGCAGGACGGACTGAGGCAAGATACCAAAAGAACCCGCGGCTCTCCAGGACACAAG
CGACTCGGGGCTGCGGAGCCCCTCCCAGGCTGCCCCAGGCCGGGCGGGCTCACCGTGAAGGTACTGGGGTACCCCCCGACGTAGAAGACGAAGTCGTCTG
GCCGCAGGTTGAGCAGCCCCTCTGCCCCAGGGGCCACCGTGTCACCCTTGGTTTCCTGGATCATCTGTCTCTCCACTGTGACGGACATGTGGCCAAACTG
GAGAGTCCTGAGGGCAGAGGCGAGGGGTGGCGAGTGGGCACGGAGAGATGAGGGGTGGCGAGTGGGCACAGAGAGATGAGGGGTGGCGAGTGGGCACGGA
GAGATGAGGGGTGGCGAGTGGGCACGGAGAGACGAGGGGTGGCGAGTGGGCATGGAGAGACGGGTGGCGAGTGGGCACAGAGACGAGGGGTGGCGAGTGG
GCACAGAGACGAGGGGTGGCGAGTGGGCACGGAGAGACGAGGGATGGCGAGTGGGCACAGACGAGGGGTGGCGGGTGGGCACAGAGACGAGGGGTGGCGA
GTGGGCACAGAGACGGGTGGCGAGTGGGCACAGAGACGAGGGGTGGCGAGTGGGCACAGAGACGAGGGGTGGCGAGTGGGCACGGAGAGGCGAGGGGTGG
CGAGTGGGCATGGAGAGGTGAAGGGTGGTGGGTGCACACGGAGAGGGGAGAGATGGCGAACGGGCAAGGGCCCTGCAGTTGGAGGCATCCGGCCTCTCTC
CTGGGCCTCCCACCTGTCCAGGCTGACAGCTGCGAACTGCTCCCCAATGTCCTCATCGATGCTTAGGACTGCAGGGCCCGCCTCACCCAGCTGATACACC
CAGTGCACCTTCTTGTCACGCAGAGACACACCCATGTAGTCCCCAGTGGCCTGCGGCAGTGACAGACACACAGTCGGGATGGGGACCGGGGACCAGGGAC
CAGGCACCGCTCATTTCCAAACAGAGCCTGAGCTCGGGCCGCATCCACCCAGCCAGCCTGGTACCTGGCGGCTGCCCATGTACATCACAAAGCGATCCTC
GGTACCCTGCCCAGGCTCAGGCTCTGGGCCCTGCAGGTAGAACTTGAGGGCAGTGTAGGCAGCAAGGTCGGCAAGATCCCGTGGGGTGCGCAGCTGCACC
CCTGAGCGCCCGTTGAACTTCATGGGCACCTTGACCTGCGGGGCACGGTCCATCAGCGTCCACCACCACCCTCCCTGATGTCCACCTTCCCCTGGGACTC
TCACCCACCTTACTGGCAGCCCCCCGGGCCTGGGCAATGAGCTCTCGCACGCGGCCAATGCTGGCGGACAGGGCCAGGCTGGCGTTGTGCACCCCACGGT
TCTCCAGGATGCTCAGCTTGGCCAGCAGCTGGGGCAGCGTCTTCTCCAGGGTGGACACTGCAGAGAGGGAGACCTGAGACCTTTGCCCCCCACCGTGCCC
GCCTCCATCAGGGGCACCGCGAGGGCCATGGGCGCACCTGAGTGGCCTGCGTCAAGCACTGCCTGGCCCAGGTCCTGGCCCCGCAGGCCCTCGTACTGGC
CCTGCCACCGCTCCACATTCTCCTGCATGGCCTGCAGCTGGGACTGCACACGGGTGGCGGTGTCCTGGGCTTCAGCAGCCACAGCCTTGGCATGTGCGAT
CTTCTTGCTTGTCTCGTCTGTGGTGGGCAGAGGGCAGGCTCAGCAGGGGCCAGCGGGGACCATCCTGGCTTCATGTCCCCAAGTCTTTCTGTTGGGC


SNP Information

Context             (SEQ ID NO:53908):
GGAGTGGGCAGGGGGGAGGAGGAGGCCCTGCCCCACCTTCACCATGGCCAGTGCTTCATGTGCCTGACCCGCAGAGCTGGCAGCTGAGCAGTGTGGCTCT
R
GGGTGCAGCCCGGGTTGGAGCTCAGCCCTCGCCTGGCTCTTCTTGCAGGCCCTGGGCATGTTCAGCGCAGCCTTGGCCTCGGGGCAGCTGGGCCCCCTCA
Celera SNP ID:            hCV25629410
SNP Position Genomic:     12228
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,7)   caucasian(A,2|G,22)   total(A,3|G,29)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,3|G,35)   total(A,8|G,68)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53909):
CCAGGGTGTCCTCCACTGTGTGCTCAGGGAGTGGGCAGGGGGGAGGAGGAGGCCCTGCCCCACCTTCACCATGGCCAGTGCTTCATGTGCCTGACCCGCA
S
AGCTGGCAGCTGAGCAGTGTGGCTCTGGGGTGCAGCCCGGGTTGGAGCTCAGCCCTCGCCTGGCTCTTCTTGCAGGCCCTGGGCATGTTCAGCGCAGCCT
Celera SNP ID:            hCV25629411
SNP Position Genomic:     12201
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(C,1|G,35)   total(C,1|G,67)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(C,1|G,39)   total(C,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:53910):
TCGCTCCTGCCACGCAGGTGCCACGGTGTTAAGGGAGGGGCAGTGGGGAATCCTGGCCCAGCACCCTGGACCCTGCGAGTAGGCCCTGCCGTGTGGGGCG
Y
GTCCGCTCCAGCGGTGCCCTCTCTCTTCGCAGCTCCCGGAGCCAGTCGGCAGCGGTCACCCCGTCATCCACCACCTCTTCCACCCGTGCCACCCCAGCCC
Celera SNP ID:            hCV22271592
SNP Position Genomic:     11472
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,25)   caucasian(T,40)   total(C,5|T,65)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53911):
CCACGCGCCGTCCTCCGAGGAACTGGGCGCTTGCAGTGCGTTGCACACCCTCACCTCCCACCCACTGATTATTAATAAAGTCTTTTCTTTTACCTGCCAA
Y
GCTTAGTTTCTTTGCCCAAAGGGAGTTTCGGCTGGACAGGTGCTAGCGTGGGGAGCTGCTGTAGGGTCCCAGAGACAGTTAGTTATTTGACCTAACAACG
Celera SNP ID:            hCV16232654
SNP Position Genomic:     12772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:53912):
CTTTCGTTTAAGAAGCTATAACTTAAACCATCTTCAGAAACAAGATCTGTCACCCGTAGAGCTTAGAGTCCAAATAGACACCTATGAGGCGAGCACAAGG
R
GCGGTGTGAGGCAGCTGCAGGGGCCTGACCAGGGGCCGGGGTTGGCTGTGTCCTAGGCGGCTGGGCAGCCACTGGCCCCCACTGCCCCGTGGACCTCCAC
Celera SNP ID:            hCV27469526
SNP Position Genomic:     13188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:53913):
CAGGGGCAGGGTCCATTCCTGTCCCCCTGGATCTGCAGAAGTGGGGCTGAGGGGGTAAAGGTCACAGCCCTTCTGCCCTTGATCCCATCGCTTTGATCCC
M
AGTTCTGGGCAAGGGTTAGACACCACCTTGTGTCTTTAACGTGTTCTAGATGTGGAAGCGTTTGCCAAAGCCATGCAGAACAACGCCAAGCCCGAGCAGA
Celera SNP ID:            hCV25762986
SNP Position Genomic:     12514
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,40)   total(A,1|C,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:53914):
TTCCTGGGAGGCCAGAGTCTACTGTGGATGACTCGCCCCCTCAGCACAGGTTGTTTGGAAGTGGAAATAGAAGATTCTAAAAGTTAGAGACCCTGTGAGC
K
CCCTGGGTCACTCCCCACTCCCACCTTCACGGGGTAGGACGGGTCTGCATCCCACCGTCGCCTCACTTCAAGTGGTGCCCCCTGTAGGGTTCAGGGGCAG
Celera SNP ID:            hCV25629420
SNP Position Genomic:     10363
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(T,32)   total(G,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:53915):
AGTCGCTGCCGCAGACCGCGGATGAGATCCAGAATACCCTGACCTCGCCCCAGTTCCAGCAGGTAGAGGCCGGGCCCAGGGTGTCCTCCACTGTGTGCTC
M
GGGAGTGGGCAGGGGGGAGGAGGAGGCCCTGCCCCACCTTCACCATGGCCAGTGCTTCATGTGCCTGACCCGCAGAGCTGGCAGCTGAGCAGTGTGGCTC
Celera SNP ID:            hCV25629412
SNP Position Genomic:     12126
SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,8)   caucasian(A,18|C,10)   total(A,30|C,18)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,15)   caucasian(A,15|C,9)   total(A,32|C,24)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;JBIC-allele(C,416|A,1063)   total(A,1063|C,416)
SNP Type:                 INTRON


Context             (SEQ ID NO:53916):
CTTGCCATCTGGGGAGTCGCTGCCGCAGACCGCGGATGAGATCCAGAATACCCTGACCTCGCCCCAGTTCCAGCAGGTAGAGGCCGGGCCCAGGGTGTCC
Y
CCACTGTGTGCTCAGGGAGTGGGCAGGGGGGAGGAGGAGGCCCTGCCCCACCTTCACCATGGCCAGTGCTTCATGTGCCTGACCCGCAGAGCTGGCAGCT
Celera SNP ID:            hCV25629413
SNP Position Genomic:     12112
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:53917):
GAGGCCAGAGTCTACTGTGGATGACTCGCCCCCTCAGCACAGGTTGTTTGGAAGTGGAAATAGAAGATTCTAAAAGTTAGAGACCCTGTGAGCTCCCTGG
R
TCACTCCCCACTCCCACCTTCACGGGGTAGGACGGGTCTGCATCCCACCGTCGCCTCACTTCAAGTGGTGCCCCCTGTAGGGTTCAGGGGCAGCCGAGTG
Celera SNP ID:            hCV25629421
SNP Position Genomic:     10370
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,31)   total(A,1|G,65)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:53918):
AATCCTGGCCCAGCACCCTGGACCCTGCGAGTAGGCCCTGCCGTGTGGGGCGTGTCCGCTCCAGCGGTGCCCTCTCTCTTCGCAGCTCCCGGAGCCAGTC
K
GCAGCGGTCACCCCGTCATCCACCACCTCTTCCACCCGTGCCACCCCAGCCCCTTCTGCTCCAGCAGCTGCCTCAGCAACTAGCCCGAGCCCCGCGCCCA
Celera SNP ID:            hCV25629414
SNP Position Genomic:     11520
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,1)   caucasian(G,40)   total(G,71|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53919):
ACAGCAGCCAGCCCGACCCAGCCCATCCAGCTGAGCGACCTCCAGAGCATCCTGGCCACGATGAACGTACCAGCCGGGCCAGCAGGCGGCCAGCAAGGTA
R
CGTGTGCTGTCGCCTGGAGCTGGGTGGGGGGCATGGGGCCTGCTGACCCTCGCACGCTCACCTTCCAAGGCATCTGCCTAGTGTGCGCGCCTGGGGTGCT
Celera SNP ID:            hCV22271596
SNP Position Genomic:     11741
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,25)   caucasian(G,36)   total(A,5|G,61)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53920):
CTGGACTGAATCTTCTAATCTAAGCACATGAATTGTGTAATGGGATGGAACAGAAATGACCTTGCTTCCAGAACACAGCCGCAAGTGTCCACCCGCCCCA
Y
GCCGCTCCTCCAGGCCTGTGGGTCCCCACCGCCCCGCTTCTTCCTGGCTTTGGTGTTGGGAATTCCTGCTCCTCTGGCCTGGGGAGGGGCCAGGCTCTTT
Celera SNP ID:            hCV25629415
SNP Position Genomic:     11130
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,24)   caucasian(T,38)   total(C,2|T,62)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53921):
AGGACCCCAGCTGGGTACTTCAGAGGAGGGTGGCTGGCCGAGCGGTGGGGCTGGAGGACTGGAGGGAGCTGGGGTTCCTGCGCCCTGGGTCCCCTGGCCC
Y
ACATGGCTGCCTGCCTGCTGCCAGCTCATGGAGTGCAGACCCGTGTGCTTGGCCCTTCAGAAATGCTTGTCCCTTTGGGTGGGATCTGGACTGAATCTTC
Celera SNP ID:            hCV16232584
SNP Position Genomic:     10944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53922):
CCTCAGCATTGTGTGGCCAGGCACACGCGCCTCTGCGTCTCAGGTCCCTCACCTGGAAGCCAGGTCAGAGGATGGCTGTGGTGGCCCTGGGTGAGCTGGC
R
CCAGCTCCTGCCCTTACATGCCCTTCCTCTTGCAGGAACCCAAGACAGACCAGGATGAGGAGCATTGCCGGAAAGTCAACGAGTATCTGAACAACCCCCC
Celera SNP ID:            hCV25629423
SNP Position Genomic:     10070
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,1|G,37)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:53923):
CAGACCCGTGTGCTTGGCCCTTCAGAAATGCTTGTCCCTTTGGGTGGGATCTGGACTGAATCTTCTAATCTAAGCACATGAATTGTGTAATGGGATGGAA
Y
AGAAATGACCTTGCTTCCAGAACACAGCCGCAAGTGTCCACCCGCCCCATGCCGCTCCTCCAGGCCTGTGGGTCCCCACCGCCCCGCTTCTTCCTGGCTT
Celera SNP ID:            hCV25629416
SNP Position Genomic:     11080
SNP Source:               Applera
Population(Allele,Count): african american(C,24)   caucasian(C,39|T,1)   total(C,63|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:53924):
ACCACCTTGTGTCTTTAACGTGTTCTAGATGTGGAAGCGTTTGCCAAAGCCATGCAGAACAACGCCAAGCCCGAGCAGAAAGAGGGCGACACGAAGGACA
M
GAAGGACGAAGAGGAGGACATGAGCCTGGACTGAGCCACGCGCCGTCCTCCGAGGAACTGGGCGCTTGCAGTGCGTTGCACACCCTCACCTCCCACCCAC
Celera SNP ID:            hCV25762443
SNP Position Genomic:     12636
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,35|C,1)   total(A,71|C,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53925):
CGCCTGAGCTGCAGTGTTTTCCAGGTGAGGGTGGCCTGCAGAGCCTGCTGGGAAACATGAGCCACAGCCAGCTCATGCAGCTCATCGGACCAGCCGGCCT
Y
GGAGGACTGGGTAACGTGCGCCACCCGGGCTCTCGGGCAGCTTCTGCTGGGAATGCTTTGAGGCCCGGTCTCTGTTTCCTTTAAACTTCTGCTGGCTCTG
Celera SNP ID:            hCV25629417
SNP Position Genomic:     10633
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,40)   total(C,72|T,6)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:53926):
GGTAGGACGGGTCTGCATCCCACCGTCGCCTCACTTCAAGTGGTGCCCCCTGTAGGGTTCAGGGGCAGCCGAGTGCGGTGCTCAGCAGAGGCGCAGGCAG
Y
GCGGTGGGGCCCGCGTGGATCTGGCTGGGGCAGGCCCGCCTGAGCTGCAGTGTTTTCCAGGTGAGGGTGGCCTGCAGAGCCTGCTGGGAAACATGAGCCA
Celera SNP ID:            hCV25629418
SNP Position Genomic:     10496
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,40)   total(C,69|T,9)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53927):
CAGGCGCCGGCCACACCCGGCCACACGGCCTGAGATGCCACCTCAGGGCTGCGGTGCATGCTACCTGGGGCCGAGGTCCTCTCCCAGAGTACGGAGGCTC
Y
AGGCTGGGCTGCGGGCAACCGATTGCGGTGTGAAATTTCCAGGCAGACAGACATGCTGGCCCTGGTTCTAACGATGCCCAGTGCCCTCTCTCTGCCCCTT
Celera SNP ID:            hCV1763932
SNP Position Genomic:     8682
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53928):
AGAACAACGCCAAGCCCGAGCAGAAAGAGGGCGACACGAAGGACAAGAAGGACGAAGAGGAGGACATGAGCCTGGACTGAGCCACGCGCCGTCCTCCGAG
S
AACTGGGCGCTTGCAGTGCGTTGCACACCCTCACCTCCCACCCACTGATTATTAATAAAGTCTTTTCTTTTACCTGCCAACGCTTAGTTTCTTTGCCCAA
Celera SNP ID:            hCV7549274
SNP Position Genomic:     12691
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:53929):
CTTACATGCCCTTCCTCTTGCAGGAACCCAAGACAGACCAGGATGAGGAGCATTGCCGGAAAGTCAACGAGTATCTGAACAACCCCCCGATGCCTGGGGC
R
CTGGGGGCCAGCGGAAGCAGCGGCCACGAACTCTCTGCGCTAGGCGGTAACTGTCACATGTGTCACGTGAGCTCAGGGTTTCCTGGGAGGCCAGAGTCTA
Celera SNP ID:            hCV16232596
SNP Position Genomic:     10183
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,11)   caucasian(A,33|G,1)   total(A,52|G,12)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,12)   caucasian(A,38|G,2)   total(A,58|G,14)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53930):
GCTCATCGGACCAGCCGGCCTCGGAGGACTGGGTAACGTGCGCCACCCGGGCTCTCGGGCAGCTTCTGCTGGGAATGCTTTGAGGCCCGGTCTCTGTTTC
S
TTTAAACTTCTGCTGGCTCTGTCTGCGTAGTGTCGGGGAGCCTGTGTGTCCGCAAGCTGGTTCCCCTTTGGGAATGCGCTTGTTTGCCTGTGGCTAGAGC
Celera SNP ID:            hCV25629419
SNP Position Genomic:     10712
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,40)   total(C,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:53931):
CCACCCGTGCCACCCCAGCCCCTTCTGCTCCAGCAGCTGCCTCAGCAACTAGCCCGAGCCCCGCGCCCAGTTCCGGGAATGGAGCCAGCACAGCAGCCAG
M
CCGACCCAGCCCATCCAGCTGAGCGACCTCCAGAGCATCCTGGCCACGATGAACGTACCAGCCGGGCCAGCAGGCGGCCAGCAAGGTAGCGTGTGCTGTC
Celera SNP ID:            hCV7549283
SNP Position Genomic:     11652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53932):
AGCTGCTGTAGGGTCCCAGAGACAGTTAGTTATTTGACCTAACAACGGAAAACGGTCACCCCAGGAAGAGTTTGGTGCCTCTGTCCAGGCCGGTTCCAGA
Y
CTGTCTTGAGACTCTCTCCGTATTTAAGTCAACATTCATTCGGTTACACAGAAGTTACTTTTTAATTTTTAAGGAGGAACCAGTGATGATTGGTGACAAA
Celera SNP ID:            hCV1763935
SNP Position Genomic:     12926
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:53933):
CCCAGAGACAGTTAGTTATTTGACCTAACAACGGAAAACGGTCACCCCAGGAAGAGTTTGGTGCCTCTGTCCAGGCCGGTTCCAGACCTGTCTTGAGACT
H
TCTCCGTATTTAAGTCAACATTCATTCGGTTACACAGAAGTTACTTTTTAATTTTTAAGGAGGAACCAGTGATGATTGGTGACAAATCTCTCACAATTAA
Celera SNP ID:            hCV8524515
SNP Position Genomic:     12940
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|T,1|-,9)   total(A,1|C,1|-,9|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:53934):
GAACGTGTTTTTCCACGGTTTTGCCAAGAAATAGTGTCCAACTGTTACCACCATCTCCCTTTTTTCCCCGATTTTCCTGTTGGTGGCTTTTAAGTCCCCC
R
TCCCTGCTTTGCCATGAGAGCAGGGACTCCCAGTGTCCCTGGCGCCCTGCAGCTTCCATAGCCATTCGGGGTGTGCGTGGGTGCTCTGCTCCCAGCTCTG
Celera SNP ID:            hCV27164183
SNP Position Genomic:     9506
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;JBIC-allele(A,225|G,1266)   total(G,1266|A,225)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53935):
GCCTGGCACCTTCCATCGTTTGCTAAGTTCCAGCAGGTGTATTTCATTTGCATTTCCCTCATGAATAATGGTGTTGAGCAGCTTGCCATGGTGCCTTTGC
Y
GCCTGTGACCTCTTTGGTGAAACATCCGGAGGTGTCTTCTGCCCACGTGGAGGCGCAGCCTGGGCTCTGCCGCCCACCTTTCACCCGAGGAGCCTGCAGC
Celera SNP ID:            hCV16232606
SNP Position Genomic:     3695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 TFBS


Gene Number:                 264
Celera Gene:                 hCG41774 - 146000220192570
Gene Symbol:                 LAMA5
Protein Name:                laminin, alpha 5;KIAA1907
Celera Genomic Axis:         GA_x5YUV32VYHA(1921965..1992476)
Chromosome:                  Chr20
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12424):
AGATACAGAGACAGAGAGAAACAGAGACAAAGAGACAGAGATCGAGACAGATGGAGACAAGCAGAAACGGAGAAACAGATAGACAAAGAGATAGAGACAG
AGACAGAAATAGAGATGGAGACAAGCAGAAACGGAGAAACAGAGATAGACAAAGAGATAGAGACAGAGACAGAAATAGAGAGAGAGATGGAGACAAGCAG
AAACGGAGAAACAGAGAGATAGACAAGAGATAGAGAAATAGAGACAGAGAGTTGAAGACAGAAACAGACAGAGAAAGAGATACAGAGATAGAGACAGAAA
CAGAGACAGACAGATGGAGACAGAGAGGCAGAGAGTCAGAGGGAGAGAGTCAGGAGAGGGAGGRGTGGGAGGGGGACGCTTCCCTCTGCCCCAGGGACCC
TGGCTAGCCAAGGCACACACCAGGGCGCAGGCAGAGGGGATGAAGCCCCGTGGGCGTCCATGAGGCTGGAAGCGGCTGACTGTGGGGCCTGGGGAGTTGC
CCTTGCAGTGCGGGAAAGCCGACCCGGATGAGGGGAGGCCTTTGTCCTGAGGAGGGGCCTTTGCAGAGCTGCAGGTGTTCCCATCCATGTGGGACCCCCA
GCCAGATGTCCCAAGGTCGGTGAGGGGCCGGGCCAAGCTGCCTCCCTCTGAGGGGTTCTCAGCCCAGGAGGCTGGGTTCATGGGAGACATTTGAGGGTGG
GCTCGTGGGGGCCCTGGCCTCGCCCAGGGCGCAGTCCCAGGTTCCTGCCCAGGCTCTGGCTCTGCCCACTGGGCCCTCCTGGGAAGTCAGATTCCTCCTG
GGCTTCGAGGCCTTCTGGCCATATAAGGCCGTCTGTGGGCACCTCCTGGAGAAGCTCAGAACCCTCACCCCCCACCCGCCCCACCCTCTATGAGAACCAG
AGCTCAGCCAGGCAAGGACAGAGGCAGGGGAGGGCCTGCTGGAGCCGTGGTCCTGTGGGGGAGGAGGGCACAGGCAGGCCAGGCCCCAGGGGTAGAGGCT
CAGGGTCCCGAGTCACCCTGCCCAGCATGCTGGGGCGCCCCCATTCCGCCTGTTTCCCCTGGGGTTCCTGGCCCCTGGAGCTCACTAGGGCTCCCCAGTC
TAGGCCTGAGGCAAGCAAGTGGTAAGAATGGGGGTACGGGGTAGGGGGACCGCAGTTAAATAAGATTAAGGTGACACGTGGAAGCGTAGGTGCCCGGCCT
CGGGGTGGACGCTGCAGCCGTGTGCCACTGCATGTTTACCCCGGGCGATGCCTTTTCTGGGGCTCCCCAGAGATCTGGGGGCAGGAGTCCTGGACTCTGC
CTCACACCCCAGCAAGGTGCTGGGAGGTGCCCTGACAGGGGCCCCCACTTGAGGGAGGGGATGGGTTGGGGTCCTGGGAGCAACCTTGTTACTGGACCGG
CCCCTTCCCTGCCAAGTTGTAGGTGGTTAGATCCCAGGGAGGTCCCGGGCCCCCTCCCTGGGAGTTCCCAGGGCCCCCTACTCCTTCCCTCCTAAAGGCT
GGCAGGGTGGAGGCTCCCCTACACCCAGCTACACAGGCCCAGGCCGGGGCAGGGGCATCCAGGTGGGATCCTGGACTCTGGACTTTCGGTCGCCACGCAG
ACCACCCCACAGAGCTCCATGAGGCCCCCCCATTTCTGAGCACCCCAGGTTTGCCTGCTTGTCATGGGGCTGGGCCCGCCTGCACAGGGCACCAGCCCAA
GCGCTTCTCCTTGCCACTTGGGAAGAAAAGGAGCTGGGTGGGCAAGAGGAGCCTCGGGGAGCATCTGTGGAGAGCCCAGGAGCCCGGATGCTGACCCTCT
CCAGATCTCCGACACTGGGCACCACCTAAGCCTGTCTGCACCCCCTCTGGCATGGGGGCCCACCTGAAACCCCCCAGGTGTGAACCCAGTGGCAGCCTTT
GGGTCGGGCCTCGGGGAGTGGGCAGGCGTGAGGCATGTCACCTGCACGGGTGACTTGTCTCCTGGAGCCCTAAGGYGGTGGCCATGCTCCTGGCATGGTG
CCTGGCCTGGAAGGCTTTGAAGAGCCCCAAGTCTGTGGAGGGCCTGCCCCGTGAGTGGTGCCTGGGGCTGCGTGGCCTGTGAGCTGGGCACACACAGCAA
GTGGCAGAGGGGCCAGGGGCCAGGCAGCGGTGGGTCAGAGTCCTTCATTCCTGGTTAGTGTCAACCCGGAGCCTGGACTCTGTGCTTTCCAACAACCACA
TGTCCCAGAGGCCATCAGGAGCCCAGCAGTGGCCCAGCTGGGGTCACAGCCAGGGAGGAAAAAGCACCACTCCTTCCAAACGGGCTGTTTCCAGACCCTG
CCTAGGCCAGGAAGGCCGGACTATCCSTTGGCCCCATCCTTCTGGCAGCAGGAACCTGCAGACCCTCGGAGGCTGGAGGCAGGTGGCAGCCCTGGGGGAA
GGCAGGCTCCAGGCCTGGGGGAGGGGTCTGGCTATGGCTCAGGGTCTTCCTGGGCTCTGCCTCCATTCCTTTGAGGCCAGCCCCCCAGGGTCTGCAACTC
CGGGCTGGCTCTTACAGCAGTCTGTCCAGGCTGAGGGCAGTGGGGGCCTCCTAGGCCAAGAGGCCCAGAAGCTCTCCCAGTCCGCTGGGTTTATGCAATC
CTGATGAGACCTTGTCTTCCCGGCACCTGCTGTTCTGTGTCCTCCTCCCAGAGGACTGAGCTGGCCCACGCGAACAGTTCAGAACCAGCCTTGCTGCCCG
CTCCCAGCTTCTCTATTTCATGGACAGGGATGGAGGTTCTTACCAGCCGGCTCCAYGGAAGGGCATCCCAGCAGCCCTGAGAAAGGGACTGTGGCCTCCG
ATATCCCAAACCACAGCGCTGGCGTTCCTCCAGACCTCATCCCGCTGAGACAACATTCCCAGTTCTGGAGTGGGAGCCACAAGGCCTCACCCRCAGGCCC
GGCCCTAGCAGGAGCCCAGCCTCCAGCCCTCCTTCTTGCTCAGCCCCCGCTTCCTCTTGGGGGCTTCTCCCGAGGGTACAGCACCCACTTGGACCCTGGG
CTCTGGGACAGGAGGGTCTGCAGAGTCATCTGTTACTGATTGTGGCTGCCTGTGATGCAGCTGAGTGTGGGCGTGGGGGTGCCCCATGTCCTCAGCACAG
CGGTGTCCCCAGGAGGCTCCCAAGGTCAGGAGTTCACGACTCACGGCTGAGTCAGATGTGCCTGTGGCCTACCCTCAGGGTCCCCCACAGCTGCCTGCAG
GTGTGGCCGAGTAGGGTGGGGGCATTCTCAGGAATGCCACTGGAGTAGCACTGGGGGCTCAGGTGAGGTGGCTGCCCCCAGGGCTCCGCAGCAGACCTTG
TCCCAGGGCTGGGGGAGGATCTGAGACCCCTTCCCCAGGGCCAGGAGTGCCCCTACTTCTCTCGGGCTGCCACTGACCCCTGCCCCCGACCCACCTCCTC
TGGGGCTCCATCACCCTGGAGCTGGGTGGGCAGGGGCTCTGGATCTTGGATTGTCCCTGGAGGGCAGCCAGAGCCTGGTGGGACAGAGGCTCCTCCACGG
CCCTCCCCTGGCGAGCCACCTCCTTTTACCCTCCCCTCCACTCCCAGACTGGGCAGCTCCCTCCTGTGGATTCAGGACAGGACGTGTTTGGGGGTGGGGT
GCCGTCTGACCTGTTGCAGGGAGGAGGACTACGTCACGGGCGGGTGCCCGAAAGATGCCCAGTAAATAGGAGTAAGAAATGAATGATGGACAAACTTCCT
CTTGCTTTACTAACTTGTGTGCTCTTGATTGACCCTGGCCTTTTTGGCCTCAGTTTCCCCATTTGTAAATAGAAGAGGTGGCTGGGCTGCGCAGGACTCA
GAAAGACAAGGAGACAGGCTCGCTGGTCCATTTGGTGATGACTCACTGGAACCATGACAAAGACAGCAGGGGTGGGGGTGTGCAGAGATGAGCTGCCCCT
CTCCCTGCTCACCTCCCCAACCCCCTGTGTGTAGCCCGGCTGGGACAGCCCCCCCGCCCTCCATACGCTCAGCTCCTGCCCCAGCTGCCTCCTTCCCAGT
CCGTGCACCAGCAGACACAGGGTGGGGGCAGAGTGTGGGCTCTTTACCCAGCCCCTGGGCCACATTCTCTTGTCCACTGCGCTGCCCGCCTGCCTGCCAG
TTGCTCCCGGGGCAGCTGTCTGCCGGGAAGCAGTGAGCCCGGTGATTAACCCTGCTGGTGCTGGCAGCTCCGGCTGACACAGCGCATTCTCAGGGCCGGC
CCCCGCTCCCCTCCTGGCCAGTGCCGGGGGACAGCGGAGGCCTGGCAGCTTGGCCTGATCTGGCCGCTAGGAGGCTTAAAGTGCTCTCCCCACCCCCACC
TCTCCCCCTGCCCCGCCACTCGCAATCCCACCCCTCCAACCACCCGACCCTCCAGGGATCCCAAGAAGCCCTCAGGGTCTCAGGAGTCTCCACCTCCAGT
CCCCCAGGCTGTCAGAGCCCCAAGCTGTCAAGGGGGAGCCCAGAGCCAGAGCACACTGCCTGGGGCCAAGCCCCCACCTGGGGACCCGCTACTGCCCAGA
GGCCACTCTCTGCCTCACACGGGATCTAAAGCAGCTCAGAGCCGGACTCTGCGCCTGGACTGCAGATTCCTTGAYGTCTCCGCCCCCTCTCCAGCCAGCC
CCTCCCCCACTTGGAGCTTCTCCTGCCAAGGGGAGCCGCCTCCTCTCCCCCCTCCCCCAGGTGGGAGAACTAATAGTGAAGTTATGGAAGAATTGCCGGG
CCGGAAAGTAGGAGGAGGGAGAGAGGGTCCCATCGCCCTCCCGACTCCGTAGAGAAAGGGCCATACACCCTCTTGGGATTTGAGATTTGCAGGAGGCCAG
GGCGCCAGGAAGGTGTGCAAGGAGGTGCACCCTCCAGGGACAGCTGCTAGCTCAGAACCCCCACCAGAACCGGCTGGCCAGTGCCCCACAAACCCACCCA
GCCCCCCGGGACTGTCCAGGGAACCCAGCGAGAGATGAGCCCCACAGCCCATCTGGGACCATGGCCCGCCCAGCTGGCCTGGCTCAGGGATGGGGGTTTG
CTGCCAGCTCGGCAGCTGCAGCCCCACCCCGCCGCCACCCCCTCGGGGCTTCCCTGGAGGCAGATTTGGCCCCGGAGCCCAAGGGAAGTAGGAGACCCAG
GGCCGCAGCCACCCAAAGGCAGACGAAGACCTGATCTCGGCCTCTAGGTCCTGTGCTGTTTGCCAGGCGTCCTCGAGCCGCCGATCGTGGCAGGAACGCG
TGCGCGGCTGTGCAGCGGGTTGGAGGCCAGGCCGAGAGAGCTGGTGGAGTCCACCGGGCCCCGGAGCACAGGTGCTTCCAGGCACCCAGCAGGTGCTCAG
CAGCTGTGACCAGAGCCCCCGACCTCCTTAAGAGCCAATTTGGCGGCTGTGGGGCCATGAGCACCGCCCCCGTCCTCTAAAGGGGGCTGCAGCTGCAGGC
CAGTCCCTCCTGCCCCTATTTCCCTATCTGAGAGTATTTTTAAGCCCTGCTGGGGCAGGCGGGAGCCAGGCCGAGTTGAACCTGACCTGGCTGCCCCAGG
AAGCAGGGGGTTCCCACCTAGGCTGCCCCGTTCCTCTGCAGATGGTCATTCGCGGGTGCAGAGGGCACCTTCCCGCAGCCAGCAGGACGGACGCTGTTGG
GGGAGGAGCGGGGGCAGCCGAGTGGTGCACCCAAGTTAGGGGAACAAAGAGTGGGCCCCTGGGCTGGGAGGAGCTGGTGGGCGCTCTGGGGGCCAGGGCG
TCGTGGGGAGCGCTAGGGTCCCACCCGGGACCCGGAGCTACGACCTGGGCTGGGGGCCCGGCGGCGCCGTCGTCCCACGGCCTGGCCCGAGGCCAGCAGG
TGCCCCTTCCGGGAGGCGGCCGGGCCGGGGTCCGAAGGGTTAAGGCCGCCCGGCCGCCCCTCCCCCTCCTCTCTCCTTCCCCCCCCCACCCCGCCTCCCC
GGACCTCTCCCCGGGGCTCGGGGCTCGGGCGCTCGGGCGGGCCGGGGCGGGGCCTGACGTCCGCGGGCGGAGCGAGCCCTGCCGGCCGCCTGGCTTCAGA
CCCGCCGGGCTCCCGCCGCGCGCGCTGTCCCTGGAGCTCGGGGACGCGGCCCGGAGCCGGGAAGATGGCGAAGCGGCTCTGCGCGGGGAGCGCACTGTGT
GTTCGCGGCCCCCGGGGCCCCGCGCCGCTGCTGCTGGTCGGGCTGGCGCTGCTGGGCGCGGCGCGGGCGCGGGAGGAGGCGGGCGGCGGCTTCAGCCTGC
ACCCGCCCTACTTCAACCTGGCCGAGGGCGCCCGCATCGCCGCCTCCGCGACCTGCGGAGAGGAGGCCCCGGCGCGCGGCTCCCCGCGCCCCACCGAGGA
CCTTTACTGCAAGCTGGTAGGGGGCCCCGTGGCCGGCGGCGACCCCAACCAGACCATCCGGGTGAGCGCAGGGGCGGGCCGTGGGGCTTCCTCCCGGGGC
ACTCGGACCCGGAACACCGGCCCGACCCCAGGGGGAGCGCCGTGGCCCGGGGCGAGTCCAGGTGCGGACTCTCTGGTTCCGCATTTTGGGGGCCCAAGAA
GGCACCCCGACCCGGCCGCTCCGTCTCGGCCGGGAAACTTCGCGTCCCTCCGGGAAGGCGGAATTAAAGTCCCCGGCATGGACCCGGGGGCGGCTGGGCG
CCGGTCCAGTTCGACTGCGGTGACCGGGGCGGGAGGGGGGCCGGGCCCAGTCCCTGGCGGCCCCAAGTCCGGGATCCCGGGGAGGGCGGGACTTGGCCTC
CGCCGCCTGCTGCCGGTGGGGAGGGGGCGCAGCTCCGCCCTACCCGGGACAGGCTGGAACCTGTTGGCCTCTGGATGGGGTGGGAGGGGCCAGCCACCTG
AGGCTCCCACTRGCCCCTCTCGGAGGAGTCTAGGGACTCGAGGAGACCTCCAAAGTAGGGGAGGGCCAGCTGCGAAGTTTTGACTGGGGCTGGGAACACG
TGGCTCCCAGGAGGGGCAGCATCTCTGCCCAGCAGGTGGTAGGGTCCGGGGGCTTCAGTCTCCCTGGGAGATGTGGGTTCAGGCCCTGAAGACCCCCTGG
GGTGCATGTCCCCTCCCCAACAAGCCTTAAACCTGTAGGCGGGTTCTGTTGGTGGACTCCATGCATGGACACCTCACCTGAAAACCAAGGCTCTTGGGGC
CCTGTAGACTTAGGTTGGGCCTGGGGTCAGCCTTGGGTGAGGAGCAGCAAAGTCAGCTCCAACGGCTCCCAACCGGCCGCTCTAGGCCCATTCCCCACCT
CAGCCCCACCTTAGGGAGAGTCTAGGGGCCCTGAGGGCCTGTGTAACCTGAGCTGTCTCCTCCCTGGTACCTCTGCCTTCCCGGAAGGAGAGGCTGGGGC
AGGGGYGAGTAGCTGGAGATTTGCTGGGTGGGGGCAGAGGGCCCTGGAGCAAGACGTTATGGGGATGAATGGAGGAGCCTGGGCTGGGCCCGCCCCCTCT
GCCTGCCCCACCCCCTTGGCCCTGGTGGAGGGGGAAGGAGCCTCCCCAGGCTTCTGGGCTCACCGTTCTCTCCTTAAGCCCAGCACAGTCCTCTGAGATA
GGAGGTCTCAAGCCCACACTTCAGATGGGGGATCTGAGCCCTGGAAAGCTGCTGACACCTGCTTGGAGCCCCCCAGCCAGAACAGGGTCCAGCGGGGGTT
AGCTGTGGGAACCTGGGTGCCTCCTGGCTGCCCCCTTATCTGGTCAACTCAGAGGGGCCGGGTYTCAGGACGGAGGGCCTGTGACTGTCTCCTTACCTGC
TGCCACACCTCACCACAGAGGGCCTGGCTGAGTGTCCCCAGCTGAGATTTTGCCGTTCTGGCAGGGGAGGCTCCAGGTGCCCTGTGAACCTCAGACCACC
CCCCCACAGCCTGCCCATGCTGCGTGGCTGGGGGCCACAGGCCCCCTCTCAGATCTGTCTCCTCTGTGGGGGCTTATTACCCCCGTCTCGTGAGTAAAGG
GCCAGCCTGTAGTCAACGCCCCTCTCCTCTGCCTCAGCTGTGTGGCTTCCCTCTGTCAGCCTCAAGCTGTCTTTAAAATGGGCACAGCGTGCTGGCCCSC
CTCACCTGAGACTGTGAGCTTGGCCCGAGGAGCCTGGGAAGYGGCCACAGTTTCAGTGGCAGCTGTGGGCTGTGGTGCTCCATGCCTCAGAGCCAGCTTG
GATGAGAAACCAGCCGGCCTCGCCCAGCTCATGTCTAGCAATAGAGGTGAACCCTTCGCTTCCAAAGTCTCGAGCTCTGAGCAGTGAGTGCCCGCTGAGG
CTGCCAGATATGTAGAAAGATCAGCTGGTAGACGTGAGCTGGACGGGTATGACCTTGGATGCCTCCTTCATCTGAGAGCCGCGGGTCTGCTGACCGCCCT
GGCCGCGGATTGGGCGTGTGAGAAGTCCTTGCCGGCCGGTCTGGAGTGGAGCTGCGGTTGGRGCAAGGCAGGCAGGCACAGGAGGTGCCCAGGCGATGAA
GCCGCAGCTCCATCTGAGGGGGCTCACTAAGGCTATGGGGCCTGGGGCTGGGCAGTGTGTTCTCAAGGCTGCAGGCCAGGGGCTCTCAGGGACCCTCTGT
AGGAGATGCACATTAGCTGGGCATCCCAGAWGGGGGTCGGGGTGAACCCTGCTGGGCAGCTGGAGCAGGCAGAGGGCAGGGGGAGGTTGTGGCCCTCACA
GCCCCAGGTGGGCATCAGGGGATCCCTGGCCGGCCCAGCCTGGGAAGGTGGGGACTGGGCAGCCAGGCCAGCATGGTGACTCATTGGAAGGGGAAGTCCT
TATCGGCCCTTCTGCTGTTTCCTAGCTCTGTTCTCACGGGACCCTCCGCAGCGGAGGTGGGGGAGCCTGGTTTTCCCAACCCTGTCCTCTGTGGCTCAGT
GAGTGGCCGAATGGGGACTGGAACTGCCTCCCAATAACTGGACCAACGCTGGCCCAGGCAGGGACTGAGCAGGTGCTTCCCTGACCTCCTGGAAGAGTAG
AGGCTGACCCTTGACCCGCAACCTTCCACCCAGCTTCCCTCTGCTGCTCGTGTGTCTGGGAGGGTCTTGACCAGCAAGCAGCCTTCCCTGGGAGGTCCGG
CTGTCCCAGCCAGAGGGCGCCGCCCACACCTACCTTCTCCAGGAGCCCCTGGCCCCACCCTGAGCAGGACCTGTGTGCGCCGTGCTGTCATTGAGCTCTT
GAGTTTGGGGGCCACCATCAAAGCTTGCAGTGCGGCCTGCGGGTAGGGGTCGTGGCGCTTAACTGGGTGTCTTCAGTTGCTCTAGCCCCATCCACGAGAA
TGCTTAGGTGGTGAGCTGGGGACACAGCGGGAATAAGGAGGGTGTGGACCCTGCCACTGCAGAGCTCTGGGGGACCCCGGGGAGGCCCCCAGATAATTCC
AGGTCTCATACATGCAGTAAAGGAAATACAGCAGTGGCCACACTGGGGGCTGCAGAGCTGCATCTTGGGTGGTCTGGGGCAAGGTCTGAGATGGGGCAAT
CCAAACACCAGGGCGGGGTCTTGGGAGCCTGTGGGAGGGGTACCGGGTGTTGCCCTGGTGCTCAGTGGAGGCAGAGGGCACACTCTGGGCGAGGGGGTTG
GGCCCTCTGTAGGTGCTGGGCCTGGGGGTGGGGAGAAGGCATCTCCCCAGCTCCTGCCTCCTCCTCCTAGGATGAGGTCTGGCCCCCCAAGGGAGGCTGG
GCGGGGTAGGGCCGCTGACTTTCTCAAACTCAGATTGAGGCCTCTGGGGCCTCAATCAACCCCAAGCCTGGGAGGGCGCCTTTGTGTGGACAAACAGCAG
ATCTGGTTTCCTGGGGGRGCGGGGGAGCAGCCAGGACCCAGCTCTGCCCCCTCTCCTCATCCCTGCCCCGGCTCCCAGCACKACCCCTCCCCTGCCAGGA
TGCAGGCCAGGATTCTGCTGGGAGCCTCCTCTCTTCCCCACTCACCCATGCAGGACAGGCCCCCAGCAGATGGCAGKCCCGGGACAGAAGCGGCTGCCAG
GCTGTGTGTGTGAGCCATTACTCCTCACGGTGGCCCCAGGCAGGTGCAGCCTTATCCCCACTCTTTGGATGGGGACATTGAGGCTCAGCAGTTACTGTGA
CTTGGCCTCTTCCCAGGACTCGGAAGCAGCAGCCAGGAGGCCCAGGCCCACCTGCYGCTGTCCACACGTCCACTCTGGGGCCGGTCCCCACAGGCCTCCG
GAACAGCTTAATTCTGTCTCTCTGGAGACCCTAATCCAGAAGGCTGTGGGCAAGATCTGGAGGTGGGGSGGGGTCTGGCCGCCTGGATCCCGGCCCTGAC
GGTCCTTCTGTCTGCAGCTCCCCCTTCCGCCCCCTGGCTTGCTGCATTTTGTCCAAGCCTCTCTGGAGCCCCTGGCAGGGCCAGCAGGGAGGGGTAGCCA
TGCTTTGCCTTACTCCTGCCCCTTCTTGCTCCCTTTGGCTCTAGACACATTGATCCACCTTGTGGTTTACTGTGAGACTCTTCCTGCCCCCAGGGCTCGT
TGCACTGGCACCCCCTCTGCCTAGAGCACACCCCCCCCCTTACCACGTAGTGCTCAGACGCCACCCCGCTAGAGAGGCCCACCGAGATTTTCCCACCCAA
GGCAGATGCCCCTCTCCACCCTGGTCTTCCTCTTGTCCTTAGCGCCGTGAGCAGCTCACATGAGCCACATCCCCTGAGTCGGAGGAGCAGCAGGTGCTTG
GCGCATGTTTGCTGAGCAAGTGGATGAGGGGCGCAGAGGCTGGGCGTGGAACCAGCTCAGTGGGACCAGGACTTGTCTCGGGGCAGCAGGGTGACTGTGG
AGGAGGAAGGGGGCCCCGGCCCTTCTCGGCTATCTGACCCTCCCGTTCCCTCTGCAGGGCCAGTACTGYGACATCTGCACGGCTGCCAACAGCAACAAGG
CACACCCCGCGAGCAATGCCATCGATGGCACGGAGCGCTGGTGGCAGAGYCCACCGCTGTCCCGCGGCCTGGAGTACAACGAGGTCAACGTCACCCTGGA
CCTGGGCCAGGTAGGGACCCTTCTTTGCRTGCTGCAGCCCCCATCTCTGTGTCTGTGCCCGTCGGGCCTACCTTGGGCCACAGGACCAGAAGGCGAGGTC
TCCACCGTGAGCGAGACCTGGGGCCTGGGAGGCTGGACACGAAGGACTTGGTGGGGGGAGTCCCCACAGGGACAAAGGCACGGCAGTGGTCACCTTTTGT
TTGTGCTTTCAGCGTCCCCATGACACAGGGAAAGCGGGTGCTCATGGGGGTGTTTCCAAAGGCCACAGAGTTTGGTTGCGGGTGCTGAGTAGACAGCTTG
GGGCTGGGAGGGCGGAGGTGCTGTGAGCAGTGCGGTGGTGCCCCCTGCGTCAGGCGCCCTGCTGTTTAAGGAATTCCTGGCAGGTGCGGGAGGGGCTGCA
GGAATGCAGAGGAGGCTGGCGCAAGTGGACATTCCTGGGATACCTGTGCCGAGGTGGCGGCCACTGAGGGTTAGGTGGGGTCGGGTGCCTGCTCTCCRGT
CCCCAGCTCTGGGCTCTCCTTGGCCTTGGAGGCCCCTGCACAAGCAGGAGGCTGCAGCTGGGTGCCTCCAAGCGAAGAGTGAAACCCCCAAGGTGGGCCT
GCCTGGCTGCCAGCCCTGAGCACCCCCAGATTGGGGGCGACTTGGCCCGGGTACCCAGCCTTGAGGTCCTGGCCTGTAAAATGGGCCAGTAATCCTGGTG
CTTCTTAGGTCAGGGACAGTGGTGGGGCAGGTGGAGGAGGCTGGGCCTGAGAGCAGCCAGTGCCTGGAGTGGGGGCCCCAGGGCTGACCCAGAGGCCTGC
ATCCCAGCCGGCTCYGCCGCTGCCCCAGTCCCAGTGTGTGACACATCGGTCTTCACCCCTGTCTGAGCCTCTGTCCCTGCCATTGTCCCGAGGGTGTTAG
AGATAGAGGAGGTCTCCCTGGAGCCTGGCTGGAGGGCCGGCCCCAAGGGGCAGGCACCTTTGGCAGCCTTGGTGGTCTGCAGGCCTGGCCCGGGCTGGGC
AGGCAGTGAGGGGAGGGCTCAAGCTCCAAAAGTGGCCTGGAATTTCCAGGGGTTCCTGAACTTGCAGAGCCCTGTGGAGAAGGGCGGGGAGCTGGGGAGG
GGTTGCCTGTCCTGGGCTCCCTGCCTGCCTGCCAGGCCCCTAGCCCTGCCCTGGCCTGGGTCTGGGTGTGGCTTTGCCTGTTTACCTTCATCTCACTGGG
TTTCCCCGCATCTGACTCCCCTGTCCCCTGGAGCCTGGGGGTCCCTCATCTCTCTGGCACAGCAGCAGAGGCCCCCACCTTGGCTGTAGCGTACGTGTGA
ATTCTCAGCTGCTCGGGGCGGGAAGCTGGGCACTGGCGAGTTCTTCCCGCCTCTCCTCCTTTGAGAAACTAGGGGGCTGGGCTGGGGGAGGGGAGATGGC
CCAGTCTCCACGGCAACCCCAGGGTGGCTGCAGAGCCAGTGGGCGCAGTGCCCGATGTGCCTGGGTGGGGCAGGGAAGCCGGGACTGACACTCGGACCCA
CGAGCCTGGGCTCCACCACCCCTTGGCTCTGGGGCTCTCTCGGCCTCGGTGCACATGTATGAACTGGGCTGGAAACTTCAGGCCTGAAGCCAGTTTGCTT
TTAGATTGTTCTGGGCCAGAAATCAGGTTCCGCCATGTGAGCGTCTTGCCTCTCACAGCCTCAGTTTCACCAACTGTAAAATGATACGGAGGGAAGAGGA
ACCCTTTCCACTCCACCTGGGAAGTGGTCCCTCCACCCACCCACCCATCTATCCCTCCACCCACCCACCCACCCATCTATCCCTCCACCCACCCATCCAC
CCACCCACCCACCTACCTATCCTTCTACCCACCCATCCACCCATCTATCCCTCCACCCACCCACCACCCATCTATCCCTCCACCCACCCACCCACCCATC
TATCCCTCCACCCACCCACCACCCATCTATCCCTCCACCCACCCACCACCCATCTATCCCTCCACCCACCCACTCACCCATCCCTCCACCCACCCACCTA
TCCTATCCCATCCCTCTGCCTGCTGACCCACCCACCCACCCACCCCCAACGTATCCACCCACCCACCCCTACCCATCCATCCACCCACCCACCCCCCTAC
CTATGCAGCACCCACCCTTTATTCCTTGTTTCCATCCATCTGTCCACCTGTCTGCTCATTCCTCCCTCCACACCTGCACCGTCTTCCTTCCTTCTCACCC
ACTTTCCTGACCACGTGGATGTATCTACCAAGGCCCCTGTCTCGGCCTAGGCCAGGGGGCTGCCAGCCTTGGTCAGGGTGGGGGCAGGGACTCCCTGGAG
TGGGGTGGGGAAATGTCCTTCCTGGGCTTCAGGGCTGATCCTGGGGCGGGGCTGGGGCCTCCATCAGGAAGCCAGGCTGAGCGGCGGGTGGGTCCGGGCA
CTCCCCCTGCAGCGGGCTGCCAGCAGCCTTTGTTCTGGGATCTGGAGCGGATGCCCTGGGACGGGGGTGGGGGCGGCTGGCACTGGGCATCGGGAAGGCT
TCCTGCTCCTGGAAGGCTRAGGAGGGYGGGGTGGGCTGCATCACGGTTCGGATCTCATACCCCTGGTGTGCGGTGGGGCAGGGGCTGGCGCAGGGGAGGG
GAGACTAGTCCCTGTGGTGTCCACCCAGAAGCAGCTGAGCCTGGGCCCCCGGGAGTGCCAGCTGGGCTCCTGGCCTGGGTCCCGCTGCGCCCAGCCGTGG
AGGGGTTCTCTCTCCAAGGGTGGGGCCTCAGGAAGAGGCTCCAGCRCTGGTCACTGGTGACTCAGGGGGCAGTTTCCGAGTTCCAGACGTGACCTTCCCC
AGGGGGTCCTTCTAGGGGGTTCTTGCGTATCTCCTTGCATCCTCCGGAAGCTTCTGGAACTGAGCGGCCACATCACTGGCCTCAGGCTCCTTCTTCCGAG
AACCACACCCCAGGCCCCAGGCCCCAGGCCCAGGGAAGGGTGAGCGCGTTCATGACTGCCCAGGCACATGGCCAGCGGGTCCTGGCTTGAGCTCCCCCAC
CCCCTGGCTCTGCCGCAGGGTCCAGGCCCTTGCCCCACTACACCAGCACGCTAGCCCAGCGGGCCCAGGTTGTAAGGAGCTGGGCAGGGTGAGTGGGGCT
GGCTCTGGCCTGTGTCCCCTCCCTCTCCAGTCGGCCCCTGGGTGGCCTGACCGTGGGGGCGGGGCTCTCCCCAGCAGAGGAGGGCATTGCCTCCCGCCTC
CCTCAGATGAGGAGTGAGGACGCACGGGCCCCCTTCCGGTAGGGAGGCCCCTGCTTTGTTCTCTGTAGAGCAGGCCACGCTGCAGGTGCTACAGGTGGGG
TAGCGGCTTTGTCCCAGTCCCCGAGGCCCAGAGCTGCAGGGCAAATGGGGAGGCCCAGGTGGGGGTCAAGGTGTGGGGGAACTGGGGCTGGCAGGGTATA
AGGGGGCAGTTAGGCATGAGGCTAGAAGTATTGGTTGGGGGCGAGCAGTGCCAGGTGAGGGCCTGTGCCCCTGGGGATGGTGGAGACCCATGGGAGGGCA
GAGTGGACAGGTAGGGCCGGAGAGGGGAGGCAGTCAGCTGTCCCCTCCAAGTGGGGGTACAAGGAGGCAAAGCTCTGCTGAAGTCATTGGCCACTGGAGT
GTGAGTTTCCCTAGGCACTTGGGGAAACTGAGGTGGGGTTATGAGAGGGTCAGGGCCAGTGTGGAGTGCCCAAGGTCCCAGTGCTGGGGTCTGGAGGACT
GTGGGGTTGGCCATGCTGTCTGCAGTCTGGGTTCCCGGGCTGGTTCCTCCTCTGTAAATGGGAGGAGCACCGCAGGAGGAGGACCTGCCGGAGGCCCAGC
GCGCCCAGGCTGCCTCACCCTTCAGGACTGCCTGCTCTCTGGCTGGCCGGCTTGGGCCCTGGGCAGGCCTACTGGTCCAGGGTGCCACTGGCTTGGCTCC
CTGGGCCTGGTTGGGCACTCAGCCATGTGGCCAGTGCCCCAGGACGGTCAGTGGGTTGTCCAGGGAAGGACAGGAAGTGCAGCTGCGGCCAGGCTCTAGT
TACAGAGCTCGGCGGCCGGGACAGGTGCACGGGCTGAACCAGACGCAGCCACTTGAGCAGGGCTCCCTGGGGGGTACGGCGGGGGTCCTGGGAGGCACCA
CTCCCCTCCCCTGGCACAGGATAGACGGCAAAACCCTCCCTCTACGTGTCCTGGAAGGAGGACACGGCCCAAGGGGCTGCCATGCCAAGGTGGGGATGGG
GCCGCTCCTCTCCCCGCACCCCCGCGCCATGCTTGCCCTTGGTGGCTGCACGGCCAGACCTGGCACTCAGGGCACAGAGATGCCCCAGCACCCACCTAGA
CCCCCCAGGCCCTGGTGGTCCCCAAAGGCTTCCTGTTTTCTGTCTGTTTCTAAACAAGAGCCACCACATTGGCCTCTGACAACACAGCTCAGTGAAGACG
AAACTGTTTGGGTTTCAGGCCGAGGGGTCCCCTTGGGATAATCTCCACTTCCTGTGTCCCCGGCTGACCATCTGGCCTGACCTGGGCTGGGCTGCAGGGA
GGGAGCCTGGAGCTTGGGCTGCAGTGGTTGGGGTCCCTGAATCCACCCCAGGCCCAGCTCTGTTGAGGTGCGGGCAGCCCCCTGGCTGGGAACCCATCCT
CTCCCTCCAGCTGGGGAGCTCCTGTCCCCCYGCCCACTCCTGGAAGTTTTCCTGTCCTGCTTAGGACATCTGTAGTTGGGCATGGCGGCGTCCAACCCCA
GAGTTGGGGGTTCTGGCCTCAGAGTTGTTATTTTTCTTCCCAGCGGTGGGCTTGCTGTGGAAACCCCCGGCTTTTCCACTCCACGTCCCTCTGGGAGAGG
TGTCTGTGTGGGGCACGTTTCCGGACCCCTGATAGGTTGTGTGGCCGCCGTGCTTATTCACCCAGCTGGGGGCCAGTGGAGATGCTCCCGGCTGCCGCCC
CGCCCCTGCTGTGGGGCTTATCTACGTTTCCAGATGGGGTCTCTTCGAGGGGAGGCACACAGCAGGAGCGGGCAAGGGCTGGGCTGGCCCAGGACTCTGG
GCATCGAGGGGGCTGGGTGCCCCGGTGCCCTGTCCGAGCAGTGCGRTCAGGGTGCTGGCCCGGACGCCTGGGGCTAGGAGGGGCTTTTCCTGCCCCGGGA
ATTGGCACAACGCCCTTCTTCCTGCAGGGCGGGGGCTGAGTCACAGACCGCTGTGATCCAGGCTGCCGGGGAAGGCTGACTGGCCCTCACCCAGCACAGC
GGGCACCTGGACCTGGCCCTGGTCTCCCCAACCCAAGATGGGTCAGGGCAGAGCTGGGTTTGGGCACAGGACAGCACCGCCTCCCCTCCTCTGGAGGTTC
CAGCCACAGCCCACCCCATGGTGAGGTGGGTGCCTCAGCCCAGGAGGCTGCTAGCCAACAACCCCACGCCATCCCCAGGGTCCCCGAAAGCCCCACCAGA
GTTTCTCTGTAGTCCTCACCGTGCTGCCCAGACCCTAGCACCTACTCAGTCCCCTCCGCAGCTTTGCCTTCGGAGCGCCAGTGAGTGGGGCAGCTCCAGT
GGGGGCCTCTCAGCGTCTCTGCGGGGTGGCTGCTGCCCTCCAGGAGCAGCTGGCGTCCTCCCTCCCAGGGCGCTCAAACCTTCATGCCCTCATGAAAGGC
ATTTTATCCTGATGCCCCTCTCTGCAGCTCTTCCCACTGCCCTGTGCCCAGGAAGGGGAAGTGTCCGCTCCAGGGCCRCACAACCCCTGAAGCCTGGAGC
CGGCCTGGGCCCTGGGTCCTGGGCCCCGTACTCCTGGGGCTCTTGCCCACCCSCTGTGAGGCAGTGGTCACCGGGCAGAGGCCTCCTCTGGGAACCGTGG
CCCTCCCAGGGCAAGCTGGGTAGTGGGGACTGGAGGGTGCAGTGGCTGAGAGGCGGGTCCGGCTGCCGTCCTGGAGACGTGCCTGCCCCAAAATAGCCGA
TTTTTAAAAATAACTCAGGCAGCTTTTGTTTGGCTTTTGCTTTAAAAGACTTTTTTTTTTCTTTCTGCACAGAACCATGTAGCAGCGGAAAGGTCAGCAC
TGGCAGCTGAGCTGAGCGGGGCGTGGAGGGGGAAGGGCGGTCCCGAAGCCAGGGGTCTGCGCTCGCTCCGGGTCATGGCGAGGGCGGCCGGTGTGGCCCT
GGGAGCCGCGACCAGGTCAGAGACAGATGGGAGTCCTCCAGCGCGGGCTTCCCTTCCTGTGACCATCTGTGCAGCCACCAGGCCCTCGAGGACAGCTGTC
CAGGGCCCCTGTCTGACAGACAGATGGTTGGGATGGGGGACAGACAGGAGGCCAGGATCTTCCTGTGCATCCCAGGGGTGGGGAGGGCGAAGTGTCTGTG
TCCCCCTCATCCTGCTGATCAGTGTCTTCAAGTCAATATTTGTGCAAGTGCTCTCAGCTGGGAAAAATGTGACTGGCCTGCTGAAGGGGAGGGAGGAGGA
CAGATCGGGCCGAGGRGAGCGCAGCCTCCATCCAGGCACTCAGGGAACAGCGGGGGCGGCTCCCAGGGGGCTCAGTCGGGACCTTTAGTCTCCTTCGGAG
CCTTTGGTGGGAGGGGCTGTGTTGCCAGCTCCCCGAGAACAGCCTGTGTCCCTGCCCCTGTCCACCTCTAGCGGGTCCTTCCCTGTCCAGGCACAGGGGC
CACTGGCCCCCACCTGGGGCTCTCTGGAATGCTTGTGGTCAGGCCCACAGGGGGCTGCTGAGGCCCRGGTGTGGGGCTGGGTATAGGGTCTGTCCCTGAA
GAGGCTCATACCCCTCCCTGCTGGGCAGGGCATGTCTCCCTGCCCCCCACCCACAGGGAGGTAGACGATGACCTCAGAGCCTGGCAGCCGGTGAATAGGC
CTGTGCCCCGCCCCMACCCCGGAAGGCTGCGCTTGGCTCCCACAGTCCCCGCAACRCCAAGCCCTCCGAGAAGGGTGGGATTTGGACCTGGGATGTCTGG
AGTCCTGGAACCTTGCCCCCTACCTGGAGTCTGGGCAGCTGGTGCCCCCAAGGGCTGAAGCTATGAGGGGTCTGTGGTCTTTTCATGGGGGACCCCACAG
CAGTCTCAGTCCGGCTCAGTCCAGTGGGRTGACTGTAGGTCTTGTGCAGCTCTGGGGGACCCCACTCTCCYCCTTGGGGCCCTAGGCTTCCAGGCCTACC
TGGCCAACAGCACCCAGCTGTTCCCRGGCGTACCTGCTGTGGGGAGAAACTCTCCGGAGGAGTGGGCACTGGCGGGTCAGGGTCCCGAGGAGGTGTGGTG
GGTGGCCCTGGGGTGTGGCATGACCCTCGGAGGCCTGCTGGCCTTTTTAGGGCCCACCTGGGKGCCCACCTGTGAGCAGAGGAGGGGCTGGTCCCCACTG
CCGCCCACAAAGAGTTGGGCTGAGTACTGAGGTYTCCCAAGGTCTCCATCGTGGACCCTGTGGGCCYGTCAGGGGAGGTGTGGGCCGGGACAGGCAGGCC
ACACCTGTGCTGTGGGTCCATGAGTTGCCTCTCTCCCCCGGCACCCGGGCCTCCTCGCACAGGCSGGGGAGAGGTTCGTGTTTCCTCCGCCTCCCTGCCA
GGTCCCTGTGGAGCCTCTGCCTGGGAGAGCCCTTTCCCCTTTGTTTGAGAGGGGCTGGGGAGGGGCTCACCCTCCCTTGGAGCCTCCAGGCTTGTGACAG
GGCCTGGAGACAACTTCCCTCCTTTGCCCCCAGGTAGGGGGAGCCYAGGGCTCCCCTCAGAGGCTATGGCGGGTGGGAGCACTTGGCTGCAGCAGGGGCT
GAGCCCTGGCTTGCATGAGTGTGAAGGCGGGGTGCTGCTTGGGCACCGCCCCCTCCTGTGTGCCTCGGGACCCCCCCTGCTCCTGGGTGCAGCCTCTTGC
CATTGAGGCCATGGGCTGTTTTTAGGGACCAGAGACCTTTTCAGAGGGGGCCTGTGGCCTGGGTCCATGGAGGAGCCACCCCCACGGTGTTTCACTGTTG
GGCGGGTGTGTGTGCACCCCCAGGTGCAGGCATGGAGGCCCACGGTCATGTCGGGTGGGTGCAGATATGAGGCTGGGTAGCACTGACTGCTGGGGGCAGG
AGAGGCTCAGGCCTGGAGTCCTGAGGGCAGGGTGTCAGGGGATGGGTAGGGAGGGAGGGAGGGAGGGAGGGAGGGAAGCCCAGGCTGATCAGAGGCCTGA
GGGGAGTCAGCAGGCCTGGCCTGTGCGGAGAGAAGGGCCTGGGCCTGGGGAGATGTCCGCAGCTGAGGGTTAGGGGGAGGGGCTGCAGTCAGGGAAGGCT
TCTCTGAGGAGGTGTACAAAGCGTCCTGTGAAGACTGAGCCAGGCTSTCCCCCAGCCCCGAGGCACAGACACATGGGCTGTCCCTGGGTGGAGGTCAGGC
TGACACACGGGGAGAAAGTAGGCAGAGCCAAGGTGGGGCTGGGGCAGGGGCTTGGGGTTTCGGRGGCCTGGGAAGGAGCAGCTTTCCTCTGCCCKGGGCA
GGGCTGCCCTGACGTGCACCGGGCCACAGCAGTGCTACTGCCCCAGTGCCTGGGCTGGTGGAGTCTCCGAGGCAGACTCAGCTTCAAGAGGGCCCCCAGC
CTGCAAGGCTGAGCCCCGCTTGCTCCCTGCAGCCCAGTCCCTGGGGGCTCAGTGGGCCCCTGGCTGTGGGCTGGTCAGCATGGGASTGAGCAGAGCCTGG
GGAGGGGTGCCCGGTGTGAGGTGGGGGCAGGGGCCCCATCTTAGGAGCTGCTGACCTGTCAGAGGGACTAGGGGGTTGGACCTTTGGACCTGCCTGGTGG
CAGGGACCACTGTCTGGCCACCAGGCCTGGCTGGAYGTGAGGGCTGTGGGGACACTGGGGTGTGTTCCTGCCTCCACCCTGGCCAGTCCCTGCCTGGGCC
GCAGGTAGGCCTCTCCCTAGCTTGCTCCATCTGCAGCCACAGAGCTTGCAGGACCATGGGGGAACCCCAAACTCCTGCGGCAGGGAAGGGGAGGAGGCAG
CGCGTTGGTCCCGAGCCCAGGCGGGGAGCCCTTCCAGGAGGGCTGGTTCCCGGGGGCTCATCTCCATCCCTGGGGAGCCCTCTCCCCTGGGTTCGTCTGC
CCCACACAGGCAAACCCAGAGGTGCCCCCTGTGCGGCGAGGGTGCCACATCCCCTGCTGTGGCCTCACCTGAGGGGCAGAAAATGAGCCAGGCCCCTGGG
AGCATGGGAATCCAGGCGCCCCTGGCTCCCCTGACGCCCTCTCGGCCCACAGGTCTTCCACGTGGCCTACGTCCTCATCAAGTTTGCCAACTCACCCCGG
CCGGACCTCTGGGTGCTGGAGCGGTCCATGGACTTCGGCCGCACCTACCAGCCCTGGCAGTTCTTTGCCTGTGAGTCTCTGCCGCCGTGGGGCCTGGGGG
GAGAGGCAGGGGGGTCCCTGGGCAGGCCCTCCGTGACCAGGCTTCTGAAGGTCTCCRAATACCCAGCCCTGCCCTCACACCCGGCTGCTGCGGTCATGAC
TGTCAGACGAGGACYCGAAGGCTCATGGGGATTTATTGGCTCCTGTCCCTGGCGTCGGGCACAGCCAAGTCCAGGGGCTGTGGCGCCAGGAATCTCTGGT
GCCATCTCTTGGCTGCCTCTGGATGGCTTCATGCACCGGCAGCTCCCGTGGTGACAAAAGGGGCCTGGCAGCTCCCACCTCRCCTCCTGCCAGCCTAGCC
ACCTGCGTCAAGAGTACTGGAGTCCTAGCCCGGATGCTGGCCGTCCCTGGCCCCGTGCCACCCTGACCAGTCATGCTGGTGGGAGTGGGTGCTCCTCCCC
AATAGGGCAGGCCTGGTCACGTGTCCCCCAAAATTCCCTGGCCTGAGAATGKGGGAGGGGCGGGTCAGTGATGGGCAGTAGGCGTCTGTCCCCAAGGAAG
GGGGTGAGGATGGTCGTCGAGGGGGGTCACTCGCACTCAAAGCGTGCAAGGGAGAGCGGTGGGGGGCAGTGCAGTCCAACGGGCCAGGCCCCTTCAGCCA
GTGAGCTGYGGTCTCTGTCACRCGGCCTCTTGGCCTGTGGGAGCCTCAGTGGCAAGGCCSGGAGACGTCAAGGGGCCYGGGCACYGCGGGGACCCAGGCT
TTTCTGGTGATCCAGCGCCCTCCCCTCCYGCCATTCCCCGCAGCCTCYAAGAGGGACTGTCTGGAGCGGTTCGGGCCACAGACGCTGGAGCGCATCACAC
GGGACGACGCRGCCATCTGCACCACCGAGTACTCACGCATCGTGCCCCTGGAGAACGGAGAGGTGGGCCGGGGAGGGGCAGGGCGGTACGGGGGCTGGAG
AAYGGAGAGGTGGGTAGGGGAGGGGCAGTGCCGAGCGGGGCTGGAGAAGGGAAAGGTGGGCCCGGGAGGGGCAGTGCTGAGCAGGGGCTAGGGCCACACT
GGCGTCACCGCATACTGCCCACAGATCGTGGTGTCCCTGGTGAACGGACGTCCGGGCGCCATGAATTTCTCCTACTCGCCGCTGCTACGTGAGTTCACCA
AGGCCACCAACGTCCGCCTGCGCTTCCTGCGTACCAACACGCTGCTGGGCCATCTCATGGGGAAGGCGCTGCGGGACCCCACGGTCACCCGCCGGGTGAG
CTGCCCATGGCGCAGGCGGGGGAGGGGGACTGGCCGGGTGGACCCGGGACTCAGGGTGAGTGAGGCCTGGCCGCCTGGTGCTCACGGGGCCTGCGGGTGC
AGTATTATTACAGCATCAAGGATATCAGCATCGGAGGCCGCTGTGTCTGCCACGGCCACGCGGATGCCTGCGATGCCAAAGACCCCACGGACCCGTTCAG
GTGAGGCCCCATTCAGGTGAGGCCCCGTTCAGGTGAGGCCCCCCCCAGCTCCCTGCCTGTCCTTGTCACCCCTGCCTAACCTGAGGGTGGGTGACCTGGT
TCCATGGCCCACCACAACCCTGCTGTCTGTGTGACCTGCACTGACCACCRCCGTGTGCCTCAGTTTCCTCATCTGTGCAGTGATGTGGAGGCCAGGGCAT
GTGCAGCCTCCCCAGGGTGCCCTATCTTGGTTTGGGGGGCCTTGCCCTACTGCCAGCAGAGGTGGGGCTCTCCGGACCCCCAGGCCAGCTGGCCTTCCCA
CCATAGTGGACACCTGGGGCCCTGTGGAGGGGAGTCAGCAATGGGGATGATTGATCCCCGACTCCAAGACTGCATCCCCCGGAATGGACAGGTGCCCACT
ACCTGCCGAGGCAGCCCTAATTCACTTTGGGGGTGCCCGCCCAGCTCCCCCAACCTTTCAGGACACAACAGACAACTTCCCTGCTGCCCCAGCCCTGACC
TTCACTCCAGTCAAGCAGGGACCAAGGCCCAGGAYGGGGATGGCAGGGTGGGGGCAGCCAACACCCCACATCTGCTGTGCCCTGTGTGCCTGCTTTCGGG
GGCAGCCGAGGGCACTGCAGAGCATCCACCTCCCGGGAGCCCCTCACAGGAYGGGCAGCAGCCCTGGTGCTGGCACCGGCACATTCCTGGGCCTCACCCA
GAGTCCTCAGTAAGGTAGGGCCGGGCTCATTCTGCGGAGAAGCAACCCCAGGGCACGTCCGTCCTTTCCTCCCTCCCTKCGTTGGTTCTTTCAGCCAGCA
GCTGTATGTTGAGCGCCTAACACACGCTGGGCCGTTTTCCTGGGAATGGGAACACAGGGTGGGACCCCAGCCCGGCCTCAGGAGCACCTGTTCCGGGGRA
GGCAGCTGGGAAACACGCAAACCAGTACTCAGCGTGGTGCCCGGAGGGTGTAACACCCTAGGGTGGCAGTGCAGGCATGGGGCTGGACAGAAGCCACTCA
GAGTGGTGCAGCTGAGGCTGAGTGTGTGACGAGGCTCCTGGACCCCCAGCAGGGAGCTGGCAGGGCTCATCTAGTGCCTGCAACCGAGCAGCCCAACTTT
CATGCGCTTGGATTTGGGACCCGCCCTTGCCTTCTGTGGGGCCTTACTGCTCTGTCCACGCTCCAGTTTACAGGGGAGGTGGGGAGGCGGGTGGAGCTCA
GACAGGACAAAGGTTCACTCCCATTCTCACGGCCAGTGCCGAGCAGAGGCGGGAGCCCTGGGCCCCTTCGGATGTGGCTGGTGGGTCTGAGGGGAGGAGT
GGCACAGTCACCTGAGCCGGAGGACTTGGGCTGTTTGCCAGGAGCTGTGGGCCCTGGGGACCCACCCAGGCACTTGTTGCTGCCAGCACAGCTTCAGGTG
CTGAGCTCCAGCAGAGCTAACTTGTCCTGGGAAATTAAGTGCCAAGTGGGGACGCAGCTCGTGACAGCAGGGAGTGGAACCCACCAGGCAGCCAAATGGG
CCTCCAAGGAGAGGAAGGGCGCGGGAGCCGGGGCTTGCCTTGGCCTGCAGGGAAGACATTGCCATCCCCTGACTCACCGCACCTGGGTGTGGACTGAGCT
CAGCTCTCCCTGCAGGTGCAAGCAGGGGTGACTGGGAATCTTTCATGGAACCACAGCCTCTGTTACCAGGACCTGGTCACCCACCAGTGTCCCAAAACAT
TAGCCTGCCCATGTTCTCCCTGCACCCTTTACCCGCCACCCCACCTCTCCTCCAGGGAAGGGGGCTCCATGTCATCAGCCAGCAATTTTCTGCCTCTTTA
CCTCCACCATCACCTTACTCCCACCCAAACCATCACCCCCACTACCAGCCCACTCCCACCATCATCACCCCCACCATCACCGTCATCACCCCCACCATCA
CCGTCATCACCCCCACCATCACCGTCATCACCCCCACTCCCACCGTCATCACCCCCACCCATCACCACCCCCACCATCACCATCACCATCACCATCACCA
TCACCATCACCATCATCACCCCCATCACCCCCACCATCCCCATCCCCATCCCCATCCCCTGGGTTGCTGCTTCCTCCTTCCTGAAATGCACCCTGTAGTT
TTTCTATTCCATGACAGTCTATCCGGAATTGTCTGAAAACGGCTGTTTTGTCCTCCCTCTTGAATGATAGTTGAGCTGACTGTAGGATTCGTGGTTGATA
GCTGCATCTCTCAGCACTTTGGAGAAATGATTTGACTGTCTCTTCACCTCTCCAGGTGCTTGGGAGAGTCCATTGTCCTTGCAGTTGCTGATCCTCTGTG
GGTCATCTTCTTCTCCAGGACTTTTTATGGTCTTTTTGCCATTGGTGTTCTGCAGATTTATTGTGATGTGTTGAGGATTGGGATTTTTTTCTTGCTCAGG
ACTCACGCTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGACTGGCGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCG
CCTCCCGGGTTCATGCCATTCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCCACCACCACGCCTGGCTATTTTTTTTTGTATTTTTAGTA
GAAACGGGGTTTCACCATGTTAGCCAAGATGGTCTCGATCTCCTGACCTCRTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGC
CACTGCGCCTGGCCATGTGTTCATTATTAATTCAAGACCATCCTTGGCCATTCTTTCTGACTGTTGGCTCCCTTTCCTACCTCTTTTCCCCTGGAGTCCC
CATTAGATACAGGAGCACCTTCTGGTTTCCTTCTCATAATTTCTATTTCCTCTCTCTTTATCTTCTGAGGTGTCTTCTGGATAGCTTCCTTTGCTCCTCT
TCCACTTCACTAAATCTCTCTTCCACTGTGTCTGTCTGCTGTTTAGCCCATCCATTGAGTCTTTAATTTTATAGTTTCATTTTTCATTTCTAGAAGTTCT
GATTGGTTCTTTTTCACATCTGCCTGTTTTCCATAGTGTTATTTTTTTTATTATTATGTTTTAGATTTCTTTTTTATTTTATTTTATTCTTTTTTGAGAC
AGAGTATCACACTCTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAAGCTCCACCTCCCAGGTTCGTGCCATTCTCCTGCCTCATCCTC
CTGAGTAGCTGGGACTACAGGCACCTGCCACCACACCCGGCTAATTTTTTGTATTTTTCTTTAGTAGAGATGGGGTTTCACCTTGTTAGCCAGATGGTCT
CGATCTCCTGACCTCGTGATCCACCCGCCTTGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCTATGTTTTAGATTTCTTTATG
ACCATTTTTAACATTCTTCCCTGGCTTCTACTAGATTACTCCATTTTGTGAGGTTCTTGGGGCTCTTTCTGCTGACCTGCCACATTGTTTCTCTGCAAGG
TCTTTAGCAGGGTTTATCTTTGTGCTTCTGGCGTGCCCTGGGATTGGGATGGTTTTGGGAGAGCTTTTGCTATACACCCCAGGGTATCGCCAGCCCGGCA
CCACTTTTCCTATCAATTTCTTGACYATGTGGATTTTTGAAAAATGGAACACCAGTTCAGGCCCTTGCTTATAGGTACTTGGRGCTGGTGTGACGACAGA
GCAGCTTCTTTGTTGATCACCTGTGCTGACGGGCAGTTTATTTCCCAATTCCTCTCATTGAGGGTATGGCCCTCCCAGATGTTTCTGGATTCTGAGGGAA
AGCAGTATTGATTCCCGAGGCCCTGTGAGGTGGGCCCCGTGGAGGACAGGACTAGAGCTGGACCATTTGAGGCTCTGGGTCTAATCCTCATGGACTGGAC
TGACTTCTGGGGTCCTGCTCAGGGAACGCACGGCCCTGCAGCCTCCGGCAGAGCCTGATCTGGGGCAGGGACTCCCGCTGTGGTCTGGCTAATACTGAGC
AGTAGGTGCTTCCAACCTCAGGCCTTGTCTCTCTCCAGCTGTCACCCTGCCCACGGGACGTAAGGCAAGATTCCAGCCCTGTGACTTAGTGTCCACCCCA
GCTGGAAGAAGGAAGCAGTTCTTGGCCACTTGGCCCTAGGGAGGTGACCAGGATGCCTAGGAGTCCTGCCTGCTAAGCGAAATCTGAGCCTTGGGGGGTG
CAAATGGACCCCTTTCCCTTCTGGCTCAGGGAGGTTTTGGGCTTAYGCTCGAGTCCTGGCCGAAGTGGAAAGGGCATAACTCAGTTTTGGAGAACGCAGG
TCTCCATCCTGACCTGCAGGCAAGGGGGACTCTACTGACCCCTGAGGTGCCCTGTCCTAGGCCCCACCCGGTCAGTGCACACCTGCTCCCCAGTCCCGCC
TCCACAAAGGCCCTGTGAGACCCTGTCCTCCACCGCCTCTTTCCTTGTGTCCATTCCCTGAGCCTGGGGAAGTTGCGTCAGAGCCACAGGCTCGGGGACG
CTGAGTCTGGGCGAGCGCTTGCTGCCGGACAGCTGGAGAAACAGCAGCGGGGGGCCGTGTCCATGTGGCAAGCCAAGCCATSGAGGGGATCACAGGCCCC
TTCAGGGAAGGGACTGAGCACCTGCCACCTGCCTCCAGGATGGGCCTGATCCCCCCTCCTGTGTACCCCACAGGCTGCAGTGCACCTGCCAGCACAACAC
CTGCGGGGGCACCTGCGACCGCTGCTGCCCCGGCTTCAATCAGCAGCCGTGGAAGCCTGCGACTGCCAACAGTGCCAACGAGTGCCAGTGTGAGTGCCTC
CTCCCACACACGTGTGTCCTGCCCACACCCTGGCCCATGAGAGGGCCCCGGTGCCCGGGCCYGTGGAGGGCGTGCCAACAGCTGCGCTCCCCTCTCTCTA
GCCTGTAACTGCTACGGCCATGCCACCGACTGTTACTACGACCCTGAGGTGGACCGGCGCCGYGCCAGCCAGAGCCTGGATGGCACCTATCAGGGTGGGG
GTGTCTGTATCGACTGCCAGGTGGGCTGGGCTAGAGKGCTGGGAATGGGCTGGCCCYGAGGTGGGGCAGGGACCTCCCCAGACTCAACGGCCATTGCACT
CCCAGCACCACACCRCCGGCGTCAACTGTGAGCGCTGCCTGCCCGGCTTCTACCGCTCTCCCAACCACCCTCTCGACTCGCCCCACGTCTGCCGCCGTGA
GTGGGCTCAGCTGGGCGGGTGTCCTGGGTCTCAGGGTCTGCCTGGAAAGAGGTGTTCTTGGGCCTTTGGGGCTGCTTTGGAGGGGATGTCCTGAGCTTCC
AGGCCAGCCCAGGAAGGAGCCTCCCAGGCCACGGGGCGGGTCCCCAGCCCTCATGTCCCCCCAGGGGGCCTGGCTGTAGCCCTCATCCCCATGGCCCTGG
CTGGGGAGGTAGAGACTGCCACATCTTGGAGCCYACCCCTTGAGTCCTGGTAGCTCCAGGCTTACCCGGCTCCTGCCCCTGCCCAGGCTGCAACTGCGAG
TCYGACTTCACGGATGGCACCTGCGAGGACCTGACGGGTCGATGCTACTGCCGGCCCAACTTCTCTGGGGAGCGGTGTGACGTGTGTGCCGAGGGCTTCA
CGGGCTTCCCAAGCTGCTACCGTGAGCACCTGCCAGGGGCATCCAAACAGACACCACTGCCTGCTGGACTCCGGGAGCCCTGCAGGGGGTGGAGGGGTTC
CCCGGGAYGGACCRTGTTATCCTGCCTGCATCTCCGATTGTGCTGAGAGACCAAGGGTGGCAGGGGGTGTAGGGTGCTAGGGTTCTGAGCAGACCTGGCC
AACATGCGTGTCTCTTCCCCTCAGCGACGCCCTCGTCCTCCAATGACACCAGGGAGCAGGTGCTGCCAGCYGGCCAGATTGTGAGTAAGTGTCCTTGAGG
CCCCCAGGTCCCCGGCCTGCCCTGGAGCCATGGGGGCGGCTTCACAGAAAGTTCCTGGAGAAAGGGAGGATTTTCATTTGGTCACTTTATTTTTGGCTTA
TTTCTTTTTATGCAAATTATGCCTATTCACACTGGAAAACCTTCGGAAATATAGGTCRGCATAAAGCCAAAGAAAAAAGTTAGCCCAGGCAACATGGTAA
AACCCTGTCTCTACAGCAAATACAAAAATTAGCYGGGTGTAGTGATGTGTGCCTGTAGTTCGAGCTACTCCGGAGGCTGAGGTGGAAGGATTGCTTGAGC
CTGGAAGGCCGARGCTGCAGTGAGCCATGATCACACCACAGCACTCCAGCCTGGGCAACAGAGTGAGACCTTGTTTCAAAAAAGAAAACTGGGCATGGCA
CATGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTAAAACTTAAAGTATAATAAAAAAAAAATAGAAAAAAAAAAAAAAAAGAAAATTG
GTTGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTCAGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGGCCAGCCTGGCTAACATG
GTGAAACCCCGTCTCTACTAGCTGGGCATGGTGGCGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAAAATCGCTTGAACCCGGGAGGCGG
AGCTTGCTGTGAGCCGAGATTGCACCACTGCACCCCCGCCTGGGCAACAGAGCGAAACTCCATCTCAAAAAGAAAAACAAAAACAAAAAGTTATCCACAA
TTCCCCCAGCTCTGCACAGCGCTTGAATGCTCTCTGTACACAAGCACTTCTCTTTCACAAGCTTCGTCATGCGCTCTGCACCCTGTCCTGTGATTACATC
CCAACCACAATCCTGTAAACACATTGTCTTGTGGTCCATTTCATAGGGACTAATGAAGTATTTATTTAAACAACCCCCAGTGGTTGGAAATCTAGGTTCT
TTTTTTTTTTAATTATGCTGTGATAAAGCATTATTAAGATGAGGTAGAAAACTGGCCSGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGC
TGAGGCAGGTGGATTACCTGAGGTCAGGAGTTAGACACCAGCCTGGCCAACATGGTGAAACCCCATTTCTACTAAAAATACAAAAATTAGCCAGGCGTGG
TGGTGYGTGCCTGTAATCCCAGCTACTTGGGGGGCTGAGGCAGGAGAATCATTTGAACCTGGTTGCAGTGAGCTGAGAACCACCATCACACTCCAGCCTA
GGTGACAGAGCGAGACTCCATCTCAAAAAATAAATTTAAAAAAAAAGAGTCTCCCAGCATACAGTCACAGCCACAGAGCAGCATGGCACCTGCTGACCAA
ATCATTGCCATTACCACATAGCAGTCTATCACTCTTGGCTTGATAGACAAAAAATATTCTCAAGTCAGAGCCATGTTCCCTTGCTTTTTAGTGTTTCTGG
AATTGGGATGCGTCTTTTGCTTGATGGCATATCACAGTCTAGTTGGTAGGGTTTTTCCCTTTCATGACGGGACATACAAGCATGGCATCTTTCCCAGTGA
GTGGGGTCTTAGACTTAGATTGTATTTGATATGACGTCTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTTTTACCCAGGCTGGAATGTGATGGT
GTGATCTTGGCTCGCTACCACTTGTGCCTCCCAGGTTCAAACGATTCTTCTGCTTCAGTCTACCGAGTAGCTGGGGTTACAGGCATCCGCCACTAAGCCC
AGCTAATTTTGTATTTTTAGTAGAGACAGAGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCAACCTCAGGTAATCCGCCTGCCTTGGCATCCTAA
AGTGCTGGGATTACAGGCATGAACCACCATGCCTGGCACGATATTGTGTCATTTTTAGCTGCACTTTGACTACTCTGTAAGCTTGAATCTTCTTGACTTT
TCGAGTGCTTTCTTTTTTTTTTTTTTGATGGAGTTTCACTCTAGTTGCCCAGGCTGGAGTGCAATGCTGCAATCTCAGCTCACTGCAACCTCTGCCCCCC
GAGTTCAAGTGATTCTCCTGCCTCAGCTTACCATGTAGCTGGGATTACAGGCATGCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTGGAGACGGGG
TTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAAGGGATCTGCCCGCCTCAGCCTCCCAAAGTTCCGGGATTACAGGCGTAAGCCTCTGCG
CCCAGCCTGTATCACCTATTTCTTATAAGTTGTGTGTTTTTCTCCTGATGGGTCATTTGCCCCTTATTTTGGGGGGGAGCTTTTTTCCGTGTCCTGATTT
TGTAAATTTTGAGGTGAATCTGCCCACGTTGTTCTACCGAATCTCTGGCTGAGTCGGATGTAGATGCTCCTCCCTTACCCAGGAATTCTCTTGTCTGCTG
GTTCTGTGATGGTTTTTTTATGTGGAAATGTTTAGTTTTTCATCAATAGTGTAAACCAGGGGTCAACAAACTGTCGGAAAAGGCCCAGACGGTAAATGTC
ATAGACTGAGGGCCGTGTGGTCCCTGTGGGGAAACTCCTCAGCTCTACCGTTACCAGCTGTAGCTTGCAAGCAGCCATAGAACGCGTATTCATGAGTGGG
GTTGGCGGCGTTCCAATAAAACTTTATTTACAAAAGCAAGCGAGGAGTCCATAGACTAGTTTGCTAATCSCTGGTGTAAACTGACAATTTATCTTTTCGC
TACTGGGCCATAGTAAGCACTCAGTAATTACCTGTGGCTGTACAGTATTCACTTTCAATGTGTTCATTACAATGAATTGTATTGTCTTTCCTAATGGGGA
CACAGTGTTGAACATCAATATTTTATTTTGTCTAAATTCACAAGTGAGATTGTTTTGGTTTTGTAAAATACTTGGGAAATCATCCACACTTTTTTATGCT
CCCAATCAGTTTAAAAATCACAGAAATTATTTACTTGTTAAAAGTCTGGTCAAACTTACAAAACCCTTTAGTCCTGATACCTGTTTTTCTTTTCTTTTTT
TTTTGTTTTTTTGTTTTTGTTTGAGACGGAGTCTCGCTCTGTCGCCCAGACTGGAGTGCAGTGGCACGATCTYGGCTCACTGCAAGCTCTGCCTTCCAGG
TTCACGCYATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCGGCTAATTTTTTTGTACTTTTAGTAGAGATGGGGT
TTCACCGTGTTAAAGCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGTCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGAGCC
TGGTCTCTGATACCTGTTTTTCAACAGAGATCTTAAATTAAGGTTTTAATGTATTCTGTGGCTATTGTATTCAATTTTCTACCTCATCTTTTTTTTTTGA
GATGGAGTTTCACTCTGTCGTCCAGGCTGGAGTGCAGTTGCACGATCTCGGCTCACTTCAACYTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGT
CTCCCGAGTAGCTGGGATTACAGGCACCTGCCACCACGCCTGGCCAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCT
TGAACTCTGACCACAAGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGTATTACAGGCATGAGCCACCACGCCTGGCCAGTTTTCTTCCTCATCTTAA
GTCAGGTTTGATTATTTGTATTAGCAAATTGTGTATTTTGTTTGGATTTTTTAATGTATTGACATAAAGTTATGCACAGTGGCCTGTTATAAAGTTAAAA
TTTCTGTTCATTTCTATTCTCGTCTATTTTTATTTTTATTTTCTTTCTTCTTCTTTTTTTTTTTTTTTTTGGTTGATCAGACCTAACAGAGGTTCGTTGA
GTTTATTGGTCTGTTCGAAGTACAGGTGCAGTTCTCTTGATAAGACCTGCTGAGGTTTTTCTTTCTTTAGTTGGGAGGAGAGATTTTCCTTTCTAATATT
CAATTTCTTTAATCCACTTTCTTTGATTTATCACTTTTTWAAAATAGCTTCTTGAGTTATTATTTTTAGTCTGTCTTCATTCCCAACAAAAAGGCTTAAA
GCAGTGGTTCTCAGCCAGTGGTGACTTTGATGCACAGGAAGCATTCGATGATGTCTGGAGACATTTTTGGTTGTGACGATTGATGGATGTAACTGATCCA
GTGGGTAGAGGCTAGGGATGCTGGGAACCTCCTACAACACAGGACTGCTCCTGCACACATAACAAAGAGTTATCCAGCCTGGACTGTCAGTAGTCCTGAG
GCTGGGAAACTCTAGTTTAAAGCTATAAATTTTCCTCAGAGTATACCTTTGGCTAGGTATCTTGTAGTTTGAGATGTGGGGTGTCCTCATTGCTGTGTTT
TTTTTAAATAGTCTATCATTTGGGGTTTTATTTTCTTTCAACCCGTCACTGTTCAAGGTGCTGAGGTTTCCCTCCTGTCCTTTTCGTGGTGTGCAGTTCT
GGTTTTGCTGCATCGTGGTTAGACTTGGCACACTGATAGTTTCTGCCTTTTGTCTTTGGAATTTGAGATTTTCTTTGTTTCTAACCTAGAATGTGACGAY
TTTTATTTTTTAATTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGACACAGAGTCTCACTCTGTCACCCAGGCTGGCGTCCAGTTG
CACGATCTCGGCTCACTGCAACCACCACCTCCTAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTGATTATAGGCGCCCACCACCA
TACTTGGGTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCAGTTGATCCACCCACCTCAGCC
TCCTAAAGTGCTAGGATTACAGGCATGAGCCACTGCGCCTGGCAGTTTCTGCCTTTTGTTTTTGGAATTTGAGATTTTCTTTGTTTCTAATCCAGAATGT
GACCACTTTTAGATTGTTCCAGGAACATTGGACAGGAATGTGTGTTCTCTATGGAGTACCGATTTGGCATGTTAAAGCAGACTTGTGGCCAGGTGCGATG
GCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGGTCACCTGAGGTCGGGAGTTCGAGACGAGCCTGACCAACATGGAGAAACCCCGTC
TCTACTAAAAATACAAAATAAGCTGTGCATGGTGGCGCATGCCTRTAATCCCAGCTACTCGGGAGGCTGAGGCGGGAGAATGGCTCGAACCCGGGAGGTA
GGGTTTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGGCAACAAGAACGAAACTCCATTTCAAAAAAAAAAAAAAAAAAAAAAACAAAGGAGG
CTTGTTCATTATGCTCTTCAAACCCACAGTACCCTTGCTCAATTTCTGTCCCTCTGAGCTGTCACAGTCTACCTATGTATCTCCATCCAGTCTTTGTCTC
TCTCTGACTCTGGTTTGCCAAATTCTCCTTGCCATTTTAATAGTTTTAGCTTCCCTCACCTCCAGGACACGTTACCTGCTCCTAGAGATTCGTTTCTGCT
GCCCGTTGGGTGACATGCCTGAGCTTCCCTCTGTCTCGTTACCGCTGTGCCTTCCGTCCTCACTCCTCTGTGTTTGCGTCCACCCCAGCTCCCTGCACAC
AGCTCTCGGTTTACCACCTGTCTGAGGCGTTGGTTTAAGGTACGCTCTTTCAAGAGGCTATGGCTGGAGTTTCCTCTTGGTCACGCTGACGTCTTCGGTT
TTTATCTCATGAAGGAGACAGCSCAGCCCCACGATCGTCCTTGCCTCTGTCAGTTCTGGCTGGCTCCTGCCCTTGTATCATTTCTCCTTTTCTGCTGAAA
CATTTCCTTTCCTGACTTTCACAAGTTAGAGCAAGAAAACGTGCTTTGATTTTGGTCTGTTTGTTTTTGCTACTGTTTCCTCTCTGGGGAGGGTTTGCAA
GCTCTCTTTCTGTGTTCTGGTCTGACCAGTGGTTACTCTTACATTTTTGACAAGTATTGAACCTTTATTTTTCTATCAGTAACAAAAACTGAAGCGTGCT
CACAACCCTCCTTTCATGCGTAAGTTAAGACATTTGATACATTCTTTCTACCTTCTTCCCAACACCTGACATTGTTTCTAAAGAAACTATAATTTTAATC
CCAGCACTTTGGGACGCCGAGGCAGGCGGATCACGTGGTCAGGAGATGGAGACCGTCCTGGCTAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAA
ATTAGCCGGGTGTGGCAGCGTGCACCTGTAGTCCCAGCTGCTGGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCC
AGATCGTGCCACTGCACTCTAGCCTGGGCGACAGATCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAAACTATAATTTGTTTTGCAGCTTG
TTTTGAGTTTTGATTTGTTTGTATTTTCTCTTTGTGTTAATGCTTGCAGCTAACTAGGAATCTACGTAAGAAATAACTAATGAAGCGTTTTGATAGTTGG
CCTGACTTTGTTGCACATCACTGTTTTCCCAAACACGCCTCTCCCTTGTTGGAATTTTTTTTTTTTTTTGAGACGGAGTCTCACCCTGTCGCCCAGGCTG
GAGTGCAGTGGTGCGATCTCGGCTCATTGCAACCTCCGCCTCCCAGGATCAAGCGATTCTCCTGCCCCAGCCTCCCAAGTAGCTGGGATTACAGGGGTGC
ACCACTACGCCCAGCTAATTTTTGTATTTTTAGTACAGACAGGGCTTCACTATGTTGGTCAGGCTGGTCTCGAACTCTTGACCTCATGATCTGCCCGCCT
CGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCCTTGCTGGGATTTTTATTATTTTATTTTCTAGTTAGTGTTGTGTAAAAGTG
TAAGAAAATGAGTTTGTGGAGAGGGAAGGTTTGCCAGGAGGGGCGTACTGGGGTCTGCAGGGCATCTGAGACTCCCCTGCCTGTCCCCACCCTSCAGATT
GTGACTGCAGCGCGGCAGGGACCCAGGGCAACGCCTGCCGGAAGGACCCAAGGGTGGGACGCTGTCTGTGCAAACCCAACTTCCAAGGCACCCATTGTGA
GCTCTGCGCGCCAGGGTTCTACGGCCCCGGCTGCCAGCGTGAGTCCCCTCTCCCCGCTCAACCTCTRCCTGCGCTCGAGGTGGACACCTGAGGCCTGGTG
CCTCTGACCAAGCATGTGGGCCACCCTTTCCTGCAGCCTGCCAGTGTTCCAGCCCTGGAGTGGCCGATGACCGCTGTGACCCTGACACAGGCCAGTGCAG
GTGCCGAGTGGGCTTCGAGGGGGCCACATGTGATCGCTGTGYCCCCGGCTACTTTCACTTCCCTCTCTGCCAGTGTGAGTGGTGCCTCTCCACGTGGGCG
TGGGTAGGGGAGGCCCGTGGGCCTGGCCTACCGTGACACCCGCTCCGCTCTGCAGTGTGTGGCTGCAGCCCTGCAGGAACCTTGCCCGAGGGCTGCGATG
AGGCCGGCCGCTGCCTATGCCAGCCTGAGTTTGCYGGACCTCATTGTGACCGGTGCCGCCCTGGCTACCATGGTTTCCCCAACTGCCAAGGTGAGCARAG
GGTCAGGGCAGGAAGGGGTTCTGCCACCCACATGGCGCCAGGGCCTGACCCCATTGTCCCTCTGCAGCATGCACCTGCGACCCTCGGGGAGCCCTGGACC
AGCTCTGTGGGGCGGGAGGTTTGTGCCGCTGCCGCCCCGGCTACACAGGCACTGCCTGCCAGGAATGCAGCCCCGGCTTTCACGGCTTCCCCAGCTGTGT
CCGTGAGTGCCTAGGGAGGAAGTGGTGGGGAGGCAGGTGCAGTCTCCACTGCGTGCCCACAGCTATCCTTGTCTGCAGCCTGCCACTGCTCTGCTGAAGG
STCCCTGCACGCAGCCTGTGACCCCCGGAGTGGGCAGTGCAGCTGCCGGCCCCGTGTGACGGGGCTGCGGTGTGACAYRTGTGTGCCCGGTGCCTACAAC
TTCCCCTACTGCGAAGGTGAGCAGGCAGGTGGCTGTGTGCACCAGGTGCCGGGCCTGTGTGTGGGTCTGTGCTGTTCACACGCTGCCTGCCTTCCTGTGA
GGCTGTTCACGTGCATCTTGCTGTGTGTACTGCGACTGCGTCCCCACGCTCTGTGTTCGCACCTTGTTCACATGCCGTGCAGGGGTGTCCGCGTACTGCC
CGTGTCTGCGTGCTGTGCATCCGCGCCTGTCGTGTCTCGTATGGGTGCATGTGTTGCGTTCTGTGTGTGTACGGGTGTCATGTGTTGCTTGTGTGGGTGT
GTGTGTCACCTAAGTGTGGGTGCCTGTGTCACGTAAGTGGGTTTGTGTGTCACGTGGGTGCATGTGTTGCGTGTCGCATGTGGGCGCGTGTCGCATAAGT
GGGTGCGCGTATCGCTATCGCGTGTCTCAAGTGTGGGTGTGCGTGTTCATGTCCTTTCACGGGCGTGTGGGTGTGTTAGTGCACGTGTAGTGGGTGCATC
TTCACGTGCGTTTGTGTGCTTGTTCAGACRTGTGTCACACACTGCGTGTGGAATGTACACGGGTACCCCACGCGGTGCACGTTTGCGTGCATGTCCATGA
GCAGGTGCTGTGTGGTGGGATGGCACGTCCGTTGCTGCGGAGGGAGCAGGGAGGTGCGTGTTTTCAGGCCGTCCATGTGGATGAGAGGYACCTGTGCTGG
TCCTCAGCTCCTGTGGGACCGTGGGTTCTGGCTGGGCCTGGGACACCCTTGGCCTTCCGGGTTGGTCACTGGGAAATGACCGAGGCATGGTCCTCTCTTC
ACAGCTGGCTCTTGCCACCCTGCCGGTCTGGCCCCAGTGGATCCTGCCCTTCCTGAGGTGAGCCCAAGTCTGCTCGTGTGTGGGAGATGGGTGAGGACCC
AGGCCAAGCTAAAAGTCCCGAGTCCGGTGAGACCAGGGCTTCCTGCCTGCTGCTCAGTTGCCATGGCAACCCCAGGGCCTGTCTGCTCCTTAGGCTGGTC
CTCTGCCCCCACTGCAGGTGACTCCTGTGAGTCACAGGTGAGGGCCCTCAGCCCTCACCACCCCTTGTCAGGGCTCTATGGCTCTATGGTTTGTGGGTGG
GAGAGCAGGGCGCCCGCTCTGACCTGCAGTCTTGTCCTCTCCCAGGCACAGGTTCCCTGTATGTGCCGGGCTCACGTGGAGGGGCCGAGCTGTGACCGCT
GCAAACCTGGGTTCTGGGGACTGAGCCCCAGCAACCCCGAGGGCTGTACCCGTGAGTGTGCCCTGGAGTATTGGGGTACAGGGGTTCCTTGGGGAACTGT
GCCCACAAGTATATCCTGGAGGGAGTGTTGGGGTGCAGGGTTCCTGGAGGGGCTGGAGCCAGTGAGTGTGCCCTGGAGGGAGTGGTGGGATATGGGGTTC
CTCGGGGATTGTACCCATGAGTGTGCCCTGAAGGGAATGTTGGGGTGCGGGGTTCCTCAGGGGGGCTGCGAGTGTGCCCTGAGGGAGTATTGGGGGTATG
AGGGTTCCTTGGGGGGCTAGAGCCTGTGAGTGTGCCCTAAAGGGAGTATTGGGGTATAGGGGTTCCTCGGAGGGGCTGCACCTGTGAGTGTGCCCTGGAG
GGAGTGTTGGGGTGTGGGGTTCCTCAGGGGATGGCACCCATGAGTGTGTCCTGGAGGGAGTGTTGGGGTGTGGGGTTCCTCGGGATTGCACCCATGAGTG
TGTCCTGGAGGGAATGTTGGGGTGCAGGGGTTCCTGGGGGGGTACTGGAGTCCATGAGGGTGTCCTGGAGGAATGTTGGGGTGCAGGGGGTTCCTGCGTG
GGACTGGAGTCCATGAGTGTGCCCTGGAGAGAGTGTTGGGGTACGGGGTTTCCTCGGGGTGCTGGAGCCTGTGAGTGTGCTCTGGAGGGGGTGTTAGTGT
GTGGGGGTTCCTCGGAGGGGCTGCACCCGTGAGTGTGCCCTGGAGGGAATGTTGGGGTGTGGAGTTCCTCAGGGGATTGTACCCATGAGGGTGTCCTGGA
GGGAGTGTTGGGGTACAGGGGTTCCTGGGGGGGGGCTGGAGTCTGAGTGTGCTCTAGAGGGAGTATTGGGGTATGGGATTTCCTTGGGGGGCTGGAGCCT
ATAGTGTGCTCTGGAGGGAGTGTTGGGGTATAGGGGTTCCTTGGGGAACTGTACCTGCAAGTGTATCCTAGAGGGAGTGTCAGGGTGCAGGGGCTCCTGG
GGGTGCTGGAGCCTGTGAGTGTGCCCTGGAGGGGGTGTTAGGGTGTGGGGGTTCCTCGGGGGGCTGGAGCCAGGCTCTCCTGCCCCACCAAGCATCTGAG
TCCTGCCCTGCTCTCCCCAGGCTGCAGCTGCGACCTCAGGGGCACACTGGGTGGAGTTGCTGAGTGCCAGCCGGTGAGTCTGAGGACCAAGGTGTGGGGG
ATTTGGGGGCACACTGGTCAGGACCCTCCCCTGCCCCACTTCACCTCCTCCCTTGGCCCCCAGGGCACYGGCCAGTGCTTCTGCAAGCCCCACGTGTGCG
GCCAGGCCTGCGCGTCCTGCAMGGATGGCTTCTTTGGACTGGATCAGGCTGACTATTTTGGCTGCCGCAGTGAGTGCCCACTCGCTCGTCCCAGACCACA
GCCCTGCCTCCCCTCGGTTTATGCTGGGGAACCCAAGGCCCGGAGGGACAAGTGCAGCCTGGGCAGCATGARGCCCGGGTGATGGATGGCTGCCCCTTGG
TGCCAGCCTGTGCCAGGGTRTGGGAGAGGGGGTGCAGCTCCCACCCAGATGCGTGGCTTCCTCTCCCCTGTCCTACACCTGGGCAGACGGCACTAACAGA
TCCCAGCGCCCTCACCCTCGCCCTCGCCCTCGCCCTCGCCCTGAGCCCTGAGCCCTGAGCCCTGACTCTCCATCATCCAGAGAGCCCCAGGCAGGCTTCT
CAGTCTGGCTGTGAGGGGCCCCTGAGGCTGGGTGGGGGCCAGGCAGCCTCTGACCTCCCACCTTCTCCCTGCAGGCTGCCGGTGTGACATTGGCGGTGCA
CTGGGCCAGAGCTGTGAACCGAGGACGGGCGTCTGCCGGTGCCGCCCCAACACCCAGGGCCCCACCTGCAGCGAGTGGGTACCCCTTCCCCACTGGGTGG
TGGGGAGCGGGGCAGGCAGCTTGTCCTCCGGGCMTCTCCGTGTCCCTCACCATGGGCCCACGTGAGGCCTCACCCTCCCTGGAGAYCCGGGGCCGCTGTG
CAGGGCTAGGTAGGATGGCCAAGCTGCACCTGACCAGCCCCTGCTGTGGCCAGGCCTGCGAGGGACCACTACCTCCCGGACCTGCACCACCTGCGCCTGG
AGCTGGAGGAGGCTGCCACACCTGAGGGTCACGCCRTGCGCTTTGGCTTCAACCCCCTCGAGTTCGAGAACTTCAGCTGGAGGGGCTACRCGCAGATGGC
ACCTGTCCAGGTGGGCGCTGTGCTCCCCCTCCCAGGCTCAGCCTAGAAGTGGAGCCAGGCGTGGCTGGCAGGGAGGGGTGGGCAGGCCCCTTGAAGGCCC
AGGCCTCAGGCTGGCAGTGGTCAGGGAGAGTGACCCGACGCTCCATGCCCACCCAGCCCAGGATCGTGGCCAGGCTGAACCTGACCTCCCCCGACCTTTT
CTGGCTCGTCTTCCGATACGTCAACCGGGGGGCCATGAGTGTGAGCGGGCGGGTCTCTGTGCGAGAGGAGGGCAGGTCGGCCGCCTGTGCCAACTGTGAG
TGGGGTCCCTGGGCCACAGCCCCTGCCCCACCAGCCCAGCCCACCCCACCCCACCCCACCCCACTCCCAAGCCCTGCCACCTTCCTCTGGCTCATGTGGG
TGGTAGGACCAGCCTATCCCCAACCCTGTAGGGGGTGCAGCCTGGGGTGGCCCCAAGGGCTGGGCTCAGGAGTCTCACCCCTGCCCCCGCCCAGGCACAG
CACAGAGTCAGCCCGTGGCCTTCCCACCCAGCACGGAGCCTGCCTTCATCACCGTGCCCCAGAGGGGCTTCGGAGAGCCCTTTGTGCTGAACCCTGGCAC
CTGGGCCCTGCGTGTGGAGGCCGAAGGGGTGCTCCTGGTGAGGCAGGGGCCAGAGTGAGGGCTGGGGGCCGGGTCAGGGGGTGGGGCCCACCACTCTCAG
CACCACCTCCACCCTGCAGGACTACGTGGTTCTGCTGCCTAGCGCATACTACGAGGCGGCGCTCCTGCAGCTGCGGGTGACTGAGGCCTGCACATACCGT
CCCTCTGCCCAGCAGTCTGGCGACAAGTGAGGGCCATGCGTGCGGTGGGACCGGGGTGGGGGCTTCCTGGACCCCCACTGTGCCTGGCTTCCCCCACTCA
GGCTGTCTCTGGGGACCTGGGTGGACCTGGGGCTGACCACGGCCTGTGTCCCCCCAGCTGCCTCCTCTACACACACCTCCCCCTGGATGGCTTCCCCTCG
GCCGCCGGGCTGGAGGCCCTGTGTCGCCAGGACAACAGCCTGCCCCGGCCCTGCCCCACGGAGCAGCTCAGCCCGTCGCACCCGCCACTGATCACCTGCA
CGGGCAGTGATGTGCGTGTCCTGGGACCCCACGGAGCAATGGGTGTTGCAGGACCTTGGCCTGGGGGCTGGGGGTCCTGTGGCGGTGGCAGGTTATAGGA
GCAGGGCGCTGCCTCAGGCAATGSAGCCCAGCACCCAGGCAGGGCGCCCCTGCCTCCTGCCTCCTGCCTCCTGCCTCCTGCCTCCTGCCTCCTGCCTCCT
GCCTCCTGCCTCCTGCCTCCTGCCTCCTGCATGTGTGACCTCAGTGCCTGTCTGTATGTAGGATTGGCTGTGGCCTCCACATACAGCTCAGCCCCCACCA
CTTGCCTGGAGATGTCCGGGCCAGGGTGGGACTCGGCTGAAGGGCAGGCCCTGGGGTCAGGGAGGCGCTGGAGTGGGAGGGGAGGGAGGTGGGAAGGGCG
AGGGGTGGCGGGCCTCCCGTCACCCTGCCTTCCCTGCAGGTGGACGTCCAGCTTCAAGTGGCAGTGCCACAGCCAGGCCGCTATGCCCTAGTGGTGGAGT
ACGCCAATGAGGATGCCCGCCAGGAGGTGGGCGTGGCTGTGCACACCCCACAGCGGGCCCCCCAGCAGGGGCTGCTCTCCCTGCACCCCTGCCTGTACAG
GTGAGTGGGAGCCGGTGGGGCTGGAGTAAGGGCACGCCCGGGGCTGCCCCACCTGCTGACCACCCTCCCCCCACAGCACCCTGTGCCGGGGCACTGCCCG
GGATACCCAGGACCACCTGGCTGTCTTCCACCTGGACTCGGAGGCCAGCGTGAGGCTCACAGCCGARCAGKCACGCTTCTTCCTGGTAAGGACCCCTCAG
GTCCCCACCCCAAGGGGTCAGCTTCTTTCAGAAGATTTGAAACATGCATGAGAGGGGAGAGGACAGTTGGGGTCCCAGGTCCCCAAGGCGGCCACACTCG
CTCATGCCCAGCCCAGCATGTTTCTTCTGGAACCCCTCCTGCAAGCGTTTTGTGGATTCAGTCCCTTTTGACGTACCCCCGAGCTGTTCCATGTGCTCAG
GAAAGCACCTGCAGTCACAGCTCCCTGGCCCCAGGGCAGCCACCTCCTGGCACAGACAGCGTTGGTTGCCTGTTCTGGAACTTTCTTTTCTTTTTTTTTT
TTTTTGAAATGGAGTCTCACTCTGTCGCCCAGGCTGGAGCGCAATGGCAAGATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCGTG
CCTCAGTCTCCCAAGTACCTGAGACTATAGGCACTCACCACCACGCCTGGCTAATTTTCGTATTTTTAGGAGAGACAGGGTTTCACCATATTGGCCAGGC
TATTCTCAAACTCCTGACCTCAGGTGATCCGCCCTCTTGGGCCTCCCAAAATGCTGGGATTACAGACAGGAGCCACCATACCTGGCCTGGMACTTTCTAT
AAATGCCACACAACATGTTCTGTGCAGCCGCGTCTCCCACCGTTGTGTCAGCGGATAAGTTGCCGTGTTCCGAGACACCAACCTCACATGGCCGCACGGA
AAGGGAGCACCCATTTGCGGCTTGTGCCTGCTGAGTGCCTGCCTGGGTCAGGTCCTGGGAGAGCTGGGCCTGGCCCGGCCTGGTGGCACCAAGCAGCACT
CGAGATAAGAGTGGGGGAACAGTGACGGATGGGAGGGCGAGGGGGAGGAAGAGGGCTATGGGAGGAGCCGCATAGGCCTGTGGGCCCAGGAACTGGCCAA
CACGCTGGTCTGCGGTTGGGGTTTGTGCAGCTGGAGGAGGAGCAAKGGCATCTTGGAAAGAGCAGGGCTCGGTCGGACGCCTGGGTTTGCAGTTTCCTGG
GTCTGAGCTGTGTGACCGGCCCCCCCATCGTACCGCCTGCACCCCCCATCGTACCGCCTACACCCCCCCATCGTACCGCCTGCACCCCCCCCATCGTACC
GCCTGCACTCCCCATCGTACCGCCTGCACCCCCCCATCGTACCGCCTGCACCCCCCCATCGTACCGCCTGCACCCCCTATCCTCCCCGCACCACGGGCGT
TGCAGCATCTCGTCCCTCTGCCTGCAGCACGGGGTCACTCTGGTGCCCATTGAGGAGTTCAGCCCGGAGTTCGTGGAGCCCCGGGTCAGCTGCATCAGCA
GCCACGGCGCCTTTGGCCCCAACAGGTAATGGCAGGTAATGGGGCTGGGAGGGGCGCRGCCGAGGGCCCGGCGGCAGGGCCGGCTCTGACTCACCCACTG
TGCTCTCACCAGTGCCGCCTGTCTGCCCTCGCGCTTCCCAAAGCCGCCCCAGCCCATCATCCTCAGGGACTGCCAGGTGATCCCGCTGCCGCCCGGCCTC
CCGCTGACCCACGCGCAGGATCTCACTCCAGCCAYGTCCCCAGCTGGACCCCGACCTCGGCCCCCCACCGCTGTGGACCCTGATGCAGAGCCCACCCTGC
TGCGTGAGCCCCAGGTGAGGGCCATAGTCTCTAGAGGGACRGGGGTGTCAGGGCAGGACTCCGGGYCCCAACCCAGGGCAGGTTGTCCAGGGGGCRGCAG
GGGCTCATAGCTCAGCCTGCTCACTAGGGCCTATCCCTGCAGGCCACCGTGGTCTTCACCACCCATGTGCCCACGCTGGGCCGCTATGCCTTCCTGCTGC
ACGGCTACCAGCCAGCCCACCCCACCTTCCCCGTGGAAGTCCTCATCAACGCCGGCCGCGTGTGGCAGGGTGAGTGTCTGGTGTGGGGGGTGGAGAGGCT
ACCACACACGATGAGRCTGGAATGCCGGCGCCACAGCGTGGCCTGTGCTACCTGCTATGAGCGACAGGCAACATGACTCTGTCCTGCCATCARTTCTCAA
ACTAGCTGCCCTTGCAGCCCGCAGCCCCTACCCGCCCGCTCCCGTTCCCAGAAAAGCCTGGGTCTCGCCTCTGTCTCGTGCGTTGGGAAGCCCCGTTGTG
CTCCATGGCACGTGGCGAATTGAGGGCTTGCCCCAGGATGCCGCTGGCAGCACATGTGGCCCTGTGTGTTTGTCTGGTTCCTGGCTCGGCCAAGCCTGGK
GTCCCGCACATGGAGTTGACCGGTACCTAGAGGTGTCCCGCATGACATCTGTAGGTCATGATGCGGCCAACCCCCGTGACATGAGGGGCCGGCCTTGCAG
ACCTCTTGGGCACGTCCCGTGCCTGTGGCCGTTGGCCAGCGGGCACTCCTTGGCTGCCCCAACGCTGCCATCTTCAACCCTCTGGGTGTCTTGGGGGCGC
TAGAGATGGGGGCCTGACCCTGCCTTTCTCCCCCGCCCAGGCCACGCCAACGCCAGCTTCTGTCCACATGGCTACGGCTGCCGCACCCTGGTGGTGTGTG
AGGGCCAGGCCCTGCTGGACGTGACCCACAGCGAGCTCACTGTGACCGTGCGTGTGCCCRAGGGCCGGTGGCTCTGGCTGGTGAGTCCCAGCTGATGTCC
TGCTCAGGGACCAGCTGTCCTTATACTTGTCATTACCACTGTGGTACACTTGGGCTGGGTCTGTCTCTTCTGGGCCTGCTGAGGCCTGGCCTTGTGCCCA
GCAAAGCAGCTCCTGCCTTTGGGGACCTCCCGATCCACCTTGTGAGGCTCCAGAGGGGCCCTGGACCCTGCACCCTGCACCCTGCTGGTCAGGGTGGCCT
TCCTGGAGGAGGTGGGGCCTCCAGGAAGGAGAGGGAAGAGGAAGGCGTGGCCAGCAGACAGAGATGTGGGAGACACCAGGAGGTCTCATGAATGCTGCTG
CCTCCTCAYGCCCCCGAAAGCTGCTGTTTGGCTTGGAGTGGCCTCCCCTGAGCAGYCAGGGCCCABGGCTGGGCTGGGCTGGGCTGCTGCTGCCAGGACT
CTGAGCTGCCTGCAGGACCCTGGTCCCAGCCAGCCTCTGGGGGCCTCCCCGCTGCAGGCTCTGGGCCYGCGGGAGAGTGACCAGGCCTCACCCCCTAGGA
TTATGTACTCGTGGTCCCTGAGAACGTCTACAGCTTTGGCTACCTCCGGGAGGAGCCCCTGGATAAATCCTATGACTTCATCAGCCACTGCGCAGCCCAG
GGCTACCACATCAGGTGGGCAGGGCTCTGGCAGGTCAGGGGTCCGGGGTGGGGGTCTGGGCCGGGAGCTGGCCTCACCACGTGCCCCTCCATGTAGCCCC
AGCAGCTCATCCCTGTTCTGCCGAAACGCTGCTGCTTCCCTCTCCCTCTTCTATAACAACGGAGCCCGTCCATGTGGCTGCCACGAAGTAGGTGCTACAG
GCCCCACGTGTGAGCCCTTCGGGGGCCAGTGTCCCTGCCATGCCCATGTCATTGGCCGTGACTGCTCCCGCTGTGCCACCGGATACTGGGGCTTCCCCAA
CTGCAGGCGTGAGTACCCCAGTCCTTGGGCGCCCAGTGGCAGGGAGTTGGTGCCAGAGCCCAAGGTGGACGGGTCGACCAGAAAGCAGGGTCAGGAGAAT
GTTCTAGAGCCTGGCAGGGCAGCATTGCTGCCCCATCTGCGGGCCTGGGCCCAGGACTYCAGCTTGCGGGCCATGCAGAAGGTTTCAGGGACCAGCAGGT
GGTCCACAGTCTCTGACGATGATGTTGATTCTGAGCAGCTGCCTCCATGTCAGGAGCTGTCCAAGGCTCAGCACCCGGGGCAGGGGTCCCTGTTCTTGTC
TCCCCCGCCCCCGTCACACTGCCACATCCCCTAGGGCTGCATTCTGGGCCTCTGAGAGGGGCGGGACTGGGAAGAGGGGTCAGTAAACCCTGTACCCGCC
CCACAGCCTGTGACTGCGGTGCCCGCCTCTGTGACGAGCTCACGGGCCAGTGCATCTGCCCGCCACGCACCATCCCGCCCGACTGCCTRCTGTGCCAGCC
CCAGACCTTTGGCTGCCACCCCCTGGTCGGCTGTGAGGAGTGTAACTGCTCAGGGCCYGGCATCCAGGAGCTCACAGACCCTACCTGTGACACAGACAGC
GGCCAGTGCAAGTGAGAGCCCAGAGCGGCRTCAGCGCGGCCCCTGGTGGCCTTAAGGACAGCATTTCCTCTAGCCAGAGGGTCCTGGCACCCACCCTGCT
CCCATTTGTGCTCCCTGGGTGCAGCAGCGCCCTCTCCTCCACTTCTGGGAGGATGCTGCCTGGGTGGGGGGTGCCTACGAGGTCTCACTTTGGTGTGAGT
GACCTGGGGTGGAGGGGGCTCAGCTCCCGCCCCTGCCACAGGTGCAGACCCAACGTGACTGGGCGCCRCTGTGATACCTGCTCTCCGGGCTTCCATGGCT
ACCCCCGCTGCCGCCCCTGTGACTGTCACGAGGCGGGCACTGYGCYTGGCGTGTGTGACCCCCTCACAGGGCAGTGCTACTGTAAGGTGAGTGAGGGCTG
GGCCCAGATCTGGCCTCTCCCTCCRGCCTCATCAGCTGAAAGTGTCCTTACGGGCCTTTCGGGGCAGCTGGGGCTTCCTAGAAGCTTTTGGGAGAGTCAT
CCCCATTGGCAGGTGGGTACCAGGAACCCGGGGTCAGGCACCTGGCACCTGCCGACCACTCTCACTGTCCTCTCATCCCTAGGAGAACGTGCAGGGCCCC
AAATGTGACCAGTGCAGCCTTGGGACCTTCTCACTGGATGCTGCCAACCCCAAAGGTTGCACCCGCTGCTTCTGCTTTGGGGCCACGGAGCGCTGCCGGA
GCTCGTCCTACACCCGCCAGGAGGTGCGCCTGCAGGACTGAGGGCATTGCCTTCTCGGGGAGGKCTTAGGTGGGACTGGATGCAAGATGGGGCCCTGTGA
TGTGTGGGCATCCACCCRTGTGCAGCCACACGTGTGTGCCCACAGTTCGTGGAYATGGAGGGATGGGTGCTGCTGAGCAYTGACCGGCAGGTGGTGCCCC
ACGAGYGGCAGCCAGGGAYGGAGATGCTCCGTGCAGACCTGYGGCACGTGCCTGAGGCTGTGCCCGAGGCTTTCCCCGAGCTRTACTGGCAGGCCCCACC
CTCCTACCTGGGGGACCGGGTAAGCAGGGCATCAGGTCTGGGGGAGGCACTTTGAGGATGGCCAGGACGCCTGAGAGGGTTGGGAGCCAGGAGYGGGGTC
TGTCCAGGGARGGGGAGCTCCATGGGGGTCCGTGAGGGTGCCCAGGCCCTGTCCCGGTAGGGAATGAGCGCAAGTATCCAGGCCCAGCACAGGGCTCTGT
GCTGGGGGTGCCCAGACCACTRCTGACGGGCTCTGAGCCTGTGGCCAGAGTCTGGCCAGGTCACCTCTGTCTGTCCTGCCTCCAGGTGTCATCCTACGGT
GGGACCCTCCGTTATGAACTGYACTCAGAGACCCAGCGGGGAGATGTCTTTGTCCCCATGGAGAGCAGGCCGGATGTGGTGCTGCAGGTGAGGGAGCTGA
GATGATGTGGCAGGGTGGTTGGGTGGGCGTGGCGCAGTRGCACCGTGGTCCAGGCCCGTGCCAACCCTCACCTCCCCATGTGCCTTCCCAGGGCAACCAG
ATGAGCATCACATTCCTGGAGCCGGCATACCCCACGCCTGGCCACRTTCACCGTGGGCAGCTGCAGCTGGTGGAGGTGAGGGGAGCTGGCTTGGGCACCC
AGGTCCCTCATGGACCTCAGCTCATCTGGGAAGGCCGGAAGGGGTCCCAGTGCTGCTGTGCCCATTCTCCGTGGTGGAAAASAGCCCAGGAGCAGAAGCG
GGGTGGGGGCTGGGGAGGTCCCCACACCCATTGTCAGATATCTTCTGYGCTGGTCACCCTGGGGGGTGTCATGCTGTCTTCCCACCTGCTTTGTGAGTCC
CTGATCCCTGAGGGGTGAGCAGCTGCTCAGTAGCTGTTGGCTTCCTCCATGCACTGCCTGTTAGCATCTTTTGCCCATTTCTCTTTGACTTGCAAATCTT
TTTCCATCCTTTTAGAGTTCTTTGTTATTCTTGGTGCTTACCCTCTGTCAGACTTCAGAGTAACAACCGTCTTCTCCCCTCTCACAGCTCATCTGGTTTT
TCTTTGTTTTTTTTTTTTTGTTTGTTTGTTTTTTGAGACAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGGTGCAATCTCGGCTTACTGCAGCCTCT
GCCTCCCAGGATCAAGCGATTCTTCTGTCTCAGCTTCCCAAGTAGCTGGGACTATAGGCACCCGCCACCACACCCTGATAATTGTGTATTTTCAGTAGAG
ATGGGGTTTCGCCGTGTTGGCCAGGCTGGTCTCGAACTCCTGACTTCAGGTGATCCTCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCC
ACCACACCCAGCCTGAGCTGTCTTCTGATGAACGGCCTTATAGTTAATGTACTTGAATTTATCCTTTTTTCCTTGGCAGCAAGCGTTTTTGCATCTTGTT
TAAGAAAGTATTTGTCACTACTTGATCAGAAAGGACCTGCCTATGTTTTCTTCTAGAAGCTTGGCTGTTCTCTTTGTGTATTTCAATTCTTAAGGCATCT
GGAGCTGGTTTGATGTGTGGTGTGAGGCAGGGATCTAGGTGCTGGCTGGCCTCATGGGAGACTGGTTTTTCTACCTGTGTGTACCTCCTCCTGCCCCATG
GTCTTTGTGCCCCTCCATCCCCTACAGGGTTGGGGGGTCTGTTCTAGGCTCCCTGTTCTGTCCCATTGAGTGTGGCCCCACTGAGGTGCCATCCTGGACC
CACAGGGGAACTTCCGGCATACGGAGACKCGCAACACTGTGTCCCGCGAGGAGCTCATGATGGTGCTGGCCAGCCTGGAGCAGCTGCAGATCCGTGCCCT
CTTCTCACAGATCTCCTCGGCTGTCTYCCTGCGCAGGGTGGCACTGGAGGTGGCCAGCCCAGCAGGCCAGGGGGCCCTGGCCAGCAATGTGGAGCTGTGC
CTGTGCCCCGCCAGCTACCGGGGGGACTCATGCCAGGTGAGGTTAGGACAGCACCAGACTGCGAGGCGGCTCACCTGTGCACACCCTTCCCTCCAGCATC
CTCCCTGTGTTCCCTTCCTTGCTGCCTCCACTTCCTGTCACCCTACTCACCTCTCTTCCTGCCCCTGCTTTTCGCAGGCTGCTGGCCAACTCATGGGCCT
GCCTGTCCCCTGCTGCCTGTCTGCCTGCCCCTCGTCTGCCTGCCCCTCATCCGCCTGCCTGCCCCTCATCCGCCTGCCCCTCCATGCACACACCCTCCAT
ACCCCTTTCCCACCTACCCCAGCCCCCACCACTGGGTCACCTGGACATCCCCCACCGACCATCCTGGCGTCTGCCTGTCATTCTGCCCATCCCTCGCCCA
CTGTGTGTCTGTCCAGCTGCTAATCTGCCCTGCTAATCTGTCTGTCTGCTGTAACTTTGCTCCTTCTGTATGAGGAGGTTTGTGGTTGAATACCTCCTAG
AAGGAGTGGAAAGAGYAGGCCCTGGTCCACATGGAGTGGGTGGTCACCAGCCCCAAGGCCTGGTCATTCCCGAGACAGGACATCCGTGTGGCTTTGAGAG
CTATGTCCTCAAACAGCAGCCAGGTGCTGGCCCACCTCCAGCCGGCCGAGGCCAGGAGTTCCTGACCAGCCTCTGACCCAGCGGTGACCATGCTCCACGG
GTTCCCAGTGCCTCGTGCCTGCAGGATCCCTGAGGGTCTGACTTGTGAGCTTGCAGGGTGGGGCCCCTCGTCCTCTCAATCGCTGATGCCACCTGCCCCC
GTACACCCTCAGGAATGTGCCCCCGGCTTCTATCGGGACGTCAAAGGTCTCTTCCTGGGCCGATGTGTCCCTTGTCAGTGCCATGGACACTCAGACCGCT
GCCTCCCTGGCTCTGGCGTCTGTGTGGTGAGTAGGGGCTGGTGGGGCCAGGGGGGCAGCATTCACTGAAGGCACAGTCAAGTGTGCCAGGGAAGACCAGG
RGCTGCACTTCCAGGTCAACTGAGGTCTGGGGAAGGGTGTTGCCCAGTGGGGGACCATCTGGCCTTGGGCACAGAGTCTGAGGCAGGGGTGGTGGGAGCT
GCACAGACTCGGCAGTAGGATGTGGGTGTCCACCATAGCTCTGACTGTCCACTCTGCCCCAGGACTGCCAGCACAACACCGAAGGGGCCCACTGTGAGCG
CTGCCAGGCTGGCTTCRTGAGCAGCAGGGACGACCCCAGCACCCCCTGTGTCAGCTGCCCCTGCCCCCTCTCAGTGCCTTCCAACAAGTAAGCCAGCCTC
CTCCCGGGACGAGGCCCTGATGGTGCCAGGCTCCCTTCACCCAGCAGCGGGGTGGGTTCCCACTGCCCTCTGCAGAGGCCTGGACAGCTGGAGGTGTCCG
TGAGGTCTGGGCCCCCGACGCCTGGCGTGTGTTCCAGCCGGAGCACAGTGTGCTCGCCCGGGCCCGGGCACTGCCAGGGGCCTAGTGACTGACGCTGCTG
GTCTTTGCAGCTTCGCCGAGGGCTGTGTCCTGCGAGGCGGCCGCACCCAGTGCCTCTGCAAACCTGGTTATGCAGGTGCCTCCTGCGAGCGGTGAGCTGG
GGCTAGGGCAGTGGGGCAGGGCCTGAGTGCTGACCCCAGGATATGCGAGGGTGGGCGCCACGGGCCACTGACGGCCCCTCCCCACCCTGCTCCCAGGTGT
GCRCCCGGATTCTTTGGGAACCCACTGGTGCTGGGCAGCTCCTGCCAGCCATGYGACTGCAGYGGCAAYGGTGACCCCAACTTGCTCTTCAGCGACTGCG
ACCCCCTGACGGGCGCCTGCCGTGGCTGCCTGCGCCACACCACTGGGCCCCGCTGCGAGATCTGTGCCCCCGGCTTCTACGGCAACGCCCTGCTGCCCGG
CAACTGCACCCGTAGGCRTCGGGCTGGGAGGGATGCACCCTGGGGAGGGTTGCGCGGGGAGGAGGGAGGCCTGCTGGGCGTACCCCRTAAGTAGGCTGTG
TGCCTGATGCTGGGGCCCAGCCAGGACAAGTCGGAGCCAGCCTTCTGGGTTCATGGTCAACCYTTTCTCCCCCGCTATGATCCGGTCCTCCCGCCCCAGC
GATCAGGCCCTCCCGCCCCAGCGATCAGGCCCCTTCACCATCAGGCCTCCCCCGGACCATCACACCCTTTCTCCCTACTACAATCAGACCCTCCCCATAC
CAGGATCACATCCCCCCTCCCCTACCCATGATCAGGCCCCCACCTTCACCATCAGACCCTCCCCCCAACCCATGACCAGCGCCCCCCCCACCTCACGATC
ACATCCCCTCTCCCCCCACAATCAGTCCCCCCTCRTGGTTAGACACCACCACCAATGCCCCACCACTGGCAGCGGACACCAGCCGTCAGAGCAGGGCAGG
CCATGGCAGGGAGTCTGCAGGTCCCTCGGGCCCAGGGGAGGCAGCTGGGGAGTGGGGCCAGGCTGGGACACGAGTGGGTAGCCGGGTGGTCCGGGCGGCC
TGGAGGAGACACAGCAGGAGGCAGTGAAGTGAGGGCTTAGGAGGGTGCCTAGGGGCTCCCTGGGGGGGTGAGAGGGCCCAGGGCTGCAGTCACGGACCCC
TTCTGCAGGGTGCGACTGTACCCCATGTGGGACAGAGGCCTGCGACCCCCRCAGCGGGCACTGCCTGTGCAAGGCGGGCGTGACTGGGCGGCGCTGTGAC
CRCTGCCAGGTAGGGCTGTGGGGTAAGCAGGGCTGGGTGGGTGGGGCCTAGGGACTAGAGTTGGGGCCTGGGGAGAATCTGATAGGTGGGGCTGAGGGGC
AGTGTTTGATGGGCAGAGCCTCAGGGGGTGGGGCCAGATGGGCAGGACCCCTGGCTTCCAGGTTGGTCTGGGACAGTCTTGAGGGCTGGGCAGGGCAGTG
ACCAGCCTGTGCCACAGGAGGGACATTTTGGTTTYRATGGCTGCGGGGGCTGCCGCCCGTGTGCTTGTGGACCGGCCGCYGAGGGCTCCGAGTGCCACCC
CCAGAGCGGACAGTGCCACTGCCGACCAGGGACCATGGGACCCCAGTGCCGCGAGTGTGCCCCTGGCTACTGGGGGCTCCCTGAGCAGGGCTGCAGGCGT
GAGTGCTGGCCGGTCACAGGAGGGCGGATGGGGACTTCTGAGTGGGGTACGCTCCAAGGTCCCAGGCCAGCCATGCTCACCCAAGCCCCCCACCACAGGC
TGCCAGTGCCCTGGGGGCCGCTGTGACCCTCACACGGGCCGCTGCAACTGCCCCCCGGGGCTCAGCGGGGAGCGCTGCGACACCTGCAGCCAGCAGCATC
AGGTGCCTGTTCCAGGCGGGCCTGTGGGCCACAGCATCCACTGTGAAGGTGYGTCCTCAACACCCCACTTCCCCACACCTGATGGAGTAGGAATCCAAGT
CCCACACAGCCTGGTGACCCCAGTGTTAACGTCGACCTCCCAGAGTGGTCCCAGCTGCCTTCCATTTCCCGAGAGACCCATGCCTGTCCAACTCCAACCA
CGCTGAGGAGCGCTGCAGCTCCACTGCTGGCTGCACCCCTCTACTGTCCCTAGCCTTCCTGTGTGCCCTGGCCCCACCCCATCTGCTGGCCCTTCCTCCC
CCACTGACCCCACCCCTCCACTGGCCCCACCCCTCCACTGACCCCACCCCTCTGCTGGCCCTGCCTCCCCCACTGACCCCACCCCTCCACTGACCCCACC
CCCATTGGCCCCACCTCTTCCACTGGCTGCACCTCCTCCGCTGGCCCCACCCCTTCACTGACCCCACCTCCACTGGCCCCACCCCTCCACAGGCCCTGCC
TCCACTGGCCCCCTCTTCCTCCACTGGCGCCACCCTTTCACTGACCCTGCCTCCACTGACCCCACCCCTCCACTGACCCCACCCCTCCACTGACCCCACC
CCTCTGCTGGCCCTACCCCTCTGCTGGCCCTACCCCTCCACTGACCCTACCCGTCCTCTGAACCCACCCGTCCTCTGACCCCACCCCTCCACTGACCCCA
CCCCCACTGGCCCCACCTCTTCCACTGGCTGCACCTCCTCCACTGGCCCCACACCTTCACTGGCCCCCTCTTCCTCCACCGGCCCCACCCCTTCACTGAC
CCTGCCTCCACTGGCCCCACCCCTCCACAGGCCCCGCCTCCTCCACTGGCCCCCTCTTCCTCCACTGGCCCCACCCCTTCACTGACCCTGCCTCCACCGG
CCCCGCCCCTTCACTGGCCCCACCTCCGGCCCCAACCCCTTGTGCTGGCCCTACCTTCTCCCTGGGTGACCCCATGCCCTTCACTCCCATCTGACTCCTA
CCTGACCCTATGACTCTGCCAGAACTCTGGGACCTCCCCACAGGTCCTGTGTCCCTAAGCTGACCTCATGACCTCTGGCTGAGCCCTCCCCACCCTAATG
ACCCCAGGGCCCCAGCTGATCATTCTCCCCTGGCCTGACCCAATGACACTGACCTGTGACCCCACATCGCCTGCAGTGTGTGACCACTGTGTGGTCCTGC
TCCTGGATGACCTGGAACGGGCCGGCGCCCTCCTCCCCGCCATTCACGAGCAACTGCGTGGCATCAATGCCAGCTCCATGGCCTGGGCCCGTCTGCACAG
GCTGAACGCCTCCATCGCTGACCTGCAGGTACTGAGCGTCCTGGCCTTCCCTCCCCAACCCGGGCCAGTGCAGGCCTTCACCTTYCGCCTCCCACAGAGC
CAGCTCCGGAGCCCCCTGGGCCCCCRCCATGAGACGGCACAGCAGCTGGAGGTGCTGGAGCAGCAGAGCACAAGCCTCGGGCAGGACGCACGGCGGCTAG
GCGGCCAGGCAGGAGCCCCAAGACCCCCCAGGGCCCCGGGAGGCTTTCACCTGTGTTCCCCGCGGTTCGCTTGTCCTCATTCAGCAGATGTTACTTCATG
CCTCGTACATGTGTCAGTGCAGGGGACAGGAGCTCGAGAGTCTTAGGGGTTGACCAAGTCACTGAATTACTATCTAAACTACCTAATACATTTGTTTACA
GTGTATAATATCACTCAAATGTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACACAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCTCGATCTC
GGCTTACCATAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACACGCCACCACRCCCAGCTAATT
TTGTATTTTTAGTACAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCATCTCAGCCTCCCAAAGTGCTGG
GATTACAGACGTGAGCCACTGTGGCCGGCCTCAAATGTCTTAATGAGTAACTATTTCATTAAATTGACAGGAAATAACAAATGGCAAGTTATAACCAATA
ATTTTAGGTAACTAACAAGTGATAAATAACAAGTCATCAGATAAGAGAGTTAAATAGATAAGGGGCCCCTCTTCCCTGGGACCCTCGGCGCTCCCCCAGA
CCCCAGGCCCTCCCTTGCCACCCCGACCCTCGCCTACCAGCAGCGTGGGCTARTGGGCTCTTCCTCYACAGGCYGTGGGGACCCGAGACCAGGCGAGCCA
ATTGCTGGCCGGCACCGAGGCCACACTGGGCCATGCGAAGACGCTGTTGGCGGCCATCCGGGCTGTGGACCGCACCCTGAGCGGTAGGGGCCAGCCCAGC
CAGGCTCAGGGCTCAGAGCCAGGAGGGCTGCCTGGGGTAGGGGTGGGGGTGCCTGGCCGAGCTTGGCCTGGAAGAACAGGCAGGATCTGTCTTTTAGATG
GGAGACGACGCCTCTGGAGTGAACAGTAGGGCAGGGTCAGGAGGTCGGCGACACAGCCGTGTGGCCAGACAGGTGGCCCCGGGAGACGTCAGACCCCTCG
ACAGCCTCCCCAGGAAATGTGCCGGTTAGATGTTCGCGCTCACAGATATCCCRTAGTGCACACTGAGACATGGGACTCAGGAGAGAYTTGGCTCCCTGAG
CCTGCCTAACAGGACCTGCCAGCCCAGCCTGGGGGTCGGCAGGGGGTGCCATGTCAGAGAGAGCTGGCCAGGGAGCAGGGTGGGCCAGGCGGAGAGGGGC
AGGACGAGAAGGCTCAGAAGCTGGCTGAGCAGACTGGTGTCAGGRTGTTGGAGGCACTGCAGGAGGTGAGGGCCGGGCAGGTGAGGCAGCTGTGGCCTTT
CGCCAGGTGCTCTAGGGGCCACCCAGGTGCGCTCAGGTTCCGGGCCCCTGGCCTGCCAAGGATGGCAGGGCTGGGGTCTTGGGCTTGGAAGCCAGCAGGC
AGAGGTGCACTAGTACGGGCGGCCCCAGGCTCTGACGAACCCCTGCCCCACAGAGCTCATGTCCCAGAYGGGCCACCTGGGGCTGGCCAATGCCTCGGCT
CCATCAGGTGAGCAGCTGCTCCGGACACTGGCCGAGGTGGAGCGGCTGCTCTGGGAGATGCGGGCCCGGGACCTGGGGGCCCCGCAGGCAGCAGCTGAGG
CTGAGTTGGCTGCAGCACAGAGATGTGAGTGGTGTTGTCCCTGGCAGGCGGGGTGGGGAGAGGCAGGGACCTGGGAGCTCCAAGGGGGAGGTCAGCATGG
AGTGGCATCAGGTGGGCATCACGGGGCAGATGGATCTGGCGGGCACCAAGTGGAGACCAGGGGTCATGAAGGGGCCTGGCTTCCAGAGTGACCACCCTCA
CCCTGGTCTCGGCTAGTGCTGGCCCGGGTGCAGGAGCAGCTGAGCAGCCTCTGGGAGGAGAACCAGGCACTGGCCACACAAACCCGCGACCGGCTGGCCC
AGCACGAGGCCGGCCTCATGGACCTGCGAGAGGCTTTGAACCGGGCAGTGGACGCCACACGGGAGGCCCAGGAGCTCAACAGCCGCAACCAGGAGCGCCT
GGAGGAAGCCCTGGTGAGGACCCCGGACTTGTTCTTCCTCCTGCTCCTCTTCCCGCCTCCTCCCTGCAATCCCTCTCCTCTCCGGCTCCTCCCCTCCCCT
CCCCTCGTCCTCCCCTCCCTCCGTCCTCCCCTCCCTCGTCCTCCCCCCCTCCTCCTCTTCTTCCCCCCCTCCTCCTCTTCCTCCCCTCCCCTCGTACTCC
CCTCCCCCTCCTCCTCTTCCTCCTCCCCCTCTCCCCTTCTCCTCTCTCCTCCCTCTTCTCCTGTCCTCTTCTCCTGTCCTCTCCCTCCCCACTCCCCATC
TGCCCATCATCCCCCTCCCCCTCCTTGTCCCTCCCCAATCCTCATCCCTTTCCCCACCTCCTCTATTCTCTCCTTCCCCTTCTCCTCCTCTCATTTCCCC
ATCTCTCCTCACCCCCTCCCATCCTTTCCTCCTCTTCTCCCCCTCCCTGTCCCCTCCCCCTTTTGCCCCCTTCCGCCTTCCTTTCTCTTCTTCCCCACTT
TTCTCTCTACCCCTCCATCCTCCTCCTTCCCTCATACTCACACGTTCTAACCCTCCCCTCCTCCCCCCTCCTCACCCCCCATACTCCCCCTCTTTTCTTC
TCCCTTCCCTGCCCTGCTGTCCACCCCATCACATCCTTTATTCTTTTCTTACCCCTCATTGTCCCCAACTCCCCTGCATTGCCTTCAGCAAAGGAAGCAG
GAGCTGTCCCGGGACAATGCCACCCTGCAGGCCACTCTGCATGCGGCTAGGGACACCCTGGCCAGCGTCTTCAGATTGCTGCACAGCCTGGACCAGGCTA
AGGAGGTGAGTGCAGCCCCTGGCCCCTGTCRCCACCCCATCCACGGCCAACTCCCTCCCAGGCCCGTGGGCAGCTTTGTGTGCACACTTGCGTGCAGAGC
CCGCCCTCAGGGTCGTGGATCAGGTGGCTGTGAGCAGGATGAGGGGCTAAGTCCACTCAAATTCCAGGAGCTGGAGCRCCTCGCCGCCAGCCTGGAYGGG
GCTCGGACCCCACTGCTGCAGAGGATGCAGACCTTCTCCCCGGCGGGCAGCAAGCTGCGTCTAGTGGAGGCCRCCGAGGCCCACGCACAGCAGCTGGGCC
AGCTGGCACTCAATCTGTCCAGGTGGGTGGCCAGGAGAGGAGGGGCCCTGGGCCCACCCTGRGGATGCAGACAGGGCCTTGGGAGGGCCAGCTGGTCTGG
GAAGGCTCCTAGGGGCTGAGGCCGTTGTCCTCAAAGAAGCCAGGCCTTCCTCAGCTCCACGGCAAGCTGGGGCCCAGAGTGACAGGAGCAGTACACCCAG
CAGGCGACAGGCACGGGCAAAGACCTGGAGGCGGGACTTGGCGGGCAGGCRCGGGCACGGCTGGTTGTGAGCGCAGGAGGCTGGAGAGCCAGGCCGAGGG
CGTCTGYGCTTACCCACTCCTTCGACCCTCCCTTCCGCTGCAGCATCATCCTGGACGTCAACCAGGACCGCCTCACCCAGAGGGCCATCGAGGCCTCCAA
CGCCTACAGCCGCATCCTGCAGGCCGTGCAGGCTGCCGAGGATGCTGCTGGCCAGGCCCTGCAGCAGGCGGACCACACGTGGGCGGTGAGGCCCCTCACT
TCCCCTCAGCCCCAGCAGGAGCGCCCCCACTGCCTGCACCTCCCGCAGCCCCGGCCTGCGTGTCTGAGCCACGGTCTGCCCTGGCATCCACAGACGGTGG
TGCGGCAGGGCCTGGTGGACCGAGCCCAGCAGCTCCTGGCCAACAGCACTGCACTAGAAGAGGCCATGCTCCAGGAACAGCAGAGGCTGGGCCTTGGTGA
GTGCTGGGCTCCGATGGGGGCCCTTAGGCCTGCTGGGCATCTGAGCTCCCAGGGACCCTCAGCCCCCAGCCACATGCACACGTGGGGTTTGTGGGTCACC
GCAGCATGGTTTGGGGTGGGAGAGCTTTGGAGATGGCTCCCCAGCTGCTTGTGTGTCAGCCCCGGGGAGCCCTGCAGGGGAGTCCAGGGAGGAGCAGCCT
CCTGCGAGGCACTGGCTGCCACTGAGGCACCAGCTGAGCCACAGGGCACAGGGCAAGAGATACGTGGCCTCTGCTCTGCTGACCCGAGGGCTACACGCGT
GCCAAGCTGCGCAATGAGAAAGGTGTGAGCTGCTAGGACCAGAGGGCTGTCTCTTCTGAGCCTCTATTGTTTCATCTGTACAATGGGGACAGCTATGCCT
GCAGTGGGACCAGAGGCCTTCAGGGAACAGAGGCYACGCTGAGACTCAACACCTCCCCACAGGCTAAGGGACTCCATGTCTGAGTGTCCCTGTCCATCTG
TCTGCTGTGTGTCAGCCTTGGTCCTCCTGGGGTCAGAAGGGTGGAGGTGGGCTGCAATTGTATACTGGGGGTGAAGCTGCCTGGGAGCTGAAGCTGCCTC
CCCCGCAGTGTGGGCTGCCCTCCAGGGTGCCAGGACCCAGCTCCGAGATGTCCGGGCCAAGAAGGACCAGCTGGAGGCGCACATCCAGGCGGCGCAGGCC
ATGCTTGCCATGGACACAGGTATGCGGAGCCTGGGCCCGGCTCTCGCAGCCGGCCGACCATGAGGCTCTGTGACAGTGGCGCTGGCCACATGTGGTTGGT
GAGCACTCACTGTGCTGTGGAAGAGACCCCCACAGTGGGCAGCTGGGGCCAGACACAGAAAGCCTACCAGGGAGGTGCCAGGGCTGCAGATAGCACAGAC
AGCCCCAGCCGTCGRGAGCCTGGCAAGCTTGGAAGTGCTTTGGGTAGAAATGGAGGTATAGGTGGGAGGGCTGTAGGCCTTGGGGGGGATTGGGGCACAC
CCTGCAGGAAGGGCACCCAGGAGGGCACAGTGGTCAGCGTGGCTGGAACCAAGGGGCTGGCAAGACCTTGGGCGGTGAGGACCAGGGCTCCCACCCTGAG
AGGCTTGGAGCAGAGGACGATGTGCCTCACCCAGTTTCTGAGGGACCCCTGTGGCTGCGGACTGTTCCCAGCAAGCCCAGGAGAGATGGTGGGGGCCAGG
TGGTGGGAGGTGACATGGGGCACATGTCCAGGGACCAGCTGTGGCCTGAGAGGCTGGGTGCCTGTCCTGGCATGGAGGGGGCGTCTGGTGGAGGCATTTA
GGATGGGTTTGGATTGCACTGAGCAGCGGGGTGTGAGGGTCTCACACRATCCATAGGGGGTTGGATGTCCCTGTTGCTGGCCCAACAGAAAGACTTGGGG
ACATGAAGCCAGGATGGTCCCCGCTGGCCCCTGCTGAGCCTGCCCTCTGCCCACCACAGACGAGACAAGCAAGAAGATCGCACATGCCAAGGCTGTGGCT
GCTGAAGCCCAGGACACCGCCACCCGTGTGCAGTCCCAGCTGCAGGCCATGCAGGAGAATGTGGAGCGGTGGCAGGGCCAGTACGAGGGCCTGCGGGGCC
AGGACCTGGGCCAGGCAGTGCTTGACGCAGGCCACTCAGGTGCGCCCATGGCCCTCGCGGTGCCCCTGATGGAGGCGGGCACGGTGGGGGGCAAAGGTCT
CAGGTCTCCCTCTCTGCAGTGTCCACCCTGGAGAAGACGCTGCCCCAGCTGCTGGCCAAGCTGAGCATCCTGGAGAACCGTGGGGTGCACAACGCCAGCC
TGGCCCTGTCCGCCAGCATTGGCCGCGTGCGAGAGCTCATTGCCCAGGCCCGGGGGGCTGCCAGTAAGGTGGGTGAGAGTCCCAGGGGAAGGTGGACATC
AGGGAGGGTGGTGGTGGACGCTGATGGACCRTGCCCCGCAGGTCAAGGTGCCCATGAAGTTCAACGGGCGCTCAGGGGTGCAGCTGCGCACCCCACGGGA
TCTTGCCGACCTTGCTGCCTACACTGCCCTCAAGTTCTACCTGCAGGGCCCAGAGCCTGAGCCTGGGCAGGGTACCGAGGATCGCTTTGTGATGTACATG
GGCAGCCGCCAGGTACCAGGCTGGCTGGGTGGATGCGGCCCGAGCTCAGGCTCTGTTTGGAAATGAGCGGTGCCTGGTCCCTGGTCCCCGGTCCCCATCC
CGACTGTGTGTCTGTCACTGCCGCAGGCCACTGGGGACTACATGGGTGTGTCTCTGCGTGACAAGAAGGTGCACTGGGTGTATCAGCTGGGTGAGGCGGG
CCCTGCAGTCCTAAGCATCGATGAGGACATTGGGGAGCAGTTCGCAGCTGTCAGCCTGGACAGGTGGGAGGCCCAGGAGAGAGGCCGGATGCCTCCAACT
GCAGGGCCCTTGCCCGTTCGCCATCTCTCCCCTCTCCGTGTGCACCCACCACCCTTCACCTCTCCATGCCCACTCGCCACCCCTCGCCTCTCCGTGCCCA
CTCGCCACCCCTCGTCTCTGTGCCCACTCGCCACCCCTCGTCTCTGTGCCCACTCGCCACCCGTCTCTGTGCCCACTCGCCACCCCTCGTCTCTGTGCCC
ACCCGCCACCCCTCGTCTGTGCCCACTCGCCATCCCTCGTCTCTCCGTGCCCACTCGCCACCCCTCGTCTCTGTGCCCACTCGCCACCCCTCGTCTCTGT
GCCCACTCGCCACCCGTCTCTCCRTGCCCACTCGCCACCCCTCGTCTCTCCGTGCCCACTCGCCACCCCTCATCTCTCCGTGCCCACTCGCCACCCCTCA
TCTCTCTGTGCCCACTCGCCACCCCTCATCTCTCCGTGCCCACTCGCCACCCCTCGCCTCTGCCCTCAGGACTCTCCAGTTTGGCCACATGTCCGTCACA
GTGGAGAGACAGATGATCCAGGAAACCAAGGGTGACACGGTGGCCCCTGGGGCAGAGGGGCTGCTCAACCTGCGGCCAGACGACTTCGTCTTCTACGTCG
GGGGGTACCCCAGTACCTTCACGGTGAGCCCGCCCGGCCTGGGGCAGCCTGGGAGGGGCTCCGCAGCCCCGAGTCGCTTGTGTCCTGGAGAGCCGCGGGT
TCTTTTGGTATCTTGCCTCAGTCCGTCCTGCTGTAGTCTGAAGTCCCCTTGGTCCATCCTGGAGGGGAGGCGCCTCAGGCCAGGTGCCCTGACCCAGCCC
TGTGCCCACAGCCCCCTCCCCTGCTTCGCTTCCCCGGCTACCGGGGCTGCATCGAGATGGACACGCTGAATGAGGAGGTGGTCAGCCTCTACAACTTCGA
GAGGACCTTCCAGCTGGACACGGCTGTGGACAGGCCTTGTGCCCGGTGCGTGTGGCCTGCCCTCCCCGTCTCCACCCACCCCACCCCACCCTCCGCTGAC
CCCAGAATCTCCGACCTGCAGCTCCAAGTCGACCGGGGACCCGTGGCTCACGGACGGCTCCTACCTGGACGGCACCGGCTTCGCCCGCATCAGCTTCGAC
AGTCAGATCAGCACCACCAAGCGCTTCGAGCAGGAGCTGCGGCTCGTGTCCTACAGCGGGGTGCTCTTCTTCCTGAAGCAGCAGGTGCGCCAGGCACACC
CRTCCTGCCATCCCCACTTGCACTGRCCCTGCCCCACACTAACCCTGCCCTGTTTCTGCAGAGCCAGTTCCTGTGYTTGGCCGTGCAAGAAGGCAGCCTC
GTGCTGTTGTATGACTTTGGGGCTGGCCTGAAAAAGGCCGTCCCACTGCAGCCCCCACCGCCCCTGACCTCGGCCAGCAAGGCGGTAGGGCCAGGGTGGG
GACCAGGGTGGCAGGGAGAGGAGATGGAACGATGGGGGCGGGGCAGGCCGCAGGGACACAGCTGGCCCTGGAGCCCCCACTGGTCCTGTAGATCCAGGTG
TTCCTGCTGGGGGGCAGCCGCAAGCGTGTGCTGGTGCGTGTGGAGCGGGCCACGGTGTACAGCGTGGAGCAGGACAATGATCTGGAGCTGGCCGACGCCT
ACTACCTGGGGGGCGTGCCGCCCGACCAGCTGCCCCCGAGGTAAGCACTGTGYGCAGCTGGGGCTCCGAGGCCAGGCTGTTGGGGCGGTAGGCTGGGCTT
GGAGGTGGCGCCCTGACCCGCATCCCCGCTTCCCCACAGCCTGCGAYGGCTCTTCCCCACCGGAGGCTCASTCCGTGGCTGCGTCAAAGGCATCAAGGCC
CTGGGCAAGTATGTGGACCTCAAGCGGCTGAACACGACAGGCGTGAGCGCCGGCTGCACYGCCGACCTGCTGGTGAGCAGCCCTCCCCGGGCTGGGGGTG
GCATCTGTGGACATGCAGGGGCACCMGCGGGCACTCAGGGATGGCCTCCCCGCAGGTGGGGCGCGCCATGACTTTCCATGGCCACGGCTTCCTTCGCCTG
GCGCTCTCGAACGTGGCACCGCTCACTGGCAACGTCTACTCYGGCTTCGGCTTCCACAGCGCCCAGGACAGTGCCCTGCTCTACTACCGGGCGTCCCCGG
TGAGACCTCACACCCGTGCCCATTCCCCACCCCGCGGTGGCCGTCGGAGCAGTTGGGACTGGGGTGTCTGGAATGAGTCTGGGTCCCCAGGCCGGCCGGC
TGACCTGGCTGCCGTCCCCAGGATGGGCTATGCCAGGTGTCCCTGCAGCAGGGCCGTGTGAGCCTACAGCTCCTGAGGACTGAAGTGAAAACTCAAGCGG
GCTTCGCCGATGGTGCCCCCCATTACGTCGCCTTCTACAGYAATGCCACGGGGTGAGCCTGGCCGCTGGGCCCTCATCGTGAAGGTCTGGAGGGACGCCC
GCCTGCACTTGCCTGGACCTCTGTCTCCTCTGAGGTGGGGGTGGGCAGGGTGGGGAAAAACCGAGCCTCCGGCCTCCCGCCCCCCAGAGTCTGGCTGTAT
GTCGATGACCAGCTCCAGCAGATGAAGCCCCACCGGGGACCACCCCCCGAGCTCCAGCCGCAGCCTGAGGGGCCCCCGAGGCTCCTCCTGGGAGGCCTGC
CTGAGTCTGGCACCATTTACAACTTCAGTGGCTGCATCAGCAACGTCTTCGTGCAGCGGTGAGCCTGGTGGGCGCTGGGGGACAAGGTCCCAGCTGGCCT
TCCGCAGCTGCTGACCRCCTGCCYGCCCTGCACAGGCTCCTGGGCCCACAGCGCGTATTTGATCTGCAGCAGAACCTGGGCAGCGTCAATGTGAGCACGG
GCTGTGCACCCGCCCTGCAAGCCCAGACCCCGGGCCTGGGGCCTAGAGGACTGCAGGCCACCGCCCRGAAGGTGGGCACCCCAGGGGTGAGCAGGCAGAG
CTGGGGTGGCTGGAAGGGTGGCCCCTGTGYGGGCGGCCCCTGCATTCACCATCCACGCCCCCAGGCCTCCCGCCGCAGCCGTCAGCCCGCCCGGCATCCT
GCCTGCATGCTGCCCCCACACCTSAGGACCACCCGAGACTCCTACCAGTTTGGGGGTTCCCTGTCCAGTCACCTGGAGTTTGTGGGCATCCTGGCCCGAC
ATAGGAACTGGTAAGGCCAGGCCCGGCTGGGGTGGGCTGAGAGGGGCCGCGCAGGCTGACGCCAGCTCCGCTTCCAGGCCCAGTCTCTCCATGCACGTCC
TCCCGCGAAGCTCCCGAGGCCTCCTCCTCTTCACTGCCCGTCTGAGGCCCGGCAGCCCCTCCCTGGCGCTCTTCCTGAGCAATGGCCACTTCGTTGCACA
GATGGAAGGCCTCGGGACTCGGCTCCGCGCCCAGAGCCGCCAGCGCTCCCGGCCTGGCCGCTGGCACAAGGTGAGGGCCGAGAAGAAGGAAGGTGGTGGG
CAGGGCCTGGCAGCCCTACCCTGACCCATCTCCTGCCCCCAGGTCTCCGTGCGCTGGGAGAAGAACCGGATCCTGCTGGTGACGGACGGGGCCCGGGCCT
GGAGCCAGGAGGGGCCGCACCGGCAGCACCAGGGGGCAGAGCACCCCCAGCCCCACACCCTCTTTGTGGGCGGCCTCCCGGCCAGCAGCCACAGCTCCAA
ACTTCCGGTGAGAACCATCTTGCCCCAGCCCCCACTCCCCACCCACTGTTCCCTTTCAGCTGCCCTGGGCCCTGATCCCTGCCCGGTCTGCTCCTATAGG
TGACCGTCGGGTTCAGCGGCTGTGTGAAGAGACTGAGGCTGCACGGGAGGCCCCTGGGGGCCCCCACACGGATGGCAGGGGTCACACCCTGCATCTTGGG
CCCCCTGGAGGCGGGCCTGTTCTTCCCAGGCAGCGGGGGAGTTATCACTTTAGGTCTGTGGGTGCTGGCATCCCAGGCCYCAGCAGGGCAGGGCAGGGGK
CTCCAGGAGGTTCTGGGGAGGGGCCCCCCCTTTCTTCTCCATCACAACCCCTCCCCGCAGACCTCCCAGGAGCTACACTGCCTGATGTGGGCCTGGAACT
GGAGGTGCGGCCCCTGGCAGTCACCGGACTGATCTTCCACTTGGGCCAGGCCCGGACGCCCCCCTACTTGCAGTTGCAGGTGACCGAGAAGCAAGTAAGC
CTGGCAGAGGTGGCGTGCCAGGGCAGGGTTTGCCTCCCCATTCTGGTGACCTCGGGGGCATAGCCTGACCCTCCCTTCCTACCCCKCCAGGTCCTGCTGC
GGGCGGATGACGGAGCAGGGGAGTTCTCCACGTCAGTGACCCGCCCCTCAGTGCTGTGTGATGGCCAGTGGCACCGGCTAGCGGGTGAGGCCCCTCCTGT
GGCCAGGGCACTCTGCCACCCCCACCCTTCTGCAGAGCGGGAGCCAGGCGGGACTCTGGGTGGGGTGGCTTCTTTTGGGGCTGGAGAGAGGCTGGGCTGA
GGACCACCTGGCCTCAGRAGTCCCCCTTTCTCCCAGTGATGAAAAGCGGGAATGTGCTCCGGCTGGAGGTGGACGCGCAGAGCAACCACACCGTGGGCCC
CTTGCTGGCGGCTGCAGCTGGTGCCCCAGCCCCTCTGTACCTCGGGGGCCTGCCTGGTGAGTGCGGCCTTGATCAAGGGTGGGGGAGCTGCCCCTCAGGA
CTAGGTGCTGCGTAACCTACCACCCTCCCCCCACCCCTCCACCCCCTGCCCCCTCCCACCCTCCTCCCACCCCCCTACCACCCTCCTATGATGTGGAATG
AGACAGGGGCTGGGTGGGGCACTGACGTTTGGGAAGGGCCTGTGGGTCTCTAGCTGCCCACCAACCAGCCTTCTTCCATCTTCCCTGTGCCCCCAGAGCC
CATGGCCGTGCAGCCCTGGCCCCCCGCCTACTGCGGCTGCATGAGGAGGCTGGCGGTGAACCGGTCCCCCGTCGCCATGACTCGCTCTGTGGAGGTCCAC
GGGGCAGTGGGGGCCAGTGGCTGCCCAGCCGCCTAGGACACAGCCAACCCCGGCCCCTGGTCAGGCCCCTGCAGCTGCCTCACACCGCYCCTTGTGCTCG
CCTCATAGGTGTCTATTTGGACTCTAAGCTCTACGGGTGACAGATCTTGTTTCTGAAGATGGTTTAAGTTATAGCTTCTTAAACGAAAGAATAAAATACT
GCAAAATGTTTTTATATTTGGCCCTTCCACCCATTTTTAATTGTGAGAGATTTGTCACCAATCATCACTGGTTCCTCCTTAAAAATTAAAAAGTAACTTC
TGTGTAACCGAATGAATGTTGACTTAAATACGGAGADAGTCTCAAGACAGRTCTGGAACCGGCCTGGACAGAGGCACCAAACTCTTCCTGGGGTGACCGT
TTTCCGTTGTTAGGTCAAATAACTAACTGTCTCTGGGACCCTACAGCAGCTCCCCACGCTAGCACCTGTCCAGCCGAAACTCCCTTTGGGCAAAGAAACT
AAGCRTTGGCAGGTAAAAGAAAAGACTTTATTAATAATCAGTGGGTGGGAGGTGAGGGTGTGCAACGCACTGCAAGCGCCCAGTTSCTCGGAGGACGGCG
CGTGGCTCAGTCCAGGCTCATGTCCTCCTCTTCGTCCTTCKTGTCCTTCGTGTCGCCCTCTTTCTGCTCGGGCTTGGCGTTGTTCTGCATGGCTTTGGCA
AACGCTTCCACATCTAGAACACGTTAAAGACACAAGGTGGTGTCTAACCCTTGCCCAGAACTGGGGATCAAAGCGATGGGATCAAGGGCAGAAGGGCTGT
GACCTTTACCCCCTCAGCCCCACTTCTGCAGATCCAGGGGGACAGGAATGGACCCTGCCCCTGGCTCTGGCCTGGAGGTGCAGGCGCAGCCACTTACCGC
CCTTGTTGGCGGCCTCCACAGCCTCTGCAGGCAGACCGAACTGGCACATGAGGGGGCCCAGCTGCCCCGAGGCCAAGGCTGCGCTGAACATGCCCAGGGC
CTGCAAGAAGAGCCAGGCGAGGGCTGAGCTCCAACCCGGGCTGCACCCYAGAGCCACACTGCTCAGCTGCCAGCTCTGCGGGTCAGGCACATGAAGCACT
GGCCATGGTGAAGGTGGGGCAGGGCCTCCTCCTCCCCCCTGCCCACTCCCTGAGCACACAGTGGAGGACACCCTGGGCCCGGCCTCTACCTGCTGGAACT
GGGGCGAGGTCAGGGTATTCTGGATCTCATCCGCGGTCTGCGGCAGCGACTCCCCAGATGGCAAGTAGGGAAGCAGGCGCTCCTGGACATCCGCGTTGGC
GAGGATGGGAGCCATTATCTCCGGCGTCAGCACACTGGCCAGGTCCACTGGGGCACAAGAACACGGCCATCAGCTCGATGACAGCCTAAGTGCCCACATG
GAAGGCATGCAAGCAGGGACTCAGCCCATGGCCCCAGCACCCCAGGCGCGCACACTAGGCAGATGCCTTGGAAGGTGAGCGTGCGAGGGTCAGCAGGCCC
CATGCCCCCCACCCAGCTCCAGGCGACAGCACACGYTACCTTGCTGGCCGCCTGCTGGCCCGGCTGGTACGTTCATCGTGGCCAGGATGCTCTGGAGGTC
GCTCAGCTGGATGGGCTGGGTCGGKCTGGCTGCTGTGCTGGCTCCATTCCCGGAACTGGGCGCGGGGCTCGGGCTAGTTGCTGAGGCAGCTGCTGGAGCA
GAAGGGGCTGGGGTGGCACGGGTGGAAGAGGTGGTGGATGACGGGGTGACCGCTGCMGACTGGCTCCGGGAGCTGCGAAGAGAGAGGGCACCGCTGGAGC
GGACRCGCCCCACACGGCAGGGCCTACTCGCAGGGTCCAGGGTGCTGGGCCAGGATTCCCCACTGCCCCTCCCTTAACACCGTGGCACCTGCGTGGCAGG
AGCGATGAGGCTCACCTGGAGGAGGAGCTGCTCCCTGGAGGCCCACTGCTCCCCAGTAAGCTGGCCAGGCCAGGTCCAGTCAGGGCCCCCAGCCCACCTG
CGAGGGGCAAGGAAATGCGAGCTCAGGATGCCCTCTAGCCCACCAGAAAGAGCCTGGCCCCTCCCCAGGCCAGAGGAGCAGGAATTCCCAACACCAAAGC
CAGGAAGAAGCGGGGCGGTGGGGACCCACAGGCCTGGAGGAGCGGCATGGGGCGGGTGGACACTTGCGGCTGTGTTCTGGAAGCAAGGTCATTTCTGTTC
CATCCCATTACACAATTCATGTGCTTAGATTAGAAGATTCAGTCCAGATCCCACCCAAAGGGACAAGCATTTCTGAAGGGCCAAGCACACGGGTCTGCAC
TCCATGAGCTGGCAGCAGGCAGGCAGCCATGTGGGGCCAGGGGACCCAGGGCGCAGGAACCCCAGCTCCCTCCAGTCCTCCAGCCCCACCGCTCGGCCAG
CCACCCTCCTCTGAAGTACCCAGCTGGGGTCCTCACCAGGGGCCCAGAAGCCCTCGCCTACCCAGCTCTAGCCACAGGCAAACAAGCGCATTCCCAAAGG
GGAACCAGCTTGCGGACACACAGGCTCCCCGACACTACGCAGACAGAGCCAGCAGAAGTTTAAAGGAAACAGAGACCGGGCCTCAAAGCATTCCCAGCAG
AAGCTGCCCGAGAGCCCGGGTGGCGCACGTTACCCAGTCCTCCRAGGCCGGCTGGTCCGATGAGCTGCATGAGCTGGCTGTGGCTCATGTTTCCCAGCAG
GCTCTGCAGGCCACCCTCACCTGGAAAACACTGCAGCTCAGGCGGGCCTGCCCCAGCCAGATCCACGCGGGCCCCACCGCRCTGCCTGCGCCTCTGCTGA
GCACCGCACTCGGCTGCCCCTGAACCCTACAGGGGGCACCACTTGAAGTGAGGCGACGGTGGGATGCAGACCCGTCCTACCCCGTGAAGGTGGGAGTGGG
GAGTGACCCAGGGAGCTCACAGGGTCTCTAACTTTTAGAATCTTCTATTTCCACTTCCAAACAACCTGTGCTGAGGGGGCGAGTCATCCACAGTAGACTC
TGGCCTCCCAGGAAACCCTGAGCTCACGTGACACATGTGACAGTTACCGCCTAGCGCAGAGAGTTCGTGGCCGCTGCTTCCGCTGGCCCCCAGYGCCCCA
GGCATCGGGGGGTTGTTCAGATACTCGTTGACTTTCCGGCAATGCTCCTCATCCTGGTCTGTCTTGGGTTCCTGCAAGAGGAAGGGCATGTAAGGGCAGG
AGCTGGCGCCAGCTCACCCAGGGCCACCACAGCCATCCTCTGACCTGGCTTCCAGGTGAGGGACCTGAGACGCAGAGGCGCGTGTGCCTGGCCACACAAT
GCTGAGGAGACAGGACCCGGCCCAGCAGGTGAGGGGACGGCAGTGGCGCCTCCTGAGCACGATGCTCTGCGCCCTGTCCCCATCCGCCGCAATCCCGGGT
GTGCCCTGTCCCCCTCCGCCCATTTCACAAATGGGGAGCCTAGAGCTCCGAAGGCACTTAGCTGCTGCCAGACCAAGCCCTCTCACCCTCCTGCCCTCTG
GGGTGCGGTTCTTTACACACCCGTCTCCTTCCTTCAACCAGTGGAAGGCAGCGAACTGGCCCGCTCAGCACACCGCGGCCCAGGGCCACGGCAGGCGCTC
ACAATCGAGCACACGCGTGTGCACACACATGTGCACAGATCAGTGTCAGAAGCATCGACCTGCGAGCTCACAGAGCTGGGAGCAGAGCACCCACGCACAC
CCCGAATGGCTATGGAAGCTGCAGGGCGCCAGGGACACTGGGAGTCCCTGCTCTCATGGCAAAGCAGGGACGGGGGACTTAAAAGCCACCAACAGGAAAA
TCGGGGAAAAAAGGGAGATGGTGGTAACAGTTGGACACTATTTCTTGGCAAAACCGTGGAAAAACACGTTCTACACCAGCAGGTGGCAAATTGTGGCCGC
CATCTGTGTTTGCAAATAAAGTTTAACTGGAGTTTGGCTATGCCTGTTCATTTTCTCAGGCCGCTGCACACTACTTGCACAGGTGACCAGCAACACAGAC
CATGTGCTCCACAGAGACCTCAGCCAGGGCCACCCCTGCTCTTGAAAGTGCCAAGGGGGGTGGGGTGGGGACAGCAGCTCCACCTCTGGCAGAGAGCATG
GCCTTCTCTCTCCACACTGCAAACGCATGCACACGCTTCCTGACCACAGGCCCGCCACCAGTTTTCACCTACAGATGATACTGGCTTATGGAAAATGATC
TGTGTACCGGGAAATTCTTTGCAACACTGCCTGTAACAGCACAAAAAACGGCAACAAGCTCAATGGTCACTGACAGATGGCAGAATGAGCAGCGGCCTCT
AGACCCAAAAGACGCTCTGCAGCTGTGGGTAAGAGAAACCCTGGGCACTGACACCCCTGGCCTCCAGGACACACTGCCAGGGAAGGGGCAGGACTGTGGA
AAGTGTGAGCAGGATGCTTCGTTTCTGTGAGCACCAGCAGGGAAGCCACACAGGGGCCTCTGCCTCTGCTGTGGGGGCCTCAGTGACCCACGGCAAGGGG
CAGAGAGAGGGCACTGGGCATCGTTAGAACCAGGGCCAGCATGTCTGTCTGCCTGGAAATTTCACACCGCAATCGGTTGCCCGCAGCCCAGCCTGGAGCC
TCCGTACTCTGGGAGAGGACCTCGGCCCCAGGTAGCATGCACCGCAGCCCTGAGGTGGCATCTCAGGCCGTGTGGCCGGGTGTGGCCGGCGCCTGCTGGT
TTATAAAAGCCAATTGCACCACACTGTAAGCAAGTTCCTAACCGAATCGCAGGGCAACAAAAAGGCACAACCCCAAGGCCTGCCCCATACCTGCATCCAG
AAGAAAAGCCGCTTGGACCCTGCCTTGAACTTCAGCACGTAGACCCTCCCGCTGGGGCACTGCGGCACCCGCTTGAACTCACAGTCGTCAGGGAAGATGA
TCAAGTCCTGGCAAGCCAGGGGAAGAGAGAGTCAGTGGCGCAGATGGCATCACTGTGCCCAGTCTCAGGAGAGCGTACTGAGCCCTGGGTCTAACCGGGT
GGGGTGCGCAAGGGGCAGCTAAGCCGCCAGACCCCTCGCTGGCAGGGTCTCCACAAGGCAGAGAAGCCAGGGTCAGAGACAGCCCATGAAAGGCAAGGCC
GGGGGAGAGAGCAGGGAAAGGGGCCTTTCAGATGGCAACGGGGTTTCTGAGACGTGCTGGAAACAACATTCCCAGAGTAGTTAAAAAGTCAACGCTGAAC
TGCTCTCAAATGTAACAAAGAACAACTAAGAGTTTGAAAAACAAAGAAGACTGAGTGAAGCCGCCAGGCACAGAGCTCCAGGCTCTCCAGGGCCACACCT
CCAACCCCAGGCACCTCACACGGACAGTTCAAGGCCAGGCACAGAGCTCCGGGCTCTCCAGGGCCACACCTCCAACCCAGGCACCTCACACGGACAGTTC
AAGATACACAGTGGCCGAGATGCCCCTGTCACCGCGGAAACCAGGACGACCCATCAGCAGGGCAGTCGATGACGGCCCCACGAGCGGTCCCCAGATGCGG
CCAAGCCCCCACCGCGAACTCCAAAGCGAGGACTCCGAGGGCCCGAGAAGTCGCCTGTCCTGCTGCTGCGGCTCAGGGACACTCACGTCTTCCACGTTCC
CGGACGTCCTGTCCTTCCAGCAGAAGTGAATAAGCGAGTCGTCCGTCTGCTGAATGTACACCAGCCCTTTCCGCTTATCCGGAGTCACGGTGGTCCCCTT
CAGGGACATCTTTCCCGCCCGAAACTCCACCAAGTACTTGTTGGAGGCGCCCCGAGAGCCTGGCACCAGGCTTGGAAAGAGCGCGCCTGAGGTCGTCATC
CTGAAAGCGCGGAGAGGACGCTGAGACGCGGCGGTCACTGTCGCCTGCGGTCCGGCAAGCTCCCGCCCCCTGGGGTGTTTGCGAGCAGGGGGCCTGCGCC
CAGAGCTGCCTAAGGCAGACTCAGACACGCCGGGCTGCCTTTCCGCGTTTGCCCCGCTCACGACGATCGCACCGCCCGCACTCGGCGCTGGGCCGGGGCA
GCCCCGCCAAGCCTAGTGGGGCCGGCCCTAGGCTTGACGCCGTCTCCGCGGGGCACCAGCCTCGACGCGCCACCCCGGCGACCCGCTCCGCGGGGCAGAC
CCGCCCGAGCTCCCGCCGAGCCCCACGTTCAGAGCCGCAGGCGGAACCGGGGCGGCGCCCGAGACCCCAGAACCCCCGCCCGGCCCGGCCCCCGCAGGCC
CCACCCGCCGCGCCGGCCACCTTCTCGTCTTGGCTGCCCCCGCCCCATCCTTGGTCCAGCAGCCCCTGCCCCCGCCTCCGGTCGCCCCCGGCCGCCCCAG
GCCCGGCGACTCCCGCACCTGCCTCGCGCCCACACTCGTTCGAGAGGCGCCGTCCGGGCTCGCTCTTCCTCCTCGGCGCCTGCCGGGCCCCGCCGGAAAC
CCGCGTTCGGCCCGCCCCGCCTGCCGCTCTCGCCGCCGATTGAGCCCCGTAAGCCGCGCAGCCGGCTCTAACCTGCCAACGATTGGCGAGGGCGACCGTC
CATCGCACTCG


SNP Information

Context             (SEQ ID NO:53936):
TCCACTCTGGGGCCGGTCCCCACAGGCCTCCGGAACAGCTTAATTCTGTCTCTCTGGAGACCCTAATCCAGAAGGCTGTGGGCAAGATCTGGAGGTGGGG
S
GGGGTCTGGCCGCCTGGATCCCGGCCCTGACGGTCCTTCTGTCTGCAGCTCCCCCTTCCGCCCCCTGGCTTGCTGCATTTTGTCCAAGCCTCTCTGGAGC
Celera SNP ID:            hCV7682039
SNP Position Genomic:     10169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53937):
CCCCCGGGAGTGCCAGCTGGGCTCCTGGCCTGGGTCCCGCTGCGCCCAGCCGTGGAGGGGTTCTCTCTCCAAGGGTGGGGCCTCAGGAAGAGGCTCCAGC
R
CTGGTCACTGGTGACTCAGGGGGCAGTTTCCGAGTTCCAGACGTGACCTTCCCCAGGGGGTCCTTCTAGGGGGTTCTTGCGTATCTCCTTGCATCCTCCG
Celera SNP ID:            hCV1756522
SNP Position Genomic:     13646
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53938):
GCCCCCTGGAGGCGGGCCTGTTCTTCCCAGGCAGCGGGGGAGTTATCACTTTAGGTCTGTGGGTGCTGGCATCCCAGGCCCCAGCAGGGCAGGGCAGGGG
K
CTCCAGGAGGTTCTGGGGAGGGGCCCCCCCTTTCTTCTCCATCACAACCCCTCCCCGCAGACCTCCCAGGAGCTACACTGCCTGATGTGGGCCTGGAACT
Celera SNP ID:            hCV25921548
SNP Position Genomic:     63000
SNP Source:               Applera
Population(Allele,Count): african american(G,18|T,2)   caucasian(G,1|T,1)   total(G,19|T,3)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53939):
AGACAGAGATGTGGGAGACACCAGGAGGTCTCATGAATGCTGCTGCCTCCTCACGCCCCCGAAAGCTGCTGTTTGGCTTGGAGTGGCCTCCCCTGAGCAG
Y
CAGGGCCCAGGGCTGGGCTGGGCTGGGCTGCTGCTGCCAGGACTCTGAGCTGCCTGCAGGACCCTGGTCCCAGCCAGCCTCTGGGGGCCTCCCCGCTGCA
Celera SNP ID:            hCV27858795
SNP Position Genomic:     43956
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,5)   caucasian(C,21|T,1)   total(C,48|T,6)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,4)   caucasian(C,21|T,1)   total(C,49|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:53940):
GGGTCCCTGAATCCACCCCAGGCCCAGCTCTGTTGAGGTGCGGGCAGCCCCCTGGCTGGGAACCCATCCTCTCCCTCCAGCTGGGGAGCTCCTGTCCCCC
Y
GCCCACTCCTGGAAGTTTTCCTGTCCTGCTTAGGACATCTGTAGTTGGGCATGGCGGCGTCCAACCCCAGAGTTGGGGGTTCTGGCCTCAGAGTTGTTAT
Celera SNP ID:            hCV29370996
SNP Position Genomic:     15531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53941):
GGGAGGTAGACGATGACCTCAGAGCCTGGCAGCCGGTGAATAGGCCTGTGCCCCGCCCCCACCCCGGAAGGCTGCGCTTGGCTCCCACAGTCCCCGCAAC
R
CCAAGCCCTCCGAGAAGGGTGGGATTTGGACCTGGGATGTCTGGAGTCCTGGAACCTTGCCCCCTACCTGGAGTCTGGGCAGCTGGTGCCCCCAAGGGCT
Celera SNP ID:            hCV29370997
SNP Position Genomic:     17756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53942):
AGCCCCTGCTGTGGCCAGGCCTGCGAGGGACCACTACCTCCCGGACCTGCACCACCTGCGCCTGGAGCTGGAGGAGGCTGCCACACCTGAGGGTCACGCC
R
TGCGCTTTGGCTTCAACCCCCTCGAGTTCGAGAACTTCAGCTGGAGGGGCTACGCGCAGATGGCACCTGTCCAGGTGGGCGCTGTGCTCCCCCTCCCAGG
Celera SNP ID:            hCV27847079
SNP Position Genomic:     39036
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,15)   caucasian(A,2|G,36)   total(A,5|G,51)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,20)   caucasian(G,22)   total(A,6|G,42)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53943):
TGGGGGGCAGTGCAGTCCAACGGGCCAGGCCCCTTCAGCCAGTGAGCTGTGGTCTCTGTCACGCGGCCTCTTGGCCTGTGGGAGCCTCAGTGGCAAGGCC
S
GGAGACGTCAAGGGGCCCGGGCACCGCGGGGACCCAGGCTTTTCTGGTGATCCAGCGCCCTCCCCTCCTGCCATTCCCCGCAGCCTCCAAGAGGGACTGT
Celera SNP ID:            hCV29370999
SNP Position Genomic:     20860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53944):
GCCACTCTGCATGCGGCTAGGGACACCCTGGCCAGCGTCTTCAGATTGCTGCACAGCCTGGACCAGGCTAAGGAGGTGAGTGCAGCCCCTGGCCCCTGTC
R
CCACCCCATCCACGGCCAACTCCCTCCCAGGCCCGTGGGCAGCTTTGTGTGCACACTTGCGTGCAGAGCCCGCCCTCAGGGTCGTGGATCAGGTGGCTGT
Celera SNP ID:            hCV27837386
SNP Position Genomic:     55731
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,6)   caucasian(A,36)   total(A,48|G,6)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,8)   caucasian(A,37|G,1)   total(A,65|G,9)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53945):
CTGCTACCGTGAGCACCTGCCAGGGGCATCCAAACAGACACCACTGCCTGCTGGACTCCGGGAGCCCTGCAGGGGGTGGAGGGGTTCCCCGGGATGGACC
R
TGTTATCCTGCCTGCATCTCCGATTGTGCTGAGAGACCAAGGGTGGCAGGGGGTGTAGGGTGCTAGGGTTCTGAGCAGACCTGGCCAACATGCGTGTCTC
Celera SNP ID:            hCV25629443
SNP Position Genomic:     27314
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,12)   caucasian(A,13|G,23)   total(A,35|G,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53946):
CCCAAGCTGCTACCGTGAGCACCTGCCAGGGGCATCCAAACAGACACCACTGCCTGCTGGACTCCGGGAGCCCTGCAGGGGGTGGAGGGGTTCCCCGGGA
Y
GGACCATGTTATCCTGCCTGCATCTCCGATTGTGCTGAGAGACCAAGGGTGGCAGGGGGTGTAGGGTGCTAGGGTTCTGAGCAGACCTGGCCAACATGCG
Celera SNP ID:            hCV25629444
SNP Position Genomic:     27308
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:53947):
AGGGTGCTAGGGTTCTGAGCAGACCTGGCCAACATGCGTGTCTCTTCCCCTCAGCGACGCCCTCGTCCTCCAATGACACCAGGGAGCAGGTGCTGCCAGC
Y
GGCCAGATTGTGAGTAAGTGTCCTTGAGGCCCCCAGGTCCCCGGCCTGCCCTGGAGCCATGGGGGCGGCTTCACAGAAAGTTCCTGGAGAAAGGGAGGAT
Celera SNP ID:            hCV25629445
SNP Position Genomic:     27471
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,10)   caucasian(C,15|T,21)   total(C,41|T,31)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:53948):
CAGTGTTCCAGCCCTGGAGTGGCCGATGACCGCTGTGACCCTGACACAGGCCAGTGCAGGTGCCGAGTGGGCTTCGAGGGGGCCACATGTGATCGCTGTG
Y
CCCCGGCTACTTTCACTTCCCTCTCTGCCAGTGTGAGTGGTGCCTCTCCACGTGGGCGTGGGTAGGGGAGGCCCGTGGGCCTGGCCTACCGTGACACCCG
Celera SNP ID:            hCV25629446
SNP Position Genomic:     35042
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53949):
CCGTGAGTGCCTAGGGAGGAAGTGGTGGGGAGGCAGGTGCAGTCTCCACTGCGTGCCCACAGCTATCCTTGTCTGCAGCCTGCCACTGCTCTGCTGAAGG
S
TCCCTGCACGCAGCCTGTGACCCCCGGAGTGGGCAGTGCAGCTGCCGGCCCCGTGTGACGGGGCTGCGGTGTGACACGTGTGTGCCCGGTGCCTACAACT
Celera SNP ID:            hCV25629447
SNP Position Genomic:     35601
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:53950):
ATGAGGCCGGCCGCTGCCTATGCCAGCCTGAGTTTGCCGGACCTCATTGTGACCGGTGCCGCCCTGGCTACCATGGTTTCCCCAACTGCCAAGGTGAGCA
R
AGGGTCAGGGCAGGAAGGGGTTCTGCCACCCACATGGCGCCAGGGCCTGACCCCATTGTCCCTCTGCAGCATGCACCTGCGACCCTCGGGGAGCCCTGGA
Celera SNP ID:            hCV25629448
SNP Position Genomic:     35298
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,8)   total(A,1|G,33)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,38)   total(A,3|G,71)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:53951):
AGGAAGAGGGCTATGGGAGGAGCCGCATAGGCCTGTGGGCCCAGGAACTGGCCAACACGCTGGTCTGCGGTTGGGGTTTGTGCAGCTGGAGGAGGAGCAA
K
GGCATCTTGGAAAGAGCAGGGCTCGGTCGGACGCCTGGGTTTGCAGTTTCCTGGGTCTGAGCTGTGTGACCGGCCCCCCCATCGTACCGCCTGCACCCCC
Celera SNP ID:            hCV1763962
SNP Position Genomic:     41946
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53952):
CCTGCCACTGCTCTGCTGAAGGCTCCCTGCACGCAGCCTGTGACCCCCGGAGTGGGCAGTGCAGCTGCCGGCCCCGTGTGACGGGGCTGCGGTGTGACAC
R
TGTGTGCCCGGTGCCTACAACTTCCCCTACTGCGAAGGTGAGCAGGCAGGTGGCTGTGTGCACCAGGTGCCGGGCCTGTGTGTGGGTCTGTGCTGTTCAC
Celera SNP ID:            hCV25629449
SNP Position Genomic:     35679
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,17)   caucasian(A,3|G,35)   total(A,18|G,52)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,11)   caucasian(A,3|G,31)   total(A,16|G,42)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:53953):
TTGGCCAGGCTATTCTCAAACTCCTGACCTCAGGTGATCCGCCCTCTTGGGCCTCCCAAAATGCTGGGATTACAGACAGGAGCCACCATACCTGGCCTGG
M
ACTTTCTATAAATGCCACACAACATGTTCTGTGCAGCCGCGTCTCCCACCGTTGTGTCAGCGGATAAGTTGCCGTGTTCCGAGACACCAACCTCACATGG
Celera SNP ID:            hCV1763963
SNP Position Genomic:     41591
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53954):
CCCCCCACAGCACCCTGTGCCGGGGCACTGCCCGGGATACCCAGGACCACCTGGCTGTCTTCCACCTGGACTCGGAGGCCAGCGTGAGGCTCACAGCCGA
R
CAGGCACGCTTCTTCCTGGTAAGGACCCCTCAGGTCCCCACCCCAAGGGGTCAGCTTCTTTCAGAAGATTTGAAACATGCATGAGAGGGGAGAGGACAGT
Celera SNP ID:            hCV1763964
SNP Position Genomic:     40967
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,4)   caucasian(A,2|G,24)   total(A,8|G,28)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53955):
CAGTGGCCCAGCTGGGGTCACAGCCAGGGAGGAAAAAGCACCACTCCTTCCAAACGGGCTGTTTCCAGACCCTGCCTAGGCCAGGAAGGCCGGACTATCC
S
TTGGCCCCATCCTTCTGGCAGCAGGAACCTGCAGACCCTCGGAGGCTGGAGGCAGGTGGCAGCCCTGGGGGAAGGCAGGCTCCAGGCCTGGGGGAGGGGT
Celera SNP ID:            hCV9572539
SNP Position Genomic:     2327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:53956):
CAGGTACTGAGCGTCCTGGCCTTCCCTCCCCAACCCGGGCCAGTGCAGGCCTTCACCTTCCGCCTCCCACAGAGCCAGCTCCGGAGCCCCCTGGGCCCCC
R
CCATGAGACGGCACAGCAGCTGGAGGTGCTGGAGCAGCAGAGCACAAGCCTCGGGCAGGACGCACGGCGGCTAGGCGGCCAGGCAGGAGCCCCAAGACCC
Celera SNP ID:            hCV25762906
SNP Position Genomic:     52726
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,27)   caucasian(A,11|G,23)   total(A,20|G,50)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,10)   caucasian(G,4)   total(A,4|G,14)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53957):
GGCAGGTGCAGCCTTATCCCCACTCTTTGGATGGGGACATTGAGGCTCAGCAGTTACTGTGACTTGGCCTCTTCCCAGGACTCGGAAGCAGCAGCCAGGA
G
GCCCAGGCCCACCTGCCGCTGTCCACACGTCCACTCTGGGGCCGGTCCCCACAGGCCTCCGGAACAGCTTAATTCTGTCTCTCTGGAGACCCTAATCCAG
Celera SNP ID:            hCV27164153
SNP Position Genomic:     10039
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53958):
CTGTGACTTGGCCTCTTCCCAGGACTCGGAAGCAGCAGCCAGGAGGCCCAGGCCCACCTGCCGCTGTCCACACGTCCACTCTGGGGCCGGTCCCCACAGG
C
CTCCGGAACAGCTTAATTCTGTCTCTCTGGAGACCCTAATCCAGAAGGCTGTGGGCAAGATCTGGAGGTGGGGCGGGGTCTGGCCGCCTGGATCCCGGCC
Celera SNP ID:            hCV27164154
SNP Position Genomic:     10095
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53959):
TGGTTTTGCTGCATCGTGGTTAGACTTGGCACACTGATAGTTTCTGCCTTTTGTCTTTGGAATTTGAGATTTTCTTTGTTTCTAACCTAGAATGTGACGA
Y
TTTTATTTTTTAATTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGACACAGAGTCTCACTCTGTCACCCAGGCTGGCGTCCAGTTG
Celera SNP ID:            hCV1763967
SNP Position Genomic:     32200
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53960):
GGGGACCGGGTAAGCAGGGCATCAGGTCTGGGGGAGGCACTTTGAGGATGGCCAGGACGCCTGAGAGGGTTGGGAGCCAGGAGTGGGGTCTGTCCAGGGA
R
GGGGAGCTCCATGGGGGTCCGTGAGGGTGCCCAGGCCCTGTCCCGGTAGGGAATGAGCGCAAGTATCCAGGCCCAGCACAGGGCTCTGTGCTGGGGGTGC
Celera SNP ID:            hCV27504444
SNP Position Genomic:     46211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53961):
CCTTCTAGGGGGTTCTTGCGTATCTCCTTGCATCCTCCGGAAGCTTCTGGAACTGAGCGGCCACATCACTGGCCTCAGGCTCCTTCTTCCGAGAACCACA
C
CCCAGGCCCCAGGCCCCAGGCCCAGGGAAGGGTGAGCGCGTTCATGACTGCCCAGGCACATGGCCAGCGGGTCCTGGCTTGAGCTCCCCCACCCCCTGGC
Celera SNP ID:            hCV27164155
SNP Position Genomic:     13808
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,4)   total(C,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53962):
ATAAGACCTGCTGAGGTTTTTCTTTCTTTAGTTGGGAGGAGAGATTTTCCTTTCTAATATTCAATTTCTTTAATCCACTTTCTTTGATTTATCACTTTTT
W
AAAATAGCTTCTTGAGTTATTATTTTTAGTCTGTCTTCATTCCCAACAAAAAGGCTTAAAGCAGTGGTTCTCAGCCAGTGGTGACTTTGATGCACAGGAA
Celera SNP ID:            hCV1763968
SNP Position Genomic:     31640
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53963):
CACCGCTGTGGACCCTGATGCAGAGCCCACCCTGCTGCGTGAGCCCCAGGTGAGGGCCATAGTCTCTAGAGGGACGGGGGTGTCAGGGCAGGACTCCGGG
Y
CCCAACCCAGGGCAGGTTGTCCAGGGGGCGGCAGGGGCTCATAGCTCAGCCTGCTCACTAGGGCCTATCCCTGCAGGCCACCGTGGTCTTCACCACCCAT
Celera SNP ID:            hCV25762909
SNP Position Genomic:     42666
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(C,1|T,39)   total(C,6|T,72)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53964):
GTATTTATTTAAACAACCCCCAGTGGTTGGAAATCTAGGTTCTTTTTTTTTTTAATTATGCTGTGATAAAGCATTATTAAGATGAGGTAGAAAACTGGCC
S
GGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATTACCTGAGGTCAGGAGTTAGACACCAGCCTGGCCAACATGGTGA
Celera SNP ID:            hCV29371000
SNP Position Genomic:     28558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53965):
CACCTGGGGACCCGCTACTGCCCAGAGGCCACTCTCTGCCTCACACGGGATCTAAAGCAGCTCAGAGCCGGACTCTGCGCCTGGACTGCAGATTCCTTGA
Y
GTCTCCGCCCCCTCTCCAGCCAGCCCCTCCCCCACTTGGAGCTTCTCCTGCCAAGGGGAGCCGCCTCCTCTCCCCCCTCCCCCAGGTGGGAGAACTAATA
Celera SNP ID:            hCV27519653
SNP Position Genomic:     4575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:53966):
TCTTCTCCAGGACTTTTTATGGTCTTTTTGCCATTGGTGTTCTGCAGATTTATTGTGATGTGTTGAGGATTGGGATTTTTTTCTTGCTCAGGACTCACGC
T
TTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGACTGGCGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGG
Celera SNP ID:            hCV27164156
SNP Position Genomic:     24009
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53967):
GGAAAACCTTCGGAAATATAGGTCGGCATAAAGCCAAAGAAAAAAGTTAGCCCAGGCAACATGGTAAAACCCTGTCTCTACAGCAAATACAAAAATTAGC
Y
GGGTGTAGTGATGTGTGCCTGTAGTTCGAGCTACTCCGGAGGCTGAGGTGGAAGGATTGCTTGAGCCTGGAAGGCCGAAGCTGCAGTGAGCCATGATCAC
Celera SNP ID:            hCV11772102
SNP Position Genomic:     27734
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53968):
CAGGTGGATTACCTGAGGTCAGGAGTTAGACACCAGCCTGGCCAACATGGTGAAACCCCATTTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGTG
Y
GTGCCTGTAATCCCAGCTACTTGGGGGGCTGAGGCAGGAGAATCATTTGAACCTGGTTGCAGTGAGCTGAGAACCACCATCACACTCCAGCCTAGGTGAC
Celera SNP ID:            hCV29371001
SNP Position Genomic:     28706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53969):
GCTCCATGGCACGTGGCGAATTGAGGGCTTGCCCCAGGATGCCGCTGGCAGCACATGTGGCCCTGTGTGTTTGTCTGGTTCCTGGCTCGGCCAAGCCTGG
K
GTCCCGCACATGGAGTTGACCGGTACCTAGAGGTGTCCCGCATGACATCTGTAGGTCATGATGCGGCCAACCCCCGTGACATGAGGGGCCGGCCTTGCAG
Celera SNP ID:            hCV29371002
SNP Position Genomic:     43200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53970):
CTACAGGCACCCACCACCACGCCTGGCTATTTTTTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATGTTAGCCAAGATGGTCTCGATCTCCTGACCTC
R
TGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCCATGTGTTCATTATTAATTCAAGACCATCCTTGGCCAT
Celera SNP ID:            hCV27164158
SNP Position Genomic:     24251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53971):
GCTGCTAATCTGCCCTGCTAATCTGTCTGTCTGCTGTAACTTTGCTCCTTCTGTATGAGGAGGTTTGTGGTTGAATACCTCCTAGAAGGAGTGGAAAGAG
Y
AGGCCCTGGTCCACATGGAGTGGGTGGTCACCAGCCCCAAGGCCTGGTCATTCCCGAGACAGGACATCCGTGTGGCTTTGAGAGCTATGTCCTCAAACAG
Celera SNP ID:            hCV29371003
SNP Position Genomic:     48516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53972):
GCCAGGCTGTTGGGGCGGTAGGCTGGGCTTGGAGGTGGCGCCCTGACCCGCATCCCCGCTTCCCCACAGCCTGCGACGGCTCTTCCCCACCGGAGGCTCA
S
TCCGTGGCTGCGTCAAAGGCATCAAGGCCCTGGGCAAGTATGTGGACCTCAAGCGGCTGAACACGACAGGCGTGAGCGCCGGCTGCACCGCCGACCTGCT
Celera SNP ID:            hCV29371004
SNP Position Genomic:     60871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53973):
TCAGCTCCACGGCAAGCTGGGGCCCAGAGTGACAGGAGCAGTACACCCAGCAGGCGACAGGCACGGGCAAAGACCTGGAGGCGGGACTTGGCGGGCAGGC
R
CGGGCACGGCTGGTTGTGAGCGCAGGAGGCTGGAGAGCCAGGCCGAGGGCGTCTGCGCTTACCCACTCCTTCGACCCTCCCTTCCGCTGCAGCATCATCC
Celera SNP ID:            hCV15954582
SNP Position Genomic:     56251
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,145|A,598)   total(G,145|A,598)no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53974):
ACAGGCACGGGCAAAGACCTGGAGGCGGGACTTGGCGGGCAGGCACGGGCACGGCTGGTTGTGAGCGCAGGAGGCTGGAGAGCCAGGCCGAGGGCGTCTG
Y
GCTTACCCACTCCTTCGACCCTCCCTTCCGCTGCAGCATCATCCTGGACGTCAACCAGGACCGCCTCACCCAGAGGGCCATCGAGGCCTCCAACGCCTAC
Celera SNP ID:            hCV15954583
SNP Position Genomic:     56307
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,336|T,969)   total(C,336|T,969)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53975):
TCTGTGGTCTTTTCATGGGGGACCCCACAGCAGTCTCAGTCCGGCTCAGTCCAGTGGGATGACTGTAGGTCTTGTGCAGCTCTGGGGGACCCCACTCTCC
Y
CCTTGGGGCCCTAGGCTTCCAGGCCTACCTGGCCAACAGCACCCAGCTGTTCCCAGGCGTACCTGCTGTGGGGAGAAACTCTCCGGAGGAGTGGGCACTG
Celera SNP ID:            hCV16075593
SNP Position Genomic:     17971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53976):
CTGTGGAAGAGACCCCCACAGTGGGCAGCTGGGGCCAGACACAGAAAGCCTACCAGGGAGGTGCCAGGGCTGCAGATAGCACAGACAGCCCCAGCCGTCG
R
GAGCCTGGCAAGCTTGGAAGTGCTTTGGGTAGAAATGGAGGTATAGGTGGGAGGGCTGTAGGCCTTGGGGGGGATTGGGGCACACCCTGCAGGAAGGGCA
Celera SNP ID:            hCV15954584
SNP Position Genomic:     57615
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,216|G,883)   total(G,883|A,216) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53977):
TAGTGGAGGCCGCCGAGGCCCACGCACAGCAGCTGGGCCAGCTGGCACTCAATCTGTCCAGGTGGGTGGCCAGGAGAGGAGGGGCCCTGGGCCCACCCTG
R
GGATGCAGACAGGGCCTTGGGAGGGCCAGCTGGTCTGGGAAGGCTCCTAGGGGCTGAGGCCGTTGTCCTCAAAGAAGCCAGGCCTTCCTCAGCTCCACGG
Celera SNP ID:            hCV25762048
SNP Position Genomic:     56062
SNP Source:               Applera
Population(Allele,Count): african american(G,10)   caucasian(A,2|G,26)   total(A,2|G,36)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53978):
TCCCTGCCTGTCCTTGTCACCCCTGCCTAACCTGAGGGTGGGTGACCTGGTTCCATGGCCCACCACAACCCTGCTGTCTGTGTGACCTGCACTGACCACC
R
CCGTGTGCCTCAGTTTCCTCATCTGTGCAGTGATGTGGAGGCCAGGGCATGTGCAGCCTCCCCAGGGTGCCCTATCTTGGTTTGGGGGGCCTTGCCCTAC
Celera SNP ID:            hCV848684
SNP Position Genomic:     21750
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53979):
GGCGCCAGGAATCTCTGGTGCCATCTCTTGGCTGCCTCTGGATGGCTTCATGCACCGGCAGCTCCCGTGGTGACAAAAGGGGCCTGGCAGCTCCCACCTC
R
CCTCCTGCCAGCCTAGCCACCTGCGTCAAGAGTACTGGAGTCCTAGCCCGGATGCTGGCCGTCCCTGGCCCCGTGCCACCCTGACCAGTCATGCTGGTGG
Celera SNP ID:            hCV848685
SNP Position Genomic:     20482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53980):
CCCGTCAGGGGAGGTGTGGGCCGGGACAGGCAGGCCACACCTGTGCTGTGGGTCCATGAGTTGCCTCTCTCCCCCGGCACCCGGGCCTCCTCGCACAGGC
S
GGGGAGAGGTTCGTGTTTCCTCCGCCTCCCTGCCAGGTCCCTGTGGAGCCTCTGCCTGGGAGAGCCCTTTCCCCTTTGTTTGAGAGGGGCTGGGGAGGGG
Celera SNP ID:            hCV848686
SNP Position Genomic:     18365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53981):
CACCTGTGAGCAGAGGAGGGGCTGGTCCCCACTGCCGCCCACAAAGAGTTGGGCTGAGTACTGAGGTTTCCCAAGGTCTCCATCGTGGACCCTGTGGGCC
Y
GTCAGGGGAGGTGTGGGCCGGGACAGGCAGGCCACACCTGTGCTGTGGGTCCATGAGTTGCCTCTCTCCCCCGGCACCCGGGCCTCCTCGCACAGGCGGG
Celera SNP ID:            hCV848687
SNP Position Genomic:     18267
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   no_pop(T,-|C,-)   no_pop(C,-|T,-)   TSC_42_C(C,27|T,55)   total(C,27|T,55)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53982):
TTCAGTGGCTGCATCAGCAACGTCTTCGTGCAGCGGTGAGCCTGGTGGGCGCTGGGGGACAAGGTCCCAGCTGGCCTTCCGCAGCTGCTGACCGCCTGCC
Y
GCCCTGCACAGGCTCCTGGGCCCACAGCGCGTATTTGATCTGCAGCAGAACCTGGGCAGCGTCAATGTGAGCACGGGCTGTGCACCCGCCCTGCAAGCCC
Celera SNP ID:            hCV25762190
SNP Position Genomic:     61824
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,24)   total(C,52|T,2)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53983):
CCTGCTGGCCTTTTTAGGGCCCACCTGGGGGCCCACCTGTGAGCAGAGGAGGGGCTGGTCCCCACTGCCGCCCACAAAGAGTTGGGCTGAGTACTGAGGT
Y
TCCCAAGGTCTCCATCGTGGACCCTGTGGGCCCGTCAGGGGAGGTGTGGGCCGGGACAGGCAGGCCACACCTGTGCTGTGGGTCCATGAGTTGCCTCTCT
Celera SNP ID:            hCV848688
SNP Position Genomic:     18234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:53984):
TGGGCACTGGCGGGTCAGGGTCCCGAGGAGGTGTGGTGGGTGGCCCTGGGGTGTGGCATGACCCTCGGAGGCCTGCTGGCCTTTTTAGGGCCCACCTGGG
K
GCCCACCTGTGAGCAGAGGAGGGGCTGGTCCCCACTGCCGCCCACAAAGAGTTGGGCTGAGTACTGAGGTTTCCCAAGGTCTCCATCGTGGACCCTGTGG
Celera SNP ID:            hCV848689
SNP Position Genomic:     18163
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53985):
AGCCGGTGAGTCTGAGGACCAAGGTGTGGGGGATTTGGGGGCACACTGGTCAGGACCCTCCCCTGCCCCACTTCACCTCCTCCCTTGGCCCCCAGGGCAC
Y
GGCCAGTGCTTCTGCAAGCCCCACGTGTGCGGCCAGGCCTGCGCGTCCTGCAAGGATGGCTTCTTTGGACTGGATCAGGCTGACTATTTTGGCTGCCGCA
Celera SNP ID:            hCV25629450
SNP Position Genomic:     38169
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:53986):
GACCCTCCCCTGCCCCACTTCACCTCCTCCCTTGGCCCCCAGGGCACCGGCCAGTGCTTCTGCAAGCCCCACGTGTGCGGCCAGGCCTGCGCGTCCTGCA
M
GGATGGCTTCTTTGGACTGGATCAGGCTGACTATTTTGGCTGCCGCAGTGAGTGCCCACTCGCTCGTCCCAGACCACAGCCCTGCCTCCCCTCGGTTTAT
Celera SNP ID:            hCV25629451
SNP Position Genomic:     38222
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,38|C,2)   total(A,76|C,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:53987):
GAGTGCCCACTCGCTCGTCCCAGACCACAGCCCTGCCTCCCCTCGGTTTATGCTGGGGAACCCAAGGCCCGGAGGGACAAGTGCAGCCTGGGCAGCATGA
R
GCCCGGGTGATGGATGGCTGCCCCTTGGTGCCAGCCTGTGCCAGGGTGTGGGAGAGGGGGTGCAGCTCCCACCCAGATGCGTGGCTTCCTCTCCCCTGTC
Celera SNP ID:            hCV25629452
SNP Position Genomic:     38372
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,24)   caucasian(A,2|G,36)   total(A,16|G,60)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53988):
TATGCTGGGGAACCCAAGGCCCGGAGGGACAAGTGCAGCCTGGGCAGCATGAGGCCCGGGTGATGGATGGCTGCCCCTTGGTGCCAGCCTGTGCCAGGGT
R
TGGGAGAGGGGGTGCAGCTCCCACCCAGATGCGTGGCTTCCTCTCCCCTGTCCTACACCTGGGCAGACGGCACTAACAGATCCCAGCGCCCTCACCCTCG
Celera SNP ID:            hCV25629453
SNP Position Genomic:     38420
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,38)   total(A,2|G,66)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53989):
TGCCGGTGCCGCCCCAACACCCAGGGCCCCACCTGCAGCGAGTGGGTACCCCTTCCCCACTGGGTGGTGGGGAGCGGGGCAGGCAGCTTGTCCTCCGGGC
M
TCTCCGTGTCCCTCACCATGGGCCCACGTGAGGCCTCACCCTCCCTGGAGATCCGGGGCCGCTGTGCAGGGCTAGGTAGGATGGCCAAGCTGCACCTGAC
Celera SNP ID:            hCV25629454
SNP Position Genomic:     38834
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,15)   caucasian(A,8|C,2)   total(A,17|C,17)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,8)      total(A,8|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:53990):
GGACCCCACGGAGCAATGGGTGTTGCAGGACCTTGGCCTGGGGGCTGGGGGTCCTGTGGCGGTGGCAGGTTATAGGAGCAGGGCGCTGCCTCAGGCAATG
S
AGCCCAGCACCCAGGCAGGGCGCCCCTGCCTCCTGCCTCCTGCCTCCTGCCTCCTGCCTCCTGCCTCCTGCCTCCTGCCTCCTGCCTCCTGCCTCCTGCC
Celera SNP ID:            hCV25629456
SNP Position Genomic:     40324
SNP Source:               Applera
Population(Allele,Count): african american(G,16)   caucasian(C,2|G,20)   total(C,2|G,36)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53991):
CCACAGCACCCTGTGCCGGGGCACTGCCCGGGATACCCAGGACCACCTGGCTGTCTTCCACCTGGACTCGGAGGCCAGCGTGAGGCTCACAGCCGAGCAG
K
CACGCTTCTTCCTGGTAAGGACCCCTCAGGTCCCCACCCCAAGGGGTCAGCTTCTTTCAGAAGATTTGAAACATGCATGAGAGGGGAGAGGACAGTTGGG
Celera SNP ID:            hCV25629457
SNP Position Genomic:     40971
SNP Source:               Applera
Population(Allele,Count): african american(G,11|T,1)   caucasian(G,28)   total(G,39|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53992):
AGCAGCCATAGAACGCGTATTCATGAGTGGGGTTGGCGGCGTTCCAATAAAACTTTATTTACAAAAGCAAGCGAGGAGTCCATAGACTAGTTTGCTAATC
S
CTGGTGTAAACTGACAATTTATCTTTTCGCTACTGGGCCATAGTAAGCACTCAGTAATTACCTGTGGCTGTACAGTATTCACTTTCAATGTGTTCATTAC
Celera SNP ID:            hCV1763972
SNP Position Genomic:     30270
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53993):
CTCTGCAGGGCCAGTACTGTGACATCTGCACGGCTGCCAACAGCAACAAGGCACACCCCGCGAGCAATGCCATCGATGGCACGGAGCGCTGGTGGCAGAG
Y
CCACCGCTGTCCCGCGGCCTGGAGTACAACGAGGTCAACGTCACCCTGGACCTGGGCCAGGTAGGGACCCTTCTTTGCGTGCTGCAGCCCCCATCTCTGT
Celera SNP ID:            hCV25629459
SNP Position Genomic:     10850
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,29)   caucasian(T,40)   total(C,3|T,69)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:53994):
ACAGCAAATACAAAAATTAGCTGGGTGTAGTGATGTGTGCCTGTAGTTCGAGCTACTCCGGAGGCTGAGGTGGAAGGATTGCTTGAGCCTGGAAGGCCGA
R
GCTGCAGTGAGCCATGATCACACCACAGCACTCCAGCCTGGGCAACAGAGTGAGACCTTGTTTCAAAAAAGAAAACTGGGCATGGCACATGTATACATAT
Celera SNP ID:            hCV1763973
SNP Position Genomic:     27813
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53995):
CCTGATACCTGTTTTTCTTTTCTTTTTTTTTTGTTTTTTTGTTTTTGTTTGAGACGGAGTCTCGCTCTGTCGCCCAGACTGGAGTGCAGTGGCACGATCT
Y
GGCTCACTGCAAGCTCTGCCTTCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCGGCTAATT
Celera SNP ID:            hCV27164162
SNP Position Genomic:     30673
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53996):
GAGAAAGGGAGGATTTTCATTTGGTCACTTTATTTTTGGCTTATTTCTTTTTATGCAAATTATGCCTATTCACACTGGAAAACCTTCGGAAATATAGGTC
R
GCATAAAGCCAAAGAAAAAAGTTAGCCCAGGCAACATGGTAAAACCCTGTCTCTACAGCAAATACAAAAATTAGCTGGGTGTAGTGATGTGTGCCTGTAG
Celera SNP ID:            hCV1763975
SNP Position Genomic:     27658
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53997):
GGTCACCTGAGGTCGGGAGTTCGAGACGAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATAAGCTGTGCATGGTGGCGCATGCCT
R
TAATCCCAGCTACTCGGGAGGCTGAGGCGGGAGAATGGCTCGAACCCGGGAGGTAGGGTTTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGG
Celera SNP ID:            hCV27164163
SNP Position Genomic:     32845
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:53998):
GCTGGGCTGGGCTGGGCTGCTGCTGCCAGGACTCTGAGCTGCCTGCAGGACCCTGGTCCCAGCCAGCCTCTGGGGGCCTCCCCGCTGCAGGCTCTGGGCC
Y
GCGGGAGAGTGACCAGGCCTCACCCCCTAGGATTATGTACTCGTGGTCCCTGAGAACGTCTACAGCTTTGGCTACCTCCGGGAGGAGCCCCTGGATAAAT
Celera SNP ID:            hCV27854957
SNP Position Genomic:     44068
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,40)   total(C,74|T,4)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,26)   total(C,60|T,4)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:53999):
TACGACCCTGAGGTGGACCGGCGCCGCGCCAGCCAGAGCCTGGATGGCACCTATCAGGGTGGGGGTGTCTGTATCGACTGCCAGGTGGGCTGGGCTAGAG
K
GCTGGGAATGGGCTGGCCCCGAGGTGGGGCAGGGACCTCCCCAGACTCAACGGCCATTGCACTCCCAGCACCACACCGCCGGCGTCAACTGTGAGCGCTG
Celera SNP ID:            hCV1763978
SNP Position Genomic:     26637
SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,10)   caucasian(G,22|T,14)   total(G,48|T,24)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,9)   caucasian(G,26|T,14)   total(G,49|T,23)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54000):
GTGGGAGACACCAGGAGGTCTCATGAATGCTGCTGCCTCCTCACGCCCCCGAAAGCTGCTGTTTGGCTTGGAGTGGCCTCCCCTGAGCAGCCAGGGCCCA
B
GGCTGGGCTGGGCTGGGCTGCTGCTGCCAGGACTCTGAGCTGCCTGCAGGACCCTGGTCCCAGCCAGCCTCTGGGGGCCTCCCCGCTGCAGGCTCTGGGC
Celera SNP ID:            hCV27164165
SNP Position Genomic:     43966
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|C,1|-,5)   total(G,1|C,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54001):
GACCAGGATGCCTAGGAGTCCTGCCTGCTAAGCGAAATCTGAGCCTTGGGGGGTGCAAATGGACCCCTTTCCCTTCTGGCTCAGGGAGGTTTTGGGCTTA
Y
GCTCGAGTCCTGGCCGAAGTGGAAAGGGCATAACTCAGTTTTGGAGAACGCAGGTCTCCATCCTGACCTGCAGGCAAGGGGGACTCTACTGACCCCTGAG
Celera SNP ID:            hCV1763979
SNP Position Genomic:     25846
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54002):
GGCAGCATTGCTGCCCCATCTGCGGGCCTGGGCCCAGGACTTCAGCTTGCGGGCCATGCAGAAGGTTTCAGGGACCAGCAGGTGGTCCACAGTCTCTGAC
G
ATGATGTTGATTCTGAGCAGCTGCCTCCATGTCAGGAGCTGTCCAAGGCTCAGCACCCGGGGCAGGGGTCCCTGTTCTTGTCTCCCCCGCCCCCGTCACA
Celera SNP ID:            hCV27164166
SNP Position Genomic:     44718
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,3)   total(G,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54003):
CCCCCGGGGCTCAGCGGGGAGCGCTGCGACACCTGCAGCCAGCAGCATCAGGTGCCTGTTCCAGGCGGGCCTGTGGGCCACAGCATCCACTGTGAAGGTG
Y
GTCCTCAACACCCCACTTCCCCACACCTGATGGAGTAGGAATCCAAGTCCCACACAGCCTGGTGACCCCAGTGTTAACGTCGACCTCCCAGAGTGGTCCC
Celera SNP ID:            hCV16183199
SNP Position Genomic:     51352
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,70|C,1423)   total(C,1423|T,70) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54004):
GCAGCATTGCTGCCCCATCTGCGGGCCTGGGCCCAGGACTTCAGCTTGCGGGCCATGCAGAAGGTTTCAGGGACCAGCAGGTGGTCCACAGTCTCTGACG
A
TGATGTTGATTCTGAGCAGCTGCCTCCATGTCAGGAGCTGTCCAAGGCTCAGCACCCGGGGCAGGGGTCCCTGTTCTTGTCTCCCCCGCCCCCGTCACAC
Celera SNP ID:            hCV27164167
SNP Position Genomic:     44719
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54005):
CAGCATTGCTGCCCCATCTGCGGGCCTGGGCCCAGGACTTCAGCTTGCGGGCCATGCAGAAGGTTTCAGGGACCAGCAGGTGGTCCACAGTCTCTGACGA
T
GATGTTGATTCTGAGCAGCTGCCTCCATGTCAGGAGCTGTCCAAGGCTCAGCACCCGGGGCAGGGGTCCCTGTTCTTGTCTCCCCCGCCCCCGTCACACT
Celera SNP ID:            hCV27164168
SNP Position Genomic:     44720
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54006):
GGGCATCCACCCATGTGCAGCCACACGTGTGTGCCCACAGTTCGTGGATATGGAGGGATGGGTGCTGCTGAGCACTGACCGGCAGGTGGTGCCCCACGAG
Y
GGCAGCCAGGGACGGAGATGCTCCGTGCAGACCTGCGGCACGTGCCTGAGGCTGTGCCCGAGGCTTTCCCCGAGCTGTACTGGCAGGCCCCACCCTCCTA
Celera SNP ID:            hCV27164169
SNP Position Genomic:     46006
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54007):
GTGTGCACACTTGCGTGCAGAGCCCGCCCTCAGGGTCGTGGATCAGGTGGCTGTGAGCAGGATGAGGGGCTAAGTCCACTCAAATTCCAGGAGCTGGAGC
R
CCTCGCCGCCAGCCTGGACGGGGCTCGGACCCCACTGCTGCAGAGGATGCAGACCTTCTCCCCGGCGGGCAGCAAGCTGCGTCTAGTGGAGGCCGCCGAG
Celera SNP ID:            hCV16232643
SNP Position Genomic:     55878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54008):
GAGCCCGCCCTCAGGGTCGTGGATCAGGTGGCTGTGAGCAGGATGAGGGGCTAAGTCCACTCAAATTCCAGGAGCTGGAGCGCCTCGCCGCCAGCCTGGA
Y
GGGGCTCGGACCCCACTGCTGCAGAGGATGCAGACCTTCTCCCCGGCGGGCAGCAAGCTGCGTCTAGTGGAGGCCGCCGAGGCCCACGCACAGCAGCTGG
Celera SNP ID:            hCV16232644
SNP Position Genomic:     55897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54009):
GGGATGACTGTAGGTCTTGTGCAGCTCTGGGGGACCCCACTCTCCCCCTTGGGGCCCTAGGCTTCCAGGCCTACCTGGCCAACAGCACCCAGCTGTTCCC
R
GGCGTACCTGCTGTGGGGAGAAACTCTCCGGAGGAGTGGGCACTGGCGGGTCAGGGTCCCGAGGAGGTGTGGTGGGTGGCCCTGGGGTGTGGCATGACCC
Celera SNP ID:            hCV848690
SNP Position Genomic:     18026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54010):
GTCTGGGCAGCTGGTGCCCCCAAGGGCTGAAGCTATGAGGGGTCTGTGGTCTTTTCATGGGGGACCCCACAGCAGTCTCAGTCCGGCTCAGTCCAGTGGG
R
TGACTGTAGGTCTTGTGCAGCTCTGGGGGACCCCACTCTCCCCCTTGGGGCCCTAGGCTTCCAGGCCTACCTGGCCAACAGCACCCAGCTGTTCCCAGGC
Celera SNP ID:            hCV848691
SNP Position Genomic:     17929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54011):
TCCCTGCTGGGCAGGGCATGTCTCCCTGCCCCCCACCCACAGGGAGGTAGACGATGACCTCAGAGCCTGGCAGCCGGTGAATAGGCCTGTGCCCCGCCCC
M
ACCCCGGAAGGCTGCGCTTGGCTCCCACAGTCCCCGCAACGCCAAGCCCTCCGAGAAGGGTGGGATTTGGACCTGGGATGTCTGGAGTCCTGGAACCTTG
Celera SNP ID:            hCV848692
SNP Position Genomic:     17715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54012):
CAGTGCTGCTGTGCCCATTCTCCGTGGTGGAAAAGAGCCCAGGAGCAGAAGCGGGGTGGGGGCTGGGGAGGTCCCCACACCCATTGTCAGATATCTTCTG
Y
GCTGGTCACCCTGGGGGGTGTCATGCTGTCTTCCCACCTGCTTTGTGAGTCCCTGATCCCTGAGGGGTGAGCAGCTGCTCAGTAGCTGTTGGCTTCCTCC
Celera SNP ID:            hCV28001687
SNP Position Genomic:     46848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54013):
TCTAGCGGGTCCTTCCCTGTCCAGGCACAGGGGCCACTGGCCCCCACCTGGGGCTCTCTGGAATGCTTGTGGTCAGGCCCACAGGGGGCTGCTGAGGCCC
R
GGTGTGGGGCTGGGTATAGGGTCTGTCCCTGAAGAGGCTCATACCCCTCCCTGCTGGGCAGGGCATGTCTCCCTGCCCCCCACCCACAGGGAGGTAGACG
Celera SNP ID:            hCV848693
SNP Position Genomic:     17567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54014):
TGATCAGTGTCTTCAAGTCAATATTTGTGCAAGTGCTCTCAGCTGGGAAAAATGTGACTGGCCTGCTGAAGGGGAGGGAGGAGGACAGATCGGGCCGAGG
R
GAGCGCAGCCTCCATCCAGGCACTCAGGGAACAGCGGGGGCGGCTCCCAGGGGGCTCAGTCGGGACCTTTAGTCTCCTTCGGAGCCTTTGGTGGGAGGGG
Celera SNP ID:            hCV848694
SNP Position Genomic:     17316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54015):
ACCTTCATGCCCTCATGAAAGGCATTTTATCCTGATGCCCCTCTCTGCAGCTCTTCCCACTGCCCTGTGCCCAGGAAGGGGAAGTGTCCGCTCCAGGGCC
R
CACAACCCCTGAAGCCTGGAGCCGGCCTGGGCCCTGGGTCCTGGGCCCCGTACTCCTGGGGCTCTTGCCCACCCCCTGTGAGGCAGTGGTCACCGGGCAG
Celera SNP ID:            hCV848695
SNP Position Genomic:     16578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54016):
GACAGTGGTGGGGCAGGTGGAGGAGGCTGGGCCTGAGAGCAGCCAGTGCCTGGAGTGGGGGCCCCAGGGCTGACCCAGAGGCCTGCATCCCAGCCGGCTC
Y
GCCGCTGCCCCAGTCCCAGTGTGTGACACATCGGTCTTCACCCCTGTCTGAGCCTCTGTCCCTGCCATTGTCCCGAGGGTGTTAGAGATAGAGGAGGTCT
Celera SNP ID:            hCV848696
SNP Position Genomic:     11715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54017):
TTGTGTGGACAAACAGCAGATCTGGTTTCCTGGGGGGGCGGGGGAGCAGCCAGGACCCAGCTCTGCCCCCTCTCCTCATCCCTGCCCCGGCTCCCAGCAC
K
ACCCCTCCCCTGCCAGGATGCAGGCCAGGATTCTGCTGGGAGCCTCCTCTCTTCCCCACTCACCCATGCAGGACAGGCCCCCAGCAGATGGCAGGCCCGG
Celera SNP ID:            hCV848697
SNP Position Genomic:     9782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54018):
ACTTTCTCAAACTCAGATTGAGGCCTCTGGGGCCTCAATCAACCCCAAGCCTGGGAGGGCGCCTTTGTGTGGACAAACAGCAGATCTGGTTTCCTGGGGG
R
GCGGGGGAGCAGCCAGGACCCAGCTCTGCCCCCTCTCCTCATCCCTGCCCCGGCTCCCAGCACTACCCCTCCCCTGCCAGGATGCAGGCCAGGATTCTGC
Celera SNP ID:            hCV848698
SNP Position Genomic:     9718
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54019):
GGCTATGGGGCCTGGGGCTGGGCAGTGTGTTCTCAAGGCTGCAGGCCAGGGGCTCTCAGGGACCCTCTGTAGGAGATGCACATTAGCTGGGCATCCCAGA
W
GGGGGTCGGGGTGAACCCTGCTGGGCAGCTGGAGCAGGCAGAGGGCAGGGGGAGGTTGTGGCCCTCACAGCCCCAGGTGGGCATCAGGGGATCCCTGGCC
Celera SNP ID:            hCV848699
SNP Position Genomic:     8531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54020):
CACGGAGCGCTGGTGGCAGAGTCCACCGCTGTCCCGCGGCCTGGAGTACAACGAGGTCAACGTCACCCTGGACCTGGGCCAGGTAGGGACCCTTCTTTGC
R
TGCTGCAGCCCCCATCTCTGTGTCTGTGCCCGTCGGGCCTACCTTGGGCCACAGGACCAGAAGGCGAGGTCTCCACCGTGAGCGAGACCTGGGGCCTGGG
Celera SNP ID:            hCV25629460
SNP Position Genomic:     10929
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(G,40)   total(A,4|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:54021):
TTCAGCCCGGAGTTCGTGGAGCCCCGGGTCAGCTGCATCAGCAGCCACGGCGCCTTTGGCCCCAACAGGTAATGGCAGGTAATGGGGCTGGGAGGGGCGC
R
GCCGAGGGCCCGGCGGCAGGGCCGGCTCTGACTCACCCACTGTGCTCTCACCAGTGCCGCCTGTCTGCCCTCGCGCTTCCCAAAGCCGCCCCAGCCCATC
Celera SNP ID:            hCV25629461
SNP Position Genomic:     42358
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,16)   caucasian(A,19|G,3)   total(A,25|G,19)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54022):
TTCCCAAAGCCGCCCCAGCCCATCATCCTCAGGGACTGCCAGGTGATCCCGCTGCCGCCCGGCCTCCCGCTGACCCACGCGCAGGATCTCACTCCAGCCA
Y
GTCCCCAGCTGGACCCCGACCTCGGCCCCCCACCGCTGTGGACCCTGATGCAGAGCCCACCCTGCTGCGTGAGCCCCAGGTGAGGGCCATAGTCTCTAGA
Celera SNP ID:            hCV25629462
SNP Position Genomic:     42535
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,10)   caucasian(C,33|T,3)   total(C,51|T,13)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   JBIC-allele(T,64|C,1437)   total(C,1437|T,64) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54023):
CAGCTGGACCCCGACCTCGGCCCCCCACCGCTGTGGACCCTGATGCAGAGCCCACCCTGCTGCGTGAGCCCCAGGTGAGGGCCATAGTCTCTAGAGGGAC
R
GGGGTGTCAGGGCAGGACTCCGGGTCCCAACCCAGGGCAGGTTGTCCAGGGGGCGGCAGGGGCTCATAGCTCAGCCTGCTCACTAGGGCCTATCCCTGCA
Celera SNP ID:            hCV25629463
SNP Position Genomic:     42641
SNP Source:               Applera
Population(Allele,Count): african american(G,20)   caucasian(A,1|G,37)   total(A,1|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:54024):
CCTGCTGCGTGAGCCCCAGGTGAGGGCCATAGTCTCTAGAGGGACGGGGGTGTCAGGGCAGGACTCCGGGTCCCAACCCAGGGCAGGTTGTCCAGGGGGC
R
GCAGGGGCTCATAGCTCAGCCTGCTCACTAGGGCCTATCCCTGCAGGCCACCGTGGTCTTCACCACCCATGTGCCCACGCTGGGCCGCTATGCCTTCCTG
Celera SNP ID:            hCV25629464
SNP Position Genomic:     42696
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,5)   caucasian(A,3|G,35)   total(A,8|G,40)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,8)   caucasian(A,2|G,34)   total(A,14|G,42)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   no_pop(G,-|A,-)   no_pop(A,-|G,-)   JBIG-allele(A,64|G,1437)   total(G,1437|A,64)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54025):
CTGTCCACATGGCTACGGCTGCCGCACCCTGGTGGTGTGTGAGGGCCAGGCCCTGCTGGACGTGACCCACAGCGAGCTCACTGTGACCGTGCGTGTGCCC
R
AGGGCCGGTGGCTCTGGCTGGTGAGTCCCAGCTGATGTCCTGCTCAGGGACCAGCTGTCCTTATACTTGTCATTACCACTGTGGTACACTTGGGCTGGGT
Celera SNP ID:            hCV25629465
SNP Position Genomic:     43560
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,27)   caucasian(G,32)   total(A,3|G,59)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,17)   caucasian(G,32)   total(A,3|G,49)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54026):
TTAATTGTGAGAGATTTGTCACCAATCATCACTGGTTCCTCCTTAAAAATTAAAAAGTAACTTCTGTGTAACCGAATGAATGTTGACTTAAATACGGAGA
D
AGTCTCAAGACAGGTCTGGAACCGGCCTGGACAGAGGCACCAAACTCTTCCTGGGGTGACCGTTTTCCGTTGTTAGGTCAAATAACTAACTGTCTCTGGG
Celera SNP ID:            hCV8524515
SNP Position Genomic:     64337
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|A,1|-,9)   total(G,1|A,1|-,9|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:54027):
GCCCGCCACGCACCATCCCGCCCGACTGCCTACTGTGCCAGCCCCAGACCTTTGGCTGCCACCCCCTGGTCGGCTGTGAGGAGTGTAACTGCTCAGGGCC
Y
GGCATCCAGGAGCTCACAGACCCTACCTGTGACACAGACAGCGGCCAGTGCAAGTGAGAGCCCAGAGCGGCGTCAGCGCGGCCCCTGGTGGCCTTAAGGA
Celera SNP ID:            hCV25629466
SNP Position Genomic:     45058
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54028):
CAGCTGTATGTTGAGCGCCTAACACACGCTGGGCCGTTTTCCTGGGAATGGGAACACAGGGTGGGACCCCAGCCCGGCCTCAGGAGCACCTGTTCCGGGG
R
AGGCAGCTGGGAAACACGCAAACCAGTACTCAGCGTGGTGCCCGGAGGGTGTAACACCCTAGGGTGGCAGTGCAGGCATGGGGCTGGACAGAAGCCACTC
Celera SNP ID:            hCV1763980
SNP Position Genomic:     22499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54029):
AGACCCAACGTGACTGGGCGCCGCTGTGATACCTGCTCTCCGGGCTTCCATGGCTACCCCCGCTGCCGCCCCTGTGACTGTCACGAGGCGGGCACTGCGC
Y
TGGCGTGTGTGACCCCCTCACAGGGCAGTGCTACTGTAAGGTGAGTGAGGGCTGGGCCCAGATCTGGCCTCTCCCTCCGGCCTCATCAGCTGAAAGTGTC
Celera SNP ID:            hCV25629467
SNP Position Genomic:     45446
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,40)   total(C,66|T,2)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54030):
GGGCAGCCAACACCCCACATCTGCTGTGCCCTGTGTGCCTGCTTTCGGGGGCAGCCGAGGGCACTGCAGAGCATCCACCTCCCGGGAGCCCCTCACAGGA
Y
GGGCAGCAGCCCTGGTGCTGGCACCGGCACATTCCTGGGCCTCACCCAGAGTCCTCAGTAAGGTAGGGCCGGGCTCATTCTGCGGAGAAGCAACCCCAGG
Celera SNP ID:            hCV1763981
SNP Position Genomic:     22252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54031):
GGGGTGCCTACGAGGTCTCACTTTGGTGTGAGTGACCTGGGGTGGAGGGGGCTCAGCTCCCGCCCCTGCCACAGGTGCAGACCCAACGTGACTGGGCGCC
R
CTGTGATACCTGCTCTCCGGGCTTCCATGGCTACCCCCGCTGCCGCCCCTGTGACTGTCACGAGGCGGGCACTGCGCCTGGCGTGTGTGACCCCCTCACA
Celera SNP ID:            hCV25629468
SNP Position Genomic:     45368
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(A,2|G,36)   total(A,2|G,62)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54032):
GCCCGCCCAGCTCCCCCAACCTTTCAGGACACAACAGACAACTTCCCTGCTGCCCCAGCCCTGACCTTCACTCCAGTCAAGCAGGGACCAAGGCCCAGGA
Y
GGGGATGGCAGGGTGGGGGCAGCCAACACCCCACATCTGCTGTGCCCTGTGTGCCTGCTTTCGGGGGCAGCCGAGGGCACTGCAGAGCATCCACCTCCCG
Celera SNP ID:            hCV1763982
SNP Position Genomic:     22135
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54033):
TCCTTTTAGAGTTCTTTGTTATTCTTGGTGCTTACCCTCTGTCAGACTTCAGAGTAACAACCGTCTTCTCCCCTCTCACAGCTCATCTGGTTTTTCTTTG
T
TTTTTTTTTTTTGTTTGTTTGTTTTTTGAGACAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGGTGCAATCTCGGCTTACTGCAGCCTCTGCCTCCC
Celera SNP ID:            hCV27164170
SNP Position Genomic:     47107
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,9)   total(-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54034):
GATGGTCGTCGAGGGGGGTCACTCGCACTCAAAGCGTGCAAGGGAGAGCGGTGGGGGGCAGTGCAGTCCAACGGGCCAGGCCCCTTCAGCCAGTGAGCTG
Y
GGTCTCTGTCACGCGGCCTCTTGGCCTGTGGGAGCCTCAGTGGCAAGGCCCGGAGACGTCAAGGGGCCCGGGCACCGCGGGGACCCAGGCTTTTCTGGTG
Celera SNP ID:            hCV1763983
SNP Position Genomic:     20809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54035):
GTCACGAGGCGGGCACTGCGCCTGGCGTGTGTGACCCCCTCACAGGGCAGTGCTACTGTAAGGTGAGTGAGGGCTGGGCCCAGATCTGGCCTCTCCCTCC
R
GCCTCATCAGCTGAAAGTGTCCTTACGGGCCTTTCGGGGCAGCTGGGGCTTCCTAGAAGCTTTTGGGAGAGTCATCCCCATTGGCAGGTGGGTACCAGGA
Celera SNP ID:            hCV25629469
SNP Position Genomic:     45525
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,10)   caucasian(A,20|G,10)   total(A,38|G,20)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54036):
AATCAGACCCTCCCCATACCAGGATCACATCCCCCCTCCCCTACCCATGATCAGGCCCCCACCTTCACCATCAGACCCTCCCCCCAACCCATGACCAGCG
C
CCCCCCCACCTCACGATCACATCCCCTCTCCCCCCACAATCAGTCCCCCCTCATGGTTAGACACCACCACCAATGCCCCACCACTGGCAGCGGACACCAG
Celera SNP ID:            hCV27164171
SNP Position Genomic:     50282
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,2)   total(C,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54037):
CCATCTTAGGAGCTGCTGACCTGTCAGAGGGACTAGGGGGTTGGACCTTTGGACCTGCCTGGTGGCAGGGACCACTGTCTGGCCACCAGGCCTGGCTGGA
Y
GTGAGGGCTGTGGGGACACTGGGGTGTGTTCCTGCCTCCACCCTGGCCAGTCCCTGCCTGGGCCGCAGGTAGGCCTCTCCCTAGCTTGCTCCATCTGCAG
Celera SNP ID:            hCV1763984
SNP Position Genomic:     19636
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54038):
GGCCCCCACCTTCACCATCAGACCCTCCCCCCAACCCATGACCAGCGCCCCCCCCACCTCACGATCACATCCCCTCTCCCCCCACAATCAGTCCCCCCTC
R
TGGTTAGACACCACCACCAATGCCCCACCACTGGCAGCGGACACCAGCCGTCAGAGCAGGGCAGGCCATGGCAGGGAGTCTGCAGGTCCCTCGGGCCCAG
Celera SNP ID:            hCV27164172
SNP Position Genomic:     50335
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54039):
ACCGGCAGGTGGTGCCCCACGAGCGGCAGCCAGGGACGGAGATGCTCCGTGCAGACCTGCGGCACGTGCCTGAGGCTGTGCCCGAGGCTTTCCCCGAGCT
R
TACTGGCAGGCCCCACCCTCCTACCTGGGGGACCGGGTAAGCAGGGCATCAGGTCTGGGGGAGGCACTTTGAGGATGGCCAGGACGCCTGAGAGGGTTGG
Celera SNP ID:            hCV27492608
SNP Position Genomic:     46083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54040):
AAGAGGGCCCCCAGCCTGCAAGGCTGAGCCCCGCTTGCTCCCTGCAGCCCAGTCCCTGGGGGCTCAGTGGGCCCCTGGCTGTGGGCTGGTCAGCATGGGA
S
TGAGCAGAGCCTGGGGAGGGGTGCCCGGTGTGAGGTGGGGGCAGGGGCCCCATCTTAGGAGCTGCTGACCTGTCAGAGGGACTAGGGGGTTGGACCTTTG
Celera SNP ID:            hCV1763985
SNP Position Genomic:     19486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,3)      total(G,3|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54041):
AGGGGCTCCCTGGGGGGGTGAGAGGGCCCAGGGCTGCAGTCACGGACCCCTTCTGCAGGGTGCGACTGTACCCCATGTGGGACAGAGGCCTGCGACCCCC
R
CAGCGGGCACTGCCTGTGCAAGGCGGGCGTGACTGGGCGGCGCTGTGACCGCTGCCAGGTAGGGCTGTGGGGTAAGCAGGGCTGGGTGGGTGGGGCCTAG
Celera SNP ID:            hCV27164173
SNP Position Genomic:     50651
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54042):
TCAGGCTGACACACGGGGAGAAAGTAGGCAGAGCCAAGGTGGGGCTGGGGCAGGGGCTTGGGGTTTCGGGGGCCTGGGAAGGAGCAGCTTTCCTCTGCCC
K
GGGCAGGGCTGCCCTGACGTGCACCGGGCCACAGCAGTGCTACTGCCCCAGTGCCTGGGCTGGTGGAGTCTCCGAGGCAGACTCAGCTTCAAGAGGGCCC
Celera SNP ID:            hCV1763986
SNP Position Genomic:     19295
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54043):
AGTGTGGGTGTGCGTGTTCATGTCCTTTCACGGGCGTGTGGGTGTGTTAGTGCACGTGTAGTGGGTGCATCTTCACGTGCGTTTGTGTGCTTGTTCAGAC
R
TGTGTCACACACTGCGTGTGGAATGTACACGGGTACCCCACGCGGTGCACGTTTGCGTGCATGTCCATGAGCAGGTGCTGTGTGGTGGGATGGCACGTCC
Celera SNP ID:            hCV27492609
SNP Position Genomic:     36230
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54044):
CACAGACACATGGGCTGTCCCTGGGTGGAGGTCAGGCTGACACACGGGGAGAAAGTAGGCAGAGCCAAGGTGGGGCTGGGGCAGGGGCTTGGGGTTTCGG
R
GGCCTGGGAAGGAGCAGCTTTCCTCTGCCCGGGGCAGGGCTGCCCTGACGTGCACCGGGCCACAGCAGTGCTACTGCCCCAGTGCCTGGGCTGGTGGAGT
Celera SNP ID:            hCV1763987
SNP Position Genomic:     19264
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54045):
GCTGTGAGGAGTGTAACTGCTCAGGGCCCGGCATCCAGGAGCTCACAGACCCTACCTGTGACACAGACAGCGGCCAGTGCAAGTGAGAGCCCAGAGCGGC
R
TCAGCGCGGCCCCTGGTGGCCTTAAGGACAGCATTTCCTCTAGCCAGAGGGTCCTGGCACCCACCCTGCTCCCATTTGTGCTCCCTGGGTGCAGCAGCGC
Celera SNP ID:            hCV25922226
SNP Position Genomic:     45130
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,33)   total(A,1|G,69)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54046):
GGGGAGATGTCCGCAGCTGAGGGTTAGGGGGAGGGGCTGCAGTCAGGGAAGGCTTCTCTGAGGAGGTGTACAAAGCGTCCTGTGAAGACTGAGCCAGGCT
S
TCCCCCAGCCCCGAGGCACAGACACATGGGCTGTCCCTGGGTGGAGGTCAGGCTGACACACGGGGAGAAAGTAGGCAGAGCCAAGGTGGGGCTGGGGCAG
Celera SNP ID:            hCV1763988
SNP Position Genomic:     19147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,2)      total(G,1|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54047):
TGAGAGGGGCTGGGGAGGGGCTCACCCTCCCTTGGAGCCTCCAGGCTTGTGACAGGGCCTGGAGACAACTTCCCTCCTTTGCCCCCAGGTAGGGGGAGCC
Y
AGGGCTCCCCTCAGAGGCTATGGCGGGTGGGAGCACTTGGCTGCAGCAGGGGCTGAGCCCTGGCTTGCATGAGTGTGAAGGCGGGGTGCTGCTTGGGCAC
Celera SNP ID:            hCV1763989
SNP Position Genomic:     18546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54048):
CGCCACCCCTCGTCTCTGTGCCCACCCGCCACCCCTCGTCTGTGCCCACTCGCCATCCCTCGTCTCTCCGTGCCCACTCGCCACCCCTCGTCTCTGTGCC
C
ACTCGCCACCCCTCGTCTCTGTGCCCACTCGCCACCCGTCTCTCCATGCCCACTCGCCACCCCTCGTCTCTCCGTGCCCACTCGCCACCCCTCATCTCTC
Celera SNP ID:            hCV27164178
SNP Position Genomic:     59378
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54049):
GCCACCCCTCGTCTCTGTGCCCACCCGCCACCCCTCGTCTGTGCCCACTCGCCATCCCTCGTCTCTCCGTGCCCACTCGCCACCCCTCGTCTCTGTGCCC
A
CTCGCCACCCCTCGTCTCTGTGCCCACTCGCCACCCGTCTCTCCATGCCCACTCGCCACCCCTCGTCTCTCCGTGCCCACTCGCCACCCCTCATCTCTCC
Celera SNP ID:            hCV27164179
SNP Position Genomic:     59379
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54050):
TGCAGACCCAACGTGACTGGGCGCCGCTGTGATACCTGCTCTCCGGGCTTCCATGGCTACCCCCGCTGCCGCCCCTGTGACTGTCACGAGGCGGGCACTG
Y
GCCTGGCGTGTGTGACCCCCTCACAGGGCAGTGCTACTGTAAGGTGAGTGAGGGCTGGGCCCAGATCTGGCCTCTCCCTCCGGCCTCATCAGCTGAAAGT
Celera SNP ID:            hCV25921640
SNP Position Genomic:     45443
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,1)   caucasian(C,2)   total(C,23|T,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54051):
TGAGGGCTGGGCAGGGCAGTGACCAGCCTGTGCCACAGGAGGGACATTTTGGTTTCGATGGCTGCGGGGGCTGCCGCCCGTGTGCTTGTGGACCGGCCGC
Y
GAGGGCTCCGAGTGCCACCCCCAGAGCGGACAGTGCCACTGCCGACCAGGGACCATGGGACCCCAGTGCCGCGAGTGTGCCCCTGGCTACTGGGGGCTCC
Celera SNP ID:            hCV16183200
SNP Position Genomic:     50980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54052):
AGATGGGCAGGACCCCTGGCTTCCAGGTTGGTCTGGGACAGTCTTGAGGGCTGGGCAGGGCAGTGACCAGCCTGTGCCACAGGAGGGACATTTTGGTTTC
R
ATGGCTGCGGGGGCTGCCGCCCGTGTGCTTGTGGACCGGCCGCCGAGGGCTCCGAGTGCCACCCCCAGAGCGGACAGTGCCACTGCCGACCAGGGACCAT
Celera SNP ID:            hCV16183201
SNP Position Genomic:     50936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54053):
CGTTGTTAGGTCAAATAACTAACTGTCTCTGGGACCCTACAGCAGCTCCCCACGCTAGCACCTGTCCAGCCGAAACTCCCTTTGGGCAAAGAAACTAAGC
R
TTGGCAGGTAAAAGAAAAGACTTTATTAATAATCAGTGGGTGGGAGGTGAGGGTGTGCAACGCACTGCAAGCGCCCAGTTCCTCGGAGGACGGCGCGTGG
Celera SNP ID:            hCV16232654
SNP Position Genomic:     64505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:54054):
GGGGAGGTAGAGACTGCCACATCTTGGAGCCCACCCCTTGAGTCCTGGTAGCTCCAGGCTTACCCGGCTCCTGCCCCTGCCCAGGCTGCAACTGCGAGTC
Y
GACTTCACGGATGGCACCTGCGAGGACCTGACGGGTCGATGCTACTGCCGGCCCAACTTCTCTGGGGAGCGGTGTGACGTGTGTGCCGAGGGCTTCACGG
Celera SNP ID:            hCV25921648
SNP Position Genomic:     27103
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,40)   total(C,67|T,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54055):
CCCAAGGTGGACGGGTCGACCAGAAAGCAGGGTCAGGAGAATGTTCTAGAGCCTGGCAGGGCAGCATTGCTGCCCCATCTGCGGGCCTGGGCCCAGGACT
Y
CAGCTTGCGGGCCATGCAGAAGGTTTCAGGGACCAGCAGGTGGTCCACAGTCTCTGACGATGATGTTGATTCTGAGCAGCTGCCTCCATGTCAGGAGCTG
Celera SNP ID:            hCV8236082
SNP Position Genomic:     44659
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54056):
GGCGCCACGGGCCACTGACGGCCCCTCCCCACCCTGCTCCCAGGTGTGCGCCCGGATTCTTTGGGAACCCACTGGTGCTGGGCAGCTCCTGCCAGCCATG
Y
GACTGCAGCGGCAACGGTGACCCCAACTTGCTCTTCAGCGACTGCGACCCCCTGACGGGCGCCTGCCGTGGCTGCCTGCGCCACACCACTGGGCCCCGCT
Celera SNP ID:            hCV22273674
SNP Position Genomic:     49754
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,4)   caucasian(C,30)   total(C,52|T,4)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54057):
CGAGGGGAGGCACACAGCAGGAGCGGGCAAGGGCTGGGCTGGCCCAGGACTCTGGGCATCGAGGGGGCTGGGTGCCCCGGTGCCCTGTCCGAGCAGTGCG
R
TCAGGGTGCTGGCCCGGACGCCTGGGGCTAGGAGGGGCTTTTCCTGCCCCGGGAATTGGCACAACGCCCTTCTTCCTGCAGGGCGGGGGCTGAGTCACAG
Celera SNP ID:            hCV9572632
SNP Position Genomic:     15946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54058):
CGCTGCTTCTGCTTTGGGGCCACGGAGCGCTGCCGGAGCTCGTCCTACACCCGCCAGGAGGTGCGCCTGCAGGACTGAGGGCATTGCCTTCTCGGGGAGG
K
CTTAGGTGGGACTGGATGCAAGATGGGGCCCTGTGATGTGTGGGCATCCACCCATGTGCAGCCACACGTGTGTGCCCACAGTTCGTGGATATGGAGGGAT
Celera SNP ID:            hCV25629470
SNP Position Genomic:     45864
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,5)   caucasian(G,31|T,1)   total(G,56|T,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54059):
CAGGAGGTGCGCCTGCAGGACTGAGGGCATTGCCTTCTCGGGGAGGGCTTAGGTGGGACTGGATGCAAGATGGGGCCCTGTGATGTGTGGGCATCCACCC
R
TGTGCAGCCACACGTGTGTGCCCACAGTTCGTGGATATGGAGGGATGGGTGCTGCTGAGCACTGACCGGCAGGTGGTGCCCCACGAGCGGCAGCCAGGGA
Celera SNP ID:            hCV25629471
SNP Position Genomic:     45918
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,1)   caucasian(A,18|G,2)   total(A,37|G,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54060):
GCTGACGGGCTCTGAGCCTGTGGCCAGAGTCTGGCCAGGTCACCTCTGTCTGTCCTGCCTCCAGGTGTCATCCTACGGTGGGACCCTCCGTTATGAACTG
Y
ACTCAGAGACCCAGCGGGGAGATGTCTTTGTCCCCATGGAGAGCAGGCCGGATGTGGTGCTGCAGGTGAGGGAGCTGAGATGATGTGGCAGGGTGGTTGG
Celera SNP ID:            hCV25629472
SNP Position Genomic:     46422
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,36|T,2)   total(C,67|T,5)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,36|T,2)   total(C,71|T,5)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54061):
GGGAGATGTCTTTGTCCCCATGGAGAGCAGGCCGGATGTGGTGCTGCAGGTGAGGGAGCTGAGATGATGTGGCAGGGTGGTTGGGTGGGCGTGGCGCAGT
R
GCACCGTGGTCCAGGCCCGTGCCAACCCTCACCTCCCCATGTGCCTTCCCAGGGCAACCAGATGAGCATCACATTCCTGGAGCCGGCATACCCCACGCCT
Celera SNP ID:            hCV25629473
SNP Position Genomic:     46539
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,18)   caucasian(G,22)   total(A,2|G,40)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54062):
GGGCCAGCCTGTAGTCAACGCCCCTCTCCTCTGCCTCAGCTGTGTGGCTTCCCTCTGTCAGCCTCAAGCTGTCTTTAAAATGGGCACAGCGTGCTGGCCC
S
CCTCACCTGAGACTGTGAGCTTGGCCCGAGGAGCCTGGGAAGTGGCCACAGTTTCAGTGGCAGCTGTGGGCTGTGGTGCTCCATGCCTCAGAGCCAGCTT
Celera SNP ID:            hCV848700
SNP Position Genomic:     7999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54063):
ATGGGGGTCCGTGAGGGTGCCCAGGCCCTGTCCCGGTAGGGAATGAGCGCAAGTATCCAGGCCCAGCACAGGGCTCTGTGCTGGGGGTGCCCAGACCACT
R
CTGACGGGCTCTGAGCCTGTGGCCAGAGTCTGGCCAGGTCACCTCTGTCTGTCCTGCCTCCAGGTGTCATCCTACGGTGGGACCCTCCGTTATGAACTGC
Celera SNP ID:            hCV25629474
SNP Position Genomic:     46322
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,1|G,35)   total(A,3|G,69)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,30)   total(A,2|G,62)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54064):
GTTGGGGGGTCTGTTCTAGGCTCCCTGTTCTGTCCCATTGAGTGTGGCCCCACTGAGGTGCCATCCTGGACCCACAGGGGAACTTCCGGCATACGGAGAC
K
CGCAACACTGTGTCCCGCGAGGAGCTCATGATGGTGCTGGCCAGCCTGGAGCAGCTGCAGATCCGTGCCCTCTTCTCACAGATCTCCTCGGCTGTCTCCC
Celera SNP ID:            hCV25629475
SNP Position Genomic:     47829
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,33)   caucasian(T,38)   total(G,3|T,71)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54065):
CCACCTTAGGGAGAGTCTAGGGGCCCTGAGGGCCTGTGTAACCTGAGCTGTCTCCTCCCTGGTACCTCTGCCTTCCCGGAAGGAGAGGCTGGGGCAGGGG
Y
GAGTAGCTGGAGATTTGCTGGGTGGGGGCAGAGGGCCCTGGAGCAAGACGTTATGGGGATGAATGGAGGAGCCTGGGCTGGGCCCGCCCCCTCTGCCTGC
Celera SNP ID:            hCV848701
SNP Position Genomic:     7306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54066):
GAGAGGCTACCACACACGATGAGGCTGGAATGCCGGCGCCACAGCGTGGCCTGTGCTACCTGCTATGAGCGACAGGCAACATGACTCTGTCCTGCCATCA
R
TTCTCAAACTAGCTGCCCTTGCAGCCCGCAGCCCCTACCCGCCCGCTCCCGTTCCCAGAAAAGCCTGGGTCTCGCCTCTGTCTCGTGCGTTGGGAAGCCC
Celera SNP ID:            hCV25762647
SNP Position Genomic:     42993
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(G,38)   total(A,2|G,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:54067):
ACTCGCAACACTGTGTCCCGCGAGGAGCTCATGATGGTGCTGGCCAGCCTGGAGCAGCTGCAGATCCGTGCCCTCTTCTCACAGATCTCCTCGGCTGTCT
Y
CCTGCGCAGGGTGGCACTGGAGGTGGCCAGCCCAGCAGGCCAGGGGGCCCTGGCCAGCAATGTGGAGCTGTGCCTGTGCCCCGCCAGCTACCGGGGGGAC
Celera SNP ID:            hCV25629476
SNP Position Genomic:     47927
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,36)   total(C,68|T,6)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54068):
GCCGGTGGGGAGGGGGCGCAGCTCCGCCCTACCCGGGACAGGCTGGAACCTGTTGGCCTCTGGATGGGGTGGGAGGGGCCAGCCACCTGAGGCTCCCACT
R
GCCCCTCTCGGAGGAGTCTAGGGACTCGAGGAGACCTCCAAAGTAGGGGAGGGCCAGCTGCGAAGTTTTGACTGGGGCTGGGAACACGTGGCTCCCAGGA
Celera SNP ID:            hCV848702
SNP Position Genomic:     6812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54069):
AAGGGGAAGTGTCCGCTCCAGGGCCACACAACCCCTGAAGCCTGGAGCCGGCCTGGGCCCTGGGTCCTGGGCCCCGTACTCCTGGGGCTCTTGCCCACCC
S
CTGTGAGGCAGTGGTCACCGGGCAGAGGCCTCCTCTGGGAACCGTGGCCCTCCCAGGGCAAGCTGGGTAGTGGGGACTGGAGGGTGCAGTGGCTGAGAGG
Celera SNP ID:            hCV1763990
SNP Position Genomic:     16653
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54070):
GACACCCGCTCCGCTCTGCAGTGTGTGGCTGCAGCCCTGCAGGAACCTTGCCCGAGGGCTGCGATGAGGCCGGCCGCTGCCTATGCCAGCCTGAGTTTGC
Y
GGACCTCATTGTGACCGGTGCCGCCCTGGCTACCATGGTTTCCCCAACTGCCAAGGTGAGCAGAGGGTCAGGGCAGGAAGGGGTTCTGCCACCCACATGG
Celera SNP ID:            hCV22274695
SNP Position Genomic:     35235
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,10)   caucasian(T,2)   total(C,8|T,12)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54071):
CCTTTGTTCTGGGATCTGGAGCGGATGCCCTGGGACGGGGGTGGGGGCGGCTGGCACTGGGCATCGGGAAGGCTTCCTGCTCCTGGAAGGCTGAGGAGGG
Y
GGGGTGGGCTGCATCACGGTTCGGATCTCATACCCCTGGTGTGCGGTGGGGCAGGGGCTGGCGCAGGGGAGGGGAGACTAGTCCCTGTGGTGTCCACCCA
Celera SNP ID:            hCV1763991
SNP Position Genomic:     13427
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54072):
GCCCTGCTGCCCGGCAACTGCACCCGTAGGCGTCGGGCTGGGAGGGATGCACCCTGGGGAGGGTTGCGCGGGGAGGAGGGAGGCCTGCTGGGCGTACCCC
R
TAAGTAGGCTGTGTGCCTGATGCTGGGGCCCAGCCAGGACAAGTCGGAGCCAGCCTTCTGGGTTCATGGTCAACCCTTTCTCCCCCGCTATGATCCGGTC
Celera SNP ID:            hCV25629477
SNP Position Genomic:     49987
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 INTRON;DONOR SPLICE SITE


Context             (SEQ ID NO:54073):
CTAGGGCAGTGGGGCAGGGCCTGAGTGCTGACCCCAGGATATGCGAGGGTGGGCGCCACGGGCCACTGACGGCCCCTCCCCACCCTGCTCCCAGGTGTGC
R
CCCGGATTCTTTGGGAACCCACTGGTGCTGGGCAGCTCCTGCCAGCCATGCGACTGCAGCGGCAACGGTGACCCCAACTTGCTCTTCAGCGACTGCGACC
Celera SNP ID:            hCV25629478
SNP Position Genomic:     49703
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54074):
AGCACTACCCCTCCCCTGCCAGGATGCAGGCCAGGATTCTGCTGGGAGCCTCCTCTCTTCCCCACTCACCCATGCAGGACAGGCCCCCAGCAGATGGCAG
K
CCCGGGACAGAAGCGGCTGCCAGGCTGTGTGTGTGAGCCATTACTCCTCACGGTGGCCCCAGGCAGGTGCAGCCTTATCCCCACTCTTTGGATGGGGACA
Celera SNP ID:            hCV9572567
SNP Position Genomic:     9877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54075):
GCCAGCAGCCTTTGTTCTGGGATCTGGAGCGGATGCCCTGGGACGGGGGTGGGGGCGGCTGGCACTGGGCATCGGGAAGGCTTCCTGCTCCTGGAAGGCT
R
AGGAGGGCGGGGTGGGCTGCATCACGGTTCGGATCTCATACCCCTGGTGTGCGGTGGGGCAGGGGCTGGCGCAGGGGAGGGGAGACTAGTCCCTGTGGTG
Celera SNP ID:            hCV1763992
SNP Position Genomic:     13419
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54076):
GAGGTGGGGCCTCCAGGAAGGAGAGGGAAGAGGAAGGCGTGGCCAGCAGACAGAGATGTGGGAGACACCAGGAGGTCTCATGAATGCTGCTGCCTCCTCA
Y
GCCCCCGAAAGCTGCTGTTTGGCTTGGAGTGGCCTCCCCTGAGCAGCCAGGGCCCAGGGCTGGGCTGGGCTGGGCTGCTGCTGCCAGGACTCTGAGCTGC
Celera SNP ID:            hCV25760973
SNP Position Genomic:     43909
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,22)   caucasian(C,12|T,10)   total(C,22|T,32)   
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,22)   caucasian(C,18|T,8)   total(C,28|T,30)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54077):
GGCCACTGACGGCCCCTCCCCACCCTGCTCCCAGGTGTGCGCCCGGATTCTTTGGGAACCCACTGGTGCTGGGCAGCTCCTGCCAGCCATGCGACTGCAG
Y
GGCAACGGTGACCCCAACTTGCTCTTCAGCGACTGCGACCCCCTGACGGGCGCCTGCCGTGGCTGCCTGCGCCACACCACTGGGCCCCGCTGCGAGATCT
Celera SNP ID:            hCV25629479
SNP Position Genomic:     49763
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54078):
GCAGGAATGCAGAGGAGGCTGGCGCAAGTGGACATTCCTGGGATACCTGTGCCGAGGTGGCGGCCACTGAGGGTTAGGTGGGGTCGGGTGCCTGCTCTCC
R
GTCCCCAGCTCTGGGCTCTCCTTGGCCTTGGAGGCCCCTGCACAAGCAGGAGGCTGCAGCTGGGTGCCTCCAAGCGAAGAGTGAAACCCCCAAGGTGGGC
Celera SNP ID:            hCV1763993
SNP Position Genomic:     11398
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54079):
GGACTTGTCTCGGGGCAGCAGGGTGACTGTGGAGGAGGAAGGGGGCCCCGGCCCTTCTCGGCTATCTGACCCTCCCGTTCCCTCTGCAGGGCCAGTACTG
Y
GACATCTGCACGGCTGCCAACAGCAACAAGGCACACCCCGCGAGCAATGCCATCGATGGCACGGAGCGCTGGTGGCAGAGTCCACCGCTGTCCCGCGGCC
Celera SNP ID:            hCV1763994
SNP Position Genomic:     10769
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,8)   caucasian(C,26|T,10)   total(C,54|T,18)
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54080):
CTGAGCTGGCCCACGCGAACAGTTCAGAACCAGCCTTGCTGCCCGCTCCCAGCTTCTCTATTTCATGGACAGGGATGGAGGTTCTTACCAGCCGGCTCCA
Y
GGAAGGGCATCCCAGCAGCCCTGAGAAAGGGACTGTGGCCTCCGATATCCCAAACCACAGCGCTGGCGTTCCTCCAGACCTCATCCCGCTGAGACAACAT
Celera SNP ID:            hCV848705
SNP Position Genomic:     2756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:54081):
CCCCACTCTTTGGATGGGGACATTGAGGCTCAGCAGTTACTGTGACTTGGCCTCTTCCCAGGACTCGGAAGCAGCAGCCAGGAGGCCCAGGCCCACCTGC
Y
GCTGTCCACACGTCCACTCTGGGGCCGGTCCCCACAGGCCTCCGGAACAGCTTAATTCTGTCTCTCTGGAGACCCTAATCCAGAAGGCTGTGGGCAAGAT
Celera SNP ID:            hCV1763996
SNP Position Genomic:     10056
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54082):
CCTCCTTCATCTGAGAGCCGCGGGTCTGCTGACCGCCCTGGCCGCGGATTGGGCGTGTGAGAAGTCCTTGCCGGCCGGTCTGGAGTGGAGCTGCGGTTGG
R
GCAAGGCAGGCAGGCACAGGAGGTGCCCAGGCGATGAAGCCGCAGCTCCATCTGAGGGGGCTCACTAAGGCTATGGGGCCTGGGGCTGGGCAGTGTGTTC
Celera SNP ID:            hCV1763997
SNP Position Genomic:     8362
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54083):
CCCACCCCACCTTCCCCGTGGAAGTCCTCATCAACGCCGGCCGCGTGTGGCAGGGTGAGTGTCTGGTGTGGGGGGTGGAGAGGCTACCACACACGATGAG
R
CTGGAATGCCGGCGCCACAGCGTGGCCTGTGCTACCTGCTATGAGCGACAGGCAACATGACTCTGTCCTGCCATCAGTTCTCAAACTAGCTGCCCTTGCA
Celera SNP ID:            hCV25762938
SNP Position Genomic:     42916
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,38)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:54084):
GTGGCTTCCCTCTGTCAGCCTCAAGCTGTCTTTAAAATGGGCACAGCGTGCTGGCCCGCCTCACCTGAGACTGTGAGCTTGGCCCGAGGAGCCTGGGAAG
Y
GGCCACAGTTTCAGTGGCAGCTGTGGGCTGTGGTGCTCCATGCCTCAGAGCCAGCTTGGATGAGAAACCAGCCGGCCTCGCCCAGCTCATGTCTAGCAAT
Celera SNP ID:            hCV1763998
SNP Position Genomic:     8042
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54085):
TGGAGCCCCCCAGCCAGAACAGGGTCCAGCGGGGGTTAGCTGTGGGAACCTGGGTGCCTCCTGGCTGCCCCCTTATCTGGTCAACTCAGAGGGGCCGGGT
Y
TCAGGACGGAGGGCCTGTGACTGTCTCCTTACCTGCTGCCACACCTCACCACAGAGGGCCTGGCTGAGTGTCCCCAGCTGAGATTTTGCCGTTCTGGCAG
Celera SNP ID:            hCV1763999
SNP Position Genomic:     7664
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54086):
TGAGGCGTTGGTTTAAGGTACGCTCTTTCAAGAGGCTATGGCTGGAGTTTCCTCTTGGTCACGCTGACGTCTTCGGTTTTTATCTCATGAAGGAGACAGC
S
CAGCCCCACGATCGTCCTTGCCTCTGTCAGTTCTGGCTGGCTCCTGCCCTTGTATCATTTCTCCTTTTCTGCTGAAACATTTCCTTTCCTGACTTTCACA
Celera SNP ID:            hCV16232662
SNP Position Genomic:     33423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54087):
AAAAGTGTAAGAAAATGAGTTTGTGGAGAGGGAAGGTTTGCCAGGAGGGGCGTACTGGGGTCTGCAGGGCATCTGAGACTCCCCTGCCTGTCCCCACCCT
S
CAGATTGTGACTGCAGCGCGGCAGGGACCCAGGGCAACGCCTGCCGGAAGGACCCAAGGGTGGGACGCTGTCTGTGCAAACCCAACTTCCAAGGCACCCA
Celera SNP ID:            hCV22275356
SNP Position Genomic:     34694
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,3)   caucasian(C,12)   total(C,39|G,3)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:54088):
GGAGCGCCTCGCCGCCAGCCTGGACGGGGCTCGGACCCCACTGCTGCAGAGGATGCAGACCTTCTCCCCGGCGGGCAGCAAGCTGCGTCTAGTGGAGGCC
R
CCGAGGCCCACGCACAGCAGCTGGGCCAGCTGGCACTCAATCTGTCCAGGTGGGTGGCCAGGAGAGGAGGGGCCCTGGGCCCACCCTGGGGATGCAGACA
Celera SNP ID:            hCV25762364
SNP Position Genomic:     55973
SNP Source:               Applera
Population(Allele,Count): african american(G,20)   caucasian(A,1|G,33)   total(A,1|G,53)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54089):
GGCCTCCGATATCCCAAACCACAGCGCTGGCGTTCCTCCAGACCTCATCCCGCTGAGACAACATTCCCAGTTCTGGAGTGGGAGCCACAAGGCCTCACCC
R
CAGGCCCGGCCCTAGCAGGAGCCCAGCCTCCAGCCCTCCTTCTTGCTCAGCCCCCGCTTCCTCTTGGGGGCTTCTCCCGAGGGTACAGCACCCACTTGGA
Celera SNP ID:            hCV1764000
SNP Position Genomic:     2893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:54090):
TAGACTCTGGCCTCCCAGGAAACCCTGAGCTCACGTGACACATGTGACAGTTACCGCCTAGCGCAGAGAGTTCGTGGCCGCTGCTTCCGCTGGCCCCCAG
Y
GCCCCAGGCATCGGGGGGTTGTTCAGATACTCGTTGACTTTCCGGCAATGCTCCTCATCCTGGTCTGTCTTGGGTTCCTGCAAGAGGAAGGGCATGTAAG
Celera SNP ID:            hCV16232596
SNP Position Genomic:     67094
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,19)   caucasian(C,1|T,33)   total(C,12|T,52)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,20)   caucasian(C,2|T,38)   total(C,14|T,58)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54091):
TGTGCAGCCACACGTGTGTGCCCACAGTTCGTGGATATGGAGGGATGGGTGCTGCTGAGCACTGACCGGCAGGTGGTGCCCCACGAGCGGCAGCCAGGGA
Y
GGAGATGCTCCGTGCAGACCTGCGGCACGTGCCTGAGGCTGTGCCCGAGGCTTTCCCCGAGCTGTACTGGCAGGCCCCACCCTCCTACCTGGGGGACCGG
Celera SNP ID:            hCV8236094
SNP Position Genomic:     46019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54092):
TGCCGTGGCTGCCTGCGCCACACCACTGGGCCCCGCTGCGAGATCTGTGCCCCCGGCTTCTACGGCAACGCCCTGCTGCCCGGCAACTGCACCCGTAGGC
R
TCGGGCTGGGAGGGATGCACCCTGGGGAGGGTTGCGCGGGGAGGAGGGAGGCCTGCTGGGCGTACCCCGTAAGTAGGCTGTGTGCCTGATGCTGGGGCCC
Celera SNP ID:            hCV22273683
SNP Position Genomic:     49918
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,21)   caucasian(A,25|G,15)   total(A,40|G,36)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:54093):
ACTGCCAACAGTGCCAACGAGTGCCAGTGTGAGTGCCTCCTCCCACACACGTGTGTCCTGCCCACACCCTGGCCCATGAGAGGGCCCCGGTGCCCGGGCC
Y
GTGGAGGGCGTGCCAACAGCTGCGCTCCCCTCTCTCTAGCCTGTAACTGCTACGGCCATGCCACCGACTGTTACTACGACCCTGAGGTGGACCGGCGCCG
Celera SNP ID:            hCV27831463
SNP Position Genomic:     26462
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,2)   caucasian(C,32|T,2)   total(C,42|T,4)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,26)   total(C,51|T,7)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,38|T,2)   total(C,69|T,9)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54094):
AGGTGTGAACCCAGTGGCAGCCTTTGGGTCGGGCCTCGGGGAGTGGGCAGGCGTGAGGCATGTCACCTGCACGGGTGACTTGTCTCCTGGAGCCCTAAGG
Y
GGTGGCCATGCTCCTGGCATGGTGCCTGGCCTGGAAGGCTTTGAAGAGCCCCAAGTCTGTGGAGGGCCTGCCCCGTGAGTGGTGCCTGGGGCTGCGTGGC
Celera SNP ID:            hCV1764004
SNP Position Genomic:     1976
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 TFBS


Context             (SEQ ID NO:54095):
TGACGGCCCCTCCCCACCCTGCTCCCAGGTGTGCGCCCGGATTCTTTGGGAACCCACTGGTGCTGGGCAGCTCCTGCCAGCCATGCGACTGCAGCGGCAA
Y
GGTGACCCCAACTTGCTCTTCAGCGACTGCGACCCCCTGACGGGCGCCTGCCGTGGCTGCCTGCGCCACACCACTGGGCCCCGCTGCGAGATCTGTGCCC
Celera SNP ID:            hCV25629480
SNP Position Genomic:     49769
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,39|T,1)   total(C,72|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54096):
ATGCAAGATGGGGCCCTGTGATGTGTGGGCATCCACCCATGTGCAGCCACACGTGTGTGCCCACAGTTCGTGGATATGGAGGGATGGGTGCTGCTGAGCA
Y
TGACCGGCAGGTGGTGCCCCACGAGCGGCAGCCAGGGACGGAGATGCTCCGTGCAGACCTGCGGCACGTGCCTGAGGCTGTGCCCGAGGCTTTCCCCGAG
Celera SNP ID:            hCV22275574
SNP Position Genomic:     45980
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,7)   caucasian(C,7|T,11)   total(C,14|T,18)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54097):
AATAGATAAGGGGCCCCTCTTCCCTGGGACCCTCGGCGCTCCCCCAGACCCCAGGCCCTCCCTTGCCACCCCGACCCTCGCCTACCAGCAGCGTGGGCTA
R
TGGGCTCTTCCTCCACAGGCCGTGGGGACCCGAGACCAGGCGAGCCAATTGCTGGCCGGCACCGAGGCCACACTGGGCCATGCGAAGACGCTGTTGGCGG
Celera SNP ID:            hCV25629481
SNP Position Genomic:     53553
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,17)   caucasian(A,6|G,8)   total(A,11|G,25)
SNP Type:                 INTRON


Context             (SEQ ID NO:54098):
CCCTCTTCCCTGGGACCCTCGGCGCTCCCCCAGACCCCAGGCCCTCCCTTGCCACCCCGACCCTCGCCTACCAGCAGCGTGGGCTAGTGGGCTCTTCCTC
Y
ACAGGCCGTGGGGACCCGAGACCAGGCGAGCCAATTGCTGGCCGGCACCGAGGCCACACTGGGCCATGCGAAGACGCTGTTGGCGGCCATCCGGGCTGTG
Celera SNP ID:            hCV25629482
SNP Position Genomic:     53567
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,18)   total(C,44|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:54099):
CCCTGGGACCCTCGGCGCTCCCCCAGACCCCAGGCCCTCCCTTGCCACCCCGACCCTCGCCTACCAGCAGCGTGGGCTAGTGGGCTCTTCCTCCACAGGC
Y
GTGGGGACCCGAGACCAGGCGAGCCAATTGCTGGCCGGCACCGAGGCCACACTGGGCCATGCGAAGACGCTGTTGGCGGCCATCCGGGCTGTGGACCGCA
Celera SNP ID:            hCV25629483
SNP Position Genomic:     53574
SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(C,17|T,1)   total(C,43|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54100):
GGCTGGGGTCTTGGGCTTGGAAGCCAGCAGGCAGAGGTGCACTAGTACGGGCGGCCCCAGGCTCTGACGAACCCCTGCCCCACAGAGCTCATGTCCCAGA
Y
GGGCCACCTGGGGCTGGCCAATGCCTCGGCTCCATCAGGTGAGCAGCTGCTCCGGACACTGGCCGAGGTGGAGCGGCTGCTCTGGGAGATGCGGGCCCGG
Celera SNP ID:            hCV25629484
SNP Position Genomic:     54369
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,36)   total(C,63|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:54101):
CGTCAGACCCCTCGACAGCCTCCCCAGGAAATGTGCCGGTTAGATGTTCGCGCTCACAGATATCCCGTAGTGCACACTGAGACATGGGACTCAGGAGAGA
Y
TTGGCTCCCTGAGCCTGCCTAACAGGACCTGCCAGCCCAGCCTGGGGGTCGGCAGGGGGTGCCATGTCAGAGAGAGCTGGCCAGGGAGCAGGGTGGGCCA
Celera SNP ID:            hCV16186992
SNP Position Genomic:     53987
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(T,21|C,1482)   total(C,1482|T,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54102):
GAGAGCTCATTGCCCAGGCCCGGGGGGCTGCCAGTAAGGTGGGTGAGAGTCCCAGGGGAAGGTGGACATCAGGGAGGGTGGTGGTGGACGCTGATGGACC
R
TGCCCCGCAGGTCAAGGTGCCCATGAAGTTCAACGGGCGCTCAGGGGTGCAGCTGCGCACCCCACGGGATCTTGCCGACCTTGCTGCCTACACTGCCCTC
Celera SNP ID:            hCV25629486
SNP Position Genomic:     58631
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,1|G,29)   total(A,1|G,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:54103):
GTCAGATCAGCACCACCAAGCGCTTCGAGCAGGAGCTGCGGCTCGTGTCCTACAGCGGGGTGCTCTTCTTCCTGAAGCAGCAGGTGCGCCAGGCACACCC
R
TCCTGCCATCCCCACTTGCACTGACCCTGCCCCACACTAACCCTGCCCTGTTTCTGCAGAGCCAGTTCCTGTGCTTGGCCGTGCAAGAAGGCAGCCTCGT
Celera SNP ID:            hCV25629487
SNP Position Genomic:     60302
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,19)   caucasian(G,22)   total(A,1|G,41)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54104):
TCGAGCAGGAGCTGCGGCTCGTGTCCTACAGCGGGGTGCTCTTCTTCCTGAAGCAGCAGGTGCGCCAGGCACACCCGTCCTGCCATCCCCACTTGCACTG
R
CCCTGCCCCACACTAACCCTGCCCTGTTTCTGCAGAGCCAGTTCCTGTGCTTGGCCGTGCAAGAAGGCAGCCTCGTGCTGTTGTATGACTTTGGGGCTGG
Celera SNP ID:            hCV25629488
SNP Position Genomic:     60326
SNP Source:               Applera
Population(Allele,Count): african american(A,22)   caucasian(A,23|G,1)   total(A,45|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54105):
AAGCAGCAGGTGCGCCAGGCACACCCGTCCTGCCATCCCCACTTGCACTGACCCTGCCCCACACTAACCCTGCCCTGTTTCTGCAGAGCCAGTTCCTGTG
Y
TTGGCCGTGCAAGAAGGCAGCCTCGTGCTGTTGTATGACTTTGGGGCTGGCCTGAAAAAGGCCGTCCCACTGCAGCCCCCACCGCCCCTGACCTCGGCCA
Celera SNP ID:            hCV25629489
SNP Position Genomic:     60376
SNP Source:               Applera
Population(Allele,Count): african american(C,24)   caucasian(C,23|T,1)   total(C,47|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54106):
TGAGGGGGCCCAGCTGCCCCGAGGCCAAGGCTGCGCTGAACATGCCCAGGGCCTGCAAGAAGAGCCAGGCGAGGGCTGAGCTCCAACCCGGGCTGCACCC
Y
AGAGCCACACTGCTCAGCTGCCAGCTCTGCGGGTCAGGCACATGAAGCACTGGCCATGGTGAAGGTGGGGCAGGGCCTCCTCCTCCCCCCTGCCCACTCC
Celera SNP ID:            hCV25629410
SNP Position Genomic:     65049
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,22|T,2)   total(C,29|T,3)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,35|T,3)   total(C,68|T,8)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54107):
TCCCTGGGCAGGCCCTCCGTGACCAGGCTTCTGAAGGTCTCCGAATACCCAGCCCTGCCCTCACACCCGGCTGCTGCGGTCATGACTGTCAGACGAGGAC
Y
CGAAGGCTCATGGGGATTTATTGGCTCCTGTCCCTGGCGTCGGGCACAGCCAAGTCCAGGGGCTGTGGCGCCAGGAATCTCTGGTGCCATCTCTTGGCTG
Celera SNP ID:            hCV16232671
SNP Position Genomic:     20315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54108):
CCCGTGCCACCCTGACCAGTCATGCTGGTGGGAGTGGGTGCTCCTCCCCAATAGGGCAGGCCTGGTCACGTGTCCCCCAAAATTCCCTGGCCTGAGAATG
K
GGGAGGGGCGGGTCAGTGATGGGCAGTAGGCGTCTGTCCCCAAGGAAGGGGGTGAGGATGGTCGTCGAGGGGGGTCACTCGCACTCAAAGCGTGCAAGGG
Celera SNP ID:            hCV16232672
SNP Position Genomic:     20652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54109):
CAGGCCCCTTCAGCCAGTGAGCTGTGGTCTCTGTCACGCGGCCTCTTGGCCTGTGGGAGCCTCAGTGGCAAGGCCCGGAGACGTCAAGGGGCCCGGGCAC
Y
GCGGGGACCCAGGCTTTTCTGGTGATCCAGCGCCCTCCCCTCCTGCCATTCCCCGCAGCCTCCAAGAGGGACTGTCTGGAGCGGTTCGGGCCACAGACGC
Celera SNP ID:            hCV16232673
SNP Position Genomic:     20885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54110):
GCCTGCCACTGCTCTGCTGAAGGCTCCCTGCACGCAGCCTGTGACCCCCGGAGTGGGCAGTGCAGCTGCCGGCCCCGTGTGACGGGGCTGCGGTGTGACA
Y
GTGTGTGCCCGGTGCCTACAACTTCCCCTACTGCGAAGGTGAGCAGGCAGGTGGCTGTGTGCACCAGGTGCCGGGCCTGTGTGTGGGTCTGTGCTGTTCA
Celera SNP ID:            hCV25761428
SNP Position Genomic:     35678
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,35|T,1)   total(C,72|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54111):
TGGGCGCGGGGCTCGGGCTAGTTGCTGAGGCAGCTGCTGGAGCAGAAGGGGCTGGGGTGGCACGGGTGGAAGAGGTGGTGGATGACGGGGTGACCGCTGC
M
GACTGGCTCCGGGAGCTGCGAAGAGAGAGGGCACCGCTGGAGCGGACACGCCCCACACGGCAGGGCCTACTCGCAGGGTCCAGGGTGCTGGGCCAGGATT
Celera SNP ID:            hCV25629414
SNP Position Genomic:     65757
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,31)   caucasian(C,40)   total(A,1|C,71)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54112):
TGGCCTCCCCGCAGGTGGGGCGCGCCATGACTTTCCATGGCCACGGCTTCCTTCGCCTGGCGCTCTCGAACGTGGCACCGCTCACTGGCAACGTCTACTC
Y
GGCTTCGGCTTCCACAGCGCCCAGGACAGTGCCCTGCTCTACTACCGGGCGTCCCCGGTGAGACCTCACACCCGTGCCCATTCCCCACCCCGCGGTGGCC
Celera SNP ID:            hCV25761714
SNP Position Genomic:     61142
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,24)   total(C,59|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54113):
GTGGGTGGGAGGTGAGGGTGTGCAACGCACTGCAAGCGCCCAGTTCCTCGGAGGACGGCGCGTGGCTCAGTCCAGGCTCATGTCCTCCTCTTCGTCCTTC
K
TGTCCTTCGTGTCGCCCTCTTTCTGCTCGGGCTTGGCGTTGTTCTGCATGGCTTTGGCAAACGCTTCCACATCTAGAACACGTTAAAGACACAAGGTGGT
Celera SNP ID:            hCV25762443
SNP Position Genomic:     64641
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(G,1|T,35)   total(G,1|T,71)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54114):
CAGAGCCAGCAGAAGTTTAAAGGAAACAGAGACCGGGCCTCAAAGCATTCCCAGCAGAAGCTGCCCGAGAGCCCGGGTGGCGCACGTTACCCAGTCCTCC
R
AGGCCGGCTGGTCCGATGAGCTGCATGAGCTGGCTGTGGCTCATGTTTCCCAGCAGGCTCTGCAGGCCACCCTCACCTGGAAAACACTGCAGCTCAGGCG
Celera SNP ID:            hCV25629417
SNP Position Genomic:     66644
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(G,40)   total(A,6|G,72)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54115):
TGGCTCATGTTTCCCAGCAGGCTCTGCAGGCCACCCTCACCTGGAAAACACTGCAGCTCAGGCGGGCCTGCCCCAGCCAGATCCACGCGGGCCCCACCGC
R
CTGCCTGCGCCTCTGCTGAGCACCGCACTCGGCTGCCCCTGAACCCTACAGGGGGCACCACTTGAAGTGAGGCGACGGTGGGATGCAGACCCGTCCTACC
Celera SNP ID:            hCV25629418
SNP Position Genomic:     66781
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,29)   caucasian(G,40)   total(A,9|G,69)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54116):
GCAGTTCTTTGCCTGTGAGTCTCTGCCGCCGTGGGGCCTGGGGGGAGAGGCAGGGGGGTCCCTGGGCAGGCCCTCCGTGACCAGGCTTCTGAAGGTCTCC
R
AATACCCAGCCCTGCCCTCACACCCGGCTGCTGCGGTCATGACTGTCAGACGAGGACCCGAAGGCTCATGGGGATTTATTGGCTCCTGTCCCTGGCGTCG
Celera SNP ID:            hCV25762445
SNP Position Genomic:     20257
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(G,14)   total(A,5|G,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:54117):
TTGGGCAAAGAAACTAAGCGTTGGCAGGTAAAAGAAAAGACTTTATTAATAATCAGTGGGTGGGAGGTGAGGGTGTGCAACGCACTGCAAGCGCCCAGTT
S
CTCGGAGGACGGCGCGTGGCTCAGTCCAGGCTCATGTCCTCCTCTTCGTCCTTCTTGTCCTTCGTGTCGCCCTCTTTCTGCTCGGGCTTGGCGTTGTTCT
Celera SNP ID:            hCV7549274
SNP Position Genomic:     64586
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:54118):
TTTGTCACCAATCATCACTGGTTCCTCCTTAAAAATTAAAAAGTAACTTCTGTGTAACCGAATGAATGTTGACTTAAATACGGAGAGAGTCTCAAGACAG
R
TCTGGAACCGGCCTGGACAGAGGCACCAAACTCTTCCTGGGGTGACCGTTTTCCGTTGTTAGGTCAAATAACTAACTGTCTCTGGGACCCTACAGCAGCT
Celera SNP ID:            hCV1763935
SNP Position Genomic:     64351
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:54119):
TCTGCAGGGTGCGACTGTACCCCATGTGGGACAGAGGCCTGCGACCCCCACAGCGGGCACTGCCTGTGCAAGGCGGGCGTGACTGGGCGGCGCTGTGACC
R
CTGCCAGGTAGGGCTGTGGGGTAAGCAGGGCTGGGTGGGTGGGGCCTAGGGACTAGAGTTGGGGCCTGGGGAGAATCTGATAGGTGGGGCTGAGGGGCAG
Celera SNP ID:            hCV27471296
SNP Position Genomic:     50702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54120):
GGTATCGCCAGCCCGGCACCACTTTTCCTATCAATTTCTTGACCATGTGGATTTTTGAAAAATGGAACACCAGTTCAGGCCCTTGCTTATAGGTACTTGG
R
GCTGGTGTGACGACAGAGCAGCTTCTTTGTTGATCACCTGTGCTGACGGGCAGTTTATTTCCCAATTCCTCTCATTGAGGGTATGGCCCTCCCAGATGTT
Celera SNP ID:            hCV12057462
SNP Position Genomic:     25283
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54121):
CGGTGTACAGCGTGGAGCAGGACAATGATCTGGAGCTGGCCGACGCCTACTACCTGGGGGGCGTGCCGCCCGACCAGCTGCCCCCGAGGTAAGCACTGTG
Y
GCAGCTGGGGCTCCGAGGCCAGGCTGTTGGGGCGGTAGGCTGGGCTTGGAGGTGGCGCCCTGACCCGCATCCCCGCTTCCCCACAGCCTGCGACGGCTCT
Celera SNP ID:            hCV25629491
SNP Position Genomic:     60753
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,1)   total(C,75|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54122):
TTCTGGCGTGCCCTGGGATTGGGATGGTTTTGGGAGAGCTTTTGCTATACACCCCAGGGTATCGCCAGCCCGGCACCACTTTTCCTATCAATTTCTTGAC
Y
ATGTGGATTTTTGAAAAATGGAACACCAGTTCAGGCCCTTGCTTATAGGTACTTGGGGCTGGTGTGACGACAGAGCAGCTTCTTTGTTGATCACCTGTGC
Celera SNP ID:            hCV12057463
SNP Position Genomic:     25226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54123):
ACTGTGCGCAGCTGGGGCTCCGAGGCCAGGCTGTTGGGGCGGTAGGCTGGGCTTGGAGGTGGCGCCCTGACCCGCATCCCCGCTTCCCCACAGCCTGCGA
Y
GGCTCTTCCCCACCGGAGGCTCAGTCCGTGGCTGCGTCAAAGGCATCAAGGCCCTGGGCAAGTATGTGGACCTCAAGCGGCTGAACACGACAGGCGTGAG
Celera SNP ID:            hCV25629492
SNP Position Genomic:     60847
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,16)   caucasian(C,14|T,16)   total(C,30|T,32)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54124):
CCGGAGGCTCAGTCCGTGGCTGCGTCAAAGGCATCAAGGCCCTGGGCAAGTATGTGGACCTCAAGCGGCTGAACACGACAGGCGTGAGCGCCGGCTGCAC
Y
GCCGACCTGCTGGTGAGCAGCCCTCCCCGGGCTGGGGGTGGCATCTGTGGACATGCAGGGGCACCCGCGGGCACTCAGGGATGGCCTCCCCGCAGGTGGG
Celera SNP ID:            hCV25629493
SNP Position Genomic:     60960
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|T,2)   total(C,74|T,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54125):
GGCTGAACACGACAGGCGTGAGCGCCGGCTGCACCGCCGACCTGCTGGTGAGCAGCCCTCCCCGGGCTGGGGGTGGCATCTGTGGACATGCAGGGGCACC
M
GCGGGCACTCAGGGATGGCCTCCCCGCAGGTGGGGCGCGCCATGACTTTCCATGGCCACGGCTTCCTTCGCCTGGCGCTCTCGAACGTGGCACCGCTCAC
Celera SNP ID:            hCV25629494
SNP Position Genomic:     61026
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,24)   caucasian(C,36)   total(A,2|C,60)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54126):
CCGGGCCTGGGGCCTAGAGGACTGCAGGCCACCGCCCGGAAGGTGGGCACCCCAGGGGTGAGCAGGCAGAGCTGGGGTGGCTGGAAGGGTGGCCCCTGTG
Y
GGGCGGCCCCTGCATTCACCATCCACGCCCCCAGGCCTCCCGCCGCAGCCGTCAGCCCGCCCGGCATCCTGCCTGCATGCTGCCCCCACACCTCAGGACC
Celera SNP ID:            hCV25629495
SNP Position Genomic:     62030
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,15)   total(C,1|T,51)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54127):
CCTGTGTGGGCGGCCCCTGCATTCACCATCCACGCCCCCAGGCCTCCCGCCGCAGCCGTCAGCCCGCCCGGCATCCTGCCTGCATGCTGCCCCCACACCT
S
AGGACCACCCGAGACTCCTACCAGTTTGGGGGTTCCCTGTCCAGTCACCTGGAGTTTGTGGGCATCCTGGCCCGACATAGGAACTGGTAAGGCCAGGCCC
Celera SNP ID:            hCV25629496
SNP Position Genomic:     62124
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,2)   caucasian(C,16)   total(C,50|G,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54128):
CAGCAGAACCTGGGCAGCGTCAATGTGAGCACGGGCTGTGCACCCGCCCTGCAAGCCCAGACCCCGGGCCTGGGGCCTAGAGGACTGCAGGCCACCGCCC
R
GAAGGTGGGCACCCCAGGGGTGAGCAGGCAGAGCTGGGGTGGCTGGAAGGGTGGCCCCTGTGTGGGCGGCCCCTGCATTCACCATCCACGCCCCCAGGCC
Celera SNP ID:            hCV25629497
SNP Position Genomic:     61967
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,16)   total(A,2|G,48)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,30)   total(A,2|G,62)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:54129):
GAGAAGCAAGTAAGCCTGGCAGAGGTGGCGTGCCAGGGCAGGGTTTGCCTCCCCATTCTGGTGACCTCGGGGGCATAGCCTGACCCTCCCTTCCTACCCC
K
CCAGGTCCTGCTGCGGGCGGATGACGGAGCAGGGGAGTTCTCCACGTCAGTGACCCGCCCCTCAGTGCTGTGTGATGGCCAGTGGCACCGGCTAGCGGGT
Celera SNP ID:            hCV25629498
SNP Position Genomic:     63286
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,6)   caucasian(G,21|T,17)   total(G,49|T,23)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,5)   caucasian(G,8|T,8)   total(G,35|T,13)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIG-allele(G,684|T,813)   total(T,813|G,684)no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:54130):
GCACATTCCTGGGCCTCACCCAGAGTCCTCAGTAAGGTAGGGCCGGGCTCATTCTGCGGAGAAGCAACCCCAGGGCACGTCCGTCCTTTCCTCCCTCCCT
K
CGTTGGTTCTTTCAGCCAGCAGCTGTATGTTGAGCGCCTAACACACGCTGGGCCGTTTTCCTGGGAATGGGAACACAGGGTGGGACCCCAGCCCGGCCTC
Celera SNP ID:            hCV9572588
SNP Position Genomic:     22379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54131):
GGGCCCGTCTGCACAGGCTGAACGCCTCCATCGCTGACCTGCAGGTACTGAGCGTCCTGGCCTTCCCTCCCCAACCCGGGCCAGTGCAGGCCTTCACCTT
Y
CGCCTCCCACAGAGCCAGCTCCGGAGCCCCCTGGGCCCCCACCATGAGACGGCACAGCAGCTGGAGGTGCTGGAGCAGCAGAGCACAAGCCTCGGGCAGG
Celera SNP ID:            hCV27845091
SNP Position Genomic:     52685
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,8)   caucasian(C,36)   total(C,62|T,8)
SNP Type:                 INTRON;SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,5)   caucasian(C,12)   total(C,25|T,5)   
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:54132):
ACCCCCACCCTTCTGCAGAGCGGGAGCCAGGCGGGACTCTGGGTGGGGTGGCTTCTTTTGGGGCTGGAGAGAGGCTGGGCTGAGGACCACCTGGCCTCAG
R
AGTCCCCCTTTCTCCCAGTGATGAAAAGCGGGAATGTGCTCCGGCTGGAGGTGGACGCGCAGAGCAACCACACCGTGGGCCCCTTGCTGGCGGCTGCAGC
Celera SNP ID:            hCV25629499
SNP Position Genomic:     63518
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,18)   total(A,1|G,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:54133):
TCCAGCGCCCTCCCCTCCTGCCATTCCCCGCAGCCTCCAAGAGGGACTGTCTGGAGCGGTTCGGGCCACAGACGCTGGAGCGCATCACACGGGACGACGC
R
GCCATCTGCACCACCGAGTACTCACGCATCGTGCCCCTGGAGAACGGAGAGGTGGGCCGGGGAGGGGCAGGGCGGTACGGGGGCTGGAGAACGGAGAGGT
Celera SNP ID:            hCV9572589
SNP Position Genomic:     21011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54134):
AGGATGTGGGTGTCCACCATAGCTCTGACTGTCCACTCTGCCCCAGGACTGCCAGCACAACACCGAAGGGGCCCACTGTGAGCGCTGCCAGGCTGGCTTC
R
TGAGCAGCAGGGACGACCCCAGCACCCCCTGTGTCAGCTGCCCCTGCCCCCTCTCAGTGCCTTCCAACAAGTAAGCCAGCCTCCTCCCGGGACGAGGCCC
Celera SNP ID:            hCV16232608
SNP Position Genomic:     49217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54135):
CCCCACCCTCCTACCTGGGGGACCGGGTAAGCAGGGCATCAGGTCTGGGGGAGGCACTTTGAGGATGGCCAGGACGCCTGAGAGGGTTGGGAGCCAGGAG
Y
GGGGTCTGTCCAGGGAGGGGGAGCTCCATGGGGGTCCGTGAGGGTGCCCAGGCCCTGTCCCGGTAGGGAATGAGCGCAAGTATCCAGGCCCAGCACAGGG
Celera SNP ID:            hCV8236104
SNP Position Genomic:     46194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54136):
CACTCGCCATCCCTCGTCTCTCCGTGCCCACTCGCCACCCCTCGTCTCTGTGCCCACTCGCCACCCCTCGTCTCTGTGCCCACTCGCCACCCGTCTCTCC
R
TGCCCACTCGCCACCCCTCGTCTCTCCGTGCCCACTCGCCACCCCTCATCTCTCCGTGCCCACTCGCCACCCCTCATCTCTCTGTGCCCACTCGCCACCC
Celera SNP ID:            hCV8236106
SNP Position Genomic:     59424
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54137):
GGGCTGGGGTGGCACGGGTGGAAGAGGTGGTGGATGACGGGGTGACCGCTGCCGACTGGCTCCGGGAGCTGCGAAGAGAGAGGGCACCGCTGGAGCGGAC
R
CGCCCCACACGGCAGGGCCTACTCGCAGGGTCCAGGGTGCTGGGCCAGGATTCCCCACTGCCCCTCCCTTAACACCGTGGCACCTGCGTGGCAGGAGCGA
Celera SNP ID:            hCV22271592
SNP Position Genomic:     65805
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,5)   caucasian(A,40)   total(A,65|G,5)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54138):
GTGGAGGTCCACGGGGCAGTGGGGGCCAGTGGCTGCCCAGCCGCCTAGGACACAGCCAACCCCGGCCCCTGGTCAGGCCCCTGCAGCTGCCTCACACCGC
Y
CCTTGTGCTCGCCTCATAGGTGTCTATTTGGACTCTAAGCTCTACGGGTGACAGATCTTGTTTCTGAAGATGGTTTAAGTTATAGCTTCTTAAACGAAAG
Celera SNP ID:            hCV27469526
SNP Position Genomic:     64089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:54139):
CTTGGCCTGTGGGAGCCTCAGTGGCAAGGCCCGGAGACGTCAAGGGGCCCGGGCACCGCGGGGACCCAGGCTTTTCTGGTGATCCAGCGCCCTCCCCTCC
Y
GCCATTCCCCGCAGCCTCCAAGAGGGACTGTCTGGAGCGGTTCGGGCCACAGACGCTGGAGCGCATCACACGGGACGACGCGGCCATCTGCACCACCGAG
Celera SNP ID:            hCV16232680
SNP Position Genomic:     20929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54140):
GACGACGCGGCCATCTGCACCACCGAGTACTCACGCATCGTGCCCCTGGAGAACGGAGAGGTGGGCCGGGGAGGGGCAGGGCGGTACGGGGGCTGGAGAA
Y
GGAGAGGTGGGTAGGGGAGGGGCAGTGCCGAGCGGGGCTGGAGAAGGGAAAGGTGGGCCCGGGAGGGGCAGTGCTGAGCAGGGGCTAGGGCCACACTGGC
Celera SNP ID:            hCV16232681
SNP Position Genomic:     21103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54141):
AGCACCCCAGGCGCGCACACTAGGCAGATGCCTTGGAAGGTGAGCGTGCGAGGGTCAGCAGGCCCCATGCCCCCCACCCAGCTCCAGGCGACAGCACACG
Y
TACCTTGCTGGCCGCCTGCTGGCCCGGCTGGTACGTTCATCGTGGCCAGGATGCTCTGGAGGTCGCTCAGCTGGATGGGCTGGGTCGGGCTGGCTGCTGT
Celera SNP ID:            hCV22271596
SNP Position Genomic:     65536
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,5)   caucasian(C,36)   total(C,61|T,5)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:54142):
GAGAGGCTGGGTGCCTGTCCTGGCATGGAGGGGGCGTCTGGTGGAGGCATTTAGGATGGGTTTGGATTGCACTGAGCAGCGGGGTGTGAGGGTCTCACAC
R
ATCCATAGGGGGTTGGATGTCCCTGTTGCTGGCCCAACAGAAAGACTTGGGGACATGAAGCCAGGATGGTCCCCGCTGGCCCCTGCTGAGCCTGCCCTCT
Celera SNP ID:            hCV1763941
SNP Position Genomic:     58048
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54143):
GGTGCCATGTCAGAGAGAGCTGGCCAGGGAGCAGGGTGGGCCAGGCGGAGAGGGGCAGGACGAGAAGGCTCAGAAGCTGGCTGAGCAGACTGGTGTCAGG
R
TGTTGGAGGCACTGCAGGAGGTGAGGGCCGGGCAGGTGAGGCAGCTGTGGCCTTTCGCCAGGTGCTCTAGGGGCCACCCAGGTGCGCTCAGGTTCCGGGC
Celera SNP ID:            hCV1763942
SNP Position Genomic:     54145
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54144):
GACAGCACACGCTACCTTGCTGGCCGCCTGCTGGCCCGGCTGGTACGTTCATCGTGGCCAGGATGCTCTGGAGGTCGCTCAGCTGGATGGGCTGGGTCGG
K
CTGGCTGCTGTGCTGGCTCCATTCCCGGAACTGGGCGCGGGGCTCGGGCTAGTTGCTGAGGCAGCTGCTGGAGCAGAAGGGGCTGGGGTGGCACGGGTGG
Celera SNP ID:            hCV7549283
SNP Position Genomic:     65625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54145):
ACAGCCGTGTGGCCAGACAGGTGGCCCCGGGAGACGTCAGACCCCTCGACAGCCTCCCCAGGAAATGTGCCGGTTAGATGTTCGCGCTCACAGATATCCC
R
TAGTGCACACTGAGACATGGGACTCAGGAGAGACTTGGCTCCCTGAGCCTGCCTAACAGGACCTGCCAGCCCAGCCTGGGGGTCGGCAGGGGGTGCCATG
Celera SNP ID:            hCV1763943
SNP Position Genomic:     53953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;JBIC-allele(A,319|G,1182)   total(G,1182|A,319)
SNP Type:                 INTRON


Context             (SEQ ID NO:54146):
TGGCTCGATCTCGGCTTACCATAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACACGCCACCAC
R
CCCAGCTAATTTTGTATTTTTAGTACAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCATCTCAGCCTCC
Celera SNP ID:            hCV1763944
SNP Position Genomic:     53189
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54147):
AGGACCAGAGGGCTGTCTCTTCTGAGCCTCTATTGTTTCATCTGTACAATGGGGACAGCTATGCCTGCAGTGGGACCAGAGGCCTTCAGGGAACAGAGGC
Y
ACGCTGAGACTCAACACCTCCCCACAGGCTAAGGGACTCCATGTCTGAGTGTCCCTGTCCATCTGTCTGCTGTGTGTCAGCCTTGGTCCTCCTGGGGTCA
Celera SNP ID:            hCV1763945
SNP Position Genomic:     57135
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54148):
CAGATGGGCAGGACCCCTGGCTTCCAGGTTGGTCTGGGACAGTCTTGAGGGCTGGGCAGGGCAGTGACCAGCCTGTGCCACAGGAGGGACATTTTGGTTT
Y
GATGGCTGCGGGGGCTGCCGCCCGTGTGCTTGTGGACCGGCCGCCGAGGGCTCCGAGTGCCACCCCCAGAGCGGACAGTGCCACTGCCGACCAGGGACCA
Celera SNP ID:            hCV1763946
SNP Position Genomic:     50935
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54149):
TTCCCCACTGGGTGGTGGGGAGCGGGGCAGGCAGCTTGTCCTCCGGGCATCTCCGTGTCCCTCACCATGGGCCCACGTGAGGCCTCACCCTCCCTGGAGA
Y
CCGGGGCCGCTGTGCAGGGCTAGGTAGGATGGCCAAGCTGCACCTGACCAGCCCCTGCTGTGGCCAGGCCTGCGAGGGACCACTACCTCCCGGACCTGCA
Celera SNP ID:            hCV16005561
SNP Position Genomic:     38886
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,1)   caucasian(T,22)   total(C,5|T,23)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,20)   caucasian(T,12)   total(C,8|T,32)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,11)   caucasian(T,4)   total(C,7|T,15)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54150):
GCCTCCCTGGCTCTGGCGTCTGTGTGGTGAGTAGGGGCTGGTGGGGCCAGGGGGGCAGCATTCACTGAAGGCACAGTCAAGTGTGCCAGGGAAGACCAGG
R
GCTGCACTTCCAGGTCAACTGAGGTCTGGGGAAGGGTGTTGCCCAGTGGGGGACCATCTGGCCTTGGGCACAGAGTCTGAGGCAGGGGTGGTGGGAGCTG
Celera SNP ID:            hCV1763948
SNP Position Genomic:     49001
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54151):
CTCGGGGAGGGCTTAGGTGGGACTGGATGCAAGATGGGGCCCTGTGATGTGTGGGCATCCACCCATGTGCAGCCACACGTGTGTGCCCACAGTTCGTGGA
Y
ATGGAGGGATGGGTGCTGCTGAGCACTGACCGGCAGGTGGTGCCCCACGAGCGGCAGCCAGGGACGGAGATGCTCCGTGCAGACCTGCGGCACGTGCCTG
Celera SNP ID:            hCV25922115
SNP Position Genomic:     45954
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,25)   caucasian(C,1|T,27)   total(C,2|T,52)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54152):
AGGGAGGCCTGCTGGGCGTACCCCGTAAGTAGGCTGTGTGCCTGATGCTGGGGCCCAGCCAGGACAAGTCGGAGCCAGCCTTCTGGGTTCATGGTCAACC
Y
TTTCTCCCCCGCTATGATCCGGTCCTCCCGCCCCAGCGATCAGGCCCTCCCGCCCCAGCGATCAGGCCCCTTCACCATCAGGCCTCCCCCGGACCATCAC
Celera SNP ID:            hCV22273414
SNP Position Genomic:     50063
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,2)   caucasian(C,24|T,12)   total(C,34|T,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:54153):
AGTGGCAAGGCCCGGAGACGTCAAGGGGCCCGGGCACCGCGGGGACCCAGGCTTTTCTGGTGATCCAGCGCCCTCCCCTCCTGCCATTCCCCGCAGCCTC
Y
AAGAGGGACTGTCTGGAGCGGTTCGGGCCACAGACGCTGGAGCGCATCACACGGGACGACGCGGCCATCTGCACCACCGAGTACTCACGCATCGTGCCCC
Celera SNP ID:            hCV9572596
SNP Position Genomic:     20948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54154):
AACGGGCCAGGCCCCTTCAGCCAGTGAGCTGTGGTCTCTGTCACGCGGCCTCTTGGCCTGTGGGAGCCTCAGTGGCAAGGCCCGGAGACGTCAAGGGGCC
Y
GGGCACCGCGGGGACCCAGGCTTTTCTGGTGATCCAGCGCCCTCCCCTCCTGCCATTCCCCGCAGCCTCCAAGAGGGACTGTCTGGAGCGGTTCGGGCCA
Celera SNP ID:            hCV9572597
SNP Position Genomic:     20878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54155):
GGGGGTCACTCGCACTCAAAGCGTGCAAGGGAGAGCGGTGGGGGGCAGTGCAGTCCAACGGGCCAGGCCCCTTCAGCCAGTGAGCTGTGGTCTCTGTCAC
R
CGGCCTCTTGGCCTGTGGGAGCCTCAGTGGCAAGGCCCGGAGACGTCAAGGGGCCCGGGCACCGCGGGGACCCAGGCTTTTCTGGTGATCCAGCGCCCTC
Celera SNP ID:            hCV9572598
SNP Position Genomic:     20822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54156):
TGCCAGGTGGGCTGGGCTAGAGGGCTGGGAATGGGCTGGCCCCGAGGTGGGGCAGGGACCTCCCCAGACTCAACGGCCATTGCACTCCCAGCACCACACC
R
CCGGCGTCAACTGTGAGCGCTGCCTGCCCGGCTTCTACCGCTCTCCCAACCACCCTCTCGACTCGCCCCACGTCTGCCGCCGTGAGTGGGCTCAGCTGGG
Celera SNP ID:            hCV27849026
SNP Position Genomic:     26715
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,22)   caucasian(A,6|G,18)   total(A,16|G,40)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,25)   caucasian(A,1|G,33)   total(A,8|G,58)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54157):
AGCCACAGGCTCGGGGACGCTGAGTCTGGGCGAGCGCTTGCTGCCGGACAGCTGGAGAAACAGCAGCGGGGGGCCGTGTCCATGTGGCAAGCCAAGCCAT
S
GAGGGGATCACAGGCCCCTTCAGGGAAGGGACTGAGCACCTGCCACCTGCCTCCAGGATGGGCCTGATCCCCCCTCCTGTGTACCCCACAGGCTGCAGTG
Celera SNP ID:            hCV25629500
SNP Position Genomic:     26182
SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,2)   caucasian(C,34)   total(C,64|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:54158):
CCCTGCAGCAGGGCCGTGTGAGCCTACAGCTCCTGAGGACTGAAGTGAAAACTCAAGCGGGCTTCGCCGATGGTGCCCCCCATTACGTCGCCTTCTACAG
Y
AATGCCACGGGGTGAGCCTGGCCGCTGGGCCCTCATCGTGAAGGTCTGGAGGGACGCCCGCCTGCACTTGCCTGGACCTCTGTCTCCTCTGAGGTGGGGG
Celera SNP ID:            hCV8236117
SNP Position Genomic:     61441
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54159):
CCTGCGCCTGGAGCTGGAGGAGGCTGCCACACCTGAGGGTCACGCCGTGCGCTTTGGCTTCAACCCCCTCGAGTTCGAGAACTTCAGCTGGAGGGGCTAC
R
CGCAGATGGCACCTGTCCAGGTGGGCGCTGTGCTCCCCCTCCCAGGCTCAGCCTAGAAGTGGAGCCAGGCGTGGCTGGCAGGGAGGGGTGGGCAGGCCCC
Celera SNP ID:            hCV25762898
SNP Position Genomic:     39090
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,1|G,17)   total(A,1|G,47)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54160):
GCATGTCCATGAGCAGGTGCTGTGTGGTGGGATGGCACGTCCGTTGCTGCGGAGGGAGCAGGGAGGTGCGTGTTTTCAGGCCGTCCATGTGGATGAGAGG
Y
ACCTGTGCTGGTCCTCAGCTCCTGTGGGACCGTGGGTTCTGGCTGGGCCTGGGACACCCTTGGCCTTCCGGGTTGGTCACTGGGAAATGACCGAGGCATG
Celera SNP ID:            hCV11772090
SNP Position Genomic:     36389
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54161):
GGTCACACCCTGCATCTTGGGCCCCCTGGAGGCGGGCCTGTTCTTCCCAGGCAGCGGGGGAGTTATCACTTTAGGTCTGTGGGTGCTGGCATCCCAGGCC
Y
CAGCAGGGCAGGGCAGGGGGCTCCAGGAGGTTCTGGGGAGGGGCCCCCCCTTTCTTCTCCATCACAACCCCTCCCCGCAGACCTCCCAGGAGCTACACTG
Celera SNP ID:            hCV8236118
SNP Position Genomic:     62980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54162):
GTGGAGGGCGTGCCAACAGCTGCGCTCCCCTCTCTCTAGCCTGTAACTGCTACGGCCATGCCACCGACTGTTACTACGACCCTGAGGTGGACCGGCGCCG
Y
GCCAGCCAGAGCCTGGATGGCACCTATCAGGGTGGGGGTGTCTGTATCGACTGCCAGGTGGGCTGGGCTAGAGGGCTGGGAATGGGCTGGCCCCGAGGTG
Celera SNP ID:            hCV25629502
SNP Position Genomic:     26563
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,34)   total(C,67|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54163):
GCGCCGCGCCAGCCAGAGCCTGGATGGCACCTATCAGGGTGGGGGTGTCTGTATCGACTGCCAGGTGGGCTGGGCTAGAGGGCTGGGAATGGGCTGGCCC
Y
GAGGTGGGGCAGGGACCTCCCCAGACTCAACGGCCATTGCACTCCCAGCACCACACCGCCGGCGTCAACTGTGAGCGCTGCCTGCCCGGCTTCTACCGCT
Celera SNP ID:            hCV25629504
SNP Position Genomic:     26657
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,32)   total(C,62|T,4)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,6)   caucasian(C,36|T,2)   total(C,64|T,8)   
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54164):
TATTGTATTCAATTTTCTACCTCATCTTTTTTTTTTGAGATGGAGTTTCACTCTGTCGTCCAGGCTGGAGTGCAGTTGCACGATCTCGGCTCACTTCAAC
Y
TCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGTCTCCCGAGTAGCTGGGATTACAGGCACCTGCCACCACGCCTGGCCAATTTTTTGTATTTTTAG
Celera SNP ID:            hCV11772094
SNP Position Genomic:     31063
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54165):
TTACAACTTCAGTGGCTGCATCAGCAACGTCTTCGTGCAGCGGTGAGCCTGGTGGGCGCTGGGGGACAAGGTCCCAGCTGGCCTTCCGCAGCTGCTGACC
R
CCTGCCCGCCCTGCACAGGCTCCTGGGCCCACAGCGCGTATTTGATCTGCAGCAGAACCTGGGCAGCGTCAATGTGAGCACGGGCTGTGCACCCGCCCTG
Celera SNP ID:            hCV25762176
SNP Position Genomic:     61817
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,14)   caucasian(A,7|G,13)   total(A,13|G,27)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54166):
TTTTTGTTTTTGTTTGAGACGGAGTCTCGCTCTGTCGCCCAGACTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCTGCCTTCCAGGTTCACGC
Y
ATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCGGCTAATTTTTTTGTACTTTTAGTAGAGATGGGGTTTCACCGT
Celera SNP ID:            hCV11772098
SNP Position Genomic:     30708
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54167):
GGAGCTGGCTTGGGCACCCAGGTCCCTCATGGACCTCAGCTCATCTGGGAAGGCCGGAAGGGGTCCCAGTGCTGCTGTGCCCATTCTCCGTGGTGGAAAA
S
AGCCCAGGAGCAGAAGCGGGGTGGGGGCTGGGGAGGTCCCCACACCCATTGTCAGATATCTTCTGCGCTGGTCACCCTGGGGGGTGTCATGCTGTCTTCC
Celera SNP ID:            hCV1763951
SNP Position Genomic:     46782
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,9)   total(G,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54168):
TGGTCCAGGCCCGTGCCAACCCTCACCTCCCCATGTGCCTTCCCAGGGCAACCAGATGAGCATCACATTCCTGGAGCCGGCATACCCCACGCCTGGCCAC
R
TTCACCGTGGGCAGCTGCAGCTGGTGGAGGTGAGGGGAGCTGGCTTGGGCACCCAGGTCCCTCATGGACCTCAGCTCATCTGGGAAGGCCGGAAGGGGTC
Celera SNP ID:            hCV1763952
SNP Position Genomic:     46646
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(A,1|G,35)   total(A,3|G,65)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54169):
ACAGACAGAGAAAGAGATACAGAGATAGAGACAGAAACAGAGACAGACAGATGGAGACAGAGAGGCAGAGAGTCAGAGGGAGAGAGTCAGGAGAGGGAGG
R
GTGGGAGGGGGACGCTTCCCTCTGCCCCAGGGACCCTGGCTAGCCAAGGCACACACCAGGGCGCAGGCAGAGGGGATGAAGCCCCGTGGGCGTCCATGAG
Celera SNP ID:            hCV9572528
SNP Position Genomic:     364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:54170):
ACAGTTCGTGGATATGGAGGGATGGGTGCTGCTGAGCACTGACCGGCAGGTGGTGCCCCACGAGCGGCAGCCAGGGACGGAGATGCTCCGTGCAGACCTG
Y
GGCACGTGCCTGAGGCTGTGCCCGAGGCTTTCCCCGAGCTGTACTGGCAGGCCCCACCCTCCTACCTGGGGGACCGGGTAAGCAGGGCATCAGGTCTGGG
Celera SNP ID:            hCV1763954
SNP Position Genomic:     46042
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54171):
CCTGTACCCGCCCCACAGCCTGTGACTGCGGTGCCCGCCTCTGTGACGAGCTCACGGGCCAGTGCATCTGCCCGCCACGCACCATCCCGCCCGACTGCCT
R
CTGTGCCAGCCCCAGACCTTTGGCTGCCACCCCCTGGTCGGCTGTGAGGAGTGTAACTGCTCAGGGCCCGGCATCCAGGAGCTCACAGACCCTACCTGTG
Celera SNP ID:            hCV1763956
SNP Position Genomic:     44989
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,23)   caucasian(A,14|G,22)   total(A,27|G,45)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54172):
GGGCGGGTCCCCAGCCCTCATGTCCCCCCAGGGGGCCTGGCTGTAGCCCTCATCCCCATGGCCCTGGCTGGGGAGGTAGAGACTGCCACATCTTGGAGCC
Y
ACCCCTTGAGTCCTGGTAGCTCCAGGCTTACCCGGCTCCTGCCCCTGCCCAGGCTGCAACTGCGAGTCCGACTTCACGGATGGCACCTGCGAGGACCTGA
Celera SNP ID:            hCV22274873
SNP Position Genomic:     27034
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,29|T,11)   total(C,58|T,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54173):
TGTGCAAACCCAACTTCCAAGGCACCCATTGTGAGCTCTGCGCGCCAGGGTTCTACGGCCCCGGCTGCCAGCGTGAGTCCCCTCTCCCCGCTCAACCTCT
R
CCTGCGCTCGAGGTGGACACCTGAGGCCTGGTGCCTCTGACCAAGCATGTGGGCCACCCTTTCCTGCAGCCTGCCAGTGTTCCAGCCCTGGAGTGGCCGA
Celera SNP ID:            hCV15833510
SNP Position Genomic:     34867
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,6)   caucasian(A,14|G,22)   total(A,44|G,28)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,7)   caucasian(A,17|G,23)   total(A,46|G,30)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 265
Celera Gene:                 hCG42018 - 103000085248502
Gene Symbol:                 SHBG
Protein Name:                sex hormone-binding globulin;ABP
Celera Genomic Axis:         GA_x5YUV32W2JD(7882432..7899752)
Chromosome:                  Chr17
OMIM number:                 182205
OMIM Information:            SEX HORMONE-BINDING GLOBULIN;SHBG


Genomic Sequence (SEQ ID NO:12425):
GCTGGTCTCAAACTCCTGACCTCAAATGATCTACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTACGCCCAGCCCAAGTTTTCTT
TATTCTCCCTTTAAAAAGCCATTAGCCTAAATACCCTCCACTCTGTTTCCCTTAGAATGGACAGAACCCAGGCCCTTTTCACCCCACTCCAATCAGCCCC
AACACCTAATAGGATCACTTTTTTTTTTCTTTTGTAAGAGGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCTCAATCTTGTCTCACTGCAACC
TCCACCTCCCGGGTTCAAGCAATTCTGCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCCACCACCACGCCCAGCTAATTTTTGTATTTTTAGT
AGAGACAGGGTTTCACCATGTTGACCAGGCTGGTCTGGAACTCCTGACATCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTG
AGCCACTGCGCCTGGCCTGGCCAGGATCATTTTATAGATGGCTAATGAAGTGATGAATGGGCTGGAGCCCAAGGATGTAGACATGGGGGTGGTTGTGAAA
ATGGAGTGATACTGGAGTGCAAAGATATTCTATGAATATTAGTAAGATCTGGGACCAAGGTGAGGGTAATAACATTAAAAATGTAAACCCTGGGCTGGGC
ACGGTGGCTCACGCCTGTAATCCCAGTACTTTGGGAGGCCGAGGTGGTCAGATCATTAGGTCAGGAGATCGAGACCATCCTGACTAACACAGTGAAACCC
CGTCTCAACTAAAAATACAAAAAAAAAAAAAATTAGCTGGGCGTGGTGGCAGGCGCCTGTGGTCCCAGCTACTTGGGAGGCTGAGGGAGGAGAATGGCAC
GAACCTGAGAGGCAGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTAGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAGTAA
ACTCTGAAAACCAAAGACAAAACAAGATGGGGGCAAGATAAATTTTGGAAGTATTGGCCGGGCACAGTGGCTCACGCCTGCAATCCCAGCACTTTTGGAG
GCCGAGGTGGGCAGATCACCTGAGGTCAGAATTGGAGACCAGCCTGACCAACATGGAGAAACCTCATCTCTACTAGAAACACAAAATTAGCCAGGCGTAG
TGGCGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAACTGCTTGGACCCAGGAGGTGGAGGTTGCAGTGAGTGAGATCGTGCCATTTCA
CTCCAACCTGGGCAACAAGAGTGAAACTCCATCTCAAACAAACAAACAAAATTTTGGAAGTATTAAGTTTCCTAGTTTATACTCTTTTATCTTCTGCATT
AGTGATTAAAGTTTGTTTTTTGAGACAGGGCTTTGCTCTGTCACCCAGGCTAGAGTGCATTGACAGGTTCTCAGTTCACTGTAGCCTCAACCTCCCAGGC
TCAAGCCGTCCTCACATCTCAGCCCCCCAGTAGCTGGGACTACAGGCATTTGCCACCAAGCTCGGCTAATGTTTTTGTATTTTTTGCAGTGACCGGGTTT
TGCCCTGTTGCCCAGGTTAGTCTTGAACTCTTGGACTCTATTGATCTACCCACCTTGGTTTTCCAAAATGCTGGGATTATAGGCGTGAGCCACTGTACCC
AACCTATTATTTTTTTTTTGTTTTGAGACAAGGTCTCACTCTGTCACTCAGGCTGGAGTGTGGTGGCACAAACGTGACTCACTTCAGCCTCGACCTCTAG
GGTTCAGGTGATCCTCCCACCTCAGCCTCCTGAGTAGTTGGGACTACAGGCATTTGTTACTGACCTGGGCAAATTTTATTTATTTAGTTTTTGTTTTCTT
TGGGTTTGTTTGTTTGTTTTAGACAGAGTCTTGCTCTGTCGCCCAGAGTGCAGTAGTGCAATCTCGGCTCACTGCAAACTCCACCTCCTAGGTTCAAGTG
ATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCTTGCACCACCAAGACCAGCTAATTTTTGTATTTTTAGTAGAAACAGGGTTTCACCCTGT
TCGCCAGGCTGGTCTCAAACTCCTGACCTCCAGTGATCCACCCGCCTTGGCCTCCCAAAGTGTTAGGATACAGACGTGAGCCACCACGCCTGGCCATTTT
CTTTTTTTTTGAGACAGAGTCTCCATCTGTCACCCAGGCTGGAGTGCGGTGGCACAATCTCAGCTCACTGCAACCTCTGCCACCTGGGTTCAAGCGATTC
TCATGCCTCAACCTCCCAGGTAGCTGGAATTACATGGGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTTGAGATGGGATTTCACCATGTTGGCCA
GGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGCCTCCCAAAGTGCTGGGATTATAAGGATGAACCACTGCACCCGGCCTAATTTTGTAGAGATG
TGGTCTTGCCCATGTTGCCTAGGCTGGTCTTGAACTCCTGGGCTCAAGTGATCCTCCACCCTCAACCTCTCAAAGTGTTGAGATTTTTGTTGTTGCTGTT
TTGTTTTTGTTTTTGAGACTGGGTATGGCTCTGTCACTCAGGCTGGAGTCCAGTGGCATGATCTCGGCTCACTGCAACCTCCACTTCCTGGGATCAAGCG
ATTCTCATGCCTCAGCCTCCCCAGTAGCTGGGCCTAGAGGAGCATGCCATTGCGTGCTGGCTTTTTTTGTATTGTTTGTAGAGACGAGACTTTGCTTTCC
TATGTTGGCCAGGCTGCTCTTGAACTCCTGGGCTCAAGCAATTTGCCGGCCTCCCAAAATCCAAAATGCTGGGATTACAGGCGTGAGCTTTTTTTTTTTT
TTTTTTTTTTGGAGATGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTTGACTCACTGCAACCTCCATCTCCCAGGTTCAAGCGAT
TCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCTGCCACCACGCCTGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTTGCTGTGTTGG
TCAGGCTGCTCTTGAACTCCTGACCTCAGATGATCGACCCGCCTCGGCCTCCCAAACTGCTGGGATCACAGGCATAAGCCACTGAGCCCGGCCAGGCATG
AGCTTTTGTAGGGCATACCAGATTGAAAATGAAGACTGTCAGGCCAGGCGCGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCAAGGTGGGTGGA
TCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAACTTAGCCGGGCGTGGTGGCGGGGGCCTGT
AGTCCCAGCTGTTCAGGAGGCTGAGGCAGGAGAATGGTGAGAACCCAAGAGGCAAAGCTTGCAGTGAGCCAAGATCTCACCACTGCCCTCCAGCCTGGGT
GACAGAGCGAGACTCTGTCTCAAAAAAAATAAAAAGAAAAAGAAAAGACTGTGGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGGGGC
CGAGGCAGTCGGACTACCTGAGGTCAGGAATTTGAGACCAGCCTGGCCAACAAGGTGAAACCCCGTCTCTACTAAAAATACGAAAATTAGCCGCATGTGG
TAGCAGGCGCCTGTAATCCCAGCTACTCGGGAGTCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGATGTTGCAGTGAGCCAAGATCAAACCTTTGC
ACTCCTTGCACTCTGGCCTGAGGACAACAGCAAGACTTGATCTCAAAAAAAAAAAAAAAGACTTTGGACTGGGTGCAGTGGCTCACACCAGTAATCCCAG
CACTTTTCGAGGCCGAGGCGGACGGATCACGAGATCAGGAGTTGGAGACCAGCCTGGCCAGTATGGTGAAACACCGTCTCTACTAAAAATTAGCCGGGCA
TGGTGGTGCGCACCCGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGATAATTGCTTGAACCCGTGAGGCAGAGGTTGCAGTGAGCGGAGTTCGCACCAC
TGCACTCCAGCGTGCGCGACAGAGACTCTGTCTCAAAAAAAAAAAAAAAAAGAAATAAAAGAAAGACCCAACACCACATCAGGACATGTAATTCTTATTT
ATTTTTCACCCTCAACAAGGAAGAAAGGTCTCTCCCTCAATTCTGCTCTTCCAATACTTGAGGATAGGCACCCCTAACCCTCCTTCCTCCAGGGAGGCCT
CAGCATCAGTGTCTGTGGACGTAGTCTCTGAAGAGTGCTTCAGCTGATGGGGAAGGAGAAACTCAAGACAGAGATCCTCCTAGGGATGGCGTCACTTTCC
TGCCAACTTTCTCGTTGCCTCTCCTTGAAAGCAGAAGAAGTGCCAGCCCTCAGCTTCCGTCAGATCTTGGGCTCCTAGGGCCTTGTACAAGTCCATGGCC
CTCTGGTTCCAGTCCAGGACGGCCAGGCRGAATTGGGAGCAGCCCTTATCCAAGGCCACCTGTGGGAGAAGACAACACTAACTTTTCTGGGGTCAAAAAA
GAAAAAGGTTTTCTCACTCCCTCTTTCAACCCGGGTCCCCCCTCCATATACCCTTGCTTCTTCAGGTCCTCACTTGTCGCCCCACCCATCTCCTCACCTC
AGCCACCTTTTTGATTATTTTGGAACCAATCCCTTGACCTGTTGTGGAGAGAAAGAGGCAAAAAATAGCTATTGTTTGAGCTGAAGGGGATCAGAAAATG
ACACCGGCTGGGCTCTGGGGACAGGGGATAACAGTGGGGTCTGTGGGGTGCTTTGCTCCCACCCCAGCCTCAGCTTCTGCCCAGTACCCCGATATTCCGG
CATCACATAGATATCCTCCAGATAAATGGTGCGTCCCTTCCATGTACTGTAGATGAAATAGTATATCCCATAGCCCACCACGCAGGGCCCTGAGAGAGAG
AAAAGGGGAGTAAGGCTTCTGGAAGCCTGTGGGGAGACCTCTGAGGCCGGCTGGAGAGGTGGACTTCTAAGGGCCAGGTGCTCTTACCCAGTAGCTTCCC
GGGCGCTGGAAGAATCTCTGCTACCAAACAGTGATAGAAAGGATTGTCTCCAAAGCCATCTGCTCTCAGGGCTGCCGAGATTGGAGTTGTGACAAAGAGA
TAGAGAAAGAGGACGTGGGTGTATGCCCAGCCTGGAGCTGTCGCCTGGGGAACCCATCCCTCATTTCCTCCCCAGCCTCCGCCAGAACCTGGGCGCTGAG
CCCCCACCTTCTTCACTGATCTTCACCTGATCCGAGAGTTTTTCGAATTCGGCTAGCTCCTAAGGCGTGGGTACGGAAGCTAGATTAGAGCAGAAGGGCC
CCGCTGCTCCCCGAGCAGGTTCCCAAGGCGAGCCCCTCCCCCTGCCCCCGCCTCCTACGACCCCGCTCTGGCCGCGCCACTCTGACCCCCGGGTTACCGG
CCTGCAGTCTTCACCCGAATCAGCCTCAGGATATCTCCACAGTCTCCCTCCTTGGCCTCTCGGATCCGCACGGAAGCCATCCGGATCCCCGCTGTCTGGG
ACCAAAGTCCCAGGGCCTCGCAAACGGCAACTAGACCCCTTAAAGGGCCTACGGACTTGGATCCTGAAGAGCCTGAGAGAGCGGGGTGGCGGGAGTCGGG
GGGGACGGCGGGGTAGCCGCGGCCTGGTAAGTGGAGCTGGGATTCCGGCGCCGTACGGGAGGAGAGAGTAGGCCAGCGAGGCGATCCTCTGTCCGGGCAT
AGCCCCACCCCCTCGAATTCTGTCGCAGCAGGGGGCACAACTGTCAGCCAATCAGCTTGGAGAACAGGCACGGCCGCGTCCCCCCCCAAGCCCCACCCCC
GACAGCTGGATCTTGTGACTGGGCTCCTGGGTAGAGTTCAAGGTTGGAGTGAAGCGGCTTCCTTGCGGTTGTGTGGGTGTCCCAACCTGGGTCGAGATAC
CCCGCGGTTCAAAGGCTCCCCCGCAGTGCTTTTTAAATTGACATATGCAGTGATAACCTGCTTTAGCCTCAGGCTCACTCACCCGCCCAGACCCTGGGTA
AGCCTTAAGACCCTCAGCTCTGAAAGCTGTTTCCTGCAGCTCTTGAGTAGCATGAAGTGTTACCTCTTGGGGGCATTTGCATTTTTTAAATGTTTTATTT
TTATATTTATTTATTTATTTATTTTTGGAGATGGTGTATTGCTTTGTCGCCCAGGCTGGGGTGTAGTGGCGCGATCTCTGCTCACTGCAGCCTCCACCTC
CCGAGTTCAAGCGATCCTCCTGTCTCAGCCTCCGGAGTAGCTGGAACTACAGTCGCGCACCGGCACGCCCGGCTAATTTTTTTTTCTTTTTTCTTCTCTT
TTTTTTTGTTTTAACGGATTCTCACTCTGTCACTCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCTCCCTCCTGGGTTCAAGCGATTC
TCCTGCCTCACCCTCGGAGTAGCTGGGATTACAGGCATGGGCAACCATACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTAYGTTGGCC
AGGCTGGTCTGGAACTCCTGACCTCAAGTGATCTGCCCGCCTCAGCCTTCTAAAGTGCTGGGATTACAGATGTGACCCACCAAGCCCGGTCTGTCATTTG
CATTTTAAAATGGGTCATGGGGTGGGCACAGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCAGAGGCAGGCGGATCACCTGAGATCAGGAATTTG
AGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGACAGGTGTGGTGGCGCATGCCTTTACTCCCAGCTACTCGGGAGG
CTGAGACAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTACAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAAAGCGAAACTCCATC
TCAAAATAAATAAATAAAATAAAATGCGTCAGGGAGGGTCGGGCCTTGTGGCTAATGCCTGTAATCCAGGTACTTTGGGAGGCTGAGGTGGGCGGATCAT
TTCAGGTCAGAGGTTCGAGATCAGCCTGGGCAACGTGGTGAAATCCCCGTCTCTACTAAAAACACAAAAAAATTTGCTGGGCGTGGTGGTGCGTGCACCT
GTAGTCCCAACTACTAAGGAGGCTGAGACAGGAGGATCGCTTGAACTCGAGAGGCAGAGGCAGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGG
GTGATAGAGCAAGACTCTGTCTAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAAWGGGTCAGGGAGTGGGTGATTTCTACTGCTAGACTGTTT
AGGCCCTGTAATAAATGGATAAGGGAAGATAACTGAGAGGCGGGGGGCAGGTCCCTTCTTAATATTCACTGAATCATACACACAGACAATACCTTCTTGG
GAGACAGGCCTCAGAGGCCTGGGAAAAGACTGGGGGAGGAGTTCAGACCAGATGCCAGGCACTGTGCCTGCATTTTCTCAATGAACCCTCTTTCACAGTC
ACCCCGTAAAGTATTATTTTCCTCATTTTACAGACAAGGACAYTGAAGCACARAGGTGAAGTGACTTGCCCAAGGTCACTCAGCTAGAAATTTAGGATTC
CATTATCTCATTTCTAGTCCTGATACAGGATGCTACTTGGGACGCAGGGGAGGACTGTTTCTAGACCTCAGGCCTGTGAATGCAGGCTCCCCGAGTGGAC
AGAAATCTTGGAGGACCTAGATCAGGCCCTAGAGGAGGAGARGGGAGATGGAATATCCTCTCCCAGTTCAGAAACTTTCTCGGCAGTGGAGGATGATAGT
GGAGGGGACTCTGTCCTTCACCCCATTGATCCCCAGAGGGGTGATAGCTGAGTCTTGTGACTGGGCCCCTGGGCAGGGGTCAAGGGTCAGTGCCCCTGTT
TCCTTTACCCCCTCCTCCCCGGGCAACCTTTAACCCTCCACCGCCCACACRCAAGGCTGCCTGCCTCTACACATTCTCCCAAGAGTTGTCTGAGCCGCCG
AGTGGACAGTGGCTGATTATGGAGAGCAGAGGCCCACTGGCTACCTCGCGCCTGCTGCTGTTGCTGCTGTTGCTACTACTGCGTCACACCCRCCAGGGAT
GGGCCCTGAGACCTGTTCTCCCCACCCAGGTGCAGGAGCGGGACAGGGCACTCAGCTCATGCAGTCTTCCCTTCTCTCCTCTGGCCCTGTAGCAGGGCCT
CTCCCTCTGTCTGTCTCTGACATGTCCCTACTCAGCTTTGTTTGYTTTCTCTTTCTGATAGAGTGCCCACGACCCTCCGGCTGTCCACCTCAGCAATGGC
CCAGGACAAGAGCCTATCGCTGTCATGACCTTTGACCTCACCAAGATCACAAAGTATGGGGTTGGCCTAGCCCTTGACCCAGTCCCCTGGTTCTGCCCTC
TCTCCATCAGCTCTTCTCTTTTCCCTGTYTTCCTTTCCTTATCTGTGAACACCATCTCCCCCAAACCCACACTGGTTCTCAAAGGACACATGACATACAC
AATCTTTCCTTCTGTGTCCTTCCAGAACCTCCTCCTCCTTTGAGGTTCGAACCTGGGACCCAGAGGGAGTGATTTTTTATGGGGATACCAACCCTAAGGA
TGACTGGTTTATGCTGGGACTTCGAGACGGCAGGCCTGAGATCCAACTGCACAATCACTGGGCCCAGCTTACGGTGGGTGCTGGACCACGGCTGGATGAT
GGGAGATGGCACCAGGTAAGCTAGCTCTGGTCCTCAGGGGAGGGATGTCTGGAGCTGGTCTGAGGAAAGGGAACAAAACCAAGTTATTGGGCATCCCTYT
ACCACTGTCATCTCGTTTAATCCACACGAACCCCCACAAAGTAGCTATTCTTGGCCCCATCTTTTCTGATGGGAATTCTAAGGCTCAGTCAGTATATAAG
TGACAAGAGCTGAGTGACCCAAGGCCAAGGATGCTAGCTGCTTCTTTAAGGCATGTTCTTTCCACTATAGTACTAGGCTGCCTCACAGGAAGGTGGCAGA
AACAGATCCCAGGGGCCTCTGATTTTGCTTCCCACCTTCCTGCAGGTGGAAGTCAAGATGGAGGGGGACTCTGTGCTGCTGGAGGTGGATGGGGAGGAGG
TGCTGCGCCTGAGACAGGTCTCTGGGCCCCTGACCAGCAAACGCCATCCCATCATGAGGATTGCGCTTGGGGGGCTGCTCTTCCCCGCTTCCAACCTTCG
GTTGCYGGTAACTACACCCCAGGGGTGGAACCCTAGCCAAGACTTGGTAAAGCACTGCTGGGTGGCTGGCCGTGGGAATCTAAGTCCACACTTTTAGGGA
GAAGGGAAGGGTTGAGAGCTGCAAGGGGGAGGCCAAATGCTCAGAGGGGAGTCAACTGAGGGCAGGGAGGTCGGGACTGCGGCTCCGATGCCCTGATTTC
TACATCCCCRTATCTTATCTCTGTCACACTCCAGCTGGTTCCTGCCCTGGATGGCTGCCTGCGCCGGGATTCCTGGCTGGACAAACAGGCCGAGATCTCA
GCATCTGCCCCCACTAGCCTCAGAAGCTGTGATGTAGAATCAAATCCCGGGATATTTCTCCCTCCAGGGACTCAGGCAGAATTCAATCTCCGAGGTAGAT
TTCCTCGGAGTCTATTTTTCCCACCCTGGCCAGCTCAGCCTGCCTCTGTCCCCCTCTACCACTGGCCCCTTTCCTCCTTGAGACCCCAGCTTTGAGGCCT
CAGGATAATCATTTCTCCCCACAGACATTCCCCAGCCTCATGCAGAGCCCTGGGCCTTCTCTTTGGACCTGGGACTCAAGCAGGCAGCAGGCTCAGGCCA
CCTCCTTGCTCTTGGGACACCAGAGAACCCATCTTGGCTCAGTCTCCACCTCCAAGATCAAGTAAAGGGGGACAGTGGGGCATTGCCTGTATTCAGTGGA
GCCTGGAGCAATGAGGGAAGAGGGGAGTCCAACATGTCAATATTAGGAAGGTTTCCAGCCCAGGGAACATAACAAGACTGGCTCCACAGAATTGTTTTTC
ATTAATAATTAGCCAGGCATGGTGGTGCTTGCCTGTAATCCCAGGTGCTGGAGGCCAAGACCAGAGGATCACTTGAGGCCAGGAGTTTGACACCAGCCTG
GGCAACATAGCAGAGACCTCTGTCTAAAAAAAAAAAAAAATTAGCCAGGCATGGTAGCACATGTCTGCTGCCCTAGCTATTTAGGAGCCTGAGGCAGGAG
GTTCACTTGAGCCCAGGAGTTTGAAGCTGCAGTGAGCTATGATGTGCCACTGCACTCTGACCTGGGCCACAGTGAGACCCTGTCTCAAAAAAATAAAAAT
AAAAATAAGGCTTATGGATGGCACTCAGGTGGGTGGTAGGGGCGAGGGACATATCTTGAAGCTCCCCACAGCAAGCAAACAGTTTTGACTTAGACTGCAT
ATTTACTTGGGGCAGGTGTGGTTTCAAAAAGGGTCAAGCCAAAAAAAATTGGGGCAGGATTTAAGTGGTGAGAATGGCCAGTAGGTGGAGGCATAGCGAA
GAGGCAGAATTAAGGCAGCTAGGGGTGAGGCCACAGGCAGTAGGCCCGGCTCATTCTTCCCTCTCTCTCTACCGTCCCTTTCCCACACACTCTGCAGAAG
GTGGTGTTGTCYTCTGGGTCGGGGCCAGGGCTGGATCTGCCCCTGGTCTTGGGACTCCCTCTTCAGCTGAAGCTGAGTATGTCCAGRGTGGTCTTGAGCC
AAGGGTCGAAGATGAAGGCCCTTGCCCTGCCTCCCTTAGGCCTGGCTCCCCTCCTTAACCTCTGGGCCAAGCCTCAAGGGCGTCTCTTCCTGGGGGCTTT
ACCAGGTAAGAGAGAATGATGTTCAAGTTCATGAGCACAACATTGGAAACAGCTCAAGGGAGGCGGCACATTTTGAGGGGAAGGAAACCTCTGGGAGGGA
AGAAGAATAGGCCACAAGAAGAAKATATGGGGGCAGTGGAAGGTAGTGCTTTTGCAAACTCAGGTTGGAGGAGTGGAAAAGTGGGGAKAAGATTCTGGAT
CCGAGCCACCTTAATGCTCTAATGCCACCTTTGCACTACCTCCCTCTAGGAGAARACTCTTCCACCTCTTTTTGCCTGAATGGCCTTTGGGCACAAGGTC
AGAGGCTGGATGTGGACCAGGCCCTGAACAGAAGCCATGAGATCTGGACTCACAGCTGCCCCCAGAGCCCAGGCAATGGCACTGACGCTTCCCATTAAAG
CTCCACCTAAGAACCCCCTTTGAAAGTTACTGATTATTCATTTATTCAACAAATATTCACTGTGCACTAGCAATGTACCAGGCACTGTGCCAAGTATTGA
GTTGTCTTAATGAGCAAAAACACTCTGGTTCCTACCCTCTTGGTGCCCACAGTCCCATAGGGAAGCAGACATCCATCAAAGGCTAACTAATAAGTGGATA
GTTGGAAGCACTGATAAAGAAGAATTGGAGAGTTGTGAAAACATGGAGACTGGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCAG
AGGCGGGCGGACCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTGAAAATACAAAAAAATTAGCTGGGCATGGTG
GCGGGCGCCTGTAGTCCCGGCTGCTCGAGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTACAC
TCCAGCCTGGGCAACAGAGCAAGAGTCCATCTCAAAAAAAAAGAAAAAAGAAAAAATAGAAAACATGGAGACTAGGAGGCCTTAACTTAGTCTGAGCGTC
AAGGAGAGTTTCTCTAAGGAAATGAGGACTTCTTTTTTTTTTTTTTTTTGAGATGGAGTTTCCCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGAT
CTCGGCTCACTGCAACCTCCGCCTCGCGGGTTCAAGCGATTCTTTTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGTGCACCACCACCCCCAGCTA
ATTTTTTGTATTTTTAGTAGAGGTGGGGTTTCACCATGTTGGCCAGGCTGGTCTAGAACTCCTGACCTCGGGTGATCCTCCTGCCTCGGCCTCCCAAAGT
GCTGGGATTACAGGCGTGAGCCATTGCGTCCGGCTGGAAATGAGGACTTCTTAGGCTGAGATCCCAGCAAAAACCCCGACAGACAGACATACTCTGGATA
CAGGTCACTTTCTGGAAGCCAGGACCCACCTGGTTCCGCAGAAGCTACTCCCTTTGAGACCAGTTTCCTGCCTCTGTGGCTGGTCCAGAGAGATCAGGAG
GAAGGGAAGAGATGGGATTTTGACATCTCAGTCATCTGGTCCTTGGACTGGCCATTGCTGCCCAGGGAAGAAGCAGCAGGGGGCGTGAGAGGGTCACAGA
GAGATGTGGGTAGGGGTTCTGGAAAAAGGGGTGGAGGCAGGGAGAAAGAAAAAGGGAGGAGAGCAGAGGGAGAAAGTCGCGTCTCTCTCTCTCTCTCCTA
GTCTTGGTCCACTTGCTGCCTTCCCAGACAAATTTGTCTCTACTCCATTAAGCAAGAACTGGCTTGTGCTGGTCCCAGCTGGGAAAAACAGACAGATTTG
GGAATATCTCTCCCCTCAAAGAATACGGTGACCCAGCTCTCAACCACAGACCTCTAGAGAATGCTGGTGCCCAGCATCCCTCCCTGGGGAACCCTCGTAT
CCAAGCCCATAGCCCCTACCCCTCAGCTCCCAGTCTTCTGCCCTCTTAGGAACCCTTGTGTCCTAGCCCAAAGCTCCCAGCCTACTAAGGAGCCCTGGGG
CTAAAGCCCCCCATCCTCTTTCCTCTCAAGAACTATTAGGTCAGCCAGGTGTGGTAGCTCACACCTTTAATCCCAGCACTTTGGGAGGCCGGGGTGGGCG
GATCACCTGAAGTCAGGAGTTTGAGACCAATCTGGCCAACATAGTGCAATCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGATGGTGGGCGCC
TGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAACCTG
GGTGACAGAGTGAGACTCTGTCTCAAAAAAACAAAACAAAACAAAAAAAAACTTAAAAAGAACCATTAGGTTAAAGCATCCTCCATCTCCAGACCCCATG
AGAATCCCAGTGTCCAAGACTCCTAATTTCTTACAAGAATCTTTTCACCAGTAACCCAGGCAGCAGGCTGAGTCACTCACTGGAGCTGCTGTCCCCTTCT
GCAGAGATCAGCCGGGACCTAAATGACTCCAGGGTAAGGAGGCCCTGGGGAGTCTGTAGGGTAGAAGACACAAATCCCAAGCCCCACCTTCTACCTCTCC
TAATCTTGACCCTATAGACCCTCTCAGGATCTACAACTGCCTCCACCCAGCCAGCAGTGTTGGTAGTGGAGTCTTCAGCAATGGAGAGGGCATCCACATT
TAACTCTGGCCCCTTGTTGACGTTCAGGGCTAACCTAGGCCACCTGAGCACCCGCTATGTACTAGGCACTGTTGTAGATACTGAGGATTCGTTGGTGAAA
AGGACAAAAACAGGCTGGGCGCAGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCTGAGACGGGCGGATCATGAGGTCAGGAGATCAAGACCATCC
TAGCCGGGCGTGGTGGCGGCGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCGGAGA
TCGCACCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAGAAAGAAAGAAAAAAGAAAAGGACAAACACTATCCCCGCTCTG
ATGGAACTTATAGCATAGTAGAGGGGAAGCAGACACAAACAAGAACACAAATAAATAAGCAGGATTATTTCAGATAGCGGTTAGAGCAATAAAGGGAACA
AAACCCTGTAATATAATAGGAGGGGGAGGGGAGGGTCAACATTAGCTGGGTGGTCAGGGAAGTCATTTGAGCAGAGACCTGAATAATGAAAAGAAGTCAT
CCTGTGGAGGCCTGTGGAGTGTGAGCCAGCAGGGAGGGGGGTTAAAGAGCCCGGATGTACCTGGGCACCCACCAAGGGGGTTGTTCCGAGTGCCAATATC
CTGACCTTTTGTCCCTGGAATCTCCTCGGAGCTGGCTTTTCTCTCCTCCCTCCACCCCACCTTCTCCAGGACACTGTGCCACCAACCTCTCTTTCCCCAG
CCTGCCCTAGATTCCAGGATTCCTGATTACCATCCAGAGCTGTCTACACTCTTTCATTAAGACTGACTTCGCTTTGACATCGACTTTGCCAGGYCCCCAA
CCAAGGGCACCTACGATGCCTGCCCAGTGTCCCCTGCCTTCCCCACACCCCCAAAAACTTTTCAGAGCTTGGCAGCACACACTAAAGCCTCTGGGCCTGA
TCTACCCACTCACCCCATCCTACCCACTGCCTCTCTCTCTCTCTCTCCCTCCCTTCTTGCTGCGCCCCCCCCAACTTTCATTCAATTAACATGTATTGGC
TGCTGATACATTGGTCAAATACTGTGTAGCCCACCACAGGGACTCTAAAGATGAATATAAAACTTGGTACTGGGCTGGAGAACCAGGGTCTTTTTTTTTT
TTTGAGACGGAGTCTCGCTTTTTCTCCCAGGCTGGAATGCAGTGGCGTGATCTTGGCTCACTGCAAGCTCTACCTCCTGGGTTCACGCCATTCTCCTGCC
TCAGCCTTCTGAGTAGCTGGGACTACAGGCGTACGCCACCACGCCCAGATAATTTTTTGTTTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGAT
GGTCTCCATCTCCTGACCTCGTGATCCACCCGCTTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCTTTTTTTTTCTTTTGA
GACAGAGTCTCGCTCTTTCAGCCAGGCTGGAGTGCAGTGACATGATCTCAGCTCACTGAAACCTCTGTCTCCCAGGCTCAAGCAATTCTCCTGTCTCAGC
TTCCCAAGTAGCTGGGACTACAGGCATGTGCCACCACACCTGGCTAATTTTTGTACTTTTAGTAGAGATGGGGATTCACCATGTTGGCCAGGCTAGTCTC
GAACTCCTGACCTCAGGTAATCTGCCTGTCTCGGCCTCCCAGAGTGCTGGGATTATAGGCGTGAGCCACCGCGCCCAGCCTTTTTTTTTTTTTTCTTTTG
AGACAGAGTCTCCCTCTATTGCCCAGGCTGGAGTGCAATGGCGTGACCTTGGCTCACTGCAACTTCCACTTCCCGGGTTCAAGTGATTCTCCTGCCTCAG
CCTCTCAAGTAACTGGGATTACAGGCATGCACCACCACACCTGGCTAATTTTTATATTTTTAGTAGAGACAAAGTTTCACCATGTTGGCCAGGCTGGTCT
CAAACTCCTGACCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGAGTTTAAGGGCGTGAGCCACCGGGCCCAGCCAGAACCAGGGTCTTGAGAG
AGAGATAGACATGTAAAATGCTTTAGCAGAGGTATCTGAGATGCCAAGAAACCTAGTTGCTAGTTCTACTAAGGACCATCAAAGAAATGAGTTATGGCTG
GACGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTAAGGTGAATGGATCACCTGAAATCAGGAGTTTAAGACCGGCGTGGCCAGCATGGTGA
AACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCGGGCTCCCATAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCGCTTGAA
CCCGGGAGGCGGAGGGTGCAGTGAGCTGAGACTGCACCATTGCACTCCAGCCTGGGCAACAGAGCAAGACTTCGGAACAAGAAAACAAAAAAATAAAAAA
ACAAAAGAAACGAGTTGTTAGATGTGCGAAGTTGAACAAATGACTAAACCTCTATTACTGTTTCCCCATCTACAAAATGGGAAGTTTCTCTATCTTAGAA
GGTTACTGTGAAGATTTGATGAAATCATGTAGACATTTTAATGTCTAGCATAGTGTTTGGCATACAGAAAGTGCTCAATATATGAGATATATATATATTT
CTCAATATATATAAGAAATGTTGTTCTTATTAATCTCACACAGTTCCTGACATATTAGTTCTCACATAGTTCCTGACATACTAGTCTGAGCCTGCTGGGT
ATCAAAGATCTGGGAGGGCGTGTGACATGGATGAACCATGGAGAGGCTGAGATGGAGTGAGGGCAGGTGGGGGCTCCTTGGGCTATGTGGCCTTGTGTGT
CCTGCTGAGGAGTTGGAGCTTGATCTCGTCAGTGAATAAACTTTATTTTCTTATCTATTCTTCTTTTTCTTCTTCTTCTTTTTTTTTTTTTTGAGAGAGA
GTCTCACTGTGTCGCCCAGGCTGGAATGCAGTGGCGTGATCTGGGCTCACTGCAACCTCTGTCTCCCGGGTTTAAGAGATTCTCCTGGCTCAGCCTCCCA
AGTAGCTGGGATTACAGATGCCCACCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCT
TCTGACCTTGTGATCTGCCCACCTCGGTCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGTCAGGCCTTTTTTTTTTTTTTTTTGAGACAGCAT
CTGGTTCTGTTGCCCAGGCTGAAGTGTAGTGGCGCGATTTCAGTTCACTGCAACCTCCAGCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCTTCCTGAG
TAGCTGGGATTACAGACATGCACCACCACACCTGACTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATTTGGCCAGGCTGGTCTCAAACTTCT
GGCCTCAAGTGATCCACACGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCACATCTGGCTTTCTTTCTTCCTTTTCTTCTATTTTTTT
CTTTTTTAGAGACAGTCTTGCTGTGTTACCAACTGTAGTACAGTGGTGCAATCATGGCTGGGACCACAGGAGCAGGCCATTGCACCCAGCTTATTTTTAA
ATTTTTTGTAGAGATGCGGT


SNP Information

Context             (SEQ ID NO:54174):
AAGGCAGCTAGGGGTGAGGCCACAGGCAGTAGGCCCGGCTCATTCTTCCCTCTCTCTCTACCGTCCCTTTCCCACACACTCTGCAGAAGGTGGTGTTGTC
Y
TCTGGGTCGGGGCCAGGGCTGGATCTGCCCCTGGTCTTGGGACTCCCTCTTCAGCTGAAGCTGAGTATGTCCAGGGTGGTCTTGAGCCAAGGGTCGAAGA
Celera SNP ID:            hCV11955740
SNP Position Genomic:     10712
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(C,-|T,-)    ;(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54175):
AGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGTGATAGAGCAAGACTCTGTCTAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAA
W
GGGTCAGGGAGTGGGTGATTTCTACTGCTAGACTGTTTAGGCCCTGTAATAAATGGATAAGGGAAGATAACTGAGAGGCGGGGGGCAGGTCCCTTCTTAA
Celera SNP ID:            hCV26603772
SNP Position Genomic:     7362
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4|-,8)   total(A,4|-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54176):
CGCCTGAGACAGGTCTCTGGGCCCCTGACCAGCAAACGCCATCCCATCATGAGGATTGCGCTTGGGGGGCTGCTCTTCCCCGCTTCCAACCTTCGGTTGC
Y
GGTAACTACACCCCAGGGGTGGAACCCTAGCCAAGACTTGGTAAAGCACTGCTGGGTGGCTGGCCGTGGGAATCTAAGTCCACACTTTTAGGGAGAAGGG
Celera SNP ID:            hCV11955741
SNP Position Genomic:     9306
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54177):
AGCGATTCTCCTGCCTCACCCTCGGAGTAGCTGGGATTACAGGCATGGGCAACCATACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTA
Y
GTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAAGTGATCTGCCCGCCTCAGCCTTCTAAAGTGCTGGGATTACAGATGTGACCCACCAAGCCCGGTCTG
Celera SNP ID:            hCV26603773
SNP Position Genomic:     6593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54178):
AGGGCACTCAGCTCATGCAGTCTTCCCTTCTCTCCTCTGGCCCTGTAGCAGGGCCTCTCCCTCTGTCTGTCTCTGACATGTCCCTACTCAGCTTTGTTTG
Y
TTTCTCTTTCTGATAGAGTGCCCACGACCCTCCGGCTGTCCACCTCAGCAATGGCCCAGGACAAGAGCCTATCGCTGTCATGACCTTTGACCTCACCAAG
Celera SNP ID:            hCV11955742
SNP Position Genomic:     8345
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,5|T,35)   total(C,9|T,69)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,5|T,35)   total(C,9|T,69)   
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54179):
GAGCCGCCGAGTGGACAGTGGCTGATTATGGAGAGCAGAGGCCCACTGGCTACCTCGCGCCTGCTGCTGTTGCTGCTGTTGCTACTACTGCGTCACACCC
R
CCAGGGATGGGCCCTGAGACCTGTTCTCCCCACCCAGGTGCAGGAGCGGGACAGGGCACTCAGCTCATGCAGTCTTCCCTTCTCTCCTCTGGCCCTGTAG
Celera SNP ID:            hCV11955744
SNP Position Genomic:     8192
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,4|G,73)      total(G,73|A,4) ;WIAF-CSNP-P(1(A,9|G,77)   total(G,77|A,9)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:54180):
CAAACTCAGGTTGGAGGAGTGGAAAAGTGGGGAGAAGATTCTGGATCCGAGCCACCTTAATGCTCTAATGCCACCTTTGCACTACCTCCCTCTAGGAGAA
R
ACTCTTCCACCTCTTTTTGCCTGAATGGCCTTTGGGCACAAGGTCAGAGGCTGGATGTGGACCAGGCCCTGAACAGAAGCCATGAGATCTGGACTCACAG
Celera SNP ID:            hCV11955739
SNP Position Genomic:     11155
SNP Source:               Applera
Population(Allele,Count): african american(G,22)   caucasian(A,2|G,34)   total(A,2|G,56)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54181):
ACGCAGGGGAGGACTGTTTCTAGACCTCAGGCCTGTGAATGCAGGCTCCCCGAGTGGACAGAAATCTTGGAGGACCTAGATCAGGCCCTAGAGGAGGAGA
R
GGGAGATGGAATATCCTCTCCCAGTTCAGAAACTTTCTCGGCAGTGGAGGATGATAGTGGAGGGGACTCTGTCCTTCACCCCATTGATCCCCAGAGGGGT
Celera SNP ID:            hCV27497087
SNP Position Genomic:     7842
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,3|G,31)   total(A,4|G,66)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,3|G,35)   total(A,4|G,72)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54182):
AAGCAGAAGAAGTGCCAGCCCTCAGCTTCCGTCAGATCTTGGGCTCCTAGGGCCTTGTACAAGTCCATGGCCCTCTGGTTCCAGTCCAGGACGGCCAGGC
R
GAATTGGGAGCAGCCCTTATCCAAGGCCACCTGTGGGAGAAGACAACACTAACTTTTCTGGGGTCAAAAAAGAAAAAGGTTTTCTCACTCCCTCTTTCAA
Celera SNP ID:            hCV3289985
SNP Position Genomic:     4529
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(A,1|G,23)   total(A,4|G,52)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   ;JBIC-allele(A,90|G,1385)   total(G,1385|A,90)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54183):
GGTTGAGAGCTGCAAGGGGGAGGCCAAATGCTCAGAGGGGAGTCAACTGAGGGCAGGGAGGTCGGGACTGCGGCTCCGATGCCCTGATTTCTACATCCCC
R
TATCTTATCTCTGTCACACTCCAGCTGGTTCCTGCCCTGGATGGCTGCCTGCGCCGGGATTCCTGGCTGGACAAACAGGCCGAGATCTCAGCATCTGCCC
Celera SNP ID:            hCV25629290
SNP Position Genomic:     9510
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54184):
TCAGACCAGATGCCAGGCACTGTGCCTGCATTTTCTCAATGAACCCTCTTTCACAGTCACCCCGTAAAGTATTATTTTCCTCATTTTACAGACAAGGACA
Y
TGAAGCACAAAGGTGAAGTGACTTGCCCAAGGTCACTCAGCTAGAAATTTAGGATTCCATTATCTCATTTCTAGTCCTGATACAGGATGCTACTTGGGAC
Celera SNP ID:            hCV27828746
SNP Position Genomic:     7643
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,29|T,11)   total(C,62|T,16)
SNP Type:                 INTRON


Context             (SEQ ID NO:54185):
CCTTTGACCTCACCAAGATCACAAAGTATGGGGTTGGCCTAGCCCTTGACCCAGTCCCCTGGTTCTGCCCTCTCTCCATCAGCTCTTCTCTTTTCCCTGT
Y
TTCCTTTCCTTATCTGTGAACACCATCTCCCCCAAACCCACACTGGTTCTCAAAGGACACATGACATACACAATCTTTCCTTCTGTGTCCTTCCAGAACC
Celera SNP ID:            hCV25629294
SNP Position Genomic:     8529
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,37|T,3)   total(C,72|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:54186):
ATGGGAGATGGCACCAGGTAAGCTAGCTCTGGTCCTCAGGGGAGGGATGTCTGGAGCTGGTCTGAGGAAAGGGAACAAAACCAAGTTATTGGGCATCCCT
Y
TACCACTGTCATCTCGTTTAATCCACACGAACCCCCACAAAGTAGCTATTCTTGGCCCCATCTTTTCTGATGGGAATTCTAAGGCTCAGTCAGTATATAA
Celera SNP ID:            hCV8727490
SNP Position Genomic:     8899
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54187):
CCTCTGGGAGGGAAGAAGAATAGGCCACAAGAAGAAGATATGGGGGCAGTGGAAGGTAGTGCTTTTGCAAACTCAGGTTGGAGGAGTGGAAAAGTGGGGA
K
AAGATTCTGGATCCGAGCCACCTTAATGCTCTAATGCCACCTTTGCACTACCTCCCTCTAGGAGAAGACTCTTCCACCTCTTTTTGCCTGAATGGCCTTT
Celera SNP ID:            hCV25629288
SNP Position Genomic:     11088
SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,1)   caucasian(G,34|T,4)   total(G,61|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:54188):
TGCCAGGCACTGTGCCTGCATTTTCTCAATGAACCCTCTTTCACAGTCACCCCGTAAAGTATTATTTTCCTCATTTTACAGACAAGGACACTGAAGCACA
R
AGGTGAAGTGACTTGCCCAAGGTCACTCAGCTAGAAATTTAGGATTCCATTATCTCATTTCTAGTCCTGATACAGGATGCTACTTGGGACGCAGGGGAGG
Celera SNP ID:            hCV8727482
SNP Position Genomic:     7653
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,22)   caucasian(A,27|G,13)   total(A,43|G,35)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54189):
AGTCTTGTGACTGGGCCCCTGGGCAGGGGTCAAGGGTCAGTGCCCCTGTTTCCTTTACCCCCTCCTCCCCGGGCAACCTTTAACCCTCCACCGCCCACAC
R
CAAGGCTGCCTGCCTCTACACATTCTCCCAAGAGTTGTCTGAGCCGCCGAGTGGACAGTGGCTGATTATGGAGAGCAGAGGCCCACTGGCTACCTCGCGC
Celera SNP ID:            hCV8727483
SNP Position Genomic:     8051
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(A,11|G,29)   total(A,14|G,58)   
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(A,9|G,29)   total(A,14|G,58)
SNP Type:                 INTRON;TFBS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): UNKNOWN(A,24|G,67)      total(G,67|A,24) ;(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54190):
ACACTCTGCAGAAGGTGGTGTTGTCTTCTGGGTCGGGGCCAGGGCTGGATCTGCCCCTGGTCTTGGGACTCCCTCTTCAGCTGAAGCTGAGTATGTCCAG
R
GTGGTCTTGAGCCAAGGGTCGAAGATGAAGGCCCTTGCCCTGCCTCCCTTAGGCCTGGCTCCCCTCCTTAACCTCTGGGCCAAGCCTCAAGGGCGTCTCT
Celera SNP ID:            hCV25629289
SNP Position Genomic:     10787
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54191):
CAAGTTCATGAGCACAACATTGGAAACAGCTCAAGGGAGGCGGCACATTTTGAGGGGAAGGAAACCTCTGGGAGGGAAGAAGAATAGGCCACAAGAAGAA
K
ATATGGGGGCAGTGGAAGGTAGTGCTTTTGCAAACTCAGGTTGGAGGAGTGGAAAAGTGGGGAGAAGATTCTGGATCCGAGCCACCTTAATGCTCTAATG
Celera SNP ID:            hCV25761043
SNP Position Genomic:     11024
SNP Source:               Applera
Population(Allele,Count): african american(G,32|T,2)   caucasian(G,38)   total(G,70|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:54192):
GCCCTGAACAGAAGCCATGAGATCTGGACTCACAGCTGCCCCCAGAGCCCAGGCAATGGCACTGACGCTTCCCATTAAAGCTCCACCTAAGAACCCCCTT
T
GAAAGTTACTGATTATTCATTTATTCAACAAATATTCACTGTGCACTAGCAATGTACCAGGCACTGTGCCAAGTATTGAGTTGTCTTAATGAGCAAAAAC
Celera SNP ID:            hCV12123721
SNP Position Genomic:     11321
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:54193):
TCCCCAGCCTGCCCTAGATTCCAGGATTCCTGATTACCATCCAGAGCTGTCTACACTCTTTCATTAAGACTGACTTCGCTTTGACATCGACTTTGCCAGG
Y
CCCCAACCAAGGGCACCTACGATGCCTGCCCAGTGTCCCCTGCCTTCCCCACACCCCCAAAAACTTTTCAGAGCTTGGCAGCACACACTAAAGCCTCTGG
Celera SNP ID:            hCV8727596
SNP Position Genomic:     14494
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;SC_12_AA(T,4|C,19)   total(C,19|T,4)
SNP Type:                 TFBS


Gene Number:                 266
Celera Gene:                 hCG42423 - 104000116702204
Gene Symbol:                 XYLB
Protein Name:                xylulokinase homolog (H. influenzae);FLJ10343;FLJ12539;FLJ22075
Celera Genomic Axis:         GA_x5YUV32VV34(38317873..38398348)
Chromosome:                  Chr3
OMIM number:                 604049
OMIM Information:            XYLULOKINASE, H. INFLUENZAE, HOMOLOG OF;XYLB


Genomic Sequence (SEQ ID NO:12426):
ATTCACTGAAGTCCTAACCCCCAATGCGATGGTATTAGGAGATGGGGTCTTTGGGAGGTAATTAGATCTAGATTAGGTCAGGAGGGTGGGGACCTCATGA
TGAGATTATTAAATTTTAAGAAGAGGAAAAGATGAGAGAGCTTTCCCTCTCCCCACATGCATACTTGGAGATAAGGCTGTATGTGAGCCTACATTAAGAA
GGCTGCTGTCTACAAGCCAAGAAAAGAGCCCTCACCAGGAACTGAATTTGCTAGCCCCTTGATGTTAGAATTCCCAGCCTCCAGAACTGTGGGAAATAAA
TACCTGTCATTTAAGCCATCAATCTGTGGCAATTTGTGAAAGCAGCTCAGGCTAAAAAGCACAAAGTAAGGTCTATGGGCTTGCTCTTGCTGTTTTGATG
ACCTGCCCTCTTTACTGCTAAGCCTGAGGGAGAGGCTCCTAGGCAGCACTTCACCCTGTCAAAAGCCCTACCTCCCAGGAAGGTTCTAGTGCAGGAGTGT
CCAATCTTTTCACTTCCCTGGGCCACATTGGGCCACACATAAAATACACCAATGATAGCTGATGAGCTAAAATAAAAGTCCCCCCCAAAATCTTTTTATT
ATTATTATTATTATTATTATTATTATTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATAAGTATACATGTGCC
ATGCTAGTGCACTGCCCCCACTAACTCGTCATCTAGCATTAGGTATATCTCCCAATGCTATCCCTCCCCCTTCCCCCCACCCCACAACAGTCCCCAGAGT
GTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGTGGTGTTTGGTTTTTTGTTCTTGCCATAGTTTAC
TGAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACAT
TTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATATGTCTGCATGTGTCTTTA
TAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTG
ACTTCCACAATGGTTGAACTAGTTGACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTT
AATGATTGCCATTCTAACTGGTGTGAGATGATATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGACCAGTGATGGTAACCATTTTTTCATGTGTCTT
TTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTCAATTTGTTTGAGTT
CATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCCCATTTTGTAGGTTGCCCGTTCACTCTGATGGTAGTTTCTTT
TGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCAAATGTCTATTTTGTCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATG
CCTATGTCCTGAATGGTAATGCCTAGGTTTTCTCCTAGGGTTTTTATGGTTTTAGGTCTAACGTTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTAT
AAGGTATAAGGAAAGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAATTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTT
TTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGCGTTATTTCTGAGCGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAG
CACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGTGA
TGCAGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTATTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCTATA
AATTACCTTGGACAGTATGGCCATTTTCACAATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCCTTG
AGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTT
CACTCATGATTTGGCTCTCTGTTTGTCTGTTGTTGGTGTATAAGAATGCTTGTGATTTTTGTACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCT
TATCAGCTTAAGGAGATTTTGGGCTGAGACAATACTGGCAAACCGAATCCAGCAGCACATCAAAAACCTTATCCACCATGATCAAGTGGGCTTCATCCCT
GGGATGCAAGGCTGGTTCAATATATGCAAATCAATTAATGTAATCCAGTATATAAACAGAACCAAAGACAAAAACCACGTGATTATCTCAATAGATGCAG
AAAAGGCCTTTGACAAAATTCAACAACCCTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATGGGACGTATTTCAAAATAATAAGAGCTATCTATGA
CAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAGCATTCCCTTTGAACACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTC
AACATAGTGTTGGAAGTTCTGGCCAGGGCAATTAGGCAGGAGAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGACGACATGA
TTGTATATCTAGAAAACCCCAAAATCTTATAATATTTTAAGAAAGTTTACTGATTTGTGTTGAGCTGCATTCAAAGCCATCCTGGGCCACATGCAGCCCA
TGCGCTGCAGGCTGGACAAGCTCGGTCTAGTGAATTCCACCATTACACCTCTCTCATGATCTCTTTCTGTGTCTTTGATAGCCTTCACAGCTCCCTATGT
GGGTTCATCTGTCCACTCTGAGCCCTTTCTGTGCAAACTAACCCACTCTTATTGGGAGCTGACATCTGCTGTCAAAAGACAAAATTACAACAAATTTAAA
GATCCTAAATGGATTTTATCTGTGATTCTAGAATTGGACAACACCTTATTCTGTACAAAAGAAGGAGTGTTCCAATGATCTGAGCAAAGGATGTATAACC
ACCCGACAGGTTCACCTTGCCCACTGCCTAGACAGAGCCAATTTATCAAGACAGGGGGACTGCAATAGAGAATGAGTAATTCACACAGAGCCAGCTGTGT
AGGAGACCAGAGTTTTATTATTACTCAAATCAGTCTCCCAGAGCATTTGGGAATCAGAGTTTTTAAGAATAATTTGGTGGGTGGGTGGAGGCCAGTGAGT
TGGGAGTGCTGATTGGTTGGGTCGGAAATGAACTCATAGGAATTTGAAGCTATCTTCTTGTGCTGAGTCAGTTCCTGGGTGGGGGCCACAAGATCAGATG
AGCCAGTTTATGGAGCTGGGTGGTACCAGCTGATCCATCAAGTGCAGGGTCTCTAAAATATCTCAAGCACTGATCTTAGGTTTTACAATAGTGATGTTAT
CCCCAGGAGCAATTTGGTGATGGTCAGAATCTTGTAGTCTCCAGCTGCATGACTCCTAAACCTTAATTTCTAATCTTGTGGCTAATTTGTTAGTCCTACA
AAGGCAGTCTAGTCACAGGCAAGAAGGAGATTTGTTTTGGGAAAGAGCTGTTATCATCTTTGTTTTAAACTATGAAGTAAGTTCCTCCCAAAGTTAGTTC
TGCCTATGCCCATGAATAAGCAATGACAGCTTGGAGGCTAGAAGCAAGATGGAATTGGTTAAGTCAGATCTCTTTCACTGTCTCAGTTATAATTTTGCAA
TGGCAGTTTCATTAGGCCACGTTAACTAACTTCTCTACACCTCAGTTTCTCACTCTGTAAAATGAAGATGGTAAGTTATACGAAGTTCAAAGTGAGTTTA
TACTGGTAGACATCAGAATAGTGATTGCCTTGGGAGTTTAGGAAGGGTCATGAAGGAAACTTCTGGAGTGGTGGAAATATTCTGTTTTGATCTCAGTGTT
TATATGGGTATATACATACATTTTAAAAAAGTCATTGGCCAGGCACGGTGACTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCAC
ATGAGGTCGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAATTAGAGCCATACGCAGTGGCTCACGCTTGTAAT
CCCAGCACTTTGAGAGGACGAGGCAGGCGGAACACCTGAGGTCGGGAGTTCAAGACCAGCCTAACAAACATGGAGAAACCTCGTCTCTACTAAAAATACA
AAATTAGCTGGGCGTGGTGGCGGATGCCTGTAATCTCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGAAGGCAGAGGTTTCAATGAGC
TGAGATCACGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCGTTTCAAAAAAAAAAAAAATTAGCTGGGTGCGGTGGTGTGCGCCTGTAATCC
CAGCTACATGGGAGGCTGAGGCAGAAGAATCAGTTGAACCAGGGAGGTGGAGGTTGCAGTGACCGGAGATCACGCCACTGCACTCCAGCCTGGGTGACAG
GAGTGAAACTCTGTCAAAAAAAAAAAAAAGTCATCAAGCAGTTAAGATTAGATTAAAATGCAGTAATCTAATCTTAATTAGATTAGATACTTAGATACCT
TTATTTAAAATTTTTTAAAAGTGGAGATAATAGTACCTACTTCCCAGCATCATTGTGACGATTAAATGTGCTCAGCAGGTTGCATAATTGTTTCTGATCT
AGCTAGTATCCAGTATTTGTCTATTGTCACAGGTGGTGACTGCTGGAGGGGCTGAGTCCCCAATAAGCTGTGAATGTCTTGGAGGACAAGTATGTTGGCC
CCTTCTTGTTCTAGCAGTGAAGAGGATCCCATGTAGACTCCAAGCAGCTCAAGTTCAGCAAGGGAGACAGACCATTGCAAGTGCATGAAAAGGGCACTGG
TGGGCTGGGAAGTTCGTAGGAGGAGCCTCTCACATGCTGGGTTTGGGGAGGAATTCTGGAAAGCAGTTAGTCTTAGGGACGGGAAGGATGTAGCTGGTGG
GACGGGCGCCCTCAGCTCCATGAATAAAAGGAGTGGGTCTGACTCTGGTTCTCATTCCCCTTTACCATGCCTGGCACACATTAGACCATCAATACCAATT
GACTCCAGGAAGGAGTGTCTCCCCGTGGGGGCATCAGGAGCCGCTGAGTTTAAATACACAGGTGGGATGTGACACACTGGGAACCATTCAGATTTGCTGG
ATCTGGATAGGGCTTGTCAGGACTCAGTGCTTCCAACCCCAGGGCCCATTTCCCTGTGGCCCCTGAGTCACCACCATGGGTGGACAGCTGCTCCAGTGCC
AAGATACAGCCACAGAGGACTGCAGGCCCAGGGCCTCCAGAAGGACAGGCAGGCTCCCTCTGAAAGACAAGCCTGCTTATAGCTGAAACCTCTGGCCCAG
GCGTCCTCTAAGGGAAGCCAGGCTGTGTCAGGGCACGGCCCATGAAGACATAAGATGAAGATGGGGAGAACCAGAGGGGGTGCGCTTCGAAGGAAAGCGG
GCTGCGTGGGGGCACCGTCGATTGCACAGGACGCGGTCCCGGCTCGCGTAGCCCCGCAGGCGGCGCCAGAGCGCARGCCCGCCTCGTGACTCCGGTCCAC
AGTCCGGCCGGGCGGAGCTAGGGGCGGGCCCCTGCGTCTCTGGGCGCTGGAGCGCGGCGACTATCACGCCGCGTGGCGGACGGACGGACTGACGGACGCG
CAGCCTTACCCGAAAGGCCATGGCGGAGCACGCCCCTCGCCGCTGCTGCCTGGGCTGGGACTTCAGCACGCAGCAGGTACAGTCGCCTGGCCGCAGGGCC
ACGGGGCCGCCTCCTCCGCTTCGGTGGGGGTAGGGGGCGGGCTGTCACCCGGACGCGGGAAAACATGGGCCCGGCCGCGGGCGCGCCTACCTCTCGGGCT
TCCCGGGGCCCCCGCGCCCCTGCCCTGCGCGCGGCCGTGGGGCGCCGGTGCCCTCGCCCGGAGATGCCCTGCCAATGCCACCCGCTYGCAAGATGCGGCC
TSGACCCCGCCTGGACCCAGCTACCCCAGGAAACTGCAGGCGCTCCTCGGCAGGACCCCCGGTGCCCAGAGGGGCCGGAGGACTCGGCGGGTTCCTGCGC
TGTTCTGGGCACCCAGTGACGGGGATCCGAAGGAAGTCAGCTACTGTAAGGCAGGGGAACAGACAGGCGGGTAGCCCTGCGCACATGCACAACCAGTGAC
CTGGAAGCAGATTATAGCCCAAAACCYTTTTTWAAAAATTGAAATGGCCCAGGCCTGGTGGCTCTTGCCGGTAATCCCAGCACTTTGGGAGGCCGAGGCG
AGTGGATCGCTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAATATGGAGAAACCCCGGTCTCTACCAGAAAATACAAAAATTAGCCGGGCATGGTGGAG
CACACCTGTAGTCCCAGTTTTTCTGGAGGCTGAAGCGGATCGCTTGAGCCCAGGAGGTGGAGATTGCAGTGAGCTAAGATGGCGTCACCGCTCTCCAGCC
TGGGCGACAGAACGGGACCCTGTCTCAAAAAAAAAAAAAGAAAAAAGTGAAATGCATAGTGTACAAGTGGACTTTACCCTGTGACCGCCCTTCGTTGACA
CCAGCTTGCCTGGTCTGTGCACCCAGGACTGCTGGCCAGAGGAGCAGTGTGCTGCTGCCAACGCCCYGCAGACAGGCAAGCAAATCAAAATTTGCCTTCA
AAGAGGGCATGGGGTGACCGGGGGCACCTTTTCCTTTAAAGTACTTGGGAAATATACACAGTTGCAGTCAAACCCCTCTTCTCGAATGGGTCAAGGGAGG
CAGGCCTCTGGCCAGTCCTTGGGGGAACGTCCTGTGGGACTCTGGATGACTCGAGTTGCCTTGCTGGACCTCAGTTTTCCCATCTGTCCARGAAAGGAGT
TATACTCCCAAGCTTGGAGATTGCTTCAGTGGGACATTAATGTCTCTGGACCACAATCATGGCCTGTGAGAATAGCCCATGGCCTTGCCTGGTCTCAGGC
CTCTGCAGACATGGATCCCCAGAGATGCCTCCAAACCTTGCTTCCCATTCCTTCCTCTCTGGCACTTTCTCCCGCCTCCTTGTCAGGTGCACGAACCAAC
TCATCTGTGAACATCTTCCTCTAGAGGGTCTTGGCTTTGGCTATTTGGGGAACAAAGATTCCTTGAGACATGTGGGTGTTCCTACTTAGCCTCAGTTTCT
TCATTTKACTAAATCTTTGAGTGTTACCCCAGATGARTCCTCTGTTACCACGATTACGGTGAGGCAGCCCTGCCTTCAAGGAGGTCTCTAGGTTGAACTG
CTCCTAGGGTGTGGGGCCTCATCTGGTGACGTTAGTACCCCCTGGACCAGTGTAGAAGCTGAGGAAAATTCTACACTTCMTTTTTTAAAATGCCTTTCAG
GTAAAGGTTGTTGCTGTTGATGCAGAGTTGAATGTCTTCTATGAGGAAAGTGTGCATTTTGACAGAGATCTTCCAGAATTTGGGYATGTACTTGATGTGC
ATGTGTGTGTGATGGGGGTGTTGGTTTTGGGGTCCTCCCGCAAACTTTTGTATTCGCAGACCGCACTGTTGAGGCTTTGCCAAATACAGGAGTGGTGGTC
TCGGCAGACCTTTCAAGCATCTTTTTTTCCTATACCTAGAGTGCCATCTCCCCCATTTCTTCCTAATTCCATTCATCCATTCATGAAGTAAGCATCAGTT
GAGACCTACTTTGTGCCAGGTGCTAGGACCTGATGGCGAAACAAAAAGAGAAAGCTCTCCCAGAGCTTCCCACTGAGTAGTGGAGACTGGTATCAAACAA
AGAATCTCACAAAAGAGTGTTTCATTATAAACTCTGAGAAGGCCTCTGAAGGAAAGGAACTCACTTCTCCAAGTGCTTATTATAAAGGAATGTGACTCAG
ACTTGGGAGGGGAAGTCCCAGAGCGTCTCTAGGGAAGTGGTGCTTAAGCTAGAGATCAGAGTGAGTGAAGTTAGCCAAGCGATGGAAGGGAAGTTGGCCA
GGTGATGGAAGAGCATTCCAGGCAGAAGGAACAACATGTGCGAGGGCCCTGTGGCAAGAAAGAGCATGGTTCATTCCTTCATGCAATTGAAGAAAGCCAA
TGATGCTGGGGAGCAGAGAGAGGCGGAGGCTGGTCAGAGCTCCATAGGCCATGGTATAGAGTTTGTCTTTATTCTAAAAGCTATGGTCAGCCACTAAGGG
CCATAAGGGGTAGGGGTATGGGTGAGGTATGAATGACAGGTTGYATTTTTGTTTTGAAAATATCTCTCTGGGGGCATTGGGAGAACAGATTCGGAGCATT
GCTGGAATGGACGTGGGGAACTATTAAAGAGGTTTTTGCTGGTCATTCAGGTATGAAATGATGGATAGGAGAGAGCTGAGTAGTAAAATGGACAGGTCCT
GTTACAAAATTGAATGTGAGATGTAAGGGTGGGATTTCTGGCTGTCCTTCAGAGTGGATGTTGGACTGTGGGAAAGAATGAGTTTTGGAGAGAAAGATCA
TGAGTTCAGCTTGGGCTGCCATAACAAGGTACCATAGACTGGGTGGGTTAAAGAGCGGAAATTTATATTCTCACACATCTGGCCGTTAGGAGTCTAAAAT
CAAAGTGCTGGGAAGATTGGTCTCCTCTGGGACCTCTCTCCTTGGCTTGCAGGTGACCACTCTCTTGCTGTGTCTTCACATGGTGGTCACTCGGTGCAGG
AGTGCTTGGTGTCTSTGTCATCTGTATCCTAATCTTCTTATAAGGACATGAGTCATACTGGATTAAGGCCCATTCTAATGACTTCATTTTAACTTAATTG
CCTTTTTAAAGGCCCTGTCTCCAAATAATCACAATCCAAGGMCCTCGGGGTTAGGATTTCAGCATATGAGTTTTAGGGGCAGAGGGGGCACAATTCAGTC
CGTAACACTGTGGACTTGCTGGTTTTGAGGCACCCTCGTGAGGGCCTGGTAAAAGTGTCCTTCCCTGTCTGTTTTAGACACACTTCCTCTTTGAAGCCTT
CCCAGCTGACCCTTTGTGCACCTCTCATTACCCATCACATTGTGTTGCCAACTCTTTGCCCCCAGCTAATGCGGCCCCATGGAGCCGAGGTTAGAAGCCA
TCTTGCTTTCTCACATTTTTTATTATTGCAGGCCTTGCATGTTTGCCTTTGGGTAGTTGGTATGTTTCAAGGAATTGGTCTTTTCAACTAAGCCATCAAA
TGTGTGGCCATAGTGTTGTTCATAATATTCCTTTATCCTCCTTATGACATCTGTGGGACCAGTAATGATGATCTCTTGCTGTTGGTCATTTCTGATATTG
GTAATTTGTCTTCTCTCTTTTTTTCTTTGGTTATCCTGGCTAGAGGTTTATCAATTGTATTGATCTTTTCAAAGTTCAACTTTTGGTTTTGTTGATTTTC
CCCTGTTGTTTTCTTCAAGTTGTGCTCTAATTTTTATTACTTAGTTTCTTCTGCTTGCTTTAGGTTTAAATTGCTCTTTTTTCCCTAGTTTCCTCAAGTG
GAAACTTAGAGGATTGATTTAAGACCTTCTTTTCTAATATATGCATTTAATGCTATAAATTTCTCTGTAARCACAAATGCTTTTTATGGGATGCCTTAGC
AGCATCCCATACATTTTGATAAGTTATAGTTTCATTTTTTTCGTTCAAAATATTTTTTAGTTCTCTTGAGACTTCTTTGACTCATGGGTTATTTAGAAGA
ATGTTTTTAGGCTGGGTACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAAGCAGGCAGAACACTTAAGGTCTGGAGTTTGAGACCAGCCT
GGCCAACATGGTGAAACCCTGTTTCTACTAAAAATACAAAAAAATTAGCTGGACGTGGTGGCAGGCATGGTGACAGGCMCCGTGTATGCTGCACGCCTGT
AATCCTAGCTAGCTGGGAGGCTGAGGCAGGAGAATTGCTTGAACTGTGGAGAGGGAGGTTTCGGTGAGCCAAGATCGCGCCMCTGCACTCCAGCCTGGAC
AACAGAGGGAGAGCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAGTCTGGAAGTGTGTTGTTTAATCTCCAGATTTTCCAGTTTTCTGTTA
TTGATTTCTAGTTTAATTTCATTGTGGTCTGAGAACATACCCTATATGACTTCTAGTCTTTCAAAATTTTAAAATTTCCTCTCCCTCACTCTCTCTTCCA
TTTAATAAGTCAGTCCTCTCCACTGGACATTTAAAAAAAGGTGTCCATAACCAAAATATGGTATTGCTTTTTTCCATTATATTTTCAAGATATTTTAAAC
CAGATGCCTATAGATTTAGTTCATTCCTTCCCCATCACCTCAATTGCATTGTGGGTTTTCTTTTTACAACTTTATTAAGGTATAACTGATGTACAATACT
GTGCATATTTGGAGTATACAGTTAAAAGCTTTAATATCTGTATTCTTTCATGAAACTATCACCAAAATAAGACAATGAGTATTTCCATGTCCTAAAAATT
TCCTCCTGCCTCTTTGCAAGCGATGCCTCCTTCCCCATACCCCTACCCACTGGCAACCGCTGATGTGTTTTCTATCACTAGTTTGTATTTTCTAGAATTT
TGTATAGATGGAATCATAATTATGTATGCTTTTTTAAAACCTTTAAAATTTTACATCACAGTTTTGAGATTCATCCATGTTGCTACATGTGGCAATAGTT
GGTTCCTATTATTGCCGAGTAGTATTTCATTGTATGATGTTGTATGGATGGACTACAATTGGTTTCACCTGATGAGGGATATTGGGGTTGTTTCTCTTTT
CTGTTGTTATAAGCAAAGGGCTATGAGAGTCACATACAAGTCTTTTCGTGGACATATGATTTCATTTTTCTTGGAAATGACATACCAGGAGTACAGTGGC
TGAGTTATACGGCAGGTATATGTTTAACTTCTTAAGGAATTCTCTTCCAAAGTGGTGATTTTAAGAAAAAAAATTTTATATTGTTAACAGGCATTACATT
GCACTTAATATGTAACTCAAATGAAAAGTATACAGTGAAAAGTCTTTTTTTTTCTTTTTTTCTTTCTTTTTTWGAGACAGAGTCTGGCTCTGTCGCGCAG
GCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGTTCCGCCTCCCGGGTTGTCCTCCATTAGGAAATGGTACATCTACACAATGGAATACTACACAT
CTATAAAAAAGAACACAGAAGTTTTTATGTATTGACATGTAAACACAGCCACGTTACTGTGAAGTGAGTAAAGCAAAGTACAGATCAGTGAGTATAGTAT
GCTTTCTCTTGTATGAAAGGAGGAAAATCAGAATATTCATACCTTCCTATATTTCCATGTAAAAACACTGGAAGGAGCCTGGCACAGTGGCTCAAGCCTG
TAATCCTAGCACTTTGGGAGGCTGAAGCGGGTGGATTGCTTGAGTCCAGGAGTTCAAGACCAGCCTAGGCAATATGGTGATACCCTGTCTCTACCACAAA
AGTGCAAAAATTAGTCATGTGTGGTGGCGTGCACCTCTAGTCCCAGCTACACAGGAGGCTGAGGTGGGAGGATCACTTGAGTCCAGAAGGTGGAGGATAC
AATGAGCCAAGATCATACCACTGTACTCCAGTTTGAGGGACAGAGCCATACCTTGTCTAAAAAGTAAAAAAAAAAACTAGAAGGATACACAACAAATTAA
AGTCATCTGTAGAGAAGGGACGGAGAGGAGAGATGAGCTCACAGGTGGGATTAAGACTTTTCACTGTTATATGGGGTTTCACCATGTTAGCCAGGATGGT
CTCCATCTCCCAACCTCGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCACACCTGGCCAAGTTGTCGCTATTATTGC
CACRCACAGATATTTATGTCATTGAATTTCCCAGTCTCTTTTATTGCTTCTAGATTTTGAGTCATAGTTCAAAAGGCCTTCCTCACTCCAAAATTATGAA
GGAACTCACCTATGTTTTTATCTAGTTCTTGTAAGATTTCAGCTTTCTTACATAAAAATATTTGGAGTTTATCCAGGTACGTAGTATGACATWTGTATCC
AACTTTAATTTTTCCCAGATGATTCTTCAGTTGTTGTAACACCAACCATGTTTKTATTTAATTTATTTTTTTTATTTGAGACAGGAGCKGGCTGTCACCC
AAGCTGGAGTGCAKTGGTGTGATTCAGCTCACTGCTATCTATGCCTCCCGGGCTCRAGCAATCCTCCCTCCTTAGCCTCCCAAGTAGCTGGAACCACAGG
TGCGCCCCTACCATGACCAGCTAATTTTTTTGTATTTTTTTTGTAGAGATGGGGTCTCACTCTGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGCA
GTCCACCCACCTCTGCCTCCTAAAGTGCTGAGATTACAGGCGTGAACCACCACACCCAGCCTCAACCGGGTTTTTAGAAGTCCATCTTTACCTTTAAGAG
GCTGAGGTGGGCGGATTACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCTAACATGGTGAAACCCTGTCTGTACTGAAAATACAAAAATTAGCTGAGCAT
GGTGGTGGGTGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACCTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATTGTGCCACT
GCATTCCAGCCTGGGTGACAAAGTGAGACTCCATATAAAAAAAAAAAAAAAAAAAGAAGTCCATCTTTACCTCCATGATTTGAGATGTGAGCCTTATCAT
GTGCTACTTTCTGTGTTCACTTAGGTCCATTTTTGGGCTTTTGTTTTTGTTCCATGGTTTGGTAGATCTGTTCATAAGCCAGTAACACATTGTTTCAATT
ATCCCAGCTCTGTAATATGTTTGYTTGTTTGTTTATTTACTTTTGAGTTGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTC
ACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTTCTGCCTCAGCCTCCTGAGTAATTGGGATTACAGGCGCCCGCCACTGGCTAATTTTTGTATTTTT
AGTAGAGATGGGTTTTTGCCATGTTGGCCAGGTTGGTCTCTAACTCCTGACCTCAGGTGATCCGCCTGCCTTGGCCTCCTGAAGTGCTGGGATTACAGGT
GTGAGCCATTGCACCCGGCCTGTAATATGTTTTAATATCTAGAATTGTTGGTCCCCTCTGTTTGTTTTTTTTTCCAGAGTTTCCATGGCTATTCTTGTTC
TTTTTCAATATGTACTTCAGAATCAGCTTTTCAGGTTCCAGAAAGCCAAATTGTTAATTTTTTTTTTTTTTTGGACATGGAGTCTAGCTCTGGAGCCCAG
GTTGAAGTGCAGTGGTGTGTTCTCTGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGACTACAGGC
ACATACCACTACACTTGGCTAATTTTTGAGTTTTTAGTGGAGACAGGGTTTCACCATAATTGGTCAGGCTGGTCTGGAACTCCTGACCTCAGGTGATCCA
CCCACCTCGGCCTCCCAGGGTGCTGGGATTACAGGCGTGAGCCACCACACCCAGCCTGTTGTTAATATTTTTATTGAGATCATATTATCTTTATAAATTA
ACTTGGCAGAATTGACAACTTTATGAGATTAAGTCTTCCTGTCTAAGCACACGTTATGACTTTCCATTTGTTCAAGTCTTCTTTTGAATACTTCACATGT
GTTTTAATATGTTTAACATACAGCTTTTGCTCACTTTGGTAGATTGCACAAATGACCACAATACTCCACCCATCCCTGTACCCACACCCTTTGCAATGTG
ACTGYAATTCCTCCCATCAAGGAGTCGTTTCCCTACCTGTTGATTTGCTTTATCCAGTAGAACAGGGGAAGTGGCATTGTGCCAGTTCTAAGCCTAAGCC
TCAAGCAGCCTTATGTGCTTCTGCTGTCATTCTTGGAACTCTGCCTAGCCACCAAATGAACAAGCTCAGGCTATACTGCTGGAGAGTTGGACATATGTGG
CCTAGTTGCCCCAACTTCTTCCCCTAAGAGCCAGCCAGCCCCTAGCTACTGTTAGCTACCTATGAAGCAGAGCCTTCTAGCTACCGTTAACTGACTGCAG
ATGTATGAGTGAGCCCAGCTGAGCCCCATCCAATGATAGCAAGTAGAATTGTGAGCTTAATGGTTTTTAGCCACTAAGTTTTGAAGTGGTTTGTGACAAT
GCAGAAATTACCCAATGTAGATAATTATTTTTAAGTTTATTTCTAACTTTTTTATCCTTTTACTACTGTAAGTGGGGAAGGGAGGTTTCTAGCAGAAACT
TATCAGCTGTCTTCCAAACTCATTTCCCTTTCTTCCTAGGCACTCTCCTGCCTTCCTTGTAGTTATGTTCAGCCATGTGACTGAGTTCTAGCCAGTGGAA
TATAAGAAAATGTGATCAGGCCTCTAAAAGACCTAGTCCATCAAAACCTCCTTCTCTGACTTTTCTCCCATTTTTGGCTGATGTGGGTGTCCAGAGCAAC
CTTGGAAGCACATGTGGAACATGACAGAGCCACCATCAACCTGGTTCCTGAATGACTGCATGGAGCAGAACTCCCCACTCCCCACTCATGTTCCTAACCA
CCTACTGATTGTGCTTTACATGAGGAGAAAGAAACTTCAGCTGTATCAAGCCATAGAAATGTGTTTTTCCTTAACTAATATAATTTTTTCCCTCATATCC
TTTTTTTAAAGAAAATACTGGGGCCAGGTGTGGTCGCTCACGCCTGTAATCCCAGCACTTTGGGATTACAGAGGCGGGCACATCACGAGGTCAGGAGATC
GAGACCATCCTGGCTAATGCAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTTAGCCAGGCTTGGTGCCGGGCGCCTGTARTCCCAGCTGCTCRGGA
GGCTGAGGCAGRAGAATGGGGTGAACCTGGGAGGCAGAGTTTGTAGTGAGCCGAGATAATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGT
CTCAAAAAAAAAAAAAGAAAGAGAAAATACTGTTTCTATTGAAATGTAATTCACATACCATAAAATTCACCTTTTAAAATGTACAATTTGATGGTTTTAG
TATATTCAAAGAACAATATCACTATCACCACTATGTAATCTTAGAACATTTTCACCACCTGGAAAGGAAACCCTGTATTAATTAGCATCCACTGTATAGT
CCCCCTCCTGCCAGTAGTGGCAACCACAATCAACTCTCTATCTCTGGATTTGCTGATTCTGGACATTTCGTAGACATGAATATATATAATATGTGACAGC
CTTCTTTTACTTAGCATAATGYTTTCTTTTTAAAAAWTTTTCATAGCTTTTTGYTTRTTTCAAATACCAACTTGAACCAGATACCTGGCATAATGTTTTC
AAAGTTCATCCATGTCATAGCGTGTGTCAGTACTTCATTCCTTTTTGTGGTTCAGTAATATTCCATTGCATTGATATATCAGAGTTTGTTTTTCCATTCA
ACTTTTAGACATTTGAGTTGTTCTGCTTTTTTGCTATTGTGAGTTATTCTGCTATGAACATCCACATATGTTATGGATTGAATTGTGGCCCCCCAGAATT
CATATGTTGGAAGCCTACCCTCATCATGACAGTATATTTGGAGGTGAGGCCTTTAGGTAGATAATTAAGGTTAAATGAGGTTGTAAGGGTGGGGCTCTAA
TTTGATAGGACCTGTTTCCTTATAAGAAGGAGAGACACCAGTGCTATCCCACTTCATGCGCAGATGCACAGAGGAAAGGCCTTGTGAGAAGGCGGCTGTC
TGCAAGCTGGAAAGAGAGCCCTAACCAGAAACTGAATTTGCTGGCACCTTAATTGTGGACTTCTAGCCTCCAGAACTGTGAGAAAATAAATGCCTGTTGT
TTAAACCATCTAGTTTATGGTATTTTGTTATAGCAACCTGAGCAAACTAATACAAYGTATACGTTTTTGTGTGGACATATATTTTCATTTCTATTGGGTA
TATTACCTAAAAGTGGAATTGCGGGGTCACATGGTAACTCTGTGTTCAACATTTTGAAGAATTGCCAAACTGTTTTCCAAAGKGGCTGTACTATTTTCCA
TTCCCACCAGTGGTAGATGGTGCCTCTAGTTTCTCTACATCCTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGT
GATCTCGGCTCACTGCAAGCTCCACCTCCTGGGTTCATGCCATTCTCCTGTCTCAGCCTCCCTAGTAGCTGGAACTACAGGCACCCGCCACCACGCCTGG
CTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCCGCCTCGGCCTCCCAAAG
TGCTGGGATTACAGGCGTGAGCCACCGCATCCTTGCTTAACATTTATTATTGACTGTCTTTTTAATTACAGACGGCAGCCATCCTAGTGGATGTGAAATG
CAATCTCACTGTGCTTTTGATTTGCATTTATCTAATGATAATGATGTTGAGTATCTTTGCCATTTGTGTATCTTCTTTAGAGAAATGTCTATTAAGATCT
TTTGCCCTTTTTTAAAAAAAACTGTGTTATTTCTCTTTTATTATTGAGTTGTAAAAGTTTTTTTTTAATGTATATTCTGGAAACAAGTCCCTTGTTAGAT
ATGTGATCTCAAAATTTTTGTCCCATTCTGTGGGTTGTCTTTTCACTTTCTTGATGATCCTTTGAAGCAATGTTTTTARTTTTGATAAAGTCTAATCTTC
CTACTTTTTTCCTTTTGCTATTTGTGCTTTGGTGCAGTATTGGTTAGGTTTTGGTATCAATTTTATATTTACTTCACTAAAATAATTGGAAAAATTTTCC
TTCTTTTCAGGTGCTCTAGAACAATTTAAATAGTATTAGAAATATTTGCTATTTAAAGGTTTGGTCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCAT
GAGGTYAGGAGATCGAGACCATCCTGGCTAACAAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGCGGTGGCGGGCGCCTGTAGTC
CCAGCTACTCGGGAGGYTGAGGCAGGAGAATGGCGTGAACCCGGGAAGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGACCGACCTG
GGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGGTTTGGTATAATTTTTCTGTCAAACCATTTGGGCCTGGTGCTTTTGGGGC
ATGGGGTGGCTCTGGTCTTCCTTCTTAGCTGGAAATGCCAGTTTTGTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTTTTTGAGACAGARCCTTGCTCTGTTGCGCCCAGGCTGGAGTGCAGTGGCAAGATCTCAGCTCATTGCATCCTCCGCCTCCTGGGTTCAAACAATTCTC
CCACCTTAGTCTCCCAAGTAGCTGGGATTACAGGTGCCCTCCACCATGCCTGGCTAATTTTTGTATTTTTGTAGAGATGGGGTTTCACCATATTGGCCAG
GTTGGTCTTKAACTCCCGACTTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGCACTGGGATTATAGGTATGAGCCACCGTGCCCAGCYGAAATGCCAGT
TTTAAGTTGTTAAATACATGGCAGAATGTCTGGTTACAGTTTTTATCTGTTTTGTGAAGGCAACATTTTTTGGTGAGCTTTTATTGTCTGTAGTAAAATT
TTGTTGCTCTCTTCCTCTTTTTCCCTAGTAGTATCTTTTTAAAAAATCCATATTATTGAGTATAATTTATGTACAAAAAATGCCATCCATTAAAAATGTA
TAATTAAAGGTACTTTGCCAGATATAGACCTATAGCTGTGAAACTACCACCACAATCAAGATACAGAATGTTTATATCACCCYCCAAAAGATCGCTTTTT
TCCCTGCTTACCGAGACAAGCTCGGTTGTGGAGACTCCAACGCACCAGCACTAGAGGAATGAAGACAAAGACCCAGAAATAAAGTGCAGTGTGGGAATCG
GCTAAAAGCCTTTAGAGCTGAGAGCCACAAACAGAGTTTTGCCCACATATTTATTGACAGTAAGCCTGTGATAAACATTGTTTCTAAAGATTATAGATTA
GCTGAAAGCATTYCTTATGGGAAACAAAGCATTCTTTTCAAGAAGCAGAGAAACAGGCTGTGGCTGATTATCTGCAGCAGGAACATGTCCGTAAGGCACA
GATCGCTTATGCCATTGTTTKTGGTTTWGGAATGCCTTGAGTGGTTTTCCGCCCTGGATGGGCCAGGTGTTCCTTGCCCTCATTCCGGTAAACCAGCAAC
CTCCAGTGTGAGTGTCATAGCCATCGGGAACATGTCACATTGCTGCAGAAATCCTGTTTATGGCCAGTTTCTTTAAGGCCTGTTTRTGACAGGCTTAGGG
CCTGTTCCCAGCACCCACTAGACTTAGACAACCACTGATCTCCTTTTCTCAGTATAGATGAATTTGCGTCTTCTAGTCTGTTCCTATATAAGTTATAATT
GTGTACATATGAATAGTTCATATTTTTTCTTGCTCTGTAGTATGATATCACAAATATACACCACGATTTATCTGTTCACTTGTTTAGGGACACTGGGTTG
ACTCCAGTTAATTATTACAAATAAGTCTGCTATGAATATTTGTGTACAAATCTTTCTATGGGCTTAGACTTTCATTTCTCTTGGCTGGATACTTAGGAAT
TGAATGGCTAGATCACATGGTTATCTAATAGCATCTTGGTGTGGATTCTGAGMCTGGTTTTCTCTTTCCTAACACATAGTTAAAAGGGTTGGATTTTATC
AGATCAGCTCTTTGCACTAGAGTCTTCTAGGGGTGAGGTGGGTGGGGAGAGGGTTCCAGTCAAACTTCCAAAGCCTGTAGTCCAAGGACTTGTTGGTCTG
TTGTGATAGTAGAGACACTCTTCCCTCCGACGCAGCATCTCTGTGTGGCTGCCCCTCCTCTACCTCTCCAAACCTATGGGGCTTGAGAGGGATTTTATAA
TCCAACACTGCACTCCCCTAGGGTGAGCCTTTCTTATCTAGAAGGCTTCTTTAGAAGATGCTTCTGAGAATTGCCACATCTGGGCCACTCTGGGCAATTT
GCCTGTCTTCTCTTTCCATCTTTGCAGCCCTYGTGCCTGTTCAATCAACAGTTCCCACTTGGGGTTGGGGAAGGTTCTCCTTCATCTGGACATTTCCAGA
GTCATCCACCATAGGGTTTCTCCTGGCTTTGCAATGGTCTGCCTKCCCTGAGGCTCTGGTCTACATTCTCTGTTGTTCTTGCAGGACTCAGGGYGGTGTT
CATGTGCACAAGGATGGGCTGACGGTCACTTCTCCAGTACTAATGTGGGTCCAGGTAAGCGCAGGGATTCCTRTTCTCCTTCTATCCCCAGGCTGTCTCA
CTGGCAGACTYGGTGATTTGCTAGGAAGTCCAAAGGTGGCAGCCAATGAGAGCATCTGTTGWCACCAGGTCCTCATGGGAARGTGGAGTTGGCATGACTC
CTGGGATCAGGCTCAGCCTCAGCTGGTGTCAACACTCCCAGGCTCAGAGGACTTACAAAAAACTTCCAGGTACTGGAGCTACAGCAGATGGCAAGTCCTG
CCATTAACCACCTTTAAAATAACACAGAGCAAATCTTTTCCAAACATCTGCAGTCAGGCCCTGTGGCCTCCCTTGTACCATGAAATATACAAACATAGAC
TGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGRCCGAGGCAGGTGGATCACCTGAGGTCAGGRGTTCAAGACCAGCCTGGCCAACATGGT
GAAACCTTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCCCATGCTTGTAATCCCAGCTACTCAGGAGGCTGAGGTAGGAGAATCACTTG
AACYTGGGAGGTGGAGGTTGCAGTGAGCTGAGACYGCACCATTGCACTCCAGCCTGGATAACAAGAGTGAAACTCCATCTCAAAAAAAAAGAAAAAARAG
AAATACAAACATAGCCCTTAGGGTCTTAGTGCTCAGCCTCYAAGATCCCTTAGCTCCCTAATCACCTAGAATGGCAAGTTATGGCCTGGCCAGTCAGACT
CATATCAATGCCAAGCCAGGCCTGCCTGCTGAGGATCAACAGGAAAGGMGAATGCCTGTAGCAGGATCTGGTGACCTAGGGGGCCACAGGAGCAGGGATG
TGGACAGCATAGACAGGCGTGGTAGCTCCAGGGGCTACCTCATCATATGCTGCAGGGTCCCCGAGTCCCTGAAACTGGAGGCCAGCTAAGTGTGTGTCTT
CCAAAAGCTTTTTTCAGTCCTCCAATACCTATCTAACCAATTCCCTATATWACATTCTTTTTGTTMAAAATAACTGGTATGATTTCTTTTTTATTGGTGT
AACCCTGATTCAWACAMTGGAGAATTGGGGTAAAGGATGGATTTTATCCAGATAAACTGGSTAGAATGTAMTTCAGAGGGGGCTGAGCCAGACCAAGGGG
CAGAGTGGGAGGGTCGGGGGTTAGAGACAATGGTCAGTGTCAGGAGGTCCCAGTGATGATGTCGAGGGCATCTCATAGGCCAAGGCCTTCACCTGGGGAG
GTGAGCAGTGGGTGAGAACCAGGCTTGGGGGCMGGGCCAAGGTGATTTCTGATYTGAYGCAGCCTCCAGGACCAAACTTGATCCTAGCTCTGCCAGCCCC
TGCTCCGGCTGCACCCCACTGCCTGCCCAAGGTTTGATGGRCACAGATAGAGATGGCAGCCACAGCCAGGGCTGAAAGAAGCCCTCCCAGCAAAGGCTGG
GGGTGGTGGAGTCAGGCAAAAGTGAGAGAGTCTTCTCTGCCCTCAGGAAAACACAGGTCAGAGTGAATCTCTAATTCCTGCCATGAAATCTTAGGAGGGT
GGTGCCAAGCTCTGCTGGGCACCACCATCCATCCCACTCACTGGGTTTTGCTAGAAAGGAGGGTCCAACCAGACAGTGGAGGCTGGAATAGGGGCCTGGA
ACAGGTGGCCATCATCTCTATCCACTCCCTCCAGCCTCTGGCTCCTGGACACAGGGAGTCTGGGCCTGATGCTTTGCTCTCAYGGGAGCTCTCTCCTTTG
CTCTTCACTTCCCTGTKGCAGTGAAGTCAGATCACTAATATAGAGGGTTGAAAATGCAAATAAAAGAAGGCAAAAGTTGGCTGCCTTACTTTGTTAGTTT
TTGAGACAAGGTCTCACTGTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCATGGCTCACTATAGCCTCAATCTCCTGGGCTCAGGTATCCTCCCTCCTC
AGCCTCCTGAGTAGCTGGGATTACAGGCTCATGCCACCACACCCAGCTAAATTTTTCATTTTTTGTAGAGATGGGATCTCATTATGTTGCCCACACTGGT
CTTGAACTCCTGAGCTCAAGTGATCCTCCTGCCTTGGCCTCCAAAAGTGCTGGGATTACAGGTGTGAGGTGATGGCATGCACCCGTAGTTCCAGCCACTY
GGGAGGCTGAGATGGAAGGATCACTTGGGCCTGGGAGGTTGAGGCTGCAGTGAGCTGAGATTGCRCCACTCCATTTCAGTCTGGGAACCAGAGCGAGACC
CTGTCTCGAAGAAAAAAAAATGGAGAAGTAAAATTTGAGGATTGGTGGTTTATGATTCCATTTATTTAAAATATTTTTAGCATAGTTGACCTTTTTATTT
GATTGATGCCTACTTGTTWAATTAATGTACTCTAGTGCTTACAAATCCCAAGTCATGAGTTTCTTCATCATCTGCCCAGAGTACTCTGCTGTAATGGCAG
GCACTTGCGTTTCAATTCTGAGGCTTGCGTGTCTGATTCAGTGGTTCTGTACAGTCATGGTGGGTTCTGTTTTTCTTCTTAGGCACTGGATATCATCTTG
GAGAAGATGAAGGCTTCGGGCTTCGAMTTCTCTCAAGTCCTAGCCTTGTCCGGGGCGGGCCAGGTTCGTTTGCAGCAGACTCTGTCTGCCATGTGAGGGT
GACTGTCCTGGGCAATGGTGTGGGTGTTGAAGAGATGGCAACCCTTGGATGGGGAGCGGCTCATTCTTGACAGCCACTGCACAAATTTCACTGTGAATAA
AAATCCCTACAACTATTTTACTTTGGAGACTGTATAACTTGTCTCGTTGCAAAAGGATCTGAGACAGTTCTTAGGAGTAAGTATTATATAAAATAGGACG
CTTGGTGAGAGAACTGAGTTCCTCTGAAGGGGATGGAGGAAGCAATTGACATGAATTTATTATGACTGCTTGGGGGCACCACAATTGCTTTTCTATTTCC
TGAAAGTAAAAGCAAAGTCAAAAATGATCCTAATAATGATAGTAGTTTCAGTAGAAGGAAGAGTATTAATAATGATATCAGAGGACATTGACTTAGTGCA
TGCGCTTAGTGCATGCCAGATACAACTCTGAGGCCTTTCCAGATGTCATCCAACTTAATCCTTATGATTCTACAGGGTGGTGCTGTGGAGTGCTTGGTAC
ACACTCAGGGCATACTGTCTGGGTTTGATCCCTGGCTCTGCCATTTACAGGCAGTGACCTGGGATACGTCATCTGGCTTTCTGGKGCCCCCGTATTCTCA
TCTGTCATAGGGTCATTGTGAGTGTAAGTACATAGCACAGTGCCTCCTATTAATACGCAGTAAACATTATTAAAGCTTGGGCTTCTGTTATTATCGTTGA
TATTTACATGAGGCACGGAGAGGTGATGTCACTTACCCAAGATCACACAGTGCTGGGAGTGGGAGTCAGGACCTGAGTCTATCTCATYCAGTCCCTTGGC
TGTGCTGGGATCACTTTTCTCCATGCTGGATTACTRTATTTTCAAATCCTCACTAGGATGTAACTAATTTTTCTGAAGATGCTTCTTCCTCCATGACCTA
ACAGGAATTTATTGTTTTGGTTCTTGTTAAACACAACAGAGATTCCCTGGGTGATCTTGTCCACTTCTCTCTCCCGAATCCCAGGCCTGGACACCCATCT
CCCTCCTAGSTAATCCCCGACCCCCATGGCTGGATATCCCACAGATGCCTCAGRCTTAGCATGTCCCAGACTGAGTTCTGTCTCCCTTCAGACCTCCTCC
TTTCTGGGTTCTCTTTCTCAGGGAATTCTCCCCATCCACCCAGGGCACAACTCAAGTGTCATCCCTGCCTCCTCCACCTTCCCACCCCACATCCAAGGGT
CCTCACGTCCCACTGATTTGTCTGTGACTCTTGACTCTACCATCTYTTCTCCAGCGCTATCTGCTTGTCATTCTTCTCCAGGTCTCTACCGCAGCCTCCT
TGCCTCCAGCCTACCTTCCCCGTGACTCCCACAAGCCTTTAATACATTCAGCTCTGTGCACGCTGCTCCCCCTGGTAATCCAGGGTTCCTACCACCTCCA
AGATAAACCCCAGCCTCCTGAGCATGGTTTCAGGCTCAGTGCTCAGGCTGTCCCCTCTCTCTTCAGCCCATCACCCACCCCCGACCCAGCCTCAGGCCCA
CTGCTTAGAATGCCACTCATCCCGGGACTTGCCTGGCGCCCCTCACCTGCAGATTCTCTGCATGCAACACACACTAGGACCATTTCCTGATACTCATGAC
CACTTCCTCTCATCTGTACCCGAGTTGGTTAGGTGCCTCTGTTCCCACGACCCTGTCACTGCAGCTCCATAGTTGTACATTTGTGTCCTTTTCCCTGACT
CAACTCCAGTAGCCTGAAGAATAGGGAYGAAAGTATCCTATTCATCTGTCGCAAGCCTGGCATGATCTATGTGCTTAATAAATGTTCATTGAATGAATGA
ATGAATGAATGAATGGGGTGAGTGAATAAATAAATGAATTTCAGGTAATATTACAAGCAATGTCTTTAAATGCAGTTTTACAAAAGGCATYAAAATCCAG
ACCAATAATTAGTTCTTGGACCTTTTCTRTAAGTTGTAGGGTAGACAGGGCAGAGTTCCTCCCCATTTTCTTGAAGTGGAAACCAAGTCCCAGGAGGGTG
ATGAGCTCTGTGACTAAGAAGTGGCAGGGGCAGGTGTGGAGCCCAGTTCTTTGGCATGTGGTCTGGGGTCTTTCTGTGTCTTCAGGAGGSTGTGACACYG
GTGTGTGGTCATGTGACCATGTGCTTGGGTTTCCCAACAGCAACACGGAAGTATATACTGGAAGGCTGGAGCCCAGCAGGCACTGACAAGCTTATCACCA
GACCTCCGGCTACACCAGCAGCTKCAGGTAACTGTGGCTAYGTKGTGTGAGTGTGAGAAACTTCTGCAGARTCCCAAGTCCTGTGGGTCCTGAAGCCTGC
TCATCTCAGTGTTGCAGCTGTGCTCACGCGCCCTCACCAGAAGAGCTTTCAACCTCAGGCTTTTGGGGAGAGACCCCACTGGGCCAGTTCTAAGTTACAG
CACAAAGGGCTGGCCCATGTGTCTCCAACCAAGGTCACCTGGGAAGAAGCGTCATGACTGCCGTGATGGGCAGTGTGACCGCCAGCCCTGGGGCAGATCT
CCAAGTCAGCGGATGGAGCTTAAGCCTGTGCCTTTGCCCTCCTTCCCAGGACTGTTTCTCCATCAGCRACTGCCCGGTGTGGATGGAMTCCAGCACCACA
GCCCAGTGCCGCCAGCTGGAGGCTGCTGTGGGTGGTGCTCAGGCTCTCMGCTGCCTCACGGGGTCCCGTGCCTATGAGGTAGGCTGAGGATGCGGGGGGT
GCAGGGGGTGGTCTGGTTGYAAGCTCCGGAGGCATAGTGGGTGACCTGCCTCTGGGGGGATCACATGAGGTCATGGAGGTGTTGTRGAGCCAGCAACAGG
CACTCTGGCCCCTGGGTCCTGATCCAGGCCACCTGCTGCCCTGTGTGTTCCCAGGCCAGGCTGGGTGTGCACATGGCTGTGCTCCTGACATGGAGGTGCT
GTGCATGGGGGTGAGGGTACCCCCTCAATGAGAAGGCACCTCCTGTCATTATTTGTAACCCGGGGATTACAACAGGACTTACGTTTTGGGTAGGTTTGAA
GCTGAAAGAAGTCAGTGCATGTAAGGCACTTAGTGTAGTGCCTGGCAATRTTWAAAAAAAAAAAAAAAGGAAAAAAAATAATAGTGTCTCTGTTCCACAG
GTTCAACCTTGTCCCCAGGGGTGATTGTGATTAGGCCAGCTTGGGTTACATGACCTCGCTGGAGTAGAAGTTTTGGGGATAGGGCCAACTCTACTTGGGC
CACCTGAAATAACAATATGTGGRTGGGGAAAATACCCCGATCCCTCACCTGGTGSCTTGGTCAGAACAGTCACCGTGCTGTGTGAAGAGCAAGGGTTATT
CACTCAGGGTTGTCCAGTCCTGATGTGGGAGAGGCCCTCCAGGAAGGCCCAGAAGTTACTCACTTCTCTATCCTGTGGGTGCAGAGCCATTGTTTACTGC
CTGAGTATTTGATTACTAAGGACATTTTAAGGATTCAAAGGCCAAGATCACATTGTTWAGTAGATATCAAACAGATTTAATGCTTATTTTTAAAATATTT
AATTATTAGAAACGAGGTCTCACTGTGTTGCCCAGGCTGGACTCCTGGGCTCCAGAGYTCCTCTCGCTTCAGCCTCCTGAGTAGCTGGGATTACAAGCGC
ACACTACTGTGCCTGGTTGGGGCTTACTTTTAAAAGCTTTTATGGTACCTACTCCTATCCAGAGCATGCTACATTAAACTCACTTTGTGGAGGTAATTRT
TCATTCTGTGTAGGATTTGGGTTCCTAAGAATTTATATTCCTTTTCCAGCGTTTTACAGGGAACCAAATTGCAAAAATTTACCAGCAGAACCCCGAGGCC
TACTCACATACRGAGGYTGGTTAAATGTTCCTGTTTGATTGAAAGTCACAKTTGAATTCTTTTCATAATATRTTAGAATAGATACATCTTACGTGCAGTG
ACTRAAAACRTTGATAAGCAGACATTAACAAATGATATATTTGATTTGCTTTTTTCTCATTGTCAGGACATTTCCAAAGAGGAGGGRAAGAATGGAATGT
GGGAAAGAGAWGTCAGGGGTTCTCCTGACCAGAAGGGTGAGGGTGAGGGTCCAGGTGGGAGCACTGGGGACTGACGTGTTCCTGAGGCCACCTGAATGGA
AGATCTGAGTGTCTGAGCAGGCTGTGTCTGCTCACTTTCCTATGTGGTTAACGCAGGAGGGCTACCAGGCACATGATTGGCATAGAGTCAGTRTTTTCTT
TGGAWATGTATAGGACTGGGCATTTGTGTCCCCAGCTGTGGCCCTTCAGCCAGAGCCTCTGTCACAGGAACCCAGGTTCATTCCTGGCTCCACAGTTGCT
GAAGCCAGCACTTGTTGCTGCCTGAGAAACAGCCCCACGCCCTGGCTAGTGATTTTCATCTTGTGATAAGGAAACGATCAGCTCACATTAAACCAAAGCA
CCTTTTTAATCTTAGAAATTAACATGTGGTTTATTATTTAATGATTTGAGGTTCCAGATTATTCTGCAGCATTAGCCATTAATGTAGGCTTTGGGTARAG
GGGTGAAAACCCTCCCTAAATTCTGTGTGTGGAACGAAGTTTGCCTGACAGAGGACAGGAGGTGATAACATTCTCTCCACAGTTCCAAAGGCCCATGATT
CTCATGTGGAAGTACAGACCCTTAGGGTGGCATTGAAAATCCATCATCTATTTCTCTGGCTAGTGCTCAGGGTCTGTGGCTTCTGAGGAGCCAGCTTTCC
TGACGCCCTGARAGTGTCCTGGTTGGTTCTGAGGCCACACATCCACTTCCCTTGTAACCAGAAGGAAATGCCMAGGAGATAGAGGAAGGAAATCAGGGCA
CACATTCCCCAGCATGTGGATTCCGGATGGAAATGCAGCTTCCCTAAGCCCTTTCTCATAGGGCTTTTGGTTTTTGTCTCTTTTGAACTTGGCAGTTTTA
TGGCCCATCAGAAACTGTAGARAATGAATGCTCTCCCGAGGAGTCTGCTCATGGTATTCCAGCTGCTCCTATCTGAGATGCACAGTCTCCACCATTACTT
GGGCCTTTTGTTCAAAGTTTCCACTTCCYTCTCCAATTTTTTTTCATGCTKTGTGTGTGTCAGAAGCATTCAGTAGCGTAGGGTATGTGGAAGTGAGGCA
CCTCTCACTGTTTCTTTCCTTTACAGAGAATTTCTTTGGTCAGTAGCTTTGCTGCTTCCCTGTTCCTTGGCTCTTACTCCCCTATTGACTACAGTGATGG
TGAGCCTCGGGGTATGGGGTGGGTGCCTGGGCAGTGTGCATGTGGCATGTGGSTGTGCAAGCAGTGGGAGCCCCACCTACCCCGAGTGGGTGCCAATCTT
GTAGCCCTGTCATCTGTTGCCAGGAAGGAAGTGTATTCATTATCTTTTACCACATAACAAATGACCCCAACACTTAGCAGCTGAAGACCACCGTGTTTAT
TTTCTCACCTAGTGTCTGAGAGTCAGGAATGTGGGGGCAGCTTAGCTTGGAGGTACTGGTTCGGGATCTCCCACAAGGTGGCAGTCAAGCTGGCAGCCGG
GGCTGCAGTCATCTGAAGGGTTGACTGGGGCTGGAGGATCCATTTCCAGCATCATGCACATGACTACAGGCAAGAGGCCTCAGTTCCTCACATGTGGCTG
TTAGTGACACTGCAGAGAGGGAGGGAGGAGACAGAGGCCAAGCAGAAGCTGAGGAGTCTTTTATACCCTAATCTTGAAGTGATGTGCCATCACTTTTGTC
TCATCTTACTGGTCACACACTAGGTACGGTTGACCCAGTATAATGTTGGGGAGAACCTCACAAGGGGTGAACACCAGGAGGTGGGGATCAGTAGGGGCGA
TCATGGAGCCTGGCTCCTGCAAGGAGCTATTAAAGTTTTTGTTTCACATTTGGTGAACTCATGAGATTTGTGAGCTTCTAGAATCAAAACCCCGAAAAAA
ATAAATTGCAGTTGATGCCAGTGAGGAGGGAAAGCTGGGAGGAGGTTGCTGCAGGAACYCTTGGATGAGCCTAAGTGTGAGAAGAGTGTGGACAGAAYGG
GGGTAGAGAATGCAGGGCAGGAGCCCAGAGCCRTGGATATGGCTTCAGAATGGAGCCTGGGATGCTCTGAGCCTCGTGGGARTTCATGGGAAGTTTTCGA
GGGCTGTTGTATGCCAGGCTTTATTCTGGTTTCAGGAGAGAGAGTGACTAAGGAGTGCTGTTAAGCTTCCCTCACAATCTGGAGGAGGCAACAGGGTTCC
CTACAGCTAGTTCTGTAGAACTCAGACAGGCAGAACAGTCAACTTGGAGTAGCCTGCATGTCCACCCGTTCTGCACACCTGCCACAGAGCTGATAACCGC
AGCAGCTGTTCCGGGGGGCATTCCAGAGGTTTATGTTCCTTAGCCACAGCTGGGCCCTCCACTCTGCCCCCCTTCACTCACCTGAGATGTCACCTCCTCA
TTTCACCTGGGCAGGTGACACCATCAGCATCCCAGCCCACCTCTGTYTGCCTCCACCTTGGCCCAGTGGAGGAGGAGTTCTCTCCACCCATGCTCTGGGT
TCCCTGTCCTTTCCCATCCTCAGGRAAGCCTTGGGAGAAGGAGGATGTTTTAGGAAAGAGCTAGTAGGTTGATCTCAGTGACCAGAAGGAAGTTTAGAGG
ACTCTGAGACCTTTCCTTGAAAAGTTAGATGAGATTGAGAAATCCCTGGGRGCTGACCTGGAAACCTAAGGGACATGGAGAGTGGTTCCTGGTCAGTGTG
TTGCTGSTAGTTCCAGGCCCCCTGGGAGGTCTTTGAGCAGCAGATTTCCAAGCTAACTGTAGTGTTTGAGTTGATGAGGAATATTTGGAGGAGGTGTGGT
GCCGTGTGTTTCCAAGGGCCCCTCTTRTCTCTGGTTYTCTGGTTSTAGAACAACACAAGCATATATACCTTCCATGAAGAAAGAGCTCCAGGTACAAGTT
GTGGCAAGAGAATTATCTGCTCTGTGCCAGATTTGTGCATTTTCACAAAAGGTCCATTTTCAAGATTGTCTGTTGTTTGTTTCCTTCCTTCCTCAGGTTC
TGGAATGAATTTGTTGCAGATACAGGATAAAGTCTGGTCCCAGGCTTGCCTTGGTGCCTGTGCACCTCATTTAGAGGAGAAGCTTAGCCCACCAGTACCA
TCATGCTCAGTTGTGGTAGGTCTCCTTTCTGGTGATGTGGCTCATTTAAGAGCTGGCAGCTACCAGGGAAGCACTGTAGCGCACACACACRCRCACACAC
ACACACACACACACACACACACTCTGCACACACCCTTATTTGTTCACTCACCCACAGGCATACMCATGCAGGGTCTTCAGTTTAGCCTAAGATGTAAGTC
AGTGTCTGGATCAGTGCCTTGCACACAGTAGGTGCTCAGGTACATGCCTTATGGTCAGCGGGACTTTGGAAAATTCCACTAGAAATTTATTAGAATAGGG
ATAAAAATGGCAGGTGATTGCATAGCTAAAGAAAAAGTGCACAGAGTGCTGAAATTCTAGGGACTACTGATGAAGCTTGAAGGAGGCASCCTTGGGGAAA
ATAGAAATACCAGCGGGGCTGGCACAGCACAGGCCCTGGCACTGGACAGCATGGGACTGAATTCTGGTTCTATCASCTTTGTGACTTTGTGTCTCGGTTT
CCTCATCTGGAACAAGGGGAATGATGCTATTCATCTTACAGGGCTGTTGTGCAAATTAGATGARTTAATACTTTTAAAGCACTTAAAAAATARTGCCTGG
TCCCACMGGTWATGGGAAAAACATTTACCCATCACAGCGGCCCCACCCATTTGCAGTGGACACTGGYTGTGAATGCCCTGGGGTGTTCTACTTGGCCAGC
CCTGTTCTCCATTGTCCTGTGGGGACAGTGGAGTAGAGAGAGAGAGAAAAAGATCTGGGTGCTGCCCCTGGGGCCCTTTGGTGGGAAATGCTTACCACAG
AGCCAGAACAACCAGAAGGAACTCTGGGTGGGACAGAGTGCTGGTGTGAAGAAGGGACAAGGGCACCCTGAGGCCTGGAGGGAGTCGTGTAACTGGGAAT
CTTGGGCCATGTGGAGGAGGGGCTGCTGTGAGGACTTCGCGTTGGGAGTCTCAGCCACAGAAGCACTTTTGTTTTCTTTTCAGAGACAGAGTCTCACCTT
GTCACCCAAGTTGGAGTGCAGTGGCATGATCATAGCTACKGCAGCCACCAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCTTCCTGAGTAGCTGGGA
CCATAGGCTTGCTCCACCATGCACAGCTAATTTTTTTTTTTTTTGAGACAGAGTCTCGCTTTTGTCACCCAGGCTGGAGTGCAGTGGCGCARTCTCGGCT
CACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTATAGGTGCCCGCCACCACGCCTGGCTAATTTTTT
TATATTTTTAGTAGARACGGGGTTTCACCGTGTTWGCCARGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCGGCCTTCCAAAGTGCTGGGAT
TACAGGCGTGAGCCACCGCACCCGGCCTAATTTTTTTTTATTTTGGTAGTGACAGGGTCTCACTATGTTGCTTAGATTGGGCAATTCTGCCTCAGTCTCC
CAAAGTGCTGGAATTACAGGTGTGAACCACCGTGCTCGGCCGTTTTTCTTGTATGATTCACACTGACATGCTGAAAACAGCCTCTGCCACCATGAGGCAG
AATGTCAAAGCCAAACCATCAGCATCCAAAGTATGCCATGAGGCCAGTGCATGGAGCTGAAGGAACAGCCATGTGGCCCTGTGGAAGCTGACAGCACAGC
TTTCTGACCCGCTTTCTGACGCAGGTCAGAAAGGCAGAGAAAGGGCAGACAGAAAACAGCCAAGCCACCGGGACTGGTAATCCACACACGGCTTTTAGTT
GGATGTGAAATTCAGAGCAGGCTTTGTTTGCCTTRTGCGAGAACACATGCCTCCAAGAAGGAGCCTGTGCAGACAAGCAGCTTGAGGATYGGGAAAGAAC
TGACTCTGAAAAGGCATTTTCATTTGTCACGTAGGTGTCACATGTGGGGGAACCACTCAAGACCCATGTTTTTCGTCATCCCTCTTTTTGCAGGTAGTGC
TCAGATAGCCCTCCCTGCACTCTGTCTTTTTTGGATTACTTTCCTTAGAACATTGCTCTCTGCACGTTCACGTCCAATTATTGTTAATCCAGTCACTGGG
GTGATAGAGTGAGTGTGTGAGGCATTATCTGCTCCCATGAGTTTGCTTACTGGTGTCCTGTTACCTTTTTTTTTTTAATGCTATATCCAGAATTTGGAGC
TTATAAAGCAAGCACAAGTTAGGGGTTGGTTTGTTCTCTCTAYCTTAAATCTCAAGATCAGCAGTTTTTGAAATGACCTCATGCTCGTGGTTTCCAAACC
TGCACTGGACTTCTCTGGCGATTTGTGAACAGGAGGGACATGCCCAGTTTGTGACAGGAAGTGATGTGACTCCAGGCTCTGCAAAAGATTCCTTCAGGTC
TGGTGACCTGGAGACTGTAGCRTTTTCGTGGCCTGAAGGGTGGGTGGCTGTGCTGGGCAGGCGGGATTTACCTCAACAGAGCACCTTTGCTTTGTCCCCG
TCCCTCAGGGAGCCATTTCTTCCTACWACGTCCAGCGCTACGGATTTCCTCCAGGATGCAAAGTGGTGGCCTTCACTGGGGACAACCCAGGTGAGTATCT
CGGGGAGTTTCACTCTCCAGTGAGCCTGACTGGGTCCATGCTGGATGTTTGAGAATTCCAGTCCAGCCTCTTGGTGAAACCTTCTGTGGTCATTCCTCAC
CACCCCCACCCATGCTGGATGTTTGAGAATTCCAGTCCAGCCTCTTGGTGAAGCCTTCTGTGGTCATTCCTCACCACTCCCACCCTGCGATCTGACTCCT
TGTACCTGCCCCATCTTAGCTCCGACTCTGCCCTCAGGAGCTGGTCAGTCTGCTCTCTCTGGATGAAAACTGCCCAATGATTATGGAAGGCAGTCGTGCC
CACCCCATCCCTAACCTGTCTTTTCTGTTTCAAGATGAATAGCTCAATTCCTCCAACCCTTCCTCTAGGACATGGTTTTAAGTCTCTGCCCTGTCATCTG
ATCTGCAGCAATGACTTGTTTCTCGTCCAGACACCTYATCTCCTTCCCTAGCCTCTTCTCTTCCTCCTCCTCTCCTCTGGGTAGCCCTGAAGCCACTCCT
GGAGGGGCCCTTGGATCTCTGAAGGAAGGCCAGGTGGGCTACACTGAATAACAMCCTAACTACTACCCCTCAACCTCACCCCCACCCCAGGAAAAGTAAG
TCTTTTTCTAACGATCCACCAGATTAGGGTTACATTTAACAGTAACTAGAAAGGTTAATTTTAACCTTAATCAGAAAGATTAATTTCTGTCCTTTCAGTC
TTCTTTCTGTGCTCATAAATAAGCATTGTTTCTTTTAATCAACCTGGGCAGTATCTTTCTCATTTTAACAGTTGTCTAGAGCTCAGTTGTCCCAGCATTT
ATTTCACTGGTCCCTGATGGATGGAGGGTGGTGTTGCTTCAGTGTTTGGGCAGTGCAGACGATGTTGAGATTCACATTCGGTCTCGTCTCTTTGTTGTTA
TAGGWTAAGTTCTCAAAGGTGGGATTCCTAGATCCAAGGCTTCTGACACACACACTGCTGATTGAACCTCAGTGGCAGTGTTTGAGTGCACCTGTTCCTC
ACTCCCATTTCACCTTTATTCACATGTTGATTCACTCAGCATTTAGTGAGTGCCTATTATGTGCCAGGCCTTCCTTCAGTGCTGGGGCCCTTCAGCAATC
AAGGCAGATAAAGATTGCTGTTGTGAGCCATGTGTGGTAGTGTGCACCTGTAGTCTTAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCGTGATCCCGGA
GTTCTAGGCTGCCGTGAGCTATGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCCACCTATATATCTCTTAAAAAAAAAAAAGATTGCT
GTTGTGGGCTTTGTGTCTAAGGCAGGGCACAGAGAGTGAACATAACCTCACCCCCTTCTTTTCCATTACTGCCTTTGTCTTTCTTTGCTGTATATCCTTG
GTGTCTTGTCTTGGCCTCCTTGATTCTCTGCACTCTCGGAAGTGCCTGACAGTGGAGGGATGTTTGGACCCCTTCAGGGAAGAGACTTCACAGCTCAAAT
CAGCGGCCCTGCTAACAGAGACTTCACCCCGTGACCCCTATGACCTTCTCCKCTTAGGGCCTCCTGAGCGCTCAGCTCCCCTGCTCCTGCCTCCACCCTA
GGGTGTGGGTGGGGGTTGGAGGTGGGGGCTCTGCGCCTGCCTGGAGAGCCCTGTGGTTTGCTTTGTGGTTCCCATGTGGCCGCCAGCTAACCAGAAKCTC
CCCTCCCATTCTCAGCGTCGCTGGCAGGCATGAGACTGGAGGAAGGTGACATTGCGGTAAGGCGACTTCCCACACCCATAGGCTCTTTCTGTTTCCACAC
TCACACCCACACTCTGATAAGTAGCAGAGGTGCTGCTGAGACCSAGATCCCAGGGTCCCAGGGTCTGGGTCCCAGCAGGATCTCTGCKACTTATCAGAGT
GTCTGCCGGTTCCAAAAGACAGTGGAGGGAGGGGATGGGGGCGCACATCTTTCTCAGAAAGTCATTGTTCTTTGCTAGATGGGCAGGACCCCTGCCTGCT
TCACAGTGGCCAGTCTTAGTGCATGCAGTGGCAGAGGGTCAGATGTGGGGCCAAAGGGCTGTGAGCAGCGCAGATGAATAAGGAAGACATAACCCAGACA
TTCCTACTTCTAGTGGGAAAGTCATATGGGGAACCAGCCATCACCCAAACCATTATTTAGATGCAGTTGTGGGAAATCAGCACAGAAGATCCATGAGATC
TGCATCTGGGGAGCTAACTCCTGGCTCATCTGGTATGGGAGGGTCAGAAGTGGCTCTTAGAAAGTGGCCTTGCATCTGAGGTCTGCAGCATGAGTGAAGT
GACAGGGTTAAGGTGGGTGGAGTACAGCGCGTCGCTGGCAGAGGGCAGCGTGTGTGGGCAAAGCCCAAGGTGCCCACCTCTGCCTATCTCTCCTCAGGTC
AGCCTGGGCACCAGTGACACCCTGTTTCTCTGGCTCCAAGAGCCCATGCCTGCCCTGGAAGGCCACATCTTCTGCAACCCGGTTGACTCCCAGCACTACA
TGGCACTCCTGTGGTGAGCTTGGGTGTTGGTTGGCACCATTCCCTRGGTGAGGAGGTGTGGGCAGGTCTGGCACCATCTTGAGGACCCCAAGTCATTCCA
CTAAGCTCTGGAATGACTCCCTCCACTTTCCCGGGCTCTGCTGGGCAACTGAGACCCCCAAGGACTCACCAGCTCTTGCTGACAGCAGAGCTGGGTGGGG
AATAACCCAAGACCCTGTGTCCTTCAAGCCCAGGTTCAAATTCTATCCTCACCAGCTATATCCTGTGTGACCTTGGGCAAACTCTGTAGTGTGGCATGTC
TGAGCCACACTTTCCTCATGAGATGGGGAGGGTAAGAGCATTTACCTCACATTGTTACTGTGACCCGTCTGGCATGTGGTGGACCCTCAGCAAATGGCGG
GAAGGACATCCTGCCTCCCGACGGCTCTCATGGAAGGGACATGCTCTGTGCTCTGACCACAGGCCTTTGGAGACCTGTCCAAAGCTCCTGAGGGAAATGG
TTTCTGAGCTCCTAAGCCCTAAGAACCATTGGAGAATGTGGCTAGTTAATCTAGCCCTCCCTGCCTCATTGTGCCCATGGTAGAATGTGCAGAAACCCAA
GCTCCCTSTCTCTACCTGGGGCTCCTCTGYGTCAGCCTCCTGTGTAAACAGCCCAAGACAAGGGCGTTTCCGGCACCTCCCAGGGACATTCAGGGGCCTG
AATCTGAGGAAGAGCCTCCGATACCTAAGTTTCAAAGCCTGCTGTGCACTGACTAGGGGTCGTGGTCCAGCCTGACCTGCAGTTCCTCTGCCTGAGTCTC
TTCACTGAAACTCATGGGTCCAGTCAGCAAGCACCAGCTCCCTCCCTCAGAGCTATGCYCTCTTCTGCAGCTTTAAAAATGGCTCCCTCATGAGAGAGAA
GATCCGCRACGAGTCTGTATCCCGTTCCTGGAGCGATTTCTCTAAGGCACTGCAGTCCACAGAGATGGGCAACGGTGGAAACCTGGGTAGGCCAGTTGGT
GGTGCCCAGGCCTGTGAAGGGTCAGCAGCTGCCGACTGGAGGGGCAGAGCCTGGGGCCCCATGAGCTGGGGGAGAGGAGGGCCGTGGAGAAGTCCAGGGG
AGTCCTGTCTGTCTGCACTTATATTCCACACATCCTACAAGCTGGTGTGGAACCCTGTGTTCTGAGCAAGGGTGGGGCTGTAAGGCTGTCCTTGGCTTCT
GCTCTGAGCAGAACATCAGGCCATAGCTATGTCTTCTGTCCCCACCAAGCCCCTGGTGACAGCATCARAGAGGGCAGCCTCTACCCTGGTGCATCCCCGT
TCACAGCCTCTGCCCCAGGCACAAGGAAAAGTCCCCAGTGTCTGGGCAGGCCTGAGCAGGGAGGGTCTGTGCCTCCCTTGGTCAAACCTGTTTTGATATT
TTAGGATTGGCTGGGCAGCTGCTTCCTATTCCAGGCTGCCAAGTGAGAGCAGGAAGAGTTGTCTTTGAGAAAAGCTAGCTCAGGGCTCCCTGGTTCCCTT
CTATCCTGTTGGAGAGAAGGAACTGAGAATATTCACAGGTCTCATCTGGGGGATGAAAGAGCCAGGGGACCCAGGGATATGGGGTCATTTTGTCCTGTTC
TAAGTCTGTTAAGAAGCTGATCTTTTGTTTTTTGACTAATGACGGCTGATCTCTTCCTGGTTTTATTTCAGGTTTTTATTTTGATGTAATGGAGATCACC
CCTGAAATTATTGGACGTCATAGGTTTAACACAGAAAACCACAAGGTACATGTGCTGTTGGTGTTGGAGTTACATTGGCTCCATTTGTGAGTGTAAAATT
TAACAATTGCCTATCAAATTATGTTACTTTTAGGGACTTCATTCATTCACTCATCCATTAATATCATACACACTTGTGGTGTGCCAGGGTGCATTCTAGA
TCCTGGGGAATCTGCAGGACCTAAGACAGACACGGTCCTTTCCCTCAGGGAGGAATGCAGAAAACCTGAGAGTTCTCTTCCTATTTAACAAATGCTAACA
CTATCATTGTGTATCACAGAACTTATTTCCTTGGCGAGTTTTATCCTATACCCATCAAGAACCCATGGATCTTGAGATCATGAATTTCCTCCTGGTTGAA
AGAGCTGCTGAGCCCAGGAGGTACTAACGTTTATTGAGCCCATTTGGTGCCAGGCATTGTGCTCATGGTTTTCTATACCTTCCTCATTTACTTTTCTTTT
TTTTTTTTTTTTAATTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTTGAGTGCAGCGGGACGATCTCRGCTCACTGCAACCCCCACCTCGTGGGTT
CAAACGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGATGCAAGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGATAGGGGTTTCTC
CATGTTGGCCAGGCTGGTCTCGAACTCCTAACCTCAAGTGATACGCCCCCTCCCAAAATGCTGGGATTACAGGTTTGAGCCACCATGCCCGGCTATCATT
TACTTTTCAAAGCAATAGGCACTATTGTTCCTCTTTCTAGATGGAGAGGTTGAGACTCAGAGGCTCAGGCTAAATAATCTGCCCAGAGTCAAGCAAGGTC
ATAGATGGTGGAGGGGGCTCAAACCCATTCCTCTCTGGCTCTGAAGCTGCTGTTTTCTTTCTCCTCCACAATGTGACCTTTCTCGGGAAGGATTTAGTTG
GTTCTTGCTCCTCAAAATTGACATTGCTGCTGGAGAGTCACTGGAGAGTCATCACCACATTTTGGGTTGTACCTGAGAGATGTTTCTGACCCCAGTAAAT
GGGGGGTTTATGTAAGACACTCTGTCTGGAAACTGTAACTGTCAGAGYTGGCGTTGGATTCAGTGGCAGATGATGGCACTACATGTTGGATTATGAATGG
AAAGCTTTGTATAAAGTAGGAAGTTCATCTCAATCTTCTGATGGAGGATCAGTTTGGTTTCTTTTGTTAGAGTGAGAAGCTATGCCTGTTCTCTTTCATG
CATATCAATCCTAGATTTGTCAAGGAGAAAGTAGTGTTCTTCATTCATTCATTCAACCAGCAGATATGTATGATTGGTGCCAGGCACCGGGGACACAAAG
GAGAACAAAACATTGGTGGCCCTTGCTCCCCAGAGCCTGCTGTCTAGGAGGGAGAGGGACAGTAGACGACTGAATGAGCAYGTACATGAATGCAGCAGGT
GCTAAGGCTAGGTKGCAGAAGAACAGAGTGCCGCAAAGGAAAGCAGCTGGTGGGCGGGTTGGAGACTTACCCTGGGTGGGGTGATCAAGCCTGGGCGTCT
CTGAGAAGGTGGCCTTTAGGTTGAGACCTGAAAGTACTCAGGATCTCACCATGGAAAGAGTAGGATAGACTTTCAGGCAGAGGGAGCAGCTTGGGAACTA
GAAGAAGGTCAGTAAGGTTAGAGTGTAGCTGTTTATGAGGGGGATGGCGGCAGGTTCTAGCATTGGTCTCAGGTGCCAGAGAAGCAGGAGTGAGCCTGGG
GTTGATGCCCATCAGTGCTAGCTTGAAGGACATGCCACAGGGGTGGGATCTCAGCGTAAGCTCGTGGCTCTCACTTATCTAGTATGTACTGCATTTTCCA
GGCTCTGTTGTCTAATCTGATCATTGCAACAACCCTAAAAAACAGGCGCCACTATTACCTCTGTTTTGTTAAGAAAAAGAATGATAGCAAGACTAATGTA
ACTTATTGAAGATTGCAGAGCTGAATGGTAGACAGAACTTGAACTCTCAGCTGCCTGAGACTAAGTTCTGTAATGTCTCTTGACTCTCTTCAAAGTGACA
TGCATGTGAGGCTGTGAGCTTGTGTGCTTGAGTAGTGTGTTTGTGTGAGTGTGTGTGACAGGCAAAGATAGTGGTTAAAGAGCCCAGCTATGAGTTTCAA
ATCTGGGCTGTTGTTTAAAAAGATCACACACAGACACACACATACACACACGAATGGACAATGAGAGTTCCTTMCTCTGTGCCCACCTTTTCCTGGAGAC
AGGTTGCAGCATTCCCTGGGGATGTGGAGGTTCGAGCACTAATTGAAGGACAATTCATGGCCAAGAGGATTCACGCAGAAGGCCTGGGCTATCGAGTCAG
TAAGTGAGCCACTGGCAGCATGTGTCCCGGGGTGGGGGCTCAGGGCCAGCTCACTCGCAGGGGCCAGGGCTAGTGGGGCAATATCTACTAAAGTTTTCTT
ACAGGGGGACTTGYGCAGGAGGGAGGTGGAGCCTGACCTCAGGGATGGGGTGAGAAAGTGTCAATTGGCACTTGTAGGCAAGCATAGAATAGCAGACAGG
TTGTTCCCGCTTCTCAGCTGTGTCCACAATAGCCTGACCTTTTGGCCAGGACCTGTAAGACTTSGGAATGGTCTTTCTGAAACCCTAAGCTCCAAGCTGC
AGATGAGCTGTCCTGAGCTCTGGACTGCAAAGACATAGGCAGTGCAAGGTCTGGGGACATGAATGGATCTTGGCCTTCTAGCCTGGCCAGGTCCCATTGC
CTGTGGGACACAGTCTGGGTCTTTCAGCTTGGACAGGGAAGAGGGGGATGTAGTACCACTGTCAAAACTCGGAAGACTGATGTCTTAGTTCATTTTCTGT
TGCCTATAACAGAATACCTGTTCCTGGGTAATTTATAAGGAAAAGAAATTTATTTCTTACAGTTATGGAGGCTGAGAAGTCCAAGGTTGAGGGGCCATAT
CTGAAGAGGGCCTGCTTGCTAGTAGGGCTCTCTGCAGAGTCCTGAGGAGGTAGAGGGCATCACATGGTGAGGGAGCTGAGTGTGCTGGCTCAGGTCTCCC
TTCCTCTTCTCAGAAAGCCACCAGTCCCGTTCCCACGATAACCCGTTAATCCATTAACCTGTTACTTTGTTAACCCATGAATGGATTAATCCACTCATAA
AGCCCTCATGACCCAATCTCCTTAAAGGTCCCATCTTTCAATATGTCATGTTGGAGATAAAGCTTCAACATGAGTTTTGGAGGGGACACATATTCAAACC
ATAGCAACTGGCATGGAGAGGGCAGACCCAGGGCCGGGGGAGGCAAAAGGAGGAGAARGGGATTTCTGACAACTTGAGCTGTAGAATAATCAGCATTAGG
ATGTCAGTGAGTTCCCCTTACAGGTGGCGTTGGAATGGTCTAAGGGTCTGTAAGGAGGTTGGACTGGCCGCCTATAGAGTCCAGGTTTCTAAGATGTATT
TGTCTCTCTGGGCTATAGCTGTTGTCATTAGAGAAGATAGTGAAGCTGCTTTGCTTGAGGGCCTTCCTATGATACTCTATGGACAATCCAAGTTCTATGT
AATATATATTTTATACCTTTGAATCAACTGAGTAAAAGGATACTATAAAAATACCTATTAGGGAAACCTCTTAGAAAACCTGTTAGACAGCATCTGCTAA
AGCTGAATATACGCCTACCCAGCAATCTCATTTCTAAGTAAAGGCACAACAGGAATTTTTGCATGTGTTTACTAAAGATGTACAGGAGAACATTCATTGC
AGTACTATGCTGAATAGCCCCACAGTGGAAGTGGCCCAGTGCCCATTAATAGTAGACAGAAAAAATGCATTGTGGTGCATTTGTACAACAGGATACTACA
CACAAATGAAAATGAACCAGCCTCAGTGATMCACAATGAAATGGGTGAATCTCACCAAATGTAACACTGAGCAAAAGAGGCCAAACATGGACATACATAT
GGCAGGGGTCTCTGTACATCAAATTCAAAAGCAGATGGCACTACAGGCCAGGCACAGTGGCTCACACCTGTAATCTCCACATTTTGGGAGGCCGAGGCAG
GTGGATTGCTTGAGTCCAGGAGTTCGAGACCAGACTGGGCAACATGGTGTGTTGCGGGAAGTCAGGGACCCCAAACGGAGGGACTGGCTGAAGCCATGGC
AGAAGAATGTGGATTGTGAAGATTTCATGGACATTTATTAGTTCCCCAAATTAATACTTTTATAATTTCTTACACCTGTCTTTACTGCAATCTCTAAACA
TAAATTGTAAAGATTTCATGGACACTTATCACTTCCCCAATCAATACCCTTGTGATTTCCTATGCCTGTCTTTACTTTAATCTCTTGATCCTGTCAGCTG
AGGAGGATATATCGCCTCAGGACCCTGTAATAATTGCATTAACTGCACAAATTGTACAGCATGTGTGTTTGAGCAATGTGAAGTRTGGGCACCTTGAAAA
AAGAACAGGATAACAGCAATTGTTCAGGGAATAAGAGAGATAACCTTAAACTCTGACTGCTGGTGAGCTGGGCAGAACAGAACCATGTTTCTCTTCCTTC
AAAAGCAAATGGGAAAAATATCGCTGAATTCTTTTTCTCAGCATGGAACATCCCTGAAAAAGAGAATGTGCGCCTGCGGGTAGGTCTCTGAACTGGCCCC
CCTGGGCGTAGCCTGTCTCTTATGGTTGAGGCTGCAGAGATGAAATAAACTCCAGTCTCCCATAGTGCTCCCAGGCTTATTAGGAAGAGGAAATTCCCAC
CTAATAMATTTTGGTCAGACTGGTTGATCCCAAAACCCTGTCTCCTGATAAGATGTTACCAATGACAATGGTGCCCGAAACTTCATTAGCAATTTTAATT
TCACCTCGGTCCTGTGGTCCTGTGATCTCACCCTGCCTCCACTTGCCTTGTGATATTCTATTATCCTGTTAAGTACTTGATGTCTGTCACCCACACCTAT
TCGCACACTCCCTCCCCTTTTGAAAATCCCTAATAAAAACTTGCTGGTTTTTGTGGCTTGTGGGGCATCACGGATCCTACCAACGTGGGATGTCTCCCCC
AGACACCCAGCTTTAAAATTTCTCTCTTTTGTACTCTGTCCCTTTGTTTCTCAAGCCAGCCGATGCTTAGGAAAAATGGAAAAGAACCTACGTGATTATC
GGGGCAGGTTCCCCGATAATGGTGAAACCCCTTCTCTACAAAAAATACGAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAGTCCCAGCTACTCAGGAG
ACTGAGGTGGGAGGATCGCTTAAGCCTAGGAGGTTGAGGCTGCAGTGAGCCATGAGACCCTGTCTCAAAAAAAATAAAAAAAGCAGATGAAACTATTTAC
TATTGTTGGAAGTCGGGATAATTAGTAGTTACCTTTCAGAAGGGGCCTGTGGGGTGCTGTCAATGTTCTGTTTCATGTTCCATGGGTGTGTTTAGTTTTT
AAAAATTTATGAACATTATAGGCTTATGATGTGTGCATTTTTCAGGATGTGTGTTCTAGGTCAATACAAGATTTTAACATGTGTAAAATGACCACCATGA
GCATTCTGATTGCCCTCATCCCACCACCCTAAGTGTAAAAAGACGTTTCCTAAAGGTCTGCAAAGACTTCCAAGTTCCCTGAAAATGAGACTGGGTGAGC
AGGGCAGGGTTGGTGCTGGAGTTGGTGGAGTGCCTGGCAGGGGTCCTCCGRCTGTCAGAAGAGAACCCCAGGGAACGGAACAGCCCAGCATACAGGGAGA
AGCAGTTAGGGCAAAAGGCCCCCATGGGCTCAGGAGGAGCTGATGGGATTGTGGCATTATTCCCAGCCTCTAAGGCATTTCTTGTGCAAAACAGCATAGA
GTTACTTATCCTCTTAGCAAGCTTAAATGCAGAATCAGACCTGTCTTGCCGCTCTGCTGAGTGATCACTTAAATAGACATACTTGGAACCAACAGAGGTT
GCRCGCAYGTGAGGACTCATTCTCCAGGCTGCTGTGTGGACTGGCCAGCTCTTTCGTTCTTGCCCAGACATCATCTCATTTGGCTTTAATAGTGTCTAAG
GGCAATAAAGAGGCACTTTGAATAAAAATGATTATTGTGATACTAACAGCTGCCAGCATTTGTTGGGCACTGAGTGTGTGCCCGGCCCAGTTCCTTAGCA
ATTAATCTTTATTAACAACAGTACCGCTGAAGTAGGTACTGATATGATTCCCACTTCACAACCGAGGAAACCAAATCTTGCAGTGGTTAAATAACTTGGT
CAGGGCTGGCAGAGCTGGGATCTGAACCAAGCSAGTCTGGCTCCAGATGCTGGATTCTCAACCACTGGCTGAACCTGCTTTTTTTAAGGAACAATCGCCC
TCTTGATGTTTATAGACACCATCAGACATGATAGAAACCAGCTGGGCAGGGCTAATAAGCCATAGTTTTCAGTTTATATTTCAGTGTGTTTCATGTTGTT
TAGGTTGATTGTAAAAACAGTCAAATCTTGTAATAACAAGTTTGAAAAATAAAGAAAATGGGCCTGGTGCTCACACCTGTAATCCCAGCACTTTGGGAGG
TGGAGGCGGGAGGATCACTTGAGCCCAGGAGTTTGAGACTGGCAACAGAGAGACCATATCTTCACAAATAATAATAATTATAAATATCCCAGTATAGTGG
CATGTGCTTGTGGTCCCAGCTACTGGGGGTGGGGTGGCAGGGGTGGCAGGAGGCCGGGGGGATCGCTGGAGCCTGGGAGGTCAAGGCTGCAATGAGCTGT
GATTGCACCACTTCACTCTAGCCTGGGCGACAGAGCGAGACCATGTCTCAAAAAAATAAAGGAAAATGACTCATAATCCCATCYCCTCTCTCCAACCACT
GGTATCATTTAGGGACATTTTCTCCCAGTCTCCTTTATGAGCTTATTTCCATACAGCCATAGTTTTGTTCCTTTGTACCTTATATGCAAAGGGTGTATAC
AAGAACCAAAGTTTGTCAGAAGTCATMTTTGTGGTGCTGCGTATGATGGCCAGGTTACTTTTCCTGCATTTGGGCACTGAGGGTGTTCTTGTTTTYTTTG
TTTGTTTGTTTTCTTTGTTTTGTTTTGTTTTGTTTTTCTGGAGACAGGGTTTCACTCCTGTTGCCCAGACTGGAGTGCAGTGGTGTGATCTTGGCTCACT
ACAACCTCCGCCTCCCGGGTTCAAGTGATCCTCCTGCCTCAGTCTCCTAAGTAACTGGGACTACAGGTGCACACCACCACGCCCAGCTAGTTTTGTATTT
TTAGTAGAGACGGGGTTTCACCGTGTTGGCCAAGCTGGTCTCGAACTTCTGACCTCAAATGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTGCAA
GTGTGAGCCACCGTGCCTGGCCATTGTTCTTGGTTTTCCAACGTGGAATCACACTAGAGCATCTTCCATAGCTTGAATTATTTCCCCAGGAGGATGGCAG
TCCTTCTCTCTTCCCAGACACTGTCTTCACGGCCAGCGATGAAGATGGGAGAAGCTGAGAGGTGGGGGCTGAATGTCTTCTTCTGGACAGAGCCAAGGGG
CTGGATGGAAAGCAGCAGGTCTTAAAAACAACTATTTGTTTTAAAATACATAACGAATGGATGTCTTTTTATCACAAAAGAKTCATGCAAAACAGAAATA
TGGAATAAGAAGCAAATGCCCCCTTCATWTGCCTCCCAGACTCCTTTCCAGACTGTGACTTCCTTCCTGTGAGTTTCTGTGTTAGATTGAATCATACGGA
ATTGCCAATATTGAAGAAGTTTTGATTTACAAAAATGGCAATTTCATATGGTTCGACCTGACACGTGTGTGTGTGTATATATTTAACAGAAATGCTATTA
CATTCTATGTGTTATTCTGAGACTTGCTTTCCATAACAGTATGTACAGGTCTACCTTTTTGTTTTCTAATGACTGGCATGAGGTCTGATAAATTATTTTA
TAGCCCTAGTTGAAGGACATTAAGATTATTTCTTGTTTTGTTTTGTTTTTGTTTTTGTTCTTGTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGA
GTGCAGTGGTACAATCTCAGCTCACTGCAACCTTCGCCTCCCGGGTTCAAGCGATTCTTGCACCTCAGCCACCTGAGTAGCTGGGATTACAGGTGCGCGC
CATACCACCTGGCTAATTTTTGTATTTTTGTAGAGACGGGGTTTCGCCATGTTGCCTAGGCTGGTCTCAAACTCTTGACCTCACGTGATCCACTCATCTT
GGCCTCCAAAGTGCTGGGATTGTAACCTCCACTTTCACCATCTCATTCTATGCCCTATACCCTTGTCCCTAGTTCATTCTTGTTTGTGTATTTTTTTTCC
CTTGAGCATGTTAGCTAAAGGTTGGTATATTTTATTAAGCAATGTTAATATTTTGTTTTGTGCTCCCTTTTATTAATTTCTAATTTTATCTTTTTAAATG
CTTTCCTTCTACTTTATGAATTTTTTCTTTTTCTGTATTTTTAAGTTGAAATTTTAGCTCATTTATTCCTATCCTGTATTAACTTCTAATTTATGCATTT
CAGAATGCTACATGTTAACTTTATTTACATAACATATCTTTCATTTCTAAAAAGATAGTAATTTTCATCTTTTTCTGCATCAGTGAGTGGTCCTTCAAAC
TGGCCCCTCGTCCTTTTGACATATCTTCCATCATTCCTTGAGCATTTCCATAGCTTCTAGTATAAAAAAAGTTTCAGGCTCATCTTGTTTTTTCCTTGGA
TCAGCCTTGTAATCTTCCATTTATCCAAGGGGCCCTGACTTCTCTGAGTGGGAGAGATGTTTGGATGCTCTCTCTGGATGCTCATTGCTACTGGGATGAT
GCTGTTCCCAGCCCCTTTCAGTGGGCTGAGCTGGGAATATGTAAGGATATATAACAACCCCTTTCAGTGGGCTGAGCTGGGAAATATTAGGATATATATA
TACATATCCAAATATATATATGTCTGTATCAATACACACGTTACCTTTCTATTTGTCTGTCTGTCTACTTCTCCATGTGTTGAAAAACATGAGTTCAACC
CTATACACTCTACTTCCAGTCCAACACCATGGGGTTCATTCTGGCTTTCTTCCTTCCCATATTTGTATCTTATCCTAACAGTGACAAAGTTGATTCTTCT
GACCCCTCCAGATTGCTGCCTCCTTGACATGCAAGCCCCATTTTGGCTTCTCTGCTTACCCTTACCTGTGTTGTCTCTGTGTCGTCTCTCCAGCAGCCTC
TTGAATCTGCCCCACTCTGGTTATGTACTTACATGTGGCCCTTGAGCCACTTCTGTTTGCCTATTTAATGGCTTTTTAGAGAAGGAAGAAGAAAAAAGAA
AGGTAGGAAGGTAGACAGGCAATAAATATTTTTAAAGGGAAGGGTCCATTTACATTTAATGTAATTATTGAAATGATTGGATTTAATTGAATCTATCCAT
TTATTTTTTATTTTTTTAATCCATCCATTTACAAAATGGATTACATATCAATTTTTCTTTTTCTTTTCTTTTGTTCTATATGTTCTTTTTTCTTTCTTAT
TCTTTTCCTGTCTTATTTTTGGATTAACTGAGCAATGTCTAGTATTCCATTTTATCTCCTCTGTTGGCTTTTTAAGGTATACACTTTTTAATTGATTTTT
AAATTGAAATCCTTAATTTGAAAAGTCTGGTTTGCACTAATATTATACACTTGAATTTTTTACGAACATGCTTGCACTACAAGAATGACTAAAGGATGTC
TTCCGGGCTAAAGGGAAAATCATACCAGATGGAAAGTCAGAGCTTCAGGAAGGAATGTAGAACATCTATAAAAAGTGGATTCTCTTAAGTTTTACTTTGT
CTGAAAATGTATTTATTTTACTTCATATTAAAATAATGTTTTCTGCTGTGGAATTCTAGGTTGGCACTTTTTACTTTCAGCACTCTGAAAATGTCATTTC
ATTGTTTTCTTGACTTCTAATGTTTCAGATAAGAAATTAACTGTCATTCTTAATGTTATTCTCCTGAATGTAATGGGGTTTTCTTCTCTGGCTGATTTAA
GATTTTTCTATTAATCTTTGATTTTCAGCAGTTTGATTATGATATACCTAAGTAAGGGTTTTTTAATTATTATTTTGTATGTATCCCCTTTGTGATTCAC
TGAGCTTCTTGGATCTGTGGGTTAATGTCTTCCATCAATTTTGGAAAATTCTTAGCCATTATTTCTTCAAATATTTATTTTTCCCTATTCCCTCTTTCCT
TTCCTCTGGACTTCAGTTACACATCTGCTGTTGTCCCATAGGACTTTGATTTTCTATTCTTTTTTTTTTTTCTCTCTCTCCCTGCTTCAGTTGGACAAGT
TCATTTTTTGTTTTGTTTTGTTATGTTTTGTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTCCAA
CCTCCACCTGCTGGGCTCAAGCGCTTCTCCTGCCTCAGCCTCCTGAGTTGCTGGGACTACAGGCAAGCGCCACCACATCTGGCTAATTTTTTGTRTTTTT
AGTAGAGATGGGGTTTCACCATGTTAGGCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGC
ATGAGTCACTGTGCCCGGACTTCAGATGGACAATTTCTATCACACCTCTTTTTATTCATGTTTCTGCTGTAGACAGTCTGCTATTAAGTCCATCTAACAA
ATTCATTTTGGATATTATATTTTTTCTATTTCTAGAATTTCCATTTCATTCTCTTATACTTTCTTATGTCTCTGCTGAAATTTTTCATATTTTAACCATT
TTGTCCATCTCTTCCTCTGACTTTATATCATCTTTATAATTATTATAAAGCTCCTATCTGCTAATTCATCTCAGAGTCTGCTTTTATTTACTATTTTACT
GCCATTTCCTGCTTCTTAAAATGCTATTTAATTTTGTTTGAATGCTGTACGTTGTGTTTAAAAGTACGGTGTTGACTAAAGTGGCTAATTTTTAAACCTT
TTACTTTTGAGATAATTGTAGATTCACATGCAGTTGTTAAATAAATAGCTAATGTTTACCTGCAGAAAAGGCTTGCCCTTCTATCAGGAAGTGCGGGTGA
GGTGGTGGTTTTTTTTTGTTTTKTTTTTTTTTTTTTTTTACTTTTATCATTTAATTTTTATTTTTAAAAATGTATATAGTAAAAAAGCTGGGTTGCGGAG
ATGTCGGTCAGTGGATTAAAAATTTTGGTTAGGGTACAGGAACATATTCAAGAGATTTATTGTACAACATGGTGATGATAGTTTATAACAGTGTATTGTA
TTCGTCAAAATTGCCAAGAGATTTTAGGTGTTCTCACCACAAAAGATAAGTATGTGAAGTAATGCATAAGTTAATTAGCTCAATTTAGTCATTCCACAAT
ATATACATATTTCAAAACATGTTGTATAGGATAAATATGTGCAATTTTTATTGTCAATTTAAATAAGTAACAAAATAAGTAAAAAAAAGTCTAGAAGCCT
ATATAACAGCATACTAACAGTGTAACTCTGGTGTAACTAGGGTTGGTTTTTACTTTCTTCATTTTGTCTTTTCTAATTTTTTGTATAGTAACTTTTATCA
CTGGGCTTAACAGGAATCTAAAAAATGTATTTTTAGCAATTGTTATGTTATATCCACAACATGATCTATATATTTTGTCAGGGAGGTTTATTTTTTGACT
CAGAACTAGTTTGTTCTTGAAATATGTACTTTATTCTTTTAATTAGGGCTTAAAATGTTAAAATATTTCTAAAGAGGACTATTTTGGGACTCTACAGTGT
ACCTCTTTAATGAGAACRCCCACAGTTTAGGCCTATTAAGGCATAMTTCCTTTATTTTACTAAAGAATTAAAATAATAAAGATTTGATAATTTTCTTTCT
TTTTTTTTTTTATTGATCATTCTTGGGTGTTTCTCGCAGAGGGGGATTTGGCAGGGTCATAGGACAATAGTGGAGGGAAGGTCAGCAGATAAACAAGTGA
ACAAAGGTCTCTGGTTTTCCTAGGCAGAGGACCCTGCGGCCTTCCGCAGTGTTTGTGTCCCTGGGTACTTGAGATTAGGGAGTGGTGATGACTCTTAACG
AGCATKCTGCCTTCAAGCATCTGTTTAACAAAGCACATCTTGCACCGCCCTTAATCCATTTAACCCTGAGTGGACACAGCACATGTTTCAGAGAGCACAG
GGTTGGGGGTAAGGTCATAGATCAACAGGATCCCAAGGCAGAAGAATTTTTCTTAGTACAGAACAAAATGAAAAGTCTCCCATGTCTACTTCTTTCTACA
CAGACACAGCAACCATCCGATTTCTCAATCTTTTCCCCACCTTTCCCCCTTTTCTATTCCACAAAACCGCCATCGTCATCATGGCCCGTTCTCAATGAGC
TGTTGGGTACACCTCCCAGATGGGGTGGTGGCCGGGCAGAGGGGCTCCTCACTTCCCAGAAGGGGCGGCCGGGCAGAGGCACCCCCCACCTCCCTCCCRG
ACGGGGCGGCTGGCCGGGTTTTTTTTTGTTTAATCAGGGGTTGGATCAGTACTAGTTAGTTTTAGTTCACCAGTAGTTGCAGTGTCTTGGGATCAGGATC
AGCAGGATCAGGCCCCTCCCTCCATCAAGTCTTTGGGACCTAACCACTGAGATTACAGAGCTCTTTCTCTGTTTTCCAGCTCTTCCCCCACTTCCACATC
ACTGCTTCCATAGTAGTTCACTGGAGACATTTGGTGGGTAGGGAGGACTAGCTCTATATTGGAGACTCTTCCAGATTTCAGTCCTCCATACCAGCCCAAA
TGTAGTTGTTTTTCTTTTCTAGCAAATTTTATCTGCCTGTAGAGTCTTACTTCTTCATGTCTCCCATGCTGCAGGTATGAATCAGCACTTAAGGGCTCAT
CTCATTCTGGAATTTATTTTATTTAGACTTCTTGAATTTACAATTTTTTGATAGCTTCAAGCAAAAATATGATGCTCTGGTTGTTGTTGTTTATTCCATT
CTGTCATTGTTACAGCACAAATGTGTTCTTTCTTGACCATCATCATCTTAGCTGGAAGTGGAACTATATGTCTTTTATTAGATTAAGGTTTATTATTATT
TTACTATTTATTTTTATTTATTTATTCTAAAATGGAGTTTCACTTGCTCTGTGGCCCAGGCTGGAGTGCAATGGTGCATTCTCGGCTCACTGCAACCTCT
GCCTCCTGGGTTTAAGCAATTCTCCTACCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCACCACCACACCTGGCTAAGTTTTGTATTTTTAGTAGA
GACGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGGTCTTCCTGCCTCGGCCTCCCAAACTGTTGGGATTACAGGTATGAGC
CACTGTGCCCAGCCTATTATATTTTTTTGGAGACAAAGTCTGGCTTTGTCAGGCAGGAATACACCCAGGCTGGAGTACAGTGGTGTGATCACRGCTCATT
GCAGCCTTGAATTCCTGGGCTCAAGCAATCCTCCCACTTCAACCTCCYGAGTAGCTGGGACCACAGGCATGCATCACCGTTTCCAGCTAATTTTTGTATT
TTTTGTAGGGACAGAATCTTTGTTGTCCAGGTTGGTCTCAAATTCCTGAGCTCAAGCAATCCTCCTCCTGCCTTGGCCTACTGAAGTGCTAGGATTAGTA
GGCATAAKCCACTATGCTCAGTCAGTTTATTGTGAAAAATATCATGTATACAGTAGAGTATATGTATCTTACAGCAAGTTATAAAACATATTAATCAAAC
ATCTGATGATCAGCACTCGGGTTAAGAAATAGAACATCAGCCAGGCACAGTCACTTACACCTGTAATCCCAGCACTTTGGGAGGCCGATACAGGCGGATC
GCTTGAGGTCAGGAGTTCAAGACCAGCTTGGCCAACATGGTGAAACCCCGTCTCTACTGAAAACACAAAATTAGCCAGGCATGGTGGCGGACGCTTATAG
CCTACTCAGGAGGCTGAGGCGGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCACCCCATTGCACTCCAGCCTGGGAGACAGAG
CGAGACTTCATCTCAAAAACAACAACAACAACAACMACAACAAAAAGAAGAAATAGAACACTAGAACCTTGGAGTCTTGCTGTGCTCCTCTTCCACTGTA
TCCTCATCTTCCCCTCATCCCTGCAGAGATCATTTCTATCCAGATTTTTGTATTATAATTTCCCTGGAATTCTTTATGGTTTTGCCAGCTGTGTATGCAT
TCCTTTAAATACATTGTGGCTTTTTGCCCTTTCTGAACTTCATGATACATGGAATTATACTACATGCGGTGTGATTTGCTGCTTTAGATCAACGTCATGT
TTATGAATTCATCCATGTTAATGTGCATAGATAGCTATTAGCTGTTAATTTTCATTGTACTGTGATATTCCATCACATGATTATACAACCATTTATCCAT
TTGCTATGRCCTGACTGTGTCTCCCCAAATTCACATGTTAAAAACTTAATCCCCAATGTGACAGTGTTGGGAGATGGGCCTGATGGAAGGTGTTTAGGTC
ATGAGGGCTCTTGTGTATTAATGCCACTATAAAAGTGCTTTCAGGAGTGAGTTCACCATTTTCTGCTTTTCAGCCATGTGAGGACATAGCATTCTGGGGA
TTCTGCTAAACATTCTACAATATACGGGACGATCCCTCACAAAAAGAATTATCCAACCCAAAATAAGCAGGGTTTTATTCTGGTTGGAAGAGGAATCAAG
CTTTTTTCTGTGATGAGTAGAGCTACTTTCCATGTTTGTCTCCATGCCTGCTGTGGGAGCTCAGTGTCATTTCAAGTTCCTCTTCACTCAGTCCCCCCAT
GCACCCTCCCCAGCTAGTAGCCCACTTTCACTAATGAGCACTTCTTTACTTTAGCTTGGGGACAAACACTGCTGCTGCTTCTGCTGCTGAGTGTAAGGGA
GTGGAGGGAAGGGTCTTGAGACCCCTGCTGTCATGAAGTCAGTTGTGTACTCTCAGCAGCAGTTTATGAGGGTTCTTATTTTCCCATATCCCCACCAACA
CTTAACAGCAACAACCTTTAAATCTGTTGCCAGTCTGATGGGTGCAAACTGGTATCTCAGTGTTAGTTTAATTTGTGTTTTCTTAATTAACGATGATTTT
GTTTTGTTTTGTTTTGAGATGGAGTTTCGCTCTTTTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCCGGTTCAAGT
GATTCTCCTGCCTCAGCCTCCTGAATAACTGGGATTACAGGCGCACACCACCATGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGATTTCACCATGT
TGGCCAGGCTGATCTCAAACTCCTGACCTCAGGTGATACACCCGTCTCGGTCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCAATT
AATAATGATTTTGAACAGCTCTTTGTAACTCTGGTTTCTTTCTCTGAATTGGCTATGTACATTCTTTCCCATTTTTCTATTTGATTTCCTATCTTTCTCT
TATTGATTTGTAGGATTTTATTGTATACTTTGAATATTAGGTTTTTGACAGTTTTTTGTGTTGCAGATATCTCTCATTTATCTGTTGCTTATTTATAGTG
TCAGCAATTTAACAGAATTTTGATGAAATTCATCAATTTTTCATCTTCCATTTTATGCTTTTGAGATATTGTTTAAGAGATTTCCCCCCACTCCAGTATC
ACAGAAGTACTGTTTTATGTTTCTCCTGTTGATGTTACAATTTTACCTTCCACATTTAGGACTTTGATCCATCTGAAGTCTTTGCGAATGATGTAACTTG
GGATCCAATTTGATTTTTTCCACATGTTGATCCAGTTTTCCAAACACTATTTACTAAGTGGTCTGTTTTACCCCATTACTTGTAGTGCCCCCTTTATCAT
TTATCCAGTCCCTATATATACATGGGTCTTTCTCTGTACTCCCTTTCATTTTTTTTTTCCTTTTTTTGGAGACAGGGTCTCACTTTGCCGCACAGGCTGG
AGTGCAGCGGCGCGATCTCAGCTCACTGCAACCTCCACCTCCTGGGTTCCTCCCACCTCAGCATCCCGAGTAGCTAGGACTACAGACAACGTGCTACCAT
GCCTGGCTAATTTTTAAATAGTTTTTATAGAAACAGGGTCTTGCCATTTTTCCCAGGCTGGTCTCAAAGTCCTGGGCTCAAGCAATCTACCTGCCTTGGC
CTCCCAAAGTGCTGGGATTACAGGCATGAACCATGGCACCTGACCTGCACTCCTGTTTCTACTTCATGGGTTTATTGGTCTTGTTCTTGGGGCAGAAAAA
CTGTTGTATTATTGTGGCTTTGTAGTATGTCWGTATTAGTTGGCTAGGGCTGCCATAAGAATGTGCCACAGAATGGGTGGCTTAAGCAACAGAAATTTAT
TTTCTCACAGTTCTGGAGGCTAAAAGTCTGCGATCAAGGTGTCGGCAGGGTTAATTTCTTCTTAGGCCTCTTTCCTTAGCTTGTAGATGGTCACCTTCTT
CCTGTGTCTCCACATGGTCTCCTCCTGTGTGTCCCTGTGTCTTCATTTKCTCTTCTCATAAGGACATCAGTCATACTGGATTAGGGCCCACCCCTAATGA
CTTTATTTTTAACTTAATTACCTCTTTAAAGAGGTAATATCTGTCTTTATCTTCAAATACACTCACATTCTGAGAWACTGGGGTTTAGGACTTCCACATA
TAAATTTAGGGTAGACACACTTCAGCCCATAATAATGTTTTAATATGTAGKATAGCAATTATCCCCTCCTTGCTTTTCTTTTTAARATMTTGTCTGAGCT
GTTTATAGGTCTTCATTTTTCCACAAATATTTTATAAGAAATTGGTCTAGTTCCTTAAAAGAGTCCAGCTGGAATTTTTATTTAGGTTGAATAGGATGTA
TACATTAATTGGAAAAGATTGACATATTTATAATGTTAATTCATATTCATTCAAGACCATGGAATATCTTTTAATTTATTTAGATATTCTTTTTTGTACT
TTAACAACAATTTCAACTTTTTCTTAATAGAGACTTTTGAATTCTTTGTTAAGGTATTCCCTTACATGTAAGTCTACCTTACATTTCTGGTTGCTGTTGT
GAAAGTTAATTTATATATTTTCTATTGTATTTGATAGTTGATTATTATTAGAAATGCCATTGATTATTATAAGTTGATTTTGTATCTGGCAAACTTATTA
AACTCTTGTTAGTTTTATTAGTTTGTTTATTCTTTATTTTTTCCAAATAGATGGACTATTGTCTGCAAATGACAGTTTTCTTTTCCTTTATTTCAATACT
TATATATTTTAGTTGTTTTTGTTATCTTATGGCATTGACTGGTAGATCTAATACTGTGTTAAACAGTGGACTGGATACTGTGAATCTTTGTTTTGTTTGT
AGTTGTATTAGTTATCTATTGCCATGTAACAAATTATCTCAAAATTTAGCAGCTTAAAACAGTAATAAATGTTTATTCTCTTAYACAGTTTCTTTGGGTC
AAGAATTTGGTTTCAGCATGGTTGGGTGATTCTGATTGAGGATATCTCCTGAGGTTGCAGTCACAATGTCATCTGGGGCTGCAGTCATCTGAAGGCTTGA
CTGACGCTGGAGGATCTGCCTCCAGGCTGGCTCACTCATGTGGCTGTTGGCAAGAGGCCTCAGTCTCCTGCCATGTAGACCTCTCCCTAGGGCTGCTTGA
GTGTCTTCAGGATGTGGCACTTAGCTTTCCCCAAAGTGAGTGATCCAAGAGAGCATGATCTGTGTCAGAGCGAGATGGAAGCCTCAATGTCTTTTATCAT
CTAGTCTTGGACTTCATACTTCATCATTTACACAAGGTTCTATTGGGTATACAAGTCGGCCCTATTGAATGTGAGGGGGGACTACTTGAAGGTGTGAATA
TCAGGAGGGAGGGATTATGTGGAGGCCATTTTGGAATCTGGCTGACACACCAGTCTGAAAGAAAGTGCTTCTAAATCTCTGTTAAGAATGACATTTGTTA
TAAGTTGTGGATATATGACTTTTATCATTTAAGGAAGTTCCCTTCTCCTGTTTTGTTGAGATATTTAAAACAAAAAAAGTATTAAAGACAGTTAAGGTGG
GTGGGGCAGCAACCTTACAAGCAAATGAATGTGACAGGCCTGCACACACAGAGCCAGCTTTGGATCTCTCCCGTAGTCCTGTGTGATAAGTGGGAGGCAT
TGGCCCATCATGAGCCCTCTGTAGCTGAAGAACTCTGCAAAAACAGCCCTTTCTGCCTTGGGAGAACTGGCATAGCTATTTTACTTTTTTCTTTTCCCTT
GCAGTGTCCAAGACAAAGATTTTGGCCACAGGAGGAGCATCTCACAATAGAGAAATCTTACAGGTAAGCGTTAGTAGTGGGCCTTACACCATGGCCTCTC
CCATATCTGTTATGTCTAAGAGCCAGAGACTGGATAGGAAGGACAGCCTCCATTCCCACTCCTGCAGRAATGGGGAGCTCTTAGCTCACACTCCAGGAAG
CAGCTCTGTTGCCTTACAGCTCACACTGTGAGTGGGATCTGTCTCACATGCAGGTGAATTCTATGGCTGTGTACAATCCACTCTCTGATACCAGCACTGT
CCTCTGGAGTCACATGGAAAGTGCCTGTTCTTCCACATGGCAAACCTTCTCACATCTAGTGCCAGTGTTCTTGTCTTCCTCAAGGCCTCTGCCTTCCAAT
GTAACCATCGCTGATTCTCCAACCAGTCCTCTTATAACACAGTTGCCAGACTGTTACTGTCCTTCTGGTCCTTCATTATRCCAGAAACATATGACCAAAA
GTAGAATCAACCTGCAGATGTCTGACACTCARACTGTCACCTGTGGGGCTGTCAGAGCCTGTTATGGAGACATTGTGCATTTTTGGGTGTAGCCTGGGGC
TGCCTTAACTGTTAGAGTAACTGTATTAGCTGTTTGCTTGTGACTACCTATCTTAGGTAAGATTTTTCTAGAAACAGAGCCTGAAATGGGAATTCTTCTA
TAAGCAGTTTGTTGAGAGAGTACTCCCAGGAAGAAGGAAGTGAGGGACTCAGGGCAGTGCAGAGGAAGAAGGATAAGTGAGGATATGGTCTTGTCTGGAG
TCTACTTCAGCTCCATCCTGGTGGGGAGGTGGGGCTCTGGAACRTGAATTATACCACAGAGCTGATTTTACCTTGGGACAAGGGGGCCAACAGGCCACCC
TGGGGAGGTTAAATCTCCTGTGAGCGGTGGCCYATGCTCAGCCAAGGTCAGCTTTCTTGAGGAGGTAGTGCTGCAARCCATTAGTAGCCAGTACTCACAG
CAGCTGGGGCAGGATGCACAATGGTCCAGTGAGGGGGATCTGGGTCGGCATCAGTGGCATCTACTACAATATCTCTGGTCAACTAAGACCTCCCCCAAGT
TCTTTCCATGTGAACTCCTCTTAGTACAGGTCCTCCATTTGAAATGTATGCAATTTATTTGTGAACCTAAATGGGAAACTTCACCATTATSCCCATGAAA
CATGCTCTTGTTAGCTTGGGTTTGTTTGGGCTTGTTAATGTTAGTCTAATACCCAGCTGTCTCCAGCCCTAGGTCAGTGCCATTTGCTAAACATACTTCC
TAAATCTTCTGCCTTGTCTTTGGTGAAATGGCTAAAAAGTACAGGGACAGCCTGGGGAGCTGTGGCTCTCCACTACGGACYTCCCCCAGCTCATCCTGAC
TCTATTATCACCAGGGTAGCATGACCAAGCATACTCCTCTTAAGGCAGTCGAGGTGGAATGGAAGRGGTCAGAAGACATATGAGGGAGAGAGCCTGGAAA
GTGCATCCCACAATGTCTGTGTTCCCTCTGAGGAATGGCTCACCACAGTAGAACCTCTGTGTCCTTTTCAGGTGCTTGCAGATGTGTTTGATGCCCCGGT
GTATGTTATAGACACTGCCAACTYSGCCTGTGTGGGTTCTGCATACCGAGCTTTTCATGGTAGGTTGATGGAGGGAGACAGCTATCTCTGGAAGTGGCCA
GGACATGGRGTGGGCTGAGGAGGGTGGAAAGGGGAGAGTGAGGTGTACCCAGTCTTTGGGGACATTGGAGTCTTGGGGACTTCAGCTTCATTTTTCTAGC
TCCCAGCAGGTGAGAACCAACCCATACTCTCTGTTCCTTTATTCTTTGCTTAAAGTGGAGAAAAAGAGGCTGGGTCCTAACTGAATGAKGTCTGGTCAGA
GTTAAGGTCAGCACAGGGACATGGGAAAAGAACACAGGGCATGGTTGAGAGCACGTGGGCATGAGTCTGGACAGCTAGAGGGCAGGAGAGGTGGACAAAG
TCCAGAGCCGTCTTTTCAGCAAGAACAGAAGTTGAAACAAAGGGGAAGGCTTCAGGCCCAAGCAGTCCAGGACCCTGGACAGCACCATGGAGCCCTGTTG
CCCTGTTGGAGGCCTCGCTAAAACTCTGGGTATTAAGGGAAGCTCCCCGATCTAGGCGAGTTCTGGCAGGAGCAGCACCTACCTGCAAGGGCAGTCCTTC
AAGTTGGATCAATTTGCTCTGTCTCCTGCTTGCTCAGGGAGCTCCTGTAGCAGCCCAGGTGGTTCTATTCTTTTCATATTCTTAACATTTAACATACCTA
TTTCAGCTTATATTTTTCTTTTCTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCAGGTTGGAGTGCAGTGGTGCAATCTTGGTTCAATGCAA
GCTCTGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGGTGGGACTACAGGTGCCTGCCACCATGCCCAGCTAATTTTTTGTATTTTT
AGTAGAGGAGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACTTTGTGATCTGCCCACCTTGGCCTCCCAAAGTACTGGGATTACAGGCGT
GAGCCACCGCGCCCGGCCTAAGCTTATGTTTTCTATCAACGTTGAGAATTAATCAGGCAACATATCCTTCTCTCAATAATTAACCTTGGCCGGGTGTGGT
GCTCATGCCTGTAATTCCAGCATTTTGGGAGGCCGAGGCGGGTGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGACAATATGGTGAAACCCCATCTC
TACTAAAAATACAAAAATTAGCTGGGCATAGTGGCACACACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAG
AGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTCCAGCCTGGGTGACAAAGTGAGATTCCATCTCAAAAAACAAAAAAAAATAATTAACCTCTTACTCA
TTTATTCTCTCCCCACCCCATCTACCTCACCCTGCCTCATGCCATATCCTATATCAAGATCACTTGGGAATTTATTTCCAGATTCTTATATTAAGTACAT
TTAATATTATATTGGCTTTTATTCACACTTACCTATGAGTCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTTCCTTCCTTCCTTCCTCTGTTT
GTTACTTTGTCTTTTTTTTTTTTTAACTTCCTGACATTTCGGTCGGGTGCAGTAGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTAGGCGGA
TTATGAGGTCAGGAGATCGAGATCATCCTGGCCTAGAGGGTGAAACCCCGTCTCTACTAAAATACAAAAAAAAAAAGAAAATAGCTGGGCATGGTGGCGC
GCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGGGAATAGCTTGAACTTGGGAGGCGGAGGTTGCAGTGAGCTGTTGCAGTGAGCCGAGATCGCA
CCACTGCACTCCAGCCTGGCAACAGAGCAAGACTCCATCTCAAAACAAAAAACAAAAAAAAACAAACTTCTTCTTCTTTCTCCTTTATTTCTATGCTGAG
GTTTTGTTTTGTTTTGTTTAAGACAAGGTCTCTGTTGTCCAGCCTGGAGTGCAGTGGCGTAGTCATGGCTCACTGCAGCCTCGACCTCCTAGACTCAGGT
GATCTTCCCACCCCCACCTCAGCCTCCCGGATAGCTGGGACTACAGGCACACACCACCACACCTGGCTAATTTTTGTAGATATAGGGTTTCGCCATGTTG
CCCAGGCTGAACTCGAACTCCTGGGCTCAAGTGATCCCACCCACTTCACCCTCCCAAAGTACTAGGATTACAGGCATGAATCCTAGTGCTAGGATTACCG
CACCCAGGCTGTATGGTAGTTTTGTTGGAATATACAACCTAAATAAATATTTTAAGAGAGAAATTCAATAGGTGATGGTTTTGAGGCCTGACATGTCCAA
CAAGGCCTTTGTTTCATCCTCCCAAATACTGGCTGGGTAAAAGACTCTATGTTCAAAATACTTTTCCTGAGAACTGTGAAGATACTCTTCCATAATCTTC
TGGCCTTCAGGGTTGCTGATGAGAAGTATGGGGTCTGCTTCATAATTCTTTTRTGGAAGTGGGAAAGGAGTTTCCCTTTAGGGACTTCACTGCCATCCTG
CACTGTGTTTTGTTTTATTCTTTTTCCCTTTCTGTGCTTGCCAAAGGGTACCTGGGCCACTGCCCTGCTCTGCCCTCCAAAACCAAAGCCCGAGCCAAAT
CTTAGCTCACCAGTCCCTACCCAGAGGGATACTAACCACTTCATTTGGAGATATCTTCTCCCCATCTGGGTCTGGGGATGACTGTCTTGTGTAGCCAGTC
TGCGAGTATGAGTGGAGATGGAACCAGAGTCTTTTGATTAGTTTCTYTGCTGTCCACCCCACCACCATTCCAGTCCCTCATCCATTCTGCTCTGAGCTGG
GATTTTCTAGCATTTGGTTAGGAAAACTGGTCCTCACATCTTCAGAGGGCMCTTCTTCACTCCTGGTGGTGGTGGTGTTTGTATATCTGACGCTACTACC
TACCTTCCCTAGAAATTGCTCATTGTTTCTTGCCCACCAATGGCAACCTTCCCCCTGCTACTCATTTGCTTGGTGAGTAATTATTGAGTGCCCCCTGTAT
GCCAGATGGTGTGCTAGGCACCATGGTTATAGTGGTGACCCGGAGAGACACAGTATCTGGCCTCGTGGACTTTACAGCTCAGCAAAAGAGGGATCTTAAA
CCAATAATCACTGAAATATATGGGCACAAGTTGGGAAAAGTGCTCTGAGGAAAAGCAGATGGTGYTGAGCGCTAAGGAGGGCCTCCTGAGCAAGTGATGK
TYTTAGGTGCATCTTAGCTGAGGAGAAGGGAACAGGCATGTGAAGAGTGGAAAGAACATTCCATACAGTGAAAAGGCTCTGAGGCAGAATGAGTGGAGAG
AAGACCAGGCTGTCCAGAATGTGGTGAACGAGGGGAGAGAGGAGGGGCAGGCAGACCCTTCCCCATCATATGTCGAGGTTACCCGACCTATTCCATGAAA
GGCACAACCACAAAGAGAAAGACAAGCTGGGTCCTGCTGGAGACAAGCCTGCACTTGCCATTTTTTTGTTTTGTTTTGTAATTTTATTGAGGTACAATCT
ATATGACATAAAAATCATCCATTTTAAGTGTCCAATTCATTGATTTTTCATAAATGTACTGAATTGTGCAACCATCACTATAATCCAGTTTTAGAACAGT
TTGCCACCCCAGTGAGATCCTTCGTGGTGTTTTTGGTTAACGTCTTCACTTGCAACATGCACTAATGTGAAGTGACCTTTCCCTTCTAGGTCTTGCAGGT
GGAACAGATRTGCCCTTTTCAGAGGTTGTGAAGTTAGCTCCAAATCCCAGACTAGCTGCTACCCCAAGCCCGGGAGCTTCTCAGGTGAGAGACCATCRGA
ATTTGTTTGTARCATTTGCATTATGAAAGCCCGCTAGGGTTTTTTCCCCCACCAAAAGGTCACCTACATTGAACGTGATGTGCTCAACTAAAGGAGAAAT
TCTGCTTTATTGAAATTATCAAGAAAATGGAGCTAAAGGGCCATGTTGTCAGCTGCAAGTCACAGATACTGCTGATTTTACAGCCAGGGTCAGATGGATT
GCTGGGCATATTTGTATTGCTTCTTATGCCTCACGGTGGGCCCTTCCATGTCACTGGGCTATAAAAGCTACTGAAAGGATCCATCACTGAAATTCAAGAC
ATGCTGGGTTTCTAGCACTGAAATCTCAAGTCTAGACCCAAGATAGCTGTGCAGTCACCCAGGCCAGGAAATCCCTGTGAAGGCAGACCTCACTTGTTGC
AGGTTGGGTCCCTCAGAAAGCAGAGTCTGAGATGTCAACTAAGATATATGAGGTTTATGGGAGTCGGGGGAGTTGCTCTTGGAATCCACAACTGCAGAAA
GGAAAGGGAGTAGACAGGATTGGACAGAGGGAGAAGGTGAGCAGCAATGCAATTTCTGGAGCCTAAGCTATTCCTACAGAAAGCTCCGAAGCTGAGATGA
CCTTTAGAGTTTTACCCAGTTGGTCTAAGGGGCTGGGCCTTTATACCCCATGTCAATCAGTCATCACATGTGGGCCACCCCAGGATGSGGTGAGGCAGCT
CTTTATAGCTAAAGCAGTCTCCAAAGTGGGCTGTCAGCTGAGGGCTCTCTGCCAACAGCACTCCCATCAGTTGGGAGAATAAGTTCTTCATTCCCGAGGT
GAATCTGGATGGCACACCAYAGCATCCGCCACACCACTGCACCTATTTACAGAAGGGTCTGGCAGCCCAGCAGCAGGGGTGGGTGCATCTTGTAAGGAAC
TGTGAAGGGTCTGAGATTTACCTGACTTGCAAGCTAACAAGTGAGCCTGCCACCATTTTGTAGCGGCAGGCAGAAGACACGGGACTCCTGGATCAGAGAC
AAAGGGCTTTATTATGATGAACCATGATGAACTCATGGTTCATCAGGAAGCATGAGCTTCATGCTTGCCTCATTTTCCCTTGGCCCCCAAATTCCACAGG
GTGATGCAAAGTGGGCCCAGGTGGATACTGGCACATAATAGTCTGTGATACAACTAAATGATCCCGAGCATAGAAAACTCCCAACCTTGTAAAGAAACTG
CGAGCAAACCTGTCTAAACTTTGCCACCAAAGGAGACATTATCCTTTTTATTCTTGTCAGCAAACAGATAAACATTCTCTCCAGTGTCTCTGCCCTGGAG
AGAGACACTATCTTTATGTCTCTATACTTTACAAACATCCTTGAAAAGATGGTCTGAAACGAAAGCTGTCATAAGACATGTAGAAACACTATGGAGAATT
GTCTCCCAGCATATCTTGGAAGCAAGAGCTCATGCTGTCTAGAGCAGACAAACCACACACATAGGTGTGCCCAAGCATCTGTAATTTTTCTGTTTGTGAG
AGGCTATTTTTCTCTCATGTTCGAGAGGCCACTCGATACACTGGAAAGATTCAATGTCGAGATAAAGGACATTTAAGTTCTGATTCTTATTCTGCTTCTC
CTTCACCATGAGACCTTAAGCAGCACTCCTTGTCTCCAGACCTCTGTTTGTTTATCTGTGAAGTGGGCACACCATCTGTCCTGCCTCCCTTTAACTTGCT
AATTGTGAGGCTTAAAAAGAATCCTTGACCAAAATGGCTTTATAATCTAATAGGAAATCTGGGGGTAGAATTGGTTCAGTRGTTCAACATGAGAACTCTG
GTCATSTTCCCTGCAATTCCTTAGGTCAGCAGTGGACAATGGGAACATAATGTGAGCCACATATGTCATTTAAAATATTCGGTTGCCTCATTTTTTAAAG
TAAAAGTAAAAATAAAAATAAATGATTAAAATTAATTTTAATACATTTTATTTAATCCACTATATCTGAAATATTGTCATGTCAACGTGATAAATTWGAA
GTTACTAATGTGGGGCCGGATGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAAGCCAAGGTGGGCAGATTGCTTGAGCCCAGGAGTTCGAGACCA
GCCTGGGCAGCATGGCAAAAACCGTGTCTCTACAAAAAATTAAAAAATTAGCTGGGTGGGTATGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGTGG
GAGGATTACTTGAGCCCAGAAGGTGGAGGTTGCAGTAAGCCAAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGACCCTGTCTCAAAAAAAAAAAA
AAAAAAGTTACTAATATGATATTTTACATTTCCTTTTTTGCATGAAGCTTTTGAAATTTGGTGTGCATTTAACACTTATAGTTCTGGGCATGCTTCAAGT
ATGCAAAGGTATACATGGCTTGCAGCTACTGTATTGGATAKTGCAGCTCTGGATGTGCTCCACATGGTGACAGGACAGCTATAGCTGCCCCAAACATCAT
GTCTTCACAGCTGTATTCGAAGGCAGGGATCAGAAGGTGACATTGGGCAGAGAGTCTCTCCTCACACACCTCTTGCTCATCAGGGAGAAAAATACTGGCC
TATCCCTCCCCTATCCCACACACGCCCAACAGGCTACCACTTGGTCATATGGTCAATTCTGGTTGTAGGAAAGKCTAGGGTAGGGTCTGGCTCTTTCATT
CTATCTAGAAGGAGGCCAGCAAGGAGGAAGATAAYTGGGGAAAGTTTTAGGGCAGCACAGCAGCGTCTGCCTCATCTAGAGTACGGAGTGGCCAATCCTC
TGAGCTGTATGTGCCTCATCACTCTCCCTGGCCTGCCCATGGCCGAAATCACTGACAACTCATGGAACCCTTTACCATTGGATCCAAATGTAACCTCAAA
AGCCCACCCAACAGCAGGTTGCAAGCAGTGACAGTCTATATGATTGTCAGCGTATGTGACTTATATGCAGACTGAATTTGTGGACTAGAGTTAAACTTCT
TGAGAGCAGGGCCACATCCTTCATTCTCTCTGTGGCACCTACAGCACTGCTTGTGCTCAAGGGGAAACTCAAAGCAGTAAGAATGTTTTCTCCCTTAGCT
CAGCTGAACGTTGCAGTTTCTCCATGAGGAGAAATCAAAGCCCCTTAGCTTTGTTCTCTGACTCCTTAATGTCCAATACAGGCTAGGACAACCTTAGGCC
CCTCGCCTGTGGGCCTCTTTATAAAGGGTCACCTGTTATCTTTTGCTTTATTTTACTCATGGGGTCTATTCCCAAGTACTTCACAAACACATAATTCACA
GGGTAGAACCAGAACATCAGCTGTGTCACCCTCATTTGGAAGAGCAAAGGAATTTATCTCCCTAAGCCCTTCTAGGCAGCACAGACTTATCGTGGACTCA
GAAGCCAGCAGGCTCCTTCTCTCTGGCTCTGACACCCTGTGTAACTGTCCCTGAGCCTTCTCAGACAGAGCTGCTCCAGCTGCACCAAGAGTAGGCCCCA
GTTGCATAATCAGTTGTTAAAATACTTGGCTTCCAGCTGGGCGTGGTGACTCACTCCTGTAATCCCAGCACTTTCGGAGGCYGAGGCGGATGGATCACAT
GAGGTCAGGAGTTAGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAAAGAAAAAAACACAAAAATTAGCTGGGTGTGGTGGTGCACAC
CTGTAGTCCCAGCTACTTGAGAGGTTCAGGCACGAGAATCACTTGAAACCAGGAGGTGGAAGCTTCAGTTAATCAAGATTGCACCACTGCACCTCCAGCC
TGGGTAACAGAGTGAGAMCCTGTCTCAAAAAATAAAAAAACAAAACTTAACTTTGGAGCAAATTAAACCAAATTAAGAAGGAATGGGGTTGGCATGAGCT
CCTACTTGTGTTTACTTGCGAGTCGCAGGAAAATCCGGGTCCTTGGTCTTGTTGTTTGTCTGTAAGACAGCGTGTGCTTGCCTGAAGTGCATCTGCATTT
CTCAGGTAAGATGGACAGCCACAGGGAAAACTGCTTAGGGGGATAAAAGAAGAGTAAGAATGTGGGGTTGTGTTTCTTTTTGGTCTTTTTTCTCTGTTGG
GCTTTTTGTTTATTTATTTTGGCTTATAATGCAGCACATTGTATATATAATTTTGTAGCTTCTTTAAAATTTCTACATTACAAAATAAATATTTCATTCT
TAAAAATGTATGTGCATACCATTTTTAATGACTGTATAATATTCTATCTGRGTAGACCAGGCACGGTGGCTCATACCTATAATCCCAGCACTTTGGGAGG
CTGAGGCGGGAGGATCACTTGAGGCCAGGAGCTGGAGACCAGCCTGGGCAAACATGAGACCTCATCTCTTTAAAAAAAAAAAAAAAAAAAAAAAGCTGGC
AGCCAAGATGGCCAAATAGGAACAGCTCSGGTCTACAGCTCCCAGCATGAGCAACGCAGAAGAYGGGTGATTTCTGCATTTTCCATCTGAGGTACTGGGT
TCATCTCACTAGGGAGTGCCAGACAGTGGGCACAGGACAGTGGGTGCAGYGCACCGTGCGCAAGCCGAAGCAGGGCGAGGCATTGCCTCACTCGAGAAGT
GCAAGGGGTCAGGGAGTTCCCTTTCCTAGTCAAAGAAAGGGGTGACAGATGGCACCTGGAAAATCGGGTCACTCTCACCCTAATACTGCGCTTTTCCGAC
AGGCTTAAAAAACGGCGCACCAGGAGATTATATCCCGCACMTGGCTCAGAGGGTCCTACGCCCACGGAGTCTTGCTGATTGCTAGCACAGCAGTCTGAGA
TCAAACTGCAAGGCGGCAGCCAGGCTGGGGGAGGGGCGCCTGCCATTGCCCAGGCTTGCTTAGGTAAACAAAGCAGCCAGGAGGCTCGAACTGGGTGGAG
CCCACCACAGCTCAAGGAGGCCTGCCTGCCTCTGTAGGCTCCACCTCTGGGGGCAGGGCACAGACAAACAAAAAGACAGCAGTAACCTCTGCAGTGTTAA
ATATCCCTGTCTGACAGCTTTGAAGAGAGCAGTGGTTCTCCCAGCACACCTCTGGAGATCTGAGAATGGGCAGACTGCCTCCTCAAGTGGKTCCCTGACC
CCTGACCCCCGAGCAGCCTACCTGGGAGGCACCCCCCAGTAGGGGCAGATTGACAGCCCACACGGCCGGGTACTCCTCTGAGACAAAACTTCCAGAGAAA
TGATCAGACAGCAGCATTCGTGGTTCACGAAAATCTGCTGTTCTGCAGCCACCACTGCTGATACCCAGGCAAACAGGGTCTGGAGTGGACCGCTAGCAAA
CTCCAACAGACCTGCAGCTGAGGGTCCTGTCTGTTAGAAGGAAAACTAACAAACAGAAAGACATCCGCACCAAAAACCCATCTGTACATCACCATCATCA
GAGACCAAAAGTAGATAAAACCACAAAGATGGGGAAAAAACAGAGCAGAAAAACTGGAAACTCTAAAAAGCAGAGCGCCTCTCCTCCTCCAAAGGAACGC
AGTTCCTCACCAGCAACGGAACAAAGCTGGATGGAGAATGACTTTGACGAGTTGAGAGAAGGCTTCAGATGATCAAACTACTCTGAGCTACAGGAGGAAA
TTCAAACCAAAGGCAAAGAAGTTAAAAACTTTGAAAAAAATTTAGATGAATGTATAACTAGAATAACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGA
GCTGAAAGCCAAGGCTCGAGAACTATGTGAAGAATGCAGAAGCYTCAGGAGCCGATGCGATCAGCTGGAAGAAAGGGTATCAGTGATGGAAGATGAAATG
AATGAAATGAAGTGAGAAGGGAAGTTTAGAGAAAAAAGAATAAAAAGAAACAAGCAAAGCCTCCAGGAAATATGGGACTATGTGAAAAGACCAAATCTAC
GTCTGATTGGTGTACCTGAAAGTGACGGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATCTAGCAAGGCA
GGCCAACATTCAGATTCAGGAAATACAGAGAACGCCACAAAGATACTCCTCGAGAAGAGCAACTCCAAGACACATAATTGTCAGATTCACCAAAGTTGAA
ATGAAGGAAAAAATGTTAAGGGCAGCCAGAGAGAAAGGTCGGGTTACCCACAAAGGGAAGCCCATCAGACTAACAGCGGATCTCTCGGCAGAAACTCTAC
AAGCCAGAAGAGAGTGGGGGCCAATATTCAACATTCTTAAAGAAAAGAATTTTCAACCCAGAATTTCATATCCAGCCAAACTAAGCTTCATAAGTGAAGA
AGAAATAAAATACTTTACAGACAAGCAAATGCTGAGAGATTTTGTCACCACCAGGCCTGCCCTAAAAGAGCTCCTGAAGGAAGCACTAAACATGGAAAGG
AACAACCTGTACCAGCCACTGCAAAATCATGCCAAATTGTAAAGACCATCGAGGCTAGGAAGAAACTGCATCAACTAACAAGCAAAATAACCAGCTAACA
TCATAATGACAGGATCAAATTCACACATAACAATATCAACTTTAAATGTAAATGGACTAAATGCTCCAATTAAAAGACACAGACTGGCAAATTGGATAAA
GAGTCAAGACTCATCAGTGTGCTGTATTCAGGAAACCCATCTCATGTGCAGAGACACACATAGGCTCAAAATAAAAGGATGGAGGAAGATCTACCAAACA
AATGGAAAACAAAAAAAGGCAGGGGTTGCAATCCTAGTCTCTGATAAAACAGACTTTAAACCAACAAAGATCAAAAGAGACAAAGAAGGCCATTACATAA
TGGTAAAGGGATCAGTTCAACAAGAAGAGCTAACTRTCCTAAATATATATGCACCCAATACAGGAGCACCCAGATTCATAAAGCAAGTCCTGAGTGACCT
ACAAAGAGACTTAGACTCCCACACAATAATAATGGGAGACTTTAACACCCCACTGTCAACATTAGACAGAACAACGAGACAGAAAGTTAACAAGGATACC
CAGAAATTGAACTCAGCTCTGCACCAAGCGGACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTTTTTTCAGCACCACACC
ACACCTATTCCAAAATTGACCACATACTTGGAAGTAAAGCTCTCCTCAGCAAACGTAAAAGAACRGAAATTATAACAAACTGTCTCTCAGACCACAGTGC
AATCAAACTAGAACTCAGGATTAAGAAACTCACTCAAAACCRCTCAGCTGCATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGGTACATAACGAA
ATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAACAAGAACAAAGACACAACATACCAGAATCTCTGGGACACATTCAAAGCAGTGTGTAGAGGGAAAT
TTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCCAAAATTGACACCCTAACATCACAATTAAAAGAACTAGAAAAGCAAGAGCAAACACATTC
AAAAGCTAGCAGAAGGCAAGAAATAACTAAAATCAGAGCAGAACTGAAGGAAATACAGACACAAAAAAACCCTTCAAAAAATTAATGAATTCAGGAGCTG
GTTTTTTGAAAGGATCAACAAAATTGATAGACCACTAGCAAGACTAATAAAGAAGAAAAGAGAGAAGAATCAAATAGACGCAATAAAAAAAATAAAGGGG
ATATCACCACCGAGCCCACAGAAATACAAACTACCATCAGAGAATACTGCAAACACCTCTACGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATT
CCTCGACACATACACCCTCCCAAGACTAAACCAGGAAGAAGTTGAATCTCTGAATAGACCAATAACAGGCTCTGAAATTGTGGCAATAACCAATAGCTTA
CCAACCAAAAAGAGTCCAGGACCAGATGGATTCACAGCCGAATTCTACCAGAGGTACAAGGAGGAACTGGTACCATTCCTTCTGAAACTATTCCAATCAA
TAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATAAGGCCAGCAGCATCCTGATACCAAAGCCGGGCAGAGACAGAAACAAARAAGAGAATTTTAGACC
AATATCCTTGATGAGCATTGATGCAAAAACCCTCAATAAAATACTGGCAAACCAAATCCAGCAGCACATCCAAAAGCTTATCCACCATGATCAAGTGGGC
CTCATCCCTGAGATGCAAGGCTGGTTCAATATATGCAAATCAATAAATGTAATCCAACATATAAACAGAACCAAAGACAAAAACCACATGATTATCTCAA
TAGATGCAGAAAAGGCCTTTGACAAAATTCAACAATGCTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATGGGACATATCTCAAAATAATAAGAGC
TATCTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTAGAAGCATTCCCCTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCA
CTCCTATTCAACRTAGTGTTGGAAGTTCTGGCCAGGGCAATTAGGCAGGAGAAGGAAATAAAGGGTACTCAGTTAGGAAAAGAGGAAGTCAAATTGTCCC
TGTTTGCAGATGACATGATTGTATATCTAGAAAACCCCATTTTCTCAGCACAAAATCTCCTAAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAA
AATCAATGTACAAAAATCACAAGCATTCTTATACACCAAGAAGAGACAGAGAGCCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAA
AATACTTAGGAATCCAACTTACAAGGGACATGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAATGAAATAAAAGAGGTTACAAACAAATGGAA
GAACATTCCATGCTCATGGATAGGAGGAATCAATATCACGAAAATGGCCATACTGCCCAAGGTAATTTATAGATTCAATGCCATCCCCATCAAGCTACCA
ATGACTTTCTTCACAGAATTGGAAAATRCTACTTTAAAGTTCATATGGAACCAAAAAAGAGCCCGCATCGCCAAGTCAATCCTAAGCCAAAAGAACAAAG
CTGGAGGCATCATGCTACCTGACTTCAAACTATACTACAAGGCTACAGTAATCAAAACAGCATGGTACTGGTACCAAAACAGAGATATAGATCAATGGAA
CAGAACAGAGCCCTCAGAAATAATGCTGCATATCTACAACTATCTGATCTTTGACAAACCTGAGAAAAACAAGAAATGGGGAAAGGATTCCCTATTTAAT
AAATGGTGCTGGGAAAACTGGCTAGCCATGTGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATCAATTCAAGATGGATTAAAGACT
TAAATGTTAGACCTAAAACCATAAAAACCCTAGAGGAAAACCTAGGCATTACCATTCAGGACAKAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAA
AGCAATGGCAACAGAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAACGAAACTACCATCAGAGCGAACAGGTAACCT
ACAAAATGGGAGAAAATTTTTGCAATCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAACCC
CATCAAAAAGTGGGTGAAGGACATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAGACAYATGAAAAAATGCTCAYCATCACTGGCCATC
AGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTG
GAGAAATAGGAACACTTTTACACKGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGTGATTCCTCAAGGATCTAGAACTAGAAAT
ACCATTTGACCCAGCCATCCCATTACTAGGTATATACCCAAAGGACTATAAATCATGCTGCTATAAAGACACATGCAGACATATGTTTATTGCGGCACTA
TTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCTACAATGATAGACTAGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCAT
AAAAAAGGATGATTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATTCTCTGTAAACTATCGCAAGGACAAAAAACCAAACACCACATG
TTCTCACTCATAGGTGGGAATTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACTCTGGGGACTGTTGTGGGGTTGGGGGAGAGGGGAGG
GATAGCATTAGGAGATATACCTGATGCTAAATGACGAGTTAATGAGTGCAGCACACCAGCATGGCACATGTATACATATGTAACTAACCTGCACATTGTG
CACATGTACCCTAAAACTTAAAGTATAAAAAAAAAAATCTGGCAAATTTTTTGCCAGAACTGCAATTTACTCGAACATTTTCCTTGCCTTAGTACAGTTG
CTTTTAGTTTTTCAATTATAATTAAGTCTTCTTAGATAAAGGATTTAAAAAAAAAAAAAACCCTTTCCTATTCTACATGAGAATTTGACCTTTGGTTAAC
TTTCTAGCTCTGTTTTCCTTGAGATCTCATAAAAGTGGACTATCAACGGTTTTACTAGGCAACATTGCTTATGTAAAAATGGCCTTTGCTTGGGAAACTG
CATCTGAACTGAGAAAACCATAACTACCTGGTGAGAAGTCTTCCTCAGGGCCTCCTTGAGTGCAGTGACTCCTCCTGGTCCTGCCTCCTACCTAMTAAGT
TGTTACAGGAGATACTTTTGTAGGGCATATGAGGTTTTGAAGCCAGGGTCATTCTTTTGTCTGTATGATGTGGATCTCAACTCTTTTTTTTTTTTTTCTT
TTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCCCCGGCTCCCAGGTTCAAGTGATTCTCCT
ACCTCAGCCTCTCGAGTAGTTGGGATTACAGGCACCTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCAGGTTGGTCAGG
CTGGTCTCAAACTCCTGGCCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTGCAGGCATGAGCTACCATGCCCGGCCAGATCTCAACTG
TTTGTGCCTGGGCTGTAACCTGGTTGGGAGGCAAAGAGACCCTCTCCTGGACAGCTGTGTGAACTGCTGTATGGACTGCTACATGGTCTTCCATTGAGAG
GAGCACCTCCTGCCACTGTGTTTCTCCAGGCTGTCTTCCCTTGGCTCATGGTGGTCTTATAAGTCTGAATGTTTAGTGGTATCAAAGAAGACCCTTGGTG
GACTTGGCATCCTACATTTAGGATTATTTCCTTAGGAGAGCTTCACCAAAGTAGAATAACTGGGTCCCATACTATGGGCTCCTTAATACAGATATAAAGT
CAAGTCTATTTCCCAAAGAGTTGTATCACCAGCTTTCACCAGCTGTGCAATGAGGCAGCCATTTCTAGGTACTCTCACCAGAATTTTTTTGAAATTTTGT
AGATTTGATCATAAAAATTGGTTTCTTGTCATAATTTACAGTTTTAAAAAATCTTAAACTGTAGGTTTGAGAACTGCTAGCATTTCCTCTTTTGTGAATT
GATGCTTTCTTTCGCCCAGAAAAAAAGTTAAATTGCAAGTAAACGGGATTTAAAAATTTTAAATTGCAAAGTGCAACCAGATGTAAGAGGCATTTTCCCC
CTCTGTTCTAAACTGCTTTTTCTGCCCTTCTAGGTCTACGAGGCCCTTCTCCCCCAGTATGCCAAACTCGAGCAGAGAATCTTGTCTCAGACCCGGGGGC
CTCCGGAGTGAACAGGCATCCCTGTTGCCCCTGCCTGCCCAGATTTACTGACCCCATTTGTCGACATGGCCCCAGACAGGAGGGATCCACTTCTCTGTTC
TGAACAGCTCTTCCTGCCCCTACTGACTCCTTGGAGTGTCCAGGACCATCTTAAAGCCGCCCTCAGCACATCTGCATGAAGATAGATAGGCACTCCTGTC
CCTGTGCCCGTGTGCCCCAGGGCAGGAAAGCATCTCTCTTTTCCTGTCTTTTATCCCAGGAGGCAGGACAACACTGAGACTGGGATATGTCCAATAAAAA
CTATGACTTTTCCCCTTGCAGAGGCAGAATTAAAGCTAATCTAGGGACTCAAATCAGCAGAATGGGGGAGACAAAGCCCGGTCTCACCCCCTAACCTCAT
CCTATCTCTTTCTCCAACCCTGACTGCCCACTCCTCCRCAAACCGTGACCCATAGCCGCCCCCACCCCATACCTTGATCTACCATCCATCCTCTTCCCCA
ATCCAAACCCCACAGTCTCTTCTCTCCCACACCCTGCCCTCCTTGTTTCAGCTGTCTGAGGTGCCTCGCAGGGCCTCTCTTACTTGCCCCATGCTCACCC
TTTCCATGCTGTCCCCATTCTCTCCTTTCACCATCTCTCCTCTCCCCCTCCTTCATCTCTCCTCCCTCCCCAAACTCACTTGGCATAATTCACAACCTCC
CACCCAAACAATGGGCCTGGTGGACGTGCTTCCTGTGCCCTCCCTTTAGCTATGCCCACAGATCACTGAGAGGGACCATCTCCCAAGTGGTGCAGTTTAG
AACTTCTCTCCCTTTTTCTCCCTCATTCCCTCTCTCTTCTTGCAGTCCACTTGCTGAAGAAGTTGTGTCATTTCTCTGGAAGAATTTCCAAAATTCTGGA
TTTCTTTTTTATTTTGGAGTATTTCATCAGCTGAAAAGTGATTCTYACTTTGAGTTTTCTTCCTATATTTGTATAGTGAGTTCCTTTTTCCTTCCTCTTT
ATCCCTCCTGTTTTACTTTATACCTCTCTATTCCTTGCTCAAATTATTGCAAAAGCCTCTATAGAAAGTCCTCTGTGATCTGACTCCTGCAGACTCTTCC
AGATTTTTCTGCCCAAGGCCTTTACTGAGCTCAGGACTCCAGCTAAATCAAAATACKCATGTTCTCACCCAGAGTGACAAAATCCTGCAGATAGGTTTAA
GACCTAGTGGMTCAGAGCAGTAGCTACTGGGAAGTTAAAAGGAAGGGGCTTAGAAAATGAATGGGACCAAAGGCATCACTTCTGATGGAGATGAAGCCAT
CTTGAAAGTGAGTGGTGTCCTTTGGAGGCATGGTGGATGAAAGGCGCAAAGGAAGCAAGAGGTTAAAGATAATGGCCCATTAGATACAACAGCAAGCCCA
AGATTCCRAAGAAGACAGACAACTCCCCCTAGTACCACCTAGACATTACTTTTTAAAGACATTTTACATTATTGTCCAGCAGAAAAAGGCTGTCTTGGAC
CATGAAACAGTAAACTGTAACTAAACACTTCAACATGAATTTGAAAATAAATAATTGTGGATATAAAAGAACACCAGAGATCAGAAATTCAAAAACTCAG
AATAAAAATGAAAAAGCTACAAGCATATATGAGAAGAGAACTGACTGAACTTGGGAAATAATTTGAACAAAAAGATAAATCTTCACAGATATGAATACTA
AATTATATCTTAATGAAAATAGATATGGTCACAAGTACATTAAGGCACGTAGAAGGTAGGAGTAAGAAAAGCTAAGAGAAGCAAAACAAACAAAGCAATA
TTAAAGGAAGAGCCAAAAAGACCCAGAAATAAAATGACAGATAAAGAAGATTGTCAAAGAAAAGATGATACAGGTAAGATTGGAACTCATGAAGACAAAA
GATAAGACAGTGGCATAGAGTTAATATTTAAAATTCAAATATTAAAACTCAAATAAACCCCAAAGAACTTTTGGAAAACAAAAGAAAACCTTAAACTTTA
TCTTGAAAGGGTCTATCTTGTTACTTAGAATATTGAATCAGAATGATTAGCTCTGAGACATAGCCTACCAACTATACTTTGAAGCCAAAGAAAAAGAACT
ATGTAAGCCTCTAGGCCAAAAGACCTAGTCTCTTACAAAGGAAAGACCTGGTTGGCCTCAAACTTCTCAATAAAGCAAGATAGCAATGGGGCAACCTTTT
CAAGAAACTCAAAGTATGAACTGAGGATTTCATATTTCACCAAGCTGTCCTTTAAGTATCAAGGATATAGGAAGAAGTTTTAATTACACAAGAGCCCAGG
GACTATTATACTCACAACTTCTTCCTTAGAATTCTACTAAAAGACAAGCTTCATCCAACTAGATGATTGGGGAAACTTGAGCAAAAGGACTGGACATGAC
CATTGAATATCTTTGTAGATCTGAGGCCAAATGGAAGTGGGGATAAGGGTGGAAGAACCGTATTAGTCCCTTCTCACACTGGTATAAAGATAGTACCCAG
CTGGGAATGGTGGCTCATGTCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGAAGATCACCTGAGGTCAGGAGCTCGAGACCAGACTGGCCAACATGG
TGAAACCCCGTCTTTACTAAAAATACAAAAATTAGCTGGGTATGGTGGTGCACGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCACGAGAATTGCTTG
AACCCGGGGGCAGAGATTGCAGTGAGCCGAGATTGTGCCACTTCACTCCAGCCTGGGCAACAGTGAGACTCTGTCTCAAAAAAATAATAAAGATAGTACC
CAAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGACTCACAGTTCCACATGGCTGGGGAGGCCTCAGGAAACCTACAATCGTGGCAGGAGGTGAAG
GGGAAGAAAGGACCTTCTTCACATGGTGGCAAGAAAGAGAGAGCATGGACGCACAAGAGAGCAAGCAGGGAAAACTGTCTTATAAAACCATCAGATCTCG
TGAGAACTCTCTATCATGAGAACAGCTTGGGGGAAACCACCCCCATGATCCAGTCACCTCTCACCAGGTCTCGCCCTCAACACCTGGGGATTACAATTCA
AGATGAGATTTGGGTGGGGACAGAAAGCCTAATCACATGAAATAGTATCAAACTATATATGCTTTGACAAGACAGAAGTAACAAAACAAAAAAGAAGGGA
GAGAGGAAGAGGAAAATACAAAGAACTCCTTGTTGCTTAGGCAATATGTAGAAGTCAAATAGTATTATTTAAAGTTGACAAACCAAGTATATGAAGTGTA
AGTAAGGAAAAAGGGAGATTTAGAGCATTAAAGGTGTACTATACTATTAATAGTATAGAATACATAGTATAATTACTAGAATAAAAATGTAAATCATCAA
TGCTCAAAGAAGCAATAATAAAGATTACAGTGAAAAACATGCAGTAAATGTACCATCATACAGTAAATATATTAAGTCCAAGCATATAAGTTAAATCAGT
ACATGTGAAAGGACTTACCTATTAAAAGGAATATCAGATTGGCTTACAAACCAATGTCTTATTGTCTGTTATTTATAAGAGACACATCTAAAGTAAGTGA
TTCAGGAGAGGCTAAAAAAAAAGAGATGGGCAAAAATAGACCAGACAAGTAGGACCACAAAAGGCAAAGATTACAGTATCCATATCTGAAAAGGTAGAAT
TCAGGAAAAAATAGACAAGACAATGAAGGATACATTAAAATGCTAAAAGCCACAATTCACAAGGAGGATATACTATTTATGAGTGTTAGAGCTTCAGTTA
TCTGGTTTGTCAACTTTAAGTGATATTCTTTGGCTCCTGCCTATCCCCTGTACAACAAAGAGCTCTTTCTACTTTCCTCTTTCTCTCTCCCTCCTTTTTC
ATTGTTTCCGTTGTGTTACTTCTGCCTTGTCAAAGCACATAACATTTGCATAACAAATTATGCAAGGAAAAATGAATAGAAACCTAGAAATAACAGAGAA
ATTTAAAACACCTCTCTCTCATCCAAGACTGAAGTTAAGAAGACAAAAAATACATATAACGATATAAGTGATCTGAGTAACAGTATCTATAAAGTAGATC
TAATGAATATATGTTGAACTTTCTACCTTGATAATAGAGAATATTACTCTAGGGCAAGCGTGATGGCCCACACCTGTAATCCCAGCACTTTGGGAGGCTG
AGGCAGGTGGATCGCTTGAGCTCAGAAGTTCAAGACCAGCTTGGGCAACATGGTGAAACCCCATCTCTACAAAAATTAGCCAGGCATGGTGGCAGGAGCC
TGTAGTCCCTAGAAATTTATGACTCTTCTAGGAATCAAGATTGTTGTCCCACAGCAGCCTCACACACCTGGCATAGCAGTGATTAAACTCATTGGGAGCT
ATCTCAAAAATAATTGTGAGTGAGGCTTTTGGTACATAGAGTAGACTCCAATCAGACACATAAAGCCCACAGTACATTTTAGGAAGCTATACTAATGGCA
TTAACCTGGATTAAAAGGGACTAAATGTTAAAAGACCCTGGACCCCCAACTTTCTATGGGCAACAAGCAGGCATAGTTGCTCAAAAGACAGTTTCTAGCC
CAGGCATAGTAGCTCATGCCTGTAATCGCAGCACTTTGAGAGGCCAAGGCGGGCGGATCATGAAGTCAGGAGTTCAAGACCAGCCTGGTCAAAATAGTGA
AACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAAC
CCGGGAGGTTGAGGTTGCAGCGAGCTGAGATCTCGCCACTGCACTCCAGCTTGGGYAACAGAGTGAGACTTCATCTCAAAAAAAAAAAAAAAAAAGTATA
TATATCAGGCCGGGCGTGGTGTCTCATGTCTGTAATCCTAGAACTTTAGGAAACCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGATCAGCCTGG
CCAACATGGTGAAACCCCGTCTCTACTAATAATACAAAAAAAATTAGGCAGGCGTGGTAGCAGACGCCTGTAATCCCAGCTACTCAGGAGGCTGAGACAG
GAGAATCACTTGAACCTGGGAGGTGGAAGTTGCAGTAAGCTGAGATGGCAGCACTGTACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAA
AAAAAAAGATATATATATATGTATGTATGTATCTATGTATCAGAAAAAAACGCAAGTACACTTTAAGCATATTTTAAAATGCTTACTGACAAAAATCAAA
GAGTTTGATAAAATTCTGTGTTACCATGGCTGTGGAGAAATAGGCATTCGTATACATTTCTGGTAGGAGTGCAATTTTGTGAAACTCCTAAAGGGGGAAA
TTGGGCAACATCAACAAAACTAAATATGAGTATGACTTAACCATTCCAATAGGAATCTGCACAAAGACACAATTCCAACATACAAGACAACATATGTATA
AGGTTATTGTGAAATTATTGATAACAGCGAAGTACTTGGGAAAAGGCACATATACATTAATATAGGACAGATTGAATAGATTATAATGCATCCACACAAT
AAAAAAGAATGAGGAAGATCTCTATGTACCAATGATGGGTAAATTCCATAAACAAAGGACAGTTCTCTACTTAGTTCTTTTTATTCCACTTAACAAAGTT
TTATAGTTTTTAGTGTATGTCTTACACATATTTTGTTAAATTATTTGATATTTCAAAAATGTTTTGTGATAAAATGTGTGACATTTATCACTTTAACCAT
GTTTTGTGATAAAATGTATGACATTTATCATTTTAACCATGGAAAAGTGTTCATTTTTTCAATTGTTTTTGCTAGCATTTAGGAATATTCCATGGTATGT
TGAATTATTCATTGTGAACATATTAAGATCAAATTCAGTAGCATTAGGTATATTACCAATATTATGCTACCATCACCACCACACATTTCCAAAACCTTTT
TATCATTCTAGACTGAAACTCTACTCACTAAACAATAACTCCTATTTTTCTCTCCCCAGCCCTTGATAACCGCTATCCTTTCTGTCTCTATGGATTTGCC
TATTCTAGGTTTTTCATATAAGTGGTATCATACATGTTTCCTCTTGTTTCTGGCTTATTCCACTTCGTGTGATATTTTATTAAATTTTGCATGTGTAAAA
TAGTTAATATTTTAATGTTTTAAATTTAAAGGTTCATTCACATTGTAGCAAGGCTGAATAATATTCCGCTGTGTTTATATACCACATCCTGTTTATCCAT
TCATCCATCAGTGGACATTTAAGTTGTTTTCACCTTTTGGTGATTGTAAATAATGCTGCTATGAACATTGATGTACAAATATCTGAGTCCGTGCTTTCAA
TTTTTTGGGTATATACCTAGAAGTGGAATTGCTGAATCATATAGTAATTCTGTTTAACTTTTTGAGGACCCACCACAGTTTTCCACAGTAGCTGCACCAT
TTTACATTCCCCAGCAGTAATGCACAGGGATCTAGTTTCTCTACATCCTTGTCAACACTTGTTATTTTTCTTTATATTTATATATATATATATATATATA
TATATATATATATATATATATATATATATATAAAATAGCCATCGTTATGGATGTGAAGTGAAATTTCATTGTGGTTTTTATTTGTGTTTTCCTAATGACT
AGTGATGTTAAGCACTTTTCATGTTCTTATTTGCCGTTTGTACACATTTAATTGTTTTGATGCTGTTGGAAAAGTGTTTCATTTTTTCAATTGTTTTTGC
TAGCATGTAGAGATAGTCTATGGTATATGGAATTATTTGTTGCTAACATATAAAAATCATTTTTTTTTTAGATGGAGTCTTGCTCTGTCGCCAGGCTGGA
ATGCAGTGGCACCATCTCGGCTCACTGCAATCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTTAGCCTCCCGAGTAACTGGGATTACAGGCACCCCC
AACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTCACCATGTTGGCCAGGATGGTCTCAATCCCCCAACCTTGTGATCCACCCGCCTCA
GCCTCCCAAAGTGCTGGAATTAACAGGCGTGAGCCACCACGCCCAGCCATAAGAATCAATTTTTGTTTGATTTTGTGTCTTGCAACTTTATTAAATTCAC
TTACTAGTTATGGTAGTATTTTGTATTAGTAGGATATGTAGGGTTTCTATCCATCATGTCATGTCATCTATAAAAACAAAGACAGTTTTCTTCTCTTCAA
TCTGTAAGCATTTTATTTCATTTTCTTGCCTTTCTGCAATGGCTAGAATGTCTAGTATAGTGTTGAATAGAAGCAGGGAGAGCAATAATCCTTGCCTTGT
TCCTGATCTTAGCGGACAGCATTTTATCACTAAGAGTGTGTGTGTGAATACGCCCTCCATCGGGCTAAGAAATTTCCCTTTCATTTCTTGCTGGAGGTGG
GGAGGAATATTTAAAAAGAATGTGTAGGTTTGTCTTGAATTTTGTTAAATGTTTTGCATGTATGTGTTATGGTTTTGGTATTATGTGTTCCTTAAATATT
TGATTGAATTCACCAGTGAAACCATCTTAGTTAGATGTTTTCTTTGTGGAACTTTTAAGTGAAAACTCAATTTACATAAAAATATATGGCCCTTCAGATT
TTGTACTTCTTTTTGTGTCAGTGTTAATAATACGTATCTTTCAAAGAATATCCCCCTTTTTTTTTTGGTAGAGATAGGGTTTTGCCATGTTGTTGGTAGC
AAGCCCTAACCCTGTCATAAACAGGCCTTAAATAAACTGGCCATAAACAGGATTTCTGCAGCAATGGGACATGCTCATGATGGCTGTCATGCACACTGCG
AAAAGTTGTTGGTTTACTGGAGCAGGGCAAGGAACACCTGGCCCCGCCCGGAGCAAAAAACTGCTCAAACCACAA


SNP Information

Context             (SEQ ID NO:54194):
TCCACTTGCTGAAGAAGTTGTGTCATTTCTCTGGAAGAATTTCCAAAATTCTGGATTTCTTTTTTATTTTGGAGTATTTCATCAGCTGAAAAGTGATTCT
Y
ACTTTGAGTTTTCTTCCTATATTTGTATAGTGAGTTCCTTTTTCCTTCCTCTTTATCCCTCCTGTTTTACTTTATACCTCTCTATTCCTTGCTCAAATTA
Celera SNP ID:            hCV1845318
SNP Position Genomic:     73446
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:54195):
ATCTCTTTAAAAAAAAAAAAAAAAAAAAAAAGCTGGCAGCCAAGATGGCCAAATAGGAACAGCTCCGGTCTACAGCTCCCAGCATGAGCAACGCAGAAGA
Y
GGGTGATTTCTGCATTTTCCATCTGAGGTACTGGGTTCATCTCACTAGGGAGTGCCAGACAGTGGGCACAGGACAGTGGGTGCAGCGCACCGTGCGCAAG
Celera SNP ID:            hCV27118819
SNP Position Genomic:     64964
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54196):
CTCTATAGAAAGTCCTCTGTGATCTGACTCCTGCAGACTCTTCCAGATTTTTCTGCCCAAGGCCTTTACTGAGCTCAGGACTCCAGCTAAATCAAAATAC
K
CATGTTCTCACCCAGAGTGACAAAATCCTGCAGATAGGTTTAAGACCTAGTGGATCAGAGCAGTAGCTACTGGGAAGTTAAAAGGAAGGGGCTTAGAAAA
Celera SNP ID:            hCV1845319
SNP Position Genomic:     73657
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,9)   total(G,2|T,9) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:54197):
AAACTGCATCTGAACTGAGAAAACCATAACTACCTGGTGAGAAGTCTTCCTCAGGGCCTCCTTGAGTGCAGTGACTCCTCCTGGTCCTGCCTCCTACCTA
M
TAAGTTGTTACAGGAGATACTTTTGTAGGGCATATGAGGTTTTGAAGCCAGGGTCATTCTTTTGTCTGTATGATGTGGATCTCAACTCTTTTTTTTTTTT
Celera SNP ID:            hCV15839768
SNP Position Genomic:     71395
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,10)      total(A,2|C,10) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54198):
AGTCTCCTTTATGAGCTTATTTCCATACAGCCATAGTTTTGTTCCTTTGTACCTTATATGCAAAGGGTGTATACAAGAACCAAAGTTTGTCAGAAGTCAT
M
TTTGTGGTGCTGCGTATGATGGCCAGGTTACTTTTCCTGCATTTGGGCACTGAGGGTGTTCTTGTTTTTTTTGTTTGTTTGTTTTCTTTGTTTTGTTTTG
Celera SNP ID:            hCV15875333
SNP Position Genomic:     43527
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,177|C,1132)   total(A,177|C,1132) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54199):
TACTTATCCTCTTAGCAAGCTTAAATGCAGAATCAGACCTGTCTTGCCGCTCTGCTGAGTGATCACTTAAATAGACATACTTGGAACCAACAGAGGTTGC
R
CGCACGTGAGGACTCATTCTCCAGGCTGCTGTGTGGACTGGCCAGCTCTTTCGTTCTTGCCCAGACATCATCTCATTTGGCTTTAATAGTGTCTAAGGGC
Celera SNP ID:            hCV3083920
SNP Position Genomic:     42503
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54200):
ATCCTCTTAGCAAGCTTAAATGCAGAATCAGACCTGTCTTGCCGCTCTGCTGAGTGATCACTTAAATAGACATACTTGGAACCAACAGAGGTTGCACGCA
Y
GTGAGGACTCATTCTCCAGGCTGCTGTGTGGACTGGCCAGCTCTTTCGTTCTTGCCCAGACATCATCTCATTTGGCTTTAATAGTGTCTAAGGGCAATAA
Celera SNP ID:            hCV3083921
SNP Position Genomic:     42508
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54201):
TAGGTACTGATATGATTCCCACTTCACAACCGAGGAAACCAAATCTTGCAGTGGTTAAATAACTTGGTCAGGGCTGGCAGAGCTGGGATCTGAACCAAGC
S
AGTCTGGCTCCAGATGCTGGATTCTCAACCACTGGCTGAACCTGCTTTTTTTAAGGAACAATCGCCCTCTTGATGTTTATAGACACCATCAGACATGATA
Celera SNP ID:            hCV3083922
SNP Position Genomic:     42833
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|C,8)      total(G,6|C,8) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54202):
AGCAACGCAGAAGATGGGTGATTTCTGCATTTTCCATCTGAGGTACTGGGTTCATCTCACTAGGGAGTGCCAGACAGTGGGCACAGGACAGTGGGTGCAG
Y
GCACCGTGCGCAAGCCGAAGCAGGGCGAGGCATTGCCTCACTCGAGAAGTGCAAGGGGTCAGGGAGTTCCCTTTCCTAGTCAAAGAAAGGGGTGACAGAT
Celera SNP ID:            hCV27118820
SNP Position Genomic:     65050
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54203):
GGTGACAGATGGCACCTGGAAAATCGGGTCACTCTCACCCTAATACTGCGCTTTTCCGACAGGCTTAAAAAACGGCGCACCAGGAGATTATATCCCGCAC
M
TGGCTCAGAGGGTCCTACGCCCACGGAGTCTTGCTGATTGCTAGCACAGCAGTCTGAGATCAAACTGCAAGGCGGCAGCCAGGCTGGGGGAGGGGCGCCT
Celera SNP ID:            hCV27118821
SNP Position Genomic:     65241
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54204):
GCCCAAGGCCTTTACTGAGCTCAGGACTCCAGCTAAATCAAAATACTCATGTTCTCACCCAGAGTGACAAAATCCTGCAGATAGGTTTAAGACCTAGTGG
M
TCAGAGCAGTAGCTACTGGGAAGTTAAAAGGAAGGGGCTTAGAAAATGAATGGGACCAAAGGCATCACTTCTGATGGAGATGAAGCCATCTTGAAAGTGA
Celera SNP ID:            hCV1845320
SNP Position Genomic:     73711
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,9)   total(A,9|C,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:54205):
GCAGTGTTAAATATCCCTGTCTGACAGCTTTGAAGAGAGCAGTGGTTCTCCCAGCACACCTCTGGAGATCTGAGAATGGGCAGACTGCCTCCTCAAGTGG
K
TCCCTGACCCCTGACCCCCGAGCAGCCTACCTGGGAGGCACCCCCCAGTAGGGGCAGATTGACAGCCCACACGGCCGGGTACTCCTCTGAGACAAAACTT
Celera SNP ID:            hCV27118822
SNP Position Genomic:     65591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54206):
GTGAGTGGTGTCCTTTGGAGGCATGGTGGATGAAAGGCGCAAAGGAAGCAAGAGGTTAAAGATAATGGCCCATTAGATACAACAGCAAGCCCAAGATTCC
R
AAGAAGACAGACAACTCCCCCTAGTACCACCTAGACATTACTTTTTAAAGACATTTTACATTATTGTCCAGCAGAAAAAGGCTGTCTTGGACCATGAAAC
Celera SNP ID:            hCV1845321
SNP Position Genomic:     73908
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:54207):
AGATGAATGTATAACTAGAATAACCAATACAGAGAAGTGCTTAAAGGAGCTGATGGAGCTGAAAGCCAAGGCTCGAGAACTATGTGAAGAATGCAGAAGC
Y
TCAGGAGCCGATGCGATCAGCTGGAAGAAAGGGTATCAGTGATGGAAGATGAAATGAATGAAATGAAGTGAGAAGGGAAGTTTAGAGAAAAAAGAATAAA
Celera SNP ID:            hCV27118823
SNP Position Genomic:     66244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54208):
AGTCTCTGATAAAACAGACTTTAAACCAACAAAGATCAAAAGAGACAAAGAAGGCCATTACATAATGGTAAAGGGATCAGTTCAACAAGAAGAGCTAACT
R
TCCTAAATATATATGCACCCAATACAGGAGCACCCAGATTCATAAAGCAAGTCCTGAGTGACCTACAAAGAGACTTAGACTCCCACACAATAATAATGGG
Celera SNP ID:            hCV27118824
SNP Position Genomic:     67336
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54209):
GGGCTTAAAATGTTAAAATATTTCTAAAGAGGACTATTTTGGGACTCTACAGTGTACCTCTTTAATGAGAACACCCACAGTTTAGGCCTATTAAGGCATA
M
TTCCTTTATTTTACTAAAGAATTAAAATAATAAAGATTTGATAATTTTCTTTCTTTTTTTTTTTTATTGATCATTCTTGGGTGTTTCTCGCAGAGGGGGA
Celera SNP ID:            hCV3083928
SNP Position Genomic:     48446
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,6)      total(A,1|C,6) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54210):
AATCAACAGAATATACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATACTTGGAAGTAAAGCTCTCCTCAGCAAACGTAAAAGAAC
R
GAAATTATAACAAACTGTCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAAACTCACTCAAAACCGCTCAGCTGCATGGAAACTGAACA
Celera SNP ID:            hCV27118825
SNP Position Genomic:     67665
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54211):
CTCCTCAGCAAACGTAAAAGAACGGAAATTATAACAAACTGTCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAAACTCACTCAAAACC
R
CTCAGCTGCATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGGTACATAACGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAACAAGAAC
Celera SNP ID:            hCV27118826
SNP Position Genomic:     67742
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54212):
GAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATAAGGCCAGCAGCATCCTGATACCAAAGCCGGGCAGAGACAGAAACAAA
R
AAGAGAATTTTAGACCAATATCCTTGATGAGCATTGATGCAAAAACCCTCAATAAAATACTGGCAAACCAAATCCAGCAGCACATCCAAAAGCTTATCCA
Celera SNP ID:            hCV27118827
SNP Position Genomic:     68584
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54213):
ACCCACAGCCAATATCATACTGAATGGGCAAAAACTAGAAGCATTCCCCTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAAC
R
TAGTGTTGGAAGTTCTGGCCAGGGCAATTAGGCAGGAGAAGGAAATAAAGGGTACTCAGTTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGATGA
Celera SNP ID:            hCV27118828
SNP Position Genomic:     69013
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,9)   total(G,6|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54214):
AATCAATATCACGAAAATGGCCATACTGCCCAAGGTAATTTATAGATTCAATGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAT
R
CTACTTTAAAGTTCATATGGAACCAAAAAAGAGCCCGCATCGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCATGCTACCTGACTTCAA
Celera SNP ID:            hCV27118829
SNP Position Genomic:     69528
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54215):
GACAAGGGGGCCAACAGGCCACCCTGGGGAGGTTAAATCTCCTGTGAGCGGTGGCCTATGCTCAGCCAAGGTCAGCTTTCTTGAGGAGGTAGTGCTGCAA
R
CCATTAGTAGCCAGTACTCACAGCAGCTGGGGCAGGATGCACAATGGTCCAGTGAGGGGGATCTGGGTCGGCATCAGTGGCATCTACTACAATATCTCTG
Celera SNP ID:            hCV16085579
SNP Position Genomic:     55977
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54216):
GTCAGGCAGGAATACACCCAGGCTGGAGTACAGTGGTGTGATCACGGCTCATTGCAGCCTTGAATTCCTGGGCTCAAGCAATCCTCCCACTTCAACCTCC
Y
GAGTAGCTGGGACCACAGGCATGCATCACCGTTTCCAGCTAATTTTTGTATTTTTTGTAGGGACAGAATCTTTGTTGTCCAGGTTGGTCTCAAATTCCTG
Celera SNP ID:            hCV3083931
SNP Position Genomic:     50148
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54217):
CCTTATACAAAAATCAATTCAAGATGGATTAAAGACTTAAATGTTAGACCTAAAACCATAAAAACCCTAGAGGAAAACCTAGGCATTACCATTCAGGACA
K
AGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAGAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACA
Celera SNP ID:            hCV27118830
SNP Position Genomic:     69964
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54218):
CATGGCACCTGACCTGCACTCCTGTTTCTACTTCATGGGTTTATTGGTCTTGTTCTTGGGGCAGAAAAACTGTTGTATTATTGTGGCTTTGTAGTATGTC
W
GTATTAGTTGGCTAGGGCTGCCATAAGAATGTGCCACAGAATGGGTGGCTTAAGCAACAGAAATTTATTTTCTCACAGTTCTGGAGGCTAAAAGTCTGCG
Celera SNP ID:            hCV3083932
SNP Position Genomic:     53032
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,9)      total(A,2|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54219):
GGGACTCAGGGCAGTGCAGAGGAAGAAGGATAAGTGAGGATATGGTCTTGTCTGGAGTCTACTTCAGCTCCATCCTGGTGGGGAGGTGGGGCTCTGGAAC
R
TGAATTATACCACAGAGCTGATTTTACCTTGGGACAAGGGGGCCAACAGGCCACCCTGGGGAGGTTAAATCTCCTGTGAGCGGTGGCCTATGCTCAGCCA
Celera SNP ID:            hCV3083933
SNP Position Genomic:     55844
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;JBIC-allele(A,663|G,840)   total(G,840|A,663)
SNP Type:                 INTRON


Context             (SEQ ID NO:54220):
CTCAAACAAATTTACAAGAAAAAAACAACCCCATCAAAAAGTGGGTGAAGGACATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAGACA
Y
ATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGT
Celera SNP ID:            hCV27118831
SNP Position Genomic:     70270
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54221):
TCCCCCAAGTTCTTTCCATGTGAACTCCTCTTAGTACAGGTCCTCCATTTGAAATGTATGCAATTTATTTGTGAACCTAAATGGGAAACTTCACCATTAT
S
CCCATGAAACATGCTCTTGTTAGCTTGGGTTTGTTTGGGCTTGTTAATGTTAGTCTAATACCCAGCTGTCTCCAGCCCTAGGTCAGTGCCATTTGCTAAA
Celera SNP ID:            hCV3083934
SNP Position Genomic:     56191
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;(C,-|G,-)   JBIC-allele(C,408|G,883)   total(G,883|C,408)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54222):
AGAAAAAAACAACCCCATCAAAAAGTGGGTGAAGGACATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAGACATATGAAAAAATGCTCA
Y
CATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTG
Celera SNP ID:            hCV27118832
SNP Position Genomic:     70286
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54223):
CATTTTTCTAGCTCCCAGCAGGTGAGAACCAACCCATACTCTCTGTTCCTTTATTCTTTGCTTAAAGTGGAGAAAAAGAGGCTGGGTCCTAACTGAATGA
K
GTCTGGTCAGAGTTAAGGTCAGCACAGGGACATGGGAAAAGAACACAGGGCATGGTTGAGAGCACGTGGGCATGAGTCTGGACAGCTAGAGGGCAGGAGA
Celera SNP ID:            hCV3083935
SNP Position Genomic:     56889
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54224):
AATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACAC
K
GTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGTGATTCCTCAAGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATT
Celera SNP ID:            hCV27118833
SNP Position Genomic:     70424
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54225):
TGGTCCTGCCTCCTACCTACTAAGTTGTTACAGGAGATACTTTTGTAGGGCATATGAGGTTTTGAAGCCAGGGTCATTCTTTTGTCTGTATGATGTGGAT
C
TCAACTCTTTTTTTTTTTTTTCTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCCCCGG
Celera SNP ID:            hCV27118834
SNP Position Genomic:     71476
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,10)   total(C,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54226):
GGAGATATCTTCTCCCCATCTGGGTCTGGGGATGACTGTCTTGTGTAGCCAGTCTGCGAGTATGAGTGGAGATGGAACCAGAGTCTTTTGATTAGTTTCT
Y
TGCTGTCCACCCCACCACCATTCCAGTCCCTCATCCATTCTGCTCTGAGCTGGGATTTTCTAGCATTTGGTTAGGAAAACTGGTCCTCACATCTTCAGAG
Celera SNP ID:            hCV3083937
SNP Position Genomic:     59447
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54227):
CCTCCTACCTACTAAGTTGTTACAGGAGATACTTTTGTAGGGCATATGAGGTTTTGAAGCCAGGGTCATTCTTTTGTCTGTATGATGTGGATCTCAACTC
T
TTTTTTTTTTTTTCTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCCCCGGCTCCCAGG
Celera SNP ID:            hCV27118835
SNP Position Genomic:     71484
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,7)   total(-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54228):
GGTGGAACAGATGTGCCCTTTTCAGAGGTTGTGAAGTTAGCTCCAAATCCCAGACTAGCTGCTACCCCAAGCCCGGGAGCTTCTCAGGTGAGAGACCATC
R
GAATTTGTTTGTAGCATTTGCATTATGAAAGCCCGCTAGGGTTTTTTCCCCCACCAAAAGGTCACCTACATTGAACGTGATGTGCTCAACTAAAGGAGAA
Celera SNP ID:            hCV3083938
SNP Position Genomic:     60498
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;(A,-|G,-)   JBIC-allele(A,447|G,804)   total(G,804|A,447)    
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:54229):
TTAAAAAATCTTAAACTGTAGGTTTGAGAACTGCTAGCATTTCCTCTTTTGTGAATTGATGCTTTCTTTCGCCCAGAAAAAAAGTTAAATTGCAAGTAAA
C
GGGATTTAAAAATTTTAAATTGCAAAGTGCAACCAGATGTAAGAGGCATTTTCCCCCTCTGTTCTAAACTGCTTTTTCTGCCCTTCTAGGTCTACGAGGC
Celera SNP ID:            hCV27118836
SNP Position Genomic:     72344
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,14)   total(C,1|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54230):
TCATCCATGTTAATGTGCATAGATAGCTATTAGCTGTTAATTTTCATTGTACTGTGATATTCCATCACATGATTATACAACCATTTATCCATTTGCTATG
R
CCTGACTGTGTCTCCCCAAATTCACATGTTAAAAACTTAATCCCCAATGTGACAGTGTTGGGAGATGGGCCTGATGGAAGGTGTTTAGGTCATGAGGGCT
Celera SNP ID:            hCV8823803
SNP Position Genomic:     51109
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54231):
GTCTGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTTTCTACTAAAAATACAAAAAAATTAGCTGGACGTGGTGGCAGGCATGGTGACAGGC
M
CCGTGTATGCTGCACGCCTGTAATCCTAGCTAGCTGGGAGGCTGAGGCAGGAGAATTGCTTGAACTGTGGAGAGGGAGGTTTCGGTGAGCCAAGATCGCG
Celera SNP ID:            hCV15905132
SNP Position Genomic:     10279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54232):
AAGGACATGAGTCATACTGGATTAAGGCCCATTCTAATGACTTCATTTTAACTTAATTGCCTTTTTAAAGGCCCTGTCTCCAAATAATCACAATCCAAGG
M
CCTCGGGGTTAGGATTTCAGCATATGAGTTTTAGGGGCAGAGGGGGCACAATTCAGTCCGTAACACTGTGGACTTGCTGGTTTTGAGGCACCCTCGTGAG
Celera SNP ID:            hCV15905133
SNP Position Genomic:     9242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54233):
GTGTATGCTGCACGCCTGTAATCCTAGCTAGCTGGGAGGCTGAGGCAGGAGAATTGCTTGAACTGTGGAGAGGGAGGTTTCGGTGAGCCAAGATCGCGCC
M
CTGCACTCCAGCCTGGACAACAGAGGGAGAGCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAGTCTGGAAGTGTGTTGTTTAATCTCCAGA
Celera SNP ID:            hCV16051435
SNP Position Genomic:     10382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54234):
CATCTCCCAACCTCGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCACACCTGGCCAAGTTGTCGCTATTATTGCCAC
R
CACAGATATTTATGTCATTGAATTTCCCAGTCTCTTTTATTGCTTCTAGATTTTGAGTCATAGTTCAAAAGGCCTTCCTCACTCCAAAATTATGAAGGAA
Celera SNP ID:            hCV16051436
SNP Position Genomic:     12304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54235):
AAGGGTGGGGCTGTAAGGCTGTCCTTGGCTTCTGCTCTGAGCAGAACATCAGGCCATAGCTATGTCTTCTGTCCCCACCAAGCCCCTGGTGACAGCATCA
R
AGAGGGCAGCCTCTACCCTGGTGCATCCCCGTTCACAGCCTCTGCCCCAGGCACAAGGAAAAGTCCCCAGTGTCTGGGCAGGCCTGAGCAGGGAGGGTCT
Celera SNP ID:            hCV15867337
SNP Position Genomic:     36068
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(A,322|G,1149)   total(G,1149|A,322)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54236):
CCTCTGAGGAATGGCTCACCACAGTAGAACCTCTGTGTCCTTTTCAGGTGCTTGCAGATGTGTTTGATGCCCCGGTGTATGTTATAGACACTGCCAACTC
S
GCCTGTGTGGGTTCTGCATACCGAGCTTTTCATGGTAGGTTGATGGAGGGAGACAGCTATCTCTGGAAGTGGCCAGGACATGGGGTGGGCTGAGGAGGGT
Celera SNP ID:            hCV11928480
SNP Position Genomic:     56625
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;(C,-|G,-)   Caucasian, from CEPH families, part 1 - WICGR(G,170)   total(G,170)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54237):
CATTTGCTAAACATACTTCCTAAATCTTCTGCCTTGTCTTTGGTGAAATGGCTAAAAAGTACAGGGACAGCCTGGGGAGCTGTGGCTCTCCACTACGGAC
Y
TCCCCCAGCTCATCCTGACTCTATTATCACCAGGGTAGCATGACCAAGCATACTCCTCTTAAGGCAGTCGAGGTGGAATGGAAGGGGTCAGAAGACATAT
Celera SNP ID:            hCV11928481
SNP Position Genomic:     56381
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;(C,-|T,-)   Caucasian, from CEPH families, part 1 - WICGR(T,72|C,112)   total(C,112|T,72)   JBIC-allele(C,453|T,1012)   total(C,453|T,1012) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54238):
TCTTCTCTTCCTCCTCCTCTCCTCTGGGTAGCCCTGAAGCCACTCCTGGAGGGGCCCTTGGATCTCTGAAGGAAGGCCAGGTGGGCTACACTGAATAACA
M
CCTAACTACTACCCCTCAACCTCACCCCCACCCCAGGAAAAGTAAGTCTTTTTCTAACGATCCACCAGATTAGGGTTACATTTAACAGTAACTAGAAAGG
Celera SNP ID:            hCV15867338
SNP Position Genomic:     32854
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,312|A,1153)   total(A,1153|C,312) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54239):
TCTGGACAGAGCCAAGGGGCTGGATGGAAAGCAGCAGGTCTTAAAAACAACTATTTGTTTTAAAATACATAACGAATGGATGTCTTTTTATCACAAAAGA
K
TCATGCAAAACAGAAATATGGAATAAGAAGCAAATGCCCCCTTCATATGCCTCCCAGACTCCTTTCCAGACTGTGACTTCCTTCCTGTGAGTTTCTGTGT
Celera SNP ID:            hCV8823813
SNP Position Genomic:     44182
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,10)      total(G,5|T,10) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54240):
GTGGACTTTACCCTGTGACCGCCCTTCGTTGACACCAGCTTGCCTGGTCTGTGCACCCAGGACTGCTGGCCAGAGGAGCAGTGTGCTGCTGCCAACGCCC
Y
GCAGACAGGCAAGCAAATCAAAATTTGCCTTCAAAGAGGGCATGGGGTGACCGGGGGCACCTTTTCCTTTAAAGTACTTGGGAAATATACACAGTTGCAG
Celera SNP ID:            hCV27118779
SNP Position Genomic:     7067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54241):
GTGGCCCAGTGCCCATTAATAGTAGACAGAAAAAATGCATTGTGGTGCATTTGTACAACAGGATACTACACACAAATGAAAATGAACCAGCCTCAGTGAT
M
CACAATGAAATGGGTGAATCTCACCAAATGTAACACTGAGCAAAAGAGGCCAAACATGGACATACATATGGCAGGGGTCTCTGTACATCAAATTCAAAAG
Celera SNP ID:            hCV8823817
SNP Position Genomic:     40431
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54242):
TGGTGGCCCTTGCTCCCCAGAGCCTGCTGTCTAGGAGGGAGAGGGACAGTAGACGACTGAATGAGCACGTACATGAATGCAGCAGGTGCTAAGGCTAGGT
K
GCAGAAGAACAGAGTGCCGCAAAGGAAAGCAGCTGGTGGGCGGGTTGGAGACTTACCCTGGGTGGGGTGATCAAGCCTGGGCGTCTCTGAGAAGGTGGCC
Celera SNP ID:            hCV8823818
SNP Position Genomic:     38014
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54243):
CAGGGAAGCACTGTAGCGCACACACACACACACACACACACACACACACACACACACACTCTGCACACACCCTTATTTGTTCACTCACCCACAGGCATAC
M
CATGCAGGGTCTTCAGTTTAGCCTAAGATGTAAGTCAGTGTCTGGATCAGTGCCTTGCACACAGTAGGTGCTCAGGTACATGCCTTATGGTCAGCGGGAC
Celera SNP ID:            hCV904500
SNP Position Genomic:     29864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54244):
ATTAGAATAGGGATAAAAATGGCAGGTGATTGCATAGCTAAAGAAAAAGTGCACAGAGTGCTGAAATTCTAGGGACTACTGATGAAGCTTGAAGGAGGCA
S
CCTTGGGGAAAATAGAAATACCAGCGGGGCTGGCACAGCACAGGCCCTGGCACTGGACAGCATGGGACTGAATTCTGGTTCTATCAGCTTTGTGACTTTG
Celera SNP ID:            hCV904501
SNP Position Genomic:     30089
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54245):
GAGCTGGAGACCAGCCTGGGCAAACATGAGACCTCATCTCTTTAAAAAAAAAAAAAAAAAAAAAAAGCTGGCAGCCAAGATGGCCAAATAGGAACAGCTC
S
GGTCTACAGCTCCCAGCATGAGCAACGCAGAAGATGGGTGATTTCTGCATTTTCCATCTGAGGTACTGGGTTCATCTCACTAGGGAGTGCCAGACAGTGG
Celera SNP ID:            hCV9735347
SNP Position Genomic:     64929
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54246):
GGCTCTGGAACATGAATTATACCACAGAGCTGATTTTACCTTGGGACAAGGGGGCCAACAGGCCACCCTGGGGAGGTTAAATCTCCTGTGAGCGGTGGCC
Y
ATGCTCAGCCAAGGTCAGCTTTCTTGAGGAGGTAGTGCTGCAAGCCATTAGTAGCCAGTACTCACAGCAGCTGGGGCAGGATGCACAATGGTCCAGTGAG
Celera SNP ID:            hCV15861021
SNP Position Genomic:     55933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54247):
TTGCTCTTTTTTCCCTAGTTTCCTCAAGTGGAAACTTAGAGGATTGATTTAAGACCTTCTTTTCTAATATATGCATTTAATGCTATAAATTTCTCTGTAA
R
CACAAATGCTTTTTATGGGATGCCTTAGCAGCATCCCATACATTTTGATAAGTTATAGTTTCATTTTTTTCGTTCAAAATATTTTTTAGTTCTCTTGAGA
Celera SNP ID:            hCV16051512
SNP Position Genomic:     9971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54248):
TTTTGTAGCTTCTTTAAAATTTCTACATTACAAAATAAATATTTCATTCTTAAAAATGTATGTGCATACCATTTTTAATGACTGTATAATATTCTATCTG
R
GTAGACCAGGCACGGTGGCTCATACCTATAATCCCAGCACTTTGGGAGGCTGAGGCGGGAGGATCACTTGAGGCCAGGAGCTGGAGACCAGCCTGGGCAA
Celera SNP ID:            hCV9735348
SNP Position Genomic:     64751
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54249):
CTGGTTCTATCAGCTTTGTGACTTTGTGTCTCGGTTTCCTCATCTGGAACAAGGGGAATGATGCTATTCATCTTACAGGGCTGTTGTGCAAATTAGATGA
R
TTAATACTTTTAAAGCACTTAAAAAATAGTGCCTGGTCCCACAGGTAATGGGAAAAACATTTACCCATCACAGCGGCCCCACCCATTTGCAGTGGACACT
Celera SNP ID:            hCV904503
SNP Position Genomic:     30264
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54250):
GATTGGTCTCCTCTGGGACCTCTCTCCTTGGCTTGCAGGTGACCACTCTCTTGCTGTGTCTTCACATGGTGGTCACTCGGTGCAGGAGTGCTTGGTGTCT
S
TGTCATCTGTATCCTAATCTTCTTATAAGGACATGAGTCATACTGGATTAAGGCCCATTCTAATGACTTCATTTTAACTTAATTGCCTTTTTAAAGGCCC
Celera SNP ID:            hCV15905143
SNP Position Genomic:     9115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54251):
CTCGGTTTCCTCATCTGGAACAAGGGGAATGATGCTATTCATCTTACAGGGCTGTTGTGCAAATTAGATGAGTTAATACTTTTAAAGCACTTAAAAAATA
R
TGCCTGGTCCCACAGGTAATGGGAAAAACATTTACCCATCACAGCGGCCCCACCCATTTGCAGTGGACACTGGCTGTGAATGCCCTGGGGTGTTCTACTT
Celera SNP ID:            hCV904504
SNP Position Genomic:     30293
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54252):
TCAAGGGAGGCAGGCCTCTGGCCAGTCCTTGGGGGAACGTCCTGTGGGACTCTGGATGACTCGAGTTGCCTTGCTGGACCTCAGTTTTCCCATCTGTCCA
R
GAAAGGAGTTATACTCCCAAGCTTGGAGATTGCTTCAGTGGGACATTAATGTCTCTGGACCACAATCATGGCCTGTGAGAATAGCCCATGGCCTTGCCTG
Celera SNP ID:            hCV15905144
SNP Position Genomic:     7291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54253):
CTGGAACAAGGGGAATGATGCTATTCATCTTACAGGGCTGTTGTGCAAATTAGATGAGTTAATACTTTTAAAGCACTTAAAAAATAGTGCCTGGTCCCAC
M
GGTAATGGGAAAAACATTTACCCATCACAGCGGCCCCACCCATTTGCAGTGGACACTGGCTGTGAATGCCCTGGGGTGTTCTACTTGGCCAGCCCTGTTC
Celera SNP ID:            hCV904505
SNP Position Genomic:     30307
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54254):
AACAAGGGGAATGATGCTATTCATCTTACAGGGCTGTTGTGCAAATTAGATGAGTTAATACTTTTAAAGCACTTAAAAAATAGTGCCTGGTCCCACAGGT
W
ATGGGAAAAACATTTACCCATCACAGCGGCCCCACCCATTTGCAGTGGACACTGGCTGTGAATGCCCTGGGGTGTTCTACTTGGCCAGCCCTGTTCTCCA
Celera SNP ID:            hCV904506
SNP Position Genomic:     30311
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54255):
AATACTTTTAAAGCACTTAAAAAATAGTGCCTGGTCCCACAGGTAATGGGAAAAACATTTACCCATCACAGCGGCCCCACCCATTTGCAGTGGACACTGG
Y
TGTGAATGCCCTGGGGTGTTCTACTTGGCCAGCCCTGTTCTCCATTGTCCTGTGGGGACAGTGGAGTAGAGAGAGAGAGAAAAAGATCTGGGTGCTGCCC
Celera SNP ID:            hCV904507
SNP Position Genomic:     30367
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54256):
ACAGAGGTTGGTTAAATGTTCCTGTTTGATTGAAAGTCACAGTTGAATTCTTTTCATAATATGTTAGAATAGATACATCTTACGTGCAGTGACTGAAAAC
R
TTGATAAGCAGACATTAACAAATGATATATTTGATTTGCTTTTTTCTCATTGTCAGGACATTTCCAAAGAGGAGGGAAAGAATGGAATGTGGGAAAGAGA
Celera SNP ID:            hCV16051444
SNP Position Genomic:     26510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54257):
CGTGGCCTGAAGGGTGGGTGGCTGTGCTGGGCAGGCGGGATTTACCTCAACAGAGCACCTTTGCTTTGTCCCCGTCCCTCAGGGAGCCATTTCTTCCTAC
W
ACGTCCAGCGCTACGGATTTCCTCCAGGATGCAAAGTGGTGGCCTTCACTGGGGACAACCCAGGTGAGTATCTCGGGGAGTTTCACTCTCCAGTGAGCCT
Celera SNP ID:            hCV904508
SNP Position Genomic:     32227
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54258):
CCTAGGGTGTGGGTGGGGGTTGGAGGTGGGGGCTCTGCGCCTGCCTGGAGAGCCCTGTGGTTTGCTTTGTGGTTCCCATGTGGCCGCCAGCTAACCAGAA
K
CTCCCCTCCCATTCTCAGCGTCGCTGGCAGGCATGAGACTGGAGGAAGGTGACATTGCGGTAAGGCGACTTCCCACACCCATAGGCTCTTTCTGTTTCCA
Celera SNP ID:            hCV904509
SNP Position Genomic:     33997
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:54259):
ATAGGCCATGGTATAGAGTTTGTCTTTATTCTAAAAGCTATGGTCAGCCACTAAGGGCCATAAGGGGTAGGGGTATGGGTGAGGTATGAATGACAGGTTG
Y
ATTTTTGTTTTGAAAATATCTCTCTGGGGGCATTGGGAGAACAGATTCGGAGCATTGCTGGAATGGACGTGGGGAACTATTAAAGAGGTTTTTGCTGGTC
Celera SNP ID:            hCV27118780
SNP Position Genomic:     8644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54260):
CACGAGGTCAGGAGATCGAGACCATCCTGGCTAATGCAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTTAGCCAGGCTTGGTGCCGGGCGCCTGTA
R
TCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATGGGGTGAACCTGGGAGGCAGAGTTTGTAGTGAGCCGAGATAATGCCACTGCACTCCAGCCTGGGTGA
Celera SNP ID:            hCV27118781
SNP Position Genomic:     15384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54261):
GATCGAGACCATCCTGGCTAATGCAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTTAGCCAGGCTTGGTGCCGGGCGCCTGTAGTCCCAGCTGCTC
R
GGAGGCTGAGGCAGGAGAATGGGGTGAACCTGGGAGGCAGAGTTTGTAGTGAGCCGAGATAATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTC
Celera SNP ID:            hCV27118782
SNP Position Genomic:     15397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54262):
GGCTAATGCAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTTAGCCAGGCTTGGTGCCGGGCGCCTGTAGTCCCAGCTGCTCGGGAGGCTGAGGCAG
R
AGAATGGGGTGAACCTGGGAGGCAGAGTTTGTAGTGAGCCGAGATAATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAA
Celera SNP ID:            hCV27118783
SNP Position Genomic:     15412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54263):
TTTCATTTCTATTGGGTATATTACCTAAAAGTGGAATTGCGGGGTCACATGGTAACTCTGTGTTCAACATTTTGAAGAATTGCCAAACTGTTTTCCAAAG
K
GGCTGTACTATTTTCCATTCCCACCAGTGGTAGATGGTGCCTCTAGTTTCTCTACATCCTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGG
Celera SNP ID:            hCV27118784
SNP Position Genomic:     16583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54264):
TTCAGGTGCTCTAGAACAATTTAAATAGTATTAGAAATATTTGCTATTTAAAGGTTTGGTCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGT
Y
AGGAGATCGAGACCATCCTGGCTAACAAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCT
Celera SNP ID:            hCV27118785
SNP Position Genomic:     17506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54265):
GACCATCCTGGCTAACAAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGG
Y
TGAGGCAGGAGAATGGCGTGAACCCGGGAAGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGACCGACCTGGGCGACAGAGCAAGACT
Celera SNP ID:            hCV27118786
SNP Position Genomic:     17617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54266):
TCTCCCAAGTAGCTGGGATTACAGGTGCCCTCCACCATGCCTGGCTAATTTTTGTATTTTTGTAGAGATGGGGTTTCACCATATTGGCCAGGTTGGTCTT
K
AACTCCCGACTTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGCACTGGGATTATAGGTATGAGCCACCGTGCCCAGCTGAAATGCCAGTTTTAAGTTGT
Celera SNP ID:            hCV27118787
SNP Position Genomic:     18110
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54267):
AACATCTGCAGTCAGGCCCTGTGGCCTCCCTTGTACCATGAAATATACAAACATAGACTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAG
R
CCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGT
Celera SNP ID:            hCV27118788
SNP Position Genomic:     20343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54268):
TTGTACCATGAAATATACAAACATAGACTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACCGAGGCAGGTGGATCACCTGAGGTCAGG
R
GTTCAAGACCAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCCCATGCTTGTAATCCCAGCTACTC
Celera SNP ID:            hCV27118789
SNP Position Genomic:     20373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54269):
TTGCTTACTGGTGTCCTGTTACCTTTTTTTTTTTAATGCTATATCCAGAATTTGGAGCTTATAAAGCAAGCACAAGTTAGGGGTTGGTTTGTTCTCTCTA
Y
CTTAAATCTCAAGATCAGCAGTTTTTGAAATGACCTCATGCTCGTGGTTTCCAAACCTGCACTGGACTTCTCTGGCGATTTGTGAACAGGAGGGACATGC
Celera SNP ID:            hCV8823825
SNP Position Genomic:     31943
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54270):
GGCTTTTAGTTGGATGTGAAATTCAGAGCAGGCTTTGTTTGCCTTATGCGAGAACACATGCCTCCAAGAAGGAGCCTGTGCAGACAAGCAGCTTGAGGAT
Y
GGGAAAGAACTGACTCTGAAAAGGCATTTTCATTTGTCACGTAGGTGTCACATGTGGGGGAACCACTCAAGACCCATGTTTTTCGTCATCCCTCTTTTTG
Celera SNP ID:            hCV8823826
SNP Position Genomic:     31590
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54271):
GCTCCTAAGCCCTAAGAACCATTGGAGAATGTGGCTAGTTAATCTAGCCCTCCCTGCCTCATTGTGCCCATGGTAGAATGTGCAGAAACCCAAGCTCCCT
S
TCTCTACCTGGGGCTCCTCTGCGTCAGCCTCCTGTGTAAACAGCCCAAGACAAGGGCGTTTCCGGCACCTCCCAGGGACATTCAGGGGCCTGAATCTGAG
Celera SNP ID:            hCV904510
SNP Position Genomic:     35408
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54272):
TGGAGAATGTGGCTAGTTAATCTAGCCCTCCCTGCCTCATTGTGCCCATGGTAGAATGTGCAGAAACCCAAGCTCCCTCTCTCTACCTGGGGCTCCTCTG
Y
GTCAGCCTCCTGTGTAAACAGCCCAAGACAAGGGCGTTTCCGGCACCTCCCAGGGACATTCAGGGGCCTGAATCTGAGGAAGAGCCTCCGATACCTAAGT
Celera SNP ID:            hCV904511
SNP Position Genomic:     35430
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54273):
AGGCTGCAATGAGCTGTGATTGCACCACTTCACTCTAGCCTGGGCGACAGAGCGAGACCATGTCTCAAAAAAATAAAGGAAAATGACTCATAATCCCATC
Y
CCTCTCTCCAACCACTGGTATCATTTAGGGACATTTTCTCCCAGTCTCCTTTATGAGCTTATTTCCATACAGCCATAGTTTTGTTCCTTTGTACCTTATA
Celera SNP ID:            hCV904512
SNP Position Genomic:     43384
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54274):
GGAGGTCTCTAGGTTGAACTGCTCCTAGGGTGTGGGGCCTCATCTGGTGACGTTAGTACCCCCTGGACCAGTGTAGAAGCTGAGGAAAATTCTACACTTC
M
TTTTTTAAAATGCCTTTCAGGTAAAGGTTGTTGCTGTTGATGCAGAGTTGAATGTCTTCTATGAGGAAAGTGTGCATTTTGACAGAGATCTTCCAGAATT
Celera SNP ID:            hCV16051522
SNP Position Genomic:     7780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:54275):
TATACAAGAACCAAAGTTTGTCAGAAGTCATCTTTGTGGTGCTGCGTATGATGGCCAGGTTACTTTTCCTGCATTTGGGCACTGAGGGTGTTCTTGTTTT
Y
TTTGTTTGTTTGTTTTCTTTGTTTTGTTTTGTTTTGTTTTTCTGGAGACAGGGTTTCACTCCTGTTGCCCAGACTGGAGTGCAGTGGTGTGATCTTGGCT
Celera SNP ID:            hCV904513
SNP Position Genomic:     43596
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54276):
GGGACAGAATCTTTGTTGTCCAGGTTGGTCTCAAATTCCTGAGCTCAAGCAATCCTCCTCCTGCCTTGGCCTACTGAAGTGCTAGGATTAGTAGGCATAA
K
CCACTATGCTCAGTCAGTTTATTGTGAAAAATATCATGTATACAGTAGAGTATATGTATCTTACAGCAAGTTATAAAACATATTAATCAAACATCTGATG
Celera SNP ID:            hCV904516
SNP Position Genomic:     50308
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54277):
TCTGTTTCCACACTCACACCCACACTCTGATAAGTAGCAGAGGTGCTGCTGAGACCCAGATCCCAGGGTCCCAGGGTCTGGGTCCCAGCAGGATCTCTGC
K
ACTTATCAGAGTGTCTGCCGGTTCCAAAAGACAGTGGAGGGAGGGGATGGGGGCGCACATCTTTCTCAGAAAGTCATTGTTCTTTGCTAGATGGGCAGGA
Celera SNP ID:            hCV15905156
SNP Position Genomic:     34188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54278):
GGTTAATTTCTTCTTAGGCCTCTTTCCTTAGCTTGTAGATGGTCACCTTCTTCCTGTGTCTCCACATGGTCTCCTCCTGTGTGTCCCTGTGTCTTCATTT
K
CTCTTCTCATAAGGACATCAGTCATACTGGATTAGGGCCCACCCCTAATGACTTTATTTTTAACTTAATTACCTCTTTAAAGAGGTAATATCTGTCTTTA
Celera SNP ID:            hCV904518
SNP Position Genomic:     53249
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54279):
CTTCAAATACACTCACATTCTGAGATACTGGGGTTTAGGACTTCCACATATAAATTTAGGGTAGACACACTTCAGCCCATAATAATGTTTTAATATGTAG
K
ATAGCAATTATCCCCTCCTTGCTTTTCTTTTTAAAATATTGTCTGAGCTGTTTATAGGTCTTCATTTTTCCACAAATATTTTATAAGAAATTGGTCTAGT
Celera SNP ID:            hCV904519
SNP Position Genomic:     53451
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54280):
CACTGGTCCCTGATGGATGGAGGGTGGTGTTGCTTCAGTGTTTGGGCAGTGCAGACGATGTTGAGATTCACATTCGGTCTCGTCTCTTTGTTGTTATAGG
W
TAAGTTCTCAAAGGTGGGATTCCTAGATCCAAGGCTTCTGACACACACACTGCTGATTGAACCTCAGTGGCAGTGTTTGAGTGCACCTGTTCCTCACTCC
Celera SNP ID:            hCV29355001
SNP Position Genomic:     33205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54281):
TCAAAATACTTTTCCTGAGAACTGTGAAGATACTCTTCCATAATCTTCTGGCCTTCAGGGTTGCTGATGAGAAGTATGGGGTCTGCTTCATAATTCTTTT
R
TGGAAGTGGGAAAGGAGTTTCCCTTTAGGGACTTCACTGCCATCCTGCACTGTGTTTTGTTTTATTCTTTTTCCCTTTCTGTGCTTGCCAAAGGGTACCT
Celera SNP ID:            hCV29355002
SNP Position Genomic:     59153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54282):
TGTCCACCCCACCACCATTCCAGTCCCTCATCCATTCTGCTCTGAGCTGGGATTTTCTAGCATTTGGTTAGGAAAACTGGTCCTCACATCTTCAGAGGGC
M
CTTCTTCACTCCTGGTGGTGGTGGTGTTTGTATATCTGACGCTACTACCTACCTTCCCTAGAAATTGCTCATTGTTTCTTGCCCACCAATGGCAACCTTC
Celera SNP ID:            hCV29355003
SNP Position Genomic:     59551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54283):
ACCTTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCCCATGCTTGTAATCCCAGCTACTCAGGAGGCTGAGGTAGGAGAATCACTTGAAC
Y
TGGGAGGTGGAGGTTGCAGTGAGCTGAGACCGCACCATTGCACTCCAGCCTGGATAACAAGAGTGAAACTCCATCTCAAAAAAAAAGAAAAAAAAGAAAT
Celera SNP ID:            hCV27118790
SNP Position Genomic:     20504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54284):
GCCGGGCGTGGTGGCCCATGCTTGTAATCCCAGCTACTCAGGAGGCTGAGGTAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGAC
Y
GCACCATTGCACTCCAGCCTGGATAACAAGAGTGAAACTCCATCTCAAAAAAAAAGAAAAAAAAGAAATACAAACATAGCCCTTAGGGTCTTAGTGCTCA
Celera SNP ID:            hCV27118791
SNP Position Genomic:     20535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54285):
TCTTGAACTCCTGAGCTCAAGTGATCCTCCTGCCTTGGCCTCCAAAAGTGCTGGGATTACAGGTGTGAGGTGATGGCATGCACCCGTAGTTCCAGCCACT
Y
GGGAGGCTGAGATGGAAGGATCACTTGGGCCTGGGAGGTTGAGGCTGCAGTGAGCTGAGATTGCACCACTCCATTTCAGTCTGGGAACCAGAGCGAGACC
Celera SNP ID:            hCV27118792
SNP Position Genomic:     22100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54286):
TGAGGTGATGGCATGCACCCGTAGTTCCAGCCACTCGGGAGGCTGAGATGGAAGGATCACTTGGGCCTGGGAGGTTGAGGCTGCAGTGAGCTGAGATTGC
R
CCACTCCATTTCAGTCTGGGAACCAGAGCGAGACCCTGTCTCGAAGAAAAAAAAATGGAGAAGTAAAATTTGAGGATTGGTGGTTTATGATTCCATTTAT
Celera SNP ID:            hCV27118793
SNP Position Genomic:     22165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54287):
ACTCACTTCTCTATCCTGTGGGTGCAGAGCCATTGTTTACTGCCTGAGTATTTGATTACTAAGGACATTTTAAGGATTCAAAGGCCAAGATCACATTGTT
W
AGTAGATATCAAACAGATTTAATGCTTATTTTTAAAATATTTAATTATTAGAAACGAGGTCTCACTGTGTTGCCCAGGCTGGACTCCTGGGCTCCAGAGC
Celera SNP ID:            hCV27118794
SNP Position Genomic:     26058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54288):
TAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTTGAGGTTGCAGCGAGCTGAGATCTCGCCACTGCACTCCAGCTTGGG
Y
AACAGAGTGAGACTTCATCTCAAAAAAAAAAAAAAAAAAGTATATATATCAGGCCGGGCGTGGTGTCTCATGTCTGTAATCCTAGAACTTTAGGAAACCG
Celera SNP ID:            hCV11327228
SNP Position Genomic:     77356
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:54289):
ACCAGTACCATCATGCTCAGTTGTGGTAGGTCTCCTTTCTGGTGATGTGGCTCATTTAAGAGCTGGCAGCTACCAGGGAAGCACTGTAGCGCACACACAC
R
CACACACACACACACACACACACACACACACTCTGCACACACCCTTATTTGTTCACTCACCCACAGGCATACACATGCAGGGTCTTCAGTTTAGCCTAAG
Celera SNP ID:            hCV27118795
SNP Position Genomic:     29791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54290):
GATTGTGATTAGGCCAGCTTGGGTTACATGACCTCGCTGGAGTAGAAGTTTTGGGGATAGGGCCAACTCTACTTGGGCCACCTGAAATAACAATATGTGG
R
TGGGGAAAATACCCCGATCCCTCACCTGGTGCCTTGGTCAGAACAGTCACCGTGCTGTGTGAAGAGCAAGGGTTATTCACTCAGGGTTGTCCAGTCCTGA
Celera SNP ID:            hCV8823902
SNP Position Genomic:     25823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54291):
CAGAGAAAGGGCAGACAGAAAACAGCCAAGCCACCGGGACTGGTAATCCACACACGGCTTTTAGTTGGATGTGAAATTCAGAGCAGGCTTTGTTTGCCTT
R
TGCGAGAACACATGCCTCCAAGAAGGAGCCTGTGCAGACAAGCAGCTTGAGGATTGGGAAAGAACTGACTCTGAAAAGGCATTTTCATTTGTCACGTAGG
Celera SNP ID:            hCV8823830
SNP Position Genomic:     31535
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(A,-|G,-)   no_pop(G,-|A,-)   WICGR1_caucasian(G,11|A,172)   total(G,11|A,172)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54292):
CAGTACCATCATGCTCAGTTGTGGTAGGTCTCCTTTCTGGTGATGTGGCTCATTTAAGAGCTGGCAGCTACCAGGGAAGCACTGTAGCGCACACACACAC
R
CACACACACACACACACACACACACACACTCTGCACACACCCTTATTTGTTCACTCACCCACAGGCATACACATGCAGGGTCTTCAGTTTAGCCTAAGAT
Celera SNP ID:            hCV27118796
SNP Position Genomic:     29793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54293):
TATTTGTAACCCGGGGATTACAACAGGACTTACGTTTTGGGTAGGTTTGAAGCTGAAAGAAGTCAGTGCATGTAAGGCACTTAGTGTAGTGCCTGGCAAT
R
TTAAAAAAAAAAAAAAAAGGAAAAAAAATAATAGTGTCTCTGTTCCACAGGTTCAACCTTGTCCCCAGGGGTGATTGTGATTAGGCCAGCTTGGGTTACA
Celera SNP ID:            hCV8823903
SNP Position Genomic:     25650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54294):
CGTTGGGAGTCTCAGCCACAGAAGCACTTTTGTTTTCTTTTCAGAGACAGAGTCTCACCTTGTCACCCAAGTTGGAGTGCAGTGGCATGATCATAGCTAC
K
GCAGCCACCAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCTTCCTGAGTAGCTGGGACCATAGGCTTGCTCCACCATGCACAGCTAATTTTTTTTTT
Celera SNP ID:            hCV27118797
SNP Position Genomic:     30740
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54295):
TAGCTGGGACCATAGGCTTGCTCCACCATGCACAGCTAATTTTTTTTTTTTTTGAGACAGAGTCTCGCTTTTGTCACCCAGGCTGGAGTGCAGTGGCGCA
R
TCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTATAGGTGCCCGCCACCACGCCTGGCT
Celera SNP ID:            hCV27118798
SNP Position Genomic:     30892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54296):
CTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTATAGGTGCCCGCCACCACGCCTGGCTAATTTTTTTATATTTTTAGTAGA
R
ACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
Celera SNP ID:            hCV27118799
SNP Position Genomic:     31016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54297):
CTTGGGTTTCCCAACAGCAACACGGAAGTATATACTGGAAGGCTGGAGCCCAGCAGGCACTGACAAGCTTATCACCAGACCTCCGGCTACACCAGCAGCT
K
CAGGTAACTGTGGCTACGTGGTGTGAGTGTGAGAAACTTCTGCAGAGTCCCAAGTCCTGTGGGTCCTGAAGCCTGCTCATCTCAGTGTTGCAGCTGTGCT
Celera SNP ID:            hCV8823907
SNP Position Genomic:     24824
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54298):
TGATGAGCTCTGTGACTAAGAAGTGGCAGGGGCAGGTGTGGAGCCCAGTTCTTTGGCATGTGGTCTGGGGTCTTTCTGTGTCTTCAGGAGGCTGTGACAC
Y
GGTGTGTGGTCATGTGACCATGTGCTTGGGTTTCCCAACAGCAACACGGAAGTATATACTGGAAGGCTGGAGCCCAGCAGGCACTGACAAGCTTATCACC
Celera SNP ID:            hCV8823908
SNP Position Genomic:     24699
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54299):
CTTGAAGGAGGCAGCCTTGGGGAAAATAGAAATACCAGCGGGGCTGGCACAGCACAGGCCCTGGCACTGGACAGCATGGGACTGAATTCTGGTTCTATCA
S
CTTTGTGACTTTGTGTCTCGGTTTCCTCATCTGGAACAAGGGGAATGATGCTATTCATCTTACAGGGCTGTTGTGCAAATTAGATGAGTTAATACTTTTA
Celera SNP ID:            hCV8823839
SNP Position Genomic:     30176
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54300):
TAGGACTTCCACATATAAATTTAGGGTAGACACACTTCAGCCCATAATAATGTTTTAATATGTAGTATAGCAATTATCCCCTCCTTGCTTTTCTTTTTAA
R
ATATTGTCTGAGCTGTTTATAGGTCTTCATTTTTCCACAAATATTTTATAAGAAATTGGTCTAGTTCCTTAAAAGAGTCCAGCTGGAATTTTTATTTAGG
Celera SNP ID:            hCV904520
SNP Position Genomic:     53486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54301):
GACTTCCACATATAAATTTAGGGTAGACACACTTCAGCCCATAATAATGTTTTAATATGTAGTATAGCAATTATCCCCTCCTTGCTTTTCTTTTTAAAAT
M
TTGTCTGAGCTGTTTATAGGTCTTCATTTTTCCACAAATATTTTATAAGAAATTGGTCTAGTTCCTTAAAAGAGTCCAGCTGGAATTTTTATTTAGGTTG
Celera SNP ID:            hCV904521
SNP Position Genomic:     53489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54302):
TTATAACACAGTTGCCAGACTGTTACTGTCCTTCTGGTCCTTCATTATGCCAGAAACATATGACCAAAAGTAGAATCAACCTGCAGATGTCTGACACTCA
R
ACTGTCACCTGTGGGGCTGTCAGAGCCTGTTATGGAGACATTGTGCATTTTTGGGTGTAGCCTGGGGCTGCCTTAACTGTTAGAGTAACTGTATTAGCTG
Celera SNP ID:            hCV904522
SNP Position Genomic:     55532
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54303):
CTCTCCACTACGGACCTCCCCCAGCTCATCCTGACTCTATTATCACCAGGGTAGCATGACCAAGCATACTCCTCTTAAGGCAGTCGAGGTGGAATGGAAG
R
GGTCAGAAGACATATGAGGGAGAGAGCCTGGAAAGTGCATCCCACAATGTCTGTGTTCCCTCTGAGGAATGGCTCACCACAGTAGAACCTCTGTGTCCTT
Celera SNP ID:            hCV904523
SNP Position Genomic:     56466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54304):
GGTCCATTTTTGGGCTTTTGTTTTTGTTCCATGGTTTGGTAGATCTGTTCATAAGCCAGTAACACATTGTTTCAATTATCCCAGCTCTGTAATATGTTTG
Y
TTGTTTGTTTATTTACTTTTGAGTTGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTT
Celera SNP ID:            hCV2438432
SNP Position Genomic:     13324
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54305):
GTGGACTTTACAGCTCAGCAAAAGAGGGATCTTAAACCAATAATCACTGAAATATATGGGCACAAGTTGGGAAAAGTGCTCTGAGGAAAAGCAGATGGTG
Y
TGAGCGCTAAGGAGGGCCTCCTGAGCAAGTGATGGTCTTAGGTGCATCTTAGCTGAGGAGAAGGGAACAGGCATGTGAAGAGTGGAAAGAACATTCCATA
Celera SNP ID:            hCV904524
SNP Position Genomic:     59865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54306):
ACCAATAATCACTGAAATATATGGGCACAAGTTGGGAAAAGTGCTCTGAGGAAAAGCAGATGGTGCTGAGCGCTAAGGAGGGCCTCCTGAGCAAGTGATG
K
TCTTAGGTGCATCTTAGCTGAGGAGAAGGGAACAGGCATGTGAAGAGTGGAAAGAACATTCCATACAGTGAAAAGGCTCTGAGGCAGAATGAGTGGAGAG
Celera SNP ID:            hCV904525
SNP Position Genomic:     59900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54307):
CAATAATCACTGAAATATATGGGCACAAGTTGGGAAAAGTGCTCTGAGGAAAAGCAGATGGTGCTGAGCGCTAAGGAGGGCCTCCTGAGCAAGTGATGGT
Y
TTAGGTGCATCTTAGCTGAGGAGAAGGGAACAGGCATGTGAAGAGTGGAAAGAACATTCCATACAGTGAAAAGGCTCTGAGGCAGAATGAGTGGAGAGAA
Celera SNP ID:            hCV904526
SNP Position Genomic:     59902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54308):
ATCTTTGTTTTGTTTGTAGTTGTATTAGTTATCTATTGCCATGTAACAAATTATCTCAAAATTTAGCAGCTTAAAACAGTAATAAATGTTTATTCTCTTA
Y
ACAGTTTCTTTGGGTCAAGAATTTGGTTTCAGCATGGTTGGGTGATTCTGATTGAGGATATCTCCTGAGGTTGCAGTCACAATGTCATCTGGGGCTGCAG
Celera SNP ID:            hCV2438435
SNP Position Genomic:     54184
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54309):
CATATTGGCCAGGTTGGTCTTTAACTCCCGACTTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGCACTGGGATTATAGGTATGAGCCACCGTGCCCAGC
Y
GAAATGCCAGTTTTAAGTTGTTAAATACATGGCAGAATGTCTGGTTACAGTTTTTATCTGTTTTGTGAAGGCAACATTTTTTGGTGAGCTTTTATTGTCT
Celera SNP ID:            hCV11928585
SNP Position Genomic:     18189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54310):
TATTGTTTTGGTTCTTGTTAAACACAACAGAGATTCCCTGGGTGATCTTGTCCACTTCTCTCTCCCGAATCCCAGGCCTGGACACCCATCTCCCTCCTAG
S
TAATCCCCGACCCCCATGGCTGGATATCCCACAGATGCCTCAGGCTTAGCATGTCCCAGACTGAGTTCTGTCTCCCTTCAGACCTCCTCCTTTCTGGGTT
Celera SNP ID:            hCV27487525
SNP Position Genomic:     23610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54311):
AATAAATGAATTTCAGGTAATATTACAAGCAATGTCTTTAAATGCAGTTTTACAAAAGGCATCAAAATCCAGACCAATAATTAGTTCTTGGACCTTTTCT
R
TAAGTTGTAGGGTAGACAGGGCAGAGTTCCTCCCCATTTTCTTGAAGTGGAAACCAAGTCCCAGGAGGGTGATGAGCTCTGTGACTAAGAAGTGGCAGGG
Celera SNP ID:            hCV8823912
SNP Position Genomic:     24529
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54312):
GAATGAATGAATGAATGAATGAATGGGGTGAGTGAATAAATAAATGAATTTCAGGTAATATTACAAGCAATGTCTTTAAATGCAGTTTTACAAAAGGCAT
Y
AAAATCCAGACCAATAATTAGTTCTTGGACCTTTTCTGTAAGTTGTAGGGTAGACAGGGCAGAGTTCCTCCCCATTTTCTTGAAGTGGAAACCAAGTCCC
Celera SNP ID:            hCV8823913
SNP Position Genomic:     24491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54313):
GTTAGGTGCCTCTGTTCCCACGACCCTGTCACTGCAGCTCCATAGTTGTACATTTGTGTCCTTTTCCCTGACTCAACTCCAGTAGCCTGAAGAATAGGGA
Y
GAAAGTATCCTATTCATCTGTCGCAAGCCTGGCATGATCTATGTGCTTAATAAATGTTCATTGAATGAATGAATGAATGAATGAATGGGGTGAGTGAATA
Celera SNP ID:            hCV8823914
SNP Position Genomic:     24328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54314):
CACAACTCAAGTGTCATCCCTGCCTCCTCCACCTTCCCACCCCACATCCAAGGGTCCTCACGTCCCACTGATTTGTCTGTGACTCTTGACTCTACCATCT
Y
TTCTCCAGCGCTATCTGCTTGTCATTCTTCTCCAGGTCTCTACCGCAGCCTCCTTGCCTCCAGCCTACCTTCCCCGTGACTCCCACAAGCCTTTAATACA
Celera SNP ID:            hCV8823916
SNP Position Genomic:     23846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54315):
AGGTCTTTGAGCAGCAGATTTCCAAGCTAACTGTAGTGTTTGAGTTGATGAGGAATATTTGGAGGAGGTGTGGTGCCGTGTGTTTCCAAGGGCCCCTCTT
R
TCTCTGGTTCTCTGGTTCTAGAACAACACAAGCATATATACCTTCCATGAAGAAAGAGCTCCAGGTACAAGTTGTGGCAAGAGAATTATCTGCTCTGTGC
Celera SNP ID:            hCV8823844
SNP Position Genomic:     29427
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54316):
ATCTTGTCCACTTCTCTCTCCCGAATCCCAGGCCTGGACACCCATCTCCCTCCTAGCTAATCCCCGACCCCCATGGCTGGATATCCCACAGATGCCTCAG
R
CTTAGCATGTCCCAGACTGAGTTCTGTCTCCCTTCAGACCTCCTCCTTTCTGGGTTCTCTTTCTCAGGGAATTCTCCCCATCCACCCAGGGCACAACTCA
Celera SNP ID:            hCV8823917
SNP Position Genomic:     23654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54317):
CCCAAGATCACACAGTGCTGGGAGTGGGAGTCAGGACCTGAGTCTATCTCATCCAGTCCCTTGGCTGTGCTGGGATCACTTTTCTCCATGCTGGATTACT
R
TATTTTCAAATCCTCACTAGGATGTAACTAATTTTTCTGAAGATGCTTCTTCCTCCATGACCTAACAGGAATTTATTGTTTTGGTTCTTGTTAAACACAA
Celera SNP ID:            hCV8823918
SNP Position Genomic:     23436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54318):
TTATTATCGTTGATATTTACATGAGGCACGGAGAGGTGATGTCACTTACCCAAGATCACACAGTGCTGGGAGTGGGAGTCAGGACCTGAGTCTATCTCAT
Y
CAGTCCCTTGGCTGTGCTGGGATCACTTTTCTCCATGCTGGATTACTATATTTTCAAATCCTCACTAGGATGTAACTAATTTTTCTGAAGATGCTTCTTC
Celera SNP ID:            hCV8823919
SNP Position Genomic:     23388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54319):
CATGAAGCTTTTGAAATTTGGTGTGCATTTAACACTTATAGTTCTGGGCATGCTTCAAGTATGCAAAGGTATACATGGCTTGCAGCTACTGTATTGGATA
K
TGCAGCTCTGGATGTGCTCCACATGGTGACAGGACAGCTATAGCTGCCCCAAACATCATGTCTTCACAGCTGTATTCGAAGGCAGGGATCAGAAGGTGAC
Celera SNP ID:            hCV8823776
SNP Position Genomic:     62941
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,8)      total(G,3|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54320):
AATGGAGAAGTAAAATTTGAGGATTGGTGGTTTATGATTCCATTTATTTAAAATATTTTTAGCATAGTTGACCTTTTTATTTGATTGATGCCTACTTGTT
W
AATTAATGTACTCTAGTGCTTACAAATCCCAAGTCATGAGTTTCTTCATCATCTGCCCAGAGTACTCTGCTGTAATGGCAGGCACTTGCGTTTCAATTCT
Celera SNP ID:            hCV15949306
SNP Position Genomic:     22319
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54321):
AGGATGGGCTGACGGTCACTTCTCCAGTACTAATGTGGGTCCAGGTAAGCGCAGGGATTCCTGTTCTCCTTCTATCCCCAGGCTGTCTCACTGGCAGACT
Y
GGTGATTTGCTAGGAAGTCCAAAGGTGGCAGCCAATGAGAGCATCTGTTGACACCAGGTCCTCATGGGAAAGTGGAGTTGGCATGACTCCTGGGATCAGG
Celera SNP ID:            hCV15949307
SNP Position Genomic:     20011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54322):
TCAACAGTTCCCACTTGGGGTTGGGGAAGGTTCTCCTTCATCTGGACATTTCCAGAGTCATCCACCATAGGGTTTCTCCTGGCTTTGCAATGGTCTGCCT
K
CCCTGAGGCTCTGGTCTACATTCTCTGTTGTTCTTGCAGGACTCAGGGCGGTGTTCATGTGCACAAGGATGGGCTGACGGTCACTTCTCCAGTACTAATG
Celera SNP ID:            hCV15949308
SNP Position Genomic:     19845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54323):
TCTATCCACTCCCTCCAGCCTCTGGCTCCTGGACACAGGGAGTCTGGGCCTGATGCTTTGCTCTCATGGGAGCTCTCTCCTTTGCTCTTCACTTCCCTGT
K
GCAGTGAAGTCAGATCACTAATATAGAGGGTTGAAAATGCAAATAAAAGAAGGCAAAAGTTGGCTGCCTTACTTTGTTAGTTTTTGAGACAAGGTCTCAC
Celera SNP ID:            hCV8823922
SNP Position Genomic:     21717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54324):
CTGGAATAGGGGCCTGGAACAGGTGGCCATCATCTCTATCCACTCCCTCCAGCCTCTGGCTCCTGGACACAGGGAGTCTGGGCCTGATGCTTTGCTCTCA
Y
GGGAGCTCTCTCCTTTGCTCTTCACTTCCCTGTGGCAGTGAAGTCAGATCACTAATATAGAGGGTTGAAAATGCAAATAAAAGAAGGCAAAAGTTGGCTG
Celera SNP ID:            hCV8823923
SNP Position Genomic:     21683
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54325):
GTGGAGGGATGTTTGGACCCCTTCAGGGAAGAGACTTCACAGCTCAAATCAGCGGCCCTGCTAACAGAGACTTCACCCCGTGACCCCTATGACCTTCTCC
K
CTTAGGGCCTCCTGAGCGCTCAGCTCCCCTGCTCCTGCCTCCACCCTAGGGTGTGGGTGGGGGTTGGAGGTGGGGGCTCTGCGCCTGCCTGGAGAGCCCT
Celera SNP ID:            hCV27511362
SNP Position Genomic:     33852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54326):
GGTGATTTCTGATCTGATGCAGCCTCCAGGACCAAACTTGATCCTAGCTCTGCCAGCCCCTGCTCCGGCTGCACCCCACTGCCTGCCCAAGGTTTGATGG
R
CACAGATAGAGATGGCAGCCACAGCCAGGGCTGAAAGAAGCCCTCCCAGCAAAGGCTGGGGGTGGTGGAGTCAGGCAAAAGTGAGAGAGTCTTCTCTGCC
Celera SNP ID:            hCV8823925
SNP Position Genomic:     21341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54327):
GATGTCGAGGGCATCTCATAGGCCAAGGCCTTCACCTGGGGAGGTGAGCAGTGGGTGAGAACCAGGCTTGGGGGCCGGGCCAAGGTGATTTCTGATCTGA
Y
GCAGCCTCCAGGACCAAACTTGATCCTAGCTCTGCCAGCCCCTGCTCCGGCTGCACCCCACTGCCTGCCCAAGGTTTGATGGACACAGATAGAGATGGCA
Celera SNP ID:            hCV8823926
SNP Position Genomic:     21258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54328):
TGATGATGTCGAGGGCATCTCATAGGCCAAGGCCTTCACCTGGGGAGGTGAGCAGTGGGTGAGAACCAGGCTTGGGGGCCGGGCCAAGGTGATTTCTGAT
Y
TGATGCAGCCTCCAGGACCAAACTTGATCCTAGCTCTGCCAGCCCCTGCTCCGGCTGCACCCCACTGCCTGCCCAAGGTTTGATGGACACAGATAGAGAT
Celera SNP ID:            hCV8823927
SNP Position Genomic:     21254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54329):
GTCTTCCTTCTTAGCTGGAAATGCCAGTTTTGTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTTGAGACAGA
R
CCTTGCTCTGTTGCGCCCAGGCTGGAGTGCAGTGGCAAGATCTCAGCTCATTGCATCCTCCGCCTCCTGGGTTCAAACAATTCTCCCACCTTAGTCTCCC
Celera SNP ID:            hCV904610
SNP Position Genomic:     17915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54330):
TTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGACCGCACCATTGCACTCCAGCCTGGATAACAAGAGTGAAACTCCATCTCAAAAAAAAAGAAAAAA
R
AGAAATACAAACATAGCCCTTAGGGTCTTAGTGCTCAGCCTCTAAGATCCCTTAGCTCCCTAATCACCTAGAATGGCAAGTTATGGCCTGGCCAGTCAGA
Celera SNP ID:            hCV904611
SNP Position Genomic:     20598
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54331):
CTTAGCTCCCTAATCACCTAGAATGGCAAGTTATGGCCTGGCCAGTCAGACTCATATCAATGCCAAGCCAGGCCTGCCTGCTGAGGATCAACAGGAAAGG
M
GAATGCCTGTAGCAGGATCTGGTGACCTAGGGGGCCACAGGAGCAGGGATGTGGACAGCATAGACAGGCGTGGTAGCTCCAGGGGCTACCTCATCATATG
Celera SNP ID:            hCV904612
SNP Position Genomic:     20749
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54332):
TCAAGGCCTCTGCCTTCCAATGTAACCATCGCTGATTCTCCAACCAGTCCTCTTATAACACAGTTGCCAGACTGTTACTGTCCTTCTGGTCCTTCATTAT
R
CCAGAAACATATGACCAAAAGTAGAATCAACCTGCAGATGTCTGACACTCAGACTGTCACCTGTGGGGCTGTCAGAGCCTGTTATGGAGACATTGTGCAT
Celera SNP ID:            hCV8823788
SNP Position Genomic:     55480
SNP Source:               dbSNP
Population(Allele,Count): WICGR1_caucasian(A,42|G,126)   total(G,126|A,42)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54333):
GGGGGTGCGCTTCGAAGGAAAGCGGGCTGCGTGGGGGCACCGTCGATTGCACAGGACGCGGTCCCGGCTCGCGTAGCCCCGCAGGCGGCGCCAGAGCGCA
R
GCCCGCCTCGTGACTCCGGTCCACAGTCCGGCCGGGCGGAGCTAGGGGCGGGCCCCTGCGTCTCTGGGCGCTGGAGCGCGGCGACTATCACGCCGCGTGG
Celera SNP ID:            hCV15949318
SNP Position Genomic:     5976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:54334):
CAGTGAGATCCTTCGTGGTGTTTTTGGTTAACGTCTTCACTTGCAACATGCACTAATGTGAAGTGACCTTTCCCTTCTAGGTCTTGCAGGTGGAACAGAT
R
TGCCCTTTTCAGAGGTTGTGAAGTTAGCTCCAAATCCCAGACTAGCTGCTACCCCAAGCCCGGGAGCTTCTCAGGTGAGAGACCATCAGAATTTGTTTGT
Celera SNP ID:            hCV15949319
SNP Position Genomic:     60410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54335):
GTCAGTGTCAGGAGGTCCCAGTGATGATGTCGAGGGCATCTCATAGGCCAAGGCCTTCACCTGGGGAGGTGAGCAGTGGGTGAGAACCAGGCTTGGGGGC
M
GGGCCAAGGTGATTTCTGATCTGATGCAGCCTCCAGGACCAAACTTGATCCTAGCTCTGCCAGCCCCTGCTCCGGCTGCACCCCACTGCCTGCCCAAGGT
Celera SNP ID:            hCV8823930
SNP Position Genomic:     21233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54336):
TAACTGGTATGATTTCTTTTTTATTGGTGTAACCCTGATTCATACACTGGAGAATTGGGGTAAAGGATGGATTTTATCCAGATAAACTGGCTAGAATGTA
M
TTCAGAGGGGGCTGAGCCAGACCAAGGGGCAGAGTGGGAGGGTCGGGGGTTAGAGACAATGGTCAGTGTCAGGAGGTCCCAGTGATGATGTCGAGGGCAT
Celera SNP ID:            hCV8823931
SNP Position Genomic:     21071
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54337):
TTGTTAAAAATAACTGGTATGATTTCTTTTTTATTGGTGTAACCCTGATTCATACACTGGAGAATTGGGGTAAAGGATGGATTTTATCCAGATAAACTGG
S
TAGAATGTACTTCAGAGGGGGCTGAGCCAGACCAAGGGGCAGAGTGGGAGGGTCGGGGGTTAGAGACAATGGTCAGTGTCAGGAGGTCCCAGTGATGATG
Celera SNP ID:            hCV8823932
SNP Position Genomic:     21061
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54338):
TCCCTGAAACTGGAGGCCAGCTAAGTGTGTGTCTTCCAAAAGCTTTTTTCAGTCCTCCAATACCTATCTAACCAATTCCCTATATTACATTCTTTTTGTT
M
AAAATAACTGGTATGATTTCTTTTTTATTGGTGTAACCCTGATTCATACACTGGAGAATTGGGGTAAAGGATGGATTTTATCCAGATAAACTGGCTAGAA
Celera SNP ID:            hCV8823934
SNP Position Genomic:     20966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54339):
TGCAGGGTCCCCGAGTCCCTGAAACTGGAGGCCAGCTAAGTGTGTGTCTTCCAAAAGCTTTTTTCAGTCCTCCAATACCTATCTAACCAATTCCCTATAT
W
ACATTCTTTTTGTTAAAAATAACTGGTATGATTTCTTTTTTATTGGTGTAACCCTGATTCATACACTGGAGAATTGGGGTAAAGGATGGATTTTATCCAG
Celera SNP ID:            hCV8823935
SNP Position Genomic:     20951
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54340):
ATTGCACTCCAGCCTGGATAACAAGAGTGAAACTCCATCTCAAAAAAAAAGAAAAAAAAGAAATACAAACATAGCCCTTAGGGTCTTAGTGCTCAGCCTC
Y
AAGATCCCTTAGCTCCCTAATCACCTAGAATGGCAAGTTATGGCCTGGCCAGTCAGACTCATATCAATGCCAAGCCAGGCCTGCCTGCTGAGGATCAACA
Celera SNP ID:            hCV8823938
SNP Position Genomic:     20641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54341):
TAGACACTGCCAACTCGGCCTGTGTGGGTTCTGCATACCGAGCTTTTCATGGTAGGTTGATGGAGGGAGACAGCTATCTCTGGAAGTGGCCAGGACATGG
R
GTGGGCTGAGGAGGGTGGAAAGGGGAGAGTGAGGTGTACCCAGTCTTTGGGGACATTGGAGTCTTGGGGACTTCAGCTTCATTTTTCTAGCTCCCAGCAG
Celera SNP ID:            hCV15949320
SNP Position Genomic:     56709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54342):
CTGGATTAGGGCCCACCCCTAATGACTTTATTTTTAACTTAATTACCTCTTTAAAGAGGTAATATCTGTCTTTATCTTCAAATACACTCACATTCTGAGA
W
ACTGGGGTTTAGGACTTCCACATATAAATTTAGGGTAGACACACTTCAGCCCATAATAATGTTTTAATATGTAGTATAGCAATTATCCCCTCCTTGCTTT
Celera SNP ID:            hCV8823796
SNP Position Genomic:     53376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54343):
GTCCTCCAATACCTATCTAACCAATTCCCTATATTACATTCTTTTTGTTAAAAATAACTGGTATGATTTCTTTTTTATTGGTGTAACCCTGATTCATACA
M
TGGAGAATTGGGGTAAAGGATGGATTTTATCCAGATAAACTGGCTAGAATGTACTTCAGAGGGGGCTGAGCCAGACCAAGGGGCAGAGTGGGAGGGTCGG
Celera SNP ID:            hCV15905192
SNP Position Genomic:     21017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54344):
GCGTGTCTGATTCAGTGGTTCTGTACAGTCATGGTGGGTTCTGTTTTTCTTCTTAGGCACTGGATATCATCTTGGAGAAGATGAAGGCTTCGGGCTTCGA
M
TTCTCTCAAGTCCTAGCCTTGTCCGGGGCGGGCCAGGTTCGTTTGCAGCAGACTCTGTCTGCCATGTGAGGGTGACTGTCCTGGGCAATGGTGTGGGTGT
Celera SNP ID:            hCV904489
SNP Position Genomic:     22527
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   JBIC-allele(A,270|C,1019)   total(A,270|C,1019)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54345):
CTATCCCCAGGCTGTCTCACTGGCAGACTCGGTGATTTGCTAGGAAGTCCAAAGGTGGCAGCCAATGAGAGCATCTGTTGACACCAGGTCCTCATGGGAA
R
GTGGAGTTGGCATGACTCCTGGGATCAGGCTCAGCCTCAGCTGGTGTCAACACTCCCAGGCTCAGAGGACTTACAAAAAACTTCCAGGTACTGGAGCTAC
Celera SNP ID:            hCV8823948
SNP Position Genomic:     20082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54346):
CAGGGATTCCTGTTCTCCTTCTATCCCCAGGCTGTCTCACTGGCAGACTCGGTGATTTGCTAGGAAGTCCAAAGGTGGCAGCCAATGAGAGCATCTGTTG
W
CACCAGGTCCTCATGGGAAAGTGGAGTTGGCATGACTCCTGGGATCAGGCTCAGCCTCAGCTGGTGTCAACACTCCCAGGCTCAGAGGACTTACAAAAAA
Celera SNP ID:            hCV8823949
SNP Position Genomic:     20062
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54347):
CCCTCTGAGGAATGGCTCACCACAGTAGAACCTCTGTGTCCTTTTCAGGTGCTTGCAGATGTGTTTGATGCCCCGGTGTATGTTATAGACACTGCCAACT
Y
GGCCTGTGTGGGTTCTGCATACCGAGCTTTTCATGGTAGGTTGATGGAGGGAGACAGCTATCTCTGGAAGTGGCCAGGACATGGGGTGGGCTGAGGAGGG
Celera SNP ID:            hCV15949330
SNP Position Genomic:     56624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54348):
GCGTTAGTAGTGGGCCTTACACCATGGCCTCTCCCATATCTGTTATGTCTAAGAGCCAGAGACTGGATAGGAAGGACAGCCTCCATTCCCACTCCTGCAG
R
AATGGGGAGCTCTTAGCTCACACTCCAGGAAGCAGCTCTGTTGCCTTACAGCTCACACTGTGAGTGGGATCTGTCTCACATGCAGGTGAATTCTATGGCT
Celera SNP ID:            hCV15949331
SNP Position Genomic:     55168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54349):
CTGGGGCAGATCTCCAAGTCAGCGGATGGAGCTTAAGCCTGTGCCTTTGCCCTCCTTCCCAGGACTGTTTCTCCATCAGCGACTGCCCGGTGTGGATGGA
M
TCCAGCACCACAGCCCAGTGCCGCCAGCTGGAGGCTGCTGTGGGTGGTGCTCAGGCTCTCAGCTGCCTCACGGGGTCCCGTGCCTATGAGGTAGGCTGAG
Celera SNP ID:            hCV904490
SNP Position Genomic:     25188
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54350):
TTGTAACCCGGGGATTACAACAGGACTTACGTTTTGGGTAGGTTTGAAGCTGAAAGAAGTCAGTGCATGTAAGGCACTTAGTGTAGTGCCTGGCAATATT
W
AAAAAAAAAAAAAAAGGAAAAAAAATAATAGTGTCTCTGTTCCACAGGTTCAACCTTGTCCCCAGGGGTGATTGTGATTAGGCCAGCTTGGGTTACATGA
Celera SNP ID:            hCV904491
SNP Position Genomic:     25653
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54351):
CACGGAAGTATATACTGGAAGGCTGGAGCCCAGCAGGCACTGACAAGCTTATCACCAGACCTCCGGCTACACCAGCAGCTTCAGGTAACTGTGGCTACGT
K
GTGTGAGTGTGAGAAACTTCTGCAGAGTCCCAAGTCCTGTGGGTCCTGAAGCCTGCTCATCTCAGTGTTGCAGCTGTGCTCACGCGCCCTCACCAGAAGA
Celera SNP ID:            hCV16242338
SNP Position Genomic:     24844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   JBIC-allele(T,242|G,1047)   total(G,1047|T,242)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54352):
TTGGGTTCCTAAGAATTTATATTCCTTTTCCAGCGTTTTACAGGGAACCAAATTGCAAAAATTTACCAGCAGAACCCCGAGGCCTACTCACATACAGAGG
Y
TGGTTAAATGTTCCTGTTTGATTGAAAGTCACAGTTGAATTCTTTTCATAATATGTTAGAATAGATACATCTTACGTGCAGTGACTGAAAACGTTGATAA
Celera SNP ID:            hCV904492
SNP Position Genomic:     26417
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   no_pop(C,-|T,-)   TSC_42_T(C,0|T,84)   TSC_42_C(C,0|T,84)   TSC_42_TT(C,0|T,84)   total(T,252)    
SNP Type:                 DONOR SPLICE SITE


Context             (SEQ ID NO:54353):
TTCAGTCCTCCAATACCTATCTAACCAATTCCCTATATTACATTCTTTTTGTTAAAAATAACTGGTATGATTTCTTTTTTATTGGTGTAACCCTGATTCA
W
ACACTGGAGAATTGGGGTAAAGGATGGATTTTATCCAGATAAACTGGCTAGAATGTACTTCAGAGGGGGCTGAGCCAGACCAAGGGGCAGAGTGGGAGGG
Celera SNP ID:            hCV16242339
SNP Position Genomic:     21013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54354):
GAGGATGCGGGGGGTGCAGGGGGTGGTCTGGTTGCAAGCTCCGGAGGCATAGTGGGTGACCTGCCTCTGGGGGGATCACATGAGGTCATGGAGGTGTTGT
R
GAGCCAGCAACAGGCACTCTGGCCCCTGGGTCCTGATCCAGGCCACCTGCTGCCCTGTGTGTTCCCAGGCCAGGCTGGGTGTGCACATGGCTGTGCTCCT
Celera SNP ID:            hCV15949266
SNP Position Genomic:     25386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54355):
CTGAGTGTCTGAGCAGGCTGTGTCTGCTCACTTTCCTATGTGGTTAACGCAGGAGGGCTACCAGGCACATGATTGGCATAGAGTCAGTATTTTCTTTGGA
W
ATGTATAGGACTGGGCATTTGTGTCCCCAGCTGTGGCCCTTCAGCCAGAGCCTCTGTCACAGGAACCCAGGTTCATTCCTGGCTCCACAGTTGCTGAAGC
Celera SNP ID:            hCV904493
SNP Position Genomic:     26805
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54356):
GCACCTTTTTAATCTTAGAAATTAACATGTGGTTTATTATTTAATGATTTGAGGTTCCAGATTATTCTGCAGCATTAGCCATTAATGTAGGCTTTGGGTA
R
AGGGGTGAAAACCCTCCCTAAATTCTGTGTGTGGAACGAAGTTTGCCTGACAGAGGACAGGAGGTGATAACATTCTCTCCACAGTTCCAAAGGCCCATGA
Celera SNP ID:            hCV904494
SNP Position Genomic:     27098
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54357):
TCCGGATGGAAATGCAGCTTCCCTAAGCCCTTTCTCATAGGGCTTTTGGTTTTTGTCTCTTTTGAACTTGGCAGTTTTATGGCCCATCAGAAACTGTAGA
R
AATGAATGCTCTCCCGAGGAGTCTGCTCATGGTATTCCAGCTGCTCCTATCTGAGATGCACAGTCTCCACCATTACTTGGGCCTTTTGTTCAAAGTTTCC
Celera SNP ID:            hCV904495
SNP Position Genomic:     27522
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54358):
CAGCTGGGCCCTCCACTCTGCCCCCCTTCACTCACCTGAGATGTCACCTCCTCATTTCACCTGGGCAGGTGACACCATCAGCATCCCAGCCCACCTCTGT
Y
TGCCTCCACCTTGGCCCAGTGGAGGAGGAGTTCTCTCCACCCATGCTCTGGGTTCCCTGTCCTTTCCCATCCTCAGGGAAGCCTTGGGAGAAGGAGGATG
Celera SNP ID:            hCV904496
SNP Position Genomic:     29047
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54359):
AGACCTTTCCTTGAAAAGTTAGATGAGATTGAGAAATCCCTGGGGGCTGACCTGGAAACCTAAGGGACATGGAGAGTGGTTCCTGGTCAGTGTGTTGCTG
S
TAGTTCCAGGCCCCCTGGGAGGTCTTTGAGCAGCAGATTTCCAAGCTAACTGTAGTGTTTGAGTTGATGAGGAATATTTGGAGGAGGTGTGGTGCCGTGT
Celera SNP ID:            hCV904497
SNP Position Genomic:     29307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54360):
GCAGCAGATTTCCAAGCTAACTGTAGTGTTTGAGTTGATGAGGAATATTTGGAGGAGGTGTGGTGCCGTGTGTTTCCAAGGGCCCCTCTTATCTCTGGTT
Y
TCTGGTTCTAGAACAACACAAGCATATATACCTTCCATGAAGAAAGAGCTCCAGGTACAAGTTGTGGCAAGAGAATTATCTGCTCTGTGCCAGATTTGTG
Celera SNP ID:            hCV904498
SNP Position Genomic:     29437
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54361):
TTTCCAAGCTAACTGTAGTGTTTGAGTTGATGAGGAATATTTGGAGGAGGTGTGGTGCCGTGTGTTTCCAAGGGCCCCTCTTATCTCTGGTTCTCTGGTT
S
TAGAACAACACAAGCATATATACCTTCCATGAAGAAAGAGCTCCAGGTACAAGTTGTGGCAAGAGAATTATCTGCTCTGTGCCAGATTTGTGCATTTTCA
Celera SNP ID:            hCV904499
SNP Position Genomic:     29445
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54362):
ATGCCTGCCCTGGAAGGCCACATCTTCTGCAACCCGGTTGACTCCCAGCACTACATGGCACTCCTGTGGTGAGCTTGGGTGTTGGTTGGCACCATTCCCT
R
GGTGAGGAGGTGTGGGCAGGTCTGGCACCATCTTGAGGACCCCAAGTCATTCCACTAAGCTCTGGAATGACTCCCTCCACTTTCCCGGGCTCTGCTGGGC
Celera SNP ID:            hCV27522962
SNP Position Genomic:     34846
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,32|G,1467)   total(G,1467|A,32) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54363):
TTGTTCTTGCAGGACTCAGGGCGGTGTTCATGTGCACAAGGATGGGCTGACGGTCACTTCTCCAGTACTAATGTGGGTCCAGGTAAGCGCAGGGATTCCT
R
TTCTCCTTCTATCCCCAGGCTGTCTCACTGGCAGACTCGGTGATTTGCTAGGAAGTCCAAAGGTGGCAGCCAATGAGAGCATCTGTTGACACCAGGTCCT
Celera SNP ID:            hCV8823950
SNP Position Genomic:     19973
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54364):
TTCCAGAGTCATCCACCATAGGGTTTCTCCTGGCTTTGCAATGGTCTGCCTGCCCTGAGGCTCTGGTCTACATTCTCTGTTGTTCTTGCAGGACTCAGGG
Y
GGTGTTCATGTGCACAAGGATGGGCTGACGGTCACTTCTCCAGTACTAATGTGGGTCCAGGTAAGCGCAGGGATTCCTGTTCTCCTTCTATCCCCAGGCT
Celera SNP ID:            hCV8823952
SNP Position Genomic:     19894
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:54365):
TCTTATCTAGAAGGCTTCTTTAGAAGATGCTTCTGAGAATTGCCACATCTGGGCCACTCTGGGCAATTTGCCTGTCTTCTCTTTCCATCTTTGCAGCCCT
Y
GTGCCTGTTCAATCAACAGTTCCCACTTGGGGTTGGGGAAGGTTCTCCTTCATCTGGACATTTCCAGAGTCATCCACCATAGGGTTTCTCCTGGCTTTGC
Celera SNP ID:            hCV8823953
SNP Position Genomic:     19732
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54366):
TAGGAAAGAGCTAGTAGGTTGATCTCAGTGACCAGAAGGAAGTTTAGAGGACTCTGAGACCTTTCCTTGAAAAGTTAGATGAGATTGAGAAATCCCTGGG
R
GCTGACCTGGAAACCTAAGGGACATGGAGAGTGGTTCCTGGTCAGTGTGTTGCTGCTAGTTCCAGGCCCCCTGGGAGGTCTTTGAGCAGCAGATTTCCAA
Celera SNP ID:            hCV8823880
SNP Position Genomic:     29251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54367):
TTTCTATGGGCTTAGACTTTCATTTCTCTTGGCTGGATACTTAGGAATTGAATGGCTAGATCACATGGTTATCTAATAGCATCTTGGTGTGGATTCTGAG
M
CTGGTTTTCTCTTTCCTAACACATAGTTAAAAGGGTTGGATTTTATCAGATCAGCTCTTTGCACTAGAGTCTTCTAGGGGTGAGGTGGGTGGGGAGAGGG
Celera SNP ID:            hCV8823954
SNP Position Genomic:     19353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54368):
CAGCATCCCAGCCCACCTCTGTCTGCCTCCACCTTGGCCCAGTGGAGGAGGAGTTCTCTCCACCCATGCTCTGGGTTCCCTGTCCTTTCCCATCCTCAGG
R
AAGCCTTGGGAGAAGGAGGATGTTTTAGGAAAGAGCTAGTAGGTTGATCTCAGTGACCAGAAGGAAGTTTAGAGGACTCTGAGACCTTTCCTTGAAAAGT
Celera SNP ID:            hCV8823881
SNP Position Genomic:     29125
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54369):
CGGTAAACCAGCAACCTCCAGTGTGAGTGTCATAGCCATCGGGAACATGTCACATTGCTGCAGAAATCCTGTTTATGGCCAGTTTCTTTAAGGCCTGTTT
R
TGACAGGCTTAGGGCCTGTTCCCAGCACCCACTAGACTTAGACAACCACTGATCTCCTTTTCTCAGTATAGATGAATTTGCGTCTTCTAGTCTGTTCCTA
Celera SNP ID:            hCV8823955
SNP Position Genomic:     18986
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54370):
AAGAGTGTGGACAGAACGGGGGTAGAGAATGCAGGGCAGGAGCCCAGAGCCATGGATATGGCTTCAGAATGGAGCCTGGGATGCTCTGAGCCTCGTGGGA
R
TTCATGGGAAGTTTTCGAGGGCTGTTGTATGCCAGGCTTTATTCTGGTTTCAGGAGAGAGAGTGACTAAGGAGTGCTGTTAAGCTTCCCTCACAATCTGG
Celera SNP ID:            hCV8823882
SNP Position Genomic:     28682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   WICGR1_caucasian(A,8|G,163)   total(G,163|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54371):
AGCATTCTTTTCAAGAAGCAGAGAAACAGGCTGTGGCTGATTATCTGCAGCAGGAACATGTCCGTAAGGCACAGATCGCTTATGCCATTGTTTTTGGTTT
W
GGAATGCCTTGAGTGGTTTTCCGCCCTGGATGGGCCAGGTGTTCCTTGCCCTCATTCCGGTAAACCAGCAACCTCCAGTGTGAGTGTCATAGCCATCGGG
Celera SNP ID:            hCV8823956
SNP Position Genomic:     18828
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54372):
AGCTGGGAGGAGGTTGCTGCAGGAACCCTTGGATGAGCCTAAGTGTGAGAAGAGTGTGGACAGAACGGGGGTAGAGAATGCAGGGCAGGAGCCCAGAGCC
R
TGGATATGGCTTCAGAATGGAGCCTGGGATGCTCTGAGCCTCGTGGGAGTTCATGGGAAGTTTTCGAGGGCTGTTGTATGCCAGGCTTTATTCTGGTTTC
Celera SNP ID:            hCV8823883
SNP Position Genomic:     28633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54373):
GAAACAAAGCATTCTTTTCAAGAAGCAGAGAAACAGGCTGTGGCTGATTATCTGCAGCAGGAACATGTCCGTAAGGCACAGATCGCTTATGCCATTGTTT
K
TGGTTTTGGAATGCCTTGAGTGGTTTTCCGCCCTGGATGGGCCAGGTGTTCCTTGCCCTCATTCCGGTAAACCAGCAACCTCCAGTGTGAGTGTCATAGC
Celera SNP ID:            hCV8823957
SNP Position Genomic:     18821
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54374):
AAAATAAATTGCAGTTGATGCCAGTGAGGAGGGAAAGCTGGGAGGAGGTTGCTGCAGGAACCCTTGGATGAGCCTAAGTGTGAGAAGAGTGTGGACAGAA
Y
GGGGGTAGAGAATGCAGGGCAGGAGCCCAGAGCCATGGATATGGCTTCAGAATGGAGCCTGGGATGCTCTGAGCCTCGTGGGAGTTCATGGGAAGTTTTC
Celera SNP ID:            hCV8823884
SNP Position Genomic:     28598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54375):
TAGAGCTGAGAGCCACAAACAGAGTTTTGCCCACATATTTATTGACAGTAAGCCTGTGATAAACATTGTTTCTAAAGATTATAGATTAGCTGAAAGCATT
Y
CTTATGGGAAACAAAGCATTCTTTTCAAGAAGCAGAGAAACAGGCTGTGGCTGATTATCTGCAGCAGGAACATGTCCGTAAGGCACAGATCGCTTATGCC
Celera SNP ID:            hCV8823958
SNP Position Genomic:     18713
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54376):
TCATGAGATTTGTGAGCTTCTAGAATCAAAACCCCGAAAAAAATAAATTGCAGTTGATGCCAGTGAGGAGGGAAAGCTGGGAGGAGGTTGCTGCAGGAAC
Y
CTTGGATGAGCCTAAGTGTGAGAAGAGTGTGGACAGAACGGGGGTAGAGAATGCAGGGCAGGAGCCCAGAGCCATGGATATGGCTTCAGAATGGAGCCTG
Celera SNP ID:            hCV8823885
SNP Position Genomic:     28559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54377):
CCATCCATTAAAAATGTATAATTAAAGGTACTTTGCCAGATATAGACCTATAGCTGTGAAACTACCACCACAATCAAGATACAGAATGTTTATATCACCC
Y
CCAAAAGATCGCTTTTTTCCCTGCTTACCGAGACAAGCTCGGTTGTGGAGACTCCAACGCACCAGCACTAGAGGAATGAAGACAAAGACCCAGAAATAAA
Celera SNP ID:            hCV8823959
SNP Position Genomic:     18483
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54378):
ATGGTATTCCAGCTGCTCCTATCTGAGATGCACAGTCTCCACCATTACTTGGGCCTTTTGTTCAAAGTTTCCACTTCCCTCTCCAATTTTTTTTCATGCT
K
TGTGTGTGTCAGAAGCATTCAGTAGCGTAGGGTATGTGGAAGTGAGGCACCTCTCACTGTTTCTTTCCTTTACAGAGAATTTCTTTGGTCAGTAGCTTTG
Celera SNP ID:            hCV8823886
SNP Position Genomic:     27651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   (G,-|T,-)   WICGR_caucasian(T,3|G,95)   total(G,95|T,3)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54379):
TCTGTGGCTTCTGAGGAGCCAGCTTTCCTGACGCCCTGAGAGTGTCCTGGTTGGTTCTGAGGCCACACATCCACTTCCCTTGTAACCAGAAGGAAATGCC
M
AGGAGATAGAGGAAGGAAATCAGGGCACACATTCCCCAGCATGTGGATTCCGGATGGAAATGCAGCTTCCCTAAGCCCTTTCTCATAGGGCTTTTGGTTT
Celera SNP ID:            hCV8823887
SNP Position Genomic:     27373
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54380):
GCCCTTTTCAGAGGTTGTGAAGTTAGCTCCAAATCCCAGACTAGCTGCTACCCCAAGCCCGGGAGCTTCTCAGGTGAGAGACCATCAGAATTTGTTTGTA
R
CATTTGCATTATGAAAGCCCGCTAGGGTTTTTTCCCCCACCAAAAGGTCACCTACATTGAACGTGATGTGCTCAACTAAAGGAGAAATTCTGCTTTATTG
Celera SNP ID:            hCV15949414
SNP Position Genomic:     60512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS


Context             (SEQ ID NO:54381):
GTACAGACCCTTAGGGTGGCATTGAAAATCCATCATCTATTTCTCTGGCTAGTGCTCAGGGTCTGTGGCTTCTGAGGAGCCAGCTTTCCTGACGCCCTGA
R
AGTGTCCTGGTTGGTTCTGAGGCCACACATCCACTTCCCTTGTAACCAGAAGGAAATGCCAAGGAGATAGAGGAAGGAAATCAGGGCACACATTCCCCAG
Celera SNP ID:            hCV8823888
SNP Position Genomic:     27312
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54382):
GGCAGCATGTGTCCCGGGGTGGGGGCTCAGGGCCAGCTCACTCGCAGGGGCCAGGGCTAGTGGGGCAATATCTACTAAAGTTTTCTTACAGGGGGACTTG
Y
GCAGGAGGGAGGTGGAGCCTGACCTCAGGGATGGGGTGAGAAAGTGTCAATTGGCACTTGTAGGCAAGCATAGAATAGCAGACAGGTTGTTCCCGCTTCT
Celera SNP ID:            hCV15949341
SNP Position Genomic:     39014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54383):
TGAATGGAAGATCTGAGTGTCTGAGCAGGCTGTGTCTGCTCACTTTCCTATGTGGTTAACGCAGGAGGGCTACCAGGCACATGATTGGCATAGAGTCAGT
R
TTTTCTTTGGAAATGTATAGGACTGGGCATTTGTGTCCCCAGCTGTGGCCCTTCAGCCAGAGCCTCTGTCACAGGAACCCAGGTTCATTCCTGGCTCCAC
Celera SNP ID:            hCV8823889
SNP Position Genomic:     26793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54384):
GTTAAAGAGCCCAGCTATGAGTTTCAAATCTGGGCTGTTGTTTAAAAAGATCACACACAGACACACACATACACACACGAATGGACAATGAGAGTTCCTT
M
CTCTGTGCCCACCTTTTCCTGGAGACAGGTTGCAGCATTCCCTGGGGATGTGGAGGTTCGAGCACTAATTGAAGGACAATTCATGGCCAAGAGGATTCAC
Celera SNP ID:            hCV15949342
SNP Position Genomic:     38774
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   JBIC-allele(C,284|A,989)   total(A,989|C,284)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54385):
TTCTGGACATTTCGTAGACATGAATATATATAATATGTGACAGCCTTCTTTTACTTAGCATAATGTTTTCTTTTTAAAAATTTTTCATAGCTTTTTGCTT
R
TTTCAAATACCAACTTGAACCAGATACCTGGCATAATGTTTTCAAAGTTCATCCATGTCATAGCGTGTGTCAGTACTTCATTCCTTTTTGTGGTTCAGTA
Celera SNP ID:            hCV16242343
SNP Position Genomic:     15857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54386):
AAACTCATGGGTCCAGTCAGCAAGCACCAGCTCCCTCCCTCAGAGCTATGCCCTCTTCTGCAGCTTTAAAAATGGCTCCCTCATGAGAGAGAAGATCCGC
R
ACGAGTCTGTATCCCGTTCCTGGAGCGATTTCTCTAAGGCACTGCAGTCCACAGAGATGGGCAACGGTGGAAACCTGGGTAGGCCAGTTGGTGGTGCCCA
Celera SNP ID:            hCV15949343
SNP Position Genomic:     35708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54387):
TGATTCTGGACATTTCGTAGACATGAATATATATAATATGTGACAGCCTTCTTTTACTTAGCATAATGTTTTCTTTTTAAAAATTTTTCATAGCTTTTTG
Y
TTGTTTCAAATACCAACTTGAACCAGATACCTGGCATAATGTTTTCAAAGTTCATCCATGTCATAGCGTGTGTCAGTACTTCATTCCTTTTTGTGGTTCA
Celera SNP ID:            hCV16242344
SNP Position Genomic:     15854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54388):
TTAAAATGCCTTTCAGGTAAAGGTTGTTGCTGTTGATGCAGAGTTGAATGTCTTCTATGAGGAAAGTGTGCATTTTGACAGAGATCTTCCAGAATTTGGG
Y
ATGTACTTGATGTGCATGTGTGTGTGATGGGGGTGTTGGTTTTGGGGTCCTCCCGCAAACTTTTGTATTCGCAGACCGCACTGTTGAGGCTTTGCCAAAT
Celera SNP ID:            hCV16242345
SNP Position Genomic:     7885
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(C,0|T,84)   TSC_42_C(C,0|T,84)   TSC_42_AA(C,0|T,84)   total(T,252) 
SNP Type:                 MISSENSE MUTATION;DONOR SPLICE SITE;UTR 5;hmCS


Context             (SEQ ID NO:54389):
AGGCTGCTGTGGGTGGTGCTCAGGCTCTCAGCTGCCTCACGGGGTCCCGTGCCTATGAGGTAGGCTGAGGATGCGGGGGGTGCAGGGGGTGGTCTGGTTG
Y
AAGCTCCGGAGGCATAGTGGGTGACCTGCCTCTGGGGGGATCACATGAGGTCATGGAGGTGTTGTGGAGCCAGCAACAGGCACTCTGGCCCCTGGGTCCT
Celera SNP ID:            hCV15949273
SNP Position Genomic:     25320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54390):
GGACTGTTTCTCCATCAGCGACTGCCCGGTGTGGATGGACTCCAGCACCACAGCCCAGTGCCGCCAGCTGGAGGCTGCTGTGGGTGGTGCTCAGGCTCTC
M
GCTGCCTCACGGGGTCCCGTGCCTATGAGGTAGGCTGAGGATGCGGGGGGTGCAGGGGGTGGTCTGGTTGCAAGCTCCGGAGGCATAGTGGGTGACCTGC
Celera SNP ID:            hCV15949274
SNP Position Genomic:     25249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54391):
GGGCAGTGTGACCGCCAGCCCTGGGGCAGATCTCCAAGTCAGCGGATGGAGCTTAAGCCTGTGCCTTTGCCCTCCTTCCCAGGACTGTTTCTCCATCAGC
R
ACTGCCCGGTGTGGATGGACTCCAGCACCACAGCCCAGTGCCGCCAGCTGGAGGCTGCTGTGGGTGGTGCTCAGGCTCTCAGCTGCCTCACGGGGTCCCG
Celera SNP ID:            hCV15949275
SNP Position Genomic:     25168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54392):
ATTTTATATTGTTAACAGGCATTACATTGCACTTAATATGTAACTCAAATGAAAAGTATACAGTGAAAAGTCTTTTTTTTTCTTTTTTTCTTTCTTTTTT
W
GAGACAGAGTCTGGCTCTGTCGCGCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGTTCCGCCTCCCGGGTTGTCCTCCATTAGGAAATGGT
Celera SNP ID:            hCV904579
SNP Position Genomic:     11473
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54393):
GGAAACAAGTCCCTTGTTAGATATGTGATCTCAAAATTTTTGTCCCATTCTGTGGGTTGTCTTTTCACTTTCTTGATGATCCTTTGAAGCAATGTTTTTA
R
TTTTGATAAAGTCTAATCTTCCTACTTTTTTCCTTTTGCTATTTGTGCTTTGGTGCAGTATTGGTTAGGTTTTGGTATCAATTTTATATTTACTTCACTA
Celera SNP ID:            hCV8823961
SNP Position Genomic:     17279
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54394):
TGGACTTCTAGCCTCCAGAACTGTGAGAAAATAAATGCCTGTTGTTTAAACCATCTAGTTTATGGTATTTTGTTATAGCAACCTGAGCAAACTAATACAA
Y
GTATACGTTTTTGTGTGGACATATATTTTCATTTCTATTGGGTATATTACCTAAAAGTGGAATTGCGGGGTCACATGGTAACTCTGTGTTCAACATTTTG
Celera SNP ID:            hCV8823963
SNP Position Genomic:     16456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54395):
TTGATAAGCAGACATTAACAAATGATATATTTGATTTGCTTTTTTCTCATTGTCAGGACATTTCCAAAGAGGAGGGAAAGAATGGAATGTGGGAAAGAGA
W
GTCAGGGGTTCTCCTGACCAGAAGGGTGAGGGTGAGGGTCCAGGTGGGAGCACTGGGGACTGACGTGTTCCTGAGGCCACCTGAATGGAAGATCTGAGTG
Celera SNP ID:            hCV8823890
SNP Position Genomic:     26611
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54396):
TCTATCTCTGGATTTGCTGATTCTGGACATTTCGTAGACATGAATATATATAATATGTGACAGCCTTCTTTTACTTAGCATAATGTTTTCTTTTTAAAAA
W
TTTTCATAGCTTTTTGCTTGTTTCAAATACCAACTTGAACCAGATACCTGGCATAATGTTTTCAAAGTTCATCCATGTCATAGCGTGTGTCAGTACTTCA
Celera SNP ID:            hCV8823964
SNP Position Genomic:     15837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54397):
AACCACAATCAACTCTCTATCTCTGGATTTGCTGATTCTGGACATTTCGTAGACATGAATATATATAATATGTGACAGCCTTCTTTTACTTAGCATAATG
Y
TTTCTTTTTAAAAATTTTTCATAGCTTTTTGCTTGTTTCAAATACCAACTTGAACCAGATACCTGGCATAATGTTTTCAAAGTTCATCCATGTCATAGCG
Celera SNP ID:            hCV8823965
SNP Position Genomic:     15822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54398):
TCTTACGTGCAGTGACTGAAAACGTTGATAAGCAGACATTAACAAATGATATATTTGATTTGCTTTTTTCTCATTGTCAGGACATTTCCAAAGAGGAGGG
R
AAGAATGGAATGTGGGAAAGAGATGTCAGGGGTTCTCCTGACCAGAAGGGTGAGGGTGAGGGTCCAGGTGGGAGCACTGGGGACTGACGTGTTCCTGAGG
Celera SNP ID:            hCV8823893
SNP Position Genomic:     26587
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54399):
TAATATGTTTAACATACAGCTTTTGCTCACTTTGGTAGATTGCACAAATGACCACAATACTCCACCCATCCCTGTACCCACACCCTTTGCAATGTGACTG
Y
AATTCCTCCCATCAAGGAGTCGTTTCCCTACCTGTTGATTTGCTTTATCCAGTAGAACAGGGGAAGTGGCATTGTGCCAGTTCTAAGCCTAAGCCTCAAG
Celera SNP ID:            hCV8823967
SNP Position Genomic:     14305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54400):
AGGATTTGGGTTCCTAAGAATTTATATTCCTTTTCCAGCGTTTTACAGGGAACCAAATTGCAAAAATTTACCAGCAGAACCCCGAGGCCTACTCACATAC
R
GAGGTTGGTTAAATGTTCCTGTTTGATTGAAAGTCACAGTTGAATTCTTTTCATAATATGTTAGAATAGATACATCTTACGTGCAGTGACTGAAAACGTT
Celera SNP ID:            hCV8823894
SNP Position Genomic:     26412
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54401):
ATTTAATTTATTTTTTTTATTTGAGACAGGAGCTGGCTGTCACCCAAGCTGGAGTGCAGTGGTGTGATTCAGCTCACTGCTATCTATGCCTCCCGGGCTC
R
AGCAATCCTCCCTCCTTAGCCTCCCAAGTAGCTGGAACCACAGGTGCGCCCCTACCATGACCAGCTAATTTTTTTGTATTTTTTTTGTAGAGATGGGGTC
Celera SNP ID:            hCV8823969
SNP Position Genomic:     12656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54402):
GCACACTACTGTGCCTGGTTGGGGCTTACTTTTAAAAGCTTTTATGGTACCTACTCCTATCCAGAGCATGCTACATTAAACTCACTTTGTGGAGGTAATT
R
TTCATTCTGTGTAGGATTTGGGTTCCTAAGAATTTATATTCCTTTTCCAGCGTTTTACAGGGAACCAAATTGCAAAAATTTACCAGCAGAACCCCGAGGC
Celera SNP ID:            hCV8823896
SNP Position Genomic:     26299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54403):
CAGTAGATATCAAACAGATTTAATGCTTATTTTTAAAATATTTAATTATTAGAAACGAGGTCTCACTGTGTTGCCCAGGCTGGACTCCTGGGCTCCAGAG
Y
TCCTCTCGCTTCAGCCTCCTGAGTAGCTGGGATTACAAGCGCACACTACTGTGCCTGGTTGGGGCTTACTTTTAAAAGCTTTTATGGTACCTACTCCTAT
Celera SNP ID:            hCV8823897
SNP Position Genomic:     26158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54404):
CTCGCTGGAGTAGAAGTTTTGGGGATAGGGCCAACTCTACTTGGGCCACCTGAAATAACAATATGTGGATGGGGAAAATACCCCGATCCCTCACCTGGTG
S
CTTGGTCAGAACAGTCACCGTGCTGTGTGAAGAGCAAGGGTTATTCACTCAGGGTTGTCCAGTCCTGATGTGGGAGAGGCCCTCCAGGAAGGCCCAGAAG
Celera SNP ID:            hCV8823898
SNP Position Genomic:     25855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54405):
TTGGCTATTTGGGGAACAAAGATTCCTTGAGACATGTGGGTGTTCCTACTTAGCCTCAGTTTCTTCATTTTACTAAATCTTTGAGTGTTACCCCAGATGA
R
TCCTCTGTTACCACGATTACGGTGAGGCAGCCCTGCCTTCAAGGAGGTCTCTAGGTTGAACTGCTCCTAGGGTGTGGGGCCTCATCTGGTGACGTTAGTA
Celera SNP ID:            hCV904580
SNP Position Genomic:     7637
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54406):
GTCGTGGTCCAGCCTGACCTGCAGTTCCTCTGCCTGAGTCTCTTCACTGAAACTCATGGGTCCAGTCAGCAAGCACCAGCTCCCTCCCTCAGAGCTATGC
Y
CTCTTCTGCAGCTTTAAAAATGGCTCCCTCATGAGAGAGAAGATCCGCAACGAGTCTGTATCCCGTTCCTGGAGCGATTTCTCTAAGGCACTGCAGTCCA
Celera SNP ID:            hCV15949353
SNP Position Genomic:     35659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54407):
GTGAACATCTTCCTCTAGAGGGTCTTGGCTTTGGCTATTTGGGGAACAAAGATTCCTTGAGACATGTGGGTGTTCCTACTTAGCCTCAGTTTCTTCATTT
K
ACTAAATCTTTGAGTGTTACCCCAGATGAGTCCTCTGTTACCACGATTACGGTGAGGCAGCCCTGCCTTCAAGGAGGTCTCTAGGTTGAACTGCTCCTAG
Celera SNP ID:            hCV904581
SNP Position Genomic:     7607
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54408):
TTTGTGAACAGGAGGGACATGCCCAGTTTGTGACAGGAAGTGATGTGACTCCAGGCTCTGCAAAAGATTCCTTCAGGTCTGGTGACCTGGAGACTGTAGC
R
TTTTCGTGGCCTGAAGGGTGGGTGGCTGTGCTGGGCAGGCGGGATTTACCTCAACAGAGCACCTTTGCTTTGTCCCCGTCCCTCAGGGAGCCATTTCTTC
Celera SNP ID:            hCV15949354
SNP Position Genomic:     32122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54409):
TGCTTCCCTGTTCCTTGGCTCTTACTCCCCTATTGACTACAGTGATGGTGAGCCTCGGGGTATGGGGTGGGTGCCTGGGCAGTGTGCATGTGGCATGTGG
S
TGTGCAAGCAGTGGGAGCCCCACCTACCCCGAGTGGGTGCCAATCTTGTAGCCCTGTCATCTGTTGCCAGGAAGGAAGTGTATTCATTATCTTTTACCAC
Celera SNP ID:            hCV15949355
SNP Position Genomic:     27853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54410):
GCCCAGCAGGCACTGACAAGCTTATCACCAGACCTCCGGCTACACCAGCAGCTTCAGGTAACTGTGGCTACGTGGTGTGAGTGTGAGAAACTTCTGCAGA
R
TCCCAAGTCCTGTGGGTCCTGAAGCCTGCTCATCTCAGTGTTGCAGCTGTGCTCACGCGCCCTCACCAGAAGAGCTTTCAACCTCAGGCTTTTGGGGAGA
Celera SNP ID:            hCV15949282
SNP Position Genomic:     24871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54411):
GAAGTCAGCTACTGTAAGGCAGGGGAACAGACAGGCGGGTAGCCCTGCGCACATGCACAACCAGTGACCTGGAAGCAGATTATAGCCCAAAACCTTTTTT
W
AAAAATTGAAATGGCCCAGGCCTGGTGGCTCTTGCCGGTAATCCCAGCACTTTGGGAGGCCGAGGCGAGTGGATCGCTTGAGCCCAGGAGTTCGAGACCA
Celera SNP ID:            hCV904582
SNP Position Genomic:     6633
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54412):
CAACACGGAAGTATATACTGGAAGGCTGGAGCCCAGCAGGCACTGACAAGCTTATCACCAGACCTCCGGCTACACCAGCAGCTTCAGGTAACTGTGGCTA
Y
GTGGTGTGAGTGTGAGAAACTTCTGCAGAGTCCCAAGTCCTGTGGGTCCTGAAGCCTGCTCATCTCAGTGTTGCAGCTGTGCTCACGCGCCCTCACCAGA
Celera SNP ID:            hCV15949283
SNP Position Genomic:     24841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54413):
CCCGGGGCCCCCGCGCCCCTGCCCTGCGCGCGGCCGTGGGGCGCCGGTGCCCTCGCCCGGAGATGCCCTGCCAATGCCACCCGCTCGCAAGATGCGGCCT
S
GACCCCGCCTGGACCCAGCTACCCCAGGAAACTGCAGGCGCTCCTCGGCAGGACCCCCGGTGCCCAGAGGGGCCGGAGGACTCGGCGGGTTCCTGCGCTG
Celera SNP ID:            hCV904583
SNP Position Genomic:     6402
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54414):
CCAGGAGGGTGATGAGCTCTGTGACTAAGAAGTGGCAGGGGCAGGTGTGGAGCCCAGTTCTTTGGCATGTGGTCTGGGGTCTTTCTGTGTCTTCAGGAGG
S
TGTGACACCGGTGTGTGGTCATGTGACCATGTGCTTGGGTTTCCCAACAGCAACACGGAAGTATATACTGGAAGGCTGGAGCCCAGCAGGCACTGACAAG
Celera SNP ID:            hCV15949284
SNP Position Genomic:     24690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54415):
CTACCTCTCGGGCTTCCCGGGGCCCCCGCGCCCCTGCCCTGCGCGCGGCCGTGGGGCGCCGGTGCCCTCGCCCGGAGATGCCCTGCCAATGCCACCCGCT
Y
GCAAGATGCGGCCTCGACCCCGCCTGGACCCAGCTACCCCAGGAAACTGCAGGCGCTCCTCGGCAGGACCCCCGGTGCCCAGAGGGGCCGGAGGACTCGG
Celera SNP ID:            hCV904584
SNP Position Genomic:     6387
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54416):
CCCAGATGATTCTTCAGTTGTTGTAACACCAACCATGTTTTTATTTAATTTATTTTTTTTATTTGAGACAGGAGCTGGCTGTCACCCAAGCTGGAGTGCA
K
TGGTGTGATTCAGCTCACTGCTATCTATGCCTCCCGGGCTCAAGCAATCCTCCCTCCTTAGCCTCCCAAGTAGCTGGAACCACAGGTGCGCCCCTACCAT
Celera SNP ID:            hCV8823970
SNP Position Genomic:     12614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54417):
ACATTTGTATCCAACTTTAATTTTTCCCAGATGATTCTTCAGTTGTTGTAACACCAACCATGTTTTTATTTAATTTATTTTTTTTATTTGAGACAGGAGC
K
GGCTGTCACCCAAGCTGGAGTGCAGTGGTGTGATTCAGCTCACTGCTATCTATGCCTCCCGGGCTCAAGCAATCCTCCCTCCTTAGCCTCCCAAGTAGCT
Celera SNP ID:            hCV8823971
SNP Position Genomic:     12589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54418):
AAAAATATTTGGAGTTTATCCAGGTACGTAGTATGACATTTGTATCCAACTTTAATTTTTCCCAGATGATTCTTCAGTTGTTGTAACACCAACCATGTTT
K
TATTTAATTTATTTTTTTTATTTGAGACAGGAGCTGGCTGTCACCCAAGCTGGAGTGCAGTGGTGTGATTCAGCTCACTGCTATCTATGCCTCCCGGGCT
Celera SNP ID:            hCV8823972
SNP Position Genomic:     12554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54419):
ATTATGAAGGAACTCACCTATGTTTTTATCTAGTTCTTGTAAGATTTCAGCTTTCTTACATAAAAATATTTGGAGTTTATCCAGGTACGTAGTATGACAT
W
TGTATCCAACTTTAATTTTTCCCAGATGATTCTTCAGTTGTTGTAACACCAACCATGTTTTTATTTAATTTATTTTTTTTATTTGAGACAGGAGCTGGCT
Celera SNP ID:            hCV8823973
SNP Position Genomic:     12493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54420):
TGCTCTCCCGAGGAGTCTGCTCATGGTATTCCAGCTGCTCCTATCTGAGATGCACAGTCTCCACCATTACTTGGGCCTTTTGTTCAAAGTTTCCACTTCC
Y
TCTCCAATTTTTTTTCATGCTGTGTGTGTGTCAGAAGCATTCAGTAGCGTAGGGTATGTGGAAGTGAGGCACCTCTCACTGTTTCTTTCCTTTACAGAGA
Celera SNP ID:            hCV15949365
SNP Position Genomic:     27629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54421):
TCACATACAGAGGTTGGTTAAATGTTCCTGTTTGATTGAAAGTCACAGTTGAATTCTTTTCATAATATGTTAGAATAGATACATCTTACGTGCAGTGACT
R
AAAACGTTGATAAGCAGACATTAACAAATGATATATTTGATTTGCTTTTTTCTCATTGTCAGGACATTTCCAAAGAGGAGGGAAAGAATGGAATGTGGGA
Celera SNP ID:            hCV15949366
SNP Position Genomic:     26504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54422):
CAAAAATTTACCAGCAGAACCCCGAGGCCTACTCACATACAGAGGTTGGTTAAATGTTCCTGTTTGATTGAAAGTCACAGTTGAATTCTTTTCATAATAT
R
TTAGAATAGATACATCTTACGTGCAGTGACTGAAAACGTTGATAAGCAGACATTAACAAATGATATATTTGATTTGCTTTTTTCTCATTGTCAGGACATT
Celera SNP ID:            hCV15949367
SNP Position Genomic:     26472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54423):
AGGTGACATTGCGGTAAGGCGACTTCCCACACCCATAGGCTCTTTCTGTTTCCACACTCACACCCACACTCTGATAAGTAGCAGAGGTGCTGCTGAGACC
S
AGATCCCAGGGTCCCAGGGTCTGGGTCCCAGCAGGATCTCTGCTACTTATCAGAGTGTCTGCCGGTTCCAAAAGACAGTGGAGGGAGGGGATGGGGGCGC
Celera SNP ID:            hCV16242368
SNP Position Genomic:     34144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54424):
CCGAAGGAAGTCAGCTACTGTAAGGCAGGGGAACAGACAGGCGGGTAGCCCTGCGCACATGCACAACCAGTGACCTGGAAGCAGATTATAGCCCAAAACC
Y
TTTTTAAAAAATTGAAATGGCCCAGGCCTGGTGGCTCTTGCCGGTAATCCCAGCACTTTGGGAGGCCGAGGCGAGTGGATCGCTTGAGCCCAGGAGTTCG
Celera SNP ID:            hCV8823987
SNP Position Genomic:     6627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54425):
GTTTTACAGGGAACCAAATTGCAAAAATTTACCAGCAGAACCCCGAGGCCTACTCACATACAGAGGTTGGTTAAATGTTCCTGTTTGATTGAAAGTCACA
K
TTGAATTCTTTTCATAATATGTTAGAATAGATACATCTTACGTGCAGTGACTGAAAACGTTGATAAGCAGACATTAACAAATGATATATTTGATTTGCTT
Celera SNP ID:            hCV15949376
SNP Position Genomic:     26451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54426):
CTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTATAGGTGCCCGCCACCACGCCTGGCTAATTTTTTTATATTTTTAGTAGAGACGGGGTTTCACCGTGTT
W
GCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTAATTTTT
Celera SNP ID:            hCV27118800
SNP Position Genomic:     31035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54427):
GCCTCAGCCTCCCGAGTAGCTGGGACTATAGGTGCCCGCCACCACGCCTGGCTAATTTTTTTATATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCA
R
GATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTAATTTTTTTTTA
Celera SNP ID:            hCV27118801
SNP Position Genomic:     31040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54428):
TGAAAGAGCTGCTGAGCCCAGGAGGTACTAACGTTTATTGAGCCCATTTGGTGCCAGGCATTGTGCTCATGGTTTTCTATACCTTCCTCATTTACTTTTC
T
TTTTTTTTTTTTTTTAATTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTTGAGTGCAGCGGGACGATCTCGGCTCACTGCAACCCCCACCTCGTGG
Celera SNP ID:            hCV27118803
SNP Position Genomic:     36997
SNP Source:               Celera
Population(Allele,Count): no_pop(T,10|-,13)   total(-,13|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54429):
TCTATACCTTCCTCATTTACTTTTCTTTTTTTTTTTTTTTTAATTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTTGAGTGCAGCGGGACGATCTC
R
GCTCACTGCAACCCCCACCTCGTGGGTTCAAACGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGATGCAAGCCACCACACCTGGCTAATTT
Celera SNP ID:            hCV27118804
SNP Position Genomic:     37072
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,25)   total(G,25|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54430):
CTCCAACCTCCACCTGCTGGGCTCAAGCGCTTCTCCTGCCTCAGCCTCCTGAGTTGCTGGGACTACAGGCAAGCGCCACCACATCTGGCTAATTTTTTGT
R
TTTTTAGTAGAGATGGGGTTTCACCATGTTAGGCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTA
Celera SNP ID:            hCV27118806
SNP Position Genomic:     47095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54431):
TTCACATGCAGTTGTTAAATAAATAGCTAATGTTTACCTGCAGAAAAGGCTTGCCCTTCTATCAGGAAGTGCGGGTGAGGTGGTGGTTTTTTTTTGTTTT
K
TTTTTTTTTTTTTTTTACTTTTATCATTTAATTTTTATTTTTAAAAATGTATATAGTAAAAAAGCTGGGTTGCGGAGATGTCGGTCAGTGGATTAAAAAT
Celera SNP ID:            hCV27118807
SNP Position Genomic:     47723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54432):
TCACATGCAGTTGTTAAATAAATAGCTAATGTTTACCTGCAGAAAAGGCTTGCCCTTCTATCAGGAAGTGCGGGTGAGGTGGTGGTTTTTTTTTGTTTTG
T
TTTTTTTTTTTTTTTACTTTTATCATTTAATTTTTATTTTTAAAAATGTATATAGTAAAAAAGCTGGGTTGCGGAGATGTCGGTCAGTGGATTAAAAATT
Celera SNP ID:            hCV27118808
SNP Position Genomic:     47724
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|-,7)   total(-,7|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54433):
TGAAATATGTACTTTATTCTTTTAATTAGGGCTTAAAATGTTAAAATATTTCTAAAGAGGACTATTTTGGGACTCTACAGTGTACCTCTTTAATGAGAAC
R
CCCACAGTTTAGGCCTATTAAGGCATAATTCCTTTATTTTACTAAAGAATTAAAATAATAAAGATTTGATAATTTTCTTTCTTTTTTTTTTTTATTGATC
Celera SNP ID:            hCV27118809
SNP Position Genomic:     48418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54434):
TCCAAAGTGGGCTGTCAGCTGAGGGCTCTCTGCCAACAGCACTCCCATCAGTTGGGAGAATAAGTTCTTCATTCCCGAGGTGAATCTGGATGGCACACCA
Y
AGCATCCGCCACACCACTGCACCTATTTACAGAAGGGTCTGGCAGCCCAGCAGCAGGGGTGGGTGCATCTTGTAAGGAACTGTGAAGGGTCTGAGATTTA
Celera SNP ID:            hCV1845309
SNP Position Genomic:     61320
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54435):
GTGGAGTGCTTGGTACACACTCAGGGCATACTGTCTGGGTTTGATCCCTGGCTCTGCCATTTACAGGCAGTGACCTGGGATACGTCATCTGGCTTTCTGG
K
GCCCCCGTATTCTCATCTGTCATAGGGTCATTGTGAGTGTAAGTACATAGCACAGTGCCTCCTATTAATACGCAGTAAACATTATTAAAGCTTGGGCTTC
Celera SNP ID:            hCV3083911
SNP Position Genomic:     23185
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:54436):
CAACTATTTGTTTTAAAATACATAACGAATGGATGTCTTTTTATCACAAAAGATTCATGCAAAACAGAAATATGGAATAAGAAGCAAATGCCCCCTTCAT
W
TGCCTCCCAGACTCCTTTCCAGACTGTGACTTCCTTCCTGTGAGTTTCTGTGTTAGATTGAATCATACGGAATTGCCAATATTGAAGAAGTTTTGATTTA
Celera SNP ID:            hCV8825744
SNP Position Genomic:     44229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54437):
TTTCTAGATGGAGAGGTTGAGACTCAGAGGCTCAGGCTAAATAATCTGCCCAGAGTCAAGCAAGGTCATAGATGGTGGAGGGGGCTCAAACCCATTCCTC
T
CTGGCTCTGAAGCTGCTGTTTTCTTTCTCCTCCACAATGTGACCTTTCTCGGGAAGGATTTAGTTGGTTCTTGCTCCTCAAAATTGACATTGCTGCTGGA
Celera SNP ID:            hCV3083912
SNP Position Genomic:     37434
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54438):
GGTCTCTGGTTTTCCTAGGCAGAGGACCCTGCGGCCTTCCGCAGTGTTTGTGTCCCTGGGTACTTGAGATTAGGGAGTGGTGATGACTCTTAACGAGCAT
K
CTGCCTTCAAGCATCTGTTTAACAAAGCACATCTTGCACCGCCCTTAATCCATTTAACCCTGAGTGGACACAGCACATGTTTCAGAGAGCACAGGGTTGG
Celera SNP ID:            hCV27118810
SNP Position Genomic:     48706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54439):
GTCATCACCACATTTTGGGTTGTACCTGAGAGATGTTTCTGACCCCAGTAAATGGGGGGTTTATGTAAGACACTCTGTCTGGAAACTGTAACTGTCAGAG
Y
TGGCGTTGGATTCAGTGGCAGATGATGGCACTACATGTTGGATTATGAATGGAAAGCTTTGTATAAAGTAGGAAGTTCATCTCAATCTTCTGATGGAGGA
Celera SNP ID:            hCV3083913
SNP Position Genomic:     37648
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,10)      total(C,2|T,10) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54440):
GCTGTTGGGTACACCTCCCAGATGGGGTGGTGGCCGGGCAGAGGGGCTCCTCACTTCCCAGAAGGGGCGGCCGGGCAGAGGCACCCCCCACCTCCCTCCC
R
GACGGGGCGGCTGGCCGGGTTTTTTTTTGTTTAATCAGGGGTTGGATCAGTACTAGTTAGTTTTAGTTCACCAGTAGTTGCAGTGTCTTGGGATCAGGAT
Celera SNP ID:            hCV27118811
SNP Position Genomic:     49099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54441):
CAGGCACCGGGGACACAAAGGAGAACAAAACATTGGTGGCCCTTGCTCCCCAGAGCCTGCTGTCTAGGAGGGAGAGGGACAGTAGACGACTGAATGAGCA
Y
GTACATGAATGCAGCAGGTGCTAAGGCTAGGTGGCAGAAGAACAGAGTGCCGCAAAGGAAAGCAGCTGGTGGGCGGGTTGGAGACTTACCCTGGGTGGGG
Celera SNP ID:            hCV3083914
SNP Position Genomic:     37981
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54442):
GTATGAGCCACTGTGCCCAGCCTATTATATTTTTTTGGAGACAAAGTCTGGCTTTGTCAGGCAGGAATACACCCAGGCTGGAGTACAGTGGTGTGATCAC
R
GCTCATTGCAGCCTTGAATTCCTGGGCTCAAGCAATCCTCCCACTTCAACCTCCCGAGTAGCTGGGACCACAGGCATGCATCACCGTTTCCAGCTAATTT
Celera SNP ID:            hCV27118812
SNP Position Genomic:     50093
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54443):
CTGCCTCCCTTTAACTTGCTAATTGTGAGGCTTAAAAAGAATCCTTGACCAAAATGGCTTTATAATCTAATAGGAAATCTGGGGGTAGAATTGGTTCAGT
R
GTTCAACATGAGAACTCTGGTCATGTTCCCTGCAATTCCTTAGGTCAGCAGTGGACAATGGGAACATAATGTGAGCCACATATGTCATTTAAAATATTCG
Celera SNP ID:            hCV1845310
SNP Position Genomic:     62281
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54444):
ATTGGCACTTGTAGGCAAGCATAGAATAGCAGACAGGTTGTTCCCGCTTCTCAGCTGTGTCCACAATAGCCTGACCTTTTGGCCAGGACCTGTAAGACTT
S
GGAATGGTCTTTCTGAAACCCTAAGCTCCAAGCTGCAGATGAGCTGTCCTGAGCTCTGGACTGCAAAGACATAGGCAGTGCAAGGTCTGGGGACATGAAT
Celera SNP ID:            hCV3083915
SNP Position Genomic:     39164
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|C,7)      total(G,4|C,7) ;no_pop(C,-|G,-)   ;(C,-|G,-)   (C,-|G,-)   Caucasian, from CEPH families, part 1 - WICGR(C,45|G,111)   total(G,111|C,45)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54445):
TGAGGCTTAAAAAGAATCCTTGACCAAAATGGCTTTATAATCTAATAGGAAATCTGGGGGTAGAATTGGTTCAGTAGTTCAACATGAGAACTCTGGTCAT
S
TTCCCTGCAATTCCTTAGGTCAGCAGTGGACAATGGGAACATAATGTGAGCCACATATGTCATTTAAAATATTCGGTTGCCTCATTTTTTAAAGTAAAAG
Celera SNP ID:            hCV1845311
SNP Position Genomic:     62306
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,8)   total(G,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54446):
TAAAGCTTCAACATGAGTTTTGGAGGGGACACATATTCAAACCATAGCAACTGGCATGGAGAGGGCAGACCCAGGGCCGGGGGAGGCAAAAGGAGGAGAA
R
GGGATTTCTGACAACTTGAGCTGTAGAATAATCAGCATTAGGATGTCAGTGAGTTCCCCTTACAGGTGGCGTTGGAATGGTCTAAGGGTCTGTAAGGAGG
Celera SNP ID:            hCV3083916
SNP Position Genomic:     39858
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   WICGR1_caucasian(A,73|G,110)   total(G,110|A,73)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54447):
ACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCACCCCATTGCACTCCAGCCTGGGAGACAGAGCGAGACTTCATCTCAAAAACAACAACAACAACAAC
M
ACAACAAAAAGAAGAAATAGAACACTAGAACCTTGGAGTCTTGCTGTGCTCCTCTTCCACTGTATCCTCATCTTCCCCTCATCCCTGCAGAGATCATTTC
Celera SNP ID:            hCV27118813
SNP Position Genomic:     50736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54448):
AAAGTAAAAGTAAAAATAAAAATAAATGATTAAAATTAATTTTAATACATTTTATTTAATCCACTATATCTGAAATATTGTCATGTCAACGTGATAAATT
W
GAAGTTACTAATGTGGGGCCGGATGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAAGCCAAGGTGGGCAGATTGCTTGAGCCCAGGAGTTCGAGA
Celera SNP ID:            hCV1845312
SNP Position Genomic:     62497
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,8)   total(A,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54449):
TGCTCATCAGGGAGAAAAATACTGGCCTATCCCTCCCCTATCCCACACACGCCCAACAGGCTACCACTTGGTCATATGGTCAATTCTGGTTGTAGGAAAG
K
CTAGGGTAGGGTCTGGCTCTTTCATTCTATCTAGAAGGAGGCCAGCAAGGAGGAAGATAATTGGGGAAAGTTTTAGGGCAGCACAGCAGCGTCTGCCTCA
Celera SNP ID:            hCV1845313
SNP Position Genomic:     63174
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,11)      total(G,11|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54450):
AGCTGTTAATTTTCATTGTACTGTGATATTCCATCACATGATTATACAACCATTTATCCATTTGCTATGGCCTGACTGTGTCTCCCCAAATTCACATGTT
A
AAAACTTAATCCCCAATGTGACAGTGTTGGGAGATGGGCCTGATGGAAGGTGTTTAGGTCATGAGGGCTCTTGTGTATTAATGCCACTATAAAAGTGCTT
Celera SNP ID:            hCV27118814
SNP Position Genomic:     51140
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54451):
TTGATCCTGTCAGCTGAGGAGGATATATCGCCTCAGGACCCTGTAATAATTGCATTAACTGCACAAATTGTACAGCATGTGTGTTTGAGCAATGTGAAGT
R
TGGGCACCTTGAAAAAAGAACAGGATAACAGCAATTGTTCAGGGAATAAGAGAGATAACCTTAAACTCTGACTGCTGGTGAGCTGGGCAGAACAGAACCA
Celera SNP ID:            hCV3083917
SNP Position Genomic:     40985
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,9)      total(G,9|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54452):
TACCACTTGGTCATATGGTCAATTCTGGTTGTAGGAAAGGCTAGGGTAGGGTCTGGCTCTTTCATTCTATCTAGAAGGAGGCCAGCAAGGAGGAAGATAA
Y
TGGGGAAAGTTTTAGGGCAGCACAGCAGCGTCTGCCTCATCTAGAGTACGGAGTGGCCAATCCTCTGAGCTGTATGTGCCTCATCACTCTCCCTGGCCTG
Celera SNP ID:            hCV1845314
SNP Position Genomic:     63235
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,10)      total(C,3|T,10) ;no_pop(T,-|C,-)   (C,-|T,-)   Caucasian, from CEPH families, part 1 - WICGR(C,56|T,88)   total(C,56|T,88) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54453):
CGTAGCCTGTCTCTTATGGTTGAGGCTGCAGAGATGAAATAAACTCCAGTCTCCCATAGTGCTCCCAGGCTTATTAGGAAGAGGAAATTCCCACCTAATA
M
ATTTTGGTCAGACTGGTTGATCCCAAAACCCTGTCTCCTGATAAGATGTTACCAATGACAATGGTGCCCGAAACTTCATTAGCAATTTTAATTTCACCTC
Celera SNP ID:            hCV3083918
SNP Position Genomic:     41307
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,8|C,8)      total(A,8|C,8) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54454):
GCACCAAGAGTAGGCCCCAGTTGCATAATCAGTTGTTAAAATACTTGGCTTCCAGCTGGGCGTGGTGACTCACTCCTGTAATCCCAGCACTTTCGGAGGC
Y
GAGGCGGATGGATCACATGAGGTCAGGAGTTAGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAAAGAAAAAAACACAAAAATTAGCT
Celera SNP ID:            hCV1845315
SNP Position Genomic:     64082
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54455):
ACTAGGATTACAGGCATGAATCCTAGTGCTAGGATTACCGCACCCAGGCTGTATGGTAGTTTTGTTGGAATATACAACCTAAATAAATATTTTAAGAGAG
A
AATTCAATAGGTGATGGTTTTGAGGCCTGACATGTCCAACAAGGCCTTTGTTTCATCCTCCCAAATACTGGCTGGGTAAAAGACTCTATGTTCAAAATAC
Celera SNP ID:            hCV27118816
SNP Position Genomic:     58961
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54456):
TAAAGGTCTGCAAAGACTTCCAAGTTCCCTGAAAATGAGACTGGGTGAGCAGGGCAGGGTTGGTGCTGGAGTTGGTGGAGTGCCTGGCAGGGGTCCTCCG
R
CTGTCAGAAGAGAACCCCAGGGAACGGAACAGCCCAGCATACAGGGAGAAGCAGTTAGGGCAAAAGGCCCCCATGGGCTCAGGAGGAGCTGATGGGATTG
Celera SNP ID:            hCV3083919
SNP Position Genomic:     42251
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54457):
TGAGAGGTTCAGGCACGAGAATCACTTGAAACCAGGAGGTGGAAGCTTCAGTTAATCAAGATTGCACCACTGCACCTCCAGCCTGGGTAACAGAGTGAGA
M
CCTGTCTCAAAAAATAAAAAAACAAAACTTAACTTTGGAGCAAATTAAACCAAATTAAGAAGGAATGGGGTTGGCATGAGCTCCTACTTGTGTTTACTTG
Celera SNP ID:            hCV1845316
SNP Position Genomic:     64318
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,8)   total(A,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54458):
GAAGCTGAGATGACCTTTAGAGTTTTACCCAGTTGGTCTAAGGGGCTGGGCCTTTATACCCCATGTCAATCAGTCATCACATGTGGGCCACCCCAGGATG
S
GGTGAGGCAGCTCTTTATAGCTAAAGCAGTCTCCAAAGTGGGCTGTCAGCTGAGGGCTCTCTGCCAACAGCACTCCCATCAGTTGGGAGAATAAGTTCTT
Celera SNP ID:            hCV27118817
SNP Position Genomic:     61188
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54459):
GAATAGCTCAATTCCTCCAACCCTTCCTCTAGGACATGGTTTTAAGTCTCTGCCCTGTCATCTGATCTGCAGCAATGACTTGTTTCTCGTCCAGACACCT
Y
ATCTCCTTCCCTAGCCTCTTCTCTTCCTCCTCCTCTCCTCTGGGTAGCCCTGAAGCCACTCCTGGAGGGGCCCTTGGATCTCTGAAGGAAGGCCAGGTGG
Celera SNP ID:            hCV15961939
SNP Position Genomic:     32737
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,285|C,1016)   total(C,1016|T,285) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54460):
AGGCTGAGGTGGGAGGATTACTTGAGCCCAGAAGGTGGAGGTTGCAGTAAGCCAAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGACCCTGTCTC
A
AAAAAAAAAAAAAAAAAGTTACTAATATGATATTTTACATTTCCTTTTTTGCATGAAGCTTTTGAAATTTGGTGTGCATTTAACACTTATAGTTCTGGGC
Celera SNP ID:            hCV27118818
SNP Position Genomic:     62789
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54461):
AATCTAGGGACTCAAATCAGCAGAATGGGGGAGACAAAGCCCGGTCTCACCCCCTAACCTCATCCTATCTCTTTCTCCAACCCTGACTGCCCACTCCTCC
R
CAAACCGTGACCCATAGCCGCCCCCACCCCATACCTTGATCTACCATCCATCCTCTTCCCCAATCCAAACCCCACAGTCTCTTCTCTCCCACACCCTGCC
Celera SNP ID:            hCV1845317
SNP Position Genomic:     72938
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 UTR 3;TFBS


Gene Number:                 267
Celera Gene:                 hCG42513 - 84000313468687
Gene Symbol:                 PCDHB12
Protein Name:                protocadherin beta 12;PCDH-BETA12
Celera Genomic Axis:         GA_x5YUV32VUFE(34697386..34712979)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12427):
GGCAGGTTTTAAACTCTTGACCTCATGTTCCACCCGCCACGGCCTCCCAAAGTGCTGTGATTACCGGTGTGAGCCACTGCGCCCGGCCTTTTTTTTTTCT
TTTCTTTTCTTTTTTTTGATACAGAGTCTTAGTCACCCAGACTAGAGGTCAGTGGCAGGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGCTCAAGAGA
CCAGCCCACCTCCGCCTCCAAGTAGCTGGGACTACAGGCGTGCGCCACCATGCCCGGCTACTTCTTGTATTTTTTGTAGAGACGGATCGTCACCATATTT
CTTAGGCTGGCCTTTAACTTCTGAGCTCAAGAGATGCACTCCCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGGCCAGGCCTATTTTCAATTTTCAAG
TATTGCATATCATTGTGAATAACATTGTAAATCCTTTTTATATTAAGTAACAGGTAGTTAATCCATTTCTAATGAATAATTTTAAGGTTTTAATCCTTTC
CAAGTGTACAATAATTTACTGATTATTATTTCTTATTCTAGAAAACTGACTTTGATTTTTCTCTTAGGTTGTTTTGTTTTGTTTTGTTTTTTGAGACGAT
GTTTCACTCTTGTCGCCCAGGCTGGTGTGCAATGGCGTGATCTCGGCTCACTGCAGTCTCTGCCTCCCGGGTTCTCCTGCCTCAGCCTCCCGAGTAGCTG
GGATTACAGGTGCACCACCACACCCAGCTAATTTTGCATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTCTCTAACTCTTGATATCAGT
GATCCGCCCGCCTCAGCCTCCCAAAAAGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGGCTCCCCTAGTATTTTTCACTGTCTGCATCCTATGATCCT
AACCACCTGTGTATTGTAGTTTCTTCATGGGAGAAGTCATATCTGCCCTTCCAACCTTATTCTAACATTCTATTTATTCATTTAAAAAGCCACATCATCT
AGTTCTAAATCACAGCATTTAAAGAGAAACATTTCATTATTAATGTGCTCATGGTAAATTAAATATTATTTTGTGATCAATATTATACTTCAATACTAAC
TTTGTGCTTGTATTATTTTCTTAAATATACTACACTTACTTGGCTAATATTTTTAATGCTTTTGTGTGTGTATATATATATATATGAGAGAGAGAGAGAT
CATGGCTTATAATCCAAACAAAATGTAATAAACTGCATGAAAATAAATAGGAATATTAAAACATTTTGATAATTTTGGGATGAGGATATTGGTGGACTGT
TGGAAAGATATTCACTTTTCCTTTTATTTTGTAAATTTATTTCATTATTTTCAAATGTAAAAATCAAGATGAACTAAAGGTTGAAAGAAAAACAAGGCCT
GCCTCAGTGGCTTGGCTGGGTGGGTTAGATCACACCTGTAATCTCAGCACTTTGGAAGGCTGAGGCGGGCGGGTCACCTGAGGTTGGGAGTTCAAGACCA
GCCTGGCCAACACAGTGAAACCCCATCTACACTAAAAAATACAAGAAGTAGCTGGGTGTGGTGGTGCGTGCCTATAATCCCAGCTACTCAGGAGGCTGAG
ACAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCTTGCCACTGCACTCCAGCCTGGGTGACAGAGCGATACTCCGTCTCAAAA
AAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAAGAAAAGAACAGAACAATATTTTCTTTAATTTCCAGTCTCCTTCTATTGAGTGGCTTCTTCTAGAA
TTACCTCAATACTTCTAAATGATATGTTTTTGCTGTTAAATCTTGCTACTCCATTTTACATTTTAATCACTTCTTGCTATGTATTTTTTAAAAAAGATTT
AACTTTCTTTTCAACTAATGTAAACCAATATAAGCACTGCACATTCCCTTTCTCCTATTCTCCCAATAAAATTGTTACAGTTTTTTTTTTCTTTTTGACA
GAGTCTTACTCTGTCGCCCAGGTTGGAGTACAGTGGTGTGATCTCAGCTCACTGTAACCTCTGCTTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCC
TGAATAGCTGGGATTACAGGCACCCACCACCACACCTGGCTAGTTTTGTAGCTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTCGTCTTGAACT
CCTGACCCCAGCTGATCCTCCTGCCTCAGCCTCCCAAAGTGTTGAGATTACAGGCGTGAGCCACAGTGCCCAGCCTACAGTTTTTTTTAAGTTAAACTAA
TAGTGTCCATATTGCTAAGCTTTCTTCAAAATACACATTAGTGTAGTGTGATTAAATTTCCTTTCTTGAGAAACATTTTTCCTAGAACTGAAAATTGTTT
TGTACTTACATAATTTTCCATTTACTAATATTAGTTTCTTTACATTCTCTAATTTGAATCTCTTTCTTCTCAAAATATTCAAATATATCAGATACCTGTC
AATTATGTTTATTTCTTGGTGATCTTGCACCCAGATCTCTACTTCATTCATACTGGTTGCTCTATAGGCTGTCACCCTAGGACTTTAAAAAATATTTTTC
TTTGTTGGTCCTTTTTTATAAGATCCAGTACATTCTTCTTTCTTAGTTTACTCACTTATTTTGTTGATGCACATCTCTCAGTACCTTCATAAAAATGGAT
ACAGAGGAAATAAAACTTTTTGAGAGCTTGCTTTGTTATTTTCTTTTTTTTTATTTGATTGATAGTTTGGGCATAACATTCTAGGTTGAAAATAATTTTC
CCTCAGATTTCAAAAGCACTGCTCCTTTTATTGACTGCATATAGAATTGCTGTTCAGAAGACTGATTCCATTCTGATTCCTATGTCTTTTTATGTGATTC
CCCCCCTTTTTTTCTTTCTTTCTGTGAGCATTGAAAAAAATTCCCCTGGTCTTCTGAAAATACCTTAGTACTGGCTCTTTATTGATTAATCTGGTTATAT
CGCTATGCCCTGTTCATGTTTAACTTTTTTTTTTTTTTTAAGATGATGTCTCACTGTGTTACCCAGGCTGGAGTGCAGTGGCTATTCACAGGCACAATCA
CAGCACCCTGCAAGCTCTAACTCGAGAGCTACTTCTGCCTCAGCCTTCCAAGTTGCTGGGACTACAGGCATGTGCTAGACCCCTTGGCTAATGTTCAGAC
TATCAATTTTATTTCTGAGAAATTTTGGTTGGGCATGGTGACTCACACCTGCAATCCCAGTACTTTGGGAAGCTGAGGCAGGATTATTTGAGGCCCCGAG
TTTGAGACCACCCTGGGCAACATAGTGGGAACCTATCTCTACACAAAAACAATTTGTTAAAAGGAATTTCCTTGGTATGTTTTACTCATAATTTCTCCTC
TGAGTTTTCTGGATTCTCACTTCAATGAAAATCTCAGTTAAATATTAGACCTCCTAGATTGACTCTATAAGACTATAAGCCATTTTTCCTTTCTTATTTT
CTCTTTGCCTCTCATTCCATTTTTTGGACAATTTATTTAATCACTCAATGTTTTATGTATAAGTTTTTCTTTATGACTGAAAAATATTTACTTTTAAGAG
TTGTTTTTGGTTCTCTGAATGTTTTTCATGGCATCCTGTCATAGATTTATAAATGTAATATTTTCTCTCATTTATAATTAATCTTTTCTTTAAAAATGCA
TTAGGCAGTATCATTATTATATATCCATTTTAAAAGTGAAAGTGAGTCTAAGGGGAGTTAAGAACTTGTCCAAGGTAATATAGCTAGTAAAAAGCACTGA
AGTCCTAATCTAGTCTTCATCTTACAATAGGAATATGTACTTCATATAGTTACTATTTAGATTAAGTGGATAAATACATACTTCATACAGCTACTATTTA
GATTAAATGGATAAATGCATTATGAGGCACTTAGAACAATGAGTAGCATAGAGTAAATACTAAATAAGTATTAGCTTTTATTAGATTTTCTTTCTCTGGG
AATATTAACCAGACATTTTCAAAGGCTTTCTTCTGCTTTCTATATTATTGTTCCTTTTTTTTTTCTTGATGGTAGCGATGGTGGTAGTTTTGGTCTTTCT
ATGTTATGTTGCAGGCATTTCCTCAAATGCCTTGGCTATCTTCTCGTATTTTAGAAGGATGATATATCAAAATGCTGACAATCAACTCTGTGAGCGAACA
GTACCTGTTGATGGCAGGGCTTCATTCTAATATAACCATGCTAGGATAAGTCTATTACCTTATGAGATGCCAAATATTAATATGTGTCTTCATTTGGGCT
TTCATATTCTCCAGGTTAGAATTCTACAATATACACTATGGGGATAGACTAGGGGTCAGGCATACACTTTGTGTCCTACAGTCTAAGAGTATTGCATGAA
AAGGGATTAGAAGTCTCACCATGCAAAATGCAAAGGTTTGCTTACTCTCCCTATTTTCAGTTTGACACCTCACACTTGTGCTCAGCTGTGCCTAGATCCC
CAAGACTAGAGAAAGTCCCATTAAATTTCTCCAGAGAATAAACTTTCTATTTTCTGGCTGTGAGTTATGTTTCCATCTATGTAGGGTGATGAGAAGAACA
GAGAATTCAATTATCCTCTACACATACTTCCAACTAATAACTTTTTTCCATCCTTAACTGACTTCAGTCTTCTTAAACATCTGGTTCCTCCAGATCTTGC
GCTTAAAAGAGATTATGTTTCTTGTGAGTATCTTCAATGCAGGAACTTTACTTTAGGGGCACTTTTTGGAACTGCTAAGTTAATTGCTCTTCCACCTGCT
TTCTGTCATAGAAAAATGTATGTGTTCACTTGTGTATTCTTAATCTTTGTTAGTTCCTACCATTTTAATTACTTTTCTGCCATTTTAGTGCATATTTTTT
TTTAAAAAGAGAGGTTAATTGTGTGTGCTCAATTCATCTACTTTTCAAGTTTTACCCTTCTGTACCAATTACTATTTCAACCATGTATCCAGCTTACATT
TTTAAGAATATTAATTGAATTTAACATTTTAAAATGCAGACTTGTTGGATTCTTCTCCCATCCATTCTTAGTGCACTTTAAGACTTTCTATAGTGAATAT
CACTGATGAGCCCTTAGCATCTGTTGCAAACAGTCTCCCTCATTTTGTACCAATGAGGTACTTTGGCTAGGACTGAAACCTTCCCAAGCTTAAGAGGTGG
TCCCAGACAGGATTAAAACACAGTAATGGCCAGAGACAGGTCTTTAGATTCTAGGACTAAAATCTCCAACTATAATTCTATACCTCTTGAAACAATGATT
GCTTCAGTGGCAGACACATGATCTTACTTGGTCTAATTAGAGTGAAAGTTAGGTTTTTGTTCTATGTTTAGGGATAGACTCTTACTTTCTCTTCCTGGGC
TGAAAGAGAAAACAGATAGCTACAGTTGTGGCTACAATAAATTTTGGGAACCTAAGGCAAGTCAGCTTTAGGAATAAGAGTCTGCTTTAAATTAAACTAA
CTTGCTCATGCTTGTGTACTTATGAATTTTTTTGTAAATTATGAAAAACTGGAACTAAATGATGGGTTTACATAACATGTTCCACCCCAATCTCTTGCTT
CATTTTCTGCCTGTTCACAATTCATTGCTATTAAGGAAATCTACAGAAGTGCCTTTTTATGCTGTTGTGTTGACCTATATATGCCTCATCTCATGGTTAA
TCCAGTTTCATAACTTCAGAAAGGATTTCTGAGATGACCTTTCCTTTACCTTATCACGTAAGGAAAGCCAAGTAGTAATAGAATTTCATTCAGCTTAACA
ATCACTTATACCCTGCTTGTTTCAGGCTTACAATTGTCTCAGAAACACTATGAATTCCTGGGAGCCAGGGATCACATCTTGTATCTGTGTTTACCACAAC
TGAACACATTTGGTTGTGAGAAGAGTGGGGAAAGACACTGAATAAATGCTTTAAAACAAAATCATCATCACAAACTATAAAGAATATAAAACGATTATTA
TGGAAGATAAAATATATTTTTAATTACTTCAACAGAAGGAATTATTTAAACGCAATATTTATTTGCTTCTGGAGGACATTTATGTAAATAAAATTTAGGT
AGTGTTCATCAAACTGTGAAAATCTGTGGAGACGCGTGGTGGCGCTGCAGGATAATATCAAGAAAAAAATTACCCTGGAGGATGTTGTAGACCCTGTTAT
CCAGTACACGCGGAGAACTGGGAAGACAGAAAGAACAATCCTTTAAGGGAGAACCTAGAAGCCATTCAACAAGGTTAAAATCTTYAGGCTTCCGAGGATT
TGGTAGACAGATCAGAGGCACGTTTCCCACAACTGCGAAGAGGCGCTGAGGCAATTCTGCAAGAAGATTTTGGGGTTTTGGAAAAGAAGCTATGGAAAAC
GGAGGGGCAGGCACTCTGCAGATAAGGCAAGTCCTGCTTTTCTTTGTTTTGCTGGGAATGTCTCAGGCGGGCTCTGAAACTGGGAACTTTTTGGTGATGG
AGGAATTGCAGAGCGGGAGCTTTGTAGGAAATTTGGCAAAGACCCTGGGACTCGAGGTGAGTGAGCTGTCTTCGCGGGGGGCTCGGGTGGTTTCTAATGA
TAACAAAGAGTGTTTGCAGCTGGACACAAACACTGGGGATTTGCTCCTGAGAGAAATGCTAGACAGGGAGGAGCTCTGTGGCTCCAATGAGCCTTGTGTG
CTGTATTTCCAAGTGTTAATGAAAAACCCCACGCAGTTTTTACAAATTGAGCTCCAGGTCAGGGATATAAATGATCACTCTCCCGTCTTCTTGGAAAAAG
AAATGCTCTTAGAAATCCCAGAGAACAGTCCTGTTGGTGCTGTGTTCTTGCTTGAAAGTGCAAAGGATTTAGATGTAGGAATCAATGCTGTAAAAAGCTA
CACAATAAATCCGAACTCTCATTTCCACGTTAAAATAAGAGTCAATCCAGACARTAGGAAATACCCTGAGTTAGTTCTGGACAAGGCGCTGGATTATGAA
GAGCGCCCGGAGCTCAGTTTCATCCTCACTGCTCTGGATGGCGGGTCCCCTCCCAGGTCTGGAACTGCCTTGGTCAGGGTGGTGGTTGTAGATATTAATG
ACAACTCCCCTGAGTTTGAGCAGRCTTTTTATGAGGTGAAGATTCTGGAGAATAGCATCCTTGGCTCCCTGGTTGTGACCGTCTCAGCCTGGGATTTAGA
CTCTGGAACAARCAGTGAACTATCCTATACCTTTTCCCATGCCTCAGAAGATATTCGCAAGACATTTGAAATTAATCAAAAGTCTGGTGACATTACTTTA
ACAGCACCTTTGGATTTTGAAGCAAYTGAGTCATACTCAATAATCATTCAAGCCACAGATGGGGGAGGACTTTTTGGAAAATCTACAGTCAGAATTCAGG
TGATGGATGTAAACGACAACGCTCCTGAAATCACTGTGTCATCAATTACCAGTCCAATCCCAGAAAACACTCCAGAGACTGTRGTTATGGTTTTCAGGAT
ACGAGACAGAGACTCTGGGGACAACGGAAAGATGGTTTGTTCTATCCCGGAGGACATCCCATTCGTGCTAAAATCTTCGGTAAATAATTACTACACTTTG
GAAACAGAGAGACCGCTGGACAGAGAGAGCAGAGCCGAGTACAACATCAYCATCACCGTCACCGACTTGGGGACCCCCAGGCTAAAAACCGAGCACAACA
TAACCGTGCTGGTCTCCGACGTCAATGACAACGCCCCCGCCTTCACCCAAACTTCCTACGCCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACAT
CGGCAGCATCAGCGCCACAGACAGAGACTCGGGCACCAACGCCCAGGTCAACTACTCGCTGCTGCCGTCCCAGGACCCGCACCTGCCCCTCGCCTCCCTG
GTCTCCATCAACGCGGACAACGGCCACCTGTTTGCCCTCAGGTCGCTGGACTACGAGGCCCTGCAGGGGTTCCAGTTCCGCGTGGGCGCCACAGACCACG
GCTCCCCGGCTTTGAGCAGCGAGGCGCTGGTGCGCGTGCTGGTGCTGGACGCCAACGACAACTCGCCCTTCGTGCTGTACCCGCTGCAGAACGGCTCCGC
GCCCTGCACCGAGCTGGTGCCCTGGGCGGCCGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACGGYGACTCGGGCCAGAACGCCTGGCTGTCG
TACCAGCTGCTCAAGGCCACGGAGCCCGGGCTATTCGGYGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCA
AGCACAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTA
CCTGCCTCTCCCGGAGGCGGCCCCGGCCCAGGCCCAGGCCGACTCGCTCACTGTCTACCTGGTGGTGGCGTTGGCCTCAGTGTCGTCGCTCTTCCTCTTC
TCGGTGCTCCTGTTCGTGGCGGTGCGGCTGTGCAGGAGGAGCAGGGCGGCCCCGGTCGGTCGCTGCTCGGTGCCTGAGGGCCCCTTTCCAGGACATCTGG
TGGACGTGAGTGGCACCGGGACCCTGTCCCAGAGCTACCACTATGAGGTGTGTGTGACTGGAGGCTCCAGGTCAAATRAGTTCAAATTTCTGAAACCAAT
TATCCCCAACTTCCTACCCCAGAGCACAGGTAGTGAAGTCGAAGAAAATCCCCCATTTCAGAATAATTTGGGTTTCTGATAAAGAATGAAAAATAAAACC
TGTGTTTATGAATACATTTATAATTAGGAACTTATCGTGAGGTGCCTGTAAAGTAGTATTTTTGATCACTTCAAATACATACTCTTCAAGTCAAGAAATA
AATTTCTTTACATAGAAAAGGATACAGATTTAGTACCAAGAACACTTCACAAAGCAGGAAATGTGCATGTGTAATGGTTTATGTCAAACAATTATGCTTA
ATATAAAGTCTATTAAGTGGTAAGTCTTGTTTGAGATATTTTAAATTGCTTTCCATTGTTTTCAATATTTACTGTGACTTTTGTTTTCTGAGTTGATTAG
AATGCTGTTCGAGTATACCTACCCTAGTTTCAGAAGCATAGATTGTAGTGTACCTTTTTAAACTTTATTTTTTTAAAAAAAGTTGTTTTATGAATCATAC
ACTATTTTCACACTTTTAATCTCAGAAGAAACATATGTGACATGGTATTTTAGTAATGACCAAATAGACGGTCTTAGAGATTCAGTAAGTTCACTAAGGT
CCACTAACTAATAAGTGACAAAACTGAGCATCCATCCTAGATCTGCCTGACTCTAAGTCAGTGACTTTGCTCCCATTCCATACTGTTTTTGTCATTGGAT
ATCACCTGGCAAGTTTCTGCCTAACTAAAGAGAAGAAAAGTTTTTATCGTATTCATACTACTGTTCAATCTTTATTTAGAAATAAACTTTATCTATGATT
TCATTTTCTTATAAACCAGTAATCTTGCTTTTCTGGGTAAATTTTCAGCTATTATTACTAATGCTCTGATCTGCCCAAATCTTAAGTAAAAAACAAAATT
GAAAGAGCAACCTGTGCCTTCTCATTGTCTCCTGAACATATAACTATCATTTCACAGAAAAGATTAATGGTCCTGATTAGGAATAGTACATAATTTTGAT
GGCATTATTAGTTAATTATTTTCTTTACATTGTAGTATATTTCCAGAGTCACCCATGCTTACATTTGTAATATATTTTCCTGATTTGAGAGTTTGTTTTT
AGCAGTTTTTCTTACCTATACTGCACTGCTGAATCAGGAAAATTTAAGAAAAAGAATAGATTTAAATGTGTAATATCAAAGAGAAATATAGATGATCATT
AAATTTTTAGAAATTTTGGGGAGTTAAGGAGAAGCATTGTTTGTTAAAAATATATAACCGATTCTTATATTTAAAATAGGTAATTTTTGCATAGTTGTGT
TCTAAATATATTATAAACTAGTGCCAGTAACTCTAATAAAGCTAGTATTACTGCATATCACTGGTGGGATAGAATCTAAGGACAAAAACTCACAGTAGTA
AAATCTAAAATTGCTTTCATGGTCTCAGGGTAAAATTATCCAATTTCTCTGACAAATAAATGGCTCAAAAAATAAGAGGAGTGAAGTTTACACAAGGAAA
AATCTTAAGAGGTCTACCACTCAAATACAATGTGTGGATCTTTTTTGGATCTTGATTGAAACAACAGCAATGACTTTGAAAAACTTGGAAGAATTTGAAT
ATAGATGGGTATTAAATAATGTTAACTTGATTTTTAGGTATGATAATGGCATTGTACTTAAGCATATTTTTAGAGTCATTTAAAGTCATGATGCTTTTAA
AGAAATGTATAATGACGTATTTGTGGGAGAAAATTCAGTTTGTCTGGGATGTGAAAATGTTGAAGGGATAGAGTCAAGAATTATGGCAAAACATTGATAA
TAGTTGAAGCTAGTACTGAGTCCTTGGAGGATCATTATACTCCTCTCTTTTATGAGATTTGAAAAATTTCAAAATAATGTCTTTTAATTGATGCTGTTAG
AAGTGGAGGTAATAAAAAAGGACATCCTTCCCAGAAACAAAATCACCACTGCTGTTACAGATATTGTCTCTATTTAGACAAACTCTCCAGCCTTTCCTTG
TTCATTTCCTTTCATTATTGGACATAACCTCTCTACCTGAGATAGTCATGCTCCTGTATTCTTCTACCATTTGAATTTCGAGGTGTTTATCTAGTTATAG
TAATGGATTTATGCTAGACTTATGATGGATTTATGCCATCAAGACTCAGTTACTTGATGGCATCAAATTGCTTTATACTTGGTATATACCTTATTTTTAA
GGTTAATATCTATTTGCATTAGATTCCTCATGTTTAAGGTGGGGAATTCACAACAGCCCTATGTGGTAGGTACTGTTCTTATCCTCACTTTACAGAGGAG
CAAACTAAAGCAGAGAGATTAAATAATTTGTTCGAGGTTCACAGCTACTAATTATTCCTATGGTTCATGGAAATAAAACTATAAAGATCTAAATGTTGTC
CATGATAACTACAATTATATTTGAAATTCTTTTTGCCAAGCTAGACTATTACCTAAATATTTCCTTTTTGCCCAAAACTCAGTTATCATTGTTGAAAGAC
TAATGTGATTTCTCCTTTGGGCAGTTGTCTGCTCACTAAAGTCCGGCGATATTAACGGTGGTGTTGTAACCTTACATAGTCTCGGGGTGCATACAGGCAG
AGTTGGGAATATTACATCCATTATCATTCCACAAAATGTAAGATCCTGTGAGGACGCGTGGTGGCGCTGCAGGATAAGAAGGCACAAACCAGAACCGCAG
CTGCAGCTCCATTAACCGGCAAAAAGCAGCAGAACCTGGAAGTCCACGGGGAGCTTGGATGCCAAAGGGAGGACGGCTGGGTCCTCTGGAGAGGACTACT
CACTGGCATATTTCTGAGGTATCTGTAGAATAACCACAGCCTCAGATACTGGGGACTTTACAGTCCCACAGAACCGTCCTCCCAGGAAGCTGAATCCAGC
AAGAACAATGGAGGCCAGCGGGAAGCTCATTTGCAGACAAAGGCAAGTCCTTTTTTCCTTTCTCCTTTTGGGCTTATCTCTGGCGGGCGCGGCGGAACCT
AGAAGCTATTCTGTGGTGGAGGAAACTGAGGGCAGCTCCTTTGTCACCAATTTAGCAAAGGACCTGGGTCTGGAGCAGAGGGAATTCTCCAGGCGGGGGG
TTAGGGTTGTTTCCAGAGGGAACAAACTACATTTGCAGCTCAATCAGGAGACCGCGGATTTGTTGCTAAATGAGAAATTGGACCGTGAGGATCTGTGCGG
TCACACAGAGCCCTGTGTGCTACGTTTCCAAGTGTTGCTAGAGAGTCCCTTCGAGTTTTTTCAAGCTGAGCTGCAAGTAATAGACATAAACGACCACTCT
CCAGTATTTCTGGACAAACAAATGTTGGTGAAAGTATCAGAGAGCAGTCCTCCTGGGACTACGTTTCCTCTGAAGAATGCCGAAGACTTAGATGTAGGCC
AAAACAATATTGAGAACTATATAATCAGCCCYAACTCCTATTTTCGGGTCCTCACCCGCAAACGCAGTGATGGCAGGAAATACCCAGAGCTGGTGCTGGA
CAAAGCGCTGGACCGAGAGGAAGAAGCTGAGCTCAGGTTAACACTCACAGCACTGGATGGTGGCTCTCCGCCCAGATCTGGCACTGCTCAGGTCTACATR
GAAGTCCTGGATGTCAACGATAATGCCCCTGAATTTGAGCAGCCTTTCTATAGRGTGCAGATCTCTGAGGACAGTCCGGTAGGCTTCCTGGTTGTGAAGG
TCTCTGCCACGGATGTAGACACAGGAGTCAACGGAGAGATTTCCTATTCACTTTTCCAAGCTTCAGAAGAGATTGGCAAAACCTTTAAGATCAATCCCTT
GACAGGAGAAATTGAACTAAAAAAACAACTCGATTTCGAAAAACTTCAGTCCTATGAAGTCAATATTGAGGCAAGAGATGCTGGAACCTTYTCTGGAAAA
TGCACCGTTCTGATTCAAGTGATAGATGTGAACGACCATGCCCCAGAAGTTACCATGTCTGCATTTACCAGCCCAATACCTGAGAACGCGCCTGAAACTG
TGGTTGCACTTTTCAGTGTTTCAGATCTTGATTCAGGAGAAAATGGGAAAATTAGTTGCTCCATTCAGGAGGATCTACCCTTCCTCCTGAAATCCGCGGA
AAACTTTTACACCCTACTAACGGAGAGACCACTAGACAGAGAAAGCAGAGCGGAATACAACATCACTATCACTGTCACTGACTTGGGGACCCCTATGCTG
ATAACACAGCTCAATATGACCGTGCTGATCGCCGATGTCAATGACAACGCTCCCGCCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACA
GCCCCGCCCTGCACATCSGCAGCGTCAGCGCTACAGACAGAGACTCAGGCACCAACGCCCAGGTCACCTACTCGCTGCTGCCGCCCCAGGACCCKCACCT
GCCCCTCACATCCCTGGTCTCCATCAACGCGGACAACGGCCACCTGTTCGCCCTCAGGTCTCTGGACTACGAGGCCCTGCAGGGKTTCCAGTTCCGCGTG
GGCGCTTCAGACCACGGCTCCCCGGCGCTGAGCAGCGAGGCGCTGGTGCGCGTGGTGGTGCTGGACGCCAACGACAACTCGCCCTTYGTGCTGTACCCGC
TGCAGAACGGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCCGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACGGCGACTCGGGCCA
GAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCTCGGTCTGTTCGGCGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAGC
GAGCGCGACGCGGCCAAGCACAGGCTGGTGGTGCTGRTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACG
GCTTCTCCCAGCCCTACCTGCCTCTCCCKGAGGCGGCCCCGACCCAGGCCCAGGCCGACTTGCTCACCGTCTACCTGGTGGTGGCGTTGGCCTCGGTGTC
TTCGCTCTTCCTCTTTTCGGTGCTCCTGTTCGTGGCGGTGCGGCTGTGTAGGAGGAGCAGGGCGGCCTCGGTGGGTCGCTGCTTGGTGCCCGAGGGCCCC
CTTCCAGGGCATCTTGTGGACATGAGCGGCACCAGGACCCTATCCCAGAGCTACCAGTATGAGGTGTGTCTGGCAGGAGGCTCAGGGACCAATGAGTTCA
AGTTCCTGAAGCCGATTATCCCCAACTTCCCTCCCCAGTGCCCTGGGAAAGAAATACAAGGAAATTCTACCTTCCCCAATAACTTTGGGTTCAATATTCA
GTGACCATAGTTGACTTTTACATTCCATAGGTATTTTATTTTGTGGCATTTCCATGCCAATGTTTATTTCCCCYAATTTGTGTGTATGTAATATTGTACG
GATTTACTCTTGATTTTTCTCATGTTCTTTCTCCCTTTGTTTTAAAGTGAACATTTACCTTTATTCCTGGTTCTTAAAAGGTGACAATTCATTCTTTAAC
CCAGATGGTCTTAATTTGTAATTAATTTGCCTCCCTAAAGAGCAATACCAAATCACATTTTTTTCATGCCCCTATCTTTAGCTGAACTTCACCCACTATT
ATGCTTATGGTAAAATTAAATAGAGCAATTTGGAAGTGATTCCAATTTTCCAGCATTTCTTCATTTGATTCTCTTTTTTTAGTCTTAAAATAATGACTCC
TATTCAGACATATCATTTTTCTTTTTTGTAAATCCAGTGCGTTTTTAGTTAACCTTTAAATATGCTTTTTGCTTTCAAAAATAAACCAGAAAACCTATAT
CCTATGATACAACTCTAAGTGTTATCACTTGATTCGAAAGGGTCAGAAGACCAGTTTTTTAGTATCCTTTCCTCATTCATCCTGGAGAGGATTGTGCAGG
CACATTAATATTGTGRCCAATCACAGAATCTGGGAATATGAAGCTATAATTTTTTAATTAATGTCACAAAGCTCTAGTGCAATCTAGTTGAATGCAGATG
CCTGTGCCCAAATAATAATTCATATAGCATAAATTGGAGTTGTGTGTTAATGTGTAAAAATTTTTGCCTGTACTATCATATAATTTAATGTATATACACC
AGAAACTATTTTTCAAACTTTTTTTACTGCAACCAATAGTTAAGATTATATTTTACATATTTTGAAACACACAAGCTTAATAGAAATAAATGCTTGTGAA
CAATGCTTAGTCTTTTTATGACATAATTTGAAATTACCTATATATTTCATTCTATTCAATTTTCAAATGTGGTCATGATCCACTAAATTTATTTCATGGT
ATACTAGTGGGTAGTAACCCAAAGTTTGAAAACCACTTTTCTCAGACATATAAAAGCATACCAGATGTTGAACATTGATAGTATCAAAAGATAGTCCCTT
AGGGTTCTAATTTTAAAAAAATTTTCAAAGCATTGTAGGGGAGTAGCTTTGTCTCATGTTAAATCACTCTTACCTTTAAGGATCTGACACACTATGTAAG
AAAAAGACTTCAAGGTTGGAGGAGGAGATTTTCCATGACTTTTATCAAAGTCTACAGTCTATGTTGTGGGAGAAAAATGTAGAATAACAAAATGAGTAAA
AGTATAGAGGCAAAACAAGCATGTGTATGAGAGAGAGAGAGAAAGCATGGAAAAGAGGAAATTCATGGGGATGAGCAAAATGACTACTTCCAGTGCCACA
GACTAGACTCAGTTGCTTCTCTTATGTTATTTTTTGAGACAAGGTCCTGTTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCCACTCACTGTGATC
TCCACTCACTGCAACCTCCACCTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCCTAGTACCCAGGACTACAGGCCCAGGCCACCACACC


SNP Information

Context             (SEQ ID NO:54462):
GGGCCCCTTTCCAGGACATCTGGTGGACGTGAGTGGCACCGGGACCCTGTCCCAGAGCTACCACTATGAGGTGTGTGTGACTGGAGGCTCCAGGTCAAAT
R
AGTTCAAATTTCTGAAACCAATTATCCCCAACTTCCTACCCCAGAGCACAGGTAGTGAAGTCGAAGAAAATCCCCCATTTCAGAATAATTTGGGTTTCTG
Celera SNP ID:            hCV15946737
SNP Position Genomic:     8678
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,27)   caucasian(A,14|G,16)   total(A,21|G,43)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54463):
TGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCCTCTCCC
K
GAGGCGGCCCCGACCCAGGCCCAGGCCGACTTGCTCACCGTCTACCTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCTTTTCGGTGCTCCTGT
Celera SNP ID:            hCV25637064
SNP Position Genomic:     13629
SNP Source:               Applera
Population(Allele,Count): african american(G,18|T,2)   caucasian(G,18|T,2)   total(G,36|T,4)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54464):
GAGTTTGAGCAGGCTTTTTATGAGGTGAAGATTCTGGAGAATAGCATCCTTGGCTCCCTGGTTGTGACCGTCTCAGCCTGGGATTTAGACTCTGGAACAA
R
CAGTGAACTATCCTATACCTTTTCCCATGCCTCAGAAGATATTCGCAAGACATTTGAAATTAATCAAAAGTCTGGTGACATTACTTTAACAGCACCTTTG
Celera SNP ID:            hCV25973375
SNP Position Genomic:     7212
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54465):
TGGATGGTGGCTCTCCGCCCAGATCTGGCACTGCTCAGGTCTACATCGAAGTCCTGGATGTCAACGATAATGCCCCTGAATTTGAGCAGCCTTTCTATAG
R
GTGCAGATCTCTGAGGACAGTCCGGTAGGCTTCCTGGTTGTGAAGGTCTCTGCCACGGATGTAGACACAGGAGTCAACGGAGAGATTTCCTATTCACTTT
Celera SNP ID:            hCV27521783
SNP Position Genomic:     12354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54466):
TATACCTTTTCCCATGCCTCAGAAGATATTCGCAAGACATTTGAAATTAATCAAAAGTCTGGTGACATTACTTTAACAGCACCTTTGGATTTTGAAGCAA
Y
TGAGTCATACTCAATAATCATTCAAGCCACAGATGGGGGAGGACTTTTTGGAAAATCTACAGTCAGAATTCAGGTGATGGATGTAAACGACAACGCTCCT
Celera SNP ID:            hCV25972764
SNP Position Genomic:     7326
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,22)   total(C,1|T,57)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,36)   total(C,1|T,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54467):
GCTACCTGGTGACCAAGGTGGTGGCGGTGGACGGTGACTCGGGCCAGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTATTCGG
Y
GTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCAAGCACAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGC
Celera SNP ID:            hCV25990667
SNP Position Genomic:     8239
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,24|T,8)   total(C,59|T,9)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54468):
CCCAGGACCCGCACCTGCCCCTCACATCCCTGGTCTCCATCAACGCGGACAACGGCCACCTGTTCGCCCTCAGGTCTCTGGACTACGAGGCCCTGCAGGG
K
TTCCAGTTCCGCGTGGGCGCTTCAGACCACGGCTCCCCGGCGCTGAGCAGCGAGGCGCTGGTGCGCGTGGTGGTGCTGGACGCCAACGACAACTCGCCCT
Celera SNP ID:            hCV11840115
SNP Position Genomic:     13185
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,8)   total(G,8|T,4) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54469):
GACCGTGCTGATCGCCGATGTCAATGACAACGCTCCCGCCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATC
S
GCAGCGTCAGCGCTACAGACAGAGACTCAGGCACCAACGCCCAGGTCACCTACTCGCTGCTGCCGCCCCAGGACCCGCACCTGCCCCTCACATCCCTGGT
Celera SNP ID:            hCV11840117
SNP Position Genomic:     13018
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,8)      total(G,4|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54470):
CCGAGCAGCGACCGACCGGGGCCGCCCTGCTCCTCCTGCACAGCCGCACCGCCACGAACAGGAGCACCGAGAAGAGGAAGAGCGACGACACTGAGGCCAA
R
GCCACCACCAGGTAGACAGTGAGCGAGTCGGCCTGGGCCTGGGCCGGGGCCGCCTCCGGGAGAGGCAGGTAGGGCTGGGAGAAGCCGTCCACCAGGAGCA
Celera SNP ID:            hCV25999693
SNP Position Genomic:     7124
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,12)   caucasian(A,11|G,15)   total(A,21|G,27)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54471):
GACTTCACTACCTGTGCTCTGGGGTAGGAAGTTGGGGATAATTGGTTTCAGAAATTTGAACTTATTTGACCTGGAGCCTCCAGTCACACACACCTCATAG
R
GGTAGCTCTGGGACAGGGTCCCGGTGCCACTCACGTCCACCAGATGTCCTGGAAAGGGGCCCTCAGGCACCGAGCAGCGACCGACCGGGGCCGCCCTGCT
Celera SNP ID:            hCV25972136
SNP Position Genomic:     6954
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54472):
TAAGTGTTATCACTTGATTCGAAAGGGTCAGAAGACCAGTTTTTTAGTATCCTTTCCTCATTCATCCTGGAGAGGATTGTGCAGGCACATTAATATTGTG
R
CCAATCACAGAATCTGGGAATATGAAGCTATAATTTTTTAATTAATGTCACAAAGCTCTAGTGCAATCTAGTTGAATGCAGATGCCTGTGCCCAAATAAT
Celera SNP ID:            hCV2589322
SNP Position Genomic:     14616
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:54473):
CTACAGTCAGAATTCAGGTGATGGATGTAAACGACAACGCTCCTGAAATCACTGTGTCATCAATTACCAGTCCAATCCCAGAAAACACTCCAGAGACTGT
R
GTTATGGTTTTCAGGATACGAGACAGAGACTCTGGGGACAACGGAAAGATGGTTTGTTCTATCCCGGAGGACATCCCATTCGTGCTAAAATCTTCGGTAA
Celera SNP ID:            hCV25965599
SNP Position Genomic:     7483
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,34)   total(A,1|G,69)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,36)   total(A,1|G,71)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54474):
AAGTATCAGAGAGCAGTCCTCCTGGGACTACGTTTCCTCTGAAGAATGCCGAAGACTTAGATGTAGGCCAAAACAATATTGAGAACTATATAATCAGCCC
Y
AACTCCTATTTTCGGGTCCTCACCCGCAAACGCAGTGATGGCAGGAAATACCCAGAGCTGGTGCTGGACAAAGCGCTGGACCGAGAGGAAGAAGCTGAGC
Celera SNP ID:            hCV25952830
SNP Position Genomic:     12132
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,1|T,1)   total(C,31|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54475):
GGAGCTCGGTCTGTTCGGCGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCAAGCACAGGCTGGTGGTGCTG
R
TCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCCTCTCCCGGAGGCGGC
Celera SNP ID:            hCV26312307
SNP Position Genomic:     13537
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54476):
ACAAAGCGCTGGACCGAGAGGAAGAAGCTGAGCTCAGGTTAACACTCACAGCACTGGATGGTGGCTCTCCGCCCAGATCTGGCACTGCTCAGGTCTACAT
R
GAAGTCCTGGATGTCAACGATAATGCCCCTGAATTTGAGCAGCCTTTCTATAGAGTGCAGATCTCTGAGGACAGTCCGGTAGGCTTCCTGGTTGTGAAGG
Celera SNP ID:            hCV29063510
SNP Position Genomic:     12300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54477):
TCCAGTTCCGCGTGGGCGCTTCAGACCACGGCTCCCCGGCGCTGAGCAGCGAGGCGCTGGTGCGCGTGGTGGTGCTGGACGCCAACGACAACTCGCCCTT
Y
GTGCTGTACCCGCTGCAGAACGGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCCGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACG
Celera SNP ID:            hCV26312308
SNP Position Genomic:     13287
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54478):
ACAACAGCCCCGCCCTGCACATCCGCAGCGTCAGCGCTACAGACAGAGACTCAGGCACCAACGCCCAGGTCACCTACTCGCTGCTGCCGCCCCAGGACCC
K
CACCTGCCCCTCACATCCCTGGTCTCCATCAACGCGGACAACGGCCACCTGTTCGCCCTCAGGTCTCTGGACTACGAGGCCCTGCAGGGGTTCCAGTTCC
Celera SNP ID:            hCV15947542
SNP Position Genomic:     13095
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,8)      total(G,8|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54479):
TCAATCCCTTGACAGGAGAAATTGAACTAAAAAAACAACTCGATTTCGAAAAACTTCAGTCCTATGAAGTCAATATTGAGGCAAGAGATGCTGGAACCTT
Y
TCTGGAAAATGCACCGTTCTGATTCAAGTGATAGATGTGAACGACCATGCCCCAGAAGTTACCATGTCTGCATTTACCAGCCCAATACCTGAGAACGCGC
Celera SNP ID:            hCV25951772
SNP Position Genomic:     12591
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,2)   total(C,1|T,31)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54480):
CCCCAATAACTTTGGGTTCAATATTCAGTGACCATAGTTGACTTTTACATTCCATAGGTATTTTATTTTGTGGCATTTCCATGCCAATGTTTATTTCCCC
Y
AATTTGTGTGTATGTAATATTGTACGGATTTACTCTTGATTTTTCTCATGTTCTTTCTCCCTTTGTTTTAAAGTGAACATTTACCTTTATTCCTGGTTCT
Celera SNP ID:            hCV15947624
SNP Position Genomic:     14074
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:54481):
TTGTAGACCCTGTTATCCAGTACACGCGGAGAACTGGGAAGACAGAAAGAACAATCCTTTAAGGGAGAACCTAGAAGCCATTCAACAAGGTTAAAATCTT
Y
AGGCTTCCGAGGATTTGGTAGACAGATCAGAGGCACGTTTCCCACAACTGCGAAGAGGCGCTGAGGCAATTCTGCAAGAAGATTTTGGGGTTTTGGAAAA
Celera SNP ID:            hCV2589329
SNP Position Genomic:     6285
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,20)   caucasian(C,8|T,10)   total(C,12|T,30)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,24)   caucasian(C,19|T,21)   total(C,31|T,45)   
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)   Myers-AT(T,21|C,26)   total(C,26|T,21) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:54482):
TGCTGTACCCGCTGCAGAACGGCTCCGCGCCCTGCACCGAGCTGGTGCCCTGGGCGGCCGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACGG
Y
GACTCGGGCCAGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTATTCGGCGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCA
Celera SNP ID:            hCV25991343
SNP Position Genomic:     8173
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,3)   caucasian(C,6|T,14)   total(C,15|T,17)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54483):
GAGGACATCCCATTCGTGCTAAAATCTTCGGTAAATAATTACTACACTTTGGAAACAGAGAGACCGCTGGACAGAGAGAGCAGAGCCGAGTACAACATCA
Y
CATCACCGTCACCGACTTGGGGACCCCCAGGCTAAAAACCGAGCACAACATAACCGTGCTGGTCTCCGACGTCAATGACAACGCCCCCGCCTTCACCCAA
Celera SNP ID:            hCV1390302
SNP Position Genomic:     7650
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,19|T,13)   total(C,50|T,16)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Gene Number:                 268
Celera Gene:                 hCG42518 - 206000044684915
Gene Symbol:                 PCDHB3
Protein Name:                protocadherin beta 3;PCDH-BETA3
Celera Genomic Axis:         GA_x5YUV32VUFE(34805674..34821251)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12428):
AGAACTTTCTTAGTCTAAGCCTTCTTTCCGAAGCATGCTAGGACTGAGATCACTCCCTTCCAGGTTCTGAAATTTATTTTTTCCAGTTTGAAAAAAAAAA
AAAGCTTGGATTTGTGAGGGAAGTGAAGATTTATTTATTCTTGCCCTGTCTCTATGGGTGCAATGAAGAGCCTTTCGAAACGCCAATAAGACTTCGGTAC
ACTGAGAGACACTACTTGAAAATACTCAATTTCGATTGCCATCAGCCTGAAAGAAAGCACTGGGATTTTCTTAAAGTTTAGGAGAAAATAAATACTCGGA
AGAGACGCGGGGTGGCGCTGCAGCCTTAGAAGTAGCAGAAACAAAGCACCCAGCCGACGCTCCCTTACCCAGATACTCAGCTAAAGAAGCAGCAAGCAGG
AAGAGGAGGCTTTCTAAGGCGGTCGCTCCGGGAAATCCGGGCCCTAGGATTGTCCACTCATCCCAGTATCAGCGAGATACGGGGAGATAGAGTTAGCGAC
AACGTGAGCCAGAGCTGGAGCACGTTTGGTGAGAGACCAGAAAGCAATGGAGGCCGGAGAGGGGAAGGAGCGCGTTCCGAAACAAAGGCAAGTCCTGATA
TTCTTTGTTTTGCTGGGCATAGCTCAGGCTAGTTGCCAGCCTAGGCACTATTCAGTGGCCGAGGAAACGGAGAGTGGCTCCTTTGTGGCCAATTTGTTAA
AAGACCTGGGGCTGGAGATAGGAGAACTTGCTGTGAGGGGGGCCAGGGTCGTTTCCAAAGGAAAAAAAATGCATTTGCAGTTCGATAGGCAGACCGGGGA
TTTGTTGTTAAATGAGAAATTGGACCGGGAGGAGCTGTGCGGCCCCACAGAGCCCTGTGTCCTACCTTTCCAGGTGTTACTAGAAAATCCCTTGCAGTTT
TTTCAGGCGGAGCTACGGATTAGGGACRTAAATGATCATTCCCCAGTTTTCCTAGACAAAGAAATACTTTTGAAAATTCCAGAAAGTATCACTCCTGGAA
CTACTTTCTTAATAGAACGTGCCCAGGACTTGGATGTAGGAACCAACAGTCTCCAAAATTACACAATCAGTCCCAATTTCCACTTTCATCTTAATTTACA
AGACAGTCTCGATGGCATAATATTACCACAGCTGGTGCTGAACAGAGCCCTGGATCGCGAGGAGCAGCCTGAGATCAGGTTAACCCTCACAGCGCTAGAT
GGCGGGAGTCCACCCAGGTCCGGCACGGCCCTGGTACGGATTGAAGTTGTGGACATCAATGACAACGTCCCAGAGTTTGCAAAGCTGCTCTATGAGGTGC
AGATCCCGGAGGACAGCCCCGTTGGATCCCAGGTTGCCATCGTCTCTGCCAGGGATTTAGACATTGGAACTAATGGAGAAATATCTTATGCATTTTCCCA
AGCATCTGAAGACATTCGCAAAACGTTTCGATTAAGTGCAAAATCGGGAGAACTGCTTTTAAGACAGAAACTGGATTTCGAATCCATCCAGACATACACA
GTAAATATTCAGGCGACAGATGGTGGGGGCCTATCTGGAACTTGTGTGGTATTTGTCCAAGTGATGGATTTGAATGACAATCCTCCGGAACTAACTATGT
CGACACTTATCAATCAGATCCCAGAAAACTTGCAGGACACCCTCATTGCTGTATTCAGCGTTTCAGATCCTGACTCCGGAGACAACGGAAGGATGGTGTG
CTCCATCCAAGATGATCTTCCTTTTTTCTTGAAACCTTCTGTTGAGAACTTTTACACTCTGGTGATAAGCACGGCCCTGGACCGGGAGACCAGATCCGAA
TACAACATCACCATCACCGTCACCGACTTCGGGACACCCAGGCTGAAAACCGAGCACAACATAACMGTGCTGGTCTCCGACGTCAATGACAACGCCCCCG
CCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCAGCGTCAGCGCCACAGACAGAGACTCGGGCACCAA
CGCCCAGGTCACCTACTCGCTGCTGCCGCCCCAGGACCCGCACCTGCCCCTCGCCTCCCTGGTCTCCATCAACGCGGACAACGGCCACCTGTTCGCTCTC
CAGTCGCTGGACTACGAGGCCCTGCAGGCGTTCGAGTTCCGCGTGGGCGCCGCAGACCGCGGCTCCCCGGCGTTGAGCAGCGAGGCGCTGGTGCGCGTGC
TGGTGCTGGACGCCAACGACAACTCGCCCTTCGTGCTGTACCCGCTGCAGAACGGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCCGAGCCGGG
CTACCTGGTGACCAAGGTGGTGGCGGTGGACGGCGACTCGGGCCAGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGC
GTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAGSGAGCGCGACGCKGCCAAGCAGAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGC
CTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCTKCTCCCGGAGGCGGCACCGGCCCAGGCCCAGGC
CGACTTGCTCACCGTCTACCTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCTTCTCGGTGCTCCTGTTCGTGGCGGTGCGGCTGTGCAGGAGG
AGCAGGGCGGCCTCGGTGGGTCGCTGCTCGGTGCCCGAGGGCCCCTTTCCAGGGCAGATGGTGGACGTGAGCGGCACCGGGACCCTGTCCCAGAGCTACC
AGTACGAGGTGTGTCTGACTGGAGRMTCCGGGACAAATGAGTTCAAGTTCCTGAAGCCAATTATCCCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAG
CGAGGCAAATCCCAGTTTCAGGAAGAGCTTTGAATTCASTTAAGTGTTAATAAGGATCTACTGAGSCTAGTCTCGTTTAATTTGTGGAAAGTCCTTTTTT
ACTGCTTTGCCCATTGGAGGTGTCTCCTTTTATTAGAAAGTAACCATCTTATTCCAATTCTATGCATGTTACTGGTATTTATAAATGTATGAGTTTTTTT
GCGGTATAATAAATGTAAATTTTCTTTGTATTCTAATTGTTGGTTAGTTTCATTGCAATTTAATTGCATTTAAAGTGTAAAAGTAAATTTTGTATTTTCA
GAAATCTTTAAGTTAGAGCATCTTTTCCAGACCTCACAGTCTATGGTCCTAGATAATTTTGAAGTCCTACATTTGAAAATATTTGTTATCATTACATGAG
TTATATTTTCCAGCCCAGAATATTTGTGTTTTTTATATCCTCTTAGGCTAGTGTAAATTCTATCCTGTGAATTCACATTGGCTAACCCTTTAAATAGGTA
TATTTATGAATAATATAGCAAGCACCGTCCTTACGTTTTTCAATATATGTAATTTTTTTTTTTTTTTGAGATGGAGTTTTGCACTTGTTGCTCAGGCTGT
AGTGGAGTGCAATGGCGCAATCTCGGCTCGCCGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGC
ATGCATCATTATGCCCGGCTAATTTTGTATTTTTAGTAGAGACAGGGTGTCTCCATGTTGGTCAGGTTGGTCTTGAACTCCTGACCTTAGGTGATCTGCC
CACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCCCCCCAGTCCAATATGTATACTTCTTTCAAGTGTTGACATATGAAAAGTATTAG
TCTTTAGAGATTGTAAGAATTTTAACTGTTGGATTCTACAAGGCACTAACATCATAAGTGCTCTAATAAATTTTTGTCAAAAGTCAATCATTAATATTCA
AAAATGTAGATAAATAATACATGTCTAGCAATTTTCAAAGGCATGCTAATTCATCATGCTTTCTCTTTCAAATAGTTTTTTTAAGAGCCCTCTGCTTATT
CCAGTCCCCCCCTTTAAAATCTTTTAAAATTATTAATAACCTATTAACTTTGAGCACTTCATTAAAATCCAAAAAATTTGAGGGAGTACATGTCTTTGTC
CTTTACCTTTAGAACCCTCAAACATAGCTTGGTATTGCTGTTTTTAAAATTTTCTGGAGCATTTAGGATTCACTTAGAAACAAGCCTTTAGGGAGAAAAA
TTTATCTAGCACCACTCACTCTATTTTTTTGCACTGACTACTTCTATTTTTCCCCCTTTCATTTCCCTAGACTTTTCAATGCTTTTTTATAAAGGTGCTT
GAGTTCTGTTTCTCAACAGCTCCCTCATTTATTGAATGATTCACACAGTCACTGGAATATTATAGGCTCTTAATAAAATTTTTGAATGATTGAAAGAGAG
AAAAGTATTTTACCTGTGATATATTGATATTTAAATAAACTAGAACACTTAAAGGAAAACATTTTGCTGGAATCAAATACTCTTTGGTGTACAATGAATT
ATAATTTTGTTATTAATTGAATTGGTTACCATTGTTTGAACATGCAGTTATCATTCTGTTGTCGCTTTCCTTCAACATATTTTTACTTTTTCTCTTAATG
CTTAAATTGAGCCTCCTTTCCTGTCCACTGGCTTAAGGAATACAGATGGCTTTTAATTTTATTACTTAAATTTCCTTCCATAGTTCCCTAAATGACTCAC
CCAACTGTTTTCATTTCTTGCAGTTTACTTTCTGATCCATACATTAAAACAAATCTTAATTCTTAATGTTACTCAGTCTATCTTTATATTTTTATATCAT
TTTTACATACATTTGAATGAGCTATCCTATTAAAATTTTAATATTAACTTTGAAGGTCTTGTTTTGAGATTAGCAATGGTGTAGAGCGCTGTGTTGGTAT
CAAAAGTCTCTGATCAACCAACTCATTACCTGTAGGATTTTGGATGAGTCACAAAGTTTCTTTTCTTCTACCCAAATGATAGCAGGTATTTGAATAGCTT
GCAGTTATACTCAATATAAAGACATAAAAGTGAAATTGCTGTTATTTTTAGTATCACTAGTATTAAGAGCAAACATTCTTGATAATTGTGTAGAAGTACA
AAAGCGGCTACATTGAACACATATTTGCACTGTTTTATTTCTGTACCAACAACCTTGCAATGGCTTCCTTTTGTTCTTAGAATAATAAAATCCAAGCGCC
CATTATTTGGCCTTGGTTTACCTTTTCAGCCTTCCTTTCCACTTACTCTTGAGACATTAAGTTTTGTATTCACTGTCCTTCATTCATTATCTMTTAATAG
CTATGCTTTGCTCTCTCAGGGCCTTCACACATTCTACAGTCTTAGCCTGGCACACTTCTCCTATTTCATGTTTCAGATTAAATGGTGCACCTTGGGGGAA
ACTTTCTTAATCACTCTCCATTAAGTTAGGTCCCCGTATTGCATACTTTCAGTGCACTCAGTACCTTTTCTATGTAGCACTTTTCACACTGTTTAAACAT
CTGTTTAAAGACTGTACACCCACTAGATGGAAAATTGTTGTAAGATATACAGACATTGTCTTGTTACCACCACTTGCCTAACTTCTACAAACTCAACAAT
TATCTGTGGAAATAAACTAATACAGATGAAATGAATAATTGTAAATTTGCTCTGAAATAAGAAGAGAAAGCACTTTAAGTGTTCCTTGAGCATGATAATC
TGGAAGAAATTAGGTATTTGTAGTCCTCTGGATCCACCTCTGACATGATATATTTTCTTTTTTACCACCTTGCAGGAGGTGTCTTTTCCTTGTATTTTTC
TGGTATATGCAATTCGGGCTCATTTCACAAAGTTTAGGAAAAAAAGAAAAACATAAATAGGATAGTGAAGCATGCTATCATCTAGAGCAAAAATCTTTTG
AAGTTTGTGTGTAATTATTACAAAAGGGGAGGGGTAAACTAGTATGTGTACACTTCCGTTAAATCGTGTAAATGAGGACTCTACCAGGAAGAATCGCTGC
TCGTAGATAAAAGTGCATTTTATTTCCCTAGATTGCATTTATTTAATTCATATAACATGAGAAACTCCTCCAGTAGCGTCAACTAGGGTTGATAAGAATA
ATCGATAAAGCAAAATAAAAACACCTTCTCCAAGATTTTGTAACTGCAAGCGAACGCATGGTGGCGCTGTTGACTAAGAAGGCGAATTAAACCACAGGCA
TTGTGCATGCTCGGTGACGCACGGATCCAGTGTGGTAAACCAGCGGTTGAGAGCCCAGGCAGATTTTTGASCCAGCAASTCTGAGCCTCTGGAAAGGCTT
ATTCACTAGGCCGTCTACAAAGGTTGTGGGGCAAAAGACTGTTTCCCAGCKCTGTCTGAGGTTCAGCTTGGCGACATTCCCTGGAAGAGCGTGACGGAAA
GTGCAATGGAGGCGGGAGGAGAGCGATTTCTTAGACAAAGGCAAGTSTTGCTTCTCTTTGTTTTTCTGGGAGGGTCTCTGGCTGGGTCCGAGTCAAGACG
CTATTCTGTGGCTGAGGAAAAAGAGARGGGCTTTTTAATAGCCAACCTAGCAAAGGATCTGGGACTAAGGGTAGAGGAACTGGCCGCGAGGGGGGCCCAA
GTTGTGTCCAAAGGGAACAAACAGCATTTTCAGCTCAGTCATCAGAYAGGTGATTTGCTCCTGAATGAGAAATTGGACCGGGAGGAGCTATGCGGCCCCA
CAGAACCATGCATACTACATTTTCAGATATTACTGCAAAACCCTTTGCARTTCGTTACAAACGAGCTCCGTATCATAGATGTAAATGACCATTCTCCGGT
ATTCTTTGAAAATGAAATGCATCTGAAAATCCTAGAAAGCACTCTGCCAGGAACAGTAATTCCTTTGGGAAATGCTGAGGACTTGGATGTGGGAAGAAAC
AGCCTCCAAAACTACACTATCACTCCGAATTCCCACTTCCACGTACTCACTCGCAGTCGTAGGGACGGAAGGAAGTACYCGGAACTAGTACTGGATAAAG
CGCTCGATCGGGAGGAGCAGCCGRAACTCAGCTTAACGCTCACCGCGCTGGACGGCGGCTCTCYCCCTCGGTCTGGGACAGCCCAGATAAACATCCAGGT
CTTAGATATAAACGACAATGCACCAGAATTTGCACAGCCGCTCTATGAGGTTGCAGTTCTAGAGAATACCCCCGTTAACTCTGTCATTGTCACTGTCTCG
GCTTCTGACTTAGATACAGGAAGTTTTGGGACAATATCATATGCATTTTTTCATGCTTCTGAAGAAATTCGCAAAACTTTTCAGCTAAATCCAATTACTG
GTGRTATGCAACTGGTCAAATATTTGAATTTTGAAGCGATTAATAGTTATGAAGTCGACATCGAGGCCAAGGATGGCGGAGGCCTATCCGGAAAGTCTAC
AGTCATAGTCCAGGTGGTTGATGTCAACGACAACCCACCGGAACTGACCTTGTCTTCAGTAAACAGCCCTATTCCTGAGAACTCGGGAGAGACTGWACTG
GCTGTTTTCAGTGTTTCTGATCTAGACTCTGGAGACAACGGAAGAGTGATGTGTTCCATTGAGAACAATCTCCCCTTCTTCCTGAAACCATCTGTAGAGA
ATTTTTACACCCTAGTGTCAGAAGGCGCGCTGGACAGAGAGACCAGWTCCGAGTACAACATTACCATCACTATCACTGACCTGGGGACACCCAGGCTGAA
AACCAAGTACAACATAACCGTGCTGGTCTCCGACGTCAATGACAACGCCCCCGCCTTCACCCAAAYCTCCTACACCCTGTTCGTCCGCGAGAACAACAGC
CCCGCCCTGCACATCGGCAGTGTCAGCGCCACAGACAGAGACTCAGGCACCAACGCCCAGGTAACCTACTCGCTGCTGCCGCCCCAGGACCCGCACCTGC
CCCTCTCTTCCCTGGTCTCCATCAACRCGGACAACGGCCACCTGTTYGCCCTCAGGTCGCTGGACTACGAGGCCCTGCAGGCGTTCGAGTTCCGCGTGGG
CGCCRCAGACCGYGGCTCCCCGGCTTTGAGCAGCGAGGCGCTGGTGCGCGTGCTGGTGCTGGACGCCAACGACAACTCGCCCTTYGTGCTGTACCCGCTG
CAGAAYGGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCTGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCSGTGGACRGYGACTCGGGCCAGA
ACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCACAATGGCGARGTGCGYACCGCCAGGCTGCTGAGCGA
GCGCGACGCGGCCAAGCACAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCAYGTGCTCCTGGTGGACGGC
TTCTCCCAGCCCTACCTGCCTCTCCCGGAGGCGGCACCGGCCCAGGCCCAGGCCGACTTGCTCACCGTCTACCTGGTGGTGGCRTTGGCCTCGGTGTCTT
CGCTCTTCCTCTTTTCGGTGCTCCTGTTCGTGGCGGTGCGGCTGTGCAGGAGGAGCAGGGCGGCCTCGGTGGGTCGCTGCTCGGTGCCCGAGGGCCCCTT
TCCAGGGCAGATGGTGGACGTGAGCGGCACCGGGACCCTGTCCCAGAGCTACCAATACGAGGTGTGTCTGACTGGAGGCTCCGGGACAAATGAGTTCAAG
TTCCTGAAGCCAATTATCCCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAGAGCTTTGAATTCAGTTAAGTGT
TAATAAGSATCTACTGAGCCTCGTCTTAGTTAATCTGTGGAAAGTCCTTTTTTACTGCTTTGYCCATTGGAGAGGTCTTTTTTGGTCTGGTTCAAGGCAA
GTAGCAAGAATAGAGCAAAATATCAAATCCAGGGATGGCTTAGGTTTCATTAACAGTACTGGAAAGTAGTTGTGTGGCTCTGAATGTTTTGTATTTCAAT
CGAGAATCCTTAGTCGATAGAACATTTTGTTTATATATTGATKCTACTTTTTCTGTAGTTAATCCTTGCATATTCTCCTTTCATCCTGGCTTGCCAACGC
AGTCTTAATTCCGCCTTTTTTTTTTCTAATGGGGAGCAAAAAGAAATTCACTGTCTTTTAATAGTGATTTCAAATAGCTTATTAAAATAACTCCATTCAA
ATTTTACATTATAAAGCAATGTAGAGAGAGTTCCAAACCACCAATTTTATAATTTCCCTTGTTGAATATATTCATATAATGTGTTCTATAATATGCCCAA
AGCAGCTTTGTCTATAGTTAACAAAGTTTTAAGGATAGACAAGAATGTGTTTTCTTTAATAAATAGTAATATATCATCTTTTTAGGGATATAGTACTCAA
ATGAAAGTAATTTAGTTCATTTTCTGTGTTGACATTTGCAATTAATATTTCAATATTTTATGTGCTTATATTGGCCAAAATATGGACACAAATATAGACT
AATATGGGTAATTACCCTTTGGTTTATCTAAAGTGTGTTCATGATGACYGAGGAAAAAAATTAAACCTATGCCATTTAAAAAACTGACTGTTCTTTTCCA
TTTGACACAAAAACGTTGTTTAGTAAGACATCTGGTGGAACAACTATTTGTTTCATAAATTCTGAGATGTAAGTGTTATGAATCTGAGAGACAATTTTTA
ATTTCAAGAAAATACATGGGTATATGATATCTAAATGCTTCAAGGTAAAAGTGGTGTCCTATCCAGTCCTATTTTTTTTTTTTTTTTTTTTTTTTTGAGA
CGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCT
CCCAAGTAGCTGGGACTACAGGCGCCCGCCACTACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCG
ATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCAGTCCTATTTTATTATTAATAC
CTACTTGCCACTTGTATGATGATATAGGAGAAAGATATTTTCTTTTTTTCCTGTCTTGGTTCCCTCCTTCAGATTTTAACCTGACATGATTTAGGATTAT
ATATGGTCTTTCTGGGATAGAAACTGTCCATCCTTATCAGCATCCTACCTCCTGCAATGTAATTAAAAGAAGATGTACAAGAATAGAAAGTTCTAAAAAG
GAGAGGGCAATATCGTTGTGAAACTCTAAATTAGCTACAACTAAGAATAAAATCTGGAAGCAACCAAAACATGGAATCTTATGGTTATCTTGAGTAAAAT
AAAAAAACTTATTTTAAGCGACAAAATATTTAGCTCCTAATTAGGGAAGTGTATTAGGAAAAAATTAATTTTCTTCTTACAAGCATTTCTTCACCCACAG
AACATCCATATAACTTTCTAGCAATTAAATACTCATGACTAGAGAAAAGAGAATTTCTCAAAGATTTTAAAAATTCCCCAAAAAGCAAGAGTTTAAGATT
GACATGCTTTCAAACATATGTTAAAGTGTAGTTATTATCACATTTAAATGGTGTAATTTTATGTAACAGCATCAAATTCATAAATACTTTTTAAAAAAAA
TTTTTGAGACAGGGCCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTACAATCATGGCTCACTGCAGTCTCAATCTCCTGGGCTCAAGGGATCTGACCA
CCTCAGCCTCCAGAGTAGCTGGGACCATAGGTGTGTGCCACCACACCCAGCTATTTAACAACAAAAAAAATTTATTTGTAGAAATGGGGTTTCCCCATGT
TGCCCAGGCTGGTCTGGAACTCCTGTGCTCAAGGGATCCTCCTGCCTCCACTTCCCAAAGTGCTAGGATTAACAGGTATGAACCACCATGCCCAGCCAAA
TATGTGAATCTTTAATAGTCAGAGGAAAATTAATATAATATTTCCTTTCACTTTAAGTACTTTATAGAGATGTTTGAATCTGGCTGTTTTGGTCAGATAT
TTTTCTTCTTTGCATACGTAGCTGATTTTCCATGAATATCAGGAAAAGGCATAGAATTCTGATCAAGATTTCTCTCTCTTTGATTACCTTAGTCCCAGGT
GGTATCAGAGCCAGGGAAGTACTCAACTGTGGAAAATATAGAGGGCAGTTCTTTTGGGGACTAATATGGTATATGATCGGAGACTAAAGTTCAAAAGGCA
ATATGCTGAGTCATTTAGACACTGAAGATAGAAGAACAGATACCATTTGTAATTTAGTTTTTAGATGTACTGGACTTATACATTGTTGAGAAAATGAATA
GAATTTAGCAAAGCCAGAAAAGATAATCTATACTAAATTTGAAGGTGGGAAACAATCACATCTTACTCTTGGTTCAAAGCTGCTTCTCTTTCAGGGCAGT
TAGAAACCTTTTACCCTTTTATTTGAAGACAACTTCCAAAAACATATTCATCTGGATATTTCATTAAATACAGAACAGAGAGAGTACCACATGTACAGTA
CTAACTAGTGTTGCCACGTTTTGGAATTCCACGAACTAAATGCCTGGCACAAGGTAAAAGGGTTATTAATAATTTTCTAGTAATTTTTCTTCTAGGCAGG
CTAATTCATTATTGTAAAATATTTACAAATCGATCTCACCAGTATTCCAATTATCAAAAAGTAAGAGAAGGAAAAATTTTACTCCCTTCCCTCATTCTAG
AATATATAAAATGACCTTACTAGACTCTAAACAACTTGAAGGTAGAGTCTGTTTCTGGTTTATTCACAGTGGTATTTCCAGCAAATAGCACAATGCCTCA
TTCATAGTAGACACTCAGTTTATATTTGTTAAATAAATAAATTTTAAATTATTTGGGAAATAAAATAATGCTGTAAGGACTTACAAACTTGTTTATTTGG
ACCTGATCTACACATTGAATTTTAAAAGAACTATCTGTATTCAGAAAGGGGTGGAGTATGAAGAATAATTCCCTATAGAGGCAATTTTTTATTTAATGTC
TCCCTTTGCATCTTGAGACTTGTGGAAACTTGGAGAACTGTAAAATTATGTATTAATCTCCAAGTTGGTTCCAAATTGAGCTTATTTATATCTTTGATTT
CAGGGACAAAGAAGAAATTAAATATAAGACTTTTTTGTACATCAAATTAACTTTCTGAAATTGGTATTTAAATTCTCTGGCCTCTAATTGGTACTTCTGT
TGAACTTGGGTTAGTCTTAATGATATCAAGATTAAATAAAATTTGCAAGATCCCAAAGGCTTAAAAATTTTTTTAATAGCCAATCATTCATTTATTTTCA
AAACATAATTCTCGATCACGTGCACACTCCTTTCTTCTCTCTACAAATACATTAGTTCAGAAATAACTTAAATATTTCCTTGACATTCACAATCTAGTTT
TTAGCACTGAAAATCAAAGGGATACAAATGAATTTTAAATTTTTATTTGGGGAGTTGTTATAAGACTAAGCTATATTCAAATATCAATCATTAAAACTAG
TGAGGCCACTCACTATACCACCATACTTTTCATAAATCTCCTTTGATGAATAAATTCTACTTCCTTACAAAAGAAGACTCTGTTTAAAAAAGGTACCAAC
TTTTCTATATATCCCCCTACTTTATTCTGGAAATGTCTTTTGCTTCTTAAAGTAATTGTTAGATTTTTTAAGCCARAAATCTGTTAGTCCTAATTATGAA
TTATTTTAATGTCAAATATGCATATGGTTAATCAATAGTTTTCTTTATCATAGATTCAAAATTTTAAGCTTATTTTCCTTCCATTCTTTAGGCATTCAAC
ACGTTGATGAAAAGTACAATGTCAGTCTACTTCTCATTCTTTTATCCGTAAACTTCTTTACTCTCTTTTAGATTCTTAAATTTATTCTTGCTGTTCTGAT
ATATATGGTAGGCCCCAACCTGAGATTCACATAACGTACTGCATTTTTTTCTTTGAGAAATTACAATTTTCTTTTGAAAACTTTCATTTGGCAAGTTTTC
ACAACTATTTGTTCTTGTTTCAAAATTGCTATTTCCTTCTTTGTTGTTTGAGTCTTTTACGTTTAAGTTCTTGCCATATTGTTTCGAATTTCAATTTCTT
ATAGTAGATAAAACAATTCTTTTATTTGTTGAGTCTCTTTTTCATGGTGTCAATCTTCATTTGCTTGGTGATATTTTACTGAGAACTTATCTCTTATTGG
AAGCTTCTTTCACAGTAGTACTTGTTTTGACAATCCTGGGGAAGGGAAGAAGGAGAAGAGGGGTCTCAAGGTGGTTTCAGCCCTGGCCTCTGCAAACCCA
AGCCTTAATTTAAAAGCTTAGCTCGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAAGAGAT
CAAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAAATACAAAAAATTAGCCGGGCGTGGTGGCACGCGCCTGTAGTCCCAGCCACTCGG
GAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCGGAGATCGCCCCACTGCACTCCAGCCTGGGCGAAAGAGCGAGACTCT
GTCTCAAAAAAAAAAAAAAAAGGAAAAAAGAAAAGAAAATAAAAAAAGAAAAAAGCTTAGCTCAACTTTGCCACACCCAGGTAAAAGTTCTGGACCAAGC
ACTAAAAATATGTTTGAGTTGGGACCCATGCTCTTTTGGGTGGTATTGTTCTGCATTTGCTCAATGAGGCAAAAATCTCAGGGAATGTCACTGCTTCTTG
GTTGTCACGGTTTCTGCTAAGGCTATAGACATGGAAGCTAATGGAGAAATTTAAAATGTTTCAATCTTCAGAGTAAATAAGTTGATTTTTAGGAAAAGTG
AACTGTAACTGAAGCAATTGACACATGGGGACTATGTGGAAAACATCATGGTCTGGATTCAAGTTACAGCATTCATGGTAATGCTCAGAAAGATAATAAC
ATACTCCAAGATTCCACTGAAATAGTGGTTGCTATTTTTTTTTTTAGAAAATAGCTTGGGACTCTGGTGATAATGCAAAATGGGCTTGCTCCTTCCAAGA
CAATCTCCTCATGAAACCATTTGTCAAAAATTAGTGTTCTGGGACTGGGCACAGTGGCTCATGCCTTTAATCCCAGCACTTAGGGAGGCCGAGACAGGAG
GATTGCTTGAGCCCAGGAGTTCAACAACAGCCTGGGAAACATAGTGAGACTCTGTCTCTACAAAAAATTTTAAAAATTGACTGGGTGTGGTGGCATGCAC
CTGAGGTCCTAGCTACTGAAAAGGGTGAGGTGGGAGGATCCTCGAGCCCAGGAAGTTGAGGCTGCAGCAAGCCATGATCATGCTGTAGCCTGGGTAATAC
AGCCAGACTCTATCTCAAAAAATAAAATTATTTTGGTAACAGAGAAGTCAGGGCTCTGCACCATCTCTTACTAGGGTGGAATCTAACATGCAGAAATATA
GCACAACATAATCACACTGTTCTTCAACACTGTCAACAATTCCCTGACCCAAACCTCATGTACCTTATTAATTCACAATAAAAAGAAAGTCCTACTCAGA
ATGATGATAGTATCACTGCCAAAAACAGAGACTATCTAGGGACTAATACCTAAGTCACTTTCCCACAGCTGCCCAAAGACGTATTCCTCAGCCCTCTCTT
GGTATCCATCTGCATGGACAATGGAACCTGTGTGCTTTGATGTCCCTGGTTTTTGAGATTCTTGAAGAGTTTGAGTTCTAAATGTGTCTGGAGCTTTCTG
GAGTTGAGCATCAAGATGTGCAGATCCTGGATGACACACAGCTATAATAGCTAGATAACAAAGAAAATTTATTATAAAGCAATTCTATATTGTGTACTGA
GCTGTCCAGGTAGAAAAAAAGTGGTAACCCAGTGATGACTTGGGCTAGAACTCATGACTATTTTATTGGTGATTCGAGGCCTCAGAGCCCTGGATGTTAG
CATGTGGGCCCACAGCCTGGAAGTACAGAGTATGTGAAGCACATCTAGGCTTCTAAAAGACAACCACAACCAGGCATAAGCTGGTGCTGTTATTAAGGAC
AAGTGGAAGCCACCTTTATTTGCCATGATCATCCTACACCTGGTCTAGGACTTACCCCAGTCTTCTCTTCCATTCCTTTAACCACCCATAAAAGGATTTC
CATTTTCTTGATCACTGATTTGACTCAGTCTTCTTTCTCTTTCAATTCTCTCTGTTCCTGTGCTACTCAGATGTGGAGGGTCAACTGGGAAACTTCAGTG
CATTGCTGCTCAAAAGAAAGACTCTTCCTGAGCATTTTGGGAGTATCAACACCACTGGGATTTAGTTCTAGAGCTTTCAGTGTGAGAAGTTTCTGGAATA
TCAGAAACAAATATCAAATTTCTGAAGCCAATTGTCTCTAATTAATGTGAGCTATCTATGAGGAAAGACTTTTAAAA


SNP Information

Context             (SEQ ID NO:54484):
TCGAGTTCCGCGTGGGCGCCACAGACCGTGGCTCCCCGGCTTTGAGCAGCGAGGCGCTGGTGCGCGTGCTGGTGCTGGACGCCAACGACAACTCGCCCTT
Y
GTGCTGTACCCGCTGCAGAACGGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCTGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACG
Celera SNP ID:            hCV26312419
SNP Position Genomic:     8085
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54485):
GCTCGGTGCCCGAGGGCCCCTTTCCAGGGCAGATGGTGGACGTGAGCGGCACCGGGACCCTGTCCCAGAGCTACCAGTACGAGGTGTGTCTGACTGGAGG
M
TCCGGGACAAATGAGTTCAAGTTCCTGAAGCCAATTATCCCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAGA
Celera SNP ID:            hCV25936396
SNP Position Genomic:     2826
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,27)   caucasian(A,5|C,29)   total(A,10|C,56)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54486):
GGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCT
K
CTCCCGGAGGCGGCACCGGCCCAGGCCCAGGCCGACTTGCTCACCGTCTACCTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCTTCTCGGTGC
Celera SNP ID:            hCV1005608
SNP Position Genomic:     2568
SNP Source:               Applera
Population(Allele,Count): african american(G,32|T,2)   caucasian(G,33|T,5)   total(G,65|T,7)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54487):
TGCTCGGTGCCCGAGGGCCCCTTTCCAGGGCAGATGGTGGACGTGAGCGGCACCGGGACCCTGTCCCAGAGCTACCAGTACGAGGTGTGTCTGACTGGAG
R
CTCCGGGACAAATGAGTTCAAGTTCCTGAAGCCAATTATCCCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAG
Celera SNP ID:            hCV25936397
SNP Position Genomic:     2825
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,24)   caucasian(A,3|G,27)   total(A,5|G,51)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54488):
GTGATTTGCTCCTGAATGAGAAATTGGACCGGGAGGAGCTATGCGGCCCCACAGAACCATGCATACTACATTTTCAGATATTACTGCAAAACCCTTTGCA
R
TTCGTTACAAACGAGCTCCGTATCATAGATGTAAATGACCATTCTCCGGTATTCTTTGAAAATGAAATGCATCTGAAAATCCTAGAAAGCACTCTGCCAG
Celera SNP ID:            hCV25939465
SNP Position Genomic:     6750
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,29|G,3)   total(A,65|G,5)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:54489):
CGCCCTTCGTGCTGTACCCGCTGCAGAACGGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCTGAGCCGGGCTACCTGGTGACCAAGGTGGTGGC
S
GTGGACGGCGACTCGGGCCAGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCACAATGGCGAAGTGC
Celera SNP ID:            hCV25932275
SNP Position Genomic:     8178
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,31)   caucasian(C,1|G,35)   total(C,8|G,66)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54490):
ATCACTATCACTGACCTGGGGACACCCAGGCTGAAAACCAAGTACAACATAACCGTGCTGGTCTCCGACGTCAATGACAACGCCCCCGCCTTCACCCAAA
Y
CTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCAGTGTCAGCGCCACAGACAGAGACTCAGGCACCAACGCCCAGGTAACC
Celera SNP ID:            hCV25934309
SNP Position Genomic:     7766
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,16)   caucasian(C,4|T,28)   total(C,6|T,44)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(C,6|T,34)   total(C,8|T,68)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54491):
CGCCACAGACAGAGACTCAGGCACCAACGCCCAGGTAACCTACTCGCTGCTGCCGCCCCAGGACCCGCACCTGCCCCTCTCTTCCCTGGTCTCCATCAAC
R
CGGACAACGGCCACCTGTTTGCCCTCAGGTCGCTGGACTACGAGGCCCTGCAGGCGTTCGAGTTCCGCGTGGGCGCCACAGACCGTGGCTCCCCGGCTTT
Celera SNP ID:            hCV25940562
SNP Position Genomic:     7927
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54492):
TCCGAATTCCCACTTCCACGTACTCACTCGCAGTCGTAGGGACGGAAGGAAGTACCCGGAACTAGTACTGGATAAAGCGCTCGATCGGGAGGAGCAGCCG
R
AACTCAGCTTAACGCTCACCGCGCTGGACGGCGGCTCTCCCCCTCGGTCTGGGACAGCCCAGATAAACATCCAGGTCTTAGATATAAACGACAATGCACC
Celera SNP ID:            hCV3169656
SNP Position Genomic:     7024
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,27)   caucasian(A,8|G,32)   total(A,15|G,59)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54493):
CTAGCAAAGGATCTGGGACTAAGGGTAGAGGAACTGGCCGCGAGGGGGGCCCAAGTTGTGTCCAAAGGGAACAAACAGCATTTTCAGCTCAGTCATCAGA
Y
AGGTGATTTGCTCCTGAATGAGAAATTGGACCGGGAGGAGCTATGCGGCCCCACAGAACCATGCATACTACATTTTCAGATATTACTGCAAAACCCTTTG
Celera SNP ID:            hCV25939841
SNP Position Genomic:     6647
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,31|T,1)   total(C,65|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54494):
TGATGTGTTCCATTGAGAACAATCTCCCCTTCTTCCTGAAACCATCTGTAGAGAATTTTTACACCCTAGTGTCAGAAGGCGCGCTGGACAGAGAGACCAG
W
TCCGAGTACAACATTACCATCACTATCACTGACCTGGGGACACCCAGGCTGAAAACCAAGTACAACATAACCGTGCTGGTCTCCGACGTCAATGACAACG
Celera SNP ID:            hCV10011992
SNP Position Genomic:     7647
SNP Source:               Applera
Population(Allele,Count): african american(A,25|T,5)   caucasian(A,32|T,6)   total(A,57|T,11)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,27|T,7)   caucasian(A,29|T,7)   total(A,56|T,14)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,7)      total(A,7|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54495):
TTTCTTAGACAAAGGCAAGTCTTGCTTCTCTTTGTTTTTCTGGGAGGGTCTCTGGCTGGGTCCGAGTCAAGACGCTATTCTGTGGCTGAGGAAAAAGAGA
R
GGGCTTTTTAATAGCCAACCTAGCAAAGGATCTGGGACTAAGGGTAGAGGAACTGGCCGCGAGGGGGGCCCAAGTTGTGTCCAAAGGGAACAAACAGCAT
Celera SNP ID:            hCV985775
SNP Position Genomic:     6527
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,32|G,4)   total(A,64|G,8)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,3)   caucasian(A,21|G,1)   total(A,38|G,4)   
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54496):
GAGCCCAGGCAGATTTTTGAGCCAGCAAGTCTGAGCCTCTGGAAAGGCTTATTCACTAGGCCGTCTACAAAGGTTGTGGGGCAAAAGACTGTTTCCCAGC
K
CTGTCTGAGGTTCAGCTTGGCGACATTCCCTGGAAGAGCGTGACGGAAAGTGCAATGGAGGCGGGAGGAGAGCGATTTCTTAGACAAAGGCAAGTCTTGC
Celera SNP ID:            hCV8939774
SNP Position Genomic:     6351
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,36)   caucasian(G,6|T,34)   total(G,8|T,70)
SNP Type:                 UTR 3;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:54497):
TGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCCTCTCCCGGAGGCGGCACCGGCCCAGGCCCAGGCCGACTTGCTCACCGTCTACCTGGTGGTGGC
R
TTGGCCTCGGTGTCTTCGCTCTTCCTCTTTTCGGTGCTCCTGTTCGTGGCGGTGCGGCTGTGCAGGAGGAGCAGGGCGGCCTCGGTGGGTCGCTGCTCGG
Celera SNP ID:            hCV25937091
SNP Position Genomic:     8484
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,34|G,6)   total(A,68|G,8)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54498):
TGGTCTCCATCAACGCGGACAACGGCCACCTGTTTGCCCTCAGGTCGCTGGACTACGAGGCCCTGCAGGCGTTCGAGTTCCGCGTGGGCGCCACAGACCG
Y
GGCTCCCCGGCTTTGAGCAGCGAGGCGCTGGTGCGCGTGCTGGTGCTGGACGCCAACGACAACTCGCCCTTCGTGCTGTACCCGCTGCAGAACGGCTCCG
Celera SNP ID:            hCV26312420
SNP Position Genomic:     8013
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54499):
TAAGCACGGCCCTGGACCGGGAGACCAGATCCGAATACAACATCACCATCACCGTCACCGACTTCGGGACACCCAGGCTGAAAACCGAGCACAACATAAC
M
GTGCTGGTCTCCGACGTCAATGACAACGCCCCCGCCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCA
Celera SNP ID:            hCV8939793
SNP Position Genomic:     1866
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,38)   total(A,2|C,74)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54500):
CTCTTCCCTGGTCTCCATCAACGCGGACAACGGCCACCTGTTTGCCCTCAGGTCGCTGGACTACGAGGCCCTGCAGGCGTTCGAGTTCCGCGTGGGCGCC
R
CAGACCGTGGCTCCCCGGCTTTGAGCAGCGAGGCGCTGGTGCGCGTGCTGGTGCTGGACGCCAACGACAACTCGCCCTTCGTGCTGTACCCGCTGCAGAA
Celera SNP ID:            hCV26312421
SNP Position Genomic:     8005
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54501):
TTATTTAATTCATATAACATGAGAAACTCCTCCAGTAGCGTCAACTAGGGTTGATAAGAATAATCGATAAAGCAAAATAAAAACACCTTCTCCAAGATTT
T
GTAACTGCAAGCGAACGCATGGTGGCGCTGTTGACTAAGAAGGCGAATTAAACCACAGGCATTGTGCATGCTCGGTGACGCACGGATCCAGTGTGGTAAA
Celera SNP ID:            hCV26312422
SNP Position Genomic:     6139
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:54502):
AAGGCGAATTAAACCACAGGCATTGTGCATGCTCGGTGACGCACGGATCCAGTGTGGTAAACCAGCGGTTGAGAGCCCAGGCAGATTTTTGAGCCAGCAA
S
TCTGAGCCTCTGGAAAGGCTTATTCACTAGGCCGTCTACAAAGGTTGTGGGGCAAAAGACTGTTTCCCAGCTCTGTCTGAGGTTCAGCTTGGCGACATTC
Celera SNP ID:            hCV8939779
SNP Position Genomic:     6279
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,24)   caucasian(C,5|G,23)   total(C,7|G,47)
SNP Type:                 UTR 3;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:54503):
GAGTTCAAGTTCCTGAAGCCAATTATCCCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAGAGCTTTGAATTCA
S
TTAAGTGTTAATAAGGATCTACTGAGGCTAGTCTCGTTTAATTTGTGGAAAGTCCTTTTTTACTGCTTTGCCCATTGGAGGTGTCTCCTTTTATTAGAAA
Celera SNP ID:            hCV26312423
SNP Position Genomic:     2939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54504):
TGACTAAGAAGGCGAATTAAACCACAGGCATTGTGCATGCTCGGTGACGCACGGATCCAGTGTGGTAAACCAGCGGTTGAGAGCCCAGGCAGATTTTTGA
S
CCAGCAAGTCTGAGCCTCTGGAAAGGCTTATTCACTAGGCCGTCTACAAAGGTTGTGGGGCAAAAGACTGTTTCCCAGCTCTGTCTGAGGTTCAGCTTGG
Celera SNP ID:            hCV25937542
SNP Position Genomic:     6271
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,25)   caucasian(G,28)   total(C,1|G,53)
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:54505):
TGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAGGGAGCGCGACGC
K
GCCAAGCAGAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGC
Celera SNP ID:            hCV26312425
SNP Position Genomic:     2457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54506):
TGCTGTACCCGCTGCAGAACGGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCTGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACGG
Y
GACTCGGGCCAGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCACAATGGCGAAGTGCGCACCGCCA
Celera SNP ID:            hCV25956700
SNP Position Genomic:     8187
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,35|T,1)   total(C,65|T,9)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54507):
TGGACGGCGACTCGGGCCAGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCACAATGGCGAAGTGCG
Y
ACCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCAAGCACAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGC
Celera SNP ID:            hCV25957341
SNP Position Genomic:     8280
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,25|T,9)   total(C,59|T,13)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54508):
TTCAATATTTTATGTGCTTATATTGGCCAAAATATGGACACAAATATAGACTAATATGGGTAATTACCCTTTGGTTTATCTAAAGTGTGTTCATGATGAC
Y
GAGGAAAAAAATTAAACCTATGCCATTTAAAAAACTGACTGTTCTTTTCCATTTGACACAAAAACGTTGTTTAGTAAGACATCTGGTGGAACAACTATTT
Celera SNP ID:            hCV29063524
SNP Position Genomic:     9549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:54509):
TCTGACTTAGATACAGGAAGTTTTGGGACAATATCATATGCATTTTTTCATGCTTCTGAAGAAATTCGCAAAACTTTTCAGCTAAATCCAATTACTGGTG
R
TATGCAACTGGTCAAATATTTGAATTTTGAAGCGATTAATAGTTATGAAGTCGACATCGAGGCCAAGGATGGCGGAGGCCTATCCGGAAAGTCTACAGTC
Celera SNP ID:            hCV25935111
SNP Position Genomic:     7304
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:54510):
GGTTTCATTAACAGTACTGGAAAGTAGTTGTGTGGCTCTGAATGTTTTGTATTTCAATCGAGAATCCTTAGTCGATAGAACATTTTGTTTATATATTGAT
K
CTACTTTTTCTGTAGTTAATCCTTGCATATTCTCCTTTCATCCTGGCTTGCCAACGCAGTCTTAATTCCGCCTTTTTTTTTTCTAATGGGGAGCAAAAAG
Celera SNP ID:            hCV29063525
SNP Position Genomic:     9043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:54511):
TCTACAGTCATAGTCCAGGTGGTTGATGTCAACGACAACCCACCGGAACTGACCTTGTCTTCAGTAAACAGCCCTATTCCTGAGAACTCGGGAGAGACTG
W
ACTGGCTGTTTTCAGTGTTTCTGATCTAGACTCTGGAGACAACGGAAGAGTGATGTGTTCCATTGAGAACAATCTCCCCTTCTTCCTGAAACCATCTGTA
Celera SNP ID:            hCV29063526
SNP Position Genomic:     7496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:54512):
CAAGCGCCCATTATTTGGCCTTGGTTTACCTTTTCAGCCTTCCTTTCCACTTACTCTTGAGACATTAAGTTTTGTATTCACTGTCCTTCATTCATTATCT
M
TTAATAGCTATGCTTTGCTCTCTCAGGGCCTTCACACATTCTACAGTCTTAGCCTGGCACACTTCTCCTATTTCATGTTTCAGATTAAATGGTGCACCTT
Celera SNP ID:            hCV3169660
SNP Position Genomic:     5293
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,5)   total(A,5|C,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:54513):
CAGACCGTGGCTCCCCGGCTTTGAGCAGCGAGGCGCTGGTGCGCGTGCTGGTGCTGGACGCCAACGACAACTCGCCCTTCGTGCTGTACCCGCTGCAGAA
Y
GGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCTGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACGGCGACTCGGGCCAGAACGCCT
Celera SNP ID:            hCV25932195
SNP Position Genomic:     8106
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,37|T,1)   total(C,69|T,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,32|T,4)   total(C,69|T,5)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54514):
CAGCTCTGTCTGAGGTTCAGCTTGGCGACATTCCCTGGAAGAGCGTGACGGAAAGTGCAATGGAGGCGGGAGGAGAGCGATTTCTTAGACAAAGGCAAGT
S
TTGCTTCTCTTTGTTTTTCTGGGAGGGTCTCTGGCTGGGTCCGAGTCAAGACGCTATTCTGTGGCTGAGGAAAAAGAGAAGGGCTTTTTAATAGCCAACC
Celera SNP ID:            hCV25936769
SNP Position Genomic:     6447
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,40)   total(C,77|G,1)
SNP Type:                 MISSENSE MUTATION;SILENT MUTATION;TFBS


Context             (SEQ ID NO:54515):
GGAGGAGCTGTGCGGCCCCACAGAGCCCTGTGTCCTACCTTTCCAGGTGTTACTAGAAAATCCCTTGCAGTTTTTTCAGGCGGAGCTACGGATTAGGGAC
R
TAAATGATCATTCCCCAGTTTTCCTAGACAAAGAAATACTTTTGAAAATTCCAGAAAGTATCACTCCTGGAACTACTTTCTTAATAGAACGTGCCCAGGA
Celera SNP ID:            hCV3169664
SNP Position Genomic:     928
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,5|G,33)   total(A,11|G,65)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   ;(A,-|G,-)   Caucasian(A,10|G,72)   African-American(A,5|G,73)   Asians(A,14|G,48)   total(G,193|A,29)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54516):
CGCTAACCCTCTCTGCACCCTGAGCAACGAAGTTGGGGATAATTGGCTTCAGGAACTTGAACTCATTTGTCCCGGAGCCTCCAGTCAGACACACCTCGTA
R
TGGTAGCTCTGGGACAGGGTCCCGGTGCCGCTCACGTCCACCATCTGCCCTGGAAAGGGGCCCTCGGGCACCGAGCAGCGACCCACCGAGGCCGCCCTGC
Celera SNP ID:            hCV10011982
SNP Position Genomic:     12776
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,23|G,13)   total(A,57|G,15)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54517):
GCACCAACGCCCAGGTAACCTACTCGCTGCTGCCGCCCCAGGACCCGCACCTGCCCCTCTCTTCCCTGGTCTCCATCAACGCGGACAACGGCCACCTGTT
Y
GCCCTCAGGTCGCTGGACTACGAGGCCCTGCAGGCGTTCGAGTTCCGCGTGGGCGCCACAGACCGTGGCTCCCCGGCTTTGAGCAGCGAGGCGCTGGTGC
Celera SNP ID:            hCV25940579
SNP Position Genomic:     7947
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,25|T,7)   total(C,52|T,8)
SNP Type:                 MISSENSE MUTATION;SILENT MUTATION;hmCS


Context             (SEQ ID NO:54518):
CCATCTGCCCTGGAAAGGGGCCCTCGGGCACCGAGCAGCGACCCACCGAGGCCGCCCTGCTCCTCCTGCACAGCCGCACCGCCACGAACAGGAGCACCGA
Y
AAGAGGAAGAGCGAAGACACCGAGGCCAATGCCACCACCAGGTAGACGGTGAGCAAGTCGGCCTGGGCCTGGGCCGGTGCCGCCTCCGGGAGAGGCAGGT
Celera SNP ID:            hCV25937049
SNP Position Genomic:     7064
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(C,4|T,32)   total(C,6|T,64)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54519):
AGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAG
S
GAGCGCGACGCTGCCAAGCAGAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACG
Celera SNP ID:            hCV27537821
SNP Position Genomic:     2445
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54520):
CCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAGAGCTTTGAATTCACTTAAGTGTTAATAAGGATCTACTGAG
S
CTAGTCTCGTTTAATTTGTGGAAAGTCCTTTTTTACTGCTTTGCCCATTGGAGGTGTCTCCTTTTATTAGAAAGTAACCATCTTATTCCAATTCTATGCA
Celera SNP ID:            hCV8939786
SNP Position Genomic:     2966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:54521):
TTGAACTCATTTGTCCCGGAGCCTCCAGTCAGACACACCTCGTATTGGTAGCTCTGGGACAGGGTCCCGGTGCCGCTCACGTCCACCATCTGCCCTGGAA
Y
GGGGCCCTCGGGCACCGAGCAGCGACCCACCGAGGCCGCCCTGCTCCTCCTGCACAGCCGCACCGCCACGAACAGGAGCACCGAAAAGAGGAAGAGCGAA
Celera SNP ID:            hCV26312414
SNP Position Genomic:     6979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:54522):
CCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCAAGCACAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCA
Y
GTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCCTCTCCCGGAGGCGGCACCGGCCCAGGCCCAGGCCGACTTGCTCACCGTCTACCTGGTGGTGG
Celera SNP ID:            hCV26312416
SNP Position Genomic:     8382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:54523):
AGCCAATTATCCCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAGAGCTTTGAATTCAGTTAAGTGTTAATAAG
S
ATCTACTGAGCCTCGTCTTAGTTAATCTGTGGAAAGTCCTTTTTTACTGCTTTGTCCATTGGAGAGGTCTTTTTTGGTCTGGTTCAAGGCAAGTAGCAAG
Celera SNP ID:            hCV3191747
SNP Position Genomic:     8808
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(C,1|G,39)   total(C,1|G,75)
SNP Type:                 UTR 3;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:54524):
TGGCGGTGGACGGCGACTCGGGCCAGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCACAATGGCGA
R
GTGCGCACCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCAAGCACAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCA
Celera SNP ID:            hCV26312417
SNP Position Genomic:     8274
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:54525):
TCCCAGTTTCAGGAAGAGCTTTGAATTCAGTTAAGTGTTAATAAGGATCTACTGAGCCTCGTCTTAGTTAATCTGTGGAAAGTCCTTTTTTACTGCTTTG
Y
CCATTGGAGAGGTCTTTTTTGGTCTGGTTCAAGGCAAGTAGCAAGAATAGAGCAAAATATCAAATCCAGGGATGGCTTAGGTTTCATTAACAGTACTGGA
Celera SNP ID:            hCV3191748
SNP Position Genomic:     8863
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(C,6|T,34)   total(C,11|T,65)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:54526):
CGTGCTGTACCCGCTGCAGAACGGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCTGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGAC
R
GCGACTCGGGCCAGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCACAATGGCGAAGTGCGCACCGC
Celera SNP ID:            hCV26312418
SNP Position Genomic:     8185
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Gene Number:                 269
Celera Gene:                 hCG91953 - 107000109461405
Gene Symbol:                 ZNF175
Protein Name:                zinc finger protein 175;OTK18
Celera Genomic Axis:         GA_x5YUV32VY4T(1426829..1457339)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12429):
CTGGGTCCCACCTGGGACTGAATCCTCCTATTCCATGCTCCTCTTCAGATCTGGGCACGTCGGGAGCCTTGGGAAGCCCTGGCTGAGCTCTCGAAGTTCT
CTGAGCAGGGAAACCCGTGGTGCTAGGGTTGAAGCCTGGGGGCCATGAATGGAGCCCCTGACTTAGGTGGGATATTTGTTGCTTTCTGATGCTTGTTTGG
GTTCAGGAAGGAGCCTGGACTTGCCTCACAGACCTTTCTTTGGTTTCTGTGTGAGCTCTGACTTTGCTGTGGGGCTTTTTTTCTTCCAGAAAGAACCCAG
GAAGCATTGCCATTTACTGCTCTCACTGCCCTGAACGCCTGCCCTGAACCCCTGCTCTGCCTACCCCTTGGATTTCTTTCTCTTCGCAGGCTCTTGCAGC
AGGTCCTGATGCCCCTCCTTCATGCTTTACCCAGTCCTTCATCTGTCCCCACATCCACTAAGACCGCAGCATCTCCCTTCCTCATCCTGCCTCCTCCCAG
CAGACATCTGGCCTATGGGCTGCCTTCCTGAAAACTATCTAGCTTGTGGTTACATGAAGCCAGAGTCCACTTGTGGTTATGAGCACACGATTGTCCTGGG
CCACATAATGTGTGTTTAGCTTGATCCTAAATGAGTTTCAACCTAACACCCTCATCTGGCCTCTCCTATCTGAGTCTGGATGTCAGCTACCCATCCGTTT
GACAGGTATTGAGCACCTTTGACCTGCCCCAGAAGTGGCATCACATTGACCTAAGAAATGGCATCAAGGACAAAGAAAAATGACCACATCAAGACCCTCC
TACACAAGAAGACACGGGATGACAGAGAACCAATTCTGCTACTGATAGTGGAGCTATGGTTTCCAGGACGAGAGTAGATGAAGGGGTTTGCCAGCTGCTA
TAACAGGATCCAGTAAATGGGCTGGCCCTAAGGGGTGAAAGTGCAGATTCCTCCCTCAACCCCTGAGGAGTCTGACTGGCACTTCTGATATTTGGGGCTC
AGGAAGTTAAAAACCATAGAAAATATTAATTCCCCATTCATAATATAATTGGCATGTACTATTCCCATATGTGCAAATTAACTCTTCGCTGTGAACATAT
GCAACTTGGCATTCCACACTCAACCGGCATAGGGGCAGACTAGGAGTCCCATGGAGCTGATGTTCCCAGGAGCACCCCTCAGCCTATGCTGGTGGATAAT
ACCTGGTGTGGGGGTGAGTGAGAAAGATCCCAGTAGAATAGCCTTTCTCCTCCCCACTCCTTCCTCCACCCATGAAGACTATTCTTTATTCAAGAGAGAC
ATGAAATTGGGGCAGAAGTGTGCTGAGAAATATTTAACAACTGGATTTCCAAAAAATACATATTCATAATAAATTTTACTGATATAAAGTATTTGTAGCA
CACTGTTGAGCACTCAATTTGTCGCTGTTCGGGGTGCCACTATGTAACTCTCATGGACCTAGGGTAACTGAACAAAGGGAGGTGAACGTAGGAATAAAAG
ACAAGAGACAAAAGAGCATGTTTGGAAGAAGGGGTCAGGGGGCACCTTGCCTCTAGTGGACAAGGGCCCTGAACTTTACACAGCCCTCTGTATTTATTAG
GCAAAAGAGATAGCGAGAAGTGGGGTGGAAGAAGAGGTCAGCTGCTTGGTCCAGAGTAGGCTTGCAAGACTGCATTCTCTAGATGTCCCAGTAGATAACT
TCAAGGAGCTCGGCGCCAGGAAGCAATGGCCCTCAGCAAACCTTCTGGCAGTGGGAGTAATTGTGAGTTTGCCCACATCCTGCATTCATGATAAACAGTT
TGCTGTTTGATCATATAGCCTCCAGTGGAATGCTGAGTTGGTCACGTCCCACGGGCCTTCATCTCCCTGCAGCACGTAACTTTTAAATAATAATAAAATG
TACTATACTTTTTATTGTAAATTCTACATAATCAACTGATTCTCACAGAATGTTTTCACTGATTTTTCTGAACTTTTGCAACTTGAGCTAACTTATAATG
GCAATTGATGAACAGTACACTGTGTAGTTATGAATGTTGGTTGATATTTTCATTTACATTAAGGAGTAAGATAAAACAGAAATAATGAGATGTATGGTGG
GATTTTATTCTTCTGTCAATGACAGGAGTAAACTCTTTGTTTAATCAGATAAGTTTTGGAATATCTACACTAGAAGAATATTTCTGAATTTTTGTGCTAT
TTACAGTGTAATGACTGCAGATATTAACATCTTTTAAGTTGCATTATTAATATTTTATTCATCACTATATCAAGCGTAGACAATCAATAAAATGATAAAT
CAAGACTTGATGGATAGTATTTGCCAATTTCTGCAGTGTAAACACTTCTATCATGACTGACTTCAAGCTACAAATGTGACTCGTGTAAAAATATAATTTC
TGATTATTTCCGTAGAAGATATTTTTAGCAGAAACTGGATCACCTTTTCAAGAGAAAGTAATATGTTTGCAAGACAAAGATGAGTATTTACAAACTGCTT
TCAAAAATGGCTGTAACAGGCCATGCACAGTGGCTCACACCTGTAATCCTAGCACTTTGGGAGGCCAAGATGGAAGGATTGCTTGAGGCCAGGAGTTTGA
GAAAACGGCTGAAACAGTGTCCATTTCCCCAATCTTGAATGAGAGTAACCATTGCCTCTCTCGTTTCAGGAATTATTAATTTTTCCAGTTTTGTTAATTG
GCAGTTTGGATAGTCATTCTAGACACAAGAATAAAGGAGATCACACTCCTGATTAAAACCTGTCAGTGACCTTCATTCCTCCAGCCAAAGCCCTCAGCCA
TTTTCCCACATAAACCCTAAGCAGACTAAGAATCTCATTTTCATAGGCTTGGCCAAAGTTTGTCTTCAGGCCACATGCAATTTCCAAGGGCTCCTCTTCC
TTTACTTCTGTGGAAGGTGCAATATCAGAATATGAATGAATCAGAATGATGTTCTTAGAATCTTAATATTGGATCCATTTGAACAAATCAGTAATTGAAC
TTTGGGAAAACTTCAGCACACTTCCTTAGCATACAATTTCTTGTGATGCGAATCACAACTGTTAATTTGTATTTTGCTTTCGAATCCTATATCTCAGAGT
GATGAAGTCTCTTTTTACCAGAGGTCTTAGAATAGGTTTGCTTAAAATGAGATATATGAAAGAAAAGGGTCATTTTAGTCAGTGGGCGAGCATTTATCCT
TAGCTATAAATGAAGGTGATAAACAGTTTCATTTCTGTATATAGAATGGTCTGTTCAATACTATATTTTTTGGGTAAAGTTTCTTTTAATGCTCTTGGTT
GTTTACTTTCTTTGATTTCCAGGAAAAAAAAAAACAGGCACAATTGCTATCAGATATTTTGAGGGCAGGCATCTTGTTGAGATCATTATTTAATAAGGCG
TTGAGTCATGAAGGCAGTAGACTGGTTTGAAGTTGGCCAGGATGAGAGTTCTTGGCATAGTTTAAAGCAAAGCATTTGAAATTCTGAAGTCCTCATAAGT
TGCAAACAGTTGTCTTTATTTTTTGAAGCACTTTAATTTTGAAGCACTTTTATTTAAGTTTCAAGAACCAGAATTGTTTTTCTTTTTCTTTTTTGACTTT
CATCTGCACAAGACTTTTTGTCTTTATTTTTTGAAGGCTTTTAATTTTGAAGCTCTTTATTTAAGTTTCAAGAGCCAGAATTCTCTTTCTTTTTATTTTT
CTTTTTTGACTTTCATCTACACAAGATATATGAAGATTCATAGTCAGAAAGTTTTGTCTGTCTTCTTGAGGAATAGCCAACTCCAATCTTAAAAAACTCT
TCTAGAATGTCATAATCAAATTTTTAAACTTCTAAAGATTAGAATAGATGAAATAAAAAAGCAACCACAGACTGGAAGAAAAATGTTTGTGATATGTATA
TCTCTAAAAGACTTATTTTTAGAATATATAAAAAATTTTCACAACACAGTAATTTTAAAACACAATGAAAAATGGGTGGAAGATTTGAAGAGTTGCTTCA
GCAAAGAGGATAAATGAGTGGCCATTCGGCACTTGAAAAAATGCTTGATCTGGGAAATGCAAATTAAAATTACTATGAGATACCACTATGAGATACTCAC
TAAAACATATTAAATTAAAAAGACTAACAATACTAAGTATTGATAAGGCAGTGGAGCAACTAGAATTACCATGCATATGATAAAAGATAACTATTAAAAC
ACCAACTCTCACCCTAAATAAGGAAAATTCAGGAGCATTCTCATTTGAATCAGAAACAAGACAAGGATGCCCACTGTCACCACTGTTACTTGACATTATT
AAAGAGGTTATAGCCAACAAGGTAAAACCAGAAAAATAAGCAAGAAATGTAAAAATTAGAAACTGAGAAATATTTCCAGTATTTGCAGATGATGTTCAAG
TTCCCATAGATTTTAATATCATAATCTAATAATAGAGATAAGTCCCATAACTTTTGCCATATTCTGTTGGTAAGAAGCAAATCTCAGGTTCCGTTTGCAC
TCAAAGGGATGGATTTGTACAAGGTGTGACTCAGTAGGTGTCACCTTAGGGTATGCCTGCCCCACTAAGAGTATGAGGGCGCAGTTACCCCTCATCCTAC
AGATATACAGATGTCCCAGTGGAGGGACGCCTTAACTTGCCCTGAACATACACATGCGGGGCTGTTGTACTTAAAGCCTCCTACTTCTATCTCAATTTTC
ACTCTCTGCATTTTCCTTTTTTTAAATAAAATGTACCAAAGCCGTAGGGTAAATCCTATGACACAGTAAAGAATAGTCTCAGATTTATAAGTGGAGAAAA
TTCAAAAGTTCTAAGTCCGGGGAATTTCTTAGTAACTCAAACAAAATGTCACACTTTCTCACATAATAAAGATAAGTGTTTTTATTGATTTTACACTATT
TGCTTACAGTAAATATATAATTGATGTTTTAAAATAAAAGCAGGTTTCATGCTTCATGTAACAAAGTTAGGTTCAGATACTAATGTGAAAACTCAACTAT
TCCTGGGAAACCATGTTCAAAAAAATGCTTCATTGGCTAAGCAGTCTTATTTTATTATTCAAATGGACTAAAAATGAGGTATGAAGTAATTAAAAGTAAT
ATGGTGGCTTTAAGTGCAGAGATGGGGTGGCAGAAGCTGTGAACACAGAATGTAAAATCGGTAACTACAAAATGGCACAAACTACGAAAGCAATATATTT
AAATTACTATTTTTTAAAAAAGAAGGATCATTTCAGATCTTCACCTTCAGATCCTCACTCAGCCCTGCCTCCTATTTCCCATAATCAGCCATTTTTTTAA
TTTTATGATTGCTATTACTCACCTTCTAGAATATATTTTTGTTTATTTGATTGAACAACCTCTTCCTGAAAATTCTGCCCAGTTGGGCTGGCTGACATTG
ATCTCAGTAATTGTGTTTTTTTCCTCTAACTTGATTATATTTTTTTCATTCGCCTCTCTTTAAATGAAGTGTCCCAAGAGCCCTAAATTCTCTCTTCAGG
TGGTCGCTTGGTAGGTTACTTCATCAATAGGTTCATCCAGGTATAGAGAGCAATGGTGTAAGGATAACAAAGATACAATTTCTCAGAAAGATAACATTTT
CAAAAGTGCTATTAAAGACAGTGAGTTGTTCAGCAATTCAGGAAAAAAAAGTCTTTAAATCAGAGGGAAAAATATAGAGAAAAAGTATTTTTCAGAATAC
ATGTCAGTTTCTCCTAGAAATATATATACACAAGTATTGAATAGGTCCCCTGCCAATGTAGGACCCAAGACTTTTACTCTGTGACATTCCATTTGTCCTT
GGCTGTACGGAATAAAAGCCCTTTGACGATGGCGGCCTCCAATATCATAATCCGTATGGGTGCGGCCATGCCGTCCTCCCGACCAAGTTTCTGAAGTTGA
ATGAACCGCGGAATAAAGGTACGCCGTTATACGCCATGATAACTGTTGGCGGAGCGTAGCTTCAAAAGTGTTAGTGGGCATGCGCGCCTTTCAACAGCGC
CTACGGAAATCCTAACGGGAATGTAACCCAAACCGGAAGTGGCCTAGAGCGRCCATTTAGCTTCTGTTGTTAAGTGGATCTAAGCYTATGTCGCTTACTG
GACGCTGAAGTGATTGGGAATATTAGCAGTGGGGGTTCTGTAGGGTCAGGAAGGGGCGGCTGGCTTTGGGKGAGTGATGAGGGGCTTGTTGGGGGTGGGG
GTGCGTGATAAAGGGATTTCTCGGCTGAAGACGAGGCTGTGAGGTGAGTGACGGGCTTGTTTTGGCTGAGCGATGRGGGGTTTCTGGGGTGGGTGATGGG
TGCTGTGGGGTAAGTGGCGTTTGCTAATTTTAGYTGGATAATTAGCCTGTTAATTTTCCCTCTTTTCTTGCTTATTTTCTGCTTGTAGTATTTTTGTGAC
TTAAATTCCAAGTGTACTTTAATATCGGATTTTATATTGGTCCACGAAACTTGCTAACTTGAGGACAGTGAACGTGCATCTTAAGAGCGCCTTTGCGGAT
GGTGCTGGAGGACGTTCAGGGAAGGGATTCACTGTCCGTRGGACTAGGGGAGTCAGTGATTGATTGGCAGCCAAGAGCTTCAGAGGTTGGAGGACTTTGA
GGATCACACTGTAACACTCTCAGGGGACCAGTGATGGGCAACCTATAGGAATCAGTAGAGTGGGGTTGCCAGGGGTAGCCTATGGCAGCCAGTTGACTGG
AGGCGTAGGGGGTCAATGATGGGGATTTGTGAGGGTGAATGCATTGCTTTCTAGGCAGTGAGTGTTGGGGTCCTTCAGGGATTGGTGGGTGGGTCAGTGT
TGGCCTCTTCTTGGGTCCCTTGGACATGGTAAGGATCAGTAATTGACAGTTGAGCACATCGATGATGGTTTCCTATTGGGGCATTTCATTTGGACCCCTA
TGTTGGGGATTATTTGTCGTTTTATGGAAACCAGAAAATTGTGCTCGCTGGGAAACATTTCTTGGCTATCAGGGCAGTAAAGATTTCAGAAGCCTGTGCC
ATGTCAGTGACTGGGAGGCATTTTGGAACTTTCTGGCAGCCCTGTAGTACACTCATTGGGGATTTCTGAAAGTCAGTCCTGTCAGTGATTGCATTCAGGT
GCGGTGGGGGCAACTTATTGTGGACAGGCAAGAAATRGTAACTGGAGGCCCTGATGCATGTCTGCAAATTTTCTGTGTCAAGATGGGGATTGGGACAGTG
ATTTTAAGTTTTAGCTCTAGTCAGAAGAGGCTGGTCTGTGTGTGGTGTATTATGGACGGGGACTGAAAAGTCCAGAAGCTCAGAATAGGTACACCAGACA
GAGCCACCTCCCGGCCTGAGTTCTATGAAGGCAACAGAAAGAGGAAATGGTGTTTCTGGAAGCTGGCCACGTATGGGTACATGAGATAGTGGAGACAGTG
TACAGTTTAGAACAAGGCAGATGTGGGGCTGATTCCCTGTTTTTCCATTTACAGACTGAGTAACCTTCAGGCAAATTATGTAACAGCACACAGCCTCATT
ATCCTCATCCTCAAAATGGGTATGATAATGCCCATGATATTTAGCTGACAATTAAATTGACAACTTTCTTTTTTTAATTCATATTTATCACGTGCCAGGC
AGGCACTRAGGACTTGACAAGCTTCATCTTGGTTAAGTTTCCCAACAYCTGTGATAAATACCTGCATTTTCATTTTGGAAACTACAACTAAAGTAATATT
TTCATATTCTCACAGTGAAAATGTGGCAAAGCTGCAATGAATTCACCATTTAGTCCAGACTCAGTCTTTATTTTTAACCCTGACTAATAACTAGAGTTGG
GCTTTCTGAACTTTGTCTACTCCAATGTCTGACACAGTGACTTCACCTCAGTGCCCTCAGGAAATATTTGTGGAGTGAATGTTGAATGAGTGACCATGTA
CTCATTGCTTTTCCAAGGCTTCTGCAGAACCCCCAGGTCAGGCCACATCATTGAGGCTGCAGGATCTCTCTTCAYAGCCCAGTACGACTCTCCRCMGTGT
CCCTGGTTGGAAAATCCAAACACCTATCCAGCTTCTGGCTCCTGGGAAAAGTGGAGTTGTCAGCAAGAGAGACCGAGAGTAGAAGCCCAGAGTGGAGATG
CCTGCTGATGTGAATTTATCCCAGAAGCCTCAGGTCCTGGGTCCAGAGAAGCAGGATGGATCTTGCGAGGTAAACAGGGGCAGCCCTGGGGATAGTTCTC
CAGAACGTGAGGGCAGACACAGGATGCAGCAGGTCTGGGCTCCCTGCTCCTGAGTCAGTCTTGAGCCTCCTGTCAAGCGAGGACCACAGAGGCTGATGTT
TCCACATTCATAGGCTATCTGTGTTCTAGAGGAAACCATGAACTGGCTGATAAAAGAGGATAGTAGAGGGTTGGCCTTGGGTCAAGAAAGAAGAAACTGT
AGTCCCTGGTCTGATCAGAAGCCCCAGTCATAGGATGGAAAAGCTGACTCTTTCCTGCTAAGCACTGGTTCTGCYCCTTCATCCACCAYTGGGTCTTTGA
AAAATTTCAAGTGGTCCCCCCCACCAAATTCCTTGCTTGGTCCATGGGGTTTGGCCCGTTTTTCCTCTGTTCTCATAAGGTGCGGCAAAATCTCCTTCCT
TTGTAATTTAAATAGTCACAGGGAGGTAGAGTGAGAAGAGGCTTTTAAGGACCATGTGAAGAGGCTTTTAAACACTTTTTCCTGTTTAAAAAGGTGAACA
AAAAATGCTGGAAAACAGTGTTTCCAGATTGCCCACAGATAGAAATAGTCAGGATTTGGTAACAAGAAATCAGAATTCTTGGTATAGTCAAGATTTCCTG
AAATCCTAAATTATTCTGTGTATCTCTTGATGCTTTATTTACAAGTCTTTAAATAGTATGTGACTATAATAGTAAACAGTGTACCATTGTTCTGTGATGG
GTTTATAACCAAATTTACAGAGATGTTCTGTTTTTTAAAAAAAGTATAATAAATATGTGTGTTATTATCCTGAACCAATATATTGTGAGATTATATATTT
CAGTAACCTGTTAAAATCATCTCAACCTGCTAGAAACATTTGATAATAGAAAGTATTAAAAGAAGGGAACATTAACACAAAATAAATTGCACATATAAAT
CATTTTCAAAATTGTAAATACCCCAAATATTTAAAAGTCGTTCTTAAAAGAAAAATTGAAACATACAAGTTTAGGTGGGGCACAGTGGCTCATGCACTTT
GGGAGGCCGAGGCGGGCGGATCACTTGAGCCCAGGAGTTGGAGACCAGCCTGGGCAACATGGCGAGACTCTACAAAAATACAAAAATTAGCCAGGTGTGG
TGGCATGCACCTGTAGTCCCAGCTACTGAGTACGTTGACGTGGGAGGATCACCTGAGCTTGAGGCGGTCAAGGTTGCAGTGAGCTGCAATCATGACACTA
CACTCCAGCCTGGGCAATAGAGTGAGACCCTGTCTCAAAACAAAACAAGTTTAAAACATGAAATTGTCTAAGTCTTTGTGACAGCAGTGCAGATGCACAA
ACGTTTCTCTCATTTGCATTGATGTTGGTCAACTTGCGTGTTCAGAACATCTTCAAGTTTAGCGTTTTAGGACACATGTTCAATATAAGCTTTTTTCCTT
TTTTAACAATGAAATTTTTTTTCTGCTTGACCTGATTTCCAGTTTATCATTTGAATCAATACTGCTGTCGCTAATTCAGATTTTCCATCAGTGTCTGAAT
TCATGTCAGAGTATATCCCAGTACCATGCACATTATCTTCTCTTTGTGGTGTGTATTTCCCTCTGCTCTGGACAGTACTATTTTTATTTTGTTATTTTTA
TCTTTTCTAATGTGATGGAAATAAAGATAGTATAGTGTTTTAATTTGCATTACTTTGTTTACAAACAGGCTTTTTTTTCATAATTTTATTGGTCAATTAC
TTGTCTTTAGTGAGTTACTTTTTCTTACCTTTTGATTTATATTTTGGTTTGGTTTAGCCTCCGGATTTTTAGAGAGKTTTTTTTTTTTTTTTTTTTTTTT
TTGAGACGGAGTCTCGCTCTGAAGCGCAGGCTGGAGTGCAGTGGCGCAATCTCTGCTCACTGCAAGCTGCACCTCCCGGGTTAACGCCGTTCTCCTGCCT
TAGCCTCCTGAATAGCTGGGAGTACAGGCGCCTGACAGCACTGCTGGCTAATTTTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTAGCCAAGAT
GGTCTTGATCTCCTGACCTCGTGATCCGCCTGCCTCAGTGTCCCAAGAGAGTTCTTACACAGTAATAACCTAAGGTCCTTTTTGCATATGTTTGTAAATA
CTTTTTGTTACTTTTTCCTTTGAAAGTAGGTTTTAGTTTTGTTTGAACATAGGAAAGAGGATCAGATGGTTTTGTGAAGCCTGTAATCTTTTAAAAGGGC
TGTCACTTGCTATATTTTTACCAAAGTTCCAGCTCCTCCCAGGCAATCACATTTTACATTTTTAGCTAATTATTTTGGCATTTACCTCCTAATCTTTTAG
TGACATGCTTATATTGCTGCCTCTTGGATTGTTAATTAACACGTTAATTAATTAAGAAACATGTCATTAAAAGGTTTGCTTTTACCCGCTTCCTCATACT
TTCACCCCCAACACCTGCTTTCCTTGCCCATCCTTCTCTAGAACTGGTTCAGATTCTGATCAGGTCAATCTTCCTTGTTTGTGATTATGACTGTGTAAAC
TATATTCAGAGCTGCCTGTATAGACACCCTGATAACTCTCTGCCTGCATAACTTACGGTTTTTCCCTGGAGCACACAATTTTATGGATTATTTACTTGCC
TATATACATGTTAATGTATTATACCATTTTCTCCAAGTGTGTACACACTGTCTTCATAAATTGAATTTGTTACTAGGTAATTGCAAACCCTCGCTATTTC
AGGGACAGTTTTTTTTTTTGKTTTTTTTTTTTTTTGAGACAGAGTTTCGCTCTTGTCTCCCAGGCTGGAGTGCAATGGCGCGATCTTGGCTCACTGCAAC
CTCTCCTCCTGGGTTCAAGCCATTCTCCTGCCTCACTCTCCTGAGTAGCTGGGATTACAGGCACTTGCCACCACGCCTGGCTAATTTTTATATTTTTAGT
AGAAACAGGGTTTCACCATGTTGGGCAGGCTGGTCTCAAACTCCTGACTTCAGGTGATCCGCCAGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATG
AGCCACCACACCCGGCCTTCAGGAACAGTTTTAATCCTCATAACTTTGCGAGGTACTGCTGCCATTATCCCCCCTTTACAGACAAGAAGACTGAGGCACA
GAATGAAATAAGTGGCTCAAGTTTACATAGTCAGCAAGCAGCCAGCCTGGGATTGAAGGCAGGCAGTTTGCTTGAGGGTTGGGGCTGTCAATGCCATCTC
CTTGAGGAAACCTTTCCTATTGCTTTTTTGTCTTGATGCGATTGGACCTGGCTGTTCTCCTGGCGCCTCACGCTGTCTTCTCATGGTGCTGTGTTCACCA
TCACCTGGGAATTCTKTTTTTCTCTGTCAAGTGTCCAGTTCCTTGTGTCTTGAATCCTTTCTTGAATCCTTTGGCTTTCTCTTCCACGGTTTACCGTTAC
TCTCATTTCRTGAAAGTGCATCCCCTAGGAGTTCTTGGGGACGGTACACGGCAGTAAATCCTGTGAGAACTTATCTGAACATGTCTGTTCAGATAACGGA
GACTAAACTTAAGAATAGGAGAATCACTTGACCCAGGAGGTTGAGGCTGCAGTGAGCTGTGATGGCACCACTGCACTCCATCCTGGGTGACAGAGTGACA
TCCTGTCTCAAAAAACAAAAACGAAAACAAAAGACCTGAGAGGTTTACATATATGAGCRTGACATGAAAGTGAAATGATATGAAAATGAATGATATGAAA
ATGTCACGCCAAAAAGCAAAGATCATATATTTGCATATTTAATAGAAAGATGTCACGGAAAATGACTTGATTTACCCTCACACTAAGTTGATCTTTGCCT
GGGTTCATAGGTTGGAAATCATTTTTTTCTTCCTAAAACACCCCATATACTACTTCCTTACCACACACATATAGTCTCTCTGCTCTCAAATCCTGAAACT
CTTTATTTTTAAGCTGTTAGTCTCCATTTAAAAGGGTTTTTATGCTCTGTCATTTTCTATTTCTTTGGTTTTGGACCCTCTTTCTGGAAGAATTTCTCAA
CTTTATTTTCTAGCCCTCCGATAATCATTACTGCCTTAAAAAATTTTTAAGAGCTTTTAGATATGAATACTCCTTTTAATGACATGATGTTTTTGTTTAA
TGATTGAACTATCTTACCTAAGGATATTTGAGATATTTTAAAATGTAATTTTATGAATAGATAATACACAGCATTCACAAATTAAAACATCATGAAAAGT
AATTTTTTTACAAAATACTCCTTTCTCTCTCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTT
GGCTCACTGCAAGCTCCGCCTCCYGGGTTCACGCCATTCTCCTGCTTCAGCCTCCCGAGTAGCTGGGRCTAAAGGCGCCCGCCACCACACCAAGCTAATT
TTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGG
GATGACAGGCGTGAGCCACCGCACCTGGCATACCCCTCTCTCTTTTGTCCCTGATTTGTCCAGGTTTCTTCCACATAGGTAATTATAGTTAGTCATCTGC
CTTTACCTCCCAAACACTACCACTTTCTTCCAAAGTTAACTACTTTCGTCACTTTTAAGTTAATTACTTCATTTTAAAAAACGAGGCCGGATGCAGTGGC
TCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCTGATCACGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTA
CTAAAAAAATACAAAAAATTAGCCAGGCATGGTGGCGGGTGCCTGTAATTCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCCTGAACCCGGGAGGTG
GAGGTTGCAGTGATCCAAGATCATGCCATTGCATTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAARAAGCAAGCCCCAGAATGGGAAA
AGATTCTTGTTACACATACAGCTGACAAAAGGTTCCTATAAAACGTTGAGGACGGCTGGGCGTGGTGGCTTATGCCTATAACCCCAGCACATTGGGAGGC
CAAGATGGGAGGATTGCTTGAGCCCAGGAGTTTGAGACGATCCTGAGCGTCAYAGGGAGACCCCATCTTTACAAAAAATAGAAAAATTAGCTAGGTGTGG
TGGTGTGTGCCTGTGATCCCAGCTACTCAGGAGGCTGACACGGGAGAATCACTTGAGCCCGGAGGTCGAGGCTGCAGTGAGCTGTGATTGCACCACTGCA
TTCCATCCTGGGTGACAGAGTGACATCCTGTCTCAAAAAACAAAAACAAAAGACCTGAGAGGTTTACAGGACAATGAGATACTCCTTCAGAAACACAGAA
ATGGCCACGTGCAGTGGCTCACACCTGTAATCCCAAAACTTTGGGAGGCCAAGGTGGGTGGATCGTGTGAGCTCATGAGTTTGAGACCAGCATGGGCAAC
ATGCTGAAACCCCATCTCTACAAAAAATACAAAAATTAAGGCTGAGTGTGGTGACTCACACCTGTAATCTCAGAACTTTGGGAGGCAGAGATGGGCCGAT
CACTTGAGGCCAGAGTTTAAGACCAGCCTGGCCAACATAATGAAACCCCGTGTCTACTAAAAATACAAAAATTAGCCAGKCATGTTGGCAGGCACCTGTA
ATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGTCAGAGGCTGCAGTGAGCCAAGAGCRTGCCAGTGCACTCCAGCCTTAGTG
ACAGAGTAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAGCTGGACATGGTAGTGCACGCCTGTGGTCCCAGCTACTTGGGAAGCTGAGGCAGGAGG
ATCGCTTGAGTCTGAGAGGCAGAGGCTGCAGTGAGCCATGCTCGTGCCACTGCAATCCAGCTTGGGCAACAGAGTGAGATTCTATCTCCCAAAAAAAATT
TTTTTTTTTTGAGGAAAAGTGTTTTTTAACCCAGTAGAAAACTGAAGAAGAGACTTGCTTGAATAGGCTGGTAAACATGGGAAGATGCTCAGCTTCATTA
GTCATCTGGGAATTGCCAGTGTAACTCCCATGCCTGTACCAAAATGCATACAGTTACCAACACTGATAATACCAAATGTAGGTGAGGATACAGAGCAACC
AGAAGGATTTTGTGTGCTGCTGGTAAGCATATAAATTGGTACAACCAATTTGGAAAATGATTTCTAATTTTCTACTAAAGGCGAGCATGTTTTTCCCATG
ACCCAGAATTCCACCCCTGGGTATATGCCCAACATCTGTTCTGAACTGGTATTTAAATGTAGACCTGTGCTGTCCAGTATGGTAGCCACTCACCACATGT
AGCTATTGAGCACTTGAATGCGGCTGGTTCACCCTGAGATGTGCTTGAAGTATAAAATATATGCTGACTTCTGAAAACTTAGTATGAAAACAGAATGTAA
AGCATCTCATCTCGATGATTTTTAAAATATTGAATATAGAATATTCAATATATAGAATATAGAATGTTTTAATATATGTAATATTAAAATATTACATATA
GAAATGATAATGTTTTGAATATAATGGATTAAGTAAAAATATCATTAAATTGATTTTATCTGTCTTTTAAACATGGCTACTAGACAATTTTAAGTTATAT
GTGTGGCTCACATTCACGGTTCATGTTTTATTTCCATTGGATGGCTCTCCTCTAGAGGCTTGATCAGAGTCCACTTGGATTTCTTTGTTTTTGGAAATGA
TACTTAATAGTTTGCACACCAYGTATTTTCCTACCTCTCTACTTTTATTTTTTTATTTTGCATCATRTTAGGTGCACTTTAATATCTGGTTATCTCTCTC
CTTGTGATAAAATTGATGATTGGGTTCAGATATTGTCAGCCTACTCCTCCATTATAAAGACCCATCAGTCTTTCATATGGTTTTAGCAGTCATTGGTGAT
CAGTAACAGTGACATTTTTGTTTTGTCCTTCAGGCTGCATTTATCATCTRCAGTACTTCTGTAATGAAGATCTTTCCATCATCAGTCCTTTCATTAACCT
AATATTAGTTATTACAGGAGAGATCATCTTGTTGAAATATTATATGATCATATCTCTTCCCTGCACTTAAAATCCTGAAATGGCAGTCCGTTCATTAAAA
TAAATAATCCATACCCATTATATATTGAGGCACCAGCCCACTTCTTTGGAGCTTGGATGGTAACCACCTTCCAAACATGACATAGTCGCCTCTTATCTTA
CACAGAGCTGTCTGCTTCTCCCTGAATTCACAGTGTTTTCCTACCTCTCTAGTTTTATTCATGCTCTTTTCTGGAAAATGATTTCCTTCACACATCCTGC
ATCACAGTTCTTACTTCCAGCGTAAGCTTCACCAACTCTAAGTAGCATTACCTTCTACTCCTAGGTAGAATTTGCCTTTCCCTAATTTGCCCTTCCCCAA
CAGTGTCCTCTGCATATATTTCTACCATGTTCCCTTTTTAACCCTGTAGTTGAGCTTTTGTATTTACATGTCTTCCAAGTCTCTGAGTTGCTGCAAGAGT
AGAAGCTTATGTAATTCTGTGTTGAGCACCAGAACCCAGCTCAACTACAGCCTCACATGTAGTTGCTTCGTCAACATCATGCTGGTTATTCCTAAATTAG
CTAAAGGACTTAGAGGGAACCCATTTCTGGCCTCATTTTTGAAAAAAAAAAATGAATGAATGAATGTAGGTGTACAGTGGATGGAGGATATTTCTCTTAT
TTTTTTTTAAATCCCTAAAAATGTGAAATAGGTGTTTGGTGGGAAGCCTCTGTGATGGATCGTGGTGAAAATCATTAAAAGCATGTTCCTCCTATATGTG
CCATCCCCACTCGCCAATGATGACCTAATTCACAGTGAGCTGGGGTACACTGTTACAGGCATCAGTGTCATTTGAGGACGTGACCGTGGACTTCAGCAGG
GAGGAGTGGCAGCAACTGGACCCTGCCCAGAGATGCCTGTACCGGGATGTGATGCTGGAGCTCTATAGCCATCTCTTCGCAGTGGGTGAGCACAACTGAC
CTGGGAATCTTGGCTGGATCCTGTTGAGGAGATTTCCTTCCTCCTCATTGYAGAACGCAGTGGGATATCAAAGTATGTCATGACTCTTTTATCGGTTTGT
CCTGGATTGTTTGTTTCTTTTGGGCACCTTCTAGTATTATTTTGTGCCCAGTGGAAAATGTTGACTTTTCTAATGAGCCRGTGTAAAGCTTCATTGAATG
GCCTCTAAAACTGAAGAAGCTACACCCAAATCCAGTATCCTTTCTAATTAACAGGGTATCACATTCCCAACCCAGAGGTCATCTTCAGAATGCTAAAAGA
AAAGGAGCCRCGTGTGGAGGAGGCTGAAGTCTCACATCAGAGGTGTCAAGGTGAGTAAGTTGTACCCGGGCAAATGTAGATATCTTTGCAGGGAACCATT
ACCAGTCTACCATACTTTTCTATTCCCTCCATTCCCCCAGTGATGGCCCGTAGATTGCCTCCTACTCCCAGTTTCCCATCAAACACTGTAAATGTGCTAT
AAATGYTAAATGTCCTATAGGGGCTGCCTTAAGAATTTTCCATTGGTGAATACTCAGGAATGGGATTGCCTGGTCCTGGAGATAAGTATACTTGACTAAA
TCAACCATATTGCTCTTCTGATGGGCTGCACCAGTTCACACTCCCCATGTGCAGTGCACAAGGATTTGCATTTGCACATCTTGCTTGCTAACACTTGGCA
TTAACAAAATTGGTGAATTTATAGCCCTACTGATRGGTGAAAGGGCTGTTTCATTTTTTTTTGTTTTTGGTTTTGGTTTTTTTGAGACAGAGTCTCACTC
TGTCACCTAGGCTRGGGTGCAGTGGCAYGATCTTGGCTTACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGG
GACTACAGGCACCCGCCACCACACTCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCCTGTTAGCCAGGATGGTCTCGATCTCCTGACCTT
GTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGAATTATAGGCGTGAGCCACCGCACCCAGCCTGTTTCATTGCTTAAGTGTTATTTTTCTAATAACTG
AATGGTGAGAGCCTCTCATCTTATCTGTTATCTGATTGGCTTTTTCATTTGTTTGTTGCATTTTCTTACCGCTTATCTCTTTACGTCCATGGAGTTTTCT
GCCTTTTTTTTCCAGTTTTTTTGCCCCTAATTTTATTTATTTTCTTTTCTTTGCTGGATCTGCTGTCTTCTTTTCCTCCCAGTTGTGGCACCTCTAGCTT
GGGGCCCTGTTCTTCCATATGGGCATCTTTTCTTTTTTTTGAGGCAGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTTGGCTCACC
GCAACCTCCGCCTCCCAGGTTTGAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGTGATTACAGGCATGCACCACCATGCCCGGCTAATTTTGTATTT
CTAGTAGAGACGGGGTTTCTCCTTGTTGGTCAGGCTGGTCTCGAACTCCCGACCTYAGGTGTTCCGCCTGGCTTGGCCTCCCAAAGTGCTGAGATTACAG
GCGTGAGCCACCGTGCCCGGCTATGGGCATCTTTTCCCACAGGAATTGACTTAAAGGACCCATCCATTCTGAACTCYTAGTCCTCATATTTTTATTCTAA
TGATTTATATATCAGTACCTCTAGTCCCTGTGCTTAAACTGTGTTCTGCTACCTTACTTAGCTCCACGGAGGACAGTTCCCATGAGATGACTCACTTCCT
TAATTTTGGGAGATCAGAAATTGGAATCATCATCATCCAAATAAGGAATTCTCACCTGATAAATTTTGTGAGATTTTTCTGTTTCTGGGCTCAGAAACAC
AGTCCTCTAATTTAATTTATTACTTTGGAATTCTTACCAGTTTTTCTTGTTTTAATTAAGAAAAAAGTGACCCTTTTTCTTAATCCCAGTGGTATTACAA
CAAACTAGATCCCCATTTTCTCATATTTAGACAATTTTGTTCCCAGTGAGATATGTTGATTTCAGGTTTTTGAGTTTAGTCAAGATACTGACAGATTTTA
TGACCCCAAACATGGCTATTTTGTTTCTTTTTTCCTCAGTAGATATGATAAAAACAGGCAGTTCTATTTCCTACTGTGTAGGATTAACAAATTCTTTTCA
GTGATATTGTCCTCATGGCCACATATTTCCAATTTAAAAATATACCTGAATAGTTTTCATCACTCATGCTCTGCTCCATTGTTTTTGTATGTTGTTTAAT
GTCTACTCCATAGAATGATTCACTTTGCATACACTCTGCTGATTACTTTGTACTTTCTTAATCTTCATTATATCAATGTTTAGCATGAGGAAACCATTGT
ATTTAAGATATAGGATTAGGATTTTTGTATTTAGGATACAGAAATTACTGATTTTCTGAAAATGGGCAGAAAAGAATATTTCACAGTATTTTAAAAGGAT
GCTTTAAATATTTGCTGAGATAAATTCAAAAGAACGGAGATTGTATTTGGATGGAGAGGACAATGGCATTAAATGTTAAAAGTATTAGCCTTTGTGCATC
AATCATGTCTATTTCATGGAAGGCTACTCAAAAAGTAAGTGTATCAACATGGGAAGCATGGATAGCAAATGCTGGTGAAGTTCAGAAAAATGATGTCAGC
CTAGAGGTGGAGTGACATTGGGAATTAATTTTAAGGGCATAGTACCTATAACTGGTTCAAGAAGCCATTTTGAATTGAAACAAAGAAGCAGATGAAGCAA
GCTTAATGGGAATAGAGGACATGAGAGTGTGCTTGGATTTGAGAATAAATTGGACTTCTTTTTTGCAATCGACATTGTTAGGCTGTGTTGGAGAGTTGTG
GAAAAGCTTTTCAGTACAGTTCTGATAGTTTACATTGAACATTTTGGGCAGTAATTTAAGTGTTACCAGGTTCAGCAAGATTTTTATGACCTGAATAAAG
TGAGAAGTTAAAAATGTTTCAGATCGCTGCCTGGGGACACAGTGGAAGATTGCCAGAATAAATGACCACCTGTATATGGGTAAAATTGCTATTTAAGAGT
GAAAAATGAAATAGAAAACAACCTATTTTAATAAGTGGGAAAAGGATGTGAATAGACATGTCTTCAAAGATGATATACAAGTGGCCAATAATAGGAAAAA
ATGCTCAACTTCACTAATTATGTGGGAAATGCAAATCAAAACCACTGGGTGATATCCCTTTAYATCCATTAGAATGGCTACAATTAAAAAAACAGAATAA
CAAGTGTTGGCAAGGATATAGAGAAACTGGAATCCTTGTGTATTACTAGTGGGAATGTAAAATGGTGTAGTCCTATGGAAAACAGGATGATGATTTCTCA
AAAATTAAACATAAAATTACCATATGATCCAGCAACTCCACTTCTGGGTAGATACCCACAAGAATTGAAAGCAAGGACCCAAACAGCTGTTTGTACACTC
TTGTTCATAGCAGCACTATTCACAATATCCAAAAAGTGGAATTGTCCATTGACCAATGAATTGGTAAACAAAATGTGGTCTATACATACAATGAAATATT
ATTCAGCCTTAAAAAGGAAGAGGAATTATGAARCATGTTGCAGTGCGGATGAATSTTATCATGATGCTAAGTGAATAAGCCAGACACAAAAAATCCAAAT
GTATCATTCTACCTGTATGAGGTACTTTAAGTAGTCAATTCATAGAGACAGAATAAGATTGTGGCTGCCAGAGAATGAGGGATGGGGGAAAAGGGAAATT
GTTTAATGGATACAGCATTTCAGTTTTGCAAGATGTAAAAGTTTTGGAGATCCATTGCACAACAGGGTGAATACAGGTAGCACTACTGAACTGTACAATA
CAAAATGGGCAAGATGGTAAATGTAATATTATGCACTTTTGCTACAATAAGAAAAAGTTAACAATAAAGATTAAAAGTGTCCTTTTTTWAAAAAAAGAAT
GAAAGATGATTGAGTTTTTTTGATAGGACAAGAGTCTGGGATACAGTTTAAGTGACTGAAAGCGAAAAGAAACTACATGTGATGTTCATACTCAGTATTA
AAATCTGGTAGAAAAAGTAATAGTAAAATTTAGTAACTATTATTTTTATTGAGAACCTGCTGTGTTTTGTGCAGTATACTAGTAAAGTGCACAGGATGAT
CAGGGACTCTTATTCTTGGCAAAAAAACAAAACAAAACAAAAAACTAAACTAAAAAAGGCATATTTGATAGCATAAAGCCAAAAGTTCTAACAAAGAACA
ATTAATTTCAATGGAACAAGGGTGAAACAAATTCTGGGGAACAGCTTGCTTGTCCAGTCTTTTAGAATATATTTCTGGGGATATGGGTATATTCCTAAGT
TCAAGAAAAAAAAATTGTAGCTTCATGGAGAGTTGAGGCATAGGAGAGTTGAGGCATAGTCATTCTTTCACTGGTTGGCCATGTCAAGATAGGTGAAGCT
TTAATAGTTTTCAGAAGGATATACAGGGCTGATGGACTTGGCATTGTTTCTAACAAGTAAGATAAAGCAGGCAGATTGGTGAGGATTCATCTCTGAAAGT
TAATGAAGACCTACACACTGAGCCCCCTCCTTCAAGCCTTGGCTGCCCACACATGTTGCCCTGCAACACTTGTCTGTTTTATCCTACTCATCCTACTASA
TCTGGGTGTCTAGACCACTTGCATAAGTGTCCTCAGGTTGTTGAAATCTAATCCCCACAGATTAGCAAAGTGATCTTGGCCAATTACATAACCATTATGT
GCTTCCTTTTCTTTGTAAAACAGGAACACCCATCATCGCTACCTCCTGAGGTTATTATGCAGATTAAATGAGTATGTGTGCACCATGTAGGCCACTGCCT
GGCACATGCTAAGTGCTATGTAGATAAATGCTCATCATRTAATAAGGGCTCTGTGTTTCTGCTCATTGTCAGCATCATTAGCAGCATTATTACATGACTC
AGCAATTTCCTTGTGTTCTGTGTCAATCAGCTTCATGCAGTTTCTCCTCTTTCTTGTTCATTGTGTCTATTTCATCTTCTCTTTCTCCTTTTAGAAAGGG
AGTTTGGGCTTGAAATCCCACAAAAGGAGATTTCTAAGAAAGCTTCATTTCAAAAGGATATGGTAGGTGAGTTCACAAGAGATGGTTCATGGTGTTSCAT
TTTAGAAGAACTGAGGCTGGATGCTGACYGCACAAAGAAAGATGAGCAAAATCAAATTCAACCCATGAGTCACAGTGCTTTCTTCAACAAGAAAACATTG
AACACAGAAAGCAAYTGTGAATATAAGGACCCTGGGAAAATGATTCGCACGAGGCCCCACCTTGCTTCTTCACAGAAACAACCTCAGAAATGTTGCTTAT
TTACAGAAAGTTTGAAGCTGAACCTAGAAGTGAACGGTCAGAATGAAAGCAATGACACAGAACAGCTTGATGACGTTGTTGGGTCTGGTCAGCTATTCAG
CCATAGCTCTTCTGATGCCTGCAGCAAGAATATTCATACAGGAGAGACATTTTGCAAAGGTAACCAGTGTAGAAAAGTCTGTGGCCATAAACAGTCACTC
AAGCAACATCAAATTCATACTCAGAAGAAACCAGATGGATGTTCTGAATGTGGGGGGAGCTTCACCCAGAAGTCACACCTCTTTGCCCAACAGAGAATTC
ATAGTGTAGGAAACCTCCATGAATGTGGCAAATGTGGAAAAGCCTTCATGCCACAACTAAAACTCAGTGTATATCTGACAGATCATACAGGTGATATACC
CTGTATATGCAAGGAATGTGGGAAGGTCTTTATTCAGAGATCAGAATTGCTTACGCACCAGAAAACACACACTAGAAAGAAGCCCWATAAATGCCATGAC
TGTGGAAAAGCCTTTTTCCAGATGTTATCTCTCTTCAGACATCAGAGAACTCACAGTAGAGAAAAACTCTATGAATGCAGTGAATGTGGCAAAGGCTTCT
CCCAAAACTCAACCCTCATTATACATCAGAAAATTCATACTGGTGAGAGACAGTATGCATGCASTGAATGTGGGAAAGCCTTTACCCAGAAGTCAACACT
CAGCTTGCACCAGAGAATCCACTCAGGGCAGAAGTCCTATGTGTGTATCGAATGCGGGCAGGCCTTCATCCAGAAGGCACACCTGATTGTCCATCAAAGA
AGCCACACAGGAGAAAAACCTTATCAGTGCCACAACTGTGGGAAATCCTTCATTTCCAAGTCACAGCTTGATATACATCATCGAATTCATACAGGGGAGA
AACCTTATGAAYGCAGTGACTGTGGAAAAACCTTCACCCAAAAGTCACACCTGAATATACACCAGAAAATTCATACTGGAGAAAGACACCATGTATGCAG
TGAATGCGGGAAAGCCTTCAACCAGAAGTCAATACTCAGCATGCATCAGAGAATTCACACCGGAGAGAAGCCTTACAAATGCAGTGAATGTGGGAAAGCY
TTCACTTCTAAGTCTCAATTCAAAGAGCATCAGCGAATTCACACGGGTGAGAAACCCTATGTGTGCACTGAATGTGGGAAGGCCTTCAACGGCAGGTCAA
ATTTCCATAAACATCAAATAACTCACACTAGAGAGAGGCCTTTTGTCTGTTACAAATGTGGGAAGGCTTTTGTCCAGAAATCAGAGTTGATTACCCATCA
AAGAACTCACATGGGAGAGAAACCCTATGAATGCCTTGACTGTGGGAAATCGTTCAGTAAGAAACCACAACTCAAGGTGCATCAGCGAATTCACACGGGA
GAAAGACCTTATGTGTGTTCTGAATGTGGAAAGGCCTTCAACAACAGGTCAAACTTCAATAAACACCAAACAACTCATACCAGAGACAAATCTTACAAAT
GCAGTTATTCTGTGAAAGGCTTTACCAAGCAATGAATTCCTAGTGCATCAGCATATTCATAAATGAAATATACTCCGAGTTTCTTGAAGAAGAGAAMATC
TTCTCAKAATCAGGTCTAATTATATGTTATTGAATTCATGCTTCAGAAAAACTCTAGGGATGCACTGCATGTGTGAACACATGATAAAAAAGTCATGCTT
TATTTTAGTGAGGGCAATTACAGAGAAAAGAGTAAGCAGAAATGTCCTTCTGAGTACTGGCCTCATTAAGGATTATAAATTTTCTCCCCGGGAAGAAACC
CTGACTAACGCATTGAGAAAAGCCTTTCTGTAAAGAATGGTACAAGACAGGTTGTTACTCGATTATTTATAGTAAAATATGTGGGAAATTATATCAATGA
TRACCCTGTTTATTGTGGGATATCAATATTTTTAAAGTGCCAACACAGTCATGATAGGACAATATTTTATGTGTGTGTGTGCGCCTTATGTATATAAGCA
TATATATAATATATAAGCATATTATTATATACAGGTTGAGTATCCCTTCTCCAAAATGCCTGGGATCAGAAGCATTTTGGATTTCAGATACTTACAGATT
TTGGAATATTTGCATTATATTTATTGGTTGAGCATYCCTAATCTGAAAATCCAAGATTAAATGCTCCAATTAGCATTTCCTTTGAGCGTCATGTTAGAGT
TCAAAAAGTTTCAGATTTTGGGTTTTCAGATTAGGAATACCCAACCTGTATGTACGTATATTTCTGTATCTATGTATGTATATATATGCATATGCAGACA
TATGTATATGGTCTGGTCAGCATATGTGTATGTATGCDTATGTATGTATGTATGTATGCCCTCAGTGCAGTGGGGTTTGCTGCAGAATTCACTGCATAGC
AGGAGATGTAAGCAGATGAGTTATTTTTTAAGAGAATCTAATCTAATTGTTTTTATAAAAATTATTCCCTATTGAATATTTATATAATGAGGTTGTATCA
ACAATGATTAACTCCTTTATTATACATACACATGAATGTGCATTTTTGGTAAATGCATAAATGAGATTCTATAATGTTTACTGATCTTTATATTACAGAT
TTTCTCTTCTTTTAGGATTAGCTCAGCTTGCCCCCSCTTTCCATCTCCACCATCTATAGTGAGCCTCTCCATAATTAGTGCCAACCATTAGTCTCGTTCA
TATTTTTACACCAGGAGTCAACAAACTGTGGCCATTGGCCAAATATGGCCTCCCAACTGTTTTTTTAAAATAAAGTTTTATTGGAACACAGCCATGTTCA
TTTGGACATGTATTGTCTGGGCTTCTTTTGTGCTGCACTGGCAGAATTGAGTAGTTTTGGCGGAGATCAAATAGCCCCCAAGCTGGAAACTGAAAATATC
TACTCTCTGGCTCTTTACAGAAAATGTTTGCCAGCACATGATACACACACAAACACACACACATACACACATATTACTATGTTCATCATCATATACCTGT
GTAAGTACTCTTTCATTGATTTATAAAACTCAGATCTCTTACGTGTGTGGATGGTATTTTTTTCATTCTACAATCCATGATGGATTGTACACACGTGTAT
TCTATGAGGTTGACCTGCCATAATTTATTTAGCCATTCCCACAGTTTTGATTACTTATTTCCTCCCCACACACATTTTTTGCTAAAAAACGGAGAGGGAA
CTGTTATCAATACTTCCGAGAAGCAGACCAGCATAATCTTTTAAGTGCACAGGCCCAGGAGCCAGGTTCCTGCATTTGATTCCTGGCTCCACTCTCTACC
CTCTGCATCTGCTGAGCAAGTTATTTGGTCTCATCTATTCTGGTTTTCTCATCTACAAAAGGGAGATGATGATAGTACCCTACCCCCATGCATTTGGTGT
GAGAAGTGTGTGTGTGTTAAACCCTTGGAACTGCATGGACAGACCAAGTGCTGATGAATTTTAGCGGGCCTCGTATCCCTGAGCCTGCCTGGTTCCCTTG
TGCTGGGTGTGGGACTGTGGTGGGAGATTTCTGTCAGCTGGAAGTCTTTTCCAGAAGGGTGTTAGAGATGGGCACCCATGGCTTTAGTCTCCATACCCCT
TCAAGGTTGATAGGGGCCCACACAGCTGGTCAGGAACCAGCACAGACCTCAGGCTGTGTCTAAAACAAGGTGACTGCACATGCAGGAGCCTGTGCTGGGC
CCTGGAGAGCAAATCTGTTCTGTGTCTCACTGGCCTCTCCCTGTCCAGGGGCGTAGTATCAGTGACCATGTCCCACCTCCTGAGAAAGGTGGAAGAGTCT
CACCTGGGGAGTCCAGGTACAAGGGCTGGCCGGCCGTAGATGACTGGTGTGGGGTGGAAAGGCTGCAGAGGCCTCTCCATGGTGGTGAGGGGTGGAAATA
GTGTGCACCTGGGTCCTGGGAGTGGCACCCTGACCAGTTTCAGGGAGGAAGGTGGCAGGGCCCTAGGACAAGTGTGTTAAAAACTTGAGCCCACAGTGTA
GACACACTGGTTCCAAAGACCCCTCAGGATGTGCCTCCCTTCTCAGATCTGGGCTTTCCCTGTTCCTAAGCATCACCTGGGGGGATCACTCTGGGTCCTC
ATCTCCAGCCACATGTTCACTCCTCACGTGGGCCTCCCTAACTGTCCCCCTCAGGGCAAGCCCTTCCTCCCCACTTCCAGAAAGCTGCTCGTTCCCTGGC
CATCCCACACCTCTGACCTCGTGCCACTTCCGGGGCCTGTTGGCTTTAACAACTTAGTTTCCTCCCTACCTCGCAACCCCCTCTGTCTAGAGTGCTCACC
TCCCTCCCAGCCTCTGTCTCATACTATTTTTTCTTTCCTCTCAGTACCAAGCGCTGGGACAAGCCAGTCTGTACTCAATGCCTGTGGGATAATAGACGGA
GGAATCTGGAGTTTGGTTGGGTGATTAGCTTTGGAATTGATGGGTCCCAGGGAGCTATCTAAAGTTTTCAGTCACATGAGGGCATGCTCACAGATCTGTG
AAAAGATCTGTTGGCTCAGAGAACTAAGAGATGAATAAATGTTAGTCCAATGGCCTCATCATGAGATGAGAGGTCAAGAGTTTTGAGTTTCCAGAGGGAG
AAGCTACTATTCTAGGCAGCTTGTATGAACTAACTCGTTTATTCCTCACAGCCATTGTAGGAAATAATCTAACCTCATAAACCCCATTTTAGAGATGAGG
AAACAGGCTTAGAGAATTTGACGTAAACTCAAGACCGAAAATCTAGGAACAAGAAAAGCCTGGATTTGAACCAAGCTATCTGATGCCAGTGTTTTAACTC
TCAACCATTGTACTACTTTACCTCCTCATGACCTTTTTTTTTTTTTTTTTTGTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTCTGGAGTGCAGTGGCAC
GATCTCAGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCATGCCTGG
CTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCCCCTCGGCCTCCCAAAG
TGCCCATGACCTTTTTATTGTTGGGCAGTGAAAGCCATGGTGAAATGAAGAATGTCCTACTGTCATGTGATGTGATCAGAAAACATACTGCCCAGAGTCC
CCTGCCCCCACCCCCAAAACCAGTACTTGATCCATCCTTTGACTGTTGTGGGGATTGGCACAAAGGTTGGGCACAGTAGTAGTTAGGCTCATGGGCTCTG
GAGCCAACCTACCTGGATGCTACACATCCCAGCTCTGCCCCTCGCTAGTTTGGTGGCAAGCAACTTAACCTCTCTGCCTTAATTTCTCCAGCAGCACAAT
GGGAATAATAATAGATCTCGCCTTGTGGCTCCTTTGCAGATTACATGCGTTAATTATGTAAAGTCAAGCATTAGAATGGTGGCTGTCCACCATGAGTACA
ACACAAATGCTCGTTCTTAATGATTCAACAAACATGGAATTTCATTAAATCTGAAATAAAGGTATTTTGAGAAATTGAATTCCGTTATCAAGTGTGAAGT
CCTGATCCAGACTCACCTCGTGCACACTATTTACCACAAAGGTGGACTCCCTATTTTAAATGCATTCACTTAAAGAGACCTTTCCCTGTACTAATTAGTG
TTTGTTAAGAAGGACCTTCTGGACATAGTTGAAAGAAAGAGAAAAGAAGCAGGTGTGGGGAGGAGGAGAAGGAGAAGGGAGGAAGGGAGGGAGGGGAAAG
AAGATGGATGGACAGATGGAAGGAAGGAATTAGGGATGGCAGAAAGGAGATAAAATAAACTCTACTTTTAAAAGAAACCAGGTGGGGTGAGTGGGAGGGC
TTCCCTGTGACCTTGGCCTCAGGGGCTCTTTCTGGCTTCCAGATAAGATACCCCTCAGCTTTGCACTGGGTCTCCTGAGGCTTGGAAGTTATGTCCACAG
TGAGGTTGGTGTAGAGGGGCAGCCACTCTTTGGAGAGCAACCTGTAGCCCAGACAGTTGATGCCATCATCAGAGGATCCAGGGATCGGAGGATTGGCGGA
TCCGGGACAGAAGGCGAGGCCTGGAGGATGGGGAGGGGCAGCCATGTGAGCCTCAGGGAGGACCCAGAACCAACCACCCCACTTCCAACACTGATTCACC
TCCAGGGCCTCTGCTTGTGGCCAGGATCTTCCCCCTCCAGCATATGGTAGCCTCTGAAAAGCAGGTGGGGCTGGGAGAGGAGCATCCCGCTTAGTTTCAC
CCTTCCAGAGACACAGGAAGGCATGGAGGCCAAACACCTGTCTCTGACAGGGTCCCCATGCCACAGCCCAGCCCTCCAGTCCAGGGTAGCCCATGTCCCC
CTCAGCCCAGGGCGGCCCATACCTGCCTCATCATGTCAGGACCTGCAGCTCCTGCCTCCCACCTGGCAGTGATGTCATCCTCATCATCCCAACCCCACTA
CACGTTGGAGAAGCCATTTATCTTCAGGTAGTGAGTGGGGTGCAGGGCAAACACCCCTCCAAGGCACAAGCTAACGGCTTAATTGCTGTTGTTTCCCCAT
GTTCTGGCTTGCAGCACTTGTAACCTCTGGGCTCCTGCAGCCCTTAACATCTGATACCTTTACATTAAGATTTATCATCCTTATCTCTGGACCAGGCTGA
ATACACCTGTGTCCCGGTGCATCTGGCCAGCGGGTCAAAGGGCCTAGCACACAGATTAACAAATGAATGAGTTCCAGTTACCAAAGTTCAATCCTTGAGG
TGGACAGAAGACGCCCAAGGCGTGTCTCCCATCACCCTTCACTCTGAATCCTCCTTATCAAGGGCCTCACGGGAATAGTGATAAGATCTCAGAATATACA
GGAGGGAGCAGTTTCGGGAAGGGGGGCATTGGAAGGAAGTGGAGGGCTTGGATCTGGGGAGCAAGCGGGGAGAGTGCTCCGTTCCTTGGTTTTGGGATCT
TGCCTTACGGGTCTCACCTGCCCTCCATCCTGGCTTCCACCTGGCAGGGTGTGTTTGTGTCAGAAAGACGATTGTGCGTAACTGTTCACCGCGTCCACGT
CCCGAGAGTTGCGCACGCGTGGAGATCTGCAAAACGCTCCCTTTCAGCTCCGCGCATGCACAGAGACCCCACCCCGCAAGTCCTTGCCCTTCGGCCTGGG
CAGGCGTCCACTCCCATGGCTGCAGGGCGCGCCGAAGAGCCCACTCTGCATCCCCGAGACGCGGCCCAATCCTAGGAATGTGCTTAGCGCAGGTGCTATC
TTCCCTTTTCACATTCCCAATCTCTTTCTCCGCCCCCTCAAACTCTTGCCATACTCCCACAACAGCAGAAAATCTGAAAAAAAAGTCCATCCCATCTTTG
CACTGACAGCAGTGCACAGCAGCTGGCAGAGAATTCTGGCACGGCTATTGTGCTTGCGCAGGCGCAGACGGGAAGCGGGCCGGACCGGCCTAGTACACTC
TGGGAGGCGTGCGCAGAATGCGCAGCGCTGCCGCGAGGATCTCTGGGAACTGTAGGCCCAGTTTGTCCGAGAGCCGCAAGTGTTTCGGGACGACGCAACG
CAGGGGCACCTGGGAGTCGTAGGCGGATGGGCCCAAAGCCTTCCGGGAGTCGTAGTCCTTCCGCCCGCTCCTCGTTTCTTTGGAGGTTGGCCCTTCCAGC
TCCAGTTCTGCCCAGGTGAGCGCCCATCCCGCGGCCGGCCGGTCCTGGCCCTTTGTCGCGATGACGTGGCGGAGTTGAGGGTCTCTGTATTTCTCTCCCC
CGCGTTCTGGTAGGCGTCCCTGGAAAGATGGCACCCTTTTCCGTGATCTCTCAATCCCTCTCTCCGGGTGGGAGTGCTCTAAGCAGCTGTTGTACCTGCT
GACCCGCTTTGGATTCTGCGGCCCAGCCTGACACCTTCTCACTCTCGCCCTTCAACCTGGGTGCAGTGCGAGTGCACCCTCCTCTGTCCTGGTTACAACA
CAGAGTGGTCAGGGCTGGCCCAGGGGGTGCTCAGGAGGCTGTGGGAACACAGAGGAGGTGCTAGACCCAGCCCAGGGTTCAGGAAAGACCTTACAGAGCA
AAGGACCTCAAATCTACCACATCCAAACGAAATCCCAGATTCCCTGTCCTAAACCTGCTCCTCTCACAATCTTTCTGCCTCCTCCCCACTAACTGTCCAT
CCAAGTGCTCAAGCCAAAATCTTGGAATGGTCGCCAGTGTTCTGTTTCTCTCATCCGCTTCCCTCCCGCAACCAAACCTTGTGTGAGTCTCATCGTCTCT
ATCTCCAGAAGAGGCCCAGAATCTAACCACTTCTCTCCACTTCCACTGTCTCCATTCTGCTCCGAGCTACCGTTACTCCTCACCTGCATCACTGCAGGGG
CCTCCTCACTGTTCTGTTTCTTCCCTTGCCACACTCCACCCTCTATTCAGGCACAGTGCCAGGAAGCCTGTGGAAATATAAATCAGATCCTGTCACCAGT
CACTACCCTGCCCCCCAGCTTAAAATCATCCAGTGGTTCCCATCTCAGAATAAAATCCAAGCTCCTTATCCTGCCAACCTCTAAGCTTCTGGTCCTTTCT
GGTCGTCCTCAGTCACAACACACTTTCCAATGGGCTGAACACAGCCAGGCCCTGCCCTTCATGTCCTTTGCATTTGCTATTAACTCAATTTGGAGCATTC
TTCCCACCCTGACCCAATATCTGTCTACTCATTTTGTTGGCCTCAGCTCAAAGGCCTCCAGCCACCCTAAAGAACCCCCTCCCTGTTCCCCCCCAGTCAT
ACCACCAAAG


SNP Information

Context             (SEQ ID NO:54527):
CCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGTGCCCGGCTATGGGCATCTTTTCCCACAGGAATTGACTTAAAGGACCCATCCATTCTGAACTC
Y
TAGTCCTCATATTTTTATTCTAATGATTTATATATCAGTACCTCTAGTCCCTGTGCTTAAACTGTGTTCTGCTACCTTACTTAGCTCCACGGAGGACAGT
Celera SNP ID:            hCV2184211
SNP Position Genomic:     17977
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54528):
AACTGTACAATACAAAATGGGCAAGATGGTAAATGTAATATTATGCACTTTTGCTACAATAAGAAAAAGTTAACAATAAAGATTAAAAGTGTCCTTTTTT
W
AAAAAAAGAATGAAAGATGATTGAGTTTTTTTGATAGGACAAGAGTCTGGGATACAGTTTAAGTGACTGAAAGCGAAAAGAAACTACATGTGATGTTCAT
Celera SNP ID:            hCV2184213
SNP Position Genomic:     20289
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,5)      total(A,1|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54529):
CTACCTCCTGAGGTTATTATGCAGATTAAATGAGTATGTGTGCACCATGTAGGCCACTGCCTGGCACATGCTAAGTGCTATGTAGATAAATGCTCATCAT
R
TAATAAGGGCTCTGTGTTTCTGCTCATTGTCAGCATCATTAGCAGCATTATTACATGACTCAGCAATTTCCTTGTGTTCTGTGTCAATCAGCTTCATGCA
Celera SNP ID:            hCV2184214
SNP Position Genomic:     21239
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54530):
GATTTCTAAGAAAGCTTCATTTCAAAAGGATATGGTAGGTGAGTTCACAAGAGATGGTTCATGGTGTTCCATTTTAGAAGAACTGAGGCTGGATGCTGAC
Y
GCACAAAGAAAGATGAGCAAAATCAAATTCAACCCATGAGTCACAGTGCTTTCTTCAACAAGAAAACATTGAACACAGAAAGCAATTGTGAATATAAGGA
Celera SNP ID:            hCV2184215
SNP Position Genomic:     21529
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,35|T,5)   total(C,64|T,6)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:54531):
TTGAGTATCCCTTCTCCAAAATGCCTGGGATCAGAAGCATTTTGGATTTCAGATACTTACAGATTTTGGAATATTTGCATTATATTTATTGGTTGAGCAT
Y
CCTAATCTGAAAATCCAAGATTAAATGCTCCAATTAGCATTTCCTTTGAGCGTCATGTTAGAGTTCAAAAAGTTTCAGATTTTGGGTTTTCAGATTAGGA
Celera SNP ID:            hCV2184216
SNP Position Genomic:     23836
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:54532):
TGTGATTACAGGCATGCACCACCATGCCCGGCTAATTTTGTATTTCTAGTAGAGACGGGGTTTCTCCTTGTTGGTCAGGCTGGTCTCGAACTCCCGACCT
Y
AGGTGTTCCGCCTGGCTTGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGTGCCCGGCTATGGGCATCTTTTCCCACAGGAATTGACTTAAAG
Celera SNP ID:            hCV27932302
SNP Position Genomic:     17856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54533):
GTGAATGTTGAATGAGTGACCATGTACTCATTGCTTTTCCAAGGCTTCTGCAGAACCCCCAGGTCAGGCCACATCATTGAGGCTGCAGGATCTCTCTTCA
Y
AGCCCAGTACGACTCTCCGCCGTGTCCCTGGTTGGAAAATCCAAACACCTATCCAGCTTCTGGCTCCTGGGAAAAGTGGAGTTGTCAGCAAGAGAGACCG
Celera SNP ID:            hCV27836654
SNP Position Genomic:     7975
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 UTR 5


Context             (SEQ ID NO:54534):
AGGGAGTTTGGGCTTGAAATCCCACAAAAGGAGATTTCTAAGAAAGCTTCATTTCAAAAGGATATGGTAGGTGAGTTCACAAGAGATGGTTCATGGTGTT
S
CATTTTAGAAGAACTGAGGCTGGATGCTGACCGCACAAAGAAAGATGAGCAAAATCAAATTCAACCCATGAGTCACAGTGCTTTCTTCAACAAGAAAACA
Celera SNP ID:            hCV25628533
SNP Position Genomic:     21497
SNP Source:               Applera
Population(Allele,Count): african american(C,22|G,6)   caucasian(C,39|G,1)   total(C,61|G,7)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:54535):
GGCTGGATGCTGACCGCACAAAGAAAGATGAGCAAAATCAAATTCAACCCATGAGTCACAGTGCTTTCTTCAACAAGAAAACATTGAACACAGAAAGCAA
Y
TGTGAATATAAGGACCCTGGGAAAATGATTCGCACGAGGCCCCACCTTGCTTCTTCACAGAAACAACCTCAGAAATGTTGCTTATTTACAGAAAGTTTGA
Celera SNP ID:            hCV25628534
SNP Position Genomic:     21615
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,29)   caucasian(C,9|T,31)   total(C,12|T,60)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:54536):
TACAGGTGATATACCCTGTATATGCAAGGAATGTGGGAAGGTCTTTATTCAGAGATCAGAATTGCTTACGCACCAGAAAACACACACTAGAAAGAAGCCC
W
ATAAATGCCATGACTGTGGAAAAGCCTTTTTCCAGATGTTATCTCTCTTCAGACATCAGAGAACTCACAGTAGAGAAAAACTCTATGAATGCAGTGAATG
Celera SNP ID:            hCV25628535
SNP Position Genomic:     22186
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(A,1|T,37)   total(A,2|T,74)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:54537):
ATTCTGTGAAAGGCTTTACCAAGCAATGAATTCCTAGTGCATCAGCATATTCATAAATGAAATATACTCCGAGTTTCTTGAAGAAGAGAAAATCTTCTCA
K
AATCAGGTCTAATTATATGTTATTGAATTCATGCTTCAGAAAAACTCTAGGGATGCACTGCATGTGTGAACACATGATAAAAAAGTCATGCTTTATTTTA
Celera SNP ID:            hCV25766017
SNP Position Genomic:     23307
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(G,36|T,2)   total(G,72|T,2)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:54538):
GTCGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCTTCAGCCTCCCGAGTAGCTGGG
R
CTAAAGGCGCCCGCCACCACACCAAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGT
Celera SNP ID:            hCV26639610
SNP Position Genomic:     12568
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54539):
GAATCGCCTGAACCCGGGAGGTGGAGGTTGCAGTGATCCAAGATCATGCCATTGCATTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAA
R
AAGCAAGCCCCAGAATGGGAAAAGATTCTTGTTACACATACAGCTGACAAAAGGTTCCTATAAAACGTTGAGGACGGCTGGGCGTGGTGGCTTATGCCTA
Celera SNP ID:            hCV26639611
SNP Position Genomic:     13178
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2|-,4)   total(G,2|A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54540):
GTGATGGCACCACTGCACTCCATCCTGGGTGACAGAGTGACATCCTGTCTCAAAAAACAAAAACGAAAACAAAAGACCTGAGAGGTTTACATATATGAGC
R
TGACATGAAAGTGAAATGATATGAAAATGAATGATATGAAAATGTCACGCCAAAAAGCAAAGATCATATATTTGCATATTTAATAGAAAGATGTCACGGA
Celera SNP ID:            hCV7606820
SNP Position Genomic:     11859
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:54541):
AAAGTGGAATTGTCCATTGACCAATGAATTGGTAAACAAAATGTGGTCTATACATACAATGAAATATTATTCAGCCTTAAAAAGGAAGAGGAATTATGAA
R
CATGTTGCAGTGCGGATGAATCTTATCATGATGCTAAGTGAATAAGCCAGACACAAAAAATCCAAATGTATCATTCTACCTGTATGAGGTACTTTAAGTA
Celera SNP ID:            hCV11709302
SNP Position Genomic:     19933
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54542):
ATGACTCTTTTATCGGTTTGTCCTGGATTGTTTGTTTCTTTTGGGCACCTTCTAGTATTATTTTGTGCCCAGTGGAAAATGTTGACTTTTCTAATGAGCC
R
GTGTAAAGCTTCATTGAATGGCCTCTAAAACTGAAGAAGCTACACCCAAATCCAGTATCCTTTCTAATTAACAGGGTATCACATTCCCAACCCAGAGGTC
Celera SNP ID:            hCV26639612
SNP Position Genomic:     16480
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,67|A,682)   total(G,67|A,682) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54543):
GATGCTGGAGCTCTATAGCCATCTCTTCGCAGTGGGTGAGCACAACTGACCTGGGAATCTTGGCTGGATCCTGTTGAGGAGATTTCCTTCCTCCTCATTG
Y
AGAACGCAGTGGGATATCAAAGTATGTCATGACTCTTTTATCGGTTTGTCCTGGATTGTTTGTTTCTTTTGGGCACCTTCTAGTATTATTTTGTGCCCAG
Celera SNP ID:            hCV7606821
SNP Position Genomic:     16351
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,37|T,1)   total(C,66|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54544):
AATGAATTGGTAAACAAAATGTGGTCTATACATACAATGAAATATTATTCAGCCTTAAAAAGGAAGAGGAATTATGAAACATGTTGCAGTGCGGATGAAT
S
TTATCATGATGCTAAGTGAATAAGCCAGACACAAAAAATCCAAATGTATCATTCTACCTGTATGAGGTACTTTAAGTAGTCAATTCATAGAGACAGAATA
Celera SNP ID:            hCV11465080
SNP Position Genomic:     19955
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54545):
TGAATTTATAGCCCTACTGATAGGTGAAAGGGCTGTTTCATTTTTTTTTGTTTTTGGTTTTGGTTTTTTTGAGACAGAGTCTCACTCTGTCACCTAGGCT
R
GGGTGCAGTGGCACGATCTTGGCTTACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCC
Celera SNP ID:            hCV26639613
SNP Position Genomic:     17114
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54546):
TACTGATAGGTGAAAGGGCTGTTTCATTTTTTTTTGTTTTTGGTTTTGGTTTTTTTGAGACAGAGTCTCACTCTGTCACCTAGGCTAGGGTGCAGTGGCA
Y
GATCTTGGCTTACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCGCCACCACACTCGG
Celera SNP ID:            hCV26639614
SNP Position Genomic:     17128
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54547):
TTCAAAGATGATATACAAGTGGCCAATAATAGGAAAAAATGCTCAACTTCACTAATTATGTGGGAAATGCAAATCAAAACCACTGGGTGATATCCCTTTA
Y
ATCCATTAGAATGGCTACAATTAAAAAAACAGAATAACAAGTGTTGGCAAGGATATAGAGAAACTGGAATCCTTGTGTATTACTAGTGGGAATGTAAAAT
Celera SNP ID:            hCV26639615
SNP Position Genomic:     19563
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54548):
TACCCAACCTGTATGTACGTATATTTCTGTATCTATGTATGTATATATATGCATATGCAGACATATGTATATGGTCTGGTCAGCATATGTGTATGTATGC
D
TATGTATGTATGTATGTATGCCCTCAGTGCAGTGGGGTTTGCTGCAGAATTCACTGCATAGCAGGAGATGTAAGCAGATGAGTTATTTTTTAAGAGAATC
Celera SNP ID:            hCV26639616
SNP Position Genomic:     24038
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|T,1|-,9)   total(G,1|A,1|-,9|T,1) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:54549):
AAATGCAGTTATTCTGTGAAAGGCTTTACCAAGCAATGAATTCCTAGTGCATCAGCATATTCATAAATGAAATATACTCCGAGTTTCTTGAAGAAGAGAA
M
ATCTTCTCAGAATCAGGTCTAATTATATGTTATTGAATTCATGCTTCAGAAAAACTCTAGGGATGCACTGCATGTGTGAACACATGATAAAAAAGTCATG
Celera SNP ID:            hCV7606826
SNP Position Genomic:     23297
SNP Source:               Applera
Population(Allele,Count): african american(A,32)   caucasian(A,35|C,5)   total(A,67|C,5)
SNP Type:                 INTRON;UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:54550):
TGACTAACGCATTGAGAAAAGCCTTTCTGTAAAGAATGGTACAAGACAGGTTGTTACTCGATTATTTATAGTAAAATATGTGGGAAATTATATCAATGAT
R
ACCCTGTTTATTGTGGGATATCAATATTTTTAAAGTGCCAACACAGTCATGATAGGACAATATTTTATGTGTGTGTGTGCGCCTTATGTATATAAGCATA
Celera SNP ID:            hCV7606827
SNP Position Genomic:     23602
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:54551):
ATGTGCATTTTTGGTAAATGCATAAATGAGATTCTATAATGTTTACTGATCTTTATATTACAGATTTTCTCTTCTTTTAGGATTAGCTCAGCTTGCCCCC
S
CTTTCCATCTCCACCATCTATAGTGAGCCTCTCCATAATTAGTGCCAACCATTAGTCTCGTTCATATTTTTACACCAGGAGTCAACAAACTGTGGCCATT
Celera SNP ID:            hCV7606828
SNP Position Genomic:     24336
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,28|G,8)   total(C,64|G,10)
SNP Type:                 MISSENSE MUTATION;UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3


Context             (SEQ ID NO:54552):
AGGCTGTGAGGTGAGTGACGGGCTTGTTTTGGCTGAGCGATGGGGGGTTTCTGGGGTGGGTGATGGGTGCTGTGGGGTAAGTGGCGTTTGCTAATTTTAG
Y
TGGATAATTAGCCTGTTAATTTTCCCTCTTTTCTTGCTTATTTTCTGCTTGTAGTATTTTTGTGACTTAAATTCCAAGTGTACTTTAATATCGGATTTTA
Celera SNP ID:            hCV27495620
SNP Position Genomic:     6334
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,40|T,1441)   total(C,40|T,1441) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54553):
ACAATTAAATTGACAACTTTCTTTTTTTAATTCATATTTATCACGTGCCAGGCAGGCACTGAGGACTTGACAAGCTTCATCTTGGTTAAGTTTCCCAACA
Y
CTGTGATAAATACCTGCATTTTCATTTTGGAAACTACAACTAAAGTAATATTTTCATATTCTCACAGTGAAAATGTGGCAAAGCTGCAATGAATTCACCA
Celera SNP ID:            hCV16080508
SNP Position Genomic:     7648
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,5)   caucasian(C,27|T,7)   total(C,48|T,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54554):
GGGAGGCAGAGATGGGCCGATCACTTGAGGCCAGAGTTTAAGACCAGCCTGGCCAACATAATGAAACCCCGTGTCTACTAAAAATACAAAAATTAGCCAG
K
CATGTTGGCAGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGTCAGAGGCTGCAGTGAGCCAAGAGCATGCC
Celera SNP ID:            hCV2184201
SNP Position Genomic:     13880
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54555):
CCAGGCATGTTGGCAGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGTCAGAGGCTGCAGTGAGCCAAGAGC
R
TGCCAGTGCACTCCAGCCTTAGTGACAGAGTAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAGCTGGACATGGTAGTGCACGCCTGTGGTCCCAGC
Celera SNP ID:            hCV2184202
SNP Position Genomic:     13976
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54556):
CTGAGGCAGGAGAATCGCTTGAACCCAGGAGTCAGAGGCTGCAGTGAGCCAAGAGCATGCCAGTGCACTCCAGCCTTAGTGACAGAGTAGACTCCATCTC
A
AAAAAAAAAAAAAAAAAAAAAAGCTGGACATGGTAGTGCACGCCTGTGGTCCCAGCTACTTGGGAAGCTGAGGCAGGAGGATCGCTTGAGTCTGAGAGGC
Celera SNP ID:            hCV2184203
SNP Position Genomic:     14020
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54557):
CATGTTTTATTTCCATTGGATGGCTCTCCTCTAGAGGCTTGATCAGAGTCCACTTGGATTTCTTTGTTTTTGGAAATGATACTTAATAGTTTGCACACCA
Y
GTATTTTCCTACCTCTCTACTTTTATTTTTTTATTTTGCATCATATTAGGTGCACTTTAATATCTGGTTATCTCTCTCCTTGTGATAAAATTGATGATTG
Celera SNP ID:            hCV2184204
SNP Position Genomic:     15022
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54558):
GAGTCCACTTGGATTTCTTTGTTTTTGGAAATGATACTTAATAGTTTGCACACCACGTATTTTCCTACCTCTCTACTTTTATTTTTTTATTTTGCATCAT
R
TTAGGTGCACTTTAATATCTGGTTATCTCTCTCCTTGTGATAAAATTGATGATTGGGTTCAGATATTGTCAGCCTACTCCTCCATTATAAAGACCCATCA
Celera SNP ID:            hCV2184205
SNP Position Genomic:     15067
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54559):
ACTGAAGAAGCTACACCCAAATCCAGTATCCTTTCTAATTAACAGGGTATCACATTCCCAACCCAGAGGTCATCTTCAGAATGCTAAAAGAAAAGGAGCC
R
CGTGTGGAGGAGGCTGAAGTCTCACATCAGAGGTGTCAAGGTGAGTAAGTTGTACCCGGGCAAATGTAGATATCTTTGCAGGGAACCATTACCAGTCTAC
Celera SNP ID:            hCV2184206
SNP Position Genomic:     16610
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,5|G,35)   total(A,6|G,72)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54560):
TCTACCATACTTTTCTATTCCCTCCATTCCCCCAGTGATGGCCCGTAGATTGCCTCCTACTCCCAGTTTCCCATCAAACACTGTAAATGTGCTATAAATG
Y
TAAATGTCCTATAGGGGCTGCCTTAAGAATTTTCCATTGGTGAATACTCAGGAATGGGATTGCCTGGTCCTGGAGATAAGTATACTTGACTAAATCAACC
Celera SNP ID:            hCV2184207
SNP Position Genomic:     16806
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54561):
TTCACACTCCCCATGTGCAGTGCACAAGGATTTGCATTTGCACATCTTGCTTGCTAACACTTGGCATTAACAAAATTGGTGAATTTATAGCCCTACTGAT
R
GGTGAAAGGGCTGTTTCATTTTTTTTTGTTTTTGGTTTTGGTTTTTTTGAGACAGAGTCTCACTCTGTCACCTAGGCTAGGGTGCAGTGGCACGATCTTG
Celera SNP ID:            hCV2184208
SNP Position Genomic:     17035
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54562):
CGGCTGGGCGTGGTGGCTTATGCCTATAACCCCAGCACATTGGGAGGCCAAGATGGGAGGATTGCTTGAGCCCAGGAGTTTGAGACGATCCTGAGCGTCA
Y
AGGGAGACCCCATCTTTACAAAAAATAGAAAAATTAGCTAGGTGTGGTGGTGTGTGCCTGTGATCCCAGCTACTCAGGAGGCTGACACGGGAGAATCACT
Celera SNP ID:            hCV11709292
SNP Position Genomic:     13353
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54563):
GTCCACGAAACTTGCTAACTTGAGGACAGTGAACGTGCATCTTAAGAGCGCCTTTGCGGATGGTGCTGGAGGACGTTCAGGGAAGGGATTCACTGTCCGT
R
GGACTAGGGGAGTCAGTGATTGATTGGCAGCCAAGAGCTTCAGAGGTTGGAGGACTTTGAGGATCACACTGTAACACTCTCAGGGGACCAGTGATGGGCA
Celera SNP ID:            hCV29188811
SNP Position Genomic:     6540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54564):
GATGAGGGGCTTGTTGGGGGTGGGGGTGCGTGATAAAGGGATTTCTCGGCTGAAGACGAGGCTGTGAGGTGAGTGACGGGCTTGTTTTGGCTGAGCGATG
R
GGGGTTTCTGGGGTGGGTGATGGGTGCTGTGGGGTAAGTGGCGTTTGCTAATTTTAGTTGGATAATTAGCCTGTTAATTTTCCCTCTTTTCTTGCTTATT
Celera SNP ID:            hCV27474125
SNP Position Genomic:     6276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(G,515|A,966)   total(G,515|A,966)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54565):
CAGCCCTGTAGTACACTCATTGGGGATTTCTGAAAGTCAGTCCTGTCAGTGATTGCATTCAGGTGCGGTGGGGGCAACTTATTGTGGACAGGCAAGAAAT
R
GTAACTGGAGGCCCTGATGCATGTCTGCAAATTTTCTGTGTCAAGATGGGGATTGGGACAGTGATTTTAAGTTTTAGCTCTAGTCAGAAGAGGCTGGTCT
Celera SNP ID:            hCV29188812
SNP Position Genomic:     7137
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54566):
GAGCGTAGCTTCAAAAGTGTTAGTGGGCATGCGCGCCTTTCAACAGCGCCTACGGAAATCCTAACGGGAATGTAACCCAAACCGGAAGTGGCCTAGAGCG
R
CCATTTAGCTTCTGTTGTTAAGTGGATCTAAGCCTATGTCGCTTACTGGACGCTGAAGTGATTGGGAATATTAGCAGTGGGGGTTCTGTAGGGTCAGGAA
Celera SNP ID:            hCV27474126
SNP Position Genomic:     6052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(G,511|A,948)   total(G,511|A,948)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:54567):
CCTTGGGTCAAGAAAGAAGAAACTGTAGTCCCTGGTCTGATCAGAAGCCCCAGTCATAGGATGGAAAAGCTGACTCTTTCCTGCTAAGCACTGGTTCTGC
Y
CCTTCATCCACCACTGGGTCTTTGAAAAATTTCAAGTGGTCCCCCCCACCAAATTCCTTGCTTGGTCCATGGGGTTTGGCCCGTTTTTCCTCTGTTCTCA
Celera SNP ID:            hCV29188813
SNP Position Genomic:     8475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54568):
GTGAATGCGGGAAAGCCTTCAACCAGAAGTCAATACTCAGCATGCATCAGAGAATTCACACCGGAGAGAAGCCTTACAAATGCAGTGAATGTGGGAAAGC
Y
TTCACTTCTAAGTCTCAATTCAAAGAGCATCAGCGAATTCACACGGGTGAGAAACCCTATGTGTGCACTGAATGTGGGAAGGCCTTCAACGGCAGGTCAA
Celera SNP ID:            hCV25628542
SNP Position Genomic:     22800
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS


Context             (SEQ ID NO:54569):
AGAAGAAACTGTAGTCCCTGGTCTGATCAGAAGCCCCAGTCATAGGATGGAAAAGCTGACTCTTTCCTGCTAAGCACTGGTTCTGCTCCTTCATCCACCA
Y
TGGGTCTTTGAAAAATTTCAAGTGGTCCCCCCCACCAAATTCCTTGCTTGGTCCATGGGGTTTGGCCCGTTTTTCCTCTGTTCTCATAAGGTGCGGCAAA
Celera SNP ID:            hCV29188814
SNP Position Genomic:     8489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54570):
TCCTCAAAATGGGTATGATAATGCCCATGATATTTAGCTGACAATTAAATTGACAACTTTCTTTTTTTAATTCATATTTATCACGTGCCAGGCAGGCACT
R
AGGACTTGACAAGCTTCATCTTGGTTAAGTTTCCCAACACCTGTGATAAATACCTGCATTTTCATTTTGGAAACTACAACTAAAGTAATATTTTCATATT
Celera SNP ID:            hCV27848264
SNP Position Genomic:     7608
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(A,7|G,27)   total(A,9|G,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:54571):
CATTATAAAGACCCATCAGTCTTTCATATGGTTTTAGCAGTCATTGGTGATCAGTAACAGTGACATTTTTGTTTTGTCCTTCAGGCTGCATTTATCATCT
R
CAGTACTTCTGTAATGAAGATCTTTCCATCATCAGTCCTTTCATTAACCTAATATTAGTTATTACAGGAGAGATCATCTTGTTGAAATATTATATGATCA
Celera SNP ID:            hCV29188815
SNP Position Genomic:     15250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54572):
CCATGTACTCATTGCTTTTCCAAGGCTTCTGCAGAACCCCCAGGTCAGGCCACATCATTGAGGCTGCAGGATCTCTCTTCATAGCCCAGTACGACTCTCC
R
CCGTGTCCCTGGTTGGAAAATCCAAACACCTATCCAGCTTCTGGCTCCTGGGAAAAGTGGAGTTGTCAGCAAGAGAGACCGAGAGTAGAAGCCCAGAGTG
Celera SNP ID:            hCV27848265
SNP Position Genomic:     7994
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,1|G,39)   total(A,3|G,73)
SNP Type:                 UTR 5


Context             (SEQ ID NO:54573):
GTTAATGAAGACCTACACACTGAGCCCCCTCCTTCAAGCCTTGGCTGCCCACACATGTTGCCCTGCAACACTTGTCTGTTTTATCCTACTCATCCTACTA
S
ATCTGGGTGTCTAGACCACTTGCATAAGTGTCCTCAGGTTGTTGAAATCTAATCCCCACAGATTAGCAAAGTGATCTTGGCCAATTACATAACCATTATG
Celera SNP ID:            hCV29188816
SNP Position Genomic:     20999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54574):
AAACTCTATGAATGCAGTGAATGTGGCAAAGGCTTCTCCCAAAACTCAACCCTCATTATACATCAGAAAATTCATACTGGTGAGAGACAGTATGCATGCA
S
TGAATGTGGGAAAGCCTTTACCCAGAAGTCAACACTCAGCTTGCACCAGAGAATCCACTCAGGGCAGAAGTCCTATGTGTGTATCGAATGCGGGCAGGCC
Celera SNP ID:            hCV29188817
SNP Position Genomic:     22364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:54575):
TTTTATGCTCTGTCATTTTCTATTTCTTTGGTTTTGGACCCTCTTTCTGGAAGAATTTCTCAACTTTATTTTCTAGCCCTCCGATAATCATTACTGCCTT
A
AAAAATTTTTAAGAGCTTTTAGATATGAATACTCCTTTTAATGACATGATGTTTTTGTTTAATGATTGAACTATCTTACCTAAGGATATTTGAGATATTT
Celera SNP ID:            hCV8565624
SNP Position Genomic:     12238
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54576):
ATGTACTCATTGCTTTTCCAAGGCTTCTGCAGAACCCCCAGGTCAGGCCACATCATTGAGGCTGCAGGATCTCTCTTCATAGCCCAGTACGACTCTCCGC
M
GTGTCCCTGGTTGGAAAATCCAAACACCTATCCAGCTTCTGGCTCCTGGGAAAAGTGGAGTTGTCAGCAAGAGAGACCGAGAGTAGAAGCCCAGAGTGGA
Celera SNP ID:            hCV2184192
SNP Position Genomic:     7996
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,27)   caucasian(A,9|C,31)   total(A,18|C,58)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,7)      total(A,1|C,7) ;no_pop(A,-|C,-)   JBIC-allele(C,474|A,1021)   total(A,1021|C,474)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:54577):
TAAGTGGATCTAAGCCTATGTCGCTTACTGGACGCTGAAGTGATTGGGAATATTAGCAGTGGGGGTTCTGTAGGGTCAGGAAGGGGCGGCTGGCTTTGGG
K
GAGTGATGAGGGGCTTGTTGGGGGTGGGGGTGCGTGATAAAGGGATTTCTCGGCTGAAGACGAGGCTGTGAGGTGAGTGACGGGCTTGTTTTGGCTGAGC
Celera SNP ID:            hCV27476973
SNP Position Genomic:     6171
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,44|G,1447)   total(G,1447|T,44) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:54578):
TTCATAATTTTATTGGTCAATTACTTGTCTTTAGTGAGTTACTTTTTCTTACCTTTTGATTTATATTTTGGTTTGGTTTAGCCTCCGGATTTTTAGAGAG
K
TTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGAAGCGCAGGCTGGAGTGCAGTGGCGCAATCTCTGCTCACTGCAAGCTGCACCTCCC
Celera SNP ID:            hCV2184193
SNP Position Genomic:     9977
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54579):
GCCTTTCAACAGCGCCTACGGAAATCCTAACGGGAATGTAACCCAAACCGGAAGTGGCCTAGAGCGGCCATTTAGCTTCTGTTGTTAAGTGGATCTAAGC
Y
TATGTCGCTTACTGGACGCTGAAGTGATTGGGAATATTAGCAGTGGGGGTTCTGTAGGGTCAGGAAGGGGCGGCTGGCTTTGGGGGAGTGATGAGGGGCT
Celera SNP ID:            hCV27476974
SNP Position Genomic:     6086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:54580):
CCTATTGCTTTTTTGTCTTGATGCGATTGGACCTGGCTGTTCTCCTGGCGCCTCACGCTGTCTTCTCATGGTGCTGTGTTCACCATCACCTGGGAATTCT
K
TTTTTCTCTGTCAAGTGTCCAGTTCCTTGTGTCTTGAATCCTTTCTTGAATCCTTTGGCTTTCTCTTCCACGGTTTACCGTTACTCTCATTTCGTGAAAG
Celera SNP ID:            hCV7606810
SNP Position Genomic:     11516
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,12)      total(G,1|T,12) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54581):
ATACCATTTTCTCCAAGTGTGTACACACTGTCTTCATAAATTGAATTTGTTACTAGGTAATTGCAAACCCTCGCTATTTCAGGGACAGTTTTTTTTTTTG
K
TTTTTTTTTTTTTTGAGACAGAGTTTCGCTCTTGTCTCCCAGGCTGGAGTGCAATGGCGCGATCTTGGCTCACTGCAACCTCTCCTCCTGGGTTCAAGCC
Celera SNP ID:            hCV26639607
SNP Position Genomic:     10921
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54582):
GATATTTTAAAATGTAATTTTATGAATAGATAATACACAGCATTCACAAATTAAAACATCATGAAAAGTAATTTTTTTACAAAATACTCCTTTCTCTCTC
T
TTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAGCTCCGCCTCCCGGGTTCAC
Celera SNP ID:            hCV26639608
SNP Position Genomic:     12432
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54583):
TCTCTCTCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAGCTCCGCCTCC
Y
GGGTTCACGCCATTCTCCTGCTTCAGCCTCCCGAGTAGCTGGGACTAAAGGCGCCCGCCACCACACCAAGCTAATTTTTTGTATTTTTAGTAGAGATGGG
Celera SNP ID:            hCV26639609
SNP Position Genomic:     12524
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54584):
AATTCTTTTTTTCTCTGTCAAGTGTCCAGTTCCTTGTGTCTTGAATCCTTTCTTGAATCCTTTGGCTTTCTCTTCCACGGTTTACCGTTACTCTCATTTC
R
TGAAAGTGCATCCCCTAGGAGTTCTTGGGGACGGTACACGGCAGTAAATCCTGTGAGAACTTATCTGAACATGTCTGTTCAGATAACGGAGACTAAACTT
Celera SNP ID:            hCV7606819
SNP Position Genomic:     11610
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54585):
AGAAAAACCTTATCAGTGCCACAACTGTGGGAAATCCTTCATTTCCAAGTCACAGCTTGATATACATCATCGAATTCATACAGGGGAGAAACCTTATGAA
Y
GCAGTGACTGTGGAAAAACCTTCACCCAAAAGTCACACCTGAATATACACCAGAAAATTCATACTGGAGAAAGACACCATGTATGCAGTGAATGCGGGAA
Celera SNP ID:            hCV27478147
SNP Position Genomic:     22612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Gene Number:                 270
Celera Gene:                 hCG14767 - 146000219489284
Gene Symbol:                 BMX
Protein Name:                BMX non-receptor tyrosine kinase;ETK;PSCTK2;PSCTK3
Celera Genomic Axis:         GA_x5YUV32W4U7(13990024..14094427)
Chromosome:                  ChrX
OMIM number:                 300101
OMIM Information:            BONE MARROW KINASE, X-LINKED;BMX


Genomic Sequence (SEQ ID NO:12430):
ATCCTCATCATTTACTAGCTCTGAGGCTATGGGCATCTGTTTTTAAAAACATCTTTAAATCCCCATTTCCTCATTTTTAAAAATGAGATGAGAATAATAT
TATGGTTCTTTTTGCTGGGCACAGTGGCTCATGCTTGTAACCCAAGCACTTTGGGAGGCCAAGGCGGGTGGATCGCTTGAGCCTAGGAGTTTGAGACCAG
CCTGGACAACATAACGAGACCCCATCTCTACAAAAAAATAAAATTAGCCAGGTGTGGTGTTGTGCACCTGTGGTCCCACCTACTAGGGAAGCTAAGGTGG
AAGGATCACTTGAGCTGGGGAGGTCGAGGCTGCAGTGAATAGTGAATGCACCATTGCACTACAGCCTGAGCAAGAGAGTGAGGCCCTGTCTCAAAAAGAT
AATAATAATACTACTTATCGCAAAGAGATCATGCATACAAAAACTCTGAATAAACTGAAAGACACTATGCAATCATCATCCTAATCAATGTGAAGTTATA
GTGGTAGAAGAAGTGTTGACCACTGTCTCACACATATGGCTGCTAGGCAGCTCCATGGTGCAGATGGCAGAAGTCACCACTTCCACGATCAGGACATTTC
CAGTCATCATATGTATCTTTGCAAGCAGTCTTCATTTCATGTTCTGCTCCAGTGAGAGGTTACTATTGACTTTTTGCCATGACTTTTTTCTTTTGCTTTT
TTGTCTTTAAATTTCACTTTCATTGAAATATTATGATTCAAATATGTGAATTTATCATTCCTCAAAACATATACATATAAAATCCCAGACAGTACCTGGT
ATAGAGTTTCGACTTACAAAACTGGCAAATATGACCCAAGTATTTTGGGGGATTTTAATTGTAACATATCTCAGACAAGACTAGGATGATGGAGGGCTCG
AGGTCATTGTCTTAAGTGATAACACCTAACCCTGCAAATGAGTTGGAAGATAAATAATACATTGTCTCAAATGCAGCAGAGAGGTCTAGAAAGATGAGGA
CTGAAACAATCACTGAATTTGGCAACTGGGACATCACAAGTGACCATTACCTGAATAGCTTCAGTAAAGATTTGGAAGGGGCTACTGAGAGGCCAAATCT
GATCTCAGTAAGTACAAAACGAATGAAAGATAAGGAAGTTGGGATATCATTCCTGATTACTCTTTTGAGAAATGTAAGAAAAAGACTAGGTGGGAGCTAA
AAAGTGATTGAGGGGTCAAGGAAAGTGTGAAAGAAGAATATAAGAGACCTGTGTGGTTTCCAGGCTGAGTAAAAGAATCTGTAGAAAAGGAAAAGTCAAG
AATATAATAGAGAGAGTGTGGAAAGGGTGAATGTACTGGAAGTGGGCAGGATCAAGCACGTGCACCCAAAAACTACTAAACCACCAGCAATTCCTTGTCC
TTGGCCATACCTGCAAATCTCCTGGGTTCATTTTACCAGTGTGTCCACAGAAGTCTTCATGGGCCATGCTGCCCCCTTCCAGGAGGTAGGATACCTTTGA
AAAACAAACAGGAAAAAAAGTAGATCCTTTGCCTATTTTTAAATTGGGTTATTATTTAATTATCCCTACTGACTTGTATGAGTTCCTTGTATATTTTGGA
ACTTAATCCCTTATTGGATAATATGGTTTGCAAACATTTTCTCCCATTCCGTGAGTTGCCTTTTCATTAAAAAAAAAAAAAAAATAGGCAAAGGACTTGA
ATAGACACTTTCCCAAGGAAGACATACAAATGGCCAACAGGTATATGAAAAGGTAGTCAACATTGTCAGAAAAATGCAAATGAAAGCTACAATGAGATAT
CATCTCACATCTGTTAGGACAGCTACTAGCAAAAAGTCAAAAGATAACAAGTGTTGGTGAGGGTGTGGAGAAAAGGGAATCCTTATACATTGCTGGTGGA
ACGGTAAATTAGTATAGGCATTATGGAAAAGAATATGGAGGTTCTTCAAAAGATGAAAAATAGAACTCCTATACAACACAGCAATCTCATCCTGGGTATA
TATCCAAACAAAATAAAATCACTATCTCAAAGAGTTATTTTACACTCCCATGTTCATTGCAGCACTATTCATAATAGCCAAGATATAGAAATAACTAGAG
TATCTGTTGACCAATAAATAGATAATGTGGTATATATACACAATGGAGTACTATTAAGCCTTAAAAAATAAGTAAATCTTGCCATTTTCAGCAACACGGA
TGAACCTGGAGGATATTATGCTAAGTGAAATAAGCCAGACACAGAGGGACAAATACTGCATGATCTCACATAAACAGAGTAGAAGGGTAGCTACCAGGGG
TCAGGAGGTAGGGAACATGGGAAGATGTTGATTAAAGGGTACAAACTTGCAGTGACAAGATGAATATGTTCTGAAGACCTAAAGCACAGCATAGTGACTA
GAATTAATAGTAAGTATTATACACTTAAAATTTCCTAAGAGAGTAACCTTCTGTGCTCTCACCACAAAAATAGGTAACTATGTGAGGTAATGGATACCTT
AGCTTGATTGTGGTAATCATTCCACAATGTATACATACATCAAATCATCACGTTGTACACCTTGAATATAAACAATTTTTATTTGCCAACTGTACCTCAA
TGAAGCTTGAAAAAAAGGAAAAAGAAAAAGTGTTATTGGGTAGCTGTGAAGACGTGTTTGCTTTTTCCACAGAAAATTTGTTGAGGAAAGTGTCAGGAGC
AACTAAGAGGAGTAAACTGAGATAAAGAATCTCTGTGACTGGGCCACATTAGCCATACAATGTCTTTGACAGAATCTCACCTAGGTGCCCCTTCCTCCTA
GCAGATGCATCCCTGAGCCTGCCAGAGCTCACAGCTGAGTGAAAAGAGCCGCCACTCACCCCTTCAGCCCAGCAGATGATGGTCCTGGCATGGTGGGCCC
TGGAGATTGGGGTGAAAGAGAGACAGCTCCTGTTGAACCAGCAGGGTCCCTGTTACCAAGGCTTGTTCACACAGGTGTGTGGGATGGCATATGTGAGGTC
TCCACACCACCAAAAAGCTGCCTCAGGAAATCCAAAGGAAACATATTTCTGACACCAAGCACACAAACTCACTAGGTGCTCAATAAATGTTTATAAAATA
TGTTAAATGAATTCATAGAAAATAAGTCAACTTTTCCAGGGACATGTCCATACTAAATCTAAAAATGGAAAGAAATTCTATGCTGCCCAATAGAGTAGCC
ACTAGCGACATGCAGCTATTTAAGTTTAAATTAATTAAAATTAAATAAAATTGGCTGGGTGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCC
AAGGTGGGCGGATCGCCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAACTACAAAAAAATTAGCCGGGTGTG
GTGGCAGGCGCCTGTAATCCCAGCTACTGGGGAGGCTGAAGCAGGAGAATCACTTCAACTCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCACCATTG
CACTCCAGCCTGGGCAACAAGACTGAGACTTCATCTCAAAAAAATAAATAAATAAATAAAACAAAAACAAAAAAAATTAAATAAAATTTAAAATTCAGCA
CCTCAGGTGCACCTGCCACATTTTGGGTGCTCAAAAGCCCCATCCGGCTAATGGCTATCATATTGGGTAGTGCAGATTATAGAACATTTCCATCTTTACA
GAAAATTCCCTTTGATAGCACAGGTTTAGATAGAATGAATTTGAAAATCAGTAGTCAACTATGGTAGGCATTTTGTGTAGATAGAAAAACCTTCCCAGGA
CTTTCTGCAATCACAGTACCTTTTGGTAGAACAAGACTTGCATCAACTCTAAAAAGCAGAAGAAAAGTAAACCCTTCTTATTTCATTATTCTACTAAAGG
GAAAAATCAAGCAACTCTAAACTTCTCATTTTAAGGCTATAGTGATTACTCTAGCAAATAAAGATTAAAAGATACCAAATAATTAGTAAGAATTTAAAAT
TACCTCAGGAACACGGCAACATTGTTATTTGAAATATATAATTTAGCACTTAAAGCGTAAAATGTTGTGTGTCAGGACATGGGCTCTTTTTGTGTAATCT
ATTTGGATTCGACATCCATTTTGTATGCATTTGGGAAATTTATCTGTTAACTCCTTCAAGAAATATCTAAATCCACAATAAAAAACAGAGTGGAAATATT
GTAAGATATAAAGAAGAAAGAAAAAAAAATGCCCAGGAGGCAAGAGAAGAGAAAATATTTATGAATTTCTCAGCATATACATCAGATATTGCTGTTTTAC
ACAAACAAAATTGTTCTTTCCTCCTCTATACAAGCACTCATCGAATAAGTCAAAGCCAGATTGTTTTTGTCGTCTATGTTTTTGCTTTATCCTAAGGCAT
AAAAAGTAGACCTAAATAGTCTTTTTTCACATGAAAATTCAAAAATTTGTTTTAAAAATCATAAACAGCAATGGTTATTATTTTGCCCTACATATTTGTA
TATTTAGGACATAATCATAAGATATCAATTCAAATATATAAAACCTATGATACAATAATTTTAAAATAATATATTGAGAAGGTAAGTGCACCAACAACAT
TCATTGAACAAATACTCACTGAAGTCCTATAATGTCCTAGGTACTGTGTTGGGAGATAAAAAAGTGGAGAAGACAGATACAGTAATTGTCTTCATGAAGC
TTATATTCTCATGAGGAAGACATATAGTAAGTAGGACTGGTAGAGTTGAAAGTAGAAATTGAGTTTGCAGAGCCAAGCCCCCTCCTCTCTCCCTCCTCTT
GAGAGTCAGCCTATCCACAGAAAGCAAGTGTCCTCTTTCTCTTTGTCTCCGTGAGAGGGACTAGCACCCGTGGTGGTAGCCTACAGGGGTCTAGCACAGC
TGGTGAGATCTGAGTAAGTCTGCCTTATTTTCAGGTGCAGTATTCAGAAGCCCACCTGCCCGCAGATATAAGCCACCTTCTCCAGTATCAGCTTTATCAG
AAATAAAGGTATTTTTGTCTGCCATCTTTCTTACTCCTTTATCTTCTCAATTGGTTGAGAATTCAGGCTGGGAGAACAAGTTATTATTTATTATGCCTCC
TAATACCTAAACTAAAAGCAATAAAAGCCTTGCTACTGTCATGTTGTTGACGTTTTTATATTGCAGATTTATAATAAACTCTCCTCTTCCTGAGCTAACT
TTATTGGATGCCAGTTCTTGAATCAAAATATTTATAGAGCACATAATACAGTGCAAATCAGGGCTGGCTGACACAAGGACTCTCCACGTTTCATCCTGCA
GAATAATATCATTGAGGTATACTGTGAACAGAATAGCCTAGGCAGGGCCTTTACCCCAGCAGGTCACAGGCAGATGGCTACAAAAATTAGAGGTTCTAGG
TTTGAAGTCTAAAACCCCCATCTGGGAACTCGCTATGGTAATGGCAACAATGCAACACTGGCACAGGGATAGAAGAGACCCATTTGTATGGGAAATTAAT
ATATGAAAGTAGCAATTTCAAATCAGTGGGGCAAGGATGTATTTCCCAGTGAATGATGTTAGAACAAATGACCATATGAGAAAAGACAGTAATCCCCCAC
TACATACAAAAACATGTTCCAAATGGATGAAGGATTTAAATGCAAATAGTATACTTCTGAGATTTAAATCTAAGGAAACAAAAAAAACAAGATTTTCTGC
ACAATTCCATTCTCTGCAATATTTACTGCAATAGCAAAAGACAGGGACATTCTGGATGATAGGTTAATAAGTAACGCAACTAAATTACAGTGTAGCCATA
TAAGAGAATACTGTGCAACCGTTAAAAAGTGATATAGATCTTTATTTATTGACACAGAAAAAAATGAAATATTATTTAATTGGAAAAGCAGGTTACAGAA
CAGCAATTCTATTTAAAGGGGACAAATAAAACAATGTATTTAAATGGACTCATTTAAATAAAATTATCGAGTTGTGTTAGTATGCATGGAGGTGCCCGGA
TGAACATACATCACAATGTGAACAGTGGTCATCTCCAGATAGTAGAATTTCAGATATGTTTCTTTCCATTTTTCTGACAGTTTGAATTTTCTGTAATAAT
TAATTGACTTTTATACAATGGAAACAACTTTTTTGTTTTGGAAAAAAGAAAGATGCTGCCGCTAATCAGTGGATGAAAGTAAGTGATATAGTTTATTTTA
CATAGACGCTGATGAATATCTTGTTCCCTGCTTAGGTGAACTGGGGCTGGATAGAAAGGCAGTGAGACACAAGGAGAAACACTAAGAATCAGAAGAGTAG
CTCCATATTACATGTAGGACAATGCAGCTCCGACTTTAACATGTGTTACTGTGTGGAAAAGACCTGCATTTTTTATAGAGAGCGCTTATGTCAGAATAGG
AACAAAGCATTTAGGATCTAATACAAAGCTTAAAAATTTAAGAGGACAAACAAAAGCTTCCAGATTTCAAACAATCAGCCAAACTATAAGGAGTGGTGTC
TAGAATTGCTTTGCTTTTCCTGCTGCACATGCATTTTTAATTAAAATAATTGCATGAGAAAGGCAATCTCCATTCTGTTTGGGCTGAAGCTCCCTTTTGG
GCTCTCAAAGGAGTCCCTTTCAAATCATATTCTTTTCCATCCCCAAATATTTTTCAATTATCCAAGCCTAAGGGCTTTCAGGTTGCTAACCATCTAAAAA
TATGTCAAGCAACTTTAAAAAGTAAATTGTGGTGAGTATGACTCATTTAAGGATGAAAAATCTAAGTGGACATCAAGATTTTTTTTTCCAAATTTGATTT
TAGGAAGCAATTTCAACACTTTTTTAAAAAGATTCAGGAAACAGTTATCCCCCCTTTCCTCTACTTTTGCAGTGTGGATGCTCCTTTCCCTGGTTATACA
ATTAAACCTCGTTGCTCCTATCCTAAATATCATAAAATCTGAATTAGAGAAGTCTGGTCAATGAAGTTTTATTGAATTCAAAATGCCTATCTTTTACTAC
TTGAAGCAAAAAACATACTTTCAGCCTTTGGGGAAAAAAAAATCAGAAACCAAGGAAACCACTGACCTTTTACTTATTATAACCTTTTATTTGTTTTTTT
GCTAAGTAGTGTAAATGCTAGACTGAGACTTTACATATAAATTAATGTCTGTAGAGGATTTTTTAAAAAACTGAAGCAGTACTTCTGAGAGTTGACACAA
TCCAGATGATTTTTTAGGGCATTACATAATCACAAACACCTGGAGAAYTGCCGTGGGTGGCTGACGAATTGTGAGTGTTATGTTTAAACTCAAGAGTTGC
ATGTGTCTAATTAAGTAAGAAATTTGTAATCTGAAACAGGTGTTTTCTTAAAGCACTTGACGTGCTTCTTGGTCCTGCTTCCTCTTTTCCTCCTTCTAAT
TCTTTCCGTGGGTCTTTACTAAATATTTTTGCTTCCTTGTCAGTTCTTATTTCCTTGTGTGTTTGTGTTTGGGGGCAGAAAGACAAAACACACAATAGTG
ATGAAAGAAAAGTGTCACTTGCCATGTGAAGTTTAGGAAAGGTGTACCTCAAGGAGCTATAAATTAATTCTGAAGAATTACAACGCAAGAGATAATATAG
TTTGTTGTTTCTTTCTGGCTGGTATTTAGAAGGCAGAGTCTGAGTACCTCATTCAGTGTTTGGGAATAAGATGCAAGACCTGTTCTTTAAAGCAAAATGT
TTATATTACAGGGAAAACTATGTTTTCCTTTAATTTCCATTTGCTTTAAAATGGTGGCTGTTTTTTTTTTTTTTTTTTTTTTGGCTACTAGTGGCTTGGT
AGGAAAAAGAGAAAAACAAAACAAAACACGAGTTGAGGTCATGGCTGATGAGAGATGCCAGCAAGGAACATATTGCATAATAGAAGCTGCTAACTGGTCT
TCAAGGATGTCTGAATCCATACAATTAAGGACTCAAGTTATTTTACAAAAATGTTTTCATGACTTGAGTAGAAACCGGGAAAATCACCCAATTGACTAAA
TTGACTCACCCAATCCCAACCCCACATACGCACCTTCACAAGTTCCAAAAGGTGGTTTTAACAAAAAGGAAAAGATAACCAACACGGTTCAGGTATTCGG
CCAATGGATAAATCCGAGTATTTTAAAGCTCTACCAGGTCCTGCCTTACATTTCCCTGCCACCACCCTGCAGAAGCACCAGTGCTTCAGAGACTCCCGCC
ACTCTGCCCCCTGCAGGTGTGGCCCTGCCTCCAAAAACTACACCGGCTTTGGGGCTCTGGTGCAAACCTCAGGTTTGCCATTTACCAGGTTTGGTATGCA
GGGTGAAGTCCCTTCACTTCTTGGAGGCTCAGTCTCCTCATGTACAGCATAGACCTGGGAGGTGAGCTCTCCGAGAGTGGTAAGGACTAAGTGAGTAATG
TGTGCAAAGCACCTGGCCCATAACAGGTGATGGGTAAGTCCTAGAGTTGGCACAGCCACCACAGCTCCGTGGGCAGAGATCCCATTCGTGGATCTTCATT
CACGCTTCCTGGAATAGTTCCCCCTACCCCCTCCAACAGTCTCATAGTTCACCTCCTCGCTTCACTCAGGCCTCTGTTCAAATGTTACTGCCTAAGAAAG
GCCACCTCCAACCAGCCCATCTGGTCTAATTTATCAATCAATTCTGTATCCTCCAACCATGGTTTGTTTCTTCTTCCTAGCTTTTTCACCATGGGACACT
ATATTATGTAATTATTTGTTATTCATTTATTGTCTGTCTTCATTAAGAGAATGTAAGCCCCATGAAGGCAGGGACTTTTTTAACTTAGCTACTATGGTGC
CTAGCATACAGCTGGCACTGAAGATTTGTTCAATGAATGAATGAATTGATCAATCAATCGATGGATGGATGGATGAATAGCATCTTATATTTGCATAGCA
TTTCAGCATTTACAAAGCATCTGATCCTGGAAATATGTGATCACCTATATATTACTGATGAAAACATCGTGGCTTAGTGAGATTAAGGTTACAGTTAACA
ATAGCAGAACAAAGATCTAAAACAACATTATCTGTCCCTGAGAATAAAACTACTTTCACTCCCCCACCCCCATGCTGCCTCACAAATGCTGACGGCATAT
TGCCAGTAACGTATGTGCTGGGAGCACAGGGCTTGTCTCAGAGGAGAAATCCCATGACAATTGCAATAGGAGCCAGAACTGCAGGGATTTCACACAGGTA
ACAAGGGGACTTTGCCAACTTCAATGGCTTCAGGCAAACTGGCTATTTCAGGCAAAGAAAGGGTCCTACTGCTAATATACACAAAGCTGAAAATAGGCCT
CATGATTTCTGAGTGAAGGGAGTAGGTTTATGGAAGATCCCAAAGCTACAGGATCCTGAGATGAGGTGATCATGAAATCCTTCTTTGGTGTGGGTATCAA
AGAGTTCTACCTACCATCTAACTACAAAGAAAAGAACAACTGACTTATTTGTCTCTTATTTTTTTACGTTGTTCCCATTCTCAAGTCTCCCAAACCTATT
TTTTTCTTTCACTCTGATTAAAATTTCTGACATGGACATCAAGGTTCTATGATAATCATATTCCCAAACCTAACTACTCAAAAGAGCTGAATTACAAACT
CCCTCAGAAACTTCCAGCTGCTTCTAGAACCCCAGGACCAGGCATGCCCCTTCTCCTTCAAACCCAGATCAGGAATAAATGTTTTGGGGAATCTCTTCAG
ACAAGCTATGCCTGGGTCGCCATGTAATCAGCAGCCCAACTTCTTAACTGGCACCACCTACATCTGGCAAAACTGTGCTCAAGATGTTCATTTCCATTGT
TTTAATTTCCATGTTATACTGAAGGGGCCTGAAGGGAATGGTTTGCTAACTTCTATGACTACCCAAATTTCCACATAAACGGGTAGTCGGAACTATTGTT
GCTTAAGAGAGCCCTCTGCTGACACAAATTATGTGTGCTCATTCTTTTCCTAAAATCAAACCTCACCAAACCAGACCTATGTCTCGCCAACAGATCCACT
GATTACTAAATATGTCTTGTAGCACATGCATGGCGTCTCTGCTTAAAGACTGTGTGTCACTGTGGCAGGCTGCCATCTAGTCATTAAGGGATCAGCTATG
TTGTGGCATAGAGGGAAGTTCTTCTGCTTAGTACAGTCTCCAGTTAAAAGTTGTTAAGGCAGATGCCTAAGAATGAAGTGCCTGAAAACACTTGTTTGCA
CATATGGTCTTGGGCAGGTTTGGGACTCACAGGGGTCTTACAGAGGAAGAGGTTTCAGAGACTCATGTCGATTTTCCTTTTAATATTTTGTTAAAATTTC
ATTATAACAATATTTAATTAAGCAGCTGACACCTTTTTATGGGTACGTTATTATTATGATTCCCTGATTCAATTCACTGTAGATTTAATTTCTCAAACTT
TGAGTGAGTGTGATCATTGAACTTGATGTTATTGGGCCCCAGGCCCCAGGATTTTGGACATCAAGAAGCAATAAAACATTTTAAAATAAAGGGGTCTGAG
AGAGGGATGCCAATTTTTTGCCTTCCTTAGTCTTTTAAAAATAAAAGTTAAATTTTGGAATAATTTTTAAGTTTACATAACAATTGTAAAGATAGTATGG
AGAGTCCACCCAGCTTCTCCTGCCATTAACATATTATATAACCTCAGAACATTTGCCAAGACTAAGAAACCAATGTTGATACACTGCCATTAACTAAAGT
ATATCACTTATGTGGCTTTCACCAGTTTTTCTATGAATATCCATTTTTGGTTCAGGATCCATGTCATCATGTCCCCTTGGTTTCTTCCATCTGTGACAGT
TTCTCACTCTTTCCTTGTTTTTCATGAGCTTGATAATTTTGAAGAGTACTGGTGAAGTATTTTATAGAATACTCCTCAATGGTGGGTGGKGGTGCCAACT
TTTAAATTCAGATTGTGAAAGGTAAAAATTATCTACTATGGTCATCATTTCATAAAAGAAAGGCCATTCTAACAACCAAAAAAAGGAAGAATAGCAATAT
CTGAATAAAGAACAGTCTTTTAAATAAAATAAATTTATCTCTAGGAAAAGGCCCACTACTTTGCTAATCATTCCTCCCTCCCCTTTCTTTTTCTTTCTTT
CGTTCTGGCCCACCCAAGATAAAATGTCATTACAAACTCACAAACAGGAAGTCAGGAATCACCTAGAAGGAACACAGTGGTCATTGCTTCCATACCTTCA
GGGAGCTACCACTCTAGCAGAAGATAAACCACTAAAATATGCAGACAAGAGAAATGAAAGCTAAAGAGAAGTACAAGCAAATCTAGAAGAAAGATTGATT
GTGACAAAGATTCCAGAGGAATGAGGGAGTAATTCGTGGAGGAGGAATCCTCCCAGGTGGGTCTTAAAAAGAAGAAATTTGGGGGAAAAAATTAAGGTAG
GGTGGGGAGAAAAGGTATACAGAAAGAGGGAAAAATTAGGTTGTAGTAAGTTATAAGCGACTGAAACATGAATTTATTATCATGTTACTACTAGATCATG
AACAGTGTTGCAGCTATAAGAAGTAAGGTAAATGATTGTCCTTAAATAGCCAGGTACAATCAACCTAACCCATTTCCTCATTATACTGGAAGTTCAGAGG
ACAAGTGAGAGCACTATTTTGGACTTACAGATAGGAAAATTCAGATCCCTGGACCATGAAAGCATAGGTCCCACAGTAAGTGAGTGGCAGAAGGAGTATG
GGGTGTTTATTCATAGTTTTATGGTCTATGTCACCTGCACAATCTCATTTCTAATGGTATTAAAAATCTTTTAATCATCTGAATGTGTCAAAGTATTGAG
AAAATATCAGATATATAGAAAGGGAACTTTGTTCCAGAAGGAGTGGTAGCAAAAAAGAGTGGACAAATGTGGGCCTGGGATCATATGGGCCCACCAAATC
TTGCTCTGTATGGCCTGTGTGAACTTCGCAAGTCACCGCCTCCCTGAACCTTAGTTTCCTCATGTGTAAAATGGGGGAGATAACAATTTTTACTTTTCAA
GATTGTTTTGAGGCTTACAGGTAACGTATCAACATATGAAGCTTCTCATATATCAGTAGTTAATACTGTTGCATGGCAAATTTCCTTCAAGTTTAATCCY
GTGTAGTCAGGCCTGTGATTCTAAGAGTCTGTTGATTGGATGACTCTGAAGCAGCTTTGTTAATAGTGTGGACAATTTGCATGAAGCTTTTTATCATTTA
ATGATCTATGTTAATTTACTTTGGACTTATTTCTCGTTTCACTTGAAAAGCTTTATTTTATATTTGGTGATATAAAATAATGTTTTAATGATTGGCTTAT
AGTCTTTATTACATTTCCCCCCACTCAATTTTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTGCCCAG
GCTGGAGTGCAATGGTGTGATCTCAGCTCACTGCAACCTCCACCTCCTGAGTTCAAGCGAATCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGC
GCCCACCACCACGCCCAGCTAATTTTTTGTATTTTCAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCA
CCTGCCTTAGCCTCCAAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCGCACCCCGGCCCCCCACCCCCCCAACACTCAATTTTTCTACTTAA
AAACTCTTGGAATGTAGCCTTTAAGACATGAATGGTTTTTGTTTGTAATTGCAATGTGGTGTGGGTAGGATGTATAGGGAAATTTGTTGGGAATTTATTT
GGACTACTTTCAAAGAATATTTCAGTTAAATTTCTACTCTCCCTCATGTGACCTACGCTTGTTAACACAGACGAGGCTTTAATTCTTTGCTGTGGGAAGT
GGCCTGTGCACTGTAGGAGGTTTGGCAGCATCCCTGGCCTCTACCCACTAGATGGCAGTAGCACTCCCCAGTTGTGACACTCAGAAATGACTACAGAAAT
TGCAAATGAGTCACTTCTTGGGCTTTTGGCTAAGATCAAATGTAGAAATTGCCATATGACCCAGATGGACAAATCACCTCCAGTTGAGAACCACTGACAT
AGACAGCACTCCACAAAAAGCAGAACTTTTAGGCTAAAGATGGTTTTATTTTAACGTGATTGTGTTAAGTTGACAGTTTCAGGATGTGAAATATTGTTCA
TTCATCTATAGCTAGAGATCAAGCTTGGGCTTCGAAGCTTGGGCCTTCCCCAATAATGGCCCAACCTAAAATTTTAGACCCTATAATACTCCTCCACCTC
CCATCCTTCCACATCCCATTTGTAAGCCCGATTAGATGACTCACTGTTTCTACTATATCCCCATACCGCGACTTTCACCTTTACCTCCACTATCCAGAGA
GTCAAATCTTACTTATTGGTTAAGGCCTTACTAAATGGGCAAATTTTCCCTGAAGCCCTCCCAGATCCTTCTGTTAGAAGGGAYAGCTTCTGCCTCAAAA
CATGAAACTTCTTCAACTATACCCATCTTGTTCCTCCTTAATTATTTTCTAACTTTCATGCAATTTGAAAGTCCTCTGCCTCCACTTCTAAACTCATGAG
TGCACTCACTATTTTAATATCCTTTCAGCTAGGCAAYGTGTTGTGGAGGAGAAAGTTATGCTTTTGATTTAAGGCACTCCTAAATCTCATGCGCCCCTCT
AATGGTGCACAGATGTTTTCTAGAGAAAGTCCTCATCCCCATTACACAATGGCATATATTATTAGCTTATCTGGTTGACAGGAATAGAACACAGGTAAGG
TTCACTTTATCTGGAGAGGGCAAACCCAAGTAGGAGGCCTCAGCAAGAGTTCCTGGAGAACAAGTGATCATCAGGACCTTCACTAACCATGAGGGCACAG
TTCATCTTTAAATATCTGAATGGCTGGTATGCGAAGAAGAAATTTTGAAAACATGAATTTCTTAAATAATTAACAAATACAACTGAACATTCTAAAGGTA
CAAAGAGAAAAAAAGGGTTCAGCGAAAACCAATAATCTTGTCCACAACTTTCCCTTGTCACCCGCTAACCTTCCCTAGAGGTCACATTACAAGTTTCTTG
GGGATCCTTTCAGAGATAATCCAGGCAAGTCTATGAATAAAGGTGTAAATGGAAACAACCCAAGTGTCCACCAATGGATGACCGGATAACAAAATGTGGT
CTATCCATACAATAGAATATCCATACGATACAATAGAATATTAGTCAGGCATATAAAGAAATATATATGCTACAAACTGAATGAACCTTGAAAACATTAT
GCTAAGTGAAAGAGACCAACCACAAAAGGCCACATACCATATGATTCCTTTTATATAAAATAGTCAGAATAGACAAATAAATAGAGACAGAAAGTGTGGT
TCCTAGGAGCTGGAGGAAGGAAGAATGAGAAAAGACTGATAATGAGTTCAGGTTTACTTTCTGGGCTGATGAAAGTGTTCTGGAATCAGCAGTGATGGTT
GTGYAATCCTATAAGTACATAAACCACTACTTTTTAAAAAGCTTTGTAAATACATATTTGTACCTGTTATGATGTGTTCATTTTCTCTTTAAACACCATC
TTCTTTGGGTACTATAACATGTATTTTGTAATTTTATTTTATTTGCATCAGGATAGTCTGTAGAAATAATCATTCATTATAATAATCCATCTTCCCCACA
ATAAACTTGGCAATAAGCCATTTAAAAAAGAAAAAAGGCATAGTTTTTGCTTTTTATATAAATGCTACACTATGCCACAAGAATTGTGCACCTTGCCTCT
GTCACTTTCCAAATATCATCAAGATTGTTCTATATTAGGACCTATCAAGCCATGTCATTCTCCTTAATGACTGCATGGTAAGCCATGCTATTGGACACAT
ATATTTAAAGTACTGGTTCTCAGCCAGGGGTGATTTTGCCCTCTCTCACACCCCCAGAGGACAGTTGACAATGTCTGGAGACTTTTTTTTATTGTCACAA
CTGGGTGTAGGCAGATGCAATTGGCACCGAGTGGGTAGAGGCCAAGGACGTTGCTAAACATCCTGCAATGCGTGGAACAGCCCCCCCATAGCAAAGAATT
ATGCATCCAAAAAGTCACTAGTTGTGGAGGTTAAAAAAAACAATCTAAACAGTTTATGATTGACGAATATTTAAATTGGCTACAATATTTGTCTTTATAG
ATAATGCTGCATAACATTCCATCTTTCAAATATATAATTTTCTTATAGATAATTTCTAGATATATAATTATTCCTCTACTATTTTGAATACTTTTTTATT
TTTATTTATTTATTTATTTATCTATTTTTGAGACAGAGTCTTGCTCGTTGCCCAGGGTGGAGTGCAATGGCGCAATCTTGGCTCACTGCAACCTCCGCCT
CCCAGGTTCAAACGATTCTCCTGCCTCAGCTTCCCAAGTAACTGGGATTACAGGCGCCTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTGGAGACA
AGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACCGC
GCCCAGCCTCTGTTTTTTATTTTTTAAAAACTGTACCAGAATAAACATTTGTTAATAAGCCTTTCTTCTTACTTTGGATTTTTCCCATAAATAGAGTCAT
AGAAGTAGGGTTACTGGGTTAAAGGAGAATAACTTTTTTCTAGGGAATTATATCGGGTTCTTACTGCCATTATGAATACGATGCTTTCCCCTGTTAAAAG
AAAACTTCGGACAAATTAAATTTAACAGAGTTTAACGGACCAAGAAAAAAAAATGATTAGCAGATCTGGCAGTCTCCAGAATCACAGCAGATTCAGAGAG
ACTCCAGGGATGCCACGTKGTCAGAACAAATTTATAGACAACAAAAGGAAAGTGACATACAGAAATCAGAAGTGAGGTACAGAAACAGCTGGACTGGTTC
AAACAAGTGTTTGCCTTGTTTGAACACTCAGCAGTGTATGAGTGGTTGAAGTATGGCTGCTGGGATTAGCCAAGACCCAGCTATTGTTACAGGCACATAC
TTCTAAGTTAGGTTTTCAATATTGTCTATCTATTAATTTAGGTTATGGTGCGTCCACAAGGACTCAAATATAGAAATACAGAGTCCTTCTCAAGCCATAT
TTAGTTTGCTTTAACACCACCATTACATCTGATTATTGCTTTTAAGCAGGAGAATTATTGATTTTTCATAGTTATTTTATATCCAGCCATTTACTAATAG
GTTTTGGTTGACATTCTTAGTACAGTGGTGCCAAGGGGTGTCTTGAGAGTAGAGGTGGCTTTAGCTTCCTTCTTATATCTGTTACCTTCACTCTCAAATC
ATGCCAAATGAATATATATGCTAAGATTTGTGTGCTTCACTGTAATCACAACTTCAGGACAAATCCTGAGCCTTCCTCCCTCCTCCAGTCATATCAACAA
CCAAAGCCACATTAAGCCACTGTGAGTTTCATTCTTATTTTATTACCTACAAATAATTTTTCTCCTCCTTTCCAACACTGTAACTCTTACTTATTAATAG
CTTCAAAGTTTCCAGAACCATATTAAACTGTGATGGTACTGGTAGACAGTCTTGTCTTCTTTCTCATATTAATAGGAATATAGCTAATATCTCAGTGTTA
AATATAACAAAAGATGCTCCCTGAACAATAGAGAGTCTTTATGATATTGAAAAAGTATCCTTTCCCGGTTTTCCAAAATGGATGTTGAATTTAATCAAGT
TTTTTTTTTCAGCCTTGATGGTAGGGTTTGCTTTTGAAAGTGGTGCACAGCAAGCTAGAAAAAAAAAACAGGCTATGTGGGAGGTGGGAGGTTTGAATCG
GGTCATAAGTTTTAGGTGTGAATCACCAGGACCTTTCCCTTCCTCTCCTGGGTATTGTTCAGGCATTGCACGCAAACACTGTCGGCTACCAACAAGTAAT
TATGAGCGTGGCTTTTCTGATGGACACACCCTTGGAAACAGGGTGGTTTTGTTCTCGTGAACAAAATCAAAGAACTTGCTGAGGCTTGTAGTGAAAAAAT
TTTAAAAACACTTCTCAGCCTAACTGAGAACACAGTAGACAAGGCCATCCTAAAATGTCCCTGAAAAGCAGGCAGGATGGTTTTCTCCTAATAGTTCCTA
AGTTTAATTAAACAGGAGTGACCAGTCATCTCAGTTTGCTAAGGACTGAGAGGTTCCTGGGGACAGGAGCCTTTCAGTGCTAAAACCTGAAAAGTCCAGA
GGCTATCATTTAAGGATGATTTCAAAAGGCACAACACATGTTTCTTCCTAAGGTAGGTGAGAGGTTCATCAACGGAGTCCGATCTATAAGTACCTCCTTT
TTCGAGCTAAACTTTAGCGGGACTTTCCCATGTCTCTGATTGTTCTTTGTTTCTGATAACTGAAGTTGCCCTAAACAAATCACAATATCAGGCCTGACCA
GAAACAGGGTAAATGCAGAAGTATTTCACCTTTTACCACTCAGGCCTTTTGAAAAACAATCCTCCCCAGAAAACAAACTCCTGGTAGGAAAAACTGAATG
CATTTCTCCTTTTGTGTTGTGACCACCAGCTGTGCCTCTTCCCTAGAGTACGCCTTCTCAATTTTCAGGCAAATTTTTAATAGAAAATATATAGCTATTC
AAACCTAAGAGTTAAGTTTAAAAATGGCTTAGCCATTAACCCAGTAAAATTGGGTTCTCTCTCTTACTTATCTCATAGAATCGTATTTCTGATTTGGAAG
ATCTAGACCAGCATTTCTCAAATTTTAATGTGTATATCAATCATTTGATGATGTAGAAATGTAGATTCTGATCCAGAGCTCTGAAGTGGAGACTGAGGCT
ACAAATGATAACACTGCTGGTTCATGGGTCACACCTGAGATAATGAGAATTTTATAGAATAATATTTTCCACATTTCTTTGATCATGTATCACTACCAGT
TAAAATAAATGTGAGTGTGCACTCAAAATATGTATATTAGTTACATTTTATACTCATGTGTTAGTAAAATTTCATTTTTATTAAAAAATAAATAAATGGG
AGCTCCAGCACATCACTATTTTGAGGACCTTGATCCTGATAACACATCAAGTATGTGACCATTCAGTACATGCTTATGTTGTTCCAGTGCATGCTTATAT
TAGTTATTCTATCTTTGCATAACTAATTGTTACAAAGTTCTTCCTTCTATTTTGTATCTATGCTTTGTATTCAAAAGTTTACCTCTGAAGGCATACAAAA
CAAGCCCAATCCCTCTTAACACTATTGCAATTCCTATCACTGAAAATGATCTGACTTCCTTAATATATGAAGACCTTCTATAAAATAATAAAAAGAATAC
CAGCAACCCAGCAGGAAAAAAAAAATCCAAGAATATTAAATATGTATGGTGAATGAATGTTTTAAAATGAAAACAAAATCAATCTCGCTCAAATAAGAGA
AATATAAATTAAAACTATCATAAAGCATTATTTTTCACTTGTAAAAATGGCAAAGGTCAGAAAAGTCGAATAAATACATTTATGTTGCTGATGTTGAGGG
AAAACAGGAACCTTCAGAACACATCACTGTGGTGATATCAGTTGGTACAACCATCATGGCAGATGCTTAATGAGGCCATTAAAATTAGTTTTTTAAATAA
TATTTTTTAAATGCTTATAGTATAATACTAAGCTAACAAAAAGATGCAAAACATAGTGTGGTACCAGAAAAAAAGTACTGAATGAAAATATATCAAAATA
AAAACAATAGCTATTTCTGGATGGTGAGCTAACATCACAGGTGATTCTAAATTTGTTCTTTATCCTAGTCAGCATTTTCAAAATGTACAAGCCTGTATAA
TTTAGAAAATGCTCCAGGGAGGTGATGAGAGAGTACAAGTGGGGCTGGCTTTAAATTTCAGCCTTTTAAAGCTCACATTAAGAGATAATGGCTTACCACT
TGAGTCTCTGGCTTACCTACACTCCTGAGGAAAACTGATACAGTTGATTCTCATCATTTTTATAGAAAAAATGTTCTATATAGTTGCCATGATCACTGAA
TTAGAGAATACTAGACCATTGCTCCTAGGATAAATACAGGATTGTGTTCCTGCAAGCCTCTGGTCACAATATTTTGCTCAGTTGATCAATACATGACTTT
GTTTTATGTTTATTTCTCTTTAAAGACACCTTATTTAACAAATATTGTTGATTAATTAACATTGAACTCTAGGCCAAGAGTGTTACAACTCATACCTGAA
TAAAGTTTATCTAAGACAGATATTTTCTCCGTAAGGCACATTTCAGCCTTCTTACACTTAGGAACACTAGACAGCATTAGTGTATTGTGTGTGGGAGCCA
TTTTAAACAGTGAAATTACCCACACAAAGCACAAAAGGTGGACAAAGTGGCACTAAATACACTGTGAAAGGTCACTTTCTTGTGAAACAAGAAAAAAAGA
GCATCGCTTCATTCAACCTCAGCTGGGAATGTGTGCATTGGGCAGCTCAAATTTTTTGCCACTCTACACATGCCCACAAATTACTACAAAAGCACCACAG
GTACTGATTTGGGGGTTACAAATGAATTTTAGSAAGTAAATGAACTGACAAATAATTACAGTTACAGTTTTAAAGAAAATTCTTAAAAGAGCCAAACAYT
AATATTCTACAGCTGCACTCCTTGAGGGAGTTGCTTAAAGCTGAGTACCTTATAATTTATAAAGTATTCCCCCCCCCCMAGAAAGCATTTTCCATAATGG
AAATCAAAGTAATATATTTAATCATTCATTTTATTTAATATATTCATTGTCTTCAACTTTTTATTATCCAATTAAATTCAGCCAGTAGTTACTATCTCCA
CAYAGAGAACACAGAGAATGATCTCAGCTGAAGCAATTTATGATCCTCTTGGGTATGTGAGGGGAGGTTGAGGCAATCCCCAATTCTAATGCAAGACAGA
TAGAATACAATCAAGGTCATCAAAAAGGCATAATGTGCATGAGACTGGTAAAAATATAATGCGATGAGGACCAAATGAAGGAGAAAGTGCATCCTCTTGG
GATTGTCTGCAAAATTTGATGGAGCTGGTGATATCCGAAAAGACCTTGAAGGATTAGTAAGGTGGTAAGTGGAGCTATGGGATGGAGCACACAAGAAGTA
GCTCGAGCAGGAGCACAGAGTGGAGACATCTTCCAGGAACAGGGTCAGAATCCAGTATGAGTGTAGGGTAGGTGAAAGGAATGGCTTCCATTATTGCTGC
AAAGCAAGCCACAGCGCCTTCAACGTGTTAGCAGAGAAGGGAACTGGAAGGCGAATGGCTAAAYGAGGAAGGGAAAAGAGTCCAACTACCCTGATCCTAC
TTCCAGAAACTTCTTGGTTCATTATCCCTTTACACTGTGGTGGTGCCCTTTCCCAAACATCTTTAACCTCCTTAACTAGACTGCATATGAGGCAAGCAGG
GATCATGCCTCACCCTTCTTTAGCCTCCCTCCCTCTGCCTTCTGCTCACACTTCCCAACACACAACACACCCTAACATACAAAAGATCACCCTACACCAA
CGCCTGCATATCGCCAGCCTTCAATAAATATTTACTCATTCACTAATTGGGTTTATAAACACACTGAGCCTTTAACAAGCCCTGGTCTCTTCCCTACTAA
TGCAGGTTGTTCTGGTGAGTAGATGGTTAAACATTGTAACTAGGAAGTAACGATCCCTGAGCTTCCACAGAATATATGTGTGTGGACAATGAGAATCTTT
GAAAGTGCCACAATATTATGTTACACATTTTATTTCTGTATCTAACTAAAGCTGAATATTAAGTGTTCAGTAGAATCTCTAAATTTTGCAATTAAACTAG
TAAATGTATATGTATGTCCTTAAAATCCTAATTTTTAGGCTATGTTATATTTGGGCCCCTTGATTCTATAATTCCTTAGAAGTTAGTATAAATACTCTTG
TAGTTCTTAGATTGTTTTTTGGAGTTTATAATATTACAGGAGGTTACACACATCTGAACATTCTTGGATAGAAACAAGATAGAAACAGGTTTTTTTCTTT
CTTTTTTTTTTTTTCTAAGACAAGGTCTCACTCTGTTGCCCAGAATGGAGCGTAGTGACATGATTAGAAACAGGTTTTCTATATAAAAAAGTATTTTAAT
CACAAATAGTTTATTCTATCCCCAATGAATTATTTTAATTACAAAAATATTTTAATAAGCCAACTTATTAACTGCACAAATAGGAATGTTTTTGGTGGCA
TAAATTCAAAGAATACTAAAAACAGTAAATATTTAAATTTGAGTATATCTTATGTAAAATAGCCTGCAACTTATAAATGAATTTTTAGCCTATTATTTAT
TGCTTTTAAAATTGAATTTTCTATTAGAAGAAAGAGGTATGTTTCAAAATACACACTTCTGCAGTCAAATTATTGTACTTACTGTTTCAAAACCTCGATG
TGGATGATCAGGAAATCCTCCTGGTCTACCTCCTTTAAATTCATCAAACAGTAAAAACGGATCCAGATTTTTTAACTGAAATAAAAATAAAATTTGCWGA
TTAGATATGTCTTTTAAGCCATACTACCAGGGGCTACATTTATGAACAGATCTAGCAAGCCTCATTGAAAACTACATAGCCAATGGGCAACTTTTTACAA
TGAAAATTGCTTTCAGGAAGAACTTCTTATACACACTGATATGGTTTGGCTCCGTGTCCCCACCCAAATCTCATCTTGTAGCTCCCATAATTCCCGTGTG
TTGTGGGAGCAACTCAGTGGGAGATGACTGAATCATGGGGACAGGTCTTTCCTGTGCTGTTCTTGTGATAGTGAATGGGTCTCACGAGATCTGATGGTTT
TAAAAATGGGAGTTTCTCGGCACAAACTCTTTTTTTTTGCCTGCTGCCATCCATATAAGATGTGACTTGCTCCTCCTTGCCTTCCACCATGAATGTGAGG
CCTCCCCAGCCACATGGAGCTGTTTGAGTCCAGTTAAACCTCTTTCTTTTGTAAATTGCCCAGTTTCAGGTATGTCCTTATCAGCAGCATGAAAATGGAC
TAATACACACACACACACAAGGATTTACGGATTGTGTTAGAGAGTTGTCATTTTATGAGAAGCGCAAAGAGTGGACAAACATTTCATAATCATCTAAGAT
ATAAATAGTCAAGTATAAACAAGATGTATTCTGTATCCTAAACAGATTCATAATCTTACAGGGGAACAGACTAGAAAATCAATTATTGCAACAAGATGAT
AAATGCTTTGGAGGAAGACAATTTTACACATATGAGAGTGGGAAGGGATCAAAGAAGGTCAGAAAACTCAGGAATATGGCACTTAATCTCTGTCTTGAAG
TACATGGTTGAGTTAATCAAGTAGATGGGAGAAAAAGAGAAGGAAAGATATTCCAGGTAGAAAAGCAGAAAAACAGCTTGGCATGCTTGAAGAACTAAGG
GATACTAATCTGTTGGGGCAAAAGATGCATATGGAATTATGAGATACATGGGCAGACGATGGAGGACAAGTCCTAAATGAGTTTGGATTTTATCCTGAAG
GTGATGGGAGTTTTCATCAGAGTTTGATATGATCAGATTTAGAAGGATCACTCTGTGGTAAAGGAAGACAGGAAACAAAGAATATCTAGAAGGTTATCTC
AAATAGTCTGAGCAAAGGCAAAGGCCAGAACTAAGGCAATGGCAGTAGTGATGGAGAGTGGTTGAGTGACTGGGTAGATATTTATGAGACAAAAAGGAAG
AGCATTAACTGACTCCCAAATTTTTAACTATGGTATCTGGGAAGATGGTAGGGCCATTCAGCACTTAAAGAACATAATAGAAGAAGCTGCCTTGAAATAG
CTATGATGACTTCATTTTAGGTCATACTGAATTTGATATATCCATATAAATGTTATCTGTATAAATAGAACTATTAAGTGCACATTATATTATGCAAAGG
CTAGCAGACAACTAAAGATCAATCTCAAGCTCAAATGAGAGGTAGAAACATATCTGGTTGTCATCAACATATGTTTGTGATTGTCTTGCTTATTCTTGAC
CATGTTATTTTATATAAATTTTAGGAAATTTATCAAATTCTATGAAGAAAAATTTTGAACATTTGATTGGAATTAGTTTTAATCTATGGATCAAATTGTG
AAGAACTGACATTTATATAATATTTAGTTTTCCTCAATGTTTCCTCAATAGAACCATGGTTATCCCCATTTATTTAGGTCTTTAAACATATTTCAATAAG
GATTTGCAATTCTCTCCATAAAGGTCTTACATATTTTTAAAAATTATTTTTCTAGCTAACTTGTATTTTTAATGGAATTCTACTGCAAACAGCATTTACA
CATTATATTTTGAACAGTTTGCTGCTGGAAATTAGACATGCGCTAGGCAATTTTTGAACCCTGCTAAGCTCTTATTAATTTTAATGATTCATCTGTAGCT
TCTTTTGGGTTTTCTTTGTAGATGTTCATATCACCAGTGTATTTATCAATAAACTTTTGCTTAATAGTTCACACACAAAAAAATTGTCTTGCATTGGATT
AAAGCCGTGGCAGACTGCAATTTCTCTGGGTTTTTATGGGCCTGGCTGGCCTTGACATGTCTTCTCACTCTGGGATTCAAGCTGAAACAGCGGCCACTAT
GGAGGGCATTATGTTCTCATAGCCAAGGTCAGGAGCAAAAAGCAAGGCAAGTCAACCATTCACAATCACATTAACACATCCCATTGGTCAAAGCATGTGA
CATGGCCAAGCCCAAAGTCAGGGAGGAGGGCACTTAATCGCTCCCTATGTGTCTCATGGGTAATGTACCTAAAAATGGATGCGGGTGTAAAATCCTATTA
TAGAGAAGGAATGAATATTTGGTAGTAACATTTCGACCAACAACCATTAGCAAATAAGAAGGGATTTTTTTTTCATTTTCAATCGTTATATTTTCCATTT
CTTTTTCTTGTATTTTTACAAGCGAGCATCTCTACAACAGTCTTGAGTAGAAATGGTGGTGGTAGACATCCTTGTCTTCTCCCTGATTTTACATAGATTG
CTTTATAAAGTTTTATTGGTAATCTGGTTGTTTAATGCAGGTGTTTTATAGATTCCCTTCATAAGGTTAAAGAGTTTCCCTTCTACTTCTAGTTTACAAA
GTTGTTGTTTTTTAAACATGAATGGATGTTGAATTGTCGAATGTCTTCTCCACACCATTGAGACACTTATATGATTTTTTCTCCTTTAACCTCTTAATGT
TAATAAAATACACAAATAGATTTTCTAACATTAAACCAAATTTGCTCTCCTCAGATAATCCAAATTTGGTCATGATATATTATCTTTTAATACATTGTTG
AATTTGGTTGGTTAATTTTCTATGATTCTTGCAAACATTCTCATAAATGTGATGTAATTATTCTTTCACTGGCTGTCCTCGTCTGGTCCTGATAGCAAGG
TAATGTCAGCTTCATGAAGTGATTTGAGGAGCACTTCCTTGGATTTTATCCCCTGGAGAGTTTGTGCATTATTAGAATTACTTACACCTTAAATATTTTG
TAAAATTTGTCTATAAAATCTTCTGGTCCTGCTGTCTTTGTTATAAACTTTTAAAGTATTCATTCGATTACCATTATGGCTATGAAACTATTCAGATTTT
CCATTTTTTCTTTCTTTCTTATTGTTTTATACTCTAAGAGTTTCAGCAACCTCTTGGCAGCTCAGCTAATTAATTTTAAGTTATTTATCTCAGGATGTCT
ACTCTGTCATATTACTAGAAATTAAAGTATGAAACTTTCTCATTCTCCGGTTTTATCTTTATTTTAACTTTCTATGAAAAAAACATGCACACATATATAC
ATAACATATACATTATACATATATATATAAATTCAACAAGCTACTGCAAGTTTTTTAACCTAACCAATTCTCAATTTCTTCATTTGAAAATGTGGACTGC
AACCCATATAAAGCTGGGGCACTTTGTAGCCTATCTCAACCTGGTGTTTCATCCAGTCCAATATTTAAAAGTAATTGAAAATAAATTCAAATTATTTATT
GAATCCTCTCAAAAACACCAAAAGAGGCTTCAATTTAAAGATATGCTTAAAATCCCTCTTACCCCTCTCCATGTATATATCTGTCTCCCATGATTCCATT
TTCTCTCACTCTAACTCTTCAAATCACTTCAAACCATCWGAAGACACCTCTTTCCTTTTCTCCTCTCCTCTCACCTTCTGTATTTACTCTTTTCTCTTCC
ACTAGTAAGTCTCTGCCCTTTCCAGTGAAAATCAACCAAGCAAATTTGTTTCCTTTCAGTCTTGTCATTCATTTTTCCACATCAGCTTATTAAAAGTCCA
GGAACAGAACTGGGATTGGTAGRAGGAGAGGTTGAGAATTCTCATACCTTATTATACATTGCTTTCTCCTCACATGATAATATATACCTTGGAAGATTAT
AAGGATTGAAAACAATGAATGTAGCACACCTGGTCCAGTGCCCAAAGCACTGTAGGTTCTACATAGATGGGTGGTATCTATTATACTGCACCAGTCCTAT
AAATATCACAGCCATCACTTCCCTAGGTACAAAACAAAGTGTTTGAAGCTCTAAGATAACTTTTAAATTCTGTGTTGTTGTGGTTCTATTAAAATATGGG
TAAAGACAAGATAAAGAAATACTTATTGTTTCTTTGTATCGAAGAGTTTTATATGAGCAAATATGCCCTGCTGTCAAACTGTGAAAACCAAGAGGTTCTC
TCTTTTTAGTCCTACCCTTATCACCATCCACCACCCTCAGAACAGTAGTTATTCATTGTTATCAAGAACTTGGAGCACTGATGTAATGAATACCTAAAAC
TGGAAGTAGCCTTGGAACTGCTTAAACTTAAAGAGTAGAGGCTGGAAGTCTTGAAGTCATGCTAGCAAAAGCCTACATTGCTGTGAATGAACTATTAAAA
GCAACTCTGGTGAGGGCCCAGAAAGAAAAGAGGAGAGCGGTAGATACAGTCTCAATTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCA
TTCTGTTGCCTGTGTTGGAGTGCGATGGCATGATCTCGACTCACTGCAACCTCTGCTTCCTGGCCTCAAGCAATGCGCCCGCCTCAGTGCCCCAAGTAGC
TGGGACTACAGGTGCCAGCCACCATGCCCAGCTAATTTTTGTATTTTTTGTAAAGAYGAGGTTTCACCATGTTGCTCAGGCTAGTCTCAAACTCCTGAGC
TCAAGTGATCCACCCACCTCAGCCTCCCAAAGTGGTAGGATTACAGGCATGAGCCACTGYGCCCGGCCTCAATCTTCTTAAAGAATACCTAAGTAATCCT
GAACAGATTGTTGTAGAAATATGGACAGTAAAGGCCATTCTGATGAAGTCTTAGACAGAAACATGTTATTGAAAACTGAAGGAAAGATTACCCTTGTTAT
AAAGTGGCAAATAACTTGGCTGAACTGTGTTCATATCCTAGTGTTTTGTGGAAGGTAGAACCTGTAAGCAATGAAATTGGATGTTTAGCTGATGCTATTT
GTACACAAAGCGTTGAGAGACCGGGTTCCTCTTGAYGGCATATAGTAAAATGCAAGAAGAGAGAAATAATTTAAAGGCAGAATTGTTAATCAAAAGAGAA
GCAGAACTTAAAGATTTGGGAAATTTTCAGCCTACCCATATTATAAAAAATGAGAAACATGTTCAGGAGAAAACACCAAGGGTGTGGCCAAATGACCATT
TCACCATTTAATAAGGAGCCTTGTCAGCCATCAAAACAGAAACCAGGACCTATTGTTCAAGACAATGGAAGAATGATCCCAATTTCAGTGCCAATTTTCT
GTCTTAGTCTGTTTGAGTTGCTATAACATAATACTATAAACTGGCTGGATTATAAACAACTGAAATCTATTTCCCACAGTTCTGGAGACTAAGAAGTCCA
AGATTAAGGCACCAACAAATTTGGTGTCTGGTGAGGGTCCAACTTTCTGGTTCAGACACAGTGCCTTCTGGCTGTGTCCCACATGGTGGAAGGAGCCAGC
TAGCTCTCCAGGGTCTCATTTGTAAGGGCATTAATCCCATTCCTGAGGGTTCTGCCCTCATGACCTAATACCTCCCAGAGGCCTCCCCTCCTAATACCAT
CATATTGAGTGTTAGGTTTCATGATAGGAATTAGGAGTAGGGAAGACACATAGATTCAGACCAAATCAGTACTATTTGTCATATTTATTGCCCATTTGAT
CCTTCTGGTCACCAATCCATGAAATATGAACACACATAGGAAGAAAGCCAGCACAAGAAAGAGACTGAAGAAGCTAGGGGGCTGATTGAGGTAAGAGTCA
GAAGGATGAATTGATTATCTTGCCAGAAAATTGGTGATATGTGTAAGACACACTTTCCCTCCAAAAAGTAAGAATATCTTGCATTAGACTGTTGTACTAA
AGTGTTATTTGCAGTACTGGGTATTAGTCCTCGTCAAACTTCCTAACATTCTCTAAACATTTAGCAGGAATTCAATAGCATGTAAAATAAACATGTGTTA
TCGGTAGACAAGATCTAATTTACAAAACTCTGATTTTTCTAAAATGTTTTCACTAAGTCCCCAACTCATTCACATCTTTCTCTCTCTACATATCAAATTG
ACAATCTTTTAACGTTTTTGAGCCACATGAGAATTTCTTTTCATTCAAATAGTTCTAAATCCTTTAGCTGCTGAATTCAAGTGGCAGCTTCCAATCTACT
TCTTTTAGTCTCTTAAGGCCAATCAGGCCAGGCGTGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCGAGGCAGATGGATCCCTTGAGGCTGTG
AGTTAGAGACCAGCCTGGCCAACATAGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTAGGCGTGGTGGCTGAGGCAAGAGAATTGCTTGAACC
CAGGAGGCAGAGGTTGCAGTGAGCCGAGGGAGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAGAAGGTCAATCAAAACTTGTGGCCACCACCCCTCA
GGCATGTGGTACTCCCATAATAAAGCCTGGAATTTTATTTACAACAGGAAGCACTGGAAGTAGCTAGCAAGAATAATAGTTCCTTGAGGATGGGGCCGAT
GCTATGCTTTTTTATGATGCTCCACTGAACTTACAATAATTCTGTGTACATAAAAGGTACTCCATAATATACTGAGTGGTACTTGTTTTAGGTCCATGGC
ATCTCTTGTAGCTAGTTGTGTTCATATGATTGAATCTAGCTACAACGTAGAAGTTGCAGGGTGGAACTTTTAGGAAAATTCCTTATAAGAGGAGGATGGA
CASMAGATGAGTATCATTTTGCCCTTCCCCTCTTCCTCCTTTCTTTGCCAGAGGGTAAATGGTTGCCATTTCCCTAACAGCTGTCTTGGACTATAAGGCG
ATGCACTAAGAATGTACTAAGAATTATGACCTAGGATAGAATGAACACAGGTCCCTGATAAGAGTGGAAGGCCACCCTGGAGTGCCTATTTTGGCACTTT
ACAAAAGAGAAACAAACACTTATGTATATCATTGGTTTTGGATGATGCTTTCTGTTACACACAGTTGAACCTAATCCTAACTGATAAAAGGGCAATAATG
YCTATGGTAGTAGCCAAGAATCAGGTGATTCTAGGTCAGCCTACATCAAGACAATACGGGAGCAGCTGAAGGAACAGGCTCCTCAAGATTGACTCCAACA
CCTCAGGCTACCTTCTGGRTTTACTCGGCCTCTAGACTGGAACCTGGGGATAACAATGAGAAGGCAGAAGGAAACTGCAGCACATATCCTAGACYGAGAT
CTAGATACAGCCTTGAATGGACTTGAGCTGTGACTATATGGCCCACTTCCTTGATTCAATATCTAGAGACCTTGATAATGAAAAGCATCATCTACAGAGG
CTAAATCAGTGAAGAACAAGATTAGTCAAGGCTATTTGATGATATTAAGGGATTTTTAAAATTTTTGTAAGTATGATAATGAGATTGTAGTTTTTTTTTT
CAAGTTATCTTTTAGAGATACAAATTGAAATATTTATAAGTGAAATAAAATAATGGCTGGAATTCTCTTCAAAATACTTTGAGGGGAGAAATGGATGATA
ATATGGATGAAATAAGACTGCCATGAGTTGATCATTGTGGATGCAAGGAACATGGAGATTCGTCATACTATTTCTCTACTTTTCTATGATGATTGAAATT
CTTCATTAACAAAATAAAAATAAGAGTGACCCATGGAGAATCACATTACACCGAGGAGTGTCTGGTAGCAGGAGTGGGCATAGAAGCAAGTGCAGATTAG
TAGTGGATTTCCCTCCTGCTGGGAGCACAGAGGAACCACTCCCTAGCACCTATGCTACTCAGCCATTCAAATTCCAGTCTGGCTAGGCTGGCCCATGTAT
AACTGTGATGAAGGGTGTGGGCCAGCCCCACTCCATCTCTTCCTTGTTATTAAATCACAGAAAGGCTCAGTGAGAGCATTGTATATTCCTCTTCTATCTC
CACATTTGCAGTCAAAGGAGTCAAAACACTTGCGGCTGTGAATATTGAGTGCTGTTGTAGACACTATGCTAAAATAGCTCTGGGTCCAAAGTTTATGAGA
TATTTCTTTAGAGACAGAAGCTTTGGTGCAGAGTTTGAAAAATAACCTCTTGGTCGGGTGCAGTGGCTCAGCCTGTAATCCCAGCACTTTGGGAGGCCGA
GGTGGGCGGATCACCTGAGGTTGGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGC
GCATGCCTGTAATCCCAGGGACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCAGGGAGGTGGAGGTTGCGGTGAGCYGAGATCATGCCATTGCACTC
CAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAGAAAAAGAAAAAGAAAGAAAAGTAATCTCTTGATGTT
AGACAGATGCTTTCATTCTCTGCTGATGGGAGGGTTAGGGAGTCTACCTTTCTGGCAAGTTGGTAGTATGTAGAGTGCAAAAATAATATGGCAACAATCT
AAATGGTCAAAAATTCACGAGTAAGAGAATAATGCAATGCTTATACATGGGATATGGCATAACTATTAAAATGATGTTTATGAAGAATTTATAATAACAT
GGGAAGTCCTTATGCTACCATTGTTAAATGAAAAAAATTGGAACATAAAATTGTTTGTTCTATATAATCCCATGATGTAAAATATACAATTATATGGAAA
CAAACAAAAAGACCCTTTGTCTCAACAGTAATTAAACCAGGCTGATGGGATTAGGAATGATTCCTATCCATTTATTTTTCCTTAGGGTAGAGTCATACCT
GGGGTACAGGAGATCTGAATCAGTAAAATATGGGGATCTGTAAAGCATAAGTTATCAGCCATGGACTTTTACCTGGCACCACTGATAGAACTCAGARGGG
TTGTAAACTTGGACTGCTAAAAAGTTATATCTCTATTGTCACTAACCTCTACTAATTTTTTTGTTTTTTTTTTATTGTGGTAAAATATACATAACATAAA
ATTTAGCATTTTAACCATTTCAAGAGTACAGTTTTGTGGCATTAAATATATTTACATTGTACAACCATTACCGTCATCTCTAGACTGAAATTTAACTTCT
TCAATTATGAATGTAGTCAATGCACCACAGTAAATTACCAGTACCTGTGACTTTGTCACCAATTGAAATCAAAGTTATTTTCATATCACATTACAGTTGT
TAGTAGATATATCGAAATATTGTTCGTGTTCTTCACAGCTTTGAAATTCAGCAGTTACTAGAACTGCCACCAAATCGTGTTATTTAATGTAAAATTACCA
GATTATGAAATAGTTTTTAAAATTGTTCTTAACCATGTTTCAGTATAAAAGTTTTCCTTGGTAATCCTATATATTTTATTTTAGTAATCCTATGTATTTT
ATTTTATGTATTTTAAAACATTGCTTTCAGAAGAAATTGATAGGTTTCATCAAACTGCCAAAGGGATTCACAGGACAAAAACAATAAAGAAATTCTCAGC
AGATGTGTTCCTGACAGATGGGCTAATTAAAGTGTTAGTTACCCTCAATATATAATAGTGGCTTAGTAACAGGTGTGTTTGGGGCCCCAAAATTCTTTCC
AATTGTTCTATTGGTGATGTAGCCTAGTAGAATATGATACCAACTCCATCTGCATCTCCCCAACACTCCCTGTGCATTTAGCCATTAGAATAATCTTGTT
TGCAGGTATCCTTCAGAAAACACTGTTTGATGGACCTCAAAAGACATTCAGGTGTAAACAGGAAGCTAACTGGAAAGAGAAATGGCCTGATGGGGCTGAT
GGAGAGTTGTGTTGACAGTTTTTCCTCTGCCTCAGTGGCCAATCAACATTACGCTAGGTGAAATAAGCCAGGCACAGAAAGACAATTACTGCATGATCTC
ACTCATATGCGAAATCTAAAAAAATCAAACTCACAGAAGCAAAGAGTAGAATGGTGGTTACCCCGGCTAGGGGATGGGAGGATATGGAAGGAGAGATGTT
GGTCAAAGGATGCAAAATTTCAGTCAGGAGGAATGAGTTCAAGAGATTCATTGCACAAAATGGTGACTATAGTTAATAACAATGTATACTCRAAATTGGC
TAAGAGAGACTTTAAGTGTTCTCATCACAAAAAAATAAGTATGTGAGGTAATGAATATGTTAATTAGCTTGATTTAGCCRTCCCACAATATAGACACCTA
TCAAAACATCATTTTGTACATCATAAATATATACAATTTTTATTTGTCAATTTAAAACATAACTAAAAAAATTGAACCCATCAAAAATGTAGATCAGCAC
TCATTGAGGAAGGCCAGGAGTTTTTTAAAACCCTATAAATACATTTCAAAGATTAAAAAGTTGAGAAAGTAACCCTTTTAAAGCTTAAGTTGAGCAACAA
AGTAGCATGAAAATTATCAGAGTAGAGTTTAAGAGGGACAAACCAGTCTCACTTTTCAAAATGGAATCCATCTCTGTAATGTATTTCTTCTATTAGAAAA
TGTTTTGGGGATCTGATATGGTGCTAGGGGCTGTATTCCCTGGGCTATGACCACCATCTGATACCTTTCTGTGCATATAAGACTTATTTCCCCCACAAAT
CCCAAATTTCCCATATTCAAATGAAAACATTCTCTAAAGTTGAAAGACATCTACCTAATCTATAATCACCTTCTCTGAGAGCTAGACCCATCTACACGTG
TCCCTCACCAGACGTCTACAGAGTTGGGTCCCAGCAGTCTCTCAGTGAATCTAAATCCTTGGCAACGGCAGATTGGCCAGCAGTGGAGGCCTGATCTATG
CTCAACCAATCAGATTCTCTCTCCTGGGAATTTGGAATTGAGAATCAGAGTTACTCCCTGGTGCTTTGAAGTGTGGGCAAATAAAYTTAGGGGCTGTGTG
GTGGGCATGTTTGGCGATATGCATGCTGAGGCAGATAGCATGTCAGCCCAGGGTGGCACRCCAGTGTGCAGAGAGAAGCAGAGACATTTCCTGAAGCTCA
GCTGCACTTTCTGCCCAAGRCCTCTGTATTCACATTACAGAAACCCCCTTTGGGCTGGGGCTGGTTTGCCCCCAATTGCAAACTTTAAAGTTTGCACTTA
TGCACTCCACAGGCCAGCTCACGACTATCTTGGCCCCCTCTTCCCAAAATCACCATCAACATCCCACCAGTCCCTTCTGAAAAGAAAACAAGGAGCAGCC
ACCCAACTAGCATACCTCGGGTCTGCCAATGCTTCTCCGGACCSTCGCTCCAACCCCTTCCGACTGCTCCCGGCTGAGCACTGAGAGAGTAACTTTCTTG
GAGGACCCCATATCGGAGTCTAAAAAGAGAGTGTTCTGATGCTGAGCTGTAGAGGATGGAGGGCTAAAGGAAGGACAACAAAAAAAAAAGAAGTCATAAA
GGAGGGAACATCCAAGGACTACAAAATAAATGATATTAAGATTAGATGCGCAAAATAGTAGCAGCTACAATTTGTTGATGTCTTACTATGTGCAGGGCCT
GGGTTAGGTGATTTAAAACAACCATAATGATGGTGAACATGTATGCATACCTACTAGGTGCCCAGTACCCCACCAATTATTTACAACTATCTCATGTAAT
CCTACAGTAATCTTGTGCRAAGGTTAGCGAYACAGTCATGTGCCTGCCACATAATGACATTCAGGTCAACATTACACAGTCAACAATATATGGACTGTAT
GTATGACAGTAGTCCCATAAGACTATAATGCCATATTTTTACTGTATCTTTTCTATGTTTAGGTATGTTTAGATACACAAATACTCACCACGGTGTTGCA
GTTGCCTCAGTATTCAGTACAGGAACATGCTGTATGGGTTTGTAGCCTAGGAACAATAGGCTATACCATATATCCTACTACACACCTAGGTTATACCAGC
TAGGTTTGTCTAAGTGTACTCTAAGATGCTTGCACAACGACAAAATCACCTAACAATGCATTTCTCCGAACATATCCCCATCGTTAAGTGAAGCATGACT
TTAGCAGCTCTGTTGGCCCCTTACTAAAAATCTCCAATGAACACTTTGTCTTTCTTACTTCACTGAATTCTCTCGATCTCCCACCCCTTCCCCAGTGCCA
CTCATCTGTCAGCCTCACTGGTAGCACCCATGAGGTAGTTGCTACCAATGAGGCTGACAGATGGGGGCAGGTTTGTGTGGCGCCTTAGAGAAAATGGAGA
AAAACAAAGAGGTCCCTAACTCTTACCAGAACATGCTGAAGATCTTGGCATTAAAAGAGATCTTCGAGGGTCATTGAATTCAAAGACCCATCTATTCCTG
AAGTTCAGGGCCAACATTTTGGGCAAGAAATCTTTCAGCTTACTCATGAAGTCTCCTAGAGCATAGGCAAGTCATGGACCAGCTGTTCTTGGCAATGTAT
CTCATATTTCAGGACTTACCTATAGCCAGAGTTTGTTATTCGAAAGTCTTTTCCTCTTTGGGAGGTCTAGGTTCTAATGGACTATCCCAGAAGGAATATA
ATCTATCCCTATTCCACTTCAAGTGTTTGCAGACAGTACCCCCAATCCCTTAAATCTTTTCTTCAAGTGAAATATACCCAATTCCTTCAAAGATTCCTAC
TGAAACGAAGAGAGGTGCTTTGGCAAAAAGCAGACTCTGGAACCAGACAGCCTAGGTTTGCATCTCAGCTTCACCACATATCAGCTGTGTGACCTGAGGT
TTTCTGTGGCTCAGTTTTATCTGTAAAATGGAATGATAAGACCGCCTACCTCAAAGGGGTGCAGTTAGTGCTATGAGAATGTTAGYTGCTGTTATTCAGA
AGGGCTCTACTCCACAATACCCTCCACTTAGTCAAGGCCTACCCTAAAATGTATCCTCCCTGAATAGTAATCGATAAATATTTATTGGGTGATAGGTTGC
AAGGCGCAGAAACGAGCTTAATACTCAAAGCAGTACAGGCCGGTCATCACCTACATCGAAGCAACCAGAAAGTATCTTTATCCCCATCTAGATTATGTCT
GGGTYCTTCCAGACTCCTACGATTAAATTGTATGCATGTGAACAACTGATGAGGTACTTAGATCTCAGTGCTTTGCAGAAAGAAAAGYCGTCTACCATTT
TCACCAAATTTCGTAGTACAATTTAAGTATCTCTTGTTATCTCCCCTAGGAGTCTAAAGTGAGCTGGGGAAGGCAGGATTTTGCAAACTGACCGCCAGCA
TTCCCTCACCTAGTGGACCCCTGCAGGAGCCCCAGGTACTCACGCTGCGGTAGCGGCACCTGGAGCCTTAGCGGCGGGGGTGACGCGAAGAGCCGCCGGG
AGCGAGTGCAGGGAGGGCAGGTTAAGAGAGTGTGGGTCCAGTMGCCTCACCGTGACTCAGCGCTTCGCGGCCGGCGGCCTAGAGGAGGCGGGAGGCGGGA
GTCTACGGGTCTCGGAGGCCCTGGGGCTCCGCCCTCGGGAATGTCACTCCACTCTCGCTCCGCCCTACGCCTCTCCCAGGCCAGCTTGGCGGCCCTTTGG
CCTCCCTGCCTCTCGTGCCGGGAAGAGATGCTCACTCGGGTAATTTAGGCGGCACTTGCTGTGCTCCAGGAGGAAATGTGTGGCCCGGGCAGGTGCTCTG
ATCGGCGCTCCGGTCGGTCTTGTGGGAAATCTGTTTTTAACTGTAGTCTCCCTGTCACCCAGCCGGCGGAGCTTGGCGGCACGGATTCCAGTGCTGCCTC
CACCGCTGGGAGGCACCACTTGACATGACCTGGGACAGGTGGCTCAGTCTCTCTGTGCCTCTGGTTCCTCCTCTATAAAATGAGGATGGTGATGATAATA
GTGCCAGCCTTATCGGGCTGAAATGAGAATTAAATGAGCCTGTCACATTCTAAGCACTACAGAATCGTTTGTTCCATAGATAAGTTGCCTGCTGTTTGTC
AGTTAGAATTGCGAGAAAAGGAGTGCGGGAGTGGGGACGGGCAGCCATACGTCTTTATTCCTGCCTGAAGAGAAGGCACACTCTAGTGGGGAGATAATTG
GYTAAGAGTTTGTATGGTGTTGGAACACAGTGGGCAGGCGTTGGAGAGTTTTTCCAGAAGAATGAGGAGCTGGCACAAGCCAGTGAGGGGATCTAGTTGA
TTACTAGGATTATTAACTAGTGGTACAGGCATAGCTGCAGTTTCTATTCTCTAAACACCAGAAGGCTCATTGCCTGGTTTTGAGAAAGGAAAGACAGTGG
TGTCTCTAAAATAAGGTTGGAAAACYTTGTCTGTGAAGGACCAGATAGTAAATACTTTGACTTTGCAGGCCATGTACATTCTCCAGTTTGCCTTTGTAGC
AAGAAAGCAGCCATAGATAACATGTAAATAAATGAATGTGGCTGTAGTTCAATAAAACTTTAATTATGAATACTGAAATATAAATTCATAAAATTCATAC
AATTTTGAGTTCATATAATTTTTACTTGTCATGAAATATTATCCTTCTTTTGATCTTAAATGTAAAACCACTTAAAATGTAAAAACCATTCTTAGCCCTC
TGGCTATACAAAAATAGGTAGTGGGCTACCTACTCATTTTGGCTGCAGGCCTAGTATGCAGATCCCTGCTCTAAAAGAACAGGTTAGTAGAGGAACRAAC
ACTTTTCTCTGGGCTTTTAAAATATCAGTGGGGCTTAAACCCGTCCTCATCACCTTACTTAGGCRGTTCAAGGCTAGCTGAGATAATACACATGAACATT
AAAGGTGCTATGGAATAACAAAGTATTGTTTCTTATCGTCATTGTAACTAGTTCTGCAACTGTCTCCTCTACCTCTGCAGCTGTAATAGGTGTACTAGGA
GTGAASGTTTCTCCTCTTTGTCTCTCAGAAGCCAGTTACAGGTAAAAGCTAAGTCCAAGGTTGTACATGGTTAGAGCAATGCAGGAATTCCATTTACAGG
CCCCTGCAGAAAAAAGAAAAGAAAAGAAAAAAGAACAAGTCTGAAAAGGTAGAAGACTTAAAATGAGGAGAAACAAAGGTGAGAGAGGGAAGAATTCTTA
CAAATGAACAAAGGGCGTATAATGTTTCACTGTAACAGGGTCCTGTTTTGAGATGAGAAATGTGACCCTGTATATTAAGCTTTGAGCACTTTTCACACTG
TCATTGACATCCAGATCAAGATGTGGAGTAGGTGGCTAAATATRTGAGTGTGTAGATGGACTGTTGATCACCTTTGGAATCTTGGGAAGCATAAAGAAAA
CTCATGCTGATATGACAATGAACAAAGCCTTCCCTAAATGATTCCAAATAACACCATTATAATCTTTAAAGACAACCACATTATTTAGGTACCTTGACTC
TTTTCTTTTTTATTCACGAATTCCATTTTCCTCCTCTGTAAAACTTATTGAATTTCTTTTCAAAGATACATATTATAGAAGTACATGGGGCCAGGCGCGG
TGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAAAATGGAGAAACCCTG
TCTCTACTAAAAGTACAAAATTAGCCAGGCGTGGGGGCGCATGCCTCTAATCCCAGCTACTCGGGAGACTGAGGCAGGAGAATTGCTTGAACCCAGGAGA
CGGAGGTTGCCGTGAGCCGAGGTCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCAGTCTCAAAAATTAAAAAAAAAAAAAAAAAAGTACA
TGGACATCTGAAACACTTCCTTATTTTTGTTTCTTTCTTCTTCAAGCCATCAACTCAAAAATTCTTTCTTGTAGATTTTGTTAATTTGCCCTTCAGGGCA
GTGTAGCTGCTATTCATTAGATGACAAATGTCTCTGAAATATTCCATATTATAAAGACTCAGACTCACTGAACYCAGGAAATCAATTGGCTCCAAGTCAA
GGACTGATTATTTTATAAATGCTAGTTTACGAAGGCCATAAATACACTGGGTGGTTAAAGACATCCAAAGATATCCAGAAAAGATGAGCACATGTGACTC
CCATATCCACCCTCATGAGAGCATTCTGCACAGACACGGTCTGTTCCATCGACCAGTGCTCTGACCAAGAAGCTACATGTGATCAGCTGTTGCATGAAAC
TCATAATTGTGTTTTTCTCTATCTTTCCCTTGGGTTTTTGGCAGTTCTCCGAAAAAAAAATAGCTTATGACCCTTTCCTTTGAGCCACAGAACTTTCTAG
AATCCATCACAAGCAAAATACTCTCAGGCCTGAAAGGCCAATTCATCTCTGAACCAGGAAACTGGAGAAATTTAGATGAATGATTCCCCTGATACTTACC
TCAATTACCCTGATAACCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGCTT
CCAACTCTAGCACCTTGTACACAGTAAATGAAGTGACTCTCTGTTGAATGGAGCTGTTAAACTAAATTCCAAGCTGCAAGATCACTTCCAAAGCTGGCAG
GATGCTTCCAGAGTATGAGTTGGTGATTTATTTCTGTGAAGGCCAGATAGTAAGTATTTGAGACTTTGTGAGCATACAGTCTCTGTCTCAACTATTCAAC
TCTGCCGTTGTAGACTGAAAGCAGACATAGACAACACTTGACAGTTTGCCAAGTAGAGGATACCATCAATGCAAAGGCCGTGGGGCAGGAATAGTGGCTG
TGTTCCAATAAATTTTATTCACAAAAACTCATGGGGCTCATAGTTCGCCAACTCCATGTAGACCACAAATACTTACCTCCGACTAGAAAAACAGGAGTAA
GATTGACAAAATGCCAACAGTCTATGTAAAGGTTTCATGGGTGACAGGACAGGACATGGSTGATAACAAAAGGAAACAACAAACATTTTTGTGTCTACCT
CCACCTCCTACTCACCCATTTCCTTTCATTAAAAACAGGGCAGTTTGTTCCGGCACTGAACCTGAGGTTTGATATGCAAGCACCCTTAGGAGAGGTGACA
TGTTAATCTTCAATTCTAGTAAGTGTGAATAATTCACATCTGATCCCAACTTACAAGCAGATTATTTTAGCACCAGAAGGAATACATGCAGGAGGTAATG
GAGTGACGTCCCCAAAGAAGAGATACCCATGAACAAAGTTCAAACTGCAGAGATAAGCTGTTGGAGCCCTTGTGGTCTTACTCTTTAGTGAGGAGAGACA
AATAATAAAGGTAATAAATAATTAAATTATGTATTATGCTATAAGGTGATGAGTCCTGTAGAAGAAAGAAAACACAGAGCAGAGTAAGGGAGATTGGAGT
GCTGGGTGGAGGGTGAGGCTGTGATATTAAACAGGGTGGTCTGCGTAGGGCTATTAGGAAGATGCCATTAGAAGCAGAACCTGGAAATGAGGACACGAGC
CAGTCAGATATCTGGGACAGTTTGCCAAGCAGAGGATACTGCCAATGCAATGGCCCTGGAGCAGATGTTGCTCAGAATATTGGAGGAGTAGAAAAGATGC
CAGTTTCAGGAGTGGTAAGATGAAGTAGAATAATCATGTGATGATGTTAGAGACAGTCCTAGGGGACCAGAACAGGGGGGACAAGCGAAGAGTTCAGACT
GGAGAAGTGCTAAGATGTGACTTACATTTAAAGAATCACTCTGGCCACTCAGTGGAGAATAGACTGCAGGGGCAAGAGTGGAAGAAGGAGAACAGTCAGG
AGACTAGTACAATATTCCCCCTGGGGGTGGTGGCAACTCAGACCAGTAGGTGGCAGTAGAGGTATTGAAAAGTGGCCAAACGGGGGTACATTTGCGGCTA
GTGCTAACCTTATTTCATGAAGGATTGAACGTTTGGTGCAAGAGAAGGGTAAAAATTAAGGATGACTCCATATTCTTTAGCCAGAGCAACTGGAGGGGGA
GAGTTCCTATTAGCTGAGAAGAGGAAGACTGTAGGAAAAACTAGTTTTGGGGGTGGGGGGGTGGGTGTGAATCAGGAGGTCAGCTTTGGACAAGTTTTGA
CATATATATCAGATATCCCAAGTACAGATGGACAAGTTGACAGTCAAACATAAGTTTGGAATTCAGGGAAGAGGTCCTGGCTGTCATAAGCATATAGATG
GTGTTTAAAGCCATGAGTCAAGTGAATTTTTTAAAGTGAGAGAAAAATACAGGTCAGCCACAAGCCAGAAGGACTCTGATTATCTCATTTTCTTTCTTCC
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCTCTCTCTCTCTCTCTCTCCTTCCCCCTTTCTCTCTCTCTCTCTCTGACAATGGATTCT
ACCAGGTTCTTTTTTATTTTAAAAATGTAAGCACAAGTAAACAGGCTTGTTCACATCATGAAGTCAAATTATCCCATGCCATGTCCCTTTAGCTGTGGCC
TGCTAAAGGCTTGCATGAACAAGCTTAGGAGAAAATTCCTAAAATTCTAACTGAGTAAAGATGACAATGCAGAGTATAATTTGAGTAAATGAAGTCATAT
TATCGTAATAGCAGRTTGCCAAAAGTTAGGATGTAACTAAACTCATGGAAAATACAGAGCCAAAGAAACAGGAGAAGTAGCAGAGGAAGTGAATGAATAG
AATAAAGTAAATAAATCTGTGACATTTTGCCTTAGAGGAAACCACTCCTCCCAGCTGTCCTTGGGTGTTTTATGCCCCCAAGAAGGGATGGAAATCCCAA
GAGATTGTGCCCAGGTGTTTCCACAGTTATACCGACTGTATTAGTCCATTTTCATACTGCTATGAAGAAATACTCAAGACTGGGTAATTTATAAAGGAAA
AGAGGTTTAATGGACTCACAGTTCCATATGACTGGGGAGGCCTCACAATCATGGTGGAAGGTGAAAGAGGAACAAAGGCATGTCTTACCTGGTGGCAAGC
AAGAGTGCGTGTGCAGGGGAACTGCCCTTTATAAAACCATCAGATCTGGTGAGACTTATTCACTGTCATGAGGACAGCACGGTAAAAACATCCACTCCCG
TGATTCAATTACCTCCCACTAGGTCCCTCCCACAACATGTGGGGATTATGGGAACTACAATTCAAGATGAGATTTGGGTGAGGACACAGCCAAACCATAT
CACCAACTCCTCCTTCCCCTACCCTAAGTTTACTTTTTATTCTAGAATCGAACTTTTGCCATATTACCATATATAAGTTGTGAAGTAAATACAAATCGCC
ATGTGGAAAAGGAAATTAACTAGCAGAGTGTAGAATTAATTTATTTAGCCAGGTTGTTGTGCCACTCTTGCCCTGCTTCACCCTTAATTTTTTGAATGAC
TACCTACTATATTCCTAAAGAATGGAGAGCTATTTGGAATCCATCAGTGACTTTAATTTGCTATTAGAATGTAAGTTACACTCTTTTGAATTCTTCTGAA
GGACTCCTTTCCCTTCCCAAAATTCTAGTTTCCAAACTGAAATATTAAAAAATATTTCTGCAAGTTATTTTTCCCATACTCTACTGTAATTAAACCACTA
TTTGTGGTTCCCCCCCCCCCCACACAGACACATAAGCCCCTTGAAGATGTGGGCTGCCTCTCTTCTGTTTGCTCTTGTGTCTCCAACCCCTAACGGAATG
CTCAGCACATGGCAGGTTCTCAAATAAGACTTGACTGAACGAATTAATAGAAATGATGCTAATTCCATGTACACTCAAAAGAATACCTCTTTGAAAGCCA
GTAGCTTCACTCTCTTCTGCCAACCCAAGACTTCTTCACATCATAGATACTTACAAATAAGTTACAGTAAGCAACAATTTATAAGTAAACACAGTGTGTC
AATGCATGCCAAAAGGATGATTACTTTTCTTGGCTATCCATAGCAGGACATAAAATATGTCCTTAGATTTATTACAGATGGCCAGCCGGTATGCACCAGA
GAAAATAGTGGAATGGGGGAAGCCAAAAGTTGTGAGTCTGTCATAATGATGTCAAGTGACACACTTTTTCATTGCGATCTAGGTGTACCATACCTTAGCA
AAAACAATCTATTTTCCATTTCTGGATTTCTTAATAACTTAAACTATATAAATAAGCTCCTTTTCCATCATATGAACTGTTCTTACATATTCTCTGGCCT
TCCTTTGTCCAAATGTTGAGTTGAAGTTTTCATTGCATATTCTCTGTGCACTTTGCATTACCTAATGGTTTCCTGGCTCATGTGAGAGAAGTCAGCGTCA
GCAGTCGGGTTTTGCCGAGATATTTTCTTGTCCTTTCCAGCATAGAGCTCTACAAACAAAGGCAGGGTTATCACATGTACCCGAGAGCTGCCTGGGAAAA
GTGGGAGCTATAGTTATCAAAATTGGAAACTTTATGAAGTATGCTTTTGTCTCCGTTTTTGTTGCGTTCAATCAGATCAACAAGTGTTGGCTAAGTGTTG
AGCGTGGTTTCCTGTGGGATTGTGTAAGGCTCTGTAGGACAATAAACGTGTTGGGGGCACTGAGTAATGTAGCCATTTCTGACCCGGCAGCCAGGAAAAT
GTGAAACAATTTGCTTCTGGAAACAGGACAGCCGGGGCCGTGTTCCTGCAACAGCAGACCAAGCACCGCGGCGGACCCAGGCAAGCACGGAACAAGCTGA
GACGGTGCGTTTAAGCGGCAGGTGGCTACTCAGTGTCGCATACTATGCGGAAAATAGGTTTGGTTCCCGGTGTTGTGGGGCCTGAAGTTACAAACTTTGG
GAAGCTCACTTTAAGAAAAATAGTACAACATTTTTAATATGAAATTGCCAGGGCTTTCTCTGGGACTTTAGATGGGACCAGGTAATTTGGAGGCCAACGG
CTGAAACTGCTATAATTTCACTGTAAATTCACTCCTTGCTCAAAATCTCAGTTAGGGAAGCTCTCAGGTTGTTTATGTATCACCACCAGTTCTACCTAGC
TTTGTGTGTATTCTCTGCTAATTTTCTCCATCCGCTTCTTTAGGTATTGCCTTTCCATAGCCTTTCATATTGGCCTCATAACTGCTTCCAAAGAGACATA
GAAATGTTCCTTATACCTTCTTTAACTGTGTTTTTATGATGTTACTTTAGCTACAAATATTTGCTCTTAGGTTCCTGAGGTCTCCCTAAATCAAGTGCTT
TGTGTATTTTAGATGGAGATAGACAGGTGGGAGGGAGGTGAACCATGCAGTTGTACTCATATCCATATAATTTTGAAAGATTTTGTGGGCCACAATGATT
TCATTGGATTTGAAAAGGAGTGCAACTTTGTGGTCCATGTAAGTGCTTCTCAAGCTTTCCTGTGCACGTGGATCACCTGGGGATCTTGCTAAAATGAAGA
TTTGGCTGCGCGAGGTCTCGGGTGGGAACTGAGAGTCTGCATGTCTAATGATCGCCCGGATGATGCAAGTGCACGGACCACACTTTGAGTCACATCCAAG
TATTTATTTGTAGGAAATATGGTGGCACAAATACACAGTCAATAAGGGTATGGTTCAACCTCATTTTATGGTAACTCGTCTCAGGATGGAAAGTCTGCGA
CAAACCTACTATGTATGGACTGGTGTTTGTTGACATGGCAATACATGAGGAGGTCTTCCTGCCTCCCATTTTCTCCTATACCCAGGAGCTGGGGACAGAG
GGATGAGAAGTAAAATTTTATCATTAAGGATCATTATTATTTCACTGTCTTTAGTTTTTTAACTTTTTATGGTCCTTTTTAAAACTTTGCCTATGGAGTG
ATCAGAAGGGACATAAGCTTTTAGAATATCTACTAGGGTGTTGGGCATTAGGCTGCCATTTTCTCTTGACTACTTGTAACCCTTCGAAGTGGTTATTGTT
TCACTGCCTTTACAGATGGGGAAGCTGAGGTTTAGCTGGGTTAAGTAACATGACAGATTCCATAGAGACAGAGCAGGGATTCGAACCCAGCTCGGTGCTT
TCACTTGCACTAACCGGCATCATGAAAGCAGTGTTACATGTTTAATTCAGCATGAGATGCTAGCTCATGGATTTATTACTTTTTGCTTTTCTCCTAAGGA
AGTTGCCCAGAGAGAGTGCCCTAAGCAGAGGASAGGGAGCAGAAAGAAAGAGGTTACTGAAAAGAAGAAAAGACTTAGAAAAGCTCTATGGGGCACTGAA
GATTAATCTCACACCTAAAGCAAAACTTAGCTCCAAAAAGACTAGCATTAAGATTCTTGCCTTCTTTGTGAGAAAATGATCTTCCCAAAGTGTCTGGTTT
TTATACACTTATTTTGGATCAATTAAGGTATGATGCTCCAAGATGCTGAGAATTTGACTGTCAATGTTAAAAGATTTCTGTCCATATCATGCCAAGATCA
ACTTTAACTTTCCCTCTCCTGCATAACATCATGTGAAATAAGGATCTGTCAGGTTCTGTGAAGCCAGTATTTGTCTTTGGCCAGCATCCTAAGACTTTTT
GAACCACTTTACTTGATYCTCAGTCAAACTTTTTGTTCTTGTTTAAACCTACCATCACATTTTGTTCAGTTATTTAGCACGAAGATAAGCGGGCCTGGCA
TTTGGACAAATATTTGAAGATCAAGTTTGTCACAGGGCCCTCCAGTTTCCCTTCCAGATCCCACCCCACTTGGAGCGTCTTCCCTTTCTTTCCCACCCTT
CCTGCTCTACTGCCCTCCCACCACATGTATTATTTTAACATCTTGACACCTACAAAATCTTTAGCTATATGGCATGTAAAGTAAGAGAGGATAACTAAAC
CAAGTCAAAGGGTAAGGAATTGCTATCCTTATCTCTGAATTTTAAAAGATAAATCTTTAAAGACACCACCCTGAGCCAGTCAGGGAATACACTTCCTGGT
TGAGGGAACTATCCAATGGCCACTTAACTAGATAACCCTGTCTCCCTTGGTATCCTGTTTCCTGCTCCCCTTCTGTACCACTGAGAATTTATTCCAACTT
TTGAGGTTGTATGTTCTTACCTATTTTCAGAATGTGGTTTCAAATTTTGCTATTTAACACTGCCTTTCAGCAGGAGATTCCTATCGAAAGATTATAGGTA
ACATCTTTCTGATATTTCCAATAAAATGTCTCTTGCACTGGTCTGTTAAGACTCAGATTTATGGGTAGTTTCACCAAACTATGTCCCTTAGCAAAGCTGT
AGTATGTTTGGCTGAACACACAGATATCTCCTACTCTGTTTACTGCCATCATGGAGTGGATGGTGTACAGGTATGACACCTGAAGCTGGCTCCCAGGGCC
ATGCCTCTTAGGTCACTGGTTAACAGTACTGGCTAAGTCACTTAGGCTGCTGGGGCTCAGTGTTACATCTGTAAAATGACTTCTAGGTTTCTTATAAGAT
TTGACATCCTATGACTGCCTTCCTGTATTTAGGTTAGAGCAGTCTCTGGTTTAGGAGGGTCACACAGCAGGCATGTCCTTCTCTAGCATTAGTAGCGTGG
TCACGAATATGGGATGTGGAGTTAGACTGCCGGGATTCAAATCTAGCTCCACCCACTAGCAGTGTGACCTGGGCAATTTATTTATCTATTGCAGCTCCAT
AAGCTATAAGCAGGGAATGATGTTACAACTTACTCTATAGGGTGAATGTGTCACAACCTATCCCATGGGCTGGGAGTATCACAAAATATCCCATAGGGTG
GGGGTGTTCTGGCCTACCCCATAAGGTGGAGGTGTCATGAGCTACCCCATAGAGCAGTTGTGACCAGTAAACTCTAAACAGCCTGGCACATAGTGAGCCC
TCCTTAAGCATTGGCTAGGATCATTATCATAAAATCACTCTCATCCTTCAAAGTCTAATTTCAATGTGCTCCCTTCTAAAATACCTTACTTGGCTACCTT
AAGGAAAAAACAACTTTTCCTTCCTTGGACCTTTCATAGCAAAGTGAATAGACTCTACTCTAGCACCTACATTTTTTTCCCCATCTTTTCTTTTTTAAAA
CATAGTTGGTACCCACAATGTGCCAAATACTTTCACCATAAGGTTTCTCATTTAAGTCCCGTAAAGTAAGAGAGTTGTTACCTATCTCAATTTACAGATC
AGAAAACTGAAGGTTAGTGCAGGGAAGGGGCTTGGCCAGGGTGACACAGTTTACAAATGACAGTTCTGTAACCTCCTCCATGCCTTCCGAGTCTGCCACC
CCACAGCAATCTTTCATATTAATTAGTTATGCAGCCCATCTCTCAAACTTGTTCATYGTCACTCAGGGCCACGGACAGCTGATCTTTATTTCTGGAACCA
GTCACTCAATGTTGGACACACTGTAGGCTCAAAATCAAGCATGCCAAATAGAACTGCCGACTTGAACTTCTTACTCTCATGACATCATTTCCTTATAAAT
CCTAAAAAACTATAGTGATTATAAGTCATGTTAATTCAACACACACCTTTTATGTATGTAAGAGGTTAACGAATGGCTGCTGGCTTCCTTATAGGAAATA
CTATATTGATTTCTGCCAGGTTTTTGTGTCTCCTCTGTGCCTTAATCACTTTCTAGTTTCATCTGTTTATGGAAATAGGCAGCCTGGGCTATTTGGTAAG
CAAATTGATAGGTCTATTCTATGTGGGTGGTAATATGAGAGTCCACCCAGATCCCACTAGCTCTTCTATGGAAATAGATTTCTTGTTAATACTGACTGGG
TTTAGGATCTCATTTTACTATAAAAGGTTTTTTGTTTCACCTTCCCAACTGAATTTTCCCTAAATAAGCATAAGRAGAGCAGGRTTTGCTAGTTGTTGGA
CAGGCATTTGACTTAACAGTAAGCCCTGTTTATTTATTGTCACAATACGAGGGGGGAAGATATTGCATTTCTAAAAATTAATCATCAGCAACTATCCTTC
TATATCAAGAGAGACCACAGAAATGTTTTCAAATTAGAATTTAGGCCATGTAGAGGAGAAAGGAGAAGTATAAGGAAGGGACAGAAGTAAATAGAAGGAG
AAAGGCAAGCCCAAGCCTGAGCAGAAACCACATGGTTTATCTTAGAAGAAACTGATCTGGAAATGAAAAAAGCTTGAGTCATCAAGGTGGGGTCCTTCAA
GACTGTTAGGAAGCCTCAGTAGCCCAGCTTAGGGAGTGGAGCTTTGAAGGACTGTTCCTCTTGGATGGGTACCTCAAAAACGTGTGGCTTCAGGTGTTTG
TTACACGAGAACAACATATTACGGACTCAAGTGCACAGTATGTGAACCCATCTTTGAGAAAATAAGCATATGTACATAAATATTTGAAAAGAAAAACATC
TAGAGATGTGCTGTGTTTTTCTTTTCCCTGTCTGTATCTCTTGGCTTTATAGAATAAACATATATTGCATRTGAATCTTAAAATGAAAGCAAAAAATGTA
TAAAGGGCAGGATTTTGAAATGAACAATTATGTTGAAATTTCACAAGTTATATTTCATCAGATGCAACAACGCTTGTAAACCCTTGGAGGTTTACTGGAG
AAGGTGCTTGAGGGCTCAATACCTTCCTTTTTACTCAATGTTCTTCCTTTCAATACACAGAGGCAACTTTGTGAATTTGTCAGTGGTCTCTGTGACTCAT
CTTATTAATTTTTTATATAAAATTCCAAAAATTCTCACCTTTAGTGTGATGCACATAAAAGTTTTATTTTTCTTTTCTTCTTCTTTCTTTATTATTATTA
ATTTTTTTTGGAAGACAGGGTCTCACTCTATCGCCCAGGCTGGAGTGCAGTGGCGTGATCCTCCTGCCTCAGCCTCCCTAGTAGCTGGGACTACAGGTGC
ATGCCACCATGTCTGCTAATTTGTCAAAAAAATTTTCTAGAGACAGGATCTCACTATGTTTCCCAGGCTGGTCTCAAACTTCTGACCTCAAGCGATTCTC
CCTCCTCAGCCTCCTAATGTGCAATATGCTGGGGTTACAGGCATGAGACACTGTGCCCTGCCTAGGTGTGAAAGTTCTATAGACAGAAAAATATGTATAC
CAGCACATAGTACTGGGAAAGACTGAATAGCACCTTGGACATTGGGATTTTTACATTTTTAATACAGTGTTGTTAATGTCACAAATCAATTCAGCATCTA
AAAAAATTAAAAAGTAAATTTTCTATTCAACTAATCAGATCTATTTAATTAGCACTCTGCTTTGAGGAATGATGTTTCAGCTGTGGATATAAAAAATTGA
CAAGAGTTTTCACAGTTTTCTCCTTCTGCTTCATTAGTAAAATACGGAAATATAAAAGGCAAAAGTACCCTACAACCATGTCCAATGTGATATTGCCTCC
CCAAAGGAGGCTTTCACTCAAAAAAAGTAGACCCTCATTGTTTCCATAAGTCTCCGAGCAAATTCTCTTCCGGCCACAGACTTTGGATGTAGAAAATAAG
CTTATCTGGGCAGGTGGATATGCAGAGTTTGCAATGGAAGCAAAGATAAAAGGAAGGCATGCTACTCTTACCTCCATAGGCTCTACTCTACCCTGATCTC
TGCCCTGTCTTTGATCACTGGGCAAAGAAACCAGTGACCATGGCAAATAGTACCCATTGTACTCAGAAGAAACCCATTATACTTTTGTGAAAGAATTATC
CTTTTTAAATAGCTAAAACAATATCCCAGGGAAAAAGTAACCAAGACTTTATTATATTGAATGGATAAGATTTCCACTACTTCTGTCTAAAAATCAAATA
ATGCCCTTGGAGGACATTTTAGGAATTAATAAATAATCTTTTGTTCTACATAGTAAATAATAAAAGCTGGTTTTCTTAATTCCACTTTGAGAGTTGTGTG
GTCTATGTTAGGAGGAAAGCTGGCTGGAGCCAACCATGGTTAATTCAATGCCAGGCTGTATTTCTTAGTCTCCCTTTCATTTCACTCTTCTGCCATAGTG
GGTCCATCATACTCCCAGGCCAGTGAGAAGTGCCCTCTAGTGATTGGATGGGTTCGCTTGGCGCCCGCCTCCATGCAGACAGAGCAATGCCTGTGTGGGT
GCTTCCTGATCAAGACTGATGAGTGGGATGCAAATATCTTCTTTTTAATGCATGACCCTGGCATAGCCAGAGGGAATATGAGTGATGGTGCCTCAAAGCA
GTAACTTTTTGCTTAGAGCTTGAGAGTCAAAGTTAAGGACCCACATGTATACTTCGGCTCTAGCGAGTCTAAGGTGAGTAAAGCCTTCAGATTATCAATA
AAGAAAGATTTTAACTATTGGGCATGTGAATTCAAATAACGATGCAATTTCACAAAGCAAAGAAGAACATAAGAAAGTTTGTTTCTCTGGCCTACTGCTC
AACATTGCTACTTTTCATGATCAGACCTGATATTAGACTGAGGGTTGAAGTAACTGTCTTAGTAGAATTAGAAAATTAATGCATTTATTTTTCAGAAATA
CCTTAAGTTTTAATGTTTTACATGATTTTGGGATAAAAAGGAAGAGTCTTTTTACTTTGTAAATGTACTCATTTTTTCAGTTCTTTTAAATCTCTTTTGA
TAGCATCTGTTAGTGCACCCTCATACATTTTCCTCATTTTATCTTATCTTAGGCATTTACTTTGATTTTAAATTCTCATAGATATTGAAAATTATACCTG
TGTAATTTATGTTAAAGATCTGGCCATGATCAGGGGCTGCAGGTGTTATTTACAATAATGTCAGTGTCTCATAGTGGTTTGGGTAATTTGGTCAAATTAC
AGGCCGTTACTTCATAAATTGTGAGCTGTCTGGAGTTAAATTTTCTGAAGTTTTATTATATCCAATTCAATTCAACCAACACATATAGAATGTTTAAAAA
GTAAGGAGCATTTTGATAAGGTGGTCTGGAGAATGGGGCAAAGATGATGAATTTATTATCCACAGTGGGAGGAGTCAAAAGTATAAAGTGCTTTTTAAAA
ATCAACATATTTATAAAACCCAAAGCAAAGGCAGCAGAAAAACTGTAGCTATTGTGTAATTTATTCTATAATCCTACATCAGTCTCATTTATTAAAATCA
GCATTTATATTATCCCTTAATAGGAAATCGTTGAGGAAAAGATATGAAGGTTAAAGAGAACTTACCTAGATGCTGCAAATACTCATTTTAATTATTTATT
TTGTTTAGGATGATAATATGGATACAAAATCTATTCTAGAAGAACTTCTTCTCAAAAGATCACAGCAAAAGAAGAAAATGTCACCAAATAATTACAAAGA
ACGGCTTTTTGTTTTGACCAAAACAAACCTTTCCTACTATGAATATGACAAAATGGTGAGACATCATGTGTTCCATTATTTTTATACTATTTATTATTTT
TCCTAAGTCTCCACAAAGTACTTGATCATAATGAAAGAATATCAGGTTTCTTAACTTACACWGTGAAGATCCTCTTCTATCCACTTATCACATGACCTTT
TCTTAATGAAAGTATAATGAATTCAAGATAAAGGATTTTAAAACATTAGTTAACTTTACTAAGGCAAATTATAACTTTAGAACAGTGGTTCTCAACTGAG
GGCATTTTTGCTCCCCAGGTGACATTGGGAAAAGACTGGAGATRTTTTGGGTTGTTCCAACTGGGGGATAGGAACAGTAAGTGTTAAAGACATCTAGTGA
GTAGAGGCCAAGAATGCAGCTAACCATCCTGCAGTGCACAGGACAGTCCTCACAACAAAGAATTACCCAGCCTTAAATGGCAATAGTGCCTTAAAACAAT
GCTAGAAATAAGACTATTCCTGTACAGTTGAGAATTCTACTATAGTAAAAACACTGAAATACTGTCATAAGACTGAGCCAAAATGAAGATGCTTTGCAGA
AGTTAAATCTTGATTTTCCTGAGTATATTAACCACATGGTAGGTGATTTGAAACACATTTCAAGATAATCAAACAAGATTATTAACCACTGGAATATATG
TGTTTGTGTCCAGACTCAAGGAATAGATTATGTTGTCATTGGATTTTGACTATTACGGGGTAATAGGAAGTGACTCTCCATTGCCCACCCCCCACCCCAA
TCTCCCTCTCAGGCATAACTTGGGCTTTATGCCTTTCCTTGTGCACCATGATGTATTGCAGGAAGTATCTTACATTTTGTTTTTTAATTCAGAAAAGGGG
CAGCAGAAAAGGATCCATTGAAATTAAGAAAATCAGATGTGTGGAGAAAGTAAATCTCGAGGAGCAGACGCCTGTAGAGAGACAGTACCCATTTCAGGTA
AAGGGAAGAACGACATTGCATTGGGTGGATAGTTCTTCCTTCAATTTTTCTATCGTGAACTCAATATATCTAGGAAAAATAATGATATTTCAAAATAATC
TAAACAAGGCTTGGAATATTCCCACATGGGAGTTGGGCATTTTGCTAAAATTCTGTCCACCAATCTGCCTTCCCTGGAGGGAAGGGAAGGGAAGCAAGAC
AGGAGCGTAAGTCGCAGTGACCTGACCTGCCTCAGGTCTGATCATCTCTTTTAACAAACATTGCTGAGTATCTCCGATGTGGTACACAGTAGTAGGCATA
CTATGGGGAACAAAACACTGCCCCTACCCCAAGGCATTTACAGGGAAGTGGCAAAATAGACTAATACACAGACCATTACAAAGCAGTGAGGGTGAGAGTT
AAGGTGGAGGTCAGCAGAATGCATCCATGGAGTCCCAGGATGTGGAAGTTTCATTCCTCACTCCAAGAGGCTAGARAGATATTCTATTGGAGGTGACACT
CAAGTTGAGAAGGACAAGTAAAATTTAACCCAGCAAATATGAGAAGGACAGTGGTACAAAGGAAGCAGCAGGTGTCAAGGCACTGATGAGTGAAACAGTA
TGACACATTTAGAGAGCACTAAGTAGTCCCTATGAATAAAGAAGCCCATGTGACAGTGAAAGAGATAGCCTGGAGAGGTGACCATGCTAAGGAGTTTTCA
TTTTACCCTGAAGTATTTTAAACAATGGTATGGTATGTAGTGTATGCTGGTAGTACCTTTTGGAAGTGGCCTAATCTAAGTCATGCCCTACTTTTCTTAT
AGCATAAAAWCTTACATTTCTGATCCAAAGGTAGATGGATTGTCTTTCAGATGGCCTGACTACCCAGTGCTAGTATTAGGAACCTGTGGCCAAAAATGAA
ATACAATAATCCAGTTGATTAACAACCCATACTTCCCATTTGGAAAAAATATTACCAGGCCAGGCACAGTGGTTCATGACTGTAATCCCAGCACTTTGGG
AGGCCAAGGAGGGAGGATCACTTAAGGCTGGGAGTTCAAGACTAGCCTGGGCAACATAGCGAGACCTCATCTCTACATAAACATTGTTTTCATTAAAAAA
ATTACCCAATTGGGGGAAACCAGGGGAGGGCATGCTCATGGAAGATGCTGCAAACTCACCTCATAGAGGCATAGTGCTCAAAAGATCACAGGCTTTGGAG
CCCCCAGAGAGTTCCTAGTTCCACCACTTATACTTGTGCAACTGTAAACACATACTCAACTTCTATTTCTCACAGAGTTGAAATAAGATTAAAATACTGA
AGTAGCTAGGAAAGAGCCCAGCAACTAGTAAGTGTTTAACAAATGCTGTGTATATTTACCAACAAGAGTTGAATAAACTAGAGAAGGATCTGGAGAAGAT
ATTGTAATCTTCAAACGTTTAAACATTTGTCTTAAGAAACAGAAAAGTATATATTCTGGAGATTCCTGGGGTGCCACATGATGAAATAGATGAAAGTAAC
AGGGAAACATATTTTTACTCAATGTAAGTATGAACTGTATAATGATCAGAATATATGGATATTGGCAGAGATGACATAGCAGAGTAAAGAACATTCCATC
CCTGAAGGTATTTTTAAAGATAGAGCAGTTAAACATTTTCCAGTGGGCTGTAAGGAAATCATGCACTGGGTAGGCAAATGGACCAGAACAATACTAAGAC
ACGTGTAATGTCTAACATATTAATGTCCATAGTCCAGGGTGTCCCTGATGAGAACTCAGTGTTCACCACTACTATGAGGTACATCATCGCTGTAATTTTC
CAAAGTATAGGAGTGTCTGGGATAAAACAAATTGATAACTGGAGGATTTTTTAAGAAAATTTTTTTCATCTAATTCCAGAGCTGATGTATACTGTATAAG
CAAACTCAAGGTTTCTTTTGGATGACAAAAAATTTGCAGGTGCACCAAAGTGAAGTATGGTGCAATTATATATAAACACACCAAATATTTTCCTTTCCAG
ATTGTCTATAAAGATGGGCTTCTCTATGTCTATGCATCAAATGAAGAGAGCCGAAGTCAGTGGTTGAAAGCATTACAAAAAGGTAATTCAAAAAAAGAAA
TGTTGAAAGAGAAAGGTCAAAAAAAGYCATAAAAGAGAGTCGTTTTTTGAGGCTTGGTGGAGGAAAGACATGGCAGTAAAAAGACTCAATGCCAAGAGAC
AATCTACTGATTTTCCTACCAACCTCAGGGAATGTGTCAGACTCATCCTCATTTTTGCTTTCTCATTGTTACATACAGGAAGCCTGTGGATTGGATTCCC
TGGCCCACACAAAGCCAGTATTGTGCCTTCCCAGCAGCTTAGGGGAAGCCAGGCCACCTGCTCTCCACTCAGTATGCTTGCCTTTACCAGGGGAAAGTCT
AGGTCATCATGGGGCTATGTCAAGTCCTGTAGCTACCACACTTTTGATGTTTATAGAAAGTTACATCTAATACTTATACTGAGCATTTACCATTTGCCAG
CTACTTTATCAAATGCTTGTAAAACATTTTTTTAGGTAACCCTCTTGACAACTCTATTGAAAGGGGTAATATTATTCTCCATTTTTCAGACAAGTAAAGT
TTTTAAAACATGGCCACTGTCATAGATACAGTAACGAGGGACTCAGAACTCAATTACCTAAACCTGATTTTTTAACCAATACATTGTAAATGCTAGGCAA
AACTGAAGATTTAATGAAGCTTTTATTCAGTGATGTTTAGGCCGCCCTGGTAACAACTTTTGGTAGAAGGGAGAGAATCATTGTTAATGATTTGGCACTA
TAGTATTTCCCTCTGTGATATTTTCAAGATGGGTAAAGGTGTGAAGACAATATTTAACTCAAATGAATGGCTCCATTTGTGAAATTTCAGGTATTATGCT
CCTAGATGGAGGAAGATTTTATTTTATTTTATTTTATTTTACTTAAGTTTTAGGTTATGGTTCTTTCTTAGTACACCTCAAATTACACACAGTTACTCCA
CTTTGATGCAAATACACCCTTCTCACACATAGGGCTTAATTTTTCCTTTGCATAAAAAGGTTTAGCAACCCATTCTGCGGGTAGCAAGTGGTCCACTGGG
GGACAGAAGCTTCCCTCTACCCACCACCAGCTCATTGAAATGAGAAAGACAACCCCTCTAGAGTTAGACACACCTGCAGCAAAGTGCTGCTTTGCTGTGT
CACCTAATAAAATCATCTACCATCTCTGGGTTTAAGTTAATCCTGACCTGTCAAATAGGAGATCACATTTCTTTTCTCCTAGAGCAGTCACGAGCCACAG
ATGAGACACTCATAAATATATTAAAATATCTTATGCACAAACATGAGTCACTGTGGTTACTGTAGGGCTTCTAGGAGGAGCTCTAAGATTCTGCTTCCCA
TTTAGTCTCCTTTGGTGGAATTTCCTGAGCGGTAGGTGCTATGTCCTATGTACAGCTCTTGGTCATGCCCTGCTAGATCTCATGTGTCTGAGCAGCTCAT
GTGAAGACATACGAAATGTAAAGGAAGAGCAGAGAAAGAAGCAAAAACACATCTCCTAGCCCCTCATAAAACTGCAGAGAGTCCCCATCACTACAGCTGC
CATATGCACAATAAGTGGTTTGTCTCTATGCACAGTAAGTGGTTTGTATCAGTTAGTGATGTTTTGGGCTGCAGGTAAAAAGACATCAAACAGTTGCTGA
AACAAATCCACTTTTGTTCTTCTCTCACAGTAACAAATGCAAAGATAGGCAGTCAGTCAAGGGCTAGTGCAGCAACTCAGTGAAGTCAGTAGGGATGCAG
GCTCCTCCTAGCTTTCTGCTCTGTTATCCTTAGAAGCTGCAGGAGAGATTCCAAGCCTTCCCAGAAGCCTCCCTGCAAACTTGTGCTTATGTCACATCAT
CCAGAACTATATCTGATGGCCATTGATGTGTACAAAGGAGGCAAGAAGACAGTATCTTTTTTTTCCAGTCTCTGTGCTGGAAGATAGTGAGAAAGAAGGT
GCATGGGATTTGCTGTCAAGTTGGCCAACCAACCTGCTGCAGGAAAACAAAGAGGTTCTCCTGCTCAAATATTCTCCCCTACAAAGTTTCATTGTGCTAT
AATGGCTCCTCCTGCCTTTTGTGTCTATTATTTGGCTCAAGCATTATAAACTGAGGTAGACATTTAAGATAGAATTTTCCAGATGTTAACCTACACTTGG
AAGGTTTGGGCTGATTCAGTGGTAGCATAGGAGTGTGTGTCAATTATCATGGTTCTGAATTCAGCTAACCAGATGTGGAAAAAATGTGCTCTTCCTTCCA
AAAATTAAAACAGAAGGGGGTTTTGCAGAGGAGTTGGCACCTGTACATCATAATGTAGTAGAAAAAGCCTGAGGCTGAGTCTCAGGTCTGCTATTTATTA
AGCTTGTGAAGTTGAGCAATTGTACTACCTCTCTGCACTTCAGTTTACCTAACTCTGTGAGAGGTGTAATAACAATAGCTACCCCTCAGGTTCTTGAATT
GATTAAATTAGAGGACATATGTAAAGGAAAATACATAAATGTAAAGTCCTATGGATATATGAATATATGAGTTCCTCTTATTGTCGTTATTAGGTGGTGA
GACTGTTGCAATGTAGACTTTTGGATTTGGTTGGAAAAAGAATTAGTTACCCAGGAAACCAAATCCATGTAGTAAGGAAATAATAGGAATCCCAACATGT
GGAGGCCAGAAGCTTAGAGAGCAGGAAGGCAAGTAATGTGCCCAAGAGATTGCAATGGCCATTTGGAACCAAAATCAGAAACTTACGTTTTATAATTTTA
ACTCTTTTTGCCTTTTGTGATTTCTGTCATAATTTCCCTTTAATTCTCATTAGTAAAGTTTTTTAATGCCAGCATTTTCAGCTAAACTGAGCTAAGTTAA
ATTAAGGGAATGATATCACTAAAGCCCACTGTTTATTGAACACCTACTTACTCTGGGCCAAACACTGCTGGGTGCTTTACATACATTATCTAACAGCCTC
CCAATGACCCAGCAAAGTAATTATTATCTCCATACGCTTCCTTGAGTCAGGACTGTAAGGATAAGCATAACTCTCCTGGGATCAACATAAGGAAATCTCA
AGATGAACATAAGGTCAAGAGAGAAAGAGTTAAAGGCACATATAGAACCAGCCCTTCTCACCTAGATACTCTTCTTAAAATATACTAAGATCTTGTAGGT
TTCTCTGTTGTATTTCAAAAGAGGCTAATTTGTTATAGATTACAGTTTCATTTATTTGAATTATACATTGCCCTATTCCCGTGGCTTTTTAAAATATGCA
CATATTCCTAGGAAAGTAGCCCCATAAACCATTCATTCCTTAGTATAAACATGTCAAAGTCACAGAAGTCAAGGAAGGGATGAGAAGCAGTTCTAAATTA
AGGGAAACTAAGTGCCATGTTTGATTTTGAATTGGATCCTTGATCAGAAAAAAAGTGAGTGATTATAAAGGCCATTATTGGAATAATTAGAAAAATTTTA
AAGATGAAATATATTTTAAATAATAAATGCAGCCATAAAAAAGAATGAGTTCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAGCCATCATTCTCAGC
AAACTAACACAGGAACAGAAAACCAATCACCGCATGTTCTCACTGATAAGTGACAGTTGAACAATGAGAACACATGGACACAGGGAGGGGAACATCACAC
ACCAGGGCCTGTTGGGGGATGAGGGGCAAGGGGTGGGAGAGCATTAGGACAGATACCTAATGCATGGGGGGCTTAAAACCTAGATGATGGGTTGATRGGT
GCAGCAAACCACCATGGCACATGTATCCCTATGTAACAAACCTGCACATTCTGCACATGTATCCCAGAACTTAAAGTAAAATAAAAATTAAAAAATTTTA
AAAATTAATAATAATAATAATATTGTATCAGTGTTAAATTTCCTGAGTTTGATAATCGTATTACAGTTATATAAGGGAACATCCTTGTTAATATAAGCTA
TGTGCTGAAGCATTTATGGATGACATTATTTAGGTCATACCATCTACTACTTCCTCATAAATTATTAAGCACAATATAATAATGATTTTAAAATTTAAAG
AATAATACATATGTACAGAGAGAAAGAGATACAGCAGATGTGGCAATCAGTTAATAATTGGTGAATCTAGGTAAAAGGCATATGGATGCTCATTGTATTA
ATCTTATTCTTGCAACTTTTCTGTACATTTGAAAATTTTCACAATAAAAAGTAGATGGAAGTGTATGTTTATTCAGGCCTTTTTTTTAGAACCTTTTGCT
AAAATTTAGCCCCACCCTTCCCCTTCTGCCACAAGAAAACACCATGTGTTGTAACCCACTCACTTTCTTTACAGATATATCTCTAAAATCCTAACATCAA
GCTGATCTGTATATGCATTTTACTAGTTATTTTTTCTTCAAAAATGATATGTAATTGTGTTGTTCTCAACATACTCATGGTTAGACTTTTCTTTTTTCTT
TTTGGCTTATTAACTGTTGAGTGAAAGACCTATATCCTTCCGGAACCATTTGCTCTTACCTTGGTTGCTGGCCAAATGGGGTTTTTATTGTTCTGTGATA
ACAGCACTTACTGAATGTTTCTCCTCTTGGATCAACGTTTGCTAACGTCTTGTTTTCTTCCTGTCTGCTCCTCAGAGATAAGGGGTAACCCCCACCTGCT
GGTCAAGTACCATAGTGGGTTCTTCGTGGACGGGAAGTTCCTGTGTTGCCAGCAGAGCTGTAAAGCAGCCCCAGGATGTACCCTCTGGGAAGCATGTAAT
GTGTGATTCCTCTGTTGGACTGGACGTTGGGTGGATAGTGCTCCATTAGGCTAAACCTGCCAGAGGCCAGAAGAGCTTGCCAGAAAACAAGATGTGCCAG
ATTGGTTGGCATCATGAAAATTCAGCCTTGCAGATGCTATGTGACAAATGAAATCTCATTCTAGGGTCAATTGAGTCATGGCCATTAAGATAATAACAAT
ATTAACATCTGCCATTCTTTCATTTCATGAGAAACATTTTAAAAATTTGAATCATTAATCAAGCAATGAGCTGTTATTTCCTCCCATAATTTTTCTTGGT
TCAAGATAAACTCCAAAAAGGTAGAATATGTTAGATATGTCATCATAGTTCAAACAGCTAGGTTTCCAGTTTGGTAAGAAAACCAGCTCGCTCTTCGTAT
AAATAACGAAAATCACAAACTGAAAAAACAACATTATTAAAAAAAAAAAAGATATAACTTAAGTAACACTTTTCATCACCATGTATACTAAAATGATGGT
CAAATTTTAAAATATATATTTAAAGCAGTTCGCCATTCTCTATATGTGTGTTAATTTCTTAATGACATGAGAGAAGGGGCTGCTTTACGTGAAATCAGAT
TCTATCCAGAGTTGTACTCCCAGGGAAACAAGAGGGACTTATATGTATTTAAAGTTTATAATTATTTAACATAAAGTTGTTGATAAATACAAAATAGGAT
AACTTATTTTGGTAACAGTTTTACCAGCCTGGACAAAATATGCCTGGATTACAATGGCTTTAAAGAATTGAATGAGATCAGCTACAAAATAGAACTTCAT
GAAMTGGAAAAGATACAGGCACATAAAATATTTTTTAAATTCACTTCATGACAGTATTGATACCCAACAATCATGTTAATGTTAATACTGGTCATTTTAC
CCCCAAAAAATCAATTAATAAATATTCATTGTGTTTTCCATCTTAATTAGACTATACAGTGAATATTTATTAATCTCAACTAGATCACATTGCTCTATAT
ACTCATGAATTATAGTTATTTAATGAACTATACAGATTGGTTGCACATGGGTCTTCGCTCCACTGTAAGGGACTGAGGAGTAATGTCTCCTTATGGTATT
AATCATTTTCCCCAGTGGTTTTGTCTATGGTCTATTTGGTCTATTATCATTACCTAGCAGGTCAGATTCCAGCTTTGACAATGCCCTAACTTTCTGGAAG
GAGCAGGAAAAAGGCCAGAGAGAGCACTGCCTTGGGATTGCCTTCYTAGGCTCTGTCTGGATGACACTCACCATGTGTTCTGGGTGCCACAGGTGCTGTG
CCTCTGAGGAAAACTACAGAGTGTAGAGGTGTTGCAGCTCCTGAGCAGCTGTAATACTGTCTATCTGTCCAAGTATAATTTATTCCCTTGGCTTCTTCTG
CTGAGCTACTGGGAAGTCCATGGGCATAACAACTAAAAGAGAAAAAGTTAGGTGTCTTTATTTCTTTTTGTCCAAGATGCCTTGATCCATCCTCTTTCCA
GGATACATGGCCTACATAGGAGTTGGGCCTTATATAGGAAAGCTACAGAATCACTCCAGATGTTGTGTCTGGATTCACTTAATCTGGAGTATTGCTCACA
CAAGCTGGTTCATTCTTTTAATTCATAACATTGAGTGTTTCTCTTTGTTTTGTTTAAAGTTCCTTCTGATATTACTTTGTTTTAATGTTCAGATGCTAAT
CTGCATACTGCAGTCAATGAAGAGAAACACAGAGTTCCCACCTTCCCAGACAGAGTGGTAAGTCAACATTTTAAAAATGTTTTTCATGGTCAGGATATAT
TAAATAAACCAAGAGTTGCCAGATTCAAGACTAGAAAATGTGGAATTCATTTAGACTTCTCAGCAAAGAGAGAAAAACCATGAGCTCTAGATAATAGCTA
TGGGTGGTATTGAATAGCGGATTCAAATATAGAACCATTGTAATATCTCATATTTTTGCATTTCATTGTTGTGTCTTTTCCTAGCCAGTAAGCCCATAAA
TAGTCACCAAAAAAAAAAAAAGAAAAAATGGGTGCATGCGGGAGATGTCCTTAAGATGGCATCACACATAACAGGCAGCTGTTATTAGCTGTCATTCTTT
CCTTACCATCAACATGGCCAAGACTGCTTTGTGGAAGTATCCTGGTGTTGAAATGAAACTCTATAGGACAAAAGCAGAAAACAACATAATTCTTTCCCTC
CATTATCCCTTCAAAGCTATTCAGTGGGCTTTCTTCCCTGCTTCCAAATAAAGTCTTTGCCAAATTCCATAGTTTTGCAGTCATTCTCAAATGATAAAAA
TGTCCCCATTACTTGTAATCATAAGAACAGCCTCTGAATTGTTCCATCCAATGTTATTATCACATGACTGCAAACATCATTCCAAGTTAAACATCTGTCA
CCTAGCTTGGGCCTGCATCACCTGGCAGCATGCTTTTGGGGAGGGATTTTGGGGGGGCTGAGATTCATGGCCCTTTCAGAGTTAGTTCCAAGGAAGATGA
GGTCTAATTAAAAAAAGACACACATAGCTGTTTCTATCATGATTTGGTGGTGGTGGTATCGGAGTGAGTTTTCCAGCACTGATTCTTTATCTCATGGGAG
ACTTTTAGGAATTTCCTACTGAAGGGCAGATCCATATGTAGTTTTATGACAGGGGAGAGATCTTGATCCTCAGTTCTTGGATTTTCAGCCCTCAATCTTT
CAAGATGGCTGTCAGCCAACTTTTTCCCAAGAGTGGAGTTGGCCTATAAGAAAACAAACAAAACCTTGATTGCTCTGGTTAATTAAGCTGTATGTAGCTC
TCTCTCGAAGTACAGGCTACTGCTGTCTTTTTGCTCTACTCTCTTGGGTTCATAGCCACAGCCTTCTGTTTTTAGGGTTCCCAGGCAGGTGTGAGCCTCC
TCAAATGCCAGGATACACAAAAAATGGCTTCCCATTGGTTCTCTGGAAGTTCACCTGAAAGCAAGGGGACATCTCCGCCCATCTATTGGATCTATGGTGT
CTTGGGTACTTATTTTCAGCTACACACATTCGCACACACTTCTCTCTTTCTAAGTAAAAGCCACATAATTTTCRTGAATCAACATGAAAGACAAAAATAA
TCCATTATTGTAGTAGACTGAATAATGTCCCCCAAATTTCATATCCATGTAGAACCTCAGAATGTGACCTTATTGGAACTAGGATCTTTGCAGATGTAAT
TAGTTAAAGATCAAGATGAAATCACACGAAAGATGAGAGTGGGCCATAAATCCAATGACTAGTAAGATGAGAGGACACAGAGAGATACACAGAGGAGAAG
GCCATGTGAAGACCTAGGAAGAGATTGGAGTTATGTTACCACAGGCCAAGGAACACCTGTTTCTTAGTCCATTTGTGCTCTACTAAGGAATACCTGAGGC
TGGGTAATTGATAAAGAAAAGAGGTTTATTTAGCTCACCRTTCTGCAGGCTGTACAAGTAGCATAGCACTGGCATCGGCATCTGATGAGGGCCTTAGGCT
GCTTCCACTCATGGCAGAAGGGAAGGGGAGCTAGTGTGTGCAGAAATTGTATGGTGAGAGAGAAGAAACAAGAGAGAGGGAAGGGAGATAGCAGGCTCTT
TTCAACAACCAGCTCTCATGGGAAATCATAGAGTGAGAACTCATTCACTACCATGAGAATGGCACTAGGCCATTAATGAGGGATTCGCCCCTATGACCCA
AATACCTCCCATTAAGCTCTACCTCCAACACTGGAGATCACACATCAACATAAAATTTGGAGGGGTCGAATATCCAAACCATAGCAACTTGGAACCACCA
GAAGCTGGAAGAGGCAAGGAAAGATTTTATCCTAGAGGCTTCAGAATAAGTATGGCAATGCTGAAATGTTGATTTTGACTTCTAGCCTCTAGAACTGTGA
AACAATAAATTTTTGTGGTTCTAATCCACCAAACTTGTAGCAATTTGTCATGGTAGCCCTARGAAACAATTATAATCGTTAGGAGTTTTACTTTGTTATT
AGCAACATTGCTGTTTGGGTTTGAAAATATGTTTCAGTCCTGAAGCTTGAAAAGTATGGCCCTCTAAAACACCTAGGAGAAACGCCCAGATTAGGCAAAT
CTATAGAAACAAAGGGTGATCAGTGGTTGCCTGGGACCAGAGTAGGGATGAGAATTGACTGCAAATAGGTATGAAGGATCTTATTGGAGTGATGGGAAGA
CTGGGCTGTGGTGATAGTTATACAAGTTGATAAATTTACAAAAGTCACTGAATTCTGCACTTTAAAAAGGATGAACTACCAATAAAGTTTGTTTTGACAA
STCTAAGAGCAGAAGATAATTAAGAGCCAGAAACCATTGCATCTAGTCTCCAGCAGGGAACTTTTTGGCCAATATATTGAAAATTATCAGCTAGGCAAAT
CAGTGGCTAAGGGTTCATAAGCCTGTTTTGATTATAAGCTTCCCAAATGAACCAGGGATCAGAGGGTATCATGTAAAGTATGTTTTTCTTTGTTTTGTTT
TTTATCAGAGTATTCAGTAGAGGGCTTATTTTCTGAATGGAGGAAATAAAAATCAGCTCTCTAGTTGTTCTGTTCAAAGAGATTTCCTTAAATGATTTCC
ATTTAAGGAACTTCCTAGTGCATTTTTCTTTGGACATAACCCACTTCACAGCTCATAAATAACACTGTCCTGCATAATTAAAATTTCCAGAATGTCAAAG
CCTTAACTCCAAGTAAATGAAATTTCTGAAAAACTAAAATATAGCATGAAAAAAATATTAAATGCATCTCTTTCTGTCACACACGCACACACAGACACAC
ACACACATATTGTGAATTTTTAACTGAAATATAACATTAACATAGAAAAGCACACAAATCCTAAGTGTTCAGCTTGATGAATTTTCACAAACTGAACAAT
TCTGTATAATCCACCCTCAGATAAAGAAACACAACATCACAGAACCCCAGGGACACCCTGATGTTCCCTTTCAGTCACTACTACCCTCCAAAAGTAGTTG
CTAACCTGATTTATAACATCATAGATTGTTTGCCTGATTTTGACTTTTATATGACTGGAATTATAAAGTGTGTAGTCATTTATTGTGTGTCTTCTTTTCT
TCAATTTGTGAGATTCGCTTATTTTTTTAGTATGTGATTATATTTACCGTCATCATTGTATAGAATTCAGTTGTGTGAATATACAACTGTTTTGGTTTCT
TATTACTGTTCTAACAAATTACTACACAAATTTAGTGGCTTAAAGCAACATACATTTATTCTCTTATAGTTTGGAAGATCATATGTCTAAAATGGGTCTG
CACAGCTGTGTTTCCTCTGGAAGCTTTAGGGAAGATTCTGTTTCCTTGCATTTTCCAGTTCCTAAGGGGTACTTACATTTATTGGTTCCTGGCTCCTTCC
CCTGTCTGCAGAACCAGAAGGTTGCAGGACCTCTACTCTCTAACCTCTGCTTCCATCCTCACAGCTCTCTAATCTCTGACCACCTTATCTCCCTTTTATA
AAGGCCATTTTGATTACATCAGGCCCACCCCCACAAAATCCAGAATAGTTGCCCCATCTCGAAATCCTTAATTACAATCTGCAAAGTCTCTTTTACCACG
TAAGGTATTCACAGGTTCTGGGAATTAGGACATGAACATATTCGGGAGACCATTTTTCAGCCTTCAACAACCACAACATGTTTATTATTTTATCCTCTTG
ATGGGCATGTAGGCAGTTTCTAGTTTTTATCTAATTAAAATAATTCTGCTATGAACATTCTTTTACAGGTCTTTTGGTTTCCCTGTTGTGTATATATACG
TAAAATTTATGAGTCATAGGGTATGACCAGATGCACATCCAGATTTACTAGATTCTGCAAACAAATTTCCAATGTTGTTGTACCACTTCATACTCCAACC
AGCAAAATATGAGTTCCAGTTGCTCCATATCCTTGCTCAYACCTTTCTTCTTTCCTTGCCTCTTTCCTTCCTCCCTTCCTCCCTCCCTTCCTCCCTCCCT
TCTCTCCTTCCTTTCTCTCTCTTTCAAGAGCTGATATACTTAATTGTCAGTTCCCGGTACCTGAATCTGTGCCTCACTGTGATGTATTAAAATTTCTTCC
CCTCCAAAGCTGAAGATACCTCGGGCAGTTCCTGTTCTCAAAATGGATGCACCATCTTCAAGTACCACTCTAGCCCAATATGACAACGAATCAAAGAAAA
ACTATGGCTCCCAGCCACCATCTTCAAGTACCAGTCTAGCGCAATATGACAGCAACTCAAAGAAAATCTATGGCTCCCAGCCAAACTTCAACATGCAGTA
TATTCCAAGGGAAGACTTCCCTGACTGGTGGCAAGTAAGAAAACTGAAAAGGTAATCCCCAGCTTTCAGACGGGCTGCCCAGCATGTAGAGTAAACACTA
CCCCGGCTGCCCTGGACCTCAGCCTCAAAGCTGTTGATCCAGGTCTTAGGCTGTCCTCTCAGAAAATGTTCAGTGCTTGAGCCAGAAGTCTGGGGAAGCA
GTGGCCCCACTGGGGCTGAGAAGCATAGATTTTCCATTTAGATTATCCAATCTAATGATCTCAGTAATGCCTGATCATTGTATTCCCTTCCCTTTCTCCT
CCTTCTCCCCCCAAATATCTCCACATTCCAGAATACAGAATCTTTAAAAATCTATCCTTTATATGAAAGAGCTTAGGATGGGCTTACTTTTGTAATGTGC
TTCAGTATCACTAGCCAAATGGCAAATAGCATTTCAAGCAAGGCCATGGCTTGCCTTCTTGGAATGTACAACCTCACCTCTCCTGACCTGATTAGTCTTC
TCACAGTTTTTAGCCTAAAGATTCTATCTAAAGCCAGAATTGAAAATTCCTTGAAGGCAACATGTAAATTGTGTATGTATGTATCTCTTGGTATGGCACT
GAATTTGCCCTACACTTGATGCCCAATAAATGTTGAATTGAATTGCAAGATGACCATATGGAAAGGGTCAAGTGACTCCCCTTCCTTATTTCCTGTCTCA
GACCTCCTTCCTATCATGTTGTCTACTCTCTGCCATCTTCTCACTCAGTTATCAGCATCCCTGCAGGGAAGTCATGTCTGCCTTTCCCCACAATGGATAC
AGAGCATCTCTCTGACTCACCATGTATCTCTTTTCTTAGTTATTTTTCCCATGTCCTTTTATTCCTTTGTTCTTTCCATCTTCATCATTTTTGCCTAAAG
CCAATTACTGAAAGTTTCAATAATACAGGGCCATATGGAATTTGAAATAATGTAAGTGTGTTCTTCTTGATTTTTTTTCAGTATAATAAGCCATGGTCCC
TTTCATTCCAAAGTGGAGCTAGAATCCTAGTGTATTAATCTATACCTGGTGCCCAAGGTATGGGGTTACATTTGTGCGCCTGCAGCCCACCATTCTTGTG
GAAGGAGAGGATCAGTAAACCCAGTTGCAAGGAGAGTGAAAGTCATGTTAATTGTGTTCCAGGTCCCCTTCCTGACAGAAACTCCAGTGATTCATTGAGA
GAGGTGTGAGGTGAAGCTGACTGCCCTGTTTTCAAATAACCAGGAGGAACTGTCGATTCACATGGGGTTGCTGCCATTATTGAGTTTTTGACACTCCTTT
AGATTTGCACCTCCTTAGGTTTAGTCCCAACTGTGGATTTTCCCTAGAACTTCAGGAAGCTAGTTATTTTAACAAAGGATTGATTGATCACCTCTTAGCA
TGAGCAGCATTGCATCTGCAAGTAAATTATAATAATTGCTAAAAGGTCTTCATGGAGCTTGACTTTTTAAAGTGCAGCCATGATTCTTATCTCATATATG
GGATAATACTTTTTATCAACTTTCTGTCATTCTTACAATCTTCCCTGAGCTTCTTTTTAATCTACTTTCTGTTTAGTAAGATAATCTATGCCCCCATTAA
ATCATTCAAATATTACAGAATATTCCATTTACATTCCCCTAAAATGTTTTCTATGCACATGTGGCCATGTGCATACAAAAGCAAGTAAGTTCTCACGATA
CAGTCTTTGTCATTTGTTCTTTTCACTTGACATCTTCAGCATTTTTCCTATTTGAATACATGAGGATACACCTGACTTTTAAAATTTCATTTTCATTTAA
TTTTGGTGAAATATACATAACATAAAGTTTACCATCTTAATTATTTTTGAGCATACAGTTCAGTAGTGTTAAGTACRTTTACATTGTTGTGCAAATTGCC
TGATTATTTTTAATGTCTGTAAGTACCAGTTGTATAGATACTAGGTAAACCTAAGTGATGCACTATTGATGGACATTCTCTAAGTGTTTTTAGAAACAAC
AAGGCTAAATAAAAGCTATTCTAGTGGGCAAGGCTCTTTGGGAAGGTGGAGAGAGAGGCATTTTAGAGTTTAAGGGCTTTATCTAGGCATTCCTTGAAAT
AGAGCCAGGGGAGCATTTCCTTGCTAAGGAAACTTGTTTCTATGAACTGTGGTTTTGAAAAAAGTCTGGACTATGAAGGCAAACAGGAAATAGGTTCCAC
ATTCCAGATAAAACAGCCTTTAGACTTTGAGAGGTAGGCACTTCTTCATGCTCTGCTTAATACCCCAAATAAAAGAGATAAAATGATCTATGGCAGAGGA
TGATGAAAATCCTCCTTATCCATCTGTGTCCAGAAGGAGTAAAAAGATCAGCATTTTCAAGAATTTTAATTGTAGTCACAATAGCTAAGAGGAAAATAAG
TTATTTTAAAATATATAAGTGACAGAATGCTTGCATATATATAAGAAAATCAGGGCAAATCCAGTCAAGATGATTTATTAATCTAGATTTTCCATTGTTT
RRGATAATTATGAGCCATTATTAACAATTTTCTTTTGTTTAGAAGTGTTGCCAGACTACTGCTTTTATTGGAATGCCTGAAAGAACCAAAATGTGAAAGT
AACTCATTAGCTTAAATTTCCCAAACAAGTGAAATGTGTGGGTCAAAATGTCAAATAAAGCTAAAACATATCTGAACAAAATTACTTTTGTCATTTAAAA
TTTATAAGTAGACATATGTTTATAAACTTATAAAATGTCTCTTTTTTGCAGTAGCAGCAGCAGTGAAGATGTTGCAAGCAGTAACCAAAAAGAAAGAAAT
GTGAATCACACCACCTCAAAGATTTCATGGTAAATCAAATTCAGATATCTCCTACATCCAGAATATGCTTCCATTTTCAGGAAAACTAACCAAACTTGCA
ATAATTTTGCAGCTAGGCTTTCTACTTAAGGTAAATATAAACCAAAAAAGTCTATGTAGTTTGCCTCTCTGAACCCTGAATGGATGGCTTTTGGGTTCTA
GTTTTTCTTGAACTGACTATTCCTAGCCAGCATCCATGACATACACCAGTAGTAGCACCAACATTAGTATACYTGACCCAGGCATCTCTAGCAGGAAGAA
AAGCAACCTAGAGTTGAATAACTCTTCCATAAGAATAGCTATATACACAACCCAATTTTTTTTTAACTTGATACTACAGCCATCTCTGAAGGAGTCTTCA
TCTATTTCGTGAGCCCACTCTTTGGAAAAAGTCAAAGAAATATAAGTTCTTCTGGGGGCCTCCTGGGGATCTCCTGTATCAAAGAACCATTCTTTCATTA
AAACTTGGCATAAGCCCAACTTTTGAGTGACTCTCTCTTTACTGTTGCTGTGTTGATACTTTGCCAGGTGCAGAAGGAGAAACCTAACAATCTAAATGTT
ATTTAGGTGGATAAAATCAGGGTGGGATTTGATATTGCATGGCTACGCACTTGGATTATTTCTTGGTGCTTTTYTGCACTCACGTTTTTCTCAACTCTTC
TTAAGGGAATTCCCTGAGTCAAGTTCATCTGAAGAAGAGGAAAACCTGGATGATTATGAGTGAGTATTGAAAGTCTTCTGGGTTCTTCTAAAATTAGACA
TAGATACTTCTACTCTCTTCCTCAAAGACATTAAAACAGATGGCTGAGACCGTCTCAGGAGGCTGTATTTACATGGGTAAACTCACGTAATGTTCTGGGT
CATTTATCTAGATGACAGGTGACAATGAGCTGGGTTGTTACCAACGAAAATATTTTCCCCAAAACTGGATTATCTAAATTGGATGCAAATACTTATTGGA
TTTATCGTATGTCCAGCGTCACCTTCATTTCACTTTACCTTTGTAGATGTAGCATATAATGTTTCTGCTCATTATTTCTTTCCTGGAGACCTCTAATTAA
GGTGATGTTTGAAAGCTCTTATTAACATTGAGTAATATTTTTGGAGAAGTTATTAATGATGCAGTAATTTTACAGGGTAGCACAAATGAGACCTTGAACA
TGGCAATATTTATGTCGACAGATCTCTATTCTTAGGATGACCTTGTCATTTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTTGCCCAGGCTGGA
GTGCAGTGGCATGATCTCGGCTCATTGCAACCTCCACCTCCTAGGTTCAAGCAATTCTCCTACCTCAGCCTCCCGAGTAGCTAAGATTACAGGCGCCTGC
CACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTTGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCT
CGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCTCACCCAGCCAACCTTTTCATTTAACATCAAAATTGGGATACTTTAGAAAGAGAAAAAGTG
CACTATTAAAAATTATACCCGTTAATAATAACTTAATTATACATTTTAAAATAACTTAAAGAGTATAATTAATTGTTTGTAACTCAAAGGATAAATGCTT
GAAGGGATGGATACCCCATAATCCATGATGTGATTATTATGCATTGCATGTCTGTATCAAAATATTTCATGTACCCCATAAATATATATACCTGCTATGG
TGAGCCGAGATGGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAACAACACAAACACACACACA
CACACACACAAATATATATATATATATATATATATATATATATATATATATAYACACACACACACACACACACATATATATATACCTGCTATGTACTCAC
AAAAATTAAAATAAAAATTACACCTGGACATTTGACATAAACTGGACTTCTGGGCAAATAAGAACGTGTGGTCACCCCAACTATACTGAGAAGGTTGGCC
TAAGTGGCTATTAAGGTTCTTTCCAAAATCTAAGGGTCTATCATTCTACAAATAGGGACAAATAATTGTCTCCTAGATGTAAAGATTAGTGTTAAGAAGA
GGTGGGAATAATAGAGCATATTGCATTTCTCAGACACTTGATACCAAATGGCACAGAATTCACTTGAACACTAGGATTATGCATATTTCCAGTTCTGTTT
TTGTACAAGTGTTGTATTATTGATTTATTGATTACATGTGAAACGAGAGCTTTTACAAAGTACATGCTACTGTTTTCACTCCTCCTCTCATCTCTAACCC
AGCCTGGTCCTAGCCATACCTGTTGCATTGGGGAAGATGTGCTGTACCCTCCACATCTTTGTGGCATGGTCTCTTTATCACCTTCTAGCTCTCTTTCGGC
TTTACTTTCTTCCCTAACATCTATTCTCAGGAAAGCATTGATGGAATAATTCATACTAAGACATAAAAGACTGAGAATGACCAACGCATGGTCATTTCCA
AAGATAATTGCACTTTAATGAAACACAAAGACTTAAACCAATGGGAGTGAACCTCTAATTGTGGATTGTACTCTTTAGCATTTAAATAAATTAGAAGTCT
TTCCCTGATTGGGTAAGCCCAGATATGACCATTTAAACAGTCTCTATTCCCATCTTTTCTGAATGCAAGTGGTGTGTGAGAGACAGACATTGAGGAAATT
ATCAGGGAAGACTTGTCCTCTTCAAAATCAAAAAGATACCAAAAGGAGCTCGGGATTATAGGGCTATAGGATCTGGGACTCAGTCACCTCACATTGTGCT
TAATGCTCCCAGCTTCCTATTCTATCAGTGTCATGGGAGTTTTTGTTTTATGGCCATAACTTCATGAGCAATTCCAGTCAATTCCATTAAAGACAGAAGC
ACTAAGCCCTGAGATTTAGATAGAAAATCGTGTGTTAAGACTAGGCCTGGCCAGGTACAGTGGCACATGCCTATAATCCCAGCACTTTCAGAGGCTGAGC
TAGGCAGATCTCTTGAGCTCAGAAGTTTGAGACCAGCCGGGGCAACATGACAAAACCTCATCTCTACAAAAATACAAAAATTAGCCAGGTGTGGTTGCCC
ATTCCTGTAGTCCCAACTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCGGGAGGTCGAGGCTGTAGTGAGCCGAGATCATACCACTGCACTCCA
GCCTATGTGACAGAGTGAGACCCTGTCAAAAAACAAAACAAACAAAAAAAAACCTTAGGCCTAGGACTCTGCTGCTCTGTCATTGAATACTGAAATATTA
TTTAAAACAATAAGAGGCAGGCCTCAGCAAAATTATGACACAGGCAACGTTTGTATGTGTGTGGGAGGTATAATGTATAGGGTACATAGGTTATATCACC
TTGCCTCTCCAGGCCTCTCTCCTGATTCTTGATTTTCTTCCTTCTATTCCCCTGTAGGTATATATCCTGTATCACAGCCCCTGAAGGGCCTTTTGATTAG
CTAGTATTACCTTAAAATGTTGACTAATAAGAAAAACGATCAGTTAAAATTTCAAGTGTTAGTTATACAGTATCCATAATGGTAGAGTTAAAAGAGACTT
TCAAACTTATCAAGATCAACCCTCTCCCTAGTTTTACAGGTAGGGAAGTCCAAGGTCAAACAAGGCCAAGTGGCTTGTTCAAAGTCATACAATTACACAT
AGGGAAGTTATGCCTAGAACCCAGACCTCCAAGCTGGGTGACCTAAGGCTCTTTCTATTTTATTGAGCTGTCCACCAGCTGACATCCCTTCCCAAAACTC
ATACAGAGATTATACAAAGAATCACTTCCCATCCATTCCTGCCAAGTTCTGAGATACCTTCTACATTGAATTTCTCCTATAACTCCTCCCTTCTACCCTC
ACCCCCCTCTTGTACTTATTTCCTCTGCAGATGTTATCTTCTAGCCAGTGGGTCCTCCCACTCACCCAAACCCATGCTACATCCCACCTCATGCCCTGCT
TTTACTCATTTCCTAAGTAGGACATTCTGTCTAAAGCCCAAAGGCCACAGACATTATTGCCCTCACATGAGAAACAGCTCTTGGCCTGTTGAGCTCCACA
TATAAAGTAAAAGCATTTGATGTGAAAATAGATGTTATAATCAGATTATTACAAGGAAATTATATGATTGGAAGACAAGAGCTTTCATCCTTGGCAGCCC
TGACTTTCCTCTTGGAATATTCTTCATAGGTCTAATCTCTAGCCCTTACTCAAAATGGTAAAATGTAGGAAAACTTAGAAGTCACCTAGAAGAAAACCAA
AGATTCCTAAATGCCAGCCCATTTAAAAATTAGATGTGCAGACTCCACCCCAACATCAGAATTTAGTAGTGGGGACTTAAGCATTTGTATTTCTGAAAAG
CTCCTCAAATCATTCTCTGGAGCAGTTAGGCTTGGAAACCCCTGAGGTAAGCCAATGCCTCATTTTACAGATTAGAAAGTTGAGTGTCAAGCTATACAAT
CTAAAACTTATTGATTCTCACATATAATTTTTTTCCTTTTGCAGCTGGTTTGCTGGTAACATCTCCAGATCACAATCTGAACAGTTACTCAGACAAAAGG
TAAATAGTCTTGTCTTTAAAACAGCCTCACAGAATCTCTTTGCATTTTGGGGTCCAGAGGTTGATGCATTTCTCATAGAAACCTTCCTGCTAATTATATA
GTCAAGTCATTGTAGTGTTGCTTGTCCAGTCTGTGGGTTGCCCGACTCTTCATGTCTAGCCACTRCTTCTGTGTCCATTATGTATTGCTGCATAATAAAC
CACTCCTAAATTGGGTGGCTTGAAACAGTGGGATTTATGATATCTCATGATTCTGTGAGTCAGCTGGGCCAGCAGTTCTTAGGCAAGTTTTGCTTAGGGG
CACTCCTGTGGCTGCATTTGGGTCGTGGATTGACTGGGGGCTTGGGTTTAGCTGAGGCAGTCAACTGGAGTTCCACAGTTCTTCCCCAAGCAGTCTCTCC
ATGTGCCTCACTTGGGCCTCCTCACAGCATGGTGATCTCAAGGCAGTAGTTGAAGAGGACGAGCCCCACAGTGCAAGCACTTTTCGAGTCTCTGCTTTTG
TTGTGTTTGCTAAGGTCCTATTGGTCATAGCAAGTCACATGGCTCAGCCCAGAGTCAGTATGGGAGGGGACTGCTCACAGCATGAATAAGAGAGATGATT
TATCGGAGGCCGTCAATGTAGCCATTAACCTCAGCTCTGTCACTGCTCGTTAGCACCTAGACCAGAGTATAGCAGATGTGATACAGAACATGWTTATCTG
ACTTTATTACTAAYTGATATGGAATGCCAGTAGCAAACTCTTTTGATTTCTAAAAATGACACTTTGATATAGTTTAACCTGATAAAAACACTAAACATTA
CACTTATTTCTTTGAGGGGTGCTAGTGAGAATGTAATGACTTCATTTGGCGTTTTGTCACATTCATAGTTTATAATCTGCTCTTTCTGAACTTTGATCTG
CTTAGAATTAGCACAAATCATTGAGAAAGACAACTTGAGTATAGAACTTTATCAACTGATTTATTCTTGATCTTTGGTTTTCTAAAACCTTCCAAAGGCA
TGATACGGTGATACACGGTTCTAAATTGTATTTCTTAAAGATGAAAACATTAGGCTTGCATAAGCACAACACCGAGAAAAGTAAGTGATAGGGTTAAATA
TTAATTGGAGAGGAAGAGTTCATACACATACACATACACATAGAGCAGATCTATAAAGAGATTGAGTGAGAAACCTGTGCCTTTTGTGATATATAAAGTC
AATCTAAAAGATTTGTTTTCCAACTACCTACCATGCAAAATCATTTTCAAGAATGATGAAAATATTTTCTATTCCTTCTATATTTTCCTTCCTTTTCAGG
GAAAAGAAGGAGCATTTATGGTTAGAAATTCGAGCCAAGTGGGAATGTACACAGTGTCCTTATTTAGTAAGGCTGTGAAGTAAGTATGATACGGATTAAT
TTCTTTTCTCTTTCTGCGTATATTCTTTGAATATGCTGGTCACAATCACATTTTGGGATAAGACATCATCTTTAAACTCTGGAATTTTAAATCAAAGTAT
TTCTATTGAATGTGACCATTTGTAGTTGCCTCCACCACTCTCACCCCACTGCCCCACCATCCTTGCCCCACTACTTTCAAGAGGCCATTCTCTGGCTAAT
CCTCTCCTGCCCCACTCCAGGCAGTAACAGAGTGCCCAGAGCACAGCATGCCTCAGTAAATGTTTATTAAGAGACTCTCGGGTGATTCCCTTTCATTCAG
GTCTAAGCCTGGAAAGAAAAAAAATAGCAATGGAGCGTCTATACTCTCAGCCCTAGCCACCTGCTGAGCAAAGATGCCTACTCCAGTGTCCAGTTCTTAG
TAAGCCCTTCCACTGGGTGCAGAGTTAGCAGAAGGTTGACTCAGTGCTGCTGTGTTCTCTACACAGCTTCCTTCCAGGGCTCTGTCCTCTTTGTGTGACT
AAAAGTTCTTGTTTGAAGCCAAACTTCTAGATCCAAATCCTGGCTCTACTATTTCAATAGGGCTTTGTGACATTGAGCAAGTTTCTCAGCCTCTGTGCCT
CAACTTCTTCATTTGAAAGGGGAACATAATGATTGTTACGTTCTATGAGTGGGGTGAGTTAATTAATATATTATATCCAGAACAGTGCCTGACACATAGT
AAGCACTTAATAAACTAATAGTACTTACTATTATTGTTGTTGTTGTTGCTGGGGAAGGGTAGTTCTACCTGCTCCACTCCCTGTACCCTAACACTTGGGC
ATAAAAGACACCCCACAGTCATCTCATGCAAATCATCATCAAAATCCTTCTCCAGAGTTTTACAAGCCACTTTCTTATTGGTAGTTAGCYCTTTTTTTTT
CCTTCTAATCGTCCTCCAAAGCAAATGGGAAAGCTGTTTTTATTTATACCATATTGCAGATGAGAGGATTGAGKTTCAAAAAGAGCTTATAAAGACCTAC
CTGGAGCTACTAAGTGACTAATTTGAAGCTGGGCTTCCAATAGCCAAGTCATGTTTCTTTATCTACACCTCTGTGTTTACACTGAACCCCCAGTGTTTTG
GAATGAGAATCTGSTCAAATATTGATTCGGATCTTCTTTTAAATTTCTATGTGTGCAACTCTTTTTTAGCAGCTAGATTGAATGATCGTCTGCCTTGGTG
CCTTCCCCATGTGCCCTACCCCACAGTGCATATATGTATATTTATAATAATTAAGTAATAAAAACGTTATTTTATTTTGAAATTTTTTACAGAGTGCCTA
CCTACACTTGAGATAATAGGATGTACCTGAATTGTCCCACAGCACTTTCCAATGCCAGAATCCATGTCCCCAGTGTATCTCATATATKATTTTGCACATG
GTAACACCTGGATGCTGGCTAAAGCCAACCCAGTAAGAATCAGGAGAAGACTTTGTTGACTATCAAAAGTTTTGTGGCCTTCTGGCCCTGCAGTTTCAGC
CAAACCTGGTATCAGATGTCCTTGTAGTTGAGTTTCTTGACTACAGATTCATTTTTTAAGGTAGCCAGGTAGATAAATCAGCAAATAGATAAAGAATCAA
ATGAATACAGAAGCCCTCTTTTATGAAACCTCATCAATGGCCTTGAGTGAATTGTATGCTGACACCAAAAGCTGATTAAACATTTGCAGCAAAGAGAAGA
ACCATTTCTCCTTTTGTACTTGCAATTTTTACTCRGTTGATGTTACAGCAACAATTTTTTAATTTTTTAGCTTTTATTTTAAGTTGATTGGTACATGTGA
CAGGTTTGTTATATAGGTAAACTCTTGTCATGTGGCTTTCTTGTAGAGATTATTTCATCACCCAACTACTAAGCCTAGTGTTCAATAGTTATTTTTTCTG
CTCTTCTCCCTCCTCCCACCCTCCACCCTCAAGTAAGCCTCAGTGTCTACTATTTTCCTCTATGTGTCCATGTGTTGTCATCATTTATCTCCCACTTACA
AGTAAAAATATGTRGTATCTGGTTTTCTGTTCCTGTGTTAGTTTGCTATACAGCAACAATTTATTAACTGTTTCTTATATGCCAGGCATAACCATATAGG
TAGCTAGCAAGTGATAGAACTAAACTCAAAGCCTGGTTCTTGACCACTATGTCATTGTCTACAATCTAAGACAGGTGTATTATTCCTGATTAGCTTAAAT
CAACGTGCATCAATTCAGCATTATTGTATAAAAGCAGAGGAAAAGAAAAAAGTGTTTTATGTGGAGAAGGTACAAGTTCACATGAGGAATTAAAGGACAT
CCTCACCTACTTCATTCTGCATGCCCCAAAAGAGCCTCCTCCCATGTTTTGGGGTGAGGATACCCAACAGCCTAATCACCTTTACCTCTCTCATTTCCAC
CTCCATTATTATCCTATAAGATAATTTATGTTCAGAATAATGATCYTGAAGAACTACAAGCCTCTCTCGATCATCAAAGAAAGATTCCAGTTTTATACAC
TTACTAAGGGAGGAGAAGCCTGGAAAGTTGGAATTTTACTGTACATGAAATCTATATGTGCACCAAAAGATACATTGAGTTCAGAGAAGAACTCTCTTCC
ATAATTACTTTTATAGTTACACCAGATKTCAAGACTGAGAAAAACACCAGATGCCAAGCCTGAGAAAACCTCCCTGACTTCCCTCTCCAAAATTTGCAAA
TGCACCTAAAATAATTATTTAACCCTTGCTTAATCAAGCTTTATTGTTTATTTTAAATGTTCTAACATTCTTTCTGTTACTAGTGATAAAAAAGGAACTG
TCAAACATTACCACGTGCATACAAATGCTGAGAACAAATTATACCTGGCAGAAAACTACTGTTTTGATTCCATTCCAAAGCTTATTCATTATCATCAACA
CAATTCAGCAGGTAACTTATTTTAGTTTTTCTTTTATGGGCCCTTGTTGTAAAACAGCAATTTTCCTGGATACTACTGATCCTCCTAATATTCTTAATTA
TATAGGGAACCAYGAAAGTAGGAAAAAATCCTCTCAAGTCTTTTGCCTATCATAATTTTTAGCTTACATTCCCAGGAATATAACATGATTCTCTCCTTAA
TGCCAGAAAGAATGAAATTGAGTAAACTGGGTGACTTAGAAAGAGAAATTYTCTTTATAAAAATATTCGTAGGGTTTTTCTGTGTATAGAAGCAAGAGGA
TTATRAATTTAAAATATTATAGAAATATATACATATCGTTGGATCATGGACCAGTTGTCTATTATGACAGGGTTTTTTGCATGCTGCCACTAGCACTTAC
TAATCATTACATATATAAATAGAAATTATATATTATGTATATACATTACATTTTTACAGAGATGAGATCATTCTACACATATTGCTCAGCTTGCTTTCTT
TACTCAACATGTCTTAGAAGTCTTTCCACGCAAACACAAAGAGCTTACTTTGGTCTATTTAACAGCTGTGTAGAATTCTATCATAGTTACCCCATAATTT
ATTCACCTAGCCCTCTGTTGATTAGCAGTTGGATCATGTCCAGTATTTTCACATTATAATGGATGTTTCAGTGCACAATTCTGCATGCATAGCTCTGTCC
ATCTATATGAGGGGTTCTATAGCCAAATCCCTAGAAATGGAATTTCTGAGACAAAGGCTAAGAATACTTAAAATGTACAGATTGCCAACTGCTTTTCAGA
AATGTACAATCCTACTAACAACATTTTCTTTCATCCTCACCAACACTGGGTGCTATTAGTCTTCTAAATTTTTGCCTAATCAACTGGTGGAAATACATCT
AGAAATACCCTCTGTTTTCTAGAATAGTGCSACTTAAGAGCAGTGGCTGGATGAATTTCCAACAGTGAGTAAAAATAAGCCATAAGCTCAGCACTTAATT
TGTGTTACTTTATATGACTTGATTGCATGCATGTAGGTGAATTGRCCTCACTTCTGGCTTTCATTTTGGCTCTTACTGATGTTTTTCCTTTGCCCCAATT
TCCTCAATTGTTTATTTTAACCTGTAGTACCTCAGAAGTACCTTTTGTAAAAGGTATTGCACAAAGAGATGCACAGGAAACTTCACAGGATATCAGAAGG
AAATATTAAGATGTTTATTTATATTTGGATTTTTATCTCATTCTCTTACATTTTCTGTTTGTGAGTTTATTTTTATAATTCACACCAAATATATATTTTA
TAGAAATGTACTAATTTTTACATTTTAATTAATTAATTTAGTTGATTAAAGGTAAAGGATTTTAAAAGTTTGGAGACCACTCATATAAAAACCAGACAAA
TATATAGAAAAAGGAAGGAGGGGAAAAGTACATGTGTGATAGATAGGTCCCTTGACTTGGAGAGCATTCCACATTTAAAGCAAAAAACATATATACATAT
ATTTTAATGGGTTCTTTCAAGCCACTATTAAATTTTATAATTACTTTAACCCAGTTTTACCATAACTAAATATAAACAATTAAAATGGCTTGACCACTTA
ATGAAACTTAGTAATAGGTTCAGTTTTTAAAAATTCAGATGGCTTATTATTTTTACCCTTCTGTATTGTTTGAATTTTTTGTCAAATGTATGTGCTGTGT
GTATACATATTTTAAGCATAAGATTGTAAAGAGATAGCAAAAAAGAAGGGGGAGAATTTTAAAAGATTACATCATGCAATTAATTTCTATGGGATTTTTA
AAAATCACATACAGTGTTTTATTCATTTAATTTTCGCTTTGCATTAAGCTAATTAGTCAAGTTAAGCACAACTACAACTGAATGGATTCTCTCTCTGCAT
TACAACATTCTGAACTCTTTGCTTTTTCAGCCACTTTGGAGAGAGACTAGTTGTGAACCAATGTTACATAATGTGATGGGATATGATATAATGATGTGAT
GATATGATGCTGATTCCATTGCAGGCATGATCACACGGCTCCGCCACCCTGTGTCAACAAAGGCCAACAAGGTCCCCGACTCTGTGTCCCTGGGAAATGG
TATGGATACATACTTGGGTTCTTAAACTCCATTTTCCATCATTTTTTATTTAAATATATGGTTAATTTACTGGCAAAAAAAAAAAAAAAGGAGGAAAGAC
AGGAAGGAGGCCTCTGTTCAGATTGTATCAGGAAGGATTTTCTTTAAAAAAAAAAAAAATCTGTCCTCTCAACCTAAATCTGTAAGCTTCTAGAATCACC
AAGAAGATCATCAATTTGTTTTCTTATCAGACCCCATTATTAGCCTCCAGCACACCATTGTCTGTCCTATCTTTTTCCTGGATTTTGTGCCCACTGAGCA
GAGCCAGTATTCAACCTTGTGTGTTAGGACGATCACATCCACTGCGATCACAGTTTAATTTTTTTATTAAAAAAATCTGACAATGTTTTACCAATCTAAG
GACATCGAGTACATTTTGATGCTAAGCCTCTCCAAGATGCCTCTGATTGGCAAATTGTTTTTACTCTGAGCCTTCTTGTTAAATAACTGTAGCTACTTCA
AGAATAGTGTTACCCTGGTGCCATTATCACGTAGCCACAAGACCACATCACTAAGGGTTTTTTTTTTTAACTTATCAACTTAAAATAAAAAGTCTTGTTT
ATATTGTCACTGTGAAACTCCCATTGGAGAAGAAATCACTTGGGAAGCTGTTAGCCCCAAAGCTTTCTATGCTCGTCCTAAAGAATGTCCGTCTTGCCTT
GTTAGGAATCTGGGAACTGAAAAGAGAAGAGATTACCTTGTTGAAGGAGCTGGGAAGTGGCCAGTTTGGAGTGGTCCAGCTGGGCAAGTGGAAGGGGCAG
TATGATGTTGCTGTTAAGATGATCAAGGAGGGCTCCATGTCAGAAGATGAATTCTTTCAGGAGGCCCAGACTATGATGTAAGTTTTTCCCAAGGAATGGC
TGTTTAGCCCTCATCATGGGAGGGCATTAGCACTAATAGGCCTGCTGTTAACTTTGCAAGGCCTAGAGCAAAAGTCCACATACTGTATCATAGACATAAA
TATTTAGAAGTTATAAATTGAACTAACAGACTATTAAATCAAATCAGTCTTATGCTCCTACTTTGACAAATATACCTTCATAACAACCTGAAAGGCCATA
TTCAAATTGAGAATTCCCAAGACTCTACAAAGAAACCAGCCTCTGGCCTGTGGTCTTCCAAACTCCACCCCTCCTGCTTCTCCCCTCATACCCAACTCCG
TCCTGCACTATAAGGGGCCTCAGTAGTTATGTACAGACACAGCATTCAGTACACACAAGCTCCCTCTTTGTCTCCCGCAAACAATTATCTAGTGGCTAAT
GATCTTGGCTAGGGGTAGTGTGCTTTACCCTTAAGCGGACAGACTCCTTAAGGAAGAGTCAGCACAGGTCCTGAAAGAGGCCTCAGGACTATATGGTTGG
GTGATTTCAGAGTCCTGGTGCTCTAAGGGTGGCAGAGAAAGGGACATATAGGGTCGGAGTAGGCATGTCTCCTTGGCCCTGTGGCCTCCTTGCCCTGTGG
GGAGGTGCATGGTGGGATGAAGAACAGAGTGGGGCTACCACCCAGAACTAATGCAGTACTGAAAATTAATGCTCTACCAACAATATCCTTTTCCTTCTTG
GTACCTTCAATACAGTCTAATACTCTTCCTAATGTGTCTCAGCTCCCAGCACAACAGCCTTCAATTATTGGCAATACATATGTGTTCTCTTTCCCTCTGT
GTCTTCTCTCTCTCTCTCTCTTCCCCCTCTCTCTCTTTCTCTCTCCCTCTCTCTCCCTCTTCCTCTCTCTCCTTCTCTCTCTCTCTCCCTCTCTCTCCCT
CTCTCAGTTGTATATAATTCTCCCTCTTCTTGTCAACATAGTAAATCAGACTTTGTAGAGTGACCACCATTCAGGTTTGCTGAGGTCTGGGAGGTTTTAG
CACTGAAAGTCCTGTGTCCTAGGAAACCTCCCAGCCCCAGGCAAACCAGGACAGTTGGTCACTCTACTTTTAGAGAATCAATCAGTATGGTATGAAAAAT
GATGTTATAGTAGGTCTCTGGTCAAAAATAGTTGAAATAAAAAAATTCCTAGCCTGCTAGAGATTGAGAGCACTTTTTAAATTTTTACTTAAACAGTTAT
ACTGTACAGTGTTTACAGGCATTTCTCTAAGCACTTTACAAATATTAACTCACTTAATCCCCATAAGAAACCTATGAGGGTTGTACCATCGTTATCTTAG
ATTTACAGGAAACCGAAGCACAGAAATGTTGAATAACTTGTCCAGAGTCGGCAAGCTAGTAAAAGTCGAAAAGCAGAGATACAAACCCAGGCAGACATTC
TAGGGTCCATTTCTTTAGTTATTCTTTTATGAAGACCAAAGGAATTAGGAAAGTCAGAACAATCACTTTTACCATAATTGCAAAATTATTTGGAAGCAGA
GATGCTATGTGAATATAGGCCTTTGGCCCTAGCTGGCTTCATGGGCATATGAGATCTGCACAGTTGCAAGGGCCTAGAAGTACCTAGTACCTAGAAGGTA
CCTAGAAGGGCACAGTACCTAGAAGGGCCCTGTGCTTGGTTTAATGCTCTGCTGTTGTCATCTTGAAGTAATACTTCGTGATTTTTAAACAAGGATTCCT
GCATTTTCATTTTGCATTGGTGCCTGCAATTATGTAACTGGTTCTGCCTTCAGTGATTGGACTGTCATAAAACTGGGAAGGGGGCCCCTGATATTCTCCT
CTTGTAGGACAGGAAAATCTGGCAGAAACTTTCTGCCAGATTTTTCTCATGGTTACAGGCTCATGATGTAACCTCTGTGTCTTGGTGTAACTTTAAAACA
TATTTTTGCCATTACCAAGCTGGTATCCATAAAAAAATCACAAGAAGTCATTTAAAAACATCACCTAATCATAAAGAAAAACGTCAAACTGTGCCACAAT
GGGAAAAAGTCTAATCCCAAATGTAGGGGTCAAGCTGAAGCCTATCATGTGGGGAATATCAGTTAATATGGCGCCCTCACCTTGAGCCACCTGGGCAGTG
ACTGAATTTGTTCAAAGAATATTTCTTTATTGGGTGATGGACCTTTGTGCCATCACAAGCCTTCCCTCTGAAGGGAGCAGTGTTGAGTACCATGCAGGTC
TCCAAAACTGCTAAAAGATGAATACTCCCAAGCTCATCAACTTGAGTGACATGATAAGCATTGTCCCTATAGTTAAACTAAGAAGGAAGAAAATAACTAA
AAATTTAATAAATTCTTATTAAAATATTTAAAACTTCACATGTTAAATTTAGATTTCTTTACACATTTGAACATTACAGAATAATCCTGTAAATTGTTAA
AATTAGATTAATCATATAAGAACAAGTTAATGAGCTTGTAAAAACTGAGTGTCCCTTCTCAAAAGAAGACATTTATGCGGACAACAAACATATGAAAAAA
AGCTCATCATCACTTGTCATTAGAGAAATGCAAATCAAAACGACAGTGAGATACCATTTCACGCCATTTAGAATGGCAATCATTAAAAAGCCAGGAAACA
ACAGATGCTGGAGAGGATGTGGAGAGAAATAGGAACGCTTTTACACTGTTGGTGGGAGTGTAAATTATTTCAACCACTGTGGAAGACAGTGTGGTGATTC
CTCAAGGATCTAGAACCAGAAATATCATTTGACCCAGCAATCCCAGTACTGGGTATATATTCAAAGGATTATAAATCATTCTACTATAAAGACACATGCA
CACATATGTGTATTGCAGCACTATTCACAATAGCAAAGACTTGGAACCAACTCAAATGCCCATCAATGTTAGACTGGATAAAGAAAATGTGGCACATATA
CACCATGGAATACTATGCAGCCATAAAAAAGAATGAGTTCATGTCCTTTGCAAGGACATGGATGAAGCTGGAAACCATCATTCTCAGCAAACTAACACAG
GAACAGAAAACCGAACACCGCATGTTCTCACTCATAAGTGGAAGTTGAACAATGAGAACACATGGACACAGGGAGGGGAACATCACACACTGGGGCTTGT
TGGGGGGTGGGGGATAGGGGAAAGATAGCATTAGGAGAAATACCTAATGAAGATGACGGGTGCAGCAAACCACCATGGCACATGTATATATATGTAACAA
ACCTGCACGTTCTGCACATGTATCCCAGAACTCAAAGTATAATAAAAAAAAAAATAAAATTTAAAAATCAACTTCTGCGTGGCAACAAAACAAAATAAAA
ACCCTATGCAAACTAAAAGACAAATGATAAACTGAGCAAAATTATTTGTAATTCATATTATGGACAAAAGACTAATCTCCCCAAAAAGGCTAATACCTCC
AAACTCATTAACAACTACACTACTGCACTGTTTGTTTGTACAATGGATCACTCAGAGTCAGCTCAGAATCTAAGAGTAAAGTACATGTCAATCCAAAAAT
GTGTCCAAATTCACTGAAATACAATGTAGAACAGAAAAGAAAGAGTAATTGGAGTTGCTAAGTACTTTCAAAAGGCTTTATGCTTAACCGTGAAGACAGT
AAAGAGAGTAAAGCAGCAGTTCGGGAGCCTGTCTGGAGAAGTAAAGGTGATATGGCAGCACACTGCTAGAGACTCCGCTAGACATTTAGCTTAACCTATG
CATCTCACAAATGGAAAAAAAAAAAAAAAGATAGGTGAGAAAAGATATCATGAGAAAGGTAATTAAGGTAGAAGAATCACACTTTACAAGAAGGTTTGCT
TGATTTCTTTTAAGCTCTAGGCTAGTACAAAATTTAAGATTGATATTACTTAAATTAATAAGAAACACTAAAGGACTCTTCAATTCGCAAGATTAAACAC
TTCCATCTGGAACATCTGATTACTAAATAATAGCCCATAGCTACATTACGCTCCATTTTCTTCTACTTAACTTTATCATTTTAAAAAGGGTGCTGGGAAG
AGGTACGGTAAAACCATCTGCCATAATAAAATGAAAATTATCTCATTAAAAAAAAATCTGAGTGTCCATGCCATCATGACCTACCAGAAGTGCTACATCA
TATGGTTAGTATTTTATAAATTTGTTATTCAAAAATAATGAAAACAATAATGTAAAATAATTTTTTAAAAAAGAAAAAAAATCAAACCTCATCTGACTTC
ATTTAGCCTACATTCTTCGTATTCTAATATACTTTTTTAGAATGAAATATTTAGATGTGAAAGTTAATAAAAGAGAAATGATTGTTCTTAGGGTGTGGCT
TCCTCTAAATAAGTCATGGACGTTCCCAGGATGCCATGAGACTCAACAGGGTTTCCAGTGCAACAGACCATTGCTACCCTGATTCTCTGTAGGAAAGTTG
AATACAGCATTCACAAACTGCTAAATTGCTGCTGAAGTCACCAATGTCTGATATGAGGCAGAAATTTTTTTTGCCTCCAAAGATAATTGTGCTTGAAATA
TAAGATCCTAAACTTTTCCCTCTCTTTCTCTGTTCAAGTGAAAGAGGGTGGGGGTGGGAATTAAAACAAACAGAAATCTGAGAGCAACTCTTTTTCAGTA
CATGTAGAAAAYGGAGTGTGGAGCATTGAACTTTGAAAATCTGTTATTTCCAGGAAACTCAGCCATCCCAAGCTGGTTAAATTCTATGGAGTGTGTTCAA
AGGAATACCCCATATACATAGTGACTGAATATATAAGCAATGGCTGCTTGCTGAATTACCTGAGGAGTCACGGAAAAGGACTTGAACCTTCCCAGCTCTT
AGAAATGTGCTACGATGTCTGTGAAGGCATGGCCTTCTTGGAGAGTCACCAATTCATACACCGGGACTTGGTAAGCAAAGCCATTGGAATTTCAAAGAAA
AGAAAGCAGTCCACGGCTCCCACTTCTGGAGATGGGGTCACTGGTAKGGAAGGCAAGAAGGGCACCATCACTTCTACTTTGCTCACTTGTGACTTGTTTA
AGCAAATGACATTTTTACAAAAATCAATGTAAAAATATTTGAAGTATGGAAAGAACAGTGAGAATAAAATAAGCTGTTAAGGTCTACATAGCTGTGTTGT
GGCAAGAAGGAGAACAGATGGAAAGGAAAGACTTCTGCCAATTTAGTGTCTCTCAAAACCATTAAACCCAAATTGACCTTCATTTCAGGAAGGGCTTAGT
GCTAAAGCAGCCATTTGATACAATAACTGAACATGAAAAAAAAAAAAGGAAATAGAATTTGTGTGTCTTTGGATCAGAATGAGAGTGGGGAATGCTGTGT
TTGGTATTCACTGGGATTTATCTTTAGAGATTTTCTTGCGCTCAACAGTAGACCTGCATTCACACTAGGCCAGTGTGTTCCCTAAGTCACAGGTGCAGCG
TTTATGCCTTCAAAGCATCTGTGAATGCACGGTATCTGGTGGTGGAAAGGGAGATTCTAGAAATTTCTCATCTTTCCTTGATAAGCTAAGGTTCTGTGTT
TAAAGTGTAATACCTTTTCATGTTGTTTGACAAGGATGGATGCTTGGTTGAAAGTACTCATGGGAGAACATTTTTATTTTGAAAAATTGAAAATTGCAAA
GGAAAAAAAAGACAACTTTAGAGCACTTGGGGGTTGTGCTAGGTAATCTTAGATTTTGCTGAGAATTCTACTCAAAAGGAGGAAAATGTCAGGAGATTCT
TGGTCACTTTCACTACTTGGTGATTTTGTTTTTCCTTTAAAGGCTGCTCGTAACTGCTTGGTGGACAGAGATCTCTGTGTGAAAGTATCTGACTTTGGAA
TGACAAGGTAAGCCAATTCCGAAAGGGCAACCAGTGAAAGGGGGATTTCCATTCACATTTGAACACCATCATAATTGAAGSCTTTGTGGGGATATAGAAG
GTGCTCTGAATTGGGGGCTTAGAAACCTAAGTCCCTCCCATGGGATTGTTCTTCAGAAATTATCTGACGTCACTTTTAGTTCTTTCAACAATCTGATACT
TTCTAAACTTCTAAATAAATTCCATGAAAGATCCTAAATTTAAATACAAYATGTTACAGCCACATTATTGGATTGTTTTACTTTCTTTTAAATTTTTTTA
TTTTTAATTTTTGTGGGTACATAGTAGGTATACATATTTATGGGGTACATGTGATGTTTTGATACAGGCATGCAATGTGAAATAATCGCATCATGGAGAA
TGGGGTATCCATCCCCTCAAGCATTTTGGAGTACTACTCAGCCATTTAAAAAGAATGGATAAATATTTATAATTTTTTAACTCAATCAAGGATCTGCTAG
CTCTTTTTGTCTGTCATTAAAAAAAAAACCTGATGTTCAAATGGGTAGAGCATTCACACTAGGAAAATTTTTGTTGTCACATCATTAGATTTTCTGCATC
ACAAAGTAAGGCATAAAACTAGACTCTGAGATTCTCTTGATGGGCATTCTACCACCACTTAATGATGTGGAACAATTATTTTGATTACGATCGTTTTTTT
AAAGTCTTCTTTTACCTTAATCCTGTATCCTAATACTATTTAAGCCTCAGAGCAAATTTTCATAGTTTTGCAAAGAAAACGAAGACATACACATTAACCT
TTCTATTCAACATTTATTGAGTGCCTACTGAATACCTCAGTCCTGCAGGAGATACTGATATGAATAGGATAGTCCCTGCTCTCAAAATGACCACAGTTTA
GTCTAGAGGGYAAGTAGATATCCCTGACATTGAGACAAAATATAACTATAAAGTTGTGCTGACTCAATATGTAATTCTGAAGGTGAATAATGCAGTTTAA
AAGAGATCTGAAGAGTTGACCAAGGCCAGGTTAATATTTAGCAAACATTGCCCTAAAATGCCATAGGAGGATCTGTTTTTTTAATGTCTTCTCCAAAATT
CAGTGTTAGGGGATGCTTTTTGACCCTTGTGGCACATACCGTGGAAGCTATGGTAATTCCTCTGGGAGCCCTAAATATTGGCAAGATGTCCTTTTAGCTG
TGTACTAGCTACCGTCACTCCAACCACCATACACTGAGTCCCCTACACTGACCCTCCAAACATGTAGCTTTCTCAAGAGCAAGAAAAAAAAAATCTGCTG
ACAGGTTCTTAAAGCAGGGAGAAGCTCCCAGGTCAAGGGAACTGATCCCCACCTTTACTCTAAAAGCAAGAATATTGGCTGTTATGCCAGCATCCAGGGA
ACATGCTTTCACGTTCTCTGTAGCTTTGGAAAAGGGAGACTTTTCCAAAAAAAGATCCAAAGAAAAAAGAGATCTTGCTCTGAGTAAGAGATCCTGGAAG
CCATGTACCAGCCCTGTTGGTTATGAAGCTCTGTGGCCACATCAATTAGATGCCTGTGACTTCATTTGCTCCTACTAGCTTGAAGGAAGGTTTAAGCCAT
GAGCATCCCCAAACCAGGAGTGCCAGGGTAGTGTCTGGGTATCTGGTAGTGTCTGGGGAGCTGAGGGGTTCTGGGGAGAAAAGTATGGAATGTACTGTAT
GTAATCCTATGAAAGTGTAGTTTATTAATATTATTGTTAATATTTAGAAGGATGATCTTCCCAGCCAGCTATTTTAAATTACAGTGAGATCTCTAAAACA
TTTGGTGTGTAAATTATATCCAAAATTCCAATTGCCATAACTCCTGTTGTTCTATTTTCTCTAATTAAGAGTCATTATGTGTTTGTTTTTGTTGTGGTTT
TTGTGGGCAAATATATGATGTTCTCTTTTATTAATACTATAAATAATATGTACTTATTATAAGAAAAATAGCATTAGTGTAGAAAGTAAAAAGTAGAATT
GTTAGCAGCAGTGAATCCGTAAAGGTCTGCAGCAACTCAATTCTTGCCTCCTCAAAGGAAAGGATTCATCTGAGGGGCATAAGGCAGAGAGAGAGACTGA
GGCAAGTTTTTGAGCAGGAGTGAGAGTTTATTAAAAAGTTTTAGAGCAGGAAGGAAAGGAAGTAAAGCACACTTGGAAGAGGGCCAAGAGGGCAACTTGA
GAGATCCAACTGCCCTACTTGGCCCTTGACTTAGGGTTTCATACATTGGCATAATTCCAAAGTTTGCATCTTTTCTCCCCTGATTCTTCCCTTGGGGTGG
GCTGTCTGCATGAGCAGTAGCCTGCCAGCACTTGGGAGGGGCCGCACGCACAGTGTGTTTACTTAGGTTGTGCGCATGCTCATTTGAGGCATTTTTCTTT
TACCAGTCGAGTATTCTTAGAGGAAGGTCATATACCAGTTAAACTCCATTATTTTGCCTCTTATTGCGCATGTTTGACCCCAGTTGCCCAACTCCTGAGA
TCATATCAGGAAGCTGTTGATCATCAGCTTCAAGTATTTTCTATCTATTGGGAGACTGCCGTTCCCTGGCACCAGCTGCGACCAATTATTATTTTAGAGA
GACGGTTAACAACTGCCTGACTATTACCTGACGGTCACCTAATATTCCTGGGTTGGGGGTGGGGGATCTCTCCTGCCCTGCTCATGTCTGCCTAGCTACC
TATTCTGACAGAATCTGTCCCTCATTTTCAGTGCTAGGAGTAACCACTGCTCAGATGTTTGGTGGGTATCCTTTCAGACCTCATTCTTAAGTGTATCCAA
TCATATACACAAATATGCACATTTACTACTTGTTCCCACACACAAAAAATGGAATCACATTATACACACTTTCTTTTGCACATAACCATATACCATGAGC
ACCTTTTTATTTTGGTGAAGAGTTATCTCATTTTTGAATGGCTATGTGCTATTCTATTGTGTGAGTGTGCCATAATATATTTAATTACTCCTCAACATTG
GGAACATTGAGGTTGCTTTCATTTTATCATTATTACAAACAAAGAGTTTAGTGAACATTCTTCAACATGTATTTTGGTCTTGATATCTCCATAGGATATT
TTTGTTCATCATTATTCATAACAGCAGAAGATTAGTAGCAATTTACCTGGTTAAATAAATTATGTTTAATTCCTTCCATAAGAAGAAATAATAAGAGGGA
ATGGTATTCAGCCAYTAAACATGATGCTGCAGTAGAAATGTAACCGTATGGGGAAATGCTCATGATATACCATTAAAGGAAAAATAAAAGCAAATCTCAA
TATAACAGAAACCCTATTTTGTTCAACTTATATATGTGGGAAATAAGATCAGAAAGTACAAAGAAAAATGTATTTTGAGTGATAGAATTACAGGTTATCT
TTAGGGTGGGTTTCTGAGTAATTTTATCTTTACTTTTTTGTGTTTTTCTATATTTACCAAACATTTTGCATTGAGGTTTTGCTGTATTCAGTTAGATATT
ATYTTTTAAATGCTTACAAACCATAAGCAGCCTCCAGCTAAGCCCACACATTGAAAGGAAACAAAAGTTCCAGAAAACTGAGGCAATCGACTGAGACTCT
GGGTGGCTTCCGTGTCCTTCATCAGCCTGTACCACCACGGCTTAAGGTCTGTGTTGATGTGTTTTCCCTGGCAGGTATGTTCTTGATGACCAGTATGTCA
GTTCAGTCGGAACAAAGTTTCCAGTCAAGTGGTCAGCTCCAGAGGTGTTTCATTACTTCAAATACAGCAGCAAGTCAGACGTATGGGCATTTGGTAAGGA
TGTGGCCACATACGACCTGGCCCTGTTTCATAAGCTTACTTCCACAACAGGAAACCACAAGAGTAGCAATGTCCATTTTAAAAGGGCCCTTGAACACTTA
CGAAGTTACACATATAGCCTGAGAGAAGCAAGCTGTTGAAGAAGGTGATTTATTTTCTTGGGTTTGGTATTAGGATGTCTTCTACACATCTTGTAATTTA
CATCCTGCTAGCACTTTCTCATAAAATCAAAAGGGATAAATCTACTCAGAGGTTGAGGTGGAAGGATTGTTTGAGCCCAGGAGTTCAAGTCCAGCTGGGG
CAACACAGTTAAGACCCTGTCTTTAGAAACATCAAAGGGGATGAAAGTTTTTCCAGTGAAGATTTCAAATAATTTTTTAAAAGGAGTCATTGAAAGCTGA
ATCTGAGTTTTTGCTGAGCCCCAAACGTTGAAAAGACATCAATTTTCTGCATGAAAATAATGGGATAGCCATTCCCTTCTGCGCTGACCAATTCTTAGTG
TAAACACCACACATGACTTGGTACTTTCTTTGACTCGTGCCTAGTTTCAAGTAGTCTCCTCTCTGTTAAAATTTATATTTTAGATTGGGATTGGCAAACC
ACAGCCCAGGACCAGGTCAGTTGGTTTTTGTAAATAAAGTTTTATTGGAACACAGTCATGCCCATTCATTTATGTATTATCTATGGCTCATTTTGTGCTA
CAACAGCAGAGTAGAGTAGTTGCCACAGATACTGCATGTCCCAAAAAGTCTAAAATGCTATGTGGCCCTTTATAGGATAAGTTTGCTGACTCTTATTTTA
CTAAAATATCTATATTAAAATTTAGTAAAGGTCATTAGAAAAGGGAAACAATTCTTAAATTGTGACTACATTTTATGATATTTTTTCTATGTTGTGAGAA
TATCAAGGCTATTTTCAATCACTGTCGGATGGACCCAGGATAAGTAATCCAAATGTGACTGAGACCTATTTCATGCCTTAGTTCATAAGTGTAATTTGAT
TTACTGCTTGTCACCTACAAGACTGCCTTTGAAAAGGGGAAAATTTAGTTATTTATTTCTCTATGTGACACAATTTTTAAAACTAACTATTCCCTTTGTA
AAAGTGGCATTGTTCGTTGTTAAAAAAAAAGATAATCAAATACACACAGAAAAAGAAAAAAAATCACAAAGATAGCATTTTGGTGAATACTTGATGCCAT
GTTGTACTGATTAACTTTTGTACCTTGTTGTCAAAATTAGTTTTGAGGCTGAGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTCGAGAGGCTGAGGCG
GGCAGATCACTTGAGGCCAGGAGTTCAAGACCAGCCCAGCCAACATGGCAAAAACTCGTCTCTACTAAAAACACAAAAATTAGCCAGGCATGGTGGTGCG
CGCCTGTAACCCCAGCTACTCGAGAGGCTGAGGCACGAGAATCGCTTAAACCTGGGAGGCAGAGTTTACAGTGAGCTGAGATTGTGCCACTGCACTCCAG
CCTTGGCGACACAGCAAGAGGCTGTCTTAAAAAAAAAAAATTAGTTTTGATAATCAYGCATCAATTATAAGTGATAGCAAAAAATCAATGCCCTAATTTA
ATAATTACAGCTTGTTTTTGACCAAAAAATAGTATTACCCAGCTTGATTATTTACCGTATGCCATAGAAGTTGGCCCCAGATATTTTCCAGCTGTTTATA
AACACTAAATTCATTCTTAAACAATATATCCCAGTGAGGATACCCAAAATGAATCAGGGCCTCTGATAGCAATTCCCAAAGAAGAACCCCACAGATATTT
TGAAATAAGTGTGTAGCCTTCCAAAGAGAAAGTTATGAGGAAACTGCATTCTTTTGGATTGTTGTTTTAGACTGTGTGATTTAAAAGAAAAAAGCAGCCA
TAAAATTTATAAGGTTGCTTTATTATAAATATTTGAAACTGGCTGACTGTTGAAATTTTCTGACCTTGGCCAGCACAGCACAACTGCCACCATTTAGAGA
GCACTTGAAACATCTCAGTGCTCTTTTAAGTGCTTTACGTGTTTTATCCTATTTAATCCTCACAGCAAGTCCATGAGGTGCAAATACCCCATTTTATAGA
CGGAGAACCTGAGGCTGAGAGGGGTTGAGAAACTTATCCCACCTGTAAGTGACAGAAGTCAACTTCAAAGGCCATGTCTAACTGATCCCAAATGCCATCC
TCCTGACCACCATGACCAGAACCGAGATTTCTTAACCTGGGGACTGCAATTTCCTGGATGAGTTTTGGGGGACTGTGAACATCCTGAAACTGAACACAAA
AATGCTGTGTATTCACTTTCCCAAAGGCGGCCAGTGGCTTTCATCAGATTCCCAAAAGGGTGCCTGGCCCATATGAGATTAGGAACCACTGCAGCAATAG
AAAGGAGAATGTTGTCAATGATTTTATCTTGAAATTTCCACTGAAGTGTAATCTGATTGTGCAATGAAATTGTTGCATGCAGCTGCCAAAGCCGAGAGAC
GGAATGGGTGAGGACATCAACCACTCATTCATAAGGGTTGGGGCAGGGGCTCACTACACAGGTAGTTGTCACTGTGAGGCTGACAACTCACACTTCACAG
GACTAGCGCAAGAATTGTGTCTTGGCCCCAAGAGGTTCCTCTGTGGCTGCCCTTGCCATTCACCCACTTTCCAGCAAGCACAGATGTACAGGTATCAGGG
AACATGGGGAAGAAACCCCAGGCTCCAGAAGCAATGGCACAGGCTCACCTTCCAAGCTCTGCTCATTTCGCTGGGACTCATTTCCCAGGGATCCCTCACT
CTGACCCATAGCCTTCCTGACCTGTTGTGTGAAACTCACTCCACAAACCCTGTACTTTCTGATAACAGCTCTCTTCCTTTTTTATCTGGGCCACCTCTTG
GTGTGGTGCAGGGATCCTGATGTGGGAGGTGTTCAGCCTGGGGAAGCAGCCCTATGACTTGTATGACAACTCCCAGGTGGTTCTGAAGGTCTCCCAGGGC
CACAGGCTTTACCGGCCCCACCTGGCATCGGACACCATCTACCAGATCATGTACAGCTGCTGGCACGAGGCAAGTGTATTCTCTGGGTGGGCTGGAAGGG
GTCTCAGGCACATCCGGGGTGATTACTGCATCACCACTGGGACAAAGCTTTTTTGAGGGAAAGCAAYTGGTACAGAGCAGGAGAGAATGGTCCTCAGCCC
CTGCCCTAAAATGTTTGTAATCTAAAACATGCGGGTGCCAAACAATTTACTGAACAACTTACATACAGCAGTGTTCTAAGAACACTATAAATATTAACTT
ACTTATGCATCAGGAAACACACTGAGGTAAGTACTATCATTGCTGAAACTAACAGAAGAGTAAACAAGGACTCAGAAAGGTTAAGTGACTTGTCCAAGGT
CMCATAGCTAGTAAGAAGTAGACTAGCTAGTGCCAGCGTCCCTGTTCTTAACTGCAACACTATGGAGCTCCTCGAGTAGAAAATAAGTAGCAGAAAACAT
CTAACCACACGTAGAGAACACATAATGGACACTATCCCATCTTCTCTCCCCCTGCCTCCCAAACACTGAATAAAAGCATTCCATGCAGGTAGAAGATAAG
GGTATCTTATGGGGAAGACATGGAGCTGAAGCTTCAGGGGATTAATTTGCAAAGCATCCACTAAGTTCATAGAACTAATGGAGGTTGTTAAGGAAGTATG
AGGCTCCATTTGTGCCCTCACTGAACTCAAAGTCTTTACACACACACACACACACACACACACACACACACACACACACACACAAATAGGACTGAAAACA
CCAAGCAGTTTATAATTATGTGCCCAAATTAGAAAGACAAGGTTTTTGCCATAACTTTCAATGGCAAAAAACGTGATTACTTTTGCACCAACCTAATACA
AGAAGCGCTCAGAGGAAAGAGAAACCAGCTTCCTGAGAGAAAGCAGCTTCTTGAATGCATTGGTACCTGAGCTGAAGCAGGAAATCTCTACAAAATTTCC
TAAGTATGTGAGTGGAGACATTGTAAAAGGGTGTCCAGGTGAGAACAGCACAAGCAAAGGTGTGGAGGCAGGAACGAGCATGGCACGCTAGGCTGGTGCT
ATCGTTGGAAGGGCTGGAGATAAGTTTGGAAGAGTAGGTCTGGTTCAGGTTCTGCAAAGTGAATAACAAGGAGACAAGTGAGAGTTTTGGTTTTTGTAGG
CGATGAGGAGCCACTGAAGACTTTTGAGCAGTAACATGATAAAAGGAGGCTTTTGAGAACATTATTCTAAGAGCCCATGTTCATAATCATTATATGGTAC
TTCCTCAATGGCAAAGGGCCTAATGCTGCATTCATTTATTCACTAGTAAAAGGCAAATTGGTGTAATGGTTAAGCCTGTGGGTTCTGGCATCAGAATACC
TGGGTTGAATCCTGTCGTGATCACTTACTAGTTATATGACCTTGTACAAACCTCCTATTATTATCTCTGTGCTTCACTGTAATGTAATGCTTACCTCATA
GAATTTTTGGGTGGATTGAATGAATTAGCATTATAAAGGCCTTAGGACAATGCCTGGTACACAGTGCTGTTTTTCTGTTATTAATATTGTGTGTGTGTGT
GTATATATATATATWTTTTTTTTTTTTTACAAAGCATCTATGCACCAGGCAGTACGCTTGGTGCTAAGAATAAATTGACGCACACAACTTAAATAGTTTC
TAAACTCTTGTACCGGAGCCTAGAGTCCCACTTTGGAAGAGTTGCTGATTGCATCACATAACAATATTTTTCGTTTAGCCTTAAATTATCACCTGGAATA
TGAGCACTCTGTAATTTCCCACCCTATGGCATTTGGAACAGTATATAAGGTTTCCACACCTTTTTCTACCCCAAATGTTGACTATGGGAACTATGGATAT
GGACAGAGATATGCAGACTACAGTGGCCAACAGAGCACTTATGGCAAGGCATCTCGAGGGGGTGGCAATCACCAAAACAATTACCAGCCATACTAAAGGA
GAACATTGGAGAAAACAGGATGAGATGTTAAAGTAACCCATCTTGCAGGATGACATAGAAGATTGGTCTTCTGTTGATCTAAGATGATTATTTTGTAAAA
GACTTTCTAGTGTACAAGACACAGTGTCCAACTGTATATGGCTGCCAATTAGTTTTCTTTGTTTTTACTTTGTCCTTTGCTATCTGTGTTATGACTCAAT
ATGGATTTGTTTATACACATTTTATTTGTATGATTTCATGTTAAACTTCAAATAAATGCTTCCTTATGTGATTGCTTTTCTGTATCAGGTACTACATAGC
TCTGTAAAAATTTAAAGTAAGCAATAATTAAGGCACAGTTGATTTTGTAGAGAGTATTGGTCCATAGGGAGAAACTGTGGTCCTTTATAAATAGCCAGCC
AGGGTCACCCTCTTCCCCGATTTGTAGATGTATTCTATGCTCTTAAGGTTTCATCTTCTCCCTGTTAACTGAGGTTTCTACCACACTTTTGAATAATGTT
CTTTCCCCTCTGGTTATCTGAAGATTGTCCTGAGAGGAAGACATAAGTGTTGTGATTAGTAGAAACTTTCTAGTAGACCATGTTTCTTCTGGATTGTAAT
AAAATTGTTAGTAGCTCCTTTTGCTTTGTTCCTGTCTCTAGAAAGCCATCTTTGAATCGTTAATTACTTTGGCTTTAATCAGTGGTCACCTAGAAAAAGC
TTTGTAATCATAACACCATGACTTTAATTCTTGATAAAAATTCAGATGCACACAGGAAGGAGCACTGTAAAACTGGTAGGAGCTATGGTTTAAGAGCATT
GAAAGTAGTTATAACTCAAGGATTTTGGCAGAAAGGTATGAGTTTGGTCAAAAGTTAGATTAAAATTTGAAATAGCGGCAAAATAAGATTTAGTTGTATT
TTGTTTTCTCACAGCCACCACAAGACTGAACAAAATATTTTCTGTTTGGGCATTCTGAGGAAGCTGTATTACAGTTAACTGTTAATGCTGTGTGAGTTTA
GAAAAAGTCTTGATAGTAAATCTAACTTTTAACACAGTTAGTGCATGAACTGAGTAGTTAAACATTTCCGTATTCAGACAGGAATAGTGGAAAAGGTATC
TTAGGTGCGTTACTCAATCCAAATGTGACTGAATCATTACAGTGGACCCTCATGGTGCATTGAAAAGAAACTGTTTTATATCCAGGTTTCAGAGGACCTG
GATAAATAAAAGCTTTGGATTTTGCATTCAGTGTAGTTAGTTGGATTTTGGGACCTTTGCCTCAATGTTAGCTACTGGGATTGGCATATGTGTTCACAGG
CAGAGTAGTTGATCTCACACAACGAGTGCTCTCACAAAACTGGTGTAAGTTTCTTATGCTGATGAGCCCCCGCTTTTTTTTAATTTGGTGCCTACAACTT
TGTTACAATGATTGTACTTGCTGGGCTATCAAGTTACAATGCTCTTGGTCTTTTTTGCTGCTGTTTCGCTATTTGTCCTTACACCTAGGCCAAGTACCAA
TGTTAGCTGTTGGAAGGGATTCTGTTTATTCATTCAACATGCAACTATCTAACTTTAGGGAATGGAAGGAAGTTCATTTTTAAGTTGTGTGTTGTCAGTA
GGTGCAGTGTCTAGGGTAGCGAATCCTGTAAGTTCAAATTTATGATTAGGTGACAAATTGACATTGAGATTGTCCTTTTCCCTGATTAAAAAATGAATAA
AGGCTTTTTAAAGAAACAAACAAACAAAAATATTGTGTCTAAGATTATCAGGCAGCACTAGAGGGTCAGACTGGGTCTGGGTAGAGTTGGTCACAGCCAG
GCTGACTTACTGCTGTCACCTGTCAGATGAAGAAGAGCAGACAAGGGTTTTTCAGTTGAAGCCCAGAACCTCCCTGGCCCTCCCTACTCTAGCTCCTGGG
AATATGACTGCACCATAGGATGGACAGGGGCCCTGAGTCGGGAGGAACTGCCTTCTTCTCATGGTTGGTTCATAAAAGCATGTGAATTGTGGCAGAATCT
GTGAAGAGGGGTTTGCACTGAGACGACAATATCCAGTTAAAACATTGCACCTAATGAGCAGAGCTTATAGATTTGGGTTTTCCCTCCTTTTTTAGATTTT
ATTTTGTGACTTTCTCAATTCATAAAGAGATTGAAAGAACATTCACAATTTTCATTAGATTTTGATTCATCCTTCTGGTATTTCTGTATGCAAAAACAAG
CATATGTATAGATGTGTGTTTTCTTGCTTCCCTTTCTCTCTTACAAAGAAAAAGTAGCATATGAACTTCTCCTCTCCATAGGCGTTGCCTCACTAGCAAT
GTAAGAGGGTACCTATTTTCTTATAACCTCACCAATGGAGTGCATTGTCAAGCTTTTGAAGAATTCTTGCCAATCTGATAAGTGAAAGCTTGATGGCATC
TTAGTGCAGCTTTAATATATATATCTTTCATTATGAGGTTGAGCCTCTTTTCACGTTTTTAAGGGTCATTTTGTGTCTTTCTGAACTGTCATGTCTTTTT
TCTTTTTTCTGTCAGGTTTTAAAGATCTCTTTACAAATTAGGGAGAGTAATACTTTAAGTTATCAGCTTTATTTGATTGAGGGTGGGTGGGTTTTTTTTT
CTTTTTTTGACCATGCAGAAATTYTTCTTAATATAGCTGAATATATCAATATTTGTTTTCATTGCTTCTGGAAATTGTCATAGATAGGCTTTCTCATGCC
CAAATTATAATGACTTTTGCCAGGATTTTCCTCTAGTACTTTTAAGATTGCATTATTTTCCATTTATGTTTCTGATATAGTTTGTGTTTGTTATGGTATA
TGGTATTAAATATGGCTCCAAATATATAATTTTATGTGACTATTCTGTTGTTGGCAGCCCTATTTATTAAAAGACCATCTTATCATCAGGAATGAGATAC
CACCTTAATGGTGGTGAAATGCCACCCTAATATTATACTAAATTTCCATATGTACTTGAATCTATTTGGAGACTTCCTCTTCTGTTCTTTGGTCTCTTTG
TTCATGTGCTAGCACCACACTGCTCTGATTCTGTAGAGACTTTATGATATGTTTGAATACTAGGTAGGCTAGCACCCCTCATTGCTCACCTTACTGTATA
ATTTCTTAGCCATTTTTACATATTTTTTAATTCTATAAACCAAAGAATCAATTTGTTTAGCTTGAAACAAACTCATTCATATTTTTGAGGAGATTGTATT
TAGTTTGTATTTTAAGTTGGGAAATTTGACATCTTTATGATACTGACTTGTCCTAGTCTAGAACGAGGGAAGCTTTTTTTTTTTTTTTTTTTTTTTTTTA
AGACAGAGTCTTGCTCTATCACTCAGGCTGGAATGCAGTGGTATGATCTAGGCCTACTGCAACCTCCACCTTCCAGGCTTAAGTGATTTTCATGTCCCAC
CCTCCCGAGTAGCTTGGACTACAGTTGTGCACAACCACAGCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTGTTCAGGATGGTCT
CGAACTCCTGGCCTCAAGTGATCCACTCACCTCAGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCCAGGGATGCTTTTTTATATA
GTCAAGTCTACATTTGCATTTTTCAGCAGTGTTTTAAAGTCGTCCCCATTTTAGAGGGGCACACTTTTTTAGTGTTTTATTTTGGTGGCGTTGCTATTAT
AAATGGGGTTTTCTCTTMCATGATAACTTCTAAGTGGTTACTGTAGGTATATGTGAAGGCTATTGATTTTGTATGTTAATTTTATATCCTGCTCTCCTAG
TGAATTCCTTTATTCTTTAAGTCTGTTCTAACATTGATACTCTCAGATTTTCCAGGTATACACTAAAATGCTTGCAAATAAAGAGACTTTTTCTTTTCCA
GTTATTGGGGMTCTAATTGTTCTTGCTTTCCAATTGCATTGGTTAACACCTTCAACATAATGTTAAGAGTGATTATTATAGTGAGCGTCCTTGCCTTATT
TCTGACCTCAATTGAAATGTCTGTTGTGTTTCCACATTTTAAAAGTTGCTAGCTTTAGGACTTAGATGTAAATATTTTATATATTTTATCATTGATCATA
ACTCTCATCATCTAAAACATTGGGTTTCTTGTTGTTTTTGTTTAGCTTCCAGAAAAGCGTCCCACATTTCAGCAACTCCTGTCTTCCATTGAACCACTTC
GGGAAAAAGACAAGCATTGAAGAAGAAATTAGGAGTGCTGATAAGAATGAATATAGATGCTGGCCAGCATTTTCATTCATTTTAAGGAAAGTAGCAAGGC
ATAATGTAATTTAGCTAGTTTTTAATAGTGTTCTCTGTATTGTCTATTATTTAGAAATGAACAAGGCAGGAAACAAAAGATTCCCTTGAAATTTAGATCA
AATTAGTAATTTTGTTTATGCTGCTCCTGATATAACACTTTCCAGCCTATAGCAGAAGCACATTTTCAGACTGCAATATAGAGACTGTGTTCATGTGTAA
AGACTGAGCAGAACTGAAAAATTACTTATTGGATATTCATTCTTTTCTTTATATTGTCATTGTCACAACAATTAAATATACTACCAAGTACAGAAATGTG
GACATTTGTCTTAATATTTCAATGTTTTCAAACTTCAGTAGGCATGATAATCAAATGCAGAGTTTATGAAAAGATTCCTAGAAACTACCTCCATAAAACC
TGGCGGAGGAGGTCTGAGTGCAGCCTGTGAATTTGTATTTTTAGCAAACTCCCAGATGTTACTGAAGCAGTTGTTCTGAACTGCCCTAGGGGACCTCATT
ATATGGTGGGGTATCATTAGGTGGTCCATTACCCAATCCAAATGGCACAATTCTCGTCTAATATCCAGATTAGTACAATGACTCTTTATGTCATGTATAA
AACTAAAGTTAAATAATATTAAATAATACATTAAATATGTTCACATAAAGCAAATTTTTTAAGATGCTGAGGTACAATTTCTAGAATTAATTACATTGTT
GCTTTCTAATCATCTTTTTTTTTTATATAAGTAGACAGTTTATTTGGGTCAAGTTTAAGGATTATAACCTGGGAGCAAAGACTCAAGTTGCCTGGAATCT
ACACTTTGATTAGCAGCAGTTGCAAGAGGAGTTGTAAAGACAAAAACAAAGGGACAGAGAGTGGGCTGATACAGAGTTGTTTGTCAGAAATTTTTATTTA
TTTAAAGAAATAACATTGGTTATTGATTAGATATATATCATTATGGTTTAGGGTATGAGATATAGTGTCCAATGTGGTATTATTAGTTTAATATATATCT
ACTTGTGGCAATAGTGAACAGTTTCAAGAGATGAATACATAATTTAAAGGGGGAGAACGACATAACTGCACGTTCATTTCAATGTCTGAGTTTGATAACC
AAAAGTACTTTCATTTTTTAGATAAAAATTTTCTATTTCCCAAATCTCAAGACCTGGATACAAAATGTAGAGCTGCAGATTTAAGGCCTGAATGGCTGGA
GTAGCAGGTGTTACCTGAACATTTGTGAACATTTTACCAAGAGAAAAAAGGGGAAAGTGGAGATTCTCATGTCTACATGTGTACTCAATGAACACATGTT
ACTCTGATTAGGTTTGTGGGCCCCATGGTCTCCGAATCAGTTTCAGGTCTGAAGATAACAAGAGTCATTGAGGGAAATAAAACGATTGATTGTTGCCCAG
TGAAGTTGGTAGAAATTAGGATGAACTATGTATGACATGGTGCTGTAAATTCTTCTACTTGTGGACTAATTTTGGTGACCATCTGTCTAATCATCTTAAA
TCCTTGAGTTTGGGGATCTGGGGCTTCTGGCTAGTTTGATAACTGAAGTTTCTATTTCAGTCTGCTATCTTAACACAAAAATACAGAAGTACTATTTTAG
CTTCTCATGCCTATTACTAAATAGTATTTCACCTTTAAAACAGTACCTGCGGATGCCCTTCTTCACGGCCTGCTACCGAACCCACAGGTTTTAACCTCTT
TCTGAGTATTCCATTGTCTTTTCTATAATGTCAAGAAGGGAGAGACAGATTCTGTAGAGGGCACCATTACAATGAAGAGACACCCCAATTAAACCCTGCT
GCTATTTTCCAGAGATCAGTCAATAATCTCTCAGAGACACTTATATCCTCTCTCATCCCACTCTGTCCTTCAGCCACCAGCTAGTTTCAATGCTCCCTCT
TGCTTATTTGTTTCTTGACATTTCATTAATAATTCCTTCATTTCAACACAGAATTGACACTCGTTAACAGTCTTCTATTTTTTACAGAGGTACACAAATC
TCAATTTATAATTAAATGTAACTCAAAATAATCACTAGGGCATTTGTATATTTTATTTTTGTGGGTTTTTTTTGTAGTGTTGACTGTATGCTAGGTTCTT
TCCTACCCAAGAGAAAAGAAAGAACAGGTGACCCAAACCCTCTTTCTCAATGGACCCACAGTCCGATGGGGGTGCCAGCCTTTCCTGCACCAAAGACTGT
TTCCCCACTCAGAGGATGAGCTCATGCACAAGCTGGGTCTTTCTGGTCTCCCTCTTGAAGATTTTTTTCCTTTCTTCTTCTTATTTTTGTATATTTACCT
TTTAAAAATAATCCTCTTTATAACAAAATACACGCTTGTTGCAAAAATTGTTTACTATGAAAAGAGGCCAAAGCCCTGCTTAGAAGCCTAGCTGCAAAAA
TCAAGTCAGGCAGCAATTTAAGGTACCACTAGAGGTTTATCAGAAAACAAGTCCAGTGATGCTAGGAGGAGCCAAGTAAAAGAACACTATTCATAGTATT
TCAAACGTGCACAATGATTTTTTAATGCTGTATAACTGTGTTTAGTGGTGATATGCAGAATTTATTGTTGTTATCTTAAACCAAGTGTCTGCCTACACTC
TTTTGGCAGTGAAGAAAAAGGAAGACTATGTGGTAAGAAACTTTCCCAAAGGGCAGGCTGCAGAGCAAGTTCAGATAAATCACTTGCTAGGTAAAATCCA
ACAGATGCTCCCTCGTCTTGCTGAGCATTTTCTGACCTACCAGAAGTCAAACACAAAGTCAAGAGGGTCTGGCAAAACTCACCTCATATCTACTTGAGTT
TATTAAGATTCCAACACAGTAGATTTAGCAAGTTGAGTTTCTCAGTTTTTATTCTATCTTGAGAGTGGGTTTATGAGGAGGAGAGATTGGACCTAAGGCC
CCATCTTTACCTAAATGTGGAGGGAGGAGGCTCTCAAATTAGGAAGAATAGTTCATTGAGAGACACCAGAGAAGAGGAAGCTAGCACCTGCCATTTCTGG
CCTGATCACTATGTTTCTCTGGTCTGTGAGCTCCACAATGGACCTTTTGCATTTGCAGTTTCATTTAATCCTTGCTTCCGTATAGCCCAGGGTTTGGCAA
AGTTTGTCTGTAAATGGCTTTGTGGGCCATGCCGTCTCTACTTCAACTACTCAGCTCTGCTCTGTAGCATGAAAGCAGCCCTAGACAATATGAAAATGAA
TGGGTGTGGCTGGGTTCCAATAAAACTTTATTATGGACACTGAAATTTGAATTTCATATCATTTTCATTTATCATGAAATCTTATTCTAATTTTTTTCAA
CCACTTAAAAATGTAAAAATCACTCTTAGTTCACAGGCCAGACAAAAACAGGTGGTGGGGTGGCCGGGCACAATGACTCAGGCCTGTAATCCCAGCACTT
TGGGAGGCCGAGTCAGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAAATGGTGAAACTGCATCTCTACTAAAAAATACAAAAAATTAGC
TGGGTGTGGTGGCTCACACTTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGATAATCACTTGAACCCAGGGTGCAGAGGTTGCAGTGAGCCAAGATCG
CGCCACTGCACTCCAGCCTGGGCGACCGAGCAAGACTCCGTCTCAAAACAGAACAGAATAAAACAAAACAAAACAAAACAAAAAAATGTGGTGGGCAGGA
TTTGGCCCATGGGCCATTGTTTGCCAGCTTCCATCCTAGGCCCAGGCACCGGTCCCTCTTTGTAGAGTCTCCATCCTTTCAGAGGATGCTGCTACACAGG
AGAAGGACCACAAGCGTTACCTGGTGGGCACAGTGAGGACTGTTCTGGAGAAAACCCCAAAATTAAGTTACGGAAATAAGCAGGTTTTTCTTTCTGTGTT
ACAGTTGGACACTATGTCACATGCACATGGGTCCTTTGCCATGTCTGGGGAGGCTCTTTTGAAGGTGTTAGATGATGAAATTGGTTCCTGCAGAAATTAT
TCTTGCACTGTGCTGAACCAAGTTTATGAACTTCATAAAGATCTTGTGGCAACTACAAAGGATGTTTAGATAGCAGTAGCTTGACAGAAGATTTTCATGA
TATATTAGAGAAGATGGGACATATGCAAGATAAAAGAAAAAACTGTCTATGAAATGGTTGCTTAGCCAAGGAGTAAATTATATTGTATGTTGCCCCAAGC
TGTGGGCCCAGTGAATGGCAGGATGGTGCAGATGGTGATGCGAAATGTTGATTGTATCTCGTAAAATAACAAAGAACTCTATCTCTGCTACCTGGGTATC
AGATAATTAAGACATCAAAGAGCCTCAAATGACCCTTATTTTGAGGTTATTTTACAGATTATGAAAGTCATCTTCCCTTCACTTGGCTAACTGATCCACA
ATTACCATAGAGAATTTATGAAGTACAAAGTCATTGTAACATTATGCTGGTCACCACATAGAATGAGTTAATGCATAGAGTTTAGATATGTTAATCTATT
TAATCTAGTTTTAACCAGTCTTCAGGTATCTAAGAAATGCTGTGCTCACACTGGGGTAGTGACTGTGAGAAATATAAAAGCAGCATCAGGTTTGGTTCCT
AACCTGATGGTGTATACACTCTGTACACAACTTTTTTGGGACTAGTTTTACAATTACTTTGTACAATAAAGCAATCTGAGAATTTGCAATACATCACGAG
ACATTTGGAAGGCCAGGAGCCCCAGACACTCAGATGATAACTTTGTTCATAGAACTGAAAAGCAGACAAAACGTAAAGAAGCCCCAGCACATAAGTAAGC
ACAAGGAGTGTGTAAATCTAGCATTTATTGAGTGTCTGCTTTGTGCTCAGCACTGCTCAAACACTGTGAGCAAATACAAAAGATTTAAGAGACTGGGTAC
CCACTTCAGAGGGTGAACATACAGTTGGAATTTCCATTCACTCCACAGTTAGAGAACAGTAGAAATGAGTTTCTATCAGGCATGCTCTGGGAGTTCACGG
AGGCCCCTGGCTCTAGTTTTGTGTTGTCAGGGAGATGTTGATCAAGCACCTTGGAAGTGAAAAAGCAATGTCCTCTACCTGTTCCCTGGATTCTTCTCTC
TTTAGACCTGTCACCTTGAAGAAAGCATGATCGATTCCAAACATCACTGTAGGCAAATCACCATAGTACTTGAACTGAGTTACTGTGAAGAAAGCATGTC
ATCCTTGACAATGGATTAAATGAAAGTGAGCTAATGCATGCCATTCTCAATCCTTGCAGCTACACCAGTTCCCAGGCACTGTCCTTACAAGTGATCCATC
CATATTCCATACAAGATCCAACACTTGCTCCAATGATATATCCTTGTTTTCAACTTCAGAAATTCAACAGACATTTACATTTAGATTATCCCTGAACAGC
CTGTGAGACCAAATACACACTTTCCCTAATATACTCTAATACAAAATCCTTATTAAGAAACAGAACAGAAGTCAAATCCAGAGACAGAAATAAATACTGA
AAGCAATGTCAATGAAGATGCTCTCTCCTTGGCCATGTTGTCTTTGGACAATTTTTTTTCTGAACAGAGTCATAGTTTTGACATTTAATGATATCTTTAT
CATCTTATATTTTCTATACCATGAAATTAACATTTACATACAACAAAATCACCTCAAGAGGAAAAACATAGATTTTTCTAAAAGGAGGTCTGAACATCAT
CAGTGTTTTGGAATCCTGGATTATTTTCTCCTTTGCTAATATCGATGGAGGCATAAGGATTTTCTCCACTTCTTGCTTTATTTTTCCTGTTAAATAGAGC
AAGGTTGCCTTAATATACTTATGTTAAAATCAATCGGACTGATGAAAATCAAAAAGTTTCAGGGGAATCTGTGTTAAGGAGGCTGGGAGGGAGGAACAGG
AAGTTTCATAAACTGTTGATGTGAGTATAAATTGGTACAGCCGCTATTGAGGGCAATTTGGCAATATTTATCAAAATTAGCAATTGCACGTATGCTTTCA
CCCAGCTTTCCCACTGCTAGGATTCATCTTAAGGGTATATTGGCATACTCAGGAAATTACCTATATTAAGCCATCACTTTTTTTAAGTAAACACAAATGT
TTGGAAACAACATAAAAGTTCATCAATAGATGACTGTTTATCAAAATTACAATCCATTCGTGAAATGGGAAATTATACTGCCAGAAAAAAGGAGAAGTTT
TTTGTGCAACTAATGTGTAATGATCTCTAAAACACATTAAGTGGGCTGGGTGTGGTGGATCACACCTATATAAATAAAAATTTAAAAAAACCATTAAGTG
GAA


SNP Information

Context             (SEQ ID NO:54586):
ATTCTTAAAAGAGCCAAACATTAATATTCTACAGCTGCACTCCTTGAGGGAGTTGCTTAAAGCTGAGTACCTTATAATTTATAAAGTATTCCCCCCCCCC
M
AGAAAGCATTTTCCATAATGGAAATCAAAGTAATATATTTAATCATTCATTTTATTTAATATATTCATTGTCTTCAACTTTTTATTATCCAATTAAATTC
Celera SNP ID:            hCV26522489
SNP Position Genomic:     19779
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2|C,3)   total(A,2|C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54587):
AATTTAACAGAGTTTAACGGACCAAGAAAAAAAAATGATTAGCAGATCTGGCAGTCTCCAGAATCACAGCAGATTCAGAGAGACTCCAGGGATGCCACGT
K
GTCAGAACAAATTTATAGACAACAAAAGGAAAGTGACATACAGAAATCAGAAGTGAGGTACAGAAACAGCTGGACTGGTTCAAACAAGTGTTTGCCTTGT
Celera SNP ID:            hCV16192863
SNP Position Genomic:     15919
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,2)      total(G,2|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54588):
CAGGCATAGCTGCAGTTTCTATTCTCTAAACACCAGAAGGCTCATTGCCTGGTTTTGAGAAAGGAAAGACAGTGGTGTCTCTAAAATAAGGTTGGAAAAC
Y
TTGTCTGTGAAGGACCAGATAGTAAATACTTTGACTTTGCAGGCCATGTACATTCTCCAGTTTGCCTTTGTAGCAAGAAAGCAGCCATAGATAACATGTA
Celera SNP ID:            hCV27501173
SNP Position Genomic:     35926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54589):
TGTCTATGCATCAAATGAAGAGAGCCGAAGTCAGTGGTTGAAAGCATTACAAAAAGGTAATTCAAAAAAAGAAATGTTGAAAGAGAAAGGTCAAAAAAAG
Y
CATAAAAGAGAGTCGTTTTTTGAGGCTTGGTGGAGGAAAGACATGGCAGTAAAAAGACTCAATGCCAAGAGACAATCTACTGATTTTCCTACCAACCTCA
Celera SNP ID:            hCV25632270
SNP Position Genomic:     53427
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,7)   caucasian(C,32)   total(C,59|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:54590):
GAGGCAAGTGTATTCTCTGGGTGGGCTGGAAGGGGTCTCAGGCACATCCGGGGTGATTACTGCATCACCACTGGGACAAAGCTTTTTTGAGGGAAAGCAA
Y
TGGTACAGAGCAGGAGAGAATGGTCCTCAGCCCCTGCCCTAAAATGTTTGTAATCTAAAACATGCGGGTGCCAAACAATTTACTGAACAACTTACATACA
Celera SNP ID:            hCV25632271
SNP Position Genomic:     91967
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,38)   total(C,71|T,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54591):
ACTTTTCCCTCTCTTTCTCTGTTCAAGTGAAAGAGGGTGGGGGTGGGAATTAAAACAAACAGAAATCTGAGAGCAACTCTTTTTCAGTACATGTAGAAAA
Y
GGAGTGTGGAGCATTGAACTTTGAAAATCTGTTATTTCCAGGAAACTCAGCCATCCCAAGCTGGTTAAATTCTATGGAGTGTGTTCAAAGGAATACCCCA
Celera SNP ID:            hCV25632272
SNP Position Genomic:     83812
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,40)   total(C,2|T,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:54592):
TTTTAAAATTTCATTTTCATTTAATTTTGGTGAAATATACATAACATAAAGTTTACCATCTTAATTATTTTTGAGCATACAGTTCAGTAGTGTTAAGTAC
R
TTTACATTGTTGTGCAAATTGCCTGATTATTTTTAATGTCTGTAAGTACCAGTTGTATAGATACTAGGTAAACCTAAGTGATGCACTATTGATGGACATT
Celera SNP ID:            hCV8877906
SNP Position Genomic:     66277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54593):
GTGACTAATTTGAAGCTGGGCTTCCAATAGCCAAGTCATGTTTCTTTATCTACACCTCTGTGTTTACACTGAACCCCCAGTGTTTTGGAATGAGAATCTG
S
TCAAATATTGATTCGGATCTTCTTTTAAATTTCTATGTGTGCAACTCTTTTTTAGCAGCTAGATTGAATGATCGTCTGCCTTGGTGCCTTCCCCATGTGC
Celera SNP ID:            hCV8877907
SNP Position Genomic:     74414
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54594):
CTCTTGTAGCTAGTTGTGTTCATATGATTGAATCTAGCTACAACGTAGAAGTTGCAGGGTGGAACTTTTAGGAAAATTCCTTATAAGAGGAGGATGGACA
S
AAGATGAGTATCATTTTGCCCTTCCCCTCTTCCTCCTTTCTTTGCCAGAGGGTAAATGGTTGCCATTTCCCTAACAGCTGTCTTGGACTATAAGGCGATG
Celera SNP ID:            hCV26522490
SNP Position Genomic:     28403
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54595):
TCTGTGACAGTTTCTCACTCTTTCCTTGTTTTTCATGAGCTTGATAATTTTGAAGAGTACTGGTGAAGTATTTTATAGAATACTCCTCAATGGTGGGTGG
K
GGTGCCAACTTTTAAATTCAGATTGTGAAAGGTAAAAATTATCTACTATGGTCATCATTTCATAAAAGAAAGGCCATTCTAACAACCAAAAAAAGGAAGA
Celera SNP ID:            hCV8816934
SNP Position Genomic:     10890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,3)      total(G,3|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54596):
CATAATTTTTAGCTTACATTCCCAGGAATATAACATGATTCTCTCCTTAATGCCAGAAAGAATGAAATTGAGTAAACTGGGTGACTTAGAAAGAGAAATT
Y
TCTTTATAAAAATATTCGTAGGGTTTTTCTGTGTATAGAAGCAAGAGGATTATAAATTTAAAATATTATAGAAATATATACATATCGTTGGATCATGGAC
Celera SNP ID:            hCV11610251
SNP Position Genomic:     76451
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54597):
TACAGAGTGCCTACCTACACTTGAGATAATAGGATGTACCTGAATTGTCCCACAGCACTTTCCAATGCCAGAATCCATGTCCCCAGTGTATCTCATATAT
K
ATTTTGCACATGGTAACACCTGGATGCTGGCTAAAGCCAACCCAGTAAGAATCAGGAGAAGACTTTGTTGACTATCAAAAGTTTTGTGGCCTTCTGGCCC
Celera SNP ID:            hCV8877908
SNP Position Genomic:     74688
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,9)      total(G,1|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54598):
CTTAATTATTTTCTAACTTTCATGCAATTTGAAAGTCCTCTGCCTCCACTTCTAAACTCATGAGTGCACTCACTATTTTAATATCCTTTCAGCTAGGCAA
Y
GTGTTGTGGAGGAGAAAGTTATGCTTTTGATTTAAGGCACTCCTAAATCTCATGCGCCCCTCTAATGGTGCACAGATGTTTTCTAGAGAAAGTCCTCATC
Celera SNP ID:            hCV8816935
SNP Position Genomic:     13637
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54599):
TAACTTATTTTAGTTTTTCTTTTATGGGCCCTTGTTGTAAAACAGCAATTTTCCTGGATACTACTGATCCTCCTAATATTCTTAATTATATAGGGAACCA
Y
GAAAGTAGGAAAAAATCCTCTCAAGTCTTTTGCCTATCATAATTTTTAGCTTACATTCCCAGGAATATAACATGATTCTCTCCTTAATGCCAGAAAGAAT
Celera SNP ID:            hCV11610252
SNP Position Genomic:     76313
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54600):
AGATATGCTTAAAATCCCTCTTACCCCTCTCCATGTATATATCTGTCTCCCATGATTCCATTTTCTCTCACTCTAACTCTTCAAATCACTTCAAACCATC
W
GAAGACACCTCTTTCCTTTTCTCCTCTCCTCTCACCTTCTGTATTTACTCTTTTCTCTTCCACTAGTAAGTCTCTGCCCTTTCCAGTGAAAATCAACCAA
Celera SNP ID:            hCV8816936
SNP Position Genomic:     25239
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   Caucasian(T,29|A,55)   African-American(A,29|T,55)   Asians(A,42|T,42)   total(A,126|T,126)no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54601):
TCTTGTAGCTAGTTGTGTTCATATGATTGAATCTAGCTACAACGTAGAAGTTGCAGGGTGGAACTTTTAGGAAAATTCCTTATAAGAGGAGGATGGACAC
M
AGATGAGTATCATTTTGCCCTTCCCCTCTTCCTCCTTTCTTTGCCAGAGGGTAAATGGTTGCCATTTCCCTAACAGCTGTCTTGGACTATAAGGCGATGC
Celera SNP ID:            hCV26522491
SNP Position Genomic:     28404
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,3)      total(A,3|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54602):
TCTACAGAGGCTAAATCAGTGAAGAACAAGATTAGTCAAGGCTATTTGATGATATTAAGGGATTTTTAAAATTTTTGTAAGTATGATAATGAGATTGTAG
T
TTTTTTTTTCAAGTTATCTTTTAGAGATACAAATTGAAATATTTATAAGTGAAATAAAATAATGGCTGGAATTCTCTTCAAAATACTTTGAGGGGAGAAA
Celera SNP ID:            hCV26522492
SNP Position Genomic:     29091
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54603):
ACACACCAGGGCCTGTTGGGGGATGAGGGGCAAGGGGTGGGAGAGCATTAGGACAGATACCTAATGCATGGGGGGCTTAAAACCTAGATGATGGGTTGAT
R
GGTGCAGCAAACCACCATGGCACATGTATCCCTATGTAACAAACCTGCACATTCTGCACATGTATCCCAGAACTTAAAGTAAAATAAAAATTAAAAAATT
Celera SNP ID:            hCV11610253
SNP Position Genomic:     57097
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54604):
GTGCATTGGGCAGCTCAAATTTTTTGCCACTCTACACATGCCCACAAATTACTACAAAAGCACCACAGGTACTGATTTGGGGGTTACAAATGAATTTTAG
S
AAGTAAATGAACTGACAAATAATTACAGTTACAGTTTTAAAGAAAATTCTTAAAAGAGCCAAACATTAATATTCTACAGCTGCACTCCTTGAGGGAGTTG
Celera SNP ID:            hCV1516410
SNP Position Genomic:     19633
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54605):
AGGTACTGATTTGGGGGTTACAAATGAATTTTAGCAAGTAAATGAACTGACAAATAATTACAGTTACAGTTTTAAAGAAAATTCTTAAAAGAGCCAAACA
Y
TAATATTCTACAGCTGCACTCCTTGAGGGAGTTGCTTAAAGCTGAGTACCTTATAATTTATAAAGTATTCCCCCCCCCCCAGAAAGCATTTTCCATAATG
Celera SNP ID:            hCV1516411
SNP Position Genomic:     19699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54606):
ATGACAGTTCTGTAACCTCCTCCATGCCTTCCGAGTCTGCCACCCCACAGCAATCTTTCATATTAATTAGTTATGCAGCCCATCTCTCAAACTTGTTCAT
Y
GTCACTCAGGGCCACGGACAGCTGATCTTTATTTCTGGAACCAGTCACTCAATGTTGGACACACTGTAGGCTCAAAATCAAGCATGCCAAATAGAACTGC
Celera SNP ID:            hCV29152802
SNP Position Genomic:     46357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54607):
TAGGGTAGGTGAAAGGAATGGCTTCCATTATTGCTGCAAAGCAAGCCACAGCGCCTTCAACGTGTTAGCAGAGAAGGGAACTGGAAGGCGAATGGCTAAA
Y
GAGGAAGGGAAAAGAGTCCAACTACCCTGATCCTACTTCCAGAAACTTCTTGGTTCATTATCCCTTTACACTGTGGTGGTGCCCTTTCCCAAACATCTTT
Celera SNP ID:            hCV1516412
SNP Position Genomic:     20364
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54608):
CAGTGAAAATCAACCAAGCAAATTTGTTTCCTTTCAGTCTTGTCATTCATTTTTCCACATCAGCTTATTAAAAGTCCAGGAACAGAACTGGGATTGGTAG
R
AGGAGAGGTTGAGAATTCTCATACCTTATTATACATTGCTTTCTCCTCACATGATAATATATACCTTGGAAGATTATAAGGATTGAAAACAATGAATGTA
Celera SNP ID:            hCV1516413
SNP Position Genomic:     25423
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54609):
ACAAAAGAGAAACAAACACTTATGTATATCATTGGTTTTGGATGATGCTTTCTGTTACACACAGTTGAACCTAATCCTAACTGATAAAAGGGCAATAATG
Y
CTATGGTAGTAGCCAAGAATCAGGTGATTCTAGGTCAGCCTACATCAAGACAATACGGGAGCAGCTGAAGGAACAGGCTCCTCAAGATTGACTCCAACAC
Celera SNP ID:            hCV1516416
SNP Position Genomic:     28701
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54610):
CCAACACCTCAGGCTACCTTCTGGGTTTACTCGGCCTCTAGACTGGAACCTGGGGATAACAATGAGAAGGCAGAAGGAAACTGCAGCACATATCCTAGAC
Y
GAGATCTAGATACAGCCTTGAATGGACTTGAGCTGTGACTATATGGCCCACTTCCTTGATTCAATATCTAGAGACCTTGATAATGAAAAGCATCATCTAC
Celera SNP ID:            hCV1516417
SNP Position Genomic:     28895
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54611):
AAATTAGCCAGGCGTGGTGGCGCATGCCTGTAATCCCAGGGACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCAGGGAGGTGGAGGTTGCGGTGAGC
Y
GAGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAGAAAAAGAAAAAGAAAG
Celera SNP ID:            hCV1516418
SNP Position Genomic:     29980
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54612):
ACCTGGGGTACAGGAGATCTGAATCAGTAAAATATGGGGATCTGTAAAGCATAAGTTATCAGCCATGGACTTTTACCTGGCACCACTGATAGAACTCAGA
R
GGGTTGTAAACTTGGACTGCTAAAAAGTTATATCTCTATTGTCACTAACCTCTACTAATTTTTTTGTTTTTTTTTTATTGTGGTAAAATATACATAACAT
Celera SNP ID:            hCV1516419
SNP Position Genomic:     30597
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54613):
TGTTTTGAGATGAGAAATGTGACCCTGTATATTAAGCTTTGAGCACTTTTCACACTGTCATTGACATCCAGATCAAGATGTGGAGTAGGTGGCTAAATAT
R
TGAGTGTGTAGATGGACTGTTGATCACCTTTGGAATCTTGGGAAGCATAAAGAAAACTCATGCTGATATGACAATGAACAAAGCCTTCCCTAAATGATTC
Celera SNP ID:            hCV27497174
SNP Position Genomic:     36844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54614):
ATTTTTCAGCAGTGTTTTAAAGTCGTCCCCATTTTAGAGGGGCACACTTTTTTAGTGTTTTATTTTGGTGGCGTTGCTATTATAAATGGGGTTTTCTCTT
M
CATGATAACTTCTAAGTGGTTACTGTAGGTATATGTGAAGGCTATTGATTTTGTATGTTAATTTTATATCCTGCTCTCCTAGTGAATTCCTTTATTCTTT
Celera SNP ID:            hCV16089285
SNP Position Genomic:     97518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54615):
CAGATTTACTAGATTCTGCAAACAAATTTCCAATGTTGTTGTACCACTTCATACTCCAACCAGCAAAATATGAGTTCCAGTTGCTCCATATCCTTGCTCA
Y
ACCTTTCTTCTTTCCTTGCCTCTTTCCTTCCTCCCTTCCTCCCTCCCTTCCTCCCTCCCTTCTCTCCTTCCTTTCTCTCTCTTTCAAGAGCTGATATACT
Celera SNP ID:            hCV2551604
SNP Position Genomic:     64040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54616):
TTATTTTAAAATATATAAGTGACAGAATGCTTGCATATATATAAGAAAATCAGGGCAAATCCAGTCAAGATGATTTATTAATCTAGATTTTCCATTGTTT
R
AGATAATTATGAGCCATTATTAACAATTTTCTTTTGTTTAGAAGTGTTGCCAGACTACTGCTTTTATTGGAATGCCTGAAAGAACCAAAATGTGAAAGTA
Celera SNP ID:            hCV2551605
SNP Position Genomic:     66901
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54617):
TATTTTAAAATATATAAGTGACAGAATGCTTGCATATATATAAGAAAATCAGGGCAAATCCAGTCAAGATGATTTATTAATCTAGATTTTCCATTGTTTA
R
GATAATTATGAGCCATTATTAACAATTTTCTTTTGTTTAGAAGTGTTGCCAGACTACTGCTTTTATTGGAATGCCTGAAAGAACCAAAATGTGAAAGTAA
Celera SNP ID:            hCV2551606
SNP Position Genomic:     66902
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54618):
CAATGGCCTTGAGTGAATTGTATGCTGACACCAAAAGCTGATTAAACATTTGCAGCAAAGAGAAGAACCATTTCTCCTTTTGTACTTGCAATTTTTACTC
R
GTTGATGTTACAGCAACAATTTTTTAATTTTTTAGCTTTTATTTTAAGTTGATTGGTACATGTGACAGGTTTGTTATATAGGTAAACTCTTGTCATGTGG
Celera SNP ID:            hCV2551608
SNP Position Genomic:     75035
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54619):
GTTTTGGGGTGAGGATACCCAACAGCCTAATCACCTTTACCTCTCTCATTTCCACCTCCATTATTATCCTATAAGATAATTTATGTTCAGAATAATGATC
Y
TGAAGAACTACAAGCCTCTCTCGATCATCAAAGAAAGATTCCAGTTTTATACACTTACTAAGGGAGGAGAAGCCTGGAAAGTTGGAATTTTACTGTACAT
Celera SNP ID:            hCV2551609
SNP Position Genomic:     75746
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54620):
CACCAATTCATACACCGGGACTTGGTAAGCAAAGCCATTGGAATTTCAAAGAAAAGAAAGCAGTCCACGGCTCCCACTTCTGGAGATGGGGTCACTGGTA
K
GGAAGGCAAGAAGGGCACCATCACTTCTACTTTGCTCACTTGTGACTTGTTTAAGCAAATGACATTTTTACAAAAATCAATGTAAAAATATTTGAAGTAT
Celera SNP ID:            hCV25632280
SNP Position Genomic:     84147
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(G,39|T,1)   total(G,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:54621):
TTGGAATTTTACTGTACATGAAATCTATATGTGCACCAAAAGATACATTGAGTTCAGAGAAGAACTCTCTTCCATAATTACTTTTATAGTTACACCAGAT
K
TCAAGACTGAGAAAAACACCAGATGCCAAGCCTGAGAAAACCTCCCTGACTTCCCTCTCCAAAATTTGCAAATGCACCTAAAATAATTATTTAACCCTTG
Celera SNP ID:            hCV8877915
SNP Position Genomic:     75928
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,9)      total(G,1|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54622):
AGAAAGAATGAAATTGAGTAAACTGGGTGACTTAGAAAGAGAAATTCTCTTTATAAAAATATTCGTAGGGTTTTTCTGTGTATAGAAGCAAGAGGATTAT
R
AATTTAAAATATTATAGAAATATATACATATCGTTGGATCATGGACCAGTTGTCTATTATGACAGGGTTTTTTGCATGCTGCCACTAGCACTTACTAATC
Celera SNP ID:            hCV8877916
SNP Position Genomic:     76505
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54623):
GGTGCTTTGAAGTGTGGGCAAATAAACTTAGGGGCTGTGTGGTGGGCATGTTTGGCGATATGCATGCTGAGGCAGATAGCATGTCAGCCCAGGGTGGCAC
R
CCAGTGTGCAGAGAGAAGCAGAGACATTTCCTGAAGCTCAGCTGCACTTTCTGCCCAAGACCTCTGTATTCACATTACAGAAACCCCCTTTGGGCTGGGG
Celera SNP ID:            hCV8816944
SNP Position Genomic:     32660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54624):
TGTGTGACCTGAGGTTTTCTGTGGCTCAGTTTTATCTGTAAAATGGAATGATAAGACCGCCTACCTCAAAGGGGTGCAGTTAGTGCTATGAGAATGTTAG
Y
TGCTGTTATTCAGAAGGGCTCTACTCCACAATACCCTCCACTTAGTCAAGGCCTACCCTAAAATGTATCCTCCCTGAATAGTAATCGATAAATATTTATT
Celera SNP ID:            hCV8816945
SNP Position Genomic:     34486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54625):
CGCAGAAACGAGCTTAATACTCAAAGCAGTACAGGCCGGTCATCACCTACATCGAAGCAACCAGAAAGTATCTTTATCCCCATCTAGATTATGTCTGGGT
Y
CTTCCAGACTCCTACGATTAAATTGTATGCATGTGAACAACTGATGAGGTACTTAGATCTCAGTGCTTTGCAGAAAGAAAAGCCGTCTACCATTTTCACC
Celera SNP ID:            hCV8816946
SNP Position Genomic:     34705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54626):
CAACCATAATGATGGTGAACATGTATGCATACCTACTAGGTGCCCAGTACCCCACCAATTATTTACAACTATCTCATGTAATCCTACAGTAATCTTGTGC
R
AAGGTTAGCGATACAGTCATGTGCCTGCCACATAATGACATTCAGGTCAACATTACACAGTCAACAATATATGGACTGTATGTATGACAGTAGTCCCATA
Celera SNP ID:            hCV1516420
SNP Position Genomic:     33319
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54627):
TGGTGAACATGTATGCATACCTACTAGGTGCCCAGTACCCCACCAATTATTTACAACTATCTCATGTAATCCTACAGTAATCTTGTGCGAAGGTTAGCGA
Y
ACAGTCATGTGCCTGCCACATAATGACATTCAGGTCAACATTACACAGTCAACAATATATGGACTGTATGTATGACAGTAGTCCCATAAGACTATAATGC
Celera SNP ID:            hCV1516421
SNP Position Genomic:     33331
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54628):
ATCATTACCTAGCAGGTCAGATTCCAGCTTTGACAATGCCCTAACTTTCTGGAAGGAGCAGGAAAAAGGCCAGAGAGAGCACTGCCTTGGGATTGCCTTC
Y
TAGGCTCTGTCTGGATGACACTCACCATGTGTTCTGGGTGCCACAGGTGCTGTGCCTCTGAGGAAAACTACAGAGTGTAGAGGTGTTGCAGCTCCTGAGC
Celera SNP ID:            hCV16098183
SNP Position Genomic:     59346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54629):
TTACAAAGCAGTGAGGGTGAGAGTTAAGGTGGAGGTCAGCAGAATGCATCCATGGAGTCCCAGGATGTGGAAGTTTCATTCCTCACTCCAAGAGGCTAGA
R
AGATATTCTATTGGAGGTGACACTCAAGTTGAGAAGGACAAGTAAAATTTAACCCAGCAAATATGAGAAGGACAGTGGTACAAAGGAAGCAGCAGGTGTC
Celera SNP ID:            hCV16098184
SNP Position Genomic:     51776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;(A,-|G,-)   TSC_42_A(A,0|G,84)   TSC_42_C(A,0|G,84)   TSC_42_AA(A,0|G,84)   total(G,252)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54630):
TCTGTAGAGGATTTTTTAAAAAACTGAAGCAGTACTTCTGAGAGTTGACACAATCCAGATGATTTTTTAGGGCATTACATAATCACAAACACCTGGAGAA
Y
TGCCGTGGGTGGCTGACGAATTGTGAGTGTTATGTTTAAACTCAAGAGTTGCATGTGTCTAATTAAGTAAGAAATTTGTAATCTGAAACAGGTGTTTTCT
Celera SNP ID:            hCV29152745
SNP Position Genomic:     7248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54631):
CTAGATTATGTCTGGGTCCTTCCAGACTCCTACGATTAAATTGTATGCATGTGAACAACTGATGAGGTACTTAGATCTCAGTGCTTTGCAGAAAGAAAAG
Y
CGTCTACCATTTTCACCAAATTTCGTAGTACAATTTAAGTATCTCTTGTTATCTCCCCTAGGAGTCTAAAGTGAGCTGGGGAAGGCAGGATTTTGCAAAC
Celera SNP ID:            hCV12120415
SNP Position Genomic:     34788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   TSC_42_A(T,29|C,54)   TSC_42_C(T,29|C,54)   TSC_42_AA(T,16|C,67)   total(C,175|T,74) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54632):
CCTCCACTATCCAGAGAGTCAAATCTTACTTATTGGTTAAGGCCTTACTAAATGGGCAAATTTTCCCTGAAGCCCTCCCAGATCCTTCTGTTAGAAGGGA
Y
AGCTTCTGCCTCAAAACATGAAACTTCTTCAACTATACCCATCTTGTTCCTCCTTAATTATTTTCTAACTTTCATGCAATTTGAAAGTCCTCTGCCTCCA
Celera SNP ID:            hCV29152746
SNP Position Genomic:     13484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54633):
TAGGAGCTGGAGGAAGGAAGAATGAGAAAAGACTGATAATGAGTTCAGGTTTACTTTCTGGGCTGATGAAAGTGTTCTGGAATCAGCAGTGATGGTTGTG
Y
AATCCTATAAGTACATAAACCACTACTTTTTAAAAAGCTTTGTAAATACATATTTGTACCTGTTATGATGTGTTCATTTTCTCTTTAAACACCATCTTCT
Celera SNP ID:            hCV27869846
SNP Position Genomic:     14504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54634):
ATCAAAGTAATATATTTAATCATTCATTTTATTTAATATATTCATTGTCTTCAACTTTTTATTATCCAATTAAATTCAGCCAGTAGTTACTATCTCCACA
Y
AGAGAACACAGAGAATGATCTCAGCTGAAGCAATTTATGATCCTCTTGGGTATGTGAGGGGAGGTTGAGGCAATCCCCAATTCTAATGCAAGACAGATAG
Celera SNP ID:            hCV12120416
SNP Position Genomic:     19903
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(C,29|T,55)   African-American(T,84)   Asians(T,84)   total(C,29|T,223) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54635):
AGAGATGTTGGTCAAAGGATGCAAAATTTCAGTCAGGAGGAATGAGTTCAAGAGATTCATTGCACAAAATGGTGACTATAGTTAATAACAATGTATACTC
R
AAATTGGCTAAGAGAGACTTTAAGTGTTCTCATCACAAAAAAATAAGTATGTGAGGTAATGAATATGTTAATTAGCTTGATTTAGCCATCCCACAATATA
Celera SNP ID:            hCV29152747
SNP Position Genomic:     31792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54636):
GTTAGAATTGCGAGAAAAGGAGTGCGGGAGTGGGGACGGGCAGCCATACGTCTTTATTCCTGCCTGAAGAGAAGGCACACTCTAGTGGGGAGATAATTGG
Y
TAAGAGTTTGTATGGTGTTGGAACACAGTGGGCAGGCGTTGGAGAGTTTTTCCAGAAGAATGAGGAGCTGGCACAAGCCAGTGAGGGGATCTAGTTGATT
Celera SNP ID:            hCV27869847
SNP Position Genomic:     35702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54637):
CATCATGTGTTCCATTATTTTTATACTATTTATTATTTTTCCTAAGTCTCCACAAAGTACTTGATCATAATGAAAGAATATCAGGTTTCTTAACTTACAC
W
GTGAAGATCCTCTTCTATCCACTTATCACATGACCTTTTCTTAATGAAAGTATAATGAATTCAAGATAAAGGATTTTAAAACATTAGTTAACTTTACTAA
Celera SNP ID:            hCV29152780
SNP Position Genomic:     50462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54638):
CAATGTATACTCGAAATTGGCTAAGAGAGACTTTAAGTGTTCTCATCACAAAAAAATAAGTATGTGAGGTAATGAATATGTTAATTAGCTTGATTTAGCC
R
TCCCACAATATAGACACCTATCAAAACATCATTTTGTACATCATAAATATATACAATTTTTATTTGTCAATTTAAAACATAACTAAAAAAATTGAACCCA
Celera SNP ID:            hCV29152748
SNP Position Genomic:     31880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54639):
TCATCCTCACCAACACTGGGTGCTATTAGTCTTCTAAATTTTTGCCTAATCAACTGGTGGAAATACATCTAGAAATACCCTCTGTTTTCTAGAATAGTGC
S
ACTTAAGAGCAGTGGCTGGATGAATTTCCAACAGTGAGTAAAAATAAGCCATAAGCTCAGCACTTAATTTGTGTTACTTTATATGACTTGATTGCATGCA
Celera SNP ID:            hCV2551611
SNP Position Genomic:     77131
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54640):
CATTAGTTAACTTTACTAAGGCAAATTATAACTTTAGAACAGTGGTTCTCAACTGAGGGCATTTTTGCTCCCCAGGTGACATTGGGAAAAGACTGGAGAT
R
TTTTGGGTTGTTCCAACTGGGGGATAGGAACAGTAAGTGTTAAAGACATCTAGTGAGTAGAGGCCAAGAATGCAGCTAACCATCCTGCAGTGCACAGGAC
Celera SNP ID:            hCV29152781
SNP Position Genomic:     50644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54641):
GAGGCCTGATCTATGCTCAACCAATCAGATTCTCTCTCCTGGGAATTTGGAATTGAGAATCAGAGTTACTCCCTGGTGCTTTGAAGTGTGGGCAAATAAA
Y
TTAGGGGCTGTGTGGTGGGCATGTTTGGCGATATGCATGCTGAGGCAGATAGCATGTCAGCCCAGGGTGGCACACCAGTGTGCAGAGAGAAGCAGAGACA
Celera SNP ID:            hCV29152749
SNP Position Genomic:     32586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54642):
GGCTGGATGAATTTCCAACAGTGAGTAAAAATAAGCCATAAGCTCAGCACTTAATTTGTGTTACTTTATATGACTTGATTGCATGCATGTAGGTGAATTG
R
CCTCACTTCTGGCTTTCATTTTGGCTCTTACTGATGTTTTTCCTTTGCCCCAATTTCCTCAATTGTTTATTTTAACCTGTAGTACCTCAGAAGTACCTTT
Celera SNP ID:            hCV2551612
SNP Position Genomic:     77245
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;(A,-|G,-)   (A,-|G,-)   Caucasian(A,25|G,59)   African-American(G,34|A,50)   Asians(G,84)   total(G,177|A,75)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54643):
CATTTATTGAGTGCCTACTGAATACCTCAGTCCTGCAGGAGATACTGATATGAATAGGATAGTCCCTGCTCTCAAAATGACCACAGTTTAGTCTAGAGGG
Y
AAGTAGATATCCCTGACATTGAGACAAAATATAACTATAAAGTTGTGCTGACTCAATATGTAATTCTGAAGGTGAATAATGCAGTTTAAAAGAGATCTGA
Celera SNP ID:            hCV2551614
SNP Position Genomic:     85911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;TSC_42_A(C,0|T,84)   TSC_42_C(C,42|T,42)   TSC_42_AA(C,0|T,84)   total(C,42|T,210)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54644):
CCAAAATCACCATCAACATCCCACCAGTCCCTTCTGAAAAGAAAACAAGGAGCAGCCACCCAACTAGCATACCTCGGGTCTGCCAATGCTTCTCCGGACC
S
TCGCTCCAACCCCTTCCGACTGCTCCCGGCTGAGCACTGAGAGAGTAACTTTCTTGGAGGACCCCATATCGGAGTCTAAAAAGAGAGTGTTCTGATGCTG
Celera SNP ID:            hCV25631272
SNP Position Genomic:     32944
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,1)   caucasian(C,34)   total(C,61|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:54645):
TTATTTTGGTAACAGTTTTACCAGCCTGGACAAAATATGCCTGGATTACAATGGCTTTAAAGAATTGAATGAGATCAGCTACAAAATAGAACTTCATGAA
M
TGGAAAAGATACAGGCACATAAAATATTTTTTAAATTCACTTCATGACAGTATTGATACCCAACAATCATGTTAATGTTAATACTGGTCATTTTACCCCC
Celera SNP ID:            hCV29152788
SNP Position Genomic:     58904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54646):
ATGAACAAGCTTAGGAGAAAATTCCTAAAATTCTAACTGAGTAAAGATGACAATGCAGAGTATAATTTGAGTAAATGAAGTCATATTATCGTAATAGCAG
R
TTGCCAAAAGTTAGGATGTAACTAAACTCATGGAAAATACAGAGCCAAAGAAACAGGAGAAGTAGCAGAGGAAGTGAATGAATAGAATAAAGTAAATAAA
Celera SNP ID:            hCV29152789
SNP Position Genomic:     40715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54647):
TGCTATGGAATAACAAAGTATTGTTTCTTATCGTCATTGTAACTAGTTCTGCAACTGTCTCCTCTACCTCTGCAGCTGTAATAGGTGTACTAGGAGTGAA
S
GTTTCTCCTCTTTGTCTCTCAGAAGCCAGTTACAGGTAAAAGCTAAGTCCAAGGTTGTACATGGTTAGAGCAATGCAGGAATTCCATTTACAGGCCCCTG
Celera SNP ID:            hCV8816953
SNP Position Genomic:     36506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54648):
GTCTCAAAAAAAAAAAAAAAAAAAAAAAACAACACAAACACACACACACACACACACAAATATATATATATATATATATATATATATATATATATATATA
Y
ACACACACACACACACACACATATATATATACCTGCTATGTACTCACAAAAATTAAAATAAAAATTACACCTGGACATTTGACATAAACTGGACTTCTGG
Celera SNP ID:            hCV26522549
SNP Position Genomic:     69153
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54649):
TGTACATAAATATTTGAAAAGAAAAACATCTAGAGATGTGCTGTGTTTTTCTTTTCCCTGTCTGTATCTCTTGGCTTTATAGAATAAACATATATTGCAT
R
TGAATCTTAAAATGAAAGCAAAAAATGTATAAAGGGCAGGATTTTGAAATGAACAATTATGTTGAAATTTCACAAGTTATATTTCATCAGATGCAACAAC
Celera SNP ID:            hCV2260450
SNP Position Genomic:     47471
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(A,84)   African-American(A,84)   Asians(A,84)   total(A,252)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54650):
TCTTCAGAAATTATCTGACGTCACTTTTAGTTCTTTCAACAATCTGATACTTTCTAAACTTCTAAATAAATTCCATGAAAGATCCTAAATTTAAATACAA
Y
ATGTTACAGCCACATTATTGGATTGTTTTACTTTCTTTTAAATTTTTTTATTTTTAATTTTTGTGGGTACATAGTAGGTATACATATTTATGGGGTACAT
Celera SNP ID:            hCV2260451
SNP Position Genomic:     85250
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;SC_12_C(C,1|T,16)   total(C,1|T,16)TSC_42_A(C,42|T,42)   total(C,42|T,42)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54651):
TTCATAACAGCAGAAGATTAGTAGCAATTTACCTGGTTAAATAAATTATGTTTAATTCCTTCCATAAGAAGAAATAATAAGAGGGAATGGTATTCAGCCA
Y
TAAACATGATGCTGCAGTAGAAATGTAACCGTATGGGGAAATGCTCATGATATACCATTAAAGGAAAAATAAAAGCAAATCTCAATATAACAGAAACCCT
Celera SNP ID:            hCV2260452
SNP Position Genomic:     88215
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54652):
AGGGTGGGTTTCTGAGTAATTTTATCTTTACTTTTTTGTGTTTTTCTATATTTACCAAACATTTTGCATTGAGGTTTTGCTGTATTCAGTTAGATATTAT
Y
TTTTAAATGCTTACAAACCATAAGCAGCCTCCAGCTAAGCCCACACATTGAAAGGAAACAAAAGTTCCAGAAAACTGAGGCAATCGACTGAGACTCTGGG
Celera SNP ID:            hCV2260453
SNP Position Genomic:     88503
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54653):
AGGCAGAGTTTACAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTTGGCGACACAGCAAGAGGCTGTCTTAAAAAAAAAAAATTAGTTTTGATAATCA
Y
GCATCAATTATAAGTGATAGCAAAAAATCAATGCCCTAATTTAATAATTACAGCTTGTTTTTGACCAAAAAATAGTATTACCCAGCTTGATTATTTACCG
Celera SNP ID:            hCV2260454
SNP Position Genomic:     90357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54654):
CTTATGCATCAGGAAACACACTGAGGTAAGTACTATCATTGCTGAAACTAACAGAAGAGTAAACAAGGACTCAGAAAGGTTAAGTGACTTGTCCAAGGTC
M
CATAGCTAGTAAGAAGTAGACTAGCTAGTGCCAGCGTCCCTGTTCTTAACTGCAACACTATGGAGCTCCTCGAGTAGAAAATAAGTAGCAGAAAACATCT
Celera SNP ID:            hCV2260455
SNP Position Genomic:     92202
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   (A,-|C,-)   Caucasian(A,84)   African-American(A,84)   Asians(A,84)   total(A,252)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54655):
TATTCTTTAAGTCTGTTCTAACATTGATACTCTCAGATTTTCCAGGTATACACTAAAATGCTTGCAAATAAAGAGACTTTTTCTTTTCCAGTTATTGGGG
M
TCTAATTGTTCTTGCTTTCCAATTGCATTGGTTAACACCTTCAACATAATGTTAAGAGTGATTATTATAGTGAGCGTCCTTGCCTTATTTCTGACCTCAA
Celera SNP ID:            hCV27974862
SNP Position Genomic:     97711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54656):
ATTGAATGAATTAGCATTATAAAGGCCTTAGGACAATGCCTGGTACACAGTGCTGTTTTTCTGTTATTAATATTGTGTGTGTGTGTGTATATATATATAT
W
TTTTTTTTTTTTTACAAAGCATCTATGCACCAGGCAGTACGCTTGGTGCTAAGAATAAATTGACGCACACAACTTAAATAGTTTCTAAACTCTTGTACCG
Celera SNP ID:            hCV2260456
SNP Position Genomic:     93415
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   (A,-|T,-)   Caucasian(T,25|A,59)   African-American(T,17|A,67)   Asians(A,84)   total(A,210|T,42)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54657):
GATTTTGTTAATTTGCCCTTCAGGGCAGTGTAGCTGCTATTCATTAGATGACAAATGTCTCTGAAATATTCCATATTATAAAGACTCAGACTCACTGAAC
Y
CAGGAAATCAATTGGCTCCAAGTCAAGGACTGATTATTTTATAAATGCTAGTTTACGAAGGCCATAAATACACTGGGTGGTTAAAGACATCCAAAGATAT
Celera SNP ID:            hCV27850105
SNP Position Genomic:     37574
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,40)   total(C,71|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:54658):
GATCTCTTTACAAATTAGGGAGAGTAATACTTTAAGTTATCAGCTTTATTTGATTGAGGGTGGGTGGGTTTTTTTTTCTTTTTTTGACCATGCAGAAATT
Y
TTCTTAATATAGCTGAATATATCAATATTTGTTTTCATTGCTTCTGGAAATTGTCATAGATAGGCTTTCTCATGCCCAAATTATAATGACTTTTGCCAGG
Celera SNP ID:            hCV2260457
SNP Position Genomic:     96424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54659):
AATCAGGTGATTCTAGGTCAGCCTACATCAAGACAATACGGGAGCAGCTGAAGGAACAGGCTCCTCAAGATTGACTCCAACACCTCAGGCTACCTTCTGG
R
TTTACTCGGCCTCTAGACTGGAACCTGGGGATAACAATGAGAAGGCAGAAGGAAACTGCAGCACATATCCTAGACTGAGATCTAGATACAGCCTTGAATG
Celera SNP ID:            hCV16192853
SNP Position Genomic:     28819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54660):
TGCATGCTGAGGCAGATAGCATGTCAGCCCAGGGTGGCACACCAGTGTGCAGAGAGAAGCAGAGACATTTCCTGAAGCTCAGCTGCACTTTCTGCCCAAG
R
CCTCTGTATTCACATTACAGAAACCCCCTTTGGGCTGGGGCTGGTTTGCCCCCAATTGCAAACTTTAAAGTTTGCACTTATGCACTCCACAGGCCAGCTC
Celera SNP ID:            hCV29152750
SNP Position Genomic:     32720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54661):
TCCTAGTGTTTTGTGGAAGGTAGAACCTGTAAGCAATGAAATTGGATGTTTAGCTGATGCTATTTGTACACAAAGCGTTGAGAGACCGGGTTCCTCTTGA
Y
GGCATATAGTAAAATGCAAGAAGAGAGAAATAATTTAAAGGCAGAATTGTTAATCAAAAGAGAAGCAGAACTTAAAGATTTGGGAAATTTTCAGCCTACC
Celera SNP ID:            hCV16192857
SNP Position Genomic:     26636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54662):
CCTCTGGCTATACAAAAATAGGTAGTGGGCTACCTACTCATTTTGGCTGCAGGCCTAGTATGCAGATCCCTGCTCTAAAAGAACAGGTTAGTAGAGGAAC
R
AACACTTTTCTCTGGGCTTTTAAAATATCAGTGGGGCTTAAACCCGTCCTCATCACCTTACTTAGGCAGTTCAAGGCTAGCTGAGATAATACACATGAAC
Celera SNP ID:            hCV29152751
SNP Position Genomic:     36297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54663):
GGTTTCACCATGTTGCTCAGGCTAGTCTCAAACTCCTGAGCTCAAGTGATCCACCCACCTCAGCCTCCCAAAGTGGTAGGATTACAGGCATGAGCCACTG
Y
GCCCGGCCTCAATCTTCTTAAAGAATACCTAAGTAATCCTGAACAGATTGTTGTAGAAATATGGACAGTAAAGGCCATTCTGATGAAGTCTTAGACAGAA
Celera SNP ID:            hCV16192858
SNP Position Genomic:     26360
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54664):
TTCCTGGCCTCAAGCAATGCGCCCGCCTCAGTGCCCCAAGTAGCTGGGACTACAGGTGCCAGCCACCATGCCCAGCTAATTTTTGTATTTTTTGTAAAGA
Y
GAGGTTTCACCATGTTGCTCAGGCTAGTCTCAAACTCCTGAGCTCAAGTGATCCACCCACCTCAGCCTCCCAAAGTGGTAGGATTACAGGCATGAGCCAC
Celera SNP ID:            hCV16192859
SNP Position Genomic:     26257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54665):
GAAGTATTTTAAACAATGGTATGGTATGTAGTGTATGCTGGTAGTACCTTTTGGAAGTGGCCTAATCTAAGTCATGCCCTACTTTTCTTATAGCATAAAA
W
CTTACATTTCTGATCCAAAGGTAGATGGATTGTCTTTCAGATGGCCTGACTACCCAGTGCTAGTATTAGGAACCTGTGGCCAAAAATGAAATACAATAAT
Celera SNP ID:            hCV8877899
SNP Position Genomic:     52110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,5)      total(A,2|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54666):
CGCTGCGGTAGCGGCACCTGGAGCCTTAGCGGCGGGGGTGACGCGAAGAGCCGCCGGGAGCGAGTGCAGGGAGGGCAGGTTAAGAGAGTGTGGGTCCAGT
M
GCCTCACCGTGACTCAGCGCTTCGCGGCCGGCGGCCTAGAGGAGGCGGGAGGCGGGAGTCTACGGGTCTCGGAGGCCCTGGGGCTCCGCCCTCGGGAATG
Celera SNP ID:            hCV15960446
SNP Position Genomic:     35043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54667):
TGCATTTCTCATAGAAACCTTCCTGCTAATTATATAGTCAAGTCATTGTAGTGTTGCTTGTCCAGTCTGTGGGTTGCCCGACTCTTCATGTCTAGCCACT
R
CTTCTGTGTCCATTATGTATTGCTGCATAATAAACCACTCCTAAATTGGGTGGCTTGAAACAGTGGGATTTATGATATCTCATGATTCTGTGAGTCAGCT
Celera SNP ID:            hCV27869855
SNP Position Genomic:     72065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54668):
TAGATTTCTTGTTAATACTGACTGGGTTTAGGATCTCATTTTACTATAAAAGGTTTTTTGTTTCACCTTCCCAACTGAATTTTCCCTAAATAAGCATAAG
R
AGAGCAGGGTTTGCTAGTTGTTGGACAGGCATTTGACTTAACAGTAAGCCCTGTTTATTTATTGTCACAATACGAGGGGGGAAGATATTGCATTTCTAAA
Celera SNP ID:            hCV27832504
SNP Position Genomic:     46875
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,38)   total(A,71|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:54669):
TCCCACCCTCCACCCTCAAGTAAGCCTCAGTGTCTACTATTTTCCTCTATGTGTCCATGTGTTGTCATCATTTATCTCCCACTTACAAGTAAAAATATGT
R
GTATCTGGTTTTCTGTTCCTGTGTTAGTTTGCTATACAGCAACAATTTATTAACTGTTTCTTATATGCCAGGCATAACCATATAGGTAGCTAGCAAGTGA
Celera SNP ID:            hCV27869856
SNP Position Genomic:     75314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54670):
AGACCACAAATACTTACCTCCGACTAGAAAAACAGGAGTAAGATTGACAAAATGCCAACAGTCTATGTAAAGGTTTCATGGGTGACAGGACAGGACATGG
S
TGATAACAAAAGGAAACAACAAACATTTTTGTGTCTACCTCCACCTCCTACTCACCCATTTCCTTTCATTAAAAACAGGGCAGTTTGTTCCGGCACTGAA
Celera SNP ID:            hCV27869857
SNP Position Genomic:     39060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54671):
TCCGCCCATCTATTGGATCTATGGTGTCTTGGGTACTTATTTTCAGCTACACACATTCGCACACACTTCTCTCTTTCTAAGTAAAAGCCACATAATTTTC
R
TGAATCAACATGAAAGACAAAAATAATCCATTATTGTAGTAGACTGAATAATGTCCCCCAAATTTCATATCCATGTAGAACCTCAGAATGTGACCTTATT
Celera SNP ID:            hCV29152790
SNP Position Genomic:     61174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54672):
GAAAGTATCTGACTTTGGAATGACAAGGTAAGCCAATTCCGAAAGGGCAACCAGTGAAAGGGGGATTTCCATTCACATTTGAACACCATCATAATTGAAG
S
CTTTGTGGGGATATAGAAGGTGCTCTGAATTGGGGGCTTAGAAACCTAAGTCCCTCCCATGGGATTGTTCTTCAGAAATTATCTGACGTCACTTTTAGTT
Celera SNP ID:            hCV25474638
SNP Position Genomic:     85081
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,32)   caucasian(G,30)   total(C,6|G,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:54673):
CACAGGCCAAGGAACACCTGTTTCTTAGTCCATTTGTGCTCTACTAAGGAATACCTGAGGCTGGGTAATTGATAAAGAAAAGAGGTTTATTTAGCTCACC
R
TTCTGCAGGCTGTACAAGTAGCATAGCACTGGCATCGGCATCTGATGAGGGCCTTAGGCTGCTTCCACTCATGGCAGAAGGGAAGGGGAGCTAGTGTGTG
Celera SNP ID:            hCV29152791
SNP Position Genomic:     61540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54674):
TGAAATGTTGATTTTGACTTCTAGCCTCTAGAACTGTGAAACAATAAATTTTTGTGGTTCTAATCCACCAAACTTGTAGCAATTTGTCATGGTAGCCCTA
R
GAAACAATTATAATCGTTAGGAGTTTTACTTTGTTATTAGCAACATTGCTGTTTGGGTTTGAAAATATGTTTCAGTCCTGAAGCTTGAAAAGTATGGCCC
Celera SNP ID:            hCV29152792
SNP Position Genomic:     62062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54675):
CTGGGCTGTGGTGATAGTTATACAAGTTGATAAATTTACAAAAGTCACTGAATTCTGCACTTTAAAAAGGATGAACTACCAATAAAGTTTGTTTTGACAA
S
TCTAAGAGCAGAAGATAATTAAGAGCCAGAAACCATTGCATCTAGTCTCCAGCAGGGAACTTTTTGGCCAATATATTGAAAATTATCAGCTAGGCAAATC
Celera SNP ID:            hCV29152793
SNP Position Genomic:     62401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54676):
ATGTGGATGATCAGGAAATCCTCCTGGTCTACCTCCTTTAAATTCATCAAACAGTAAAAACGGATCCAGATTTTTTAACTGAAATAAAAATAAAATTTGC
W
GATTAGATATGTCTTTTAAGCCATACTACCAGGGGCTACATTTATGAACAGATCTAGCAAGCCTCATTGAAAACTACATAGCCAATGGGCAACTTTTTAC
Celera SNP ID:            hCV25631282
SNP Position Genomic:     21598
SNP Source:               Applera
Population(Allele,Count): african american(A,30|T,6)   caucasian(A,40)   total(A,70|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:54677):
AGATGATTTATCGGAGGCCGTCAATGTAGCCATTAACCTCAGCTCTGTCACTGCTCGTTAGCACCTAGACCAGAGTATAGCAGATGTGATACAGAACATG
W
TTATCTGACTTTATTACTAATTGATATGGAATGCCAGTAGCAAACTCTTTTGATTTCTAAAAATGACACTTTGATATAGTTTAACCTGATAAAAACACTA
Celera SNP ID:            hCV29152794
SNP Position Genomic:     72593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54678):
TCTAAGCCTGGAAAGAAAAAAAATAGCAATGGAGCGTCTATACTCTCAGCCCTAGCCACCTGCTGAGCAAAGATGCCTACTCCAGTGTCCAGTTCTTAGT
A
AGCCCTTCCACTGGGTGCAGAGTTAGCAGAAGGTTGACTCAGTGCTGCTGTGTTCTCTACACAGCTTCCTTCCAGGGCTCTGTCCTCTTTGTGTGACTAA
Celera SNP ID:            hCV26522550
SNP Position Genomic:     73702
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54679):
CAATGTAGCCATTAACCTCAGCTCTGTCACTGCTCGTTAGCACCTAGACCAGAGTATAGCAGATGTGATACAGAACATGTTTATCTGACTTTATTACTAA
Y
TGATATGGAATGCCAGTAGCAAACTCTTTTGATTTCTAAAAATGACACTTTGATATAGTTTAACCTGATAAAAACACTAAACATTACACTTATTTCTTTG
Celera SNP ID:            hCV29152795
SNP Position Genomic:     72614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54680):
TAGTTTTTCTTTTATGGGCCCTTGTTGTAAAACAGCAATTTTCCTGGATACTACTGATCCTCCTAATATTCTTAATTATATAGGGAACCATGAAAGTAGG
A
AAAAATCCTCTCAAGTCTTTTGCCTATCATAATTTTTAGCTTACATTCCCAGGAATATAACATGATTCTCTCCTTAATGCCAGAAAGAATGAAATTGAGT
Celera SNP ID:            hCV26522551
SNP Position Genomic:     76323
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54681):
AAGGAGAAACCTAACAATCTAAATGTTATTTAGGTGGATAAAATCAGGGTGGGATTTGATATTGCATGGCTACGCACTTGGATTATTTCTTGGTGCTTTT
Y
TGCACTCACGTTTTTCTCAACTCTTCTTAAGGGAATTCCCTGAGTCAAGTTCATCTGAAGAAGAGGAAAACCTGGATGATTATGAGTGAGTATTGAAAGT
Celera SNP ID:            hCV25632264
SNP Position Genomic:     67874
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,38)   total(C,68|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:54682):
AACACTTGGGCATAAAAGACACCCCACAGTCATCTCATGCAAATCATCATCAAAATCCTTCTCCAGAGTTTTACAAGCCACTTTCTTATTGGTAGTTAGC
Y
CTTTTTTTTTCCTTCTAATCGTCCTCCAAAGCAAATGGGAAAGCTGTTTTTATTTATACCATATTGCAGATGAGAGGATTGAGGTTCAAAAAGAGCTTAT
Celera SNP ID:            hCV29152796
SNP Position Genomic:     74190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54683):
AGATTCTCTTGATGGGCATTCTACCACCACTTAATGATGTGGAACAATTATTTTGATTACGATCGTTTTTTTAAAGTCTTCTTTTACCTTAATCCTGTAT
C
CTAATACTATTTAAGCCTCAGAGCAAATTTTCATAGTTTTGCAAAGAAAACGAAGACATACACATTAACCTTTCTATTCAACATTTATTGAGTGCCTACT
Celera SNP ID:            hCV26522552
SNP Position Genomic:     85729
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,4)   total(C,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54684):
TGTTAATACTGACTGGGTTTAGGATCTCATTTTACTATAAAAGGTTTTTTGTTTCACCTTCCCAACTGAATTTTCCCTAAATAAGCATAAGAAGAGCAGG
R
TTTGCTAGTTGTTGGACAGGCATTTGACTTAACAGTAAGCCCTGTTTATTTATTGTCACAATACGAGGGGGGAAGATATTGCATTTCTAAAAATTAATCA
Celera SNP ID:            hCV27844160
SNP Position Genomic:     46884
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,38)   total(A,3|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:54685):
CTTATTGGTAGTTAGCTCTTTTTTTTTCCTTCTAATCGTCCTCCAAAGCAAATGGGAAAGCTGTTTTTATTTATACCATATTGCAGATGAGAGGATTGAG
K
TTCAAAAAGAGCTTATAAAGACCTACCTGGAGCTACTAAGTGACTAATTTGAAGCTGGGCTTCCAATAGCCAAGTCATGTTTCTTTATCTACACCTCTGT
Celera SNP ID:            hCV29152797
SNP Position Genomic:     74274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54686):
ACCCTGAATGGATGGCTTTTGGGTTCTAGTTTTTCTTGAACTGACTATTCCTAGCCAGCATCCATGACATACACCAGTAGTAGCACCAACATTAGTATAC
Y
TGACCCAGGCATCTCTAGCAGGAAGAAAAGCAACCTAGAGTTGAATAACTCTTCCATAAGAATAGCTATATACACAACCCAATTTTTTTTTAACTTGATA
Celera SNP ID:            hCV25632265
SNP Position Genomic:     67473
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,2)   caucasian(C,38)   total(C,62|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:54687):
GTTACATGTTTAATTCAGCATGAGATGCTAGCTCATGGATTTATTACTTTTTGCTTTTCTCCTAAGGAAGTTGCCCAGAGAGAGTGCCCTAAGCAGAGGA
S
AGGGAGCAGAAAGAAAGAGGTTACTGAAAAGAAGAAAAGACTTAGAAAAGCTCTATGGGGCACTGAAGATTAATCTCACACCTAAAGCAAAACTTAGCTC
Celera SNP ID:            hCV29152798
SNP Position Genomic:     44233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54688):
CCTGCATAACATCATGTGAAATAAGGATCTGTCAGGTTCTGTGAAGCCAGTATTTGTCTTTGGCCAGCATCCTAAGACTTTTTGAACCACTTTACTTGAT
Y
CTCAGTCAAACTTTTTGTTCTTGTTTAAACCTACCATCACATTTTGTTCAGTTATTTAGCACGAAGATAAGCGGGCCTGGCATTTGGACAAATATTTGAA
Celera SNP ID:            hCV29152799
SNP Position Genomic:     44618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54689):
CCTGCTCTAAAAGAACAGGTTAGTAGAGGAACGAACACTTTTCTCTGGGCTTTTAAAATATCAGTGGGGCTTAAACCCGTCCTCATCACCTTACTTAGGC
R
GTTCAAGGCTAGCTGAGATAATACACATGAACATTAAAGGTGCTATGGAATAACAAAGTATTGTTTCTTATCGTCATTGTAACTAGTTCTGCAACTGTCT
Celera SNP ID:            hCV27507057
SNP Position Genomic:     36365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54690):
AAAATCTGAATTAGAGAAGTCTGGTCAATGAAGTTTTATTGAATTCAAAATGCCTATCTTTTACTACTTGAAGCAAAAAACATACTTTCAGCCTTTGGGG
A
AAAAAAAATCAGAAACCAAGGAAACCACTGACCTTTTACTTATTATAACCTTTTATTTGTTTTTTTGCTAAGTAGTGTAAATGCTAGACTGAGACTTTAC
Celera SNP ID:            hCV26522487
SNP Position Genomic:     7034
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1)   total(A,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54691):
AGATTGTTTTGAGGCTTACAGGTAACGTATCAACATATGAAGCTTCTCATATATCAGTAGTTAATACTGTTGCATGGCAAATTTCCTTCAAGTTTAATCC
Y
GTGTAGTCAGGCCTGTGATTCTAAGAGTCTGTTGATTGGATGACTCTGAAGCAGCTTTGTTAATAGTGTGGACAATTTGCATGAAGCTTTTTATCATTTA
Celera SNP ID:            hCV26522488
SNP Position Genomic:     12100
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Gene Number:                 271
Celera Gene:                 hCG15753 - 146000219494848
Gene Symbol:                 FIGF
Protein Name:                c-fos induced growth factor (vascular endothelial growth factor D);VEGF-D;VEGFD
Celera Genomic Axis:         GA_x5YUV32W4U7(13871501..13922375)
Chromosome:                  ChrX
OMIM number:                 300091
OMIM Information:            FOS-INDUCED GROWTH FACTOR;FIGF


Genomic Sequence (SEQ ID NO:12431):
TTGGACTTATTCTTGAGTTCTACTTGCTACTAAACAACGTAAGAAATAAACATGTCTATATTGAGTGTTGCACAGAAAATATTTTTGAAAATTATATTCA
GAATTAGGAACATCGCCTATTTGGCTAGCATGTCAATTTCAAATTGTTCACAATTTGATCTTCAAAAATAAGCCTGCTTATTGTTTGATGTTTTCTTTGT
TAACTTTAGGATCCCAAGAGAAGCCACTTTGTCTTAATTGCTGGGGAGCCATTAAGAGAACCAGTTATCCAACATGGTAAGACCAAAATGACAATGATTT
TCTTGGTTGATTTTCCTTTTCTTTGAAAACAGTATACATGTATACTATTGTTGGGAAGAATAGCTGGTTTTTTTTGTCCTGTCTCTCCATCTATAAATCT
GAGGATTGTTTAATTTTTCTGTCATCAGAGGGAAATATATATGTGATGTTTATTCATCTCTTTTTTTTTAAAGAAACATTTCTTAGATACCTATTATGTA
TAGGATATTGAGTTTGGAACTGTGGGAAGAACAAAAATAGTATTTTTGTATTATGTCATAGGGAATTTTAACTTGAAAAAAGAGTCTACAGTCTACTGGG
AACTTTAACATCCTTTTTATCTTTATCAAAAATAAAGGTGATTTCAATACTGTCCTGTAGTCTATTGCATTTTTAGTAAAAAATATGAAACTCTTAGGAA
TAGTATTTTTAAGAAAATAGTTGTTATTTTTTGTTTATTTAAAAAAATGAGTAGAGGTAACTGATATAGCCGAAATAGTACTATACTTAGAGGCAGAAAA
TCCTGGCTTAAGTACCCATAACGATTACTTCAACTCTTTGGGTTTTGACTTCTTCATATCATTGTTGTTTGATTAAATGAGGAACATCTAAAAGCAATTA
AAACCCATTTTATTATTTAGATAAATGCTTACAAAACATATGTCCACTTCACCAATTATTAAATTCAACGTGCATTAAAATCCCATTGCATTTCCCTGCC
TTGCATGAATTCCCAGGTACACACAATGATTGCAGATAAACCCCAGCTGCTCATGAATTTAAAGAACACGGATTGCTTTAAAAATATTCTTTTTTGTTCT
ACTAACTACTTCAGGGGGAACATTAAATTGTACCCTGCCTTGCCTGTAGCATTTGACAACCATTTTGTACGCATCCGATTTCCATTCCAAAGGTTTGTGG
TTCTTGTTTCCTTTTCTCTCAACTGAAAAGCACTGCAATATTATAGTTTGTTTTTCTGGAAAAAGCCTTCAGACAAACTGAGTAGGGTCATAATCTTTAT
TCCTAGTAACTAACATTTAGGTGGGAAAAACATGTGTGAGATGGAAGTCTTATTTTAGGCAATCTCCTCTGTACCAATAATGAAAAGCAAGAGTCTAACT
GAATTAGGTGACAGATCAAAGGAGTGGGACTGCTCAAAGCCACCCTACACTGGGGTCATGTGGATCCTCTCCCAGTGGCTTGGAACAGAGGGACACTAGG
TATGCCTGCACATACAAACTCGGAGTAATCAGACAAAATAAATATGTCCCTTGAAAGTTCAGTTACTGAGAAGCAAAGCATTTTGTTTTTATTTTTTAAC
TTTTAAAAACTCAGACATTTAAGTTTTTCTTTTACTTATGTGTGTTTAAAGGCAGCCACAACCATCTCTTGATTGGGAACTTGCACAGATCTCATGAATT
ACCTAAGACCCTTTCTCCTCTTATCATCGTGTGTCCTTAATTATTCATCCACAGATTAAGCACAGGAAATCATAGAATGTTAGGATAGAAAATAACCTTA
GCCATGATGTAGTCATGCCTCTTTTATAGATGAGGAAAATAAAATCCAGATATTTTATTTATTTACTTAATGGATGCTTGCATAGAATTTACTATTTCCT
AGACATTGGTTAAAGCACTTTCCTAATGTTAATCCGTCTAACCTTCAAAACAACCCTATGAGGTTGGTACTCTCATGCCCATTTTACAGATGAAGAAGCA
GAAGGTCAAAGGTTCATTGGCTTACTCAAGGTCACATAGCTGGATTCACACTCAGGCTGTCTGTTTTCCAAACACCCTGCCCTTCTGCCTCTTACCATGC
TGGTCGTCCATTGCTCTGCCCTGTAGCTTCTCTAATGGAAAGCGATTGTTAGCAGTGGAGCTGGGACTCGAACCCTAGTCTCCTGACCCCATGTCTTATG
TTCGCTCCACTATACCAAAGTTCTACATAACAAGAGGTTAGACACACCATTTTATACAAGAGGGGGGCTTCAGAGGCTTAATTAGAGAAGTGATGAAAGC
TATAATTTGAAAGAGAATTATAGGTAACTATCAAATAATTTTCTTGTTCACAACCCTTGTAGTTGATCAATTTAAAAACATGCTTTCTGGATTCAGTTTT
CTCCTTGAAGATTTGAGGAGATAAGCTTCATCAGTTAGCTTTAGGGGACTCTAAGCTTCCAATGCTTCCCTGTATAACAGAGGTTATACTTGTTTCCTAA
AGTGTGGTCCATGGACCAGCAGTATCAGCATCACTTGGGAGATAGTTAGAAATGCAGAATCTCAGGCCTCACTCCAGACCTCCTGAATCAGAATCTGCAT
TTTAATAAGATTCCCAGCTGATTCATGTGCACGTTATAAATTGAGAAACATGGCAGACTACCCCAGAAAGTGTCAAAATGGAAGCCTAGAAGCACACCAT
TCTTACAGAAAACAGTTGGGGGATGGGAGTACTGCTCCACAAGTCCCAACCATAGCAAAATTATGAGGCACAAGAATTTGGTCCTTGACTCAGTACCTGC
TCCCATCTTCCAAGTTGCATTTCCCTTTCCCCTGCGTGTCCTTTAAAAAGTTGTCTTCCCCAGGGTACCCTCTTGGGTTTATTGTTTATTCTGCATATGT
TAACTCTCTTTTTCTTTCCTACCTGATATAGTCCAAACCTCCATTTCCAGATGAAATTTCTCTCATGAGCTCCAGATCCATAGTTTCAACAATGTACCAA
AAACCTCTGCTTGGGAAACCACTTTATTGTCTCTAGTACTTCTATGTTAAAATACTCAGAACTGGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCA
CTTTGGGAGGTCGAGGCTGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCAATCTCTACTAAAAATACAAAAATTT
AGCCGGGCATGGTGGCACGTGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGTGTGAGAATTACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGA
TCGCACCACTCACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCGGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAAC
AAAACAAAAAATATCCAGAACTGAACACCTTGCTCCATCCAAAGCCTCCCACGTCCTGTATCTCAAATACCCTTAACAATTCCACCATTGACTCAGCCTC
CCAAATTAGACACCTGCTCTTCTACCTTGATGCCAAAGTCTTCTTTAAAAATTATAAATCATATTATATTACTCCCTACTTAACCTTACAGTGATTCATA
ATCACCTGCAAAAGTAGGTCCAAACTTCTTCCTGTAGATTGCATCCAAAGCCCAGAAGGGTCTGGTTTCTTCCTATATTTCAGATCGCCATTTTTTCCGC
CTTTGATCCCTCCTTCCACCACTGTACCCCTATCCCCTCCAGTATTCCTCCAGCATACTAAGCCTGAACATGCCTTTCCTCCGTGTGTGACTGCTCAAAC
ATCACTCCCTCTGTGAATCCTTTCCTGGATTTCTCCTCCTCCCCCTTTCTGTGTTGATTTTATAGTTTTTACACTTTTATCCTTCCATATTTCAAACAGT
TTTGTAATGATTTCTTTTCATATCTGTGTGATAGATTTGAATCCTTGAGGAGAGGGAGTCTGCCATTTATTTGTCTTTCATCTTTATGTCTCTAGCTTCT
AGCACAATGTCTGTCATTTAATGGGCATTCAGTACATAATAGATAGGTAATTGAATGAATGGATTTAGATGCCTGGGTGTTTTCTTTCTACTTGTATTCT
ATTCCCCACATCCTCTCCAAAGATTTCAGCATCATCAAGACATATTATCCTGTGTCTTCCTTCTGAAGATTTAAATTATAGTGATCACCAAATCCATGTT
GATATGATAACAATGGTTAAGAAGTTTGAATATGTTATTTTCTCTAAGCAATACAGTTGTATATTAATCAGAATCTCCCAGAGAAAGCCCCTTAGAGCAG
GCAGTTCCATAAAAGGAATGTCAGGAACTTCTGCAGGCTGGATGAGGACATACACTGAGTGAACAAGTCTGTCAACTGCTCTAAAGACACTGTCAATGCC
ATATAAAAGCTGGCCTTGTTCATCTAGCAGATCATGGGGGTGAGACAGTCCAGTGCCTCTCTGCCCCTACAATATATGAAGAAAGGGGAAGAAACACACA
TTGCCTCCTGGTAGATTAGGGGAGGACTTCTTGTACATTTTTAGCAAAATCCGAGTTCAGACCCAGCAATTAGACAAAAGGGTCAGCAAACTATGGTCGA
TGGGCTACATCTGCCCACTGCATGTTTTTGTAAATGAAGTTTTATTGGGACACAGCCATACCTATTCACTTTTGCATTATCTATGGCTGCTTTTGCACTT
TGATGAAAGAGTTGAGTAGTTGAGACAGACACTGTTTGACCCACAAAATCTAAAATACATACTATCTAGCCCTTCCTAGCAAACATTTGCCAACCCCTAG
AAAACTTTTAAAAAATGATGCTCTTCGACTTGAAATTTTTATAATCTTCTGTTTATTGTCAATAGGTGCTGCTGATTTTCAAAAAATGACTTAGAATCCT
CAAATAAGTATACAGCCTTATATGCTGCTTAGACACCAAAGCTATGATAAGATTTGTCAGTTCTTTGTATCAGATGGGTTCAATTCTTGACATCAGCTAA
TGTTATAAAAATAACTACAAAAATGGTTGTAATAGAACCAAATCTAAGACTCTTTTTAATAAAAAAGATCACCATTGCTGGTGAGAAACCTATACTGAAT
GGGTGAGATGCCATTGCATTTATCTGAAGTTTCGTCTTTATAATCAATAATCATATACAATCCTAGTCAAGAAACTCATCTTACAGTCCTTGGGGATTGA
ACACTGTGAAAATAAACTTTTACTCTTCGGATGTGCTTGGATTTTGTTTTAAATTAAGAACTACAGAAATATATATCATTTCTAGTGGTAGAGGAAAATA
TTGCCACCCAGAACTTTCTGAATGTCTCTTTCTGCCCTAGGTCCATTTGTGATGAACACCAATGAAGAGATTTCTCAAGCTATTCTTGATTTCAGAAACG
CAAAAAATGGGTTTGAAAGGGCCAAAACCTGGAAATCAAAGATTGGGAACTAGTGGAAAGCGGAAGAGCAGGTCTTGATGTGTCCTAGAATTTTGCCATT
TCTGAGATTGAGCCATTGAAGGCATTCCATTTCTAAAGCTTATTTAGCCGGTGCTTCTAAAGAATTCCACACTAACGTGATAACATGGTTTTTGTAACAA
TAAATGTAGGATATTTCCTGGCACATGCAAATAAACCTAATCATTGTTTCTTTAAAAATCAGTGTTTTTCATTTGAGATACCTAAGTTACTAAGCTTCTG
TTTAAAAAGTCGTTTTGTGTATGTTTGCCTTTTTTTGCATGTATGGATGGATGTTTTTATTATTTTTGTGCATGTGCAGGTTTTAAAAATCATATTTGAT
TGCTTTCTGTGTGTCATTGGCAGCAGATGCATGAGCATCTGAGGTCCCTTCTTAAGCAATCCCACTGAGATACAAAGGTCAAAGCTATGTGCTGGGGTTT
CATGTTACAGGTTATCTGCTTTAAAATAACGGCAGCCCTGAACATTTGAGTCAGTTCTTAAAACTGCCCTGCTATTGGTAGGGACGCAACAGGATTACAG
CCAAGACTTCTCTGCATTTTCTGCCAAAATCTGTGTCAGATTTAAGACACATGCTTCTGCAAGCTTCCATGAAGGTTGTGCAAAAAAGTTTCAATCCAGA
GTTGGGTTCCAGCTTTCTGTAGCTGTAAGCATTGGTGGCCACACCACCTCCTTACAAAGCAAMTAGAACCTGCGGCATACRTTGGAGAGATTTTTTTAAT
TTTCTGGACATGAAGTAAATTTAGAGTGCTTTCTAATTTCAGGTAGAAGACATGTCCACCTTCTGATTATTTTTGGAGAACATTTTGATTTTTTTCATCT
CTCTCTCCCCACCCCTAAGATTGTGCAAAAAAAGCGTACCTTGCCTAATTGAAATAATTTCATTGGATTTTGATCAGAACTGATTATTTGGTTTTCTGTG
TGAAGTTTTGAGGTTTCAAACTTTCCTTCTGGAGAATGCCTTTTGAAACAATTTTCTCTAGCTGCCTGATGTCAACTGCTTAGTAATCAGTGGATATTGA
AATATTCAAAATGTACAGAGAGTGGGTAGTGGTGAATGTTTTCATGATGTTGTACGTCCAGCTGGTGCAGGGCTCCAGTAATGAACATGGACCAGTGAAG
GTAGGTGAGCTCAATTTTTAATGTGATGAAGTTCTTTTTATTGGCTCATACAGAGGACTTTCTTTGCCCTCACTATTTTTGAAACAATATAAAAATGCAG
AACCATCCTAGTAGTGGACTGGACAGGATATATCCTGCATTTCTTGGTGACTGTTCTGTTTCTTAGTCTTATTAAACTTCTGGCCATGAGTATTTGAAAA
TGCTGGGGTGGGGGTTGGTTGTTTTTTGAAGTTATGGTAGAACATGAGCAGTCTGGAATCTTTTTGGATGGAGAAGTTTCTCCTCGGTTGCATATGCAGA
TGGCACAGTGGTTTTTTAATGAAACATTGATTTGTTTTTATGACTGATAACTTTGTGGGCCATTTATTTTCAGGTCTTTGTGAGCAGCAGAGGTTAGTTT
ATTCGTTTGGTAAATTGAAAATTGCAGTGCTTTCTATGAACATTTTCTATCTGCTTTTGCAAATTACCAATTGCTGCCATCCAGAAAAATGTTTTCTCAG
AGAGTGTTTGGTTTTTTCGCTTCTTGAAAGGTGTAAAATTCAACACTAATCAAATCTTTGGTTCTGTGAGCAAGCATCAAATAGAGCTTAACGAACAGAG
AGTAATGCAAAAAATTAACCAGAATGTTGCTGACTGCTGGAACAATACTTAGCCCAATTTTATGCATTTCATGGATTATATATATTTTAAGCTTCTATTT
TGAAAATGATTCGGATGTAATTGTTTTGACTGAAGTGGTGCTAAATCATTATTGATTTAGGAACTTCTGGCCTTGAAAAGACAATTAAATGTGAGTTTGA
GTTTTTGTAGCTGTTGTTTAGGACGTGCATTTTCAACAGGGGTGATATCGCCCCCAGCAGGGGAAAATTGGTTCGTGGAGGGATGAAAAAGTTTTACCCT
TTTGATACATCACGCACAGACGTACATACAGTACATATGGTATGTAGTTTAAAATACGTTATACATTCAAATTGCATAGGGGGAAAGTGTCTTCAAAGGC
TCCTGGCTGGTGTTGGTGGCCTGGCGAGGGTGGGGGCTGATATTTAAAAATGTTGAACACTGAGCTGGAGGTGAGTGGGAAGTCACCTTGTCTGGCAGCC
AGCACTTTTCTAACTTCTCAAATTCCAAATTTACATGGGAGAAATCACAGTGTTTGGCTCCATTTTACTGCCACCAGCCTTGATATTGGATCTCAAGGCC
AGATTGTAGGTAAATGGGAATCTGACTGTAAGCATAGGTAACAGGAGAAAACGGTCTGACTTGTTTGAAGCAAGTAAGACTTTTCCGACTGTCCAGCTTT
TTCGTAAGTTCATRAAACAGAAATCCTTTAGATGTGCTGGGCTCCTCGAGTTTTAAAATATTTCCATTTTCCTTGTAAAACATCACTTTATCTGATGGTA
TAATAAAGGAGACTGAATTGTTGGACATAAGTCATATTCTTTAGGTTGCTCAGCTCTTTCAAAGAGCACAAGCACCAAGAATGTCTCAGGTGTCCTGGGC
ACTGTGAAGTTTTATTTATTTATTTATTTATTTATTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGTAGTGATGCAATCTCAGCTCGCTGCAA
CCTCTGCCTCCCGGGTTCAAGTGATTCCCCTGCCTCAGCCTCTCGAGTAGCTGGAATTATAGGCACGTGCCACCATGCCGGGCTAATTTTTTGTATTTTT
AGTAGAGACAGGGTTTCACYRTGTTAGCCAGGATGGTCTCGATCTCCTGACCTGATGATCTGCCCGCCTTGGCCTCCCATAGTGCTGGGATTACAGGCGT
GAGCCACCGCGCCCGGCTGGCACTGTGAAGTTTTAAATGCTTTGAATGTACTGTTAATATATAAATTTGTTGAATGGAGTAACGAAGGAAAGCAGCTGAA
TTTGCATGTGACAGAAAACAAGTTGTTACACGTGGAGGATGCAGCATTATATRCTTACTAATACGATTAGCAATTTTTTTTCAGAATATATCAGAATTTC
CTTTAAAAAGTGAAGCTACATATACTGAACTTATATCCACCCTACCCCTCGCTCAATTAAATTATTTCTGATATGAAGGAAAGGATTGCCTATAGCTAAA
CAGAAGTTTTGGCATAGATATGACTGAGTGGTAAGGGATAATGAGATATATAATATTGGTTATAGTTTTCTTTTTTCCCCAACTTTTAAGAAAAGAAAAT
CTAAGAGGAAATAATGTTTCTAAATGTTAAAGTTCTTCTTGTTAAAATTAAAATGTAGTGTGAAAACATATTCATGGTGGTAATGGTTTAGGGTGGTGGT
ATTTGAATTTTTTGTTTTTTTTTTTTTACTTTTTGAAATAAAATGTTTTATTTATTATAAGAAATTCATGGTCTTCCTCGGTACTTGGTCCATATGTATT
TCTTTCTCCTCACCCTCCCCTCTTCTAACCACCTCTTTTCCAGAATGGATGGTGATGCCAATTTTGCTCCTAGGTTGTCCTCCAGCCACCCCCAGCCCAG
TTTTCACTTTCTAGCTTTGAAGATTGTCCAGTTTTCCAGCTTAGACTAGCATTGCCTCTACGATAGTTCTAGGTATCTGTGAAGATTTTTTTTTTTCCTG
TAGCAATCATGAAATAGCTACTAGTGCTCTGGACGATTGTGCTTAATGCCATTTGGGTGTAAGGCCTCCTAATTTCATTAGTCTTACCACTTGTGYTTGC
AAGGATAGCTGTTTGGAGTCAGCAGTGCATGGAACATGTGAACTGAGACAAATCTGTTTGAAAATCTCAACTTAAGATTTCAAATCCACTGTGTATACTA
TTTAGCTGTTAAGTTTCTCAGTCTAAGAAGAACACGTTTTCCTCTAGAAATAAGCTTAACCCAGTACCTATGCATCGTTCATTAATATAATCAGATTACG
GCCTAGATGTGGAATTTATTTCTGTTTCTATTTTCTCCAGCTTTTTAATACAGCTCAGACAGTCATATACAGTTGTACACGATGTGCACTGCACAACTCT
AGGGTGCTCCATGCATATAGACATATCTGTATGTGACAGCCCTAAGTACAATGTGGTAGACACTCTGGACATTTGGTAAATAAGTATCTACATCCTCACT
CTTCTCTCATTCACATTGGCCTTCTGGCCAGCACTATTTCTGGTTTATTTAATAAACAATTCTTGTCCCCCAGAAATTCTGTGAGTCTTCTGAAGATGCT
GGGGAAAGCCAGCCTTCATAAATCTTTTCAATGTCACTAATGAAGACATGTCACTATTGCAACAAAGGAATACCAGGCCATAGTAGGCTTTCACAACTTT
TTTCTGACAGAATTTGTTTCTTTCTGCTTTATCTTCCCTGTGTACTGTCTTTTTTTATCCACCCTCTTTCTTAATTACACTGGTAGAAGAATATTGGTGG
GTGATGGAGTCATTCACATTCTGTGTAAGACTAGAATCAGTCCAAGATCCACAGGAATGTGGGATACTTCTTTCATGAGAAGCCACATGGCTCACAAGAC
TTCTTTACATTTGTGTTACTTGCCTTCTCCTGAAATTGTCTCTACAGTGAATCAAATAACAAGGACTGAGGTGTATTTTCCATATTTAATTCCAGGAAGC
AGTCCCACTCCTTCTCCCTGCCCGATTTCCAGTTCCAAAGTCATGTACAGGGAAGTCCATTGACTTTGATGTTGGTCAAATGGCCCAGCAAGCTTTTGTC
CACTTTTCTGTCAGACACAGTCCTTGGCACAAAAGACATCTGAAATACTTCCCATTAATTTCTTCTTTATTTATGACCTTGTAGTTAAGTGTGTTGAATT
ATATGCTTCTATACACATCTGTTTTAATCCAGTTACTCACTTATAACTGGTGACTGAAACTTTTATATCACTATAGCGTATTATTGGTACCCAGGATACA
ATAGAATCCTCAATATCTTACATCTTCAATATAGTACTTCCTTGTATGACTTATTTCTTAACATAAAAATCCTGTTTTAGACCTGTGGATAAACCTTTAC
TATAAATCCCAGAGACAATTTCTGGAATGAGAATATAGTATTTGTCCACACACATGATTCCATGTAGAACTTGGGGTAATAAGATCTGGGACTCCCAGAT
ACATTTATTATTACCACAATTGGATAGAGGTGCTACAGAAATAGGCACACAAATGACAGTAAAATTGTTTCTGAGAACATTTCTAGGCTCAACTTTTTTC
TACAACTTAGGATGAACAGAGAGAGTGGAAACTGTATATAATTGGGAATGTGACTGAGATGAGACAAAGATGACATGGAAGCATTTCTTCTTCCCTTGCT
TTTCTGGTGGTAAGTTCACTCTTCTGTCTTCCTTGCCACTAGTTCTTGCAGTCCCTACCAAGACACTAGGGCATTATACAGCAAACACACCCTGAGGCCC
CCTGCTACTGCATCATGAAAGCCTTAGCTGGTTGTGATGTCCTAGTTCATAAAGAATCTGCCTAGTCTCTCATTAGAGCTTTCCAATATTTGACAATTCA
TTCATTTATTTTTTTCAACAGGTATTTATTGGGCACCAATATATCTAGGCATTGATCTAGGGGCTGGGAATGAAGCAGGAAATAAGTCTAGGGGCTGGGA
ATGCAGCAGGAAATAAGACAATGTTTCAATTCTCTTGGAATTTGCATTCCAAGTGTGATGGGTAGAGGCAGACAATATGCAAATGTGTAACATGTCAGGT
GTGATAAATGCTATGAAGAAAATCAAGTAGGGGGAGCGGATACAGTACTGAATAAATCAGAGGAGACCTTTCTGATTCAGTTATGTCTCTACAGAGTCCT
GAAGGTAATAAGAGAGACAGAGGCAACCATCAGTGCAGTGGCCATGGTGGGCGCASCAAGTTGGCTTCGATGTCTGGGTATTAGCCAGGGAGCCGGTGCA
GCTGGAGGTGGGGTGAGTGGAGGCCAGAAGTGCAGTTGTTGAGGTTGGAGAAGTAGCCAGAGAAGATCATGTAAGGTGTGACTGTGCTCCCATAAAACTT
TATGGACACTAAAAATTGAATTTTATGTAATTTTCCTGCATCATGAAATTAAAAAAAAAATTGTTTCAACCATTGGAAAATGTAAAAAATTGTTCTTAGC
TAACAGGCCATACAAAAACAGGCTGCAGGTTAGATTTGGCCCATGGGTCATAGTTTGGCAATTGTGTTATATATAAATTATTACACTGTTTTATCTTCAT
CATGGTACACATCCATACCTGACATGTTTTATTTGCCTGTGTATACATTTATTGCTTTGTCACCGTCTACTAGAATACAAGTTTTTTGAGAAAAGGAGCT
CTTAATTGTCTTGTTTACTGCAGCATCCCAATCACCAGTGAAAAGCCTGTATGTAATAGAGTAGATACTAAAAACAGTATTTGTTGACTGATTGATGGAC
TAGACCTCAGGATTTTTAGATACCCAGGATCAGGATATGAACTACTGCATTAAATCATCTCCAACATCTACTCTCATGATGGCTTGTCTGACTTCAWGAT
TTAAAAAAAATTCTAAAGCATTTTTAAGGCAGTATATTCACCCTGTGCTATTTTCCTGTGGGCATAGGATAGGGTTTGTGTGGATGTATCAAAGACTTCT
CCACTGTCCTTCCAGGCACAAGCCATCCTATAAGGCGTTCCCTTTTAGGAGCCAGAGGTATAGAAGGAAGTCATCTGAGCCCATTATTCCAGCCTGTTGG
TAACAGAAAGAGAGATGAGCAAAGTAGCATTTGGCTGCACAGGGGTCTGGACAAAACTTCAACATCTTGATGTTTTCCTTCATCCCTGAGAGCCTTAGAA
ATGCTACCTATGCTTTCATTTTATGTTAGGTTGTTTGTAAAATCATGGTAAATTATGGCAAAATACTCTGGTCAGATACTTTATCAGGTTAGGCCAGGAT
ATGCTGTGAAAACAAACACCCCCGAAATCTTGGTGGTTCATAAACAACAGAGACTTATTTATTGCTTATACCACATGACCAGCCTGGTTCATCTGGGGTC
AAATCCACATGGGGATGAAGCTGGCTGAGTATCCGATCTTGAATGTTAGGAATCACTATGACAGAGGGAGGGAGAGCCTGAGAGCGCCTCACCCTGGCAC
TTAAATTCTCTGGCCCAGAAGTGACACATATTACTTCTAGTTGCAGCCCCTTGACCCACTGCCCCATCTAGCCACAAAGGGCCAGGAAGTGCAATCCCAC
CATGCGCTCAGAAGGCAGAGAGATGGAAATATTTGACAAACCGTATTAATGACTGTGACACATGGTGAGTTCTTCACATTGGTGACTTCTAAGTGCTTCT
GAACACACCTTTGACTGTAGAATGTCAAAAACATTCTCAATTTTACAGCAGTGCTGGAAAATGAATTGTATTGAGACAACTTGGGAGGAGTAGAAGGAGA
TGGAATAAAAAAAATTCACTGATTTCTGTCATGTGTCATGCCTCCTTTAATGCACGGAAGAACGTATACTTTGCTTAGGAAATCACATTACCACATTCAG
AACAACTTTAGTGAAGATGGGAAACAACCATGGCTGGTCAATGGGGTAACGTGTGCTGAAGGAAGACAGGTTTATTTCTCAGGAGGCATCTTCTCCCTGG
GAAAAGGAAAGACACATATTCATCTCAGTAAATATTTGTGGAATGTCTACCATGTGCCAGGCATATGAGTGGAAATGATGTTTTTATAAAATAAAGATGT
CTTAAGTATTTGCATGTCTTACTAACAGTCAGGGAGTTCAACTTGGCCAGTGGGAAGGATAATTTTATGCCTGAAACTTTAGTAATGTAAATTTTTATGC
TGATTCTCTTTTTGTCATTCACTGAGTATTCCTAAGTAACTATAACACTCACATATTGGAGATAAGTATTGGTTTCCTGAAATCTAGGTTTGGCTAACAT
TGCTTCTGGAAAGAGAAAATAACATGTGTTGAATGTCCCTATGGCAAATTCTTGCTGTTACTTACTGTTCCATTATGGAGAGTGTTAGAAAGAGTGTAAT
TTTGATTGAATGAATATGCTAAAAAAAACACCCTAAATAAGAAACTCACAAAAAGAACAGAGTGGAATGAAAAAGTGAAAACAACTTTGCAATGGTGTGC
TTCGTTTATAAGTACATTGTCACAGCAAGACTAGGGATGATTGGGCATCTTAGAGAGTGCAGAGGATGTTGATAAGGAAGAGGAAGAGGAGATAAGTGGA
TTTTGATATGGGACACTAGATCCTTAGGGAAGAAATGTGAAAGAGGGTATTCTGGGCTGACTGCCGCTGGCATAGCAAGGCTGCTTTGTAGAAGGGACAA
TAAAGTTTTGCATAAGGATCCTTTTTCCCATCCAATGGATTATGCTATACTTTAGCTGGAATAGGGCTGTAGCAGTTAGCTATTGCCACAATAATGCTGT
GTAACAAAGCAGTCCAAATTTCAGTGGCTTAAAACATCACTACCTTATTCTCACTTATGTCTCCAAGTCAGCTGGGAGTCAGAGGATTAAGGCTCAAGGC
TTAGGTTTGGTGCAGGTCAGCCCCAGGTGTCTCTCATCCTCCTTTGATCAGTGRGCTAGCAGGAGCATGTGCTTGCAATGATGGTGGAAATAGAAAAACG
TGCAATCATATGTGAGTTTCAAGCCTCTCCTTGCATCATGTCTTGTAATGTCYTATTGGTCAGTAGGGCTGGGAAATATATCCCTCCCTCAGAGAGTCAG
GAGTGGAAATGAAAATGTTTTTAACAATAGCCTAATCACCATAAAGGCTTTGGGTGGCACACTGGGCCCTTGATCTTGGAGATCAGTGATAGACTGTAAC
AGACCTCAGAAACCCCTTGGGGTTATTCAGAGCATACTTCTAGAGGGTCTGGGGTTGTCTTGCCATTCAAGCCCATCCCACACCCATCTGCCCCCACATA
TCCTAAGCACAGTTATGTCAAGTGAGAACAGAGGCATTTGAGTGGAGCACAGATTTCAAACACATAAAGGCAGGGCATGGCCATCTCCCGCAGTGCTAGA
TGATCTGGCTGGGAGAAAACCACAAGCAGTCTTCATCAAATTGGAGGATGTGGAGGTCCCAGGCATTTAGTCCCCTAGTATGTCCTTAAAAAACCCAGAC
AGCCATGCACACACACTCACACAAATGCACACGCACACACACATACATTCACACACACACTCTTTTCCTGCATTTGTAGTTCCTTTCCTCAGTCTAAGTT
TAATTAAACAACTTGGATTTCATATATATTCATTTAAATATAGAATTGCATAAAGAAAAGAGCCACCAGAACCACCAATGGTAGCATGAGGCCTCTGAAA
TGAAAGATGAGCCCACCCCAACCTTAAATGGCCAGGTTTCTGGATTTCAGAGAAGCAAGATCAGACCCTTGGCAGGTTCCATCTGAGCAGCCACAGCAGC
CATAGCTACARCAATAATTATTAGCAAGTGTGCGTTCTCCCTGCCCTAGTTAGTACACCCTATACCATCAGGTGTCATCTGTTCTAGTTAAAGTCAGACC
GTAATAACAAAACATCAAAATGTAAAAWGTGGGTTGTTTTTTTCTTTACACACTTCTAAAGACATTTAAAGCCTGAGCAGATACCTTAAAATTCATCTTC
TATCTGAAAATACCTCCTAGAACCATTTTAAAAAGGAGATGGAGGCAAGGTGGAGAGAAAAAGTTTGTCTTTGGTTGACACTGGGAAAGTTGTCTTTTAA
AAAATTTTTTAATGTTTATTTACTATGGAGTTGCCGTGTCTTGCTCTTTTCAAGCTCACCTGTCCGGCTTCTAAGGAATATCAGGGGCCCTAAAACACAG
ACTTCTAAACCCCAACACATAGGACACACCTAAGTGTGGAAAGAAAGGAAAGAGGCAGGAAAGAAAGGAAAGAGGAAGGAAAGAAAGGAATGCAACATTT
ATTGTGTGCCTACCATATACCTGACCCTTTCCTACATATGACCACATATGATCTCTTCATGAGCTTTATGAGGTGACCTATTATTAACAATGCTGCTTTA
TAAATGAGGAAACCAAGCCTTAAGGAAGTCAAATACCATATCCTCAGTCAAATAGCTAAAAAAAAAAAAAGAAAAGAAAAAGAAAAGGTAGTGCCTGGAT
TCAAAGACAGCTTATTTTTTTAACTTATAGAGTAAAATGGATTTTTTCCCTTTTGGTGTGTAGTTCTATGAATTCTAACACATGTATAGATTTATATAAC
CACAACCATAATTAGGATACGGAACTATTCCATCACCCCCCAAAAATTCACTTACGTTATCCTTTTACAGTCAGACCTTCCTCCCAGCCTCCCAACCTCT
GGCAATCACTGATCTGTTCTCCTTCACTGTCGTTTTGTATTTTTGGTTCGCTGTCATTTTGGTTTTTTGGGAATGTCATATAAATGGAATCATACAGTAT
GTAGCAGTTTGAGATTGGCTTCTTTCACTCATACTGCCTTTGAGATTCTACCAGTGTCCCAGTAGTTCATTCCTTTTTATTGCTGAGTAGTATTACATCG
ATTGCTGAACCGTTCACCCATTGAATGACACATAAGTTGTTTCTAGTTTTTTGGCTATTGTGAATAAAGCTACTACAAACATTCATGTACATGTATTTAT
GTGAACATAAGGCTTCATTTATCAAGGGTAAAATCCCCAGAAGTAGGACTGTTGGGTCATATGGTGAGCATATGTTTATAAGAAACTGCAAACACATTTT
CCAGAGTGTTATACCATTCAAAGCCAGTTTTGAACAATTCAAATCTATGCTTTTTCTTTCCAGTAAGCTGTTTCTCCAGACGACAGAGTGGTTTACTATA
TTAGGCAAAGCTTCATCTTGGGGAATGTTATTTCCAACTGAGAGCTATGGGAGGCAAAGTCACAAACCTTCAGCTCAGACTCACCAATCTAACTTGATCT
GGGAAGATACCTCGACAGGTGGGGGAGGGAGAACATCTGCTGAGGAAGGCCGGGAGTGGAGTGAGACATTGCTACTTGGACCCCAAAACCAGGAAAAATT
TGGTGGTTTTGGTTGAGCTTGAACCATCAGGTTAAACAGGAAATGCAAAATGCTCTTCCAGTGAAACAGAAGAAGCTGCTAAGAGGTAGAGGGAACATGG
AACTATTTGTATTGCAACCGAATCCACCTCCCCAAACCCACTGCAAAGGGAAATTGCTGACTGCAATGTCCCTGAACTCCAGGGTGAGTAAGAAGAGAAC
CACGCCCCCCAGGGAACACTTGTAAATTTTTAAGCAAATCTAGGGAAAGTTGTGTAAAATGTGTCCCTTCCATAACTCACCCTAAAGCTTCTGGGTATTC
TAAATATACAAATTCTATTCATCACACCGTTTTATCACCAAGCTTCCTGAAGGCATATTGCCAACACAATTTGACAAAGAAAATAGCACCAACAGCTTTT
TAAAGCCTTGGAAGGATAGTCTCAGACCCATGGCTCTCTAGAGGTCCAGGGATGAATCTAGCAAAGCTGGCCTCCTTTTCCATATATATAGAACAAGAGG
ATTGTTAATAGCATGGGATTGGAATGGCTCAAGAAAAGCTTTTTGAAGCTCTTTGAGAAAAGTAGCCAGGGTCCCCCCTTAAACCTTCTTTGCTGATGGC
CTTACAGCTCAAAACCAGCATTGGAACCGGCTAGGTACTCCCAAACCAAAGCCTCTTCCACTTGGCATGTATATTTATATTCTCATATCTTCTTTCAAAT
ACCTTTCAGTGTTGCCTTTTGAAAAGATTATAATTTGTACTTTTTTGTTGAATTCAGTAGGTTAAAGCAGTACCTATTATCTTTAATTTTATTTTGAAAA
ATTGGTTGGTTTGGCTTTTGGGGAATTTGAGAGGCAATTTAGTCTGTCATTTAGGATGGCATCATATAAGGCAGCCAACTTCATCATGCTRTTTAGCCTG
AAAAGCGATATTGTTGATCTTCAACCTTGAAAAAGTCGTACAGGTTGGGAGCTGACCTGCAAATGGTCAGGTATCTTGAGATAGGAAAAGGATTTACAAA
TCCAGGTCAGCAAGATACTCATACAAATATTTTGAACCCAAGGTATACATCAAATAGATTTAAAGACTAAGACTATTTCTGAGCATGCATCGACTGTTTG
AAGACTAGTGGACTTGTATGAAGTTCAGGAGTTAACCTGGGTCTTGTAACTTAAAAACAGCATTTCTCATGCCCTAAATTAGTAGTAGAGAGACAATATA
GAGAGTTCCTATATAGCCCTCACCTATCTTCCTCTAAGGCTAACACCTGGGAAGTTTTTTTTWAAAAAATCCTGATGGCAAAGCTGCAGCCCAGACCCAA
AAAATGAGAATCTGTGAGATTTAAGATTCGAGCATCAGTATTTCTTTGAAGCTTATTCCCAGGTAGATTCAAGAAGAAGCCAAGATTTTGAATGCCTGCT
TTATTATTTTTTTTTTTGTGAGAGCTTTAATGGCACAAAATGTTTATAGCTACAAGTTATACATGTATTGTAAATTGTATATAACGATACAAAGTGCTAA
CTAAATAGATGGAGAACGCATAACCACTTTGGCTCAGTTAATCCAATAATTTCCACAATGGGTTCATGAAAAACCTCATCTGACTGGCTAAGTCTTCAAT
TCTCATTTTTTTAGAATAGTAAATATTTTTACTGCAATCACAGGAACTTGTTGCGCTTTCCAATGTGCAAGTTTCTGCAGTTTTGCTCTTGATTCTATTT
ACAAATATCTTAAGCCAGTTTTCATCAAACATATGAAAAATGAAGCCTGCCTTTTTGTCCCCAAATTGTAAATAGGTGTAAATCTTTTTAAGCATCAATC
TCACAATTTCAACAGTTAATTGTTGAATTCTCCTTTCCAATACACGATGTTTTCGTTCAACACAAATCTGGGTAGTAGTAAAATGTTCATCCCGTGTGTT
AGGGCTACAGATACATACTACGTGCTCTCATAATAAATTTTACTGTTATGATGTATTCATTTTTTAAGTAATTTTCCATAATTTCACTGATGCTTTAAGA
AAAAGAGCAACACTATGTTTCTTTTTAACGTTGAAAGAAATCATAAATATACCCAGGTTCAATGGCGCTACTGATAGAACTGCTGCTGAATTTGGAATGA
GCACAATGCACTAGCTGTAAGAAGTCAGTTTTGGGTAATGAATAATTTTACTTTTCCCTCCTGTAATACCAATTTCATACTGTAGCAGTTTATCTAGTCA
GTTCTCCTAACTTTCTGTCCTTTCCAATTTTATTCAGGCTTTTCAAAAATCAGTGAGCCATCAGATTTACTTTCTTCCCAAAGAAATTCAAATATGAATG
CTTGAAATAAATAGGTTATAGAAGGCAAATCAAGTGTTATCAGGTTTAAGATTAAGACAGAAACATGGTCTAATAAAAAGATGTCCAAAATTATCTAGAC
ATCAAATGCTAGAAAGAAAAAAGAAAATTACTTGCAAAACTATTTAGGATATATCATCTTTCTTAAAGATTGCCAGCTATATTCTTGAAAAAAAGATAAA
AATTTTCTTGTTTAACCTGCATGTTATTTTCCACTATAACATTAATTTTACAAATGTTGATGTGAGAGAGAAGAGTTAGATAGTTTCTGCAAACTGGCAA
ACCTGGCTGTGATAGTGTTTTTATTCAAGTTAACCTGGTGCACTTTATAGATTGCTAGCTTTAAAATTAACAGTGTGAACCCCTGCTTTAAACCCTTCTC
AAAGTGCAGTCAGCCAATCAACAGTATTGCCATCACCTGGGAACTTGTTAGACCCCACTTTGTCAAACTCATTTCCTGGTATGACAATGAATCTGGCTAC
AGCAACAGGGTGGTGGACCTCATGGTCCACATGGCCTCCAAGGAGTAACACCCCAGGACCATCAGCCCCAGTGAGAGCACGAGAGAAAGAGAGAGGCCCT
CAGCTGCTTGGGAATCCCTGCCACGCTCAGTCCCCACCACACTGAGGATCTCCTCTCCTCACAATTTCCATGCAGACCCCCTGAAGAGGGAAGGGCCTAG
GGAGCCCCACTTTGTCATGTACCACCAATAAAGTTCCCTGTACTCAGCCAAAAAAAAAAGAAAGAAAGAAAAAAGAAAAAGAAATGCAGCATCCTGTCTT
GCCCCAAACCCACTGCGTCAGAATCTGCATTTTAACAAGATCCCCAGGTATGCACATTAAGTTTTGAGAGGCAGTACTACATATAAAATATGCAACAGAC
CACACAAACCTGGGCCCAATTGCTATTTGTCAGATACATGTATGTATTTATTACTTATAAATTCCTTCATCAGATATGTATTACGTGCTTATTACTTTAA
AAAGATGAATCTGACACATATCCTACCCTCAAAGAGATCTCAGTCTAGGAAGGGAAATACAATGTGTTCATAAATAATATAGTCTAAGTTAGGGACTTCA
TAAAATGCTTGATGGAAGAAGTGGCATTTATTTTGGACCTGGAATGAGAACTGAAAGAAGATATTCAAAAGACAAGTGATGTAGTGATGTAGTTTTGAAT
ACACGAATAATCTCAGGGTTACTTTTTCTATAGCTTTTGGTGAATCAAGTTGTTTATTCATACATTTAATAAATATTTATTCAGCTCTTACTATTGCTAT
AAGACAGATACCATTACTGCTCAGGTGGTTTTTACAACCTAGTGGGGAAGACAAGCAGATAACAAGAAATGACACAATTCATTAGTGTTACTGGTAGCGT
TGTGAAGGACAAGGATGGGGTGCTAGAAATCCATGTGACGGACCAGACCTAGGCAGGGGTGGGAGTTATGGAGGAGGTTTCCCTGAGTAGGTAACATCTA
AGCTGAGAAAGATTTAGTTAGACAAAGAGTGAATGGCATTCCAGGCAAAGGAAACAGCATGGACTAAGGTCAAAACAAGAAGAAATGAACGAAAGAGCAA
GTTGATAAAATGGATGTCCAATAATATTCCATTGTTCAACTATGCAACATTTTTCATTGCCTCCCAAATTGGRTCAAAGTAGCCTGGTCTTCATGCCTCC
AGTCCTTCCTCTTTTTAAAAATTTTATACAACTATATTAATATAGAATTTACATACTATAAAATTTCATTCAAGTATATTAGGAAATTTACTGAGTTGTA
TAGCTATCATCCATATAAGGTCCGTTATGTCCCTTTGCAATGAACCCTCCATTCTCACTCCCAGCCTCAGGCAGCCAATAATCTATTTTCTGTCTCTAGG
GGCTGGAAACTTAGGATTGGAATTAGTTGGTTGTATAATAAATTTAGCTTATTAGAGAACTGCTGAACTCTTTTCCAAAGCAACAATACAATTTTACAGT
TTCATCAGCCTTGTGTGAGGGTTCCTGTTGCTCCATATCCATTACAACACTTGGTATTGTCAGTCCTTTTGTTTATAGCCATTCTACTGGGTGTGAAGTG
GTATCTCATTTCACCAGCCCCTCTTCCTAACTTATTTGCCAGATTCCCCACTTCTAAACTTGCTCTATGCCCAACCAAAGTGAACCCCTTGCTGTTTTTT
TTTTCCCCTGAGGCTCGTTGATATCCCCAAATTATGCCTTTCTTCATTCTTTGAATGTGTTACTTGACTGGATATGTATTTTTGGTGAAGGAGAGGGGCT
GGAAATTGAGAGATGAAATTGGTAGGAGTACAGAAGGCCGTTGACTTCCTCACAACGTGGGACACTTCCAAGTTTCTCCTACAAACCCCACCACTATACC
TTTCCAAATATCTTGCCTGCCATCTTGGTCACCCGTGACCTAAATTAATACTTAGGAAGCTATGGAGATGCTCATGCTTCCTCAGGGGAGAATGCTGTGT
GAACTTAGAAATTAGCAAAAGGGGAAATGACTACCCTTGAAATTGTACCACAGAAAGGAGCATACATTCAAATGATGGTGAAGTCTTATTAAAAAGACTT
TAAGCCTCCCAATTTAGAAGCTGGCTTGTGGTAGCCAAGAAATTAGAGAATGATTTGTTATTTAAGAGTGAAATTGCTAGTAGTCTTGAATTAATTACCA
TAAAAAAGCTGCCGCTGTAATAAAAAGCAGAGATCTGGTAACCCTGCTTCATTCACTTTCTTCCTCTTGATGAAAACCTTTTAATTATTTTGATTTTGAT
TAGCACTTCCATCAGAAAATAGGAAGAAATTAGGAGCAATTTACTTGGCAAAGGTTTAGTAATTAAAACCACTGAAATCAATGGTTTAAGTATGTATTTG
GGATAAACACATTTTTAATTGTTATTTTTGTCTTACCCAAGTGGATAACATAAAGTTCATTATACAAAAATCAACCAGTGCAGAAAGCCGATTGGGAACA
AACAACCATTCTTGAACCCTTTGAAAATGTATGCCCTTGATGAATTACTTGTCAGGTTTCTACTTAAGTTTAATTGTTAGTACTTCCACTTAAAATAGCA
AAATGACTGTCTGCAATTTCTGTTATTTCAAACTAGGTTTTAAATTCTGGGGTTGAAAGTAAGCTTAAATAACTCTGAGTACTTGAGTAAACACTGCATT
TTTTATGATGAGGCAAGTTGTATGAGCCATTTAATTACTTTAATTCAATCCAGAGATTTGATATTTTCTCCTGAGTTCTCACAGTTGGATAGTTTAAAAA
TATTTCTAAGATTGAATTGAATCCTGTAAGAACTATAATAAAACCATACATCTGCCTGTTTTCTTTCTTTCTCTTTCTCTCCTTTCTTTTCTTTCTTTCT
TTCTCTTTCTCTCCTTTCTTTCTTTCTCTTTCTCTCCTTTCTTTCTTTCCTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTCTTTCTTTCTTTCTT
TCTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTCTTTCTTTCTTTCTTTCTTTCTTTT
TCAAGATCGTGCTCCATTGCCCAGGCTGGAGTGCAAGTGGCGAGATCATGGCTCACTGCAACCTTGACCTCCCCAGGCTCAGGTGATTCTCCCACCTCAG
TCTCCTGAGTAGCTGGGAGTACAGGCATGCACCAGCATGTCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTCTCACCATGTTTCCAGTCTGATCTT
GAACTCTTGGGCTCAGGCAATCCTCCCACCTCGGCTTCCCAAAGTGCTGGGATTACAAGTGTAAGCCACCATGCCTGGCCTTGTATTTTTGGATAATATT
GAGTGAAATTTGCCTCAATACATAAAAATCCTTTCAATATGCTTCAACTCTAAAATCTTTAAAAAGCTGCTTGGTTTCATTATTTTCACGTGGAAGCAGC
ATTGTCACAAAGTTTTATTTTGAAGACTGAATTGTATATGGAGTACTGTCCAACTAGAAGAGAATGAATAATCAGGAAAAGAGAGACTATTGACAAATAA
GACTTAATGGAGAAGCATTGAATTTCAAAGCTGCCAGAGACATTAGCAATTGTTCAGTTTCATCTCCAGATTTCTTAGATGAAGAAGCTGTGGCAAGCCA
ATTTCACAAACCCGATCTATGATCCTCATGCTCCCCACTCCTCTCACTCCCACAATTTTGCCTTGATTCAAACTTTATCGAAAAGTGAGAAATCACAGGT
ATGAGCTCACTGAGCTTCCCAGGCAGTCTTGCCATCTACAAACCCATGTCATTCTGTATTTTCCTCTTGTTTCTGACAGTGATCCTCTCATCTAGTCACA
CTACATCCACTTATCTCTGGCACTTATGTCAAAACAACCCCTCTAGGTCCTGCCTTAGCTCTCCTGCATATGCTTTTTCTTTCTTCCTGTCTGTTGCCTC
TTTCCCCCAGCTTATAATTCTCCCGCTTTTATTAAAAACATGCACCCACAGACACACACTCACATCTGGATTCCCAAGTGCGATAACCTTGTAGATTCAT
ATTTTCAGATCGTTCTTAGTCCACAGAATATAAAATTGATTGAATGATGGCAAACATCTGCAGATGACAATCATTTACAGAAATGGCACTAAAGCCATGA
AGCTGAAGCTGCAGGACTTATGGATCTGGGCTAGAAGACAGGGGCCATCAAAAATTTAGCTTCAGTTGGAAATCGGCTCTTTTAGTGCACTACATCAGAT
CCATGAAAGAGGAAGGAAGAGTTACTGCTCATTGCTGCCTGGAGCTGTGACTTCTATGAAATTACTTAACGGGGCAAAGGAGGAAGCAGATACTTCCTTG
CAACTAGGACGTGAGCTGAGCTGATCCCTGAATCATAAATACTCAACAAGATTCGGATTCAGGACCCAGGGTATTATGGGGTACAACCATAAAACTTCTA
AATGTTGGAGAAAGAATAATGAGAAAGAAAAATGAATCTCTGAATGAAAATGGAACTACTAACCAAAATTCCAAATCACGTTAATATAATTATTACTAAG
AATGACAGCAACAAAATGAATAATCAGTATATGTCATACCTATAAAGTTAAAATCTAAAATAATTTGAAGAAATACTTAAAAATATTTGCAACCCTCAAA
GAGATAAAGAAATAATATTCATAAAATTGAAATGACAAACTAGGGGCAGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTGTGGGAGGCCGAGGTGGG
TGGATCACAAAGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTAATAAAAATACAAAAACAAAATTAGCCGGGCGTGGTGGTGG
GCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGAGGGAGAATGGCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCTA
GCCTGGGCAACAGAATGAGACTGGGTCTCAAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACTAGGAAGAATATACAGAAATGTAACAGAAA
GTAGATAGGAAGAAGAATGAAGTAGAAATGCTTGAAATTAGAAATACGGTGATTGAAATTAAAACCTTAACAAAGTAAACTCTAGACTCACAACAATTGG
AGAGTTGGTGATTGGAAAGATGAACCAATTAATTTACCCATAACACATTAGAGAGAGGTGAAGAGGAAAAAATAGCTAAATATAAAAGCACATTTAAGAG
ACATGTAAGATGATTAAAAGCCTCCAACATTTTTCAAAAAAGAGAGTAGAGGCAATATTATAGGTGGAATAATGAAAATGATAATGGCTGAGAATATTAA
AGAATTGAGAATAAAAAAGACAAGTGGCCTCAGATTGAAACTGCCATGAAGGTCTCTGTCTCAAATTCTCAACTCTGCTTTTGTAGTATGAAAGCAGCCG
TAGACAATAAGTAAATGAATGGACATGGCTGTGTGTCAATACAACTTGATTTACAAAAACAGGCAGGCAGCAGGCTAAATTAGGCTGGGAGGTCATAGTT
TGACAGCTCTTGATCTAAAGAATAACCATTGTTGGCCAGGCGCAGCGGCTCATGTCTGTAATCACAACACTTTGGGCGGCCAAGGCGAGCAGATCACTTG
AGCCCAGGAGTTCAAGACCAGCCTGCGCAACATGGCGAAACCCCATCTCTACTAAAAGTACAAAAATTAGCCGGGCATGGTGGCAGGCTCCTGTAGTCCC
AGCTACTTAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCTGAGGTTGCAGTGAGCGGAGATGGTGCCACTGCACTCCAGCCTGGATGACAGA
GCCAGACTCGGTCTCGAAAATAAATAAAGAATAACCTTTGTTTACATTTTCATGTATATGTCTCCAGATGTTCCTCATATATCCATATAAGTATGTATAT
ATGATGTACATAAGTGCATAAGTAAAAATACATAAGTAATTTTAAAAGAGGTTATATCATAGCTGAATCACACATGACTTAGACCACACTTGCTCTTCTG
AGTACCCATTTTTGGACAACTCTCAGTGTCCACTAGCATGTCTAAAAAAAATTTCTCCTCCTAAAATGCTAATGCATGATGTAGATTTTAACTACAGCTT
TTGAGGCTCAGTGGAGGAGAGTGTACATCACACTACCCAATGCAAAGCCTTTTAACAGCCCCTTTTGCTCATCTTTGTTTTCCTTCACTGTTCCTCGCCC
TGCAGCAGGCAGCTGACATTCACCTTTCCCTTCCACCCTCCTCTCTCAGCACTGGTCCTTTGCCTCCTCCCTCATCCCAGCTCTACAAATGGCCTCAGCC
TGCATATTCCAACCACCCAGCAAAACAAACATCTAGTAACTACCGGGTCAGCAAGAGAAAATCGGAGGCCCTAGCCATAGATAGATCACCTTATCATTTC
TCCAGCACATTCCAGGAAGGATCTCAATTCGTTCTGTCCCAATATACCTCTACATCCTTTGTTTTGATGATCACATAGAATTCATTGTATGCATATATCA
TTATTTATATAACTAAGCCCCCAATTTTGAACAAGAGGCTACATACTGAAAATCTTTTATCTACCAAGTCTTTTTTTTCTTACAAACCCATCCAATACAG
TTGCACTGTATCCGCCAATACAGTTCATGCAACTGTATGGAAAGCAAACTCTAGAAGAGTATTTGATAGCTCCATAAGAATATTAAACTCTTATACTTCT
AGAGCGTAAAACCCCAGAAAAGTATTTTGTCAGAAAAAAATCATGTTTTTGAAATAGTAGGTTTTAAAAGAAAACAAAGAGAGTTAGAAGTAAGAAAATT
CAGGTTATCAGGGGCTTGATATCTTTTTTTTGTGACTGTAGTCAGGTTACCCAGGCCTTTGTGGATCAATTTCTCAAACAAATAACAGAGATGAAAACAA
CTGTCAGTAGCTACTGTCACAAAAATAATATGATAAACATCTTTTCGTTTCCTATGGCTGCCATAACTAATTATCACAAACTTGGTGGCTTAAAATAACA
GAAATGTATTTTCTCACAGCTCCAGAGTCCAGAATTCCAAAATGGAAGGGTCAGCAAGGCTGCACGCCCTCAAAACACTCTTGGAGAGAATCTTTTCTTG
CTTCATCCAGCTTCTGATGGCTCTAGGCAATCCCCCGCTTGTCACTGCATCACTCCGGTCTCTGCCCCCATCTTCAAATGACCTTCCTCTGTGTCCCTGT
CTTCTCTTCTGTCTCTTATAAGGACACTTGTCATTGTACAGTATTTAGGGTCCACATAGATAATCCAGGAGGATCTCATTTTAAGATCCTTAACTTCATT
ACATCTGTACAGATCCTTTGTCCAAATTAAGGTAATGTTCACAGGTTCTGTGGGTTAGGATGTGGACATATCATTTTGAGGCCCACCATTCAATGCACTA
CAATTTTCTTTGTAAGTGTTCTGAGAACCCAGGAAGAATAAGTAAATCCTCTGATTCAATCAAAAATGAGCAGAATGTAAACCAAAAATACTAGAAGATA
TCCTTTTTCCTAGGCACTGGCATACRTTTCAATAGTATCTCTAATTACAGATGTATTTACACTTCTAAGTGTCAGAAATGAAGATTATTATGACAAATTT
AAAATTTAGTAACTTGTTTTTAAACTGGTATTTTTGTTTTTTTAAGCGATCATCTCAGTCCACATTRGAACGATCTGAACAGCAGATCAGGGCTGCTTCT
AGTTTGGAGGAACTACTTCGAATTACTCACTCTGAGGACTGGAAGCTGTGGAGATGCAGGCTGAGGCTCAAAAGTTTTACCAGTATGGACTCTCGCTCAG
CATCCCATCGGTCCACTAGGTTTGCGGCAACTTTCTATGACATTGAAACACTAAAAGGTAGGTGTGTGGATGTGGAGACAAATTCTTTCTCTTTATTAGA
TAGYGACAAACACACTTACTTTCTCCAAAAGTCTGCGTAGGGCAGACACGTGTCAGAGGGAGAATGAAAGTCGGTCTTTGATTTCCAGTATTAGTGCAGA
ATCTTGATTTTTTAATGTTTACTTCACAGAGAAATATATTCAATATGATTTTGAGATAAAAAACACAAAAGAACATCTCAAAATATAGAAATAAATTTAA
CTCAAGGATGTGGGGGCAAAGAAAACCCAGGAAGACTATTGTTCTCAATAGAAAAACAATCATCAGGTTTACTTAGAAAATAAAACCTGGGGATTCATCC
ACAAGGAGTATTCTACTGCCATACATACATAGACAAAAACCAAAGATGGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGAA
CGGCAGATCGCTTGAGCCCAGGAGTTTGAAACCAGCCTGGGCAACATGACGAGACCCCATCTCTACAAAAAAATAGAAAAAAATAGCTGAACATTGTGGT
ACGTGCCTGTATTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCGGCTGAGCCCAGGAGGTCGAGGCTGCAGTGAGCCATGATCATGCTACTGCACTC
CAGCCTGGGCAACAGAGCAAGATCCTGTCTCAAAAAAACCACCCCCTCCCCGAACCAATAGATTAGGTATAGCTTTTTTTTTTATTTCTGCAAAGTTGTG
TGATTTTTTAGTAAAAGTGAAAAGTAAAAGTTAGACACTGAGTTGTAATATTGGGTACTGGTATTGCTAGGAGAATAATGAAGGGAGAAAATTCTCAAGA
CAAAATGATCAAAACTCCAGACTAGAAAATAACATAATTTGAAATAAGGATAATGATCGTTCCCTAGTAACGTATGAAGATTCTTTAAAAGAAAATCAGG
CCAGGTGTGGTGGATGACACCTGTAATCCCAGCACTTTGGGAGGTTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGG
TGAAAACCCATCTCTACTAAAAATACAAAATTAGCCAGGCATGGCGGTGCATGCCTGTAATCCCAACTACTTGGGAGGCTGAGGCAGGAGAATCACTTGA
ACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCACCATTGCACTCCAACCTGGGCAACAAGAGTGAAACTCCATCTTAAAAAACAAAAAAACAAAAC
AAAACAAAAMAAAAAAACAAAGAAAGAAAGAAAGAAAACCAGTGTGAGTAGGTACTGTCATAATGAATAAAATGCTTGTCAAGTAAAGTTCTGTGGTTTC
TGATTAGGCACTTAATTTTTTGATGTCATGTCAAAACAACACAAGAAGCTGCTACAGCATTGCTGATCTAGCATTCTAGATTTGATTAACATGATTACCT
GGTAACTGACTATATATATAGCATAATTCAAATTAACCACTAGGCCAAAACTATTTTTTTCTTTCTACCTAAAATTGTATTTGTTTTTTCCCATTTGTAA
AAAGATGTTGGGGTTGCACAGACCTCTGTTGTTGGCTGTGGGGAGAGCTGTGCATAGATGGGGACATATTCTTTGGTAGCACCTTGGGCATGAGTGTGAA
GAGGATTCTTAGTGTTCATGTGTATGACTGTGTGTCTAAGTGAGTTGATGTGGTAGGAACCATAGCCTCGAGCTCACTTCAGACAGAAATTTGAAGCTCT
AGATGTTTCTATGTGGTGAATTAATATAGCCTTCATGAGAACAAAGGGTTGGCACCTCATCTAGAGGTCAAAGGCCTTAACCAGATTACCTGACTGAAGG
CCTGAGGTGAACCTGGAGCTATTTCATGAACATGAACGTTACCATAAAACCAAGACTAGGTGATCTAAAAAAAGTCAATGACATTGACATTTTCTAAGGA
GAAAACCATTAAAATATCACGGAATTTGCAAACCCTATGAATTTATCTCGTAATTTCTAGGGGATCATCTGAARTTATTTACTAAGTTAGAAGCAGTCAA
TAATGAAATCAGCATGTTACACCAATTAGAATTTGTTATCAACTCTCCCTTGTGGATTTCAAGGTAATTTCCTGAGGCAGAGCAGTCCTGCTGGGAAGCA
GTAAAGAATAGTAGAGTTATGAAGCCTTTAATCAGTGATGTTGGTCATAATTGCATATGATTTTGATTAAAAGCTTACCACTCCAATTTCAAAACTTAGT
TTTATAAAAAGAGAAAAAGCAAATGGAAAGCAACCTTTAAGTAGAATTTTAAATTGGGAATATTTTCATAGGTTGGTTTCTTGTTTTTTCAAGGATTCAT
GATTAATTATAGTGAATTAAATAATAACCATAATAATACTTAATTGAGTAATTTATCTCTCATGTGTTCAGCCTTCAGGCTTTTTATATAAATATTAATA
ATCAGAAATTTTTAAAAAGGTTTCTTGGGGGCTGGGCACAGTGGCTCACGCCTTTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACAAGGTTA
AGAGATCAAGACCAGCCTGGCCAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGCATACCTGTAATCCCAGCTAC
TTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCGCCGCTGCACTCCAGCCTGGCAACAGAGTGAGAC
CCCGTCTCAAAAAAAAAAAAAAAAGTTTCTCAGGATAGAATGTTTTATTATGAGGAAAAAAATAAAAAAAAACAAAGTTTAGGTAGACTGTGTAGTATAA
TGCAGTGCTCCAGACAACTCATATTATGTTTTCAGTGATTGAAGAAGCAACATATGAAAAAAATTGGTATTAAGGGATGAAAAAGGAGAAAGGAATGGAG
AAGATGTTATAAGGGAATAATTTAGGGACTAGGGTCACATCTCAAATGGTAATATTGTATCAGTATACTTCAAGCAGACGTTTTCTCTATTCCTTCTATT
CCCCTATATGGGAATTCAGGATAATCTCAGGAGAGTTCTTGAAAATGCAGTAAAAATAAAGGAGAGTTTGCCTATTGTTGCATAACACATTACCACAAAA
CTTAGCTACTTAAAACAATATTTATCTCAGTTTCTGTGGGCCAGAAATGCTGACATGGCCTAGATCAGTTTTTCTGCTTCAGATGTCTCTGGAGGCTGCA
GTTAAGATGTTGGCTTGGGCTGCAGGCATCTTAGGGCACAGCTGAAGCAGAGTGTGCTTTCAAGTTCAGTCAGCTGTTGTTTGCAGGACTCAATTCCTCA
CAGGCTGTTGGACTGAGGGTCTTAGTTCCTCGCTGGCTATTGGCCAGAGGCTGCCTCAAGTTCCTTGTCGTGTGGACCTTTCTAACATGGCGGCAAACTA
ACACAAGAACTGAAAACCAAACACCGCATGTTCTCACTCATAAGTGGGAGTTGAACAATGAGAACACATATACACAAGGAGGGGAACATCACAAACCAGG
GCCTGTTGGTGGGTGGGGGGCAAAGGGAGGGAGAGCATTAGGACAAATACCTAATGCATGCGGGGCTTGAAACCTAGATGACGGGTTGACGGGTGCAGCA
AACCACCGTGGCACATGCATACCTGTGTAACAAACCTGCACGTTCTGCACATGTATCCCAGAACTTAAAGTAAAATAAGCTAAAAAAAAAAAAAAAAAAA
AAAGCCTGCAAGTGGAGAAGGAGGAGAGAGAGAGAGAGAGTKTGTGTGAGAAAGTGAGACAGAGTAAGAAAGAAGGGAGCTTGCAATAAGTAGAAACAAG
ACTGCAATCTTTTTTAACTTCATCATGGAAGTGGTATCCCATCACTTTTGCTGTATTCTCTTCATAAGAAGCAAGTTACTAGGTTCAGCTCACACACRAG
GGGAAGGCATTTACACAAGGGCATGACTATCAGGAGATGGGGACCACTGGGGGTTAGTTTCAAAGCTGCCTACCACAAGAGATTTTCACCAGCACCACAA
CCCCACACATAATAAATAAACTCTACAGTTCCATGGCAAGCTACAARGAAGTCTTTGTGTTGTCTTTATCATAAAATTGAATCTTTCCCCCAAAACACCT
GTAGAAAGGCTATGCAGCATTAAGTATCAAAGGGTCAAAATCTAATTTAAAAAATAAATTATGAGAGAAAAGCAAGTACTGTTTTACAAGAAAGTATATA
ATTTTTTTATTCCCATAGGCTTCTTTTTTTGTTACCTTCAAATTAACTATGGTCAAAGGATTGCTCATTCCAGTAATAAGAACAGRCTTATTTCATCATT
TACATAAATATCAGTATCGGGCACTTGCAAATGAGAAAACTCTGATTTGAGTAAGGATTAGTTTCACTTCAATTTCCATTTATGCRTTTGCCAAGTTTAA
ATCCTACTGTAGTTACTTAAGCAACCAACAGAAACATATTTCTTGATGATGCTAAAACCTACCTACACCTGGCTTTAAAGCAGAAGAAATGCTATCCAGC
TGTATCCTATAAATTGCTTGATAAATAATATTTACATGTTATTTCTTTACACGCTTCTATTTACTTCCCTATTAACCAGCTTCTCCAGATGTATTCAGTG
TAATTATGTACAGGACATGGTGTTCTACCTCAAAGGGAAATAAAATACTTATATTCTACAAGGTATGGTATAAATGGGAAAGAGCACAGAGATTGGTTGT
AACTTCTCTGCAAACAATCTTTGGTTAAAGGACTGACAAAAAATATCCATCTAGTAAAAGAAACAAGCAGTAGAAATGTGAAAATGACTGTGTTCAGCAT
AACCCTGGCACATGTTGGCACACCAGGACCATTCCACCTGCTAGCCCCAGTGAGCTTTCTTTCTCTCTGCAGTTATAGATGAAGAATGGCAAAGAACTCA
GTGCAGCCCTAGAGAAACGTGCGTGGAGGTGGCCAGTGAGCTGGGGAAGAGTACCAACACATTCTTCAAGCCCCCTTGTGTGAACGTGTTCCGATGTGGT
GGCTGTTGCAATGAAGAGAGCCTTATCTGTATGAACACCAGCACCTCGTACATTTCCAAACAGGTATAAGGACATCGGCAAGCCTGCCGTCTCTAAAGCC
CTGATGATAATAGTGTTGATAGCTACAACAACCTTGTTGCTAAACACTGTACTAAATGCTTTATGTGCATAATCGCATTTAATCTTTGAAACAAATCAAG
AGGGTATTTTATGCTCCTTTATAGATGAGGAAACTGAGGCTCAGAGAGGTAACTTACTTATCCAAGTTTACACRGCTGATAAATAGCAGAGCTGGGATTC
AAACCCAGGTCTGTGGGAGGCCAGAGCCTGAACTCTTATCAGTTATTGTCTCTCTGATGCTATGATGTCAAGACTCRGAAAACCATATGGAAGTTACTAG
GACAGGATGTTAAAAGGAATGAAGATAGCTGATGGCAGGTTCTGTGTTGCTCAAATGGAGTGATTGAGAAAAATTTAATGAAGGTTGTGGGCAGAATTGG
GGAAAGAGGGATGGGACAGTGAAGCACCTGAAGCTAGCAAAAAGGGTGAGATTTCCCCACCCTTCGACTGAGGAGACAAGGGGAGGGAGCAGTTATGGGA
ACCCAGAGGGAAAGCGGAGAAGAGGGTTTCTGGACTGGCCACTGTCAACTCTTAGCCTGGCAGGGAGTAGGGGCAGGGGCTGGGAGAGGCAAGAGGGTTT
ATAGATGTAGCCCATGGAGGGCAGCGTCCTGGGGCACAGAGCCTGATGGGGAAGGAAGGGGAGAGGATGGTGTCTCTGGAGGGGCAAAGAGAGAATATCT
AGCACAAAAGACATTTGGAAATAATTCTGCAGTCCCCATGAAAGAAATAATTCAGCCCTCTTCATCTTATAAATTTCCCTTTGCTTAGTAGGTAAGTTTT
CCTTTCTCTGGTTACCATGTTTTTAATAAATGTCGCATATGAGAGCAGTAGTAACAAACTTGGGAAAGCAATACTAAAAAACTGTACATCAAACTACATT
ATTTTTGGTATCTGTTGCAAATTCTTTGAATGTTGATATACTTATTTAATTGTCAGTTTGCCTATATGGTTTATTCTCCTTTTAACTGCAAAAAGAGGTA
GTACAAGAAAATTACATGCACTGAATATATCCATGTTAGGTAATTTTCTTAATGCTGATTTGTTTTGTTAATAGATTTACTTATCCTTAATTTTGTTCCT
CCACCCTCTAAAATATCCTTTAAACTGCAGAGTTTCTTTTTCTAAATTCTTTTAGAGAATCTTGGAGCTTGTGTGTATTTTAACCTCTACTATTTGACAA
TTAGGAAAAAAAAATGACCCAAGTAGGGCTAAGCATCAATTCTGAGTAGAAAAAAAGCTTGCATAACGTAAGAGGGTTTAGTTCATGATCATGTGATTCC
CTAGAGCATAGCCAAAAAATTGTGCAAGAAGATRAAGTTTATGCAAAGTAAACACTACAAAAACACTCTCACTGAGACTCATGGAAGTTCCATTAYATAT
TGAGATGTCAGAATAAACACAACCTTAATGGATTGCTTCCACTTAATAGATAGTTGAGTACTTTATTTTGACTGCTGTACTCAACAAATGATTAATTTCA
TACAATGTACTTAAGTGTAAGTGTACAGCAGTTTTTCTTCCAAATATGCATTTTTGAACATTTTAATAGTAGTTTTTTAAAAACTATCTCTCGCCCCAAA
GTTATGGACTATTTGGCAAACCACCTCTTAGAAACAAAGTGAACAAATGAATACTCTATGTAGTAAGGACTACATGGAATGGTGATTGAATAGACAATGC
ATTAAAATCAACTTCAAACTCATCCACACATCATAGAACCACTCAAGAAAGTTGTGTAATCTCTCTGTACATCTGTTTCTTCACCTGTAAGATGGGGATA
ATAAAAACCCACCCCATAATGTTGTTATAAGGGGTAAATGAGTTAACATGAAAGCACTTACAACAGGGCCTGGCCTACGGAAAGCGTAGAAAGAATGATA
TACATGTTAGCTATARTTATTTGTTTGGGCATGATGATCTTGTATCAGTCAGCTATTAATACACAGTGCTACGTAACAAACACACTAAAACTCAGTGGTT
CCAAACAACAATGATTTACTCTCACTTATGTATCTGAGGTTCAGTTAGTTTAGGGTGGATTCAGCTGGGCTTGACTCTAAGCTGCAGTGTGAGTCCAAGT
CAACTTCTATGTTTCCCATCGCTTGGACCAGCAAGCCTGCCGGATTATGTTCTTTTCATGGCTATAGCATAAGTTTGAGAAAACAAGCCCCATAAAACAT
GCACAGTTCAAATTTGTACTTCTGTCATGTCTGCTAACATCCCACTAGCCAAAGAAAGTGACATGGCCAAATAAAAAGTCAAGAGACAGGAAACTATATT
TCTTCAATAGAGATGGTGTGAGAAGGGATGAATAAATAGTTTGAATAATAATCTATTCTAATAAAATCCTAAAGAAACTGCATAGCTTTAATCTCATTTA
ACCCTTACGATTTACACTCAAATTTAAAGCAGGAGCAGGGATTAACAGTACCATTTTACAAGAGTATCAATGATCAAAAAGTTAAAAGATTTGACCAAAC
TTAAACACTTCATAAAGTTAGATGAGCCTGTTTAGTTCCATTCTTAATGGACAACTTGGCTAAAGTCATTGCCGTAAATGACAAAGGCAAAAATTCAGAC
TAGAACAACTTTAAAAATGATATATAAAATTAAAAAAATATATTGTGGTTATCTTTCTCTGCTGTAGCTCTTTGAGATATCAGTGCCTTTGACATCAGTA
CCTGAATTAGTGCCTGTTAAAGTTGCCAATCATACAGGTTGTAAGTGCTTGCCAACAGCCCCCCGCCATCCATACTCAATTATCAGAAGATCCATCCAGA
TCCCTGAAGAAGATCGGTAAGCACTTTTGTTTTTTTTTTTATACTGGATTATGCTTATTTTTGCCTTGCCAAAACTGTGTGTAGAGGATTTTTCATTAAT
GTAGAGTTATCAATTTATCTTCAAATTATTCATATTTTAGCTTCTAACCTGAACCTACTGGTAATAACTGGCAAATACATATTTTTATTAGATGTTAGAT
ATATATTGTGGTAGGACCAAAACGCTCAGTGGTATGAGCTTGTCATGTCTACTTGTAGACACGTTTGTTCTTAATATGCATAGTCTACTGCAGGTGTAAA
ACCGCTGTAACCTCAAATTTAGCACATGTTCCAGAACAAGCATTAAATAAAACTTATTTCAGGCTGTTTGTATATTTACATCCTGAAATGAGAGAAAACA
AAGAAGATTCCTGGGGTCATTGGGGAGTGACAAAACTAGCAGCACGTGAGTTTTGCAACTTTCTAATCTTTCCCCCTTAAGATTACCAAATGGAAAACCC
TTATTTTAAATTAAAATGACTTAAAATTAATTTGGCTTTGAAATTCTCTTGAGATTAATTTTGTGATTATTTATAAGACAAACGACAAAACCAAAGGTAA
GGATCACTTATTTGAAGAAAAAAAAGGATTTAATATAAAGAAACAAGTAAAGGGTAACTGAATGAAAAGATCATTAGTTAGATACTTAGACTTTGCAAAA
GTAAAGCAATAAATATATTGTGTGAGTGGCAAGTAAAAGAGTAAGCTGGTGATTAGTTAACATTGAACCAAGAAGACACCTCCGCCTCTCTCCAGCAGAA
AAGAAAACTTGTAGAAAAGCAACATTTATTCTCAAGATGTTCCTGCTGTTCTGGCCAATGCTTTTATCTTTATTTTAAAGAAAATAATCTTAGGGGCCGG
GCACGGTGGCTCACACCTGTAATCCCAGCAGTATGGGAGGCTGAGGCGGGCAGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGCAAC
TCCGTCTCTACTAAAAATATAAAAAAAAATTAGCCGGGTGTGGTGGTGGGTGCCTGTAGTCCCAGTTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAA
CCTGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCAACAGAGGGAGACTCCGTCAAAAAAAAAAGAAAAGAAAATAAT
CTTAGGAGGTATGTTAGAACATATTTAATTTTCGTAAATAAACTGTTGACAGCTATAATTTGCATAGTTTTAACATATACCTTCTTAAGAAGATTACAAT
TTCCAAAATTACAGTTTAGTTTCTAAACATTTCCACGTAGAATATTTATAATTACAGAATCACTATCTAGTAAGATGCAGTTCATAAATACAAATTAAGC
TCCTTTAAAATCTTTTTTTTTTTTTGAGACGGAGTTTCGCTCTTGTTGCCCCGGCTGGAGTGCAATGGCGAGATCTCGGCTCACTGCAACCTCCGCCTCC
CAGGTTCAAGTGATTCTCCTGCCTCAGCCTTCCAAGTAGCTGGGATTACAGGCATGTGCCGCCACGCCCGGCTAATTTTGTATTTTTCAGTAGAGATGGG
GTTTCTCCATATTAGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCTGCCCGCCTCGGACTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGC
ACCTGGCCCGCTCCTTTAAAATCTTAACTCTTCTCACATCCTTATCATTTTGTGGTGAGAACATTTGAAATTTACTCTCTTAGCAATTTGGAAATATAAA
ATACATTATTATTATTGACTATAGTTACCATGCTGTGCAATAGATCTCAAAACCTTATTTCTCCAAACTGAGTATAAAAAGCAAAAAATAAATTTAAAAA
ATCTTAACTATTATCTACTCAGGAATTTATTTAATGTTCCAAAGTTTTGATTATCCTTGAAAGCTTTTAAATCTGGTTCATTGTTTTCTTTTCCTAGCTG
TTCCCATTCCAAGAAACTCTGTCCTATTGACATGCTATGGGATAGCAACAAATGTAAATGTGTTTTGCAGGAGGAAAATCCACTTGCTGGAACAGAAGGT
AATGATAGTAGTAGTAAAATAATAACAGTAATAATAAAAGTAGCAACAATAGCAGCAACCGTTATTGAGTACTTAGTATGACCAGACAATGTTGTAAATC
TTKTATATGTTTTAACTCATTTAATTCTCACAACAACCCTGTAATGTACTATTGTTATTTCTTTTTTTACAATTACAAAATGGRCACACCAAGATATCGA
GTAATTTCCTCAAGGTCACACAGCTGAGAGTGATAGAAGTGGTCAGATTCCAGAACCCTCTGTACCATAATCATATAGTAAGTCCATCAATGCATCACTC
TGCTTTTTAATCTCAAAGAAAAGCCCAGAGTGGTTGGAGCATCCTGAAACACTGAAATTGAAAGGGGATGTTAAACTTGAATGAAAGCTGCTTCAGAACT
AAATACTAGTCAACTGCAGTTTACTAATTTATTTGTATAAAAGTCTCACAGGAACATAAAGTAATTTTGGACTTGGTTTCTGTCAGCTGCATCATATGAA
AACACGCCAGTAATTTGAAAAAAGAAATGGAGAATAAGAGAAAAWTTTTCTGGAATTAGGGCAAAGCAAAAGCAAAATATGGCTATTGGTCTAAGGGGAG
CTGGGAGCAAAATGAGATATAGTCAAATTGTCATTGCTCATAATCCGTAATTCTGTGACTTTGGGTGATGAACATTTGCTTGAAAATGAATGCATTTTAA
TGTATTTTCCAGAGAGCTTTACATGGTTCCACCAAAAAAAAAAAAGAAAGAAAAAAAAAGTCACAAGTAGTCATGCAGTTTTAACCTTGCTTGTTTTAAA
CTATAATCTATAAGCAAGAACAGTAAGGGCTAAACTCTAAGAAATCTGTCCTATAAACTGTAAATAGCAACCTACTCTCCATTCTTCTGCCTCTCAGCTT
CCTTCTAAATGTTTTCACGAAAGCTCAGCCCAGAGCATGTGGGGAAATTTAATATTTATGTGGTTTAAATGCCCATGCCGATCTTGAATGTTCTTTACAC
CCTTCCCACCAAGTGTTCAGCCATCCTCTACCAGAACATACATCAGTTATTTGGAGACTCGCCATCCAGTGAGGCAGCACCAAGGGGTGGGCACACTCCT
GTTGTTATACTGAAATGAAATCTCTCTCCAGAACAGACCAGACTGCCCAATGGAATACAATAAGAGTCATATATGTAACTCACATTTTACATTAAAAAGA
TAAAAAGAAACAAGTGAAATTTATCTTAATATATTTTATTTAATCCAATCTATCCAATGTACTATCATTTCAACATGCAATCAATATAAAAAATTTATGA
GCTAGCCTACATTCTTTGTGCTAAGTCTTTGAAATCCAGTGTGTGTTGTACACTTACAGCACATCTCAATTTAGACTCTCTATTTCATGCCCAATAGTCA
CATATGGCCCATAGCTACCTTGTTGGACAGCCCAGCTCAAGAGCATCAACTCATTAGTTCAGGTTTTACCCTATAGAACCATGTAAAACAAATCTAATTC
TTTCTCCATGTGACTCATGTTCTAAAAGTGTTAGAAAATTTTTGTGGGGTTGGCCGGGAATGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCG
AGATGGGAGGATCACTTGAGGTTGGGAGTTTGAAAACCAGCCGGGCCGGCCGGGCGCGGTGGCTCACGCCTGTAGTCCCAGCACTTTGGGAGGCCGAGGC
GGGCGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAATTAGCCGGGCGTAGTGG
CGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACT
CCAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAAAAAAGAAAAAAAAAAAAAAGAAAACCAGCCGGGCCAACATGGCGAAATCCCATCTCTACTACTAC
TAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATAGCTGGGCATGGTGATGTGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCATGAGAAT
CTCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGGTCATGCCACCGCACTCGGGCCTGGATGACAGAGTGAGACTCTGCCTCCAAAAAAAGAAAGA
AAGAAAGAAAGAGAGAAAGAGAAAAAGAAAAGAAAAGAAAGAGAGAGAGAGAGAAAGAAAGAAAGAAAAGAAAAGAAAGAGAGAGAAAGAAAGAAAGAAA
AGAAAGAAAAAGAAAGGAAGGAAGGAAGGATAGAAAGAAAGAAAGAGAAAGAAAGTAAGTTACTGTGGGAAGGGCAATATACTTAGAGCTTAAAGGCTCT
AGCTGAGGATTTCCTGGCACAAAGCCTCTGAGACAGTTTTGTACGGAGGAGGTTTGTAGGCAGGCACAAGGCATTAAAGGGTAAAGAGAGAGGCAGCAGA
CCACAGCGCAGTTGCTAAGAGGCATCAGCCTAAGCCAATGGGAAGTTGAAGCTGGGAACCCCTGCGGGGGTAAGTCTTAAATCTAGGTGAAGAGGCTGAG
CCCTGTAGACCGTTCATTGGCTGCCTTGGAGAGGGGATGTAGCCTTAGGAGAGGCAGCTTATTTCTGCTGGAGATAATTCTTGGGAAGGCACTCAGCCAG
TACACGTGTGTAGAGGGTGGTAAGAAGAATAGGGAAGAAGAGAAGTGCTGTTCTAAGCAGSGGGTATATGAGCACTCAGGGCTGGAGGTGAGAGAACATA
CTGGAAGAAGTTCAGCATGGTGGGGATATAATGGGTGGGGACATAATGGGGAAGGGGCTGGTTAGATGTGAGAGAAGAAGCTGGACAGGCTCACAGGGGC
AAAGCAGAAGGACCTTGTAATTCTTGCGTGGGAGCTTGGATGTGATACTAAGGACAAAGGGAAACCACACAACTGGCTAAAGCAGGAGAGTGACAGTACC
CATTAGAATTTTAACAAAATCATATCAGCAACAGTGTAGAAGAGGATGTGTTGACTCGGGGCAGGGAAGGAGGCAGGAAACCTTTTGGGAAGTTGTAGCA
ATGATGTAAGTGAGAGGCGCAGGGTGGACTGGATCACAATTGTTTCTCATTCTCATCTCCTATAAGTCCCCAATGTGGATCAAGTTCACATTCATTTCTC
CAGTGGCCCCATCAAATTGATGGGATTTACTGAGCTTACTGCTCACTATACTTTTTTTCCGCACATGTGACTGTTAAGCCAACTGCCTTTTCTACAGTGA
CTTCTCTTGCCCAGATGAGCACATTTAGGTTAGTGAATCCAAGTCTAATTTAATTGAGTCTTGTTAGAGTCAGGTCATTGCTCTAAATTGTTAAAACAAA
CGATATACACAAACACACACACACACAAAAGAATAAATTGAGGAGGTCCCAATTCTGTATTTTAAAATACTTAATATATCCCTTCCTTCTTGAAGAGAGC
TACAATTTCAAGAATTTATTTTGAAAAAATTCTATCAGTTTATTGATAAAAATGGTAAAAGGAACAAAGCTGAGAACAGAACATATCATCAGACTCTCTA
GGGACGGAAATCAATACATAATACTTCAAGATATCACCCTCAGCTACTTGCTGTTCCACCACCAGTTCTCTTGCATCCAGTTTTTGTTTCTTTTAACTTG
GCTATAAGGATGTGAGCACAGACTCTGCCAAACAGCCTGCTGAAGTTCTGCAAACACCTTGTGGATTGTGTTTCCCTGAACAACCCTGTCCAACAATGGC
CTTGGGCCTGTCTGAAGTATTCTTAGTGAACTTCTGCTGCCACCTAGTGATCATTGCGAATTTTTAAAAAGCCTCTTTATCCTTTAACAAGTTACTCTTG
TCTTACCCCAAAGCGGCATCTGCCTCACTGGCATATGACTTACAGAGCTCACATTTTCCCTCTCCACAAAGTTCAAAATGGAGACTTCTCAGATTTAGCC
TTCCAGCACCCATTCTCAAACGTCGTGCATTACAGAAAAGTTTAAACTATAAAGTTGAACCGCACGAGATTCTCATTTTGATATGTCATTAAAGTCAGAT
ATTGGCAAGAACATATGGTTTAACCCAATGGCTTGGAATGCTGGATGGGATTCCCAGAAGCTCCATACATCGGCCTGCTTCAGGACCCTTTTATTACACC
AAATAAACCCAACAAACATCCATCGAGTGCCTATTTTATATCAGAACAATGAGACCTGCTCCTTCTCCTTCAGGACATTTTACTTAATGGGGGAAACATA
CAAGTAAACAGACAAATGTAATCAGTGCAAGAAAGAATCGGACAGCAATATGCACAGGATAAGGACACTTAGCTAAACCTGCAGACATTGGGAAAGATGT
CAGGGAAAAGGGATGGCAGAAGGAAAGACAAGGCCAAAGGCATGGGACTGGGAGGCACTGGAATATCAGGGCAACAGAAAGTGCTGTCATTTGGTATAAA
TGGAACACACAGGATATATGAAAGCAAGAAACAGAAGATGAGTCTGTGAGGTTACTATGATCCAGTTCATGGAGGGCCTTGTATGTCCTGGTGGGAAAAT
TGGTTTTTATTGTGGGAAGGGAACCTTTTAATGCATTCAAAGCAGTGGAATGAAGTGATTTGGTTTGCATTTGTTAATCATGTGAAGAAGAATAGGTTGG
AGGGATAAAACTTGTGGTGGTGAGATGAGTGACAGAGCGACAGCCATCTACAAAAGAAACACAAGGTACAGACTGAATTGTGGGAGTGGTAGTGGGGATG
GAAAATAAAGAACAAATTTAGAGAGGCAGAACTGAGTGGACATGATGCTCAGACTTACCAGAGCAGGTGAGTCAAGAATGATGTCACCATTCCCTAAATG
AGGCAAACTGGGAGAGAAGCAGATTTGGGGAGAAAACTACTAAACATGTACGTCCCTCCAAAACCTTCAAGAATGCTAAAGGGACAGAGTCAAGTTCTTC
CAAAGTTTMTGTCTCTTCCATTTATTTTGCAATGAATTTCAACTTGTTAATCAGAAATGGATTTGGAGTAGTAGCTATTCAATTGTTTTATACACCTTCT
AGAAGAAATATTTGTCAGATGAGTATGTCAAAAACTTCTCAGACCCTCCCCTTTACTTGAATGTATCTTCCAGCAGATGTTGGTGGAATCAAAGTTCATT
ATTACTCCTATATCTTTTATACTAGTGTTATGATCTGCAGTGAGGACATGCATTGCTATTGCTACGCCTGGCCTGGAATGTCTGAGGTGTATTTCTACAA
CACCAATTATTTTGTGTGTCTCTCCTTTTAATCTCCACCAAAAAATGGAGACAGCTAGATTCATAACCCTTAGACATCCTATATTTTATTACTAATACTT
GGTTGTGGAAGTTTGCATTCTAAACAAGTCATCAACATAAAAATCTCTAAAAATATTTTATGAAAAATATTCAGCTTATGATATTTTAAAAATCACAAAC
CTAAGAAAACACACAAACCTGTGTTTGTATTGTGAAATCAGAGGTTAATCTTCCTCACCCTGTGAAAAAATTAGGGGCATAAATCTATAGGAAGGAGATT
GGGTGAATCCAAGTTACTTACGGATGACATAAAAGATACAATCAACTTTGGTGATCCAATTGCCACACTACAACTATCTGACCAACACGTTTCTGTTTCT
CTTTAGACCACTCTCATCTCCAGGAACCAGCTCTCTGTGGGCCACACATGATGTTTGACGAAGATCGTTGCGAGTGTGTCTGTAAAACACCATGTCCCAA
AGATCTAATCCAGCACCCCAAAAACTGCAGTTGCTTTGAGTGCAAAGAAAGTCTGGAGACCTGCTGCCAGAAGCACAAGCTATTTCACCCAGACACCTGC
AGGTAAATGCCTTGAGTTGTCTTGCCTTTACTCATGACATTTAACGTAGATGCCATTTTAATTTGGTGGGATTCCTTAGTAAGCTAATTTTTCCCCTTGG
TGCCTGAGTCCCTTTTGGATAATAGAACAGAGGTTTAGCAGCTAAGGAATAAGCAAGAGTATACCGAGTCATGATTAATCATGAAAATAAGAAAATCAAT
CCTGCCTGTTATTATGTGTGTAGAGCTTTTTTTTTTTAGACGGAGTCTCGCTCTGTCTCCAGGCTGGAGTGCAGTGGCGTGATCTGGGCTCACTGCAACC
TCCGTCTCTCTGGTTCAAGGGAGTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACGTGCCACCACACCCAGCTAATTTTTGTATTTCAGTA
GAGACGGGGTTTCACCATGTTGGCCAGGATAGTCTTGATCTCCTGACCTCATGATCCACCCGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGC
CACCGCGCCCACCCGGGGTTTAGAGCTCTTAAACAACAATGAAATTGGTAAAATTTAAGCAGTTATTAGGATATTGCTTAATAATAATATTTTAGGAAGG
GGAGGTTTCAGATCATCAACCTGTTTAGTTCAATCTCTCATTGTTTATGTCTATATATGTTTGTTTTTTTCTTTAATGGAGGGAATATCATTGGATTTAT
ATAGCAAGTAATTTATTCATGAATAGAACACTTGGAGGTTACTGATTCACTTCAGTAGATTTTGAATCCATGTGGGATAACCATGCAGGATTTTATACTG
ACATTTTAAATACATGTCTGGAAAACTTAATCAAATCAGAGCAGAGTTATTCTTTTGAATCCAGTCATTGATTCTGAATTCTCATCTTTATTTTCTTTTG
CAACAGCTGTGAGGACAGATGCCCCTTTCATACCAGACCATGTGCAAGTGGCAAAACAGCATGTGCAAAGCATTGCCGCTTTCCAAAGGAGAAAAGGGCT
GCCCAGGGGCCCCACAGCCGAAAGAATCCTTGATTCAGCGTTCCAAGTTCCCCATCCCTGTCATTTTTAACAGCATGCTGCTTTGCCAAGTTGCTGTCAC
TGTTTTTTTCCCAGGTGTTAAAAAAAAAATCCATTTTACACAGCACCACAGTGAATCCAGACCAACCTTCCATTCACACCAGCTAAGGAGTCCCTGGTTC
ATTGATGGATGTCTTCTAGCTGCAGATGCCTCTGCGCACCAAGGAATGGAGAGGAGGGGACCCATGTAATCCTTTTGTTTAGTTTTGTTTTTGTTTTTTG
GTGAATGAGAAAGGTGTGCTGGTCATGGAATGGCAGGTGTCATATGACTGATTACTCAGAGCAGATGAGGAAAACTGTAGTCTCTGAGTCCTTTGCTAAT
CGCAACTCTTGTGAATTATTCTGATTCTTTTTTATGCAGAATTTGATTCGTATGATCAGTACTGACTTTCTGATTACTGTCCAGCTTATAGTCTTCCAGT
TTAATGAACTACCATCTGATGTTTCATATTTAAGTGTATTTAAAGAAAATAAACACCATTATTCAAGCCATATAATTTTATGTTATTTAATATGCTTCCA
CTCTATATTTATGCTAAAGAAAAAGTGTTTTAAAGAAAGAAAGGAATTTCAAAGTGGAAGGTGCAGGAAGAGACACAAACACTGGACCTCAGTTTTGGGA
AACCAAGGGAATAGCTCTCAGAAAGGTTAAGATCCTAAATGAGGCTAAGCAAATGTGACCCAAGAATCCACTGCGAATCACTCTGTGCCTTGAGATTAAA
TTGAACTTGACCTGATCCCCATCCCATGGCAGAGGGGAACCCATCCATGCCCTTGACCTCTTTGAGAGTTTGCATTTCTTCTAGCCACCTCTGGCTCCAA
GTTTCTGCACTTACTCAAATCTCAGTGTCATGGACACCCCAACTCTCATGGCAACACAGTTCTTCTCTCTGTTCTACAGCTATCACTTTTTGTTTTGTTT
TGTTTTGTTTTTTGTTTTGTTTTTTTTTTAGACGGAGTCTCACTCTGTCGCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCTGCCTC
CCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGTCTACAGATGCACACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGG
GGTTTCACCGTGTTGGCCAGGATGGTCTCAAGCTCTTGACCTTGTGATCCACCCTCCTCAGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCAGCGCG
CCCGGCCACATAAAGCCTTTTTCCTCAAAGTACTCCTACATCTAATTTGTTAATGATGTAGACTTTATTGAAATTTTGCCATAACAGAGAGAATTTAGCA
GCATTAGCAGATTTAAGTTATGTATTAAATAACTTAAAATTAATCCCTGCATAGTATCTTGCATAGATAGATATGTATATAGACACACACAACCCATTAT
GGTACTTACAACACATTTGTGTAAATAGTAGTGTTCCTGTTTATCTCCCCACCATACTGTGACCTCATTATGATTGGAAACGGTGTCCTGATCAAATTTG
TGTAACCCAACTTTCTCAGGCCAGAACACCCTGGAACAGTACAATCAAAAGGAGAAAGACAATGATAAACAATGGAATAGTAAACAAATGTAGCCCCATG
GTAGTGGCATTGTTTGATCCTGGCCCAAATCCCTACCCTTCCTCTGCCAGGGTTTCTAAGCAGTTCCTGAATTCTCCCTTCATTCACTGAAATTCTCTGA
AGCCTGGGGCTCCAGGTCCTTTGATGCTTCCCTGGCTTTAACTCTCAGTCCCTGCCCTGGGGACATGAGCTAACCTTCACCTGGCCTTGGAACCACTCCC
CACTGTGCTGCCATTGTCATTGCTCTTGTCATTTACTGGTGCCAACCCAGTCACTCCTCTTTTGCCACTGTTCTTTTTGCCCTCACTTTATGACCTTGAT
GTCAACAGGCTTCTTCCTTCTCATTTTACTGTATTTTTAATCAGGCTTCTGAAAATGCTTGCACATAACTTAGTTTTTTAAAACATACTTGGCATTCGAC
TCTTTGCTTTGCCTTTTCGTTCAGTTTCTACCACTCCCAACTTCTCCATGATATTTGCTTAAATTCCTTTGAGATCTGGGGCAGAAGACAATTCAAGGAT
ACCACACAATTAAAGGAGTTACTTTGCTTATCCTCGACTGGTAAAAAGAGGGGATGTATCACTAAGGAGAAAAGACCTGAATTTAAGGACAGACTCTGCC
ACCTAAACACATTGTAAGCCTGAACAATGTCATCGAGCCTCAGTTTTCTCATCTGTCAAATGTAAATGATAATCTCATTTCCCTAAATCTCAGAATTGAT
AATTTCATTAGAGTTACGATTAGTGAAAAAAAAAAATTGAACAATACAATGTACCTTATAGCTCAAAGGAATTATTCTGAAGGAAAAAAGCAAGACTGAG
CAAATCTCAGAAGCTTGGGACCTCTGAGATGTTCTTGGCTTATACTGGATCCTTGGATCTGTCCTAAAACCAACTCAAACCATGTTTTGGCTCGAAATGC
CTCTGGCTTCATAATTGCCATTTAGATGGAGATTATCATAGGGAATTCTAAGCTAAGCCAAAACTCAATGTGATCTGGCTTTGTGCTTCTAAAACCCCTC
CCTCTTCTTCCTCCTTAATTCCCAATTACCATCAAGATCTGCACTTGGATCCCTGACGCTGGGTCAGGATGGGTCTGGTCCTTGAGGGCGGAGGTGGGGT
AACTGGCCTGTTGCTTTCTTAGAGTTCACTAGACATTGCACAGGAATATTTGTCATACTAACAGCCCTGGAACGTGAGTTGAAAATCCTCAACTTGTTGC
AAAATAAAAGTATGTGAGAAACTCCAAGAGCTTTAAGCAAACACAATAAATGCCAGCAATGCATGATGTCCCTGATTACGCCACAGGGCCAGAGAATTAT
TAATGTGACAGCACACGTCATAAATCTATGACTAAAACAGTGTGGCAGGAGGCCCTTTAGAGATGGAAACAGATTAGGCAGCATGATGATCAGAGTTGAA
TGAAGATTAAAATACTGTCTGAGAGACTTGATAAAGGAAATTATACAAACATTACGTTTTAATGCCCTTAAGAAAAGCCATAGTTCAGTGAAAATTGTGA
GCTTAATAGATTTGGTCAGCAAGAGCTGGACTTTGCCTAATTTAGTCTTAATCCTCAGTGTGAGAACAATGTCTTGCATATATTAGGTACTCAATAAATA
TTTAATAAATAATAAGTTATTACATTGATTTTGTGGCCAGCCAATGAAATTATCTCTTTAAAAAGTGAAGAGTAATTTTACATAGCTCATGTTTTTCAAA
CTCAGCTAAATTATATGCATGTCTGAATTATTCAGATGTTGCAACTCTAGAAAGGAATTTAATCTATTCTCAAAATATTTATGAAATGAAAAGGAGCAAA
AAAATTCTGTTATTTGACCCTTATTAATGGCTTCATGAAAGAAAGTCTGCCTTTGGTAATTTTATCACTGATATTGTTCTGAAACAGTGGTCAGTAAGCT
ATGGCCCATAGGCCACTTTCAGCTCACTGCCTGTTGTTTTGGTAAATACTGCTTTATTGGAACACAGTTATGCTCATTTGTTGATGTATTGTCTATGGCT
ACTTTTATTCTACAACAGCAGAGTTGAGTAGTTGGGGACAGAGACTGTTTGGCTTGCAATGCCTAAAATATTTACTCTTTGGTCCATTACAGAAAAAGTT
AGCCAACCGCTTGTGTAAAAATATTTCTTATTTTATCACGTCATCAATGAACATTAAATATAATGAATTAGACTGCTTCTTGAACCCCTATAAGAAATGG
CACTTTTACCTGGCCTTGATCGATTGTTGGAATCAACTGGCCTCACCTTATTTGAGTCATTGTGTAGTGTGCAACCCAATGAAGCTAAAAAGTTACAGTG
ATTTAAATTTCAGGTTTCCACAATTCAAATAAAGTCATGGATACATTTATTGATGGGTTCTAGTTATGTTTGTGGTATAGCTCTAAAATGTTAGTGTTGA
TGGCGTGGACTCTAAATAGAGATAGTGCATAAACATATTAGTTTTTTTTTTGTTTGTTTGTTTTTTCTCTTTTTTCCAATGCCCTGGGTAAAGTAAATAC
TCCTAAAGAGTAAGGGGATTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACC
TCTGCCTCCCAAGTTCAAGTGATTCTGCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGCTACAGGCACCCGCCACCATGCCTAGCTAATTTTTGTAT
TTTTTAGTAGAAACGGAGTTTCACTATGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACA
GGCGTGAGCCACCGCACCCGGACCAGGATTTTTTTTTTTTTTTTAAAGCATAAGCCCGCAAGGACAGGGTAAATGATAAAGTCAACAGAAACAACAATGT
TCTGAAAGCTGAAAAGCACGTAGATAAGTTGTAAATGATGTGGCCGACCTGAAAAAAAAAATAATTTAAGCCAACAGTCTGGAAAGATGAGTTCCCAAAA
GGCTCAGAAGTGGGTGTCCCAAGCACCTCTAGAAATGGGAGGGATGAGAGGGGTGCTAAAATGAGGTTCATTCCAAAAATCTGTATAAGAAACAGTTTGA
TCCCAAATCTTCTCCCACATTCCCTGTGGTGGAGTGACTGCTCCTTCCAACCCCAGGCAAAAGATGGGTTATTAGTCGTTTGGCTAAGGTAAAAGAGAGA
GCATCCTGAATGGGGGATGCCTGACATCCATGAGGGCAGGGTGCTGAACTAACAAGAGGATTAAGTGAACGCGTACATACTAGGTGCAACCACAATTCAG
GCAGTTGGATCTGTACTGGAAAAGTATTTCTCTAGGGGGAATCTTACCAGCCTAAGAGAAAAGACCTAAAAAGGACTGAAATTAGCTGGGGGAGGGACTA
TCAAATGGAACAGCCCAAAGAGGTCATCAAGCCCCATTCCTGGGCTCAGACCTCAGATCAGCTCCTTTGTCCCTTTCTTTTAAGTATGAGCAAGCAAGCA
TGAATTCCCAGACCTCCAGGGAAAATTTCTAACATGAAAGACAGAGAGTAAAACACACAGAAAAAGGCAATTTGGAGGAAACAGAAGAAAACTTCAAATC
ATTAATAGCCAGGGGATGAGGGAAGAAGGTGAGACAGTGCAACTAATAAATAAAATGAAGGTGTTATTAAAAAAGAAAATGTCAGAGGACATAATTGAGC
CCTAGGAAACTAAAACTATTATAATAAATTGAAAATTCAATAGAACAAAAAAGGAAGACAGAGTTGAAGAAATTTCCTATGAAGTAGAATAAATAAGAAA
TTAAAAGTGAAAAGATAAGAAGGTCTAACATCAGAATAACTGAAGTTACAGGAAATGAGAAGAGACACAATAGGAGATGTAATCAACAATTTAAAAATTC
AAGAGAATTTCGAAGCACATGAGTTGGCAAGTGAAAAGGCTCTCTGAGTCCCTAGTCCAAAAGGTGAAACTATGCCTATACCAAGGCACAAAATGATGAA
ATTTCAGGACACGGGAGACTAAGAGATAATGTATAAGTTTCCAGAGTAAAGAAAAATTATGATAACTTCAAACAAAGGGCCAGGAATCCGAATGAAATTA
GTTTTCTCAATAGCAACACCAAAAGCTAGCAGGCTAGAGCAATGCTGCTAAACTTCTGAAGGAAAATAATTTCTGGCCTACTATTTGGCACCCAAACTAT
CAATAAAATTGGAGGGCTGAAAAATAAATTTTCAGACATTAAAGTTCTTAGAAAATCTCCCGATCTCCCATGCAGTCTTCTTTAGGAGGCTACTGGAGGA
CGGTCTTCAAAAAAGGGTGCTAAAACGAAAAGGAAGACATCACTCAAACAAATCCCAATATCCTGTGATTTTCCTTGTCTCTCTCTTTTTTTTTATTGCC
ACGAGAAAACATCAGGTCCTCATTGCCTCTAGTCTAGAGCTAGTTTCTTAAGCTATAATGTGCATACTATCATTCCAGATCTTGTTAAATTGCAGATTCA
GATTTAGCAGGTCTGGAGAATCTGAGAGTCTGCACTTCTGACCAGCTCCCAGTTGCTGTTGCTGATCTGCAGCCCCTACTTTAAATTGCAAGGAGGCTTC
TGGACTACTGGAACAGCCTAACTGGTCTCTTCTCCAGCTGTGCCACTCTTTCACCTTCCTTTTCTCCAGTTCTTGGAACAATTTTCCTAGGACAAAGCTT
TGATTGTGGTTTGACATTTCATCTCATATTCTGCATCAAAAAGAAGTAACTGCCTTAGTTACTCTTTTCCACCACACTAACCTTTGTTTCAACAGTGTGT
AGCCTAAAGCTTATCAATATGAGTTTTAAAAATGCTAGTAACATCTTCATGTTCAAGGTATCTAATTGATTCTT


SNP Information

Context             (SEQ ID NO:54692):
CAAAAAAGTTTCAATCCAGAGTTGGGTTCCAGCTTTCTGTAGCTGTAAGCATTGGTGGCCACACCACCTCCTTACAAAGCAACTAGAACCTGCGGCATAC
R
TTGGAGAGATTTTTTTAATTTTCTGGACATGAAGTAAATTTAGAGTGCTTTCTAATTTCAGGTAGAAGACATGTCCACCTTCTGATTATTTTTGGAGAAC
Celera SNP ID:            hCV27834564
SNP Position Genomic:     6181
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,12)   caucasian(A,33|G,1)   total(A,47|G,13)
SNP Type:                 UTR 5


Context             (SEQ ID NO:54693):
ATGGGAATCTGACTGTAAGCATAGGTAACAGGAGAAAACGGTCTGACTTGTTTGAAGCAAGTAAGACTTTTCCGACTGTCCAGCTTTTTCGTAAGTTCAT
R
AAACAGAAATCCTTTAGATGTGCTGGGCTCCTCGAGTTTTAAAATATTTCCATTTTCCTTGTAAAACATCACTTTATCTGATGGTATAATAAAGGAGACT
Celera SNP ID:            hCV2608870
SNP Position Genomic:     7914
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54694):
CTCACAGGAACATAAAGTAATTTTGGACTTGGTTTCTGTCAGCTGCATCATATGAAAACACGCCAGTAATTTGAAAAAAGAAATGGAGAATAAGAGAAAA
W
TTTTCTGGAATTAGGGCAAAGCAAAAGCAAAATATGGCTATTGGTCTAAGGGGAGCTGGGAGCAAAATGAGATATAGTCAAATTGTCATTGCTCATAATC
Celera SNP ID:            hCV26522500
SNP Position Genomic:     37945
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54695):
CGCATTTAATCTTTGAAACAAATCAAGAGGGTATTTTATGCTCCTTTATAGATGAGGAAACTGAGGCTCAGAGAGGTAACTTACTTATCCAAGTTTACAC
R
GCTGATAAATAGCAGAGCTGGGATTCAAACCCAGGTCTGTGGGAGGCCAGAGCCTGAACTCTTATCAGTTATTGTCTCTCTGATGCTATGATGTCAAGAC
Celera SNP ID:            hCV25631307
SNP Position Genomic:     32674
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:54696):
ATCAGAGGAGACCTTTCTGATTCAGTTATGTCTCTACAGAGTCCTGAAGGTAATAAGAGAGACAGAGGCAACCATCAGTGCAGTGGCCATGGTGGGCGCA
S
CAAGTTGGCTTCGATGTCTGGGTATTAGCCAGGGAGCCGGTGCAGCTGGAGGTGGGGTGAGTGGAGGCCAGAAGTGCAGTTGTTGAGGTTGGAGAAGTAG
Celera SNP ID:            hCV2608874
SNP Position Genomic:     11456
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54697):
AGACAATGTTGTAAATCTTGTATATGTTTTAACTCATTTAATTCTCACAACAACCCTGTAATGTACTATTGTTATTTCTTTTTTTACAATTACAAAATGG
R
CACACCAAGATATCGAGTAATTTCCTCAAGGTCACACAGCTGAGAGTGATAGAAGTGGTCAGATTCCAGAACCCTCTGTACCATAATCATATAGTAAGTC
Celera SNP ID:            hCV26522501
SNP Position Genomic:     37584
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54698):
GGGCTAGCAGGAGCATGTGCTTGCAATGATGGTGGAAATAGAAAAACGTGCAATCATATGTGAGTTTCAAGCCTCTCCTTGCATCATGTCTTGTAATGTC
Y
TATTGGTCAGTAGGGCTGGGAAATATATCCCTCCCTCAGAGAGTCAGGAGTGGAAATGAAAATGTTTTTAACAATAGCCTAATCACCATAAAGGCTTTGG
Celera SNP ID:            hCV2608875
SNP Position Genomic:     14253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;TSC_42_AA(C,16|T,67)   total(C,16|T,67)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54699):
TGATAGTAGTAGTAAAATAATAACAGTAATAATAAAAGTAGCAACAATAGCAGCAACCGTTATTGAGTACTTAGTATGACCAGACAATGTTGTAAATCTT
K
TATATGTTTTAACTCATTTAATTCTCACAACAACCCTGTAATGTACTATTGTTATTTCTTTTTTTACAATTACAAAATGGGCACACCAAGATATCGAGTA
Celera SNP ID:            hCV26522502
SNP Position Genomic:     37503
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54700):
CTGGGGGTTAGTTTCAAAGCTGCCTACCACAAGAGATTTTCACCAGCACCACAACCCCACACATAATAAATAAACTCTACAGTTCCATGGCAAGCTACAA
R
GAAGTCTTTGTGTTGTCTTTATCATAAAATTGAATCTTTCCCCCAAAACACCTGTAGAAAGGCTATGCAGCATTAAGTATCAAAGGGTCAAAATCTAATT
Celera SNP ID:            hCV26522503
SNP Position Genomic:     31447
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54701):
GCCCACCCCAACCTTAAATGGCCAGGTTTCTGGATTTCAGAGAAGCAAGATCAGACCCTTGGCAGGTTCCATCTGAGCAGCCACAGCAGCCATAGCTACA
R
CAATAATTATTAGCAAGTGTGCGTTCTCCCTGCCCTAGTTAGTACACCCTATACCATCAGGTGTCATCTGTTCTAGTTAAAGTCAGACCGTAATAACAAA
Celera SNP ID:            hCV2608876
SNP Position Genomic:     15011
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54702):
AAGACTGCAATCTTTTTTAACTTCATCATGGAAGTGGTATCCCATCACTTTTGCTGTATTCTCTTCATAAGAAGCAAGTTACTAGGTTCAGCTCACACAC
R
AGGGGAAGGCATTTACACAAGGGCATGACTATCAGGAGATGGGGACCACTGGGGGTTAGTTTCAAAGCTGCCTACCACAAGAGATTTTCACCAGCACCAC
Celera SNP ID:            hCV26522504
SNP Position Genomic:     31298
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54703):
GTGTGCGTTCTCCCTGCCCTAGTTAGTACACCCTATACCATCAGGTGTCATCTGTTCTAGTTAAAGTCAGACCGTAATAACAAAACATCAAAATGTAAAA
W
GTGGGTTGTTTTTTTCTTTACACACTTCTAAAGACATTTAAAGCCTGAGCAGATACCTTAAAATTCATCTTCTATCTGAAAATACCTCCTAGAACCATTT
Celera SNP ID:            hCV2608877
SNP Position Genomic:     15128
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54704):
GTTCTGCACATGTATCCCAGAACTTAAAGTAAAATAAGCTAAAAAAAAAAAAAAAAAAAAAAGCCTGCAAGTGGAGAAGGAGGAGAGAGAGAGAGAGAGT
K
TGTGTGAGAAAGTGAGACAGAGTAAGAAAGAAGGGAGCTTGCAATAAGTAGAAACAAGACTGCAATCTTTTTTAACTTCATCATGGAAGTGGTATCCCAT
Celera SNP ID:            hCV26522505
SNP Position Genomic:     31142
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54705):
ATTTTGAAAAATTGGTTGGTTTGGCTTTTGGGGAATTTGAGAGGCAATTTAGTCTGTCATTTAGGATGGCATCATATAAGGCAGCCAACTTCATCATGCT
R
TTTAGCCTGAAAAGCGATATTGTTGATCTTCAACCTTGAAAAAGTCGTACAGGTTGGGAGCTGACCTGCAAATGGTCAGGTATCTTGAGATAGGAAAAGG
Celera SNP ID:            hCV2608878
SNP Position Genomic:     17491
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54706):
CCACCGTGGCACATGCATACCTGTGTAACAAACCTGCACGTTCTGCACATGTATCCCAGAACTTAAAGTAAAATAAGCTAAAAAAAAAAAAAAAAAAAAA
A
GCCTGCAAGTGGAGAAGGAGGAGAGAGAGAGAGAGAGTGTGTGTGAGAAAGTGAGACAGAGTAAGAAAGAAGGGAGCTTGCAATAAGTAGAAACAAGACT
Celera SNP ID:            hCV26522506
SNP Position Genomic:     31103
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54707):
ACCATTGCACTCCAACCTGGGCAACAAGAGTGAAACTCCATCTTAAAAAACAAAAAAACAAAACAAAACAAAACAAAAAAACAAAGAAAGAAAGAAAGAA
A
ACCAGTGTGAGTAGGTACTGTCATAATGAATAAAATGCTTGTCAAGTAAAGTTCTGTGGTTTCTGATTAGGCACTTAATTTTTTGATGTCATGTCAAAAC
Celera SNP ID:            hCV26522507
SNP Position Genomic:     28637
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54708):
CACCATTGCACTCCAACCTGGGCAACAAGAGTGAAACTCCATCTTAAAAAACAAAAAAACAAAACAAAACAAAACAAAAAAACAAAGAAAGAAAGAAAGA
A
AACCAGTGTGAGTAGGTACTGTCATAATGAATAAAATGCTTGTCAAGTAAAGTTCTGTGGTTTCTGATTAGGCACTTAATTTTTTGATGTCATGTCAAAA
Celera SNP ID:            hCV26522508
SNP Position Genomic:     28636
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54709):
TTTCTCATGCCCTAAATTAGTAGTAGAGAGACAATATAGAGAGTTCCTATATAGCCCTCACCTATCTTCCTCTAAGGCTAACACCTGGGAAGTTTTTTTT
W
AAAAAATCCTGATGGCAAAGCTGCAGCCCAGACCCAAAAAATGAGAATCTGTGAGATTTAAGATTCGAGCATCAGTATTTCTTTGAAGCTTATTCCCAGG
Celera SNP ID:            hCV11878911
SNP Position Genomic:     17863
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54710):
GTCAATGACATTGACATTTTCTAAGGAGAAAACCATTAAAATATCACGGAATTTGCAAACCCTATGAATTTATCTCGTAATTTCTAGGGGATCATCTGAA
R
TTATTTACTAAGTTAGAAGCAGTCAATAATGAAATCAGCATGTTACACCAATTAGAATTTGTTATCAACTCTCCCTTGTGGATTTCAAGGTAATTTCCTG
Celera SNP ID:            hCV11878912
SNP Position Genomic:     29374
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54711):
GCACCATTGCACTCCAACCTGGGCAACAAGAGTGAAACTCCATCTTAAAAAACAAAAAAACAAAACAAAACAAAACAAAAAAACAAAGAAAGAAAGAAAG
A
AAACCAGTGTGAGTAGGTACTGTCATAATGAATAAAATGCTTGTCAAGTAAAGTTCTGTGGTTTCTGATTAGGCACTTAATTTTTTGATGTCATGTCAAA
Celera SNP ID:            hCV26522509
SNP Position Genomic:     28635
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54712):
AACCCAGGAAGAATAAGTAAATCCTCTGATTCAATCAAAAATGAGCAGAATGTAAACCAAAAATACTAGAAGATATCCTTTTTCCTAGGCACTGGCATAC
R
TTTCAATAGTATCTCTAATTACAGATGTATTTACACTTCTAAGTGTCAGAAATGAAGATTATTATGACAAATTTAAAATTTAGTAACTTGTTTTTAAACT
Celera SNP ID:            hCV25715
SNP Position Genomic:     27026
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54713):
ATTCCCTAGAGCATAGCCAAAAAATTGTGCAAGAAGATGAAGTTTATGCAAAGTAAACACTACAAAAACACTCTCACTGAGACTCATGGAAGTTCCATTA
Y
ATATTGAGATGTCAGAATAAACACAACCTTAATGGATTGCTTCCACTTAATAGATAGTTGAGTACTTTATTTTGACTGCTGTACTCAACAAATGATTAAT
Celera SNP ID:            hCV11878753
SNP Position Genomic:     33896
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54714):
ATAATGTTGTTATAAGGGGTAAATGAGTTAACATGAAAGCACTTACAACAGGGCCTGGCCTACGGAAAGCGTAGAAAGAATGATATACATGTTAGCTATA
R
TTATTTGTTTGGGCATGATGATCTTGTATCAGTCAGCTATTAATACACAGTGCTACGTAACAAACACACTAAAACTCAGTGGTTCCAAACAACAATGATT
Celera SNP ID:            hCV11878754
SNP Position Genomic:     34416
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54715):
AAGTGTCAGAAATGAAGATTATTATGACAAATTTAAAATTTAGTAACTTGTTTTTAAACTGGTATTTTTGTTTTTTTAAGCGATCATCTCAGTCCACATT
R
GAACGATCTGAACAGCAGATCAGGGCTGCTTCTAGTTTGGAGGAACTACTTCGAATTACTCACTCTGAGGACTGGAAGCTGTGGAGATGCAGGCTGAGGC
Celera SNP ID:            hCV25473500
SNP Position Genomic:     27167
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(G,40)   total(A,6|G,72)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54716):
CCCATCGGTCCACTAGGTTTGCGGCAACTTTCTATGACATTGAAACACTAAAAGGTAGGTGTGTGGATGTGGAGACAAATTCTTTCTCTTTATTAGATAG
Y
GACAAACACACTTACTTTCTCCAAAAGTCTGCGTAGGGCAGACACGTGTCAGAGGGAGAATGAAAGTCGGTCTTTGATTTCCAGTATTAGTGCAGAATCT
Celera SNP ID:            hCV25473502
SNP Position Genomic:     27404
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(T,38)   total(C,3|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:54717):
ATTTCTGCTGGAGATAATTCTTGGGAAGGCACTCAGCCAGTACACGTGTGTAGAGGGTGGTAAGAAGAATAGGGAAGAAGAGAAGTGCTGTTCTAAGCAG
S
GGGTATATGAGCACTCAGGGCTGGAGGTGAGAGAACATACTGGAAGAAGTTCAGCATGGTGGGGATATAATGGGTGGGGACATAATGGGGAAGGGGCTGG
Celera SNP ID:            hCV26522499
SNP Position Genomic:     40161
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54718):
TGGGAGAGAAGCAGATTTGGGGAGAAAACTACTAAACATGTACGTCCCTCCAAAACCTTCAAGAATGCTAAAGGGACAGAGTCAAGTTCTTCCAAAGTTT
M
TGTCTCTTCCATTTATTTTGCAATGAATTTCAACTTGTTAATCAGAAATGGATTTGGAGTAGTAGCTATTCAATTGTTTTATACACCTTCTAGAAGAAAT
Celera SNP ID:            hCV29152753
SNP Position Genomic:     42409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54719):
AAACAAGAAGAAATGAACGAAAGAGCAAGTTGATAAAATGGATGTCCAATAATATTCCATTGTTCAACTATGCAACATTTTTCATTGCCTCCCAAATTGG
R
TCAAAGTAGCCTGGTCTTCATGCCTCCAGTCCTTCCTCTTTTTAAAAATTTTATACAACTATATTAATATAGAATTTACATACTATAAAATTTCATTCAA
Celera SNP ID:            hCV29152754
SNP Position Genomic:     20573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54720):
GGACTAGACCTCAGGATTTTTAGATACCCAGGATCAGGATATGAACTACTGCATTAAATCATCTCCAACATCTACTCTCATGATGGCTTGTCTGACTTCA
W
GATTTAAAAAAAATTCTAAAGCATTTTTAAGGCAGTATATTCACCCTGTGCTATTTTCCTGTGGGCATAGGATAGGGTTTGTGTGGATGTATCAAAGACT
Celera SNP ID:            hCV29152755
SNP Position Genomic:     12097
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54721):
TGCACCATTGCACTCCAACCTGGGCAACAAGAGTGAAACTCCATCTTAAAAAACAAAAAAACAAAACAAAACAAAACAAAAAAACAAAGAAAGAAAGAAA
G
AAAACCAGTGTGAGTAGGTACTGTCATAATGAATAAAATGCTTGTCAAGTAAAGTTCTGTGGTTTCTGATTAGGCACTTAATTTTTTGATGTCATGTCAA
Celera SNP ID:            hCV26522510
SNP Position Genomic:     28634
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54722):
TCCTGTAGCAATCATGAAATAGCTACTAGTGCTCTGGACGATTGTGCTTAATGCCATTTGGGTGTAAGGCCTCCTAATTTCATTAGTCTTACCACTTGTG
Y
TTGCAAGGATAGCTGTTTGGAGTCAGCAGTGCATGGAACATGTGAACTGAGACAAATCTGTTTGAAAATCTCAACTTAAGATTTCAAATCCACTGTGTAT
Celera SNP ID:            hCV29152756
SNP Position Genomic:     9296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54723):
GCGGAGGTTGCAGTGAGCCAAGATTGCACCATTGCACTCCAACCTGGGCAACAAGAGTGAAACTCCATCTTAAAAAACAAAAAAACAAAACAAAACAAAA
M
AAAAAAACAAAGAAAGAAAGAAAGAAAACCAGTGTGAGTAGGTACTGTCATAATGAATAAAATGCTTGTCAAGTAAAGTTCTGTGGTTTCTGATTAGGCA
Celera SNP ID:            hCV26522511
SNP Position Genomic:     28610
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54724):
GTTAATATATAAATTTGTTGAATGGAGTAACGAAGGAAAGCAGCTGAATTTGCATGTGACAGAAAACAAGTTGTTACACGTGGAGGATGCAGCATTATAT
R
CTTACTAATACGATTAGCAATTTTTTTTCAGAATATATCAGAATTTCCTTTAAAAAGTGAAGCTACATATACTGAACTTATATCCACCCTACCCCTCGCT
Celera SNP ID:            hCV29152757
SNP Position Genomic:     8553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54725):
GCTTCCATGAAGGTTGTGCAAAAAAGTTTCAATCCAGAGTTGGGTTCCAGCTTTCTGTAGCTGTAAGCATTGGTGGCCACACCACCTCCTTACAAAGCAA
M
TAGAACCTGCGGCATACATTGGAGAGATTTTTTTAATTTTCTGGACATGAAGTAAATTTAGAGTGCTTTCTAATTTCAGGTAGAAGACATGTCCACCTTC
Celera SNP ID:            hCV27836488
SNP Position Genomic:     6163
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,30)   caucasian(C,34)   total(A,2|C,64)
SNP Type:                 UTR 5


Context             (SEQ ID NO:54726):
CTTATGTCTCCAAGTCAGCTGGGAGTCAGAGGATTAAGGCTCAAGGCTTAGGTTTGGTGCAGGTCAGCCCCAGGTGTCTCTCATCCTCCTTTGATCAGTG
R
GCTAGCAGGAGCATGTGCTTGCAATGATGGTGGAAATAGAAAAACGTGCAATCATATGTGAGTTTCAAGCCTCTCCTTGCATCATGTCTTGTAATGTCCT
Celera SNP ID:            hCV12120461
SNP Position Genomic:     14154
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54727):
GTGATTCCCCTGCCTCAGCCTCTCGAGTAGCTGGAATTATAGGCACGTGCCACCATGCCGGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACT
R
TGTTAGCCAGGATGGTCTCGATCTCCTGACCTGATGATCTGCCCGCCTTGGCCTCCCATAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCTGGC
Celera SNP ID:            hCV26522514
SNP Position Genomic:     8321
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54728):
ACAAGAAAGTATATAATTTTTTTATTCCCATAGGCTTCTTTTTTTGTTACCTTCAAATTAACTATGGTCAAAGGATTGCTCATTCCAGTAATAAGAACAG
R
CTTATTTCATCATTTACATAAATATCAGTATCGGGCACTTGCAAATGAGAAAACTCTGATTTGAGTAAGGATTAGTTTCACTTCAATTTCCATTTATGCG
Celera SNP ID:            hCV11878743
SNP Position Genomic:     31686
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54729):
GCTTATTTCATCATTTACATAAATATCAGTATCGGGCACTTGCAAATGAGAAAACTCTGATTTGAGTAAGGATTAGTTTCACTTCAATTTCCATTTATGC
R
TTTGCCAAGTTTAAATCCTACTGTAGTTACTTAAGCAACCAACAGAAACATATTTCTTGATGATGCTAAAACCTACCTACACCTGGCTTTAAAGCAGAAG
Celera SNP ID:            hCV11878747
SNP Position Genomic:     31786
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54730):
AGTGATTCCCCTGCCTCAGCCTCTCGAGTAGCTGGAATTATAGGCACGTGCCACCATGCCGGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCAC
Y
GTGTTAGCCAGGATGGTCTCGATCTCCTGACCTGATGATCTGCCCGCCTTGGCCTCCCATAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCTGG
Celera SNP ID:            hCV11326828
SNP Position Genomic:     8320
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54731):
TGATAAATAGCAGAGCTGGGATTCAAACCCAGGTCTGTGGGAGGCCAGAGCCTGAACTCTTATCAGTTATTGTCTCTCTGATGCTATGATGTCAAGACTC
R
GAAAACCATATGGAAGTTACTAGGACAGGATGTTAAAAGGAATGAAGATAGCTGATGGCAGGTTCTGTGTTGCTCAAATGGAGTGATTGAGAAAAATTTA
Celera SNP ID:            hCV11878748
SNP Position Genomic:     32777
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54732):
CATCAATTCTGAGTAGAAAAAAAGCTTGCATAACGTAAGAGGGTTTAGTTCATGATCATGTGATTCCCTAGAGCATAGCCAAAAAATTGTGCAAGAAGAT
R
AAGTTTATGCAAAGTAAACACTACAAAAACACTCTCACTGAGACTCATGGAAGTTCCATTACATATTGAGATGTCAGAATAAACACAACCTTAATGGATT
Celera SNP ID:            hCV11878749
SNP Position Genomic:     33834
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Gene Number:                 272
Celera Gene:                 hCG16225 - 30000023280779
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VSLL(1195319..1261339)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12432):
AACGGGGCTTTTACACGCTCCCCTTTTACACACTTACTGATAAAGGGACGAGGAGAAATAGTCAACGTAGCTTCCTGTGGGACAGCAGAGAAAAGAGGCT
TGAGGGGTACTGCACGAGCAAAATTAGGCAGCCACTCAGTATAGCGTGCGAGATTAGTGCTAGCTCCACCTCCTTTTCCCTAATTCCTTCTTCCAACTGA
ATCCCTTCTACCGGACCCCTTTTTCGTTCTGGGTGATTCCGTTCTCCAGTAGCCCCGCCCCTTCGATTCCTACTTGAGTTGGCCTCGCCCATTAGGCTCT
AAGCCCGCATCTCAACCCTCCACTCATTTCTGTCCCTTGGCTCCAGCAACTCCACCTGGTGTTCCTCGAGCCAGGCCCCGGCCCACGTGCTCAGAGCCTT
GGCCACGCCTCCCCTCTTAGCCCCGCCCCACCAGCCTTCCGGGCCAGGCTCCGCCCCCACCAGGATTCACCACGCTGGGCCCGGCACCTTCCTCAGGTTT
TTCCAGGGCCCCGCCCATGCTCACCTGGAGCGCAGACCGTTTCGCAGACCAGCGGGCAGAGATAGCAGAACTGACAGTGCTGGAGGCGGGGACGGGGAGA
GAGAGTGAGCGTGGGGCGTGGCCGGGGGCGGAGTTAGGATGGGGCCGGGACCAGACCCGGACCAGAGGCTAGGTCTAGGTTAAGGTTGGAGTCAGGATCG
CTTGTGGAGTCAAGGTTGCATCAGGGGTAAGGGGTTGGGTCAGAGGCCAGGATTTAGGGCTGGGGGTCCTCAGAGGGTCCCGGTGCATCCTGAGGCCCAG
TGGAGCCTTGAGTGTGAGGTGAGGTCTCACCTGGCACTGGTCGCAGTGCTCACCCATGTTCTCCTCATCACAGTGACAGCTCTCACATTCAGTGCATCGC
TGGGGACCGGGGGAGCCTGGTTAGATGGAAACTCTAACGCCACTTGGGAGGTACCCGCCCCTGGCCCACCCCTGCACCCTGGACGCTTCCCCAGACTCTA
CCCTCTTTATCTCTAACACTGAGCTCTGTATCTGCCCCCCAAACCAGCCTCCCCTCCCCTCCCCTGCCCCTGGTTTCCTTCCTTTCCCTTTTTTTCCTTT
TTTTTCTTGAGGCGGAGTCTCTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAACCTCAGCTCACTGCAACCTCCGTCTCCCGGGTTCAAGCGATTCTC
CTGCCTCGGCCTCCTGAGTAGCTGGGATTACAGGTGCGTGCCACCATGCCCGGCTAATTTTTTTGTATTTTTTAGTAGAAATGGGGTTTCACCGTGTTAG
CCAGGATGGTCTCGATCTCCTGACCTCGTGTTCCGCCCACCCTGGCCTCTTAAAGTGCTGAGATTACAGGCGTGAGCCACCACACCCGGCCCTGCCCCTG
GTTTTCTATCTCAGGGCGACCCCATGTCTCCCTGTCAGGGTGGGCTCAGGTGCTCTCTCCACCCGCTCTCTGCCTATTCTCCCCCTAGCCTATCAGCCCC
TGTGCCATCCCTCCTTCCCCCGACTCTCTTTGCCACAGACCCCTGTCTCTGTCCCCACACCCCAAGATGCAGCTTGGGTCTTGTCCTCTCCTTCCTGGAC
CACTGCCCCAGCCTCCCAGCCTTCATCAGTCTGTCCTCACCTCACATGCCTGCAGAAGGATCTCTTTTCTTTCAGAACTGACCCTGGCCTGCCCTTGCTC
TGAGCCCTCCCACAGCACCACCCCAGGGCCCCTGGGACAGATTCTGGGGACACCTTGGTGGGTGGATCTGGGCTGGGGACATACATTGCAGAAGGAGCAG
TAGCCACACAGGGACCCTGGCTGGTAGTTCCCATACTCCTGAGCATCCTGTGGACCTGCGGGGACAGGAGGGCAGCAGTGACCCAGGCTGACTCGGTTCC
TTCCCACCCACACCAGCCCAGGCCACTTACCTGTGTCCTCACCGCTTTCCTCCTCGCTGGAGGCACCTCCAGCCTCCTCTCTCCTGTCCAGTGGGTTGGG
GATGATGGTGAAGCGGGGCTCATCTTCCTCCAGCCCCTCCTCCTCCTCCTCTTCCTCCTCGCTGTGGTCTGGGCTCAGTGGGGCCCCAACCTCAGCCCTC
TCTTCCCTCCTCTCCTCGTCTTCTTCCTCCTCCTCCTCCTCCTTGTCTTCCTCTTCTTCCTCCTCCTGGTTCAGGCTGAGGCCATGACCTTCCTCCTCAT
CCTCCTCATCTTCCTGGTCCCGGCTGCCATGATGGGTGCCTTTCTCTCCCTGCTCTGAACTTTCATCGTCTTCCTCATGGGAGCCGGGGTCCTCTTCCTT
CTCCTTTTCCTCCTCAGAATCATCCTTCCTCAAATGGCTTCTATCCTTGACCACTGTGTGTCCTGGGGGGTGATGGCTCATCTCTTTGATGGACCCTCTT
TGACCATGGCCAGTTTCTTCATCTTGGTGGCTTTGCCTGTGGCTGGGGGCCTGGTGGCCAAGCTCAGCAGAGACCTCCTCATCTTCCTCCCTGGGGACTC
TGTGGTGGTGATGGTGAGGGACTTCTGTTTTATACTCATCTTGGAAGTCCTCTTCATCACTCTTGTGGCCTCGAGGTTGGTGGCTTGCAACATAGTGGCC
GAACTGGACTGTGATCTCCTCTTCTTCCTCTTCCTCATCTACAAGGCCATGGTGGACATGTTGGGGACCCTGGTGCCAACGTTCAGTGGACACATCCTCA
TCTTCTTCCTCGTCTCTGTGGCCTTGGTGCCTGTGGTCAGGGACATGATGGTGGTGTTCACCTGAGACAGCCTCAACCTCTTCCTTTCTGTGGTCTTGGT
GCCTGTGGGCCTGGTGTCCATACTCAGTGGAGACATCATCATCATCATTGTCATCTTCTTCATGGCTTCGGTGCCTGTGGCTGGGGTCGCGATGATGGTG
TCCATCTGAGACATCTTCATCCTCTTCAATCCCGTGGCCTTGGTGCCTGTGAGCCTGGTGTCTATATTCAATGGAGACATCATCATCATCATCATCATCA
TCATCATCATCATCATCGTCATCTTCTTCATGGCCTTGGTGCCTGTGGCTGGGGCCATGATGATGGTGTCCATCTGAGACATCCTCATCCTCTTCACTCC
CATGGCCTCGGTGCCTGTGGGCCTGGTGTCCATACTCAGTGGAGGCCTCCTCTTCCTCCTCCTCCTCCTCCTCCTCCTCCTCTTCTCCTTCATCATCTTC
CCCATCATGGCCTCGGTGTCCATGCCTGAGGATATGATGGTGATGCTCACTGGACACAACTTCATCCTCATCCTCGTCTTGATGGCTGTGGCTCCTGTGG
CTGGGGAGGTGGTGCCTGTGCTCAGCTGAGTCTTCCGTGTCTTCACTCCCGTGGCCTCTGTGCCCACGGGCCTGCCCACCATGCTCTGCAAAGACCTCCT
CACCTGAGACACCCTCATCTCCGACTTTGTGGTCTTGGGACCTGTGGCCTGGGAGTAGGTGCCCATATTCCTTGGCGACATCTTCATCCTCCTTTTCACG
GTCTGGGTGGCTCCAGAAATGATGCCCATTCTCTGTGGAAACATCCTTGTTCTCATCTGGATGGTCTCTAGGGCTGTGGAGGTGGTGGCGAAGCTCTGCT
GATGCCTCCTCGGAGAGCCCGGCGACTCCAGTGTTGTTGTTCCGGTTTCTGAAGCCCAGCCCATCCCCTCTGAGCTGCTGGGTCATGGCCGGGGGGAGGA
GCAGGCTGGCCACCCCAGCCCAGAGGACAGAAGCGTGCAGCCATGGCCTATGGTGGCCCATGGGGACGGACAGGCAGCACTGGCTCCAGCTGCCTCTGCG
GCAATGTGGACAAACGTTGGGGTCTTTGTCCCTTTGGGGTTGGTCTCTTTTTTTCTCTGTGTCTCTCCTTTGTCCTTTCGGTCTCTGTCCACCTTCCTCT
GGTCCTTGCTGCCTGGCTCTGGACACCCCTCTGAGGCTGTCTCCGGAGCCCCCTGACCCCCCTCTGGGGCCCTCCCTCCCCATTCCCCAGCCAATAGGGT
CCTTCCCCTCCCCTCTCTCCAGCTAAATTTACTCTCAGCCCTGAGTTATTCTGGGTCAGTCCCCGCCTGCCTGCCTCCTGCTCCTCCTCCTCCCAGCTGG
GGAGGGGACCAGTGAGGGGTCTCTCCCTGGCCAGGAGACGGTGGCCAAGGGACTTGACTTTGAACTACCAACAAGCTCACGTTTGGCAGCTGCAAAGACA
AAGGCTAGACTTTTAGCAGGTTTTTGGGGGAGCCTGGGGCACCTGGGGGAGGCAGAAGAGACTTATCAGAGGGGAGAGACTCCTGGGACGGAAGGACTGG
GGGTTCGATTGCGGGGTGTTTCCAGCTGGAATGATACGTGCTGGTGAGAGAGTGATGTCAGTATTGAGGCCCTAGAATGGGGGGAAAGGAACATGGCCCC
CAACACACGTGCCCATGACCTCCTGTCCCTGGAACTCAGATCTGGGGGCAGGGACTGGGCTAGGCCAGGGCTATAAATACAGCTGGGAGGGGTAGGGGGA
CTCAGGTTACGGAGGCCACAGCTGTCCCCATCACAGAGGGCTGGCAGGAGACAAGTGGCCTTGCCCGTCTCTGTGTGTCAGTATTTCCTACTCCTCACCC
TTCATGACTGCCCCCACTAGGGTCTCCTTTCCTGTTCACGGGTCCTCCTCTCTCTTCAATTCTGTCATCTGCTCTCTCAGGGTCCCTGTCCCTCCTCCAT
GGGATTGCCTCTCCCTCTCACTCTGGGCTTCTGTCCCACTCTTATCTTAGTGTCAGTCCTCCCCCAAGTCTGTGTCCCTCTCTCTCCCCTAAATCTCTGG
CCCCTCCTTTCTGAGTTCCTGCCCTTCCCCCAATTCTTTGGTTTTTGCATCCCCCTCTGCCCCTTGCCTCAGTCAAGGTGTCTCCTCCCCATCTCTGGCA
TCCACCTCTCTGGGTCTCTGTCCCCACTCTCTCTCAGAGTCTCTGTCCCCCTCTGTCTCAGAGTCTCTGTCCACCTCTCCCTGGGTCTCTGTCCCCCTCT
CTCTGGGTCTCTGTCCCCCTCTCCCTGGGTCTCTGTCCCCCTCTCTCTGGGATCTCTGTCCCCCTCTCTCTGGGTCTCTGTCCCCTCTCTCTGTGGGTCT
CTGTCCCCCTCTCTCTCTGGGTCTCTGTTCCCCTCTCTCTGGGTCTCTGTCCCCCTCTCTCTGGGTCTCTGTCCCCGTCTCTCTGGGTCTCTGTCCCCCT
CTCTCTGGGTCTCTGTCCTCCTCTCTCTCTGGGTCTCTGTTCCCCTCTCTCTGGGTCTCTGTCCCCCTCTCTCTGGGTCTCTGTCCCCGTCTCTCTGGGT
CTCTGTCCCCCTCTCTCTGGGTCTCTGTCCCCCTCTCTCTGGGTCTCTGTCCCCTCTCCCTGGGTCTCTGTCCCCCTCTCCGTGGGTCTCTGTCCCCTCT
CCCTGGGTCTCTGTCCCCCCCTCCCTGGGTCTCTGTCCCCCCCTCTCTGGGTCTCTGTCCCCCCCTCTCTGGGTCTCTGTCCTCCTCTCCCTGGGTCTCT
GTCCCCCTCTCTCTGTGGGTCTCTGTCCCACTCTCTCTGGGTCTCTGTCCCACTCTCTCTGGGTCTCTGTCCCCTCTCCCTGGGTCTCTGTCCCCCTCTC
TCTGTGGGTCTCTGTCCCCCTCTCTCTCTGTCTATCCCTGGGTCCCTGCTGCCCCACCTTCTGATTCTCTGTCCCCTAAGTCTTTGTCTCCCCCTCTTTG
GGTTAAATTGTCCCCTCCCTGTCTGGCATCCTCCTTTCTGAGTCTGTTCCCTCTCCGCCACTGGCCCCCAACTCCTTCTGTTCCCATCTCGCGCTTGCCC
TTGGAGTCTCCCCTGTGTGTCTCTCTCCCCCCGGCCCGGGCCTCTGCACCCCCCAGGTCGCTGTCCCTCTGTCCCCTTATCGCGGCCTGGGACCCGCCCT
CTCCCCGCCTCCCGCTTTGGCGTCTCCAAGACTCCCCGCCCCCCAGACCTCGCCCCGCCCCAGGCTAGGCTGGAAAGTGGAGGATCCGGTTTGCTCTGGG
CGGGTCTGGAAGCAGAGCCGGCGGAGGGAGCGCCGGGGCCCTGGGCTGCAGGAGGTTGCGGCRGCCGCGGCAGCATGGTGGTGCCGGAGAAGGAGCAGGT
GAGCGCCGGACCAGGGTCTGCGGGAGCGCGGAGCTGGGGACCTCGCCTCCAGGCTCCCAGAGAGGAGGGCGCTGGACACCCAGATTCCTGGGTCAGACGG
AGGAGGGGGATGGGAGGGTCCAGGTTCCAGGGTCCAGGGCATGGGGGTCGAGACTCCTGAGTCTGGAGCGGGAGGGCGCTGGGGGCCCGGACTCCTGTGT
CCGTGGGGAGCGCACGGGGTGGGTGGCTCTGTGTCCCATAGGACAGAACTGGGTGCCCTCTCACCCCACTTCCACCCCTACATTTGTTCCTGTCCCCAGA
GCTGGATCCCCAAGATCTTCAAGAAGAAGACCTGCACGACGTTCATAGTTGACTCCACAGATCCGGGGTGAGGAGTTCGCCCCTGGACTGACCCCAGRGG
GTCCGCGGCCCGCTGACCCCGCCCGCGGATGGYCACGCCCCAGCCCTGCTCCTTCCCCATTCCTGGACTCGGGGACCTTCCCAAGGGCGTTCCTTGCCGA
CGCTCTCCCTCTAGGAGCGTTTGGGTCTSTGTAGACACCCCTCATTCCCCATTCGCCATTCTCCCGCTCAGGGTCAGTGTAGACGCTCCAGGGCTCGGTT
CTGCTTCTTTCCTCCCCGATGTCTCTTCTATGTGCTTCTGTCTCTTCGTGTCACTTTCTGTGTCTCTGTCTTTCCCTTTTGGGTATTTCTGTTTCATTCA
TTCATTCATTCATTCATTCATTCATCCATCCATGCAAGAAACCCTCACTCAGCGCTCCCAAGGTCCCTTTAGCCTAATTCAACGGCCCTGCCAGGGTTCC
AATTTCCCCTGGGACACGTGCTGTGTGGCTTCGGGCAAATCATTTCACCTCTCTGGGTCCCGTTTCTCATCTGAGCATCAAAAGAGGCTTGATCTCCTGG
GGTTATTATGAGAATTAAACAAGTTAATGCTTGTGATATTCCTGGCACAGCGCCCAGCACAGGACGCTGGGAAATATCTGCAGCTCCCACTGGGAGGTGG
CAATTATTACCGCGGGCGGGCCCTGTCTTGGTGGCCGGGGACACCAATTGAGCTAGATAGGGTGTGTGCGTCCGCGAGGAGCTCCCGCCCTTCAGTGACG
GCCTCTCAAGCGGATCCAGGCTTTCTAGTTTTTTTTTTTTTTTTTTTTTTGAGACGGTGTCTCGCTCTGTCCCCCAGGCTGGAGTGCAGTGGCGCGATCT
CGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCGTTTTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAAT
TTTTTGTATTTTAGTAGAGACGGGGTTTCACCGTGTTGGCCAGGATGATCTCGATCTCCTGACCTTGTGATCCGCCCGCCTCAGCCCCTCAAAGTACTGG
GATTACAGGCGTGAGCCATCGCGCTGGGCCAATTTTTTGTATTTTTTTTTTAGTAGAGACGGGGTTGCACCGTGTTAGCCAGATGGTCTCGATCTCCTGA
CCTCATGATCCGCCGGCCTCGGCCTCCCAAAGCGCTAGGATTACAGGTGTGAGCCACCGCACCTGGCCCAGGCTTTCTAGTTTTTTGTTTTTTGTTTTTT
TGAGACAGAGTCTGGCTCTGTCGCCCAGGCTGGAGTGCAGTGTTGCGATATCAGCTCACTGCAACATCCACCTCCTGGGTTCAAGCAGTTCTCATGCCTC
AGCCTCCCTAGTAGCTGGGATTACAGGTGCCTACCACCATGCCCAGCTAATTTTTTGTATTTTAGTAGAGACGGGATTTCACCCTGTTGCCCAGGTTGRT
CTTGAACTCTTGATCTCAGGCAATGCACCTGCCTTGGCTTTCCAAAGTACTGGGATTACAGGTGTGAGCCACCGCGCCCAGCCCTCTAGTTGTTTTTCAA
GACAGTTTTTGGGGTGYGGGAAGTATCCACATTCCTACTTCAGTGTGTATTTTGTTATGACTATATATTAGTGCAGTATGGCTTGTAAATGATGGATAAA
TAAACAGATATGCGCTTGTTGGACGTGAGTGCTCAAAACCTTTTTACTGATAGGTCAGTGTGGTCAAGACAATTTAGGAAACTCTGGTCTGGCCTGAGGA
GGAAGAAACGCAGAAGATAATTATAGTAAGGCAAGGGGTTGCAGCTCCCAAAGACGAGCCACTGGGCTCTGTGAGAGCTGGGAGGAGGTGTTTGCTTAAG
ACTGGGAGGGGACACAAAATGTCACTAATGGTTTCTGGAGGGAGGAAGAGTGGCTAGTGAGGTGACATTTGAAAGTGAGCTGGAGAGAGGCCCATGGAAA
GCGATTTGGGGCCGGGCATGGTGGCTCACGCCTGTCATCCCAACAATCTGGGAGGCCGAGGCGGGTGGATCACCTAAGTCAGGAGTTCGAGACCAGCTTG
GCTAACATGGTGCAACCCTATCTCTACTAAAAATACAAAAATTAACTGGGCGTATTGGCGCATGCCTGTAATCCCAGCTACTCAGGAGGCAGGAGAATCA
CTTAAACCTGGGAGACGGAGGCTACTATGAGCAGAGATCACATCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAA
AGAAAGAAAGAAAGAAAAAAGTGATTTGAACAGCATGTGCAAAGTCCTTGCTAAGGACCATATGGTTTGGCTTGAATATGAATCAAAGTTCAGGGTGCAG
GGAGCACTGTCATGAGAGAAGAGGCTGCAGAGGAGGGCAGGGCCAGAGCTTGCAGGGTGTCAGAGGCCACCCTAAGGGGCTGGGATCTTGTCCTTGGGAG
CTGGGGCATCACCGCAGCAGTGGGGTTGGCTCTGGGTGTGGAAAAACTTTCTGGGGCTGGGAGAGGATGAACAGGAGCTCGGGAGGAGGCTGTAGAGAGC
GTCTGAGCGGGAGGGGTAGTGGCCTGAGCCAGGTCAGGGCTTTCGGGACACAGAGAGGAGGGCATGGGGCAAAGACTCAGGGGGCAGGAAGGCAGAGCTT
GGGGCTTGATGAGGGTGATGAGGGAGAGAGGGGGTGCCGCCATCGGTGGATGGCTCCGGGACGTATGGTCTGCTGACTGGGACACAGTGGGGCTGTCCCT
GAGATGGAGAGCTCAGGAGGGCAAGCAGGTTTGGGAAATGTCGCTGAGTGCAATGTGGGAATCTGTGCATATGAGCGGCCTAGGGGGACCGAGGGGCATG
TGGGGACTGAGATTGGGAAAGGTCTGGACTAATGTCCAGAATCTGAGAGGTCCGAGTTGTAGCTGGTAATTGAAACTGGAAGTAGGTAAGACGTCACAGG
GAAAACAACGTGTAAAGTCAGGGGAGTTGCAAACTGGCAATTCTATAGCCAATTGTGTGCGTGTGTTTGTGTGTGTGTGTGTTTAGAAGAGCATTTAAAA
ATATCTGTCTTCTGTCTCTCTCTCTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTTGCTCTGTTGTCCAGGCTGGAGTGGCACGATCATGGTTCACT
GCAGCCTTGACCTGCTGGGCTCAAGCGATCCTCCCACATGAGCCTCCGGAGTAGCTGGGACCACAGGCATGCACCACCATGCCTGGCTAATTTTAAAATT
TTTTGTAGAAACCGGGTCTCCCTTTGATACCAGACCAGGCTGGTATCCAACTCCTGGACTCAAGTGAGCCTCCCACCTCACTCTGCCTGCCAAAGTGCTG
GAATTACAGGCGAGAGCCACCATACCCGGCTACCTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTATCACCCAGGCTGGAGTGCAGTAGTGCGATCT
CGGCTCACTTCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCCCCCGAGTAGCTGGGATTACAGGCACCCACCATCACGCCTGGCTAAT
TTTTGTACTTTTAGTAGAGACAAGGTTTCACCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCAAGTGATCTGCCCACCTGGGCCTCCCAACGTGCT
GGGATTACAGGTGTGAGCCACTGCTCCTGGCCCTGGCTACTTCTTTCTGTTGAGTTACTTGACTGGCCTCTGCACACATTGGGTTTGAGAATCATGTAGG
GAAGGCTTGCACTGGGAACACCTACACTCAAGGGAGGTGAAAAGCAAGAGAAAGCCACAAACAAGTCAGGCATGAAGCAGCCGGGGCGGGGAGGAAGGCC
AGAGGGGCAGGGGTATCCTGCCAAGGAGAGGGTTTCCAGAATGAGAGCCTTTCAGCTGTAGCCAGGGCCACTTGTGATACAGTCAGATGAAACCTGCATA
AGGGCCGTTGTATATGGAGCCAGGCAGGAAATTGATGATTTTTATCAGGAACAATTTCAGGCTAGGCACAGTGACTCACAGCTGTAATCCCAGCAGTTTG
AGAGGCCGAGGTGGGCTGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAATGTGGTAAAACCCCATCTCTACTAAAAATACAAAAACTAGCCAG
GTACTGTGGCACATGCCTGTAATCCCAGCTACTCAGGATGCTGAGGCACGAGAGTCGCTTGAGCCCAGGTGGCAGAGGTTGCAGTGAGCTGAGATCGTAC
CACTGCATTCTAGCCTGGGAGACAGAGCGAGACTCCATCTCAAAACAAAACAAAACAAACAAACAAAAAAAAAAACAATTTATTTCAGTTTCTGTGGCTC
CACCGAGGAAAGAGTGTAGGAGGCAAGCTGTGCAGAAGGAATGGCTCCTAGCACTGAATGTCAGAATTTTCCACGATTTTGGAAACGTTCTATGTCTACA
TCCAATATGGCAGTCCTGGCCACAGGGGGCTACTGGGCACTTGGAATATGGCCATTGTACCTGAGAAACTGAATTTTTTTTTGAGGTGGAGTCTCGCTCT
GTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGG
ACTACAGGCACCCGCCACCATGCCAAGCTGATTTTTGTATTTTTAGTAGAAACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAAGTCCTGACCTCAG
GTGATCCGCCCACCTTGGCCTCCCTAAGTTCTGGGATTACAGGCATGAACCACTGCACTTGACCTGAATTTTTTATTTGATTTAATTTTAACTTATTAGA
ACAGAAAGAGCTCCATGGCTACAAAGAACCCCATGCAGCTATCACATTGGACAGTACAAGCTCCAGACTATTCCGTGAAGAGCTTTTATTTTATTATTAT
TATTTTTTTTTTTTTTTGAGGCAGAGTCTCATTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCTGCTCATCACAACCTCCGTCTCCCAGGTTCAA
GCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCGTACCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATAAGGTTTCACTA
TGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGTCATGAGCCACCATGCCCGGCCTTA
TTTCTTATTTTTAGTGACATGGTCTTGCTCTGTTGCCTAGCCTGAACTGCAGTGGTGTGATCATGGCTTATTGCAGCCTTGAACTCCTGAGCTCAAGTGA
TCCTCCTGCTACAGCCTCCTGAGTAGCTGGAACCACAGGCGTGCACCACCACACCTGGCTAATTAAAACAATTTTTTTTGTAGGGATGGGGTCTCGCTCT
ATTGCCCAGGCTGTTCTCAAACTCCTGGGCTCAAGCAGTCCTTCTGCCTTGACCTCCCAAAGTGCTTGGATTGTGCCCAGCCGTCCTTGAAGTTTTGCTC
AGAAGAGCAAACTTTCTGGGAAGTAGCTGCAGGTGTTGGAAGTAGCTGCAGGGGAACTAGGGGATTCAAGGATGGAGCTGAAATGGGTGAACGGACAAAG
TCGGTAAACTGAGGCATGCCAGGGCCCTGGAGGTAGACTCAGGAATGAAGAAGACACTTTATTGTAGTTCTCACTGTGCCAGGACCTGGCCTAAGTGTGT
TTGGTTCATCCCATGTGTGGATCAGTTAGCCGTTCTTTTAGTGTCTTTACGGCTTTTGCCAAATCCTTGTAGCACCTCTGCTATCCCTTCTGTAAAATTG
CTCTTAAATCTGCTCACTAGGTTTGTGTAAATACAGGTCTCCCCTGATATCTGAACTCCTGGAATCTGGAACAAAGAATTTAGATACATTTTTCTCCTTC
TTTCTTCCTTTCTCTTTCTTTTCTTTTCTTTTCTCTCTCTCTTTCTTTCTTTCTCTCTTTCTCTTTCTTTCTCTCTCTTTCCCTCCCTCCCTCCCTCCCT
TCCTTCCTTCCTTCCTTTCCTTCCTCCCTCTCTGTCTCTCTCCCTCCCTCCTTCCTTTCTTTCCTTAGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
TTTGAGATGGAGTTTCGCTCTTGTCGCCCAGGCTGGAGTACAATAGTGTGATGGCTCACTGCAACTTCTGCCTCCTGGGTTCAACCAATTCTCCTGCCTC
AGCCTTCTGAGTAGCTGGGATTACAGGCACCCGCCACCACGACCAGCTAATTTTTGTATTTTTTTTAGTACAGACAGTGTTTCACCATGTTGGCCAGTCT
GGTCTCAAACTCTTGACCTCAGATGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCGGCCTCTTGCTTGCTTGC
TTGCTTGCTTGCTTGCTTGCTTGCTTTTCTTTCCTTCTTTTCTTTTTTTTGAACAGGGTCTCACTCTGTTGCCCAGGTTGGAGTGCAGTGGCGTGGTCAC
AGCTCTCTGCATCACTGCAGCCTTGATCTCCCAGGCTGAAGTGATCCTCCTGCCTCAGCCTCCTAAGCACATGCTGCCACACCTGGCTAATTTTATTTTA
TTTTATTTTATTTATTTATTTATTTTTAGAGACAGGGTCTGACTATATTGCACAGCTGGTCTCGAACTCCTGGGTTCAGGTGATCCTCTGGCCCCAGCCT
CCCAAAGTGCTAGGATTACAGGCATGAGCCATCATACCCGACCCTACATTTTCAAATGAATTTCTCATTCTCCAAACCCCTGTTACTTACTCAGGTGCCA
ATCACCTTTAGAAAGCAAGAGAGACTTGTGCATTTCTTTAGGTGGGGGAAAGTTTTATATGTGGAAACTTTCCAAATGGAAACCTGTTCCATTTGGCACA
GAGAGGAAGAAACAAGCCACACAGAAGCCAAAGACAATGAAAAGCAAACAAAGGTGTTTCCCTACTCGCTAGATGGCTGTTGCCAGCTCCATTTTTTGAG
CCCGAGGCCTGCTTTTCTTGTTCAAAAGAGTAGCAAAGGGTTAGGCATTCAAAAATATTCTAGCACCCGGCTGAGCCTCTCTCCTTGACAGTCGTCAGGA
GAACTGAAAAAGGAATGACTTTCTCACTGCGTTATTCAAGGTTATTTTAAGCTCCGTGTGAAGTTCGTGTCGCGTTGCCTCTGGCTGGGACTGGTATGCG
AGCCTCATTTCAGGAAACACGGCGTTCTTTCCCTGGCTCCTCATAGCTCCGTGGAGTAGGCCGCGCTATTATTGTCTTTTCATTAGAGGAGGAAATTTAG
GCTCAGAGAGGTGAAGCCGCTCGCCCAAAGTCACACAGCCGCGTCAGCCCCGAGCATGCGGGCTCTCCCTGAGTTACCCGCTGGATGTTCTTTCTCGTGT
TGAACGTCATGTGTTTGGATGGGGGCACAGGGCACAGCAAGGATACCCCCAGTGGCCCTCTGCCTTCCCACTTGAGGCTCCTCAGGTGACAGTGACCTGC
TTCTTCCTGCTCAGGCTTTCTGGACTCACTGGCTTCCTTCCCGTGGGGAAAGGGGACCGTCCTCGGCTCCAGTCTCTCCCCGAGGCCGTCAGAGCCAGGG
CCAGGGGCAGCGTGGACTCTGCCTGCCTCTGTGGGTGTGGACTCAGTGTCGACAGCCCCCTCTACAGGAGCATGAACACGCTGACAGGGTGCTGGGGTCG
GGGGGCAGCCCTGGGTTCACGCTCCGCCCTCGCACCCCCAGAGGGACCTTGTGCCAGTGTGGGCGCCCCCGGACCGCCCACCCCGCAGTGGCCATGGAGG
ATGCCTTCGGGGCAGCCGTGGTGACCGTGTGGGACAGCGATGCACACACCACGGAGAAGCCCACCGATGCCTACGGAGAGCTGGACTTCACGGGGGCCGG
CCGCAAGCACAGCAATGTGAGGCGGGCCTCTGTGGGCGGGGCCCGGGCACCAGGGGGCTGCATGCTCGGGGCTCCAGAGTGGAGCCGGGACGCCCGCCCT
GAACCCTGGCCCCTCCGCCCATCCCTGTCTTGGCTCTCTTTGTCCCCTCCGCCCCACCTATCTTCTCTCTGAGGGGGTCCCGTTCTCTCTGCGTCTCTTT
GTCTCTGTCTCCCTCTGTCTCCGTGTCCCTCTCTCTCTGGGTCTCTGTCCCCCTCTCTCTCTGGGTCTCTGTCCCCCTCTCTCTCTGGGTCTCTGTCCCC
CTCTCTCTCTGGGTCTCTGTCCCCCTCTCTCTCTGGGTCTCTGTCCCCCTCTCTCTCTGGGTCTCTGTCCCCCTCTCTCTCTGGGTCTCTGTCCCCCTCT
CTCTCTGGGTCTCTGTCCCCCTCTCTCTCTGGGTCTCTGTCCCCGTCTCTCCGGGTCTCTGTTTCCCCTTTTCTGTGGGTCACTGTCCTCATCTCTTTGG
GTCTGTGTTTCCGCTTTTCTCTGTGTCTCTGTCCCCGTCTCTCTGGGTCTCTGTCTCTGTCTCTCTGGGTCTCTGTCTCTGTCTCTCTGGGCCTCTGTTT
CCCCTTTTCTCTGTGTCTCTGTCCCCGTCTCTCTGGGTCTCTGTCTTCCTCTCTCTGGGTCTGTTTCCCCCTCTCTCTGGGTCTCTGTCCCCATCTCTCT
GGGTCTCTGTCTGTTTCTCCGGGTCTCCGTCCCTGTCTCTCCGGGTCTCTGTTTCCCCTTTTCTCTGGGTCTCTGTCCTTGTCTCTCTGGGTCTCTGTCC
CTGTTTCTCCGGGTCTCTGTCCCCGTCTCTCCGGGTCTCTGTTTCCCCTTTACTCTGGGTTTCTGTCCCCATCTCTCTGGGTCTCTGTCCCTCTCTCTCT
GGGTCTCTGTCCCTCTCTCTCTGGGTCTCTGTCCCTCTCTCTCTGGGTCTCTGTCGCCATCTCTCTGGGTCTCTGTCCCATGTCTCTGGGTCTCTGTCCC
TCTCTCTCTGGGTCTCTGTCCCTCTCTCTCTGGGTCTCTGTCCCTCTCTCTCTGGGTCTCTGTCCCTCTCTCTCTGGGTCTCTGTCCCCGTCTCTCCGGG
TCTCTGTTTCCCCTTTACTCTGGGTTTCTGTCCCCATCTCTCTGGGTCTCTGTCCCTCTCTCTCTGGGTCTCTGTCCCCGTCTCTCCGGGTCTCTGTTTC
CCCTTTACTCTGGGTTTCTGTCCCCATCTCTCTGGGTCTCTGTCCCTCTCTCTCTGGGTCTCTGTCGCCATCTCTCTGGGTCTCTGTCCCTCTCTCTCTG
GGTCTCTGTCCCTCTCTCTCTGGGTCTTTGTCCCCGTCTCTCTGGGTCTCTGTCCCCGTCTCTCTGGGTCTCTGTCCCTCTCTCTCTGGGTCTCTGTCCC
ATCTCTCTGGGTCTCTGTCCCATGTCTCTGGGTCTCTGTCCCTCTCTCTCTGGGTCTCTGTCCCATGTCTCTGGGTCTCTGTCCCTCTCTCTCTGGGTCT
CTGTCCCCATCTCTCTGGGTCTCTGTCCCTCTCTCTCTGGGTCTCTGTCCCTCTCTCTCTGGGTCTCTGTCCCCATCTCTCTGGGTCTCTGTCCCTCTCT
CTCTGGGTCTCTGTCCCCGTCTCTCTGGGTCTCTGTCCCCGTCTCTCTGGGTCTCTGTCCCCGTCTCTCTGGGTCTCTGTCCCCCTCCCTGTGTGCCCCG
CTCCCATGTGTCCACAGTTCCTCCGGCTCTCTGACCGAACGGATCCAGCTGCAGTTTATAGTCTGGTCACACGCACATGGGGCTTCCGTGCCCCGAACCT
GGTGGTGTCAGTGCTGGGGGGATCGGGGGGCCCCGTCCTCCAGACCTGGCTGCAGGACCTGCTGCGTCGTGGGCTGGTGCGGGCTGCCCAGAGCACAGGT
GACCGAGGGTGGGTGGGGGCTGTCTCCTGGGCCTCGGCCTGCCTGCCATCTCCCCCACGACTGTGGGTGGCCTCCCCCGCCGCCCAGTGTGTGTGTGTGT
GTCTCTGTCTTATTCTTTGTTTCTCTCCCCCTGCCTCTGCATGTTCCTCGGCGTCTGTGTAGGAGCCTGGATTGTCACTGGGGGTCTGCACACGGGCATC
GGCCGGCATGTTGGTGTGGCTGTACGGGACCATCAGATGGCCAGCACTGGGGGCACCAAGGTGGTGGCCATGGGTGTGGCCCCCTGGGGTGTGGTCCGGA
ATAGAGACACCCTCATCAACCCCAAGGTGTGACCCAGGGACTTGGAAAAGGGGGCTGGAGGCCTGGACTCCTGGGTCTGAGGGAGGAGGAGGGGCTCGTG
TTTGTCCTTCTGGCCCCGATGAGGAGACGCCCTGGTCTGGCCATTTTTCCCCTAGGGCTCGTTCCCTGCGAGGTACCGGTGGCGCGGTGACCCGGAGGAC
GGGGTCCAGTTTCCCCTGGACTACAACTACTCGGCCTTCTTCCTGGTGGACGACGGCACACACGGCTGCCTGGGGGGCGAGAACCGCTTCCGCTTGCGCC
TGGAGTCCTACATCTCACAGCAGAAGACGGGCGTGGGAGGTGAGTGGTCGAACCCATGACCCACAACCCACGACCCACAACCTGCAACCCCAGCGCTCAG
GATCCCAGTAGTTTGGTCTGGTCGAGATTTGGGGAATTACCTATGGTTAAGTGTCTTTCCCCGTCATTATTCATGGTTTTAAAAACTTCTGTCTGAGAGT
GAGTTAGCTCACATCAGTAATCCCAACACTTTGGGAGGCCGAGGTAGGAGGATTGCTTGAGGCCAGTAATTCAAGACCAGCCTGGGTAACAGAGCAAGAC
CTTGTCTCTACCAATAATAATAATAATAATAATAATAAAGAATAAAAAATAAATTAGCCAGGTGTGGTGTCGTGTGCCTGTAATCCCAGCTACTTGGGAG
GCTAAGGTGAGAGAACTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCAAGCCACTGCACTCCAGCCTGGGCGACAAAGCAATACTCCATC
TCAAACAAACAAACAGACTTTATTTTGAAATTTCTCATACATACAGAAAAATGCACGAAGGTGGACAGCTTGATGCATTTTTTTCTTTTTTTGAGACGGA
GTTTTGCCCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAGCCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTG
CCTCAGACTCCTGAGTAGCTGGGATTACAGGCACGTGCCATCACACCCGGCTAATTTTTGTATTTTTAGTAGACGGGGTTTCACCGTGTTAGCCAGGATG
GTCTTGATCTCCTGACCTTGTGATCTGCCTGCTTTGGCCTCCCGAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCGGCCTAATGTTTGTATTTTTA
GTAGAGATGAGGTTTCACCTTGTTGGCTAGGCTGTTTTCGAACTTCTGACCTCAAGTGATTCGCCCACCTCAGCCTCCCAAAGTGCTAGGATTACAGACG
TGAGCCACTGCACCTGGCTCCGGCTAATTTTTAAAGTTTTTTGTAGAGACAGGGTTTTGCCATGCAGCCCAGGTGGCCTCAAACTCGTGGTCGAAAGTGG
TCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACGGTCGTGAGCCACTGCGCCCAGCCAGCCAATATCTTATAATTTTATCAAAACATGAACAAGATA
CATTACTAGGTTTGAGGAAAGTTTTTGATTTTTGTGTATTTTTCTTGTATCAATCCTCTTACCAAATTTTCTTATTGATCTTTATTTTTATTTTTGGTGG
GGTTTTCCAATTTTCTGGGAATACAAGCCATGTTTTCTTCAAATAGGTACTTTTGTCCCTTCCAGCTTTACAAAAAACCAAAAACCAAAAAATCAATTTT
CACTTCAGTGATTTCATTTTTTTGCATTATTGAGTTAGCTCAAAACTCCAGGATGAATACAGTGTTAGTGGTAATGTGGTCTAGTTTCTAATTTATTTAT
TTATTTTTTTGAGAGGGAGTCCTGCTCTGTGCACAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACTTCTGCCTCCTAGGTTCAAGCGTTTTT
CCTGCCTCAGCCTCCCGAGTAGCTGGGACTATAGGCACGAGCCACCACTCCCAGCTAATTTTTGTATTTTTGGTAGAGACGGGGTTTCACCATGTTGGCC
AGGCTGGTCTTGAACTCTTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCTGGCCTAGTTTCTA
ATTTTAATGGAAGTAGAGTCGATATAGTGCTATCTTTATGGTGCAATTGGATTTTGGTAAATATCTATATTGTGGTTAGATAGCCCTTTCTATTCCCATT
TCCTTTACTTTCTATTTGAACTTTCACTCCCTCTGGCTCCTGGATGGTTAATCAATGACAGGATTGACTCATACAAGAAACACCTGCCTCATTCAGGGAC
TCAGGAGTCTAGGTCCTCAGCCCCCTCCTCCCTGGGGAAGTTAAGCATTACTGTCTTCAAAATCTAGCTCCCTCCTGAAGTGTCCAAAGACATGACAATT
CTGGCCAGGCGCGCTGGCTCACAGCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGGATCCCTTGAGTCCAGGAATTCGAGACCAGCCTGGGCAAG
ATGGCAAGACCCCTGTCTCTACCAAAAATTAAAAAGTTAGCTGGGCACGGTGGTGTGTGCCTGTGGTCCCAGCTACTTAGAAGGCTAAAGTAGGAGGATC
AAGATGTAGTGAGGTGTGATCATGCCCCTGCACTCTATCCTGGGCGATAGAGTGACACCCTGTTTCAGAAATTAGGCTGATGCGGTGGCTCATGCCTATA
ATCCCAGCACTTTGGGAGTCCAAGTTGGGAGGATTGCTTGAGGCCAGGAGTTCGAGACCACCCTGGCCAACATAGCAAGACCCCCATTTCTAAAATAAAT
ACATAATTAAGTAAAAAAAGAAATGACAATTCCAATGAGCCTCTGAACAGAAGATTAGGACAAGGCTGATGTTTGCCGACTCCTGGGAAATGCGGTTTTC
TCCTATCTCCAGCAAAGGCTGATGGGAGGTAATCAAGCCCCCTTCTCTTCTTGCCTCAGGGACTGGAATTGACATCCCTGTCCTGCTCCTCCTGATTGAT
GGTGATGAGAAGATGTTGACGGTATAGGGGCCCGGATGCCCGGATCTAAGGGGGAAGGAGGGTTGGGGGCCAGGACTCCTGGGTCCTGAGTCTTAGGGAG
GGTCTGGGGGTCTGACTCCGGGTAGGGTGAATATCCTGCCTTTTCTGACGTGATGAATAAAGAATGCCTTTATCCTGTAGCGAATAGAGAACGCCACCCA
GGCTCAGCTCCCATGTCTCCTCGTGGCTGGCTCAGGGGGAGCTGCGGACTGCCTGGCGGAGACCCTGGAAGACACTCTGGCCCCAGGGAGTGGGGGAGCC
AGGCAAGGCGAAGCCCGAGATCGAATCAGGCGTTTCTTTCCCAAAGGGGACCTTGAGGTCCTGCAGGCCCAGGTATGACACTGGGGGCCCAACTCTGGAT
CCTGAGATGGGAGGGAACTGGGGACTTGGGCTCCTGGGTCTGAGGGAGGAGGGGCTGGGGGCCTGGACTTCCAGGTTCCGGGAGAAGAGGGTGCTGGGCA
TATAGACTATTAGGTCCTGGAGGGGAATGGCCTCCTCCATCCCTTTGGACAGGGCCCAACAGGAGTTGGGGATGGAGGCGGGCTAGGGATGCAGAACTGG
CTATTCCACAGGTGGAGAGGATTATGACCCGGAAGGAGCTCCTGACAGTCTATTCTTCTGAGGATGGGTCTGAGGAATTCGAGACCATAGTTTTGAAGGC
CCTTGTGAAGGGTAAAAGTTGTACCCTCCAGTCTTCCCCCTCTCTCAGTTCAACCTTAGACACCTTTCCTGGCCTGGGCACTTCATCCACCCTCTCTAAT
CCAAGGCCCATGCCCCCTTTACCCCTCTTAATATTTTTCCCCTTTGGGGCTTTGCATGGTGCTATTTGGGCAGTTTTCCCAGATGCTTTCATTATGTTCC
AGCATCTGCTTTCCTCTGTTGGATCCATCCATCCATTCTTTCATCTTTCCATCCATCCACATGTACAGATCGATCTTTCCATCTCTTTACCTACCATCCT
TCCAGTCATCCCTCATTCTTTCATCCATCCATCCTTTCACCTGTCCATCCACACATCCACTGACAATTCCTGAGAATTCCATCCGCTCATTCCTCCATCC
GTCTTCTCACCTGTCCATCCACACATCCACTGACAATTCCATTCAGTCATTCTTCCATCCATCCATCTTCTCACCTGTCCATCCATGCATCCACTGACAA
TTCCTGAGAATGCCATCTGCTCATTCTTCCATCCATCCATCTTCTCACCTGTCCATCTACACATCCACCGAAAATTCCTGAGAATTCCATCCACTCATTC
CTCCATCCATCCATCTTCTCACCTGTCCATCCACACATCCACTGACAATTCCATTCACTCATTCTTCCATCCATCCATCTTCTCACCTGTCCATCCACAC
ATCCACTGACAATTCCTGAGAATGCCATCCGCTCATTCCTCCATCCGTCTTCTCACCTGTCCATCCACACATCCACTGACAATTCCTGAGAATTCCATCC
GCTCATTCCTCCATCCGTCTTCTCACCTGTCCATCCACACATCCACTGACAATTCCATCCACTTATTGTTCCATCCATCCATCTTCTCACCTGTCCATCC
ACACATCCACTGAAAATTCCATTCACTCATTCTTCCATCCATCCATCTTCTCACCTGTCCATCCACACATCCACTGACAATTCCATTCACTTATTCTTCC
ATCCATCCATCTTCTCACCTGTCCATCCATGCATCCACTGACAATTCCTGAGAATGCCATCTGCTCATTCTTCTATCCATCCATCTTCTCACCTGTCCAT
CTGCACATCCACTGAAAATTCCTGAGAATTCCATCTACTCATTCCTCCATCCATCCATCTTCTCACCTGTCCATCCACACATCCACTGACAATTCCTGAG
AATTCCATCCGCTCATTCCTCCATCCATCCATCTTCTCACCTGTCCATCCACACATCCACTGACAATTCCATTCACTCATTCCTCCATCCACCCATCTTC
CATCCATTTACCCATCTACCCATCCATCTTTTCATTCATCCATCCAACTGTTCTTCCATCTATCCATCCACCCACCCATTCTTCCTTCCCTACATGCTTC
CAATATACATGAAGCACTCTGGCTAGACATGAACCAAAGCACTGTCTCCCAGTGAGGAAGTCCAGATATTTCACTAGAAATGGCAGCTTGGAGGACGGAA
TGATGAAAACCAAGGCGGGGGAGCATAATGCACACCTGGGAGAGGCTGGGGAGGGTCTTATTTATTTATTCACTTATTGAGACAGGGTCTTGCTCTGTAG
GCCAAGCTGGAGTATAGTGGTGTGATCACGGCTCAGTGCAGCCTCAACCTCCCAGGCTCAAGTGATCCTCCCACCCCAGCCTTCCAAGTAGCTGGGAACA
TACCCGCCCACCACTACACCTGGTAAATTAAACAAAAAAAAAATTTTTTTTTTGTACAGACGAGGTCTTGCTCTGTTGCCCATGCTGGTCATGAACTCCT
GGCCTCAACTGATCCTCCTGCCTCAGTCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCAGCCTCCTTTATTTAGTCAACAAATACAATCCT
AGGCTCCAGAGACTAAAGCCAACCCATTTCCTGCTCTCAAAGACCCCAGATCCCACTAGGATTGTTTGGATACAACCTTAGGTAAAATTTAAGACAGAAG
CACAGGCAAGAATCACTGTCGTTAGAAGGAAAACTTCAAGGAAAAGTTGTGTGTGTGTGTGTGTGTGTATTTTGAGACAGAGTCTTGCTCTGTCGCCCAG
GCTGGAGTGCAGTGGTGCGAGCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCACCCTCCTGAGTAGCCGGGATTACAGGC
ACGTGCCATCATGCCCGGCTGATTTTTGTATTTTTAGTAGAGACGGTGTTTCACCATGTTGGTCAGGCTGGCCTCGAACTCCTGACCTCATGATCCATCC
ACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCCAGAGAAGTTGGCATTTAAACCGGACCTTGGCCAGGCACAGTGGCTCA
CACGTGTAATTTCAGCACTTTGGGAGGCTGAGGAGGGAAGATCGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAGCATGGTGAAATGCCACCTCTAT
AAAAAATACAAATAATAAGTTGGGGAGGGTGGCGCATACCTGTAATCCCAGCTACTTGGGTGGCTGAGGCAGGGGAATCGCTCGAACCTAGGAGGCAGAT
TGTGCCACTGCACTCCAGCCTGGGTGATAGGGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAACCTAAATAAATAAACCAAATAAACTGGACCTTGATA
AGTCAGTAGAATTTGGATTTAGTAAGCTAACGAGTGGGACAGATAAGTATTCAGGAAGATTCCCAGGGCTCTGTGTGGGGAGGGTCATTTTTGGTGTCAG
AAGAACTTTTTTCTTTTTTTTTTTGAGATAAGGCCTCGCTCTGTTGCTCAGGCTGGAGTGCAGTGGTGTGATCTTGACCCACTACAGTCTTGACCTCCTG
GGCTCAAGAGATCCTCTCACCTCAGCCCCACAAGTAGCTGGGACCACAGGCATGTGCCATCATGCCTGGCTTTTTTTTTTTTTTTTTTTTTTTTTGAGAC
GGAGTTTCGCTCTTGTTGTCCAGGCTGGAGTGCAATAGTGCCATCTCAGCTCACTGCAACCTCCGCCTCCCGGGCTCAAGTGATTCTCCTGCCTCAGCCT
CCCAAGTAGCTGGGATTACAGGCATGCGCCACCACACCTGGCTAATTTTGTAGTTTTAGTAGAGATGGGGTTTCTCCATATTGGTCAGGCTGGTCTCGAA
CTCCCGACCTCGGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCTTTTTTGTATTTTTAGTAGAGAT
GGGGTTTCACTATGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTAAAGCTATCTGCCCATCTCGGCCTCCCAACGTGCTGGGATTACAGGCGTGAGCCAT
TGTGCTTAGGCCAGAAGAATTTTACGGGGGAAATACACACTAAGATAGAAACTCCCCAGATACACGGTGGCAATATATACAGCATTCTACCTCAGCTCCC
CACCCATGTTTGTGGTGTGGTATATATTTTAATTATTTTTCTTATTTTAATTATTTCTTTCTTTTTCTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTG
TCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCGCTGAAAGCTCTGCCTCCTGGGTTCACGCCATTCTCCTCCCTCAGCCTCCCGAGTAGTTGGGC
TCTCTATTTTTAGTAGAGACGGAGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGG
ATTACAGGCGTGAGCCACGGCGCCCGGCCTCTTTTTTTTTTTTTTTTAAAGAGTCTTTGTCTGTCGCCCAGGCTGGAGTGCAATGGCGCCATCTCAGCTC
ACTGCAACCTCCTCCTCCCAGGTTTAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCACAACCGCACCCGGCTAATTTTTGT
ATTTTTAGTACAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTTTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTACTTGGATT
ACAGGTGTGAGCCACCGCGCCCGGCCTTAATTCATTTTTAGGTATTTTTTGAGACAGTCTCACTCTGTTGTCCAGGCTGGAGTGCAGTGGGACAATCATA
GCTCACTGCAGCCTTGAGATCCTGGGCTCAAGTGATTCTCTCGCATCAGCCTCTGAGTAGCTGTGCGCCACCACACCAGGCTAATTTATTTTTAATTTTT
TTGTAGGGATAGGGTCTCCCTATGTTGCCTGGGCTGGTCTTGAACTCTTGGGCTGAAGAGATCCTCCTGCCTTGACCTCCCAAAGTGCTAGGTATAGTAC
AGGCTGTGGTAGGGTAGAAAGAGCAAGTTATTTTTGCTTTGGAATCAGACAAAACTGAATTTAAATACCAGCTTGGGCCGGGTACAGTGGCTCACGCCTA
TAATCCCAACATTTTGGGAGGCTGAGGTAGGATCACTTGAGGTCAGGAGTTCGAGATCAGCCTGGCCACCATGGCAAAACCCTGTCTCTACTGAAAATAC
AAAAATTAGCTGGCGTGGTGGCGGGTGCCTGTAATCCCAACTAGTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCCGTGAG
CCAAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAACAAACAATCAAAAAGAAACAAACCAGCTTGGCCCTTTCTTGC
TGTGTGGTCTTGAGGAAGCAGCTTCCCCTCTCTGAGCCCCAGTTTCTCTCTGTGGAAAGTGGAGATAATATCTTACAGGAGTGTTATAAGCCTCCATGGC
AAGGTATGAGTTGTGCCCGGTCCCGGTGGGGGCCCAATAAGAGGGATCTCCTCTTAATATGATTCCATTTCCTCTGGGGGTACATCCTTCAATATAAGGT
AACTCTCAGTGGGCAAATCTGATTCACTCTGCGGAAGTTAACTCAGCAGCCTCCTGGGAGAAAATACGGCAGCTCTGCAAGATGTGGTTTGAGGGGGTGG
TGTTGTAAGCCCAGCAGGAGTGGAAGTGATCACAGTCCACTGGGGGAACTGGAGATGGCTGATAGGCTTGGGGATAGCAGAGTTGAATGGATGGAATTTC
AGCAAGAAAGAAGGGCAAGGTCATGAATGCGTCTTTTTTTTTTTTTTTTTTTTTTGAGACAGTGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGT
GATCTCAGCTCACTGCAACCCCCGGGTTCAAGCGATTGTCCTGCCTCAGCCTCCCGAGAAGCTGGGACTACAGGCACCTGCCACTATGCCTGGCTAATGT
TTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGACCTTCTGACCTCGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGA
TTACAGGTGTGAGCCACCACCCCTGGCCCATGAATCCTTCCTAAGAGTCTAGCATAGGCAGGCCCAGTGCTGGGCAGTTGGTGTACTCTTTTGCCCTTCA
TCTCCCTTCCCTGCCTGCAAGGATTATCACCCCATTTTGCAGATGAAGAGACTGAGGCTCAGAGAGAGGAAAAATGGCTTGCCCAGGGTCATCCAGCTAG
TAGCAGGGGTCAGGCTTTTCATGTGAGTCTGTATAATTCTCAAGCCCATTGCAAGGGGCATGTTTGGAGAGAGGTCAGAGGCTCGCAGGGTTGGTATGTA
TCATTGGCATGAAGGGAGTGTTGGAGACAAGGCCAGTGAGGCAGGTAGGGCCAAACCACCCAGGACCTCAAATGCCAGGCAGAGGGGCTAAGGCTGTCCT
TGAGAGGCAGCAGAGGACCAGGGTCCGTTATGTGGATAAAAAAGACTCTCTGGCCAAGCGTGAAGGCTCATGCCTATTATCACAGCACCTTGGAAGACTA
AGGAAGGAGGTTCGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAGCATAGTGAGACCCCATGTCTATAAAAAATTAGCTGGGTATGGTACTGTGCGC
CTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGGATCGCTTGAGCCTGGGAGGTCTCAAAGCTGAAGTGAGCTGTGATGGCGCCACTGCACTCCAGA
CTGGGTGACAGACGAAGACCCTGTCTCAAAAAACAAAAACAGACTCTCTGGGAGTGGGTGGGGGCAGAGTGGAGAGGAGAGAAGAGACTGCAGTGATGGT
GTTTGGGGGTGCCGAAGCTTGAGCTATAGCTGGGGCCAGGAGGACAGTCGGGGAGGCTCAGCAGAGAGTCAGGAGGCTGGACGTGGGACATGAAGCTTGG
GGGCTGATGGCCTGTGAGATGGGAGGAGCAGGAAGGGACAAGGACAGTACCTGCGGGTCTGCCTTATTGATTGGGTGGACAGAGGGGCCATTCCTGAGAT
GAGGACGTAGGGAAGATGGGTTTGAGGGCTAGATGCTGAGTTGAGTATGGAACACGGTGAGTCTGAAGGGACAAGGTGGGGCCAGGGTCGAGTGCCCAGG
TGACAAATGGTGCCAGATTAAGGCGGAATATAAAGCAAGGTATTATTATTATTATTATTTTTATTTTTTTATTTTTTTTGAGATGGAGTCTTGCTCTGTC
GTCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTACAAGCTCCACCTCCCAGGTTCATGCCATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGCACT
ACAGGCGCCCGCCACCATGCCCGGCTAATTTTTTGTATATTTAGTAGAGATGGGGTTTCACTGTGTTAACCAGGGTGGTCTCGATCTCTTGACCTCATGA
TCCACCCATCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCCGGCCTATTATTATTATTTTTGCAACAGAGTTTCGCTCTGTTGCC
CAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACA
GGCATGAGCCACCACGCCCAGCTAATTTTGTATTTTTAGCAGAGACGAGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATTC
GCCCACCTCGGCCTCCCAAGGTGTTGGGATTACAGGCATGAGCCACAGCATCCAGCCTATTATTATTATTTGAGACGGAGTCTCCCTTTCTCACCCAGGC
TGGAATGCAGTGACGTGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCTCAGCCTCCCAAGTAGCTGGGACTACAGACGCA
TGCCACCATGCCCAGCTAATTTTTTGTATTTTAGTAGAGATGGGGTTTCACCGTGTTACCCAGGCTGGTCTCGAACTCCTGAGCTCAGGCGATCCGCCCA
TCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACGGCGCCCGGCCTGTAAAGCAAGATATTATGAACAATTTTGTTTCCTTCTTTTGAAACTG
TGGGGAAAGTAGGAGAGCTTCATAGAATCGTAGAAAGTCGTGGAAAAGTCCGCTCTGAATGGACGTCTGGGTTTTGAAAGAGCACAGAAAGCCATGAGGT
CCTAGACATGTTACTGCCTTTCTGGGCCTCTGTTTCCTCAAGCACAGCCTTGGAGGTTACACTGGCCAAGCTGTAGTGTCGCCACAGCGTGGAACTTCTT
CCCACAGTTACTGTAATTGATTACAGTGCTATGAAGGGGGTGCCACTATTTCCCATTTAATAGATGAGGAAACTGAGGCTCCCAAGGTTCAATGGCTTGC
CTGAAGTCACTCAGTTGGTACTGGTGGACCGGGGACTGGAACCCACGTCTGCCTGCCCCAGAGCCTATTGCTCACCTCCACTACATGAGATTATCTCTTT
CTGTGGTACCAGTTTTTGGAGCAACCAAAATGAGATGAATTTGTTTTGGAGATAGATATGGAGCAAGTGGAGGCAGAAGGAAACCTAACTCCATGTCACG
ACAAATGCCCTTCAGGACTTTTCATGCCCCTGTTGACTGCACATGTTTGGATCCACTACATAGCTGGATCAAATTTTTAAGGGTTTCTGGTTCTCTCTTG
CTGTTTCAGTGACCTCCAGGGTCTCTCGGAGTCCCTCTCCTGTTCTCATTTTCTGCTGTTGTCACCTCTTTCCCTTCACAATATACCCCAAGTTTCAGAA
ATCAGAGTGACTCACGTTTGTCATCATCTGCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGCACCCGGGCCTTTGCTTCTG
CTGTGCCTGCTGCTTTGAACGCCCTTTTCGCACCTTAGGGGCATACCTCCCAGTCCTGGTGGTCTTTCAAAGTGCTACCTCAACACCCATTCTCTGGGAG
CTCTCTTGGGCCACTCTATACCTCTGTGACCATATCCTCCTCTGGGCCCTAATCATATTATATGCCTATAGATGCCTCCTTAGACACCCCTCCACCCTGC
CTTCCATTATGGCCTGTCCAGCCTTCCCTTTAATCGCCCATCCATCTCTGATTGTCCGTCTGCCCCATCTTGTTTCCTCTCTCCCCATCCATCCGTCTGT
CCATCTATCCATCTATCCACCCTGTACATCCATCTATCCATCCATCCGTTCATTCATCCATCTCTTTATCCTTTCATCCATCCATTTATCCATCCCATCC
ATCCATCCTTCTATCTGTCCATCCATCCATCCTAATCATATTATATGCCTACCTCTGAGGGCACCAAGCACCCTGAGGGTAGTTATGTGTTGGGGGGACA
TATTTCCCCCAATAGAACCAGCTTCTTCAGGGTAGGAACTGTATCTGATTTCTCTCTCCATCCCTCCCACTGCTTGGTCCATAACATACCTCAATAAATA
TTAAATGAATAAGTGATTCCTTTTGTTTCTTCTTGGGGGCTGTAAACCAGTGGTCTGTGCTCTGGCCCTGAGCCAAATGACCTTATGCCTATGATAGCCT
GACTGCTTTAAGACCCCCACACTCTGCCCAGTAGCAACCCCTTTATGCAGAGTTTAAAAGTCAGACATGCAAAATAGAGGCAAAATAGACATTCAGCAGA
TGTCCCTCCTCCCCTGACTTCTTGTCCCCTCTCCCTCTAATCCTTCCAGCCTGTGGGAGCTCGGAGGCCTCAGCCTACCTGGATGAGCTGCGTTTGGCTG
TGGCTTGGAACCGCGTGGACATTGCCCAGAGTGAACTCTTTCGGGGGGACATCCAATGGCGGGTGAGGGGTCAGGGCCTGGGGGTTGGGCATACTGACAA
AGGGACTGTGCTGTCCTCCCTCTCTGCCTTCTTTTTTTTTTTTTTTTTTTTTGACGGAGTCTCACTCTGTCACCCAGCCTGGAGTGCAGAGGTGTGATCC
CAGCTCACTGCAAGCTCCGCCACCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACACCCAGCTAAT
TTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCCGCCTCAGGCTCCCAAAGTGCT
GGGGTTACAGGCATGAGCCACCGCACCCGGCCTCTCTGCCTTCTTAGACGCCCCTCAACCCTGCCTTCCATTATGGCCTGTCCAGCCTTCCCTTAATTGT
CCATCCATCTCTGTCCATCTGCCCCATCTTGTTTCCTCTCTCCCCACCCATCCATCTGTCTATCCATCCATCCACCCTGTACCTCCATCTATCCATTCAT
CCATTCATTCATCCATCTACTTATCCATCCATCCATCCATTTGTCCATCCATCCATTTATCCATCCATCCATCCATCCATCCATCCATCCATCTGTCCAT
CCATCCATCCATCCATCCATCCATCCATCTGTCCATTCATCCATCCATCCATTCATCTGTCCATCCATCCATCTACCTATCCATTCATCCATACATCCAT
CCATCTACCTATCCATTCATCCATCCATCCATCCATCTATCCATCCATCCATCTGTCCATCCATTCATCTGTCCATCCATCCATCTACCTATCCGTTCAT
CCATCCATCCCTCTGTCCATCCATCCATCCCTCTGTCCATCCATCCATCCCTCTGTCCATCCATCCATCCATCCATCCATCCATCCATCCATCTGCCCAT
CCATCCATCTGTCCATCCATCCATCTACCTATCCATTCATCCATCCATCCACCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCAT
CCGTCCCTCATACCCTTGCCCATCTCTTGTCCTTAACCTTTGAGCTAATCTCTTCCCCTATTCATCCCACCCTGCCAGTCCTTCCATCTCGAAGCTTCCC
TCATGGACGCCCTGCTGAATGACCGGCCTGAGTTCGTGCGCTTGCTCATTTCCCACGGCCTCAGCCTGGGCCACTTCCTGACCCCGATGCGCCTGGCCCA
ACTCTACAGCGCGGCGCCCTCCAACTCGCTCATCCGCAACCTTTTGGACCAGGCGTCCCACAGCGCAGGCACCAAAGCCCCAGCCCTAAAAGGGGGAGCT
GCGGAGCTCCGGCCCCCTGACGTGGGGCATGTGCTGAGGATGCTGCTGGGGAAGATGTGCGCGCCGAGGTACCCCTCCGGGGGCGCCTGGGACCCTCACC
CAGGCCAGGGCTTCGGGGAGAGCGTAAGGACCGGGCAAAGCTGGGGGGCCCCCCCGCGCGGGAAGGACCTGGGGGCGGGATTACATCAGGGATGGGGCGT
GGCCAAACCAGAGGCAGGGCTGGTGGTGGCCAGTGTTGGGGAGGGGCTGGTCCTCACCACCCCTCCTTTTGCTGGCAGATGTATCTGCTCTCGGACAAGG
CCACCTCGCCGCTCTCGCTGGATGCTGGCCTCGGGCAGGCCCCCTGGAGCGACCTGCTTCTTTGGGCACTGTTGCTGAACAGGGCACAGATGGCCATGTA
CTTCTGGGAGATGGTGAGTGCTGACTTGGCGCTCCTGCATCCCTGTCCTTTAGGCCACTGGATGCCAGTGTTCCCGAAACAATTACCATACAATTCCCCG
ACCCCTGACGTCACCTGACAGGCGCCCCATCCTCCGTCGCTGATATATGCCTCCAACTGCTTCCTCTTTCTTTTCTCTCTCTCACATCATGCATTATTTT
ATGTGTTTATTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGCAGTGCAGTGGCGCAATCTTGGCTTACTGCACCCTCAGTCTCCCGGGTTCAAGT
AATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGATTACAGGCACCTGCCCCCACGCCTGGCTAATTTTTGTTTTGTTTTGTTTTGTTTTAGTAGAGATGG
GGTTTCACCATGTTGGCCAGGCTGGACTCCTGACCTCAAGTGATCCACCCGCCTCGGCTTCCCAAAATGCTGGGATTACAGGCATGTGCCACCGTGCCTG
GCCAAGATTCTCTCTTTGTTTTGGCCTTTGATAATATATCTCAGTGTGGATCTCTGTGAATTTCTTTTTCTTTTTCTTTTTTTTTTTTTTTTGAGATGGA
GTCCTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCCACCTTCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCG
AGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGGTCTTGATCTCCTGACCTTGTG
ATCTGTCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCTTGGCCTGTGAATTTCTTTTACTTGGAGTTCCTTGAGCTTCCTGG
ATGTGTAGACTTTTGTCTTTCATCACATTTTGGAAGTTTTTAGGACATTATATCTTCAAATATTATTTCTTTCCCTTTCTGTCTCTCTTTTCCTTTTGGA
CTCTCATTATGTATGTATTAATATTCTGTATGGTGTCTCGCAAGTCCCTTAGGCTCTGCTTATTTTCCTTCATTTGTTTTTCTTTTTTCTCCTCAGGCTG
GATAATCTCAATGTACTTAGCTTCAAATTCACTGATCTTTATTTTGCCTTTTTTATGAATCTACTGTTGAGTCCCTCTAGTGGTTTTTATATTTCAGTTA
TTGTGCTTTTTAGCTTCAGAGTTTCTATTTGGTTCATTTCTGTCTCTGTAGTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCAGTCG
CCCAGGCTGGAGTGCAGTGGCTCAATCTCCGCTCACTGCAAGCTCTGCCTCCTGGGTTCACGCCATTCTCCTGCCTCCACGCCATTCTCCTGCCTCAGCC
TCCCAAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCAGCTAATTTTTTTGTATTTTTTTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTTGC
GATCTCCTGACCTCGTGATCTGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCTCTGTAGTCTGTCTTTTTTTTT
TCCTGGTCCCACTACAAAACTTTATTTTTGATTACAGTACCATTCTCAATCTCTTCTACAAAAAGCAGAAAAAAAAGCAGCCACTTCACTCAAGACCTAT
ATACAGATAAGATGTTTTCTGTGTTTTTTTCTTTTTTTTTTAATTTTTATTTTTAAAAAAATAAATTCAGTGTTCACATTTCTATAAAGAATTAACCCAG
TTTCAGGAAACCCTGCCTCTATCTCTGTATTCTTATTCTCTAGGTGGTGAGACATCTTTTTCCTGGCTCCCTTTAGTTCTTTTTTCATGATTTCCTTTAG
CTCTTCGAGCATATTTAAGACAATTTATTTAAAGCCTTTGCTAGTAAGTTCAGTGTCTGAGTTTCCTCAGGGATAGTTTCTATTCATTTATTTTTTTCCT
ACTCATTTCTATTCATTTCATTTCTTTTCTTTTATTTATTTATTTGTTGTTCTTGTTGTTGTTGTTGAGACAGAGTCTCATTCTGTCACTCAGACTGGAC
TGCAGTGGTTTGACCAAAGTTCACTGCAACCTTGACTTCTTGGACTCAAGCAATCCTCCCACCTCAGCCTCCTGAGTAGTTGGGTCTACCAGCCACATGC
CAAGCTAATTTTAAAAAATTTGCAGAGATGGGGTCTTACTATGTTGCCCAGGTTGGTCTTGAATTCTTGGGCTCAAGCAATCCTCCTGCCTGGGCCTCCC
AAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCTGGTCTCTATTAATTTCTTTTTTTTCCAGTATATGAACCATATTGTCTTGTTTCTTTGCATGCCT
CATAATTTTTGGTTGAAAAGTGGAACATTTTGAATATGATAATGTGGCAACTCTGGAAATCAGCTTATGCCCTCCCTCCAGGGTTTGTTGTGGCTGCTGC
TCATTGTGGGTCATTGTTGTTTGTTTAGTGACTTTTCTTTTTTCTTTTTCTTTTTTTTTGGGGGAGGGGGGATGGAGTCTCACTCTGTGGCCCAGGCTAG
AGTACAGTGGTGCAATCTCGGCTCACTGCAAGCTCCACCTCCCAGGTTTAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTGTG
CCACCACACCCAGCTAATTTTTGTATTTTTCATAGAGACGGGGTTTCACCATGTTAGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACC
TTGGCCTCCCAAAGTGTTAGGATTACAGGCGTGAGCCACCGCGCCCGCCCTGTTTAGTGACTTCTCTAAACCTTTTTTGGAAAGTCTGTATTCTTTGCAT
GTGTGGCCATGGAAGCCCCTCTTCTGTTAGCTTAGTGGTCTGCTGGTGACTTGACAGAGATATCCTTAAATGCCTAGAACCACAGAAGCAAATATAACAA
GAAACTCCCTATAAGTGCTGGGATTAGAGGCATGAGCGACGCCCACCGTGGCTGTATATTGAAGCAGTCTTTCAATACTTAGCCAAGCTGTTTACAGTTC
TGCTTTAGTCTTCACTTCCTGCTTGTGCAGAGCCTAAAGTTCAGCCAGATGTAAGAGCTTCAGGTTTTCTCTGGTATTTTCTGAGCACGCCTCTAGCCCT
AGTCATGCATCTAGCCGTCTGGATTTCCTGGTACACAAGGAAGACTTTCAAAGCCCTTATTCCCTCCAAGTATTTCCTTTCATGGCCTCTTTCTTCCCAA
GATGCTTAGTGTATCTATTACTGCCTCTACTGTGAGTCCTTGCCTCAGATGGATGTGGTTAATTCATTTGCCTTTAAAAGATTTTAACAGGCCGGGTGCA
GTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCGCCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCT
ATCTCTACTAAAAGCACAAAAAATTAGCCTGGCATGGTGGCGCATATCTGTAATTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTCGG
AGGCAGAGGTTGTGGTGGGCTGAGATTGCAGCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCGTCTCAAAAAAAAAAAAAAAGATTTTAACACA
CACTGCCTGGAAAGCCACTTTTTCTCTGGGGAAAGCTCTAAGGCAGGTGAAGCAAAGTCAAGTCCTTGAGCTGTTGCTTCAGGGAGCCACCAGATAGGGC
CACACACACAACCACAATTCTGGAGGGTAAGTCTGAATTGCTCCCTCTAGTACTAGCGACCCACACCAGGAATGTGTGTCTTTGTCTTCAAGGTTGCCAC
TGAACTGGGGAGCTGGGGGTAGTAAGTGGGTAGGTTAAAATGTCACAGTACCCTCTTACTGAAATTTAGTGGTCTCTTCATTAAGCATTTTCTTGTTTTT
TTTTTTTTATAAGTTTTCGATTAGATTCCAGAATTCTAGAAAAGTTGATTCTGACAACTTTTGATAGCTATTGATTGCTTTTGTGGAGGGATAAAGTTTT
GAAGTTCCCTACACTGGCATTTTTGGTCACCTCTCCAAGGGCTTTTAAAAATTTCATTGTTAGAGACAGGGTCTTCCTCAGTCATCCAGGCTGGAGTGCA
GTGGCATGATCATGGCTCACTGCAGCCTCAACCTACTGGGCTCATTCGATCCTCCTACCTCAGCTTCCCTAGTAGCTGGGACTACAGAAGCAGACCACCA
CGCCTGGCTAACTAAAAAAAAAAAAATTTTGTAGAGATGGAGTCTCACCATGTTGCCTGGCTGGTCTTGAATTCCTGGGCTCAAGCAATCCTCCTCATTT
GTAACCACCCAATGGGTTCACGTTGCCCGCTGCCTAGACAGAGCCGATTTATCAAAACAAGGAAAGTGTAATGGAGAAAGAGTAATTCGCGCAGAGCCGG
CTGTGCGGGAGACCTCAGTTTTATTATCACTCAAATCAGTCTCCTCGAGGATTCAGGGATCAGAGCTTTTAAAGATAATTTGGTGGGTAGAGGCTTGGGA
AGTGGGGAGTGCTGATTGGTCAGGTTGGAGATGGAATCACAGGGGTTGGAAGTGAGGTTTTTCTTGCTGTTTTCTGTTCCTGGGTGGGATGGCAGAACTG
GTTGAGCCAGACTACAGTCTGGGTGGTGTCAGCTGATCCATCCAGTGCAGGGTCTGCAAACTATCTCAAGCACTCATCTTAGGTGTTACAGTAATGATGT
TATCCCCAGGAGCAATTGGGGGAGCCAGAGGCTGCGTGACCCCTAAACTTAATTTCTAATCTTGTAGCTAATTTGTTAGTCCTGCAAAGGTAGACTGGTC
CCCAGGCAAGATGGGGGTCTTTGGGGAAAGGGCTATTATCAATTTCGTTTCAGAGTCAAACCATGAACAGAATTCCTTCCCAAAGTTAGTTCAGCCTATG
CCCAGGAATGAGCGAGGACAGCTTAAGGGTTAGAAGCAAGATGGAGTCGGTTAGGTCTGATTTCTTTCATTGTCATAATTTTCTCAGTTATCATTTTTGC
AAAGGTGGTTTCACTTCAGCCTCCCAACGTGCTGGGATTATAGTCGTGAGCCACTTTACCCAGCCTCCAACTGCTTCTTGACCTGTCTGTGACTGCTGAA
TTGATTCTAACTGCAGCCCAGCCCCTGACTTGCATCCCTGGTCTCTGAACCACCTGACTTCTGGCATTTTCAACTGACTTTCAGTTTCTTCCAGATCCAT
CTCCAAACATTACTTCATCCTTGGCCTCTGATGACCCCAGTTAGTTTCTGACCTCTGACTCTGTTCCTTCCCTTGACTTCAGGCTTCCTCCCCCTCTATG
AACCCTCTTTGACGCATCCGTGCCCTCTTTGTCTCTCCAGGGTTCCAATGCAGTTTCCTCAGCTCTTGGGGCCTGTTTGCTGCTCCGGGTGATGGCACGC
CTGGAGCCTGACGCTGAGGAGGCAGCACGGAGGAAAGACCTGGCGTTCAAGTTTGAGGGGATGGGCGTTGGTGCGTGGGGCACGGTGCCTGGGAGCAGGG
ACGGGGGCTGCCGCCAGAGGGGGATGTGCAACTCCGCACTCCTCACATATCCCTGCGCCATCCCCTTAAATTCCCTTACCTCTCCCTTCACACCCTCACC
CTACTCCTTCCCATCCCTGTCACATAACTAACTCCTCTGCCCCAGACCTCTTTGGCGAGTGCTATCGCAGCAGTGAGGTGAGGGCTGCCCGCCTCCTCCT
CCGTCGCTGCCCGCTCTGGGGGGATGCCACTTGCCTCCAGCTGGCCATGCAAGCTGACGCCCGTGCCTTCTTTGCCCAGGATGGGGTACAGGTGAGTATC
TGCGACACCAACATCCCAAACAGTCTCCAAGTGGACTCTGGGAAGTATGGGGATGAGCCCCTGCCATTGGGAACATCTATGGTCTTGACCAGCCACTCTC
CCTGGAGATCCCCCAGAAAGTCTCTCTTCTCTCTCAGAAAGGCTGCTCTTCCCATAAGAAGCCCCGCTCCCTTCCACCAAAAGCCAACCTTCCCACGGCA
AAGCCCATCTTCCTAAAAAGTTCCACTCCAGATAGAGAAACTCCTTGTGACCCTGTCAGGAAATTCCACCTTTAACCTTGGAAGTCCTTCCCGCTTTCAG
GGAAGAGTCCATTTCTTTCAAAGGAAGTCCTAGCTCATCCACAGGAAGTCCTACGGCATCCACAGGAAGTCCTTTCCACTTCCTTTAGAGGTCCCTAGTT
TCAGTTTTCAGCAGTTAGAATGGCCTCACTGAACAATTACCTTTTTTTTTTTTTGGACATAAACAAACTTTGGTCTAGGAAATCTCACCCTTCCTATAGG
AAATCATCTGCCTTGGGAAGCCCTACTTGCTCCCACAGTCTCTCCGATCCTGACAAGTTGACATTTTGGAAACATTATCAATATTTTTAGTTTAAATCTG
ACAGGGGCTCAGAGTCCCACTTTAGTACAGGAAGTTGTGCCCAACAGGAAGTCCCATCCTCATCTGTTGGAATGGTTTGGCTGACATTTCAAACAGCTAC
CCAGAGTCCCTTGCTGTGGATAGTGGTTAAACTCATGGATTCCAGCTCTACCACATACAAACTGTGTTTCTTTGGGCCGTTTCCTTAACCTCTCTGTGCC
TCATGTGTACCAAGGAGGAGATACTAGTACCCACCCCCTTATGTGTCAAGGGTTCGGTGGACTAATCTACATAAAGTGCTTAGCCCTGTATCTGCCATAT
GGTGTCAATTTAAGTGTTGACTGTTTACTGCCAAAACCTGGCCTAAGTTGTCTTTGCCTTTCACCACCGTTTCCCTACCTCAATAGTTGTGGCTGTGACA
TTGGGCACTTGCTCTGTACTCTGGAGCTGCAGTCCAACCCTTGCTGGGCGTCTTAGGGACGGGGCTGTGGGGGAGATTTGGATCCTAATCCTTCCCACCC
CCCACAGTCTCTGCTGACACAGAAGTGGTGGGGAGATATGGCCAGCACTACACCCATCTGGGCCCTGGTTCTCGCCTTCTTTTGCCCTCCACTCATCTAC
ACCCGCCTCATCACCTTCAGGTCAGTACCCTGGGGTGAGAGTGGTGGGGATGGGGGCGGGGTGCTCAGTTTCTCCTTCCTGCCCCCTCTGCCCACCTTTC
TTCCCTCATCGGCCCATTGTGTCCCTTCCCTAGGAATGGGACTCTCTGTCCCTCCACTAAGGGAGTGCTGTGGGAGGTGAGTTTTGGGGGGGATCCTCCC
TGTGGTATCTCTAGTGGCAGTTACTCTGCCTTTCTGGCCATGGCTCTGGGGGAAGGTCCCTTTGGGATGACTTTAGGAGACCACCTCTCTGTCCCTCTGC
CATGTCTCCGGGTGAAGAAGTTTGAGTTTTGCTGGAGAATGCCTCTCCACCTTCTCTTCCCCTCATTTCTTGCTCTGTGCTTCCCCCCTTGCTAGGAAAT
CAGAAGAGGAGCCCACACGGGAGGAGCTAGAGTTTGACATGGATAGTGTCATTAATGGGGAAGGGCCTGTCGGGTGAGTGGAGCCTCCAGCACTGTGTGA
GGTGGGGACACCCTGGGCAGTTCAGGACATGTGCCAGTTCCACGTTGTGTTAGTCCCCTCTTGAGTTGCTACAAAGTTGCTAAACCTGAGACTGAGTAAT
TTATAAAGAAAAGAGGTTTCATTGGCTCATGGTTCTGCAGGTTGTACAGGAAGCATAGTGCTGGCATCTGCGGCTGGTGAGCCCTCAGGAAGCTTCCACT
CATGGCAGAAAGTGAGGGAGGAGCCAGTGTATCACATGGCGAGAGCAGAAGCAGGAGTAGGGGTGCCACATAGATCTCATGTGAACTAACTGAGCAAAAA
GTCTCCAAAGGGATGGTGCTGAGCCATTTGTGAAGGACCCACCACCAGGACCCAAACACTTCCCCCAGGCCCCACCTCCAACATTAGGGATTACATTTCT
TTGTTCTTTTTTTCTTTTTTTTTGATACGGAGTCTCCCTCAGTTGCCCAGGCTGGAGTGCAGTGGTACAATCTTGGCTCACTGCAGCCTCTGTTTCCTGG
GTTCCTGATCAGCCTGCCTCAGCCTCCCAAGTAGGTGGGAGTAGAAGTGCATGCCACTACGCCCAGCTAATTTTTGTATCTTTAAAGTAGAGTCGGGATT
TCACCATGTTGGCCAGGCTGGTGTCAACCTCCTGACCTCAAGTGATCCGCGCACTTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGGGCC
CAGCCAGGGATTACATTTCTTTCTTTCTTTTTTGAAATGGGGTCTCGCTCTGTCGACCAGGCTGGAGTGCAGTGGTGTGATCTCCGCCTCCTGGGTTCAA
GCGATTCTCCTGCCTCAGCCTCCCGAATAGCTGGGACTACAGGAGCCCACCACCACACCTGGCTAACTTTTGTACTTTTAGTAGTGACAGGGTTTCATCA
CATTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTGATCCGCCCGCCTCAGCCTCCCAAAGTACTGGGATTACAGGCATGAGCCACCATGCCTGGCCCAG
GGATTACATTTCAATGTGAGATTTGGAAGGGACAAACATCCAAACTATATCACACGTCCCATCAGGGACTGAGATACTGAGGAAGCTTCCCAGGTGCCAA
GCTCAAGACTTGGCTCAAGATTTGGTTCTGCCATCAAGGAGGCCATCACCAGAAATTGATTTTCTTCATGCTACACATACTTCCATCCCTCTGTAGCAAG
CGGAATCAGTTGATTGAGGGATTTTTCACCTATTTTGTTCGTGGTCCCAAGGCCCCTGCTTTTAATCACTATGCTATGGTTGCCGTTAAGGTATTTTAAA
AGTCAGGCCTAAGCAAATGAAATAGAATATTTATCAAACTTCTTTTTTTGTTGTTGTTTTTGAGGCGGAGTCTTGCTCTGTCGCCAGGCAGGAGTGCGGT
GCCGCGATCTCATCTCACTGCAACCTCCGCCTCCTGAGTTCAAGCGATTCTCCTGCCTCAGCCTCTCAAGTAGCTGGGATTACAGTCACCTGCCACCACG
CCCAGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGCTCCCCATCTCCTGACTTTGTGATCTGTCCTCCTCAGCCTC
CCAAAATGCTGGGATTACAGGCATGAGCCACCATGCCTGGCCTATATATAGTTTTTTAAGACAATGTAGAGAGGATACAAAATATTTATCTGTAGCCATA
AAAAAGAACGAGATCATTTCCTTTGCAGTGACATGGTTGGAGCTGGAGGCCATTATCCATAACAAACTAACAGGAACAGAAAACCAAATACCCCATGTTC
TCACTTATAAGTAAGAACTAAATGATGAGAACACATGGACACACAGAGTGAAACAACACACATTGGGGCCTATTGGAGGACAGAGGGTAGGGCGAGGGAG
AGGACCAGGAAAAATAACTAGTGGGTACTAGGCTAAATACCTGGGTGATGGAATAATCTGTACAACAAACCCCCATGACACAAATTTACCTACCTAACAA
ACCTGCACATGTACCTCTGAACTAAAAATAAACGTCAAAAAATAAAAAAAAGAACAAAATATGTATCAAGAGAGAAGGGAAAAACTAAGATAAACATTTG
GACCACTGAGAAAGGTTGATAGAAGGCCCCAGTGTCTGAGGTCAGGATCAGTAATGGTGTCCTTCCCTAGCAATTTCTCATCTGCACATGTGATGATGAT
GACGACCTTGATAACAGCTGATGTTATGAAACACGTACAATGAGCAACTACTGTGCTCAATTCTTTTGAAAATCAGTTGGTTTTTTTTTTTTTTTTTTGA
GATGGAGTCTTACTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCCTCCTCCCGGGTTCACACCATTCTCCTGCCTCAGC
CTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGCTGGGGTTTCCCCGTGTTAGCCAGGATGGTC
TCGATCTCCTGACCTCGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCGCACCCGTCCGGAAATCAGTTCGTTTAATT
CCAACAACCCAGTGCAATAGGGCCTATAATTATTCTCATTTTGCAGGTGAAATAATGGAGTCATTCAGTCACTTGCCTCAGATCATGTGGTTGGTAAATG
GTAGAGCCGAGATTTGATCCCAGATCCTCTTGTACCTGAGTCTGTGCTCTCAGCCCCTGTGGAGCCCCCCCACTGAGAGCTCTGTTGAAGGACAGATCCC
AAGATCCCCCCAGAGAGGCTGGGGCTGAGCCCAGGAACCTGCCTGTGGCCTGGCTGGAGGTGATTCAAGATGGCAGATGTGGGGGAAGCTTTCTGACCCA
CCGCTCTCCCTTCTTACCAGGATTCTGCAGGAGAACTGTGAAATACCATGATGGTTTTCTCTATCAGTAGGGAGCTTGCTGTCCTCTCTGCATCTGACCT
TCTTTCTCTAGGAGTTCTTAGTTTCTGTAGCTTTCACTATTCTCCTCCTTCTCCTCCTCCTTCTCCTCCTTGTCCTCCTCCTTGTCATCCTCCTTCTCCT
CCTCCTCGTCATCCTCCTTCTCCTCCTCCTCTTCATCCTCCTCCTCCTTCTCCTCCTCTTCCTACTCATCCTCCTCCTCTTCCTCCTTCTCCTCATCCTC
TTTCTCTTCCTCCTCCTCATCCTCCTCCTGCTCCTGCTCCTCCGCCTTCTCCTCATCCTACTTCTCCTCTTCATCCTCCTCCTGCTCCTGCTCCTCCGCC
TTCTCCTCATCCTACTTCTCCTCTTCATCCTCCTTCTCCTCTTCCTCCTCTTCATCCTCCTCCTCCTGCTCCTGCTTCTCCGCCTTCTCCTCATCCTCCT
TCTCCTGCTCCTCCTCCTCCTGCTCCTCTGCCTTCTCTTCATCCTCCTTCTCCTTCTCCTTTCTTCTTCTTTGAGACAGGATCTTGATCTGTCACTCAGG
CTGGAGAGCAGTGGCGCGATCATGGCTTACTGCACCCTCAACCTCCCAGGCTAAGCCATCCTCCCACCTCAGCCTCTCAAGTAGCTACAGATGCATGCTA
TGCTCGGCTAATTTTTATATGTTTTGTAGAGATGGGGTTTCGCCATGTTGCCCAGGCTGGTCTCAAATTCGAAGGCTTAAGTGATCTTCCCACCTCGGCT
TCCCAAAGTGCTGGGATTACAGGCATACACCACTGCGCTTGGCCTCACTTATTTCCTTCCTTCCTCCTTCCTTCCTTCTTTCCTTCCTTCCTTTCCTTTC
CTTTTCTTTCCTTCCTTCCTTTCTTTCCTTCCCTTTCTTTCTCTCTCTCTTTCTCTCTCTGTCCCTCCCTCCCTCCCTTCCTTCCTTCTTTTCTTCCTTC
CTTCCTCCCTCTCTTTTCTTTCTTTCTCTATCTCCTTCCCTCCCTCCCTCTCTCCCTCCCCCCAACCCTTCCTTCCTCCCTTCTGAGACAAGGTCTCACT
CTGTTGCCTCCGCTGAAGTATAGTAGCTTGATCTTGGCTCACTGCAGCCTCAACCTCCCAGTGTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTG
GGACTGCAGGTATAAACACACCTGGCTAATTTTTTTTTTTTTTTCTGTAGAGATGGGGTTTCACCATGTTGCCCAGGCTGGTGTTGAACTCCTGGGCTCA
AGCAATCTGCTCACCTTGGCCTCCCAAAGTGCTGGGATTTCAGGCTTGAGCTACCACGCCCAGCCTCACTTTTTTTTCTTTTTTTTTAAATGGCAGCTTT
ATTGAGCTGTAATCCACATATCATACCGTTCACTTACTTAAGGTATACAATTCAGTGCTTCTTGGTGTACTCACAGAATTGTGAAATCATTTCCACAATT
CATTTTCAAATATTGTCATCACTCCAACAAGAAACTCTGTACATGCTTAGCACTGCTTTTCGTTTTCCCAGCCCTAGGCCACCATTCATGTACCTGCTGT
CTCTGGGTTTGCCTGTTTTGCACACTTCACATAAGTGGAGCCATGCACTCTATGGTCTTTTCTTCTTCTTCTTCTTTATTTTTTTATTTTTTGAGACGGA
GTTTTGCTCTCGTTGCCCAGGCTGGAGTCAATGGCGCGACCTCAGTTCACCACAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCATCAGCCTGTCA
AGTAGCTGGGATTACAGGCATGCGCCACCACGCCAGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCC
CGACCTCAGCTGATCTGCCTGCCTCGGCCTCCCCAAATGCTGGGATTACAAGCGTGAGCTAGCGCGCCCAGCCCGTTTCTACTTTAATTTTTTTTTTTTT
TTTTTTAGACAGGGTCTCGCTCTATTGCCCAAGCTGGAGTGCAGTGGCATGTTCATGGCTGACTGCAGCCTGGGCCTCCTGTACTCAAGTGATCCTCCCA
TTTCAGCCTCCCCAGTAGCTGGGACTACAGGTGCTTGCCCCTACTACTGGCTAAATTTTTATTTTTATTTATTTTATTATTATTATTATTATTATTTTTG
AGACAGAGTCTCACTCTGTCGCCTAGGCTGCAGTGCATTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCCGCCTCAGCCTCCCGAGTATGTGGGAC
TACTGGCATGCGCCACCAGACCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCCTACCTCAGGT
GATCTGCCCGCCTTAACTCCCAAAGTGCTGCGATTACAGGCGTGAGCCACCGCGCCCGATCCGGGTATATTTTTAAAATATTTTTTGTAGAGATGAGGTT
TTGCCATGTTGGCCAGGCTGGTCTCCAACTCCTCGGCTCAAGCGATCAATCCACCTCTTGACCGGAGATTTCAGAGGTCAGAGGTTAGATACAAGAGTCA
AAACCCAAGAAATTAGCTCTGGGCAGACTGAGTTTCGGGTCAGGCAGGGTGAGATGTGCCAAGCCAAAAGTCTCGATGATGGTGGAGATCAGGACTCAGA
GGTCAGAGTGAGGCCTCCTCCCTTCTCTTCTCTTCCCCCACAGGACGGCGGACCCAGCCGAGAAGACGCCGCTGGGGGTCCCGCGCCAGTCGGGCCGTCC
GGGTTGCTGCGGGGGCCGCTGCGGGGGGCGCCGGTGCCTACGCCGCTGGTTCCACTTCTGGGGCGCGCCGGTGACCATCTTCATGGGCAACGTGGTCAGC
TACCTGCTGTTCCTGCTGCTTTTCTCGCGGGTGCTGCTCGTGGATTTCCAGCCGGCGCCGCCCGGCTCCCTGGAGCTGCTGCTCTATTTCTGGGCTTTCA
CGCTGCTGTGCGAGGAACTGCGCCAGGGCCTGAGCGGAGGCGGGGGCAGCCTCGCCAGCGGGGGCCCCGGGCCTGGCCATGCCTCACTGAGCCAGCGCCT
GCGCCTCTACCTCGCCGACAGCTGGAACCAGTGCGACCTAGTGGCTCTCACCTGCTTCCTCCTGGGCGTGGGCTGCCGGTGAGTGCCCCGGGGCCTTGGA
ACCCTGGCCCCTGGCCACCTCTCATCCTTCCTGCCCACTCCCGGGGTCTCCACTCCCGGCTTCCCCGCAGCTGGGCAGCAGGTCAAGCCAACCCTGCTGA
TTGAGAACCCCTCTTAGGAAAGTCGGGCATGACGATTGCCCCAGGGTAATTGGCTGGCACCTGGAGATCTGGCTTCAGGGACGGCAGGATTCAGGAGAAA
ACCCCACTGTCCGCCACTCAGCCTCTGCTGCTATTTATTGCTAGGCCTGAAGTTTAACAGATATTTATGGGAGCGCCCCGACCTGGGTGCCAACCTCACC
TCCTCCCTTCTCTTCCTCCACATAGCTCGTTGGTCCCAGGCCCCTTGCCCTCCTGCCCCCGACTTTTTCTTTCTTTCCTTTTTTTTTCTTTCTTTCTTTC
TCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTCTCTCTTTCTCTCTTTCTTTTCTTTCTTTCTCTTTTCTTTTCCTTTCTT
TTCTTTTTCTTTTTCTCTTTTCTTTCTCTCTCTCTCCCTCTGTCCTCTGCCCCTCTGCCTCCCTCCCTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCTAT
GCTTCCTTCCATCCCTCCAAGCTAAGGGTTTAACCCTTGCCCTGCCTGCATTATGGAGTATCCTGCATTAGGATACTCCTCCTTTTGAGGAGAGCAAACA
GAAAAGTTTGTGGATACAACCTGGTGACTGGTTTTTTGTTTGTTTGTTTGTTTTTGTTTTCTTTCTTTTCTTTTTTTTTTTTGAGCCAGAGTTCCACTGT
GTCGCCCAGACTGGAGTGCAGTGGTACGATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCTTGCCTCAGCCTCGTGAGTAGCTGGG
ATTACAGGCATGCACCACTACACCTAGCTAAATTTTTTTTGTATTTTTTTTGTAGAGATGGGGCTTTGCCATATTGACCAGGCTGGTCTTGAACTCTTGG
CCTCAAGTGATCCACTGGCCTTAGCCTCTGAAAGTGCTGAGATTACAGATGTGGGTCACCGTGCCTGGCCAACAACCTGGTGACTGTTTACAAGGGACCT
GACACATCCTGAATGGTTGACAGTGATGACAGTGATGATCCCTACTCAAGCTTTTCCCAGTAGACACGCTGAGAGGCAGGCTTCCTCTAAGCTATGTTAG
CAGTGTTACAAAGTGATTCAACATAAATAATTTATTCAAGCAGGGAGCAAGATATGAGAGTTTTGCAGAACACTAATACTTCTGTTTGTAATTTGTTGTA
TTTTGTATAAAGTGACTTTTGAGATGAAAGGGCTAAGGCCATATGCTACCATGCTCTAGGATTGCCAGTGATATTTTGGACAGTTTATCAAGCCTACCAC
TTTCCAGGTGAAAAATGGAAAGATCTCAGCTTAAAAGGGAGAAACGGGCCTGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCG
GGTGGATCACCTGAGATCAGGAGTTTGAGACCAGCCTGCCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCAG
GCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGATAATTGCCTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCTA
GCCTGGGTGAAAAGAGCAAAACTCTGTCAAAAAAAAAAAAAAAAAAAAAGGGAGAAATGTCTAATCATCTCCGGAATTGAATGGATGAATCATCCTTTGT
TTCGCCAGTTCCCTCTAGATGGACATTTAGGTTCTCTCTTTCTTTCTTTTTTTGTTTTAAATAGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGTCTCA
AACTCCAGGGCTCAAGCAATCCTCCCACCTTGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCTACTATGCTCAGCCTTCTGTTTTTTTATTATTCCA
AAATAATAAAAGTTTACATCCCAGATGTAAAGTTTATGGGTCAAAGGGTACATTTATTTTTGACATGGATAGATTTCCTTCTAAGTAGCTTCACTCATTT
CCACACCTGCCATCAGGGTAAGAGAGTGCCCCCTTGAGGCCATGCTCGACAATGCCTGATACTTTCACTCTAAAATGTAGCTCTCAATTTAACTGAAAAA
AAATTTGCCAATTTAATGGGTAAACATGACCTCTCCTTGTTATAATTTATGCACTCTTGACTACCAGATAGGTTGGACATCTTTTCCTAAGCTTAATGGC
CATATGTCCTTGTGCCCCCTTGTTTTTTTTTTGTTTTTGTTTTTGTTTTTGTTTTTGAGACGGAGTCTCGCTCTGTAGCCCAGGCTGGAGTGCAGTGGCG
CGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTACTGAGTAGCTGGGACTACAGGTGCCTGCCTCCACGCCCG
GCTAATTTTTTGTATTTTGTAGTAGAGACGGGGTTTCACCGTGTTAGCCAAGATGTTCTCGATCTCCTGACCCCGTGATCCGCCCGCCTCGGCCTCCCAA
AGTGCTAGGATTACAGGCGTGAGCCACTGCGACCGGCCACCCTCCCGTTTTTTTAATTGGGGTTCATTGATTTGTATATGTATAAATGTATATACTCCTT
ATACTCTGGATCCTAATCCTCGGTAGTTTTGTTGGTCTTAATATCTTCATATCTTCTCGAAGTCTGTGGCTTGTCTTTTCACTTTCACTTTTGTATGTTT
CTTTTCTTTTCTTTTTTTTGAGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGTCTGTCCATACACTAGGTTTTTAATCCAT
CCAAAGTTTAAGTACATGAGGATGCAAAATAGGGGTAGAATTTTTATTTTCCCCATAGGAATTATTGATGTTTACTGGCCGTTTGAACGTCCTCTGTGAA
TTGTACGTGGTATCCTTTATCTGGCTTCCTTCCTTTTGCGTATTAGTTTGTAAGGACTCTATATGTTTTGCCTTTTATAGGTTGGACAGATATTCCGGCA
GTTTTTCCAGCTTGATTCTTACAGGGACCAGCTCTTTGCTAAGGCCATCGTTCATTCAGTCATTACTTAATAGGCGCAGCCATTTTAAAAATGGGTGCCA
GGGCCCTGCATGGACCAGCTTGGTACTGAATAAATTTGAGTAAACCCCGGGTGACTGGGAGGGTCCTGGTCCTGCCCGGTGGAGGCTGCAGCTTCCTCTG
AAGGATGGCATTGGGAAGACTTCCATTTTCCTTGGCGTCTTGTGACACTTGACCCTTGTGGCATCTCCCCACACCCCAGGCTGACCCCGGGTTTGTACCA
CCTGGGCCGCACTGTCCTCTGCATCGACTTCATGGTTTTCACGGTGCGGCTGCTTCACATCTTCACGGTCAACAAACAGCTGGGGCCCAAGATCGTCATC
GTGAGCAAGATGGTGAGGCAGGGGCGGGGCCAAAGTGGGCGGGGACATAGGGAAAGGGGTGGGGCCAGGGAGGGAGTGGTCCGTGGAGAAGGGGCGTGAC
TTTGGGGAGCAATGGGGCGTGTTTTTGGGATATAGGGGTGGGGCCAGAGTAGGAAAGGGCGGGGCCAGACTCAGCCACATCTCCCCACAGATGAAGGACG
TGTTCTTCTTCCTCTTCTTCCTCGGCGTGTGGCTGGTAGCCTATGGCGTGGCCACGGAGGGGCTCCTGAGGCCACGGGACAGTGACTTCCCAAGTATCCT
GCGCCGCGTCTTCTACCGTCCCTACCTGCAGATCTTCGGGCAGATTCCCCAGGAGGACATGGACGGTAGGGGGGATGACGGCCTGACAGCCTTCCTCTGA
GTCTCTGTCCCCGCTCCCTGGGTCTCTGTCCTCCTGGCTCTAAGAAAATATCTGTCTCTCTGAGTCTCTGTCTCCCTCTTTCTCTGGATCTCTGAGTGAT
ACCCTATATTCCCCATCATCATCTCTCTGGGTCTCTGCCTACCCCACCCCCTCTGTCTTTCTGTCTGTCTTTCTTTTTTCTTTTTTTTTTTCTTTTTTTT
TGAGATGGATGTTAGAAATGTTTATTTTGTGGTGTCGTAAAGAAATAGTACTTGAACATAAATTTAATTTTTTTAGTAAAGCCATTTTTATTTTTTGTAG
AAAGGGTACACTCGCCAGCAGTTTTGTCATGAGAGTACACGGAACAAAGGAGATAGGGTCATTTATAACCTGACGCGTCTATTTTACTGCTGTGTCTGGT
TTTTATTGGCTGGAACCGGACTTTACATTTTGTATTTGTCTTGATTGGCTAGTAACTTAGAAGTTTTTAAAAGAAGCGAAGGCAGAGGAGAACAAAGGAA
GGAGGAAGTAACTTGTGGAATGTTGAGAAAGGTAAAAACACTTTTAAATAAGGAAGAGGAACAGGCTATGATCTAATGCTTGCTTGAACCAGTATAAGTA
TGTCAGGGCAAATATTTAGGCTAAATTGTGAGAGCTAAGAACATAAAGTACATTGATTTATTTTTTATGGCTAGTAGATATTTAAGAATGTTAGCACAGG
TGTTTGAATAAATTTTGTTTCTAAGAGAAGTTACTATTTATTGTTAATTAGATGGGGAGGAAAGTCTTTGAAGAGGAACCTGTACTTTACTTTTTACATG
GAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCAGCTCACTGCAACCTCCACCTCCCAGATCGAAGCGATTCTCCTATCTCAGCCTC
CCGAGTAGCTGGGACTACAGGCGCGTGCCACCACGCCTGGCTAACAGTTTTGTGTTTTTAGTAGAGATGGGGTTTCATCACATTGGTCAGGCTAGTCTCA
AACTCCCCACCTCAGGTGATCCGGCCATCTCAGCCTCCCAAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCAGTCTTCCTGTCTTTCTTAGG
TCTCTGTCCCCCTCACCCCATCTCTGAATGTCTCTCTTCACAGTGGCCCTCATGGAGCACAGCAACTGCTCGTCGGAGCCCGGCTTCTGGGCACACCCTC
CTGGGGCCCAGGCGGGCACCTGCGTCTCCCAGTATGCCAACTGGCTGGTGGTGCTGCTCCTCGTCATCTTCCTGCTCGTGGCCAACATCCTGCTGGTCAA
CTTGCTCATTGCCATGTTCAGGTGAGGCCTGACTGCTCTCTGATCTGACCCCACCCAGCATGACCCGTGGCCCTCTCATGACTCTTGAACCCCGTCTAAT
GAATTCTGTTTTTAGTCCCTGAACTCTGATCCAATCTAATGCTGCCTTCTCCCCAAACCCAACCAGACCCTGCTTGTAATTTGGACTTTGGACTGATCCT
CTCCCTGAGCCCAGGTTGAACTTCCTTATTTGTATTTTTTTGAGACAGGGTCTCACTCTGTCGCCAAGGCTAGAGTGTGGTGATGTGATCGTAGCTTACT
GCAGCCTCGACCTCCTGGACTCAAGCAATCCTCCTGCCTTCGCCCCATAAGTAGCTGGGACTACTTAAAATTAGCCAGGCCAGCAGGCCTGCCTAATTTA
AAAAAATTTTTGGAGAGAGGGGTCTCACTATGTTGTCCATGCTAGTCTCGAGCTCCTGGACTCAAGTGATCCTCCCTCCTCAGCCTCCCAAAGTGCTGGG
ATAATCTGTCACCTAGGCTGGAGTGTAGTGGCAAGTTCTCAGCTCACTGCAACCTCCACTTCCCACTCCCCCATACCCAGTTAATTTTTTGTATTTGTAG
TAGAGATAGGGTTTCACCATGTTGGCCTTGAACTCTTGACCTCAAGTGATTGGCCCACCTCAGCCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCATCG
CGCCCAGCCAACTTTGTTTTTTATTGTGGTAAAATTATATAAAATTTTCCATTTTTACTTCTTTTTTTTTTTTTTTTTTTTTGACGGAGTCTCGCTGTGT
CACCCAGGCTAGAGTGCAGTGGCACGATCTCACAATCTCAGCTCACTACAAGCTCCGCCACCCGGGTTCACGCCATTCTCCTACCTCAGCCTCCTGAGTA
GCTGGGACTACAGGTGCCCGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACGGAGTTTCACCGTGTTAACCCGGATGGTCTCAATCTCCT
GACCTCGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGCGCCCCGCCTTTTTTTGAGATGGAGTCTCGCTCTGTCGC
CCAGGCTGGAGTGCAATGGTGCAATCTCAGCTTACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGACTAC
AGGCGTGCGCCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTTTCGATCTCCTGACCTTGTGATC
CGCCCGCCTTGGCCTCCCAGAGTGCTGGAATTACTGACATGAGCCACCGCGGCCGGAGTTGATTTTTACCATTTTTAAGTGTACAAGTCAGTGACATTAA
TTACATTTACAGTACTCTCCAACCATCACCACTATCTATTTTCAATACGTTCTATCACCCAGAACAGAAAGTGTGTCCCCATGAAACAGCAACTCCCCAC
TTCCCCTCCCCACAGGTCTTAGTAACCTCCAGTGTATTTTCTGTCTCTATGGATTTAGTCTAGATGTTTCATGTAAGTGGAATTATGCGATATTTGTCTT
TTGGTGTCTGGCTGATTTTACTGAGCATGTTTTCAAGGCTCATCCCTGTTGTAGTGTGCATCAGAACTTCATTCATTCCGTTTTATGAATGAGTAATATT
CTATTGTACAAATAGACCACATTTGGGCCCAGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGTGGATCACCTGAGGTCAGG
AGTTCGAGACCAGCCTGGCCAACGTGGCAGGACCCCCTTTTTACTAAAAATACAAAAATTAGCTGGGCTCATGTCTGTAATTCCAGCTACTTGGGAGGCT
CAGGCACGAGAGTCGCTTGAACCCAGGAGGCGGAGGCTACAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCATCTCA
AAAAAAGAAGACCACATTTGATTTACCCGCTCATCTGTTGATGAACACTTGGGTTCTTTCTGCCTTTTGGCTATTGTGACTAATGTTTGTTGGAACATTG
GCATGCAAGTATCTATTTGAATCCTTGTTTTTATTTCCTTTGGGTGTGTATCTCAAAGTGGAATTCCTCGGTCATGTGGTAATTCTATGTATAGCTTTTT
GAGAAACCACCAAACTGGTTTCCACAGCAGCTGCACCATTTTCCATTCTCACCAGCAGTGTATGAGGGTTTTAATTTCTCCACATCCTAGCCAACACTTG
TTATTTTCCTTTTGTAAAAATTATAGTCATCCAGCTGGGTGTAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGGGGCTGAGGTGGGAGGATTGCTTGA
GCACAAGAGTTCGAGACCAGCCTGGGCAACATAGCGAGGCTGCTGTCTCTACCAAAACACCAGAAATGAGATACCACTTCACACCTGCAGCCTCAACCTC
CTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTACAGTTACGTGCCACCATACCTGGCTTGTTTTTTTAATTTTTTTTTTACTTT
TATTTTATTTATTTATTTTTAGTAGAAACGGGGTTTCACCATGTTATCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCATCTCGGCTGGATCC
CAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCGGCTATTTTTTTTTTTTTTAATGAAACTCCTTTTTAATCCTATGTTAGGTCTCTCTGTTT
GCTTCCTTTCTTGTTGGCATGATTTTTGCTGAGAAAATATAAAATTTCATTGGCTTTGGTTGTTTTTTTTTTTTTTTTTTTTTCAGAGATGGGGTCTTAC
TATATTGCCCAGGCTGATCTTGAACCCCTGGGCTCAAGCAGTCCTCTTGCCTTGGCCTTCCAAAGTGCTGGGATTATAGGCACAAGCCCCTGTGCTGGAC
CTATTGTATTAGTTTCCTAGGGCCGCCAGAGTACCAAAAACTGTGTGGCTTTAAATCACAGAAATTGTCTCACAATTCTGGATGCTAGAGGTCCAAAATC
AAGGCATCCGTCAAGCTGTTTTCTTCTGAGGGATGTCGGGGAGAGTCTGTTCCATGCCCCTCCTGTCACGTCTAGTGCTTTGCTGGCCATCTTTGGCTTC
TAGTTGCGTCATTGAAACTTCTGCTTTCATCTTCCAGATTTCCCCTTTTAATAAAACGTTACTTAAATTGGATTAGGGACCATGCTAATAACTTCATTTT
AACTTGATCACATGTGTAAACTCTATTTCCGAATAAAGCCACATATTTCATAAATAAAAAATTTAAAAAGGTCTCATTCTGAGGCACTATGGGTTATGAC
TTCAACTTTTTTTTTTTTTTTTTTTTTTTTTTGGAGACAGAGTCTTGCTCTGTCACCCAGGTTGGAGTGCAATGGCGTGATCTCGGCTCACTGCAACCTC
CACCTCCTGGGTTCAAGGGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACTATACACAGCTAATTTTTGTATTTTTAGTAG
GGACGGGGTTTCACCATGTTGCCCAGGCCGATCTCAAACTCCTGACCTCAGGTGATGCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGCCGTGAG
CCACTGGACCCGGCCGGACTTCAACATATCTTTAGCGGGATACAATTCAATGCATGACACTCATAGATTTATGAGTTTATTTCTGGACTTTCAATTCTAT
TCCACTGGATTGCGTCTATCCTTATGCCAGAACCACACAGTTTTTTGGGTTTTTTTTGAGACGGAGTCTCGCTCTTGTCACCCAGGCGGGATTGCAGTGG
CACGATCTCTGCTCACTGCAACATCCGCATCCTGGATTCAAACGATTCTCCTAACTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCTGCCACCACGCC
CGGCTAATTTTTTTGTATTTTTGGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTAGTCTTGAACTCCTGACCTCAGGTGATCTGCCTCGGCTTTCCAA
GGTGCTGGGATTACAGGCGTGAGCCACCATGTCTAGCCCACACAGTGTTGATTACTGTAGGTTTGTAGCAAATTTTGACATTGGAAGTATGAGTCTCCTT
TGTTATTTTTCAAGATTGTTTTGGCTATTCTGGGCCTCCTGCAATTCTATATGAACTTAAAGATCAGAGTTTCCATGTCTGTCAAAAAGGTTGTTGGAAT
TTTCTTTTTTTTTCCTTTTTTTTTTTTCTTTTTTTTGAGACAGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCAGCTCACCACAA
CCTCTGCCTCCCGGGCTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGCTTATAGGCATGTGCCACCACGCCCGGCTAATTTTGTATTTTTAG
TAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTTCTGGGATTACAGGTGT
GAGCCACCGCGCCCGGCCAGTTGTTGGAATTTTCCGAGGGATTGCGTTGAATCTGTAGATTGCTTCGGGTAGTATTGATATTTCATCTAGGTGTTCTTTT
TAATGCTTTTCCAGCAGTATTTGGTAGTTTTCAGGCTACAAATTGTTCACCCTTTTGGTTAACTTTATTCCTAGGTGCTTAACCTTTAGATACTGTTGTA
AGTGGAATTGCTTTCTTAATTTCCTTTTTGGATTGTTCATTGCGGGTGTGTAGAAACACAACTGATTTTTGTGTGATCTTGTACCCTGCAACTTTGCTGA
ATCTGCAGCCCTAGAAGCTTTCTTGTGATTCTCTGGCATTTCCTATATATAGGATCATGTCATCTGTGAATAGAGATATTTTTACTTCTTCCTTTCCAAT
TTGGATGCCTTTTATTTTTTTTCTTGTTTAATTGTTCTAGCCAGAACTTCCAGCACAATGTGGAATAGCAGTGGTAAAAGTGGACATCCTTGTCTTGTCC
CTGATCTTAGGCAGAAAGCTTTCACTCTTTCACCATTGGGTATGACGGTAGCTGTGGGTTTTTCAGAAGTACCTTTTCTCATGTTGAGAAAGTTTATTTC
TATTCCTAGTTTACGATTTTTAAAAATTATGATGCATGGTGGCTTGTGCCTGCAATCACAATACTTTAGGGAGCCAAAGTGGGAGGATCACTTGAGGCCA
GGAGTTCAAGACCGACCTGGGCAACATAGTGAGACCTTATCTCAATAAAAAAATAAAAAATTTGCCAGGCGTGGTGGTGCATGCCTGTAGTCCCAGCTAC
TCAAGAGGCTGAGGTGGGAGGAAGGCTTGAGCCCAGGAGGTCAAGGCTGTGGCTTCAGTGAGCCATGATTTCACCACCATCATGATTGTGCCACCAACAG
AGTGAAACCTTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGCCATGCATGGTGGCTCAAGCCTGCAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATC
ATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTTGTAGGGGCCAGCCCTACAAGGTCTGTGGGTTTTTCTCCCCGTGTGCAGAGACAAGAGATT
GTAGAAATGAAGACACAAGACAAAGAGATCAAAGAAAAGACAGCTGGGCCTGGGGGACCACTACCACCAAGACGTGGAGACCGACAGTGGCCCCTAATGC
CTGGCTGCGCTGTTATTTATTGGATACAAAGCAAAAGGGGCAGGGTAAAGAGTGTGAGTCATCTCCAATGATTGATAAGGTCACGTGAGTCACATGTCCA
CTGGACAGGGGCCCTTCCCTGTTAGGTAGCCAAGGCGGAGAGAGAGAGGACAGCTTACATCATTATTTCTTCTATGCTCTTTTAAGAAAGATCAAAGACT
TTAATACTTTAATACTTTCACTAATTTTGCTACTGCTATCTAGAGGGCAGAGCCAGCTGTACAGAGTGGAACATGAAAGTGAAACAGGAGTGTGACCGCT
GAAGCACAGCATCACAGGGAGACGGTTAGGCCCCTGGATAACTGCGGGCGGGCCTGACATCAGTCAGGCCCTCCACAAGAGGTGGTGGAGCAGAGTCTTC
TCTAAACTCCCCCGGGGAAAGGGAGACTCCCTTTCCCGGTCTGCTAAGTAGTGGGTGCTTTTCCTTGGCACTGACGCTACCTCTAGACCACGGTCCGCTT
GGTAACGGGAATCTTCCCAGATGCTGGCGTTACCGCTAGACCAAGGAGCCCTCTGGTGGCCCTGTCCAGGAATAACAGAAGGCTCACACTCTGTCTTCTG
GTCACTTCTCATCATGCCCCTTCAGCTCCTATCTCTGTATGGCTTGGTTTTTCCTAGGTTATGATTGTAAAGCAAGGATTATTATAATATTGAAATAAAG
AGTAATTGCTACAAACTAATGATTGATATTCATATATAATCATATCTATGATCTATATCTAGTATAACTCTTGTTATTTTATATGTTTTATTACACTGGA
ACAGCTTGTGCCCTCGGTCTCTTGCCTTGGCACCTGGGTGGCTTGCCGCCCACACATGGTGAAACCCCATCTTTACTAAAAATACAAAAAGTTAGCTGAG
CGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAAGAGAATGGCATGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATTGTGCC
ACTGCACTCCAGCCTGTGGGACAGAGCAAGACTCCATCAAAAAAAAAAAAAAAAAATCGTGAAGTGTTGTTGAATTTTGTCAAATGCCTTTTCTGTGTTG
GTTGAGAAGATCATATGGCTTCCCCCACACCTTGTTCTATTAATTTGGTGTTTGCATTAATTTTTGTATGTTTAACTACCCTTACTTTCCTAGGATAAAT
CCCATTTCGTTATGGTATAAAATCCACTTAATGTGCTGCTGAATTAGATTTGCTTGTATTTTTTCAGGATGTTTACATGTATATTCATAAGGGCTACTGC
TCTGTAATTTTCTTGTGATATCTTTATCTGGCTTTGGTATTACGGTAATGCTGGCCTCATAGAATGAGTTAGGAAATGTTCTCTCCTTTTCAATCTTTTG
GACGAATTTGAGAAACATCCTTGTTATTATAATTCTTCTTTAAATATTTGATAGAATTCACCAGCACAGCCATCTGGTTTTGGGCTTTTCTTTATTGAAA
CGTTTTTGATTCAATCTCTTATGATAATTCTACTGAGATTTTCTGTTTTTTCTTGAGTCAGCTTAGCTAATTTGTGTGTTCCTAGGAATTTGTCCATTTC
ATTTATCTAGTTTGTTGACATATAATTGTTGATAGTATTCTCATACAATCCTTTTTATTTCGGTAAGGTCAGTAGTAATGTCTCCATTTTCATTTCTGAT
GTTAGTTATTTGTGTCCAGGCTAACTTTGGAGCCCAACTTTAACCTGACTTCAACCTCCACCTTATACCGTGATACCATCCCAACTTGACCTCTGACATC
TGACCCTTGGCCCTTCTAAACTGACTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTACTCTGTCTCCCAGGCTGGAGTGCAGTGGCACGATCTCA
GCTCACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGGTGCCCACCACCACGCCTGGCTAATTT
TTGTATTTTTAGTAGAGATGGGGCTTCACCATGTTAGCCAGGCTGGTCTCGAACTCCTGACCTGAGGTGATCCGCCCACTCCGGCCTCCCAAAGTGCTGG
GACTACAGGCGTGACCAAACGCCCTTGGCTCTAACCTGACTTCTAATCGCATCCTGTAACCTCTGACTTTAGTGATCTTGACTTCTGTCTGCTGCTATAG
ACTGAACAATTATTGCCTGGCATCTAACCTTCGTCCTTGCCCCTGGCTGGGCCCTGACCTCAAGTGACCTTTGACCTCTGGCCTTTGCAGTTACACATTC
GGCAAAGTACAGGGCAACAGCGATCTCTACTGGAAGGCGCAGCGTTACCGCCTCATCCGGGAATTCCACTCTCGGCCCGCGCTGGCCCCGCCCTTTATCG
TCATCTCCCACTTGCGCCTCCTGCTCAGGCAATTGTGCAGGCGACCCCGGAGCCCCCAGCCGTCCTCCCCGGCCCTCGAGCATTTCCGTAAGAACAGAGC
TTGGCTTAAAAAGGAGAAATATAGGGGACCGGGAGCCTGGAAGGCGAGGGGAAGGGGGCATGCCCCAAATGACTAACGGGCGTGGCTTAGGTAGCGAGGG
GCGGGGTTTAAGCAACAAGGGGCGGAGCTTAAGCACTGAGGGGCAGTGCTTACGGGTGAGGGGCGGGGCATGTTCTCGAATCACCAGGGGCTGGGTCTGG
GATAGCGTGCGTGTTCTGAGGGTGTCGGAAGGGGCAGCTGGGATTGGGAAGGGGCGTGGCCTGAGCCCTTTGACTCCGCCCGCCCCTGCAGGGGTTTACC
TTTCTAAGGAAGCCGAGCGGAAGCTGCTAACGTGGGAATCGGTGCATAAGGAGAACTTTCTGCTGGCACGCGCTAGGGACAAGCGGGAGAGCGACTCCGA
GCGTCTGAAGCGCACGTCCCAGAAGTGAGAGCGGGGCCTGGTCGGGGATGGGGCTTCTGGCCTGGGGCGGATCCTGACTTCAGCTGAAGGCAGGGTCCTG
GGAGGGAGGGAGAGAGGGAGGAGGCCCGGGAAGCAGGCAGAGCCCTGGGGGTGGGTGGGCTGCGGGTGCCCCCGGTAAGAGGCCCTCCCTTCTCAGGGTG
GACTTGGCACTGAAACAGCTGGGACACATCCGCGAGTACGAACAGCGCCTGAAAGTGCTGGAGCGGGAGGTGAGGCCTTGGGGCCTGGCTGGGGGACTGT
GGCAGGGGTCCCATCTCCCGCTCTGACATTCCTCCCATTCCGCAGGTCCAGCAGTGTAGCCGCGTCCTGGGGTGGGTGGCCGAGGCCCTGAGCCGCTCTG
CCTTGCTGCCCCCAGGTGGGCCGCCACCCCCTGACCTGCCTGGGTCCAAAGGTCAGTGTGTAGCATCAGCCTGTGCATCTCCAGCCTCTGTTCCTGTATT
TTTGCGTGTTTTTCTCTCTCGGCACCTTTCCAGTGTCCCTGGGTCACTCTCTTGGTCTCCTTTGAGCCTTTTGTACTCTCGCCTTCGTCTTTCTTCTTTT
TTGCCAGTCTCCCAGTTTTTCTGTCTCTCCCCTTCCCTGCCAATCACCTGCTCTCTCTTTTCTCTCTTCCCCCAGACTGAGCCCTGCTGGCGGACTTCAA
GGAGAAGCCCCCACAGGGGATTTTGCTCCTAGAGTAAGGCTCATCTGGGCCTCGGCCCCCGCACCTGGTGGCCTTGTCCTTGAGGTGAGCCCCATGTCCA
TCTGGGCCACTGTCAGGACCACCTTTGGGAGTGTCATCCTTACAAACCACAGCATGCCCGGCTCCTCCCAGAACCAGTCCCAGCCTGGGAGGATCAAGGC
CTGGATCCCGGGCCGTTATCCATCTGGAGGCTGCAGGGTCCTTGGGGTAACAGGGACCACAGACCCCTCACCACTCACAGATTCCTCACACTGGGGAAAT
AAAGCCATTTCAGAGGAATCGTGTCCGGAGGCTTGATTCCTGGGGGAGCTGGTGGGTGTCTAGATCCAGGATGGGAGCTGGAGCTGGGGTGTTGGGTTTG
GGGTTCTTGGTGGATTTGCTGCTGTAATTCAGATATTTTGGAGTCCGTTTCCTCCCTTGAGCCCCATTGTTCTTGCCGGAGACCCAGCACTTCTGTCTGC
ACTGTTCTGACGGCTCTCGCTTCAGTAGGACAAGACCCCATCTGTACCCCCTCCCACCCAGTTTCAACTTTCCAGTGGAAAAATAACTCAGTGATAATAA
GCAAATTATTTCCTGGAATGGAGGTGGGTGGGTGTTGTGTACATCTGCTTTGGCAATAGGGAAACGGATGATGCAAATTTGAGTAGATAAATGCATACGT
GTCTTTAAAAAGTCTAATTAGTGGGAAATTGCAGGCCAGGCGCACACAGGGTTGAGGCAAATATGTGTGATTATACATGCAGCTTAACTAAATAACCCAT
AACAAGCTAAACTGGTAATGACAAGGTTGAACTGACAGCAATCATTAGTTAAATAGCAAGAAAGCCACCAACAACCAACACATCCAAAAATCAAAACCAA
ACATCCTTCCTCCAAATTGGAGGAGATCCAAGTATCTGTCACCGTGGGTGCAGAGTAGCGTTGAAACATTGCCAAGTGTTGTGTGGCAACTGCAACTTCT
CTGGAAGATGCTGAGTTAGTTCTCACCAACCCAAGTAGTAATAATCACTGTAATGTAACCTACTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCT
TCCTTCCTCCCTCCCTCCTTTCCTCCCTTCCTCCCTCCTTCCCTCCCTCCTTCTTCCTTCCTTTCTTTTCTTCTTTTTTTTTTTTTTTTTTTTTGAGACA
GAGTCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGGTCACTGCAACCTCCGCTTCCTGGGTTCAAGCAGTTCTCCTACCTCAGCCTCT
GGAGTAGCTAGGATTACAGGTGCCCGCCACCATGCCCGGCTAATTTTTGTATTTTTGGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCCCAAAC
TCCTCATCTCAGGTGATCTGCCTGCCTCGGCCTTCCAAAGTGCTGGAATTACAGGTGTGAGCCACCACACCCGGCCACTTTTTCTTCTTTTCTTTCAATA
AGGTCTCACTCTGTCACCCAGGCAGAAATGCAGTGACTCAATCACAGCTCACTGCAACCTCCACCTCCTGGGCTCAAGCAATTCTCCCACTCAGCCTCCT
GAGTAGCTGGTTCTACAGGCTCACACCACCATGCCCGGCTAATTTTTTGGATTTTTGGTAGAGATGGGGTCTCACCATATTGCCCTGGCTGGTCTCAAAC
TCCTGGGGTCAAGTGATCCACTCACCTCGGCCTCTCAGAGTGCTGGGATTACAGGCGTGAGCCACCGTACCCGGCCTCCAGTACTTTCTATATATGTGTG
TCCAGCATTGTTTTAAGTGCTTCACGTGCGCTACATCAGTGAACCCTATGATAACCATACAAGGTAGGTTCTATTATTGTCTCCATTTTGCAGATGAGAA
AAGTGAGACACAGAAAAGTAGCTCAAATAAAGTCACACATAGAAAGTAGCTGAGTTGGGGGTTGGGCGTGGTGGCTCATGCCTGTAAAACAGCACTTTGG
GAAGCCAAGCAAGTGGATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAATATAGCAAAACCCCATCACTACTAAAAATACAAAAATTAGCCGGGT
GTGGTAGCGGACACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGATTGCAGTGAACCGAAATTGTGCCA
CTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTTTCAAAAGAATAATAAAAAATAAAAATGGAAAGTGGCTGCGTTGGAACAGAAATCTGGGCAATC
CAGAGAGCATCTGTAATGCACGATTTTATATTTGGAAATGTCAACTGCCGTGAAGTCACAGGAACTCACTCAGTCCATGTGCAAGTTTGAGCTTTTGTCT
CTCAGCTGCAAATCCACCCTTGCCTCCGCTCTGTGATGTTGGGGCGGAGCCTCTGCAAGCCACGTTTTTGCTTTCCCAGCTGGGTTGCTATAAGCCCCGG
CCTAAAGAGGGCGCTAGACGGAGACCGGCCATTGGAGGAGGAAGCAGGGATTTGCTCCACCTATTTGCTTCAGGCATCCGAGCAAGCGTCGCCCCAGAAC
AACGCTCCCTCTGACAGCAGCAGTTGCTTCCAGGTTTTTTGTTTGTTTGTTTGTTTTTTGTTGTTGTTGTTGTTGTTAAGACGGAGTCTTGCTCTGTCGC
CCAGGCTGGAGTGCAATGGCGCGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAC
AGGCATCCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTGGAGACAGGATTTCACCATGTTGGTCAGACTGGTCTCGAACTCCTGACTTCAGGTGAT
CCAGCCACCTTGGCCTCTCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCCTCTTCCAGGTTTCAAGTTTTATTTTTTTGGCACCTCCCTA
ACCTGTTTCTTTTTCTATTTCTGTCGCCCAGGCTGGAGTGCAGTGGTCGAGGCTCACTGTAGCCTTGACCTCCCAGGCTCAAGCCATACTCCCGCCTCAG
CCTTCAGAATAGCTGGGACCACAGGTGCACGCCACCACACCCAGCTAATTTTTTGTTTTCAAATTGTTTCGTAGAGATGGGGGTCTCGCCATGTTGCCCA
GGTGGGTCTCAAACTCATGGGATCAAGGGATCCTCCAACCTCGGCCTCCCAAAGTGCTGTGATTACAGGCATGAGCCACCACGCCGGATGCCATAACCAG
CATCATTGTCAGCCTTCTGTCACACCAGCGCCACCCTGGTAGCCCCTGGCTCTAGTCTGGGTTTCAGTTCTGCAGGGCTGCTGCCTCAACATTTTAGGTT
CTGATAGCTGTATTCTCAGTCCTGGAGTGACAGGTGTAGCCTGCAGTTACTATTTTTATACGGTGCAGTTACTATTTCTGCGCTGTTTCTTCTCATTCCT
TTCACGGTTTCCTGAGACCTGTTTAATTTATCTGAGACCCGTGTATTAATTCATCTCTGTTGAAGTATCTATATAACAGGAAAACTCCAGGTCGTGTGTG
TAGAAATCTGACGTGAGTCATCAAGATGGAGAATTTGCACGAATTCCACATGTAAAGCGATTTGGAGACCAAAAATTCCTTAATTGAAGAGGAGGCTGGT
ACTCTTGAGGAATTACCCTAAAATAACTGCTGCAAGCTTATATTTTGCATCTTCCATTCAAATAGGACTTGTCTCCGTTTATGCAGTAACTGTGTATTGG
GGAAAGGAAAATACTCAGACCTTTTAGGGATTAGCAGACACTGGCCCGGCCTATTTATTCATTTTTGAGATGCAGTCTCACTCTCTTGCCCAAGTTCGAG
TGCAGTGGTGTGATCACAGCTCACTGTGGCCTGGCTCAAGTGATCCTCCTGCCTCGGCCTCCTGAGTAGCTGGGATCACAGGTGCACGCCACCATGCCCA
TCAAATTTTTTTTTAAAAAAATTTAGGCCAGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGA
GTTCGAGACCAGACTGGCCAACATGGCGAAACCCTGTCTCTACTAAAAATGCAAAAATTAACCGGGCATGGTGGTGTGTGCCTGTAATCCCAGCTACTAG
GGGGGCTGAGGAAGGAGGATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCATGCTGCACTCCAGCCTCCGCAACAGAGCGAGACTCCAT
CTCAAAACAAACCAAAAAATTGGTCTTTAATAATTTTTTATTTTTGAGACGGAATCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATTTCAGCT
TAATGCAACCTCCACCTCCCGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATAACAGGTGTGCGCCACCACGTCTGACAAATTTTTG
TATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTAATAAAGTTTTAAAATAAAAAAATAAAAGAAAAAAGAAAAATACACCACATTTGAGGTA
TTTTCCAACCCATTTAGTGAGTAACCTACAAAAATGCCAACTCGGAGTGTCGTCCAAGTGCGTGAGAAGGCTCTGCATCCGGCTGATGCTGAGCTTAAGC
TCAGTCTTGTGACTCAGCAGCTCACATGATACTCAGAAAAGAATGTGGCAAATCGAGATGCTGTATGACCTCCAGAAAGTGCCAATAGGAGCATTTTCCG
GCATAAACTCGTAGGGTTTTGGCACAAAGCCATGCCATCTTCTGCACACAACTCATCTCTGTGAAGAAACAATTCCTTGTCTCGGTTAGAGATAGATACC
TGGCCATGGAGCACCGAGCAATGATAAAACCTGAGCTGACCATCAGGAACTCGGTGTAATCCGACCCACAAATCCAGAAGATTGAGCACAGGCAATGGCA
GTGCATCAGGTGGAAATAAGAAATAAAGTGTTGGCCGGGCGCCATGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCGAGACAGGTGGATCACCTGA
GGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGAGAAACCCCCATGTCTACTAAAAATACAAAATTAGACAGGCATGGTGGCGCATGCCTGTAATCTCA
GCTACTCCGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCGGTGAGCTGAGATTGCACCATTGCACTCCAGCCTGGGCAACAAGA
GCGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGAACTAAGGTGTTGGCATAAGCAATGACACAAGCAAATTGCTTGAGTGGACAGCACAGACCGT
TCTGCCATCTATACCCACTGTTTTGTCTTCTCTCCATTTATACCCATGGCTTCATGGACAGCTCCTCATGACTTTTTTTCTTTTCTTTCTTTCTTTTTTT
TTGAGATGGAGTCTTGCTCTGTTGCTCAGGCTGGAGTGCAGTGGTGCGATCCTGGCTCACCACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAG
CCTCCCGAGTAGCTGGGACTACAGGTGTGCACCATCACGCCCAGTTAATTTTTGTACTTTTAGTAGAGACGGGGTTTCCCCATGTTGACCAGGCTGGTCT
CAAACTCCAGACCTCAGGTGATCTGTCCTCCTCGGCTTCCCAAAATGCTGGGATTACAGGTGTGAGCCACCGCACCAGGCAGCTCCTCGTGATTAATTGA
ACTGGGGAGGACACAACTTTGGGCTGGTTTTTAGATGGCTCAGCATGATATACTAGGATTCTCAGAGTCAGCCACATTGCAGCCCTCAGAGGAACCAGCA
CTAGCCTGGCAGTCTCCCTTCCCAGAAATCTGAGCCCCAGCTCAGCAATGCCCACTTCTGAGCTGGGCAGCAACCCTGAGCAACCAATCTCAAGAGCCCT
GAGGTTCATCTGATCCTCTCTTTGGTAACATAGCAGGATTGGCTCAGCAAGCCTGCGCTGACGCCACAGATACAGAAGAACAGGCTGATACCAGCTGCTG
AGCCCCAGAGGCTGCCCTTTTCTAGCCAGAACATTTTTTCTGACCAGGAAGCTGTCATCGCCACATAGCTGTTTCTCCTCTTCCCCGATTCTATAAATAC
AAAAACACAGTCCTTCTTTACTGGGATGCTGCTGGCCACGGTGCAGGCAGACCGTTCATGTTTAGCCGGAGTCACGGGCTGGAGGGATGCTCCCTCCTCT
ACCTGTGCGTCTTCCCTCAG


SNP Information

Context             (SEQ ID NO:54733):
ATGGCCACGCCCCAGCCCTGCTCCTTCCCCATTCCTGGACTCGGGGACCTTCCCAAGGGCGTTCCTTGCCGACGCTCTCCCTCTAGGAGCGTTTGGGTCT
S
TGTAGACACCCCTCATTCCCCATTCGCCATTCTCCCGCTCAGGGTCAGTGTAGACGCTCCAGGGCTCGGTTCTGCTTCTTTCCTCCCCGATGTCTCTTCT
Celera SNP ID:            hCV27512665
SNP Position Genomic:     6629
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,315|G,1176)   total(G,1176|C,315) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54734):
CAGGCAATGCACCTGCCTTGGCTTTCCAAAGTACTGGGATTACAGGTGTGAGCCACCGCGCCCAGCCCTCTAGTTGTTTTTCAAGACAGTTTTTGGGGTG
Y
GGGAAGTATCCACATTCCTACTTCAGTGTGTATTTTGTTATGACTATATATTAGTGCAGTATGGCTTGTAAATGATGGATAAATAAACAGATATGCGCTT
Celera SNP ID:            hCV2885914
SNP Position Genomic:     8017
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:54735):
TGCACGACGTTCATAGTTGACTCCACAGATCCGGGGTGAGGAGTTCGCCCCTGGACTGACCCCAGAGGGTCCGCGGCCCGCTGACCCCGCCCGCGGATGG
Y
CACGCCCCAGCCCTGCTCCTTCCCCATTCCTGGACTCGGGGACCTTCCCAAGGGCGTTCCTTGCCGACGCTCTCCCTCTAGGAGCGTTTGGGTCTGTGTA
Celera SNP ID:            hCV27476038
SNP Position Genomic:     6533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54736):
TCAGCCTCCCTAGTAGCTGGGATTACAGGTGCCTACCACCATGCCCAGCTAATTTTTTGTATTTTAGTAGAGACGGGATTTCACCCTGTTGCCCAGGTTG
R
TCTTGAACTCTTGATCTCAGGCAATGCACCTGCCTTGGCTTTCCAAAGTACTGGGATTACAGGTGTGAGCCACCGCGCCCAGCCCTCTAGTTGTTTTTCA
Celera SNP ID:            hCV27941014
SNP Position Genomic:     7899
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:54737):
GGCTAGGCTGGAAAGTGGAGGATCCGGTTTGCTCTGGGCGGGTCTGGAAGCAGAGCCGGCGGAGGGAGCGCCGGGGCCCTGGGCTGCAGGAGGTTGCGGC
R
GCCGCGGCAGCATGGTGGTGCCGGAGAAGGAGCAGGTGAGCGCCGGACCAGGGTCTGCGGGAGCGCGGAGCTGGGGACCTCGCCTCCAGGCTCCCAGAGA
Celera SNP ID:            hCV2885911
SNP Position Genomic:     6063
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 PUTATIVE UTR 5


Context             (SEQ ID NO:54738):
AGAGCTGGATCCCCAAGATCTTCAAGAAGAAGACCTGCACGACGTTCATAGTTGACTCCACAGATCCGGGGTGAGGAGTTCGCCCCTGGACTGACCCCAG
R
GGGTCCGCGGCCCGCTGACCCCGCCCGCGGATGGCCACGCCCCAGCCCTGCTCCTTCCCCATTCCTGGACTCGGGGACCTTCCCAAGGGCGTTCCTTGCC
Celera SNP ID:            hCV2885912
SNP Position Genomic:     6498
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 PUTATIVE UTR 5


Gene Number:                 273
Celera Gene:                 hCG1639889 - 146000220817769
Gene Symbol:                 LOC127540
Protein Name:                HMG2 like;dJ1007G16.5
Celera Genomic Axis:         GA_x5YUV32W802(49276787..49289500)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12433):
TCCATTGGGCTGGGTGCTGACACTTCGCCTGGCTTTGGCAAGCCTCTGCCCTTGGGAGTAGATGCAGGCTCCGTGCTTATCTTCAGATGCTGGTGAAGTT
CTATGGGTCATCCAAGTCAGTTGACCTCCTGGACTTAGAACATCCCATGACCTAGAGATAAGTTGACTAGATCTATCCAGAATGAGGATCAACCCAGATT
AGAAAAGACTCACCTGAATCTTTTAAACGTTGAAATTTAGATAACTTTTTCTCCTTCCTTCTTCCCTCCTCCTGCAATACTTGGCCTTGTTCCTTCCCAG
TTGCTTCCTTACCCTAGCCCCAGCCAAGGGAGTTCCTAGACTACCAGTAGAGGCTAAACATATGAGCCAAGGGGTCAAACAAGCTTGAGTTCGAAGCCTG
GCTCTGCCACTTATTGCTGTGTGGCCTTGGATAAATTAATCTCTCTTTTCACGCTTCCAGGCTTCCAGAGATGATGTACCCAAAGTATGATCATCATTTT
TATTAAAATATTGTGCTCACATCTGATTGATTAACAGTTCCTGGCACGAGGTCAGTGCCAAAGAGCCTTGGACTGACTGCTTATGGCCTGGCCTCCCTAT
CTGGTTTCTTACTATGTAGCGATCCAAGTGAATTCAGATGATTCCCTGGACTACCACCCTCCTTCCTGGGACACATCCATCCCTCAAACACTGTTCATCA
CTGGCCATCAAAGCAGCAGCCACACTGCTCCAGCAACTCAACAGCTATTTATTGAGATGGGTGTGTGAGTACATGAGTGAGTGAATGAACTGAAAGAACG
TAAGAGTGAATTAACTGCTAAGTGAATTAGTGAATTAGTGACTTAATGAGTCAGCGAGTGAAGAAGAGTGTGCAGGATTGAATATATCATGTTCTTTTCC
CTCAACAAATTGAATATGCCGTGGTATAAAACTTTCACCCTCAAATGTGTCTTCTTCATTAACACAAGCAGGGGTTAAGAATGGCAGAAGAAAAGTTACA
GACCAGCAGCCAGAGGAGAAAGATACTGTGCTAGTTTCCTATTGCTGCCTTAACAAATAACTGTACATTTAAGGGCTTAAAGAACACAAATTTATTGTGT
TATAATTCTGGAGGTTAGAATCCAAAATGGGTTTCAGCAGGCCAAGATCAAGGTGTGGGGAGGACTGAGCCCCTCTGGTGGCACTAGGGGACAATCCTTT
TGCTTGCCTTTTCCAGCTGCTAGTAGCCACCTGCATTTCTTGGCTTGTGGCCTCTTTCCCTTGTCTTCAATATCAGCAGTGTAGCATCTTCAAATCTCTC
TCCACCTCTGATCCTCTGCTTCTCTCATCACATCTCCTCTGACTGTGACACTCCTGCCTTCCTCTTACAAAGGCCATGTGATTCTATCAGGCCCACCTGA
TAATCCAGGATCATCTCCCTAGCTCTAAATCCTTAGAGTAATCTTATCTACAAAGTCCCTTTTACCAAGTAAGGAACAAATTCACAGGTTTCAGGGCTTA
GGACGCCAGCATCTTTGGAGAGGCATTCTTCTGCCACTTGCAGATGCCTTGTTCAGAGGGTAAATGCAACCAGTGAGTCCCACTCCACAGAGGAAGGGGC
AGGAGGGGGATGAAGGAAGTTTCAAAGCATTTGACATACACATGCTTATGCCAGGTATGTTTGCTGTTGTTGCTGTGGCCTGAGCACTGAGGGTTTTGGA
AAGCTTAGGTGATTCCATCATGCTGCAAAATCTGAGAGATACTTTGACAGAGATATGCTAAGAGCATATGCTGCTGTAATTGAGGGTAAAATCTGGCCCT
GTGATTCCTGGAGATGATGGATCAAGAGCAGGGTGTCTTTACCCTGGCTGCACATTGCTATCAACTGGAAAGATTTTTCTTTAAAAAAATGTTATTTTGA
AATAAGAGTGCAAAGATCATACAGAAATGTCCTGTATACCCTTCACCCCGATTCCCTAATGTTGGCATCTTACATAACCCTGGGTCATGCATAAAAACTA
AGAAATCAGCAATGGTACAGTACTATTAACTAAATGAAACATTTTATTCAGATTTCCCCAGATTTCCACCAGTGGCCCACTTTTTGTCTGTCACAGGATT
CAGTCTAGCATCTCTCATTGCATTTGTCCTGTCTTCTTGGTTTCTTCCAATCTGCATCAGTTTCTTAGCCTTGCCCTGGTTTTTTAAAATCTTGACATTA
TTGAAGGGTACTGATCAGGTATTTGGTAGAATGTTCTTTATTTCAGTTTGTCTAATGTTTTTTCATAGACCTTGGCTATGGATTTTTGGGAAGAATATCA
TGGCGGTGAGATGCTGTTATTATGGCAACACAGAAAGGGGTTCTGTGATCTCAACATGACCTGTTATTGATGATGCTTACTTTGATCACTTGGTTAAAGT
GGTGTCTGCCAGATTTCCCCGCTGTAAAGTTACTATTTGTCCCTTTCCATGTTCTATTCATTAGTAGTGGGTGGCTAAGTCCAGCCCACACTGGAGAGGG
GGAGTGCCATCTGTTTTTATTCCTATCATTTCAATTTGTTTAATCCTCATGGCTTTATTATCACCTCACTACTTTTTAGAGATATGGTTGTAATGAGCTA
GACTTGCCCAAAGTTACTCAGCTAGTAAATGGCAAAGCTAGAATTTGAACTTATATGTGTCTGGCTTAAAAGGCCATGTTCTTTCCACTTCATGTTACTG
CCACCAAGTAAAGAGGATCTCACAGTCTCCGAGGCGGAAGCTCCCTCTCAGCTTGTCTGGACAGTGTTTTTCAAATCCATTCTTGGAGTGTGACCCATCA
GTGGGTCATGAGGTCAGTCTGTGGGTGGCATTTTAAATAACAACATAAAGTAAAGGTGACTACAACAGAGTAGAAAATAAGAGTATGTCACACAAGTAGA
AATTTTTTATCTCTATATCTTCTCTGTGCTTTGCTACCTTCATCTGAATTCACTTATCCTTGTATGGAGATAAAAATAGCCCTCCCATAGGCTTGTTATG
AGGACTGAATGGAATGAGGTACATAAAGTGCTTAGAAGAGAGACTGGCTCATATTAAGCATTATATAAATATTAAGTATGTATGTATGTAAACGAGTCAT
GATGTAAAATGTATTTCTTATTGCAGACTGCAATCAAGATGTTTGAAAATACTGAACTCACATCTGTAGACGAGGAGTTGGCAGATTTACGACCCCCAGC
TTGCAGCCTATTTTTTAAAAATAAGGTTTTATTGGAACATAGCCACACTCATTGGTTTAGGTATTTTCTATGGTTACTTTCGAGGTATAGTGGCAGAGCT
GGGTACCTGCAACAGAAACCCTGTGGTTCACCAAGCCTATCATATTTACTACCTGGCCCTCTAGACCAATGCTCCTGCCTGGAGGTCATCTCATAATCTA
GGGAATATTGGACACCTCTTCCCGGGCATGTGGTCTGGTCATGCTACTGTCCTTGCAGGCATGCTTGCTCTAGGCTGTGTGACTGCCAGGCACTTGGATC
TCCAGAAGCTCATTACTCTTCTCTATTAAACTGATGCCTACATGGTGAAAGGCTAAAACCATGGTACTTTGGTCAGGGTCCCCGCAGGAAACAGATGGCC
ACTCAAATTAAAATGATTGGTGAGGGCAGAGTGTGGGAAAGTAGCAGAGACCTCAGAGGCTCATAAAAGTAGAGTTTTACCACCCTAGGCAGGAGGAGAT
AAAGAAAGGGGGCAATGCCTGTACTGGAAGGAGAGAGTCATTTAGAGAGGACACCTTATGAGGACCAGTGACCTTCAGTCCAGGGACACAGAACCAGCTC
CAAGTGACCCTGGGGTGGGGATCCAGGAGAATAAATGCCTTGACTTAACTTTCCTCCATCTCTGATCTCCTGTGGAGGGCCCCATTGACCAAAGTGAGAT
GGAAATCAGAGGGTATGGGATCCTCTGATGTGGCTCATACAGACCAGCTTCCCAGGCCAGAGAAGGTTGAAGAGAGGTTGGAGAAGGCTGGAAAGGGGAT
CTGGAAGGGCAACTCTTAGATACCCAGCACACAGCATTGATTTAGGAAGCCAGATTTATTTACCTTTCCTAAGCTCCCCTAAACAAGGACTTCCCCTGCT
TCATCCTCCAAGTTGGAACTTTGACAACACCAAAAGGTTGACATAGCTTTTCCCTTTTACTGCCTTTTCTTCTTAAATCTGCTAGCTTCCCGATAGCTAT
TGTGGGTTAATCTTCCTGGATCTTATCATGAGAGGGATGGAAGGTTAAGAGGCACAGATAAGCTACTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTCTGAGCCTGAGCAGAGTCTGATGAATATGTGGACTTTCATTAAAGTTCTTCCTCATGTCCCATCTTTTGATCTCAGAAAGG
AGCTGTGTCCCATTCATCTAGGCAGCCCTGCTCATGTCCAAAAAATGTGTGAGTCAACCTCTGGCCCCTTGGGAGAAAGAGCCAGGGGGAAAAAGGCTAC
CTAGGCTGAGAAGTGTCCCCAGAGTAATCCGTTCCTTTGCGAGACCCCCTACTAGCCCAGACTTCCTTGATGGCACCTGATATCTTATAGGCCCCCAAAT
CCTGCCACACAACTACAGCTTGTCCCCTGGAGGGGCTTCCCTGGCCAGTCCAGAATGCTCAATTTATGAGAGATCATTGGCTCACAGGGAGGAAGGGGAT
GGCTTAGGTAGGCCAGCCACCTTGCAGCAGAGCTGGGCAAGAATTCAGGATTGGAGACTCTTATTAGTTTCCATCTTTCTTTTACAGAAGATGAACACTG
AAGTCTTGGAACCCTGGGAATGAACCTGGAAAAATTCAAAATATGGTCTAGTCTTAGGCAAGTTTCCTTGTCCGGCTCAGCTGCTGAGACCACATATCTG
GACCCTCAGTGCCCTGGCAACAGCTCTGTGCAGGCAGGATGAAGCACAGGCTTAGGTCAAGCAATCAGCCGTCAAAATCCACACTCTCACCTGTGAGTGG
CTGTTCAACCTTGAACATGTTACTTTTTATGTTAATGAAACTCAGTTTTCTAGTCCTATAAATTTGGGGCTATCATCAACCATTAAGTGATATTAAACCC
AGTGCCACACAGGCAAGTACCTAGCAGTGTCCAAAGGCCCCCAGAATGACACTTTTTCATCTTTTCTCTTCCCTCCAATTGAAAGACTAGTGGAATATCT
GCAATTACTTTGACCAAAAGCCAGAAGCCGGCCAGTTTGAGTGTAGCTGTTACAGCTTTGTGTTCTAAACCTAAGAAATGGGGACCCCTCACATGAGAGT
GGGGAGGCTTCTGGATGTGCTACAAATTCCATTTCATTTTCATGAACTCCAGTGTTAATTAATAAAATCTCAAGGTTCTCCCCCCTCTTTCGCCTCACAT
TTCTTCAGAGAAATGAAGAGTTCCAACTCATAGCCCAAGTGCTCAGGTTTTAAATTAGACAACTTTGTCCTGACAGGAACCAAGTCACAGCTGTCATACC
TGATTACTTTTAGAGTTACTACTAAACCCTTTGTATGGCATGAGCTGCCACTGTTCAAGGCAAACAGAAACACTTCACATTTTATCATGACAGCCCTGGA
TCTATCCACCTCCCCATGTTCATTATGCTCAGCCTGTCTTTGGAAGGGATGATGAGGCATCCTGAAAATCGTATAGTGAGGAAGGCAGACCCCATGGCCT
GTCACTACAGCCTAGGGATTTTAAGCCCCTAAAGTGCAGCAAAACCCACTGCCTCCAGGAAGCCAAGGAGAATTATTTCTGGGGGACATAGCTGCCTCAT
AGCCTACTATGAATGAACCATCATCTTTCATGAGAGGCAAACATTGACCCTCAAGTAACCAACCAATACGAGCACCTGTACACAAATGCCCACAGGTGTT
GGCTGGGATTGGCTGGCTTGTGGATGATGTCACAGTTTCCCTCCTCTGACTCAACAATGCCATCAGCACTGAAAAGGCTGAGCCCTGACTACAGCTCTTG
CAGACAGAAAAATTCGCTGCAAGTACAGCACTTTCTAGATTGCTCCTGGAGTGTGGGAACAACAGTCTCTCCTGTCCACGTTACTGAATCCAGAAAAAAG
GTGAACTTACGAACATGGGAAAAGAAATCCAGCTAAAGCCTAAGGCAAATGTCTCTTCTTACGTTCACTTTTTGCTGAATTACAGAAACAAATTCAAGGA
GCAGCAGCCAAATACCTAYGTTGGCTTTAAAGAGTTCTCTAGAAAGTGTTCGGAAAAATGGAGATCCATCTCAAAGCATGAAAAGGCCAAATATGAAGCC
CTGGCCAAACTCGACAAAGCCCGATACCAGGAAGAAATGATGAATTATGTTGGCAAGAGGAAGAAACGGAGAAAGCGGGATCCCCAGGMACCCAGACGGC
CTCCATCATCCTTCCTACTCTTCTGCCAAGACCACTATGCTCAGCTGAAGAGGGAGAACCCGAACTGGTCGGTGGTGCAGGTGGCCAAGGCCACAGGGAA
GATGTGGTCAACAGCGACAGACCTGGAGAAGCACCCTTATGAGCAAAGAGTGGCTCTCCTGAGAGCTAAGTACTTCGAGGAACTTGAACTCTACCGTAAA
CAATGTAATGCCAGGAAGAAGYACCGAATGTCAGCTAGAAACCGGTGCAGAGGGAAAAGAGTCAGGCAGAGCTGATGGATCCAGTTTGAAAAAACAAAAT
GCCATTCAACCGTATTTCCTGTTCCTGGTCTCATGTGTGGCATTAGAGTAGCTGTGACTGATGCTTTGTGGAGGAGGGAGTGGCTTGGTAGAGGAGAGAC
TGATCCTGAGGAGGGGAACGGAGAGGACGGGAAGGGAAAGAAGGGGAAGGGAGGAGAGGAGGGAGGGGAAGGGAAGAGAGGGGAAGGGAAGGGAAAGGAG
GGGAATGGAGGGGAGGGAAAGGGAGGGAAGGGCTGGCTTTGAGAGAAGTGTCAGCAGTAAACAAAAGGTGTGACTTGGGCCACTGGGTGGGAGCCTCCAG
GTGTAAAGTAGCAGCAGTCATGGAGGTAGAAGCACCGTGGTTCTGAGTGGTGATCCAGGTGAGAGGACCCTACTCAGTGTCAGGTTCAGGAACATGACGT
CTGACTCTGCTAAGCAGTGGCAGGACTGGGAAGACTGCCAGGGCTAGAAGGCCTAGAGTTCAAGCTCACACTTGAGGCCCCAGGAGAAACATATGGCATC
TGAGTTGAGACAGGCCTGAGGGAACCCAGGATTTCCAGCAACACTTAGATACGCTCAGTGGGGCCAGGGTGAACTCCCAGGGGTGTTCCCTAATCAGGAG
GAGGCAAGGGGCAGATTTTACCAAAAAAAAAAAAAAAAAGCAGGGGGCTGGGGAACCAGATCAATCGTTTTTCAGTGGATAGATGTATAATATGTGGCCT
CCACTCCTCTTCCTCTTGTTCATAGCACTCTGACTCCCTTTCGTGACCAAGGCTGGATAAGAGGGCAGGATCGCCTTGGCCACAGTCATTGGCTCAGTGG
TGGGCATGTGACCCAAGTTGGTCCTATCAGGGTGGACCTCTGGACCTGTGTAAGGAGTCCTGGGGGACACCGCAGTCCAGGGAATGTGGACAGCCATTTG
CCATCTCATAGGGCCCAAGAAGGAGGCCGAGATGCTAGAATCCCTGTGGCATCAGAACAGTCTCCTAAACTTTTCATTGAAGATGAACAACACATTTCAT
TTTTTCCCTGAGATGGTTTGACTTAGGTTTTTTCCTACTTGACTATAATTTGACACAAATGGGATTGTGCTGTAAGTGTCTGTCTGGTAACTAGATTTTT
CAGGCAAGAATATACTGTAGGCAACATTCCATACCAATCAATAAAGATTGAAATGGAATATTTTGAAATGGTTCTTCTGACTTCTTGACATCAAAAATAC
TGGGCCAAAATGCAAAGCTGCTTTTTTGTCACCAGTTTATACATGCAACAGATCTCCCTAACTCCACCTCTAAGGACCCCTATTCCATGATAGAGGGACC
TACACTTTCTACTCTACTGCGCTGAACAGTAAAAATACATATTTTTGAACAGTCTTTTAGAACTGCATGAGCCTTTAGGGGATGAGAGGTAATACAGTGA
TTTAGAAATTCAGGGTCTGGAATCAAACAGGTCATTTGTGGAGGATTTTCATGTGCCAGGCCATTTGCTGGGTACAGGGAGGCACATTACGCACTACTGC
TAAGTTCCCGCCCTATAAAAAATTTCCTTCTGACAGGAGAGATGGACTTGGGCATAAATTGCAGCACTGCAAAGCAAGATGATGAAAGTGAATGCAGAAA
GTAATGGGGGAGGGACTGGGGACCACCCAGCAAGCCTGTGCTGCAGTCTTCATGAAGGAAGCAGCCTTATTCCACTTGACAACTTTGTAGGCATGCTGGC
AAAATTCCCGTTCCGCATTCCCCACAGCTGCTATTCCAACTTGGCTCTGCTTCTCTTCCCTCTCAGGAGACGCCCGCATTTTCTGCTTCATTGAGAAAAT
AGAGATCCTCAGATATAAGTGCTCTCAGTTTCCTTCATTCTTGAAATGTAATCCATACCAATCCTTTCCTCCTGGTCTCACCCCTCACGGAGAGCTATCC
CCCTCCTGCTCTTCCTGCCCCCTCCCTGCCTCCCTGGGGCCCTTGCTCCTTACTATAAGGGTGCTGGCCCTCCAGCCTGTACACTCATACAAGTTCACTT
GATGCCATGATATGGTGGTCCCCACCTTAATGTTGGCAGAACTTAGGGCAAGTTCTCATTCCTCTGAGCCTCATGTTCTTATCTGTGCAAGGAGGATAAT
GCCTGCCTTACAGGTTGTTTTAGCAATTAACTGAGGTAATACATGTAAAAGTATTTGGCACAGTCCTAAATCTAATAGGTAATATAGCGGATATACTCTA
GGGTGGCTGTTCCATAATCCTTTCCTCCTTTCTTGGTGTTCACACCCTTGTATAATCCCCTCCTATTAAGTGTGGGCTGGACAGGTGACTTTCTTCTAAC
CCATAGAATGTGGCAAAGGAGATGGGATGTCACTTCTGTGATTATGTGATGATAAATAATACTATATATTGCTAGCCACTTTGCTCTAGGGATTCTCCTT
GCTGCTTGATGAAGTAAGTGGTCAAGTTTGAGAAGCCCATGTGGCAAGGAATGACAAGGAACTGTGGGAAATGTCTAGAAGCTGAGGGTGGCCTCAGACC
ATTAGCCAGTGAGAAACAGAAGTTCTCAGTCCACCAACCACAAGGAACTTAATACTGCAGCAGCCACACAAGTGGGTAGGTGAATCCTTCCCCAGTCAAG
CCAGCAGATGAGAACTTGGCCCTGGCTGACCAAGGCCTGAAGCAATGCACACAGCTAAGCTGTTACTGGACTCCTGACCCCACAGAAACTGTATAAATGT
AAGTTTAAAACTATAAATGTTTAAACCATATGAGTGTATTTTGTTTTAAGCCACTAAGTCTGTGGTAATTTGTTACACAGCAATAGAGAATACATTACTC
AATAAATGCCCTCTTCCTTATAATTCTAGAAGAGACTGTCTTTAATCTTGTTTCTATCTCCAGCCTCTACCTTCCCCATTTAATTTCCTTTCCTTTGTTA
CCAATCTCTTGTTACCAACATCTTGAAGGTGGAGGGCCACCTCCCACCGTCCAGTGCTAATTAGATCCTGATTTGTATTACCCAGTAGTAGTTCCAGTTG
GGTTGTCTTGTTTCCAGCCTGAAATGTGGGCTCTTGGTGGGCAGCAGCTGTGTGATGTACCACACTCCTCTCTGGGAAGAGGGCCCCCACACAGCTAGGC
CCCAGCTCTCATGCCACCCCTTTCTGGTTTCCTGTGTGATTAATTATGTGAATGTGGGTGGCCAAGTCAGAGTTTTGACAAGAGTTTGCAGTTCCCCTGC
TGAAAACTAACTCCATTAACAGTCCTTTATGAAAAAGACAATAGGAGGGTCTGAATCTGCTGGCTTCTAATGACTGTAATGTAATGACAATGGAGAGAGA
GGGAGGGAAGGAGGAGGAGAAGTTGGGGGAGCCTGGACCTAAGATAATGGGTGAGAGAAAAAGTAGATGGACAATCTGGTGTGGTGCCAGCATTCCAGGC
CCACTCAGCTGGCCTCAGGTGCTCCTGTCCTTGAGAAGAGGAAGGCAGGCCCATCACCATCTTGATGACTGAATCACTCAACTCTGATCCTTCTCTCCTC
AACCGTTTTTCTGTGTTCATGTAGTCATTAATTTACTTACTCATTCATTCAACAGATATTTACATAAATCTTATGCCTGCAATATAACAGCAACTATTCT
GGTGCTGGGAATACAACAAGGTTCCTCATCTCTCACGTTCCGGTGAGGAGAGACAGACAATTAAAAAAACAACAAATAGGCCAGGCGCGGTGGCTCATAC
CTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGTTTCATGAGGTCAGGAATTTGAGACCAGCCTGATCAACATGGTGAAACCCCATGTCTACTAAAA
ATACAAAAATTAGCCAGGTGTGGTGGCACGTGCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCA
GCGAGCCCAGATTGCACCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTTAACAAACAAACAAACAAACAACACAAATACATATATCGAATC
AGTTTTTGATAGGGTAAAGTACTCACTAGAAAATAAACGTGGGTAATGAGATAAATGATGATAGATAGGATAGAGGGCACTTGAAATGGATGGTCAGAAG
TTTTCTGCGGAGCTGGCATTTGGGTTTGGATTTAAAGGGCAAGAAGGAGCCAGACAAGCCAAGGTGTAAGAGAAGAGTCCTCCAAGCAGCAGGGAAGCAA
GTGCAAAGGTCCTTGCAGAAGCGAGCTTGGCATATTAGAGGGACAGAGGGAGGCCGGAGCAACTGGAGGTGTGAACAAATGGGCGAGATGTGTTTGGAAG
GGTGAAGGCCTTGGCAAGGGGTTTATGTGGAAATCTAAGTGCAACTGAGAGCCACAGAGAGATTTCAGTAGTGGAGAACCACGTGCTTCCATCTCTGACT
TTGTGTTACTCATCATTCTAGGGTCTTCAGAGACTATCAAGTGCCAACAAGGGGATTACCCCTCTGCCCCTCTAAAGGATTGCAAGAAAGAAGACACCAA
ATCCATGGCATTTTTTCCCTTAGGAAAGAAGGGAGATAATGAGAAGCCTCCACTTGGTATTCCTTGGAGCAGCTGGAAGCTAAAAACCAAATGTGGGAAC
TGTGAATCCTATCTCTGGGATATGTTTTCTCAGGAAATGGAGGAAATGGGTGGGCACGGGTGGCAAAATATTCCAGGGGAATACTTCTTCCTGGGCCTTG
TGGGGAACAACTCCCAAAAGGCCAGTGGTTCTCAGCTTTAAGCCTGTGTTAGAATCACCTGCAGGGCTTATTAAAACACAGATTGCCGGGCCTTACCCCC
AGAGTTTGATTTAGTATTTCTGGGAGTTGGATCTATAATTTGCATTTCTGAAAGTTCCCAGGTGATACTGATGCTCCTGGTCCCAGGACCACAGACAAAT
TCTCCTTCTTGTAGCCCCTCATTCACTCTGCGTAGGAGGCATGGCTCATCTGGCTGGTGGGTTTGGGAGGAGGAGCAGACCATGCTCAGTTAGCCCTCCC
CACTCTCCCTTTCTCTCTCTCCCCATCGCCCTAGCTGCAGAGCATATTCAGACAGCTCTCCAATCAGTTCATCAGTAATAAAGGTGACATGCTGATCCTC
ATCTGTTTTTCTCTTGCATCTGCCAATTGATTCTGCACTTGAGAGGGGAATAAGTATATTTATTTATTGGGTTTCCCTCAAATTCCAACAGAGAAGTTGG
TATCAGTTGCAAAACAATCAACTGGCATCCGGGCCACACAGCAGCATAGGAATCTTGGTTTTAGCTTCCACTAAAATATCAATTATTTGAGGGCAAAAAA
TGTCCAATTCCTGGGCCTTTAAGATAGGAAGTCAGGTCTGTGGATGGGGTGAGGTCACCAGGATGAGGTCACAAAGGCATTGATGCCCCTTTGTCCTATC
ATGTGACCACTTGTCACACTTCCATCAAACAGTACCTGCCCCTTAGGTGTGCTAGGGAATAAATGAAATGCCTGGGACATCATCGTTAAGTGGCATCTGA
TGCATAAGCAGTGCCCTAGGAATGGGGTTGCCTGCCTTGGTCTCTAAAGGATGGGTTCAAAAGGCAAGAGCAGCACACAAGAAGATAGCTTCAAGCAGGA
GAAAAAGCTTGGCCCAGGGCCCAAAGGGGATACGACCCTTCAGGTTGGCCCTGACCTCTGGGTTGGATTACCAGTGACACAATGAACATTTCATTATGAG
GCCATCCCTTGAGGTAGTTGCATTGCAACAGCTCTCCCTACCCAGTGCTGCATTTCCAGTGCTTTCTCTGTTCAGGCTGCTGGGTGACATTTCTATGTCT
CCCCTTCAACGGTGAAATATTTCAGTGGTTGTCCATCACCTATGGGAGTCTGACATGGCATAATCAGGCCACTGGGGCATTGCTAGTTGTGCTGTCCCTG
ATATTCACCGTGGTAGGCAGTTTCTGAAATGGCTCCCAGTGATCTCCAACTCCTGAAATTCACACTCTGTGTAATCCCCTCCCTTTGAGTGTGGGCTAGA
CCTGGTGGCCAAA


SNP Information

Context             (SEQ ID NO:54739):
AAATATGAAGCCCTGGCCAAACTCGACAAAGCCCGATACCAGGAAGAAATGATGAATTATGTTGGCAAGAGGAAGAAACGGAGAAAGCGGGATCCCCAGG
M
ACCCAGACGGCCTCCATCATCCTTCCTACTCTTCTGCCAAGACCACTATGCTCAGCTGAAGAGGGAGAACCCGAACTGGTCGGTGGTGCAGGTGGCCAAG
Celera SNP ID:            hCV9957294
SNP Position Genomic:     6389
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(A,5|C,15)   total(A,6|C,48)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,5)      total(A,2|C,5) ;no_pop(A,-|C,-)   ;(C,-|A,-)   POOLE|_CEPH(A,35|C,153)   total(A,35|C,153)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54740):
CCTGGAGAAGCACCCTTATGAGCAAAGAGTGGCTCTCCTGAGAGCTAAGTACTTCGAGGAACTTGAACTCTACCGTAAACAATGTAATGCCAGGAAGAAG
Y
ACCGAATGTCAGCTAGAAACCGGTGCAGAGGGAAAAGAGTCAGGCAGAGCTGATGGATCCAGTTTGAAAAAACAAAATGCCATTCAACCGTATTTCCTGT
Celera SNP ID:            hCV25763982
SNP Position Genomic:     6622
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,29)   caucasian(T,14)   total(C,3|T,43)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54741):
GAAAAGAAATCCAGCTAAAGCCTAAGGCAAATGTCTCTTCTTACGTTCACTTTTTGCTGAATTACAGAAACAAATTCAAGGAGCAGCAGCCAAATACCTA
Y
GTTGGCTTTAAAGAGTTCTCTAGAAAGTGTTCGGAAAAATGGAGATCCATCTCAAAGCATGAAAAGGCCAAATATGAAGCCCTGGCCAAACTCGACAAAG
Celera SNP ID:            hCV8922475
SNP Position Genomic:     6219
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,1)   total(C,73|T,1)
SNP Type:                 NONSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   (C,-|T,-)   Caucasian(T,1|C,83)   African-American(C,80)   Asians(C,84)   total(C,247|T,1)    
SNP Type:                 NONSENSE MUTATION


Gene Number:                 274
Celera Gene:                 hCG1640036 - 66000115967104
Gene Symbol:                 FBG3
Protein Name:                F-box gene 3;FBX30
Celera Genomic Axis:         GA_x5YUV32VY08(8389802..8410768)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12434):
TTTATCCATTTTTTCATTCATTCCTTCCTTGGACAAATAATATTTATTGAGAGCCCACTTTGTGGCAAGCACTGTGCTAGGTGCAGGGAATCAGCAGTGG
GTCCAGTCCAAGCTCACGCCCTCACGGATCTACATTCTAGAAGCCGGCTACCTAAGCAAACCTATGCCAACAAAACTTCTCTCTCCCTGCTCAGGGGCTG
GGATCGGAGCAAGGGATGGGAGGAGGATGTGTGGCTTGGGGAAGGTGAGGACGCTATGGACTAAGTTAAGGCCTATCTACCCTCGACCTTTGCCCCTCCA
GGCAGCTGGGGGAGAGCGGAGGCAGGGTCGCTCAGGGTTCTACCCACACGCTGCTGTTGGTCACCCGGGCCCCGAACCAGCCCTTCCAGTAGACGGAGTC
CTGCCCCCCGTGCTCGAAGCGGACGAAGCGGACGCCCGGCCCGTAGTCGGTGAAGGTGTGGGAGATCTGGGGGTGGAGGTAACAAGAGTCAGCCTCGGAG
GTCCTGAGGCCTCTCCTGCCGCCCCACCCCGGTACACCGACCGACCTGCAGCTCCCCCACTCGGTTTCTCCGCGGTATTCAGAACTCTCTCCACCACCCG
GTGACTATCTCAGCCCAGCCCAGCCCAGCCCAGCCCAGCCCAGCCCAGGAGCGCTGTGGGCGGGGTCTCCTCGAGCCACGCCCCTCATGTCCGTGCCCCA
CCCCTCCGCCCTGGGTCCCCCAGGCTCACCTCCATCCAGCCCCCGCCGTCACTGTCTTGGGGCACTGCCACCTGCCCGCTGCTGAACTCAGCCAGCACGT
TCTCGTGCTCGGACAGTAGCTTAACGGTGAGCTCGTAGAGGCAACCAGCGTCGCTGCGGCCCGAGTACCTGCTCAGAGGGAGGGAGCGAGGTGGGGGGCG
GGAGGTGGGGTGGGGGCATGGCCTCAGCCCTGCTGAACACGTCCTGGGGATGGGGATTTCCACAAAAGTCCTCCTGTGCGCCCAACATCCCTGTCAGCCA
GCACTGCCAGTGTTCCCAGTTTACAGATAAGGGAAACGAGGCCAGCAAGAGAAAGTGACAGCCCACGAGCGAAACACGAGGACTACATTCCAAGTTGGCC
AGACCCCAGCTTGGGGCCAAAGCCAGTCCACAGAGTGGCCTTTGGTTTGGACCGCAGACTGATTTTGAAATATATACATTACATATATACAAACATATAT
ATGTGCATATATTTGCCAACATTTAAAACTCAGGAGGGGAGGTGGGTTTCCAGGTTCTCCTGCAAACACGGAAGTTGTCAACCTTTGCAGACCCGTGGCC
CACGTGGCCTCAACCCCTGCAGTGGGGAGGCAGCACCCCCAGGCGGGGGGTTCCCCAGCTGGCTCTCCCCTCTGCCTTACCCCGCTCCTCCCAGCCCCAT
GCCACCCCAGGACCCTCTCACCAGTCCTTCACCACGATGGCCGGCTGAGTCGTGTCCAGCAGCTCCTCCCAGTAGCCCTCAGCCTGCAGGTCAATGACCT
GTGCTTTGCGACACCACCTGGGAGAACTGGAGTTAGGACAGAGCGAACGCTCCCCCCTTCCCACCTCCTCCACCCCCTTCTCCTTACTCAAAGGAGGAGG
CGAAGTACTTCTTGACGCTCTCATCGTGGGTGAACTCCACCCCACTGTCTCCAGGCAGCTCCTCCACCCTCCAGCCGTCCCCACCATGCTCCACGTCACA
CCAGCCTTCCAAGTCCTCTGTAGGGACACGACAGCCCCACCCTGGTCACTCAGTCCCTGCTAAGGCTGGCTCTTGCCACTATGTGGTGGGGGGCAGGGCA
AAGGTCGCACTTGGTGTCTTGGTGGGCAGATGATGAATGAGAGGGTGGACCAGTGGGCAGTTTCTAAATCTGCCTCCCGGGAGGTATGTCCCCCATCCCG
CCCTGCCCCAGCTGGCTGAGGGTGGGAGGACCCGGGAGACCCCAGGGCACAGGTGGCCAGAGAGCTACAGTAATAGACAGCCTTGGGGCTACCCAGTGCT
GGCACTGAGCCAGGCGCTTAATCCCATTTCTCCCTCAAAGCCAGGCGGCGCCGTTTCGGCCCATTTCGCAGCAGGGGAAGCTGAGCTCGCCCAGCGAGGG
CCTCTCACCTTCCCCACACGGGTTACGCAGAAGGTTGCGGCGCCGCTTGCTCAGGAAGTAGAACTGCTGCCAGTGGTCGCGCTCCTCCTCCACGCCGCCC
TCGGGCACCAGCCCCTCCTGCTGGCACTTGAGCAGCCACAGCGGGGCGCCGTCCACCAGCTCCTTCCAGCGCAGGCACACCAGGCGGCAGGCCTGCACCA
GCTCGGCGGCCGGCAGTGCGGCCAGCACGCGCAGCAGCAGCGGCTCGGGCAGCTCGTCCAGGTACGCGGCGGCGGCCGCCGCCTCCTCCTCCTGCTGGTC
CTCCGGCCGCTCCTCCTCAGCACTCGCCTCCTCTGGCTGCTCCTCCGGGCTTGCCTCCTCGGGCTGGCCCACGCTCTCTGCAGGCAGGGATGGGTGGGAG
GCTGTGATTCCTCCACCCTGTACTCCTCCAGGCCCCAGGACTGCAATGTGCCCGTAACCTCCCCCACCCACCGTGGGACAATCCACAGCTGGGGCCGGAG
ATTCTGTGACTCCATACTGGTGCCCAAGGAGGAGGGCCACAAGGCCACAGACCAACCCCGGATCAGCCCCTAAGTCCAAAGAGGTGCCTCAGAGGCCTAT
TTCCTCTGCTGGACCAGTAAACCCCACGCCTGGGCAGATGGCAACAAGGATCATATTATTATTATTAATGGCATCCATCTATAGCACTGCACAGTGCTTC
ACACAGGAACTTCTTTCTTCCTCCCAACCACCCTCTGAGATTCCTGCTCCCCTCACCTCCTCAGGAAGCCTTCCGGGACTTCCCCCTATGACACCCTCTC
ACAGCCCTTCCTAGCTTTTGTCCTGGGGTGTGATCCTGTGATAAACGCCTGTCTCTGGACCATACGGAGCCTTATAAGGGCCAGAACATGGTCTGGAAAA
CACACAGCTTCATGCCCTGTGCCTGGCATCTGGCACTTTCCTGGTCTGTTGTCAGGAACTCATGTTTTGGGGGCACTCATCAAGTGTTAGGCACCGTCCA
AAGCATTTCAACTTCATTTACTCTTTAAATCCTCATACCACTTCTTTGAGGTTGCTCTTATTGCTGTTCTTATTTCATTGATGAGGAAACTGAGGCACAG
AGAGGTGAAACGGCCCAGGATCACACGGCTAATCAGTGGTTGGAGCCTGGATTTGAACCCAGACAGCCTGGCTCCAGAGCCATCTTAAACCACCACAGCC
TCCACAGAATAATTCACTGAATTAGTAGGCAGTGTTAGGATTTTGACTTTTTTTTTTTTTTTGATATGGAGTCTCGCTTGCTCTGTCACTGCTCAATCTC
AGCTCACTGCAACCTCTGCCTCCCGGGTAGCTGGAAGCTGAGAAGCGATTCTTCTGCCTCAGCCTCCCAAGTACTGGGATGACAGGCATGTGCCACCACG
CCTGGCTAATTTTTGTATTTTTAGTAGAGACTGGTTTCACCATGTTGGCATGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCC
CAAAGTGCTGGGATTAAAGGCGTCAGCCACCACGCCCGGCTGACTTTTCTTTTTAAAGATAGGGTCTCACTCTGTTGCTCAGGCTGACCTCCAACTCCTG
GACTCAAGCAATCTTCCTGCCTCGGCCTCCTAAAGTTCTGGGATTACAGTCATGCTCCACTACACCCAGGCCAGGATTTTGACTTTGCAGGTGCAAATGC
TCAGGCTCAGGGATGAAGTGACTTGTTGAAGGACACACTGCCAGTATTTAGGGAAGGGGACATGGGACCTGGGGCCTTCAGGGGCTGGAGAACAGAGCCT
GGAGACCCAGCTGTCCCCAGCTATTGTGTGACTTGGGGATGAGGAGGGACTTATTAAAAGAAACTCTATCAAGCAAGGAGATGACATAGGGGCTTGGGGA
AGGAAACTTTCTCCACCTCCTTTTCCCATCCGTGGCCCTCAGTTTTCTCATCTATAAAATGGGGGTAATCATTGTGCCAGGCCATACAAACAGGACAGAC
GTCCAAATCCCCTGAGGAAGGGGACAAGGGCATTCTGAATTGTAAGGAGGCAGGCAGATGTCACCGCGGCAGCCGGACTGTCTCTTGCATCCCAGTCGGC
TTCAGCTGGGCCATCACAGCCTTGAGTAAGTGGACACCGAGTGCCCAAGATGCCTGGACGAGGGAGAGCCAGTGAGGAGGAGACGGGGCCACTCTGGGTG
ATCAGGAAGACTACAGCTCTCAGACCTACGGATGGGGAGTTCCCATGGGCTAGGCCCTGGAGAGCCAAGGCGGTGGTGGGAACAGGCCAGGCACTGGGGA
AGGGGACAGGTGGCAGGACCCAGACCCAAGTCTCCAGGCCCACCAGCCCCTAACCTCCTCATATGCAGCCTCTCCTCCCTGCCCAACCCACAGTCAGGCC
CTTGAGAGCTTTCACAGAGCCCAGAGCACACAGTGAGTCCTCAGTCAATCTTACTGAGTGAACCTCATTGAACACAGCACTTCTCCTTCCTTATTAACAT
TTTTTTGGCCACATCTTTATGATGTGGGGATTTACACCGGCCCCTTTGGCAAAGAGGAAACTGAGGCCAAAAAAGGCTTAACAGCTTCTCCCAGACCACA
TCGCAGAACGGCAGGAAGACAGAGGAAAATGCCAGGCCCTGAAGTCACATCACCTGCCCAGGCAGATGCCCACAGCTCTCTGGGGAGCTAGGCCCAGTGT
CCTCACCTCTCCAGCCCTCCCTCCGGCCCTGGCCCCATCGGACACCTGATGCTCCCCGAAAGGTGCACCTCACCCAGTCCCCTCTTCTGGCCCCGGGGCC
TGGCACTCGAGGCCCCAGATCCAATTACAGCTCCCCCCACCCTCTCTCTTACACACACAACTCCCCACATTGTTGCCGGCGGAAAGTTATCTGGCCCCTG
GAAGCTGCCTGCCTGCGAGGCTGACTCACTCACCTGGAGTGGGCCCCAGAGTCCAGGGTATAGCTGATCCCTGGGAAAAAGCAGGAGCCAGTTCTGGAGC
CCTACAGAGGGTGTGGCCAGAAGGCCGTGGATTGGGAGCAAGGGCTGCAAGAGCTGGAATTTTCAGGGCTGGAGGCGGGGGAATGGGGGGTGAGGGGGGG
CCTGAGCTTTCATCAGTCTGTTTGCCACCGCCTAACCCAAGCAATGCCCATCCCCAGCTGGACCTGATGAGGAAAGAGTGAGGGCTGTCTGCAGGCAGGT
CTTGTTTCCATCCTGACTCAGCAGGCAACCCCTGCAGGCCCCGCAGGGAGTTGGAGGGATGGGGGTGAGGGGTCTTGGGTGCCAGAGAGGATGACTGGGC
AGCCTGGGAAGGCCCTGAGCACCAGCCAAAGCTGCCCCCAACGCTCCCTCACCGCTAGTCGGGTCCCCACTGGGCATCTCACCACCCCGGGGAGGGGCAG
CCCCTCCAGACAAGGGAGCTCAGGAGGAAGGCAGGAATAGGTGAGGCCAGGCCTGGGACCCCAAGGAACCCACGGGGATTCAGACGGCCCAAGGCCCAGA
GCTGGAAGAGCTGATGAAAGAAAAGGCTCGCAGCCTCCCTCCCAGACGCATCCCAGGCCCCCGCCAGACAGACCCTCAGGAAGCTGGGAGGCGGGAATGT
GGGGGTCCTCTGGTGCTACTTCCTGGCTAAATGGGACCCAGGAGTTCTCTCTCCTTGCCAGTCGCCTCTCAAGGCCTCCCGCCAGACCAAGATAGCAGAG
AGACGTGCTCTTTGGAGACCGCCTCTAGGGCTTCGCTGGCGTGAAAGTTTGCCGCGCCAGGTCTCCGGGTCCCCTCGCTCTCTGACGCCCCTCTGTGCAG
CGCTCGCCCGCCGACCCCATCTCCCCTCCCCGCCGCAGCGAGCGGTCCAGGCGGCGGCTACCTGGGTCACCGTCTCCGTCCATCGCTGCGGAGGGCGGTC
GCGAGAGGAGGAGCCGGAGCGCTGCGGGCTGCGCGAGTCCCGGGGCGGCGAGTCCCGGCGCTGTCCGCGTCTGTGTCGGTCCCGGCGACCGCGCCTCTTA
AAGGCCCCCGACCCGACCCGCCCCGCCCCGCCTCTGGCCCCGCGCCCGGCCGCCCCGCAGTCCCAGCAGTCTGCTCGAGGCCCGGGGCTGCGGGTTCCTC
AGCGGACCGAGGAGGCTGGGAAAGGTCAGGAGTCGTTTTTTTTCCAACTGGGGAGGGGTCCGATTTGGGGCATCTCGCAGCTCGCTCCTGGGGGACTGCT
GGGAGGAGGCGGCTAGGGGAGGCACGGAGAGGCTGGGTCAGGCCGAGGGTGAGGGGCGGGTGGCCCAGGCGGAGTCGGAGTATAGGAGGTGCCTTCCGCC
CCACCCCCCACACCAGGTAATTTTCCTACGACGCGGTGGGGGTGCGTCCCTGGCCCAGCGCTGCGCGGGGCGGGGCGCGGGGCGCGGGTGGCGGTGCCCT
GGCGGGCCGGGGCGGGGCCTCGCTTTCCAGGCAAGCGCAGGTCCAGGCGGTGCAGCTTGGGCGGCCCAACGGATCGTGCCGCGGCGGCCGAGCGCAGGTG
ACCGGCAGGAGGGGGCGCGGGGGGCGCTGGGGAGGGGGCGCGGCTGGGCGGGGGCTGCCGGGAAGGCTCCTGGGTTCCGGGTCGCGCCGCAGTTGCCGAG
GGAGGCCTGGCACCGACCAGGCCCAGGCCGCCGAGCTTGCCCGGGCTGCGCTGCGCGGCTGCGAACGGGGGCTGGGGTCGCCATCGATGTACAGGGGTCC
GAGCCCAGACTTTGGGGGGCATTTTAAGGCACAGCGTGGGAAGGGGAGGCTGCAGGCGCGCTGGCGGACTTGGGGCTGGCGGAGCCCAGCCGCGGGGCTG
GGGGTGGGAGTGGGGGTGGGGAGATAGGAAGGGCCCTTCCCTGTCGCCCACCCTCTTGCCACTCCCACCTAGGCAGGAGATCATGTCCTCTGAGATCTTG
AGAAGGTGGCTGGAGCCCTTTGGACCTCCGCGGGAGGCAGTGATAATTAGCCTCCTCCTCCCATCATGTTCTGAGGATGGGAGAGAGGATGGTGACGGCA
CCGGAGGCCTGGGGTGCTCTGCCCGGCTGCGCATTATATCCCCATTAAAGACTGGCCTACTGAAAAAGGCTGGCCCTGGAATCAAAGAAGATCCGGGCTT
CTTCCCCCTCTGCCCTTATTTTTGACCTTGGGCAGTGCCTTCCACCTCTATTGTGAGAGGCCAGAGAAAAAAATCAGAGCTCACCTTTTATTAAAGTACC
TGATGTGTCCCAAGCTCCTTGGACCGCCCCAGTGACCCCTGGAGGTAAGGCATCCATTTACAGAGAAGGAAACAGGCTGGGAGAGGCACCATGCTCTCCC
GAGATAAATGGCAGAGCAGGGATGAGGCCTGCAGCATAGCTTTTCAACAGCTACAGGAGGGTGTCCAGAAGCCACAAGCCATGGCTGTGGGGAACATCAA
CGAGCTGCCCGAGAACATCCTGCTGGAGCTGTTCACGCACGTGCCCGCCCGCCAGCTGCTGCTGAACTGCCGCCTGGTCTGCAGCCTCTGGCGGGACCTC
ATCGACCTCGTGACCCTCTGGAAACGCAAGTGCCTGCGAGAGGGCTTCATCACTGAGGACTGGGACCAGCCCGTGGCCGACTGGAAGATCTTCTACTTCT
TACGGAGCCTGCACAGGAACCTCCTGCACAACCCGTGCGCTGAAGGTGGGGTACAGGCCGGGTCTGGCATGCCTCCAGTACACAGTCATGACACCAGGAA
CATGTATTGAGCACTTAGTATGAGCCGGGTACTTTGGATGGTTTAACACCTTTACTTCTCTCACAGTAACCCAAAGAGGTAGCTACTGTTAGTGCACACA
TTTTTCAGATGGGCAAACTGAGGCCAAGAGTGGTGTTTCTTATTCTTACTATACTCTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCACTCTGTCAC
CCAGGCTGGAGTACAGTGACACAATCTTGGCTCACTGTAACCTCCACCTCCCAAGTTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCACAC
CTGGCTAATTTTTTTTTTTTTTTAGATGGAGTCTCGCTCTGTTGCCCAAGCTGGAGTGCAATGGTGCGATCTCGGCTCACTGCAACCTCCACCTCCTGGG
TTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACCGGTGCCCGCCACCACGCCCAGCTAATTTTTTGTATTTTTAATAGAGACACAGTT
TCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAGGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACACGCATGAGCCACCGCGCC
CGGCCTCTTATTCTGCTCTTAAGATTATTTCCCCAGTGACCTTTCCTAGGCGAGGGAATGTTGGCCAACTGAGACTAATTCTGCTCAAGACACAAGGCCA
GGAAGTCAGAGCCATATTTTGTTGGCCTAGTTTCTAGGCTCCAGGGTTGGGCCTACTGACATGGTCCCAGAAGGCCAAAGGGGTTTTGCTTGTGGAAGAA
TGGGAGATCCAGTCGTCTTCTCAGTATGTTACAACAACAGGTAAAGCAAGGCTTCCACTGATCCTTGCTTGCTGTGTTGTTGGGTTGACACTGGGATGGC
ATGGGAACCTCATTTTCCACAACATGACCAAATTCTGGAGCAAAATGATAATAAAACCACTCCTCCAAGCTGTGCATGAGCCAAATCTGGCTGAGGCATT
AATAATTGTTCTAATAATTGTTTTTACATTTTTAAAGTGTTATAAAAAGAAGAAGAAGAAACAACAAAAAACTATACAATAGAGATAGTTTATGGCCCAC
AATTCCTACAATATTTTCGCACTTTGCCAAAAAAGCTTCCCAGCCCCTATTCTTAACTCCAGTTTACAGAGGAGACAACTGAGGCTCAGAGAGGAAAAGC
AACTGGCCTGAGGTCACACAGCTGAGTACTGGTAGAGCTGGGACTAGACCCAGGTCTGTCTGGCCCACATCAGAGCTTTGTCCATCACAGAAGGCAGCTG
GGCTGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCATCTGAGGTCAGGAGATCGAGACCAGCTTGGCCAACAT
GGCGAAACACCATCTCTACAAAAAAATACAAACATTAACCAGGTGTGGTGGCATGCACCTGTAATCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATCAC
TGGAACCCAGGAGGCAGAGGTTACAGTGAGCTGAGATCGAGCCATTGCACTCCAGCCTGGGTGACGAGCGAAACCCTATCTCAAAAAACAAAAACAAAAA
AAAGATTTGTGTTTTTAAGGGGTTATAGGAAAAGAAACAACAACAAAAAAACTATACAATAGAGATAGTATGTGGGCCACAAGTCCTAAAACATTTTGGC
ACTTTGCCAAAAATGCTTCTCAGCCCCTATTCTTACTCCAGTTTACAGAGGAGACGACCAAGGGTCAGAGAGGAAAAGCAACTGGTCCAAGGTCAGACAA
CCGAGTACTGGTAGAGCTGGGACTAGACCCAGGTCTGTCTGGCCCACATCAGAGCGTTCTCCATCACAGAAGAGGTCTGGTCATTTCCATCACCATGTGT
CTCAGGGCCCCCAGGGAAGTCACCTCCCTGTGCCTGCAACACAGGAAGCACCTAATACGCGGTGGGCACTGTGATCTGCRGCGTCCCACAGCACAGGGCT
TGAGGGCAGCCGCCAAGATGCAGGCAGAGGAGTGGGGAGGAAGGGGCATTTGGGAGAAGGCGGCCACTGAGGGGCTTCCCTTCAGTGTGAACTCTGCTTT
TCCATCAGAGGGGTTCGAGTTCTGGAGCCTGGATGTGAATGGAGGCGATGAGTGGAAGGTGGAGGATCTCTCTCGAGACCAGAGGAAGGAATTCCCCAAT
GACCAGGTCAAGAAATACTTCGTTACTTCATATTAGTAAGATCCGGGGACTTGGGGTAGGGGAAAGCCCAAATCAATTTACCCTGGGGTCTCTCCCACCC
TGGAAGGGGCAGTCCTAGCCCCTCACTGCCCTAGTGGTGAGCCCAGCCCCTCCCACCCCTCTGCCTGCCCCCAGCACCTGCCTCAAGTCCCAGGTGGTGG
ACCTCAAGGCCGAAGGGTATTGGGAGGAGCTGATGGATACCACACGGCCGGACATCGAGGTCAAGGACTGGTGAGTGCCTGGGGCGAGGGTCTGGGGTGG
GGCATGCCAATCAGGCGCCCCACCCCCGCCCTGCCCCCAATCTCCGAGGCCCTGATGGGCCCTCCCTCTCCCTGCAGGTTCGCAGCCAGGCCAGATTGCG
GGTCCAAGTACCAGCTGTGCGTTCAGCTCCTGTCGTCCGCGCACGCGCCTCTGGGGACCTTCCAGCCAGACCCGGCGACCATCCAGCAGAAGAGCGATGC
CAAGTGGAGGGAGGTGCGTGGGCCTGGGGGACGGGGGCAGAGGCAGATCGTCCAAGGCTGAGGCTGTGGTCAGACGGGGCCTAGGTTCAGATCCAAGCTC
TGCACCTTCTCACCTGTGCTTCCAATGCTCTGAGCTTCACTCGCTGTTTCTGTAAAATGGGTATATAGTGTTTCCCTCATAGAGCTCTGAAAGAAATCAG
TGAAATGATGCTGGCAAAGCCAGGGCCAAAAAATATTCCAAAAGGTTGGCAGGGCGTAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCCAGGT
AGGCAGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTGACCAACAGGGAGAAACCCCGTCTTTACTAAAAATACAAAATTACCCAGGCGTGGTGGCACA
TGCCAGCTACTTGGGAGGCTGAGGCAGAAGAATCGCTTGAATCCAGGAGGCGGAGGTTGCCGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCAA
CAAGAGCGAAACTCCATCTCAAMAAAAAAAGAAAAGAAAAGAAAAAAAATTCCAAAAGGTTGACTGACTGTTACTAATTACTAGTATTGATTACTACTGT
TTTCTAGACTGGGGTCAGCAAATATTTGTTTGTTTGTTTGTTTGTTTTAATTTACTTAACATATTTTTAGGGACAGGGTCTCTGTCACCCAGGCTGGCGC
ATTCATAGCTCACTGCAGACTCAAACTCTTAGGCTCAAGTCATCCTCCTGCCTCAGCATCCTGAGTAGCTGGGAGTACAGGTGTGCACCACCACTAATTA
AAAAAAAAWTTTTTTTTTGTAGAGATGGAGTTTTGCTTTGTTGCCCAGGCTGGTCTCGCACTCCTGGCCTCAAGTCATCCTTCTGCCTCAGCCTCCCAAA
GTGCTGGAACTACAGGCATGAGCCACTGTGCCCAGCCCTAGCAAATGTTTTCTTAAAATGGCGGATACGAATATTTTAGGCTTTGCAGGTCACATTGTCT
CTGTCACAATTACTCAACTCTCCAACTCTGCTGTTGTGTGAAAACAGCTCTAGACAATATGTAAACGAATGGACATGGCTATGTTCCAGTAAAACTTTAT
TTATAAAAACAGGCAGTGGGCCTGCAGGCCATCGTTTGCCAACCCCAGCCCTGTCCAATAGAACTTTCTGTAGTGATAGAAATGGTCTGTGTCTATGCTA
TCCATAAGGTAGCCAGTAGCTACATGTGACCACTGAACAGTTAGTAAGAGCCAGTTCCTAGTACAACTGAGTACCTGAATTTTTTATTTCATCTAATTTT
ACTTAATTTTTTTTTCTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGTTGGAGTGCAGTGACGCGATCTCAGCTCACCACAACCTCTGCCTCCCGGT
TCAAACGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCACGCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTC
CATGTTGGTCAGGCTGGTCTCCATCTCCCGACCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTTCTGGGATTACAGGCATGAGCCACCGCGCCGGGC
ACTTTTACTTAATTTTAACCTAAATAATACATGTGCCCCGTGATGAGTATATTGGAYATCCTTTGGCAGCTTGCAGTTTCTTTCCATTCCTTTGGGCTGA
ATGATAATCCTGTGGAGTAGACCAGCAGGATTTTGCTCCATTTTATAGATGAGGAAACTGAAGCACAGAGAAAGGAATTGGTCTGTCCCAAATCACAGAG
TTCAAACTAGAACTCCACTGATTTCTAGCTGGCACCAAGAACTCAGCCCCTTCCTTGTTCCCCTGCCCCCCTCAGGCAGTGCCACACTCAGAGTCTGCTC
CCACCCTTTTTGTTAAGGCTCATCTTTTATTTCTTTTGTTTTTTAGAGACACGGTCTCACTCTGTTGCCCAGGCTGGAGCGCAGTGACGTGATCACAGCT
CACTGCAGTCTTGAACTCCTACTTTAGCCTGTACTCCTGCCTCAGCCTGCCTAGAACTACAGGCACACACCACCATGCCTGGCTAATTTTTTTTTTCTTG
TAGAGATGGYATCTCACWCTCTGGTTTGCGACAAGACTAGTTGCAAACTCCTGGGCTCAAACAACCCTCCCACCTCAGCCTCCCAAAGTACTGGGATTCC
CGGTGTGAGCCGCCACACCCAGCCTGAGTCAGCTCCCTTGACCTTTCTCCCCCCTCTACCTGCCCTGCCAGGTCTCCCACACATTCTCCAACTACCCGCC
CGGCGTCCGCTACATCTGGTTTCAGCACGGCGGCGTGGACACTCATTACTGGGCCGGCTGGTACGGCCCGAGGGTCACCAACAGCAGCATCACCATCGGG
CCCCCRCTGCCCTGACACCCCCTGAGCCCCCATCTGCTGAACCCTGACTGGTAAACAACTGCTGTCAGAAAAGGGCTGGGCTTGGGAAGGGGAGGTGGAG
GCCAGGTGTCCCCAGACCTCTAACCCTTGCCCCTAGCAGCCTCTTCTTTGTGGAGCCTCTCAGTGTGGGCAGCCCTCGCATGCTGGGGTCGGGCCAGCTC
TCCCCGAAAGGTCTTGACCTGAATGATGGCCGGGGAAGCCTGCGTGTGCCCCTTTCAGAGACGGAGCACCTGAGATGTGGGAGGTGCAGCATGTTCCSCT
GGGCCCCTCAGAAAGTCGAGCTTGGAGGCCAGCCTGGATCTGTCTCTCCCTTCCCCTCCTGGGACCATTCTACCTGTRTTCTTTGACCCTCGGAGCAGGG
ACAGGCAAGACAACTGGCAAGCTTGCAGCTGCCCTGATGGTGCAGGTGCAGGGAGGTGACCATGTAACTCTGACCAATCTGGGAAGTGGAGGGTGGGCTC
ATGGGCCGTGCTCTGCCCCTGTCTGCTGCTCCCAGTCTYTCGCTCTGCCTGCCTGCTCAGAAGAGGTGGCTTTGGCCCAGAGGCTCAGGCCGGGACTGAG
ATGGACAGACCCAGGGTGGGGTGGGGTCCAGGTYGGGTGTGGACTGTCCTCACTGTCAGTGGAGCCCCAGAAGCTAGATGGGTACCAGGTGGGGTTAGGT
TCCCAGAGGACTGAGGGAATCCTGTACAGGATGTCCCAGGGTAGATGGGGAGCAGGATTGGGACCTGCTCTGACAGCTGGACACATGAGCCCTGGATGAG
TATGGTAGGGGGTTTGAAGAATCCCCTGTCCACCTCCCAAATCCAGGCCCGGCCCCCTCTGGCTTGGAGAGCATTCCAAGCCCCCACCCCACCCCTAGAA
CTGCCATTCCCAAGACCTCTGTCTCCCAGCCAACCACCCTTGGAACTTGCCTCTTGTCCTGCTGGAAAGATAGCAGTGTTCTCCTGACTTCGCCCTACTG
CATGCAGCCAAATAAAAGGTGTGCCCAGTCTAACCTGTGCCCTGTGGTTTCTGGAAGGAAAGGCAGACTTTAGGTGGTCCTGCCTGGACCTGCAGATGGT
ACAATGGCATGGCTTCTGTCTAAGGTACAGAGGGGTTGGCATTTCAGGAACCAGGCCATCACAGAAACAGGTTCATGGGCAGACCCCTCAGTGAGCTGCA
GGTATCTCACCTGGCAGCCGTCCAGTACTGCTGGCTTCCTCTGGAGGCCCAGCCACAGGCTGGGGTTGGGGTGTGTGGACATCTCTGGGCAGCTCTTGAG
TCCACCTTGTGCCAGATCAGCAGTGCCACCCAGGCTCTGCCTCCTGGTGTTACTCTTTGCCAACAGCTTTACRGACATTGGATGAAGCCGAAGCATTTAG
AATGGTGCCTGGCACACAGTTGGTGCGTGATATGGTTAAGCTTTGTGTCCCCACCCACATCTCATCTTGAATGGTAATCCTGGGTGTTTAGGGAGAGACC
TGGTGGGAAGTGATTGGATTATGGGAGCGGTTTTCCCCCATGCTGTTCTCATGATAGTGAGTGAGTTCTCACGAGATCTGATGGTTTTACAAGTGACGGT
TTCCCCGGCTCCCTCCTGCCGCCATGTGAAGAAGGTCGTTGCTTCCCCTTCACCTTCCACCACCATGATTGTAAGTTCCTTTTTTCTTTTCTTTTCTTTY
TTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAAGCTCTGCCTCCCAGGTTCGCGCCAT
TCACCTGCCTCAGCCTCTGGAGTAGCTGAGACTACAGGCGCCCACCACCATGCCCGGCTAATTTTGTTTGTATTTTTAGTAGAGATGGAGTTTCACCATG
TTGGCCAGGGTGGTCTCAATCTCCTGACCTCGTGATCCACCCACCTCGACCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGCGCCCAGCGATTGT
TTCTTGAGGCTTCCCCAGCCATATGGAACTATAAGTCAATTAAACCTCTTTCCTTTTATAAATCACCCAGTCTCGGGTATTTCTTTATAGCAGTGTGAAC
ATGGACTATAATCCAGTGCTCAATAAGTACTCCTCACATTTAGCTATCTCAGTCAAGGGTGAGCTAGATAAGGGCTTTGGCCAGGGCAGGATCACCACCC
ACCAGCCCATGGCAAACTGCAAAAGGACGGCCTTCCACGGAGAACATGTAGCCCTGACTGCAATTAATGTGTCCTGGGCCAGTCCCCTTGTGCAGTACAC
AGCCTGCACAACCCTTGGTGGTTGCCTGAACAAGGTGCTTGCTAAATATTTGTTGACTGATGGAAGAAATTCATGAACTTAATCCTGATAAAAAACCTCA
GAGGTTTTTTATTTTTTGAGACAAGGTCTGGCTCTGTCGCCCAGGCTGCAGTGCAGTGGTACAGTCTCCACTCACTGCAGCCTCCCAGGTTCAAGCGATT
CTCCCACCTCAGCCTCCGGAGGAGCTGGGATTATAGACCTGTGCCACCACGCCCGGCTAATTTTTATATATTTAGTAGAGACAGGGTTTTTGCCATGTTG
GCCAGGCTGGTCTCGAACTCCTGACCTCAAGCGATCCTCCCCACCTCGGCCTCCCAAAGTGCTGGGATCACAGGCGTTAGCCACCTCCTAGCACCTCAGG
TTTTTTACCTTTGAGTCTATGAAGCCTGCGGAGGTCACGCCCTAGGGAAAGAAGGAGCCCACTGGGTGTCAGCTCCTGCCTCTAGGGAGGGGACCGCGGG
TCAAGGGTGGAGCCCTGGGCCGCATAAGGAAGGAACTAGTGCGGAGGTCCGGGGAGCGGCCGCGCGTTCGGGAGCTTCGGCCCTGCGTAGGAGGCGGGTG
CAGGTGTGGGTGCTGAGCCGCCCGCCGCCTGGAGGGGGAGACAGCTTCAGGACACGCAGGCCGCAGCGAGGGCCCGGGCCCTGGGGATCCCAGGTTCGTC
TTCCCGCGGCGAGGGTTAGGGGCCGGGCCGAGAGGGACGGCAGCGGGGTCCGGGGCGGGGGTGGGGACCGAGCGCAGCGCGTGACGCGGCGGCGGGGCCC
AGCGACAACGAAGCCGAGGCCGTAGGCTCGGGCCGACCTGGAGCTCCGCCGCTGCGCCCAGGTCGCGTCCCCGGGGGGACGGGCGGCGGGCGAGTGGGGA
GCCGGGGTCTCCGGCGCCTGGGCGTTCACGGAGCCTGCGGGCGCTGGTCCGGGCGGCCAGGGGTGGGGGGCGCGGGCGGCTGGGCCCGGACTTCGACTGG
GGGCCTGGCCCCGGGGCCACCCAGGCGGAGGCTCTGCGGCCGCCTCCACCCCGGCCACATCCCGAGGCCGGCGCCGGGTTCGGAGAACTGTCAAGGGACC
TCCAGGCCCCCACACGCCTGCGAGATCCGGCGCTTGCCTTGCCCCAGCCACAGTTTCTGTTTCCGAGAAACCGGTGAAGTAACAATGCCACTAGAGCTTG
CTGGGAGGGTGGGTGCGGAGAAGGCGAGCACGAGACGCCGGGCCGGGCAGTTGGGGACCCCGATCGGTGTGAGAGGGCTTCCTAGGGCTGGCATGGACTT
CCCCACCACAAAATGCCCAGGGCCGGGGGGGGGAAGGGGCGCAAGAAAATGCGGACTGGGCCAGAGACCAGACTTCGGTCACCACGGTGGGAAGCTATTG
GTGCCTAGATGCCTCTAGCTTGGAGCCCAGTGACTTTTATTTCGTCTAGAGTCTAGACAGTGCCTTTAGAAGCTGCCAGCATTTATTTATTTATTTATTT
ATGGCAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCACGGCTCACTGCAGCCTCGACTTCCTGGGCTCAAGCGTTCCTCCTGCCTCA
GCCTCCTGCATAGCTGGGACTACAGGCACGGGCCACCAGGCCTAGCTAATTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTGTCGCTCTGT
CGCCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCAGGCCGTCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGAC
TACAGGCACCTGCTTCTCGAGTAGCTGGGACTACAGGCACCTGCAACCAAGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGAGTTTCACTGTGTTA
GCCAGGACGGTCTCGATCTCCTAACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTTTTTTTT
TTTTTTTTTTTTTTTTGAGACAGATTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCGCTTCCCGGGTTCAGG
TGATTCTCCTGCCTCACCCTCCCGAGTAGCTGGGACTACAGGCGTCCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCGCCAT
ATTGGCCAGGCTGGTCTCGAACTCCTGATCTTGTGATCCGCCCGCCTCGGCCTACCGAAGTGCTGGGAATACAGGCCTGAGTCTGTGCGCCCGACCTAAT
TTCTTTTTTTCTAGAGACAGTCTCACTATGTTGCCTAGACTACAAGCATTTTTAATTGACAACTTTTACATTTTTTTTCAAATGCTTACAGTTGCTTCTC
AGAACTTAGAAGACTTGGCCACATTGGGTTTTTTTGTTATTTTTTTTTTTCCATCAAAGCATTTTTCTTTTCTCTTTTTTTTTTTTTTTTTTTGAGACAG
TTTTGCTCTGTTGCCCAGGCTGGAGTGCCATGGAGCAATCATGGCTCACTCTGCTCCAGCAGGCTCCTTCTTTCCCTAGAGTGTGACCTCGGCAGGCCTC
ATGGACTGTAAGGTAGAAAAATCTGAGGGGCTGGGTTCGGTGGCTCACACCTGTGAGCTACTGCAGCCTTGACCTCCTGGGCTCAGAAGATCCTGACGCC
ATAGCCTCCCAAGTAGCTAGGACCATAGGCACTCGCCACTATGCCCGGCGAATTTTTTCACTATTTATAGAGACGGGGCCTCCCTGTGTTGCCAAGGTTG
CAAAGCCTTTTTTCTTTTCTTTTTTTTTTTTTTTGAGACGGTGCCTTGTACTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACCACAACCT
CCGCCTCCCAGGTTCACACGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGTGCACACCACCACGCCTGGCTAATTTTTTTGTATTTTTAG
TAGAGATGGGGTTTCACTGTGTTGGCCAGGCTGGTCTCGAACTTCTGACCTTGTGATCCGCACCCCTCGGCCTCCCAAAGGGCTGGGGTTACAGGCTTGA
GCCACCGCACCCGGCCTGCAAAGCATTTTTCACGAGGCACAAGTACCTCACCTGTTTTCTCTGCCATGTAAAGTGTTCCTCCCTGGGCAGAAGTGAGCAT
GCACCCACCCTCCTGTTTTCTGAGATGGGAGCCTTCAGAAGACCATGAACTGCTGCTTTGGCCAAGCCTCTATGGAAAATCAGAAGAGGCCACAGCAAAA
GGCTGGGTACAGTGGCTCACACCTGTAATCCCAGACTTCAGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAAACCAGCCTGGCCAACATG
GTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCGGGCACCTGTAATCACAGTTACTTGAGAGGCTGAGGCTGGAGAATTGCTT
GAACCCAGGAGGTGGAGATTGCAGTGAGCCGAGATCACGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTGTCTCGGGGTGGGGGGGAAGAAAAA
AAAAAAGAGGCCAGCAAGGTTCTGTTTCCCTGCTTGTAGGTGGAGAACATTCTCTCCTCATGTGTAAGCAGATGAGGCCCACCTGAGTGACAGTGCAGAG
CCCTGGCTGCCGGCCAACCCCCACCTACCTGGGGCAAGTACCTGGGATCCCCTTAAGAGGACTAACCAGGTGCCCCCAGGTAACAGATTCAGGCCAGGGC
TGTGGCACTGCTTGAAGTTTTCCAGAACCCGTGCGCAGTGCAGAGGTACAAGGAGGACAGTGTTGAGAGCCGGTTTGTGCTGACAGCAATGCTGACTGAA
GCTCTGTGCTTCACTTGGTCCTCCTGGCCCTTCCAGGGTCGGGACAGTTACCCCCTCCTTTTCACAGCTTCCCAACTGGTCACTGCAGACCAGGATTCAA
ACCCAGGCAGTCTTCTCAGCCACCCTCCATCTGATTTTTTTTTTCCGGCCATCTCCAAGTGGATTCTGGCCTGACACCAAAGACAGCTCAGCCGGGTGCC
GTGGGGGATTCCCATGGGGTTGTTTTATCACATGTGACTTCCAGGCCAAAGTAAGCTTCTGGAGATAGGAAGGTGGTTTCTCAGCGCTAGCTCACCACTA
AATGAACATTAATGAGTCTGGGATGTAAAACTGATTTTATATTCTGGCCGGGTACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGG
GCGGATCATGGGGTCAGGAGATTGAGACCATCCTGGCTAACACGATGAAACCCCGTCTCTACTAAAAATACAGAAAATTAGCTGGGTATGGTGGCATGCG
CCTATAGTCCCAACTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCC
TGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAGATTTTATATTCTAACAGTGAATCCAGAGCATTAAAATAACAATCACCAAAACCCT
CACAGAACTTTGCAGACAAGTGTGGCCTCCACAAAATCTTACAGTCCACACAACCCACTGGCTTTAAAATTAAGCAATTTTTTTTAAATTGGGGAGGGGC
CTTTTAAAAAATGTGTCTCTAAAGACTTTACTATTTGTATTGCACTCTTCTGAATGTGTGTCCCATGACTACTCTTTCCACTGAGGGGCTACTGTTTACT
GGAAGGACCCTCAGCCTCAGAAATGCTCTTTTGTGGGTTTTTTTTTTTTTTTAGCCAGAGTCTTGCTTGGTTGCCCGGGCAGGGGTGCAGTGGCGCGATC
ATAGGTCACTGTAGCCTTGAATTCCCAGGCTCAAGGGATCCTCTGCCTCAGCCTCCCAAGTACCTGGGACTCCAGGCATGTGCCACCACACCTGGCTAAT
GCAGGGTTGGAGAGGAGTCCCTGGCCTGGTTCCCTGGGGACCTGAGGGCCCACCTCCCTGGTCAGGCTCATAACTGCTGTTGCCCCCACAGGCCATGGAT
GCTCCCCACTCCAAAGCAGCCCTGGACAGCATTAACGAGCTGCCCGAGAACATCCTGCTGGAGCTGTTCACGCACGTGCCCGCCCGCCAGCTGCTGCTGA
ACTGCCGCCTGGTCTGCAGCCTCTGGCGGGACCTCATCGACCTCATGACCCTCTGGAAACGCAAGTGCCTGCGAGAGGGCTTCATCACCAAGGACTGGGA
CCAGCCCGTGGCCGACTGGAAAATCTTCTACTTCCTACGGAGCCTGCATAGGAACCTCCTGCGCAACCCGTGTGCTGAAGGTGGCATGGGGGCAGGGTGG
AGGCTGCCACCAGGCTCGTTCCTTCTCATCCTTGGGCCTTGGCACTTGCAATTCCCACACTACCTGGAATATTCTCTAACCCTAAACACCCACCTCACTT
CCTTGGTTCCTTCTCATTCTTCAGGTCTCAGTTCAGAGACCTGCCCTGTGCTCCCAATCTAAAAACAGCCCTCTCCACCTCTAGCATAGCACCCCCATTT
CATGCCCTGTAACACTTTTCACAAGGCGCGGTGGCTCACGCCTGTAATCCCGGCACTTTGGGAGGCCGAGATGGGCGGATCACCTGAGCTCAGGAGTTAG
AGACCAGCCTGGTCAAAATGGCAAAGCCCTGTCTCTACTAAAAACACACAAAGTTGGGCATGCTGG


SNP Information

Context             (SEQ ID NO:54742):
GTGTGGACATCTCTGGGCAGCTCTTGAGTCCACCTTGTGCCAGATCAGCAGTGCCACCCAGGCTCTGCCTCCTGGTGTTACTCTTTGCCAACAGCTTTAC
R
GACATTGGATGAAGCCGAAGCATTTAGAATGGTGCCTGGCACACAGTTGGTGCGTGATATGGTTAAGCTTTGTGTCCCCACCCACATCTCATCTTGAATG
Celera SNP ID:            hCV1256482
SNP Position Genomic:     14273
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:54743):
GTCATTTCCATCACCATGTGTCTCAGGGCCCCCAGGGAAGTCACCTCCCTGTGCCTGCAACACAGGAAGCACCTAATACGCGGTGGGCACTGTGATCTGC
R
GCGTCCCACAGCACAGGGCTTGAGGGCAGCCGCCAAGATGCAGGCAGAGGAGTGGGGAGGAAGGGGCATTTGGGAGAAGGCGGCCACTGAGGGGCTTCCC
Celera SNP ID:            hCV1256491
SNP Position Genomic:     9780
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54744):
GGTGCAGGTGCAGGGAGGTGACCATGTAACTCTGACCAATCTGGGAAGTGGAGGGTGGGCTCATGGGCCGTGCTCTGCCCCTGTCTGCTGCTCCCAGTCT
Y
TCGCTCTGCCTGCCTGCTCAGAAGAGGTGGCTTTGGCCCAGAGGCTCAGGCCGGGACTGAGATGGACAGACCCAGGGTGGGGTGGGGTCCAGGTCGGGTG
Celera SNP ID:            hCV1256483
SNP Position Genomic:     13439
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54745):
TCCGCTACATCTGGTTTCAGCACGGCGGCGTGGACACTCATTACTGGGCCGGCTGGTACGGCCCGAGGGTCACCAACAGCAGCATCACCATCGGGCCCCC
R
CTGCCCTGACACCCCCTGAGCCCCCATCTGCTGAACCCTGACTGGTAAACAACTGCTGTCAGAAAAGGGCTGGGCTTGGGAAGGGGAGGTGGAGGCCAGG
Celera SNP ID:            hCV25989045
SNP Position Genomic:     12906
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,6)   caucasian(G,36)   total(A,2|G,42)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54746):
GGCAGAAGAATCGCTTGAATCCAGGAGGCGGAGGTTGCCGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAA
M
AAAAAAAGAAAAGAAAAGAAAAAAAATTCCAAAAGGTTGACTGACTGTTACTAATTACTAGTATTGATTACTACTGTTTTCTAGACTGGGGTCAGCAAAT
Celera SNP ID:            hCV26892932
SNP Position Genomic:     11023
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54747):
CTCTCCCCGAAAGGTCTTGACCTGAATGATGGCCGGGGAAGCCTGCGTGTGCCCCTTTCAGAGACGGAGCACCTGAGATGTGGGAGGTGCAGCATGTTCC
S
CTGGGCCCCTCAGAAAGTCGAGCTTGGAGGCCAGCCTGGATCTGTCTCTCCCTTCCCCTCCTGGGACCATTCTACCTGTGTTCTTTGACCCTCGGAGCAG
Celera SNP ID:            hCV1256485
SNP Position Genomic:     13198
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54748):
CTCACTGCAGACTCAAACTCTTAGGCTCAAGTCATCCTCCTGCCTCAGCATCCTGAGTAGCTGGGAGTACAGGTGTGCACCACCACTAATTAAAAAAAAA
W
TTTTTTTTTGTAGAGATGGAGTTTTGCTTTGTTGCCCAGGCTGGTCTCGCACTCCTGGCCTCAAGTCATCCTTCTGCCTCAGCCTCCCAAAGTGCTGGAA
Celera SNP ID:            hCV26892933
SNP Position Genomic:     11309
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54749):
CTTGAACTCCTACTTTAGCCTGTACTCCTGCCTCAGCCTGCCTAGAACTACAGGCACACACCACCATGCCTGGCTAATTTTTTTTTTCTTGTAGAGATGG
Y
ATCTCACTCTCTGGTTTGCGACAAGACTAGTTGCAAACTCCTGGGCTCAAACAACCCTCCCACCTCAGCCTCCCAAAGTACTGGGATTCCCGGTGTGAGC
Celera SNP ID:            hCV26892934
SNP Position Genomic:     12610
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54750):
CTCCCAAAGTTCTGGGATTACAGGCATGAGCCACCGCGCCGGGCACTTTTACTTAATTTTAACCTAAATAATACATGTGCCCCGTGATGAGTATATTGGA
Y
ATCCTTTGGCAGCTTGCAGTTTCTTTCCATTCCTTTGGGCTGAATGATAATCCTGTGGAGTAGACCAGCAGGATTTTGCTCCATTTTATAGATGAGGAAA
Celera SNP ID:            hCV1256488
SNP Position Genomic:     12157
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54751):
CCTACTTTAGCCTGTACTCCTGCCTCAGCCTGCCTAGAACTACAGGCACACACCACCATGCCTGGCTAATTTTTTTTTTCTTGTAGAGATGGTATCTCAC
W
CTCTGGTTTGCGACAAGACTAGTTGCAAACTCCTGGGCTCAAACAACCCTCCCACCTCAGCCTCCCAAAGTACTGGGATTCCCGGTGTGAGCCGCCACAC
Celera SNP ID:            hCV26892935
SNP Position Genomic:     12618
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,4)   total(A,3|-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54752):
AAGCTTGCAGCTGCCCTGATGGTGCAGGTGCAGGGAGGTGACCATGTAACTCTGACCAATCTGGGAAGTGGAGGGTGGGCTCATGGGCCGTGCTCTGCCC
C
TGTCTGCTGCTCCCAGTCTTTCGCTCTGCCTGCCTGCTCAGAAGAGGTGGCTTTGGCCCAGAGGCTCAGGCCGGGACTGAGATGGACAGACCCAGGGTGG
Celera SNP ID:            hCV26892936
SNP Position Genomic:     13419
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,7)   total(C,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54753):
AGCTTGCAGCTGCCCTGATGGTGCAGGTGCAGGGAGGTGACCATGTAACTCTGACCAATCTGGGAAGTGGAGGGTGGGCTCATGGGCCGTGCTCTGCCCC
T
GTCTGCTGCTCCCAGTCTTTCGCTCTGCCTGCCTGCTCAGAAGAGGTGGCTTTGGCCCAGAGGCTCAGGCCGGGACTGAGATGGACAGACCCAGGGTGGG
Celera SNP ID:            hCV26892937
SNP Position Genomic:     13420
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54754):
AGTCTTTCGCTCTGCCTGCCTGCTCAGAAGAGGTGGCTTTGGCCCAGAGGCTCAGGCCGGGACTGAGATGGACAGACCCAGGGTGGGGTGGGGTCCAGGT
Y
GGGTGTGGACTGTCCTCACTGTCAGTGGAGCCCCAGAAGCTAGATGGGTACCAGGTGGGGTTAGGTTCCCAGAGGACTGAGGGAATCCTGTACAGGATGT
Celera SNP ID:            hCV16187730
SNP Position Genomic:     13534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54755):
TTTCCCCGGCTCCCTCCTGCCGCCATGTGAAGAAGGTCGTTGCTTCCCCTTCACCTTCCACCACCATGATTGTAAGTTCCTTTTTTCTTTTCTTTTCTTT
Y
TTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAAGCTCTGCCTCCCAGGTTCGCGCCAT
Celera SNP ID:            hCV26892938
SNP Position Genomic:     14600
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54756):
TGGGAGGTGCAGCATGTTCCCCTGGGCCCCTCAGAAAGTCGAGCTTGGAGGCCAGCCTGGATCTGTCTCTCCCTTCCCCTCCTGGGACCATTCTACCTGT
R
TTCTTTGACCCTCGGAGCAGGGACAGGCAAGACAACTGGCAAGCTTGCAGCTGCCCTGATGGTGCAGGTGCAGGGAGGTGACCATGTAACTCTGACCAAT
Celera SNP ID:            hCV16187729
SNP Position Genomic:     13278
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,289|G,1202)   total(G,1202|A,289) 
SNP Type:                 INTRON


Gene Number:                 275
Celera Gene:                 hCG1640102 - 116000144867495
Gene Symbol:                 PPFIA3
Protein Name:                protein tyrosine phosphatase, receptor type, f polypeptide (PTPRF), interacting protein (liprin), alpha 3;KIAA0654;LPNA3
Celera Genomic Axis:         GA_x5YUV32VSLL(1157244..1200867)
Chromosome:                  Chr19
OMIM number:                 603144
OMIM Information:            PROTEIN-TYROSINE PHOSPHATASE, RECEPTOR-TYPE, F POLYPEPTIDE-INTERACTING PROTEIN ALPHA 3;PPFIA3


Genomic Sequence (SEQ ID NO:12435):
GCTGCTTCTCCTCTTGTTCTTGTCCAAACCAGTCTCCACAGTGGCTACAGTGATTTTTTTTTTTTCAATAGATACGAGGTCTCACTATATTGCCTATGCT
GGTCTTGAACTCCTGGGCTCAAGTAGTCTTGCTGCAGCCTCCCAAAGCGCTAGGATTACAGGTGTGAGCCACCGTGCCCGGCCCCAGTGATCTTAAAATA
CAAATTTGAGGCCCAACCTGGGCGACAGAGCGAGGCTCCGTCTCAAAAATAATAATAATAATAATATAATAATAATACAAATTTGAGTGTCATATTTTTC
TCTTAGGAGTTTGCATGAAGCCCCAAATCCTCAAGGCGCATATGCCAACGCAGGAGCCCAGGCATAAACTATCCTGCCGACCTTTTCACCTCATCATCAA
CCAATCCTAACTCTGCTTCCAGCCACGTGGGCTCTTTCTGGGTGGTGGGGGTGACCCAAGCTCCACCTCTTGTTCATCTTACCTCCCAGGACTGTATGTC
AATGTCCCTCCTCTAGGATTTCCTTCGTTTTCTAGATCATCACCTCCCCACTCTCAGCTCTCATCACAGCCGTAGTTGGTCGTCTACCTCCCCTATAGAC
TGGAAGCTTCGTTCGGGCCGTGGGCTTGGCTGTCCTGCTCACCACGGTGTCCATGACTTGGGCTCAGATGTTTCACAAGAGTTTGTTGAATGAATGTGGG
GAAAGGATGGACAGGGGATAGACGGGTGTGGAGGGCAGGCAGACACGGATCCTGAAAGGTACACACAGACCGAACCTGCAGTGGGAGGGGTCGCCAACAG
GACCGACTGGCCGGGGCGGAGGGCAGGGCCGCGGCTGGCGCGCGGCAGGTGGTCGGAGCAGTCGGGCGAGGGAGAGCTGGGCGCTCTCCAGGCTGCGCCT
CCGCAGGGGGCGCCCGTGGCCCGGGGCGTGGCCTCGCGCAGCCCCGCCCTCCTCGCCGGCGCCAGGGCAGGCGGGCGGCTGGCAGCTGTGGCGCCGACAT
GGCTGCGCTGGTGGAGCCGCTGGGGCTGGAGCGGGGTAAGCGTGCGCCAGGGGGCCCTGCCCACCCGGGCCGCGGCCTACATACCCAGCCCCCGGTCCCC
GCCCTTCCCGGGTCAGGCCAGTGCGGGTGGGCCAGCGGACCCGGAGGGGGTGGGCGGGGCGGGCGCCGGGGCCGGGCGGTCGCTAGGTGTGGGAGGCTCC
CTGGGCGCGGGCCGGGACGCTGGGCGCCCGCCTTACAACCCGGCCTGTGGAGGGGTCCCGGGGCCGCAGGGCCGCTGGTGGCAGTCTCTCCTGCGCCACC
CTGGACTCTGCGGGGTGTCCGACTAGGCTTCGGCCGTCCTCCCCGGACTGTGCGCTCGGCCTCACTCCGCCGCTCTCCTTGCTTCTCTGCGTCTCGGGGT
CTCTGACACTCGGGGTTTCTGCGCCCCGCCCCCGCCCCGCAGACGTGTCCCGGGCGGTTGAGCTCCTCGAGCGGCTCCAGCGCAGCGGGGAGCTGCCGCC
GCAGAAGCTGCAGGCCCTCCAGCGAGTTCTGCAGAGCCGCTTCTGCTCCGCTATCCGAGAGGTGAGGGGCGCGCGGCGCAGGGGCGCGAGCTGGTGGCCG
TCGTCCTCCTCCTCCTCCTCCTGCTTGTCCCGAGCCCGGAGACTACGCCTCCCGGCAGCTCCCGAGGCGGCCCGCCTTGGGGTGCCAACGCTTCAGCTCA
GGGGTTCTTCGGGAGTTGTAGTTTTCTCGGCCTTCTGTTGCGGGGGCGGGGCGGATCCTTGCGTGGTAGCGGGAGAGGGTCTAGAGGCCTGAACTCCTGC
GTCTAGGGCTGGAGGAGCTGGCGACTCCCTGATGCCGCTGCCTCCTCACCCAGGTGTATGAGCAGCTTTATGACACGCTGGACATCACCGGCAGCGCCGA
GATCCGAGCCCATGCCACAGCCAAGGTGGGCCCCGCACCCCATTGCTCCTGGTGTCTATTTAACTGCCTAGTCGAACTCAATATCTCCTTCATGCCAGTC
ATTTCTGTTTCCTCCCTCATGATTTTTGCTAAATCTATGTGCCACCTTACTATTAGTAAATAATCGCACATTTTTAACTTAAATGTCATACTAAGGCATC
TTTAGCAACTGCAAATGGAAACAGTATGGCATGGTTGGTAGAAGATAACCTTCAACATCTGTACAGTGCAAACCAGGAAACTCATGGCGCTCTGACCTCT
CACTGCACAATAGTTAGATGCTGCTACCTCTTGCTGCTGTCCGGAGGCTCAGATCTCCCTCCAGGCCTGGCTTTCCTCTGTTTAAAAGTAAGATTGAGGC
CAGGCACGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCAGGTGGATCAGTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGT
GAAACCCCGTCTCCACAGAAATACAAAAAAAAAAAAAAAAAAGAAAAAGCCGAGCGTGGTGGCGAGTGCCTGTAATCCCAGCTGGATTACAACTCCGGAG
GCTGAGACAGGAGAATCGCTTGAACCCAGGAGGCCGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGGCAACAGAGTGAGACTTCATC
TCAAAAAAAAAAAAAAAGTAAGATTGGCAAGTATGGGGTATTCAAGACACACACCAAATGGACACTTTCTCTTGCAAGTGAACAGAAAGAGACGCACAGT
CATTACAGGGGGATCGTGCATTGTGCCATGACAAGTGTCCCATGCTTGGGGATAGTAACCCAGGCTAAATCGCTGTCCTCGGTCCACATCCCCCACCCCA
GCTTTCATGCCTACCTGGAAGGGGCCCTCATCTTCAGTCGCTTTCTCTCTCCCAGGCCACAGTGGCTGCCTTCACAGCCAGCGAGGGCCACGCACATCCC
AGGGTAGTGGAGCTACCCAAGACGGATGAGGGCCTAGGCTTCAACATCATGGGTGGCAAAGAGCAAAACTCGCCCATCTACATCTCCCGGGTCATCCCAG
GGGGTGTGGCTGACCGCCATGGAGGCCTCAAGCGTGGGGATCAACTGTTGTCGGTGAACGGTGTGGTGAGTGGAGGGCTGAGGCAGGACTGGGGGACACA
GTCTGTCTAACGTAGCATAGCCCCTGCTTTTGACATTCACTCAACACACACTGAGTGTTGTCTGTATGGCTAGCCCTGTGCTGGGCAATGTTACAGACTC
TGAGAGATGTTGGCCTCAGCTCCCTACACTCAACCTTCTCTCTCTGGGGAGGGCAGTAGGCCCCGGCTGAAATAGTCCTAATCCAGAGACATAATAATGA
GGAAGTGCAAAGTATTGTGACAGCCCAGATGTGGCACCAGGCCAGCATAGATACAGGAAGGTTTTGCAGAGTAAGGAACATTTGGGTTGGGTGTTAAAGG
ATGAGTAGGAGTTCTCCAGGCAAACAAGGTACAGGGTGTTCCTGCTGAGGGTACTGTAGATAAGGATACTGACTTGGCATACCTCTGAGCTGAAAAGAAA
GGGCTTAGTTCTGATGGAGGTCTGGGGCATGCAGGTAATTAAAATCACTGTGGTTAGGCTGGGTGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGA
GGCTGAGGCACGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTG
TGGTGGCAGGCACCTGTAATCCCAGCTACTTGGGAGGGTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATAGCACTAC
TGCACTCCAGCGTGGGTGACAGAGTGAGACTCCCTCTCAAAAAAAAAAAAAAAAAAAAAACTCACTGTGGTTAGAGTTGAGGGAAGCATAACTGGAGAGA
TGGCTGGGGTCAGCCATACAGGACCTGAGTGCCAGCCTGAGAAGCTGGGACTTTGTCCCATGGGTGCTGGGGAGCTATGGGAGGGGTGAGCCAGGGATAA
ACTCAGCTTGCAGGTGCAGAAGGACCACTCTGGGACTCTATGGGAGATGAACTGAGGGGAGAGATTAGAAGCCAGGCCAGGGAGGAGGCTGGGGTAAGAG
TCCAGAGAAAAGAGGACAAGGCCTGAGCTGGCCCAGGGCTGTGGGGACAAAAAAGAGGGAGTCAAGGCGGGCGGACATTAGTGGGCTGTGGGCAGGGAGG
CCACAAAGATGGGTCTGGACGTTTGGCCAGGGACTGAGGGAACACGGGGCTGTCCCTGACATGGGAATCCTGGGAGGTTTTGGAGGAGGACACTGAACCA
GGAGTTAATGACTCCCACGAGGAGGACATGAGGCATTGACATCTCAGGGCTGGCACCAGGCTCACTAGCAGTGGGTCCCATCTCCCAGTGGGGGCTGGAC
GAGGGCAGCGGGCCCCAGGCTCAGCTGTCTGTGTTGGGCCCTGCAGAGCGTTGAGGGTGAGCAGCATGAGAAGGCGGTGGAGCTGCTGAAGGCGGCCCAG
GGCTCGGTGAAGCTGGTTGTCCGTTACACACCGCGAGTGCTGGAGGAGATGGAGGCCCGGTTCGAGAAGATGCGCTCTGCCCGCCGGCGCCAACAGCATC
AGAGCTACTCGTGAGCCCCTGGGTCACCACACCCCTGGGGCCTCCACGGGCTCCCTTTAACCCCAGGCTCCCAAACCAGGCCAGTGCTTCCTGGATCTTC
CAGCCCTGGCCCCTCCTCTGGGATCCTGACCCTTGACCCTTGGCCCAGGCTCTCACCCCAGGCTAGTTTGGCCAAATCCCCTGGGGAGCCCTTAGCTTCC
TTCCATCCCAAGATACGGAACCTACTGTGGCTGGGATCCCTCAGCCCACTTACCTGGGCCCTTGCCTCTGCAACCCCAGTCCTGCCCCTCTTGTCTACCC
GGAGCCTCCCTGATCCCGGGTCCCTTGTCCACCCCCCTTGCAGGTCCTTGGAGTCTCGAGGTTGAAACCACAGATCTGGACGTTCACGTGCACTCTCTTC
CTGTACAGTATTTATTGTTCCTGGCACTTTATTTAAAGATATTTGACCCTCACTGAGTGTCTGTGTGTCTGTCCTGCATCCCTGGGTTGGTGTCTTGAGA
TGTGGAGGGAATGCGAGGAGCTGAGGTCAGGCCAAGCCGTTGAGAAGCCTTTTCCAGAGTCTGAGAACAGAGGTTAAGACCTCTCCCTAGGTCTGAAGGC
GGAGACAGGCCGGCTTCCAAGAGACTAGTCCGAGGGCGGAGGGCGGAGGCAGGGACCCAGTCTGGGTCTGAGTGCTGGGGCAGAACTGAGGACAACGCCG
CCTACCCTTAAGAGCGTCTGAGGGCGAAGGCCAAGTCCCTTCCTCCAGAGTCCTGAAACGCAGCCGGAGCCAGTGGGCGGCCTCTGTGTGGGCGGGGCGG
AGCGAACCATTAGCCTCGTCCGCCGGGGGAACCCTGCAGGCCGCACTACTGTCTGCGTGGGAGTCGCGGGTGGGGGTGCCGCGTGCAGTTCCCGAGGCGG
GCGCAGGGGTGCAGAATGAGGTGCCCTCGCCCACCGGGCGCTCACTCCACCTTCCAAACACAGCGCGTCTTTCCGGAAGCAGCCCCCGCCTTGAAATCCA
ACCTTTAGCCTCATCCCGCTGCCCGCCCAGCCCTCGTGTCCCGTGCGGCGCGAGGGCTAGTGCGCGCCACTGCCGGGAGCCGGGGTCGCGACTCGCGTTC
CACGCCGCGCGCTACTCGCTCCAGGTGACATCATCCCCCTGCCGGGCTCCGCCTCCCGCCCCAGCCGCCTCACGCCGCGTGCCTATTGGTCGACGCGCCT
TATGCCCCGCCTCTCGCTCTCCGCCCGCGCGACCCCTCCCGGCCGGTGTGGAGGCGGGGTCTAGTCGCCGGCCGGCGCCGACGCTCTCTCCCATTGGCCG
CTCTTCGCCGTCTGTCAGTCTCCTGTTAAAGGGGCCACGACCGCCCGGGAGCCGTGGGGGGGGAGGGGGAGGGAGGAGGAATTTTTTTGGGGGGAAGGTG
GGATTTGGGGGSCGCTGGTGGGCACCCCTGGATCTGGCGGCTGCGGCCTCGCGGGGGGAGGCTGATCGGTGACAGGGGCAGGGGGCTATTTTGGGGGTAG
AAGGCAGTGAGAGCGTGAGGGGGAGGGGGGTCCCCAGCGCCCAAGCCGGAGCCAGAGACGCGGAGCCCGCGCGAGCGTCGGAGACAGGGCTCCAGGGCTC
CGAAGCGACAGAGCCGGGCCCCGGCCGCTGCCAGGGGCCCCGCCCGGCCCCCCCACTCCACCCCACGTCCCTCCTGCAGCCCAGCTCCGCCCGCAGCCGC
CGCGGACCAGGCAGGTAAGAGCCCGGCCCGGCCCTCCTGGCAGCGCCCACCCTGGGGACCCCTTGGCGAGCCTCCCCCGCCTCCCCGAGATCCCGGATTC
CCTTCCTCATCCCAGGGGACCCCCGAGCCCAGATTTCACACCCCAACCCCGGGGACTCAGGCGTGCCCCTCCCGGCGCCCAGAGTCCCCGACCGAACCCT
AGAATCCCGGGCGCACCGCCGCCTCGCGCCTCCTCCAGGGCCCAGGAGCTTGGATTTCCCGGTCCGGCCCCGGGACCCCTCCTAGAGCCTAGATCCCCCT
TCCTGACCCTGTCCTGGGAGCTCCAGACACCCGCCGCGGCGGTGCCAGACTCCCCAGACGCGTCCGCATCGTCCCCGCTTCGCGCACTCCGTCTCCCGTC
GCCAGCCTCGGGCTTGCACAGCCGGCTGCGTCCCACGGTCCAGGCAGGCTCGGCGGCCGCCCTGGACACAGGCCCGCTCTGGAGCTGTCCATGGTCAGCG
CGCTCGGCAGCCTCGCCTCCCCCCACCTCCTGCCGCCGCCACCAGGGAGGGGGCGCAGGCGGCGCGGGGATCCCCCCGCCGCGCCTTTGACCCGGGAATA
CCCGGGCCCTCCCCGACCAGGGCGCCCCAGCCTCTGGGTTCTGCCGGCCAGGCTCGTGGCCCCGTCCTCGGCACCCCAGGTTCCTGGGACTCCAGCTGCT
CCCTGAGGATCCAGGGCTTCTGAATTTTCCTATTCTGGTCGCCGTGGGGACCATGGCACCCGGGGATGCAGCTCCCACCCCGTTCGGGAAGCCTGTCCGT
GTCTACACCTCTGCTGGCCCCAGGTGGTAGCCCTCACCCCGTCAGCACCTAGGAATCCTGTTCCCCAGCGTTTGCTCTGCTTAGAACCCCGCTGTGCCCT
GCAGACACACAGACTTAGCCTCCTGGCACCCAGCATCTGCTCCCCGAGGGACTCAGGCGCCATGACTCCYTTCCTTTGGGGGACCCGGAATGTGATTCTC
AATGCAGTTCTCTGACTTCTGTTCACACTCCCACTTGGGGACCTAAATGTCTTGGTCCCAGTCTCCTATCCCCTCAGGGACCCAGGAGTTCAGACCCCAG
CTTCCGTACTGCCCACCAGCTTTTACTGAGGCTGTCTGCCTCAACCCTCTCTCCAAACAAGACCTCAGGCTCTCACCTTCCAATCCCCCATCATTTACCT
CCACAAGGATTCAGGAGTCCAGGCTCCCAGCTCTGTCCACTGCCCTCCCCAGCAGGTATCTAGTTTCTCAGGTCTCACTTTTAGGAACCAGGTCTTCACA
GCCTCATCACTCTGCCCCATCAACTTCACATCTCCTGTGGCCCTACCAAACCCCTGTCTCATCCTCATGTCACCCCAGGTGGCGGGCTTCAGGACTCTCT
ACTCTTTCCCCTAAGATGCAGCTTGTTGAGATGTTTCTAGCACTCCATTGCCCYCTGAGGCTCAGATGAGTTCCCCTTCTCCAAGTACACTCTCCCAGGC
CAATGAGCCGAACACACATCACCTCCTCCAGATGTATTCTGTGGCCTGGGCTCATAAGGAGATCTAGAAGCTACCTGCTGCCATACAAATTTCTTTCTTT
CTATTTATTTATTTATTTATTTTGAGACAAGGTCTCTGTTGCCCAGGCTGGAGTGCACTGGCACAATCACAGCTCACTGCAGCCTCCACCTCCTAGGCTC
AGGTCATCTTCCCACCTTAGCCKCCTGAGTAGCTGGGACCACAAGCACTCACCACCAGGCCTGGCTAATTAAAAAAAAATTTTTTTGGCCAGGCGCGGTG
GCTCATGCCGGTAATCCCAGCACTTTGGGAGGCTGAAGCGGGCGGATCACCTGAGGTCAGGATTTTGAGACCAGCCTGGCCAACATGGAGAAACCCTGTC
TCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAGTCGTTTGAACCCCGGAGGCG
GAGGTTGCATTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGAACGACAAGAGCGAAACTCTGTCTCAAAAAAAAATTTTATTTATTTATTTATTTATT
TATTTTTTGTAGAGATGGGGGTTTCGCCATGTTGCCCAGACTGGTCTGAAACTCCTAGGCTCAAGGGATCCTTCTCTGTTGGCTCCCAAAAGTGCTGGGA
TTACAGGCATGGCCATCGCGCCTGGCCGGGCCACATTTCTTGTCGCACATGTGCTCTTGCATTGCTCCATGTTCTAGATTCCTTCTAAACACCAGAACAC
TCCCAGCTGATGTCTGTTCTGTGTTCCATTTTCATTCCAGGCATGGTCTGAGTTCTAGGCCAGATGCCAATTTTTTTTTTTTTTTTTTTGAGACGGAGTT
TCACTCTTGTTGCYCAGGCTGGAGTGCAATGCTGCGATCTTGGCTCACCACAACCTCTGCCTCCCGCGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAG
TAGCTGGGATTACAGGCRCCTACCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGGTTTCTCCATGTTGGTCAGACTAGTCTCGAGTTC
CCGACCTCAGGTGATCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGTGCACAGCCTTTGTTTTTTTCATATATTTAGATAAG
ACCCCTGAGCCAGATTCTGATCCCACCATATCCTCAGACATGTTCCAAAGTTCTAACAACAAGTCCTTCCTTCTTTGCTAAATGTTCATTTCAAGTGTGT
TCCAGGTTTCAGCCACGTTGTTCTAGATTCCATTCTCTTCCCAGGAGCAATCTAACTTCTAAGATGTGTGTGTTCCAAGTATGTGCTCTAGGCTTCCTAA
TTCGTGCCATTGATTCTAGAATGCCCTTCCCTGTTTCCCTGTTTTAGGTTCTAAGGAAGTTCTATCTAATTGCACATTCTTTTTTGTTGTTGTTGTTGTT
TAGTTGGTTTTTTTTTTTTTTTTTTTGGCGGGGGATGGAGTCTCACTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAAGCTCCG
CCTTCTGGGTTCACACCATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGACAACAGGCGCCCACCACCACGCCCGGCTAATWTTTTGTATTTTTGGTAGA
GACGGGGTATCACCGTGTTAGCCAGGATGGTCTCTATCTGTTAACCTCGTGATCCACCTGCCTCTGCCTCCCAAAGTGTTGGGATTACAGGCAGGAGCCA
CCACGCCCGGCCTGTTGTTTAGTTTTTATTTTATTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTATGATCTCAGCTCACTGCA
ACCTCTGCCTCCCGGGTTCAARCAATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGACTACAGGCACATGCCACCACGCCTGGCTAATTTTTTTTGTATT
TTTAATAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCCCCTCCTGCCTCCCAAAGTGCTGGGATTACAGGT
GTGAGCCACCACGCCCGGCCTGTTATCGTTGTTTAGACATTGGATCTCATTATGTTACTGAGGCGATCCTCTCACCTTGGCCTTCCAAAGTGCTGGAATT
ACAAGCATGAGCCACTGTGCCTGGCCCTAATTTCACATTCTTTTTTTTTTGAGATCGAGTCTCACTCTGTTGCCCAGGCCAGAGTGCAGTGACGCAATCC
CGGCTCACTGCAACCTCCGCCTCCCGTGTTCAAGCAAATTCTCCTGCCTCAGCCCCTCGAGGAGCTGGGATTACAGGTGTGTACCACCATGCCTGGCTAA
TTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCTAGGCTGGTCTCGAAATCCTGACCTCAAATGATCCCCCGGGCTCAGCCTCCCAAAATGC
TGGGATTACAGGCGTGAACCACCGCACCTGGCCTCATGTTCTTAAATGTAAAAGATTCCCAGTGAAGTGTTCTACATAATGTTTTCCTTCCCCCGGTTCT
AGGTTCTAGGCCCATTCATTTTCTGTCATTTTTTCCCCAGTGCAGCCTTAGTTTAGAACTTGTCCCCTGGTGGATCGTGGGTTTTCTCCTCCATCTGCCA
CTTTGGCATTCTAAGCTTGTTCTAGGCTCTCTCTTCTTCTGGAGCCTTCAGCCTAGAAATGTCCTTATTTCCAGAACAGCCCCCCTCCTTTGCCAGCCTC
AGTCTTTATTCCAGGAAATGCTCAATTCTCAACATGCATCCTTTTGATCCCTCCCCCTCCCCGCCCTATAGACACTTGTAAGTTCCAAGCAAACTCTTAG
ACACATGATAAAACCAAGGATGTGACTCCTGCTATATTCTTTTTTAAAAATGTAATTAAATTTTTAAAAAATCTATTTATTTATTTATTTTGAGACCAGG
TTATGAGACTGGTTAATTTTTGTATTTTTTTGTAGAGACAGGGTTTCACCATGTTTCCCAGGCTGGTCTCAAACCCCTGGGCTCGAGTGATCCTCCCACC
TTGGCCTCCCATAGTGCTGGGATTACAGGCATGAGCCACCGCGCCTGGCCCCCTGCTATATTCTGTGTTATACCTTCATCCCTAGCAGGCTCTGAGTTCT
AGATTTTATCTGCTGACTATGTTTGTTATGTGTTGCATTAGGTATATTAATGGGTGTCATTATGTATGTGGGGTTCTGGGGTGACCTGGACACTAAGTTA
TTGGGTTGCTCTTGGCTGGTTCTAGATTATAGGCTTCAGAACTTAGTTCTAGATTACTTAGGCCTATGAGCGGTTCTTACCCCAAGCCATTGAAAGCGTG
GAAGCATACGTCTATTCCCCACCCTGTACTGTGTGTAGTAACCTTCTAGGTTCTATGTCCAGCCTTGCTGTGTTTTTTATTTCCTTCTCGGTCAATTTAA
GGCTCTGGAACAGSCTCCCCAAAACATCTGTGTTGCATCGTCAGAGTGGGTTGCTGGTTTTAGATATCATGTTGGGGCTGGGCGCGGTGGCTCATGCCTA
TAATCTCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATTGAGCTCATCCTGGCTAACATGGTGAAACCCGTCTCTACTAAACATAC
AAAAAATAATTAGCCGGGCGTGGCGGCACGAGCCTGTAGTCGCAGTTACTTGGGAAGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCA
GTGAGCCGAGATCACGCCAGCGCACTCCAGCCTGGGCGATAGAGTGAGACTCCGTCTCAAAAAAAAAAAATAGAGATCATGTTGGTTTTTTGCCTATGGC
TGGCTTGCCCTCTTAGAATCGTTTTCCTGAATCTTTCCTCTGAGTGCTGGGATTCGCCTGCCTAGATTCTCAGATGCACCACTTCAAACACCCAAGGGGA
CAGGAACCCAGCTGCCTCCTCTCCCAGGGCCCACGGCCCTCAGGCCCTCCTCTCCTCACAGAAGTCCAAGGCCCCATTCCCAGGCTTTGGACACAGTCCG
CATATTGGGCGGGGCTGGGAATTATCCACGCTCAGACCGGTTATGCGTTGCCCGCAGGGAGAGAAGGAAAAGAAGGAACTGAGTGAAAGTCCCTCCTGCT
TTCCGCCGGGCCAGCTGGACCCGTCGGACCTGATGTGTGTGGAGGGAGCGGTTCAGGGGGCCTGGCTTCATCTCCGCCCTGCCCCTGGCTCTAGGGACCC
AAGTCCAGGCTTCCCGCCCCAGAAACCCCGCCCCTTCCTTGTCCCCCGCCCTTGGGTATAGCTTCAAGAGGGCTGGGGCTGGGGTTGGTGGGAGCGTCCC
AGAACTCCTGGGTCCTGGAGGAGGAGCTGTGCACCCAGGGGCCTGGGGGAGGAGGAGCCTGAAGCCTGGGACTTCTGGGTCTAAGCGAGGAAGCTGAGAG
CCCAGACTGTTGTCTCTTAGGGGAGGAGAGGGGTGCGGTCTCCGACTCCTGGGAATGGGGAGGTGGGGGCTGGAGGCGCAGGCTCCTGGGGTCTGAGAGA
CGAAAGGGACTGGGTCTTAGACTCCTGTGACCTGAGGGAGGCGGGAGCTAGTTCTTGGACTTCTGGGTCGTGAAGAGGGTGAAGAAGTGACAAGCATGGT
CCTGGCCATACTGGTATTTTTTTTGTTTTTTTTTTGTTTGTTTGTTTGTTTTGTTTTTTTTTGAGACTGGGTCTCTCTATATCGCCAAGCTGGAGTGCAG
TGGCACGATCTTGGCTCACCGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCGTGCCACCAC
GCAAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGGCTCAATCTCTTGACCTCGTGATCCAACAGCCTCAGCCTCCC
AAAGTGCTGGGATTACATGAGYGGGCCACCTTGCCCGGCCGTTACTGTGTTTTTTTTTTGAAATGGAATCTCACACTGTTGCCCAGGCTGGAGTTCAGTG
GTGCTATCTCGGCTCACTCTAACCTCCACCTCCCGGGTTCAAGCGATTCTTGTGCCTCAGCCTCCCCAGTGGCTGGGACTACAGGCGCATGCCACCATGC
CCGGCTAATTTTTTTTGTATTTTTAGTAGAGACGGGGGTCACCATGTTGCACAGCCTGGTCTTGAACTCCTGACCTCAAGTGATCTGCCCATCTCGGCCT
CCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCAGTCCTGGCCTTGCTTTTTTTTTTTTTTTTTTTTCTTTTCCCGAATGGAGTAGGTCTTTAG
ATTCTTAGGGAGCCGGGGTCCAGATTTCTGGGAAATTGAAGGAGGCAGGAGTTGGGCTGGCTAGTAGGTGAGACCAACCCTGTGACATTATACAGGTAAC
CACATCCTAGTGACCTAATCCTGGGTCCCTTGGCCCTGTGGCCTTCTTAAGGCATGGTTCTGGTCTGGGCCTCAGTTTTCCTACCCATGCAGTGGGTTGA
GGGGGATTCTCAGTAGAGCCAGAATAGGTAGACACTGATTTTCTCCACATTCACTCATACGATACCAGGGTCGGCCAGCTTTGGTTCCTTTGAGTGGGCT
AGGCTTAGGTTTGCTGCCACTGTCTGTTGGAGTCTGACCTCAGTTTTCCCAAATCCTCTCACCCAGGTAGCCAGGACTGTTTTCCTAAGAGCAATGGCAC
AGGCACAGTGGCATACTTTGGGATGCTGAGGCAGGAGGATCCCTTGAGTCCAGGAGTGAGACCTCATCTCCACAAAAAAAAAAAAAAAAAAAAAGGTCAG
GCGCGGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAAC
CTTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGTTCCTGTAATCCCAGCTACTCGGGAGGCTGAGGGAGGAGAATTGCTTGAACCGG
GACCCGGGAGGTGGAGGCTGCAGTGAGCCGAGATCGCATCACTGCACTCCAGCCTGGGTGACAGATCACTCCAGCTAAAAAAAAAAAAAAAAAAAAAAAA
GAAAGTAGGGAAAGGAAAAGAAAAGAAAAGAAAAGAAAAAAATTAGCCAGGTATGCTGGTGTGTGCCTGTAGTCGCAGCTACTCAGGAGGCTGAGTTGGG
AGGACTGCTCGAGTCTGGGTCGTTCAGGCTGCAGTGGGCCGTGATCGCGCCACTGAACTCCAGCCTGGGTGACAGAGTGAGACCCTGTTAAAAAAAAAAA
ATAATAATAATAGGCCTCAGTTTCCCCTGGCAGCACCTGGTGGCCAATCTTTGGTTTCCCCGGTGGAGTGACAGGGTGGCGGTGCCTGTTTCCCTGTGTC
ATGATCACAGTGCCTGGGCCTCAGTTTCTTCTGTGCAGTGCTTGGTTTGCCCCCAACTATTTCCCCTACGTGGTATCCGAGTGGCTGTGCCTCAGTTTCT
CTGTTGTGCCTTGACAAGGCCGGTCTGTTCCTTGCCCTCCCCGCCCCGCAGGCCCGCACCGCCGCCATGATGTGCGAGGTGATGCCCACCATCAGCGAGG
ATGGCCGGCGGGGCTCGGCGCTGGGCCCGGACGAGGCGGGCGGGGAGCTGGAGCGCCTCATGGTCACGATGCTCACGGAGCGCGAGCGCCTGCTGGAGAC
GCTGCGCGAGGCACAGGACGGGTTGGCTACAGCGCAGCTGCGGCTGCGCGAGCTCGGCCACGAGAAGGACTCGCTGCAGCGCCAGCTCAGCATCGCGCTG
CCCCAGGTCTGGGCGGGACAGGGGCGGGGCATGAGGGGGCGGGGCCTCGGGGGGAAGAAGGCGGTCCGGAAGGGGCCGGGCTTGGCGCCTGGAAGGGAGG
AGTCTGGGCGAGGCTTGCCGTTAATGGGCGGGGCCTGAGTGGCAAGGGACAGCGGGACTTAGCAGGGAGGGCGGGACCTTCAAACTTCCAGTCCCAGTGA
ATGAAGGAGACAGGGAAAGGATTGAGCCGAATGTCCAGATCCTGCCAATGTCTGGACAGGAGTTTGCAGCTCTGACGAAGGAGCTGAACTTATGTCGGGA
GCAGCTGCTGGAGAGGGAGGAAGAGATTGCAGAGCTGAAGGCGGAACGGAACAACACGCGGGTGAGGGGTGTTGAGGGCGGGGCCTAAGTGGGGGCGGGG
CCTCGTGGTGTTGAAGTGGGGGGCGGGGCCTCTCAGTGTTGCAGCGTGACCTATTTTTTTCCCCCATCTCGCCTTTCTGTCTTCTCCTCTTCCCTGCTCC
CACTTCCTGGCTGGTCTCCCACTCTGGTGCCACTCCTTCCTCCCTGTCTCCATAACTTTTCTCTTTTCTGTACCACCGGTTCCTTGACCCCGACCTCCTC
TCTTTTCCTGACCTGTCTCGGTGCTCCTTTATATGGCTCCATCTTTTCCTCCATGTGTCCGCCCTACCTGTCACCCTTTTTCTCACATCTGCCCCTTTTC
CCTTGCCTCTTTTCMTTGACCCCATGCCGTGTGCTTGCAGCTGCTCCTGGAACACCTGGAGTGCCTGGTGTCCAGGCACGAGAGGTCACTGCGCATGACC
GTGGTGAAGCGCCAGGCCCAGTCCCCGGGTGGGGTCTCCTCGGAGGTAGAAGTGCTCAAAGCTCTRAAGTCTCTCTTCGAGCACCACAAGGCCCTGGATG
AGAAGGTATGAGAATTAGAAGAGCAGGGGTGGAGAATGGAAACCYATAGTTGACTGGGGCTGTTCTGAGTGGGAGAGATTCTGGCCGTGATTGGTTGGGG
ATGTTCTGAGTTGGAAGAATGTTGACTGTGATTGATTGGGACAGGATACATAGACTGGGACCTGACTGGTTGATAGYAGAAAAATAAACYAGGATGGGGG
CTAACAGTGGATGGGGCAGATTGGATAGCTGGTTGYGGCTGCATACCCGTTATGGAGACAGGAGCCCCAACGCTGCCCTATCGGATCCGTCCCAGGGGTG
TTCTGGACCAGGGGCAACTGTCCTAAACTGGATCTTGTCTCCAGCTGACTGTTGCCCTGCCCCGATCCCCAGGTCCGGGAGCGGCTGCGGATGGCGCTGG
AGCGCGTGGCAGTGCTCGAGGAGGAGCTGGAACTGAGCAATCAGGAGGTGTGGGTGTGGCCAAGACAGGGAATTTGAATCCAAGGGGAGGGGCTAAGGGG
CTGCCCAYGGGGCGGAGCCGGTTGGGTGGGTTCCAGAGAGAATCTATTGGGGCAGGACTAGGGCAGACAAGCTATGGGGTTGGACTATGGAGAGAAACCA
GTGGGGTTCCTAAGTGGGCACGCATTGCGCAGGGCTACGGGGAGAATCTCCCAGTGAGAGTGAGATTAAGGGTAGAACCAGGGGCTGGGGCTCAGGCTGG
GACTAAGGAGGAAGTGATTGAATGGGGAAAAGCGGGGCTAAAGCGGAAACTTTGTCCAGGAGGCTAAGGGGAAGAGTAAGGGTAGACGCCCTCCGTGGTG
GCAGCTAAGGAGGGATATAAGGAGGGAGGGAGCCTAAGGGTAAACCGTGGGGTAGGCATGGCCCCAGCACGACCGGAGGCATCTCATATGGGGCCGCCTA
TCCCCTTAGAGGGCCAATGCCAGTGAGAACTAGAGCTGGGGGTTCAGGGAGCCCCTGTGCTCTGATTCCCCTTTCACACTTCCAGACTCTGAACCTTCGA
GAACAGCTGTCTAGGCGGCGGTCAGGGCTGGAAGAGCCGGGCAAGGATGGGGATGGGCAGGTGAGACATGGAAGTCCCCTCTCCGTGAGCTCCATTCAAC
TCCCTGACTTTGTGATAGTGTTTGTAACGTTTGGTATCATCCTCACTGGCCCTAAGACGGCTGCACCTGTAAGAGTGTCACAGAGCTTGGACCTCTGATT
CAGGTCACCTAGCGAACTTCTGTGACCTCCTTCACTGACCCCCGTGGACTCTGACCAGCATGATCCTTATTGATCTTTGATCTACTTTCAGCTGATTGAC
TTTCTCCTTGGATTTCCTCTGTGTCTCCGGAGACACTCTGGGATCTTGTCCCCTCCTTCCCTCACTCCAGACTCTTGCCAATGGCCTGGGTCCTGGCGGG
GATTCCAACCGGCGCACAGCAGAGCTGGAGGAGGCCCTGGAGCGGCAGCGCGCCGAGGTGTGCCAGCTGCGGGAGCGCCTGGCGGTGCTGTGCCGTCAGA
TGAGCCAGCTGGAGGAGGAGTTGGGCACCGCGCACCGTGAGCTGGGCAAGGCAGAGGAAGCCAACTCCAAGCTGCAGCGCGACCTCAAGGAGGTGAGGCC
CCCAGGGAGGCGGGCTGCCCTGGGTCCCTCGCCTTTCCGTAGAGCTCTCCCTCGCGCATTGCTCATGAATGGCGGAACCTCGATTCAGTCCACAGGCTGG
GTGACTCCTCTTTGAGATTCAGTTTTCCCACCTGTGAAAGGAAATGTATGATTCTCATCAGAGGGTGAGCCTGTGGCGCAGAGTAGGCGCTCCATAACTG
CTCGTAATTACTTTGTTACCTAACTTTGGGTTCTTCTCTGGTGCCTCTAAATGGATTTTTTTTTTCTTTTGTGAGGCAGAGTCTGGCTGTGTCGCCCAGG
CTGGAGTGCAGTGGCGTGATCTTGGCTTACTGCCACCTCTGCCTCCCGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGAACTACAGGCA
CCTGCCACCATGCACCGCTAATTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTAGTCTTGAACTCTTGATCC
GCCCACCTCGGCCTCCCAAAGTGTTGGGATTACAGTAGTGAGCCACCGCACCCAGCCTCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTAGCTGTGT
CGCCCAGGCTGGAGTGCAGTGTCGGGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGAC
TACAGGTGTGCACCACCACACCTGGCTAATTTTTTTTTTTTTTTTTTGTATCTTCAGTAGAAATGGGGTTTCACTATATTGGCCAGGCTGGTCTCGAACT
CCTGACCTCAAGTGATCAGCTCGCCTCGGCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGTCCAGCCTCTAAATGGAATGTTTTGTGGGTATTTC
ACCCCTTTCTGGCTTAGGCCGCTTTATCCTAATCCCAGTGACCCCAGGGAGCTGCTGGGAAATGTGGACCTGGATTCTTGAAGGCAGTGGATGAGAAAGA
AGAGTGAGCACTAGGACTAGCCTGGGCAACATAGCGAGACCCCGTCACTACTTAAAAAAAAAATTAGCCGGGCGTGGTGGTGGGTGCCTTTAGTCCCAGC
CACTAGAGAGGCTGAGGCATGCCAGGTGCGGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCAAG
ACCATCCTGGCTAACTCAGTGAAACCCCGTCTCCACTAAAAATACAAAAAATTAGCCGGGCGTGATGTCGGGCGCCCGTAGTCCCAGCTACTCGGGAGGC
TGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATAGTGCCACTGCACTCCAGCCCGGGCAACAGAGCGAGACTCCGTCTC
AAAAAAAAAAAAAAAAAAAAAGTTGAGGCATAAGAATCACTTGAGCTTGGGAGGTGGAAGTTGCAGTAAGCCGAGATCCGTACCACTGCACTCCAGCCAG
AGTGCTGGTTGCTCATGCCTGTAATCCCAGCACYTTGGGAGACCAAGGCAGGCACATCACCTGAGGTCAGGAGTTCAAGACTAGCCTGGCCAACATCGTG
AAACCCCCGTCTCTACTGAAAATACAAAAATTAGCCAGGCATGGCAGCGGGTGCCTGTAATCCCAGCTACTTGAGAGGTTGAGGCAGGAGAATCGTTTGA
ACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCTAGCCTGGGTGACRGAGCAAGACTCTYTCTCTCAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAGAAAGAGAGAGAGAGAACCTTCATCTGGGATTTTAAGCCTGGATAGCCGCAGGGGCTATTGGGAAATGTAGCCCCACCACGTGGGCTACC
AGATGAGGGTCCATCTCCCATAAGAAGTTGAAGCACTTCTTTTGGGGTTCTAGGCCTCTGGTACCCTGGTAGCTCTTGAGAGGTGTTGCCTTCTAGGTAG
AAGGGATCCTTATTTCCCATGAGACCCCAGGACACTTGCTGTTTGATTCTAAGTCTGCTCTATGCCAGAAATTAGTGAGAAATCCAAGGCCTGGGTTTTG
AGGAGAGGGCTGGAGTGGAGACTTCACATCCCACAGGCCTCAGATCCTCTGAACCTGGAGGATCTGAGCCTGCAGTGTCCTAGAAGCTCATGGGAGGTGT
AGCATCACCATTTTAACTCGCAGGTAGGTGGCAGGGACTTAAGATGGGCTAGTCCTGGGAGCTCTTAGCGGGTGTGACACCACCATTCTGACTCCCATGT
CAGGGCACTTTGTTTCCCAGGGAACAAGGGGGTTCCCCGTCCTCTCCCCCAGGGGCTCGCAGTCCACGGGGCCCTTTGCTACCTCCGCAGGCGCTGGCGC
AGCGGGAAGATATGGAGGAGCGGATTACAACACTGGAGAAGCGCTACCTGAGCGCCCAGCGGGAGGCCACGTCTCTGCACGACGCCAACGACAAACTGGA
GAACGAGTTAGCTAGCAAGGAGTCGTTGTATCGGCAGGTGGGGGCGCGGCCGGGAGGGGCGATGGGGGCGGTGCCGGGGCCCAAGTGACCCAGCCCGTCC
CCTCCCCCTGCCTCTCCCTCCCCCAGAGTGAAGAGAAGAGCCGTCAGCTGGCCGAGTGGTTGGACGACGCCAAGCAGAAGCTGCAGCAGACGCTGCAGAA
AGCGGAGACCTTGCCCGAGATAGAGGCGCAGCTGGCGCAGCGCGTGGCGGCGCTCAACAAGGTGCSGGGAGGACTCGGGTCGGGGCCTTGCGTGGGGAAG
GGGTGGGGCCTAGAGGAGGCGGGGCCGTGAATCTGGAGGGGTAGGAGCGAGGTCAGAACCCCGGATTTGGGGGAAAGGGTGGGGCCTAGGGGCTGGGAAA
GGGACAGGACTTGGAATGGGGAGGGCCTGGAGGTTTGCGCGGGGGACGGATGGGAGCGGGGTTCTCTAGCCTGGACTGAAAGGACCGGTGGCCTGGAACC
TGAGAGGGAAGGAACAGGTCCTGAAAAAGTGGACTAGGCGCAGGGGCGGGGCCTGACTCAAAGGTGCAGGGGAGGAGCCTGGCGCTGTGGGGGCGGAGCC
TGGCGCTCAGCCTTGGAGGAGGTGGGGCTGGGAGCCTGACTGATCCTGGAAGGGTAAGTCACACGCCATGGGTTCCATCTCCTAGGCCGAGGAACGTCAT
GGGAATTTTGAGGAGCGGCTTCGGCAGCTGGAGGCCCAGCTGGAAGAGAAGAATCAAGAGCTGCAGCGGGTGAGGGGGCGGAAGACTGCACAGAGGGTGG
GGCTTCGAGGCTGGGGCGGAGCTTAATAAGGAGGCTGGGCTGGGCCCGGGGGTGGGGCTTAGAGGAAGGGCCGTGGTCTGGGCAGGGTGGGCTTAACAAC
CCGCCCCGCTCTGCTTTGCGCAGGCCCGGCAGCGGGAGAAGATGAACGATGACCACAATAAGCGGCTGTCCGAGACGGTGGACAAGCTGCTGAGCGAGTC
CAACGAGCGCTTACAGCTTCACCTCAAGGAGCGCATGGGGGCGCTGGAGGAGAAGGTGCGCCCCCCATACAGGACTGCGGGACGCGGAATTCCGGGACTA
CCTCTTGCTGGAATCCTGGGGCCCCAGGCCTTTCCCTCAGATCTGTTATCGGAGGCCTCCCTAAACCCCGGCATCCTGAGTTGGGCAGCCTTCTCTGCTC
TATTGCCCAGACCGCTTTTTCACCTATTCTAGACGTTCCAAGAGCCGAATTCTGGGGCACCCATGCCTCGAGTCCTTGACTTTTCCCAAAGCCTCCAACC
CCATGGGTCTCCAAACCCTGAACCCTCTGAGATTGCACAGGACGTCGCATCCCGGGGCTTCTCTCCCCAGAAACATCGTTGCCCCTGCTCCCCCGAAACT
CACCACTTGTGTCCATCTCATTCCTCCTGGGTCCCCTCAGGCCTGTCTGTGTGCACTGGGAGCTGCCTGCAGCCCCACGGGCGTGGCCCCTCAGGCCTCA
CTCCCTCACTTCACCTCTGTCTCCACAGAACTCCCTGAGCGAGGAGATAGCCAACATGAAGAAGCTTCAGGATGAGTTGCTGCTAAACAAGGTAGGGGGC
CCTGAGGGGACAGGAGGAGGATGTTGGGGCAGTGGTTGCTGAGGCTAGGGTCTGCAAGTCTGGCAGGGGCTGTTCCTCCTGGGCGGAGCAGATTCTAACC
CGACACCTCCAACACCGGCCCCCAGGAGCAGCTCTTGGCCGAAATGGAGCGGATGCAGATGGAGATCGACCAGCTGCGGGGGAGGCCACCATCCTCCTAC
TCCAGGTGACAGCAGCCCTTCTGCCCTGCCCCCACCATGGAGCCCCGTTGGCCAAGCGCCAAGCTCCTCCCTTCTGATCCCCACTTCCTGTCCTCCTGAG
ACTTCTGACCCCTCTGTTTTTGTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGGAATGCAGTGGCACGA
TTCCGGCTCACTGCAACCTCCACCTCCTGAGTTCAAGCGATTCTCGTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGTGCACCACCACAGCCGGCT
AATTTTTGTAGTTTTAGTAGACACGGGGTTTTGCCATGTTGGCCAGGCTGGTCTGGAACCCCAGGCCTCAAGTGATCCTCCCCCCTCGGCCTCCCAAAGT
GCTGGGATTACAGGTGTGAGCCACTGTGCTCAGCCCACTCTGGTTTTTTACCCTGACTTTATTTATTTATTTTTTCTTTCTTTTGAGACAGAGTCTCACT
CTGCTGCCTGGGCTAGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCGCCTCCCCGGTTCAAGTGATTCTCCTGCCTCAGCCTCTAGAGTGGCAG
GGATTACAGGAGCCCACCACCACATCCAGCTAATTTTTTTTATTTTTAGTAGAGACAGGGCTTCACCAGGTTGGCCTGGTCTCAAACTCCTGACCTCAAG
TTATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCTTGAGCCACCAGGCCTGGCCCCTTGACCTTGACTTCAGGACCCCTGGCCSTAGGTCT
GTCTCTGTGACCCTTACCTCTGTGCTCTTTTCCTGACCCCTTGGTCTCTGACTGCTTTCCTCATGCCCACAGGTCTCTCCCTGGCAGTGCCCTGGAGCTC
CGTTACTCTCAGGCACCCACTTTACCTTCTGGTGCCCACCTGGATCCCTATGTGGCTGGCAGTGGTCGGGCAGGCAAGAGGGGCCGCTGGTCAGGGGTCA
AGGAGGAGCCCTCCAAGGTCAGCAGCTGCCTCTGGGTCCTGGACTGAGCAGGGCTTGGGCGGGCAGCTGTAGGAAGTGGAACTAAATCTGTGGGGCTCCG
GGAGGAAGCTGGGTTGAGAGGCAGGATCTCTTGGACTCATCCACTCACCCTTTCTTCTCTCCTTCCCTGCAACCCTCTTGCCTGGATGTCTCCTCCTGTG
GATGTCCTGCCACCTGGTGAGAACCTGAGAGTAATSATGGGACAGGGAGGGGTGTGTAGAATCCCAGAGTAGGTGGGGTTAGGTGAGGAACAGGAGCCAG
CTGAGTCATGGGAATCAGGGGCGGGGGTGGAGTCATGGGTGTGGGCGTGGCTTGGAGAGGATTTGGGGAGGGATCAAGAACAGGGACCTGTCAAGAGAGG
AAGTTGGAGGCCGGGCAGGGTGGCCCATGCCTGTAATCCCAACACTTGCTGGCGCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTTCGACAGCAGCCTT
GCCAAAATGGCATCGCTACTAAAAATGCAAAAATTAGCCGGGCGTGGTAGCGGGCGCCTGTAATCCCAGCTACTCAGGAGACTGAGGCAGAAGAATCGTT
CGAACCTGGGAGGCGTAACCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAATGAGACTCTGTCTCAAGAAAAAATAAATAAAATAAAAAAAAT
AAAGCTGGGCTGGGAAAAGCATCAGTGAGGTCGGGCAAGTCAGGATCATGAGCCAAGACCCAGCGCCAACCTCGGCCCCCAGCCRCCTAATGTCCCTCTG
TCCCSACACAGGGATAGGATTGGGAGCGGTCTGCCCCTKCGGGCTCCATACCACCCCCATTCCCTGGGGAACTGGACGGCTCCGATGAGGAGGAGGCAGA
GGGGATGTTTGGGGCCGAGCTGCTGTCCCCCAGTGGGCAGGCTGACGTGCAGACGCTGGCCATCATGCTTCAGGAGCAGCTGGAGGCCATCAACAAGGAG
ATCAAGTGAGCCCTGGCCCCGCCCCGGCCTGCCCTGCCCTGCCGGAGCTGACTCCACAGCCCTTCTGGCTCTGGAGGCCTGAAAGCCTGAGTCCGTCTCC
TCTTACACCATCCACAAGGAATTCTTCCAGYCCAACACTCACTCCGCTGTCCAGGCATCCCCTAGGATACACTCAGAAGTCTTCTATGTGCTACCTACAC
ATATACCCCCCAGCCAGTACTCACCATTCCCCAACACACCAAAGCCTGCATCCCCAAATAGCCCAGTTCCTCTTGATGCATCAAGAATCTTCCATTACGC
CATCGATTTTGTGGTTTCACATAACCAGTGCCCAGAGTCTCCCACTACCCTAGGAATCTCAAGACAACACAAGGTTCCCAACCTCAAACACCAAGAATCT
CATCCTAACATGCTAATCAAAAACTTCAACTCCAGGCTGGGCACAGTGGCTCAYGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCCAGCGGATCATGA
GGTCATGAGGTCAGGAGATAGAGACCATCCTGGCTAACATGGTGAAAACCTGTCTCTACTAAAAATGCAAAAAATTAGCCAGGCATGGTGGCAGGCGCCC
GTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAGCYGAGATAGTGCCATGCACTCCAGCCTGGG
CTACAGAGCGAGACTCCGTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAGTCCCCAACTTATTAARAAGCCCCCAGTGATGTAAAGTCTACCCTGATTCAC
CAGCAATGGCCATATTCAGCAATTCTCTTATAATGTACTCCCCATGAGCCTTCGGCAAATATACCATGACCACCACTTTCCATACCAAATGAGTCCATGC
CCTTCCCAGATCCTAGATTGGCCTGAGTCCCTGATCTCACAATGCTCCTATTATGACCTTGCTCTTACAGGCCACCTTGAACTTGACCTTTTGTCCATAG
TAATCCCTTCATGATTTTCCAAACCCCTTGACTATCATCAGGGCCACCCTGATACAAACCCCRATCACCTTGATAGCCCTAATCCTGCAATGACTTCCTG
AGACTCTCAGGACCCCTTGACTCTCCTTGAGCCTGGAAGGCCTTCAGAAACCCACCAAAGTCCTCTGACGTCATTGCACCGTCCCCAGAATTCCCATTGC
CCCACCAGGCCTTTCTGGCCCATTGTGCTCCCAGATTCCCTCTCCCGCTGTCTGCTGCGGCCCCTCACCCAGTTTCCCCTATTTCCCTCCTCAGGCTGAT
CCAAGAGGAGAAGGAGACAACAGAACAGAGGGCAGAGGAGCTGGAGAGTCGGGTGTCCAGCTCTGGCTTGGACTCGTTGGGCCGCTACCGCAGCAGCTGC
TCCCTGCCCCCCTCCCTCACCACCTCTACCCTTGCCAGCCCCTCCCCTCCCAGCTCTGGCCACTCAACACCCCGCCTGGCACCCCCTAGCCCTGCCCGTG
AGGGCACCGACAAGGCTGTGAGTGCTCTGAAGTCTCCCCAGCCTAGTAGGGGGATGGGGAGAGGTCAGAGGCAGGGCTCCCCAGTGTACAGCAACAATAA
CCCCTCACACCAGTGGTTTTCCAAAGCAACCTCAGCTTTCCCTAAAGGTTCAAACTCAGGGCAAAGGGGAGGCTGAGTCACTGGGATCTTGAACCCTAAC
TTTCACTTTAGTCAGATCTGGTCTACTTTTATTTCTCATGCGTCAAGTTTCTGCATAGGATTTTAAAAAGTTTCTGGCTGGGTGYGGTGGCTCACGCCTG
TAATCCCAGCACTTCGGGAGGCCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCCACCTGGCCAACATGGTGAAACCCCCACCTCTACTAAAA
ATACAAAAATTAGCCTGGCCTGGTGGCACGTGCCTGTAATTCCAGTTACTCGGGAGGCTGATGCAGGAGAATCAATTGAACCCAAGAGGCAGAGTTTGCA
GTGAGTTGAAATTGTGCCACTGCACTCCAACCTGGGAGACAGAGTGAAACTGTGTCTCAAAAAAAAAAAAAGTTTCTGTGACAACATGCATTGGAGAACT
ACAAATTAGATCCTCAGAATTGACCTTTGAGGGAGACAAAGAGATATTGGCCCTATTTTACTCCCTTAAATTCAGCTTTCCTGCTTCCAGAACCTGTAAC
TCATTAGCTTTCTTTGAGGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAATTATCCGTGTATGGTGGTGTGGGCCTGTAGTCCCAGC
TTCTTGGGAGGCTGAGGCTAAAGAATCACTTAAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGCGACAGAGCTA
GACTCTGTCTCAAAAAAAAAAAAAAAATTACCCGGGCATGGTGGCACATGCCTTTAATCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCTCTTGAACC
TGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCCACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAGTT
TCTGCAACTCACCCTGACTTGAGCTAGACTACCTTCGTATACTGTGTTCTAAACCAGGGTCACCCCACACACACCTTAGTAGACATCTCAGTTAATAAGG
AGCCCCCGACATGACTCTTTGAACTCAATCCAGCATCTRTGCCCTCTGTCCTCAGAATCATGTCCCTAAGGAGGAAGCTGGAGCTCCACGAGGGGAGGGG
CCGGCCATCCCAGGAGACACCCCACCACCCACTCCCCGCTCTGCCCGTCTTGAGAGAATGACCCAGGCCTTGGCACTGCAGGCGGGGTCCCTGGAAGATG
GGGGACCCCCACGGGGAAGGTCAGCAKGGACAAGGGATAGGGACAGGGAGAAGCTGGCTTGGGAAGATGAGAAGGGGGTGGACAAGGACTTGGGAGGAGA
GGGGGCATCTCAGCAAGCATATGCTCTCATTCTCTCCTGCTTTCCCAGTGAGGGCACCCCAGATTCTCTGCACAAAGCCCCCAAGAAGAAGAGCATCAAG
TCATCCATAGGCCGTCTCTTTGGCAAGAAAGAGAAGGGACGAATGGGACCCCCAGGCCGGGACAGCTCTTCTCTGGGTGAGTACCTCACTCTAACCCTTC
CCTCCTTTGTTCCTTCCTCCCTTCCTCCCTCCCTYTCTTTCTTCTTTGTATGTTCATTTGACATCCATTCATGTCTTCATTCATTTGGTGATTTATTTAG
AATTTGGAAGGAACACAGCYTGCCAAGGTAGGCGGGAGGAGGAGGGAAAAGGAAAGGGCACTCTGGGRCCTGCTTGGGTGACTGGGTAGGTAAAGGAATT
TATTTCCTTTACTTATTTTTTTGTTGTTTTTTGGTTTTTGTTGTTGTTGTTTTGAGATGGAGTTTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCAACG
ATCTTGGCTCACTGGAACCTCTACCTCCTGGGTTCAAGCGATTCTCCTGCCTCGGCCTCTTGAGCAGCTGGGACTATAGGCGCCCGCCACTATGCCTGGC
TAATTTTTTTGTATTTTTAGTAGAGATAGGGTTTCCTCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGATGATCCACCCACCTCGGCCTCCCAA
AGTGCTGGGATTACAGACTCATTTACCTTTTTTTTTTTTTTTTTTTTTTTTTTTGTTTGGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTG
GTGCTATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCAYGCCATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGCGCCCACCACCACGC
CCGGCTAACTTTTTGTATTTTCAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTTGTGATCTGCCTGCCTCAGCCTCCC
AAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCCAGCCACCTATTTTTTAAACAGAGGAAGAGGGTGGGGCATCCTCAAAGCAGGGCACCTTCCTGTG
GTGTGCTGGAGCCCGCTGGCACTGGCTCAGGAGATCCGCTATTTCAGGAATTGGCTGACATCACACTGGTAGCTTGAAATTGGCCATGGTGGGATTATTT
ACACCATGGAAATGGGCAAATGCTACAAATCAGGGATTCCCTTCTGCCTCCCCAAGGAGCCGGTTGTTAGGCATTTACCAGCATACAACTGCCACCTTAC
CAAGGGCATMCCAGTGCATCCAGCCGTATTTTGGGGATGACTCCAATTCATGGGCGCTTGTCTGCCTTTATCACTTCCTCGATGTGCCCTCACTCACTAC
TCCCTCAGGGCCTCTGCCTTTCYGGCATTTTCCTCATCACCTCCAGCATGAAAGATTCTGCCTCCCCCTTGAGATTTTCCAAATTTCGACCCCTCCCTGC
CTCCAGCTGGAACACCCTCAGATGAGACACTGGCCACTGACCCTCTGGGGCTAGCCAAGCTGACAGGCCCAGGAGACAAGGACCGAAGGAACAAGAGGAA
GTGAGTGTGTGTGAGTGTGAGCGTGTGTGTGTGTATGTGAATGTGAGAGTGTGTGAGGGTGTGTGTGTGCGTGTGTGTATGTGTGTGTATGAGTGTGTGT
GTGTGTGTGAGAGGGTGTGTGAGTGTGTGTGTGCAGCGGTGGTGGTGGTGAACAGAAATGGGAATTCAATGCTGGGAGGAGGTGTCCGTGATCCTGAACT
TGCTTGCCTGGAAACCCAGGAGCTCCTAGAGTTTTTATTTTTTCTTTCTTTTTTTAAAWTTTTTTTTTGTATTTTTTACATTTATATTATATTTTTTGTT
TCTTTTGTTTTTCTTATTTTGTTCTCTCTTTTGATAGGGGTTGGGGGGAGAGGATTTACAGATTCACATGTATTTTTTGACCTTCTGCCGTGTTTTGTAC
ATTCATAAAAGSTGCGTGTGCGTATGTGCATRTGTGTGTGTGTGTGTATGTGTGCTGATRGGGGCCATCCACAGAGCAGGGGGTCTCCATCCCTGACAGC
TTCTATCCTGGCCCCTTCACCCTTACAGGCATGAACTCCTGGAGGAGGCCTGCCGCCAGGGCCTACCTTTTGCTGCCTGGGACGGGCCCACCGTGGTGTC
CTGGCTGGAGGTACTGGGGCCCAGAAATGCCCTGACTGTTGGTCCCCAACCCCTCTGACAGCCCCACTGGTAGGGGCTGCCTGGTCCTCCTGGCGCACCC
TGCTTCTAGCCCAGAGGTGGGGGTGGCCATGGGCCTGGCAGGTGAGGACCCAGGAGGGCTCGGGCTTCCTGTTCACCTAAACAGTTTCTTTCTCCTTCTC
CTTCTGCCCCTGCCACTCTGGCCTTGCCCACCTGGGTCATGGTCTCCTGTCGTTCTCTCTACTCTCTCTTTCTGGATTCTCTGTCTCTATTTTTCGGCAC
CATTCCCATCTCTGACCACGCTTTTGTCATTCCCCATATTTCTCCTCATGTCTCCGATCGCCCTGCCGATGTCTCCCTGTCTCCGGCTTCCTGTCTCTCC
CCACCCTCTATTTCTCTCTCTCTATTTCTTTCTCTCTCTCTCTCTTTCTCTCTCCCTCTCCCTCTTCCCCCACCCGCCCCCCGCCCCCCGTTTCTCTCCC
TATTTGTCTCCCTCGGACTCTCCCTCATCTCGTCCACGTCTCTTTTCCYTGTCCTGTTTCTTCTCCTTGCGAACTTTCCCACGTCTCTGTTTCGCTCCCC
ACCCCCTTGCCTTTCCCCACCTCCCTGTTCCCCCATCTCTCCGRTTTTCTCCTCCTCTGTCCCTCTGTCCCCTCTGTCCCTCTGTCCCTCCGCTGCAGCT
GTGGGTGGGCATGCCTGCCTGGTATGTGGCCGCCTGCCGGGCCAATGTCAAGAGCGGTGCCATCATGGCCAACCTGTCAGACACGGAGATCCAGCGCGAG
ATCGGCATCAGCAACCCGCTGCACCGACTCAAGCTACGCCTCGCCATCCAGGAGATGGTCTCGCTCACCTCGCCCTCAGCCCCCGCCTCCTCCCGCACTG
TGAGTGTCCGGCGGCCAATTCCAGCCTTCGYTTCCTCAGAGCCCCGCCTCTTGCCCTCAGTCTAGCCAATCCTGGGCCTGCTCACTCCCCTGTCCCACGA
CCCTGCTTCTCATTGGCTTTTACCCCCCTCAGCCTCCCCTCCACTCCTAACTTGGCCTGTGGTCCGTCCCTGTGGTACTCCAGGAGGGGCCCAGGCCACC
TCCTTCCCTGACTSTCTCCCTCTCCTCGGCATTTGCTGTCCCACTCAAATGTCACCACCTCTAAGAAGCTTTCTTTGTCAGCTAAACGAGTTTCCCCATC
ATTCCGGCATATCAGCACCTTCTAATTTTCCCCATAGCATTTATTGCCTTCTAATTATTTTATCTTTTCTTTCCTTTTTTTTTGGAGACAGAGTTTCGCT
CTTGTTGTCCAGGCTGGAGTGCAATGGCGCTATCTCCGCTCACTGCAACCCCTGCCTCCCGGGTTCAAGCCATTCTCCTGTCTCAGCCTCCTGAGTAGCT
GGGATTACAGGCGCCCGCCACCACGCCCAGTTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTGACATGTTGGCCAGACTGGTCTTGAACTCCCGACCT
CAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGTTGAGATTACAGGCGTGAGCCCCTACGCCTGGCCCTCGTTCCAACTTTTGATTACGAGACATTTCAA
ACATACAGAAAATCATGTGTACCCAGTTCAGCGATTCTCAAACTTTTGCTGTACTTGCTCTGTTGTGTGTGTGGGGTGGAGGCGGGGAGTGGGGAATACA
GGTTGAGTGTCCCTTACTTGAAATACGTGGGACCAGAAGTGTTTAGAATTTCTGATTTTAAAAAGTTTTTTTTGAATATTTGCATATAAATGAAATATCT
TGGGGATGGGAGCCAAGCCTAAACATGAAATTCATTTATGTTTCATATGCATCTCATACACATGCCTAAAAAGAATTTTATACAATATTTTATTTTTTAT
TTTTATTTTATTTTTTCGAGATGGAGTCTTGCTTTGTCGCCAAGGCTGGAGTGCAATGGTGCGACCTCGACTCACTGCAACCTCTGCCTCCTGGGTGCAA
GCAATTCCAATCCTCTGCCTCAACCTTCCGAGTAGCTGGGATTATAGGCGCCCACCACCACGCCCTGCTAATTTTTGTATTCTTAGTAGAGATGGGGTTT
CACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGG
CCTACAATATTTTAAATAGCTTTGTGCATGAAACAAAGTTTTGACTGCATTTTGWTTGTGACTTGTCACATGAGGTCAGGTGGGGGATTTTCCTCTTGTG
GCTTCGTGTCAGCACGTAAGTTTAGGGCCAAGCACTGTGGCTCACACCTGTAATTCCAGCATTTTGGGAGGCTTTGGATGGCCGATCTCTTGAACCCGGG
AGTTCGAGACCAGCCTGGGCAACATGGCAAAACCCCATCTCTACTAAAAATACAAAAATTAGTCGGGTGTGGTGGCGTATACCTGTAGTCCTAGCTACTC
AGGAGGCTGAGGTGGGAGGATCCTTTGAGCCCAGGAGGTCGAGGCTGCAGTGAGCTGTGATTGTCCCACTGTACTGCAGCCTGGGTGACAGAGAAAGAGT
GCATCCAAAAAAAAAAAAGTTTAGAATTTTGGAGCATTTTGGATTTTGGATTTTCAGGTTGGGGATGCTCAGAGACCTGTACTTGAATGTAATTGGAGAA
RGTCATAACATCTTAGCCCCCAAAATTACTTTAGTGGGTCTTTTTCTTCCTTGTAAACACCACATCCTTTATCACACCTAAGGGCATTCACATTGTTGTT
AATTTCTTTTTCTTTTCTTTTCTTTCTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCAC
TGCAACCTCCGTCTCCCTGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAAAGGCACACGCCACCATGCCCAGCTAATTTTTGTAT
TTTTAGTAGAGATAGGGTTTCACCAACGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCTGCCTCCCGAAGTGCTAGACCAC
TCTCAGCCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCTCCAGGTTGGCCAGGCTAGTCTTCARTCTCCAAAAGTGATGTGCCCGCCTCAGCCTCCC
AAAGTGCTGGCACTACAGGTGTGAGCCACCACGCCTGGCCACAGTTGTTAATTTCATTTACTATTCACTCTGTATTCAAATTTCCCCAACATACTTAAAA
TATGTTYATTGTTTCTCCCCCACTAGGACGAAAAGTGTCTGTCGTGTCCCTTGCCATATCCCACACCCTATGACGGTGACTGGTGCCTGACACTCACCAG
AAGTACATAAATGTTTTTATCCTTGTATGGATTCCTAACTCGTGAGGTTGTTGGGAGCAGAAGCTCAATAAATGTGAACCCCCCCCGCCATACTCCCTAA
ACATTTGCACCATGGCTGTGTCTGTCCCCCACTTCTGAATCCTCATTCTGTACCTCTGTGTGAGGTCAGCGAGGTGACGTCATTTGCACAGGGCCACACA
GCAAAATGCATGGCAGGGTCCCAATTCCAACCTGAATTTGTTCAACTCCAAAGTCACATTGCCTGGTACATGGCAGGTGCCCTATAAKAAGAATCATTCC
TTTTCTCTGTTACTGCTTGCCCCAGAAAGCAGGAGGGACATAAACGTGTGGCCCAGGGCCTTCAGGAGGACACCCTCCTTCCTCTCCCCCACGCGAAGCC
CTCTCCCACCATCCATTAACACTCCCTGCCCCTCAGTCCACAGGAAACGTGTGGATGACACACGAGGAGATGGAGTCCCTTACGGCCACGACCAAGCCCG
TGAGTGCCCCCTGCCGGCCGCCTTGGGGGTGGCACTAACCTTCTTTGGGGGTGGGGGCGGGGACCGAGTCTGTGGCCATCCCTAAGTCCGCTCCTTGCGT
CCTCCTCTGCCTGCCCCTTAACTCACCCCTTCTCTCCCCTCTTCCTACTAACGGGTCAGGAGACCAAGGAGATCAGCTGGGAGCAGGTAGGGGGCGCGGG
GCGGGGCGTGAGCGCATGAACAGGCTGTGCACGAYGCATGGATGCCCCTCCTCCGAGCCCTGCCCCTGCCTTCACCAGAACATGCCATCATCCCCATGGG
GGGGCGCTGCGCCAAGCTTGGCTCTGGACTGTTCCATTATGGCTTGGCGGTGGGGAGGGTAGAGGGGATGCGATGTGGAAGCCCAGACTGTTGCATAGTC
AGCCTTATGCATGGACCATTTCATCATCGTGGGTTGTGGGGGCTCTAAGGGGCTTCAATTCTGTAGCTCAGGAGAGACTGAGCAGCCGGTGTCCCTATAG
TGGAGGGGGCGGGGGCTACAGTGGACTGCTCAGTGTACCAGGGCCAAGGAGGACACACTGGCTGTGGTGGTGGTGAGGCAGCCAGGCTGAATGAGAAGTT
GGGGAGGAGGAGCTACACTTTGTTCTCAAGAAACAAGAGGCGGCCGGGCGCAGTGGCTCACGCCTGTAATTCCAGCACTTTAGGAGGCTGAGGTGGGCAG
ATCACCTGAGGTCAGGAGTTTGAGACCAGTCTGGCCAACATGGTGAAACCCTGTGTCTACTAAAAATACAAAAATTAGCCGGGTGCAGTGGCTAGCGTAT
GTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTAGAGGTTGCACTGAGCCGAGATTGCACCATTGTACTCCAGCCTGG
GTGAYAGAGCCAGATTCCATCTCATAAAAACCAAACAAATAAACTAACAAAAAAACCCAAGAGGCATGAACTCACTGTCCACGGAGGAATTATGTTTGAC
TGTGGTCATAGATCACATATTTCCAGCCAGGGGGAGGCGTGGATTTTGTGCTGATRCTGAAAGGAGTGAGGGACTTGGGACTCATCTGGAATATTGTCCT
GGGCCAGATATAACATTAGACAAGTATTTTCAGGACATTGCAAGAGTGATGGCCCTTTCTTAGTGGGAGAGCTGCCTTGAAAGAGTCCATTGTCCTGACT
TGGGGGTKTAGTGACGTTGGACTGCAGTGAGACAGAGTTAAAGCAGTGCTTCCCCAAATTTAATGTGTAGTGGGGTGGCACRCACCTGTAGTCTCAGCTA
CTTGGAAGACTGAGGCAGGAGGACCGCTTGAGCCCACGAAGCTGAGGTCAACCTGGGCAACATAGTAAGACCCTGTCTCTAAAAAATAAACAAATACAGC
CAGGCGCGGTGGCTCATGCCTGTAATCCCAKCACGTTGGGAGGCTGAGGTGGGCGGATCCCTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGT
GAAACGCCGTCTCTACTAAAAAATACAAAAATTAGCCGGGCGTGGTGGCTCGTACCTGTAATCCCAGCTACTCGAAGGCTGAGGCAAGAGAATTGCTTGA
ACCTGGGAYKGGGAGGTTGCAGTGAGACGAGATCGTGCCACCGCGCTCCAGCCTGGGTGACATAGCAGACTCTTTCAGAAAGRGAGAGAGAGAGAGAGAG
AGAGAGAAAGAGAGAAAGAAAGAAATTTAAAAATAAATATAATGTATATTTCGAATCACCTGAGGGTCTTGTGAAAATGCMGATACCGACTTCAGTAGGT
CTGGAGTAAGGTCTGAGATTCTGCAATTCCAGCAAGTCCACAGGTGATGGTGACGCTCTAGGTCTCAGGACAACTGTTTGAGTAGCCAAGAGTATATGCT
GTCATGAAGGGCTAGGAGACAACTCTGGATTGGTCCATTATCCTGAGCAGAGATTGGTCATTGTCCTACCATGGGGTGGGAAAAAACCTTGGATTGGGAG
GTTGGACTGTACCCCTCTCATGCACAGTGGGAAGGGGCCAGAGGGCCTGACTCTTCCCTCACCTGCCCATGGCCCCAGATCCTGGCATATGGCGACATGA
ACCACGAGTGGGTGGGGAACGACTGGCTGCCCAGCCTGGGGCTGCCCCARTACCGCAGCTACTTCATGGAGTCGCTGGTGGACGCTCGAATGTTAGATCA
CCTTAACAAGAAGGAGCTCCGGGGCCAACTCAAGATGGTGGACAGCTTTCACAGGTGGGGGCTGCCTGGCCAGTGGGGACAGTCCAAAGGGAAGCCCCAC
CCCAGAGAGTCTTTGGCCAATAGGATTGGCCATGGGAGATTCCCAGGCTTATCTTGGCCCTTTTAGCCTGAGTTCTCAGGAAATCCTGACTCTGTGCTCC
TTTCACCAATGAGATGGTCCACAGGAAAAGTTCAGATCCTGAAATGGCTTGGCTAGTTAACCCTGGACCCCTTCCAGGCTGGCCAGTAGGAAGTGCCTAT
TATTGAAAATGCCTCACCTCCTGAGGGGRTCAACAGTCAATAGAACTTATCAGCTCCCCACCCTTTCCAAGAAGAGCGCAGCCAGTGGGGAGGGACCCGT
AGGAGCAGCAGTCTAGGGGACTGGAAAGCTCATCCGTGACTCCACTTCCCCTGCTGCTCAGGGTGAGTCTACATTATGGGATTATGTGCCTGAAACGGCT
CAACTATGACCGGAAGGACCTGGAGCGGAGGCGGGAAGAAAGTCAGACCCAGATCCGAGGTGAGTAGAGCCTAAGGGTCCCTTTGGGAGCCAGGTGGAGG
GCGTGGAGCTGGATGGGGAGGAGAGGGGGTAGGGGGAGACCGGAGAAGCAAATTGGCACCATAACCGWRGGGGTGGAGCCAGCGTGGGGGGCGTGGCCCG
AAGAGACCAAATGGAGGTGGAGGTATGGGCTAAACTGAACTCTCCAGGCCACGGGAGGGGCACGGCTGAGGGTCCCTTCCGTCCCCAGACGTGATGGTGT
GGTCCAATGAGCGGGTCATGGGTTGGGTGTCCGGGCTGGGCCTGAAGGAATTTGCCACGAACCTCACGGAGAGCGGGGTACACGGGGCACTGCTCGCCCT
GGACGAGACCTTCGACTACTCCGACCTGGCCTTGCTCCTGCAGATCCCCACGCAGAATGCACAGGTGAGCTGCCGCTGGGCCCGGAGCATGCTGGGCGTC
CCCACCTCGCAGACTGCACGCTCCAACCGCCCCCTCCACCTCCTCTTTCCAGGCCCGGCAGCTTCTGGAGAAGGAATTCAGCAACCTTATCTCCTTAGGC
ACAGACAGGCGGCTGGACGAGGTGGGCGCGGCAACAGCTCAGAGGGCTCTGCTCCCAGCGGCTCCTCGAGAGGCTGAGCTGAGGGGGCGGGGCCTGACTA
TTAATGGTCACGGTTGGAGGCGGGGCCAGRAGAGGGGCGGGGTTAAAGGAGARGTGAGACCCGGAGAGGGGTGGAGTCAAAGGAAGGGGCGGAGTCAGAC
AAGGCAGGAGTCCCTCACCGGCTGTCCGGCTCCTATACCTAGGACAGCGCCAAGTCTTTCAGCCGCTCCCCATCCTGGCGGAAGATGTTCCGGGAGAAGG
ACCTCCGAGGCGTAACTCCCGACTCAGCTGAGATGTTGCCCCCCAACTTTCGTTCGGCTGCAGCGGGAGCCCTGGGCTCTCCGGGGCTCCCTCTCCGCAA
GCTGCAGCCAGAAGGTGGGGGGCTCCCAAATGCGACAGCCCTTCCTCGCTTCCCTAGGGTGGGGCATGGACCACCTCAGTAGTCCGGGTTCTGGAATGGC
CTAGTCCTTTCTCGCCCACCCCTGAGGAATGGACTGCTCCAACGTTCCGGACTCCCCCGTCAGGATGAAATGGATAAATCCCACTCCCCCTTCCCAGGGC
GGGAGTGAACTCGCCCAATGCGAGTTTGAGTCCTTGGCTGYGGGGAAGGGAGGGAAACCCATGTGGAGCCCGGCGATCGTTGTGACATCGGGAAGGGAAG
TCCAAAGGGAGGAATCCTGGAGAGGAACAGGGAGGAGKGTGCTCCAGGCTGAACCGCTGCTCGCTCTCCCTCCAGGCCAGACTTCTGGGAGTTCCCGGGC
AGACGGCGTTTCGGTCCGGACCTATTCCTGCTAGTGCAGGCCTCCAGGTGAGGACCGTGCTGGGCGACCTTGGGGGTGCGGGGCGGCACGGTGGATCTTC
ACTGCTCCACGCGCTGCCCGGCGTCATGCAGGTGACCTCACTCGGACGGAAGAATCTTCCCGAGGCTGGGCTGTTCCCTCTCCTGCCCGGACTGTGGCCT
CGCCGGGGAGAGCGGGCGGGGGAGCTCGCGCCGAGGACTGGACCATCTGTACAGACCAGCGGGAGTGCGCGCGCCCGCCTCGCACAGGGCCGGGGCCTGG
ACCAAACCACATGAACTGGACTGAGAGGGGGAAGAAGCGGGGAGGAAGAAATCCCGCCCCAAACGTCCGCTTTCCTTTTCTCTACTTTGTAATTTATTGA
TCAGTTTCTGTTGGGAGACGGGTGTCCTTTACCCGCGGGAAGGGGGCGGGGCTTCCCTCCCGGGCCGCATGCGGGGAGAGGCTGCTCCCTCCCCTTTTTC
CTGCSCAGTCGCGGGGCCCAAGTCTTCCTTCTTCGTCCGAAAGGAGGGGAGGGGGGACTCGCTGCTACAAGCCTCGCCCCCTGTGCCACTCAGCTCCGCC
CCGCCGCGTCCGGTCGCCGGTCCCCCGGGTCATCTGCGGGCGGGKTCCCCTCTCCCTCCCCCGTGTCTCGTGTCCCCGGGGCCTCACCGCCCCCCGTGCT
GTGGCCGTGTCCGTGCCCCGGGGGTAGGGGGCGCAGAATGGCGCTTCCCCTTCTCCTCTGGCTCCGGGGTTTGCATGGGAGAATCCTCTTTCCACGATKC
CGCTGGGCGACGTGGCGTGGGGGCAGGGGGACGGTGGGGGAGCCCTCGCCCCCGACTCTCGGTCGGCCTCCCCGCCCCAGGCGTCACTCAGTGATCACGG
GTAAAGAGAACTGTTTCAAAAAGCTTCCTTGTTGACTGATTTTTTTTTTGCGGGGGGGGGGGGGGCTGTTCAACCAACCACCTCGAGCCAGGAGTCCAGG
CCCCTCATCCCTCAAGTCTAGGTCCAGGTCTCTAGACCCTACCCGCATTCCCCGATGCCCTGAGATTCCCAGACCCCACGTCTGACAATGAGGTTTCGGG
GAGCACGTTTATTCGGAGAAATAAATATAGCTCGTGGAAAGGGGTTGGAAGGCAGGGGGAGGTACACCTGCGTCGCAGTCGAGCGACTGGGTCAGGGTTC
CGGCGTTTCCAGCATGTCTGCCAGGGCCCTGGAGACGAGAACGCCAGAAGTTAGACAGCTGGTGTTCAAAGCCCACCCCAGGACGCTTAGAGATCATTAA
CCTGCCCATTTCATGGACGGGGAAATGGAGTCCCAGAGTCATCTGATAACTCATAGCGAGACAAGCACTTCTCTAAACGGGGCTTTTACACGCTCCCCTT
TTACACACTTACTGATAAAGGGACGAGGAGAAATAGTCAACGTAGCTTCCTGTGGGACAGCAGAGAAAAGAGGCTTGAGGGGTACTGCACGAGCAAAATT
AGGCAGCCACTCAGTATAGCGTGCGAGATTAGTGCTAGCTCCACCTCCTTTTCCCTAATTCCTTCTTCCAACTGAATCCCTTCTACCGGACCCCTTTTTC
GTTCTGGGTGATTCCGTTCTCCAGTAGCCCCGCCCCTTCGATTCCTACTTGAGTTGGCCTCGCCCATTAGGCTCTAAGCCCGCATCTCAACCCTCCACTC
ATTTCTGTCCCTTGGCTCCAGCAACTCCACCTGGTGTTCCTCGAGCCAGGCCCCGGCCCACGTGCTCAGAGCCTTGGCCACGCCTCCCCTCTTAGCCCCG
CCCCACCAGCCTTCCGGGCCAGGCTCCGCCCCCACCAGGATTCACCACGCTGGGCCCGGCACCTTCCTCAGGTTTTTCCAGGGCCCCGCCCATGCTCACC
TGGAGCGCAGACCGTTTCGCAGACCAGCGGGCAGAGATAGCAGAACTGACAGTGCTGGAGGCGGGGACGGGGAGAGAGAGTGAGCGTGGGGCGTGGCCGG
GGGCGGAGTTAGGATGGGGCCGGGACCAGACCCGGACCAGAGGCTAGGTCTAGGTTAAGGTTGGAGTCAGGATCGCTTGTGGAGTCAAGGTTGCATCAGG
GGTAAGGGGTTGGGTCAGAGGCCAGGATTTAGGGCTGGGGGTCCTCAGAGGGTCCCGGTGCATCCTGAGGCCCAGTGGAGCCTTGAGTGTGAGGTGAGGT
CTCACCTGGCACTGGTCGCAGTGCTCACCCATGTTCTCCTCATCACAGTGACAGCTCTCACATTCAGTGCATCGCTGGGGACCGGGGGAGCCTGGTTAGA
TGGAAACTCTAACGCCACTTGGGAGGTACCCGCCCCTGGCCCACCCCTGCACCCTGGACGCTTCCCCAGACTCTACCCTCTTTATCTCTAACACTGAGCT
CTGTATCTGCCCCCCAAACCAGCCTCCCCTCCCCTCCCCTGCCCCTGGTTTCCTTCCTTTCCCTTTTTTTCCTTTTTTTTCTTGAGGCGGAGTCTCTCTC
TGTCGCCCAGGCTGGAGTGCAGTGGCGCAACCTCAGCTCACTGCAACCTCCGTCTCCCGGGTTCAAGCGATTCTCCTGCCTCGGCCTCCTGAGTAGCTGG
GATTACAGGTGCGTGCCACCATGCCCGGCTAATTTTTTTGTATTTTTTAGTAGAAATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACC
TCGTGTTCCGCCCACCCTGGCCTCTTAAAGTGCTGAGATTACAGGCGTGAGCCACCACACCCGGCCCTGCCCCTGGTTTTCTATCTCAGGGCGACCCCAT
GTCTCCCTGTCAGGGTGGGCTCAGGTGCTCTCTCCACCCGCTCTCTGCCTATTCTCCCCCTAGCCTATCAGCCCCTGTGCCATCCCTCCTTCCCCCGACT
CTCTTTGCCACAGACCCCTGTCTCTGTCCCCACACCCCAAGATGCAGCTTGGGTCTTGTCCTCTCCTTCCTGGACCACTGCCCCAGCCTCCCAGCCTTCA
TCAGTCTGTCCTCACCTCACATGCCTGCAGAAGGATCTCTTTTCTTTCAGAACTGACCCTGGCCTGCCCTTGCTCTGAGCCCTCCCACAGCACCACCCCA
GGGCCCCTGGGACAGATTCTGGGGACACCTTGGTGGGTGGATCTGGGCTGGGGACATACATTGCAGAAGGAGCAGTAGCCACACAGGGACCCTGGCTGGT
AGTTCCCATACTCCTGAGCATCCTGTGGACCTGCGGGGACAGGAGGGCAGCAGTGACCCAGGCTGACTCGGTTCCTTCCCACCCACACCAGCCCAGGCCA
CTTACCTGTGTCCTCACCGCTTTCCTCCTCGCTGGAGGCACCTCCAGCCTCCTCTCTCCTGTCCAGTGGGTTGGGGATGATGGTGAAGCGGGGCTCATCT
TCCTCCAGCCCCTCCTCCTCCTCCTCTTCCTCCTCGCTGTGGTCTGGGCTCAGTGGGGCCCCAACCTCAGCCCTCTCTTCCCTCCTCTCCTCGTCTTCTT
CCTCCTCCTCCTCCTCCTTGTCTTCCTCTTCTTCCTCCTCCTGGTTCAGGCTGAGGCCATGACCTTCCTCCTCATCCTCCTCATCTTCCTGGTCCCGGCT
GCCATGATGGGTGCCTTTCTCTCCCTGCTCTGAACTTTCATCGTCTTCCTCATGGGAGCCGGGGTCCTCTTCCTTCTCCTTTTCCTCCTCAGAATCATCC
TTCCTCAAATGGCTTCTATCCTTGACCACTGTGTGTCCTGGGGGGTGATGGCTCATCTCTTTGATGGACCCTCTTTGACCATGGCCAGTTTCTTCATCTT
GGTGGCTTTGCCTGTGGCTGGGGGCCTGGTGGCCAAGCTCAGCAGAGACCTCCTCATCTTCCTCCCTGGGGACTCTGTGGTGGTGATGGTGAGGGACTTC
TGTTTTATACTCATCTTGGAAGTCCTCTTCATCACTCTTGTGGCCTCGAGGTTGGTGGCTTGCAACATAGTGGCCGAACTGGACTGTGATCTCCTCTTCT
TCCTCTTCCTCATCTACAAGGCCATGGTGGACATGTTGGGGACCCTGGTGCCAACGTTCAGTGGACACATCCTCATCTTCTTCCTCGTCTCTGTGGCCTT
GGTGCCTGTGGTCAGGGACATGATGGTGGTGTTCACCTGAGACAGCCTCAACCTCTTCCTTTCTGTGGTCTTGGTGCCTGTGGGCCTGGTGTCCATACTC
AGTGGAGACATCATCATCATCATTGTCATCTTCTTCATGGCTTCGGTGCCTGTGGCTGGGGTCGCGATGATGGTGTCCATCTGAGACATCTTCATCCTCT
TCAATCCCGTGGCCTTGGTGCCTGTGAGCCTGGTGTCTATATTCAATGGAGACATCATCATCATCATCATCATCATCATCATCATCATCATCGTCATCTT
CTTCATGGCCTTGGTGCCTGTGGCTGGGGCCATGATGATGGTGTCCATCTGAGACATCCTCATCCTCTTCACTCCCATGGCCTCGGTGCCTGTGGGCCTG
GTGTCCATACTCAGTGGAGGCCTCCTCTTCCTCCTCCTCCTCCTCCTCCTCCTCCTCTTCTCCTTCATCATCTTCCCCATCATGGCCTCGGTGTCCATGC
CTGAGGATATGATGGTGATGCTCACTGGACACAACTTCATCCTCATCCTCGTCTTGATGGCTGTGGCTCCTGTGGCTGGGGAGGTGGTGCCTGTGCTCAG
CTGAGTCTTCCGTGTCTTCACTCCCGTGGCCTCTGTGCCCACGGGCCTGCCCACCATGCTCTGCAAAGACCTCCTCACCTGAGACACCCTCATCTCCGAC
TTTGTGGTCTTGGGACCTGTGGCCTGGGAGTAGGTGCCCATATTCCTTGGCGACATCTTCATCCTCCTTTTCACGGTCTGGGTGGCTCCAGAAATGATGC
CCATTCTCTGTGGAAACATCCTTGTTCTCATCTGGATGGTCTCTAGGGCTGTGGAGGTGGTGGCGAAGCTCTGCTGATGCCTCCTCGGAGAGCCCGGCGA
CTCCAGTGTTGTTGTTCCGGTTTCTGAAGCCCAGCCCATCCCCTCTGAGCTGCTGGGTCATGGCCGGGGGGAGGAGCAGGCTGGCCACCCCAGCCCAGAG
GACAGAAGCGTGCAGCCATGGCCTATGGTGGCCCATGGGGACGGACAGGCAGCACTGGCTCCAGCTGCCTCTGCGGCAATGTGGACAAACGTTGGGGTCT
TTGTCCCTTTGGGGTTGGTCTCTTTTTTTCTCTGTGTCTCTCCTTTGTCCTTTCGGTCTCTGTCCACCTTCCTCTGGTCCTTGCTGCCTGGCTCTGGACA
CCCCTCTGAGGCTGTCTCCGGAGCCCCCTGACCCCCCTCTGGGGCCCTCCCTCCCCATTCCCCAGCCAATAGGGTCCTTCCCCTCCCCTCTCTCCAGCTA
AATTTACTCTCAGCCCTGAGTTATTCTGGGTCAGTCCCCGCCTGCCTGCCTCCTGCTCCTCCTCCTCCCAGCTGGGGAGGGGACCAGTGAGGGGTCTCTC
CCTGGCCAGGAGACGGTGGCCAAGGGACTTGACTTTGAACTACCAACAAGCTCACGTTTGGCAGCTGCAAAGACAAAGGCTAGACTTTTAGCAGGTTTTT
GGGGGAGCCTGGGGCACCTGGGGGAGGCAGAAGAGACTTATCAGAGGGGAGAGACTCCTGGGACGGAAGGACTGGGGGTTCGATTGCGGGGTGTTTCCAG
CTGGAATGATACGTGCTGGTGAGAGAGTGATGTCAGTATTGAGGCCCTAGAATGGGGGGAAAGGAACATGGCCCCCAACACACGTGCCCATGACCTCCTG
TCCCTGGAACTCAGATCTGGGGGCAGGGACTGGGCTAGGCCAGGGCTATAAATACAGCTGGGAGGGGTAGGGGGACTCAGGTTACGGAGGCCACAGCTGT
CCCCATCACAGAGGGCTGGCAGGAGACAAGTGGCCTTGCCCGTCTCTGTGTGTCAGTATTTCCTACTCCTCACCCTTCATGACTGCCCCCACTAGGGTCT
CCTTTCCTGTTCACGGGTCCTCCTCTCTCTTCAATTCTGTCATCTGCTCTCTCAGGGTCCCTGTCCCTCCTCCATGGGATTGCCTCTCCCTCTCACTCTG
GGCTTCTGTCCCACTCTTATCTTAGTGTCAGTCCTCCCCCAAGTCTGTGTCCCTCTCTCTCCCCTAAATCTCTGGCCCCTCCTTTCTGAGTTCCTGCCCT
TCCCCCAATTCTTTGGTTTTTGCATCCCCCTCTGCCCCTTGCCTCAGTCAAGGTGTCTCCTCCCCATCTCTGGCATCCACCTCTCTGGGTCTCTGTCCCC
ACTCTCTCTCAGAGTCTCTGTCCCCCTCTGTCTCAGAGTCTCTGTCCACCTCTCCCTGGGTCTCTGTCCCCCTCTCTCTGGGTCTCTGTCCCCCTCTCCC
TGGGTCTCTGTCCCCCTCTCTCTGGGATCTCTGTCCCCCTCTCTCTGGGTCTCTGTCCCCTCTCTCTGTGGGTCTCTGTCCCCCTCTCTCTCTGGGTCTC
TGTTCCCCTCTCTCTGGGTCTCTGTCCCCCTCTCTCTGGGTCTCTGTCCCCGTCTCTCTGGGTCTCTGTCCCCCTCTCTCTGGGTCTCTGTCCTCCTCTC
TCTCTGGGTCTCTGTTCCCCTCTCTCTGGGTCTCTGTCCCCCTCTCTCTGGGTCTCTGTCCCCGTCTCTCTGGGTCTCTGTCCCCCTCTCTCTGGGTCTC
TGTCCCCCTCTCTCTGGGTCTCTGTCCCCTCTCCCTGGGTCTCTGTCCCCCTCTCCGTGGGTCTCTGTCCCCTCTCCCTGGGTCTCTGTCCCCCCCTCCC
TGGGTCTCTGTCCCCCCCTCTCTGGGTCTCTGTCCCCCCCTCTCTGGGTCTCTGTCCTCCTCTCCCTGGGTCTCTGTCCCCCTCTCTCTGTGGGTCTCTG
TCCCACTCTCTCTGGGTCTCTGT


SNP Information

Context             (SEQ ID NO:54757):
TTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGACTACAGGTGTGCACCACCACACCTGGCTAA
T
TTTTTTTTTTTTTTTTTGTATCTTCAGTAGAAATGGGGTTTCACTATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCAGCTCGCCTCGGC
Celera SNP ID:            hCV26654611
SNP Position Genomic:     17930
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54758):
CCCAGCTACTTGAGAGGTTGAGGCAGGAGAATCGTTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCTAGCCTGGGTGAC
R
GAGCAAGACTCTCTCTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAGAGAGAGAGAGAACCTTCATCTGGGATTTTAAGCCTGGATAGCCGCAG
Celera SNP ID:            hCV26654612
SNP Position Genomic:     18962
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54759):
GAGGTTGAGGCAGGAGAATCGTTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCTAGCCTGGGTGACGGAGCAAGACTCT
Y
TCTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAGAGAGAGAGAGAACCTTCATCTGGGATTTTAAGCCTGGATAGCCGCAGGGGCTATTGGGAA
Celera SNP ID:            hCV26654613
SNP Position Genomic:     18975
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54760):
AGTGAGCCGAGATAGTGCCATGCACTCCAGCCTGGGCTACAGAGCGAGACTCCGTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAGTCCCCAACTTATTAA
R
AAGCCCCCAGTGATGTAAAGTCTACCCTGATTCACCAGCAATGGCCATATTCAGCAATTCTCTTATAATGTACTCCCCATGAGCCTTCGGCAAATATACC
Celera SNP ID:            hCV26654614
SNP Position Genomic:     24265
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54761):
CCCAAGAGGCATGAACTCACTGTCCACGGAGGAATTATGTTTGACTGTGGTCATAGATCACATATTTCCAGCCAGGGGGAGGCGTGGATTTTGTGCTGAT
R
CTGAAAGGAGTGAGGGACTTGGGACTCATCTGGAATATTGTCCTGGGCCAGATATAACATTAGACAAGTATTTTCAGGACATTGCAAGAGTGATGGCCCT
Celera SNP ID:            hCV2885881
SNP Position Genomic:     33656
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54762):
TGATGCAGGAGAATCAATTGAACCCAAGAGGCAGAGTTTGCAGTGAGTTGAAATTGTGCCACTGCACTCCAACCTGGGAGACAGAGTGAAACTGTGTCTC
A
AAAAAAAAAAAAGTTTCTGTGACAACATGCATTGGAGAACTACAAATTAGATCCTCAGAATTGACCTTTGAGGGAGACAAAGAGATATTGGCCCTATTTT
Celera SNP ID:            hCV26654615
SNP Position Genomic:     25559
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54763):
CTGTCTCATCCTCATGTCACCCCAGGTGGCGGGCTTCAGGACTCTCTACTCTTTCCCCTAAGATGCAGCTTGTTGAGATGTTTCTAGCACTCCATTGCCC
Y
CTGAGGCTCAGATGAGTTCCCCTTCTCCAAGTACACTCTCCCAGGCCAATGAGCCGAACACACATCACCTCCTCCAGATGTATTCTGTGGCCTGGGCTCA
Celera SNP ID:            hCV11506723
SNP Position Genomic:     7754
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54764):
ATATAACATTAGACAAGTATTTTCAGGACATTGCAAGAGTGATGGCCCTTTCTTAGTGGGAGAGCTGCCTTGAAAGAGTCCATTGTCCTGACTTGGGGGT
K
TAGTGACGTTGGACTGCAGTGAGACAGAGTTAAAGCAGTGCTTCCCCAAATTTAATGTGTAGTGGGGTGGCACGCACCTGTAGTCTCAGCTACTTGGAAG
Celera SNP ID:            hCV2885882
SNP Position Genomic:     33808
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54765):
GATGCAGGAGAATCAATTGAACCCAAGAGGCAGAGTTTGCAGTGAGTTGAAATTGTGCCACTGCACTCCAACCTGGGAGACAGAGTGAAACTGTGTCTCA
A
AAAAAAAAAAAGTTTCTGTGACAACATGCATTGGAGAACTACAAATTAGATCCTCAGAATTGACCTTTGAGGGAGACAAAGAGATATTGGCCCTATTTTA
Celera SNP ID:            hCV26654616
SNP Position Genomic:     25560
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54766):
GTTCTAGATTCCTTCTAAACACCAGAACACTCCCAGCTGATGTCTGTTCTGTGTTCCATTTTCATTCCAGGCATGGTCTGAGTTCTAGGCCAGATGCCAA
T
TTTTTTTTTTTTTTTTTTGAGACGGAGTTTCACTCTTGTTGCTCAGGCTGGAGTGCAATGCTGCGATCTTGGCTCACCACAACCTCTGCCTCCCGCGTTC
Celera SNP ID:            hCV11506724
SNP Position Genomic:     8671
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54767):
AGCCCACGAAGCTGAGGTCAACCTGGGCAACATAGTAAGACCCTGTCTCTAAAAAATAAACAAATACAGCCAGGCGCGGTGGCTCATGCCTGTAATCCCA
K
CACGTTGGGAGGCTGAGGTGGGCGGATCCCTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACGCCGTCTCTACTAAAAAATACAAAAA
Celera SNP ID:            hCV2885883
SNP Position Genomic:     34031
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54768):
TTTTTTTTTTTTTGTTTGGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCTATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCA
Y
GCCATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGCGCCCACCACCACGCCCGGCTAACTTTTTGTATTTTCAGTAGAGATGGGGTTTCACC
Celera SNP ID:            hCV26654618
SNP Position Genomic:     27342
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54769):
TTGGCTTACTGCCACCTCTGCCTCCCGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGAACTACAGGCACCTGCCACCATGCACCGCTAA
T
TTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTAGTCTTGAACTCTTGATCCGCCCACCTCGGCCTCCCAAAGT
Celera SNP ID:            hCV11506726
SNP Position Genomic:     17622
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54770):
TCTCTACTAAAAAATACAAAAATTAGCCGGGCGTGGTGGCTCGTACCTGTAATCCCAGCTACTCGAAGGCTGAGGCAAGAGAATTGCTTGAACCTGGGAT
K
GGGAGGTTGCAGTGAGACGAGATCGTGCCACCGCGCTCCAGCCTGGGTGACATAGCAGACTCTTTCAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGAAAG
Celera SNP ID:            hCV2885885
SNP Position Genomic:     34210
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54771):
GAATCACTTGAGCTTGGGAGGTGGAAGTTGCAGTAAGCCGAGATCCGTACCACTGCACTCCAGCCAGAGTGCTGGTTGCTCATGCCTGTAATCCCAGCAC
Y
TTGGGAGACCAAGGCAGGCACATCACCTGAGGTCAGGAGTTCAAGACTAGCCTGGCCAACATCGTGAAACCCCCGTCTCTACTGAAAATACAAAAATTAG
Celera SNP ID:            hCV11506727
SNP Position Genomic:     18734
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54772):
GGAGAGGTCAGAGGCAGGGCTCCCCAGTGTACAGCAACAATAACCCCTCACACCAGTGGTTTTCCAAAGCAACCTCAGCTTTCCCTAAAGGTTCAAACTC
A
GGGCAAAGGGGAGGCTGAGTCACTGGGATCTTGAACCCTAACTTTCACTTTAGTCAGATCTGGTCTACTTTTATTTCTCATGCGTCAAGTTTCTGCATAG
Celera SNP ID:            hCV16202872
SNP Position Genomic:     25158
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54773):
ACAGGGCCACACAGCAAAATGCATGGCAGGGTCCCAATTCCAACCTGAATTTGTTCAACTCCAAAGTCACATTGCCTGGTACATGGCAGGTGCCCTATAA
K
AAGAATCATTCCTTTTCTCTGTTACTGCTTGCCCCAGAAAGCAGGAGGGACATAAACGTGTGGCCCAGGGCCTTCAGGAGGACACCCTCCTTCCTCTCCC
Celera SNP ID:            hCV2884471
SNP Position Genomic:     32388
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,4)      total(G,2|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54774):
CTGGCACTACAGGTGTGAGCCACCACGCCTGGCCACAGTTGTTAATTTCATTTACTATTCACTCTGTATTCAAATTTCCCCAACATACTTAAAATATGTT
Y
ATTGTTTCTCCCCCACTAGGACGAAAAGTGTCTGTCGTGTCCCTTGCCATATCCCACACCCTATGACGGTGACTGGTGCCTGACACTCACCAGAAGTACA
Celera SNP ID:            hCV2884472
SNP Position Genomic:     32007
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54775):
CCACCCGCCTCTGCCTCCCGAAGTGCTAGACCACTCTCAGCCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCTCCAGGTTGGCCAGGCTAGTCTTCA
R
TCTCCAAAAGTGATGTGCCCGCCTCAGCCTCCCAAAGTGCTGGCACTACAGGTGTGAGCCACCACGCCTGGCCACAGTTGTTAATTTCATTTACTATTCA
Celera SNP ID:            hCV2884473
SNP Position Genomic:     31867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54776):
GCATCCAAAAAAAAAAAAGTTTAGAATTTTGGAGCATTTTGGATTTTGGATTTTCAGGTTGGGGATGCTCAGAGACCTGTACTTGAATGTAATTGGAGAA
R
GTCATAACATCTTAGCCCCCAAAATTACTTTAGTGGGTCTTTTTCTTCCTTGTAAACACCACATCCTTTATCACACCTAAGGGCATTCACATTGTTGTTA
Celera SNP ID:            hCV2884474
SNP Position Genomic:     31401
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54777):
CTGTCAGTCTCCTGTTAAAGGGGCCACGACCGCCCGGGAGCCGTGGGGGGGGAGGGGGAGGGAGGAGGAATTTTTTTGGGGGGAAGGTGGGATTTGGGGG
S
CGCTGGTGGGCACCCCTGGATCTGGCGGCTGCGGCCTCGCGGGGGGAGGCTGATCGGTGACAGGGGCAGGGGGCTATTTTGGGGGTAGAAGGCAGTGAGA
Celera SNP ID:            hCV15857010
SNP Position Genomic:     6012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:54778):
TTCATGTCTTCATTCATTTGGTGATTTATTTAGAATTTGGAAGGAACACAGCTTGCCAAGGTAGGCGGGAGGAGGAGGGAAAAGGAAAGGGCACTCTGGG
R
CCTGCTTGGGTGACTGGGTAGGTAAAGGAATTTATTTCCTTTACTTATTTTTTTGTTGTTTTTTGGTTTTTGTTGTTGTTGTTTTGAGATGGAGTTTCAC
Celera SNP ID:            hCV2884475
SNP Position Genomic:     26868
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54779):
AGGGACGAATGGGACCCCCAGGCCGGGACAGCTCTTCTCTGGGTGAGTACCTCACTCTAACCCTTCCCTCCTTTGTTCCTTCCTCCCTTCCTCCCTCCCT
Y
TCTTTCTTCTTTGTATGTTCATTTGACATCCATTCATGTCTTCATTCATTTGGTGATTTATTTAGAATTTGGAAGGAACACAGCTTGCCAAGGTAGGCGG
Celera SNP ID:            hCV2884476
SNP Position Genomic:     26735
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,17)   caucasian(C,19|T,19)   total(C,40|T,36)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,7)   total(C,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54780):
GATCTTGAACCCTAACTTTCACTTTAGTCAGATCTGGTCTACTTTTATTTCTCATGCGTCAAGTTTCTGCATAGGATTTTAAAAAGTTTCTGGCTGGGTG
Y
GGTGGCTCACGCCTGTAATCCCAGCACTTCGGGAGGCCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCCACCTGGCCAACATGGTGAAACCC
Celera SNP ID:            hCV2884477
SNP Position Genomic:     25285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54781):
CTGGGCTGGGAAAAGCATCAGTGAGGTCGGGCAAGTCAGGATCATGAGCCAAGACCCAGCGCCAACCTCGGCCCCCAGCCACCTAATGTCCCTCTGTCCC
S
ACACAGGGATAGGATTGGGAGCGGTCTGCCCCTTCGGGCTCCATACCACCCCCATTCCCTGGGGAACTGGACGGCTCCGATGAGGAGGAGGCAGAGGGGA
Celera SNP ID:            hCV25635478
SNP Position Genomic:     23305
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,2)   caucasian(C,40)   total(C,74|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:54782):
ACCCACTCCCCGCTCTGCCCGTCTTGAGAGAATGACCCAGGCCTTGGCACTGCAGGCGGGGTCCCTGGAAGATGGGGGACCCCCACGGGGAAGGTCAGCA
K
GGACAAGGGATAGGGACAGGGAGAAGCTGGCTTGGGAAGATGAGAAGGGGGTGGACAAGGACTTGGGAGGAGAGGGGGCATCTCAGCAAGCATATGCTCT
Celera SNP ID:            hCV25635479
SNP Position Genomic:     26427
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,3)   caucasian(G,39|T,1)   total(G,72|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:54783):
TTTCCTTGTCCTGTTTCTTCTCCTTGCGAACTTTCCCACGTCTCTGTTTCGCTCCCCACCCCCTTGCCTTTCCCCACCTCCCTGTTCCCCCATCTCTCCG
R
TTTTCTCCTCCTCTGTCCCTCTGTCCCCTCTGTCCCTCTGTCCCTCCGCTGCAGCTGTGGGTGGGCATGCCTGCCTGGTATGTGGCCGCCTGCCGGGCCA
Celera SNP ID:            hCV26654621
SNP Position Genomic:     29344
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54784):
TCCCCTCTTCCTACTAACGGGTCAGGAGACCAAGGAGATCAGCTGGGAGCAGGTAGGGGGCGCGGGGCGGGGCGTGAGCGCATGAACAGGCTGTGCACGA
Y
GCATGGATGCCCCTCCTCCGAGCCCTGCCCCTGCCTTCACCAGAACATGCCATCATCCCCATGGGGGGGCGCTGCGCCAAGCTTGGCTCTGGACTGTTCC
Celera SNP ID:            hCV26654622
SNP Position Genomic:     32835
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54785):
TCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTAGAGGTTGCACTGAGCCGAGATTGCACCATTGTACTCCAGCCTGGGTGA
Y
AGAGCCAGATTCCATCTCATAAAAACCAAACAAATAAACTAACAAAAAAACCCAAGAGGCATGAACTCACTGTCCACGGAGGAATTATGTTTGACTGTGG
Celera SNP ID:            hCV26654623
SNP Position Genomic:     33505
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54786):
GTCTCTACTAAAAAATACAAAAATTAGCCGGGCGTGGTGGCTCGTACCTGTAATCCCAGCTACTCGAAGGCTGAGGCAAGAGAATTGCTTGAACCTGGGA
Y
GGGGAGGTTGCAGTGAGACGAGATCGTGCCACCGCGCTCCAGCCTGGGTGACATAGCAGACTCTTTCAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGAAA
Celera SNP ID:            hCV11506732
SNP Position Genomic:     34209
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54787):
AGGCAAGAGAATTGCTTGAACCTGGGATGGGGAGGTTGCAGTGAGACGAGATCGTGCCACCGCGCTCCAGCCTGGGTGACATAGCAGACTCTTTCAGAAA
G
AGAGAGAGAGAGAGAGAGAGAGAGAAAGAGAGAAAGAAAGAAATTTAAAAATAAATATAATGTATATTTCGAATCACCTGAGGGTCTTGTGAAAATGCCG
Celera SNP ID:            hCV26654624
SNP Position Genomic:     34282
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54788):
GGCAAGAGAATTGCTTGAACCTGGGATGGGGAGGTTGCAGTGAGACGAGATCGTGCCACCGCGCTCCAGCCTGGGTGACATAGCAGACTCTTTCAGAAAG
R
GAGAGAGAGAGAGAGAGAGAGAGAAAGAGAGAAAGAAAGAAATTTAAAAATAAATATAATGTATATTTCGAATCACCTGAGGGTCTTGTGAAAATGCCGA
Celera SNP ID:            hCV26654625
SNP Position Genomic:     34283
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3|G,3)   total(G,3|A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54789):
CTTAGGCACAGACAGGCGGCTGGACGAGGTGGGCGCGGCAACAGCTCAGAGGGCTCTGCTCCCAGCGGCTCCTCGAGAGGCTGAGCTGAGGGGGCGGGGC
C
TGACTATTAATGGTCACGGTTGGAGGCGGGGCCAGGAGAGGGGCGGGGTTAAAGGAGAGGTGAGACCCGGAGAGGGGTGGAGTCAAAGGAAGGGGCGGAG
Celera SNP ID:            hCV26654626
SNP Position Genomic:     35994
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54790):
AGAGAGAGAGAGAGAGAGAGAGAGAGAAAGAGAGAAAGAAAGAAATTTAAAAATAAATATAATGTATATTTCGAATCACCTGAGGGTCTTGTGAAAATGC
M
GATACCGACTTCAGTAGGTCTGGAGTAAGGTCTGAGATTCTGCAATTCCAGCAAGTCCACAGGTGATGGTGACGCTCTAGGTCTCAGGACAACTGTTTGA
Celera SNP ID:            hCV2885893
SNP Position Genomic:     34381
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54791):
TTAGGCACAGACAGGCGGCTGGACGAGGTGGGCGCGGCAACAGCTCAGAGGGCTCTGCTCCCAGCGGCTCCTCGAGAGGCTGAGCTGAGGGGGCGGGGCC
T
GACTATTAATGGTCACGGTTGGAGGCGGGGCCAGGAGAGGGGCGGGGTTAAAGGAGAGGTGAGACCCGGAGAGGGGTGGAGTCAAAGGAAGGGGCGGAGT
Celera SNP ID:            hCV26654627
SNP Position Genomic:     35995
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54792):
TAGGCACAGACAGGCGGCTGGACGAGGTGGGCGCGGCAACAGCTCAGAGGGCTCTGCTCCCAGCGGCTCCTCGAGAGGCTGAGCTGAGGGGGCGGGGCCT
G
ACTATTAATGGTCACGGTTGGAGGCGGGGCCAGGAGAGGGGCGGGGTTAAAGGAGAGGTGAGACCCGGAGAGGGGTGGAGTCAAAGGAAGGGGCGGAGTC
Celera SNP ID:            hCV26654628
SNP Position Genomic:     35996
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54793):
AGTTCAGATCCTGAAATGGCTTGGCTAGTTAACCCTGGACCCCTTCCAGGCTGGCCAGTAGGAAGTGCCTATTATTGAAAATGCCTCACCTCCTGAGGGG
R
TCAACAGTCAATAGAACTTATCAGCTCCCCACCCTTTCCAAGAAGAGCGCAGCCAGTGGGGAGGGACCCGTAGGAGCAGCAGTCTAGGGGACTGGAAAGC
Celera SNP ID:            hCV2885894
SNP Position Genomic:     35129
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54794):
AGCCTAAGGGTCCCTTTGGGAGCCAGGTGGAGGGCGTGGAGCTGGATGGGGAGGAGAGGGGGTAGGGGGAGACCGGAGAAGCAAATTGGCACCATAACCG
W
GGGGGTGGAGCCAGCGTGGGGGGCGTGGCCCGAAGAGACCAAATGGAGGTGGAGGTATGGGCTAAACTGAACTCTCCAGGCCACGGGAGGGGCACGGCTG
Celera SNP ID:            hCV2885895
SNP Position Genomic:     35468
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,3)      total(A,3|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54795):
AGGCACAGACAGGCGGCTGGACGAGGTGGGCGCGGCAACAGCTCAGAGGGCTCTGCTCCCAGCGGCTCCTCGAGAGGCTGAGCTGAGGGGGCGGGGCCTG
A
CTATTAATGGTCACGGTTGGAGGCGGGGCCAGGAGAGGGGCGGGGTTAAAGGAGAGGTGAGACCCGGAGAGGGGTGGAGTCAAAGGAAGGGGCGGAGTCA
Celera SNP ID:            hCV26654629
SNP Position Genomic:     35997
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54796):
GAGGCAAGAGAATTGCTTGAACCTGGGATGGGGAGGTTGCAGTGAGACGAGATCGTGCCACCGCGCTCCAGCCTGGGTGACATAGCAGACTCTTTCAGAA
A
GAGAGAGAGAGAGAGAGAGAGAGAGAAAGAGAGAAAGAAAGAAATTTAAAAATAAATATAATGTATATTTCGAATCACCTGAGGGTCTTGTGAAAATGCC
Celera SNP ID:            hCV11506739
SNP Position Genomic:     34281
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54797):
GGCAACAGCTCAGAGGGCTCTGCTCCCAGCGGCTCCTCGAGAGGCTGAGCTGAGGGGGCGGGGCCTGACTATTAATGGTCACGGTTGGAGGCGGGGCCAG
R
AGAGGGGCGGGGTTAAAGGAGAGGTGAGACCCGGAGAGGGGTGGAGTCAAAGGAAGGGGCGGAGTCAGACAAGGCAGGAGTCCCTCACCGGCTGTCCGGC
Celera SNP ID:            hCV2885898
SNP Position Genomic:     36030
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54798):
TCCCAGCGGCTCCTCGAGAGGCTGAGCTGAGGGGGCGGGGCCTGACTATTAATGGTCACGGTTGGAGGCGGGGCCAGGAGAGGGGCGGGGTTAAAGGAGA
R
GTGAGACCCGGAGAGGGGTGGAGTCAAAGGAAGGGGCGGAGTCAGACAAGGCAGGAGTCCCTCACCGGCTGTCCGGCTCCTATACCTAGGACAGCGCCAA
Celera SNP ID:            hCV2885899
SNP Position Genomic:     36053
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54799):
CTGTGGCCGTGTCCGTGCCCCGGGGGTAGGGGGCGCAGAATGGCGCTTCCCCTTCTCCTCTGGCTCCGGGGTTTGCATGGGAGAATCCTCTTTCCACGAT
K
CCGCTGGGCGACGTGGCGTGGGGGCAGGGGGACGGTGGGGGAGCCCTCGCCCCCGACTCTCGGTCGGCCTCCCCGCCCCAGGCGTCACTCAGTGATCACG
Celera SNP ID:            hCV8832048
SNP Position Genomic:     37499
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:54800):
AAATTAGCCAGGCATGGTGGCAGGCGCCCGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAGC
Y
GAGATAGTGCCATGCACTCCAGCCTGGGCTACAGAGCGAGACTCCGTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAGTCCCCAACTTATTAAGAAGCCCC
Celera SNP ID:            hCV2884480
SNP Position Genomic:     24172
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54801):
GAATCTCAAGACAACACAAGGTTCCCAACCTCAAACACCAAGAATCTCATCCTAACATGCTAATCAAAAACTTCAACTCCAGGCTGGGCACAGTGGCTCA
Y
GCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCCAGCGGATCATGAGGTCATGAGGTCAGGAGATAGAGACCATCCTGGCTAACATGGTGAAAACCTGTC
Celera SNP ID:            hCV2884481
SNP Position Genomic:     23954
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54802):
GACGCCAAGCAGAAGCTGCAGCAGACGCTGCAGAAAGCGGAGACCTTGCCCGAGATAGAGGCGCAGCTGGCGCAGCGCGTGGCGGCGCTCAACAAGGTGC
S
GGGAGGACTCGGGTCGGGGCCTTGCGTGGGGAAGGGGTGGGGCCTAGAGGAGGCGGGGCCGTGAATCTGGAGGGGTAGGAGCGAGGTCAGAACCCCGGAT
Celera SNP ID:            hCV16182687
SNP Position Genomic:     19966
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,39|G,1438)   total(G,1438|C,39) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54803):
GCCCTGCCCTGCCGGAGCTGACTCCACAGCCCTTCTGGCTCTGGAGGCCTGAAAGCCTGAGTCCGTCTCCTCTTACACCATCCACAAGGAATTCTTCCAG
Y
CCAACACTCACTCCGCTGTCCAGGCATCCCCTAGGATACACTCAGAAGTCTTCTATGTGCTACCTACACATATACCCCCCAGCCAGTACTCACCATTCCC
Celera SNP ID:            hCV2884482
SNP Position Genomic:     23631
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,13)   caucasian(C,24|T,14)   total(C,47|T,27)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;JBIC-allele(T,271|C,1222)   total(C,1222|T,271)
SNP Type:                 INTRON


Context             (SEQ ID NO:54804):
CTCATCCACTCACCCTTTCTTCTCTCCTTCCCTGCAACCCTCTTGCCTGGATGTCTCCTCCTGTGGATGTCCTGCCACCTGGTGAGAACCTGAGAGTAAT
S
ATGGGACAGGGAGGGGTGTGTAGAATCCCAGAGTAGGTGGGGTTAGGTGAGGAACAGGAGCCAGCTGAGTCATGGGAATCAGGGGCGGGGGTGGAGTCAT
Celera SNP ID:            hCV2884483
SNP Position Genomic:     22736
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54805):
ACCTCAAGTTATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCTTGAGCCACCAGGCCTGGCCCCTTGACCTTGACTTCAGGACCCCTGGCC
S
TAGGTCTGTCTCTGTGACCCTTACCTCTGTGCTCTTTTCCTGACCCCTTGGTCTCTGACTGCTTTCCTCATGCCCACAGGTCTCTCCCTGGCAGTGCCCT
Celera SNP ID:            hCV2884484
SNP Position Genomic:     22293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54806):
AGAGTCCATTGTCCTGACTTGGGGGTTTAGTGACGTTGGACTGCAGTGAGACAGAGTTAAAGCAGTGCTTCCCCAAATTTAATGTGTAGTGGGGTGGCAC
R
CACCTGTAGTCTCAGCTACTTGGAAGACTGAGGCAGGAGGACCGCTTGAGCCCACGAAGCTGAGGTCAACCTGGGCAACATAGTAAGACCCTGTCTCTAA
Celera SNP ID:            hCV28006370
SNP Position Genomic:     33882
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54807):
ATACTGTGTTCTAAACCAGGGTCACCCCACACACACCTTAGTAGACATCTCAGTTAATAAGGAGCCCCCGACATGACTCTTTGAACTCAATCCAGCATCT
R
TGCCCTCTGTCCTCAGAATCATGTCCCTAAGGAGGAAGCTGGAGCTCCACGAGGGGAGGGGCCGGCCATCCCAGGAGACACCCCACCACCCACTCCCCGC
Celera SNP ID:            hCV25635480
SNP Position Genomic:     26239
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:54808):
CCTTCCTCCCTCCCTCTCTTTCTTCTTTGTATGTTCATTTGACATCCATTCATGTCTTCATTCATTTGGTGATTTATTTAGAATTTGGAAGGAACACAGC
Y
TGCCAAGGTAGGCGGGAGGAGGAGGGAAAAGGAAAGGGCACTCTGGGACCTGCTTGGGTGACTGGGTAGGTAAAGGAATTTATTTCCTTTACTTATTTTT
Celera SNP ID:            hCV25635481
SNP Position Genomic:     26820
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:54809):
GTTTGCTCTGCTTAGAACCCCGCTGTGCCCTGCAGACACACAGACTTAGCCTCCTGGCACCCAGCATCTGCTCCCCGAGGGACTCAGGCGCCATGACTCC
Y
TTCCTTTGGGGGACCCGGAATGTGATTCTCAATGCAGTTCTCTGACTTCTGTTCACACTCCCACTTGGGGACCTAAATGTCTTGGTCCCAGTCTCCTATC
Celera SNP ID:            hCV29194015
SNP Position Genomic:     7270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54810):
AGATTCACATGTATTTTTTGACCTTCTGCCGTGTTTTGTACATTCATAAAAGGTGCGTGTGCGTATGTGCATGTGTGTGTGTGTGTGTATGTGTGCTGAT
R
GGGGCCATCCACAGAGCAGGGGGTCTCCATCCCTGACAGCTTCTATCCTGGCCCCTTCACCCTTACAGGCATGAACTCCTGGAGGAGGCCTGCCGCCAGG
Celera SNP ID:            hCV25635483
SNP Position Genomic:     28560
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(G,36)   total(A,2|G,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:54811):
TGGCTTTTACCCCCCTCAGCCTCCCCTCCACTCCTAACTTGGCCTGTGGTCCGTCCCTGTGGTACTCCAGGAGGGGCCCAGGCCACCTCCTTCCCTGACT
S
TCTCCCTCTCCTCGGCATTTGCTGTCCCACTCAAATGTCACCACCTCTAAGAAGCTTTCTTTGTCAGCTAAACGAGTTTCCCCATCATTCCGGCATATCA
Celera SNP ID:            hCV29194016
SNP Position Genomic:     29814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54812):
TGATAGGGGTTGGGGGGAGAGGATTTACAGATTCACATGTATTTTTTGACCTTCTGCCGTGTTTTGTACATTCATAAAAGGTGCGTGTGCGTATGTGCAT
R
TGTGTGTGTGTGTGTATGTGTGCTGATGGGGGCCATCCACAGAGCAGGGGGTCTCCATCCCTGACAGCTTCTATCCTGGCCCCTTCACCCTTACAGGCAT
Celera SNP ID:            hCV25635484
SNP Position Genomic:     28532
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,3)   caucasian(G,12)   total(A,1|G,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:54813):
TCTTATTTTGTTCTCTCTTTTGATAGGGGTTGGGGGGAGAGGATTTACAGATTCACATGTATTTTTTGACCTTCTGCCGTGTTTTGTACATTCATAAAAG
S
TGCGTGTGCGTATGTGCATGTGTGTGTGTGTGTGTATGTGTGCTGATGGGGGCCATCCACAGAGCAGGGGGTCTCCATCCCTGACAGCTTCTATCCTGGC
Celera SNP ID:            hCV25635486
SNP Position Genomic:     28512
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,11)   caucasian(C,12|G,12)   total(C,17|G,23)
SNP Type:                 INTRON


Context             (SEQ ID NO:54814):
TGGGAATTCAATGCTGGGAGGAGGTGTCCGTGATCCTGAACTTGCTTGCCTGGAAACCCAGGAGCTCCTAGAGTTTTTATTTTTTCTTTCTTTTTTTAAA
W
TTTTTTTTTGTATTTTTTACATTTATATTATATTTTTTGTTTCTTTTGTTTTTCTTATTTTGTTCTCTCTTTTGATAGGGGTTGGGGGGAGAGGATTTAC
Celera SNP ID:            hCV25635487
SNP Position Genomic:     28359
SNP Source:               Applera
Population(Allele,Count): african american(A,10)   caucasian(A,14|T,2)   total(A,24|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:54815):
AAGCTACGCCTCGCCATCCAGGAGATGGTCTCGCTCACCTCGCCCTCAGCCCCCGCCTCCTCCCGCACTGTGAGTGTCCGGCGGCCAATTCCAGCCTTCG
Y
TTCCTCAGAGCCCCGCCTCTTGCCCTCAGTCTAGCCAATCCTGGGCCTGCTCACTCCCCTGTCCCACGACCCTGCTTCTCATTGGCTTTTACCCCCCTCA
Celera SNP ID:            hCV25635488
SNP Position Genomic:     29631
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:54816):
GCCTAAGGGTCCCTTTGGGAGCCAGGTGGAGGGCGTGGAGCTGGATGGGGAGGAGAGGGGGTAGGGGGAGACCGGAGAAGCAAATTGGCACCATAACCGT
R
GGGGTGGAGCCAGCGTGGGGGGCGTGGCCCGAAGAGACCAAATGGAGGTGGAGGTATGGGCTAAACTGAACTCTCCAGGCCACGGGAGGGGCACGGCTGA
Celera SNP ID:            hCV25635489
SNP Position Genomic:     35469
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,4)   caucasian(A,24|G,8)   total(A,48|G,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:54817):
GGCAGTGCTCGAGGAGGAGCTGGAACTGAGCAATCAGGAGGTGTGGGTGTGGCCAAGACAGGGAATTTGAATCCAAGGGGAGGGGCTAAGGGGCTGCCCA
Y
GGGGCGGAGCCGGTTGGGTGGGTTCCAGAGAGAATCTATTGGGGCAGGACTAGGGCAGACAAGCTATGGGGTTGGACTATGGAGAGAAACCAGTGGGGTT
Celera SNP ID:            hCV8832050
SNP Position Genomic:     16108
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,353|C,1144)   total(C,1144|T,353)   (C,-|T,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54818):
ATAAAATAAAAAAAATAAAGCTGGGCTGGGAAAAGCATCAGTGAGGTCGGGCAAGTCAGGATCATGAGCCAAGACCCAGCGCCAACCTCGGCCCCCAGCC
R
CCTAATGTCCCTCTGTCCCCACACAGGGATAGGATTGGGAGCGGTCTGCCCCTTCGGGCTCCATACCACCCCCATTCCCTGGGGAACTGGACGGCTCCGA
Celera SNP ID:            hCV15758547
SNP Position Genomic:     23285
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,25|G,15)   total(A,57|G,21)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,85|A,1402)   total(G,85|A,1402) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54819):
ATTCCCCACCCTGTACTGTGTGTAGTAACCTTCTAGGTTCTATGTCCAGCCTTGCTGTGTTTTTTATTTCCTTCTCGGTCAATTTAAGGCTCTGGAACAG
S
CTCCCCAAAACATCTGTGTTGCATCGTCAGAGTGGGTTGCTGGTTTTAGATATCATGTTGGGGCTGGGCGCGGTGGCTCATGCCTATAATCTCAGCACTT
Celera SNP ID:            hCV2884490
SNP Position Genomic:     11314
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,9)      total(G,3|C,9) ;JBIC-allele(C,392|G,1085)   total(G,1085|C,392)
SNP Type:                 INTRON


Context             (SEQ ID NO:54820):
AACGTTCCGGACTCCCCCGTCAGGATGAAATGGATAAATCCCACTCCCCCTTCCCAGGGCGGGAGTGAACTCGCCCAATGCGAGTTTGAGTCCTTGGCTG
Y
GGGGAAGGGAGGGAAACCCATGTGGAGCCCGGCGATCGTTGTGACATCGGGAAGGGAAGTCCAAAGGGAGGAATCCTGGAGAGGAACAGGGAGGAGGGTG
Celera SNP ID:            hCV2885900
SNP Position Genomic:     36541
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54821):
GTTTTTATTTTATTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTATGATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAA
R
CAATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGACTACAGGCACATGCCACCACGCCTGGCTAATTTTTTTTGTATTTTTAATAGAGACAGGGTTTTGC
Celera SNP ID:            hCV2884491
SNP Position Genomic:     9722
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54822):
TTTCTGTTGGGAGACGGGTGTCCTTTACCCGCGGGAAGGGGGCGGGGCTTCCCTCCCGGGCCGCATGCGGGGAGAGGCTGCTCCCTCCCCTTTTTCCTGC
S
CAGTCGCGGGGCCCAAGTCTTCCTTCTTCGTCCGAAAGGAGGGGAGGGGGGACTCGCTGCTACAAGCCTCGCCCCCTGTGCCACTCAGCTCCGCCCCGCC
Celera SNP ID:            hCV2885901
SNP Position Genomic:     37205
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:54823):
AGGGGAGGGGGGACTCGCTGCTACAAGCCTCGCCCCCTGTGCCACTCAGCTCCGCCCCGCCGCGTCCGGTCGCCGGTCCCCCGGGTCATCTGCGGGCGGG
K
TCCCCTCTCCCTCCCCCGTGTCTCGTGTCCCCGGGGCCTCACCGCCCCCCGTGCTGTGGCCGTGTCCGTGCCCCGGGGGTAGGGGGCGCAGAATGGCGCT
Celera SNP ID:            hCV2885902
SNP Position Genomic:     37345
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:54824):
GCTGGAGTGCAATGCTGCGATCTTGGCTCACCACAACCTCTGCCTCCCGCGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGC
R
CCTACCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGGTTTCTCCATGTTGGTCAGACTAGTCTCGAGTTCCCGACCTCAGGTGATCAC
Celera SNP ID:            hCV2884494
SNP Position Genomic:     8818
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54825):
CTGTTCTGTGTTCCATTTTCATTCCAGGCATGGTCTGAGTTCTAGGCCAGATGCCAATTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCACTCTTGTTGC
Y
CAGGCTGGAGTGCAATGCTGCGATCTTGGCTCACCACAACCTCTGCCTCCCGCGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACA
Celera SNP ID:            hCV2884495
SNP Position Genomic:     8714
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54826):
TGAGACAAGGTCTCTGTTGCCCAGGCTGGAGTGCACTGGCACAATCACAGCTCACTGCAGCCTCCACCTCCTAGGCTCAGGTCATCTTCCCACCTTAGCC
K
CCTGAGTAGCTGGGACCACAAGCACTCACCACCAGGCCTGGCTAATTAAAAAAAAATTTTTTTGGCCAGGCGCGGTGGCTCATGCCGGTAATCCCAGCAC
Celera SNP ID:            hCV2884497
SNP Position Genomic:     8023
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54827):
CTGCGGGGAAGGGAGGGAAACCCATGTGGAGCCCGGCGATCGTTGTGACATCGGGAAGGGAAGTCCAAAGGGAGGAATCCTGGAGAGGAACAGGGAGGAG
K
GTGCTCCAGGCTGAACCGCTGCTCGCTCTCCCTCCAGGCCAGACTTCTGGGAGTTCCCGGGCAGACGGCGTTTCGGTCCGGACCTATTCCTGCTAGTGCA
Celera SNP ID:            hCV25635490
SNP Position Genomic:     36638
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,40)   total(G,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:54828):
GATTCTGGCCGTGATTGGTTGGGGATGTTCTGAGTTGGAAGAATGTTGACTGTGATTGATTGGGACAGGATACATAGACTGGGACCTGACTGGTTGATAG
Y
AGAAAAATAAACCAGGATGGGGGCTAACAGTGGATGGGGCAGATTGGATAGCTGGTTGTGGCTGCATACCCGTTATGGAGACAGGAGCCCCAACGCTGCC
Celera SNP ID:            hCV25635491
SNP Position Genomic:     15777
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:54829):
GGTAGAAGTGCTCAAAGCTCTAAAGTCTCTCTTCGAGCACCACAAGGCCCTGGATGAGAAGGTATGAGAATTAGAAGAGCAGGGGTGGAGAATGGAAACC
Y
ATAGTTGACTGGGGCTGTTCTGAGTGGGAGAGATTCTGGCCGTGATTGGTTGGGGATGTTCTGAGTTGGAAGAATGTTGACTGTGATTGATTGGGACAGG
Celera SNP ID:            hCV25635492
SNP Position Genomic:     15645
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,20|T,18)   total(C,53|T,23)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54830):
TGGTGTCCAGGCACGAGAGGTCACTGCGCATGACCGTGGTGAAGCGCCAGGCCCAGTCCCCGGGTGGGGTCTCCTCGGAGGTAGAAGTGCTCAAAGCTCT
R
AAGTCTCTCTTCGAGCACCACAAGGCCCTGGATGAGAAGGTATGAGAATTAGAAGAGCAGGGGTGGAGAATGGAAACCCATAGTTGACTGGGGCTGTTCT
Celera SNP ID:            hCV25635493
SNP Position Genomic:     15566
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54831):
GTCTCGGTGCTCCTTTATATGGCTCCATCTTTTCCTCCATGTGTCCGCCCTACCTGTCACCCTTTTTCTCACATCTGCCCCTTTTCCCTTGCCTCTTTTC
M
TTGACCCCATGCCGTGTGCTTGCAGCTGCTCCTGGAACACCTGGAGTGCCTGGTGTCCAGGCACGAGAGGTCACTGCGCATGACCGTGGTGAAGCGCCAG
Celera SNP ID:            hCV25635494
SNP Position Genomic:     15415
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,10)   caucasian(A,16|C,16)   total(A,42|C,26)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54832):
TTGGGACAGGATACATAGACTGGGACCTGACTGGTTGATAGCAGAAAAATAAACCAGGATGGGGGCTAACAGTGGATGGGGCAGATTGGATAGCTGGTTG
Y
GGCTGCATACCCGTTATGGAGACAGGAGCCCCAACGCTGCCCTATCGGATCCGTCCCAGGGGTGTTCTGGACCAGGGGCAACTGTCCTAAACTGGATCTT
Celera SNP ID:            hCV25635495
SNP Position Genomic:     15836
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,19)   caucasian(C,16|T,12)   total(C,25|T,31)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,26)   caucasian(C,15|T,13)   total(C,23|T,39)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54833):
ATTGGTTGGGGATGTTCTGAGTTGGAAGAATGTTGACTGTGATTGATTGGGACAGGATACATAGACTGGGACCTGACTGGTTGATAGCAGAAAAATAAAC
Y
AGGATGGGGGCTAACAGTGGATGGGGCAGATTGGATAGCTGGTTGTGGCTGCATACCCGTTATGGAGACAGGAGCCCCAACGCTGCCCTATCGGATCCGT
Celera SNP ID:            hCV25635496
SNP Position Genomic:     15790
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,32)   total(C,59|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:54834):
GCCGTATTTTGGGGATGACTCCAATTCATGGGCGCTTGTCTGCCTTTATCACTTCCTCGATGTGCCCTCACTCACTACTCCCTCAGGGCCTCTGCCTTTC
Y
GGCATTTTCCTCATCACCTCCAGCATGAAAGATTCTGCCTCCCCCTTGAGATTTTCCAAATTTCGACCCCTCCCTGCCTCCAGCTGGAACACCCTCAGAT
Celera SNP ID:            hCV25635497
SNP Position Genomic:     27923
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,16)   caucasian(C,16|T,20)   total(C,36|T,36)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54835):
CAGCTCACTGCAAGCTCCGCCTTCTGGGTTCACACCATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGACAACAGGCGCCCACCACCACGCCCGGCTAAT
W
TTTTGTATTTTTGGTAGAGACGGGGTATCACCGTGTTAGCCAGGATGGTCTCTATCTGTTAACCTCGTGATCCACCTGCCTCTGCCTCCCAAAGTGTTGG
Celera SNP ID:            hCV26654606
SNP Position Genomic:     9482
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54836):
AAATGGGCAAATGCTACAAATCAGGGATTCCCTTCTGCCTCCCCAAGGAGCCGGTTGTTAGGCATTTACCAGCATACAACTGCCACCTTACCAAGGGCAT
M
CCAGTGCATCCAGCCGTATTTTGGGGATGACTCCAATTCATGGGCGCTTGTCTGCCTTTATCACTTCCTCGATGTGCCCTCACTCACTACTCCCTCAGGG
Celera SNP ID:            hCV25635498
SNP Position Genomic:     27810
SNP Source:               Applera
Population(Allele,Count): african american(A,16|C,20)   caucasian(A,18|C,16)   total(A,34|C,36)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,4)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54837):
TAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGGCTCAATCTCTTGACCTCGTGATCCAACAGCCTCAGCCTCCCAAAGTGCTGGGATTACATGAG
Y
GGGCCACCTTGCCCGGCCGTTACTGTGTTTTTTTTTTGAAATGGAATCTCACACTGTTGCCCAGGCTGGAGTTCAGTGGTGCTATCTCGGCTCACTCTAA
Celera SNP ID:            hCV26654607
SNP Position Genomic:     12822
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54838):
AGGGAGGAGAATTGCTTGAACCGGGACCCGGGAGGTGGAGGCTGCAGTGAGCCGAGATCGCATCACTGCACTCCAGCCTGGGTGACAGATCACTCCAGCT
A
AAAAAAAAAAAAAAAAAAAAAAAGAAAGTAGGGAAAGGAAAAGAAAAGAAAAGAAAAGAAAAAAATTAGCCAGGTATGCTGGTGTGTGCCTGTAGTCGCA
Celera SNP ID:            hCV26654608
SNP Position Genomic:     13977
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54839):
ACTCTTCCCTCACCTGCCCATGGCCCCAGATCCTGGCATATGGCGACATGAACCACGAGTGGGTGGGGAACGACTGGCTGCCCAGCCTGGGGCTGCCCCA
R
TACCGCAGCTACTTCATGGAGTCGCTGGTGGACGCTCGAATGTTAGATCACCTTAACAAGAAGGAGCTCCGGGGCCAACTCAAGATGGTGGACAGCTTTC
Celera SNP ID:            hCV25635499
SNP Position Genomic:     34750
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,36|G,2)   total(A,72|G,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54840):
GTCAGGATCATGAGCCAAGACCCAGCGCCAACCTCGGCCCCCAGCCACCTAATGTCCCTCTGTCCCCACACAGGGATAGGATTGGGAGCGGTCTGCCCCT
K
CGGGCTCCATACCACCCCCATTCCCTGGGGAACTGGACGGCTCCGATGAGGAGGAGGCAGAGGGGATGTTTGGGGCCGAGCTGCTGTCCCCCAGTGGGCA
Celera SNP ID:            hCV15758554
SNP Position Genomic:     23339
SNP Source:               Applera
Population(Allele,Count): african american(G,21|T,17)   caucasian(G,19|T,19)   total(G,40|T,36)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,353|G,1128)   total(G,1128|T,353) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54841):
TCTTACAGGCCACCTTGAACTTGACCTTTTGTCCATAGTAATCCCTTCATGATTTTCCAAACCCCTTGACTATCATCAGGGCCACCCTGATACAAACCCC
R
ATCACCTTGATAGCCCTAATCCTGCAATGACTTCCTGAGACTCTCAGGACCCCTTGACTCTCCTTGAGCCTGGAAGGCCTTCAGAAACCCACCAAAGTCC
Celera SNP ID:            hCV15780218
SNP Position Genomic:     24563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54842):
AGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCTACAATATTTTAAATAGCTTTGTGCATGAAACAAAGTTTTGACTGCATTTTG
W
TTGTGACTTGTCACATGAGGTCAGGTGGGGGATTTTCCTCTTGTGGCTTCGTGTCAGCACGTAAGTTTAGGGCCAAGCACTGTGGCTCACACCTGTAATT
Celera SNP ID:            hCV16088076
SNP Position Genomic:     30955
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54843):
TCTCTCCCTCTCCCTCTTCCCCCACCCGCCCCCCGCCCCCCGTTTCTCTCCCTATTTGTCTCCCTCGGACTCTCCCTCATCTCGTCCACGTCTCTTTTCC
Y
TGTCCTGTTTCTTCTCCTTGCGAACTTTCCCACGTCTCTGTTTCGCTCCCCACCCCCTTGCCTTTCCCCACCTCCCTGTTCCCCCATCTCTCCGGTTTTC
Celera SNP ID:            hCV15780219
SNP Position Genomic:     29249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 276
Celera Gene:                 hCG1640193 - 79000076051176
Gene Symbol:                 EDG1
Protein Name:                endothelial differentiation, sphingolipid G-protein-coupled receptor, 1;CHEDG1;D1S3362;ECGF1
Celera Genomic Axis:         GA_x5YUV32VY6P(2364666..2381377)
Chromosome:                  Chr1
OMIM number:                 601974
OMIM Information:            ENDOTHELIAL DIFFERENTIATION GENE 1;EDG1


Genomic Sequence (SEQ ID NO:12436):
TTAGAAAATCCCACCATCTCAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCAT
TCCTATACACCAATAACAGACAGAGAGACAAATCATGAGTGAACTCCCATTCACAATTGCTACAAAGAGAATAAAATATATAGGAATACAGCTTACAAGG
GATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAAGGAAATAAAAGAAGACACAAACAAATGGAAAAGCATTCCATGCTCATGGATAGGAA
GAATCAATATCATGAAAATAGCCATACTGCCCAAAGTAATTTGTAGATTCAATGCTATCCCCATCAAGCTATCATTGACTTTCTTCACAGAATTGCGAAA
AACTACTTTAAATTTCATATGGAATCAAAAAAGAGCCCACATAGCCAAGACAATCCTAAGCAAAAAGAACAAAGCTGGAGGCATCATGCTACCTGACTTC
AAACTATACTACAAGGCTACAGTAACCAAAACAGTATAGTACTGGTACCAAAACAGATATATAGACCAACGCAACAGAACAGAGGCCTCAGAAATAACAC
CACACATCTACAGCCATCTGATCTTTGACAAACCTGATAAAAACAAGAAAGGGAGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGC
CATATGCAGAACACTGAAACTGGACCCCTTCCTTACACCTTATACAAAAATTAACTCAAGATGGATTAAAGACCTAAACGTAAGACCTAAAACAAGAAAA
ATCCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGTCATGGGCAAATGCTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTG
ACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCATAGCAAAAGAAACTATCATCAGAGTGAACAGGCAACCTATATAAGGGGAGAAAAATTTTGCAAT
CTATGCATCTGACAAAGGGTTAATATCCAGAATCTATAAAGAACTTAAACAAATTTACAAGAAAAAACCAAACAACCCTATCAAAAAGTGGGCAAAGGAT
ATGAACAGACACTTCTCAAAAGACAACATTCATGCAGCCAACAAACATATGAAAAAACCTCATAATCACTGGTCATTAGAGAAATGCAAATCAAAACCGC
AATGAGATACCATCTCATGCCAGTTAGAATGGTGATCATTAAAAAGTCAGGAAACAACAGATGCTGAAGAGGATGTGGAGAAATAGGAACGCTTTTACAC
TGTTGGTGGGAGTATAAATTAGTTCAACATTGTGGAAGACAGTGTGGCGATTCCTCAAGGATCTAGAACTAGAAATACCATTTGACCCAGCAATTCCCTT
ACTGGGTATATACCCAAAGGATTATAAATCATTCTACTATAAAGACACATGCACACATATGTTTATTGTGGCACTATTCACAATAGCAAAGACTTGGAAC
CAACCCAAATGTCCACCAATGATGGACTGGAAAAGGAAACTGTGGCACATATACACCATGGAATACTATGCAGGCATAATAAAGGATGAGTTCATGTCCT
TTGCAGGGACATGGATGAAGCTGGAAATCATCATTCTCAGCAAACTAACACAACAACAGAAAACCAAACACTGCATGTTCTCACTCATAAGTGGGTATTG
AACAATGAGAACACATGGACACAGGGAGGGGAACATCACACACTGGAGCCTGTTGGGGGTGGGGGGCTAGGGGAGAGATAGCATTAGGAGAAATACCTAA
TGTAGGTGACGGATTGACGGGTGCAGCAAACCACCATGGCACGTGTATACCTATGTAACAAACCTGCACATTCTGCACATGTGCCCCAGAACTTAAAGTA
AAATAATAATAATAATAATAATAATAATAATAAAAGATGGAGGTGGTGGATGGGTGAAGCATTTTCTCTGTAGTGTAGGGAATTCTCACAGGTATGTAGC
TCCTTAATCCTCACAATGAAAGAGGCAAATATCATTATTTCATTTTACAGATGAGGACACTGAGGTTCAAGGAAGTTAAAAGAACTTGCCTAAAGTCACA
TAGCTTAGAACTGGCAATATCAAGGCTGAACCTAAGTGTCTGTTCCAAGGCTCAGTCATGTTCCACTAATTTTGAATGTTGGCAAACGAGGAGAGAGAGA
TATTGGGACCTAGGATGAAGGGAAGAAAGAGTTTTTGGTAGAGAAAACACATAAACATTTATGTAAGTTGAAAGTAAAGAGTCCTCAGAAGCTAAGAACT
GAAAGTACAAGGGAGAATAAGAATAATTGAGCCAAGTCTCAGAAAGTTTGGAGGAAGCAGCATGCTGACCTGGGCAAGAGTTTGCCTTGGAAAGGAGTAA
AGTTGCTTTTATTTCTGAAACAGGTGGGAAGGAGGTAAGGGTGGGTAAAGTTGCTATTAAGCTGGAGCTTGGAGAGGAGGGAAATTGAGATGGTCATACT
ATTTCCTCCTTGAAATAAGAGGCTAGTTATTCTCCTGTGAATAGACAAGTAAGGGAAAGCCTGGATTTTTACCAGTGACTGGGTCAGGGGAGGGAAGAGG
GGAGAAAAGGGAGTTGGAAAGTGACTGGAGCAATTAGGAAAGAGAGTAAGGCTCAGGCTTGTAATCCCAGCACTTTGAGAGTCCAAGGTGGGAGGACTGC
TTGAGCGCAGGAGTTCAAGATCACCCTGGGCAACAAAGTGAGACTCCTGTCTATACAAAAAATAAAAATAATAATTATCAGGACATGGTGACTGGTGCCT
GTAGTCCCAGCTGCTTGGGAGGCTGAAGTAGGCGGATCCTTTGAGGGCGGGAGATCAAGGCTGCAGTGAGCTATGATTTCGCCACTGCACTCCAGCCTGG
ATGACAGAGCAGAGCCAGACCCTGTCTCAGTTGAAAAAAAGAAAAAAAAAAAGGAAAGGGAAAAGAGTAGAGTTGCAATATTTAGCAGATAAAAAATATA
GCTCATGGCTGGGCTCGGTGGCTCATGCTTGTAATCCCAGCACCTTGGGAGGCCAAGGCAGGTGGATCGCCTGAAGTCAGGAGTTCGAGACCAGCCTGGA
CAACATGGTGAAACCCCATCTCTACTAAAAATACAAAACTAGCTGGGTGTGGTGGTGCATGCCTGTAATCCCAGCTATTCAGGAGGCTGAGGTAGGAGAA
TTGCTTGAACCTGGGAGGCGGAGGTTGCGGTGAGCTGAGATCACGCCACTGGACTCCAGCCTGGGCAATAGAGTGAGATTCTGTCTCAAAAAAAAAAAAA
AAAAAAAAAGATAGCTCACACAGTTACATTTGAATGGCACATTTATGACAAATTTTTGTTTAGTGTATGCTCCAAAGATTGTGTGGTATTTTATCTGTAA
ACTTTTAAAGAGAAACACTAAAGCATGTGTAAAGAACAACAAAGCCACTTTGAAATCAAAAATTGGAAATGGAGCAAACTTAAGGTAGGAATGTTGGGCT
TGACTTCTAGGCAGCAGCAGACAGGGAGTTGTACTGGCAGTCAGGAGATAGCTTGAGAATGCAATTTTTAGGGCCTCCTTGGAGAGCAATGGGAAGAGAC
TTATATGGGAACTAGAGACTTGGAATTGGCCAGGACGCCATTGCTGGAAACATTTGCCTACTATCTAATTTTACCTAAGTTGATCATCTACAATTACATC
TCATAGGTGTGTACTAAAGATGAATATTATTAAATAACAATCTGAAAGGTTTTTGGACTCTGTAAAACACTTTATCAATATTGAATGTTAAAAACCAGTG
GTATTCACAAGAAAACAACTGATATCCCCAAGGAAATTCTTGAACCTGTTTGAGGTTTATCATGGTGGTCTGGAGTAGTGGTTAAGAGTCTGCAGCCTGT
CCCACATTAAGCAAGCTGCTTAATATGTCTGGGAGTCAATTTCCTTGTTTGTAAAATTAGAATAATTATAGTGCCTAACTTGTCAGATTAAATGGATTAA
TATGTGTAACACTATGTGCAAATACTAAAAGTACAATGTTACATGAGATATCATAGGCAGACAATGAGAAGTTTCAGAAAACATTCATTAATATGCATAT
GTATACACTTTGTATGCTTACGTAGAAAATGAGTGGTTTTAAAAGGACATTCATTAGCATACTTTTATATGCATTTTGTAGACTTGTACAGTCAGAAATG
CAGCAAATGTAAAACTTTAAATCTAGAAGTCTGTTTCCCTCTAGGAACATATATTTCAATTCCTTAACTATTTATTGACTGATAGCGTTTGAGCCACAAG
GCAAGGCATTTGCAATATTTAGGTTTTGGAACCCAGCTCTGCCACTCACTAGCTGGGAAATCTACAAGTCACCTTAGTTGTCTGAATGACACTTCTCTCA
ACAATAAAATGGCCAGCAATGCTTACTTACTTCACAGAGCAGTAAGGTTAAATTAACCTAGCACATGCTTGATACAGACTAGGTGTGAAATTTCACTTTG
ATTCCTTTGGCTTTAAAGAATGCATAAATTAGTGTGGGTGGAGGCGGGAGAAGGGGGGGAATGCCAAGTCCCCCGTTTTGTTGTGCTGGGTAGACACAAT
ATACCTCTTCCCCTTTAAGTGAAATAAGTCTTCAAATCCAATTAGGATCTACTCTGGAGTCTTAGAGGACCGTTATCTTGGTTTCCACATTATATGCACT
GTACTGTTGTTGAAGCTGTGGGTATGTATTGGGTGCGTCGCTGTCGATGAATGCTTTAAAACAGCTGTGAATTAACTGTCACTTCTTTTTTTTTTTTTTT
TGGCAAACTCACAAAATCCCAGAAGTCAGGGGTCTGTTGTTTGTTCATTCTGCCTCCTTCTGAGTCATTCAGGTACAGGGTGTGTCTGCCAATTGAAACT
GCACAGCGGAGGAAGTTTTTGAGTTCACATCTGCCGGGATGGGAACGCAGTGCGACCAGGGACTGGGTGGAAACTTTTACAACAGTAATGCAAGGGCAGA
AGCGTCCTGTCCTGAGCTTGTCACGCAGGCAGATCTGACCAAGTCCGCCTCTCAGCCTCACGTTCTTAAGTAGCATCTAAGCAAAAGAAAAGGGTGGGCA
AAGTGCTAGTAATGAGATTTGAGGCCTCTGAGTCGACTCCCAAGCAGAATGTGAGAGAAGGGTGCCGGCTCCTGCTGGGCAGCTGCAGTTGCTCCGCAGC
TCCTGGCCGAGAATCTCCCCCTTTGGAAATTCCTGAGCTGCCCAGGCGTTTTGAATCTCTCAGGACTCAGCAGCAGCCCACCCCCTCAACGACCTCTCCA
TTGGCCAGAATCTGGGACACACAGCCTGACTTTGTGCTCAGCTGAGGGAAACCCCTCGCCCAACACCAAAACCGGCGCTGGTTCATTTCTCTGTGCACTC
TGGGAAAGCCACTGCCCCTCAGACCGCAGTTGCGAGTAGCACGAGGATCTGGGGTGGCGGGGGGAGTACAGGAACCTCCCGGTTCATTCTCCCTCCCGGG
CTGCTTGTCTCCTCCGTACCTCTCGCAGCCCCTTCCCAGCCTCTCCTCCCCAGAGCGCCGCCGACACTCGCCGGGCCGCGGCTCAGGTTTTCTGCTGCTC
GCGCGAAAGTGGCTCGGGGAGCTCCTGGCCACAAGCTCAGCACACCGATCCTCCTAGGGCTGCGGGGGGTGTGGGACCAGGGCGGTGCGCTACGAGACTC
CGGGCCGTCCTCTGCCTCCTCAGACTTTTCGAGAGAAAAGTTTTCAAAGTCTCTCCACCTTTTTTTTTTTTCAGGGGCTCGGGAGAATCCTCTCCACAGC
CAGGGATCAGCGTCTATCTGGGCGAGGGCAGTGATTTATACAGTAGAATCCAGGGGTTACCGGGCTCCGCCCCTTCTCTCTCTCTCTTTTTTTCTTTCAT
TTGTTGTTTGGGGAGGAGGGGTTCTTTTTTTTTTTTTTTTTTTTTTTTTTGCTTCTGCCCCAGATCTTTCCTGGACAGTGCGTCTCAGCAGTTCAGATCC
GGGGGCCCCCAGCTGACAGAGGGCGTGGGGGGTTAAGGCATTAACCCCTCCCAGCCTCTTCCTGAAGAAACCACCCAGCCTTGGCGCGGCGCTGGGTGAC
TTCGCGTAGCAGGCAGGGAACTGGCCGCGGCGAGCGGGACTGGCCATTGGAGTGCTCCGCTGCGGAGGGAGGGGACCCCGACTCSAGTAAGTTTGCGAGA
GCACTACGCAGTCAGTCGGGGGCAGCRGCAAGATGCGAAGCGAGCCGTACAGATCCCGGGCTCTCCGAACGCAACTTCGCCCTGCTTGAGCGAGGTAGGG
GGCGGCGAATGGCGGGGGTCGCGGGCGCGGGGAGCCCGGTTGTGGTARGGCTTAGGTGTCAGAAACGAATTTTTAAGTCGAACGAGGCAAACAAAAACTT
AGAAAACATGCATCTCCGGGCGCTGAAAATTTGCATCTCTGGGCTACTAAGGAGCCCATCTCGRTCAGATTGTTCTTGGGCACTTGTGATTTATGGAGTT
CAGAAAAAAGGTTAATTCCCAACTGTGGAACCTACGGGTGTAGGGGCAGTGAAAATTGCAGTTGGTCGGAGGAATAGGAGGGAAGGCGTTAAATTTTGGA
AATCCTATAGACAAAGAATATGGTGGGTGGTGTGGAGCGTGGGTAATGGCTTAAATTAGTACTGCCCAGGAGCAGGGTATAAMATTAGTTGGGGGAAAAT
GCGGAGCTTCTTGGCTTGAGCAGCCTCTGCTGTTCGCGGAGTTGCTGGGATTGTTCTCATCTCTATTACCTCATTTTATTGCATTGCTGCATTACCTTGA
AATATTTAAGCAACTTAGAAGTAGACTTCTGCTGACCAGTGCCGTCTTAGAAAGTTTCTTTGTAACTTTCTAGTCCTAGGAGAGGAGYCAACGTGTTGGG
GGACTGCAGTAAATAAAACTGCCCACGCAAATTTAGCAATGCACCAGGGAGCAGTTTAATGTGAGTTTCTGAAGAGTAGTTTTGCAATCGAAATTAGAAA
TGTGGTAGCATGTATTATGGCTGTCATGAGTAGTTTGATTTCTCTCTTTTGTGTATGTTTTGGCTAAACTAAACAAAGCAAAAAATATTTATGCAATCAA
CTAATGTACGAAACTTCTGGGATTTGCTGCAATCTGTTATGAATGGTTTTAACTGAATACCTTTAAATTTACTTGCCCTGGCTTGGGGTGGGGGGTGGGG
TGGGGGGGCGCGGGGGGAGGCGGGGAGAATAAGAAGAAGAAAGAAAAGGCAGTCGCTTCACGGAGGCGCTAAGCTTTCCTGTTTACAGCAAGGCGGGGCG
GGCCTGGCTGCCCACACCTCACTGCGCCCTCGGACCCTAAGCACACCTGCTCCTAGAGAGTTATTAATAGAGCCCCCAAATGGCTTACGCTTTCAAATGA
TTTTCCTGCAAATCTGATTTCTTGCATGGCACATGGCAATTAGGAGGTGGTGCTAGTATCTTTGAACTGGGGGGCTGGGGGTGGGCATGGGGGACAGAGG
TGTGTGTCTTCGCCCTCAGACTGGCAGTTGAGTCTTTTCCGAGGAGAGACGTGGGCTGGTATTGAGCGTGCAGCTAAGCTGGTGACTGCTTCAGAGAATC
TCATGGCTGGAAATCCGGGGGTGAGGGGGTGTGGGGTGGTGAGAGGGCAGGAGTGGAGTTAAAATGGGGTGTAGTTCTCTAGGTTTCCCATTCCTCCCAC
TCCTTGTTTTCCTTTTCATCATCTTTTTTTTTTTGTCAACCCACAGCCAACATCGTAATTCCCATTTCCCTTTGAGTGAATGTGGCCATAGAGTTTCTCC
CTCTCTTTTTCTTCCCCCTCTTCCTTTTTTGAAAAAAGAAAAAAAAGGAAGAAAAAAGATAATTTGATTTTWAAAAAAAATCTCTCTCCCTGAGCTCTCC
CCAAGTTTCTTTAAAACAAATCAACAACAACACAATTGGAGCAGTGCCTTAGCTAGAATGAATTATGCCAGTATGCTGTGGCTCTTTCCCTGACTCTCTC
CTCTGACTTGTTTAAGGCTGCGGTTTCCGAGGCCCTCTCCAGCCAAGGAAAAGCTACACAAAAAGCCTGGATCACTCATCGAACCACCCCTGAAGCCAGT
GAAGGCTCTCTCGCCTCGCCCTCTAGCGTTCGTCYGGAGTAGCGCCACCCCGGCTTCCTGGGGACACAGGKTTGGCACCATGGGGCCCACCAGCGTCCCG
CTGGTCAAGGMCCACSGCAGCTCGGTCTCTGACTACGTCAACTATGATATCATCGTCCGGCATTACAACTACACGGGAAAGCTGAATATCAGCGCGGACA
AGGAGAACAGCATTAAACTGACCTCGGTGGTGTTCATTCTCATCTGCTGCTTTATCATCCTGGAGAACATCTTTGTCTTGCTGACCATTTGGAAAACCAA
GAAATTCCACCGACCCATGTACTATTTTATTGGCAATCTGGCCCTCTCAGACCTGTTGGCAGGAGTAGCCTACACAGCTAACCTGCTCTTGTCTGGGGCC
ACCACCTACAAGCTCACTCCCGCCCAGTGGTTTCTGCGGGAAGGGAGTATGTTTGTGGCCCTGTCAGCCTCCGTGTTCAGTCTCCTCGCCATCGCCATTG
AGCGCTATATCACAATGCTGAAAATGAAACTCCACAACGGGAGCAATAACTTCCGCCTCTTCCTGCTAATCAGCGCCTGCTGGGTCATCTCCCTCATCCT
GGGTGGCCTGCCTATCATGGGCTGGAACTGCATCAGTGCGCTGTCCAGCTGCTCCACCGTGCTGCCGCTCTACCACAAGCACTATATCCTCTTCTGCACC
ACGGTCTTCACTCTGCTTCTGCTCTCCATCGTCATTCTGTACTGCAGAATCTACTCCTTGGTCAGGACTCGGAGCCGCCGCCTGACGTTCCGCAAGAACA
TTTCCAAGGCCAGCCGCAGCTCTGAGAAGTCGCTGGCGCTGCTCAAGACCGTAATTATCGTCCTGAGCGTCTTCATCGCCTGCTGGGCACCGCTCTTCAT
CCTGCTCCTGCTGGATGTGGGCTGCAAGGTGAAGACCTGTGACATCCTCTTCAGAGCGGAGTACTTCCTGGTGTTAGCTGTGCTCAACTCCGGCACCAAC
CCCATCATTTACACTCTGACCAACAAGGAGATGCGTCGGGCCTTCATCCGGATCATGTCCTGCTGCAAGTGCCCGAGCGGAGACTCTGCTGGCAAATTCA
AGCGACCCATCATCGCCGGCATGGAATTCAGCCGCAGCAAATCGGACAATTCCTCCCACCCCCAGAAAGACGAAGGGGACAACCCAGAGACCATTATGTC
TTCTGGAAACGTCAACTCTTCTTCCTAGAACTGGAAGCTGTCCACCCACCGGAAGCGCTCTTTACTTGGTCGCTGGCCACCCCAGTGTTTGGAAAAAAAT
CTCTGGGCTTCGACTGCTGCCAGGGAGGAGCTGCTGCAAGCCAGAGGGAGGAAGRGGGAGAATACGAACAGCCTGGTGGTGTCGGGTGTTGGTGGGTAGA
GTTAGTTCCTGTGAACAATGCACTGGGAAGGGTGGAGATCAGGTCCCGGCCTGGAATATATTTTCTACCCCCCTGGAGCTTTGATTTTGCACTGAGCCAA
AGGTCTAGCATTGTCAAGCTCCTAAAGGGTTCATTTGGCCCCTCCTCAAAGACTAATGTCCCCATGTGAAAGCGTCTCTTTGTCTGGAGCTTTGAGGAGA
TGTTTTCCTTCACTTTAGTTTCAAACCCAAGTGAGTGTGTGCACTTCTGCTTCTTTAGGGATGCCCTGTACATCCCACACCCCACCCTCCCTTCCCTTCA
TACCCCTCCTCAACGTTCTTTTACTTTATACTTTAACTACCTGAGAGTTATCAGAGCTGGGGTTGTGGAATGATCGATCATCTATAGCAAATAGGCTATG
TTGAGTACGTAGGCTGTGGGAAGATGAAGATGGTTTGGAGGTGTAAAACAATGTCCTTCGCTGAGGCCAAAGTTTCCATGTAAGCGGGATCCGTTTTTTG
GAATTTGGTTGAAGTCACTTTGATTTCTTTAAAAAACATCTTTTCAATGAAATGTGTTACCATTTCATATCCATTGAAGCCGAAATCTGCATAAGGAAGC
CCACTTTATCTAAATGATATTAGCCAGGATCCTTGGTGTCCTAGGAGAAACAGACAAGCAAAACAAAGTGAAAACCGAATGGATTAACTTTTGCAAACCA
AGGGAGATTTCTTAGCAAATGAGTCTAACAAATATGACATCTGTCTTTSGCACTTTTGTTGATGTTTATTTCAGAATSTTGTGTGATTCATTTCAAGCAA
CAACATGGTTGTATTTTGTTGTGTTAAAAGTACTTTTCTTGATTTTTGAATGTATTTGTTTCAGCAGAAGTCATTTTATTGGATTTTTCTAACCCGTGTT
AACACCATTGAATGTGTATTTCTTAAGAAAATACCACCCTCTTGTGCCCTTAAAAGCATTACTTTAACTGGTAGGGAACGCCAGAAACTTTTCAGTCCAG
CTATTCATTAGATAGTAATTGAAGATATGTATAAATATTACAAAGAATAAAAATATATTACTGTCTCTTTAGTATGGTTTTCAGTGCAATTAAACCGAGA
GATGTCTTGTTTTTTTAAAAAGAATAGTATTTAATAGGTTTCTGACTTTTGTGGATCATTTTGCACATAGCTTTATCAACTTTTAAACATTAATAAACTG
ATTTTTTTAAAGATCCCTTTGTGAAGAGCATTCTTAAAAATAATTATTGAGTCATCTACTGGATTGTGTAGCTCTTTGGAATCAAAGTGAAGGACAAATT
TCTATTATTCTTTAAAGGATTTTTACCTTAACTAGGGTGTGAAAAAAGTGTGGTTTGTTTAGAAACCACTCTATCTTTTTCAGGAAGAGAAACTTCAATA
AGTTAACACTGAAGAGTAGTAAAGAATGAGATAAAAACCACCAACCTTCTGAATACCACATTGGCTAGTAAGTAGAATTGTTTGAGTTTTAAACTGCATT
TAAGCCAAATAAATTAAATGCAATAATTCTGTCATCAAATATGGGCTTTTAAAGAAATTATACACAAAAATGTGGTTGTAAATCTAGTTTAAATGATGAG
ACTCAATCATCATTCAAAACCCATCAAAAAAGCATACATTCTTGGCCTTTCACCAACATGTTGGGGAAGTGGGGATATGGATATGGGTATTAAATCATGT
GTTTTTTTTTTTTTTTTTTCAGGACACTGTCTTGGCTTCTCCCAGCCTATCTTCTGAACCACATAGAAGTATACAGTATCAGTGAAGCAGCTAGCTGTAA
AATGTGGGCTGAGTAGCATAACACTTTTATCTGAAAACCTTCAATTCATAGTATCTGAAAGCATTAATATTCTCAGTCATTAATTTTTCCAACTACAAAA
TGAAGGCACTTTGCAAGCATCACAGACTTATTGTAATAGTTAATTCTTGTTTTTGATTATTGTCATCTTTTGGGGGATTAAAGTGTTTTGGCATGTTGGG
CTCTCTAATCTTTTCGCTACTTTCAGAATTTGTGCTTTCAAGTGTCATTGTATATGCACAGGACACAGTTGGGACATGAAGATAAACCTCACCTAATAGA
GTAGATGTCATTTCTGGGTAAGGTTAACTGTGGGAAACAGAAATGTGTTCACTAAGGAAACCTTAGGTCACAACCTCCAGTTTCCTGAAGGAAATGCCAA
AAATGCTCCAAAGACAAAAGGCTGGAAACAAACTGGAATGTCTCTCTCCATCTGTCTGCTAAGGCGGAAGGAATGATTTCATGTTACATTCACTTCCTAG
ACTTTCATTACAGAGTCAAGCATAATGGAAAAGTATGTCCATTTTGTGTTTCTGTGGAAGATAAAATGTTCATATTCTCCGACTTATCTTCATAAGCACA
GTAGTGATTCATGATATGGGGAAAGATGGGATAAGGTGGCTGGCTTTGGGAGATGGGGAGCTCTTTGGTGACACTTTTCCCCCTGTGACCACATTATCCA
GTGATTAGATGTACTTTCTTCCTGGAAACTCCAGACTGTGCATTTCATTCCAAGAAAGCTGGGTAGTCATGGACTGTGGTTTTCCTGGGCACATGTGTGG
TAGAGCCCCAGATCAGACCAAGAAGCAAAGACATAAGAAGAAGGAATCCTTGGTTGTCTCCCAACATGAATATCTGGTTTTAATTCAGTGTATTCTCAGA
AGTAAGAATGAGAAAAAAATCTTAGTAATTATATGTTTGTACTAAAAAATACACATATAAGGCTTTGATTTTAAAATTGTAGTGTTTTTCAAGAGGAGTG
AAACAGATCCTGGACAATACTTGACATATTCTTGTAAAAAGTTCAATTGACTCAAAATAGTCAGGAAAGTTATGAAGTAACATCATATAATACTTTATCC
CCAACAATATTAAATGTGATTACAATTTTACAGAATATTCAAATCAAAATGTTATATAAGACAAATTATTATTCTTGCTTTTACAACTCCTTAGAAGGAG
AAACATTCAATTGTTTTAAAAATGTTCTATTTATTTTTCAGAAATGAGGTGTTGCCTTCTTGCCCAGGCTAGTATGCAGTGGCACAATCATAGCTCACTG
CAGCCTTGAATTCTTGGGCTCAAGTGATCTTCCTGCCCCAAGCCTCCCAAGTAGCTGGGACCACAGGCACGTGCCACCATGCCTGGCTGATTTTTTTTTT
TTTTTAATGTTTTGTAGAGACAGGATCTCAGTATGTTGCGCAGGCTGGTCTTTAATTCCTGGGCTCAAGTGATCCTCCCATAGATTTGTCTGTGTTTTCT
CTAAATAGGTTATAAATACCTTGAGGGAGGAATCACAAATAACTAAAAGAAACTTTTGTAGAGACTATCAGAGTATTATTTCCTTGTGGACACAGTAAAT
GTATGATGATGAGAAATCATAATAAACTACAACATTTTCTCCAACCTTCCTTCCTGCTCTTTTGATGTGTACTTCACGTGGTCCAAGAAAAGGGACTCAA
AATACTTTTTAACATACACCATTGCCTTCACTGCAATACTAAGTGGAACTAGAGTTGTCTCTCAGAACATTCAAGCAAGCAAGGTTTACTTGAATAACTA
AAGGCCTTATATGGATTATCTATAAAGAGGATTTTAAACCGGTGGTTTAAAAAGCTGGGAGAGATAGGAGGAAGAGCATAGTGAGGGGTTAGACCTGCAT
TTATTTCAGTCTTTCACAATCTTTGACAAGAACCAGGACCCAGAGTAGTTTGGGTTCATGTTGAATATATCTCTCCTAATACATCCGATCTCTTGTTCCC
TACACTTTCTTCTTGGATTCAGACTCTCAAGTAATTTCTGTTTTTCCCGTGCTCTCTTTTTTATCCCTTTGAGGACTAAAGGATTAAAAAATTAGACTTA
GCTCTGGTTATAGTCATTAGCAAGAGCCAAGTGTGGACTGTGGACTTGAGTGAACAGGAATTGCTACATTTTATGTAATCCAACCTTGATATATGAAGTA
TCTTCATATATCCAACCAGAAGCTTCCATATCAGTAATGGATAAATACACCATGGTAAATTAATACAATGGAATATTATTCAGCAACAAAAAAGGACCTA
CTACTAATCTTGCAACCGTTTTCATGAATTTTAAACCTCTTATGCAACCACAAAAGAGAACATACGTCATGATTTCCTTTATGTAAAAGTTCCAGAATAG
GCAAAACTAATATATGGAGGTATAAATCTGCACAGTGGTTGCCTGGGGTAAGAGGATAAACTGGAAAGGAACACGAGGGAACTTTCTAGGTTGTTAGCAA
AGCTCTTTATCTTAATTTTTAGGACCTTGTTCACTCAGATGTGTATATTTGTCTAAACTTATGTAATCATATTCTTAAGACCAGTGAAATTTAAAAATAT
CAATATGCTAGACTTTCACTTCTGAGTATAAGGACTATATGAGACTTTCTCTGTGAAATTGTGGGAAGGTTCCATGAAGTTCAGTAGAAAGTGGCAGCCG
TGCACAGTGGCTCACGCCTGTAGTCCCAGCACTTTGGGAGGCCGAAGCAGGAGGATAGCTTTGAGCTCAGGAGTTCAAGATCAGCCTGGGCAACATGGCA
ACACCCGTTTCTACAAAAAATACAAAAAAAATTAGCTGAGCATGATGGCTCACACCTGTAGCCCCAGCTATTTGGATGGCTAAGTCTGGAGAATCACTTG
AGTCCAGGAAGTGGAGGTTGCAGTGAGCCGAGATCCGGCCACTGCATTCCAACTCCAGCCTGGGTGACAGAGTGAGATCCTGTCTCAAAAAAAAAAAAAA
AAAAAAAAAAAAAGAATGTGGAAAAGGTTCCAAAGTGTTTCATAAAAGGGAAATACGCTTTTTAAGTATTATCCCATGACCCAGAAATAAAACTTTAGAA
TGCTAAATAATTGTGACATGATGATACTCTTTGCTTCCATAGGATGAGAATTTGGCTTAGTATTGGTATTTGTAATCCCTGAAGAATTTCTGTGTCTTGA
AAGAGTCTAGAGATGTAATGAAACTGTCACAATAAAAGTTTATTGACATTTGGATTTCAGTTTTAGGAATATATGATGGGTTGTAAATAGCCTTATGAAG
AATGGACCTTGTATACATTGCAAGGATATGTAAACATATTAGTACTGGAGACATACAAATTGGAGTGTGCCAATTTCTTATCATGGCCACCTGACCAAAC
CTATAAAAGGCATTCATTCAGATAATAACACTCGCCCTGGGTGTAAGCACTGCATTGTTAGAAGAGATAGCAGAGCACAAAGGATATGGAAGACAAGCTT
ATGTTCCTGTGGATCTATTTTTTAATAATTTCAGCTTTTATATTAGATTCAAGGGGAACATGTGCAGGTTTGTTACATAGGCATATTGCTGTGATGTTGA
GGTTTGGGGTGTGAATGATCCCATCACTGTGGTAGTGAGCATAGTACCCAACAACTAGTTTATTAGCCATTGTCCCCCTCCCTCTCTCTCCCTTCTAGTA
GACACCGGTGTCTATTGTTCCCTTATTTATTTATTTTGGAGGGTCTCACTCTGTTGCCCATGCTGGAGGGGAGTGGTGTGACCATAGCTCACTGCAACCT
GGAACTTCTAGGCTCAAGCAATCCTCCCGTCTCAGCTTCCAGAGTAGCTGGGACTATAGGTGTGTGCCACCACACCTGGCTAATTATTTATTTTTGTAGA
GACAGGGTCTCACTTTATTGCCTAGGCTGTTGCCACACTCCTTACCTCAAGCAATCTTTCCACCTTGGTTTTCCAAAGTGCTAGAATTACAGGCGTGAGC
CATCATGACCAGCCTGTTTCCATCTCTATGTCCACGTGTACCCATCCTGTGAGTTTTATAAGCTTGCAGCCAGACACATTGTTACCTGCATTCCCCTGTC
TGAGGGGTCTTTCTTTCAGCCATCTCTGGGAGTAACTGGACAGAGAAGAAATGCCTCAGGTGCTGCACTGCTCCTTGGACAGACTGATTAGATACAAAGC
AGAAATAGAAACAGGGAAGAGGGGGCATGGTTACCTCAGCTAACAAGGAGCAGGGAGACGTAGGAAATTGTTTATCCATTTCCCCAGAGCTCTACTACTA
TTATTACTCCACTTTTCTGCTGCTTTGTTGATACCAGGGCAGAAAGAAAAACCTTGGAAAAAGTTACTGGTGTGGGTCATGCTTCCTACTCCCATTCCTC
TTGATAGGTCGGCAAACTTACCCACTCATCCACTCAACAAGAATGCTTGCCCTGTGCTCTGTGCTGTGGATCTAGGGGCAAATATAAACAGAGGTTCTGC
CTTCCTAGAGCTCACAGGATTCATTCCTTCAGCTCTGGCACTCCTGTGGCTCCCTCTCTTTGGGGTCCAGGGACCTTGATATGGCAAGACAAAATTCTTT
CTTTTTTTTCCTTTTTTGAGACGGAGTCTCACTCTGTCGCTCAGGCTGGAGTGCAGTGATGCGATCTCGGCTCACTGCAACTTCTGCCTCTCAGGTTCAA
GCGATTTTCCTGCCTCAGCCTCATGAGTAGCTGAGATTACAGGCGTGTGCCACTACGCCAGGCTAATTTTTCTGTTTTTAGTAGAGACGGGGTTTCACCA
CGTTGGCCAGGCTGGTCTCGAACTCCTGGGCTCAAGCGACCCACCTGCCTCGGCCTCTCAAAGTGCTGGGATTATAGACGTGCATCACGGCACCCAGCCA
AGAAACAGTTCTTTTTTTCCCATGAGTTTGTTCATTGTTGTACACTTCCTCTAATATATTGAGTTCTTTAGCAGTCTAAAATAATTTCATTTAACAAATA
CAATTAATATTGGCAGCTTTTCATCATTGGCTTTTATTTAATTTATATCTCTAAATTACTTAAAATTAAATAATGAAGAATAAACTCATATTTGGAATGG
AGAGAAGTTCCTTGTGTTATTGGGTGGTGTTGTAAATATCAGTATTTGTATTCTATTTTTCAGCATCTAGTCCCCATGTGATCAAGAAGCAACTCCGTAA
AATAAAAGCATTCAACATTGTCTTCAGTTTCTATCTCTCCTTAGTTTGTGTTTTTCTTCCTAGATCCCTATTGTGAACTGTGCTAGGTGGAGCTGCTTGG
TTTATAATGTGCAGATGAAGTGTACGTTTGAATAAGTCATAGGTGGTGTCCTTATTCAACTTGGATGAAAAGGAAAGGAGAGAAAAATTCACAACTCAAG
AGGATAAGCAG


SNP Information

Context             (SEQ ID NO:54844):
GCGGCGAGCGGGACTGGCCATTGGAGTGCTCCGCTGCGGAGGGAGGGGACCCCGACTCGAGTAAGTTTGCGAGAGCACTACGCAGTCAGTCGGGGGCAGC
R
GCAAGATGCGAAGCGAGCCGTACAGATCCCGGGCTCTCCGAACGCAACTTCGCCCTGCTTGAGCGAGGTAGGGGGCGGCGAATGGCGGGGGTCGCGGGCG
Celera SNP ID:            hCV27478253
SNP Position Genomic:     6227
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,4)   caucasian(A,32|G,2)   total(A,62|G,6)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,401|A,1054)   total(G,401|A,1054) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:54845):
AACGAATTTTTAAGTCGAACGAGGCAAACAAAAACTTAGAAAACATGCATCTCCGGGCGCTGAAAATTTGCATCTCTGGGCTACTAAGGAGCCCATCTCG
R
TCAGATTGTTCTTGGGCACTTGTGATTTATGGAGTTCAGAAAAAAGGTTAATTCCCAACTGTGGAACCTACGGGTGTAGGGGCAGTGAAAATTGCAGTTG
Celera SNP ID:            hCV1271371
SNP Position Genomic:     6464
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;JBIC-allele(G,343|A,934)   total(G,343|A,934)
SNP Type:                 INTRON


Context             (SEQ ID NO:54846):
TCGCCCTCTAGCGTTCGTCCGGAGTAGCGCCACCCCGGCTTCCTGGGGACACAGGGTTGGCACCATGGGGCCCACCAGCGTCCCGCTGGTCAAGGCCCAC
S
GCAGCTCGGTCTCTGACTACGTCAACTATGATATCATCGTCCGGCATTACAACTACACGGGAAAGCTGAATATCAGCGCGGACAAGGAGAACAGCATTAA
Celera SNP ID:            hCV25635775
SNP Position Genomic:     8216
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,35|G,1)   total(C,69|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54847):
TCGCCTCGCCCTCTAGCGTTCGTCCGGAGTAGCGCCACCCCGGCTTCCTGGGGACACAGGGTTGGCACCATGGGGCCCACCAGCGTCCCGCTGGTCAAGG
M
CCACCGCAGCTCGGTCTCTGACTACGTCAACTATGATATCATCGTCCGGCATTACAACTACACGGGAAAGCTGAATATCAGCGCGGACAAGGAGAACAGC
Celera SNP ID:            hCV25635767
SNP Position Genomic:     8211
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,31)   caucasian(C,36)   total(A,1|C,67)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54848):
GCGCTCTTTACTTGGTCGCTGGCCACCCCAGTGTTTGGAAAAAAATCTCTGGGCTTCGACTGCTGCCAGGGAGGAGCTGCTGCAAGCCAGAGGGAGGAAG
R
GGGAGAATACGAACAGCCTGGTGGTGTCGGGTGTTGGTGGGTAGAGTTAGTTCCTGTGAACAATGCACTGGGAAGGGTGGAGATCAGGTCCCGGCCTGGA
Celera SNP ID:            hCV27480736
SNP Position Genomic:     9455
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,24|G,1469)   total(G,1469|A,24) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:54849):
CTCTCCAGCCAAGGAAAAGCTACACAAAAAGCCTGGATCACTCATCGAACCACCCCTGAAGCCAGTGAAGGCTCTCTCGCCTCGCCCTCTAGCGTTCGTC
Y
GGAGTAGCGCCACCCCGGCTTCCTGGGGACACAGGGTTGGCACCATGGGGCCCACCAGCGTCCCGCTGGTCAAGGCCCACCGCAGCTCGGTCTCTGACTA
Celera SNP ID:            hCV25635776
SNP Position Genomic:     8135
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,25)   caucasian(C,1|T,23)   total(C,2|T,48)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,223|T,1052)   total(C,223|T,1052) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:54850):
ATCACTCATCGAACCACCCCTGAAGCCAGTGAAGGCTCTCTCGCCTCGCCCTCTAGCGTTCGTCCGGAGTAGCGCCACCCCGGCTTCCTGGGGACACAGG
K
TTGGCACCATGGGGCCCACCAGCGTCCCGCTGGTCAAGGCCCACCGCAGCTCGGTCTCTGACTACGTCAACTATGATATCATCGTCCGGCATTACAACTA
Celera SNP ID:            hCV25635777
SNP Position Genomic:     8171
SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,6)   caucasian(G,23|T,11)   total(G,47|T,17)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:54851):
AATGGATTAACTTTTGCAAACCAAGGGAGATTTCTTAGCAAATGAGTCTAACAAATATGACATCTGTCTTTGGCACTTTTGTTGATGTTTATTTCAGAAT
S
TTGTGTGATTCATTTCAAGCAACAACATGGTTGTATTTTGTTGTGTTAAAAGTACTTTTCTTGATTTTTGAATGTATTTGTTTCAGCAGAAGTCATTTTA
Celera SNP ID:            hCV8395708
SNP Position Genomic:     10278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:54852):
AACAGACAAGCAAAACAAAGTGAAAACCGAATGGATTAACTTTTGCAAACCAAGGGAGATTTCTTAGCAAATGAGTCTAACAAATATGACATCTGTCTTT
S
GCACTTTTGTTGATGTTTATTTCAGAATGTTGTGTGATTCATTTCAAGCAACAACATGGTTGTATTTTGTTGTGTTAAAAGTACTTTTCTTGATTTTTGA
Celera SNP ID:            hCV8395709
SNP Position Genomic:     10249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:54853):
TACAGATCCCGGGCTCTCCGAACGCAACTTCGCCCTGCTTGAGCGAGGTAGGGGGCGGCGAATGGCGGGGGTCGCGGGCGCGGGGAGCCCGGTTGTGGTA
R
GGCTTAGGTGTCAGAAACGAATTTTTAAGTCGAACGAGGCAAACAAAAACTTAGAAAACATGCATCTCCGGGCGCTGAAAATTTGCATCTCTGGGCTACT
Celera SNP ID:            hCV27848190
SNP Position Genomic:     6348
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,34)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:54854):
CGCGGCGCTGGGTGACTTCGCGTAGCAGGCAGGGAACTGGCCGCGGCGAGCGGGACTGGCCATTGGAGTGCTCCGCTGCGGAGGGAGGGGACCCCGACTC
S
AGTAAGTTTGCGAGAGCACTACGCAGTCAGTCGGGGGCAGCAGCAAGATGCGAAGCGAGCCGTACAGATCCCGGGCTCTCCGAACGCAACTTCGCCCTGC
Celera SNP ID:            hCV27848191
SNP Position Genomic:     6185
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,16)   caucasian(C,2|G,22)   total(C,4|G,38)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,21)   caucasian(C,4|G,24)   total(C,9|G,45)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:54855):
AAGGCGTTAAATTTTGGAAATCCTATAGACAAAGAATATGGTGGGTGGTGTGGAGCGTGGGTAATGGCTTAAATTAGTACTGCCCAGGAGCAGGGTATAA
M
ATTAGTTGGGGGAAAATGCGGAGCTTCTTGGCTTGAGCAGCCTCTGCTGTTCGCGGAGTTGCTGGGATTGTTCTCATCTCTATTACCTCATTTTATTGCA
Celera SNP ID:            hCV8398676
SNP Position Genomic:     6683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54856):
TGCATTACCTTGAAATATTTAAGCAACTTAGAAGTAGACTTCTGCTGACCAGTGCCGTCTTAGAAAGTTTCTTTGTAACTTTCTAGTCCTAGGAGAGGAG
Y
CAACGTGTTGGGGGACTGCAGTAAATAAAACTGCCCACGCAAATTTAGCAATGCACCAGGGAGCAGTTTAATGTGAGTTTCTGAAGAGTAGTTTTGCAAT
Celera SNP ID:            hCV8398677
SNP Position Genomic:     6888
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54857):
TTGAGTGAATGTGGCCATAGAGTTTCTCCCTCTCTTTTTCTTCCCCCTCTTCCTTTTTTGAAAAAAGAAAAAAAAGGAAGAAAAAAGATAATTTGATTTT
W
AAAAAAAATCTCTCTCCCTGAGCTCTCCCCAAGTTTCTTTAAAACAAATCAACAACAACACAATTGGAGCAGTGCCTTAGCTAGAATGAATTATGCCAGT
Celera SNP ID:            hCV26583753
SNP Position Genomic:     7872
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Gene Number:                 277
Celera Gene:                 hCG1640708 - 181000116699987
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRE9APK7(3920460..3932766)
Chromosome:                  16
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12437):
GATGTGAGATTACATGGCCCTGACTGTCTTGCCTGGTGCTGCAGGCCACCTTCACAGCCTTGCCATACCTTTTCCCATTTATCCATGGATTGGTATGAGC
CCTAATGGTGCACCCTTCCGACAATCCTTCATCCTTCCCAGACGTTTCATCAGCCAAGTGAAATTTGCAATTGTTTCAGTGATTGAAATTATGCTTGGAG
TGCAGGTGTCATGGATGAAACAGCAATGCCTTGCGGTGACAAATTCAGTGTAGAAATAATTTTAGCAAGCCCAGTGATTGGAAAACAATGACTCAACTTT
AAGCTATATTGATTTTGTATTTCTGGGCTCAGCTTTTGACTCAGTCTCATTCCCCAGAAATAATCCCTGTTAACATTTCGGTTTGTGTTATGGAAGTGTT
TTCTCTTCTATGAATTAGCTAATGCCCATACCATACATATGCCTGCATTTGTACACTCTTAAGCCAAATAACATCGTACTGTGTATTATTCTCTAGTAGC
CTGCTTTTTATTGAACTTAATGATAAATGGCAAACATTTGACCATGTCACTTAAGTTTCTTACCGTGATCTCCAACAGCTAGGCAATATTCTGTCATATG
GGTTTACCATACTTTTCTCAATCCACAATCTCATCAGAGTCCCAATAGTTGCCTGATATGTCTCCATCAGTTGTGAGGTATGTTTCAAATGATTTATTAC
TAGAAATTCTTAGCGAGCTGAAGTTTGTAAATTTTCTCAAGCTACTTTATTGATATATAACACAGATACATAAACTTTGCCCATTCAAAATGTACAATTC
AGTGCTTTCAGTATATTCAGAGAGTTTTGCAGCTGTCACCACAGTCAAGTTTAGAATATTTTCATTTTCCCAAAAAGAAACCCTTGACTGGCATCCTTTT
CCCCACTTCCTTTTCTCTCCACTCCCAACCTCTCTCCCAGCTCCAGGTAACCACTCATCTACTTTCTGTCTCTATATAGATTTGCCTATTCTAGACTTTT
CATATAAATAAATCAGATACTGTGTGGCCCTTTGTGTCTCGATCCTTACACTTAGCATCATGTTTTCAAGGGTCATTCATGTTGTAGCATGTATCAGTAC
TTCTTTTTTTAGGGCTGAGTAATATTCCATTTACGGATATGCCACATTTCATCTATGCATTCAGTTCACGGACATGTGGGTTGTTTCCACATTTTGGCTA
TTGTGCATAATGCTTCCAGGTACACTTGTCTACACATTTTTGTGTGGATATAGGTTTTCCTTTTTTGGGGTATGCTCCTAAGAGTGCAATTTCTGGATCA
CGGGGAACTCCTTGTTTAACCTTTTGAGGAGCCACCAGATTGTTCTCCACAGCAGCCACACCCATCTACATTCTAACCAGCAGTGTAGGAAGGTTCCGAT
TTCTCCATATCTTCACCAGCACTCGCTGTCATTTTTCTTTTTAGTCTTGTCATTTTATTGGGTATGAAGCGGTATTGCATTGTGATTTTGATTTGGATTT
TCTTGATGGCTTAGGATATTGAACATCTCTTCATATGATTATTGGATGGATGATTTTTTTCAGCGGTTATCAGGTCACACCTGTAATCATGCCCACCTCA
TTTTCTTACAGTGCAGTGTGTGCTTTTAGGCACATACCAAGAGCTTACAGAGATCCTTCTGGTTCAGAGGAAAGATTCACATCCCCAACAAACACTGCTC
CCCGATTACAATATAGAGAGGCTAAATTATAGTCCATATCACTTTTCCTTTAAATCCCTTTACTTTTTTGTGCTACAAGAGTTTCAGAATAATAATTCTG
CAGAAAAAAGTACTGATTGTCCAGCAGTTGTGTCAGGTAGAAAACTGGGATGCCCGACTGCATTGGTTTAGCCAGAACTGTGGCCATGAAACCTTGCCTG
GCCCCCAGGGATGGGGTGAGGGGGGATATCATATATGCTTTAGGTGGGGCAGAGGGGTGGTCTGCCCCTGTGCAGGCAGGAATGTTCAGGAAGCAGGCTG
CCTCTGTTTCTACTCTAAATATTTAACATTCACGGATGGCATGGATCCTGACTAAGCGGAGCAGATGCTGGCTCTATATTGCACATAGCTCCTGAATATC
AGCCCTGCTTGGCTATGCATGTGTTTTTTGTTAGTTTTTGAGACAGAGTCTCGGTCTCTTGCCCAGGCTGGAATGCAGTGGCACGATGTTGGCTCACTGC
AAACCCTGCCTCCCAGGTTCAAGCGATTCTCCTCTCCCAGCCTCCCGAGTCTCTGGGATTACAGACGTGCATCACCAGGCCCAGCTAATTTTTATATTTT
TACTCGAGACGTAGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCGTGACCTTAGGTGATATGCGCCCCTCAGCCTCCCAAAGTGCTGGGATTATAGG
CATGAGCCACCACGCCCAGCAGTATGTTTGTTTTTCTTCAAACCTAGATCAAGAGTCAAACACTCAAATGTTTGGTGGGAGCAGTTGATGATCCAGAGCT
TTGGAGTCAGCGAGACAGTAGAGAGTGGTGGAGATGGTGGCGCACAAGAGGGTCAGTGCCCCATCTCAAGGAACAGCTGCACCTCGGCCTACGCGATTGT
GAAAATGTGAGCATATGCAGGCCAGACCTTGGCTTCTCTGTCTTCATTTTTCACAGGAGCCAGAAGTTTGGATGTGCAATGTGAAATCTCACAAATTAAA
CATGTTACATAACTGTATTTTGTTTCCTATCTCTGCTGTAATAAATTTTCTCAATGTTAGTGACTTAGAACCACACAAAAGTTACACTTTACAGTTTTGG
AGGTCAGTGGTCCAAAATAGGTCTCAGTGGGCTAAAATCGATGTGTCAGCAGGACACCATTTCTTTCTGTAGGTTCTAGAAGAGAACCCACTTCCTTGCT
GTTTCCAGCTTCCAGGGACTGCCCAAATCCTTTGGCTCATGGCCCCTTCCTCTATCTTCAAAGCCAGGGATGGCTGCTCAAGTCCTTCTCAAACTGCCCT
GTTCCTGGTTCTCTCTCTTCTGCTTCTGCTTTTAAGGAACCTTGTAACTTCAGGGAGTCTACCCTGATAATCTGCGATAATCTGCCTATTTGAAGGTCAG
CCAATTAGCAATCTTAATGCCATCTACAACCTTAATTACCATTTGCTATGTAACATATTTATAGATATCAGGGATTAGTTCATGAACATCTTGGGGTAGA
GGGCATTCCACATACAGCAGTACCTATAATGTATATGCTTCTTAAAGAATGCATGAGTCTTATTTATTTTATGTCCTTGGAGTGTATAGCAGAGTTAGAT
AGATCTTTCTGGATTGGCGGTTGATTGAATATTGGCTGTACAAAGAAACTGGTTAGGAGTATAGAGAAAAGATCAATCATAGCACTAGCTTATAGTTTAT
TTTATTCTTTAATGATTTTTTAAAAATATTTCTCTCACTTACTTGAAAAGCAGTCTTAGAAATTAACTGGAATGGGTAATTTATTTGTCTTTCTTCTTTT
GTAAAATAATGGCAGTTTGTAACTCAGATTTTTGTATGAGGAATAAATAAAATACTGTCTGTTTTCCTTTGATCTTTCTATTTGTGGTCCAGCCAGCCAG
CTAACTATGCATTCCTTTTTCTGCCTTTTCATCATAACACCTATCTTAGCAACTCTTCATTGCTGCTTTGCAAAGAGGATTTGAGATTGTTTATGTAGGG
GCCCGTGTATAATACCTCAAGAGAAAAAGACACAGATGAGGCTATTGGGATTAAGGGAAAATCAAGTAAATCGAGAGGTAAAGCACTGTGCAGAAATATT
GGCCAGAAGCTATGAACAGTTGCCACAGCTGGGCTGAAGAGTTACCTGTGAGCCTTCCAGGGGTGTAAGCCAAGAGAAAGACAGTTCACCAAATCTATCG
ATTAATAGAAATCATCCAGCAGCAGTGCCACTGTAAGATGTTCAATACGTAGCACCTTTCTGTCCCTTCTCCTCTAGCCAGTTGGGACAGGATTAGCAAG
CCAAAGACTTTCTGAAATAATCCTTAGCTATATTCTTGGTATTCACCAAGGAATTTACCAATATGCAAAGACTTGGGGATAATTAGTATTATCTTTGCCA
TTACCTGCAGTAATATTATGAAGATTAGAGATGTAACTCTGTCCTGAAGAACTGCAGTCTGTGGCTCACCTTGGAGAAGAACTTAAGAACTTATTGAAGT
GAGCAGGCTCACCTGCCTTTGCTCAGAGCCACATCACCTGCAGGCAGGATCTGCAAGGTCAGCAGTTAGCGTCAAGTTGCACAGCCTGGGCTTGGGTGGC
GTTCGCTTTACCCTTGCCCTTGATGTGGTGCCGAGTTGTCAGGATTCTCGTAAAATTCCTGGGTGATGGCTTCTTCTGTTCTCTTTATTTCCTTAACTGA
ACATCTGTCTAATTGTTCACCTCCATCGCTTTAGTGCTTTCCTCATGCTTTCTCTCTTTCCAGACAATAAACTTTATTTTCTTCATAAGAATTCAGTCTA
CGCAAGGGTATTAGGCAGCTTGTTTGCACCTTTTAATTGCTGGATGTTTTCCAGAAAGGCTGTTTGCAGTAGTTCCAGTGGGTTCATCTGTGAATCAGGA
AAGACAATGCAGCTTTGTGTTTTGGTTTTTATCAGTTACCTTCTGTTTGTAAACATCTGTTTGGAAACGTTTGCTGGTGCCCACCCCAGCACCCCTCCAC
CCCTGCCAGAAATAAAGGGATTAATCTCTTTTTGCTTGGCATAGGGAGAAGACAGTGTCTGCTGATGTGCTTAACTTTTTTTTTTTTTTTTTTTTTGGTC
AGGTGCGTAGGTATGTGACTGAAACCCATAGACTTTGCACATATTGTCAAATGACTTTCCAGAGGGACTCAGGCACTTTATTTAATTAATGCCAATGAAG
CCCGTTAATCCGCTCATTACTGCAGTTTAATTTTGATGCTGGTTTTTGATGATGTATTGAAAACTTGTATAAACTGGCAATTACAACTGGAAAACATTTC
TAGTTTAGAAGAGACCCTTATTTTTCATATGCTTAGGAATATCCAGCAAGCCACTTTTAAAGGCTTTTTATCACATTTTATTCTTAAGCTTTCTGAATTC
CTTATTATATTTTGCCTGATAAATAGTTGGATTTTGTTTTTTGGTTCAATGTAAGAATATTCTTAAACTAGGTAAACTGTTTTAATTGTTTGTCATTATG
TTCTCTCATTCTGTTAAATTTTGTTTTCTATTTTTCATGTTTTTGGGTTTTTCTAGATGGCCTGTCTTTAACACTTCTTGATATTTTTGATTAAATTTTC
ATATATCATCAAAAATAGAGATGACAGCCAGGGGTGGTGGTGCATGCCTATAATCCCAACACTTTTGGAGGCCAAGGTGAGGAGACCACCTGAGGTCAGG
AATTCAAGACTACTGGGCAACATGGTGAAGCTCTGTCTATCCTAAAAATGCAAAAATTAGCCGGGAGTGGTGGTGCATGTCTGTAGTCACAGCTACTTGG
GAGGCTGAGGCAGGCGAACTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGGAGCCACTGCACTCCAGCCTGGGTCACAGAGGGAGACTCT
GTCTCAAAAGAAAAGAAAAGTAGAGAGGATAGTATAATGAGGTTCCTGTCTGCCAGTCACTCTATAGTAACTATTAGGAAACCCCTTTTTTTCTCTGAAG
TCATTGCTCCTGTGTGTGTGTGTCTGTATATAAAAAAAAGTATGTATACATATACGTATATGTATGTGTATAGATAAAAATGCATGTATGGTGCTGGGCG
CAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGAATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCGT
GTCTCTACTAAAAGTACAAAAAATTAGCCTGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGACCGAAGAATTACTTGATGAAACA
TGGCAGACGACATAGACCAGCAGCAAACTACCAACACTGTGGAGGACCYCCTGGATCTTAGGCTCAGCCCAGAGGAGCGAATTTGTGTGAAAATGAGAAA
CGACCGAGAGCTTCGAGGCAGATTACATACTTATGATCAACATTTAAATATGATCTTGGGAGACGTGGAAGAAACTGTGACTACTATAGAAATTGATGAG
GAAACATATGAAGAGACATATGAATCAACAAAACAGAATATTCCAGTGTTCTTTCTCCGGGGAGATGGCATTTTCCTGGTTSCCCCTCCACTGAGAGTTG
GCTGAAACAAAGAATTTGTCCTGTATGGAAAACAGGAGACTTTGTACAGTGGCCTCTCTAAATGTGCAAGATATTCAAAAGAGAAACCCGCATACATTTG
GATATTAAGAAATAATTCTGGGGATTCTTCCACTCCTGAAATGAGTTGATTTGCAGATAATTCACAACTTCTTAAGCTAAATGGTATTTTCGTTTTTCTC
AAGCTCTTCCAATAAATATGACCACCAAGATTTTTTTTTCCTAAAAAAAAAAAAAAAAAAAAAAGAAGAATCGCTTGAACCCGGGAGGTGGAGCAGTGAG
CCAAGGTCATGCCACTGCACTCCAGCTTGGGCAACAGAGCGAGACTCTGTCTCAAAATAAATAAATAAAAATGCATATATGTATATTTGTGTGAATCATA
TACACATATATAAAATATATGTATCATATACATATATATCACATTTCTTTTTCTAGTGTGTGTGTACCTTGATTTATGTCTCACATATTCAAAATAACTC
AACTTGTTTAAAATAAGAGCACAACCTATTTAAGTAGTAAAGATTCAAAGCCTTCTTCTAAAATGCTTAACTTTCCTGTGGATTTGTGGACCCGTGGGAA
AATCTCAGTCCCCAGGCAGGAAGGAAGGAGATATGACACATCTCTAGTTTGTTGTAAGTCGCCTACCCTAGACCTCATCTCCAGTGCTCTGAATGTGGAG
AGGTAGGTGCAGGGCAGTGGGATAGAGAGGTGCACTTTGAAAGACTATCACATGGAAACAAAAGTTCCGGCTGGGCACGGTGGCTCACGCCTGTAATCCA
AGCACTTTGGGAGGCCAAGGCGAGTGGATCACGAGGTCAGCAGTTGAAGACCAGCCTGGCCAGCATGGTGAAACCCCGTCTCTACTAAAAATAGAAAAAA
TTAGCCGGGCATAGTGGCATGAGCCTGTAATCCCAGCGACTCGGGAGGCTGAAGCAGGAGAATTTCTGGAACCTGGGAGGTGGAGGTTGAAGTGAGCTGA
GATGGCACCATTGCACTCCAGCCTGGCAGACAGAGTGAGACTCCATCTCAAAAAACAAACAAAAAAAAGTTCCAATACACAATATGTTATATGAGATCTT
CACCCAATCAAGGATTAAATGGCCAATTCCTAAATGATGCCTACCTTTTTATGGCCATGTATACCTTTGCCTCAGTACTACTGGCATTTGCTGACATCCA
TTTATCAAGATACAGGGATGGATTTCTAGAAGGCCCAGGCAGGGGTGCTGGCCAGGAGACACCAGGCATAGACCTTCCTTTCTCAGAGCCTTCGTGGCCC
CTAGTTTGAATCTTTGAGTCACTGCAGTAAAGTTCCTGATGTTTGACAGTACTCCTTATGAAGGGAGTCATATGAGTTGCTAGCTGGGTTCTCTGGATGG
TGGTGTCATGCCAACATGGGAGCCACTAGCACAAAGAACATGCTAGGTTCTGTTGAGACCTGACTTTGGGAATAGCATAGGTACTTATCTTTCTCAGCAC
CACACAAACACACTCCAGAATGCAAAGGAACCTGCACTGTGCCATCTTGCTTCTCCCTGCATAGCCACTTCTCTTTCCAGTGGTGTTTGTATTTTGGTTC
ATTCAATCAATGAATGATTGATTGAATCAACCACTTGGTCCCTTCAATCTGTAACCTTCCTGCAACACTGTCTTTGTGATGTTATCATAACCTTGATTTT
TGAGGGATAGAATTGGGCATAATCAGAGAAAACGTGGTCTGGGACACATTTGTGGGCTATTCTATGCTAAACATTTCCATATCATTAATGTTCAACACAG
CTTTGTGGTGTTGGAGATAGGATTATCATTGTTAGGATGGTTATTATCAATACTAGCTGTGATTATTGATCACTTCCACATGCCAGGCACAGTGCTGGGT
GCTACATATTTATTACCTAATTTATAGCTTGCTGCACTCTTGCTGGGTATGTGTAATTATTCCCATTTCACCCGATCCCTGGGAGTTTGGTGAATTAATC
ACCCAGCATCCAAATAGCTAACCGGTAGCAGAGCTGGGATTCAAACTCAGTTAGGCTGACTTCTGTGCCTGTTTTCTTGCCTAAGCGGTGGACGCATTGA
GTAGGAGAAGGCCAGTTATTCCTCTTTGTCACTGATACAACTGGGGACCTGTTGCCGGAGATGTGGAGCTGTGCATTAGGGCTGGGTAGAACACACATAA
TGAACCATATGCACGAGAACTTTTTCATCTTTCTGCATACACTTGGAACTAGTTCTTTGTTATTGTAAAAGCATCATGCACCAGGTAAAATGTTTAATAA
CACAGAGAAATCTAATTGTCAAGTATCTTCTCAACACACATTAATCAACAATTCTCATATCGAAGGATAACCTCTTGTATTTACAAAAAAAAGAAGAAAA
AGTGCTGTCATCAGTAAATTCATTCATGTATGTTATACACTTACATACAAAATGTATCTATTTGATTAAATTAGAACTCTGCTAATGAATTACTTTCCTT
GATTGCACAGTAATAAAGTCAATGTTGTAAATATAATAATTATAGCCAAGTGCAGTGGCTTACACCTGTAATCCCGGCACTTTGGGAGGCTGAGGTGGGC
AGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTATCTGGGTGTGGTGGCACATGC
CTGTAATCCCAGCTACTCAGGAAGCTGAGGACTGAGAATCGCTTGAACCTGGGAAGTGGAGTATGCAGTGAGCCGAGATAGTTCTACTGCACTCCAGCCT
GAGCAACAGAGCAAGACTCCGTGTCAAAAAATAAATAATATATGTGTGTGTGTGTGTATGTACATGAATTATATACAAATGAGGGAAAATATACAAATGA
GTTGAATATATACAAATGAGGGAAAAATTGTTCCTTGTGTCAGGAACAATTACTGTGAATTTTGTGTAGCTTTTCCTGACTTTTTAAAATTCAAATATAT
TTCATAAAGTTGAAATCACACTGTGGTCTTTTTTTTTTTTTTTTTTTTTTTAACCAAACATATAGTGGCCATGTTTCTATGTCAATACATACTGTTTGGC
AGTACAGTTGTACTGACTTGACATTATAGCTTCATAACTTAGTAAATTAATCCCTTATTGCTGGGCACAGATTCTGTTTTCCATTTTTTCAGTCATGAGC
AACGTTGCTGGTTTACCTGGGGCTAAATAAGAAGTTTAAATGCAAATAGATAATTCTTGAGAAAGCTTCTTCCCTGTATATACTCTTTCTGCAGCAGTGT
CTGAGTGTCTGTACCTTCCTATACCTTCACCATATCATGTATTTGTCATTTTATAGTGAGTTGTATTACTTGCTAGGTGAGCTGGTATCTCCTTTGATAA
CACAAAGAAGGCCTGGGTTTGCTTGGCAATTTGTTCCAATATTCTTTTCAGTTTTAAATAAGTTTTGAACAAAAAGTTTTAGCATTTTACATAAAAACCT
CTAAAGCTCTCAGGCTAATTAGTAATGTAGCATATACAAATTAAGTTTTTTTCTGCTGTGCTTAATTCTTATTAACACACTAATCATGAGAGCCCCCAAA
TTGCTGTAAGGAGCACATTTAGAAAACATATAAAGGATCGATAGTTGGTACTTAAGAAATCGTTGAAACACCTTTTCTTTTTTAATCTATCTTAGAGCTG
AAAGATAAAAAGACTTAAAATGAGTTAGAATATGAGTTTTTCAGCATCTTATAGCTTATGAGTTAAAGCAAGATTTAAAAAATACATTTAACATACTAAA
TATTTCAAAAGCTACAGAGATACCGTAACATTTAAAAAAATAAATTTTCATTGTGGAAATCAACTGCCACAAAAACACAACCTTTTACGAGACAACGTGA
TGTGCATGAGAAGCCCTGATGTTGAGAAGCTCATAATTCGGTGTGAGAAACACACAAGGCATGATGCCATTCCCATCTGGGATGAACAGGGAAGACTTCC
TGGGAGAGGTGACTATGGACTTAATTTTGCTTTGACACAGCAAAAACATGAGGAATGAATTTTGTGACTTGGAAGATTGTTAGTTTTCTGTGGAGGGAAC
AACACTCATCTTGCAAATTTGCCTTCACTATTCAATCATTAGAAAATAATTTTAAATGAGCTTAGCAGTTCTCAGAATTTTGGATTTCAGGAAACAAACT
TTTTAAAAACAAAACAAAAAGGAGGATACCAATTTAAGCTTGTCAAAAAGATTTTCCCCCAAAAGAAAAACACATTAAAAACAACGACAAAAATCAACAA
AAACTAACACTGTTCCCCCATCAACAATCAATATTACTTTCTAAAAGCAAGGGCGTTTTGACACCAGATATTGTGAGGACATCCACCTGCTCTAAGGGAC
AGCCATTTCACTGGTGTTCTGTCAATTTTTATTTTGAACTAATTTTAGACTCACATAGAAGTTGGAGAAGTAGGCTGGGCACCAGTGGCTCATGCCTGTA
ATCCCAGCACTTTGGGAGGCCGAAGCGGGCTGATCCCTTGAGGCCAGGAGTTCAAGACCAGCCTGGTCAAATAGTGAAATCCTGTCTCTACTAAAAATAC
AAAAATTAGCCTGGCATGGCAGCGCACACCTGTAATCCCAGATACTTGGGAGGCTGAGACATGAGAATCACTTGAAGCTGGGAGCTGGAGGCTGCAGTGA
GCCAAGCGGAGTGCCACTGCACTCCAGTCTGGGCGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGTTGCAGAAATAGCAATATTT
AACTATACTTGTTACTCAAATTTCACCACTAAAGCAGTGTCATCTTTTTATTCCAGGATCTAGTCCAGGATGCCACATTATATTTAATTGTTGTATCTCC
TTGGTGCCTTTAGTACTTTTTTTTTTGAGACACGGTCTCACTCTGTCACCCAGGCTGGAGCACAGTGGTACAATCATGGGTTACTGCAACCTCCACCTCC
TAGGCTCAAGCGATCCTCCCACCTCAGTCTCCTGAGTACCTGGGACTATACGCATGCACCACCATGCCTGGCTAATTTTTGCATTTGTTTTATCAAGGCA
GGGTTTCATCATGTTGCACAGGCTGGTTTTGAGCTCCTGGGCTCAAGAAATCTGCTTACCTCGGCTTCCCAAAGTGCTGGGATTACAGACATGAGCCACT
GCACCTGGCTTGGAGCATTCAGTCTTTGATAGTTGCTTACTTATTTCCTTCTTTCTGATCTTGAGACCTTGATTTGTCCAGTATTTTCTCATCATTAGCT
GAGTGTAAGCATTTTTTGGCAAGAACATTATAAAAATGATGTGGTATCTTTCTTAGTATATTATCTCAGGTAGAACATAATGTTGATCTGTCTCATCCCT
GGTAATGTTAACCTTGATCACTTGGTTAAGGTGATGTCTGCTGAGTTTTTCCAATGTAATGTTATTAATTTTTCCTTTGAAATTCATAATTATTTGAAGG
GAGATGTTTTGAGATGATGCTGGCAGCCCCGTTTTCCTTAAACTTTCACATGCTGACTTTCTATTGTTGGATCTTGCCTGCAGCAGTGTTTACCATGATG
CTTGGCTAGTGGTGACTATGTATTTCCCTTACTCTTTTTATAGTCAGTAATTGGAATTCTTCTGAAGAAAGAGCTATCCCTTCTCCCCCATTTCTTTCTT
TTCTTTTCTTTTTGTTGAGACAAAGTTTCACTCTTGTCGCCCAGGCTGGAGTGTAATGGTGCGATATCGGCTCCCTGCAACCTCTGCCTCCCGTGTTCAG
GCGATTCTCCCGTCTCAGCCTCCCAAGGAGCTGGGATTACAGGTCCATGCCACCATGCCCAGCTAATTTTTATATTTTTAGTAGAGATGGGGTTTCACCA
CTTTGACCAGGCTGGTCTCAAACTCCTCTTCTCTGGTGATCCTCCCACCTCGGACTCCCAAAAGTGCTGGGATTACAGGTGTGAGCTACAGCGCCTGGCC
CCTCCC


SNP Information

Context             (SEQ ID NO:54858):
TGTAGTCCCAGCTACTCGGGAGGCTGAGACCGAAGAATTACTTGATGAAACATGGCAGACGACATAGACCAGCAGCAAACTACCAACACTGTGGAGGACC
Y
CCTGGATCTTAGGCTCAGCCCAGAGGAGCGAATTTGTGTGAAAATGAGAAACGACCGAGAGCTTCGAGGCAGATTACATACTTATGATCAACATTTAAAT
Celera SNP ID:            hCV396227
SNP Position Genomic:     6049
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,2)   total(C,3|T,2) 
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:54859):
TACTATAGAAATTGATGAGGAAACATATGAAGAGACATATGAATCAACAAAACAGAATATTCCAGTGTTCTTTCTCCGGGGAGATGGCATTTTCCTGGTT
S
CCCCTCCACTGAGAGTTGGCTGAAACAAAGAATTTGTCCTGTATGGAAAACAGGAGACTTTGTACAGTGGCCTCTCTAAATGTGCAAGATATTCAAAAGA
Celera SNP ID:            hCV396228
SNP Position Genomic:     6282
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 MIS-SENSE MUTATION


Gene Number:                 278
Celera Gene:                 hCG1641045 - 84000315002325
Gene Symbol:                 POU3F1
Protein Name:                POU domain, class 3, transcription factor 1;OCT-6;OCT6;OTF6;SCIP
Celera Genomic Axis:         GA_x5YUV32W802(45087881..45102438)
Chromosome:                  Chr1
OMIM number:                 602479
OMIM Information:            POU DOMAIN, CLASS 3, TRANSCRIPTION FACTOR 1;POU3F1


Genomic Sequence (SEQ ID NO:12438):
TATGTTTTAAAAAAAAGAAAGAAAGAAAGAAAGAAACTAAAGCCTAGCCCCAGCCTTTCAGAGTTGATTAATCCCCACTAATGATTTACCGATTTGCAGA
GAGCGTGTTCTGCATAACCGGATTGTGGGCATTAACACCAGCTCAAAGGCTGACATTCTGCTAAAAATGAAAGTAAATTTCAAGAGCAATTGACCACCCC
TAATTTGAATATTCTACTGACACTCTGGGAGGACCCCTACCCACACCCACAGCCTAGGGGCTGAGGCAGGAAAACAAAAATACAAGGAAAGATTCTTCCC
AAAGAGATATTTCACCTTCTGTCCCTCCTTCCCTTCACCAAGACCTGAGATTAAATAAGTTAGATCGCTCCTTTCTCTTCTGCCAAAGGCAGCGACGGCC
CTACTACTACTCCTCTCTTCTGCCTTGGGCTCTAAAGATTACAGGAAGGACAGAAGAACTGGACACCTGAAGGGGCTGAGCTTAGAGGGAGAGACGTAGG
GGCTTTGAGGGCTCAGAAGGGTGAGCTCATCCTATGCGGGGAGAGCTTTAGGATGGTGGCAAGCACTACAAATCTGTCTAGATGGCACCCACCCTCGCCA
AGGCAGTGGATCAATAAGATGACCCTGGCACCCTCCTAAGACTGGGAATTTATGACAGCTAGGACCCTGCCAGACTCTTCCAGTCAAAACCACATTGCAG
CTCAGAATGCGCGGGCAGCAAGCCCCAGTGGGCGTGGTCCCTCCTGACACTCTTTAGCAAGAACTGGTTAGGGGAGCAGGCAGGTTCCACGCCTGCTCAC
ACAGCCTCTTACCCACCCCAGATGGCCGGCCAGGGAGGGAAATCAAGCCACACTTTCCCTTTCCAAGTTTTCTTCAAGCAGTGATCTCACCCCCATCTTC
TCAAGCAGCCAACAGAGACCATATTGCCCAACTTTCAGATGAGGATACAGAGGGTTAGGAGGCTGACACTGGCCCAAAATGAGGCCTGAGTCAGGGCCAA
GATGGAACCCAGGACCCTTTACTGCCAAGCCAGGCCACTCTGAAAAGGCAAGATCCAGGGCATAAGGAGACTGCCAGGAGGGAAAGGAAGTGGCCCGCGA
GTGCTGCCCCGGTCCAGCCAGCCTCAAAGACTCAAAGTCCATGCATGCGGGAGGCATCCTAAGATACACAGCCTGTCCGGCAGCACTTCCCATGGGCCCC
ATCTCTCCTCTTCATCTCTTAGCATTCCTGACTTGTGAGGAATCCAGGTGGAGCATCCTGGAGCCTGTCTTCCCCCAGCACTGAAAAGGCCTGAGGTCTG
AAACTGCATCTGCTCTCAACCCATCCTGGACTCCTAACCAACTGACCAACTCACAGAAGAGAGCTCGGGGGCTCAGAGACCAAAGGGGGAAAGCAGCCAG
ACCCAGCTGCCTCCAGGAGACGCTGAGCAAGGCTCTTCCTCTTTCTCCTTCCCAAAGCTGTGCTCGGCGTGCCATTGTTAGGCCCCCTGACACCTGGGAT
GTGTGTCTGGAATACTGCCCTGTGTATGTGGCCGCCAGGGTGCTGATGACGACTGACTCGTGAGTATAGTTGTATTCTAGGTCCCACGTCTGTAACCCGG
GGCTTTGCAGAAAGAGTATAAGGAGCTGGAGCTTGTGTAGCCTGTCCATCCCTGCAGAGCCTCCCTCCTACTCCCAGCCCCCCACAGCCCCCGGCTCAGA
GACCCCCCACAGCGAGGGCCCCATCTGCTGGAGGCTCGGTGACCTGTGTCAAATGAGTAGGCGCTCGGTCACACTCCAGAGCCTGGAGGAGGCTGCTGTG
CTCTGGGAAAGCCCAAGCAGCTCCTGCCTGGGGGCGGGCTGGGCAGAGGCCCCACTGGGGAGGGAGGCCCGGGAGACTCTGAAACTGGCGGCGGCCTGGC
TGGGAGCTGCACTCCACAGAAAAGGAGAGTGGGAAAAAATATGAAAAGAAAAGCCTTGGGCCTAGCGCTGCAACCAAACCATGTGGACCAAACTCTGGGT
TGGACACAGCCCTTTCCTCTGCTTTCTGATCCCCTGAGCGGATCTGTTATTTCTTACAGGGTGTGGGTAGATATGTCTGTGTGTCTCTGTGATGTGTGGG
GTAAGCCTCTTTGTGCATCTGGGTGAGAGGGTGTGCATGGCTGGCTCCACGTGCTCTTGTGTGTGAGTATGATGGTATGCCTATGTGTGTGACTCGGCAC
ACCAGCTGAGAGTCTCCATGTTTGTGGCCCCAAGAGCCTGTTAGGTTTCATGTATCTCTGTGTCAGCAAAGCAGTGCCTACTTCAGCCTATTTCAGCCTA
TGTGTGGGTTCTGTGTATCTCCCCATTTAGACACATGCCTGTATTTACCACTGGGTGTTGCTTTGTGTGACTATCAATATTCAGCCTAATGGTGCAAGTT
TGTGTGTTCCTATTGTGAATCCGTACATTCAGTCCTGTGCTAAATTGCATGGTTGTATCTGTGTGTGTGTGTGTGTGTGTGTGTGTGCACACCTGTTCTC
ATGCCCACACCACTCTGTGTCTGCATGGGTCACGTGGATGTCTGACCTCTGTGTGTACACCCTGCCTACGTGTTGTGGGTCTGAGGATGAGTTCTCCCCA
GGGCCTAAGAAGGTGGTGCTGCAGGACAAAGGGGTTGCTCAGCTGCAGATGTTTCTACCAGTGGCCATGTCTCAGCCCTAGTGTCCCACACAGAATCTTA
AGAGTGATGTCAAGACTTCCTGGGGGAAACTTAACTCAAACACAAGAAAATTCTGACTCAAGACCAAACCCATATCCCTGTAGAAGGTCTAAAATTTCCA
AAGCAGAGAAAAGAATTATATCTTTCCTGCTTCAAACTGCTTTCCAGCCCAGGCCAGCATCTAACATTTAAAGGGCACCTAAATTGCATGCCTTATTTCA
TCTGTGGAGCCTCAGAGCAATCCTGAAAAGCAGGCATTATTGTTCTCACTGTAAGATGCACAAACTTAGGCTCCAAGAGGCAATGTGGCTCACACAAAGT
CACAGGGCTGCTAAAGGACATGGTGGGATTGGGACTTTGATTTGCTGGGTGACAAGCTGATAACCTAGAAGCCTCGCTACTGCTCTACTGCTGATGCCCC
TCAATTCAGCACAGACATGGGAAGACGGTTTCAGGAGCCCCAGCAGGCCCTGGCCTGCCCTTGAGACCTACCAGAAACAGGGCCAAGGGCTCTCTTTGCT
GTGCCAGCCAAAGCTGCTGCCTCCATAGACCCCCATCCCACGGTAATGAGGGGAATGATGAGTGAAAACTCACAGGTCCTGTGCCCTTGGACAAATTTTG
GGTCCCTCATCTAGGCAATGAAGATAATAATCTCAGTGCTCTCTCACAGGGCTGAGAGGTACAGGTAAAAGTACTTGCTAAAACACTGTGCCTGTATGTA
TACCTATGTAACAAACCTGCACATTCTGTTCATGTATCCCAGAACTTAAAGTATAATTTAAAAAAAAAAAAAAAATCCGTGCCTGTTGGTCATTGTTCTT
CCAGCCTCAGTGGCAATTCCAAAGGCTGGAAATCAAAACACCTGCCCGCTGTCCAGACTTCCTTCAACAGGAACTGAGACAGATTCACAGAATCACAGAC
CATGAGAGTGAGAAGTGCCAGAGAGGTCGACTGGTCCAAACCTCTGCAATCCCACGCTACAGGTGGAGAAACTGAGATTTAGTTAGAGAGGGGGAATGCC
TTGCCTGTCACTGAACAGCAACAATGGAAACGACCAAAGTAAACACCTATCTGAGAGCTTTACACCCCCGTTGTCTCACATAACTATCTGACCTACCTTA
GTGAGACAGGTGGGCTGCCTATAGTACTGTTATTCCCAACATACAGGAAGGAAAACCAAGAGCTAGGAAGGCTAGACCAGAGTTACTCTTGCCCAGGGAG
ATGATGGCAGCTCCAGGTTGAAAGCCCAAGCTTCAATATCACACAGGCCTGGTTAGGGCTGGCACGAGCATGGACTTCACTGCGGAATTCCCAGTCTTCC
TCCTACCTCCCAGGCCTGGGAAAGGTGAAAGACCTGGGCTGCCTCAAGGTGACCATTCCCTGGGCCAGAGTCCAGGAAAGCCCAGTATCTCTAGCTCGGT
TCAGACACAGAGCTCCATCGCAGCTCTTACAGCTAGGGTGGGACCACGGAGCCTGCTCAGGACAGTGGCCAATGGCAGGATAAGGGCCCTGCTCTGTCCC
ACTCCTTCCCTGGCTGGTCCTAGGGCATTCAGGGCCCACATGATCAAAGTCTGTGCCCAGGGTGACCCCTGTCACTGTCAACTCTGTCCCAGCCGCCCTG
GATCGTTCCAATGGCAGCTGCCACCTGAGCCCCCAGCAACTTTTTTCAATCTAAGGATTTATTCCACAGACCTGATTTGCCCAGTGGGGCCCTAGGTGGG
CCCCCAGCTCAGTTCTGTGATCTGGGACCCCAGGGCCCTGTAAGCTATAAATCCACTTGAGGCTAGATCCAGGAGAGAAAAGAGGGAGGACTGGCAGCTG
AAGACTCCCTGGGACCCAAGCCTCGGTGTGGGGAAGAGGAGAAAACACAGCTCAGTACCCTCAGCCTGGGGCCCAAGGTCGGGTAAGAAGGCACAAAGGA
ACTGCAGTGAGGTCCGACTCCACTCAAGATCCTTCAGGGAGTCCTCAAGGGCTGGGGCGTGAGGAGGTAGCTAAATTCCACTGCCCACCTTTCCAACAAG
GCCTCCTCAATCTCAATTCCCTTTTCAGCAGCTCCAGGCAAGTCCGGGCAAACTCTAGCCCAGGGCTCTTAGCGAGGCTGGACAGCTCCCGGCCTGCACG
CCGGATTTCTGGAGAGCCCGAGCCCCTTCCCTGAGCCCATCCTTCTCCTCTCCCGGGGCGTGATCCCACCACGACCACAGCCGATGAGCCGTTCAAGCTG
GGAGAAGGAGCGAGAAGGCTGCAGCGGCGCAGGTCAGATACCCCTGGGCCCAACGTCCACCCCCAACTAGCGCCCTTGCCAGCAGCGTTTTCCCCGGAGC
CACAGTCTCCACCTCGAGATCTTCTCCTTCTGGAACCCCGGAGCGCGGCCGGGTACCAGGGGCTCGCGTAGGACTGTAGAACCGCTGCCGCCCGCCGTCC
CAGCCCCAGCTGCCCGCGCGGTACTCACCTGGGCCTCAGTGCCCGGGAGAAGGTGTGCCCGCGCGAGGCGTGAAGCCAGAGTCCGTCCGACTCCGCCCGC
ACCGGACGCGCTCTCAGGGCAGAGGAGGTCGGCGGAGTTGTGACGCTGGGACTAGAGGAAGGAGAAGGAAAGCCGAGACGGGCCGGGCAGACGCGCCGAG
GAGCGCCCAGTGCACGCTGGCAGCCGCGGGAGGCGAGGCGGGCGCGGTGAGCAGTCGCGCCGGAACCGAGCCGCGAATCCGCGCCGCCTCGCGCTCGCAG
CCGCCAGGACCCGCGGGAATCCTGGTCCGCCGGCAGCGGTACTGAGGAGGGAGGGGCGCGGGGCTGAGCCGCTTCTCGGAGCCCGAGCGCCTCCCGGAGC
CGGCAATCCCTGCTGCCCGGGCGGGATGCGGGCGGGAATTCAGCTCGCGTGGAATGTGGGACCGGCCGGGCTCGGAGTCTCCAGCGCTGGGGGAAAGCGG
GGCCCACACAGCCAGGACGAGAGGGGGTGCGGTCCCAGGGCCACCCCCGCGCCACTCCCCACGTGGCGGCCGCGCCCCCGGGGCGTGAGTGTGTACGCGG
ACGGTAGGGGGGCCGTGAATGAAGCCCCAGCGGCCAATCAGCACGGCCGGCGCGCGGGACCCCGGGAGCGACGCCCAATGGAGAGCTCTGGGCGGCCGGG
CAGGGTGGCGGGCGGGCGCGCGGGGCGGGGGCCGGGCAGGGGAGGCGGGAGGCAGCTCCGCGGGCAGCCAATGGGCGGCGGGCGGGGTGGGGCTCCGGAG
CGCCGAGCGGGTCGGGGCTTTAAGCCGGCGGAGCGAGGCGGCGGGGCCCGCAGACGGAGCGGAGCGGCGGCGGCGGCGCGGCGCAGGGCGCGGGGCGGCA
TGGCCACCACCGCGCAGTACCTGCCGCGGGGCCCCGGTGGCGGAGCCGGGGGCACCGGGCCGCTTATGCACCCGGACGCCGCGGCGGCGGCGGCGGCGGC
GGCGGCCGCGGAGCGATTGCATGCAGGGGCCGCGTACCGCGAAGTGCAGAAGCTGATGCACCACGAGTGGCTGGGCGCGGGCGCGGGCCACCCCGTGGGC
CTAGCGCACCCCCAGTGGCTACCCACGGGAGGAGGCGGCGGCGGCGATTGGGCCGGCGGCCCGCACCTAGAACACGGCAAGGCAGGCGGCGGCGGCACCG
GCCGAGCCGACGACGGCGGCGGCGGCGGAGGTTTCCACGCGCGCCTGGTGCACCAGGGGGCGGCCCACGCGGGCGCGGCATGGGCGCAGGGCAGCACAGC
GCACCACTTGGGCCCGGCCATGTCGCCCTCGCCCGGGGCCAGCGGGGGCCACCAGCCCCAGCCGCTCGGGCTGTACGCGCAGGCGGCCTACCCGGGGGGC
GGCGGCGGCGGCCTGGCCGGGATGCTGGCGGCGGGCGGTGGCGGCGCGGGGCCGGGCCTGCACCACGCGCTGCACGAGGATGGCCACGAGGCGCAGCTGG
AGCCGTCGCCGCCGCCGCATCTGGGCGCCCACGGACACGCACACGGACATGCACACGCGGGCGGCCTGCACGCGGCGGCGGCGCACCTGCACCCGGGCGC
GGGCGGCGGCGGCTCATCGGTGGGCGAGCACTCGGACGAGGATGCGCCCAGCTCGGACGACCTGGAGCAGTTCGCCAAGCAGTTCAAGCAGCGGCGCATC
AAGCTGGGCTTTACGCAGGCCGACGTGGGGCTGGCGCTGGGCACGCTCTACGGTAACGTGTTCTCGCAGACCACCATCTGCCGCTTCGAGGCCCTGCAGC
TGAGCTTCAAGAACATGTGCAAGCTCAAGCCGCTGCTCAACAAGTGGCTGGAGGAGACCGACTCGTCCAGCGGCAGCCCCACCAACCTGGACAAGATCGC
GGCGCAGGGCCGCAAGCGCAAGAAGCGCACGTCCATCGAGGTGGGGGTCAAAGGCGCGCTCGAGAGCCACTTTCTCAAGTGCCCCAAGCCCTCGGCGCAC
GAGATCACCGGCTTGGCAGACAGCCTGCAGCTGGAGAAGGAGGTGGTGCGCGTCTGGTTCTGCAACCGGCGGCAGAAGGAGAAGCGCATGACCCCTGCGG
CCGGCGCGGGCCACCCGCCCATGGACGATGTATACGCGCCTGGGGAGCTAGGGCCTGGCGGGGGCGGCGCATCGCCACCCTCCGCGCCCCCACCGCCCCC
GCCGGCGGCGCTGCACCACCACCACCACCACACACTGCCCGGCTCAGTGCAGTGACCCCGCGGGCCGGGCCCCCGCCGGCGCGCTGCAGGGCGCGGGCGC
GCAGCCCGCCCGCGCGGCCTGGACTCTTTTTGTTCGGTTGCTTTGGATTTTACAAAAAAAAAAAAAAGCCCAGAAACTTTCGAACAAAACCAAACACCCG
GACGACCCTCTCCGGTGAGCGGCGAAGACAGCCCGGTAGGCTGCGTCGCCCGAGCCCCGGGAGAGAGGAGCGAAGATCCGGAACTCGCCAACTCACCCCG
GGCATCCTGCCCGCCGCCTGCTCTCTGCCCCCATCCCCTCGACGACCCCCGCCCCTGCCCCCCCGGGCTGTTCGGGGCCGGATCCCGGCAGCGGCCTCCC
CAAAGCGACAGGTAACGCAGTGCGGGGTTAGGGATTCCCCGGGAGAGAGGACGAAGCGAGGAGAGTTCTCCATCCCCTCTCCCCGCGTGGACTCCTGAGC
CTGCGGGTCCAGGGTGGGGGGCTGTCACTTTATTCGCTACACGCCTCTTCTCTCCTATAAGGATGCGCCCCACCCCGCTTTCCCCTTTCTCCGGGCTTGG
TTTTTTACGGTTTTTATTTATTCGTGGAGCCTCTCGGCTCCTGGGGTCCTTCTAACTCCGCCCGCGCCCTTAATTTAAATCGCAGTATACTGTATTTATC
GGGGCCCCGGAGGGGAGGTCGCGAGAGCCGCGTCTGTGTATAAAAGCAGGAAATAGCCAAAGCTTTAATCTAGCCTAATTTATTTTTCCCCTTATATTTC
CCTACCCTACCCTCCCCCCAAAAAAAAGCAAAAAAAAAAAAAAAAACTAACAAAAAAAATTCGAGTGTTCATTTTTCGTTTCGTTTCATCCGAGCCCCGG
CTTGGTTCCCGGCCACGCCGGAGGGGTCTGCGCTCCCACACACCCAGACGGGAAGGGGCYTCTGCCCTGCTGCAGACCGACCGCCGCATAGCGCGGCCCC
TGCTCCCCGCGGGGCCCTGCCCTCCTGGCCACACCAAACGAAACTTGGAAAAGTTAGAGAGATTGTTTTTTAACCAGCTGTAGAAATAAGCCGTTCCCTG
AGAACCCTCCGCCTGATTCCCTGCAGCTTCCCTCTGCTCCCTTTCCAGCCCGCCGGGATGCGGGATGCCAGGGGAGGCCGGGAGAGAAATTCCCCAAGTT
TGGGGTGAGGTGGGAACCATGTAAATATGTGAGATATGTACACACTGGCGGGGAGAAGAAACATTTTGTGCTTGGTTTTTATTTTTGGTTTTCCGGGTTA
CCCTTCCTTCCTACCCTAAAGGATTTTGTACACTGACTAATCCGAAAAAGATATTTTAATATGATTTCCGAATTTCTGACCCATCTCTATTTATTTTCTG
GATGTGTTTGGAGCTTCCCCCTTCTCCGTTTCTTCTTCTGTTTGTTAAGGTTTGAATTTAAATTTTGTTATTTTATTTTTATTATTTTTTGAAACAATGT
TTCGGTGCATTCTCTTTGTATCTTTATTGAAAAAAAAATAATGTAGACTGGGAAGTTCCCTTTATATTTATGTTATAGTAAATATTTTATTACTCACATA
AACATGTACCCCAGGGCTGTGTCCTGTCCTTTTTACTGCTAGGGCTGGGTGGGTTTTTGGGGTGAAGCGATGGGATCCCCTGCTTCACCTCCCTGAAGTT
CTGATCTCACCAGGAGAGATCTTGGAGGAAGATGACCCTGCAGACCTTCCAGGTGGATATCAGGACATGGGCAACAGTTGGGCCCCTGCCTCAGATGCAT
CAGTTTAGGGAAGATGAAGCTGCCTCGTGTCCCCCTGTCGTAGACAGACTCTCCTAGACCAAACCAGGGCCCGGGACAGTGAGCCAAAGACACCACATGG
AATTCGGATCAGCCATTGTTCATGCACAACTCGACTGCTCTTCTCCACCAAGAAAGAAGCCCACCTCGGCCTGGGTCACCAGCCTAGAATCTATAATCCC
CCACCTGACACCTCAACCCCCAACTTTCATTTCACCTTGCACTCTATATGAGAGGTCTGAGCCAACTTTACCATTCCCAGTCCTAGGGCACCTGGAAGCC
TGGTGAGGCCCCACCATCCTACTCCAGCAGGCTCTCCACCCAAACTCAAATGGTGCCCAAGCCCCCCTGGATGCACTGGGAGTTCTAACAGCTTAGACAG
ACGTGGCTTTCATGGTCCTACGTGAGCTGGGTCAGCCTAGGGAGGGAGCCCTGCCAATTTGCTTGGGCAAAGCCGGTCTTATGTCTCTGCAAACAAACCG
CTGCCCCAGCTTCTGTTGGGGAGAAGTGGAGGCACGGGTAACTGTGCCATCAGAAAGACCTGATATCTTCTTTCCAAGGTTGGGTACCCAAGACCCTCAT
CACCGCCACCACTGCAGGGAGTGATAGGAAGGAGAGCACAGACCTCAGATGCTGTCTTCTGGAGTGAGTCAGGGTATCTGGGGGCAGATCTGGTTCCCGA
CGCAGAGCTCCAGACTACCTGGGTTCCAGTCAAGACCTTATTTTCTCCTTTAAAACAACCCTTCTTAAAAATACTGATAAAAGAGCTCTTCCTGCTTCCT
CCGTAGACGCAGTTCTTTTCCCCTCTCAGGAGAAGCCACATGCGGTTTCTCTCACTCTTTGTGAAGCCAAAGCTTGAAGGCACAATCTCTTAGCTGGGGA
GAAAGCTGACCCTAGTGAGGGGGCGTGTGGGGCCCCTCCTGCCAGGGAAGCGGCCCAAGTCCAGGCCTGTGAGAGGCCTGGGCTCTAGCTGACGGTGTCA
GGGATGTCCAGAGAGGTGTCCCCAGGGCCCCAAGTTGGTGCTCCCCGGCGGGGCTAGGGCCTCGGGATGACTGTGCCATGCTGAGAGTTCCTGGCGACTT
TCTGCGCTCGGCCCTCACTCTTGGGGGGAATTGTCTCTGCAAGTACAAAGGCTGCCTCGGCTTCTAGAGGCCCAGCCCCTCACTCCCTGCTCCTTTTTTC
TTCTCCTCCTCAGCTCAGTCCAGCCAGGTGAGTGAATAGCCCTGTAATTGGCACCTGTGTCCCAGCCGTTCCCCACACTGGTGGGCCAGGCAGCCTTCCC
TCCCATGTTTCCTAAAGAGGAAGCTGGCAACATACCGGCCAGCTGGGCAATGGCATAGCCAGGAGCCACTGACCACCCTGCCTCAGCCTCTCATTTCCTA
CTCCACCAAGAACAAAACTTTGAAGCCGCCACACACTCCTCCCTGCTCCCTCATTTCTCCATTCCTGGATTTGTCCCAGCCTCAAGGCTCTGAAATGGAA
GCAAATGAAGCTGAGAGCTCCCGCCGCCTGCGCGGCCCAGAGCCTCAGCAGGTTTTGAGGTTGGAAAGGGCCACCGGGAAGATGAGGCCTTTCACCGGCC
TCTGCCTGCAGCTGACACCAATTGATTGATTGATTTCCTAATTGTCTGCTTAATCCTCTACAAGAGGGTGGGTTTATTATTTAAGCAAGTCAACTCAAAA
ATAGCAAAACAAAGCAGCCTCCCAAGAACCAGCAGCAGCTGAGGAGTAGAACAAAAAAAAATGAGAAAAAAAAAAAGTGGAAAAAGGGATGGAAGAAAAT
CTTTTACTTTGCAAGGATTTGGCTTAATGAGATACCAGCATGAGATAGCTACCTGGTGATCAACCCCTTGGTCGCAGAAGGCCCCTACATGGTAGGAATC
TCAGCACTTTATAGGAAAGAGAAATCTTTTTCCCTGGATAGAATAGAGTTAGGACAAGCACAGCCAACTGTGGGCTTGATGCAGTCTCTCCGTCCCAAGG
GTATGTATATCTACCTGCTTGTGCCTGAGAGCCTCAGACTTCCTTTTGTTCAGGAGAGGTATGTGTCCCTAGCATCAACCTCCAAGGAAGTCCAAGCTTT
CCCTAGCATATTGGGAATTTTCTGATCCCATCTCCTTCCGCATCTCACTTGAACAAAATTATTGTTTATGTTGATGTGGCCACAGATTATGGTAGTTAGA
ACTCTCTCCCCATGTGAACCTCTGCAAGTTGGTGTAAGAATTTGTGTGTATGCTGTTGTGTGTGCAAAGCCACAGCCAATCCCAGAGGTAGGAGAGGGAA
AAGAAAACCCAGGCTACACTGCTAATGCTTTCAGCAGGAAGAATATTTGTAGAATGGAGGTTGGCCAATACCAAAAGGAAGGAAAATGGTCATCTTAGTC
ACCTGCGGTCATCAAGGCAAACCCAGAAGGTATCCTGCCTTGAGGCGTGACGACATTATATTCTCCCCCACCTACTGCCCAGAAGGTTGCACTAATTTAT
ATGTTGCATGCCTTAGGTCCTATGCAATCATCCCTTGACCTTAGGACTTGACTGGATGTCCATAGGACTAACTGACCCCCAATCGCAGGTGCCCACTTAG
AGCCGTTTAGAACTCATCCTCCCCTGGAGAGGCTCTGGGCCTCCAATGACACATCCAGGGCCGGGCTGCCTCCCTCCCTGGAACTTTCCCTAGCAGGGCT
TCAGCTCCAAAAAGGAGACCCACCTAAGCAGAGGGTGGAGTGAGAGGAGACTGGTTATCAGGCCTAGTTACTCTCCTAAGCTCAGCCAAGATGATCTACC
CAGGGCCTCTGGCTCAGAGACTGAGACCAGAGGTAGCTGGAGGAGCCATCCGTTTTGTCCCTGCCTGTCACATTTGAAGGCTCTGGAGTTGAAATGGTGT
TTGGCCATTTAGGGCTCCCCTTGCTGCCTCTTGAGGCCTCCATGTGGGAGGACTGCCCTCTATTGGTCCCTGAACTGGGACCTGGTAGCAGTTACCAGAG
CCACCTTGAACCTAAGCATGCCCTTAAAAAGTCAGCTTCAAGTGGGCTGTTCGAGGAGGACTGCCAGTTAGAGCAGAGGCAACTTTAGCCTCCAAAAGAA
GCAAGCCTGCCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCACACACACACACACACACACACATACATACACACACACACTAATCCATGACCCTT
CCCTCTCATCTTCCACCCTGCCCATTCACACAGCCACTCTCAGAAACCCACGATCATACACCACCTCCTCTCTCTCTCTCTCCACTCATCCCCATCCCCA
TCACTCCTCCCCTCAACCAGTTAAAACCCCAATCCAGGCTCTCACCACCTTGCTCACTCACACGCATGCTAAGACACCCATGGTCACACCCACACCACAG
TTTGGGCAGTCTAAGACTAGCTTTCTGGTCTTTGGCACTAAGCTCTTGAGAGTCACTGAGTACCTGGCACATGTAATATTTGATTAAGCACACACGGCCA
TCCTTTGCAACATTTGACCTGGTCCCCTTCTCTCAGGATTTCCAAGCACTTGCCCCTAAACTGCTTTCCAAACACATTCCTGTCCATCATTGTCCCAGCT
CCTCCCAGATCTCTTCCGGCTCCTTTCAGATAATTAAAGTTAGGCTGTGTGTTTGTATGTATGTGTGATCTTATTTTTTAAACACACACCCCCACACATA
CATATGCGTGTATATATACAAACACACACAGCAATTAGATCTATCCATTCCTGCCGTAGTCCTTCTTGTGCAGTAAAACCTCAGCTATGCATATGCCCCC
ACATTGCTATGCAATGAACCCAGCATCACCTAGTCACGGGCCCCTGATGTCACACACACACACACACGCGCGTGCGCACGCGCGCACGCACAGTGGCACG
TTCACATGGTTACATTGGTCTTTCTCCAAGGGCATGACCCACCTCCCACTACCCACCCCGCTCCTGGGCATCTGAGTGGGCTCTCCTCAGATGACCTGAG
TACCAGGAGAGCTTTGCTCCAATCCCTGCCCCCAACACATACACACCAGTGGACATGTCTCCTGCTGAGCCTGACCAGGGTGGGTCTGGGTATTATTAGG
CTGCAGAGACAGCACGGAGGCATATGGTCTCGTACACAAGAAATAATGTTCATGTTAAATCAGACCTCATGCATAATGCATGGTGCCTGATCTCACATTA
TTTTGGGTGTTCGTCAAAATCAGTGTTCTTTCTTATAAGGGCTCCTGAAAAGAAGTGAAAAGGCATTTGCTAATTACACCCACAGCCTGGACCCAGAGAG
CTGGGAGTGCCCCCGGGAGCCTCCCTCTGGCCCCACTTCACCCACAGTGGGTCCCATCCCTCTGCCCCACTCTGTCTTCCCACTTGGAAGGAGGGGCTGC
CTGGGGTTTGTGGCAGGCGTAAGGCCCCGTGTTATTTTTATTTCTTTTCTCTCGGCTCTCTGTCCCTGGAGGGTTCTGGGGAATAGCAGTGGCTCTGTCG
CTCTCACACCCGATTCATTTGCCGTTTTATGAACTCCCCGTTGATTCATCGCCTCCCTAAGTCAATGATTCACTCCTGATGGCTTTTCAGAAATCCTTCT
TCAAAGGCTCCAGATTATTCAGCTCTGAGCAAGAGCAAGAGCCGGAGCAGACCTGGACCCTGCATTACCACTGCTCCGTGGCCTGGAATGGGATATTGTC
CCCATCCTTGGGCCTTCCCTGGAGCTGGGCTGGCCTGGAGAGGAGGGAGTGCTCCATCCACACAGAAGCTGGTAGAGCTGACCCAAGCAGCTCATGGACA
GACCAAGCCCATGGCCAGGCACCCTCCAGCCTCTGTGGGTCACCTGCCTTCTCCCCTTGTCATCACAGTCCCTCCGGAAGCTATCCACGCCTCCGAGGAG
GTAGAGAGCAGAATGGTGAAAGACAGGGGCTCTGGGACCAGACACCTGGGCAAAAATCCTGTCTCCACTTCTTATCAGTTTTGTGACTTTAGGCCAACTA
CCTACATTTCTGTGCCCCCATTTCCTGGTATGGTAACAAAGGCAGTTCCCTGATCATAGAGTTGTTTTGAGAATTAAGTGGGATAATATGCATATAGAGT
TTACATAAGTGATGAATAAATGAAAGCTGGTTTTTTGTTGTTGTTGGTTTTTTTTTTTTTTTTTGGAGACAAAGTCTCCCTCTGTGGCCCAGGTTGGAGT
GCAGTGGCGCAATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCATCCCTAGCAGCTGGGATTATAGGTGCCCGCCA
CCACACCCAGCTAATTTTTGTATTTTTTTAGTAGAGACGGGGAGGTTTCACTATGCTGGCCAGGCTGGTCGCAAACTCCTGACCTCAGATGATCCACCCA
CCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCAGCCTGAAA


SNP Information

Context             (SEQ ID NO:54860):
TTCGAGTGTTCATTTTTCGTTTCGTTTCATCCGAGCCCCGGCTTGGTTCCCGGCCACGCCGGAGGGGTCTGCGCTCCCACACACCCAGACGGGAAGGGGC
Y
TCTGCCCTGCTGCAGACCGACCGCCGCATAGCGCGGCCCCTGCTCCCCGCGGGGCCCTGCCCTCCTGGCCACACCAAACGAAACTTGGAAAAGTTAGAGA
Celera SNP ID:            hCV1848993
SNP Position Genomic:     8260
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,25)   caucasian(C,2|T,32)   total(C,9|T,57)
SNP Type:                 UTR 3

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,11)   total(C,2|T,11) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:54861):
GACCCCGCGGGCCGGGCCCCCGCCGGCGCGCTGCAGGGCGCGGGCGCGCAGCCCGCCCGCGCGGCCTGGACTCTTTTTGTTCGGTTGCTTTGGATTTTAC
A
AAAAAAAAAAAAAGCCCAGAAACTTTCGAACAAAACCAAACACCCGGACGACCCTCTCCGGTGAGCGGCGAAGACAGCCCGGTAGGCTGCGTCGCCCGAG
Celera SNP ID:            hCV26167590
SNP Position Genomic:     7454
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,4)   total(A,3|-,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:54862):
GCGTCTGTGTATAAAAGCAGGAAATAGCCAAAGCTTTAATCTAGCCTAATTTATTTTTCCCCTTATATTTCCCTACCCTACCCTCCCCCCAAAAAAAAGC
A
AAAAAAAAAAAAAAAACTAACAAAAAAAATTCGAGTGTTCATTTTTCGTTTCGTTTCATCCGAGCCCCGGCTTGGTTCCCGGCCACGCCGGAGGGGTCTG
Celera SNP ID:            hCV26167591
SNP Position Genomic:     8130
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 UTR 3


Gene Number:                 279
Celera Gene:                 hCG1641106 - 30000036714323
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W323(8893871..8906602)
Chromosome:                  Chr15
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12439):
GATGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGGGATCCACCTGTGTCAGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGCACCCGGCCCC
CATTGATTTATTTATTAATATAGATACAGGCTTTTATATATTGGTTTGTGATTTAATACTATTTCATTTTATTTATTTACTTTTTGAGACAGAGTATCGC
TCTTTTGCCCAGGCTGGAGTGAAGTGGCGCAATCTCAGCTCACTGCAATCTCCAGCCCCTGGGTTCAGGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCT
GGGATTACAGGCATGTGCCACTGCACTCAGCTAATTTTGTATTTTTAGTAGAGATGTGGTTTGGTTTCTCCATATTAGCCAGGCTGACCTCGAACTCCTG
ACCTCAAGTGATCCACCCACCTCAACCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCACACCCAGCCAATACTATTTTATTTTGTTGCTCAAATTT
TTTCACCTCTCCAATGACCTTTTACTATACCCTGTCGGGGTGCGTGTGTGCATTTCCTTACGTTCTGGCATTACAAGAAAGTAAGGAAATAGCTCCTCTT
GTATATTTCCTGCCCCAATCCTAGAATCAGTCATTTCTTCAAGGACTCTTGAAGAAGTTATTAGAGAATAACTGTTATTGGAGAATGGTATTAGAAACCG
AGATCTGGGCCAGGCACAGTGGCTCACACTTGCAATCCCAACACTTTGGGAGGCCTAGATGGGAGGACAGCCAGAGGCCAGGAGTTTGAGATCAGCTTGG
TCAACAAAGGGAGACCCTCATCTCTAATAATAATAATAATAATAATAATAATATTAAACTAAGATCTGCGTGGTAAGTATGCTCATTGCTACTGGGGTGT
CTTGCTTTTTGGACCTTCTCAACTGTCAGAGTAAGTGAATATATGTATATACTACAGTATACACACATATTTATAACTTTCTCTATGTAATCATCTGTAT
ATATGGGTCAGTTTTTTTTTTTTTTGAGATGGGGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCAGTGCCAGCTCCGCCTCCC
GGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCCACCACCACGCCCGGCTAATTTTTTGTGTTTTTAGTAGAGACGGG
GTTTCACCGTGTTAGCCAGGACGATCTCGATCTCCTGACCTCGTGATCCACCTGCCTCAGCCTCCAAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGC
CAGGCCAGGTCAGTTTTTTTTTTTTTAAGTCTACCTGTTACAGATATATATTATAATATTTACAGCTGAAATTATATGGCTAAGATTTGCTTTTAGAAAC
TTCAGCAATCCGGCTGGGAGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACGAGGTCAGGAGATCGAGACCATCCT
CGCTAACACGGTGAAACCCCGTCTCTACTAAAAATATAAAAAATTAGACGGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAG
GAGAATGGTGTGAACCCAGGAGGTGGAGCTTGCAGTGAGCCGAGATAGCGCCACTGCACTCCAGCCTGGGTGACAAAGCAAGACTCTGTCTCAAAAAAAA
AAAAAACAAAAAAAAAACAAACAAACTTTAGCAATCTCTGGTTGTCTAGCGGTTAGGAATAAAAGTTGAAGAAAAAAAAAACCCAGCAAAACAACAAACT
AGGACAATGAAATACAATTGACTAAGATAGTCATTGAAGCAGGATGCCAGGTACACTGGGGATTCACTCATTATACTGTTCTCTCTACTTGCATGTATGT
TTGAAATATTCCGCTGGGCACAGTGACTCACGACTCTAATCCCAGTACTTTGGGAGGCCGAGGCAAGTGGATCACAAGTCAGGAGCTCAAGACCAGCCTG
GCCAATATGGTGAAACCCCATCTTTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGAA
GAATCGCTTGAACCGGGAGGCCGAGGTTGCAATGAGCTGAGATAGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCAGTCTTAAAAAAAAAAA
AAAAAAAAGAAAAAGAAATATTCCATAATACAAAATAATATGACTGGGTGCAGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGCAG
ATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGATGAAACCCTGTCTCTGCTAAAAATACAAAAATTAGCTGGGCATGGTGGCATGAGCCTGT
AATCCTAGCTACTCAGGAGGCTGAGTCAGGAGAATCGCTTGAGCCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCGAGCCTGGAC
AACAGAGCGAGAGTCTGTCTCAATAAATAAATATGTACATACATACATACACATATAAAATAAGAAAATAGAGCCAGAAAACCCTCACTGACCAGGCTGC
AGTTAAAGAGGGTCAAATAGAGAAAGACAGCCAGCCAGATACAAGGCATTAACACACATGCACATACAGGCACACACACAAGCATACATACATACACGCA
CATGCATACACACACATATACATACAGACGCACACACGCATACACACAGGCACACACACATACACACACACATACACACGTGTCCATACACACACAAAAC
TCTTCCACAGCCATCTTTAGGTGAAATTTTGAAGATGAAAGTTTTTCTTCCATGTTTGGACCCATCTGCCCTTTCAGAAACCGCAACCTTATTGCTCTAC
TGCTTCCTAAATCTGCTTTTGGAGGGAAATCTGATCATTTGAAATATTTCCTGTGACTGAAAGTCAAAGTGTGGTCTTCTTAGGAATTTACATTTCTGTG
TCATCTTTGATGGGGCAAGAAGTTGCATTGTTTCTGGCTTAGGAATTTCAGGCAGTGGGTGTTTGACAGGGACAGCAACAGTCCCCAGCACATGTGGAAT
TACACATATAGGTAATGTTTCTACCAGTCCCAGAGGTTTCTCTAAGGTGAGGAACATAGTCTGTGGCCTGCCCCATCCCCCCATCCCTTGAGTGGAACTT
GCCCACTCTCACCTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAAGATCTCGCTCTGTAACCCAGGCTGGAGTGCAGTGGCACCATCTCAGCTCACTG
CAGCCTCCACCTCCCGGGCTCAAGTGATCCTCCCACTTCAGTGTCCCAAGTAGCTGGGACTACAGGCATGCGCCACCACATCTGGCTAATTTTTGTATTT
TTGGTAGAGACAGGGTTTCACCGTGTTGGCCAGGCCGGTCTTGAACTCCTGACCTCAGGTGATCTTCCCGCCTCAGCCTCCCAAAGTGCTGTGATTATAG
GTGGGAGCCATCACGCCTGGGCAACTCTTATCTCTTGAGACAGTAGTTGGGAAAGAACAGGTCTTTGGTTATATGACCAGTGAGACTGTCATGATCCTGC
AGCTCACCATGGTTTCCTCTTGTTTCCCCCACTCTAGGGGTGGGGCAGAAGGCCTTAACTCTGAAAAAGCTGAAACAGCTGCTTCTTCAGAGTGCCGGAA
GTTGGTAGCAGAGTGCCCTGCTTCTGTGGACAATGGTTTTTATCTCCAGGTTTGTCTTCATCTTCTCTGGATCCTTGGCCTCCTTGAACAGTTCTGGGTC
ATAAAAGGCTGAGAGTGGGCAGAGAGTTATTTTACTAGATTAGTGAGATGCTGTGCCCAACCTAGTCCCATCCATAATCAGGGGCTGCCGCTGGCCCTTC
CTCTCACTCAGTCTTCCTCCACCCTTGCGGCCCCTTCTTACTCCTCTGGAATAGAGTATAGCTGCTTCTGGTTCTGTTCTAAGGACAGGAACTCCTGGGA
CAGCCACTCCCGCATTAGGTCAAAAACATTTCCTGTGGATTTTATTAGTTTCCTTCCAAACAATGCATTTATGGAAGAAGAAGAGCTTTTGCAGGCATGC
ATTTGCACAGGCAGCCAACCTCCTCCAGTCACACACAGACACACACACACCTCCACACCCACACGCACACACTTTCTTCCCATCCGCCCACAAAGCATCA
GTCACATTTAGAATTTGCACAAATGCACACCCTCCCTCATACATCACAATGCACACCCTCTCATCCACCTACATGTCTCTTCCACAAAATCACACCTGCT
CACATACCCTTAGAAGCACATTCCTGTACTGTGCCCAGAGAGAGAAAGGTGGGGGAGATAAGCAAGGAGAATGGGTTAGAAGGGCTCAGGAGGTCAAACC
TCTGTAGGAGCTGAAAAGTCAGAAGACCAGGACCCCCCACTCCTCTCTGCCCTTTTTTTTTCTTTCTTTCTTTTTTTTTTGAGATGGAGTCATGCTCTGT
CGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCCGTCTCCCAGGTTCAAGTGGTTCTCCTGCCTCAGCCTCCTCAGTAAGTAGCTG
GGATTACAGGCAGCCGCCACCACATCCAGCTAATTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTGGTATCGAACTCCTGACCTC
ATGATCCGCCTGCCTAGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACTTGTTCCCGGCCTCCTCTTTGGCCCTGTAAGTAGAAATACTACGGCT
GGGCAAGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCGAAGGTTGCAGTGAGCCGAGATCACGCCATTGCACTCCAGCCTGGGTGACAAAGCGG
GACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGAAATACTATGAATTGAGAGAGATTTAGAATTAGGGGTAGGGGAAGCAGGAACTCAGGGCCCCCTGTCC
CACACAGAAAGTGTGCTGCCTCTGTGACAGTGATGTATCTCAGGCTGGTGGCTGAGGTGGGAAGTTTGTCAAGGCTGTAAGTGGCATCCATCACATGTCC
GAGAAGCCCATTTTGACCAGTAGAAAAGGATGGCCTTTAGGGTGGGATTCCCTATCAGCTCAGGAAATGGTGCGGAGGGAATGAAGAGAGATAAGGAAGT
AAAAGGCTGGGTTGGGCTCTGGGTCCAACATCCTCTAGAATGAATCTTACTAATGTCAGCTGGAATCAAGAGGAGGAGGCTCCCCTTCACTGGAAACTTG
AAGTCCCCCTCAGAGAAAAGGCGGGAGAGAGGGCTTGGAAAAGTGACAAGTGCCCAAGAGCAGCCCAGGCAATTCTGCCTTCGGCCCCAGACTATTGTCT
GCCTGCCCTGACTCAGCCCAAACTCAGAAACTGTGGATTCTGGAAAGTAACGAGACTTTTCCTTTGGGAAAGGGTCCTGAAGCTGACCCACAGTGCTCAA
GAAAATTGGCAGAGAGGCCAGGCACAGTGGCTCACACCTGTAATCCCAGTATTTTGGGATGCCGAGGTGGGCGGATTACCTAAGGTCAGGAGTTTGAGAC
CAGCCTGGCCAACATGGTGAAACCCTGTCTGTACTAATAATACAAAAATGAGCCGAACATGGTGGTGGGCACCTGTAATCCCAGCTACTCATGAGGCTGT
GGCAGGAGAATCGCTTGAACCCATGAGGTGGAGGTTGCAGTCAGCCAAGATCGCACCATTGCACTCCAGCCTGGACGACAAGCGTGAAACTTCATCTAAA
AAAAAAAAAGAAGAAGAAGAAGAAGAAAGAGAGGAAGAGGAAGAAGCAGAGAAGAATAGGAGGAGGAGGAGGGGAAGGGGAAGTGGAAGGGGAAGGGGAA
GAGAGGGAGAGGAAGAAGAAGAAGAAGAAGAAAGAAGGAAGAAGAAGGAAGAAGGAAGAAGAACATAATTGCCAGAGAGCTCAGTGAAACAGAGACAGAG
GAGACGGAAGTGAGCCACACACTCTGTGTCCTCGCCTCACCAGGAAACTACTAAAGTTCCTGGGGAAGCAAAGTAGAATTTCATAAGAACAAAAYGGATG
GAGAGGAGAAAACCTATGGTGGCTGTGAAGGCCCTGATGCCACGTATGTCAAATTGATRTCATCTGATGGCCATGAATTTATTGTAAAAAGAGAACATGC
ATTAACATCAGGCACGATAAAAGCCATGTTGAGTGGCCCAGGCGTTTTATGGGTTTGGCTTTTAAATTTAGGTCTTTGGTCTTAAGTTAATTTTTGTTTA
TGCTGTGAGGTCAGTTTGCTGAGAAYGAAACCAATGAGGTCAATTTTAGAGAGATACCTTCACATGTGCTATCGAAAGTATGCATGTATTTTACCTACAA
GGTTCGCTACACTAACAGCTCCATCGAGATTCCTGAATTCCCAATTGCACCTGAAATTGTACTAGAACTGCTGATGGCTGCGAACTTCCTAGATTGTTAA
ATAAAATAAATTATAATAAACTGTTAACTCTTTTCAGTATGTAATACCTGTAGATCAGTTAGTAACTTTTTCATATATAGCATGTTGCCTGTATGCAGTT
TAACTATATAAAGTTCATTGCAAAGCAGATTATCTTGTTTTTTTCATAGCAATCAAAGTTGAAATTTGTTTGCTACATCAACAAATTAAGAACATTTTCA
CAAACTGAGAAATAAACAAATATGCCAATTAAAAAAAAAAAAAGAAAGAAACAGAGACAGAGATATCTGGCCCCTGCCATCCATGTCTTGACAGTGCCTC
ATGAGTCTCTCCTCCTGCTGCCGCCTGGGGGCGCCCCCAGCTGGGTCTCAGGCTGCTGCCAGCACTGCTGTTGTTATCATTAGGGTAATTAATAAACAAG
CACTGCTGGGGCCAAGTGGAAGAAGAGGCAGGCCCCTGCTGCTCAGGAGAATCCCTGAAAAGATCCAGTGAGCCTGCGGCAACCGGAGCTGAGTGGCTGG
TCCCTCCTCTCTACCCAGGACCTCTGGAAGGGGTGTGGGGTGGGCTTCCCCCTGGAGGGAAGGGCAAGGGGAGGAGCACACTTGGTAGGCTTGGTTTGGA
ACCAGCTCTGCATGTGCCTAACAGGATGTCTGTGGGCAAGGCCACCCTCGTGATTACTGGTTGTGGGGCAGGCTCTGAAGCAATTATTCATTCATTTAAC
AGGCATCTGCCTATTTATTTATGGAAAGCCTACTGTGTGCAAGGTGGTCTACTAATAATAGCTAATGTTTGACTGGACAGTGTGACGACACAGCCAACTT
TCACACCAGGTCCTGGGAAAAGGGGTAGAAGCAGGGGAAGCAACCAGGAAAAATGACAGCCCAAAAAGATACGGGCAATTAGGCTTTGGCCTGTGTAGTG
TAGTGGTGGGGATATATATTAGGTAAAACCTGGGGATTACCAAGATCTTGGGAAACTCAGGACCCAAGTTGGAAAACATACGGCAATTGGGGCTGGAGAA
AATGGGCATTTTTCAGGTGGGAGGGACTTGGAGATAAAGGCATGGCAATAGGACATGAATATGGGGATTTTGGGTGAATGGCTCAATGAAAGGGAGGCAC
GAAGGGATGCTAGCCGATCCTGTTGGGGGAGCCCCGGGTCACGGCAGTTTCGGGGAGCCAGATGGATGGGAGTGTCTAGGGGTTGAGGTGCTCTAAGTCC
TGAGAGGGGGATGCTGGATTCTGGGATCAGAGTCCGAACAAGAGTTGGGGTGTGGTGGGGGCTGACAGCGGGGTTTTGAGGGAAGGCTCTGGAGGGCTGG
GTTAGAAAAGATGCCGGAGCGGGTTTAGGGAAAGGAGGGGCGTGGCCGGGGAGCCCATCCTGGAGGCCAAGCCGGATCCTCAGGTTTGGCCAGGGGGCGG
CTGGGGCCGGCGTGCCGGCGGGGCGCCGGCGGGGCCGCGGGGGTTTGCGGCGCTGGCTGGGATTCGCGCTCCGAGCCAGTCGCCGGGGCTCCGCGGGGGG
GCGGTGCGAGCTCGGGCTGCGGGCGGGCCGGGAGGAGGCGGCGGCTCCGAGAAGAACATGAATCAGCGGCGGCGACGGCGGCGACGGCAGTGGAAGGAGC
GCGGTGGCGCGGGAGCGGCCCCGGGGACCCCGCGCTGCTGACGGCGGCGACCGCGGCCGGAGGCGGGCGCGGGTCTCGGAGGCGGTCGCCTCAGCACCGC
CCCACGGGCGGCCCCAGCCCCTCCCGCAGCCCTCCTCCCTCCCGCTCCCTTCCCGCCGCCTCCTCCCCGCCCTCCTCCCTCCTCGCTCGCGGGCCGGGCC
CGGCATGGTGCGGCGTCGCCGCCGATGGCGCTGAGGCGGAGCATGGGGCGGCCGGGGCTCCCGCCGCTGCCGCTGCCGCCGCCACCGCGGCTCGGGCTGC
TGCTGGCGGCTCTGGCTTCTCTGCTGCTCCCGGAGTCCGCCGCCGCAGGTAGGGGCTGGCACGGGAGGCGGCGGGAAGCGGGGGGCTGCGGAGGGGCGCG
GCCGGGGGTCGGAGCCCGGGGCGGGCCTGGCGGGCTGGAGTCGGGGTGGGGGTCCGGAGCCGAAGGCCGAGGCTCGGAGCCGGGACAGGGCACGCTGCGG
AGTGCTCGCCGCCAGATCTCCGGCCGGGCCCCCACCCCCAACTTTCTGGCGCTCGGGGCTCTTCTGGCGGGGTGGAAGAGAAGGGAGCGGGGTGTGGGCT
GTGTGGTCAGCGGGGAGTGTTTGGGACTGCATTTTCCCGCCTCGATGTTCCCAGCTGTTAGCTCCCTCCTTCCCAGTACTGGGGACCCCATTCTGCCTGC
CCCGCACGCGAAGGTCCGCCTCGGAAACCACACGGGCCGGGGCTGGGCACCCAAAGGCCACCCTGATACCATTTAGGTACACAGGGGCTGTGAGGGTGCC
CAGTCACAAAAAACAAATGGGCACACTCGAGTTCCTGTGCCCTCAGAGCTTCCTGAAAGCAGAACCTTGGAGAGGATGGGCTGGTGCCAGGTTGCTGGTC
TTTGGGAGGGGTTAGTCTTGTGTTCCCACATAGCCACTGAGGCATTTGCTGGTGACAAGAGCGTTCCATGCAGCACGGTGCTCTCCAAGTTCCCACCCCG
CACCTCGGGGACTGATGGGCATATAGGGAGCGGGAGGCTGGCCCCCATCCTGTGACTGGTCCTGAGAGGGTGAAGGGAGCAGGGAAGAGCCACAGGCCAG
GACAGCGGCCACCCGCTGGCATCTTCTCTTGAGACAGCATTCCTTGCCATATCAGCCTCTCAGGGAAGGGAAGGGAAACGGGGTGACGAGTATTTACAAG
CCGAAAGGTGCGGACCTGATGCTCAGGGAGCCCACGACTTTGCCTAGAGTCACACAGCAAAGGGTGAGAAGAAGCAGGGCTGGATTTCAGTTATGTGGAT
ACTTGACCTGCCCCTCTCTCTGCTTAAAAACATGCCAGGAGGCCAGGAGAGGTGCGTGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCG
CGCGCGCGCGCGCTCGCACGCAAGTTCCAAAGAGTGGCCCCTGTTAATGTGGCAGTGGCTCAGGGGTCTTAGGCTCCCTGCTCAGGGCCCCAGCCCTCCC
TTCTGCCTCCCACCTTCCTAGCACTCGCCCCTGCCCACATTCAGGTATTAATAGAGTGGATGGCTGCCAGGAAGGCTGCCATGTGTTTGATCTGACGTGG
TTTTGCAGCCATATGTTCTCCACTTCAGGGGAGCACCCCCTCCTTTCCTTCTTCAGCCCTGCTCCATTTGGTAAGGTTGGGTGCAGAGGGTGCTGGCAGC
AATTCAGGGTCTGGGCTGACACCTTGGGTGGAGAGCTGGCAGCCTGTTGCACTAGTTGGGTGCAGCAGTCATTCCTAGAGCAGTGCCTGCCCCAGTAGGG
TAACTCCCATCGTTTCAGCCCAGCCTGCCTTCCTTTTGCTGTCTGGGCTCAGAAGGAGGACATGGGGAAGAGGTGCTTAGAGCCGGAGGGAACTTGGAGA
GCTTGCCATGCCCCTTCCCTTCGCCCAGGTCCAGCGACCTTCCCTTCCACACTGTCCTACCTCTGCTTCCTTGACTTTGGCTGAGAAAGAGCCCTCTGTC
TGACACAGAAGCTACCTTCTAGAAGAGAATGGGAACTGTTTACAGAGACAGAGTCCCTCTCAAGGCTGACACATGTTCCTTCCCACCCCTCAGGTCTGAA
GCTCATGGGAGCCCCGGTGAAGCTGACAGTGTCTCAGGGGCAGCCGGTGAAGCTCAACTGCAGTGTGGAGGGGATGGAGGAGCCTGACATCCAGTGGGTG
AAGGATGGGGCTGTGGTCCAGAACTTGGACCAGTTGTACATCCCAGTCAGCGAGCAGCACTGGATCGGCTTCCTCAGGTGCAGGCCTGTGGGGGAAGGTG
TGGGCTGCCAGCCAGGGGGCAGGCTATGCTCTTTCCTTGGGGATTGGGAGCTGGGGCCCTCTCCTGATGCCCAGAGGTCTGTGGTTTTTTTATTTGGCTA
CCTGTGGGACCTTCCAGAAGTGGGGGCAGGCTGAACTCATCAAGTTTGCCCAGCAGAGCTGCCGCCCTTGCCCTCGGAAGCAAGCCTCGTATCCTGTTTC
CACAGCCTGAAGTCAGTGGAGCGCTCTGACGCCGGCCGGTACTGGTGCCAGGTGGAGGATGGGGGTGAAACCGAGATCTCCCAGCCAGTGTGGCTCACGG
TAGAAGGTGAGGAGGCAGAGCCATATGGGCGTGTTGGCCTGGAGCACGTGCTGTCTGCTGGTGACTATACCTCTGCAGCGGAGAACTCAGTAGAAGCTGG
GCTGCCCCACTGCTCTGTGGGGCCTGGTTGTCCAGGCTGTAGGCCCACTCCAGATGTCGGAAGACCCTACCAGTTGGAGTTGGGTATCTGAGAACCAAGG
GACCAACTGGGATCCACAACCTGTGGGGTGCAGTCTGTTTCCGTTGCTTGAGCAACAAGCTTCAAGCATCCATCTGGGACTGGACCCTGTTCTGCCAAGT
GGCCTGGCCAGCAGGGGGAGGGGAGGAAGGCTCTGCAGCTGCGGGAGCTCAGAGCTGTTCAGCCCAGGAAAACAAAGTGACTAAGAAAGTAACAAAGGGC
CCTGAATGGGAGCTGGGGCCTGGCAGCAGAACTCTGCTAAAGCTCCCACCCACTCCCCTGAGTTTTATGCCCCTCTCCCAGCTCTCCACCCCCAGTCTCC
TCTCTTACTGCAAGAAGAGCTGTCCAAATCTGCCATGCCTAAGGGGGCAGCATGGAAGATGTGTCTAAGGTGCCAGGCATGGTGGCGTGTGCCTGTAGTC
CCAGCTACTCCGGAGGCTAAGGCCAGAGGATCACTTGAGCCCCCAGGAGTTCCAGGCCAGCCTGGGCAACATAGAGAGACCTCCCCACGACCAATCTCAA
AAAAAAAAAAAAAAAAAAAAAAATTCCTAAGGAGCCTGAAAAAGAGAAGCACCGCCTACCTCTCAAGCTAGATGCCTGTTCTGCTGTTGACCTAATCATA
AGGGGCCTGTGGGAACCTTCTGCGTGGAGGACTTCAGATGTAAACAGACTTGTGATTTGTACAGTAGGAAGCCAAGAGGTGGCAGGGCTCACTCCTCACT
CCCCTTCTCTCCTAGGTGTGCCATTTTTCACAGTGGAGCCAAAAGATCTGGCAGTGCCACCCAATGCCCCTTTCCAACTGTCTTGTGAGGCTGTGGGTCC
CCCTGAACCTGTTACCATTGTCTGGTGGAGAGGAACTACGAAGATCGGGGGACCCGCTCCCTCTCCATCTGTTTTAAATGTAACAGGTGAGCAGCCTCAG
AAGGGGGCTGGGAGTGGAGAAGGAGCTGGGTCCTGGAGGGCACTGAAGCTGGCAGTTTCAGCCACTGAGCTTGCGGTTGTGAGCGTCCAGAGCAAGCCCC
AGTGTCTGGGGACGTGAGCTGCACCATTACTAAGCTCATTAGTCAGGTGTGCTAGGCTGGCTGGGTGGGCTGATTAGTGGTGATCCTGCTGTGTGTGCTT
AAGGAGGGTGTGGGGCCACCTTTGGTTCACAGCAGTCCAGGCCATGCACAGCTGGCCCTCAGAGATGAATTGTATGAGACCAGGGGCACCCATCCCCCAC
CCCTCCCAAGGAAAGGAGCCAGAAACCAGCCCACGCAGAACTAGGGAGGAGTATCTGGCAGACACTGAGAAGACAAGACTCTCAGGCTGCAGAGAGGGGA
GAGGAGGGAGAGAGAAGGGGTAGGGGGAGGTTAGCACAAAGATACAGGGCCTCCTCCCCTAATGGCGCTTTCCGGGAAACCTCCACACGTTTTCTCAAAC
AACTGTGTCTGTCCATACCTCTGCACAGTCACACCTGCACACCCACCTGGGCCCCAAGTTTCTTGGGCACATACCCTCACATGCTTGTAAGGCTTGCTTA
TTTGTGAAACAAAGGCTTGCTTATTTGTTTCTGGTTGAGGCTTGAATTGGGCAAAAAAGATGGGAGTCTGAGCTTGGTCTCATGTGCTGGAAGGTGCCAG
GGAAATGGGCGCTGAGCTAGGTTCTCCAGCAATTTGAATCTTGACAAGAGGTGGACTATGAGACCTCTTGGAAGCAAGTGCAGGTCCTGTTCAGGAGGCG
CTGAGGTGGAGCAGATTAGAGAGGAGGTTGGGTTCACTTCCTTCCAGGTGTGCGTGGTTGGGACCCTCAGGCAGGCAGCCTGATAATAAGCACTCACTGA
ACTCCTACTCCACACCACACTGTGCTAGGCA


SNP Information

Context             (SEQ ID NO:54863):
CCTGGGGAAGCAAAGTAGAATTTCATAAGAACAAAATGGATGGAGAGGAGAAAACCTATGGTGGCTGTGAAGGCCCTGATGCCACGTATGTCAAATTGAT
R
TCATCTGATGGCCATGAATTTATTGTAAAAAGAGAACATGCATTAACATCAGGCACGATAAAAGCCATGTTGAGTGGCCCAGGCGTTTTATGGGTTTGGC
Celera SNP ID:            hCV25636987
SNP Position Genomic:     6159
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54864):
ACAGAGGAGACGGAAGTGAGCCACACACTCTGTGTCCTCGCCTCACCAGGAAACTACTAAAGTTCCTGGGGAAGCAAAGTAGAATTTCATAAGAACAAAA
Y
GGATGGAGAGGAGAAAACCTATGGTGGCTGTGAAGGCCCTGATGCCACGTATGTCAAATTGATATCATCTGATGGCCATGAATTTATTGTAAAAAGAGAA
Celera SNP ID:            hCV25636988
SNP Position Genomic:     6095
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54865):
ATGTTGAGTGGCCCAGGCGTTTTATGGGTTTGGCTTTTAAATTTAGGTCTTTGGTCTTAAGTTAATTTTTGTTTATGCTGTGAGGTCAGTTTGCTGAGAA
Y
GAAACCAATGAGGTCAATTTTAGAGAGATACCTTCACATGTGCTATCGAAAGTATGCATGTATTTTACCTACAAGGTTCGCTACACTAACAGCTCCATCG
Celera SNP ID:            hCV25636989
SNP Position Genomic:     6326
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,36)   total(C,69|T,1)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,32)   total(C,63|T,1)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54866):
TATCTTGTTTTTTTCATAGCAATCAAAGTTGAAATTTGTTTGCTACATCAACAAATTAAGAACATTTTCACAAACTGAGAAATAAACAAATATGCCAATT
A
AAAAAAAAAAAAGAAAGAAACAGAGACAGAGATATCTGGCCCCTGCCATCCATGTCTTGACAGTGCCTCATGAGTCTCTCCTCCTGCTGCCGCCTGGGGG
Celera SNP ID:            hCV26633721
SNP Position Genomic:     6731
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 UTR 3


Gene Number:                 280
Celera Gene:                 hCG1641131 - 209000073644476
Gene Symbol:                 PCDHB13
Protein Name:                protocadherin beta 13;PCDH-BETA13
Celera Genomic Axis:         GA_x5YUV32VUFE(34690517..34707560)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12440):
CTACAGTTGTGGCTACAATAAATTTTGGGAACCTAAGGCAAGTCAGCTTTAGGAATAAGAGTCTGCTTTAAATTAAACTAACTTGCTCATGCTTGTGTAC
TTATGAATTTTTTTGTAAATTATGAAAAACTGGAACTAAATGATGGGTTTACATAACATGTTCCACCCCAATCTCTTGCTTCATTTTCTGCCTGTTCACA
ATTCATTGCTATTAAGGAAATCTACAGAAGTGCCTTTTTATGCTGTTGTGTTGACCTATATATGCCTCATCTCATGGTTAATCCAGTTTCATAACTTCAG
AAAGGATTTCTGAGATGACCTTTCCTTTACCTTATCACGTAAGGAAAGCCAAGTAGTAATAGAATTTCATTCAGCTTAACAATCACTTATACCCTGCTTG
TTTCAGGCTTACAATTGTCTCAGAAACACTATGAATTCCTGGGAGCCAGGGATCACATCTTGTATCTGTGTTTACCACAACTGAACACATTTGGTTGTGA
GAAGAGTGGGGAAAGACACTGAATAAATGCTTTAAAACAAAATCATCATCACAAACTATAAAGAATATAAAACGATTATTATGGAAGATAAAATATATTT
TTAATTACTTCAACAGAAGGAATTATTTAAACGCAATATTTATTTGCTTCTGGAGGACATTTATGTAAATAAAATTTAGGTAGTGTTCATCAAACTGTGA
AAATCTGTGGAGACGCGTGGTGGCGCTGCAGGATAATATCAAGAAAAAAATTACCCTGGAGGATGTTGTAGACCCTGTTATCCAGTACACGCGGAGAACT
GGGAAGACAGAAAGAACAATCCTTTAAGGGAGAACCTAGAAGCCATTCAACAAGGTTAAAATCTTTAGGCTTCCGAGGATTTGGTAGACAGATCAGAGGC
ACGTTTCCCACAACTGCGAAGAGGCGCTGAGGCAATTCTGCAAGAAGATTTTGGGGTTTTGGAAAAGAAGCTATGGAAAACGGAGGGGCAGGCACTCTGC
AGATAAGGCAAGTCCTGCTTTTCTTTGTTTTGCTGGGAATGTCTCAGGCGGGCTCTGAAACTGGGAACTTTTTGGTGATGGAGGAATTGCAGAGCGGGAG
CTTTGTAGGAAATTTGGCAAAGACCCTGGGACTCGAGGTGAGTGAGCTGTCTTCGCGGGGGGCTCGGGTGGTTTCTAATGATAACAAAGAGTGTTTGCAG
CTGGACACAAACACTGGGGATTTGCTCCTGAGAGAAATGCTAGACAGGGAGGAGCTCTGTGGCTCCAATGAGCCTTGTGTGCTGTATTTCCAAGTGTTAA
TGAAAAACCCCACGCAGTTTTTACAAATTGAGCTCCAGGTCAGGGATATAAATGATCACTCTCCCGTCTTCTTGGAAAAAGAAATGCTCTTAGAAATCCC
AGAGAACAGTCCTGTTGGTGCTGTGTTCTTGCTTGAAAGTGCAAAGGATTTAGATGTAGGAATCAATGCTGTAAAAAGCTACACAATAAATCCGAACTCT
CATTTCCACGTTAAAATAAGAGTCAATCCAGACAATAGGAAATACCCTGAGTTAGTTCTGGACAAGGCGCTGGATTATGAAGAGCGCCCGGAGCTCAGTT
TCATCCTCACTGCTCTGGATGGCGGGTCCCCTCCCAGGTCTGGAACTGCCTTGGTCAGGGTGGTGGTTGTAGATATTAATGACAACTCCCCTGAGTTTGA
GCAGGCTTTTTATGAGGTGAAGATTCTGGAGAATAGCATCCTTGGCTCCCTGGTTGTGACCGTCTCAGCCTGGGATTTAGACTCTGGAACAAACAGTGAA
CTATCCTATACCTTTTCCCATGCCTCAGAAGATATTCGCAAGACATTTGAAATTAATCAAAAGTCTGGTGACATTACTTTAACAGCACCTTTGGATTTTG
AAGCAATTGAGTCATACTCAATAATCATTCAAGCCACAGATGGGGGAGGACTTTTTGGAAAATCTACAGTCAGAATTCAGGTGATGGATGTAAACGACAA
CGCTCCTGAAATCACTGTGTCATCAATTACCAGTCCAATCCCAGAAAACACTCCAGAGACTGTGGTTATGGTTTTCAGGATACGAGACAGAGACTCTGGG
GACAACGGAAAGATGGTTTGTTCTATCCCGGAGGACATCCCATTCGTGCTAAAATCTTCGGTAAATAATTACTACACTTTGGAAACAGAGAGACCGCTGG
ACAGAGAGAGCAGAGCCGAGTACAACATCACCATCACCGTCACCGACTTGGGGACCCCCAGGCTAAAAACCGAGCACAACATAACCGTGCTGGTCTCCGA
CGTCAATGACAACGCCCCCGCCTTCACCCAAACTTCCTACGCCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCAGCATCAGCGCCACA
GACAGAGACTCGGGCACCAACGCCCAGGTCAACTACTCGCTGCTGCCGTCCCAGGACCCGCACCTGCCCCTCGCCTCCCTGGTCTCCATCAACGCGGACA
ACGGCCACCTGTTTGCCCTCAGGTCGCTGGACTACGAGGCCCTGCAGGGGTTCCAGTTCCGCGTGGGCGCCACAGACCACGGCTCCCCGGCTTTGAGCAG
CGAGGCGCTGGTGCGCGTGCTGGTGCTGGACGCCAACGACAACTCGCCCTTCGTGCTGTACCCGCTGCAGAACGGCTCCGCGCCCTGCACCGAGCTGGTG
CCCTGGGCGGCCGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACGGTGACTCGGGCCAGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCA
CGGAGCCCGGGCTATTCGGCGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCAAGCACAGGCTGGTGGTGCT
GGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCCTCTCCCGGAGGCG
GCCCCGGCCCAGGCCCAGGCCGACTCGCTCACTGTCTACCTGGTGGTGGCGTTGGCCTCAGTGTCGTCGCTCTTCCTCTTCTCGGTGCTCCTGTTCGTGG
CGGTGCGGCTGTGCAGGAGGAGCAGGGCGGCCCCGGTCGGTCGCTGCTCGGTGCCTGAGGGCCCCTTTCCAGGACATCTGGTGGACGTGAGTGGCACCGG
GACCCTGTCCCAGAGCTACCACTATGAGGTGTGTGTGACTGGAGGCTCCAGGTCAAATAAGTTCAAATTTCTGAAACCAATTATCCCCAACTTCCTACCC
CAGAGCACAGGTAGTGAAGTCGAAGAAAATCCCCCATTTCAGAATAATTTGGGTTTCTGATAAAGAATGAAAAATAAAACCTGTGTTTATGAATACATTT
ATAATTAGGAACTTATCGTGAGGTGCCTGTAAAGTAGTATTTTTGATCACTTCAAATACATACTCTTCAAGTCAAGAAATAAATTTCTTTACATAGAAAA
GGATACAGATTTAGTACCAAGAACACTTCACAAAGCAGGAAATGTGCATGTGTAATGGTTTATGTCAAACAATTATGCTTAATATAAAGTCTATTAAGTG
GTAAGTCTTGTTTGAGATATTTTAAATTGCTTTCCATTGTTTTCAATATTTACTGTGACTTTTGTTTTCTGAGTTGATTAGAATGCTGTTCGAGTATACC
TACCCTAGTTTCAGAAGCATAGATTGTAGTGTACCTTTTTAAACTTTATTTTTTTAAAAAAAGTTGTTTTATGAATCATACACTATTTTCACACTTTTAA
TCTCAGAAGAAACATATGTGACATGGTATTTTAGTAATGACCAAATAGACGGTCTTAGAGATTCAGTAAGTTCACTAAGGTCCACTAACTAATAAGTGAC
AAAACTGAGCATCCATCCTAGATCTGCCTGACTCTAAGTCAGTGACTTTGCTCCCATTCCATACTGTTTTTGTCATTGGATATCACCTGGCAAGTTTCTG
CCTAACTAAAGAGAAGAAAAGTTTTTATCGTATTCATACTACTGTTCAATCTTTATTTAGAAATAAACTTTATCTATGATTTCATTTTCTTATAAACCAG
TAATCTTGCTTTTCTGGGTAAATTTTCAGCTATTATTACTAATGCTCTGATCTGCCCAAATCTTAAGTAAAAAACAAAATTGAAAGAGCAACCTGTGCCT
TCTCATTGTCTCCTGAACATATAACTATCATTTCACAGAAAAGATTAATGGTCCTGATTAGGAATAGTACATAATTTTGATGGCATTATTAGTTAATTAT
TTTCTTTACATTGTAGTATATTTCCAGAGTCACCCATGCTTACATTTGTAATATATTTTCCTGATTTGAGAGTTTGTTTTTAGCAGTTTTTCTTACCTAT
ACTGCACTGCTGAATCAGGAAAATTTAAGAAAAAGAATAGATTTAAATGTGTAATATCAAAGAGAAATATAGATGATCATTAAATTTTTAGAAATTTTGG
GGAGTTAAGGAGAAGCATTGTTTGTTAAAAATATATAACCGATTCTTATATTTAAAATAGGTAATTTTTGCATAGTTGTGTTCTAAATATATTATAAACT
AGTGCCAGTAACTCTAATAAAGCTAGTATTACTGCATATCACTGGTGGGATAGAATCTAAGGACAAAAACTCACAGTAGTAAAATCTAAAATTGCTTTCA
TGGTCTCAGGGTAAAATTATCCAATTTCTCTGACAAATAAATGGCTCAAAAAATAAGAGGAGTGAAGTTTACACAAGGAAAAATCTTAAGAGGTCTACCA
CTCAAATACAATGTGTGGATCTTTTTTGGATCTTGATTGAAACAACAGCAATGACTTTGAAAAACTTGGAAGAATTTGAATATAGATGGGTATTAAATAA
TGTTAACTTGATTTTTAGGTATGATAATGGCATTGTACTTAAGCATATTTTTAGAGTCATTTAAAGTCATGATGCTTTTAAAGAAATGTATAATGACGTA
TTTGTGGGAGAAAATTCAGTTTGTCTGGGATGTGAAAATGTTGAAGGGATAGAGTCAAGAATTATGGCAAAACATTGATAATAGTTGAAGCTAGTACTGA
GTCCTTGGAGGATCATTATACTCCTCTCTTTTATGAGATTTGAAAAATTTCAAAATAATGTCTTTTAATTGATGCTGTTAGAAGTGGAGGTAATAAAAAA
GGACATCCTTCCCAGAAACAAAATCACCACTGCTGTTACAGATATTGTCTCTATTTAGACAAACTCTCCAGCCTTTCCTTGTTCATTTCCTTTCATTATT
GGACATAACCTCTCTACCTGAGATAGTCATGCTCCTGTATTCTTCTACCATTTGAATTTCGAGGTGTTTATCTAGTTATAGTAATGGATTTATGCTAGAC
TTATGATGGATTTATGCCATCAAGACTCAGTTACTTGATGGCATCAAATTGCTTTATACTTGGTATATACCTTATTTTTAAGGTTAATATCTATTTGCAT
TAGATTCCTCATGTTTAAGGTGGGGAATTCACAACAGCCCTATGTGGTAGGTACTGTTCTTATCCTCACTTTACAGAGGAGCAAACTAAAGCAGAGAGAT
TAAATAATTTGTTCGAGGTTCACAGCTACTAATTATTCCTATGGTTCATGGAAATAAAACTATAAAGATCTAAATGTTGTCCATGATAACTACAATTATA
TTTGAAATTCTTTTTGCCAAGCTAGACTATTACCTAAATATTTCCTTTTTGCCCAAAACTCAGTTATCATTGTTGAAAGACTAATGTGATTTCTCCTTTG
GGCAGTTGTCTGCTCACTAAAGTCCGGCGATATTAACGGTGGTGTTGTAACCTTACATAGTCTCGGGGTGCATACAGGCAGAGTTGGGAATATTACATCC
ATTATCATTCCACAAAATGTAAGATCCTGTGAGGACGCGTGGTGGCGCTGCAGGATAAGAAGGCACAAACCAGAACCGCAGCTGCAGCTCCATTAACCGG
CAAAAAGCAGCAGAACCTGGAAGTCCACGGGGAGCTTGGATGCCAAAGGSAGGACGRCTGGGTCCTCTGGAGAGGACTACTCACTGGCATATTTCTGAGG
TATCTGTAGAATAACCACAGCCTCAGATACTGGGGACTTTACAGTCCCACAGAACCGTCCTCCCAGGAAGCTGAATYCAGCAAGAACAATGGAGGCCAGC
GGGAAGCTCATTTGCAGACAAAGGCAAGTCCTTTTTTCCTTTCTCCTTTTGGGCTTATCTCTGGCGGGCGCGGCGGAACCTAGAAGCTATTCTGTGGTGG
AGGAAACTGAGGGCAGCTCCTTTGTCACCAATTTAGCAAAGGACCTGGGTCTGGAGCAGAGGGAATTCTCCAGGCGGGGGGTTAGGGTTGTTTCCAGAGG
GAACAAACTACATTTGCAGCTCAATCAGGAGACCGCGGATTTGTTGCTAAATGAGAAATTGGACCGTGAGGATCTGTGCGGTCACACAGAGCCCTGTGTG
CTACGTTTCCAAGTGTTGCTAGAGAGTCCCTTCGAGTTTTTTCAAGCTGAGCTGCAAGTAATAGACATAAACGACCACTCTCCAGTATTTCTGGACAAAC
AAATGTTGGTGAAAGTATCAGAGAGCAGTCCTCCTGGGACTACGTTTCCTCTGAAGAATGCCGAAGACTTAGATGTAGGCCAAAACAATATTGAGAACTA
TATAATCAGCCCYAACTCCTATTTTCGGGTCCTCACCCGCAAACGCAGTGATGGCAGGAAATACCCAGAGCTGGTGCTGGACAAAGCGCTGGACCGAGAG
GAAGAAGCTGAGCTCAGGTTAACACTCACAGCACTGGATGGTGGCTCTCCGCCCAGATCTGGCACTGCTCAGGTCTACATRGAAGTCCTGGATGTCAACG
ATAATGCCCCTGAATTTGAGCAGCCTTTCTATAGRGTGCAGATCTCTGAGGACAGTCCGGTAGGCTTCCTGGTTGTGAAGGTCTCTGCCACGGATGTAGA
CACAGGAGTCAACGGAGAGATTTCCTATTCACTTTTCCAAGCTTCAGAAGAGATTGGCAAAACCTTTAAGATCAATCCCTTGACAGGAGAAATTGAACTA
AAAAAACAACTCGATTTCGAAAAACTTCAGTCCTATGAAGTCAATATTGAGGCAAGAGATGCTGGAACCTTYTCTGGAAAATGCACCGTTCTGATTCAAG
TGATAGATGTGAACGACCATGCCCCAGAAGTTACCATGTCTGCATTTACCAGCCCAATACCTGAGAACGCGCCTGAAACTGTGGTTGCACTTTTCAGTGT
TTCAGATCTTGATTCAGGAGAAAATGGGAAAATTAGTTGCTCCATTCAGGAGGATCTACCCTTCCTCCTGAAATCCGCGGAAAACTTTTACACCCTACTA
ACGGAGAGACCACTAGACAGAGAAAGCAGAGCGGAATACAACATCACTATCACTGTCACTGACTTGGGGACCCCTATGCTGATAACACAGCTCAATATGA
CCGTGCTGATCGCCGATGTCAATGACAACGCTCCCGCCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCSG
CAGCGTCAGCGCTACAGACAGAGACTCAGGCACCAACGCCCAGGTCACCTACTCGCTGCTGCCGCCCCAGGACCCKCACCTGCCCCTCACATCCCTGGTC
TCCATCAACGCGGACAACGGCCACCTGTTCGCCCTCAGGTCTCTGGACTACGAGGCCCTGCAGGGKTTCCAGTTCCGCGTGGGCGCTTCAGACCACGGCT
CCCCGGCGCTGAGCAGCGAGGCGCTGGTGCGCGTGGTGGTGCTGGACGCCAACGACAACTCGCCCTTYGTGCTGTACCCGCTGCAGAACGGCTCCGCGCC
CTGCACCGAGCTGGTGCCCCGGGCGGCCGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACGGCGACTCGGGCCAGAACGCCTGGCTGTCGTAC
CAGCTGCTCAAGGCCACGGAGCTCGGTCTGTTCGGCGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCAAGC
ACAGGCTGGTGGTGCTGRTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCT
GCCTCTCCCKGAGGCGGCCCCGACCCAGGCCCAGGCCGACTTGCTCACCGTCTACCTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCTTTTCG
GTGCTCCTGTTCGTGGCGGTGCGGCTGTGTAGGAGGAGCAGGGCGGCCTCGGTGGGTCGCTGCTTGGTGCCCGAGGGCCCCCTTCCAGGGCATCTTGTGG
ACATGAGCGGCACCAGGACCCTATCCCAGAGCTACCAGTATGAGGTGTGTCTGGCAGGAGGCTCAGGGACCAATGAGTTCAAGTTCCTGAAGCCGATTAT
CCCCAACTTCCCTCCCCAGTGCCCTGGGAAAGAAATACAAGGAAATTCTACCTTCCCCAATAACTTTGGGTTCAATATTYAGTGACCATAGTTGACTTTT
ACATTCCATAGGTATTTTATTTTGTGGCATTTCCATGCCAATGTTTATTTCCCCYAATTTGTGTGTATGTAATATTGTACGGATTTACTCTTGATTTTTC
TCATGTTCTTTCTCCCTTTGTTTTAAAGTGAACATTTACCTTTATTCCTGGTTCTTAAAAGGTGACAATTCATTCTTTAACCCAGATGGTCTTAATTTGT
AATTAATTTGCCTCCCTAAAGAGCAATACCAAATCACATTTTTTTCATGCCCCTATCTTTAGCTGAACTTCACCCACTATTATGCTTATGGTAAAATTAA
ATAGAGCAATTTGGAAGTGATTCCAATTTTCCAGCATTTCTTCATTTGATTCTCTTTTTTTAGTCTTAAAATAATGACTCCTATTCAGACATATCATTTT
TCTTTTTTGTAAATCCAGTGCGTTTTTAGTTAACCTTTAAATATGCTTTTTGCTTTCAAAAATAAACCAGAAAACCTATATCCTATGATACAACTCTAAG
TGTTATCACTTGATTCGAAAGGGTCAGAAGACCAGTTTTTTAGTATCCTTTCCTCATTCATCCTGGAGAGGATTGTGCAGGCACATTAATATTGTGRCCA
ATCACAGAATCTGGGAATATGAAGCTATAATTTTTTAATTAATGTCACAAAGCTCTAGTGCAATCTAGTTGAATGCAGATGCCTGTGCCCAAATAATAAT
TCATATAGCATAAATTGGAGTTGTGTGTTAATGTGTAAAAATTTTTGCCTGTACTATCATATAATTTAATGTATATACACCAGAAACTATTTTTCAAACT
TTTTTTACTGCAACCAATAGTTAAGATTATATTTTACATATTTTGAAACACACAAGCTTAATAGAAATAAATGCTTGTGAACAATGCTTAGTCTTTTTAT
GACATAATTTGAAATTACCTATATATTTCATTCTATTCAATTTTCAAATGTGGTCATGATCCACTAAATTTATTTCATGGTATACTAGTGGGTAGTAACC
CAAAGTTTGAAAACCACTTTTCTCAGACATATAAAAGCATACCAGATGTTGAACATTGATAGTATCAAAAGATAGTCCCTTAGGGTTCTAATTTTAAAAA
AATTTTCAAAGCATTGTAGGGGAGTAGCTTTGTCTCATGTTAAATCACTCTTACCTTTAAGGATCTGACACACTATGTAAGAAAAAGACTTCAAGGTTGG
AGGAGGAGATTTTCCATGACTTTTATCAAAGTCTACAGTCTATGTTGTGGGAGAAAAATGTAGAATAACAAAATGAGTAAAAGTATAGAGGCAAAACAAG
CATGTGTATGAGAGAGAGAGAGAAAGCATGGAAAAGAGGAAATTCATGGGGATGAGCAAAATGACTACTTCCAGTGCCACAGACTAGACTCAGTTGCTTC
TCTTATGTTATTTTTTGAGACAAGGTCCTGTTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCCACTCACTGTGATCTCCACTCACTGCAACCTCC
ACCTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCCTAGTACCCAGGACTACAGGCCCAGGCCACCACACCCACTAATTTTTGCATATTTAGTAGAG
ACGAGGTTTCATCATATTGCCCAGACTGGTCTCGAATTCCTGAGCTCAAGCAGTCTGCCTGCCTCAGCCTCCCAAAGTGCTATGATTACAGGTATGAGCA
CCTGGCCTCAACTACTTCTTGAAGATATTTTAAAACTTTATCTTAACATTGTAGAGGGACTGGGTATTAGTCAGTTGATAATGCCAAGAAGTGCAATCTC
TTTTAATAGCATATCTAAGACAACCTAATGTTTATACTTCTGACTCAGATTTCACTACTGGTTCTGTTGAGCTTTGTCAACTGAGTAATTATTCTTTTCT
TTTTTCTTTCTTTGTTTATGTTTTAGAGACAGGGTCTTAGTCACCTAGGCTGGAGTGCAGTGGTGCAATCATAGCTCACTGAAGCCTTGACCTCCTGGGC
TCAAGCAATCCTCCTGACGCAGCATCCCAAGTAGCCGGGACCACAGGCACATGCCACCCCCCACAGCTATTTTTGTTTGTTTGTTTGTTTTTTGTTTTGT
TTTGTTTTTGAGRCAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCCCGCCATTCT
CCTGCCTCAGTCTCCCGAGTAGCACCCCCAGCTATTTTAAAAAAAATTTTTGTAGAGATGGGTTCTCATCATGTCGCCCAGGCTGTTGAACTTCTGGCCT
CCAAAGGTGGGAGTTATTCTAGCAGCTTCCCTGTGATCTTCTCATATCTACTGGTGGAGTGGGAAAGAGTAGTTCAAACAACTCAGACAGAAAATCTCGC
TGGTGCAACAGTGGAGAGAAGGGCCAAGTACTTGTYCTGTTACTTCCAGTTTTTCTAGATATATGAGCAGCAGGACTCCTCTCTTTATAAAAAGAACTAT
GAGTTTCCTGGCTCTAATGAAGAGTGACCAGGCATTCAGGAGCTCAAATGCCCAGATACATATAACCAACCAATTCTCCTAGAATGCATTGCTAAAAACG
AATTTTGCTTATATGCTTCAAAGACCTCATTTATAGTTATACTTAAAACAGTGCATAGGAATCAAGCTGTATCAGCCAATTTTATATGAAAGAACTATAG
GTTGTAAGTAACTTAGAATATAATTTTTTATCTAGCGGGGGTTAAAGGACACTTAGAAAATAGAGACACAAGAGATGGCCCAGCCTTACAGAATGGATTC
TCCTGAAAACGCTTACAATAAAAACCAAATAACAGTATTTTTTTTTTATTTAGGCAATAGTATGGGAGGGAAAAGGGACATAGGACATTTTATCTTACAA
ACACATTGTTCTCTTTATCTTTCTGTTTCAAGTTCTACCACCACTCCTGGGTCCACTGATTAATCTAACAACATGGCCTCTCAGTCCCTAAGTCTTTACC
TCTACTCCTGTTTTTCAGTCATTAATGCCCTGGCTACATATTGTACTTTTTCCCCACCAAGAAACTGTTCTATGATATAATAATTTCAGCTATCTCCCTC
TGAGTGCACAATTGTCTATGCCTATAACCTTCTCATTCTGCTGTTTCTATCACATCTTGTCTTTGACCTTATCAGAGCTCCATTCCATGGTGCTGTTACT
ACCTATCAAACGCTCCTGTTTTAATTTCCTTCCTATTCAGCTGATTTCCTGGTTTACCACTCCCAGTTGCTCTCATGCCCATATTCTCAATTCCCTTGTT
CAATTTTCCTTCACTAAAACCACCTGATGAAACTCCAGCCCAGATGAATATAGTCCTCCTCCTCTCTTACACATGGGGTGCTGCACTCTATAAGACCAAA
CTTACAAAATTAGCAATACCACTGCCACTATAAATGTATAATATTCAAACCTAATTGGGCTTCTGAGACCAAGAACTCCTTTTATAATTTTTCTAACGAG
CTTTCTCTTCTACGCTCCACAACAACTATTTTAAACCTACGTATCTTACTTTAAACTTCTTACCCTACCACTTAGATACCCCCTTTTATCCGATGAACTT
GCCTGATACCTTATTGAGAAAATAGAATCCATCAGCTAGAAATTCATTTTCCTGTCCCCTACTCCACAGCTTTAACAGCATCTGTATCTATACTTTTCAC
CTGCTGAGGTCCGTCCCACTGGTCTAAATCCAAACACTTCATACATTGCCTGGATCCCATCTTTAACAACCTTTCTAGGGGACTTGCATTATCCCTTCTG
TATCTTAATTTTCTCCTTCCCTACTGAACATTACACATTGGCATTTTAAATATATTCAAGTTTCTCTAGTCTTTAAAATACTCTCTGAGTCTGAATTCTT
CTCCAGATACCAATGTATTTCTTATTCCTTTTACAGCCTTTTCATTCTTTACAAATTTCTTGAGAGCCTGGATGCAGTGAGCCAGTGAGCCTGGGTGACA
GACTGAGACCCTGTCTCAAAAAAAAAATTGTTGAAAGAGCGGTTTACCTCATTTTTGCTTCCTCATCCGCCTCACTTTGCACCGAAGTACAATCTAATTT
TCATCACAACCATTCTACTGAAACTGCTATTGCAAATGTTATCAAAGATTTCCATATAAGTTAAGATTATACTGTGGAACCAATGTGATGCAATGACACA
GTGGCTTGTAAACATGTCTCTCTTTTTCACATGACAGTACCAATGTAAAAATTATTAGGTAGGTAGGGCAGCTTTCATCCTCACAGTCCTTCTGAAACCA
AATTTTCTTTCAAGTAATTTCTTCAACATTCCCTATGGCAATATAATCTGCATGGCTGTAGCTGGGTCACTGTCACATCTGGGTTCTAGCTCGCTTGGAA
GAAAGAGGCATATCCAGATGATTTCTGTTCTATAACTGGAAGGGGAAGACAGAAATTCTGCTCACAATCCATCTGTGAGAACTTAATTCACTTGGCCACA
CTCAAATACAAGGGAGGCTGGGATGGGCAATCTACCTTCATGGCCACATACCTGGGCACAGTTCTATTACTATAGAAGCAAAGGAAAACAGATTTTGTCA
GACATCTATCAGAATCCTCCACAATGACCATCTTTTTAAGCCCACTGGATAATTGTCATACTTATTTTTCTTGATTTTTCTGAAGCATTTGCAGCCATTG
ATCTTCCTTATCTCCTTAAAATGCTATTTGCTTTTGATTTCATGATTTTGAACTCTGAGCCTTCTTTATCTTTTCAAATATACTTCTTGCCCTGTCTCCT
CTAAATGAAGATGTTTCTCAGAGTTCTGTGCCAAGCCTCTTTTATACTTATTTGACACACTTTTGCTTGGTTATCCTAGAGCATTCATGGTGTGTATATA
TATATATATATATATATATATGGTGATTGAAACCATGAATGCTATATATATATATATGCTATATATATGCTCTCTGTATATATGCTATATATATGCTCTC
TCTCTATATATATGCTATATATATGCTCTCTCTCTCTGTCTCTCTCTGTCTCTCTCTATATATATACATATATACACACCACAGTTCATATTGCCAGCTC
AGATTTATTTCCTATGCTTTGGTTATATGCAAACACACACACACACACCCCACCACCACGCAAACACACATCCTACAGGCACTTACCTCAATATCAGCAT
GTTCAAAACTGAACACTTCATCTTTTTCCACCCCAATCATGTTTTTTTTTAGCATTCCCTGTCCTAGTGAATGACACCACTAGTCATCCAGATGCCCAGT
CCAGAGGTGTGATATCATCTCTGAGTCTTTCCCATTTTTCTCCCCATGCAACCTATCAACCAACAGTTGAAAACATTTCATCTCCTCATACCTTTCTATT
CATCCCTCTTCTCTCCATCCACACTGGCATTATCCTCATCCAGATCATCATCTCTTATCTGATCTCCTTGATTCTCCAGTCACTCCCCCTGAAATTAATT
CTCCATACTGCAGCCAAACTGATTTTTTAAAATGCAGATGTAATCATGTTAATCAGATATTTAAAACCCATCTTTGTACTTGAATTACCTTTAGGATAAA
TTCAAGAATGCATGATATGACCTGTATAATGATTCATGTTCTCACCATGCTTTTAACCCTAATTTCATTGTTAGACCCTCCCCTTCCATAGTTTTTAAAG
TCCAAGGCATACTTCATTTCTCTGTGTTCCTCAAAATGCCCATCTGAAATATTCCTCCTTCTCCTGGCTAGTTCCTTCAGATCACAATGTATTTTTCATT
ACCTCAGGAAAGCTTTCACTGATGTCCCAAGTCCGACTTTGATCTTAATTATTTTATTTTTGACAGACACTTAACCAGCACTTACAAACCACTTTGTAAA
TATTAATTCATTAGATGCCTACGATAATAATCATAGGAGACAAATATTATTACCCCATTTTACAGGTGAGGAAACAAAGGTATCTATAACTTGCCCAAGC
TTATAGATAGTAAGTCACATAACCAGGATTCTAATATTGATAATTTGGTTCCAGATCCCATATTCCCAAGCACTAAGGTATGCAGCCTCCTAGGTACAAG
AAGTCTTTTCTAGGTATTTCTATATTACTTTTTATAAATGCATACATTATGACATACTTCGTTTACTTGTCTGCCAATTTTTCTAGCTTGTGAGCTCTGT
AAGAGCAAGAATTATCTCTAACTTATTTGTGCCATGTCCTTCTTTATATTTTTAAAATATAAAAGTGAAAAAAGTAATGATATTACCAACTATAGCTGAC
AACAAGTATTTACAAGAGTGAAGGAGATAATATATTTGTAATTACTCGAGAAATGACTTAAATAAAAAATTATTTCTTCAGTTCAGAATATTTTAACAGA
TCCTTTAGTGCCGAGCATTCAAAACAGTGATAATGCAGTGTATGGACTTTTCTGGATTCAAATTCAAACAAACCAACAGCAAAGGACATTTTGGAGAGAA
CTGGGGAAAACCAAATGCAGTATAAATTACACCAAGGAATTATTGCTCAAGTTGTTGATTGTGAACGTTTTATTACAATTATCTTTTAGAAGGCCTTACC
TATTAAAAATACTTAGTGAAGTATTTAAAGGAAAAAAAATGATGTCTGGGATTTGTTTCGAATGTTCCGGATGTATTTATGAATTACTTTTTCAAAGAGG
AAAACTTTTTTAATGAAAAAAAAAACATGGAGACACATGGTGGCGCTACAGGATAAGACGAAAACAGTACATAGGCTGGCACGGTGAGCTTCGCTATTCA
GGAGAACAGAAAGCATCCAACCCACTGAAAAGACAGGCATTAAAGGAGCTTCGCCTACAGAGCTGCTGGAGGATACACTCTCCAGGGGGTTCCTGTTAAA
AACCAGAGCTTCAGCTTCCAAAATTACGGCTGAGCTTCAGTTTTTCCACAAGAGATTGCCTAAAGGAACCATGGAGATCAGAGGGGCACTCGATCTGCGA
AAAAGGCAAGTTCTAATATTCCTTGTTTTGCTGGGATTGTCTCGGGCAGGTACTGAATCTGCACACTATTCTGTGGCAGAGGAAACAGAAATTGGCTCTT
TTGTGGCTAATCTAGCGAGGGACCTAGGGCTGGGGGTGGAGGAGCTGTCTTCACGTGAAGCCCGGGTAGTGTCTGATGATAATAAAAAGTATTTGCACCT
TGATTTGCTGACTGGGAATTTGCTCCTAAATGAGAAACTAGACCGAGACGAGCTGTGTGGCTCCACCGAGCCCTGTGTGCTGCATTTTCAGGTGGTTTTG
GAAAACCCTTTACAGTTTTTTCGGTTTGAGCTGTGTGTCAAAGACATAAATGATCACTCCCCTACATTTCTAGACAAGGAAATACTTATTAAAATATCAG
AAGGTACCACTGTTGGAGCTACCTTTCTAATGGAGAGTGCTCAAGATTTGGATGTCGGAAGCAACAGTCTCCAAAACTACACAATTAGCCCCAATTCTCA
CTTCTACATTAAAATTCCCGACAGTAGTGACAGAAAGATATACCCAGAGCTGGTCCTAGATAGAGCTTTAGATTATGAACAGGAAGCTGAACTCAGATTA
ACACTCACAGCAGTGGATGGTGGATCCCCGCCCAAGTCTGGGACAACTTTGGTTCTCATCAAGGTGTTGGACATCAATGATAATGCCCCTGAGTTTCCTC
AGAGTCTCTATGAGGTGCAAGTCCCCGAGGACAGACCCCTTGGCTCCTGGATTGCCACCATCTCAGCTAAGGATCTGGATGCAGGAAACTATGGAAAAAT
ATCTTACACATTTTTCCATGCATCAGAAGATATTCGTAAAACATTTGAAATTAATCCAATATCTGGGGAAGTTAATTTGAGATCACCCCTGGATTTTGAA
GTAATACAGTCCTACACTATAAATATTCAGGCAACAGATGGTGGGGGTCTTTCAGGAAAATGCACCCTTCTAGTTAAAGTTATGGATATAAACGACAACC
CACCAGAAGTGACCATATCGTCGATTACAAAGAGAATTCCAGAGAATGCCTCAGAGACCCTAGTAGCTCTTTTTAGTATCCTAGACCAAGACTCTGGAGA
CAATGGGAGGATGATTTGCTCTATTCAAGATAACCTCCCTTTTTTCCTGAAACCGACCTTCAAGAACTTTTTCACTCTAGTTTCTGAAAAAGCACTGGAC
AGAGAGAGCCAAGCCGAGTACAACATCACGATCACCGTCACAGACTTGGGGACACCCAGGCTGAAAACCGAGTACAACATAACCGTGCTGCTCTCTGACG
TCAATGACAACGCCCCCACCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCAGCGTCAGCGCCACAGA
CAGAGACTCAGGCACCAACGCCCAGGTCAACTACTCGCTGCTG


SNP Information

Context             (SEQ ID NO:54867):
TGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCCTCTCCC
K
GAGGCGGCCCCGACCCAGGCCCAGGCCGACTTGCTCACCGTCTACCTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCTTTTCGGTGCTCCTGT
Celera SNP ID:            hCV25637064
SNP Position Genomic:     8210
SNP Source:               Applera
Population(Allele,Count): african american(G,18|T,2)   caucasian(G,18|T,2)   total(G,36|T,4)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54868):
TGGATGGTGGCTCTCCGCCCAGATCTGGCACTGCTCAGGTCTACATCGAAGTCCTGGATGTCAACGATAATGCCCCTGAATTTGAGCAGCCTTTCTATAG
R
GTGCAGATCTCTGAGGACAGTCCGGTAGGCTTCCTGGTTGTGAAGGTCTCTGCCACGGATGTAGACACAGGAGTCAACGGAGAGATTTCCTATTCACTTT
Celera SNP ID:            hCV27521783
SNP Position Genomic:     6935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54869):
CCCAGGACCCGCACCTGCCCCTCACATCCCTGGTCTCCATCAACGCGGACAACGGCCACCTGTTCGCCCTCAGGTCTCTGGACTACGAGGCCCTGCAGGG
K
TTCCAGTTCCGCGTGGGCGCTTCAGACCACGGCTCCCCGGCGCTGAGCAGCGAGGCGCTGGTGCGCGTGGTGGTGCTGGACGCCAACGACAACTCGCCCT
Celera SNP ID:            hCV11840115
SNP Position Genomic:     7766
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,8)   total(G,8|T,4) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54870):
GACCGTGCTGATCGCCGATGTCAATGACAACGCTCCCGCCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATC
S
GCAGCGTCAGCGCTACAGACAGAGACTCAGGCACCAACGCCCAGGTCACCTACTCGCTGCTGCCGCCCCAGGACCCGCACCTGCCCCTCACATCCCTGGT
Celera SNP ID:            hCV11840117
SNP Position Genomic:     7599
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,8)      total(G,4|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54871):
ATCTTCTCATATCTACTGGTGGAGTGGGAAAGAGTAGTTCAAACAACTCAGACAGAAAATCTCGCTGGTGCAACAGTGGAGAGAAGGGCCAAGTACTTGT
Y
CTGTTACTTCCAGTTTTTCTAGATATATGAGCAGCAGGACTCCTCTCTTTATAAAAAGAACTATGAGTTTCCTGGCTCTAATGAAGAGTGACCAGGCATT
Celera SNP ID:            hCV8939663
SNP Position Genomic:     11036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:54872):
CCTGACGCAGCATCCCAAGTAGCCGGGACCACAGGCACATGCCACCCCCCACAGCTATTTTTGTTTGTTTGTTTGTTTTTTGTTTTGTTTTGTTTTTGAG
R
CAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCCCGCCATTCTCCTGCCTCAGTCT
Celera SNP ID:            hCV8939664
SNP Position Genomic:     10713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:54873):
CTACTCACTGGCATATTTCTGAGGTATCTGTAGAATAACCACAGCCTCAGATACTGGGGACTTTACAGTCCCACAGAACCGTCCTCCCAGGAAGCTGAAT
Y
CAGCAAGAACAATGGAGGCCAGCGGGAAGCTCATTTGCAGACAAAGGCAAGTCCTTTTTTCCTTTCTCCTTTTGGGCTTATCTCTGGCGGGCGCGGCGGA
Celera SNP ID:            hCV26312310
SNP Position Genomic:     6177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:54874):
AAGAAGGCACAAACCAGAACCGCAGCTGCAGCTCCATTAACCGGCAAAAAGCAGCAGAACCTGGAAGTCCACGGGGAGCTTGGATGCCAAAGGGAGGACG
R
CTGGGTCCTCTGGAGAGGACTACTCACTGGCATATTTCTGAGGTATCTGTAGAATAACCACAGCCTCAGATACTGGGGACTTTACAGTCCCACAGAACCG
Celera SNP ID:            hCV27834245
SNP Position Genomic:     6057
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 UTR 5


Context             (SEQ ID NO:54875):
TAAGTGTTATCACTTGATTCGAAAGGGTCAGAAGACCAGTTTTTTAGTATCCTTTCCTCATTCATCCTGGAGAGGATTGTGCAGGCACATTAATATTGTG
R
CCAATCACAGAATCTGGGAATATGAAGCTATAATTTTTTAATTAATGTCACAAAGCTCTAGTGCAATCTAGTTGAATGCAGATGCCTGTGCCCAAATAAT
Celera SNP ID:            hCV2589322
SNP Position Genomic:     9197
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:54876):
AAGTATCAGAGAGCAGTCCTCCTGGGACTACGTTTCCTCTGAAGAATGCCGAAGACTTAGATGTAGGCCAAAACAATATTGAGAACTATATAATCAGCCC
Y
AACTCCTATTTTCGGGTCCTCACCCGCAAACGCAGTGATGGCAGGAAATACCCAGAGCTGGTGCTGGACAAAGCGCTGGACCGAGAGGAAGAAGCTGAGC
Celera SNP ID:            hCV25952830
SNP Position Genomic:     6713
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,1|T,1)   total(C,31|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54877):
GGAGCTCGGTCTGTTCGGCGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCAAGCACAGGCTGGTGGTGCTG
R
TCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCCTCTCCCGGAGGCGGC
Celera SNP ID:            hCV26312307
SNP Position Genomic:     8118
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54878):
TCCAGTTCCGCGTGGGCGCTTCAGACCACGGCTCCCCGGCGCTGAGCAGCGAGGCGCTGGTGCGCGTGGTGGTGCTGGACGCCAACGACAACTCGCCCTT
Y
GTGCTGTACCCGCTGCAGAACGGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCCGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACG
Celera SNP ID:            hCV26312308
SNP Position Genomic:     7868
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54879):
ACAAAGCGCTGGACCGAGAGGAAGAAGCTGAGCTCAGGTTAACACTCACAGCACTGGATGGTGGCTCTCCGCCCAGATCTGGCACTGCTCAGGTCTACAT
R
GAAGTCCTGGATGTCAACGATAATGCCCCTGAATTTGAGCAGCCTTTCTATAGAGTGCAGATCTCTGAGGACAGTCCGGTAGGCTTCCTGGTTGTGAAGG
Celera SNP ID:            hCV29063510
SNP Position Genomic:     6881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:54880):
GCAGGATAAGAAGGCACAAACCAGAACCGCAGCTGCAGCTCCATTAACCGGCAAAAAGCAGCAGAACCTGGAAGTCCACGGGGAGCTTGGATGCCAAAGG
S
AGGACGGCTGGGTCCTCTGGAGAGGACTACTCACTGGCATATTTCTGAGGTATCTGTAGAATAACCACAGCCTCAGATACTGGGGACTTTACAGTCCCAC
Celera SNP ID:            hCV27855689
SNP Position Genomic:     6050
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,30)   caucasian(G,36)   total(C,4|G,66)
SNP Type:                 UTR 5


Context             (SEQ ID NO:54881):
ACAACAGCCCCGCCCTGCACATCCGCAGCGTCAGCGCTACAGACAGAGACTCAGGCACCAACGCCCAGGTCACCTACTCGCTGCTGCCGCCCCAGGACCC
K
CACCTGCCCCTCACATCCCTGGTCTCCATCAACGCGGACAACGGCCACCTGTTCGCCCTCAGGTCTCTGGACTACGAGGCCCTGCAGGGGTTCCAGTTCC
Celera SNP ID:            hCV15947542
SNP Position Genomic:     7676
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,8)      total(G,8|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54882):
TCAATCCCTTGACAGGAGAAATTGAACTAAAAAAACAACTCGATTTCGAAAAACTTCAGTCCTATGAAGTCAATATTGAGGCAAGAGATGCTGGAACCTT
Y
TCTGGAAAATGCACCGTTCTGATTCAAGTGATAGATGTGAACGACCATGCCCCAGAAGTTACCATGTCTGCATTTACCAGCCCAATACCTGAGAACGCGC
Celera SNP ID:            hCV25951772
SNP Position Genomic:     7172
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,2)   total(C,1|T,31)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54883):
CCCCAATAACTTTGGGTTCAATATTCAGTGACCATAGTTGACTTTTACATTCCATAGGTATTTTATTTTGTGGCATTTCCATGCCAATGTTTATTTCCCC
Y
AATTTGTGTGTATGTAATATTGTACGGATTTACTCTTGATTTTTCTCATGTTCTTTCTCCCTTTGTTTTAAAGTGAACATTTACCTTTATTCCTGGTTCT
Celera SNP ID:            hCV15947624
SNP Position Genomic:     8655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:54884):
CAAGTTCCTGAAGCCGATTATCCCCAACTTCCCTCCCCAGTGCCCTGGGAAAGAAATACAAGGAAATTCTACCTTCCCCAATAACTTTGGGTTCAATATT
Y
AGTGACCATAGTTGACTTTTACATTCCATAGGTATTTTATTTTGTGGCATTTCCATGCCAATGTTTATTTCCCCCAATTTGTGTGTATGTAATATTGTAC
Celera SNP ID:            hCV14252
SNP Position Genomic:     8580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Gene Number:                 281
Celera Gene:                 hCG1641304 - 115000158384697
Gene Symbol:                 PADI1
Protein Name:                peptidyl arginine deiminase, type I;HPAD10;PDI;PDI1
Celera Genomic Axis:         GA_x5YUV32W3P1(325060..376901)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12441):
TCCCGCCATTAGAGCCTCTGGCCTGCCCTCTGGCCCTGTGGGAATCAGTGGGTACCCTATTTTCTCACAATGGCCAAGTCAGAACCCCCAAGGCTTCTCC
CCCATTCACCAGGAGGTCCAGGATCCTGCCCTGGGTGCCAGGAGCACAGGAAGGGGTTGGGTCAACATAGGGAGCTGAGCAGACTCAGCAGATGTCAAGG
ACTCTGACCTCTGGAACGGCACCTATATATAAAAAGTGCCTAATAGATGTTTGTTGAATGAATGAAGACTTTGGATCCAAATCTGGCTTCTTGTGACTTT
ACTGTGTCACCTTGGGTGAGTCACTGCTTCTCTCGGTGCTGTGGTTTACCCAGCTGGAAAGTGAAGGGGCTGGATTGATAGTTTCGGGGGCCCTTCCAGC
TTGAAGTTGGGTGATCCTGGAGAGCAAGTGGAACTGTCCCTGTAGTACCCGGGGGTGCTGGGAGGGGAGAACGGTCTCAGACAGGGGGTTACAAGAACTG
GGCTCTGCTGATCCTCCCTACCTTCCTCCATGGGGTTCTAGGTGAGCTCAGGCACAGCAGGCAGCGTGTGTGTGTGTATGTGTGTTAGGGAGAGGTCCCC
CGGACCAGAAGAGCCCACAGCTGGTGTCGGCAACACAAGTAGACCCAGAACCTACCCTGATTGGTCCCAAGGCCTGAGGCAGGCAATTTCCATGCCTTGA
TGGTGGCAAGCCTCACTGGGGCCCACATTGCTTACCCTCAAGGGCATCAAATGACTTCCCCAGCCAGAGTTATTCCCTCCACCCCTCTCCTTACCCACCA
ACACAAAATAACCAATGCTGGGGGCTCAAACTCATGGCCCAAGAGCTAGGTCTGGTCTACCGATGGGTTTTGTTTGACCTCAGTATTCTGTTTCTGAGAA
ACACTGACTTAACGCATGAGCCCAGCAGGCTCTGTCCCCTCTGCAGCAGTTACCACCCCTCCCTATTTTCTCCCAGCTGGTAGCGTCACACATATCTATT
ATCTGCCTGCCCTCCTGAAGGTGCCTGAGTTTGGAAACTCTGATCCAGCTTAACAACCCATTTTGTAAATAGGGAGACTGGGGGGTTGTCGGGGGTGATC
CTAGTGTTTCCGGATGAACGAGGTCAGGCTGCTTGCTCTCGTGGTCCAATAAGGAGATGCAGACAGACTGAGAAAGAAGGGAGTTTATTTCTGTAACCGG
TTACAGGGAGAAGATCGGAGTAACTCACCAGACCAACTCGAAAGTACAAGTTTTTCCCCCAGTGTTGTCTACATTCTAAGCTGTATGCCTACGTGTGGGA
GTATACGTTGCCAGAGAGTAGGTCTGTTTCATTCCATCTTTATCTAATCTTTAGGGTCTAGGGTCTGGGAAGCTTTTTCTAGAGCCTTGGAAAGTTTCTT
AATCTTTTTTTTTGAGACAGAGCCTCACTCTGTTGCCCAGGCTAGAGTGCAGTGACACAATCTCAGCTGACTGCTACCTCTGCCCCTGGGTTCCAGCAAT
TCTCATGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCACACCACCACATCTGGCTAGTTAATTTTTTTTTAGTAGAGATGGGGTTTCGCCACGTTG
CCCAGGCTGGTCTGGAACTCCTAGCTTCAAGTGATCCACGCACCTCAGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCCCTGTGCCCAGCAGAAAGT
TTCTTAATCCTAAGTGGGCCCTGGTATGAGGTGTATGTGTAAGAATACTTTCATTATTTCATCAGACTTTCGGGTCTGAGAAAACCCAGGAGCGGTCTTA
ACAGGTTTGTTTTCACATTCCAGCCCTCATACTCGGGCACCATTTTCTTCAGTTCTCTAATGTTTAACTTATGCATTCATCAGAATGAGAGGAAAGGGCT
CTCTCTCTCTGTGTGAGAGAGAGAGTGGCTGCTCCGGCTGTTAATGGAAACCCAGCTTGCCACACTAGGTTCATGGAATCTTAGACCATAGACACCTGTT
TTCCTGGGCTCTGTATCCATGGAGTAAACTTAGAACTTGCCTTGGTGCCTTTAGGTGTGATGTACTCTGCAGATCAATAACATTTGCAATAGGAAAGATT
ATTTCAAAAAGATCTTCAAAATCAAAAGTAACCAAATAAATGTTTATGTCATTATCACTAAGGTCTCATTTCCAGCTCTCTACTCCAATATCATTTCTTC
AGATTGGCCTTCTCTGATCACTTGACTCAAAACAGCACCCCATCCCCTCCTCTCTTCTATTTTATTTGTCTGAATCACTTCCTGGTATCACAGTTTTTAT
CCCACCAGCTTTCTACCTGCCTGCTCTCCACGATGTCCCACGAGGGCAGGGGCTTGGTCTATCTTGTTCACTGTGGTATCCCCAGGGCCAGAATAATGTC
TGGCACATTTTAGGTGCTCAAAAAAAATTGTTGAAGAACAGGGAAAATGAAGCCCTGGCCATTGTAGCCCCAGCACCAGCCACCTTCCCTATAGTGGTTT
CTTGGGTTGTTCCAGGGGCTTCCTGGGGTCGTCTTACAGTCCCCTAGTCACCGGGCAGCTGGCAGGCCTCTACCCTGCATGGGGCCCCGTTTCAGGCTAA
GTGGGGCCGGCCTCCCAGCTTTATGTCCTCCTTCAGAGGGGAAGGAGGCAGTGATGTCACAGAGGTCTCCCACCCTCGCTCCTCCCCAGTCTGACCGATC
AAGGCTGAAATCCCAAGTTCAAAGAGACCACAGCATGGGTGTGCAGGATGTGTTGTTTGTGGGTTGTAGGTAGGGCAGGGGCCCAGGCAGGTCATGGTGT
CTTAAAAGAATGTTCTTTGAGCTGGAAGACTGAAAAAGGGAGGCGGGGAAGGAATAGCAGAGGGTGGGGAGAGAAGCCAAAAGGAGGAAATGCATCTTAT
TTTTCCTCGAAGAGAGAATAATGAGGGTGGCTTCATTTTTTTTTTTCCAACAGTAAAAATGTTGTTTGCTCATGAAAGTGATTCAAACAACACACAAAAG
CATGGGGAAGAAATGACCTGATATTCTGCCTCCCAGGGATCTAGTCAGCAATCAGCCCACCAGGGTCAGATGGCCTGGGGTTGAATCCTGATGGGACCAA
CTTCCAACCATGGACTTGGGAGGGTCCCCAACTTCTCTGTGCCTCAGTTTCTTTTGCTGTAAAATAGAGATGTGCTTATCCTCCTCTCTTCCTCTCTGCC
TCCCTCTGCTCTTCCCTCCTTGCCCCCCTTTCTCTTTCCTCTTTCCTCTATCTCAAAGAACATTCTTTTTTTTTTTTTTTTTTCAAGACAGAGTCTTGCT
CTGTTGCCCAGGCTGGAGTGCAGTGGTGCAAGCTTGGCTCACTGTAACCTCCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGTTG
GAATTACAGGTGCCTGCTACCACATCCCGCTAATTTTTGTATTCTTAGTAAAGACGGGGTTTCACCGTGTTGGCCAGGCTGGTCTTGAACTCTTGACTCG
AGATCCGCCCGCCTCGGCCTACCAAAGTGTTGGGATTACAGGCATGAGCCACTGTGCCCAGCCCGAAGAACATTCTTTTAAGACACCATGACCTGCCTGG
GCCCTGGCCCTGCCCACAACTGGCCAAGGGCACATCCTACACATCCATGTGGTCTGTTTGAACTTGGCATTCCAGGCTTGATTGATACCTGCCACCCAGT
ATTATTGTGAGGATTAGGTAAATGAATACATGGAGAGGTCTTAAAACAGTGGCACATGGTGAGGGCCATATATGTGTTTGCATCACCATTATTGTTGTCA
TCATCACCATCATCACCATCATCATCATCATCATCTTTTTAGACAGCTCTTTATGCACCAGCCTGCCTTTCTTCCTGCCTCCCTTTTTCCTATCGTTCAC
CTATCCATCTGTCTGTCCATCCATCCATCCACCCACACATCCATCCATCCATCCACCCACACATCCATCCATCCATCCATCCATCCATTTAATCTTCTCT
AATGGGAACACACCCATGTGCTCTGCAGGAAACTGCTTGTTCCACTCTGCATTCCATTCCATAAGAAATGGACACGTTTATGTCAATAAATGCTGTTAAA
CAAAATGACTGAGGTCCTGGTAAATTGAGGTTTGGGGTTTGGGTGATGGAAAACCATCCCTGAACACCTGTTTCCCTGGGTTCTGTATCCATGGGGTAAA
ATTAGACTTTGTCTTGGTGACTTCAGGTGTAATGAACTTTGCAGATCAATAACATTTGCAATAAGAAAGATGGTTTCAAAAATATCTTCAAAATCAAAAG
TAACCAAATAAATGTTTATGCCATTTTACTATTTCCTGCCTCCCTAATCAGGCTGGGGTTCCTGCAGCCAGGGACTGTGTGTCCCCCACATCTTCCATCA
GACTGACAACTCCTCAGGCAAGGCTGTTTCTCTCTCTCTCTCTCTCTCTCTTTCTTGCTCTTTGCTGCCCTGCCACCCCAGCCCTGTGGACACTAGAGTT
CTGGTTTATGTGCCCCTTTTCCCACTCTGTATAAGAGCCCCCTGGAAGAAGAGGACCACATTACTGAGGATGGGTGTCCTGCGATTCCAGAGCAAACGGC
TCTTCTCATCACCCCCAATGCCCGATATGAAGGGAACACGTCACCTGCAATTCACCACCTCTACCCCAAGCTCTAACAGACATCTCATGTCGAACAAGTC
CAACAGAGAATGGCCAAGCTCCCTGCCCAGCTTGCCCTCCTGCAGCCTTCCCTATCTCTCTGATGACAACTCCATCCTTCTAGTTGCTCGGGTCCCAAAT
ACTCCAGTGATCGTTGACCACTCTCTCTCACACCCACATCCAACTCATCAGCAAACCTCATCGGCTCTACCTTCAAGATACATTCAGGATCCAACCACTT
CCCACCACCTTCCCTGTTACCCTGGGACCAAGCCATGCCATCCCTCGCTTAGATAATGGGAAGAACCTTAATGCACCATCTGATGTCATACACACTTTAC
TCATTTAACTTCACCTACGGTCTGTCTCCCCCAGAATATAAATGTCGTCAGAGCAGGAATCATGGTCTCTTTTGTTCATAGTTGTATCCCTATCACCTAA
ATGAGTGCCTGACACATAAAAGATGATTAACAAACACTTGTCAAATTAACAAATGAAGTTCTACAAAGAGCCTCAGAACAGGCTGAAGCTTGCTGTGCTG
AGCTGAAAGAAGAGGGATTTTCAGAAATGAGTCCACGCTCCCAGGTCATTGCTCTGAGCTCTTTTTCAAGTTCCCTCCTCTCTGGCTCCCCAAGAATGCT
TGCCTGGGGTGGCTTCTGCTGTCTGTGGAGTCTGGGCACAAGGGCCTACCCTCACCTGTTGGGGGGTGGTATTGTGTGGCGAGACGGGTGAACCTGCGTG
GAAGTTATAACTCTACCACTTACTAGCAGTGAGACCTGCAGCCATGGTTCTCTTACCTGCAAAATGAGGATAAAAGTCATAATTGTTAGTGTTTTAGTGA
ACACAGGTGCCAGGAGCTGTGCTAATCTTCTTACACATAACTCATGTCTTTCCCACATCAACACAATGGGACAGGTACTACTGTTACAGCTGCCAACTTA
CACATGAGGCAGCTGAGTCACAGAGAGGTTAAAAGGTTTGATAAGGATCACAGGTGGTTATAGGCAGAGCCCGCACATAGTCAGCCCACAGAAACACTGA
CATCATTGTAATAGGGGTTCAGGCACCAGGAGTCTTTGGAGGGGAGGGCAGAGGCTGCTGGGGAGCTCTGGAGGGTCTCCTGTCAGCAGGTGAGTCCTGC
TTCGCCCGGGGCCCCCAGTTGAAGCTCCCCTTCCCCATCTCCCAGACAGGCCTTGGGCACCTCCTCCCCTGACCTCCTGGATTGACAGCCCTGAGTGAGG
AGGGTGTGGAGCCAGGAGGTGGGGACCAGGCTCAGCCAGGCTAATCAGGTCGCAGGGTGAAATTTAAAGGGAGGAGGAGGCACCAGTCCATCAGAACTCA
CACTTCTTCCTGGCAAAGAAGTGYCCAGGAYGGGAGCTGGGGAGCCAGGGCTGATCTAGGAGGCTGGGAGCCAGGTGACAGGATGGCCCCAAAGAGAGTT
GTGCAGCTGTCCCTGAAGATGCCTACCCATSCYGTGTGTGTGGTGGGAGTCRAGGCACATGTGGACATTCACAGGTAAGAGCTGGGAGGCGCTCTCCTGG
CTGCAGAGAGCTGGGTTAGAGTGTAAGTCAATGGGGTGGGTGCCTGGTAGACAAGTCAGGCACGTTGGAAAGGATGCTGGCAGGAGATAGCAGAGAAGGT
GGAGTTGGCTGTGGAGTCTGGAAGGAAGGAACTAGGGTCTAGTCAGGTCCTCCTTGGGGCCCCAGCTCCTGGGCACTGGGCTCAGGACATTGGCTTCAAT
CCCCTGGGTAAGAGTCCAGCCTTAGATTTCTAACTCTGAGCCCTGGGGTCAGGCTTTGGGGTCTGGGCCCTGCATTCTGACACCTAGGTAGAACTTGTGT
GGAACATCAGATGGCTCAAGATGGGGAAGAGAACTGGTTCCCACCTCCCTCAATTTCTTGCCAAGCCCCCATCTCTTTGAGGTGAAGGGACGTGTGTGGT
AGCTTGACCCTTGGAGGTCAGCCAGAGATAACTAGATTGATTCCAATCAGGAGGGAGTGGTTAGGAAATACTCGATGAATTAATATGAAGAGAGAACCTG
GAGCAAGACGGCTGGGACTTATGTTTGCTGTGAGATGATGGTGATGACGCTGATTATGGTGATGAACAGTGATGATGGCRATGATGGCGGTGATGGTGGC
AATGATGACATCTGAGGGGGCATCAGTAGCATTTGCTTCTCCTGTTGACCCAAATCTTTCCTGTGCTGGCTGTGTCCAGATGGGGACTCGGGGACTCAGC
CTTAGTTTCCCTACCTGGCCACTAAGGGAATTGGATTTGGTGATCTCTGGTGGCATTTCCAACTCTGAGAGGCTGTCTATGGATTCCATCCCTGCTGGAG
CAGGTGGGGCTGAACCCCTTGCAGATAGGGGGCTCGTGGTGGGAGTCTCCCTCAAAGAGGAGCTGGGTGCTGGGGGTCTGTTACTGGGTGAGATCTGAGC
TCCTTTCTCCCTCTTGGGACTCAGCCCCTGTACCTGCTGGTCTGGTTAATGTATGTGGGGCCCAGGGCCAGCTGCCCACCTGGCCTCTGGTGATCCTCTG
CTYGAGAAGCCCTTCCTGCTTCTCTGTTGGGCAGTGGTCTGTGACCCCRGTGGCAGGGCTGGGGAGGAAAACCAGGAGCCATGGAAACCAAACCTTGACT
CTAAGTTGCTGCTGGGAGCCCCGCTGTGGGGGCTGGTTCTCTCGGGTYTAGGTGGCCAGCAGAGACCCCATTGTCTCYTGCCCTGTTAACATAGGCTTGC
CAGATTTAGCAAATAAAAATACAGGATGCCTGGTTAAGTTTGAATTTCAGATAAAAAACAAAAAGCTTTTTTAGTATATTGCATGGGAGATATTTCTACT
AAAATAATCTGCTGTTTAGCTGAAGCTGAAGTCTTTTTTTTCTTTTTCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGGCTG
GAGTGCAGTGGCGAGATCTTTGCTCACTGCAACCTCCACCTCCCGGGTTCAATTCTCTGCCGCAGCCTCCAGAGTAGCTGGGATAACAGGAACCCACCAT
CACACTCGGCTAATTTTGTATTTTTAGTAGAGACAAGGTTTTGCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCAACCCACCTCGGC
CTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCGTACCTGGCCACTAAAGCTGAAATCTAACTAGGCATCCCACATTGTATCTGGGAATCTACTTTCA
CACCAAGAGTAGGAAAAGGGTCCCTTGCAGGCCCCCTTCTTCTTATTTCAGGCTTCTGCTCTCATCTGAGGGCATGGCTGTTTCTAGAAGGTGATTTCAG
AACCTCTGGCTCTACACTGTGCTGCTAAGGCCAGAAACATTTCACGGGGAGCCGGGAGACCTGGTCTTAGCTCTGCCACTGACTTCCTGCTGGATGTGGG
CCAAGTCACTTGTCCTCTCTGGGTTTCATTTCCTCATCTGAGCCCCCATGAGATGAGCTGAGTCCACTCTGCAGTTCACTGTGGAGGTGAAGTACCCAGA
CCCTGGAGTTGAACACACTCCATTCTCAGGCTGGCTCCAGGCGTGGCTGGAGCTGCACTTCCGAGCCTCAGTTTCCACATCTGAAAATGAAGAAACAATA
TAACACCAGTTATAATGGGTTCAGGGGAAGATAAATGAGCCCATGCATGTATAAGACCCCTTGCGCCGTGGGTGCCCTGGCAGTGCGCACAGCTCTGGTA
GCTCTGTGAGTCCCCTTTTCTCCAGCATCTGTCCTTTCCCTCACACCTGAGAGGATGGGAGGAGACGAGGACAGCTCAGACTGCAAGTGCTGGGAGCATA
GGGTGTCTGTAAAGCTCCTTAGCGTCCTCAAATGCAGGCCCTGGCCCAGCGGAGGGGCAACGGGAAGTTGCCTGGGCTATTCATAGCTGTTGTGCTCTGG
TTGGCTCTGGGAGGCAGAGGTTGCTCTGGGATCCTGAGTGAGCACACAGGGCACCTCCATCCAAGAGCCCTTCAGGAACYTTCACCTGGGTGTTGGTGGT
GACTATGGTCATAGCTACTGAGAGCCTCCAAACTAGGACACAGAAGTTGATTCTGCAGCATAAGGAAGAGCTTCCTGCTGGCCAGGTCTGCGATGGGCAG
GGAAAGAGGGGCATGGAATTGTCAACCTGGGAAGGTTTTTAAGAGGAGCCTGAAGCTCACTCCAGCAGCTGGGCTGGCAGCAGGAGGAAGGGGTTACACT
TGATGACAAGTGATGAACTTGGGGCCTCCCCAACCCCTTCACCCAGTGTCTGACTCTAGCTAAGGCCAAGTAAGGGGTTTCTAGTTGGCCTTACTGGTGG
GAGGGGGGAAGCCCCCAGAAGAGGAGGTGTTGCCAGTCACCTGAGCTGCTGGGAGTCTGAGCCCTCCAGGAGATGGGTGTGTAGGGATGACATCACAGGA
AGTGATTCATTCCCCCAGGGGCTGTGTGAACTGGTTATTTGGAGAAACACTTGTGTTTGGGGTAATTGTGTGCCCCAGGGTGTCCCAGCCTAGGAAACCC
TTAGGAATCCTCGACTCAGCATGTGCTGCAGGTCCCATCCCCACACCCCAGTAGGCTAGCCCACCACCCTGTCCACCCCCGACTCCAGTGGGCTAGCTCA
CCACCCTGTCCACCACCCACCCCAGTGGGCTAGCCCACCACCCTGTCCACCCCTGACTCCAGAGGGCTAGCTAACCACCCTTTCCACCCCCCACCCCAGT
AGGCTAGCCCACCACCCTGTCCACCCCCGACTCCAGTGGGCTAGCTCACCACCCTGTCCACCACCCACCCCAGTGGGCTAGCCCACCACCCTGTCCACCC
CCGACTCCAGWGGGCTAGCTCACCACCCTGTCCACCCCCCACACCAGAGGGCTAGCTCACCATCCTGATGACCCACACTCCAGTGGGCTAGCTCACCACA
CTGACCCCCACACCCCAGTGGGCTAGCTCACCACCCTGATTCCCTGGATCTGGCCAGACTGCCCTGGCTATCCTTGTCCTTGCCTAAGGAGTTCAGGTGG
CTCATGCCAATAAAGACAGGGGTGGGAAGTGTGAGGAATCCATCTGCGGTCCTGTGTGGCCCTCCTTGACTGCCCAGAGGCCAGAACCAGAGCCTGAGGC
TGGAGACCATAAAGAACCTTTATTCTTTGGGATGCAGAAGGCCGGCCTTGTAGGAGACAGGGACATTCTCCTGCACTTTCCCCCAAGCCTTCCCCACCAC
TGCAAAAGCAGCAATGCAAGACTGAGTCAGGATCAGACAGCGGTAGAATTGGAGGGGCATAGGGAGAAGGGACTCTGCAGGCCTCTCAGATGCATTTTCT
GGAATTCTCTGTATTTCAGAAAATGAAAATGCCAAAACAGAGTTCGAAAACTTGTGGTATGTGTAATGTGTACATCGAGTAAATTAATGCTTTTAACTCG
CACAGAAGAACAATGAGGCATAATTGTGCTCCTCAGGGGAAAATTACAGGATTGACACTGACACTAATTTCCAGCGACCGACAGGCTGCCGGCCCCTGGC
TGGACACATTCTCTGCTCCGTCCTGTCACTGTGTCACTGCAGCAGGAAGAACACTATTCACCAGAAGAGACATTAAAAGTTCAAGTTTCAGGGTCCCTGG
AGAATATGAAGCTGGGGTCCTCCGCAAGTTCCACAGGGCCCTGACAGGCCCGGGGGTTGTAAAAACTGGACTCAGAATGGAAGAGGGTAGCATTCTTGAA
ACATAAAATATTGACATCACGAAGGGCCTCAGAGGTCAGCCACCCCTTAATTCTGTGGAACTCCCTGCTCCCCTGGGTCCTAGCTGCCACTTGCCATTTT
GGGACTGGCTGGGAATCTCTCCCCCTCCCTCTGGCCCCCCAGGCCCTCYGCTTTCCGCCTCCTTACCCCTTCCTGGCATTTCCTGGATCCTAGTCTTGGA
ATGTCTCCTCACTCTGAGCCTTCTTCTCTTCCCTTCTCAGCTCCCATCCCTTTTACTTCCAGCTGGTCTTTGCAGGCTGTGTGACCTTGGGCCAGTCACT
TAGCATCTCTGAGCCTGTTTTCTTCGGAGTGACATCCCTTATTGTTTGTACCTGCGAAGCTGGCACCTTTATTTTTTCCATTTTATTTTATTTTTATTTT
TATTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGACATGATCTCGGCTCACTACAACCTCCATCTCCCAGGTTCAAGTGATTCTCC
TGCACTCCTCTGCCCCCCAAGTAGCTGGGATTACAGTTATGCACCACCCCGTATTTTTAATGGAGACAAGGTTTTGCCGTGTTTTCCAGGCTGGTCTCGA
ACTCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCATCTCACCCTGCCTAAGTTTTTATTTTATTTTATT
TTATTTTATTTTTTGAGACAAGGTCTCGTTCTGTCACCCAGGCTAGGGTGCAGTGGTGTGACCATGGCTCAGTGCAACCTCAAACTCTTGGGCTCAAGTG
ATCCTCTGCCTTAGCCCCCCAAGTAGCTAGGATTACAGGCCTGAGCCACCGCGCCCGGCCAATTTTTTTCCATTTTACCTTGAGGAATTCCACAATCCAC
AGAATGCGGACATGCTTTGGGGAGAGGATCGGTGACTCAYGACTTGGACTCTAAATTCAGGGCCCTATCTCTCAGGGACATTCTGGTCCCCAGCCYCTGT
TTATCTCTTCTGGGAAGACCAGTGAGTGAAAGCTGTCCCTCTTCTCCAGCCTCCATTCCTGGCTGGGCAGAGCTCCACTTGGGAGAAAGCTGGTTCAGCC
TGCGCCCTCAGCCTGGGCTCTCTGGGCGTGCCCCTCCCCAAGCAATGACAGGGCATAAGGCACCCACTAGTGTGATTTCTGTGAATGAGGGAGAAGACAG
GACACAGCCACATCATGTGTGATTCTAGACTCCTGAGAAAATGCCTGAGCCTGCTGAGGGGTCTGGGACATCAGCCATTGCCCTCCCTCAACCTCCAGCA
RCCCCAGCCAGCCCCGGGGAGAGGATGCAGGGGAAAGCTAAAGCCAGGGTTGCAGCCAGGGGACTGGGGGTTGGAGCTGCCCCCTCCTACTGTCTGGTGC
CCACACCTCCCATCTCAAGGAACCTCCTGTGGTCTTTTCCCCAGGGCCGTCTGCTCCCGGGCACCTGCTCTGTGCTGGGTTCTGGCACTCGGTGATGATA
CGGCCCATGGCCACATGTGAGGAGCTTCCATCCTAGTTGGAGAGTTAAACAAATTTCAGGATGTGGGTTTCAACAATTGCACACCTGACCCATTTTCTTG
GTCAGGGAGGAGAGTGAAGGGAGGTGCCAGGGTCCTATTAACGACAGGGCCCTGTGTCCTCTTTTGYCCGGGTCTGCCCACTCCTCCATGCCTTTCAGAT
GCCCTCTGTGACTGTAATGATCATGATGGCAGCCCTGGTWTTTTGTTTTTGTTTTTGTTTTTGTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGG
CTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTGAAGCAATTCCTCTCCCTCCACCATGCCCAGCTAGTTTTTTGTATTTT
TAATAGAGATGGGGTTTTACTATGTAGGCCAGGCTGGTCTTGAACTCCTGACCTCAGCCTCCCAAAGTGCTCGGATTACAGGCATGAGCCACCATGCCCA
GCCGGCAGCCCTGTTTTAAGTGCTCACTGCACCATCTCAGTTAAACCTCACAACAAGCCTGTGAGATGGGGACTACTATAATCCCCATTTGCAGACACGC
GGAGACACAGAGAGGTTAAGAGACTTTTCTGAAGTCACACAGCCCACAAATGCCAGAGCTGGGATTTGGACCCAGGTCCACCTGGTTCTAAATTCTGTGA
GCCTAACCCTGTGACTGCCCAGGCTCTGAGACTCTTCTATGTTGCTGGGTAAGTGAGGGGTGAAGTGAAGGCAGGGCAGCAGATGAGCTTTGGAATCAGA
CCCAGGCAGGGGCCAAGCACGGCTGTGCCCCATCACCCTCTGTGTGACCTCTCTGTATTTCAGCTCATTTTCTGTAAAATGGGGAGAAGAATAATCACTC
CCCTATTAGCAGGCAGGGGCCATGGGGATGGAATCAGAGAATGGAGTAAAAACCCTCCGTAGACTCTGTGGACCCCACAAGGGCAAAGCCAAGGATGATT
TGTCTCTGCTTTCCTGGTGCCCAGCATGGGACCTGATGTACAGTAGCTACCCAGGAAGGTACGTTGAGGCAGAGCCACTGGCAGCACTAATGGGAGCCCT
GTGTGCCCCAGGGAAGCTGCTGGCCTTTAGCTGGAGCTCACGGGGTGGCGGCCAGTACCCCGGGACTATCAGCCTCCAGGCAGATCCCTGGCTCCAGGCA
GAATCACCCACGGAGCTGGTCACCCCAGGAGATTTGCTGGGCCCTGCTGCCTGACCCTACGGCATTTCTTGTGGCTTCATTCCAGGACACCTAGCGGCTG
GCACCTGTGGGGCTCCTGGCAGGCCAGATCCTGGCCAGGCGTGCAGGGGAGCCACAGGCTCAGCCAGCAGTGCCTGCTCTTCAGCCTTTTCRTCCGATTC
TGCCTGATTCTCCCCCTCCTGCCCCCACCACTCATCCAGCACAGTGCCCCAGACGACCCCCAAGAGCACATTGGCCCCCACCCCCACCCACTCAGTTTCT
GYCCCCAGGATCTGGCCATGTCCAAASTGCAGGATAGGACAGTTGGCAGGGAAGCATTCCTCTGTGACTGCTGTATTTCTCTTCTCCCTAGAGACCAGGT
GGTACATTTCTGAGCTGTTGACMTAAGATTTGGCCGGTGGAGCCSCAGTGGGCCGAGGCTTCTGGGAAGCAAGTTGCAGCCACGCAAAAGGAAAAGCTTT
CTAATTACCTGAACTGTCAAAGCAGAGAGGGGTGTGAGGTAGTGAGCTGTCAGTCTTTGGGAGTGGGCAGGGGGCTGGCCGGGATGACCTCCAAGGCCCG
TCTCTGACCCAAGGCCTATGCTATGCAAGATGCTCCCTGGTCTCTTCTGTCATTTTAGGGCAGACAAGGACAAGAAGATCACAGGCACCACCCCCCTCGC
CTTGCCGCTGTAAGATGTGGGTGTGTGGTGGGGCCAGGGGGCTGTGGCTTTCCTGCCTTGGTGCCGCCACCCTCCCTAGGCCTCCCTGGCCTGCTGCCAA
AGAGCCATGCAGAGGAGCTCGAATTGCACACTCTCTCAACACATTCCTGTTTCCTTCCGACATCCCTGATCGTCTCCTCCTTCCAGTCCCCGACAAGGGC
ATGCTCAGGGCACACACGCACTCATTTTAATACCAGCCAGGACAGCTTCTCACTTTGCTATCTGGGTGACCTGAGTAAAGTTACTTAACTTCTCCGAGAT
TTCTTCATCTGTGAAGTGGGGACGTAATTCGGAGTCCTCATTAGGGAAAAGGAGCCAGGCTGGTAGGAGCAGGGAAAAGTAAAAAAAGAAAAGAAAGCTG
ATCAGCTCCAAGCCTGCCTTTCTTCATGGTCCAGGACGCATTGCCCTCCTATGCAAGTAACTCACAATCTTCCTGCACCCAGCTTTCACCAGACCCCTGC
AACTGAGCTCCCCGCGGCCTGGGCATAATCAGTACTGCACAAAGCCCTCTTCAACAGACAGATAAACATCGTCCTATAAAATCCCCAGCAAGTCTTTGTT
TCTTTGCAGTCGGCTTCACCCCAGAGAGAGGCTTCTTTCTTGAAGGCTGACTTTTGTGTCTCTGGCGATGTATTTTCCTACTTTCTGTAATCAATCTGCT
TTCCTTTACACACAGCTGTCCTGGTAAATTCTTTTACTCCTGCATTACCGGCCGTCATTACCCTGTGACAAGTAACACCTACCTTGGTCGGGGAGCAGGA
GTTGGAGTGAAGTCTAGATGAGATCATGGATAGCAAAAGCTAAGCACGTGCCTGGCACACGGCAGGTGCTTGAAAATGCAGGCTCTTTCCCTGCCCCACT
AGAACCCATGGAACATGCTGCCTTATGCCATAACCAGTGGGTGAACCTGCACCTTACCACAGGAGGCGGGCAGGGGTGGAGAGTAGTTGGTTTTACACTC
CTCATCCCGCCCTCYGCGTCTCCTTTTGTGAGATTCTCTAAGAATTCACCCCATTCTGCCCATAACCTCTCTATTGAACCTGATGCAACTGGCCCTGCTG
TGGGCATGAGGTTGGTGGGCATTGCAGGGTGAGTAGGAGGAYGCTGCTCTGGGCGGCGCAGACGAGATGTGAAGTGGCCCCCAGGAAGGTCTGAACCAGG
GCCATGGGGGCACAGAGGAAGCACATAAGGTTTCTGGCTGGAGTGAGTTGGGCTGTCTGGGGATTCTGAGAAGAGTAATTGTAACCATGGTGACAGCATC
TAACGCTGAGAAGTCATCATCTCAGGGAATCCCTCCAACAGTCTAGGAAGTAGCTCTTGGGATTRTGTCCATTTTACAGCGGAGGAAAATCGAGGCAGTT
GAGTGACCCAGTTGGAGGCCATGCTCCACACAGAACCCACACTTCACTCCATGGAAGAGGTGGCATTTGAAGTGGGTCTTGAAGAATGCAAAAGACCCCC
CTGCCCCCCGCCCCATGACTTGGCCCAGCAGAGATGGGGGAGCAGCCTGGTGAGGGGCAGGCTCATCAGCATAACAGTGGAAACCATGATGATATAACAG
TGATTACCAAGACACCTGACAGGGTGACTCCTGTAGTGGTAATGATTTGGCCTTTTTTATTTGGAGGGGTGCTTTCAAATCTGTGACCTCACCTGACTGT
GCATTTGGGGACATGCCAGTACTGCATATCTGGGGGTTGGTTAGGTCTGGGGGCTACATCATGAGACATCACCAAAGAGAAGCATCTTGGAGAGGATTAT
TAGATTTGGAGGAAGCCGGGAGCAGCTCCAGAAAGCTGGCGCAATACAGCCCACTGCAGGGTGGCCTGGGGCTCCCCACAAGCTCCCACTCCTGCCTGTC
ACACCTCCCAAGGGCAGCCCTTCATCCATGACCAGGCCCACAGATCTGGGCACCTGAGAGATAAGGAAAGGCAGTATAAGCCCCGTCTCCCAGCCCCGGG
GCAAGGGTTGGGGTAGGATGCCAAGGGAATGAGAATCAAAGGCAGCGCAGGGCTCACCCGGCATAACCTGCCTTGCTTGGGTGCCAGAGAGAATAAGCAG
ACCCCTCCTCCTGCCTCTTCCTGGTGGTTTTCAAAGCTCCTGCTGGGGTACCTGCCGCTCTTCTGTAGCTGAAGCTGACCTGGATRGGGGTGATGGGAAC
CAAGTCTTGAAGGCAGTGGGGCTGGGAACTAGAATAGGCCCCTCCCCATGCCTGTGGGAGTGGCCCTGGGCCTCAGACCTGCATAGCAGGTGTCTCCTGC
AGGAAGCCACATTTCCCCCAAGGCCTGACCCCTCTAGGCACTGCCCACTCATCTGTTACTCACAGGGGAGGGAGACACTGAGACCAGGAGCCCAGCAMCC
CAGAGAGAGGTGAACAGAGGTGTGAGCTATTGAGCAAGTTTGGGGTGGGGAGGGAGCAGATCTAGACTACAGGAAGCTAGGCTGGGCTTGGAGGGTCTTG
ATAGCCCCAGAGAAATTGTACCTGTCATTTCTTCCCCCTTCTTTCATCATCATCATCATCRTCATCATCATCATCATCATCATTTTCTACCAAGACTCCA
AATAGGGGGCTGTGACTTRGAGATGTCAACTTTTGCCCAAAGCTAGGGATTGGCTCCACAGAGTCCTGCTTCCCTTGAAAGGGCTGTGTCTGGCACCGGT
GGTCCCTGAGTGGGGTGGAGCAGGAGTCACCCATGAGCTAGAAACCCTTCTGCTGCCAGCTGGGTGCCCTGGGCTTGTGGCTACTTGCTCTTGGAACTCA
TGGGCCAGGCCGACTGGATTCAATCATGACTCAGCCACCTCCCCGCTGGGCAGTCCTGAGAAAGCCACTCCACCATCCTGAGTCGCTGTGTCCTTGTCCA
GAACGCGTTGATTGTGCCCCTGGTTCATGCCAGGCACTAAGCTGGATGCAGAGATGACAGCAGCGATGCAGACAGCATAAAACAGAAAAAAAATCTCTGC
ATTTTAGAGGGAGAGACTGCAATGAGCAGATATGTGCTCTGTCAGGTGGCTGGGAGGTGGCCGGTGCCATGGGCTGGAATGAAGCTGGGGTTGGGGAACC
AGACTCATGGTGTCATTYGTGTCACGCCATTTGCAACAGGCAAGAAGGGTACATCAGAAAGGCCTCGTATGCTACCCTGAGAGAAGGAAGTGAGGGGCTG
GGCGGACCGCAGGGATTGGTGACAGGAACATTCCGGACAGACAGAGCTGCAGCCCTGGCATGCTTGAAGAACGGCAGGAACAAGCAAGAGGGCGTGGGGA
GGGAAAGCAATGGGTCAGGAAAGCCTGGGAGGCCACACAGGCTCTGGTGACAGCCTCTGAGCAGGAGGGATGCAACGGGACTTCTATTTTAAAAGGTCCC
TCTGGCTGSTATGTTGAAGCTGGACTGTGGGGAGAGAGGGGAAGCAGGTCACTGGCCTATGATAAAAATCCACATGGAAGCAACTGGTGGCTTGGACAGG
ATGTGAGCTGTGGCAGAGGTGAGAGCGGTCAGGGTCTGCAGTTGCTATGAAGGTGGAGCTGATGGGATTTGCTGAGGGGCTGGCTGTGCGAGTGAGGGAA
CAAGAGGAGGTGAGGCTGAATTGGAAGGTGGAGCTGCTATGGACAGACTTGCGGTGGGTTGGGCAGGAGCAGGTTTGAAAGGAGTGGGGAAGGAGTGGGC
ATGGGGAAGCAGGAGTTTGGCTTTGGATGTGTGAAATTTAAAATGCYTGGTAGGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTGTGGGAGGC
CGAGGTTGGCAGATCACTTGAGGTCGGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGCGTGGT
GGTGAGCTCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCTTTGCA
CTCCAGCCTGGGTGACAGAGCACGACKTTGTCTCAAAAAATAAAAAATAAATAAAATAAAATGCCTGGTAGACACCCAGGGAGAAACTCAGAAAGCAAGA
AGTCTGAGAGTTCTAACCATATTGATGTGGCAGGTGGAGAAAACCAAGGGAGTGGGTGTAGACAGAAGAAAGGAGGAGAGGAGAGGGGAGGGAGGGGAGG
AGAGGAGGAGAGGGGAGGCTGAGCCCTAAGCCAGGTGCGCTGGGGCCAGCCGCACTCTGAAGAGTACCAGTGTAGGGATTCTGCCCGTTGCCGATGGTGC
CTATTCCAATTACACATTTCAGAACTTGTTGGGGTGGGGCGGAACCACACATGGGCTCAGGGGCTACTGGACCCACTGTAAGATGAASCTGAGCTGAAAC
TCCATGGATCACCTGGCCTCCATGAGCCCCTGCTCTGCCAGGTGGGCCGCAGTGTTGTTTAGGGTCTCCTAGACCAGTTCAGGGCCGGTGTGCAGGAGAA
CTAGAAATGTACGATTATTTCCTTTTCCCCAGTGACAGTCACCCTGGTAAAAAGTTGTGTGTCCTCTCGGGGAAGGCTGGGAGAAAGTTGAACAGTGTGT
TTGTGGCAATGTACCAGGGTCCTTCCTCAAGGAGATCTGATTGTTTAATTTTTAAGAAGGTTATGAACCCCTTGTTAAACACAGCCACTATTTAAAATTA
AATATACACACAATTAAGCAAATTATATTAAAAACAAAGGCAGTARTACTGAAAACTCATCACTGCTTAATTATTTTACTGCATTTTACCATTGTCCAGA
TATAGTGGAAATAGTGATGTCACGAGGTGCTATTATGCAGCTCTTTGAAACTCTGAGTCCAATGATGTTGGGCTGGTAACTTGAAACTGGCTAGAGTGGG
AGTGTTTACACCACAGACATTGGTCAAGGCTACAAATCAGGGCTTCATTCATCGTTTTATCAAATGCCTAGAGTTCAGAAAGTGAKGGAGACAGGTTAAC
AATGTCAACTCAATTTAAAAGTGTATTGCGTCTATAGCCATGACATTGTGGTTAGTACCAAAAATTGATGAAATGTTCCTCCAGGATTATCTGATTCAGC
AAAGAGGTTGCTCATATCCTAGATGAATGAATGAAGGGTGACATGCATCTTCATTGTTTCCCCTTTCATCTTATTCGTGAATGCCAACAAAAATATCAAC
CAACGTTTACGTCACATATCAGATTTAGTGACAATAAACTTATGGAGGAAAGAATGAGCAGATTGGGATGCAATTGCATTGGTCAAATCATGGTCAAATT
GCAACCACAGGTTGGCTACAGTTGCAAGAGAGGGCATCTGGAGGAATCAATGTACTATATAGAATTTACAACACATTTTACAATAAAGAATTATATGTAT
TATACTATTATTTTTACATTATGTGCTACACACTATTTACATCAGTAAAATTTATAATAAATTTATATATACATATATATGCATAAGAACCCCCCCACTC
CAGAGAGCTGGTTGTTAAACATTTGCCAGCACACCACTGCCTGGAGTTASGGGGTAAGGGGGAGTGACACAGCAAAGGCATTAGAGGAAAGGCCACGGAG
TCAGAGGAGAGCAAGCAGAGCCCGTGTCCCAGCTGCCAAGTGGGAAAGTGTTTCAAAGACAGGTGATCATCTGGGCCAAGTGCCTCTGACAGGTCAATGA
GGGGAAGAAGAGAAAAGACCCACTGGGTTTGGCAACAGTGGAGTTTCCTTGGTGTGGTGGGAGGAAAGGCTGATTAGAGGCAGGTTGCAGACGCAAAGAG
AAGAAATAATTGGAGGTGTCAAGGGAGCAGAAGAAATGAGGAGGTCAAAGGAGAATGAGTTTGGGGATGGGTGATATTCACGTCTGTGTGCTGGGTGCAA
GGGAGGGGAGAAGGGGCAAGGCCAGYGATGCCCTTGAGTAGGGGATGTGCCCCAGGAGGGCTGGTCTTGGGCAAGAGCCCAGACAGCACACCCCTCTTCC
CAGGAGGGCAGGCAYGGTCGTGGACTCAAAGGCAGGAGGGCTGGGAGATGAGGTGGTGGGAGGAGGGAGGTTGAAGGCTCTGAGTGACAAGGGGGAAGAG
TGGGGAGGCTTCTGGAGATAGGAGAAGATAGGACATAGTCCTCTAGGACACTGAAAGAGAAAAGAGCCTGGAGCAATGCTGTAGGAGCACRAGCATGTCA
CGCATCCATTGAGGTCAGCAGTCATGAGTCCAAGTGAACCATGGTCAGCCGCGTGGTGCAGGTGCAGAGGGGGTGGAGAGTTGGATCTGATTGTATAGCT
GGAGCTCTGCCAGGCAGCTCAAGGGAGGGAAGGATGAGCAAAAGATTAGGGAGTGGAGCAAGGGGGTGGCCGCAGCGGGGGACTATGGGATCTATGGGAC
TATCCTGGGGAAGGGAAGAGGGAACATGAGGGATGAGGGACAGCAGTGGGGGGCGAGTAGAGAGGAMTCAGCCTTCAAAGGTCAAGCGTCCCAGTGGGCT
GAAGGTTTGGTTGCACTGGTGTGTTAGGAGTGAGCTGGAATATTGGGAAGCGGTGTCCGAGTGGGTTGCTAACAGGGGAGCTTGTAGTGGGTGCAGTTTT
TTGATAATAACATTCTATAGCACCTGCCCCGCGAAGGAGGGGATGAGGCCAGGTGGAGGACAGGAGCATTGGATGAGAGGTCAAGGGACTGAGGGACCAG
GGTGCAGCACACCATCTACATCGCCATTGAAGTATAAACTGGTGACGGCAGCCGGCTGAGGAACATGGCAGGAGCTGGCACCCTCGAGATGAGGACAGAG
CGATGGTGTGCAAAGGTGTCCCTGTAGATGGGTGGTGTAGTCTGGAAATGTCAATGCAAAGCTGGGGGTTTACGGAGTGAAGAAAGATGATGATCTGGAA
GGGACATTGAGGAGCATGAAGGACCCTTGCCCACCTCCAGGCCCAGGGGCTGGAGGGAGTAAGGGGGAAGCAGTCACCAGGGAGATGGCTGAAGGGGAGG
CCATGCCTGCTATTGGGGGCAGGCTTCTTTTACAGTACAAGATCAAGGAAACTGTCCAGGGTGGGACTGAGGATATCGTGCAGATGATGGTGGCTGGGAT
TGAAAGGGAGTTGGGGAGGATGAGGAAGGGGGTCAGATGAGAGGATGATAGTCCAGGAGACTTGGGGTTTCCATGGCAACTGATGTAAACGATGAGGAAG
AGCAGGTAAGGTGCGAGGACCCCCAAAAGTGCYGTGGAATGTGGTGATTGTAAGGCCAGGAGTGGGGGATGGGGGAGGTGGGTCTTGCCAGCAGCCTGCA
GGGGCTCTGGGGCCCCTGCACACTCCTGCCTCTTCTGTAAAATGGGGATTATAATCTTTGCTTTGGGGGGTTGTGATGAGCATTAGGGAGCGCCAAGTAG
GACTCGTGATTGTTGGAATTAGGACTGTTGTCACCGCAGTCAATGGAGAYAGTTTTTTGATGGGGCCAAGTGATCATGGCAGAGGTTGTGGAGGGGGTCT
GGTTTCTCCAGAGGGCTGAATATTTGGGTGGTTTTTTAGGGGTCCAGGAAAGGATGAAGGCGGGAGAATATGCAGAAGGACCCCTTTTGCAGAGTGGCAG
AAAGTGAGAATCCAACCATTTATTAACAAGTGTTTATTGAGCACCTACTATGGGCCAGACACTGTTACAGGTGTTGGGGATGCAGCTGTGAGCAAAACAG
ACAAAATTCCTCCAGCAGCATCTTTGTAGTCAGGTGGATGTCTGTAAGTGGACTTGACCTTGGGTGGTGTCCTGGTGGCTGATGGCTCTGCCGTGGGGGA
TGATGTTGGAGAGCCCTGACTTACAAAGGAAGAACAAGCACCAATGTGTAGTTCTCTCATTCAACCTCCTCTCCAGAGTGTGAGCGCCACAGGCTCAAGA
GCCTCCTGGAACTCTGGGGATTAGTGCAGTGCCTGGCACAGAGAGGCCATAGTTCACGCTTATGCAGGGGATGAAGAAGAATGAGATGCCACCCACAGAG
GCCCTGTTGGTTTTGCTCTGSGTGCCCTGTAGCCTGAGTTTGCAGTGCATCCCCCTCTGATGCTGTGGGCCAGGAAGGCTGGCCCCAACCAGCTGTGGCT
GGGAGCAGCTGGTGGTGTGAGGGGTAGGGTGGGGGCCCGGCAGATGAGTGCCCCAGGCTGGGGCCAAGGCAGATGGGAGGCTTCTCAACACCCATTTCTT
GATCCCAGAGCTCTGATGTATCAGGTGAATGCGGTGTATTGGGTGATGGAAAGAAGTTGCACGGGGTGCTGGCATTAGTCAAGTTCTAGATCTCCACTCA
AGTGCAGATGGGCTTGAATCCCCCTGCAGAGTGGCAGAAAGTGAGAATGCATCCATTCATTCACACGTGTTTATTGGGCACCTACACCTACCATGTGCCA
GACACTGTTATAGGTGCTGGGGATGCAGCTGTGAACAAAACAGATAAAATTCCTGCCCTTGTGGAGCTGACCTTCTAGCAAGAGAGATGGACAGTTGACT
GGCATTGAGGTGGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCAGAGACTGCACCACTGCACTCCAACCTGGGTGAGAGAGTGAGACTCT
GTCTCAAGAAAAAAAAAAAAAAAGAATCAGAGCAGGGGAAGGGAGATGGGGGATCAGTCGGGGGGAAAGGTGGGCAAGGTGCAGCATTAAATGGAGTGAT
TGGGTGGGGGCAGGAGCTTGCTGAGAAGGTGACATTTAGGCAGAGCCYTGAAGAGGGTGAGGGAAGGAGACTTGTGGACATCTTGGGGAGGAGCAGTCCA
TGCAGCAGGAGCGGGCAGTGCCAGGACAGCCTTGSCATCTTCATGGCACAACAGGAAGGCCAGCGTGGCTGGAGCTAAGTGAGCGAGGGAAAGCGTAGTA
GGGAGGAGGCAGTCAGCAAGGTGGCAGGGGCGCATCAGAAGGGCCTCTTATGCTACTCAAGAGGATTCTGCCTTTTACTGAGTTTGATGGAAACCACTGC
TTTCCAGCAAAGGAACAACACGCTCTGCTGTGTGCAAAACAGACTGGAGGGGCCTGGGTGGGACCACGGACCCATGAGAAAGCTGCTCGGTGATCCAGGC
GAGGGGTGATGGTGGCTTGGGCCGCAGTGATGTCAGTGGAGGTGGTGAGAGGTGGTGGGTTAGTGGATYTCTGTTGAGCTGGAGAGTTTGGAAGTGTCAG
ATCTGGAAAGGACTTGGGTGTGGGCTGGGGGTGTCCAAGGGTTTACCATCTATGCCCTGGCTTCCAGATGCTCCTGGCCAGTGGCACTGCCCTGTGCCTC
CCCAGCCTGACTGTTGAGGGGTGCCATTTGAACGGCCTGGCAGCCCCAAGCCCCCACCCCACTGTGGCCACTCCCCTGAAGAGAGATGGGAAGACTGGTT
CTCTTCCCATCTCTCTTCTCTGCCAGTGATGTGCCCAAGGGTGCCAACAGCTTCAGGGTCTCTGGAAGCTCCGGGGTGGAGGTCTTCATGGTCTACAACC
GCACACGTGTGAAAGAGCCCATAGGCAAGGCCCGTTGGCCGCTAGACACTGATGCAGACATGGTCGTATCTGTGGGCACAGCCAGTAAGGAATTAAAGGA
CTTCAAGGTAAGAGGCCACTTTCTCATAGAAAAGGGTTGGATCTCTCCACCCCCATCCAAGGTAAGAGCCCCACATTGGCAATTCCCATTCCAAAGCTCC
CCACTTAACCAAACCTCACAAAGCTTATCACAGTACATACACAAAACGTATCCTGATACAATGCCACTGACGCCCAAAACACGCAAACCTCCACCACCAC
TCCAGTATCACACATGTACACGTGAGTACTCCCACAAAACACAAGCTCTCCTAGTCACCCCCTCAGATTCACAGACAACTTCACATTAATCCCTGTATTC
AGCCCACACACGGACCCAGCAAGATGCCCCAGTGCTCTCGTGTGGGCAGGACCGCACAACAACAACCCGTGCAGGTGCACACACACACGTCCACATCTTT
GTGTGCACGGATCTCCCACACCTAAGCCAACCTTCTCTCTCATCGCCTGCCCGAAGCTCAGACGAGTCCCTCCTCACTCGCCCCAGCCCCCAGCACCCAA
ATCCTAGACATGGCCCTTTCTCCCCGACAGGGAAAAGGCAGGGATAAAGCAGCTGTTGAGGGAGGGGCTCAGGAGCCCACTGTGGGCTCAGACCCCACCT
CCTCTGCTTGCTAGCTGAGGGACTGCTGGACTGCAGGCAGGGTCCGGACAGTCTCCTGTCGACTGGGGCCATCCCAGGGGCTCACTGGGATGACCCGGCT
GGAGGGCTTGGCACGGATTCTGGACCACGCTAAAAGCTCCAGGACCACTGACTGGGGTGATGGAGTGGGGGTTCTCATTCCCATCTTATTGAGGAACTAC
CCGAGGCTTAGAGGAGCTGAGAGACTTGCCTAAGTCGATGGAGCCGGCTGCTCCTCCCTCAWCTGCCAGCTGCTCCTGCTGGGAGCTGCCCCACCTTTCC
CATCCCTCCACCTTTCCCCCACCCTCCTTGCTCCTCACACCTGCTCTGGGAACCAAGGTGGGCTCCACAGCCACTTGCTGGAGAAGGTAGCTCTGAATCC
CAGCCGGGAGCCCTTGAGTCTTGGGACTTCAGAGACTGGGGGGGTCTCCAGGCCTCCTGTGCCTCTAAGTAGGGCTGTCAGGATGTGTCCCTCATCACCT
CTGCCTCCGCCATCTCTGAAGGTGATGGCCGTGCAGGCTTAGGGCTATGTTCTGCAGGTGAGRGTCTCCTACTTTGGGGAGCAGGAAGACCAAGCTCTGG
GCCGCAGCGTGCTTTACCTCACTGGCGTCGGTAAGTAGCAGCTCCCTGGCTGCCCATCTATCCCTTYGCCCCTCCAGGTTGACTGTTTGAGGGTCTTAGT
GGATTCCTTGGAGTGGAAGACCCATGGCCAGCTTCCTCCATCACYGAGGGGCTTGRATTCCTCGGGACCTTCTGTCCACTCTGGAACCACAGGGATTGAG
ACCCAGCAGTCCTTAGGACCACAAGGATCTAGAAACTTCACTGCCCAGTGAACAACGGCTAGACCCACAATAAGCCTCCTTCATCCAGAGTCCCACGTAT
ACCCTCATTAGACCTCCAAGACCCAGCACGGAACGTGCCCCCTTCAGCCAGGGCCAGGGTCAATGTAACGGCAGAACCCAGCCCCTGCAACCTCAGGCCA
TGTCCCCAGTTCTCAGAGTTTGGGGTCACCAGCATATGATTTRGAACCCCAAAGCCACCAAGAGCTAGCAGGTGGACATGCACAGGCAAGCAAGTGATTC
AAGAGCCAAAGGCTTGGGTCCCTCCAACTCCCAGAACCACAGGGCAAGCCACAGAGGTCTCCCAAGTGTGGGGTCTGACCCCCAGACAGGGCTTCCAGTC
CTCACGGGCTTGGGGAGGGGTCAGAGTTTGCCCAACCTGGACTTTAGGGGTGTGAAGATGGGGCTGGATGAGCCCCTGGCAGCCCCTCTCCATCTCTTTG
CAGATATTTCCCTTGAGGTTGACACAGGCCGCACAGGCAAGGTGAAGAGGAGCCAAGGGGACAAGGTGAGACCCTTCCGGGCACCCCAAGGCTGCGGGGT
TGAAAGGCAAACTTGGGGTGGTCCCGGGTGGATTGTGCCCTCCCTCCAGAAGAATGATGGATCCCCAGGGTCTGTWGTATCCAACCATGTAGGGAACCCA
TCTGGGACAGCAAAATTGGCATGAGTGGACATTAACCTACACCCTGTAACCGACATGCTGTGTGACTGCTGGAAAACAGCTTACCCTCTCTGGGTCTCTC
TTGTGCCACTTTGAAATTGGGATTGGTTCTTTTGTTGCTGCCTTTTTTATTTTGAGGGCTATATTTGGACCCCTACACATGTGGGAGTGCTTCCTAAAAG
ATTGTTGAGTGACAGAAGGCAAGGAGAAGACAAGCCTTGGGGTAGAGGAGGCTATGGTGGTCAGCCCCAGGTAACACCTGAAGAGTAAGGAGGAGGACAG
AGTGGGCTCAAGGCGTCACCCCACAGGAASTATCTGGAAGCTGTCCTGGGAGGGGTAGAAGGTACAATTTAAAGGGAAAGACTCCAGAGAGGCAGCCTGG
ATCACAAAGCTTTGAGGACAAGGTGGGCAGGGCTGCCATGGATGGCTGCGTGGGTTGTTCACTGCACAAGACTGCTTGGGCATGGTGGCAACTATGATAC
AAATCATGTCTAGGGCCCTGCTGCAGAGTGGCATCTACCCAGAGGGTGGGCAAGAGTGCCATAAAGGCTAACAGTGGCCCTGTGCAATCCCAAGAACCTG
GGTTTAAAGGCCAGCTATGCGGCTTGGGACTCACCTCTCAGAACCTCCCCGCACCCTTCTGTGAAATGGGGAAAGTAAGCCCTGCCTTGTGGGTCTGGTG
GGGAGGTGTGTTGGGGACAGCAGCAACCACAGAGGCAGGGAGAGCTCCAGCCATGTTTCCCGACTTGGCTCAGACCTCAGCTTGCAGAGCCTGCAGGACT
GCATGCGGATGCCAGAGATATCTATGGGACAGGTTCCAGGAGAGTGCTGGGATGGGAAGGGTCTCCCAAAGATTCTCCAGATCCCGACCCTCATCAAGGT
CATGGCAGGCAGCCTCTGCCCACCCCCGCCCCACAGGCAGAGCTAAAGCTTAGCCAGCTTTTGAGGGCCATTTCTTGGTGTGGTAATGACACCTTTGCTT
CTCCAGTGTGATGGCTGGGTAGAGCCATTGTGTATGGTTGTGCAGGTTGCTCACTGCACAAGGATGAGGTGGGTCTAGAGCCTTATCTGGAACTCCATTC
CCCAAATAATCCTTTTTAAAATCTTTAAGCAAACTAAAAATATGAAAATCTATAATCTAATAAAGCAGCCCGCCCTGGCCATGTCTAGAACCCCTTCCTG
GAGCCTCCTGGGTCCCACTGATCCCAAGGCATCTTATTTTGCCACAGAAAACCTGGCGCTGGGGCCCTGAGGGCTATGGGGCTATCTTGCTGGTGAACTG
TGACCGGGACAATCACAGGTCCGCAGAGCCTGACCTCACCCACAGCTGGCTGATGTCGCTGGCTGGTGAGTGACACAAGGTGTTGTCTGGGGAGTGGGGA
AGGGGGATGGAAGTGGATCCTGTTGGTGGGGTGGAGAAAGGGCGATCTCAAGAGGGCCACTCTCTCCAGACCTGCAGGACATGTCCCCAATGCTGCTGAG
CTGCAATGGCCCCGACAAGCTCTTCGACAGCCACAAGCTTGTCTTGAACGTGCCCTTTTCTGATTCCAAAAGAGTGAGGGTCTTCTGTGCCAGGGGTGAG
TGGCCTGATGGGGCCTTTTCCTCCCAGCTCCATCCATATCTATCCTCTCCTCCCCCATCTCTCTCTCTTTTTTTCCATCACCTTTTTGTAACTCTCATTA
CAGCTTACAAACAACCACTCCATCAGTACCAAATATAGTCCTCAAGGAGGAGGTTCAACAACAACGAGTTCCATTTTATGGAGAGGAAAACCGAGGCTCA
GATGCAGGAATTCACTRTGGCACAACCATCTGGGGTGGAGCAGGCATTCCAACCCAGGTGTCTTGGGTGCACCAAAGCTCCTCCTTTTACCATTGCCCCA
CACCCGTTCCCTCCTCTGGTCAATCAGCGTGGACTGAACTGCATGCCAAGCACTGTCCAGGCAGGGAGGGCGTGAGAACCAGTGAGGCTGAGGCCCGGGC
CCTGCCTCTGGCCCCAGAACCTGTCTTTCTCATCAGAGTTTTTATTAATCAGCCTGTGGCTTAAAAAAATATGGCCAAGGCTGGGCGCAATGACTCACAT
CTGTAATCCCAGTACTTTGGGAGGCGGATCACCTGAGGTCAGGAGTTTGAGAGCAGCCTGGCCAACACAGTGAAACCCTGTCTCTRTTAAAAATACAAAA
ATTAGGCCGGGCACGGTGGCTCACACCTGTAATCCTAGCACTTTGAGAGGCCGAGGAGGGTGGATCACAAGGTCAGGAGRTCGAGAACATCCTGGCTAAC
ATGGAGAAAACCCGTTTCCACTAAAAAATACAAAAAAATTAGCCAGGTGTGGCGGCAGGTGCCTGTAGTCCCAGCTGCTCCGGAGGTTAAGGCARGAGGT
GGAGCTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCTGTCTAAAAAAAAAAAAAAAAATTAGCTGGGTGTGGAG
ACTCATGCCTGTAGTCCCAGCTACTCGGGAGGTTGAGGCAGGAGAATCACTCAAACCCAGGAGGCAGAGGTTGCAGTGAACCAAGATCATGCCACTGCAC
TCCAGCCTGGGTGAGTGAACCAAGATCATGSCACTGCACTCCAGCCTGGGTGACAGTGCAAGACTTCATCTCAAAAAAAAAAAAAAAGAAAAAGAAAAAA
TTGGCCGGGCCCAGTGGCTCATGCCTATAATTCCAGCACTTTGGGAGGCCAAGGCGGGAGGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAAC
ATGGCAAAACCTTGTCTCTACAAAACATACAAAAAAATTAGCCTGTAGTCCCAGCTACTCTGAAGGCTGAAGTGGGAGGATCACTTGAGCCCAGGAAGTC
AAGGCTGCAGGGAGCCGTGTTCATGCCACTGCACTCCAGCCTGGGAGACAGAGTGAGACCCTGTCTCWAATAAATAAATAAATAAATAAATAAATAAATA
AATAAATAAATAAATTACCACTCCTTAACCCCGGACTGCTCTTACTTGTTTTTACAAACAGCAACAGGCTTCTACCCCTTCCCGATTCCCCTTCACCCTT
CGCTGTTCAAACTGACCCAGAGCTTGTTGTTCCAGCTAAATGAGCCTGGCAGGAGCCAGAATGTTCCCTCCCATGCACCAGTGGTGGATGTTTAGGCAGA
GGACTCAGCTTAAAAGTACTTAGTGTGACACCAGGGCGTAAGCAAAGTCTCGACAAGTGAATGGATAGCCTCTCTTGCCGTGTGCAGCCACCAATGTGCT
CTCTGTATCTCTGAAATTCCCTATCTGGATATTTCATATAAATGGAACCATACAATAGGCTTCTTTTAGTTAGCATAATGTCTTCAAGGTTCATCCATGG
TGTAGCATGAATCAGTGCTTCATTACTTTTCTTATGTTTTAGAGACAGGGTCTCACTCTGTTGTCCAGGCTGGCGTGCAGTGATGCTATCACGGCTCACT
GCAGCCTTGAACTCCCGGGCTCAAGCGATACTCCCACCTCAGCCTCCCGAGTAGCTGGGACTACAGACATGTGCCACCACGCCTGGCTATTTTAAAAAAT
TTTTTGTAGAGATGGGGTCTCCCTATGTTACCCAGGCTGGTCTCAAGTGATCCTCCCGCCTTGGCCTCCCARAGTGCTGGGATTATAGACATGAGCCACC
ATACCTGTCTGGTCATTACTTTTTACGAATTAATAATATTCCATCTTATGAATATATTACATTTTGCATATCTATTTATCCATGGGTAATKTTCACCTTT
TGTGCCAGGTGCTTCTATCTCTTTATTTAGTTTAAAGTTTATATTGGCCTCATGAGAAAATGTTAGCCATTTTACAGATAAGAAACTGAGGCTTAGAGAG
GTTGAGTCATTGAGCTAAGGCCATGCAGCTTGCACGTGGCAGARCCAGAGAGGAACCCAAGCTGCTCTAACCACAAAGGGGGCTCTGTCCTGGATTCCTG
GGCTTGCAGCCCCTCACCCCTGTCTCCTCGCTAGCCCCTGACTCTTGTTCTTCCTAGGTGGGAATTCTCTCTCGGACTACAAACAGGTGCTGGGGCCCCA
GTGTCTGTCCTATGAAGTTGAGCGACAGCCAGGGGAGCAGGAGATCAAGTTCTATGTGGAGGGGCTGACCTTCCCCGATGCCGATTTCCTAGGGCTGGTT
TCCCTCAGTGTCAGCCTGGTGGACCCGGGGGTGTGTACAGCACTGGGGGGTGGSCAAGGAGGCTGAGGGGTTTGGGGGCCCAGTTTGCAGGCTCCAGGGC
TGGGCAGGCTGGGGGCTGGGGGGGCTTGAGGCAGGCTAGGGGTCCCTGCAGGGCCCACCAAGTCCTCATTTTCCCCTCAGACCCTGCCCGAGGTGACCCT
CTTCACAGACACTGTGGGCTTCCGCATGGCCCCCTGGATCATGACKCCCAACACTCAGCCTCCTGAGGAGCTGTATGTGTGCAGGTGAGGCTCCCTCCCT
CCAGCCCTCCCCCAAGTCTGGAGTGCAGAGGTAGGGACAGAAGCTGCCTCAGGGCTGCGCCCCTCACTCACACCGACGGATTCATTGCGGGCACCCATTC
AGGCAGAGCTGGTGGCAGGACAGCAGCAGGTGGGCTGGGGCCCCACCCTGCCCAACCCTGACCCACCCTGCCCTGTGCAGCTAAGGCCTCTCCCAGGTCA
CTGGCTCAAGCTCTGGCTTTCCTGCCCATCCTGTCCTGTGGCTGCAGCCCCAGAACATCTCAGATTTAGTCTGGGCAGTGGAGCCAGGCCCTGCACAGGC
TGCTGGTGGCCATCGGAGACCTACCCTCACTGTAACATGGGTACGATCCCTTGCCTGCTATGGACATGGGAACCCAGTCTCTGCAAGCCCGATCTCACCC
AGCTTGCTGGTCCTTCTGCCGTCTCTCAGAATCCTCATCATGCCCTTGAGGGAAGGATCAGCCTCGATTGGCAAAGCCCTGCCAGGCCTCTGTGCCAGAG
GTCAGACCACTGGAAAAAGCCACAGTTGAGCTGGTCATAAGTTAAAAGGCTGGGAAGGGTGTGGCCAAACAGGTTTGCTCTGCTTCCCCGGGTCTAGGTG
TGTGTAGGTGTTAAAAAGAGACTGTTCTCCTGCTTGCTAACCCCACCCTGACCCCTTTGCTTAGGCCAATTGTGTGGAACAGGAGTAGATGGGGCTACCT
GCCCCTCACTGCTATTTTAACCCAAAAGATTCAGCCTCAGGTCACCTCTGTGGCGACTTCCCTGACTCCCTGTGCTGGGTTAGGTGCCCTGCCTCTGGGC
ACCACTGCCCGCGCTTATGCCTCACCTTGCACCTGTCACCTGATGTGATCTGGAGACTTTATCCATCTTCCCCATGCGCCTATGAGCCTCTCAAGRTCAT
GAACTGGAACCCCTGTACCCCAGAGGCTGCACAGGGCCCAGCACAAACTGAAGGCCACTCACACCTCAGCCACAGTCAGAGGCCATTAGCATGCTCCCCT
CTCCCTACCTTTTACAGAGTGATGGACACTCATGGCTCCAATGAGAAATTCCTGGAGGACATGTCTTATCTGACATTGAAAGCCAACTGCAAGCTGACCA
TCTGCCCTCAAGTTGAAAATCGAAATGACCGCTGGATCCAGGTGGGAGCTGGGGGCAGCTCGGGAAGCCTGCAGCCTGGCTTGGGGAAAGGGAAGCCGCA
CAGGTGCCTGATGGACCCAGTGTCGCTAGAGAAGCCACGGCAGCCTGGGCCAGGCCTCTGGGGCGAGGGCTTTTCCGCTGCCTGCATCAGCCCCAGCCTC
CACTGCTTCCCTCCAAACGCTCTGGTCCCAGATGAAAGTCCTCTCCTGGCTGGGGTCCTAAGAGGCCTCACTTCTACCTCTGCCCCTCACCAGGTCTTAG
GGAAGACCCGCTGCCCTGCCCTGCCCCAGGCCTGGTGGGGACCACCCTGTTCTGTAAACCACCCGAAAAAGGTCACYGTGGCTTTTTCATCTCTCCCCTC
CCAGGAYGAGATGGAGTTTGGCTACATCGAGGCCCCTCACAAATCCTTCCCCGTGGTCTTTGACTCCCCCMGGAACAGGGGCCTGAAAGATTTCCCCTAT
AAGAGGATCCTGGTAYGTAGMGACAGGTAGAGTGCAGAAACCCTGGTTGGGTCCTCCTGGAGGCGCACCAGTGAAGTCTCATCTGGACCTAGTCCTATAG
GGCTCAGAGAACAGGAAGAGGGGGCAGAAGGATACAGGAGGTGGGATRTCAGCAAACTGRGGAGCCAGTGCGGAGTTTGGGCAAGAGAGGAAATGATATG
CAAATCACATGCAAATAGGCAGCAGCCTGATTGTTCCTGTGTTGGGAGGGGCAGGTCAGCAGCSCTCTTCTGGATAAGGCGGCTGGTCACCAAGGGGGAA
TTGGCAGTGTGGTCAGCTCTGGGGAGACCAAACTGCCTTTTGGAGAGAATGCACCCTTAGTGAGCCTGCACGGCTCTTGTTCTTAAGAGCTAGGGCCTCT
CTTTAGGTGCCAAATGTTTTCTGAACACCTACTACRTGCCAGGCACTGTGCTACCTCCTGTGCACAAGATGGCAACAGCAGCACCCACCGTTACKTATTG
AGTTCCAGGCACTGTCTCCTAGCTTTCCATGGCTTACCTTATGTATTCCATGGGGTACTCCTACAGATAAGTGCTATCATTATTTCCTCTTTATGGATGA
GGAAATCAAGGCTCAGGGAGGTTAAGTAACTTGCCCCAGGCCATGCAGCAAGTTAATAGTGGCACCAAGATGCAMAACTAGGGGGGCTGTCCCCACAGCC
CTGCACTCAGCCTCGAGGCTGCACTACCCCTCGAGGTGAGTCCACAGTCTCTGCCTGTTTCCCGGCTCCCACTCTTCCACTGCTGGGACGGTGATGGTCC
AGGTAGGAGCTGTGATGGGATGCAGTCTGTGGGCACACAGAGCAGGGACATTCAACCCAGCCTGGAGGGATCAGGTGACAATGAACCCTGTAGGTGAGTG
CACCCGCCAGGGCCAGCGTGCTGGAGGGGGACCCACCTGACCTGCCCCGGGCTTGGCCTRTAGGAGCCAGGGGATTTTTTCACTGATTTCTGCTCTCATC
TTTATCATTTTCATTTTCTACTTTCTTTGTGTTTAGTTTGCTGTTCTTTTTCTGGCTTGAAATGGAAACTAAGATGTTTCAGCCTTTTCTTTTTATTTTA
TTTATATGTATATATATATTTTTTATTATACTTTAAGTTCTAGGGTACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGGCATTTACATTAGTTAT
ATCTTGTAATGCTATCCCTCCCCCATCCCCTCACCCCACATCAGCCTTTTCTCTTCCTAAAAAAAACACGTGTTTGTTTGTTTGTTTTTGAGAAGGAGTC
TCACACTGTTGCCTGGGCTGGAGTGCAATGGCGCGATCTTGGCTCACTGCAACCTCTGCCTTCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGT
AGCTGGGATTACAGGTGTCCCCCACCCTACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGTCCAGGCTGGTCTC
AAACTCCTGACCTCGTGATCCACCCACCTCGGTCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCTGGCCTACTTTATTTTATGAAACAGGG
TCTTGCTCTGTCACCCAGACTAGAGTGCAGTGGTGCAATCCTAGCTCACTGCAGTCTCCACCTCCTGGGCTCAAGCCATCCTCCCACTTCACCCCCTGAG
GAGCTGGGAGCACAGGCTTGCCCCACCACGCTCAGTTTAAATACACATGTCTAGAGCTCTGACAACTCCCTAGCAGTGCTGCCTCGTCAACATCTCATGA
GTTTTAATGTGCTATCAAAAGACAGCAGATTTTTATGAATTTCACTTCAAAATCTTGTCTAATTTCCACTTTGATTTCTTCTTTGATCCATGGMTTCTTT
AGATGTRTACTGCTTAATTTCCAAACATTTGGGGGAGTTTTTAGTTATCTTTGGTTATTGATTTGTCTTTAATCGCATGGTTCGCAGAGCCCAGGGGGGA
TTTGTAAAAAGTGGACAGAGATCGTTTTTCAGGYACTAAGAGCCATGGAGTGGGAGACCCCCAGCAACTCCCCTCTACTCCAAGAACTGCCTCGTCCTGT
CCTCACTGACCTCTCCTTCTTGGGGTGGGGGTCTCRCTGGTTCTTCCATAGGGTCCTGACTTTGGATATGTTACCCGGGAGATCCCGCTCCCTGGTCCCT
CCAGCCTTGACTCCTTCGGCAACCTGGACGTCAGCCCGCCCGTCACGGTGGGCGGCACGGAATACCCCCTGGGCCGGATCCTCATCGGGAGCAGCTTCCC
CAAGTGAGGGGCTGGGGCGGGAGGTGGGGAGGCACAAGGGAATGACTGCAGCATCCACCCTCCCTGTGCCCCCATCACAAACACAATTCCCCAGTCTGAG
AAGTGATCTTAACTTCCTGCGTGGAATCCTGGAATCWAAGACTCGGCAACCTAGGATCTCAGATTTAAAAGATCAGAGAATCTTAGGAGAAAASTCACAC
GCTTGTGGCCTGCRATCTTTTGGCCTACCTCATTTTATGAGCTTAATGAGTCACCAACATAAACAGATATCGGGAGGGCCTCCCATAAAAAGGCAGGTTT
CTGGCTTCTCATGAAAAATTGGAGAAGCTGGGGAGGTGAGATACAGTCTGGCACAGAGACAGAGGAATAGACTCRTTGACTTCTCCCATTAGGAAGTCAG
AATAGCTTCTGTCCTAACCATGGCTTAAAAGGGTCCTGAGGTCATGAAGTTCCCAGGGCAGGTGGCTGCAGGTAAGCAAGTGATTGGCCAGGATACCCTG
ATGACAGAGGTGAGTCAGTGGATCTCACCCTGGACAGATGTGATGGAGCAGGAAACAAGGTATTTAGGTTTTAACGCTCAAACAGGTGGCGATGTCTGTT
AGGTCCTGCTGAGTGGGTGCACACCCTCCCTGCAGGTAACCAAAGAATGACGTGTGCAGTTCAGGGTCCTGGTGGGTCCCCCTGTTTCCTCCCTGGAGAT
GACACCCACTGTAAGCCCTGGAGATCACCTTCCTGTTTGTGGGGTTTTTGCATAGCAGGGGTGCCCCCACTTACCCCCCAAGCCCTGGCTGACCATCTGG
TCTCCAGCCCAGAGGAGTCAGGCAGTGCTGAGAAGGTCACAGCCTCACCTGGTGAATCTGGCAGCCTCAGAGCTCTGGATCGGATGAGGCGAGGCTTCCT
GGCACCTACCCAGGCAYGTAACTGGGWGCCCAGACAGGATGCCTGGGGCTGAGACTGGCCAGGCGAGAGGCATGTGCTCACCCTGTTGGTGACTCATGCC
CAGACACTACTGTGTGGGCTGTTCTACCCACACCCTTGGGGGCAGACGGTCCTTGAGGCCTCAGGACAGTCTTTCTCTAACTCAGGGAGGAACCCGTGAG
GAAGGAGCACAGGCTTTGGAATCAGATGGACTTGGGTTTGAGTCCTGGCCCTGCCACTTGCCAGCTACATGATTTGGGATGAGTCCCCCAAACCAGTGTA
TACCACAGTGCCTGGCACACAATAGGTACTCAATTAATTCACTTAAAAATATTTATTGTATGCCAGGCACAGTTAAAGGTACTGGGGATACATCAGTGAA
CAAAACAGATGCATTTTAAATGAGCAAATTATTTTGTACTCCATGCCTCAGTTTCCTTATCTTTAAAACGGGCCTGATGAAAATCCCAGTCCTAGCTACA
GAATCAGCATTACTGGGGATAAAGAATTCGTGTCAACCACCTCTTGAATGCTTAGGTATTTTTCATTTGGCCCCAGTAGTGGGGCTGCTTCAAAGCAGGT
TGGAACTAACTGGAAAAATGTATTGACCAGCTACTACCTACTACATGTCACACCCATAGTGCTTTCCCCAGGCTACCTCATTTAATTTCTACAACAACCC
TGTGAGACTGAGACCATCATTATCCCCACTTTACAGATAAGGAAGCTGAGGCTTGGAAAAGTTAAGTTACGTGCATTCTTTCATACATTCATTTACCAGT
TCAGTAAATATTTATGGAGACTTCCTATAGGCCAAGCCCAAAGTCTAATGCTGGGGATACAGAAATGGCTGAGGAGCTTGCCCTTGAGATTTAGAGTCTA
ATGAGGGAGACAGGCAAGCAATGGATCAGAGAGGGGATCACATATCATCCCACGTGCGTTGTCCTAGAAGGCTTCCTAGGGGCAGCCAACGATATTGACG
CTTCTTTGCGAGGCCAAGGTGGGTGGATCACCTGAGGCCAGGAGTTTGGGACCAGCCTGGCCAACATGGTGAAACCTCGTCTCTGCTAAAAATACTAAAA
TTAGCTGGGCCTGATGGTGCACGCCCATGGTCCCAGCTACTTSGGAGGCTGAGGTAGGAGAATTGCTTGAATCCAGGAGGCAGAGGTTGCGCTGAGCTAA
GATCAAGCCACTGCACTCCAGCCTAGGTGACAGAGCAATACTCCGTCTAAACAAACAAATAAATGAAGGAAAGAAGGAAGGGAGGGAGGGAGGGAGGAAG
GGAAGGAAGGAAGGAAGGAAAGAAGGAAGGAAGGGAGGGAGGGAGGAAGGGAAGGAAGGAAGGGAGGGAGGGAGGGAGAGTGGGAGGGAGGAAGGGAAGG
AAGGAAGGAAGGAAGGAAGGAAGGAGGGAAGGAAGGAAGGAGGCAAAGTAGTGTGGAGTGGACCATGTTGCAGGCAGAGGGAAGCGCTCAGGCAGAAGCC
TGGAAGCCAGAGAAGGTACAGCTCAAAGGAAAAGTCGAAAAAACTCGGTATGGGTGGCATGTAGATGGGCAGGGATGGACCGGTAGGACCTCAGGCAGGA
GGGGGCTCTGCGGGTCCAGCTGGGGACAGAGTTCAGGGAGAAACCATTCTGTTCAGATGCCTCATGGGGCAGTTCTCTCCTCCAGGATCCTTGGGACCTG
GGCTCAGGAGCAGAGAGCTCAGAGGATGCAGGCTCAGGGGCGGAGAGCCGGAGGATGTAGGCTCAGGGGCAGAGAGCTCGGAGGATGCAGGCTCAGGGGC
AGAGAGCTCAGAGGATGCAGACTCAGGAAGGGGAGGGGCTCCTTGGTGTTCTCCAAGGACTTTGCTCCCTTCTCTGTCCCAGGCTCCTGCCCCAGTCTCT
ATATCACACTGCAACACATGGACATCCTTACCTGTCTGCTCCCACAAGCCTCACGAGCCAGTGAGCCAAGCCAGGAACCTTCTCTCAAGGGTGCAGGGGT
CTGCTCTGGGAACTCCCAGGCACAGAGCAAGGAYCCCACATGGGAAAGTGAGGGGTCTCCTGTGTGGACGTGTCCCCATTCCATTGGCTGTTGGACTGAA
AACCAGGAATGAGGCCTTTGGTGGATAGATAGGACCTGAGGTTTGAAAAGGGTTGGCTACGTATTAGGACCACATAGCAAGTTAGCAGTACGGTCAGAAC
CCAGGTCTCCTTCTACCTGGGCTCCAAACTCAAATTTAGCACCTCAGGCTGCTGTCCAGTGACCCTGCCTTGGTTTCTGACCTTAGCAATGGACAAACCA
GACAACCAAACATTCCAGCAGAGAGAAACAGACAATAAGTGAACAAAACAAATAAGTACCTCCAATCATATGTATGAATATAGTATGAATGCATGAACAA
ATGCATATAACTTTAATTTTCTGGGACTCAACTCCCTCACCTGTAAAATGGGGACAGTAAKAGTCCCAACCCCACAGGGCTGTCATAAGGATTAAATGAG
GTAGCCTGGGTAAAGCATGTGTGTGGCACATGTCAATAAATGTTTGTCTCAGCTTTGCTGAGAGTCTGCTGTTTAAACAAAGCCTTGAAGGAAAAGAGGC
AGTTAGGCCAAGCACAGTGGCCCTCACTTGTAGTCCCAGTGCTGTGGGAGGCSGAGGTGGGGGGGTCGCTTGAATCCAGGAGTTTAAGACTAGCCTGGGT
GGCATGGCGAAACCCACCTCTACAAAAATTACAAAAATTAGCCGTGCGTGGTGGCACATACCTGTTGTCCAAGCTACTCAGGAGGCTGAGGTGGGAGGAT
CACTTGAGCACGGGAGGTTGAGGCTGCAGTGAGCCATGCACTCCAGCCTCTAGRCTGGGCAACAGAGTGAGTGAGACCTTGTCTCAAAAAAAAATTAAAA
AAGAGAGAGAGAAAGAAAGAAAAAAAGAAAGGAAGGAAGGAAGAGGAAGAAAGAGAAAAGAAGGAAAGAAAGAAGAGGCAGTTAAAGATGTGGCTACTTA
GGAGAATATTCCAGGGTGTAGAAACAGCTGTGCAAAGGCCCTGAGGCAAGAGCAGGCTGGAGACAGCAGATCAGCAGGGAGGCTGGTGGGCCTGGAGCCA
AGTGAGCAAGGAGGGGCGCAGTGGGGAGTGAGGCCAGAGAGCTTGGCCGAGCACGCTTCAGATGTAACTTGGAGCTGGTATTTCTATGTATATCATAGGG
TCATCAGGAGGCTTAAACAAGACACTTACTGCGAGGACCCTAAGGACAGCACACAGTAGGTGCTCAAATGCACACACAAATGCACAGTCCATTCTCTGCT
GTCTTGGCTTCTCCACGCTCTACGCCCCACGTTTAAAGCGTTCTTTGAGCAATTCCGCCCCCTGGTGGCAGATCTGATGATGACTCAGGCAAGGCCTGAT
RCCTCTCAGGCACAAGGTGACTGCCCGCCCTCTCCCTCCTGGCCAGGTCCGGTGGGCGGCAGATGGCCAGGGCAGTGCGGAACTTCCTGAAGGCACAGCA
GGTGCAGGCACCCGTGGAGCTCTACTCGGACTGGCTCTCTGTGGGCCATGTGGACGAGTTTCTGACCTTTGTGCCTACCTCTGACCAAAAGGTGCGTCCC
CTCCYTCCCTGCCTGAGCCACCTCTGCCCTTGTCTGACCTGATGGGATGAGTCAGGGCAAAGCCATCTGGAACCAGCTCAACCCTGTGCCCCGAGTAAGC
TCTGGATTGGGACATTTTYTGGGTCAGGGCACCCTGACACGCTCATCCTCACACTTCCAGGGTATTTGTGCTTGGACCCAAATCCCTTATCCAATAGTCA
GGAATGATATTGATAATAATTGGTAATATTTATTGAGCACCTACTATGTGCCAGATACTCACATGTTTTAATTCATTTAATCCTCCAACAAGCCCGTCAA
GTGGGTGCAATTATTATTGTCCCATTTTACAAGCGAGGAAATTGAGGCTCAGAAGGGCAATTAACCCATCCAAGCTCACCCAGCCTGCAGGTGTCAGGAT
AGGATTCAAATCCGGGTTCTGGGCCTCTACAGTAAGCCTTGCAGAGGTGGCTTGGGAAGGCATGGCCAGGGAGCCAGCAGCCTGGGAGAGGAGGCTTCCC
AGYGACCAGTGGTTACAGCTCTGCTAGGGACAGCTCTGACAGTGAAGGAGGAGACATCTGAATTGGGTATTTTGTTTGTTTTTTGTTTGTTTGTTTTTCG
AGACAGAATCTTGCTCTGTTGCCCAGGCTGGAGTGCAATAGCGCGATCTTGGCTCACTACAACCTTCACCTGCTGGGTTCAAGCGATTCTCCTGCCTCAG
CCTCCCAAGTAGCTGGGATTACACCACCATGCCCAGCTAATTTTTTGTATTTTAAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTC
CTGACTGCAGGTGATCYGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACSACACCCAGCCCTGAATTGGGYCTTGAAGGAAGAAAT
CAGAATGCCCTGGTGGGCAAAATGCGAAGGGCSTCCAGGGAGGGAGAACAGCACAGACAAAGTTCTGGAGGTGGGAACCTGCTTGGAGGACTGGGAGAGT
TGCAGACAGTGCTTTGTGGCTGGGGTGYAGACCGAGTGGGAGAGGGGAGTCCCAAGAACTGTCAGGCCCCTCCTGAGTCCTGAGTCTGGGGTCTCCTGTG
TCTAAGGGGACCCTGTCCACTGAGCCATTCTCCCTCCCTCCGTGCCAGGGCTTCCGGCTGCTCCTGGCTAGCCCCAGCGCTTGCCTCAAACTCTTCCAAG
AGAAGAAAGAAGAGGGTTATGGGGAGGCAGCCCAGTTTGATGGTGAGTGCCAATGACCCGGTCACCCCTGGGGGACCCTGCCCTTTCATCACCATCCTTG
GGTACAGCCCCTGCACCTGCAGATCTCTCAGCTGGACTCAGAACCCAACACCCACTCTCTGTTTCTTGGGTCCCCAGGTCCTCTGATGGGTGGGGGAGTT
CCTGGGCCACACCCCAGGAGAGGAAAGGCACAGGAAGTCATGAGTGCCCCASGTGCCGGTCAATGCCAGGCATGTTCTTGTTCTCACTCCCCTTTGATCT
CTCTCCCCTCTTCCTTATCCCTGTTCACAGAAGTGGAAACTGAGGCTCAGAAAGGTGAATTGGCTTGGMCAGGGCTATGCAGCCAGGGAGCAGCAGGGCT
GGGGCCTTGAGAGAGGAAGGAGGAGAAGCCAGGCTTGGTCAGGGCCCCTCTGCAGAGCTTCCTGCAGGAGCTAACAGACCCTCCAAGGGCTTGGTTGGCC
CATCTCCCCTCCTTATCACAGCCTCAGTGTTCTCATCTGGGGAATACCTGGGGAATAGAGCATTGGAATGGATGTGGTGCAGACATCCACAAGGATAGCC
CTGAGTTCAAATCCTGATCTTGGCATTTGCTGGCTGTGGTATCAAGGGTGTGTTCTGAACCTCTCAGTGCCTCAGTTTCCTCTTCTCTGAGTTGTAGATG
ATAATTAATCCCTCCTATAGTTGCTTTAAATATTAATAATACATTAAGTAGGATGCCCAGAGCATGGCAGACATTCAATAATGGTAGCTGTGCCATAATT
ATTAGGCTCCAAGTCCAGAGTCACTTCCTGAGGGGTTCCTTATCCATCACCAGGTTTTCCTTGCAGCCATGGCTTGGTCCCTTCAGGGGTTCTCAGTCTC
TGGCTTTCTCTGTCCTGGCTTCTGACCCTGGCACTGAGGTAGGAGGGAAATCCTGGCCTGGATTATGTAGCCCCAGGCTGAAGACGGCCTCCAGGCAGTG
CTCCCTGAGCTATGTACTGTCTTTCTCTTCTTGCAGGGTTAAAACACCAGGCAAAAAGAAGCATTAATGAGATGCTGGCAGACAGACACCTCCAGAGAGA
CAATCTTCATGCACAGGTGAGAGGCAGGACCACCAGCTGCTCTAAGGGGTCCTTTCCCTTCCAGGGAGAAGAAGCCCCAGGAACTGGGTTGGGTCAGAGA
TTCAGCGCTGGAGCTCTCATGGTCCTGGGGGCTGCTGGGGCCTGCAGGTGGGATAGAGCCTCTGCCTTCAGGAACCCACAGTCTGATGGAAGAGACAGAG
CCATGCCCTCAGAGAGCTCCCAGCCTAATGAGGGAGACCCGGCCCCACGCTGGGGCAATGACCTATTTTCACAGAAGCAAATCTGAGCCTCTCATCTGAG
AAGTCTGGTGAAATGCGAGAGACACGGTGGGGAAATAGGACCTTGMGGGGCCCAGAGGTGGGGTGGGTAAGATTCAGGGGGATCCTGTGGGAACAGGTGA
AGCAAGGTGTCAGGAAGGGGCAGGGCTCACCCCAAGGATAAAAAATGCCTGCCCCATGCAAGGCGAAGGGGCTAGCACAGAGTCGGTGCTCAGTTAATGG
CAGGAGGGCCCTTACCCCTTCCCGGTAGTGCCCAGCGCTTTCTCCTAAGCTGCTGAGAAGGGACAGGAGCATCAGCCATGCTGTGGCTGGGGCTGGGACA
GTGTGTTGTGCTGACAAGAACATTTGCATCCAGAAACTGCCTGGGTTCGAACCCCAGCTTTGGCACATCCTAGCCTTGTGCACTTSAGCAGGTTGCCTGA
GCCTCAGTTTCCCCCGGACAGCAATGGTTTCTATTGCACAAAGCTGTTGTGAGGCTTGAAGGAGCTAGCGGGCCCAGAGGGCTCCACACGGGCCCAGCGC
ACAGTAGGTGCTTGGCCAGTGTTATGCTCTTCCTAGTCCTGGGCTGCCCAGCTGCCTCCTTCCCCAGAAATGCATTGACTGGAACCGTAATGTGCTGAAG
CGGGAGCTGGGCCTGGCAGAGAGTGACATCGTGGACATTCCCCAGCTCTTCTTCCTGAAAAACTTCTACGCGGAAGCCTTCTTCCCAGACATGGTGAGAG
CCCTTGTGCAGGGTCCTGCTGGGGGGTCTGCGGGGCTCTGAGAAGAAGCACTCCCTGGCCCAGGGCAGGCTGGTGCAGAGGCTGGAGGGCCCTGCGGACC
TCTCCAGTGTCTGTTTTTGTGAATATAGAGAACATTCCCATCAGTGGCTCTCAACCAGGGCAATTTTGCCCCCAGGGGATTTTTGTTGCCGCAGTGAGGT
GCATGCCCCTGGCATCTGGTGGGTAGAAGCCAGGGATTTCACTAAACATCCTACAGAGCATAGGATGCCCCGCCACAAAGCACTTTTTTTTTTCTCACCC
AGATGGAAAAAGAAAGCGTGGTTTGGTTCCAAGTGTTTCAGGCTTCTGTCTCTGGGTCTCAGCTGCCTGCTGTGTTCCCCACCACAGCCCCTCGCTTGCT
GCTCCCCAGTGGGGGTCCTGTGTCAGGCGGKGCAGGTGGGGTGGGCGGTGGCCTCGCTGACTCTCATTAACAGGGCAGCTGACAAGGAGATGAGCAGATG
TGATCTCAACTGGGAAGGGCCTGAGCGATGCTATCGGGGTGGGCCTGGCCCAAGTGCCCATTAACCTCTTGGGAAAGGATGTTGGGGTGTTGGCAGCTGG
CAGRGATGGTCCCCCGGGATGGGGATAGACCCTCTTTCTTCAGACTGCGGTCTTTAGCTTGAATCCCTCTCTTGGGACAAGCCGAGGGTTGGAAGTGAAT
GTCGGAATCGGGATGGAATCAGGGTTGGAAGTGAATGTCGGAATCGGGATGGAATCAGGGTTGGAAGTGAAAGTCGGAATCGGGATGGAATCAGGGTTGG
AAGTGAATGTCRGAATCGGSATGGAATCAGGGTTGGAAGTGAATGTCGGAATCAGGATGCAGGTTGCAGGAGGTGGGGAGGGTCAGTGTGCTTTCCTGAC
TCCTCATGGGGAGATTCCAGCCTCTAGGTCCTGGCAGAGACCCCCAAGCAGGATTTCTCGACTCTGTAGCTCTACTTCTGTTTTAGGCTGGATAAGCCTT
TGTTGTAGATGCTGTACAGTGCCTCGCAGGATGCTTAGCGGCCTCCCTGGTCTCTACCCACTAGATGCCAATAGCACTCTCCCAGATGTGACAACCAAAA
ATGCCCTAGTGGACAAAATGGACCCTGATTGAGAACCACGGCTTGAAGGCAGTGTTGTCTGTTAGAACATTCTGTGCTGATGAAAATGTTCCATATCGGT
ACAATACAGTCCAGTAGCCACTCAGCTACCACCTGAAATGTGGCTAGTGTCAATGAAGAACAGAAATTGTAACTTTATGTAAGTTTAATTTTAATTTAAA
CAACTGCATGTGGCCAGTGGCTACTGTGGTGGACAGCAAAGCTCTAAGGGACTGCTGAGCTCTGGTTCTGGCTGAAGGTGGSGGGGAGGGCCTAGGCTGG
AGCGTGTGTGTCTGTGGTCTGGCCTCCATCTGCCRGAAGCCCCTGACTGTGGGTCATCCTGTGGGGATTCCCTAGCTTCGTTCCAGGCTCTGCTGAAGGA
TCCCAGCTTGTCTTCACTGGAGGGTCCCATAGGGAACACCCAGTTAACCCCTTGGTTTGTCATATGGGGAAACTGAGGCTTAGAAGGAGAGTGGGTCATG
TGTCTGAGGTCACACAGTGAGCGAGTGGCGGAGTTGGGACCAGCCCCCAATCCCATGACTCCTCCTTTAGGAGGAAGCAGAGGCCTGGCTGGCTCTGGCC
CTGGTCCTGGTCCTGGTCCTGGCTCTTTTCTCCTCTTTCTGCCCTTTGCCCCCTGCATGCCCCACCCCCACTCCCACCCCAGCATGTTCTGGCCCATTAG
TGGGCAAAGAGGTAGTTCAGGGCCAAGGCCAGGGGACTGACCTCACGGGACCCTCCAGCTTTATGTTGGTCCCTGCCATGGATGAGGGTGGGGCAGACTT
GAGGGTGGGGGGCAGAGCACGGAGAGTTTGAGGGCAGAGTCCAGGACAGGCTCACCTCAAACTCAAGACAGCCCAGAGCCGCCCTCTAGAGAGAAGGTCC
GGAGTCCCCTTTGAACACCAAGGGTCACCCCTTATGACCTCTTGCCATCAACCTGGGCTGAGATTTCCTCTAAGAAACCCCCATASCACAGCATGGGGGA
GAATTCCCATCCCCAGATTAGGGCCCCAAGCCAGGTCCGCAACCAAGGGAAGGAGAGGTGCCCCCAGAGTTAAACTCAAGTGTCCCCAAAGGCTTTCAGC
CCTTTCCCCCAACTCCTCAGTCCCACAGGTGGCCAGATAAAAAGCATGGATTTTGGCACCAGCCAGATCCAAGTCCAAATGTCAGTCTCATCATTCTCTG
GCTGTATGATTATGTGACTTAACCYGTCTGAGCCACAGCTTCAGAGGGAGGCTGTGGCATTTAGTGATGATATATCTGGCACATAAAAGATGCTCAATAA
ATGCTAACAATGATCAGGGCTGCCAAAGACAGTTAAGCAAGCTGTGCACAGCAAAAGCACACCACACTTTGGAAGACATCCACACCACAGACCTTGTAGG
TGTGTATATTTGTTGTACAAGTTTCTGGCAGATGACACGAAAATCTCTTGTTCTAACAAAGTTGCTATAATATGACAATTTTCTCATAGATGAAAGAAAG
AGTGGGAGAAGTTTTTTTTTGTTTTTTGTTTTTGTTTTTTAATGTACAAAATTCCTGGTAGYCCTGGCTGTTATTCAACCTCATTTCCAACCCTGAATCT
TTTTCTCCTCTGCTTTCATAGGCCCTAACTCTTGAGCAAACTCCAGTCCTAGAGCCCTTTCTAGGCTGTGGCTATGGCCAACCCATTCCCCAGGGCCTGT
CTCATTCTGGCAAGGAAGGGGTGCCARAAGCACAGCACTTAYAGCCAGACAGCCTCCCTCTTGCCTTTTCTCTTTTGCAGGTTAACATGGTGGTCTTAGG
CAAGTACCTGGGCATCCCCAAGCCCTACGGGCCCATCATCAATGGCCGCTGCTGCCTGGAGGAGAAGGTGCAGTCCCTGCTGGAGCCTCTGGGCCTGCAC
TGCATCTTCATTGATGACTACTTGTCCTACCACGAGCTGCAGGGGGAGATCCACTGTGGCACCAACRTGCGCAGGAAGCCCTTTCCCTTCAAATGGTGGA
ACATGGTGCCCTGAGCCTGCCCCCACCCGCCATCCTCTCTGCBCTCTTGCTAGGGAACCCTGCCAGGGTGAAGGCAAGGAACAACCACCTGGCCTCCATT
CTCTTGGGGGAGTCTTGGCACTTTGCAAACATCCTGGCCACCATGGGCACCAGGACACAGGGATGGATACCACCTACCCTCGCCTCTGGAATGGCCTACC
CAACCCGAGAAGAATGCACCTCATTCTTCCCTGGCCTCTTTCCCACCCACAGCCCCCAGAGGCTCTAGATCAACAATGTTAGCATGTTCCAGAATGGCTG
TGGGAGGCCTAGGGAGATGGGCCCCACTTAGAATTGCTCCCCCTTCATTCTGATGCCTCCCTGGGGAACAAGGATAATGACTTTGCATCTGCACCTGGAA
CGGGGCCTGGGGGACCWGGGGTCTGGTGTGCCAGGCACCAGGCTGCCTCTGCTCTTGGAAAACTAGGAAAGGGGATCAGAAACATCCTCTCCCCGCTCTA
GGTTTCTTCTCCCAAAGGGGACCCAAGGCTGTGACACTTACCTCCACCCCCATCCAGCACCCTTCAGCTGTGTGTGGACAAACAAGGACAGAAAAACCCA
GTGTCCAAGGGCCAATTTAAATAGAAAAAAAGACAACAAAATTTTAATAGCTGACTCCGACCTCAGAAGAGTGATTGCTACCTTTCTGGAAAGACTTTAA
TTACCAGAGCTGGCTTCTCCCAGCTCAGAAATGCTGAGAAGCCAACGTGAGGCCTGAGGACACACAAAGGATGACGGGGCAGGAGGGGATGAGGTCAGGG
TAGCAGAGTGTGTGACGACGGATTTGGGGGCCTAGAGGTGTCCGTGGTTCCTGGGCTGGGATTTTGGACTCTGGATTTGAAGGGAGCTGGAGCTTCCAGA
TGTAGCAGGGGTAGGGGGCCAGATGTTAGAAGAGGGTGTGTGTGTTGGGAGGAAATTAGGTTATCTCTGAAGGTGGAGTTTAATTTCCTTTAATAGTCTT
TAATTATTCCCCTTCATTCTGCAGGCAGTGGGAGGGGAAGGCTTGCCCGGTCTCTCTCAGCAACCCAGGGACCCTGCACATAGCTTAGGTTTCATCCCTG
AATAAACCGCTGTGCAGGCCCATGTCCCCTCCCACAGTAGGGAAGACAGCTGCCACGGGAGGTTAATAGCCCGGAGTGAGGTCACTGAGACATGCACAGG
CAGGCTGGTTCAGCTGGGCTGCAGGGCACGGGCAGGAGGAAGCCAGCCTACCCTCTTCCCCCACTGCCAGTGAGGCCATTGTAGGGCAGTTGGCCCTAGG
GCTTCGGTCCATCTAGGTTTTCAGTGGCCCCTGCTGAGACCTCACACTGAGCCAACTACTGTCACTGTTTTAACCAACAAAAGCTAGCCTGGAACTGCTA
TGGTTAAAGTGGGTGAGCGGGAACCTGAAAATCCCCTTCTGGAAGGTTCTACAGAACTCTATTTGCAAGCTCCTGCTTTAACCTGAGCGTCCTCTGCTCA
GGATCATACCCCAGCCTGCACTGAGTCAAGAAGGAGAAGGAGGCTCTGAAGGGGCCGGGGGTGTGAGCTGGGGTTGGGACTCCCCTGAGAAAGAGCTGTG
GGTAGGAAGGGAGTGAGCATTGCAGAGATAGGGCTGGGGGTCGGGGCCACACTGAGTGTGGGAAGCTCTGGAGTTGCTGCTGGGCCATCGAGGGGCCCTG
GTGTTGGCTCTGAGAATGTTCTGGGTGACCAGTCACCTACTTTCTGATCAATAAAAATGTCGACATGCATTTCTTACAGGGCTGTCTACCCAGCCTGTTT
GTTGGGTTGGGGAGGAGGGGAGGAAAGCGGAGAAGACTGCTTCCAGTTCCATCCACTATGAAGCTGCTTGGCTCAATTTCTGCTGCCACAGGCGGCCCCT
GCTCAGCTAGGAGAGCCTCACAGTGCCACGGCCAGTGCCACGGCCAGTGCCAGGCAGGCTGATTCAGCAGGATGGCTGGCACATTGCCTCTTGCTCTGGG
GCTGATGGCCCTGCTAAGATGGAGATCAGATCAGGGGAGGGATGGGTCCTGCCTCTTCATCTCTTCTCTCTTCCTTCAGCATCCCCTCCATCTCTCAGGG
ACAACAGGTCGGGGAGGCAGCCCGGGCCCTATTAACAGAGGTGAGAGTTCCCCAGCAGGGCTGGTTCCCAGGGCCACAGGCCACTACAGTTCCCTTTCTG
GTTTTCGTTTTGTTTTGTTTTCTTTTCTTTTGTTTGAGACCGAGTCTTGCTCTGTCACCCAAGCTGGAGTGCAGTGGTGCTATCACAGCTCATTATAGCC
TTGAATTCTTGTGCTCAAGCGATCCTCCCACCTCAGCCTCCTGAGTAGCTAGGAATACAGGCACAGGCCACCATGCCCAGCTAATTGCTAATTTATTTTT
TACGGAGCTGGGGTTTTGCTATGTTACCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCGATCCTCCCATCTTGGCCTCCCAAAGTGCTGGGATTACAGGT
GTGAGCTACTGTGCCTGGCCCAATTCCCTTCCATTTTTGTGTCTGAAGCTTCTAAGTTACCTGGCTTCAGTGGTCTGATTTTGGATGCCTGAAATCATCA
CCCTCTCATCCTACACATTTGCTGCTGCCTCAAATTACACCGTTTGATACTCACTCACTTTATTTTAGCTTTTGTTGTGGAGTAAGAGGGCAAAAAGTTG
CTGCCTATTAGTCATTGACACTTTAGTCTGAATTAACCACAAACCTGTTTCTAAAAGTTGGTATTAACAGAGGAGAAGTGAAGGCATGAGTCTCCTTCCA
AAGACATATACAGTTCTCCGAGAAAGAGGCAGGTAGTGGGCCAGCACCCCAGGGAAAGCCCCTACTTTCTGCATCTATTCCCCATCTGTGCTCACAAGAA
GGCTAGGGAGACTAAGGCTTCCTCCTGAGCTCGAACTCTTACCCAGGGCTCCCAAGGCTGACTCAGCCATCAAGCCATTCCACAGCTGAAAAAAGTGAAG
CTGTCCCTTGACCCAGAAGCCCAGCAGTTCTCCTTGAAAAGAACATCTTTCCCAAAAACTGAGACATGGGAATGACAATCTCAGGGTCCTGTTGAGGCCC
TTGAACTGGTGCAGATGTCCCAGCTGGAGATGCTGGGGAGCGGGTCCTGGTCCCCATCCTGTCTCAGGCTGTCAGCACTGCCAGGGAGAAGGGAGGAAAC
CTCTATTCAGCACCTCCTGAGCCTCCGCCAGGCAGGGTGCGTCTTCACTATTATCTCCGCCAGGGCCAGTGATTAGCTGCATTTTCTACAGATGAGGAAA
CCGAGTCTCCAAGAGGGGGGACACTGACACCCAAGGCCCTATAGTGGGTGCACGGTGGAGCCTGCCTCTGAACCCAAGACTTCTCTCCCCAGAGCCCTTG
CTCCTGCTCTTCCAGGAGCCTGAATGCCCCTCTGACTTCGGTTTCCCACCTGACGACTGAGCTTTCCTACTCTGACATGCCAAGCTCCCCCTGGCTGGAG
AGAGTTCTCACCCTCATCATTTACCGCTTTCAGAGGTTTTTGGGACCTAATAACAGCAACAATAGTAATACAATAACGCCAAGCTCCATACCAGAGCTCT
ACCAACGCTGGCCCCTGAGGCCTCACAGCAACCATTTTTCAGACGAGAAAAGTGAGGCACGAACAATTAAGAAAGTTGCCCGGCCGGGCATGGTGGCTCA
CGCCTGTAATCCCAGTACTTTGGGAGGCCAAGTCGGGTGGATCAAGAGGTCAGGAGATCGAGACCATCCTGACTAACACGGTGAAACCCCGCCTCTATTA
AAAATACAAAAAATTAGCCGGGAGCCGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAAGTGGAGCT
TGCAGTGAGCCGAGATCACGCCACTGCACTCTAGCCTGGGTGACAGAGCGAAACTCTGTCTCAAAAAAAAAAAAAAAAAGAAACTTGCCCAAGGTCGCCC
ATCCAGGAAGCAGCTGAGGCAGGGCTGAAACCCAGGTCTGGCTCTAAAATCCATTAAAAAAAAAAAGTTGGTGTTTCTCAAAGGGCACCAAAATGCTTTG
GGGGTGCTTATTAAAAAATCCAGAGGGCCGGGTGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTAGGTGGATCACCTGAGGTCTGG
AGTTCAAGACCAGCCTGACCAACATGGAAAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGAAGTGGTGGCACACGCCTATAATCCCAGCTACTCG
GGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGAAGGTTGCGGTGAGCCGAGATCGCACCATTGCATTCCAGCCTGGGCAACAAGAGTGAAACT
CCGTCTCAAAAAAAAAAAAAAAAAATCCAGAGGCCAGGCTGCACCCCTAACCTGCTGGATCAGAGTGGACAACAGACCTGGGAATCCGCATTTTCACCAG
CTTCCCCAGCAGAGTAAGAAAGCTCCCCATTATAGTCTCTGAAAATGCAGAAAATGGAGGTGAGGAAGCAAGAAGCGTCCGAGATCAATATCATATATCT
CTGCACCCCCTCAACAGCACCTGCCCCCAACAGTTCCTGGTGCCTAGCCAGGTACCTGTGGGGACTTGCTTCCCAAGAAATTAACTTCCTGGGTGCCGGG
GTCGGGACAACAGGTTCGTATACAAATACTGGGTCCCTTCCAGCCAATCCTGAGCTCTCAGCTCTGGGAAGGGGCTGGGCTTTCATGACTGGAGCCAATG
AATTGGCACCCTGGGCTGGAGGGGTGGGGCCAGGGGCTTTTAAACCTCATCCTAAGGGGCCTCAGGGGCAGTGTTGGGGTTGGCGGCCACAGCTAAGTCC
AACACCAGCATGTCGCTGCAGAGAATCGTGCGTGTGTCCCTGGAGCATCCCACCAGCGCGGTGTGTGTGGCTGGCGTGGAGACCCTCGTGGACATTTATG
GGTAAGAGTCAGAGGCCTAGTGGTTTGCAGGCCCTTGGTGCTGATGCCCTTGGACCTTCCTCCCTGCAGGCTGGGCAGGGCTTCTTCAGGGCCCACTCCC
CAGCCTTGGCCTCGGAACAGCAGCCAATCAGGGAAGCTTGGGTCCTCCTCTTGCTCTACTGAGTTTCCTGAAGACCTTAGCCAGGGAATTTGAAGTTTGG
GAGGCTGAGCCAGGTAGAAGAGGCTTCAGTGACTGAGCTCCAGACCGGGGGCTTGGAGGGGGCTGGTGCCGCGAAGAGATGGCACTTTTCTATGTCCAAG
GGATGCTGCAGGTTGGGCTGAGGATCTGTCTGGGGCACACAAGAATAGGAACAGGCAGATATCCCCAGCCCCATCCTGAGCCTATGAGCCTAGAAACAGA
GCATGAATCATTTTTAAAAAATAAGTTAATACATAGCACTTACCATGTGCCAGGCACTATTCTAAGAGCTTCACAAGTCTCTTGAGTTAAGTTTTGAACT
TTAATCTTGAATTTAACCCTTACAACAACCCTGTGAGCTAGGCTTATTATTAGCATCATCTCATCAGACAAATGAGAAAACCGAGGCAGAGAGGGCAAGC
CATTCGCTCAAGTCACACAGTTACTAAGTGGCAAAGCCAGGGTTTAAACCCGCTTGTGGTCTTACTCAGGAGTCTTATGGTTTTAGCTGCTCTGATACTT
GGAAAATAAAGATTTCCAACCTGGTTTCCTCTAGACACTCAATGCCCATGCATTATGCTCCTACTGTGTGCCAGGTCATGCCTTTGAGGCCCATGGTAGA
GGGAGGTAAGGCCTTATCTTCTCTCTCTTAGGAAGAAAAGAGGGTTAGGGTAGGGTTTTAAGAGCTGGGCTCTGGGGACCACCAGGGAGCTGGCTTCTTA
GGCTTTTGGGGAGAATCCAGGGTCCTGGCTTGGAGGTAATCAGGATACTGGGAGGGGAGGGTGCAGAACTGTGGGACAGCTCTCACCTCTCAAGTCTCCC
AGCCCTCTCCTCAGGCCAGGTTTCTCAACCTCAGCACTGCTGTCACGATACCTCTTTGTCATGGGGGCCACCCTGTGCACTGTAGGATGGAGAGCAGCAT
TCTGGGCCTCTCTTTGCTAGATACCAGCAGCACACTCCCGAGTTGTGACAACCAAAAATGTCCCCAGACATTGCCAAATGTGCCCTGGGGTGGGAAGAAA
ATAGCCCACCCATTGAGAACGAGTCTCCAAGACTAAGACTCGAAAAATCAGGGCGAACTTAGTCGGGAGCAGCGATGGGGTTGATCCAGGGCATTGGATG
AGAGGGGGTGAGGAGCTGGTCATGGGAGGGAACCAAGTCGGGAGCAGAGCCAGCCCAGGAAATAAATCCTGGTATTGGTGGGTGGGCAGTAGGAGGAGGA
AGGGGATTCAGTGGTTCTTGAAGGAAGGGGCAGCCACGGAGGCTGTGCCAAGGAGGTAATGAGGAAGGAGGGGTATCTGCCACTTGGCACCACTGCCTGC
CTGCCATGGGGTGACTGGGCTGCGTGCCATGGGGTGACTCACCTGCCCCTGCTGCCTCGTGCCCGTTGGGCAGATGTGTCTCCGGTTTGACCTGTCCCAG
GAAGCCTGGGCCTGGCTCCTCCCCCGCAGAGCTTCCTTAGAGGATAGAGGATGGATTGGGGCAATAAGAGATAAAGGCCATAGCTTCCTGGAGTCACCTG
AGCCACACTGGAGGTTTGCAGAGAAGGCCATCGGTGGGACAGCCACAGGGTGGGGGATGGAAGCTCTGATACCTTCAAATGAGGGATTCTTGGGCCCTGG
TGGCCAAACCCCCCAGGGGTGGGAGTGGAGAGCTCCTAGTTCGTTCATTCACATATTCTTCAAGTATTTCTTTTGGGTCTAGTGTGTGTACCATTCAGAG
CCTTGAAGGATGAGCACAGGCTCTGGGGACACATACAGGGGAGAACAAGCAGCTCCTCCTCTCTGAGAAGCCAGCAGAGGCTGGACAACCTTCTTACAAG
GGTGCCACAGAAAGGACTCCTTTCTGGGAAGGGGAGCAGGA


SNP Information

Context             (SEQ ID NO:54885):
TTAGTGCAGTGCCTGGCACAGAGAGGCCATAGTTCACGCTTATGCAGGGGATGAAGAAGAATGAGATGCCACCCACAGAGGCCCTGTTGGTTTTGCTCTG
S
GTGCCCTGTAGCCTGAGTTTGCAGTGCATCCCCCTCTGATGCTGTGGGCCAGGAAGGCTGGCCCCAACCAGCTGTGGCTGGGAGCAGCTGGTGGTGTGAG
Celera SNP ID:            hCV9658752
SNP Position Genomic:     21821
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,8)   total(G,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54886):
TCAGATGAGAGGATGATAGTCCAGGAGACTTGGGGTTTCCATGGCAACTGATGTAAACGATGAGGAAGAGCAGGTAAGGTGCGAGGACCCCCAAAAGTGC
Y
GTGGAATGTGGTGATTGTAAGGCCAGGAGTGGGGGATGGGGGAGGTGGGTCTTGCCAGCAGCCTGCAGGGGCTCTGGGGCCCCTGCACACTCCTGCCTCT
Celera SNP ID:            hCV9658753
SNP Position Genomic:     21033
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54887):
GGCAAGGCCAGCGATGCCCTTGAGTAGGGGATGTGCCCCAGGAGGGCTGGTCTTGGGCAAGAGCCCAGACAGCACACCCCTCTTCCCAGGAGGGCAGGCA
Y
GGTCGTGGACTCAAAGGCAGGAGGGCTGGGAGATGAGGTGGTGGGAGGAGGGAGGTTGAAGGCTCTGAGTGACAAGGGGGAAGAGTGGGGAGGCTTCTGG
Celera SNP ID:            hCV9658754
SNP Position Genomic:     19815
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54888):
GGCATGTTCTTGTTCTCACTCCCCTTTGATCTCTCTCCCCTCTTCCTTATCCCTGTTCACAGAAGTGGAAACTGAGGCTCAGAAAGGTGAATTGGCTTGG
M
CAGGGCTATGCAGCCAGGGAGCAGCAGGGCTGGGGCCTTGAGAGAGGAAGGAGGAGAAGCCAGGCTTGGTCAGGGCCCCTCTGCAGAGCTTCCTGCAGGA
Celera SNP ID:            hCV9779090
SNP Position Genomic:     39969
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54889):
CACGCTGGGGCAATGACCTATTTTCACAGAAGCAAATCTGAGCCTCTCATCTGAGAAGTCTGGTGAAATGCGAGAGACACGGTGGGGAAATAGGACCTTG
M
GGGGCCCAGAGGTGGGGTGGGTAAGATTCAGGGGGATCCTGTGGGAACAGGTGAAGCAAGGTGTCAGGAAGGGGCAGGGCTCACCCCAAGGATAAAAAAT
Celera SNP ID:            hCV9779091
SNP Position Genomic:     41046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,7)      total(A,4|C,7) ;no_pop(A,-|C,-)   JBIC-allele(C,576|A,913)   total(A,913|C,576) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54890):
AGTTTAATTTTAATTTAAACAACTGCATGTGGCCAGTGGCTACTGTGGTGGACAGCAAAGCTCTAAGGGACTGCTGAGCTCTGGTTCTGGCTGAAGGTGG
S
GGGGAGGGCCTAGGCTGGAGCGTGTGTGTCTGTGGTCTGGCCTCCATCTGCCGGAAGCCCCTGACTGTGGGTCATCCTGTGGGGATTCCCTAGCTTCGTT
Celera SNP ID:            hCV9779092
SNP Position Genomic:     43082
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,8)      total(G,8|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54891):
CTCAGCCAGGCTAATCAGGTCGCAGGGTGAAATTTAAAGGGAGGAGGAGGCACCAGTCCATCAGAACTCACACTTCTTCCTGGCAAAGAAGTGCCCAGGA
Y
GGGAGCTGGGGAGCCAGGGCTGATCTAGGAGGCTGGGAGCCAGGTGACAGGATGGCCCCAAAGAGAGTTGTGCAGCTGTCCCTGAAGATGCCTACCCATG
Celera SNP ID:            hCV25637825
SNP Position Genomic:     6031
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 UTR 5


Context             (SEQ ID NO:54892):
CAAACTGCAGGATAGGACAGTTGGCAGGGAAGCATTCCTCTGTGACTGCTGTATTTCTCTTCTCCCTAGAGACCAGGTGGTACATTTCTGAGCTGTTGAC
M
TAAGATTTGGCCGGTGGAGCCGCAGTGGGCCGAGGCTTCTGGGAAGCAAGTTGCAGCCACGCAAAAGGAAAAGCTTTCTAATTACCTGAACTGTCAAAGC
Celera SNP ID:            hCV27891818
SNP Position Genomic:     13523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54893):
GACCAGGCTCAGCCAGGCTAATCAGGTCGCAGGGTGAAATTTAAAGGGAGGAGGAGGCACCAGTCCATCAGAACTCACACTTCTTCCTGGCAAAGAAGTG
Y
CCAGGACGGGAGCTGGGGAGCCAGGGCTGATCTAGGAGGCTGGGAGCCAGGTGACAGGATGGCCCCAAAGAGAGTTGTGCAGCTGTCCCTGAAGATGCCT
Celera SNP ID:            hCV25637826
SNP Position Genomic:     6024
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:54894):
AGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACTGCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
S
ACACCCAGCCCTGAATTGGGCCTTGAAGGAAGAAATCAGAATGCCCTGGTGGGCAAAATGCGAAGGGCCTCCAGGGAGGGAGAACAGCACAGACAAAGTT
Celera SNP ID:            hCV27891819
SNP Position Genomic:     39264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54895):
AGCAAAGCTCTAAGGGACTGCTGAGCTCTGGTTCTGGCTGAAGGTGGGGGGGAGGGCCTAGGCTGGAGCGTGTGTGTCTGTGGTCTGGCCTCCATCTGCC
R
GAAGCCCCTGACTGTGGGTCATCCTGTGGGGATTCCCTAGCTTCGTTCCAGGCTCTGCTGAAGGATCCCAGCTTGTCTTCACTGGAGGGTCCCATAGGGA
Celera SNP ID:            hCV9779099
SNP Position Genomic:     43135
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54896):
ACAGGTGGCCAGATAAAAAGCATGGATTTTGGCACCAGCCAGATCCAAGTCCAAATGTCAGTCTCATCATTCTCTGGCTGTATGATTATGTGACTTAACC
Y
GTCTGAGCCACAGCTTCAGAGGGAGGCTGTGGCATTTAGTGATGATATATCTGGCACATAAAAGATGCTCAATAAATGCTAACAATGATCAGGGCTGCCA
Celera SNP ID:            hCV16181587
SNP Position Genomic:     44025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54897):
GTCTTGGCTTCTCCACGCTCTACGCCCCACGTTTAAAGCGTTCTTTGAGCAATTCCGCCCCCTGGTGGCAGATCTGATGATGACTCAGGCAAGGCCTGAT
R
CCTCTCAGGCACAAGGTGACTGCCCGCCCTCTCCCTCCTGGCCAGGTCCGGTGGGCGGCAGATGGCCAGGGCAGTGCGGAACTTCCTGAAGGCACAGCAG
Celera SNP ID:            hCV27497896
SNP Position Genomic:     38201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54898):
TTGGCCTCATGAGAAAATGTTAGCCATTTTACAGATAAGAAACTGAGGCTTAGAGAGGTTGAGTCATTGAGCTAAGGCCATGCAGCTTGCACGTGGCAGA
R
CCAGAGAGGAACCCAAGCTGCTCTAACCACAAAGGGGGCTCTGTCCTGGATTCCTGGGCTTGCAGCCCCTCACCCCTGTCTCCTCGCTAGCCCCTGACTC
Celera SNP ID:            hCV16193748
SNP Position Genomic:     29444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54899):
AGTTTGGGACCAGCCTGGCCAACATGGTGAAACCTCGTCTCTGCTAAAAATACTAAAATTAGCTGGGCCTGATGGTGCACGCCCATGGTCCCAGCTACTT
S
GGAGGCTGAGGTAGGAGAATTGCTTGAATCCAGGAGGCAGAGGTTGCGCTGAGCTAAGATCAAGCCACTGCACTCCAGCCTAGGTGACAGAGCAATACTC
Celera SNP ID:            hCV16193749
SNP Position Genomic:     35943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54900):
TTGCCGATGGTGCCTATTCCAATTACACATTTCAGAACTTGTTGGGGTGGGGCGGAACCACACATGGGCTCAGGGGCTACTGGACCCACTGTAAGATGAA
S
CTGAGCTGAAACTCCATGGATCACCTGGCCTCCATGAGCCCCTGCTCTGCCAGGTGGGCCGCAGTGTTGTTTAGGGTCTCCTAGACCAGTTCAGGGCCGG
Celera SNP ID:            hCV11551331
SNP Position Genomic:     18188
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54901):
CCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCAGCCCTGAATTGGGCCTTGAAGGAAGAAATCAGAATGCCCTGGTGGGCAAAATGCGAAGGGC
S
TCCAGGGAGGGAGAACAGCACAGACAAAGTTCTGGAGGTGGGAACCTGCTTGGAGGACTGGGAGAGTTGCAGACAGTGCTTTGTGGCTGGGGTGCAGACC
Celera SNP ID:            hCV16181518
SNP Position Genomic:     39333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54902):
AGCAGAAGAAATGAGGAGGTCAAAGGAGAATGAGTTTGGGGATGGGTGATATTCACGTCTGTGTGCTGGGTGCAAGGGAGGGGAGAAGGGGCAAGGCCAG
Y
GATGCCCTTGAGTAGGGGATGTGCCCCAGGAGGGCTGGTCTTGGGCAAGAGCCCAGACAGCACACCCCTCTTCCCAGGAGGGCAGGCACGGTCGTGGACT
Celera SNP ID:            hCV9658763
SNP Position Genomic:     19726
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54903):
ACTGGCTAGAGTGGGAGTGTTTACACCACAGACATTGGTCAAGGCTACAAATCAGGGCTTCATTCATCGTTTTATCAAATGCCTAGAGTTCAGAAAGTGA
K
GGAGACAGGTTAACAATGTCAACTCAATTTAAAAGTGTATTGCGTCTATAGCCATGACATTGTGGTTAGTACCAAAAATTGATGAAATGTTCCTCCAGGA
Celera SNP ID:            hCV9658764
SNP Position Genomic:     18786
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,10)   total(G,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54904):
TAATTTTTAAGAAGGTTATGAACCCCTTGTTAAACACAGCCACTATTTAAAATTAAATATACACACAATTAAGCAAATTATATTAAAAACAAAGGCAGTA
R
TACTGAAAACTCATCACTGCTTAATTATTTTACTGCATTTTACCATTGTCCAGATATAGTGGAAATAGTGATGTCACGAGGTGCTATTATGCAGCTCTTT
Celera SNP ID:            hCV9658765
SNP Position Genomic:     18546
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54905):
GCCTGGAGGGATCAGGTGACAATGAACCCTGTAGGTGAGTGCACCCGCCAGGGCCAGCGTGCTGGAGGGGGACCCACCTGACCTGCCCCGGGCTTGGCCT
R
TAGGAGCCAGGGGATTTTTTCACTGATTTCTGCTCTCATCTTTATCATTTTCATTTTCTACTTTCTTTGTGTTTAGTTTGCTGTTCTTTTTCTGGCTTGA
Celera SNP ID:            hCV9658693
SNP Position Genomic:     32560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54906):
TATCATTATTTCCTCTTTATGGATGAGGAAATCAAGGCTCAGGGAGGTTAAGTAACTTGCCCCAGGCCATGCAGCAAGTTAATAGTGGCACCAAGATGCA
M
AACTAGGGGGGCTGTCCCCACAGCCCTGCACTCAGCCTCGAGGCTGCACTACCCCTCGAGGTGAGTCCACAGTCTCTGCCTGTTTCCCGGCTCCCACTCT
Celera SNP ID:            hCV9658694
SNP Position Genomic:     32275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54907):
GCCTCTCTTTAGGTGCCAAATGTTTTCTGAACACCTACTACATGCCAGGCACTGTGCTACCTCCTGTGCACAAGATGGCAACAGCAGCACCCACCGTTAC
K
TATTGAGTTCCAGGCACTGTCTCCTAGCTTTCCATGGCTTACCTTATGTATTCCATGGGGTACTCCTACAGATAAGTGCTATCATTATTTCCTCTTTATG
Celera SNP ID:            hCV9658695
SNP Position Genomic:     32095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54908):
TTGCTATAATATGACAATTTTCTCATAGATGAAAGAAAGAGTGGGAGAAGTTTTTTTTTGTTTTTTGTTTTTGTTTTTTAATGTACAAAATTCCTGGTAG
Y
CCTGGCTGTTATTCAACCTCATTTCCAACCCTGAATCTTTTTCTCCTCTGCTTTCATAGGCCCTAACTCTTGAGCAAACTCCAGTCCTAGAGCCCTTTCT
Celera SNP ID:            hCV9779100
SNP Position Genomic:     44362
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54909):
TCCAGTCCTAGAGCCCTTTCTAGGCTGTGGCTATGGCCAACCCATTCCCCAGGGCCTGTCTCATTCTGGCAAGGAAGGGGTGCCAGAAGCACAGCACTTA
Y
AGCCAGACAGCCTCCCTCTTGCCTTTTCTCTTTTGCAGGTTAACATGGTGGTCTTAGGCAAGTACCTGGGCATCCCCAAGCCCTACGGGCCCATCATCAA
Celera SNP ID:            hCV9779101
SNP Position Genomic:     44542
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,10)   caucasian(C,1|T,1)   total(C,21|T,11)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,8|C,9)      total(C,9|T,8) ;no_pop(C,-|T,-)   ;(C,-|T,-)   JBIC-allele(C,587|T,896)   total(C,587|T,896)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54910):
TTAATATGAAGAGAGAACCTGGAGCAAGACGGCTGGGACTTATGTTTGCTGTGAGATGATGGTGATGACGCTGATTATGGTGATGAACAGTGATGATGGC
R
ATGATGGCGGTGATGGTGGCAATGATGACATCTGAGGGGGCATCAGTAGCATTTGCTTCTCCTGTTGACCCAAATCTTTCCTGTGCTGGCTGTGTCCAGA
Celera SNP ID:            hCV27268749
SNP Position Genomic:     6780
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54911):
TGGGCACCACTGCCCGCGCTTATGCCTCACCTTGCACCTGTCACCTGATGTGATCTGGAGACTTTATCCATCTTCCCCATGCGCCTATGAGCCTCTCAAG
R
TCATGAACTGGAACCCCTGTACCCCAGAGGCTGCACAGGGCCCAGCACAAACTGAAGGCCACTCACACCTCAGCCACAGTCAGAGGCCATTAGCATGCTC
Celera SNP ID:            hCV27476639
SNP Position Genomic:     30896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54912):
CACCTCTGCCCTTGTCTGACCTGATGGGATGAGTCAGGGCAAAGCCATCTGGAACCAGCTCAACCCTGTGCCCCGAGTAAGCTCTGGATTGGGACATTTT
Y
TGGGTCAGGGCACCCTGACACGCTCATCCTCACACTTCCAGGGTATTTGTGCTTGGACCCAAATCCCTTATCCAATAGTCAGGAATGATATTGATAATAA
Celera SNP ID:            hCV16193756
SNP Position Genomic:     38519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54913):
AGGGCCTCCAGGGAGGGAGAACAGCACAGACAAAGTTCTGGAGGTGGGAACCTGCTTGGAGGACTGGGAGAGTTGCAGACAGTGCTTTGTGGCTGGGGTG
Y
AGACCGAGTGGGAGAGGGGAGTCCCAAGAACTGTCAGGCCCCTCCTGAGTCCTGAGTCTGGGGTCTCCTGTGTCTAAGGGGACCCTGTCCACTGAGCCAT
Celera SNP ID:            hCV16181525
SNP Position Genomic:     39428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54914):
AAGTGTTTCAGGCTTCTGTCTCTGGGTCTCAGCTGCCTGCTGTGTTCCCCACCACAGCCCCTCGCTTGCTGCTCCCCAGTGGGGGTCCTGTGTCAGGCGG
K
GCAGGTGGGGTGGGCGGTGGCCTCGCTGACTCTCATTAACAGGGCAGCTGACAAGGAGATGAGCAGATGTGATCTCAACTGGGAAGGGCCTGAGCGATGC
Celera SNP ID:            hCV16181526
SNP Position Genomic:     42131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54915):
CCTGGCTGCCCATCTATCCCTTCGCCCCTCCAGGTTGACTGTTTGAGGGTCTTAGTGGATTCCTTGGAGTGGAAGACCCATGGCCAGCTTCCTCCATCAC
Y
GAGGGGCTTGGATTCCTCGGGACCTTCTGTCCACTCTGGAACCACAGGGATTGAGACCCAGCAGTCCTTAGGACCACAAGGATCTAGAAACTTCACTGCC
Celera SNP ID:            hCV11551343
SNP Position Genomic:     24745
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54916):
CTAGAGAGAAGGTCCGGAGTCCCCTTTGAACACCAAGGGTCACCCCTTATGACCTCTTGCCATCAACCTGGGCTGAGATTTCCTCTAAGAAACCCCCATA
S
CACAGCATGGGGGAGAATTCCCATCCCCAGATTAGGGCCCCAAGCCAGGTCCGCAACCAAGGGAAGGAGAGGTGCCCCCAGAGTTAAACTCAAGTGTCCC
Celera SNP ID:            hCV16181527
SNP Position Genomic:     43786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54917):
TGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCTTTGCACTCCAGCCTGGGTGACAGAGCACGAC
K
TTGTCTCAAAAAATAAAAAATAAATAAAATAAAATGCCTGGTAGACACCCAGGGAGAAACTCAGAAAGCAAGAAGTCTGAGAGTTCTAACCATATTGATG
Celera SNP ID:            hCV9658772
SNP Position Genomic:     17827
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,5)   total(G,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54918):
AATGGGTCAGGAAAGCCTGGGAGGCCACACAGGCTCTGGTGACAGCCTCTGAGCAGGAGGGATGCAACGGGACTTCTATTTTAAAAGGTCCCTCTGGCTG
S
TATGTTGAAGCTGGACTGTGGGGAGAGAGGGGAAGCAGGTCACTGGCCTATGATAAAAATCCACATGGAAGCAACTGGTGGCTTGGACAGGATGTGAGCT
Celera SNP ID:            hCV9658773
SNP Position Genomic:     17209
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54919):
GGTTGAGGCAGGAGAATCACTCAAACCCAGGAGGCAGAGGTTGCAGTGAACCAAGATCATGCCACTGCACTCCAGCCTGGGTGAGTGAACCAAGATCATG
S
CACTGCACTCCAGCCTGGGTGACAGTGCAAGACTTCATCTCAAAAAAAAAAAAAAAGAAAAAGAAAAAATTGGCCGGGCCCAGTGGCTCATGCCTATAAT
Celera SNP ID:            hCV11551346
SNP Position Genomic:     28131
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54920):
TGCAGGAAGCCACATTTCCCCCAAGGCCTGACCCCTCTAGGCACTGCCCACTCATCTGTTACTCACAGGGGAGGGAGACACTGAGACCAGGAGCCCAGCA
M
CCCAGAGAGAGGTGAACAGAGGTGTGAGCTATTGAGCAAGTTTGGGGTGGGGAGGGAGCAGATCTAGACTACAGGAAGCTAGGCTGGGCTTGGAGGGTCT
Celera SNP ID:            hCV9658774
SNP Position Genomic:     16198
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54921):
AACTCTTGAGCAAACTCCAGTCCTAGAGCCCTTTCTAGGCTGTGGCTATGGCCAACCCATTCCCCAGGGCCTGTCTCATTCTGGCAAGGAAGGGGTGCCA
R
AAGCACAGCACTTACAGCCAGACAGCCTCCCTCTTGCCTTTTCTCTTTTGCAGGTTAACATGGTGGTCTTAGGCAAGTACCTGGGCATCCCCAAGCCCTA
Celera SNP ID:            hCV16181384
SNP Position Genomic:     44527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54922):
TGCCACCACGCCTGGCTATTTTAAAAAATTTTTTGTAGAGATGGGGTCTCCCTATGTTACCCAGGCTGGTCTCAAGTGATCCTCCCGCCTTGGCCTCCCA
R
AGTGCTGGGATTATAGACATGAGCCACCATACCTGTCTGGTCATTACTTTTTACGAATTAATAATATTCCATCTTATGAATATATTACATTTTGCATATC
Celera SNP ID:            hCV11551347
SNP Position Genomic:     29172
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54923):
CTTTCTCCCTCTTGGGACTCAGCCCCTGTACCTGCTGGTCTGGTTAATGTATGTGGGGCCCAGGGCCAGCTGCCCACCTGGCCTCTGGTGATCCTCTGCT
Y
GAGAAGCCCTTCCTGCTTCTCTGTTGGGCAGTGGTCTGTGACCCCGGTGGCAGGGCTGGGGAGGAAAACCAGGAGCCATGGAAACCAAACCTTGACTCTA
Celera SNP ID:            hCV27268750
SNP Position Genomic:     7203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,11)      total(C,11|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54924):
ATGTATGTGGGGCCCAGGGCCAGCTGCCCACCTGGCCTCTGGTGATCCTCTGCTCGAGAAGCCCTTCCTGCTTCTCTGTTGGGCAGTGGTCTGTGACCCC
R
GTGGCAGGGCTGGGGAGGAAAACCAGGAGCCATGGAAACCAAACCTTGACTCTAAGTTGCTGCTGGGAGCCCCGCTGTGGGGGCTGGTTCTCTCGGGTCT
Celera SNP ID:            hCV27268751
SNP Position Genomic:     7249
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,11)      total(G,11|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54925):
GCCATGGAAACCAAACCTTGACTCTAAGTTGCTGCTGGGAGCCCCGCTGTGGGGGCTGGTTCTCTCGGGTCTAGGTGGCCAGCAGAGACCCCATTGTCTC
Y
TGCCCTGTTAACATAGGCTTGCCAGATTTAGCAAATAAAAATACAGGATGCCTGGTTAAGTTTGAATTTCAGATAAAAAACAAAAAGCTTTTTTAGTATA
Celera SNP ID:            hCV27268752
SNP Position Genomic:     7378
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54926):
AGATAAAAAACAAAAAGCTTTTTTAGTATATTGCATGGGAGATATTTCTACTAAAATAATCTGCTGTTTAGCTGAAGCTGAAGTCTTTTTTTTCTTTTTC
T
TTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGAGATCTTTGCTCACTGCAACCTCCACCTCCCGGGTT
Celera SNP ID:            hCV27268753
SNP Position Genomic:     7549
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54927):
AGGGAATGACTGCAGCATCCACCCTCCCTGTGCCCCCATCACAAACACAATTCCCCAGTCTGAGAAGTGATCTTAACTTCCTGCGTGGAATCCTGGAATC
W
AAGACTCGGCAACCTAGGATCTCAGATTTAAAAGATCAGAGAATCTTAGGAGAAAAGTCACACGCTTGTGGCCTGCGATCTTTTGGCCTACCTCATTTTA
Celera SNP ID:            hCV27476640
SNP Position Genomic:     34037
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,29|A,1472)   total(A,1472|T,29) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54928):
AATTCTGTGGAACTCCCTGCTCCCCTGGGTCCTAGCTGCCACTTGCCATTTTGGGACTGGCTGGGAATCTCTCCCCCTCCCTCTGGCCCCCCAGGCCCTC
Y
GCTTTCCGCCTCCTTACCCCTTCCTGGCATTTCCTGGATCCTAGTCTTGGAATGTCTCCTCACTCTGAGCCTTCTTCTCTTCCCTTCTCAGCTCCCATCC
Celera SNP ID:            hCV27268754
SNP Position Genomic:     10549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54929):
GTCTGAGAAGTGATCTTAACTTCCTGCGTGGAATCCTGGAATCAAAGACTCGGCAACCTAGGATCTCAGATTTAAAAGATCAGAGAATCTTAGGAGAAAA
S
TCACACGCTTGTGGCCTGCGATCTTTTGGCCTACCTCATTTTATGAGCTTAATGAGTCACCAACATAAACAGATATCGGGAGGGCCTCCCATAAAAAGGC
Celera SNP ID:            hCV27476641
SNP Position Genomic:     34094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54930):
GTCTGCTCCCACAAGCCTCACGAGCCAGTGAGCCAAGCCAGGAACCTTCTCTCAAGGGTGCAGGGGTCTGCTCTGGGAACTCCCAGGCACAGAGCAAGGA
Y
CCCACATGGGAAAGTGAGGGGTCTCCTGTGTGGACGTGTCCCCATTCCATTGGCTGTTGGACTGAAAACCAGGAATGAGGCCTTTGGTGGATAGATAGGA
Celera SNP ID:            hCV7541043
SNP Position Genomic:     36834
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54931):
CCTGAGCCACCGCGCCCGGCCAATTTTTTTCCATTTTACCTTGAGGAATTCCACAATCCACAGAATGCGGACATGCTTTGGGGAGAGGATCGGTGACTCA
Y
GACTTGGACTCTAAATTCAGGGCCCTATCTCTCAGGGACATTCTGGTCCCCAGCCTCTGTTTATCTCTTCTGGGAAGACCAGTGAGTGAAAGCTGTCCCT
Celera SNP ID:            hCV27268755
SNP Position Genomic:     11340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54932):
GACACAGCCACATCATGTGTGATTCTAGACTCCTGAGAAAATGCCTGAGCCTGCTGAGGGGTCTGGGACATCAGCCATTGCCCTCCCTCAACCTCCAGCA
R
CCCCAGCCAGCCCCGGGGAGAGGATGCAGGGGAAAGCTAAAGCCAGGGTTGCAGCCAGGGGACTGGGGGTTGGAGCTGCCCCCTCCTACTGTCTGGTGCC
Celera SNP ID:            hCV27268756
SNP Position Genomic:     11701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54933):
CCTTTTGGAGAGAATGCACCCTTAGTGAGCCTGCACGGCTCTTGTTCTTAAGAGCTAGGGCCTCTCTTTAGGTGCCAAATGTTTTCTGAACACCTACTAC
R
TGCCAGGCACTGTGCTACCTCCTGTGCACAAGATGGCAACAGCAGCACCCACCGTTACGTATTGAGTTCCAGGCACTGTCTCCTAGCTTTCCATGGCTTA
Celera SNP ID:            hCV9658703
SNP Position Genomic:     32036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54934):
GTTTCAACAATTGCACACCTGACCCATTTTCTTGGTCAGGGAGGAGAGTGAAGGGAGGTGCCAGGGTCCTATTAACGACAGGGCCCTGTGTCCTCTTTTG
Y
CCGGGTCTGCCCACTCCTCCATGCCTTTCAGATGCCCTCTGTGACTGTAATGATCATGATGGCAGCCCTGGTATTTTGTTTTTGTTTTTGTTTTTGTTTT
Celera SNP ID:            hCV27268757
SNP Position Genomic:     12067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54935):
GCCAGTGCGGAGTTTGGGCAAGAGAGGAAATGATATGCAAATCACATGCAAATAGGCAGCAGCCTGATTGTTCCTGTGTTGGGAGGGGCAGGTCAGCAGC
S
CTCTTCTGGATAAGGCGGCTGGTCACCAAGGGGGAATTGGCAGTGTGGTCAGCTCTGGGGAGACCAAACTGCCTTTTGGAGAGAATGCACCCTTAGTGAG
Celera SNP ID:            hCV9658704
SNP Position Genomic:     31864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54936):
AACGACAGGGCCCTGTGTCCTCTTTTGCCCGGGTCTGCCCACTCCTCCATGCCTTTCAGATGCCCTCTGTGACTGTAATGATCATGATGGCAGCCCTGGT
W
TTTTGTTTTTGTTTTTGTTTTTGTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCC
Celera SNP ID:            hCV27268758
SNP Position Genomic:     12140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54937):
TGGGTCCTCCTGGAGGCGCACCAGTGAAGTCTCATCTGGACCTAGTCCTATAGGGCTCAGAGAACAGGAAGAGGGGGCAGAAGGATACAGGAGGTGGGAT
R
TCAGCAAACTGGGGAGCCAGTGCGGAGTTTGGGCAAGAGAGGAAATGATATGCAAATCACATGCAAATAGGCAGCAGCCTGATTGTTCCTGTGTTGGGAG
Celera SNP ID:            hCV9658705
SNP Position Genomic:     31748
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,13)   caucasian(A,6|G,30)   total(A,27|G,43)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIC-allele(A,313|G,800)   total(G,800|A,313) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54938):
TAGCGGCTGGCACCTGTGGGGCTCCTGGCAGGCCAGATCCTGGCCAGGCGTGCAGGGGAGCCACAGGCTCAGCCAGCAGTGCCTGCTCTTCAGCCTTTTC
R
TCCGATTCTGCCTGATTCTCCCCCTCCTGCCCCCACCACTCATCCAGCACAGTGCCCCAGACGACCCCCAAGAGCACATTGGCCCCCACCCCCACCCACT
Celera SNP ID:            hCV27268759
SNP Position Genomic:     13292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54939):
TCTCAACTGGGAAGGGCCTGAGCGATGCTATCGGGGTGGGCCTGGCCCAAGTGCCCATTAACCTCTTGGGAAAGGATGTTGGGGTGTTGGCAGCTGGCAG
R
GATGGTCCCCCGGGATGGGGATAGACCCTCTTTCTTCAGACTGCGGTCTTTAGCTTGAATCCCTCTCTTGGGACAAGCCGAGGGTTGGAAGTGAATGTCG
Celera SNP ID:            hCV29403850
SNP Position Genomic:     42304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54940):
CCCGCTGCCCTGCCCTGCCCCAGGCCTGGTGGGGACCACCCTGTTCTGTAAACCACCCGAAAAAGGTCACCGTGGCTTTTTCATCTCTCCCCTCCCAGGA
Y
GAGATGGAGTTTGGCTACATCGAGGCCCCTCACAAATCCTTCCCCGTGGTCTTTGACTCCCCCAGGAACAGGGGCCTGAAAGATTTCCCCTATAAGAGGA
Celera SNP ID:            hCV11551350
SNP Position Genomic:     31507
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,38)   total(C,69|T,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54941):
TCTGAGAAGAGTAATTGTAACCATGGTGACAGCATCTAACGCTGAGAAGTCATCATCTCAGGGAATCCCTCCAACAGTCTAGGAAGTAGCTCTTGGGATT
R
TGTCCATTTTACAGCGGAGGAAAATCGAGGCAGTTGAGTGACCCAGTTGGAGGCCATGCTCCACACAGAACCCACACTTCACTCCATGGAAGAGGTGGCA
Celera SNP ID:            hCV9658781
SNP Position Genomic:     15165
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54942):
GAATTCACCCCATTCTGCCCATAACCTCTCTATTGAACCTGATGCAACTGGCCCTGCTGTGGGCATGAGGTTGGTGGGCATTGCAGGGTGAGTAGGAGGA
Y
GCTGCTCTGGGCGGCGCAGACGAGATGTGAAGTGGCCCCCAGGAAGGTCTGAACCAGGGCCATGGGGGCACAGAGGAAGCACATAAGGTTTCTGGCTGGA
Celera SNP ID:            hCV9658782
SNP Position Genomic:     14942
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54943):
AGGGCCTCCCATAAAAAGGCAGGTTTCTGGCTTCTCATGAAAAATTGGAGAAGCTGGGGAGGTGAGATACAGTCTGGCACAGAGACAGAGGAATAGACTC
R
TTGACTTCTCCCATTAGGAAGTCAGAATAGCTTCTGTCCTAACCATGGCTTAAAAGGGTCCTGAGGTCATGAAGTTCCCAGGGCAGGTGGCTGCAGGTAA
Celera SNP ID:            hCV28003877
SNP Position Genomic:     34275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54944):
ATGCTGCCTTATGCCATAACCAGTGGGTGAACCTGCACCTTACCACAGGAGGCGGGCAGGGGTGGAGAGTAGTTGGTTTTACACTCCTCATCCCGCCCTC
Y
GCGTCTCCTTTTGTGAGATTCTCTAAGAATTCACCCCATTCTGCCCATAACCTCTCTATTGAACCTGATGCAACTGGCCCTGCTGTGGGCATGAGGTTGG
Celera SNP ID:            hCV9658783
SNP Position Genomic:     14815
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54945):
CTCATGAGTTTTAATGTGCTATCAAAAGACAGCAGATTTTTATGAATTTCACTTCAAAATCTTGTCTAATTTCCACTTTGATTTCTTCTTTGATCCATGG
M
TTCTTTAGATGTATACTGCTTAATTTCCAAACATTTGGGGGAGTTTTTAGTTATCTTTGGTTATTGATTTGTCTTTAATCGCATGGTTCGCAGAGCCCAG
Celera SNP ID:            hCV8859938
SNP Position Genomic:     33494
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54946):
GCCTGATTCTCCCCCTCCTGCCCCCACCACTCATCCAGCACAGTGCCCCAGACGACCCCCAAGAGCACATTGGCCCCCACCCCCACCCACTCAGTTTCTG
Y
CCCCAGGATCTGGCCATGTCCAAACTGCAGGATAGGACAGTTGGCAGGGAAGCATTCCTCTGTGACTGCTGTATTTCTCTTCTCCCTAGAGACCAGGTGG
Celera SNP ID:            hCV27268760
SNP Position Genomic:     13402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54947):
ACCACTCATCCAGCACAGTGCCCCAGACGACCCCCAAGAGCACATTGGCCCCCACCCCCACCCACTCAGTTTCTGTCCCCAGGATCTGGCCATGTCCAAA
S
TGCAGGATAGGACAGTTGGCAGGGAAGCATTCCTCTGTGACTGCTGTATTTCTCTTCTCCCTAGAGACCAGGTGGTACATTTCTGAGCTGTTGACCTAAG
Celera SNP ID:            hCV27268761
SNP Position Genomic:     13427
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54948):
GGCAGGGAAGCATTCCTCTGTGACTGCTGTATTTCTCTTCTCCCTAGAGACCAGGTGGTACATTTCTGAGCTGTTGACCTAAGATTTGGCCGGTGGAGCC
S
CAGTGGGCCGAGGCTTCTGGGAAGCAAGTTGCAGCCACGCAAAAGGAAAAGCTTTCTAATTACCTGAACTGTCAAAGCAGAGAGGGGTGTGAGGTAGTGA
Celera SNP ID:            hCV27268762
SNP Position Genomic:     13545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54949):
TAATACCAGCCAGGACAGCTTCTCACTTTGCTATCTGGGTGACCTGAGTAAAGTTACTTAACTTCTCCGAGATTTCTTCATCTGTGAAGTGGGGACGTAA
T
TCGGAGTCCTCATTAGGGAAAAGGAGCCAGGCTGGTAGGAGCAGGGAAAAGTAAAAAAAGAAAAGAAAGCTGATCAGCTCCAAGCCTGCCTTTCTTCATG
Celera SNP ID:            hCV27268763
SNP Position Genomic:     14128
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54950):
CCAGCCAGGACAGCTTCTCACTTTGCTATCTGGGTGACCTGAGTAAAGTTACTTAACTTCTCCGAGATTTCTTCATCTGTGAAGTGGGGACGTAATTCGG
A
GTCCTCATTAGGGAAAAGGAGCCAGGCTGGTAGGAGCAGGGAAAAGTAAAAAAAGAAAAGAAAGCTGATCAGCTCCAAGCCTGCCTTTCTTCATGGTCCA
Celera SNP ID:            hCV27268764
SNP Position Genomic:     14133
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54951):
CAGCCAGGACAGCTTCTCACTTTGCTATCTGGGTGACCTGAGTAAAGTTACTTAACTTCTCCGAGATTTCTTCATCTGTGAAGTGGGGACGTAATTCGGA
G
TCCTCATTAGGGAAAAGGAGCCAGGCTGGTAGGAGCAGGGAAAAGTAAAAAAAGAAAAGAAAGCTGATCAGCTCCAAGCCTGCCTTTCTTCATGGTCCAG
Celera SNP ID:            hCV27268765
SNP Position Genomic:     14134
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,8)   total(G,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54952):
GCCAGGACAGCTTCTCACTTTGCTATCTGGGTGACCTGAGTAAAGTTACTTAACTTCTCCGAGATTTCTTCATCTGTGAAGTGGGGACGTAATTCGGAGT
C
CTCATTAGGGAAAAGGAGCCAGGCTGGTAGGAGCAGGGAAAAGTAAAAAAAGAAAAGAAAGCTGATCAGCTCCAAGCCTGCCTTTCTTCATGGTCCAGGA
Celera SNP ID:            hCV27268766
SNP Position Genomic:     14136
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,8)   total(C,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54953):
CAGGACAGCTTCTCACTTTGCTATCTGGGTGACCTGAGTAAAGTTACTTAACTTCTCCGAGATTTCTTCATCTGTGAAGTGGGGACGTAATTCGGAGTCC
T
CATTAGGGAAAAGGAGCCAGGCTGGTAGGAGCAGGGAAAAGTAAAAAAAGAAAAGAAAGCTGATCAGCTCCAAGCCTGCCTTTCTTCATGGTCCAGGACG
Celera SNP ID:            hCV27268767
SNP Position Genomic:     14138
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54954):
GTTTGGCTACATCGAGGCCCCTCACAAATCCTTCCCCGTGGTCTTTGACTCCCCCAGGAACAGGGGCCTGAAAGATTTCCCCTATAAGAGGATCCTGGTA
Y
GTAGCGACAGGTAGAGTGCAGAAACCCTGGTTGGGTCCTCCTGGAGGCGCACCAGTGAAGTCTCATCTGGACCTAGTCCTATAGGGCTCAGAGAACAGGA
Celera SNP ID:            hCV9658713
SNP Position Genomic:     31616
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,33|T,5)   total(C,64|T,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,358|C,1143)   total(C,1143|T,358)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54955):
GGTCACCGTGGCTTTTTCATCTCTCCCCTCCCAGGACGAGATGGAGTTTGGCTACATCGAGGCCCCTCACAAATCCTTCCCCGTGGTCTTTGACTCCCCC
M
GGAACAGGGGCCTGAAAGATTTCCCCTATAAGAGGATCCTGGTACGTAGCGACAGGTAGAGTGCAGAAACCCTGGTTGGGTCCTCCTGGAGGCGCACCAG
Celera SNP ID:            hCV9658714
SNP Position Genomic:     31571
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,7)   caucasian(A,34|C,6)   total(A,63|C,13)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54956):
GGACAGCTTCTCACTTTGCTATCTGGGTGACCTGAGTAAAGTTACTTAACTTCTCCGAGATTTCTTCATCTGTGAAGTGGGGACGTAATTCGGAGTCCTC
A
TTAGGGAAAAGGAGCCAGGCTGGTAGGAGCAGGGAAAAGTAAAAAAAGAAAAGAAAGCTGATCAGCTCCAAGCCTGCCTTTCTTCATGGTCCAGGACGCA
Celera SNP ID:            hCV27268768
SNP Position Genomic:     14140
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54957):
GACAGCTTCTCACTTTGCTATCTGGGTGACCTGAGTAAAGTTACTTAACTTCTCCGAGATTTCTTCATCTGTGAAGTGGGGACGTAATTCGGAGTCCTCA
T
TAGGGAAAAGGAGCCAGGCTGGTAGGAGCAGGGAAAAGTAAAAAAAGAAAAGAAAGCTGATCAGCTCCAAGCCTGCCTTTCTTCATGGTCCAGGACGCAT
Celera SNP ID:            hCV27268769
SNP Position Genomic:     14141
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54958):
CCTCTGCCCCTCACCAGGTCTTAGGGAAGACCCGCTGCCCTGCCCTGCCCCAGGCCTGGTGGGGACCACCCTGTTCTGTAAACCACCCGAAAAAGGTCAC
Y
GTGGCTTTTTCATCTCTCCCCTCCCAGGACGAGATGGAGTTTGGCTACATCGAGGCCCCTCACAAATCCTTCCCCGTGGTCTTTGACTCCCCCAGGAACA
Celera SNP ID:            hCV9658715
SNP Position Genomic:     31477
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,19)   caucasian(C,9|T,31)   total(C,28|T,50)
SNP Type:                 INTRON


Context             (SEQ ID NO:54959):
TCCACAGAATGCGGACATGCTTTGGGGAGAGGATCGGTGACTCACGACTTGGACTCTAAATTCAGGGCCCTATCTCTCAGGGACATTCTGGTCCCCAGCC
Y
CTGTTTATCTCTTCTGGGAAGACCAGTGAGTGAAAGCTGTCCCTCTTCTCCAGCCTCCATTCCTGGCTGGGCAGAGCTCCACTTGGGAGAAAGCTGGTTC
Celera SNP ID:            hCV9658790
SNP Position Genomic:     11396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54960):
ACCACCCTGTCCACCCCCGACTCCAGTGGGCTAGCTCACCACCCTGTCCACCACCCACCCCAGTGGGCTAGCCCACCACCCTGTCCACCCCCGACTCCAG
W
GGGCTAGCTCACCACCCTGTCCACCCCCCACACCAGAGGGCTAGCTCACCATCCTGATGACCCACACTCCAGTGGGCTAGCTCACCACACTGACCCCCAC
Celera SNP ID:            hCV9658791
SNP Position Genomic:     9511
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54961):
TTCATAGCTGTTGTGCTCTGGTTGGCTCTGGGAGGCAGAGGTTGCTCTGGGATCCTGAGTGAGCACACAGGGCACCTCCATCCAAGAGCCCTTCAGGAAC
Y
TTCACCTGGGTGTTGGTGGTGACTATGGTCATAGCTACTGAGAGCCTCCAAACTAGGACACAGAAGTTGATTCTGCAGCATAAGGAAGAGCTTCCTGCTG
Celera SNP ID:            hCV9658792
SNP Position Genomic:     8680
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54962):
GTCAGGCAGTGCTGAGAAGGTCACAGCCTCACCTGGTGAATCTGGCAGCCTCAGAGCTCTGGATCGGATGAGGCGAGGCTTCCTGGCACCTACCCAGGCA
Y
GTAACTGGGTGCCCAGACAGGATGCCTGGGGCTGAGACTGGCCAGGCGAGAGGCATGTGCTCACCCTGTTGGTGACTCATGCCCAGACACTACTGTGTGG
Celera SNP ID:            hCV28025733
SNP Position Genomic:     34817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54963):
ACTTGCGGTGGGTTGGGCAGGAGCAGGTTTGAAAGGAGTGGGGAAGGAGTGGGCATGGGGAAGCAGGAGTTTGGCTTTGGATGTGTGAAATTTAAAATGC
Y
TGGTAGGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTGTGGGAGGCCGAGGTTGGCAGATCACTTGAGGTCGGGAGTTCAAGACCAGCCTGGC
Celera SNP ID:            hCV27458443
SNP Position Genomic:     17547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54964):
GCTACATCGAGGCCCCTCACAAATCCTTCCCCGTGGTCTTTGACTCCCCCAGGAACAGGGGCCTGAAAGATTTCCCCTATAAGAGGATCCTGGTACGTAG
M
GACAGGTAGAGTGCAGAAACCCTGGTTGGGTCCTCCTGGAGGCGCACCAGTGAAGTCTCATCTGGACCTAGTCCTATAGGGCTCAGAGAACAGGAAGAGG
Celera SNP ID:            hCV25637793
SNP Position Genomic:     31621
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,37)   total(A,1|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:54965):
GAGGCGCACCAGTGAAGTCTCATCTGGACCTAGTCCTATAGGGCTCAGAGAACAGGAAGAGGGGGCAGAAGGATACAGGAGGTGGGATATCAGCAAACTG
R
GGAGCCAGTGCGGAGTTTGGGCAAGAGAGGAAATGATATGCAAATCACATGCAAATAGGCAGCAGCCTGATTGTTCCTGTGTTGGGAGGGGCAGGTCAGC
Celera SNP ID:            hCV25637794
SNP Position Genomic:     31760
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,2|G,38)   total(A,2|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:54966):
AGAGAGAATAAGCAGACCCCTCCTCCTGCCTCTTCCTGGTGGTTTTCAAAGCTCCTGCTGGGGTACCTGCCGCTCTTCTGTAGCTGAAGCTGACCTGGAT
R
GGGGTGATGGGAACCAAGTCTTGAAGGCAGTGGGGCTGGGAACTAGAATAGGCCCCTCCCCATGCCTGTGGGAGTGGCCCTGGGCCTCAGACCTGCATAG
Celera SNP ID:            hCV27268770
SNP Position Genomic:     15986
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54967):
GAGGTGGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCAGAGACTGCACCACTGCACTCCAACCTGGGTGAGAGAGTGAGACTCTGTCTCA
A
GAAAAAAAAAAAAAAAGAATCAGAGCAGGGGAAGGGAGATGGGGGATCAGTCGGGGGGAAAGGTGGGCAAGGTGCAGCATTAAATGGAGTGATTGGGTGG
Celera SNP ID:            hCV27268771
SNP Position Genomic:     22407
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54968):
GCTGAGAAGGTCACAGCCTCACCTGGTGAATCTGGCAGCCTCAGAGCTCTGGATCGGATGAGGCGAGGCTTCCTGGCACCTACCCAGGCACGTAACTGGG
W
GCCCAGACAGGATGCCTGGGGCTGAGACTGGCCAGGCGAGAGGCATGTGCTCACCCTGTTGGTGACTCATGCCCAGACACTACTGTGTGGGCTGTTCTAC
Celera SNP ID:            hCV27981957
SNP Position Genomic:     34827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54969):
AGGTGGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCAGAGACTGCACCACTGCACTCCAACCTGGGTGAGAGAGTGAGACTCTGTCTCAA
G
AAAAAAAAAAAAAAAGAATCAGAGCAGGGGAAGGGAGATGGGGGATCAGTCGGGGGGAAAGGTGGGCAAGGTGCAGCATTAAATGGAGTGATTGGGTGGG
Celera SNP ID:            hCV27268772
SNP Position Genomic:     22408
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54970):
CGCAATGACTCACATCTGTAATCCCAGTACTTTGGGAGGCGGATCACCTGAGGTCAGGAGTTTGAGAGCAGCCTGGCCAACACAGTGAAACCCTGTCTCT
R
TTAAAAATACAAAAATTAGGCCGGGCACGGTGGCTCACACCTGTAATCCTAGCACTTTGAGAGGCCGAGGAGGGTGGATCACAAGGTCAGGAGATCGAGA
Celera SNP ID:            hCV27268773
SNP Position Genomic:     27686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54971):
GCTAACATGGAGAAAACCCGTTTCCACTAAAAAATACAAAAAAATTAGCCAGGTGTGGCGGCAGGTGCCTGTAGTCCCAGCTGCTCCGGAGGTTAAGGCA
R
GAGGTGGAGCTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCTGTCTAAAAAAAAAAAAAAAAATTAGCTGGGTG
Celera SNP ID:            hCV27268774
SNP Position Genomic:     27895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54972):
TGAAGTGGGAGGATCACTTGAGCCCAGGAAGTCAAGGCTGCAGGGAGCCGTGTTCATGCCACTGCACTCCAGCCTGGGAGACAGAGTGAGACCCTGTCTC
W
AATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATTACCACTCCTTAACCCCGGACTGCTCTTACTTGTTTTTACAAACAGCAACAGG
Celera SNP ID:            hCV27268775
SNP Position Genomic:     28468
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,7)   total(A,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54973):
ATGTGGAGGGGCTGACCTTCCCCGATGCCGATTTCCTAGGGCTGGTTTCCCTCAGTGTCAGCCTGGTGGACCCGGGGGTGTGTACAGCACTGGGGGGTGG
S
CAAGGAGGCTGAGGGGTTTGGGGGCCCAGTTTGCAGGCTCCAGGGCTGGGCAGGCTGGGGGCTGGGGGGGCTTGAGGCAGGCTAGGGGTCCCTGCAGGGC
Celera SNP ID:            hCV9658722
SNP Position Genomic:     29754
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54974):
ATGTGCTATCAAAAGACAGCAGATTTTTATGAATTTCACTTCAAAATCTTGTCTAATTTCCACTTTGATTTCTTCTTTGATCCATGGATTCTTTAGATGT
R
TACTGCTTAATTTCCAAACATTTGGGGGAGTTTTTAGTTATCTTTGGTTATTGATTTGTCTTTAATCGCATGGTTCGCAGAGCCCAGGGGGGATTTGTAA
Celera SNP ID:            hCV27268776
SNP Position Genomic:     33507
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54975):
ATGAGCCACCATACCTGTCTGGTCATTACTTTTTACGAATTAATAATATTCCATCTTATGAATATATTACATTTTGCATATCTATTTATCCATGGGTAAT
K
TTCACCTTTTGTGCCAGGTGCTTCTATCTCTTTATTTAGTTTAAAGTTTATATTGGCCTCATGAGAAAATGTTAGCCATTTTACAGATAAGAAACTGAGG
Celera SNP ID:            hCV9658723
SNP Position Genomic:     29291
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,10)   total(G,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54976):
GGAGTTTTTAGTTATCTTTGGTTATTGATTTGTCTTTAATCGCATGGTTCGCAGAGCCCAGGGGGGATTTGTAAAAAGTGGACAGAGATCGTTTTTCAGG
Y
ACTAAGAGCCATGGAGTGGGAGACCCCCAGCAACTCCCCTCTACTCCAAGAACTGCCTCGTCCTGTCCTCACTGACCTCTCCTTCTTGGGGTGGGGGTCT
Celera SNP ID:            hCV27268777
SNP Position Genomic:     33634
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54977):
GTCTCTATTAAAAATACAAAAATTAGGCCGGGCACGGTGGCTCACACCTGTAATCCTAGCACTTTGAGAGGCCGAGGAGGGTGGATCACAAGGTCAGGAG
R
TCGAGAACATCCTGGCTAACATGGAGAAAACCCGTTTCCACTAAAAAATACAAAAAAATTAGCCAGGTGTGGCGGCAGGTGCCTGTAGTCCCAGCTGCTC
Celera SNP ID:            hCV9658724
SNP Position Genomic:     27780
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54978):
GATGGAATCAGGGTTGGAAGTGAATGTCGGAATCGGGATGGAATCAGGGTTGGAAGTGAAAGTCGGAATCGGGATGGAATCAGGGTTGGAAGTGAATGTC
R
GAATCGGCATGGAATCAGGGTTGGAAGTGAATGTCGGAATCAGGATGCAGGTTGCAGGAGGTGGGGAGGGTCAGTGTGCTTTCCTGACTCCTCATGGGGA
Celera SNP ID:            hCV27268779
SNP Position Genomic:     42512
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54979):
TCCAATCATATGTATGAATATAGTATGAATGCATGAACAAATGCATATAACTTTAATTTTCTGGGACTCAACTCCCTCACCTGTAAAATGGGGACAGTAA
K
AGTCCCAACCCCACAGGGCTGTCATAAGGATTAAATGAGGTAGCCTGGGTAAAGCATGTGTGTGGCACATGTCAATAAATGTTTGTCTCAGCTTTGCTGA
Celera SNP ID:            hCV9779064
SNP Position Genomic:     37261
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|T,9)   total(G,6|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54980):
CTTTGCTGAGAGTCTGCTGTTTAAACAAAGCCTTGAAGGAAAAGAGGCAGTTAGGCCAAGCACAGTGGCCCTCACTTGTAGTCCCAGTGCTGTGGGAGGC
S
GAGGTGGGGGGGTCGCTTGAATCCAGGAGTTTAAGACTAGCCTGGGTGGCATGGCGAAACCCACCTCTACAAAAATTACAAAAATTAGCCGTGCGTGGTG
Celera SNP ID:            hCV9779065
SNP Position Genomic:     37453
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,11)   total(G,5|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54981):
TCTAGACTACAGGAAGCTAGGCTGGGCTTGGAGGGTCTTGATAGCCCCAGAGAAATTGTACCTGTCATTTCTTCCCCCTTCTTTCATCATCATCATCATC
R
TCATCATCATCATCATCATCATTTTCTACCAAGACTCCAAATAGGGGGCTGTGACTTAGAGATGTCAACTTTTGCCCAAAGCTAGGGATTGGCTCCACAG
Celera SNP ID:            hCV16181480
SNP Position Genomic:     16361
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54982):
TACCTGTCATTTCTTCCCCCTTCTTTCATCATCATCATCATCGTCATCATCATCATCATCATCATTTTCTACCAAGACTCCAAATAGGGGGCTGTGACTT
R
GAGATGTCAACTTTTGCCCAAAGCTAGGGATTGGCTCCACAGAGTCCTGCTTCCCTTGAAAGGGCTGTGTCTGGCACCGGTGGTCCCTGAGTGGGGTGGA
Celera SNP ID:            hCV16181481
SNP Position Genomic:     16419
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54983):
TGCAATGAGCAGATATGTGCTCTGTCAGGTGGCTGGGAGGTGGCCGGTGCCATGGGCTGGAATGAAGCTGGGGTTGGGGAACCAGACTCATGGTGTCATT
Y
GTGTCACGCCATTTGCAACAGGCAAGAAGGGTACATCAGAAAGGCCTCGTATGCTACCCTGAGAGAAGGAAGTGAGGGGCTGGGCGGACCGCAGGGATTG
Celera SNP ID:            hCV16181482
SNP Position Genomic:     16918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54984):
TGGCCGCAGCGGGGGACTATGGGATCTATGGGACTATCCTGGGGAAGGGAAGAGGGAACATGAGGGATGAGGGACAGCAGTGGGGGGCGAGTAGAGAGGA
M
TCAGCCTTCAAAGGTCAAGCGTCCCAGTGGGCTGAAGGTTTGGTTGCACTGGTGTGTTAGGAGTGAGCTGGAATATTGGGAAGCGGTGTCCGAGTGGGTT
Celera SNP ID:            hCV16181489
SNP Position Genomic:     20267
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54985):
CAGGGTTGGAAGTGAATGTCGGAATCGGGATGGAATCAGGGTTGGAAGTGAAAGTCGGAATCGGGATGGAATCAGGGTTGGAAGTGAATGTCAGAATCGG
S
ATGGAATCAGGGTTGGAAGTGAATGTCGGAATCAGGATGCAGGTTGCAGGAGGTGGGGAGGGTCAGTGTGCTTTCCTGACTCCTCATGGGGAGATTCCAG
Celera SNP ID:            hCV27268780
SNP Position Genomic:     42520
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54986):
ACAAGCCTTGGGGTAGAGGAGGCTATGGTGGTCAGCCCCAGGTAACACCTGAAGAGTAAGGAGGAGGACAGAGTGGGCTCAAGGCGTCACCCCACAGGAA
S
TATCTGGAAGCTGTCCTGGGAGGGGTAGAAGGTACAATTTAAAGGGAAAGACTCCAGAGAGGCAGCCTGGATCACAAAGCTTTGAGGACAAGGTGGGCAG
Celera SNP ID:            hCV9658732
SNP Position Genomic:     25830
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54987):
GGAGTGGGGGTTCTCATTCCCATCTTATTGAGGAACTACCCGAGGCTTAGAGGAGCTGAGAGACTTGCCTAAGTCGATGGAGCCGGCTGCTCCTCCCTCA
W
CTGCCAGCTGCTCCTGCTGGGAGCTGCCCCACCTTTCCCATCCCTCCACCTTTCCCCCACCCTCCTTGCTCCTCACACCTGCTCTGGGAACCAAGGTGGG
Celera SNP ID:            hCV9658733
SNP Position Genomic:     24262
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54988):
TTTAGGCAGAGCCCTGAAGAGGGTGAGGGAAGGAGACTTGTGGACATCTTGGGGAGGAGCAGTCCATGCAGCAGGAGCGGGCAGTGCCAGGACAGCCTTG
S
CATCTTCATGGCACAACAGGAAGGCCAGCGTGGCTGGAGCTAAGTGAGCGAGGGAAAGCGTAGTAGGGAGGAGGCAGTCAGCAAGGTGGCAGGGGCGCAT
Celera SNP ID:            hCV9658734
SNP Position Genomic:     22635
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54989):
GGAGCTGGGGAGCCAGGGCTGATCTAGGAGGCTGGGAGCCAGGTGACAGGATGGCCCCAAAGAGAGTTGTGCAGCTGTCCCTGAAGATGCCTACCCATGC
Y
GTGTGTGTGGTGGGAGTCGAGGCACATGTGGACATTCACAGGTAAGAGCTGGGAGGCGCTCTCCTGGCTGCAGAGAGCTGGGTTAGAGTGTAAGTCAATG
Celera SNP ID:            hCV16185488
SNP Position Genomic:     6133
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,39|T,1)   total(C,74|T,2)
SNP Type:                 SILENT MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(T,13|C,1464)   total(C,1464|T,13)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54990):
CTCTAAGTAGGGCTGTCAGGATGTGTCCCTCATCACCTCTGCCTCCGCCATCTCTGAAGGTGATGGCCGTGCAGGCTTAGGGCTATGTTCTGCAGGTGAG
R
GTCTCCTACTTTGGGGAGCAGGAAGACCAAGCTCTGGGCCGCAGCGTGCTTTACCTCACTGGCGTCGGTAAGTAGCAGCTCCCTGGCTGCCCATCTATCC
Celera SNP ID:            hCV16185489
SNP Position Genomic:     24563
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(A,7|G,31)   total(A,11|G,65)
SNP Type:                 SILENT MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;JBIC-allele(A,211|G,1280)   total(G,1280|A,211)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:54991):
CGGTGGCAGGGCTGGGGAGGAAAACCAGGAGCCATGGAAACCAAACCTTGACTCTAAGTTGCTGCTGGGAGCCCCGCTGTGGGGGCTGGTTCTCTCGGGT
Y
TAGGTGGCCAGCAGAGACCCCATTGTCTCTTGCCCTGTTAACATAGGCTTGCCAGATTTAGCAAATAAAAATACAGGATGCCTGGTTAAGTTTGAATTTC
Celera SNP ID:            hCV16193791
SNP Position Genomic:     7348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54992):
ATTTATAATAAATTTATATATACATATATATGCATAAGAACCCCCCCACTCCAGAGAGCTGGTTGTTAAACATTTGCCAGCACACCACTGCCTGGAGTTA
S
GGGGTAAGGGGGAGTGACACAGCAAAGGCATTAGAGGAAAGGCCACGGAGTCAGAGGAGAGCAAGCAGAGCCCGTGTCCCAGCTGCCAAGTGGGAAAGTG
Celera SNP ID:            hCV16193792
SNP Position Genomic:     19350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54993):
GGGGGAAGAGTGGGGAGGCTTCTGGAGATAGGAGAAGATAGGACATAGTCCTCTAGGACACTGAAAGAGAAAAGAGCCTGGAGCAATGCTGTAGGAGCAC
R
AGCATGTCACGCATCCATTGAGGTCAGCAGTCATGAGTCCAAGTGAACCATGGTCAGCCGCGTGGTGCAGGTGCAGAGGGGGTGGAGAGTTGGATCTGAT
Celera SNP ID:            hCV16193793
SNP Position Genomic:     19991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54994):
GACCCATGAGAAAGCTGCTCGGTGATCCAGGCGAGGGGTGATGGTGGCTTGGGCCGCAGTGATGTCAGTGGAGGTGGTGAGAGGTGGTGGGTTAGTGGAT
Y
TCTGTTGAGCTGGAGAGTTTGGAAGTGTCAGATCTGGAAAGGACTTGGGTGTGGGCTGGGGGTGTCCAAGGGTTTACCATCTATGCCCTGGCTTCCAGAT
Celera SNP ID:            hCV16193794
SNP Position Genomic:     22969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54995):
TCCTACTTTGGGGAGCAGGAAGACCAAGCTCTGGGCCGCAGCGTGCTTTACCTCACTGGCGTCGGTAAGTAGCAGCTCCCTGGCTGCCCATCTATCCCTT
Y
GCCCCTCCAGGTTGACTGTTTGAGGGTCTTAGTGGATTCCTTGGAGTGGAAGACCCATGGCCAGCTTCCTCCATCACTGAGGGGCTTGGATTCCTCGGGA
Celera SNP ID:            hCV16193795
SNP Position Genomic:     24667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54996):
GCACATACCTGTTGTCCAAGCTACTCAGGAGGCTGAGGTGGGAGGATCACTTGAGCACGGGAGGTTGAGGCTGCAGTGAGCCATGCACTCCAGCCTCTAG
R
CTGGGCAACAGAGTGAGTGAGACCTTGTCTCAAAAAAAAATTAAAAAAGAGAGAGAGAAAGAAAGAAAAAAAGAAAGGAAGGAAGGAAGAGGAAGAAAGA
Celera SNP ID:            hCV9779072
SNP Position Genomic:     37654
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,11)   total(G,11|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:54997):
TTCAGCCAGGGCCAGGGTCAATGTAACGGCAGAACCCAGCCCCTGCAACCTCAGGCCATGTCCCCAGTTCTCAGAGTTTGGGGTCACCAGCATATGATTT
R
GAACCCCAAAGCCACCAAGAGCTAGCAGGTGGACATGCACAGGCAAGCAAGTGATTCAAGAGCCAAAGGCTTGGGTCCCTCCAACTCCCAGAACCACAGG
Celera SNP ID:            hCV16193796
SNP Position Genomic:     25043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:54998):
CAGGCACCCGTGGAGCTCTACTCGGACTGGCTCTCTGTGGGCCATGTGGACGAGTTTCTGACCTTTGTGCCTACCTCTGACCAAAAGGTGCGTCCCCTCC
Y
TCCCTGCCTGAGCCACCTCTGCCCTTGTCTGACCTGATGGGATGAGTCAGGGCAAAGCCATCTGGAACCAGCTCAACCCTGTGCCCCGAGTAAGCTCTGG
Celera SNP ID:            hCV9779073
SNP Position Genomic:     38405
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,12)   caucasian(C,9|T,29)   total(C,31|T,41)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:54999):
GATTCAAATCCGGGTTCTGGGCCTCTACAGTAAGCCTTGCAGAGGTGGCTTGGGAAGGCATGGCCAGGGAGCCAGCAGCCTGGGAGAGGAGGCTTCCCAG
Y
GACCAGTGGTTACAGCTCTGCTAGGGACAGCTCTGACAGTGAAGGAGGAGACATCTGAATTGGGTATTTTGTTTGTTTTTTGTTTGTTTGTTTTTCGAGA
Celera SNP ID:            hCV9779074
SNP Position Genomic:     38903
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,9)   total(C,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55000):
CTAAGAGCCATGGAGTGGGAGACCCCCAGCAACTCCCCTCTACTCCAAGAACTGCCTCGTCCTGTCCTCACTGACCTCTCCTTCTTGGGGTGGGGGTCTC
R
CTGGTTCTTCCATAGGGTCCTGACTTTGGATATGTTACCCGGGAGATCCCGCTCCCTGGTCCCTCCAGCCTTGACTCCTTCGGCAACCTGGACGTCAGCC
Celera SNP ID:            hCV25637806
SNP Position Genomic:     33736
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,2|G,36)   total(A,3|G,71)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55001):
TATAATCTTTGCTTTGGGGGGTTGTGATGAGCATTAGGGAGCGCCAAGTAGGACTCGTGATTGTTGGAATTAGGACTGTTGTCACCGCAGTCAATGGAGA
Y
AGTTTTTTGATGGGGCCAAGTGATCATGGCAGAGGTTGTGGAGGGGGTCTGGTTTCTCCAGAGGGCTGAATATTTGGGTGGTTTTTTAGGGGTCCAGGAA
Celera SNP ID:            hCV16181490
SNP Position Genomic:     21250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55002):
GCTGGGGCTGGGACAGTGTGTTGTGCTGACAAGAACATTTGCATCCAGAAACTGCCTGGGTTCGAACCCCAGCTTTGGCACATCCTAGCCTTGTGCACTT
S
AGCAGGTTGCCTGAGCCTCAGTTTCCCCCGGACAGCAATGGTTTCTATTGCACAAAGCTGTTGTGAGGCTTGAAGGAGCTAGCGGGCCCAGAGGGCTCCA
Celera SNP ID:            hCV25637807
SNP Position Genomic:     41386
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,38)   total(C,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:55003):
GGTGCAGTCCCTGCTGGAGCCTCTGGGCCTGCACTGCATCTTCATTGATGACTACTTGTCCTACCACGAGCTGCAGGGGGAGATCCACTGTGGCACCAAC
R
TGCGCAGGAAGCCCTTTCCCTTCAAATGGTGGAACATGGTGCCCTGAGCCTGCCCCCACCCGCCATCCTCTCTGCCCTCTTGCTAGGGAACCCTGCCAGG
Celera SNP ID:            hCV25637808
SNP Position Genomic:     44767
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(G,38)   total(A,5|G,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55004):
GGGGGATCAGTCGGGGGGAAAGGTGGGCAAGGTGCAGCATTAAATGGAGTGATTGGGTGGGGGCAGGAGCTTGCTGAGAAGGTGACATTTAGGCAGAGCC
Y
TGAAGAGGGTGAGGGAAGGAGACTTGTGGACATCTTGGGGAGGAGCAGTCCATGCAGCAGGAGCGGGCAGTGCCAGGACAGCCTTGCCATCTTCATGGCA
Celera SNP ID:            hCV16181491
SNP Position Genomic:     22548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55005):
TCCGGGCACCCCAAGGCTGCGGGGTTGAAAGGCAAACTTGGGGTGGTCCCGGGTGGATTGTGCCCTCCCTCCAGAAGAATGATGGATCCCCAGGGTCTGT
W
GTATCCAACCATGTAGGGAACCCATCTGGGACAGCAAAATTGGCATGAGTGGACATTAACCTACACCCTGTAACCGACATGCTGTGTGACTGCTGGAAAA
Celera SNP ID:            hCV16181498
SNP Position Genomic:     25476
SNP Source:               Applera
Population(Allele,Count): african american(A,27|T,11)   caucasian(A,14|T,26)   total(A,41|T,37)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;(A,-|T,-)   JBIC-allele(T,535|A,964)   total(A,964|T,535)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55006):
ACTCCATCAGTACCAAATATAGTCCTCAAGGAGGAGGTTCAACAACAACGAGTTCCATTTTATGGAGAGGAAAACCGAGGCTCAGATGCAGGAATTCACT
R
TGGCACAACCATCTGGGGTGGAGCAGGCATTCCAACCCAGGTGTCTTGGGTGCACCAAAGCTCCTCCTTTTACCATTGCCCCACACCCGTTCCCTCCTCT
Celera SNP ID:            hCV16181499
SNP Position Genomic:     27317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55007):
ATCTATCCCTTCGCCCCTCCAGGTTGACTGTTTGAGGGTCTTAGTGGATTCCTTGGAGTGGAAGACCCATGGCCAGCTTCCTCCATCACTGAGGGGCTTG
R
ATTCCTCGGGACCTTCTGTCCACTCTGGAACCACAGGGATTGAGACCCAGCAGTCCTTAGGACCACAAGGATCTAGAAACTTCACTGCCCAGTGAACAAC
Celera SNP ID:            hCV16185490
SNP Position Genomic:     24756
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55008):
CTGCAGGGCCCACCAAGTCCTCATTTTCCCCTCAGACCCTGCCCGAGGTGACCCTCTTCACAGACACTGTGGGCTTCCGCATGGCCCCCTGGATCATGAC
K
CCCAACACTCAGCCTCCTGAGGAGCTGTATGTGTGCAGGTGAGGCTCCCTCCCTCCAGCCCTCCCCCAAGTCTGGAGTGCAGAGGTAGGGACAGAAGCTG
Celera SNP ID:            hCV16181427
SNP Position Genomic:     29946
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,160|G,1333)   total(G,1333|T,160)no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55009):
GATTACACCACCATGCCCAGCTAATTTTTTGTATTTTAAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACTGCAGGTGATC
Y
GCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCAGCCCTGAATTGGGCCTTGAAGGAAGAAATCAGAATGCCCTGGTGGG
Celera SNP ID:            hCV9779081
SNP Position Genomic:     39217
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55010):
GGCTGGTCTCAAACTCCTGACTGCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCAGCCCTGAATTGGG
Y
CTTGAAGGAAGAAATCAGAATGCCCTGGTGGGCAAAATGCGAAGGGCCTCCAGGGAGGGAGAACAGCACAGACAAAGTTCTGGAGGTGGGAACCTGCTTG
Celera SNP ID:            hCV9779082
SNP Position Genomic:     39285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55011):
CCACTCTCTGTTTCTTGGGTCCCCAGGTCCTCTGATGGGTGGGGGAGTTCCTGGGCCACACCCCAGGAGAGGAAAGGCACAGGAAGTCATGAGTGCCCCA
S
GTGCCGGTCAATGCCAGGCATGTTCTTGTTCTCACTCCCCTTTGATCTCTCTCCCCTCTTCCTTATCCCTGTTCACAGAAGTGGAAACTGAGGCTCAGAA
Celera SNP ID:            hCV9779083
SNP Position Genomic:     39852
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,8)      total(G,8|C,2) ;JBIC-allele(C,103|G,1174)   total(G,1174|C,103)
SNP Type:                 INTRON


Context             (SEQ ID NO:55012):
TTCCTGCGTGGAATCCTGGAATCAAAGACTCGGCAACCTAGGATCTCAGATTTAAAAGATCAGAGAATCTTAGGAGAAAAGTCACACGCTTGTGGCCTGC
R
ATCTTTTGGCCTACCTCATTTTATGAGCTTAATGAGTCACCAACATAAACAGATATCGGGAGGGCCTCCCATAAAAAGGCAGGTTTCTGGCTTCTCATGA
Celera SNP ID:            hCV27473631
SNP Position Genomic:     34114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55013):
ATGGGCCCCACTTAGAATTGCTCCCCCTTCATTCTGATGCCTCCCTGGGGAACAAGGATAATGACTTTGCATCTGCACCTGGAACGGGGCCTGGGGGACC
W
GGGGTCTGGTGTGCCAGGCACCAGGCTGCCTCTGCTCTTGGAAAACTAGGAAAGGGGATCAGAAACATCCTCTCCCCGCTCTAGGTTTCTTCTCCCAAAG
Celera SNP ID:            hCV27473632
SNP Position Genomic:     45217
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,66|T,1415)   total(A,66|T,1415) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:55014):
GGGGAGATCCACTGTGGCACCAACGTGCGCAGGAAGCCCTTTCCCTTCAAATGGTGGAACATGGTGCCCTGAGCCTGCCCCCACCCGCCATCCTCTCTGC
B
CTCTTGCTAGGGAACCCTGCCAGGGTGAAGGCAAGGAACAACCACCTGGCCTCCATTCTCTTGGGGGAGTCTTGGCACTTTGCAAACATCCTGGCCACCA
Celera SNP ID:            hCV25637816
SNP Position Genomic:     44843
SNP Source:               Applera
Population(Allele,Count): african american(C,32|G,2|T,2)   caucasian(C,35|G,3)   total(C,67|G,5|T,2)
SNP Type:                 UTR 3


Context             (SEQ ID NO:55015):
TGATCTAGGAGGCTGGGAGCCAGGTGACAGGATGGCCCCAAAGAGAGTTGTGCAGCTGTCCCTGAAGATGCCTACCCATGCCGTGTGTGTGGTGGGAGTC
R
AGGCACATGTGGACATTCACAGGTAAGAGCTGGGAGGCGCTCTCCTGGCTGCAGAGAGCTGGGTTAGAGTGTAAGTCAATGGGGTGGGTGCCTGGTAGAC
Celera SNP ID:            hCV25637817
SNP Position Genomic:     6152
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55016):
CGGGAGCTGGGGAGCCAGGGCTGATCTAGGAGGCTGGGAGCCAGGTGACAGGATGGCCCCAAAGAGAGTTGTGCAGCTGTCCCTGAAGATGCCTACCCAT
S
CCGTGTGTGTGGTGGGAGTCGAGGCACATGTGGACATTCACAGGTAAGAGCTGGGAGGCGCTCTCCTGGCTGCAGAGAGCTGGGTTAGAGTGTAAGTCAA
Celera SNP ID:            hCV25637818
SNP Position Genomic:     6131
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,1|G,39)   total(C,1|G,73)
SNP Type:                 MISSENSE MUTATION


Gene Number:                 282
Celera Gene:                 hCG1643334 - 146000220817794
Gene Symbol:                 MGC15882
Protein Name:                hypothetical protein MGC15882
Celera Genomic Axis:         GA_x5YUV32W802(48922071..48987473)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12442):
GGAATAATAATACTGCAGGCTTCACTGGGTTGCTGAGAGGATTGAGTTAATACATCCAAGTGCTTAAGACAGTGCCGGTGAGTACTCAGTGAATATGAGC
TGTTATTATAACTCCCCTGGGTGTCCAGAACAGCTCTCTGAGCATGGTAGGTGGGGAAGGACATGGTGAGGGCACATAGACTTCCTGGCTGATTCCTTTG
GCCCCAGCTTCTATTTAATAGGCACATTCGATGAGGTATGGCACTGGACTCGTTGCATCTCTGGTTTCTAATCCTTCCAAAAACTCAGGAATTACTTGTC
CTTTTTACAGCAGGGAGACTGAGCCCTAGAGAGGCCTGAAGATCAGCTGGGTCTCCAGCAAGGCTCTGCGGAGCAATCAGGTTCCCTTAATCCTGCTGGC
GTGATGATGAGGGTGAAACAGGCAGGTCAGGCACATGAATGAGGGTGAAGGGGGTGCTGCTGAAGCTGCCTGCTGGGCTCTGCCGGAGAAACCCAAACCA
GGCAGTGTCCAAGACCCTGCAATTTGGTCCTCCAGTCCCTGGTGCATGATTCTAATCTCACCTTCAACAAAGCCACACACTCACCAGCCCTAGATATGGT
GGGCACTCTCCGCTGCAGTCAGCTCATTTTTTAAAAACCATAAACCCTCAGCTTGATTGCAAATGGAAATTCAAATTCATACACACACTGGTGACTGAGT
AGTGAAACGCCTTTCCTTGGCTCAGGGTTGGAGGAGAGTGGTATGCCAAGGGCTTATTGTTGCATTGGTTCTAGAACCTAGGGAACTGTAACCAAACGGT
GATACTTAGTTGTGGGGAAAGGAACAGGGGACCAGATGTCTTTGTCATCTTATTACCTCTGCAAACCAGCTGGCTTCCTTGACCCCCGATTTAGTCTTAT
CAGTCCTTGGAAAACTCTCCAAGAAAAAGAAAACTGTAAAAATCATCTGATCAAACAGCCATACATCAAGCACCAATTCTATGCCAGAACCTGAGCTGGA
TATGGGGATACCAAGAGAAATAAAGCACCATCCCTGCCTTCAGTAAGCTCACATTTTAATATATAAGGCAGACAAATAAATGCTTTTTAATACAATTCAG
TTTGTACTACAGTAGAACATTGAGTACAGTCAGTGCTCTAGTCTACAAGAGGCTGACTAAAAGCAAGCACTCAGACAACATACAAAGCAGGGGAAATTTT
TTTAATTTGGCATTTGATTTTTTTAAAGCCATGATGTAATTGGCACGGGAAAAATCAGAACTTTGTCAGAATTCCATCTACTTAAACTATCTACTTATAG
TTTAATATTGCTTTTTAAAAATTAGTTAGTAAGGGAGTGGAAGGCATGATAGCTTTTTCAATGCTCAGAGCTCCTCAAGGAAAGTAGCTAGGTTCGAGAA
TAATTGAGGATATGAAACTGACAGAATTTGATGACCATATGATAAGGAAGGAGTTGAGGATAATCCAAAGGTTTCTGGGCTCCATAACTGGGAGGCTACA
GGAACCACCAGCTCACAAAGGAAATACGGGAGGCTTAAGAAAGAAGCTAATAAGATTGCTCTGGAAGGGAAATATCTAAGTGAAGATGTCCAAGGATCAG
CTGGATATATGGGTTACCTAGACCCAGAATTCCCATGGACCAGGAAGCCAATAGATGAATTTCAGGAGAGATGTCTTGGCAGAAGAGATCTGTCTGGAAG
CTTCAGAGTGTGGTAGTGAAAGGGTTGGGCAAGGATGAGCTCACCCAGAGAGTGGTGAAAAGGAATGGGAAAAAGTACAAAGAATTAAATGCTGCAGGAC
ACTATACTTCAGGGAGGGGAATAAGTGTTAGTATTAGAGACTGAGAAGGAACACGCAAGAGATAGGAGAAAAATCAGTAAAACATAGTGTCCCAGAAGCC
CAAGGAAGAGAAATTCATCCAAAGTGGCCACAGCCACAGAGAGATAAAAGAAAATAAAGATAAAGTACAATGTATTTGGCAATTGAGGTGGTCATTGGTG
CTCTCTTCTAGAGTGTTCCAGTGTCATCCTGGAGACAGAGGTTGAAGTAAGGAGTGACGGGTAGTAGAGAAAACTGACATGAAGACCCCTTTGAAGAGAA
GTGACTAAAAGACAAAAAGAGATGGGGCAGTGGCTTAGATAGGTCAATAGGGCCAAGAAGGCTTCTTGGCTTGTTTTGTGGTAAAGATGAGCCTGTTCAC
AGGTCAAAGGGAAATGTGTTTTAAGAAGGGAGGGTGGCCAGGTGCGGTGGATCACGCCTGTAATCCCAGCACTTTGGGAGGGCAAGGTGGGCAGATCATG
AGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCCCTTCTCTATTAAAAATACAAAATTAGCTGGGCATGGTGGCATGCGCCTGTAATCA
CAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGCAAGCCGAGATTGCGCCATTGCACTCCAGCCTGGACAACAA
AAGAGTGAAACTCCCTCTCAAAAAAAAAAAAAAAAAAAAGGGAGGATGATTGATAGGGACAGCAGGTAATTGGTGGGAAGTCTCCAGGGAGGCTGGGGTG
GGGAGGGGGAGGGGGAGTGCAAGGCAGGACAAGGACTAAAGGGGTTGAGGGGAGAAGGTATGGGTGGGTGAGGAGACTCCCCTTTTTCAAACTATTTTAT
TCATTTATCCAGTGATCACTGAGCCGAGGAAGGGAGACGGTTCAGTCCTGAGCATCTTTTAAATTCAACAGTGTGAACTGAACACAAAATGAATGTGTTT
CCCCTTCTAATGTACCAAATCCTGCCGATCTTCTGTCACCAAGTCCATTTCCAAATCTCTGCTGCCTGCAAGGCCAAACAGCCCATCTAAAGGCGGGAAA
GGCTTAAAAAGAAATGTACTGGGCTGGGCGCGGTGGCTCACATCTGTAAGCCCAGCACTTTGGGAGGCAGAGGCAGGCGGATCACCTGAAGTCAGGAGCT
CGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTCCTAAAAATACAAAAATTAACCGGGCGTGGTGACGGTCGCCTGTAATCCCAGCTACTCGGAA
GACTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGACCGCGCCATTGCACTCCAGCCTGGGCGAGAAGAGCAAAACTCCG
TCTTAAAAAAAATTTAAAAAGAAAGAGAAGAAAAGAAAAGAAATGTACTGGAAGCTTGCAAGCCAGAGCAGGGCCTGCCGGAGAGGAACTACCCCAAGCC
ATGAACACAAGGCCCCCTCCCCGCAACTTCTCTACTGAGCAAGGAGCTGCGAGCAAATGGATCTCTATAGGGCAGGATTCCAGCACCGCTGAGCGGTGCA
AGCGCCGGTGAGTCGGCCTTTTTCTCTCCCCTAGGGGCAGGATATGCCCAAGGGGCAGGGACAAATCTAGCCAGAAAAACAATTCAGTCCGATGCCGAGA
CATTCTCCAATCAGCTAAGCCAGAGACCGGCCTCGCCTCAACGTACGTCCGGGAGGCCTGGCGGGAGGTAGCAGCGATTCCCCCACCGCCCATGTGGCAA
GTCTGGGTGACCAGCAGCGTCGGTATGCACAGCCTCCCAGTGGGTGTGGGTGTGCGAGAGGCCAGAGCTCCCAGGCGCGCGCACCGCGGGCGCCCCTCTC
TGGGTGTCGGTGGCTATGACTCTTAGCAGAACCTAAGAAAGTCCCGTCAGCTAGGAATGAGAGAGCCAGAGCTGGCTCGGGGCGCCCTCCCTGACCAAGA
ACCCCAACATGCCGCGGTTAAGCGGTGGGCGACACGGTCTGCGAGGACAGACTCACAAGACGCTGAAGGCCAGAGTGGGCCAGAGAGCTCGCCACTCACT
GACCTGCCAGAGGAGAGGCGCACTTTCCCAAGAAGGGGAACTGGGGTGGTCCAGGCCAAGCCTTCAGAGGTTCAATCGGTGGTTTCAAAACAAAACAAAA
CAAAACAAAAACAAAAACAAAAAAGAAAACACGGCTCCAGGTCGAAGGTGCCCTAGGTCTAGGCCTGGCCAGCAGGTGTTTCGGTTTCTCCCCCAGTGGG
TGTCAGCCTCGCGGGCTAAATGAAAATGCGGTTCCAGGCATCCCGGTTTGGACCCGTCTCCACCCGGGCACACGGAACTTTCTAGCTTGTAGCTAGAACT
GAGCTTCGGAGGGGTGCTGTGGGTAAAGCGGGAGGGCACCAGTCGCGGCCAGTAGCCTCCACAGGGGACCGGGTTCCCTCGAAGGTTCGCGTACCTCCCC
CGCGCGCTGCAAGCTGCAGCCAGACACCCGCGAAGTTCCGGGACTCTCCGCACCCGCTAGATCTGCCCCTTCCCGGACTCGGTCGTCGGGAGCTGGTCCC
GCCGCCCGCGCCGCCGCTGCCGCTGCCGCAGCCGAGGCGCTCGGCTGCAGCAGGGCGCGGGAAAGGGCACTTTGGCGCGGAGTGAGCACCGAGGGGAATG
TGGCAGCGCGAAGCCTGGCGGCGGCACTCCCTCCCCCGCCTCGGGCTACAACCCCCACCCCCTCCTTCCCATCCCTCAACACCCTCCAGCCCCCACCTGC
ACCCTCCTGCAAGGAATGCGCGGGACCCCCACCGTGGGCACGCGTCCACCTGAACCCCCTCCTAGCTCCGAGCGCCGAGGGAGGGGTAGCATTTGAGGAG
GGGGATGGCGGCCGCAGTCTGCAGTCGGTTCCAGAGGGGGCACCGGTTTCAATTGGAGAAAATGGGCGGGGGCAGGGAAGGGCAGACCTTGCAGACGCAG
AAATGGGGAGGGGGCGCACGGTTCCTCTCCAGCCCCCAGGACCAGCGTGCCTGGCAGAATCAGGAGCCGGGGGAGTAGGGCTCCCGGAAAGTTTATCGGG
AAAAAGCCTAGCACCGTGGGGGCTGGGAGGCTGGAGAAACTGAAGCCACAGACCAGGTGCCCCGCAACCCCGGGCGGGGATGTCTGTCTCCCAGGCCCCC
ACACCGGCCGCATCCGTCCAAGTTGCGGCTGGGGTTGGGGCAGCAGTGAGGGTGAGGGTGGAGGTGAGGACGTGGCTGAGGGTGGGGTGGGAGACGGAGG
CAGGGATGAGAATGAGAGTAGGCAACTGGGAGGGTGGGAGATTCAGGCAGGGATAGAGGCGGGGGGAGGGACTGGGACCGGGTCGAGGATGGGTGGGCTC
GGGGCTCGGGTGGGGCGCGCGGCGGCCGCTGGCTCCTCGGCGCGGCTGGACTCACCCGCGGCGGCCGAGACGCTGAGCAACCCACAGCCCAGCAACAGCA
GCAGAGGCGGCGGCGTTGGCGGCGGCGGGCGGCCCCAGCGGCTCCCGGCGCCCGGCACAAGCGCCGAAATCCCGGTTTCGCCGCGAGCCCTCCCCGCGGG
GCAGCCGCAGCGCCCCAGCTCCCGTCCCCGCGAGCGCGGCATGGCGCGGCCGGCAGCGCCGAGGGAGAGGCTCCGCTCGCCGCCGAGGAGAAAGGAGGTC
AGGAGAGCTCTGGAGCTTTTTTCTGCTCGGAAAAAATCCCGGTACGCGGGAGCCCTGAGCTTCTGCGGCTGGAATGAACCAAGTGTCCGCCCGGCCGGGG
AGAGGCGCGCTGCGCTCTCGGAAATGACTCGCTCCAATCCCGCTTCGCGGGGTTCGCGCCGGGGGGCGGGAGGGGGTGAATTATCCCCGGATTAATCACT
CCGGAGCCGCTTCTCCGCCGCTCCAAATGCTGGGGGTGGAGGCGCAGCTAAGGATAAAATATTGGGGGGCGGGGGTTCCTCTTCAGCGCCACCTCCACCT
CCAGATAAACCACAAATTACATCTAAAGGGTTGTTTATCCGTGTTTGTTTTGCAATTGACCAGTTTCTTTTAAGTTCAGTCCTCCTGTTTTCATTTATAA
CATCACCCATTAATACACCCCCCTCTCCACACACACACACACAAACACACACACACACACACAGTGACAGAGACACACGCACTCACACACACAGGCACAT
ACACGCACACCTCTTCCACGTTTGGAAATTGGAATCCTGTCTGGGAAAAGGTAACCAAAGAAGGACGCGTTCCCCAAGTCTTGGCTCTTACCAGCTGATC
TTGGGTGGTGGCTTTGAACTTGCCATCTAGGGCCGGGGGCGATGCTTATGAGCCTCATTCACAATAGCCTCCTACCCCATCCCAGGAGAGGGGCGTGTGT
GCGTAGACAGAGGCAGGGTTAAGAATTGGAGGGCGGTGGAGGGGGGTTGTGTGTGGGGTGGGGAGGGGGGGGAACCGGTTCATTTGACCCAGTGCGGTCC
CACTCCTACCCTAAGACAAAAATCTCAGGGTGGCAGAGGCGGTCCCTGTGTGCACGCGAGTTGGGGGTGGGGAGTGAGGTTGGTGGAAGGACGGTGCAAG
AGTTACTAGTACAATTTATCCCCAAATTTAAATAATCGGATCCTACTTCTTCRTCTCCCCTTCCTCCTCCCAGCCAAGGCCCCAAACCAAGAGAGTTCTT
CCCAAGGACGTGAGCTGCTCCCCACCTCTCCCCAGTAGCGGCTGCCTCTAGGCCCCAAGGGCTTAGTGTCGGTCCCCACCCCATCCCCCACCCGACTCGG
TCGCCGTCTCTGTCTCGTCTACTCCAGGCTTCTCCGCCAGTCACGATGGCTCCTTCGCTGTCTACGCCAAACTCTCGGCGAGAGGGAAGAGACGCTTCAT
GGGGGGAGGCTGGAGGAAACTGGGAGGGGCAAGGTCCAGAGAGGAGGCTYCTGCTGGCGCGTGCAGTGGAAAGGCACCTGCGATGGGCACCCCCGCCCCC
TTTGCCGACACACCCCAGAGAAGCTGTGCTCCGGGCTTAGGGCAGCCTGATTTGGCCAAAACGGAGCGTTGGCATCTGTGTGGCCAAGGGGGCAGTGGCC
GGCGGGCGGTGGGGCCTGAGAATTTCCGGGGAAGGGTGTGGAGAGGGACTGTAGGGATGGCGAGCCAGGCTGGGGGTGGCTGGCGACCCAGGTTGGCCGG
CTGTCAGCGTGGCCAGGAATTTCCATCCAAGGAAGGGTGTGAAGAGGGGCTGTGGAGTTGACGATATGAATTGGGGGGCGGGGGCAGGGCTGGAGGAGTG
GAGGCTTGTCCCTACTCCCCATGAAAAACTTCCTCCCCAGAGCCACGCTTTCGCAGCCTCCTAGATGCCACTCTTCCTCCCTCCCCCCACCCCAAGTTGT
TCCGGTTTCCCTGCATGAGCTCATCCCACAGCTGGGGAGCCAGCCCGGTGGCCCTGGGCGGGCGAATCTCCTCAGAATCGCGGGCCTGGTCCCCACCCCC
AACACGCTTGTATGCCCGCCCCTCCCGACGCCGCCTTGCTGGGTGCCAAGAACCAACCGAAGCAGCCAGAACTCCTCAGTGAAAGGCCTGCTTTATGTTC
CCKGGGCAGTGAGGAGGGGGCTTCTCCCTTCCCATTGTCCAGACTCAGCCCCCGAAAGAGAGGGCTCAGCCTTCCCACCAGCCCTGGAGAGGAGGAAGGG
ACTGACTACGCCAGCAGTGAGTGGTGGTGGTGGCCTTGGGGGCTGTTAGCTGGGCTTGCCTGGGGGTGGGCTCCTGGCTTCTAAGCTCCGACTTTACCCC
TCTCTTGGAGGCGGGGTTCTCCTCCAGAGAAAGGAACTGGCAGAGATGCCCAGGCCTCCTGTGCAGCCCACAGCTGGGCAGAAGAGAGTCTGGGCTGCTC
TGTAATTCTGGGGCTGCAGKCCAATGGGCTTTCTCTTACCCTCTTCTCAGCTCCAGAACTTTGCTCTGTGGCTGCAACGGGCAGATGAGATTTACCCCCA
GAACTTTCCCGGGCAAAAGGAGCGTTTGTCATCCTTCTCCCTGGGGGCTGTGGAGGGCAGGGCACCTATTTTATCCCTGCAAAAGGCCCAGTTACTCACA
TCCTCCGCCATTCCTGCTCTCTGATCTATTTGGGTCCACGTGCTTTCACTGAGCGCCTCCTGTGCTCGGGGGCCCTGAGCGAGGCTGTGCTCTGGGCCCT
GCAGAGATGCACAGTGTGTGGTCCTGCTTTGGGAGGATGCAGGCCAGAGGTGGAAACCCACACGTAACTGATACCGTCAGACAGCGATAATCACCATGAC
TGAAGAACCGGCATGCTACCGAGAGGCATGTCAAGACAGTGAGCTTTTCCTGGACTTGGGGGATCAGAAGGCTAATTTAAGAAGGAAAGTAGGATTTGGT
CTGGAACCTGAGACATGGATAAAGACCTTGAAAAGATGAAGATTCATTTACTCAACAAATATTTATTGAGCATCATTATGTGCCTGGGTGCTGTGCTAGA
CAATGAATATACACCTAGTGCACAGTCCCTGACTTGATGAAGGCAGAAAATATGTATACAAATACACATAAAGTTACTAATTAAGGATGCTACAAAAGGA
AAGTTTATGGTGCTAGGAGAAACAATATGGGGATGTGCTTTAAGGAGATGGTCTGAGAAGGCCTCTCTGAGATGGCAACGGTGGAAGATGGGATCTAAAA
TTAAGCAAGATGCTCAGGAGGCTAAAGCCAGAGGATCATTTGAGCCCAGCTGTTCAAGGCTGCAGTGAGCCATGATCACACCACTGCACTCCAGCCTGGG
TGACAGAGCCAGACTATCTGTCTATGAATTAATTAATTAATTAATTAATATAATAATAGAATTAAGCAAGGCAGCCATGCAAAGTTGGGGAAAGAGCTTT
TGGTATAGTGAGCACAGGCAAGGCTGTAAAAAGGAAAGGGGGCCAGGAGGAGGAGGATGGGGCTGGATCCAGGTAAGCAATGGGAGATAGGGAGTGGGGC
AGATCACATAGGGTCTATTAGGGGATGGCGAGGAGTTTGCATTTTATTCTTAGCCAGTGAGAAATAGAAGGTGTATTAATTTGCTAGGACTGCTGCCACA
ACAAAGTACCATAGACCCTGTGGCTTAAAAAACAGAAATGTATTGCCTCACAATTCTGGAGGCTGGAAGTCCAAGATCAAGAGGTCGACACAGTTGGTTC
CCTCYGAGGCTTCTCTCTCTGGCTTGTAGATGGCTGCCTTCTTCTCCCTGTGTCCTCACATGTGTTCCCATGGTACATATCTGTGTCCAAACTTCTAATC
AGGACACCAGTCATACTGGATTAAGGCCCAACCCAATGACCTCATTTTGACTTAACTGACTTTTTAAAGACTCTACCTCCAAATAAGGTCACATCCTGAA
GTACTAGGGGTTCGGACTTCAACCTATGAATTTGGGTGGGGGGGCACACAATTCATTCTATAACAGGAGGAGATGACTTTTCAGATGGAGGGAGGAGAGA
GATGCTTGACAGTCAGAAAATATATGTAAAGAGATATCTGTTTACATTTATTTTCTGTGTATAGCATGGCTCCTTTAGTGAAAAGTAGACAGCTCTGAAT
ATGAAAGGTAGGTTTTCATTTCTGGGAAAGAGACGCCAAGTGATGTGGCCTGACATATACTCTAACTTCTCTGTGAGGAAAGGGTAAGAAAGGAAAGGGT
ACCACTTAGAAGACTACTGCAATAGTCTGAGCCAGGAAACATGGGGGCAAAGGCAGAGATGGGGACCCTGGAAACATCTGCAGGGCARTGGAGAGGCAGG
AGTCAAAGACATAACAGCCTACCCGCATCTAGCCTAGGAGAGTGTGGGTCTCAGCCCAGCCCCAAGTGCTGGCTCCCTGCCTGCCCCTCTYATTCTCCCT
RTGAGCAACAGGCAGTCGTGGGTTGAGGTGTCTTTACAATATCACATTGCAAAAAAGCCCAATGCAGTCTAGTGACTAGCCAAGATAAGCCTAATATCCA
GATAAAATCAGAGTTTGATTTAGAAAGAATACAAGGCCTGATGCTCTGGAGAACTCTGCCTCATTCAAGGAGGAGCTGTAGACTTGATGCCCTGAAATTT
TCATTCTGACCCAGGAAAAGATCAAAAAGCCTTCTGAAGCTGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGCAAATGGGAGATTCTAGC
AATGCGAGGGCAGAAATAGAGGCCAAGGGGCAGGCAGGGCTGCAGAGAAGGGCTACAGGACAAAGATGGGCTCAGAGGAAAAGCTTAGGATCCCAAATGG
GGCACAATTTTAAAATCATGAGCATGATCAGGCCAAAGCGAGTATCTCCCAAGGGCGAGGCTATCACCATAGAGGTGGCAGTGATCTGCTGCCCAAGGAG
TGGCGACAGAGGGGCTTCATGAGGAAAAAGCCCAGACCACACCAAGGTGAGGCTGTGGGCTTCTGAAACCAGGAGGGAGAAGTGAGAAGGGGCCCACAGC
CTAGGCCATTCCTCTAGTGCTACCACATGCTGTGGTCACCAAATTCTGACATTCTTGGTGAAAATTCTTCATTTGTGTATAAGGAAAAAGAGTTCATGCC
AGTGACAAAACAGGGTGTTAAGCCATTGAAATATTGGAGTTTGTTACAGCAGCTAGCAATACTTTTATGCAGGCTTGCTCATTTTTTGCATAGTATCTTG
TGTAGTCATTCACTTACTCTTCACTTACTCTTTCATTCATTTGTTCATGCCACACTGAGCTGCATGTCAGAGTCTGTGCTAGGTGTTGAGGAAACAAATA
TAAAGAAGAATAAGACATTCCCATGGCCCCTGTCCTCAGGGGGTTGAGAGTTTATTGAGAACAGCGTTAAACAGCAAAGCATGATTGATTACTCCAGAAG
AGATATAGCATGTGATGGAAATAAGAAGGGCTCCTAGCTCAGCCTATGGGAAAGGGCAGGTGAGAACCAGCACTTTCTAGGAAGAAAGCACAGAGTGGGC
CASCTCAGGGAGGGAGGACACAGTGTGTAAATCTGCAGCACTCACAGGGTACCAAGGAAGGGTGTGGGGTGGAAATAGACCTCTCTTCTGACTCAACAGT
CTCTCCATAATTGCTGGCTTTCTTATTTGTCCCTGCTGGTGGATGGGCAACTCTAGGATGGAAACCTCTTTTCTCCCAAGTCCCAGGGTCTGTATTGTAT
CTGGCATTCTCTCTCCTCAGATGTCTCATAGGAGCCCCACCCCACCCCTTCCACCACAGCCTGCTCAGACCTGGGCTTATCCACTTCTAGTTCTCCACCC
CAGCCTGCCTCTCTGCTCAGCTCCCCAATTCAGGGAACAGTTTCCACATCCACCCAGATCCTGAGCCAGAAACCTATTTATCCTGGACTCCCATCTTGCC
CAGTCCCCACATCAAGCCATCACTGAGCCCTCCAGATTCTGCCTCCTAGACACCTCCCAGATTCTAACCAGAGTCCACAATGGCTATGTTTCAGGTTACT
TACAACAACTGAGTAACAAGTGCCCATCTCTGCTCTTGCCCTATTCAATGCATCTTCCTCTCTGCCACCAGCTATCTTTTTAAAACACTCACCTGATTTC
ACAGCTCCTCTGTCTTCCCCGGACTTTCCCCTATGGCCTACAGAGTAAAATCCAAGCTCCCTGCTAGACCCTCCCTACAAGAGCCCCCATCATCTGTCCC
TGCCAGCCCCTCTAGCCTCAGATCTCCCTATTCCCAAATCCCTCAGCTCTAAGCCATTCTGACACCCTTGCACTCTTGCAATGAGCCATGCTTTCTCTCC
CCTTTCCCCTGGATCCTTCTGTGTTTTGTTCTCTCTGCCTAGAAAGCTTCCCTTCTCCTTCTGTGACTAGCCTTCTCCTATTTGCCCTTCAAAATTCAGT
CCAGGTGACAGTTCTTACAAGCAGTATTTGTCAGTGCCATTCAGAGTGCCTGGTACATGGTGAACATTCAGGGAATTTTTGCTGGATGAATGGATAAACA
GATGGATGGATGGATGGATDAATGGATGGTTAAGTAGGTGCTCAGTAMTGTTTGTGGAATGGACCCAAAGGTATCTCTTCTAGACTTCATTATTTGAGTT
CCTTAAAGAAATGCCTCCACTGAGTTATGATTTAATGTTATGCTGTCTTCAGAGAACCCTGATGCGAGAAACTGACGAACCTAACAGCATCTCTGTCTTT
TATGAAAACAGAATTGCATATATTGCCCACTATGTCACTCAGTGTCCTTTATACAAGGACTCATGATAAATTCATGCTTGGGGTTATTTCCTGGAAACAT
TTTGTCTCTGCAGATGAAGATGTGTATTTTCTGCTGTCAGAAAACAAAAACTCTGCCACCCGACGTGTTTCCATTTTTGCTTTAGCTGACAAATAAGGAT
ACCCAGTTTTATTGCCTTATTACCTCCATGAGGCCTGACCAGTTCGGGTGCTGGAAAGTAGCAACTGTTTCTGTTTTCCTTAGAGTCAGTTCTTCCTTTA
TTCTTTGATGCTGTAGTTTGTACTTTTTAATCTGAAAGCTGCCTCAAATCATCTCAGCAGTAAGGTAGAAGAAGTCTTAAGTGAATGCATTTTAGTGACC
AATGTCCCGGCATGGAAGCTATGGAAGGAAGGGCAAAATATAAAGCTTCTAGCTGAAGGGTTTCCCATAAAGGGCCTCGCCAGGAATCCTTGGCATACCT
ATCACTACTGGGGTCTGGCAGAAAAACCAAAGCAGGAGGAAAGCCAGCTGAATTCTGACTTTGTTKCTACCTCACTGGACCACTACTGCYACCACCATAT
TCTTTTATTCTGTCATCTAGGACCTTCCTTTTCCCTAACTTTAAGTGGAGATCTCATAGGCTGCCATTTTTACATTGCTAGGCTCTCAATAACAATAGCT
AGTGATAATCATAATTACACATTTCTTTTTATTGAGAGTTTACCATAAGCCAGGCACTGTGTTGAGAAGTTCACGTGCATTTCCATATTTAAACCTTCTT
CCTACCCCAAACCTATTGTTTTTACAACTTTGCAGATGAAGAAATGTCAGAGAAGTTAAGTATATACAAAGCCACCTTTATCAAGTAGTAGAGTAGGAAT
TCCAATTCAAGTGTGTCAGCTGCCACCACCCGAGCTCTTAACTGCCTCCTCTCATGTGGGCAAGGAACAAGGCAATAGTAAGGGAAAAACCCCCAAGAAA
TGGCAGAGATCACCGATGGTGTTGCCAGGAGAGAGAAGCCACAGAGTCACAGCTTTGCTTGCAGAATATTCAAGGTTCCTTTTCAAAGTCCTAGAAATGG
CTGGCTGCTCTGCAGCCCTGTCCTGTTGCTGAGACAACATGAGGGGGAGGCCCATTCCCATGAAACATGGCTGCAACCTCCTCTTCCTTTAGCTGTGATG
GTTAATTCCCCAAGATATTTGCCTGGGATACTCCTATGCATGGATCCTGCCTCTGGGCAGTTTGACCCATTGAGCATTATTCGCATGGGAATGGGGGTCC
CTCTGGGTTTTAGGGACCTACAAAAGCGTTTGAGTCCTAAATATTTTATGATTAGTCCCACAATACAAAGAAGAAAACTGCCACATGGAAATCAGTAAAT
ATTTAATTAAATGCAGAGTATAACATTATGTCAACTTCATTAACTGTTGGATTTAGTAGTCATAAAAATTTCATTGCATTTGGTAACAATTTGTAGGTTG
GAGTTTTCTCACTGCACAAGATTTCTCGAGTAGGCACTAAGATTGGTGAGAAATCACAGCCCATCACAAATTAAATAAATTACTCATGGCCAAAAACTTT
CAAAAGCAAAATGGCAAAAATCCTTTCAATTTTCCTCTATAGCCAAAAAGTTATTTTTATGGTGAGAGGTGGGTGTGTTTAAAATATGTTAGATGAGGAA
CCTAAAAGGACCTACAAGAGTAAGCAGCCTTAGGGGCTATATGATGATTGTAAAAGAGCCTAGGCCATTCCCACGTTTCTGAGTTTTCCAGCCTAGCCAT
GTTTGTGTCAGAGATGAAAGCCAGATGAGAAGAGGCTTTGACTGGATGGGAGGTAAGGAGAATTGCCTCCTCCTTAGGCCTTCCTGGTTCCACAGAGAAA
AGCTAAGAATCCCAGAATTCTAAATAATGATAGCCAACATTCACTGGATACATACATTAGCCAAGCTATTATAAGCACTTTACATGTATTATTTCATTAT
CGTAAAACAAGTCTATGAGGTCAGTATTTTATTGTCTCTGTTTCATAGATGAGCAAATGGAGACATTGAGGTTAAACCAACCTGCCCAGGGTAATGTAAG
TAGTCAGGGGGAATTCAAGAAGTTTTCCAAGCTAAAAATAATTTACAGATTAAATGGTGTCCATGACCATTAAATGCTTCACTTTAAACTCTAAAAAAGA
CAGAGACCAAACTCCTCTTCTTCACTACTCTATCTTCAGCACCTCAAACAGTGCTGGGCATAGATACATGTGTTGGAGGAACATAACTCCATGTTGGATG
GAAACTGGAATAAGTCAGTTTATATCACACTGCTCTGCACCAGGCACTTATGGAATGCTTTGCCCCGCCTCTGTCACTAGGTGATTCTGTCTAGGGTAGA
CATCTTTTTCATCATCTCTAATCCCTGTGTCTTTCACAATTTTGACCCATGATGGATGCTCAAAAATGAACAAAGCCTGGAAAGGCGTAAGTGATTATGT
GAATTCGTTTCTCCATCACAGAACAACTTCCCCAGTACAACACAATTCTCCCTCTCTACACAAAACACAAAAGCTGCTATTCAGAAACTCCAAAGGCATG
CATTTCAGTGTAATCAACAAGCAAACAACTGTATAACACGTTTATCTGYCAGTTGTTGTTCAAGGGACTTTCCATGTGTTAAGCAATTGGTTAGTAATAG
AACATCTGTAGTAATTCTACAAAGCAAGTATTCTTCATTATCATCCCATTTTACAGACTAAGAAATCAAATGTTGTGGGCTGAATTATATGCTGCAATCC
TAAACCAAATACCTCAGATGTGACTGTATTTGGAGATGAGTCCTTTAAAGAGGTAGCTAAGATTAAAAAAAAGAAAAAAGCCATTAGGGTGTGTCCTAAT
CTAATATGACTGGTGTCCTTTAAAGGAGTGATTARGACAGGGACACATATACAGGGAAGACCATGTGAGGACATAGGGAGAACACAGCCAAGTGCAAGCC
AGCGAGAGAGACTTCAGAGTGAAACTAACAATGCCAACATCTTGGTCTTGGCCTTCTAACCTCTAGAATGGCAAGGAAATAAAATTCTGTTGTTTAAGCC
ACACAGTCTGTGGACTTCGTTATGGTAGCCCTACCAAACTAATACACCAAGGCACAGAGTAACTTGCCTAAGCTTACATTGCCAGAAAACGTGAACTCAG
AATCTGAACCCAGGGACTCTGGTTCCCGAGAATATGTATTTAATGATAAGAAATGTTCTCTGTGCTGTCCAATATGGTAGCCACTAGCCATATGTGGCTA
CTGAGCACATAATATGTGGCTAATGCAAATGAGGAGCTGAATTTTTCATTTAATTTATATAAAAATAAAGTTAAAATTAAAACAACCCCATGTGGCTAGT
GGCTACCATATGGACATAGCTTTATACTATTTCTAAGTACATCACTTAAGATTTTTGCAGAATTTTCTAGAAATCTCGTCTGTGCACTCTAAAAACATGC
TCTATCTTTGTTCCGTATCCCTGCTGTATTTGATTTTWTTTTWTTTTTTTTGCAGTCCTTTCTGATTTAGCCCCCGTTGCCTGGTCTCCTGCTGAGGGGG
AGAGGGAACAGGAAGAGTGAGTGAGCTGGCTAACTTCCAGAATCCTGGGGCCTGGGCAGTGCAGGGTCGTTGGCGTTCTGCTCTAAGCTTAAGGTGTTAG
CCAACCAAATGCCAAGCAGCACAAACACTGAGTGACATTTTCAGAACTATTAATATTTCATCAGAAATGATCACTTTTCCTTTAAATACACTATTTTAAA
AGGTTTTCTACATTCTTAACTATAATTTTATTCAGTCTAGGCCCTCAGAATTTTCCCCAAAGGAACACATCTTCAATTTTGTAATGAAAATCAAAGGAGA
ATGAAGCTCAGATTTCAAAATTTAGAGTAAACATTTCCAGGAACTCAGCCCCTCTGTAAAGAGCAAGGTTGCGTATTGGGCACCTACTGTATACCAGGCA
CTTTACATACAGTATACCATTAATTCATCCAACACATATTTTTTGAGTGCCTACTATGTGCCAGAAACATGATCCTCATAATTTATTAACACCATTTTAC
AGAAAAGGAATTCCTCTCATCCTTCTCAAATTTTTCTCCTCAAAGAAGTCGGCCTGGACCACCATGGAATATTGCCTCCCCTCTTCTCCCCAGTGCCTCA
CTTTGTTACTAGGTTGGGCACCAACCTAATAGTTATTTTCCATCAGAGTCCCATTGCATCTGTAATTATTGCTGCTTTACTCGCTTGGCTGGTTTGCATC
GATCTCTCCTCGCTAGTATACAGGCTCCAGGAGAGCAGGGACCATGCCATTTTTGCCCACCCTTATGCTTCTTCAGTGCCCAGCAACTCATCGGGCACAG
AGGAGGGGTTGCATCAGTAMTGGGGGAATTATGAATGGGGATGGGAGAAGTTCAGAAAGTTCTTAAGGTCACACAGCTCGGAAATGAGTGTCAGGATTCA
ACCCAGCCCTGCATTTATAGACTGCCATCTTCCTCTATTTGTGTCCATTCTTCTTTCTTCCGTCTCCACCCTCTTGCTTTTCCTTTTCAGGGGAATTGCT
AGAGAAGCAACCCCCTGACTCTCGGAACCAGAAAGTCTCCCTCAGCAGAGGTACTGTGTCAGTGCCCAATTGAATGAAGCCGCTTCAGTGAGGGTAGGGG
CCTGTTGATCAGCAAACAGCTAACTTAGCCCTTCTCCCTGCACCTCGGACCTCCTACTCCTGCTCCTACCCACCTACTGAAGCTGTCTCAGTGGTCAAGG
GCTAGATCAGGCCTAGAGTGCTGGGGTCTGAGTCTCAGCTTCCCTTTTCTCAGGGGGCCTTGGACGCAATCCCTTATGACTTTGAGATTSGCTTTCCTCC
CGTGTAGAACGATAATAAAAAGTGGTACTAATTTCACGAGCTTTAATAGGATTGAATGTGAGCCCAGCGCTTGGCACAGGGCAAGCGCCCCATAAAATGG
CAGTTAGGATTAAAATCGAGGTTGCCGGGGGACCCCCAGGCAGGAGCTGAGATTTGTGTGGAGCGGCGAAGTGGGGCGGCGGCGCGTTTGGCTTTGACTT
CTGATCCCCCGAAGCGCTCTGGGGTCCTTTGGGCCCCACCCCCACCCACCCCACCGGCGGGTCTTGGGCTCCGAACCCAGGGCGCCCCGCGCACCGAGCC
GTTGCGTTTGAAACCCACAGAAAGAATTCCCCCGCTCGACGACGGCGAGGGTGTGGGAGCTACTGGCAGGCAAATTGGTGGGAGCCGCCCGGCCCAGCCT
GCCTTGCCGAGTCAGCGCGCTCTTGAGCCGCTGGGCCCTTCCCGGTGCCCGCCTGGCAGCGCGGCGCGRCTGGGGCAGGGGTCTGCTGGGGGCCGGGGAC
TAAGGGCTGTGGGCCCATCCACACACGCCTCATCCCTTCTTTCCGKGGGCAGCAGAGCAGCAGCGGGAGACCGGGAGCAGGAGGGGTAGGGCGAGAGAAA
AGCAGGACCTGGGCCGGGGGTGGGAGTCGGGCCGTTGACGCTCGCTCTGCGAGGGGCTCCCTGGGAACGCCCAGGCGAGCGCCTCCTGCGGGGCCCCGCC
CCCCGAGTGCCTACAATGGTGCCAGGCCCGCACCCAGTCCTCCGCGTGGCTTAGCGGGACAGCATGGGCTGAGCCCAGGCGCCGAAAGTTGTCACGGCGG
CGTCGCAAGGGGGCAGTGCCAGGGACTGTGGGGAGAGCCAGCCCTCCCCTTCCAGCTGTTCCCAGATGTCATTCTGSCCGCCCAGGCGCCTGGTTCCTGA
GCTCCGCAGCATTCCACTGTTCCTAAGCTACTGGTTTTTGTTGACTTTTAAATATTTTCTTCTAAGGGAGAGGGGGAGGGAGGCAAAAGTCAGGAAAGAG
CAAATAAAAACAAATCAAAATAAGCCCTCCCCTCCCCAAAAGAAAGCTGTCCTCCACCCACCCCTCCCACACAAATAGAAGGCCTCTGAACCTAACCACC
TTGCTGGAGCGAAAGCCAGACAGAACTGACCCACTTCTGCCAAGCCCCATCCTCATCTCCCTTTCTGGTGAATGAGGGGTGGTGGTGGTTGTGTTCTAGC
CCTGGGTGGACAGAGGGGCTTCCAGAAAGAGAGGAGGAGGATGGCCAGCGGGAATGGGCTTCCTTCATCCTCGGCCCTGGTGGCCAAGGGCCCCTGCGCC
CTGGGCCCATTCCCCAGATACATCTGGATCCACCAGGACACACCCCAAGACAGCCTAGACAAGACTTGCCATGAAATCTGGAAGAGAGTTCAAGGCCTGC
CTGAGGCCTCACAGCCCTGGACCTCCATGGAGCAGCTCTCTGTCCCTGTGGTTGGAACTCTAAGAGGCAATGAGCTCAGCTTTCAAGAAGAGTAAGTACC
CCCCTACTCCATTGGCAGCAAGGGAGGAGGGAGGAGATGAAGTCTGACCTTCTGGGGGAATGTTCTGGCCCACTGTTGAGGCTGGTGAAACCCTAAAGGC
TGTATATTGCCCCCTCCRTGGTCCTTTGTCCAAGCTTTATAGAAGAGCTGACCAAAGTTCTGAAGTTTTGTGGGTGAAGAGTCAGATTAGGGCTATATTC
CAGGCTGCCTCTTCACCAGCCCGTTAAGCAGACATTTCTCATCCTAAACGCATGTGAATCTGAGGTCCTTGAAAAACCACCCTAGCTAAGGCTAAGGGTT
ATATGGCTTGTGGCTTTCCCCAGAAGCAACTAGAAGATCCTTCCCCTCTCCCACCTAAAGGCTAGGCATTCACATGGATGAGTCTGATGGTTTTAAATCA
CATCTGGAATTCCCTAATACAGGGAGCAGCTGTCCCATTCAGCCTCCACAGAAGCTGCTGCAAGAGCACACATCAAAATATTTACTGGGAAGGCACTGAC
ATATTCAGAGGACATAATAGAAAATTAAAGTGCGGGAAGATGGCTGTAAATAGCCCGTTTCCGGGATGGGAAATCCTGTGTCTGGGAAACACAGAGCTAA
GTGTTTCTCCATCAGGGCAAAGTTGGGCAGATATTGTTGAGGATGGATATTCGAAAGGAAAGGAAGGAGCAGAGAGGAAAAAGGGAAATTAGGAAAAGAA
AGTAAATCTGCTGTGGTTATTAATACCGCCGTTGAGCACTTACTTATTTCACGTTTTGCATCTTCAAAGTGGACTGTAAACTTAATTAATGTTCCCAGAG
TCCCTGTGAGGCAGGTATTAGTGTCCCCATTTTACAGATGGATTAAGTGTTAATAATTAAGAGCTAATTAAAGACTAACCGATAATTAAGTGTTGCCTGC
TCCAACACATGCTACAGCTCAGTTCAGAGATGCTCTGGAGTTGGGGAGCCATTCAGGCATTTATCAGCTGCCTCGGGTTTCAGGGATGCCTAAGCAAGAG
CTAAGAAGAAAAGCAAAGTGTAAATGACACCCAGCTCTACACTACCTGCTGTCCCTCTGTGGGCTCATTTACTTACTGCAGATGAAGGTGGAAGGCACTT
TGGCTAGTCCTGCCTCCCTGCCCTGTGCTCAGCATGACAAGGCTCAGACAGGAATGGCCCATCTACAGCTAAAATCCTGCTGTCAGGCCCTTCAGTGGCA
CTGAGCCCTTCTCCCCTGCTCATTGCCATCTGCTCTGGGACAGGGCCTTGGCAGGAGGGCCCATGGGGCTGTGCTCTGCTCTCAATGGCCAAGAAGCTGA
TTGTCCACTTTGTGGACCAAGGGTCAGTAGCAATTTCCAGTAGATGGCATCCTCTTTGCCAGGTCACACAGAGTTAATGGAGACAGACTYGACTTCCAGT
CTGCACTTGGCTGAAAATTGAACTGGTGCACCTTTGGCCAGCTGCTTAACTCCATTTGGCCTTTACTTCCTCATTTGCAAATTGAGGGTGATATGTGCTG
CCTTGTCTACCTCAGAGTTGATAATGAGGATCCAATGTGATGGGAGACAGGGAAATGAAAGATGCATTATACAAATCAGGCTGCTCTTAACATGTACTTC
TTCAGGTTGGGATTTGTTGTTGTTGTTGTTGTTTTTGTTGTTGTTGGCTTCAATCTGGGGTTCACACTATGCTCCATATACCTCAAGGTGCTTCAGGGGT
CACTGTGGAGTCAAGTGGGCTGGTTGCTGGGCCCCAAAATCCATTTCAGCCAGAGCTGTTTAGCTTTTATCAGTTTTACTTACTAGAGTTCTGAGTAGGG
CTGAATTTGAAAAACATGTTTCTGCTATTGAGAAAAGAGATAGGAAACCAATGACTTAGACGAATAAACGACATCCTAATTGTCAACCAAATAGAACACA
ATKAGCTATTCTTAAAATAAAGGCGGTGTGCTGGTGGAGTCAGATAACTCTGGTTTCAGATTCCATTTCAGCCCCATGCCATTTGAAGAATTTGTTACTC
TTTAATTTATCTAAACTTTGGTTTCCTCATCTGCCAAATGGAGATTAATACTATACATTTTGTAGGGTTGTTGGAATGATTAAATGGGATATTTAAACAT
TTATGGTAATAATTCAGATTTGTAAAAATTCCTTGCAATTCAGATGTGATCATTTCTTTAAGCTCTACAATTATTGCATGAGGTAGGTACTCTTTTAAAC
TTTCCATCTCTTTTTACTTTTTATTATGCAAATTTTCAAACACATAGAATAATAATATGGTGAATATCTATGTGTCTATCACTGAGTTTCAATAATTATC
ACATTGTGCCATTCTGGTTTCAATTGCTACCTCCACCCCTCCATTTATAAGTGAAATTACTTTTACAGATAACGTGGCTGAGGTTTGGAGGGGTTAATTT
CTTTGCCCAAGCTCCTACAGTTAGGAAGTAGTAGAGTTTCAGAAATGAAACCCAAGACCGCCTTGGCCCTGAGGCAATAATGTCGGCTGTCCTGTCTTAG
AATCTGGGGCATCTTTGAATAGTCAAAATAGTTGGGAGTCCCATATACTGAATGATCACACACAGAGTGAAAAGCCAGGGAGCTGTTCTTACTATTTCTA
GAATGCCTTCAGGTGCACAAGATATCTCTCAGCTGGTCTTTCTGCTGCTTAATTTGTAGACCTGGTTTTGGTGGTGTTTTCTTGTATTGTGGTAGATAGG
TAAGTGCATTCTACAATTCTTTTTGGCCAGAATTTGTTTTTCTTGACTCTGCACCTATTTATCATAGGAACCTAGACATTTCAAATTTGAAAGAGATTTT
TGAAGCCATCTTCCGCTGCTCGAATCCCCTCCTTACTGTCCCTGCCAAGTGGTGCACTTGTACCACTTGGTACAGTTTMTCAGATGGGGAGCTTACCACT
TCCCTTTGCTGCCCCTTCCCTTGCTATGAACCCCCTCAAAATACCTTTTGCTTTCTATCACTGAAATATGTCTCTATCAAACTAATTCCCATTGATCTGG
ATTCTGCCCTTAGTACTCCAAGCCAAATCTATGTCTTTTTTCTTTCGATACCCCTTTGGATAGTGAAAGACAGCAAGACAGCAACAATATTCCTCCCAGA
ATGTTTTTGTCTCTATAAGCTAACCACCTCTGGTTTTCTAAGTTTCTCCCCATGTGCCAATTTGGTTAGTTTCCTGTCCACACTGTTGGTCCTTGTGGCA
GTGTAACTTTGAAAGCCAAGTACAATAATCCAGGGGTGATCCAATCCATGCAGATTTGATCCTCCCTGTCTGCATTCTGTTTCCTGTTAATGACAACCAA
TACTACACTCACTTTTTTCCCCAAGTCGACTTTCACTCTGTGGACACATTTTCAATCTCTTAATTCATTCATTCAATTATTCATTCAACAGATATTTATT
AAACATCTACTATATGCTAGAACTGTGTGAGAAACTAGGGGGATGGAGCTGTGAACTCCATTAATCCCTGCCTTCCTAGAGCTCACATTCTAGTATAGGA
GAAAAAAGAAGCAAGTAAATACAAAAGCTATGATATCTTCAGAATGTGAAAAGAATGGTATTCCCAGTGGAGGAGACCCATAAGAAACACACAAAAATAA
ACAAGATAATTTCAGTGACAACTGTGATAATGGAAATAGAGCAGAGGGAAGTGATAGGAAGAGCTCCTTTAGTCTGGGTGTCAAGGAAGGCTTCTCTGAG
GAGATGTGATTATCTGGGCTGAGACCTGGGTTCTAAGAAGGAGCCAGTCAAGGGAAGTTCTGGAAAGAACATTTGGGCAAAATGGAGARCAAGGGCCAGG
CATGGTGGCTAAAGCCTGCAATCCCAACACTTTGGGAGGCTGAGGTGGGCAGAACGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATGGCAAGA
CCTCATCTCTACAAAAAATACAAAAATTAGCTGGGCATGGTGGCACACACCTGTAGTTCTAGCTACTCGGGAGGGTGAAGCGAAAGGAACACTTGAGCTC
AGGAAAGTCGAGGCTGCAATGAGCCAAGATTGCACTACTGCACTCCAGCCTGGGCGACAGAGTGAGACCCTGTCTCAAAACAAAACCAAAAGGAAAAGCA
AATGCAAAGACTGTGAGGTGGGAGTGAGCTTTGAGAGGGACAGCGAGACGGGAGAGTCAGGAGGGATGGGGACATGGCCATGGTATAAGTATAACAGAGA
CAGGCAGGCAAGGCCTCAGGAGGCCTGGAGGATCACTGCGGGGAGTTCAGATTTTATTCCACATGTTATGGAACACTTTTGCAGGTTTTTAGGAAGGGGT
GTGACATGAACAGATTCACTAATGTTYGAATCTCTGTCCAGCTTCTGTGTGGAGATGGTTTGTAAGTRTGTGGGAGAGGAAGTGGGAGGCCTCTGGGAAG
ATACTGTCAGAGTCCAGGGGAGGCCTAATGGTGGCAGTGGCTGGGTAGGAGTGACTGCAGTAGGGATGGAAAAAGTGGAGGATTCAACTGTGTGTTTTAA
GATGAGCCAATGGACCTACTCATGATTTGGGTACACAAACAGACACATTGAGGCTCATGCTCTGCTTCACGCACGAGTTCACTTGACAAACAAGGATGGG
GGCATGCATCACTATCAATGTGACTGGGGTGTTGAGACCGAACACTGGCAAACTCAAGRTGGGGAGTGTAGGGCCTCAGAGCAAAGGATTCCAACCTGTG
GCCCATGGGGTCTCTGAAGTAATTCCCCAAATGCTGAGAGCTGGGAGGATGTCTTTCCGGCAAAAGGGTGTAGAGAAGCTTTCCTCAGATTTTCAAAGAG
GTGTTGACCCCTCCAAGAGGAGAAAACACTAGCCAAGAGCATTAGACTCCAAAGATCTCCAGAGCTGGTTTCTAGTCTAAGACATCAGCCTGAGTTCCAT
GTCTGAGTCTTGTCTTTATCACTCCCATCACCAAGTTTCAAGCTTTCAAAATAATAATGATAATAAAAGAGGCTATGTATTCCAAGCTTGAGCCCCTGGT
TGGACGGTGTGCCATTTACAAAGGTGGGGAAGAAATGGGGAGCAATGGGTTTTGGGGGAGAAATCAATAGTTCTGTCTAGTGCTGATTTAACTCCAAAAT
CKGGTTCAGTTATCTTTTAGTTAGTCTTAAGTTTGGGCTTAGAGAATTGTGGCAAGCCACTTATTCAAGGATTACTTATTCATTCATTCCCCTAATCTCT
AAAACTTCAAAGCCTCAGAATGAGGTCTTTGGATTTGCTGTTGACTCCGTTGCCCTAACTACAGAATGACATTTGTTCATTTCTTCATTCATGAATTCAT
TCAACAAACACAATTGCCTTCGCAGTACCAGGCTGTATGATGGGTCCCAGGGACACAGAGATAAGCAGAACAGAAGCCTTTCCTCAAAGAGCTCCCAGTC
TAGTGGGTGRCATGAACACAGATACATCTGACAACAATGACATTCAACAAATATTGCCAGGTGCGGTGGCTTATGCCTATAATCCCAGCACTTTGGGAGG
CCGAGGTGGGTGGATCACTTGAGGTCAGGAGTTTTGAGATCAGCCTGGCTAACATGGTAAAACCCTGTCTCTACTAAAAATACAAAAATCAGCTGAGCGT
GGTGGCAGGTGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATTGATTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCATT
GCACTCCAGTCTGGGTAACAAGAGCAAAACTCCGTCTCAAAAAAAAAAAAAAATTAGTATGCACCTATTACTGAAATGTCTGAAAAAAATACAATGGTGG
AAAAGCTGGGGACAGTCTCTGACCTCCTTTATGAACTTTCAACATCTTGCAAAAGGCAGATCACAACACACTATAGTAAGTGTTCTGGTGATGAAGTGCC
AGTGCCATGGAAGCGCACTGAGGGGACACATGACTGAACATTGTACTTGACTACTGGACTGGGCTTGGTACTTAGGGAAGTCTTCCTCTGAGGGAAGCAA
TCTGAAGCAGCAACAGATGAGACCCCTGCACTGTGTGATGAAAGATGCGGGTGTAGTCCGCAGGTAGCAGGGATGTCATGATTAATAACTGCAAAGGTTT
CCATAGTTATGTCCCCCAGCTAGGTCTTGAGAAGAGAGAAAGAACAGCCTATGGAAAGAGCCCAGCAGCAGGCGCAGGGAAAGATGAGAAGTTACATGGG
AGTGAAGTGTAGCATGTGTTAGTGACCGGGAGAAGGTGGCTCGAGCTTGCTGGGTGTGGTTGGCTTCCCTGGATGCTTCCAGGCCCTCTGTCAGCACCCA
AGACTTTCCCATTTACCTGTCATAACAAACTTGGTCTGCAGAGTGGAAAGGCTTTGGTGAGCATTATTCCAAGCCAGACTCAGGTAGGGAGATAAATCTA
CTGAAATAAAAGAAATCTGTTTAAGCATTTTTTGAAAAACAGAAGTGGTTTATTGATTGGCAGCTTTCTGAGGCTATTTGTTGCAAGAAGGAAGAAGGCT
TTTTTGCACTTATTTTGGTAAACTTTCACTGTTGGCTTCCATTGGCCAGTTCTCCACACTGGTGAGCAAGTGATATTTGGGAATCCACTCGGCTTCCTTG
CTTGAATGGCTCTCCCAACAAACATCTCTTTGTGCTACTGTTATTTAAACAATTAGGTGAACCCGACTTCTCTGGAAAAGTTGCTTGGAATACATAGCCT
CTTTTGTTTTTTTTGGTTTTTTTTTTAGCATTATTCTTTAAAAAGCTTGAAACCTGGTGATGGGAGTGATAAAGACAAGACTCAGATACGGAAACTCAGG
CTGATGTCTCAGACTAGAAGCCAGCTCTGAAGATCTTTGGAGTCTAATCTCAACTAGTGTTTTCTCCTCTTGGAGGGGTCAATACCTCTTTGAAAATCTG
AGAAAAAGCTTCTGTGCAGCTTTTGTCTGAAACACATCCTCACATCTCTCAGTATTTGGGAATGATTTCAGAGACCCCGTGGGCCACAAGTTGGAACCCT
TTGCTCTGAGACCCAACCCTTAAGCAAGTGTCTCCCTCTCTCTTTATTTTACTTTATTTTTAAATTTATTTTTATTTTTTAGATGGAGTCTCGCTCTGTC
ACCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATT
ACAGGCATGCACCTCCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTAGTCAGTCTGGTCTCGGACTCCTGATCTCAGGTG
ATCCACCTGGCTTGGCCTCTCAAAGTGCTGGGATTATAGGCGTGAGCCCTTGCACCCAGCMTTTCCCTCTCTTGAGCTTCCCAATGCTGGGTCTCAGCAC
CCCAGTCCCATTGACACTGATGCACCCCTGTTCTTGTTTGTCAAGTGAGCTAGTGCTGGCAGACACTGGCTCTTCCCTCCTCCAGCCTGCCACACGTCCT
GGCAGTCCCCCTTCATGATGGCCTTTGGTGCCTTGCCTCCCTGCTCGTCTCTCCTCTGCCACCCTCACCACATCTCTTCTCACTGCATTGGGTGCCTTTC
CCTCCAGGATGCCCTCCACCCTTCACCAATTTCATCTTCTGAAGCAGGTCAACAGCACTGCTCAGACATCTCTCATGGCTCGCCTTGTCCTCTGGCCCCT
TGGGCCTGGTTTTCAGGGGTCTCTGTAGTGGCCCTGCCTCCATCTCTAGATGCACGTCTTGCTGGTCTCCTGCACATGCTCTRTAAACCAACAAGAGCTA
CCAGCAGGTGCATGTCACCTTGCCTTTGCTCATGTTATTCCACTACCAGGAATGCCCTTCTCCCATATCTCTGTCTATCTAAATCTTATCCATCCTTAAG
GACCTAGAATAAGTGTGTTGTCCTCTGAATTCTTTGTTGCTCACATCATTCAACATTTTTCTTTCTCTTTTTCCCACATTCCTCTTTTTAATTGAMATAA
ACAACTATGTCCCACCTCTTTCCTAAGTGTTTTAAGGTGGCCCAGATAACAAAAAATAAGGAGACAGGTGGATTAGAGTTCCAGCACACTTTCTAGCTGT
AAGCAAGTTCCCCAAACTTTCTGTGCCCTATTTTCCTCATCTGAAAAAATGGGAAAAGTCACAGCGACTATTTCAAGGGATTACTATGGAAGCAAATGAA
ATGATATATGTAGAGCTCACACAGCACTGGGAATAAGAGAAGGACTCGATGTTCATCATCATCATCACCATTCCACCATCATCATTGTCATTATCATGGA
TAAAATAACAGGACATGATTGATATGGGACAAGGAGATATATATGCCAGGAAACTTAGGCTGAAGGGAAACTGCTCAACTGATAACAGCATCTGGTTTGA
GATTCTTGGCAGCCAGGGCATAAAGGGAGATCATAGCATTCGGTTTTCATAACTCATATTGTCTTCTAAGAGAAAGCAGAAGGGGTCATCATAAGAGACA
AATGCTTCCCCAGCTCTGAGAGCTACATGGGATAGATCTTTTGAGGACGATAGAATGGAAGAATCTGTTTAAAATCAGCTCTCTTCTTGACCATTGGCCA
GAGGGAAGGACACAGCCCCTTAATCGGGGCTATCAGCCCAGTTCCAGTGTGGGATTCTGATGAGGTGGTGGGCACCTGGCACATATCGTGTGCTGCCTTG
TGGCAACAATTCCTCTTCCGCTACTGCACTATGGGCTTCTTAAGGGCAAGGTCTGTGTCTTACTCATCTTTGTCTCCCCAGTGCCCAGCTGAGTTCCTGG
CACTTGGTGGCTATGCAGTGGGTATGAATAAATAAGGAAGTGAATGGTGAATAAGCCATAAAACTGCCACCACCCAGAGGTAGCCAGGATCGAAGCAAGG
GGTCACGGTCATCAGAGGAAGCACAGAATATCAATAGCTCAAGACATTGCAGGTTTTTTCCTCCTTCTGTCTTAGGCTGCAGAAAACAGAACTAACATTT
TCTTGAGTACTTTATAGGTGCCAGGCTCTATATTTTCATTTTCTGCTTTATTTCACTATCTTAGCAACCCTTCCCAGTAAAAGGTCAATATTACTCCCAT
TTTATAGATGAGAAAGGTGAGGCTCAGAGAGGTTAAGCAAGTTGCCCAAGGTCATCCAGCTCAGAGGAAGCAGAGCACGGATAAGAGTTTGATGTGGCTT
CAAGGCTTGAGTTCTACCCGGAACCATGGGCCCTTCCGAATAGCCCTTCCACGTCTGCTTAGTACCAGGAGCCATGAGTGGTGAAGAAAGATGAATCATG
ATTAACGTCCCACTTCCCATGTCCCCMTTTGTAATTTAATTTTATGGTTTCGGGAGCTGTGTCGCAGGTTGTGGGAGCCTGCAGAGATGGGCCACCAGTG
GTTTGGTTTAATCCCCTTTTTAATATCTTTGTTGCAACGTTATTTCCAATTCAGCTCCCAAGTCACATTAAAAAAAAAAAACACCTCTTCCTTAGGGTAA
GCCTTCCCTTATTAAACAGATTCAAATGAAAAGTTTTAAAGACAATTTGAACAATAAGCATCACTCTGTAGCTCCCAGCTGAAGACTCTTTATTGCTGTA
TTTATTCCCTGGTATTTCCTGTCTCATTCCCCAGCTCACTGAATCCACCCAGTCCCCCCCCCGCCGCCCCCCACCACCCAACACTTCTAGTTCTTGCCCA
ACTCACCTGTTCCCTGGAGGGAGAATCAGGTGGAGGACATTGTGGGAAGCAGGGTATCTCACTTCCACCTGACAATATGCCATCTAAGGCTGTCTCACCT
GCCCTAATGAGCAGGAAATTATTGCAAAGCATCTAGAGGGACATTCTCACCTGGCTGGGTGTCTGCAAGTGCACCATTGCATCAAAACCAGGGTGAAGAA
ATGGGATGCGAGATTCTGGGGAAAACGGGGATGCCACAAGTGGAGAAAGAATAGCTGCTGAAAATGCAGACACCTGGGCCCCATTCTAGATCAGCTGAAT
TGCTATTTCTCCAAGGGTGCTGAGGAATCTGTATTTGAAACCAGCACTACAGGTGACTCATGCATGTGTGTGAAAGGTTCTCTGATACTTTGGAAGGGGG
YCAAAGATGACAAAACCTTAGGCTTAAAAGATAACTGTCTGGTACATCTTTGAGAAGGAGGTGTTTCAAAGAAAAGTGTGGAAGGAAGGAAGGAGATTGA
CCTTTATTGAGTTCTAAGTGTATGCCAGGGACAATTAAAAAAATTTGAATCTACTATGTGTGAAGACCTTTGGTAAGAAATTAGATGAACATAAAGTCCA
GGCTTGGCATTCAGGGAGCTGAGAGATTTCACGGTGTTGCCTTCTTTAAGTCTGAGTATCACCATCCCCACTTTGCAGATGAAGAGACCGAGGTCTCCGT
GATTCCCCTAATTGTATAGCTTTAGTAAACCAGGCTCATGGCTGTGAATCTGGGCCAGCAGGACTCCAAAGCCTGCAGCCAGGCTTGGCTCTCCCACACC
AGGCTGTCTCAGTCAGAGCTGCTAACATTTGCATAGCGCTCGTTACAATTTACCGAGTGCTTTCACATTCATCATCTCACTTAATCCTCACTGCGGCCCG
GAGGGTGGAGGAGGGCTGGGGGTGGGGAGGCCAAAGCTTTCTCCAGCCCTAAGCTTAGTCCCCTGMCTCCTATCAGGAAAGTCCCAGGAGACAGAGCTTA
AGGGTTTTCCAGGTACCTTTGGGACACGGGTTCACAAGCCCTGGTACCGCAACTGAATGAATCTGCAATTTCTCTCAATTGTCCCTTATCCCTAAGCTGA
AGGAAGTCAGCCTAGGCCCCCCAGATAGTGAGAGAGGTAGAATCCACCTTCCTTCCCTGTTTTCTTTCCTTCCTGCTGGTTTTCCAAGCAGGAAGGCTAC
GGTGGTTTGTGTGTTTGTGTGTGTATGTGCATGGGTGTGGTGTGTATGTGTACATGGGTGTGTGCATAGGTGTGCATGTGTATGCATGGATGTGTGTTCA
TGTGTGCAGGATGTGTGTGTATGGATGTGTGTGCATGGCTGTGTGTACATGTGTATGTATGTGTGTGCACATGGGTGTTTGTACATGGCTGTGGTATATT
TGTGTGCATGGCTGTGGTATGTGGGCATGGCTGTGGTACGTGTGTGCATGTGTGAATGTRTGTATGTGTGCATAGTGTGTGTGCATGACTGTGGTGTATG
GTGCATGGGTGTATATGTGCCCGAGTGTGTGTGTGTGTGGCGGGGGGTGGCTATGGTGTGTATGTGGGGAGAAGGTACCTGGGCAATTCAGTGAATCTTG
GATCTGGAGGAGAAGGAAGATGGAGGAAGACACAGGCAGCTTGGCAGAGGTGGCCACCTCCCTTGCTTCCACACTGGGCAGGGGCCACACTGGGTGCTGT
GACATGCACCAGAGAAATAGGTATCTGTCAGAGAACATGGGTCTCTGATCCCTATGCAGACAGGTAGACTCAGAAGTGCCCACCGGCCTTGGCCTGAGCC
AGGGTGGGCTCCACTGGGGAAGATGCTAGGTTGGACGCCAGAGCCACTGCTTACATGATAAGGGGCCTCTCCTAGCCTGGGGCCTTTGGTGACCTCCCTT
TCCACTCACTGCCACAGCTCCTGCAAGTCCCCATGCTGGACAGCTGCCTGTCCACTGGGTTCTGYCTTCTGCTGCCTCATCCTCCTGGCTCTTGGCTGGC
TCCTGGCCTCTGGCCCTGCCTGAAACTGAGGCTCAGAGAAGGGAAGYGAATTGTAGAAGGTCACCCGTCAGAAAGGACAGAGCTGGGTTTTGAATCCAGG
TCTCCTGACTGCAAAGCCCTTGCTCTTTCTCCTTCTTCCACTCTTAGGGGAAGTGGAGGACAGGGAGGGGGTAAGAGGGGAGATTTGGAAGTCACATGGG
CCTGGGGCCCAATTCCACCCCAACACTTATTCTCTAGGGTCAATTTGAGTACATCTTTTAACCTTCCTGAGCCTCAATTTCCTCTTTCTCARTTGGAAAG
GAAGATGCTCTGTATCCCTCATGGTTGTGGTGGGGACAAGTGCCACCTGTAAAACCCAGCACCTAGCAAACTCCTCAAAAATACTGGTTCAGGCCCCAGT
CCCCTCCTGTCACTCCTCTAGATTATCCTGGGAGAAATAACCCTCACCCATGGAAACCAGAGCCTGATAGCTCCCTGCCTAAATCTCTCCAGTGGTTTCC
CTGTGCCTTTAGAMCAAAATGCCTTAGCATCACCTCCAAGGCCTGGCAGATTCTGACTCCTACTTTACCTCTAACTTCTCCCCTCCRCCTCCATTCATGT
GCCCCATCCACTTGAACATTATTCCCAATGATGCACCAAGCTCTTTCCCTCCTCATGGTCTTYGCACATGCTGTTCCCTGTGTCTGACAAGGTCTTCCTT
GCATTCRTTACCTGGCTAAGTCCTTATTCTCCTTTAGGCCCCAGCTTAAAAGACAAAKGTGCAAAGAAGCCTCTTCTGCTCTCCTAACTTAGGTRTCCAT
CACTAGTATTCTCACACACAGCATTTCACTGTTGGTTTTTTAGAGCAACATAGCTAGTGGTTAAGAGAGAGGCATTGGAACRAGATTGCCTCAGATCACT
GGCTTTGTCCCTTAGTAAGTCTGTGACCACAGGAAAATTACTTAACTTCTCTGTCCCTTGGCTTCTTCATTTTGAAAATTGGGGTGACTGTACCTATCTG
TGACAGGAAGCTTTTGATATATAACAAACCACCCCAAAGCTTAGTGGCTGAAAACTGTGACTCATTTAGCTCTCATTTCTACAGTTTGGCAATTTGGGTT
GGGTTCAGCTGGGRGGTTCTTCCGCTGTGGGCTGGGCTTGGCTGAACTTGGCTCATGCTCACCCAAGCATCTGCACTTAGCTAGGTCTGGATTGGCTGAC
ACAACTTGGAGTTTTCCTCTGTGTGACATGTTACCCTGGGCTTGTTCACATGGAGGTTGCAAGTCCCAAGAGAAATAGGAAACTAAGCCCTAATTCCCAA
ACACTTTTCAAGYCTCCACGTCTTACAAATTAGGATGAGAGGGAACTACCAAAGAGTATGGATACAGGAGGTTGTGATAAAATGGGGGCCRTTACTATAA
TTAGTCTAACACACTACCCCACTGGGGCTGTTGGGGGGATTAAAATGAGAGTTTTGCTTGTAAAGTGCTTAGCACAGTGCCTGGCTTGTTAATTAGCACT
AAATAAATAATGARCCCTTCTTATTATTTTGTGAAAAGGACCTAAGGCTTTGACATATTAGGTAGCTTCCTTTAGGACAGCCCTCYCCCTGACCTCCCCC
ACCCCCATTAAACRGTGGGGATTTGAATCTAGTTTCCACCTCCCTCCAGGGACTGACCTCTTAACTARTATGCTGTGCTGCTCTACCCACATAGACACAT
AATGGCAGAAACTCACCCAAAGCCATGAGGTCAGTCTGCAGATGGACCACAATTCAAGCCCAGGTCTGTGCCTGACCCCAGAGCCCTCCACTTCACTCTA
AYCCGCCAGGTTGCCTTGGGTACTGTGTTTGTCATTGGTCTAAAATTTCATAGCTGGAAGAAAATATTTGTTTTGGTATCCTCCTCCAGCACTAACAATT
TTCTGCTTGCATTTTTCTGTTGTTTGGCTCAGATGAATAGCAGTTTTCATCTTTGCTCTGTGTTATCATGTACACAGAACTGCTGTTGGGGAGCTAACAG
CATGCTTGCTTAGTCATTATTCTGAGAAGGGGTGCCAACCAGTCAATAGCCTTTATTTTTGTATGACTCTGTATACCACAAATKCAGAAATAATGCACAG
CATCSGAGTATGGCGCTACTATTGGACAACTATCATTTCTGGAGATGGGCAAAGCAGAGGTGGCACCGCGTGGAGCTGGAGCYGCAGAACTGATTCTGAC
TTGCTTCTTTTGTCAGGAGCCCAGGAGCTGGGTTAACCTCCCTGAATGATTCGCTGTGATAGAGTCTGTGATAGATTAGGTGGTTTTTCCCAACCCCAAA
GAGAAAGCGAATAGCACRGGAGAGATGCCAGGACTGGCAAAACTTGGGGGAAAAAGGTAGATTACAGGAAATGGGGGTGAGCAGGCCTAACCGTGAACCC
AGCAAAGTGGTSGGGTGCCCACAAAATCTTTCTGTGAGCCCCAAGGTGATTACTCAAGGTCAATGCGGGTTCTGTGTGGGGTCTGCCATGGGACCGCCTT
GCAGAATTTGGGAGGTCTTAGGACTGGGTCAAGCAGGATGGTTAGTGCCATCTGATCGGCTCACAGGGATGCCAGGCCAGAGATGGGATGTGAGATGAAA
GGCCAGAAAATGGAACCAAAGYCAGACAGGTTGCAACCAGCTCTTAGAGGTCTTGGCATGGGTAAAGGCAAGTGAACTTGTTCAGTCCTTTATTCAACAC
ATCCCGACTGAGCTGGAGTTATGYGCCAAACACTGTTCTAGGTTTGGAGGCCTCTGTGGTGAACAAGATAAAGTCCCTGCCCTTGTGGAGTAAGGACACA
AAAAGGATAYTATTAAATTAGGTGATGGTACAAACGCTGTGAAGAAAATAAACAGATTGACAGAGGAAGGTKGGGGAGGGACACTTTTAAAAATAGGCAK
GAAAGGCTACTTTGAGACTGTGACACTGGAACCGAGGCCTGARTGATGAGGAGGAGCCAGTCAAGGGACACTGRGGGGTTGCAGGGAGAAGCATTCCATA
GGAAGTGCAAAGGCCCTCGGGCTGGAATGAACTTAGCATTTCAAGGGGTAGMTAAAAGCCCAACATGACTGGAAGAGGGAGGAGATGGGGCCAATTTGTG
TAGGGCATCATAAAGGAGTTTGGATTTTATCCTGTGTGTAGTGAGAATCCACAGGAGGATTTTCAGCAGGGGAATGGTTTGATCTGAGTTCTGAGAATGT
CCTAGCTCTGCAGGCACGTAGTTTTCTAGAATAAATAAGAACAAGCAGATCTTGTTTTCTTGAAGTGGAGGGGCGTGGTGGAAGGAGACCCTGAATCAGG
GACTTTTAACTATATGGCGAATCTCGATGGCAGCGAAGTGTTTGATAAAGGCTCTTGGGAGGGAATGGAGATGTGATGACAGTGATGGGGWTGATTTATT
CCCCCAAAATGTTGATCCAGGATTACTGTCAGRCTGGGAGGAGAGTCTCCGGTAGTGTCCCTGAGGCTCTGCCCCAGACTCTCTCCTGTTCAACATTTCT
ATTTGTAAATTGGCGGAAGACTCAGAAGATGTGCTCATCAGACATGCAGCTGACATGGAGCTGTCAGGGACAGCTAATGCCACGGATGACAGGCTCAAGA
TTCACTGTGATGATCCTCCACAGGCTGGAGTGATGGGACGAAACCAGCAATATTCCTGAGTGCATTCAGATTGGGGAACAACGCCTGGCCAGGGATCAGG
GAGACCTTGCTGGATAACAATCTCCTGAAAGGAARCCCAGGCTGGGGGTGGGGAGGAATTAGTGGAGGCAGCTGGACCCAGCCAAGTCCCTACATCAGCT
TCTTCCCTCTGTGGCAAGGCCCTTAGCCTTTCAGGGTCATTCTTCCCATATGTAAAGTGGGGATGATCCAGGCTACTGCCCAGGCATATGGGTAGGATTA
AATATGAACACATATATGGATGACTGGCTTCCTGTGTGGCCCATAGTAGGCTCACGGCAAATGCAAGGGAAATATTAATTGTAGAGGCTGGCAAGAGAAG
AATGGATATCCTGCGGCAACCTTTCAAGGGCACGTAGCAGGGCTCACAGCYGGGGCGGGCCCMTATGTTCTTGACACACCAATGCCAGCTTTCTAAGAGC
CTCATTGATTCCTGTGGTATGTAGAGGAGAATGGCCTGGAGGGGTTGGTTCTGGAGGCCATATCCCCTGAAACCCACCGTGAGTTCARAATGGAGACAAG
GAGGTGGTTGCAGCTGGGGGGGACATGAGTGTTTCCTTAAACACCACAAAGGCTGCAGTGTGGGAATGAATGGGGAAGATGCTTTCTTCATTGTTCTGGA
TGCCTGTGAGGAAAAGTTGTGCAGAGGCACATATGGGTGCATCGTAACTAAGATCTAAACATTGATAATTACATTATAATAATTATGCTGTGAGCATTTC
TCGAGGGCCCACTATGCACCCAGCTTGTGCTAAGTGTTTTGTACAACTTATAGAATGCTCACAGTCTGACCTTGACAGATGAGGAATACAAGGTGTAGAA
GGCAGCTCTTGAGAGGCAGAGCAGGGATTCACACTCAGCCCCTGGTAGTTCCTGTCTGCTAGCCYGGCTTCAGGTTGGGGAGGGCAGGAGTGACCTCCCA
GGTGCTGAGAAGGGACCATCATGGGGTGATTTTTGGTACAGGGATCTCAGGGCCCTGTGGGGCTTCTAGAAGCTACTTTGAGTATGTGCGTGTAATATTT
GTATAAAATAAAGCAGAAAGCAAATACAGACAAATAGAATGACTAGTRTGTGATGACCCTATGTAACCATTACCTGGCTTTAGCAATGATTAACATATGG
CCAATCTTGTTTCATCTATTACTCCCTCTCTCTTCTTTTCCCTCCTCCTGCTGGATTAATTTTAAAGGCATTCCCCRGCATAATTTTCTCTGTAAATAGT
ATGTATCGCTAAGAGATAAGGACTCTTTGTTGTTGTTAGGCATAACCACAATACCATTATCACAATTTTTAAAAATTGACCTAATTGTACTGTGTCTTTC
TAATTCAGTGAAGCTATTGGTGTATGGCTTGCTTTGCAAAGTATTTGGGGAGGGGAGGCAAAAACTAGTCTGACTCCTGTGACTTGAGACTCACCTGTTC
CTTTTGAGGTGGATGAAGAGGAAGAAGAGGAGGGGGATCTAAAACTTGAGACCGCAGATTGGCAGCCCCTTTATTCTGATTGTTCTCAGGGGACTCAGCC
GGGAAAGTGAGGCCTATTTATAGGCCTAAGTCTAGACATGGGAAGGAGGCAAAGGAAGGGAATAGGTGACAAGTCAGGGAAAGGGGACAGAAGAGAGAGT
GGAGGGAAAGAGAAAATAACAGCAAGTGATCTTGCTGCACACATAGCTCCAGTGGCCCTTCAGGAGCTGGCCGGGACCAGCCCACACTAGCTAATGCTCA
CAGCTGACACTGACTGAATGTTTCCTGTGCACAGGGCACTGTGCTGAGCTCACGTACCAGTGACCTCGCCCAATGCTCCCAACCATCCCATGAGGCAGGT
GATGTTAGGTGTCACACCCATTTTACAGGGGAGGACACTGAGGTTCCAGGGTCCGACATGAAAAGAGCAGTGGTGCCTGGATTCAAACCCAGGTCTGTTT
GTCTGGAGTCTGCTTTTTGCAGGCTTTACTCTCTGCCTCCAAGCCTGGTGATGTTCCATGTGGGGGTAGAGAGGCTCATGTTCAAGAAGTACGGCTGTCT
TGGCTGCTGGACTATTGGTACATTCCCATGTCTTTAGTACATAGCTCTTCCCCAGGGTCCCCAAGCACCCTGGGCTACCAAGTCTTTGCCTCAGGACTCA
TCAGGACCCAGCAACTAAAGGTTTCCTGTCTGGCACAATAGGAAGCCTCTAAGACTGTAGACTGTGTCCATTCTGATTGACTGTTAAATGCAGTGACTAC
TCCCCTGGGTCTGTGTATGGTGACATGTGAATTGTGTGCCTGCCTGTTTCTGTTCGTGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGTTTGTACA
CAATAAGCATTACCAGGAAGGCATGGACCCTGCTGGAAGCATTCCATGGTCACCGTTTTGGAGACTCATCATGCCCTCTGAGAGGCTGGCCAGAGCTGGA
ACCTGTGCTGGACCTCCAGACTGCAAAGCCTAAGCCACAGCAGCTGAGCTCCCCTATGGGACTCCTTGATTTTTTCCCTTGGGTCTTCATCATCTTCTCC
TTCAGCGCTCCCATGATAGAAGGCTGAGTASTTTCCAGAATGCTTGGTGTGGGCCACCTCATCCACTTCTCATAGGAGCCCCTTGAGTAGGCACAGCAGA
TGGTTCTAGGCTGGTGGCTCTTGTCCTCCTGGGTGCCTGCTTGCCAAGAGTGCTGGTGAGGTGGGCGGGGCCACCAGCCAGGCCAGTAGGATTGCAATCC
TCTCTACACCTGGAGAGAAGTGGCAACGAGGAGCCTAAAAGCCAGGAGACCATCAGGTGCTATCAGACAGGTGCAGACCAGCAAGKGTGCAGCGGAGGAC
CCAGGGTCCAAGGGGCAGGTTGAGGCCATTATTTAGGTTCAGGAAGATCCTGGTGAATCAGTGCAGGGATCAGTGCAGRGATCTCCCCACTGCTGGTGCT
GTACATGAAGGGAGGCCCAGTCCAGAGGCTGTGATCGGGTCAGAGGCCATGCCAGAGTGAACATGAGTATCCAAGAGGCTACCGTATGAGATCCAGGGGC
GGGGACCAACTAAGGCTGACAGTGGTGTAAACATGAGAGCTGACCTTTGAATCGCCCTTACTCTATGCCAGACACCATTCAAAGTGCTTTGCACCTCTAT
GATACTCCTAGTAATGAGAGGAGGAGACAGAATACCAAGATGCTGAACAACCTGCCCAGGGTCACACCGATGGGAGTTGACTGGRTCAGGGTGTAAGCTT
AGGCTGTCCACTCCACCATTCTGCAGTGAGGTGATGGGGGCTGCGCTACTCTCCTGGGGGCTTCCCAGGGCTCAGCCCCAGCACCCTAGACTCTGCACTT
AGAGCTGTTGGCTTGCTCCTGACCCCTTTGCTGCTGGGCAAAATTCCCCAGTGAACCCCTTCTCTGGTCTTTCATTGCTTCAGGTTCTGAGCATGAAGAA
CAAGGAGGAATGGACTAGAATTAAGGCTCAGTGAGGCTGTGACTTGCCCCAGCTCACTCAGCAAGGTTGTTGGGAGAGGATCCAGGTTTCCCCATTTTTC
AAAACCATGCTCTCAGTGCTGCATCCTACCGCTGTGGTATAGGACCCTCTGGGGGTCCAGTGTGTCTGCTGGGTTATCTTGCCTGGAAGTGTGTTTTTGT
CATGTTATGCATCCATCTCCCTTTTCTGGGGCCTATGTCCTTCTGCAAAGCCACGCCTTGGTGAGCTGGCACTAACACCGTCTGTCTCTCTGACCCATTT
CCAGAGCTCTGGAGYTCAGCAGTGGCAAAGATGAGATCTCCTTGTTGGTGGAACAGGAGTTCCTAAGCCTCACCAAAGAGCACTCGATCCTGGTCGAMGA
GAGTTCTGGGGAGCTGGAGGTACCCGGCAGCTCTCCCGAGGGGACCAGAGAGCTGGCTCCCTGCATTCTTGCCCCTCCTCTAGTGGCAGGCAGTAATGAG
CGCCCCAGAGCCTCCATCATTGTCGGAGACAAGCTTCTGAAGCAGAAGGTGGCCATGCCCGTTATCAGCAGCAGGCAGGACTGTGATTCTGCCACTTCTA
CTGTCACAGACATTCTGTGTGMYGCYGAGGTCAAGAGCAGCAAGGGGACAGAGGACAGRGGCCGCATCCTAGGTGACTCCAACTTGSAAGTCAGCAAGCT
TCTGTCCCAGTTCCCACTGAAGTCCACTGAGACATCCAAGGTCCCTGACAACAAGAATGTGCTGGACAAGACAAGGGTCACCAAGGACTTCCTACAGGAC
AACCTGTTCAGTGGCCCTGGACCCAAGGAGCCCACAGGGCTGAGCCCATTTCTGCTGCTGCCTCCCCGACCTCCTCCTGCACGTCCTGASAAGCTCCCTG
AGCTCCCTGCTCAGAAGAGGCAGCTCCCAGTGTTTGCCAAGATCTGTTCCAAGCCCAAGGCTGACCCTGCTGTGGAGAGGCACCACTTGATGGGTGAGTG
GGGTTGGAACTGGGGTAGAGTGGGCCTGCAAGGAGGAGGTCCTTCCCAGGAAGCCAATCAGGGCTGCAGCATGTACATAAAGCATCTTCATGCAAAGCAA
GACAAAGCAGCCTCTCTGGTGGGCACAGCCCCGAGGGACGGGCTGTTTCCAGCCCCCACAGGCTTATTTTGCTGGGTTCCCCTGTGCAGGGCACAGCTTT
TGTAAGCAAACCCAGAGGCCCTGATCTCAACATACTTTGAGAAGAGAAATAGGCGCCATGTAGTAATTGGCTTAACTTTGGAATCAAACGRGTGTCCAGA
GTACATTGAAGGAAGTGTTTACCCTAGCTGGGTTCAGGGTGAAACTACAGCATGGAGATGCCAAGATGTATAGAAGAGAAATTTGATTGGTAGCTGGGGT
CATTTGGCATCTATCTCATGGAGGTACCTTGAGGACATGAGGCCTGGTCCTCCCTCTCTGGGGTATTGGGTAGATGCGTAAATTATCCAGGCATAGTGCA
GACTGTTGACTCTGGGATCTGTTTCCTGGGACTTACTTTATTGAGGAGCTCACATTCTTCCCAGGAAAGCCAGCCACCTCCCAAGCTTCTCCTACTTTAT
GCCCAGGATTCTGTGTGTTGTTCTGATCTAACCAGTCAGACTATATGGTTCCAAGAAGGTAGGCTGATGGCCATGGCCATTGCCTAGAGTCAGCAGTCAC
TAAGAGAGTGATCATACTCATGTTAGCCAAAAGAACAATTTCCTCTGGGCTATGAGCATGGATGGATAACTGAGAGACACCCGTATTGGGAGGGTCCAAA
TTAATCTACCTGAGAAAATAAGAGCAAAGTCATCCTGAACATTCTGTGTCCTGGAGCATTGCAGGAAGGCCAAGGAATCAGAGCTGTGGATAGCAAGCTG
AACTCTGGGTCCTGGACAGGCTTCTAGGAGCCAGAGGGCTTTAGGATGGGGAGCTGTAGGAGAGAGACGGTTGAGCTCTTCCCAGAGAGGAGACCTTCCT
CCTACCTCTTCTCCAGAAGGGACCCATAGATATTTCCCTGTTGGATGGGGCTGCTGGACTGGAGGCAGTTCTGGTCCCACCCACCCCACCCACCATTGGT
GCATGTCTGTGTGTACGAATGTGTGAGCAAAAGTGTGCCAAAAGGAGTTTTGAAGGTTTTAGTGTATTTGTTAGAGAAAATGCAAGAGTGGTGTGTCTAA
GCATGTCTGTGTACACATTTGTGCATATGTCTGTCATGTATGTACTTGWGTATGTGTAACTAAGTCAAAGGAACAACAGATAGGAGTGTGTCTATGTCTG
TGTGCCCAGACCTGGGACGAGGGAGCTTCGTAGATGTTTAAGGCATCTGTAAATATGAGTGGGAAGCTGCAGGTGTGTGTGTCTCTGGGGAAAGGGCTAT
TATCAGTGGGTACTGTTATTTCAGCTCACAGGCTAGGGGCTGAATTCGGCAACCGGAGGAACTCCTGGAAAAGACTCTAGGGATGTTTTGCTAAAAATGT
TGTTTCCTTCTAAATTGGCTCAGGCTAGAGCAGCTCTTTCCTTTGCTGGAATAGTGCTAGGAAGACAGCCTTAGCCCCGAAGCTCAGCCCCCAAGCCGCT
GGGCTAGGGGRCCAAAAGCTGGTGGGATCTGGTCTATTATTATCAACAGGTAACACTGAGGCACAGGTCCTTTCTGGCTGCATCCAGACAGATCCCGRTG
CCTGCTATTGGGCAGCACAGTGCACAGCCATCTGGTGGGTGGCCAGGTTTCCCACCACTGCTGTGGAGGATCCTGTGATGGTCCCCAAAGTATGTCTGCA
TTGGGAGAATAAATGCTCAGTCTCTTTAGTGAGAAACCTGTGTCTGCCACCAATCTTGTCCCTGCTCCACACTCTAGCCATATCCAGTGACTCACAATGT
CTCCTTGATGCTTCCAGGCCTTTGCCCACAGTTATCCCTGCCTGCCATGCCTTCCTCCCCAATACCCCTGGATGTAAGGCCTCGCTGCAACCCTACTTCC
TTCTGGAAGGAACCTTCTCAGACAGAAGCAGCCTCAGCCACCCTGTTCTCCATTTCTTCCCTCTGCCACCTCATGGTGTTCATCTACCTTATCCTGGGGC
TATTTCTGGGCATGTCTCTCTTTTTKTCTTGTTATGAGCTCCTGCAGGGCACAGTCTAGCTCTGACTCACAACTGTGTCCCCAGCACTCAGGTCAAGGCC
TGGCACTGACAAGTGAGCTGAATCACCTGTGAGTAATAAAACAAAAGTAGAATCCAGAATGAGAGACCAAAGTGTGTGGCTCAGACCACATGTTCTGTAA
GAATGTGTGACTCCTTCACTAAGCCATGTGCTCACTGAAGGCAGGAACTGTGTCCACAACATCCTTGTTTTCGCAGCCTGGCACTATGGATGGTTGGAGA
GAAGGAATAGTGGAAGGAATGAGGAAAAGTAAGGAAGGAGAGGAAAGAAAAGAAAGGTAATTCGAATAAAGGAATGATGGAAGGAAGGATGAAGGGGTGG
ATGGATGGAAGGAAGGCAGGAAGATAAAGATGGATAGTCAGACAAATGGATGGACAGATGGATGGATGGATAAGTAGACGGATAGAAGGAAGAAAGGCAA
AGATGATGGACAGATGGGTGGATGAATGAACAGATGGATGGATTGATGGATGCATGAGATCGGGGGGCAGGGGCCAGGGAGGGTTTCAGGGAGAGATTGG
GATTGTATTTGGCTGAAAGAGAGTCCCCCAAAGTGGTCCAAGCCTCAGGTGTGTGCTGCAGAGGATTCATCATTTAGTCCACAAAAAGGTGCTTCCAGCA
TCCAGCACTTGGCCTTCCAGAGGCATTGACTCAGTTTCTTTCCTGCTACAGAATGGAGCCCTGGCACCAAGGAGCCAAAAAAGGGTCAAGGGAGCCTCTT
TCTCAGCCAGTGGCCCCAGAGCCAGAAGGACGCCTGTGGTGAGGAGGGTTGCTGTGACGCAGTGGGCACCGCATCACTGACCCTGCCGCCCAAGAAACCT
ACATGTCCAGCCGAGAAGAACTTGCTCTATGAGTTCCTTGGGGCCACCAAGAACCCAAGCGGGCAGCCGAGACTTCGAAACAAAGTGGAAGTGGATGGGC
CGGAGCTGAAATGTGAGCTGACCTACCCAGGGAGGGATTGGAGGGGAGGGGGTTGCAGTGACCCTCACAGGCTTCAGGGTGGCTCTGTCACCAAGTGGCT
GTCTTATCTACTGCCTTTCTAGAGGTGTCAGTTTTTAAACCCATAAAATGGGGGCAATGACTTTCTCCCCATATCCCTTGTTGGGAATACAGTTGCTAGA
GAAGTGTAGTTGGCTTTCAAGGGTCACGTCAGCATTATTAATGGTCACTTCTGAATATAGCCCTGACCCAGCATGTATTATATCCTCTCAAATTGCCCAA
GCCAAAACAAAAGWTCCTTGCTTTAGATTATTTCTATATTGAGATTATGTTCCCGCTTTCTTTTCCTACAAGGGTTCTAGTCAAACCTCTTTTCCCAAAA
GGATGCCAATAAGRGGAAACTGAGGACCCATTTCTGATTTTATAAGCCCCCACAACATCTTGTAGAAAGGAAGAATCCAGGATTCTGATCTTGAAACAAC
TCAACCTAACTTCATTTGTTTAGACCAATTTTGAGTCACTGCATGCTGAATTATTTAATGTTTTAAAATATAATTTTTAAAATTCCCATATAGATACAAC
AACCTGTGAAAGTTTCTTAGTGTTGCCAAATATATGTCCTTAGGGAGGGGCTGCTTTAATCATTTGATAAGGATGAATTCCAATGGCATAGCAATGGTTC
ACATAAAGTTGGATTTTTCCAAAGCAGTTGAAAGAATTTCATTTTGTAAGTAGGTGAAATATAGGCCTAGCAATCTGGCTTATTGTATTCCCTTGCTAAA
TTGCCTTCTTTACTAGTGAATGATGGAAAGAAAAGCTCCAAGCCAGACCTTCTGGGATTTTCATCCCTTCCAAACTGGCAAGGTGTGAACTAATGATGTT
TACCTATAGTTGGAAATGTACTAGAACTTTGAAGAACCCTCTTGGAGCTTAAAGGACCTGACCTGTGAGACTGTGAATCCCTAAGGAAGTTGCGATGCTG
AAGGTGTCCTGGCCTCTCCCTGCCTCCATCACTGACCCGCTTTGCCTCTCCTGTGACTTGCAGTTAAYGCACCTGTGACGGTTGCTGACAAGAACAACCC
GAAGTACACAGGGAATGTTTTCACTCCACACTTTCCTACAGCCATGACCTCAGCAACCCTGAACCAGCCACTCTGGCTCAACCTGAACTATCCACCTCCA
CCAGTGTTCACGAATCACTCTACCTTCTTGCAGTATCAGGTMAGTGAGCTGGCCTGGCTCTCCTGTGGACATCCACGGGGGTTTTGGCCACAGAGAAGGA
GTGGCTGGCAGGGGGTCTATTTCACAGAGTCTTTAGACTCCTCTGAATCCCTTCCCTACATGCAAGAGGCTTCGCTGGGGCTATGGAAGGGCGCTGTCAA
CTTGTCAGCTTGTTGGTTATTTTTTTCATTGTAGTCACATCAGATCTACCCCTTGGTTCATGTGCATGCGTGCGCACACCTCCACACACACACACATATG
TATATTTAGTCCTAACTTTCCATTGTCCGAATTCCAGTTCACACTGTGCTCTTTATTGCAGAGTCTCTTTGCTAGTTGTGGCTGGTTAAGTGCTTGGGCT
CCCAGGAGAAGATGATGTCACAGTCCTTGTTTCCCACCTCTCTCCTGTGACTTCCTTTGAAGTTGGATGACATATATCCCAGATTATTTGGGACAGTCCC
AATTTAGGTCTTCTGTTCCAGAATAATATGAATGGCATCCCTTTTCACTCTCAAGTGTCCTGGTTTGGACAACAAATTACAGTCAGCCCTCTGTATCCAT
GGGTTCCAAATCCACAGATTCAACCAATCTTGGATGGAAACTACTTGAAGAAGAAAACAACAACAACAACAACAAAATACAACAACAAAAAATAATGCGA
GTAAAAGATAATACAGTATAATAACTATTTACATAGTACATTATTAGGCGTTGTTAGTAATCTAGAGATTAAAGGATACAGGAGCATGCGCATAAGCTAC
ATGCAAATACTATGCCATTTTATATTAGGGACTTGAGCATCCTCATATGCCATTTTATATCAGGCACTTGAACATCTTTATATGTCATTGTATATCAGGG
ACTAGATCATCCTCATATGCCATTTTATTTTATTTGAGACAGAGTCTCACTCTATCGCCCAGGCTGGAGTGCAGTGGCATGACCTTGGCTCACTGCAACC
TCTGCATCCCAGGTTGAAGCGATTCTCCTACCTCAGCCTCCCAAGTAGCTGGGATTACTGGTATGTGYGCTAATTTTTGTATTTTTAGTAGAGACTGGGT
TTCACCATGTTGGCCAGGCTGGTCTTGAACTCCCCGCCTCATGTGATCCACCTGCTTCCACCTCCCAAAGAGCTGGGAGTACAGGGGTGAGCCACCGCAC
CCGGCCCTCAAATGCCATTTTATATCAGAGACTTGAGCATCTTTGTATGTCATTTTATATCAGGGACTTGAGCATCCTCAGATTTTGGTATCCACAGGGC
AGGGGAGGGAGGGTGGTCTTGGAACCAATCCTCTGAGGATACCGTGGAATGAGTGTATATGGCCACCTTACTTAAACTACACCAAGCAGTCTTAGCTTTG
TACCAACCAAGGTGGCTTGGCACACATTCTTGTTCTTGGGATCATAGCTAAAGGAGAAAATCAATGGCCAGACACAAAGGGACAGTGAAGCACCTGTAGC
AGGGCTGGAAATTCTACTCACAGAACTTATTTATGCAGGGAAAATGTAGTTTCTTTATTTTGTCGATTTAACTTAATATCCCTTAAGAGCTGCCGCCCAC
TGGGTAGAAGGAGGGAAAAATTAAATAAATGTCCACTCTGGTTTAAGCCTTAGCCCAATCCAATAACTTAAATAGTCCCTTTAGGTAGAACTCAATTTTT
TCAGGAAAGATTCTCCATGCCTAAGATTTCTGTCTTCTGTTCCTCGCACTGGCTTCTCTCCAGAATTGTATGTCATTGTATGGGGAAGGGCAGGAACTCA
AATTTGTGCACTCAGGACCTTGGCAATTTGCTGCCCCAGCCTGGCCCAGCACAGCCTGAAGTGAGAAAGCAAAGAAGGAAATACTTCCAACTCGGCTTGT
CCTKTTGCTATGTCCCTTCCCCGCTCTCCACTCCTAGGAACCCTATGTCATTCTTTCCCTTTCAACACAGCACAAACCTTATGTCCTATTGGGAAAGGGG
ATTGGCTCTTCTGCATATAAAGACTCTTCAAGCTGGTCCACCAGGCTTAGTTTCTGAATCTTAAAGGAACTTAGCAAAGTCTCTCTCTGTTTTGTTTTCA
AGCTTTTTGTTTGTGTGTGTGTTTGCTAAAGAGAACAAGTACCCGTCCCCTCCCGAGGGAGGGAAAGCTCACACCCCATTGTGGAGGTGAGAGGTTGTGA
TGAAAGGTGACCTAAGAAGGAAGCTGAAGTGGACCAGTTTCATATTAGTAGTCTATTGTCATGGACCTGTTCATATCAGTAGTCTATTGTCYTTACACAG
GTCTTGAAATGTCCTGTTCATTGATTCGCTGACTCCTTTACCAATATGATTCTACCCTTTCATTTTTGTGTGCCTATTCACTATTCATTTACTCACCTAC
TCACGATTTACTCATTTCTATGTATTTATTTACTCATTAATTTAAGTAATTTTGAAAACCATTTCTCCCTACAAGCCTACYAGAGGCTGAGCATTGTTCT
AGGTGGAGGGATTCAAAGATGACTAAAGTCAGGTGTGGTGGCATGTGCCTGGAGTCCCAGCCTACACCAGAGGCTGAGATAGGAGAATTGCTTGAGCTCA
GGTGTTCAAGACTAGCCTGAACAATATAGTGAAACCCTGTCTCTAAAAAAAAAAAATGATGACTAAGAAAAGCTTGGAGTCTAATGCAAGTTCAGGAATA
AACCAGAGATCAGCTCTATGCATCTCCACCTSTAAAGGGGAAACAACTGCATAATTCATTTAGTACAAGTCGATTCACTCTAAAATGCCCTCACAGAGCT
CACCGTGTAAAACTAATTTGCAATGGTTTGCTTTATTAAGTGGGGATAGCATCTCTTTGCTATGTTAATTTCTTCTGACTTTTTGGAGTGGGTGAGATTT
GGACATATCATTTTCTGAGCATGACGGTCCTCTGTCTTTAGCATCATAGGGCTGACTATGAGGTTCCTGGGCTTCTGAGCAGAAGCAGCAGAAGGACCCT
GGCTGGTAAGGCCTGCTGGGTTCTTTGAGACAGTTTAAGCACTGAATGGGCCCAGCTGAAGTTGGCTGTGGAAGGCATTGGTCCTCCCAGGTAATAAGGA
AGGACAGCATAATTTACCTTCTCCCAGCTTCTGTGATCTCACAATGCTGTCCAGCTTCAACATAGCTGATCAAGGGGCCTGAGATAATAGCAGGCAGGTT
TTGAAAYCAGTAGACTTGACTTTAAAGGTTCTGCTGCTTCCAAGTTAGGCCTTAGGCTGGTTAGCTGCTCAGAGCCATGGTTCCTCATTTGTGAAATGGG
TTCATAATAATTGCAGCAGCAGCAGCAGTAGCTACTGATATGGTTGTAAGGATTAATTGAGTCCATGGAAGGGTAAAGACTCTGTAAAATTTAAGCTGTG
ACACAGATGTTGGTTTTTATTATTATTCAGCCTCAATCTTCCAAGGAAATGGGGTCAGAGAGCTCCACAGACCTTGAGGGGACAGAGAGGAGAAATGGGG
AACAGTCTAGCCTGGTCTTTTCCCTGTTTAGCAYTGGGAATAAAGATAAGGTCCCAAATCCAATTTACTCAGAGCTCTGTGGTAGGAGGACTCAGAGATG
TGAAAGACAAAGTCCCCAACACSGAGGAGCTTCAGAGGCTCCTGGGCTACTTGGCATAAAGGAACTCTGCTCCCAATGAAGGAGGGAGGGTGCGTGGGAA
GGGACCATGGCTTAAGCAAAGAACAGTGAATGTTTATTTACCCTTGCCTGTGATGTTACAAACTTGCAATTCTAACAACTAGAAATGTTGTTGAAGTCAT
GCAGTGTTTTCTAACTCATGAGTGTGGCACCATCTCCTGAGAATCCGCCCTGGGACTGAGCAGCGGTGGGCAGCTGTTTGCCATCCACAGAGCCTAGGGC
AGCCTGGCACAAGCAGGTGTGGGATGGTGGAGGCTGGGGAAGTTGGCTGTAGAAAGCAAGGGGCACCTTCCTCCCTGGTGCTCCCAGGAGGACCAGGGCC
ACCAGCTTAAGCCCTCTGCTGTCCCTACTGTATGGGCTCCTGTGAGGGGTGGATGGCATGGCCCATGCTGGGCATTCTGGAGACTGCTCAGTGCTGTACC
TGAGGGAGAAGATGATGAAAAAGAGGCAGAGGGAAGATGAAAGATTCCCATAGGGAAGCTCAGCTGCTGCAACTTAGGCTCTGCGGTCTGGAGGCATAGC
TCTKGTCACCCTCTAAGAGGGTACGATGAGTCTCAAAAATGGTGACATGGAATGCTCCCAGCAGAGATCTTTGTGTATGATGCCGTGCACACACACAATT
GCACACAAACGATATCCATGCATGTTTGATGCACACACATAGAAACAGAAACAGGCAGGCGCAYGACTGCCTGTAGAAAGCAGAGAYGAGTGCTAACAGG
GATCAGAGGAGGCGGCGAAACAGAGGAGGGACACTTAGCAACATGCCTAGTGGCCTTGGAGCTCATGGAGGGCTGAGAACAGGTAAGGCAACACCATCAG
TCTCACTGCTCTGTCCAGGTTCAGGCAGAGGCTGGGGTTGCAGGGACCGGGCAGTGGTCATAACAGGAGAGAGAGGCTGCCCTGGGCTGTAGAGCTTGGA
GTAAAGGGGAGCAGGTGAGTGGTTTCAGGTGAAGGAGTGGACAAAAGTGGGAGGGGCCTGAGCATGGGAATGTCAGGAGTGTCCCCTGCATGGGAGCAGA
GAGCAAGGAGGGGCTCTGAGAAGAGGTACACTCTTGGGGACCTGGAAGATGGAGCAGGAGGAGAGCAGGGAGACCTACTTGCAGACTCCATATCAGAAAG
TCCACAGGCCATGAGGGAACCCTCAAGGGTGTAGGGTCAGCCATCATCAACACTTTGGTCATTGGCACAAGCTGAGCTGAGAATGGAGGCAGCCTCTCGG
GCAGCAGATCTTCTGAGAAGATGTCCTGGGCTGAGGGGTACTTTGGGTTTTGAGCCTCATCTTAAGGGAAAACTCGGGATTGACAGGTGGAGGCAGAGTC
TGAGACTAGAACTGACCACTGCCACAGCAGCAGTTCTGCGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTTACGTCTGTGTGTGGACA
CATGAGCACCTCAAGACAGAATTGTGAGTAAAATGTCAATTTCCCATCTGGCTGAACTGCCAGAAAGCTGTTTAAGGGAGGAGGCAGTGATGGATGACAA
ACACACTGAACATTGAGTCCTTACTATGTGCAGGGCACTGTTSTAAGCTCTTTAGATGTATTAACACTTTCACCCTCACAGTGCCCCTCTCCGTAAGCTA
CAGACACAGGTATATGGATGGGCACATAGATACACAGCAACACTAACACACCTGGGTTCACAGTTGTATATTTGTACACAGAAATACACAGCTGCATAGA
CACAAATGTAAACACACATGCAGGTGTATTTAACATGGATGCAAACCAACACACACACGTAGAGACGTGCATAGACACCTTGTGTCTTCAGGGGGCAGGT
ATGGGATTAGGGGAAGGCATTTAGAAAAGTTGTGTGGACAGCAACAAAGATAATGTGGCTACCTTCATAGGCTTTGCAGGCCTGAGCACATGCAATTTTT
TAGAGAAGGAAAAAGAGGCTCAGAGATGTGATTTGCCCAAGGTCACACAGCCACTAAAACACAGATCTGGGACTCGGGAGGCAGTCAGGCTCCTGAAGCT
CCTGTCTCCCACACTCATCAGAAAGGCTGTGAAGGCTGCCTAAGAGGGGCTTCCTGTGTGATGTGAGTCCTGCTTCTCCTGGCCTGGTTCCAGCTGGCCT
CAGACAGCCCATGGGTCTGGTCAGCAATGTGATGGGACAAACTCAGTCCTGTCTGGGAACTGAGCTGAGTAGCTGMTGCCTTCTGGCAGGAAACCCCTTG
CCTGGCCATACTGAGCCTCTGTTTCTCCCCAGGGCCTGTACCCACAGCAGGCAGCGAGGATGCCCTATCAGCAGGCTTTGCACCCGCAGCTGGGATGTTA
CTCCCAACAGGTGAGTAGAYGATCTCTCCTCCTCTGTCCTGGGTCCATGAAGGCCTTTGGGTCAGAGGGTGCATCTGCTCCCTCCTCCTTTTCCAGCTGG
TGACCAGACACCTGGCCCACCATTGGCTCTGGAGTACAGACTCACATACCGGCATGCGTGTGGAAAACACAAACCGATGTCCGTATGTGACAACACTGGG
CACTTAATGGAGCCCTTCCTGTGTGCTGGGCCTGTCCGTAAGGACTGTGTCTGCACTAACTAATTTAGCCTTCAAAATTACCCTGTGAGGTAGGTTATAG
ATGAGGAAACCCAAGCACAGAGAGATTAAGTAAGTAACTTGCCCAAAGTAATAAAGTTACTTGGGAACATACAAATTAGGTGTTGCTGTGGCAATACATA
ACCGCCACATCTCGGGGACTTTCAACAATGAATATTAATTTCTTGCTCGGGTCTATGGGCTGGCTGAGCTGGGCTGTGGATCAGGTTTAGGTGGGTTCCA
TGTGCCTCTCCTGGGCCTCTGCTGAAGATTCAGTACCTCTTGCTCTTTCCACGGTGGATGGCAAGAGCCCAACAGGGCAAGCAGAAACACGTGATGCCTC
TGAAATCCTCAACTCAGACCTGTCCGTGGGAACTTCCACCCACCTTCCACTGGCCAACGCAAACGACATGGCTTTGCTCAGCATCAGTGAGACTGAGGAG
TCATATTCTTCCCACGCAGGGTTGCCAGTTAAAATCCAGGACACCCAGTTAAATTTGAATTTCAGATAAACAAGGAAAAAATGTGTAGTGTAAGTATGTC
CCAAATATTGCACAGGATATACTTATGCTAAAAATATGTATTAGTTATCTGAAATTTGAACGTAACTGGGTGTCCTGTATTTTTATTTGCTAAATCTGGC
AACACTACTTTCATGGGTAGGTCAGGATAAATATCTGTGGGACAATAATTGAGGTTTGACCTTTGGCAGGCTGGTACTCCAATGACCAYGCTTTACTACA
TCTTGTACCTAGATGCACAATAATACTGCCTGAAAATAAAGCAGCAGAAAGAGAAATGCAAACACACACACACACACACACACACACACACACACATGCA
GAYAGAAACACAGGTATAGTTGTACACATGCCACCAAGCTGCAGGAGCCTGTGTGCAGGCACAGGGACACAAATAGATACAGAAGCACATTGAGGGGTAT
TGAGTCTTGGGGCAGGGATGGGGGTGTGAGGAAAGGAGCTTAGAATGGAGGAGCAGAGGGCACCAACACCCAGCCTGCCATAGCMCCAGGCTGGCCTTGC
TCCTCCACACAAATGTGGACACCCCCACACTCCAACTCATACAACCTCTGCCTYTCCTGTCTCCCCAGGGAGCCCCACCCTCCGTGCAAACCGCACCTCT
GACCTGAAATGTGTTAGAATGTTCGGGAGGGTAGGGAAGAGCCTGCAGGGGTAGGGAGCCTTGTTACCTGGGCCAGCACTGATTTCTCAGCAGCAGGAAC
CCTTGCATCCTGAGATGAATCTGGGATGAGAGATGATCTGGGTCAGGKAATCTCAGCCCCATTGCCTCCACCCCTTGAACAAGAATATCGTCCACCTGGC
TCCAGAGAGAATATTTTTARATAATTATGTGTATGTGTRTGCATGCATGCATGTGTATGTATTTGAAAAAAGTAATATAAAAACATGGTAAAAAATTTTA
AAACTTGGAGGCAATCACTGTTTAATGGTTTTTTACATATTTTCCCGGCAATATCTATTTATATAAACATTTTTAAATAAATGCGGCATTCTGGGCACAC
WGTTCCATTGCTTTTGTCAGTGAGGATTATATTTGGAGATGGCTCCAGAGCAGGCTACAAAGCTCTACTTTATAGTTTCATCAGATACATGGAATCAGGG
GCACATTTTTTTATAACACTGTGTGAACTYTAGGACCTGCCTCCTCCACTTCAATCCCCTCCCAGGTCCAGGCACTTCCTCCCCCATGAGGACAGGGGTA
CTTTCTGCCATGCTGACCCATASGGTCATGACTCCCATCTGACCTGCGAGGTGCTCTTGGCATGTTCTGACCTTTAGCTCATCACCTTGGGATTTGGTGC
CTGCGCCCAGCATCACCAGGCCCCACATCTCCACTGGAGAACATTGGGGAAGACCGGGAGGGAGGACTCAGGTTTCCAAAGAGGACACAGCATRGAGAGG
CTAGTGAGAACCAAGGTATAGGCTCCGGGCTTACCCTGCTGGGGTTCTGACCACAACTCAGACGCTGGAAACACTGAGAAAGTTGCTTCACTTCTCTGAA
CCTCAGATTTCCTGCTTCCAAACTGGAAATAATAATGGCCCTACCTCACAGGGCTTTCTGGAGTTTTAACGACAGCATCCATGTGAAGGGCCGGGCACAT
TTTAAGCAGTCAATGAGTGCTAGMCTTTGTGGATTGTTTTTTTTTTTTTAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTG
GCTCACTGCAACCTCCACCTCCTAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGTACCACCACGCCTGACTAATTG
TTGTATTTTTGGTAGAGACAGGGTTTCACCATATTGGCCAGGCTGGTCTCAAACTCCTGACCTTGTGATCCACCCACCTCGTCCTCCCAAAGTGCTCGGT
TACAGGCGTGAGCCAACGCACCCAGCCCCCTTTGTGGATTTTTTTTTTTAGATAAGGKTGTATGGGGTGAGAGAGGGCTGTCAGAGTGCCTGATTCCTGA
GCACTTGGACCCCAGACTTGCTATTAAAGTGGAAATCCAGAAGTTTCTTCAAATTCTAACTGATACTCCCCTCAGTACACAAGAGGATAGACATCAGCTC
CGTATGAGAAAAGGTTTTCTCATATTTGGAGCTGTCAGTAGTGGAATGTAGTGCTCATTAGGTAACGAGCCCCCCATCATTTAGGTATTCAAGCAGATGC
CTTAGTGGTCTTTTCTTTCCTCCCTCCTTCCTTCTGCCCGTCTTTGCTTTCCTCTCTCTCCCTTTCTTGCATTCATTCATTTAACATATGTTTGTTAAGC
AGTGACTGTGTCCCAGGCACTGTCTTAGGGCTGGGGAGATAGTGGTCAACAAGATGGATGAGGTCTCTGACTTGTCGCGGCAAGATGGTGGGAGCCCCAG
TTCTAGGTCGGAGTTCATCACGGGCAATCTCRGAAGCACCACTGAATTCCTGTATTTCCCTAGAGTTTGTGCTCAACCCCATTGCCTTTTTTTGCCCTTC
CTCCTAGACTCACACTGTCTACTATGGCAGCCACCAGCTATGTGTGGCTATTTAAATTAGCTAAAATTAAGTATAATTCAAAACTCAGTTCCTCATGCCC
ATGAGCCACATTTCAAATGCTCAATTGTCGTGTGTGGCCGGTGGCTTCCATGTCACACGGCACAGATGTAGGACATTGCTGCCATCCCAGGACTTTCCAC
TGGGTAGGGCTGTCTCGGACTTGCAATCTGTTGAAAGGCTCTCAAGAGAGATAGAAGCCAGAGCTGTGTAAATCACAACAGCTTTTTGGGGATAATGAAA
GCCTTAAAAATAAACAAGGAGCTTTTGAGATGGTTATTGACAGAGGGAAAAGCTRGGCAAACAGGGAAGAGAATGGAAATAATATTGATTTGCTATTTAC
TATATGCCTGTCTCTCTACTTGTATCACCTGACTCTATCCCCACTAACAACGTAGATAGTGTTTTCCCATTTTGCAGATGGGGAAACTGAGGCTCAGATA
AATTAGGTAACTTGCCAGGCTCACTACATAAGTTGAGCCCTAGGCTTTCTCCATTCCAACATGTTGCCTTCTGTGTACCCAGCAGTGACTGAGGAGCACA
GGGGCTGAGACTGGGGGTGGGTGGCTGGGGTTAGAGTTGGGCTGGGGAATGGTGACCTCACCCCTCTCTTCTCTGTGATGTGCAGGTGAYGCCATACAAC
CCACAGCAGATGGGACAGCAGATCTTCCGCTCTTCCTACACCCCTCTGCTGAGCTACATCCCTTTTGTCCAGCCCAATTATCCCTACCCTCAGAGGACAC
CTCCAAAGATGTCTGCCAACCCCCGAGACCCTCCCCTAATGGCAGGAGATGGACCGCAGTACCTCTTTCCCCAAGGATATGGGTGAGTCAGCCCACACTG
GGAGCCTAAGGGTATCCAGAAAGCTGGTGGGAACGGGGGCAAGTTGGGTGGGCTTACCAGCGCTTTCTTAGTATGTGTGTTCCATGGCTGTGGGGTGGGA
TGGGCCCTGTACCTGTGGCTGGTGGTTGTGTGGGTCCTGGAGGGACCTGGTGCAGAGATGAAGAGGGTCTGGGGCCTGGTGGGCCCCTTTTGTAGGTGCA
TTTCAGGTCTGGTTGCAGAAATGCAACTGCACGGTCCATAACATATGGATACCCCTACTCCATAGGCAGGGGCAGTTGGTGCAACGATGCATTTGCCTTT
ACCCATGTGCTTGGTTACAACAGGACATGGCCAGCTAATYTCCTTAGAGCTCTCACCTCCCACTGTCCGCACCCTGATCTCCTTGCAAGGCTAATCTCCC
CAACATCCCATTGACTTTGTGATGGGCCCTGCGGAAGAGCCTTCGACTGCTTATCAGGGCTGCCCACACTTTTCCACCAAGTTCCCCAAACTGCAGAGGC
AAGGAGCTCCTACTTCCTGGGACAGTCTGAAGGCTTAACAGCAAACAGCCAGCACAAACTCAACATTCTGGCTGAAAATTCTACTCAAATTGTGCATGCT
GTTGAGTCATAAATTTGTGTTTGTTTTAATATAATAATACATAGCCWTTCATTCCCACCCACCAAATCTTCCACTAATATGGATGCTCCAAGGGGCASGT
GGTGCCCTGTCATTCCTGGGAATCCCAGTCTCCCGGGCACACCCTGGGGAATGGGTGCCTGGGTTTGAGAAACTCACTTTATAGGATTAAGGCCAACCTT
CCCAGCCTGACAGTGATTCCCATCCTTCCACCTCCCCATCACAGAACCTTCCCTGCAGTGCCGACCCATGTCCCCAAACTCTCATCCTTTCAATCAGTAT
TTTCTCCAAATAGCTTGTTGAAAGGGATAAATGCAGCAAGTGGTTTCAGTAGTCAGATCTGTTTGGGAAAAGCTGTGGGAAACAGAGATAAACAGATTTC
TTAACTGTTGGAATTCTCAGATCATTTAATTTCCTAGGGTRCACGGAGAATGTTCAAGAAGGTGGTCGATAGTATTATTTAAACATGAAATCCACACCCT
TTTMTTTTTTTATTTTATTATTATTATTTTTTTGAGATGGAGTTTCACCCTTGTTGTCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTCACTGCAATCT
CCGCCTCCCAGGTTCAAGCGATTATCTCACCTCAGCCTTCCGAGTAGCTGGGATTACAGACGTCCACCACCACACCCAGCTAATTTTTGTATTTTTAGTA
GAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTCATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGCCATGA
GCCACCGTGCCCAGCATCCACATCCTTTTAAAAAAAATATTCCTTCCTTCCTTCCTTCCTTCTTTCCTCCCTCCCTCCCTCTTTTCCTCTCTCCCTCCCT
TTCTCTTCCTTTCTCTTGTAGAGTATATCATGGTGTGTTCTACCTAACACACCCAGGGAAACGCTGTGTTGACACATGTAGTTAATTTGAATTTAGCCTG
CAGGGGACCTATAGATGAATAGGACATGCTTCTTCCCTTCAGAGAACTGAGAGCAGATGAAATGTGGGCACAACAATGTTAGTGCCCTGGCAAAGTGAAA
ACCATCAAAGTGGCCCGAGGACARAGGYAGAATCCCTGCAGCGGGGGAGGTTCCAGTGAGCAGCACTGGGAGGAGGGCATTCCAGGCAGGAGGAGCAAGG
CCCTCAGATGGGAAAGCAAGTGGCAAGCTGGAGGCCTGGGGAATAAAGGAGTCTGGCTGAAGAATTAGATTTGTCTCTGAAAAAGGTGGAAAATAGGATT
GGAAAAGGGAGGTTGAGACTAGATTATGAAAGGCTTTGGACTGCTAGGCCTGGGGATCCAGGGAAGATTTATGCACATCAGAGTGAATTGATGGGCTGGA
AGTAAGAGAAAGAGGAAGCAGGATAGGGTGGGGTCTAGAGGTGGCTCTAGGGGCCTATGGGACAGATTATCATCCCCTGGAGGTGAGAATAGAGACCCAG
ACAAGCCCCCTGCAGGTTGGCCAACTTCCCACATTCTGTGCTGTGACTCTGGGCTCTGGGAAGATAGACTTGCTGTAGGAGATAGCCCTGGCTGTGTCTG
GGAGGGAGGGTGGTCTCAATGTCTCCTCAGTCAGCTTTCGGGAACCACCGACTGGGAGCTGTGAGACCAGAAGGTTGAGACTTGGTCTCCACAYGTCTGC
AGAGGTCGGAGGAGTGGGTAGGCAGCCCGAGRAAGGAGCAGCCTGAGAAGTGAGAGACAGCCTGGGGAAAGCCAGAGACAGTGGAGGCAAAGAGGAGGGT
GAGGAGAAGGAGCAGGGTGGATTGGCGTTCTGAGAGGCTGGGGAGACCAGGACCATGAGGTCGGAAAAATAATGTAAGGGATGCAAGCCTGAGTACCCAG
AGGGGATGATCTGTTCATTCAAAAAATATTGATCCAGCACCTTGTATGTGCCTGGCACTGTTGTAGACACYAGGGATAATGAAGTGAACGAAAAAAAGGT
TTTCCTTCTCCTAAGGAGCTTTCATTCTAGAAGGAGAAATGGACAATAAGGAGATAAACAGGCAAGCATGCAAGGCCAGGTCCTCAGGATATGGGTTGGG
GTGGGGAGAAGAATCAAGGGCAGCCTCTTGAGCCAAGATCTAAATGAGATGAGAGAATGAACCACACATACATTTCGGGGATGAGCCTCTGGGCAGAAAT
AATAGAAAGTGCAAGGGCTCTGAGGTGGGAACCTGTGGCTGCAGCACAAACAGTGAGGGAGGGAGTGCATGGAATTAAAATAAGAGGTAGCCAGGGCCAG
ACTAGACAGGGCCTGGTAGGCATGGCTAGAAGTCTTGTTTCAGGAGCAGTGGAAAACCATGTAGGCTTTTAAATTGATGAGGACATGTTCTAATCTTCTA
TATAAAACAGATCACATTGGTCAATGTCTGAAGAATGGACTATGAGGGTAAGAGCTGAGGCAGGGGAGTAGGCTAGAGCTTTATAGTTGAGCAAGAGGCA
TTGGTGGGATGGATAAAGGCAGTGACCCTGGGAAAGGGGGCAGGTGAAAAGATCTGTGATGTGTTATTTTCTTGGTAGAATTGGTGGGACGTGATGATGG
TTGAATGTGTGATGAGGGAAAGGGAAAAGTCAAACAAATTCCTTGGTTTTTGACTTGTGCAACTGGAGCAGCAGCAATGCCAAAACACTAAGGTCATTGG
GCCAGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGACCGAGGTGGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAAGATG
GTAAAACCCCATCTCTACTAAAAATACACAAATTAGCTGGGCATAATCGTGGGTGCCTATAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTT
GAACCAGGGAGGCGGAGGTTGCAGTGAGCCGAGATCATGCCATTGTATTCCAGCCTGGGTGACAGAGCACAACTCCATCTCAAAAACAAAACAAAATAAA
ACAAACAAACAAACAAAAAACAAAAAATGACCAAGGTCATGATGACCACAGCAAGGATCTGTTTACCAAGAGTCAGTCTTAGACATGTGAAAATTGAGAA
AGTCATTAGACAGATGGGTGGAGCTATGGATAGGTAGGTGCATATAGGAGTCTGGAACTCAGGGGAGAGGTTGGGGCTGGTAATACGTTTGGGAGCCATT
CTCATATACATGATATTTCAAGGCAAGGGATGGGATGGGATGAGATGGCCCAAAATACACAAGTATAGAGAAGAGAAGAGATCCAAGGGCTGAGCCTTGA
GACTTCCAGCATGTAGAGGCTGCGGAGATGTGGAGGAACCAGCAAAGATTCTGTGAATAAGTAGGACTATCTAGTGAGGTGGGGAAAAAAATGGGAAAGT
GGAGTGCAGGAAGCCAAGTGAAGAAAGTGTTTCCTGAACAAAGTGCTGGTGTTGGGGTGGTGACGCGAGGTGCTGATGGAACAAGATCAAGGTGAGGCTG
CACCTGGCTGGGGAGTATGCATGGGCCTAAGCAGAGAGTTCAGCATGGAAGACAAGGAAGGTCAGCAGAAAAGGTGGAATCAAGAGACAAAACTGTGTGA
AGGGGAGAGGAAGGAGTGAGAGGCTTCCATGTCCTCAGGGAAGGAGAAGTAGAGCCCTCCCCTCTGCCAAGTCAATTTGCACACATTCATCATGGTGGAA
TAACCATACAATTTATCTTCCAAGCAATAATAAATTTGAGAGTTAAAAGGAGTACAGATAATAATTATATCAGGCCAGACACGGTGGCTCACAACTGTAT
TCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACACAGTGAAACCCCATCTCTACCAAAAATAC
AAAAAATTAGCCAGGTGTGATGGTGCACACATGTAGTCCCAACTACTGGGGAGAATGAGGCACAGGAATCGCTTGGACCTGGGAAGCAGAGATTGCGGTG
AGTCAAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGTAAGACTCTGTTTCAAATAAATGAAACTATAAAATAATTATACCAGAAATACCAACATA
GAGGCCGGCCCAGGCAAACCAGGACATATGTTCGTCSTACTCAACAGGCAACTCAAGCTCCTCCTCCTCCAGGAAGCATTACTTGTTAACTCTCGTCCAC
ACAGATTGCTCCTCTTCCTGGCCCTCTAGCRTACATACTGTCTAGATCATGCCGGTGGCCGTTGATCTGATCAGAAGTTCTCAACCTGGAGGACCTAGCT
GCATGTGTGCCAATCAGATATGAGCTGTGTCATGATCATTGTTGATTACTGATAATTGTTAAATACTGAAGTATGGGTTACAGCCTTTATTTTGTAAGTC
AGAGTGGAAGGCAGGGTATCCCTATAATAACATCATTATGATTTCTGAATGATCCTCCAATATGATTTCTGAAAGAGAGAAACAGAGGTGGGGTTACCGC
TGGCATGGATTGCTTATGAGGGACCCACAYTGTGTCAGGCCCTGGGCACATGATATGAAATAGGTAAAGTCTCTGCTCTCTTGGCACTTATTTTAGTGAG
AAGCTAGTGAGACAACCCAGCCCAACTTGCCCATGGAGACTCAGTGAGCAAGAGACAGAGTTAGCTGCTGAGGCACTACAAATGAATGCCGTGGTCTATT
TCCATTGCTTCTTCCCTCCTCTGCTCCCGCTTTTTGTTTCATCAATTCATAGAAGGGTACCATGAATGTGAATCTCTTCTATAATATGCATCTGCCCAGC
TGAAAAGTGATTGAGAATCCCAGGATTAGATTAAATCTAGCCATTTGCTCTATTGTAATTTGTATTGAGTTCTGTTCCCATTCATTCAAAGTATCTGAGC
AGATGGGTGAAGAAATTACAGTAGGATTCCAGCAGTGTGAGTAAATGATTCCATCTGGAGAGGTCAGGGAAGTCTTCACAGAGGAGATGGCTTTTGAACT
CTATTTTGAAGTATGGATAGGAGTGTGCCAGGGAGAAAAGGAGAGGCGTGTGCATTTCTGCTCTTAGACGGTGAGGCTCACGTCTTAACCCTTCCTTCCC
TGAGGGTCTAGCAAAGCCCTAGGCACTCAGTGATGTCTCAATGCTTATTTCTGAGTCAGGGATGGAGTGAAGGGCCTGATTTAGCTTAGTGCTGGAAGGG
GAGGAGGGACTCTGGGATTGTCCAGCCCCAAAGACCTTATGCTGGACTTGCCTCTAAGTTCTCTGATGTTGTAGATTTTCCTGAGGGACATGTCTGGTCC
TCTAAGGCAGGTAGAGTGGTCACAGGAATACAGGTAAGATGCTTAGGTCCAGAGAGGGTCCCTGTTCTATGGGTCTTGGGCAGGGAGAGAGTGTAGGCTC
CATTGAAACAATCTTTACAGGCTCCCAGGGACTTCCTGATCCAAGTAAGCATAAGGAGAAGCGCTTGATTGTCCTCTAATTGTATTATTTTAATATTTTA
CTTTCCCAGGGCCAAAGCCTTTCTTATGCCAAAGCCTTTACCCTCCAAGCCTGTCATGGTCTTCACTGTTTCTGACAACCATAAAATTAATATATATATT
TTTCTAATTCTCTCCGATAACATTAGGAATCTCATCATGGCATCCACCCTCCCTCTCTTCCAGGTTCGGCTCGACATCCGGAGGGCCCTTGATGCACAGC
CCCTATTTTTCTTCCAGTGGGAATGGCATAAACTTTTAGATCTCCTCTTCTCCCTTCTCCTCCCTTAGCCCTTGGATCAGGACTAGGGGCTCTGATTTTT
GGATTCTGCAAAAGCTTGGTATGAAGTTTGGAAAAGCAARGTTCTGACCAGGTCACAGACAAAACAGCAAGACCAGATTCATCTATTGGCCAACACTGAC
ACAAAAATAGCCCTCCTCACACATGGCACAAGCTACACACACACACACGACCCTCATATTCATACTTGCTTGCTCAACCACTTATGCATCTRTATTTAGC
TAACATGAGTGATTTTTGTTTTTGTTTTTGTTGGTAAAATAGAAGTAAGACACTTAATTTTAGAAAGTTTGTATTTTATGATAAAAGTATGAGCTACTTG
AAATGGAGTGTGCCTGTTTATTTTTGTGGTGTTCTGTGTAATCTTTACCTCTCATTTTCCCCACGAGACTCAGCGTTTACTCAGGGCATGAAAGGAGACC
ACAGGCTGGAGTCCTCAGAGTGCTGCTATCTAAATATTGGACCTCAGGGATCATAAGTGAGAGGGCTTATCTCTTTTCCCCTGTGATCCACTCACCTCTC
AACATCCCAGTGTATGCATCTCAGGAAGGGACATCATAAACGGAATGCACTCTGTCCTATCCCGAGTGGAAGTTTTCCATAAAAAGTCTCTTTTGGACAA
ACGATTGGGAAATGTAGCCTGGAAAACAATTTCAAAATTGATGCTAAATGTGGCAGACTATATCCAATGATTGTACATCAGTACCAAGATAGAGGTCAAT
GTCAAAACTGCACCTAATGGTGGCATCCTTAGACCTGTCTTGTTCAACTCTTACCAATGACTCGAATAAGGACATTGAGAGCAACTTGATCACATTGATG
GAGGACATGAGTCTGGGAAGAGGAGACAGCCTGGATTTGTGACAGCACACATTCTTTAACTCTTCTGTTGCACCCCCTTGGCAGACATCGCTAATCAGCT
CTGTCATTCTATCCCCATGAGCTTGGAGAAAGCCACAGAGTCATTCTTCCTGTGGTGCCCCAGGCAGCTGTCACTGATCAGAGTTGGTCTATGAAATGAA
ACCCATGTGGCATGCTCTCACAGTGTAACCCCATCGGCCTCACTGGTCTTTCTTTCTGGGTCCCTGGAAACCAATTTCTCTCCCAAGTTCCCTCAAGACT
TATGCCTTCTTACATTCTTCATGGCCTAAGTCTAGGATTCCCTGGAAGTCCTTCAACTCCCTTCCCCAATGCTGGACCCTACTTTGGGCATTTCTTGTTT
CTTCTTGATAGCCTTGGTTAACAGTCTGTCCCAAAGGTCTTTCTTATATTGTACTTCTAGGTATTGATCCAGGCTAGACTATAATTTGCCACCCTCCCTT
GATCTCAGCATTTTGGGAAACAGGAGACAGTAAAAGAAAAATTATGGGTTTGCCTTTGGCCAGACTTGGCTTCTTAGCTGCTTTCCAACTATGACTTAGG
GCACAGAACTTAACTTCTCTGAACCTCTTTTCCATGATTGGCCATATTAAGAGTTGTGAGGATTAAAAGATAATGCAGACTTAATATAAACTTTGAATTT
TGAGGATTAAAAGATAATGTAGACTTAATATAAACTTTGTCTATTTAACATAGACTTGTGGCTTTAAGATGGTGGAGTAAAGATGTTTCTTTTCCTCTTC
TCTTGAAACTTACCCCCAAATAACAAGGAGAACAAGTAAACCTGTATGAACTCTATCCTCAATAAAACTCGGAGAAGTTGGCAATCCCATCCCATATACA
AAAGCAGAAATGGGATGGAGGAAAGGTAAATTCCTTAGCAGAACAGAGGAAGATCACATGGAAATGCCTGCCAAAGGAAATATCAACAAGAAGCTAGCCA
TTTCTCCTGCAGAGCCCTGATGGTCCTGGAATTGGAGGTGCCAGGTGCTAGACTCCATGGAAGGTGGGGCTAGGAAGAGGTGAAAGCAACCTGGCCCCAC
AAAGCCAAAGGCCATGGCCAGTTCTGTAGGAGACAGGAGGCATTTTCTCAGGAGAAAGGTACAGACCATGCATAAGGACTGTGGAGATGAGGCCCCAGAT
GGAAAATTGGAATCAAGTGAAATACACATACACTCCTCAATGCCAGCAGCTAGGCTTTAACCAAGAAGCAGAGGTTTGGAAGGTCCTCTAGGGAAGCTGA
ATTTCCCCAAGGCGTTTGGAGGTACCAGTGAAAATTACCCTATGATTAATGTCCTTTTACAAAGAGCTTCCAATAAACTTTTTAGAGCAGTCTCCACCAA
GAAGGAAATAAATCAAAGATAAGAAGGAACTAAGGAGAGACAGACCATAATAGTCTAAGGGAGATAAGGTAGTACATTTTAAAAATAAGGACAATATGCC
ATATGCTTATTTTTAAAAATCAGAACAAGAAAGTGTTTTTGGAAATTAAAACAATGATAGCTGATGTAATTTTTTAAGTGAAAGGGCTGGAAGTTAACAT
CAGAGAGATCTCATGAAAGGAGAATAAAGACATAAGGGTGGGTTATAGGAGATAAAAGATAAGCAAATGAGAGGACCAGTCCAGGAGAACCAATATCTGG
CTAAGGGACATTCTAGGCAACAGAGTGAAAATCAAGGGGATGGAAATACTAATGAAAAAAATAAAAGAAAATCCCCCAGATTGAAAGGCCCAAACAAGTG
CTCAGCAAAGTGAAAGAAGAAGATGTACATTGAAGACTATCCCTATGAAATTTCAGAAGAGCAAGGATAAAGACAAGATTCTAAAATTTCCCAAAAAACC
AACTGACATACAAATGCTCAAGAACCAAAATGGCATCAGAGTTCTCAACAGTAACACTGGCACCTAGAACATCCTGAAACAAAGGCAACAGAACTTCGAG
TGGAAATAATTTTCGACCAAGAATTCTAAATCCAAACTCTGCCCTGTGAAGGTAGAATAAGATGTTTTCAGATATGAAAAGTCTCAAAAAATTGACCACC
CTGCACATCTGTCAGGAAGCTAAGGGAAGATGTACTCCACTAAGACAAGTGGGTAAACAAAGAAAGAAGACATGGAATCCAGGAATCAGGTATTCAATGT
GGAGGGAGGCTAAGGAGATTCCTGGGGTGACGGAAAAGGAATGCCTTCACTCAGGAGCCATGAAACAGAGCCTCTGAGAGCCACCACCACCAGTCCAGAT
GTAAGTAGGAAGTTGGTGAGCTCCAGAAGAGAGGCATATCAGTGGGGGCTGGGGAAGGGCTGGAGAAAAAAAATGATAGATTATTCTGACAGAGTTGATT
CTGTGGAAAATTGTATTAAGAGGTGTTTTATAGCAGTTGGTGGGGGTGGGAAGCTTTAACTATAAATTCAAATTAAAAAAGGAACAATTGTTATTAACTC
AGCAGTGAACAGTATTTACCTGGTCACAACAATAAAAAGTTCAAATATAGATTTAACAAAAAATGGTGATAACTTATAACCACGGTGGGAGGATGAAGGT
GGAGAGAGGGTGTGAATAGAGCTAAAATCCTCATTTATCATAATAGAAAGGCAGGAGGTAATATCTAAAATGGATGATACCAGAGATAGTGGAATTCATA
TAATTATCTAGAAATCTGGAGATAAACACCAAGATAAACAGCCAAGAGATTTAGGGGGATTGATTTGTGGGGGAAGACGGTGCAGGAATCACTGCCTTGT
TTGTAAGTCTTTATAGCACTGTTTGGCTTTTAAACTATGTGTATGCATTATTTTAATAAAAATAAAGATTTATTTAAAAGAGAGAGAAGTTGCATGTAGA
ACACTAATATGATGCTTGGCACATGGTAGGTATCAAAAATGCTTGTTGAATTGTATCAAGCTACCTTCTTTTTTTTCTTTTTTTTTTTTTTTTGAGACGG
AGCCTCGCTCTGTCGCCCTGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTCCCGAGTTCACGCCATTCTCCTGCCTCAGCCTCCC
CAGCAGCTGGGACTACAGGCGCACGCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCGGGAGGGTCTCCAT
CTCCTGACCTTGTGATCTGCCCGCCTTGGACTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCTGGCCTCAAACTGCCTTCTGACACAGATAG
AGCCCACTGCCCCAGCTCTCATCCCAGGATGTTTGAGAATCAGATTCTCAGAAGTCCTTAGAAACTTTTTTCTCCAGAAATTCTTATGGAGAAAATTTAG
TTGAAGCGGGGGCCTGGAGCCAATGGCCAATGCTTTTCCAACACATTGCACCCCTGACTCTGCTCACCTCTCAGGGAATTCCAGAAATAGTTATAGTTGA
AGAATAATGGGAACAGGGACCCTCAGTGCTTTTCCTGATCCAGCGTCATGAAGTCTGGATGGGACTGAAAACTCCCAGCTCTTCTCAGCTTTTCTCTGGG
TTCCTTCAAACCCACCTTCCCCCACCCGATGCATTCAGCGCACAGTCACTGAAAACGTATCCTTAGGGATACAGCAGTGGGCAAGACAGACACAGTGCCT
GGCCCTGTGAATTTTTAAGCACAGATACTCAATCATAGTCACCGTGAAAGGTGATGAGGTTACCAAAGGCACACACTGGGTGCTATGAGAGCACATATCA
GGATCACCCAATCCAGTTCAGAGGGTCAGATAAGTGATGTCTGCTCCTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCAGGCTGGAGTGCAGTGG
CGCAATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCGGGTTCAAGTGATTCTCCTGCCTCAGCCTTTCGAGTAACTGGGACTACAGGCGTGTGCCAC
CACACCCAGCTAATTTTTGTAATTTTAGTACAGACAGGTTTTCACCATGGTGGCCAGGATGGTCTCGATCTCTTGACCTCGTGATCTGCCCGCCTCAGCC
TCCCAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCAGGCCAAGTGATGTCTGCTCTTTTAACATTCCTGGTCCTTGCAGTGAATTCCCATGTGACAT
GTTTTCGAGTTGTAAGCCTCCAGTTTTCTTCCTGGACACACTCTATTTGTGAATTTCTCTCTCTCTTTTTTATTTTAGAAGGAGTCTCGCTGTGTCCCCC
AGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCCACCTCCCGTGTTCAAGCAATTCTCCTGTCTCAGCCAAGTAGCTAGGACTATAAGCAC
ACACCACCACACCTGGTTAATTTTTGTATTTTCAGTAGAGATGGGGTTTCCCCATATTGGTCAGACTGGTCTCAAACTCCTGACCTCAGGTGATCCACCC
ATCTCGGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCACCGAGCCCAGCCTATTTGTGAACCTTAACACTAACAGTGGTCTTTATATAGTTTAAGCA
AGTTGAGGAGTAGCATTTTGTGGGAGTTCTAGAAATACTTCATAAAATAATACCAGCTACTAATCATCAAGCACTTACAATGGAACAGGCACAGTGCTAT
ATACATCACCTTTATTATCTAATGCTCATAATAACCCTGTGAGATATATATTTATTACAGGTGCAGAAACTAAGGTTCACAGTGAATATCTTGTTTCAGG
TCACGCAGTGAGCCAACATTCTTACCCACTTTTCCTGGTCCTTCCCTGTTTCTCATAACACAGCCCGCAGTGAATGAACTTTGTTGGAACTTATACCATA
TGGTTCATGGCTATTAAATTTTCAGACAACTAAGACTTCTGAGTCATTTTCCAGTATGAGCCAGTGTCATAAGAAAGTAGGAGGCAGGGGCCGAGGAGGT
CAGGGAAGCAGCGGTGGATTCTCCATAAGAAAGGGAGAGGTCACCTGAAGCAGAGAAATCAGCTCTCAGCCTTCAAACTCCTCCTCCAGGGCTTCAAATC
CTTCTCCCAGCCTCCCTCCTTTGGGAGGACTTCCTCAGTCCTGTGTTATACGTTCCTCCATACTACAGAGATTGTCGATTGGTACCAAATATGCATTCCC
TCTTTCTCCTTAGTAAAGGAACCCCACTTTCAGAGTGACACATGGCCTTCCAGAATATGTGACTTACTTACAGCCAAATGGGATGTAAGCAGAAGTGTTC
TGTGTGGTTTCTGGAGGTGGAGTCCTCATGATCAGGTTGGTAGAGCAACCAGCCTCAAGAAGGAACTGGGCCTCTTAGTACCTTTGAGAATGTAGAATGG
CCAAACCAACCCTCCCACAAGGGAGTGCCTATCCCTAGGTTTTGTTTACATGAGAGGAAAGTGAATGCTTTTTAAAAGCTACTGTAATTTTGGGTTTCTT
TC


SNP Information

Context             (SEQ ID NO:55017):
GGACGGTGTGCCATTTACAAAGGTGGGGAAGAAATGGGGAGCAATGGGTTTTGGGGGAGAAATCAATAGTTCTGTCTAGTGCTGATTTAACTCCAAAATC
K
GGTTCAGTTATCTTTTAGTTAGTCTTAAGTTTGGGCTTAGAGAATTGTGGCAAGCCACTTATTCAAGGATTACTTATTCATTCATTCCCCTAATCTCTAA
Celera SNP ID:            hCV3104230
SNP Position Genomic:     23502
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55018):
CCTTGTCCTCTGGCCCCTTGGGCCTGGTTTTCAGGGGTCTCTGTAGTGGCCCTGCCTCCATCTCTAGATGCACGTCTTGCTGGTCTCCTGCACATGCTCT
R
TAAACCAACAAGAGCTACCAGCAGGTGCATGTCACCTTGCCTTTGCTCATGTTATTCCACTACCAGGAATGCCCTTCTCCCATATCTCTGTCTATCTAAA
Celera SNP ID:            hCV3104231
SNP Position Genomic:     26183
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55019):
TTAAGGACCTAGAATAAGTGTGTTGTCCTCTGAATTCTTTGTTGCTCACATCATTCAACATTTTTCTTTCTCTTTTTCCCACATTCCTCTTTTTAATTGA
M
ATAAACAACTATGTCCCACCTCTTTCCTAAGTGTTTTAAGGTGGCCCAGATAACAAAAAATAAGGAGACAGGTGGATTAGAGTTCCAGCACACTTTCTAG
Celera SNP ID:            hCV3104232
SNP Position Genomic:     26396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,9)      total(A,9|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55020):
GCCTCTCCTAGCCTGGGGCCTTTGGTGACCTCCCTTTCCACTCACTGCCACAGCTCCTGCAAGTCCCCATGCTGGACAGCTGCCTGTCCACTGGGTTCTG
Y
CTTCTGCTGCCTCATCCTCCTGGCTCTTGGCTGGCTCCTGGCCTCTGGCCCTGCCTGAAACTGAGGCTCAGAGAAGGGAAGCGAATTGTAGAAGGTCACC
Celera SNP ID:            hCV3104233
SNP Position Genomic:     30065
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|T,9)      total(C,6|T,9) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55021):
TCCTCTAGATTATCCTGGGAGAAATAACCCTCACCCATGGAAACCAGAGCCTGATAGCTCCCTGCCTAAATCTCTCCAGTGGTTTCCCTGTGCCTTTAGA
M
CAAAATGCCTTAGCATCACCTCCAAGGCCTGGCAGATTCTGACTCCTACTTTACCTCTAACTTCTCCCCTCCACCTCCATTCATGTGCCCCATCCACTTG
Celera SNP ID:            hCV3104234
SNP Position Genomic:     30614
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|A,13)      total(A,13|C,3) ;no_pop(A,-|C,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55022):
CTCCAGTGGTTTCCCTGTGCCTTTAGAACAAAATGCCTTAGCATCACCTCCAAGGCCTGGCAGATTCTGACTCCTACTTTACCTCTAACTTCTCCCCTCC
R
CCTCCATTCATGTGCCCCATCCACTTGAACATTATTCCCAATGATGCACCAAGCTCTTTCCCTCCTCATGGTCTTTGCACATGCTGTTCCCTGTGTCTGA
Celera SNP ID:            hCV3104235
SNP Position Genomic:     30687
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,12)      total(G,3|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55023):
TCCACTTGAACATTATTCCCAATGATGCACCAAGCTCTTTCCCTCCTCATGGTCTTTGCACATGCTGTTCCCTGTGTCTGACAAGGTCTTCCTTGCATTC
R
TTACCTGGCTAAGTCCTTATTCTCCTTTAGGCCCCAGCTTAAAAGACAAAGGTGCAAAGAAGCCTCTTCTGCTCTCCTAACTTAGGTATCCATCACTAGT
Celera SNP ID:            hCV3104236
SNP Position Genomic:     30807
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,12)      total(G,12|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55024):
GTCTTTGCACATGCTGTTCCCTGTGTCTGACAAGGTCTTCCTTGCATTCGTTACCTGGCTAAGTCCTTATTCTCCTTTAGGCCCCAGCTTAAAAGACAAA
K
GTGCAAAGAAGCCTCTTCTGCTCTCCTAACTTAGGTATCCATCACTAGTATTCTCACACACAGCATTTCACTGTTGGTTTTTTAGAGCAACATAGCTAGT
Celera SNP ID:            hCV3104237
SNP Position Genomic:     30858
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,13)      total(G,13|T,4) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55025):
GTCGGAGACAAGCTTCTGAAGCAGAAGGTGGCCATGCCCGTTATCAGCAGCAGGCAGGACTGTGATTCTGCCACTTCTACTGTCACAGACATTCTGTGTG
M
CGCCGAGGTCAAGAGCAGCAAGGGGACAGAGGACAGGGGCCGCATCCTAGGTGACTCCAACTTGCAAGTCAGCAAGCTTCTGTCCCAGTTCCCACTGAAG
Celera SNP ID:            hCV25639065
SNP Position Genomic:     37822
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,34)   caucasian(C,38)   total(A,2|C,72)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,40)   total(A,2|C,76)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55026):
TTCCTTGCATTCGTTACCTGGCTAAGTCCTTATTCTCCTTTAGGCCCCAGCTTAAAAGACAAAGGTGCAAAGAAGCCTCTTCTGCTCTCCTAACTTAGGT
R
TCCATCACTAGTATTCTCACACACAGCATTTCACTGTTGGTTTTTTAGAGCAACATAGCTAGTGGTTAAGAGAGAGGCATTGGAACGAGATTGCCTCAGA
Celera SNP ID:            hCV3104238
SNP Position Genomic:     30895
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,16)   total(G,1|A,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55027):
TCGGAGACAAGCTTCTGAAGCAGAAGGTGGCCATGCCCGTTATCAGCAGCAGGCAGGACTGTGATTCTGCCACTTCTACTGTCACAGACATTCTGTGTGC
Y
GCCGAGGTCAAGAGCAGCAAGGGGACAGAGGACAGGGGCCGCATCCTAGGTGACTCCAACTTGCAAGTCAGCAAGCTTCTGTCCCAGTTCCCACTGAAGT
Celera SNP ID:            hCV25639066
SNP Position Genomic:     37823
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55028):
AGACTGTGAATCCCTAAGGAAGTTGCGATGCTGAAGGTGTCCTGGCCTCTCCCTGCCTCCATCACTGACCCGCTTTGCCTCTCCTGTGACTTGCAGTTAA
Y
GCACCTGTGACGGTTGCTGACAAGAACAACCCGAAGTACACAGGGAATGTTTTCACTCCACACTTTCCTACAGCCATGACCTCAGCAACCCTGAACCAGC
Celera SNP ID:            hCV25639067
SNP Position Genomic:     42368
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,38|T,2)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55029):
TTGATATATAACAAACCACCCCAAAGCTTAGTGGCTGAAAACTGTGACTCATTTAGCTCTCATTTCTACAGTTTGGCAATTTGGGTTGGGTTCAGCTGGG
R
GGTTCTTCCGCTGTGGGCTGGGCTTGGCTGAACTTGGCTCATGCTCACCCAAGCATCTGCACTTAGCTAGGTCTGGATTGGCTGACACAACTTGGAGTTT
Celera SNP ID:            hCV3104239
SNP Position Genomic:     31214
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,10)      total(G,5|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55030):
TTCGTCGTACTCAACAGGCAACTCAAGCTCCTCCTCCTCCAGGAAGCATTACTTGTTAACTCTCGTCCACACAGATTGCTCCTCTTCCTGGCCCTCTAGC
R
TACATACTGTCTAGATCATGCCGGTGGCCGTTGATCTGATCAGAAGTTCTCAACCTGGAGGACCTAGCTGCATGTGTGCCAATCAGATATGAGCTGTGTC
Celera SNP ID:            hCV8702371
SNP Position Genomic:     57531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55031):
ACATCATTATGATTTCTGAATGATCCTCCAATATGATTTCTGAAAGAGAGAAACAGAGGTGGGGTTACCGCTGGCATGGATTGCTTATGAGGGACCCACA
Y
TGTGTCAGGCCCTGGGCACATGATATGAAATAGGTAAAGTCTCTGCTCTCTTGGCACTTATTTTAGTGAGAAGCTAGTGAGACAACCCAGCCCAACTTGC
Celera SNP ID:            hCV8702372
SNP Position Genomic:     57830
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   Caucasian(T,13|C,71)   African-American(T,25|C,59)   Asians(T,8|C,76)   total(C,206|T,46) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55032):
ATCTCCTCTTCTCCCTTCTCCTCCCTTAGCCCTTGGATCAGGACTAGGGGCTCTGATTTTTGGATTCTGCAAAAGCTTGGTATGAAGTTTGGAAAAGCAA
R
GTTCTGACCAGGTCACAGACAAAACAGCAAGACCAGATTCATCTATTGGCCAACACTGACACAAAAATAGCCCTCCTCACACATGGCACAAGCTACACAC
Celera SNP ID:            hCV8702373
SNP Position Genomic:     59140
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,17)   caucasian(A,24|G,12)   total(A,43|G,29)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:55033):
TTTCCTCTGTGTGACATGTTACCCTGGGCTTGTTCACATGGAGGTTGCAAGTCCCAAGAGAAATAGGAAACTAAGCCCTAATTCCCAAACACTTTTCAAG
Y
CTCCACGTCTTACAAATTAGGATGAGAGGGAACTACCAAAGAGTATGGATACAGGAGGTTGTGATAAAATGGGGGCCATTACTATAATTAGTCTAACACA
Celera SNP ID:            hCV3104240
SNP Position Genomic:     31413
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,11)      total(C,3|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55034):
GCTTTAGCAATGATTAACATATGGCCAATCTTGTTTCATCTATTACTCCCTCTCTCTTCTTTTCCCTCCTCCTGCTGGATTAATTTTAAAGGCATTCCCC
R
GCATAATTTTCTCTGTAAATAGTATGTATCGCTAAGAGATAAGGACTCTTTGTTGTTGTTAGGCATAACCACAATACCATTATCACAATTTTTAAAAATT
Celera SNP ID:            hCV8702306
SNP Position Genomic:     34977
SNP Source:               dbSNP
Population(Allele,Count): SG_12_AA(A,2|G,11)   total(G,11|A,2)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55035):
TAATTCCCAAACACTTTTCAAGTCTCCACGTCTTACAAATTAGGATGAGAGGGAACTACCAAAGAGTATGGATACAGGAGGTTGTGATAAAATGGGGGCC
R
TTACTATAATTAGTCTAACACACTACCCCACTGGGGCTGTTGGGGGGATTAAAATGAGAGTTTTGCTTGTAAAGTGCTTAGCACAGTGCCTGGCTTGTTA
Celera SNP ID:            hCV3104241
SNP Position Genomic:     31491
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,12)      total(G,3|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55036):
TAAGCCACAGCAGCTGAGCTCCCCTATGGGACTCCTTGATTTTTTCCCTTGGGTCTTCATCATCTTCTCCTTCAGCGCTCCCATGATAGAAGGCTGAGTA
S
TTTCCAGAATGCTTGGTGTGGGCCACCTCATCCACTTCTCATAGGAGCCCCTTGAGTAGGCACAGCAGATGGTTCTAGGCTGGTGGCTCTTGTCCTCCTG
Celera SNP ID:            hCV8702307
SNP Position Genomic:     36331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55037):
CTACCCCACTGGGGCTGTTGGGGGGATTAAAATGAGAGTTTTGCTTGTAAAGTGCTTAGCACAGTGCCTGGCTTGTTAATTAGCACTAAATAAATAATGA
R
CCCTTCTTATTATTTTGTGAAAAGGACCTAAGGCTTTGACATATTAGGTAGCTTCCTTTAGGACAGCCCTCTCCCTGACCTCCCCCACCCCCATTAAACG
Celera SNP ID:            hCV3104242
SNP Position Genomic:     31614
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,9)      total(G,9|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55038):
CAGCAAGTGTGCAGCGGAGGACCCAGGGTCCAAGGGGCAGGTTGAGGCCATTATTTAGGTTCAGGAAGATCCTGGTGAATCAGTGCAGGGATCAGTGCAG
R
GATCTCCCCACTGCTGGTGCTGTACATGAAGGGAGGCCCAGTCCAGAGGCTGTGATCGGGTCAGAGGCCATGCCAGAGTGAACATGAGTATCCAAGAGGC
Celera SNP ID:            hCV8702308
SNP Position Genomic:     36679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55039):
TCCTTTAGGACAGCCCTCTCCCTGACCTCCCCCACCCCCATTAAACGGTGGGGATTTGAATCTAGTTTCCACCTCCCTCCAGGGACTGACCTCTTAACTA
R
TATGCTGTGCTGCTCTACCCACATAGACACATAATGGCAGAAACTCACCCAAAGCCATGAGGTCAGTCTGCAGATGGACCACAATTCAAGCCCAGGTCTG
Celera SNP ID:            hCV3104243
SNP Position Genomic:     31768
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55040):
CTCACGGCAAATGCAAGGGAAATATTAATTGTAGAGGCTGGCAAGAGAAGAATGGATATCCTGCGGCAACCTTTCAAGGGCACGTAGCAGGGCTCACAGC
Y
GGGGCGGGCCCATATGTTCTTGACACACCAATGCCAGCTTTCTAAGAGCCTCATTGATTCCTGTGGTATGTAGAGGAGAATGGCCTGGAGGGGTTGGTTC
Celera SNP ID:            hCV3104244
SNP Position Genomic:     34151
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,9)      total(C,7|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55041):
GCAAGGGAAATATTAATTGTAGAGGCTGGCAAGAGAAGAATGGATATCCTGCGGCAACCTTTCAAGGGCACGTAGCAGGGCTCACAGCTGGGGCGGGCCC
M
TATGTTCTTGACACACCAATGCCAGCTTTCTAAGAGCCTCATTGATTCCTGTGGTATGTAGAGGAGAATGGCCTGGAGGGGTTGGTTCTGGAGGCCATAT
Celera SNP ID:            hCV3104245
SNP Position Genomic:     34163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|A,10)      total(A,10|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55042):
TCTGACCTTGACAGATGAGGAATACAAGGTGTAGAAGGCAGCTCTTGAGAGGCAGAGCAGGGATTCACACTCAGCCCCTGGTAGTTCCTGTCTGCTAGCC
Y
GGCTTCAGGTTGGGGAGGGCAGGAGTGACCTCCCAGGTGCTGAGAAGGGACCATCATGGGGTGATTTTTGGTACAGGGATCTCAGGGCCCTGTGGGGCTT
Celera SNP ID:            hCV3104246
SNP Position Genomic:     34665
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,15)   total(C,1|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55043):
GTAGGATTGCAATCCTCTCTACACCTGGAGAGAAGTGGCAACGAGGAGCCTAAAAGCCAGGAGACCATCAGGTGCTATCAGACAGGTGCAGACCAGCAAG
K
GTGCAGCGGAGGACCCAGGGTCCAAGGGGCAGGTTGAGGCCATTATTTAGGTTCAGGAAGATCCTGGTGAATCAGTGCAGGGATCAGTGCAGGGATCTCC
Celera SNP ID:            hCV3104247
SNP Position Genomic:     36586
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,12)      total(G,4|T,12) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55044):
TGCTTTGCACCTCTATGATACTCCTAGTAATGAGAGGAGGAGACAGAATACCAAGATGCTGAACAACCTGCCCAGGGTCACACCGATGGGAGTTGACTGG
R
TCAGGGTGTAAGCTTAGGCTGTCCACTCCACCATTCTGCAGTGAGGTGATGGGGGCTGCGCTACTCTCCTGGGGGCTTCCCAGGGCTCAGCCCCAGCACC
Celera SNP ID:            hCV3104248
SNP Position Genomic:     36985
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55045):
TGTTTCTCCCCAGGGCCTGTACCCACAGCAGGCAGCGAGGATGCCCTATCAGCAGGCTTTGCACCCGCAGCTGGGATGTTACTCCCAACAGGTGAGTAGA
Y
GATCTCTCCTCCTCTGTCCTGGGTCCATGAAGGCCTTTGGGTCAGAGGGTGCATCTGCTCCCTCCTCCTTTTCCAGCTGGTGACCAGACACCTGGCCCAC
Celera SNP ID:            hCV25639077
SNP Position Genomic:     48520
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,40)   total(C,73|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:55046):
CTCCTGGCCTGGTTCCAGCTGGCCTCAGACAGCCCATGGGTCTGGTCAGCAATGTGATGGGACAAACTCAGTCCTGTCTGGGAACTGAGCTGAGTAGCTG
M
TGCCTTCTGGCAGGAAACCCCTTGCCTGGCCATACTGAGCCTCTGTTTCTCCCCAGGGCCTGTACCCACAGCAGGCAGCGAGGATGCCCTATCAGCAGGC
Celera SNP ID:            hCV25639078
SNP Position Genomic:     48376
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,9)   caucasian(A,36|C,2)   total(A,65|C,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:55047):
CTGAATCAGGGACTTTTAACTATATGGCGAATCTCGATGGCAGCGAAGTGTTTGATAAAGGCTCTTGGGAGGGAATGGAGATGTGATGACAGTGATGGGG
W
TGATTTATTCCCCCAAAATGTTGATCCAGGATTACTGTCAGGCTGGGAGGAGAGTCTCCGGTAGTGTCCCTGAGGCTCTGCCCCAGACTCTCTCCTGTTC
Celera SNP ID:            hCV15934412
SNP Position Genomic:     33491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55048):
GAGCTGGAGTTATGTGCCAAACACTGTTCTAGGTTTGGAGGCCTCTGTGGTGAACAAGATAAAGTCCCTGCCCTTGTGGAGTAAGGACACAAAAAGGATA
Y
TATTAAATTAGGTGATGGTACAAACGCTGTGAAGAAAATAAACAGATTGACAGAGGAAGGTGGGGGAGGGACACTTTTAAAAATAGGCAGGAAAGGCTAC
Celera SNP ID:            hCV15934413
SNP Position Genomic:     32910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55049):
ATGGCAGAAACTCACCCAAAGCCATGAGGTCAGTCTGCAGATGGACCACAATTCAAGCCCAGGTCTGTGCCTGACCCCAGAGCCCTCCACTTCACTCTAA
Y
CCGCCAGGTTGCCTTGGGTACTGTGTTTGTCATTGGTCTAAAATTTCATAGCTGGAAGAAAATATTTGTTTTGGTATCCTCCTCCAGCACTAACAATTTT
Celera SNP ID:            hCV15934414
SNP Position Genomic:     31902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55050):
GAGACAAGCTTCTGAAGCAGAAGGTGGCCATGCCCGTTATCAGCAGCAGGCAGGACTGTGATTCTGCCACTTCTACTGTCACAGACATTCTGTGTGCCGC
Y
GAGGTCAAGAGCAGCAAGGGGACAGAGGACAGGGGCCGCATCCTAGGTGACTCCAACTTGCAAGTCAGCAAGCTTCTGTCCCAGTTCCCACTGAAGTCCA
Celera SNP ID:            hCV8702315
SNP Position Genomic:     37826
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,13)   caucasian(C,37|T,1)   total(C,62|T,14)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,14)   caucasian(C,39|T,1)   total(C,61|T,15)   
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55051):
TTCTGCCACTTCTACTGTCACAGACATTCTGTGTGCCGCCGAGGTCAAGAGCAGCAAGGGGACAGAGGACAGGGGCCGCATCCTAGGTGACTCCAACTTG
S
AAGTCAGCAAGCTTCTGTCCCAGTTCCCACTGAAGTCCACTGAGACATCCAAGGTCCCTGACAACAAGAATGTGCTGGACAAGACAAGGGTCACCAAGGA
Celera SNP ID:            hCV8702316
SNP Position Genomic:     37887
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,29)   caucasian(C,29|G,9)   total(C,38|G,38)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,19)   caucasian(C,16|G,4)   total(C,23|G,23)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55052):
GCTGGGCTAGGGGGCCAAAAGCTGGTGGGATCTGGTCTATTATTATCAACAGGTAACACTGAGGCACAGGTCCTTTCTGGCTGCATCCAGACAGATCCCG
R
TGCCTGCTATTGGGCAGCACAGTGCACAGCCATCTGGTGGGTGGCCAGGTTTCCCACCACTGCTGTGGAGGATCCTGTGATGGTCCCCAAAGTATGTCTG
Celera SNP ID:            hCV3104250
SNP Position Genomic:     39898
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55053):
TCCTACAGGACAACCTGTTCAGTGGCCCTGGACCCAAGGAGCCCACAGGGCTGAGCCCATTTCTGCTGCTGCCTCCCCGACCTCCTCCTGCACGTCCTGA
S
AAGCTCCCTGAGCTCCCTGCTCAGAAGAGGCAGCTCCCAGTGTTTGCCAAGATCTGTTCCAAGCCCAAGGCTGACCCTGCTGTGGAGAGGCACCACTTGA
Celera SNP ID:            hCV8702317
SNP Position Genomic:     38090
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,4)   caucasian(C,30|G,8)   total(C,64|G,12)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55054):
CTTTCAAGGGTCACGTCAGCATTATTAATGGTCACTTCTGAATATAGCCCTGACCCAGCATGTATTATATCCTCTCAAATTGCCCAAGCCAAAACAAAAG
W
TCCTTGCTTTAGATTATTTCTATATTGAGATTATGTTCCCGCTTTCTTTTCCTACAAGGGTTCTAGTCAAACCTCTTTTCCCAAAAGGATGCCAATAAGG
Celera SNP ID:            hCV3104251
SNP Position Genomic:     41614
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,12)      total(A,12|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55055):
ATCCTTGCTTTAGATTATTTCTATATTGAGATTATGTTCCCGCTTTCTTTTCCTACAAGGGTTCTAGTCAAACCTCTTTTCCCAAAAGGATGCCAATAAG
R
GGAAACTGAGGACCCATTTCTGATTTTATAAGCCCCCACAACATCTTGTAGAAAGGAAGAATCCAGGATTCTGATCTTGAAACAACTCAACCTAACTTCA
Celera SNP ID:            hCV3104252
SNP Position Genomic:     41714
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55056):
CCATGACCTCAGCAACCCTGAACCAGCCACTCTGGCTCAACCTGAACTATCCACCTCCACCAGTGTTCACGAATCACTCTACCTTCTTGCAGTATCAGGT
M
AGTGAGCTGGCCTGGCTCTCCTGTGGACATCCACGGGGGTTTTGGCCACAGAGAAGGAGTGGCTGGCAGGGGGTCTATTTCACAGAGTCTTTAGACTCCT
Celera SNP ID:            hCV3104253
SNP Position Genomic:     42542
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,34)   caucasian(A,9|C,31)   total(A,13|C,65)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,10)   total(A,5|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55057):
GCATAATTTACCTTCTCCCAGCTTCTGTGATCTCACAATGCTGTCCAGCTTCAACATAGCTGATCAAGGGGCCTGAGATAATAGCAGGCAGGTTTTGAAA
Y
CAGTAGACTTGACTTTAAAGGTTCTGCTGCTTCCAAGTTAGGCCTTAGGCTGGTTAGCTGCTCAGAGCCATGGTTCCTCATTTGTGAAATGGGTTCATAA
Celera SNP ID:            hCV3104255
SNP Position Genomic:     45707
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55058):
GCACATTGAGGGGTATTGAGTCTTGGGGCAGGGATGGGGGTGTGAGGAAAGGAGCTTAGAATGGAGGAGCAGAGGGCACCAACACCCAGCCTGCCATAGC
M
CCAGGCTGGCCTTGCTCCTCCACACAAATGTGGACACCCCCACACTCCAACTCATACAACCTCTGCCTCTCCTGTCTCCCCAGGGAGCCCCACCCTCCGT
Celera SNP ID:            hCV3104257
SNP Position Genomic:     49785
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,9)      total(A,9|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55059):
TCTGGGATGAGAGATGATCTGGGTCAGGGAATCTCAGCCCCATTGCCTCCACCCCTTGAACAAGAATATCGTCCACCTGGCTCCAGAGAGAATATTTTTA
R
ATAATTATGTGTATGTGTATGCATGCATGCATGTGTATGTATTTGAAAAAAGTAATATAAAAACATGGTAAAAAATTTTAAAACTTGGAGGCAATCACTG
Celera SNP ID:            hCV3104258
SNP Position Genomic:     50120
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55060):
GAAAGGAAAGGGTACCACTTAGAAGACTACTGCAATAGTCTGAGCCAGGAAACATGGGGGCAAAGGCAGAGATGGGGACCCTGGAAACATCTGCAGGGCA
R
TGGAGAGGCAGGAGTCAAAGACATAACAGCCTACCCGCATCTAGCCTAGGAGAGTGTGGGTCTCAGCCCAGCCCCAAGTGCTGGCTCCCTGCCTGCCCCT
Celera SNP ID:            hCV1885405
SNP Position Genomic:     9588
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55061):
TGGGTCAGGGAATCTCAGCCCCATTGCCTCCACCCCTTGAACAAGAATATCGTCCACCTGGCTCCAGAGAGAATATTTTTAAATAATTATGTGTATGTGT
R
TGCATGCATGCATGTGTATGTATTTGAAAAAAGTAATATAAAAACATGGTAAAAAATTTTAAAACTTGGAGGCAATCACTGTTTAATGGTTTTTTACATA
Celera SNP ID:            hCV3104259
SNP Position Genomic:     50139
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55062):
ATATAGCATGTGATGGAAATAAGAAGGGCTCCTAGCTCAGCCTATGGGAAAGGGCAGGTGAGAACCAGCACTTTCTAGGAAGAAAGCACAGAGTGGGCCA
S
CTCAGGGAGGGAGGACACAGTGTGTAAATCTGCAGCACTCACAGGGTACCAAGGAAGGGTGTGGGGTGGAAATAGACCTCTCTTCTGACTCAACAGTCTC
Celera SNP ID:            hCV1885406
SNP Position Genomic:     10803
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55063):
TTGGCATACCTATCACTACTGGGGTCTGGCAGAAAAACCAAAGCAGGAGGAAAGCCAGCTGAATTCTGACTTTGTTGCTACCTCACTGGACCACTACTGC
Y
ACCACCATATTCTTTTATTCTGTCATCTAGGACCTTCCTTTTCCCTAACTTTAAGTGGAGATCTCATAGGCTGCCATTTTTACATTGCTAGGCTCTCAAT
Celera SNP ID:            hCV1885408
SNP Position Genomic:     12590
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55064):
GATGAGTCCTTTAAAGAGGTAGCTAAGATTAAAAAAAAGAAAAAAGCCATTAGGGTGTGTCCTAATCTAATATGACTGGTGTCCTTTAAAGGAGTGATTA
R
GACAGGGACACATATACAGGGAAGACCATGTGAGGACATAGGGAGAACACAGCCAAGTGCAAGCCAGCGAGAGAGACTTCAGAGTGAAACTAACAATGCC
Celera SNP ID:            hCV1885409
SNP Position Genomic:     14935
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55065):
GCTGTTGAGTCATAAATTTGTGTTTGTTTTAATATAATAATACATAGCCATTCATTCCCACCCACCAAATCTTCCACTAATATGGATGCTCCAAGGGGCA
S
GTGGTGCCCTGTCATTCCTGGGAATCCCAGTCTCCCGGGCACACCCTGGGGAATGGGTGCCTGGGTTTGAGAAACTCACTTTATAGGATTAAGGCCAACC
Celera SNP ID:            hCV27996064
SNP Position Genomic:     53398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55066):
AGCCAGCACAAACTCAACATTCTGGCTGAAAATTCTACTCAAATTGTGCATGCTGTTGAGTCATAAATTTGTGTTTGTTTTAATATAATAATACATAGCC
W
TTCATTCCCACCCACCAAATCTTCCACTAATATGGATGCTCCAAGGGGCACGTGGTGCCCTGTCATTCCTGGGAATCCCAGTCTCCCGGGCACACCCTGG
Celera SNP ID:            hCV27996065
SNP Position Genomic:     53347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55067):
GGCAAATTGGTGGGAGCCGCCCGGCCCAGCCTGCCTTGCCGAGTCAGCGCGCTCTTGAGCCGCTGGGCCCTTCCCGGTGCCCGCCTGGCAGCGCGGCGCG
R
CTGGGGCAGGGGTCTGCTGGGGGCCGGGGACTAAGGGCTGTGGGCCCATCCACACACGCCTCATCCCTTCTTTCCGGGGGCAGCAGAGCAGCAGCGGGAG
Celera SNP ID:            hCV27996066
SNP Position Genomic:     17369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55068):
GCACAGCTTTTGTAAGCAAACCCAGAGGCCCTGATCTCAACATACTTTGAGAAGAGAAATAGGCGCCATGTAGTAATTGGCTTAACTTTGGAATCAAACG
R
GTGTCCAGAGTACATTGAAGGAAGTGTTTACCCTAGCTGGGTTCAGGGTGAAACTACAGCATGGAGATGCCAAGATGTATAGAAGAGAAATTTGATTGGT
Celera SNP ID:            hCV8702325
SNP Position Genomic:     38491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55069):
CATTCATCATCTCACTTAATCCTCACTGCGGCCCGGAGGGTGGAGGAGGGCTGGGGGTGGGGAGGCCAAAGCTTTCTCCAGCCCTAAGCTTAGTCCCCTG
M
CTCCTATCAGGAAAGTCCCAGGAGACAGAGCTTAAGGGTTTTCCAGGTACCTTTGGGACACGGGTTCACAAGCCCTGGTACCGCAACTGAATGAATCTGC
Celera SNP ID:            hCV8702253
SNP Position Genomic:     29066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55070):
TGGAAATAATAATGGCCCTACCTCACAGGGCTTTCTGGAGTTTTAACGACAGCATCCATGTGAAGGGCCGGGCACATTTTAAGCAGTCAATGAGTGCTAG
M
CTTTGTGGATTGTTTTTTTTTTTTTAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCCACCTCCTA
Celera SNP ID:            hCV3104260
SNP Position Genomic:     50924
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,10)   total(A,3|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55071):
TTTGAAGGTTTTAGTGTATTTGTTAGAGAAAATGCAAGAGTGGTGTGTCTAAGCATGTCTGTGTACACATTTGTGCATATGTCTGTCATGTATGTACTTG
W
GTATGTGTAACTAAGTCAAAGGAACAACAGATAGGAGTGTGTCTATGTCTGTGTGCCCAGACCTGGGACGAGGGAGCTTCGTAGATGTTTAAGGCATCTG
Celera SNP ID:            hCV8702326
SNP Position Genomic:     39449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,10)      total(A,3|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55072):
TGTGTGTGCACATGGGTGTTTGTACATGGCTGTGGTATATTTGTGTGCATGGCTGTGGTATGTGGGCATGGCTGTGGTACGTGTGTGCATGTGTGAATGT
R
TGTATGTGTGCATAGTGTGTGTGCATGACTGTGGTGTATGGTGCATGGGTGTATATGTGCCCGAGTGTGTGTGTGTGTGGCGGGGGGTGGCTATGGTGTG
Celera SNP ID:            hCV8702254
SNP Position Genomic:     29560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55073):
AAGCCAGAGCTGTGTAAATCACAACAGCTTTTTGGGGATAATGAAAGCCTTAAAAATAAACAAGGAGCTTTTGAGATGGTTATTGACAGAGGGAAAAGCT
R
GGCAAACAGGGAAGAGAATGGAAATAATATTGATTTGCTATTTACTATATGCCTGTCTCTCTACTTGTATCACCTGACTCTATCCCCACTAACAACGTAG
Celera SNP ID:            hCV3104261
SNP Position Genomic:     52155
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,12)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55074):
TAAATTGGCTCAGGCTAGAGCAGCTCTTTCCTTTGCTGGAATAGTGCTAGGAAGACAGCCTTAGCCCCGAAGCTCAGCCCCCAAGCCGCTGGGCTAGGGG
R
CCAAAAGCTGGTGGGATCTGGTCTATTATTATCAACAGGTAACACTGAGGCACAGGTCCTTTCTGGCTGCATCCAGACAGATCCCGGTGCCTGCTATTGG
Celera SNP ID:            hCV8702327
SNP Position Genomic:     39811
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55075):
TGGTTTCAGTAGTCAGATCTGTTTGGGAAAAGCTGTGGGAAACAGAGATAAACAGATTTCTTAACTGTTGGAATTCTCAGATCATTTAATTTCCTAGGGT
R
CACGGAGAATGTTCAAGAAGGTGGTCGATAGTATTATTTAAACATGAAATCCACACCCTTTTCTTTTTTTATTTTATTATTATTATTTTTTTGAGATGGA
Celera SNP ID:            hCV3104262
SNP Position Genomic:     53741
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,7)   total(G,7|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55076):
TACATCACTTAAGATTTTTGCAGAATTTTCTAGAAATCTCGTCTGTGCACTCTAAAAACATGCTCTATCTTTGTTCCGTATCCCTGCTGTATTTGATTTT
W
TTTTTTTTTTTTTGCAGTCCTTTCTGATTTAGCCCCCGTTGCCTGGTCTCCTGCTGAGGGGGAGAGGGAACAGGAAGAGTGAGTGAGCTGGCTAACTTCC
Celera SNP ID:            hCV1885410
SNP Position Genomic:     15538
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,7)      total(A,7|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55077):
GCTTCTTCCCTTCAGAGAACTGAGAGCAGATGAAATGTGGGCACAACAATGTTAGTGCCCTGGCAAAGTGAAAACCATCAAAGTGGCCCGAGGACAGAGG
Y
AGAATCCCTGCAGCGGGGGAGGTTCCAGTGAGCAGCACTGGGAGGAGGGCATTCCAGGCAGGAGGAGCAAGGCCCTCAGATGGGAAAGCAAGTGGCAAGC
Celera SNP ID:            hCV3104264
SNP Position Genomic:     54428
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55078):
CTTTACCTCTAACTTCTCCCCTCCACCTCCATTCATGTGCCCCATCCACTTGAACATTATTCCCAATGATGCACCAAGCTCTTTCCCTCCTCATGGTCTT
Y
GCACATGCTGTTCCCTGTGTCTGACAAGGTCTTCCTTGCATTCGTTACCTGGCTAAGTCCTTATTCTCCTTTAGGCCCCAGCTTAAAAGACAAAGGTGCA
Celera SNP ID:            hCV8702258
SNP Position Genomic:     30763
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55079):
GTGTCTGGGAGGGAGGGTGGTCTCAATGTCTCCTCAGTCAGCTTTCGGGAACCACCGACTGGGAGCTGTGAGACCAGAAGGTTGAGACTTGGTCTCCACA
Y
GTCTGCAGAGGTCGGAGGAGTGGGTAGGCAGCCCGAGAAAGGAGCAGCCTGAGAAGTGAGAGACAGCCTGGGGAAAGCCAGAGACAGTGGAGGCAAAGAG
Celera SNP ID:            hCV3104265
SNP Position Genomic:     54994
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,8|C,9)      total(C,9|T,8) ;(C,-|T,-)   Caucasian(T,19|C,63)   total(C,63|T,19)
SNP Type:                 INTRON


Context             (SEQ ID NO:55080):
CAGCTTTCGGGAACCACCGACTGGGAGCTGTGAGACCAGAAGGTTGAGACTTGGTCTCCACACGTCTGCAGAGGTCGGAGGAGTGGGTAGGCAGCCCGAG
R
AAGGAGCAGCCTGAGAAGTGAGAGACAGCCTGGGGAAAGCCAGAGACAGTGGAGGCAAAGAGGAGGGTGAGGAGAAGGAGCAGGGTGGATTGGCGTTCTG
Celera SNP ID:            hCV3104266
SNP Position Genomic:     55032
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,8|A,9)      total(G,8|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55081):
AATGTAAGGGATGCAAGCCTGAGTACCCAGAGGGGATGATCTGTTCATTCAAAAAATATTGATCCAGCACCTTGTATGTGCCTGGCACTGTTGTAGACAC
Y
AGGGATAATGAAGTGAACGAAAAAAAGGTTTTCCTTCTCCTAAGGAGCTTTCATTCTAGAAGGAGAAATGGACAATAAGGAGATAAACAGGCAAGCATGC
Celera SNP ID:            hCV3104267
SNP Position Genomic:     55271
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55082):
ATGGAACACTTTTGCAGGTTTTTAGGAAGGGGTGTGACATGAACAGATTCACTAATGTTTGAATCTCTGTCCAGCTTCTGTGTGGAGATGGTTTGTAAGT
R
TGTGGGAGAGGAAGTGGGAGGCCTCTGGGAAGATACTGTCAGAGTCCAGGGGAGGCCTAATGGTGGCAGTGGCTGGGTAGGAGTGACTGCAGTAGGGATG
Celera SNP ID:            hCV8691419
SNP Position Genomic:     22768
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55083):
AACACTGACACAAAAATAGCCCTCCTCACACATGGCACAAGCTACACACACACACACGACCCTCATATTCATACTTGCTTGCTCAACCACTTATGCATCT
R
TATTTAGCTAACATGAGTGATTTTTGTTTTTGTTTTTGTTGGTAAAATAGAAGTAAGACACTTAATTTTAGAAAGTTTGTATTTTATGATAAAAGTATGA
Celera SNP ID:            hCV3104268
SNP Position Genomic:     59292
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55084):
CAAGGGCTGAGCCTTGAGACTTCCAGCATGTAGAGGCTGCGGAGATGTGGAGGAACCAGCAAAGATTCTGTGAATAAGTAGGACTATCTAGTGAGGTGGG
G
AAAAAAATGGGAAAGTGGAGTGCAGGAAGCCAAGTGAAGAAAGTGTTTCCTGAACAAAGTGCTGGTGTTGGGGTGGTGACGCGAGGTGCTGATGGAACAA
Celera SNP ID:            hCV26469196
SNP Position Genomic:     56684
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,10)   total(G,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55085):
ACTGTTGGAATTCTCAGATCATTTAATTTCCTAGGGTACACGGAGAATGTTCAAGAAGGTGGTCGATAGTATTATTTAAACATGAAATCCACACCCTTTT
M
TTTTTTTATTTTATTATTATTATTTTTTTGAGATGGAGTTTCACCCTTGTTGTCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTCACTGCAATCTCCGC
Celera SNP ID:            hCV26469197
SNP Position Genomic:     53804
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|C,8)   total(A,6|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55086):
AACATATGGATACCCCTACTCCATAGGCAGGGGCAGTTGGTGCAACGATGCATTTGCCTTTACCCATGTGCTTGGTTACAACAGGACATGGCCAGCTAAT
Y
TCCTTAGAGCTCTCACCTCCCACTGTCCGCACCCTGATCTCCTTGCAAGGCTAATCTCCCCAACATCCCATTGACTTTGTGATGGGCCCTGCGGAAGAGC
Celera SNP ID:            hCV26469198
SNP Position Genomic:     53040
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55087):
AAGCAGCCTCAGCCACCCTGTTCTCCATTTCTTCCCTCTGCCACCTCATGGTGTTCATCTACCTTATCCTGGGGCTATTTCTGGGCATGTCTCTCTTTTT
K
TCTTGTTATGAGCTCCTGCAGGGCACAGTCTAGCTCTGACTCACAACTGTGTCCCCAGCACTCAGGTCAAGGCCTGGCACTGACAAGTGAGCTGAATCAC
Celera SNP ID:            hCV8702332
SNP Position Genomic:     40326
SNP Source:               dbSNP
Population(Allele,Count): SG_12_TT(G,5|T,18)   total(T,18|G,5)no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55088):
CAATCTTCCAAGGAAATGGGGTCAGAGAGCTCCACAGACCTTGAGGGGACAGAGAGGAGAAATGGGGAACAGTCTAGCCTGGTCTTTTCCCTGTTTAGCA
Y
TGGGAATAAAGATAAGGTCCCAAATCCAATTTACTCAGAGCTCTGTGGTAGGAGGACTCAGAGATGTGAAAGACAAAGTCCCCAACACCGAGGAGCTTCA
Celera SNP ID:            hCV8702333
SNP Position Genomic:     46034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   (T,-|C,-)   SC_12_T(T,0|C,23)   SC_12_C(T,9|C,15)   SC_12_TT(T,11|C,11)   SC_95_C(T,43|C,112)   total(C,161|T,63)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55089):
TCCTAACTTAGGTATCCATCACTAGTATTCTCACACACAGCATTTCACTGTTGGTTTTTTAGAGCAACATAGCTAGTGGTTAAGAGAGAGGCATTGGAAC
R
AGATTGCCTCAGATCACTGGCTTTGTCCCTTAGTAAGTCTGTGACCACAGGAAAATTACTTAACTTCTCTGTCCCTTGGCTTCTTCATTTTGAAAATTGG
Celera SNP ID:            hCV8702262
SNP Position Genomic:     30982
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,14)      total(G,14|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55090):
TTGTTAATTAGCACTAAATAAATAATGAGCCCTTCTTATTATTTTGTGAAAAGGACCTAAGGCTTTGACATATTAGGTAGCTTCCTTTAGGACAGCCCTC
Y
CCCTGACCTCCCCCACCCCCATTAAACGGTGGGGATTTGAATCTAGTTTCCACCTCCCTCCAGGGACTGACCTCTTAACTAATATGCTGTGCTGCTCTAC
Celera SNP ID:            hCV8702263
SNP Position Genomic:     31686
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55091):
GAGAGGCAGGAGTCAAAGACATAACAGCCTACCCGCATCTAGCCTAGGAGAGTGTGGGTCTCAGCCCAGCCCCAAGTGCTGGCTCCCTGCCTGCCCCTCT
Y
ATTCTCCCTGTGAGCAACAGGCAGTCGTGGGTTGAGGTGTCTTTACAATATCACATTGCAAAAAAGCCCAATGCAGTCTAGTGACTAGCCAAGATAAGCC
Celera SNP ID:            hCV11345076
SNP Position Genomic:     9691
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55092):
CCTGTTTAGCACTGGGAATAAAGATAAGGTCCCAAATCCAATTTACTCAGAGCTCTGTGGTAGGAGGACTCAGAGATGTGAAAGACAAAGTCCCCAACAC
S
GAGGAGCTTCAGAGGCTCCTGGGCTACTTGGCATAAAGGAACTCTGCTCCCAATGAAGGAGGGAGGGTGCGTGGGAAGGGACCATGGCTTAAGCAAAGAA
Celera SNP ID:            hCV8702337
SNP Position Genomic:     46123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55093):
GCCCTTCTTATTATTTTGTGAAAAGGACCTAAGGCTTTGACATATTAGGTAGCTTCCTTTAGGACAGCCCTCTCCCTGACCTCCCCCACCCCCATTAAAC
R
GTGGGGATTTGAATCTAGTTTCCACCTCCCTCCAGGGACTGACCTCTTAACTAATATGCTGTGCTGCTCTACCCACATAGACACATAATGGCAGAAACTC
Celera SNP ID:            hCV8702264
SNP Position Genomic:     31714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55094):
GGGAGAAGATGATGAAAAAGAGGCAGAGGGAAGATGAAAGATTCCCATAGGGAAGCTCAGCTGCTGCAACTTAGGCTCTGCGGTCTGGAGGCATAGCTCT
K
GTCACCCTCTAAGAGGGTACGATGAGTCTCAAAAATGGTGACATGGAATGCTCCCAGCAGAGATCTTTGTGTATGATGCCGTGCACACACACAATTGCAC
Celera SNP ID:            hCV8702338
SNP Position Genomic:     46704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55095):
GCACACACACAATTGCACACAAACGATATCCATGCATGTTTGATGCACACACATAGAAACAGAAACAGGCAGGCGCACGACTGCCTGTAGAAAGCAGAGA
Y
GAGTGCTAACAGGGATCAGAGGAGGCGGCGAAACAGAGGAGGGACACTTAGCAACATGCCTAGTGGCCTTGGAGCTCATGGAGGGCTGAGAACAGGTAAG
Celera SNP ID:            hCV8702339
SNP Position Genomic:     46887
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   TSC_42_C(C,2|T,82)   total(C,2|T,82)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55096):
GGAGGATCACTGCGGGGAGTTCAGATTTTATTCCACATGTTATGGAACACTTTTGCAGGTTTTTAGGAAGGGGTGTGACATGAACAGATTCACTAATGTT
Y
GAATCTCTGTCCAGCTTCTGTGTGGAGATGGTTTGTAAGTGTGTGGGAGAGGAAGTGGGAGGCCTCTGGGAAGATACTGTCAGAGTCCAGGGGAGGCCTA
Celera SNP ID:            hCV8691426
SNP Position Genomic:     22727
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55097):
TGTTGGGGAGCTAACAGCATGCTTGCTTAGTCATTATTCTGAGAAGGGGTGCCAACCAGTCAATAGCCTTTATTTTTGTATGACTCTGTATACCACAAAT
K
CAGAAATAATGCACAGCATCCGAGTATGGCGCTACTATTGGACAACTATCATTTCTGGAGATGGGCAAAGCAGAGGTGGCACCGCGTGGAGCTGGAGCCG
Celera SNP ID:            hCV8702268
SNP Position Genomic:     32184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55098):
CTTGCTTAGTCATTATTCTGAGAAGGGGTGCCAACCAGTCAATAGCCTTTATTTTTGTATGACTCTGTATACCACAAATGCAGAAATAATGCACAGCATC
S
GAGTATGGCGCTACTATTGGACAACTATCATTTCTGGAGATGGGCAAAGCAGAGGTGGCACCGCGTGGAGCTGGAGCCGCAGAACTGATTCTGACTTGCT
Celera SNP ID:            hCV8702269
SNP Position Genomic:     32205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55099):
CACGCGAGTTGGGGGTGGGGAGTGAGGTTGGTGGAAGGACGGTGCAAGAGTTACTAGTACAATTTATCCCCAAATTTAAATAATCGGATCCTACTTCTTC
R
TCTCCCCTTCCTCCTCCCAGCCAAGGCCCCAAACCAAGAGAGTTCTTCCCAAGGACGTGAGCTGCTCCCCACCTCTCCCCAGTAGCGGCTGCCTCTAGGC
Celera SNP ID:            hCV922081
SNP Position Genomic:     6453
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55100):
CTCCTTCGCTGTCTACGCCAAACTCTCGGCGAGAGGGAAGAGACGCTTCATGGGGGGAGGCTGGAGGAAACTGGGAGGGGCAAGGTCCAGAGAGGAGGCT
Y
CTGCTGGCGCGTGCAGTGGAAAGGCACCTGCGATGGGCACCCCCGCCCCCTTTGCCGACACACCCCAGAGAAGCTGTGCTCCGGGCTTAGGGCAGCCTGA
Celera SNP ID:            hCV922082
SNP Position Genomic:     6750
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55101):
GCCTGGTACATGGTGAACATTCAGGGAATTTTTGCTGGATGAATGGATAAACAGATGGATGGATGGATGGATGAATGGATGGTTAAGTAGGTGCTCAGTA
M
TGTTTGTGGAATGGACCCAAAGGTATCTCTTCTAGACTTCATTATTTGAGTTCCTTAAAGAAATGCCTCCACTGAGTTATGATTTAATGTTATGCTGTCT
Celera SNP ID:            hCV922084
SNP Position Genomic:     11848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55102):
CATAAAGGGCCTCGCCAGGAATCCTTGGCATACCTATCACTACTGGGGTCTGGCAGAAAAACCAAAGCAGGAGGAAAGCCAGCTGAATTCTGACTTTGTT
K
CTACCTCACTGGACCACTACTGCCACCACCATATTCTTTTATTCTGTCATCTAGGACCTTCCTTTTCCCTAACTTTAAGTGGAGATCTCATAGGCTGCCA
Celera SNP ID:            hCV922085
SNP Position Genomic:     12566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55103):
TCCCTCTCTACACAAAACACAAAAGCTGCTATTCAGAAACTCCAAAGGCATGCATTTCAGTGTAATCAACAAGCAAACAACTGTATAACACGTTTATCTG
Y
CAGTTGTTGTTCAAGGGACTTTCCATGTGTTAAGCAATTGGTTAGTAATAGAACATCTGTAGTAATTCTACAAAGCAAGTATTCTTCATTATCATCCCAT
Celera SNP ID:            hCV922086
SNP Position Genomic:     14649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55104):
AGTGGTCAAGGGCTAGATCAGGCCTAGAGTGCTGGGGTCTGAGTCTCAGCTTCCCTTTTCTCAGGGGGCCTTGGACGCAATCCCTTATGACTTTGAGATT
S
GCTTTCCTCCCGTGTAGAACGATAATAAAAAGTGGTACTAATTTCACGAGCTTTAATAGGATTGAATGTGAGCCCAGCGCTTGGCACAGGGCAAGCGCCC
Celera SNP ID:            hCV922087
SNP Position Genomic:     16890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55105):
GCAAGGGAGGAGGGAGGAGATGAAGTCTGACCTTCTGGGGGAATGTTCTGGCCCACTGTTGAGGCTGGTGAAACCCTAAAGGCTGTATATTGCCCCCTCC
R
TGGTCCTTTGTCCAAGCTTTATAGAAGAGCTGACCAAAGTTCTGAAGTTTTGTGGGTGAAGAGTCAGATTAGGGCTATATTCCAGGCTGCCTCTTCACCA
Celera SNP ID:            hCV922088
SNP Position Genomic:     18518
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,15)      total(G,2|A,15) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55106):
GAATTTGAAAAACATGTTTCTGCTATTGAGAAAAGAGATAGGAAACCAATGACTTAGACGAATAAACGACATCCTAATTGTCAACCAAATAGAACACAAT
K
AGCTATTCTTAAAATAAAGGCGGTGTGCTGGTGGAGTCAGATAACTCTGGTTTCAGATTCCATTTCAGCCCCATGCCATTTGAAGAATTTGTTACTCTTT
Celera SNP ID:            hCV922089
SNP Position Genomic:     20303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,11)      total(G,11|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55107):
GAGATCTTTGTGTATGATGCCGTGCACACACACAATTGCACACAAACGATATCCATGCATGTTTGATGCACACACATAGAAACAGAAACAGGCAGGCGCA
Y
GACTGCCTGTAGAAAGCAGAGATGAGTGCTAACAGGGATCAGAGGAGGCGGCGAAACAGAGGAGGGACACTTAGCAACATGCCTAGTGGCCTTGGAGCTC
Celera SNP ID:            hCV29130301
SNP Position Genomic:     46864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55108):
TTGTGCACTCAGGACCTTGGCAATTTGCTGCCCCAGCCTGGCCCAGCACAGCCTGAAGTGAGAAAGCAAAGAAGGAAATACTTCCAACTCGGCTTGTCCT
K
TTGCTATGTCCCTTCCCCGCTCTCCACTCCTAGGAACCCTATGTCATTCTTTCCCTTTCAACACAGCACAAACCTTATGTCCTATTGGGAAAGGGGATTG
Celera SNP ID:            hCV29130302
SNP Position Genomic:     44404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55109):
TGGGCCCTTCCGAATAGCCCTTCCACGTCTGCTTAGTACCAGGAGCCATGAGTGGTGAAGAAAGATGAATCATGATTAACGTCCCACTTCCCATGTCCCC
M
TTTGTAATTTAATTTTATGGTTTCGGGAGCTGTGTCGCAGGTTGTGGGAGCCTGCAGAGATGGGCCACCAGTGGTTTGGTTTAATCCCCTTTTTAATATC
Celera SNP ID:            hCV29130303
SNP Position Genomic:     27727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55110):
AGGCGCCGAAAGTTGTCACGGCGGCGTCGCAAGGGGGCAGTGCCAGGGACTGTGGGGAGAGCCAGCCCTCCCCTTCCAGCTGTTCCCAGATGTCATTCTG
S
CCGCCCAGGCGCCTGGTTCCTGAGCTCCGCAGCATTCCACTGTTCCTAAGCTACTGGTTTTTGTTGACTTTTAAATATTTTCTTCTAAGGGAGAGGGGGA
Celera SNP ID:            hCV29130304
SNP Position Genomic:     17777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55111):
AGTCAAAGACATAACAGCCTACCCGCATCTAGCCTAGGAGAGTGTGGGTCTCAGCCCAGCCCCAAGTGCTGGCTCCCTGCCTGCCCCTCTCATTCTCCCT
R
TGAGCAACAGGCAGTCGTGGGTTGAGGTGTCTTTACAATATCACATTGCAAAAAAGCCCAATGCAGTCTAGTGACTAGCCAAGATAAGCCTAATATCCAG
Celera SNP ID:            hCV29130305
SNP Position Genomic:     9701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55112):
GCGAAGTGTTTGATAAAGGCTCTTGGGAGGGAATGGAGATGTGATGACAGTGATGGGGATGATTTATTCCCCCAAAATGTTGATCCAGGATTACTGTCAG
R
CTGGGAGGAGAGTCTCCGGTAGTGTCCCTGAGGCTCTGCCCCAGACTCTCTCCTGTTCAACATTTCTATTTGTAAATTGGCGGAAGACTCAGAAGATGTG
Celera SNP ID:            hCV16036650
SNP Position Genomic:     33533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55113):
TGAGGAGCACAGGGGCTGAGACTGGGGGTGGGTGGCTGGGGTTAGAGTTGGGCTGGGGAATGGTGACCTCACCCCTCTCTTCTCTGTGATGTGCAGGTGA
Y
GCCATACAACCCACAGCAGATGGGACAGCAGATCTTCCGCTCTTCCTACACCCCTCTGCTGAGCTACATCCCTTTTGTCCAGCCCAATTATCCCTACCCT
Celera SNP ID:            hCV25639038
SNP Position Genomic:     52490
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,29)   caucasian(T,34)   total(C,9|T,63)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55114):
AGTGCAGTGGCATGACCTTGGCTCACTGCAACCTCTGCATCCCAGGTTGAAGCGATTCTCCTACCTCAGCCTCCCAAGTAGCTGGGATTACTGGTATGTG
Y
GCTAATTTTTGTATTTTTAGTAGAGACTGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCCCGCCTCATGTGATCCACCTGCTTCCACCTCCCAA
Celera SNP ID:            hCV26469200
SNP Position Genomic:     43568
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55115):
TGCAGAAATAATGCACAGCATCCGAGTATGGCGCTACTATTGGACAACTATCATTTCTGGAGATGGGCAAAGCAGAGGTGGCACCGCGTGGAGCTGGAGC
Y
GCAGAACTGATTCTGACTTGCTTCTTTTGTCAGGAGCCCAGGAGCTGGGTTAACCTCCCTGAATGATTCGCTGTGATAGAGTCTGTGATAGATTAGGTGG
Celera SNP ID:            hCV8702270
SNP Position Genomic:     32283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55116):
CATATTAGTCAGTCTGGTCTCGGACTCCTGATCTCAGGTGATCCACCTGGCTTGGCCTCTCAAAGTGCTGGGATTATAGGCGTGAGCCCTTGCACCCAGC
M
TTTCCCTCTCTTGAGCTTCCCAATGCTGGGTCTCAGCACCCCAGTCCCATTGACACTGATGCACCCCTGTTCTTGTTTGTCAAGTGAGCTAGTGCTGGCA
Celera SNP ID:            hCV26469202
SNP Position Genomic:     25761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55117):
CCCATCTGGCTGAACTGCCAGAAAGCTGTTTAAGGGAGGAGGCAGTGATGGATGACAAACACACTGAACATTGAGTCCTTACTATGTGCAGGGCACTGTT
S
TAAGCTCTTTAGATGTATTAACACTTTCACCCTCACAGTGCCCCTCTCCGTAAGCTACAGACACAGGTATATGGATGGGCACATAGATACACAGCAACAC
Celera SNP ID:            hCV8702345
SNP Position Genomic:     47743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55118):
ATTTTTGCAGAATTTTCTAGAAATCTCGTCTGTGCACTCTAAAAACATGCTCTATCTTTGTTCCGTATCCCTGCTGTATTTGATTTTATTTTTTTTTTTT
T
GCAGTCCTTTCTGATTTAGCCCCCGTTGCCTGGTCTCCTGCTGAGGGGGAGAGGGAACAGGAAGAGTGAGTGAGCTGGCTAACTTCCAGAATCCTGGGGC
Celera SNP ID:            hCV26469203
SNP Position Genomic:     15551
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,7)   total(-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55119):
TTGTACCTAGATGCACAATAATACTGCCTGAAAATAAAGCAGCAGAAAGAGAAATGCAAACACACACACACACACACACACACACACACACACATGCAGA
Y
AGAAACACAGGTATAGTTGTACACATGCCACCAAGCTGCAGGAGCCTGTGTGCAGGCACAGGGACACAAATAGATACAGAAGCACATTGAGGGGTATTGA
Celera SNP ID:            hCV8702346
SNP Position Genomic:     49603
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55120):
CACTTAAGATTTTTGCAGAATTTTCTAGAAATCTCGTCTGTGCACTCTAAAAACATGCTCTATCTTTGTTCCGTATCCCTGCTGTATTTGATTTTATTTT
W
TTTTTTTTGCAGTCCTTTCTGATTTAGCCCCCGTTGCCTGGTCTCCTGCTGAGGGGGAGAGGGAACAGGAAGAGTGAGTGAGCTGGCTAACTTCCAGAAT
Celera SNP ID:            hCV26469204
SNP Position Genomic:     15543
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,8)   total(A,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55121):
AGCAGTATTTGTCAGTGCCATTCAGAGTGCCTGGTACATGGTGAACATTCAGGGAATTTTTGCTGGATGAATGGATAAACAGATGGATGGATGGATGGAT
D
AATGGATGGTTAAGTAGGTGCTCAGTAATGTTTGTGGAATGGACCCAAAGGTATCTCTTCTAGACTTCATTATTTGAGTTCCTTAAAGAAATGCCTCCAC
Celera SNP ID:            hCV26469205
SNP Position Genomic:     11820
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2|T,2|-,7)   total(G,2|A,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55122):
CAAGAAGCTGATTGTCCACTTTGTGGACCAAGGGTCAGTAGCAATTTCCAGTAGATGGCATCCTCTTTGCCAGGTCACACAGAGTTAATGGAGACAGACT
Y
GACTTCCAGTCTGCACTTGGCTGAAAATTGAACTGGTGCACCTTTGGCCAGCTGCTTAACTCCATTTGGCCTTTACTTCCTCATTTGCAAATTGAGGGTG
Celera SNP ID:            hCV8691434
SNP Position Genomic:     19790
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55123):
AGTACCATAGACCCTGTGGCTTAAAAAACAGAAATGTATTGCCTCACAATTCTGGAGGCTGGAAGTCCAAGATCAAGAGGTCGACACAGTTGGTTCCCTC
Y
GAGGCTTCTCTCTCTGGCTTGTAGATGGCTGCCTTCTTCTCCCTGTGTCCTCACATGTGTTCCCATGGTACATATCTGTGTCCAAACTTCTAATCAGGAC
Celera SNP ID:            hCV26469206
SNP Position Genomic:     9005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55124):
TAGCACAGGAGAGATGCCAGGACTGGCAAAACTTGGGGGAAAAAGGTAGATTACAGGAAATGGGGGTGAGCAGGCCTAACCGTGAACCCAGCAAAGTGGT
S
GGGTGCCCACAAAATCTTTCTGTGAGCCCCAAGGTGATTACTCAAGGTCAATGCGGGTTCTGTGTGGGGTCTGCCATGGGACCGCCTTGCAGAATTTGGG
Celera SNP ID:            hCV8702276
SNP Position Genomic:     32512
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55125):
AGCCCAGGAGCTGGGTTAACCTCCCTGAATGATTCGCTGTGATAGAGTCTGTGATAGATTAGGTGGTTTTTCCCAACCCCAAAGAGAAAGCGAATAGCAC
R
GGAGAGATGCCAGGACTGGCAAAACTTGGGGGAAAAAGGTAGATTACAGGAAATGGGGGTGAGCAGGCCTAACCGTGAACCCAGCAAAGTGGTCGGGTGC
Celera SNP ID:            hCV16113720
SNP Position Genomic:     32418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55126):
GACTGGGTCAAGCAGGATGGTTAGTGCCATCTGATCGGCTCACAGGGATGCCAGGCCAGAGATGGGATGTGAGATGAAAGGCCAGAAAATGGAACCAAAG
Y
CAGACAGGTTGCAACCAGCTCTTAGAGGTCTTGGCATGGGTAAAGGCAAGTGAACTTGTTCAGTCCTTTATTCAACACATCCCGACTGAGCTGGAGTTAT
Celera SNP ID:            hCV8702277
SNP Position Genomic:     32722
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55127):
TGCTATTTCTCCAAGGGTGCTGAGGAATCTGTATTTGAAACCAGCACTACAGGTGACTCATGCATGTGTGTGAAAGGTTCTCTGATACTTTGGAAGGGGG
Y
CAAAGATGACAAAACCTTAGGCTTAAAAGATAACTGTCTGGTACATCTTTGAGAAGGAGGTGTTTCAAAGAAAAGTGTGGAAGGAAGGAAGGAGATTGAC
Celera SNP ID:            hCV16113721
SNP Position Genomic:     28501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55128):
AGACAGGTTGCAACCAGCTCTTAGAGGTCTTGGCATGGGTAAAGGCAAGTGAACTTGTTCAGTCCTTTATTCAACACATCCCGACTGAGCTGGAGTTATG
Y
GCCAAACACTGTTCTAGGTTTGGAGGCCTCTGTGGTGAACAAGATAAAGTCCCTGCCCTTGTGGAGTAAGGACACAAAAAGGATATTATTAAATTAGGTG
Celera SNP ID:            hCV8702278
SNP Position Genomic:     32824
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55129):
TTTCAAATTTGAAAGAGATTTTTGAAGCCATCTTCCGCTGCTCGAATCCCCTCCTTACTGTCCCTGCCAAGTGGTGCACTTGTACCACTTGGTACAGTTT
M
TCAGATGGGGAGCTTACCACTTCCCTTTGCTGCCCCTTCCCTTGCTATGAACCCCCTCAAAATACCTTTTGCTTTCTATCACTGAAATATGTCTCTATCA
Celera SNP ID:            hCV922090
SNP Position Genomic:     21279
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55130):
ACAATTGCCTTCGCAGTACCAGGCTGTATGATGGGTCCCAGGGACACAGAGATAAGCAGAACAGAAGCCTTTCCTCAAAGAGCTCCCAGTCTAGTGGGTG
R
CATGAACACAGATACATCTGACAACAATGACATTCAACAAATATTGCCAGGTGCGGTGGCTTATGCCTATAATCCCAGCACTTTGGGAGGCCGAGGTGGG
Celera SNP ID:            hCV922091
SNP Position Genomic:     23810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55131):
TGCCCGCCTGGCAGCGCGGCGCGGCTGGGGCAGGGGTCTGCTGGGGGCCGGGGACTAAGGGCTGTGGGCCCATCCACACACGCCTCATCCCTTCTTTCCG
K
GGGCAGCAGAGCAGCAGCGGGAGACCGGGAGCAGGAGGGGTAGGGCGAGAGAAAAGCAGGACCTGGGCCGGGGGTGGGAGTCGGGCCGTTGACGCTCGCT
Celera SNP ID:            hCV27868460
SNP Position Genomic:     17446
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55132):
CCTGTCCACTGGGTTCTGTCTTCTGCTGCCTCATCCTCCTGGCTCTTGGCTGGCTCCTGGCCTCTGGCCCTGCCTGAAACTGAGGCTCAGAGAAGGGAAG
Y
GAATTGTAGAAGGTCACCCGTCAGAAAGGACAGAGCTGGGTTTTGAATCCAGGTCTCCTGACTGCAAAGCCCTTGCTCTTTCTCCTTCTTCCACTCTTAG
Celera SNP ID:            hCV922093
SNP Position Genomic:     30147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,12)      total(C,12|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55133):
TCACATGGGCCTGGGGCCCAATTCCACCCCAACACTTATTCTCTAGGGTCAATTTGAGTACATCTTTTAACCTTCCTGAGCCTCAATTTCCTCTTTCTCA
R
TTGGAAAGGAAGATGCTCTGTATCCCTCATGGTTGTGGTGGGGACAAGTGCCACCTGTAAAACCCAGCACCTAGCAAACTCCTCAAAAATACTGGTTCAG
Celera SNP ID:            hCV922094
SNP Position Genomic:     30392
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,12)      total(G,12|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55134):
CAGGGCCCTGTGGGGCTTCTAGAAGCTACTTTGAGTATGTGCGTGTAATATTTGTATAAAATAAAGCAGAAAGCAAATACAGACAAATAGAATGACTAGT
R
TGTGATGACCCTATGTAACCATTACCTGGCTTTAGCAATGATTAACATATGGCCAATCTTGTTTCATCTATTACTCCCTCTCTCTTCTTTTCCCTCCTCC
Celera SNP ID:            hCV922095
SNP Position Genomic:     34848
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,13)      total(G,13|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55135):
AAACCCTGTCTCTAAAAAAAAAAAATGATGACTAAGAAAAGCTTGGAGTCTAATGCAAGTTCAGGAATAAACCAGAGATCAGCTCTATGCATCTCCACCT
S
TAAAGGGGAAACAACTGCATAATTCATTTAGTACAAGTCGATTCACTCTAAAATGCCCTCACAGAGCTCACCGTGTAAAACTAATTTGCAATGGTTTGCT
Celera SNP ID:            hCV922096
SNP Position Genomic:     45232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55136):
GCTAAATCTGGCAACACTACTTTCATGGGTAGGTCAGGATAAATATCTGTGGGACAATAATTGAGGTTTGACCTTTGGCAGGCTGGTACTCCAATGACCA
Y
GCTTTACTACATCTTGTACCTAGATGCACAATAATACTGCCTGAAAATAAAGCAGCAGAAAGAGAAATGCAAACACACACACACACACACACACACACAC
Celera SNP ID:            hCV922097
SNP Position Genomic:     49489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55137):
CAGAGGGCACCAACACCCAGCCTGCCATAGCACCAGGCTGGCCTTGCTCCTCCACACAAATGTGGACACCCCCACACTCCAACTCATACAACCTCTGCCT
Y
TCCTGTCTCCCCAGGGAGCCCCACCCTCCGTGCAAACCGCACCTCTGACCTGAAATGTGTTAGAATGTTCGGGAGGGTAGGGAAGAGCCTGCAGGGGTAG
Celera SNP ID:            hCV922098
SNP Position Genomic:     49854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55138):
GGGGTAGGGAGCCTTGTTACCTGGGCCAGCACTGATTTCTCAGCAGCAGGAACCCTTGCATCCTGAGATGAATCTGGGATGAGAGATGATCTGGGTCAGG
K
AATCTCAGCCCCATTGCCTCCACCCCTTGAACAAGAATATCGTCCACCTGGCTCCAGAGAGAATATTTTTAAATAATTATGTGTATGTGTATGCATGCAT
Celera SNP ID:            hCV922099
SNP Position Genomic:     50048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55139):
CACGCTTGTATGCCCGCCCCTCCCGACGCCGCCTTGCTGGGTGCCAAGAACCAACCGAAGCAGCCAGAACTCCTCAGTGAAAGGCCTGCTTTATGTTCCC
K
GGGCAGTGAGGAGGGGGCTTCTCCCTTCCCATTGTCCAGACTCAGCCCCCGAAAGAGAGGGCTCAGCCTTCCCACCAGCCCTGGAGAGGAGGAAGGGACT
Celera SNP ID:            hCV25639040
SNP Position Genomic:     7403
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,7)   caucasian(G,26|T,12)   total(G,57|T,19)
SNP Type:                 INTRON


Context             (SEQ ID NO:55140):
TCCTCCAGAGAAAGGAACTGGCAGAGATGCCCAGGCCTCCTGTGCAGCCCACAGCTGGGCAGAAGAGAGTCTGGGCTGCTCTGTAATTCTGGGGCTGCAG
K
CCAATGGGCTTTCTCTTACCCTCTTCTCAGCTCCAGAACTTTGCTCTGTGGCTGCAACGGGCAGATGAGATTTACCCCCAGAACTTTCCCGGGCAAAAGG
Celera SNP ID:            hCV25639041
SNP Position Genomic:     7720
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,40)   total(G,75|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:55141):
GTGAACTCTAGGACCTGCCTCCTCCACTTCAATCCCCTCCCAGGTCCAGGCACTTCCTCCCCCATGAGGACAGGGGTACTTTCTGCCATGCTGACCCATA
S
GGTCATGACTCCCATCTGACCTGCGAGGTGCTCTTGGCATGTTCTGACCTTTAGCTCATCACCTTGGGATTTGGTGCCTGCGCCCAGCATCACCAGGCCC
Celera SNP ID:            hCV877007
SNP Position Genomic:     50523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   SC_12_C(G,6|C,17)   SC_12_AA(G,6|C,18)   SC_95_C(G,38|C,143)   total(G,50|C,178) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55142):
AGTCCCTGCCCTTGTGGAGTAAGGACACAAAAAGGATATTATTAAATTAGGTGATGGTACAAACGCTGTGAAGAAAATAAACAGATTGACAGAGGAAGGT
K
GGGGAGGGACACTTTTAAAAATAGGCAGGAAAGGCTACTTTGAGACTGTGACACTGGAACCGAGGCCTGAGTGATGAGGAGGAGCCAGTCAAGGGACACT
Celera SNP ID:            hCV8702283
SNP Position Genomic:     32972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55143):
TATTTGGAGATGGCTCCAGAGCAGGCTACAAAGCTCTACTTTATAGTTTCATCAGATACATGGAATCAGGGGCACATTTTTTTATAACACTGTGTGAACT
Y
TAGGACCTGCCTCCTCCACTTCAATCCCCTCCCAGGTCCAGGCACTTCCTCCCCCATGAGGACAGGGGTACTTTCTGCCATGCTGACCCATAGGGTCATG
Celera SNP ID:            hCV877008
SNP Position Genomic:     50430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55144):
AAAAAGGATATTATTAAATTAGGTGATGGTACAAACGCTGTGAAGAAAATAAACAGATTGACAGAGGAAGGTGGGGGAGGGACACTTTTAAAAATAGGCA
K
GAAAGGCTACTTTGAGACTGTGACACTGGAACCGAGGCCTGAGTGATGAGGAGGAGCCAGTCAAGGGACACTGGGGGGTTGCAGGGAGAAGCATTCCATA
Celera SNP ID:            hCV8702284
SNP Position Genomic:     33000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55145):
AGAAAATAAACAGATTGACAGAGGAAGGTGGGGGAGGGACACTTTTAAAAATAGGCAGGAAAGGCTACTTTGAGACTGTGACACTGGAACCGAGGCCTGA
R
TGATGAGGAGGAGCCAGTCAAGGGACACTGGGGGGTTGCAGGGAGAAGCATTCCATAGGAAGTGCAAAGGCCCTCGGGCTGGAATGAACTTAGCATTTCA
Celera SNP ID:            hCV8702285
SNP Position Genomic:     33043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55146):
CTATTCATTTACTCACCTACTCACGATTTACTCATTTCTATGTATTTATTTACTCATTAATTTAAGTAATTTTGAAAACCATTTCTCCCTACAAGCCTAC
Y
AGAGGCTGAGCATTGTTCTAGGTGGAGGGATTCAAAGATGACTAAAGTCAGGTGTGGTGGCATGTGCCTGGAGTCCCAGCCTACACCAGAGGCTGAGATA
Celera SNP ID:            hCV11344221
SNP Position Genomic:     44981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55147):
AGGTTGTGATGAAAGGTGACCTAAGAAGGAAGCTGAAGTGGACCAGTTTCATATTAGTAGTCTATTGTCATGGACCTGTTCATATCAGTAGTCTATTGTC
Y
TTACACAGGTCTTGAAATGTCCTGTTCATTGATTCGCTGACTCCTTTACCAATATGATTCTACCCTTTCATTTTTGTGTGCCTATTCACTATTCATTTAC
Celera SNP ID:            hCV11344222
SNP Position Genomic:     44792
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55148):
AAACTTGGAGGCAATCACTGTTTAATGGTTTTTTACATATTTTCCCGGCAATATCTATTTATATAAACATTTTTAAATAAATGCGGCATTCTGGGCACAC
W
GTTCCATTGCTTTTGTCAGTGAGGATTATATTTGGAGATGGCTCCAGAGCAGGCTACAAAGCTCTACTTTATAGTTTCATCAGATACATGGAATCAGGGG
Celera SNP ID:            hCV922100
SNP Position Genomic:     50301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55149):
TTTCCAGAGCTCTGGAGCTCAGCAGTGGCAAAGATGAGATCTCCTTGTTGGTGGAACAGGAGTTCCTAAGCCTCACCAAAGAGCACTCGATCCTGGTCGA
M
GAGAGTTCTGGGGAGCTGGAGGTACCCGGCAGCTCTCCCGAGGGGACCAGAGAGCTGGCTCCCTGCATTCTTGCCCCTCCTCTAGTGGCAGGCAGTAATG
Celera SNP ID:            hCV25639051
SNP Position Genomic:     37598
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|C,1)   total(A,77|C,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:55150):
TTGGTGCCTGCGCCCAGCATCACCAGGCCCCACATCTCCACTGGAGAACATTGGGGAAGACCGGGAGGGAGGACTCAGGTTTCCAAAGAGGACACAGCAT
R
GAGAGGCTAGTGAGAACCAAGGTATAGGCTCCGGGCTTACCCTGCTGGGGTTCTGACCACAACTCAGACGCTGGAAACACTGAGAAAGTTGCTTCACTTC
Celera SNP ID:            hCV922101
SNP Position Genomic:     50694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55151):
ATCTCCCTTTTCTGGGGCCTATGTCCTTCTGCAAAGCCACGCCTTGGTGAGCTGGCACTAACACCGTCTGTCTCTCTGACCCATTTCCAGAGCTCTGGAG
Y
TCAGCAGTGGCAAAGATGAGATCTCCTTGTTGGTGGAACAGGAGTTCCTAAGCCTCACCAAAGAGCACTCGATCCTGGTCGAAGAGAGTTCTGGGGAGCT
Celera SNP ID:            hCV25639052
SNP Position Genomic:     37515
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:55152):
TGACCTTGTGATCCACCCACCTCGTCCTCCCAAAGTGCTCGGTTACAGGCGTGAGCCAACGCACCCAGCCCCCTTTGTGGATTTTTTTTTTTAGATAAGG
K
TGTATGGGGTGAGAGAGGGCTGTCAGAGTGCCTGATTCCTGAGCACTTGGACCCCAGACTTGCTATTAAAGTGGAAATCCAGAAGTTTCTTCAAATTCTA
Celera SNP ID:            hCV922102
SNP Position Genomic:     51258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55153):
CCGTTATCAGCAGCAGGCAGGACTGTGATTCTGCCACTTCTACTGTCACAGACATTCTGTGTGCCGCCGAGGTCAAGAGCAGCAAGGGGACAGAGGACAG
R
GGCCGCATCCTAGGTGACTCCAACTTGCAAGTCAGCAAGCTTCTGTCCCAGTTCCCACTGAAGTCCACTGAGACATCCAAGGTCCCTGACAACAAGAATG
Celera SNP ID:            hCV25639053
SNP Position Genomic:     37859
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,7|G,33)   total(A,10|G,66)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(A,6|G,32)   total(A,10|G,66)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55154):
TGGGGAGATAGTGGTCAACAAGATGGATGAGGTCTCTGACTTGTCGCGGCAAGATGGTGGGAGCCCCAGTTCTAGGTCGGAGTTCATCACGGGCAATCTC
R
GAAGCACCACTGAATTCCTGTATTTCCCTAGAGTTTGTGCTCAACCCCATTGCCTTTTTTTGCCCTTCCTCCTAGACTCACACTGTCTACTATGGCAGCC
Celera SNP ID:            hCV922103
SNP Position Genomic:     51732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55155):
ACAGGCTCCAGGAGAGCAGGGACCATGCCATTTTTGCCCACCCTTATGCTTCTTCAGTGCCCAGCAACTCATCGGGCACAGAGGAGGGGTTGCATCAGTA
M
TGGGGGAATTATGAATGGGGATGGGAGAAGTTCAGAAAGTTCTTAAGGTCACACAGCTCGGAAATGAGTGTCAGGATTCAACCCAGCCCTGCATTTATAG
Celera SNP ID:            hCV3104227
SNP Position Genomic:     16420
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55156):
GGCTTCTCTGAGGAGATGTGATTATCTGGGCTGAGACCTGGGTTCTAAGAAGGAGCCAGTCAAGGGAAGTTCTGGAAAGAACATTTGGGCAAAATGGAGA
R
CAAGGGCCAGGCATGGTGGCTAAAGCCTGCAATCCCAACACTTTGGGAGGCTGAGGTGGGCAGAACGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCA
Celera SNP ID:            hCV3104228
SNP Position Genomic:     22189
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55157):
GCTCTGCTTCACGCACGAGTTCACTTGACAAACAAGGATGGGGGCATGCATCACTATCAATGTGACTGGGGTGTTGAGACCGAACACTGGCAAACTCAAG
R
TGGGGAGTGTAGGGCCTCAGAGCAAAGGATTCCAACCTGTGGCCCATGGGGTCTCTGAAGTAATTCCCCAAATGCTGAGAGCTGGGAGGATGTCTTTCCG
Celera SNP ID:            hCV3104229
SNP Position Genomic:     23059
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55158):
GGGAGGGACACTTTTAAAAATAGGCAGGAAAGGCTACTTTGAGACTGTGACACTGGAACCGAGGCCTGAGTGATGAGGAGGAGCCAGTCAAGGGACACTG
R
GGGGTTGCAGGGAGAAGCATTCCATAGGAAGTGCAAAGGCCCTCGGGCTGGAATGAACTTAGCATTTCAAGGGGTAGATAAAAGCCCAACATGACTGGAA
Celera SNP ID:            hCV8702290
SNP Position Genomic:     33074
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55159):
AGGAGCCAGTCAAGGGACACTGGGGGGTTGCAGGGAGAAGCATTCCATAGGAAGTGCAAAGGCCCTCGGGCTGGAATGAACTTAGCATTTCAAGGGGTAG
M
TAAAAGCCCAACATGACTGGAAGAGGGAGGAGATGGGGCCAATTTGTGTAGGGCATCATAAAGGAGTTTGGATTTTATCCTGTGTGTAGTGAGAATCCAC
Celera SNP ID:            hCV8702291
SNP Position Genomic:     33152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55160):
CAGAGTAAGACTCTGTTTCAAATAAATGAAACTATAAAATAATTATACCAGAAATACCAACATAGAGGCCGGCCCAGGCAAACCAGGACATATGTTCGTC
S
TACTCAACAGGCAACTCAAGCTCCTCCTCCTCCAGGAAGCATTACTTGTTAACTCTCGTCCACACAGATTGCTCCTCTTCCTGGCCCTCTAGCATACATA
Celera SNP ID:            hCV8702364
SNP Position Genomic:     57437
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55161):
ACATGCTTCTTCCCTTCAGAGAACTGAGAGCAGATGAAATGTGGGCACAACAATGTTAGTGCCCTGGCAAAGTGAAAACCATCAAAGTGGCCCGAGGACA
R
AGGCAGAATCCCTGCAGCGGGGGAGGTTCCAGTGAGCAGCACTGGGAGGAGGGCATTCCAGGCAGGAGGAGCAAGGCCCTCAGATGGGAAAGCAAGTGGC
Celera SNP ID:            hCV28017740
SNP Position Genomic:     54424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55162):
GGGACGAAACCAGCAATATTCCTGAGTGCATTCAGATTGGGGAACAACGCCTGGCCAGGGATCAGGGAGACCTTGCTGGATAACAATCTCCTGAAAGGAA
R
CCCAGGCTGGGGGTGGGGAGGAATTAGTGGAGGCAGCTGGACCCAGCCAAGTCCCTACATCAGCTTCTTCCCTCTGTGGCAAGGCCCTTAGCCTTTCAGG
Celera SNP ID:            hCV8702297
SNP Position Genomic:     33835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55163):
GCTTTCTAAGAGCCTCATTGATTCCTGTGGTATGTAGAGGAGAATGGCCTGGAGGGGTTGGTTCTGGAGGCCATATCCCCTGAAACCCACCGTGAGTTCA
R
AATGGAGACAAGGAGGTGGTTGCAGCTGGGGGGGACATGAGTGTTTCCTTAAACACCACAAAGGCTGCAGTGTGGGAATGAATGGGGAAGATGCTTTCTT
Celera SNP ID:            hCV8702298
SNP Position Genomic:     34288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 283
Celera Gene:                 hCG1643486 - 11000595721938
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRE9APK7(4390480..4403203)
Chromosome:                  16
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12443):
TCAACTCCATAGACAGGGCTTACACACCGGACCAAATTGAGGACTAGCTAAAACAGGGATAGGGTGGGTGCACCTTTCCATGAGCTGTGTCCGCCAGTGT
GTCATGTCAGTTTACAATTTCCATGGCAACACCTAGAAGTTACTGCCCCTTTCCATGACAATGACCCAACAACCTGGAAGTTACCACCCTTTTTCTAGAA
ATTTCTGCATAATCCACCACTTAATTTGCATATAATTAAAAATGGGTGTAAATGTGATGGCAGAACTGCCTCGGAATTGCCACTGTGGGTACTCTGCATG
TGGGGTAGCCCTGTTTTGCAAGGAGCAGCACCTCTGCTCCTGTTGTACACTGTCCCTTCAATAAAAGTTGCTAACACCACCACCTTGCCCTTGAATTCTT
TCCTGGGCAAAGCCAAGAACCCTGTTGGCCTAAGCCGCAGTTCTGGGGTTCGCCTGCCCTGCATCACCAGCACAGTGGAAGGCCACAAGCTCACAGCATT
TTCATCCGTAAACAAAGCTTGGCAATATCTCTGATGGTTAAGAGCTTACGTGTTTGCGCCAGTGAGACTTGCACTCAGTCTTCTTTGAGTGAGACTTGAA
CTCGATTCTGAGTCTCCTCCTTCCTAGATGGACTCATTATTTACTTATTTATGTATTCACTCATCTATTCATTAATTTATACTCTTAGTTTGATATCAAC
ATCTGTAAAATGGGGATGGTAATGTGGTGATATGGAGGAAAATAAAATAACTCTGGCATTGTTCTTACTATTTACCTCTGTACTGTCATCGTTATCATTC
CTTTGATAACCGTGAGCACCTGTCATGGGCCTGGCACTCTAGTAGGCTCTCAGGATGCACAATGACCCTGTCCCTGCTTGCTGGAGACATAAGAGAAGCC
CCCAGCCACTGACATCTGGGTGTTGTAAGAAAGCAAGAACAGTCATGGACACTGCTAAGTTTTGATGCCAAAGAGCCAAATTTGCAGTACCAGAATGTCC
TTTCCATGTGTGACCCAAAGTTTTGGCTACTGAAGACGTTGCATGCCCTCCAACAGTGGAAGTGGTGCCCTGAATACGCCAGAAATAATCGTGGAGTCAA
CGAAGATCTGGGAGTATTGTTTGGAGACATCTCAGTATTCCTAATTCATTTTCCCATCCTTAAATAAAAATCTTTCTTACTGATGATCTGAGAACTTCTT
GTAAGCCCCATTTCCATGAGTAGAGTTGGCCATTGCCCACTAAGAAAATTTAGGTGGTTTTTATTGGGATTAGTGGATGAACTTAGGATTAGTGTGGCCC
TTCCTTGAGATATAATGACAACCTTGGTGAAAGCAAGACCACAGGGCCTATCTTCAGGGAAGTGCCTTGCATTTTAATACCAACCATGCCACGTGTATGT
GTTTCCTGGGCCTGCCATAACAAATTATCGCAAACTGGGTAGATTGAGAATCATTCATTGTTTCATGGTTTTGGTGGCCGGAAGTCCAAAATCAAGGCGT
TTGTGGGGTTCGTTCCTTCTGGAAGCTATGAGGGAGAAACCATGCCATGCCTGTCTCCTGGTTTCTGGTGACTGCTGGCAATTCTTGATGTCCCTTGGCT
TGGAAACACCACATTCTAATCTCTACTTCCTCCCTTACATCACCTTCTCCTCTGGCTTTGTGTCCTTTCTGTCTCTTACAAGGACACCAGTCATTGGACT
TAGGACCCACCTAATTGAGTATGATCTCATCTCATTCCTTATCTTAATTACATTTGCAAAGACCCTGTTTCCAAATAAAGTCACATTCGTTGGTTCTGAG
TGAACATGTTTCTAGGGGGACACTATTGAACCCACTGCACTGCATCAAACGTATGGGTGTGCTTTCTCTTGGCCTTTCTCCTATTTGCCTTCTCTGTGTT
GGGAATTGTGGCTTCACACCCATCTACTTATCCCTGCATGTTGAGCATCGTCTGTTACCTGAAGAGCAGAAGGATGATAAAAGTGAGGAAACTGAGGCAC
AGGCTTGCCCCAGGTTACACAGCTAGTTATGATGGAGGGTGGGTCGGAAGCCAAGCGCCCCCCAGCCCCCACCCCACAACAGGTGTATGTGGCCTCTGGT
TTATCCTTCTTTCCCCCTGCTCACCACATGGCTTCTCATTTTGAAAACCCGGTGGCTAATAAAGTAGATGAGTTTCAGGATTGCAAAATATTGTGATCCT
GGCCTTTGTCCATTGTGTAATCTTCACAGTGACCAGAGTGTTTGCAGTTCCTAGGAAGTTCACCCATTCCCAACAGTGTCCCAGGGTCAAGCTCAGATGA
CCTGTGGTATTTTTATACCCATATATGTGTCAATGTTTATAACTTTTAAAGTTGTTTTCAGGAAGCACTGAGGCATGTGGTCGTTCACAGGTGACAAAGA
CAGAGGCTCAGGGAACTCAGTTGGTTGCTGAGCTTTAAACCCAAGTCTATTTCTGAGGCTGGACTGAGTCTTTGAGAAAATGCAAAGTAACCTAGCATAG
TGTCAGACACAAAATAGTCAGCAAATACCATCGTAGATTCAGGCTTCTGAGTCCAAAGCTAACAATTCTCATCTCCAATTCCCATCTTCAAATATTAAAA
TAAACTTTTTTTTTAAGAGACAGAATCTCACTGTGTTGCTCAGGCTAGAGTGCTGTGGCATCTTAGCTCACAGCAGCCTCGACCTACCAGGCTCAAGCGA
TCCTTCTGCCTCAGTCTCCTGAGTAGGTAGGACTATAGGCATGCACCACCATGCCCAGCTATTTTTAAAATTTCCTGTAGAGATGGGGTCTCAGTGCATT
GGCCAGACTGACCTAAACTCCTGGCTACAAGTGATCCTCTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCAGCCTTAAAT
AAACTCTTTAGTGTCAAAAAATCTACGTGAGGCCAGGTGTGGTGGCTTACCCCTGTAATCACAGCACTTTAGGAGGCCAAGGTGGGTGGGTCATCTGAGG
TCAGGAGTTCAAGCCCAGCCTGGCTGACATGACGAAACGCCATCTCTACTAAAAACACAAAAATTAGCCAGGTGTGGTGGCATGTGCCTGTAATCTTAGC
TACTCAAGAGGCTGAGGCAGGAGAATGGCTTGAACCCAGGAGGCAGGGGTTGCAGTCAGCTGAGACTGCGCCAGTGTACTCCAGCCTGAGAGACAGAGCG
AGACTCTGTCTCAAAGAAAAACAAAAACAAAAACAAACAAAAATCTACTTGAACCAATAAAAATTCCCATCCCCACCTAGAATTCTAAATATTTTATAAA
TAAAGTCTTCAGAGCCTAGATATTCACTAGAACCCAGTGGTCACGTGTTCCTAATGGGTGGAATATTATTTTGAATCTTTCCATGATGAGAGTTACATTG
ATGGGTGAAAGCTTTTTATGCAACATCATCATTGTTGAATAAACAGACGCTTAGCATATTTAGGTTGGAATGCAAGGGAACTAAAGGTAGGGGAGATTCT
TAAGGAAGTCTACTTTCTCTTCAAGAATGCTATCAAATTGAAAGGTAATTCCTAAACAAGAGTCATTTGTAAATTAGGGAGGAAGAGCTAAAAAAGATTC
CTAGCAAGAAACATCATAAAGGGGCTTGATAAAGCCAAAAAACTAAAAGAAAAAAAAAAAGGAATTAGAAACAGAGAAAAGAGGCTTCGTGTTGTTTGTA
AATTTGTGAATAAATCTGTTAAAGAAATATTGGATTCATATTCAACTTGGAAAACAGGGAAAGGCCTTTTATTGCATGCTTTGAAGTTTGAATACACTTT
CAGTAGCTCTTCGTTATCTCAAATTAAATCTTAAATTGAGCTTGTGGTTCTGTGAATTAATACTCCAGCCTTTCAGCCCTGCTGCTGAGGTCATTCAAAT
CTAATGGTGGAAACGGTCACAGGGTCAGGCCTTGGATGGTGCTGTATAGAAATGCCTTAATGATGCTGGCAGATGTTTGCATTCTGCAGCTGGGGCGGCT
GGCGGGTTGGGGGCTGCAGGAAGAGAGGAGTTGATGATCACATTATTGTGTCAGCCGCCTGTGTGAATAAGGAAGGACAGACTCCCACCCCATCCCATCA
TTCCAGGTTCAATAAGAGGTAGGTGCTTCCTAAAGCAGAAAAATGTAAGGGAAGTCATCATCGCTTATCATCACCTGAATGTTCACCATGGTGACCCACA
TCTCAGGATGCTGCAAAACGAGAGAGGTCACCTGTCTGTGTAATCGCATATAGCATTCTAAAGATGTTCCATTCATTCAGCAAATGTTTAATAAAGGCTT
CATCTGAAGTTTAATGGACATTGTTTGATAAAACAGACCCAGTCACTGGTGTCAGGGAGTTTATATAAAAGTATACACGTATCTGTGCAAATGTGTGCAT
TTAAGGCCCGCCGAGCCTGAGCTGATATGCATGTCTTAACTTTGCTGTTTCTCTAAGGGGATGGAAGGATTGGCTACCCTGAGCTTTCTAGACTTGTTAT
TTTTTTTTTTTTTAAGACAGAATCTTGTTCTGTCTCCGAGCTAGAGTACAATGGTATGATCATAGCTCACTACAACCTCCAATGCCTGGGTTTAAGTGAT
CCTGCCACCTCAGCCTCCCAAGTAGCTAGGACTACAGGCGAGAGCCACCATACTGGGCTAATTTTTGTTTTTTATTGAGATGGGGTCTTCCTATGTTGCC
CAGCCTGGTCTCAAACTTCTGGCCTCAAAGCAATCCTCCTGCCTTGATAGACGTGTTCATTGTAGGTTTCTAGCCTCTGAATCCAAATTTTATTTTTCTA
GTACTTTATTTTATTTTACTTTTTATTGATTGAAACCTTGAAATAAAGTTTTTAAAAATCTATTTGATTTTAAACGATCTTTAGAAATATATGAAGGTTA
AAAATAACTCTCATTTTGCTTTTTATAAACAGTCCACTCCTACATGTAGACACATTTAGATGCTTCATTTTGCCTGTAGAAAGTTTTTCTAACAATAAAC
TGACCAATGATGATGAAATTTTTATTGACTCAAATGTGTGATTGGTTGATTTACTGTATTCAGTCCAAGCTCCTCCCAAAGGTTAGCTCATTGACTCTAC
AACTCTGTTTTCCTCATTCATTCATTCCTCTAATCAATATGTATTGCTCACTTGGTACATGTCAGATACTTTCCTAGGTGCTGGGGAGAAACAAGCAAAG
TACTTCAGGGCCTGTATTAGTTTGTTTTTCACGCTGCTGATAAAGACACACCCGAGACTGGGAAGAAAAAGAGGTTTAATTGGACTTACAGTTCTGCACG
GCTGGGGAGGCCTCAGAATCATGGCAGGAGGTGAAAGGCACTTCTTACACGGCAGCGGCAAGAGAAAATGAGGAAGAAGCGAACGTGAGAACCCCTGGTA
AACCCATCAGATCTTGTGACACTTATTCACTATCACGAGGATAGCGCAGGAAAGACCGGCCCACATGATTGAGTTACCTCGCCCTGGGTCCCTCCCACAA
CATGTGGGAATTCTGGGAGATATAATTCAAGTTGAGATTTGGGTGGAGACACACCCAAAGCATATCAGGGTCCTAGGCAACTTTGTGTGAGAACAGAACA
GAGAGGAAGCGACACACCTTTCCTTTGGGAGCAATTTTTGGGTTGCTTTTGTTTTTATTTGTTGTTTTCATTCCTGGTAGTAATAGTAACAGTAGAAAAT
GGCAGCGTTATAGCCATAAACAAAGTGCTCTGTGGTTTCTCTCTCACCATCCCCTAAACCCTACAAGGCTAGGGGAAAATGGTAATACTCATGAACAACT
CCACTTCATAAATGAGGATGCCGGCACTCGGGGAGGTCAAGTGAGTTTCATAAGGTCATAGAGCAACCAAGTGGCAGGGCTGACTCCCACCCAGGTGTGT
TCCATGGGCAGCGTCTTCTTACTGCACTGTCCTGACTTGCTCTAGTGAGATATAAGAGAGGCACAATCTGCTTTCCTTTTGATGGTGTGCAGCAGCATGA
TGGCCGCGCGAATTTCCAAGAAGAGGATGTTGGTCGCTGATGGCATCTTCAAAGCYGAACGGAATCAGTTTCTTACTCCGGAGCTGGCTAAAGACGCTTC
TCTGAAGCTCAGGTTCAAGTTACACCCATCACGACAGTAACAAATATCTTAGCCAACAGAACAAAAAATGTTCCTGGTGAGAACAGCCAGGGATTCTGGA
ATTGACTGCTGTAGTTCAGAAGAGATTTGGCTTCCCACAGGGCATTGTAGAGCTTTATGCTGAAAAGGTGGCCCCAGAGGTCTGTGTGCCATTGCCCAGG
TCGAGTCTGCAGTACAAACTCCTAGGAGGGCTTACTGTGCGGAGGGCCTGCGATGGTGGGCTGTGGTTCATCATGAATAGGGGGGCCATAGGCTGCCAAG
CTGTGGTTTCTRGGAGACTCTGAGGACAGAGGGTCAAATCCATGAGTTTGTGGATGGCCTGATGATCCCCAGCGGAGACCAYGTTAACTAGTACATTGAT
GCTGTTGTGTGCCATGTGCTGCTCAGATAGGGTTTTCTGGGCATCAAGGTGAAGGTCATGCTGCCCTGGGACCCCGCTGGTAAGACTGGCCCTAAGAAGC
CTCTGCCTGACCACGTGAGCATCATGGAACCCAAAGATGAGGTAGTGCCCACCACTCCCATCTCAGAACAGAAGGGTGGGAAGCCAGAGCCACCTGCTAT
GCCCCAGCCAGTCCCCATAGCATAACGGGCTGTCCTTGGCAGTTGTATTCGGAGTCTGGATGTTGCTTTGTAAAGACATTTAATAAAATATTGTACAAAG
ACAACCGGGAATGCCTGTAATCCCAGCACTGTGGGAGTCAAGACAGGCCGATCACTTGAGGTCAAGAGTTCAAGACCAGTCTGGCCAACATGGTGAAACC
CTGTCTCTACTAAAAATACAAAGATTAGCCTGGCGTGCCCTGTAATCACAGCTACTTGGGAGGCTGAGGCAGGTGAATCGCTTGAACCCGGGAGGTGGAG
GTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGCAAAAAGAGTAAAACTCAGTCTCAAAACAACAGCAACAGAAATGTATTCTCTCACAGT
TCTGGAGGCCAGACATTCAGAATCAAGGCAGGGCTATACTTACTTTGGAGGCTCTAGCTAAGAATCTGTTCCTTGCATCTTTCGTTTCTGGTGGCTGCTC
GTGATTGTGGGCTGTGACCATATCACTCCAATCCCTGCCTCTGCAGCCACATGGCCTTCTCCTCTTCTCCTGTGTTCCTTTCCTGTCTGCCTCAAATCTC
CCTCTACCTTTCTGCTATGAAGACACTTGTTTTTGGATTTAGGGTCTTCCTGGCTGATCTCATGTCAAGATCCGTAACTTAATTACATCTGCAAAGACCT
GATTCCCAATAAGCTTGCCTTCACAAGTTGCAGGGATTTGGATATGGAACTGCCTTTTTGGAGGCCACCATTCAACCCACAATAAGAGCACAGTGGTGAG
GTTTGAGGGGTGGTATGAGGTCACAGTCACAGCCACCCCTCTCACCAGCTGTGTGACAATTCTGGATTTCCTTAGCTGTCCTCTGCCTCCATCTCCCTTT
CTCTGTAAGTGGAAGTGGTATTCATTGATCACACACTACATGCCGGACACCAAGCTATTACATTTTTTGAATATGTTTCTTCTTTGCCTCTTGAGGACTA
ACCAGCCGGGTTTAGATTATTTCCTCCCCGTGTCGCTTTCCTGCCCCCACATGTTAAAGATGGTGCAAGGGAACCAGAGAGCTTTGATCCCTGGTTTCTC
TGGTCACAAACCTGCTCTCCTCTCCAGAACTCCAGGCTGCCTTTCTGTGGGGGCTAAATCAAATTTAGCTGTTCCCCCAACTGCAAAGTACATAGGCATC
AAGTGAAAGGGTAAATGCATGAAAACCTGAATGGCTGATCCTCTAAGACAGTGAGAGCAGATGTTAATTGCTCACTGTCCAAGTGCTGGGCTCTGTGATA
AGAGCTTCACGCAGATGACATCAAAGCACCATGTGTGGGGGAAGCACGATGATCTTGACCATTTTACAGATGAGGAAGGTAAGGCTCGGTGTCATCAACT
CACAGAGGAAGTGGAGCTGGAGTCTCTGTGGCTCCAGGGTCAGGTGTGTAGTCTCGAAGGCTGTTTTCTGTTCTGCAAGTTTCTCCTTAACACATTTCCA
GCCCCATTTTCTGGCAGGGAGACCCCAGGACTGAAAGGAGCTGGAAGAGTGAGGTCTAAGAGAAAAAGGGGCTGGGTGTGGTAGCTCATGCCTGTAATCC
CAGCACTTTGGGAGGCCAAGGTGGGTGGGTCACCTGAGGTCAGGACTTCGAGACCAGCCTGGCCAACATGGTGAAACCGCATCTCTACTAAAAATAAAAA
AAAAAAAAAAATTAGCCAGGCATGGTGGTGCATGTCTGTTATCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATCACTTGAACCTGGGAGGCAGCGGTTG
CAGTGAGCCGAGATGGCGCCACTGCACTCTAGCCTGGGCGGCAAGCAAGACACCATTTCAGAGAAAAACAACAACAACAAAACATATGGCCAGCAGCCAG
TGTTGTTATTTCAGGATGGGAACCAGGCACTGCACCTCCTCATTAGGAGTCAGAGTAAGGGGGCTAAGCTGGTTGACATGACTGGGGACAGAGTTGCTGT
TGAAATTGTCAGGTTATGAAGGGAAATTAGCTGCTGGGTGTCAAGAGGTGCACATTGCTGCAGGCATTGGCAACTGGGAGCCCTGGTGTGTCTATTAGCT
CCTCAGGCTGTGAGGCCTTAATGACACCCCTGCCAACATTACAGGAGGCAGCAAGTGACAGTAGGAATGAGAGAGGCCAGCTAATCTAATCTGTACGCCC
CACAGGAGTTGGGGGCTGAGGACTTCAAGACCTGGCTTCTGCTCCCTGTCACAGTGGCAAAGACAATGACAATAAAAGCACAGCCTCCAGAGAGAAGAGC
CTTCGATGGACCTGGGTGTTAAACCAGGGGCCAGGCAAAAACTGGGGGATGCAGAATAGGAGGTTGGGCTGGAGGTGAGTGAGAAGAACGGATACGGTTA
GGACCAACATTTAGGCAATATGACCGTGTACAGGATTCTACCACCATCGTCACCATCAGTGTTACTGTTCCCTGCCATCTGCCTATGGGGTGTCTACCAT
CTAAAGTTCAGCACTGCACTGGGCATTTTTAAATTATCATTAGTATATAATTATATATAATAATAATTTAATTTATAACTATATCATTTATTAAGGTCCT
ACTATATACCAAATTCTATTGGACACATGTCCTAATAATAAACGTGATATAATCTATCATTATTTACAAAACTTCACACTCTGACCTTTATTAATTATGT
GTGTGCCAATTATGTGCAGGGAACTGTATTAATCGTAGTTAGCAATATCGTCTCTAGTCCTCCAACCCTATAAAGTGGGCACAATTATTATTTCTCTATT
GCAATTGCCATTTAGCCTCAGCTGGATTGGAAACTATGTAATGGAGACTCTCAGGCCACTGTCTTTTGAGCAGCATTTTCTGCATTGCATTCTTGTATGT
AATCCTAAAATGTAGATGTAGTTTTCCCCCTTTTAGAGATAAGGTAATCAAAACTTATAGAGGTTAAAGGGACTTGCCAAAGCGACACAGCCATGAATGG
CAAAGCTAGGATTTAAACCCTTGGACTTCTTCTCCTTGCCATTCCACCCCATCATAAATTCTAAACATCATAAGCAGAACCATCATAAGTCAGGGTCCAT
CTGGAAGATGGATGGATGGATGGATGGATGGATGGATGGATGGAGAGAGAGAGAGACAGATAGGCAGACAGATAGCTAGACAGATGGACAGATAGAGATT
TTTAGGAACTGGCGAATTGGCTCACACAATTATGGAAGCCCAGAAGTCCCAAGAAGTGTAGCCAGCAATCTGGAGATCCAGAAGGGCCCATGGTAGAAAC
CTCATCCAAAGGCAGAAGACAAGCATCCCAGGTTGAAGACAGTCAGGCAAAGAGAGAAAATTATTTCTTACTCAGACTTTTGTTTTATTCGGGCCTTCAA
CAGATTAGATGAGATCCACCCCTACAGGGCAGGGCAATCAGTTTTACTCAGTCTACTGATTCAAAGGTTAGTCTCATGTAGAATCACCCTCACAGACACA
CACTCAGAAATAATGGTTAGTCAGATATCTGGGCACTGTGTGGCCCAGTCAAGTTGACACCTACAATTTTTTTTTTGCCTTCTTTTTATTTTTGGTGTTG
TCATCCTGTGTCCAAGGCACATATAGTCAATCATCACACCTTTCCCTTAGCCTGTACTAGGTTCTGTGCCAAGGATTTTAGAAAGTCATGTCTCATTCAG
TTCCCCTAACAGGTCTAGGAGTCATTATCCTCCCCAACCTAAGGAAACTGAGACCCAGAGGTTCAGAGTATCCCAAGATCCTACAGGAATTGCAGATTGT
AGCCAAAATTGGAACTCCTAATTCCAGAGCTCCTCCCTCCTGCTAGCATTTTTCTTTGAGTAGTTTTATTAATGAGAAAAGCTGTTGAGCACCAGAGCAA
CCCCGCCTCTTCTAAATACCATCTGACATATACATTCAGCAGAGGAAAAATGATGTGAGGTCTGGGGCTTGCTTTAAAATACTTTGGGGCCAGACACAGT
GGCTCACACCTGTAAGCCCAGTGCTTTGGGAGTCTGAAGTGGTAGGATCACTAGAGGTCAGGAGTTCAAGACCAGCCTGGGTAACATAGTAACATAGGGA
GACCCTCATCTCTATAAAAAATTTACATGAAAAAAAATAAACAAAATACTTCTGCAACAGCAGCAGCAAGAGCTGCCGCAATGAAAGAAGAAAGAAAAGG
AGGGACAGGATGAAGGAAAGAAGCAGTGTTAACATTCTAGTAATATTTGCATCTGAATGATATTTATATGGGGTTATTGTCCTCCCTTTGTGTATGTTTA
AAATTTTCATAATAAGCATATTTATATATATATACACATAAAACATATATGTACATATTATCATAATGCCTACCTGCTCTTGAGAAAGTAGTGCCGTATG
GCTGGGGGTTTCTCTCACTGGTTTCTATGGCTCTCCCCTCCCCCACTTTTTCTAAGAAGTGGTAGTACCTATCTGACTATTTTCTTGGCTGCCTGAAGAG
GCCTCAAAATTAGAGTAAACAAATTACCCATTACCAGGGAAGCCTCCTTCCTCCCAGCAGATTCCCAGCATCTTCTTTCACCTCTAGGAGATATTTTCCA
AGGTCACTAAATTAAGCCTTCAGACAATCGAAAAATTGAATCTCAGTACCTCTATTTTCCTAACAAAATTTCTGCAGCACCGATTGGGGCTGACAGGTAC
GGCCGTGCAGCTTTCTGGGCTGTTCAGGTCGATTTGGCCAAGCAGGACGGCATCAGCTTGTATTGGAGGGAACATCTGAGCAGCTCAGGGCCCCCTGGGA
GTCAGAGCGTTCCCTCCCTCCTTGCCACTGTAAATGACTATTTCTGTCGTTTGCAGAGTGTCCTTTTCTTTCTCCTACAGCCCCATCCTTACCCTCTATA
GCCATCAGGTCAGGTGCGTCTTCTTCATTTATTTATCAAAAGGGCCATAGCAATCATTGCAAACATGTTTAGGAGGATTTGGAAACCATGTTCTTTTAAA
GGGCACTAATGATGCAGCAGTAATCACAGTGCTAGTGGAAGGGGAGGGCAGAATGTGATGTTTTGGGAGTGAATTCTGTAAGAGAAGAAGGGACTGCGTT
CCTAGCCCTCCAGAGCTTGCAGCTATCACAGCCTGGCTGGTGGAGGGGCTTGCAGAGCTGAGAACCACTCAGAATTTGGGGGCTGAAGACCCTGGCTGTC
TGAGCACCATCTCTGTGACTTTCGAGGTCATGTTTTCCCTCCAGCCCTCATTTCCCCCTTTATAAGCTGTGTCTTAGCTAGTGCTTTCAGCAAAGAATAT
CTTTAGGCTCCTGGAGGATTGATATCCCCTGAAGTAGCCCCTGACCAGCCTCCAAGATGTATCCTAAAAGCTCCTATGGAAGTTTACATTTCACTCAAAA
TATCTGTGTTCATGTAAATGTAAAAATGATGTCTTAAGATGCTTAGCAGTGAATAAAATGGGTGCTCTAGGGAGATGCAGTGAGTTTATCCTGTGGCTTT
GAGTATACACTGGTACCCTACGTGGGAGACCCCGGTGCCCATGCCCGGGTGCACAAAGCCAGCATCAGTGACCTGCACACCAGGAGGCAGGCTGCATGAT
GATTGGGTGCAAGTCCTTAGGTGGGTCACTCAGTCTTTCTTTTCTTGAGTTTTTTCATCTGTGAAAGAGTGATCATAATACTATTTCCATTGAGAAGAAG
AAATAATTTATGTAAAGCACAAAGCATAATCCCTGGTATTCAATAAGTACTCAGTAAATACTAGTGAAAATAATGATTATAACTATGACCTCCAGAAGCT
TTTGCTGAGCATCTATCTGTAGCACTGCATGTCAAGCCAAGCTAGAGTACAGTCTCTTAGGAGACACAGGGGAGGAAAACATCCTTGGCAGGTTCGCATA
TTGGTGATCTCGTCGTAATTTTCTCAAATACCCTTCCTCTTTCCTCACTTTTGGTGATAACTACCTGTGTTGCTCTTGTCACTTTTGCCTGGATCCACTA
ACTCACCACCTAGGTATCTGCAA


SNP Information

Context             (SEQ ID NO:55164):
GGGGCCATAGGCTGCCAAGCTGTGGTTTCTAGGAGACTCTGAGGACAGAGGGTCAAATCCATGAGTTTGTGGATGGCCTGATGATCCCCAGCGGAGACCA
Y
GTTAACTAGTACATTGATGCTGTTGTGTGCCATGTGCTGCTCAGATAGGGTTTTCTGGGCATCAAGGTGAAGGTCATGCTGCCCTGGGACCCCGCTGGTA
Celera SNP ID:            hCV2773377
SNP Position Genomic:     6482
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,2)   his(T,2)   total(C,4|T,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:55165):
GTACAAACTCCTAGGAGGGCTTACTGTGCGGAGGGCCTGCGATGGTGGGCTGTGGTTCATCATGAATAGGGGGGCCATAGGCTGCCAAGCTGTGGTTTCT
R
GGAGACTCTGAGGACAGAGGGTCAAATCCATGAGTTTGTGGATGGCCTGATGATCCCCAGCGGAGACCACGTTAACTAGTACATTGATGCTGTTGTGTGC
Celera SNP ID:            hCV2773378
SNP Position Genomic:     6412
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,3)   his(G,3)   total(G,6|A,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:55166):
GAGAGGCACAATCTGCTTTCCTTTTGATGGTGTGCAGCAGCATGATGGCCGCGCGAATTTCCAAGAAGAGGATGTTGGTCGCTGATGGCATCTTCAAAGC
Y
GAACGGAATCAGTTTCTTACTCCGGAGCTGGCTAAAGACGCTTCTCTGAAGCTCAGGTTCAAGTTACACCCATCACGACAGTAACAAATATCTTAGCCAA
Celera SNP ID:            hCV2773379
SNP Position Genomic:     6056
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,2)   his(T,2)   total(C,6|T,4) 
SNP Type:                 SILENT MUTATION


Gene Number:                 284
Celera Gene:                 hCG1644591 - 83000099046837
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VYLS(24245914..24258784)
Chromosome:                  Chr15
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12444):
ATTCACATTAATCAAGTATGTATTAAGGATTTTTTTTTTTTTTTTTTTTTTTGAGACAAATCTCACTCTGTCACCCAGGCTTGAATGCAGTGGTGTGATG
ACAGCTCACTGCAGCCTCAACCTCCTGGGCTCAACCAGTCCGACTACCTCAGCCTCCTGAGTAGCTGGGACCACAGGCATACACCACCAAACCTGGCTAG
TTTTTGTATTTTTTGTGGAGGTGAGGTGTCATCATGTTGCCCAGGCCTGTCTCGGATTCCTGGGCTTAAGCAATCCTCCCTCCTAGGCCTCCCAATGTGT
TAGGATTACAGGTGTGAGCCACCACACCTGGCCCAAGAATCTTAAAATGTTCATACCCCTAGGCAGTAGTTAACATTTCTATGGATTTATTCAAAGGAAG
AAAATCTGAAATGTAGACAAAGTATTAAATATGAGTGTTCATTTCAGGATTACTTGTCATAGAGACAAATGAGAAATAATAGAAATGGCAAAATGAAGGT
CATAATTAAGCAATTTATAATGTACCCAGCCAGTGGAGTCTTAGGCAGGCCTTACAATGGATGTTTATGGAAGAGTTTTTAATGGCATAAAAATATGTAT
GTGTGTGTGTGTGTGTGTTCTGGTTTGTTTATCCCTGAATATTTTAATGTGTTTTTTCTAAAAATAGAGATTTTTTTAAACCTGAAAATAATCAAAATCA
GGAAATTAATGATGATATGACACCATATCACCATTACTTAATCCACAGACATAAACTCATTATTGTCCTAATAATATGCTTTATAGCAAAAGGAAAATTT
TTTTCTTCTAGTCCAGGATACAGTAGCTGCAGTGAACCACCTCAAAAGGAGGAGCAACACTAAGATGTCCCATGTCCAGAGGTGATGGAAGAAAGTTGGA
ACAAAAGATACTCCGGGGAAATTGACAAGGGAATTAACTGGGGACCTGTAGCAGGAGCAGCCAGGCCTATCAGCCTTGGATTTCTCCACCTACCCTGCAT
GTAAGAGTTTAGGGGGCAAGGACTTGGATTAATGAGAAGGGGTCATGTATTGAGTGGCTGTCAAAATCTGGGAGGAATGAGAAACATCCAAGCCTAAAAG
ACCAGCTGCTGAGCTTCCCACCTAGCAGCAGGTCCTGCCTATCAACATTGTATGGAGGCACAAGCTCAGTAACTGTTTTGCTCTTCTCTATACACAGGCA
GCTCAACCAAAGGCAGCTGTCAGCCTAACAAGACATTGCAACTCAAAAATGCACACAGTCAAGGATCACCAAATGCATGAGGAGTGCAATACTATAAAAA
AGAGATCACAGATCCAGCAGATGGACAAATGCACACCTGAAGAAAGAGAGTTAATAGGGAAAACCAGAACTAGACTTAAAAATAAATGTGATTATAAATC
ATCAGAGAGATAAGAAAGTATTTTATTCATGATACAGGAATAGCTGGTTGTAAACAAGAAACAGAAATTTTGTAATAAAATATATAATTATTGAAATAAA
AAATACATGGGCTAGTAGCAGAATGAACACAGTTAAAGGGTGAATCAGGGAACTGGAAGATGTGGTATGGGAATTCTTTCAGAATGCAACACGAAGTAAG
AGAGATGGATTTTAAAAAGAAACAAAAGGTAAAGATATAGCGAATAGATTCAATATTCATCTAATAAGAGTTCTAGAATTACAGGCCAGAGATAACAGGG
AGAAAGTATCATTTAAAGAAATAATAACTAGAGATTTTCCAGTATTTTTTAAAAAGTAGGTTCTCAGATTGAAAGGTTTCACTAGGTACCAATAAAATAA
TTTTTTAACCCACATCTGGACTCATCATAGTGAAACTGCACAACATCAAAGATAAAGAAAAAATTCTAAATGCTCAGAGAAAAAAAAATTAGATGTACCC
ACTAGAAAAGAATAATATCAGATGTTTTTAGCAACATAAATTCAATACCTTCAAAATGCTAAAGTAAGGGATATTTCAGTTTATTATTTTATAGCCAAAT
TATATTTAAATGTGAGGATGAAATACAGGTATTTTCAAACATAAAAATACTCAGAAGATTTACTCACTCCTTCCCTTCCAGATCCTTTTTGGGGAAAAAG
AAAAGCAATTAGATGTTGTACTCTAGTTAAGAAAAAAACCCAAGAGGAAACAGTGGCATGCAAAAACCAAAGGTGAATTTCTTTTATTGAGTCAAGGTCT
CTCTCTGTGGCCCAGACTAGAGTATAGTGGCACAAACATGGCTCACTGCAACCTTGAACTCCTGGGCTCAAGCAATCCTGGGTGTAGCTGGGAGCCTTTC
AAGTAGTTGGGACCACAGGTGTGCACCACCATGCCCAGCTATTTTTTATTTTTTGTTGAAACAGGGTCTCACCATGTTGTCCAGGCTGGTCTTGAACTCC
CTGACTCAAGCAATCCTCCTGCCTCGGCCTCCCAAAGTGCTGAGATTATAGGCATGAGCCACCACACTCAGCTGTGAATTTCTTAAAATGATTGAATAAA
TCTTATTTTTATCTAAATAACTTCCTGAAAAGTTATAACAACCTGGAACTAAAATTTGAGGTTAGCATACTGAGTATGCATAGGAATATTCCACAAAAAG
TGGAGGTAATGAAATTAAGCTTCCTGTTAATATTTTTGCCTTGTTTGGGTGATGGTAAAACATAATGATGGGAGGCCATTGTTTTGAACAAAGCTCCTGC
CCTAGGCCTCAACAGGCCAGGCTAAAAACCAAAATGGAGTCACCCATGCTAAAGTTCCATCTCACCAAACAGAAAGTAAGTTGTTATCGGACCTTCTGAG
AAATCAGGATGAAACCGACCCAACAGTCCCATAGATTTTTTTTGATAAACATAGAAATGGACACTTCTGGTCTTAAAGCTTGAAACGTACATTTGTTTTA
TTAGTTCCTTCTTCAGGAAAGAAACCCCTGGCTTCTCAAGAAGTATCAAATAAATGAAACTCAAGAGATCATAGTATTCAGACAATGAGATGACAGGCCC
CTCATTCATCATGATTGTGTCCTTACCCCAAGTTCCTGTTTTCCCACTTGTGGTTACATTTCTTCCCTGTTATATAAACCCCTAATTTTAGTCAATCAGG
GAGATGGATTTGAGACTGATCTCCTTTCTCCTCAGCTGAAGCTCTCAGTTAAATCCTTCTTTCTTGGCAACACTTTTTGCCTCAGTCATTGGCTTTCTGT
GCTGTGAGCAGCAGGACCTAGACCAAGGACCTAGACCTGTTACCTTTTGGTAACAAGAGGAGAGAGATAACAGCCAATTCCCCAAATAGGCCAGTTACAA
TCAGCTGATAATGAAGTTCCCTCCACTTTAATCCCTACCAAAAAAGTAACCTGAAGTTAACCAATCAGTTACCTTTCCACTATTCTTTCTCTCTGTCCCT
GCCTTACAAAAAAAGTAACTTTGTGAAATTACCAGTCCACTTTTCATTCTTTGTTTCTGGTTTCTTCAGCTCTTCTCTGCCTATAAAAACCAACCTCTTC
TGCTCAGCTCATCAGAATACTTATTCTATTTTGTGGAATAAAGTGTTGCCTGATTCTAGAAATGCGAATAAAGCCAATTAAGATGTTTAAACTAAATTTG
TTGTAATTTTGTCTTTTGACAGTGAAGACATAGATACCAATTAGTTCTTTAAAATATACTTGCATATGTGCATTAAAAATGAATGTTAATAAGCACATGA
AAAGAATTCAACATTAGTCATTAGGGAAATGCAAATAAAAACCACAATGAGGCACCTCACTACACCCACCAGGCTTGCTATAATAAAAAAGATAGACAAT
AAAAAGTATTGGCAAGGATGTGGAAAAATTGGAACCCTCATACATTGCTGATGGAATTGTAAAATAGTACAGCCACTTTGGAAAACTATTTGGCGGTTCC
TCAAAATGTTAAACATAGAGTTACTATATAATCCAGCAATTCTACTCCTGGTACATACCCAAGAAAAGTGAAAACATATGTTCACACAAAAATCTGTATA
CAAATGTTCATAGCAGCACTATTCATAATAGCTAAAAATTGGAAACAACTAAAATGTCCGTTGGCTGGTAGATGGATATACAAAATGTGGTATACTCATA
CAATGGAATATTATTCAACAATAAAAAGGAATGAGGTACTGATACATGCTATAACAAGTAAACCTTGGGAATATTATAAGCAAAACAAGTTAAACACAAC
AGGCCATATATTGTACGACCCTATTTATTTACTTATTTCAGAGACAGTGTCTCACCATGTTGCCAAGGCTGGAGTGCAGTGGCTGTTCACAGGCATGATC
ATCACGCTCTACAGCCTGGAAATTCTGGGGCTCCAAGAATCTGCCTGCCTCAGCTGGGACCACCAGTGCACACCACCATGCCCAGCTGTGTATGATTCCA
TTTACATGAAATGTCCAGAAGGGGAAAATCCACAGAGACAGAAAATACGTTAATGATTGCCAGGTCCTGGAGGGAGGGGAAAATGAGAAGTGACTGCTAA
TGGCTGCAGGGGTGATGAAAATGTCCTGAAATTAGATAGTGGTAATGGTTGGACAACTCTGTAAATGTATGAAAAAATGCCCAATATATACTTAATTTTT
AAATTTTATTTATTTTTTTGAGACAGGGTTTCACTCTGTTATCCAGGTTGGAGTGCAGTGGCTCAATCAAGGCTCATTGCAACCTCTGCCTTATGGGTTC
AAGCAATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCACACCACCACACCCAGCTAATTTTTTTGTATTTTTGGTAGAGACGGGGTTTC
TCCATGTTGCTGGGTCTCAAACTCCTGGGCTCAAGTGATCTGCCCATCTCGGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCATTGTGCCTGGCCAT
CATTAGATACTTTAAAAGGGTGAATTTTATGGTATGTGAATTGTATCTTAATAAACCTTTTTTTTGTTTGAGATGGAGTCTCGCTCGGTTGCCCAGGCTG
GAGTGCAGTGGTGTGATCTCAACTCACTGCAACCTCCACCTCCCAGGGTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGATTACAGGCACGC
ACCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTTGTGATCCCCCTGCCT
CGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCAGCCCAACCTGTTGTTTTTTTAAAGAAAAGAATGTTACAATAGAATATTATTCAG
CAAAAAAAATGAAGAACTGACACATGCTACAACATGAATGAACCTTGAAGACATTATGCGAAGTGAAATAAGCCAGGCACAAAGGCTAAATATTGTATGA
TTCCATCTATATGTGGTAGTGAAATTCATAGAGACAAAAAGTAAAATGGCAGTTGGGAGGGCAGGAGGGGGAAAATGGGGAATTAGCGTTCAATGGGTAC
AGAGTTTCAGTTGGGGAAGATGAAAACTTTCTGGAAATGGATGGTAGTAATGGCTGTGCAACAATGCATATGTATTTAATGCCACTGAACTTTACACTTC
AAAATGGTTAAGATCATCAGTCATTGGCACCATCCTGCAATCTAAGGCTCAGGTTCAGTGCTCTTCAAGGACACTGGGCCCCACTGGGCAGGAATCCTGG
CCTTGCAGGGCCCTAGACAGGCATAGAGGAGAGCCATGTCCAGACACCCCATGCTCCACATTCTGGGGACCCGGGTCCATGAAGTGCAGGCTGCAGCACT
GGTGAGAGCTGGAACTTTCAACCGCCCAGAAAGGCGGTAGCCCAGGCTTATACTGCAGTGCCTGGCTCCTCTTAGCAACTAAGACAGTGCCTTGGCCTGG
GGCAGGCAGCACTGGGGATTTGTGGCCAGGTGGGCAGTGCAGCTTCTCATTGCTGGGGCTTTACTGGGAGCTTGGGAGGGTGAGGCTACCCAGCAGCCAT
AATGGTGCACATGAATGTCCTGGTTGATGCTCTCAAGAGCATCAACAATGCTGAGAAGAGGAGTAAATGCCAGGTTCTTATTAGGCCGTTCTCCAAAGTC
ATCATCCAGTTTCTAACTGTGATRATGAAGCATGGCTACATTGGTGATTTGAAACCATTGATGATCACAGAGCTGAGAAAATAGTGAACCTCACAGGCAG
GTTAAACAAGTGTGGAGTGATCAGCCCCAGATTTGATGTGTGTTGGTCCGTTTCATATTGCTATAAAGAAATACTTGAGGCTGGGTAATATATAAAGAAA
AGAGATTTATTTTGGCTCACAGTTCTGCAASCTGTACAAGAAGCATAGCACCGGCATCTGCTTCTGGTGAAGGCCTCRGGAAGCTTCCGCTCATGGCACA
AGGTGAAGTGGGAGCAGGCACATCACATGGCAAGAATGGAAGCAAGGGATGGAGGGAGGGGGCCACACTCCTTYAAACAATCCCATCTCGATGAACTCTC
AGAGCCAGAACTCACTCCTTATGGCAAGGAGGGCACCAAGCCATTCTTAAGTCATCTGCCCCCATGACTCAAACACCTCCCACTGGGCCCCACCTTCAAC
ACTGCAGATCACATTTCAACATGAGATTTGGAGCGGGACACACATCCAAACCATATCAATGTCCAACTCAAAGATCTAGAAAAACGGCAGAATAACCTGC
TTTCATCCCACCAGTTTCAATTCATTGTACTAACAACCTCAGCTGGCATCATGGACCATAAGAAAAAGCAAGACAATAACACATTTGAGGGAAAATCCTG
GGATTCTTTTTCTAGGGGTGTAATACATACCTATAAATAAAATGTCTTAGTGGACCCTGGTGCTTCCAAAACATGAATAAATAAAATGGTTAAAACCTGG
CAAATATCAGCAAAAATAATTTTCATGCTGATAAAAGGAATACTTTTCCAAAAAATTATAACACGAGTTTACATATCTAACAACATAGCTTTGAAATATA
CAGCAAGAGTTTATGGATTACTAAATAATTTATAATTTGTATACAATTGGAATCATATAGCTGTGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTCTGTGTATTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTAAAGTGGTGCAATCTCAGCTCACTGCAACCTC
TGCCTCCCATGTTCAAGCGATTATCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACACACCACCATGCCCGAATAATTTTTGTATTTTTAGTAG
AGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTGAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAG
CCACCGTGCCCGGTCTTTTTTTTTTTTTTTTTTTTTAGACAGATTCTTGCTCTGTCACCCAGGCTGGAGTACAGTGGCATGATCATACCTCACTATAACC
TTGAACTCCTGGGCTCAAGGGGTCCTCCTGCCTTAGCCTCCCAAGTAGATGGGACTACAAGCACAGACTACTGCACCTGGCTAATTTTTTAGTTTTTGTA
AAGATGGGGTCTCACTTTGTTACCCAGTCTGGTCTCAAACTCCTGGGTTCAAGTGATCCTCTTATTTCTGCCTCCCAAAATGCTGAGATTACAGGCATGA
GCCACTGTGCCCAGCCTAGACCTATATTTATATTGAGAGACTCACACACATTCATCAGACACTGACAAATCAAGAAGACAAAAAAGTATAGAGTATCTAA
AGAGCAAAACAGTATTAGTTTAAGTCACACTAGCAACTGTAGCAAATAAACTTTTAACTAAGAGTAGCTGAACACTTAGACAATCGAGGTTAATTTCTTT
TTCATGTAAAGTTCAATGTTTGGTTGTGGGGCACGGAGGAAGGGTCTCTGCCAGGAATTCAAGCTGATAGAAACTCTGCCACCTTCAACATGTAGTTGCC
AAGGTCACTCTGTGTGTTGAGATCTTGGCATTCATAGTGACAGACAGAAAGGAGAAACACACGTAAGCTGGGCCTGGAAGTGGCACACATAATTTCTGCT
CATGCTCCATTGGCCAAAACTCAGTACAAGACCACATCTAATTGCAAAAAGTCCAGGAAATGTAGCCTAGTTGTGTGCCCAGGAGGAAGGGGAACAAGTT
TGTTCATCAATTAGCTAGTCTTTAACACAGCAAAGAACAGACGACCTGTCAATGTAATGGATATATGTAGAACTTTGAATAGAAAATGTACATTCTTCAC
AAATACAAATGGAACATTTATAAAAATTGACTAAGTATTGACTAAGTATTTAACTGCACAGTAAGTTCCAAAAAAATTTTTTAAGTGATATAGCTGGGCA
CAGTCCCAGCTACTTAGGAGGAGGAGGTAGGATGATTGCTTGAGCCCAGGAGTTTGAGTCCAGCCTGAGCAACATAGCAAGACCCCATCTCAAAAAATAA
GTAAGTAAGTAAAGTGAAATAATATAAAACATTTAATGATAAAATTTTATGTCAACAACAACAGGAAGATGGCTAGAAATTTGTATACACCGAGAAGTTT
TAAAACACAGGTCTAAATAATTAATGAGTTGACAAAAAACTACAATAAAATTAGAATTAACTGAAGTACTACTTTAAGATGACGTTAAAGTAGTCTTCAG
GGAAATATATAAACTTACTTGCACTTACTATAAAGCAAGAAAGACTAATGATGAATTAACTTAGCTTTTGCATTGGTTCCCTAGGGCTGCCATAACAAAT
TACCACACACTGTGTGGCTTAACACAATAGACATTTATTGTCTAATAGTTTTGGAGGCTAGAACTGAAATCAAAGTGTTGGTGACACCATGTTCTCACTG
AAGGAGGTGGCTTCCTAGCCTCTTACTGTCTTCTGATGATTGCCAGCAATCCTTGGCTTATAGACACATCACTCCAATCTCTGCTTCAGTCATCACATGG
CATTCTCCCTGTGTGTCTGTCTCAGGGTCCAAATTTCTCTTTTCTTATAAGAACACCAGTCATATTGGATTTAGGGCCCACCTTAATCCAGTATGTTGTG
TTTGGCCATTGAGGTATTGGAGTTTTCTGTTACAGCACTGAGCCTACTAACAAGGTACATCATTAGATGTATTCTCATTAATGTCAAGAGCAAGATTAGA
ATACCCACTATTCCCCTTCTTCATCATACCCAACTTCATGCAATAAGATTACCTCCAAAATAGACATATAAATATTAGAAGAGAAGAAGACAAAGCAAAG
CATTAATTATATACAGATGAGATTTGGTTGCCTTCTCTAGAAGACCTAAAAGAACCAATGAACAAACTGTCAGAATTAATAGTACCAATGTACCAAAATT
AATTGCCTTTCTACTTACAAGTATAAGCTATGAGAAAATGTAATTGGAAAAAAACAATAGTAACAAAGACTATAAAGTCTTTAGGAAAAATTTTAGTAAA
AGATCTTTATGAAGGTGATTTTAAACTTGACTAAAACACATTTTAAAAGACCCAATAAATCAACATGTCAGATTCTTGGATAGAAAGACGCTATATTCGA
GATACATTTCTCAAAATCTAGGTATGAATTTGATGCAATAACAATCAAATTACTCAAAAGACTTTTCACAGACCTTCATAAATGAATTCGTATGGAAGAA
TACATGTACAGGAAGAACCAAGGCAATGAAACAGAAAAAGTGGGTAAATTGCCCATCAGCTGTTAAGATACATTATAAATCAATAGTCAAAACAGTGTAG
TATTTGCATAAAAATAGAAAAGGAGATAAATGGATAAATGGAAAAGAGTAAAGGGTCAGGAAATAGATCTGCGTTTATATGGGGATTTGGTATATGATAG
AGGTGGTATTCAAAATCAGTGGAAAAAAGACTATTCAATAATTGGTATTAAAGCAATTAACGACCCATATGCAAAGCAACAAAATTAGATTCCTATCACA
TACATACACCAAAATAAATCCAGATGGAGTCAATGTTTTAATGTTTAAAAAAAAGATAAGTAAATAGATACTTTAAATTATTAGTGAAAAACGTAGATCA
AATCTTTTTGAACAAAAAACAAAAATCTATAAAGGAAAATACATAAATTTTGCCATATTAAGTATTTAAAATTCTGCATGTCAAAAGACATTGCAAACAA
GATTAAAAAATAATCAGCAGACTGAGGAAAATGCTTGTGATAGATACAGAAAAAAAGATAGTGGCCTAAATATATAAAGCAACTCTATAAACTAATTTTT
TAAATAGCCAGTAAACAATATGCTTAATCATACTAATAATCAGGAAAATCATACAAAAATAAATTATTTTCACTCAGTAGATTCTAAAAAATTTAAGTTT
TTTTAAAAAAGTGAAGTCTTATAATCAAGCAAAGCAGTGTTATAAGCTAACAAGGATGCTCATTATACGCAGTAGCTTTAGAGGGCAATTTGGCAGTGTG
GATTAAAAGTAAATAAATGCATATTCAGCAATTCTACTTCCGTGCATCTACCACCAGAGAAACACTAGCCCCTGTGCAGAAGAACATGCAAAGGTTATTC
ATTGTAGAATTTATCACAGTAGCAAAAAATTGGAACCAATGTATATGCTCATCAAGAACAAAATGGGTAGATACAAAGTGGCTTATACATAAGATTGAAT
AATATAGGTGTCAAATGAGCAAAAAAGAAAAAAGCAAATTGCAGAGAAAACATTATACCATTGTGTAAAACACATATACAATATAATATATATATATACA
TTTATTATTACACTGTACATTTCCTGTGGGTCTACATAAATGAAATAGGTATAAATAAATGAAAAATGAGTGTAAATAAGTGGGAAAAAAATTAAATGGT
CTGCAAAATTAATACATCAAAGAACCCAGGGCTGTGGGTGGTGATCAGACAGATCTTTAGCTTTAATATTCTAAGTTTAATATTAATTATTAAACAATTA
AATGAAATTATTAAAAATTACAACATAATTAAAAATACAATTTACGCTGCACAAGAAAAAAATTAGAGAAAAAAGACTGAAAGGAAATGTACAACAATGT
ATAACAATGGTTGCCTCTGGGTGATGTGTTTATGGGTGATTTTCCTTTCTGCTTTTTTTTCCTTTCATTTTCTGTACTTTACACATTTTCTGAAATGGCC
ATGTGTTACTTTATAATTAGCCATGAAAAATGAAAAAGAAAAATAAAGAGCGTTTAAAAAACCCACTGTCAAATTCAGTCTTTAAAGAGCAGTGTGCTTA
CTTCCCTTCCCCCAAAGAGGCCCTGACATTTAGAAACAATATAAAACACTCTGAAGCACCGTTTAATCCTATTACTCTTCTGGACCTCTTACAAACCTGG
GGATGATCCCTTTGACTCTTTAAAATAAATCTCCCAAGGTCATGGGGTTCGTCAGTAACAGAGGGGGATGAAACTCCCAGGCCAGTGCTCCTCCCCTGCG
CCATCTGGCACCTCAGAATTTCAGCAAAGATTTATTGCTTGAGCTAGCCAAAAAGCCAAATGCTCAAATGCATCTTCTTTCTAAGGGAATATTACTCCAC
TTAGGACCACTCTACTAACTTGCCACTGCCTCCTTTCTGGGCCTCAGTTTCCTCGTCTGTAAAATAAGGGGATTGTGTTGTCTCAGCAGGTCTGGAAATT
CCAGGTTCCTAAAACATCCTGTGTGCCTTTTCTCTTCCCAGCTACTTCAAAGGATCCGCTTCTTCATGCTTGCTCTATGGTGATCACTGGGAGATCGTTT
CCAATCCTGGTTCTGCAGCGAATTTATGTCCTGGGTGTCCCTGGGCAATGCAGTGCCTGTCTGGGGACCTCAGTTTTCCCATCTCTACAAGGAGGGTTTG
GGCCCAGACCAGAGTTTTTCCACAATCTGGGAAGGTGAAGTGGGGTGACTTAGCTCCCTATAGGTCTGTTTCGCAAACTGAGGTTCTTGGTAAGGTTTTC
TTTGAAACGAGAATCTTTAGCTACAAACCTGCTTGAAAACCACTGGGCAAGGAGACTTCGCAAGCTCTTTTCCAGGACTGACATTCTGTTTCTCCATGAG
CAGCAGAACACTAGGTACCAGGGTAAAATAATGAAGATGACTCCCTTGGCTTGGGGCTTCCATCCTACTCCCTCTTGGGGGGCTGAGCTGTTCAGTATTA
AGATCTGAAATGCTCGGATCAGCTCAGCCCCCACTTCTTCCTCTCGCTCCCCGTCACCTAGGCAACCGGGCGGGGCCTGGGCGCGCGGTTCCTCCCTCCC
CTTTCTCCCCACTCCAACGCCAGGCTGCATTCCCACCCTCTGCCTCCGCCTCTGCCCACAGCTTCTCTGCGTCTGGAGTCGCGAGTTCCACCAGTCGGGC
TGCGTTTTGTGAACATGGAAACCAGATTTCAAGCGGGGGGGCCCCAACGCCCGAAAATGATCCTAGTTTGCATGCTAGATTTGCCTGGCTTCTTGACGGA
CGTGTTGCAGCCAAAGGGTCTGACCTTGCCAGGGCAACGTATGCAGAGCTTTGGAGGCCTGAGACGGGCTTGTTGGTGCTCAGGGGGCCAGGAACAGGCA
GGGTGCTCTAATACCAGAGCATCCTAGAACGCCCGGGCAAACAGCCGTGAGAGGGGGACAGCGGGTCGTCCGAGGTGGGGGCTGGAAGCACGCATCTGAG
TGGTTCTCTGCTCCACGTGGGGAGTCAGGAGCAAAGGGCCATGGGGTATAATTTCCCACGGAGTTATCTCTGTGACCCTGTGGCCAGGGCTGGGGGCCTG
GGTCCGCGTGGGAGTCCACGCTGGGCTCATGATAATGGGCATATGGGGGCAAATGAATAGGAAGAGATCA


SNP Information

Context             (SEQ ID NO:55167):
AGGCTGGGTAATATATAAAGAAAAGAGATTTATTTTGGCTCACAGTTCTGCAAGCTGTACAAGAAGCATAGCACCGGCATCTGCTTCTGGTGAAGGCCTC
R
GGAAGCTTCCGCTCATGGCACAAGGTGAAGTGGGAGCAGGCACATCACATGGCAAGAATGGAAGCAAGGGATGGAGGGAGGGGGCCACACTCCTTCAAAC
Celera SNP ID:            hCV29277047
SNP Position Genomic:     6378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55168):
ATTTGATGTGTGTTGGTCCGTTTCATATTGCTATAAAGAAATACTTGAGGCTGGGTAATATATAAAGAAAAGAGATTTATTTTGGCTCACAGTTCTGCAA
S
CTGTACAAGAAGCATAGCACCGGCATCTGCTTCTGGTGAAGGCCTCAGGAAGCTTCCGCTCATGGCACAAGGTGAAGTGGGAGCAGGCACATCACATGGC
Celera SNP ID:            hCV29277048
SNP Position Genomic:     6331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55169):
TTGATGCTCTCAAGAGCATCAACAATGCTGAGAAGAGGAGTAAATGCCAGGTTCTTATTAGGCCGTTCTCCAAAGTCATCATCCAGTTTCTAACTGTGAT
R
ATGAAGCATGGCTACATTGGTGATTTGAAACCATTGATGATCACAGAGCTGAGAAAATAGTGAACCTCACAGGCAGGTTAAACAAGTGTGGAGTGATCAG
Celera SNP ID:            hCV921958
SNP Position Genomic:     6124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55170):
CCTCAGGAAGCTTCCGCTCATGGCACAAGGTGAAGTGGGAGCAGGCACATCACATGGCAAGAATGGAAGCAAGGGATGGAGGGAGGGGGCCACACTCCTT
Y
AAACAATCCCATCTCGATGAACTCTCAGAGCCAGAACTCACTCCTTATGGCAAGGAGGGCACCAAGCCATTCTTAAGTCATCTGCCCCCATGACTCAAAC
Celera SNP ID:            hCV26911593
SNP Position Genomic:     6474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 285
Celera Gene:                 hCG1654110 - 66000115787336
Gene Symbol:                 BOP1
Protein Name:                block of proliferation 1;KIAA0124
Celera Genomic Axis:         GA_x5YUV32W0T1(782439..823738)
Chromosome:                  Chr8
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12445):
GGCTGCCGTGCACAAGTGTGGTGGCTACTGCTGCTCACCATGGCCCACAGGGTCACAGGGAGGAGGCTGAGGCAGCAGCAGCCCTTGCTGCCAGGTGCCT
TGAGACATTTGGGACCACCTCCTTTCCTTAGACAGCCTCCCCTCCACCTGCCAGACCTTGAGGAGACCCTGGAGCCAACAGCCCTCAATATACCCGATGG
GAGCTGCTTGCTTCCTCTGGGAAGGCACTGTGAGCCCCACCGACCCCTCTCCAGCTCGCCCTGCACACAGGCTGACTCCTCCAAAACTGAGAGACTTTCA
GGGCCAGGCTGTCCATCCCTGGTCCCTCAATAAAGGACTGAGCAAACACTAGCCTGTGGAGTTGGGTGGGCATGGGGCACCGGAGGCATCTGCCTCCCCC
CAGGAGGCCACTGCAGCTCAGCCCTTCTGTGCCCTGGGCCCCTCCTCACCGCACCCCCCCCACCACACCATCCGGGGCAGAGGAAACACAGGAGGCTACA
GCACAGAGCCTTTTTAATTTTTTCTGTGCTATGCACAGAAGCTGTATGAGGACAGATGTGTGCCTTCTTTTTTTTTTTTTTTGAGATGGAGTCCCGCTCT
GTCACCCAGGCTGGAGTGCAATGGCGCGATCTCAGCTCACTGCAAGCCCCGCCTCCTGGGTTCACGCCGTTCTCCTGCCTCAGCCTCGCAAGTAGCTGGG
ACTACAGGCACCCACCACCACGTCCAGCTAGTTTTTTGTATTTTTTAATATAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCCTGACCTC
CTGATCTCGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGACCAGCCCCAGCTGTGTGCCTTCTTATGGCCACAC
CAGGAGGCACTATGGTCCGGGCACACATCAGGCCCTCCAGACCCTGCAGCACTTCTCACAGCTGCTGCTGTGGGGCCTCCAGCATCTTGGGCCAAATACC
AGATCTTCCAGGGTGGGGCCAGTGGGCCTGCTGGGTCTTGGCGGCTCTCAGAACCAGGGAAGCAGGGGTGGCCCTGCCTGCCGTGGGAGCTCCGGACACG
ATCTGTGGCCAGGGTCTGAGTGACTGAGCGTGGCCAGGTCGGCTCTGCTTCTGCAACTCCTCGTGTGCTTATGAGTGGACGCCCTGCCCTGCCTTACTTC
AGGGACCCCTCACGCCCTGCCCCCTGCCTCACTGCAGGGACCACTCTGCTCCCAATTGTCCACCCAGAGACCCTCCACAGCGGCCACCTGACCACTGGCT
TTCAATGGAACTCTCTCCCGCGATAGGCCGAGGGCCTTGGTGACCTCCAGCTCACTCAGTCTCAGGGAGCCCCAGGGTTTCAGCACATCCTTCTAGAGTC
TTTCCAGCTGCACCCATGAGGCTGGGGCCAGGTGAAGACAGAGAAGCATCCAGGAGCCCACATCTAAGGAGGCCCCCACTCCCAGCGCCATCCGAATGCA
GGTAGGTCTTAAAAAGGAATGCCTCAGGGCCAGGCGCGGTGGCTCAAGCCTGTAATCCCAGCACTTCGGGAGGCTGAGATGGGAGGATGGCTTGAGCCCG
TGAGTTCCAGACTAGCTTGGGCAATACGGCGAGACCCTGTCTCTACTAAAACCTTAAAAAGAAAAAAAAAAAAAAGCCAGGTCTGGTGGTGCAAGCCTGT
AGTCCCAGTGACTCAGCTGAGGTGACTGGATCACTTGAGCCTGGGAGGCAGAGGCTGCAGCGAGCTGCAATCATAGCCCTGCACTCCAGCCTGGGCAACA
GAGCGAGACCTTATCTAAAAAACAAAAAGTGCTTCCTTAAATTTTGCACCCAGGTGCCCCCTCTGGCCTCACCCTGATCCTGAGGCCTCCGTCTACCTGG
GTTCGTTCTAACCTGCGTGACCATCATTCTAGCATTTGTCTGGCACAGGTCATGTGGCTGTGCCTTGTTCTCAGGCTCCTCAGCCAGCTGGGTGGCTCCT
GGGGCTGTAATCTCACCATCTCAGATGTCGAGATTACTTTTCATACTTCCTTATCTTGTTAATAAAGATGGGACAAAATCATAGCTTGTAAAAAACTGGG
ATGATGGTGAACCCAGTTCTGAGGCTTCACTTTCTGCTTTTGTTTGGTTCTCCATGCTGTCAAATTCTCTGAAGAGGCTGTTGCCCTCCTGAGTCAGCTG
CAGCCCAGCAAGGCCCTAGAAGAGCCTCTGCTGGTGGACAGAGGAGCTGCTGCATGCAGACGAGGAAGCTGGGCTGAGGGCCGGCACCAGGGCACGGGGC
AGGGAGGCTGCGGGTCCCGGGTCTCATGGGTCTCAGTTCTATGGAGGTGCCTGTCAGTCCAGGTATTCAGTCCCCCAACCCCGTCTTTGGGTCTCAGTGG
TACTGGATCCAGGTGTACCTTTGGGAGAAGCTGTTGAGAAGCTGGCTGAGGGAGGACCACCCACGTGCACGCCCATGCTCTTATGTGGATCCCCGGGATC
ATAACCTTGTGGCTGACACATTTCCTCTCCAAGGCTGTGCTGTCCTCCACGACTTGCTGGGTCCCCTCAAGGCCCTTGCCTGTGTGGGTGGGGTGCTCAT
GGGAATGAGGGTCTTGGGAGGGGGGGGTGGGAAATCAAACAACACAGGGATGGGGTAGCTGCCACAGTCCCCACCAATGGGGTCTCCTGGGCAGTGACCC
GGCATTCTGCCTCCAGTGGCTGCAGTGGGAGTCCTGATCTCAGGCCAGGGAGGGGACGTGCAATGGTGGTCCAGACCTGGTCCCATTCCTGGCCAGGCTC
AGTAAAGTTACTGGCCAGTTTCTGGGCCTCGGTCTCCCCCAGGTTATTCAGCCTTGAGAGTTAGTCACCATGCCTGTGATTCTGCCTCATCTTCTTGTGT
CAAATAGGGAGGGTTTTTCTTGGCAGAATGGTGGTAAGACTCTGAGCCAGAAGGAGACTCTCCCAGAGAAGGCAGCAGAGAGCAAGAGCACCAGGGCCTT
CTCAAGGCCTCCGAGAGCCAGCTGGGCCTGGGCAGTAGATTTGTGGGAGGGTGCCCTGTTGGGACTCTGCTGACAGGGAGTCCTCAGGGCTTGTGTGAGT
GCTCTCAAAGTCACAGGATGGGATGATCACCTCCTTTCTCCAGGCCAGGCAGCCAGCGCCGGAAAGCTCTGCAGCCCCCTGCGCGGCCTGGAGAAGGGCT
TCCTTCCAGTTTTAAGTCAGTGTTTCTGTCTCATTGCCATGCTCGCCCCCAGTGCTACGTCCTGCACCAACCATTGCCACTTCATACTGACCAGGTGGAA
CCAAACACTCACATTCCAGTTGGCTCCCCATCCCTCCCCAGGGAGAACAGATCCACAGGTGGTGCACCTGTGAGTGGAGTGGAGGCTGGCCACGGGCCTC
ATCACACCTGCCTTCCTTGCTCAAAAGCCCTGCCCAGAACATGCCTCGGTCCCAAAAAAGGGTACACTGGGCCCTAACCCACATGCCTCATAATCTTTAA
GCAGAAACAGCAAGCAGATTACGGGACAGGACAGATCACGCTAGTAGGATTAAGCTTAGAATATCCCAGATAATCGCGGATGCCCCTCCCCCAATGGGGG
AGTTATTCCCCTTAACTTCTGAGGATTAAGGGGAATAAGAAAAAGAAGAAGGGCTGGGTGCAGTGGCTCACACCAGTAATCCCAGCACTTTGGGAGGCCA
AGGCGGGTGGATAACTTGAGGTCAGGAGTTCCAGACCAGCCTGTCCAATGTGGTGAAACCCCGTCTCTACTAAAAATACAACAATCAGCCGGGTGTGGCA
GCACGCACCTGTAGTCCTGGCTACTCGGGAGGCTGAGGCAGAATTGCTTGAACCCGGGAGGTGGAGGTCGCAGTGAGCCGAGATCGCACCACTGCACTCC
AACCTGGGTGACAGAGCAAGACTCGGTCTAAAAAAAAAAAAAAGAAAAAAGAAAAAGACGGATAAAAGAAGACAGAAACATGGGAGTATTTCCTTTGCAC
AAGAATCCAAGGTCTAGAATGAAGAGATGGTGAAATGAAGCCAGCCTCCAGGAAGGTGCACTGTGCCTTAATGGGACCTGGGGATGGGAAGGCCAACACA
GAGGTGTCAGCGGGACAAACACAAAGTGTTTCTAACAAGAGCAAAGATTTCCAGTCTTCTCTTTATTTCCAAACACTCTGTAGGTAAAGCAGAGCCTCAG
TAAACCCAAGAAGCAGAAAACCTGGCCTCCTGCCTGGGGCAGCTTCAGTTTAGACTTTTCTTCATTCCTAACAGCATAAAGAGGCTGTGCAAATGGGAGG
CACTCAGCAGAGCCTGAAGAACTCTGGGGTCTTAGCTCCTGGGAGGCCACACATGCTTGGTGGCACCCTGCCGGTCACGGTGCCTCCAAAAGCTCCCAAT
GATCAGTGGCCTTTCTTTTTTTTCTTTTTTTTCTTAGACAGGGTCTCACTCTTTGCCAGGCTGCAGTGGCGGGATCTTGGTTCAGTGCAACCTCTGCCTC
CCAGGTCCAGGGAGTCCTCCTATCTCAGCCTCCCAAGTAGCTAAGACCACAGGCAAGCACCACCACGCCCGGCAAATTTTTTGTATTTTTAGTAGAGCTG
GGGTTTTGCCATATTGTCCGGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCACCCGCCTCCGCCTCCCAAAGTGCTGGGATTACAAGCAAGAGTCACC
CCACTCGGCCAGTGTGGCCCTTCTTCAGGTCATCACTTGCCAGCCGCAGGCGGTGGCTCTGCCCCTCACCGGACACGACGTCACAGCCGGGATGTGAACA
GCAGATTCTGATCTCCAACTCCAGACAATCACTGATTTACTTCTGCAAACCGGAGCTGTCCGGTCTTGCAGGGTCGGACCATGTAAACAAGCCTGCTGCC
AGGCAACTGAAGACAGAAACACGAATAAAGATGCCCCATAAGGAATGAAAAACAAAACTCCTCTTGGGAAACCCAGATTTGGGATTCGGAAACGGGCTTG
AGATCAACCTGAAGCTTCATGACGTCTTACTGTTTCCACTGCCTTTCCTGTTCCACTACAGCAACGCCCTCCACTTCACGTGCCAAGTCCTGACTTTCTC
CTAATAGTTGCCGACCCAGCACCCCGTAGGCTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNT
GCGGGTGGCGGCCGGCGCCCGGTGGGGCATGGCGGGTTCGCGGGGTGCGGGGCGCACGGCGGCGCCGAGCGTGCGGCCGGAGAAGCGGCGGTCTGAGCCC
GAACTGGAGCCTGAGCCCGAGCCGGAGGTGACTGTGGCGATGCGGGGCGGCGGGGCGCGTCCCTAGAGGGCCCGGCGGGCACGTGGCCGCGCTGGGGCGG
GTGGGCCCGGCTTCTGTCACCTGGGCGCCCGCGCCCAGTGAATCGGTCTTGGGCGTGGGTGCAGCTCCTCTATCGGGGGGTCTCAGGCAGAGCGGACTGC
GGGGTAAAGGACGGCGTCCGGGAAGCAAAGAAACGGGGGAGCGGGGAGTGGGGACGGGGCGCCCCTTGCAGCAGCCTCTCCAGCCGTTCCATTTGTGCAT
CCTGCCAATAAAAGGGCTCGGCTTGCGCTCCCAGTAAATGCTTAACCTACGTATACGCTAGTTAATTGCGTTTTTATGCTCATGGGATAGACATGAGAAT
AAGAAAACCTGAATAGAACCCAGTGTCTGCTGCATTTGCTGTATTAGAACTCACTGTTGCTCTCTGCTAGCTCAGCCCTGTCTTGGTTGTGGGGATCATC
AAATTGGGTGGTGGAGGGGATGGACAGCCAGCCCCTCACAGCCCCCTCGGCCGCGGCCGCKCTGGGTTGTTGAAACTGCCCCATTGCTTTGTGAAGCGAA
TTCAACTCATCCTGGCTCCCATGGGCTGAATGGCCCGCAGGCCACTCTAGGCGCCAGGTTCTGCGACTTCCACCCTTGGACTAAACGGTCCTCAGGAGCC
AGTTGTTTGCGCCCAGGCCACGGATGCCATTTCCACTAGTTATTGTGATTGTGTAGCCGACTGAATACCAAGACACATCATGACTCTGTGTGAGAGAGGC
ATTGTGTGAACACTCGGTATGCAATAGCTAATACATGCAGGTCGTACCTTAAGTGAGACTTGTAAACTATTAGGAAAACAGTAAAATCTAGAATTCTGCA
TTCAACTGCTTCCTTTTTCTTTTCTTTTCCTTTTCTTTCTTTTTTCTTTTTTTTTTTTTTGAGACAGAGCCTGGCTCTGTTGCCCAGGCTAGAGTGCAGT
GGTGCAGTCTTGGCTCACTGCAGCTTCCACCTCCTGGCTAACTCAGCCTCCTGAGTAGCTGGGATTAGAGGTGCCCGCCACCACCAGCTAATTTTTGTAT
TTTTAGTAGAGATGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGTTGGGATTACAG
GAGTGAGCCACTGTGCCTGGCCTTCARCTGCTTCCTAAGAGTCTAAGTTCTTGTTCCACCCTTTAAGGCCAGTGAAGGACCCRAACACTGTGTGTGCCGG
TGTCACGCAGCCAGCAGGGCTCTGCTCAGAGGCAGCTGTGGTCCTGCTCAGAGAGAGGAGTGGGTGGGTTGGTGCGTGGTTGCGGTTAGAGTCTCTATCA
TTCCTGTGACTCTTCAGCCAATCCTTTCAATTTACTGATCAATCGTTGGTCCCAATCTGGTTAAATGAGGAGGCGTCTGCTTCAGGTGGTAAAAGCCCTT
TGGGGACCCATTTCTCTTCCAGCCCCCAGCCCCTTTTCTAGTGACCTCTTGGCTCTGGGGCCTTGGATGCCAGGGTGAGGTGTGGAGAGGGCTCAGGCAG
GCTGTCTGAGGGACCCAGTGGAGTCCAGCCCAGCCTGACCCCACAGGGCCTCCGGAGTGTCAGTGGGTGGTAGAGAGCAGTGTTAGTTTTGCGATGAGAG
CTGAGCTCCAAGAGGAGGAGGTTGTCCTTGAAAAGCCCCTTCCCTGTGAGGTGCTAGGAATTAAAATGTCGATGGCAAAGGCAAGAGGCTGTCTTGTCAG
TGGAGGTAGAAGATGAGGAAGGCTCAGGTTGGGTGGATGCTTTTGGTGGAAGTTTGTGACTGGAGGGGTGTGGTCCTGGAGGCCACATGGAGCTGCTGGT
GGGTGGCTGGAGGGGCGAGAGGCAGCTCTCCCTGCAGTGTTCAGTGCCCCATGCCTGGAGGGGCAGTTGTCACCAACCCAGTGTTTCCTTGCAGCCCCCC
CTCCTCTGCACCTCTCCTCTCAGCCACAGCACCGGCAGCGATTCTGGCGTCTCCGACAGCGAGGARAGTGTGTTCTCAGGCCTGGAAGATTCCGGCAGTG
ACAGCAGTGAGGATGATGACGAAGGCGACGAGGAGGGAGAGGACGGAGCCCTTGATGACGAGGGCCACAGTGGGATTAAAAAGACCACTGAGGAGCAGGT
GCAGGTGGGTGAGCGAGGAGCCCCCTCGAGGGCTGTCCCCCATGTGCAGGTGGCCTTGGGCTTTCTGAGACTGCCACTGTACTGCCTTCTCCACCGTCCC
TCAGAACCCCAAGGCCGGCGTCCCTCCTTCACTGCACCTGGGGCACGCTTGGGCTCTAGGACGCTGGTTTCCATCCCCAGTTGCGTGCCGTTCCCAGGAA
CTCTGAAAATCCACATGCCTAGGCCCTTCCCCGTCAGACGATGCTCGGGCAACCCTCCTGGCAACAGGTTGGGTTTCCTTGAGGTGGGGATTTTACTGCT
TGGAATCCAGTGGCAGGACCCAGCTGAGGAGGGAGCTGAGCAGCATGGCAGGGCTCAAGCAGGCGGCATGGGGGCCCCAACGGAACCCAGCTGGGCCTGA
CCCCACAGGGCTTCAGGGGCCTGAGCAGCCGACGGGTAGAGGGTTTAACATTGTACCTGTTGCAGCGATGGTGGGGGAGGATGCACCCTACTCTTATTGA
GAACAACAGGAGAAAAGCATAATTTAACTAAAACACAGCATTTGTTATTTTTTTTTATTTTTTATTTTTTTGAGACAGAGTCTTACTCTGTCGCCCAGGC
TGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAAGTAATTCTCCTGCCTCAGCCTCTCTAGTAGCTGGGATTACAGGTACATGCCATCACGCCCGGCTAA
TTTTTGTACTTTTAGTAGAGACAGGGTTTTGCCGTGTTGGCCAGGCTGGTCTCGATTTCCTGACCTCAGGTGAGCCACCACGCCCGGCCTATTTTTTTTT
TTTTTTTCTAAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGGGCGATCTTGGCTCACTGCATCTTCCACCTCCTGGGTTCAAACAATTCT
CCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCACTACCAGGCTCGGCTAATTTTTTTTTGTATGTTTAGTAGTGACGGGGTTTCACCATGTT
GGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCAGCCCAGCA
TTTGTTACTCTAAACATTCTGGAAATCGTTTGTAAGGATTTACTCTCCCAGTAGTTTCGGTGTTCTGGAAGTTACGGCCTTGGCAGAGGTCCCCGTGATA
GAAGCCAAGGAACCATGGCTTGTTCATTGTGTGCTAGCTGTGTTGGGTTGGCTTGTTTGCTGGGAAGAAAAGATTTAAAATCACACTTAATTCAGGCTTT
AATTATACCACTAACATACACAGAGAAAAAATGATGTGCTGTGTTGGCAGTGGTTTGTAAGATTATGGACAACTACGTTACCCCTTCTTGAGTTTTTAAA
ATGATACAATACTGGGCCAGGCACAGTGGCTCATACCTGTAATCCCAGCAGCTCGAGAGGCCAAAGTGGGAGGATCTCCTGAGCCCAGGAATCCAGGTCA
CAGTGAGCTATGATAGAGCCACTGCACTCCAGCCTGGGTGACAAGCAAGACCCTGTTTCAAAAAAAAATTATGAGATAAAACATCCTGGAAAATAATGTA
GATATTGTAGCAGCACCATTCAGTAGGGTGGAAGCTCCCACTCAGGGCCCTCACACCTAACCCGTGAGCACAGTTAGTGGTCTGGTGTACATCTTTCTGG
GTCTTCTGTCCCTTTTTAAATTAAGGATTTACACATTTACATGTTAATGATTTTTTTATTAAATTCTTTCAGCGGGCGTGGTGGCTCACGCCTGTAATCC
CAGCACTTTGGGAGGCTAAGGTGGATGGATCACCTGAGCTCAGGAGTTCAAGACCAGCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAATATAAA
AATTAGCTGGGCGTGGTGGCGCGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCGTTAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCC
GAGATCTCACCACTGCACTCCAGYCTGGGTGACAGAGTGAGGCTCTGCCTCAAAAACCAAAACAATGTTTTCGCATAATAACATATCCAAGTACTTGAAA
GGTACTAGAGGTGTCTGCGGAGTCTAGGGAGGCGCCATCTTCTCTTCTCGCTGCTTGTCTCCTGGCCCCTGGAGCACCAGGTCCTCTGCACTGCTGAGTG
TGTGCTTGTCCTGCCCATTGCCCTGCTCGGGTTTCTGTGACTGCGTAACTGGCTGCCCCATGCAGGRTGTTTYCCAAAGTACCGCTGTCTGTGGTCTGTG
TGCTCCGTCATCCAGCAGGGCCTGAGGTGGCAAGGCCGGCCGGGCTGGTGGGGCGGTCCTCAGAGTTCCCCACGCTGCTGGCTGCCCAAGTCCCTGCCTG
AGGCCCTGCCCTGTTGTGGCGCTCATGCACCTGCCCGCRTGTCCTGTGCTTTAGCTGAGGGGCCGAGGCCCTGCCCTGCCATGGCGCCCGTGCATCTGCC
CGCGTGTCCTGTGCTTTAGCTGGGAGGCCGAGGCCCTGCCCTGCCGTGGCGCCCATGCACCTGCCCGCGTGTCCTGTGCTTTAGCTGAGGGGCCGAGGCC
CTGCCCTGCCGTGGCGCCCATGCACCTGCCCGCRTGTCCTGTGCTTTAGCTGAGGGGCTGAGGCCCTGCCCTGCCATGGCGCCCGTGCATCTGCCCGCGT
GTCCTGTGCTTTAGCTGAGGGGCACCTTGGGCCCTGTCAGGGTGTTTTCAGTTCTAAAGTGTGATCCTCATGACTGGGTTTAAATTCTTCCAGGTCAGGA
GAATGAATTGATGAGGTGGGGGTGCTTTCAGCTTCTTAGTGGGAACCCCTCCCTTTTCCCCCCTGTTCATCAGAAGCCACCCAGGCACCTTGGCCTGCTG
AGCGGCCACTCCCTCCTGCCTGCCCTCCGCGCCCCTCTTGAATGGTGGGAGTCCTTTCCCATTGTGCAGCCCTGCAGGTGGAAACTCAGCCGGCAGCCCA
GTGCTGCCTCCTGCATGTTCTCTTGGCTTCCATGAGCGTGGCCACGTGAGGCCTCCCAGAGTGCCGCCAAGATGGCCCCGTCATGCCCAGTTAGTGGCCT
CAGGTTAGGCCTGTTTCTGTGTCATCCCGAAGGCAGTCCAGGGCTCCTTACGCCTGTATCTCYGCCACCTCCCACTCGCATCGTGGGTCCACGGGGCCGG
GCCACCAGGGGCTCTGCCAGACACCCTCGCCCGCCACAGCCATCTGGAGGATTCTGCCCCCGATGCCCCTGCCAGTGGTTGTGGGTCCTCAACCCAAGAA
CCCTTCCGTTGAGCGGCTTCTAGAATCAGTGCCCCTTGGTTCTGGGAATTCACACCACAGTGACACAGCAGCTTCTCCTGCTGCTAAGTGTCCTTGCCCT
GCAGTGGGCGCACCTGGGATTCTGTGGTCCTGGCCACGGCCACTCGTGTGGTCTTGCAGATGGTTCATGGGCCTCGGTGGGTTACTTGGTAAGTGAGGGT
AATGTCTGCCTGGCAGCCCCTGAAGGACGAGATGATGTTTTTGCTAATTTCTCTTCTGCCACGTGCTTCTGCCTGTCCCCCCACTCCCTCCTGTCGCTGT
TTCCTCCACAGTGGTTGGCAAGACGTGGCCCCTGTGGCCTCTGCCTCGTGCRTCTGAAGGACATCCCAGCCACAGCATCACATCAGACTGGAACAGTGGC
GGGATGGGGCTGGGCATCAGGCAGCATGCATGTGTCATGTCACGGACACCTCAGGGACACACGAAGTCAGGCAGGGCGAGGGCCTCACTCCCCAGGCCGC
CTAGCCCTTGGTGGGTATACCCGGCCCCGATGGTGCTGTGAAGAAGGGGCTGTGTGACTGGCATGGGAGGGAGCTGCGGCTTTTGTTCATCTCTGCCATC
CTGGCAGCGATGTGGCTGATGGGTCACCTTCAGAGAGCCTCCTCCATAAATCTGATTCCAAGTGTGTGCCCCAAACCAACCCAGACCGGCCCGGGGCGTC
CTGCGGAGAGCCCCACAGTGGGAGGCCCTTGTAGCGGGGAGCCCGGTGACTGCTGGGGGTCAGCTGCTGGCGGCCCCTGTGGAGACCTSGCGACCTGCCA
AGGGCTCCGGACCTGCCTGGGTGGACCCAGGGTGGGCGTGCTTCTGGCTGCAGGGCCGGGCCACAGGCTTCCCTCTGGCTTTCTGCCCTCAGGCCTTTAG
CATTGACATGCACACGACCCTGCCTCCTTTMTAAGGACTGTGTAGAATTACGTGGCATTCAGTGAGCAGCTGCACGTGGTGTTCTAGGGCACCTTTGGAT
GCTCAGGTGCTCCTGAGGGGTGTGCCAGGGAACGAGTCTCCTACCCTTCCCTCCTGGCTCCTGTTGCTGCATCCAGGCAACTACTGTTTCCAGTGCTGAA
GTCTCTTTCCAGGATGTTCTAGACATATCCAAACTCGCACAGAGTTTTTGAATGGTGGTTTCTTAAGAGAAGGGGCAGCCGTGCGCTGTCTCAGGATGGT
TCTGTCAGGGAGGCCATGGCTCTGGTTTGTACAGTGCTTGGTGCCCGTAGAGTGCCTGGCAGCTCGGCCTCAACAGCTCCAGTGGGTGGGCAGTTGCAGG
CTTTTGCTCTTACAGTTGACCTGACAGTAACATGCTGTTTCTCACATGTGCACACCATTCTTGGGGMAAATTCCAAGAGAATTTCTAGGTCAAAGGATAA
ATGCTTTTTTTTGTTTGAGACAGGGTCTCACTCTGTCACTCAGGCTGGAGGGCAGTGGTGCGATGTTGGCTCACCAAAAYCTCAACTTCCTGGGCTCAAG
GGATCCTCCTACCTCAGCCTCCCTGGTAGCTGGGACTACAGGGTCCCCGCCACCATGCCTGGCTAGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTTGAG
ACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTACGGTGGTGCAATCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCCGCCTCAGCC
TCCTGAGTAGCCGGGATTACAGGCGCCCGTCATCACGCCCGGCTAATGTCTGTATTTTTAGGAGAGACGGGTTTCACCATGTTGGCTGAGCTGGTCTCGA
ACTCCTGACCTCAGGTAATCCACCTGTCTKGGCCTCCTGAAGTGCTGGGATGACAGGCGTGAGCCGCCGCACCTGGCCATCAATGCATTTAATTGTGAAG
GTGCTTGGAGCGTCCCTCCGCTAGGCGGTGATGCCATGCACTACTGCAGCCGCCCCTCAGCTGCTTTCCCRCCACCAGCCTCCCTCATGGTGTTGCTGCT
TCATCTTTTCCTCTTGTTTAGTGATGTTTTTCTTTCATTAAGAATGAGGCTCGCACAGCTGGGCTTAACTGAAAAAATAAAAATAAAAAGAATGAGTCAC
AGGCTGGGCCCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCTCTTGAGCCCAGAAGTTCAAGACCAGCCTGTGCCATA
TAATGAGACCCCATTTTTACAGAAAATTTAAAAAATGAGCCAGGCATGGCGGTGCGTGCCCGTGGTCCCAGTCCCGGAAGCCCTTCTGTCTCTTTCCCTG
TGGCGGCATCATCCATGCACTTAGCTGGCTGGAAACCCTCATGGCTGTTGCCCAAGGGCAGGACAGCTAGCTGGTTCTTGTCATTTTGGTCTGAGCTCCC
TGGGCCAGGAGCCCTTTGCTGTTTTCTCTCTGTTTGTTTGTTTTGTTATCTGGCACCACAACAAACTGCCCCAAACCATGGAGCCTTTCCTTTTTTTTTT
TTTTTTTTTTTTTGAGATGGAGTTTTTTTGCTCTTATCGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACTTCTGCCTCCTGGGTTCAA
GCGATTCTCGTGCCTCAACCTCCTGAGTAGCTGGGATTACAGATGCCAGCCACCACGCTCGGGTAATTTTTTTTTTTTTTGTATTTTTAGTAGAGAGGGA
GTGTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTAATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGC
ACCTGGCCACCATAGTGCCTTTCAACAACGAGCATTTGCTGTCTGTGTTTCTGGGGTCAGGAGTCCTGGTGTTTTGTGAGGTGCACTCAAGGAGCAGGGT
CTGGCTGTGCCCTTTGCAGCTCCTCCCCTGACTGTTGGCATGAGGAGCTCAGGAGTGAAGGTGAAGAAGGGTACTCTGTGTCTGGGGGGTGGTCAGAGGA
TAGGGATGAGGACAGGGACAGGGCCCAAGAAGATGGGGTGGGTGCTGTACCTCCCTCTTCCTTCCCTGGGGTATCTGTGGGCCACGGCAGGGCCCACAGC
TGTTGCTAGTAGCCTSCTTGGGGCCAGTGGGTTTGATTTATTTTTGTGTTTGTGTGGTTTGAGGGCAGGCATCCCTTCCCCACCCTTTGCGTCCCTGCTA
CAGTGACCCCTCTTTCTGGGTCCACCTGCTCTGGCACGAGCTTGGTGGGCCAGCCTCACCCCAGGGCCCACCCCATCTCCAGCCTCCCTGCCTTGGGCCT
GGCAGTCCTGCCTCTTAATTGCGTTCTGTGCCACCTGATGACCCACGAGTTCTGTCTCCTGGCCTGGTTCCTACTCCCTGGGACTTTCTGCAGCCCCTGC
CCTTCCAGCTGTTGACTGTGTCTGCGAGCCATCCCACTGGAGGGGCGCCCTGGGCTGTGTGCTCCCTGCCCTGCAGCACCCCTGACACGGGTGCTCCCAG
CCCTCCACTGACCAGCCAGGGAGGAAGCTGCCTCCTGCCGGCCTGTGCCTCGCTTCCTGTCCCCTCTCCAGCAGCACACGGCAGCGCGGGCCGCGGGCTC
ACCGGAGCGAGGACTGGTTGCAGGGCCTTCTCTTTATCGCTGGTGTCTAGTGGATCTGTGGGGTCCGTGCGCTCAGAGCTGTTTTTTCCTTTCTGTGCTC
ATTTAGATTCATTTTTTTCCCAGCTTTGCTTGGTTTTGTCTTTTCATTTATGTGAGTTTTTCTTTTTATTATTTTGTGCAGAAGTTTCTGTTTTTATCAG
TTTAATCTGCTTGTCACAGTCAAGAATGTGAGAAAAGACTGGATGCGGTGAGCCAAACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCAC
TTGAGGAGTTCGAGACCAGCCCGGCCAACATGGTGAAACCTCATGTGAATTGCTTGAGCCTGGGAGGCGGAAGTTAGAGTAAGCTGAGATCATGCCACTG
CCTCCATCCTGGGTGACAGAGTGAGTGGGACTCTGTCTTGAAAGAAAAAAGCACTAGTAAGAGAAGGCCTAAGACCTAGTATTAAAGTAAGAGAAGGCCT
AAGACCTGGTATGAAAGTGAGAGAAGGCCAAAGACCTGGTATKAAACTGAGGGAAGGCCGAAGACCTGGTATTAAAGTGAGAGAAGGCCAAAGACCTGGT
ATGAAAGTGAGRGAAGGCCGAAGACCTGGTATTAAACTGAGGGAAGGCCTAAGACCTGGTATTAAACTGAGAGAAGGCCGAAGACCTGGTATTAAAGTGA
GAGAAGGCCTAAGACCTGGTATGAAAGTGAGAGAAGGCCGAAGACCTGGTATGAAAGTGAGAGAAGGCCGAAGACCTGGTATGAAAGTGAGAGAAGGCCG
AAGACCTGGTATGAAAGTGAGAGAAGGCCGAAGACCTGGTATGAAAGTGAGAGAAGGCCGAAGACCTGGTATTAAAGTGAGAGAAGGCCAAAGACCTGGT
ATTAAACTGAGAGAAGGCCTAAGACCTGGTATGAAAGTGAGAGAAGGCCGAAGACCTGGTATTAAAGTGATGATTCCAGATTTTTTTTTTTTTCTGAGAC
AAGAGTCTGTCTGTCACCCGGGCTGGAGTGCAATAGCCTGATCTCAGCTCACTGCAGTCTCCACCCCCCAGATTCAAGCAGTTCTTTCTCCTGCCTCAGC
CTCCCGCTGTGATTACAGGTGAGCGCCACCAAGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTTCCATGTAGGCCAGTCTGGTCTCGAACT
CTTAACCTCAACTGATCYGCCTGCCTCGGTCTCCCAAAGTGCTGGGATGACAGGTGTGAGCCACTGGGCCCGGCCTTCCCAGATAATTTAAGGAGAGTTT
GGCCTGTGCCGGAGCATAATGCACACTCTTGGGCAGGGGATCCCGCCAGCGTCTCAGCGAAGGCTCTGGGAATGGCAGGTGGCAGGCCGCGTTGCTGCAG
CGTGGGAACCCTGGGCTCGGGCCCCCTGTCGCTGTGGTTCTGGGGTCTGGGTGCTGGTGCCGTCTGCTGGAGAGTGGTCTGGAGCTGCAGCTCTGTGGAG
TCTGRAAAGGGGCTGCCCAGTGATTCTCACCAGCTRGTCAGTGGTGGAGAAGTTGCCTGGGTGTGGACCACAGAGCTGGGGATGGAACCAGGGGCCAGGG
CTGGTGGTAAACTCCGCTCTTGCCTCTGCCTGTGGCCTTGCTTTGGGTTCTTTTGAAGACTGCCAGCTCCAAGCTTCTTGGCCCCCATGGGGGAGTCAGG
CAGCTGTTCTGCCACCTGCCCTGACACTTTGCAGCATCAAACAGATATTTTGTAGCATTCTGGATTCGAGGGGTCAGAGTTCAGGCCGAAAGCAGCAGGG
TCAGTACACCCTGAGTACAGTGTCATGCTGAGGGGCCGGGGAGCCCCAGAGGGTTCTGGTACATTCCACCTGAGGAAGATCGACACTCAGCTCACATCCT
GTGCTCTGGGACTTGGGTGAGGATCTCAGGTGAGCACAGCCGGGCCTCTTGTGTGTCCAGACCGCCCCTGACAGCCATGTTCACGAAGGGTACCCCTGTC
CAGCTGTCCCCTCTCCCAGGGCTCAGGGCTGCAAGGACGTGGTCTCCTGTGCCAGGCAGAGCCACACGGCCTTCACGACCTCAGCCCAGAATCCTGTGGT
GTCAGTGTGGGCTGCCTCCCTTGGGTGGGTAAAGCAGCCACAAGCCCACCCAGATTTGCGGCGGGGGGGACATAGACTCTGTCTCTTGATGCGATGAAAA
TCAAAGGTTTGTGGCCGTGTTTTAAAATGGTCACAGTCACCCTTACGCTTGCCAAATAGTCTCTTCCCCCAGCGCTCCCCAGAACCTCATTCCACTGCCA
GGGTCTCATCTAAACCAGGCCTGATAGATGGGGGTCCTTGGGCCCCTCTCTGCACAGCTGTCTGCAGTGGGGCACCGAGTCACAGTGCTGTGGAGTGGTC
TCTGGTCTGTGGTGGTCCTAAGGTGGCTGAGCACATGGCTGGTGGTGGTCTTGGCCATGGTGGTCTTGGCCCGTGGTGGTCTTGGGGCCTGTGGTGGTCG
TGGCCCATGGTGGTTGTGGCCTGTGATCGTCAGGGCCCATGGTGGTATAGGGGACCTGTGGCAGTTGTGGCCTGTGGTGATCGTGGGGCCCATGGTGGTC
TTAGGGCCTGTGGCGGTCGTGGCACGCAGTGGTCTTGGGGCCTGTCCTTGAGACCCATGATGGTCTTGAGACCCGTGGTGGTCGTGGCCTGTGGTGGTCT
TGAGGCCCATGGGGGTCATGGCCCATGGCGGTCGTGGCCCGTGACGGTCATGGCCCTTGGTGGTCATGGCCCGTGGTGGTCTTGGGGCCTCTGGTGGCAG
CACACATGGCCAGTGCCTCATGCAGGGTTGGCCTCCATGCCTGGGAACGACCCTGCCACTCTTGGGCTCCTGCCCCGAGTTACCTTCCTTTTCCCTGAGT
AAAAAGGGATGTTTTTCGGCTGTATTTTCTCTGGGCTTTTCAGTTCCTGCTGATGTACTTTCTTTAAAACAAAATGTGGGTTTCCTAGGTACCTGTTGAT
GAGTCGTTGCTGTCACACGAGCCATCGGCACAGAGCTCTTGGATAGCAGCCTGTCTCTGTGCTGGGCACCCTGCGGCTAGCGTGGGCAGGGCCCTAGGGA
GCCTTGGCCGTGCTGAGGTGCYGGGTGTGGGGTCTGTGGTGCAGCGCTGGGTTGTCTTGGTGTCCTTGGCACCCCGACAGCGATGTTCTGGCTCTGGTCT
CTGGGCAAGTTAGGACTGCTTCCCTCCTGCTGTCCACGTCTCCAGCAGAACCCTCTTGTGGGCAGCCCTGGGAGCAGAGTTCTCTTCCCACCGAACCGGG
ACACCGCAGCTCTGTCGCCATCCTCTCCCAGGAGGTGAGGGCAGAGCCCGTGTCTCATGCCTGGTTGGTGGCAGTGGGGCACGGCCTGGCTGGCCTGATG
CTGGGGAGGGGAGGCTCTGGTGTGGTCACAATAGGGGGCTCATGCGCTTGGACACCGTTTCTGTCTGGCTGAGCCCACTGTGGGTTTCTCCCTTTGGTCC
TCATGGTGACATTCTAGCCCTGGGGCTGGGCAGAGGCCACGCAGGGTTCAGGGACTACAGCAGCCTTTCCTTGGCCCCAGCGGCCCCGCATCCTGCTGGC
ACCTCGTCCTTGCGCTCCCCCTCGGCGGCTCCCTGCCCACCCGTCGGTCCTTCAGACCCGCCTGCCTCTGCCCAGTGGCGCTCGCCCGCCCACTCTCTCA
GCTTTTACTTCACCCTCACGCAACTCTCGTGCTCCATCGGGCCCGACCCCTCCTCAGTCAGGCCACGCACACTGCGGGTGGTGCTGGAGACCCTGGAGAA
TCCGGGCTGACTCCAGGCATGGGCGTGGCGGGAGGGGGTCCTGTCCCCAGGAGTCCGGAGCGTGGCGTGGGCTCATGTTCCGTTGTCTGTGTCGTTAGGG
TTTTGGTGGCCTTTTCCTCTAATTTTTAAGTTAAAAAAAATACGTTCAATGCCCCACAGCATCTGCCTCCAAAATCTGAAGGGGCCTTCTAGGTCAGGCA
GTTCCCAGCAGTGGCCGCCCCTGCCTGCACCGCCCCTGCCTGCACCGCCCCTGCCTGCACCGCCCCTGCCTGCACCGCCCCTGCCCGCACCGCCCCTGCC
CTTCGGGCGCTGGGCCTGGCTGAGCGCTGTCGCCCCCTGGTGGACTCTGTGCCCCACAGCTGTCCCACGGGGATGCTGCGCCCCTGGGAACCCAGCACCT
YCGAAGGCCACCTCTGCCCCCTGCCCAGAGCCTGCCTGTGCCGTGGCCTGTCCACATCCAGCACAGGGGCCACGGGGCACAGAGCGCTGGGTGACAAGTC
TTTTGTCACCTGCCAGGACCCTGGGACTGCGGCCCATGAGCAGCGAGGCTGGGACTCCAGCGTGCGGTGCTTCAGCCCCKGCCACTGTGAGGGKTCGGGA
GCCCAGCCCGGTACCCGTCCGCAGAGGCCAGGCGGGGGCAGCCGACCGCAGCCGGGTGTGGAACTGCCCTTGTGCGCGTCTGGGGCTTGGGGCCGGGGTC
ACGGATCTGCTGCGGCTGTGGGGGCTCATGTGCTCCAGGCAGGGGCAAGAGCTCCGTGTCACTGAGCGCCCCAGGCCACTGTCAGCAGCAGGGGGAGACG
TGGAAACTGAATCCTTCCTTGTTCCTGGCCTGGGAAAAAACTTAGTCTCCCATCTCTCTTTATATTGAAGGAAAAAACAGGCAGGGGAGGAGCCCGGGCC
GGAGAGAAGAGGGGCTCGGGGTGGGGGCGGGGGCGTGCCCGCCTTCGCTCTGGGGTTCCTGCGCCCGAGCACTTTACTGCCCCCACGGGTGAGAGGTGGG
CCTGTTTTCCCCATCAGCCTTGGTTCCRCCAGTAAACCCGATCCGGTTGGAGCCATCCTCACCTCCGCAGTCGAGGGCAGAATCTGTTTTCCAGGTTGGG
ATGTGAATTCTCAGTGGCGCCCACTCTGTGACCCGGCGGGATGGGGTCAGCCTGGGCTGTGGACGTGGTGGGTGGGAGAACGCTGGGCAGGCCTTCTGAG
TGTTCGGGGCCCTCTCTGGGCCCTCTGCTGGCTGGACTGGGCGGGACGTGGCCCCCGGGATGGGTGGACAATGTGTGTCCCCCGCCCCTTCAAGAGCATT
GGCCCCAGTGACCCTGCTGCGACGGCTGCGTCTCCTTCTTCCCCCCGACCATGCTGCCCCCGTCCCAGGCGGGGCTCGGCAGGAGCGCCATGTGGGGCCC
CTGGGAGGAGTCCTGTGGCTTTGACATGAATGGGGGTRCGGGTGGTTGGCGGTGGGTCTTGGTCCTCAGCTGGCGGCTTTGCTCCTGACTGCCCCAGTGG
CTTCCGTGTCTAGCCTGACACCCGTGTCAGCCCAGGGACAGAGGCCCCGGGAGGCTGCARTCCAGCCCTCACAGAGGACAGGGCCGTGGGCAGGACCTGC
GGCGCCGGGTGCCAGCCACAGCCCCCAGAGGCCCCCTTAGAGCTGGGTGTTCTCGGCCTTGTGCTGAGGCCTGTGCCAGGCTGGAGCTGCTCAGAGATTT
CGGGGTGGTGGGCTTCCTGGGATCCCCCCAAGGTCAAAGGGTACCCTGTATCCCCTGAAGTRACCATTTTCTCTCTCTCTCTGCAGGCCAGCACTCCTTG
CCCGAGGACAGAGATGGCGAGCGCCCGGATTGGGGATGAGTATGCGGAGGACAGCTCTGATGAGGAGGTAGGACTGGGGCTGCTTCCCACTGGGCAGGGT
GGGGCGGCTTCCATCACAGCCTAGCAGGTGCTGGGGGTTGGGGCTGGGGTTGCCCTGGGGGTGCTGGGACCTGCCGCAGGTGGGCCGCACTGTTGGAGCC
GAGGCCCACGTGGGCGTCCTGCTTCCCCATCTGCAAGAGCAATTTCGGGGTCTGGGACACAAGACTGCAATGTATGTGTGTCATCATGGCTTGTGAAGGG
GAAGGACCTGGGTGTGGCTCCATGCCCCTGTGTCTGGCCTGTGGACGGGCTCTGGGGGCTCCTGTGGCGTCTGCAGGGTGGCTGTGGGCTCCCTGGGCGT
GGCGTGCATGGTCTGGGTGGGGGTCATGGTCGGGGTGGGGGTCACGGGCATGGGTGGTGCCCCTGTCGTGTGTGCTGTGGGGTGGGCCACAGGTTGGCTG
GGGGCCAGGCGGGCAGAACAGGGCCAGGGCCACCTCCTAATGTCCTGATGTTCTGGGCAGTGGTGGCCCTTCCCTTCCCCTGGGGTCCCCCTGCCCCCCA
CCCCTGGTGGTGGCTGATGTGGGCTGGGGCCGTTGCCTCTGGACCTCTGACTGAGTCCCAGGAGCACATCTCAGGAGGGGCAGGAGGTCGGCTGTTTCTC
ATAAGGAGCTTGCAGGCGAAGGGGGATGCGTGCTGCTGGGCTGGGCTCCACCAGCGTGGAGAGGCTGGCACCGGGCTGGGCTCCGCCAGCGTGGAGAGGC
TGGCACCGGGCTGGGYTCCGCCAGCGTGGAGAGGCTGGCACCGGGCTGGGTTCCGCCGGCGTGGAGAGGCTGGCACTGGGCTGTGTCCAAGAGCAGATTT
GGCTGCGGGGGGCTGCCCTCATTTGGGAGGGGCTGGAAGCTCTGAGAAGCTCTGAAGCCAGAGGCAGTGCCTGCCTATACCCTCCTCAGTGTGGCCTGGC
CCCAGGGTAGGACTGTGGTCCCAGTGGAGCACCTGGGTGTGAGGCAGAGTCTCCTTTGGGCCCTGGGGGCTGTGGGGGAAGGAGAAGGCTTTGGTGTAGG
GCCTTCCTGAAGGAGCTCTTCCTGCCTGCCTGTCAGGAACTGTCCCCGGGGGGCCTGGGGGAGACACGCGCCCCCCTCCCCCCAGGTTCTTCCCCCATCC
TTCGGCTCTCTTGGCTGTGGCTGCAGGAGCCTTGGCCGCCCGCCCGATCCGGTCTCTGCTGCGCGTTCAGAGAACAGAGACAAAACAAAATAAATTGGTT
TCCTGGCCGGAGCAGCGGGCTCACTCAGAGCGGGGGGGCCACGCCGCGCACTCCCTGCCTGTCTCCCCTCCCCCTCCCAGGGGCTCTGGCTGTCGGCAGC
CACATCCTGTCGGCTACTTTTTTATATTTGGTATTTTGAGAAATCGATGATGATTGTAAACGGAGCGCGGAGGCCGGGGGAGGGGCCTCGGCGGGGCCTG
TGGGACCCTGCTGCCCCTGGGGGTGCTTTGCCAGGCCTGTCCAGTGCCACCGCCGCCTGCCGGGTGGGCAGCCCCCTGCTGTGCTGGGAGGAAGCCGGCC
AGGGATGTGGGGGCTGCTTCCTCCAGTGATGACTATCCCATATGTTGGTCTGAGTGACAGCGAGGGAGCCCGGGTGCTGCCCGGTGCTCCTGCCAGCACA
GCCGGCCAGTGGCTCGAGGGGGCGGCAGAGCTCAGCTTTCAGGAGCCAGGCCAGGCCCGGACAGATGCCTCCCGTCCAGAGAAGTGCGCATCTGCCTGGG
CCTCTGTTCCCTTGGAGCAAAGTGGGGTGGCCCTAGGGGAGTGATTTGGGGCCACAGGTGGGCAGGAAAGAGGCTTGGGAGGTGGGAGACAGCCTGCAGC
TCTCCCATGAGACAGTGGGGTGAGGAGAGCAGGGCCCGTCAGGCAGCCCCGTGTCCTTGGAGGTGGCCGTGGCACCAGGACCATGGTCCTCCTCGGCACT
GGGCAGAGCTGGCTGAGAGAGGGCCGACCTCACTGCCGGGGCCCTTCAGGGCTGTGGAGAGGGCCCCTGGTAGCAGGGCAGGGAGGGCGCCGCTGGGGCG
TGTGCTCCTGCGAGCGGCGATCTCAGCTGGAGCGCGTGGGTGGCAGTGGCTGTGATGCTGAGAAGGTCTCGGGCCAAGCTCCTGCTGGTGGGAGGTGCCT
CCCTGCCACCCCCTGCCCACCTACCTCCCCTTCTCCTCAGGCCACTTCCCTGCCCTTCCTGGGTCTGGATCCAGGGCCTGGACCTGGATGACACTGGGGC
TTCAGGGACCCCCTGCTGGACGCTGACTTTTGAAGACCTGAGCAGCCCCTCACAGGAGAGCTGTACTCCAGCTCTTGGTGTCTTATTCCCCTCCCCCAGG
TGCGCAGGCAGCAGCGAGCAGGCGGAGGGAGGCGGGCGGAGCCCCTGGAGGAGGCGCTGGGCCTGGCTGGGGTCCTGCCGCCGGCAGTGGGGGGCCCCCA
GGAGCCGGCTGAGCTGCGGCTGCCCCGCCCCCGCATGGCCACCTCACCCCTCTCCCACCGCGCCTGGAGCTTCACAGACGTGATCTCATCCAGCCGCTGG
GACCCCCGGGGAGGTGGGCCGGGGTGGAGGGGCGGGGCAAGGGGGCTCTCGGCCTTTGCCGAAGCAGCCCCTCCGCTTTGATTTGAGCGGTTGGGAGAAA
CTGAGGCCGGGTGGCTGCTCAGGCAGAGGATGCAGCCACCCACCCTCCCCCTGCCTGTGGCCGTGTTTGTCAGGAAAGCGTAGCAGGCTGAGGGATCTGG
GTGGCCGTCCACTCTGGCCGGAGGAGCCGCCCTCTGCTGTCCCTTTCCTGTGCCCCGTGGTGCTGGCCTGGGGCCGTCCCCCACGAGGCCTCCACTGGGG
CCTGGAGTCTGGGGCTGGGTCTGGGGTGCAGCCTGGCAGCTCCTCGGTGCCCCTGACCCTGCCTGGGCTGTGAGTCAGGTTCCCGCAGGGATGCAGCCGG
GCCTGTCTGCGTCCAGAGCCCGTGGTCCCCTCTGCTCTCGCGCCAAGCGCCGTTAATGGCTTCTCCCAGCTACTGAACCGGCAGCTGCCTCCAGTGCTGG
CGGCCTCCGCTCCTCCGGGCCGCCCCCGCCCCCGCGTCCTGGCCCCGCGCACTCAGGCTTGCGTCGCTGCTGGCGGCGCGGCCTCGGCTCAGGTTTCCCG
GCGAGCGAACGGCCCTCCCCACGCTGCTTGTGGAGGGCGCCCGGGCCTGCAGACCGCCCCAATCTCCCTGGCGGCCATCCACCCCCGCGGCCTCCTGCAT
GCCTGCCTCCGAGGGGGCTGCTGACTGGGCTGGGGCTGGCCCTCGGGTCTGGTCCCTTTCCACTGAGGAGGGAAACGGGCGCGCCCTGCTACCCAGGCTG
TGGGTGGGTGTGTGTAGCCTGACTGCCGCGTGCCCCTTGGCCGGCTTGAAGGCCCTCCTAGGCCTGGCCTGCTGCACTCAGTTGTCCGGTTTGGGAGAGG
AGAGACCCTGGGGTCAGTGATGAGGGGCAGGGAAGCCAGGGCCCTCATGGGGGTACCCTGGGCTCTCGGATGAAGCAGGGCTGGGCAGTGGCTGGTAGGT
GGGAGTGGCCTCTTCAGAGCCGCGTCCTCCTGCTTGTGGGCTGCAAGGGTGGTGGGGGCCCTGGCCTGCTGTGCCCACTCGGGGCCAGTGTCCTTGGCAG
CTGGAACCCGGGTGGGCAGCGGGGGGTGCTCTACAGGGCTCTTGAGCGGAGGCTTTGCCCTGGGGCTGGCAGAGCAGCCTGTGGAGTGGAGCCGGGGAAG
GCATTGGAGGGCAAGGTCTGTTGGGCAGGTGGTGACGGCTGCAGGCTCTGGGCCCTCTGGGGAGGCCGGCTGGGGAGAGCTGGGTCTGGGTGTACGTCCC
AAGGCCGGGGCTGTTCTGCAGGGGACGGGAGTCCCAGGTACGTGTGTGTGCACGGATCAGGACTGGGGGAAAAGTCTCCAGAATGAGATTTTGGAGGTGT
CCGGAGTTGGGGGCTGAGCGGGTGTGGACCTCTAGAGCCCTGTCCCCACCCCACCTGGAAGTTGTAGCTCTGAGTTGTGGGGCTCAGAGCAGGCCGAGGA
GGGGTGAGCACTGGTGGGTGTCGGTGGGGGGTGTTTGGGGTGTCATGCCCCAAGCCTGTGCCCCACCCCCAGCATCCTGGTTTCTGGGAGCCCCTGCTTA
TGAGATGCCAGGCGTTGGGGTGCTCTGCCTGGGAACAGCTATTGTCCCTGGGTCAGCCCCAGCAGAGACCGAGGCAGGCCAGGTCTGGAGGAACCCCTGG
GTCGGTAGTGGCTTCTCTCCAGCCTGCAGACCCCCAGGAGGTGACTTGCTGCCCTCCCAGCTGTGGAGGTGCAAGGACCCCTGGGTCAGTAGTGGCTTCT
CTCCAGTGGTGGAGGTGCCGGGAGAAGGCCGAGCTGTGTGCCCAGCCTCTAGAAGGGCAGATGCGTGGTTGGCGGGAGCCGGGCCGGAGCTGAGGGCGTC
TGGGCTGGTGGCTCCTCCTGCCTGGGGCCCCACCTTGGGCTGGGGGTTCGCTCAGCTGGTTTGGACTTTGAGGAGGAGGAGACTAAGCAGGACCTGGCTT
TCTCCCCTCTGGCCCCGGCGCCRGGGCCCAGCACCCCTGCTGGAACCTTCAGTAGGGTGAGATGCAGCAGGTGAGCCTCCCGCCCTGGCCTTGCCCTGAG
CACTTCAACAGATAAAACCCTGAGGAAGAGGAGGCGGCCTCACGTCGCACAGGAAGGCCGTGTGGCGCTCCGAGACAGGCGGGCGTTTTGTGCAGGGGAG
CGGCGCGAACGCTGAACACTACCCGCATTGTAATCGGAGAGGGGCTGGGGAAGAGAGAGACGGAGCGAGGGCGGCTGACCCCACGCTCCCGGGGGACAGG
TGGGAGAGGCGGAACGAGGAGAGAGTGAAGGATTCCAGAGGTGGGCCGGCTTCCTCTCTCGCAGACAGACACGGGAGGAGGCGGGCAGCGGGCCAGCCCC
ATACCTGCAGTTCCAATCTGTGGTCCTGACAGCTGCAGCCACTTTGGGGAGGGGGAGGGAARGGGGCTCATCGAGAGCGGAAAAATCCCAGCCGACACAT
CAGCCGGTTGCGGCCTGTGTCCGGTGCAGTCTGGGCTGGGGGCCTGTCCTTGGGGCTGGGCGGCCCCCAGGAGAGCCCTGATGCTGGGTCTGTGTGTGCC
CCCGGCCGGCCGGCCGGGGCTCTCCGTGCGGGGCCTGACCCGGAGGGGTCACATGTGTTTCCTGGCAGCCCGCAGGTGCTGCGCTGGGCGGGGCGGGTGG
TGGGCGCAGGCGACCGTGATGAATCATGTGTCCCGCCAGCAGCTCGTTCCCCAGGCCGGGGACAGGAGCTGACAGCTGAGGCCCAGCAGAGCGTTTCCAG
CCCAGCTCGGCTCGCAGGGGCGGCTGCTGGCCCAAGGTGCAGGCTGGGGCCCCTTCCGTCCCAGCTGCCTCTGTGGGGCACAGGCGGAGGGAGCCCTGGG
TCTCTGTGGAGGTGAGGCCAGCACTCTGGGAAGGGAGCCAGGGGCTGTGGTGGGCAGGGAGCACCTGCCACTCGTCTGCCCGGCGGCTGTGAGCTACGAG
TGGATTCGGGTGGGCTGCCGCAGGCCTGGGGGTCAGCCCACGCCACCCCCGGTCTGGTTTGAATTTCTGGAGCAGTGGAGGGTGACGGAGTGTTCCTCCC
CCGCCCCTCCCCTCTTGCTGGCTGGCGGGCCGGGCCCTCGGCCGCTGCTACCGGTGCAGCTCAGGGAGCGGCTGGGCTGGCTGCCCAGGCCTGAGGCTGG
CCAAGCTGCAGCCGCGGTCGGAGTCAGGCCCGCAGCGGAGGGCTTGGCTGTGAGTGCTGCACCCCAACCAGCAGGGCCCTGGGGATCCTTTCAGCTCCGA
GGCCTCCAGGTCGTTGTTCCCTGTTCACTTTCTTCTAGCCTCGTTAGACACCCCAAACTCTGACCCCAGTCCACGGGGGCTCTGACRTCTCTTTCCCCTG
CACTCCCTCTTGACCCTGCCCAGACCTCCCCATGCTGGCCCGCACCTTCCCACCTGCTCCTGTCTGGCCTCCTGCATTCCCGCTCTGAGCTGGCTCTGCC
CTGTCCTTGGTGCCGGCCGCCGACGCCCCGCACCTGCCCGCTCAGGCCAGCAGCCCCTGATGTCCCTGCCCTGGAGACTTTCACTATCTTCCATCCCATT
TGTCCCCAACGTTGACYGGCCACTGAGGTTGGGGGTTCATGTGGAGGTTTGCAACCCCCACTAGGCCCAGGTCTGGAAATGGGAGGCCTGGAGGTGAGGG
GTAGGTGGGCTATGGACCCTCCCTACAGAACTACACCCAGTGCCCAGTGGAGGGAGGGCTGGCGTGGGCGCCGTGGGCCTTAGGGTGCTATGCAGAGTGC
CCGGCCTGGCCATGCTCCTGGGTCCACCCTGCTCCTCACTCACCAGCGCCTTGGTGCCTGGGAGGGTGGCGGGGCGGGGGTGTGAGGAAAGCTCCCAAGA
AGGGAAGGGGCTGCGTCAGCCCCTAGCTGCATGTCCGTGTCCCCCGGGCCCTGGCTTCCCGGCGGGCGGAGGCTTCTGCAGTGACTGAGCTTGTCCTCTC
CTCCCCTCCCTCTGGCCAGCTGTGGGCTCCTGCAGGATTAGGGAGAGGAAATTTGGGGTTGGGTTTCTCTCTGAACGAAACCTGCCGTTGTGACTTTTTA
TCCTGTTATATTTCTATCAGATTGGACTCAGCCCCCCTCTAGCCCTTAATGGCTCTGGCTTTGAGAATTTCCTCCAAAATTACACCACTGCTTCCTGCTC
CGCCATTCCCTGGAGCCTGTCTTTGCAGAGGAGGGGCAGTCCTGGGCCAGCCCTGCACCGATGCCCACGTGGGCCACAGCACCTGGTCTCCCCCCGAGGG
TGCGTCCCTGCCTGTGCTAGCGGGGAACTGGGGCCGGCCGCCGCCCTGACGCCCGCACCTGGCACCATCAGCCATTGTCCACCCAGCCGGAAGTTAGGCT
GTGGCCTGGCAGGGTTGGGGGGAGGTGGTCCACACAGCACCGCCCTTCTTCTCTCTGTGCCCACTGATCTCACACCACTCAATGGTAATTGTCACCTGCA
GGGTTTTAATGGCCAGCCAGCTGTGCACAGAGCACTGTGGGGGCTAAACCCACCTCCTGTGGTGGGCGGGGTCTTCAGGGGGCTGGATGGGCCGTGGTGG
TGGGAGGAGGATGGCCAGGGGTCCTCCTTCCCACGTGGGCAGTGCTTCCAGGGGCCAAGTGGCACTGGTGCATGAGGAGATGCCCCTCTCTCCAGTCAAG
GCTCGTGGAGGCAGGACACCCACTGCCCTCGCTGGGGCTGGGAGCCCCCCCTCCGCTGGGCAGCACAGCTCGCTCCACTCCTTGTGGCCACCTGCAGCGC
CCTCCTCACCCTCAGGGCCCCCGGGTGCCCGACAGGCCCGAGTCGGGGGCACCCTTGCCCTGCTGCTGCCTCTGTCCCTGCCGCTGCCTCCCTGTCCCTG
CCTTACAGCGTCCCTGCCTTGTGCCTCGCCCTCCCCATCTTCTGCCACGCAGCTCCTCCCCCACCCTCTCTCCCGGCGTGGCTCCCTTGTCCCCACCCCA
CAGCTTCCCGATATGAGGCTCTGTGGGTGAGCTAAGCCCATCCTCACCGCCTCAGCCCAGGGAGGGGTGGCCCTGAGCCTGGAAAGTGGGGGCTTCCCAG
GGAGCCGGGGTACTTGGCCCAAGGAGGATGGGACCACCAAGGGTGGGAATGGAGGCTCAGGCTGGGGGCTGGGGGTGGATTCTGAACCTTTCATGAGGAC
AGTTGGCCTCCATATTTGGAAGATACTGTTTTGTTTTTAATTATACAAAATTTTCAGACTTTATATTATCATATCAAAAACACAAGATGCCATCACACAG
TGGCCGGAAGAAAAGCCAGCGCAGAAAGTTCCAGTGGGCCCGGGCAGGTGCTGGGGCCAGCGCAGAGTCCCGCTGCCGGCGCCTGTCTGTACGTCCGTCT
GTCCCTCGGCCCCGCTCGCAGCCAGGGCTGGCCTGGGGGCATGCTTGCGGTGGGCCTTGCCCAGCTCAGGTCCAAGGTGGGGGCTGTCTGCAGTCACCCC
GGGCGTCCACCTCCCCCAGCAGCGTCTGCCTCCTGGCTGCTGCCGGCCACCTCCTAACTGCGAATCGCTGTCTTTCTGTCGCGGTCCTTGCTCTGCAGAG
GGGAGGGAGGAGTGTCAGGCCCCGGCAGAGCCCAGCGCCAGTCTGCGCCTCTCTGGCCTCCCTGCTGGGTGCCATCTCARGTGGCCAGCGCCAAGGCACC
TCCTTCCCGGCTCTCCCCAGCTTCCCTCAAGCGTTTTGGGGAGGGGAGCATACTGCTGCACAGCCGAAATTGTAAAATTAAATTTCCCAGATGTTCAGGC
CCCAGGAGCTCGCGCGTGCTGTCTGGAGAGGAAATGGGGATTGGGAAAAGCCGTGCCGTATTTTCTCCCTGCTCACCCTGCTTTTCCGGTGCCACCAAGC
ACAGCAGGAGCTGTAAATCACAGCTGGCCAGCGTCTCCTGCAGGGGCCCTCACCCCCAGCCCCCACATCTCCTGCCAGCCTCTGCCTTCGTGTCCCATGG
CCCACGTCTCGGGCAGCCCTACAGGACCTGGTGTCTTGGTGTGCGGCCTAGGTGGGGGACGGACAGCAGGTGCCCAAGATGGCTTAAGCCAGTGCTGGGC
CGCAGGGGCTAAGAACCCGGGGTCCTTCCTCTCTTGCCTTGCAGCCTCTTACTTTCTGAACTCAGCTGTTTTCACTCCGCCTTTCAACTTACTGAAAAGG
GAAGCTTGCAGCGGCCTGGTCCAGCTCCCCAGCCTCCCCGCCCTGGGTGGGCCCCTTTGGCCATCCCTAGCTCTTACCCCTCATGCAGCTCCCTGCAGGG
GACTCCACACTCCACTGGGAGCCGAGTGTCCTAGGGACGCCCTSGAGAGGAGCCCCAGGAGAAGGCCCCAGCCCCCGGCAGGCCTGTGTTACAGGTGTGC
CTGCCTGTGCCCTGTTGGGGAGCCCTGCCCGTGTGGCCTCGCCTCCTCTGCCTGGCAGGTGTGGGCTGAGGGGCGCGTTGGAGGCCCCCCTCGGCGCCCC
ACGGCCCGTGCTCACCAACTTTCTCTGGTTGCTGAGGCAGAAGGTGCAGATCTGTTTGGGCTGGGTGTTCTCGCCGTCGCGGGCGGGAGGCGGCGGGGGC
GGCGGCGGGGGGCTGCCGGCGCGCGCCGCGTGGAAGAAGGCGGGCCCGGAGTGGCAGGGCTGTCCGTCGCCGCAGGCCTCGCCCGCCAGCAGCACGTTGC
CCAGGTGCGAGATGTAGCTGGAGGCCAGGCGCAGCGTCTCAATCTTGGAGAGCTTGCGGTCGGCGGGCTCGGTGGGGATCAGCGTGCGCAGCGCCGTGAA
GGCCGTGTTCACGCTGTTGGTGCGGTCTCGCTCGCGCGCGTTCGCCGTGTGCCGCTGCCGGGGCTCACGGCCTGGCCGGCCCCCTGGCCCCCCGCCCCCG
GCCCGCCGGCCCCCCGCCCTGCCGCCGGGCGCCCTGGAGGCCGCAGCGCGCCGCGTGCACGCGACAGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGCACATGTGCGTCCCGGGCCGGAC
GGGGCCCCGACTGCGCCTTTATAGCGGCGTCCCGGCCCCTCCCCCGCGCACGCCCCGCCCCTCTCAGCCCGGGAGGCTCCTCGAGCAGCGCCCGCCGCGT
CCCTCGGCCTTCTGTGGCCACGCTTTGGCGGGGGTGGGGGGGGCGGGGCTGGTCTTTGGGGRCATCGTTCCGTCTCTGGGGATGCGGAGGAACTGGGAGG
TCGCTTCTGGGCTGTAGTTACTCAGGGCCCCAAAACTGCAGTGCCCCCCGTCCCCGGGAGAGGGGAGGAACCCACCACCCCGTTTTCTCCCGTGGCACAA
CTGAGTTAACCCAGCCGCCCTGGCCCTGCTGCCTGACCGCACCCTGTCTGTCTTTGCCTCCCATGTGCGCCAGCGCCTGCCTGTGCCAGGCCGTGTGCAG
GGGGCGGGCACAGGCGAGTATTTAGGGGCCTAGAGCTCAGTCTCTCCGCCTGTCTGTCCTGCACCTGCCTCTCCAGGCTTGGCACAGACTGTGCCTTCTG
CTAGCTGGCCATGTCCCCTGTTCTTGTGCTGTGTGGACCTCTCACCCCGTCGGTCTCCTTGCCCCTTCCTCCTTCCCCCGTTCCTCTCCAGGGCCACCAG
GCCCCTCAGGAAGCACACACATACCCCCATTATCCAATTTGGGGATGGCCCCCTATCTCCATGGGGAGGAGAGGGAAGGACCCTCAGCAGGGGGCAGGGC
CCAAGGGGTCCCTCCTGCAGCAGGGGGCCCGGCAGGCTCCCAGCTGTGCTCTGTCTTGCCTGGGCCCCTCCCCGTGGCTACTGTTGCAGGAAGCAGCCTC
CTGGGCAGCGGTCCCCAGGCTGGAAGGAGCGAGGGTGGCGGCTGGCAGGGGCTGCAACCAGGAATGTACGTCCAGGAACGTGGCTGTTCTGCCTGGGGAG
GGGCCGAGGGCAGACGGTGGGGGGTCCCCCACAGAGAGGTCTTGGCTTCTGCCTCTCTGTGGAATGGGTCAGTTGGGGTCTTCCCCGAGTCCCCGTCTTA
TAGCTGCCCACTTCTGCCTAAGGCCCCTGCCAGGGGAGGGAGCCCGTGGGTGATGAGGTCATCCCTGTCTGTGGCTGCCCAGAGCCCTGGCCAAGGAATC
CAGTGAGGGGGGAGCTCTGGGGTTGGCACCACTTCAGTGGAAAATGTGAAGGTGCAGCTCCGGCGCCTCCGAGGGCGGGGGTGGGGGCAGCGTGGCCGCC
ATGCCACGTCAGACCCCAGGGCTGGGGAACAGGCGTAGGTCAGGGCCAGTGACCTCAGGGCACTTGAGGCTGGGCCTGCACTCCCCCTGCAACCCCCTCA
CCTGCTCCCCTGGGCGGCCCGAAGCGGGGGTGGGCCTTGTAGGATCAGATGCCGACATGGTGGCCCCCGGCTGCAGGACATCCGGAACACGGTGGGCAAC
GTGCCCTTGGAGTGGTACGATGACTTCCCCCACGTGGGCTACGACCTGGATGGCAGGCGCATCTACAAGCCCCTGCGGACCCGGGATGAGCTGGACCAGT
TCCTGGACAAGATGGACGATCCTGACTACTGGTGAGGGCTGGTGGGGTGGGGCCAGCAGCCGGGGTGGGCCCGAGGGGTGGGGCAGGGCTGGCGGGGTCT
GACTGGCGGTCTCCAGGCGCACCGTGCAGGACCCGATGACAGGGCGGGACCTGAGACTGACGGATGAGCAGGTGGCCCTGGTGCGGCGGCTGCAGAGTGG
CCAGTTTGGGGATGTGGGCTTCAACCCCTATGAGGTAGGTGGCAGGGGCTGGCCCCTGGGCGGCGGGGGTCCTGGAGGCACCAGCAGGGCCTCAGCCACT
CTGGCCCACACGCCCACATCTTCTCCCCCAGCCGGCTGTCGACTTCTTCAGCGGGGACGTCATGATCCACCCGGTGACCAACCGCCCGGCCGACAAGCGC
AGCTTCATCCCCTCCCTGGTGGAGAAGGAGAAGGTGGGGCACACAGCCCCTGGGGCTTGGCCTGGGCTGACCGCCCCGCACTGCCCGTCCTGACCCGGCT
GTCTATGCAGGTCTCTCGCATGGTGCACGCCATCAAGATGGGCTGGATCCAGCCTCGCCGGCCCCGAGACCCCACCCCCAGCTTCTATGACCTGTGGGCC
CAGGAGGACCCCAACGCCGTGCTCGGGCGCCACAAGATGCACGTACCTGCTCCCAAGCTGGCCCTGCCAGGCCACGCCGAGTCGTACAACCCACCCCCTG
AATACCTGCTCAGCGAGGAGGAGGTGGGCCTGCATCCTGGGGGCCGGGACCCTGTCCCCATGCTTCCCTGTGACCCTCCCCACCCCTGTGTCTTGGTCTC
CACAGCGCTTGGCGTGGGAACAGCAGGAGCCAGGCGAGAGGAAGCTGAGCTTTTTGCCACGCAAGTTCCCGAGCCTGCGGGCCGTGCCTGCCTACGGACG
CTTCATCCAGGAACGCTTCGAGCGCTGCCTTGACCTGTACCTGTGCCCACGGCAGCGCAAGATGAGGGTGTGTGGGGGTGGCACACCAGGGGGGTGGCAC
AGGGGGCAAGGCTGACCTGGCGCTCTCCTGCCCCAGGTGAATGTAGACCCTGAGGACCTCATCCCCAAGCTGCCTCGGCCGAGGGACCTGCAGCCCTTCC
CCACGTGCCAGGCCCTGGTAAGTGGAGACTAGGGGGCTGGGGTTGCACCCTCCCAGTCTGACTCCTCACTGCCGCCGCCTCCTCAGGTCTACAGGGGCCA
CAGTGACCTTGTCCGGTGCCTCAGTGTCTCTCCTGGGGGCCAGTGGCTGGTTTCAGGTGGGTCYGAGCTGGGGGCAGCCTTGAGCTGGGGGGCAGGTGGG
ATGGCCAGGTGTTGAGAGCTGTCTCTGCCGCATCCAGGCTCTGACGACGGCTCCCTGCGGCTCTGGGAGGTGGCCACTGCCCGCTGTGTGAGGACTGTTC
CCGTGGGGGGCGTGGTGAAGAGTGTGGCCTGGAACCCCAGCCCCGCTGTCTGCCTGGTGGCTGCAGCCGTGTAAGTGGAGGCCCTGGGGGCTGGGGAGCC
AGGGGTGGCACTGTGCTTAGGGGCCGTGTCTGGGCCTGGCTCACAGGGAGGACTCGGTGCTGCTGCTGAACCCRGCTCTGGGGGACCGGCTGGTGGCGGG
CAGCACAGATCAGCTGTTGAGCGCCTTCGTCCCGCCTGAGGAGCCCCCCTTGCAGCCGGCCCGCTGGCTGGAGGCCTCAGAGGAGGAGCGCCAAGTGGGC
CTGCGGCTGCGCATCTGCCACGGGAAGGTACGTGGGGCGCCTTGGGGGTGAGGCTGCAGCGGGAGGGGCCYGGCTCAGCCACTCAGCCAGCCTTGCTCTC
CTGCAGCCAGTGACGCAGGTGACCTGGCACGGGCGTGGGGACTACCTGGCCGTGGTGCTGGCCACCCAAGGCCACACCCAGGTGCTGATTCACCAGCTGA
GCCGTCGCCGCAGCCAGAGTCCGTTCCGCCRCAGCCACGGACAGGTGCAGCGAGTGGCCTTCCACCCTGCCCGGCCCTTCCTGTTGGTGGCGTCCCAGCG
CAGCGTCCGCCTCTACCACCTGCTGCGCCAGGAGCTCACCAAGAAGCTGATGCCCAACTGCAAGTGGGTGTCCAGCCTGGCGGTGCACCCTGCAGGTGAG
GGGTGGGGGCGGTGCACCCTGCAGGTGAGGGGTGGGGGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNACCTGCATCACAGCCTTTGGCCCTAGGTGACAACGTCATCTGTGGGAGCTACGATAGCAAGCTGGTGTGGTTTGACCT
GGTATCTTTCCACCAAGCCATACAGGATGCTGAGGTGAGGAAAGCTGGGGGTGGAGGCGGCCAGCAGAGCCCCTCCCTTCAGCCCGAGCCTGCCTTCAAC
CTGGTTCCCTCCCCCCAGACACCACAAGAAGGCTCTGCGGGCTGTGGCCTTCCACCCGCGGTACCCACTCTTYGCGTCAGGCTCGGACGACGGCAGTGTC
ATCGTCTGCCATGGCATGGTGTACAAGTGAGTGCTGACCCTGCCTGGCCCCCTCCCCAGGGCAGTGGTGTCTGGCCGTGCCCTGAGCCCTCCTCGTCCCC
ACAGTGACCTTCTGCAGAACCCCTTGCTGGTGCCCGTCAAGGTGCTGAAGGGACACGTGCTGACCCGAGATCTGGGAGTGCTGGACGTCATCTTCCACCC
CACCCAGCCGTGGGTCTTCTCCTCGGGGGCAGACGGGACTGTCCGCCTCTTCACCTAGCTGTTCTGCCTGCCTGGGGCTGGGGTGGTCGTGCTGAAGTCA
ACAGAGCCTTTACCCTGTGCTGCCTGGTGCTCCCACCTTCTTGAATTGGGGTTGCCAACAAAGCCGCCCCCACCACAGCGCCGAGCCTTCCCCTCACTCA
ATTTTGCAAAAACAGTGGGGACAACACAGCCAGTCCAGGGCACCCTCTGGCCCATCCCCTAAGAGGCTCAGCATCGCACCCTGTCAGTCACTCGCTGGGA
GCAGATGAGTTTATTGGGCACATCCCTCACTGAAGGGCTTGGGTTTGGTCCCCAGCAGTGCCTGTTCTGGGGCCAGGCCCCTCCAGTCGTGTGCCCAGGC
TGTGGTCCTCAGGAGGCCCTGTCTTGGAGCTCAGGCACAGGTCTGGGTGCATACTCCTCGCTGGGGGTGCTGGCCGGAGCCTTAGGCGAGCTTCACCAGG
CGGCCCAGGGCCTCAGCAGCCCTCGTCCGCACCTCGGGGGCCGGGTCCTTCAGCAGGATCTGGAGCGCTGGGGGTAGAGGAGGGGGGCTGCCTGCGGGCT
GTGACCTCGGCATGCCCATGCCTGCGCGTGGGCCACGCTCTCCTGACAGCCTCTGCTGGGAGGCTCAGGAGCCAACGGAAAGATCGTTTTTCCTTTTTTA
GTGTTTTTTAAGCTCTCTTGGAACAGTTAAGAAGTTTCCGTGAATTACTAGAGACGATGAGGTCACCAGTGACAGGGAAAAAGTCCTGAAATCCAGGAAA
ATCACTTAGTCCCTGCGGGTGCCTACAGGGTCAGCAGGGCCCAGCGGAGGGGCCCCGTGGAGGGGTGCTCACCCGCAATGAGCTGGTCCAGGTCCACCTG
CGGCTGCTGCCTGGGCTCCGAGTGCAGCACCAGGAACCCTGTGAAGTGGGGGCATCAGGCGGGGCTGCCGGGCGGCGTGGGGGTGGGGCAGGGGGTGGTG
CTTACCGGTGAACAGGGGTGCAGCAGCTCGGACGTTCTCCCAGCTGCTCTTGAAGTAGAACAGGCAGGTGGTCAGGAGACGGCCCAGCAGGTCTGGGAAA
TGGTGCATCTGGGGAGAGGCCTGGTCAGTGCCGCCTGGCCCCGCCCCACCCACCACGCCCCGCCTGGCCCCACCCCTCACCAGGTGCTTGCAGGTGGTGT
TGAGGAACTCCCCGAAGTGCAGGGCTCGGCCCTCCTGCAGGTGTTTCTGGAAAGCAGCTGAGAGCTCCTCACATGCCAGATTGGGGCCACACATGCGCAG
GGCAAACCTGCAGGCCTAAGGGATGCGGCACTGGGGCCAAGTCCAGTTGAGGCCACCCACCCCATCCCACTCACCCCCTGGCTACTCACGCTGGCCACAG
TGGCCTGAGGGTCCTGCAGGTGCAGCAGCAGGGGCGCCAGCCCGCCCACCACCTGGTCCAGGAAGACGTCCTCACAGTCTCCGTGGCAGACCTTGTTAAG
GTGCCCAAAGAGGCGGATAGATGCCGTCCGGAACTCCATCTTCTCCTGGGAAGGACATGCAGCATACGTCTCCTCACAGGCTGTGCCCCTGCAGGCCTGC
CTGCCTAGCCCCCTGCCATTGATGGGTGCCCTTGCCTGACCCGGGCCAGGAAACACCCCGACGGGTGGGGGCCTTACGGGTGGGGGCTGCCAGGCCCAGC
AAAGCAGCAGCCCTGCAGGTCCGCGCTCTCCACGGTCACCTAGCCGAGGTGGGAGACAGGGAGGAGGGTGGGGCTGGGGCTAAAGCTCAGAGTAAGAGGC
AGGAAGGGCTGGGGCCCTCTTCCCTCCCCCTGCCCCAACCAGCCTACACTGTCGAAGAAAGGCCGGATGCGGATGGCCACGTGCAGCAGCCCTGAGCGCA
GGTCCCAGGACTCCACCAGGTGCACCAGCCTCGCAAGGCCCAGCATGGCCTCCAGGGCCACTGGGCTGTGAGGGTTGTCCCCGTCGTCCAGCCCGCCAAT
CATGGCTGTGAGGAGCTGGGGGCCGTGGGTTCGCACCTGAGGATACCTTACACTCAGCCTGGGTCCCAGAGTCACCGTCTGCTACCCCACAAGACAGGGT
GGCCTCCATGCACAGCCCCCCACCCATGCTGCCTGGGACCCAGAGGGGCTGGTGGCCACCCCACCTTGTCAGGGCAGCCGGAGGCCAGGTTGGCCAGGCC
GCGGAGCACCAGCCTCCGCACGCTGGCGCATGTGTCCTTCTGGCGAGCCGCCAGGCTCTCCAGCAGCGAGTCCAAGAGCATGAGGTCGTTGGCCACGTTG
CTGTTCAGCAGCTGCAGGCAGAGGTGCTGTGACTTCCCTCTCCCCGCTGACCCCAGGGCTCAACCCACCAGCCCAGGCCCAGAACACCAGAGGCTGTCCC
CACGCCGGTGTGGCAGACAGAGGTGGAGCACCTACTCCCTGGGTCTCCGATCAGTGGCGACCCCTCCCTGTTGTGCCACTGGGGCCTGCTCTGACGCCCG
CTGTGCTCTGCTGCACGGCCTTGGGCAAGATTTTGGCATCTTTGGCCACGAAGGCCAAGACCACACCACCAAGGGCACCTGGGGTCCCAGGGGCCAGCCC
TGTCCAGCTACAAATGTACCCAGCAGGACTTGGGGAGAGTACAGGCTGCAGGGAGCCTCGGTCCTCCTCTCACCAGGCACAGAGGGGGTGTCCCTGGGTG
GGACTGAGTGAGTTCTGGCATGGGGGAGGAGGTAGCTAGCATCCACATAACCTCCCTCACAGACCACGGTCGAGGGGGCCTTTTAGGGGTAAGAAAAGGG
CATCCCGTGCCTGTCCTGAGCAGGAGCCCCACCTTGGTGCCCAGCATCCGTCCCTGGAAGGGCCTACCTCGGCCAGGAAGGCGGTGGTGGTCACCCTCTG
GTTCTCATACGCACTGCTGTGTGTGCATGCCAGCGTCTTCAGCACCAGGGGGAGTCGGGGCCCTGCGTGCTCAGCCATGGCCCTGGGAAAGGGGGCCGCT
GAGGGTGCAGGGGCTGTTGCTGTGCTGAACCCTACCCAGGCACCTTCCACCCTGCACAGCCCTGGTCCGCTCCACCGCCAGCTGCCAGGTTCTGGGAGTT
CTATGTTTCAGAGATGCCTCCCAGCTTGCCTCGCCAGGCCTCTGCAGGGGTGCCTCCCTACCCCTGCCCCAGAGAGTGAACAGGCAGGAGCCCAGGGCAC
CATTGGCCTGACACGCATGGGCCCCCGCCTGATCCTGTCATGTTCTGGGCTCGAGATCCGGTGGAGCCCAGCCAGTGCTGGAGCTGCAGTGGGCTGGGCC
CGCTCACCTGGCCAACCTGGTGGCCCCCTCCTCATGCCCCGCCGAGGTCCTGAGCAGTTCCCAGCCTCCCTCCAGGTCCATGCGCTGTACCACATCCTCG
CTGCCGCTGCGGAGTAGCATGGACCGCAGGGTGTCCACTGCAGAGCTGCAGGATTGCCAGGGTGCTCAGCTGGTAGGGCACACACGCCTACCTCCCTTCC
TGATTAACTCCTCAGGTCTGCACCCAATGCGTGTTGCCCACCTGGTGGCTAGCCCTATCCCTGCCAGAGCCACTCTCCAGGAAGCAGGCTCTGGGCCATC
TGCTAGAGGCCCCCCATTTCCCCACCCAAGGCAAGGACGCAGATGTTGGCTTGGAGGTGAGCTAGTAGCAAGGTCAGCCTGTGGCCACCTGGCCACCAGC
CTGAGAGCTGGACACAGGCAAAGCCCTCTGGCTGCACCGGCCTTCCTTTCCGGACACCCAGACGCTGCTGGGCACCCACACCACAGGTGCCCCCCACCCC
GGGCCTGTTCCTGCCTGGCACCTCGGGTTCTCACACCTGTACCCCAGGAGACTCCACAGCCCTCTGGGAGGCGAGCAGGCCCCTGATCCACTCCCAGTGT
CGGCTGAGGCTGGCTGGCAAGTGAGCGGGAGGATGGTGCCGAGAGCTGGAGGGGCTGCTGGCGTGCTGAAGAGCAGGCGCCCTGGGCGTGCAATGGGGGC
CACCTTGGCCAACTCTCTGACTCCCCAGACCTCCACCAGGCAAGCACCTTGCCCTCTGGTCTCCCTGGCAGTGGCTGGGCCAGAAACTGGCAGGGAGAGT
CTGATGTTGAAGCCTCTACAGGGCCCAGCTTGAGCCTGGCATCGACCATCGGCTCAGATGAGCCCTTCCCTGCTGAGGCTGCTCCACTCCTGGCTGCCAG
TGGGTGGGGCGTAGTGTGTGACCCAACAGGCACGGTCTGGGGCAGAGGATGCCCTGCACCAGCGTCCCCACCCAGCAGGACCCTCCATTTCAACTCCACA
GCCCCTGCCATGTGGCTTTCCGCTGCCCTCGAGCACCTCACACTTAGGCCCCCGCCGCCTTTGGACCTCTGTCCCCACAAGGCTTCGTCCTCAGGAGCAC
CTGGCCCAAAAGCAGACAACCCCCGAGCGGCATGGGCCGTGTGGTGACCGCTGGTGGTGGTGACAGTGCCACTGCCCTGGTCACCTCCTGCCAGGTGTCC
CACAGGGCCCCTGGTGTGCTGCGACGTGGAGTGGGCCTAGCAGGGAACAAGTGGCCCCGCCAAGCTGGGGGCCAGGCCCTACTCGCCTGGATGGTGTGTG
AGGCCCTCATGCAGGTGGGATCTAGGAGGAGGGTGTGGTGGGCACAGGAGCATGAGACAAGCTTGTTAGAGATCTGGTGATGGGCCCCATGAGGCTTCTG
GACGGTTGGGTACACAGGGCTGGTGATGCCGGCAGGAATGAGGCGGCCTGAGAGCTGGACAGGGGCTGTAGGAGCTGAGGGCCACGGGGGTCTCGGCAGC
CCAGGAAGGAGGTGCTGGGGGCCTGCTCCCAGTATACCACTGTCCCCATGGGGTGTGCCTGGGTGGTCTGGTGCTGACCAACAGCAGGGCCAGCCCCTCA
CACAGCCCTTGATGAGTGTCCCCAGGCTCCTCTCTCTCACGGGTTCCCTCCCCAAGGTCGGACGTACGAGAAGGCAGCTCTGGAAAAGCCTGGAGTCCCA
TGGTTCCAGTGTTGGGGCCTGATCTTTGAGCCCAGGTAGCCTGGGTGCCAAGGGGGCTTCCAGCCCTGGGAACAGGACAGCCAGCACTGACCACAGGCAG
AGGACAGAGCCACACCAGTCACTGCAGTTCCTGGGAGATGCCCTTGACACATACAGGCCAGGCCAGCCGCAGGCGGAGGGAGGACCCACCGGGCCACAGT
CAGTTCAGCTGGGCCTCGTGGTCTGAGCCAGGGCCTCATGGTCTGAGCCAGGGCCCAGCTTGAGTGCAGCTCTGCCTCCAGCTCCACACCCTGCTCCAGG
CCTCGAGCCCTGCAAGGCCCCATCTGGACCAGGGGCTGCGCTCCAGGCTGCAAATGGCGCAGGCACAGCAACTCACAACCAGCATCGACAAATCTAACGG
GAAGCGTGTGTTTGGCTCACGAATGTGTTAGTGATTTGGATGAGGGTGCCTCCCTTGTTTGTGTGCCCAGGACATTTAAGAATGTGGCACCCACAAGGGT
CCGACCCACTGGCGAACGGCCTGTACACCAGGCTCTGCAATCGTCCCAGTGAAGGGGCACCTGGGGGTGGGCGTGGGGCCCGCAGCCCTACAGCTCGGGG
CGGAGGCACTGATTCGCAGCAGGCCAGGCCCAGGGGCTGGTGGCTGCCCCATCCCATTCACATTTTCCACTCAGTTTGCTAGGGGCAGAGCAGCGCTGGC
AGCCGGCCCCACTGGGCTTTACGAGCTGGCCTGGGTCTGAGCAGCCTGTGGTGCTGGGGCAGGGGGAGGGGGCTGAAGTGCGGCTGTCCCCCTGGTGTGT
CCTGGCCAAGGGGGGCAGGGGGAGGGGCTGAAGTGCGGCTGTCCCCCTGGTGTGTCCTGGCCAAGGTGCACACCCAAACCTGGGCGCCTGGGTGGGATGG
AACCATAGCCCTCCTGGGCAGGTGGGGCATGGCAGCCCTGCGTTCACATGGGCTTGTGGTCCTGGGGTCAGGCCACACAGCCACGCCTGCCCAGGGTGTC
AGCCTCCTCTGTCTGTGCTATGGCCCCAGGCAGGTGTGTAGGACCTGGAATGCTTCATGTCAGGCACCTGGGCAGCTCTTACGTGTGGGGCTGTGAACAC
GTGCCAAAGGCCGCTCTGCTGGGGCAGTTTCAGGGACAAAGCTGGTCCTGCCATGGTTGACCCCAGCCTATACCCCAAAGACTCCACACAACTCCACTCC
CAGGAGAAGGCACCACCCGGATCCTGCCTGAGCTGCCACACGAAGCCCCCACCAGCTGCCTGTGTTCAGCACCACCGTGCAGACCGCCCGCAGAGGCGAG
GAGGGAGGCCTTCACAGCCAGTGTGAGAAGGGTGGCCATGGATGTCACCACTGACAGCTCAGCCCTGCACCTGGGTGAGGCGCCAGCTCCCTGGAAGCA


SNP Information

Context             (SEQ ID NO:55171):
TCTCAGCCCGGGAGGCTCCTCGAGCAGCGCCCGCCGCGTCCCTCGGCCTTCTGTGGCCACGCTTTGGCGGGGGTGGGGGGGGCGGGGCTGGTCTTTGGGG
R
CATCGTTCCGTCTCTGGGGATGCGGAGGAACTGGGAGGTCGCTTCTGGGCTGTAGTTACTCAGGGCCCCAAAACTGCAGTGCCCCCCGTCCCCGGGAGAG
Celera SNP ID:            hCV12010442
SNP Position Genomic:     30862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55172):
GGTGAGCGCCACCAAGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTTCCATGTAGGCCAGTCTGGTCTCGAACTCTTAACCTCAACTGATC
Y
GCCTGCCTCGGTCTCCCAAAGTGCTGGGATGACAGGTGTGAGCCACTGGGCCCGGCCTTCCCAGATAATTTAAGGAGAGTTTGGCCTGTGCCGGAGCATA
Celera SNP ID:            hCV26932317
SNP Position Genomic:     16418
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55173):
GGAACCCTGGGCTCGGGCCCCCTGTCGCTGTGGTTCTGGGGTCTGGGTGCTGGTGCCGTCTGCTGGAGAGTGGTCTGGAGCTGCAGCTCTGTGGAGTCTG
R
AAAGGGGCTGCCCAGTGATTCTCACCAGCTAGTCAGTGGTGGAGAAGTTGCCTGGGTGTGGACCACAGAGCTGGGGATGGAACCAGGGGCCAGGGCTGGT
Celera SNP ID:            hCV26932318
SNP Position Genomic:     16705
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55174):
TGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGTTGGGATTACAGGAGTGAGCCACTGTGCCTGGCCTTCA
R
CTGCTTCCTAAGAGTCTAAGTTCTTGTTCCACCCTTTAAGGCCAGTGAAGGACCCGAACACTGTGTGTGCCGGTGTCACGCAGCCAGCAGGGCTCTGCTC
Celera SNP ID:            hCV26932319
SNP Position Genomic:     7327
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55175):
CCCTGGAGCACCAGGTCCTCTGCACTGCTGAGTGTGTGCTTGTCCTGCCCATTGCCCTGCTCGGGTTTCTGTGACTGCGTAACTGGCTGCCCCATGCAGG
R
TGTTTTCCAAAGTACCGCTGTCTGTGGTCTGTGTGCTCCGTCATCCAGCAGGGCCTGAGGTGGCAAGGCCGGCCGGGCTGGTGGGGCGGTCCTCAGAGTT
Celera SNP ID:            hCV28015196
SNP Position Genomic:     10567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55176):
GGGCGTGGGGACTACCTGGCCGTGGTGCTGGCCACCCAAGGCCACACCCAGGTGCTGATTCACCAGCTGAGCCGTCGCCGCAGCCAGAGTCCGTTCCGCC
R
CAGCCACGGACAGGTGCAGCGAGTGGCCTTCCACCCTGCCCGGCCCTTCCTGTTGGTGGCGTCCCAGCGCAGCGTCCGCCTCTACCACCTGCTGCGCCAG
Celera SNP ID:            hCV25644031
SNP Position Genomic:     34131
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,32)   total(A,1|G,65)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55177):
TGCTGAGGCCTGTGCCAGGCTGGAGCTGCTCAGAGATTTCGGGGTGGTGGGCTTCCTGGGATCCCCCCAAGGTCAAAGGGTACCCTGTATCCCCTGAAGT
R
ACCATTTTCTCTCTCTCTCTGCAGGCCAGCACTCCTTGCCCGAGGACAGAGATGGCGAGCGCCCGGATTGGGGATGAGTATGCGGAGGACAGCTCTGATG
Celera SNP ID:            hCV27838907
SNP Position Genomic:     20762
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,4)   caucasian(A,27|G,1)   total(A,41|G,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:55178):
CGGGGGCGTGCCCGCCTTCGCTCTGGGGTTCCTGCGCCCGAGCACTTTACTGCCCCCACGGGTGAGAGGTGGGCCTGTTTTCCCCATCAGCCTTGGTTCC
R
CCAGTAAACCCGATCCGGTTGGAGCCATCCTCACCTCCGCAGTCGAGGGCAGAATCTGTTTTCCAGGTTGGGATGTGAATTCTCAGTGGCGCCCACTCTG
Celera SNP ID:            hCV355012
SNP Position Genomic:     20028
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55179):
TGGGGCCCCACCTTGGGCTGGGGGTTCGCTCAGCTGGTTTGGACTTTGAGGAGGAGGAGACTAAGCAGGACCTGGCTTTCTCCCCTCTGGCCCCGGCGCC
R
GGGCCCAGCACCCCTGCTGGAACCTTCAGTAGGGTGAGATGCAGCAGGTGAGCCTCCCGCCCTGGCCTTGCCCTGAGCACTTCAACAGATAAAACCCTGA
Celera SNP ID:            hCV355013
SNP Position Genomic:     25423
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55180):
AGCACCAGGTCCTCTGCACTGCTGAGTGTGTGCTTGTCCTGCCCATTGCCCTGCTCGGGTTTCTGTGACTGCGTAACTGGCTGCCCCATGCAGGGTGTTT
Y
CCAAAGTACCGCTGTCTGTGGTCTGTGTGCTCCGTCATCCAGCAGGGCCTGAGGTGGCAAGGCCGGCCGGGCTGGTGGGGCGGTCCTCAGAGTTCCCCAC
Celera SNP ID:            hCV27925632
SNP Position Genomic:     10573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55181):
CCTTTCAGCTCCGAGGCCTCCAGGTCGTTGTTCCCTGTTCACTTTCTTCTAGCCTCGTTAGACACCCCAAACTCTGACCCCAGTCCACGGGGGCTCTGAC
R
TCTCTTTCCCCTGCACTCCCTCTTGACCCTGCCCAGACCTCCCCATGCTGGCCCGCACCTTCCCACCTGCTCCTGTCTGGCCTCCTGCATTCCCGCTCTG
Celera SNP ID:            hCV355014
SNP Position Genomic:     26787
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55182):
CCCTGCCCTGCCGTGGCGCCCATGCACCTGCCCGCGTGTCCTGTGCTTTAGCTGAGGGGCCGAGGCCCTGCCCTGCCGTGGCGCCCATGCACCTGCCCGC
R
TGTCCTGTGCTTTAGCTGAGGGGCTGAGGCCCTGCCCTGCCATGGCGCCCGTGCATCTGCCCGCGTGTCCTGTGCTTTAGCTGAGGGGCACCTTGGGCCC
Celera SNP ID:            hCV11606013
SNP Position Genomic:     10934
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55183):
GGACAGGGCCCAAGAAGATGGGGTGGGTGCTGTACCTCCCTCTTCCTTCCCTGGGGTATCTGTGGGCCACGGCAGGGCCCACAGCTGTTGCTAGTAGCCT
S
CTTGGGGCCAGTGGGTTTGATTTATTTTTGTGTTTGTGTGGTTTGAGGGCAGGCATCCCTTCCCCACCCTTTGCGTCCCTGCTACAGTGACCCCTCTTTC
Celera SNP ID:            hCV105697
SNP Position Genomic:     14716
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55184):
GCCGGGCTGGTGGGGCGGTCCTCAGAGTTCCCCACGCTGCTGGCTGCCCAAGTCCCTGCCTGAGGCCCTGCCCTGTTGTGGCGCTCATGCACCTGCCCGC
R
TGTCCTGTGCTTTAGCTGAGGGGCCGAGGCCCTGCCCTGCCATGGCGCCCGTGCATCTGCCCGCGTGTCCTGTGCTTTAGCTGGGAGGCCGAGGCCCTGC
Celera SNP ID:            hCV27925633
SNP Position Genomic:     10739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55185):
CCGCCGACGCCCCGCACCTGCCCGCTCAGGCCAGCAGCCCCTGATGTCCCTGCCCTGGAGACTTTCACTATCTTCCATCCCATTTGTCCCCAACGTTGAC
Y
GGCCACTGAGGTTGGGGGTTCATGTGGAGGTTTGCAACCCCCACTAGGCCCAGGTCTGGAAATGGGAGGCCTGGAGGTGAGGGGTAGGTGGGCTATGGAC
Celera SNP ID:            hCV355015
SNP Position Genomic:     27017
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55186):
TCATCACGCCCGGCTAATGTCTGTATTTTTAGGAGAGACGGGTTTCACCATGTTGGCTGAGCTGGTCTCGAACTCCTGACCTCAGGTAATCCACCTGTCT
K
GGCCTCCTGAAGTGCTGGGATGACAGGCGTGAGCCGCCGCACCTGGCCATCAATGCATTTAATTGTGAAGGTGCTTGGAGCGTCCCTCCGCTAGGCGGTG
Celera SNP ID:            hCV27925634
SNP Position Genomic:     13430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55187):
TCTTCTGCCACGTGCTTCTGCCTGTCCCCCCACTCCCTCCTGTCGCTGTTTCCTCCACAGTGGTTGGCAAGACGTGGCCCCTGTGGCCTCTGCCTCGTGC
R
TCTGAAGGACATCCCAGCCACAGCATCACATCAGACTGGAACAGTGGCGGGATGGGGCTGGGCATCAGGCAGCATGCATGTGTCATGTCACGGACACCTC
Celera SNP ID:            hCV11606015
SNP Position Genomic:     11952
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55188):
TGAAAGTGAGAGAAGGCCAAAGACCTGGTATTAAACTGAGGGAAGGCCGAAGACCTGGTATTAAAGTGAGAGAAGGCCAAAGACCTGGTATGAAAGTGAG
R
GAAGGCCGAAGACCTGGTATTAAACTGAGGGAAGGCCTAAGACCTGGTATTAAACTGAGAGAAGGCCGAAGACCTGGTATTAAAGTGAGAGAAGGCCTAA
Celera SNP ID:            hCV27925635
SNP Position Genomic:     15812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55189):
CGCGGTCCTTGCTCTGCAGAGGGGAGGGAGGAGTGTCAGGCCCCGGCAGAGCCCAGCGCCAGTCTGCGCCTCTCTGGCCTCCCTGCTGGGTGCCATCTCA
R
GTGGCCAGCGCCAAGGCACCTCCTTCCCGGCTCTCCCCAGCTTCCCTCAAGCGTTTTGGGGAGGGGAGCATACTGCTGCACAGCCGAAATTGTAAAATTA
Celera SNP ID:            hCV355017
SNP Position Genomic:     29080
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55190):
GCCCGGGGCGTCCTGCGGAGAGCCCCACAGTGGGAGGCCCTTGTAGCGGGGAGCCCGGTGACTGCTGGGGGTCAGCTGCTGGCGGCCCCTGTGGAGACCT
S
GCGACCTGCCAAGGGCTCCGGACCTGCCTGGGTGGACCCAGGGTGGGCGTGCTTCTGGCTGCAGGGCCGGGCCACAGGCTTCCCTCTGGCTTTCTGCCCT
Celera SNP ID:            hCV11606016
SNP Position Genomic:     12389
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55191):
CTTCGGGCGCTGGGCCTGGCTGAGCGCTGTCGCCCCCTGGTGGACTCTGTGCCCCACAGCTGTCCCACGGGGATGCTGCGCCCCTGGGAACCCAGCACCT
Y
CGAAGGCCACCTCTGCCCCCTGCCCAGAGCCTGCCTGTGCCGTGGCCTGTCCACATCCAGCACAGGGGCCACGGGGCACAGAGCGCTGGGTGACAAGTCT
Celera SNP ID:            hCV26932320
SNP Position Genomic:     19401
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55192):
TGGGTGGGCCCCTTTGGCCATCCCTAGCTCTTACCCCTCATGCAGCTCCCTGCAGGGGACTCCACACTCCACTGGGAGCCGAGTGTCCTAGGGACGCCCT
S
GAGAGGAGCCCCAGGAGAAGGCCCCAGCCCCCGGCAGGCCTGTGTTACAGGTGTGCCTGCCTGTGCCCTGTTGGGGAGCCCTGCCCGTGTGGCCTCGCCT
Celera SNP ID:            hCV355018
SNP Position Genomic:     29744
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55193):
GCCTCAACAGCTCCAGTGGGTGGGCAGTTGCAGGCTTTTGCTCTTACAGTTGACCTGACAGTAACATGCTGTTTCTCACATGTGCACACCATTCTTGGGG
M
AAATTCCAAGAGAATTTCTAGGTCAAAGGATAAATGCTTTTTTTTGTTTGAGACAGGGTCTCACTCTGTCACTCAGGCTGGAGGGCAGTGGTGCGATGTT
Celera SNP ID:            hCV11606017
SNP Position Genomic:     12967
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,6)   total(A,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55194):
CTTCCCCCCGACCATGCTGCCCCCGTCCCAGGCGGGGCTCGGCAGGAGCGCCATGTGGGGCCCCTGGGAGGAGTCCTGTGGCTTTGACATGAATGGGGGT
R
CGGGTGGTTGGCGGTGGGTCTTGGTCCTCAGCTGGCGGCTTTGCTCCTGACTGCCCCAGTGGCTTCCGTGTCTAGCCTGACACCCGTGTCAGCCCAGGGA
Celera SNP ID:            hCV27833105
SNP Position Genomic:     20438
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(G,40)   total(A,5|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:55195):
TGGTCCTCAGCTGGCGGCTTTGCTCCTGACTGCCCCAGTGGCTTCCGTGTCTAGCCTGACACCCGTGTCAGCCCAGGGACAGAGGCCCCGGGAGGCTGCA
R
TCCAGCCCTCACAGAGGACAGGGCCGTGGGCAGGACCTGCGGCGCCGGGTGCCAGCCACAGCCCCCAGAGGCCCCCTTAGAGCTGGGTGTTCTCGGCCTT
Celera SNP ID:            hCV27854607
SNP Position Genomic:     20560
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,36)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:55196):
CAGAGCGCTGGGTGACAAGTCTTTTGTCACCTGCCAGGACCCTGGGACTGCGGCCCATGAGCAGCGAGGCTGGGACTCCAGCGTGCGGTGCTTCAGCCCC
K
GCCACTGTGAGGGTTCGGGAGCCCAGCCCGGTACCCGTCCGCAGAGGCCAGGCGGGGGCAGCCGACCGCAGCCGGGTGTGGAACTGCCCTTGTGCGCGTC
Celera SNP ID:            hCV26932321
SNP Position Genomic:     19580
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55197):
ACCTGGCCATCAATGCATTTAATTGTGAAGGTGCTTGGAGCGTCCCTCCGCTAGGCGGTGATGCCATGCACTACTGCAGCCGCCCCTCAGCTGCTTTCCC
R
CCACCAGCCTCCCTCATGGTGTTGCTGCTTCATCTTTTCCTCTTGTTTAGTGATGTTTTTCTTTCATTAAGAATGAGGCTCGCACAGCTGGGCTTAACTG
Celera SNP ID:            hCV11606018
SNP Position Genomic:     13571
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55198):
ACAAGTCTTTTGTCACCTGCCAGGACCCTGGGACTGCGGCCCATGAGCAGCGAGGCTGGGACTCCAGCGTGCGGTGCTTCAGCCCCGGCCACTGTGAGGG
K
TCGGGAGCCCAGCCCGGTACCCGTCCGCAGAGGCCAGGCGGGGGCAGCCGACCGCAGCCGGGTGTGGAACTGCCCTTGTGCGCGTCTGGGGCTTGGGGCC
Celera SNP ID:            hCV26932322
SNP Position Genomic:     19594
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,3)      total(G,2|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55199):
AAAGTGTTGGGATTACAGGAGTGAGCCACTGTGCCTGGCCTTCAACTGCTTCCTAAGAGTCTAAGTTCTTGTTCCACCCTTTAAGGCCAGTGAAGGACCC
R
AACACTGTGTGTGCCGGTGTCACGCAGCCAGCAGGGCTCTGCTCAGAGGCAGCTGTGGTCCTGCTCAGAGAGAGGAGTGGGTGGGTTGGTGCGTGGTTGC
Celera SNP ID:            hCV26932323
SNP Position Genomic:     7383
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55200):
CTTCCAGGGGCCAAGTGGCACTGGTGCATGAGGAGATGCCCCTCTCTCCAGTCAAGGCTCGTGGAGGCAGGACACCCACTGCCCTCGCTGGGGCTGGGAG
C
CCCCCCTCCGCTGGGCAGCACAGCTCGCTCCACTCCTTGTGGCCACCTGCAGCGCCCTCCTCACCCTCAGGGCCCCCGGGTGCCCGACAGGCCCGAGTCG
Celera SNP ID:            hCV26932324
SNP Position Genomic:     28145
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,9)   total(C,2|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55201):
TCTCTGCTAGCTCAGCCCTGTCTTGGTTGTGGGGATCATCAAATTGGGTGGTGGAGGGGATGGACAGCCAGCCCCTCACAGCCCCCTCGGCCGCGGCCGC
K
CTGGGTTGTTGAAACTGCCCCATTGCTTTGTGAAGCGAATTCAACTCATCCTGGCTCCCATGGGCTGAATGGCCCGCAGGCCACTCTAGGCGCCAGGTTC
Celera SNP ID:            hCV26932325
SNP Position Genomic:     6661
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55202):
GCCGCCAAGATGGCCCCGTCATGCCCAGTTAGTGGCCTCAGGTTAGGCCTGTTTCTGTGTCATCCCGAAGGCAGTCCAGGGCTCCTTACGCCTGTATCTC
Y
GCCACCTCCCACTCGCATCGTGGGTCCACGGGGCCGGGCCACCAGGGGCTCTGCCAGACACCCTCGCCCGCCACAGCCATCTGGAGGATTCTGCCCCCGA
Celera SNP ID:            hCV37035
SNP Position Genomic:     11463
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55203):
GGTTCTGGGGTCTGGGTGCTGGTGCCGTCTGCTGGAGAGTGGTCTGGAGCTGCAGCTCTGTGGAGTCTGGAAAGGGGCTGCCCAGTGATTCTCACCAGCT
R
GTCAGTGGTGGAGAAGTTGCCTGGGTGTGGACCACAGAGCTGGGGATGGAACCAGGGGCCAGGGCTGGTGGTAAACTCCGCTCTTGCCTCTGCCTGTGGC
Celera SNP ID:            hCV29284230
SNP Position Genomic:     16736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55204):
CCATCGGCACAGAGCTCTTGGATAGCAGCCTGTCTCTGTGCTGGGCACCCTGCGGCTAGCGTGGGCAGGGCCCTAGGGAGCCTTGGCCGTGCTGAGGTGC
Y
GGGTGTGGGGTCTGTGGTGCAGCGCTGGGTTGTCTTGGTGTCCTTGGCACCCCGACAGCGATGTTCTGGCTCTGGTCTCTGGGCAAGTTAGGACTGCTTC
Celera SNP ID:            hCV29284231
SNP Position Genomic:     18322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55205):
CTCCCTTCAGCCCGAGCCTGCCTTCAACCTGGTTCCCTCCCCCCAGACACCACAAGAAGGCTCTGCGGGCTGTGGCCTTCCACCCGCGGTACCCACTCTT
Y
GCGTCAGGCTCGGACGACGGCAGTGTCATCGTCTGCCATGGCATGGTGTACAAGTGAGTGCTGACCCTGCCTGGCCCCCTCCCCAGGGCAGTGGTGTCTG
Celera SNP ID:            hCV28959022
SNP Position Genomic:     34673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55206):
GCGAAGGGGGATGCGTGCTGCTGGGCTGGGCTCCACCAGCGTGGAGAGGCTGGCACCGGGCTGGGCTCCGCCAGCGTGGAGAGGCTGGCACCGGGCTGGG
Y
TCCGCCAGCGTGGAGAGGCTGGCACCGGGCTGGGTTCCGCCGGCGTGGAGAGGCTGGCACTGGGCTGTGTCCAAGAGCAGATTTGGCTGCGGGGGGCTGC
Celera SNP ID:            hCV29284232
SNP Position Genomic:     21616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55207):
TGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCGTTAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCTCACCACTGCACTCCAG
Y
CTGGGTGACAGAGTGAGGCTCTGCCTCAAAAACCAAAACAATGTTTTCGCATAATAACATATCCAAGTACTTGAAAGGTACTAGAGGTGTCTGCGGAGTC
Celera SNP ID:            hCV28036996
SNP Position Genomic:     10324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55208):
GGTGGGCGTGCTTCTGGCTGCAGGGCCGGGCCACAGGCTTCCCTCTGGCTTTCTGCCCTCAGGCCTTTAGCATTGACATGCACACGACCCTGCCTCCTTT
M
TAAGGACTGTGTAGAATTACGTGGCATTCAGTGAGCAGCTGCACGTGGTGTTCTAGGGCACCTTTGGATGCTCAGGTGCTCCTGAGGGGTGTGCCAGGGA
Celera SNP ID:            hCV37039
SNP Position Genomic:     12531
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55209):
CAGACAGACACGGGAGGAGGCGGGCAGCGGGCCAGCCCCATACCTGCAGTTCCAATCTGTGGTCCTGACAGCTGCAGCCACTTTGGGGAGGGGGAGGGAA
R
GGGGCTCATCGAGAGCGGAAAAATCCCAGCCGACACATCAGCCGGTTGCGGCCTGTGTCCGGTGCAGTCTGGGCTGGGGGCCTGTCCTTGGGGCTGGGCG
Celera SNP ID:            hCV29284233
SNP Position Genomic:     25862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55210):
CCTCACTGCCGCCGCCTCCTCAGGTCTACAGGGGCCACAGTGACCTTGTCCGGTGCCTCAGTGTCTCTCCTGGGGGCCAGTGGCTGGTTTCAGGTGGGTC
Y
GAGCTGGGGGCAGCCTTGAGCTGGGGGGCAGGTGGGATGGCCAGGTGTTGAGAGCTGTCTCTGCCGCATCCAGGCTCTGACGACGGCTCCCTGCGGCTCT
Celera SNP ID:            hCV25644025
SNP Position Genomic:     33464
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,2)   caucasian(C,25|T,1)   total(C,43|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:55211):
AATTTCTAGGTCAAAGGATAAATGCTTTTTTTTGTTTGAGACAGGGTCTCACTCTGTCACTCAGGCTGGAGGGCAGTGGTGCGATGTTGGCTCACCAAAA
Y
CTCAACTTCCTGGGCTCAAGGGATCCTCCTACCTCAGCCTCCCTGGTAGCTGGGACTACAGGGTCCCCGCCACCATGCCTGGCTAGTTTTGTTTTGTTTT
Celera SNP ID:            hCV81055
SNP Position Genomic:     13080
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55212):
GTTGTCACCAACCCAGTGTTTCCTTGCAGCCCCCCCTCCTCTGCACCTCTCCTCTCAGCCACAGCACCGGCAGCGATTCTGGCGTCTCCGACAGCGAGGA
R
AGTGTGTTCTCAGGCCTGGAAGATTCCGGCAGTGACAGCAGTGAGGATGATGACGAAGGCGACGAGGAGGGAGAGGACGGAGCCCTTGATGACGAGGGCC
Celera SNP ID:            hCV29284234
SNP Position Genomic:     8166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55213):
AGAAAAAAGCACTAGTAAGAGAAGGCCTAAGACCTAGTATTAAAGTAAGAGAAGGCCTAAGACCTGGTATGAAAGTGAGAGAAGGCCAAAGACCTGGTAT
K
AAACTGAGGGAAGGCCGAAGACCTGGTATTAAAGTGAGAGAAGGCCAAAGACCTGGTATGAAAGTGAGGGAAGGCCGAAGACCTGGTATTAAACTGAGGG
Celera SNP ID:            hCV28036997
SNP Position Genomic:     15743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55214):
GAGGCCTCAGAGGAGGAGCGCCAAGTGGGCCTGCGGCTGCGCATCTGCCACGGGAAGGTACGTGGGGCGCCTTGGGGGTGAGGCTGCAGCGGGAGGGGCC
Y
GGCTCAGCCACTCAGCCAGCCTTGCTCTCCTGCAGCCAGTGACGCAGGTGACCTGGCACGGGCGTGGGGACTACCTGGCCGTGGTGCTGGCCACCCAAGG
Celera SNP ID:            hCV25644026
SNP Position Genomic:     33971
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,3)   caucasian(C,17|T,13)   total(C,42|T,16)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,18)   caucasian(C,8|T,6)   total(C,26|T,6)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55215):
AGTGGAGGCCCTGGGGGCTGGGGAGCCAGGGGTGGCACTGTGCTTAGGGGCCGTGTCTGGGCCTGGCTCACAGGGAGGACTCGGTGCTGCTGCTGAACCC
R
GCTCTGGGGGACCGGCTGGTGGCGGGCAGCACAGATCAGCTGTTGAGCGCCTTCGTCCCGCCTGAGGAGCCCCCCTTGCAGCCGGCCCGCTGGCTGGAGG
Celera SNP ID:            hCV25644027
SNP Position Genomic:     33774
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,1)   caucasian(A,20)   total(A,35|G,1)
SNP Type:                 SILENT MUTATION


Gene Number:                 286
Celera Gene:                 hCG16821 - 207000006958213
Gene Symbol:                 TCTEL1
Protein Name:                t-complex-associated-testis-expressed 1-like 1;CW-1;tctex-1
Celera Genomic Axis:         GA_x54KRFTF0F9(11998217..12018502)
Chromosome:                  Chr6
OMIM number:                 601554
OMIM Information:            T-COMPLEX-ASSOCIATED TESTIS EXPRESSED 1-LIKE 1;TCTEL1


Genomic Sequence (SEQ ID NO:12446):
TGGCCAGGCTGGTCTCAAATTCCTGATCTCAAGGGATCTACCCACCTTGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACCGCACCCAGCCCAAT
TCTAATTTAATAAATCTTTAATATCTAATGTGCACTTTCCTCTCATAGTCTCTTTCTTACCAAGCAATTTAGAGATTAAGGAAGCTTAATTAAAAGAAAT
TTAAATTAGACCCTAGCTAACTTTTTTATAATTCCAAAATGATATTTATGTTCCACCTCCAAACGAGAAATTACGGATGATCAAAACAATAAAGTCGATT
CAGAGAGAGCAAAATAGTAATAAACTGTAAGTATAAGAATTTGCAAACCAAAGAAGAAAGCAAATGACACTCTACCCTTTAAAAAAAAAAATCACACCAT
ATAGCTTTTGGATAGTGTTTTTCTGTTTTGTTTTGGTTTTTAATTAACTCTGAAGTCACTTCCACCATATCACTTAAATCATTATTATCTCAAATGTTAA
ATGTATGTTATTCAATAAAATTACAAGATATCTTTTATCTAATTTATTATGTTTTGTTTCCTACCTTTTCAATGTCATAAATTTAAGAAAAGTTACAATA
ACTATAATCTCTACCCACCCCACTCCCCCACTCCTAAAACGACCTGCTGCAACGGCCAGCCATGCCTTCTCATCCTACCTTCGCATCTGCTTCAAGAGAA
GAGACCAGAGCCGGCTCTGCAGAGAAGGAAGTCAATTCTTCTTGTTAGAGTAACTGACGTATTTCTCTTCCCTTCCTGTCGGGCACAGGCTGACGCAGTG
CACCCTGTGTGGCCAGCCTTACATGCCTCGGTGGCTACTCCCACATCACTAGGGACCCAGGGAGCAAAGCCACCCCAAAACCACATCAAGGAGCTCTTCT
ATGCCAACATTTTACATTTTTAGCTGGAGGAAAGACCAGGCTGATGCTGGTGAAATGTTTCACCCTTCCTAAGGAAACTCCCTACAGAGACTACAGCCTT
CAAATATTCAAATGTTCTCACATTTGTGAAGGGTTTCACATTGACTTCAGTGTAAATGACTAACCACATCTCAAAGAACAGCTATTAACTCAAGAATAAT
TTACAAGAAAGGGGGACAGCCAGGCCAAGAGCGATGAAGATTGTAATGAAATCACCAAGGGGAACCTTCAAAATGCTGTGCGTGTACTAGGTAGTATTAC
TCAGCACCGTGAAGTGTCCCTGCCCTGCTAACTCAGGCATGGCCAAGGACTTGCTCTGGAGAGCAATAAGACAATGAAGTGTGTGCAAAGGTGCCACGTG
CCACGTAGGCTTGGCACCTACCGAGCCAGTACTGGGGCCACCATTCATTCTCTTTCCCTTCTCTTTCCCTTGATGACTCCAGACACAGGCTGCTCCAGCA
ACCTCGTCTCAGCATGGAGAAGACATGAAGCAGAGCCATGGAAGATCCTTGATGGTCATGGAGTGTGAGTGGCAAATAAATGTTTGCTGTCATCAACCAC
TGAGAGTGTAGGGCCATTTGTTTCTGCAGCTAACCTAGCCTATTCTGCTGATGTAGTGTGTAGTGTTTTCACAAACACAGAACTGAGCACCAAACTATTT
AATAACTACTATAGCATGAATATTTACCCATTGGAACAAATGCCAGCGGAGGCCCTGCTATACCACGAGTTATCCTTTAGTTATTGGATCTTGGGGATGA
GGTCCCAGGGAAGGGGCTGCAGTCACCAGGATTGAGAGGAAGAGGGACCCAAGAAGCTCAGAGCAGCCACTGTTTCATGGGGTACAGAGGTATTTCAGCA
CAACTGTGCCTCCGCTTCCCAGCTCAATAGCAGATCTAAATATAGGCACTTCTTAGCTAATCTCTTTAGCTTTTCTCAGCACAGGACTCTCACTTTAGAT
ATGTGTCAGCCAGAGTTTCTTTTCCTTTACAACATTAAATTCCTCAGCCATGAGTGTTTCAACAGCACCCTCGTCCTCATCGTCTTCTTCTGTTACTATT
ATTTTGACTCAGCATGATCTCATAGTAACACACTTCTTGGCACAGGGGAAGAAAGGAAAAAATGGAAAATCCACAGGATGGCATTTGGACTATGAAGGGC
TGCAGATTATAGCAGAACAACACTGCTGGATATTATTATTATTATTATTTTTTTTTTTTTTTTTTTGAGACCGAGTCTCGCTCTTTCACCCAGTCGGGAC
TGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCTATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACC
ACCGCACCCAGCTAATTTTTTGTATTTTTAGTAGATACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCG
GCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCTGGCCTATTATTTTATTTTTTGAGACGGAGTTTCGCTCTTGTTACCCGGGCTGGAGTG
CAATGGCGCTATCTCAGCTCACCGCAATCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAAGCATGCACCAC
CATGCCTGGCTAATTTTGTATTTTTAGTAGAGATAGGGTTTCTCCATGTTGGTCAGGCTAGTCTCGAACTCCCGACCTCTGGTGATCTGCCCACCTCAGC
CTCCCAAAGTACTGGGATTACAGGTGTGAGCCACTGCGCCCAGCCACTGCTGGATATTATTGATGTTATTTATTGATGTGACAGTTCATTGATTGCTATG
ATTATTAGGCCCACACTTGCTAAATAAAGGTATTGGCAGCTCCAGTCCCACAGTCTGTATTCAAGAAATTTGACTCCAGAAAAGAAAGGTGATTGCACGC
AAACCTGCCAACCTATCACTAACCTCCAAATTGAAAAACAAACCTAAGATTCACTCCACTGACTTACTGCATAGAAACTAAACATTATTCTAAAATATGG
CAGAATGCCAAAGATTCATGAGCAGTTACGAGTAAAGGTGTCTGAGCTCCAATGCTTCTGATGGACATCCATTCGTGGCAGATGGAAGGTGCTGGAAATG
GCATCTGGTGAACTGCCAAATGTCTTAACGATTTTAAATTCCTTAGCCCTACAGACTACATCAGTTGGGCAGAATATAATACCACATCACTGCATTTTTC
CAAGCACTACAACATCACATAAGCCTAGAGAATTCAAACCCTCCTATTTACAGATATATCCGTTTAAAAGAAAAAATTCCATAAAGGCCATGTTTTAGTC
AACTTTGTAGCCTCAACCCCCAGCTCAGAGCCTGACACAAAGGGAGTGCTCCATATATGTGTATTGAACAAGTGAACAGATAGTTGTGAAGATAAACAGA
CCAGCTCATCCGTTTACTGGCAGCCTCAAAATGTCATACATCGCGATCATTTAACAAATGTTCTTTAATAGTTAAAATTGGAGAGTGGTACCCAATGTAT
AAAAGCTAAAATCATGTAAGCATTTTTAAAATGCACATTTGCATGTTTTCTGTTGATTTATGTGCATGCTGGTGATCCGCAGTTATAACAAGATCCATGC
ATTAATTATGCACCATCCTAGCAGACATTCAGGAAATTGATTTAAATTAGGAAGTTCCTAAAAGGTTGTGGGGAAAATTGAAAAGGCTGTCCCAAGTGTC
ATGTTCTTCCATTGCAGGTGTTTGCTCAGAACCGGTTTACTCTTGCTTTGCACATAATTCTGTGACACTTAGCTACTGAACTCCAGGTCCACAACAAAGT
AGCAGAAGAAAAAAGATTTCAGAGGCTCCTGATTGGCTCAGGATCGTGGTGGGGCCAAGAGCTTGGAACCAGGTAGGCAGAGAACATCCAAAACGAGATC
TCAGGTGATACTGAGAAGGGCAGGCAGGCAAAGCAATGTCAGCATCAGAATCACATGTGGACTGAGGCGCACGACTGAAACACCAGGACAGGGGAGTTGA
AGCCAGGTAATAAGAAAGGAATTCAAAAGGTAGATAAAGTTCAGAATCCAAGGAGAGGAAGACCAGGTGTGGTAAAGCAACCAGCCTGCCCAGCAAGTCT
CCTCGCTCAGGCCGAACACCCAGGGCCAAGCAGCCTTGTGTCAGTCAGGGCTCTGCCCTCCTCTCGCCAGCCCTGTTTCCCTCAAGGAGGCAGGTAGTTG
CATCTTCCTCCACTCCCCAGTTCTCTCCATTTGGGTCTGAGGCAAAGCTAACACCCATGAGGGAAATGATTCATGCAATAAATTTTAGGCCGGGCATGGT
GGCTCACAGCTATAATCCCAGCACTTTGGGAGGCTGAGGCTGGAGGATCCCTTAAGCCCGGGAGTTTGAGACCTGCCTGGGCAACACAGTGAGATCCCAT
CTCTACAAAAGACATATTAAAAAAATAGGTGGGTGTGGTGGCTAGTGCCTGGAATCCCAGCTGCTCAGGAGGCTAAGGCAGGAGAATACCTTGAGCCCAG
GAGTTCAAGCTCTTAGTGGTCTTTGGATGACTAAACTTCAACACATCTTAGCTCAAAATCTCCGATCACACCACTGCATTCCAGCCCGGGCAACAGAATG
ACACCCTGTCTCTAAATAAATAAATAAATAAATGTTAATTGTGTAGCTATTATGTGCCAGGCACAATGTGGAAGGAAGGGGATACATTAGTGAATAAAAC
AGATCCTTCCTGCATGGTACTTAGTTTCTAAATGGAGACACACCATCAACAAGCAACCATAAATACGTTCTTGCAAACTGAGAGAAGTGCTATGAGGAAA
ATGTACAGGATGCAGGGGTGGAGGATGAGGAGGTCGGCTACCTTAGATGCCGTGGTCACAGAATGGCTCTCTGTAGGAGATTTTGAGCTAAGATATGTTA
AAAGTTTAGTCATCCAAAGATCACTAAGATTAGTCTATAGTCTGACAACTTAGTAACTATTGACTTATGGCAGGGCAGAATGGGTGAGGGGAGGGAGGAG
TCGTTGGGTTAGGTTCCTCTTGAAGGGCTCTAATAAGACCCTGATAGACCGACCAGGTTACAGTCCGATGGTCATAATCCAGATGAGAGATATCAATCTT
TAACTGGGGTCCCGAGCATATGGGGTAGAAATAACAAGGGTTGTTGATGGATTAGATGTGGGATTTGAAGTTTAGGTCTACCAAATCCCTGGGACCCTTG
CAGTCAGCTCTTTCTTGGGGAATGGGAAGTGGGTTCCAGCAACCTGAATTCAAGTGCATGACGAAACCAGAAAAAGCAAACGCCAAAATCAAAACTCGGA
GCCTCAGAATACCTGCCAATAGATGCATATGCCCCAGCTTTCCGTGGAGGGCAGTTTACCAGAGCCCAGTGCAATTCCTAATTTCCATAAAGAACCCACA
TACAAATAAAGTCTGTCTAGTTCACTATGGTTAAGGTAGTCAGGAAGTGTGCCACATTTTACAAAATTTTCCACCCAAAATGTTTTTTTTTAATGGTGCT
TAAAGGAAAAATTCTCATTTACCTGGAAAACTTAACTCCCCAAAGGGAAGTTTCGTTCAGATAGCTAAAGCATGCCAATCCCAGTCCCCAAGGGAACTGC
AACAACGTCTCACCGGGCGCACTGCCTTCAGCAGTCACTTTCGAGTTTGTTGCCAGGTGTCCGAGCGGGTTTGAACGTCCGCGTCAATCCACACAGTACA
AACCGGAGGAGGGGCCGGGACCACGCTTCCCCTCCAGGACTGCCTTTTGTACGTGTGTTTTGTTTCTGTTGCTAAGGTTTAGGGAGCTGCCCGGCTACCC
TCACGGATTCCCATGGAAACTACCACCTCCCAGAGGACAGGAGGAGAGGCGAATTCAGGGTCCACCCACGGGCCCCGCCCAGGGATGGGGTCACTGAGGG
TCCGGGCAGCGAAGGGCGGGGCCCGGGAGCTGGGCATGGGCGAGGCAGGCGCGAGAGGAGAGGGGCGTGGCAGGTCCGGGGCGGGGCCTGAGTGCGCCTG
CGCAGTCCGCGCCACTCAGGGAGCCGGAGGSGACGCGCCGGAGGAAAGATGGAAGACTACCAGGCTGCGGAGGAGGTAACCGCCGGGTCGGCGACGGAAG
GGTGGAGGCCTAGAGCCCTGGCCGCGGAAGGACACGCGGTCCTGCCCGGAAAGGCCTGGCTGCCCACCTCCTTCAGCTAGGCCAGTCTCGGCAGCCCACG
GCCTGAGCTTCCCGGTCGCCGGCGCTCCGCCCGGCCCCATTCTGCCCGGACATTGCCGCCGTTTCCCCGGCGCGGGGGGCGGGAAGGGGATTGAGCTTCT
TCCCGCGCGGGGAGGCACCGGGCGTGACTCGGAGAGAGCGCCCCGGTGAGCGGTGCCGAGAAACCTTCCCGCAGGGCCTCGCCTCCGGCCCGCAGCCAAG
CTCGCCGAGAGGATGACATCACCGCCCCTTGCTCTGCGGGGCTGACCCCAGCCCCAGCCCCAGCCTGGAGCGGGGCGCGGCGGCCGGGCTGGGAGCGCCG
AGGCTTGGACGTCTCCCCGCGGAGGTGCGGGTGACGCTCCCGCCGCCAGCCCCTCCGCCCCGGGCTGGCGTCCCGGCCATCCCGCGCCTTTGTCTCGGGC
CTCACCTGGTTCTGCAACGCTGGGAATGAGTAGCACATTTCATTTCCGTTTAATATGTCTGTAAGAAAGCTCATTGTTGTGGGGAAAAAATCATCTTTTA
TGCCTCCTTGAGGAAGTAGGATAAAGCCCACGATGTCGCCAAGCAGAAGACACCCATCGGCACCGTGTGCGTTAAATGGCTTTCCTTCAAGCTCACGGTC
ATTCGGGGAATAGAGCTGATGGGCGCAGCTGAGATACAACACTCATTTTCTTCTTACTGAATAATCCTTGTTGAAATTCAGATAGAGCCCTATGGATTTA
TTATGCAGCCTGTCAAAAATATAAACTATAGATACATTTGGTAAGGTTGGATATCTTACCATTTATGAAATTTAGTGGCTGGGCGCAGTGGCTCACGCCT
GTAATCCCAGCACTTTGGGAGGCCTAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGAGCAGCCTGACCAACATGGAGAAACCCCGTCTCTTTTAAAA
ATACAAAATTAGCCGGGCGTGGTGGCGCATGCCTGTAATCCCAGCTATTCGGGAGGCCGAGGCAGGAGAATCCCTTGAACCTGGGAGGCAGAGGTTGCCG
TGAGCCAAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAAAAACCAAAAAAAAAGAAAAAAATTTCGTTTAAGGAGGAAT
GTTTTCAGGGAAAATAAAACTAAAACTTAAGGACTGATTCTAGAGTTTCAGTTTTGATCTGATTTCCTAACTAGCACACACTTCCTGTGACAGTGGCATA
ATCAGTGTTTGAATGCTGATGGCAACCAAGTGAATAATGACGAGAAGAGCTGGTTCAGGAGCAGTTGGCAAAGAAAAAAGCCTTTCCCCTTAAACTGTTA
CTAATATAATATTGGAAAATGTCTTGTATTACAGTAATATCGAGTAAAACTTCTAAAAAAGAAATCGCTTTGTAAAGGAAAGCGCTTAATACTGCAGTCC
GATTCTGACTCCCACAAATAAGGTGGCTAAGTGGCTTCATTATTCGAGATCTCAATCGCATATGTGTAAAATGAAGGGGCTGGACAGAGTGATGAGTGTT
CTACCTGGGATGGAGGCCCTGGGAGGTGGAGACCATGGCTGTCTTGTAGTAGGCATGTCTTAGGTATTTACTGAATGGCCCGTTCTGGTCCTCCCACCAG
CCTCTTAGCAGCCTTTTCTGCATCTCTTCTAACTTCGTGTAGATGCCTGGGCCTTTGTAACTATTCTCTCAACTCACCATTCATCTTTCTTGGAGACGTT
AAAACTATCCACTGGATTCAATACAACTCTGCTTTCCACTAAAAATTCTTTAAAATGTCCCTCAACCTTTTTCGTACTGTAACCATATGGGAGGTGATAC
AGTGCCTTTCCTTTGTGATTAAGGTCACKGTAGTCACTTGGAAGGATCCTTTAAGCTTCCAGAAATGACTTAATCTCTAAGATATTGCAAATTGTTCTTC
ACTCAGTGAGTTGGTTTTGTTTCCAAGTCCGACTTCTGAGTACAGCAAGTGAGGTGGCTTCGGGCAGTCAGCTCCTGAMCCCCCCTAAAAAGAAAGGGCA
GGGCCTGCAGTGGACAGCAGCCAGACAGGGAGGAAGACTCACTGCCAAGTCAGGGTTCTCTGCCTTGATTCCCTCAGGATGCACGTTGACTGAGGGCCCC
AGGGGTTGCCCTCTCGAAGGCGTGTCCAGAGCTACGTACCTTTCCTGGGACTCAGCAGTAACTTTAAACGCTTGTGCTCATGTGAAGAGCACATTGGCAG
GCAAGTGCCTGACTAATGTTATTTTCAGGATGACCTTTTACCCATTCAGATCTACCATGTGTAAAAGGMAAACTATACTCCTGGCACTAGATTCCTGCAG
GCAGCCCACCTCCTGAGTCATCCAGACACTGACAGAGAACAGCCATGCTGGCAGCTGGTGGTTAGTCCTGGAGTCGGAGGGCAGCACTGGGAAAGAAAAA
TAATTACCTGGAGATAATGTAATCATCGTACATTTTACAAGTAATGGTGCTTTAAAAAAATCTCCTCAAGGTCAAACTGATCCTCCTAATCAGTTTACAT
CATGGAAGAGAGAATTACATCTTAAATGGATTACTTCAGCAGCTTCAGTTAATTTATACAAAAATCAACCAACTCATTAAGCCTCTCTATTGGTTAAYGA
TTCTAGCAGCCAGTTGAAATGGAAGAAGAGAATGAATTCTAGTTTAAAGTGAAGTCTTAGATTGTGGCATGATTAAAACAAAACAGGGCCAGGTGTGGTG
GCTTACGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGCGGGAGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGATGAAACCCCATC
TCTACTAAAAATACGAAAATTAGCCGGGTGTGGTGGAGGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGC
AGAGATTGCAGTGAGCTGAGATTGCGCCACTGCATTCCAGCCTGGGCTACAGAGCGACACTCCGTCTCAAAAATAAATAAATAAAAATAAAACAATACCT
TTAAATTATGTGCATGTATTCTAGTCTTCTGGTTTCTGAAGACTGTAATGCCATCCTTGGTAAAGCTGAACAGTCTAGTTAGATTATTTCTAAGGTCTTC
ATTTCTACATTATGTTCATTACCTACATTTGCATTTATCAATGTAGTGGAAATATCTTTTAAATAAATCAAACTTAACTGAATGTTCTTCCTTACAGACT
GCTTTTGTTGTTGATGAAGTGAGCAACATTGTAAAAGAGGTAAGAGGAGAAATGCTCACTTCTTAAATGTTTAATGGCTTATATTAGAGAAAATAATGTG
TTTTAAATACTATCTTGGAATTGTTTCGACTGAGTCTGTGTGTTTTGGTGTTTCAAATAACAGTTTTTACTTCAGTAAATAGCTAGATAAGAGTTGCTTC
TATATTATGTAAATTACATATTTTAAATCAGATAAGGAGTTTTATGTACATAGCATTATTACTGCATATCACCAAGATTTGATTCTATAATCTTTTAAGC
ATAAAAGAATCCTGGTATACAAATAAATGTCTCCAGGGTTGAATGAAGAAAGAGTGAGTATAAGAAAATTGAACAATCAATTTCCAGTTATTCTGGACCT
AGTGATCCAGTTTGGGGCCTATTTGCTTACTTTTCTTACATTCCTAAATTTCAYACTTTATTGTGTTGTTGATCATGAAGAGGAAGAGAGACAGAAGGGA
TGTTTGTTACTCATTCAGAAAGTACACACTGAGGGAGCGTGCAGGGCATAGACCCTTCTGGARTTTACAGCTGAGGGGCAGGCAGGGCAGACACATCAAA
CAGTCCTGCTGGAAGGTGTCAGCCTGCATTTGCTGTGTGGTAAGTGCCACTAGTGGTGGTGCTGTGAGAGCACTGAACTGGGAATGTGACCCACCCAGGG
AGTTCAGGGACCATTTCGAGCTGAAATCTGCAGAATGAGAAGTAGGGGTAATGCAGTAAAAAGAGGGGACAAGGCCCCCTGAGACTGGGAAGTGGGGGCA
GTGCATGGTGTGTGAGGGAGTGAAAGGAGGTGGGTGTGGCTGGAGCGGTGCTGAGAGCTAGGGGCTCATTCCTACCTAGGGTAGGAATGAAGCCAGAAAG
AGTTTTCCTCATCAGCTTCCCTGCCTTCCCTGGGTAAAATGGGGCACAGATACTAAAGCCATTGGCTAAAAGAAAACTATTAGATGATCTGAATTTAATG
ATACTGTTTGGGGTTTCAGATGTAATTTAGAATTTAATGTAAATTATTGACTAGTGTTTGATAAAAAACCGCAACCTATGTTTGTGATCAGTATCCAAAG
GCAAAATGATTTTGTTTGACCATTTACATTGTTCAGCATCAGGAGTGACTTTCTGGTTGCTTTGCAGGATCTGTACGTTTGGTTTTCATGGTTTTTCTAA
ATACACAGTTTCACGTGGAACACAGCAGGGGGCAGGAAGGTGGGTGGATTACACCAGAACTGGGAACAGTGGAGGGGGCTTGTTGGGAAGTCTAGTTCTG
CCGCAGTTGTTTTCTGCCTTATCTTTGACTTGGTTACCAGCTTTCAATTAGCAAGTGCAATTGAAAGTACACATTTCCATGCTGGGCGCGATGGCTCACA
CCTGTCATCCCAGCACATTGGGAGGCCGAGGTGGGCGGATCATGAGGTCAAGAGATCGAGACCATCCTGTCCAACATGGTGAAACCCCGTCTCTACTAAA
AATACAAAAATAAGCCAGGCTTGGTGGCGCATGCCTGTAGTCCCAGCTCCTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGATGGAGGGTGC
AGTAAGCCAAGATCACGCCACTGCAATCCAGTCTGGGCGACAGAGCAAGACTCTGTCTTAAAAAAACAAAACAAAACAAACACATTTCCAATCCACATGG
AAACATGAGGTGACATTGCAGTGTTACTTGAACTTGTGTCACTGGCCTCAACAGCTTTTTTGCCGCCGCAATAGGTAATTCTGTACTCAAGTGACCCTAA
ATATTGGGTAGTAGTCAATTTGCGCAGGTCCAAAATTGGTGGAGGGTTCCCTCCTCCTTGAAAAACTGAATTTCAAAGTATGTGCGGAGGGAGAGCTGGC
GGAGGGAGAGGTTTACCTTCAACAAAGCCTCCCCCACCCTTTGACGGGAGAGGTTTAGCTTGAACAAAGCCCCCCCTACCCTTTGACAATGCCCAGGTCT
AGTAATACTGCTGTTCTCTTAAACCGGGACTTCTGGCCCCCCAGCCCTCTTGTAGCCTCTGAGCTGGGAGGGAGCACAGTGGCCGAGGACAAGAAGTAAG
CCAGCCCTATGTGTAACGTGACTACTCAAGAGTCTCAGGGAGATGATCAGCAGGTCAGTGGGTAGAAATCAGAGTGACCTAGGGAGGTTTTAGGTCCTCA
AAAGCAAGGTCGCCAGATCTAAGCCCCAGGCATCAGATCCCAGTCCATCACCACCATGCACAGCTCAGATCCCTGGACTGCTGGTTTGCTCTGCCTGTCT
GAGGACAGACCTTGGCCCTCACTGAATGTTGTTATTTTCACTTTAGGTCATAACTGTCATAGAAACTCAGGTTCCTGGTTTCCAGCACAGCAAGTTAGGG
GTAGAGAATAAAGTTGCTGAGATGCAAGCACACTGGCATCCATGTGAAAGGGGAGCTGACARTGAAAAACTCAGAAAATCATACAATGGCAATATCATAA
TGATAAGCTTAGCAAGAGCAGCGACAATGAGCTTGCATTGTCAGATAACCCCCAAAGAATACAGCATAGATAAAGAAGTAAACGTATAATAAAGAAAAAA
AGTTGGGCTGGGTGCTGTGGCTTATGCCTGTAATCCCAGCACTTTAGGAGGCTGAGGCAGGAGGATCACTTGAGCCCAGGCATTTGAGAGCAGCCTGGGC
AACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTGGACAAGCTGAGGTGGGAGGATTGCTTGA
GCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCATCACTGCTCTCCAGCCTGGGCAACAKG
ACACCCTGCCTCAGAAAAGTAAAAATAAAAAAATCTCATCATAAACCTAAAATAAGTTTTGGAATATAAAGGGCTTTTAGTTATCTGAAAAATGCACTTA
ATGTGGTAACATGTTCTCAGACAATGCTGGATAAAAGTATTTTTTAATATATGATTATTTGGATAGCTTTGTATATTGTCAGTTGTACAAATACAATTCA
TCTAATATATAGTATTAGTGTATGTTAGGTAGTAGTAGATAAAAGTAATATACTTTTAAGAAATGAATAGGCAAAATACTTTCTAGCCTCAACAGGAAAA
AAAATGTATTAATAGTAGTGAACATGAAATGTGATTATTAGGTCAAAATGTGTAAATAATTTGACAGACTATGAATTTTTGAAGCAAATTTCAAACTTAT
TTAAATGAAATATAATGCTATTAAAAGTATATTTGCAAAGGCACCCTCATGATTAAAAATAAACTTTTCATAAATCACTTCTTGGGGTGCCGTCAGTTCC
TGATTGAAAGGTGGTGTGGGTGCATTTGGKTAACCGGGACGCGCTTTGTGCTTTGTTTTCTAGGCTATAGAAAGCGCAATTGGTGGTAACGCTTATCARC
ACAGCAAAGTGAACCAGTGGACCACAAATGTAGTAGAACAAACTTTAAGCCAACTCACCAAGCTGGGAAAACCATTTAAATACATCGGTAATGGAGTCTT
GTTTCTTTTATATTTGCGGGATKGTTTTTTAACACTGATCAGAGGGGCATCCAGTACCAGAAACAACAGCTAACGTGGCTCAACTCAAGGAAGGCTCCTG
GTGGGAGTCGGTCGTGTGTGTAGTATACGTKAGCGTACGCTTGACCATTTGGCTGCTGGTACAATTGCAGATCGTATGTGAAGCGGGATCTTACAGGAGG
TCCCATCAGATGCTTTTAGAACAAGTGAAGCATAGAGGAAGTGTGGACAGCCCCCAGCTGACAGTGGCTCAACTTAGAATTTTTCAACTTTGATGGATTT
ACCAGGGTATTAAGTGCATTTGCAACTTACATTTTCATATATTGTTGATTTATGATGGGTTTATGGGATGTTGTAAGTCAAGGAGCACCTATAATTTGTC
AATATAGTGAGACAAGGCAATCTGTCCCTATAATTTTTATCGAGAACATCAACCACGTGGAGCTACATACATTGTACGTTTGCTAAAAGTGGACAGAATG
ACATTTGTGTTACCCAGTAGACTTCTCTAACAAAAATTTGTTTTAACTTAAGTGACCTGTGTAATTATGCAGAAGAATGGAGCTGGATTACACACAGCAA
GTTCCTGCTTCTGGGACAGCTCTACTGACGGTATGATTTTCATTCATGTTTGTGAAGTTTTGTTGTGTGAAATATATGACTGGAAGTTTCCTATCTTTGA
ATGCAATGCATGTTTATCACCTTTTAAAACATTTAATAATAGACTTGCCAAGGTTCTTTGTGTAGCATAGAGATGGGTACTTGAATGTTGGCCTTATTGT
GAGTAAAACGTCGTCCCCCAGCTTTCCCTGCCGTAAATGCTGCTCTCTTCCCTCCCSCAGGGAGCTGCACTGTSCGATGGGAGAATAAGACCATGTACTG
CATCGTCAGTGCCTTCGGACTGTCTATTTGACCTGCAGTCCAGCCTATGGCCTTTCTCCTTTTGTCTCTAGTTCATCCTCTAACCACCAGCCATGAATTC
AGTGAACTCTTTTCTCATTCTCTTTGTTTTGTGGCACTTTCACRATGTAGAGKAAAAAACCAAATGACCGCACTGTGATGTGAATGGCACCGAAGTCAGA
TGAGTATCCCTGTAGGTCACCTGCAGCCTGCGTTGCCACTTGTCTTAACTCTGAATATTTCATTTCAAASGTGCTAAAATCTGAAATCTGCTAGTGTGAA
ACTTGCTCTACTCTCTGAAATGATTCAAATACACTAATTTTCCATACTTTATACTTTTGTTAGAATAAATTATTCAAATCTAAAGTCTGTTGTGTTCTTC
ATAGTCTGCATAGTATCATAAACGATTTCTTCATAGTGAGTGGCTACAGAATCTATACAACCAGACCAGGCGCAGTGGCTCACACCTGTAATCCCACCAC
TTTGGGAGGCTGAGGCAGGCGGATCATGAGGTCAGGAGATCAAGACCATCCTGTCTAACACGGTGAAACCCCGTCTCTACTAAAAATACCAAAAATTAGC
CAGGTGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAGTGGCATGAACCCAGGAGGCAGAGGTTGTAGTGAGCCAAGATCG
TGAGCCAAGTTCCCGCCACTGCACTCCAGCCTGGGTGACAAGAGCAAGAGTCCGCCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAATATATATATATATA
TATATACAACCAAAAAAAAAAAAGTTCTGCTGTGGTCCTCTCCATGATGTACTCATTTTACCCGTGGGACCAGGATCCTGACGGCTCTGCTGGGTTCTGG
TTAGATTCCTACCCCTCGGCATCACACCTCCCATTCTTAAGCCCTCCTCTTCTAGAGGTGAAGGGGTGGGAGGTGGGCAAACCAATTTCTATTCTCTTAG
CCAGAGAGCTCTAACTCACACTTGGCCCAAAGCTGTAACACCTTAACTGTTAATCCTGTGTTCTCTGTAGGGCTCACAAATTGTCTTAGTACTTCAGAGC
TTACAAAATGGTTTTCACAATCATTCATTCTGTGTCTTCAACAATTTGCAGTCATTTAAAAATCTCAGAAAATGTGTTTGGAGGTTATCTGATTGGTTTA
AAGTCACACATCCAAGTTGGGAGCTGGGCCCAAACCCACGCCTTGTCTCCATCTTGAGTGCTCTTCCCCAGGCCACATTAGACATGGCAATAAAGATACC
TCCGTGCCTGCCTGCTGAAATGGAAAAGCCCTGCCGTTGTCTCCAAAGCCGCTTTATTAAAGCATTTATGTCTGCAAGGCCAAATTAACTCCACACACAA
AGAGCAAACAAATCAAGACACATAGAAGTGAATATTAAAAATTTATTAACATTTCCCAGAAAGGTAGTGTCAGAATTAAGCCATTCGCAAAAGACGAATT
TGCCATAAACAAACATTCACTTTTGCCTGATGACAGCAACACTGTGATGGGGTGGCACTGTGCCCCACGGACAGGTCCACAACTGAACACATGGCTCTAT
CTCTCCTTTTGGGCTTAAAGTTTAGTGTTATTTTATTTTACAAATATTTACAGTCATTTTGTAAAAAGGCAGTTTTTAGTAGCAGAAAATTCTTCTGTTT
TATAGTATGGTATCACAGTTACTAGCGTATCTCCAATGTCAAACCAAGATAAACAGCATCACAAGATGTCACAGACTAATACAACTTCCCTTTGGCCAGG
GGAAAAGATCTGTATCTTTTTTTTTTTTTCTTCAAAAGTCTAACCTCTAAGGCAACCGGTTTCTAAAACCCTCAAAATACACAAATACACTTTCATGTTT
TAAGTCTCATCTTCACTAAATGTTCAGACACATCCGTTTTAATTATCCCTTTTATGAGGGTCTGTGTTTTTCCTGTGATAAAGGATTCAGGAAATAATTT
ACCACATTATAATCTATTTAACATAACTACCCTCAGTAAATAGTTCATAAAATACTTGAGGCTGGTGACATTTGTCTTGTAACCTGCTCATTTAGTGGGT
TGGGTTTACAAAATGTATCTAAGCTTTTATTGCAATCTGCAATTATGTACATTAACAACCTTACAAACCTTGAACATAGTATATATATCCCCTTCTCTAG
CCTTTCAAATGGGGCTTAAGAGAGAGAAAATGGCACCACTTCACTGCTATAATGATTTAATAATAAATCAAGCAGACTTATCATCCACATGGATAACGAA
GCTCTCCCTAGGGAAACTGAAATACCTCTGGTCATCTTCCAGGTTCTCCTAGACTGGACCAGTATTTAAAAAATCCCAAAGATGATGTTACTCAAGCCAT
TACCATGAAGGAACTAAAGTCAGCCCTTTAAGTTCGCAAAACTTTAACATAACTACCCTCAGTAAATAATTTATTTTTTCTTCAACAATTTTCTTGCTAC
TGTCAAAAGTTTCTGGCAGACTTTAGTGTTTTAACCTGATACCTATGGTACATATTCTACATGCCAAGTGCTAGAGAGTTTAAGCAAAATTTTACATGGG
GTATGTAATATGTCGGTATTTATGATATACCAGGGAAGACAAGTTGAAAATACATGACTTAGTAAGAACGATTTTCCCCTTAAGTACTTTCTTTTTTTCT
TATTTCCCACTTAGTTACAAAAAGTAAATAAATAATCCTATATTTTTCATTTCATTGATGCATGAAGACTCAATGTATGAAGATAATAGTCATCAGTTTA
TAATTACACTATAGGACAAAGTTTTAAAAAGTTCTAGTGTGTGTATGGCTAAATGCCTCAAATATTTTACATTTACTGATAAATAACAGCATTCCAAAAT
CATGGACAATTATGATTAAAAGTTGTAAACCATATCACAGAATATGTTAATCAGCACATCTTCATCAGTTTACATAAAGTTATAGTAGTCTTATTAGAAG
TTGTAAAATTTGGTAACAGAAAATTTTTTTCAATACACAGAATAAAAAAAACATCATTGCAAATTTAAAAATCATGTAAACTTGAATTACCCTTGCAGTA
AGTTGTCTTAAACATTCATATTTACAAGGTTTTTAAAACAAATGTGAATAGAATCCATATTAAAAGTACATTATCATTAAAGTTTAAATTAAAAGGAAAG
ATACAAAGGAAAGTCATAACAAATAGTTTCTCATGAACATCTCTAAGGTCCTACCTAGCACTACTTAACGTGGATGATAACGTGAAGCTCTGCATGGTAA
TCTGAGAGTCAATGCATAGATGAAGAAAAAAAGTAGGTACTGCTTGCGTTGCGGAACTATCATCTTCTGGACCTCAATTGCCAAGACGGCATCAGTCAGG
TTGCCCACAGTTACCAGATGTTAACAGAAGTGTGACTGTAGAGGTCAAGAGGAAAGCACGGGAGACGTCCACATGAGACTCTATATGGAGTCCCTGACTG
AAAGGAACGGGGAAGCTCCAGGGCCTTCTATGATGCCACAGATTCAGCAGTGCCAAGGACTTTACAGAACAGGTCGTCCCTACCTGACCGCCATGTGGAC
ACATGGAGGACAGGGAACCCCTTCCGGAAGCACGAGTTGCCTTCTACCCAAATACGTTTTCCATGAACCATTTAAAACATTTTACTTGCTTTTCATTTTG
CTTCCAAATATGAGTTTTAAAAACTTTTGGCCAATAAATAATCTAAAATATTCTATCAATCTTTCATGTAGCTTTATTTATTTATGACACGGGTTCTCGC
TCTGACACCCAGGCTGGAGTGCAGTGGTGCAATCATGGCTCACTGCAGCCTTGACCTCCAGGGCTCAAGCAATCCTCCCACCTCAGCCTCCTGAGTAGCT
GGGACTATGGGCATGCCCCAGCATGCCCAGCCAACTTTCTAAATGTTTTATAGAGACGGGGTCTCCCTGTGTTGCCCAGGCTGGTCTCAAACTCCTGGGC
TCAAGTGATCCTCCCACCTTGGCCTCCCAAAGTGTTGAGATTACAGATGTGAGCCACTGCACCTGGCCCCTCATTTAGCTTTTACTTACATAAATAAATA
AAGCTCTATGGCATTTCATATTCAACAGAATTGCAGAAACTGCTATTTACTGGAATGGTAAGGGTTCCTCTCCTGCCCATACCTCCCACAGGCAAATCCA
TTTAATCATGTGTGTACACACAGGCCCCTGAAAAGCACCATGGCAGTAAGACCTTCCCCACATGAGTTGGTAACCTGTAAATTATCTTAGCCTTTCCTTA
TTCAACTTATCAAACCCTCCTCAGAACTCCACACTATTACTTCCCCTTTGGTGACGTGAAGGGTTGGAACCCCAGCATCTCCCATTCCCGATGAGTCATA
ACTCACACACTGCACAAAACGCAGTCCACATAACTGACCAATCACTTCAGCCACCTGGTTACCCAGGGCACTGGCCACTCAACGAGGAAGGACTGCCCTG
AAGCAGCCACAGATAAGGCTTCCCTTTGAGTTTAAAGGGTCACAAAACAGTACCATGGAAAAGGGAAGAAAGAGGGTGATGCTGTCACGCTGAGGACCTA
GTCACAGGCTGCCCGTGAACTTGGAATCAGTGAATGATTACAGGAAAAAAAAGTACATAATTCACTGTACTAAAAACGTGAAATTTCCTCATCACTGAAA
ACACGCTCATCTGAAATCTCTGTAAAAAAGGATTTGGCTGTTGAAACTTGTTATCAATGCCTCTTCTCGTAGCCACCATGACAATAAATTTGGCTAAACA
TTTAAATTTACCCTCAGTTTTGGTTTTCCTTTAAAAAAATATGTAAACAAATGAACAGGAAATCTCTGCTTGTAAGAAAAATCTGAATATAACAGGGGAA
GGTCAGCAGACGGTCACCGGGGAAAGCATCCAGGCATCTTGTCGCCTCGCTGGGCTGGCCGGGGCTCAGTCACTATCTGACTCCTCCTTGTACTTGGCCC
GGATGGCCTGGCCGTTCTGCAGCGGCATTTCCTCATAGTCACTCCTGTGAGCAAAGAGACCTTTGAGACCGTCTAACTTCTGACAGCTCTTTATTTTCCT
CTTCCACACTGACACACCATTCCAGCAGGAATTAAATCATAGCTTCGCTCTTTCAATTTTCTATCACCAACTGCTACTGCTCACCCCGTCCTCCTCTCCC
TGACCCCCAGTTCCCAGGGCCCATCAGTCCAGAAAGCACAGTTCTTCCCGTGGCCAGCACGCCCTACAGGTAGCCAGCAGAAAGGACTACTACCACATCT
AAGCCTGAATACTGTGAAAACAGAAAACCACGAGCCACTTGACACTCCAAGGTAAATGCCTTCATACCTTGAAAATAATTTTAGAAGAGTAACCCATTCA
GAAACATGCAAGGCCGTGCCGGGATGCCCAAGGTGTGCCGGCCTTCTAACGGACAGGGACTTACCCATAAATCACATCATCATCCGAGTCATTCAGCATG
GAGAAGGCAGGATTGTCTTTCAGCTGGGACTCTGAAAACCAACAAGAGCATTTGCATCTCAAGCAATTGACGTGATGAGCCTGGACAGGCAGGATGCTGT
CCCGGACAAAGGAAGGGAGTTGGAAAGAACTGGACTCAAATCGCAGAGCTGCCATGTCTGTATAAACCTGAACACATCTCGTGAGGCTGTTTTCTCATCT
ACAAGACAGGGCTGGCCTGGCCTGCCTGGCAGGGACGTCCTGAAGGCTGAGGGAGGCGGCCTGTGGGAAGGAGCAGGCAGGCTGCCATTGCCCACGCACG
AGCTGCCTCCTGTTGACACAAGGAGTGGGGAGCTGAACATAGGCCCCAGGAGAGGTGGCTCTGCCCTGCCTGCCCCCGCCCAGTCCTTGGACGTGCAGCG
AGCTGCTGCTTCTGTAAAACGGGCATGATTATATGTTTATCATAAAGTTGCTGTGAAGCTTAAGTGAGACGCCGTTTGTGAAGGTGCTGGGCAAGTGCTA
GCCCACTATAAGATGTCGGGGGGTGCGGGGGGCTGCCTATGTTCTAGAGAGTTCCCATCCTTTTCATTCCCTGTGCAAGAGGGTTGTTTTGGTTTCACTA
TTAGGTGACTTTTTGTATGTTTTGGCTTTTTTTTTTTTTAATGGTAACAACACTACTACAGATGCTCCTTGACTTACGATGGGGTTATGTCCTGATAAAC
CCATCGTCAGGTTGAAAATATCGTGAAGTCAAAAACGCATCAACTACAGCTAAGGCACCGAACATTGCAGCTTAGCCTATTCTGCCTTAAGTGTTACTAC
ATTAGCCTATAGTTGGGCAAAATCATCTAATGCAAAGCCTATTTTATTTAATTTTTTTTTAAGAGACAGGGTCTCATTCTGTCAC


SNP Information

Context             (SEQ ID NO:55216):
CATCATGGAAGAGAGAATTACATCTTAAATGGATTACTTCAGCAGCTTCAGTTAATTTATACAAAAATCAACCAACTCATTAAGCCTCTCTATTGGTTAA
Y
GATTCTAGCAGCCAGTTGAAATGGAAGAAGAGAATGAATTCTAGTTTAAAGTGAAGTCTTAGATTGTGGCATGATTAAAACAAAACAGGGCCAGGTGTGG
Celera SNP ID:            hCV8305440
SNP Position Genomic:     8798
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,12)      total(C,1|T,12) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55217):
TTTCTCCTTTTGTCTCTAGTTCATCCTCTAACCACCAGCCATGAATTCAGTGAACTCTTTTCTCATTCTCTTTGTTTTGTGGCACTTTCACAATGTAGAG
K
AAAAAACCAAATGACCGCACTGTGATGTGAATGGCACCGAAGTCAGATGAGTATCCCTGTAGGTCACCTGCAGCCTGCGTTGCCACTTGTCTTAACTCTG
Celera SNP ID:            hCV8305441
SNP Position Genomic:     14053
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55218):
CCTATGGCCTTTCTCCTTTTGTCTCTAGTTCATCCTCTAACCACCAGCCATGAATTCAGTGAACTCTTTTCTCATTCTCTTTGTTTTGTGGCACTTTCAC
R
ATGTAGAGGAAAAAACCAAATGACCGCACTGTGATGTGAATGGCACCGAAGTCAGATGAGTATCCCTGTAGGTCACCTGCAGCCTGCGTTGCCACTTGTC
Celera SNP ID:            hCV25931169
SNP Position Genomic:     14044
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|G,1)   total(A,75|G,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:55219):
CCTGATTGAAAGGTGGTGTGGGTGCATTTGGTTAACCGGGACGCGCTTTGTGCTTTGTTTTCTAGGCTATAGAAAGCGCAATTGGTGGTAACGCTTATCA
R
CACAGCAAAGTGAACCAGTGGACCACAAATGTAGTAGAACAAACTTTAAGCCAACTCACCAAGCTGGGAAAACCATTTAAATACATCGGTAATGGAGTCT
Celera SNP ID:            hCV25930636
SNP Position Genomic:     12899
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55220):
GAAACTCAGGTTCCTGGTTTCCAGCACAGCAAGTTAGGGGTAGAGAATAAAGTTGCTGAGATGCAAGCACACTGGCATCCATGTGAAAGGGGAGCTGACA
R
TGAAAAACTCAGAAAATCATACAATGGCAATATCATAATGATAAGCTTAGCAAGAGCAGCGACAATGAGCTTGCATTGTCAGATAACCCCCAAAGAATAC
Celera SNP ID:            hCV11558228
SNP Position Genomic:     11862
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55221):
AAGATATTGCAAATTGTTCTTCACTCAGTGAGTTGGTTTTGTTTCCAAGTCCGACTTCTGAGTACAGCAAGTGAGGTGGCTTCGGGCAGTCAGCTCCTGA
M
CCCCCCTAAAAAGAAAGGGCAGGGCCTGCAGTGGACAGCAGCCAGACAGGGAGGAAGACTCACTGCCAAGTCAGGGTTCTCTGCCTTGATTCCCTCAGGA
Celera SNP ID:            hCV27496727
SNP Position Genomic:     8179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55222):
AACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTGGACAAGCTGAGGTGGGAGGATTGCTTGA
G
CCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCATCACTGCTCTCCAGCCTGGGCAACATGA
Celera SNP ID:            hCV27403740
SNP Position Genomic:     12201
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55223):
ACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTGGACAAGCTGAGGTGGGAGGATTGCTTGAG
C
CCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCATCACTGCTCTCCAGCCTGGGCAACATGAC
Celera SNP ID:            hCV27403741
SNP Position Genomic:     12202
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55224):
GTGAGTATAAGAAAATTGAACAATCAATTTCCAGTTATTCTGGACCTAGTGATCCAGTTTGGGGCCTATTTGCTTACTTTTCTTACATTCCTAAATTTCA
Y
ACTTTATTGTGTTGTTGATCATGAAGAGGAAGAGAGACAGAAGGGATGTTTGTTACTCATTCAGAAAGTACACACTGAGGGAGCGTGCAGGGCATAGACC
Celera SNP ID:            hCV7767968
SNP Position Genomic:     9854
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55225):
CAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTGGACAAGCTGAGGTGGGAGGATTGCTTGAGC
C
CAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCATCACTGCTCTCCAGCCTGGGCAACATGACA
Celera SNP ID:            hCV27403742
SNP Position Genomic:     12203
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55226):
GTGTTGTTGATCATGAAGAGGAAGAGAGACAGAAGGGATGTTTGTTACTCATTCAGAAAGTACACACTGAGGGAGCGTGCAGGGCATAGACCCTTCTGGA
R
TTTACAGCTGAGGGGCAGGCAGGGCAGACACATCAAACAGTCCTGCTGGAAGGTGTCAGCCTGCATTTGCTGTGTGGTAAGTGCCACTAGTGGTGGTGCT
Celera SNP ID:            hCV7767969
SNP Position Genomic:     9963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;JBIC-allele(G,554|A,935)   total(G,554|A,935)   (A,-|G,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55227):
CTGCTTTCCACTAAAAATTCTTTAAAATGTCCCTCAACCTTTTTCGTACTGTAACCATATGGGAGGTGATACAGTGCCTTTCCTTTGTGATTAAGGTCAC
K
GTAGTCACTTGGAAGGATCCTTTAAGCTTCCAGAAATGACTTAATCTCTAAGATATTGCAAATTGTTCTTCACTCAGTGAGTTGGTTTTGTTTCCAAGTC
Celera SNP ID:            hCV27477698
SNP Position Genomic:     8029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55228):
CACTTGAGCCCAGGCATTTGAGAGCAGCCTGGGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAG
C
TACTGGACAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAG
Celera SNP ID:            hCV27403729
SNP Position Genomic:     12167
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55229):
AGGCATTTGAGAGCAGCCTGGGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTGGACAA
G
CTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCATCACT
Celera SNP ID:            hCV11558230
SNP Position Genomic:     12178
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55230):
GAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCATCACTGCTCTCCAGCCTGGGCAACA
K
GACACCCTGCCTCAGAAAAGTAAAAATAAAAAAATCTCATCATAAACCTAAAATAAGTTTTGGAATATAAAGGGCTTTTAGTTATCTGAAAAATGCACTT
Celera SNP ID:            hCV11558231
SNP Position Genomic:     12299
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55231):
TGGGCATGGGCGAGGCAGGCGCGAGAGGAGAGGGGCGTGGCAGGTCCGGGGCGGGGCCTGAGTGCGCCTGCGCAGTCCGCGCCACTCAGGGAGCCGGAGG
S
GACGCGCCGGAGGAAAGATGGAAGACTACCAGGCTGCGGAGGAGGTAACCGCCGGGTCGGCGACGGAAGGGTGGAGGCCTAGAGCCCTGGCCGCGGAAGG
Celera SNP ID:            hCV16194725
SNP Position Genomic:     6031
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,1)   caucasian(C,20|G,16)   total(C,29|G,17)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,6)   caucasian(C,6|G,4)   total(C,20|G,10)   
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,211|C,520)   total(G,211|C,520) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:55232):
CACAAATGTAGTAGAACAAACTTTAAGCCAACTCACCAAGCTGGGAAAACCATTTAAATACATCGGTAATGGAGTCTTGTTTCTTTTATATTTGCGGGAT
K
GTTTTTTAACACTGATCAGAGGGGCATCCAGTACCAGAAACAACAGCTAACGTGGCTCAACTCAAGGAAGGCTCCTGGTGGGAGTCGGTCGTGTGTGTAG
Celera SNP ID:            hCV16194726
SNP Position Genomic:     13023
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,4)   caucasian(G,40)   total(G,74|T,4)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,151|G,1346)   total(G,1346|T,151) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55233):
GCACTGTGATGTGAATGGCACCGAAGTCAGATGAGTATCCCTGTAGGTCACCTGCAGCCTGCGTTGCCACTTGTCTTAACTCTGAATATTTCATTTCAAA
S
GTGCTAAAATCTGAAATCTGCTAGTGTGAAACTTGCTCTACTCTCTGAAATGATTCAAATACACTAATTTTCCATACTTTATACTTTTGTTAGAATAAAT
Celera SNP ID:            hCV26423054
SNP Position Genomic:     14170
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55234):
TTTGTGTAGCATAGAGATGGGTACTTGAATGTTGGCCTTATTGTGAGTAAAACGTCGTCCCCCAGCTTTCCCTGCCGTAAATGCTGCTCTCTTCCCTCCC
S
CAGGGAGCTGCACTGTGCGATGGGAGAATAAGACCATGTACTGCATCGTCAGTGCCTTCGGACTGTCTATTTGACCTGCAGTCCAGCCTATGGCCTTTCT
Celera SNP ID:            hCV25927872
SNP Position Genomic:     13857
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,1|G,39)   total(C,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:55235):
ACTTGAGCCCAGGCATTTGAGAGCAGCCTGGGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGC
T
ACTGGACAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGA
Celera SNP ID:            hCV27403730
SNP Position Genomic:     12168
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55236):
CTTGAGCCCAGGCATTTGAGAGCAGCCTGGGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCT
A
CTGGACAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGAT
Celera SNP ID:            hCV27403731
SNP Position Genomic:     12169
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55237):
GAGCCCAGGCATTTGAGAGCAGCCTGGGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACT
G
GACAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCC
Celera SNP ID:            hCV27403732
SNP Position Genomic:     12172
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55238):
AGCCCAGGCATTTGAGAGCAGCCTGGGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTG
G
ACAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCA
Celera SNP ID:            hCV27403733
SNP Position Genomic:     12173
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55239):
GCCCAGGCATTTGAGAGCAGCCTGGGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTGG
A
CAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCAT
Celera SNP ID:            hCV27403734
SNP Position Genomic:     12174
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55240):
CCCAGGCATTTGAGAGCAGCCTGGGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTGGA
C
AAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCATC
Celera SNP ID:            hCV27403735
SNP Position Genomic:     12175
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55241):
AACACTGATCAGAGGGGCATCCAGTACCAGAAACAACAGCTAACGTGGCTCAACTCAAGGAAGGCTCCTGGTGGGAGTCGGTCGTGTGTGTAGTATACGT
K
AGCGTACGCTTGACCATTTGGCTGCTGGTACAATTGCAGATCGTATGTGAAGCGGGATCTTACAGGAGGTCCCATCAGATGCTTTTAGAACAAGTGAAGC
Celera SNP ID:            hCV7767979
SNP Position Genomic:     13131
SNP Source:               Applera
Population(Allele,Count): african american(G,8|T,30)   caucasian(G,3|T,21)   total(G,11|T,51)
SNP Type:                 UTR 3

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:55242):
CCAGGCATTTGAGAGCAGCCTGGGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTGGAC
A
AGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCATCA
Celera SNP ID:            hCV27403736
SNP Position Genomic:     12176
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55243):
TGGGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTGGACAAGCTGAGGTGGGAGGATTG
C
TTGAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCATCACTGCTCTCCAGCCTGGGCAA
Celera SNP ID:            hCV27403737
SNP Position Genomic:     12196
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,11)   total(C,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55244):
GGGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTGGACAAGCTGAGGTGGGAGGATTGC
T
TGAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCATCACTGCTCTCCAGCCTGGGCAAC
Celera SNP ID:            hCV27403738
SNP Position Genomic:     12197
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55245):
TATTTGCAAAGGCACCCTCATGATTAAAAATAAACTTTTCATAAATCACTTCTTGGGGTGCCGTCAGTTCCTGATTGAAAGGTGGTGTGGGTGCATTTGG
K
TAACCGGGACGCGCTTTGTGCTTTGTTTTCTAGGCTATAGAAAGCGCAATTGGTGGTAACGCTTATCAACACAGCAAAGTGAACCAGTGGACCACAAATG
Celera SNP ID:            hCV25931142
SNP Position Genomic:     12830
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(G,2|T,36)   total(G,3|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:55246):
GGCAACAGAGCAAGACCCCATCTCTACAAAAAACTAGCCAGGCGTGGTGGCACATGCCTGCAGTCCCAGCTACTGGACAAGCTGAGGTGGGAGGATTGCT
T
GAGCCCAGGAGGGAAGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATTCCATCACTGCTCTCCAGCCTGGGCAACA
Celera SNP ID:            hCV27403739
SNP Position Genomic:     12198
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55247):
TGGGTACTTGAATGTTGGCCTTATTGTGAGTAAAACGTCGTCCCCCAGCTTTCCCTGCCGTAAATGCTGCTCTCTTCCCTCCCGCAGGGAGCTGCACTGT
S
CGATGGGAGAATAAGACCATGTACTGCATCGTCAGTGCCTTCGGACTGTCTATTTGACCTGCAGTCCAGCCTATGGCCTTTCTCCTTTTGTCTCTAGTTC
Celera SNP ID:            hCV27920050
SNP Position Genomic:     13874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55248):
CGCTTGTGCTCATGTGAAGAGCACATTGGCAGGCAAGTGCCTGACTAATGTTATTTTCAGGATGACCTTTTACCCATTCAGATCTACCATGTGTAAAAGG
M
AAACTATACTCCTGGCACTAGATTCCTGCAGGCAGCCCACCTCCTGAGTCATCCAGACACTGACAGAGAACAGCCATGCTGGCAGCTGGTGGTTAGTCCT
Celera SNP ID:            hCV29110081
SNP Position Genomic:     8469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 287
Celera Gene:                 hCG16919 - 63000132530326
Gene Symbol:                 OAZ3
Protein Name:                ornithine decarboxylase antizyme 3;OAZ-t
Celera Genomic Axis:         GA_x5YUV32VSLS(9613211..9633600)
Chromosome:                  Chr1
OMIM number:                 605138
OMIM Information:            ORNITHINE DECARBOXYLASE ANTIZYME 3;OAZ3


Genomic Sequence (SEQ ID NO:12447):
TCACTCATGATCATACCCCTTTCCTGGTCAAGTGGGGAGATAAGGTCCAGCCCACTTACCCTACTGGGGCATCCTGCAGAGCCATCCTAGTTTGAGCTCC
TGATTGACTGAGGCGTTTGTTAAGACTGCATCAGCTCAATTTCTCCCTCTACCCAATTCTACTGCCTTTACTCCCCAATAGGTGTTGATGCAGATAACTC
CTCCCAATAAACTTCCTGCATGTGAATCTCCAACACAGAGTGTTTTTGCCAAGAACTCAACCTATGGCAGGTATTTAAATGCTTTTTAAGGTTAGCTGTG
TGAAATGTGTGCTCGTTGCTCAATTTCAGAGAGTTTCGTGATGGTCATGTTGAGAGATGCTGTGTGTGTTTAATTAGCCTACCATTTCAAGGACAATAGG
AATGGGGATCATTGAAATGGCAAATTTCAGTGGGCTTGGGGCTCATGCCGAGGCTGCAGGTCCTCCCCAAACCTCAGGAGCGTGTCCAGGATGGCAGAAC
TCTGTGCTTCAGTTTGGGGGTTAATTCTGGGTGTCCCCAACTCACTAGGGATTAACTGGGGTACAGAAGTGTATGCATCTACTTCAATCTAGATTAGCGC
TTCCTAAATACTGGGGTCTCTGCAAGTTAATGGAGGCTCAAACCTTTCAGGAAGTTCTGTTAAATCCAAGACTGAGTGTACCTACCAAAAGCAGTCAACC
ATCTTTCAAAACAAGAGGGTCCTGCTGGGAGATACTGGCAATGAGAAGTTCCTATAGGACCATAAGATCAGTCTGGGGCTGGGTGCAGTGGCTCATGCCT
GTAATCCTAGCACTTTGGAAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAACACCAGCCTGGCCAACATGGTGAGACCCCGTCTCTACTAAAA
ATACACAAAAAATTAGCCGGGCGTGGTGGTGGGCTCCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTAGAGATT
ACAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAATCAGTTTGGGCTT
CAATATGCCCAAATAGGCTATGAGGGCACCTATATTTACACTGATTGCCCTTTATTGGTAACATCTCCATCTGAGGGTGGATCCTGTCTGGCATGGTGAC
CAAGATAAAAGATGCAAAAGATCAACATCATCCACCAAGACTATTTCCACTACATGTGTAAGTACAGTTGCTTCAAGAAGCACAAGAACATGTTCATGCA
CCCATCCCCTTGCATCAGGGATGTCCAGATCAGCAACATCATCATGGTTGGGTAAGCACCAGCATGAGCAAGATGGTACACTTCAACATGCTCATGGTCC
CCAATGCCACCAAGAAGCAATTCCAGTTCTGAGTCTGGATGCCTGCCTACTCCCTAATGTGAAATAATGTTATTTTCCCATTCAAAAAAAAAAAAAAAAA
AGAAAAGAAAAGGGTGGGGAGGGGAGAAATGCTAAATTTCAGATAGTGCCAGTGCCACACTTGAGTTACAGAGCTCTGTCAAGTATGAAGTTGGCTATAG
TTATCAGTGCAACTACTGATGACAGACTTTCTCATTAGCTGAGATGGGATGAAAGTGTTTAACTGACTCAGAGTGGTAGGTGAGCTCAAATAGGAAAGAA
ACCAATGTCTGGTATGGATAGCAAAGGAGTCAATGATCCCATCTTTACTACCCTAAACTGCATGACCTCACATTGTATTTGAGTGACCTTGGCACAATCC
ACCTGAAAATGAATGTTTTTTTCTACTAATGAAACTCTGAACTTACAGAAAACTATCTACTTTCAGGCCAGGCATGGTGGCTCATGCCTGCCTGTAATCC
CAGCACTTTGGGAGGCCGAGGAGGGTGGATCATGAGGTCAGGAGTTTGAGACCATCCTGGTCAATATGGTGAAACCCCATCTCTACTAAAAATATAAAAA
ATTAGCCGGGTGCTGTGGCACATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCAGGGAGGCGGAGGTGCAGTGAGCTGA
GATTATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAGAAAAAGAAAAAGGAAAAAACTATCTACTTTCG
TTTATCTCCCATCAAGACATCCATTCATCCATTCCAGAGTTACCTTTTGACTAGCTCCCTATCTTAATCTTGGTCTAGAAAATTAAGGTAACTTCTTTTT
CAGAATTTCAGGAGCTGGTTCAAGGAAAAAAGTTCCCTTTTTAAGCTTCTTTCATCCCAGCTTTCCAACAATTACCCTTAGGCCTTACTCAGGTCTTAGA
GAAGCAGAATCCATTGTGCTTATTCACATTGATGACTACATCAATGTATCTAAGAAGAGTAAGTGTTAAGACCAAACACATCATCAACTTGTTCAGCACA
ATTTGTTCATACCACAGTAACTGTGGGATGCAGTCTAAGATATTCTCTTCTTTCCTTTTTAGCAGCAAACCTCTGTGACTCAAGGAAATCTCAGTTGGAT
GTCCTGTCTCATCTACTCAAGACCAGTAAGCAACACTTACTTAAAAAGAACATATTCTCTTTATTTCTGCTTGGGATACAAATGTTCAGTTTGGATGATG
AGAATGAGGCAAGTACTGGAGACAATGGCTGGCTCTCCTGTTTGTCCCAATAAACTCCAATGGAGGAAGAAGCTAAACAGGTTTTGGATGGTTTCGGTCT
ACTGCATCTAGCTTATCAAATCTACAGCCTGGTACTTCTGGAACAGGACTTCCCTGCCCCAGTGATGACAGTTAAAGATGGCAAAAATGAAGAATTCAAC
ATGTATACGCAGTGCAGTCTGATGTCTTCAGATGTTCTCTAAAATTCTGTATTTGGTCAGAGCTGGGAGTGAGATCAGGGTGCTTGCACATTTCTGCTCC
ACTGCTCCCGATTCTGCTTTGCTGCCTTGGAGGGAGAGTAGATTTAGATCTGGGGGCTGGTGGGGGCCATAGCCTTGGCAGCTTGCTGGGCTAACCAGTA
CTTATATCTTTTGGTCTTGGGCTTCTCAAAGTTCACGACAGACATAGGCACTCTCACAGTATCAAGCCCATTTACCTGCACACAAAACAATGGGAATTCT
CAGAGATCAGTCAGGTAAGTAAGATTTAGCACCACCTAATCCCAGCTTTTCACCCTGACTTTTCTCCCAGTCAGAAAAAGGAGAGCTAGGGCTGGGCACA
GTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGGGAAACCCT
GTCTCTACTAAAATACAAAAATTAGCCAGGCACGGTGGCGTGTGCCTGTAATCCCAGCTACTAGGGGGACTGAGGCAGAAGGATCGCTTGAACCTGGGAG
GTGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGTCTGGGCAACAGAGTGAGACTCCAGCTCAAAAAAAAAAAAAAAAAAAAAAAAATTAGA
AAAAAGGGAGAGGTAGGTGCTAGGTGCGGTGGCTAACGCCTGTAGTCCTAGCTACTTGGGAGGCTGAGGTGGGAGGATCGCTTGAACCCAGGAGTTTGAA
TCCAGCCTGGGCAATGAAACAAAACCCTGTCTTTAAGAGAAAGGAAAAAAAGGAAAAAGTGGGGGAAAAGGAGAAAGAAAAGAAAAAAGAAAGTATGCAA
AACACTCACCGTCACCTCACACCAATACTCGCCCCACCGTGTGATAGGCTCTTCTGGTAACTTTAATGTATGTGGGGCAACCACAACACCAAGCTGCAAA
AAAAAAAAAAAAAAAAAAAATCTCAGCTCAAATGAACTCTGTTTTCATGACTGCCACTCTAGGGAACCTCATAAAGAGGGTTACAGGATTCCCTGCACAG
GGATGAATAAAACTGGGGTGTCTACTCTGGCTGATTCCATGGGAGAGAAGGGCATACACCTTCATAGACGGTAGTAGAGAAATTCAATTCTGATTTCTCA
GAAAGGGAGGTAGATTCACAAAGAGAAACAGGGCTTGAGGCCAAAACCACTTCATCCACAAAAGTAACAATTCTCCAGTGAGTCACAAATCCCCAGCATT
TCCCTAGGTAGACAGGAAATAAATGGAAACCACCACCTTTTCCTATCAGTCTTCAAATTCTATGTGACCATCCTTAGTCCTTAGCCATTTCCTTCCCATA
TTCCTGCAAACTAACCAAGAATACTTTCCTTAACTACAACTGGATGATCACACCCCTTCCTAACAAAGGGATCAATCCCAGGCCTCCTTTCCAGAGGCAG
CTTCCACCTCAGGGGTAGAGTGGTTTTTGGGAACACTCACTCACATTCTTAAAGAAGTGGCGGGCAACTATTTCAGGGTTCAGCTCCCATTTGACATTGT
TCTTCATCCCTACCTCCAGGCGACAGCTTTTTAGAAATTTCACTGTCTGAAAGGAATTATGAGTTTGAGTCAAAGGAGAGGAAACATGTCAGGGTCACAG
GGTATGCAAGCCAAGCAAGATGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTCTCCCAAAGTGGGTCACTTCAGCCCAGGAGTTTGA
AACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTACCAAAAATACAACAGTTAGCCGGGCATGGTGGCGGGTGCCTGTACTGATTATCTTCTCATGTGT
CCATGTTCTCTCCAACTTGTACGTAAATATCCTTGAAGGCAGAGCCCTCATCTCAGACTATTCCATGGGTTCCCTGATTCCCAGATTGGGACCTCCCTTG
GTACTTTAAGGCACTTCACCCAACACATCAGGGATCTCCCAAGAGGTCTCCATACCTGTTTTGTGGGGCAGCCACAACACTTCCCCTTTCTCCCACTCTT
GGGTCTGCAATCAGGAGACCTCAAGGGAATCAGGGAGACTCTCAGGGTGAGGTTGGTAAGTCTTGTGACAAATAAACACTTTTTATGTTTCTACTCACCG
CCTCACCTGCCTTGGTCTGGATCTTCTCTAATTTTCCTTCTTGTCTCAGCTAGAAAAGAAAGTTAAAGATGAAAAGCAGTAAAAGAAAAATGAGCCCATG
TTAAATAGCATCAAACTATTCCTATGTTGGACATTGGCTGGGCTTCTGCATTCCTGTTCTTCTAGTTCCTATTTCATTTTCAAGTTAAGTTAAATGTCAA
AGGGAAGGAAGCTGCAAGAGAAAAGAAGTTTTATCTCCCCAAGTCTCTCTGTCCTTCCTTTGAGCTCACCAATTTCTCCTCTTCAAACAGCTTCTTGTTT
TCAGGGGATGCATATACAGCCAGTCCCTGAGGAAGGAGTCGATTCCGGCCTAAAGATTTCTTCACTGAGACCAGGTCACCCCGGACTCCAACATCTGTCA
ATTAGAACAGAGACAGGGGAATTAGAACCATCTAGGAGTCCCTAAAGAAAAGATGTCAAAAAGAGAAGCACCTCTTAGTTTCTCACAGTGCTTATTTTTC
CTAAAAGAAATGCTAATTCATATTCACTAGGAACAAGATTTAAGAGACTGCTAATTAGTTTCTTTAGAACTTGATGTATAAATTTAATATCCCCTGTATA
GAGGGAGTTGTCGTCCCATGGAGGATTTCAGTATCTGTGGCACAAATTGTCAGGCTCCTCTCCCCACACACTGTTAATGATGTTGCTGCCTTTATGTTTT
AATTTTCAATGCTGGAGGCCAGTGTCACAATCACAATAGTTTTTATGGCTTCCTCTTCTCACATATAGAGTTGGATTGTTTCCACAAAGAAAAAGCAAGG
CAAATAGTTGAGGGGGACGGGCTAGAAAAAGCTGATGCCAAACCGGACCAGCCTGAGAGGAAGCGCCTCGGCCCGGGCCTTACTCTCCACCGACTGCGTC
AGGATGAGCTCCAGGTTTTCTTTGGGCCGATGCTTCGTGTCCTCCACCAGCTTATAGACGCGRTGTCGCCGGTGCAGGCGCGGCTTCCGGCCCYCCCCGG
CCAGCGGTACCTTCCACCAGCGCTCCACGATGACCGTGCCCTGGCGGCCAGGAAAGCGACGGTAAGCTAGTCTCCACAAGGAACACCCTCTCCCTCCACC
ACGGCCGCCAGCCCCTCAAGGAAAGCCCGCCACCCCCACATCGGCCCCCTCCAGGTCCCAGTGCGCCTCCAGAAACAATACTCGAGCGTATCTACCCCCT
ACCCCAGACTCAGCCCTCACCCGATTTTGAGAAAGGCTGAAGTTGCAGGCCAGGTCAGGGGCGTTCCCTTCATGTCGCGGCCGCAGTAGCTCCTGGACGC
CTCCCCGAAGCAGCCGTCCAGCGCCCGCCCGCAGCAGAGCTCTGCCCGGGGCCGTGACAACGGGCGCCGCCATGTTCACAGGCACAGAATGAGACCTGAG
GGAGGACCCCGGCGTCGGCGGCAGGAAAGGCCCCCGCCAGTGCTGCCTGCGGCGCGCCGGTACGGCTGAGCGAAAGTATGGGGAGCGGGCCGGGGAACAG
ATGGCACCGCGGCTTGCCTATTTTTGCTTTTTGGCAGAGGTGACGGACGCCTAGAATYACTGACTGATAATGGAATGAGTGTTAGGTGGACTGACGCCGG
AAAAGACGCTCTTCCTCTTGAAAGTGTGGGCTTTGCTGTAGCTCCAGTTGCTGGGCTAACTTTTAATTCTAACGTTCTGTGATGACTGGATACTGACCGG
AGAATGAATGATGCTCTCACTTTTCCTTACTTCAAATCTACCTAAAAGTGGTAAAGGATGGGATCCCTTGGAAAACTCTGCCAGCTCCAGGAGGAGCCTG
ACCCTTAATCATTATACTGCAGTATTTAAGCTAATAAAGGAGAATTCTAAATCACAAGCTATGTAAACCGTAGRAAAAAAAGCAACTATGGTAAGGCCGC
GACAGTTCCCTCTGGGGAGGGTCTCAGTACTGGACAGAAGACCATAAAAACTGGATGAAAGAAGGTCCATTTGGCAGAGATTATGGAAAGACTGGCCCTT
AAACATACTGACCAGTCCTCCTTCCTCCTAAATACACTACTTGGCCTCCTGGACACCGGTCTTCTTCAGTCTCGTTTGCTGATTTCTCCTTTTCTCCCCG
CTTCTTAGAATGCCCTCGGGACTCCGTTTTTGAACCTTTACTCTTCTCAGTATACACTCACTGTTGATCTCATCCAGTCTCGTGGCTTACAATACCATTT
ATAAGCCAATGACTCCCAAATTTCTAGTTCCATCCTAGACATCTCCCAAACTCGTCTCAAATATTCAACTGTTTATTCGTCATTTTCCTCTTAYGTATCC
AAAGGACACCTCAAAGTTAACTGTCCCAAACTAATTTATTTATTCCCCCCTCGCCCCCAAAACTGCCCCATCTGCAGCCTTTTTCCTCTCAGTTGACAGA
AACTCCATTCTTTCCATTCTAACTCTTTTCTCTCATACTCCATCAGGAAATCCTGTGGGTTCTACCTTTAAATTACAGATAGTCCCTGACTTGGATTTAC
AATTTTTGAGTTTGTGATGGTGTGAAAGTGATGTGCACTCAGTAGGACATCAATAAGTTACATGAAATATTCAACACTTTATTATAAAATAGGCTTTGTG
TTAGATGATTTTACCCAACTGTCGGATAAGTTGTCTGAGCATGTTTAAGATAGGCTAGGCTAAGCTATGGTGTTTGGTAGGTGTATTATATGCATTTTCA
ACTTATGATACTTTCAACATACGATGGGTTTATCAGGACATAACCCTATTTTAAGTCAAGGAGCACWTGTATTTCCAGAATCCAGCCACTTGTCACCACC
TCCAATGCTCTACCTTGGAATAAGACACTACTTTCTCCTGGATTACTGCAATAGTCCCCTAAAAGATATCCCTTAATTCTCTACAGTTTATAATTCTATG
TAGCTTATTTATAGCAGCCAGAATGATCTTTTTAAAGCATAAGTCAGATCATGTCATTCTTCCACCCAAAACTTTGTAATGACTTCCTCCTTTACTCAAG
GTAAAAGAAAAAGGCCATCAGATGGTCTACAAGGCCATACATACTCTGACCCCATTAGCTCCTCTCTAATTTACACTGCTCCACCCACAGTGGCCTCCTT
GTTTCTTGAAAACACCAGGCACGTTTCCTGCTCAGGGCTTTTGCACTGGCTGCTTTTGCGTTGGATGCTCTTATCCTCAGATGCTGGCTTGGTTAACAAC
CTCACATCCTCCAAGTGTTTAATTAAATGTCAGTTTTTTTCAGTGAGAGATCACCCTATTTCTTACTGTAACCCTGACCCATCCCCTTCACATTCCTTAT
CTTCCTTTATCTTGCTCTATTCCCCCCACCCCATAGCAGTTACCTTCTAACATACTAAACAATTTACTATGTTTATTTTCTAGGTTTGTCCTCTCACTTT
TAGAAGATACGTTCCATAGGGCAGGGATTTGTTTTGTTCACTGATGTATCATCTCAAGCACCTAGAATAGTGCCTGGCTAATAGTAGACCCTCAATAAAT
ATTTGTTGAATGGATAAATATGCAGAGGTCTCAAAGTGGCAGTCCCAGAACCAAATTTTGCTTACAATGTTGTTTTTTTATCAACAATTTTTTAGTAGTT
GATTTTTTTTTTTTTTGAGTTGGAGTCTCGCTATGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCACG
CCATTCTCCTGCCTCAGCCTCCCGTGTAGCTGGGAATACAGGCGCCTGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTACAGACAGAGTTTCATCG
TGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGCGCTGGGATTACAGACGTGAGCCACCGTGCCCGGCCCAG
TAGTCGATATTTTTTAAAATTGGTGAGATTTACTACAAAACTGTCTTTCCAGTTTCTGTTCAAAAATCATACGATACAGCACCATCAAGTCTGCATTCTT
GCATGGAACTGGATGGAATTGAGTTGTGTGGACTTCCTTTAGATAACGTGTGAGCTTTCCTATTTTGCTACAGCCCTACCCTGCCACTCCACTAATTTCC
ATAAGCTGTCTAGGCCCCTGAAGGGGCCTAGACAATTAGTTTGCAATTCCTACCCTACAAGGATCCTGGGTTATTAAGGGTAGGGATGATAATAAAAATA
CTCAACTGGTATGAACTGGGAACCAACTAATCAGGTCACCACTGGATCAGAGCCTTGGAAGAGTCAGATACCAACTCTTTACTTGCTGGATTTTGGGGGA
AGGGGAGTGTCCACAGAGGAGCAGGGTGGGTGGGCACAAGTGCTCAGGCAGGGCTTTTGGCCAACCAGTACAGAAGTCTTCAAGTTCTATTTTTTAATCA
TTCATACAGCCATAACATGCATACTAGTCGAATATGAGCCTTGGATAAGGGATTAGGGTAGATAAGCAGCAGAGTGGAGTCCTGAGGTGACATAAGGGCT
GACCCCTTATCCATGTCATAGTGCCCACTGGGTCACAATGCCACCAGGTTGCCTAAACCTCTGCCACCCACCTGTGAACTTCACTTTGCCACAGGGAGGC
ACTGAACTGAAAAACTGCCTTGTAAGAGGTGTCGCCCCTCTGTCTACTCCCTTTCTTATATCAAGAGGGGAAAAACACGTAACTACCTCTACCCGATCTG
GTCACCATACGCCTATTACCTTTACTGTTACAAGTACCGGATCACTCTCCGGGAGAAGATGCTGCCTCGTTGTTATAAAAGGTACTTGTTTTCATCTCTA
TTTGTAGTTGTTTATATAAAATGTAAGGAAAAAGTAAAAGAATTTGAAAGAATTTCCCAAATGGCAAGAAATAACAACAGAATAGGGGGTGGAAAGCTGG
CATGGAACTTTAGAATTTTTCCATCTGGTTGGGCCCAGGAACAYAGAAACAGGCTGGACAACAGAAAATACAGAAGATCATGCCAGAGCCTGGTACTGTG
TATCTTCCCACCTCAGATTCCAAGATAAACTAATTTGGGTCTCTTTCCCAACCAGCATCACTTATAAGGAAGAGGAGGACTTGACACTCCAGCCCCGTTC
CTGCCTCCAGTGCTCCTGAGTCCCTAGTAGGCCTCCAGGAGGGCAAAAGCACCGAGCAGGGTAACCACGACCAGCTTAAAGAACTGTATTCGGTAAGTGG
ACTGTGAGCTAGTGCTGTGACAGGGCAACCCTTTTCTTGCATACCTTGCAGAGGAGGGACATTAGCAAGTTGGAAGATGAATTACAGAGGTAGATGGAAT
CTTGGAACGCATGTGTAAAAGCTACTTGCTATATAGACAAGCATTCTGGCCCACAGACTGTAAAATCAAGGTCATACAGATGGTAGTGAAAATCAGGATT
GGGAAAAGAGGGAGTGGGGACAAAGGTAAAACAAACTCTGTAGGACTTCTGGGACATAAAGCTGTTTATGCCAAGATCCTGCTTAAAGATGCTAAGCAGG
ATCTGGAATCCAGAACTTGCCCACATATCATATTGCAATAACAAGCCTGGTTGTAACCATGGCATTTTAAATAGAAGAATTTAGAGAAAACCCATATAAT
GAAAAAAGTGGAAATTATTAGTGAGAAAGGAAGCACATTATAAAGCTTTGTTTAAATCCTAAGCTCTCTGATGTAAACATTTCTAAGTTCCTAAATGGTT
ATTGTACTCCTGGGTTGAAGTCAACAGGCAGTAATACTGCCTCAGCTGGATTGTTTGATATAAAGGAGAACTCCACAATAGGCATAGGCTATTAGTTCCT
GGGACTAAGGGATATTATTGCATCTTTAAGATCTTGRCTCCAATTCTCCCAGGCTCTCCCCATCAATGCCCACCTTGCTTCAACGGACACACCCCMATCT
GCCTGAGGTCTGATTTGAAGACTAGAGGAGCATTTTTACTCCTTTTCCAGGCTGGGAACTTGACGGTGCTGGCTACTGACCCCCTGCTCCACCAGGACCC
AGTACAGTTAGACTTTCACTTCCGCCTTACCTCCCAGACCTCTGCCCATTGGCACGGCCTTCTCTGTGACCGTCGACTCTTCYTGGATATCCCATATCAG
GCCTTGGATCAAGGCAACCGGGAAAGGTGACTGAGCCTGGATGGGAGAATGGGGAGGGAATAGGTAGGGGATTTCACCCTTCTATCATGTCATAGTACAT
AAGGCTAATTCTGGAGCTAGATATAAGCAATCCATTCACCTGGCATGCAGACAAGCCTGTGAGCTGAGCCAGGATCTGGGGTTCAAGGGATAAGAGTCCA
TGGGAAGCTGGACTCAGATCCAGAAATAGTTGAATAACGGGAAGTACTTTCTAGCTGTTCATCTCAGTAGTCCTTTCTCCCCAGACCCCTTCTGTGGCTT
ACATCCAGTGATGTGCAATCTCTTGGCTTCCAAGAAAAATCTACCAAAACTAGTTTAGCAACTTTCATTTCCTGGCTTGGGTGGGTGGAGGGCAGAAAAC
GACCAATAATATTTTTACTGCTCCAAGTAGGTGTCTTTCTGGATTCTGAGTTGGCCAAATTTTTTTTTCCCAGTATTTATTGATCATTCTTGGGTGTTTC
TCACAGAGGGGGATTTGGCAGGGTCATAGGACAATAGTGGAGGGAAGGTCAGCAGATAAACAAGTGAACAAGGGTCTCTGGTTTTCCTAGGCAGAGGACC
CTGCGGCCTTCCGCAGTGTTTGTGTCCCTGGGTACTTGAGATTAGGGAGTGGTGATGACTCTTAACGAGCATGCTGCCTTCAAGCATCTGTTTAACAAAG
CACATCTTGCACCGCCCTTAATCCATTTAACCCTGAGTGGACACAGCACGTTTCAGAGAGCATGGGGTTGGGGGTAAGGTTATAGATTAACAGCATCCCA
AGGCAGAAGAATTTTTCTTAGTACAGAACAAAATGGAGTCTCCTATGTCTACTTCTTTCTACACAGACACAGCAACAATCTGATTTCTCTATCTTTTCCC
CACATTTCCCCCTTTTCTATTCGACAAAACCGCCATCGTCATCATGGCCCATTCTCAATGAGCTCTTGGGTACACCTCCCAGACGGTGTGGCGGCCGGGC
AGAGGGGCTCACTTCCCAAAAGGGGCGGCCGGGCAGACGCACCCCCCACCTCCCGGAGGGGGCGGTGGCCGGGTGGGGACTGCCCCCCACCTCCCTCCCG
GACGGGGCGGCTGACCGGGCGGGGGCTGCCCCCCACCTCCCTCCTGGACGGGGCGGCTGACCGGGCGGGGGCTGCCCCCCACCTCCCTCCCAGACGGGGC
GGCTGACCGGGCGGGGGCTGCCCCCCACCTCCCGGACGGGGCAGCTGCCGGGCGGAGACGCCCCTCACTTCCCAGACGAGGCGGCTGCCGGGCGGAGGGG
CTCCTCACTTCTCAGACAGGGCGGACGGGCAGAGATGCTCCTCACCTCCCAGATGGGGTCGCGGCTGGGCAGAGACACTCCTCAGTTCCCAGACAGGGTC
GTGGCCGGGYAGAGGCGCTCCCCACATCCCAGACGATGGGCGGCTGGGCGGAGACGCTCCTCACTTCCTAGACGGGATGACGGCCGGGCAGAGGCGCTCC
TCACATCCCAGACRATGGGCGGCCAGGCAGAGACGCTCCTCACTTCCCAGACGGGGTGGTGGCCGGGCAGAGGCTGCAATCTCGGCACTTTGGGAGGCCA
AGGCAGGCGGCTGGGAGGTGGAGGTTGTAGCGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGCAACACTGAGCACTGAGTGAACGAGGCTCCGTCTG
CAATCCCGGCACCTCAGGAGGCCGAGGCTGGCAGATCACTCRRGGTTAGGAGCTGGAGACCAGCCCGGCCAACACAGCGAAACCCCGTCTCCACCAAAAT
ACGAAAACCAGTCAGGCRTGGCGGCACGCGCCTGCAATCCCAGGCACTCAGCAGGCTGAGGCAGGAGAATCAGGCAGGGAGGTTGCAGTGAGCCGAGATG
GCRGCAGTACAGTCCAGCTTCGGCTTTCACAACTTTGGTGGCATCAGAGGGAGACCGTGGAGGGAGAGGGAGAGGGAGAGGGAGAGGGAGCGGCCAAACA
TTTTAACTGTTTTTCTGTGGCTCCTAGTTTGACTGCAACCCTGGAGTACGTGGAAGAGAAGACAAATGTGGACTCTGTGTTTGTGAACTTCCAGAATGAT
CGGAACGACAGAGGTGGGGATCTGCTGTTCTTCCTTGCTTTTCGCGCTGAGGCAGCTGGATAACTCCTTTTCCTTTAYAGGAGACCCTCTTCCCCTGTCT
TTAAAAATGCACCCTCAGGCATTTCAGGGATTCTTTTCTTCCCACCTACCACGAAGGTGGGAAGTTGTAACTTGTTCCATCAAGTTACAACTGGACTCTG
AGGAAGCCCCTGCAGGTGGTGTTAGGGGCCAGACTGAAGRAGCACTGGTGAAATTACACAGAATCCATTCAAGGGATGTGGCCAGCAGGACAAAATGGAT
CTCAAACATATGGAGCACCTACAATGTGAAAGGGTCAGACATAAGGCCAAGGGAACGGGGACATATTTAACCGGATGCCTGGAGCATATGTTACAGAAAC
TATAGCCTCTTGCCTCAAGGAGYTCAAACTCTGTTGGATATAAGGGATGGTGAATAACCATTCATAAGTGATAGATACTATTTCAGAGCTTACTATGYCA
TCATTGTATTAGTATATAGGTAGACCTCACTAATCTCTAGTGTTAAGCACTTCAKGAACATCTCATTTCATCTTAAATTCTGTGAGGAGGAAGGTTCTAT
GATTTATAAATGGAAAATTCTATAGATGGAAACTGAAGTTCTGMAGGACTAACTCACAGAACAAGTGTTAAAACCAGAGTTAGAGCCTAGGTCTGTTGGA
CTAAAGCACATCCTATATGCCTGCACTACACTGCTTCCCAGGGCCACTCCCTAGTGGAAGAAATCAAATCTGGGGGCATACATGTATTGAGTTTTAAAGC
ATGTTCTAATCATTTGTTCTATCCTTTCACAGGTGCCCTGCTGCGGGCCTTCAGCTACATGGGCTTTGAGGTGGTCAGACCAGATCACCCTGCCCTCCCT
CCCTTGGACAATGTCATCTTTATGGTGTATCCCCTTGAAAGGGATGTTGGCCACCTGCCCAGTGAGCCTCCTTGAACATGCTTATTCCAACGCTTTGAGG
GGCTGGAAGCCTTGACACATGGAATCAGGGGCCCGGGATGTGATTCAGGACACTTTCCATCCTAGGAATAAAGGGTAGTGCAATCATCAAGTGTTCACGG
TTTCTTGGGGGGGTGGGTAATAGGGTTGACTGGAGTGGGATATACACCTTAACAGAGCTAAATTCACTGAAAAGATCACAGGGACCTGAACTACGGAGGA
AAGTACCTAAGGATTTTTGGTTCCCTTTGCCTTCCTCCATGCCCCAAACTATTTCCCCATTTATTCTAACCATTTACTGAGCACTAATCAGTGAACTTCC
TAGTTCAGAAAGACTGAGCTTTGTTAGGCTGTTTTTATCCATATATTTCAGTTGAGGTGCTATAGATGTGGAGAAAACCAGAGAAGGCACATAGATCTCT
TGGCTTTGGCCCAAGTTGGGGGATCTCAACGGACAGAATAGGTAACATAGAAGAGGGCATTCCAGGCAGCAGGAAAAGTACTGGGTTATACTAACAGAAT
GACAAAGAACCCATCAGAATGGGCTGTAAACAGGTAAGACTTAAAGGCATATTAAAGAAAAAGACTTTTATACATAGTAACAAACTGCAGGTAAGAATGA
GACATTACTCATTTTCCAGGGTAGGAAGTCTTATGAATGATTTATATCAGGGAACCTCTAAAGAGTAAAGGTTCCCTACGGAACTCTGGTAGCACCAGTT
CCAGGGCTGAGCATGCTTCAGCGAGTTCATTGCAGGCAACATCTGAAACATCAAATAAATGGAAGCTCCTTAAAGATTCCTCCAAGAGTACCTGAACTAC
TCACCAGAACTGTTCCTTCACTAGAGCCTTTCTGCTAATTGGGACTGAGATTTTTCTTTTCTTTTTTTGGAGACAGCATCTTGCTGTGTCACACAGGCTG
GAGTGGAGTGGTGCAATCTTGGCTCACTCACTGCACCCTCTGCTTCCCTGGGCTCAAGCGATCCTCCCACCTCAGCCTCTCAAGTAGCTAGGACCACAGG
CACACACCACCATGCCTGGCTAATTTTTTTGTATTTTTGGTAGAGATGGGGTTTCAGCATGGTGCCAGGCTGGTCTCGAACTCCTGAGCTCAAGCAATCT
GCCCGCCTCGGCCTCCCAAAGTGTTGGGATTATAGGTGTGAGCCACCGGTGCCTGGCTAATACTGAGATTTTTCTGAGAAAATAAATTTTGAGAATTGTG
GTTGTGAGAAAATATAGTTGCCATGTAGTATAGAGGTAGACGTTACTAATCCCTAAATTTAAAAAAAAGACCTGTGTAAGGCATCCTTATGTGCTAGTTT
TAAATTTTCTAGTTTATCTTGCTTTATCCTTAAAAAAAATTCACTTGCCATTTTTCTACCATCCACATTACTATACATTTATATTTACTTTCAAGCACCT
CAAGTACTTCAAGCCTCGCATTTGAGCCTCACAGTACTGTCAGAAAGATGCTATAAGGAAACACGTTAAAATTTTGCAAAAAGTTTACAGTGGAGATCTA
CTCCTTAAAGATTCCTCCAAGACTACATGAGCTACTTACCAGAGCTGCTCCTAGAATCCAGGTTTCTAGAATCTTAATCTGGGCCTTTTCTTTTGAATAG
TATAGGTGGGGTCTTACTCACACAGCCTAAACCTAAATTGGTTCTGGTTCCTAGTGAATTTTTTTTTATGAGACAAGGTTGTGTGGTGGTGCAATCTGGG
TTCACTGCAACCTCCGCTTCCCAGGTTCAAGTGATTCTTGTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGTGCCTGCCACCACGCCCAGCTAATTTT
TGTATTTTGTATTTTTGTATTTTTTTGAGACAGAGTCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCTCC
CAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCACGCAGCTGGGACAACAGGTGCATGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACAG
GGTTTCACCATGTTGGCCTCAAGTAATCTGCCTGCCTTAGCCTCCCAAAGCGCTGGGATTACAGGTGTGAGCTACCGTGCCCAGCCAGTGAATGGTTATT
TCTGAAGTGACTTTAGAGAAAGAATATGAATGTGTATATGGGAGGGACACTTGTTTCATAGATGTGATCCTTTCTGTGAGGCAGTTGGCAGTTTTCACCA
GATTTAGGCTCACAGCCTGCTTCCACCTTGTGATTCAATCAGAATTTGGTTTTAGAAAATTTTCTTGAGAACTTTATTCAGCAAAAAAATCCTCCAAATG
ATTCAAACAGGACTGTATACTCTTCCTCTCTCTCCACGGGTGTATATGTGTGTATACATATAGATATTATACTAGCAATTTAGAAAATTTCCTGAGCCTC
CTGTCTCCTTTCTACTTATATTTTAACTAAAGGTTACAGAGAAATAGCTGGAGCAGTTTCAAAAGCCTGTCTCCAATAACATATCAGCAATTGAGGCTGG
GAGGCAGTATTCTCTTCCCACTTCCTGAGGCTTTTAAATATAATTATGCTAATTTTTGCCTTTGCCTCCTGATTCAACTGGAGTCTTTGAGTTCACCACT
CAAAAGCTTTCCTTAACCAGAGTCACCTGATAAGGTGAGTCAGAAGTCTGCAGAATCACTTCCAATGACGAAAGCCTGACTGTTTCCCAGCCTCAAAAAG
GATACAGCCTAGTAGTAATGTGAATCATGACTGGTAGAGGGGACTGAGCCTGACGTTGAACGGCCTGGAAGTAACACAGCAGTATTCAAACACTGGAGGG
TTGGGGAGGGATCCGGAGGTGGAATGGGGGAGACACACTTGTAGCGTGGTAGTCCAATTTTTTTGTAGTCTGATGGGAGGAGAATATTAATTTGGTCCAC
AGCAAGCCAGACTATATGTGTAATAAAGGAAGGACTGCATGGATCCTTTATCATACACTCCTCTCCTCCATGCACCAATTCCTATGCCAAATCCTGCCAA
AGACAGAAATACACAAAAAGCTTGAAAGTGCTCAATCTGAGAGCAAGTTAAGCTGCAGGAAAGCAGCTGCAGAGAAGTATATTAAGACAGGGCATGGGAA
AGAGGGAATCAAAGCAAGTGCCCCACTGTCGCCCTCATTACTTTCCTGTTGCTACAGATAGATGATAGCTGCACTCACACAGCAAAGCAGATGGCTGAGC
AAACTGAAGCCCAGACTTCAGAGTAAGTAGTCATCTTCAAGGTTATCATCACCAGACATGGAAGCAGCTTCTATTGAAGATAAATAAGAAGGAGAAAGTT
AGACACTGCCCTATTCTAGCAGGCAATGCCAGCGAGGCTCAAAAGAAAAATGGACCTCTTGGTACTCAATGACCTGACTAGGAACCAAGCCTTCAATTAA
CCTCCCTACTCTGGAAAGACTGAATGAGAAAAGTTAATCTCCAAAGATGCTCTAGGGAGGAAATACTGCTTGTACCTGATAAGCTGAGGCAGGACAGGGT
ATGTGTTATCTCTCCAGAGCTCTTTTTGGTCTCAGTGAGCAACGTGCTGAGAGAGGCATCTGTTTCTGTGGCCTGAGTGGATGAAAACAGGAAAAAAGGA
GGAACATGTTGGCTTTTAGGAAAAAAGAGGCCACCCTTTCATTCTTCTCATAGGACCTGGTTAAGGCAGTTGCATTTGGCTACCAAGAGGGACAAAATGC
TCCTTTGGTCAACTACTGGAGGAGCTCAAAGTCCTTAGGAAAGCTAACACAGTATCAGGACTAGAAGCCCTTAGTGTCTATGTGCTAGATTTGCCTGGAA
GCAGCACCCTATATAACTACAATAGCTCACCATGTCCTTCAACATGTCTGGGACAGCTCTGTTTTCTTCTATGTCTTCAGGAAGCTCAATTGCGTATCCT
TTGTGTACTAATTCTAGCCCAATATCAAGTTTCTGAGAAGAAAAATGAAAAGGGAATGATGTTCTCTCAGTAAGCAAGGGCAAATTTGAGGAAACAAGGC
AGAAGGACTGATACTTTAAAGACATTCCTTTGGTGAGATGGTGAGAAGGATCTTACAGTAAGAGTAATATCAGATAAGGGTTTCTGAGGAAGAAAAAGTA
AATTAGGCTATAAATATACTGAAGATATGGCAAGCAGTGAGTGAATGCCAGTCTTACCTTCCCATTGCTAGTATCATATAAGTAGATCTTTGGCCAAGTT
GAGATCCCAGTCTGGACATAGCTAGAGATCTTGGCTACCAGAGGCTTCCAGTCAGCACAATGAGTGAGTCTATCAAACTCATCCAAAGCTTCCTCTTCCC
ACTGGTCACCTGGCAAAAGATTGTAGGGGTTACTGCTGATAGGGGTGGGGCTTATACCCTGGAGGGAAGTTGGAACTACCCTTTTCTACTCAGGAAGGCA
CCTGTGTCTTCTCTGGTTGGGTTGGGTCTGCCAGGCAAGTTTCTGGCTGCTGCTAGTGCTGGTGAGGAAAAGGCACCTGAGTCCCCAGAATTCAAAAAGC
CTGGGAATGTGAGAATTCCTTCCAATGAACTGTATGAAGTTATTCTATTTGGAGGTAAGCTCAATAGATGGCATGACCAATTTACCTGAGGGAGCAATCC
GTGCCAGACTACATTCTATTGCTTGAAATGGAAGGCTTAGGAAGTCACTCCTGAAGTAAAAGAAACTAAAATTAGAATCCTGGGGCCAAAAACATCTTCT
TACATTGCTGCTTTAAGAAAGAACCAACTAACATGAGACGATAACCATCTGCTCTCTGTAAACAGGTTCCCTTCCAAATCCCCCTGACAACTGCCAACAG
CTCACCACCCTATGGCCAGAACTGAGTCAGCAGTTGGGATTGAGCTGACCTCAGCACTGACCTGAGAGCCCTGAGGTCCTTCAGTGGGCAATCTCCATTA
TCTCCAAAGTCAACAAAATAGAGGTCCAAGTTCCCATTCTCCAAGGTGCCGAGGACCCGGGCTCGATACCAGGAACCATTTGTAGGTAAAGGTGCTGCTA
CAATGTCTCCTACATGCACAGTCAAGTCTTCAGGCTGTATGTGGGGAGGAGGAGAAAGGCAGAGAGTTACAAAGTGGTAGGCTCATAAACAGAATTGCAG
GAGGAAGAAAGAAAAGTAGTTGCTCCACAGGGAAAGGAAGAGTACAATGAAAAAGATATGCCTTCTTTTCATTAAACCCCAGCCCTGTCCCTATGGCAAC
TCACCACACTATTCTCATAGTGCTGGGTCATCTCATTGACAAGCTTATCCAATTGCAGGCTGCGGGAGCCAACGATCTGGATCCAGAAGTGGTTAGGGTG
CTCAGAAGCAGAAACGTAGACTTCTAGGTACTCATCAGCATGAAAACTGAAGTCAGGACTGGGGACTGAACACAGAGATAAGGATGGTGGCCACATCAGA
CCCATCTCTGGTTGGAATGAAGAGACTAACCAGGGTAGTGAGAGGTACAAATACCAATGGCTGTTACCATTTTAAAATGGCAGGAGAGGCAACTGGATGA
ATCAAACAAGAATATCCTAAAGAAAGATACTAAGCTATCCTTTGTACCTTTCCATGTAACTGAGTAATAACAGCTTACATTCTTTGTCATGTGCTACATA
GTCAAATCGGTCACCAATTATACAGAAGGTAAACCTCCATATGCTAGCTACAGCATGGATCAGTAAAAAGGTATATGGACAGCAATCTTTACATGGACAG
TGACGGACATGGACCTGTTCCAGATCCCATTCTACCACTGACTCTTTACATGACCCTGGACAAGTCTGTGAGCTTCTTGGGAATCCAGGTCCTCTTTGCC
CACGCCAAAACCTATGTACAGAAGAGAAAGCTCACAGCCTTTTCAATAGTGATGATTTTTAAAAACAGTAATGAAAAAGGCAATATAAAATCTGGCTGAG
AATTTTACTTGTTGATAAAGTATGTCTAGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCATTTGAGGCC
AGGAGTTCGAGTCCAGCCTGTCCAACATGGTGAAACCCCATCTCTACTAAAAAATACAAAAATCAGTCGGATGTGGTGGTGTGCACCTG


SNP Information

Context             (SEQ ID NO:55249):
CTGCGTCAGGATGAGCTCCAGGTTTTCTTTGGGCCGATGCTTCGTGTCCTCCACCAGCTTATAGACGCGATGTCGCCGGTGCAGGCGCGGCTTCCGGCCC
Y
CCCCGGCCAGCGGTACCTTCCACCAGCGCTCCACGATGACCGTGCCCTGGCGGCCAGGAAAGCGACGGTAAGCTAGTCTCCACAAGGAACACCCTCTCCC
Celera SNP ID:            hCV11260516
SNP Position Genomic:     6094
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)   POOLE|_GEPH(A,45|G,143)   total(G,143|A,45) 
SNP Type:                 PUTATIVE UTR 5


Context             (SEQ ID NO:55250):
GAGGCCGAGGCTGGCAGATCACTCGCGGTTAGGAGCTGGAGACCAGCCCGGCCAACACAGCGAAACCCCGTCTCCACCAAAATACGAAAACCAGTCAGGC
R
TGGCGGCACGCGCCTGCAATCCCAGGCACTCAGCAGGCTGAGGCAGGAGAATCAGGCAGGGAGGTTGCAGTGAGCCGAGATGGCAGCAGTACAGTCCAGC
Celera SNP ID:            hCV26672863
SNP Position Genomic:     13018
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55251):
CTGCCTCAGCTGGATTGTTTGATATAAAGGAGAACTCCACAATAGGCATAGGCTATTAGTTCCTGGGACTAAGGGATATTATTGCATCTTTAAGATCTTG
R
CTCCAATTCTCCCAGGCTCTCCCCATCAATGCCCACCTTGCTTCAACGGACACACCCCAATCTGCCTGAGGTCTGATTTGAAGACTAGAGGAGCATTTTT
Celera SNP ID:            hCV11260517
SNP Position Genomic:     10937
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55252):
TCTCAGACAGGGCGGACGGGCAGAGATGCTCCTCACCTCCCAGATGGGGTCGCGGCTGGGCAGAGACACTCCTCAGTTCCCAGACAGGGTCGTGGCCGGG
Y
AGAGGCGCTCCCCACATCCCAGACGATGGGCGGCTGGGCGGAGACGCTCCTCACTTCCTAGACGGGATGACGGCCGGGCAGAGGCGCTCCTCACATCCCA
Celera SNP ID:            hCV11260518
SNP Position Genomic:     12610
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55253):
GCGCCTCGGCCCGGGCCTTACTCTCCACCGACTGCGTCAGGATGAGCTCCAGGTTTTCTTTGGGCCGATGCTTCGTGTCCTCCACCAGCTTATAGACGCG
R
TGTCGCCGGTGCAGGCGCGGCTTCCGGCCCTCCCCGGCCAGCGGTACCTTCCACCAGCGCTCCACGATGACCGTGCCCTGGCGGCCAGGAAAGCGACGGT
Celera SNP ID:            hCV11342328
SNP Position Genomic:     6063
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;SC_12_C(C,0|T,23)   SC_12_TT(C,5|T,18)   SC_95_C(C,1|T,188)   total(C,6|T,229)   JBIC-allele(C,402|T,1097)   total(C,402|T,1097) 
SNP Type:                 PUTATIVE UTR 5


Context             (SEQ ID NO:55254):
AACTATAGCCTCTTGCCTCAAGGAGCTCAAACTCTGTTGGATATAAGGGATGGTGAATAACCATTCATAAGTGATAGATACTATTTCAGAGCTTACTATG
Y
CATCATTGTATTAGTATATAGGTAGACCTCACTAATCTCTAGTGTTAAGCACTTCATGAACATCTCATTTCATCTTAAATTCTGTGAGGAGGAAGGTTCT
Celera SNP ID:            hCV11342329
SNP Position Genomic:     13798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55255):
GGCGCTCCCCACATCCCAGACGATGGGCGGCTGGGCGGAGACGCTCCTCACTTCCTAGACGGGATGACGGCCGGGCAGAGGCGCTCCTCACATCCCAGAC
R
ATGGGCGGCCAGGCAGAGACGCTCCTCACTTCCCAGACGGGGTGGTGGCCGGGCAGAGGCTGCAATCTCGGCACTTTGGGAGGCCAAGGCAGGCGGCTGG
Celera SNP ID:            hCV11260519
SNP Position Genomic:     12714
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55256):
AAATATGCAGAGGTCTCAAAGTGGCAGTCCCAGAACCAAATTTTGCTTACAATGTTGTTTTTTTATCAACAATTTTTTAGTAGTTGATTTTTTTTTTTTT
T
GAGTTGGAGTCTCGCTATGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCA
Celera SNP ID:            hCV26672865
SNP Position Genomic:     8716
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,7)   total(-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55257):
TTGAAAGAATTTCCCAAATGGCAAGAAATAACAACAGAATAGGGGGTGGAAAGCTGGCATGGAACTTTAGAATTTTTCCATCTGGTTGGGCCCAGGAACA
Y
AGAAACAGGCTGGACAACAGAAAATACAGAAGATCATGCCAGAGCCTGGTACTGTGTATCTTCCCACCTCAGATTCCAAGATAAACTAATTTGGGTCTCT
Celera SNP ID:            hCV25770181
SNP Position Genomic:     10044
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,29)   caucasian(T,40)   total(C,9|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:55258):
TGTTTGTGAACTTCCAGAATGATCGGAACGACAGAGGTGGGGATCTGCTGTTCTTCCTTGCTTTTCGCGCTGAGGCAGCTGGATAACTCCTTTTCCTTTA
Y
AGGAGACCCTCTTCCCCTGTCTTTAAAAATGCACCCTCAGGCATTTCAGGGATTCTTTTCTTCCCACCTACCACGAAGGTGGGAAGTTGTAACTTGTTCC
Celera SNP ID:            hCV27511250
SNP Position Genomic:     13378
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,478|T,1001)   total(C,478|T,1001) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55259):
ACCATTTATAAGCCAATGACTCCCAAATTTCTAGTTCCATCCTAGACATCTCCCAAACTCGTCTCAAATATTCAACTGTTTATTCGTCATTTTCCTCTTA
Y
GTATCCAAAGGACACCTCAAAGTTAACTGTCCCAAACTAATTTATTTATTCCCCCCTCGCCCCCAAAACTGCCCCATCTGCAGCCTTTTTCCTCTCAGTT
Celera SNP ID:            hCV9625373
SNP Position Genomic:     7394
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55260):
TTCCTGGGACTAAGGGATATTATTGCATCTTTAAGATCTTGGCTCCAATTCTCCCAGGCTCTCCCCATCAATGCCCACCTTGCTTCAACGGACACACCCC
M
ATCTGCCTGAGGTCTGATTTGAAGACTAGAGGAGCATTTTTACTCCTTTTCCAGGCTGGGAACTTGACGGTGCTGGCTACTGACCCCCTGCTCCACCAGG
Celera SNP ID:            hCV9625378
SNP Position Genomic:     10996
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55261):
ATGGTGTTTGGTAGGTGTATTATATGCATTTTCAACTTATGATACTTTCAACATACGATGGGTTTATCAGGACATAACCCTATTTTAAGTCAAGGAGCAC
W
TGTATTTCCAGAATCCAGCCACTTGTCACCACCTCCAATGCTCTACCTTGGAATAAGACACTACTTTCTCCTGGATTACTGCAATAGTCCCCTAAAAGAT
Celera SNP ID:            hCV134154
SNP Position Genomic:     7867
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|A,6)      total(A,6|T,5) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55262):
ACGCCACTGCACTCCAGCCTGGGCAACACTGAGCACTGAGTGAACGAGGCTCCGTCTGCAATCCCGGCACCTCAGGAGGCCGAGGCTGGCAGATCACTCG
R
GGTTAGGAGCTGGAGACCAGCCCGGCCAACACAGCGAAACCCCGTCTCCACCAAAATACGAAAACCAGTCAGGCATGGCGGCACGCGCCTGCAATCCCAG
Celera SNP ID:            hCV27872829
SNP Position Genomic:     12943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55263):
CGGTACGGCTGAGCGAAAGTATGGGGAGCGGGCCGGGGAACAGATGGCACCGCGGCTTGCCTATTTTTGCTTTTTGGCAGAGGTGACGGACGCCTAGAAT
Y
ACTGACTGATAATGGAATGAGTGTTAGGTGGACTGACGCCGGAAAAGACGCTCTTCCTCTTGAAAGTGTGGGCTTTGCTGTAGCTCCAGTTGCTGGGCTA
Celera SNP ID:            hCV27836695
SNP Position Genomic:     6658
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,35)   total(C,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:55264):
AACTCTGCCAGCTCCAGGAGGAGCCTGACCCTTAATCATTATACTGCAGTATTTAAGCTAATAAAGGAGAATTCTAAATCACAAGCTATGTAAACCGTAG
R
AAAAAAAGCAACTATGGTAAGGCCGCGACAGTTCCCTCTGGGGAGGGTCTCAGTACTGGACAGAAGACCATAAAAACTGGATGAAAGAAGGTCCATTTGG
Celera SNP ID:            hCV27828864
SNP Position Genomic:     6974
SNP Source:               Applera
Population(Allele,Count): african american(A,12)   caucasian(G,2)   total(A,12|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:55265):
TAAGCACTTCATGAACATCTCATTTCATCTTAAATTCTGTGAGGAGGAAGGTTCTATGATTTATAAATGGAAAATTCTATAGATGGAAACTGAAGTTCTG
M
AGGACTAACTCACAGAACAAGTGTTAAAACCAGAGTTAGAGCCTAGGTCTGTTGGACTAAAGCACATCCTATATGCCTGCACTACACTGCTTCCCAGGGC
Celera SNP ID:            hCV69920
SNP Position Genomic:     13944
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,8)      total(A,2|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55266):
TAACCATTCATAAGTGATAGATACTATTTCAGAGCTTACTATGCCATCATTGTATTAGTATATAGGTAGACCTCACTAATCTCTAGTGTTAAGCACTTCA
K
GAACATCTCATTTCATCTTAAATTCTGTGAGGAGGAAGGTTCTATGATTTATAAATGGAAAATTCTATAGATGGAAACTGAAGTTCTGCAGGACTAACTC
Celera SNP ID:            hCV69921
SNP Position Genomic:     13855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,12)      total(G,1|T,12) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55267):
CACGCCACTGCACTCCAGCCTGGGCAACACTGAGCACTGAGTGAACGAGGCTCCGTCTGCAATCCCGGCACCTCAGGAGGCCGAGGCTGGCAGATCACTC
R
CGGTTAGGAGCTGGAGACCAGCCCGGCCAACACAGCGAAACCCCGTCTCCACCAAAATACGAAAACCAGTCAGGCATGGCGGCACGCGCCTGCAATCCCA
Celera SNP ID:            hCV11260520
SNP Position Genomic:     12942
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55268):
AATGTGAAAGGGTCAGACATAAGGCCAAGGGAACGGGGACATATTTAACCGGATGCCTGGAGCATATGTTACAGAAACTATAGCCTCTTGCCTCAAGGAG
Y
TCAAACTCTGTTGGATATAAGGGATGGTGAATAACCATTCATAAGTGATAGATACTATTTCAGAGCTTACTATGCCATCATTGTATTAGTATATAGGTAG
Celera SNP ID:            hCV69922
SNP Position Genomic:     13723
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55269):
TCCCACCTACCACGAAGGTGGGAAGTTGTAACTTGTTCCATCAAGTTACAACTGGACTCTGAGGAAGCCCCTGCAGGTGGTGTTAGGGGCCAGACTGAAG
R
AGCACTGGTGAAATTACACAGAATCCATTCAAGGGATGTGGCCAGCAGGACAAAATGGATCTCAAACATATGGAGCACCTACAATGTGAAAGGGTCAGAC
Celera SNP ID:            hCV69923
SNP Position Genomic:     13540
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55270):
GAAAACCAGTCAGGCATGGCGGCACGCGCCTGCAATCCCAGGCACTCAGCAGGCTGAGGCAGGAGAATCAGGCAGGGAGGTTGCAGTGAGCCGAGATGGC
R
GCAGTACAGTCCAGCTTCGGCTTTCACAACTTTGGTGGCATCAGAGGGAGACCGTGGAGGGAGAGGGAGAGGGAGAGGGAGAGGGAGCGGCCAAACATTT
Celera SNP ID:            hCV11260521
SNP Position Genomic:     13103
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55271):
CCTGCTCCACCAGGACCCAGTACAGTTAGACTTTCACTTCCGCCTTACCTCCCAGACCTCTGCCCATTGGCACGGCCTTCTCTGTGACCGTCGACTCTTC
Y
TGGATATCCCATATCAGGCCTTGGATCAAGGCAACCGGGAAAGGTGACTGAGCCTGGATGGGAGAATGGGGAGGGAATAGGTAGGGGATTTCACCCTTCT
Celera SNP ID:            hCV15887232
SNP Position Genomic:     11183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Gene Number:                 288
Celera Gene:                 hCG16927 - 63000132519809
Gene Symbol:                 MRPL9
Protein Name:                mitochondrial ribosomal protein L9;L9mt
Celera Genomic Axis:         GA_x5YUV32VSLS(9615015..9636965)
Chromosome:                  Chr1
OMIM number:                 605138
OMIM Information:            ORNITHINE DECARBOXYLASE ANTIZYME 3;OAZ3


Genomic Sequence (SEQ ID NO:12448):
TGGATGAGTTTGATAGACTCACTCATTGTGCTGACTGGAAGCCTCTGGTAGCCAAGATCTCTAGCTATGTCCAGACTGGGATCTCAACTTGGCCAAAGAT
CTACTTATATGATACTAGCAATGGGAAGGTAAGACTGGCATTCACTCACTGCTTGCCATATCTTCAGTATATTTATAGCCTAATTTACTTTTTCTTCCTC
AGAAACCCTTATCTGATATTACTCTTACTGTAAGATCCTTCTCACCATCTCACCAAAGGAATGTCTTTAAAGTATCAGTCCTTCTGCCTTGTTTCCTCAA
ATTTGCCCTTGCTTACTGAGAGAACATCATTCCCTTTTCATTTTTCTTCTCAGAAACTTGATATTGGGCTAGAATTAGTACACAAAGGATACGCAATTGA
GCTTCCTGAAGACATAGAAGAAAACAGAGCTGTCCCAGACATGTTGAAGGACATGGTGAGCTATTGTAGTTATATAGGGTGCTGCTTCCAGGCAAATCTA
GCACATAGACACTAAGGGCTTCTAGTCCTGATACTGTGTTAGCTTTCCTAAGGACTTTGAGCTCCTCCAGTAGTTGACCAAAGGAGCATTTTGTCCCTCT
TGGTAGCCAAATGCAACTGCCTTAACCAGGTCCTATGAGAAGAATGAAAGGGTGGCCTCTTTTTTCCTAAAAGCCAACATGTTCCTCCTTTTTTCCTGTT
TTCATCCACTCAGGCCACAGAAACAGATGCCTCTCTCAGCACGTTGCTCACTGAGACCAAAAAGAGCTCTGGAGAGATAACACATACCCTGTCCTGCCTC
AGCTTATCAGGTACAAGCAGTATTTCCTCCCTAGAGCATCTTTGGAGATTAACTTTTCTCATTCAGTCTTTCCAGAGTAGGGAGGTTAATTGAAGGCTTG
GTTCCTAGTCAGGTCATTGAGTACCAAGAGGTCCATTTTTCTTTTGAGCCTCGCTGGCATTGCCTGCTAGAATAGGGCAGTGTCTAACTTTCTCCTTCTT
ATTTATCTTCAATAGAAGCTGCTTCCATGTCTGGTGATGATAACCTTGAAGATGACTACTTACTCTGAAGTCTGGGCTTCAGTTTGCTCAGCCATCTGCT
TTGCTGTGTGAGTGCAGCTATCATCTATCTGTAGCAACAGGAAAGTAATGAGGGCGACAGTGGGGCACTTGCTTTGATTCCCTCTTTCCCATGCCCTGTC
TTAATATACTTCTCTGCAGCTGCTTTCCTGCAGCTTAACTTGCTCTCAGATTGAGCACTTTCAAGCTTTTTGTGTATTTCTGTCTTTGGCAGGATTTGGC
ATAGGAATTGGTGCATGGAGGAGAGGAGTGTATGATAAAGGATCCATGCAGTCCTTCCTTTATTACACATATAGTCTGGCTTGCTGTGGACCAAATTAAT
ATTCTCCTCCCATCAGACTACAAAAAAATTGGACTACCACGCTACAAGTGTGTCTCCCCCATTCCACCTCCGGATCCCTCCCCAACCCTCCAGTGTTTGA
ATACTGCTGTGTTACTTCCAGGCCGTTCAACGTCAGGCTCAGTCCCCTCTACCAGTCATGATTCACATTACTACTAGGCTGTATCCTTTTTGAGGCTGGG
AAACAGTCAGGCTTTCGTCATTGGAAGTGATTCTGCAGACTTCTGACTCACCTTATCAGGTGACTCTGGTTAAGGAAAGCTTTTGAGTGGTGAACTCAAA
GACTCCAGTTGAATCAGGAGGCAAAGGCAAAAATTAGCATAATTATATTTAAAAGCCTCAGGAAGTGGGAAGAGAATACTGCCTCCCAGCCTCAATTGCT
GATATGTTATTGGAGACAGGCTTTTGAAACTGCTCCAGCTATTTCTCTGTAACCTTTAGTTAAAATATAAGTAGAAAGGAGACAGGAGGCTCAGGAAATT
TTCTAAATTGCTAGTATAATATCTATATGTATACACACATATACACCCGTGGAGAGAGAGGAAGAGTATACAGTCCTGTTTGAATCATTTGGAGGATTTT
TTTGCTGAATAAAGTTCTCAAGAAAATTTTCTAAAACCAAATTCTGATTGAATCACAAGGTGGAAGCAGGCTGTGAGCCTAAATCTGGTGAAAACTGCCA
ACTGCCTCACAGAAAGGATCACATCTATGAAACAAGTGTCCCTCCCATATACACATTCATATTCTTTCTCTAAAGTCACTTCAGAAATAACCATTCACTG
GCTGGGCACGGTAGCTCACACCTGTAATCCCAGCGCTTTGGGAGGCTAAGGCAGGCAGATTACTTGAGGCCAACATGGTGAAACCCTGTCTCTACTAAAA
ATACAAAAAATTAGCCAGGCATGGTGGCATGCACCTGTTGTCCCAGCTGCGTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGC
AGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGAGAGACTCTGTCTCAAAAAAATACAAAAATACAAAATACAAAAATTAGCTGGGCG
TGGTGGCAGGCACCTGTAATCCCAGCTATTTGGGAGGCTGAGGCACAAGAATCACTTGAACCTGGGAAGCGGAGGTTGCAGTGAACCCAGATTGCACCAC
CACACAACCTTGTCTCATAAAAAAAAATTCACTAGGAACCAGAACCAATTTAGGTTTAGGCTGTGTGAGTAAGACCCCACCTATACTATTCAAAAGAAAA
GGCCCAGATTAAGATTCTAGAAACCTGGATTCTAGGAGCAGCTCTGGTAAGTAGCTCATGTAGTCTTGGAGGAATCTTTAAGGAGTAGATCTCCACTGTA
AACTTTTTGCAAAATTTTAACGTGTTTCCTTATAGCATCTTTCTGACAGTACTGTGAGGCTCAAATGCGAGGCTTGAAGTACTTGAGGTGCTTGAAAGTA
AATATAAATGTATAGTAATGTGGATGGTAGAAAAATGGCAAGTGAATTTTTTTTAAGGATAAAGCAAGATAAACTAGAAAATTTAAAACTAGCACATAAG
GATGCCTTACACAGGTCTTTTTTTTAAATTTAGGGATTAGTAACGTCTACCTCTATACTACATGGCAACTATATTTTCTCACAACCACAATTCTCAAAAT
TTATTTTCTCAGAAAAATCTCAGTATTAGCCAGGCACCGGTGGCTCACACCTATAATCCCAACACTTTGGGAGGCCGAGGCGGGCAGATTGCTTGAGCTC
AGGAGTTCGAGACCAGCCTGGCACCATGCTGAAACCCCATCTCTACCAAAAATACAAAAAAATTAGCCAGGCATGGTGGTGTGTGCCTGTGGTCCTAGCT
ACTTGAGAGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGGAAGCAGAGGGTGCAGTGAGTGAGCCAAGATTGCACCACTCCACTCCAGCCTGTGTGACAC
AGCAAGATGCTGTCTCCAAAAAAAGAAAAGAAAAATCTCAGTCCCAATTAGCAGAAAGGCTCTAGTGAAGGAACAGTTCTGGTGAGTAGTTCAGGTACTC
TTGGAGGAATCTTTAAGGAGCTTCCATTTATTTGATGTTTCAGATGTTGCCTGCAATGAACTCGCTGAAGCATGCTCAGCCCTGGAACTGGTGCTACCAG
AGTTCCGTAGGGAACCTTTACTCTTTAGAGGTTCCCTGATATAAATCATTCATAAGACTTCCTACCCTGGAAAATGAGTAATGTCTCATTCTTACCTGCA
GTTTGTTACTATGTATAAAAGTCTTTTTCTTTAATATGCCTTTAAGTCTTACCTGTTTACAGCCCATTCTGATGGGTTCTTTGTCATTCTGTTAGTATAA
CCCAGTACTTTTCCTGCTGCCTGGAATGCCCTCTTCTATGTTACCTATTCTGTCCGTTGAGATCCCCCAACTTGGGCCAAAGCCAAGAGATCTATGTGCC
TTCTCTGGTTTTCTCCACATCTATAGCACCTCAACTGAAATATATGGATAAAAACAGCCTAACAAAGCTCAGTCTTTCTGAACTAGGAAGTTCACTGATT
AGTGCTCAGTAAATGGTTAGAATAAATGGGGAAATAGTTTGGGGCATGGAGGAAGGCAAAGGGAACCAAAAATCCTTAGGTACTTTCCTCCGTAGTTCAG
GTCCCTGTGATCTTTTCAGTGAATTTAGCTCTGTTAAGGTGTATATCCCACTCCAGTCAACCCTATTACCCACCCCCCCAAGAAACCGTGAACACTTGAT
GATTGCACTACCCTTTATTCCTAGGATGGAAAGTGTCCTGAATCACATCCCGGGCCCCTGATTCCATGTGTCAAGGCTTCCAGCCCCTCAAAGCGTTGGA
ATAAGCATGTTCAAGGAGGCTCACTGGGCAGGTGGCCAACATCCCTTTCAAGGGGATACACCATAAAGATGACATTGTCCAAGGGAGGGAGGGCAGGGTG
ATCTGGTCTGACCACCTCAAAGCCCATGTAGCTGAAGGCCCGCAGCAGGGCACCTGTGAAAGGATAGAACAAATGATTAGAACATGCTTTAAAACTCAAT
ACATGTATGCCCCCAGATTTGATTTCTTCCACTAGGGAGTGGCCCTGGGAAGCAGTGTAGTGCAGGCATATAGGATGTGCTTTAGTCCAACAGACCTAGG
CTCTAACTCTGGTTTTAACACTTGTTCTGTGAGTTAGTCCTGCAGAACTTCAGTTTCCATCTATAGAATTTTCCATTTATAAATCATAGAACCTTCCTCC
TCACAGAATTTAAGATGAAATGAGATGTTCATGAAGTGCTTAACACTAGAGATTAGTGAGGTCTACCTATATACTAATACAATGATGGCATAGTAAGCTC
TGAAATAGTATCTATCACTTATGAATGGTTATTCACCATCCCTTATATCCAACAGAGTTTGAGCTCCTTGAGGCAAGAGGCTATAGTTTCTGTAACATAT
GCTCCAGGCATCCGGTTAAATATGTCCCCGTTCCCTTGGCCTTATGTCTGACCCTTTCACATTGTAGGTGCTCCATATGTTTGAGATCCATTTTGTCCTG
CTGGCCACATCCCTTGAATGGATTCTGTGTAATTTCACCAGTGCTCCTTCAGTCTGGCCCCTAACACCACCTGCAGGGGCTTCCTCAGAGTCCAGTTGTA
ACTTGATGGAACAAGTTACAACTTCCCACCTTCGTGGTAGGTGGGAAGAAAAGAATCCCTGAAATGCCTGAGGGTGCATTTTTAAAGACAGGGGAAGAGG
GTCTCCTGTAAAGGAAAAGGAGTTATCCAGCTGCCTCAGCGCGAAAAGCAAGGAAGAACAGCAGATCCCCACCTCTGTCGTTCCGATCATTCTGGAAGTT
CACAAACACAGAGTCCACATTTGTCTTCTCTTCCACGTACTCCAGGGTTGCAGTCAAACTAGGAGCCACAGAAAAACAGTTAAAATGTTTGGCCGCTCCC
TCTCCCTCTCCCTCTCCCTCTCCCTCCACGGTCTCCCTCTGATGCCACCAAAGTTGTGAAAGCCGAAGCTGGACTGTACTGCTGCCATCTCGGCTCACTG
CAACCTCCCTGCCTGATTCTCCTGCCTCAGCCTGCTGAGTGCCTGGGATTGCAGGCGCGTGCCGCCATGCCTGACTGGTTTTCGTATTTTGGTGGAGACG
GGGTTTCGCTGTGTTGGCCGGGCTGGTCTCCAGCTCCTAACCGCGAGTGATCTGCCAGCCTCGGCCTCCTGAGGTGCCGGGATTGCAGACGGAGCCTCGT
TCACTCAGTGCTCAGTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCGCTACAACCTCCACCTCCCAGCCGCCTGCCTTGGCCTCCCAAAGTG
CCGAGATTGCAGCCTCTGCCCGGCCACCACCCCGTCTGGGAAGTGAGGAGCGTCTCTGCCTGGCCGCCCATCGTCTGGGATGTGAGGAGCGCCTCTGCCC
GGCCGTCATCCCGTCTAGGAAGTGAGGAGCGTCTCCGCCCAGCCGCCCATCGTCTGGGATGTGGGGAGCGCCTCTACCCGGCCACGACCCTGTCTGGGAA
CTGAGGAGTGTCTCTGCCCAGCCGCGACCCCATCTGGGAGGTGAGGAGCATCTCTGCCCGTCCGCCCTGTCTGAGAAGTGAGGAGCCCCTCCGCCCGGCA
GCCGCCTCGTCTGGGAAGTGAGGGGCGTCTCCGCCCGGCAGCTGCCCCGTCCGGGAGGTGGGGGGCAGCCCCCGCCCGGTCAGCCGCCCCGTCTGGGAGG
GAGGTGGGGGGCAGCCCCCGCCCGGTCAGCCGCCCCGTCCAGGAGGGAGGTGGGGGGCAGCCCCCGCCCGGTCAGCCGCCCCGTCCGGGAGGGAGGTGGG
GGGCAGTCCCCACCCGGCCACCGCCCCCTCCGGGAGGTGGGGGGTGCGTCTGCCCGGCCGCCCCTTTTGGGAAGTGAGCCCCTCTGCCCGGCCGCCACAC
CGTCTGGGAGGTGTACCCAAGAGCTCATTGAGAATGGGCCATGATGACGATGGCGGTTTTGTCGAATAGAAAAGGGGGAAATGTGGGGAAAAGATAGAGA
AATCAGATTGTTGCTGTGTCTGTGTAGAAAGAAGTAGACATAGGAGACTCCATTTTGTTCTGTACTAAGAAAAATTCTTCTGCCTTGGGATGCTGTTAAT
CTATAACCTTACCCCCAACCCCATGCTCTCTGAAACGTGCTGTGTCCACTCAGGGTTAAATGGATTAAGGGCGGTGCAAGATGTGCTTTGTTAAACAGAT
GCTTGAAGGCAGCATGCTCGTTAAGAGTCATCACCACTCCCTAATCTCAAGTACCCAGGGACACAAACACTGCGGAAGGCCGCAGGGTCCTCTGCCTAGG
AAAACCAGAGACCCTTGTTCACTTGTTTATCTGCTGACCTTCCCTCCACTATTGTCCTATGACCCTGCCAAATCCCCCTCTGTGAGAAACACCCAAGAAT
GATCAATAAATACTGGGAAAAAAAAATTTGGCCAACTCAGAATCCAGAAAGACACCTACTTGGAGCAGTAAAAATATTATTGGTCGTTTTCTGCCCTCCA
CCCACCCAAGCCAGGAAATGAAAGTTGCTAAACTAGTTTTGGTAGATTTTTCTTGGAAGCCAAGAGATTGCACATCACTGGATGTAAGCCACAGAAGGGG
TCTGGGGAGAAAGGACTACTGAGATGAACAGCTAGAAAGTACTTCCCGTTATTCAACTATTTCTGGATCTGAGTCCAGCTTCCCATGGACTCTTATCCCT
TGAACCCCAGATCCTGGCTCAGCTCACAGGCTTGTCTGCATGCCAGGTGAATGGATTGCTTATATCTAGCTCCAGAATTAGCCTTATGTACTATGACATG
ATAGAAGGGTGAAATCCCCTACCTATTCCCTCCCCATTCTCCCATCCAGGCTCAGTCACCTTTCCCGGTTGCCTTGATCCAAGGCCTGATATGGGATATC
CARGAAGAGTCGACGGTCACAGAGAAGGCCGTGCCAATGGGCAGAGGTCTGGGAGGTAAGGCGGAAGTGAAAGTCTAACTGTACTGGGTCCTGGTGGAGC
AGGGGGTCAGTAGCCAGCACCGTCAAGTTCCCAGCCTGGAAAAGGAGTAAAAATGCTCCTCTAGTCTTCAAATCAGACCTCAGGCAGATKGGGGTGTGTC
CGTTGAAGCAAGGTGGGCATTGATGGGGAGAGCCTGGGAGAATTGGAGYCAAGATCTTAAAGATGCAATAATATCCCTTAGTCCCAGGAACTAATAGCCT
ATGCCTATTGTGGAGTTCTCCTTTATATCAAACAATCCAGCTGAGGCAGTATTACTGCCTGTTGACTTCAACCCAGGAGTACAATAACCATTTAGGAACT
TAGAAATGTTTACATCAGAGAGCTTAGGATTTAAACAAAGCTTTATAATGTGCTTCCTTTCTCACTAATAATTTCCACTTTTTTCATTATATGGGTTTTC
TCTAAATTCTTCTATTTAAAATGCCATGGTTACAACCAGGCTTGTTATTGCAATATGATATGTGGGCAAGTTCTGGATTCCAGATCCTGCTTAGCATCTT
TAAGCAGGATCTTGGCATAAACAGCTTTATGTCCCAGAAGTCCTACAGAGTTTGTTTTACCTTTGTCCCCACTCCCTCTTTTCCCAATCCTGATTTTCAC
TACCATCTGTATGACCTTGATTTTACAGTCTGTGGGCCAGAATGCTTGTCTATATAGCAAGTAGCTTTTACACATGCGTTCCAAGATTCCATCTACCTCT
GTAATTCATCTTCCAACTTGCTAATGTCCCTCCTCTGCAAGGTATGCAAGAAAAGGGTTGCCCTGTCACAGCACTAGCTCACAGTCCACTTACCGAATAC
AGTTCTTTAAGCTGGTCGTGGTTACCCTGCTCGGTGCTTTTGCCCTCCTGGAGGCCTACTAGGGACTCAGGAGCACTGGAGGCAGGAACGGGGCTGGAGT
GTCAAGTCCTCCTCTTCCTTATAAGTGATGCTGGTTGGGAAAGAGACCCAAATTAGTTTATCTTGGAATCTGAGGTGGGAAGATACACAGTACCAGGCTC
TGGCATGATCTTCTGTATTTTCTGTTGTCCAGCCTGTTTCTRTGTTCCTGGGCCCAACCAGATGGAAAAATTCTAAAGTTCCATGCCAGCTTTCCACCCC
CTATTCTGTTGTTATTTCTTGCCATTTGGGAAATTCTTTCAAATTCTTTTACTTTTTCCTTACATTTTATATAAACAACTACAAATAGAGATGAAAACAA
GTACCTTTTATAACAACGAGGCAGCATCTTCTCCCGGAGAGTGATCCGGTACTTGTAACAGTAAAGGTAATAGGCGTATGGTGACCAGATCGGGTAGAGG
TAGTTACGTGTTTTTCCCCTCTTGATATAAGAAAGGGAGTAGACAGAGGGGCGACACCTCTTACAAGGCAGTTTTTCAGTTCAGTGCCTCCCTGTGGCAA
AGTGAAGTTCACAGGTGGGTGGCAGAGGTTTAGGCAACCTGGTGGCATTGTGACCCAGTGGGCACTATGACATGGATAAGGGGTCAGCCCTTATGTCACC
TCAGGACTCCACTCTGCTGCTTATCTACCCTAATCCCTTATCCAAGGCTCATATTCGACTAGTATGCATGTTATGGCTGTATGAATGATTAAAAAATAGA
ACTTGAAGACTTCTGTACTGGTTGGCCAAAAGCCCTGCCTGAGCACTTGTGCCCACCCACCCTGCTCCTCTGTGGACACTCCCCTTCCCCCAAAATCCAG
CAAGTAAAGAGTTGGTATCTGACTCTTCCAAGGCTCTGATCCAGTGGTGACCTGATTAGTTGGTTCCCAGTTCATACCAGTTGAGTATTTTTATTATCAT
CCCTACCCTTAATAACCCAGGATCCTTGTAGGGTAGGAATTGCAAACTAATTGTCTAGGCCCCTTCAGGGGCCTAGACAGCTTATGGAAATTAGTGGAGT
GGCAGGGTAGGGCTGTAGCAAAATAGGAAAGCTCACACGTTATCTAAAGGAAGTCCACACAACTCAATTCCATCCAGTTCCATGCAAGAATGCAGACTTG
ATGGTGCTGTATCGTATGATTTTTGAACAGAAACTGGAAAGACAGTTTTGTAGTAAATCTCACCAATTTTAAAAAATATCGACTACTGGGCCGGGCACGG
TGGCTCACGTCTGTAATCCCAGCGCTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGATGAAACTCTGTC
TGTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCAGGCGCCTGTATTCCCAGCTACACGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGG
CGGAGCTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCAACATAGCGAGACTCCAACTCAAAAAAAAAAAAAATCAACTACTAAAAAATT
GTTGATAAAAAAACAACATTGTAAGCAAAATTTGGTTCTGGGACTGCCACTTTGAGACCTCTGCATATTTATCCATTCAACAAATATTTATTGAGGGTCT
ACTATTAGCCAGGCACTATTCTAGGTGCTTGAGATGATACATCAGTGAACAAAACAAATCCCTGCCCTATGGAACGTATCTTCTAAAAGTGAGAGGACAA
ACCTAGAAAATAAACATAGTAAATTGTTTAGTATGTTAGAAGGTAACTGCTATGGGGTGGGGGGAATAGAGCAAGATAAAGGAAGATAAGGAATGTGAAG
GGGATGGGTCAGGGTTACAGTAAGAAATAGGGTGATCTCTCACTGAAAAAAACTGACATTTAATTAAACACTTGGAGGATGTGAGGTTGTTAACCAAGCC
AGCATCTGAGGATAAGAGCATCCAACGCAAAAGCAGCCAGTGCAAAAGCCCTGAGCAGGAAACGTGCCTGGTGTTTTCAAGAAACAAGGAGGCCACTGTG
GGTGGAGCAGTGTAAATTAGAGAGGAGCTAATGGGGTCAGAGTATGTATGGCCTTGTAGACCATCTGATGGCCTTTTTCTTTTACCTTGAGTAAAGGAGG
AAGTCATTACAAAGTTTTGGGTGGAAGAATGACATGATCTGACTTATGCTTTAAAAAGATCATTCTGGCTGCTATAAATAAGCTACATAGAATTATAAAC
TGTAGAGAATTAAGGGATATCTTTTAGGGGACTATTGCAGTAATCCAGGAGAAAGTAGTGTCTTATTCCAAGGTAGAGCATTGGAGGTGGTGACAAGTGG
CTGGATTCTGGAAATACAWGTGCTCCTTGACTTAAAATAGGGTTATGTCCTGATAAACCCATCGTATGTTGAAAGTATCATAAGTTGAAAATGCATATAA
TACACCTACCAAACACCATAGCTTAGCCTAGCCTATCTTAAACATGCTCAGACAACTTATCCGACAGTTGGGTAAAATCATCTAACACAAAGCCTATTTT
ATAATAAAGTGTTGAATATTTCATGTAACTTATTGATGTCCTACTGAGTGCACATCACTTTCACACCATCACAAACTCAAAAATTGTAAATCCAAGTCAG
GGACTATCTGTAATTTAAAGGTAGAACCCACAGGATTTCCTGATGGAGTATGAGAGAAAAGAGTTAGAATGGAAAGAATGGAGTTTCTGTCAACTGAGAG
GAAAAAGGCTGCAGATGGGGCAGTTTTGGGGGCGAGGGGGGAATAAATAAATTAGTTTGGGACAGTTAACTTTGAGGTGTCCTTTGGATACRTAAGAGGA
AAATGACGAATAAACAGTTGAATATTTGAGACGAGTTTGGGAGATGTCTAGGATGGAACTAGAAATTTGGGAGTCATTGGCTTATAAATGGTATTGTAAG
CCACGAGACTGGATGAGATCAACAGTGAGTGTATACTGAGAAGAGTAAAGGTTCAAAAACGGAGTCCCGAGGGCATTCTAAGAAGCGGGGAGAAAAGGAG
AAATCAGCAAACGAGACTGAAGAAGACCGGTGTCCAGGAGGCCAAGTAGTGTATTTAGGAGGAAGGAGGACTGGTCAGTATGTTTAAGGGCCAGTCTTTC
CATAATCTCTGCCAAATGGACCTTCTTTCATCCAGTTTTTATGGTCTTCTGTCCAGTACTGAGACCCTCCCCAGAGGGAACTGTCGCGGCCTTACCATAG
TTGCTTTTTTTYCTACGGTTTACATAGCTTGTGATTTAGAATTCTCCTTTATTAGCTTAAATACTGCAGTATAATGATTAAGGGTCAGGCTCCTCCTGGA
GCTGGCAGAGTTTTCCAAGGGATCCCATCCTTTACCACTTTTAGGTAGATTTGAAGTAAGGAAAAGTGAGAGCATCATTCATTCTCCGGTCAGTATCCAG
TCATCACAGAACGTTAGAATTAAAAGTTAGCCCAGCAACTGGAGCTACAGCAAAGCCCACACTTTCAAGAGGAAGAGCGTCTTTTCCGGCGTCAGTCCAC
CTAACACTCATTCCATTATCAGTCAGTRATTCTAGGCGTCCGTCACCTCTGCCAAAAAGCAAAAATAGGCAAGCCGCGGTGCCATCTGTTCCCCGGCCCG
CTCCCCATACTTTCGCTCAGCCGTACCGGCGCGCCGCAGGCAGCACTGGCGGGGGCCTTTCCTGCCGCCGACGCCGGGGTCCTCCCTCAGGTCTCATTCT
GTGCCTGTGAACATGGCGGCGCCCGTTGTCACGGCCCCGGGCAGAGCTCTGCTGCGGGCGGGCGCTGGACGGCTGCTTCGGGGAGGCGTCCAGGAGCTAC
TGCGGCCGCGACATGAAGGGAACGCCCCTGACCTGGCCTGCAACTTCAGCCTTTCTCAAAATCGGGTGAGGGCTGAGTCTGGGGTAGGGGGTAGATACGC
TCGAGTATTGTTTCTGGAGGCGCACTGGGACCTGGAGGGGGCCGATGTGGGGGTGGCGGGCTTTCCTTGAGGGGCTGGCGGCCGTGGTGGAGGGAGAGGG
TGTTCCTTGTGGAGACTAGCTTACCGTCGCTTTCCTGGCCGCCAGGGCACGGTCATCGTGGAGCGCTGGTGGAAGGTACCGCTGGCCGGGGRGGGCCGGA
AGCCGCGCCTGCACCGGCGACAYCGCGTCTATAAGCTGGTGGAGGACACGAAGCATCGGCCCAAAGAAAACCTGGAGCTCATCCTGACGCAGTCGGTGGA
GAGTAAGGCCCGGGCCGAGGCGCTTCCTCTCAGGCTGGTCCGGTTTGGCATCAGCTTTTTCTAGCCCGTCCCCCTCAACTATTTGCCTTGCTTTTTCTTT
GTGGAAACAATCCAACTCTATATGTGAGAAGAGGAAGCCATAAAAACTATTGTGATTGTGACACTGGCCTCCAGCATTGAAAATTAAAACATAAAGGCAG
CAACATCATTAACAGTGTGTGGGGAGAGGAGCCTGACAATTTGTGCCACAGATACTGAAATCCTCCATGGGACGACAACTCCCTCTATACAGGGGATATT
AAATTTATACATCAAGTTCTAAAGAAACTAATTAGCAGTCTCTTAAATCTTGTTCCTAGTGAATATGAATTAGCATTTCTTTTAGGAAAAATAAGCACTG
TGAGAAACTAAGAGGTGCTTCTCTTTTTGACATCTTTTCTTTAGGGACTCCTAGATGGTTCTAATTCCCCTGTCTCTGTTCTAATTGACAGATGTTGGAG
TCCGGGGTGACCTGGTCTCAGTGAAGAAATCTTTAGGCCGGAATCGACTCCTTCCTCAGGGACTGGCTGTATATGCATCCCCTGAAAACAAGAAGCTGTT
TGAAGAGGAGAAATTGGTGAGCTCAAAGGAAGGACAGAGAGACTTGGGGAGATAAAACTTCTTTTCTCTTGCAGYTTCCTTCCCTTTGACATTTAACTTA
ACTTGAAAATGAAATAGGAACTAGAAGAACAGGAATGCAGAAGCCCAGCCAATGTCCAACATAGGAATAGTTTGATGSTATTTAACATGGGCTCATTTTT
CTTTTACTGCTTTTCATCTTTAACTTTCTTTTCTAGCTGAGACAAGAAGGAAAATTAGAGAAGATCCAGACCAAGGCAGGTGAGGCGGTGAGTAGAAACA
TAAAAAGTGTTTATTTGTCACAAGACTTACCAACCTCACCCTGAGAGTCTCCCTGATTCCCTTGAGGTCTCCTGATTGCAGACCCAAGAGTGGGAGAAAG
GGGAAGTGTTGTGGCTGCCCCACAAAACAGGTATGGAGACCTCTTGGGAGATCCCTGATGTGTTGGGTGAAGTGCCTTAAAGTACCAAGGGAGGTCCCAA
TCTGGGAATCAGGGAACCCATGGAATAGTCTGAGATGAGGRCTCTGCCTTCAAGGATATTTACRTACAAGTTGGAGAGAACATGGACACATGAGAAGATA
ATCAGTACAGGCACCCGCCACCATGCCCGGCTAACTGTTGTATTTTTGGTAGAGACAGGGTTTCGCCATGTTGGCCAGGSTGGTTTCAAACTCCTGGGCT
GAAGTGACCCACTTTGGGAGACCCACCTTGGYCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATCTTGCTTGGCTTGCATACCCTGTGACCCTGACAT
GTTTCCTCTCCTTTGACTCAAACTCATAATTCCTTTCAGACAGTGAAATTTCTAAAAAGCTGTCGCCTGGAGGTAGGGATGAAGAACAATGTCAAATGGG
AGCTGAACCCTGAAATAGTTGCCCGCCACTTCTTTAAGAATGTGAGTGAGTGTTCCCAAAAACCACTCTACCCCTGAGGTGGAAGCTGCCTCTSGAAAGG
AGGCCTGGGATTGATCCCTTTGTTAGGAAGGGGTGTGATCATCCAGTTGTAGTTAAGGAAAGTATTCTTGGTTAGTTTGCAGGAATATGGGAAGGAAATG
GCTAAGGACTAAGGATGGTCACATAGAATTTGAAGACTGATAGGAAAAGGTGGTGGTTTCCATTTATTTCCTGTCTACCTAGGGAAATGCTGGGGATTTG
TGACTCACTGGAGAATTGTTACTTTTGTGGATGAAGTGGTTTTGGCCTCAAGCCCTGTTTCTCTTTGTGAATCTACCTCCCTTTCTGAGAAATCAGAATT
GAATTTCTCTACTACCGTCTATGAAGGTGTATGCCCTTCTCTCCCATGGAATCAGCCAGAGTAGACACCCCAGTTTTATTCATCCCTGTGCAGGGAATCC
TGTAACCCTCTTTATGAGGTTCCCTAGAGTGGCAGTCATGAAAACAGAGTTCATTTGAGCTGAGATTTTTTTTTTTTTTTTTTTTTTTGCAGCTTGGTGT
TGTGGTTGCCCCACATACATTAAAGTTACCAGMAGAGCCTATCACACGGTGGGGCGAGTATTGGTGTGAGGTGACGGTGAGTGTTTTGCATACTTTCTTT
TTTCTTTTCTTTCTCCTTTTCCCCCACTTTTTCCTTTTTTTCCTTTCTCTTAAAGACAGGGTTTTGTTTCATTGCCCAGGCTGGATTCAAACTCCTGGGT
TCAAGCGATCCTCCCACCTCAGCCTCCCAAGTAGCTAGGACTACAGGCGTTAGCCACCGCACCTAGCACCTACCTCTCCCTTTTTTCTAATTTTTTTTTT
TTTTTTTTTTTTTTTGAGCTGGAGTCTCACTCTGTTGCCCAGACTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGC
GATCCTTCTGCCTCAGTCCCCCTAGTAGCTGGGATTACAGGCACACGCCACCRTGCCTGGCTAATTTTTGTATTTTAGTAGAGACAGGGTTTCCCCATGT
TGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACTGTGCCCAGCCCTAG
CTCTCCTTTTTCTGACTGGGAGAAAAGTCAGGGTGAAAAGCTGGGATTAGGTGGTGCTAAATCTTACYTACCTGACTGATCTCTGAGAATTCCCATTGTT
TTGTGTGCAGGTAAATGGGCTTGATACTGTGAGAGTGCCTATGTCTGTCGTGAACTTTGAGAAGCCCAAGACCAAAAGATATAAGTACTGGTTAGCCCAG
CAAGCTGCCAAGGCTATGGCCCCCACCAGCCCCCAGATCTAAATCTACTCTCCCTCCAAGGCAGCAAAGCAGAATCGGGAGCAGTGGAGCAGAAATGTGC
AAGCACCCTGATCTCACTCCCAGCTCTGACCAAATACAGAATTTTAGAGAACATCTGAAGACATCAGACTGCACTGCGTATACATGTTGAATTCTTCATT
TTTGCCATCTTTAACTGTCATCACTGGGGCAGGGAAGTCCTGTTCCAGAAGTACCAGGCTGTAGATTTGATAAGCTAGATGCAGTAGACCGAAACCATCC
AAAACCTGTTTAGCTTCTTCCTCCATTGGAGTTTATTGGGACAAACAGGAGAGCCAGCCATTGTCTCCAGTACTTGCCTCATTCTCATCATCCAAACTGA
ACATTTGTATCCCAAGCAGAAATAAAGAGAATATGTTCTTTTTAAGTAAGTGTTGCTTACTGGTCTTGAGTAGATGAGACAGGACATCCAACTGAGATTT
CCTTGAGTCACAGAGGTTTGCTGCTAAAAAGGAAAGAAGAGAATATCTTAGACTGCATCCCACAGTTACTGTGGTATGAACAAATTGTGCTGAACAAGTT
GATGATGTGTTTGGTCTTAACACTTACTCTTCTTAGATACATTGATGTAGTCATCAATGTGAATAAGCACAATGGATTCTGCTTCTCTAAGACCTGAGTA
AGGCCTAAGGGTAATTGTTGGAAAGCTGGGATGAAAGAAGCTTAAAAAGGGAACTTTTTTCCTTGAACCAGCTCCTGAAATTCTGAAAAAGAAGTTACCT
TAATTTTCTAGACCAAGATTAAGATAGGGAGCTAGTCAAAAGGTAACTCTGGAATGGATGAATGGATGTCTTGATGGGAGATAAACGAAAGTAGATAGTT
TTTTCCTTTTTCTTTTTCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATAATCTCAGCTCACTGCACC
TCCGCCTCCCTGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGTGCCACAGCACCCGGCTAATTTTTTATATTTTTAG
TAGAGATGGGGTTTCACCATATTGACCAGGATGGTCTCAAACTCCTGACCTCATGATCCACCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCAGGC
ATGAGCCACCATGCCTGGCCTGAAAGTAGATAGTTTTCTGTAAGTTCAGAGTTTCATTAGTAGAAAAAAACATTCATTTTCAGGTGGATTGTGCCAAGGT
CACTCAAATACAATGTGAGGTCATGCAGTTTAGGGTAGTAAAGATGGGATCATTGACTCCTTTGCTATCCATACCAGACATTGGTTTCTTTCCTATTTGA
GCTCACCTACCACTCTGAGTCAGTTAAACACTTTCATCCCATCTCAGCTAATGAGAAAGTCTGTCATCAGTAGTTGCACTGATAACTATAGCCAACTTCA
TACTTGACAGAGCTCTGTAACTCAAGTGTGGCACTGGCACTATCTGAAATTTAGCATTTCTCCCCTCCCCACCCTTTTCTTTTCTTTTTTTTTTTTTTTT
TTGAATGGGAAAATAACATTATTTCACATTAGGGAGTAGGCAGGCATCCAGACTCAGAACTGGAATTGCTTCTTGGTGGCATTGGGGACCATGAGCATGT
TGAAGTGTACCATCTTGCTCATGCTGGTGCTTACCCAACCATGATGATGTTGCTGATCTGGACATCCCTGATGCAAGGGGATGGGTGCATGAACATGTTC
TTGTGCTTCTTGAAGCAACTGTACTTACACATGTAGTGGAAATAGTCTTGGTGGATGATGTTGATCTTTTGCATCTTTTATCTTGGTCACCATGCCAGAC
AGGATCCACCCTCAGATGGAGATGTTACCAATAAAGGGCAATCAGTGTAAATATAGGTGCCCTCATAGCCTATTTGGGCATATTGAAGCCCAAACTGATT
TTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTTGGCTCACTGTAATCTCTACCTCCCG
GGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGAGCCCACCACCACGCCCGGCTAATTTTTTGTGTATTTTTAGTAGAGACGG
GGTCTCACCATGTTGGCCAGGCTGGTGTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTTCCAAAGTGCTAGGATTACAGGCATGAGCCACTG
CACCCAGCCCCAGACTGATCTTATGGTCCTATAGGAACTTCTCATTGCCAGTATCTCCCAGCAGGACCCTCTTGTTTTGAAAGATGGTTGACTGCTTTTG
GTAGGTACACTCAGTCTTGGATTTAACAGAACTTCCTGAAAGGTTTGAGCCTCCATTAACTTGCAGAGACCCCAGTATTTAGGAAGCGCTAATCTAGATT
GAAGTAGATGCATACACTTCTGTACCCCAGTTAATCCCTAGTGAGTTGGGGACACCCAGAATTAACCCCCAAACTGAAGCACAGAGTTCTGCCATCCTGG
ACACGCTCCTGAGGTTTGGGGAGGACCTGCAGCCTCGGCATGAGCCCCAAGCCCACTGAAATTTGCCATTTCAATGATCCCCATTCCTATTGTCCTTGAA
ATGGTAGGCTAATTAAACACACACAGCATCTCTCAACATGACCATCACGAAACTCTCTGAAATTGAGCAACGAGCACACATTTCACACAGCTAACCTTAA
AAAGCATTTAAATACCTGCCATAGGTTGAGTTCTTGGCAAAAACACTCTGTGTTGGAGATTCACATGCAGGAAGTTTATTGGGAGGAGTTATCTGCATCA
ACACCTATTGGGGAGTAAAGGCAGTAGAATTGGGTAGAGGGAGAAATTGAGCTGATGCAGTCTTAACAAACGCCTCAGTCAATCAGGAGCTCAAACTAGG
ATGGCTCTGCAGGATGCCCCAGTAGGGTAAGTGGGCTGGACCTTATCTCCCCACTTGACCAGGAAAGGGGTATGATCATGAGTGAGGTGGCTAACTTCAG
CCAAAGGCGGTCCCTGGATGAGGCACAGGTGACAGCTGTCAGCATTCTTAGCAGCTTCAGTCCTCAAGGGGAAAATATGGGCAGCACACCACAGTCAACA
CTGCAGTCCACCCTTTGCACTGCTCAGACTGATTTGTTTCATTAGTTCTGGAATGGTTTCTTCAGGATTCTGATGGATCTCTTTCTGGGGAAACTTAAAA
GAGGAAGGTCTGGAACAGGCCACAGCCTCTGCTGCTGTAGCTTGAGTTTGCAACTGGCATTCACCTCCCTTCTCTACTACCTATTGTTGATCTTTCCCCA
ACCCCCTTGAGGGGGTTGTACCTCTGGTTCACGTGGGTTACCAGATGAGGTACCTGGCCATCATGCCCTTCTCAGACTATGACTGCACTTGTTCATTTAT
CATCAAAATTGGGCAAGGAGAAACATACTCAAGTGGATGATCTGGGTGCCAGATATATTCTTCCCTGTCCCCACTGTGTAATAGCAGCCCCACCTCCTGA
TAATGACTCATTTCCTTGCCTTGTTTCTTGGTAGTGATTTGGAGTAATCTAGTGCCTGCCATAGCTTAAAGTTTAGTGAGATTCAGTGTGTTCACTGGTG
CAAATATTCCCCTTCTGGGAACCAGGACTTCTAAACCCTTAGAGACCAGAGTTGGGATAGAAGGCACAGTTTCTTCAATTGGGTCACTGGGAGTGATGAT
AATGCGGGCTGCTCCTACACCCACCCTTTGTTCCCCAGAGCCATATATTTTCCTTAAGGATACACTATTCAATGGCTATTGGTCTCAGGTATGTACTGCA
TCATGAAGGATGATGCCTTCTCCTTACAGGTTATCATCTCCAATCCGGTGCCTTAGCTGTGCTTTTAACAAGCACTCTATCAGGGAGCAGCTTCTGCATA
GTACGGTATGTGATTAAAGCCAATCCTACCATCATGTGCCCAGCATTGTACCTCCTTGCTATCAAGTGGGTCTCTTGGTTTGATGCAATGTTACACAAGA
TTTCAGGCCAATGGATCAAAATTTTGTAAACCTTTGGATGGTGTTGCTGACCGAGGCTGTGCAGGCAGGAAAGGCAAACCAGTACCCATAATATACATCA
GTGCCCCTTCAAAATAGAACACTTCCCCTTCCAAGGTAGCAAGGATACAGTGTAATCAACTTACCACCAAGTGGCTAGACGGTTTCCTTGAGGAATGGTG
ACATCAGGCTAAGTGTTGGTCTCTGTTGCTGGCAAGCTGGACATTCACTGATGCAGTAGTTAGATCAGACTTGATGAGTCCATGACGTTGAACCCTTGCA
TTTGCTCCACCATGGCTCCTCCGTTCATTGATCACTTTGCCAGCATTGGGGTGCCAGCAACAAAGCCTGGTTAACATTATTTGGCTAAGTCATTCCATCT
GCTTGGTTGGTACCTTTTCTGTGGTGGATGTTATCTGATGGGAATTAACCTGCAATACAAAAATCATCACACTGTATACCCATTCTCGGGTATGTTATGT
TCCTTTTCCCCACACTTCCTTGTTTTTAATCTTCCAGTTTGCCTTCCAGGCCCATGAGTCTATATATATTCTTACTTCTGGCAGGTACACAGGCCATCTA
AGTGGGGCCATAGTGCAGCCACAGTGTATTTCCAGCCTACTTTCACCTAATGAGACAACCAGTACATTAACCAAGCTCAGCCTTTTTCCTCTTCTGTCAT
CAGGTCATGAGGGATCTCCGATCCATGTGGCTACAGATGTAAACTGAGAAAGCACCACCAGTGCATCAATAGTGGGTGACAGGGCATCTGGGCACCTGCT
TATGTAGCTCACTTTTGCCTTCCAGCCCTGCTTGTTCCCAATTCTACATATGCCACTTTCATTTTATGAAGGATGACCGGTCGACCCACCCAGCCTTATG
ACTTGTGGGTTTGACAGAACCCAGGTTATAATACATCATGACTTAACGTCCCATAGGTAAGCACATTGTCTCAACTAGTACTCGGTAGCATTCCAGGAGC
TATCTTTTGAAAGGTATATAATGCTCTGTTTCAGATGGCATGGCATTGCTCCAGCACTATAGGGGGCTGTGTGTGACTTACTATTGGGATTTATCACGAA
CAGTATATGATCTTTTCTCACCACTGACACCTCTAATATAATATGGTGTCTTGTGATCCAAGCCGCAGGGCCATTTGTACCACAGTCTTGGCCTGCTACA
GAGCTTTTACCTGCTCTGGGACCCACTCAAAGTTGGCAGGCTTTTGTGTCACGTATGATATTTGTGTCAAAGCAACATTTCCAAGTATGGAATATGCTAG
CAATAGACCCCAAGACATTTGCAAGGCATTGTGCTTTTTAGTGGTGAGAAATACGAGATGCAAAATTTCTCCTTATCATCTTTGGAGGGAATGTCCTGGT
ATGCTTCAGACCACTGGACTTTTAAAAACTTCACTGATCTGGCAAGATCCTGAATATTTGTAGGATTCTTGCCCTACTATTTGAAGAAGATTTATCCTAC
CAAGGCCTCTGATACAGGTATCATTTCAGGTTCATCCTGTACAATTACCATGATGTCATCAGTGCAGTAATGGGATGTCCTATGGAATGTCCTAATGGTC
CAGGTCCCTTCAGACTATATTATGACAGAGGCAGGAGAGTTTACATGGTCCAGAGGCAAAACTGGAAATGTATATTATTGCTCATCTCAGTGAAAGCAAG
CTTTTATGATCTTCCTTTCTACAAGGATGAAAAAGGGTGCATTGTCCAGATCAATACATACCATGTAGGCTGCGTTAATCTTTTCCAGCAAAGATATCAC
ATTTGGAACAGCAGATAGAATTAGCATTATTTGTTGATTGAGATTGCAGTAATCCATACTCATTCTCCAAGATCTGTCTGGTTTTAGCAGTTGCCAGACT
AGTGAATTAAATGGCAATATGATGGGCACCACCACCTCTGCATTCTTTAGGTCTTCAAGCAGGGCACTAATGGAGTAATTTTTATTTATTATATTGGTCT
GGAATGGTGGAGGCAGTTCCAGACACTTCATGTTGGCCTTCCTCACTATGATATTTCCTACCTCACAAACCAAAAAACCAACCTGGTGGTTCTGCCAACT
GTCAAATATGTCTATTCCAACTGTCCATTAAGGACTCATGAAGTAACTACTAGGTGAGTCTGTAAACCTGGTAGACCTACTGAGAGTCAGAGCTGGAGCT
GGAATACAATTATTACCTAGCCTCCACACCCTGCAACTCTAACAGAGGTCCATAATGGAGCTTCCAATCCTAGGGTGTCAATGTCAATGGACTCTATCCA
ACAGTGCTTTAAATGTTTGCATAGTCCTCTTTCTCTCCTGTGTCTTATGA


SNP Information

Context             (SEQ ID NO:55272):
GGGAGAGGGTGTTCCTTGTGGAGACTAGCTTACCGTCGCTTTCCTGGCCGCCAGGGCACGGTCATCGTGGAGCGCTGGTGGAAGGTACCGCTGGCCGGGG
R
GGGCCGGAAGCCGCGCCTGCACCGGCGACATCGCGTCTATAAGCTGGTGGAGGACACGAAGCATCGGCCCAAAGAAAACCTGGAGCTCATCCTGACGCAG
Celera SNP ID:            hCV11260516
SNP Position Genomic:     12492
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)   POOLE|_CEPH(A,45|G,143)   total(G,143|A,45) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55273):
CAGTCATGAAAACAGAGTTCATTTGAGCTGAGATTTTTTTTTTTTTTTTTTTTTTTGCAGCTTGGTGTTGTGGTTGCCCCACATACATTAAAGTTACCAG
M
AGAGCCTATCACACGGTGGGGCGAGTATTGGTGTGAGGTGACGGTGAGTGTTTTGCATACTTTCTTTTTTCTTTTCTTTCTCCTTTTCCCCCACTTTTTC
Celera SNP ID:            hCV11342327
SNP Position Genomic:     14733
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55274):
AAAAATGCTCCTCTAGTCTTCAAATCAGACCTCAGGCAGATTGGGGTGTGTCCGTTGAAGCAAGGTGGGCATTGATGGGGAGAGCCTGGGAGAATTGGAG
Y
CAAGATCTTAAAGATGCAATAATATCCCTTAGTCCCAGGAACTAATAGCCTATGCCTATTGTGGAGTTCTCCTTTATATCAAACAATCCAGCTGAGGCAG
Celera SNP ID:            hCV11260517
SNP Position Genomic:     7649
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55275):
ACCGTCGCTTTCCTGGCCGCCAGGGCACGGTCATCGTGGAGCGCTGGTGGAAGGTACCGCTGGCCGGGGAGGGCCGGAAGCCGCGCCTGCACCGGCGACA
Y
CGCGTCTATAAGCTGGTGGAGGACACGAAGCATCGGCCCAAAGAAAACCTGGAGCTCATCCTGACGCAGTCGGTGGAGAGTAAGGCCCGGGCCGAGGCGC
Celera SNP ID:            hCV11342328
SNP Position Genomic:     12523
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;SC_12_C(C,0|T,23)   SC_12_AA(C,5|T,18)   SC_95_C(C,1|T,188)   total(C,6|T,229)   JBIC-allele(C,402|T,1097)   total(C,402|T,1097) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55276):
TGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCAACATAGCGAGACTCCAACTC
A
AAAAAAAAAAAAATCAACTACTAAAAAATTGTTGATAAAAAAACAACATTGTAAGCAAAATTTGGTTCTGGGACTGCCACTTTGAGACCTCTGCATATTT
Celera SNP ID:            hCV26672865
SNP Position Genomic:     9870
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,7)   total(A,4|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55277):
AAGCTGGTGGAGGACACGAAGCATCGGCCCAAAGAAAACCTGGAGCTCATCCTGACGCAGTCGGTGGAGAGTAAGGCCCGGGCCGAGGCGCTTCCTCTCA
G
GCTGGTCCGGTTTGGCATCAGCTTTTTCTAGCCCGTCCCCCTCAACTATTTGCCTTGCTTTTTCTTTGTGGAAACAATCCAACTCTATATGTGAGAAGAG
Celera SNP ID:            hCV26672866
SNP Position Genomic:     12633
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55278):
AGTGGCACGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATCCTTCTGCCTCAGTCCCCCTAGTAGCTGGGATTACAGGCACACGCCACC
R
TGCCTGGCTAATTTTTGTATTTTAGTAGAGACAGGGTTTCCCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCT
Celera SNP ID:            hCV26672867
SNP Position Genomic:     15153
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55279):
AGAGACCCAAATTAGTTTATCTTGGAATCTGAGGTGGGAAGATACACAGTACCAGGCTCTGGCATGATCTTCTGTATTTTCTGTTGTCCAGCCTGTTTCT
R
TGTTCCTGGGCCCAACCAGATGGAAAAATTCTAAAGTTCCATGCCAGCTTTCCACCCCCTATTCTGTTGTTATTTCTTGCCATTTGGGAAATTCTTTCAA
Celera SNP ID:            hCV25770181
SNP Position Genomic:     8542
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,9)   caucasian(A,40)   total(A,69|G,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:55280):
CCTTCCCTTTGACATTTAACTTAACTTGAAAATGAAATAGGAACTAGAAGAACAGGAATGCAGAAGCCCAGCCAATGTCCAACATAGGAATAGTTTGATG
S
TATTTAACATGGGCTCATTTTTCTTTTACTGCTTTTCATCTTTAACTTTCTTTTCTAGCTGAGACAAGAAGGAAAATTAGAGAAGATCCAGACCAAGGCA
Celera SNP ID:            hCV25645442
SNP Position Genomic:     13378
SNP Source:               Applera
Population(Allele,Count): african american(C,23|G,3)   caucasian(C,37|G,1)   total(C,60|G,4)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,4)   caucasian(C,39|G,1)   total(C,59|G,5)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55281):
GCATCCCCTGAAAACAAGAAGCTGTTTGAAGAGGAGAAATTGGTGAGCTCAAAGGAAGGACAGAGAGACTTGGGGAGATAAAACTTCTTTTCTCTTGCAG
Y
TTCCTTCCCTTTGACATTTAACTTAACTTGAAAATGAAATAGGAACTAGAAGAACAGGAATGCAGAAGCCCAGCCAATGTCCAACATAGGAATAGTTTGA
Celera SNP ID:            hCV25645443
SNP Position Genomic:     13275
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,1)   caucasian(C,40)   total(C,63|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:55282):
TAACTGTTGTATTTTTGGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTTTCAAACTCCTGGGCTGAAGTGACCCACTTTGGGAGACCCACCTTGG
Y
CTCCCAAAGTGCTGGGATTACAGGCATGAGCCATCTTGCTTGGCTTGCATACCCTGTGACCCTGACATGTTTCCTCTCCTTTGACTCAAACTCATAATTC
Celera SNP ID:            hCV9625372
SNP Position Genomic:     13932
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,40)   total(C,72|T,6)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55283):
AACTGAGAGGAAAAAGGCTGCAGATGGGGCAGTTTTGGGGGCGAGGGGGGAATAAATAAATTAGTTTGGGACAGTTAACTTTGAGGTGTCCTTTGGATAC
R
TAAGAGGAAAATGACGAATAAACAGTTGAATATTTGAGACGAGTTTGGGAGATGTCTAGGATGGAACTAGAAATTTGGGAGTCATTGGCTTATAAATGGT
Celera SNP ID:            hCV9625373
SNP Position Genomic:     11192
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55284):
TGGGTGAAGTGCCTTAAAGTACCAAGGGAGGTCCCAATCTGGGAATCAGGGAACCCATGGAATAGTCTGAGATGAGGGCTCTGCCTTCAAGGATATTTAC
R
TACAAGTTGGAGAGAACATGGACACATGAGAAGATAATCAGTACAGGCACCCGCCACCATGCCCGGCTAACTGTTGTATTTTTGGTAGAGACAGGGTTTC
Celera SNP ID:            hCV25645454
SNP Position Genomic:     13764
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:55285):
ACATGGACACATGAGAAGATAATCAGTACAGGCACCCGCCACCATGCCCGGCTAACTGTTGTATTTTTGGTAGAGACAGGGTTTCGCCATGTTGGCCAGG
S
TGGTTTCAAACTCCTGGGCTGAAGTGACCCACTTTGGGAGACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATCTTGCTTGGCTTGC
Celera SNP ID:            hCV25645447
SNP Position Genomic:     13880
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,38|G,2)   total(C,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:55286):
CTCTTGGGAGATCCCTGATGTGTTGGGTGAAGTGCCTTAAAGTACCAAGGGAGGTCCCAATCTGGGAATCAGGGAACCCATGGAATAGTCTGAGATGAGG
R
CTCTGCCTTCAAGGATATTTACGTACAAGTTGGAGAGAACATGGACACATGAGAAGATAATCAGTACAGGCACCCGCCACCATGCCCGGCTAACTGTTGT
Celera SNP ID:            hCV25645448
SNP Position Genomic:     13741
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:55287):
AAATGGGAGCTGAACCCTGAAATAGTTGCCCGCCACTTCTTTAAGAATGTGAGTGAGTGTTCCCAAAAACCACTCTACCCCTGAGGTGGAAGCTGCCTCT
S
GAAAGGAGGCCTGGGATTGATCCCTTTGTTAGGAAGGGGTGTGATCATCCAGTTGTAGTTAAGGAAAGTATTCTTGGTTAGTTTGCAGGAATATGGGAAG
Celera SNP ID:            hCV25645449
SNP Position Genomic:     14194
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,26)   caucasian(G,32)   total(C,2|G,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:55288):
CCTGGTGGAGCAGGGGGTCAGTAGCCAGCACCGTCAAGTTCCCAGCCTGGAAAAGGAGTAAAAATGCTCCTCTAGTCTTCAAATCAGACCTCAGGCAGAT
K
GGGGTGTGTCCGTTGAAGCAAGGTGGGCATTGATGGGGAGAGCCTGGGAGAATTGGAGCCAAGATCTTAAAGATGCAATAATATCCCTTAGTCCCAGGAA
Celera SNP ID:            hCV9625378
SNP Position Genomic:     7590
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55289):
ATCTTTTAGGGGACTATTGCAGTAATCCAGGAGAAAGTAGTGTCTTATTCCAAGGTAGAGCATTGGAGGTGGTGACAAGTGGCTGGATTCTGGAAATACA
W
GTGCTCCTTGACTTAAAATAGGGTTATGTCCTGATAAACCCATCGTATGTTGAAAGTATCATAAGTTGAAAATGCATATAATACACCTACCAAACACCAT
Celera SNP ID:            hCV134154
SNP Position Genomic:     10719
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|T,6)      total(A,5|T,6) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55290):
TAGCCCAGCAACTGGAGCTACAGCAAAGCCCACACTTTCAAGAGGAAGAGCGTCTTTTCCGGCGTCAGTCCACCTAACACTCATTCCATTATCAGTCAGT
R
ATTCTAGGCGTCCGTCACCTCTGCCAAAAAGCAAAAATAGGCAAGCCGCGGTGCCATCTGTTCCCCGGCCCGCTCCCCATACTTTCGCTCAGCCGTACCG
Celera SNP ID:            hCV27836695
SNP Position Genomic:     11928
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,35|G,1)   total(A,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:55291):
CCAAATGGACCTTCTTTCATCCAGTTTTTATGGTCTTCTGTCCAGTACTGAGACCCTCCCCAGAGGGAACTGTCGCGGCCTTACCATAGTTGCTTTTTTT
Y
CTACGGTTTACATAGCTTGTGATTTAGAATTCTCCTTTATTAGCTTAAATACTGCAGTATAATGATTAAGGGTCAGGCTCCTCCTGGAGCTGGCAGAGTT
Celera SNP ID:            hCV27828864
SNP Position Genomic:     11612
SNP Source:               Applera
Population(Allele,Count): african american(T,12)   caucasian(C,2)   total(C,2|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:55292):
ATTACAGGCATAAGCCACTGTGCCCAGCCCTAGCTCTCCTTTTTCTGACTGGGAGAAAAGTCAGGGTGAAAAGCTGGGATTAGGTGGTGCTAAATCTTAC
Y
TACCTGACTGATCTCTGAGAATTCCCATTGTTTTGTGTGCAGGTAAATGGGCTTGATACTGTGAGAGTGCCTATGTCTGTCGTGAACTTTGAGAAGCCCA
Celera SNP ID:            hCV11260513
SNP Position Genomic:     15368
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,13)   caucasian(C,15|T,7)   total(C,30|T,20)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55293):
AGAAGGGTGAAATCCCCTACCTATTCCCTCCCCATTCTCCCATCCAGGCTCAGTCACCTTTCCCGGTTGCCTTGATCCAAGGCCTGATATGGGATATCCA
R
GAAGAGTCGACGGTCACAGAGAAGGCCGTGCCAATGGGCAGAGGTCTGGGAGGTAAGGCGGAAGTGAAAGTCTAACTGTACTGGGTCCTGGTGGAGCAGG
Celera SNP ID:            hCV15887232
SNP Position Genomic:     7403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Gene Number:                 289
Celera Gene:                 hCG16963 - 64000127233924
Gene Symbol:                 NBP
Protein Name:                nucleotide binding protein;CoASY;PPAT;UKR1;pOV-2
Celera Genomic Axis:         GA_x5YUV32VU68(4235275..4251421)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12449):
ACAGGACTGGCTACTTTGCTACAATGGCCTGTCTTTCCTGAGCCCAGTGGAGGGTCCCAGGGGGGCAGAAGTCATTGATAGGGGCCAGTAGGGTTGTAGA
GCCACTGTCTGAACTTCTGTGGAGGTCTGGTGCAGGGGAGGTGTGAACAGATAGGAGGCTAGGTGAGGATGCAGCAGAGGAAGGGGTCAGGAGTGCCCCA
GGAGGGGGCGGTACCGAGGCAGGGATTCAGCTGGGTCTGAGAGGGAGGCAAGGCTGAGGGGGATGGCCCTTTGGAGTGGGCAGGGACATGACCACAGAAA
GCCTGGGAAGTGGAAACAGACAGGAGCCTGCTGGAGCTCTTGGAGCTTTGTGTGGGGCACTGGGGGAAGGAGGCAGGCACTCCACCCTGACCTGCCCCTA
CCTCGGATGAGGGTCTTCTCTGCCTGTTGGATGATGTGCTGCCCCTGCTCTTGGAGGAAGAGGCCTCCCAGCCACCCCCTCCTGCCAGTCGCCCTGACCT
GCTGACCCAGACAGATCTGCTATCCCTACAGCATCCAGGAAGGCCACAGGGAGGGGGCCCAGGTGGCATGGGTTTCTGAGGCCTGGGATCTGCTCTCAGT
CCCGCTCTCGCCAACCCCCTTTGCCCCTCTGTGACAGTGTGTGTACATATGCGTGCATGTGTGTACCTGTGTGGTGTGGCTCACAAGGTCACCCCTGGGG
GTGGGATAATAAGAGGTAAAGTGTGACCCCCTCTCTTCCGTACATTCATTTTTTCAAGCTTGTGAATATTCACATTGTTAATATAATCTTCTGCAGTCCC
ATGACTTCGAATAGCACTTAGATGCCGATGACCCCCCCACCAAAGAAACCCCACTGTCTCCCACAGACTCCAGGTCTGTATCTCCAACTGCCTACTCAAT
ACAACACGTCCACCTGATGCAATGAACTTAATGTGTCTAAACCCCAATTCCACATTTCCAGTCCTCCTACCGGCTCCTCCCCCAGTCTTCTCTACTTTAC
TGTATGACAACTCCATTTTTCCCAATACTGGTTTTAAAAACCCTGGAGTAGTCCTTGACTCCAGTCTCTCTCACCTTTCAACCAATTCAGCAGCAAATAC
TGACAGCTCTACCTTTGCTCATCAAAGCATATTCCAAAATCACCCTATTCGAGACTGCACACTGTCATCTTTCCCTTCAATTACAGCAGTAGCCTCCTAA
CTAGTTTTCTTGATTCCACTCTTGCCCATCAGCAGTAAAATTAGCACAGTGCATTTAAAATGATCTTTTAAAAATGACAGGGCCGGGCGTGATGGCTCAT
GCCTATAATCACAGCACTTTGTGAGGCTGAGGCGGACGTTATTGCTTGAGGTCAGGAGTTTGAGACCAACCTGGCCAATATGGTGAAACCCTGTGTCTAC
TAAAAATATAAAAATTAGCCAGGCATGGTGGTGGGCGCCTGTAATCGCAGCTGCTCCAGAGGCTGACAAAGGAGAATCTCTTGAACCAGGGAGGTGGAGG
CTGCAGTGAGCCAAGATTGGGACACTGCACTCCAGCCTGGGCAACAGAGACTTTGTCTCAAAAAAATAAAAATTGGCCGGGCGTGGTGGCTCATGCCTGT
AATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACAGGGTGAAACCTTGTCTCTACTAAAAAC
CCAAAAAATTAGCCAGGCGTGGTGGCACGTGCCTGTAATCCCAGCTACTCAGGCGGCTGAGGCAGGGGAATTGCTTGAACCCCGGAGGCGTACGCTGCAG
TGAGTGGAGATTGCGCCATTGTACTCTAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAATAATAATAATAAAATTAAAAAAAATTTAAAATAAAAAA
GGGAGCCTGGGCAACAAAGTGAGACCCCGTCTCTACGAAAAAACAAAAAAAATAGTTGGGTGTGGTTGCACACATCTGTAGTCCCAGCTTCTTGGGAGGC
TGACATGGGAAGACTGTTTGAGCCCAGGAGGTTGAGGCCACAGTAAGCTGTGGGCACACCACTGCATTCCAGCCTGGGCAAGAGAGGGAGACCCTGTCTC
ATAAAAGAAAGAAAGAGGCCAGGTGTGGTGGCTACGCCTGTAATCCCAACACTTTGGGAGCCCAAGGCCGGTGAATCACTTGAGATCAGGAGTTCGAGAC
CAGCCTGGCCAACATGGTAAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTAGTTTGTGCCTGTAATCCCAGCTACTGGGGAGGCTGA
GGCAGGAGAATCGCTTGAACCCGGGAGACGAAGGTTGCAGTGAGCTGAGATTTCTCCACTGCACTCCAGCCTGGGTAAAGAGTGAGACTCGGCCGGGTGC
GGTGGCTCATGTCTTTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACCTGGTGAAAGCC
TGTCTCTACTAAAAATAGAAAAATTAGCTGGGCGTGGTGGTGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAAGCAGGAGAATCACTTGAACCTGGG
AGGCAGAGGTTGCAGTGAGCCGAGATCATGCCGTTGCACTCCAACCTGGGTGACAGTGAGACTCTGTCTTAAAACAAAACAAAAGAAGCAAAGTTTATTT
TGCTCAGAGCTTCACAGTTTTAGGGGCTGGAAAGTGCAAGAACCTCATGCAGTATCTGGCAAAGGGCTGTCCCAGGATGGAAGGGCAGAAGGTGGAAGCA
AATGAGAGACACGAAATTGGGCCAAATGTCGTCCATCCATCAGGAGCCACTCCCATGATAACAGTATTTATCTATTCAAGAGGGCAGAGCCCTCATGATC
TAATTATCTTTTTTTTTTTTCTCCTGCCTCGGCCTCTTGAGAAGCTGGGATTTTAGGCGCATGCCACCACACCCCGCTAATTTTTGTACTTTTAGTAGAG
ACGGGGTTTCACCACGTTGGTTGGGCTGGTCGCAAACTCCTGATCTCAGGTGATCCACCTGAGATCCACCACTTTGGCTTCCCAAAGTGCTGAGATTACA
GGAGTGAGCCACCTCGCCCAGCTGACCTAATTACCTCTTAAAGGCCCCACCCTGCCCAGTGCAGTGGCTCAGGCCTGTAATCCCAACACTTTGGGAGGCT
GAAGTGGGAGGACTGCTTGAGTTCAGGAGTTGGAAACCAGCCCAGGCAACACAGCAAGATCCTGTCTGTATGAAAAAAAAAATTTTTTTTTTAATTAGCC
AGGTGTGGTGGCACACATCTGTAGTTCCAGCTGCTCAGGAGGCCAAGGCAGAGGACTGCTTGAGCCCAGGCAGTTGAGGCTGCTGTGAGCCATGATCAAC
CCACTGCACTCCAGCCTGGGGGACAAGAGTGAGACCCTGTCTCAAAGAGAAAAAAAGTCCCATCTCTTAAGACAGTAGCAATTGAATTTTTTATTTCAAC
ATGAGTTGTGGCAGGGACATTCGAACCATAGCACCAAGGTTCTCCCCAAAGCTCTCCAAGACCTTCTTTGATCTGGTTCCTGCCCCCTTTCTGATCTCAT
CTCCCACCAATCTCCATCTACATCACCCAGTTCAGCCCTCCTGCCTCAGGGCCTTTGTATTTGGCCCCCTCTGGGTCACATTCCCTGATCTCTGATTCTA
TGTCTTCCTTCAGATTTTTGCTGTTTTCCTGAACCACCTTATCTAAAATAGCCTCTCAGCTTCTCCACTATAGCTCCCTTACTCTGCTTTACTTTTGTTC
TTATCCTTTATCACCAGTAGATATATTATGGATTTGGGTTTTTTAATTTAATTTTTATTTTTTTTGGAGACGGAGTCTCTCTGTCACCCAGGCTGGAGTG
CAGTGGCGTGATCTCGGCTCATTGCAATCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAATCACAAGTACCGCCACC
ACACCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTAGTCTTGAACTCCTGACCTCAGGTGATCTGCCTGCCTCAG
CTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCATGTATTATAGATTTATTTATGGTGGCATGATTCCTGTCTGCAACCCCAAGACA
CACAGTACTCTATACCCCAGGATGGCAGGGACATTGTTTTGTTCACTGGTCCATCCCTGTGGGAGGCACTAAAATACACATTTACTCAATAAAAATGACT
CTGTATGTGGTGTGTCAGACTGTGTGTCCAGATGTCTTGGGACATTCTCTGGCAGCCTTTGCTGTTTGTGTCTTCAAATCAGACCCTATCTTTAAATCTA
ACATGTCTCCTGTGAGAAGCCTGGTCCCTTAATACCTTTGTGGCTCTACAACTCTTCCCTCCTTGACTGTATCTCTTCCTCCAGGTCTTTGCTGTTTTCC
TGAATCACCTTATCTAAAATAGCATCTCCTTTTCTCCATCATAAGCCCAGGTTTTGTGGGGCTGGGGGCTTATTTGCTTTTGGAGACCGTCTTCAAGAAT
ACAAAAGATAAACACAAAATTACATATAAAAGTGAGTTTTGTTTTTTTTTTTAAGTTTCGGAAACCACGGCACATTACTGGAATCTTGGAGACTGGCTTC
TCTCCCTTTTGATCTCCATGCACAACTTACCTGAGATGTATTCTAATAGCAACCTGGCTTCCCCTCCACACTCAGCCTTTCAAGCGCCCATTAGCTTCGC
AGTAAATCTCCCACACTAGGTATCCAGCCTTTGCCTTTTTCTTTTTTCTTTTTTTTTTTCCAGAGGGAGTTTCGCTTTTTTTTTTTTTTTTTTTTTGAGA
CGGAGTCTCACTCTGTCACCCAGGCTGGAGTGTAGTGGTGCGATCTCGGCTCACTGCAAGCTCTTCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCT
CCCGAGTAGCTGGGACTACAGGCGTCTGCCACCATGCCCGGCTAATTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTC
TCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTCAGCCACCGCGCCCGGCCGGGAGTTTCGCTCTTGTTGC
CCAGGTTGGAGTGCAATGGCACAATCTTGGCTCACCGCGACCTCCGCCCACGGGTTCAGGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACA
GCCATGCGCCACCACGCTCGTCTAATTTTGTATTTTTAGTAGAGACAAGGTTTCTCCATATTGGTCAGGTTGGTCTCGAACTCCCGACCTCAGATGCTCT
GCCCACCTCGGCATCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAATCAGCCTTTGCCTTTTTCTCCTGTCCACAGAGACCCCGCAAACAA
GCGCATCAGAGGATCTGGGTGGTGCGAGAGCCTCCTACAGCAGCCAGGTACACACAAGGCCTCAGTTTTTCCATCTGTGAAATGGGTACGTGGACAGACC
TGTCCAGTAGCCTCCCATGTGAGAATCCTCGGACTGAGAGGGTACTAGGAGGGCTAATACAGCGCAGCCCTGTGATTCCCCACCTCTGTCCCTGGAATGA
AGGAAATCTGGGTGTTAGTTCTGGCTTTGCCGATGCCTCTTGGGTGGCCTGGCTGAAACTAATCTCTCCTCATCAGGCCAGAAGGGAATCTGTGAAATGG
GCTTTGAAACCTGCCTTGCCTTTCTCCGCCCGGTCCCAGCGGGGGTCCGATCGGCATCAAGGATTCACCCACTCCCAGAGCCTTCGGGATCAGCCCCACC
CCATCAGCAGGACACAGCCCATGCCACTGGAAATCTCGCGAGAATCCCGCGCTGAAGCGAAGTCGAGACGTTTGACCTTCCTCCGTTTCCGTAGTTCCGA
GTTGCGGTTTCTCCGTTAGTGCTTCCGRGTTGCAGCCAGGGAAGCCTCCGCGGTGGTGCAAGTGGAACCCAAGCCTTGAGGTTTCAGTGAGTAGGGGGCC
GACGTGAGCTTTAGCGTCCCCCTTTAGCCTCCCTCTTCGATTCCTTGAAGACCCTGGTGCAGCTTAGCAAGAGGGCCCAGGATTTTTGGATCCCCAGCCC
TGTGACAAGGGTTCCTGTCCAGTTTCCCCCTCCCAGGATTTCGACTCAGTTCAGCGAAGTCACCGCCCCGTCTGAGAAATGAGGACACCAAGGCTTAGAG
CACAGCCCCGAGGCGCCGTCTACCAGGCCCCGTCCCCTCCCCCGGCTCCTGTCGGTCAGCACTGAAACCCCGTYCCTGCTCCAGGCCTCCTTCTCTGKGG
TCCAAGGTCCCATACAGGCCTCTGCCTCGGCCGCAGGCCCTTCAGTCACCGTCGCCTCGTCTCCCTGACTGTCCGCAGGCCTGGGCAGCATGGCCGTATT
CCGGTCGGGTCTCYTGGTGCTGAMGACGCCGCTGGCCTCCCTAGCCCCTCGCCTGGCCTCCATCCTGACCTCGGCGGCCCGGCTGGTGAATCACACACTC
TATGTTCACCTGCAGCCGGGCATGAGCCTGGAGGGCCCGGCTCAGCCCCAGTMCAGCCCCGTGCAGGCCACGTTTGAGGTTCTTGATTTCATCACGCACM
TCTATGCTGGCGCCGACGTCCACAGGCACTTGGACGTCAGAATCCTACTGACCAATATCCGAACCAAGAGCACCTTTCTCCCTCCCCTGCCCACCTCAGT
CCAGAATCTCGCCCACCCGCCAGAAGTCGTGTTGACAGATTTCCAGACCCTGGATGGAAGCCAGTACAACCCGGTCAAACAGCAGCTAGTGCGTTACGCC
ACCAGCTGTTACAGCTGTTGTCCGCGACTGGCCTCGGTGCTGCTATACTCCGATTATGGGATAGGAGAAGTGCCCGTGGAGCCCCTGGATGTCCCCTTAC
CCTCCACGATCAGGCCAGCTTCCCCCGTGGCCGGGTCTCCAAAGCAGCCGGTGCGTGGCTACTACCGTGGCGCTGTCGGTGGCACGTTTGACCGCCTGCA
CAACGCCCACAAGGTGTTGCTCAGTGTCGCGTGCATCCTGGCCCAGGAGCAGCTTGTGGTGGGAGTAGCAGACAAAGATCTGTTGAAGAGTGAGTAAGAG
GGACCCTGGACTAGGGTGGAGGATCCCCAAATCTCCCCACCCCCGACCCTTATGCCGAGATCAAGGAAGGGTAGGGCCATTCATTACTTCCCACCCTTCC
CAAATGTCACAGTGGTTGACACTCAATTGGTGCTAAGGCCATTTTGTCAAATGAACAGCTTTCTCAGCATGTGGTCCAGTCACCACTCAATCAGAATACC
CCAAATGTGAAGCAAAGGKATCTGCATTTTAGCAAGTTTTCCAGGTGATACACCCTAATGAGACACTGGGAATGAATGGGTGAGTGAGCTGCAGGTAGCA
GTGCCACAGACAGGAGGAGGAAACTCAAGCATGGCATGGGTCTTGGAATTTTCCATCTGCCTCTGATGCCCTCTGGCACTGCTCGTTCTCTGGAGTGGTT
TCCTGGTGGCTTATTCTCTGGACACATGCCAGCCCTTGGAGTGACTATTGTGCTTGCCTGTTTCTTCACCTTCATGCTCCCCTCACCATCACCATAGGCC
TTACCAGTTGAACCCTTTCTGCCACCCCCTCTGGGGATACTGTACTTAGGGACACTTTTTCCCAAACTGGCCCATACTCTCCTCCCCARTAAAAAGATCT
CACTGTTCTTCTGGGCTCCTTCCCCAGGCAAGTTGCTCCCTGAGCTGCTCCAACCTTATACAGAACGTGTGGAACATCTGAGTGAATTCCTGGTGGACAT
CAAGCCCTCCTTGACTTTTGATGTCATCCCCCTGCTGGACCCCTATGGGCCCGCTGGCTCTGACCCCTCCCTGGAGTTCCTGGTGGTCAGCGAGGAGACC
TATCGTGGGGGGATGGCCATCAACCGCTTCCGCCTTGAGAATGTAACCCCTGAGGGAGACTGGCAGAGGGAGTGGATGGGGGAYGGGGAAGGCCATTTTG
AGGGGGCTGTTGGAAGTACCATGGCCCCAGAGGAGAGAAGTGGGGGCTCAGGGTGGTGGGAAGAAGCAAGGAGGAACTGGTTCTCAGTTTGCCCGCTGAG
TCGGAGGAGGAGGAGCCTGGGTAGGAAGGGGAGGATGGGGGGGCAGGTTGGATGTCAGGGTCTTCCTCTCACTCCCTCCTTCCCTCTTTTTACCCTTTCC
TCTTTACCCCAGGACCTGGAGGAACTTGCTTTGTACCAGATCCAGCTGCTGAAGGACCTCAGACATACRGAGAATGAAGAGGACAAAGTCAGCTCCTCCA
GCTTCCGCCAGCGAATGTTGGGGAACCTGCTTCGGCCTCCATATGTAAGCTCCTCTCCCTCCTTCCCTCCTGCTTGGTGTCCTGGCAATGCTGGAGAGTA
GAAGCTGAGGGGCTCAGCCCCAGGCATGAGGCTGAGGGCCCCAGTAACTGTGGGTTCCCTTTCACCTATCCCCAGGAAAGGCCAGAGCTCCCCACATGTC
TCTATGTAATTGGGCTGACTGGCATCAGTGGCTCTGGGAAGAGCTCAATAGCTCAGCGACTGAAGGGCCTGGGGGCGTTTGTCATTGACAGTGACCACCT
GGGTCATCGGGCCTATGCCCCAGGTGGCCCTGCCTACCAGCCTGTGGTGGAGGCCTTTGGAACAGGTAATAACTGGGGAAGGCTGAAAGTGGCCTGGAGT
GAGGAGCTAGCCAGGCCTCTGTGCTCAGTTGTCTGTCTGTGTTGTCCAGATATTCTCCATAAAGATGGCATCATCAACAGGAAGGTCCTAGGCAGCCGGG
TGTTTGGGAATAAGGTAAACAATAACTTCCTAAGGGCTCCTAAGCCGCTACTAGACCCAGGGGTCAGGGTCCAGTGGACCTCTCTGGTCTGGCCCAGAAT
GCCATTTCCATTGATCTGTTCCCAACACCACCTTGCTCGGGCTGGCTGCCTCTTCTAGAGAAGGTAACCTCTGCCCTCTGTTCCCCTCCCCAGAAGCAGC
TGAAGATACTCACGGACATTATGTGGCCAATTATCGCAAAGCTGGCCCGAGAGGAGATGGATCGGGCTGTGGCTGAGGGTGAGTGGGAGGGAGGATGGCA
ACAGCTAAGGGGACAGTTAAGCTGTTTCTTCCCCTGGGAGCTTCCCTGCCCAACGTGGGACTGTCTGTTCACCCTGGGACTGTGTTCTGCCTGGGAGAAC
GTCGGCACTGCTGGCGGTGACTGGGGTCTYCCCACAGGAAAGCGTGTGTGTGTGATTGATGCCGCTGTGTTGCTTGAAGCCGGCTGGCAGAACCTGGTCC
ATGAGGTGTGGACTGCTGTCATCCCAGAGACTGAGGTATCTCGCCCCACCCCCCACACCATCCCTACTGCAGATCCTATCCTGTGAGCTGGAATTCTTCC
TGACAAATGTCTCGTCTGTGSTCAGGCTGTAAGACGCATTGTGGAGAGGGATGGCCTCAGTGAAGCCGCGGCTCAAAGCCGGCTGCAGAGCCAGATGAGC
GGGCAGCAGCTTGTGGAACAGAGCCACGTGGTGCTCAGCACCTTGTGGGAGCCGCATATCACCCAACGCCAGGTTGGTGCCCAGGGCAAGGCYGGGTTGT
GGGGAAGGAGTCTCCAGTGGGTACTGCCTGACCCTGCCCTCTCTTCCTCCCAACATCCTGGCCTGTCTGAAGGTGGAGAAAGCCTGGGCCCTCTTGCAGA
AGCGCATTCCCAAGACTCATCAGGCCCTCGACTGAAAAGTTCTCAGTGGGGCCAGACTGGCTCCTGGAGCTGACAAGCGACCCCGTGGTGAGGAGAAATG
GGGGCCTTGATGCTCACCCTGGTTCAGGCCCAGAGGTCCAAGCTATACTGTGCAGGACATGGCCAGGCCTGGTGGACACAGGAAGCCTACCCAACACGCT
GGTATTTGGCCAACACTGAGGATGTGGTTCATGGGGGAGCAGTCCCCTCCCCACTCTTGCCCATGGGTGACTCTTACCCACAGCTGACTAGGGCCAGCGC
AAATACTGGAACCTGTAACAGAATTAAAGGTGAATGTTCTGAGATGTTGCTTGTATGGTGTCTGCTTCCTGTTCCAATGCCCCTAAGTATCTTTGGGATC
CTTAAGCCACAAGTGCAGGGCCCAGGCCTGAGCTGGAAGCCTGGGCAATGCAGTGGTTAAGAGAATGGCCTTTGAGGCTAGCCAGAGGCGAGCTTTGGCC
CTCCCACTGACCAGCTGTGTTCTTCTGAGTAAGGTGTAGACTTTCTAGGTACTGCCGTGTTTTATTGTTTTTGTTTTGTTTTTAATATGAGAGGCCGCAT
AACCTAGCTAGCAGGTTCTTTGCAAGGGTTCATTCCACATGCATCCTGCCAGACACTGGGCTGGGTGTTGGAAGATCAGCCTTCCGCGCGCCAGGCGGGG
CCTCTGCCCTCACAGAGCTTGCAGCCTGGTGGGGTCGGACGATGTGGCTGGGGGCTTCTCTGCCCGGTTCCTGACACACCGGCCAGCAGTGCAGGTCCGG
TGAGCGCGGGGAGGCCGCCCTCAGGGTAACGTGGGGAGCCGGCCGGCCGGACAGTGCGCGTGCACACACTATCTGCGGCGGTGTGCTGACAAGCCAATTG
AGGGGACTCCATCTTACAAAACGCGCTTCATGTCGCCGCCATTCCACTGCCTAACCCGGGGAGGGCAGGCACGGCGGGGAGCAGTCTCGAAGGAGGCTGG
CGCCAGGCCAAGCGCCGGGCCTTGACGGCTGGAACCGTGGAGTAAAGTCTTTGGGCTGCGCATGCGCGATGCTTCGCCCTGCCCCACCTCTCGGTCGCGG
ATTGGCGGGCGCGGGTCACGTGGGCACGCCACCCGCTTCCTCGCCGCAGGGGGCCCGCCCGCTGGCCCGTTTCCGGTCCGGTGGGTACAAGATGACGGAG
CCGGGCGCCTCTCCCGAGGACCCTTGGGTCAAGGCAAGCCCCGTGGGCGCGCACGCCGGCGAGGGGAGGGCGGGTCGGGCTCGTGCACGTAGGGGGGCCG
GAAGACGAGGGGCTTCCCTCCTGTCCCCAAAGTCCCCCACGCTCTCCGTGCCCCGGGGCTGCAGAGAAGACAGCTCTCACCCCGCGTGTGCCAAGGTGGG
GAGACAAACGAGGCGTGTGCGCGCGAGTCGGGGGAACGGGGCACTGGGGTGGAGTAGGGGCGGAAGGGATCATACACAGGGGAGGCACTCGCACGCCCTA
GCCTGTGCCAGTCTCGGGGGACTCATTAAGCTGCCCGCGCACCCCGGGCTGTGTGTGTGCAAGCGCGCAGGGTGACAGAGGCGCCTTCCCGGAATGGGGG
GCGCGCTGTGCGTGCCTGCAGTGGAAGGGGCGCCTCCCCCTAGGGGCGGAGGTCTGACGGGCCCTTCCCGTGCTCTGTGCCGCAGGTGGAGTATGCCTAC
AGCGACAACAGCCTGGACCCCGGTGAGTAGCTGCCCCATCTTAAGCTCTAGAGGGACACTCCCGCCCAGGCTCTCTAGATTCTTGTGGCGTTGCCAACCA
CGCCTGAGCACAGTCCACTCTCCCTGAGCAGAGTTCCTGGCTTGAGACAGCAGGAGCTGAAGGACAAGGGCAGAAAACAACTGAGGGTGACACCTAGTTC
CCTCTGCTCTGGAACAGGGAAGTGGTGGAACTGATCACTCACCACTCAGTGGAGCAGCTGATCACTCACACCCTCATCACGTCCACATGCCCGTTTGTGA
GCCAGGGGGGTATCATGCAGGCCTATGGAGCAGTGTAGACACTAGGGAGCAGAGCACTGCAGCGTGGTCTGGCAGGAAGTGGGGGGCCCAGTATGGTTGG
CTTTGGGTTGAAGGGAAGAGGTCAGCATTTAAGAAAGCCATTGTGTGGCCGGGCGCGGTGGCTCACCCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCA
GGCGGATCACGAGGTCAGGAGACCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCCACTAAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGG
GCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCTA
GCCTGGGCGACTGAGCGAGACTCTGTCTAAAAAAAAAATAAATAAATAAAAGAAAGCCATTGTGTCCTACAGGTGTCTGAGGGTCTGGCAATGTTCCCCA
CCCCACCCCTTAGTGATTGGGGCCTCTCTTTTCCAGGGCTTTTTGTAGAAAGCACCCGCAAGGGGAGTGTAGTGTCCAGAGCTAATAGCATCGGTTCCAC
CAGTGCCTCTTCTGTCCCCAACACAGGTAGGCAGTAACATCCCCCCCGACCTCAGGGGGCTCAGATATGTCATAATTGTAGTACCTTTCCTAGACAGGGA
AGCCCCAGCCATCCACACAGGGGTGCTGGAGCCAAAGTATCAGACACAAGGTCTCACCATCTTTCACCTCATCTGGAACATTAGGTGGTTCTGTCCATCT
GCCTTCTCTGGACACCAGGTTCTTCCCAGCTGGGGAAAGGTGGGCTAGCTGGACCCCACTGGGCCCCAAGATGACCTTTCCCTGCCCCCATCTCTGAGCG
TAGATGATGAGGACAGTGATTACCACCAGGAGGCCTACAAGGAGTCCTACAAAGACCGGCGGCGGCGCGCACACACTCAGGCTGAGCAGAAGAGGAGGGA
CGCCATCAAGGTGAACAGGGAGGCCTGTGCCTCAGCCAGTGCGGGAGGGCCCTGCATAGTTTAGCTTCCCTGTGCCCTGACCCACTCAGACAGTCCCAGG
CACCCTAGGGGGTGGGCAGGTAGTATAGTCCCAGGCACAAACACCTCCCTTGCAGCCTTCCCACCCCATTGAGTTTGTGAGCATAGAACTTGGTGTCATG
GAGGAACTTTGTGCCATTTTGCTTTAATCTCTCAGGGTTAAAGAACCCATTTCCCCTGCTGTTTCCACAGAGAGGCTATGATGACCTTCAGACCATCGTC
CCCACTTGCCAGCAGCAGGACTTCTCCATTGGCTCCCAAAAGCTCAGCAAAGCCATCGTTCTACAAAAGAGTATGGCTAGGGAAAGCACTGGAGGGGATG
GAGCCAAGAGGGGCTGTGAAGAGGCCAGTGCCTCCTACCCACCCATGGCTCGGCCTTGGTGTGGTGATTGCCATGGGATAGTTGGGGTCTGGGGTAAGGG
GAACAAAGTCAGCCTTATCTTCTTGGTTGAGAATACTTCTGTACCTGTCCTTTTTTTCTTGCCCCCACCCTAGCCATTGACTACATTCAGTTTTTGCACA
AGGAGAAGAAAAAGCAGGAGGAGGAGGTGTCCACGTTACGCAAGGATGTCACCGCCCTAAAGATCATGAAAGTGTAAGAGGGGTGCTGAATGGGGGGAAC
CAGAACTTCTGAGGCAACTTCATTGCACACCCTCCCTTGTTCAAAGGCCACATCAGTTACTGCTGTACAGATAATACTCTTAGTTCCTGAGCTAGCCAGT
AGGACTGTGTATCCCCAACTGTCCTTACACATGGCAGACACTCAGGAAATGCCTGTTGGATTAATGTAAGGAAGGTTGGAGAGAGAGGGCCACCTTTCCT
GACCTGGAAGCAGTATCTCCCTGATACTGAACCCCACCCAGAAGCTCTCTGGGGCTGCCATTCCTGGGAGTACACAGGATAGTCCCGTCATTCTTCTTGG
GTGGGCGGAGCTGCTGCAGCACCTCAGCCCTGGCCTGCATGCTTTTAGGAACTATGAGCAGATTGTGAAGGCACACCGGGACAACCCCCATGAAGGGGAG
GACCAGGTCTCTGACCAGGTCAAGTTCAACGTGTTTCAAGGCATCATGGATTCCCTGTTCCAGTCCTTCAATGCCTCCATCTCAGTGGCCAGCTTCCAGG
AGCTGTCAGCGTGTGTCTTCAGCTGGATCGAGGAGCACTGTAAGCCTCAGGTATGGGGCAACAATAGGCACAGGGTCTGCGGTTTTCTCTACCATCAAGC
AAAGTGGCCCAAGCCATCAGCTGTTGAGAAAAGCGTGGCAGCTGCTTTTAGATCTTAAGGGCGTTTCTACAGCTTTGAGGGCCCTGGTATTTTCCCTTTT
CTTTGCTGTCTAACCCACATCTTCATGTTACGGTTTCATTCGGCAAGTGTGACGTGAGCTCAATGTGAAGTCCAGCTCTTGGCTTTTGTCTAGCCCATGT
TATCGCTGCCCCTGTATGGAAGCCCCAGGCATCTGCAGCAGAATTGGAAACGCAAATTCTGGGACCCTACCTTTAGGCCCCCTAAAGTAGTTGCCCCAAG
AGCTTTTTAAAAATTTATTTATAATGGAGATGTGCTAATGGTATTGCACTAAGTCTTCTAATTGAAGTCTGGTTGCTTTTTCTGAGGTTTTAAACTTGTG
TCTGAGATTTCTTGTTTGTTTCTCAACATTTTTTTTTTTGAGACGGGAGTCTCGTTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTG
CAACCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTGTGCCACCATACCTGGCCAATTTTTTGTATT
TTTTAGTAAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGG
CATGAGCCACTGTGCCTGGCCTCGTTTCCCAACATTTTTATTGTGAAACACATTAAACATATTGCGATGTTGAGAGGAGTTCACAGTGAACACTCGTATA
CCCGCTCCCTAAATTTTACCGAAACATTTTACTATATTTCCATCTCTCCATCTTGCTTCAGGAGCACCTCAAATTAAACTGCAGACATCAGTACTTCCTG
GGGGCTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCAAGGCTGGAGTGCAGTGGTGTGATGTCAGCTCACTGCAACTTCCACCTCCTGGG
TTCAGGCGATTCTCATACCTCAGCCTCCTGTGTAGCTGGGATTACAGGCATGTGCCACCACACCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACT
ATGTTGGCCAGGCTGGTCTTGAAATTCAGGTGATCCACCCGCCTTGGCCTCCCGAAGTGCTGGGATTATAGGCGTGAGCCACCACACCTGGCCCCCGGGG
GGCTATTTTTAAAGCACTTTTCTAAAGTACATGGCTGATCTAGGCAGGCATCTTGGAAACTACTCTGCGTTGACTTGGGCATTGTCTATTTCTTCCTCTG
CTGCCCTCGCCAGACCCTGCGGGAGATTGTGATTGGCGTCCTGCACCAATTGAAAAACCAGCTTTACTGACCGGTTCTTGGAAACCTGGAGAACAGCCAA
CAAGAGGCCCTTGAATCTCTACGTGGCCACTGAACTGCTGGGCCCGGGAGACTGGACTACAACACCTCACACTGGTCAGCTGGTTTCTACTTGGTGTTTG
GTTTTTCCCAGCCCCATTTTATCTTCAGCGGAGCCGCGGTGTTTGTTTTGTGAAAGCTTCTGATTAATTTATTATATTGACGATAAAACTCAAACCTACC
CAGCCTTCCCCCCACTCCATGGAAGTCCTTGGGATGGGCGTCTGCTCTGGACACCCCAAAGAGCTCCTGCCCTCTCAGCCCTTTATTCAAGCCTCAGATT
TCTGCTCATGATCTACATAGATTTGGAAACTGTTTTCCTCTGTTTTGGTCTCTTGGGCAACATTTTTGGCCCAAGTTTGGGCAACATTTGGCCCAAGTTT
GGGCATTTTGGCAGTAGCTGTATGGGAGAAAAAGAGTAAGAGGAAATATTCCCACAGCCATGAAGGGTGAAAGGGCACCTTGTGCCTAGACTAGGGCTGC
CTGGTCAGTCCCAGGTGAGGCCAAGGGCTTTCTGGCCATCTCAGGGAGGGGCCACCAGGTTCCTCCCCTCACCCCATATTCCATCACCTTCCTCCTCTGC
TCTGGGTGGTAAGGGAAGCCCTCCCGGTTCCCACAGGCTATGATGC


SNP Information

Context             (SEQ ID NO:55294):
CTATGTTCACCTGCAGCCGGGCATGAGCCTGGAGGGCCCGGCTCAGCCCCAGTACAGCCCCGTGCAGGCCACGTTTGAGGTTCTTGATTTCATCACGCAC
M
TCTATGCTGGCGCCGACGTCCACAGGCACTTGGACGTCAGAATCCTACTGACCAATATCCGAACCAAGAGCACCTTTCTCCCTCCCCTGCCCACCTCAGT
Celera SNP ID:            hCV27839972
SNP Position Genomic:     6700
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,40)   total(A,1|C,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55295):
TGGAAATCTCGCGAGAATCCCGCGCTGAAGCGAAGTCGAGACGTTTGACCTTCCTCCGTTTCCGTAGTTCCGAGTTGCGGTTTCTCCGTTAGTGCTTCCG
R
GTTGCAGCCAGGGAAGCCTCCGCGGTGGTGCAAGTGGAACCCAAGCCTTGAGGTTTCAGTGAGTAGGGGGCCGACGTGAGCTTTAGCGTCCCCCTTTAGC
Celera SNP ID:            hCV27832220
SNP Position Genomic:     6028
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,40)   total(A,1|G,69)
SNP Type:                 UTR 5


Context             (SEQ ID NO:55296):
ACACTCAATTGGTGCTAAGGCCATTTTGTCAAATGAACAGCTTTCTCAGCATGTGGTCCAGTCACCACTCAATCAGAATACCCCAAATGTGAAGCAAAGG
K
ATCTGCATTTTAGCAAGTTTTCCAGGTGATACACCCTAATGAGACACTGGGAATGAATGGGTGAGTGAGCTGCAGGTAGCAGTGCCACAGACAGGAGGAG
Celera SNP ID:            hCV2769188
SNP Position Genomic:     7419
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|T,18)      total(G,7|T,18) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55297):
TCCCCTGGGAGCTTCCCTGCCCAACGTGGGACTGTCTGTTCACCCTGGGACTGTGTTCTGCCTGGGAGAACGTCGGCACTGCTGGCGGTGACTGGGGTCT
Y
CCCACAGGAAAGCGTGTGTGTGTGATTGATGCCGCTGTGTTGCTTGAAGCCGGCTGGCAGAACCTGGTCCATGAGGTGTGGACTGCTGTCATCCCAGAGA
Celera SNP ID:            hCV25921812
SNP Position Genomic:     9330
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,28)   total(C,61|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:55298):
GCCTCGGCCGCAGGCCCTTCAGTCACCGTCGCCTCGTCTCCCTGACTGTCCGCAGGCCTGGGCAGCATGGCCGTATTCCGGTCGGGTCTCCTGGTGCTGA
M
GACGCCGCTGGCCTCCCTAGCCCCTCGCCTGGCCTCCATCCTGACCTCGGCGGCCCGGCTGGTGAATCACACACTCTATGTTCACCTGCAGCCGGGCATG
Celera SNP ID:            hCV27828339
SNP Position Genomic:     6524
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,38)   total(A,2|C,74)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55299):
TGGTCAGCGAGGAGACCTATCGTGGGGGGATGGCCATCAACCGCTTCCGCCTTGAGAATGTAACCCCTGAGGGAGACTGGCAGAGGGAGTGGATGGGGGA
Y
GGGGAAGGCCATTTTGAGGGGGCTGTTGGAAGTACCATGGCCCCAGAGGAGAGAAGTGGGGGCTCAGGGTGGTGGGAAGAAGCAAGGAGGAACTGGTTCT
Celera SNP ID:            hCV2769189
SNP Position Genomic:     8084
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55300):
ACAGGCCTCTGCCTCGGCCGCAGGCCCTTCAGTCACCGTCGCCTCGTCTCCCTGACTGTCCGCAGGCCTGGGCAGCATGGCCGTATTCCGGTCGGGTCTC
Y
TGGTGCTGACGACGCCGCTGGCCTCCCTAGCCCCTCGCCTGGCCTCCATCCTGACCTCGGCGGCCCGGCTGGTGAATCACACACTCTATGTTCACCTGCA
Celera SNP ID:            hCV27847839
SNP Position Genomic:     6514
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,1)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55301):
GAGAAATGAGGACACCAAGGCTTAGAGCACAGCCCCGAGGCGCCGTCTACCAGGCCCCGTCCCCTCCCCCGGCTCCTGTCGGTCAGCACTGAAACCCCGT
Y
CCTGCTCCAGGCCTCCTTCTCTGGGGTCCAAGGTCCCATACAGGCCTCTGCCTCGGCCGCAGGCCCTTCAGTCACCGTCGCCTCGTCTCCCTGACTGTCC
Celera SNP ID:            hCV15755951
SNP Position Genomic:     6374
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,30|C,1470)   total(C,1470|T,30) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55302):
CTGGCCTCCATCCTGACCTCGGCGGCCCGGCTGGTGAATCACACACTCTATGTTCACCTGCAGCCGGGCATGAGCCTGGAGGGCCCGGCTCAGCCCCAGT
M
CAGCCCCGTGCAGGCCACGTTTGAGGTTCTTGATTTCATCACGCACCTCTATGCTGGCGCCGACGTCCACAGGCACTTGGACGTCAGAATCCTACTGACC
Celera SNP ID:            hCV2350908
SNP Position Genomic:     6653
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,1)   caucasian(A,7|C,13)   total(A,12|C,14)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,18|C,20)   caucasian(A,19|C,19)   total(A,37|C,39)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   JBIC-allele(A,703|C,786)   total(C,786|A,703)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55303):
TCACTCCCTCCTTCCCTCTTTTTACCCTTTCCTCTTTACCCCAGGACCTGGAGGAACTTGCTTTGTACCAGATCCAGCTGCTGAAGGACCTCAGACATAC
R
GAGAATGAAGAGGACAAAGTCAGCTCCTCCAGCTTCCGCCAGCGAATGTTGGGGAACCTGCTTCGGCCTCCATATGTAAGCTCCTCTCCCTCCTTCCCTC
Celera SNP ID:            hCV2350909
SNP Position Genomic:     8369
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,18)   caucasian(A,19|G,21)   total(A,39|G,39)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55304):
TCACCATAGGCCTTACCAGTTGAACCCTTTCTGCCACCCCCTCTGGGGATACTGTACTTAGGGACACTTTTTCCCAAACTGGCCCATACTCTCCTCCCCA
R
TAAAAAGATCTCACTGTTCTTCTGGGCTCCTTCCCCAGGCAAGTTGCTCCCTGAGCTGCTCCAACCTTATACAGAACGTGTGGAACATCTGAGTGAATTC
Celera SNP ID:            hCV27477013
SNP Position Genomic:     7789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55305):
ATCCCAGAGACTGAGGTATCTCGCCCCACCCCCCACACCATCCCTACTGCAGATCCTATCCTGTGAGCTGGAATTCTTCCTGACAAATGTCTCGTCTGTG
S
TCAGGCTGTAAGACGCATTGTGGAGAGGGATGGCCTCAGTGAAGCCGCGGCTCAAAGCCGGCTGCAGAGCCAGATGAGCGGGCAGCAGCTTGTGGAACAG
Celera SNP ID:            hCV25645806
SNP Position Genomic:     9521
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,34|G,2)   total(C,42|G,2)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|G,3)   total(C,73|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:55306):
GAGCACAGCCCCGAGGCGCCGTCTACCAGGCCCCGTCCCCTCCCCCGGCTCCTGTCGGTCAGCACTGAAACCCCGTCCCTGCTCCAGGCCTCCTTCTCTG
K
GGTCCAAGGTCCCATACAGGCCTCTGCCTCGGCCGCAGGCCCTTCAGTCACCGTCGCCTCGTCTCCCTGACTGTCCGCAGGCCTGGGCAGCATGGCCGTA
Celera SNP ID:            hCV27839971
SNP Position Genomic:     6398
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55307):
AGATGAGCGGGCAGCAGCTTGTGGAACAGAGCCACGTGGTGCTCAGCACCTTGTGGGAGCCGCATATCACCCAACGCCAGGTTGGTGCCCAGGGCAAGGC
Y
GGGTTGTGGGGAAGGAGTCTCCAGTGGGTACTGCCTGACCCTGCCCTCTCTTCCTCCCAACATCCTGGCCTGTCTGAAGGTGGAGAAAGCCTGGGCCCTC
Celera SNP ID:            hCV25974414
SNP Position Genomic:     9693
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 INTRON


Gene Number:                 290
Celera Gene:                 hCG17110 - 84000314093180
Gene Symbol:                 DLD
Protein Name:                dihydrolipoamide dehydrogenase (E3 component of pyruvate dehydrogenase complex, 2-oxo-glutarate complex, branched chain keto acid dehydrogenase complex);DLDH;E3;LAD;PHE3
Celera Genomic Axis:         GA_x5YUV32W188(5091334..5133508)
Chromosome:                  Chr7
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12450):
AGATCGATATTGTTTGTGGCTTAAGAATGCCTTTAAGTGGTTTTCCGCCCTGGGCGGGCTAGGTGTTCCTTGCCCTCATTCCGGTAAACCCACAACCTTC
CAGCATGGGCGTTATGGCCATCATGAACATGTCCCAGTGCTGCAGAGATTTTGTTTATGGCCAGTTTTGGGGCCAGTTTATGACCAGATTTTGGGGGGCT
TGTTCCCAACAAGTGATAATCTACTAATTAATGTATCTGAAATAGTTTCCATCCCTTTTCCATCTCCTAGTTACTAGTGCTTCCTTGCATCATTCATCAA
ATAAACTTCTTACATTCAAATTCTTGTTTCTGGTTATGCTTCTAGAGAATCTAACTAAAGCAGTGGACAGTTAGACATGGGATAAAGAGAGGAGTTGAGA
ATGGCTACAAAATCTTTCATATAGGCTTTTTAGAGGTGTTATTAACATTAATCATAATGAAAAAAGTATGTATTTTATATTAAGATGTTAGATAACTGAA
ACTGAGATAACTGTTAGACATATTCAGCAGACAGTTGAAAATATGCAATTGAGACCAGGTGCAGTGGCTTACATCTGTAATCCTACCACATTGGGAGGAC
AAGGTGAAAGGATTGCTTGAGCTCAGGAGTTCAAGACCAACCTAGGCAACATAGTGCGACCTTGTCTCTACCAAAATAAATTTAAAAATTTGCTGGGTGT
GGCGTGTACACTTCTAGTCCCAGCTACATGGGAGGCTGAATCAGGAGGACTACTTGAACCCAGGAGGTTGACGCTGCAGGGAGCTGAGGTCATTCCACTG
CACTCCAGATTGGAAAACAGAGTGAGACCATGTCATAAACAAAAACAAAAAAAAGAAGAAGAAAAGAAAAAGAGAGAAAACATGCAATTGGACATCAGGA
GAGAAGTAAAGACTGAAGATAAGGGCTAGGTGCAGTGCCTCATGCCTGTAATCCCAGCACTTTGGGAAACGGAGGCAGGAAGATCGCTTGAGGCCAGGAG
TTTGAGAGCAGCCTGGACAACAAAACGAGACCCTGTTTCTACAAAACAAAAAAAACAAAAAAAAAACAAATTCTAGAAAGACTGGAGATAAGGATTTAGA
AGTTATTAGTGTTATTAGTGTATATAGGCAGGTGCCAAAGCCATGGAAATGGATAAGATGGCCAAAATGCAAATGTACGATGAAAAGACCAGAAAGTTAA
GGATAGGTTTTTTCTGAGACAGAGTCTTGCTCTGTTGCCCAGGCCGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAGCCTCTGCCTCCCGGGTTCCAGC
AATTCTCCTGTCTCAGCCTCTTAGGTAGCTGGGATTTCAGGCACACGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAAAGATGGGGTTTTGCCATG
TTGGCCAAACTGGTCTCGAACTCCTGACCTCAGGTGATGCACCCACCTCAGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCGGCCAAG
GATAGGTTTTTATGAAACATTAACATTTAAGAGGTTAGATGAAGAAGAACCAATGAAGGAGACTGAAAAGGATAGAATCCCCATTTGGCTCTGTCCTTGG
ATGGAACACTTAATTGTGGGCACTTTGTTGATTATTTAAATTTCTAGTCCATTTGCATTATGAAGGTACATTTTCTTCTAAGACTTACTGAGTCTGTTAC
ACTGGCTCAACAAGGAATTAAGATATAGTTTGATATGAGGAGGAAAGGGCTTGAGAAAGGAACTGATGTTGGTTAAATGCTTACCATGGGCTAGACCTTG
TACATATATCATCTACTGAATAATTACAACAACCTGTCGTGTGGGAGCTAGCACCTTGTGTTACCTTTAAAGAAAGTGAAGATTAGAAAAGTTAAGAAAT
GTTTACAAGTTTCCACATTTATTTATTACATTGAGGAGCAAGAATTCATAAACCTTTTCAACTCCAAAACTCATGCTCTTGTCATTATATTATCAACTGT
ACCAAAAAACTCGATGAAATGTAGCCTATTGTATTTAATATTTCCTTTTTCTTAAACCAGCAAAAGAAGTGTTTTGAAAAACCATGCTTTTCAAATATTT
TGATTGCCTGACTTATTGCATGTATAATGAATAACTCATCTCCATTAACCCACTTAAATTAAGGGGTTTAATGAACCCCTTAAACTGCCAGTTAGAACTT
CTGATTCATTTAAGGTAACCACTGTTAAGAATTAAAATAAGTGGGCTGGGTGCGGTGGCTCACACCTGTAATCCCAGCACTTTCGGAGGCCGAGGCGGGT
GGATCACGAGGTCAGGAGATGGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAATACAAAAATTAGCCAGGCGTGGTGGCGGGCACCTG
TAATCCCAGCTACTTGGGAGGCTGAGGCAGGTGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGAGCCACTGCACTCCAGCTTGGT
GACAGAGCAAGGTTCCGTCAAAAAATAAAATAAAATAAAATAAGTGAGAGACAATATAAATCTTTAAAATATGCTTTGTCTTTGACCTAGCAATTCCACT
TCTGGGAATTTACTGCAAGGAAGTGATAAAGAATGTGTGCAAAGACTTAGTGATAAGCTAATCACGATATTGAAAAATTGGTAATGGCTTACATATCTAA
TAATAAAATATAGTTGAATAAATTAGGGTATGTCCCAAAATACTCAGTAGTCATTAGAAGTAGGCTAATATTGAGAGGTGACAGCGTGCTGGCAGCCCTT
GCAGCCCTGGCTCCCTCTCGGCGCCCCCTCGGCCTTGGTGCCCACTCTGGCCACGCTTGAGGAGCCCTTCAGCCTGCTGCTGCACTGTGGGAGTCCCTTT
CTGGGCTGGCCAAGGCTGGAGCCGGCTCCCTCTGCTTGCGGGGAGGTGTGGAGGGAGAGGCGCGGGTGGGAACTGGGGCTTCGTGCAGCGCTTGCGGGCC
AGCTAGAGTTCCGGGTGGGCGTGGGCTTGGTGGGCCCTGCACTCGCAGCGGCTGGCCGGCCCCACTTGCCCCGGGCAGTGAGGGGCTTAGCACCCAGGCC
AGCAGCTGCAGAGGGTGCGCCAGGTCCCCCAGCAGTGCTGGCCCACTGGCGCCCAAGGGCTGAGGAGTGCGGGCACACAGCGGGACTGGCGGGCAGCTCC
GCCTGCCGCCCCAGCGCAGGATCCACTGGGTGAAGCCAGCTGGGCTCCTGAGTCTAGTGGGGACTTGGAGAACCTTTGTGTCTAGCTAAGGGATTGTGAG
TGCACCAATCAGCACTCTGTGTCTTGCTCAAGGCTTGTGAACACACCAATCAGCACCCTGTGTCTAGCTCAGGGTTTGTGGATGCACCAATTGGCACTCT
GTATCTAGCTAATGTGGCGGGGACTTGGGGAATCTTTATGTCTAGCTAAGGGATTGTGAATACACCAATCGGCACTCTGTATCTAGCTCAAGGTTTGTAA
ACACACCAATCAGCACCCTGTGTGTAGCTCAGGGTTTGTGGATGCACCAATCGGCACTCTTTATCTAGCTAATCTGGTGGGGACTTGGAGAATCTTTATG
TCTAGCTAAGGGATTGTGAATGCACCAATCGGCACTCTGTGTCTAGCTCAAGGTTTGTAAATGCACCAATCAGCACTCTGTGTCTAGCTCAGAGTTTGAA
AATACACCAATCGACACTCTGTATCTAGCTAATCTAGCGGGGACTTGGAGAACTTTTGTGTCTAGCTCAGCCATTGTAAACGCACCAATCAGCACCCTGT
CAAAATGGACCAATCAGCTCTCTGTAAAACAGACCAATCAGCTCTCTGTAAAATGGACCAATCAGCAGAATGTGGGTGGGGCCAGATAATAAAAGCAGGC
TGCCTGAGCCAGCAGTGGCAACCCGCTTGGGTCCCGTTCCACAGCGTGGAAGCTTTGTTCTTTCACTCTTTGCAATAAATCTTGCTGCTGCTCACTCTTT
GGGTCCACACTGCCTTTATGAGCTGTAACACAGCGAAGGTTTGCAGCTTCACTCCTGAAGCCAGTGAGACCACAAACCCACCAGGAGGAATGAACAACTC
CAGACGCGCTGCCTTAAGAGCTGTAACGCTCACCGCAAAGGTCTGCAGCTTCACTCCTGATCTAGCGAGACCACGAACCCACCAGAAGGAAGAAAGTCCG
AACACATCCAAACGTCAGAAGGAACAAACTCCGGACACGCCGCCTTTAAGAACTGTAACACTCACTGCGAGGGTCCGCAGCTTCATTCTTGAAGTCAGTG
AGACCAAGAACCCACCAATTCTGGACACAATATGAATATGGAAAGTTGCTCATGAGATAGTTTTAAGTGAAAAAAATCAAGTTAGCAAAATAAGTGTGGT
CCAATTTCTGGTTATATTCCTTAGCTGGAATATAAACACTGCTAGTGTGGGCTGTCCATTGTTGACATCGCTCCCTCCACCTCCCGTGTGTTCGCATTAA
TTTATATGCGTTGTGGCTTTTGTTCTAGCTGAGAGGAGAAGAGGTATAGTTGGTACAAGAGATGAGGAGGAATGTGGAGAAATATGGTGAGTGCAGTAAG
GAATCTATTTCCTGCCTCACTTCTCATACTGGGTTGAGCCCCTAGGCTTTGTGAATGACAGCTGGAAAGGATGGAAGTGTTTCATTTTTTAAAAATAAAA
ATATGATATTGTAATTTTGGACAAAGGAGTAGGGAACAAAGCCCAAGAAAGTTCAGGAAAGAATTGTGAGATTTTGTGCATATGGAGCAGTAACTCCTAG
ACCAGATGTCAAAGACTGCCATGAAGCTGGAGAGGAGACAATTCTCCCCATCTGTGTGGTGGAGGCTGCTCAATGTCCCCCAATTTCTCTTCATCTCATC
TTGCTTATTAATACAATTTCAGTTAGGCACTCAGCTGACAGGACTATGTTTCACAGATCCCCTTGCAGCTAGGTGTGGCTTTGTAATCAGATGGAATGAG
GGGATATGATTGTAGAAACTGGAGCAGCCATCTTGAATGAAAGATGCAAGGCAAGCTCTGATGATGGCAGAGTCACGAGATAAAAGGAGCCTGGGACCCT
GTCACAGGACAGAGCTGCCAGCAATACCGTCTCTATAACAAACACTAAATTTAATTATTCATATCTAAATCTGAACATAGGCAGTAATTTCTAACCAGTG
TTTAGCCCAGCACAAGGCCTGGGTGGTAGACTTCCAATAAATGTAGAATTAAGTTTATTCACACTATATAGACTTATTGCAAGGCAAGAATGAGACCTTA
GACTTTCGTGCTCAATCTTGAAGACAATGTTTTTCAACCCTTTTCAACAGATTCTCTCTCAAAACCTAAAATCTCATCCACCATCCCACTCTCTTTTTAC
CAGGGAGATGTGTTTCTCAACTAAAGAAATAGAAGAAAGTGTGTTCTCTACGTATTGTCAGTTAGCTAATTAGAGCAGAATGCTGGTGATGCCAAAATCT
GTAGCCCCATCCCTTATATGGCATTTGAGAGGAGCGAGTATAAAGCAGTAGATAATACCAAAGGTTTTGGCCTCAGGGCCGCAGTTATCTCTCCTTTGTG
AGACCTTGGGGGCACTGTTTAACCTCTCTGGGTCTCATCCAAGAAATGGAAATACTAATAATACTCCATATGGTTGTTGCAAGGATGAAATGAGATGTCT
GTAGGAAGTGCCGAGGAATGCCTAGCACAACCAAGAGCTTGTTGAACTTGTCACGCTTTACTGTCGATAATGTGCATTAAGCAAACGCTAGTTTTATTTG
TTTATTTCATCTTCTAAGTATAAGAATACATTGTAGCTCGACATTTTGGCACCAGCCCCTAAAGCATTCCCACCACCACCCCCGCTGCGACAAAGCCCTG
CGCTCCTTACGACAGCGTACGACGCCGAGCCTGACAGGAACGCCTCGTGCGGTAGAACCGCGCGGGCCAATCGCGCTGCTCCCGGGTGATGACGTAGGCT
GCGCCTGTGCATGCGCAGGGAGGGGAGACCTTGGCGGAGCGGCGGAGGCGCCCAGCGGAGGTGAAAGTATTGGCGGAAAGGAAAATACAGCGGAAAAATG
CAGAGCTGGAGTCGTGTGTACTGCTCCTTGGCCAAGGTGAGGGCCGAGTAGGTGAGGTCGTGTTGAGCCAGAGGCACGGAAGGTCCCGCTCAGTGGGTCC
GGTACGCGGCTTAACCGTGTTGGGCTGGCGGAGGCCGGGCGCCTGGGCCGCACCACCCCTGGCCCCGCCTCTGCACTGGCTCAGCCCGGCCCTGGGCTCC
GAGGTGGCCGCTCATCCTGCAGCAGGCGAGGGACGRGGCTGGGCCCAGGCTGTGGCGAGTCCTTTCGGGTTGTGTGACGGCCGGCGGTCACACATGCCAC
ACCCCCAAGCCTGGGCCGAGGGCCATCCCGGTCACACATAGGCCTCTACCTTGGAGGAAGTGTAAGCCACCCATGTCCCGTATAGTCTGGCTYTTTATAC
CATTTGCCTTTTTCTCATCCTAATTCTGATCCCTGAGTGGCCTAAGTTTATGCAGTGGGCAGGTAACCCTGGGGTCACTTCTTGAATGGTTTAGATCCAG
TCAGCTCCAACAGATAGCCCTCGGAATTCCCCTAAGGTCTTGTCAGTGTTGGCAGCTTTCAACTGGTGTTCATTGCCATCTCTCACGACTTCCTGGAGGC
TTAAATCTTTAATTGCAGCAGGTTATCAGAACAACTCTCCTTTTTAATCTGCTTACCAGATACAGCCAAATTGTGTGTATGTGGCACCGTGGCTGGGTAC
TATGTTAGTGGAGACCTTAAAAATAATATAGCGATCAAACCCTTTTGTTTCAGAGATGAGGAACCTGAGTTCTCAAAAGTTAATGTAACATTCTGCAAGT
CATGCTTTTAGGGAGCGGCGGAGGTGGGACTGAAACTCAGGATTGTCAATCTGCTGCTTTTTGGGTTTGCTGTCCTGACCTCAAATGTTAAGAGTTGCCT
TGGAATAGGAAACATCAGTGTAGGTTTTGTCACTGCCGCCCATTTTCCTGCTGTGAGCAGGGGTTATTTGCTTGCTTGCTTTCTGCCTCATTGCCCTTAG
GAAATGGTAGCCGTCCACATATAGAGATTAGGGAGATTATGATGCAATTTGTCAAACTGTAGTAGCACCAGAACGTAAGTACATTACTTGGTGCATTTTC
CTAAGTTACCTTGTCTAATTTGCTATTCCTAGTTGATGTCTCAGGAACATCTTCATAGATTGTTCTAAGTAAATACGGACTGTATATACACGCTAGCTTA
GAGTTAGGAAACAAAAATTACAGGTAAAAAGATTATCATGTATAGATTATTCAAGTATTTAAGTTAGAACTTTCAGAGCWTTATTTATTTATTTATTTAT
TTATTTATTTTGAGACGGAGTCTCACTCTGACATCCAGGCTAGAGTGCAATGGCACTATCTCAGCTGACTGCAACTTCCGCCTCCCGGGTTCAAGTGATT
CTCCTGCCTYGGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACTACACCCGGCTAATTTTCTTGTATTTTTAGTAGAGTCGGGGCTTCACTATGTT
GGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCACCTCAGCCTCCCAAAGTGTTGGCATTACAGGCGTGAGCCACCACGGCCGGCTCAGAG
CTTTATGACATTAAAATGATCCCTGGCACTAATAATTAGCCATGTTTTCTGAAAATTGAATAAAAATACCATTGAATACGTTTTTAAAATTAAGTTAAAT
ATGAGATGATTTGTTGACTATTGATAATAAAAAGATGGGTGTGGCAAGCTGAGGCTGAAAAATTTAAATGATTAGTTATTGTCAAAGAGGGGATATTGAT
CTGTAGCTTCTGTGTGGCAATGGAAGAAGATACACTAATAATCCTCGCTTGATACGTTTGCCCAAAATTGTTCTGTTATCATCAACCTTCAGTAGTTCTA
TGTTTTGAATTCATATCTTACATAATAGGGACATTTTCTTTTTCTAGAGAGGCCATTTCAATCGAATATCTCATGGCCTACAGGGACTTTCTGCAGTGCC
TCTGAGAACTTACGCAGATCAGCCGAGTAAGTACTTAAGTAAAACATTTTTTTCATCACATTAGCTGACAGTTCCTTTCTATTTCAATGTAAAAGCAAGT
GAATATTGGAATAACTTATGTTAAGTGTCTTATAGTTCATTTGTTCATGTATTTATTCGTTTGAATGTATATTGAGCTAGTGTGTTCCAGGCGGTGAACA
AGGTAAAAAAACCCTGCTCTTATGAAACTTGTAATTTGGTGATAAAAGACAAACAATATATAAGTAATGGATAAATATTTTGGGAAGTAACTGAAAATTA
AAGCAGGTAATAGGGAGGAAGAGAGATAATTTTAGATACAGTGTCAGGAAAGGCCTTTCTGAGGAGATGATGTCTGGGCAGGGTCCTGAGTGAAGTGGGG
GAGTGAGGTTACTTCAGGCAGAGGGAAACAACACYGAGAAAGGCCTGAGGTGGGACTTAGCTTGTGAAGTTTAAGGAGTAATAAGAAGGCTGGTATGACT
GGAGCAGAAACCCATGCAATGTAAAGTCGGAGAGGTAGGCAGGAGACAGATCATGGAGTGCCTTGTAAGGCAGGTCTAGTAGTTTGGATTATACTCCAAG
TATGATGGGAAACAAAGGTTTTGAGCAGGGCAGCAATTTCATATGTTTACATTTAAAAAGTTAATTTTGTCCGTTGAGTAAGGTTGTATTGGTTATTTTA
ACACTGTTTAGAATGATGAGATGACTTTCTTGACATCCTGAATGAAAGTCTTCATGGGTTTATCAAAAGCATGTTTTAAAGATTAGCAGGATCTAAAAGG
AAGCTATGGGTCATGGAATTTTCTCCTGTGTACTTTTTTTATATTTTTGAAGTTCCCATAAAGGATATGCATTTTATTTTTTTAAGTATTTAAAACAGAA
AGTTAATAGGATTATATTGAAGTATTTTGACCTGTCAGTACCAAGGATATTGATTATTTGCAATGTACTGTTTTGACATTTACTGAATTCACCCATATGG
ATTATAAGTAACATTGGATGTCTTAAAGCTTCAGTTATAGAAATCATTATCTGGGCAAACTGTGACTATCAGTCTCCCTGCATTCTGTGAAGTAATTTAA
TCCTGTATCCTCAACTGTTATCCAACCATTATCATTTTGGATATTTTATTTCTAGAGGAAGGGTAGGGGGAGGATTCTAGTAACCCATGACTAACAGTGA
GTGAGTGATTTATTCTAGCTTTGAACAGGTCAAGAAATCCTTTTAAAAAAATGCTAATATGATGATGAAGGGAAAAGTTGGACCTCTTATACACTTTGTC
TCTTGTTAAATAGGAATCTCATTCTTCTCAACTCATATAACAGGAGAAATGTTAGATTTTCATTTCTAAAGGATATTTTTCATGGCTAACTCTATACCTT
TGGCATCACTCAGCAGAGATTATTCAGTGCCTTCTATTTGCCAGGCAGACCCTGAGCCAGAACTTAGATTTTAGTGGAATGAGGCTGAGTGTTCCATAAT
CAGTTTGGTGATCCCTTGACATTGAGTAAATCATAAATSACTTAGTACCCATGTGTGTAAAGTGTGTAAAAGCTTTGAGTGGATGCAGTAACAAGCATTT
TACACACATACTTGTATTTTATCTGAGGTACATGCTTACTGTCTTTTCCTCAGGAATGCAAACTTCATCAGGACAGGGACTGTGTGTGACTGTTTTGTTT
AGTATCTAAAGTGATACAGTAGGTAATCAGTACATATTTATTGAATGAATGAACACTGGGGCCTGGTCTGTTTTAATTACTGCTCTGTGGCAAAGCATCC
AGTATGGTGTCTTGTACAAAGTAAGTAACCAGCTACAACAGCAATAATATTAACTGATGCATTGAGGGCTTCACTCTGTCTCAGGCACAGATTTAATCCT
CATGGCCTTTCTACTACCTGTGTGCTGCTGTTCTCCCCATTTTATAGATGGAAGAGTTAGGTTTTTTAACTAGGAAATGACAGAGCTGGGAGAATCCTTT
TGACTTCAGAGCCTACACTGTTAATGTTTTATTGAGTTTTCTTCCTTACATGAGTATTGATTGACTCTCCTGAGGAGTTCAAATCTTATTATGATATAGT
CTTGGTTACAACATCTGAGAGATGTCTGAATAGCCTTATGAACCAGGTTCATCAGAATTTGCAAAGTTGTGTGTGTTACTGTTGATGTGACGTTTTATTT
CATGACAGCACTTAATCAAACTTGTAACACTTAAACTTACAGCACTTATATCACTCACATTCACTACATTCATTCATTCTTTTATTATTTCGACAAATAC
TAATATCTACTATGTGTTAGTCATTGGGCTAACTACTGGAGTACCGCAGTGAGCAAGACGGACAAGACCCAGCTTTTATAGAGCTTACAATTCAGTTGAG
GGAGACAAACATCCAACATATAATTGTGACAGGGGTCCATAGACTTAAGCATAGGGAGTAATGACATCTATATATGGATTGGGAATGGTCACATAATTCT
TTCCTAAGGAATTATGTTGATAGCTAAAAAGGTTGAGAGTAACTCTCGTTACAGGTTGGACCTTTTACTGTAATTCTTTTTTTTATTTAGACTGTAAGAA
RTAGGGCTATGTCATTTATATATACACACACACAGACACAGCATGTGCAGACACACCCCTCCAAGAGCCTAAAGTAGTGTTTGTAATGTGAAATGCCTGC
TGTTAGTGTTTATTTCTAGRTAGATGGAACAGATCGTACATAGGTAGACCAGCATAATTCTATGCATGTAGGCTAAGAGTAGTAATTCACCGTTACTGAA
GCTTAAACTGCATGGTATTGGTGAGTAAACAGAACGTGGTAGGAGATRAGGCTGGAGAAATAGTTACTGAAGGAATTTGGATGCTGTACTTAGGAACATG
GGCTTTATCTAACAAGACACTGGAGAACCAACAGAGCGTAACAACAGAGAGAATAACATCTGAGTTGGGTTTTAGCTTTGCGGTAGCACTGGGTAGGCTA
AAATGGAGGATGTGAATGAGGCTAGAGGCTGCTGGACTGAAGTTTGGAGGTGGATCTGAGAAGGGGAGTGACACTGAGTTGCTAGTATGCACCTAGCACC
TCCTTAGGATCTTAACATGCGTACTCTCTGATCCTCACAACCCTAGGCTGCAGGTGTCATCCTTACTATTACCCCCATGTTGTATCAAAGCCCAGAGAGA
TTGAGTAATTTGCCCAAGAACTTAACGGGGTTAGAGTTTGGAACCCAGGTCTGTTTTACTTCAGATCATTTCTTATTTTACTATATTTCTTCTTTAGGGA
CCAGGAGGTTATGACTAGAAAGTAGAGTATTGATTTCAGAGGCTGAACAGTTTTGGGTGATAACAAGTATAGAGTGTTAACTATGGGAGGAGGTTACTGA
AAAAGACTGGATATTAAGGCCATTGACAATGTAAAAACAACTTCCCTTACCCCTCAACAAAATGTCAACAAATAAACCTTATCAAGTAGTTCTTACATTC
AGTAAATTTGGTAATTAATGATTATTGCCTTATGACATCTCTTTTCCTGTTCGTTTTTTCTTTTTAAAAATCTGGTTTTGTTTTTGTTTGTTTTTTTTTT
TGAGACAAAGTCTCGCTCTTGTCCCCTAGGCWGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACTCCACCTCCCGGGTTCAAGTGATTCTCCTGCCTC
AGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCAGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCATGCTGGTC
TCGAACTCCTGACCTCAGGGGATCCACCCACCTCGGCCTCCCAAAGTGTTGGAATTACAGGCATGAGCCACCGCGCCTGGCCAAAAATCTGATTTTACCT
TTATTTTGACATGTGCCTCTTTTTTCTCACTGTGTTTTAAGGTTATTGAAGGTACTGATGAGTCATAAATATTTGATTTCATTCTGTAAAGCATATTCTT
GTCATTTTAGTTGAAGTTCTTGATTGTCCTGGAGATTATGGGATCATCTGAGTGTTTTGGAAGGCAATAGAACATAATGGTATATAGGAGCACACATTTC
AGAATCTAGAGGACCTTGTTTGAATCCTGGCTAGATTACTTACTAGTTGTGTAGCCTTATGCAAATTATTTAGTTGTTTTCAACCTTTTCTTCCTCTGTT
AATGGTAGTATTAAACTATGTCATAGAAATGTAATGAGGCTTACATAAGACAGTACACGTGACTGGCTCACTAACTGGCACATTTTAAGCTACCCAAGTG
GTAGGTATTATTGTAGACTGACTTTTTTTTTTTTTTTTTTTTTGAAACTTGGTCTCACTCTATCATGCAAGCTGGGGTGCAATGGTGCGATCTTGGTTCA
CTGCAACTTCCACCTCCCGGGTTCAGGAGATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACGCACCACTATGCCCAGCTAATTTTTGTA
TTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCTGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCGCATTGGCCTCCCAAAGTGCTGGGATTA
CACAGACTGACTTCTTGAGATACATCTTGTAATTATATTGATGATTACAATTGATTTGTAACACAATACCTTTATTTCAGTGGTAGCCTGGATAACCAGG
TGCCTTATTTTCCTTATAATGATCTAATATGTAACACTTGTAGGAATTTGTAGAGTACTTTTCTTGACTTTTTTCTTTGAGTTAATTTTAATAACATTAA
TTGCSTTGTTTAAGTCAGTCACCTCTTATTGTACTCCAGTATTTTTAAAGTATCAACCTGATACTTTAAACCTGGTAGGAGCACACATTTCAGAATCTAA
AGGACCTTGTTTGAATCACTTCACTGAAACACAGATTGCTATTCACCTGTCATTTGCCACTTTTCCATCAGGTTTGCCTTAAATAAATGTATTTCATTTA
ACTACTTTTCTGTATCCTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTAGCTCTTGTTGCCCAGGCTGGAGTAGTTCAGTGACACGATTTCAGTTCA
CTGCGACGTCCCCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGTTACAGGTGCTTGCCACCACGCCTGGCAATATTTTGTA
TTTTTAGTAGAGACAGGGTTTCACCATGTTAGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGAATTA
CAGGTGGGAGCCACCACACCTGGCCTGTATCCTGATTTTTTAACTTTTTTTTTGAGACAGAGTCTTGCACTGTCGCCCAGGCTGGAGTGCAGTGGCGTGA
TCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCCAGCAGCTGGGACTACAGGTGCCTGCCACCACGCCCGGCT
AATTTTTTTTGTATTTTTAGTAGAGACGGGGTTTGGTCTTGATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGAGGATTACAGGTG
TGAGCCACCACACCCGGCCCTGATTTTTTAACTTTATGTATGGGACTCAACCTGTGAAATTATTCTTGACAAGGAGAGGGTGAGTCAGAATCATGTGTTA
TCAGCTTTCATTTATATGCATCCTTTGGTACAGGTGAGAGGTAGATGATTTGTTTTTCTGACATTTTATTATGAAAAATTATAAGCATTTAGAAAATTAT
AAGAATTTTACATTGAACACCCATAGTTTTCTTCCATTAACATTTTCTGTGCTTACAGTACCACATATGTGCTCATTCGTTTATCCATCAGTGCAGACGT
GTGTATACTTCCCCTAAATACTGGTTTGTTTTTGAAAGTTTGTTCCTGGCTTATACCCTCCTGTATTCTCAGTTGACAGATCTTTACATAAAGAGTCTGC
TTTTTTCTCATTTTTGTGCATCTTAGCACTTTAGTGGTATTGTAATGGAATATTACATCTAGTATGTACAGTGAGAGAGGAGCTCTTGAATTTTTGGTAT
TTTCTGAAGTTTAAAAAAAAACACCTAAGATTACATAGTGAATAGGGAAGTAAAACCCAAGGTTTTTGGCTATTATCTTTTATCTCTTGTTTACTTCTCC
TGACCTTACTAAAACAAGTTCTTTTCCAAACCAAATTTATTTATCATTTTAGTACCATGGACCTACTATAAGAATTGTTACATATCAGTGATTAAAAGTA
TATGCTCAAAAATACATATACTTAAAATCTAAAATATTTAATTCAGTTTTATTGTCATTAAAAGGGTTTTTGGRGAATTATAGCAGTAATATATGTTATA
AATATATATGCTCATGTAAGAGTGAGAAAAGAATATAAAATATGGCAAAAATTGAATTTTATAAAAACTTTCCTAGAAGAAGGATTGGGAGGACCTATAA
ACAGTTCTCTCTGGGCTGTATGGCAATGTGGATGGGTTGTTTTYTTTTTAATTTTGCTTTAGTGTATTTAAATTTATTCAGTAAACCTAAATTTTTAATC
AGAAAAGACATTAAAAATTCAGCAAAGAAACCTGTTTTGTAGCTTGTATTTACATTACTCTGAAATTAAAAATTAGAACCCATTTAAGGGATGTTGTGTA
GATCRTCATTTGGTTCAAGATTTGAAAATAAAAATACATTTTATTAGATACTTAATTCTGAACCGAAATCAGTGAACCAAGCAGGGTGGCTAAAAAGCAC
AGATGGATCAGTAAAAATTGAAGCAATTTTTCATGTATTGAAATGACTATACATATTTTTTCATGTATTATCTCAATTATCATCTGCTATAACCAAAGAG
AATCTAGTATTTTCATTTATTCAACAGGAGGGATTCTTAGATTTTGTGGATAATTGGGCTGAGTAACTTAGTTATCCACCAACACAGAGGTTCTGTGATT
CTGTTCAGGCCAGCAAAGGTTTTTTGAATGATCCTACTCTAGGGATGTGTGTTTTTGGGGAGAGGGGGTGATGCAAATTAAAATAGTCTTCTTTGTAGGT
CAGAATATAGCTACTATGTATAGAATACTTATTATGTATGCTATAGGTACTATGCTAAATTATTTACATACATTATTTTATTCTGTTATCACCCTATGAA
GTAGGTTTTTTTTGTGGTCTTTCTTTTGCCAGGTATGGAAACAAAGATGAAGCAGGTTAAATTACTCACCTAAGGTCACATAGGTAGTGATTATAAAGCT
TGATTATTGCTCTCTGGAATTTTAGTTTATGATGGTTAAAACTGAGGAATGGAATAGTATTGAATAATGGAAAGACCACCGGAAGTAGAGTCAAAAAGCT
TAGTTTGTCTCTGCAACTCACTTGCTGGTTAACCTTAGACAAGTTAATTGACCTCTCTGAACTTCTTGTTTATTCTGTGAAATGTCTTATTTATGACATC
TTTATCTTCCTCATAGGAAATTCTGAGACTCAAACATGATAATATATGTGAATATGTGTTATGAATTGCTAAATGCTAGACTAGTTGGGGTTGTCAGGAC
AGTGGAAGGGGAAGAAAAGGGAGACTGTTTCCTAACTCTTAACAGTCACTGTTACTTTATTTGAAGTTGGATTGAGAAGAATGGGAGTAATTGGACTTAC
TTGCACATTTGTATTACAATTGTTAAACTCCTAAGGATACTGATCAAAATTAATTTTCAATTTTTTATCTTTATTTGAAAAATGGCCACAATAGTTAATT
GAATATTCTGGTTAGCCTATTATCTTAAGGTATGTAAAAATTATCAATATGCAAGTWCAAAACATATTTGTTAAATATTACATAGAAGCTGTTTTTTCCC
TCATATTTCAGAAGTTAAGGACCTGAAAAAGGTAATAGGTCTTAAATTTATTGGAAATACTAAAGCATTATATAAAATTATCTTATTTAATTCTAACATC
AATCATTGAAGGCAGTGTTTTCATCCCCATATTACAGAAAGGTTAAGTCATTGGGTCAAGTTCATACAACTACTCATTGGCCGTGCTGAGATATGAAGCC
CAGAATGTCAGATTCCAAAGCTCAGGCTCTTTGCTTCATACATACTTGTCTTCCAGTATCACTAAATTCCGTCAGTTATTAAATCAATAGAATTTAGGAA
GGTCAGTGAATACAATGTGAGTGTTACAGAACTCAGTTGTGTTTCTGTATGTTGTAATGAATAGAAAATAATAGAAAATGAAATTTGAGTATTTATGCCA
TTTTTCAGTAGCATCAAAGAGCATCAAGTAGTAGTAATAAAATAGTGCAGAAACTATGTAGAAAATGCTGATTTGTACTGTAAGAGGTTTAAGTATCGGG
TTATTTGTTTGCTCTTCCAAAGAGCTCTTTTTGGTAAATATTAAGCAATTTACTATTTTATATCAATTTGCTTTTATCGTAGTTGATGCTGATGTAACAG
TTATAGGTTCTGGTCCTGGAGGATATGTTGCTGCTATTAAAGCTGCCCAGTTAGGCTTCAAGGTAAGGTTTGAACTCAAACTAAGTATTGATTTATTTTA
ATTTGGGAAGGGTTGATCATATTTATAAAGTACTTTGCAGGCAAAAACATGGTAAATACTTCCTTAACTCTATAAATTACTTGTAAGCCTGAGACTAATA
AAGATTAGGTTCATTTGGTTGTAGTATTCTCTTGGAATGGAAAGTGAAATCTATTAGTTTTCTTCTCTTCCCAGTACTTTTCATTTTGGCATCTAATCAC
ACTTTGGAAGATACAGTGATAGAACTAAAAGCATATATTTGGTAATGTTAAGCACACAAAAATATCTTTTAGAATAATTCACTTTTGGGTCAGCCCAAAA
GTGTTTATTATTATTCAAATGATAAATTATAAAGGACTATATATTTTAGTCTGTGAAAACAYAGCCCGAATAGCTTGTTTTGTAGAAGAATTAAGACATA
TATTTGGAATTTTAGTGATCTGAAACATTGAGGTTATGTGCAGTTAAATAATGTTTTCTTTGGTTGTAGACAGTCTGCATTGAGRAAAATGAAACACTTG
GTGGAACATGCTTGAATGTTGGTTGTATTCCTTCTAAGGTGAGCATGTGTTTTGTACAGCACAGAGATTGTTTTTGGCTAGCAACCAACTAGAAGGATGG
ATTGAGACTAGATTAGACAAATACACTTGTTAAAAAACAATCCAAGTTGTGGCACATTTCACACAGAGAAAAAAAAGAATGATAAAAAACACACTTCTCT
TTTGTAAAACTTAAAGAGTGCTGTCACTAGTCTGCCACACATTCCTGAAATAACTTCCTTGTCTCAGAATGCCTAGCTTTCCATTCAAACAGACTCTGAT
GTTCTAGTTTTTTCTCTTTATCTTTCCTTCACCAGTGTAACAGATAATAGATAGTAAATTGTTCTTTTAGGTCCTTTTTGTATGTAAACATGACTGCCTT
TTTCACCTGCCACCCTGAAGTGTGTACTTATGCCTTTACTTTTAAAGAAAGTAAAAATGTCTTTTTCATTCTTGTTTGTTGAATGTTTTTCACATCATTA
TTGTTTGTCTTTGATTAATAAGAGAAACTGAATTGGTGTAGTGCCATATACTRTTCCATGTAGAGAATGCCATGTCTTTTTTTTAACTTCTTTTTAAATT
TTTATTGTAAATTGACAAATTACAATTGTATATATTTATGGCATACAAAGTGGTGTTATGATTTATGACTATAATGTGGAATAATTTAGTCAAGTTAATT
AACATATTCATTACCACAGTACTTATCATTTTTGTGATGAGAACATTTGAAAGAGAATATCGGCCGGGCGCGGTGGCTCACGTCTGTAATCCCAGCACTT
TGGGAGGCCGAGGCGGGTGGATCACCTGAGGCTGGGAGTTTGGGACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCCA
GGCGTGGTGATGCATGCCTGTAATCCCAGGGACAATTGCTTGAGCCCGGGAGGCGGAGGTTGCGGTGAGCTGAGATGGCGCCATTGCACTCCAGCTTGGG
CAATAAGAACGAAACTCCGTCTCAAAAAATGAAAAGAAAGACTATCATTTCATAAGTGCTTTTTGATTATTTGAAGTCTGTTTATGAATATTTGATAATT
TGATCTTTTTAATTTCCTTTAGGCTTTATTGAACAACTCTCATTATTACCATATGGCCCATGGAAAAGATTTTGCATCTAGAGGAATTGAAAGTAAGTAT
ACTTTTCATGCTTAATGATATTACCAGACTGCTTGACTTGGCTCTTCTGTCTAAAGACTTAAATGTGTCTAACGTACGCATAATAGATGTTTAGTGRAGG
AAGAGTAAAATAAATAATCTAAAAAATGTGGAGAGATTTACTTAAAAAAGAAGGCCTAAATCCAGATTTCTCCCAGCCAAGTATAACCAAGCCTAACCCT
GCAAATCSAGATTTCTACCATTATATCTTCTGTTCCTTTGCCAACTTTTTCCTGAGGTTTGCCTTTATGTGTTTTTGAAGAGTCAGTTTTCATTTCCTAA
AATCTGGAAATCACTGRGAAGGCTGGATTCCTGAGTACTATGGGGAGATAGAGGAAGGAAGGAAGGCCCACTTAAGCTGTTGATAGTAGAAAAATTAGAG
GAGAGAAAGAGTGAGGCATAGCGGAAAAGGAAGAGGACATTTCATAACGTATCTTGTCTCCTGACATACTTTTTGAGCTGTTTTAATCTTTTGTCTCCAA
TTATTGTTGTTGTTAGATACTTCCAGAAAGGTAGTCTCTTCTGGGCAGGACCTAGTCATAACCTTGGGTTGTTACTTTTCCTTCATTTGTTTCTTTACAG
AGGTAGGTTTGAGGGGCTACTTAAGGCAATCCATTGGGTATAGAGATGATGTATATGCACTAAAGCAAATAGAATATCATACTAGTTGAAAAATGGAATG
ACGTAAAGAAAGAAGAGCTAGGGGTAGTCAGGAGACCTGCAYTGTAGGCAAGGCTTTTACATCCTAGCTCTGTGACCTTGGGTAAATCAGAAATCTCTCA
GAGTCTCTTTTTCCTTATCTCTAATATATGTGTTGGTTATATGAGGTACTTTCTAAGATACCCTTCTTACCTCTAAAGTTTAATTGAGTTGAGCATTTTT
ATCTAATACTGTTGCTTCAGAGTTCTCTTCTGAGTTGAATGAGTGATTAAAACCTAGGTGATTAAACTTTTTAATGTTAAGCTTCTGTATTTGAAATTTT
TAAACGTGTATTTTTTATTTGTTTTGTTTCATGAAATCTAGCATTTTCCTTTATTTAAAATTTCAGATGATGTTTTACTTTGTCATTTCTACTTACATAT
CTTCCAGACTTATAACCATCGTAAAGTGTTCAGAGGATATGTTATCACAGTGGGATATAATGTTTTATTTTGGACTGCCTTTTTACCCAAGGTAGACATT
TTATAGTGTTTGATAGGTTCTGTTTCTGTGATACAATGATGTTGGCCTTTTGTCAACTATAATTATAAGTTATTACATTTTGAAACTTTAATACTGCCTT
TTATAAGCATTAGGTTGAAATTTTCCAGTTGGTGAGTGAAAAACACTGCATATTGCTTCAAGAATTTAGCTAAGAACTAAAGATTAATTGAACAAATTAC
AGTGTCCGAAGTTYGCTTGAATTTAGACAAGATGATGGAGCAGAAGAGTACTGCAGTAAAAGCTTTAACAGGTGGAATTGCCCACTTATTCAAACAGAAT
AAGGTCAGTGTTTAATATTCAGATTTCTGCTTTACTTTGAATACAAATTAAACTTTGCATTATAGAGTGATGATATTTGAACTTGRTTACAGGGGAATAT
TTATTTAATTTAAAATAGCTTGCTAACCTGAAATAGATTTCCCTGACATATATCACAGATTTTTTTGCTGCACCATGGTGTAGCATTACTAAGTAAGGAA
GCATTTTGTTTTAGATAAATTATTTACAGAGTAATTTTTCCTTTGAATGATTTATCAAACAAATTACTTTAAACTTTGTGAATTTATAAAGATTATTTYG
TAAAGGTTGTTCATGTCAATGGATATGGAAAGATAACTGGCAAAAATCAAGTCACTGCTACGAAAGCTGATGGCGGCACTCAGGTTATTGATACAAAGAA
CATTCTTATWGCCACGGGTTCAGAAGTTACTCCTTTTCCTGGAATCACGGTATTTATGCTTCATAATTTACAACCATTACAACTTTTCTTTAGAAATACG
TTTTATAAGTTATTTATGCTATTTGTGAACTTTGAGAGATTTCTGACTGAAATACTATATTTTGATGGTCATTCAGCTTTGGGAAGTTACCTGTCTTTAT
TCTGCAGTGATTCTGACCAGCTATAGAACACTTTATATTAAGATATGTTTGAATACAGTATGAAGTTAAAATTGACCATTGCGTTTGGAATATTGGTGGA
TAAAATTTAAAGTCAGTGTTTTTAATGGGATTTGATGAAATTAGGTATATAGATACCTCAAAACAAATAAATGACTTAGTATTTTTAGTGATTCTACTGA
GATCACAGTTTATAAATACATTTATCTCTTCATATCCTTGGAGGATTGGTTCCAGGACCCCCCTTGGATACCAAAACCCACAGATGCTCAAGTGCCTTAC
ATAAAATGACATAGTATTTGCATATAATCTGCATACTTCCTCCTGTATACTTTAAGTCATCTCTGGATTACTTATAATACCTAATACACTGTAAATGCTA
TGCAAGTAGTTCCTATGCTGTATTGTTTAGGGAATAATGACAAAAAAACCATGTGTACATGTTCAGTACAGATGCAACCATCAATTTTTTTCCTGAATAT
TTTCAATTAATGGTTGGTTAAATCTGCAAATTTGGAACCCATGGATATGGAGGGTCGACTGTACTAGGTTTTTTCAAATTATTTTGATTATATCTTTTGT
TTTTCTTACAGATAGATGAAGATACAATAGTGTCATCTACAGGTGCTTTATCTTTAAAAAAAGTTCCAGAAAAGATGGTTGTTATTGGTGCAGGAGTAAT
AGGTGTAGAATTGGTAAGTGTTGTCTTTCTGCCTCTTATTACCTCCTTGGAGTTGGAAGGGACTTAAAGGTCCCCTTTTTGATTTTTTGTATAACATTAC
AGGCTGATCAGCATTGAGTTTTGCTTAAACACTTCTAGTAATAAAGAGTTTACTTTTGTTTTTTTCAAGACAACCTATTTATGTATTTACTCATTTAGAA
TGTTCTCCTTTATTTTAGTCTGTTTCCTTGTACCTTCCACCCTTCCATTTCCTAGAACTGGTCGAATTCTTTTTTAATATGACAGCCATTCAGATATTTG
AGGACAGCTTTTATCCTGGGCAAATTGCATTCCAAATAAAGATTATTCTCTTTACCATCACATACATGATTTGGCTCTTCCCTTCTCTATCCTCATCTTG
ATGCCTCTTAACTTAGGTTTTAGAAATGTCAAACTACTTGCATTTCTTTGAACACCATGTTATTTTAGACCTTCTGTCTGCCTTGTTCTCCCTTCTTGTC
CATCTGGCAGCTTTCCACACATTTCCAATGACCTCCCTCCATTTTAGAGTCACTGTGCCTTGTAAACACCAGGAATTGCTCTACTTCTGAAATAATAAAT
TCAGATATTTTATTATGTAACCATGACCTCCTTTCCTCTTTTACTCAGTTATTCATAGTGTACTTTGTACCCTTTTTTAGGTTTTCTAGTCCATAGATCT
ACTTTTTTGCAATCTTCCCTTTCCAATCTTGACTGCGTTCCTGATCAGCTTAGATGCCATAGTCCATCACTTTAACCACACTCTTACAGATRTCCTTGAG
TTGCTTGTCTCACTGTTCTGTCATATCTGCTTGGCAAAACTCTAGTTCGGTTTGAATGCAGCAGTCTGCCTTTTTTATGCTATTTCCAGGCTGTTGACTA
CACCTGGAGAAAAACACACCCTACTCATTGGTACTTGTATTAATTCTTGGCACAAACCTTAACAAGAACCTCAGCCTTGCTGACAGTTTATTATTTCCTA
AGATGGTACACTGCCCTGGTCTCTGCAATGGCCATTTTCATTTTCTACTCTTCTCAAATCTCTGCTTGTATACTGTCTGCTCTGCCTGTGGATGACCTTG
TCTTTTAAATATTACATAAAAGAGAAATCAGATGAGAACTCCCTCAAGTTGATGTCCTAAATTTGATAATGCTTTTACCTGTTGTTACACCTATCCTTTT
GATTACCTCTCCTATTACTGTGGAAATGCCATTTTCCCTAAGACTAATCCCTTTACTTGTGCTTGGTAGCACATCATCTGCCTTTTCAGAGACTTGGTTT
TGTGATTTTTATTCTTGTATTTTTCAGTCTTCAAACTCCTTCCTTTTATTTACAATTTCATGTGCTTCTATGTGTGTACCTGTGATGCATTTGCACTCAT
TAACACAGGTTTGTGTGCACATAAATGCTCCTTATCTTGGTCCCATGTCCTTCTTGAGTTACCAATTTTGTTCGCACTTTTCCTTCAAAACCCAGCTTCT
CAAAAGAGTTGTCCATGCTTTATTTCATCAACTTCCACTCACTCAGTCTATGGCTTGTGCCAATAAATTGCTCTTAGGGCATGAATCTATTTATTGCTCA
ATCTGTTGGACTAATTTCTTCACTGCTTTATTTGGCAGTAATTAGCATTGCTGATTTTCTTGCCTTTGAAACACTTTGCCTAACTTCTGTGATTTCATAT
TCTTCCATTTTTACATCTGCTCTTTGGGCTGAATTCTCCATATTATGCAAGTTCCCCTTTCTTAGGCTTCCCTTTAATTGTTAGTATTTTTGTTTTTCTT
TTTTTTTTTTTTTGAGTCCGAGTCTTGCTGTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACTTCTGCCTCCCGGGTTCAAGTGA
TTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGACTACAGGCGCCCGCCAGCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATT
GGTCAGGCTGGTCTCGAACTCCTGACCTTGTGATGCGCATGATGGTTCATGTCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATTGCTTAAGC
CCAAGAGTTTGAGACTAGCCTGGGCAACAATGTGAGAACTTATCTCTAAAAAAATGTAAAAAATTAGTTGGGCATGGTGGTGTGTGCCTGTAGTCCCAGC
TACTCAGGAGGTTGAGATGGGAGAATCACCTGAGCCTGGGAGTTTGAGGCTGTAGTGAGCTGGGTCATGCCAGTGCACTCCATCCTGGGCAAAAGAGTGA
GACCCTGTCTCAAAAAAAAAAAAAAACCCCAAAACAAAAATCAGCTTTTAAGTTATCTTTTTAGTGAATAATTCTTTCTTCTAAGAAAGCTCAAGTCTTT
CATTTTTTGAGTCCTTAGTATAATATATCTACATTTCCATAGTACCCACTAATAATAATACATTGCATTTGTTTGTCTATGGCTGACTTTCCTATAAGAC
CAAAGCTCCTTGAAGGCAGGACCGAATTTTTAATTCCTATTTGAATCTCCATTGTTTTTCTTAATGTTTAGTACTTAGGTCTCCTAGACAGCAGGTCTGT
TATTTTGTCATCAACCTTTGGATCCTGTCTAGTCCGTTAAGAAAACTTGTAATCTAAACATAATGTTCTGGGTTGTAGAGAGTACTTCTTTTGATATGCA
TAGTATACTTCTTGTAATGTAATGCTTTGAAATCAGTTTAGTTGTTTTTATAAAGCAGACATTGAGCTTATGTTCAGATAAAAACCACATTTTTTTCGCA
TTTGGAATTCTGATTTTTTAAACCTAAGTGACTTTGAACCTTTATTCTTGCTTTAATTTAATCTTGTTCACTCATACTCATTATTCCAATCTATATCTTA
GTCTTGATTCTGTCACTCTTATACTTAACTGCTTTTACTTTTCATAGTTCGTAAATTTTGGAAGTATGACAATTAAGGCATGCAGTCCCATCATCTGATC
TGATCTTGGTTAAGCAAACTTCTGTTGTCATTCACGTCATTAGTACAAATTTTTGACCAGGATGAAACATCGAAAGCCATCTGACAGTACAGTCTTTCAC
CAGTTATAAACACCTTTGATGTTTATTCATCTTCGTTTCTCCATCKCATCTACAAGGATATCATGAGATTTTCTTAAAATTTTTTTTAACACCTTGCTGA
TATCAAAATATACTACATTCACCAGTCCAGAAACCCTTCAGAAAGTAAGAGTGGTTTATGTGACCTGTTTGGAACACTTGTGGTAGTGTCTACTGATTGT
GAAACCAGCTGATTAATAATGTCTTCTAGTATTTAGCAGAATCTCTTCTTTTCCATTTTTGAAAATTTAGGCATATTTGCCTGTCTGCCACCTTTTGGCA
GTTCCCTTGTGCTAAGTAAGTTCCCAGAGTTCACTGAGAGTGCCTGTTTTGTCATACTCTAATTGGGTTGATGGGAGAATTAACTTTTTTTTTTTTTTTT
TTTTTTTTTGAGATGGAGTCTCGCTCTGTAGCCCCGGCTGGAATACAGTGGCATGATCTCGGCTCACTGCAGCCTCCACCTCCCAGGTCCCAGTTCAAGC
AATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACGCACCACCATACCCAGATAATTTTTCTTTGTATTTTTAGTAGGGACGGGGTTTCAC
CATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCATGATCCGTCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCAGCCG
GGAATTAACTCTTTAAAAATGACCAGTTGTTCTTAATCTTGGGCGTTGCCTCTTGGTTAATAATATTTCTTCTGTTCATTCTACTTTGTTCTCATAGTTG
GATAAAACAAGAAAAAAGGAATAACATTTACTTTCTTTTGTTGGTCATTATAATATCTCGAAGCAATAATTCTATTTCTTCATCTCAGCAGTTTTGCTTT
AGGTTTTTTATAAGCCTTGAGTCTTTTGACACAATGATTTAGATACCTGTTACTGTATTGAATTAGTTTTTACATGTCTTTTTAAAAACTTATTAGAGAA
TTTACTGTGTAGTCATGATATCTATTTATTTTCTTGTAAAGATTATTCACATAACTGTATTTTCATTTTTTATATTTTGCCTTTCTTCCATTCCAGTTTA
GTGTAGTATTAAAAAACATCTTTTTTGGAATTGAACAGATTTAAATTTGAATTTCAACTCTGCCTCTTACTGACTTATGTTCTTGTTAATGAGCCACTCT
GAACCAGTTGGTTTGTCATCAAAAAGGGGATAAAAATAACTAACTTACAGGAGTATTGCTGGGATTTAATACATTTAAAACACTTAATGCAGTGCCTGGC
ATTTAGTAAGCTCTAAGTAAGTGGTAGATGCTATTGAGTTTTCCTATCTATAAGTATTTTGAAATCAGTTTTCCTAAAGAGTAGGGCACTTGTCTATGCT
CATCACTCCCTACTTTGAATTAGACTCCAAGATGATGTTTCTTATTTCCACACTCCCATTATTTCCCCTCTATTTACTTCTATCCCAGTTTCCAAGAATG
GTCCTTTCTTTTGTCTTGTTTGCTTTTTAAACAGCTTTATTGAGATATAGTTCACATATCAGTTCACCCATTTAAAATGTACAATTCAAAGGTTTTTAGT
ATATTCATAGAGTTGTAGAGCTGTTACCATTGTCTAACTCTAGAACATTTTCATCACCCTAAAAGAAACTTGCTACCCATTAGCAGTCATTCTCCATTTC
TCCCTTTGCTCAGCCCCTGGAAACCACTAATTCTACTGTGTCTATGAATTTGCATATTGTGGACATTTCATATAAATGAAATCATACAATATTATTTTGT
GTGTGCTCTCTTTACATAGCATAATGTTCTTATGGTTCATCCAAGTTGTAGCATGTATSTATACTTCATTTCTTTATCTGGCTAAATATCTCATTCTATG
GATATGGCACATTTTGTTTATCCATTCATCATGGGTGGACATTTGGGTTGTTTCTACTTTCAGACTATTATGAATGACACTGCTATGTCTATTTGTGTAC
AAGTTTTTGTGTGGTTATCTGTTTTCATTTCTCTTGGGTATATAACTGGATGTGTAATTGTTGGGTCATATGGTAATTATTTTAACTTCTCAAGGAACAC
CGTTACACTTTTCCATACAATCCCACCAGCAACGTAAATTTTTGTTGCTCTGCTTTTCCACTGACACTTGGTATTGTCATTTTTTTTAAAAAATTGAGCT
ATTCTAGTGGTTGTGTAGTAGTAACTCACTGTGGGGTTTTTTTTTCTATTTTTATTTTTTAAATTGCTATGTAATAGATGTACTTTTTTCAAGGTACATG
TGAWAATTTGATATATTCATATAATTAAATCAGGGTAATTAGGCTATCCATCACCTCGAACATTTTTTTTAATGCTAGGAATATTGAATTATTCTCTTCT
AGCTATTTTGAAATGTGTAATTGATTGTTACCTATAGTCAACCCTGCATTAACACCAGCTCTTATTTATTCTGTCTAATTGTATATTTGTACTGATGAAT
CAACCTCTCTTCATTCCTCTTCTCCCCCTAGCCTTCCCAGCCTCTGGTAACCATCATTTTGCTCTCTATCTCCATGAGTTCAGTTTGTTTGTTTTTTTTT
TTAGCTCCCACATGTTAGAACATGCGATATTTGTCTTCCTGTGCTTAGCTTATTTTGCTTAACATGCTGTCTTCCAGTTCCATCTGTTCTGTTGCAAATG
ACAGAATTTCATTCTTTTTTATGGCTGAATAATATTCCATTGTGTATATGTACCACATTTTCTTTGTTTGTCTGCTGATGGACACTTGAGTTAATTCTGT
GTCTTGGCTATTGTGAATAGTGCTGCAGTAAACATAAAGCGCAGATACCTCTTCAATATATTGATTTCCTTTCTTTTGGATATATACCCAGTAGTGGAAT
TGCTGGCTCATATTGTAGTTTTATTTTTAGTTTTTTGAGGAACCTTCATACTGTTTTCCACAGTGGCTGTACTAACTTACATTCCCACTAACAGTGTATG
AGGGTTCTCCTTTCTCCACATCCTTGTCAGCATTTGTTATTGCGATCTTTTTGATAAAAGCCATTTTAACTGGGGTGAGATGATAGCTCATTGTGATTTT
GACTTGCATTTCTCTGGTGATTAATAATGTTGAACATTTTTTCATACATGTATTGGCTATTTGAATGTTTTCTTTTGAGAAATGTCTATTCGGATCTGGT
GCTCATTTTAAAATTGAATTTTTTTGAGCTCCTTATGTATTCTGATTATTAATCCTTTGTCGGATAGTTTGCAAATATTTTCTTCCTTTCTGTGGGTTGT
CTCTTTGTGGACTGTTTCCTTGGCTGTGCAAAAGTTTTTTAACTTAATGTAATCCCATTTGTCTGTTTTTGCTTTAGTTGCCTATGCTTTTGAGGTCTTA
CACAGTAAGTCTTTGCCCAGACCAGTGTCCTGGAGCATTTCTCCAATGTTTTCTTACAGTAATTTCATAGTTTCAGATTTTAGATTTAAGTCTTTAATCC
ATTTTGATTTGACTTTTGTATATGGTAAGAGATAGGGGTCTAGTTTCATTCTTCCGCATACGGTTATCCAGTTTTCCCAGCACCATTTATCGATGAGACT
GCCTTTTCCTCACTGTGTTTGTGGTACCTTTGTTGAAAATGAGTTAGCCGAAAATGTGTGGATTTATATTTGGGTTTTTTATTTTGTTCCATTGGTCTGT
GTGTCTTTTTATGCCAGTACTATGCTATTTTGGTTACTATAGCTTTTTAGTAAATTTTGAAGCCGGTTAATATGATGTTTCCAGCTTTCTTCTTTTTATT
CAGGATTACTTTGGCAGTTGAATATCATTGGTAGTTTAGTAGGGATTGCATTGAATCTGTAAATTACCTTGGGTAGTATTGTCATTTTAACGATATTAAT
TTTTCCAGTCCATGAACATGAACTATTTTTTGTGTCCTCTTCAATTTGTTTCATCAGTGTTTTTTAGTTTTTTATTGTATAGATCTTTCACATCTTTGGC
TAAATTGATTCTTAGGTATTTTATATTCATTATAGCTATTGCAAATGGGATTGCTTTTTTTTTTTCTTTTTTAGATTGTCCACTGTTGGTGTATATAAAT
GCTACTGATTTTTGTATGTTGATTTTGTATCCTGCAACTTTACTGAATTAGTTTGTAAGTTTAATAGTTTTTTGGTGGAGTCTTTAGGTTTTTCTAAATA
TAAGATCATGTAGTCTGCACAAAAGATTAATTTGACTTCTTCCTTTTCAATTCGAATGCCCTTTGTTTCTTTCTCCTCTACAATTGCTGAGGCCAGGACT
TCCAGTACTATGTTGAATAAAAGTGGTGAAAAATGGGCATTCTTGTATTGTTCCAGATATTAGAGGAAAGGCTTTCAATTTTTTCCCATTCAGTATGATG
TTGGCCATGAGTTTGTCTTATTATTTTGAGGTGTGTCCCTCCTATATCCAGTTTTTTGAGGGTTTTTATCATGAAGGGATATTGAATTTTTATTAAAGGC
TTTTTCAGCATCTGTTGAAGTGATCATATGGTTTTTGTTCTTGGTTCTGTTAATGTGATGAATCATGTTTATTGATTTACATATGTTGAATCATCCTTGC
ATCTCTGGGATGAATCCTGCTTGATCATGGTGAATGATCTTTTTATGTGTTGTTGAATTCAATTCATTGTGGTTTTAACTTAGATTTCTCTAATGACTTA
CGGGGTTGAGCATTTTTTAATGTACTTACGTGCCATCTCTATATCTTCCCTCTTCAGACATTTGTCCATTTTTTATTGAATTTTTCTTATTGAATTTGGA
GAATTCTTTATATATTCTGGATATAAATCCCTTATCAGATAGAAGTTTTGTAATTTTTTTCCCCAGTCTGTGGCTTCTGTTTTTGTGTTCTCAATGTTAT
CTAAGACTTTCTAATTTTGACAAAGTCCAATTTATCATTTTTCTTTTATGGATTGTGCTGTTGGTGTTACATCAAAGAAATCTTCGCCTAACTCAAGGTC
ACTTCTAGGATTTCTTCTCCTAGGTGTTCTTCTGGAAGTTTCATAGTATTGGATTTTACATTTAGGTCCATGATCCATTTTGAGTTAACTTTTATATATA
CGTATTGTTAGATTTTTAGTGTCACTATATTGCCTCTAGTTAACTCAGTCTTCATACTAGAAATTAATGAGATTTTTTAAATGAACGCCCACACCTAATT
TAGGGAAGGTAAACTTTTATAGTTCATTTGAATTACCAGATGATTTTAATATACATTCTTGCAAAGGATATGTTCATGGTTTTTCATATTTAATGCTGTG
AAATTATGTTCATCTTGCCAGTTATGTATTGTTTAATATATAATTATTTAGAAGTTATACTAATTGTCAAAATGTTAAAATAAACTAGCATTCAGTTTAA
ATTATAATTTGAATGAAAAAGTAAACATTTGTCCTTTGTTGAGAAAAGAAAATAGGAAGCCAGTTTAATATTCTGCAAACATCAGTGATTTAGTAACCTG
TTTCCTTTTCCTCAAGACTTTTGTACTTGCTGTTTCCCTCTGCCTAGAGCAACACTCTTGCCCCAGTTAACTGGGTAGTTCATTGCCTCACTCCTTCAAG
TTTTGTGCAAATGTCACTCCCAGTGAGGCTTTCCCCAAACGTGCTATTTAAAATTGTAATCCCAGTAATCAGTGGTCCTAGTTCTACTTCCTGTTTTATT
TTTCCTGTAGCACTTTATTCTCTGTTATGAATTTTACATATTTGTCTATGTCCCCTGCCAGAATATAAGATCCCTGAGAACAGAGATTTTTGCTTTGTTT
ACTAATGTATGCCTAGAAGCTAAAATATTGCCTACCATGTAGTAGATGTTCAACAAATGTTGAATGAGTAAGTTAATAAATGTATGAAGTTATACATATT
TAACACAGGGTCAATTTTAAACCTCGGAGCTTCTCATAGGAACATACTAGCGAAAGAAGAAAATGTTTTACAATAAATTATTAAGATGATTTCGTAAACA
TTTGCTATAGAAACTTTTATGATTATTGGGTTTTTTWAATTTATTTGCAGGGTTCAGTTTGGCAAAGACTTGGTGCAGATGTGACAGCAGTTGAATTTTT
AGGTCATGTAGGTGGAGTTGGAATTGATATGGAGATATCTAARAACTTTCAACGCATCCTTCAAAAACAGGGGTTTAAATTTAAATTGAATACAAAGGTT
ACTGGTGCTACCAAGAAGTCAGATGGAAAAATTGATGTTTCGTAAGTATACATCATTTGTTTTTGATGTATCATCCCTGTCTCTTTAAGCAAAACACTCA
AGTTTCAAAATCAGTTTAGCAAATATAGGGTTTTTTCTAACTTAAGGTCATTTTATTACTTAATRTAACTCAGTTGCTTATCAAATTATTGCATTAGCAC
ATTGAAATTTATGATTAGGTTAATGCTAGAAAGAGAATCCAATATTCTCATTGTTGTGCCTTCTTATAGTACATTCAGAAAAATTTAAATTCCCAATAAT
AAGTAAAATTGAATCAATATTTTTAGGCAGATACATGGGGAAATCAATAATAAAAGATTGCTTACTATATGTCTGGTACTCTACTGATTAAATACTTTAA
TGGCATTTAACTTATTGAATTAGTTTTTAAATAAATATTTAAATTAAATAGTTAATAGTATTTAAATAGTTTAATGACTTTTACTCAAAGATAAGAAGCT
GAATTCATTGACTAATTAATGACTAACTTGTCACACAGCTAGTGGGTGGCAGTCAGTAGTTGAATTTGGATTTCTGTGACTCAAAGACCTGTATTCTTAA
CTGCTGTTTTATTATACTGTGGTTTTTGTGAGATTTTAATAACAGACCTCTAGATTTTAATGATAGATCTCTTTCATTGTCTGACTCTTATGTTTATATT
CAAATAAACTTATATTGTTAAAAATGTCATCAGTGCCGGCTGGGCATGGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCTGAGATGGGCAGATCA
TGAAGTCAAGAGATCAAGACCAGCCTGGCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCGCGTGCCTGTAGTCC
CAGCTACTAGGGAGGCTGAGGCAGGAGAATCTCTGGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGTACTCCAGTCTGGCGACAGA
GCAAGACTCTGTCTCAAAAACAAAACAAAACAAAAATGAAAATGTCATCAACACTTGAGAAATTGCTGGCCTTAAATTTCTAAGCCTATCAATTTATGTA
GGTGTGTATTTAACATTTATACACTGTTTGTTATCTAGTATTGAAGCTGCTTCTGGTGGTAAAGCTGAAGTTATCACTTGTGATGTACTCTTGGTTTGCA
TTGGCCGACGACCCTTTACTAAGAATTTGGGACTAGAAGAGCTGGGAATTGAASTAGATCCYAGAGGTAGAATTCCAGTCAATACCAGATTTCAAACTAA
AATTCCAAAGTAAGTTGGATAATTGTCTGCATTTTCAGTAATTTTAAAATTGATTTCAAACAGTATTTTGAAAAGTAAGATTTTTATGCTTAAAATATGT
ATTGGCTTTGGGGAAGAATAGTAAACTTACAAAATGTAAAATAAAAAATAACTGAATTTTACTCAAAGATAAGCTGAATTCATAGATTTTTGAAGAGCTG
CATTTGATGTATTTTTTGGTGACTTGTTTACTGGAAACTTTTGTTACCATAATGTAACTGAAGGTAAGTAGCTGTGATTTCAGAAATTCATTGTGTTTCT
TTTGATTTCTGTGGTAGTATCTATGCCATTGGTGATGTAGTTGCTGGTCCAATGCTGGCTCACAAAGCAGAGGATGAAGGCATTATCTGTGTTRAAGGAA
TGGCTGGTGGTGCTGTGCACATTGACTACAATTGTGTGCCATCAGTGATTTACACACACCCTGAAGTTGCTTGGGTTGGCAAATCAGAAGAGCAGTTGAA
AGAAGAGGTAAGTCTGAACRTGGGTGGTTTTAAGCCAATGTGTGAGTTGTGCCAATGACATTGGTGGTTGAGAAACAGCATTTTATCATTATGCTAATAT
ATTTAACAGCTGTGAAATATTGTTTAGCTTATATATTTTTCCCTTGTTAGCATTATAAAGAGATCATTCACAGATTTATCAGCAGTAATTGAGAGGAAGA
GAAGTTGCCTATATTAAAAAACTAGTAATTCCAGATCTTTTATATTTGGCTTTGAAATATAACCAGATGGACAGACATTTGTATTTGCTTGTATTCGTGC
CTGAGATATAGTTCATTAACCAGTCTTCTGGTCTTTCCTTTCCTTCTATGTGCTTTGCGAACAATTCCCTTCTTGGGATTTATTTTCTGAACAAATGGTA
GATGATTTTACAAATTGGAAAGAACTTTTCTGGCAGTTACGTAGATTCTTTTTTTCTGACTGTCACAGGGTATTGAGTACAAAGTTGGGAAATTCCCATT
TGCTGCTAACAGCAGAGCTAAGACAAATGCTGACACAGATGGCATGGTGAAGATCCTTGGGCAGAAATCGACAGACAGAGTAYTGGGAGCACATATTCTT
GGACCAGTGAGTATTGTAAAACCAGAGAAATCCCATTAAGATTTCTAGAAAGCATTGCTGTTTATTAATTATAAACCACCTGGTGTTAGTCTGAGGTTGC
TCATTTCCAGCAAAACTTTGAATATGGCTCTCTGTGCATCATTTCTAGAAGGATACCAGCAGCACTCTCACAGTCTTGCCCACTGTATCATCTACTTTGT
CCTGCAGCCAAGATTCTCTCTTTAAAACATACACCAGATTATGCCCCTTAAAATCCTCCAGTGGTGCTTTTCAACTTCAGATTGTTACATCCAAGGCCTC
ACTGAATCTGTTTGTGCCTACTTCTCTGACCTCTTCTTTTTCTGCTCTCTTTTACTCATTAATGCCATGTCACATGGGCCTTCTCTCATTTTCACAACAG
ACCAAATATTTGCATTTTAGGGCCTTTGTGCTTAAGATACCCTCTGCTTAGACTGTTCTGCCTCCAGATCTTTGAATGGCTGGCTCCTTATTATTCAGGT
CTCAGCTCAAATGTTACCTCCTAAGGGAAGCCTTTCCTACCACTGAGCCTAAAGTATGTATCTTTCTTGTAGATATCTCTTGTATCTGATGTAACAATAA
TGAGAATAGAATATTTGAGTGCTGTGTCACTTTAGTRTACATTTTGTTATTTTTACATCAGCTTTTTGAAATAGGTGCTGTTATTTTTGAGGTGAAGAAA
CTGAATGAAGCACAAAGAACCAATGAATGGTTAAGGTAGTAAGTGGTAGATATGAATTGAAGGCCCTTTGGCTCCAGAGCCCAAGCTCTTCTGTGTCACC
TTTTCTATTAAGCTTTTCCTGACTTTTCTTCAACTGATAAAGAAACAGATTTAAGGCGTTTTTAAGATCTAAAAGCTTCCCCTCAACAATTGCTATCCTA
TTAGCATGTAGTTTTTGCCTTGGAAGCAAATTTACTTGGCTTGTTATTTTAAAGGGTGCTGGAGAAATGGTAAATGAAGCTGCTCTTGCTTTGGAATATG
GMGCATCCTGTGAAGATATAGCTAGAGTCTGTCATGCACATCYGGTAATTATTAACAACATATAGAATTGATGGTTGCCTAAATTTTCTTCTGACCCACA
AATATTTGGATTTTAATTTTAAATTTCTTCCCTTGCAGACCTTATCAGAAGCTTTTRGAGAAGCAAMTCTTGCTGCGTCATTTGGCAAATCAATCAACTT
TTGAATTAGAAGATTATATATDTTTTTTTCTKAAATTTCCTGGGAGCTTTTGTAGAAGTCACATTCCTGAACAGGATATTCTCACAGCTCCAAGAATTTC
TAGGACTGAATTATGAAACTTTTGGAAGGTATTTAATAGGTTTGGACAAAATGGAATACTCTTATATCTATATTTTACATAAATTTAGTATTTTGTTTCA
GTGCACTAATRTGTAAGACAAAAARRTACTTATTGTAGCATCMTGGAATATCTCCGTCAACTCATATTTTCATGCTGTTCATGAAAGATTCAATGCCCCT
GAATTTAAATAGCTTTTTTCTCTGATACAGAAAAGTTGAATTTTACATGGCTGGAGCTAGAATTTGATATGTGAACAGTTGTGTTTGAAGCACAGTGATC
AAGTTATTTTTAATTTGGTTTTCACATTGGAAACAAGTCAGTCATTCAGATATGATTCAAATGTCTATAAACCGAACTGATGYAAGTAAAYGGTCTCTCA
CTTGTTTTATTTAACCYCTAAATTCTTTCATTTTAGKGGTAGCATTTGTGTTGAAGAGGTTTTAAAGCTTCCATTGTTGTCTGCAACTCTGAAGGGTAAT
TATATAGTTACCCAAATTAAGAGAGTCTATTTACGGAACTCAAATACGTGGGCATTCAAATGTATTACAGTGGGGAATGAAGATACTGAAATAAACGTCT
TAAATATTCATTTACTGGTTATCATGAGTACGTGTTGAGATGGTCATAGTTTTTTTTATGACTACTTCTAGTGTATATTCTAATTTCTTTTCTAGGCCTG
AATKTATCTTTATTTTCATGTTATAGGACAATATTAAGGCATTTTAAAGGTCATCATCCTTTCATCTATTTTAGATACACCTACTAAATGTTTAATATAT
ACTTTTGGAGAAGTACAACATAAGGGAGTCTTTAATCTGTGTTTTCCTTGKCTGGGTTAATGACTGTTTATTTAAAGAGTGYTGTAAAATTGGATGTGTG
GTGTTTAAAATGGCCATGTCCTGAGGAAACTTAAGTAACAAAGTACTAAATGCTAAGTAGGCTTTTGCATATTGTAACTAAATTTAAGAATAATTCAGAT
TAAGTAGTTCTGAAATTTGGTATAGATAGCATAGATTGTCTCATGCTCATGAGTGACATAATGACCCTGGATTCTGTTACATACTTCTAAAGAAAATTGA
TTGTTGTCTTAGGAGGCAGTTAACTTGGCTGAACACCAACTCCACACTCTGTCTTGTTTGTAGGTGGCAGCAGCTGAAATCTCTTCTCAGTTGTTTTAGC
TTTAGCTATGCTGCTGGAAGTCTTTCCCATGCAAGTGTGTAGTTCAGGGGTCAACCAGAGTTTGGGCAGAAGGAAGTCTGCCCCTTCTGTGCCTCCTGTT
TTTTGGGGGTTTCCCCTTTATGTTCCAGCTGTTGTGGTTGCCCCATATTCTGCCYTCTGATCCTTAACCAATAAAACTTGGCTTTTGTTTCCCCCTCAAG
TGAGAACCCGTTAAAAATGAGACATTGAGCCAGTGCTGTTCACTTTTTAAGTGCCAACTTCCCTCTACTTTCCACTTGTTTATAGTTGTTTCCAGTGCCT
TTAGTTTTTTCTAAAATATATTTGTTCAGAGTTTGCAGTTGCTATCAGCAGGAGGGTTGGTCTGATATCTGTGTGCTACTTTGCCATTATTRGAAGTGAA
CTCTGCATCTTTTTAAAAATTTGAAATCCCGGTATCATGTGAAGTGCTGTTTATGTAAATCTCAACATATCCCTTACTCAGGGAAAAAAAAGTTTTTAGT
TAGGGAATAGTGAAATATAATTTAATATGGAATTCTAGCTGTAGAGTTAAATCCATCTTTAAGTGTTTACATTCAGTATGAGAATGCAAATTTATCTGTA
TGGGGAATAAAGTCCTAGGAATAAAACAAGTTTTAAGTGTTCACTTACTGTTATCTACTAAGCTGTCAATATTTTTGTGGCTTGTGAAGAGTGAAATTAA
TTGTCCACTTCATTGAACTGATTAAAATTAGTAATTTCAACTGGCTGGGAGCGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCGGGGCGGGCA
GATCACCTGCGGTCAGGAGTTTGAGACCAACCTGACCAATGTGGTAAAACCCCATCTCTACTAAAAATATAAAAATTAGCCAGGTGTGGTGGCAGGCCCC
TGTAATCCCAACTACTCAGGAGGCTGAGGCAGAATCACTTGAACCCAGGAGGCGGTGAGCTGAGATCATGCCACTGCATTCTAGCCTGGCGACAGAGCGA
AACTCCGTCTCAAAAAAAAAAAAAAAGTAATTTCAAAGTGAGATCTTTAGTTGTTTAGCTGAAAAGGAATGGAGAGTGTTTCTACTGTTCTAAGTAAAAT
ACTACATAATTGCTCTAGTAGATGATGGGGTATGACCATTTTTGCTAGTTATTGGGATTTTTTTTTTTAATTAAGTTCTGGGGTACATGTGCAGAACATG
CAGGTTTGTTACATAGGTATACATGTGCCATGGTGGTTTGCTGCACCCATCAACCCATCATCTACATTAGGTATTTCTCTTAATGCTATCCCTCCCCCAC
CCCCATCCCCTTGTCCATGTGTTTTCATTGTTCACCTCCCACTTACAAGTGAGAACATGTGGTGTTTGGTTTTCTATTTTTGTGTTAGTTTGCTGAGAAC
GATGGTTTCCAGCTTCATCCATGTCCCTGCAAAGGATGTGAACTCATCCTTTATTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTT
ATCCATTCTGTCATAGATGGGCATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAACAGTGCCTCAATAAACATACATGTGCATGTGTCTTTATAGTAGA
ATGATTTATAATCCTTCGGGTATATACCCAGTAATAGCATTGCTGGGTCAAATGGTGTTTCTAGTTCTAGATCCTTGAGGAATTGCCACACTGTCTTCCA
CAATGGTTGAACTAATTTACACTCCCACTAACAGTGTAAAAGTGTTCCTATTTCTCCACAGCCTCTCCAGCATCTGTTGTTTGCTGACTTTTTAATGATT
GTCATTCTAACTAACTGGCATGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTATTGAACAGTGATGATGAGCTTTTTTTCATGTTTGTTGGC
TGCATGCATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCACCAACTTTTTGATGGGGTTGAAGTTCTTTGCAAAAATTTTCTCCCATTCTCTAGGT
TGCCTGTTCACTCTGATGATAGTTTCTTTTGCTGTGCAGAAGCTCTTTAATTAGATCCCGTTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTT
TCAGTCATGAAGTCTTTGCCCATGCCTATGTCCTGAATGGTAATTGCCTAGGGTTTTTATGGTTTTAGGTCTTACGTTTAAGTCTTCAATCCATCTTGAG
TTAATGTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTGCATATGGCTAGCCAGTTTTCCCAACACCATTTATTAAATAGGGAATCCTTTC
CCTACTGCTTGTGTCAGGTTTGTCAAAGATCAGATTGTTGTAGATGTGTGGTGTTATTTCTGAGACCTCTGTTCTGTTCCATTGGTCTATATATCTGTTT
TGGTAACAGTACCATAAAAGTGACAAATTATTGCTTTGGGCCAGAGGAAAGTTATTAACTTACAGCTGTTTACATAACTGTTGTCCAGGCCCAGCTTCAG
ATGCAGCTGTGTTGGATGTGTGGGTGGTTGTTAAGCAGTCCACAGAATAGTCTTGCTCTAAGAATGTGTGAAAAAAACACATAGGGGCTAGCCTTTTATA
CAGCTAGTTAGGCAATAAAGTTGACATGGGCCTGGCAATTACTTTCGTTAGATTAGTTGCAAAATCACATAAAATACAATACAAAAGCTGAGAAATTAGA
GCATCATTCTGTGCTCTGTAGTATAAAATACAATACAAAAGCTGAGAAATTAGAGCATCATTCCGTGCTCTGTAGTAGCATTGCTCAATTGGCAGGAGCA
GTATCCATAAACTCTGGCCTGATTTAACTGAAACCTTCCCCTCAGTAACCCTAGTCCTTTTCTAGGTGGTAATGACTACAAACCCTAGTACATCCTGCTG
ATTTTCTAAAATGTTGCTTTTTCTCATTCCTAGAGCAAGGAATACTTACTTACAGGAGTTTTGATGGCTGGAGCAACTCAGCAACCATTGAAATAGTGAT
GGTAGCATAGACTATATTTGTCCTCCTTAACCTCAACCTGGGAATCCCACTGGGAGGTGATTGGGAGGAGGGGAGTCAAGGGTGTGGAGTTTTGGAGGAT
GTTTACCTGTCAAATAAATATAATAGCTTGTTTATAGACAACATAAATTAGGGTCTTCATGGACGCAGTAAACTTGTTTATAAATCCACGTTTACAGTGA
AAAAAGGGATTCATCAACAATCAGTGAAAGTAACAAGTACACCAAAATATATACAAAAGCACTGTACTTTATTTAACTCCATACAAAATGTGATTAAAAA
CATTAAATAGGTGATGTTTTATTTTGAAGAGCATTAAGTCAGTTTTTAAAATGTAGTTGTTTTACCTTGGTCACCTCAGCCATTTTTTATTCTCCTCTGT
TACAAGCATGTGCTATACACAGCAACTTTCTGGCTTATATCCTTTAGGAGTGAACGGACTTCTCCTTCCAGTCTTGCTAATTCTTGAGCTTTATCTTCTA
AGTATCTTTGATTGTCTTCATATTTTCTTTCTAAATCTGTGGAGATATATATATATATAAAGTCTGAGCAATTTATACTATGATGATCTCAAGACAAAGT
GAATATATTTTTCACTTTTAAATAAACTATGGATGCCTTAAAGTAATTTAAAAAATAAGCCTGTGTGAAAAGACCCACCTTTGAGCAGTTGCAGCTTGCT
ATTTGCTTGAGCTAAAAGAGTTTTTGCTTCATTTTGTAGCATTTCGGCTTTCCTTCTGGCATCAGCTGACTCTTCAGTTTTTTTGGCAATTAAATTTTCT
ACTTTTTTATACTTTTCATCAAGTTCACCATCTAAAGTCTATAGTTCCACATTTAGACAGAAAGAAGTGGTAATGTTAGTGTCAGTAATTACATTTAAGA
GCAATAGTGTAATCATGGCATGCATTCTGGATTAAGGGCCACCAAGGATATTCACTGGTAAGTAATTTAAAATTTTATCTTCAAACAGTGGAATTGAATG
CAAAATTGACCTGATTTTAAAGAACATTTCAAAAAATTCTGGAGTTGCAGCAAATCCTTAGGGCTAAGTCCTCATTCTCCTGATTATTACTTTTCTATAG
AAAAGTTGTAGCATAATTGTATTGCAAATTACATAGAGAAGCGCAGATTTTTCAAAAGTAGATTAGACATTAGAGAAGCCCATATTGAAGAAGTGGAGGC
TCTTTGGATCTTGACTAAATTAGGATTTGTGAAGACTTGCTTATAAGGAAATCAGAGGAAAAAGATTAAACAAAAGATACAGGAAGGAAAGGTGAGATTG
TAGCATATGCAAGAAGTGAGTGAGGAGAAGAGAAATGGGGTGTGGGGTTGGAATGCAAATGATTCTTTTTAGAAACTGTTCAAATAGCCATTTATGGAAA
TTTCATTTCAAGAGATTTTGTTCCTTTCTCTTGTGATAAAATGTCATTATGCAAAATGCCCTGAAGCAGAGTACTTGAGAAATTTGTGTCCTCAGTACTG
CAGGAAACCACACAAACCAAAACAGAAAAGACAGCTGTCTGATATTGTGGCAGTGAACTTTTCTCATTGTTTTGTTCTCTTTCCCAACCTAGAGAGAGGT
AGGGAAAGTTACTCTTACGTAATGCCCGAAAAGCTACAGTAACTTCCAGAAAATTTTTGAATAGTAGGGAGTTAAATACTGAAATTAGGTCAGTAAATGC
AGGTGCCCCCAGGCCTACGGACCAGTTAGGAACTGGGTGGGCAGGCAAGTATTATTGCCTGAGCTCCACCTTCTGTCAGATCAGTGGTGACATTAGATTC
TCATAGGAGCACGAATCCTATTGGGAACTGTGCATGCAAGGGATCTAGGTTGTGCACTCCTTATGGAATCTAATGCCTGATCTGAGCTGGAACAGTTTCA
TCCTGAAACCATCCCCACCCCCGAGTCTGGAAAAATTGTCTTCCAGGAAACTGGTCCTTGGTGCCAAAAAAGTTGGGGACCAGTGATTCAATGGTTTTAA
GCCCCACCCCGGCGCCACCAAGTTTTTAATGTTCTCTTTAGAAATAAGCATTATTGAGAAACTGAACATGTGTTTCAGTTATTACATGGCTTCTGATTAA
ACATTTGGGTTGTGTGAGTTTTTCTCTGCAAAATATAGTGCCTTCGAATGAGAGGTGAGGGGTAGTTAATTCAAAATGAGTCTCAAAGAGATAAGATTTG
GTTTCCTACTACCTGTTCTCTGTTCCAACCTGCTTGTAAAATATTCTCAAATGGCCTGATAATTACTATATGCCATGAAGAATTTAACTGACTACCGCAC
AGAAATAAAAGTTCAATATGACTGGTTTTTGTCAATATAGTTGGTTTAAAAAAAAAAAAAAAGCCTGTTTTGAGACTTCTACCCCTAAGTTAATTCCGTT
CTTCTAAACTCTTGTCCAAATTTGGATTTGAGGACATAGGTCATACTTATTAGATATTTCCATATTCTTTCCCATCCACACTTCTAAAGACGGCTGTTGC
AAAACAGGTCATTTGATATTTCTGATGAATTCTGTTTCTGTTAGGTCCATGTCCCTTACTCTAAGGCAGGCAAGGAGGAGACTGGTGGCTCCTTTAACAA
CATAGCTCTGAAATTACAAAGATTTACGTACCTTCTTAACATCTTCTGCACTTTGCTTCACAGTATATACTACTTTTTCAATATATTCTGCCTCCCCGGA
GTTTTGGGCAGCTTTCCGCTTAAGTTCTTCCACATTCCTCTCTAACTCGCTGATGCGCTGGGACGCGTTGAACAAGGTTTCCTCAGAAGCTGCTGTTTCA
GACTCAATCTAAAAGCATGTCAATTTTCCAGCAAGACATTAGTTTAAGAAATGGAATTACTATGAGTACAAGTTTGGAGGAAGATTTAAAAGTCTGCTGT
GCCATTTTGCTCTAGACCAAAAGAAGTAATTACTAAAAAGAATATTTCAGGAAAAGTTACATGAAGTATCTAACTTTAGTCTTTGCTACATTTCATATAT
TCACTTCATTCTTTCAGTACTTCTGATGATCTAAGCTGAGATTGATGTAAAATTTTTTCTGACAGTAAAAAAAAACAAAAAACCCCACCTCCCCAAGGAG
CATGATGTGTTGAGAAAGCATTTTAAGGACACCTGCAAACTTTGGCTAAAGAACATTCACAAATAAGCAGCTGTGCGAAGAGGGATTTCCACATAAATTT
CCAACTTAATGTGAGTGGGAAAATAAATGTTAAACTCTAGTAGTGGAGATTTCAGCTAATTACTGAAGACATGGAGACTAGGGATGTTCTTTGAATTTCT
ATAGAATTGTGAGATGATGTATGGTCTGGGAACGTTACAGCTGTAAACTCTAAATACACAAAGTTATTTAGGGAAAAAAAAATATCTGGGCAACTGGTGA
GGATCCACATCTGATCTCCTTTCAAAGTAGAATCAATAAACATTGACTTTTAAAAGCTAGCCAAAGTAAGCAGTTGAGCCCATGACAAAAGAATCAATTT
CACTGAGCACTCAATTTTTCTTTAAAATGATCTTCAAGGATGGGTCTAATTACATAGAATTAACTGAATAACAGTACTGCTATAATGAAGTTAATAAGGG
TCAGTATAAGACATAGGCTAAAATTTGTAAATATTTCAAACCTAAGGACCCTTTAATTAGAATAAAATTCTTAGAAATTATAATTCTTAGAAGATAAAGT
TTGAGTGAATTGTTTCTGATAAGCTTTCATGAACACAGTTTAGTTAGAGGTTCTCTTTGTTTCTTATTGTTACT


SNP Information

Context             (SEQ ID NO:55308):
TCATCATCCTTTCATCTATTTTAGATACACCTACTAAATGTTTAATATATACTTTTGGAGAAGTACAACATAAGGGAGTCTTTAATCTGTGTTTTCCTTG
K
CTGGGTTAATGACTGTTTATTTAAAGAGTGCTGTAAAATTGGATGTGTGGTGTTTAAAATGGCCATGTCCTGAGGAAACTTAAGTAACAAAGTACTAAAT
Celera SNP ID:            hCV3268601
SNP Position Genomic:     35051
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,6)      total(G,5|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55309):
TACTAAATGTTTAATATATACTTTTGGAGAAGTACAACATAAGGGAGTCTTTAATCTGTGTTTTCCTTGTCTGGGTTAATGACTGTTTATTTAAAGAGTG
Y
TGTAAAATTGGATGTGTGGTGTTTAAAATGGCCATGTCCTGAGGAAACTTAAGTAACAAAGTACTAAATGCTAAGTAGGCTTTTGCATATTGTAACTAAA
Celera SNP ID:            hCV3268602
SNP Position Genomic:     35082
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55310):
ATTTGCAGGGTTCAGTTTGGCAAAGACTTGGTGCAGATGTGACAGCAGTTGAATTTTTAGGTCATGTAGGTGGAGTTGGAATTGATATGGAGATATCTAA
R
AACTTTCAACGCATCCTTCAAAAACAGGGGTTTAAATTTAAATTGAATACAAAGGTTACTGGTGCTACCAAGAAGTCAGATGGAAAAATTGATGTTTCGT
Celera SNP ID:            hCV8856528
SNP Position Genomic:     30443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55311):
CCAGAGTTTGGGCAGAAGGAAGTCTGCCCCTTCTGTGCCTCCTGTTTTTTGGGGGTTTCCCCTTTATGTTCCAGCTGTTGTGGTTGCCCCATATTCTGCC
Y
TCTGATCCTTAACCAATAAAACTTGGCTTTTGTTTCCCCCTCAAGTGAGAACCCGTTAAAAATGAGACATTGAGCCAGTGCTGTTCACTTTTTAAGTGCC
Celera SNP ID:            hCV3268603
SNP Position Genomic:     35555
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55312):
AAGCTGAAGTTATCACTTGTGATGTACTCTTGGTTTGCATTGGCCGACGACCCTTTACTAAGAATTTGGGACTAGAAGAGCTGGGAATTGAACTAGATCC
Y
AGAGGTAGAATTCCAGTCAATACCAGATTTCAAACTAAAATTCCAAAGTAAGTTGGATAATTGTCTGCATTTTCAGTAATTTTAAAATTGATTTCAAACA
Celera SNP ID:            hCV8856529
SNP Position Genomic:     31762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55313):
GTCAGTCATTCAGATATGATTCAAATGTCTATAAACCGAACTGATGTAAGTAAATGGTCTCTCACTTGTTTTATTTAACCTCTAAATTCTTTCATTTTAG
K
GGTAGCATTTGTGTTGAAGAGGTTTTAAAGCTTCCATTGTTGTCTGCAACTCTGAAGGGTAATTATATAGTTACCCAAATTAAGAGAGTCTATTTACGGA
Celera SNP ID:            hCV11607690
SNP Position Genomic:     34637
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55314):
TAGGAACATACTAGCGAAAGAAGAAAATGTTTTACAATAAATTATTAAGATGATTTCGTAAACATTTGCTATAGAAACTTTTATGATTATTGGGTTTTTT
W
AATTTATTTGCAGGGTTCAGTTTGGCAAAGACTTGGTGCAGATGTGACAGCAGTTGAATTTTTAGGTCATGTAGGTGGAGTTGGAATTGATATGGAGATA
Celera SNP ID:            hCV25644535
SNP Position Genomic:     30337
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,34)   caucasian(A,1|T,35)   total(A,3|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:55315):
AAGACATTAAAAATTCAGCAAAGAAACCTGTTTTGTAGCTTGTATTTACATTACTCTGAAATTAAAAATTAGAACCCATTTAAGGGATGTTGTGTAGATC
R
TCATTTGGTTCAAGATTTGAAAATAAAAATACATTTTATTAGATACTTAATTCTGAACCGAAATCAGTGAACCAAGCAGGGTGGCTAAAAAGCACAGATG
Celera SNP ID:            hCV29387969
SNP Position Genomic:     14805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55316):
GATGTATCATCCCTGTCTCTTTAAGCAAAACACTCAAGTTTCAAAATCAGTTTAGCAAATATAGGGTTTTTTCTAACTTAAGGTCATTTTATTACTTAAT
R
TAACTCAGTTGCTTATCAAATTATTGCATTAGCACATTGAAATTTATGATTAGGTTAATGCTAGAAAGAGAATCCAATATTCTCATTGTTGTGCCTTCTT
Celera SNP ID:            hCV25644536
SNP Position Genomic:     30665
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,2)   caucasian(A,34)   total(A,62|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:55317):
TTCATGTCAATGGATATGGAAAGATAACTGGCAAAAATCAAGTCACTGCTACGAAAGCTGATGGCGGCACTCAGGTTATTGATACAAAGAACATTCTTAT
W
GCCACGGGTTCAGAAGTTACTCCTTTTCCTGGAATCACGGTATTTATGCTTCATAATTTACAACCATTACAACTTTTCTTTAGAAATACGTTTTATAAGT
Celera SNP ID:            hCV25644537
SNP Position Genomic:     20310
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,31|T,1)   total(A,67|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55318):
GTTGAAATTTTCCAGTTGGTGAGTGAAAAACACTGCATATTGCTTCAAGAATTTAGCTAAGAACTAAAGATTAATTGAACAAATTACAGTGTCCGAAGTT
Y
GCTTGAATTTAGACAAGATGATGGAGCAGAAGAGTACTGCAGTAAAAGCTTTAACAGGTGGAATTGCCCACTTATTCAAACAGAATAAGGTCAGTGTTTA
Celera SNP ID:            hCV25644538
SNP Position Genomic:     19814
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55319):
ATATCTTTTAGAATAATTCACTTTTGGGTCAGCCCAAAAGTGTTTATTATTATTCAAATGATAAATTATAAAGGACTATATATTTTAGTCTGTGAAAACA
Y
AGCCCGAATAGCTTGTTTTGTAGAAGAATTAAGACATATATTTGGAATTTTAGTGATCTGAAACATTGAGGTTATGTGCAGTTAAATAATGTTTTCTTTG
Celera SNP ID:            hCV25644539
SNP Position Genomic:     17062
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,6)   caucasian(C,22|T,10)   total(C,42|T,16)
SNP Type:                 INTRON


Context             (SEQ ID NO:55320):
ATTGTTACATATCAGTGATTAAAAGTATATGCTCAAAAATACATATACTTAAAATCTAAAATATTTAATTCAGTTTTATTGTCATTAAAAGGGTTTTTGG
R
GAATTATAGCAGTAATATATGTTATAAATATATATGCTCATGTAAGAGTGAGAAAAGAATATAAAATATGGCAAAAATTGAATTTTATAAAAACTTTCCT
Celera SNP ID:            hCV346601
SNP Position Genomic:     14474
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   JBIC-allele(G,537|A,932)   total(G,537|A,932) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55321):
AGAGATGATGTATATGCACTAAAGCAAATAGAATATCATACTAGTTGAAAAATGGAATGACGTAAAGAAAGAAGAGCTAGGGGTAGTCAGGAGACCTGCA
Y
TGTAGGCAAGGCTTTTACATCCTAGCTCTGTGACCTTGGGTAAATCAGAAATCTCTCAGAGTCTCTTTTTCCTTATCTCTAATATATGTGTTGGTTATAT
Celera SNP ID:            hCV27207506
SNP Position Genomic:     19142
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55322):
GTATACTTTTCATGCTTAATGATATTACCAGACTGCTTGACTTGGCTCTTCTGTCTAAAGACTTAAATGTGTCTAACGTACGCATAATAGATGTTTAGTG
R
AGGAAGAGTAAAATAAATAATCTAAAAAATGTGGAGAGATTTACTTAAAAAAGAAGGCCTAAATCCAGATTTCTCCCAGCCAAGTATAACCAAGCCTAAC
Celera SNP ID:            hCV15922117
SNP Position Genomic:     18497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55323):
ATTCTTCCATTTTTACATCTGCTCTTTGGGCTGAATTCTCCATATTATGCAAGTTCCCCTTTCTTAGGCTTCCCTTTAATTGTTAGTATTTTTGTTTTTC
T
TTTTTTTTTTTTTTGAGTCCGAGTCTTGCTGTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACTTCTGCCTCCCGGGTTCAAGTG
Celera SNP ID:            hCV27207523
SNP Position Genomic:     22999
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55324):
ATATACACACACACAGACACAGCATGTGCAGACACACCCCTCCAAGAGCCTAAAGTAGTGTTTGTAATGTGAAATGCCTGCTGTTAGTGTTTATTTCTAG
R
TAGATGGAACAGATCGTACATAGGTAGACCAGCATAATTCTATGCATGTAGGCTAAGAGTAGTAATTCACCGTTACTGAAGCTTAAACTGCATGGTATTG
Celera SNP ID:            hCV27490446
SNP Position Genomic:     10820
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,509|G,948)   total(G,948|A,509) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55325):
TCAATTTTTTATCTTTATTTGAAAAATGGCCACAATAGTTAATTGAATATTCTGGTTAGCCTATTATCTTAAGGTATGTAAAAATTATCAATATGCAAGT
W
CAAAACATATTTGTTAAATATTACATAGAAGCTGTTTTTTCCCTCATATTTCAGAAGTTAAGGACCTGAAAAAGGTAATAGGTCTTAAATTTATTGGAAA
Celera SNP ID:            hCV346375
SNP Position Genomic:     15957
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,5)      total(A,4|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55326):
ACCAGCATAATTCTATGCATGTAGGCTAAGAGTAGTAATTCACCGTTACTGAAGCTTAAACTGCATGGTATTGGTGAGTAAACAGAACGTGGTAGGAGAT
R
AGGCTGGAGAAATAGTTACTGAAGGAATTTGGATGCTGTACTTAGGAACATGGGCTTTATCTAACAAGACACTGGAGAACCAACAGAGCGTAACAACAGA
Celera SNP ID:            hCV11428530
SNP Position Genomic:     10948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55327):
ATAGAAATGTAATGAGGCTTACATAAGACAGTACACGTGACTGGCTCACTAACTGGCACATTTTAAGCTACCCAAGTGGTAGGTATTATTGTAGACTGAC
T
TTTTTTTTTTTTTTTTTTTTGAAACTTGGTCTCACTCTATCATGCAAGCTGGGGTGCAATGGTGCGATCTTGGTTCACTGCAACTTCCACCTCCCGGGTT
Celera SNP ID:            hCV27207490
SNP Position Genomic:     12423
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55328):
TTCCTAAGGAATTATGTTGATAGCTAAAAAGGTTGAGAGTAACTCTCGTTACAGGTTGGACCTTTTACTGTAATTCTTTTTTTTATTTAGACTGTAAGAA
R
TAGGGCTATGTCATTTATATATACACACACACAGACACAGCATGTGCAGACACACCCCTCCAAGAGCCTAAAGTAGTGTTTGTAATGTGAAATGCCTGCT
Celera SNP ID:            hCV27207477
SNP Position Genomic:     10701
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55329):
TTATTTTCCTTATAATGATCTAATATGTAACACTTGTAGGAATTTGTAGAGTACTTTTCTTGACTTTTTTCTTTGAGTTAATTTTAATAACATTAATTGC
S
TTGTTTAAGTCAGTCACCTCTTATTGTACTCCAGTATTTTTAAAGTATCAACCTGATACTTTAAACCTGGTAGGAGCACACATTTCAGAATCTAAAGGAC
Celera SNP ID:            hCV2193670
SNP Position Genomic:     12905
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55330):
CAAATTTTTGACCAGGATGAAACATCGAAAGCCATCTGACAGTACAGTCTTTCACCAGTTATAAACACCTTTGATGTTTATTCATCTTCGTTTCTCCATC
K
CATCTACAAGGATATCATGAGATTTTCTTAAAATTTTTTTTAACACCTTGCTGATATCAAAATATACTACATTCACCAGTCCAGAAACCCTTCAGAAAGT
Celera SNP ID:            hCV11428535
SNP Position Genomic:     24346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,6)      total(G,6|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55331):
AGTTGGGAAATTCCCATTTGCTGCTAACAGCAGAGCTAAGACAAATGCTGACACAGATGGCATGGTGAAGATCCTTGGGCAGAAATCGACAGACAGAGTA
Y
TGGGAGCACATATTCTTGGACCAGTGAGTATTGTAAAACCAGAGAAATCCCATTAAGATTTCTAGAAAGCATTGCTGTTTATTAATTATAAACCACCTGG
Celera SNP ID:            hCV8856530
SNP Position Genomic:     32883
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,40)   total(C,69|T,7)
SNP Type:                 SILENT MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55332):
GGCAAAAATTGAATTTTATAAAAACTTTCCTAGAAGAAGGATTGGGAGGACCTATAAACAGTTCTCTCTGGGCTGTATGGCAATGTGGATGGGTTGTTTT
Y
TTTTTAATTTTGCTTTAGTGTATTTAAATTTATTCAGTAAACCTAAATTTTTAATCAGAAAAGACATTAAAAATTCAGCAAAGAAACCTGTTTTGTAGCT
Celera SNP ID:            hCV27207495
SNP Position Genomic:     14644
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55333):
AAATAAATAATCTAAAAAATGTGGAGAGATTTACTTAAAAAAGAAGGCCTAAATCCAGATTTCTCCCAGCCAAGTATAACCAAGCCTAACCCTGCAAATC
S
AGATTTCTACCATTATATCTTCTGTTCCTTTGCCAACTTTTTCCTGAGGTTTGCCTTTATGTGTTTTTGAAGAGTCAGTTTTCATTTCCTAAAATCTGGA
Celera SNP ID:            hCV2193672
SNP Position Genomic:     18608
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,5)      total(G,4|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55334):
TTATTCAAACAGAATAAGGTCAGTGTTTAATATTCAGATTTCTGCTTTACTTTGAATACAAATTAAACTTTGCATTATAGAGTGATGATATTTGAACTTG
R
TTACAGGGGAATATTTATTTAATTTAAAATAGCTTGCTAACCTGAAATAGATTTCCCTGACATATATCACAGATTTTTTTGCTGCACCATGGTGTAGCAT
Celera SNP ID:            hCV2193673
SNP Position Genomic:     19986
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(A,14|G,20)   total(A,20|G,50)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55335):
AAGCATTTTGTTTTAGATAAATTATTTACAGAGTAATTTTTCCTTTGAATGATTTATCAAACAAATTACTTTAAACTTTGTGAATTTATAAAGATTATTT
Y
GTAAAGGTTGTTCATGTCAATGGATATGGAAAGATAACTGGCAAAAATCAAGTCACTGCTACGAAAGCTGATGGCGGCACTCAGGTTATTGATACAAAGA
Celera SNP ID:            hCV2193674
SNP Position Genomic:     20199
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,3)   caucasian(C,23|T,9)   total(C,48|T,12)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55336):
CTAGTGGTTGTGTAGTAGTAACTCACTGTGGGGTTTTTTTTTCTATTTTTATTTTTTAAATTGCTATGTAATAGATGTACTTTTTTCAAGGTACATGTGA
W
AATTTGATATATTCATATAATTAAATCAGGGTAATTAGGCTATCCATCACCTCGAACATTTTTTTTAATGCTAGGAATATTGAATTATTCTCTTCTAGCT
Celera SNP ID:            hCV349357
SNP Position Genomic:     26604
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55337):
ATTGATGGTTGCCTAAATTTTCTTCTGACCCACAAATATTTGGATTTTAATTTTAAATTTCTTCCCTTGCAGACCTTATCAGAAGCTTTTAGAGAAGCAA
M
TCTTGCTGCGTCATTTGGCAAATCAATCAACTTTTGAATTAGAAGATTATATATATTTTTTTCTGAAATTTCCTGGGAGCTTTTGTAGAAGTCACATTCC
Celera SNP ID:            hCV8856535
SNP Position Genomic:     34067
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55338):
CGGGCGCCTGGGCCGCACCACCCCTGGCCCCGCCTCTGCACTGGCTCAGCCCGGCCCTGGGCTCCGAGGTGGCCGCTCATCCTGCAGCAGGCGAGGGACG
R
GGCTGGGCCCAGGCTGTGGCGAGTCCTTTCGGGTTGTGTGACGGCCGGCGGTCACACATGCCACACCCCCAAGCCTGGGCCGAGGGCCATCCCGGTCACA
Celera SNP ID:            hCV25644540
SNP Position Genomic:     6336
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,21)   caucasian(G,14)   total(A,11|G,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:55339):
GTGGACATTTCATATAAATGAAATCATACAATATTATTTTGTGTGTGCTCTCTTTACATAGCATAATGTTCTTATGGTTCATCCAAGTTGTAGCATGTAT
S
TATACTTCATTTCTTTATCTGGCTAAATATCTCATTCTATGGATATGGCACATTTTGTTTATCCATTCATCATGGGTGGACATTTGGGTTGTTTCTACTT
Celera SNP ID:            hCV2193677
SNP Position Genomic:     26159
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55340):
TGGACAAAATGGAATACTCTTATATCTATATTTTACATAAATTTAGTATTTTGTTTCAGTGCACTAATGTGTAAGACAAAAAGCTACTTATTGTAGCATC
M
TGGAATATCTCCGTCAACTCATATTTTCATGCTGTTCATGAAAGATTCAATGCCCCTGAATTTAAATAGCTTTTTTCTCTGATACAGAAAAGTTGAATTT
Celera SNP ID:            hCV8856536
SNP Position Genomic:     34343
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55341):
AATTTCTTCCCTTGCAGACCTTATCAGAAGCTTTTAGAGAAGCAAATCTTGCTGCGTCATTTGGCAAATCAATCAACTTTTGAATTAGAAGATTATATAT
D
TTTTTTTCTGAAATTTCCTGGGAGCTTTTGTAGAAGTCACATTCCTGAACAGGATATTCTCACAGCTCCAAGAATTTCTAGGACTGAATTATGAAACTTT
Celera SNP ID:            hCV2193678
SNP Position Genomic:     34122
SNP Source:               Applera
Population(Allele,Count): african american(A,30|T,6)   caucasian(A,20|G,2|T,12)   total(A,50|G,2|T,18)
SNP Type:                 UTR 3

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   ;POOLE|_CEPH(T,86|A,102)   total(A,102|T,86)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55342):
CACAGTGATCAAGTTATTTTTAATTTGGTTTTCACATTGGAAACAAGTCAGTCATTCAGATATGATTCAAATGTCTATAAACCGAACTGATGTAAGTAAA
Y
GGTCTCTCACTTGTTTTATTTAACCTCTAAATTCTTTCATTTTAGGGGTAGCATTTGTGTTGAAGAGGTTTTAAAGCTTCCATTGTTGTCTGCAACTCTG
Celera SNP ID:            hCV8856537
SNP Position Genomic:     34591
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   POOLE|_CEPH(C,47|T,141)   total(C,47|T,141) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:55343):
CTTGCAGACCTTATCAGAAGCTTTTAGAGAAGCAAATCTTGCTGCGTCATTTGGCAAATCAATCAACTTTTGAATTAGAAGATTATATATATTTTTTTCT
K
AAATTTCCTGGGAGCTTTTGTAGAAGTCACATTCCTGAACAGGATATTCTCACAGCTCCAAGAATTTCTAGGACTGAATTATGAAACTTTTGGAAGGTAT
Celera SNP ID:            hCV25644541
SNP Position Genomic:     34132
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,29|T,5)   total(G,62|T,6)
SNP Type:                 UTR 3


Context             (SEQ ID NO:55344):
TTATGAAACTTTTGGAAGGTATTTAATAGGTTTGGACAAAATGGAATACTCTTATATCTATATTTTACATAAATTTAGTATTTTGTTTCAGTGCACTAAT
R
TGTAAGACAAAAAGCTACTTATTGTAGCATCCTGGAATATCTCCGTCAACTCATATTTTCATGCTGTTCATGAAAGATTCAATGCCCCTGAATTTAAATA
Celera SNP ID:            hCV2193679
SNP Position Genomic:     34311
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,4)   caucasian(A,10|G,4)   total(A,30|G,8)
SNP Type:                 UTR 3

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55345):
GAAGAATTAAGACATATATTTGGAATTTTAGTGATCTGAAACATTGAGGTTATGTGCAGTTAAATAATGTTTTCTTTGGTTGTAGACAGTCTGCATTGAG
R
AAAATGAAACACTTGGTGGAACATGCTTGAATGTTGGTTGTATTCCTTCTAAGGTGAGCATGTGTTTTGTACAGCACAGAGATTGTTTTTGGCTAGCAAC
Celera SNP ID:            hCV27861841
SNP Position Genomic:     17185
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55346):
TAGCATGTAGTTTTTGCCTTGGAAGCAAATTTACTTGGCTTGTTATTTTAAAGGGTGCTGGAGAAATGGTAAATGAAGCTGCTCTTGCTTTGGAATATGG
M
GCATCCTGTGAAGATATAGCTAGAGTCTGTCATGCACATCCGGTAATTATTAACAACATATAGAATTGATGGTTGCCTAAATTTTCTTCTGACCCACAAA
Celera SNP ID:            hCV25644542
SNP Position Genomic:     33902
SNP Source:               Applera
Population(Allele,Count): african american(A,19|C,1)   caucasian(A,34)   total(A,53|C,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55347):
GTTATTTTAAAGGGTGCTGGAGAAATGGTAAATGAAGCTGCTCTTGCTTTGGAATATGGAGCATCCTGTGAAGATATAGCTAGAGTCTGTCATGCACATC
Y
GGTAATTATTAACAACATATAGAATTGATGGTTGCCTAAATTTTCTTCTGACCCACAAATATTTGGATTTTAATTTTAAATTTCTTCCCTTGCAGACCTT
Celera SNP ID:            hCV27861842
SNP Position Genomic:     33943
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55348):
GGTTTTCACATTGGAAACAAGTCAGTCATTCAGATATGATTCAAATGTCTATAAACCGAACTGATGTAAGTAAATGGTCTCTCACTTGTTTTATTTAACC
Y
CTAAATTCTTTCATTTTAGGGGTAGCATTTGTGTTGAAGAGGTTTTAAAGCTTCCATTGTTGTCTGCAACTCTGAAGGGTAATTATATAGTTACCCAAAT
Celera SNP ID:            hCV27470098
SNP Position Genomic:     34617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:55349):
AACATATAGAATTGATGGTTGCCTAAATTTTCTTCTGACCCACAAATATTTGGATTTTAATTTTAAATTTCTTCCCTTGCAGACCTTATCAGAAGCTTTT
R
GAGAAGCAAATCTTGCTGCGTCATTTGGCAAATCAATCAACTTTTGAATTAGAAGATTATATATATTTTTTTCTGAAATTTCCTGGGAGCTTTTGTAGAA
Celera SNP ID:            hCV27861843
SNP Position Genomic:     34057
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55350):
AAAAATGTCTTTTTCATTCTTGTTTGTTGAATGTTTTTCACATCATTATTGTTTGTCTTTGATTAATAAGAGAAACTGAATTGGTGTAGTGCCATATACT
R
TTCCATGTAGAGAATGCCATGTCTTTTTTTTAACTTCTTTTTAAATTTTTATTGTAAATTGACAAATTACAATTGTATATATTTATGGCATACAAAGTGG
Celera SNP ID:            hCV29387978
SNP Position Genomic:     17753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55351):
CATAGATCTACTTTTTTGCAATCTTCCCTTTCCAATCTTGACTGCGTTCCTGATCAGCTTAGATGCCATAGTCCATCACTTTAACCACACTCTTACAGAT
R
TCCTTGAGTTGCTTGTCTCACTGTTCTGTCATATCTGCTTGGCAAAACTCTAGTTCGGTTTGAATGCAGCAGTCTGCCTTTTTTATGCTATTTCCAGGCT
Celera SNP ID:            hCV29387994
SNP Position Genomic:     21992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55352):
TGGTGGTAAAGCTGAAGTTATCACTTGTGATGTACTCTTGGTTTGCATTGGCCGACGACCCTTTACTAAGAATTTGGGACTAGAAGAGCTGGGAATTGAA
S
TAGATCCCAGAGGTAGAATTCCAGTCAATACCAGATTTCAAACTAAAATTCCAAAGTAAGTTGGATAATTGTCTGCATTTTCAGTAATTTTAAAATTGAT
Celera SNP ID:            hCV11607687
SNP Position Genomic:     31754
SNP Source:               HGBASE
Population(Allele,Count): 20 Europeans, 10 Asians, 10 African-Americans(C,34|G,-)   total(C,34) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55353):
GTTTGAAGCACAGTGATCAAGTTATTTTTAATTTGGTTTTCACATTGGAAACAAGTCAGTCATTCAGATATGATTCAAATGTCTATAAACCGAACTGATG
Y
AAGTAAATGGTCTCTCACTTGTTTTATTTAACCTCTAAATTCTTTCATTTTAGGGGTAGCATTTGTGTTGAAGAGGTTTTAAAGCTTCCATTGTTGTCTG
Celera SNP ID:            hCV11607688
SNP Position Genomic:     34583
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55354):
ACCATTATATCTTCTGTTCCTTTGCCAACTTTTTCCTGAGGTTTGCCTTTATGTGTTTTTGAAGAGTCAGTTTTCATTTCCTAAAATCTGGAAATCACTG
R
GAAGGCTGGATTCCTGAGTACTATGGGGAGATAGAGGAAGGAAGGAAGGCCCACTTAAGCTGTTGATAGTAGAAAAATTAGAGGAGAGAAAGAGTGAGGC
Celera SNP ID:            hCV15834476
SNP Position Genomic:     18717
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55355):
CTACCACTGAGCCTAAAGTATGTATCTTTCTTGTAGATATCTCTTGTATCTGATGTAACAATAATGAGAATAGAATATTTGAGTGCTGTGTCACTTTAGT
R
TACATTTTGTTATTTTTACATCAGCTTTTTGAAATAGGTGCTGTTATTTTTGAGGTGAAGAAACTGAATGAAGCACAAAGAACCAATGAATGGTTAAGGT
Celera SNP ID:            hCV16170576
SNP Position Genomic:     33537
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55356):
GAAGGTATTTAATAGGTTTGGACAAAATGGAATACTCTTATATCTATATTTTACATAAATTTAGTATTTTGTTTCAGTGCACTAATGTGTAAGACAAAAA
R
CTACTTATTGTAGCATCCTGGAATATCTCCGTCAACTCATATTTTCATGCTGTTCATGAAAGATTCAATGCCCCTGAATTTAAATAGCTTTTTTCTCTGA
Celera SNP ID:            hCV11607701
SNP Position Genomic:     34325
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55357):
AAGGTATTTAATAGGTTTGGACAAAATGGAATACTCTTATATCTATATTTTACATAAATTTAGTATTTTGTTTCAGTGCACTAATGTGTAAGACAAAAAG
R
TACTTATTGTAGCATCCTGGAATATCTCCGTCAACTCATATTTTCATGCTGTTCATGAAAGATTCAATGCCCCTGAATTTAAATAGCTTTTTTCTCTGAT
Celera SNP ID:            hCV27207609
SNP Position Genomic:     34326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:55358):
CATTGACTACAATTGTGTGCCATCAGTGATTTACACACACCCTGAAGTTGCTTGGGTTGGCAAATCAGAAGAGCAGTTGAAAGAAGAGGTAAGTCTGAAC
R
TGGGTGGTTTTAAGCCAATGTGTGAGTTGTGCCAATGACATTGGTGGTTGAGAAACAGCATTTTATCATTATGCTAATATATTTAACAGCTGTGAAATAT
Celera SNP ID:            hCV15922091
SNP Position Genomic:     32320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55359):
CCAGTGCCTTTAGTTTTTTCTAAAATATATTTGTTCAGAGTTTGCAGTTGCTATCAGCAGGAGGGTTGGTCTGATATCTGTGTGCTACTTTGCCATTATT
R
GAAGTGAACTCTGCATCTTTTTAAAAATTTGAAATCCCGGTATCATGTGAAGTGCTGTTTATGTAAATCTCAACATATCCCTTACTCAGGGAAAAAAAAG
Celera SNP ID:            hCV27207626
SNP Position Genomic:     35792
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55360):
ATGACATCTCTTTTCCTGTTCGTTTTTTCTTTTTAAAAATCTGGTTTTGTTTTTGTTTGTTTTTTTTTTTGAGACAAAGTCTCGCTCTTGTCCCCTAGGC
W
GGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACTCCACCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCT
Celera SNP ID:            hCV27207483
SNP Position Genomic:     11732
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55361):
CATGCCACACCCCCAAGCCTGGGCCGAGGGCCATCCCGGTCACACATAGGCCTCTACCTTGGAGGAAGTGTAAGCCACCCATGTCCCGTATAGTCTGGCT
Y
TTTATACCATTTGCCTTTTTCTCATCCTAATTCTGATCCCTGAGTGGCCTAAGTTTATGCAGTGGGCAGGTAACCCTGGGGTCACTTCTTGAATGGTTTA
Celera SNP ID:            hCV2193663
SNP Position Genomic:     6493
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55362):
TGTTTCTTTTGATTTCTGTGGTAGTATCTATGCCATTGGTGATGTAGTTGCTGGTCCAATGCTGGCTCACAAAGCAGAGGATGAAGGCATTATCTGTGTT
R
AAGGAATGGCTGGTGGTGCTGTGCACATTGACTACAATTGTGTGCCATCAGTGATTTACACACACCCTGAAGTTGCTTGGGTTGGCAAATCAGAAGAGCA
Celera SNP ID:            hCV27536829
SNP Position Genomic:     32194
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55363):
CTGTATATACACGCTAGCTTAGAGTTAGGAAACAAAAATTACAGGTAAAAAGATTATCATGTATAGATTATTCAAGTATTTAAGTTAGAACTTTCAGAGC
W
TTATTTATTTATTTATTTATTTATTTATTTTGAGACGGAGTCTCACTCTGACATCCAGGCTAGAGTGCAATGGCACTATCTCAGCTGACTGCAACTTCCG
Celera SNP ID:            hCV2193664
SNP Position Genomic:     7380
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,8)   total(A,1|-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55364):
GATACAGTGTCAGGAAAGGCCTTTCTGAGGAGATGATGTCTGGGCAGGGTCCTGAGTGAAGTGGGGGAGTGAGGTTACTTCAGGCAGAGGGAAACAACAC
Y
GAGAAAGGCCTGAGGTGGGACTTAGCTTGTGAAGTTTAAGGAGTAATAAGAAGGCTGGTATGACTGGAGCAGAAACCCATGCAATGTAAAGTCGGAGAGG
Celera SNP ID:            hCV2193665
SNP Position Genomic:     8535
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55365):
TGCCAGGCAGACCCTGAGCCAGAACTTAGATTTTAGTGGAATGAGGCTGAGTGTTCCATAATCAGTTTGGTGATCCCTTGACATTGAGTAAATCATAAAT
S
ACTTAGTACCCATGTGTGTAAAGTGTGTAAAAGCTTTGAGTGGATGCAGTAACAAGCATTTTACACACATACTTGTATTTTATCTGAGGTACATGCTTAC
Celera SNP ID:            hCV2193666
SNP Position Genomic:     9639
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,9)      total(G,6|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55366):
TTGAGACGGAGTCTCACTCTGACATCCAGGCTAGAGTGCAATGGCACTATCTCAGCTGACTGCAACTTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCT
Y
GGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCACTACACCCGGCTAATTTTCTTGTATTTTTAGTAGAGTCGGGGCTTCACTATGTTGGCCAGGCTG
Celera SNP ID:            hCV3268600
SNP Position Genomic:     7510
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55367):
ATATTCATTTACTGGTTATCATGAGTACGTGTTGAGATGGTCATAGTTTTTTTTATGACTACTTCTAGTGTATATTCTAATTTCTTTTCTAGGCCTGAAT
K
TATCTTTATTTTCATGTTATAGGACAATATTAAGGCATTTTAAAGGTCATCATCCTTTCATCTATTTTAGATACACCTACTAAATGTTTAATATATACTT
Celera SNP ID:            hCV8856541
SNP Position Genomic:     34904
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Gene Number:                 291
Celera Gene:                 hCG17140 - 79000075253239
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VV34(37113179..37125731)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12451):
ACAAATTTTATTGTTTTGGTTTGCTTTTATCTCATATTCTTACATATTTTCCTCTATTATTAAATATGTTTTAAAATTGTAAGTCTGAATGACTTTACAG
TGTTTTACTATATAGATATCATAATATAATTAATCCAAATTTTAGGACAATTAAAGCTATACTACACTTTGTCATTGCTAAAGCTACCTTAGCTAATGTA
AGTGAAGCACTCATAATACTAGTAACTTATAACAATGGACACGATAATAGCTATAAATGTGTTTGTTGTTACTACTTAAAACAAATATCACATTTAATTT
GCTGGCACAGAATGGCTTGATAAAATACATACATCAGTTTATACTATTTTCAATGTTTCAAAGGAAACCAGATTCACATCAGAATAAACTAGCCAAGTAC
TGATTTTGGGGGAGACAAATATGAAATTAGGGTTATTCCCTCAAATTACCTCTTTTTGTTGTCGTTCCAGTTCTCTCATGCGTATATCTCTTGCTTCTGC
CCGGGCAGCCCGTTTTGCTGCCAGCCTTGCCTCTGCCTGAAAAGTAATATAAAACTCAGCTTTATACAACAAAAACAAAAACAACCTGTACACCAGATTT
GAAAATAAAGAATGGGACATTACCACGCAAAAGGGGTGGGCAGGAGAAGATATTATCTATCAGCAAGCAAGTTTGATTGATTGTTTTAATCAACTCTTAT
AAACTCATTTCTTTCTCTAGTTCCTAAGTCTTTCCTCAAATCCGGGCCTTTACCTTTAACTTCTTGTTTGATTACACACTCAACACATTTCATACAGTTT
GTTATATGCCTCTCCAAACTTACTCTTTTTCCAGAATTTTTTCCCCATTGATTCAATCATATAAACTAGAAACTTCAGAGCCAACCTCTCTTTCATTTTG
GACACTGCCAATAATCAGTCTCCAAGTACTGACAATTCTCTACCACTGAGTCTCTATCAAACCCATCTCAGCTTTCTTTATTCTCACTGTTCCTGCTCAT
TTCAGGAACTCTTCATCTCCCCACTCCCCACCTCTGTTTTAAAATTGAGACAGAATTCACATATCATCAAATTCACTATTTAAATGTATACAATTCCGAC
TGGATGCAGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCATATGAGGCCAAGAGTTTGAGACCAGCTTAGGCAACATGAT
GAAACCCTGTCTCTACTAAAAATAAAAAAAATAGCCAGGTGTGGTGGTGCACACTTGTAATCCCAGCTACTTGGGTGGCTGAGACAGGAAAATTACTCGA
ACCTGGAAGGTGGAGGCTGCAGTGAGCTGAGATCATGCCACTGCACTGCAGCCTAGATGACAGAGTGAGACGCTGTCTCAAAAATAAATAAATAAATGTA
TACAATTCTGTGGTTTTTAGTATACTCACAGGATGTGCAATCATCATGACTAATTCCAGAACATTCTCACACCCCAAAATGAAACCTGGTACCCATTAGT
AGTCATTCCCCATTAACCCTTTCTCCCAGCTCCTGGCAACCACTAATCTACTTTCTGTGTCCATGCATTCGCCTATTCTGGACATTTCATATACATGGAA
TCATACCATAGGAATTCTTCATCTCTTGCTTACAGTTACCTCCAAATCCATCTGCCTACTTCCAGAATCTGCCTTATAATTTATCTTCTACATGGTTATA
TGATGGACAAATCAGCCTTTCAAAATGTATTATTTCTGATCACATCATTCCACTGCATAAAATCCTCCACCAACTCCTTATTACTTATGGTTAAAGCAAA
AATTCCACAGAACAGCACAAAGGGAGGAACAGAAAGAAGAAAGGTAAAACTGAAATAAGGCTCCTCACAGTCAGGTCCCCACCTTACTTCCAAGTCCAGT
AGTTCCCCCCTTATCTGTTGTTTCAGTTACCCATGGTTAACCAAGGTACAAAAATATTAAGTGGAAAATTCCAGAAATAAACAATTCATAAGTTTTAAAT
TGTACGCCATTCTGAGTAGTATGATAAAATCTCTCAGGACGTCAATCATCCCTTTGTCGAGTATATCCATCCTGTCTATGCTACCCATTTGTTAGCTGTC
TCAGTTATCAAATCACAGTGATTGTGTTGGAGTAATCCTCATTTTATTTAATAATGGCCCCAAAGAGCAAGAGTAATTCTGACAATTCAGGTATGCCAAA
GAGAAGCCACACAGTGCTTCCTTTAAGTGAAAAGGTGAACGTTCTACCTTAATAGAAAAAAGAATCATGCACTGAGGTTGCTAAGATCTATGGTAAGAAC
AAATCTTCTATCCATGAAATTGTGAAGAAGGAAAAAGAAATTTGTGCTAGTTTTGCTGCCGCACCTCAAACGGCAAAAGTTACAGCCACAGTGCATGATA
GTTAAGATGGAAAAGGCATTACATTTGTAGGTGGAAAACATGAATAGAAATGTGTTCTGATTGATGGCAATCAGGTTTGCTACTATCCACAGTTTCAGGC
ATCTGCTGGGGGGCTTGGAATGTATCTCCCATGGATTGGAGGGGTGGGGACTACTCTACTTGCTCCACGTGTACTGGGTGCATCCCATCTCTCTCCATTC
CTGGACTCTATTGTGTTCTGTTACGCCTCTCTTCACAAACTGTTTGGCAGGAGCTGTTCTCCTTTCTCTTATTCAGTAAAATATTACCTTCTATGAAGAT
TCTCCCCAGTCCCTCTTTCATAAAGTAAGGCTCTATACCCATGTCTCTATTGCGGCTTTATTATGTTGTATTAAAATTCCATGCTTCTCTCACCCCACAA
CTTTTATGCCTCAAGGTCTGCTAAAAAAAAACAAATGAATTGCAGGGCATAGGTCACAGTATCAAGGAAATGAGATAAGGAAATAGCTTAATGTGCCACA
TGAAACTTAGAAATCTTCTGTCTGCTTTCTATATGGTAGTGGAATGGTTTCCTCTGTCCTTGGTCACATCCTAACTCTGATTCAGACTATCCCCTCTGAT
AACTATAGTTGTTGTCTTCCCATGTTGTTATATTCGTGCCCAAGTCTCATAGTAAGAATAAACTCAACCAATGTTTAAAAGGATCTACTACATTAAGCAA
TTATGCTAGGTGCTGAAAATACAGAGTAAAGTATGACATCTCTGCCCTAAAGCAGCTCACAAAGTTGAAGAATACAGAGACACAATGCTTATGGGAAGGA
AGCATGTAGGAGGGAGAAATTAGTTTTGCCTGGCAAAGTCACAGCAGGCTTCTAAGAAGCAGAGAGAGTTAAATAGTTAACTGCTACTCAACTATTCCAA
TTGTGGCAATTTCCCAGTCTGTGTAACTGGTCTTTTAATAGAAAAACCCCTGCAAAGTAAATTGTAATCTACCAACCGTAAGCTGTAACCACTAACAATC
TAGAGAAATTAGTTTTCTCCCATGAATTTTACACTGGCCTCCGTCTTTTCAAAACCTATGCTCTGCTTCAAGTTATCTGCCTTCTTCACCCCTCTATGAG
TAGACACTAGTTTCTTATTAGAGTTTTTTTTTTTTAATAGGAAACACTTCAAGGCTTTTAAGCTTAAGTAGATAGCAAATGTATTTTAAAATCACAAAGC
ATCAAAACTTTCAAACCTTTTTAAGAAAGCCCTATCAATGTGTAGGAATTTTCATTTACATGTATATTAAATTGTACCTGAAGCCTCCTTTAGAAATTTA
ATTCAAGAATGCTAATTTTATCCTTCTAAGATTTGTCTGTGGCCAATTCTGTACAATCTATATATACTAAAATGAGACTTCCTTCATAAAACCCAACTTA
GAGATAATTAAAATCTATTCTTTAATAAGACATTTTTAACTACAAAAAGGAAAGGAACAGAAAGAACATGGGCTTCAGAGACACACAAACACCCTTCCCT
TTGTTACTTAGCCAACTCAGATGTTACCTCCCTTGGAGACTGTGTTGAAGAGAGGCCATTAAAACCACATGCTTTAAAAGAAATAAACAGGATTTAAAAC
TACTTTATCTGGTTCTTTCTATACATTATTACTAGATGCTTGAAGCAACATGGATAAGCAGGAGTAGCAAGGAGCCAACACTGATTCCAACCTAGTAGAC
GAAATATATGCTCTATAACTTATTGTGATATATTTTAAAATTATTTTTGAATAGACAATTATGGGTACATAAAACATACTTCTAGGTAGTTAACACTAGC
ATTTTTACCTCAGAATACAATCAGATAAAGAGCTGCTACAGATTCATTTTAATATACACCTCATACATACAAAATAAATGGGATATAACAATAAAGGACA
ACCAAGATTTAACTAAATTCACAGTAAAGGCTGGGCGTGGTGGCTCACGCCTGTAATCTCAGCACTTTAGGAGGACAAGGCGGGCAGATCACTTGAGACC
AGGAGTTCAAGACCAGCCTGGTCAACATGGCGAAATCCCGTCTCTACTAAAAATGGAAAAAATTAGCTGGGCGTGGTGGTGCATGCCTGTAATCCCAGCT
ACTCCAGAGGCTGAGGCATGAGAATCACTTGAACCCTGGAGGCAGAGGTTACAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGTGA
AACTCTGTCTCAGAAAACAAACAAACAAAACAAAATAAAGTTGGCTAAAACACACAATTACCATTTGATCCAATAATTCCACCTATGGGTACATATACAA
AAGAACTGGAAAGCAGAGACAACATATATTTATATACCAATGTTCATAGCAGCATTATTCACAACAGTCAAAATGCAGAAACAACCCAAATATCTATCAA
TGGACGAATGGATAGACAAATTATGGTATACACATACTTTGGATCATTCAGCCTTAAAAAGAAAATTTTGATACATGCTGCAACATGGATGAATCTTGAA
GACATTATACTAAATGAAATAAGCCAGACAGAAAGGAGTAATATTGTATACTTCCACTTAATGAGAAACCTAAAATAGTCAAATTCATACAGACAGAAAG
CACAATAGTGGTTGCCAGGGACTGAGGGTAGGGGGAAATGGGACTCACTATTTAATGAGTACAGAGTTCCAGTACTGGATGATGACAGAGTTCTTAAGGA
TAGTGGTGATGGCTGCATGACAATGCAAATGGATGTAATGCCACTAAACTATATACTTAAATATAGTTACCATGATAAATTTCATGTTACATATATTTTA
CCAAAAGAAGTTGGCTAATTTAAAAGTCAGAATAAGATATAAATTAGAAGTATTCAGAAGCCTAAATTATTTAAATACTTTTAGAGTCTTTCGGCTGATA
TGACCCCAACTGTTATAATAAAGTTAATATAAAAATTCAGAAAAATTCAGAAAAATTCAGGAGTTCAACACCAGCCTGGCCAATATGGTGAAACCCCATC
TCTACTAAAAATACAAAAATTAGCCAGGCATGGTAGCGCTTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGAAGAATCGCTTGAACCTGGGAGAC
GAAGGTTGCAGTGAGCCGAGATGGCACCACTGCACTCTAGCCTGGGCAGCAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAGACAGTGAAAATCAT
GGGCTTTGATCACTCCCAGAACAAATGCATTAGGTTGTATTTAAACTCACAGAACTTTTAAATTTGTAGAATATTCACTGTATCACTCAATGAATAATTA
GGAATCACATAATGGACACTAAGAAAGAACTTCTCGGCCTGGCGGTGGCCTGCTCCAGTTCGAGCCGGTACCTCACTGCATCTCGCAAGAATTTGTGGAT
TTGGGGGTGGAACCCCATTCGGAAGAGCACAAAAAACTGCTCTTAAGTCATTGCAAAGCTACAGCTCTGGTTAGCCAGCCACAAAGTTGTCATGAGAGTC
GTCTCCACAATACCAAGAGCTTGTGTCTGGCAGAGCCGGTATGAGATGAGACAATGCTGTCCCACCTCCGGGATAACCAGGAGTTTTGGCCAGACTTTTG
AGCACATACCGRGAGAGTGAGGAGCCAGATGACAAGCACATACTATGGCACTAAGACAGATTAATAAGGAACTTAGTGATTTGGCCCATGACCCTCCAGC
ACAATGTTCTGCAGGTCCAGTTGAGGATGGTATGTTTCATTGGCAAGCCACAATTATGGGACCTAATGACAGCCCATATCAAAGCGGTGTATTCTTTTTG
GCAATTCATTTTCCTACAGACTGCTCCTTCAAACCACCTAAGGTTGCRTGTACAACAAGGATTTGTCATCCAAATATTAACAGTAATGGCAGCATTTGTC
TCGATATTCTAAGATCACAGTGGTTGCCTGCTTTAAAACTATTTCTAAAGTTCTTTTATCCATTTGTTCACTGCTATGTGATCCAAACCCAGATGACCCC
CTAGTGCCAGAGAGCACACGGATCCATAAAATAGACAGACGTAAAAGTACAACAGAATATCTCGGGAATGGACTCAGAAGAATGCCATATGATGCTACCT
TAAAGTCAGAATAACCTGCATTATAGCTGGAATAAACTTTAAATTACTGTTTAAAAAAAAAAAAAGGCTGGGCACGTTGGCTCACACCTGTAATCCTAGC
ACTTTGGGAGTCCAAGGCGGGCTGATCACTAGGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGTGAAATCCTGTCTCTACTAAAAATACACAAATTAG
CTGGGCATGGTGGCGTGAACCTGTAATCCCAGCTACTCGCGAGCCTGAGGCAGGGGAATCGCTTCACCCAGGAGGCGGAGGCTGCAGTGAGCCGAGATTA
TGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCAGTCTCAAAAAAAAAAAAAAAGAACTTCCAGGAAAAGAGAACTAAACATGTACTATGGTTTA
TGTATTTCTACATTAGATACTTCCTTTACCATCATAATTTTGTATTATGTTCTTTTGGAATTTGAGAAAAGTAGATGAGATACAATAAAAATATAAATAA
TTTTAAAATGAGCAAAGGATTTAAATAGACATTTCTCCAAAGAAGATATAAAAATGACCAATAAGTACATAAAAAGATGCTCAACATCATTAGTCATTAA
AGAAATGTAAATTAAAACCATATTGAGATACTTGATATCCACTAGGATTGCTATGATAAAAAATGTTTTTCAACTGAAAATAACTAAAATTGGCAAGGAT
GTGGAGAAATTAGAACCCTCATATATTACAGGGGTAAATGTAAAATGGCACAATTGCTGTGTGAACTGCTGAGGCAGTTCCTCAAAAGTTAAACACAGTG
ATACCATCCATCCACCTCTAAATATGTACCTAAGAGAAACGAGAACATATATCCACACAAAAACCTGTAAATGAATGTTCATAGCAGCATTATTGACAAT
AGCCAAAAAGTAGAAATAACCCAAATATCCATCAACTGATGAACGAATAAACCAGCGAGATTATCCATACAATGGAATATTATTCAGCCTTAAAAAGAAA
TCGAACACTGATACAGGATGCAACATGAATGAACCTTGAAAACATTTTGCTAAGTCAAAGAAGCCAGACACAAAAGGTCACATATTGCATGATTCAATTT
ATATGAAATGTCCAGAATAGGCAAAAACATAAAGACAGAAAGTAGATTACTGGTTGCCAGGGGCTGGGGAAGGGGAAGATGAGGAGTGACTGCTAAGTGG
TATGAGGTTTCTTTTTGGGCTGATGAAATGTTATGCAATTAGGTAGGTGACAGTTGCACATCTTTGTGAATATATTAAAAACTACTGAATATTTTTAAAT
GGTGAATAGTTTTGATGGTATGTGAATTATATCTCAATTTAAATTTTTTAAATAGATGAGACTGAATGCATCAAAAATGCCTAAGCTAAATAAATACTAA
AATATATAAAATTCTAATACATAAAACTTAATATATAAAATGGGATAAAGGGGAGCTTATAACCTATTAATAACAAGTTTGGAAAATGCTAAGTTAAACA
TTTTTTAAAATCAGAGTCCTTAATAATATGCATTATGAATCTCAAAGAAGAGGATAGAATATATAGTATTTCTCAGACTTGACCACATTACTAAATAAAC
CCTAAATGATACTTCAAGGGTCATGCTCCAAGAAACACAGTTTGGGAAATAATGATTAAGTAATATATCAGGATCCAATTACAACTGTACTAAATCTTAC
CTTTGCTCTTGATACTTATAAAATTAAACTAAATTATCTGAATAATCACCTCACAATAGAAAACCCAAACTATTCAGATAATATATCTACCATGGTTTGA
CCACTTACTTAGCAAGGATAGATCCTTATTTTCTTTCTTTTTTGGGGGGGTGGGGGGGGAGGCGTTCTCATTGTTCCCCTCCCACTTTTCCCCGCGAACA
TGCAGTGCCGGGTTTTCTGTTCCTGTGTTAGTCTGTTGAGGATAATGGCTTCCAGCTCCATCCATGTCCCTGCAAAGGATATGATATAGTTCCTTTTTAT
GGCTGCACAATATTCCGTGGTGTATATGTACCACATTTTCTTTATCCAGTCTATCACTGATGGGCATTTGAGTTGATGTAACTCAAATGTAACCCAAAAC
TATAAAAACCCTAGAAGAAAATCTAGGCAATGTCATTAAGGACATAAGCACAGGCAAAAAATTTCATGTTCAAAAGCAATCGCAACAAAAGTAAGAATTG
ACAAATGGGATCTAATTAAACTAAAGAGCTTCTGTAAGGCAAAAGAAACTATCATCAGAGTGAACAGACAAGCTACAAAATGGGAGAAAATTTTTGCAAT
CTATCCATTTGACAAAGGTCTAATATCCAGAATCTACAAGGAACTTAAAGAAATTTACAAGAAAAAAAAAACTCCATTAAAAAGTGGGCAAAGGACATGA
ACAGACACTTCTCAAAAGAAGCAATGTATGCAGCCAACAAACATGAAAAAAAGCTCAACATCACTGATTAGAGAAATGCAAATCAAAACCACAATGAGAA
ACCATCTCACGCCAGTCAGAATGGTGATTATTAAAAAGTCAAGAAACAACAGATGCTGACGAGGCTGTGGAGAAACAGGAGCACTTCTACACTGTTGGTG
AGAATGTTAGTTAGTTCAACCATTGTAGAAGACAGTGTGGTGATTCCTCAAAGACCTAGAACCAGAAATACCATTTGACCCAGCAATCCCATTACTTGAA
GGAATATAAATCATTCTATTATAAAAATACCTGCACATGTACGTTCACTGGAGCACTATTCACAACAGCAAAGACATGGAATCAACCCAAACGCTCTCAT
TGATTTTTAATGTATTTTTGTTATAGTAATATCACAATTTCTTATCAGGTTTTAGGTAATAACTTTCCTTTGCTACAAATAGCCTCCTACAGCATTTGAC
TTCTAATTCAAAAGCTAACTGAGCAGCTTCCAAAAGGAAAATCATAACAATGAGCTGGATCAAAAAAGTGTGTAATGTGTCAAAAGGAAATACACTATTC
CTAAATAAGTTATTTACTAATAACAAAGAGGAAGTGATATGGTAATAATTCTCACCAAAAGAATATAATTTAATGATGCTCTAAGCAATTCTTATACCAT
ATTAGTTTGTGGTCAGTCTGCAGTTGCAGATAGAGTCTGAAACAAAGTTGGCAATTAAGTAAGAAATCCCAGCTGGCAGTCATCTTAAATTTCCAATATA
CGGCAGGAAATGTTGCCAGCGATTCAATAGGTGACGCCCCTTCCCTTTTTCTTTTTTCTGAGTTACAACAAACTGAAACAAAATTGCCCCAGAAGTTCTG
TTACCAGCTAACAGAATTAAACATAAAAATTCCACTGCAATGTTTCAAAAAATAAAACACTGAATCTGAACCGACATGAAATATTGTTTCCATCAACATT
TACATACCACGTCTGAAGCATATTAACTGCATAGCCCAATGAGTATTTCTATAATATAGTCATCATATCTTCAACATTCTAATTATCCTAAGTTTACATT
CGAAAGATTAATTATAAACTTCAATACATTATAACAAGTACATGGAACTCAAGTAACCCATAAAAATATAAAGAAAAATTAATTTTGGATGCATTGGATA
TTGTGAAAATTGATTATATAAATTGGAATTATCTTGTCATACCCAATTAAATTACAGTCATGAGATGAGGGAGGAAGAAAAGGAAAAGAAAAGCACTTAG
GGCACAAGCACCTGCCCAGGGATTATCTGGCAAGCCAGCTGCTGAAATGACCTGCTATAACCTTAAGATCAGTTTTACCTAGTAGCTGCGGAAACGAACT
GCTATAACTCTAAGACTAGTTTTACCTACCACAGTCACTCACAAATCAGAGCATGCCAGCTCCCAAAAACTTCGCTAGTGCCAATGCATTTTCTTTCAAA
ACAATGCATAACATTTCTCTAATAAAAACCTCAATCTTTTCTTTGTTCTTTGGACATACCAAAGACCAATGCAGTCTGTGTGTATGCCCAAATTACAATT
CTACTGTCTCAAATAAAATGTGTTGTTCAGAGATTCATCTCTATATTTGATTTCTGTTGATAATATCCAACTATATTTTATTCTAACACACTATTTTAGA
GACTAGCTATAACATCTTGCTCATAATAAACATCTGAAACTAGTTCAATGAGTAAACGTCTATATCTCTGTCAAATCGGCATTTTTACAATACATCTGTG
CAACTCAGTGTTGAGAGGGGATTTACCAAACATACCTCTCTGGCAATGTTACTCAAAGCTTCATCTTCTGCAGAAAATCGGTCTTTCACAGGTGTTCTTT
TCCTTCCAGAAGCAGGAGTCCCCATCTTGTGTTCTTAATAGTCTTTTAACTTTGAAAGTGATTTAACTGTGTTTTCAGCCCTGAAGTAAACAAAAACATA
ATAACTTAAGGTATTTCTTTGTGCAATTTTCATGCTCATTTATATATTCACTTTTAACAGAGAAATTAGTCACCAAATACCTCTTCCCACTACCAAATTA
TTCCAATAAATTTTAGAATATTTAATTTTATACTAATTACTAAAACTCCTACTTCTTTTCACTATGCTACCCACAGCAATCTGTGTGTATTATAATATTA
GCCTCAGAAAGCTGCCATCAGCAGAAATTCTACTTAACCATTTAAAATTACTATAGCTGGGCAGCCTGGCCAACATGGTGAAACCCTGTCTCTATCAAAA
ATACAAAAATTAGCCGAGCAGGGTGGTGCATGTCTGTAATCCCAGCTACTCTAGAGGCTGAGGCAGGAAAATCACTTGAACCTAGGAGGCGGAGGTTGTA
GTGAGCCAAGATTGCGCCACAGCACTCCAGCTTGGGAGACGGAGCAAGACTCTGTCTCAAAATAAATAAATAAATAAATAAATAACTATAGTTATTTCTA
AAACCAATTTCCATCCCAGAATGAAAAACATTTCAGAAGTTATTCAGCCTAAACTTTTAGAAGAAAATGTTCAAGAGGTTTTACTACTAAGCCTTATAGT
TACAAAAGTAACTTTGCTTTTTAGTGTAATTTAAGAAAAATTCCAATTAAACCATGACAACGTCAGGCACGGTGGCTCTCACCTGTAATCCCAGCACTTG
GGGAGGCTGAGGTGGGCAGATCACTTGAAGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGTAAAACCCCATCTCCACTAAAAATTCAAAAATTAGCCA
GGCATGGTGGCGCATGCCTATAATCCCAGCTACTATGGTGGCTGAGGCACAAGAGTCACCTAAACCCAGGAGATGGAGGTTGCAGTCAGCCAAGATCACG
CCACTGGACTCCAGCCTGGGTGACAGAGAGAGACTCCACCTCAAAAAAAAACAAAAACAAACAGACAAAAAAAACCCACAACCATATAAAAGAAAAAATG
AAGGTTTATTACTCTGCAATTAACAATAACCAACACTGTCCATGTTGTTACCAGGTACTATAGGAGGTGCTAAAGGTACGGTGATGAAGAAAACTGATAT
AGTCAAATGATTAAGAATATATCGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAGGCCAAAGCAGGTGGATCACCTGGGATCAGGAGT
TCAAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAATTAGCAGGACATGGTGGTGCATGCCTGTAATCCCAGCTACTTGGGA
GGCTGGGGCAGGAGAATCGCTTGAACCTGGGAGACAGAGGTTTCAGTGAGCCGAGGTTGCACCACTGCACTCCAGCCTGGGCAACAAGAGAGAAACTCCT
TCTCGAAATATAAAAAAAAGAATATATCTATGAACCTGTTACTATTACTTATTAGACCTATTTTAACAAAAGGAAGAAGAAAAACCCATCCACCAGGATT
AAATAATAAGGATGAAAAAGACCATCTAACCTTTGGTTAGATGGTATTTGAGATTAAAGATTACCATGAAAGAATGCAACCCAAATTTCATGCCCTCTTT
TCTTCTATACACATTGCTAAGAAGTATAGCTCATTTAGCTAAATATTCCATA


SNP Information

Context             (SEQ ID NO:55368):
CCACAATTATGGGACCTAATGACAGCCCATATCAAAGCGGTGTATTCTTTTTGGCAATTCATTTTCCTACAGACTGCTCCTTCAAACCACCTAAGGTTGC
R
TGTACAACAAGGATTTGTCATCCAAATATTAACAGTAATGGCAGCATTTGTCTCGATATTCTAAGATCACAGTGGTTGCCTGCTTTAAAACTATTTCTAA
Celera SNP ID:            hCV25927357
SNP Position Genomic:     6248
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55369):
ACCAAGAGCTTGTGTCTGGCAGAGCCGGTATGAGATGAGACAATGCTGTCCCACCTCCGGGATAACCAGGAGTTTTGGCCAGACTTTTGAGCACATACCG
R
GAGAGTGAGGAGCCAGATGACAAGCACATACTATGGCACTAAGACAGATTAATAAGGAACTTAGTGATTTGGCCCATGACCCTCCAGCACAATGTTCTGC
Celera SNP ID:            hCV3028616
SNP Position Genomic:     6012
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,19|G,19)   total(A,51|G,25)
SNP Type:                 UTR 5

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 UTR 5


Gene Number:                 292
Celera Gene:                 hCG17142 - 79000075253244
Gene Symbol:                 MLH1
Protein Name:                mutL homolog 1, colon cancer, nonpolyposis type 2 (E. coli);COCA2;FCC2;HNPCC;HNPCC2;MGC5172;hMLH1
Celera Genomic Axis:         GA_x5YUV32VV34(36971744..37041103)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12452):
ATAAGATTCTATACATGGATATGCAAACTTAATATTACATAGTGGATTTGGTGTGTATATTTGGTTTTGAATCCTGAGTTTACTACTTACTGTGTTTACC
AGGGAAAACCGCAATTTGTTATCCTTCTCTCTTTCATACAACAGAGAAAACCACAATTTGTTTAACAGTCACATAATACATATTTAAGTCACATGCTAAG
CACTACACTAAATTCTGAGAATACAACGAGGTCCCTAGTTACAAAGAACTTGTCTTCATTTTTCAATTAGTAATATGTGGATAAAAGTTACCCAATGGAC
AGTCTAAGGCAGAATGACTGTGAAGGTCAAATAAGACTGTGAAAGAGCTTCAAAAATTGTAAAACACTACACAAATATTCGTTTGTCCAAACATTTATTG
AAATGCCAGGCATTGTGCTAAGCACTAGAGATATAACAGTGAACAAGGCTTATATGGTCCCTGCCCTTACAAAGCTTACAGTCTAGCAGTGATCAATAAG
CAGTAACAATAAAGTGTGCCAAGTGTATGTCTGGGAAAGAACAGGGTGTATAGGGAATGGATAGTAAGGGCACCTAATCTAGAGGGCATCAATGAAGGTT
TCCTAGATGAAGTGGCATACTGAGACCTTAAAGATGAAGATAAATTTGTATTGTACCCTAAGAGCAATGGTGAAAGCAATGCAGTGACATGATCAGTAAG
TCTTTTGGAGCAATTTGGTTGTAGTGTAGAAAGGAATAAAAATAAAAAACAGGGAGACTAATAAGGAGGCTGTTGCTATAATTTAGGTAGGTTGATGGCC
TGAATTAAAATGGCAGCATTGGAGAATTGGTAAAAAGGACAAATGAATGGTTGGTAGTGGTAATGCCATTTAGTCAAAGAGGAAACATGAGAGGAGGAGC
AGGATTGGGGGCAAGATCAATGACATGTAGTGCCTGAGACAGCAAAGAGCATTTGTTAGCAATTAGATACATCAATTAGGGAAGATCTAGAAAGGAGATA
TGAATCTGACAGTCATTTGCATATAAATGGTAAGGAAACCATGGAAGGAAATGAGATCAGCTAGCGAGCTGACACAGAACAAGGCAGTCTAAAACAAATT
TTTTTAAAAATACGAAGAACAGATATTGAAGGGAAGAGGTGCCTGCAAAGACTAAGAAAGCACACCTGGAGATGGTATCTCCTCAAAGCTAAAGTCATCA
AGTGTTCAAGTGTTTCAAGGAGGGTAAGACTATTAACAAGGACTTAGCATAGTAGAGCAATTTGAGTGGCAATACGGGACACTGGGAATACAAATCTGTC
AAGAAAACTAGTAGGAATGAGCTATAGGACAGTAACTGGTAAGGACCTAATAATTTTTTTTTTAATGTACGTATTTTAACTATATTCACTGCTACAACAG
GACCAGTAACAACTATATTTATTTAAAAAAAAAAAGACTGCCATGCAGTTACAGAATTACTTAATACAGAAAACAGTAAAATACACTTTTTTCTTTTTCT
TTTTTTTTTTTTTTTTTTACAAACAAGACTAGCTTATAGCAAATTCTCTATAGCTAAGGGTCAATTTAAAATCCTTGGCTTATATCTCCCCCTCACTCAA
TGACTACATGATGCAAACTAATTTTATTAACACCTTAAGCAAAACATACTGGAATTTCACAAAATGTACAAGATTTCAATATTTAAGGAACTGGGGTTAG
AAAGCAGAAGTGGCTTTCAGGTCTTCCAGTCTTTCTCTCAAGTAATAAAGCTCTGCTGTGAATATTCAAAGCTATTGGGAAATTACCGGTAGATTTTTCT
GTTTTTTTTTTTCGGTTTTCCACTATGTTGTTTCTCTAGATATGTAAGCTTACTCTATTAACCAAAATCTCAGCTTGACCATTCTTGATAAGTACCTAAT
CGACATGTAACTTTTTTTCTGCCTTAAATATGTATAACAGGACAGAGCCCTTAAATCTGATTCAATTATTAATTCCTGATTTACAAGTGCTATGGTGAGC
TAACAGAACTTATCAATGCCTTTATTGCACTTTACTAGCCAAATTTAGAAGGTTGGAATTAGTCTCTCCTATCTAGTATTCTGTCAGTTTGCCCAGCTTG
TACTTTTAATTTTGCTTCTAATGGTAATCTGCCCTATCCCTTGAAATAAAATAATCTACATTTTGGGAGGGCTAATTCTTCATTGTGCCAGGCTGTCCCA
TGCACTGCAGGGGTGAGTGTCTTTAGGCTTAAATGCCAACAGAAGCCCCTAGTAAATATGACAACCAAAAAAGTGCCCCTACACATTTCTCAGCATCCTC
TGGAATGACAGGTTACTGCCTCTAGTTGAAAGCCACTGGCACAACTTTGGTTTTTAAGCTCTTATGCCATTTATTTTAATTGCCCAGACATCAATTCCAC
CTAAATTCTTAGTCATAGCCTGGTTCCTTGAATTTGCTGGATTAGTAACCACAGATTAAGGTGTTTCAATAGTTAAGACAGGACTTTGGAACAAGAGTTT
TTAAATTGTATAATACTTGAGAGGATCTATGAATATAAATTGGGTCCTGTTTATAATTAGTTTTACATAATGAACTTTAAGATTGCCTTTTCATGGTGAA
CAGAAGTTTGGAAATTACTGTTTTGGCACAAAGCAGATTATCTTAGTAGAAATACAGAATTACTGCAATCTGTGAATAAGACTGCTTTTAAATATTTCTA
CTTGTGTGCTATCTTACATATAGAATGTGTACGACAGTTCCAAATTTTAGAATAAATCCATTTCTAGCATCTAACAAAATCTGATACTGTATCATTTTAA
AACAAAGTGTTTACTTTAGGCAGGATTTTTTAAAATAAAGCAGCAATACCCACGCAGATAAGACAAAAAAGCTAAAATATCTCACACCTCCTAATCCTGG
AGTGCAATCTTTTTTCCTCATCGTTTTTGATAGGGCCAAACTTGTGTCTACAGTAAAAAAAAAAAAAAAAAGAATTACTAACTGGCAACCATTAAGATTC
TATACTTACCATAGTCCTTTAATAGGCAAGCTGATAAAATAGCCCCCAGTTATTAAAAAAAAAATCCAAGGAAAACCCCCAATAATTAGTCTTATCTCCA
AATTGCATGAAGTCTCCTATATCTGAAACTTAAAAATGATTCTAATGACTTCCTCTATCAGTAATGTGTTATCACTGAGGTGGGTGATGGGGAGGGAAGA
GGGAAGAAATCTGTCAGTATTACCTTCGAACTCAGAAATGTTTAAAAAAAAGTCTCAAACATTTTGATGGTTAGACAAAACACCTCCACTGTTATGTATG
GGCTTCCTTTTTGGAAACTTATGAACTTGCTATGTGAGCTTCTGCAAATTGGTTCAAAAGCACATTTAAGGAGTTGATAATTTAAGACTATATGAATCAG
AATTTTAACACTCCATTAAAATAAGAGCTGAAATTTTTGGCATTTATCTTCAGAACACCTAAAAAACAGACTGCAAATTCAACTCACATTAATACTAAAT
CTCTTTAAAATTAACTATATCATAAAAGACAATGACTTTGTCACTAAACTAAGTTTTAAAAAAGGTGGCATTCTCATGTTTCAGTCCCATGCTGCCATTT
GAGATGAAAAAAAAGGCAACTGTCAGAATTTTAATTGTGATCAGTTTGGACGGCTGGTACTTGGTACTTTCTCACAATCCAAATTAGTAAACTTGAAAAC
TCAAACCAATTTTTGCTTTTAGAATTAAATTCTTGTTGAGTTTTTCAATCTTGTACTACAAAGCCTTATGGATTAGATTCATTTCTTTCTCTCACAAGGT
CATCCCAACCGGGCTCCATTTCAGTTGTGGCAACCCGAAACAGGGCTTGGAGATGCTCATCTGTTAATGGCTGACTCAAAGTGTGTTGGTTTCGAGTCAA
ATATGAAAAAGCCTTTTCACAGATTTGGTTACTATCAAACAAGGATGCCACCTTACAGGCAACCCCTTTGATAATTGGGTAGGATTCAGCAGACAATCCA
GCATAAAACTGCCCCAAGTCTTTGATTCTGTATTCATTCCAAAGATTAGTGTTTGCCTGAAGTTTTGTTAGCTCCACCCTCACTGAAATAGGTGCATATT
CAGGTTTAAAGTTAAATGGATTTGAAAAAAGTTCTAAGTCCTTTTTAATGAACCTGAGGTCCTTAAAATGTCTCTCAAATTCTTTTTGGAGACGACAGAT
CACCATTTGATACCTATCAGGATCAAATATTTTTTCATCTTCCTTATTTTGCTGTTTTAGCTCATCAACAACTTCTCTGAGGGCAGGAAAGTCTGTTAGA
TTTTTTTCCTCAATATGTCTTTGAAATAAATTCAGCTTAACTTCGAAAGTACAAATATGGTCAAAGGCAGCAGCAGCAAAGACTTTACTAACTCGTAATT
CTTCACTGAGTTCTCGAAGGTGTTCCATAATGTCCACCAAGAAGCCAAAGTCACAAAGCCATTGTTTGTCTGAGAAGTGGACTGTTGTTGCCCCTACTGA
AACCAAGAACGCTTCCATTTCTTTTCTTAGAGAGAATATTAGTTTTAAAGTTTTCCCTCTCCTAAGCCAATTGTTCAGACATCGTCCATTAACCCTTTCA
CCATGCTCTGATTCAGATTCCGTTAGTAAAGTCTGAAATTCAGGTCGCCTAACGCCTCTGGTCTTAATCAAAACTATCCATTCGGATATGGTATTTATGA
TCTGATTAACATCTACATCATAGGAGCTCAACAGTTCCAAGTGAAGAAATCCTGAATAATGAATGACATTCCAACAGTTGGGGCTTACGGCCTTTTCTCT
CATGTATGAGACGAGTCCTGAGTTCTCACCAATCATCCTCAAAGTATGGGTCGTGGTCAGTCCAACCATTCTCTGCAAGCTAAGCCCTGCTGTCTGCAGG
GACTCTAGGATTGCCGACATGAGCGCACCAACACTGAAATGATGAGTCAGGTTGATTATGGTCAGAAGATCTTCTTGCACCTCCAACTCAGGGCCTACAC
CGCGGATAAAGACCAGGAGGTAGTTCTCATAGGCCACAAAAGCCTGGTCGTCCAAGGCAAGAGAATAGGCTTTAAAGTCCCTGGCTCGGTTAAAAAGCTG
GTTGCGTAGATTCCTGTCAATGCTCAGGATCCTCTGCCTTGTGATATCTGGAGATAAGTCAACGCCTTGCAGGACGCTTACATGCTCGGGCAGTACCTCT
CTCAGCAACACCTCCATGCACTGGTATACAAAGTCCCCCTCACCCCAGCCGCGACCCTTCAAGGCCAAGAGGCGGCAGAGCCCGAGGCCTGCACGAGCAG
CTCTCTCTTCAGGAGTGAAGGAGGCCACGGGCAAGTCGCCCTGACGCAGACGCTCCACCAGGGCCGCGCGCTCGCCGTCCGCCACATACCGCTCGTAGTA
TTCGTGCTCAGCCTCGTAGTGGCGCCTGACGTCGCGTTCGCGGGTAGCTACGATGAGGCGGCGACAGACCAGGCACAGGGCCCCATCGCCCTCCGGAGGC
TCCACCACCAAATAACGCTGGGTCCACTCGGGCCGGAAAACTAGAGCCTCGTCGACTTCCATCTTGCTTCTTTTGGGCGTCATCCACATTCTGCGGGAGG
CCACAAGAGCAGGGCCAACGTTAGAAAGGCCGCAAGGGGAGAGGAGGAGCCTGAGAAGCGCCAAGCACCTCCTCCGCTCTGCGCCAGATCACCTCAGCAG
AGGCACACAAGCCCGGTTCCGGCATCTCTGCTCCTATTGGCTGGATATTTCGTATTCCCCGAGCTCCTAAAAACGAACCAATAGGAAGAGCGGACAGCGA
TCTCTAACGCGCAAGCGCATATCCTTCTAGGTAGCGGGCAGTAGCCGCTTCAGGGAGGGACGAAGAGACCCAGCAACCCACAGAGTTGAGAAATTTGACT
GGCATTCAAGCTGTCCAATCAATAGCTGCCGCTGAAGGGTGGGGCTGGATGGCGTAAGCTACAGCTGAAGGAAGAACGTGAGCACGAGGCACTGAGGTGA
TTGGCTGAAGGCACTTCCGTTGAGCATCTAGACGTTTCCTTGGCTCTTCTGGCGCCAAAWKGTMGTTCGTGGCAGGGGTTATTCGGCGGCTGGACGARAC
AGTGGTGAACCGCWTCGCGGCGGGGKAAGTTWTCYAGCGGCCAGCTAATGCTRTCAAAGAGAKGATTGAGARCTGGTACGGAGGGAGTCGAGCCGGGCTC
ACTTAAGGGCTACGACTTAACGGGCCGCGTCACTCAATGGCGCGGACACGCCTCTTTGCCCGGGCAGAGGCATGTACAGCGCATGCCCACAACGGCGGAG
GCCGCCGGGTTCCCTGACGTGCCAGTCAGGCCTTCTCCTTTTCCGCAGACCGTGTGTTTCTTTACCGCTCTCCCCCGAGACCTTTTAAGGGTTGTTTGGA
GTGTAAGTGGAGGAATATACGTAGTGTTGTCTTAATGGTACCGTTAACTAAGTAAGGAAGCCACTTAATTTAAAATTATGTATGCAGAACATGCGAAGTT
AAAAGATGTATAAAAGCTTAAGATGGGGAGAAAAACCTTTTTTCAGAGGGTACTGTGTTACTGTTTTCTTGCTTTTCATTCATTCCAGAAATCATCTGTT
CACATCCAAAGGCACAATTCATTTTGAGTTTCTTTCAAAACAAATCGTTTGTAGTTTTAGGACAGGCTGATGCACTTTGGGCTTGACTTCTGATTACCCT
ATTGTTAAATTAGTGACCCCTCTTAGTGTTTTCCTGTCCTTTATTTCGGAGGACGCACTTCGAAGATACCAGATTTTATGGGTCATCCTTGGATTTTGAA
GCTTATAACTGTGACAAAAAATGTGAAGGGAAGAGATTTGAAACATGTGGAAGGRAAAGTGAGTGCAGACTATAAACTTCCAAAAAGACAAGCCCAAAAT
ACACCTAAACGTTATGTCAGATTATTTTGTTAAAATCAGTTGTTAGTGACGTCCGTACGTTAATAGAAAAAAGAATGCTTCAGTTTGGAGTGGTAGGTTT
CTAGAGGGATTTATTGTGAAAGTATAAACTATTCAGGGCAATGGGACTGAGAGAACAGTGGGTAGAAAGGACCACTGAAGGAAAGGAAGAGAATTGGAAG
GTAGATGAAAGAAGGAGCAAGAACCTGGGGATGTTTTTTCCTTTTCACTTGTAATAGTAGTAACAGAAGCAATGGCAGACTGGCTTTTGTTTCTACTGTG
TTAGAATGAATTGACAGGACAACTGGGCCTATTATTGTACTGTGCCAGAATACTGTAAAACAAAACTAAACATACTAGCTTGGTGGCTTGTAATTAATTA
CTTAAGTGGAGATTTTTATTTTTTTTTTATTTTTTTTTTAGACGGAGTCTCACTTTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTGACTGCA
ACCTCCTCCTCACAGGTTCAAGGGAGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGACTATAGGCATGTGCCACCACACCTGGCTAATTTTGTATTTT
TAGTAGAGATGGGATTTCTCCATGTTGGTCAGGCTGGTGTCAAAACTCTCGATCTCAGGTGAACCGCCTGCCTCAGCCTTCCAAAGTGCTGGGATTACAG
GCGTGAGCCACCGCGCCCTGCAGTTTTTTGTATTTTTAATAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATTTCCTGACCTCAGGTGATCT
GCCCRCTTTGGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCGCGCCCGGCTCAAGTGGAGATTTTTATATGGAGTCCAGTTATACTCTTTTTAA
TATATAAGTTGAGATGACTAATACAACTTCAATACAGGGGCTCATGAGAAATGTCTGTAATATTTAAGTAACTTATTGTCTTCTTTCTTTTTTTTTTAAG
ATGAAGTCTTACTCTGTTGCCCAGGCGGAAGTGCAGTGGCGTGATCTTGGCTCAGGGCAACCTCTGCCTCCTGGTTTCAAGCGATCTTCCTGCCTCAGCC
TCCCGAGTAGCTGGGAGTACAGGCGTGCATGACCACACCCGGCTAATTTTTTTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGCCGGGCTGGTCTTG
AACTCCTGACCTCAGGTGATCCGCCCACCTCAGCCTCCCCAAGTGTTGGGATTACAGGTGTGAGCCCCCGTGCCCAGCCTATTATCTTATTTCTGAATAA
AGAATTGTCTGTGTGGGGAATAGATAACTCTTTCTCATGCAGCCCCTGCTAGAAAATTTGTTTTCTCTAGCAGTTGGTCTGTGCTTATAGGCTACTCTTT
GAAAGCACAAAAAATTTATTGACTTCTTTTTTTTGGGTTTTTTTTTTTTTTTGAGACAGAGTTTTGCCCTTGTTGCCCAGGTTGGAGTGCAATGGCGCGA
TCTCAGCTCACCGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTTAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGTCACCATGCCTGGCT
AATTTTGTATTTTTAGTACAAATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTG
CTGGGATTATGGGTGTGAGCCATTGCGCCTGGCCAGAAAATTCATTGACTTCCTAAAGATTTATTAACTTTCTGCATTACTTTTTTTTTTCCCCTCCATC
GTAAATATAAAAGGGAATAGTAGAGAAAATCATTCAGAATTTTATTTTTTAGTGACATTATTTAGTGACATTTTATTAGAGTCACTTAGGAACCTGAGGC
TGAATAAAGTTCAGGTAAAAGTAAAATTAGTTGAGAAGAGACATCTGCCAAAAGAAATCTATTTTTAACTTCACTTGCTGTCTTTSCTAGAGGAACAGAA
ATAGTGCTGAATGTCCTATTAGAAATGATGGTTGCTCTGCCCGTCTCTTCCCTCTCTCTCACACAATATGTAAACTCATACAGTGTATGAGCCTGTAAGA
CAAAGGAAAAACACGTTAATGAGGCACTATTGTTTGTATTTGGAGTTTGTTATCATTGCTTGGCTCATATTAAAATATGTACATTAGAGTAGTTGCAGAC
TGATAAATTATTTTCTGTTTGATTTGCCAGTTTAGATGCAAAATYCACAAGTATTCAAGTGATTGTTAAAGAGGGAGGCCTGAAGTTGATTCAGATCCAA
GACARTGGCACCKGGAWCAGGGTAAGTAAAACCTCAAAGTAGCAGGATGTTTGTGCGCTTCATGGAAGAGTCAGGACCTTTCTCTGTTCTGGAAACTAGG
CTTTTGCAGATGGGATTTTTTCACTGAAAAATTCAACACCAACAATAAATATTTATTGAGTACCTATTATTTGCTGGGCACTGTTCAGGGGATGTGTCAG
TGAATAAAATAGATTAAAATCTATTCTCTTCTGATGCTTACATTATAGTGGTGGGAGACAAAATGGGTATAATAAATATTATATTAGATAGCATTAAGTG
CTGTGGAGAAAACTAAAGCAGGGAGGAAGATAGGAGTGTGCAAGCCAGAAAGGTTGCAATTAAATTGAGTAGTTCAGGAAGGCTTCAATATGGATGTGAT
ATTTGAGAGACCGGTGGAAGTCAAGGAGCAAGTTGTGAGGCTATTTAAAGGTATTCTTGGCTTACAGAACAATATACGCAAAGACTATTAAATGGAAGCA
TACCTGACATGTTAAAGGACTATCAAGGAGGCCAGTTTGTCTAGAGGCTGAAAAGGAAAGAGTAATAGGAGATGAGGTCTGAGTGAAAACACGTAAATCC
TTGTGGGCCAAGGTAAAATCTTTAGCTTTTTTTCTGAATATGGTGGGATACTGTTAGAGGGTTTTAAGCAGAGGTTACGTGGTGTGGTGAGTTTTTTTTT
TTTAATCCTTTGTCTTTCTGTGTGGAAAATAGCAGGACAGGGCAGAAGCAGTCTGTCCTGCAGACTGCTTGGTCGCAGTAGAGATGTAAGAAGCAGTGAG
ATTCTGGGTTAATTATGGAGGCAAAGTTCTCAGAATTTGCTGATATAGGGTATGAGAGAAAGAGGAATCAGGAATGATTTCAAGGTTTTGGTCTGCTAAA
TGGAAGGAGTTGCCATTTACTAAGATGGGAAAGACTATGAAAGAAGCAGATTTTCAGAGAGATCAGAAGTTCATTTTGGGGCATGTTCAATTTAAGATGC
CTGTTAGTTGGATGTTTATGTGAGTTTGGAATGCAGGGTAGAGATTTAGGGATGAATATTTGGTAGTTGTCTGCATTTTAATGGTATTAAAAGCCACGAG
AAGGATGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAAC
ATGGAGAAACCCCATCTCTACTAAAAATATATAATTAGCCGGGCGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGC
TTGAACCTGGGAGGTGGAGGTTGCGATGAGCCGAGATCGCACCGTTGCACTCCAGCTTGGGCAACAAGAGCAAAACTCCATCAAAAAAAAAAAAAAAAAA
AAAAAAAAGCCTTGAGACTCACCTGAAAAGATGCTCAACATTATTGGTCATTAGGAAAATGAATGAAAACCACAATGAGATACCACTTCACACCTATTAG
GATGGCTATTATCAAAAACAAAAACAAGTGTTTGCAAGGATGTAGAGATTGGAATTCTTGTGTATTGCTAGAGGGAATGTAAAATAGTGCAGGGTGCTGT
GGAAAATGCTGTGGTGATTCCTCAAAAAATTAAACATAATTATATAATCCAGTAATTCCACTTCTGAGTTATTCCCAAAAGAAGGGATGCAAGCAGATAT
TTGTACACTCATATTCATGGCAGCATTATTTACAGTAGCCAAAAGGTGAAAGCAACCTAAGTGTCCGTCAGTGGATGAATGGATAAACAAAATGGAATAA
TTTCAGCCTTAAATAGAAATAAAATGTTGACACATGTTGCAACATATACGAACCTTGAAGACATCATGTTAAGTTAAATAAGTTGGTCACTAAAGGACAA
ATATTGTATGATTCCCCTTATGAGGTTCCTAGAGTAGTCACATTCATAGAGACAGTAGAGTGGTGGTTGCCCAGGGCCGGGGGGAGCGAGGAGAATGGAA
ATTATTGTTTATTGGGTACAGAGTTTCTGTTTGGGGAAGATGAAAAAATTCTGGAGATGGATCATGATGATAGTTAACACAGCAGTGTGAATATAGTTAA
TGGCACAGAACTGTACATTTAAAAATGGTTAAGATGGAAAATTTTCTGTTACATATATTTTACTGCAATTTTTTTAAATTTTATTATTATACTTTAAGTT
TTAGGGTACATGTGCACAACATGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAAGTCATCATTTAGCATTAGGTATAT
CTCCTAATGCTATCCCTCCCCCCTCCCCCACCCCACAACAGTCCCCAGTGTGTGATGTTCCCCTTTCTGTGTCCATGTGTTCTCATTGTTCAATTCCCAC
CTATGAGTGAGCACATGCAGTGTTTGGTTTTTTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTGCAAAGGACATGAA
CTCATCATTTTTTGTGGCTGCATAGTATTCCATGGTGTATATGTGCCACCTTTTCTTAATCCAGTCTAYCATTGTTGGACATTTGGGTTGGTTCCAAGTC
TTTGCTATTGCGAATAGTGCTGCAGTAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATGG
CTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATTGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAG
TGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAAGATCGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGA
TTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTCTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTCGAGAAGTGTCTGTTCATATCCTTCAC
TCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGAGTTCATTGAAAAATTAGAATTTTTTTTTTTTTCCCTTTTTTAGAGGCAAGGTCTCAC
TCTGTCGCCCACACTGGAGTGCAGTAGTGTAAGCATAGCTMACTGTAACCTTGAACTCCTGGGCTCAAGCAATTCTGTCATCTCAGCCAGCTGAAGTAGT
AACTGTAGGTTCACACCACCATGCCTATTTTTGTTTTTGTAGAAATAGGGCCTTGCTTTGTTGCCAAGGCTGGTCTTGAACTCCTGACCTCAAGCAGTCC
TCCTGTCTCAGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACTGCACCCAGCCTTGGAGATTTTTAATAAAGAAGCTTGTCAATTAAACAAACAAC
AAAAAGCCCTGAGACTGAATGAGATAATCAAGAGAGTATGTGTAGATAGAGAAGAGGTCCAAGGAAGGAGTCTTGGGTGACTCTGATGTCAAGTGAGGAC
ATGAGGCAGAAACAGCAGTGACTGAGAAGGAGCCACCTAGTAAGAAAGGAGGAACACCAGGACAGTGTGGTATTCTGGATTCCAAACAAGGAAGTTACTG
CTAATTTTAAAGCTCTTCTCAGGCTGGGCATGGTGGCTCACACCTGTAGTCCCAGCACTTCGGGAGGCTGAGGTAGGTAAATCACTTGAGCTCATGTGTT
TGAGACCAGCTTGGGCAACATGGTGAAACCTCATCTCTACTAAAAATATAAGAAATTAAGGCCAGGTGTGGTAGTTCATGCCTGTAATCCCAGTGCTTTG
GGAGGTCAAGGCAGCCAGATCATTTGAGATCAGGAGTTCGAGACCAGCATGGCCAGCATAGTGAAGCCCCATCTCTACTAAAAATACAAGAAAAAATTAA
CCRAGCATGGTGGCGCATACCTGTAATCCCAGCCACTCTGGAGGCTGAGACATGAAAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATC
TCGCCACTGCACTTCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAGGAGGTTGCAGTGAGCTGAGATCTCGCCACTGCACTTCAGCCTGGGTGACAG
AGCAAGACTCTGTCTCAAAAAAAAAAAAAACAAAAACCAAGAAAAGAAAAAAAAACTCTTCTAAGAGGATTTTTTTTTCCTGGATTAAATCAAGAAAATG
GGAATTCAAAGAGATTTGGAAAAATGAGTAACATGATTATTTACTCATCTTTTTGGTATCTAACAGAAAGAAGATCTGGATATTGTATGTGAAAGGTTCA
CTACTAGTRAACTGCAGTCCTTTGAGGATTTAGCCAGTATTTCTACCTATGGCTTTYGAGGTRAGGTAAGCTAAAGATTCAAGAAATGTGTAAAATATCC
TCCTGTGATGACATTGTCTGTCATTTGTTAGTATGTATTTCTCAACATAGATAAATAAGGTTTGGTACCTTTTACTTGTTAAATGTATGCAAATCTGAGC
AAACTTAATGAACTTTAACTTTCAAAGACTGAGAATTGTTCATAAATAAACTATTTTACCTGCAGAGACCTCTGATATATGTTTCTTGATGGAAGTACCC
AGTACCACCTATGAAGTTTTCTTGTCAAAAAATCAAATGTGAATCTGATCATTACTTAGATCTAAGTACCAATATATGAAAAATATAGGAGACAAGGAAG
CATGGTAAATGATACTGAGATTGGGAGACTACATGGAAAAAGACTTGTTCCCTTCAACAGATAGACAGCAGGGAAAAAAGAATAGAGAAAGGAGTAAAGA
ACCTGTAGATTAAAAGACATTTAAGGGACATATGAACCAGGTCCAGTGTATAGATCTTACCTAAATCCTGATGGAGCAAACTATAAAAAAATTTTTTTGA
GACAAATGTTTGAATACAGGTTGACTATTTGATGGCATTAAGGAGAAATTATGAATTATCTTGGTATAAGAATATTGTCATGGGTTTTTTTTTTTGAGTC
CTTACCTGTTAAGATACATACTAAAATATTTGTGGGTAAAATTATATGACGTATAGGAGTATATGATTTAGAAAACGGATTAAAATATAAAAGGATAAAA
TAGGATCTTATATTTTGTGACTCACTTCCTGTTGGATATCTTTCTACCCAGTAAATATAGTCCTATCTAGGTTTTAATGGCTACATGTATGTACTGTAGT
TTGTTTAAATGGTTTCCTATTGAACATTTATGCTCTTTGCCATTTTTTCCTGTTTAACGTTCTGTTTTTTTTTTTGTTTTTTTTTTTTTTTGAGACAGTC
TTGCTCTGTTATCCAGACTGGAGTGCAGTGACATGATCTCAGCTCACTGCAACCTCTGCCTTCTGGGTTCAAGCTATTCTCCTGCCTCAGCCTCCTGAAT
AGCTGTGATTACAGGCGTGCACCACTATGCCCAGCTAATTTTTGTATTTTGGGTAGAGACAGGGTTTGGCCATGTTGGCCAGGCTGGTCTTGAACTCCTG
ACCTTGAATGATCTGCCCGCCTTGGCCTTGCAAAGTGCTGGGGTTACAGGCATGAGCCACCACGTCTGGCCTTGTTTAAGGTCCTGATGAGTATTCTTAT
AGGTACACTGTGTTTCGTTTAATTATTTCCTTAGGATAAATTTATAGAAATAACATTCCTTGGTAAAAGAATACATATTTTAAAAACTGTATTAGTTTCC
TGTTGCTGTCAAAAAATTTCCAGAAACTTAGTGGCATTAAACAATACAAATTAATTATTCTACAGTTCTGGAGATCAGAAGATACGGGTCTTACTAGGCC
TCACTAGGCTAAAATCAAGGTTTTGGCAGGGCTGTGTTCCTCTATGGAGGTTCCAAGGGACCAGAGAAACTACTTTACAGTAGTTATTTTAAGGGAATGA
AAGTGAAGATGGGGTTGGGCAGTCAAAGAGGCTGTTACTTTTCATTTTTGGCCTTTCAGTAGTTTGAATTTTTTTATCATATACATGTATTACTTTAATT
TTTAAAAAGTAAAAAGCAGCTGTGATTCAGTCTCTGTAATTTAGATCAATTTACATCAAACTAGGGTGGTCTCATGTGTTGTCTTGCTCACAGTGACCAC
TAGATTATTCCAAGAAGGGACAATTTCCAAGACTTGGTTTACACTGAGACGGCTCCTGATTTTAAGGATACCTTAGATCAAACTCTAGGAAGGCAGTTTS
ATTTTGGCCTTGCAGTTCCCTGGGTCATTTTCCAAGCCCATGGCCTCCTGGAGTCTTCGCCTAGCTGTAGGTTATCTTTGTGGCTATTATTTCACTGTAA
TTATACAGGWAGATTTATTGAGGGATTTCTGTGTACCAGCCGTGGTTCTCAGCACTTTGTATACTTTGTATTAACTCTGACTCCTGACAGTAACTCTACA
GAGGTTCTGCTGTTACCCAGTTTTACATAGAAACATGGCCAGCGGACGCAGTTAGAAAATGGCAAAGTGGGGATTAGAAACTAGGCAGTTTGACTCCAGA
GTCTGTGCCCCTGTCCACTTGGCTCCACTGCTGGGGAAGAGGCCTCTGAAGCAGCAGGACCATCTGCTGTGCCGTGTGTAGTGGTACTCTATCTTCCTGG
TGTGATGTTGTGTTCTACTTTGCATTTTCATGTCTTTCCTTATACAGGTCTCAAAATCATTTACTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCT
GTTGCCCAGGCTAGAGTGTAGTGGCATAGTCTCACTCACTGCAACCTCCGCCTCCGAGGTTCAAGTAATTCTCCTGCCTCAGCCTCCCAAGTAGCTCGGA
TTACAGGCACATGCCACCACAGCTAGCAAATTTTTGTATTTTTAGTAGAGATTGGTGTTTCACCATGTTGGCCAGGCTGTTCTTGAACTCCTGACCTCAG
GTGATCCACCCACCTAGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCCCACCCAGCCTTATATTTTTTAATGATGCACATTAGCTCAATTACA
TAAACCAGGGAAATCCAGCTAGGACCTGGTGATTTCTGAGCCTGACCCATGTGMCTTTCAATGAACTGAACTTGCCACAGCTGTATTTACTGTCTACTGA
GATGCTGTCACACAGACCCCGTCATAGCACAGTTCCTGAGTTACATCTTTACATACTGTAGTATCCTTCTTGTGAAAAAAGATACAGATTCCAAAGGTCT
GAGAAACCAATCTTGGTTATAAAGGGGAAAAATGGTCATGGGTTTTTAAAATTTGTTTTGTCTTAATTGCATTTCAAATTTACATTTCTAAATGAATAAT
TGCTTATATAAAGCAGTTTTGATTAACAATATAAAACACTATCTATTTGGAGTGATTCCTTTACCCATTTCTGAAGGCAAGTTTTAAAAATTACTAGAAG
ACACTTCATTGAGAATATTATTAAACATGCCTATAGTTCTACCACCTCAACACAATTGCTTATTAACACATTAATGTTTTGGTGTGTTTTGGACTTTTTA
ATATGTATTTTTCACTTGTTCTAGTAATTATGCTACAGATTGATCATTTCTTTTTCAACATGTCATCAAAGCAAGTGAGCAAAGTGCTCATCGTTGCCAC
ATATTAATACAAAATGGAAGCAGCAGTTCAGATAACCTTTCCCTTTGGTGAGGTGACAGTGGGTGACCCAGCAGTGAGTTTTTCTTTCAGTCTATTTTCT
TTTCTTCCTTAGGCTTTGGCCAGCAKAAGCCATGTGGCTCATGTTACTATTACAACGAAAACAGCTGATGGAAAGTGTGCRTASAGGTATAGTGCTGACT
TCTTTTACTCATATATATTCATTCTGAAATGTATTTTTTGCCTAGGTCTCAGAGTAATCCTGTCTCAACACCAGTGTTATCTTTTTTGGCAGAGATCTTG
AGTACGTTTTCTTTTCTCCTTATTGATAAATTGATAATCCTCAAGGATGATTATTAGGTGATACTCTTACTTCATGGATTCTTAAAAGATATGATTTAAC
ATATTACAAGTGCCTAGCAAGGTGTCTGTTACACGTAGGTATTTTAAGTAAATGGTAGCTGCTGATGTAATTTCTGCCCCTTTGCCCTTCAGTTGGGGTA
TTGCTTTGGACCGATTAGAGGGCTGTGGCTGGGATGCTAAAGGTTCATGTTTCCTTAGCTGGCTCYTGAGCCACCAGCTCCCACCACCTGTGTATACCTG
TGCTAGTTTGCCTTCCCACAAGTAGCTGCTGGCTATCTGTTATGCTGGTACAGTTTTCAGAAACTGATGAATGGCCTTTGAACAGAACAAAAATGAGATT
CAGAATAACAAAATTGCACCTTTGTTTTTATAAGCACTGGCCATTCACTAGTTGAAGACTGGTAGGAATACCTAATTCATGCCAAAAGAAAGATAATTTT
TAAAAATCACACAGGTTGTTTGTAGATTAAAAGGGAAAATAGGCTAGGTATAGTGGCTTTGCCTGTGAGTTTGGGAGGCTGAAGTGGGAGGATTGCTTGA
AGTCAGGAGTTTGAGACCAGCCTGGGAAACAGAGCAAGACCCCGTCTCTACAGAAAATTTTTAAAAAATTAGCTGGGCATGGTGATGCATATCTGTAGTC
TTAGCTACTCCGGAGGTGGGAAGATTGCTTGAGCCCAGCAGTTTGAGGCTGCAGTGAGCTGTGATTACACCACTGTACTCCAACCTTAAAATAAATAAAT
AAATAAGGGAAAATATCTTCAACAAAGGATAGTTCTGTCTGTTTCTCAGTCTTCCTCAACAGATAAATGTGTGAAGTAATGGAAGGTGGAGATTTCAGAT
TACACAACATTAATGCTAAGGGCGTTTGACTCTGTGTGAATTCTAATTGCCCTAGATCTAGACGGGCTGATACTATTAGAATCCCCTGTCACTAACTGAA
GACAGAGTTGTAAGTTAATGCCTTCCTAGATAGCCTAGATTGTGGTATGCTGCTGCATGCTAAAATGGCTCCCCTTCCATAGCAGGATGAAATAGAGTCA
TTATCTTGGCAACCAGCCCCTGCCAATGTGCTCTCAGTCTGCCTTTCCAGCCCCTTCTCTCTACCTATTCCCAGCTGCCATGTATTCTAAAGCCTCTATG
CTTTCATTTTTGTTTTTGCCTTCCTGGATGGTCTTTCCTGCTGTCTCCACCTGAAACTATTCCTCTCTAAAGAACAGATGAATTGCCATCTCTCTGGGAT
GCTTTTACCCACCCTCACTCCCACCTCAGGCTGAATGGACCCTTCTCTAGATCACTTAGCATATTGTTCTACAGTTAGGTAAAAAGTCTACCTATCACTA
GATCAAGAGCTTTGTTTTTTTTTATTAATTTAATTTTCTTTTTTTTTTTTCTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAG
TGCACAATCTTGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCCGGGACTACAGGCGCCCACCACCACG
CCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCACCTCGGC
CTCCCAAAGCACTGGGATTACAGGCATGAGCCACCGCGCCGAGCCCCAAGACCTTTCTTTATTACCAGGGCTTCCACAGACCTGACACATGGTAGTTCCT
CAATAAATAATTGCAGAATTACTGAAAAATTTTACTGTTAACTTAGGCAGTGGTAAAACCATTGTTTGGTAGCTCAGAACTCAGCAAGTAAATAGCAACA
TTTGCTGGAAGAACAGATAGTTTTTCAAATCCAATTCAAGGACTGGGTATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGTA
TCCAGGAGTTCGAGACTAGCCTGACCAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAATTAGCCAGGTGTGGTGGTGGGCACCTGTAATCTCAGC
TACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGTAGGCGGAGGTTGTAGTGAGCTGAGATTGTGCCATTGCTCTCCAGCCTGGGAAACAAGAGC
AAAACTCCGTCTCAAAAAAAAAAAAAATCCAATTCAAATGATTATGGAAGTAGTGGAGAAATAAACAGGAAAATGATAAATAATTAAGATAATATATAAT
ATGGCTATATTTTAATCTATTGTTGATATGATTTTCTCTTTTCCCCTTGGGATTAGTATCTATCTCTCTACTGGATATTAATTTGTTATATTTTCTCATT
AGASCAAGTTACTCAGATKGAAAACTGAAAGCCCCTCCTAAACCATGTGCTGGCAATYAAGGGACCCAGATCACGGTAAGAATGGTACATGGGAGAGTAA
ATTGTTGAAGCTTTGTTTGTATAAATATTGGAATAAAAAATAAAATTGCTTCTRAGTTTTCAGGGTAATAATAAAATGAATTTGCACTAGTTAATGGAGG
TCCCAAGATATCCTCTAAGCAAGATAAATGACTATTGGCTTTTGTGGCATGGCAGCCTGCCACGTCCTTGTCTTTTTTAAGGGCTAGGAGATTCTTTATT
GGGATGGCAAAAGTCAATGGCAGGGTAGTTGTCATTGAAAGAAGATTAAGCTTGACCCCAGAAGGCATGGGTTAGAGCCCAGCCTTGTCACTCAATGGTT
GTATGTCCAGAGGCAAGTCACTTAACATCCCTTAACCCCAGTTTTCTCATCTGTCAAATGAAGCAAAGAATACTTGCCCTCTTGACTTAAAGGGTGTCTG
ATGAGACATATGACTGTATCATTAGCTGGGAGAAAGTCCATCGTGCTGCCTATGTATAGTGCCTCAAGTTGGTCTCTTTCCCTTCTATGATTACACAAAG
CACTCCGCTGTCATGTTATCCATCCCGCCCCTCCATTCCAAGTCCCATCTAGAGCACATCTTCTTGAAGTCCACTGTAACCTGCCTAATCCTGGATGTGA
CGAGCCAGGCAGGAGGCAGAAAAGAATGTGTGTTTTGCAATACATGTTAAGAGACATCTTGGGCTGGGCACGGTGGCTCACACCTGTAATCTCAGCACTT
TGGGAGGCTGAGGAGGGCGGATCATCTGAGGTTGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCCA
GGCGTGATGGCGCATGCCTGTAATCCCAGCTACTCAGGAAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGTGGTGAGTTGAGATCAT
GCCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACAGGGTCTCAAAAACAAAAACAAACAAACAAAAAAAATCTTTTACCACGGTGACCACCATGTGAT
TTCCAAGAACTTCAAATGATCTAAGAAATTTTGTGATTATTACTAGTTTGAAAAATACTTTTTTTTTTTTTGAGACAAAGTCTCACTCTGTTGCCCAGGC
TGAAGTGCAGTGGTGTGATCTCAGCTCACTGCAATCACTACCTCTTGAGTTCAAGCAGTTGTCCTGCCTCAGCCTCTTGAGTACCTGGGATTACAGGCAT
GCGTCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGACCCACCC
ACCTTGGCCTCCCAAAGTTCTGGGATTACAGACGTGAGCCACTGCACCCAGCCTGAAAAATATCTTTGAATGCCATGTGATACTATACTTGTCAGTTTAC
ATGTGTGTCCCACTAAATCATGTACTCTCCTGAGCAGGATCATGCTTTGTCTTCATATTTTCTGTACAAAGCAAAGACTCTGACACAAAGCTAGCCCCCA
GTGCATAGTTGAGAAATCAGTGAATGAATGTGGGAGGCAGGAAAAATGTCCTTTAATTCTTCTGTTAATGCTGTCTTATCCCTGGCCCCAGTCAGTGCTT
AGAACTGTGCTGTTGGTAAATATAATTGGATTCACTATCTTAAGACCTCGCTTTTGCCAGGACATCTTGGGTTTTATTTTCAAGTACTTCTATGAATTTA
CAAGAAAAATCAATCTTCTGTTCAGGTGGAGGACCTTTTTTACAAYATAGCCACGAGGAGAAAAGCTTTAAAAAATCCAAGTGAAGAATATGGGAAAATT
TTGGAAGTTGTTGGCRGGTACAGTCCAAAATCTGGGAGTGGGTCTCTGAGATTTGTCATCAAAGTAATGTGTTCTAGTGCTCATACATTGAACAGTTGCT
GAGCTAGATGGTGAAAAGTAAAACTAGCTTACAGATAGTTTCTGGTCAAGGTTTAGCCACCAATTTTGCAGTTTCTCTCATCTCCCCAGGAAAGAGCAGT
TGGTCTTTAGATCAATGAGAGCTCTTTTATGGCAGACAAAACAAAGTGACTCTAGCCAACTTGAGCTAAAAAGAAATTTAGTGGAAGGCTAGGAGTTACC
ACATGAAGTGTGTGCAGCTGCCCCTTGGAGAGAATAAGAACCAGGGTGCCTCTGGGACTTAACATCATTACTGTACTCCAGTTGTTTTCATTCTTTTCCT
GACTTTGCTCTAGAGTCAGTTTCCTAACAGAGTACATTCGATGATCATGTGCCCATATCTGTGGGGAGAAGATTTCTTGATTGGCAGTCTTACTAAGGGT
GCATATCAAGTAGAATGGAATAGAGGTAGTTTCCTAAAGGAAGATGAGAGGCTGTTACCAGGAGGAGGAGAAGGGATTCAGGACAGATGAAAACAACGTT
ATATCCATGATAGACTTACGCTGCTGGTACAGATGGTACAGGTGGCTTCAGTATAGGCTCTCCGAACCCACATATCATTGATTATGATAGGGATATGTTA
ACTATTTTTCAGTGTATATATGTATATGTGTGTGTGTATATATATGTATATGTATATATATATGTATGTGTATATATGTATATGTATATATTTATATATG
TATATGTATATATTTATATATGTATATGTATATATTTATATATGTATATGTATATATATTTATATATGTATATGTGTGTATATATATATTTATATATATG
TATATGTGTGTATATATATATATTTTTTTTTGAAACGGAATTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCACTGCAACCTCT
GCCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACTTGCCACCATGCCCGGCAATTTTTTTTTTGTTTTTTTTT
AGTAGAGAGGGGGTTTAATCATTTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCTGCCTTGGCCTCCTAAAGTGCTGGGATTACAGGC
GTGAGCCACCATGCCTGGCCATTTTTCAGTATTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTGCMCAGGCTGGAGTA
CAATGGTGTGATCTCGGCTCACCGCAACCTCTACTTCCCAGGTTCAAGCAATTCGCCTGCCTCAGCCTTCTCAAGTAGCTGGGATTACAGGCATATGCCA
CCATGCCCGGCTAATTTTGTGTTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTAGTCTCAAACTCCCGACCTCAGATGATCCTCCCGCCTTGG
CCTCCCAGAGTGCTGGGATTACTGGCATGAGCCAGCGCTCCTGGCCCATTTTTCAGTATTTCTAAAAAAAATCTAAAGTGGGTCAAACATTTCACCTTAA
TAGAATGACAGGTTTGTACATCAAGTTTCTTTGCTTTTTCTTGGAATTTTATACTTTTTTTTTTTTTTTGGAGACAGAGTCTTGCTGTGTTACCCAGGCT
GGAGTGCAGTGGTGCGATCTCAGCTCACCACAACCTCCACCTCCAGGTTGAAGCAATTCTCCTACCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACAT
GCCACCACACCCGGCTAATTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGTCCAGGCTGGTCTCGAACTCCTGACCTCAGGT
GATCCGCCCATCTCGGCCCACCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTTTTTCTTGGAATTTTATCAATCAGTGTCAGAATATTC
ATTACCTCCTAAAAATAAAGGAGTTCTAGTTGGCTGTTTTGATTCTAGGTGTGGTAAAGTGAAATATTGTTACTTAATAAATGCATTTTGCTAGACACAA
TCCTTCGGTTCACGAGCTCTGTAGAGAAAAGAGAAATAACCGCCAACCAAGAAAAGATTGGGAGATACTAGAATAAGACCCAGGGGCAGGAAGAAGCCAG
TGAGAAGGAGGGCATGTTGAGAGCTCTGAGAGAGAATAAAAGCAGGGGTTGTTGGAGCTAGCTTCTCAAGATGTCCTTGAGGCAAACCAGACCTTTGGGA
CACTCTGAAAATAAAACTGAAAGTGAAGAGATTGTGGGCCGAATGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTCGAGGCGGGTGGATCAC
CTGAGATCAGGAGTTCGATACCAGCCTGGCCAACATGGCGAAACGCCATCTCTACTAAAAATACAAAAAAAATTAGCTGGGCCTGGTGGCAGGCGCCTAT
AATCCCAGCTACTCGGGAGGCTGAGGCGGGAGAATCGCTTGAGTCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGC
AACAAGAGCAAAACTCTGTCTCAAAAATAAATAAAAATAAATAAAAAAGAGATAGTGGCGTGATATCCTTGATTCTATCAGCAACCTATAAAAGTAGAGA
GGAGTCTGTGTTTTGATTCAGTCACCTTTAGCATTTTTATTTCCATGAAGTTTCTGCTGGTTTATTTTTCTGTGGGTAAAATATTAATAGGCTGTATGGA
GATATTTTTCTTTATATGTACCTTTGTTTAGATTACTCAACTCCACTAATTTATTTAACTAAAAGGGGGCTCTGACATCTAGTGTGTGTTTTTGGCAACT
CTTTTCTTACTCTTTTGTTTTTCTTTTCCAGGTATTCAGTACACAATGCAGGCATTAGTTTCTCAGTTAAAWAAGTAAGTTCTTGGTTTATGGGGGATGG
TTTTGTTTTATGAAAAGAAAAAAGGGGATTTTTAATAGTTTGCTGGTGGAGATAAGGTTATGATGTTTCAGTCTCAGCCATGAGACAATAAATCCTTGTG
TCTTCTGCTGTTTGTTTATCAGCAAGGASAGACAGTAGCTGATGTTAGGACACTACCCAATGCCTCAACCRTGGACAATATTCGCTCCRTCTTTGGAAAT
GCTGTTAGTYGGTATGTCGATAACCTATATAAAAAAATCTTTTACATTTATTATCTTGGTTTATCATTCCATCACATTATTTTGGAACCTTTCAAGATAT
TATGTGTGTTAAGAGTTTGCTTTAGTCAAATACACAGGCTTGTTTTATGCTTCAGATTTGTTAATGGAGTTCTTATTTCACGTAATCAACACTTTCTAGG
TGTATGTAATCTCCTAGATTCTGTGGCGTGAATCATGTGTTCTTTCAAGGTCTTAGTCTTGAAAATATTTATAGTGTAGTAGAACTATTTTATCCTCCAA
TGCTCCTTCTTTTCCTTGTATTTCCATTATCATCACTTTAGGATTTCACTTATTTATCATTCAACATTTATTAATTGCCTCTCATATTCCAGGCTTTGTG
CTAGAAGTTAGGGATATAAAGACAAATAAGATATTTCCTGCCCTTAAAGACTAGATTCGTGTTGCTAAGTCTTCATTATCAAGAAAAGCATAAGTGGGGA
AAAGTGCTTGCATTATGGATTCCTCATAGTTGCTCCCCTCTGCATGTAAAAATCACCATTTCCATCATAGATTCCTAGCGGTCTCAGGACTTTATAAAGC
CCAAAGTGCCTATGTCATAATATGAGGAAAAATACTGAGACCCTTCCATATATGGGAGGTATATGGATGAGACAGCTCCTGACTTCACTTTTCCCAGAAA
TCTGAAAAGCAGCAGCAGTCATTCCAGAGCCCAGTTTCTACTTTGAAGGGCAGATTATTTATTCTTTGAGCTAACCTGACTGAGGAACAATTAGTTTGCT
TTTAATTTACTATTTTCTTTTTCTTTTCTTTTCTTTTTTGAGACAGAGTCTCACTCTGTTGCCTAGGCTGGAGTGCAGTGGCTCAAACTTGGCTCACTGC
AAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGTCACCACACCCAGCTAATTTTTTGTATTT
TTTAGTAGAGACGGGGTTTCAYCGTGTTAGCCAGGATGATCTCGATCTCCAGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGCCACCGTGCCCAGCCACTATTTTCTTTCTAATTGTTAATGAATTAATTTTTTAAAACTGTGCTCCTAGAGCGAAGGGAGAGCTCTGTTTACAGT
GTAACTTTTCAGAGCTTCTTTAACTAGATTTTAAGATCAGAATTAGTTGTTGTGAAATCTTAGGGACTGTACAAGATTAGAAATCCTCTATAGCAGCATT
TCCCAAAGCAGGCTTCCAGAACACTAGCCTCATGAGGCATTTTGGGAAAAAAGAGTTTGCTGGTTCAGTGTGTATGGGCAGTGCCACAAGCCGTACCCTC
CGTTGAAGACACTCATTYCACACATTACTGCATAAAAAGCTTCCACCAGCCATTCGGCAAACTTATTGAGTGTCTGCTATTTCCTGGGTATTGTGCTATA
TGGTAGGGTTATAGTAGTGAACAAAGAAGAAATGATGCCTGCTCTCAGCTGACTTTGCAGTTGGAAAGACACATGAAATAATTACGCCATTCATTAGCAG
ATTGTGCTAGATGCCTCACTGGAAAAATAAAGGACATGATGGAAAACTCTGTAGGGTCAGAGAAAGGGATCATTAGAGAAGGTTCTTTGAAGAAATATTT
TTTGAAATATGAAGGATAAATAGGAATTAACTAGGTACCAATAGGTTAGGAGTAGAGCTTTCCAGACAGAGGGACTAGTTCTTGGGAAGGTCTCCAGACA
GAAATAAGTGTGGCTTGTCTGAGGACCTCTTATTCGCCTATTAACCTTCCCTCCCCAGTAAACACTCCTGGGAACAACACACATTGTAGAACCACGTTGT
GGTGCTGTTCAGTATAGCAAGTAATTCAGCAGAGATAAGTTCTTGGAATCTCATCTTTGGGATTTAGTTACTAAGATACATTCAAGTTTGAGCAAAATAA
GGTCTCAGAGCTTGGATTCATTGTTCTGTTCCAGCAATTAGAGCAGTACCTGGCACATAGCACAAGTGCTTGAAAACACTGACTGAGTAGGGTAGGTGGG
TGAGTGGGTGGGTGGGTGGGTGGGTGGATGGATGGATGGGAGGATGGGTGGGTGAATGGGTGAACAGACAAATGGATGGATGAATGGACAGGCACAGGAG
GACCTCAAATGGACCAAGTCTTCGGGGCCCTCATTTCACAAAGTTAGTTTATGGGAAGGAACCTTGTGTTTTTAAATTCTGATTCTTTTGTAATGTTTGA
GTTTTGAGTATTTTCAAAAGCTTCAGAATCTCTTTTCTAATAGAGAACTGATAGAAATTGGATGTGAGGATAAAACCCTAGCCTTCAAAATGAATGRTTA
CATAYCCAATGCAAACTACTCAGTGAAGAAGTGCATCTTCTTACTCTTCATCAACYGTAAGTTAAAAAGAACCACATGGGAAATCCACTCACAGGAAACA
CCCACAGGGAATTTTATGGGACCATGGAAAAATTTCTGATCCATAGGTTTGATTAAACATGGAGAAACCTCATGGCAAAGTTTGGTTTTATTGGGAAGCA
TGTATAATTTTTGTCCTAAGTCTGTGCTCAGCCCTCCCACATGTGCTCATTGCTGGTTGACTGTTGGAGTCTGGTTCTTACCTCTAAGAGGAAGCCCAGG
AGAGGGCATAAAGCCAGCACACTGTCCTCACCTGATGGTGTCAGAGTCCTTACGAGTAAGCCCTAGCCAGAACATTGCTGGAAGAGATCAAGGGCCACTG
TTTGAAATTGCACAGCAGGATACGGAAAAGGGGTACCTTAGGTATAGGCATTGTCATTAAAGAAATTGCTAAGATACTTGAGATTTTCCTGTTTAAGGAA
TGAGCTTTATGATACAAAGAGCAGTTCTAAAAATTAGGGAGGGAATTAACTAAATTAATTAGGATATTTCTCAAATTCCTTTACAGTTTTTGTCTCTCTG
CTGATATAGTGTTTACATGATTGTTATTTACTAAACAAATGCTATTTTGTATTGTGCTCCTTATAACTTAATTGTTTATTACAAGGTTTTGATGGTGACC
TACCAACAACAAGTAATCCCAAACACAGTCTGAATTTTTTGTTTTCCATCCAGAAATAAGATGAATCTTTCCATTTCCGTGTTTTCAGTTTTCATCATTT
TTATCCTATAGGTTACTTATCTTTATTTTAAAGCATTTCATAATAATTTTATAGTTTTTGTTTTGTTTGCTTGTTTGCTGTTGGAAATGGAATATTCCCT
CCTTCCATTTAGACTGCTAACCAGCTGTAAATGTTTCAAAATATGCATGTTTTACAGCAGTTGTTCAAAGCAATACAGGAACAGTAAGGACAGAGCCAGT
CATTTTACAAMCACATTCTGTTAAACTGATGTCTATTAGCAGGGTTTTTCCTATTTTATTAGGAAGGACTTACACCTRATATATAACAAAGCTTGTTTTA
ATCAAGGCTCAGAAAATGTTTTTCATTAGTTTTTTTCCTAACCATGAAGAATAACTGCTTTRTAACACACATGCTGGCTATAAAGCAGACAAAAAATTCA
CTGTAGGTGCTGCCTGACTGGCCTCTGTCCGTGTTTCTGTTGGGGCTGCTTACCACAGCCTCTGCATTATCATTAGCTAGTGTGTTCACAATACCAAGTT
CCCAGTAGCAAAGAAAGGTCAAGCTCTTACGCATGCCATTCATTTATCTACACTGTGCAGGCGCACTCAGGTGGCAGGGACAAAGACCACTCCTTTGGCG
CATCTSAAGTTCAGAATTCTCAGTAGAGGGGCTCCAGCTGTCCTTTTGTCAGGTGCCCATGCCTGCTCCAGGCCTGTGTGGTCAGGACACGTGTTACAGA
GTACAGTGACATTAATGATGGGGCCATGGATATGGTCAGCACTCAGAGGATGTTAGTCTCTTCATTGATAAAGTCACAACCACTTTTCCTGTTGGAAATA
AAAAGATTTGACGTATCCTTGTCTACAGCAACACAGGACAACAGATAATCAGCAGGTCATCTAAATCTGTTCAGAGAGAAAGGAGAGCTGTTTCCTGAAA
ATACATCTTCCCCTGATTTTAGTCTTATTTTTTTCTGCCTTTATTGCTTTCTACCCTCTTCAAACCAGCCTCATTTCCTAAATTACCTTGAATATGCATT
GACACTTGTACTGCCTGAAATTCTGGAAAACTCAGTATGGCTACTCCACCGTCAGAACTTCCTGAGCAAAGTTAGTTGCTCTCTCGGCTCACTGTTTTGT
TTTGTTTTGTTTTCCTGCCTCAGGTTTATTTGTACAAATAGCACAGGAGGACCAGCCCCATGCAGATGGTAGCCCAGGGGCGGGGGTAGGGGGTCACACC
AGTCCTTCTGTCCTCATGTTGGCAGAGATATMTACTCTGAAGCCTTTGTAGGGGCCTGGGCACCTTTGGGAGCCTGAGCTGGAACTGAAGGTGGAGCTGC
AGCCTGGGCCTTGGTTTGATCCTTGGCCTTGGCCTTTGGCCGGCACAGCCTGAGCCCCTTGGCAATACGGGCACGAGCACGCTTCCCAAGCTTGGGATGG
GCAATGTAGGCAAGTCGATCGAGCTTGCGGCTGACACCCTTTGGGATCTTGGGCTTAACCTCCTTGGGCTTTACGAGGGCCTTGATAGCCTCGGCACGTG
CACTCATGGCCTTGGCATTGTTGGCCTGCATCTTCTTTAGGCCCTTCTTGTTGTGCTTCTTGGCAAAGTGCATGTTCCTCAGGAACTTGGGGTCCACCCC
CTTAAGAGATTCGTATCTTTGTGATCGGGGTTTCTTGATACCATTTCTGTGCCATTTTCGGGACTGGTTGTGTGTGGTGTGGTTCTTGGACTTCGCCATG
TCTACACCTTAAGCYGCGGCTCCCGAAGCRCCTAGAACCGGAAGAGTTGGCTCACTATTTAGCACACACACACGTCTATAATAGTGCTGGCCACTTGGGG
TTGGAATTAGTTTATTTATCAGCATGTTGTCTCCCAGCACTTGGTGTGTGTGATATGCAGTATGTATTTGCAGAATGAAAAGTCTGAGGGCTGACATCAT
ATTTCCCACTGTGCCCAGAAAGAGCACAGTTAGTCCACATGAGCTAATGGGGGCAAAGGGAAGTGAGGAGGGAGAATGTACTGCCTTATCATGTTKTCTA
TTACTTGGCTGAAGTAAAACAGTCCCAAGCCGATAGTAAGATAGTGGGCTGGAAAGTGGCGACAGGTAAAGGTGCACCTTTCTTCCTGGGGATGTGATGT
GCATATCACTACAGAAATGTCTTTCCTGAGGTGATTTCATGACTTTGTGTGAATGTACACCTGTGACCTCACCCCTCAGGACAGTTTTGAACTGGTTGCT
TTCTTTTTATTGTTTAGATYRTCTGGTAGRATSAACTTCCTTGAGAAAAGCCATAGAAACAGTGTATGCAGCCTATTTGCCCAAAAACACACACCCATTC
CTGTACCTCASGTAATGTAGCACCAAACTCCTCAACCAAGACTCACAAGGAACAGATGTTCTATCAGGCTCTCCTCTTTGAAAGAGATGAGCATGCTAAT
AGTACAATCAGAGTGAATCCCATACACCACTGGCAAAAGGATGTTCTGTCCCTTCTTACAGGTACAAGGCACAGTTTTCCTTCATTTATTCACTAATTTA
GCAGAACCTCACTAAGAGCCTCCTATATGCCAGGCTCTGCGTTAGCAATAAAAGGAATGCCATGCCTCACCCCATCAGGAGGTGCTGATAGCTTGTAGGC
GGAGTGGAAACAGATGTGCTCTAGAGGCTCTAAATATTACTTCTGCTGGGGTCAGTTGGGAAGCCACAACAGCTACTGTTCATCTTCCATAAAAGACAAT
CAGCCGGGCACAGTGGCTCACACCTGTAAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACAAGGTCAGGTGTTTGAGACCAGCCTGGCCAACGT
GGCGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCT
TGAACCTAGGAGGTGGAGGTTGCAGTGAGCTGAGACTGTACCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAG
ACTGGGTTCTGTTCTGTGGAGGTTCTTGTCTTAACATATCCACTGTTGATTGCCCAGATGTTGATGTAATTAATTTAGCAGTCGTAAATAGTTTAGCACT
TGCATTAAATAGACCAAACCCCATAGTAGGTATTTGAAATACAGAATAAATGTGAGGTACCCCTGCTCTAAAGGAGTTTATAGTCCAGAGCTGACTTATG
GAGGATTTCTTTCTATTATTTCTGGGTCTGCTACTAATTTGTCTATTTCATATCCTAATTATCCTTGTTTTCATTTTGATTGAAAGGGGGAGAGCATAGA
AATTGTGGTAAAAGGTAGTTTTATTTTTTATTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCATCTCATTGCAACCTC
CACCTCCCGCGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTGCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAG
AGATGGATTTTACCATGTTGGCCAGTCTGGTCTTGAACTCCCGACCTCAGGTGATCCTCTCACTTTGGCCTCCCAAAGTGTTAGGATTACAGGCCTCAGC
CACTGCACCCAGCCTAAAGTTAGTTTTAGATTAAGTGTTTTCATGTTTTCCCTTGCAAAGTAATAAACTGGTCAAGTTATCACCTTGTTCCATCTCCATA
TTAATCAGGGTCCAAACAGGAGATAGAAACCATGCAACAATTTGAGTAGTTGAATAAAGAATTATAAACAGGAGATTAGAGTAATAGGGGATTAGATAGT
AAGAGGTGAAGAGATAGGAACAGCAGATATAAAGAACAACCATTTCCTCCTATGGCTGAGATACCATCCCCTCACCACACTCCCCCACCTACTCACTGAG
ATGCAGACCTTATTGAAGAGAATGTAACTGGCTTGCTGCGAGGTAAAGTCAATGAGGCGCTCCCCAGTACCACTCTGAGGGGATGCTGGGGAAAACTGCC
CATGAGAAGAGGGCACATGCTGCTGGCCACTTGTGCTAAAGAACTTGAAGTCTGATAGGAGTGCACCCTAACCTGGCATAGAAACCCTTTCTTCCTGCTG
AGTCCCTCTAGCACCTTATACTGGCAAAGCTTTACATTGCAAACCTCCATTATCACAGAGCAAGCAATGAAAGATGGACTCAGAGCTGAGGCGATAAATT
GATAGCTAGCATAGCCTCTAAACTGACTTTTATGACTACATTTTATGGATAGAAAGTGTTCTTATATATATTGTTTCTTTACATAATAGGGGACTTATTC
ATGGCTGCAGATGAGAAAACAGATCCTAAGAAGTTAAGTGACTTGCCCAAGGTCACACAAAGAATTCCACTAGTTCTAAAATGACAGTAATTACAGTTAA
CATACATTGTATGTGGCAGATACATATAAAGCACATGGCATTAATTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCAAGCTGGAGTGCAGTGGCACG
ATCTCGGCTTACTGCAACCTCTGACTCCCTGGTTGAAGGGATTCTCCTCCCTCAGCCTCCCGAGTACCTGGGATTACAGGCATGCGCCACCACGCCCAGC
TAATTTTTGTATTTTTAGTAGAGACRTGGTTTCATCATGTTGGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCYGCCTCGGCCTCCCCAAATG
CTGGGATTACAGGCGTGAGCCACCACGCCCGGCCACTTGGCATGAATTTAATTCCCGCCATAAACCTGTGAGATAGGTAATTCTGTTATATCCACTTTAC
AAATGAAGAGACTGAGGCAAAGAAAGATGATGTAACTTACGCAAAGCTACACAGCTCTTAAGTAGCAGTGCCAATATTTGAACACACTCAGACTCGATCC
TGAGGTTTTGACCACTGTGTCRTCTGGCCTCAAATCTTCTGGCCACCACATACACCATATGTGGGCTTTTTCTCCCCCTCCCACTATCTAAGGTAATTGT
TCTCTCTTATTTTCCTGACAGTTTAKAAATCAGTCCCYAGAATGTGGATGTTAATGTGCACCCCACAAAGCATGAAGTTCACTTCCTGCACKAGGAGAKC
ATCCTGGAGCGGGYGCAGCAGCMCATCGAGAGCAAGCTCCTGGGCTCCAATTCCTCCAGGATGTACTTCACCCAGGTCAGGGCGCTTCTCATCCAGCTAC
TTCTCTGGGGCCTTTGAAATGTGCCCGGCCAGACGTGAGAGCCCAGATTTTTGCCTGTTAYTTAGGAACTTTCTTTGCAAGTATTACCTGGATAGTTTTA
ACATTTTCTTCTTTGAACCTAGTTATAAAGGTATTGTGCTGTTGTTCCTAGGCTTAGAGTCATAAGGCCTGAGCTCACTTCCTCACTTTGCCTCCATCTG
GAACCTTAGACCAACTTCCTAGGAAAACGAGCTGTCTGAAAACAGAATAGGGTGCCTCTTCAATGTGCTCTTCACTGGAGATGTTCAGGAGGAGGCTACT
CCCACCTACACAGGGTGCAGTGGAGGGTCTGGGCCCCAGGGAGGCAGCAGGAAGAGTGGAAAGAGCGGAGGCTCTACTGTTGGACAGACCTGGGTTACCA
GCCGTGTGACTAGCCTTCCCTGGCCTCCATATCCCCCTCAGTAATGAAGGAATGTGTCATCCCCAAATCCAGGGACAGTTACAAGCAGTCAGTGAACAGA
AAGTGTCTGGTACAGGTTCTAAGTGCTTATTATTCTAAGTCACTTCACTTACCTGAGTTCTCAGTTTTCCTATCTATAAGATAAGCAGGTTGGATAAAAT
GTTCTCCAATATACTCCTGGTCCTGAGATGATGTGATTGTGGGCAGCCCTTTAATCATGGTGAAGATGTTCATCATAAGCACACTGAAACTACAAAATAG
GAATATAAATATTTTCTCCATTAAATTATGCTGGATCCTAGAAGCAAAAACTGGAACTGTGAAACCCTACTTCACAGAAAACTTAAAATTCCCAAGCAGA
TGAATGCTTCTCGGAAGGACACTGACAGTTACCTACCTGGAAAGAATCTAGATGGAGGTGGCATGGGCACTAAGYGGTGAGATTAAACCCAGTTAGGGCA
GCCCCACCAGCCTTGGAACCCACACATCTGGAGATTGTTGATGCAGAGAGAAAGGTTCCTACTGGTGAGACCTGAAAGGKATATGTGGCAGGTGGGAGGA
AGAAGTTCTGTCTGGAAACCAACCCTTGTTCCTCCGTTATTGATTGACTCCTGGTACCAACATGAGCCCTAGGTCTTATAGAGGCCATAAGTCCCTATGC
CTTATAGTGCCCATGGATGAGATGAGGCCACACATGCCCCCAGTGGGTTAACATGTCTAGCGTGGGTAAGGCTCTTGGAGCACTATGATACACAGGAAAT
GCCCAGTAACTCTTAGTTGGTTTGATATCTGTTCCCATTGCTCACTTAAGCTCAGTGCCCCTTTACTGATCCTTTTATTCTGCCTCCCTCTGCACATGTG
CATTGAGACTCCTATCTGAGACACACACTGTGTTGGGTGCCCAGGGATGCAGCATAGATGTTGCTGCCTTCCACAGAAGCGCTCATGGTCTGCTAGAGAA
TATATCCCATGGGAGAGAAAAACAGACTCGGGAGAATATAGCAGGGGCCCTTGTCCTGGACTTTGGCAGTTAGGAAAGGGAGGGAAGAGACATGGAGGCT
GGGACCCAAAGGCTAAATAGGAATTTGCTGGGCCAAAGGGGAGGGGGAATGAAAAGAGTGTTTCTGGCAGAGGAAATGGCAAGGATAAAGGCCTGGAGGC
GCAAGAGAATATGTGTTTGAGGATCTGAAAGTTGAGTGCAGTGGGTCCAGTGTTCTCTACCCTGGCTGCCATTAGAATTACCTGGGAAACTTTTAGAAAA
TTCCAGTGTCTGGGCCCTCCCTAAAACAATAAATCATTCTTGGGTGGTGGGGTCTGGGCATCAGGATTGTTTAAAACCCTCCCCAGGTACTGTCATGTGC
AGCTGGGGTTAAGCTGTGCTGGGGTCTGAGTATGGATCTGTTAGGGCAAGTGGCGGTGATGGAGTTGAGGCTGCAGAATTCAGGCCAAATAGAGAGGTTT
TCATCAGGATATTAAAGAGTTTAGATTTCAATTTGGTGGGAATGGATGGGATCTTATTTGCATTTTATGAAGAGCTCCCTGGTTGCAATATCAGAATGGA
TTGGAGAGGAGCAAGATGGAAGCCTACAGTGATTTGGGAGAAGTGGTGAGGGACTTGAGACACAGGAAGTAGCCCCATTCACTAATAGTTGAGTATGTAG
ATTTGCTAGGACCTGGAAATGGTTTGGCTGGTGGGGAGTGGGAAGAAAGGCCCAAAGTGTGAAATGAAGATGGAGAGCACATTGCCTAGCCCAGAGTGAT
TGCCATTTGCTCTGTCCCAGTTGAGGTCCAAGGGGTTGGCCAGAGATCATGGAGTCTGTGGCTCCATGGGGAGAAGAACCTCTCAGCATGCCTCCTTGTC
TTATCCTGGGTTAGTCAGATTCATTTTGTTAGATTACATTTTTTTTCCAGTGGAACTCTGCTTAAGTCCTGACCAGTATGTTTTCAGAAGGATCAGAGGG
CCTGCCCTTGTCCATTGGTGCATGACAYCAGCTTGGTGGGTTCCTTGCTGCTCCCTGTTTTCATAGGGTTATCAGAATACCTTCTCTCCCTGCCACCAGC
AGGTCACACTGGCTCCTGACTTTTTGGCCCATGGAACCACCATCTTTCTGCTTCTTAGATTGTGCCTTGTACTCCACTGATCATGGCCAGTACATCAGAA
GCCCTGGTTTGCAGTGAATGCATTTGATATGGAAATCAGGAACCCTGGGGATACCACTCATCATATTTGGTTGCTGTGTTTTTCCTCCAATCTTTCACCA
TAACAACAATCAACTCAAAAGATTTCTATAACCACTTGTGTGGGGGTTTCTCCCCACACACTAAACAAGCAGTCAGTTCCAGAGTGGACAGCAGCTGGTC
TCCTCCAATTTAATTCCAACACTGTCTACTTGGAGATAGCATTAGATCCCACAGGTTGAGGGTGCAGTCCCMTAGACTGCCCCCAGTCTCCTGCTTCAGA
CACCAGTCACAAGTCCAGGACTCTAGAAGTTCTGACCAGTTTCAAGTTGGGGTTCCCACAACCCCCCACTTTATTTTTGATTAATTTGCTGGAGTGGCTC
ATAGAACTCAGGGAAACACTTAGTTTTCTGGACTTATTACAAAGATTTAAAAAGATACCAATAAATAGCCAAATAAAGAGATATACAGGGCTAGATCTGG
AAGGGTCTGGAGCGCAGGAGCTTCTGTCCCCATCTACTTGGCTCCCAGCAGATGGATGAGTTCTTATTCATTTTCTTGTCAGCTTCGACATGTTCAGCTC
TCTGGAAGCCCGCAAACTCTTGTCTTCTTGGGCCTTTTATGGAGACGTCGTTAGGCAGGCATGATTGAAACATGGACAACTGTGTCGAAATATGATTGGA
CATAAAGGGGTCTAAACTCAGTGAGGCCTGTTTGTTCAGATTCTTCTTGGCCTCTCTGTGGCCATTCTTTCCTCCAGGATATGGGGCAGGACCCCTATGG
AATGAGGGTCTTATGACCCACAATCAAATTAGAGTCCTGCCTTGGGCAAGTGAAAGGAAAGCAGGAGAAGGTAAGAGAAATTCTGTTGCCTAAGACCTTC
TGAGGCCTAAAGCACCCCAACATTATAACAGAAGACGATAACAGGACTATGGGAGTTATGAGCTGGGAACCTTGGACAAAAATATATACATATTAAATAA
ATATTAAGTGTATATATATACTTACRTATATTAAGTGTATGTGTGTGTGTGTATATATATATTTTTTTAATTTACTGGTTGGTTTTGGGAAGCAGAAATT
ACCATAACTACTCTTAAAAATCTTTTAAGTCTCTTTGAAGTTAGAAAAGTCACTGTACCTTTTTGTTTCCATTGGCCCTGTACTTCTTATTATACCCCAG
CAGGAGGAGCATAATGTGTTGTTATATCATTCTGGTGATAAGATTCATAAGTGGGTTCAGCTGGTGACAGCCTGATTCCCTCATTGTAAACTTATCCATC
AACATGTAGCTTAATCGTTTCACCTTTTGTGATGACCATTACCTGAATCAGTTATTTCATTAGATTGCAAGATTATGCTTTTCTGATTTTATCATTTCTT
CTGTATTGACTGTAATTCTTTGGTATAGAAGAACTTTCCCTTGTTAATAGCTATTTGGTTGTCCTGAAGTACAGTTCTTACTAGAAAGTAAGACCAAATG
CTGAATTATATCCCTCTAGCTATCAATTTTCGAAGGAATGAATGGTGTCCTAGTAATTTCCAGTGGTGTTTAATTACGTTTTCCCTTCTCTTTCTCCTTC
TCTTATTCCCTCCCTCTCCATCTCCTCCCTCCTCACTTTCAGTTTTTTGCTCTTTCAGTATTTTGTCATAGCTGTTAACAGAGCAACATATTTTAATCAA
TTGTAGTCATTTTTCTTTTTGGTGCTCAAATTATCCCGTCTTAGTCCCATGGAAGCAAGCCCTTGGAGCTAGGGCCCTCTACCTTTTGATGGATTTCCAT
TTGTCTTGATAATTTCCTTGTTTCTGACAAGACAAGATGTTGCAGGCACATTTTATACTTTCCCAGCCCAAACCCTGGAATAGGCCTTTTCTCCGAGGAG
CTCTAGTTCATTTTAGTGGGAAATGGTATTTAGAGACTATAATCTGGGATCTGGGAGTCCTCATTGCTACTGAGTAGTCATTACTTTTAGGCTTTTCCAG
TGGTCAGAGCTAGGAAATATGTATATTTAAAAATGGACAGTTGAATGGTTGTTGCCAGGAGCTGGGAGGAAGGGGAAGTGAGAAATTGTTTAATGGGCAC
AGAGTTTCAGTTTGGGGAAGATGAAAAAGTTCTAGAGATAGCTGGTGGTGATGGTTGCGCAACAATGTAAATGCCACTGAGCTCTCATTTAAAAATGGTT
AAAATGGTAAATTTTATATATATTTTACCACAATAAAAAAAAGTCTTCTTCTGGGAGCACCCCCCCAAGACAAAAATATGAAAATTTTACACTGATACTT
CCATTTCAAGATAATTTTAAGATTATAAGGATTTTGCTTAATTCTTGAATTTTATACCTGTAAACCTTTTATACTTCAAATTTCGGGCAGAATTGCTTCT
ATAACAATGATAATTATACCTCATACTAGCTTCTTTCTTAGTACTGCTCCATTTGGGGACCTGTATATCTATACTTCTTATTCTGAGTCTCTCCACTATA
TATATATATATATATATATATTTTTTTTTTTTTTTTTTTTTAATACAGACTTTGCTACCAGGACTTGCTGGCCCCTCTGGGGAGATGGTTAAATCCACAA
CAAGTCTGACCTCGTCTTCTACTTCTGGAAGTAGTGATAAGGTCTATGCCCACCAGATGGWTYSTACAGATTCCCGGGAACAGAAGCTTGATGCATTTCT
GCAGCCTCTGAGCAAACCCCTGTCCARTCAGCCCCAGGCCATTGTCACAGAGGATAAGACAGATATTTCTAGTGGCAGGGCTAGGYAGCAAGATGAGGAG
ATGCTTGAACTCCCAGCCCCTGCTGAAGTGRCTGCCAAAAATCAGAGCTTGGAGGGGGATACAACAAAGGGGACTTCAGAAATGTCAGAGAAGAGAGGAC
CTACTTCCAGCAACCCCAGGTATGGCCTTTTGGGAAAAGTACAGCCTACCTCCTTTATTCTGTAATAAAACTGCCTTCTAACTTTGGCTTTTCATGAATC
ACTTGCATCTTCTCTCTGCCTGACTTGCCCTCTGGAATGGTGCTGGAATGGTCCTGTGGCCTTGTCCACTGTCTGCCTTTGACCATAACTTGAAAGTCAC
CCACCATAGTGTCCTTTGAAATAACTTAAATGTCCACAGTTCCAAGCATGAGTTAAAAACACTTCAGAATGTAGAGTAGTTGTTCAATTGAATAAACACA
CACACCAGAAAAAAAAGCAAGTTTATCTTTTATTTTTAGTAAAGAATTTTGATAGAGCCTCAACACCAGAAATGGCTAGAGAGAGAAGCCTAACATATCT
GGAGGATTATTTTTCATCCTACTTAAAGCTGCTTTCACTTTTTTCAGGAAAAAACACACGTTCTGAATCTAATTTATAAAACTCCCTGGCCGGGTGCTGT
GGCTCACACCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAAATCAAGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCAT
CTCTACTAAAAATACAAAATTAGCCAGACGTGGTGGCGCATGCCTGTAATCCCCGCTACTCGGGAGGCTGAGACAGGAGAATGACTTGAACCCGGGAGGC
GGAGGTTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAAAACAAAYGAACAAACAAAAACCCCAAAAA
TCCCTGAAGTACGTGAGCTAGTGGTGAAAGAAAGCTGGAGAAAAGGAGCAGGAATAATAATAATAATAATAATAATAATAAAGATTGTCATTTAATTTTG
AGTACTTCCAGTGTACACTTTGCAGGTACTCTAAGACATTACCTCACTGAAATCTCTAAGGTAGATATTCTTTATTTAAAGTGTACTTGTATGAAACCTG
GAGCTCAAGGTGAAGGAATTTGCCCAAGGCTGCACTTGCACTATCGTGGCACTAATTAGCCGTGTGAACTGGGACACGTTACTTCAGTTTGCTCATTTCT
GAGTCAGCCTAGCAAGATGACTTCTAAGAATTTTTTCCAGCCGGGTACATTGGCCTGTAATCCCAGCACTTCGAGAGGCCAAGGTGGAAGGGTCACTTGA
GTCTAGGAGTTACACACAACACACACACACACACACACACACACACTAGCCAGGCATGGTGGCAAATGCCTGTAGTCTCAGCTACTCCGGAGGCTCAGGT
GGAAGGATCACTTGAGCCCAGGAGGTTGGGGCTGCAGTGAGCCATGATCACGCCACTGCACTCCAGCCTGGCTGACAGAGTGAGATCCTCTGTCTCAAAA
AAAGAAAAAAAAAAAGATTTTTTTCCAGGGAATAATAAAGGAAGCTAATATTTATGGAGCATCTACGGTGTGCCAAATACTTTGCATACGTTATCTCATT
TAATGCTCTTATCCCTGCAGGGAAAGTATTAACATTTGTTTATCACTTGCAGAACTAAGTGATATTTACCACAGAGTAGACAAATATTTTCAAGCCCAAA
ATCAAGTGGTATCACTTTTCTGCTGAGAATGTTTCAGTGGTTTCCTTTGCTCTTGGGATAAAACTTAAATCCCTCACCCTACCCTTGCTCCAACCCTCCA
CTTTCCTTCTCCCATGTGGTGATTTGGCCATACAGCTCTTGTGGCTGATCTGAACTGACTGAGCTTTTTACCCTTTTGCTCTTGCTGTTCTTACAGCCTG
GGAACCCCCTGGTTACCTCTTGGCTTGGTGTGGTGGCTTACATCTGTAATCCCAGCACTCTGGGAGGCCAAGGCGGACGGATCACCTGAGGTTGGGAGTA
TGAGACCAGCAAGTCACCTCTTGCCAGTGGCCTTTGTCCATTGAGTCTGAAGTTCTTTCTCCTCTCATTTCCCCATCATTCTATTATGCTACCTTGTTTT
ATTTTCTTCATTGTGTTTATTGATACTTAAAATGATCTCTTTTCTGTTGCTGTTTGACTCTCCCACTAGAAAGTAAGCATTGTAGATCGGGCACTGTGGC
TCACACCTGTAATCCCAGCACTTTGTGGGGCAGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACACGGTGAAACCCCATCTC
TACTAAAAATACAAAAAATAGCTGGGTATGGTGGCTCGTACCTGTAATCCCAGCTACTCAGGAGGCTGAGACATGAGACTCACTTGAACCTGGGAGGCAG
AGGCTGCAGTGAGCTGAGATCACACCACAGCACTCCAGCCTGGAAGACATAGTGAGACTCTCTCTCAAAAAAAAAAAAAAAAAAAAAGGAAGKAAGCATT
GTGAGGGCAGGTACCTTCTCTGTTTTGTTCATTGCTGGATGTAGTTAGTATACAGCAGTATCTGATGGATGGATAGATGGAGGAATGAATGAATGAGACT
TCACAAATTCAGCTCACTTGCTCAAGGCCCTGCAGCTCTACGGGATGAAGCTATACTCCAGAGTCCTGCTACATTGGCTGTGTGGCCAGCTGCTGGGATC
TGAGGGTTGTCAGATAAGCAGTCTACYAGAGAACAGACTGATCTTGTTGGCCTTCTGCCAGCACAGGGGTTCATTCACAGCTCTGTAGAACCAGCACAGA
GAAGTTGCYTGCTCCTCCAAAATGCAACCCACAAAATTTGGYTAAGTTTAAAAACAAGAATAATAATGATCTGCACTTCCTTTTCTTCATTGCAGAAAGA
GACATCRGGAAGATTCTGATGTGGAAATGGTGGAAGATGAWTCCYGAAAGGAAATGACTRCAGCTTGTACCCCCCGGAGAAGGATCATTAACCTCACTAG
TGYTTTGAGTCTCCAGGAAGAAATTAATGAGCAGGGACATGAGGGTACGTAAACGCTGTGGCCTGCCTGGGATGCATAGGGCCTCAACTGCCAAGGTTTT
GGAAATGGAGAAAGCAGTCATGTTGTCAGAGTGGCCACTACAGTTTTGCTGGGCAAGCTCCTCTTCCTTTACTAACCCACAATAGCATCAGCTTAAAGAC
AATTTTTGATTGGGAGAAAAGGGAGAAAAATAATCTCTGTTTATTTTAATTAGCATTAATTGGTATTCTTGTTAAACCATAGGAGTCAGAGTAAATCAGC
CATTTCACCAATTTTCAGTTTGTTTCTGTCTTAGCTAACAGCAGTGTAATGGTCAGCAAAATTCTTATCTTGTGTACTGAATGGCATGTCCTGTTGCTGA
AAGTGCACAGGCTTGGGAGGTAGCCATGAGCTCAAATCCTGGCACTACCACCTCTCTTGTGTGACCTTAGACTCCTGACCTTTCTATGCCTCAGTTCTTT
CTTACCTATAAAATGAAATTAATTTTACCCTTAAAGATCATCGTGCTGATTAGAGATAAAATATAAATAATAACACTTGTTACAGAGCAAGGAGTTGACA
CTTTTATATTCTGAAGACAAAGTGGTAAATCATTATCATCTATGTCAGAAATAGCTTTTGAGAATACCTGAGTATAGAACTATCTTGATCCCTGTTACTT
CAAAACTAAAATAATGGTTTTAGGAATTAAAAGGTGAGGCTAGTCACCTCCAAGGGATGAACTGACTCAGGGATTGAGGTATATAACAGTGAACTGGTCC
AAACAACAGTCCTGACCCCACTTTATGAGTGAGACTATGAGTAATGGTCTAAGTGTAGACATCATTGTCCAGGGCTCCAGTAGGCAGCTCTGTACTTGAG
AATTTAGCAGTGACCCTTCTATTTTTCATCTATTATACCTTTTTTTTTTTTTTTTTTTGACACAGGGTCTCACTTTGTCACCCAGCTGGAGTGTGGTGGT
GCAATCATGGCCCACTGCAGCCTCAACCTCCCTGGGCTTAGGTGATCCTCCCACCTCAGCTTCCTGAGTAGCTGTAATTACAGGCATGTGCCATCATGCC
CAGCTAATTTTTCTTTTCTTAGAGGTGGGGTTTTGCCATGTTTCCCAGGCTGGTCTTGAACTCCTAGGCTCTCACCTCTGTCTTCCAAAGTGCTGGGATT
ACAGGTGTGAGCCACCACACCTGGCCTATTACACATTTCTTAATTAAAGTAGTCAAATTTGAAAACTGTTACAAAGTGTATCTTAAAATACGACGATCTG
GTTTAATTTTTAAAAGATATGAGTAGCCAAGGAGCAATTCTGTGCCTTTCCCACTAGTCCCTAACCTTTTAAAGCAGCTGCTTCTTGGCTGGGCTCAGTG
GTTCACCCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCATGAGTCGAGATCATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAA
TAGAAAAAAATAGCTGGGCGGGGTGGCGGATGCCTATAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACACGGGAGGCAGAGGTTGCA
GTGAGTCGAGATTGTGGCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAGGAAAAAAAAAAAAAAAACCCATCTGCTTTTGATTCAG
TGGCTTCTTTAATTTTGTCGGTCTCAGTCACCATTTGTCTAAGCAAATTCAGGCAGGCTTCACCTTGCCTTTCTACATTTGTTCCCTTTTCTTAGCATTT
TGGGCCTTTGTTTACACGTGGGAAAAGACCCACAGGTCGTCTCTCCCTTTGGGCAGGATACAGGCTTCCTGTGACTGAGGTTTTGCTAGCTGTAGAAGTG
GCTGCCAATTGGCTTCTGGTTTTTATTTCCATGATTTGCTCCAGTGGCTCTTCCCTTCCATCATTGTTAGCTTTCAAGCTAGGAACTTTTAAAATGCTTT
TAAATAAAAGTGAGCTGTTACTTGATGCATTTAGCAGTCTTCCTCACAGTGGTTTTGATAGACAGACTCCCTCAGTTTGGAATTTATGAGTTTTCTTTAA
GGGTTTGTCTCCCTCATGTATAGCAGGCTGTTGAAAGTTACAATGTCAATAACTTTCTGAATAGTATCAAACTGTTTTCAGTGCAGTGTATTAACAAAAC
TAACCTGCCTCAAGTTTGGTCAGCTTTGGAGTCTTACTGAGGCTAAAMTGATAAATCTAAATGATTTAAAATTGTGTATTCCTACACAGTATCTCACTTA
ATTATGTAATAGTCTTGTGAGTGAGRCAGAGCAGATGCCGTTTTCTCTATTTTAAAGATGAGGAAAATGGAATGGAAAATGGAAAGGACAGACTAATTGC
AACATCCTCGCAATCAAAAACAGGCCCAGGTTCATGCCTTGTTGGCAGTGGGTTGCTACTGGCTGTGGCCTTCATGCAGGAAGGCTAGATGCATAACCAG
GTCAACAGCCCGTGCAGGACAAGCACGCCATGTAATTCTGATTCCATCGACTGAGGCTGGTGTTTTCAAACGTGCTGGTGTAGGGTCTTACAGACAGAGT
CATCTGTGCTATGGGGAATGGAATGTGCTCTTGCTTTGGAGCCAGAACTCCTCTGAAGCTCCCACCACCTACACCATTCAGAGGCCAGACAGAAATTTGT
TCACCATTTTGGGCATGATTTTCGTGCTTTTGTAAAATGTGCTTCACTGCAGCCCTTACTGGGCTGTGGTGATGAACACTTAAGATACTGTGTGTGTGCT
TTATAATCTGTAAGGCACTGTTCAAGGGGAGGGACCTCTGCCATGAGCCCCTACCCACTGGTATCTGGTTGACATCCAAAGCCCCAGCCTGGGAGAAGCT
GATTCTCTAGTTGAATGCTGTATAGGGATTTGACTGAGGCTCAGATTTGGTGAGGAAGACCACTAACCTTAACAGACCAACAGGCTGGCTACTCCCTGAT
GAAGTTCCCCAGGCCATGAAAGAAGTAAGAGATACATTCCTTGTAACAGCTTTCTTAGTTGCACCTGTATGATTATTTGATCAGTGTGTTGTCTGTGCAG
GGATCATGTCTGTGGAGCTCACCACCTCGTCCTCGGTGCTGAGCAGAGTGCCTGGCATGTGTACTCAGTAGATATTTGCTAAGGGAGCGAGTCAGTGATK
GAGAGGAGCAGCCTGGGAGGTAAAGCCCTAGAATCTTTATTTTAAAGGGATATCAAAGTTGAACATTCAGTTAGACAGTTCTCTTGAGTCCAGGGATTTA
CCCATCCATGGTGGACACACTTTCAGTTAAAAAGTAAGGTTAATTTTGACAGGTTGCAGTATCCAGGCAAGCATTCTATGGAATAAGGCTCATCTCAGGG
ATTAGTAATGACTGAATTAACTTACTGCTAGTCCCATAATTTTGACGTTAATTAATGGGGTTAAGAAATGTCATAAGCTATTTGGTACCATTTAAAGTGA
AAATACCCTTAACGTTTTTTGCCTCCAGATATCCACACTTAATTTCATTTTCTTGCTCTTTGGTGAACAGTCCTGGGTCTGAATGTATATATCCATGGTT
TGTCACTAGGTGACAGGTTTTTTTGGAACAAGAAATCAGTTCAGTGAACATTTGTCAAGTATCTTCTCTGTAAAAAGTGTAATGTGCCAAGCTCAGAAGT
AGGAAGTGAAATGGATAAACTATGACCCCTGCCTTAAAGAACACCATGGTGTTGTATGGGAATTGTTTAGGTAGAATGAAAGAAATCCTCTAATAGAGAT
ATGAGGCCAGTTCAGCAGAAAGCCAGGGTGAGATCTYCTGAGAGGGATGGAAGGGTGTCTTGATCATCTCTGGTAGCAGCAAAGGCACTGGCATACAGTG
GCCACTGGAAGACAACCAGCAGGGGATGGGGGCGTTTACCCTTGCAAGTGAGCATTAGGAACTAGAGGACTGATTGYCCTTTCTTCAGSTTTGGTTTCCC
TTGCTGCAGAAAAAGATGCTGAGACTCATGGCCTCGGTTATGAACTCAGATATGTGGTTTGGCTTTGAAGCACAGATGGATTTTGTCCGATTTTGGCAGG
GAAATGCCTACAGACAGCACTATGGGCATATTTAGGTTAGGGACGAAATGCAAGTTGATTAAGTCCTGATAAGAGGCTGTGAAGAGGTCCAAGAAGCCTC
ACAATGCCCAATGAAGAAAAGCCCTGTGCTTGGTGCTGCCGCCTCCCTTCCCCGTCCTGCTGGCAGGGCTGCGCTTCAGTAGCTCTGGRTGCGTCAGAGC
AGTCCATGAACATTCTGTGTGGAAAATCTCTGACTGTTTTAGTGGATTACACTGCTCTCCCTTTCCTCCAGTGCCTCGTTATTCAGTATTATTTGATGTT
CTCCAGCTTTTAAAATAATCATTTTCCGCCTACGCAGAACATCCTGTAGAGACGTTGAGGTTCCAGTGGGAACAGAGAGGAATACTTATTCTAAAAATGA
AGAAAATAAACCTTTTTTTATGGAGTGGGTGATAGTATTGCAGAACTTCTATAATAGTATGAGAATTCACTTGTGGTGCCAAAGCTTAAAAAAAAAGTAT
AGTAAAAACATAATGTATAGGCTTATTGCTGTGCTATGACCCATGCCCCGTTTTCTCCAACCTCTCTTGTCCTCACTCTTCCTTTTTGCTGGTGATATTT
TTACTTATTTCATGAAAAAAAAGATAACATATACACACACATAGATATATGCACAAGTATATRTATATATGTGTGCATAACACACATAAACATATACATT
GGTAAATTTAAAAACATATTTATGAAATATATGTAGCATCTACAGAAAAACATGAACACTTGTGAGAATAGCATCTGCCTAAAAAATAGGACATCACCAT
CACCTTTGAGGCTCTTATGTGCTGCTCCCCTGTGCCATTCCCTTCCCTTCTTCCTTAGAGGTGATTACTATTCTAAATTTTGGGATTATTATTTCCTTTT
TTTATTATAGTGTTTTAATTACAGTTTTATTACCTGTATTTGTATTCCTAAAAATTTGTTTACTTTTGCAAGCTTTAGATTTTATAAAAGTAGAATTACA
CTGTAAGTTTAATTTTTCTGTAATTTATATATAGCTACACATATATTCCTAAGATTCATCCATCTTGTTACATATAGCTCTGGTTTACCTTTTCTGTATA
ATATAGATTCTGCTTCGTGAATTTACAGTTCATTCATTCTTCTGTTAAAGGACAGTTGGAGGACTCATATGGCCTCAGTCTCTGTGTCCCCACATGCCAC
CCTGCTTCCCAGCCTCATATGAGTTGATTGGTGGCCTGGCATACTGGATGAGAAGCTCTAGGTCATATATTTAAGAGAGTTATTGCTGGGTCATAAAATG
ACAGATTGTTTTCCAGAGGGGTCATATTGATTTAAATTATCACCAACAATTATATTGTCAGATTTTTACCAGTTTGGTGATTGTGAAACAGTGTCTGATG
GTAGTTTTTATTTGCATTTTCTTGGTTGAAATAAAGTTGTGTATTTCAGCCAGGYGCGTTGGCTCATGCCTATAATCCCAGCACTTTAGGAGGCCAAGGT
GGGCRGATCACTTGAGGCCAGGAGTTCAAGACCAGCCCAGCCAACGTGGCAAAACCCCATCTCTACTAAAAATACAAAAATTAGATGGGTATGGTGTCAC
ATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCACAAGACTTACTTGAACCCGGGAGATAGATGTTGCAGTGAGCCGAGATTGTACCACTGCACTCCA
GCCTGGGCAACAGAGCAATAACTAAATAAATAAGTAATCAATTAATAAATAAGTATATTTCCTCAGCTGTTAAGTACCTGTTCAAGTTTTTTACCCAATA
TTTGATGGGCTCTTTTTTTGTCTTTTCTAATTAATTTTTGGAGTTTTTGATATATTCTAGATAGTAATGAGTTACATGAAAATATCCCTAGTTTAGGGAT
CCTCTAGTAACTTTTTAAAATGAATACTTGTTTTAGGAACAGAAATTCTTAGATTTAATGTAGGCAGATTTTATCAATTGTTCTTTACAGATTGGCTTTG
TAGCTTAAGAAATCCTTCCTAACTTTGCAATAATTAAAGATATGCTCTTAGATTGTTTCCTAAAAGACTGATACTTAAGCCTCTAGCCCACCTGGAATTG
ATTTTCACAGATACTACATTTTTTACTAGTTATAGATTGGCCCCTTCGTAGAGCAAGTCCGATAGCTGCCATTTTTATGGCAGCATGTGCTCACTTAGTG
TCTCTGTCAAATTTTGGTAATTCTCACAATATTTCCAACTTTTTCATTATTACTATATCTGTTATGGTGATCTGTGATCACTGATCTTTGGCATTACTAT
TGTAATTGTTTGGGGCACCATTAAGCTCACTGTCTTATGTGGGCATAAACCATGCCCACATAAGACAGTGAGCTTAATTAATAAATGTGTGTGCTCAGAC
CCCTCCACTGACTGGGTGTTCACATGTCTTCCTTACTCTCCTCAGGCCTCCTTATTCCTTGAGACGCAATAATATGGAAACTAGGCAAATTAATAACCCC
ACAGCGTCCACAAGTGTTTAAGTGAAAGGAAGAGGCTGGGCGCAATGGCTCACATTTGAGCTCACAAATGAGCCCATGCTCATTTGCCATTCCAAAAATC
CCAGGGCCCTTAAGAATTATGCTAACTCTACTCTGCCTCTGCTCTATAAATGGAACAACAAAGCCTAGATGACAGCACATCTTTTTAGAACATGATTTAC
TGAATATTTTAAGCCCATTGTGGAGACCTACTGCTCAGAAAAAAAGATTCCTTTCAAAAGCCTGTAATCCCAGCACTTTGGGAGGCCAATGCAGGTCGAT
CACCTGAGGTCAAGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACACGTCTTTATTAAAAATACAAAAATTAGCCAGGCCTGGTGGTAGATGCCTGTA
GTCCTGGCTATTCAGGAGGCTGAGGCATGAGAATCACCTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGATATCATGCCATTGCACTCCAGCCTGGGCA
CCAGAGTGAGACTACGTCTCAAAAACAAAACAAAAAAAAAAAACTGAAAGGAAGAGCTTAATGAGAAAGGCATATTAAAAGCCAGTATAGGTTGAAAGCT
AGGCCTCTTGTGCAAGTTAGCCAAGTTATACATGAATGGTAAAGCAAAACAGCTTTATTGCTGTAATAAAGAAAGTTTTAGTGGTCTGGATAGAAGATCA
AATCAGTCACAGCATTCCCTTAAGCCAAAGCCTAATCCAGGGTAAAGCCCTAACTTGCTTCAATTCTTTGAAGACTGAGAGGGGTGAGGAAGCTACAGAA
GAAAACTTGGAAGCCAGCAGAGATTGATGAGGTTTAAGGGAAGAAGCCACAAGTGCTGATGTAGAAGCTGTAGCAAGTTATCCAAAAGATCTAATTGATG
AAGGTGGCTTACACTAAACAACAGATTTTCAATGTAGACAAAACAATCTTCTATTAGAAGGTGTCATCTATGACTTACATAGTTAAAGAGGAAAAGTCAC
TGCCTGGCTTCAAAGCTTCAAAAGACAGGTTGACTCTAATAGGTACTAATGCATCTGGTGACTTTAAGTTGAAGCCAGTGCTCATTTGCTATTCCAAAAA
TCCCAGGGCCCTTAAGAATTATGCTAACTCTACTCTGCCTGTGCTCTATAAATGGAACAACAAAGCCTAGATGACAGCATCTTTTTAGAACATGATTTAC
TGAATATTTTAAGCCCATTGTTGAGACCTACTGTTCAGAAAAAAAGATTCCTTTCAAAATATTACTGCTCATTAACAATGTACCTGGCCACCCTAGATCT
GTAATGGAGATATATAAGGACATGAACACTAACACAGCATCCATTCTGCAACCCATGGATCAAGGAGTGATACTGACTTTCAAGTCTTATTTAAGAAATA
CATTTCATAGGGCTCTAGCTGCCATAGATAGTGATTCTTCTGATGGATCTGAGCCAAGTAAATTGAAAACCTCTGGAAAGAATTCATCATTTTAGATGTC
CTGAGAAACATTCGAGATTCCTGGGARGAAGTCAAAATATCAACATTAACAGGAGTTTGGAAGAAATTGCATCCAGCCCTCATGGATAACTTTGAGGGGT
TCAAGACTTCAGTGGAGGAAGTAGCTGCAGATGTGGTGGAAATCACAAGAAAATTAGAATTAGAAGTGGAGCCTGAGGATATGACTGAATTGCTGCAATC
CCATGATAAAATTTGAACAGATGAGGAGTTGCTTCTTATGGATGAGCATAGAAAGTAGTTTCTTGAGAAAGAACTTAATTCTGGTGAAGATGCTGTTAAT
ATTGTTGAAATGGCAACAAAGGATTTAGAATATTATATAAACTTGGTAAAGCAGCAGCAGGGTTTGAGTGGATTGACACTAGTTTTGGAAGAATTTCTAC
TGTGAGTAAAATGCTATCAAACAACATGACAAGCTACAGAGAAATCTTTCATGAAAGGAAAAATCAATTGATGCAGCAAACTTCACTGTTGTCTTATTTC
AAGAAATTGCAACAGCTTCCTCAGCCTTCAGCAATCACCACCCTGATCAGTCAACAGCCATCATCAGGGCTAGATCCTCCACCAGCAAAAAGATAACAAT
TCGCCGACAGCTCAGATGACTGTTACCATTTTTTAGCAAAAACCTTTTTAATTTTATTTATTTATTTATTGGAGACAGAGATTCACTCTGTCGCCCAGGC
TGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCACCACCTCCCAGGTTCAAGTGACTCTTGTGCCTCAGCCTCCCAAGTAGCTGGGATTATAAGCAT
GTGCCACCACGCCTGGCCAATTTTTGTATTTTTAGTAGAGGCAGGATTTTACTATGTTGGCCAGGCTTGTCTCGAACTCATGATCTCTGGTGATCTGCCC
ACCTCGGGTTCCCAAAGTGCTGGTATTATTGGCATGAGCCACTGCGCCCGGCCAGCAAAAAAGTGTTTTTAAATTAAGCTACCTACGTTGATTTTAGACA
TAATGCTATTTGCACACTTAATAGATTACAGTGTGGTGTAAACATAAGTTTTATATGCACTGAAAAACAAAAAATTTCACATGACTTGCTTTATTGTGAT
ATTGACTTTATTCCTGTAGTCTGGAACTGAACCTGCAATATCTCAGAGGTATGCCTGTATCTACTTGTTCTGTGATACTTGTTATTGTCAGTTTGTTTGG
ATTTACCACATATTATTTGATCATAATTCTTTCCTGTAGATGTTTTATGGTCTGCCTAAACCTTTAGTGGGGCCTTTGATGGCTTAGTCCTTTCAGGCTT
AAGACAATAGAAGTTTATTTCTCAGAGTTCTAAAAGCTGGGAAGTCCAAGATCAAGGCACCGACAGATTTAGTGTCTAGTGAAGGCCCGCTTCCTCATAC
ATGGCACCTTCTAGCTGTATCCTTACATAGTGGAAGGGAATAGCTAGCTCTCTGGAGTTTCTTTCATAAGGGCTAATCCCACTAATCCCAATTATGAGGG
AAGACCTAATCACCTCCCAAAGGCCCCACCTCCTAATAGTATCACCTTGGGGGTTAGGATTTAACATATGAATTTTGTGGGGACACAGACATTCAAACAA
TAGCCATGGCAAACTTTTTTGCTTTGTCTAATTCACTCTTATTTTGAAAAGTATTTGTGTTGGGTTTAAAACTCCAGATTGGTAATTATTTTTTCTTAGT
GCATTGAAGGTAATAGTGTATCATTTTCTGATTTCTACTCTTGCTCTTGAAAATTCAGCTATCAATCTTAAAATTTATTACCTGTTGAAAATCCAGCTAC
CAGTCTTATATTTTATTTACTTAGTGGGTAATCTCTCTTCTGAGTACCTTTAAGATCTCCTTTCAGAAATACCATGTAGTAACCCTGTGTGTCACGTGTG
GATTTTGTTGGGCTTGCTAGCTGAGACTTGACAGTTTTCATCACTTCTGGGATATTCTCAGGTATTTTGTCTTCAAAGTCTTCAGATATTGTCCTCTTCC
TGCCCTCTCTCCGACTCCTTCTGGAACATGAGTTATGTATTTATTATCTCCCATGTGCATAAGTTATCTTTACATATTTTCAATTTCTTTATCTTTCTGT
GCTACATTCTGGATAATTTTGTTGATCTACCTTCCAGTTAATTAGCTTGTTAACTTTGTCAAATCTCTTTTTAAGTCTATCTTGATTTTTCTTTTCAATT
ATTGTATTTTTCATTTTTAAAAACTTTATGTGCTCTTTTGGAAATCTTGATCCCAGGAGATAGTGGATAGTGTCCTGCTGCTTACTCATGGTTTTAATAG
TTCTTGAGCATGCTGAACATACTTATTTTATGTTATTTGCTAATCTTTCCAATTCCTGAAACCTTTACAGATCTCATTCTGTGGATTCTTCTGGATTCTA
ATTCATGGGGCATTTTTTTTGTTTTTTGTTAATTCCTCATACTTTATCTGTGGGGAATTACTTGAAGCCTGGGTTGACAATGAAATTCTGCAGAGAGAAT
TTGCATTTGATTCTACTGGAGGAACAGTCAGCCCCGATATCAGTTTAAATTAAAATCTCTGCTTAAGGTTTTCAGGCAACCTGCTTAGCATGAATCCTGG
CTGGAAAAGCATGTGAGGACCAGTTTATGATTACACATTCACAGGGTGTCATGTTTTCTTCCAACACCAATGCTAGAGGTGGCAGTTTTGCTTACTGCCC
TTGGAGGGACAGGGGAGTGGGCATGGGCATAGTAGTATGGTTTTCCTTTTCACTGGGGGTGCAGCCCTTGGAGTCTCAGCTTAATGTGTTGGGGAAGTGG
TCTCCTATTAGACTCTCCATTTCAAACCATTCCATGATTTTGTCCTCCTTTTGCCACCTTCCGAGCCTGTAAAAACTAATGTTTGTGATTCCTGAGGTTT
CTCTAATGTCTTTTAATAAAGTTGACCTCAGAGATCTCGTTACCTCTCTGAGTTCCTGCTTTGTCTTAGATTTTGATCCTTGAGTGTTCTTTAATCTTTT
AGCAATTCCTTGTTGCATGTTAAAAGATTAGTTATATTTTATTCCTCATTTGTGTTCGTTTTCACCAGGAGGCTCAATTCAGGCTTCTTTGCTTACTTGG
TGTCTCTAGTTCTGGTGCCTGGTGCTTTGGTCAATGAAGTGGGGTTGGTAGGATTCTATTACTTACCTGTTTTTTGGTTTTATTTTTTGTTTTGCAGTTC
TCCGGGAGATGTTGCATAACCACTCCTTCGTGGGCTGTGTGAATCCTCAGTGRGCCTTGGCACWGCATCAAACCAAGTTATACCYTCTCAMCACCACCAA
GCTTAGGTAAATCAGCTGAGTGTGTGAACAAGCAGAGCTACTACAACAATGGTCCAGGGAGCACAGGCACAAAAGCTAAGGAGAGCAGCATGAGGTAGTT
GGGAGGGCACAGGCTTTGGAGTCAGACACATGTGGTTTCAAATCCAAGTTCGACCATTTCCCATTTATTTGACTGTAGACAAGTTACATTCCTAAACTAT
GTCTCAGATTTCTCATCTGTAAGTTGTGGTATTACTAGTTAACATGCAGGGGTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTGAGGGTAAGAAATAACCC
AAGAAGCCTAGTCCTTGGTAGTTGCTCAGTGCCCTATAAATGTTGTGAACCAGGTGGTGAGGGTTTGGTGCTGCTAGAGAATTCTGGTATCTGCTCTGTG
CAACAGAGTACTGTARGTGATGCAAGAGAAAGAAGACCTGATGCCTTCTTTCCTCCCAGCTTTGAGAATGGAGCAAAGGCCTACCCCAGCCACCAAGTGA
GCCAGTGGGCTTGATCAGCACAGGAAAGGTGACCCCGGCAGTTTCATTTGACTATTGCATGGCTGGCAACATTTCTATTGATTGTTTCCAGGGACCTTGG
CGGATGAGCTCCTGTTGAGTCTAGCATCTCTGTTAAATCTGTTCTCAAATAGGTAATGCATATGGGAGGATGCTGCCACCTTGCATCTACTAGACATCAC
CTATCTACTGTGAGACTCTCCCTCTAAGCCCTGCTGTGGCCTCAGAGTGCTTATTGGCCCTGTGAGTGGGGCAGCCACTATACATTGCATGGAGTTGGTA
CATGAGATAGAAACCTATTCGCCATCCCTTGAAACTGCCCCAGTCCAGAAGCTTCCTGTTAGCACATGTACCTCCTTGTATGTATTCAGAACTCATTCCA
TTTAGGCTTGGAAACCCGTTTGGTGCAACTCTGTTCAAGTTCCATTGTCTGCTTTGAGAATGCTTGGGCTTGTATAGTRAGCTGTCACTTTTTAATTTGT
TAGGAATTCTACTCGCCTTGCTTTTTCTTTTCCAGCATGTTTAAGGGAATGACCTCCAAGGCCCCAAATCACAGTTGTATTCATGTTCTTTCATYTCACA
GATACAATCCAGGCCAGTCCCAGATTTGCAGCTGTTAATAAATGTGAATGGTTTTCCAGTAAGGGGGTAGAAAAACATAGGGAGAGAACCGGGTTCAGAG
TTCAATATCTGGATTCAAGTCCTTCCTTTAGCACTTTACTAACTGATGTAGAATAAGTCAGCTACTCAATAGGTGCCTCAGTTTCCCCACCAAAATGCAG
ACATAGAAGGTGCTTTGTCTGCTTTGATGAGAAGTCTTTAAGCAAGTCTATGGGGTTCAATGTGTTTTAAGAACTATAAAGTACCATATAAATGTGGCCT
TTATTCCCATTGTGTTCTTGGAAGTAATTCAATATAGTGTGTACTTCATAGCTGCTTTTGGACTATTGCCAGCCAGTGTATCATCCTAAACTACATGTCA
GCATAGTATAATCCTGCCTTAGGTCTACTTTTGATTATTTAGGAAGACTCCCTGCCCTTCCTATACATTTCACATAATTTTTAATAAGTTGTAAAAAAGT
GATTTATAGGATTCTTTGTAAGTGGGGGAAGTTAAGCAGACAAAAAGTTTTTAAATCTTACTGCAGAGTGTCAGGAACCTTTTATAGCACCAGACAGGTA
GGGACAGAACATGAGTGGCAGCAAGCCAGACTTGGTCTTAGTGCTCTAACCTGTCTGTTAGAGGCTGGCCAGTCAGACCCCTGGTTGAAGACGTTGGGAA
TCCCAGCTCTTTGGAGGGGTAAGAGATTTTGTTAGACTGTTAACCAGATTCCACAGCCAGGCAGAACTATTTCTGTCTCATCCATGTTTCAGGGATTACT
TCTCCCATTTTGTCCCAACTGGTTGTATCTCAAGCATGAATTCAGCTTTTCCTTAAAGTCRCTTCATTTTTATTTTCAGTGAAKAACTGTTCTACYAGAT
ACTCATTTATGATTTTGCCAATTTTGGTGTTCYCAGGTTATCGGTAAGTTTAGATCCTTTTCACTTCTGAAATTTCAACTGATCGTTTCTGAAAATAGTA
GCTCTCCACTAATATCTTATTTGTAGTATGTTAAATTTTTCTAAAACTTCTAAGGATAGTTGCTGTATTGTATGATTTGCATATGGAGGTATCTATAAGA
AGTTTTATACTTTTTAGCAAAATAGTCATTTGGTAGCCAACTTAAACAAATGTTTATTAATATAGAAGTTAATAATATCTACTGATACTCGGCCGGGTGC
GGTGGCTCATGCCTGTAATCCCACCACTTTGGGAGGCTGAGGCGGGCAGATCATTTGAGGTCAGGAGTTCAAGACCAGCCTGACCAATATGATGAAACCC
TGTCTCTACTAAATTACAAATATTAGCAGGGTATGGTGGTGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTAAGGCAGGAGAATCATTTGAACCCAGGA
GGCAGAGGTTGCAATGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGATTCCCTCAAAAAAATAAATATCTACTGACACTTAATAC
TTGGAAAGGGATAAAAATAAACATTGTCTAAAGCCGTGGTCCAAACACAACCCCTGCCAACAATTTTAGTCCATTTCTTCCAAGACTTTTTTTTTTCTAT
GCCTTTTGTGAAAACTGTCAAAAACTTTTTCAATGCTGAATTTTAGTTCTGAGTTAAAAATCATACTACCTGTTTATATGGTTTCATATCCACTTTTTTC
ATGTGATATACTCTACAAAAAGCCTGCTGAGATTTTGATTGGGATTATGTTGAATCTAGATCAATTTAGGGTGAAAAACTTTTGTTAGATAAATCCCTTA
GTATTTCACATTTTTAAATGCTAAATGGCATTTTTCAAAAATTTTCTTTTTTCTTTTCTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTG
CAATGGCAAAATCTTGGTTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCAAACTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGC
CACCATGCCCGGCTAATTTTTTAAACTATTTATAGTAGAGAGGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCC
ACCTTGGCTTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCCTCAAATTTTTTTTTTTTTTTTTTTTAAGAGACAGGGGTCTCACTCTT
GCCTAGGCTGGAGTGCAGTGGCGTGATCATAGGTCACTGAAGCTTTGAACTCCTAGGCTCAAGTAGCTAGGAATACAAGTGTGTACCACTACACCTGGCT
AATTTTTTWAAAAAAATTTTTTTCGTAGAAACGGGAGTCTTGTGTTACCAAGGCTAATCTCAAACTCATGGCCTCAAGTGATACTCTTGCCTCAGCCTCC
CAGAGTGCTAGGATTGTAGGCATGAGTTACTTCACCCAGCCAAAAAACTTCAATTTCCTATTGTTTATTTGCTAGTATATAGAAATACATATAGTTTTGT
ACCTTGATGCTGTATCTTGCAACCTTGTTAAACTCACTTACTAGTTCTAGTATATTTTTTGTAGATTCTATCAGATTTTCTATATATGTATCATGTCTTC
TGAGAATAAAGAAACTTTTACTTCTTGCTGTGCAAACTGAACACCTTTTCTTTCTTTCTTTCTTTTTTTAAGACGGAGTTTTGCTCTTGTCACCCAGGCT
GGAGTGCAGTGGCTGGATCTCGGCTTACTGCAACCTCCACCTCCTGGGTTCAGGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCT
CGCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTGGCCGAGCTGGTCTTGAACTCCTGACCTCAGGTAATCTGCTT
GTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAATTACTGCGCCCGGCTGCCTTTTATTTCTTTCTCTTGACTGACTGCACTGGCTAGAGCCTCCA
ATACAATGTTGAATAGAAGTGGTAAGAATGGGCCAGGCATGGTGGCTCATGCCTCTAATCCTAGCACTTTGGGAGAGTATGGTGGGCAGGTTACTTGAGG
CCAGGAGTTTGAGATCAGCCTGGCGAACATGGTGAAACTCTGTCTCTATTAAAAATACAAAATATAGTTGGGTGTGGCAGTTCACGTCTGTAATCCCAGC
TACTTGGGTGGCTGAGGCATGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGAATGCACCACTGCACTCCAGCCTGGGCAACACACAC
ACACACGAAAAACGAAGTGGTAAGRATGGAAATCCTTCTCTTCTTCCTGATCTAAGGGGGAAAGGGGAAAGTTACAAAACATTCAGTATGCTGTTAGCCA
TATAGGTTTTTTTGTAGATGCCCATTATGAGGTTGAGGAAGTTCCCTCTGTTCCTTATTTGCTACAGATTTTATTTAGGATTGGATGTTGAATTTTTTTC
AAATGCTTTTTTTGCATCTACTGAGATAATCATATGATTTTTCTTTTATAGTTTGTTAATATAGTGAATTACATTGATTTTCTTATGTTAAACCAATCTT
TGCATTCCTGGGATGAACTCTGCTTGGTTATAATATATAATCCTTTTTATTTATTATGGGATTTGATTTGCTAAAATTTTTATTATAATTATTTTATCTG
TGCTCATGATTGTTACTAGTTTATAGTTTTCTTTTAGTCTTTGGTTTTTGTATCAGGGTAATGCTGGCCTCATAGAATGAGTTGGTAAGTATCCCCTCCT
TTTCCATTTTCTGAAAGAGTTTTGTGTAGAATTGATGTTAAAATTATTGCTTAATGTTTGGCAGAACTCAACAGTGAAGCCATCTGGGCTTGGAGATTTT
CTTCATGGGAAGGTTTTTAACTGCAAATTCTATTTCTTTAATAGTATAGAGCTATTCAGGTTATCTGTTTCTTCTTAGGTAAGCTTTGGTATTTTGTTTC
TTTGAAGAAATTTGTCGCATTTAATCTAAATTTTTAAATTTACTGACATAAAGTTATTTATAATATTTCTTATTCTTTTATTATCTATGGATCTCTTGGT
GACATAACCTCTCTCATTCCTAATATTGGTAATTTCAGGCTTTTCTTTTTAACTTGGTCAGTCTGGCTAGAGGTTTATCAATTTTATTGATCTTCTCAAA
GAACTAACTTTTGGTTTCATAGATTTTTCTATTTTCTATTTCATTGATATCTGCTCTGACTTTTAATCTTTCTTATACCTATTTTGGTTTAATTTGTCTT
CTGTTTCACATTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTACAGTGGTGCGATCTTGGCTC
ACTGTAACCTCAGCCTTCCAGGTTCAAGCGATTCCTGTTTCTAAGCCTCCCAAGTAGCTGAGATTACAGGCATGCACCACCAGCTAATTTTTGTATTTTT
AGTAGAGATGGGGTTTCACTGTGTTGGCCAGGCTGGTYTCAAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGT
GTGAGCCACTGTGGCTGGCCTGTTTCACATTTCTTAAGGTAGAAGCTGAGGTCACGGATTTGAGACCTTTCTTCTTTTCTAATACAGGTGTTAAGTGCTA
CAAATATCCCTTAAGCACTGCTTCAACAGCATCCCACAAATTTTGATAGTTTGTTTTCATTTTCATTCAGTTCAAAATACCTTCTAATTTCCCTTTTGAT
TTCGTCTTTGACCTACAGGTTTTTTAGAACTGTGTTATTTAGTTTCCAATCTCTTGAGGATTTTTAAAACAATATGTTATTGATTTCTAATTTATTTCCA
TCTCAGTCAAAGAACATACTTGCCTTTTTTTATACATTTATTGAAACTTTTTTTATGGCCCAGAATATGGTCTGTGTTGGTAAATGTTCCATGTGTACTT
GAAAATAATTTGTATTCTGATCTCATTGAGTTGAATGTTCTAGGTATATCAAGTTGATAGTGATGCCCAAGTCTCCTGTATCTTTACTGATTTTCTGCCT
GTTCTGTTATTGAGAAAGGGGTATTGAAACTTCCAACTATAATTATGATTTGTCTGTTCTCTTTGCAGTTCTCTTAGTTTTTGCCTTCATATATATATAC
ATATATATGTATATATATATWTATTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAAG
CTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAATAGCTGGGACTACAGGCGCCCACCACCACGCCCAGCTAATTTTTTGTATTTTTA
GTAGAGACAGGGTTTCACCATGTTAGCAAGGATGGTCTCGATCTGACCTCGTGATCCGCCCAGCTTAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGC
CACTGCACCCAGCCCATATATTTTAAAGCTCTGTTATTGGGTACATAAACATTTAGGATTGTTATATCCTTTTGATAATGGACTCTTCTATTATGAAAAG
ATAATATACTGTGGGTTTATAACATATGTAAAAGTATGAGTAACATATTATCAGAAGGGGAGAAATGGAAGATAACTTAGGCATCTTATTTTTAAGCATA
GTTTTCCCTTTGTTTCTGCATTAGATGATTTACCTGAAATGTCATTCAATTTAACTTACTCTCCATCCTCACCCGCCCAGCTTTGGTTATGAGGCAGTAG
AAAGAAATGATCTGCCTGTGGTTTTCTAGAAATACGAAAGTTGAGTCCTTAAGGCTACACAGAAAGAAAGTACCTCCCCAGGGCTTCACCCTTCCCATCC
TTTCAGCAGGCTTTTTGTCTGTCGTATCTTCTCTGTTGAAATGGCCATTGACAAGAGGAGGAAAGGGGTTTTGTTGTGGATTGTTCAGGCACTTCCTTTG
GGGTATATGGGGGATGAGTGTTACATTTATGGTTTCTCACCTGCCATTCTGATAGTGGATTCTTGGGAATTCAGGCTTCATTTGGATGCTCCGTTAAAGC
TTGCTCCTTCATGTTCTTGCTTCTTCCTAGGRGCCAGCACCGSTCTTTGACCTTGCCATGCTTGCCTTAGATAGTCCAGAGAGTGGCTGGACAGAGGAAG
ATGGTCSCWAAGAAGGACWTGCTGAATACATTGTTGAGTTTCTGAAGAAGWMGGCTGAGATGCTTGCAGACTATTTCTCTTTGGAAATTGATGAGGTGTG
ACAGCCATTCTTATACTTCTGTTGTATTCTTCAAATAAAATTTCCAGCCGGGTGCGGTGGCTCATGGCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGG
GCAGATAACTTGGGGTCAGGAGTTCAAAACCAGCTGGCCAACATGATGAAACCCCGTCTCTACTAAAAAAATAGAAAAATTAGCCAGGCGTGGTGGCGGG
TACCTGTAATCCAAGCTGCTCAGGAGGCTGAGGCAGAAGAATCACTTAAACCCAAGAGGTAGAAGTTGCAGTGAGCCGAGATTGCACCACTGCACTCTAG
CCTAGGCGACAGCGAGACTGCGTCTCAAAAAAAAAAAAAAAGAACGTTCCAAGGTCAGGACTAGGCCTCCCCTCAGAAGCAGCAAGTGACATATGTGACA
TCCTCTCCACTCCCTATTTGCATTTCTAGGTTATATAACTGTACTACTATCCATGCATGCCTACTCTTGTTCCCAGGGTGAAGGACCCAGACATGGAGAG
CCGAATCCCTGCAGGCCATTATAAATGAGATTATGCCATTTGCTCCCATTTCTTCTTATTCTTTCATTTTTGGGGCTCTCCATCTTGATGTGTTCTTTGG
ATCGTGAACAGATCCAAAGAAAAGGTTGTTCTGCCGTGCTGTTTGTCAGGATGAAAAACTCTTTTTTAAGTGTTTAGGTCTGCCCCCAGTGCCCAGCCCA
ATCAAGTAACGTGGTCACCCAGAGTGGCAGATAGGAGCACAAGGCCTGGGAAAGCACTGGAGAAATGGGATTTGTTTAAACTATGACAGCATTATTTCTT
GTTCCCTTGTCSTTTTTCCTGCAAGCAGGAAGGGAACCTRATTGGATTACCCCTTCTGATTGACAACTATGTGYCCCCTTTGGAGGGACTKCCTATCTTC
ATTCTTYSACTAGCCMCTGAGGTCAGTGATCAAGCAGATACTAAGCATTTCGGTACATGCATGTGTGCTGGAGGGAAAGGGCAAATGACCACCCTTTGAT
CTGGAATGATAAAGATGATAAGGGTGGGATAGCTGAAGGCCTGCTCTCATCCCCACTAATATTCATTCCCAGCAATATTCAGCAGTCCCATTTAYAGTTT
TAACGCCTAAAGTATCACATTTCGTTTTTTAGCTTTAAGTAGTCTGTGATCTCCGTTTAGAATGAGAATGTTTAAATTCGTACCTATTTTGAGGTATTGA
ATTTCTTTGGACCAGGTGAATTGGGACGAAGAAAAGGAATGTTTTGAAAGCCTCAGTAAAGAATGCRCTATGTTCTATTCCATCYGGAAGCAGTACATAT
CTGAGGAGTCGACCCTCTSAGGCCAGCAGGTACAGTGGTGATGCACACTGGCACCCCAGGACTAGGACAGGACCTCATACAATCTTTAGGAGATGAAACT
TGCCCATCTCTAAAATTTCGGGATTTCTTTGTACCCAACAAGGTTCAAACACAACAGTCAGCTTTTATTCATGATTTTTACTTCCATCTGCTGATGTAGA
ACATACCTCCAGAGTGACCTCAGAAATTGTCAAATGTGAAAACACAAGCCATCACAGTGAGAAATGGGAGGTTGAGTTAGATTGTCTAAGGCTGGAGAGT
CCATATACTCCCACTGTTAGCTCTGAAGTGTGTAGCCAGTCTTCAGATTCTGGGTCAGTTGCCTCAGTCTCTCTTAGCTTTTGCCTTACTCTTTATCCGA
CCACTGCCCTGCCAGGAAAACAAGGCTCTATAACTCCTCTTACAGGTCAGCTTGACACAAAAAGGGTGCCTGGATKCCTAATGTTTCATTGTCACTTTTC
CCAGTCAGATGATAATGCTTTTCAAATCAACATATATTTTGGGGGAGGTTGGAAGGGAGAGTTGAAATATTCTAAGAATCAAAGAGTAGCCCACTTTAAT
CAGAGTATGACCCCTGATTGCTCACAGTCATCTCCTGAGCAGTGTGAGCGAGTTTCAGATGAGGAGGCTGAAGGCCAGTCAGGCATGCTCGAGGATTCCA
AGTCTGTAGGTGGGAGGGCAGAGATTTAGTCCTGTTGGCCAAAGCCTCTAGGGAATTTCTCACTCCAGTGGAGAAGGCAACACACTTACCAAACTGTGTG
GAAACTATCTCATTTGATTAGAAATTTTACCTCAAGAAGAGGAAGRACAGTTGAGAAAGAACATTTTCTTACACRTGAGACAGCTAAGGCTTACAAGAAG
GAGAGGAATAATGAGGCAAAATAATCCTCATTAATATTTTCATTCCTCCCCTGGGGATTAGAACTACTTTCAGACCCGATTTTAATGGTAAGTTAGGTAC
TTCCTACAGTTGCCATCCAAATATCAGTCAGGATCAGACATGATGTTAGCTCCTGCTACAATAAAACCATTTTCTCCCTGAATGAAAACAAAGGTTCCAC
AGGAGACAGTCCCACAGAGCAGTGGCTTCTTTTCCTCCCTTTAAAACCTCATGTTGGCTGGACACAGTGGCTCACACCTGTAATCCCAGCATTTTAGGAG
GCTGAGGTGGGAAGATGGCTTAAGCCCAGGAGTTTGAGGCTGTAGAGCTATGATCACACCACTGCCCTTCAGCCTGGGTGACAGAGCAAGACCTTGTCTC
TAAATAAACAAACAAACAAAAAATCCTCTTGTGTTCAGGCCTGTGGGATCCCCTGAGAGGCTAGCCCACAAGATCCACTTCAAAAGCCCTAGATAACACC
AAGTCTTTCCAGACCCAGTGCACATCCCATCAGCCAGGACACCAGTGTATGTTGGGATGCAAACAGGGAGGCTTATGACATCTAATGTGTTTTCCAGAGT
GAAGTGCCTGGYTCCATTCCAAACTCCTGGAAGTGRACTRTGGAAYAYATTGTCTAWAAAGCCTTGCGCTCACACATTSTGCCTCCTWAACATTTCACAG
AAGATGGAAATATCCTGCAGCTTGCTAACCTGCCTGATCTATASARAGTCTTTGAGWGGTGTTAAATATGGTTATTTATGCACTGTGGGATGTGTTCTTC
TTTCTCTGTATTCCGATACAAAGTGTTGTATCAAAGTGTGATATACAAAGTGTACCAACATAAGTKTTGGTAGCACTTAAGACTTATACTTGCCTTCTGA
TAGTATTCCTTTATACACAGTGGATTGATTATAAATAAATAGATGTGTCTTAACATAATTTCTTATTTAATTTTATTATGTATATATTGTGTCAGTTCAG
ATGCCAAAAAGAGGTCTTGAACATGTCACAGGCTCTGATGGCACTGACCATGGAGAAAGCTTGATTTGATCATCTGGTGTCTACAATAACCAAAGCTAAT
TATTAAGGAAAAAAACTTGAAGAAAGAAAATAGTCCTTACTTCATCTATAATGAGGTTTTTGTTTTTTTGTTTTGAGACGGAGTCTTGCTTTGTTGCCCA
GGCCGGAGTGCAGTGGCGCGATATTGGCTCACTGCAACCTCCGCTTACCGGGTTCAAGCAATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGATTACAGG
CACCTGCCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGTGGTTTCACGATGCTGGCCAAGCTGGTCTCAAACTCCTGACCTCAGGTGATCCT
CCCACCTCAGCCTCCCAAAGTTAAGTGCTGGGATTACAGGCATGAGCCACTGCGGCCGGCATTAAGTATGAGTTTTTAAGTTAGCCCACTTTGTTAATGA
CTATGAGTACTAATAGCTTAAGATAAAGAAGTTTCTAGGTAATCTTGTTTGAAGGATGATGTAAAAATATAAATTTAAACTGTGAGTGACAAAATAAACT
TCCTTAATATTTGCCTACATTTAGAGAAATGGAGCATTCAGCTCAGAAAGGAAGAATGTCTGTGGTTTTAAGGTAAAATCCATATTCCAAGACTCAGTGA
AGAAAGTTCAGTGATAAAGAACAGACTACTCTCATCTTATGAAGAAATGGAGCAATTTCACTTGGAAAGACTAGGAAGACAAAATGTTACAGACGTATTT
GTTGTGCCACAAAATAGGCAAGGTCAGTTTTGAACAATAAGAACTCCATAAAGTAGACCAGGGCATCTCAGAAGTGAGGTTCCATGAGCCCAGGTGGGGC
ACAGGCTGGGTGATCTTGAGTGGAGAGGAAGAGGGGTTTTCTGAGCTTCAAGAGCTGGGCCACACAGTGTGTTGGTTTTAGCTGGGATGGAGTTCTAGAA
CAAACCTGCACTTTAGAACACCTTTCTACCCACCCCCAACCACACAACTTGCTACTATTAGTAAATGTATAGGCTGAGGCACGGTGGCTCATGCCTGTAA
TCCCAACACTTTGGGAGGCTGAGGCAGGCAGATCACTTGTGGTCAGTAGTTCAAGACCAGCCTGGGCAACATGGTGAAACCCTAACTCTACTAAAAATAC
AAAAATTAGCAGGGTGTGGTGGCAGACACCTGTAATCCCACCTACTTGGGGGGCTGAGGCAGGAGAATCAAGCTTGAACCCGGAAGGCAGAGGTTGCAGT
GAGCCAAGATCATACCACTGCACCCCAGCATGGGTGACAGCACGAGACTGTCTCTCAAAAAAAAAAAAGAGGCCAGGCACAGTGGCCCACACCTCTAATC
CCAGCACTTTGGGAGGTTGAGGTGGGCAGATCACTTGAAGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAA
AAATCAGTCGGGTGTGGTGGTGCACACCTGTAGTCCCAGCTCCTCGGGAGGCTGAGGCAGAAGAATCACCTGAACCTGGGAGGCAGAGGTTGCAGTGAGC
CGAGATCGTGCCACTGCACTCCAGCCTGGGTGACTGAGCGAAACTCTGTCTCAAAAAAAAAAGAAAGAAAATGTATAGAAAATCATCTCAATTCAGAAGA
TTGGTATCCATATTTTTTAAATGAAGGGCTAATTAAAAAAGGAACAAATATTAGAGATTTTATTCACTTTTGAGTTACCTTTTTAAAGTCTAGTTTTATT
ATCTTATGTGCCTTTAGTCACTAGATTTTCCCCCAATATATTTTCTGTGTAAGCACTTTAAAGATACAATAATCATTTCTATAAAACCACCTGGGTACTA
AGAGCAAAAGAGAATCATAAATTCTGCAAAGTAGTTGCACTCCATGATTTTAAAAAAACCTCTTGGACAGGGTACCTCTAAAGGTGAAACTCAAGTCTTT
AAAAGTTCTACATTCCAGATTGTTTTTCCTTGAGAAGGAGACAAAAGAAGAGGGATGTGGTTGCCATGATTTGTTTTAAAGTCTCCTATAACAAAATGAA
CATGTCAGTAGCCAATTGTGGTTGGCAAAAGGGTGTATTTAATAGAATCTGCAGGCAGATTTCCAATCTGCCTGCCCTGCCCTACCCTCCCCCTTTGGGT
TTGTTTGAGGTTTCATTCCACAAATAAGCAGCAGATAAAATACTTTACAAGGTACAGCACAGTTGTATTGAAGAAAAAAAGGACCCAACTCTTACTTTAG
GAGTATTAGGCCTGGACTTCCCCTGCCCCATGCAATAAAGCAAGTTTTATATACACTCCCCATATTTTTTTCTAACATTTTCTTATATAAATTTAAATAT
TTTACAAAAAAAGGCTTTTTTCCTCCAAACATATAAATCTGAGTGAAACATAGATTCCCCACCCGAGAACTTGTTTCTTCACTAAAATATAAATGTTGTC
TGATATTAAGGGTAAATGTCTTTTGACCACTGGAGATCACTGAAGTCTGAATTGCACCGTGGAGAAGGCACTTGTGTTTTCTGAGGTCTCCAGCAAGTAT
CTCAGTGAGCACTCATAGAATTGCTGTCTGTCCTCCAGAACCCGTGCCAAGGCCTCCGAGTGCCCAGTTACTGAGGCAGCTGGGGAAAAACGTTGAGTAA
ACATGATTCTACAATTACGGAGATAAAAAATAAAAACAGCATGGACTGGTTCTACCCTAGAATCAAACTACAACAAAATCCAAAGTGTTCATTCATGTAG
ATTCAAAATGACTTCATTCTGTCATAAATTATAAAATACAAAGGTGGCTGTTTTAATGACAAAACTCAAAACAGTACTAAAAGGGGTTTGTGTCAATGGA
CAAAAGTCAGTCCCTCTAGGTAGGGCCCCAAGGAGCATCACCCAGGTTGAAGGGTGGTTTTCCTACTGCTGGGCCAGAAGTGCTGTCCTATTGGCCTTCA
TCTTCTCCAGCCGCTTGGCCAGGTGGCTGTTGGTCATCTCCATCTCCTCAATCTTGTCCAGTGCTGTTCGTAACTGGAGACAGGGAGAATGCAGTCACTA
CATGTGGTCAGAAACAACATCCAGTGCTACTCTATTTTCAACTTCCTGGGAAATGAAAGCACTGCTAACTGTGATGGCCTTGCACAGGACCCACAACCTC
ATTTTTTCTATCAGTTAGAGGTGTTAAATGATGATACTGAGGATTGTTTATTTGTTTTAATCACAGAAAGGATATATAGAAGTTGGAGAAATAGACCTGA
TCTGAAGCAAAAATACAAACTATCTTTTTACTTAGTATCTAATTGACCAAAACATAAAAGTAAATGGCAGTCACTATGCAGGTCAAAAACCAACACAAAT
TAGTTAAGTGACTCCACTGCTGTTTCCTTAAGTATCAAATTTCTTACACAGCTAAGAATTATTTCCAGAAGATTTTTTCTTTTTAGGAATGTATTCTCCA
AGAAACATATTAAAAGAAGTACCTCTCGTTGTAGCTTCCGTTTTTCTGCTTTCAATTCATCTTCAACTTTCTCAGCATTCTCAGCAGCAGTTTTATATCT
CAGAACCTGTCCCTCAAGCCGGCTAATCTGTAAGTATGAGAACACAGGCCTCTAGTACTGGGCACTAGAAGTCACCACTTTTTGGTAGCCAGGATGGAAA
TACAATGTCATTATAAATGCCAAGTAATCTACTAACAAGTCCCCTAAGGGTGACTCATAAGTCCTCTCAGAACTCAGTTGCTATTTATAAATCAAGTAAT
GTCCCCAGAGAGGATTACAGCTGTAGAGTCATTTTAGGGCCAATTTCCCATGCTAAGTTTTATTATGACCATATTGTTTAAGTGCCAAAGCAATATAGGA
AGAGACACTAAATGGAAAAGTTCTTACACTTTTTGGAATGCGTAAGGGATTTTATTACAAATGATGATCTTGAATTCTCCTGAAATATCTACAAAAACTG
ATAGCTATAGTTTCCTATGGTTTTAGAGAAAACAGAAGGCTAAAATGTCCCAACAAGTGCTCTCTGCTGGCTTTTCTATTTTAATACAGAACTATTATTG
ATCCAACTGCAAAGGCAACCCAGGCACTCATGGGTTGTTAGCCACTTAGATGCAGGAAGGACATTTAAATAACTTAGTACCATATAGAAGTACTTACACT
TTGCTCCAAGGTAGTTATATCCTGTTCTGCTTTTGAAAGCTTAAATTTGTATTCGCTAATTTGTCTATTGGCATCTCCTAGAACAGAAGAAGACAATGAA
TTATCTTCACCTGTCAGAGATGACAGTATGAGCCATCAGGCAGTACCTCTGTGGCACAGAGAGGACCATGCAGTCTTAAGATTACAAAATACAGGGCTGG
GCGCGGTGACTCACGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGTGGATCATGAGGTCAAGAGATAGAGGCGACCATCCTGGCCAACATGGTGA
AACCCTGTCTCTACTAAAAATATAAAAATTAGCTGGGCGTGGTGGCACAGGCCTGTAGTCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCACTTGAAC
CCGGGAGGCAGAGGTTGCAGTGAGCTAAGATCGCGCCACTGCACTCCAGCCTGGCAACAGAGCGATACTCCGTCCCCCTGCCAAAAAAAAATTACAAAAT
ACAAATGCACACACAACAACCACAGCATCTTCAGCAGCCCAGGTTCTGGACTGTATATACTACAAGATGCTCTAGCATATATGTTACTACAGTATCCCTT
GCAGCAAGAGTTAGAAGAAAATTCTTTACCCTATGATATGTGTGAGCAGGGCTTGAGAAAGGAGCCCTGCCAATTCAGCAGCAGCCCCTACCAACCCTGT
GTGTAACCTTGTGGAGCCTCCCTGCCCACGGGACTGGGCCCTCTAGTTCCCTGAACGCGGCCCCATGCCTTCCCATCTCCCAGGTTTTGCTTCTGCTGTC
CAATACTGTAAGGGTCCTTTTCTCCCACCTCTGACTTGCTTCAAGGCCAAGCTCAATTTTCACCTCTTTCATGACTCCCCTTAATTATAAGTCCTTCCCT
TGCTGTATTTTATTTGCATTTTTATGACATTTGTCATGCTTTTTAAACATCGTATGTGTAAGCAAGGAGAGGGGCCCTGTCTTGGCCTTCCTAAATCTAC
CTATGTACCTAGCCAAGTGCACACAGTGTATGCCTAAATAAATATATGTTGGAATAAATGCTGTTCAGTAATGTGATAATGTGTTATGGGTAGAGCTATA
AGTTACTAGATGAACATCTGACCTAGGAAGTAAATCACTTAAAATGAAAAGTTTAGAAATGATGGCAGGGGACTTTTAAAATCCCTCCAAGAATCCAAGT
TTAGCAAAAATCAGTCTCTGGCATGATTACAGTAATAAGATTTGCAAAAGATAAACCAAATCTAACATACCACAGGAAATATTCAGATTATCTAACTTAA
GAACTTTTCTACATTTCCACATGACCAAGGTTACAATTACTTATACAGTCTTCAATGTGAGAGGTTTTTCTTTTTTTTTTTTTGAGATGGAGTCTCGCTC
TGTCGCCCAGGCTAGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCATCACCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGG
GACTACAGGCACCCGCCACCATGCCTGGCTAAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTC
GTGATCCACCCACCTCAGCCTCCTAAAGTGGTGAGAGGTTTTTCTAATTGGACAATTACTGTCACCTTAAAAGGAACAGGGTTACCATCTCCCCAAAAGC
CATATCTGGTAGTGAAAGAGAAGTATTCCTATTTCTGAGCCCTAAAACAAGCTTCAGGA


SNP Information

Context             (SEQ ID NO:55370):
ATGCAAACAGGGAGGCTTATGACATCTAATGTGTTTTCCAGAGTGAAGTGCCTGGCTCCATTCCAAACTCCTGGAAGTGGACTGTGGAACACATTGTCTA
W
AAAGCCTTGCGCTCACACATTCTGCCTCCTAAACATTTCACAGAAGATGGAAATATCCTGCAGCTTGCTAACCTGCCTGATCTATACAAAGTCTTTGAGA
Celera SNP ID:            hCV27530818
SNP Position Genomic:     63057
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55371):
TCTCTTGTCCTCACTCTTCCTTTTTGCTGGTGATATTTTTACTTATTTCATGAAAAAAAAGATAACATATACACACACATAGATATATGCACAAGTATAT
R
TATATATGTGTGCATAACACACATAAACATATACATTGGTAAATTTAAAAACATATTTATGAAATATATGTAGCATCTACAGAAAAACATGAACACTTGT
Celera SNP ID:            hCV7535103
SNP Position Genomic:     46163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55372):
TATTTTGAGGTATTGAATTTCTTTGGACCAGGTGAATTGGGACGAAGAAAAGGAATGTTTTGAAAGCCTCAGTAAAGAATGCGCTATGTTCTATTCCATC
Y
GGAAGCAGTACATATCTGAGGAGTCGACCCTCTCAGGCCAGCAGGTACAGTGGTGATGCACACTGGCACCCCAGGACTAGGACAGGACCTCATACAATCT
Celera SNP ID:            hCV27528251
SNP Position Genomic:     61485
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55373):
TTGAGTTTTGAGTATTTTCAAAAGCTTCAGAATCTCTTTTCTAATAGAGAACTGATAGAAATTGGATGTGAGGATAAAACCCTAGCCTTCAAAATGAATG
R
TTACATATCCAATGCAAACTACTCAGTGAAGAAGTGCATCTTCTTACTCTTCATCAACCGTAAGTTAAAAAGAACCACATGGGAAATCCACTCACAGGAA
Celera SNP ID:            hCV27531696
SNP Position Genomic:     26997
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55374):
GCTTCTTCCTAGGAGCCAGCACCGCTCTTTGACCTTGCCATGCTTGCCTTAGATAGTCCAGAGAGTGGCTGGACAGAGGAAGATGGTCCCAAAGAAGGAC
W
TGCTGAATACATTGTTGAGTTTCTGAAGAAGAAGGCTGAGATGCTTGCAGACTATTTCTCTTTGGAAATTGATGAGGTGTGACAGCCATTCTTATACTTC
Celera SNP ID:            hCV27535900
SNP Position Genomic:     60119
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55375):
TTAGAAATCAGTCCCCAGAATGTGGATGTTAATGTGCACCCCACAAAGCATGAAGTTCACTTCCTGCACGAGGAGAGCATCCTGGAGCGGGTGCAGCAGC
M
CATCGAGAGCAAGCTCCTGGGCTCCAATTCCTCCAGGATGTACTTCACCCAGGTCAGGGCGCTTCTCATCCAGCTACTTCTCTGGGGCCTTTGAAATGTG
Celera SNP ID:            hCV27531697
SNP Position Genomic:     32923
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55376):
ATCTAGACGTTTCCTTGGCTCTTCTGGCGCCAAAATGTCGTTCGTGGCAGGGGTTATTCGGCGGCTGGACGAGACAGTGGTGAACCGCATCGCGGCGGGG
K
AAGTTATCCAGCGGCCAGCTAATGCTATCAAAGAGATGATTGAGAACTGGTACGGAGGGAGTCGAGCCGGGCTCACTTAAGGGCTACGACTTAACGGGCC
Celera SNP ID:            hCV27536275
SNP Position Genomic:     6126
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55377):
GTTCAGATAACCTTTCCCTTTGGTGAGGTGACAGTGGGTGACCCAGCAGTGAGTTTTTCTTTCAGTCTATTTTCTTTTCTTCCTTAGGCTTTGGCCAGCA
K
AAGCCATGTGGCTCATGTTACTATTACAACGAAAACAGCTGATGGAAAGTGTGCATACAGGTATAGTGCTGACTTCTTTTACTCATATATATTCATTCTG
Celera SNP ID:            hCV27863040
SNP Position Genomic:     16926
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55378):
GCTATATTTTAATCTATTGTTGATATGATTTTCTCTTTTCCCCTTGGGATTAGTATCTATCTCTCTACTGGATATTAATTTGTTATATTTTCTCATTAGA
S
CAAGTTACTCAGATGGAAAACTGAAAGCCCCTCCTAAACCATGTGCTGGCAATCAAGGGACCCAGATCACGGTAAGAATGGTACATGGGAGAGTAAATTG
Celera SNP ID:            hCV27863041
SNP Position Genomic:     19504
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55379):
AGCTTCATCCATGTCCCTGCAAAGGACATGAACTCATCATTTTTTGTGGCTGCATAGTATTCCATGGTGTATATGTGCCACCTTTTCTTAATCCAGTCTA
Y
CATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGCGAATAGTGCTGCAGTAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAA
Celera SNP ID:            hCV26100103
SNP Position Genomic:     11769
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55380):
ATTGTTGATATGATTTTCTCTTTTCCCCTTGGGATTAGTATCTATCTCTCTACTGGATATTAATTTGTTATATTTTCTCATTAGAGCAAGTTACTCAGAT
K
GAAAACTGAAAGCCCCTCCTAAACCATGTGCTGGCAATCAAGGGACCCAGATCACGGTAAGAATGGTACATGGGAGAGTAAATTGTTGAAGCTTTGTTTG
Celera SNP ID:            hCV27863042
SNP Position Genomic:     19519
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55381):
ATCTATCTCTCTACTGGATATTAATTTGTTATATTTTCTCATTAGAGCAAGTTACTCAGATGGAAAACTGAAAGCCCCTCCTAAACCATGTGCTGGCAAT
Y
AAGGGACCCAGATCACGGTAAGAATGGTACATGGGAGAGTAAATTGTTGAAGCTTTGTTTGTATAAATATTGGAATAAAAAATAAAATTGCTTCTAAGTT
Celera SNP ID:            hCV27863043
SNP Position Genomic:     19558
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55382):
TAACAGAAGACGATAACAGGACTATGGGAGTTATGAGCTGGGAACCTTGGACAAAAATATATACATATTAAATAAATATTAAGTGTATATATATACTTAC
R
TATATTAAGTGTATGTGTGTGTGTGTATATATATATTTTTTTAATTTACTGGTTGGTTTTGGGAAGCAGAAATTACCATAACTACTCTTAAAAATCTTTT
Celera SNP ID:            hCV26100105
SNP Position Genomic:     36626
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,15)   total(G,15|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55383):
TTCTGTTCAGGTGGAGGACCTTTTTTACAACATAGCCACGAGGAGAAAAGCTTTAAAAAATCCAAGTGAAGAATATGGGAAAATTTTGGAAGTTGTTGGC
R
GGTACAGTCCAAAATCTGGGAGTGGGTCTCTGAGATTTGTCATCAAAGTAATGTGTTCTAGTGCTCATACATTGAACAGTTGCTGAGCTAGATGGTGAAA
Celera SNP ID:            hCV27863044
SNP Position Genomic:     21416
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55384):
AGAATGACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAAAACAAA
Y
GAACAAACAAAAACCCCAAAAATCCCTGAAGTACGTGAGCTAGTGGTGAAAGAAAGCTGGAGAAAAGGAGCAGGAATAATAATAATAATAATAATAATAA
Celera SNP ID:            hCV26100106
SNP Position Genomic:     39278
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55385):
CTTCCGTTGAGCATCTAGACGTTTCCTTGGCTCTTCTGGCGCCAAAATGTCGTTCGTGGCAGGGGTTATTCGGCGGCTGGACGAGACAGTGGTGAACCGC
W
TCGCGGCGGGGGAAGTTATCCAGCGGCCAGCTAATGCTATCAAAGAGATGATTGAGAACTGGTACGGAGGGAGTCGAGCCGGGCTCACTTAAGGGCTACG
Celera SNP ID:            hCV27864857
SNP Position Genomic:     6114
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55386):
CTGACATCTAGTGTGTGTTTTTGGCAACTCTTTTCTTACTCTTTTGTTTTTCTTTTCCAGGTATTCAGTACACAATGCAGGCATTAGTTTCTCAGTTAAA
W
AAGTAAGTTCTTGGTTTATGGGGGATGGTTTTGTTTTATGAAAAGAAAAAAGGGGATTTTTAATAGTTTGCTGGTGGAGATAAGGTTATGATGTTTCAGT
Celera SNP ID:            hCV27863045
SNP Position Genomic:     24372
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55387):
GTTCTCTCTTATTTTCCTGACAGTTTAGAAATCAGTCCCCAGAATGTGGATGTTAATGTGCACCCCACAAAGCATGAAGTTCACTTCCTGCACGAGGAGA
K
CATCCTGGAGCGGGTGCAGCAGCACATCGAGAGCAAGCTCCTGGGCTCCAATTCCTCCAGGATGTACTTCACCCAGGTCAGGGCGCTTCTCATCCAGCTA
Celera SNP ID:            hCV27864858
SNP Position Genomic:     32899
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55388):
TTTTTAATAGTTTGCTGGTGGAGATAAGGTTATGATGTTTCAGTCTCAGCCATGAGACAATAAATCCTTGTGTCTTCTGCTGTTTGTTTATCAGCAAGGA
S
AGACAGTAGCTGATGTTAGGACACTACCCAATGCCTCAACCGTGGACAATATTCGCTCCATCTTTGGAAATGCTGTTAGTCGGTATGTCGATAACCTATA
Celera SNP ID:            hCV27863046
SNP Position Genomic:     24529
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55389):
GAATTTTTTCCAGCCGGGTACATTGGCCTGTAATCCCAGCACTTCGAGAGGCCAAGGTGGAAGGGTCACTTGAGTCTAGGAGTTACACACAACACACACA
C
ACACACACACACACACACTAGCCAGGCATGGTGGCAAATGCCTGTAGTCTCAGCTACTCCGGAGGCTCAGGTGGAAGGATCACTTGAGCCCAGGAGGTTG
Celera SNP ID:            hCV26100107
SNP Position Genomic:     39728
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55390):
CTTGCTGGCCCCTCTGGGGAGATGGTTAAATCCACAACAAGTCTGACCTCGTCTTCTACTTCTGGAAGTAGTGATAAGGTCTATGCCCACCAGATGGTTC
S
TACAGATTCCCGGGAACAGAAGCTTGATGCATTTCTGCAGCCTCTGAGCAAACCCCTGTCCAGTCAGCCCCAGGCCATTGTCACAGAGGATAAGACAGAT
Celera SNP ID:            hCV27864859
SNP Position Genomic:     38264
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55391):
GTTTGTTTATCAGCAAGGAGAGACAGTAGCTGATGTTAGGACACTACCCAATGCCTCAACCGTGGACAATATTCGCTCCATCTTTGGAAATGCTGTTAGT
Y
GGTATGTCGATAACCTATATAAAAAAATCTTTTACATTTATTATCTTGGTTTATCATTCCATCACATTATTTTGGAACCTTTCAAGATATTATGTGTGTT
Celera SNP ID:            hCV27863047
SNP Position Genomic:     24610
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55392):
GATAGTGATTCTTCTGATGGATCTGAGCCAAGTAAATTGAAAACCTCTGGAAAGAATTCATCATTTTAGATGTCCTGAGAAACATTCGAGATTCCTGGGA
R
GAAGTCAAAATATCAACATTAACAGGAGTTTGGAAGAAATTGCATCCAGCCCTCATGGATAACTTTGAGGGGTTCAAGACTTCAGTGGAGGAAGTAGCTG
Celera SNP ID:            hCV26100108
SNP Position Genomic:     49527
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55393):
TCTTTCCTGAGGTGATTTCATGACTTTGTGTGAATGTACACCTGTGACCTCACCCCTCAGGACAGTTTTGAACTGGTTGCTTTCTTTTTATTGTTTAGAT
Y
GTCTGGTAGAATCAACTTCCTTGAGAAAAGCCATAGAAACAGTGTATGCAGCCTATTTGCCCAAAAACACACACCCATTCCTGTACCTCAGGTAATGTAG
Celera SNP ID:            hCV27863048
SNP Position Genomic:     30020
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55394):
ACCATTTCCCATTTATTTGACTGTAGACAAGTTACATTCCTAAACTATGTCTCAGATTTCTCATCTGTAAGTTGTGGTATTACTAGTTAACATGCAGGGG
T
TTTGTTTGTTTGTTTGTTTGTTTGTTTGTGAGGGTAAGAAATAACCCAAGAAGCCTAGTCCTTGGTAGTTGCTCAGTGCCCTATAAATGTTGTGAACCAG
Celera SNP ID:            hCV26100109
SNP Position Genomic:     53053
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55395):
CTTTCCTGAGGTGATTTCATGACTTTGTGTGAATGTACACCTGTGACCTCACCCCTCAGGACAGTTTTGAACTGGTTGCTTTCTTTTTATTGTTTAGATC
R
TCTGGTAGAATCAACTTCCTTGAGAAAAGCCATAGAAACAGTGTATGCAGCCTATTTGCCCAAAAACACACACCCATTCCTGTACCTCAGGTAATGTAGC
Celera SNP ID:            hCV27863049
SNP Position Genomic:     30021
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55396):
AGGTCAAGGCAGCCAGATCATTTGAGATCAGGAGTTCGAGACCAGCATGGCCAGCATAGTGAAGCCCCATCTCTACTAAAAATACAAGAAAAAATTAACC
R
AGCATGGTGGCGCATACCTGTAATCCCAGCCACTCTGGAGGCTGAGACATGAAAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCTCG
Celera SNP ID:            hCV27911401
SNP Position Genomic:     13103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55397):
ATTTGTTAGGAATTCTACTCGCCTTGCTTTTTCTTTTCCAGCATGTTTAAGGGAATGACCTCCAAGGCCCCAAATCACAGTTGTATTCATGTTCTTTCAT
Y
TCACAGATACAATCCAGGCCAGTCCCAGATTTGCAGCTGTTAATAAATGTGAATGGTTTTCCAGTAAGGGGGTAGAAAAACATAGGGAGAGAACCGGGTT
Celera SNP ID:            hCV578241
SNP Position Genomic:     53895
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;JBIC-allele(C,195|T,1305)   total(C,195|T,1305)   (C,-|T,-)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55398):
AGGACACCAGTGTATGTTGGGATGCAAACAGGGAGGCTTATGACATCTAATGTGTTTTCCAGAGTGAAGTGCCTGGCTCCATTCCAAACTCCTGGAAGTG
R
ACTGTGGAACACATTGTCTATAAAGCCTTGCGCTCACACATTCTGCCTCCTAAACATTTCACAGAAGATGGAAATATCCTGCAGCTTGCTAACCTGCCTG
Celera SNP ID:            hCV578244
SNP Position Genomic:     63036
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55399):
CTTTCAGTCTATTTTCTTTTCTTCCTTAGGCTTTGGCCAGCATAAGCCATGTGGCTCATGTTACTATTACAACGAAAACAGCTGATGGAAAGTGTGCATA
S
AGGTATAGTGCTGACTTCTTTTACTCATATATATTCATTCTGAAATGTATTTTTTGCCTAGGTCTCAGAGTAATCCTGTCTCAACACCAGTGTTATCTTT
Celera SNP ID:            hCV27860218
SNP Position Genomic:     16984
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55400):
AATTGGATGTGAGGATAAAACCCTAGCCTTCAAAATGAATGGTTACATATCCAATGCAAACTACTCAGTGAAGAAGTGCATCTTCTTACTCTTCATCAAC
Y
GTAAGTTAAAAAGAACCACATGGGAAATCCACTCACAGGAAACACCCACAGGGAATTTTATGGGACCATGGAAAAATTTCTGATCCATAGGTTTGATTAA
Celera SNP ID:            hCV27860219
SNP Position Genomic:     27056
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55401):
AATGTTTAAATTCGTACCTATTTTGAGGTATTGAATTTCTTTGGACCAGGTGAATTGGGACGAAGAAAAGGAATGTTTTGAAAGCCTCAGTAAAGAATGC
R
CTATGTTCTATTCCATCCGGAAGCAGTACATATCTGAGGAGTCGACCCTCTCAGGCCAGCAGGTACAGTGGTGATGCACACTGGCACCCCAGGACTAGGA
Celera SNP ID:            hCV578247
SNP Position Genomic:     61467
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55402):
CTTCATGTTCTTGCTTCTTCCTAGGAGCCAGCACCGCTCTTTGACCTTGCCATGCTTGCCTTAGATAGTCCAGAGAGTGGCTGGACAGAGGAAGATGGTC
S
CAAAGAAGGACTTGCTGAATACATTGTTGAGTTTCTGAAGAAGAAGGCTGAGATGCTTGCAGACTATTTCTCTTTGGAAATTGATGAGGTGTGACAGCCA
Celera SNP ID:            hCV27864860
SNP Position Genomic:     60107
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55403):
TATGTATTCAGAACTCATTCCATTTAGGCTTGGAAACCCGTTTGGTGCAACTCTGTTCAAGTTCCATTGTCTGCTTTGAGAATGCTTGGGCTTGTATAGT
R
AGCTGTCACTTTTTAATTTGTTAGGAATTCTACTCGCCTTGCTTTTTCTTTTCCAGCATGTTTAAGGGAATGACCTCCAAGGCCCCAAATCACAGTTGTA
Celera SNP ID:            hCV26100110
SNP Position Genomic:     53779
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55404):
GGTGATTTCATGACTTTGTGTGAATGTACACCTGTGACCTCACCCCTCAGGACAGTTTTGAACTGGTTGCTTTCTTTTTATTGTTTAGATCGTCTGGTAG
R
ATCAACTTCCTTGAGAAAAGCCATAGAAACAGTGTATGCAGCCTATTTGCCCAAAAACACACACCCATTCCTGTACCTCAGGTAATGTAGCACCAAACTC
Celera SNP ID:            hCV27863050
SNP Position Genomic:     30030
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55405):
TTTCCTTGGCTCTTCTGGCGCCAAAATGTCGTTCGTGGCAGGGGTTATTCGGCGGCTGGACGAGACAGTGGTGAACCGCATCGCGGCGGGGGAAGTTATC
Y
AGCGGCCAGCTAATGCTATCAAAGAGATGATTGAGAACTGGTACGGAGGGAGTCGAGCCGGGCTCACTTAAGGGCTACGACTTAACGGGCCGCGTCACTC
Celera SNP ID:            hCV27532218
SNP Position Genomic:     6135
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55406):
TTTCTAAGCCTCCCAAGTAGCTGAGATTACAGGCATGCACCACCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTGGCCAGGCTGGT
Y
TCAAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCACTGTGGCTGGCCTGTTTCACATTTCTTAAG
Celera SNP ID:            hCV26100111
SNP Position Genomic:     58438
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55407):
GATTTCATGACTTTGTGTGAATGTACACCTGTGACCTCACCCCTCAGGACAGTTTTGAACTGGTTGCTTTCTTTTTATTGTTTAGATCGTCTGGTAGAAT
S
AACTTCCTTGAGAAAAGCCATAGAAACAGTGTATGCAGCCTATTTGCCCAAAAACACACACCCATTCCTGTACCTCAGGTAATGTAGCACCAAACTCCTC
Celera SNP ID:            hCV27863051
SNP Position Genomic:     30033
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55408):
GGGGTATTGAAACTTCCAACTATAATTATGATTTGTCTGTTCTCTTTGCAGTTCTCTTAGTTTTTGCCTTCATATATATATACATATATATGTATATATA
T
ATATATTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAAGCTCCGCCTCCCAGGTTCA
Celera SNP ID:            hCV26100112
SNP Position Genomic:     59118
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55409):
TGTTTAGATCGTCTGGTAGAATCAACTTCCTTGAGAAAAGCCATAGAAACAGTGTATGCAGCCTATTTGCCCAAAAACACACACCCATTCCTGTACCTCA
S
GTAATGTAGCACCAAACTCCTCAACCAAGACTCACAAGGAACAGATGTTCTATCAGGCTCTCCTCTTTGAAAGAGATGAGCATGCTAATAGTACAATCAG
Celera SNP ID:            hCV27863052
SNP Position Genomic:     30111
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55410):
GTATTGAAACTTCCAACTATAATTATGATTTGTCTGTTCTCTTTGCAGTTCTCTTAGTTTTTGCCTTCATATATATATACATATATATGTATATATATAT
W
TATTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGC
Celera SNP ID:            hCV26100113
SNP Position Genomic:     59121
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55411):
GGCCTCAAATCTTCTGGCCACCACATACACCATATGTGGGCTTTTTCTCCCCCTCCCACTATCTAAGGTAATTGTTCTCTCTTATTTTCCTGACAGTTTA
K
AAATCAGTCCCCAGAATGTGGATGTTAATGTGCACCCCACAAAGCATGAAGTTCACTTCCTGCACGAGGAGAGCATCCTGGAGCGGGTGCAGCAGCACAT
Celera SNP ID:            hCV27863053
SNP Position Genomic:     32826
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55412):
ATTGAAACTTCCAACTATAATTATGATTTGTCTGTTCTCTTTGCAGTTCTCTTAGTTTTTGCCTTCATATATATATACATATATATGTATATATATATAT
A
TTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCA
Celera SNP ID:            hCV26100114
SNP Position Genomic:     59123
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55413):
TCTGGCCACCACATACACCATATGTGGGCTTTTTCTCCCCCTCCCACTATCTAAGGTAATTGTTCTCTCTTATTTTCCTGACAGTTTAGAAATCAGTCCC
Y
AGAATGTGGATGTTAATGTGCACCCCACAAAGCATGAAGTTCACTTCCTGCACGAGGAGAGCATCCTGGAGCGGGTGCAGCAGCACATCGAGAGCAAGCT
Celera SNP ID:            hCV27863054
SNP Position Genomic:     32838
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55414):
GCTTGCTCCTCCAAAATGCAACCCACAAAATTTGGCTAAGTTTAAAAACAAGAATAATAATGATCTGCACTTCCTTTTCTTCATTGCAGAAAGAGACATC
R
GGAAGATTCTGATGTGGAAATGGTGGAAGATGATTCCCGAAAGGAAATGACTGCAGCTTGTACCCCCCGGAGAAGGATCATTAACCTCACTAGTGTTTTG
Celera SNP ID:            hCV27863055
SNP Position Genomic:     41307
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55415):
TTTGATCTGGAATGATAAAGATGATAAGGGTGGGATAGCTGAAGGCCTGCTCTCATCCCCACTAATATTCATTCCCAGCAATATTCAGCAGTCCCATTTA
Y
AGTTTTAACGCCTAAAGTATCACATTTCGTTTTTTAGCTTTAAGTAGTCTGTGATCTCCGTTTAGAATGAGAATGTTTAAATTCGTACCTATTTTGAGGT
Celera SNP ID:            hCV1219057
SNP Position Genomic:     61295
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,11)      total(C,11|T,2) ;JBIC-allele(T,167|C,1276)   total(C,1276|T,167)
SNP Type:                 INTRON


Context             (SEQ ID NO:55416):
TTTTGTTTTGCAGTTCTCCGGGAGATGTTGCATAACCACTCCTTCGTGGGCTGTGTGAATCCTCAGTGGGCCTTGGCACAGCATCAAACCAAGTTATACC
Y
TCTCAACACCACCAAGCTTAGGTAAATCAGCTGAGTGTGTGAACAAGCAGAGCTACTACAACAATGGTCCAGGGAGCACAGGCACAAAAGCTAAGGAGAG
Celera SNP ID:            hCV27863056
SNP Position Genomic:     52785
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55417):
TTTGCAGTTCTCCGGGAGATGTTGCATAACCACTCCTTCGTGGGCTGTGTGAATCCTCAGTGGGCCTTGGCACAGCATCAAACCAAGTTATACCTTCTCA
M
CACCACCAAGCTTAGGTAAATCAGCTGAGTGTGTGAACAAGCAGAGCTACTACAACAATGGTCCAGGGAGCACAGGCACAAAAGCTAAGGAGAGCAGCAT
Celera SNP ID:            hCV27863057
SNP Position Genomic:     52791
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55418):
ATGTTTCAGGGATTACTTCTCCCATTTTGTCCCAACTGGTTGTATCTCAAGCATGAATTCAGCTTTTCCTTAAAGTCACTTCATTTTTATTTTCAGTGAA
K
AACTGTTCTACCAGATACTCATTTATGATTTTGCCAATTTTGGTGTTCTCAGGTTATCGGTAAGTTTAGATCCTTTTCACTTCTGAAATTTCAACTGATC
Celera SNP ID:            hCV27863058
SNP Position Genomic:     54784
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55419):
TTACTTCTCCCATTTTGTCCCAACTGGTTGTATCTCAAGCATGAATTCAGCTTTTCCTTAAAGTCACTTCATTTTTATTTTCAGTGAAGAACTGTTCTAC
Y
AGATACTCATTTATGATTTTGCCAATTTTGGTGTTCTCAGGTTATCGGTAAGTTTAGATCCTTTTCACTTCTGAAATTTCAACTGATCGTTTCTGAAAAT
Celera SNP ID:            hCV27863059
SNP Position Genomic:     54796
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55420):
TCATGTTCTTGCTTCTTCCTAGGAGCCAGCACCGCTCTTTGACCTTGCCATGCTTGCCTTAGATAGTCCAGAGAGTGGCTGGACAGAGGAAGATGGTCCC
W
AAGAAGGACTTGCTGAATACATTGTTGAGTTTCTGAAGAAGAAGGCTGAGATGCTTGCAGACTATTTCTCTTTGGAAATTGATGAGGTGTGACAGCCATT
Celera SNP ID:            hCV27541616
SNP Position Genomic:     60109
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55421):
AACACATTGTCTATAAAGCCTTGCGCTCACACATTCTGCCTCCTAAACATTTCACAGAAGATGGAAATATCCTGCAGCTTGCTAACCTGCCTGATCTATA
S
AAAGTCTTTGAGAGGTGTTAAATATGGTTATTTATGCACTGTGGGATGTGTTCTTCTTTCTCTGTATTCCGATACAAAGTGTTGTATCAAAGTGTGATAT
Celera SNP ID:            hCV27541617
SNP Position Genomic:     63144
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55422):
GCTAAGTTTAAAAACAAGAATAATAATGATCTGCACTTCCTTTTCTTCATTGCAGAAAGAGACATCGGGAAGATTCTGATGTGGAAATGGTGGAAGATGA
W
TCCCGAAAGGAAATGACTGCAGCTTGTACCCCCCGGAGAAGGATCATTAACCTCACTAGTGTTTTGAGTCTCCAGGAAGAAATTAATGAGCAGGGACATG
Celera SNP ID:            hCV27541619
SNP Position Genomic:     41341
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55423):
ACTTGCTGGCCCCTCTGGGGAGATGGTTAAATCCACAACAAGTCTGACCTCGTCTTCTACTTCTGGAAGTAGTGATAAGGTCTATGCCCACCAGATGGTT
Y
GTACAGATTCCCGGGAACAGAAGCTTGATGCATTTCTGCAGCCTCTGAGCAAACCCCTGTCCAGTCAGCCCCAGGCCATTGTCACAGAGGATAAGACAGA
Celera SNP ID:            hCV27860220
SNP Position Genomic:     38263
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55424):
GGAAGTAGTGATAAGGTCTATGCCCACCAGATGGTTCGTACAGATTCCCGGGAACAGAAGCTTGATGCATTTCTGCAGCCTCTGAGCAAACCCCTGTCCA
R
TCAGCCCCAGGCCATTGTCACAGAGGATAAGACAGATATTTCTAGTGGCAGGGCTAGGCAGCAAGATGAGGAGATGCTTGAACTCCCAGCCCCTGCTGAA
Celera SNP ID:            hCV27860221
SNP Position Genomic:     38327
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55425):
GCTTGATGCATTTCTGCAGCCTCTGAGCAAACCCCTGTCCAGTCAGCCCCAGGCCATTGTCACAGAGGATAAGACAGATATTTCTAGTGGCAGGGCTAGG
Y
AGCAAGATGAGGAGATGCTTGAACTCCCAGCCCCTGCTGAAGTGGCTGCCAAAAATCAGAGCTTGGAGGGGGATACAACAAAGGGGACTTCAGAAATGTC
Celera SNP ID:            hCV27860222
SNP Position Genomic:     38386
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55426):
ATTCTATTACTTACCTGTTTTTTGGTTTTATTTTTTGTTTTGCAGTTCTCCGGGAGATGTTGCATAACCACTCCTTCGTGGGCTGTGTGAATCCTCAGTG
R
GCCTTGGCACAGCATCAAACCAAGTTATACCTTCTCAACACCACCAAGCTTAGGTAAATCAGCTGAGTGTGTGAACAAGCAGAGCTACTACAACAATGGT
Celera SNP ID:            hCV27860223
SNP Position Genomic:     52753
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55427):
AGACTGCTAACCAGCTGTAAATGTTTCAAAATATGCATGTTTTACAGCAGTTGTTCAAAGCAATACAGGAACAGTAAGGACAGAGCCAGTCATTTTACAA
M
CACATTCTGTTAAACTGATGTCTATTAGCAGGGTTTTTCCTATTTTATTAGGAAGGACTTACACCTGATATATAACAAAGCTTGTTTTAATCAAGGCTCA
Celera SNP ID:            hCV7535127
SNP Position Genomic:     28011
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55428):
GTTTAAACTATGACAGCATTATTTCTTGTTCCCTTGTCCTTTTTCCTGCAAGCAGGAAGGGAACCTGATTGGATTACCCCTTCTGATTGACAACTATGTG
Y
CCCCTTTGGAGGGACTGCCTATCTTCATTCTTCGACTAGCCACTGAGGTCAGTGATCAAGCAGATACTAAGCATTTCGGTACATGCATGTGTGCTGGAGG
Celera SNP ID:            hCV27860224
SNP Position Genomic:     61074
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55429):
CTAGATTATTCCAAGAAGGGACAATTTCCAAGACTTGGTTTACACTGAGACGGCTCCTGATTTTAAGGATACCTTAGATCAAACTCTAGGAAGGCAGTTT
S
ATTTTGGCCTTGCAGTTCCCTGGGTCATTTTCCAAGCCCATGGCCTCCTGGAGTCTTCGCCTAGCTGTAGGTTATCTTTGTGGCTATTATTTCACTGTAA
Celera SNP ID:            hCV28987626
SNP Position Genomic:     15400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55430):
CCTCGCTTTTGCCAGGACATCTTGGGTTTTATTTTCAAGTACTTCTATGAATTTACAAGAAAAATCAATCTTCTGTTCAGGTGGAGGACCTTTTTTACAA
Y
ATAGCCACGAGGAGAAAAGCTTTAAAAAATCCAAGTGAAGAATATGGGAAAATTTTGGAAGTTGTTGGCAGGTACAGTCCAAAATCTGGGAGTGGGTCTC
Celera SNP ID:            hCV28987627
SNP Position Genomic:     21346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55431):
AGAACACTAGCCTCATGAGGCATTTTGGGAAAAAAGAGTTTGCTGGTTCAGTGTGTATGGGCAGTGCCACAAGCCGTACCCTCCGTTGAAGACACTCATT
Y
CACACATTACTGCATAAAAAGCTTCCACCAGCCATTCGGCAAACTTATTGAGTGTCTGCTATTTCCTGGGTATTGTGCTATATGGTAGGGTTATAGTAGT
Celera SNP ID:            hCV28987628
SNP Position Genomic:     26018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55432):
TGAGTATTTTCAAAAGCTTCAGAATCTCTTTTCTAATAGAGAACTGATAGAAATTGGATGTGAGGATAAAACCCTAGCCTTCAAAATGAATGGTTACATA
Y
CCAATGCAAACTACTCAGTGAAGAAGTGCATCTTCTTACTCTTCATCAACCGTAAGTTAAAAAGAACCACATGGGAAATCCACTCACAGGAAACACCCAC
Celera SNP ID:            hCV28987629
SNP Position Genomic:     27005
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55433):
CATCGGGAAGATTCTGATGTGGAAATGGTGGAAGATGATTCCCGAAAGGAAATGACTGCAGCTTGTACCCCCCGGAGAAGGATCATTAACCTCACTAGTG
Y
TTTGAGTCTCCAGGAAGAAATTAATGAGCAGGGACATGAGGGTACGTAAACGCTGTGGCCTGCCTGGGATGCATAGGGCCTCAACTGCCAAGGTTTTGGA
Celera SNP ID:            hCV578256
SNP Position Genomic:     41403
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55434):
ATAATAATGATCTGCACTTCCTTTTCTTCATTGCAGAAAGAGACATCGGGAAGATTCTGATGTGGAAATGGTGGAAGATGATTCCCGAAAGGAAATGACT
R
CAGCTTGTACCCCCCGGAGAAGGATCATTAACCTCACTAGTGTTTTGAGTCTCCAGGAAGAAATTAATGAGCAGGGACATGAGGGTACGTAAACGCTGTG
Celera SNP ID:            hCV578257
SNP Position Genomic:     41360
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55435):
CACCAGTGTATGTTGGGATGCAAACAGGGAGGCTTATGACATCTAATGTGTTTTCCAGAGTGAAGTGCCTGGCTCCATTCCAAACTCCTGGAAGTGGACT
R
TGGAACACATTGTCTATAAAGCCTTGCGCTCACACATTCTGCCTCCTAAACATTTCACAGAAGATGGAAATATCCTGCAGCTTGCTAACCTGCCTGATCT
Celera SNP ID:            hCV27529435
SNP Position Genomic:     63040
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55436):
AAGAGATTTGGAAAAATGAGTAACATGATTATTTACTCATCTTTTTGGTATCTAACAGAAAGAAGATCTGGATATTGTATGTGAAAGGTTCACTACTAGT
R
AACTGCAGTCCTTTGAGGATTTAGCCAGTATTTCTACCTATGGCTTTCGAGGTGAGGTAAGCTAAAGATTCAAGAAATGTGTAAAATATCCTCCTGTGAT
Celera SNP ID:            hCV27532227
SNP Position Genomic:     13509
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55437):
AGCATGAATTCAGCTTTTCCTTAAAGTCACTTCATTTTTATTTTCAGTGAAGAACTGTTCTACCAGATACTCATTTATGATTTTGCCAATTTTGGTGTTC
Y
CAGGTTATCGGTAAGTTTAGATCCTTTTCACTTCTGAAATTTCAACTGATCGTTTCTGAAAATAGTAGCTCTCCACTAATATCTTATTTGTAGTATGTTA
Celera SNP ID:            hCV27863060
SNP Position Genomic:     54833
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55438):
ATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGAATGCACCACTGCACTCCAGCCTGGGCAACACACACACACACGAAAAACGAAGTGGTAAG
R
ATGGAAATCCTTCTCTTCTTCCTGATCTAAGGGGGAAAGGGGAAAGTTACAAAACATTCAGTATGCTGTTAGCCATATAGGTTTTTTTGTAGATGCCCAT
Celera SNP ID:            hCV1219062
SNP Position Genomic:     57225
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55439):
GTTTCTCACCTGCCATTCTGATAGTGGATTCTTGGGAATTCAGGCTTCATTTGGATGCTCCGTTAAAGCTTGCTCCTTCATGTTCTTGCTTCTTCCTAGG
R
GCCAGCACCGCTCTTTGACCTTGCCATGCTTGCCTTAGATAGTCCAGAGAGTGGCTGGACAGAGGAAGATGGTCCCAAAGAAGGACTTGCTGAATACATT
Celera SNP ID:            hCV27863061
SNP Position Genomic:     60032
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55440):
GCAGAACTATTTCTGTCTCATCCATGTTTCAGGGATTACTTCTCCCATTTTGTCCCAACTGGTTGTATCTCAAGCATGAATTCAGCTTTTCCTTAAAGTC
R
CTTCATTTTTATTTTCAGTGAAGAACTGTTCTACCAGATACTCATTTATGATTTTGCCAATTTTGGTGTTCTCAGGTTATCGGTAAGTTTAGATCCTTTT
Celera SNP ID:            hCV1219063
SNP Position Genomic:     54761
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55441):
GCCATTCTGATAGTGGATTCTTGGGAATTCAGGCTTCATTTGGATGCTCCGTTAAAGCTTGCTCCTTCATGTTCTTGCTTCTTCCTAGGAGCCAGCACCG
S
TCTTTGACCTTGCCATGCTTGCCTTAGATAGTCCAGAGAGTGGCTGGACAGAGGAAGATGGTCCCAAAGAAGGACTTGCTGAATACATTGTTGAGTTTCT
Celera SNP ID:            hCV27863062
SNP Position Genomic:     60043
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55442):
TGTCCTTTTTCCTGCAAGCAGGAAGGGAACCTGATTGGATTACCCCTTCTGATTGACAACTATGTGCCCCCTTTGGAGGGACTGCCTATCTTCATTCTTC
S
ACTAGCCACTGAGGTCAGTGATCAAGCAGATACTAAGCATTTCGGTACATGCATGTGTGCTGGAGGGAAAGGGCAAATGACCACCCTTTGATCTGGAATG
Celera SNP ID:            hCV27863063
SNP Position Genomic:     61108
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)   no_pop(A,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55443):
TGGTAGTTGCTCAGTGCCCTATAAATGTTGTGAACCAGGTGGTGAGGGTTTGGTGCTGCTAGAGAATTCTGGTATCTGCTCTGTGCAACAGAGTACTGTA
R
GTGATGCAAGAGAAAGAAGACCTGATGCCTTCTTTCCTCCCAGCTTTGAGAATGGAGCAAAGGCCTACCCCAGCCACCAAGTGAGCCAGTGGGCTTGATC
Celera SNP ID:            hCV1219065
SNP Position Genomic:     53216
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55444):
TTGTCCTTTTTCCTGCAAGCAGGAAGGGAACCTGATTGGATTACCCCTTCTGATTGACAACTATGTGCCCCCTTTGGAGGGACTGCCTATCTTCATTCTT
Y
GACTAGCCACTGAGGTCAGTGATCAAGCAGATACTAAGCATTTCGGTACATGCATGTGTGCTGGAGGGAAAGGGCAAATGACCACCCTTTGATCTGGAAT
Celera SNP ID:            hCV27863064
SNP Position Genomic:     61107
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55445):
GGTAATTGTTCTCTCTTATTTTCCTGACAGTTTAGAAATCAGTCCCCAGAATGTGGATGTTAATGTGCACCCCACAAAGCATGAAGTTCACTTCCTGCAC
K
AGGAGAGCATCCTGGAGCGGGTGCAGCAGCACATCGAGAGCAAGCTCCTGGGCTCCAATTCCTCCAGGATGTACTTCACCCAGGTCAGGGCGCTTCTCAT
Celera SNP ID:            hCV27540534
SNP Position Genomic:     32892
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55446):
TGGCATACAGTGGCCACTGGAAGACAACCAGCAGGGGATGGGGGCGTTTACCCTTGCAAGTGAGCATTAGGAACTAGAGGACTGATTGCCCTTTCTTCAG
S
TTTGGTTTCCCTTGCTGCAGAAAAAGATGCTGAGACTCATGGCCTCGGTTATGAACTCAGATATGTGGTTTGGCTTTGAAGCACAGATGGATTTTGTCCG
Celera SNP ID:            hCV1219066
SNP Position Genomic:     45389
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,10)      total(G,1|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55447):
CGCCAAAATGTCGTTCGTGGCAGGGGTTATTCGGCGGCTGGACGAGACAGTGGTGAACCGCATCGCGGCGGGGGAAGTTATCCAGCGGCCAGCTAATGCT
R
TCAAAGAGATGATTGAGAACTGGTACGGAGGGAGTCGAGCCGGGCTCACTTAAGGGCTACGACTTAACGGGCCGCGTCACTCAATGGCGCGGACACGCCT
Celera SNP ID:            hCV11987924
SNP Position Genomic:     6153
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): NIH Coriel panel(G,2|A,79)      total(G,2|A,79) ;(A,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:55448):
TTCCTGCAAGCAGGAAGGGAACCTGATTGGATTACCCCTTCTGATTGACAACTATGTGCCCCCTTTGGAGGGACTGCCTATCTTCATTCTTCGACTAGCC
M
CTGAGGTCAGTGATCAAGCAGATACTAAGCATTTCGGTACATGCATGTGTGCTGGAGGGAAAGGGCAAATGACCACCCTTTGATCTGGAATGATAAAGAT
Celera SNP ID:            hCV27863065
SNP Position Genomic:     61116
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55449):
GGGATCATGTCTGTGGAGCTCACCACCTCGTCCTCGGTGCTGAGCAGAGTGCCTGGCATGTGTACTCAGTAGATATTTGCTAAGGGAGCGAGTCAGTGAT
K
GAGAGGAGCAGCCTGGGAGGTAAAGCCCTAGAATCTTTATTTTAAAGGGATATCAAAGTTGAACATTCAGTTAGACAGTTCTCTTGAGTCCAGGGATTTA
Celera SNP ID:            hCV1219067
SNP Position Genomic:     44600
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,11)      total(G,1|T,11) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55450):
AATTGGGACGAAGAAAAGGAATGTTTTGAAAGCCTCAGTAAAGAATGCGCTATGTTCTATTCCATCCGGAAGCAGTACATATCTGAGGAGTCGACCCTCT
S
AGGCCAGCAGGTACAGTGGTGATGCACACTGGCACCCCAGGACTAGGACAGGACCTCATACAATCTTTAGGAGATGAAACTTGCCCATCTCTAAAATTTC
Celera SNP ID:            hCV27863066
SNP Position Genomic:     61519
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55451):
TTGGAGTCTTACTGAGGCTAAAATGATAAATCTAAATGATTTAAAATTGTGTATTCCTACACAGTATCTCACTTAATTATGTAATAGTCTTGTGAGTGAG
R
CAGAGCAGATGCCGTTTTCTCTATTTTAAAGATGAGGAAAATGGAATGGAAAATGGAAAGGACAGACTAATTGCAACATCCTCGCAATCAAAAACAGGCC
Celera SNP ID:            hCV1219068
SNP Position Genomic:     43726
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55452):
CACATTGTCTATAAAGCCTTGCGCTCACACATTCTGCCTCCTAAACATTTCACAGAAGATGGAAATATCCTGCAGCTTGCTAACCTGCCTGATCTATACA
R
AGTCTTTGAGAGGTGTTAAATATGGTTATTTATGCACTGTGGGATGTGTTCTTCTTTCTCTGTATTCCGATACAAAGTGTTGTATCAAAGTGTGATATAC
Celera SNP ID:            hCV27863067
SNP Position Genomic:     63146
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55453):
AATAACTTTCTGAATAGTATCAAACTGTTTTCAGTGCAGTGTATTAACAAAACTAACCTGCCTCAAGTTTGGTCAGCTTTGGAGTCTTACTGAGGCTAAA
M
TGATAAATCTAAATGATTTAAAATTGTGTATTCCTACACAGTATCTCACTTAATTATGTAATAGTCTTGTGAGTGAGGCAGAGCAGATGCCGTTTTCTCT
Celera SNP ID:            hCV1219069
SNP Position Genomic:     43648
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,8)      total(A,8|C,1) ;JBIC-allele(C,182|A,1311)   total(A,1311|C,182)no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55454):
TAAAGCCTTGCGCTCACACATTCTGCCTCCTAAACATTTCACAGAAGATGGAAATATCCTGCAGCTTGCTAACCTGCCTGATCTATACAAAGTCTTTGAG
W
GGTGTTAAATATGGTTATTTATGCACTGTGGGATGTGTTCTTCTTTCTCTGTATTCCGATACAAAGTGTTGTATCAAAGTGTGATATACAAAGTGTACCA
Celera SNP ID:            hCV27863068
SNP Position Genomic:     63157
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55455):
TGGAGTGCAGTGGCGTGATCATAGGTCACTGAAGCTTTGAACTCCTAGGCTCAAGTAGCTAGGAATACAAGTGTGTACCACTACACCTGGCTAATTTTTT
W
AAAAAAATTTTTTTCGTAGAAACGGGAGTCTTGTGTTACCAAGGCTAATCTCAAACTCATGGCCTCAAGTGATACTCTTGCCTCAGCCTCCCAGAGTGCT
Celera SNP ID:            hCV15994163
SNP Position Genomic:     56209
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,10)      total(A,1|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55456):
CTCTAGGGAATTTCTCACTCCAGTGGAGAAGGCAACACACTTACCAAACTGTGTGGAAACTATCTCATTTGATTAGAAATTTTACCTCAAGAAGAGGAAG
R
ACAGTTGAGAAAGAACATTTTCTTACACATGAGACAGCTAAGGCTTACAAGAAGGAGAGGAATAATGAGGCAAAATAATCCTCATTAATATTTTCATTCC
Celera SNP ID:            hCV11987929
SNP Position Genomic:     62346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55457):
GGAAGGACTTACACCTGATATATAACAAAGCTTGTTTTAATCAAGGCTCAGAAAATGTTTTTCATTAGTTTTTTTCCTAACCATGAAGAATAACTGCTTT
R
TAACACACATGCTGGCTATAAAGCAGACAAAAAATTCACTGTAGGTGCTGCCTGACTGGCCTCTGTCCGTGTTTCTGTTGGGGCTGCTTACCACAGCCTC
Celera SNP ID:            hCV28987630
SNP Position Genomic:     28162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55458):
TTTCTTTCAGTCTATTTTCTTTTCTTCCTTAGGCTTTGGCCAGCATAAGCCATGTGGCTCATGTTACTATTACAACGAAAACAGCTGATGGAAAGTGTGC
R
TACAGGTATAGTGCTGACTTCTTTTACTCATATATATTCATTCTGAAATGTATTTTTTGCCTAGGTCTCAGAGTAATCCTGTCTCAACACCAGTGTTATC
Celera SNP ID:            hCV7535133
SNP Position Genomic:     16981
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Scottish and American(A,141|G,-)      total(A,141) ;(A,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:55459):
TAGCAAAGAAAGGTCAAGCTCTTACGCATGCCATTCATTTATCTACACTGTGCAGGCGCACTCAGGTGGCAGGGACAAAGACCACTCCTTTGGCGCATCT
S
AAGTTCAGAATTCTCAGTAGAGGGGCTCCAGCTGTCCTTTTGTCAGGTGCCCATGCCTGCTCCAGGCCTGTGTGGTCAGGACACGTGTTACAGAGTACAG
Celera SNP ID:            hCV28987631
SNP Position Genomic:     28406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55460):
TTGCAGTTCCCTGGGTCATTTTCCAAGCCCATGGCCTCCTGGAGTCTTCGCCTAGCTGTAGGTTATCTTTGTGGCTATTATTTCACTGTAATTATACAGG
W
AGATTTATTGAGGGATTTCTGTGTACCAGCCGTGGTTCTCAGCACTTTGTATACTTTGTATTAACTCTGACTCCTGACAGTAACTCTACAGAGGTTCTGC
Celera SNP ID:            hCV7535134
SNP Position Genomic:     15510
SNP Source:               dbSNP
Population(Allele,Count): P|R90(A,33|T,143)   total(A,33|T,143)no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55461):
ATCTTTGTGATCGGGGTTTCTTGATACCATTTCTGTGCCATTTTCGGGACTGGTTGTGTGTGGTGTGGTTCTTGGACTTCGCCATGTCTACACCTTAAGC
Y
GCGGCTCCCGAAGCACCTAGAACCGGAAGAGTTGGCTCACTATTTAGCACACACACACGTCTATAATAGTGCTGGCCACTTGGGGTTGGAATTAGTTTAT
Celera SNP ID:            hCV28987632
SNP Position Genomic:     29515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55462):
TGATTGGCTGAAGGCACTTCCGTTGAGCATCTAGACGTTTCCTTGGCTCTTCTGGCGCCAAAATGTCGTTCGTGGCAGGGGTTATTCGGCGGCTGGACGA
R
ACAGTGGTGAACCGCATCGCGGCGGGGGAAGTTATCCAGCGGCCAGCTAATGCTATCAAAGAGATGATTGAGAACTGGTACGGAGGGAGTCGAGCCGGGC
Celera SNP ID:            hCV7535135
SNP Position Genomic:     6098
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Scottish and American(A,1|G,140)      total(G,140|A,1) ;(A,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:55463):
TCCCTGGTTGAAGGGATTCTCCTCCCTCAGCCTCCCGAGTACCTGGGATTACAGGCATGCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGAC
R
TGGTTTCATCATGTTGGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCCAAATGCTGGGATTACAGGCGTGAGCCACCAC
Celera SNP ID:            hCV28987633
SNP Position Genomic:     32426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55464):
CATGCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGTGGTTTCATCATGTTGGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACC
Y
GCCTCGGCCTCCCCAAATGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCACTTGGCATGAATTTAATTCCCGCCATAAACCTGTGAGATAGGTAAT
Celera SNP ID:            hCV28987634
SNP Position Genomic:     32481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55465):
CCTGACAGTTTAGAAATCAGTCCCCAGAATGTGGATGTTAATGTGCACCCCACAAAGCATGAAGTTCACTTCCTGCACGAGGAGAGCATCCTGGAGCGGG
Y
GCAGCAGCACATCGAGAGCAAGCTCCTGGGCTCCAATTCCTCCAGGATGTACTTCACCCAGGTCAGGGCGCTTCTCATCCAGCTACTTCTCTGGGGCCTT
Celera SNP ID:            hCV578262
SNP Position Genomic:     32914
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55466):
GTCAGATAAGCAGTCTACCAGAGAACAGACTGATCTTGTTGGCCTTCTGCCAGCACAGGGGTTCATTCACAGCTCTGTAGAACCAGCACAGAGAAGTTGC
Y
TGCTCCTCCAAAATGCAACCCACAAAATTTGGCTAAGTTTAAAAACAAGAATAATAATGATCTGCACTTCCTTTTCTTCATTGCAGAAAGAGACATCGGG
Celera SNP ID:            hCV28987635
SNP Position Genomic:     41209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55467):
TCTTGTTGGCCTTCTGCCAGCACAGGGGTTCATTCACAGCTCTGTAGAACCAGCACAGAGAAGTTGCTTGCTCCTCCAAAATGCAACCCACAAAATTTGG
Y
TAAGTTTAAAAACAAGAATAATAATGATCTGCACTTCCTTTTCTTCATTGCAGAAAGAGACATCGGGAAGATTCTGATGTGGAAATGGTGGAAGATGATT
Celera SNP ID:            hCV28987636
SNP Position Genomic:     41242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55468):
TTGTCAGATTTTTACCAGTTTGGTGATTGTGAAACAGTGTCTGATGGTAGTTTTTATTTGCATTTTCTTGGTTGAAATAAAGTTGTGTATTTCAGCCAGG
Y
GCGTTGGCTCATGCCTATAATCCCAGCACTTTAGGAGGCCAAGGTGGGCAGATCACTTGAGGCCAGGAGTTCAAGACCAGCCCAGCCAACGTGGCAAAAC
Celera SNP ID:            hCV28987637
SNP Position Genomic:     46955
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55469):
TTTTTATTTGCATTTTCTTGGTTGAAATAAAGTTGTGTATTTCAGCCAGGTGCGTTGGCTCATGCCTATAATCCCAGCACTTTAGGAGGCCAAGGTGGGC
R
GATCACTTGAGGCCAGGAGTTCAAGACCAGCCCAGCCAACGTGGCAAAACCCCATCTCTACTAAAAATACAAAAATTAGATGGGTATGGTGTCACATGCC
Celera SNP ID:            hCV28987638
SNP Position Genomic:     47005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55470):
GGAGGCAGAGGCTGCAGTGAGCTGAGATCACACCACAGCACTCCAGCCTGGAAGACATAGTGAGACTCTCTCTCAAAAAAAAAAAAAAAAAAAAAGGAAG
K
AAGCATTGTGAGGGCAGGTACCTTCTCTGTTTTGTTCATTGCTGGATGTAGTTAGTATACAGCAGTATCTGATGGATGGATAGATGGAGGAATGAATGAA
Celera SNP ID:            hCV1219070
SNP Position Genomic:     40893
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55471):
GTCAGTTCCAGAGTGGACAGCAGCTGGTCTCCTCCAATTTAATTCCAACACTGTCTACTTGGAGATAGCATTAGATCCCACAGGTTGAGGGTGCAGTCCC
M
TAGACTGCCCCCAGTCTCCTGCTTCAGACACCAGTCACAAGTCCAGGACTCTAGAAGTTCTGACCAGTTTCAAGTTGGGGTTCCCACAACCCCCCACTTT
Celera SNP ID:            hCV1219072
SNP Position Genomic:     35872
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55472):
TGTATGTTGGGATGCAAACAGGGAGGCTTATGACATCTAATGTGTTTTCCAGAGTGAAGTGCCTGGCTCCATTCCAAACTCCTGGAAGTGGACTGTGGAA
Y
ACATTGTCTATAAAGCCTTGCGCTCACACATTCTGCCTCCTAAACATTTCACAGAAGATGGAAATATCCTGCAGCTTGCTAACCTGCCTGATCTATACAA
Celera SNP ID:            hCV11987930
SNP Position Genomic:     63046
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): NIH Coriel panel(T,3|C,84)      total(C,84|T,3) ;(C,-|T,-)   ;(C,-|T,-)   TSC_42_A(C,-|T,-)   TSC_42_C(C,-|T,-)   TSC_42_AA(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55473):
ATGTACTTCACCCAGGTCAGGGCGCTTCTCATCCAGCTACTTCTCTGGGGCCTTTGAAATGTGCCCGGCCAGACGTGAGAGCCCAGATTTTTGCCTGTTA
Y
TTAGGAACTTTCTTTGCAAGTATTACCTGGATAGTTTTAACATTTTCTTCTTTGAACCTAGTTATAAAGGTATTGTGCTGTTGTTCCTAGGCTTAGAGTC
Celera SNP ID:            hCV1219073
SNP Position Genomic:     33061
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;JBIC-allele(C,193|T,1310)   total(C,193|T,1310)
SNP Type:                 INTRON


Context             (SEQ ID NO:55474):
GAAAGATGATGTAACTTACGCAAAGCTACACAGCTCTTAAGTAGCAGTGCCAATATTTGAACACACTCAGACTCGATCCTGAGGTTTTGACCACTGTGTC
R
TCTGGCCTCAAATCTTCTGGCCACCACATACACCATATGTGGGCTTTTTCTCCCCCTCCCACTATCTAAGGTAATTGTTCTCTCTTATTTTCCTGACAGT
Celera SNP ID:            hCV1219074
SNP Position Genomic:     32722
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55475):
CGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGTCACCACACCCAGCTAATTTTTTGTATTTTTTAGTAGAGACGGGGTTTCA
Y
CGTGTTAGCCAGGATGATCTCGATCTCCAGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCA
Celera SNP ID:            hCV1219075
SNP Position Genomic:     25622
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,12)   total(C,3|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55476):
TAAATCCTTGTGTCTTCTGCTGTTTGTTTATCAGCAAGGAGAGACAGTAGCTGATGTTAGGACACTACCCAATGCCTCAACCGTGGACAATATTCGCTCC
R
TCTTTGGAAATGCTGTTAGTCGGTATGTCGATAACCTATATAAAAAAATCTTTTACATTTATTATCTTGGTTTATCATTCCATCACATTATTTTGGAACC
Celera SNP ID:            hCV1219076
SNP Position Genomic:     24589
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,14)      total(G,1|A,14) ;NIH Coriel panel(A,-|G,-)   Italian families(A,-|G,-)   ;(A,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:55477):
GGACTTGCTGGCCCCTCTGGGGAGATGGTTAAATCCACAACAAGTCTGACCTCGTCTTCTACTTCTGGAAGTAGTGATAAGGTCTATGCCCACCAGATGG
W
TCGTACAGATTCCCGGGAACAGAAGCTTGATGCATTTCTGCAGCCTCTGAGCAAACCCCTGTCCAGTCAGCCCCAGGCCATTGTCACAGAGGATAAGACA
Celera SNP ID:            hCV27541345
SNP Position Genomic:     38261
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55478):
CCTTGCCATGCTTGCCTTAGATAGTCCAGAGAGTGGCTGGACAGAGGAAGATGGTCCCAAAGAAGGACTTGCTGAATACATTGTTGAGTTTCTGAAGAAG
W
AGGCTGAGATGCTTGCAGACTATTTCTCTTTGGAAATTGATGAGGTGTGACAGCCATTCTTATACTTCTGTTGTATTCTTCAAATAAAATTTCCAGCCGG
Celera SNP ID:            hCV27541346
SNP Position Genomic:     60151
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55479):
CAATCAAGGGACCCAGATCACGGTAAGAATGGTACATGGGAGAGTAAATTGTTGAAGCTTTGTTTGTATAAATATTGGAATAAAAAATAAAATTGCTTCT
R
AGTTTTCAGGGTAATAATAAAATGAATTTGCACTAGTTAATGGAGGTCCCAAGATATCCTCTAAGCAAGATAAATGACTATTGGCTTTTGTGGCATGGCA
Celera SNP ID:            hCV1219078
SNP Position Genomic:     19654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55480):
TGTAATTTCTGCCCCTTTGCCCTTCAGTTGGGGTATTGCTTTGGACCGATTAGAGGGCTGTGGCTGGGATGCTAAAGGTTCATGTTTCCTTAGCTGGCTC
Y
TGAGCCACCAGCTCCCACCACCTGTGTATACCTGTGCTAGTTTGCCTTCCCACAAGTAGCTGCTGGCTATCTGTTATGCTGGTACAGTTTTCAGAAACTG
Celera SNP ID:            hCV1219079
SNP Position Genomic:     17366
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55481):
AGATTAAACCCAGTTAGGGCAGCCCCACCAGCCTTGGAACCCACACATCTGGAGATTGTTGATGCAGAGAGAAAGGTTCCTACTGGTGAGACCTGAAAGG
K
ATATGTGGCAGGTGGGAGGAAGAAGTTCTGTCTGGAAACCAACCCTTGTTCCTCCGTTATTGATTGACTCCTGGTACCAACATGAGCCCTAGGTCTTATA
Celera SNP ID:            hCV27514670
SNP Position Genomic:     33980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55482):
CAGAAAACTTAAAATTCCCAAGCAGATGAATGCTTCTCGGAAGGACACTGACAGTTACCTACCTGGAAAGAATCTAGATGGAGGTGGCATGGGCACTAAG
Y
GGTGAGATTAAACCCAGTTAGGGCAGCCCCACCAGCCTTGGAACCCACACATCTGGAGATTGTTGATGCAGAGAGAAAGGTTCCTACTGGTGAGACCTGA
Celera SNP ID:            hCV27514671
SNP Position Genomic:     33875
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,181|C,1308)   total(C,1308|T,181) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55483):
GGAACAGTAAGGACAGAGCCAGTCATTTTACAACCACATTCTGTTAAACTGATGTCTATTAGCAGGGTTTTTCCTATTTTATTAGGAAGGACTTACACCT
R
ATATATAACAAAGCTTGTTTTAATCAAGGCTCAGAAAATGTTTTTCATTAGTTTTTTTCCTAACCATGAAGAATAACTGCTTTGTAACACACATGCTGGC
Celera SNP ID:            hCV27514672
SNP Position Genomic:     28078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55484):
AGCTTTTGCCTTACTCTTTATCCGACCACTGCCCTGCCAGGAAAACAAGGCTCTATAACTCCTCTTACAGGTCAGCTTGACACAAAAAGGGTGCCTGGAT
K
CCTAATGTTTCATTGTCACTTTTCCCAGTCAGATGATAATGCTTTTCAAATCAACATATATTTTGGGGGAGGTTGGAAGGGAGAGTTGAAATATTCTAAG
Celera SNP ID:            hCV28987640
SNP Position Genomic:     61976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55485):
AGGCAACACACTTACCAAACTGTGTGGAAACTATCTCATTTGATTAGAAATTTTACCTCAAGAAGAGGAAGGACAGTTGAGAAAGAACATTTTCTTACAC
R
TGAGACAGCTAAGGCTTACAAGAAGGAGAGGAATAATGAGGCAAAATAATCCTCATTAATATTTTCATTCCTCCCCTGGGGATTAGAACTACTTTCAGAC
Celera SNP ID:            hCV28987641
SNP Position Genomic:     62375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55486):
TGGTCACCCAGAGTGGCAGATAGGAGCACAAGGCCTGGGAAAGCACTGGAGAAATGGGATTTGTTTAAACTATGACAGCATTATTTCTTGTTCCCTTGTC
S
TTTTTCCTGCAAGCAGGAAGGGAACCTGATTGGATTACCCCTTCTGATTGACAACTATGTGCCCCCTTTGGAGGGACTGCCTATCTTCATTCTTCGACTA
Celera SNP ID:            hCV15759323
SNP Position Genomic:     61012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55487):
GCCCCAGGCCATTGTCACAGAGGATAAGACAGATATTTCTAGTGGCAGGGCTAGGCAGCAAGATGAGGAGATGCTTGAACTCCCAGCCCCTGCTGAAGTG
R
CTGCCAAAAATCAGAGCTTGGAGGGGGATACAACAAAGGGGACTTCAGAAATGTCAGAGAAGAGAGGACCTACTTCCAGCAACCCCAGGTATGGCCTTTT
Celera SNP ID:            hCV27541139
SNP Position Genomic:     38431
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55488):
CCCACCCAGCCTTATATTTTTTAATGATGCACATTAGCTCAATTACATAAACCAGGGAAATCCAGCTAGGACCTGGTGATTTCTGAGCCTGACCCATGTG
M
CTTTCAATGAACTGAACTTGCCACAGCTGTATTTACTGTCTACTGAGATGCTGTCACACAGACCCCGTCATAGCACAGTTCCTGAGTTACATCTTTACAT
Celera SNP ID:            hCV1219080
SNP Position Genomic:     16254
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,10)      total(A,10|C,1) ;JBIC-allele(C,182|A,1315)   total(A,1315|C,182)
SNP Type:                 INTRON


Context             (SEQ ID NO:55489):
GAGCCACCGCGCCCTGCAGTTTTTTGTATTTTTAATAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATTTCCTGACCTCAGGTGATCTGCCC
R
CTTTGGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCGCGCCCGGCTCAAGTGGAGATTTTTATATGGAGTCCAGTTATACTCTTTTTAATATAT
Celera SNP ID:            hCV1219081
SNP Position Genomic:     7705
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55490):
GTCTCAGCCATGAGACAATAAATCCTTGTGTCTTCTGCTGTTTGTTTATCAGCAAGGAGAGACAGTAGCTGATGTTAGGACACTACCCAATGCCTCAACC
R
TGGACAATATTCGCTCCATCTTTGGAAATGCTGTTAGTCGGTATGTCGATAACCTATATAAAAAAATCTTTTACATTTATTATCTTGGTTTATCATTCCA
Celera SNP ID:            hCV11987941
SNP Position Genomic:     24571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55491):
GCCCTGCAGCTCTACGGGATGAAGCTATACTCCAGAGTCCTGCTACATTGGCTGTGTGGCCAGCTGCTGGGATCTGAGGGTTGTCAGATAAGCAGTCTAC
Y
AGAGAACAGACTGATCTTGTTGGCCTTCTGCCAGCACAGGGGTTCATTCACAGCTCTGTAGAACCAGCACAGAGAAGTTGCTTGCTCCTCCAAAATGCAA
Celera SNP ID:            hCV16181046
SNP Position Genomic:     41127
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,195|C,1305)   total(C,1305|T,195) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55492):
CAGCAAAGGCACTGGCATACAGTGGCCACTGGAAGACAACCAGCAGGGGATGGGGGCGTTTACCCTTGCAAGTGAGCATTAGGAACTAGAGGACTGATTG
Y
CCTTTCTTCAGCTTTGGTTTCCCTTGCTGCAGAAAAAGATGCTGAGACTCATGGCCTCGGTTATGAACTCAGATATGTGGTTTGGCTTTGAAGCACAGAT
Celera SNP ID:            hCV27521685
SNP Position Genomic:     45377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55493):
TGTTTTCCAGAGTGAAGTGCCTGGCTCCATTCCAAACTCCTGGAAGTGGACTGTGGAACACATTGTCTATAAAGCCTTGCGCTCACACATTCTGCCTCCT
W
AACATTTCACAGAAGATGGAAATATCCTGCAGCTTGCTAACCTGCCTGATCTATACAAAGTCTTTGAGAGGTGTTAAATATGGTTATTTATGCACTGTGG
Celera SNP ID:            hCV27528227
SNP Position Genomic:     63088
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55494):
AAGAACACCATGGTGTTGTATGGGAATTGTTTAGGTAGAATGAAAGAAATCCTCTAATAGAGATATGAGGCCAGTTCAGCAGAAAGCCAGGGTGAGATCT
Y
CTGAGAGGGATGGAAGGGTGTCTTGATCATCTCTGGTAGCAGCAAAGGCACTGGCATACAGTGGCCACTGGAAGACAACCAGCAGGGGATGGGGGCGTTT
Celera SNP ID:            hCV27479715
SNP Position Genomic:     45237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55495):
TGGGATTACAGGCGTGAGCCACCATGCCTGGCCATTTTTCAGTATTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTGC
M
CAGGCTGGAGTACAATGGTGTGATCTCGGCTCACCGCAACCTCTACTTCCCAGGTTCAAGCAATTCGCCTGCCTCAGCCTTCTCAAGTAGCTGGGATTAC
Celera SNP ID:            hCV8256131
SNP Position Genomic:     22688
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,14)   total(A,14|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55496):
GTTAGATTACATTTTTTTTCCAGTGGAACTCTGCTTAAGTCCTGACCAGTATGTTTTCAGAAGGATCAGAGGGCCTGCCCTTGTCCATTGGTGCATGACA
Y
CAGCTTGGTGGGTTCCTTGCTGCTCCCTGTTTTCATAGGGTTATCAGAATACCTTCTCTCCCTGCCACCAGCAGGTCACACTGGCTCCTGACTTTTTGGC
Celera SNP ID:            hCV27479716
SNP Position Genomic:     35428
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,30|C,1461)   total(C,1461|T,30) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55497):
ATCATATTTCCCACTGTGCCCAGAAAGAGCACAGTTAGTCCACATGAGCTAATGGGGGCAAAGGGAAGTGAGGAGGGAGAATGTACTGCCTTATCATGTT
K
TCTATTACTTGGCTGAAGTAAAACAGTCCCAAGCCGATAGTAAGATAGTGGGCTGGAAAGTGGCGACAGGTAAAGGTGCACCTTTCTTCCTGGGGATGTG
Celera SNP ID:            hCV27831904
SNP Position Genomic:     29796
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,36)   caucasian(T,40)   total(G,2|T,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:55498):
ATATGGTTATTTATGCACTGTGGGATGTGTTCTTCTTTCTCTGTATTCCGATACAAAGTGTTGTATCAAAGTGTGATATACAAAGTGTACCAACATAAGT
K
TTGGTAGCACTTAAGACTTATACTTGCCTTCTGATAGTATTCCTTTATACACAGTGGATTGATTATAAATAAATAGATGTGTCTTAACATAATTTCTTAT
Celera SNP ID:            hCV7535085
SNP Position Genomic:     63266
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55499):
ACGTTTCCTTGGCTCTTCTGGCGCCAAAATGTCGTTCGTGGCAGGGGTTATTCGGCGGCTGGACGAGACAGTGGTGAACCGCATCGCGGCGGGGGAAGTT
W
TCCAGCGGCCAGCTAATGCTATCAAAGAGATGATTGAGAACTGGTACGGAGGGAGTCGAGCCGGGCTCACTTAAGGGCTACGACTTAACGGGCCGCGTCA
Celera SNP ID:            hCV27528305
SNP Position Genomic:     6132
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55500):
TACCTGTTTTTTGGTTTTATTTTTTGTTTTGCAGTTCTCCGGGAGATGTTGCATAACCACTCCTTCGTGGGCTGTGTGAATCCTCAGTGGGCCTTGGCAC
W
GCATCAAACCAAGTTATACCTTCTCAACACCACCAAGCTTAGGTAAATCAGCTGAGTGTGTGAACAAGCAGAGCTACTACAACAATGGTCCAGGGAGCAC
Celera SNP ID:            hCV27536614
SNP Position Genomic:     52764
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55501):
CTTGCCATGCTTGCCTTAGATAGTCCAGAGAGTGGCTGGACAGAGGAAGATGGTCCCAAAGAAGGACTTGCTGAATACATTGTTGAGTTTCTGAAGAAGA
M
GGCTGAGATGCTTGCAGACTATTTCTCTTTGGAAATTGATGAGGTGTGACAGCCATTCTTATACTTCTGTTGTATTCTTCAAATAAAATTTCCAGCCGGG
Celera SNP ID:            hCV27536615
SNP Position Genomic:     60152
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55502):
CCAAGAAGCCTCACAATGCCCAATGAAGAAAAGCCCTGTGCTTGGTGCTGCCGCCTCCCTTCCCCGTCCTGCTGGCAGGGCTGCGCTTCAGTAGCTCTGG
R
TGCGTCAGAGCAGTCCATGAACATTCTGTGTGGAAAATCTCTGACTGTTTTAGTGGATTACACTGCTCTCCCTTTCCTCCAGTGCCTCGTTATTCAGTAT
Celera SNP ID:            hCV27499255
SNP Position Genomic:     45689
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,47|A,1440)   total(G,47|A,1440) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55503):
GCACTTCGAAGATACCAGATTTTATGGGTCATCCTTGGATTTTGAAGCTTATAACTGTGACAAAAAATGTGAAGGGAAGAGATTTGAAACATGTGGAAGG
R
AAAGTGAGTGCAGACTATAAACTTCCAAAAAGACAAGCCCAAAATACACCTAAACGTTATGTCAGATTATTTTGTTAAAATCAGTTGTTAGTGACGTCCG
Celera SNP ID:            hCV27499256
SNP Position Genomic:     6855
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,177|A,1302)   total(G,177|A,1302) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55504):
CATCTAATGTGTTTTCCAGAGTGAAGTGCCTGGCTCCATTCCAAACTCCTGGAAGTGGACTGTGGAACACATTGTCTATAAAGCCTTGCGCTCACACATT
S
TGCCTCCTAAACATTTCACAGAAGATGGAAATATCCTGCAGCTTGCTAACCTGCCTGATCTATACAAAGTCTTTGAGAGGTGTTAAATATGGTTATTTAT
Celera SNP ID:            hCV7535091
SNP Position Genomic:     63079
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Scottish and American(C,141|G,-)      total(C,141) ;TSC_42_A(C,-|G,-)   TSC_42_C(C,-|G,-)   TSC_42_AA(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55505):
TATGTTGGGATGCAAACAGGGAGGCTTATGACATCTAATGTGTTTTCCAGAGTGAAGTGCCTGGCTCCATTCCAAACTCCTGGAAGTGGACTGTGGAACA
Y
ATTGTCTATAAAGCCTTGCGCTCACACATTCTGCCTCCTAAACATTTCACAGAAGATGGAAATATCCTGCAGCTTGCTAACCTGCCTGATCTATACAAAG
Celera SNP ID:            hCV7535092
SNP Position Genomic:     63048
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Scottish and American(T,2|C,139)      total(C,139|T,2) ;(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55506):
GACCCAGTGCACATCCCATCAGCCAGGACACCAGTGTATGTTGGGATGCAAACAGGGAGGCTTATGACATCTAATGTGTTTTCCAGAGTGAAGTGCCTGG
Y
TCCATTCCAAACTCCTGGAAGTGGACTGTGGAACACATTGTCTATAAAGCCTTGCGCTCACACATTCTGCCTCCTAAACATTTCACAGAAGATGGAAATA
Celera SNP ID:            hCV7535093
SNP Position Genomic:     63012
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Scottish and American(T,4|C,137)      total(C,137|T,4) ;(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55507):
GTTTCTTGATACCATTTCTGTGCCATTTTCGGGACTGGTTGTGTGTGGTGTGGTTCTTGGACTTCGCCATGTCTACACCTTAAGCCGCGGCTCCCGAAGC
R
CCTAGAACCGGAAGAGTTGGCTCACTATTTAGCACACACACACGTCTATAATAGTGCTGGCCACTTGGGGTTGGAATTAGTTTATTTATCAGCATGTTGT
Celera SNP ID:            hCV25644883
SNP Position Genomic:     29530
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,10)   caucasian(A,13|G,13)   total(A,35|G,23)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,12)   caucasian(A,18|G,22)   total(A,42|G,34)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,13)   caucasian(A,16|G,22)   total(A,35|G,35)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55508):
TGAGTTCATTGAAAAATTAGAATTTTTTTTTTTTTCCCTTTTTTAGAGGCAAGGTCTCACTCTGTCGCCCACACTGGAGTGCAGTAGTGTAAGCATAGCT
M
ACTGTAACCTTGAACTCCTGGGCTCAAGCAATTCTGTCATCTCAGCCAGCTGAAGTAGTAACTGTAGGTTCACACCACCATGCCTATTTTTGTTTTTGTA
Celera SNP ID:            hCV8256149
SNP Position Genomic:     12341
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,9)   total(A,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55509):
ACAGCTGAAGGAAGAACGTGAGCACGAGGCACTGAGGTGATTGGCTGAAGGCACTTCCGTTGAGCATCTAGACGTTTCCTTGGCTCTTCTGGCGCCAAAA
K
GTCGTTCGTGGCAGGGGTTATTCGGCGGCTGGACGAGACAGTGGTGAACCGCATCGCGGCGGGGGAAGTTATCCAGCGGCCAGCTAATGCTATCAAAGAG
Celera SNP ID:            hCV27863029
SNP Position Genomic:     6061
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55510):
ATTATTTCTTGTTCCCTTGTCCTTTTTCCTGCAAGCAGGAAGGGAACCTGATTGGATTACCCCTTCTGATTGACAACTATGTGCCCCCTTTGGAGGGACT
K
CCTATCTTCATTCTTCGACTAGCCACTGAGGTCAGTGATCAAGCAGATACTAAGCATTTCGGTACATGCATGTGTGCTGGAGGGAAAGGGCAAATGACCA
Celera SNP ID:            hCV7535098
SNP Position Genomic:     61091
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): NIH Coriel panel(T,11|G,870)   Scottish and American(G,141|T,-)      total(G,1011|T,11) ;(G,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55511):
CAAGGCCTGGGAAAGCACTGGAGAAATGGGATTTGTTTAAACTATGACAGCATTATTTCTTGTTCCCTTGTCCTTTTTCCTGCAAGCAGGAAGGGAACCT
R
ATTGGATTACCCCTTCTGATTGACAACTATGTGCCCCCTTTGGAGGGACTGCCTATCTTCATTCTTCGACTAGCCACTGAGGTCAGTGATCAAGCAGATA
Celera SNP ID:            hCV7535099
SNP Position Genomic:     61040
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Scottish and American(G,141|A,-)      total(G,141) ;(A,-|G,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55512):
GTACAAATAGCACAGGAGGACCAGCCCCATGCAGATGGTAGCCCAGGGGCGGGGGTAGGGGGTCACACCAGTCCTTCTGTCCTCATGTTGGCAGAGATAT
M
TACTCTGAAGCCTTTGTAGGGGCCTGGGCACCTTTGGGAGCCTGAGCTGGAACTGAAGGTGGAGCTGCAGCCTGGGCCTTGGTTTGATCCTTGGCCTTGG
Celera SNP ID:            hCV25644887
SNP Position Genomic:     29032
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,31)   caucasian(A,2|C,30)   total(A,7|C,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:55513):
TTTTGATTATTTAGGAAGACTCCCTGCCCTTCCTATACATTTCACATAATTTTTAATAAGTTGTAAAAAAGTGATTTATAGGATTCTTTGTAAGTGGGGG
A
AGTTAAGCAGACAAAAAGTTTTTAAATCTTACTGCAGAGTGTCAGGAACCTTTTATAGCACCAGACAGGTAGGGACAGAACATGAGTGGCAGCAAGCCAG
Celera SNP ID:            hCV11529291
SNP Position Genomic:     54429
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55514):
AGTTTAAAAACAAGAATAATAATGATCTGCACTTCCTTTTCTTCATTGCAGAAAGAGACATCGGGAAGATTCTGATGTGGAAATGGTGGAAGATGATTCC
Y
GAAAGGAAATGACTGCAGCTTGTACCCCCCGGAGAAGGATCATTAACCTCACTAGTGTTTTGAGTCTCCAGGAAGAAATTAATGAGCAGGGACATGAGGG
Celera SNP ID:            hCV27535899
SNP Position Genomic:     41345
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55515):
TTTCATTTTTGGGGCTCTCCATCTTGATGTGTTCTTTGGATCGTGAACAGATCCAAAGAAAAGGTTGTTCTGCCGTGCTGTTTGTCAGGATGAAAAACTC
T
TTTTTAAGTGTTTAGGTCTGCCCCCAGTGCCCAGCCCAATCAAGTAACGTGGTCACCCAGAGTGGCAGATAGGAGCACAAGGCCTGGGAAAGCACTGGAG
Celera SNP ID:            hCV11529298
SNP Position Genomic:     60862
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55516):
TTAGGAACCTGAGGCTGAATAAAGTTCAGGTAAAAGTAAAATTAGTTGAGAAGAGACATCTGCCAAAAGAAATCTATTTTTAACTTCACTTGCTGTCTTT
S
CTAGAGGAACAGAAATAGTGCTGAATGTCCTATTAGAAATGATGGTTGCTCTGCCCGTCTCTTCCCTCTCTCTCACACAATATGTAAACTCATACAGTGT
Celera SNP ID:            hCV15880367
SNP Position Genomic:     8886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55517):
TACAGCTGAAGGAAGAACGTGAGCACGAGGCACTGAGGTGATTGGCTGAAGGCACTTCCGTTGAGCATCTAGACGTTTCCTTGGCTCTTCTGGCGCCAAA
W
TGTCGTTCGTGGCAGGGGTTATTCGGCGGCTGGACGAGACAGTGGTGAACCGCATCGCGGCGGGGGAAGTTATCCAGCGGCCAGCTAATGCTATCAAAGA
Celera SNP ID:            hCV27863030
SNP Position Genomic:     6060
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55518):
GCTGAAGGAAGAACGTGAGCACGAGGCACTGAGGTGATTGGCTGAAGGCACTTCCGTTGAGCATCTAGACGTTTCCTTGGCTCTTCTGGCGCCAAAATGT
M
GTTCGTGGCAGGGGTTATTCGGCGGCTGGACGAGACAGTGGTGAACCGCATCGCGGCGGGGGAAGTTATCCAGCGGCCAGCTAATGCTATCAAAGAGATG
Celera SNP ID:            hCV27863031
SNP Position Genomic:     6064
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55519):
TCGTTCGTGGCAGGGGTTATTCGGCGGCTGGACGAGACAGTGGTGAACCGCATCGCGGCGGGGGAAGTTATCCAGCGGCCAGCTAATGCTATCAAAGAGA
K
GATTGAGAACTGGTACGGAGGGAGTCGAGCCGGGCTCACTTAAGGGCTACGACTTAACGGGCCGCGTCACTCAATGGCGCGGACACGCCTCTTTGCCCGG
Celera SNP ID:            hCV27863032
SNP Position Genomic:     6163
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55520):
GCAGGGGTTATTCGGCGGCTGGACGAGACAGTGGTGAACCGCATCGCGGCGGGGGAAGTTATCCAGCGGCCAGCTAATGCTATCAAAGAGATGATTGAGA
R
CTGGTACGGAGGGAGTCGAGCCGGGCTCACTTAAGGGCTACGACTTAACGGGCCGCGTCACTCAATGGCGCGGACACGCCTCTTTGCCCGGGCAGAGGCA
Celera SNP ID:            hCV27863033
SNP Position Genomic:     6172
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55521):
GTTTGTTATCATTGCTTGGCTCATATTAAAATATGTACATTAGAGTAGTTGCAGACTGATAAATTATTTTCTGTTTGATTTGCCAGTTTAGATGCAAAAT
Y
CACAAGTATTCAAGTGATTGTTAAAGAGGGAGGCCTGAAGTTGATTCAGATCCAAGACAATGGCACCGGGATCAGGGTAAGTAAAACCTCAAAGTAGCAG
Celera SNP ID:            hCV27863034
SNP Position Genomic:     9145
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55522):
AAATTATTTTCTGTTTGATTTGCCAGTTTAGATGCAAAATCCACAAGTATTCAAGTGATTGTTAAAGAGGGAGGCCTGAAGTTGATTCAGATCCAAGACA
R
TGGCACCGGGATCAGGGTAAGTAAAACCTCAAAGTAGCAGGATGTTTGTGCGCTTCATGGAAGAGTCAGGACCTTTCTCTGTTCTGGAAACTAGGCTTTT
Celera SNP ID:            hCV27863035
SNP Position Genomic:     9205
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55523):
TTCTGTTTGATTTGCCAGTTTAGATGCAAAATCCACAAGTATTCAAGTGATTGTTAAAGAGGGAGGCCTGAAGTTGATTCAGATCCAAGACAATGGCACC
K
GGATCAGGGTAAGTAAAACCTCAAAGTAGCAGGATGTTTGTGCGCTTCATGGAAGAGTCAGGACCTTTCTCTGTTCTGGAAACTAGGCTTTTGCAGATGG
Celera SNP ID:            hCV27863036
SNP Position Genomic:     9213
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|G,-)   no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55524):
GTTTGATTTGCCAGTTTAGATGCAAAATCCACAAGTATTCAAGTGATTGTTAAAGAGGGAGGCCTGAAGTTGATTCAGATCCAAGACAATGGCACCGGGA
W
CAGGGTAAGTAAAACCTCAAAGTAGCAGGATGTTTGTGCGCTTCATGGAAGAGTCAGGACCTTTCTCTGTTCTGGAAACTAGGCTTTTGCAGATGGGATT
Celera SNP ID:            hCV27863037
SNP Position Genomic:     9217
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55525):
TATCTAACAGAAAGAAGATCTGGATATTGTATGTGAAAGGTTCACTACTAGTAAACTGCAGTCCTTTGAGGATTTAGCCAGTATTTCTACCTATGGCTTT
Y
GAGGTGAGGTAAGCTAAAGATTCAAGAAATGTGTAAAATATCCTCCTGTGATGACATTGTCTGTCATTTGTTAGTATGTATTTCTCAACATAGATAAATA
Celera SNP ID:            hCV27863038
SNP Position Genomic:     13557
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55526):
ACAGAAAGAAGATCTGGATATTGTATGTGAAAGGTTCACTACTAGTAAACTGCAGTCCTTTGAGGATTTAGCCAGTATTTCTACCTATGGCTTTCGAGGT
R
AGGTAAGCTAAAGATTCAAGAAATGTGTAAAATATCCTCCTGTGATGACATTGTCTGTCATTTGTTAGTATGTATTTCTCAACATAGATAAATAAGGTTT
Celera SNP ID:            hCV27863039
SNP Position Genomic:     13563
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Gene Number:                 293
Celera Gene:                 hCG17163 - 67000129138293
Gene Symbol:                 ACCN3
Protein Name:                amiloride-sensitive cation channel 3, testis;ASIC3;SLNAC1;TNaC1
Celera Genomic Axis:         GA_x5YUV32VSYK(1712145..1728907)
Chromosome:                  Chr7
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12453):
ACATCCGCTTTGGGAAGCTGGAAGCTTCCGATGAAGAGGTGTACACAGCCGCCCGGGAAGCGAATGCTCACGAGTTCATCACCAGCTTCCCCGAGGGCTA
CAACACGGTCGTCGGTGGGTGCTCGGGTCTGCCGGGAACCAGGTGGTGAGGCACTGGGACACAGGATTCCACAGGAGCAGTGAGCAGCCCAGTGGGACTG
AGGGCAGCAGGGACAGCTGGGGAGAAAGACAGTTGTGTCAGGGAAGACGAGAACCACAGCCAAAGGGGACAGAGTCGTTGTGTGGGGACAGGGGAGTCCA
GGCCAGTGTGGTTCAGAACCAGCAGACCAGGCAGGCTGCAGAGACAGGACGGGCTCTAGGAGGAGCTGGAGAATGCGACAGAGGGCATATGACAGGCTCC
TGGCCAGGGACACAGTGATGCATGGTGTTTGGAGTCCTCACCGAGTCTAAAAGGCCGCCACTTCCCCAGACTGAACAGAAGAAATGGGGGGCTGCCTCCT
CTCCACCATCCATCCCCCTCTGGCTCCTGTTTCCTTCCTGTGCTTTTCATCTCTAAAGTCGTTTCTCATTAGAATCGGGGTGACTGGATGGGCCCCAGGA
GAGGGCTCTGGTGGTTCTGAACTAGGAACACGCAGCCTGGCACTGCAGGGCGTGCACCTTGCAGCTTGACGTGCGGAGCTCCCAGGTCTTTTTCCAGCCT
TCGGGGCCATGTTTCTCGGCCAGTGTCTTGGCTCTGTTGCACAGTGTTTCAGCACTTCTCAGGATACAGGGATACCTGGGCTTCTCAACTCTGGTCAGTC
TGAGTCCAGCCTTCTGAGCTGTGGGGCCAGTGTCCCCAGCCCAGCCATCGTGTTCTAGATGGCTCCTCCAGCCGTGTTGATACACTGTCCAGATGCCAGC
TGTCCTCACTGGGTGCTCTCCCACATCTCTTTTGGGTGGCACTTTCCTTGTGTCTCTGATCCTAGTACTTTCTGCTCATTTGGGCCTTCTTGGGGCTGCG
TCCTTACTGACCTGTCACCCTGCTGTCACCTTGAGGTTCTTTTTGGCTCCCAGGCTGCCACTTGTGCTGTCCTCTGTGGGCTTCGAATCCCACCTCCCTG
GAGTCACTGGACCCCAGAGCCCATGTTTGGGTGCTGGATGTTCCCCACAGCCACAGAGACCCGGGAGGCTGGGAAGGTGGCTTGGAACTGCAGGCACAGG
GCAGGGTGTGGGTCATCCTGGCCTGAGGCACTGCCATGGCTGGGGAGGGGCATTTGGCAACTCCCTTGGAGTGCACCAAGCCCTGCTGGCGGTGTCACAC
CACCCTCAGAGGCAGGGCAAGTGTGCACAGTGGCTGAGGGACCCAGAGGTGGGATGAGCCAGTGCAGGGGGAACCCAGAGGAGGAGTGTACACAGTGTGG
GGTGGGGGGTCAGAGGCAGGAGGAGGGTGCACAGTGCGGGGTGGGGGTCAGAGACAGGACTAGGGTGCACAGTGCGGGGTGGAGGGTCAGAGACAGGACT
AGGGTGCACAGTGTGGGGTGGAGGGTCAGAGACAGGACTAGGGTGCACAGTGCGGGGTGGAGGGTCAGAGACAGGACTAGGGTGCACAGTGTGGGGTGGA
GGGTCAGAGGCAGGACTAGGGTGCACAGTGCAAGGTGGAGGGTCAGAGGCAGGACGAGCGTACACAGTGCGGGGTAGAGGGTCAGAGGCAGGACGAGGGT
GCACAGTGCGGGGTGGGGGGTCAGAGGCAGGAGGAGGGTGCACAGTGCGGGGTGGGGGTCAGAGGCAGGAGGAGGGTGCACGGTGTGGGGTGGGGGGTCA
GAGGCAGGAGGAGGATGCACAGTGCGGGGTGGGGGTCAGAGGCAGGAGGAGGGTGCACAGTGCTGAGAGGGGCACTTAGAGGATCTTGATGGGCGTTCAG
GAAGGACCCTGTGCCCCTTTGTGGGCCACCCTCAAGTGCACAGCTTCAGGCTCCTGCCCTGCCCCTCCCTTCCCAGGTGAACGGGGCACTACCCTGTCTG
GGGGCCAGAAGCAGCGCCTGGCCATCGCCCGAGCCCTTATCAAGCAGCCCACGGTGCTGATACTGGATGAAGCTACCAGCGCGCTGGATGCAGAGTCCGA
GCGGGTTGTACAGGAGGCCCTGGACCGGGCCAGTGCAGGCCGCACGGTGCTGGTAATTGCCCACCGGCTCAGCACTGTCCGTGGGGCCCACTGCATTGTC
GTCATGGCCGATGGCCGTGTCTGGGAGGTTAGTTGTCCTGGGGGCGTGGATCAGTGGGTTGAGGATGGCTTCATCACGGACAGTGGCACAATGCTGCAAT
GAGTTATATGAAGTTGTGGCCTGGCCCCAGGGCCTTGGGGGCTATATTCTGGAAGCAGCGTCCCATATAGAGTCAGGAGTTCCTGCATTCAGCCAAGCCC
TGGCCTCTCAGGCCCTCAGTTTCTTCTTCTGTCCCCTGGGATAGTATAATTGCACCATCAGCTCCCAGGATCAAAAGGAAAAGTACTAGCCGGGTGCCTG
TAATCCCAGCACTTTGGGAAGCCAAGGCAGAAGGATCTCTTGAGGCTAGCCTGGGCAGCATAGCGGGACCCTGTCTCTACAAAATACCAAAAAAAAAAAA
TTAGCCGGATGTGGTGGCATGCACCTGTACTCCCAGCTACTCTGGAGGCGGAGGCGGGAGGATTACTTGAGCCCCAGAGGTTGAGGCTGCAGTGAACAAT
GATTGTGCCATTGCGCTCCAGCCTGGCATCAGAATGAGACCCTGTCTCAAAAAACAAAAAGGAAACATACTCAGAGTATGGTGCTGGGAGCAAGGAGCAG
GGCTAGCTGCCCAGGGTATCAGGTGCAGGAGAAGCAGCGCCAAGGAACCTGTGCAGGGAGTCAGGAGTAGGACCCCAGAGGCCGTGTGGCGTTGGCTAAC
AGCCACTCATTCAAGCCAAGGCTGAGGGGCTCGTGCAGGGAGACGGATCCTGAGTTGGAGCCTTGGGCTCTGTAAGGGGGACAGAGGGAATCATGTTCTT
CCAAAATTCAGCTAAGTAAGGAAGTGGCAGTAACTAATGCAGCATGCCAGTGGCGGTTCCTTTCAGATTGGGCATTGGTTTCAGAGTGTCCCCAGAAGGG
ACACCGGCCTAAGTGACCATGGGCCCAATGGCTGATAGAGAGGCTCAGCTCTCTGAGGGTTCTGAAGCCTGCATGCCTTGGAGCAACCATCCGCCCTTCC
CTCCCATCTTCCAGGCTGGGACACATGAAGAGCTCCTGAAGAAAGGCGGGCTATACGCCGAGCTCATCCGGAGGCAGGCCCTGGATGCCCCGAGGACAGC
GGCCCCACCGCCCAAAAAGCCAGAAGGCCCCAGGAGCCACCAGCACAAGTCCTGAGAAGGGCCCCCTGAGGTGTGGTCGCTGCCAAGCATCAGTGTTAGG
GCTGGGGCTCAGCCTGGGGGAGCCTACTGGGGACTGAGCCCCCAGGAGGGCCAGCATGTGGAGAGTCGCTGCGGCTGCTCCTGCTCACAATAAAGCCGGG
GCCGAGCAGCTGGCAGGGGAGGCCAATCCCTCCCTCCCCTCCCCAGTCCTGCCGGCTGCCTCCCTCCCACCAGAGTCTGCCAGAGTCATTGGGCTGCAAT
GGGCAGAGACAGAGTTCCCCGAGACACCTCCACTCTATTCTCCCTTTGCCCAGACCCCTCCAGACCTCTCAAGAGACGTTCTGGCCAGTCTCCCTGCCCC
ACCCAGCAGCTTCAAATTGGCCAGGCCTACAGTAGCTCCAGGGAATTTTTAAAAATCAGGGTCTGGAAGTGGGCCTGGGAATTCAAACCTAGGCTCTTCC
CACACCCTTGCTAGGACCTCACTTCCCTAGACTGGCGACTGACTCCCTCTCCTGTGTCCCCACTCCCTCCATGGGAGAAGGAGCCTATCCCCTGGCTCAC
CCCGGGACCCACAGTCCCCATCTTCCAAACAACCTCCCTCCTTTCTCCCTGCACAGTGAACACAGTCCTGATTTCTAGATTTCACCTCCCCTCCCCACCC
ACAAGGGACACAGGCCTAACAGGGCCCAACACTTGGGTCAGGGTAGGAGGGACGGGGCCACAATGGCCAGTTCCCACGAGAAGCGCCAGCCTGCCTGGCT
GTCTTCCACCGGCCCTGCCCTGTGTGCCTGGCGTCTTTCACCCACTGAGATTGTGAACCAGCCTCCATCTACACCAAGAACACCCAGCACTGAAGGAGAT
GGGAGGGGCTGATGCCCACCTGGAGCTCTCTGCTTCCTGCCCACAGTGCTGACGAGTACAGAGCTAAATGGAGCAGCTACTGCAGAATCCAGTACAGAAT
CGGTCCAGGAGGGTGCGGCTGTGGACAGGCCAGCATCCCCAGCAGGTTCTGGGAGGCGCACCTTGAAAGGGGAAGGCAGACATCCTGAGTGATGGGCGCC
TGTGGCCCTGAGACTGTGGATGAGGGGGCTAGGCTCCAGCTGGCTTCTGAGGGGCCTGGAAAGGCACACAAGTAGGTCCTTGGCTGAACTGGTGCCCCAG
CAGGACCTCGTGTCCCTGCACTGCTGCAGATGCATCAGCCCTCCCCATGTTGGTGCCGCTGTCACTTCCTACTGGGATCCTTCCCCTATCCAGCCACATC
CAGGCTGTGGGACTACACGGTGCCCTGTTCCCCTGGGCAGGAGAAGAGGTGGTACCTGCAATGCACCTTCACAGCCAGGCAAGCATTCTGGATTTACCCT
GTGTAAAGAAGGGTGGTACCCTCTTTCAGGGGTGTGATGCAGTGCATTGATGGAGCAGCTGGTGCTGCTGGGAGGCCAGCCTGGAAGAGGCAGCAGTGGC
TCAAGTTTGCGTGCAGGAGCCAGAGTGGGACCCACGGGCTCTTGTGGGTGTGGTTTAGAACTAGATGGTGCTTTGGGGACAAGCCATCCAAAAACCCCAG
GCCCACATCCACCCTGATTTGATATCCCACTTCCTGACAGATCAGAGGCTGTGTCTTTAGGCAGTGGAGGTCCAGGAGCAGAGCCTGGGGCTGGTTCACA
GCTAAACCCCTCCTTAGGGCAGCCCAGAGTAGGGCCTCAGCTGGCAAGTCCACAAGCCCTGCTGGGGCCCTGCTTGTTGGCCTGACCCCTCCCTCACCAG
GCAGCCAGCCAAGGTGGTTCCTGCTTCACCCACTCAGTCATCAGCCTCAGGCTGCCCAAAATGCCTCTGACACCAGATTTATATCTTCTGGGCGGCTTCT
TTAAATCCAGCCCTTCACCCGCCCCCTAGAGAAGCAGTGAAACCCCTTGGCTAGTCCAGCTGGAAGAGCTAGACCGCAGGAGCCGCGCCGTCTTCCTAAC
CTCGCCTCGGCCTTCGCTCCACAGTGGAGAGTGGGAGCCTAGCTGTGCTTGATGCTGAATGCCTGTTTTGAGAGTGTGAGTGGGATCATCTACAGTAAAT
ACTTGCAAAGCATGGCACTGTGGCTCTGGGGAGCTGGTACGCCTGTGCTGTAACCATGGTACTCAGTCCTTCCAAAGTGTTTATTAATCAAGCACCTGTC
ATGTGCCATTGAGCCCACGATGGGGAATGAGGACAGTCCCTGCCCCCATGAAGCTTGTGTCCTGTTGGGAGGACAGACAGGTGGCCCAGCAGTTGCAGCA
TGGTGTGTGCACACGTTTGGCTGGTGGAACCATGTTTCTACCACTCATGGTCAAAAAAAGCCCACCAAAGTCCTGGGAGTTCACATCTGTGTGATGATAC
GGCAACATTGTTTGTAATGGAAAGACTGGACACCCCCAGTGCCCATCAGTGGGGGAGTCATTAAATAAACTATGGTATGTGCACATAATGGGTGGTATGC
AGCCCTTTGGAAAAATGTAGGTTTTCCAGGTCCTGGATATAGCAGCGTAAGATGGGAAATCACAGAATACCCATGTTGTGCCTGAGATGGCAGGTGGGGT
ACCCGTGGTACCCGGGAGGGTGGCAGGTGGGGCACCCATGTTCTACCTGGGGTGGCAGGTGAGCCCATAACCATTGTAGAGGCCAACATCCTCAGAGGCC
TGAGTGTGGGGAGGTAGGCTTTGACTCCCTAGGGAGAGAGGGACACTTAGGAAACAGACGGGCCCTGGAAGTGGGACATGAAGAGTGCCCTRGCCATCCA
GTGTAGGCTGAGATGCTAGGGGCACAGAAAGAAGAGATCTGCTGATGCCAGCCTTCCAACCATTTCCCAGCTTGGCCAAGAGCCAGCTCTGGTATTCGTG
AAGGAACAGATCCTGGGTGAAGCTAGAGGGAAGGCCGCAGAGGCAAAAGGAGAGAGGAGCTAGGCCAGGGGTCAGCGACTGACCCTCGCGGCCAGTGTAC
AGGGGTTGCAACTGGGAGCCTAGGGGGCCCCAAGGCATCTCCAGGCCCAATCTACCTCTGGGCTTTTCTCAAGCTCTCCCTAGGATTACTGCGGTTTCCT
CCTGGCGCCTCTCGTCTTGGACAGCCATGCCCCCCTCCATGCTGCACTAATGGCTCAGCCTGGGGCCCTAGGGACCTCTCCTACCCCCCAGACTGCTCTG
TCGGCCCCCTTTCCCCCCTACTGCTGAAACCCAATCCTCTGCAGCAGCGCCGGCTCAGCACCGCCGGCTCAGCACCGCTCCGCAGCCCCTGCCTGCCACG
GTCAGCTACGTCCCACCTGGTCTGCTGCGGAGTCCCCAGCCCAGTGCCTAGCCCAGTGGAGCCACCGCCTGTTCCTCGGGAAGGAACAGTGGGACCTGAC
CGGCCAGATCACCTCCTCCAATCCTGCCAGGCTAGTGCCTCCCTGCCTTCCAACCTTGGCTGTCTCCCACCCTCTCTTCTCCTCTCCTTGCCTGGCCTCC
TGAATCCTATCTTAGCCTCCTTAGCCCCCTGACTGACTCTCTCTCGCTTCTTCCAAGCCTCTGTAGCTGGTTCCGCTCCTGGGTTCTGGCCATGAAGCCC
ACCTCAGGCCCAGAGGAGGCCCGGCGGCCAGCCTCGGACATCCGCGTGTTCGCCAGCAACTGCTCGATGCACGGGCTGGGCCACGTCTTCGGGCCAGGCA
GCCTGAGCCTGCGCCGGGGGATGTGGGCAGCGGCCGTGGTCCTGTCAGTGGCCACCTTCCTCTACCAGGTGGCTGAGAGGGTGCGCTACTACAGGGAGTT
MCACCACMAGACTGCCCTGGATGAGCGAGAAAGCCACCGGCTCATCTTCCCGGCTGTCACCCTGTGCAACATCAACCCACTGCGCCRCTCGCGCCTAACG
CCCAACGACCTGCACTGGGCTGGGTCTGCGCTGCTGGGCCTGGATCCCGCAGAGCAYGCCGCCTTCCTGCGCGCCCTGGGCCGGCCCCCTGCACCGCCCG
GCTTCATGCCCAGTCCCACCTTTGACATGGCGCAACTCTATGCCCGTGCTGGGCACTCCCTGGATGACATGCTGCTGGACTGTCGCTTCCGTGGCCAACC
TTGTGGGCCTGAGAACTTCACCACGGTGAGCTGACCTCCCTACCTATCCTGCCAGGGACCCAGAGAGCCGACCAGTCCCTGCCCAGCACCCACAATTCCC
TAGCCAGCACAGGCTCCCCCAAAGCCAGGGGACCTCTTCCTTCCTACCAGCCATGGACTCCCCACCCCCCAGTGCCACTCCGTGCAGCCCAGGAAGCTGT
CCTCCTTGGGGCTTTCTCTGTCTCCCAGCCCGAGGGGAGCATGTGAGGCCACACTGACCCCGGCTGGCCCTAGGCCTGAGGTCTGGCCCAGGGAGGCCCT
GCTCCTGGGGCTGGGGGTCCTCCATGGTGGGACCATTCTGGGGCAGAAGACCCCTATCTCTGCCAGGAGGTGGGGGGGGCTTGCTTTCCCTCTGCCTTTT
CAACATACTGCCAGCCCCGGAGGACAGCCACAGGGGCCCATTTCCTTTTCCTGCAGTTCCCAGAGAAACACAGAAAAACCTGTAGGCTGTGCCCTGGGCT
TTGGTGGGGATTGGCGGGGTGGAGGAGCTGAGTTGATGGGCTCCCAAGAGCGTCCTGCAACATGTGCCCACTGGAGCGTGGGGCTGGGGGCATTGAGATG
CGGGCTTCAGTATTCAAAGAAGAGACGCAAACATACCATGAGGTGGGGAGAGGTCCCATGACCATGTGCCTGCCTGGGGGAGATGGCCATCACCCTGTCT
GCCCGCCCCAGATCTTCACCCGGATGGGAAAGTGCTACACATTTAACTCTGGCGCTGATGGGGCAGAGCTGCTCACCACTACTAGGGGTGGCATGGGCAA
TGGGCTGGACATCATGCTGGACGTGCAGCAGGAGGAATATCTACCTGTGTGGAGGGACARTGGTAGGGAGCACACAAATGAGGCTGGGGGAGGGCACGGA
TGGAGTGCAAAAGGCTAGGGGAAGGAGAGGAGGAGAGGAGGTGTCAGGGTGTTCCCCCAGAACCTGTGAAAGGGGCTGGGCTGGCTCATCCCAGTCCTGG
GGAGAGGGGCTGCAGTGAGAGGTCTTGTCTGGTTGGGCAGGAGACCTGACCACACAGGTCAGGCCTCACAGGTCCCTCCCCGACAGAGGAGACCCCGTTT
GAGGTGGGGATCCGAGTGCAGATCCACAGCCAGGAGGAGCCGCCCATCATCGATCAGCTGGGCTTGGGKGTGTCCCCGGGCTACCAGACCTTTGTTTCTT
GCCAGCAGCAGCAGGTACCCTTCCGTGTGCCTCCACACCTACTACTTCAAGCCCACACCACCTCRGACCCTAAACCCTCAGCTCCTCAGACCTGTCTAGG
GGCCTCTCCCCAGCTGGCCTCTCACGCTCTCCGGGAAGCCTCCTTAACCCTGTCCCCCCACAGCTGAGCTTCCTGCCACCGCCCTGGGGCGATTGCAGTT
CAGCATCTCTGAACCCCAACTATGAGCCAGAGCCCTCTGATCCCCTAGGCTCCCCMAGCCCCAGCCCCAGCCCTCCCTATACCCTTATGGGGTGTCGCCT
GGCCTGCGAAACCCGCTACGTGGCTCGGAAGTGCGGCTGCCGAATGGTGTACATGCCAGGTGAGGGGCTGGGGTTTTCGTCCCATGGCGGGCAGGGCCCA
GGGAGCTGAGGCTGCTTCTAAAGCCATCTCCCCGGTACCCGCAGGCGACGTGCCAGTGTGCAGCCCCCAGCAGTACAAGAACTGTGCCCACCCGGCCATA
GGTAAGGGCGAGCCTCCCCCACCTCCCGTCCGCCCCGCTCCGCCCGCGGGCGTCTGACGCGGCCCGGTGGCCCGCAGATGCCATGCTTCGCAAGGACTCG
TGCGCCTGCCCCAACCCGTGCGCCAGCACGCGCTACGCCAAGGAGCTCTCCATGGTGCGGATCCCGAGCCGCGCCGCCGCGCGCTTCCTGGCCCGGAAGC
TCAACCGCAGCGAGGCCTACATCGCGTGAGCTGCGCGGGGCGGGCGGGCTCCTCCGAGCCGGGGGCTCCCGACGGGGCGGAACGGGGCAGGCCAGGCCGT
AGCCCTAGTGCGCACAGCCCGGGCGGAGGCAGCCTCCGCAGCCTCACTGGCTCTGGGGCTCCGTGCTGGTTGCTTAATCTTTCTGGCCCCGGGGGATGCT
GACGCCTCCTCCCAGGGGTCTGTTTTTTTTTCCTTTCCTTTTATTTTTTAATCTTTACTTTTAAAAAACAGAGACGGCGGGGGGCGGGGGAGGGGAGGGG
AGGGGACTCGCTGTATTGCCCAGGCTGGTCTCAAACTCCTGGCCTCAAGATCCTCCCTCCTCATCCTCCCAAAGTGCAGGGAGTACAGGTGTGAGCCACC
GTGCCCGGCCTCTCCCAGGGTTCTTGAAAGGAGTGGGAGAACCCACAGCTGCTTCTTGCCAGCAGTGGGCACCAGGCGGTGGCCAGCSCACATTTGAGGC
CATTCTTGTCCTCAGGGAGAACGTGCTGGCCCTGGACATCTTCTTTGAGGCCCTCAACTATGAGACCGTGGAGCAGAAGAAGGCCTATGAGATGTCAGAG
CTGCTTGGTGTGTGTGCAGGGCCCCCAGGGCTGGGGGGGTGTGGGCAGGCAGGTGGCTGTAAGTTGAAGGGTGACCCTGTCTCCACAGGTGACATTGGGG
GCCAGATGGGGCTGTTCATCGGGGCCAGCCTGCTCACCATCCTCGAGATCCTAGACTACCTCTGTGAGGTGGGCCAGGGCCCCCACTGCAGGGGGTGGGA
GGTGGGAATCAGGGCCCCTAGGATGAGGGRGAAGGTGTGCACTGGCCACCTCCCATCCTGCTTGCCTCCAGGTGTTCCGAGACAAGGTCCTGGGATATTT
CTGGAACCGACAGCACTCCCAAAGGCACTCCAGCACCAATCTGGTAACAGCCCCTCTTCTGGAGCCCTTGCCTGCTCCAAGGGTGCTAGGGCCCACCCCT
GAAGCCTAGACCACCATCCCGCCCCAGCTGAGGAGAAACAGGCAGGAGGGTGTGCAGTGACCTCGACTGGTCCCTGGGAGGAGGACCRCTCCCCACCTCT
GACCCTCTCGTCCTCACACAGCTTCAGGAAGGGCTGGGCAGCCATCGAACCCAAGTTCCCCACCTCAGCCTGGGCCCCAGGTAACACATAATGGCCCCCT
AAAATCAAGGGAGGGCAGGGGCAGGCTCAGGACAGTGGGTGTGCCCGTTCCCACCCCAGCACTCTGCTCTGTTCCGAAGACCTCCCACCCCTCCCTGTGC
CGTCACCAAGACTCTCTCCGCCTCCCACCGCACCTGCTACCTTGTCACACAGCTCTAGACCTGCTGTCTGTGTCCTCGGAGCCCCGCCCTGACATCCTGG
ACATGCCTAGCCTGCACGTAGCTTTTCCRTCTTCACCCCAAATAAAGTCCTAATGCATCAGCCTCAGCTGTTTCTCTTACAGGGCAGAGACTAGCCAAGC
CAAGGTCAGCCCAACTTAGGCATTGGAAGTCTTCTGCCAGCCATCATCCAGCTGGACGTGGCTTCTGAAATGTGGAGCTGGGCCCTTGAACCCCCATGAA
TCTCTAGGGGAGAATGGTAGCAAGAGGTTATCAGTCATTTGCACCTCAGTGTGAGTGAGTTTAGCCGACTGACATCTTAGAGAGAAGGGAGGACAGGTAT
CCTCCAAGCCCGGGTTAGGTGTGAGGTGCAGAATCACAGTCAGCAATAAAGGTATAACTGGAAGAAAACTCTGCCCAGAGCTCAGCAAGAAGAGGCAGGG
AGAAGACGGGGTGACTCCACTTTCAAGAACACCTGTGTCCTGCCTTACATCCTGACTCCTTTCCCACATTTGGGACCAAGTGCGGCACACAGCCTGTCTC
CATACAAACAAGTTCTGCCTCCTCAGCCTCCCCACAAGAGCTAAAGGCCCCAGGCTTGAGACGGTGGGGGTGGGGGTGGGGGTAGGCGGAGCCCTCCCTT
CCTCTTCCTGCCAGTAAGGACACACCAGGCCCCAGCCACAGGCCCAACTTCCCTCTCTTTCACTGGACCCCAAACATTGGGAAACTGACAAATAGGGAGT
GGGAGGGGGTGTTCCTGATGGAACCATATCTTTGGGGCTCTCCTGTGCCAGCCTGCAGGCCTTGGTATGGGGGGGATGATGAGGGAAAGGACAAGAGGAT
CCACCTGAGATATGGAGAACCACAAGGAGAGGCCCAGCCCTTTCCTCTCCACCCTGGTGGGGAGCCCATCCTTGCTCCCCTCACTCTGAGGGACCACATC
AGGCCCTCCTGGGCAGAGGAAGGGAGGGTGGGAGGAAGGGGTGTGCAGCGACAGTGCTGCCCTGCCCCAGGGGTGAGGGGTGAGGGTCATGGCCTCTTAA
AGTAGAAGAGCAAGGTGCTGTCTTTGAGCCAGAAGCAGGATTGCGGCCGGCAGTAACAGACCAGAGACACCTCCAGCCCATGGGCCCTGTAGAGCCACTT
GACCACCACATCAACCAGACTGTGGGAAAGGAGCCAATTTATGAAATTAAATAAAGTCCACAAAGGGAGTGAGAAATTCGGGCTCAGGCACCCCACCCCG
GCTGGGCCCAGCACTGCTGGAGCACAGCGCACCAGGCACCCCCACTGTCTCACCCCTCTCAAGAGGGGGCTTAAATAGGCCAGGCCCCAGCCTGGAGGCC
GGGGGTCCCGGGGCCTAGGGCGGACAGAAGTCGGAGAAGTAGGGGTGCTGCAGGGCCTCTTCTGCTGAGATACGCTGGACAGGGTTACACTTCAGAAGGT
TCTGGAGATGGGGGAAAGGAGGTGGCAGGTTCAGGACAGGTCACTGCCCAGAGCCCTGCCTTCCTGTAGTCCCACTGGGCAAGTGTCCTGACCCACCCTC
TACCCCTGGTCACCTACCTGCAGCAGATCCCTCCCTGTGGCATTGAGTTTGGGCACGACGTTCACCAGGGATGTTGTGGCCGGGTACATCGGATAGGGCT
GTGGAGAGGCAGGGAGGGTCAGACTAGAGGTAGGGGGAGGGGGATGGAGGCGCTAGGAATGTGAAACGAGTGACCCTGATGAACCATGACCCCCACATTC
CCCATCACACCTTATAGTCTGGCAGCTTGGTCATAGAGGGCCACTGCTCCTCGGTGGGCGTCCCCAGCAGTGTGTCCACGGAGTCAAGGATCACTTGGGA
AAGGGCCACAGCTGCATCTTCAGGGGCAGGGTGAGGGCCTCTTCCCCTCCTGGGGAGGGATTCCTCATACCCACCGCCCACTTCTCACCCTCCCTTTACC
CTCCGGCTTGAGCTTGACAGAAGCAGCCCCAGGCAGGTCACTCGCATATCCAGCCACGTTTCCCATGACAATCACCTAACCCACATGCTGCTGTCCTAGT
CCTAATGAAACAGTCCTTGCCCTGCTCCCACAAAATGTGTCCTGTTCTCTTTGGCTCCTTCATCCTGGCATCCATCTCTCACCTGGAGGGACACCCTCTC
GGCTTCACCCCTCAGGGCACGCTGCCTGTCTCCAAGCCACACCTTCTCCAGTGTGCATTTGCACTGTGACAATCAGGGTGTCCAGCACCCCTGCTCTCTC
CCCTTGCCCTCAGGAGAAGCCCTACAGACCCCATCACCCTACCCCACACCATCACTGCCCTCACCCATTGTGCTCAAAACTCCACGGACTCTCCCCTCCC
AGAGGGCTCAAGGCAGAGGAAAGCAAGGATATCGGAAGATCCTCTTCAACTGGTCATCGACATCATTGCCGGGAAAAAGAGGCCGCCCAGCATTGGCCAG
CTCTGGGGGATAGACAGGGGGCTAAGATGTGACATGTGAAGGACCCCTCACTCTGAGGTACCCCCTGACCTTCCAGCTCCAGTCCCAGGGCCTCCCTCCC
TTCCCCCAGAGGGGACCCTCCAGACCCTATTTGTCAACTCAAATGGGAAAGAAGGTGCCTCTGCAACACCCCAGCACATCACCTGCAAAGATGCAGCCGG
CTGACCACATGTCGATGGACGTGGAGTACAGCTTGGCCCCAAAGAGGACATCCGGTGGGCGGTACCACAGTGTGACCACCTGGAGGAGACCCCCCCCGAA
AGGGACCTCCCACTTAGAGGACTGGGGAGGAGGTTTGAGGAGGAGGCTCAGAGAGGAGAGGAAAATAATGTTTTGGGTCCTGGGGTTGGAGCTGAGGGAC
TCCCTCCCCCAATCCCATATCCCATCTTCTAGCTCACCTCAGCTGAGTAACAGCGGACGGGAATCCCAAAGGCTCGAGCCAGGCCAAAATCAGCCAATTT
CAGCTCCCCATTCTGAAGGGAATGGGAAGGGGACATGGAGAAGGGCCTTTAAAAAGCCTTGGGACAGCACCAACTCCATCCTCCCAGTCCTCTTCCCTCT
GTGCTCCCCGTGCCCTGGCCCCAGCCTCTCCATTCCCCACCTTCTTCCCAAGAAGTACCCTGTTTATTAGCAGGTTCTGGGGCTTCAGGTCCCTGTGTAG
CACATTGCGGCTATGACAGAATCCCAGCCCTTTTAGTAGCTGGAAGAGGAATGACTGGGAGGAGAGAGGGAGAAGGGAGTCAGACGCCCTGAACATGCAA
CTGTGCCCAGCAACGGGTCGGCTCCTCTCCTCACCCTGTGCTTCGCTCCACCCCACCCACCTTTCAGCACCTGGTTCAGAGTGACACCATTCATTCGCCA
TCCAGGACCTGCTTTATACTGTGCTAGGCATTAGAGGGACCAAAGTAAAGAAGCTGGCTCTGGTCCCCACCTTCCTGGACCATACAGCCTAATGGGCCTT
GGCAGGTGGATCCTAGATCCGGCCTAGATCCCAGCCCATGCTGATCTTCCCTTCCTGGCCGCATCTGAGTATGCACGCCGTGAACATCAACATAAATATC
GTGCTGTAGTATCATTCAGGACTGGCTCCCCTGGAACCTGGACCAAGGCATTTGGTCTTGGGCCTAGAAAAGCACCTGGCACACAGTGAAGCATTCAGTA
AGTATGTGTTGAATGAATGAGTGTATCTCCTTGAACCTCATTTTCTCATCTCTCGAGTGTAAATAATATCACTGACATCAGAGTGACACTGTGCGGGTCA
AAGATGACCACGTGAAAATGCTCACTAAGACTGGAGACCCCTGGAGGACAGAAACAGGGTTTTCTCATTCTCTAACACCCTAGAGTGTCCCTGTTCAGGG
CCCAAACTTAGAGCCCAAGGGGTGCTTACACCGAATGCAGACTCCGACCCCAGCCTGAGGGGTCCCCCAACACCACTCTCCTCACCTTTACAATCTCAGG
ATCGAGGTCACCATTGCAACTGTCAAAATACTTCTTCAGGTCCTGAAAAGGGATATGAGTGGGGGAATGGGACAGAGTTTAACCTCAATCTGGGCCCCTA
TACCTTCCCAAGGCTACTGTCCTCCAAACCCCGCCTTTCACCTGGTCACAGAATTCAAAAACCAAAGTCAGCTTCTTGTCGCTGTGCAGGACGTCATGAA
GCCTAGGGCAAAAGAAGGGCTCAGCCAGGCAGGTCCGCCTGACAGACGTCCAGTGTCAGCCCCCGCCTCCCCCAAGCGGCCACACCGGCAAGGAGCACCC
GCCTCCCGCACACCTGACGATGTTCTTGTGCTTCAGCTCCTTGAGTAGGCAGATCTCCCGGAGGGCGGAACTCGGCACACCCTGCATATGTGAGGGGGCC
GGTGGGCAGCAGTCAGATCCCACCCAGCCCAGGCCCTCAAACCCCTCCCCAGGCCGTATCCCACTCCCCAGTCCTACCTCATCATCGTCATCCAGCCTCA
CCCGTTTCAGAGCCACGATCTCATGAGTCTCCCGGTTTTTGGCCTTGAACACAGTTCCGTAGGTGCCTAGGGGAAGGAGGTCAGGGGTCAGGGTGAGGAT
GCGGCACTCTTCCCTAAGCCAGGAAATGCCTCCTGAGAGAGGTGAAGGCAGCGTCTCAGTATGCAAGGGAAGGGATTCAGGGTGAAGGTAGGTTGGTGAG
CTTTGTGAGTGAGGATGTGGCAGGTGGGGAGGGAGGAGAAGGTGCCCACCGAGGCTCCAGGGGCTCGGCAGGAGGGGCGAGTGCGGTTGCCAGGGCAAGG
ATGTCTAAAATGAAGGCGGTGCTCCGGAAGGGTCTGGAAATAGTGAGGAGGGGTCTGGGAGAGGACTGAGGGGCTGCAGAAATATTGAGGTTGGAGGTCT
GCAGCAAGAAACGAGGCTGGGGGTCGGGGTGAGGTTGTCCAAGTGCTGCTGAGGCTGGGGTGAGAAATTTCAGGAAGTGTCGCGGTTGGGAGGTCGGGTC
TACTGGGAACGCTAAGGTTGGAGTGAGAGCCCTGCGGGAAATGCTAACACGGGGAAGACTGGTGTCTGCACGGAGTGCTGAGCTAGGGGGCCAGGGCTGC
AGCCGCTGCTGAGATCGGAGCCTGTAGGCATTGCTGACGGTAAGGGAGCCAGGGCTTCAAGGAATGCCGAAGGATCTGCAGAGGAGCTCTTGCAGGAACA
TCTCGAGATTCCATTACCTTCCCCAATCTTTTCCAGTTTCTCGTATTTCTGCATCGCGGCGGCCGCGGGGACCCCTGCGGGCCCTCGGTTTTAAGACTCT
GGCCCCGGCGTTGCAGAGGAGGCGGCACCTGAGCCTCCAGCCCCGCCCCGTCTGCCCGCGCAGGGCCTTCTGGGGCTTGTAGTCCTAAAACGACTAGGTC
TCCCCGCAATGCCCGAGACCGAGGACAAGAAGACTACAACCCCCAGCCGTCTGCGCTCACGCTCTCTGCAGCACTCGACTCCAGGGCTCCGTTTCTACCG
CGGAGGCAAACCTTGGACTTCAAGTCCCAGGAAGCAACGCGTGTCCGTTTTCCGGGCGCCCCGCCGCGGCGCCGTGGTTCCCAGTGTGCCCCGCTGTTGT
TATTCCTTTTATGTGCTCCCAGCCCTCTTGAAAAGGGCCGCTCCGGGACTACGCGTTCCAGAATGCAGCGGAAATGGGGGCGGAGCGCTCTCGGTTAGGG
GTTTGGGGTTTGGCGGCCTAGATCCCGGGCACTGGCGGCCCAGCGCTGACCTGGTTGGTGGCATTGTGTTCCCAACGGCCTCTTGACGACCTCAGCACGG
GTTTCCACCTCTCCCCAAGCCACCTAGTGACCCCAGAATTGACTGGGGAATGCCTGTGAGCGATGATGACCTCACAGGGAACAGCTGACCGCAGGGCTGG
GAGAACAGCTGTGCCCCTTCGAGGCTGGATTTTAGTGGAGGGACACACGCCAAAGACCCCCTCTCTGCTGAGCCCCGTTTGTTGTCTCGGAGCCCACCCG
ACTCTAGCCGCTGAACTCTGACATGCTGAGGAAAACTGGGTGGAGCCCTGGGGGTCCCCCTCAGACCCCAGTCTCCGGAACAGGGCCCACTGGAGTCAGC
CAGGGTGTGGCAGGCAGGTTGGTTAACCCCCTCCACAGACAAGACCACAGACCGATGCTCAA


SNP Information

Context             (SEQ ID NO:55527):
CCCCACAGCTGAGCTTCCTGCCACCGCCCTGGGGCGATTGCAGTTCAGCATCTCTGAACCCCAACTATGAGCCAGAGCCCTCTGATCCCCTAGGCTCCCC
M
AGCCCCAGCCCCAGCCCTCCCTATACCCTTATGGGGTGTCGCCTGGCCTGCGAAACCCGCTACGTGGCTCGGAAGTGCGGCTGCCGAATGGTGTACATGC
Celera SNP ID:            hCV2073102
SNP Position Genomic:     8856
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,26)   caucasian(A,9|C,29)   total(A,15|C,55)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,8)   total(A,5|C,8) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55528):
TCACCCTGTGCAACATCAACCCACTGCGCCGCTCGCGCCTAACGCCCAACGACCTGCACTGGGCTGGGTCTGCGCTGCTGGGCCTGGATCCCGCAGAGCA
Y
GCCGCCTTCCTGCGCGCCCTGGGCCGGCCCCCTGCACCGCCCGGCTTCATGCCCAGTCCCACCTTTGACATGGCGCAACTCTATGCCCGTGCTGGGCACT
Celera SNP ID:            hCV25645298
SNP Position Genomic:     7257
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,37|T,1)   total(C,70|T,2)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,39|T,1)   total(C,76|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55529):
CAGGTCCCTCCCCGACAGAGGAGACCCCGTTTGAGGTGGGGATCCGAGTGCAGATCCACAGCCAGGAGGAGCCGCCCATCATCGATCAGCTGGGCTTGGG
K
GTGTCCCCGGGCTACCAGACCTTTGTTTCTTGCCAGCAGCAGCAGGTACCCTTCCGTGTGCCTCCACACCTACTACTTCAAGCCCACACCACCTCGGACC
Celera SNP ID:            hCV25645299
SNP Position Genomic:     8569
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,37|T,3)   total(G,70|T,4)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55530):
GGGGCAGAGCTGCTCACCACTACTAGGGGTGGCATGGGCAATGGGCTGGACATCATGCTGGACGTGCAGCAGGAGGAATATCTACCTGTGTGGAGGGACA
R
TGGTAGGGAGCACACAAATGAGGCTGGGGGAGGGCACGGATGGAGTGCAAAAGGCTAGGGGAAGGAGAGGAGGAGAGGAGGTGTCAGGGTGTTCCCCCAG
Celera SNP ID:            hCV11631019
SNP Position Genomic:     8260
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,13)      total(G,1|A,13) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55531):
TGGGGGTGTCCCCGGGCTACCAGACCTTTGTTTCTTGCCAGCAGCAGCAGGTACCCTTCCGTGTGCCTCCACACCTACTACTTCAAGCCCACACCACCTC
R
GACCCTAAACCCTCAGCTCCTCAGACCTGTCTAGGGGCCTCTCCCCAGCTGGCCTCTCACGCTCTCCGGGAAGCCTCCTTAACCCTGTCCCCCCACAGCT
Celera SNP ID:            hCV15879399
SNP Position Genomic:     8665
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(A,6|G,28)   total(A,11|G,57)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,309|G,1182)   total(G,1182|A,309) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55532):
GGTGTGAGCCACCGTGCCCGGCCTCTCCCAGGGTTCTTGAAAGGAGTGGGAGAACCCACAGCTGCTTCTTGCCAGCAGTGGGCACCAGGCGGTGGCCAGC
S
CACATTTGAGGCCATTCTTGTCCTCAGGGAGAACGTGCTGGCCCTGGACATCTTCTTTGAGGCCCTCAACTATGAGACCGTGGAGCAGAAGAAGGCCTAT
Celera SNP ID:            hCV25645300
SNP Position Genomic:     9788
SNP Source:               Applera
Population(Allele,Count): african american(C,26|G,4)   caucasian(C,24|G,2)   total(C,50|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:55533):
TACTACAGGGAGTTCCACCACCAGACTGCCCTGGATGAGCGAGAAAGCCACCGGCTCATCTTCCCGGCTGTCACCCTGTGCAACATCAACCCACTGCGCC
R
CTCGCGCCTAACGCCCAACGACCTGCACTGGGCTGGGTCTGCGCTGCTGGGCCTGGATCCCGCAGAGCACGCCGCCTTCCTGCGCGCCCTGGGCCGGCCC
Celera SNP ID:            hCV25645290
SNP Position Genomic:     7187
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55534):
AGGGCCCACCCCTGAAGCCTAGACCACCATCCCGCCCCAGCTGAGGAGAAACAGGCAGGAGGGTGTGCAGTGACCTCGACTGGTCCCTGGGAGGAGGACC
R
CTCCCCACCTCTGACCCTCTCGTCCTCACACAGCTTCAGGAAGGGCTGGGCAGCCATCGAACCCAAGTTCCCCACCTCAGCCTGGGCCCCAGGTAACACA
Celera SNP ID:            hCV29193866
SNP Position Genomic:     10388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55535):
CTGCTCACCATCCTCGAGATCCTAGACTACCTCTGTGAGGTGGGCCAGGGCCCCCACTGCAGGGGGTGGGAGGTGGGAATCAGGGCCCCTAGGATGAGGG
R
GAAGGTGTGCACTGGCCACCTCCCATCCTGCTTGCCTCCAGGTGTTCCGAGACAAGGTCCTGGGATATTTCTGGAACCGACAGCACTCCCAAAGGCACTC
Celera SNP ID:            hCV29193867
SNP Position Genomic:     10130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55536):
TCAGAGGCCTGAGTGTGGGGAGGTAGGCTTTGACTCCCTAGGGAGAGAGGGACACTTAGGAAACAGACGGGCCCTGGAAGTGGGACATGAAGAGTGCCCT
R
GCCATCCAGTGTAGGCTGAGATGCTAGGGGCACAGAAAGAAGAGATCTGCTGATGCCAGCCTTCCAACCATTTCCCAGCTTGGCCAAGAGCCAGCTCTGG
Celera SNP ID:            hCV29193868
SNP Position Genomic:     6092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:55537):
GCCTGAGCCTGCGCCGGGGGATGTGGGCAGCGGCCGTGGTCCTGTCAGTGGCCACCTTCCTCTACCAGGTGGCTGAGAGGGTGCGCTACTACAGGGAGTT
M
CACCACCAGACTGCCCTGGATGAGCGAGAAAGCCACCGGCTCATCTTCCCGGCTGTCACCCTGTGCAACATCAACCCACTGCGCCGCTCGCGCCTAACGC
Celera SNP ID:            hCV25645288
SNP Position Genomic:     7101
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,38)   total(A,1|C,71)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55538):
CCTGCGCCGGGGGATGTGGGCAGCGGCCGTGGTCCTGTCAGTGGCCACCTTCCTCTACCAGGTGGCTGAGAGGGTGCGCTACTACAGGGAGTTCCACCAC
M
AGACTGCCCTGGATGAGCGAGAAAGCCACCGGCTCATCTTCCCGGCTGTCACCCTGTGCAACATCAACCCACTGCGCCGCTCGCGCCTAACGCCCAACGA
Celera SNP ID:            hCV25645289
SNP Position Genomic:     7108
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(A,1|C,37)   total(A,1|C,71)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55539):
CGCACCTGCTACCTTGTCACACAGCTCTAGACCTGCTGTCTGTGTCCTCGGAGCCCCGCCCTGACATCCTGGACATGCCTAGCCTGCACGTAGCTTTTCC
R
TCTTCACCCCAAATAAAGTCCTAATGCATCAGCCTCAGCTGTTTCTCTTACAGGGCAGAGACTAGCCAAGCCAAGGTCAGCCCAACTTAGGCATTGGAAG
Celera SNP ID:            hCV15879400
SNP Position Genomic:     10729
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(A,101|G,1398)   total(G,1398|A,101)    
SNP Type:                 UTR 3


Gene Number:                 294
Celera Gene:                 hCG17255 - 145000146984117
Gene Symbol:                 HSPC054
Protein Name:                HSPC054 protein
Celera Genomic Axis:         GA_x5YUV32W2RH(44447069..44460248)
Chromosome:                  Chr8
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12454):
AGGCCTGCCCTCTCTATCTGTTCTTCCTGTTTGCCATGAAGAACAGCTGGCCGTGTTGGTTTAAAAGCCAGAATTTTTATTTGTTTGGAGTTTTGCCTCT
TCATTTTTAGCATTTCTCTCTCATCTCTTTCTGCCTTTGAGATAGCTGTTCACAGTGCCACATTTTCTGTGTCTGTGAAAAAACGAGCCCCTTAACCTCC
AGTACACACCATAGACATACTCACCCCCTTCTAAAATATTTATTCTTTTAGCAGCCCTGGCTGGTTTCCATTGTGTTTATTTAATCTTTCAAGAATTTTC
TTATAAAAGACTGGACAATCAATGCCTTTTTACTGATTAAGGTGAAAAGTTGTACATGGTTTTTCAAATATTTGTGCAAATGAGAGAATGTATGAGTCTT
TGCATGCATGCAGATATTATACCTAATGTTAGACTATAGCTGTAGGCAGATTATCTATTTACCTGTCTTTCTCTCCTTTTGGAATGCTAACTCTTAAAGC
ACAGAGAATATTAGTAGTTGAGTACTTACCAAGTAGCAGGCTCTGGGCTCTAGATTTTGGGGACACCCCTGCCATCGTGGAGGTTACAGTCTTCTCATTA
CAACTCTGACCCAGTCATTCTACTTCTTTGAAGATTATCCTGTATGCAAGCTTTACTTAGAATTGCAGAAAGAATGAGACATCCTTAGTGGTAAACATTA
ATGAAATCTACGAATAGATACTCTCAACAACAATGCATATGCATATCTGTTGACATGGAAAGACAGTCGTGTTGTATTAACTGGAAAACAGCATGATATA
AAACAACACAGAAAGGATGATCCCATTTTATGTACCTATAAGGAAATATTGTAGGATATATTTCTGGTTACATTAGTTATTTCTGGTTGCTAGAGTTTAA
GGACAATTGGGGTTTTTTGGGTAGTGAACATGTGATTTATATTTAATCAATATATAAAGAAATAGAGCAAGAAAAAAACACCACTGCCATGATTATTCAG
ATAGGCAGACTTTTTTCATTCATTCAACCACTATATATGGAGTGCAGCTATATGCCAAGCACAAGGCAGAGAACACAACATGCTACAGAAGTCCATGCCT
TTAGAGCATTCTAGAACACAATTTACATTAAAATGCTACTAGGTAACAGAAGGAGCAGCAGTGTATGTGGATTAGAGTCACCTCAGGATTTCCATCGTTT
CTCAGAACACACTGTTTTGTTTGTGGGTGGAATAAAGGAGGCTGCCATGTTCAGTGTACATAAAGAAAGCAGGAGGTTTTCTCAAAGAGCAGGCATTGGT
ACAACATGTCATTTAATAGTTAAGAGGTGGGGGAAGGTAGCCTAATGGGTTATGCCAGCCACTTATCTTTAGGATAGTCTGGATAAAATATAAAGTACTA
TTTCTCATGTCCTCTGCTTATGCTGGGTCCCCATACACCATCTGAACTAATGGACTTTTTGGCATCATCTCCTTAAATGCATCATAGGGAATGAATTTCT
CCACCAAGAAGCCCCATTATGGCTTTGTCAGCCTAGGTTTTGATTTAGCGATAGCAATATGTGCCTTCCAGACATAGGATGGCAATGAGGGAGGGCCTCT
GCTGGTCCTTAAGTGCAGGGAGCCCCCCTTCTTAGAGATTAATCATCATTGTGACAGATGTGCTTTTGCTGAAACTTGGTCCAGAGAGCAGCAGATAAAG
ATTTGGATGATGTCTCCTTCCTTCTTTCTTGGCCAAAGGAAGCCAGCCCAGTGCTGGGCTTTCAAGAATCCAGTTGTTTAGAAAGGAGGGAGGTAATAAA
GCAGAAAAAGATGTTTTATTTTTAGAAATTAATGTGCAGCTTTCTGATCTCCCAATCCAGTTCAGGTTCTTTCAACTTCATTATCTGTTGAGAACTATTA
GCCTAAGAAATGATGTGACTGTGGTTCTCTACCTTGGCTGTGTGTTAGAATCATGCTAGAAACTCTTAAAAATCTAGGCCACATCCTAGACAATTAAATC
AGAAACTCTGGGGGAGGGGTCTAGGCAGCAGTGTTTTAAAGCTGCCAGGTGATTCCAGTGTGCTGCTAGAACTGAGAACTTCCACAATATGGTTATACCA
GCTACACAAGGCAGAGAGTTTTTACCTTGAAAAAATTAAAAAACAGCAGTAGTGTAAAAATATTATCCTCTTATTAAAAGAAGAAACATGTGACAGAGTG
AATTCATTTAGATGTCTTGTTTGGTTTGATTTTAAATTACCACACTTAAGGTTGAAAGCCTTATCTGTTGTTCCCCATTCTCATGGCCTGATCACTGTGA
AATTCTGGGACCTTAGAAGCCTTTTGTATTGACTGCTCGCTCGCTCGCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTATTTTTCTTTTACTTCTTGTTTGGCCAAGAAACTGTATGTGTTAATAGCTTGTTTGTTTTTCGTCTTTTGTTTTGGCTA
AATTGCTTTTCAAGAAACTGCCTGACTCCTTGTTTAATTAACTTCCATATCCTGCATATGTGGCTCATTTCACAGTCCCTCCATCCCTTAGTGGTTTTCC
AGTCCACCACGAAGATTTGTATGAAGAAAATAGCCACCTCATCTATTTATACTATTTTATCTTGATGTTTTTCATTGTTTCTCTGAAGCACATTATTTCT
GATCTTGAAATGTAATGTTTTAAAATATATTTTTATAGGAATTTATTTTTCTCCTCTGAATTGCCTTTGTTGTTATTCCTTTGGATTTTGAACTCACTTA
ACTCTGTGCTGGAAAGTTTCTGCTGATTTTTGTCTTCTTGATCTCTCTGTTTCTTTAAATTCTAAATTATTTTGCATTTTTCCTTACTGTTGAATTGCAA
CACTTAGTCTCTCTATCTTGTCACAATTTATGGAGAATGATAGCAGAATCCATCTCAATAGTATAGCAACTAAACATGTATATCATCGTTTCCTAGCTGA
CAGCCTGCATGGAGATGCATCCTTTAAAAAGGGGATGAGGATGAGAAAGGTACTGTGCCATATAGTGTTGGGCATACAACCAAGACGGCAGTAGACACAA
TTTGTTAGTGATGTCCAGTTACTAGTATTGCTGAGTTTATTTGTGACCTACTTTTTTACCTTTTGTATTCCCTGTGCATACGTGTAGCATTAAAACAGTG
TTCTGTTGCCAACATCTCCAAACATTAGAAACATAAGTAACTGTTTTTTTCAGTTTCCCTGGGCTCCACAGAATGTAGAGTGGGCACATCTGCACAAAGC
ACAGGGCACAGCTTGCCCTTGAACGCTTCACAGCCTCTGTCGTTGCCACTGTTATCCGCTTGTGTACTCATCCTAGCCTCTGGGCAGACCTGCAGAGGCA
CGGACACACGGGCATCCAGCTTATTCCTTCCCTTTTTTCACCTCCCCATTTAGCTTGTCTTCTTTACCCACTTTCCACAGTCCTCTTAGGTAAGAGGCCA
TTCATTTCGTTAATAAGGATGTTTGTTTATTTGTGTTTCGAAAGTACATGCTATGTTCCAAGCACTTTGCTAGCTGCTAGGATGCAATTGACTACAAGAC
AGATGTGTTTTCTGCCGCCCTAATACCTGTAATCTGGTCGGGCAGACATATGAATAAACAGGAGTTTACAGTGGAGTGTGGTCAGTGCTGTGATGGAGTT
AGTGCAGAGGTTCTGGGAGACCATGGCAGGGCACCCAGCCTTGTCTCCCGAGTCAAAGAAGGATGTCCAGAGGAAGTGGCACCTCAACTGAGATCAGAGG
GATAGAGGTGGGAGAGAACCTGCCACTTTTGAGGAAGTAAAAGATGTATGTTATAGCTAAAGGATAATGGGGAACAAGAACGGTAATGAGCCTGGAAAGA
TGGGGGGCTTATCTTGGAAAGGCATGGAAAGCCTTTAGGGTTTGAAGCAAAGGATTGGCATGCTCTGATTTGCTTTTTAGAAGGACCATTGTGACTGCAG
TGTGGAGAATGGATTGGAGAGGGAAAGCATAAATGAAAGGTAACAGTGTTTGTAGACATGACCCAGTGAGAGCTATTGGTGGCCTGGCCTCGAAGAGGAG
ATGGGATGGAGCTAGCAAAGATAGGGATTCAGGAAATATTTAACCCATGCCTTCTGTCTCAGGGCAGGAGTGATTTTCAACCCTTGAAAATGAGGGCTTG
TCCTGCCTGTCTGCCATTTGGAGTCTTCATCTATGTTGTACATCATGTTGAAAAGATGTGTATTAGCTTCCTACTAATCAAAGCATGTTTGTGGATATGG
ACACCATTACAGGTTTCTCATGCTTCCCTTGGCTCCCAGACACTGGGCTAAAGTGTTGGATTGGTTGTGCAGTATCCATACTTGTCAACTAGCTATTTGT
CATTTATTTTGCACCCTAGAGGCCAAAAATGTTAGAGCAGAATGATTCCTTAAGTTTTATCCCATCCAACACCCATGTTTAGCAATGAAGACATGGGGAT
TCAAAGAAGGGAAGTGATTTGCCTGGACTCCCACAGAGAATTGGGACTGGAACCCAGATGTTTCAGCTCCCAGTTATGTGATTCTTTGGGCCAGACAATG
GCCTCTCTGGCCAATTTAGCTACAAGAGCATGTCACTTTGCCAGTTTTACTTTTCCCACTCCTTTTCAGCAGCAGTGAGTTAGTCTAAAATGTGGCAGTT
AAATAAATCAAGGCTGATTTTGGGTGCACCCTTCCTTTAAGGCAATGGGCCTCTCCAGAAGGAACAGTGTGAACATTGTCTTCCAGCTCTACCTCTGCTC
CCCGCCCCCCCGCTTTGTTTTCTTTGTCTCTGACAGCAGTGGACTCAGAACCTAAATTCCCCCTTCTTAAGCCACTTGGTGAGTGGCAGGGAGCAGTAGG
ACTCTGAGAGGTTCTGGGGGTTTTATTGTGATGGGAGATAGTCGTCCTGCACTTCTGTAGATTACAGGCCAGCAGGTGGAAGCCTGGGCTGTGGAATCAG
ATTGGGTTTGAGTCCCAGGTCTGCTTCTTGGCCACTGGGCATGCAAGGCCTTCATTTTCTCATCAGTGAAATAGGAGCAGTCATACTTAGTTGACCCTTG
AACAGCCACAGGTGTGAACTGTGCTGGTCCACTTATATGTGGATTTTCTTCAGCCAAACGTGGATTGAAAATGCAGTATTTGCAGGATGCAAAACCTACT
TATAAGGAAGGTTGACTTTCTGTACCCTCAGGTTCTGCAGGGCCGACTACGGGACTTGAGTATACACAGATTTTGATGCATGGGGGGAGACGAACTAATC
TCCCACAGGCAGTGGGACAACCACAATTAGACTTCAGATTTTAAAAGATAATATATTTTTTAAAAACCAGTGCAGCGCCTGGCCCATAGTTGATGGTAAC
TATGCTTAAATTAGATTATTATTCGCTGTCCTTTTACTACAGTTTCCCAAACCATAGATTTAACCCCCCACACAGCTGTCTACCATCAGTTGCCCTGGTA
TCAGTTTTTTAATGAAATTTCAGGAGTGTGGGATTCTTTGTCTCTGCCCTTCTAATAGGTGGGAACTCTTACCTCTCTCATCCACTTAGCCCCCCAAAAA
AGACAGTTAAACTTGAAAGCTACCAGACTGTGAAAAAGTAAATAAGAACCCCTGGCCAGGGAGAGGGCTTCAGCCTTAGATGTTTACAAGGGCCTGAAGC
AGAGAAAGAGATAGAAAATATGTAAAAGCAAATTTTACCTGCTTGGAAAGTAGCTTAATTTTTTTTTTTTCTTTTAAACTAATTCTGTAGTCGGCCTTGT
GCTCTGTAGAGCTGGATGAATGGTTAAAAAGAAAGGGGGAAAAGCCAGAAGAAATTAATTCTGTGGCACAGAGCTGTGAATTCTTCCTTGATGCAGGATC
TGAGGTTGAAGGAGGTTAAATATGTGAGGGCCAGAAGGAAGTATCATGTAATGAATGATAAATCTCTAGCTGCTCCTCAGCAGGGCAAAACATGGGCTTA
GCAAATGGGAAAAAAAAAAAAAAAAAGGGAAGTAGCAGGTGGAGATAATTTAAATAGCACAGGGACCCCTGCTTACCAATCCCTCCACAGAGTTTTGCCC
TGGAGTAAGCATGACATCAGGGTGCTTGCTGCTTCCTCCAGTGGCCCGAGCTCTGTGTGCCTTTGTTGAACAAGGTTTTCGTGGAGCTGAGGTGACTCTC
ATGAACAGAGAATACCTGTCCTTCATACAGAGAAGCACCCAAATGCAAACATCTACTTTTTCTGGTGTTCAACCAGGTAAACCTCTGTTTAGCAAGAAAC
ATCATCCCCAGAGTGGGGACTGTCTTGTCCTTTCAGAAGCTAGTACCCTAAGCAAGACTCATAAGGAAGGTCGGGCCTCCCTAGGTCTCTGTTTCTTCTG
AACAGTGATGAGCTAGGTGCAGAGAGAGTTAAAGGTCACTATGCAGCTGACAAGTGTGACCAGTTCCCAGTAAATTCCACTTGGCTGGGGTTTCAGAGGT
GAGCAAGGCAGGCTTTTTACTCATTACACAAGAATCTAGACATCCCTTTAATTGGGTGGCATTCTGGGTGCTAAAAGGAAGGGGCTTTGAGAGGCAAAGA
TGATGGGATATCATAAATTTTTTTGTTTCCTTTTTAATATAGCGCAGCTCCTATACTTAAGATTTAACTTTGAAATGTAGCATAGCTAAGATCTGGTCCA
AAAAGATTTCTGATATCTCCATGAATCCTAGTTAGGGATTGATAGGAAAAAAAAAATCTTGTGCCACAGCTTCATGCTATTTTTAGGAACCTTTCTGAAA
CCAGTGGCAGCCCAAGTTAGAGCCCAGCATTAAGTCCACCTCATGCACATCATACAGTTGCAGCTTATGGTAAAAGCTTTCTGCAAAGCTTTTCTGCTCC
TGGGTTAAGGCCTTCCAGCATCAGTCACATGTAATTAACAGCTACATTGTGTGCTTACTTTTTGCTAGATGTTTCATAAACATTATCTCATATAAACCTC
ACAATAACTAGGTATTATTRTCCCGTATCCCTGTTTTACAGCTGTGGAAAGTGAAGTGAAGGATTTTTGTCATACAGCCAGTAAGTGCCAGAACTGACTT
GAACCTAGCTCTCTGTCTTGATTCAGGAACTACTGCTCTTTCCATTGGTGGCTCCTGGCTAATCAATGTGATAGTCTTTGAAGAAAAAAAAAAAAGAGTT
ACTATCTTCAGAGTTTTAAACTTATCTGGGAGAGAATTTAGGACTTTTCTTTGTGAGACAGTCTTGCTCTGTTGCCTAGGCTGGAGTGCAGTGGTGTGAT
CATGGCTCACTGTAGCCTTGAACTTCTGAGCTCAAGTGATTCTCCTTTCTCAGCCTCCCAAGTAGCTAGGACTCCAGGTGCATGCCACCACACCTGGCTA
AATTTTTAATGTTTATTCATTTATTTATTATTTTGTAGAGACTGGGTTGCGCTATATTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGCAATCCTCCC
ACCTCAGCCTCCCAAAGCACTGGGATTACAGATGTGAACCACTGCTCCCAGCCTAGGACATTTTTATTATTCCTCTCGCTGTTAATCCAACAACCCTGTC
CACATTCCTGTAAATTGGCTTTGTTCATCTTTTTTACTTCCAGACATGTTAATTTTAAAAAGAAGGCATCTTACTATCTTTTTAATGGCTTCTGTTTTCT
TCCAAGTTAAACCAAAGAGTCATTTGTAATTTGCCTCAGTAATTGGACTGTGACTTTAAATGGCTGCTAGAATTGGCCTTTTGTTGACTTTACTGGAGTT
AAAATAATTCTCTGTTTTCATTAGCCAAGAGAAAGACTTGTGACTCTTGATGCTTTTCCCACTGCAGGAGCAAAGCAGTAACCCCAGTAAGGGAGAAGAG
AACTTAGATTTGTGTAAGTCCACTGTGTGTTGGACACTTAAACATACTTTAGATGTATTATCTCATTCATCTTTCTGACTGCATGAAGGTGCTATTGCTG
TCCCCATTGTGTAGGTGCAGAGAGAGTTAAAGGTCACTGTGCAGCTGGACATGTAGTCGATCTGGGATTCAAACCCAGGTCTGTCCAGCTCATGTTATTT
CTACTGTATCACACTTCTCACCTGTATATGTTGAATGGCCAGAGTGAAGGCTGGGCTTTATGGGATACAGAGGAGGTGACTGTACACCAGGGGAAATCAG
TGTCACCTTTCTGACGCTCCGTGGCATTACCCTCATTCAGAACTCATTACCAAATACTTCATGTAAGTAACCTCGAAAGTCTTATGAGTACATCGAGAAC
TAGTTCCAAGTCACAGAACTGTTCTTGTGGTGAAAGTGGTTGAAAGGCTATAGTTCATTTTGGTTATTGGATGGAAATGCCCTCTCTCTCTGGTTGATTA
ACGGAGAAGACTTAGTATACCAGCCATTGTTTCTTCGTATGGAACGTTGCTTGTTTTGTCCCATTTTCTCATCTGCAAAATGTGGGTATAATACCTATTA
CGTAAGATTATTGTGAGAATTGAGAAGTGTGATAATGTAGGTAAAACATTAGCAGAGTATTTGGCTCTTACATAGAGGCTCAAATTGCATTAGTGGCAGG
AGGAAAGTCTGTTTTATTCATTGTTGCTCCCTCAGCAGCCAGGCCATTGCAAGGCACATGGTGCACATTCAGTAAATGTTGGTGAGTCATTGATTTCTTT
TCTCCCTTTGTACTTATTTTTTACAGATATTTGAGCACCTAGCCTTGTGCTGGACAATAGGGGACATGGGGTCCTTCACACAAGAAACATTTGTAGCCTC
ATGAGATAGATGGTCATTTGTGAAAATAATCTAAAGAAAATGACCCATTGTTGAGTGGTAGATGGTGACCCTTGAGGCTATAGTGTGCAAAGCTGATTTG
GAAATCCCTCCAGCCAGCTCTGGGGCTGATTGTGGTGGGGGTGGGGGAATCCTTACTTACTACTTTTGGCCCTGCTGTCAGAATTGGACCTTGTACTGTC
ATTCTAAGCTGGGTTGAGCCTGAGCACGTCTTGTCACCTCTGTGACTGAAGGCTGATTTAATATGTCATGAGGCAGTTTGGTTTCAGGAAGTGGTTTGCT
GGGGCATGAGCGATGGATGTTGGAAGTTAGAAAAGAGCCAGAAATTAAAATGCTGCCTCAGTTGGGTGATTGAATCCAGTCTTACCTGGTGGGGCAACCA
CTTATTGATTTGGAAAGCCTTGGTGAATCCATTTTTTGCTACTCACACTGGGGAATGGGGACCAGCAGCATCAGTATGACCTGGGAGCATCTTCAGAATG
CTGAATCTGAGCCTCCTCGTCAGACCTGCTGAATCAGAATCTGTATTTTAAAGAGATCCCCAGATATTTATGTGCAGTGTGAAAAGCAAGCTTTGGAAAA
GAAAGGGCAATTCTGTAGACTTTAAGCTTAGGAACAAGAGTATTTTTCTGGAGTCATTTGAATGTCAGTCGTTAAGCAGGGCTGCCAATTAGGGCTGATT
TTCTCACTGTTTAATACTTGCCAAGTATCTTGAGCAGTGGCTTCCCAGACTGAGCTGCTAACTGAATAAAGGTGGCATGATTGCCGATGAAAATAATAGT
ACATTCGAGTTTTAAAATGTTTTTATATAGATCCTTTTCTCTGTTCACAGAACAGTCTTGTGAGATCATCTCATCTCTGCTTTACAGGTAATAAAACTGA
AGCACAGAGAGGTTATGTGACATGCCTAGAGTCACACAGTAAAATCAGTAGCAGTTTTGAACTGAGGTCTTAAAATTCCAAGAAGTTGGGAGCTTGCTTT
TTTTTTCCTTTTCACCATCTAAATTTTCCACATTGAGATATGAGAGAAATCCTCCATTTCTGCCATTGCATTTGTGTAGGTGCACAACAGGGAACGTGAG
ACAATTATAGTAGAGAATAATCTGGACCAGGAATGGCGTTCTGCAATAATCACCTCTTGAACAATAAACTTGGAAAGTTTCGTGGTTGTTTCTGATTCAG
AGCCTGGAAGAGCAAGCCATTTCCCTCCTCCTACCCTTGGTTTACTAATCATTCACTTCCTCTTCTGTAAAGCCCAACTCAAAGGACCCCTGCTTTGTAA
AGCCTTCCCTCTGGGATGGGATTGGGGGGCAGGCAGATAATTGGTTCCTCATTCATATTTTATTCATACTTCTGTTAACAAAGCTGATCACACCATCTTA
ACTGCACATCTTATTACCCACATGCGCAGACAAGGCTGTAAGATTCCTGAGGATCTAGAAAGAGTCTTCTTCACCATTGTAGCCCCATTGTCTGGCATGT
GTTGGTCCTTCATACATGTTAAGTGAATGAATGCGTGTATGCATGATTCAGACTTTGTTTTTTGCCTTTCTTTTCTTTTTCCCTATAGTCTGCTCTTTAT
AGATTTTTAATAGCATCCAAAAGGGTAGTAGGGGCAGGAAGCTAAAGGGTAGGAAATAAAACTCAAATTCTTCAGTTTCGAGTTCAGTTCTCAGTTCAGC
TCCTCTCCAGCAGCTTTTAGGAAAGCATTTTAAAGAAAGGGAGGCTCACTTGGGGCTTGAGGATGGTCTGGTCCCTCACAGTGAATAGACAAGCATCAGG
CGCAGCTGCAGTTTTTACGGAATACGTGCACATTACCTTTCCTCAGTGTCCCCTCGTAAGCAGTGAAATGTAATAAATGGCGTTTTAGGGAGCCGAAGAG
TTGTCAAGTTTCCACAGTTTGGAGAACTTTAACATATGGCATCTTGGGATCTAATGAAATAAATAATTCATGCCTGGAAATATAAGCAAGAGTGAATCTC
TCTCCTTGCTATGTGAATGGGGACTTTGGTTGCCTTTTTCAAGGTATGTATGAAACATATTTATTCAGTCCACTCATTTATGTCCCTTTACTTTCTCACT
CACTCGTCAAACTTATCAGCCTCCTCTTCCCCTTCCTTTTCCCCTCTTCTTTTCCCTCCTCCCCTCATCTCTCTTCTCACCGAAACCCTGAGGGAGATAG
GAAGGTAATAAGTATTATTGTTTTGTCAGTGTCTCCATCACACACCTTCTGTTTTTCTTTCTTGAGGCATCTCAGAGGGAAGTGGCAGGAGATGACTTTC
AGCAGACCTTTCCCCTTAGTGAGGACAGTAAGTCCCAAGGACATGTGGAGGCAAGGATGAGGGGCAGATGAACAAGCAGCTGTCTGGCCTAGGTCTTACA
GAATTATTTTTCCTGGAATTAATATGCTTAGAATGTATACTTTAGCAAGTGTCTATTTCTGGCTCCAGCATTTTTCTTTGGGTGTCAAACCTGGTTTTAT
CTCTGAGATTTTTCGACACTAGGAGAATTTGACATTCACATTCTAAGAGTGTTCTGTAATGTTTCCATTTACATACCAGTTTTCTTCATTTTTTGGCTGG
AGGGGTATGTGAATATATACAAGAATCTGAGCAGATTCATTTTTAGCTGCAGCAGAGGCAAGCCTCAGGGGAAAAGTCAAGATAACTGGATTCCTGAAAT
GGTATAACTTGGCAACTCGTCTTTTCTGTTCCTTAGCCTGTAAAGCATTATTTGGTTTTAGAAGAGGAGTAGCTCCTACTTGTGAAGGTCTTCATTGGAA
TGGCACATTGAATGCATGAACCCTTAAAATCCTTACTCCCTTTAACCCAAGCCACATCTCAGTGGCTTTAAAGCATATCAAAGCAAGGAGGGGAAAGTCT
GTGTGATACGGTACTAAAATTGATCCTGTAGTACCAGGCATGAGGAGAGGAAGGAGGAGTATCATCATTATCCTGTTAAGGATTTGTCATGCCTCAGAGC
ATCTGCAAGGAAATAGTCCACAGATAAAGTTCAGCAAGTGATTTGCAATTGGTAGAGGTGGTTTGGCATTTTGAAAAGCTTTATAAATGTGACTGCAGCC
TGAGAAGAATGACCACCACTGGAATGAGGGAAGGCTGGAAGGATTTAAGGGGTTCTTTATGAAATCAGGCACACATCCCCATGTCGACTAGGCTAGACTC
AGGCACCATAATAGCCCTGGTTCAGGGTCACTCCTCTTTCCAGGAAGGTTTGGATCCTACAGTTAGAAAAGAGGAATCTTGGATCTCTAGGTAAGGGTTA
GAGAAAGTATTCTGGGCATCCCAAGTTAGAATCTGGTGTCTTTGCTTAACGAGTTCTGAACATTTCATGTGAGGGAATATGGGCTACTGTTGTAGGCCTT
GCTGTTTCACCTGAACCATCCCTGCCCTTGAAGGACTTAAAGTTGGAAGGAATGTGAGGAGGCGGAGTAGCACAGTTATATGACATCTAATCCAAAGTAG
AATATGCGAGCCTTAAGAGAAGTGCAGAGGGCTGTGAGGAGTATGAAGTGGCTGGCAAATAGATTCAGTATTATATTTCATTTATTCATTCTGCAGATAT
TTATGGACCACCCTTTTATGTTGCTATTGCTGTGCTAGTATTGGAGATACAAAGATGAATATGACACCTCTCGGGCCGTTGCCAACTGTCGAGTACCAGG
AAGAGCGCTTAGATAAATGACCATGTACAATGGGGTACGTGCAATTATAGGTCCACTGTTATTTGCTGTTCTGAATTCCAAATGTTAAGAGTTTTGACAT
GAAATTTTGTTTCATGAGGCTTTTAGAAGCTAAACTAGAAACGTACTGGATATTTAAAAACTGTGTTACCAGAATCTGATAATGGAGTTCTACACTAGTC
CCTGTGGGGTATGTTGTATAATAAACAATAAGTATACTGTAATTTCTTTCTGAAATCTACAAAAGTATGAATTCTAAAACAGCCAGCCCCAGCTAAAGGA
TTGTGGATACAAGTAAGATACTTCAGGTGATTTGAGAGTTTACCTGGCTGTATGGGCTACCCTGGGAATATAACCACTCTTTATAACATCCTTTCTTCGA
GAATGGTATGTGCTAAGTTATAAACAGCTGACTTAGGGCCATCATTTTAAAGTATGAAGCCTTCCAGTCTTCGCCTCCCCAGTCTTTTCCATTCTTAAAG
TTTGGACCAGTCTGCAAGGTAGCTGCCTCCCTAAGGATTTGGGGTATTCTCTAAAATTTGAATATATGATATTCTTGTGCCCTTTGAATACGCTGTTTAA
AAATAAATTTTAAAGAATATTCTCATGTAAAAGTAACACACATACTTTGGAAAATACAAAACATAGGAAGAAGGAAAAA


SNP Information

Context             (SEQ ID NO:55540):
ATCAGTCACATGTAATTAACAGCTACATTGTGTGCTTACTTTTTGCTAGATGTTTCATAAACATTATCTCATATAAACCTCACAATAACTAGGTATTATT
R
TCCCGTATCCCTGTTTTACAGCTGTGGAAAGTGAAGTGAAGGATTTTTGTCATACAGCCAGTAAGTGCCAGAACTGACTTGAACCTAGCTCTCTGTCTTG
Celera SNP ID:            hCV2059713
SNP Position Genomic:     7020
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 UTR 3


Gene Number:                 295
Celera Gene:                 hCG1729264 - 206000044142596
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W40L(6625418..6639666)
Chromosome:                  Chr5
OMIM number:                 603401
OMIM Information:            ADAPTIN, BETA-3A;AP3B1


Genomic Sequence (SEQ ID NO:12455):
AAAGTGCCTTCCAGGTAGAGGGTCCCAGGGAATAACCTATAGTGGGACTGTTACTAATATGCAAAAGGAATAGCAAGGAAGTCATGGCGATGAGTAGAAT
AAACAACGAGTTCAAGAGTAATAGGAAACAAGATCAAGGAAATGGAACAAGGATCCTGGCCATTGGCGGGTTTTGAGCAGAGGGGTAACATGATACAACT
TTTCTTTTTCTTTTAACTTTTATTTTAGGTTCAGGGGTACATGTGCAGGTTTGTTATACAGGTAAACTCATATCACGGAGTTTGGTGTACAAATTATTTC
ATCACCCCAGTGCATGATGTAACTTTAACTGATACATTCTAGCTGCTGTGTTCAGGATAGACTAACATAGCAATTCAGTCTATGTTCAATAAGATGCAGG
GGTAGGAACAAGGAAACCAATTAGGAGGCTGTTGGAATAATCCAGATGATAGGTGGTGGTGGCTCAGACCGGGCTGGCCACAGTGGCAGTAGTGAGAAAT
AGCCAGATTATTTCATTAAAATAACTGGGTTTTCATCCATGATGACTCCCTCAGGTGTCAGCTATGACTTTTGTGTTCTTCTAGCCTACTGAGCCTGCTT
CTGTCATGACATTTATCACACTAGTTGATTTACTCTGTTTTCCCAGGCTAAACAATAAACTTCTTGAGGACTAGGATACTTTGGCTTTGTCTCTGTATCA
TACTCCTTAGCACAGGGCTGGTACAACTCATTGAATAAATGTTATTTACATGAAAGAATGAATTAATAAATTAATGGTGAGTAATGATTAATGATTTGTA
GTTACTTTGTGTTTGAAATAACGGTGTTCTTATTGGACAGAGAGCTGTGAAATACCTAATTCTTGCACGTTACCACCTTTCTCCCCAAGATGCCCAAGGG
AGACATAGGGTCAGAGGACAAAGAAAGGCAAAGCCGTACTTTGTTGTTATTGTGGGCCTTGCTCTCTAACCGCAATACAGAACTCCAGTGAGTTAGGTTG
GCCCACATCAAGGACTCAAAGTTCTTTTCTATTAAAGGTAGAATTAAGTAGCCTTGATGCAAAACAAATTATTAGTTGAGTCACATGAAATTGATAGTTT
GACTGTTTTTGACCTACAGATATGGCAGATACATATGGTTCAGTCTAATCAAAAGCCTTACCTGAGTCTGTGATCTCCTGGCTCCATATCTACCAGGACT
TTAGAGAAAGTGGGGGAAGGGGGCATTCTCCCATTACAAGCTTATTTCCCCTTCTAATTAGTGTCCTGAAATCTGACTAATCCCAACCAGTAGTAGAGTG
GGGGAGATAGATGATAGAATCCCAATTTGAACTAGGTTAAGTAGTAAATAAATAAATAGGAAATTACAGCTACAGTTCAGAGAAAACAACTTCAGCAAGG
ACAGTAATGTGTCTGGGCATCAAGAACCATCCAGCTCAAAGTTACCAGCTAGTTTCTCTGTCTCTCATCTATGCTTTTCTTTGAAATTTGCTTTATTATT
TTTTTTTCTCACTGAACAATGTGGCAGGAAATGTGGCCACAGACAAAATTAGAGTTTTAAATCTCAGAATTTTAGCTGCTTGAGAGAGTCTGGCTCAAAT
TACTAGGTACCAAATCCAAAAATCCTAGGAAAGGAACTCATTGGGCCAAATGTCCATCCCTGAACCAGTTAACTGCAGCCAGTCATGGGGAGGCATAAGA
ACTTGCCAGCTCCATCATGGGCTGAATGTGTTTCTAGAAAATAGTAGGGCATGTTGGGCTGACAGTCTCATACATAACCACTATAGGGTAAAGAAGCATT
GGGGGCAAAGCTTCCTCAAAAGGCCAGCACTTAGTCTTGAACCAAATAAAAGCAATTCTGAAACAATGAATTCTTATTCTGCATTGTCATTGGACTTACT
CAACACTTTGTTGTCGGCTATCAGAACATTTCTGATACTTCAGAAACCCACAGGAATAATTAAAGTCATAACATGGATTTTCATAAAGGAAATCCAAAAG
AAAAAAGTAACCTCTACTTTGTAAAGTTGTATTCTGATTAGTAAAGCCACTAGCCTGTATGGCACCATTGCGCAGATTCCAAAAAGTTTCCCTTGAATGT
AAGCTGGATTTTAGCTCCTATTCACCCTTTCAGTCAGTTGCCACTGCACAGATGTATATGGTGGTCTAAGTGTTAGCTGTTTGAAATAAGCGGCTCTGGG
AATTGTTAAATTATTTTTTTTAAATCAAGCATCAAGAACTGTGAAGAGTCTGAGATGTTACCCTACTTACAAGCTAACTAGTTAATTTGCAACAATTTCA
TGAATGCTGGTAGAAGACACAAGACTCCTGGTCAGAGACAAAGGACAGTTTGTTAAAGCAATAGAAGTAGCCAGAGTAGCATCATTTGCATCACTTCTCT
GAGCCCCACATGCTGAAGGCTAGGTGAAGCCTGCACATGCATTGTGTTGCTTTACAGGAGAGGAACCTGATCAGAGTAAACAGACAACCTACAGAATGGG
AGAAAAATTTTGCAATCAATCCATCTGACAAAGGTCTAATACCCAGAATCTACAAGGAACTTAAGCAAATTTGCAAGAAAAAAAATCAAACAACCCCATC
AAAAAGTGGGCAAAGGATATGAACAGATACTTCTCAAAAGAAGACATTTATGTGGCCAATAAACATGAAAAAAAGCTCATCATCACTGGTCATTAGAGAA
ATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGGGATCATTAAAAAGTCAGGAAACAACAGATGCTGGAGAGGATGTGGAGAAA
TAGGAACACTTTTACACTGTTGGTGGGAGTGTAAATTAGTTCAACCATTGTGGAAGACAGTGCGGCAATTCCTCAAGGATCCAGAACCAGAAATACCATT
TGACCCAGCAATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATTCTACTATAAAGACATATGTGCACGTATGTTTATTGCAGCACTATTTACA
ATAACAAAGACTTGGAAGTAACCCAAATGTCCATCAATGATAGACTGGATAAAGAAAATGTGGCACACATACACCATGGAATACTATGCAGCCATAAAAA
AGGATGAGTTCATGTACTTTGCATGGACATGGATAAAGCTGGAAACCATCATTCTCAGTAAACTAACAGGAATAGAAAACCAAACACCGCATGTTCTCAC
TCATAAATGGGAGCTGAAGAATGAGAACACATGGACACAGGGAGGGGAACATCACACACCAGGGCCTGTTGGGGGTTGGGGGAGTAGGGGAGGGCTAGCA
TTAGGAGAAATACCTAATATAGATGACAGGGTGATTGGTGTAGCAAAACCACCTTGGCACGTGTATACCTATGTAACAAACCTGCACATTCTGCACATGT
ATCCCAGAACTTAAAGTATTTTAAAAAAAAAAAGATTCTAGGCTTTTATAAGGGGACTGTTAGCAAATCTATTCAGCCTTTGCCCCAGAGGGAGATTTTG
TCTTTCTAATCCTGGACAATGAACAAACAAATCTATCACCTGCCCCAGAGGGAGGCATTACCTCTGTCTTCCAAAGGCTGTTTGCTGTGGAAACATCTTT
GAAAAGAGCTTCAGAAGCAAAGTTGCTAATGTTTCTGCTCAGAAGACGTGAGACCTGTAGAGCCCTTTTTGGCACCAGGGACCCGTTTTGTGGAAGACAG
TTTTTCCATGGACCGTTGGGAATAGGGGGATGGTTCTGGGATGAAACTGTTCCACCTCAGATTATCAGGCAGGCGTTAGATGCTCATAAGGGGCGTGCTG
CCTAGATCCCTCGCATGCGCAGTTCACAATAGGGTTTGCACTCCTATGAGGATCTAATGCCACTGCTGATCTGACGGGAGGCAGAGCTCAGGCGGTAATG
CTTGCTCTCATCAGCCACTCACCTCCTGCTGTGCGGCCGGATTCCTGACAACCCATGGCCTGGTACAGGTCCATAGCCCAGGGACTGGGGACCCTCTGCT
GTAGAGAATTGTTTCCAACAACAAGGGAAGGGAAGTGGAATGGCAAGGATCTAACATTTGTGCCCTTAGATCGGGGGTCAGCAAACTTTTTTTGTAAAGG
TACCAGATAGTAAATGTTTTAGGTATTACAACTACTCACCTCTGCCATTGTAGAGTAAAAAAGCAGTCAAGGACAGTATGTAAATGAAAGAATATGGTTG
TGTTCCAGTGATACTTTTTAAAAATAGGCAGCAGGCCATATTTGGCTTGTGGGTTATAGTTTGCAACCTCTGCCCTACATGTATTGTGTTTAGACTTATT
AAATCTTCCCTTTTTCTTAAACCCTCATTTTCACAGCCCAAATCTAGATCACTTTATAATTATGTTTTATCTTTTTTTGCATCTAATAAAATCATTGTTG
TCTATAAAATATGAAGTCAAGAACGCCATTTGCAATGTTGAGCATCTTAGAATATAAGCAGCCACAGATCTCATATGTATTTCTGGAATATAGGTATCTG
GTCTGATGTACAAAATATTGAACTAAAGTCTAAATATATGTTAATATTAATATAACACTGGATTAAATGTATTATATGTGGAAGTAGTCGAAGTATTTAT
GGAACCCACTCGGTTTATTGAACAAAATATCACCTATGTATTTTATCTAGATGCTGGAGAAGTTTGGCGTAATATGACTTGTATAAACTTAGGAAACAAG
GTTAAAAAAGTAATCAAACATTTTCTTTTTCTTTGTGGTTTTTTTTTTTTTTTTTTTGAGACAGAGCCTTGCTTCATCACCCAGACTTGAGGACAGTGGC
ACTATCTCAGGTCACTGCAACCTCCACTTCCTGGGTTCAAGTAGTCCTCCCACCTCAGCCTCCCAAGTATCTGGAATTACAGGTGCATGCCACCACGCCC
AGCTAATTTTTCCATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGCCTCAGACTCCTGACCTCAAGTGATCCACCCATCTTGGCCTCCCA
AAGTGCTGGGATTACAGGCATGAGCCACCACACCTGGCTATGTTTTCATTTACTACCTTTCTGTAGTTAAACAAGTATATATTATTACCACGAAGTGTCA
TTTATGATCCTGTTTATTGTGAAAGAGTGCATAGACCTCTGGGAATTATCACAGATAACCTTTGGAGGTTGTAAGGGAGGGCCTTTTTAGACGGTGAATT
CATTAGAGAATGCTTTTTACCTTGAACTTGGTTGAATGTGGAAAGAATGAGTGGAGAGAATTATACTGTTTTTCTTTCTTTATTCATCCCTTAACATATT
TTTTGATAATTATAATAAAGCTGTAGAATTTTGAGACAAAGTTGAAAACACAAAATAAATGTTTGGACCATGCATCCTAGGATTAGACTGAGAGAAGGAA
TCAGTGAGTCTGCCAAGGCTTGATGGCTCTTAAATGACTAAAGGCATACTTCTAACCACCTTGTATGATATCTACAGTACTGATTCCTGGCCGCTGTGAA
CCAGACCTTTGTTCTGTTCTGCTCTAGTCCCACTCCTCTACCCTTGCCTTTCTCCAACTTTCAAATAGTCTTCCCTTTTACATTACAGTTTCAGCTTTCT
TTCCCCGATATTATATGTAGGCCAACTTTTTATGAATTTCCACAGAGATAAAGCTGGCTACATCAACATTTATTTAATGATTTGATAACAAATATGTTTG
TGGAACAATGTAGAATAAAAGTAAGACCTGTCACTGTCTCTAATATGCTTATCATTAAGGAAATAAACATGTAACACTGAAAAATATAATTAGCCAGATA
AGAGCTTATATTTAAGGTTGATTATCATAGCCTTAGTAGCATGGGAATTTATGGCAAAAAAGAAAACTTTTGCTGAGTATAAATCTATAAATATAAAATA
TATAGCTCTGGAGTCATCCCAGTACAGCCTTGGTGCCATGTGCATGTCGGAGAGTCCCAGCCCACCTTGCTCTCTAGTACTTGTAGCCTTTTTCTTTCGA
GATGCCTGAGAAAGTGCACGTGGAGCGGAGGAGCTGGAAACTTGCCTTTCAGGCAGATATTGCCCAACTCATGTCTCTCGTCATCAATACCTTCTATTCT
AACAAGGAGATTTTCCTTCAGGGGTTGATCTAATGTTTCTGATGCATTGGACAAGATTTCCTGTAAGAGCCTGACAAACCCTTCCAAGTTGGACAATGGT
AAAGAGCTGGAAGTTAACATCATCCCCAACCCATGGTAATGGTTCCCAAATTAGGAGATCAGCCTTGGTCATGTCAATGCCTGTGTCTACCAAAGTCAGG
GTGTATTCCCTGGTACTAAAGGATTTATGGAGGCTCTTCAGGCTAGTGTAGATATCTCCATGATTGGGCAGTTTGGTGCTGCCTTTTTTTCTGCCTACCT
TGTGGCAGAGAAAGTAGTTGTGATCACAAAGCACAACAATGATGAAGAGTATGCCTGGGAGTCTCTGCTGGGGGTTCCTTCACTGTATGTGCTGACCATG
GAGAGCCCATTGGCAGGGGTACCAAAGTGACCCTCCACCTTAAAGAAGACCAGACAGAGTACTTAGAAGAGAGGAAGGTCAAAGAAGTAGTGAAGAGCAC
TTACAGTTCATAGCCTATCCCATTACCCTTTCTTTGGAGAAGGAAAGAGAGGAGAAAATCAGTGATGATAGGCAGAGGAAGAGAAAGGTGAGAAAGAAGA
GGAAGATAGGCCAGGCACAATGGCTCATGCCTGTAATCCCAGGACTTTGGGAGGCTGAGGTGGCAGATCGATTGAACTCAGGAGTTTGAGACCAGCCTAG
CCAACATGGTGAAACCCCAACTCTTTAAAAGATACAAAAAATTAGGCGGTCATGGTGGTGYGCACCTTAGGTCCCAGCTACTTGTGGGGCTGAAGTGGGA
GGATCCACCAGGAGGTGGAGGTTGCAGTGAGCTCATATCACACCACCGCACTCCAGCCTGGACGACAGAGTGTTACACCATCTCAAAACAAACAAAAAAA
GGCAGATAGAGATGATGAGAAAAAGTCCAAGATTGAAGAAGATGTGGGTGGGTTCAGATGAAGAGGAGGACAATGGTAAGGATAAGAAAAAGAAAACCAA
CAAGATCAAGGAGAAATCATTGATTGGGAAGAACTAAACAAGATCAAGAACATTTGGATCAGAAACTCTGATGACATTCACCCAGGAGGAGTATAGAGAA
TTCTACAAGAGCTTCACCAGTGACTAGGAAGACCATTTGGCAGTCAAGCACTTCTCTGTAGAAGGTTGGTTGGAATTCAGAGCATTGCTGTTCATCCCTT
GTTTGGCTCCCTTTGACTTCTTTGAGAATGAGAAGAAAAAAAGAACAACAAACTCTGTGTCCATCATGTGTTCATCATGGACAGCCATGATGATATAAGA
GTATCTCAACTTTAATCCTTGGTGTGGTTGACTTGGGATCTGCCCCTGAACATCTCTCGAGAAATGCTCCAACAGAGCAGAATCTTAACAGTCATTCACA
GAAACATTGTTAAGAAGTGCCTTGAGCTGTTCTCTGAGGTGGCAGAAGACAAGGAGAATTGCAAGAAATTCAATGAGGCCTTATCTAAAAATCTAAAGCT
TGGGCCAGTTGTGGTATCTCACCTCTGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGAGGATTGCTGGAAGCCAGGAGTTTGATACCAGCCTGGGCTGC
AAAGCAAGACACCATCACAACAAAAAATAAAAAAAATTAACCCAGCATGGTGGTACACACCTGTAGTCCAAGCTACCTGAGGCAAGAGGATCACTTGAGC
CCACGAGTTCCAGGCTGCAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGATGACAGAGTGAAACCCCTATCTATAAAAAAAAAATAAATAAAATT
TTAGAATTTCAAAAATTAAAATCTAAAGCTTGGAATCCACAAAGACTCCACTAGCCAGTGACGCATGTCCTAGCTGCTGCAGTATCACACTTCCCAGTCT
GGAGATGAGATGACATCTGTGTCAAAATATGTCTCCTGCATGAAAGAGGCACAGAAATCCATCTATAGCATCACTGGTGAGAGCAAAGAGCAGGTGGCCA
GCTCTGTGTTTGTGGAGCAAGTGCAGAAGTGGGGCTTTGAATTAGTATATACAGCCAAGCCCACTGATGAGTACTGCGTGCAGCAGCTCAAGGAGTTTGA
TGGGAAAAGCCTGGTCTCAGTTACCAAGGAGAGTCTGCAGCTGCCTGAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGCGACAGAGCGAGACTCT
GTCTCAAAAAAAAAGAAAAGAAAGAAAGGAAACAGAAGAGTTTTGAAAATAGTTTTTATTCAAGGAAAAGAACCTAACCTTAGAAGTGAAAGTGCTTTGA
AAACTTAAAATACTAGATTGTTATCATCATCAGAAGGCTTAAATAGAATGAATAGGCCAGTAGCCCTATTATTTTATATAACCAAAATTTTAAATTTAGC
TAATTGTTTATTATATTTTACAAATAAACTATCCCATAAATTTTTATGATTATTATTTTATTATTATTATTTTTTTTTTGAGACAGGGTCTTGCTCTGTC
ACCCAGGCGGGAGTGCAGTGACCTAATCATGGCTCACTGCAGCCTCAACTTCCTGAGCTCAGGCAATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACT
ACAGGCGCAATGCACCACACCCAGCTAATTTTTTACATTTTCTCTAGAGACAGGATCTCACCATGTTGCCCAGGCTGGTTCTCAAACTCCTGGGCTCAAG
TGATCCTCCTACCTCGGCCTCTCGAAGTGCTGAGATTAGAGGTGATGATTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTG
CAATGGCGCGATCTCAGCCCACAGCAACCTCCGCCTCCCAGGTTCAAGCCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGAATTACAGGCATGCGCCAC
CATACCCGGTTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGATCAGGCTGGTCTCAGACTCCGGACCTCAGGTGATCCACCCACCTCGGC
CTCCCAAAGTGTTGGAATTACAGGCGTGAGCCACCGCGCCTGGCCAGAGGTGATGATTATTTTAAATTGCCCACATTTTTTGTTGCACTTTTAGAGAAAG
AATACTATGTTTTGATGATGCTTAGAAGGCATGATGTAGCATTTTGTATATATGATATTTAACTCTTGGATTTTTGTGGAACTTTAAATCATTACTATAA
TTGCTACGTTTGTAATGTCATCAGGTGTACACGGCATAGTGAAAATGTTTAATAGGTTGATATATACTCTCAGAACTATAATAGAGAATCTAGTTGGGAG
ACAACACTTGTCAGGAAAAAATCTTAATCAAGCCTGTTTAATTACAAATTGATTTTTTTTTTAATGCTTGCCCATGTCAGGTCAAGCCTAGTATGCAATA
CTGATATTTTGAATGGAAAGAAAGCTATCACATGGTTTTAGAATGGACAGTGTTTCATTATTTAATATGCTGCCTATGATTTCAATGAAAATGAGATTGA
GGGAAGAATTTAATTAAGAGTCTAATGTTCAATAGAAGGGTAAAAGGTGATTTACCAAGAAAATATTCGGAGGGGGAAATAAGGAAATATTTGTTTTACC
AAATAATTGAATTATATTGTAGGTCTACAAAAAATAAAACAATATGGGACTGGTTTAACAGGACAATCAAGGCCCAGAAATATCTCCTAGTACATAAATA
ATTAGAATTTTTGCATTTAAAATCATTGAGAAAAGACTATTCATTAGCTCATGTAGGGACAATTAGTTCAGTATCTGGAGAAAATTAAATATGGAGTCAA
TATATCAAAATCAATTCCATATGAATTAAAATTTGAAACCATCAAAGGTCTGGAAGAAAATATAAGTGAATAGTTAACTTGATCTCAAAGTAGAGATCAT
TAAGGCAAAGGAAGAAGCCACCTTATCCTGGGGGCCATGGTCTTCAGTTTACAGTAAAAGAAAATAAAAACAAAAAAACAGTTCAAAGAGTCAGGATTGG
AAATGAAGGTCCAGACGTTCATTTTGGTAGTTGGCTAAAACACCCAAGAAAATCAATTGACAAACTGTTAAAACCAATAAGAAAGTTAGCAAGATGGCCA
AATATAGAGGATCTAGGGAAAAAAACTAACAAAAAAGTTTATAAATCCCTGCCCCCCAGCAAAAAAAAAAAAAATGAGTATGTTTGTAATATTAATATAT
GCTTGGAGGTTACAGAAAAATTTCTTTTTTTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGT
GGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACCATG
CCTGGCTAATTTTTTCTATTTTGTTTAGTAGAGACGGAGTTTCACCGTGTTAGCGAGGATGGTCTGGATCTCCTGACCTCGTGATCTCCCCGTCTCGGCC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCGCTTACAGAAAAATTTTCATACAGTTTTGAGGGCATTTACTTCTTTGTATCATTTC
TGACTAATATCTATGTGTGTGATATCCTACTAATGTTTGTTATTGTAGTTCATATAATACTGTAGGGGAACCAAGAATTAAATGTCATAAATGTTTGCAT
ATTTTCTAAAAGAATAATTATATTCACTAACTCATCTTTTTTTCTTTTTGCCGTGTGTAATAGGTCAGTACTCCTGCATTTGTACCAACGAAAACTCACG
TGCTGCTTCATCGAATGAGTGGAAAAGGACTAGCTGCCCATTATTTCTTTCCAAGACAGCCTTGCATTTTTGGTGATAAGATGGTCTCTATACAAATAAC
ACTGAATAACACTACTGATCGAAAGATAGAAAATATCCACATAGGGGAAAAAAAACTTCCTATAGGCATGAAAATGCATGTTTTTAATCCAATAGGTAAA
TATTAATTCTCATTTAAAACCTTAACTATATTTGATCACTAAATATGTTCATTTTAAAAGTAAAGTAGAATACTTTTTAGTAAAATAGTAAAGTAGAATA
TGATTGTATTGACAATTAGCATATTCAGTTTATATTTGCTTTTTCTTGTTAAACTGAATTTATCATATAAGATAAATACATTTCTTTGCTCTTAGTGAAT
CAGGTCCCAGTAATAGTAATACCAGTAGTGATGGAAGGCTAGGTCTGCAGAGTCAAGATTGCCATCATGTTTTACTTACCTGTGTCACCTTTCCCCATCT
CTCCTCCTGGTCAGCTTCATTCCCTGCATAATTTTAAGTGGTTTATTGTGTATTAAAAGCAAGAAAATCGCTCTGCATTTCTGAATACAATACTTCTCGT
ATCTCGAGATCCTTTCCTGTTTCCCTTCACTTTTCAATTTATGGGAAAGTGAAGGGAGTGAAGACTGAGAGGATATAGACCAAGCTTGACCAACCTGGCT
CAGGCCAGCTTTGAATGCAGCCTAACACAAATTCATAAAGTTTCTTAAAACATTATGAGATTTTTTTGCGATTATTTTTTCTTTAGCTCATCAGCTATCA
TTAGGGTTAGTGTATTTTATGTGTGGCCCAAGACAATTCTTCTTCCAATGTGGCCCAGGGAAGCCAAAAGATTGCACACCCCCGATGTAGACTAGTCTGC
TTATCTTCCTCTCCATGTATAGAATATACAGTAGCCTAGAGGATATCACTGGTATTTATCCACATCCAATTTTTACATGTTTTCAATCTGTTGCCACCAT
TTAAAAATGAAGATGCTTTTACATTTTAAAAAATGAGAAATCTCACTTTTCTTGGAGCAGAGCGTAAAATATGGCAGTACTGGCCCTTTATCCCCACATG
CAGCAACCAATGAGTGGGTTGCTGAGCAGCGGCTGCCCCCAGCTTTGGCTCGCACTTTCCAGGTTGCTTCTGTGCCCACCGCATCCTGTTGTCTCTCCAA
CAAAGTGTCAGTGGCCATTTTTCATCCCCTTTGCATTTTTTAAGTATTTTGCTAAAAATATACCCTTTAAACATTAAATGTAACAATTGTGTGTCTTACT
TTGAAATTTGAAATAGTGTAATATTTAGAATGTCTATCTCTTTCTTTTTGGTTTTTGTAAGTGGAGATAACCCTAAGGTTTAGTTGAGAGAAGCTTCAGG
CAAAACCTCAATTAAAAGTAATAAAAGGTTTATGTCATTGTATCTTCCAAATGTTATAACCAGAATGCTCCAGAGAGCTCCTTTTTATAATACTTAAGAT
AAACAATGCCTTTTGACCAGGATCAAGTAAAATTAGGTAATTGTACCTTCTTTACTCATTGTTTCACATAACTCTTCCATTTTTCTTTATCTGAGCTCTT
TGGCATTGCTGAATTTTCTCCTCTGGTTTTCATGAATCTTTCGGTAAAGAAAGTCATTTTGTGTGTGTGTTATATTTTTACACAAAGGAATAAAATAATT
TTTGATAAAGCCTGGTAAAGTTTTATAAGCAACTAGAGCAAAGAAAGTGGAGTTAAAGTAAGCTGATTTCAAAATCCACTTAATTTTTAAAAATATTTTG
ATAATTAAGACACTATTTAAAGAACACAAAGTATCCTAATTTTTATTATATAATGTGTGACATTAATATATTGCCAAGGAATTATTGTGTTATTTTTGTT
GCTTGTAATTCAACCTTTTTTACCTAGTTAAAAAAAATTAGTTTAGGAAGTGTCAAGCAGCTGATACATGAATTGTCTGAAGGTTGAGAATGTTATCCAA
AGGTTAAAGCAGTAGAACAGTATTAATTTTTCTTTGAGCTGGCATAATGAGTTGATGAGTTGACCTTTAGTTGGCCTATGTAGAATAGAAGAAATAAATA
TAATAAATTTCATAGTATGACTTTAACAGAGAAATAAAATATGAATGTTTACCATTGCCTCAGTATTGGTTGTAGGCTTTTCTTTGTCATTCTTAGACAA
ATTTTTGTGACTGTATGTTTCATTCATTTGGTTGGCATTTATTGAATGCCTTCAAGATACAGAGTTCTTTTGTCTGCAGTATGTACTTGTATGTAACACC
ACCTGGATGACACTATTATCAATAGATTGTAGGGTTAAGGAATATAATATGTCTAAATTAGTCCTCCAAAAACATTTTAAGAATGCAACAGAAAACAAAT
ACTGTATTTTAGTGTTTTAGTAAAATAAGGGAGGTAAGCTATTTGTTTTATTTATTTTTAAGAACGTATACACATTAAGGAGTCCGCAGTTTTCTTATTT
GCCACCAATCTGGTTTTGTCTGTAATGTGCAATGACTTTTTTTTCTGGATTTCACTCTGTGTTTGGCATGAAACTGTATTCCTTACAAGAATATTAGGAA
TAATATTCCATTTTCCCCAAAGAGACCCAGTATATAAGAGGGTTTTTTTTAAGACACAAAGAATAGGTTAAGCTCTCTTTACTATATTCAGTGGCTTTAT
GTTAGTGGTTGACAAATTTGAGTTCAGCTAAGATTTTACCAGTTACTGTACAACTGTTACATCAAAGTAAATGGCATCCTATATGATTTCATGTGTTGAT
ATTAATGTTGTGGCGTAACAGAGCCAGTGTTTTTCAGCCACTTCTACATAGCCATCTCAAATATATAGGAGCAAATCTAGAAATGGTGTCCAAACAGAGA
CACCTAATTGGGTAAGCTTTCCCAGTTTAGTCGGCTCCAAGTATTATAAAAATCCATTATTTGAATGAGTTTATGCTGATCATTTTGCTCCTGAAGCATC
CATATAATAAAACATGCCATTGATCATGGACTGTCCCCCAGAATTAGTATGGCACTAAGCTCACAGTTAATTATCTTAAGACTGAAGACAGTATCAAACA
GTGTCAAAGAGTGCTATCAACAAGGCATCTTGAGAGCTGTCACTTTGTCAAATGACATGCAAAGATACATGATGAAGGGAGATCTAAATCATGAAAGCCA
TCAAGTTTTGGAGATGACGGAATTTGCTACTAATGTGTCAGATAAAAACAAGACCAAACCCCAAAATAGTTATGGCACAGAAGGCATTAAGAATTCACTC
AAGAATAGCCTGGAGCAGCGTGTGACTGACAAAGCTCTAAACTGTTGA


SNP Information

Context             (SEQ ID NO:55541):
TGGCAGATCGATTGAACTCAGGAGTTTGAGACCAGCCTAGCCAACATGGTGAAACCCCAACTCTTTAAAAGATACAAAAAATTAGGCGGTCATGGTGGTG
Y
GCACCTTAGGTCCCAGCTACTTGTGGGGCTGAAGTGGGAGGATCCACCAGGAGGTGGAGGTTGCAGTGAGCTCATATCACACCACCGCACTCCAGCCTGG
Celera SNP ID:            hCV26380986
SNP Position Genomic:     6861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 296
Celera Gene:                 hCG17340 - 146000219544863
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W5TR(33040297..33059830)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12456):
GGTTCTCCATCTTACAGAGAGCATATGATGGGACTTCTCAGCTCCCATAATTACATTAGCCAATTCCCATAGTAAATCCCCTCTTGTCTATCTATATATA
TTCTATTGGTTCTATTTCTCCAGGAAACTCTAACTTATCAAACAGTAATTGCACTTCTAAAACTCCATCCTACAGAAATGGTTAACCATGTAGACAAAGA
TATATACATAAGGATGTTCACTGAATCACTAGTTATAACAGCAAAACTTTAGGAAACAAACAAAATATCTATCAATAGAAGAATGGTTACATAAATTACA
TTACATCTCTACCATGAAATACTACACAAAAGTGTTTTCACTCAAGAGAGCAGAAGAGTGACTTGGTCTGTTGCATTTTAAAATGATCCCTCTAATATAT
TGAGGGTGGTCTGTCATAGGATGCAGAAGGAGCAATGGCAGATAGAGAAGATCTGTTAAGATGCTATTATAGCAACGCAGACAAGGTATTAATGGTAGTG
AGAAGTGATCTAACTGTGTGTGTGTGTGTGTGTGTGTATACATACACACAAATATAGACATACACATACACAAATTTGCTGACTGACTAGATGAGAAATA
TGAGAAAAAGAAAGGAATTAATGATGGCCCAGAGTTTCTGGCCTGAGCTGGAACAATGGAATATTTCTATCTAACAGATGAAAAAACTAAACCACTTAGA
GGTTAAAAAACCTGTCCAAAGTCACACCAATAAAATGGTAGAGTCACTAGAATTCAGGTCCATCTGACCGTAACTCTTAATCGCTGTGCTACAATGATTT
ATTTGTCTAAGGAACTTCTGCATCTGTTACTGTGCCCAGTATTAGTGCGTATTTTCTTATTTAACATGAACTAATAAAAAATACTATGAGCTAGATCATT
TATTAGCCAAATAAAAGTATTTTTTAGCTATATGCTTAATAATTATAAGATTTTTAAGGGACTTTTAGTCAGCAAATGACTTATTATTGAATGGCATTAA
TTGTCAGTGAAGATCATTACTGCCCTCCAGGATGACAAGCTTCATAAAATCTCAACACCCATTACACCCAACCTCCAATACAGGAGAGAAGACAAGCAAA
TTTGTTATCTGTGCTAATATGTTAAACAGAAAACTAAAATGAGATACATAAGAAATACAAAAATATGTATGCATATTAAACTTCTATGTAATCTACACCA
CACTTGAATGCTCTTCTCCAACTTGAGTCAGAAGACCATGTATGGTACTCAGAATGGATTCCAAATCTAAATTGAAGAGACAGTGAAGCAAAACTCTTCT
AATCATTTTAGATATTTCCATTTTATTTGTGTAGGCCTACATACCTTCTTATTTGGGTGCACTAATTATCTTTTAGGAATCTCTGACAGTGTATTAATAT
TAGATAAACCTCAGGGAGGTAGGAAAATTATATAATAAAAGACAGCAGGTGTGATGCATCACACCTGTAATCCCAGCACTTTGGGAAGCCAAGGCAGGAG
GATCACTTGAGCCAAGGGTTTGAGACCAGCCTCGGCAACAAAGTGAGACAGTTAGCCAGGCATTGGTGGTGTGCACCTGTAGTCCCAGCTACTTGGGAGA
CTGAGGCAGGAGAACCGCTTGAATCTGGGAGGTGGAGGTGGTGGTGAGCTGAGGTCGCACCACTGCACTCCCACCTGGGCAACAGAGCAAGACTCTGTCT
CAGAAAAAAAGGAAATACAGTCGGGCTTCTGTATCCACGGGTTTTGCACCTGCAGATTCAACCAACTGGGATGGAAGATAATAGCATTTGTAGGATGTGG
AACCCACAGATACAGACGGCTGACCTTTTGTATGTGTGTATAGGACGTTTTCCTATCTTCAGGGCAGACTGCCGAACTTGAGGAGCATCCATGAATTTTG
GTGTCCGTGGACATTTTGGGACCAATTCCCTGTGGATATGGCAGGACAACTGTAGAGATGAATTTAACAGCCAGTTCAAATGCCTTTAGTCAAAAGCATG
CCCAAGTTTACTCAGCAGATGAAAAAAATCTGTAACATAAACTACACTATTCCGATATGAAGAAGAGATGTAACAGTATATTGGAAATGAGCTTTTTGCC
TAGAAAAGGATATTCAAACTCATGTCTTTGTTACTAAAAATAGTTTGGGAACTCAAGCTTTATAGTTAACTTCAAACAGATTCTGAAAACATATCTTAAG
CGTTTGAAATTAGAGGAATAACATCTATTTTTCCACTATCTTCAAACACTCAACTATAATAGACACTAGACACTTGAACATGTGATTTTAAAAACAATCA
TGACAAATTTCCTGCATTATGATTTAGGAAGTTTAGCCTTACCATCTCTTACCTGTTAAGACAAAAAAAAGAAAAAAACAAAACAACAACAACAAAAAAA
ACACCTACCACTACCAAAAACAATGTAAAGATTATTTCCTTTCCCGTCCAGCAGGTAACAAATTAGTAGTTCTGATGGGCTATGGACCCAGAAGTTTATA
TTTTAAGGACCTATACCTGGTGATGACAAGTATGCAGGAAAGAGGGTCTGAATTTCCACGATCAATGAAATGAAATTGGTTCTGAGTGTTACAATGCAGA
GTATTATAGTCAACCTCATTTTAACTGAATGCTATAAATTCATTCAATTAAATGTTAGAAGCTTGGTATGAGAGGAAAAAAAAGGGCTTTAGAGTCAGAG
AAATGGGTTCAAATCAAATACCCTAGTTTATTATGTAACCTTTTACAAGTCAACTTCTCTGAGCCTTGGTCTTTTCACCAATAAAATGAGGATAATACTG
CCTCTAACACCATTTTTATAAATATTAGATAAAGAAGATAAATTGAGCATGTGGCACAATGACTATCACAAAGCAATGCTCAGTCACCATTTGTTTTCTT
CCTACCCCCTCTATACTAAATGTCAGAATCTCGCCTTTAGTCAATGACCTTCACTCAGTAGTGTGCTGGTTAACATTTAATAACTAGCTGTCCAGAGGGA
AGAAAGCCCAGTTTATAGCACTGGTTTGTAGCACTGGCTTGTTTCTGTGGTGTAAATACTCCTACCATGGCCGATCCCAAGCATGAAGTCACTGAATGCA
GAGATGTAAAGAGATGTGCAGTAGCACACCATTTTTGTCTATCCCATCTGTTTTATTATCTCTACTTTGTTTTATTTTCTTCATAACACTTTTACCTTTT
TAAATTATCTTGTTTAATTATTTAGATATTTGTCATCTGTTTCCTCTGACAAGAAAAAGCATCAGGAAGGCAGGCATCTTGTTTCATGCTAAGTAGTTGT
AAAAATTCCCAAAAGTATTAAAAAGTGTTTAAAAAGAAAAAGACTAATTCAATCAAAACACATCCTCAATTTCAGTACAATTGCTCTTTCTGTTTGGTAA
AGGAAGAAAGAATAAACATGACCAGTAACTACCAAATGCTTAAATTCAAACAGCAGACTACTTCTCCCATATCACCTAGCTCAGTCAATAAAAAGAGGCC
AGACAGAGGCACTTCCGTATAAGATGTCCAACTAGAGTATCATACTAATTGAATCCAAGGCAGGCAATCTTACTATCCTTAATAAATAAATTCAGGCAGT
TATTTTATGACTATAGAAAGGGAAACAAATACTACTGTTAATAAGTTATGTATTATACTTTTTTATGTTTTATTAATCCAGCTTGTAGGCAAAGCCTCCA
TACCTTGAATTTACTTTACCTGCATTAATTAACATTTGCAAACATTCTACAGAGTTGTGATAAGCTGCTTCATGAATTGGCATCCATCCCCTGTTATCAG
CAACATCGACACTTCGGCCCTTTTTGAGCAGTTTCCTTAAGACTTTAACATTGCCTTCCCTGGCAGCAAGTCCAACTGTAGAGCACGTGTCCGCGTAAGC
CTCTGTAAAATCCATTTGTTTGACCAGTCTACAAAACAAGGTAGAAGGATAATACTATAGTCAATAAAACAACACTTCACTCCTAGAGGTCAGCAAATCA
CGGTGGGCCTGTCTAGTATCTCTCACATGACTGACGAAGAAGGGCCCACAATACAGAAAGTGACTGCCATGCCACAGTCTCTGCTGGTGCCTAAAGCAGG
AAGTTTCTCTGTTTGGCAGATTGGAATTCCTTGGAAGGTTCCCACTAAAAACATGAAGGGACTTTTAAGTGTTCTATCTTTCCTCCTCTGGAAATGTTTG
AGGAGTAGGCTTCTGCTCCTGTTCATACCCCACCACAACGCATTCTTTGGTGCTCCATTGATAAGAGCACCCTCTTTGGTGCTCCATTGATAAGAGCACC
TCTGCTTAATCCCCAGTGTACACTACATTATGCAGAGATGGCCATTCAACTACCAGCAATGCTCAGCCTCAATATACAGCCCTCTATAGGAAACAACTAA
ACCCAAAGAGGCCAGAAAAGCAGTGAAAGATAGGTGTCATTCTAGTCTTCCTGCACCTGCTTGTCCTTTCCAGAAGAGGTTAAACACTCAGATTCTCTAT
GCTTGACCAAATAGACCCACTGACTGAGCATACTGAAACCAACAGAGAACACCATGAAGAGATGAGCCCGGTTTTCCTACATAGCCCAGAAAGTTCTTAA
CAGAGTTCTTGCCCACATCATCACCTCCCTCCAATGCTCACTTCAAGTTCCCCTCCAGTCAGAGTCCAGTATAGCTCTCATGTGACTCTCTCGAAGACAC
AATTTCTTGTTAGTGACTCTATGAAGCAGTTTGGATATGGAATACTTATTTGATTACATAACTATTGTTAATTTTCTCAGATGTGATAATGGCATCACAG
TTATTAGGAGAATGCCCTTATTCTTTTTTTTTAGGGAACTTGTTCTAGGATGAATGTCCTTATTCTTATGAGACACATGTAGAGTATGTGGCAGTAAAAT
GTCATAACACAAGCAACTTCAAATGTTCTCCATTTAAAAGTATAAATAAAGTAAAAAGGAAGTACAGCAACTGTGCAAAATGGTAATTACTGGATCTAGA
TGAAAGGTATTGGTCATTACACTCTTTTTATCTGAGTTTTCTGTGTATTCAAAATTTTTCAAAAAAGAAGGGTTAGCAACCATATCAGGCAATTTGAAAC
CACAACTTAGAGAAAATAGGAAAAGACTTGCTTTTTTTTTTGTTTGTTTGTCTGGTAGCAGCTTCCTGCTGATTTCTTTATAAGAAAACAAATAATACCC
CTTGAATCTGAGTGTTTTAGCATTCAAGATCATGGTATAAAAATCTTCAAGAAAGAACAATCACTTGGTAAGGTTTCTGTTTTCACACACAGAGACACAG
CCATGATAGTCCAAGCGAATTTCCTAAACAATATTTTGCAGCAAGAGCTCTAATGAGCAGATCTTCAAAAAATTTTAGGATCCTTGACCCCTTGGAGAAA
CTCATGAAAGCTGTAGTTTCCCCCTAGAAAAGTGTACACCCCAAATTTTGTATACAAATTCAGGTTCCCCAGCTCGTTTCCAAAGCCTTTACAGGGGCCC
CAAGTTAAGAACATTTGCCTGCTCTTTTGTGAACAAGCCAATGATAATACTAAAGATGAATAAATTTGTGTAAAATTTAAATATATAAACAATTCCCATT
GAAATGACAGCTACTCTTTCACAAGCGTAAACTTCTATTGTAAACTTTCTGCTTTTATTTGAAAGGCAAAAGACTTTTTTTTCAGGACATAAAATCAAAT
ATGAATTACATTCCTCTGGCTGCTGTTATATAGGCAAAAATCTAATTTCCAAAGCAGAACAAAACGTGTTTCTAGGTGCTTTGCTACCTGCGGTGCTGGT
ACACCGCCTCCGTATCTGGACACGAGTGACGACTCCTGCTCTTTTCTCCTTCCTCGGCCCCGTTAGAAATAAGCCCAGTTCCAATTTCAGAGCCAAATAG
CTCCAAAAAGCATTGTGGGTATTGTAGTTTTCTGCACACGGGCACTAAAGGTAGGTTAGGGTGATTTACGGATGCTGCAAAAGAATCCATTGCTTACTAC
ACCGAAGGTCAATGCCTCTTGACACCCTAATCAAGGAAATAAAATAAAGCTGACTGAGATCCGCTCGGAAAATCTTTCTGGATCTAAACTCCCAGTGCGC
TTTGCGCCCCAAGTGGCCATCGCGCCTGCGCCCCGCGCGGCCGGTTACTCGCTTACCGGAGGCTTCAGTCCCCGGCGGCGCGGCGACAGCTAGGGTTCAC
GGCCACTGGGGCAGAGGAGCCGCGAGAAGATGTGGGTTTTTGGTTACGGGTCCCTGATCTGGAAGGTGGATTTCCCCTATCAGGACAAGCTGGTCGGATA
CATCACCAACTACAGCAGGCGCTTCTGGCAGGGCAGCACGGACCACCGCGGGGTCCCCGGCAAGGTGAGGCGCCGGTCAGCTCCCCACACTTACTGCCCC
CTGACCCCTGCTCCCCAACTCCACACACAGCACCCACACCCTAGAGAACCACACCTTAGCGCTTCATGGGGCCAAAGCACATGGCTTGGGGTAACATTTC
TGTAGATTTTCCCTGCCACCTGCCCGCCATCTCTAACCCAGCCCGGGCACTCCTTCCGAAGCTGCTTAAGATGCCGGTGGTTAGTYTCTAGAGACGGCGA
GAAGCGCGGGCACAGGCGCACGAGCTCGCACCAGGCTGAGTGCGGAGATGGGGACTCCATCTCTCTGCAACCTCTGCCAAAAGAAAAAAAGTCCCATTGG
CGGGAAGATGAATGCTCATGTCACCACAGAGTTGAAATAGTAAATCAAGTTGCAAATTCAGCTTTTTAGCAATTAAATTTGTTGGCATTTCTGCATTCTA
GCCGACTTTCATGAGCTTGCGATTAAACGTGCATGTTACTTCTAGGATTTCTTTACATCTTTCAAAAGTTTTATTTTCTGACACAYAGGATTGCAGAATG
AGTTTCCAAAATTTTCGCTGGTTATTAAGGAACTCACTTTGGTTTTCAGTACTAGTGAAGTTAAATGAAGTTCTGGTTATATGAATAACATAGTACCAAA
CTCATTACTATATCCAGCATTATTTTAATGTTACTTTCTTGATGGTTCTCATAATTATAATATGAAATGTAAGTTCATTGATTCACTTTTCAGTCRGTCC
TACAAAGACATTAATCTCAATATATGTATAGAGAATTAGCAGCAGCTCACTGCTTATGCAAATCAGCTTTGTACTGGCTACAAAACAACTAATCCATAAA
GAAAACTAAGATTGAGGTAACTAATAATTTGGAAATTGGTCAATGGAAAGTGGAAAAGATCAAGGCGCTAAAGTAGTTTGCAMCTGCTCATAAGAGAGAC
ATGGGATTAAAATCACGAAAAGAACCTGAATTAGAAACCATTCTATCTCAACTAGAGTTGGTCAGTTAAGAACTTGGCTTTTAAGTAGACTATACTGGCC
TATTGGGATGTTGGACACAGTGACCTGAAAAGGGGCAATGGCTTAGGATAAATGCACATTTACAGATCAACAGAAATGTCATGGCCAAAGTATCTCCAAG
AATGTTCTAGAACAATATTCAAGACATTAAAGAACTAAGCTAAATTAAATGGCTTCTGAGTTGTCAGTTTTGGCTGGGCCCGGTAGCTCACGCCTCTGAT
CCCAACACTTCGGAAGTTTGAGCCAGGAGGACTGCTTGAGGCCAGGAGTTTGAGAGTTGTCAGTTTTGATATGAATATTTAAAATTGCCATTCCGAAAAG
AAAACCTTTAGCCCAGGCTCCAATTATAATGACCAAGTATTAAATATTTATGTATGTGGCTATAACAACATACTTTACTAGTCTTGACSAAAATGTACAG
TGTGTTACAAAACACATTGAGATATGTATGCTGTCAGAATAGACTGATGATTAGAAATTGCCTAGTCAACACAACAGTCCGTGATTCTTTAAAAGGAGAA
AGGGGCTGGCCAGGCGTGGTGGTTCCCGCCTATAATCCCAGCACTTTAGGAGGCCTAGGCGGGTGGATCACCTGAGGTCGGGAGTTCAACACCAGCCTGA
CCAACATGGAGAAACCCCCTGTCTACTAAAAATACAAAATTAGCTGGGCGTGGTGGCGCACGCCAGTAGAGTCCCAGCTACTCTGGAGGCTGAGGCAGGA
GAATCGCTTGGGAGGCAGACGTTGCGGTGAGCTGAGATTGCRCCACTGCACTCCAGCCTGAGCAACAAGAGTGAAATTCCGTCTCAAAAAAAAAGAGCTA
AAAAAAGGTGTCTTTCTGATCACCTAAGACTCAGAATTCTAACTGCACTTAATACCATACATCTTAGCCCATATCTTAGCTCTATTTATTTCACATGTTA
GTTTGCATTCTAGAATGACAATATAAGCTACTGGAACCAAGAATCAAGATTTCATCTTCTCCACAGCACACAGTAGCTATGCATAAATAACTTCTAATTC
ACTTTGAAATTGAAAATAATATGGCATTATCTACTTGACCCTCACCAATATATATATATCCTCATTGTAGCATCATCTTAAAAAGAAAACAAGTCAGAAA
TCTAAATGTCCAAGAACACAGGAACGTTTATAGTTCATCAATGACACAATATTATGCAACTATTAAAATGTATGAGAAGACTAACAGGAAAATTAAATGA
GAAATCATAATCCAAAATCCCATGTGTTCCATGATTACAAATTATCTATACGAACAGATGAAGACTAAAAGGAAATAGCAACAAAGATGACACAAATGCC
TGGATGATTTAGGCTCGCTATGTGCCAGACATTGGGCATACAAGTAGGTAAAATTGTGGCTTATGACTCAGCATTCCCATGAATGATGTTAAGGTATCAG
TACACATACAGCCTTTGGTACTCCGTGGACGAAGTTTATTTAAAAAAAAAAAAAAAAAAAAAAAAAGCTTGCAGGCACTGATAGGTGTCACCTTTGTGCC
TTAAATTATGGAACATTCCAAGTCTGGACTTTCTCTAAGGCTTTCCATTTATAAACAAAGACTGTTTTATCAGTCTTTGAAATGGGAGAACAAATAAAAC
TTGTTTTGGCTTCATAATATATCATTTCAACCTCAAGTTGAATAGTAAAAAGTGAAGCTTTCCATAATATTGTTAACTGACCTGTGTTAAAACCAAAATG
GGAAAATAAAATTGCCTAGAACACAAGTGGTCTGATTGTCCCATATAAGAACTACACGAATAGGCCAGTTCTAATACTGACCTTTAAATAGGGCAAAGTA
AAGTTCATTTATGAATGTAAAAGAAATGCCTACCTTGAAGCACCATTACCATATACAGAAAGGTAAGAACACTTCATAACTCAGAAGTGTAAATCACTCA
TTCTCTCTCACTTAAAACCTCTTAATATCCCCTGGTAGCAGTGGTTCTTAAAGTATGAGCCCCAGAACAATTTCTGAAATCAGCAGGAAAGTTGTTACAA
ATGCAAATTCTTAGACAGCTCCAGACCTACAGAATCAAAAACTCTGGAGGTGTGGCCTAACAATGTCTTTGTCAAGCCCTCTAGGTCATTTTGATCCACT
AAATTTGAAAGTCACTTCCCTATATATAGGAAAGCACCCTTTATGTCATATTTTTTTTCCCYTAATAAAACTATAGGCCGGGTGCGGTGGCTCACGCCTG
TAATCCCAGCACTTTGGGAGGCCGAGACGGGTGGATTACCTAAGGTCAGGAGTTCCATACCAGCCTGGCCAACATGGTAAACCCGTCTCTACTAAAAATA
CAAAAATTAGCTGGGTGTCTTGGCGGGCACCTGTAATCCCAACTACTCAGGAGGCTGAGGTGAGAGAATTGCTTGAGCCCGAGAGTTGGAGGTTGCAGTG
AGCCAAGATCGCACCACTGCACTCCAGCCTGGGCTTGTTGAGCAAAACTCCGTCTCAAAAAATAAATAAATAAATAAATAAAACTATAACATTCTTTTTT
CCTTAAGGGAAAAACCAGAATATTTATAATTACTGCTTCCATTTGCCTTTCATTTTAGATGACCTTTAGTTACTGGTATGTTTTCCAATATATCCATGTA
AAGTGAATATAATATACCTAATACGTATAAATTGATGGAAATCTTTTAGAAAGGCCAACACAGTCTCTAGATAAGGTAGGTTCTCTTAATTCACTTAAGC
TTTATCATAAAAAATAACTATGCTTAAGAAATAGTGCTTCTTATGAGCAAATATAATTCAAATATTCCATGTCAAAAATGTTGCTAATGCTCAGCTACTT
AATGAACTTTATTAATTCAGAAAAATTTTTTTTTACCTTTTTAAAACAGCCTGGAAGAGTTGTGACTCTTGTTGAAGATCCTGCGGTATGGTATAAATAT
TCTTTTTTGTATAATTTTAATTTTATAAAATGTTGCGATGTTTCTGTTTCAATTTGATTAACAATCATCACAGACAATTTGAACTACCCTAAATTTAGAA
TTCTTCTCTGTATTTGTGGGTTTTTTTTGTGTTTGTGAAAACTGAGGCCAATAAGAAAAGTTAGAATGCAGAGTGCAAGGTAGACAACAACGTACAGACA
AATAGCATGTAGTTTTCGTTTTTGTGGGGTTTTTTGAGACAGAGTCTAGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGC
TCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACCATGTCTGGCTAATTTTTTGTATTTTTAG
TAGAGACGAGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCCGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGA
GCCACCGCGCCCAGCCGTGGGATTTTTTTAAAAACAAGTTTATTAACTAAGAATTTTGTGGTCCCCTTTGACATTAACGGAAATACCTGCCCCCGACAGC
CAGACTACCACCGAGAATTAAATGGAACCCTTAAAAGCTCTCTTCACTTTTGCTACCAGTCTCATTTTCAGCAGAAATCTAAGTGAGGAATTCTTATTTT
CTTTATTGCTTAATTGTATCAATAGCACCTGTGTGTTGTGTTTTGTGTTTTTGTTTTTAAGTTCAGGAGTACATGTGCAGGATGTGCAAGTTTGTTACAT
AGGTAAACATGTGTCATGGGGGTTTGTTGTACAGATTATTTCATCACCCAGGTATTAACATTAAGCCTAGTATCAATTAGTTATTTTTCTAGATCCTCTC
CCTCCTCCCACCCTCCACCCTCCCGTAGACCCCAGTAGAACCTGTGATTTTAAAACTGGTTTGGAGCACCAGAAAGTTTTATTTAACCAACAATCCTCAG
TTTCTTAAATATTTTCAGTCATTTTATTGGGGTACAGATTCAGAATTTTATATTGTGAAATTAAATGTTTAACTTTGGAAAGGACTTTAATAAACAAAAA
TCAAGCAGTTAGTAATGGCAGATAAATAATGGTGTGGATTAGGAAATGCTTTCATAATTGATACTACGAAAAGCATTTATAAAAAAGATCTTCAAATTGG
TAACTTATAACTCCTAATTAAACAGTTAATAAACAAATGGCACTTTGTTTCTAGAATTTTTTAATGACCAAGTGAAAGGCTCATATTTTTCATTTCAGTC
CCGTTATTAAAGAAAAAGACCAAATTAAAAAAAAATTTTTTTAAGATAAAATATCTTGCTGTGCCTATGATACAAAGAAATTATTCACAATGGAGATTTT
AAAGTGCTTATTTCCTTTATTGTTTAGTATGTTCTTCTGTGCACTTTAAGTGAAGAAAAACTGTATTGACTTTTATTTATTTTTTATTTTTTTGAGACAG
TCTCACTCTATAACCCAGGCTTGAGTTCAGTGGCATGATCTCGGCTCACTGCCACCTCTGCCACCCGGGTTCAAGCAATGCTCCTGCCTCAGCCTCCTGA
GTAGCTGGGATTACAAGTGCCTGCCACTGTGCCTGACTAATTTTTGTATTTTTAGTAAAGACGGGGTTTCACCATCTTGGCCAGGCTGGTCTTCCACTCC
TGACCTCGTGATCCACTCACCTCGGCCTCCCAAAGTGCTGGTATTACAGGCGTGAGCCACCGCTCCTGGCCCACTTTTAAAAATATACAAGATACAGGCA
GGCATGGTGGTTCACACCTGTAATCCCAGCACACTGGGAGGCCGAGGCAGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACGTGACAA
AACCCCTTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGCATTCCTGTAATCCCAGTCACTTGAGAGGCTGAGGCAGGAGAATAGCTTGAAC
CCGGGAGGCTGAGGTTGCAGTAGGCCACGATCGTGCCACTGCACCACAGCCTGGGCAACAGACAAGACTKCATCTCAAAAACAAACAGAAAAGAATATAT
GAGATACTCCCTTAGATCACAACCTTTCTTCACCTATTTTAATTAGCCTTATAATACCAGTGTATTCTTTTCATTTTTCAACAGGGATGTGTATGGGGTG
TTGCTTACAGATTGCCAGTAGGAAAGGAAGAAGAAGTAAAAGCATACCTTGACTTCAGAGAAAAAGGAGGCTACAGAACCACAACAGTCATTTTTTATCC
AAAAGATCCCACAACAAAACCATTCAGTGTATTGCTATATATTGGAACATGTGATAATCCTGATTATCTTGGTCCTGCACCTCTGGAAGACATTGCTGAA
CAAATTTTTAATGCAGCTGGTCCAAGTGGAAGAAATACAGAATATCTTTTTGAACTTGCAAATTCTATTAGGAACCTTGTGCCAGAAGAAGCAGATGAGC
ATCTTTTCGCTTTGGAAAAATTAGTAAAGGAACGTTTAGAAGGGAAACAGAACCTCAATTGCATATAATTTAGTCTTCAGAGAATTAACTTCAGTGCACA
ATGACAATATGATTTGGAAATACGTTTACTTAAAGATCTTATTTTTAATGTAGTGAGGATATTATTTAAACTTTTATTTTAACTGGAAATGTCCTGAAAC
ACATATTTAAAATATTGGGATACAGTGAAAGAAAAATTCAAATTTTAATAACATAAAGATTTCCTAACTTTATGTTATTGAACACTTACTCACTAGAAGT
GAGTTCTTTAGAAAAATACAGTGAAGGACTCAGTTCAGTCTTGTTTTTATCAGAGTGATAATCATCCTGTTTCACATCCCAATACTATTTTGAAATTCTA
AACAATTAAACCAAAATTCCAATAAATATAAGGTTATGCCTTCAATATATTCCTATACAATTCTGTAACMATGGTTTAAAATACACAAGCTTAAAATAAC
ATGCTTAGAAATACACAATAATATGAACAGTATTTCAGCCTTAATTGTGAATTTCCTTGTTATTCAAGTATTAAATGAAATCTTTTGAGTTTTTAGCCAA
AAATTGGCATTTTTAAAATACRAAAATTTCCTTGGAATTATAATGTACTGTACCTCTTCTTTTTTAAATAAAGRCATTTTACTATATGGAAAATAACTCA
CTAAAGCATAAATTACATTATACAAATCATGATCACTAATGATGTAGTCTGTCATTCACTTTGTATTAATCTTATACCAAAACTGAAAAAGATGGGCTGA
TACTACAAATTAATGGCACATATAATGAAAATTTAGTTTTTAAAACAGCTTTTGGAATTCTTTGTCTGTCACTATCTCAATTTGTGTGTGTGTGTGTGTA
TATACATATATATACATATAAAATTTTTTTTTTCTTTGCAGCCTGCGTCTGGCCATCCCACAGGCTGGAAAGTGTAACCTCTGGCAGAAGCCAAGAACAG
GCACCTCCTGGAATTATAATTTTGTTTTGTTTTTTGAGACGGAGTATCGCTCTGTTGCCTAGGCTGGAGTGCAGTGGTGCCAACCTCAGCTCACTGCAGC
CTTCACCTCCCAGGTTCAAGGAATTCTCCTGCCTCAGCCTCCCGCGTAGCTGGGATTACAGGCATGTGCCACCACGCCCGGCTAATTTTTGTATTTTTAG
TAGAGACGGGGTTTCACCATGTTGGCCAAGCTGGTCTCGATCTCCTGACCTCAGGTGATCCACCAGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGTGT
GAGCCACCATGCCCGGCCTATAATTTTTTATTTGTACAAATTTATGGGCTACAAGTGCCATTTTGTTACCTGCATAGATTGTATTTTTTTAAGAAGTGGC
ATTACCTGATTATTTGTACGTAACTTTTTTCTTTATTTTGTCACCTAAAGAAGAGTATCAATTGGGTGTATGCTGCTACTCAACTAGGAAACAAGTTATT
AACTCACATAGAATTAACTTTGATTCAAACCATTCAGGTTATTCCTGATTATAGGTTATTTCTTTCTCAAGAGGACATATAATCTCTCTAGAATCTTTCA
CCATAAGAACTTCAGTATAAAACTAAACACAATATACTTACTAAAAGCTCCTTAAACTCAGGCATGACTAATAATTAGTACAGAAGTTTTTCACATAAAG
CTGTCCTACATGTCCTTTTCATGTTTTCCTATTTATTAACATCTTAGTAATTTACTCAGCTACATATCTACTTTAAATATCTTCCAACATTTTAAATATT
AGTTTTCCAGACGGCATTTCACTTGTCCTGTAAAACAGAAAGGGTGATAAATTTATTAAATTTCTAATTTACCATCCCTGGTTCTTTCTTTCCAGGCAAT
TAGATGATAAATGTGCTTTAAAATTCTCTTCATCACATCACGCTAAAAGTTACCTATCAAATGTTCCTGTTATGCCTATCTTTTTTCAGCAAAAATACTG
ACTGTATTGTCTATTAATTTATTCAGCTTTTGGCAATCTATTTTTATGGATTTCTAAAACCTTGAATTTGGCCAGTGTAGTGGCTCACACCTGTCATCAT
AGTACTCTGGAGTGCTGTGATGGGATGCTGTGAAGGGAGGATCACTTCAGGTTAGGAGCTAGAGACCAGCCAGAGCAACAGAGGAGCACCATCTCTATAA
AAAATTTAAAAATTAGCCAGGTGTAGTGGCATGCACCTGTAGGCCCAGCTACTCAGGAAGCTGAGGCAGAACTATTGCCTGAACCCAGGAGTTCGAGGCT
GCAGTGAGCCATGATCACACCACTGCACTCCAGGCTGGGCAACAGAGCAAGACCCTGTCTCAAAAAACTAAAATAAAACCTTGAATTCACTCTAAGCATA
TATTACAGACTCAAAGATTTTGTAATCCTGTGGCTACTATGTTGAAGAATTTTAACTCTTCCAAAGACAATTAAAATACCAAAATTTTTCTTCTGTATGT
CAAATTTATATGATGAAAATTAGCTTTATTGGATTTCAGGGACTTTTCATTCCTATGGTTCATTTTACCTTTCTAAAATACTATATTTCAGTTTCATTTT
CTTGGTTGTTTTACTTAATTGTACTGAGCCTCCTTCTCTTTATAAATGGTTCGCCCACACATGTACACACACTGTAACTGGAAAAACCACCACTAATCCT
ACAGTTTCTTGTGTTCTTCCAGCTTTCTTATTCTTCACAGAAATTTTTTAACTACACAGTGCTTCACTTCCTTATCAACTCGTCTTAATCCCTTTCCAAT
TCAACTTTACTCTGCCATACCACCCAATCATTATAGTATCAAGTCTCCAATGACCACTTCCTCACTGAACCCAAAGATTGCAATTTTCATGCTTCTCTGG
TGCATCAGACACTAGTGATCAAGCATCCCATGTCACTAAAGCCAAAGACAAAAACATTTCATTGTGTTTCCAGTTACAACTCTTACACTATTCTTTATCA
AATACACAAACTCATCAAATCCTAGGCTTCAATTTTACTTGGATAGCTTCCAATCTCCAGCCTACTCTCTCAACCTCTTCATATGTCTGTTACATGAAGG
CATCTCCAGTTGTGCTACACAAGCATGGAAACTTATTGTACTAAAACCAGTACTCATCTCCTTTCCCAACCAGAAAATCTGGTCCCACATTACCTCCCTG
TACATAATACACATTAAACGTTGAACAATACTTAGTCCAGGAGAAAAATAAACAGGTTTATGATACTCATATCAATTTATAAGCTTTTGGAGGAAATAGA
TGGTATTTTCACAATATACACAAAATGTGTTTGTGCCTTTTTATTAAATTTTACCCTTTGTTTTACTAAAAACAATATAACATTTTTTAAAAAGTGTAAG
CAATCTTGGCCAGGTGTGGTAGCTAACGCCTGTAATCCCAGCACTTTGGGAGACCAAGGCGGGTGGATCGCCTGAAGTCAGGAGTTCGAGACCTGCCTGA
CCAATATGGTGAAACCCCGTCTCTACCAAAAATACAAAAAAATTAGCCAGGTGTGGTGGCGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTAAGCCAGG
AGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATGGCGCCACTGCACTCCAGCCTGCGCAACAGAGCAGGATTCTTGTCTCAAAAAAAA
AAAAAAAAAAAAAAAGAGTGTAAGCAATCTTTAATTGGAGGCCATTTGGCTAAGATGGTCCTAGGACTCTGGGTTCCTATGTAAGCAAACTGAAGCCCAA
TGTAAACAGTGAAACAAAACTTAATCTTTGCTTTTTATTTTTTAATTATAAACTGACTATAGTTATATATTTATGAGGTACAAAGTGATGATTTATGAAT
ACAATGTGGAATAATTAAATCTAGTTAACATATCCATGACCTCAAATTTTTTTTGTAGTGAAAACTTTTAAAAGTTACTCTTAGCAAGTATAAAGTACAT
TATTAGTCACTATATTCACCATACTGTGCAACATATCTCAAAGAAAAAAATTCCTCCCCTTTGACTATCATCTCCCCATTCCCCCATGCCTTCCCTCCAA
CCCTGGTAACCACTGTTCTACTCTCTGCTTCTTTTAGTTCAACGGTTTTAGATTAAATATATAAGTAAGCACATATGTTGTTTGTCTGCTTGTACTTGGC
TTATCTCATTTAGCTTAATGTTCTCCAATCCATCCATGTCGTCACAAATGACAAAGTTTCTTTCATTTTTAAGGCTGAATAGTATTCCACTACGTATGTA
CACCAGATTTTTCTTTATCCATTCATCTGTCTAAGGACCCTTAGGTTGATTCCGTATCTTGGCTATTGTGATTAATGCTGCAATGAACATGGGAGTGCAG
ATATCTCTTCAACATACTGATTTCCAATCTTTTAGGTAAATACCCAGAAGTTGGATTGCTGGATCATATGGTAATTCTATTTTTAGTTTTTTGAGGAACT
GCCACTGTTTTCCATAACGGTTGTACTAATTTACATTGCCATTAACAGTGTACAGAGGTTCCCCTTTCTCCACATGCCTTGCCAACACTTATCTTTCATC
TGTTTGATAGTAGCCATTCTGACACATATTGGGGTGATATCTCATAGTGGTTTTAATTTGCATTTCCCTGATGATTAGTAATGTTGAACATTTTTTCATG
TATCTGTTGGCCATTTGTATGTCTTCTTTTGAGAAATGTCTATACAGGTTCCTTGCCCATTTTTTAACTGGATTATTTGTATTCTTTCTATAGAGTTATT
TGAGTTCCTTTTATATTCTGAATTTTAATCCCTTATCTCATGTATGGCTTGCAAATATTTCCTCCCAATCCATAGGATGTCACAACTTAATTTTAATCAG
AAACCAACAACTATTCTCTAACAAGCAACTTTCTGCCAGATTGTACCCAAATAAGACAAACAAGTAGCTATGACAATCAAGTAATTTTTTTTTTTTCAAG
ACAGGGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCACAACTCACTGCAGCCTCAACCTCCCAGGCTCAAGCAATCCTCCCACCTCAGCC
TCCCAAGTAGCTGGGACTACTGGCATGTGCCACCATGCCTGGCTAATTTTTGCATTTTTTGTAGAGATGGAGTTTCACCATGTTGCCCAGGCTGGTCTTG
AACTCCTGAGCTCAAGTGATCCACCTACCTCAGCCTCCCAAAATGATGGGATTACAGGTATGAGCCACTATGCCCAGTCCAATCAAGTAATTTCTTTACT
TCGCTTCCACATTCAGCCTGCAAAGGTCTGCCGCTTACTCTGTTAAAACAAGAGCTCCCTGAACTACTTCTAATTTTGGGTGCTGCCAAATTCATTAATC
CTTTAACACAAAAACAAATTCTGATAAATTGATTTCGTCTAAAGTTTTTCTTTTAACAAAGTCAAAATGAAGTTACCAAGGAAGCCCTGAAGGCTTTTTG
TGATAAGGCTTAAAAGATTACATGATAGTAAAAGGTTACATGCTGAAAGATTCTCAACTAAAGAGCCTTATCATACATCAAGAGCCAGAGTTTCTTACAT
ATTCTTCTTGTTTCCAATCTCTTTTCCTCTTTCCAATACACGCTCTACTGTGCACTCAGAATTACTTACCTAAAATATGAAACTGAGGTCAGTAATCAAA
ATGTCTTCCTGCTGCATATAAAATAAATTCAAATCCTTTAATCTGGCATTCAACTACTTACCATCTGGTCAATCTGGTATCAGTGTATTTGTCAAATTTC
ACTTCCCACTGACGTACTCCCCTGCCCCTCATGCTCCAATCACACCACCCTCCTCATTCTTTAAGACCTAGCTCAAATGAGCGAACTAATGTTATGTGGC
AAGCAATGACTATGCACTGAGACCACCAAAATAAATAAGATAGTCCCCGGCTATCAAGAATCATATTTGGTGGAGAAACACACAAGCAAACAAATCTATG
TTATTTAATATAAAAGATGTGATATAAAATACAAGCAGAGGGGTGGGTATGGTGCTCGTGCCTGTAATCTCAGCAATTTGGGAGGCCAAAGCAAGGGGAT
CACTTGAAGTCAGTAGTTTGAGACCAGCCTGGGCAATATAGTGAGACCATGTCTCTACAAAAATGTAAAAATTAGCTGGGCATAGTGGCACATGTCTGCA
GTCCTAGCCACTCTGGAGGATAAAGCAGAAGGATCTCTTGAGCCCAGAAGTTCAAGGCTGCAGTGAGCTATCATAAGGCCCCTACACTTCAGCCTGAACA
ACACAGCAATACTCTGTCTCTAAAACTAATAACAAATAAATAAAATACAACCAGAATACAGAAAGGCAAATTACCAATTCAAAGTAGCAGAATCAGAGAA
AGCTTCATAGAAAAAACAAAAAGGTGTTCATGTGTCAGAGAATAATGGTTAACACTTATGTAGCACTAACTATATGCTAGATTCTATTCCAAGTGCTTTA
TGTATATTAACTCATTTAATCCTTATTTTCTACGATGATGAAAATTGCTTAAGTAAAACAAATGTAGTATCATTTATTGAACATTTACAACATGCCAGGA
ACTGTGCTAAGCACTGAACAGGAACAAAATGAAATTAAGGCCTACAATTTTAAAAAGAACAAAAAAGGAAGCCGGGCAAGTGGCTCACACCTGTAATCCC
AGCACTTTGGGAGGCTTGAGGGGGCAAATCACT


SNP Information

Context             (SEQ ID NO:55542):
AATGAAATCTTTTGAGTTTTTAGCCAAAAATTGGCATTTTTAAAATACGAAAATTTCCTTGGAATTATAATGTACTGTACCTCTTCTTTTTTAAATAAAG
R
CATTTTACTATATGGAAAATAACTCACTAAAGCATAAATTACATTATACAAATCATGATCACTAATGATGTAGTCTGTCATTCACTTTGTATTAATCTTA
Celera SNP ID:            hCV29117097
SNP Position Genomic:     13474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:55543):
TATGAACAGTATTTCAGCCTTAATTGTGAATTTCCTTGTTATTCAAGTATTAAATGAAATCTTTTGAGTTTTTAGCCAAAAATTGGCATTTTTAAAATAC
R
AAAATTTCCTTGGAATTATAATGTACTGTACCTCTTCTTTTTTAAATAAAGGCATTTTACTATATGGAAAATAACTCACTAAAGCATAAATTACATTATA
Celera SNP ID:            hCV29117098
SNP Position Genomic:     13422
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:55544):
CCAAACTCATTACTATATCCAGCATTATTTTAATGTTACTTTCTTGATGGTTCTCATAATTATAATATGAAATGTAAGTTCATTGATTCACTTTTCAGTC
R
GTCCTACAAAGACATTAATCTCAATATATGTATAGAGAATTAGCAGCAGCTCACTGCTTATGCAAATCAGCTTTGTACTGGCTACAAAACAACTAATCCA
Celera SNP ID:            hCV29117099
SNP Position Genomic:     7096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55545):
TTGGGGTAACATTTCTGTAGATTTTCCCTGCCACCTGCCCGCCATCTCTAACCCAGCCCGGGCACTCCTTCCGAAGCTGCTTAAGATGCCGGTGGTTAGT
Y
TCTAGAGACGGCGAGAAGCGCGGGCACAGGCGCACGAGCTCGCACCAGGCTGAGTGCGGAGATGGGGACTCCATCTCTCTGCAACCTCTGCCAAAAGAAA
Celera SNP ID:            hCV16181999
SNP Position Genomic:     6586
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,597|C,903)   total(C,903|T,597) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55546):
AGCTGGGCGTGGTGGCGCACGCCAGTAGAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATCGCTTGGGAGGCAGACGTTGCGGTGAGCTGAGATTGC
R
CCACTGCACTCCAGCCTGAGCAACAAGAGTGAAATTCCGTCTCAAAAAAAAAGAGCTAAAAAAAGGTGTCTTTCTGATCACCTAAGACTCAGAATTCTAA
Celera SNP ID:            hCV8511216
SNP Position Genomic:     8142
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55547):
AATGTCTTTGTCAAGCCCTCTAGGTCATTTTGATCCACTAAATTTGAAAGTCACTTCCCTATATATAGGAAAGCACCCTTTATGTCATATTTTTTTTCCC
Y
TAATAAAACTATAGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGACGGGTGGATTACCTAAGGTCAGGAGTTCCATACCA
Celera SNP ID:            hCV11164693
SNP Position Genomic:     9562
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55548):
CATTCCGAAAAGAAAACCTTTAGCCCAGGCTCCAATTATAATGACCAAGTATTAAATATTTATGTATGTGGCTATAACAACATACTTTACTAGTCTTGAC
S
AAAATGTACAGTGTGTTACAAAACACATTGAGATATGTATGCTGTCAGAATAGACTGATGATTAGAAATTGCCTAGTCAACACAACAGTCCGTGATTCTT
Celera SNP ID:            hCV8511217
SNP Position Genomic:     7789
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55549):
AAACAACTAATCCATAAAGAAAACTAAGATTGAGGTAACTAATAATTTGGAAATTGGTCAATGGAAAGTGGAAAAGATCAAGGCGCTAAAGTAGTTTGCA
M
CTGCTCATAAGAGAGACATGGGATTAAAATCACGAAAAGAACCTGAATTAGAAACCATTCTATCTCAACTAGAGTTGGTCAGTTAAGAACTTGGCTTTTA
Celera SNP ID:            hCV1387720
SNP Position Genomic:     7283
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(A,1|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55550):
TTTCACATCCCAATACTATTTTGAAATTCTAAACAATTAAACCAAAATTCCAATAAATATAAGGTTATGCCTTCAATATATTCCTATACAATTCTGTAAC
M
ATGGTTTAAAATACACAAGCTTAAAATAACATGCTTAGAAATACACAATAATATGAACAGTATTTCAGCCTTAATTGTGAATTTCCTTGTTATTCAAGTA
Celera SNP ID:            hCV16251388
SNP Position Genomic:     13270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:55551):
TGAGAGGCTGAGGCAGGAGAATAGCTTGAACCCGGGAGGCTGAGGTTGCAGTAGGCCACGATCGTGCCACTGCACCACAGCCTGGGCAACAGACAAGACT
K
CATCTCAAAAACAAACAGAAAAGAATATATGAGATACTCCCTTAGATCACAACCTTTCTTCACCTATTTTAATTAGCCTTATAATACCAGTGTATTCTTT
Celera SNP ID:            hCV15918725
SNP Position Genomic:     12370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55552):
CATTTCTGCATTCTAGCCGACTTTCATGAGCTTGCGATTAAACGTGCATGTTACTTCTAGGATTTCTTTACATCTTTCAAAAGTTTTATTTTCTGACACA
Y
AGGATTGCAGAATGAGTTTCCAAAATTTTCGCTGGTTATTAAGGAACTCACTTTGGTTTTCAGTACTAGTGAAGTTAAATGAAGTTCTGGTTATATGAAT
Celera SNP ID:            hCV27995789
SNP Position Genomic:     6886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 297
Celera Gene:                 hCG17342 - 146000219544876
Gene Symbol:                 CL25084
Protein Name:                hypothetical protein CL25084;CL24936
Celera Genomic Axis:         GA_x5YUV32W5TR(32996187..33040476)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12457):
AAAACAAATGTAGTATCATTTATTGAACATTTACAACATGCCAGGAACTGTGCTAAGCACTGAACAGGAACAAAATGAAATTAAGGCCTACAATTTTAAA
AAGAACAAAAAAGGAAGCCGGGCAAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTTGAGGGGGCAAATCACTTGAGCCCAGGAGTTCAAGACC
AGCCTGGGCAACATGGCAAAACCCTATCTCTTACAAAAAATACAAAAAAAATTAGCCAGGCGTGGTGGTGCACACCTGTAGTTCCAGCTACTGAGAAGGC
TGAGGTGGGAGGATCACTTTAGCCCAGGAGGTTGAGGCTACAATGAGCCAAAACCATGCCATTGCACTCTAGTCTAGGCAACAAAGTGAGACTCTGTCTC
CAAAAAAAAAAAAAAAAGTGAGAGATGGTAGTTATCTCATTTTGTACCTCCATTGGTAGGGCTTAACCCCTTTGAGATTCTTTCCATTTTTTTTTTCTTT
TGAGACAGAGTTTCACTCTTGTTGCCCAGTCTGGAGTACAATGGCGCCATCTTGGCTCACCACAATGTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCTT
CAGCCTCCAGAGTAGCTGAGATTACAGGCATGAGCCACCACGCCTGTCTAATTTTCTATTTTCAGGAGAGACAGGGTTTCTCCAGGTTGGTCAGGCTGGT
CTTGAATTCCCAACCTCAGGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCGGAGATTCTTTTTTAATT
AGGACAAAATAAAATAGGACTTTTTAAAACAGGATTTAAAAGATTCACCTAATTACTTATCTCCTACAGCCATAATTTTCTTTTTAAACAACAGTATGCC
TTGCCCAATTTTTTCAACAGCATTGATTTATTCAACAAGTACTGGCTGGGTGCCATGGCTCACATCTGTAATCCCAACACTCTGGGAAACCAAGAATTCA
AAAAATAAAAAAATTAGCTAGGCAGGCTGGTGCACACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGATGGGAGGATCGCTTGAGCCCCAGAGGTTGG
GATGGCAGTGAGCAGTGATCATGCAACTGCACTCTAGCCCGGGTGACAAAGCGAGACCCTGTCTCAAAAACAAACAAACAAACAAAAAAACAATGGATTA
CTCACTCTATGCAAGGCAAACTAAGCACATACATTTTCCTCCGCTTCCTAACAAAATCGCACTGAAATGCACTCATTCATTCTGGAAGAGAAAGCAGGTA
GGATTATGCTGAGGATTAAGCCAGTGCAGAGAAAACTGCAGTCCAGAACACACACACATGCATACATGAGAAGGCTATAGCAATGTAGAAGACATTCTTG
CCAGCAGAGCCTGGAGAGGTACCAATCTTAGAAACAAGCAGAGGAAGGACGTAGGACTAAAATCAGAATTATTATAATATTTATATGAAACAGCAAGCCA
AACTTTTTACCACAGCCCTTTACACACAAAACGCCTGGCAGCAACAGTATTTGTTTCTGGCTAAAACCACATCTATTTTGTTGTTATTGCTCTTTTTAAT
TTAACAGTCTACCCTGGAAGCCTTTGAGCATCTTCATGTTCCATAACAAAGCATTCCTTATTTGGGTACAGGGTGGAAGGAGAGGAGGAAAGAGGCAACT
CGTTTCTTGCACTTCACTCAAGGACCCTAAAGTTAGACCCAACAGCTAGTACCCTGCTCACTTACAAAAGAGCTCAATAATTTTTTTTTTTTTAGATGAA
GTTTCACTTTTGTCATCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTTAAGTGATTCTCCTGCCCCAGCCTCTT
GAGTAGCTGGGATTACAGAAGCCTGCCAAGACTTCCGGCTAATTTTTTTATTTTCGGAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGACCTT
CCAGACCTCAGGTGATCTCTCAAAGTGCTGGAATTACCGGTGTGAGCCACTATGCCCCGCCAAGAATTTTTTTTTTTGAAGTAAAAGCACAACAGACAGA
AAGGATGAAAATAAACAACTGACCTGAAAGAAGCAGAGCTATTTCCGGGAATGGGACATAAATATTTAAAAGTTATAAGTGTTATCCTCAAAGAAATTCA
TGTCATGAGAACAATGCATCCATTAAAAATAACTAGATGACTAGAAACTGTGGGGAAAAAACCACTGAAAAAAGAAAGTGAAAAGAACTGAAAATCAAGG
AAATGGACCTCTTGGATTGATCCTTCGTATTATGTATTTTTTCTTTTTATATTTTTCCTCTGTATTTGGAAGAATCTATCTAAATGTATTTGGAAGAACC
TATCTAAATTCTGAATAGAACAGAGAAAATGTCAAGAACATAATTAAAGAAATAATTGAAGAAAATTTCCCAGAAGTGAAAAATAGGATTCATAGAGTGC
CAAGAAGGATGAATGAAAAAAGATTCACCACCTAGAAACACTGATAAAATATCACAGAACCAATGATAAAGAAAACAGTCTAATAAAATCTTCCAGAGAA
AAAAGTATGATACCTGCAAAAGAAAGAGACTGGCATTAGACTTGTCATCAGATACACTAGACACAAAAAGCAAGAGAATGTCTTCAGAGTTTTGAAGAAA
ACAAAATGATTGTGGACTAAGTCTATTCCCAAGCTATCATTAAATGAGCAGGCAAGGTAAAGGCATTTTCAGACATATGAAGTCTGTGGAAATTAAATTA
CCTGTTTAATCCTTCCTGAAAAAAATTGCTTGAAATTAGTTATACCCCTACAAGGTGGGAAAAAAATCTATGACAAATGAGGACATGGAATACATAAAGC
AGTAGACCTAACCCAGGCATGATACAAAAAAATCTCAGTAAACAGGTATGCAACTGACTTGTAAAGCAACTAGTCTAAATTACATGTGTGAGAGCTGGAA
ATACAGCTTCAGGAGCAAAATGAGTTTATTTTAGCAAACATGGTGCCATTATTAGGAAGCTAATAGGATACCTTAATTGGCAGAGGTAGAATTACATTTT
TTCTCTGCAGATGCAATCATACTTAATAGTTTTATAGCGAATGATGATTGTATAATTACAATATGGTAAATAGTTGATAAGTTTTCAATGTTTAAGAATC
AACCTATAAATAAAGCATAAAAGACTTGTACTGATTGATGTCCTGTGGCTCCTTAAAATGTGTAAAACCCAAGTGTAGCCCGACCACTTTGGGCACATGC
TGTCAGGACCTCCTGAGGCTGTCTGTGACACGTCCTTAACCTTGGCAAAATAAACTTCTAAACTGGTTGAGACTTGTCTCAACTACTTTTTGGTTTTCAT
CCTCTATTACCTTCCTGAGGCTGCTGTAACAAATGACCACAAACTGAGCAGCTTAGACAGCATAAATTGATTGTCTCACAATTCTAGAAACTAGAGGTCA
GAAATCAAGATGTCAGCAGGGCTATTCTCTCTCTCTGAAAGCTCTAAAGAAGGATTCTTCCTTGCCTCTTCCTAGCTTGTGGTGATTACTGGCAATCTTT
AGCATTCCTTGTCTTATAGACACATACTGCAATCTTGCTGCCTCCTCCTTCCTGGCATGGCATTCTCCCTGTGTGTCCATGTGTATCCAAATTTCCCTCT
TCTTATAAAGATACCAGTCACCAGATTAGGGCCCCCTTTGATTCAGTATGACCTCATCCTTACTTGAATTATATTTGCAAAGACCCTATCCCAAGTAGTT
CACACTCACAGGTTCTAGGGGATAGGACTTAAACATGTCTTTTTGGGGAACACAATTCAACCCACAACACCCCCTACAATCAATTTTCCACACAGCAGCC
ACAATGATCTTCACAAATGTACATCGGGTCCTGTCCACTCTCCTGCCTACAGAGCTGTCTCCCTGGCCTCTTTCTGCTTCTCAAACTTCTTCTACCACTT
TCCTCTTACACTCCAGCCACACTGGCCTTCTTTCTATCACTCCAACACATCAAGCTCATTCCTGCCTCAGGGCCTCTGCCTAGAAATTTGTCTGGCTCCC
TTCTTTTCATCATTCAAGTCACAATTCAAATGTCACTTCCTCACAGAAGTCTCCTCTGACTTACGTACTAAAAGCAACACATCCTACAGGTATTGTCTTT
CACATAACCTTAGTTTCTTTGCAGCACTTACCAATACTAGAAATTATTTTACTTATTTAAGTTCCCCTCTTACTTGAACATCAGCTCTATTGAACACAGA
TTCAATCACTATAGCCCTAAATGCTAAAACAGGACCTCACAGACAGTTTTCATTTTTATTCCGTCAAATACATCTCTTTTCCTTCATGACTTAAGACTAG
TGCTTAGCACAGAATAAATGCTAAAAAAAAAAAAAATTGACTATTACTACTATAATAGTTTGCAATTATTTGTTTGTACAATCTCCCTGCCTAGACTGTG
TGACCAAAGACAGAAACCCATTTATTTGGCATTTTACCAAGCCCAGGGGGGCCAGGCACAGTGGCTCAGGCCTGTAATCCCAGCACTTTGGAAGGCCGAG
GAGGGCGGATCACCCGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGGTGAAACCCTGCCTCTACTAAAAATACAAAAATTAGGGTGTAGCGGCGCG
CGCCTGTAATCCCAACTACTCGGAAGGCTGAGAAAAAGGAGAATCCCTTGAACTCCAGAGGCGGAGGTTGCAGTGAGCCAAGATTATGCCTCTGCACTCC
AGCCTGGGTGACAGAGCGAGACTTTGTCTCAAAACAAACAACAACAACAAAAATCCCAGGAGTCTGGATCACATTAAGCATTAATAAGAAGTGCTGAATA
TAATTAGCGAATAACAATTCTGAAGAAAGTTATCTTCTTTGATACTATGGATTCCTGATGTTAAAAAAAAATTTTTAAGATAGAATATGGGACTGTCCTT
CCTGCTTTTTGATTTGGTTCAAATCTGAGGAAGTGGGGGCGACCAGTCTTTAACAGATCTAGCAAGACTGTCGAGCTTTAGGGAATGGTAATTTCTCTAA
AGCCAACACTCTATGTCCATTATATTGGAGATCAAAACAGACAATGGCATTTTTTCTAAAGAGGGGGAGGGAAAAACAAAACTTTTTGTCTAATTTGGGG
ATGCAGTCAGACGTGACTTAGTTCATAAACACACACATTCATCTGGCGCTAAACCTCACATAAGGAACCTTACCAGCTTCCTTGATAAAACAACACCCCA
ACACTTCAATCTAGAGATGGAGGGTAAAAATGTAGGGTTGTGATGTCTAGCTGCCCATTCCACGAGAGTCGCCCACCACGCCAAATTCGGAGGCTTGCGG
TATTCACCTACGGGGAGATGGCGGGCTACCTCACCCCAGGTTTCCCCTAACACAGAGTTGCAGTCGCTGAACAAACTGCCCTGCGTTAGTCAGAAGCTGT
TAAGTAACGAGATGGCCACGGTCCACAGCAGAAGAGATGGAGATAAGCCTCAAGCGGGAAAAATGAAGTGTACAAATGCCAAATGCGGAGAAAAAGAAGA
AAAGCTGCAAGAAGGCAGGTCAGTCAGGAACACCGCCATTTCTCACATCTCATCGCTACTTCGAATTTTCTCATCTAAGGACCCGCACCCGCACGGTTCA
CACTGTCTTCTTCCCGCTATCACTCCGTGTGGGTCAAACCTCTGCCTGCCCACTGGAGAGCAGCGGGAATGGCTTCAGGAAGCGGCTGCCGCCTCCGAGA
CTCACCGACCTGCCGTGCTGCCACTTCTACACCGAAATGGCTGGTCCGAGGCCGCGTCTCCAGAGCTGCGTCCCAGAAGCCCCCGCTTTCGATCCCCACC
GCGATGCTGCAGCCGTCCGAAAACGAGAGACGCGCAGGCGACGTCCCGGCCCCCGTAGGCGGACGGCTCCGCGACCCCCGGATGTTGATATGTCGTCTGC
CCCGGAAACGGTGACAGGAGGCTCAAGGGGGCGGAGGCGGCGTTGCCGGGCTCTCCGGAAGGAGACGTGGCGGCGGTTGGGCCGGTGATACCCGGGCGCT
TTATAGTCCCGCCGCCTCCTCCTCCACCTCCTCCTCCTCCTCCTCTCCTCCTGGAGCAGAGGAGGTTGTGGCGGTGGCTGGAGAAAGCGGCGGCGGAGGA
TGGAGGAAGGAGGCGGCGGCGTACGGAGTCTGGTCCCGGGCGGGCCGGTGTTACTGGTCCTCTGCGGCCTCCTGGAGGCGTCCGGCGGCGGCCGAGCCCT
TCCTCAACTCAGCGATGACATCCCTTTCCGAGTCAACTGGCCCGGCACCGAGTTCTCTCTGGTCAGTGCCCTCACTAACCCCGCAGCCACCCCTCCTCCT
GACACTAAGKGTTCGGCCTCTTCCCTCGGTTTTCTTTGCTTTTTCTCCCCAAGACCTTCTCTGCAGACTCTTACCTTCCCCAAGCCAAAGCTGCTTTTAT
GCAGCGTTCATTCATTCGTTCGTTCTCACGTTATGTGGATGCGTCCCCCTTGCTGAGCATTAGGGATCCAGCAATCACCTGCTCTCCACCTTTTCAATTC
TGTCGCACTAGACCTTGCTTCCCAACATTCCCACCCTGCAGAAGCAGCTTTCGTAGAATAACGTCAGGTGCACTTACTCATCTTCCTTTCGGAAAATTAA
CTGTGGCTCTTACTTCACCAGCAGACTTCTTTCCTTCAGTATTACATGTCACCCTGCCCACACCACAGTACTTCAGACTCGAGTTCCCTCTCTCGTATTC
GTTCTCCCTCAGTTGTATACACACACGGACATACGCAAACGCACAGCTCCAAGGGAACTTTTTCCTTTCCTAGTTGTTTCTGAGAGGGCTATTTGGCCTG
TGAGATGTTAACGACCCTTTATGCAGAATATCCTTTACAGTTTTCATGTATTACGACTGTTATTTGAGTCCCCAGAACATGAGCTTCTATGTTGAGTTTT
CCTGTAGTGAAGAACATTTGTAACCTCGCGGAAATGAAAATTCCCTCTTGGGGGAGTGGACCGCTGAAAAGTCTTCCTGTCCACGTGTACCTACTGCAGG
CTAATAAATATTGTACTCTTATGACACTTACCATGTAGTAATTAACTCATTTACTTCAAATTGAAGTCCCGGAAAAAGCAAAATTTTTTTAAACTTTTTA
TTCCAATTACCTTCAAGCATTCAACTTGCAATACTTTATTATATTCTTTCATTAYCATTTCATTGAAACAGTAAGTGACACTATGATGTCAAAACAAGAT
GTGTCAAGTTAATGGATGTTATTACCACATAGCTTTCTATTTGCAAGTGTTAGGGGTTTTTTGGTTTGGTTTGGTTTGGKTTGGGTTTTTCTGTTTTTGT
TTGTTTTTTGAGACAGGGTCTCAGTCTGTTGCCCATTCTGAAGTGCAGTGGTACGGTCACCACTGGCTGCAGCCTCGACCTCCTGGGCTCAAGAGATCTC
CTCAGCTTCCCAGTAGCTGGGACTATAGGGAAATCCCACCACTCCTGGCTAATTTTTTTTTTTTTTTCTAGAGGCAGGGTCTCACTATGTTGCCTAGGCT
GGTCTCGAACTCCTGGGCTCAAGCAATCCTCGTGCCTGAGCCTCCCAGAATACTGGGATTACATGTGTGAACCAAATGTTCTGAATTTATCTAGGTAAAT
ATTTTTCTGGGACGTCAAATTTCTCTTTGTATTAATGCCACAAAATATTGATACATTGAAATACCTATGTAAAATTTTGTTATGAATCAGATATAACTTT
AGCAGGCTTGGAAGAGAATACTTTAATMYCTGTTGTTGTATCCAAAGAGCACACTTGGAGTGAATATGGCAGATGTTTGAAGAATTATGTCATTAAAATT
TTTTACTCTTGGCACCTGTGTTTTTTTTAATTTAAAAAAACTTGCTGATATGCAGCCCTGAAAACTTACTATAAGCGAGCGACTAAAACTAGCATTTTTA
GAGGTCACTACCAAATTGTCATTCCATTTTCTTTCAGTCTTAGCATTTGCTACACCAACTTTTCACGTATCTAACAATTTTATTTCAAAAAAAAAATGCT
TTGGCCATGTGCGGCGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCAGAGGCAGGCGGATTATGAGGTCAGGAATTCAAGACAAGCCTGACCAACGT
GGTGAAACCCCATCTCTACTAAAAACACAAAAATTAGCTGGGCGTGGTGGTGCACACCAGTGCTCCCAGCTACTTGGGAGGCCGAGGCAGGAGAATCGCT
TAAACCCGGGAGGTGGAGGTTGCACTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAA
AAAAATTCTTTTTTTAGAAGCTGGAGTGCAGTAGGTATTTATAGGCATGATTATGCTCACTACAGCCTCAAACTCCTGGGCTCAAGCCATCCTTCTGCCT
CAGCCTCCTGAACAGCGAGGACTACAGGTGGTCACCATTGCATCTGGCTTTTTTTTCTTTAAGTCTGTGCTACTTTGAGAAAAATCTAGAGTGTTCTGTG
AATTGTCACAAGGCCTATGTCCTTTATGTAAAAATAAGCCACAATAGTCATTATCATTGGTCTTTTGATTTTTTTTAATACTTCTATAACCTTAAGGCTT
CCCTTTGCATTTAACTGAAATTACTGGCTGGGCACAGTGGCTGACGCCTATAATCCCAACATTTTGGGAGGCCGAGCTGGGTGGATTACTTGAGCCCAGG
AGTTTGAGACTAGCCTAGGCAACATGGCGAAACCTTGTCTCTACTAAAAATAAAAAAATTAGCCGGGCATGGTGGCACATGTCTGTAGTTCCAGCTACTT
GGGAGGCTGAGGCAGGAGAATCGCTTGAACCTTGGAGGCAGAAGTTGCAGTGATCCGAGATCATGCCACTGCACTCCATCCTGGGCGACAGAGGAGTCTG
TCTCAAAAAAAAAAAAAAAAGAAAAGAAAAGAAACCACTACTCTCCTCACCTGGCGCTGCCATTTTTTTTAATGGGCCAGTTGGTTGGACATTTGTGTTT
GTGACAGAGTCTCGCTCTGTCACCCAGGCTAGAGTACAATGGCGCCATCTCAGCTTACTGCAACTTCTGCCTCCCGGGTTCAAGCGATTCTTGTTGCCCA
GCCTCCCCAGTAGCTGGGATTGTAAGCGTGCGCTACCACACCTGGCTAATTTTTTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATTTTGGCCAGGCT
GGTCTCAAACTCCTGAACTCAAGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCGCGGGTTGGACATT
TGTATCTAACTAATATGCAGCTGTATGAAATAGGATAAGGTCCTTTGTCTGTTTACTAACTGAAATTGGAAGAGACTGGATTAGAAGATCTGMATTTTTT
AAGCTTTAAAATTGTCTGCTTTAAATTGTCTTCCCATTCAGATATATCAAAACAATATATAATTATTTACAATCTTGCTTTCAGATTTGCTTAGAAAAAG
TATTAAGCACCAAAACTGTAAAATGGGGGTTGTTTGTGTGTTTTGGTAGAGATAGTTTCCCTATGTTGCTCATGCTGGTTTCAAACTCCTGGTCAAAACT
ATCCTCTGGTCTCAGCCTCTTAAAGCGCTGGGATTATAGGCATGAGCCACCTCACCTGGCCAAAAAATTTGTGTATTTTTGATGTGTACATTAACTAGAG
TTAATAATTATGATATTCTTTGCTTATTGATGTTTAGCACTCAGTTTTGTTTTTGTGTTAATATTTTCCTTCTGAAGTATCACCTCTGTCGTTATGTTTA
ATTATTCATTACTTTATAGAGTTCAGAGATTTCACCAAATTAAACCACAAATCAGTCTAATTTTCTGTCTACTTCTGTTGTTGATGTAGAATATATTTTA
CTCAGATTTTCCCAAGCACTACTATTTGACCAACTCCATGGTTTATAGCATGTCATATACATTGACAGGTTCTACCAACAAGTGTATTTTATAGCCTCTA
CCAGAATAGAAGTTCTCTCATCCTCTAACCAACCTAATTCCTCCAGACCCACGTCAAACATTAGGAGTTCCTCTCATGCCAAGATATTTTTTAAGTTCCT
TAACTTTTAAAGTACCCCAGCACCTCTGATTAGTTTCACTATATTAAAATTTGACTTTATGTCAAATCTCTAATAAAATTTGACTTTGTCAGATCTCTAA
TAAAATTTGACTTTGTGTCAAATCGCTAATTTCCTCTTCCACTGAAAATACCTTGTTATGTAAAGTAAGTTTTTTATACTATCTAATTCTGTACATTCAG
AATTTATTATATTTTGTTTTCTTAAAGTAAAACCTGTTTTATACAATCAGAATCCTGATTTTAGTGGATCCGAATTTTTAGAAAAATTATAAAAGATAAA
CTTTTTCTCCGTAATTCCTGTTACCAAAAAGTAAAGTTTGCTAAAAATATATTTTGTGGTCCCAATAAGTGACTCACTATTTCAGCAGAGTTTTCAGATA
GAATTGCTATTTGGCTTATTTTATTGGGAAAGCAGCCTTTCCTAAACTAATGAAAGACTATTATTTGCATCAAGAATTGTCTTCCCTTTTTTGCTGTGGT
TCCAAACAAGCAGTTTCTTTTTACATTTGAAGCATTTTGGAGACCATTTTGAAAGGAATTACAAATGTTATGTCTYATAGCAAATCGTTGGCACAATTGA
ATAAATGTTTCTAAGAAATTCTTTATCATAAGTTTAGCTTTGCAACTGTTACTTTCAAATCTCTTTGATTCCCTCATCATCTATAATGCTCTTTTAAAAA
AAAAAAAAAAAAAAAAAAAAGACGGAGCCTCGCTCTTTCGCCCAGGCTAGAGTGCAGTGGCGAGGTCTCAGCTCTCTGCAAGCTCCGCCTCCCGGGTTCA
CGCCATTCACCTGCCTCAGCCTCCCGAGTAGCTGGGAGTACAGGCGCCCGCCACCACGGCCGGCTAAATTTTTTTTGTATTTTTAGTAGAGACAGGGTTT
CACCGTCTTAGCCAGGATAGTCTGGATCTCCTGCCCTCTATCTGATCCGCCCGTTTCGGCCTCCCAAAGTGCTGGGATTACCGGCGTGAGCCACCGCGCC
AGGCCTTTTTTTTTTTTTTTTTAATAAGTTGCCCAGGCTGGGGTCAAGCAGTTCTCCCGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGTGCACATCTT
ACTTACAGTGGCTTTTTAAACAAGTATCCTTGGCCATAATTCAAGTCTGCATAGTAATCTAGGAGAAGTTTGTGAAAGCTGATTCAAATATGTTAAAATA
TTTAAAAGCTCACAGAATATGGAGCCAATCTGTTTGAATTCTCTGGCCTCTGCTACTTCTAGGTTTTTTAACCTTGGACAAATGGTTGAAGCCCTGGGCG
TTAGTGTCTGTTTCCGTAAAAATGAGCATCATACTTGTTTTGAGGATTAATGAGTTAATGAATGTAAAACACTTAAAACAGTACTGTCCTAGAACTAATA
CAGCTAGTACTTACTGCTTTGTTTTGTTTTTTTTGTCTTAGGGAAAATGCTGTAATTTGCTTTTGTGTTTAGGATTACAGTGGTGCCAAGTAGTACTGGT
TTTATTATAGTTAAACAGTTGTTAGGCCAGGGCAGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGACAGAGGCTGACGGATGGCTTGAGCCTAGGAG
TTTGAGACCCACCTGGGCAAGAGGATAAAACCCCTTCTCTACAGAAAAATTACCGGGGCATGGTGGCATGTACCTGTAGTCCCAGCTACTAGGGAGGCTA
AGGCGGGAGGATCACCTGAGTCCAGGAGGTCAGGCTGCAGTGAGCTGTGATCATGTCACTGCACTCAGCCTGGGTTAGTGAAAGACCCTGTCTCAAAAAA
AAAAAAAAAGTTATTGTTAAATTGAGAATAGAACAAAGGTCCTTAATAAGAAGAGGTTCTCCTTGCCAGGAATAGCCAAATAGTACCATAGTTGCACAGT
ACCATAAGAGGAAAGTGAAGAGAGAATTGAATTATCTTAGAACATGTGTCATAAAACACAAAAATCTCTGCCTTAGTAAAATGAGTATCACATTTGCTAT
CAGGAAGCAGAGATTTGTTTTTACTAAAATAATATCTGTTGTATTAATTGAAGTGTTTATTTGAATTCTGTTGACTCATATTAACCAATGTGAATTTGTT
TGGTTTCATAGTGTAGAAAGCTTTAAGGATAATTTTGTCAATATATGCCAGAAGTCAGCAAACTACAGCCATTGCGCTGTCCCACCACATATTTTTATAA
ATAAGGTTCTATTAGTACATCATCATCCGTATTTGTTTACATATTGTGTACTTTTGTTGCTACAGTGGCAGAGGCGCAACAGAGACCATATGGCTCACAA
AGCCTAAATATTTACTCTCTGGCCCTTTACAAAAGTTTAATAAGTGCTCAGTGATGGTGTATCTATGAACATTCATTGCCACCTCTTAGTGCCTTTTTTT
CTTTTTTTCTTTTTTTTTTGTAACAGGGTCTTGCTATGTTGCTCAGGCTGATCTTGAACTCCTGGGCTAAAGTAGTCCTCCCACCTCAACCTCCCAAGTA
TAATCACTATTTTAACTTCAATCTGTTGCATTCCTCCTTTTTTCTTTATACTCCAAACATTATTTTGTTCATTTATTTTCCTATTATGACACAGGATAAA
GTTTATCTTCATTTTGTAATTAATAAATATGTTGATAAAACCACCAAAAAGAATGAAAGCATGTCCTTTGCAACCACATGGATGCAGCTTGGAGGTCATT
ATCTTAAGTGAATTAAGACAGAAACTGAAAACCAAATACCGTATGTTTTCATTTATAAGTGGAGGCTAAGTGTTGAATACACACTCAAAGACGAGAACAA
TAAACACTGGAGATTCCAAAAGACAGGAGAGAGGGAGGGGTGACAAACTACCTATGAAGTATTAGGATACTATGTTSAATACTTGGGTGACAGGGATATT
AGAAGCTCAGACTTCATCATCATGCAATATATCCATGTAACAAACCTGCACATGTACCCCCCGAATCTAAAATTTTTGTTAATGTTTGTAGCATATTTTC
CCTCCCTTTAAAATAATCATCTGTTGAAATGTTAAATTAGTTTAAAGAATCTTTTTTCCAGCTAAGACTAAAGTTATTCAGTGTGATACAATTTCACGGA
GAACATAATGTATGTTTTTTCTTCTATTTGCAGCCCACAACTGGAGTTTTATATAAAGAAGATAATTATGTCATCATGACAACTGCACATAAAGAAAAAT
ATAAATGCATACTTCCCCTTGTGACAAGTGGGGATGAGGTAAGTTTTTATAAATATATTGATAATCCTGTCACCAAAAATATTTATGTAAAACATTGTAA
CTACATACTTTGAAGTAAAATTGAATAACAGATTTCTCAATAACGCTCTTTTAGCATAAAAATAGTAATCACTTTTAATATCCCTGAATTCTTTGATTTT
GCAGTTTATCTTGGGAAAAATTAGCAATCAATTTTTTTTTATTTTATTTATTTATTTATTTTGAGACGAAGTCTCACTCTATCGCCAGGCTGGAGGGCAG
TGGCACGATCTTGGCTCACTGCAACCTCCGACTCCCGGGTTCAAGAAATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACACACCACCAC
ACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTTACCATGTTGGCCAGGATGGTCTCGATTTCTTGACCTCATGATCTGCCCACCTCGGCCTCC
CAAAGTGCTGGGATTACAGGCATGAGACACCATGCCCGGCCGCAACCAATTATTAACGTTTTGAATGAAAATCTAACTCCACACTTGCTTTCTTTATAGA
AATTAGGGTTTTAAAACAAGATAACAATTTTTAAATGTATATGTGACTTTTTAAATAAATGATTGTTTATAAATAAGTCTGTAGGTACCCCATGCTTTCT
CATTATCTTAGCCCATGCCSTTTTCTTCCTCCTAAAATGCCCTAATTGCCTCTTATCCATCCTTCAAGGCAATGACTTCTTTCAAGATGAAACAGGAGAG
GCAGCATGGTAAAATGGGAAGGACACCRGCCTAGGAGCCAGGAGGCTGAGGTATAGGCTATAGCTAGCTGTGGAACCTTGAACAAATTTGAAACTGACTT
CCTCCACTCAATAAATTTATTAAGCCAATTCAGTAATATTTTCATGATCTGGAAAATAGAAATATTAAACTCAGTGCTTTATTGGGTTTTGTTCAGATTT
GAAATCAAAGACCACTGTTTTAAGTCTCCTTGAGACACACACACACACGCACACGGCATTCAAATCTGAAATGTAAAAATACATAAAAAACTGAAAAGTG
CCTTAAAACTTTCCAATATATCCTATAAGATTCAACTATTCTAAGGGCTTTCATAGCTAAGAATTTGTTTGGGTACAAGCATTTAAAAATTCTGAAATAG
GTTTATAAGAATTGTTCAGGAAACTGATACTTAAAAACCTTTTTTCCCTCCATTCTTGCCTTGTGAAAAGCAAAAATACATTTWAAAAAAACCTTTTTTT
AAGAAAGCATGAACTCTGTGAAGATTATTTTACGGCTCCATATTTTATACTTCAGTTATTTGAAAGCAATGGCGTACCGTAGGGTCTTGTTAAACATTTT
GACTTTTTTTTCTCTTTTATTTCTAAGCATTTGTGATTTGAGTAATGAGTTAATATCCAAACAGCAAAGTTGGGTGAAATTCTAGAAAAACTGTAAGTAT
TAAACTCCAATTCTTTCTTAGGAAGAAGAAAAGGATTATAAAGGCCCTAATCCAAGAGAGCTTTTGGAGCCACTATTTAAACAAAGCAGTTGTTCCTACA
GAGTATGTATTTYATGTTTACTTGATGACTAGAAAATAGATTACCAACAGCCAACAGACCTTTGAAAATACCGTTTCTTCTTTATTATGTTGTGTCAGGT
TTTTTTTTTTAACTATTATTTTAGGTTTAGGGTTACCTGTGCAGGATTGTTATATAGGTAAACTGCATGTCACYGGGGTTTGGTGTACAGATTATTTAGT
CACCTAGATAATGAATATAGTACCTGATGGGTTGGTTTTTTTTTTTTTTTTTCTTTTAATCCTCTCCCTCCTCCCATTCTTTACCTTCAAGAAGGCCCTA
AGTCTGTTATTCCCCTCTTTGTGTCCATGTGTTCTCATTTTTTAGCTCCCATTTATATAAATGAGAACATACAGTATTTGGTTCTCTGTTCCTATTGTAT
CAGATGTTAAGTTAGGTATAAATATAAATTATTTCTTTTTTTTTCTTTCTTTGCTTTTTTCTTTTTGAGAAAAGGTCTCATTCTGTCACCCAGGCTAGAG
TATAGTGGCATGATCACGATTCACTGCAGCCCCAACGTCCCATGCTCAAGCTGTTCTCCCACCTCAGACTCCCCAGTAGCTGAGCACCACCATGCCCTGC
TAATTTTTGTATTTTTTATAAAAATGAGGTTTTTCACAGTGTTGCCCAGACTAGTCTCAGACTCCTGAACTCAAGCCATCCACCCGCCTCAGCCTTTTAA
AGTGCTAGAATTACAGGCGTGAGCGACTGTGCCCAGCTAGTTATTTCTTAATAATATCTTATTCATTTAAATTCCTGTCTAGTGTATGCAGCAGATACCC
AATAATACCAATAACAAATCATATCACTTACCAAGCTGTTTTGAATGTTTTTCAGTTCAAAATAAAGTTTTCTTTTTCTTTTTTTTTTTTTTTTTTTTGA
GACAGAGTTTCACTCCGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCCGCCTGCCAGGTTCAAGCGCTTCTTCTGCCTCAGC
CTCCCAAGTAGCTAGGGTTACACACACGCGCTACCACATCCCGCTAATTTTTTTGTATTTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAAGCTGGT
CTCGAACTCCTGGTCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCAGTACACCSGGCCGAGTATATAATAGAATT
TTAATTTAAATTGCTAATTGTTATTTTTTAAGCTATGTAGAAAATTGTCCCTAAGCCAGGTAATTATTACAGACCCCAAGTGTATTCTAGACCTATTTCC
TTCACAGAATTCTCACATAGAGCTAGTGAAAATAATGAATAGACTTCAGAAATTTCACATTTTTTTGAGGCATAATTATAAGTGTCATTTAATGAAAGCT
TACTCTGAAATCTTAGGGGAAGTCTCAGCTGCTTCAAATATCAGAAAGTAATTCAGCTGAGTTATGTGGSTTTTGTGYATTGAAATATATCCATCTTTTT
TAGATTGAGTCTTATTGGACTTACGAAGTATGTCATGGAAAACACATTCGGCAGTACCATGAAGAGAAAGAAACTGGTCAGGTGTGTTTTTCTTCAAAAT
ATTATTATGAAACATTATAAGATGAGAACTTTAATAATGAGATTGATAGTTTTAAAGTTGTATCCTTAAAAATGTCTTTGCAAAATACTTAGTATATTTT
TATTTTACTTTTCAATGTAGAAAATAAATATTCACGAGTACTACCTTGGGAATATGTTGGCCAAGAACCTTCTATTTGAAAAAGGTTGGTGTCTACCCAG
TGATTTGASAGTAATGCTGGAATTTGGTTTAAAATATATGTTCAAAATGGAATTTACGAGATTTTTTTTTTGGACATTGTGTGAATTTTAAAATACTGAA
ATAGGCTGGGCGCGGTGGCTGACGCGTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCACAAGGTCGGGAGATTGAGACCATCCTGGCTAACA
CGGTGAAACCCCGTCTCTATTAAAAATACAAAAATTAGCCGGGCGTGGTGGCRGACGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGCATGGC
ATGAACACAGGAGGCGGAGCTTGCAGTGAGCCGAGATGGCRCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATTTCAAAATAAAATAAAATAC
TGAAATGGGCTTCTGAACTGTCCCTTACAAAACTTTCAAAGAAGTCTTTGTTTTCACCTTTTTTTTTTTAGACAGATTCTCTCTTTGTCACCCAGGCCGG
AGTGCGGTGGCACAACCACAGCTCATTGCAGCCTTGACCTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACCACAGGCACATG
CCACCATGCCCACTAATTTTCGTATTTGTTGTAGAGATGGAATTTCGCCATGTTGCCCAGGCTGGTCTCAAACTCCTGGCTCAGGCGATCCCCCTACCCA
AACCTCCCAAAGTCCTGGGATCGTATGCATGAGGATGAGCCACCATGCACAGCCTAAAAGCTTTACTAAAATAAGTAAGAAAAAAACATGTTTATCAAAG
CAGAAAATAGTGAAAACAATGCCAGGTGCATGTTAGTGTTATATATAAGTGTTAGTCTTCTGCTTGGCTTAAGCAAAGTTATTATATGTAGAAATAGATA
TATCTCTCAAATTGTGAAATATGTTTATTCTATATTCAGATTGGTCAGTTAATTTAATATTAAATTTTTCACTGAGATAAAAATACCTCGAAAGAAAATT
GTTGTGGCCAGTTTTCTACCTGAAATAGAGTATTTCCTGGGTAAAGATTAAATATGACTTCCTTTCATACAAAACCATTTCAAGGAAACTAGCTTTAAAG
TAGTAAGATAAAAATCATATGTGTTTTGGACCTTCTTTAGAAAGAAGATTAAGGTTACAAAGGTGGTTGAAAACTTACTCATTTGTACCACATATGTCAC
TGCTCATTCTTTACACTTACCTTATTATTCCACAGAACGAGAAGCAGAAGAAAAGGAAAAATCAAATGAGGCAAGTGACAGATGTTGATTTTTTTCCTCT
TAACACTTATTGTTAGTGAGGTATGAATTTATATAACCCAAGTGACAGAATATATCTTTATGTTCTTATTCTTCATCTATCAAATACCTTGAAGGACTGG
GTCAAAGAATCTTTGCAGTATATTCCTTTTTTCCGAGAAAAGTTACACTGTGGTCTTTCTATTTACTCTTAAGATTATACAAAAATAAATCTATCACTGA
TGTATCTGGGGAAGATTCTGTAATAGCATTATATCACTTACGTGCTTAGCAGTGGTTCCCTCTATATAACACTGGAAACTATTAAGAGTTTTGGTCCCCA
TTTCCTGTGGGCAAAACAGGTAAACTATAATGTAAATAACAAGCTACCAAACTGCAAGCATGTTAAAAGCAGGGACAGTCTTTTATCTCTTTACCCCACA
GTACAAAGCAGAGTGTCAGACATATTATAGGCACTTCATAAATGTTAATAGAAAGAATGGATAAATGATTTCTGTAACATAGGGACGTTTAAAAAGAATA
ATTCCTCAGGAAATCTAATCACAATTTTTAAATCCCAAAAATTTTTATAGAGTTTTTAAAAATAACTTATTAATAGAGGATATTTCCATAAATGGCTTAA
TATCATACTGATACTTTTTTTAGAAGTAAAGTAAAATGGCAAAGTCTTTGAAAATTACTTAAAAGTGATGCCTATAACTTTAAAGGGTAGCTTTGGAGAG
ACTTGATAAGCTAAGCAGAGACACACATAGCATTGCTATTTTAAAAGATTTTAATTTTATAGACTACCTTTGAGATTAAAATAGTTATTTACTGTGACTC
TGAAAGACAGCAAAAGATGGAATTCAAAGTGTAAAATGATAAAGGAAGAGGAAGAAAATGGTAAGGGAAGAAAACTATTTTTTGAGCCCCAGTTTATAAG
CCAGACACTGCCAGACATTTAACAAAAGCTAATGTTTAATTCTCCCAAAAACCTTTTAATACACAGTCATGAATCGCTTAGCAGTGGAGGTGCATTATGA
GAATTATGTGGTTACGTGATTTTATCATTGTGCAAACATAATAGAGTGTACTTACACAAACCTACGTGGTATGTGTATTTTTATTTATATTTTTTCCCCA
TAGAAAACCAAGTTCGCAGTACCATTACAGAATATCAGTCATTTCTGCTACCGCAATGCCAATATCAAATACGATATATCAGATTTCTGATATATGCTCC
ATTACAATCTTATGGGGCCATTGTCTTATATAAGGTCCATTGTTGACCAAAACATCATTATGCAGTGCATGACTGTATATTATTATTCTGCTTTTACAAA
TGATAAAAACTGAAATTTATTCAAAGCCATAAATCTAGTAAATTTAAAGCTTGGATTTGAACCCAGGATTTTCTAATTTCAGACACTAGCTTAAAAATCA
CATACATATAAGGAAATCTCAAAACATTTTTTCCTGAAAACATTATTTATTCTGGTTTCGGACATAGTGCTGATAGGGTACTAAAGTGATAGAAGATGAG
ATCCCTGCCTCCAAAGAGCTTGTTTGGAGATATTATTAACAGTGCCTTTTTAAAGTTCTTAGAGTGGATTTTTCTTGTGTTTATGTAGAGAAAAGTRTAG
GAGCTAACTTCTTAGTGATCTTTGTCTTCTCAGGTTCTATCCTTTATTCCTTCATTCCATGAAAAATTTTTAATTTGTCTTTTGCTGGCCTTGAGTATAT
TTATATAGGAGTTTACATGCTGGATAGTATTGCTGTTAATATTAAAAACGGGGAAGAAGAGTAAGTAGATTGATGAACCAGTCAGTACTGTATTTAAACT
TCTGTTTTAGAATAGTGTGTTTTACTATACAACCCTATTTTTTGGCAAATCAGCCTTCAGACCTATCAAATCTAAACTCTAATATAGCCATTTACCGAGA
GTTTAGAGAAGAAAGCTCTGAGCAGCCCAGTATAGTAAGTTTCTATATTTTATCTTAGTCTCTTTCTTTAGAACTGTTGAGAATAATTCATATTAATCAT
TATTTTGTAGCCCTTTATATAAATGTACATTTACTTAACATGTTAATTTTGGCACTAAATAATCTTTTTGCTGTATTAAACTAGCTCTGAAAATACATAT
TTGCTCAAATAAAAACTTACGAATCAAAATAATATTAGAGGGAGAACTTAAAATATAGAAGTGTTACCTTTCAGTTAATTAGTAAAATGTAGTTTTCTTC
CTTTCAGAATAATAAGTTCCTCTCCCACCCCCAGTCCCATCTCCATGTCTAATGAAAAGTCTGTCTTATACTCTTTTTTTTTAAGATTCCCACTAAAAAT
ATCGAAGGTCAGATGACACCATACTATCCTGTGGGAATGGGAAATGGTACACCTTGTAGTTTGAAACAGAACCGGCCCAGATCAAGTACTGTGATGTACA
TATGTCATCCTGAATCTAAGCATGAAATTCTTTCAGTAGCTGAAGTTACAACTTGTGAATATGAARTTGTCATTTTGACACCACTCTTGTGCAGTCATCC
TAAATATAGGTAGGATGTGCATTTAATATTTTAAACATAAAATGCACACATGCTTTAAAGTGTTCTGTGCATAGCTTTAATGCTTTGTTCCTACTGAACA
GGTTCAGAGCATCTCCTGTGAATGACATATTTTGTCAATCACTGCCAGGATCTCCATTTAAGCCCCTCACCCTGAGGCAGCTGGAGCAGCAGGAAGAAAT
ACTAAGGGTGCCTTTTAGGAGAAATAAAGAGGTATGAGAATTGTCTAATGATAGCTTTTTGGTGCTTCATTTTTAAAATTTCAGAGCATATGTCAATATT
TTAATGATTTCTGTAGTATAATGGTAGTAATTTATTTTACTGGCCCAACCTTTTGAATTTCATTTCTTTTCATTGATTTTAATCCTTTTCCTTATTCTAG
TACTACTCAAACTATTTTAATATTCTCTTATATTCATAATTTCATAATATTTTAAAGTTTSACATCCTACTCATTATAATTTAATTTTTAGGTATTTGTC
CCAGCTAACCCTCTTGAAAAATAGACTAAAACCCTATCTCTGTCTCCTGATACATTATTAATTCTTCAGCTCATTGCTGCCCTTTTAACCACTTCTCTAC
ACTGCCTCCCCATTTTAATATATTGTCTTCCATTTTCATCTGCCTACTGGGCATAGCCATATATACATTTTTAATAATYTCACACTCATCATTTTTTTCT
CTTTCATACTGACCCTTTTCTTGCCTTCTCCTGTGTTCTACCCAATTGACCAATTAGAAACCTAAGTCTTTTTTCTTACCTGTATCTCTTCATTTATCTC
TAACTCTAATCATCCACTAAAAGGTATCAGTGTTATCTTCTAAAGGCTTTTTAAATCCATCCTGTCATTAGTTCAGGACTTCATTATTTCTTGGAACCAG
AAACTGGTCTCTTAACACATCCCCTTTCTAATTCTTCCCACACAGCTGATAAAATGCTCTTTCTGAAATCACCCTTTGATTATGTGTTTAATCTCTTGGT
AGTTAACACATACTACATCTCAGGATAGAATCATCACTCGTGTAATACAAACCCCTTTGTGGTCTGATTTCAGCCTCATCTTTCATCACCATTCCCTTCA
TCCCAGCTGTTTTGAACAGCTTAGAGTTTCTTAAAAGTACCGCGGAGTTTTGCTCTCTCACCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTTACTGCA
GTCTCCGCCTCCCTAGTTCAAGCAATTCTCCTGCCTCAGCCTTTCAAAGTGCTGGGATTACAAGCGTGCACCACCTCACCCAGCCCTACTTGACCTTCAG
TATATTGTTTTCTTCTTCTCTTGCGTTGTCCCCTCCCACCCCTTCTGCTCATGAACTTCTACTTAGGCTTGAAGATGTGATTCCAATGTTACTTCCTTTG
GAAATGAGCCAAAACTTCCAGTGGATTAACCCAGGAAGAGATAACTACTTCCTCTTCTGTGGTCTTGTATTTCATTCAGACCTCCATCATAGCACTTACA
TGGCTAAGACTGATTGTTTTACCTATGGATGTTTCATTAAACCAGAAGGCAGAAGAAACATACTTGGCTGCAAGGCTTGTTTCTTTGCTTCCTCTTGAGT
ACTTCTGCAAAAATATTACTGGACTCTTTGTGCATGTTGTGACCAACACTGTCATTCTGATAGGAGGAAAATGTGATTAATTCCACAGTTTAATTTGAAA
TGCTATATTAAAAGATTTGGGCTAGAATTCTCTTCTGGTCTTCGTTTTGATAGTGAAGTATACTGGCACATACTTAAAAGTTAGCTCAATCAAAATGCTT
CATAAATCCCAGCTTTCGTTACTCTTCAAGGAAAAGATGCCAGTTTACTTCTCTTTAAATAATGTGTTTAGTCTGGGCATGGTGGCTCATGCCTATAATC
CCAACACTTTGGGAGGCCGAGGCAGGAGGATTGCTTGAAGCCAGGAGTTCAATACCAGACTAGACAACTAAAACCCTGTCTCTACAAAAAAAAAAAAAAA
AATTCAGCCAGTGATATAAAAGTCGTGCTAGCATATAGCTGTAGTCCCAGCTACACAGCAGGCTGAAGTAGGAGGATCACTTGAGCCCAGGAATTCAAGG
TTGCACTCAACCTRGGTAAAAAGAGTGAGACCCTATCTCAAAATTAATTAATTAAATAATAGGTTTAATCTGCCAGTCRAGAAAAATTGAATTTTTTAAA
GCTACAGATGATAATGCTTTAAAAATATTTAGCATAGGCCAGGCACATGGCCCACGCCTATAATTCCAGCACTTTGGGAGGCCGAGGCAGTCAGATCACT
TGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACCTGGCAAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCCAGGCACGGTGATACACACCTGCAG
TCCCAGCTACTCGGGAGGATGAGGCACAAGAATGGCTCGAACCTGGGCAGCGGAGCTTGCAGTTAGCCAAGATTGCACCACTGCACTCCAGCCTGGGCGA
CAAAGCGAGACTCCACCTCAACAAAAAATGAAAATAAAAAAATAAAAATACTCAGCATTTTTTTTAATTTCTAATTTTTGTGGGTACATAGCAGGTGTAT
ATATTTATGGAGTACATGAGATATTTTACATATACTCTTTTGTTGTTGTTGTTGTTTTTGAGACAGAGTTTCACTCTTTCCCCTAAGYTGGAGTGCTGTG
GTGCAATCTTGGCTCACTGTGGCGCAATCTTGGCTCACTGCAACCTCCATCTCCTGGGTTCAAGTGGTTCTTGTGCCTTGGCCTCCTGAGTAGCTGGGAC
TATAGGCACGTGTCACCATGCCCAGCTAATTCTTATATTTTTTTAGTAGAGACAGGGTTTTGCCATGTTGCCCAGGCGGGTCTCGAACTCCTGGCCTCAA
GTGATCTGCTTACCTCGGCCTTCCACAGTGCTGGGATTACAGGCATGAGCCACCACGTGTGGCCGGGTACATGAGATATTTTGATACAGATATGCAGTGC
ATAATAATCACATCTTGGAGAATGAGGTAGCCATCCCCTCAAGCATTTGTCCTTTGTGTTACAAACAATCCAATGAGACTCTTTTAGTATTATTGACTAT
AGTCACCCTGTTGTTCTATCAAGTAGTAGGTCTTRTTCATTCTAAGAGGTTTTTTTTGTACCCATTAACCATCCCCACCTCCTTCACAACCTCCCACTAC
CCTTCCCAGCCTATAGTAACCATCCTTCTACTCTCTATCTCCATGCATTCAATTGTTTTGATTTTTAGATCCCGTAAATAAGTGAGAACATGGGATGTTT
GTTTTTCCGTGCATGGCTTATTTCACTTAACATAATGATCTCCAATTCCATCCACGTTGTTGCAAATGACAGGATCTCTTTTTTTTTTTTTTTTTTTTTT
TGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCTGCTCACTCCAACCTCCAACTCCTGGTTTCAAGTGATTCTCCTCCAAC
TCCTGGTTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCACCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGAT
GGGGTTTCACCATCTTGGGCAAGCTGGTCTCGAACTCCTGACCTCAGATGATCCACCCACCTCAGCCTCCCAAAGTACGGGATTACAGACATGAGCCACC
GCACCCAGCTACAGGATCTTATTCTTATTTATTGCTGAATAGTACTCCATTGTGTATATGTACCCTTTTTTTAATTAATTTTTTTTAGTAGAGAAAGGGT
CTTGCTATGTTGCCCGGGCTGGTTTCGAACTCCTGAGCTCAAGCATTCCTCCTGCCTTGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAACCACTGCAG
CTGGACGACCCTACATTTTCTTTATCCATTCATCTGTTGATGGACACTTAGGTTGTTTCCAAATGTTGGCTGTTGTGAACAGTGCTGCAACAAACATGGA
AGTGCAGATATCTCTTCAATATACTGATTTCCTTTCTTTTGGGTATAGACCCAGCAGTGGGATTGCTGGATCTTATAATAATTCTATTTCTAGTTTTTTG
AGAAAGCTCCAGACTGTTCTGTATAGTGTTTGTACTAATTTACATTCCCACCAACAGTATACAAGGGTTACCTTTCCACACATCCTTGCCAGCATTTCTT
ATTGCCTGTCTTTTGGATAAAAGCCGTTTTAACTGGGGTCAGATGATATCTCATTGTAGTTTTGATTTGCTTTTCTCTGATGATCAATGATGTTGATACT
TAGTATCTTTAGGGTACATGTGCCATATGAAAATCTTAGGTGATACTGTAGGATGAGTAGTTAGTTAAAACTGATAATCTTTATTTCAGAATCACTTTTT
CATAAATCTGTTAAACGTAACTTTTCTTTTGAAAATGTACATTTAGCATATGGTTTGCCTCTTTAGTGTGGGTCAGCCTTTCCCATACAGATAAACACTT
TTTTTCTTTTATAAACAAAAATATAAATCTGGCTATCAGAGTTTTGGTTTGATGTTCTGCCTGTTATGTTAATTTAGAGATTACTGGACTATTAGGAGTC
CATGTAATGAATTTTCTACTCTACTATATAAACTACCATCCTATTTTTATTAGAATAATTTTCCTTAAAAATGAAAATGGATGTTCTGTCCAGAAGAAGT
AGTAATAAAGGGTCATGCTTCTATTCTTGCCACCTCTTCCCCTTATCTCAGCTGCAGGTTTCACTATGCAGCATTATTGTTTTTCTTCATTAACCTTAAT
AGAGGTCTCATGTATTCCCAGGTTATTAGTTTAGTCTGTTAGACCTTCACTCCTTTGAAGTAATGGCTATATTTGCCTCATTTTTAATACGCAGCACCTA
AAGTAATGCCAAAATATAGTAGGCTCTGTGTGTGGAAAAAGGTATACAATAAAGTTCAGAGACTTTTCAAAAAATAAGACAGCATCTTGACAGTCCTTGT
TCTTCCTAATATTGGGAGGAAGAGAGAATAAGGTCATTGCTTTCTGGAGTAACCGTCCAGTGACTCATACAAGCTGAAGTAGAAGCAAAAGAACCATAGC
TGGTTAACGGTAACTGCAGCAAGTGAAAAAGGGGACATAGTATCCACCATATATTTATTGGAAACCCATATACTGTCTAATTTTTATAAATCATTCATTC
ATTTATAATCGGTGCACTCACTTTTTAAATTCAGGTCTASATTCATTTCTTTGCCAGTCAATACCCATTTAACCACCAGATCCTAATTTTTTAACCTCTT
TAATAATAATTACCCTTTTCTCTACATCCAACCCTGTCACTCCCTTACTTTAGATTCTCTTCATCTCTCACCTGGGTTACTGTAACTCCTAACTTGACTC
TYTTCCTCTAGATTTGTCCCTGCTATTCCTTCTTCCTTGCCACTGCTGAAGTAATACTTAAAAATATCATCACAGCACATCTTTGCCTAAATCCTATAAA
ATRATGTCCAAACCTCTCAGCATTTAGTTTTCTACCATATAGCACCTGCTTCTCTCTTTAGATTTAAATATCATACCCCCACATCTTTGGTTTTACCTCT
TCCTCAAGTCTATATGCATATATACACACATAGTCACAGAACACACAGATAAACACATAAATCACAAATTATTATTCTTGTTTCAAGAATTGATTAAGAG
TTTTTCTCTTTGTGAAGTCTTCATATTTCAGTTCTTGGTCAAAGCCTATTTGAGCCACCTCTTCCTCTGTGAGTCTACTGTCCTCTGTGCCCTTACTGCC
TTTTTTTTCTTTGAGACAGAGTCTCACTCTGTCACCCAAGCTGGAGTGTAGTGGCGTGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGAGAT
TATCATGCCTCAACCTCCCGAGTAGCTGGGATTACAGGCATGCTCCTGTTACATTTTAATAATTGTAACTAATATTCATATTTATTTGAACCCAGCTCTC
TTTACCCTGTTTGTTATTCTTTCTTTACCCTTAGTGACCACATTTTCCAAAACCAAATGTAGGGACACAGAGCTTAGCAAGTAGCAAAGTACTTATTAAG
AATAATGAGACAAGGTTGGGCATGGTGGCTTAGGCCTGTAATCCCAGCACTTTGGGAGTCCGAGGTGGGTAGATTACTTGAGGTCAGTATGAGAACAGCC
TGGCCAACATGGTGAAAGCCCATCTGTACTGAAAACAACAACAACAACAACAACAACAACAAAAAATGCCAGGCGTGGTGGCAGGCTCCTATAATCCTAG
CTACTTTGGAGGCTGAGGCAGGAGAATTGCTTTAACCCAGGAAGCGGAGGTTGTGGTGAGCTGAGACCGCACCAGCGCACTCCAGCCTGGGCGACAGAGC
AAGACTCCATCTCAAAAAAAAAAAAAAGAATAATGAGACAAAGTATATGAAATGGAAATTAACCCTTCATGTTTAGGATGGTCGTAACTGATAGATGGAA
CTRACATTTGTCTGGAGCTTTCTCTATGCTAAGTGCTGCAAAGTCCATTATCTTAAAGTGTATTAAAAGCAAGTGGACAATTTATTTTTCAAATTTTCTG
CAGTTTAAAAATAATAACTTAAGCCRTAACTGAAAAAAGAAATTAAGTTTGGCATGGAAACCCTTAAACGTGTGTGTTTAATTTTAGGAAGATTTGCART
CAACTAAAGAAGAGAGATTTCCAGCGATCCACAAGTCRATTGCTATTGGCTCTCAGCCASTGCTCACTGTTGGGACAACCCACATATCCAAATTGACAGA
TGACCAACTCATAAAAGAGTTTCTTAGTGGTTCTTACTGCTTTCGTGGGGTGAGAAGTAAATCTTCAGTTTAMATATTTATTTTACAACTTTACCTGCCA
GRTATGGTCAGTGGGCATCAGCAGCACTGAAAAGAATTTTTCTCTAGAGAAATGACAGGATCCTTTCATCCCCAAAGAACATTTTCTTTTTGCAGTCTCA
TACCCCCACGTTTCTGTAATCTAATCCATAGCTTTTATGTTCTGTTTATTTCACAAGGTAAAAATTTGACCTTTTGTCTGGCAATCATATGTGATTCTGG
TTGATTGCTAGAATGAGCATGTGATTGTATATCCCACATTTTGGTTATGTAGCAATCACATTTCAAACTGGAATTAACATCTCCCTTTAAAAAAAAAGTT
AGAGACAGGGTCTCACTGTGTTACCCAGGCTGATCTCAAACTCCTGGGCTCAAGCAATCATCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTG
AGCCACCGCACCTGGCCAACATCTCCCTTTACAAAGTTAAAAATTTTGACCCTGACTCTTAGTACTAGTGGGAAATACAGTTACTAGTGGAATTTTTGTT
TTATTGTATTTAAAATTTTACCAAGACAGTGCATATTCTCTGTATTTGTCTTTAATTTCTCAGTAATGTTTTCTTTTAATATTCAACCATACTATTGCTT
TTACAGGTTTTAAAAATAACATGTATTTCCATTACTGTCATGTGGCATTATTGAGAAAGGCCCAGTTCTTAACTTGATCTAATATGTTTTCTTTTTTTTT
AGGGTGTCGGTTGGTGGAAATAYGAATTCTGCTATGGCAAACATGTACATCAATACCATGAGGTATAGAATAGCATTTATATATCATTCTACCACTAGAT
GGTTTAAAGTTTAAGAATCTGTTGTAGAAAAAAAGGGGGAATGGTATAACTTTTAATTATGAGATGATTTTAATATGATTAGTATAATCAAAGTATCTCC
AAATTTTGGAAAATGGAACATTTGGCATTAACCAAATCGGTAACCTTAAAGTGATATTGCTTATTAATTACTCATATGCTTCTATTACTATGAGCCTAGT
AGAATAATGAGCTGTTGTGGCTATACCTCTTTTGCTTTGATCAAGAAATTAATCATTCTTACAACTTATCCTTAAATTAAGAAAATGAATTAGCCGGGAG
TGGTGCCGCATGCCTGGAATCCTAGCTACTCAGGAGGCTAAGGTGGCAGGATCATTTGAGCTCGGGAGGCRGAGGAGGTTGCAGTGAGCCAAGATCACAA
CACAGCACTCCAGCCAGGGTAACASAGTGAGACTCCATCTCAAAAAATAATTAAGAAAATGAGGCCGGGCACAGTGGCTCACGCCTGTATTCCCAGCACT
TTGGGAGGCCAAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAAACCCGTCTCTACTACTAAAAATACAAAAATT
AGCCAGGTGCATGCCTATAATTCCATCTACTCAGGAGGCTGAGGCAGGAGAATCACTGGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCA
CTGCATTCCAGCTTGAGCAACAGAGCGAGACTCTGTCTCAAAAAAGCGAGACTCCTCAAAAAACCAAACAAACAAAAAAAGAACGAAAATAAATGATAAG
ATCATACATTATCACTAGGGTTACAAAAATTGGGTAAATACAGCAAGTTTCTCAGCCAAAAGAATAAGACACCCTGGGCCAGGCATAGTGGCTCATGCCT
GTAATCCAAACACTTTGGGGGGCCAAGGCAGGAGGATCACTTGAGGCCAGGAGTTCAAGAGCAGCCTGGGCAACATAGCAAAACCCCATCTCTACAAAAA
ATTTTAAAAATTTTAAAAAAAGAAAATACCATATCATCTAAGTTTAAAATAAGTTTTAAGATTATACTTTTTGAGTTCTTTTATTTATAATTTTATAACT
CACCGTATTCTCCCATACTTGAGCCAGCCTGCTTAAATTCTGAGGTTCAAGTTCCAATTCTGTTATTTGTCCTACTTATACTTTGTTTAGTAAAGTAAGC
TGCTAGGTATTGAAGACAAGCTTTAATTAATGAATATGGACCTAGCTGCTTTAAAAGGCCATTTTCGTTATCTAAAAAAGAAAATAATACCCAAAATAGA
AAAGTGTATATTTGCCCACTCATAATGTTTTGAACTGATCTCAGATTCCAAGATAGATCATACTGGGACAGACTGTCAATTCACCTTCCACATTTAAATC
TTCCAAAATGAATGAGGCATCCATAGACTAGGATGTGTTCGGTTTTTTTGTTTTGTTTTGTTTTGTTTTTCACTTAAACCTGAGAGGTTTCATTTAAGTA
TTCTTTCCATTTATTCCTGCTACTTTGCAGATGTTTGTTTTTTTAATAACAATACAGAAAAAGGATAAAGTACCATTGAACTACAACCCTTATAATACCT
GATGAGTTTCTTAATTAAAGAAATGTATGCCAGAAATTTTAAATGAGAAGTATCTGTCTCCTCTGCCATCATACCACTTCTCAAAAAAGTTTAACTACTG
TTAACATTTTCATAGCCTGCCACAAGAAAAAAAATGCATATATATAGATCTTGGTATAACTTTTTTATTTATAGGGAAGGTATCATGCACTGCTCTGCCA
CTTGTTCTTTTCACTTAGTATCTTGGAGATTGCTCCACGTCAGCAACAATCGATTTCATTCTTTTCAGCAGATACAGAGGATTATGTCTGTACCACAGTG
TATTTAACCAGACCAGACCTCTGCTAATGGACCTTTAAGTTGTTTCCAGTTTTTGCTGTGATATGTTTTAGTGAACATTTTTAAATAGTTCTGTTGGTAT
ACTTTTGTAAGTATATTCATAAGGGACATTTCTATTAACATACTTCCTTGGTCAAAGTATCTGCATACTGGAAAATTGCCTTCCAGAGTTAGACCAGTTT
ACACTCCCATAAACAGTGGCTACATTCCTATACACTTGCCAACACTAGGTTTTACCAAACGTATTTTAGCCAAGGTTGCATAACCTGGAACTTTCTAGGG
AACTCTGTTAGGTGTTTAGAGAGATACTAAAAATAATAGTAATTAGCAAAAAGGGTGCTTACTGTATGCTAGGCACTATGTACTTTACACGTATTAATTC
TTTTAATATTCATAACAACCTTAAGAAGTGGTTATTGTTATTCCAAGATGAGGAAATAGAAACAAAGGTTCAATAACTTGCCTAAAGTCAAATAGGTAGT
AACTGGGGAAACTGGAATTCCAACCGAGGCAGTCTGGCTCCATATCCAACCTCTTAAAACACTTCACTTTGCTGCTCTAATTTCTGCCTATCCAGGAACT
TAATCTAGTTGCTAAAAACAAATGTTGTTAGCTATCTCTTACATTAGGCACTAAGCTCCACTGGGCATTGGCCCTGCTTGTTTCCTTTGCCACCATAGGG
GTTTTTTTTGTTTTGTTTTGTTTGAGACAGAGTTTTCCTCTTATTGCTCAGGCTGGAGTGCAATGGCGCAATCTTGGCTCACTGCAACCTCTGCCTCCCA
GGTTCAAGTGAYTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGGTTACAGGCATGCGCCAGCACGCCCGGCTAATTTTGTATTTTTAGTAGAGTAGYTTCT
ACATGTTGGTCAGGCCGGTCTCGAACTCCCGACCTCAGGTGATTTCGCCCACCTCAGCCTCCCAAAATGGTGGGATTACAAGTGTGAGCCTCCGCGCCCC
AGCCAGGGGTTTTTAATTCTACTAACCAGATATCTATTAGTGCCCAGCATGGTTGTCTGGCATACACTATGAAGAAAGAAACCAAAGGAATGCAAGGAGG
TAGGAAGGATAAGGAAGAAGAAAGAAGGAAGGATTTCCACATATAAGACAGTATATAGTTAGTGTTTAAAAAATAATAAAAGCAGAATGGGAAAAGGGGT
TTCTGGACAGACAGTTSCAATAGAGAAATAAGTATGGTACCAAATGAATAGTGTAAAGATCAGTATAACATTGCGTAGGATGAAGTCAGGCTGCAGTGGA
AGAGATAGAGGCCAAAGATGCAATTAAGAATTGCAGTAGTATGTGATAGTATTATCTAGGTATGAGAGATTAAACTCTTGGTTGTGGGGTGAGTTGCTGG
CAGTGAAAAAGTAGAGGAAGAGTCTARAGCTGAAAAATATCCAGGAAAGAACTGATGGGACTTAYCTGTAGAAGAGAAAAAGAGATAGAAGAGCCGAAAA
TAACTACATTTAGAGCTAGCCTTACTAAAAATTAGTTATGTTATTCAGAGAAACAAGGAATAAAGAAGATAATGTGCTTAAATTTCCACTCATTGAATTT
GACTGACATCATTACACCTAAATATAGATATCCACTGTGCAGATAAAGACTAGCTTACAAGAAGGTCAGGTCATCAGCATAAATATCTACTTGATGATAT
CAAGCACGCATTATCACAAATTTTTTTCCCATATTAGGACAAGGATAGTGGGAAAACCTCTGTGGTTGTCGGGACATGGAACCAAGAAGAGCATATTGAA
TGGGCTAAGAAGAATACTGCTAGAGCTTATCATCTTCAAGACGATGGTACCCAGACAGTCAGGTAAAGATTCACTTTACTTGCCTTTGGAGCTAATTACT
ACAATTTCTAAAACTCAAAATATTGAAAAACATAAAAATTCAAACATTTAAGTAAAATCCCTGTTTAGTTTTTTTCAAGGGATATCTTTTAGGTTAGTTT
TCTTTTCTTAGGGAAGCAACACAGTGTAATAGTTCAGAGCACAGTCCCTGGAGTCRGACTACCTGGATTCAAATGCTGGCTCATCACTTCCTACCTTGGA
GAAATTACATCATCTTTTTTATCTCTCACTTTTGTTGTGTAATGGTATTTGCCTCATATGATTATTGTGTCATTTAAGAGGTAATTTATGTAAAGGAGAA
TGCCTGGCAATAGCATGCAATAAACCTGGGCTGCCACCCATAACAGTGGGGGTGATAACATTAATGAGAGTGGCAGTGGTGTTAGTAACTGGCTCAATTC
TGTCAGAACTGAGGGTGTTTTTTAAAAACTACCTCACATCTCTTTTAGGATATATGAGTATACCTTGTCAAAACACCAGTAAGTTAATCTCATTTCCCAA
GAATAACTACGCATTAGCTTTTCTTGCAGACTCTTAACTCAGTATGTTTTCAATTATTCCTTCTTGTTCCTTCTTGGGTATTACCTTTTCCTTCCTAAAA
CAGATGATTTGGATTGTTTTCAGAGTGTACTGACTTTTCGGGCTGATAAAAGTCAAAGTCAGCCAAATTAAAACATAGACTTTTTTTTTTTTAATACTTT
AAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCATCATTTAGCATTAGG
TATATCTCCTAAAGCTATCTTCCCCCCTCCCACAGACATTTAATTATTGTACTAAACAAATTGATTTTTCTTATCCTTGTAGGTATATGTTTTATGTGAA
AACAGTTTGTGGTATCATGTACAATATATGTTGAAGAATGAGTGTTAGACTGGTAAAATGAAGCTTTTCTTTGGATCCTGCTCATTTGAGATTGACAGTT
TGGCCTAGGCTTTGTCTTCTATACTACAGTGCCTAACGAACAGTATTTTAATGGGAGTAGCTTGATGGAGGACGGAAGCAAAGAACTGTTTTACAAAACA
ATATAGTGGGCTAGGGAAATTGATAACTTTAAAACAATTTTTTTAAAGGAATCTAACCAAAATTATTTGTATACAAATAAATAATATGCAAGTTGAAAAT
AATTATTAACTAAGCCAGTATGAAGTATCTCTTATATTCTCTTTATAGAATCCAAGAGAATGCCTCTGTGAGATAACCCTAAAAATATTTTTTTAAAGAA
TATTTTATAGTCAGGTTTTTTTTTAACTAATGCAAAACTGATCCCTCTAACCATCTTCTCACCCTACCCATTACAATTATTCTATTAGTGAGATTTTAGT
TTAATAAAACTTGTGTGTTTCTCTGATTCAGGATGGTGTCACATTTTTATGGAAATGGAGATATTTGTGATATAACTGACAAACCAAGACAGGTGACTGT
AAAACTAAAGTAAGTTAGACCATCAAATCATGCTGTATGCCTTTGTCTTTTAACTGCTTCCTATGGACAAAAGTTTTATGTAAACAGTATAATTATGAAT
AATTATGAAAGTATACCATTTAAATTATTGATAAAATTATATTAAATCATACAGGGTCCACTTGAGTGGGATTTTTAAGAGTACAGTTATTAACAGTGAT
CTTACTTTAAATGATTTGGACAGTACCTTAAAGTKCTCTCTGTTTTAGGTGCAAAGAATCAGATTCACCTCATGCTGTTACTGTATATATGCTAGAGCCT
CACTCCTGTCAATATATTCTTGGGGTAAGTTAAAAAGAAAATAATCAAAAATTCCATTTTGAGCCATGTTTTAATTTTTTTTTCTTTTTTTTTTTTTTTT
TTTTTGTTTTTTTGAGACGGAGTCTTGCTCTGTGGCTCAGGCAGAGTGCCGTGGCATAATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAAT
TCTTCTGCCTCAGCCTCCCGAGTAACTGGGATTACAGGCGCACACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTCCACCATGTTG
GCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCTGCCATG
TTTTAATTTTTTGCATTAAGTTTAGGAAGGACCTTCAGTAGTCTCCAAGGCTTAATATGGCCCACATACCACTCATGTAATAGTTGACATGGTTTTTCTT
GACATTTTTTATTGAGATATAATTTACATGAAATAAAATCCACAGATCTTAAGTGTTGAGCTTGATAAGTTTTGACAGTTATATACACCCATGTAACTAT
CACCCAAAACAAGATATGTCACTGCAGAAAGTTCTATCATACTCCCTTCCAGTAAATACCCCTTAGCCTTGCTCAAAGATACCCATTTCTGATTTATGAC
ATTGTAGATTAGTTTTGTCTCTTTTTTGGATTCCACATGAATGGAATCATATASTGTATAATATTTCTGTACCTGAACTCTGACTCAGTGTAACACTTTT
TTTTGGTGGTGTTTTGTTTAGTTGATTTTTTTTCTATTGATACATAGTATTTGTATATGTTTACAGGTTACATATGATACTTTGTTACATCCATAGAATA
TGTAGTGATCCAGTCAGGGTATTCAGAATATTCATCACCATAAGCATTTATTGTTTCTATGTGTTGAGAACATTTCAGGTCCTCACTTCTCAACACATCT
TAACAGAGGTCTGGACATTAACTCTTTGTATTTGTATTGCACATATTTTTTTCTCTGTCTGTGGCTTGCCTATTCATTTTTCTTTCTTTCTTTTTTTTAA
TAGAGATAGGGTCTCACCATATTGGCCATGCTGGTCTCAAACTCCTGGACTCAAGCAATCCTCCCACCTTTGCCTCCCAAAGTGCAGGGATTATAGGCAT
CGGCCACTACACAGGCTGGAATGCAGTGGCGCAATCTTGGCTCACTGCAGCCTCTGCCTCCCAAGTTTAAGCAATTCTTGTGCCTCAGCCTTCCAAGTAG
CTGGGACTACAAGCATGCACCACCGTGCCTGGCTGATTTTTGGGTTTTGGTTGGTTTTTTTTTTTTTTTTTTTGAAATGGAGTCTCACTCTGTCACCCAG
GCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTGTCCTGCCTCAGCCTCCCGAGTAGCTGGTATTACAGGC
ATATATGGTACCACGTCCGGCTAATTTTTGTATTTTTAGTAGAGACAGTGTTTCACCTTGTTGGCTAGCCTAGTCTYGAACTCCTGACCTCAAGTAATCT
GCCCGCCTCGGCCTCCCAAATTGCTGGGATTATAGGTGTGAGCCACCCGCACCCAGCCCCATTTTCTTATTAATGTCTTTTGGTGAATGAAAAATTTTTA
TTTCATGAAATTCAATTTATCATTTATTCCTCTTTAATAGCTAACGCTTTTTGTGTTCTAAGAAATTTTTCTACCCCAAAATCATGAAAATATTCTCCTA
TATTTCCTTCTAAAGACTTTATGGTTCTACCTTTGATTATCTAATGCCTAAATGTGGTTTTCTCTGTATTTATCTTGCTTGGAGTTCACTAAGCTTCTTG
GATTTGTGGGTTGATATATTTTATCAATTTGGGGAAATTTTTGGACATTATCTCCTCAAAGATTTATTCTGCTCCATTCTTTTTCTCCTCTATTTCTGAT
ACTCCAATAAGACATGTTAGTATAAAATTGTTCCAGAATCTCAGACACTGCTTTATTCCCACTTTTTTTCCTTTGTTTCGATTTGGGTCATTTCTGTTAA
GCTGTCTTCAAACTTGTTAATTTCTCTGCTGTGCCCAGTCCATTGAATGAATTTATCACTGATGTATTTTTTATCTCTTAACATTTCCACTTGGTTCTTT
TTGTTGTTGTTGTTTTTTATTTACTTATTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTAGCGCAATCTTGGCTCATTG
CAACCTCCACCTCCCGGGTTCAAGTTATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGCATGTCCCACCACGCCTGGCTAATTTTTTGTATT
TTTAGTAGAGACGGGGTTTCACTATGTTAGCCAGAATGGTCTCGATCTTCTGCCCTCACGATCCGCCCGTCTCGGCCTCCCAGAGTGCTGGGATTACAGG
CATGAGCCATCRTGCCCAGCCTCCACTTGGTTCTTTTTTATCTCTACTGAAATTTCCTATCTGGTCATACATGTTTTCTTCATCATGTTTAGTATAATTA
TTATAACATTTGATAATTTCAACATCTGTTCCATCTTTGGGTTACATTTTTCTTTACCTTTCATTTTAAATACACTTAATTATTTTGCCATAATGTTCTA
TCATTTTTGTTGTATAAGAGCTATGTGTTCCTCTCTTACTCCTGTCCTTTGTTCCTTTTCCCTCCCCCGCTTGTTTAAAAATATTTTCTCCACCTATCTC
ATATTCTGTATGGATGACTAAAAGTTGTTTTTCAAGAAGCTTAATTTGTAGAAATAATGTTGGATGTTTATCTAAAACAAGGACTCATGCTTCTAGCAAA
TATAACTACATGTATCCATTCAGCAGAATAGTACTGAAAAGTATTCAGCTTAGCAACTTTTTAATGGCTTTGTTGTTCTTCTTTAGGTTGAATCTCCAGT
GATCTGTAAAATCTTAGATACAGCAGATGAAAATGGACTTCTTTCTCTCCCCAACTAAAGGATATTAAAGTTAGGGGAAAGAAAAGATCATTGAAAGTCA
TGATAATTTCTGTCCCACTGTGTCTCATTATAGAGTTCTCAGCCATTGGACCTCTTCTAAAGGATGGTATAAAATGACTCTCAACCMCTTTGTGAATACA
TATGTGTATATAAGAGGTTATTGATAAACTTCTGAGGCAGACATTTGTCTCGCTTTTTTTCATTTTTGTTGTGTCTTATAAACTGACTGTTTTTCTTTGC
TTGGATACTGTGATTCCAAAATAAATCTCATCCAAGCAAGTTAGAGTCCAGCCTAATCAAATGTCATAATTGTTGTACCTATTGAAAGTTTTTAAATAAT
AGATTTATTATGTAAATTATAGTATATGTAAGTAGCTAATGAAGTAAAGATCATGAAGAAAGAAATTGATAGGTGTAAATGAGAGACCATGTAAAATATG
TAAATTCTAGTACCTGAAATCCTTTCAACAGATTTTTATATAGCAACTGCTCTCTGCAAGTAGTTAAACTAGAAACTGGGCACATGGTAGAGGCTCACAT
GGGAGTTGTCCTCACCCTTGTTAATCTCAAGAAACTCTTATTTATAATAGGTTGCTTCTCTCTCAGAACTTTTATCTATTACTTTTTTCTTCTTATGAGT
ATGTTTACTCTCAGAGTATCTATCTGATGTAGACAGTTGGTGATGCTTCTGAGACTCAGAATGGTTTACTCTAACAAAACACTGTGCTGTCTATCCCTTG
TACTTGCCTACTGTAATATGGATTTCACTTCTGAACAGTTTACAGCMCAATATTTATTTTAAAGTGAATAAAATGTCCMCAAGCAGTGTTGTCATGTAGT
CAATGGCAGATTATTAAATTTCTTTATTTTTTTCATTATCCTGTTGTACACATTTTAAACATACATATCTGAACAAGAACAGAAAAGGGCCATAAAAGTC
TTTTCCTCCTTTTTAGTAGTTCTGGCCAAAGACAGTTTAAGAAAAGGCTAATATAATTGACTCTTTTAGGGTTATTTATAGATTTTAGTAGGAAGCAGCA
CATAGAGAAAGAGCATGAACTTTGAATTCAGACCTAGGTCAAAATCCTTTTTTTTTCTCTCTCTCTCTCTACCCAGAGATGGGGCTGCTCAGGCTGCTCT
GAACCCCTGGGCTCAAGCAGTTTTCCCACCTCAGCCTCCCAAATAGCTGGGACTACCAGGCACACACCAACAAGACCAGTGCAAAATCCTGTCTTTAACT
TACTGTGTACAAGATAGGAAAAACCAAACACTTATACCCAATACAGCACAGAACACGAGGTCACCAAAATGTGTGGTTTTTCTTCCTCACGCCAGCCAAT
TTTCTGACACCAGCTGGGTGTCCTACAATTCAGTTCAATTCTGATACTCGTCTACTTGGAGTTGACAGCAGACCCCACAAGTAAAGGGCTCAGTTGCACA
ACACTGCTTCCACTTACTTCAGATGCCAATTGCAAGTCTGGGCATCTAGTACTTTTGACCAACCAGCTATAAATCAGGGGTTCCATGACTCCCTTCTTGG
GTTTAATAATTTGCTGGAATGCCTCACAGAATTAAAGGAAACACTTTACTTATGTTTACCAGTTTATCATAAAGGATACAACTCAGGAATGGCCAGATGG
AAGAGCTGCATAAGGCAAGGTATGGCGGGGGTGGGAGGCAAGGGGGTGCCTGCAGACCTTCTAGGCTTCCTCTGGGCGTGCCACTCTCCCAGCACTAGGT
TCGGGAACCTAGAAGCTCATCAGATCCCAAGAGAGTTTATAGAGTTTGATTTTCAGATCCCCCTCCCCCTTTCTTTCCCCGAGGTCAGTAGGTGGGGCTG
AAAGTTCCAACCAGCTATCAATCACTTGGTCTTTGTAGTGAGCAGCCCCATCCTGAGGCTATCTAGGGGCTCCACCTCAGTAACCTCATTAGCATAAACT
CTATCCAGCATAAATTATATGCAGATAGAGATAGGGTGATCAAAAAGGGCTCCTTAAAAGTAACAAGACACTCCCATTACCTGGGAAGTTCCTAAGGTTT
TAGGAACCCTGTGTCAAGAACCTGAGACAAACACGAAATTTCTTACTATACCGCATACTAGCTGTGTGATCCTAGACATGTCAGCGAACGTCTTTGAGCC
TCTCTTCCTCTTTTGTGGAGAGAATACTTACTTCATAAAATGGTTGTATCAGTGAATGAATTTTACTGTGTGTAAAAAGTCTTGTCCAATACTTGATACC
AGTATGTTAACTTCCTTTTATTGCGTCTGTCTCCTGTTAAGAAGATCAAAGATCAAAGCCATTAAAATACTTTTTTTTTTGAGGTGGAGTCTCGCTCTGA
CAACCAGGCTGGGGTGCAGTGGTGCAATCTCAGCTCACCACAACCTCTGCCTCCTGGGTTCAAGCGATTCTCTTGTCTCGGCCTCCTGAGTAGCTGGGAT
TACAGGCGTATGCCACCATGCCCGGCTAGTTTTTGTATTTTTGTATAGATGGAGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACCCCTGACCTCAAGTA
ATCTGCTTTCCTTGGCCTCCCATAAGTGCTGGGATTACAGGCATAAGCCATCACACCAGGCCAAAATTCATTTCTTTAATGAATTAAAGAATCATATTTA
TTATATCAATGAGTTAAAATAACATAATTACCCTCATATTTAGTATAGGTGATAGGGGAGGGAGTTAAAAATTAGGTCAGTGCCAGAAGATACGTTGATA
ATATTTAGAACAAACTCTCTCTTAGAAGAGGGGGAAAAATGATCTTTTAAAAACTGTACTAGAATAGTCTACTAGGGAAGATTGTTAAAAACAGAATTCA
TTATTTCAAAATAAAAAAGATTTTATAAGAACGAGTCAGCCTTCTAGTTGAGTACACACCTAGCTACTCAGGCTGACGCTGGAAGATGGCTTGAGCCCAG
GAGTTTGAGGCTGTAGTGCACTATGTCACCTGTGAATAGCCACTGCATTCCAGACTGGGCGACATGGCGAGACCCAGTCTCAACAAAAAAATAGTTCTCT
GTCTTGACTAACATAGATCAAACTTCTTTGAGGGTAGGGGCTAGTCCAGGTATCTCCATATCTGTTTTAAATCTTGAGTCCCCTATCAGTAGTCTGTGAA
GTCTCATTTGCTCTCCAGCTTACTTGCTGCTAACTCTGTGATACAATCATTCTGTATAAGCAGGCTGAATTGCTAACAGGGAAGGGAAATGGCTCAGCTA
TAATATGGCGATGCATTTTGAGAAGTCTATCTCGTGTCTATTGAAGCCGGTGCTATCCCATACCTAAACCAGATTCTTTTTTTTTTTGAGATGGAGTCTC
ACTTTGTCACCCAGGCTGGAGTACAGTGGCACAATCTCAGCTCACTGCAACCTCCGCTTCCCAGGTTCAAACAATTTTCCTGCTTCAGGCTCCTGAGTAG
CTGGGATTAAGGCATGTGCCGCCACGTCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACC
TTGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCTCCCGGCCAACCAGGTTCTTAAGACAGGGCCTAAGAATCTGT
ATTTTAAATAAACATAGCAAGTGATTCTCTTTGTTAAATAAATTCTCTAGTGATTGAGAATTGCTGATGGGGACTTCACTAACTACTAGCCCTCCTGTCT
CCAGGTGAGGGTTTCAGGGAAATAATTAGTAGTTCATCTTTACAAGAAGGTTGTGACATGGAAACTTTTGTTGGGGTTTTGTTTTTGTTTTTTTTCTGCT
TTTTAAAATTTTACCTCTTTTCTTTGAGAGGCTACTAGGTGGGGCTTGTAGCCCAGCCCTAGTTTGTTTGTTTGTTTATTTACTTATTTGAGAGACGGTC
TCACTCTGTTGCCCAGGCTGGAATGCAGTGGCACGGTCATGGCTCACTGCAGCCTCGACCTCTTGGCCTCAAGGGATCCTCCTGCCTCTGCCTCCTGAGT
AGGTGGGACTACAGGCATGCACCACCACACTTGGCTAATTTTTAAATTTTTGTAGAGACAAGGTCTCCCTACGTTGCCCAGGCTGGTCTTGAACTTTTGG
GCTTAAGCGATCCTCCTGCCTTTGCCTCCCAAAGTGCTGGGATTACAGGGGCGAGCCACTGCACTGGCCCCTAGTTTATAATCCTTGATTAAAGGGACAC
TGGCAACAAACTTTCTCAAAATTGAATAGTTATGTTTTGTGTACTATCCCCTATGAACTATCCTTTTCAATCAGTCTGCTACCCAAAGACCTAACCTGGT
TTCTGACAATACTTAAGTACGTAAGGTTTATGTACCTAAACCTAGTACATAATCAGACCAAATTATTGACCCAGCAGCACCAAAGATCTAGCATTAAAGG
ACTTAAGCTAAACAAGAAAATAAAGTTAAGACTAAATTTTGAATAATTAGGTTTTGGAATCAGAGCTTCAAATGAAAATACATATCAGCTACCCTAGAAT
GATTTTTTTAGAGGCAGTGTCTCACTCTTTTGCACACGCTGGAGTGCAGTGGTGCAATCCCAGCTCACTGCAGCCTCAAACTCCTGTGCTCAAGCAATCT
TCCACCCTCAGCTTCCCAAGTAGTTGGGACTGCAGGCATGCACCACCACGCTGGCCTCCTAGAATGATTTCAAACTCTTCCTAGTGTTGGGCGATTTTAT
TACCAGTGCTTGCCATGGTGGCATGGCTTAGAAGAAAATCCATTTCTTTTTCTTTTTTTCTTTTGTTGTTGTTGTTTTTGTTGACCTGCTTCCTTTCTGA
CCTGGGCTGATTCACCCTTCTTGAGCAATCTGGTGGTCCCTGGCTCCCCATTGCCATAGCACACTAAGGCCCAGAACTTGTGGGCTCAAGCCATCCTCCA
GCTGCAGCCTCTTGGGAACTCAAGATGGGCATCACCATGCTGGCTCTCTTTTTCTCACTTGTTTAGCAGGGGAGGTAAGGAACCCACTGCACACTCAAGA
GCATGTTTTATCTCATATGCTGATAGTCTCAAACGTGGTTTCAGCAAGCAGGCAAGATGATGCATTGGGTTGTAGGAAGAACATATTAGAAATTCTATTT
TTCATCTGTGAAAGATGTTAAGCCTCACTAATATATAATATGTGGTACACACAATAATTCATAAATGAGAAAGTCTTATGTCATAAAGCATCCTAAGAGT
CGGTGATACACATTTGGAGGAGATGATGGGGATACCCTTCTTTATTTTTCACTTTTATCCTGTTACAGGATCATAGACTAAATTAATTACCTTTCAGAAA
ATGGAATTGTTAATCTAAATGTAAGCCTTAAGATCATATCTTGTCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCC
GATCACTTGAGGTTATGAGTTCGAGACCTGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCGCACGCC
TGTAGTCCCAGCTACTCGGGGGACTGAGGCAGGAGAAACACTTGAACCTGGGAGGCAGAGCTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTG
GGCGACAGAGCAAGACTCCATCTCCAAAAAAAAAAAGAAAAAAAAGATTTTACCTGATCAGGTAGATAACCAATCAGAATTATGATGTGGAGGTTAAAAG
GTGACTTTCACCAGCCATGGTTCTAATCACTGAGGTTCTTAGATCGTGCAAGACTTCTTTTTTAGAAATAATACAGTAATGCCCTCTGCTGGGCACAGTG
GCTCACACCACTTTGGGAGCCGAGGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCGGGAGTTCGAGACCGGCCTGACCAACATGGTGAAACT
CCATCTCTACTAAAAATAAAAAATTAGCCAGGCATGGTGGTGCATGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGG
AGGCAGAGGTTGCGGCAAGCCGAGATCGGGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAGAAAGAAAAAGAAA
TAACACAGTAATGTCTTTTTTACAGTTATGGGAAAGAATGGCATGTTTTCCTGGTTAGCAGCCATTAGAGCCTACAGTTTGAAGACTACTAGAATTCCAC
TTTTTAATACGTGGAGAAAATAAAGGCAAGCCTGACAGTCTCAAAATTAAAGTGGAAAGAAAAGCAAAATTATTAACAAATAAAATACAGAGCTTGAAGT
ATCTTGCATCCACAACTATTTGTAATTTTGGGGTTTTTTTTGTTTTGTTTTGTTTTTTTTGAGACGGAGTTTTGCTCTTTTTGCCCAGGCTGGAGTGCAA
TGGCCCCATCTCGGCTTGCCGCAAACTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGCATGCGCCACCAC
GCCAGGCTAATTTTGTATTTTTAGTAGAGACGGGTTTTGTCATGTTAGTCAGGCTGGTCTCAAACTCCTGACCTCACGTGATCTGCCTACCCCTGCCTCC
CAAAGTGCTAGGATTACAGGCGTGAGCCACCGCGTCCGGCCGCTATTTGTAAATTTTTAAGCATTTTAGTATTTTTTACACTTGAAACAAAAAATGTTCA
CCAAAAGCAAGTAAATCAAGCAGGACTTTTGGAAACAGCAACCAACTCAATTACCAAAGATGTTTGTAAAACTAAAATAGTGCTAAAGAGCTCACATCTA
ATCACATACTACATTATGTGTTTCAAATCTATTTTAATTTTTTTTCAATCCTTTGCCACTACAGACAATGCCACACTAAATAATAATCTTTGCATGTCGT
TTAACCTTTTTGCTAGTATCCTTGAAATAGATACTTTTTAAATGTTTTTTATAGAGAGGGAGTCTTGCTATGTTGGTCAGGTTAGTTTTGAACTCCTGGC
CTCAAGCAATCCTCCTGCCTCAGCCTCCCAAAGTGGTAGGATTGCAGGTGCCCAGCCTTCTAGGACCTTTTGATAGAAAGAATTGTGCTTTGTCTTGAAT
TTAAGAAAAAATACAACATAGCTTCCTATATATTTTCCTCAAGTACAAACATAACTTTTATTTTATAAATATATATTAAAAAATAAATTTACTTAAAAGT
CCAGCAGTGTGGCCGGCTGTGGTGGCTCACGCCTGTAATCCTAGCATTTTAGGAGGCCCATGCAGGAGGATTGCTTGAGCCCAGGAGTT


SNP Information

Context             (SEQ ID NO:55553):
TTCTGAGACTCAGAATGGTTTACTCTAACAAAACACTGTGCTGTCTATCCCTTGTACTTGCCTACTGTAATATGGATTTCACTTCTGAACAGTTTACAGC
M
CAATATTTATTTTAAAGTGAATAAAATGTCCACAAGCAGTGTTGTCATGTAGTCAATGGCAGATTATTAAATTTCTTTATTTTTTTCATTATCCTGTTGT
Celera SNP ID:            hCV7546192
SNP Position Genomic:     37747
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55554):
TCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGGTTACAGGCATGCGCCAGCACGCCCGGCTAATTTTGTATTTTTAGTAGAGTAG
Y
TTCTACATGTTGGTCAGGCCGGTCTCGAACTCCCGACCTCAGGTGATTTCGCCCACCTCAGCCTCCCAAAATGGTGGGATTACAAGTGTGAGCCTCCGCG
Celera SNP ID:            hCV26433818
SNP Position Genomic:     31096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55555):
ATCATTGAAAGTCATGATAATTTCTGTCCCACTGTGTCTCATTATAGAGTTCTCAGCCATTGGACCTCTTCTAAAGGATGGTATAAAATGACTCTCAACC
M
CTTTGTGAATACATATGTGTATATAAGAGGTTATTGATAAACTTCTGAGGCAGACATTTGTCTCGCTTTTTTTCATTTTTGTTGTGTCTTATAAACTGAC
Celera SNP ID:            hCV7546193
SNP Position Genomic:     37087
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55556):
TTTGTTTTGTTTGAGACAGAGTTTTCCTCTTATTGCTCAGGCTGGAGTGCAATGGCGCAATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGA
Y
TCTCCTGCCTCAGCCTCCCAAGTAGCTGGGGTTACAGGCATGCGCCAGCACGCCCGGCTAATTTTGTATTTTTAGTAGAGTAGTTTCTACATGTTGGTCA
Celera SNP ID:            hCV26433819
SNP Position Genomic:     31012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55557):
AGAATTGCAGTAGTATGTGATAGTATTATCTAGGTATGAGAGATTAAACTCTTGGTTGTGGGGTGAGTTGCTGGCAGTGAAAAAGTAGAGGAAGAGTCTA
R
AGCTGAAAAATATCCAGGAAAGAACTGATGGGACTTACCTGTAGAAGAGAAAAAGAGATAGAAGAGCCGAAAATAACTACATTTAGAGCTAGCCTTACTA
Celera SNP ID:            hCV25988831
SNP Position Genomic:     31627
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,3)   caucasian(A,30)   total(A,53|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:55558):
AATAATAATTACCCTTTTCTCTACATCCAACCCTGTCACTCCCTTACTTTAGATTCTCTTCATCTCTCACCTGGGTTACTGTAACTCCTAACTTGACTCT
Y
TTCCTCTAGATTTGTCCCTGCTATTCCTTCTTCCTTGCCACTGCTGAAGTAATACTTAAAAATATCATCACAGCACATCTTTGCCTAAATCCTATAAAAT
Celera SNP ID:            hCV16181990
SNP Position Genomic:     26002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55559):
AGAGATTAAACTCTTGGTTGTGGGGTGAGTTGCTGGCAGTGAAAAAGTAGAGGAAGAGTCTAAAGCTGAAAAATATCCAGGAAAGAACTGATGGGACTTA
Y
CTGTAGAAGAGAAAAAGAGATAGAAGAGCCGAAAATAACTACATTTAGAGCTAGCCTTACTAAAAATTAGTTATGTTATTCAGAGAAACAAGGAATAAAG
Celera SNP ID:            hCV16182035
SNP Position Genomic:     31665
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,10)   caucasian(C,32|T,4)   total(C,56|T,14)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,582|C,877)   total(C,877|T,582) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55560):
ATAGCAGGTGTATATATTTATGGAGTACATGAGATATTTTACATATACTCTTTTGTTGTTGTTGTTGTTTTTGAGACAGAGTTTCACTCTTTCCCCTAAG
Y
TGGAGTGCTGTGGTGCAATCTTGGCTCACTGTGGCGCAATCTTGGCTCACTGCAACCTCCATCTCCTGGGTTCAAGTGGTTCTTGTGCCTTGGCCTCCTG
Celera SNP ID:            hCV16251371
SNP Position Genomic:     23288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55561):
GCTACTCAGGAGGCTAAGGTGGCAGGATCATTTGAGCTCGGGAGGCGGAGGAGGTTGCAGTGAGCCAAGATCACAACACAGCACTCCAGCCAGGGTAACA
S
AGTGAGACTCCATCTCAAAAAATAATTAAGAAAATGAGGCCGGGCACAGTGGCTCACGCCTGTATTCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCA
Celera SNP ID:            hCV1387707
SNP Position Genomic:     28725
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55562):
ATATAAAAGTCGTGCTAGCATATAGCTGTAGTCCCAGCTACACAGCAGGCTGAAGTAGGAGGATCACTTGAGCCCAGGAATTCAAGGTTGCACTCAACCT
R
GGTAAAAAGAGTGAGACCCTATCTCAAAATTAATTAATTAAATAATAGGTTTAATCTGCCAGTCGAGAAAAATTGAATTTTTTAAAGCTACAGATGATAA
Celera SNP ID:            hCV16251375
SNP Position Genomic:     22714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55563):
AAATACCCCTTAGCCTTGCTCAAAGATACCCATTTCTGATTTATGACATTGTAGATTAGTTTTGTCTCTTTTTTGGATTCCACATGAATGGAATCATATA
S
TGTATAATATTTCTGTACCTGAACTCTGACTCAGTGTAACACTTTTTTTTGGTGGTGTTTTGTTTAGTTGATTTTTTTTCTATTGATACATAGTATTTGT
Celera SNP ID:            hCV16251359
SNP Position Genomic:     34654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55564):
GTATCCACCATATATTTATTGGAAACCCATATACTGTCTAATTTTTATAAATCATTCATTCATTTATAATCGGTGCACTCACTTTTTAAATTCAGGTCTA
S
ATTCATTTCTTTGCCAGTCAATACCCATTTAACCACCAGATCCTAATTTTTTAACCTCTTTAATAATAATTACCCTTTTCTCTACATCCAACCCTGTCAC
Celera SNP ID:            hCV1387709
SNP Position Genomic:     25840
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55565):
GCCCTTTTAACCACTTCTCTACACTGCCTCCCCATTTTAATATATTGTCTTCCATTTTCATCTGCCTACTGGGCATAGCCATATATACATTTTTAATAAT
Y
TCACACTCATCATTTTTTTCTCTTTCATACTGACCCTTTTCTTGCCTTCTCCTGTGTTCTACCCAATTGACCAATTAGAAACCTAAGTCTTTTTTCTTAC
Celera SNP ID:            hCV16251376
SNP Position Genomic:     21279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55566):
GATAACAATTTTTAAATGTATATGTGACTTTTTAAATAAATGATTGTTTATAAATAAGTCTGTAGGTACCCCATGCTTTCTCATTATCTTAGCCCATGCC
S
TTTTCTTCCTCCTAAAATGCCCTAATTGCCTCTTATCCATCCTTCAAGGCAATGACTTCTTTCAAGATGAAACAGGAGAGGCAGCATGGTAAAATGGGAA
Celera SNP ID:            hCV16251377
SNP Position Genomic:     14120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55567):
CAGCGATGACATCCCTTTCCGAGTCAACTGGCCCGGCACCGAGTTCTCTCTGGTCAGTGCCCTCACTAACCCCGCAGCCACCCCTCCTCCTGACACTAAG
K
GTTCGGCCTCTTCCCTCGGTTTTCTTTGCTTTTTCTCCCCAAGACCTTCTCTGCAGACTCTTACCTTCCCCAAGCCAAAGCTGCTTTTATGCAGCGTTCA
Celera SNP ID:            hCV16181998
SNP Position Genomic:     6410
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,356|G,1137)   total(G,1137|T,356) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55568):
CTTAAATTAAGAAAATGAATTAGCCGGGAGTGGTGCCGCATGCCTGGAATCCTAGCTACTCAGGAGGCTAAGGTGGCAGGATCATTTGAGCTCGGGAGGC
R
GAGGAGGTTGCAGTGAGCCAAGATCACAACACAGCACTCCAGCCAGGGTAACAGAGTGAGACTCCATCTCAAAAAATAATTAAGAAAATGAGGCCGGGCA
Celera SNP ID:            hCV15918703
SNP Position Genomic:     28671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55569):
TGCAGTTTAAAAATAATAACTTAAGCCATAACTGAAAAAAGAAATTAAGTTTGGCATGGAAACCCTTAAACGTGTGTGTTTAATTTTAGGAAGATTTGCA
R
TCAACTAAAGAAGAGAGATTTCCAGCGATCCACAAGTCGATTGCTATTGGCTCTCAGCCAGTGCTCACTGTTGGGACAACCCACATATCCAAATTGACAG
Celera SNP ID:            hCV15918704
SNP Position Genomic:     27299
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,9)   caucasian(A,31|G,7)   total(A,56|G,16)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55570):
CCTCCTAAAATGCCCTAATTGCCTCTTATCCATCCTTCAAGGCAATGACTTCTTTCAAGATGAAACAGGAGAGGCAGCATGGTAAAATGGGAAGGACACC
R
GCCTAGGAGCCAGGAGGCTGAGGTATAGGCTATAGCTAGCTGTGGAACCTTGAACAAATTTGAAACTGACTTCCTCCACTCAATAAATTTATTAAGCCAA
Celera SNP ID:            hCV11164671
SNP Position Genomic:     14228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55571):
GGACAACCCACATATCCAAATTGACAGATGACCAACTCATAAAAGAGTTTCTTAGTGGTTCTTACTGCTTTCGTGGGGTGAGAAGTAAATCTTCAGTTTA
M
ATATTTATTTTACAACTTTACCTGCCAGGTATGGTCAGTGGGCATCAGCAGCACTGAAAAGAATTTTTCTCTAGAGAAATGACAGGATCCTTTCATCCCC
Celera SNP ID:            hCV25989402
SNP Position Genomic:     27473
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,36|C,2)   total(A,70|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:55572):
GAGACACCATGCCCGGCCGCAACCAATTATTAACGTTTTGAATGAAAATCTAACTCCACACTTGCTTTCTTTATAGAAATTAGGGTTTTAAAACAAGATA
A
CAATTTTTAAATGTATATGTGACTTTTTAAATAAATGATTGTTTATAAATAAGTCTGTAGGTACCCCATGCTTTCTCATTATCTTAGCCCATGCCCTTTT
Celera SNP ID:            hCV11164672
SNP Position Genomic:     14024
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55573):
GCATAATTATAAGTGTCATTTAATGAAAGCTTACTCTGAAATCTTAGGGGAAGTCTCAGCTGCTTCAAATATCAGAAAGTAATTCAGCTGAGTTATGTGG
S
TTTTGTGCATTGAAATATATCCATCTTTTTTAGATTGAGTCTTATTGGACTTACGAAGTATGTCATGGAAAACACATTCGGCAGTACCATGAAGAGAAAG
Celera SNP ID:            hCV25986731
SNP Position Genomic:     16470
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,34)   total(C,67|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:55574):
GGGCGTGGTGGCAGACGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGCATGGCATGAACACAGGAGGCGGAGCTTGCAGTGAGCCGAGATGGC
R
CCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATTTCAAAATAAAATAAAATACTGAAATGGGCTTCTGAACTGTCCCTTACAAAACTTTCAAAG
Celera SNP ID:            hCV26433820
SNP Position Genomic:     17141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55575):
CCCCTCAAGCATTTGTCCTTTGTGTTACAAACAATCCAATGAGACTCTTTTAGTATTATTGACTATAGTCACCCTGTTGTTCTATCAAGTAGTAGGTCTT
R
TTCATTCTAAGAGGTTTTTTTTGTACCCATTAACCATCCCCACCTCCTTCACAACCTCCCACTACCCTTCCCAGCCTATAGTAACCATCCTTCTACTCTC
Celera SNP ID:            hCV15918673
SNP Position Genomic:     23735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55576):
TTGCCATGTTGGCCAAGCTGGTCTCGAACTCCTGGTCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCAGTACACC
S
GGCCGAGTATATAATAGAATTTTAATTTAAATTGCTAATTGTTATTTTTTAAGCTATGTAGAAAATTGTCCCTAAGCCAGGTAATTATTACAGACCCCAA
Celera SNP ID:            hCV26433821
SNP Position Genomic:     16179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55577):
GGATCACCTGAGTCCAGGAGGTCAGGCTGCAGTGAGCTGTGATCATGTCACTGCACTCAGCCTGGGTTAGTGAAAGACCCTGTCTCAAAAAAAAAAAAAA
A
GTTATTGTTAAATTGAGAATAGAACAAAGGTCCTTAATAAGAAGAGGTTCTCCTTGCCAGGAATAGCCAAATAGTACCATAGTTGCACAGTACCATAAGA
Celera SNP ID:            hCV11164676
SNP Position Genomic:     12009
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55578):
ACTTGAGCCCAGGAATTCAAGGTTGCACTCAACCTGGGTAAAAAGAGTGAGACCCTATCTCAAAATTAATTAATTAAATAATAGGTTTAATCTGCCAGTC
R
AGAAAAATTGAATTTTTTAAAGCTACAGATGATAATGCTTTAAAAATATTTAGCATAGGCCAGGCACATGGCCCACGCCTATAATTCCAGCACTTTGGGA
Celera SNP ID:            hCV15918674
SNP Position Genomic:     22779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55579):
TGGACATTTGTATCTAACTAATATGCAGCTGTATGAAATAGGATAAGGTCCTTTGTCTGTTTACTAACTGAAATTGGAAGAGACTGGATTAGAAGATCTG
M
ATTTTTTAAGCTTTAAAATTGTCTGCTTTAAATTGTCTTCCCATTCAGATATATCAAAACAATATATAATTATTTACAATCTTGCTTTCAGATTTGCTTA
Celera SNP ID:            hCV26433822
SNP Position Genomic:     9493
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,3)      total(A,3|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55580):
ACTATGATGTCAAAACAAGATGTGTCAAGTTAATGGATGTTATTACCACATAGCTTTCTATTTGCAAGTGTTAGGGGTTTTTTGGTTTGGTTTGGTTTGG
K
TTGGGTTTTTCTGTTTTTGTTTGTTTTTTGAGACAGGGTCTCAGTCTGTTGCCCATTCTGAAGTGCAGTGGTACGGTCACCACTGGCTGCAGCCTCGACC
Celera SNP ID:            hCV26433823
SNP Position Genomic:     7380
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55581):
TAAAAATTCTGAAATAGGTTTATAAGAATTGTTCAGGAAACTGATACTTAAAAACCTTTTTTCCCTCCATTCTTGCCTTGTGAAAAGCAAAAATACATTT
W
AAAAAAACCTTTTTTTAAGAAAGCATGAACTCTGTGAAGATTATTTTACGGCTCCATATTTTATACTTCAGTTATTTGAAAGCAATGGCGTACCGTAGGG
Celera SNP ID:            hCV15918693
SNP Position Genomic:     14684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55582):
TTTTCAATGTAGAAAATAAATATTCACGAGTACTACCTTGGGAATATGTTGGCCAAGAACCTTCTATTTGAAAAAGGTTGGTGTCTACCCAGTGATTTGA
S
AGTAATGCTGGAATTTGGTTTAAAATATATGTTCAAAATGGAATTTACGAGATTTTTTTTTTGGACATTGTGTGAATTTTAAAATACTGAAATAGGCTGG
Celera SNP ID:            hCV1387710
SNP Position Genomic:     16809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55583):
ATAAGTGTCATTTAATGAAAGCTTACTCTGAAATCTTAGGGGAAGTCTCAGCTGCTTCAAATATCAGAAAGTAATTCAGCTGAGTTATGTGGCTTTTGTG
Y
ATTGAAATATATCCATCTTTTTTAGATTGAGTCTTATTGGACTTACGAAGTATGTCATGGAAAACACATTCGGCAGTACCATGAAGAGAAAGAAACTGGT
Celera SNP ID:            hCV1387711
SNP Position Genomic:     16478
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,19)   caucasian(C,22|T,12)   total(C,37|T,31)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55584):
AATTATATTAAATCATACAGGGTCCACTTGAGTGGGATTTTTAAGAGTACAGTTATTAACAGTGATCTTACTTTAAATGATTTGGACAGTACCTTAAAGT
K
CTCTCTGTTTTAGGTGCAAAGAATCAGATTCACCTCATGCTGTTACTGTATATATGCTAGAGCCTCACTCCTGTCAATATATTCTTGGGGTAAGTTAAAA
Celera SNP ID:            hCV16251363
SNP Position Genomic:     33835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55585):
ACACTGTGCTGTCTATCCCTTGTACTTGCCTACTGTAATATGGATTTCACTTCTGAACAGTTTACAGCACAATATTTATTTTAAAGTGAATAAAATGTCC
M
CAAGCAGTGTTGTCATGTAGTCAATGGCAGATTATTAAATTTCTTTATTTTTTTCATTATCCTGTTGTACACATTTTAAACATACATATCTGAACAAGAA
Celera SNP ID:            hCV27468375
SNP Position Genomic:     37779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:55586):
CTTGTTTTGAGGATTAATGAGTTAATGAATGTAAAACACTTAAAACAGTACTGTCCTAGAACTAATACAGCTAGTACTTACTGCTTTGTTTTGTTTTTTT
T
GTCTTAGGGAAAATGCTGTAATTTGCTTTTGTGTTTAGGATTACAGTGGTGCCAAGTAGTACTGGTTTTATTATAGTTAAACAGTTGTTAGGCCAGGGCA
Celera SNP ID:            hCV1387712
SNP Position Genomic:     11634
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55587):
GAAGAAAGAAGGAAGGATTTCCACATATAAGACAGTATATAGTTAGTGTTTAAAAAATAATAAAAGCAGAATGGGAAAAGGGGTTTCTGGACAGACAGTT
S
CAATAGAGAAATAAGTATGGTACCAAATGAATAGTGTAAAGATCAGTATAACATTGCGTAGGATGAAGTCAGGCTGCAGTGGAAGAGATAGAGGCCAAAG
Celera SNP ID:            hCV16182045
SNP Position Genomic:     31417
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,347|C,944)   total(G,347|C,944) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55588):
ATACACACTCAAAGACGAGAACAATAAACACTGGAGATTCCAAAAGACAGGAGAGAGGGAGGGGTGACAAACTACCTATGAAGTATTAGGATACTATGTT
S
AATACTTGGGTGACAGGGATATTAGAAGCTCAGACTTCATCATCATGCAATATATCCATGTAACAAACCTGCACATGTACCCCCCGAATCTAAAATTTTT
Celera SNP ID:            hCV16251381
SNP Position Genomic:     13077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55589):
ATTGTCTTCCCTTTTTTGCTGTGGTTCCAAACAAGCAGTTTCTTTTTACATTTGAAGCATTTTGGAGACCATTTTGAAAGGAATTACAAATGTTATGTCT
Y
ATAGCAAATCGTTGGCACAATTGAATAAATGTTTCTAAGAAATTCTTTATCATAAGTTTAGCTTTGCAACTGTTACTTTCAAATCTCTTTGATTCCCTCA
Celera SNP ID:            hCV1387713
SNP Position Genomic:     10776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55590):
GACCAACTCATAAAAGAGTTTCTTAGTGGTTCTTACTGCTTTCGTGGGGTGAGAAGTAAATCTTCAGTTTAAATATTTATTTTACAACTTTACCTGCCAG
R
TATGGTCAGTGGGCATCAGCAGCACTGAAAAGAATTTTTCTCTAGAGAAATGACAGGATCCTTTCATCCCCAAAGAACATTTTCTTTTTGCAGTCTCATA
Celera SNP ID:            hCV16182046
SNP Position Genomic:     27502
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(G,36)   total(A,2|G,66)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,279|G,818)   total(G,818|A,279) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55591):
ACCCTTAAACGTGTGTGTTTAATTTTAGGAAGATTTGCAATCAACTAAAGAAGAGAGATTTCCAGCGATCCACAAGTCGATTGCTATTGGCTCTCAGCCA
S
TGCTCACTGTTGGGACAACCCACATATCCAAATTGACAGATGACCAACTCATAAAAGAGTTTCTTAGTGGTTCTTACTGCTTTCGTGGGGTGAGAAGTAA
Celera SNP ID:            hCV16182047
SNP Position Genomic:     27360
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,33)   caucasian(C,1|G,37)   total(C,2|G,70)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,201|G,1268)   total(G,1268|C,201)no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55592):
GTATTTCCATTACTGTCATGTGGCATTATTGAGAAAGGCCCAGTTCTTAACTTGATCTAATATGTTTTCTTTTTTTTTAGGGTGTCGGTTGGTGGAAATA
Y
GAATTCTGCTATGGCAAACATGTACATCAATACCATGAGGTATAGAATAGCATTTATATATCATTCTACCACTAGATGGTTTAAAGTTTAAGAATCTGTT
Celera SNP ID:            hCV25955582
SNP Position Genomic:     28223
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,34)   total(C,1|T,63)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55593):
TTCCTCTAGATTTGTCCCTGCTATTCCTTCTTCCTTGCCACTGCTGAAGTAATACTTAAAAATATCATCACAGCACATCTTTGCCTAAATCCTATAAAAT
R
ATGTCCAAACCTCTCAGCATTTAGTTTTCTACCATATAGCACCTGCTTCTCTCTTTAGATTTAAATATCATACCCCCACATCTTTGGTTTTACCTCTTCC
Celera SNP ID:            hCV16181989
SNP Position Genomic:     26103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55594):
ACAGAACCGGCCCAGATCAAGTACTGTGATGTACATATGTCATCCTGAATCTAAGCATGAAATTCTTTCAGTAGCTGAAGTTACAACTTGTGAATATGAA
R
TTGTCATTTTGACACCACTCTTGTGCAGTCATCCTAAATATAGGTAGGATGTGCATTTAATATTTTAAACATAAAATGCACACATGCTTTAAAGTGTTCT
Celera SNP ID:            hCV25989399
SNP Position Genomic:     20566
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55595):
ATGCTAAGTGCTGCAAAGTCCATTATCTTAAAGTGTATTAAAAGCAAGTGGACAATTTATTTTTCAAATTTTCTGCAGTTTAAAAATAATAACTTAAGCC
R
TAACTGAAAAAAGAAATTAAGTTTGGCATGGAAACCCTTAAACGTGTGTGTTTAATTTTAGGAAGATTTGCAATCAACTAAAGAAGAGAGATTTCCAGCG
Celera SNP ID:            hCV15918711
SNP Position Genomic:     27226
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,9)   caucasian(A,26|G,12)   total(A,51|G,21)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55596):
TTCAAATTGAAGTCCCGGAAAAAGCAAAATTTTTTTAAACTTTTTATTCCAATTACCTTCAAGCATTCAACTTGCAATACTTTATTATATTCTTTCATTA
Y
CATTTCATTGAAACAGTAAGTGACACTATGATGTCAAAACAAGATGTGTCAAGTTAATGGATGTTATTACCACATAGCTTTCTATTTGCAAGTGTTAGGG
Celera SNP ID:            hCV15918713
SNP Position Genomic:     7255
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55597):
AGAAATTAAGTTTGGCATGGAAACCCTTAAACGTGTGTGTTTAATTTTAGGAAGATTTGCAATCAACTAAAGAAGAGAGATTTCCAGCGATCCACAAGTC
R
ATTGCTATTGGCTCTCAGCCAGTGCTCACTGTTGGGACAACCCACATATCCAAATTGACAGATGACCAACTCATAAAAGAGTTTCTTAGTGGTTCTTACT
Celera SNP ID:            hCV25955043
SNP Position Genomic:     27338
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,38)   total(A,2|G,70)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55598):
GTATTAATGCCACAAAATATTGATACATTGAAATACCTATGTAAAATTTTGTTATGAATCAGATATAACTTTAGCAGGCTTGGAAGAGAATACTTTAATA
Y
CTGTTGTTGTATCCAAAGAGCACACTTGGAGTGAATATGGCAGATGTTTGAAGAATTATGTCATTAAAATTTTTTACTCTTGGCACCTGTGTTTTTTTTA
Celera SNP ID:            hCV11164681
SNP Position Genomic:     7829
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55599):
TGTATTAATGCCACAAAATATTGATACATTGAAATACCTATGTAAAATTTTGTTATGAATCAGATATAACTTTAGCAGGCTTGGAAGAGAATACTTTAAT
M
CCTGTTGTTGTATCCAAAGAGCACACTTGGAGTGAATATGGCAGATGTTTGAAGAATTATGTCATTAAAATTTTTTACTCTTGGCACCTGTGTTTTTTTT
Celera SNP ID:            hCV11164682
SNP Position Genomic:     7828
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,4)      total(A,4|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55600):
CTTTGTGAAGTCTTCATATTTCAGTTCTTGGTCAAAGCCTATTTGAGCCACCTCTTCCTCTGTGAGTCTACTGTCCTCTGTGCCCTTACTGCCTTTTTTT
T
CTTTGAGACAGAGTCTCACTCTGTCACCCAAGCTGGAGTGTAGTGGCGTGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGAGATTATCATGC
Celera SNP ID:            hCV11164668
SNP Position Genomic:     26408
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55601):
CATTTCTTTTCATTGATTTTAATCCTTTTCCTTATTCTAGTACTACTCAAACTATTTTAATATTCTCTTATATTCATAATTTCATAATATTTTAAAGTTT
S
ACATCCTACTCATTATAATTTAATTTTTAGGTATTTGTCCCAGCTAACCCTCTTGAAAAATAGACTAAAACCCTATCTCTGTCTCCTGATACATTATTAA
Celera SNP ID:            hCV25955351
SNP Position Genomic:     21061
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(G,28)   total(C,1|G,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:55602):
CTTTCTTAGGAAGAAGAAAAGGATTATAAAGGCCCTAATCCAAGAGAGCTTTTGGAGCCACTATTTAAACAAAGCAGTTGTTCCTACAGAGTATGTATTT
Y
ATGTTTACTTGATGACTAGAAAATAGATTACCAACAGCCAACAGACCTTTGAAAATACCGTTTCTTCTTTATTATGTTGTGTCAGGTTTTTTTTTTTAAC
Celera SNP ID:            hCV25989328
SNP Position Genomic:     15013
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,26)   caucasian(T,30)   total(C,2|T,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:55603):
TGAGATCCCTGCCTCCAAAGAGCTTGTTTGGAGATATTATTAACAGTGCCTTTTTAAAGTTCTTAGAGTGGATTTTTCTTGTGTTTATGTAGAGAAAAGT
R
TAGGAGCTAACTTCTTAGTGATCTTTGTCTTCTCAGGTTCTATCCTTTATTCCTTCATTCCATGAAAAATTTTTAATTTGTCTTTTGCTGGCCTTGAGTA
Celera SNP ID:            hCV15918684
SNP Position Genomic:     19697
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55604):
CGGGGTTTCACTATGTTAGCCAGAATGGTCTCGATCTTCTGCCCTCACGATCCGCCCGTCTCGGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCCATC
R
TGCCCAGCCTCCACTTGGTTCTTTTTTATCTCTACTGAAATTTCCTATCTGGTCATACATGTTTTCTTCATCATGTTTAGTATAATTATTATAACATTTG
Celera SNP ID:            hCV26433815
SNP Position Genomic:     36412
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55605):
AGGCAGGAGGATCACAAGGTCGGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTATTAAAAATACAAAAATTAGCCGGGCGTGGTGGC
R
GACGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGCATGGCATGAACACAGGAGGCGGAGCTTGCAGTGAGCCGAGATGGCACCACTGCACTCC
Celera SNP ID:            hCV29117094
SNP Position Genomic:     17053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55606):
CCATTGAATGAATTTATCACTGATGTATTTTTTATCTCTTAACATTTCCACTTGGTTCTTTTTGTTGTTGTTGTTTTTTATTTACTTATTTTTTTTTTTT
T
GAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTAGCGCAATCTTGGCTCATTGCAACCTCCACCTCCCGGGTTCAAGTTATTCTCCTGCCTCA
Celera SNP ID:            hCV26433816
SNP Position Genomic:     36140
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55607):
AATCCCTGTTTAGTTTTTTTCAAGGGATATCTTTTAGGTTAGTTTTCTTTTCTTAGGGAAGCAACACAGTGTAATAGTTCAGAGCACAGTCCCTGGAGTC
R
GACTACCTGGATTCAAATGCTGGCTCATCACTTCCTACCTTGGAGAAATTACATCATCTTTTTTATCTCTCACTTTTGTTGTGTAATGGTATTTGCCTCA
Celera SNP ID:            hCV25955621
SNP Position Genomic:     32256
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,5)   caucasian(A,30)   total(A,49|G,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55608):
GACTCCATCTCAAAAAAAAAAAAAAGAATAATGAGACAAAGTATATGAAATGGAAATTAACCCTTCATGTTTAGGATGGTCGTAACTGATAGATGGAACT
R
ACATTTGTCTGGAGCTTTCTCTATGCTAAGTGCTGCAAAGTCCATTATCTTAAAGTGTATTAAAAGCAAGTGGACAATTTATTTTTCAAATTTTCTGCAG
Celera SNP ID:            hCV25955354
SNP Position Genomic:     27103
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,7)   caucasian(A,32|G,4)   total(A,57|G,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:55609):
TCCCGAGTAGCTGGTATTACAGGCATATATGGTACCACGTCCGGCTAATTTTTGTATTTTTAGTAGAGACAGTGTTTCACCTTGTTGGCTAGCCTAGTCT
Y
GAACTCCTGACCTCAAGTAATCTGCCCGCCTCGGCCTCCCAAATTGCTGGGATTATAGGTGTGAGCCACCCGCACCCAGCCCCATTTTCTTATTAATGTC
Celera SNP ID:            hCV26433817
SNP Position Genomic:     35477
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55610):
TTTCTTCTTTATTATGTTGTGTCAGGTTTTTTTTTTTAACTATTATTTTAGGTTTAGGGTTACCTGTGCAGGATTGTTATATAGGTAAACTGCATGTCAC
Y
GGGGTTTGGTGTACAGATTATTTAGTCACCTAGATAATGAATATAGTACCTGATGGGTTGGTTTTTTTTTTTTTTTTTCTTTTAATCCTCTCCCTCCTCC
Celera SNP ID:            hCV15918686
SNP Position Genomic:     15174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 298
Celera Gene:                 hCG1747076 - 209000072093836
Gene Symbol:                 PRO2086
Protein Name:                PRO2086 protein
Celera Genomic Axis:         GA_x5YUV32VYQG(61832704..61846537)
Chromosome:                  Chr3
OMIM number:                 190000
OMIM Information:            TRANSFERRIN;TF


Genomic Sequence (SEQ ID NO:12458):
TCCAAATTTGGGCAACTCTTTAAAAAAGAAAAGGCCTCTAAATCTGGTTATTAACCCAGAAAACCCTGTGGGGTCAGGGAAGTGGTGATGAGAGTATGCC
TCTGTACCAGGGTGCTTTGTGACACCACTTAGACATGAAGCAAAGTGTGGCCAAGGTGACATTCAGAAAACTCAGGATCCCCACTGACAAAGGCACTACC
TCTGCCCTCCTGAACCTCCTAGCACTTTTATGGCCACAGGAGAGCAGCTGAGCTGCAAAGAAAATTCCCCATCCCTTTCCTGAGGTTGGAGATGTAGCAA
AGGCTCTTCTAATGAATGGCAGGGAATGGGGACATCTGAAAACAGGTGGCACAAGCTCAGGAAGCAAGACCTTCAGTCTTCATCTTTTTCTGTTCCCTTT
CATGACATTTTTCATCTCTTCTTTGTTTAGCGTAGTGATGACATCATTATTGTGCTCAAATAAATCCCCTCTGCCCTGAATTGTAATGGTCATTAACTCC
TTTTCCCAATCTCAATAGGTTCCCCTTTAAAGCCTATAGCCTGGCAAGTCCTGGGTTGGTGGTGGCTGGTCACAGAATTAATGAATATGTTCTACTTATT
ATGGGCCATGCAGCCCTGTTATCTCTTAAATAAAAGCTGCTTGCATTGACTCAGGAAAAGCTGACTTCCTCTTGTCCTTCTGCACAGATGAATTTTTCAG
TGAAGGTTGTGCCCCTGGGTCTAAGAAAGACTCCAGTCTCTGTAAGCTGTGTATGGGCTCAGGCCTAAACCTGTGTGAACCCAACAACAAAGAGGGATAC
TACGGCTACACAGGCGCTTTCAGGTGAGTCTTTTAACCCTGAAACAAATAGAATAATATACAAGCCCTGGCCAGATTTCTTTTAGGAACTAAGGTAAGAT
TCTTAGGTTCCTATTCCATTAGTGCGGCATGTATTAAGAGAGTATATTTCACAACCAGATATAGAGCCACATGGGGAGGGGCAGCCAGACTCCCCCAGGA
TGCTGACATGGCTGTCAAAGACAGCAGAGACTTGTGTTTGGTACAGTTTAGCAGTTGTCAACGGGTGATTTGACCCCCACGGGACATTTGGCAATGTTTG
CATATATTTTTTATTGTGACAATGTTGGGGTGGGGGAGGAAGTGCTACTAGCATCTAACACGTAGAAGCCACTAAACATTCAACAATGCACAGGATAGCA
TGGTACAACAAACAATTATCCAGCCCCAAGTGTCACTAGTGCCTCGGCAATGATACCCTACTGTAGTTGAATAAACACTGAGTGGAGTGGAGAGTTTGGC
TCAAGCTTTTCCATGCACCTCTGGATAATCCAGAACAATACTCATCTGGAAATACAGAATAGTACATGATTCCTAAATTCCTAACTACAATTGTACTTTA
TGGAGTGCCTATCATTCATTTTCATAGAGATACCTGTGTACCTTGCTATTTTTTTTTTTTTTTTTTTTTTTGGAGACAGGAGCTCTCTCTGTTGCCCAGG
CTGGAGTGTAGTGGCACACTCATGGTTCACTGCAGCCTCAACCTGCTGAGCTCAAGCGATCCTCCCACCTCAGCCTCCCTAGTAGCTGGGATTACAGGCA
TGCACCATCACACCCAGCTAATTTCTGTATTTTTTTGTAGAGACAGGGTTTTGCCATGTTGCCTAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTC
CTGTCTTGGCCTCCCAAAGTGCTGGTACTCACAGGCGTGGGCCACGTCTGGCCCTACCTTATTACTTTTTAACTACCCATTCTGCTTTAGGCCTTCTGTT
ATTTGGTGGTTCATGAATCCATGAACTGCACAATGATGATGGTATTATAACTGAGCTTCCCCGTAATGATGTAAAAAACAAAGGTCATTCCTATTTTCCA
GTTAGAGCCACTTTGTAAGTTAGATTAAGTACAATTCACATTCCCCAAGTTTCTAATTTCACAAAGTAGAGCATGTTGTTTTCATAAAGATTGAAGAGTT
TGGGGGACTTAAAATAGAGTTCCCCTTTGCATTTTTGTACCTTGTCTTTTTCTGGTGATAACATATGTTTGAGAATTATAGGTCATGAGAAAAGGCTCAA
ATAACATGTATGTATAAACATGCTTAAAATAAATGTGTATAAAGGCTTCTTTTTCTAAACATGTCTTATAAAACTTAGCTATGAAGTAAAATGTACCAGA
CTGATAAAAAGACTCCAAACTCCAAAGAAAATAAAATTAAATCAATATGTGGCACAATAGGTACCCCGTCTTCTCAGCTAGCTACCCCCAAAACTCTTGA
ACCGATGCAGTAATAGGCAGGTTCTTTTCCTTGAAGCAAGGGGATTAAAGTACATGGAGAGCAGGGTTCAGTCCATTGTCCAAAAGTCCAACCCACTCGG
CTCATTGAGGAGGGCCTTGTGTAGATTTTGAAGTACACACTAGTTCATCATCTGTGTGGTATGCCCTTTCAAAGGACTGGAAGACAGTCAAAATTAAAAT
TAGAACCCTACTAACCAGAGTTTATTTTGTTATTATTTCTTTTCTGAAACTTCTTGGGGACTTGTAGCTCAGAGCTGTGTTACAACCCCCATTACCACAC
CCAGAGATATGTGGCCTGGGAGTTAGTAGAGTCAGGTGCCTTTATGCCATGTTTTGCCATATTCTCTGCATTTCTCAAAAACAAAAACAAAAAACCCCAC
AACATAGCAAATGCTCCATAAATGTTAAAATTCTTTTTCAAAGGAATGAAGGACAGCACAAATTGCAATTTGTGATGGAGTTTCAGTCTCTCACAAATGT
TGCCTAGACATTCGCCTTGTATGAGAACCTGAAGGAACTGAGTTTTTCATTCATATGCTGGGGGAGGCATCACCTCACTGAAAATCAATTCCCTACTATC
CTTGTTGATGTCAGGGAAATTATGTCATCTCTCAGAGAAACAGTACAAAAAATTAAGATTTAGTATGTGGAACTGAGATTGTAAAACTACAATCAATTCA
GAGTGTTTTGTTTTTGTTCTCTTTATTCCTTACATTGCTTACTGTTAGAATGGAAGTTACAGTTGCTGTTTTCAGATGGCTGTCCTGAATCTATAAGGTA
GCCCCCTGAATGACAGATAAGTCACTCTGACCGCCTTTTTTTTTCTCTCCCACTTCTGGACCTCTGCAGGTGTCTGGTTGAGAAGGGAGATGTGGCCTTT
GTGAAACACCAGACTGTCCCACAGAACACTGGGGGTAAGTGCACCTGCTCCTCTGTCCCCCTAGATCACTAGATCCTGGTCACTGGTATTCACTTGTATT
CAGGGATGCCTTTGTGGAAGTATTATGTACACTGTCAGACTTCAAAGCTCTGATTCTCAGTCTGTCTGCTCAGTGAAGAGAGACATGTTCACCTGAGTGC
ACAGAATGATCAGGATTATGGGGCCCCCAATGGCCCTAAATCCTCCCCAACACACACTCCCACAGCTGCAAGCCTTGTGCTCCTTTCCCCTAAATACTTC
AGTGCCTATTTCCTAAGAATAAGACAATCTCTTGCATACCCACAGTATGATTACCAAGATCAGGATCTTTTACATTATGTGGATTTAATACTCGTCACGT
CCACAGTCCACATTTAACTGTTGTCAGTTATCCCAGTAATGCCTTTTATAGCTATTTACTGTACTTCTGGGTTGTGTCCATTGAGAAGGCCTAGAGGCAA
TGGCATACCAGCAGGAGTAAGCACCAAGATATTGGCTTGTAAGTACTCTTCTTTACTAAAAGGAACCAGAACTCCTTGGAAAAATAGCTGACTTCAGGGC
TGGGGCAGGAAAAATAGATGCTGAGCCTAGAACAACACACTGAAGTGCTCAAACAGTGATGGGACACTCAAAGCATACAAGAACCAATTTGAAGGATCTC
CTGTTGCCAAGTCTGGGAATTTTGAGCATTAAAATAAATAATGATAGCAGTAAGGGATAATAGCCCATTGAAAGAAATAAGAATGCATGAGGCAATACTG
ATTAAACAAATGAAGAAGGGAAAACTAATCAATGTGGAAGGAATGATAGAGTTAGAAAACTATCACTTGGCAACCAATATATTGATAACTGATTCAAGCA
AGAATCAATGGGTGTTAAGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGAC
CATCCTGGCCAACAAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTG
AGGCAGGAGAATGGCGTGAACCCGGGAAGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGCGACAGAGCGAGACTCC
GTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAATCAATGGGTGTTAACTTGTGGGTGAACGTTGGACAGCCATAATATTAATAAAAACAAACAAAACAAAG
CAAAACAAACATTGGCCAGACTGAGCACTCCACACCTGACCCCTCAGTATCACTAAGTGCTAGCAGAGCCCACTGGAATTCAAGCTGTGAATACTTCCCT
GCCTTCTCTCATGTTCATTCCCCAACTCCTCACTTTTCCTGGGCAACTCATCCAGAATGAACCGGCTCAGCACCAGCCCCTCCAGGAAGCCTTCCCAGAT
GGCATACCCTGTCCTACAAGAAGACTCCTCTGTTCATATTGCCATTATGATTGAATTCACCACACTCTGTAATACACTTTGGCTACAGAAACTCTTTGAG
CTCTTTTTCTTCATCTTATATTCCCAGAACCTAGTGTAGCACATAGTACACAGCAGTTGCTAAGAATTTGTTTGCAGAAATATTGGGTTGACTAATTTTC
CTTTCTTCCCTCGTATTATTGCTTTTTCCTTTAAGAGAGTGTTACCCTAAGCTTGGCTCTTTGCCACCCTTGATTTCTTTTGGTACTTTTCTGAGTAGAG
CTCCCTTCTTTAAGCTTTGACTCTCTTACTCTTTGCAATGACTCAAAAATTCTTCCCTCCTGCATAGAATTAAGATAGGAGGCCTGACATCCAATCTCAA
TTCCATTCCAGTCTATTTCCCAAGGTGTCACTTTTATGTAGAGAGTACATTGGCATTGCAATTGTATTTTTTTACGTGTGTATATGGATGTCCTCATATA
TTGTAGTTGTATATATACAATCCATATACAACTCAACTGTCCTCATCTTTCTGTCAACGTTCCCTCCTCTTCTCCCAGCCTCTATCCTTATAGAGAATCC
TGCTATACTCCCTGCCCATCAGGCCTAGATTAAGTCTGTCAGTCAATATCTTATTTCTTCAAAACGTGTCTTTTTTCAAACTAAATTTTATTGTGTGTAT
TTAAGGTAGACAACATGATTTTTAAGAGCCAAAGTAATTTTGATGTATTGTAAGTTTGGGAACTACTGGTCTAATACCCCTGACTTAATATCACATTCCT
GATAAATATTACTAAATGTAAGTCACATCATGTCTGATTCATCATACTTATATTTTGCACCTTCTTACCTTCTTCTGTTATTAATTTGTTGCTTTTTCAA
CTTATATTTTAGATTGAGGGTACATATGCAGGTTTGTTACATGGTATACTGCATGATGCTGAGGTTTGCGGTATGATTGAACCTGTCACCCAGGTAGTGA
GCATAGCACACAACAGGTAGCTTTTCAACTCTTGCCCCCCTCTCTCCCTCCTCCAAAATCTGTCTTAAGTGCTATGGTATATACAAGAAGGAAGACACAA
AACCACGTGGGCTTTTTTTTTTTCTTTTTTTTCTTTTTGAGATGGAGTCTCACTTTGTTGCTAGGCTGGAGTGCAGTGATGTGATCTCAGCTCACTGCAA
CCTCCGCCTCCCAGATTTAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGTGCACCACCACGACCAGCTAATTTTTGTATTTTTA
GTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCCATCTCTTGGCCTCATGATCCGCCCACCTCGGCCTCTCAAAAGTGCTGGGATTACAGGTGT
GACCCACCGCGCTCAGCCCACATGGGCTCTTTTATCACAATTTGTGTGKGTGTGTGTGTGTGTGTGTGTGTGTATGTGCATATTATAGGTGTGTGTAGGA
AAAAGAATGTTAGAAATGTACCAATTTTGAAGGCGTAGACTATGAAATTACAAATGCTTCAAAATTTTCTTCCCAATACTTACGTGGCATTTTATAAATT
TCCACCAATAAACGTGTATTATTTTTATTGAAAAAGCATATTTTTAACATGCCCTTCTAGATGCCCTCCTAGCCAGACTGAATCACCTCCCATTTGATTT
TTCTTAATTTTCTACCTTTAGGTTCTGGCTCATTCATTAACATCAATTTCCATTCATAAGTCCTCACAAACCCACTTTTCCTCTTGCCTGAGTGCCTCAC
ATACCCTACTGCCTGAGATGGTTCCAGAGGCGGTCTCCTCTCTCCCTTAGAAACACCAGGCACACACCTGCCCCCAGTCTCGCCTGCACTCTCCTTTCCT
CCCGCAGAGAGGCATTCCTTTCTCCTCCTCTCATCCTACACACACTATAAGAGACAACTGAAATCTTGCCTCCTCCAGCCAGCTTCTTAATTCATTTGTT
CTCAAAGCCCTGGTTTGAGCTCACACAGCATCTAGAGTGTTTTACAAAATATAAAATATTATTATCCCTGCCCTGAATTTTTTGTTTTGGTATGTGTGTT
ATTTTCCCCTCCAATAAGATTGTGCCTTGGAGAGGGCTGAGAACATAGTATCATAGATAAATGAATAAAATAACATAAAATAAAATAAAAATACATATAC
CCTTTGAACTAACTATTCCACTTCTATGTAAGCACAATTATATGCCAGTAACACTCATTTTAACGCTACTTTAGTGGCAAAAAATTGTAAACACCTCAGA
TGCCTATTAAAAGAGGAATGGTTTAAAGATACTATTATAGCCACACTATGAAATATAATACAGTAGTTAAGAAGAACGAGCTTGATTTGTATGTACTGAC
AAGAAGAATCTATAAGGTATGTAAACAGTTGAAAAAAAAGCTACAGAGTTTTACATTTGTCAAGATCTAACACTAAACAAAATTAGAAACATGTGAAATC
CATATACACACGTAGAAAAATACATATAATGAGCCGTGGATGGAAACTCGCAAATGTGATATTAAAGACTAGCACTATAAGACTGAGTGAGATTTGGAGA
GTATAGGAAAGGAGGCTTTTAGTTAATATAGAGAGATATTCAAAAATTTATGAGTGTGATCTCATGTATTAGTTATTCGGTTAAAGAAACAAAATTAAAT
GAAAAATACATTTTTAAAAAGGTTGCAATTCTGAATTATGGGAGAGAAATAAAAATTAGCAAAACATATTTGCAAAGTGGCTCAGGAGGAAGGAGCTGAA
ACCCTAAGAATGGGTGAGTTTTTTTTTTTTTCAGAGACAATACAGAAAAGAAGAGGCAAAGGGGCCGAGATGGGATACAGACCTGTATCACACAGGTGTG
TGCACATTCTCATTTAGAACTGGAACAAGGGAGTCAGAYTTAAAATTCTGGTGCAGATTCCAAAGGTGTTCTCTGAGGAAAAGTTCTTTTGTTTGGAGAT
GCCATGTGTTACAGCACAGAAATTGATCAACCTGGCTTAGAGCGTCACATTCTTCCTCTGTTGGAGCAAGAGGTACAGAAGGAATTGGAATTTAGTGGAA
TTGAAGATCTTTTTGAACAGCATCTGCAGAATGTAGTTCATTCTCACCTGGCTGGGTAGGGAAGGTTGGAAGGGGATGGTCAATAATCATTCCTGGTCAC
TGTGAGTCTGGCATCACCTTGTAGACCACATGGGTGTCTCTTCCTGTCCACATCACTGTAACCCCAGTGTGGGCACTTCTGCTGGCGAGAAGGCCCAGGT
TCTCTACACACCACTGAGTCAGTTCCATCTCCCCAGCGGGGCACCTTGACCAAAGCCATCAGCTGAACCACCTTCTTCCTGTCCCTAGGAAAAAACCCTG
ATCCATGGGCTAAGAATCTGAATGAAAAAGACTATGAGTTGCTGTGCCTTGATGGTACCAGGAAACCTGTGGAGGAGTATGCGAACTGCCACCTGGCCAG
AGCCCCGAATCACGCTGTGGTCACACGGAAAGATAAGGAAGCTTGCGTCCACAAGATATTACGTCAACAGCAGGTATGGACCAGCCAGGTCCTCCCACCT
TTTCTTCCTAGATGGCCATAGGCTATTCGGGGGGAGTTTACAACAAAGTGCAGCCATGACTCCAGCACTTTCTTTTTGAAAACTAGAATTCCATGCATTG
TGCATTTCATGCCATGCATTGTGGACTAGAGTATCAGGGTTCAAATCACAGCTCCACAGCTTCCTAGTTGTGCCATCTTGGGTATGTTACATAACCTCTC
TATGCCTCAGCTTCCTCATATATAAAATTGTAATAATAATATTTTTACCTACTTCTCAGTTAACATGAGTATTAAGTGAAGACATGCACCCAAACGGCAT
AGGAAAATTCCATTTCCTATAGGACGTGCTCAAAATATGTTAGCTGTGTAATTATGGAACTAGACCTCTCAGGCCCAGCTCTGCTTCTAGCTCCTGGTCA
CTGGTGATTAGATCTGATCCATGTACTCTTGGGACTAGGAATCTGCCTTTCTGCTCCCCCTAACCTTGTTCAGGGGTACCCTCATTTCCCCTACTCCTGT
CCTTCCCGAAAATGAAGAAGACAGCTCCTGTTTCCCAGCGCTTGTTGATACGAGTCATGAAGAGTGGATTTCTGTTCCTCTTGCCTAGGCAGACTGAGCA
CTGTTCTCAACAGTCTGAAAAACACAGGACCCTTGCCCTCGGAGAGCCTGCCCTCTGGGGGAACAACCACTCAGGGCCAGCCTTGTTGAAGACAGGGGCT
GCCTGAGTATTCTAATCCTAAAGGCCCCTCCACACACACACATCACCTTCCTTTTGGGCATAGCTGCCTGCTGTTGATTCACCATTACCTTTTTTTAAAA
AAAATAAGAGTATATTTGAAGTCCTTTTAAGGTACATGACAATAATAAGCATTTAACATACATTTCCTAGCTGCTATATGGAAAGTTCAACATTTTGCAG
TCATCATTTCACTTACAACCTTTGGAGATCTGGAGAAGCTGAGTGGCTTGCCCAAGAAAGGATTCAAAATGCAGTCAAACATGAACTTTTAAGAACTACC
TCTGCCACTCCTCTGGGAGGGTTCACATTTAACATCTTCTTTGACAATAACATCTGAAGGGACATGTTATTGTCCTCTCATTTCCTATAAGCAGCCCCCA
GTGAAGGGCAATGAAGTGGGGAAGAGAGGTCAGAGTAGGCAGGCATGGGTGTGGGTGGGAGGGACTTATCAGAGGAAGGTGGGAACAGGGACCCTATAGA
TGATTTTGGGGGCATCATGAAAGCATGCAGCTGGGGCCCTAAGTGGATAAATGGCAGATAAAGGAGGTGGAAAATTCCCAAGACATACTCCGTAGCTTCC
CTTTTTCCCCAGGGCTGGTTCAGAGCTTTCAGACTCTTCTCATCCATGTGTTCCCAGCTGCTAAAGACCACAAGGTCCTCACGGACTTTCTGTTCACTTG
ACAGCACCTATTTGGAAGCAACGTAACTGACTGCTCGGGCAACTTTTGTTTGTTCCGGTCGGAAACCAAGGACCTTCTGTTCAGAGATGACACAGTATGT
TTGGCCAAACTTCATGACAGAAACACATATGAAAAATACTTAGGAGAAGAATATGTCAAGGCTGTTGGTAACCTGAGAAAATGCTCCACCTCATGTGAGT
AGGAGGAACAGCATGGGGAAGTGGCAACCAAACATGGTGGTGAGTGCTGGGATGGTGGGTGGGTACAGGAGGGGTAGGCTGTGGCCCTTGGGATAGGACA
ACATGGACAAAATGAAATGGTGAGTGAACAATCTAAGCCCGGCATGTATGACAGGCTAGACTGTAGGGGCAGATAGTAAGGGGATACAGGCTCAGAGCAC
TAAGGTAGTGAACTTATTGGGTATAGAGAATTCCATCTTATTTCTAAGAAAAGGACTGGGTTTATGTGTACATGCCATTGCTCTGCAGTAAACTTTTGAT
TAGAGTTGCCTTGTCCAATATGGTAGCCACCAGCAAGATGTGACTATTTAAATTTAAGTTAATTAAAATTAAACTAAATAAAAGATGTATTTCTTCAATC
CCACCTAGCTGCATTTCAAGTGCTCAACAGCCACATGTGGCTCCATATTGGTCAGCAAAGAGAACGTTTGCATCATCACAGAAAGCTCTTTCAGACAGTG
CTGCTCTAGACAGCTTCAACAATGATAGGTTCTGGTAACCATAAAGTTGCTATGCATACTACTCATTTGGAACACCAGTTTCTGAGAACTGAAATAGAAT
AAAACACATCTTTGCAGTATAACTATGTTGGGTGTAACTGAGTCACCTGAAAAAGTTTGGAAGCTGGGGAATAACATGTGGTGTAGGGCAGTTAGTCTTT
CCACAGGAGTATGCAGATAAGGGAGTCTTGATCCTTATTAAAATGCTGATTCTCAGAGCCTTGAGATACTGATTTAGAAAGTCTGTGCTAGGTCAGGTAT
CCGCATTTGAAAAGCTGCCCCCATGTAATTCTGACGGAAGCAGCAATGTGCTTGTCTAGGTTCGCTATTGTGAGAATCAAGTTGATATTTACCTAACCTA
TATCCTCCACAAAAGCAGACAGTCTGGCTCTGCTCTTCTTTCCTCCATCCTTAGCCCACAGCACAGAAACTGGCACATTGCAGGTGCTTTTTGCTATGTC
AGTTCCTCACCTGCTTAAAGAGGTCAGGGAGGACAGTCTTCCTGGGCGACTCCTGGCCTCAGGAACTCAGATGTGTGAGCCTCGCCCATAAGAAACAAGG
TGGAGGACCCTGTAGGGCAGGAAAATCATGTTAACAGCTTTGGCGTGGGGCACTCCCCAGGATAGGCACAGGAGCTGTGCAGGCAAGTAGAAAAGAGCAC
TGGGAGAACGGCCCAGTTCACAGAAGAGGAGGCAGCAAGTCTGCACACTTTGTACTATGCTGAAATTGTTCAATCACTCGACAGTTCAGAAATAAATATA
GGAAGATTTTGAAAATCCTACCTCTCTGCTCTGCTCCACAGCACTCCTGGAAGCCTGCACTTTCCGTAGACCTTAAAATCTCAGAGGTAGGGCTGCCACC
AAGGTGAAGATGGGAACGCAGATGATCCATGAGTTTGCCCTGGTTTCACTGGCCCAAGTGGTTTGTGCTAACCACGTCTGTCTTCACAGCTCTGTGTTGC
CATGTGTGCTGAACAAAAAATAAAAATTATTATTGATTTTATATTTCAAAAACTCCATTCTTTCCTAAATATTTTCAACAAAGGATTTCTTTATGCATTC
TGCCTAAATACCTATGCAACTGAGCCCTTCCTTCTCAGCTCAAGATTCGTCTGGTCTTTCCCTACAGCTTTGTGTGTGCCATGGCCACATCTCCTGGGTA
CAGTTCAAGGAGACATCTTTTCTAAAAGGGTCTGCGTGATCATTAAAATATAATCAAATGTATACTGGTGTGTGTGTGCACGTGCGCGTGCGTGTGTCAT
GCTAAGGAAGGGGCAAGAAGGAGGATGCAGAGTGAGTTACAGAGATCAAGTACTCAAGTGAGTACAGAAAGACTACAGAAGACTTACCTTTATTTGGTAT
TTTAAATGAATTCCATCAGGCTGAGGTCCTGATTCTAACTAGCTGAAAAAAGTGAAACACTGACATCTTTTTTGCTGAAAAGCATTCCCTGAGCTTGATG
CCACAGCAGTTACTGCCCTGTCTCCTGCCCTTCTCAGCCCAGCTTCCTGTAAGGTGGAGGCTGACTTTTCTGTCTCACTTATTATTGGCTGAACATACAG
AATTTGGTCTTCTGCTTCACCAACTTACCTGAATGTACCCTGGCAAAAGTCACCGTCTACCTGCCAACTGTTAAACCAATTCAGGTCTTCCATTCCTGAG
CCCATTTCCTGCAGTTGATAAAGTTGACCACTCCCTCCTCCTTGGAACTCTTTTCCTCAGTTTCTCTGACATGGCAGGTCTCTGCTTTGATTCCTACCTC
TCTCTGTTCATTTGTAGTCTTCACTGTGGGCTCATCCTACTGGCCTGGAAACCTTAGGGAAATCTTCCTGGGGTTTTCTCTTGATCTGGTCAGTGCTCCT
CTCACTTTGCAGGCCCTCCTTCAGTGATGCTCATGACTCCTAGGCATCTGTATCTATAGCTGTGACCCCAGCCTCCAGCAGTATCCCTGCACTTATACAT
CCTACTACCTACCTGTGGGTCTATACTCGAGTCTTGCAGCAGTCAGAAACCCAACAAATCAAAAATTGAAGTGATCATCCTGTTCTTCTCTCTCTTGCTT
CCCTAAACCAACTGTTGTTATAGTATATTCCATATCAGCTGAAGACCTGGTCATCTACCCAATCACATAAGCCATAAATAGAGGGGTGAAATTTCAGTTC
GCCATTTTCCCTCACACTACATCCAGCGTCACCAAGTTCTGTTGATTTTGCTTTCTAAATAACTTCAGTTGGCTCCTTTCTTTTCCTGACTCCTAACACA
GCCTCATCTTATACTCAAATACAGAAGTGCAGATAAGGGGTATCTGGACACAACATTCCACACCTCTCTCAACTGTCTAGTATTCAAGAAAATAGGACTC
TGGGTCCACTTTGCAGTCCAGACCTGATATGGACCGTTTTACACACAGCCCTGCTTTCCTCTGAGCCTATCAACGATCTGCCTTATTTAATATTAACCTA
AACTTACCCCAAATCCTATAACTCTGCCTTTTCCTTTGTTTGGTGAGATACCCCATGGCTCCCCTGGGACGCAGTCTGTCTCATTGCAATGGATCAATAA
ACCTAATTTTATTACACTACAGGTATATTCCTGGAAGTCTTAGACAACTGGGCTAAAACAAAAATATTCAACATCCATTCTTAATTATTAAATTAGTTAC
TAAAATAGGATAGACAGATGTTATTTGGCCATAATTTTATATACATGTAAACAAAAGCTAATACATACCTAATGATGAAGAAACAGAAGCATTCCTACTA
AAGTTAGGAACATGAAAAAAATTGATTACTATCTATCTTATTTTACAGTGTTTTAGAACAGGTGGCCAATCCAATTATACAAGAAAAATAAGTTATAATA
TTTAAAGAAATGCCAAAATTACTTTTATTTGTAAGTGATTATACACCTAGGAAATCCATGAGAACCAAATAATAATAAAGTATTATGGCCAGGCGCAGTG
GTTCATGCCTATAATCCCAGCATTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCCATC
TCTTCTAAAAATACAAAAATTAGCCTGGTTTGGTGGCACACACCTGTAGTCCCAGCTACTCAGGAGGCTGAAGCATGAGAAGTGCTTGATCCTGGGAGGC
AGAGGTTGCAGTGAGCCAAGGTCGCACCAGAGCACTCCAGCCTAGTGACAGAGCAAGACTCTGTCTGGAAAATAATAAAAATAATAATAATAGGCAGGGC
GTGGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCAAGTCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCTTGACAACATGGAGAAACT
CCATCTCTACTTAAAATAAAAATTAGCCGGGCG


SNP Information

Context             (SEQ ID NO:55611):
AATACAGAAAAGAAGAGGCAAAGGGGCCGAGATGGGATACAGACCTGTATCACACAGGTGTGTGCACATTCTCATTTAGAACTGGAACAAGGGAGTCAGA
Y
TTAAAATTCTGGTGCAGATTCCAAAGGTGTTCTCTGAGGAAAAGTTCTTTTGTTTGGAGATGCCATGTGTTACAGCACAGAAATTGATCAACCTGGCTTA
Celera SNP ID:            hCV155206
SNP Position Genomic:     7639
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55612):
GCCTCATGATCCGCCCACCTCGGCCTCTCAAAAGTGCTGGGATTACAGGTGTGACCCACCGCGCTCAGCCCACATGGGCTCTTTTATCACAATTTGTGTG
K
GTGTGTGTGTGTGTGTGTGTGTGTATGTGCATATTATAGGTGTGTGTAGGAAAAAGAATGTTAGAAATGTACCAATTTTGAAGGCGTAGACTATGAAATT
Celera SNP ID:            hCV26218262
SNP Position Genomic:     6149
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3|-,6)   total(G,3|-,6|T,3) 
SNP Type:                 UTR 5


Gene Number:                 299
Celera Gene:                 hCG1766793 - 66000115828236
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VSLS(1576842..1610398)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12459):
CTCCAGGCAGTGTCTGGGCCCTCAGCTCCCCCTCCCTCCACCTACCCCCTCACACCCACCACTACGACCCCACGGGATACCCAGCCCAGACGGAGGAAAC
ACCGAGCCTAGAGACATGAGAGTTGGAGGAGCATTCCACCTTCTACTCGTGTGCCTGAGCCCAGGTACGGGGCTGGGCAGGGGGCAGGGTAGCCAGCATG
AGGCTAGGTGGGAAGGAAAGGGGCAGCAAGGGCTCACAGTGGAGCCTGGGGCTGCCTGAGTTGCCTGGCAGGGTGCTGCCCACCCTTGCCCTGCTGCAGC
CGGGTGTGGGTATTACCAGGGGACCTTTCCCCAGGAGACCCTGTGCCTGATGTTCAGGGTGTGTGTCTGTAGTGCAGAGGTCTTTGAGTGGATCTTTATA
TGTCCCCTGTCGGGCTCACACATGTGTGCAGGTGCCCTGCAAGCTCATGCCGTGACTAGGAGGAGAGGGATTGATTGCTCTGCAGGAGCTGGAGGTGGGG
TAGGAGAGGGGTAAGCACGGGCATTGGGTGAGGGCTCAGGAGGAGCTTGGGAAGGATCAATTTTCATCAGACTGTGTGCTATTCCCAACGCTACTCCTTC
TCTCCCAAGGCCAGGGCCAAGGGGCAGGGAAGTCACTTGCCTTGAAAGGGCAAGAGACTAAGTCTGGTGTAAGTCTGAGTGGTTTCTTCCATCATGGCCA
GTGACAGCTCAGGCCTGAGACCTCAGCCTTGGGCCCCCTGTGCTATGACAGGGCAGTGCCCCACTCTAGGATGAGGCCTGAGGGTGGTGGGGATGGCAAC
TCCAGAGACTTCTCACCCCACCAGGACAGGTCCACAGGGCAGGGCTCAAGTTTGGACATTGTGGCTTCCTGCCCAGGTTGGGGCAAGTTCCACCAAGGGG
CATTCTATGCCAACATCACTGGAAAGGGCTCCGAGTCCCTCTTGCAGTCTGGATTTGGGATGAAGGGGCATGAAGGAGGAATTTGGGAAGGCGGGGTGAC
ATTTTCAGCCTTTGTGTGAGCGTGAATGTGTATGTGAGTGTGTGGGTGCGTGCACCCGCATGGGAATGATGACATTTCCGGCAGGATAGCTGCAGCCCTT
CTCTGTCTGATGAGAGCAGGGCTGGCAGAGTCCACTCGGGAGGCTCCAGCTGTGCTGTGGGGACCCGGACTTCCCCCTGTGTGGTGTGTCAATGGGTGTG
TGAGGACAACTCAGCACTGGCTGCATTAACGCATCAATACCCTCAGCTGGAGCCGCCTTTTCTCCCCTCCCTTACCTCCAGAGGGAAGATCAGGAGTTCT
GGAAGCACCTTGAAGATTCAGAAAGAATTTGCAAGCAGAGAGTAGGCACCACTATTGAGATGACACCCCGTAAAGCATGGCCAGTTTCTGGTGCTTTTGG
GGGGCAAAGAATCACCACTGTCCTCTTCCTTGGAGAGCCCATGTGATTCCTCCATTCCTGTCTCTCCTCAAGTCTCCCATCCAGCTCTCTCTTCCACTTT
GCCTTTCTTCCCTCTCTCCAGCCTCTCCTCTCACATTCCCTGTAGTACTTCCTTAGTGCTACAGCAAGAGGAATCAAGGTGAGACATTAGGAGCAACTTC
CCAAGGAGAGGGAGGGGTGCGGAAAGGCTGGAACCCTTGGGAGGAGGTTGAGAAGACTTCTAAGGAGATAGAAAAGCTGGGTGAGGCTCCCTGGTCTGGG
ACAATTGAAGAATCTCTCAGCCTGGTGCAGGGTGGAGGTGCTTTTCTTGCAGCCTGTCGCTCCTTCCCAAGCCCCTCTCCCTGAATGCTTACCATCCTGC
CTGGCAGGCTCCTATGGCATGGAGAGAGTCCTTCCTGTGTGGGTGCTTCCAGCGGTGCTTCTCCAGGGTGGAGCCTCTGCTCTCAGCCGAGTTCTGGCTC
ATCCCTGGCTTGCCTTGAGCAGCCTCAGGATCTGGCAGATGGCAGCAGGATCCTTATCTCAGGAATGAGCTGTTGTTCTCTTGGCCTGGAGCTGGAAGAG
GCATCACTAGGTCCCGTTAGAGCCCCAGCAGTCAGCCTGCCTGCTCTGGGTCACCTTGGAGTCTAGCTGGGTTATGACAGAGCTGATGGCCCAGCCAGTG
TTCCTAGGGGGGATGTTCAGGGATCCCTGAGCTGTTGAGGGTGTTGAAAGGGCCCTTGCTGGCCTCTCTGGAGCCAGGCTAAGCCTTCCTGGCAGGGCTT
CCATAGATATGTCTGGTCTTGAATGAACACATACAGGGACTATATGAACACACGGTGGGTGTGTCTTTTGAATTAATATGTTCTGTGTTTGTGTGCAGAT
TGTGTCTGTGTCTGAATGAATCTATATAGTGTCTGTGTTTGTAGGAAGGTGGGGCCATATAGGTATGTATCTGCATTTTGAAGCCTTGTAAGAGTGGGCC
ACGTGCCGATTTGTTTGCCTGTGATGGTGTAATTGTGTGTGTGCATGTGTGAGATCTCTATGTGTAAACATGGTCCTGAGCCACATGATAGAACAGAATG
ATTGCTGAGACCTGGGGCTGTGACTCCAGAAGACATGTTGACTCAAAAAAGAACGCAGACGGAGAGTGTGTGAGGCCTGGTGAGGGGCCTGCAGAGGCAG
GGTTGCTGGAGACTGGGAGGTGGAGGGCAGAGTGTCCAGGGTGGGGCCCTGGCTACACCCCCCGGTCTTATCCCTCTCTAGGTCCAACCGGTTGGGGATA
GGCCTGCCTGGGGCTTCAGGGTAGGGAGGGACAAGAGCTCAGTCCTGAGCTCCTGGGTCCTGGGATCCTGGCTCCTCACCCAGGATTGCCTGCCACTGAC
TCAGTGGCAGGAGGGGCCTCACTGGAAGCCAGCTTGTGGGGGCAGCTGCATGCGAGCCACACAATCACATAAGAGGAAGCACACACAGTACGCAATGCTG
TGTAGTCAAGAAAGACTCACAATGTCCTACAGATACCTGTGGCCATAGTCCCAGGCACACACCATCACTCACTATCACACACGAACACAGCCAGGCTCCT
GGTCACAGCTGTCCACTGTCATGCACAAGCACACACTGTCACTTTTAAGCACTTACATAGCTCACATGGTCACACATCACTATACAAAACCACACAGAGG
CATACAGCCACAGACTCACACTGTCATACACAGACACACATAGACACACTTAGTCTTTGGCTTCTCAGGCTGGAGAGGAGTCCCAGAAGCCATTGTAACC
ACCCCGCTGCCTCTGGACAGGAGGACTTCACTCAGCCCAGACAGAGCCCACATAGGTGACATTTAATCAGCCAGGCTCTTCTATCAGAGCATTTAACAAC
TCTGTGTGTACCACATGCCTTCACACACACAAACACATCCACACTATCATATAAATATATAAGCAGACACGCTACGTGGTCATGTACATGAATATCCTCA
CAGTACACATAAGCAGCCACAAATACTCATAAGCATACAATGTACATACGTGTACATATTCATACATGCATACACATAATCATATATACATACAAGCATA
CATAACAGCTACATATATAACAGCTATATGTATAGCTGTTATATGCCTGTGACAATTCATGCACACACACATACACACCCACTACGAGCAGCCCTCCTTT
TTATGAAAGCACTGCTGACCTCTGGGTGCCGTGGACAGAGAATATGAAGGGAAGGGCTGACACTGACTCCTCCTGAAGCCTTGCTTCTGCTCCTACCACC
CCATCTTCTCTGCCCTCCCCCTAGCACTGCTGTCTGCTGTGCGGATCAACGGGGATGGACAGGAGGTCCTGTACCTGGCAGAAGGTGATAATGTGAGGCT
GGGCTGCCCCTACGTCCTGGACCCTGAGGACTATGGTCCCAATGGGCTGGACATCGAGTGGATGCAGGTCAACTCAGACCCCGCCCACCACCGAGAGAAC
GTGGTGAGTGCTGGGCACAGGGGTCTCCTTCCTCTAGGCTTCATGATGTCTACCTGTTGGACAGCCAACATCCCAAAGGGAGAAGACTGACCTTGAACCT
CCCCCAAGGCCTTTCAGGGAATGAGGCAATGGGGATGAGAGCTCTGCAATTGTGAATTAAGCTAGCCAGTCAGTCTACCTCCTCCCATCCCATTCTAAAA
GGAAGATAAGTTGTAGTCTTTGCCTTCAAAAAGTTCCCAGTCTGACCATATATCTTTCCAAGTGCTTGATCTCACCTGATCTCACCAGTTCTGTAAGAGG
TCAGTGGCTCAGGCATCATTATTCTCATTTTTTCAGCTGAGAAAAGAGTCTCAGAGAAGTTCAGTGAATTGCCCAAAGCAGCCAATCCACATGGCCCTTC
TTGGCTCTGCCTGTTTCACCACCTGTTTTCCTCTCCTCTTCACAGTTCCTTAGTTACCAGGACAAGAGGATCAACCATGGCAGCCTTCCCCATCTGCAGC
AGAGGGTCCGCTTTGCAGCCTCAGACCCAAGCCAGTACGATGCCTCCATCAACCTCATGAACCTGCAGGTATCTGATACAGCCACTTATGAGTGCCGGGT
GAAGAAGACCACCATGGCCACCCGGAAGGTCATTGTCACTGTCCAAGGTATGGCCAGACTCCTCTAAGCTCCTCTCCCCCTGGCTTAAGAGCCAAGGGCA
GCTTGGCCACTTTGAGCCTGGCTCTGTCTCTTGGCTGGGCCCTGGCTTACAATTGTCTGCCTCCTTGCAGCACGACCTGCAGTGCCCATGTGCTGGACAG
AGGGCCACATGACATATGGCAACGATGTGGTGCTGAAGTGCTATGCCAGTGGGGGCTCCCAGCCCCTCTCCTACAAGTGGGCCAAGATCAGTGGGCACCA
TTACCCCTATCGAGCTGGGTCTTACACCTCCCAGCACAGCTACCACTCAGAGCTGTCCTACCAGGAGTCCTTCCACAGCTCCATAAACCAAGGTGAGAGG
GCCCTGGATGAGGGCAGTCGGGGGTGAGTGGAAGATCAGGGACTCTGGGACCTGTTGGGGTTTCCTTGGGTTATCAGTGCCATCAAATCAAACCTGGAAT
CCCTGTGGGAGACCCTCCCTCTGGGCCTGCCCCAGCAGCTGCTATTTTTTTTTTTTTTTTTGAGACAGAGTTTCGCTCTTGTTGCCCAAGCTGGAGGGCA
ATGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCTGCCTCCCGAGTAGCTGGGATTACAGGCATGCACCACCG
CACCCGGCTAATTTTTTGTATTTTTAGTAGAAACGGGGTTTTACCATGTTAGCCAGGCTGGTCTCAAACTCCTGACCTCAGGCGATCCGCCCGCCTTGGC
CTCCCAAAGCGCTAGGATTACAGGCGTGAGCCACCGTGCCTGGCCCAGCAGCTGCTATTGAGAGCAGATGATAAGGCAAATGTGGAGAGTCAGTCAAAAG
TACTATGGCGAATTTGGAGGGAGCCTGGTCTCAGACAGAGCTGGGCTTGAATCCTGGCTGGGACACTGACTGGCTCCAAGTTTAAGGCAAGTGGCTTACC
CTCCCTGTGCCTTAATTTCTTCATATATGGAAAGGGAATACTAACATATACCTTTCATGGGCATGCAAGGATTAAATGGGGGAGGTGTGTAAAGCTCCTA
GTACATAGAGAAGCTGAAAATATTCAGTCAAACAAAGAATAATAGAGCTAGGAGGGACCTTAGAGTTCCTCTTCCCCTGGCTTCTCCTGTCCTCACTGTA
CAAAGGAGGAGACCAAGGCTCAGAGAGCGTACATATTTCCCTAAGGTCAGAGTGAATTAATGGTGTCCCTGTCTTGCTGCTGGGAGAGAGGTCCTTTCTT
GCATCTCTTTCACAGCAGGGGGAAGGTGACTCACCTGGAGAGTGGAGTGTGTGTGTGTGTGTGTGGGTGTGGGTGTACACACATGCATAAGCCTTCCCTT
CTTCTAGAGTGGGTGTCCCATCCCCCACCCCACAGGGACTGAGGTTGGGGTGGGAGCTCTCAGAGACCAGGCCTCTCTCCACTTCACTTTCAGGCCTGAA
CAATGGGGACCTGGTGTTGAAGGATATCTCCAGAGCAGATGATGGGCTGTATCAGTGCACAGTGGCCAACAACGTGGGCTACAGTGTTTGTGTGGTGGAG
GTGAAGGTCTCAGGTAGGTGCAGCAGTCTTGAGGGCTGGGTGGTTGGGAGGGTTGAACTGGAGGAGGCTGGGCTCTGGTTTGGAGCCTCAGCTGCTTCTG
CCTTTCCACTGCCATCCATTTGCCAGTGGGGGCTCCCAGCCCCTTTCCTACAAGTGGGCCAAGATCAGTGGGTACGATCTTGACCCTATTGAGCTGGGTC
AAGCTCGCCCAGCACAGCTTCCACTCTGAGCTCTAGAGCCCAGAGCAGCTGGAAGCCCTGGGAGAAGCATGCTGACACRAGGGGTTAACTTGCATCTCCC
CATATCTTCCCCACTGGGTGTTCCAGGGCTAAGAGACCCCCTGGGTCCCTCTCCCTCTTTCCCATTAACCCCTGACCTGGCACCTCCTGGTGCTGTTCCC
TCAGGCACCTGCCAGGCTGTGAGAAAGCCTGACCTGCCTCCACTTCTCTCCACAGACTCCCGGCGTATAGGCGTGATCATCGGCATCGTCCTGGGCTCTC
TGCTCGCGCTGGGCTGCCTGGCCGTAGGCATCTGGGGGCTCGTCTGCTGCTGCTGCGGGGGCTCCGGGGCTGGCGGCGCCCGCGGTGCCTTCGGCTACGG
CAACGGCGGCGGGGTCGGCGGAGGGGCCTGCGGCGACTTGGCTAGTGAGATCAGGTAAAACCTGATGCATGCTGCATGCTGCTGTGCGGCAGGGAACCGG
CGCCCTGCCCACCTCACTCCTGCCTGCCACCGGCCGGCTGGGCCCCCCACCCCAACCCTGCCCGCCATCGCCACGGAGTGCTGGGACTGCGGCATGTCGA
CCTGCCACCCAACTCATGGCTTTCCCCTCCCCCTGCCACCCCAGTCTTCACCTCTGCTCCCTGCCTTCCATTTCCCTCCTGCCTACGCACCTGTCTGTCT
TGTCTAGACTGTAAGCTCCTGGAGGGCAGGGCCTATGTTTTTTCACGTTTCCCCTGTACTGCGCCGGTAAGAACTCTGACATTATTATTTAAGAAGAGCT
AATAATAAGAATAGTGCTAATAACTTATATTAGAAGCAAACTAGAAATAAAAATAGAACAAGTCTAGTAGTGCTAATGATTGCAATGCCTCGGGGATGGA
GGGAAAGATGGAGAAGACTGAGGGGCAGGAGGTGAGAAAGAGAGAGATTGCTCGAGCAAGGTCAGGATTAGCTAAGGAAAGAAGAAGAGGAAAAGCACCT
TCTTCTGGGCCTGCGAAACATCAGAAAGGGATTGCAGGGGCCTGGAGGGGGCTGCCTGCAGGGCTSTCCAGATACGCGTGGACAAGCCCTGTCTGGAGGA
TGGGGATGCTGGCTCCGGGACCGCTGCAGGGTCGCCGACCCAGGAAGGGTCACAAAGGASAGTAGGTCGAGGCCGAGGGAGAGAGACGAGGGCAGGTGGA
GGGAGGCGCGGGAGACAAGAGGTTGCCAAGAGCCCCCGGCTCTGCCCAGGCCGTGCCCACGCCCCGCTGCGGAGCAGCCCGCTCACCCGCCCGCCTGTTG
TTTTCCACAGAGAGGACGCCGTGGCGCCCGGGTGCAAGGCCAGCGGGCGCGGCAGCCGCGTCACCCACCTCCTGGGGTACCCGACGCAGAACGTCAGCCG
CTCCCTGCGCCGCAAGTACGCGCCTCCCCCCTGCGGCGGCCCCGAGGACGTGGCCCTGGCGCCCTGCACCGCCGCCGCCGCCTGCGAAGCGGGCCCCTCC
CCGGTCTACGTCAAGGTCAAGAGCGCGGAGCCGGCTGACTGCGCCGAGGGGCCGGTGCAGTGCAAGAACGGCCTCTTGGTGTGAGCGCGCGCGCCGGGCC
GGGCTGCGCCCCAGCCAGGAGGAGGGCGCGGGGCTCTCTGTCTGCAGCTGGGGACACGTCGGGGCTGGGGACGACCTCGCTCGCCCCAGGCTGCCAGGCG
GCTGGGGGTGAAGGCATTTCCCTAAGGAAATGCGTAGGGAGGCAGAGCCTCCTCCCCAAAAGTGGGAAGGGGCGGGCGAGGGCGGAGGAAGGCGATCCTG
AGCCTTCTCCGCACCCCCGGGACCGAAGGCTTGGGGGAGAGGGAGGGAGGAGGAGGCTGAGTGTCCTAGAGCGGCTGAGGCCGGAGGCCTGGTGTCCCCA
GCCTAAGCAGAGGGCCCCGGGRGCCGGGTGGGTGGGGGTCTGTCTGGACGAATTGTTCTGTGTGTGAGGTCTGAGCTCTGAGGCAGCAGTGTTAGCACAA
TAAAGAAACATTGAGACGTGAGTCCGAAGTGGCTGTCCGCGTTCCACGGAGGTTGGGCACGGGGTGGCGAACCCTGCCCAGGGCCGGGGAGGGTTGCTTC
TGTCGCTCGCCTCGACCACGCCCCCTCTCCTCCCTCCTGCTTAGATCCCTGGCAGTCAGAGCTGGAAGGGGCCATCCAGGRCAACTCCTCTGAACAACAT
ACAAAGTGCAGATAAAAGGAAAACAAAGACAAAAAGAATTAGCTCAGAATATCTACGACCGTAAAATAAACTGAGGAACCGACAAAGTGCAATACACTTG
CCATTTCTAAATATTCAAAGTTTTCACATGTCAAGATTTTCTATTGAGAATAATGTGCTCTGAAGGTCTAGGGAGTCTTTGTATGTTGCTGAAAGCTAAA
AGGAAACCAGTCCTTGGAGCACAGAAGGCACAGGCATCCGGTGAGACAGAAACAAGGACATGTGAAAATAAGACTACAACCTCTTATATTAAAAAACTAA
GTGCCACAGTTCTAGGGTGCTGGGTGAAGTGCAGGAAGGAGGGGGAATAATATTTATATAGCATATATTATGGAACTCGGAGAGTATGGTAAATCCCTTC
ACCTAGATGCTGCTGGTGTTTTAGAACAATTATTTTTGTGGTTCTTTTTTTTTTTTCATTTGTCTGCAGTTGGTCAACTTGTGCAGAGCCCATTCTGCAG
GAGATGTTTGAGAAATACCAAGTGAATGAGTGTGGCAGCATTACTTTATGCTAGAAAAAAAAAGTTTTTAGATATTTTACAGTTACTGCCTTATGATGGA
ATATTCTGTGGTGAGAATCTAGGCCTTTCTGAGATCCAGCTCCACGTTCTTACACCCTGAAGTAGTCAGCCACTCCTAGATAGGGATTAATTGAGCTATT
TAGTATTTACCAGCACTTGTTTTGTTAAACACCTTGTCATGATATTTACAATGTATTTTGGGGGATGTTTTAGTCATTTTTGGTTCAAAAGTGGAAATCA
ATAAGCACTGTTTTTGTTAATAGGCGCAAGACGTCCTCTCTTGTTTAGTGAGATGGGGAGTGCTTAATTGAAGAGTAATGTTTGAGATAAAGTTCCAAGG
ATATATTTGCTAAGCAAACAGTAAGTAAAGTGGGCAGTGTTATAGATGTTCCTTTGTTGATAAAGGGACCAGGTGGTCACACAGCAAGGAGGGGGATGCA
GACAAGTAGACAAGCTCTACTAATCCTTCTTTGTTCAACATCATCTCTGTTGGGCATTGGAATCTACTTTGCTAATGCAATGCCCACTTGCCTATAATTT
AAGAATTTCTAATATGGAATAGAAATGATTAATAGGAGAAGCTTGGCTGGATTAATTTCCTGTGCTGAGAAAGATTAAACTTAAAAAAAAACAGTTAGGT
CCATCCTAAATGCCCAAGATTTAAGAAGGAACCTCATAGTTCAACTGGGTATTTGAWGAATGTGAATGATTTTGTATTTGATGAGCYGATGAGGACAGTA
TAGTGATGCAGAGGGTAGGTGCTTGTACATCTGAATTGTCTGGGCTGTTTCTTATTTTATATGTAATTTATTTGTATTTAAAGAGTTCATTTTATGTTAG
ATTATTTGTGCTTTGGTAGCAAAAATATATTTGAAAGGGTAAGTTCCTGAAATCAGCAGTTTCATGTCTGCTAGGAGACAAGTATCAGGAAAAGTAGTGT
GGGTTCTATCATTTCCATGCTACAACTTGGATGGTGTTACCTTACCACTTTGGTCCCTTGTTTCAGGGATGTTAGAACTTAGCTTAGACCTTCCTCAGAA
TCCTTTTGGACTTTGTGTTTCATTTGTTTGGCCTGCCTTGATTTTATTTGGTCATCCTTCTTGATTCTTTCATATTATTTGTTTACACTTAACTCTGGAA
TATTTTGRTGGTTGTTTTCAATGTACTGTAGGTCTTTAAATTGGTTTATAATGAATTATTGAGGAGAATAGCAAGTTGTTGACATTATATCTGTCTGTAG
TAACATTAGAATATTTCCATTTCAATTTGTTGGGCAATTTGCTTGTGGAAATATAAGATGTTATATTTAGTTCTATCAAAACCAGGATCTCAATATTATT
CTTTTGGCAGGTTGCTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTCTGTCTGTCTGTCTGTCTGTCTTTGATTTTTTTCCTTCATATTTTC
CCCTTAATTCGGTGTCGGTCAATACTGTTGCTGTTTCACATCCATTGTCACATAAAACTAGTCATCTCATTCTCCCAGGCCCCCTGTCCTTGGGAAGGGA
TGTGCACTCTGCAGGTATTAGTGATTTTATATAGCTGCATGAGTTGCTGGGAAAGGCCTTGGCTGGATYTATAATGAGCTGTGTTTACTGAGCATTATGA
AGTAAAGTTCAATATGATTACTCTGAAGTCTGACCTAAAAAAAATSCTACTCCTTCACTATACAGATAGGGAAACTGAGGCCCCTCAGGCTGGACTTTAA
ATCCCCAATCTTACTTTTCCATTTTATTCTAGAAGGTCAGTTGAGAGGAAACACGGCTCTGTCATGGATGACCTCTAAATGATCCCTGACCATTCTTAGC
ATCCTTCTTTCTCTTCCCCTCATTGACCTAATCTTGACTTCTTTTATCTCTTTCAGATGTATGCCTTCTTTCTTAATAGCCAGGAAGTGTTTTAGAGTCA
TACTCTCTGGTGTAGAAAGACCTTCAAGGCCAACTAACCCAGCTCCCCCTTTTGGTGGGAAGGGGATTGGCATTTATTGAGCACCTATTAAGTGTTAGGT
GCTTTTTGATTTTTTGTCTTATTTATTCCTTACTTTAGTCCTATGAGGTTGTGTATTATCCCCATTATACAGATGAATAAACTGAGGCTCAGAGGGATTA
GGTATCTTGACCAAGGCAACAAAGATAATAAAGATAATTCAGGATTTGATCTAGGCATGTTTGATTCCAGGACAGCAGGCTGTTTCTCTGGCATTTGAAT
TCCTTCTATAGCATTCCTGACAAAGGGTATGTAACGTCTTCTTGACAACCTCCAATGGCAGCTCACTACCTTCCRAGGCAGGCCACTTGGCCTCTGACTG
TCAATATTCAACAGAACATTTCTCTGAACCCGGTTTTTGTCCCCATATAGCTTTTATCCCTTGATCCAAGTTCTACTCTTAGGGACCCCAGAGCATTGTA
TTTCTAATTCAGCTGCCTCTAGTGGACAAAGTGGTTGCACTCCATACAGGATGGCTGCAACAGGGACACAACTGGACACTTGTCTGGTCTAGTTGGTAGG
AGGTGTTCAGAAGAGCACAGTACTTCAAGGTCACTTCGTTCTACTTTCCTTTCCCCAGCTGCTTGCTTGTTGAGAGCCCAGCCTCTTTCTTCTCTCTTTG
TCTCTTTTCTCTTGAGGAGAAGCTAGTCTTCCTCATTTTTCCTGCTCCTATTCTAGGGCCACAGGAGGTGTGGGGTGTGCATGGGCCTCAAAGTGTCTTT
AGGAAGCCCCTAAACACTTCTTAGTAACACATAACTAGGAAACCCTCAAGATGACTTGGGTATTTGCAAAGGGGTGATGGCATTGCCAGCTCTGCTTTTA
TAGAGCGTGCTGAGAGACATGAGAGATAGTAATGAGGCAAAAGGAACCAGAGACCACTGTCTTGGGGGTGGGAAGGTGGGGAGTTCTTGGGAATGGGAAG
AGGTATAGGGAAAGGACGTTAAATAAGGAGAAGAGCAGAGAACTCCAGGAACCATCCATCCCTTCATTTATTTGGTCATATTTATGAGCACCTATAAGAC
GACTTGTCATAGATGAAGAGATCTTCAGCAGGGCACTGTGCCTGGCATATTTTTGCCCTAAGGCAAAATATCCCCTAAGGCAGGGGATGGTATAGGATGA
CTTGGGGAGGGTGCTCCCTGTCTGAGGAGCCTCCAGCTTAGCTTCCTGAAAGGTGCTGAGGGACAGAGGCAGCCAGTTGGCTGTGCAGGTTGTTGAATGA
TATAATCTTCCCTATTCCAGGAACAAGGGAGCCATGATCAGACTTGGCCTCTATTTGGGGGGTGGGACCAGTGAGGCTCTGGCAAGAAAGGCTCACTAAA
RAGCAGCAAGAGAGATTTTATAGAGACTCTGAGAACAGCTTCCTGTTAGGGTGAGTCAACAGGGAAGGTAGAGATTTCCTAAATCCAATGCTGAGATCAC
AGTCGTCACTGTACTTACCACCCCAGGAGAACGAGGGAAGGAAGTTTCTGTTTGAACAATTTTGCTTCAGGGATGCCTTGGTGTTTTTTGTTCATTTCTC
CTGCATGAAACCTTGTTCAGTGCTGGAGGAGAGCACTTGTGGTGACATATGTTCAACAGTGGCTTTGGGAGTAGGGTGTAGGGTGGGGTAGGGACTGGGA
AGCCCTGATTTGTAGCCTTTGCTGATTTCCATGATGTCAATGCTTCCACTATGGCTGAATTCAAGCTACCAACATGATGTGACTGGCATGGAATTGGGAG
AAATGTTTAGTAGCACATGATTGTATAGTATTTCCATGATACAGATACAATGGAGGAAGTAAATAACTTTAAGAGCTTAGGTAATAGTGAACTGTAGTAA
AGTCATCAGGAAGTGGTGAGTTTTGAGTACTTATCRCCTTTGTTTTAATATCATTTAATTATAAATGTATGTAATTTACTTTTTAATAATGGCTGCATTT
AACAACTGGCTTGGGAAAGTTAGGTGGACCATGTCACCCCAGGCAAGCAGAACGCTGGGCACACAAGTGTTGCCTCAAGAATGGAAATCTCAAGTACATC
TTGATTTTTCTCTATTTTTCTAGAGAGATGCAAACAGCACAAAGTTATGCTACTTCTATTAAATACTACATAAATTGTCTTCATCCTACTTCCTAGTTCC
GCCTTTTCCRTCTCTCCCCCGCCTTGCTGGAGCTGAATTCTGGTTCCTCAGGTCACTGAAGAATTATTGAGAGAATTTGTATCCCCTTGGTTCCAGGTTA
CTCTTTTGATAGCCGTCAGAAACCTGCGTTGGCATCCACAGAATTTGCCTACATTTGTCTCCCAGGGCATCTAGCCATGGGAAATCTATTCAAGAGATGC
CTGTGAGTCCTCATTGTTTCAGTTCCTTCTCTGACTCTCTCCCCAGGCTCTAGGAAGTCATCCTCTAGTCATCTTCTCTTAAGCCCCTAATTCCCAAGAC
CATGAGTCATATGGAGTCCCACGGAATTTTCTTCTGTGTGCTCCTCTTTTGTTTTCTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTG
CAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTTCTGGGTTCACGCCATTCTCCTGCCTCAGCCTTCCGAGTAGCTGGGACTACAGGCGCCCGCCAC
CACGCCCAGCTAATTTTTAGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCAGGGTGGTCTCGATCTCCTGACCTTGTGATCTGCCCGCCAAAGTG
CTGGGATTACAGGTGTGAGGCACCGCACCCGGCCTGTGTGCTCCTCTTTGAGTAACTATTACCATGTATGCTGCTCAATTACATTTCAGCTACTCAAGGC
CCAGTCAGACTGCRGTGACTCTGGGGAGGGGTTAATAATAATAATTATTATTATTTTGCCTCTCTGGGAACAAGGAAGTTTTGGGAATTACCCAATCATG
ATCCTTCCAGAGTTACAAAAACTACTTCACTCCTATGGGTTTAGGTTGGGGCCTGCCTGGAGGCAGGGGACTGAATCTGTAGCCCTGTCCACTAAGCTGC
CCAGGGAGTCTCCTCATGGCTCRTTTCCCTGATTTGGTGGGAACCTGGGAAACCCCTGCTCTGGAGTTAACAGTTAACATTCTGGAGTTAACTCAACGTT
CATTCAGCCCATCTGGAGTAACCATTTTATTTATTCCTGGTGTATGGAAACAAAACTGATTCCATTCAGTTCTTTGCAGTTAGGTTGGGAAGAATGTGCA
GYAGAGGGGTGTGTGGAGGACATGGGAACTTGCAGACAAGGTGGGGATAGTGGCTACTTTGGGGAATCTGGAGGAGCTGGGCGTGGTCATTGTGCCTGCC
GGTGGGGAGTGGACAGGATGGCCTTCTGCCACCCCTCTGTGGCCATTGCCCTCCCCAGTCTTCTTAGATGCATTTCAGCAGGATGGGCAGGATGGGACAC
TGAGCACCAAGGAGGAGACTGAAGCCTTGACAAAGGCAGGAAATTGAGCAGAGGAGGATGGGGTGAAACTGCTGATCACATTGTCGCAGAGGCTGAGTTT
GAGGTGATAGTGGACTCCTGTGTAGGTTTCTTGAGGAATTAAAGAAGGGAGGAGGAAGAAAACTTGTAATACATGTTTGTGAGTTAACCATGTTCCCATC
TGCAAAGAAAAAAAGCTTCAGTTTTGGAGCCAGACAGATGTGGGTTTATAGTTATTTAATAAGCTTCCAAAGCCTCAATTTCTTTGTCTGTAAAATGGAA
TAGTAATAGGGCTGTTTTGTGTGACAGGTATATTACAGAGCCTGGAACATACGGCTCAGCAAATGGTTGATCCTCAACCCTCCACACCCCTAGAAAGTAA
TTGCATCTCTCACAAGAGGACAGGCCTGGAGGCACGGATCTAACCACACAGAGGTCAACGGCAGAGGCTGGGGGAGTGGGAGGTCCACAGGGAGGGGGAC
GGAGTACAAAGAATGAAGCCTTGGGATTGAATTTGGAGATGGCTCACCATCTGGGGGAAGAGGCAAGGAGTCCAGAAAGCCACCAGTAGAGAAGGAGGAG
AACCAGGACTTGCCTCTGAGTCCTGGAATCCACATGCAGGTGTGAATAWTGACAAGAATCCTCACTAGTAATAATAATCCTAATGATAACAGGAAGCACC
TGAAACACAAGCTCGACAGGGTCCCAGAGTCAGTCTGGGGATAAGCTGCCAGAATCCTCAGGGTGGCCCACCTGGGCCAGGGTGYGTTCTCCCGTGCCGT
TTCCCATCTGCCTGACCTCAGTTCCTGGCACTCAGGCCCCTGATGGTCTCCCTCTGAGCCCAGGGCTCACTGTGGTGCCCTCTGTAGCCCTGACTTTGAC
AACCCCTCCCAGGTGGAGGGTCSCTCCTGAAGGGTTGCCACACAGCTTTCCCAGAGCTGAGGAGGGACCTTCCTGGCAGGTGTGTGGGTGGGAGGGCACA
TAGATTTTCTTCACCGTTTTTGGGAGAATTCATTCAGCCTTGGAAGTGAACTCCTTTAGCCCAATCCAGGCCCCACTTCTGGCTTGCCTCTGGCCTGGGA
AGCGTCCTCCTGTCAGTCCCTTCAGATGCCCCCTGGTCTGCCCCCTTCTTCTGCCCAGATGCCATCTGCAGCCTTGTGGCTCTTCCCTGCAGTCACTCAC
CTGAACTGGCTCCTGTGCCTCCCCAAACACTGGGGTTGTGGCTCCAAGTCCCTGTCCCAGCACCGTCCCCACCTCACCTCAGCCCTTTGCCAAGGCTGGT
CCGTGAAACTCCCCTACCTCTCTCTCCTTGTCCTCTTTCTTCAGAAAGGCAGACTGACCTTACCCTGTCCTCTTATCCCAGTCTCTTGCCTGCTCCCAGA
CAGTGTTTGTTATCCTCACCCTGTCTTGGGAGTATCCTGTTATCCTCCCATTTCCATCAGACTAGGTTTACCCCTGAGGGCCGGGGCTGTGTCTCTTCCC
TTCTCAACATCTACTTTCTTGAGAACTCAGAATGCCTCTCTGCGCTGACCTGTCTTAAAATTAATGTGGCGGACAAAGTTTGTATTAGAGACTGCTCCCT
CAGCTTAGGGAGGMGTCTAATGACAACAGCTAATGCCTGTGGTTACCTCCAGGACATGAGGTGGAAAATGCCACGTGTGTTCTCCCAGATCCTTCTCAGA
GGTGCATGTGAACATTGCCCTCCCCAAGCGCGCTCATCACCTGGTGAGCAGAGTCAGCCAGGGCCTGGGGAACAGCCTCACAGGWGCTCTGGGCCTCCCA
GGCATAGGGCGTGGGCCATGTCAGGCTCAGCTCTGCAGGATAGGTCACAGTTTAACAGACTCTGTTGAAAGCTCTTTCCTGTCCCGCATGCAGGCTTCTC
ACTCACAGTTTACTAAGGACTTAAAGGTAGGCCATGTTTGTGATCACTGCCATGAAAACATTGAGCAACAGATCCTCGGTCAGGAGMCTAACCTGCTATY
ACAACGTTGTTCCTGTGGGGAAATCTGCTTCTGTCTTTTCAATAAACATTAGCCGTCCCGAGACTGTAGCACACAGTCTGAGAAAGTGAGGAATGAGGAT
GGGAATAATCTCCTCCCCAGTCCCCCACCACCTCTCTACCTATTCACCTAAGACCTGCATGCCAATAATACCCAAAATTTATACAGCCAGGCCAGCCCTT
TCTCCTGCATTCCACACTCACATACCTGCTTAGATGTTTAACAGATGTCTCAAATGTAGCATGTCCCACATACTGCCTCTACCCYACCTATTGTCTTCCC
TGTCTCAGCTGATGGGGACTCCGTCCTTGTTTAACTCCTTTTTCTCTCTCACCACTCTCCCACCACATCCACTGGGTCACGAGGCTGAGCAATATATTGG
GTTGAATCATATGAAAATTTCATTTTTTAAGTGTAAAAATAGTCAAACACAGGTAATTTCATATGATTCAATCTAACAATTTAAATGTAAGATGACTTGA
GGAAGAAAAGTCATCTCTTCAGCTGCCCTGACTCCACCTCCTATAAGGACAACTGGGACATGCCTGTAACCTAGTAGATGTTGGCAGAGCTCCTTCAACA
TGAACTTGGGCATGGAGGGACTGCAAGACAAGAGGGCCTCCCACAGCACTCTCAGCCCACACTGGTCGGGGGCCATGGTGTCCTGGTCAGCTTCTCTACC
ACCTGGACTGAATCCTGCCTGCCCAGCTCCAGAAAGTCCTGAAACATTCAGGAGCCAAGGTTCAGAATGGCAGGGAGTGATGGAACTGCCTCAGCAACCA
TGGAGAACTGTCCTTGACCCCAACCCCTCTGAATCCAACCCACCTCATGCCTAGTCCTGCAGCATTCAGAGCCCCATATAGATTGTGGARGTGAGGCCCC
TGATGCTGTCTGAGGAGCCTTTCCAAGCAACAGGGGCAATGACTTGGCCAGGCAGGCAKGGTCAGACACAGAAGGGCAGTGCATCAGTCATTCCAAAGTT
GCTGGCTTCATAGATACGGTGATTGTATCTATTGGCTTTGTCTTCAGTGCAAATCCAGAAGCAAACCCTTCTTTCCTGTTACYTCCCAGCTCACAGCCAC
CCTCATCTCTTGCCTGGATTACGGCAGCAGTGTCCTGACTGATTTCCCTGCTTCCTCTCTCTCACCTTCAGTTCATTCTCAGCAGAGAAGCCAGAGGAAT
AGTTAAATCATTCTTCTGCTCAAACCCCTGAAATGGCTTCCCAAGATCAAGTTCCTTACACTAGTGCCCCAGGCCATCCATGTCACCTCTCTGACCTAAT
TGATCACTCTTCTTCCTGGCTCTCTCCCCTGAGCATSACTGGCTCTTCATTGTTTCTTGAACACCTTAGGGTCCTTGTTCTGGCTGTTCTCTTTGCCCAG
AATGGCTCTCCTCTGGATTTCCCAATGGCTTAATTCTCACGTCCTTCAAATCTTTGCTCAGTTTTCTCCCTCTTAGTGATGTCTACCACGGCCACCTCRT
TTAAGATTGCAGCACCCACCTGCCTGCGCTCCTCATCGCCCTTATCCCCCCCTCCTACACTGCTTTTTTCCCTTTAATCTGTAGCACTTATCCTCTTCCA
ACATGCTGTAACATTTATTTGTTACGATGTTTGCTAATTGACTTGTCCTCGCCTTTCCCCACACTGCAAGCTCCACAAGGAGGGGCACAAGGCAAGGGTC
TTTGTCTGCTTTATTCACTAATGTACTTAAGCTCCTAAAAAGTGCCAGGCATATGGCACACACTCAATAAATATTGTTTCCAAGAAAGAAAGGGGATGGA
GGAGACAGGCAAACTGCAGCAGGAAGAGCTAACCCCCATCTCCAGGAGGTGAGACTTTAGTAAGGAGCTGCCTATCTCCTCCTGGGTGGCTAAGAGGTCC
CTAAGAGGTGCAGAAGTTTGTCTGAACCCAGCCGACTGATTATACTGCCTGGAAGAGGAGGTGCAGATGTGGAATCTCTTGGCCTGAGAGTTTTGCCTTC
CTCAGTGGAGGAGATATCTGGAGAATGCCCATTTTGTCTAGCTGCAYGTTCCCCACCCTCTGAGTTAACCACTTCGTTAAAAAGTGTGTTTTGGCGATGT
GCTTACTGAGTGTCACCAGTAGGACTGTGTGTTAAACCTGATCCTTCTAGGAACATGGAGCCTTCCAAGTGAGATGATTAATCTCATTTAGAAAAATTAA
AGAACAATGCACACAACTGTTGATTCAGGCTCATGCAAAGCTGGGAGAGTTGATGCTATGAGACCACTTGAGGAAAAGGCTTCTGAGAGGAGGAGTGCCT
GGGGCTGAGCCTGGAAGTGATGGCTGGAGACCAAGATGGATAAAGAAGGATATTCTCAGYTGGSAGGCAGAGGGGGAAGCCTGGTTAAAGGGGCAGAGTA
CATGAGTATGTCAGGTGCAAGGGACAGAGAAGAGCCGAGTCTGTCTGGAATCGAGGGTGCTGAGCTGGCGCTGCCAATAGCTGAGTCATCTCCATCTTAA
GGCCTCTGAGGGCCCAGGTTGGCTGAGAGGGAAAGAAGTCTTCCAGCTGCTATGCTCCCCAGCAGGGGTGGGCATAGGGACAATCACGGTATCTATGAAG
CCAGCAACTTTGGAATGACTGATGCACTGCCCTTCTGTGTCTGACCMTGCCTGCCTGGCCAAGTCAYTGCCCCTGTTGCTTGGAAAGGCTCCTCAGACAG
CATCAGGGGCCTCACYTCCACAATCTATATGGGGCTCTGAATGCTGCAGGACTAGGCATGAGGTGGGTTGGATTCAGAGGGGTTGGGGTCAAGGACAGTT
CTCCATGGTTGCTGAGGCAGTTCCATCACTCCCTGCCATTCTGAACCTTGGCTCCTGAATGTTTCAGGACTTTCTGGAGCTGGGCAGGCAGGATTCAGTC
CAGGTGGTAGAGAAGCTGACCAGGACACCATGGCCCCCGACCAGTGTGGGCTGAGAGTGCTGTGGGAGGCCCTCTTGTCTTGCAGTCCCTCCATGCCCAG
GTTCATGTTGAAGGAGCTCTGCCAACATCTACTAGGTTACAGGCATGTCCCAGTTGTCCTTATAGGAGGTGGAGTCAGGGCAGCTGAAGAGATGACTTTT
CTTCCTCAAGTCATCTTACATTTAAATTGTTAGATTGAATCATATGAAATTACCTGTGTTTGACTATTTTTACACTTAAAAAATGAAATTTTCATATGAT
TCAACCCAATATATTGCTCAGCCTCCAAGAATTTGTTCCTTTTAAAGCCCCTCTTCCCTGATAATTAAGGATCAATTAACTTCTGACTTCACCCTAAAAC
TAACTCTTTCTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCAACACAACCTCCGCCTCCTGG
TTTCAAGTGATTCTCCTGCCTCAACCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCATGCCTGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTT
CTCCAGGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTAATCRACCTGCCTCGGCCTCCCAAAGTGCTGGGGTTACAGGCGTGAGCCACCACGCCC
AGCCAAAACTAACTCTTTCTGTATTTCCAGGTTTGGTAAATGGTACCTCCATCTGCCTGGTTACTCATGTCAGAGACCTCAGTGTCATCCTTGACCCCTC
CCTCAACCAAGGATACTAAGTCTTGTCTATTCTCTTCTAGCTCCTAAATATGCACTGAAGCCATCCACTTGTCTCCCTCTCTCTCCCCACCTTCATTCCA
AGCTATGATGGTTTTTTCCTAGGATTCCKGCAATAACTTCATTTTCCTGCCTTCACTCTCGGCACCTTCAATCCATTCTCCATGCAGCTGCCAGCGTGAT
CTTTTAAAAYGTGAGTCTGATCATGTCATTTCCTGTCTTAAAGCTCTTCAGTGGTCTGCTTTTACATTTATAATTAACTTTTAAATTCTCCATGTCCTAT
CAGACCCTGCATGATCTGACCTCTGCCGTCCTCTCCTCCCAGAGTCCCTCCTGCTCATTGCCCTCTGGCCCTGGGGACCTTCCCCCAGATGCTTACACAG
GCAGAGATCTTTCTGGAAGGGCTTTCATGGATGCTCATTCCCAGCATGGCAGCTCCTCCACTCTGCTTTGCTGACTCCTCCTCTYCCCACTGGCCTCAGC
TTGACTCTCCTTCCTCAGGGAGGCCCTTCCCTCTGTACTCCCGCCAGCTATATTTTGATCCCTTGTTATTCTGGCTCTTGGTTTTCAGCTATTTTCTTCT
ATAGAGATTAGCACAGTTTTAATTAAACATTTGTGTACACTTGTACAGTGTCTGTTTCTGCCTGACAAGTCTGCAAGATTCATGAATGCAGAGACTCGCC
TGTCATGCCCACAGCTCTATTCCTAGTGTGTCTGGCATGGAGTGGGTACTCACTAAAGACGTGCTGAGAGAATGAGTGCTGTGGACCCGCGAATCAGTTC
TCCAGGAAATCAGAGCCCGCTGTCCTGAGTGTGACTCCAGACCCACACTGCTGTGCTCCTTCTGAGCTGCAGCGAGAGCTGGGGGTTTGCTCTTAGTCAT
GGGGGAGGTGTCAGTTTCAGGGGGTGGGAGGGAATTATGATGGAAAAAGTCCAGGGGGAGGGGTCCGCATATTGAGGCCCACCCATAACATTTGTAATTG
TAAGTTGAGCTAACACATTATTACGTAAAATATGTTCTATTCTCCTAGCTTGACAAATATACCTTCACAATGACCTGGAAGGCCAGGTTTGGATTCAGAA
ATCTTGGACTCTTTGGGGTTTCATACCAGAACTCCCAGCATAGGAAGAACTGGCTCCCTTGCCCAGGCCTTAAATCAGATCCTTTCTCTTCTCACCTGCA
GCTCCAGCCCACACTGTGAAGAGCCTTGTGCCCACAGCTGTGCACATCCTGGGCTTCCTCCACACCTTGTCCATAAACTGCCCCTCARCTACCTTCAGAC
CCAGGATACAGGTAGGCATTTTAGTCCATCTTCAGAATTCCCATCTGTATTTCTGAAGTRTGATCTAAAAGGGGGAGAGGCAGCTACGGGTGAATGCACC
GTTGTCTCCTTGCCTATGGAGGAGAGCCAGAGCTGCCTTTCTGTAGTAYAGGCCAGGGCAGCAGCCTTCTTGCCTTGGTGTAGGGGTGATATTGTCTGTG
CTTGTGGCTTCCTGGGGTAATCAGGTAGGGAATAGACCGACAGGCATCCTGTTAGGCTTGTCCTTTCTAGACGCAGCCTCCAGAAGAATAAATRCTCCAT
TAGCAGCTGGCTGGAGCTGGCTGAGGCTCTGGCTGGTGACTCTGGCCTCTGGTGTAGACTTCCCTCAGGTGAGTGCATGGATGAGAGCTCTACCTTCTCC
TGACTGCCCAGGCCTCAGGACAACAGGTAAGCCAAGAGGCTCAGGCCTTCCCCTGCACTTCTTGTCCTTCTGCTGGGAGTGGCCAGGCCTGTGGTCAGTC
CTTCCACCATCTGCCTCTCTCATGTCCTCATGCGGAGGCATCCCTACGTGTGGGGATCTGTGCTCAGTGCTCAGGAGGCATCCAGCACCCTGGGTGTCTG
TGGATTGTTAGGGATTTTCTGGGACTGTTAGGCTGTCAGGTTGTTATCAATGAGGGGCAGGAGGGATCCCAGGGTATTTCTGAGCAKCGAAGAGAGAGGT
CCAGGCTACCAACTGGTTGTGTCTTCTTTGCTGGGGGGTGGGAGCGGGGGTAGTGGCTCCCTGGTCTGGGAGCAGGACTGCAGTGAGTATGCTGGAGCTC
TGAGCTCCTGCAGTTAAGCCAACTGAAGGTGGGCGTATGGTTGAGTGGTTAACTGCAGGTGGGCATATGGTTGAGTGGGTCAGCCAGCAGACAGAGCTCC
GACCTCTTCATTTTCTCTCTGGTTAGACAGAGTTTAAATGGCTTTACCTGACTTTGGAAGACTCCTGAGGAGTCTAAGCAGGTCCAGCCAGTGGGTACAG
SCTTGAAGACCAACAGGGTGGGCTGGCAGATGAGACAGTATCAGCATCTCAGTCCAGGCGTCCCAGCCAGGACCACCCTAACCACCACCAGGAGGATGGA
ACCAGCCCCTAGCCCTTGTGAGTGGCTCTCCCTTTTCTGTACCATCTCAAGGGAAACCTGAAGACAAGCTACCAGCATGAGATGTCCTGGTGTTCAGGGA
ACACAGTTAAACAAAAGTGTGATGCTGCTGTGGGAAAGCCTGCCCCAGGACACCACCATACCATGCTGTCTTCAGTTCCTGCCAGCTGAAGTTTTATTCC
CAGGCAATGCTTTCTCCTTTTACCGTTTCCCGTGGGGACCTGACTGGCTGTCTTTGGGGACTGAGGTCTTACAGGCCAGGAGGTGCCTTTGAGCTCATGC
TAGGGGCTGTGTGCCTGTGAACTCACTGGAATCCTTTGTTGACACATTGCTTTCTTACCAGTCTGTGAGCTCTTTGAGGGCAGGGCTTGTGATGCTACTA
TTTAGTAATTCCTGTATCCCAGTTGGTGCTGACACATAGTAGGTGCATAGTAAGTGCTTACTGAATGAATGGATGGGTGCATTTCCTGTTCTACAGATAC
CTGTTCAAACTTTGTTTTGTACTTTATTTTGTTAACCCAGTTAATGCTTCTGACAAGAWGTTCTACAGCTCCTCCCCACCCCATCAAAGAGGAGGGCCCT
TGGCCTCAAATAGGCCAATCAGGCTCTGTTGGTGGGGAGTTGAATCTTCAGTGAGCAACTGGGGAAGAGAAAACAGAACAGAACTATTTTCGGAGGCCCC
GAGGCCTGCATCCTCAAGGCTACCTGGCTTTGTCTTTTCTGAGGCTCGGTCAACATTTTCCTTGGTTCTCTGAGTTACTCACATCTTTCTAATACATTTC
CTCTTTTACTTTAGTTAAAACCAGAGTTGGTTTCTGTTGCTTGCCTCCAAAGAACCCTGACTGATATAAGTGTTTTCCTGTTATTTTTAAATCTTCTAAA
GTATTGCTCTGAGATGGTTTCTGCTTAAGCAGATTCATTGAAACAGTTTACTTCATATTTGGATTTTTCCATTTGTCAGAACATTCTTCCTTGGTAGTGT
GGTGCAGTAGAAGGGACTGGACTGATTTAGATAATCTAAAGGTAATTCTGACTGTGCCACTAATTATGTAATTTCAGAGGAGTAACATTCTCTTTGGATT
TCAGTTTCCACATGAGAAATAAAAAAACTTGAACTGAGTAACCACAGATTTCCTTCCAGCTTTAAGATCCTATTATTCATATGAGTCAATATCTGCCTTT
TAGTGATATGCTCCATTGGCCCCAGTTACATGGTCTGGGCTTATGTGATAACCCTTCAAATATTTGAGAACCTATGCTCCTGCGAGTGTTTTGTTCTAGG
CCCAACATAACCAGTTTCTGTAATCATTTCTCATATGGTAAGGTTTTTAGACTTTTCACCATTCTGGTCATTCTCTTCCAGACACTCCAGTTTTTCAGTG
TCTTCCTGAAAGTGTGGCTTCGAGACCTGGACCTGGACTAGTCATGCTGTGGGAGTCTCCCCACTACTTACCCGTGTGCTCAGCCTGCCCCTCCTGGCAC
ATAATGTTGACTAAGGCACAGCCCAAGGGGAGGCAGCCACYATAACTTTCCTAGATCTAGGGATAGTTATTTTTTGTCATTTTAGAGGCCCTTCCTTCAG
GCTGCATGCAGAACAGATGCAGGTAGCCATGAAGCCAAATCTGGAAGGAGATGATGCTTCCTCTGAAGATCAGTAAGTAACCAAGAGTGATTAACTGAAC
AGGTGCTAGTTCTTAATACACATGGAAGAAAGATTTGCTACAGGTGTCATTAATGTTTGCAGCAGTTTTTTTTTTTTTTTTTAATTGAGACGGAGTCTCA
CTCTGTTGCCCGGGCTGAAGTGCAGTGGCACAATCTCAGCTCATGCAGCAGTTTTTTWAAAAATGAGGCACTGAATGTTCATGTCTCCATTGATGAGAAA
AATGTCCTCTCTAACCCTTTTCTTATGCTATTCCCCTTTCCTATTCTCTCTGATATCATGTTTCATGAGCCCTTTGCCCTAKCAGCTCTTGTATTTGTCT
TTTGTACAGGAGAACAGATGCAAAAACTATTGCTCAAGGAAAATAAAGTGAAAACGAGGAAAAGCAAAAGAAGATCTGGAGAGGGCTCTCACCTGACCAC
AAGCATCCTGGAGCAATGAGGTAGAGGGTGTTCTGGGAGGAGTCTGATATCTGGACTCTCGAGGGGTTCTTTCTGTCATTGTAACTCCAACAAAGGGGCA
TTCCGACGAMGTCCCATATGATGTGGCCCCAGGCCATCTCTCTGTACTCTTGTCCTTCCCCTCTCTCTCCCTTGTTTGGATCCAGCCCCTCTGGCCTCCA
CTCTCTTCTTTGCAAACACCAACCATGCTGCCATTTTAGGGCCGTTGCATTTTCTGGTCTCTTTGTCTGGAACACTCTGTCACTGCATGCTCACTCCTCC
ACTTCACTGGGCCTCTGTTCAAATGTCACCCCATTGAGGGTGTCATCTGATTGCTTTATCTAAGACAGACCCTGTCTCCCCAACAGATTGTTCTCTAGCC
CTTTACTCTGCCTTGTCTTTAACAGAAACTAACAACATCTGACATATGCTTACTTGTTTATTTATATTATCCAGACCATAAACTCTCAAAGGCAAGGGTT
TCGCTTGACTACTGATTCCCAAGTGCCAAGAAATGTACCCAGCACATGCAGCGCCCTCAATCAATATTTGTTGTGGTGTGACTTACAAAGCATCAGTCTC
AATGCTCATTAGCACAAAATTGGTCTCACAGAAGCACTTTGTGTTTTTTTGGTGGAGGGTTAATTAGTCCACTAGTTGACAAGTGAGTCATTAAGGATGG
GAACTTTATTAGAGCAGTGTGGATCTGTTCAACAAGGCCCTGGTGCACCACGCTACAAACCACTGTCGAAATGAGGTTGCTAAGAGTCACCTTGTGGAGG
GAGAGCTGCAGGTCCCATCTCATCCAGAGCTGCTTTGATCTGAGGTGGGGCCCTGGAGATGAACGAAAGAAAGGTGGGGAGTGCTGTGTATTTTTTCCCC
ACAAATCCACCAGGGCTSATTGTCAGATCCTGGGCTTTCCTTTCCACATCATTTTTAGGGACTGAGGCCAGTTTTGCATGATTCAGTGACCAGGCATGTG
GCCTGACTGTAGGTGGCAGGTGGGGATGGTGCAAGCTGACAGGTTGAGTGGCCATGGACCCTGTTCAGGTAATCTTGGGGGAAGGTGATAGGAGAGAAGT
GGGTGTGGGAAAGGGATGAGAATTTGATAAAGCCAGGTTACCAACAGGGAACCTCTGAGCAGGCCAGGCAGGGAGGATCTGGGAACAATCGAGTGGAAGA
GTGGTGATGTGGATCTGGAGGCCAGCTGTGCTGATCCTTTGTCCAAGGTGAAGTGATTGCCCAGGAACTGGGGAGAAGAGGGAAGGTCCTTGGACAGGGC
TGAYATCCTAGGTGGGGAGATTGAAGCCACCCTGGGAAAATAGTACTTCAAACCCACCCCTGTTTCTTCAATACCTCTTTCCTCGCTGTTATCAAGACTG
GATTGAGGCCCCAGAAAAAATCCAGTTACACCTGGGTGAGAGAAACTGTGAACCTTATCAGCTAATAATCCCCGAAGGTAAGTTTAGCTCCTTAAGTGTT
TTTCCAGTAGTGATCAATACTCCAGAGCTTTTCTAGACAGAATCATTCAGGGGCAGAATGTATTTTCCTAAGATGGCCACAATAAAAAGTTTGATGGAGT
CAGAGTGACCTCTACAGTCCTGCTGTTGGGCTGTGGGGTCTTTGTCCCCTCCCCTTGAACTAAGGTAAGTCTTCTGCATTTGCATTTGAAAATGAATGTG
GCAGATTCTAGAGTGCCTCAGTACCCTTTCTCTCCATAATGTTCCTTCTGCATAGCGTTTTATGGTTCTTCACTCTCTCAGTTTCAGGCAGGAAGACTCA
TCCTGAGCTGAGCTGCTTTTCTTGAAGTTGTGCAAGAACGTCCTGTTGGCTGGGGCAAATTCAGTATTTCTTTTCCTGGCCACTGTGCTGGAGCGTGAGG
AAAGACTCTCCACCCTCACTCCCAGATCCTGCAGGAGGCGTGAGAGCGGATGGAGATGGTGAGGATGTCTATTAATATGGTGTTTCCTGCAAAACGGTGC
CCATCTCAACCATGGGTTGTCAACCATCCTCGGTGTCTACAACTGCAATTTACCTTTGAGGGCCCATGAACTCTGATTACCTGAAAGTCCTTAGGCCAGA
AAGAGAAACCCCTGTCCCCCACCTCTCACTTTCACCTATTTCTAGACCTTTTCTTACAGCAATGCCTTGGCCCTCAGGAAGCATCAGATCTCAAACTGCA
GGGTCTGGGGCTGAAGCTGATGCTGGCATGGGTGACTCAGAGTTCCTCTATTAGTTCAAATATGTAATATCTTTTAGAGCCTAGGACTCAGGCTGGAGGC
AATTCCTTGGTGCCAGTTGGTTAATACTTTATGAATAGTGGTGGGGGAGGGAATGCCTTGGACTATTAATGTCCCCATGGATCTGGATCCTGGAGAACTT
CCAGTGTCCTGGATGGAATGTTCTGCTTGGCTCATCTTGCCCAGAGAAGAGCCAGGATATGAGAAGATGGGAGAGGGAAGGGGGAGGTGTGAAACGTGCT
GGTGCTTCCTGTCCTCGTGGTGTGATGGCTGCCCAGGCTGCTCCTTCGAGGCAGGACAGGATTCCCATGGGAGATATGAGGACCATGGTGATTTCCAGGC
ACCAGTTATGTCCCAGAGCATCGTGTGCCTGTGCAGTGGGGTTACTGATAGTCCAGGCATCAGTTCATATTGTCCTTTATGGCAGATCCTGCACAAGGGG
GTTCTCTGTCTCTGGACCCACTCTGTCAGCATGGACATCCTTTTTCTTTTTCCCTGGTAAGGACATCAGAAAGAAAGTTACCCCTCYAGTGTTTGGAGTC
TTGGAATCCTTGGCCTGCCTGCAGGCCTCTGAATCCTCAGTGTGTTAGCCCAAGGTCACCTTAGGTAAAGGAACATTTCTCCTGGTCTTCCAACACCCTG
GAAAGGGAGGCTCTTCAAGAATAGGAAATTCTTCCTAGTATCTAACCTTGGCCTGCAACTATGCCATACATTTAATTGTAGAAGGTATGGAAAGTTAGGA
CTGTGGTGGACCCAGTTAAATCACTGGACAGAAGCCATGAGGCAGAGCCAGAACCAGCTTCTGGACTCCCTGCATGGAGCTTTCTACTATCCCAGGTTGT
TGGGTCCCTTCTCAGTGGCCAAAGATGCTATTTTATGAGCCTTGAGGACATGACACTAAGTGAAAAAAGCCTGGCCAAAGGGCCACATAGTGTATAGTTC
TATTTATATGAAATGTCCAGGAAAGACAAAAGCATAGAGGCAGAAAGCAGACTAGTGCTGTGGGAGGAATGGGGGATTTGGGAGGTGATGGCTAAGGGGT
TATGGGGTTTTGGGGGAGGTAATAGAAATGTTTTAAAATTGGTTGTGAAGGTGGATGCCCAACTCTGCGAATACACTAAAAGGCATCGAATTGTATACTT
TAAATAGGTGAATTGTATGCTATGTGAATTATATCTCAATAAAGGTATTTTTTCCCTGCTGTTTTCCTGGCTTCCACTTTCTTATCACAAATCCTGGGGA
CTCTTGGGGCAGGGGCCAGGGGCCAGGGGCCAGGGCAATACCCTCCCACAGCAGATGGGGCCTTCAGGTGGAGTGCAGGCTCAGCTGTTCCCTCTTGCCC
TTCTCTCTGCTGGAGAGAATGAACAGGAATCAGCATTGCCTGTCCCCATGCTTAGAGGCTGGACCCAGACCCTGCCTTCTGGGACACACCCACCATAGTG
AGGGCTCAGTGACTCCTCCTTGCTGACTCCCTTTCTCCACCTTGGGACAAGCCAGCTCCGACAGCCTGGCATGGAAATGACCACGGAGCCCTGGTCAGTC
GGGTAGTTCTTTCAGGGGCAGGGCATCCTGCGGCAGAGGAAGGGACTGAGCTGTATGTAGAGCTTAGAACCAGGTCTGATCTTGGAGTTTCCCCTTCCTT
CCTCTTCTCAAGAAGGCAACCCTATCAGCCACTGGCCAGGGAGTAGCTTATCTTAGGGAGCCATTTTGTAGAAATCTCAGGCAAGAAGGGGTTCGGAGTC
ATTTAGACTCCCACTCAACAATGTTTGTCGATACCAGCTATGTTTCAGGAAGAGTTGTGTTCTGGGAACCACTGACATGCCCAGTGTTGACCCAGCATCC
TCCTTTTAAGGGCTCAGAATTCAGTGGGGAAGTAAATGTAAGTAGTTCTCTGATTGGGGTAAGCAATGGAGATTGAAGAAAGGATGTTAATCAGCCTGAG
TATTGGGGCAATCAGGGAAGGCTTTCTGGAGCAAGCACACCTTGAAGACTGAGTATGAGATAGCCACATGAAGGGGGGAGGCTGGGTGGGAAATCATGGA
AAGTGTGTTCCAGGCAGAGGGAATACAATGTACAAAGGTCTGCAGATGGATGTGAGAGAACAGTTCATTTGGAGAACCACATAAGAGACTTCAAGTAGTT
GAGTCTGGTTGTAAACCAAGATATGAGCTAGAGAAGGCCAAGAGATGAGGTGGGAGAGGTAGGAAGGGGCAGACCATCTGAAGCCTAAATAGGAGGAGGT
CCAAGACCCCCTCCTCCCCAGGAACTCCACTTCCTCCACCTACCTCCTGCACCTGCAGGACTCCTACCTGAGCAGGGGCACCAGTGCCAGGCAGAGAAGA
GAGTAACCAGCATCAGGAGCAGCGAGACAGGCACCACCACCAGCAGCACATCTTTGTAGGAGGCCTTCCCTGGTGCTGAACATGGAGGGGTGGGGTTAGA
GGTGGACTTGATGCTTCATAAGCCCTCAACCACTGACTGCTGGCCCTTAGCATACCTGCCTCATGATGACAGCTATCCCAGGGCGTGACTGTGGCCAAGT
CCCAGCTGACAGGGTTGGAGACAATGCAGGAATAGGCCACATCTCTGTCTCCTGGTCCCAGGGAAATGCTCAGCACCTGTCCGTCTGTGAAGAGGCTGTG
TGGTTCCATACCAAAGTCCATGGTTGTCTCCCGTCGCCAGCTATAGGTTATTTCGCTGATGTTGGGGGCCCAACAGGACAAGAAAACCTGGCAGGTCTTG
GAGGGCTGAGCATCCCTTTCTACAGCAATGAACACTTGTACCACGGGCCTGGGCACTGCATCTGGGAAAGAAAAGTACAGCTGGTATGGGTCTCAGGGAT
GCTGGGCAGGGCCCACATCTCTGGCTCTGGGATCTACCCAGGGTTAGATGCCACCTCTGGCTAGGCCTCTCTTGTTCCAAAATCTTGTCTGGCTTTCCAC
TGCCCACAGGACAGAAGCTGAATTCCTTAGCTTGATATTCAAAACCTTTCAGGAAACGATTCATGCCCATCTCTCCAGCTGTACCTCCTGCTGCTTCTCC
CTGCTCATCCTAATTAATTTGCAGTTTTCCCAAACATGTCATGCTCTTGAATATCTTTCATGCTTTCACATAATTCATCTGCGCACACAGATGCCTTTCC
CTTCTTGTCCTCCTAGAAAACTTCTACCCATCCTTCAAGGCCCAGCTTGAACACATTGCTTAATGCCTTGACTGTGAAGCCTTCCCAGGCATGGCTCTGA
GCTCTCCAAGCACTCTATCTCTTTTTGTAGTATTTCTCTCACAATATGTCAGTCAGTCAACAAGAGATGACAAGCATTTATTAAGTCAGGCAAGAAAACA
AACACATTCCTAGCCTTCTGGAGCTTACAGTTTGGTGAGAAAGACAAATACAAAATGATTATGAATAATTAATTAAATAATTATGAGGGTGCAAAATGCT
GTGAAGGAGGGGCCCAGAGGTGGGGGCTCTGTCTTGTTAGCTTAGTAAACTTAGCTCTGTAGTGCTGGCAAATAGTGGGTGCTCGATATCTGGTCACTGA
ACAAACTGATATCCTGGTGTCCTAGCCATGGATTCCCCTTTCTATACAGGTTGATGAGTAAATCCTGAGTCTCAGTGGAAATGAGGCCAGTGGGAGAGCA
TTCTGGTGACAACAGGAGGGCTCAGTCTCTGACAGCATTCCAAAGTCAAGCAGAGAAAAACCTCGTTAATGCCAGTTCAGTCTGGTGGGATTTGTGATAT
GAAAGAGAAATGATTTGCTGGGCACACTAATAGTATAAACAAAGATTACAGGGGGGATATTTACATCACTTAAGAGGACAAGCTGCTTCCAAACACGATC
AAGCACAGTAGAAACACCCATTGACATTTCTAGTAACTGATCTGCTAATTCAAATCGTTCTTATCTATTGTCAAAGCAGAACTCCTAAGGACGGCTGCTT
GGCAGCTTCGTGCAATTAGTTCTAATCACGCTATGTATTTGGAAGCAATAAAACAGCAATTTCCTTAAAATCTGTAATTCAGCTGCTGAGAACAAGGCAT
TTTAGAGCTTAGTGGTGTGGGTGCTGCATGTATTATCACATTCAATGTCCTCATTTCACATGTGCGGCAGCTGAGACTCAGATCAGAGGAGGGGCTCCAG
GGCTGCCTGTATGGTGGGGTAGGTTATTCACTACACAAGGACATTGGGCTAAGGGGGGTCACAGGGTAACAGGTGGCAGGGGGTGGGGGGTGCTGAAATC
CAGCCAGCACTCTGCTTGCCAAGATGAGGCTCAGGGCTGCGTGCATCCAGAAAGGCACCTTGCAATTGCATTGGCACCCTGAGTGGCTCGCCCAAGGACA
GCCAGTTAGCTGTCTTGGGGGGATTCAAGACATCTCCCCAATTTGCTTACAATCTTTATCTCCCTCATGGCTACCCTCTTCCCAGCTGCTACCTCTGCTT
TCCATTCTTAAATCTGGACTCCCCTCTCTTCCACTCTATCTAAATTTCTAAGGTTTTACTGAAACAGTGATTTAGGGTCACCCATGCCTCTTTTCTAGCC
CATTAGGTAGATAAATGAGAGCTGAAAGCCACTCTTTCTTGACCAGAAGACAAATGATGAAGGTGGTGGAGGTGGCTGTGGTGGAGGTGGAGGTGGAGTT
GTTGGGAAACAAGGCCCACGCAGCCCCCAGTCCATGCAGCCAACCGAGGTGCTGAATGTAGCTGCGCGAATGGCTCTGCAGACCCATGCGAAGCAGAAGT
CGCACCCAGCTGGGCCTGCCAACCCACGGAATTATGAGAAGTAAACATCGTTGTTGTTTTCAGTCAGTAAGTTTTGGGATGGTTTGTTTTGCAATGATGA
ATGACTGAGAGAACCCATGAATCATATATAGTTAAGATCTCTCTAAGAAGCCCTTTTAAGAAATGTGTAAATTCTATACTTTTAATTACAGTTTCATTAT
AATTTGATTTTTAAATAAACCCATTATGTCATAGTTTAGTATGGTACATCATTTTTTTTCCTTTAGACTAATGACACATAGTCTACACAGACTACATAGA
CTACATAGACTAGTGGCACATCTTATAGTCTATGATGATCCTTTAGAACTGAGGAAGCACAGGCCAGGCTCTGTCCTGGATGCCACTGCAAATGCCACTG
CATTTCATCCTGTGGGTACTCTACATGGTAATATTACAATGCCCATTTACAAAGGAGAAAGGTGAAGGCCAGGGAGGCTAAGCATTGTGTCCAAGGCCAC
TGAGCCAAGAAAAGACTGAGCTAGAGTTCAGGCAAGCACTGTGAAATGGCAAAGCCTGGCTGCTGCAGCCAGGAGGAATTTTCTTAGACGTGACTGCCAG
GGAGCAGCTGTTCCCTGAGTCGGCAACATGGTCAGAGACCAGAGCTTTCTGGAACCCAGCTCTCCCTGGCTGCTATGACTCAGGATGCTCGTCTGGTGCT
TTGTGGGGGAAGAGGGCCAGGCAGCCAGTGTCAGACACACTCACCGTACACCTTGAGCTGGAGGGTCTGGGTCCAGGGCTGGCCCCTTGTGTCCACCATC
AACACGGAGAAGTTGCCGCTGTCTCCAGACTCCAGCGGCCCGAGCTCCAGGCTGAGGTTGCTGTGTAGCTGGGCTCGGCCCAGGAAGCGGGAATGGTACA
GAGTCTCCAGGGAGCCTCGGAAAAACGTGGCCAGGAGCTCTTCTGAAGGCCAGAGAGATCGCCAGATAGCCTCACGGACTTGGAAGCCAGGGGGACGCGC
TGCCACCAGCAGCACCGAGCCCCCGACTTTGCTCAGCACTTGGGCACCAGTAACTGTAATGGGAAGTAGGGCTGAAAGAACAGAGCCCCTGGTCACTCTG
CCTGCCCCACACTCCTCATCCTTCTTTTGCATGCATCTGAGCTGCTATAGGGTGAATTGGGGCCCCTCCACTGACATTCCCTCCACTCAAGTTGAGGTTG
CACTGTGCTAGGTACCAGGGATAAAACATATGGAAGATAACCCCAGTCTCTGCATTCATGGAACTTACAGAGGAAGCCAGACATTCAAGAAATCAATAAA
AATGAATTCTGTTAAATACCATGAAGGGAAAAATGAGATGCCCTGGGAGAACACAGGTAGGGTGACAGGGGATCTCACCCAGCCTTGATGGGCTCAGAAA
ACAAATTGTTAAGCTGAGCCTTGAAGAGGAATGGGAATCAGCCAGGCCAAGCCGAGGGCGGCCTGGAGCAGGATAGGGAAGTGTCACCGGCAGAGGGCAC
AGTACTGACAAAGGCCTGGAGGGGGAGAGTTGGTGCCCAGGGGAACTGAGAGTAGTTCTCTGTGTGAGGAGTAGGAAATTACACTGCAGAGTTGGTAGGA
GTCAGATCATGCAGAGACCTGAAAGCAATACTGGAGTTTGGGCTTTATCTGTAGAGCAATGGGGCGTCTCAGGTAGGTTTTAAGCAGGAGCGTAACAGGA
TTAGATGCATGGTTAGAAAGATCACTCCAGCAGGGATGTGGAGAATGCACTGGAGGTGGGCAGGACTTAGGCTGTTCATGTTAGTCCAGTGGAGAAGTGA
CGGCAACTTGAATTGAGGAAGGGAGCAACCGGGATGGGAAGAAGTGGGAGGAATTG


SNP Information

Context             (SEQ ID NO:55613):
TACTTCACTCCTATGGGTTTAGGTTGGGGCCTGCCTGGAGGCAGGGGACTGAATCTGTAGCCCTGTCCACTAAGCTGCCCAGGGAGTCTCCTCATGGCTC
R
TTTCCCTGATTTGGTGGGAACCTGGGAAACCCCTGCTCTGGAGTTAACAGTTAACATTCTGGAGTTAACTCAACGTTCATTCAGCCCATCTGGAGTAACC
Celera SNP ID:            hCV47613
SNP Position Genomic:     14123
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55614):
TGCAGCAGTTTTTTTTTTTTTTTTTAATTGAGACGGAGTCTCACTCTGTTGCCCGGGCTGAAGTGCAGTGGCACAATCTCAGCTCATGCAGCAGTTTTTT
W
AAAAATGAGGCACTGAATGTTCATGTCTCCATTGATGAGAAAAATGTCCTCTCTAACCCTTTTCTTATGCTATTCCCCTTTCCTATTCTCTCTGATATCA
Celera SNP ID:            hCV15975516
SNP Position Genomic:     24458
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,4)      total(A,1|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55615):
CACTCACAGTTTACTAAGGACTTAAAGGTAGGCCATGTTTGTGATCACTGCCATGAAAACATTGAGCAACAGATCCTCGGTCAGGAGACTAACCTGCTAT
Y
ACAACGTTGTTCCTGTGGGGAAATCTGCTTCTGTCTTTTCAATAAACATTAGCCGTCCCGAGACTGTAGCACACAGTCTGAGAAAGTGAGGAATGAGGAT
Celera SNP ID:            hCV27838501
SNP Position Genomic:     16500
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,36)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:55616):
GCAGGCTGTTTCTCTGGCATTTGAATTCCTTCTATAGCATTCCTGACAAAGGGTATGTAACGTCTTCTTGACAACCTCCAATGGCAGCTCACTACCTTCC
R
AGGCAGGCCACTTGGCCTCTGACTGTCAATATTCAACAGAACATTTCTCTGAACCCGGTTTTTGTCCCCATATAGCTTTTATCCCTTGATCCAAGTTCTA
Celera SNP ID:            hCV47615
SNP Position Genomic:     11375
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55617):
GGAGCAATGAGGTAGAGGGTGTTCTGGGAGGAGTCTGATATCTGGACTCTCGAGGGGTTCTTTCTGTCATTGTAACTCCAACAAAGGGGCATTCCGACGA
M
GTCCCATATGATGTGGCCCCAGGCCATCTCTCTGTACTCTTGTCCTTCCCCTCTCTCTCCCTTGTTTGGATCCAGCCCCTCTGGCCTCCACTCTCTTCTT
Celera SNP ID:            hCV25955717
SNP Position Genomic:     24810
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,35|C,1)   total(A,69|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:55618):
CTCAGCAACCATGGAGAACTGTCCTTGACCCCAACCCCTCTGAATCCAACCCACCTCATGCCTAGTCCTGCAGCATTCAGAGCCCCATATAGATTGTGGA
R
GTGAGGCCCCTGATGCTGTCTGAGGAGCCTTTCCAAGCAACAGGGGCAATGACTTGGCCAGGCAGGCAGGGTCAGACACAGAAGGGCAGTGCATCAGTCA
Celera SNP ID:            hCV26627270
SNP Position Genomic:     17390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55619):
GCAGCATTCAGAGCCCCATATAGATTGTGGAGGTGAGGCCCCTGATGCTGTCTGAGGAGCCTTTCCAAGCAACAGGGGCAATGACTTGGCCAGGCAGGCA
K
GGTCAGACACAGAAGGGCAGTGCATCAGTCATTCCAAAGTTGCTGGCTTCATAGATACGGTGATTGTATCTATTGGCTTTGTCTTCAGTGCAAATCCAGA
Celera SNP ID:            hCV26627271
SNP Position Genomic:     17459
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55620):
ATCAGTCATTCCAAAGTTGCTGGCTTCATAGATACGGTGATTGTATCTATTGGCTTTGTCTTCAGTGCAAATCCAGAAGCAAACCCTTCTTTCCTGTTAC
Y
TCCCAGCTCACAGCCACCCTCATCTCTTGCCTGGATTACGGCAGCAGTGTCCTGACTGATTTCCCTGCTTCCTCTCTCTCACCTTCAGTTCATTCTCAGC
Celera SNP ID:            hCV26627272
SNP Position Genomic:     17583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55621):
CTTGACCCTATTGAGCTGGGTCAAGCTCGCCCAGCACAGCTTCCACTCTGAGCTCTAGAGCCCAGAGCAGCTGGAAGCCCTGGGAGAAGCATGCTGACAC
R
AGGGGTTAACTTGCATCTCCCCATATCTTCCCCACTGGGTGTTCCAGGGCTAAGAGACCCCCTGGGTCCCTCTCCCTCTTTCCCATTAACCCCTGACCTG
Celera SNP ID:            hCV26627257
SNP Position Genomic:     6379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55622):
CTGCTATGCTCCCCAGCAGGGGTGGGCATAGGGACAATCACGGTATCTATGAAGCCAGCAACTTTGGAATGACTGATGCACTGCCCTTCTGTGTCTGACC
M
TGCCTGCCTGGCCAAGTCACTGCCCCTGTTGCTTGGAAAGGCTCCTCAGACAGCATCAGGGGCCTCACTTCCACAATCTATATGGGGCTCTGAATGCTGC
Celera SNP ID:            hCV26627273
SNP Position Genomic:     19147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55623):
GATTAGCTAAGGAAAGAAGAAGAGGAAAAGCACCTTCTTCTGGGCCTGCGAAACATCAGAAAGGGATTGCAGGGGCCTGGAGGGGGCTGCCTGCAGGGCT
S
TCCAGATACGCGTGGACAAGCCCTGTCTGGAGGATGGGGATGCTGGCTCCGGGACCGCTGCAGGGTCGCCGACCCAGGAAGGGTCACAAAGGAGAGTAGG
Celera SNP ID:            hCV26627258
SNP Position Genomic:     7366
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,2)      total(G,1|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55624):
GGTGGGCATAGGGACAATCACGGTATCTATGAAGCCAGCAACTTTGGAATGACTGATGCACTGCCCTTCTGTGTCTGACCATGCCTGCCTGGCCAAGTCA
Y
TGCCCCTGTTGCTTGGAAAGGCTCCTCAGACAGCATCAGGGGCCTCACTTCCACAATCTATATGGGGCTCTGAATGCTGCAGGACTAGGCATGAGGTGGG
Celera SNP ID:            hCV26627274
SNP Position Genomic:     19167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55625):
ATTTCTGAAGTGTGATCTAAAAGGGGGAGAGGCAGCTACGGGTGAATGCACCGTTGTCTCCTTGCCTATGGAGGAGAGCCAGAGCTGCCTTTCTGTAGTA
Y
AGGCCAGGGCAGCAGCCTTCTTGCCTTGGTGTAGGGGTGATATTGTCTGTGCTTGTGGCTTCCTGGGGTAATCAGGTAGGGAATAGACCGACAGGCATCC
Celera SNP ID:            hCV25955579
SNP Position Genomic:     21649
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,16|T,2)   total(C,50|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:55626):
AGGGCTCTCCAGATACGCGTGGACAAGCCCTGTCTGGAGGATGGGGATGCTGGCTCCGGGACCGCTGCAGGGTCGCCGACCCAGGAAGGGTCACAAAGGA
S
AGTAGGTCGAGGCCGAGGGAGAGAGACGAGGGCAGGTGGAGGGAGGCGCGGGAGACAAGAGGTTGCCAAGAGCCCCCGGCTCTGCCCAGGCCGTGCCCAC
Celera SNP ID:            hCV26627259
SNP Position Genomic:     7460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,1)      total(G,1|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55627):
CTTCCCAAGATCAAGTTCCTTACACTAGTGCCCCAGGCCATCCATGTCACCTCTCTGACCTAATTGATCACTCTTCTTCCTGGCTCTCTCCCCTGAGCAT
S
ACTGGCTCTTCATTGTTTCTTGAACACCTTAGGGTCCTTGTTCTGGCTGTTCTCTTTGCCCAGAATGGCTCTCCTCTGGATTTCCCAATGGCTTAATTCT
Celera SNP ID:            hCV11628905
SNP Position Genomic:     17837
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55628):
TGACTGATGCACTGCCCTTCTGTGTCTGACCATGCCTGCCTGGCCAAGTCACTGCCCCTGTTGCTTGGAAAGGCTCCTCAGACAGCATCAGGGGCCTCAC
Y
TCCACAATCTATATGGGGCTCTGAATGCTGCAGGACTAGGCATGAGGTGGGTTGGATTCAGAGGGGTTGGGGTCAAGGACAGTTCTCCATGGTTGCTGAG
Celera SNP ID:            hCV26627275
SNP Position Genomic:     19216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55629):
GACCTCTTCATTTTCTCTCTGGTTAGACAGAGTTTAAATGGCTTTACCTGACTTTGGAAGACTCCTGAGGAGTCTAAGCAGGTCCAGCCAGTGGGTACAG
S
CTTGAAGACCAACAGGGTGGGCTGGCAGATGAGACAGTATCAGCATCTCAGTCCAGGCGTCCCAGCCAGGACCACCCTAACCACCACCAGGAGGATGGAA
Celera SNP ID:            hCV26627276
SNP Position Genomic:     22501
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55630):
CCACACCTTGTCCATAAACTGCCCCTCAGCTACCTTCAGACCCAGGATACAGGTAGGCATTTTAGTCCATCTTCAGAATTCCCATCTGTATTTCTGAAGT
R
TGATCTAAAAGGGGGAGAGGCAGCTACGGGTGAATGCACCGTTGTCTCCTTGCCTATGGAGGAGAGCCAGAGCTGCCTTTCTGTAGTACAGGCCAGGGCA
Celera SNP ID:            hCV25955234
SNP Position Genomic:     21560
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,1|G,5)   total(A,1|G,33)
SNP Type:                 INTRON


Context             (SEQ ID NO:55631):
CTTCTCACCTGCAGCTCCAGCCCACACTGTGAAGAGCCTTGTGCCCACAGCTGTGCACATCCTGGGCTTCCTCCACACCTTGTCCATAAACTGCCCCTCA
R
CTACCTTCAGACCCAGGATACAGGTAGGCATTTTAGTCCATCTTCAGAATTCCCATCTGTATTTCTGAAGTGTGATCTAAAAGGGGGAGAGGCAGCTACG
Celera SNP ID:            hCV25955146
SNP Position Genomic:     21488
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,26)   caucasian(G,16)   total(A,2|G,42)
SNP Type:                 UTR 5


Context             (SEQ ID NO:55632):
GTCATGCTGTGGGAGTCTCCCCACTACTTACCCGTGTGCTCAGCCTGCCCCTCCTGGCACATAATGTTGACTAAGGCACAGCCCAAGGGGAGGCAGCCAC
Y
ATAACTTTCCTAGATCTAGGGATAGTTATTTTTTGTCATTTTAGAGGCCCTTCCTTCAGGCTGCATGCAGAACAGATGCAGGTAGCCATGAAGCCAAATC
Celera SNP ID:            hCV16193540
SNP Position Genomic:     24141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55633):
TGTGAGGCACCGCACCCGGCCTGTGTGCTCCTCTTTGAGTAACTATTACCATGTATGCTGCTCAATTACATTTCAGCTACTCAAGGCCCAGTCAGACTGC
R
GTGACTCTGGGGAGGGGTTAATAATAATAATTATTATTATTTTGCCTCTCTGGGAACAAGGAAGTTTTGGGAATTACCCAATCATGATCCTTCCAGAGTT
Celera SNP ID:            hCV29185272
SNP Position Genomic:     13914
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55634):
AGAATGGCTCTCCTCTGGATTTCCCAATGGCTTAATTCTCACGTCCTTCAAATCTTTGCTCAGTTTTCTCCCTCTTAGTGATGTCTACCACGGCCACCTC
R
TTTAAGATTGCAGCACCCACCTGCCTGCGCTCCTCATCGCCCTTATCCCCCCCTCCTACACTGCTTTTTTCCCTTTAATCTGTAGCACTTATCCTCTTCC
Celera SNP ID:            hCV29185273
SNP Position Genomic:     17999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55635):
AGGCATGTGCCACCATGCCTGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCAGGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTAATC
R
ACCTGCCTCGGCCTCCCAAAGTGCTGGGGTTACAGGCGTGAGCCACCACGCCCAGCCAAAACTAACTCTTTCTGTATTTCCAGGTTTGGTAAATGGTACC
Celera SNP ID:            hCV29185274
SNP Position Genomic:     20047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55636):
CCAGATGCTTACACAGGCAGAGATCTTTCTGGAAGGGCTTTCATGGATGCTCATTCCCAGCATGGCAGCTCCTCCACTCTGCTTTGCTGACTCCTCCTCT
Y
CCCACTGGCCTCAGCTTGACTCTCCTTCCTCAGGGAGGCCCTTCCCTCTGTACTCCCGCCAGCTATATTTTGATCCCTTGTTATTCTGGCTCTTGGTTTT
Celera SNP ID:            hCV16193529
SNP Position Genomic:     20685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55637):
TGTCTCCATTGATGAGAAAAATGTCCTCTCTAACCCTTTTCTTATGCTATTCCCCTTTCCTATTCTCTCTGATATCATGTTTCATGAGCCCTTTGCCCTA
K
CAGCTCTTGTATTTGTCTTTTGTACAGGAGAACAGATGCAAAAACTATTGCTCAAGGAAAATAAAGTGAAAACGAGGAAAAGCAAAAGAAGATCTGGAGA
Celera SNP ID:            hCV25955707
SNP Position Genomic:     24582
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,3)   caucasian(G,38)   total(G,71|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:55638):
GTGATGTGGATCTGGAGGCCAGCTGTGCTGATCCTTTGTCCAAGGTGAAGTGATTGCCCAGGAACTGGGGAGAAGAGGGAAGGTCCTTGGACAGGGCTGA
Y
ATCCTAGGTGGGGAGATTGAAGCCACCCTGGGAAAATAGTACTTCAAACCCACCCCTGTTTCTTCAATACCTCTTTCCTCGCTGTTATCAAGACTGGATT
Celera SNP ID:            hCV444401
SNP Position Genomic:     26004
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55639):
AGCCAGGCCAGCCCTTTCTCCTGCATTCCACACTCACATACCTGCTTAGATGTTTAACAGATGTCTCAAATGTAGCATGTCCCACATACTGCCTCTACCC
Y
ACCTATTGTCTTCCCTGTCTCAGCTGATGGGGACTCCGTCCTTGTTTAACTCCTTTTTCTCTCTCACCACTCTCCCACCACATCCACTGGGTCACGAGGC
Celera SNP ID:            hCV47609
SNP Position Genomic:     16785
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55640):
TCTCATCCAGAGCTGCTTTGATCTGAGGTGGGGCCCTGGAGATGAACGAAAGAAAGGTGGGGAGTGCTGTGTATTTTTTCCCCACAAATCCACCAGGGCT
S
ATTGTCAGATCCTGGGCTTTCCTTTCCACATCATTTTTAGGGACTGAGGCCAGTTTTGCATGATTCAGTGACCAGGCATGTGGCCTGACTGTAGGTGGCA
Celera SNP ID:            hCV444402
SNP Position Genomic:     25618
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55641):
GAGACCACTTGAGGAAAAGGCTTCTGAGAGGAGGAGTGCCTGGGGCTGAGCCTGGAAGTGATGGCTGGAGACCAAGATGGATAAAGAAGGATATTCTCAG
Y
TGGGAGGCAGAGGGGGAAGCCTGGTTAAAGGGGCAGAGTACATGAGTATGTCAGGTGCAAGGGACAGAGAAGAGCCGAGTCTGTCTGGAATCGAGGGTGC
Celera SNP ID:            hCV27848243
SNP Position Genomic:     18860
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,33|T,5)   total(C,66|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:55642):
ACCGAAGGCTTGGGGGAGAGGGAGGGAGGAGGAGGCTGAGTGTCCTAGAGCGGCTGAGGCCGGAGGCCTGGTGTCCCCAGCCTAAGCAGAGGGCCCCGGG
R
GCCGGGTGGGTGGGGGTCTGTCTGGACGAATTGTTCTGTGTGTGAGGTCTGAGCTCTGAGGCAGCAGTGTTAGCACAATAAAGAAACATTGAGACGTGAG
Celera SNP ID:            hCV26627260
SNP Position Genomic:     8222
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55643):
GGGCCGGGGAGGGTTGCTTCTGTCGCTCGCCTCGACCACGCCCCCTCTCCTCCCTCCTGCTTAGATCCCTGGCAGTCAGAGCTGGAAGGGGCCATCCAGG
R
CAACTCCTCTGAACAACATACAAAGTGCAGATAAAAGGAAAACAAAGACAAAAAGAATTAGCTCAGAATATCTACGACCGTAAAATAAACTGAGGAACCG
Celera SNP ID:            hCV26627261
SNP Position Genomic:     8481
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55644):
TTCCTGTGCTGAGAAAGATTAAACTTAAAAAAAAACAGTTAGGTCCATCCTAAATGCCCAAGATTTAAGAAGGAACCTCATAGTTCAACTGGGTATTTGA
W
GAATGTGAATGATTTTGTATTTGATGAGCTGATGAGGACAGTATAGTGATGCAGAGGGTAGGTGCTTGTACATCTGAATTGTCTGGGCTGTTTCTTATTT
Celera SNP ID:            hCV26627262
SNP Position Genomic:     9757
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55645):
AAAAACAGTTAGGTCCATCCTAAATGCCCAAGATTTAAGAAGGAACCTCATAGTTCAACTGGGTATTTGATGAATGTGAATGATTTTGTATTTGATGAGC
Y
GATGAGGACAGTATAGTGATGCAGAGGGTAGGTGCTTGTACATCTGAATTGTCTGGGCTGTTTCTTATTTTATATGTAATTTATTTGTATTTAAAGAGTT
Celera SNP ID:            hCV26627263
SNP Position Genomic:     9787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55646):
GCTGGGAAAGGCCTTGGCTGGATTTATAATGAGCTGTGTTTACTGAGCATTATGAAGTAAAGTTCAATATGATTACTCTGAAGTCTGACCTAAAAAAAAT
S
CTACTCCTTCACTATACAGATAGGGAAACTGAGGCCCCTCAGGCTGGACTTTAAATCCCCAATCTTACTTTTCCATTTTATTCTAGAAGGTCAGTTGAGA
Celera SNP ID:            hCV15886466
SNP Position Genomic:     10746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55647):
GGACTTTGTGTTTCATTTGTTTGGCCTGCCTTGATTTTATTTGGTCATCCTTCTTGATTCTTTCATATTATTTGTTTACACTTAACTCTGGAATATTTTG
R
TGGTTGTTTTCAATGTACTGTAGGTCTTTAAATTGGTTTATAATGAATTATTGAGGAGAATAGCAAGTTGTTGACATTATATCTGTCTGTAGTAACATTA
Celera SNP ID:            hCV26627264
SNP Position Genomic:     10208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55648):
ATTCTCCCAGGCCCCCTGTCCTTGGGAAGGGATGTGCACTCTGCAGGTATTAGTGATTTTATATAGCTGCATGAGTTGCTGGGAAAGGCCTTGGCTGGAT
Y
TATAATGAGCTGTGTTTACTGAGCATTATGAAGTAAAGTTCAATATGATTACTCTGAAGTCTGACCTAAAAAAAATCCTACTCCTTCACTATACAGATAG
Celera SNP ID:            hCV26627265
SNP Position Genomic:     10669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55649):
CTCTATTTTTCTAGAGAGATGCAAACAGCACAAAGTTATGCTACTTCTATTAAATACTACATAAATTGTCTTCATCCTACTTCCTAGTTCCGCCTTTTCC
R
TCTCTCCCCCGCCTTGCTGGAGCTGAATTCTGGTTCCTCAGGTCACTGAAGAATTATTGAGAGAATTTGTATCCCCTTGGTTCCAGGTTACTCTTTTGAT
Celera SNP ID:            hCV26627266
SNP Position Genomic:     13210
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55650):
GTCTGTGCTTGTGGCTTCCTGGGGTAATCAGGTAGGGAATAGACCGACAGGCATCCTGTTAGGCTTGTCCTTTCTAGACGCAGCCTCCAGAAGAATAAAT
R
CTCCATTAGCAGCTGGCTGGAGCTGGCTGAGGCTCTGGCTGGTGACTCTGGCCTCTGGTGTAGACTTCCCTCAGGTGAGTGCATGGATGAGAGCTCTACC
Celera SNP ID:            hCV25955023
SNP Position Genomic:     21794
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,32)   total(A,1|G,67)
SNP Type:                 UTR 5


Context             (SEQ ID NO:55651):
TCCTGCACAAGGGGGTTCTCTGTCTCTGGACCCACTCTGTCAGCATGGACATCCTTTTTCTTTTTCCCTGGTAAGGACATCAGAAAGAAAGTTACCCCTC
Y
AGTGTTTGGAGTCTTGGAATCCTTGGCCTGCCTGCAGGCCTCTGAATCCTCAGTGTGTTAGCCCAAGGTCACCTTAGGTAAAGGAACATTTCTCCTGGTC
Celera SNP ID:            hCV25618728
SNP Position Genomic:     27487
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,31|T,3)   total(C,63|T,3)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55652):
CTTTCTTGAGAACTCAGAATGCCTCTCTGCGCTGACCTGTCTTAAAATTAATGTGGCGGACAAAGTTTGTATTAGAGACTGCTCCCTCAGCTTAGGGAGG
M
GTCTAATGACAACAGCTAATGCCTGTGGTTACCTCCAGGACATGAGGTGGAAAATGCCACGTGTGTTCTCCCAGATCCTTCTCAGAGGTGCATGTGAACA
Celera SNP ID:            hCV26627267
SNP Position Genomic:     16114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55653):
CCAGATCCTTCTCAGAGGTGCATGTGAACATTGCCCTCCCCAAGCGCGCTCATCACCTGGTGAGCAGAGTCAGCCAGGGCCTGGGGAACAGCCTCACAGG
W
GCTCTGGGCCTCCCAGGCATAGGGCGTGGGCCATGTCAGGCTCAGCTCTGCAGGATAGGTCACAGTTTAACAGACTCTGTTGAAAGCTCTTTCCTGTCCC
Celera SNP ID:            hCV26627268
SNP Position Genomic:     16285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,9)      total(A,9|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55654):
CATGCAGGCTTCTCACTCACAGTTTACTAAGGACTTAAAGGTAGGCCATGTTTGTGATCACTGCCATGAAAACATTGAGCAACAGATCCTCGGTCAGGAG
M
CTAACCTGCTATTACAACGTTGTTCCTGTGGGGAAATCTGCTTCTGTCTTTTCAATAAACATTAGCCGTCCCGAGACTGTAGCACACAGTCTGAGAAAGT
Celera SNP ID:            hCV26627269
SNP Position Genomic:     16487
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,3)   caucasian(A,27|C,9)   total(A,62|C,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55655):
ACCCTGGGTGTCTGTGGATTGTTAGGGATTTTCTGGGACTGTTAGGCTGTCAGGTTGTTATCAATGAGGGGCAGGAGGGATCCCAGGGTATTTCTGAGCA
K
CGAAGAGAGAGGTCCAGGCTACCAACTGGTTGTGTCTTCTTTGCTGGGGGGTGGGAGCGGGGGTAGTGGCTCCCTGGTCTGGGAGCAGGACTGCAGTGAG
Celera SNP ID:            hCV16193530
SNP Position Genomic:     22187
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55656):
GGTTTTTTCCTAGGATTCCTGCAATAACTTCATTTTCCTGCCTTCACTCTCGGCACCTTCAATCCATTCTCCATGCAGCTGCCAGCGTGATCTTTTAAAA
Y
GTGAGTCTGATCATGTCATTTCCTGTCTTAAAGCTCTTCAGTGGTCTGCTTTTACATTTATAATTAACTTTTAAATTCTCCATGTCCTATCAGACCCTGC
Celera SNP ID:            hCV310667
SNP Position Genomic:     20410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55657):
GCCTGGAAGAGGAGGTGCAGATGTGGAATCTCTTGGCCTGAGAGTTTTGCCTTCCTCAGTGGAGGAGATATCTGGAGAATGCCCATTTTGTCTAGCTGCA
Y
GTTCCCCACCCTCTGAGTTAACCACTTCGTTAAAAAGTGTGTTTTGGCGATGTGCTTACTGAGTGTCACCAGTAGGACTGTGTGTTAAACCTGATCCTTC
Celera SNP ID:            hCV27834704
SNP Position Genomic:     18547
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:55658):
CCACTTGAGGAAAAGGCTTCTGAGAGGAGGAGTGCCTGGGGCTGAGCCTGGAAGTGATGGCTGGAGACCAAGATGGATAAAGAAGGATATTCTCAGCTGG
S
AGGCAGAGGGGGAAGCCTGGTTAAAGGGGCAGAGTACATGAGTATGTCAGGTGCAAGGGACAGAGAAGAGCCGAGTCTGTCTGGAATCGAGGGTGCTGAG
Celera SNP ID:            hCV27834705
SNP Position Genomic:     18864
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,25)   caucasian(C,8|G,30)   total(C,17|G,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:55659):
ATTCTCTTCTAGCTCCTAAATATGCACTGAAGCCATCCACTTGTCTCCCTCTCTCTCCCCACCTTCATTCCAAGCTATGATGGTTTTTTCCTAGGATTCC
K
GCAATAACTTCATTTTCCTGCCTTCACTCTCGGCACCTTCAATCCATTCTCCATGCAGCTGCCAGCGTGATCTTTTAAAATGTGAGTCTGATCATGTCAT
Celera SNP ID:            hCV16193519
SNP Position Genomic:     20329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55660):
TCCTGGCACTCAGGCCCCTGATGGTCTCCCTCTGAGCCCAGGGCTCACTGTGGTGCCCTCTGTAGCCCTGACTTTGACAACCCCTCCCAGGTGGAGGGTC
S
CTCCTGAAGGGTTGCCACACAGCTTTCCCAGAGCTGAGGAGGGACCTTCCTGGCAGGTGTGTGGGTGGGAGGGCACATAGATTTTCTTCACCGTTTTTGG
Celera SNP ID:            hCV47610
SNP Position Genomic:     15423
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55661):
GATAACAGGAAGCACCTGAAACACAAGCTCGACAGGGTCCCAGAGTCAGTCTGGGGATAAGCTGCCAGAATCCTCAGGGTGGCCCACCTGGGCCAGGGTG
Y
GTTCTCCCGTGCCGTTTCCCATCTGCCTGACCTCAGTTCCTGGCACTCAGGCCCCTGATGGTCTCCCTCTGAGCCCAGGGCTCACTGTGGTGCCCTCTGT
Celera SNP ID:            hCV47611
SNP Position Genomic:     15285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55662):
TATAATCTTCCCTATTCCAGGAACAAGGGAGCCATGATCAGACTTGGCCTCTATTTGGGGGGTGGGACCAGTGAGGCTCTGGCAAGAAAGGCTCACTAAA
R
AGCAGCAAGAGAGATTTTATAGAGACTCTGAGAACAGCTTCCTGTTAGGGTGAGTCAACAGGGAAGGTAGAGATTTCCTAAATCCAATGCTGAGATCACA
Celera SNP ID:            hCV16193553
SNP Position Genomic:     12401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55663):
ATGATACAGATACAATGGAGGAAGTAAATAACTTTAAGAGCTTAGGTAATAGTGAACTGTAGTAAAGTCATCAGGAAGTGGTGAGTTTTGAGTACTTATC
R
CCTTTGTTTTAATATCATTTAATTATAAATGTATGTAATTTACTTTTTAATAATGGCTGCATTTAACAACTGGCTTGGGAAAGTTAGGTGGACCATGTCA
Celera SNP ID:            hCV11624906
SNP Position Genomic:     12936
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55664):
ATCTGGGGGAAGAGGCAAGGAGTCCAGAAAGCCACCAGTAGAGAAGGAGGAGAACCAGGACTTGCCTCTGAGTCCTGGAATCCACATGCAGGTGTGAATA
W
TGACAAGAATCCTCACTAGTAATAATAATCCTAATGATAACAGGAAGCACCTGAAACACAAGCTCGACAGGGTCCCAGAGTCAGTCTGGGGATAAGCTGC
Celera SNP ID:            hCV47612
SNP Position Genomic:     15149
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55665):
ATTCAGCCCATCTGGAGTAACCATTTTATTTATTCCTGGTGTATGGAAACAAAACTGATTCCATTCAGTTCTTTGCAGTTAGGTTGGGAAGAATGTGCAG
Y
AGAGGGGTGTGTGGAGGACATGGGAACTTGCAGACAAGGTGGGGATAGTGGCTACTTTGGGGAATCTGGAGGAGCTGGGCGTGGTCATTGTGCCTGCCGG
Celera SNP ID:            hCV11624907
SNP Position Genomic:     14302
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55666):
TACTGAATGAATGGATGGGTGCATTTCCTGTTCTACAGATACCTGTTCAAACTTTGTTTTGTACTTTATTTTGTTAACCCAGTTAATGCTTCTGACAAGA
W
GTTCTACAGCTCCTCCCCACCCCATCAAAGAGGAGGGCCCTTGGCCTCAAATAGGCCAATCAGGCTCTGTTGGTGGGGAGTTGAATCTTCAGTGAGCAAC
Celera SNP ID:            hCV15975515
SNP Position Genomic:     23159
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,4)      total(A,4|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Gene Number:                 300
Celera Gene:                 hCG1771395 - 68000102097741
Gene Symbol:                 STXBP3
Protein Name:                syntaxin binding protein 3;UNC-18C
Celera Genomic Axis:         GA_x5YUV32VTKB(271304..345940)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12460):
AATCCTGCCACCATCACTTGCTCTTAGTCAAGTTGTGTAAATTCTCTCTGAGCCTAGGTTTCCTCATCTGAAAATTAGAGTAAATAATAATCCCTCATAA
AAGAAAATCAGGATTAAATGAGAATGTAAATTATTGGACACAATAATAGGCTCATAACAACTACTTAATAAATGGTAGTTGTTAATTCATATTCAGTTTA
AGCTCATATCACATTCTATTATGTACCAATTATTAACATTTTAATGTGCTACTTCTAACGAAGACATTTGCATTTTAACCTTGGTCCTCATAATACACTT
CCTCATTGATTCTCTAAGTGTGGTCCTGGTGCCAAAAGTATCAGCATCAGCTGGGAACCTCTTAGAAATGCAATTTTTCAGACTCTTCCACAGACCTATT
GAATCAGAAATTCTGGGGCTAGGGCCCAGCCTTCTTTGTTTCAACAAGCCCTCAAAGTGCTTCTGATGGATGCTAAAGTACAAAAAGCATGGCTTTAATT
CAAGAAAGCTATTTCAATGCTGGAAATTTGATGCAAGTTGGAAGGGAAAGGAAAAAAAAAACCTATTTGAGGTGATAGCGGCTCTAACAAGAGGTAGATA
GATGGGAGGGGTTTGTGCCTGACATCACACCATGAGCAGGGGCTGGGGGTGTTCCTTCATCTTTAGGACCCAACATGTTTCAGTGTCACCTGTACATCCT
GGGCAACTTTGAGGAAGCTTCCTCTCTGTGACATACTTAGCAGCTAAACAGGTTTATGTTTTCCATATAAAACTCCCTGAGTCATTAAAATTTTGGAGTT
CCCTGAGGAGCACAGCAAGTTGGCCTGGGGGTGAAAAGGAAAGTCCTTTTGTTTTGAACCAGTGGTCTGGGATTAAAGAGACTCTGGGAGGGTTCATTTG
GTGAAGCAGGAGAGAGACTGCTCTGGTTAGAAACTGCTGATCAGTTTGAACACTTTGTCAGTTGTCATAGTTTCATGTTTACTTGCCGTGAAGTGCTGCA
AAAATAGCATTTCAAATCAACATACACATAAAATCTCAGACACTGGTGCTTTTTAAGAAAATGTCTGCATATTGAATGCATCTTTTACTGCTTCCCTTCC
TTACCCTTTTCAGTGATTTATAGAGGGAAGAGAAATGAAGAATGACAAAGTGAGCCCCAGATAAAAACAAAAACTTGACCAAGTGAGTAACGTAAATTGA
TTTTGTGTGATTTTATGGCAAAGTTTTTTGTCTTTGTTTAAAATGTTTTCCCATTTGTCTTGCAGAGTTGTCTCATTTGTTAGTGATTAGAGATGGAAAA
GATCTACTAGAATGTAGAATAAAAATGCCTCTAGGATAGGAAAAGCTCCTTTGGCCTTTAGAAGAACAACTCTGACTCTGCTTCCTGAGGGCAAGGTCAG
GTGTGTCCTCACCTGCACAGCAGTTGGAGATCTGCTATGTGAGGACTCTGGAGAGAAATGAATCCAGAAAGTCCCCTGGACGGCTGCTAGCCTGAGTTGG
CACACTGTGAGAACCCTGGAAACAAGAAAGTTCTGCTTAGCAGAAATTCTGAGATTTCACATCCACACACACCACAGACTTCAACACATCCACTTCATGA
GTGTTTTACAACAGCACTTGTCTGCAGCCCCCTCAGGGGCTGGAAATGTTCACTCCCAGAAAGTCAAGCCACCCACATGCAGACAGCACTTATCCCAAGA
CAAACCTCCAGCAGGACTTCAGTATAGGTTGGAAAGCAGTAGCTGCCAGGGCAACCTGAGATAACAAACGCCCTCATCGCAAGTTAGGAGCAAAGCTGAG
CTGCTTGCAGGGTTCGCTGAGCCAAAGCATCAGGTGGCGTGACATCTATGGGAGCATCTGGGAAAGCAGAGCTGCCAGCCTGTTGCTAGAAGGGTTGCAG
TTATGCTTTCTGCATGAGAGAAGATGTCAAATGGAGAGCCTCAAACTGTGGCCGACTGACATGCGTGCATCTTTTGGGGGAGGACCATCCATCTTATTGG
CCATATCCCCCACTCATATTGTAATTACTTTTTTCATCTTTGGAGGGGGAAGGCAATGAAATATAACATAAATCTCTCATACCTAAAAAAGTTTGTCCTT
CAAATATCAGTAACCTAATTTAAAACATGTGAGTAGACTTGTATAACACACACACGCACATGCACACACACAGTTATAGTGCTTGCTCCCCAAACACATG
GCTATGGAGCCAAGCATGTCTCTAGTTAGGAACAACCATAAAACTCTGCCCAGGGGGAATTGGACCATGGAATTAGGCTCGAACTAAGCATGGAAGAAAG
AACAAACTTCCCTTTCTGTTCTCTCAACTTCCTATCAACGTGCGCTGCAAGAGAGAAGTGATATGCTTTCTCTATGAGACTGATCAGAGATACGTAATGG
GTCACTAATAAGAGATCTTCCCCAGAACATCTGTACATGAACAGAGACAAGCCAAAGGTATATATCTCTAAAAATGGAATTGGAAGCATCAGAGAGCACA
CCTAATACCCTACAAATACCAAGGCACAGAAAGTGAAATAGCCATCTGCCTAGCTAGGCACCTAAGGCTGAATTGTTTTGGTCAGAATGTCACAGAAGAA
AATGTGATCCACAGTGGGTAAAGATAAAATTAGGTTATTTAACGTGTATATAGCACAAACTACCAGCTTGTAAGTGCTCTCCATATGCTCGTTTTATTCT
CATAACAACCCTACAAGCTAAGTAATAACATTATCTCCTTTATACAGGTAGGGAAAAACGGGCCCAGAAAGGTCAAGTAGCCCACCCATGTTCACACGGC
TAATCAGTTCAAACACAAAGTTTCAGGGAGAGAAGTAAGTAGCATTGGTTAGACCTGCTAATTCATGCTATCTTTCAGTTAAAATTTTAATTTTAATTAT
TATGGGTACATAATAGTTGTATATATTTATGGGGTACATGTCACATTTTGATACAGGTATACAATGTATAATGATCAAATCAGGGTAATTGGGGCATCCA
TTACCTCAAGCATTTATCATATCTTTATGTTAGGTACCCATGATATCTTTTGTTTTTTTTTGTTGTTGTTGTTGTTTTTGTTTTTTTGAGATGGCGTCTT
GCTCTGTCGCCCAGGCTGGAGTGCAATGGCGTGATCCCAGCTCACTGCAACCACCACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAG
CTGGGACTACAGGCACCCGCCACCACGCCCAGCTAATTTTATACTTTCAATAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACC
TTGTGATCCACCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTCCCATGATATCTTTATGGAAAATATTTCTCTAG
ATTATTATGAATAAGTGATCGCTTATTAGAGGAGATCTGGGAATAGGATAGTGAGTGAGTGATCTGCCCTAACTCAAGTGCGTGTACATTCAACCCTCGG
TTATTTTGGCCATTTACCTGCTCTGAATTATACAAAGCAGCTTTTCATCCCTGGCCAGTGTTAGCAGATTTTACCTTCTACTTTGCTGTGTCACATTTAG
GGAATCCAAGTTCATTTTTCAATTTGTTTAGGCAAGCAAACTAGAGGAGACGTAGAGAAACTGCTTAGGGAGCTTATGCAAATCTAGGGGAGCCTGGGAG
GATAGGCAATTTGGTACACTAGAAAGAGCAATGGCCTTGGAGCCAGATGGATCCAGATCCTAGCTCATTTTGAGATTTTTCATGATTTATTTAACCTCCC
TGAGACTCAGTTTTCTCATATGTAAAATGGCAATGGTCATCTTGCTGGGCTGTTGCGAGGTTTGAGATAATATATTCATATTCAGCACACAGGTGCAATG
AAACTGAGGTGTTTGAGGTCACACTGCTAGTAAGAGGCAGAGCCAGATTTTGTAGGATGTAAACCTATGCCTACGTGCAGTTAAAGACCATGCTTGCTCC
ACTATTCCGCAGTGCCACCAAGGACTCTGGCCTTCAGGAGCATGAGCCAGAACTGCACCCCATGTGACCAGAGTCAAACTTCCAACCCAGAGGGACCTGT
ATTATTCCCTGGCACCTGGTCATTCTCCTGAAGGGTAAGAGATGGAGGCACCTCACCCATCTCACTCTTCCCTCTTGGTTTGGCTCTTCAGAGCAAGGGG
CTTCACCTCAGAAGGGTGAATTTTCCCTGGCACATATTTTTCTTATGGATTGGGGCTTCACCCTGCTAAACTAAGCAGAACCTAACTTAAAATGAAAAGG
GAGAGGGAAATCATATGTGCACTTGTTTAAAACATTGAGCAACTGAATCAATTTAGAGTAGGTTTAAAGGAGGTCAGGGCTCCAGCTTCTATTCTCATAT
AAGCCTTGAACAGAAAAACCACTCAGCCATAGGTTGTGCCAGAACCCATTTTATGGCCTTTTTTATTGTTAGATACAGGGTCTCATTCTGTTCCCCAAAC
TGGAGTACAGTTGCATGATCATAGCTCACTGCAGCCTGGAACTCCCAGGCTCAAGCAGTCGTCCTACGTCAGCCTCGCAAGTAGCTACGACTCCTCAGCT
TGCAGGTAGCATGCGCCATCATGCCCAGCTAACTTTTTTATTAATTTTTTTTTTTTTTGGTGGAGACAGCAGTCTTGCTATGTTGCCCAGGCTGGTCTTA
AACTCCTGGCCTCTATCAGTCCTCCTGCCTAGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCAGCCTGTTCTTAATTCTTCATTTGC
CTTTCCTCTCCTAAAAATTGCAGGTTACCCCACAGACTACTCTATTGCTTTCCATGTAGCCCAAGCCTGATCTTTGTTCCCACTCCACCACTAAGTGCAT
CCTTGGCAAGTTACTTGACTTCATTAAGCCTCAGTTTCCTTGTTGTAAGTGTTGCTTTGAGGATCAGTGAGGTAATCTACTTAGCATGGTGCCTGGCATA
TGGTAAGTAAGCACTCAGTAAATATTAGACATTATTATTAGTAGTAGTATCTAACCACTTCTACTTCCCTGTGTGACCAATTTGAATCTTTACAGCCACT
GGTTCTTTGCAAATCCTTCTAGGAAAGCCTACTTTCTGCCAATGTCACATGGTTATCTCACAGTTAGGGCTCTTAGCAACTAAACTGATCTCACTTACGT
TTGATTACTTTGATTTAAAGTCCCAAAGGAACCATCTCAGTAAACAGATCTCTACCTAAACTTTCTGAGCTCAGATCTCCTCCTCTGTGAATCAACTTTC
AACAATAATTGTAGATTCTGAAGCATTAACAGGCCCTCCCTACATTTGTTGCATAAATTTGTTAATAAATGATTATTCTTTTGTTGGTTCATTTATGTAT
ATCTTATCATTAAGGCATTCAATTTTTAAACTAAGTTTTAACTACCTGCAGCATTCCAGGAATTGTGCTCTTTAATTAGATTGTAAATTATTCAGGGGAA
AGAGTTGATCTCTCATTTCTTTGAGTTTCCTAAAAGTCCAGCACAGTTCTTGGCACACTGGAGGGAACCTCACAGTTCTACGCAATTACTGTGTCCTTGA
AAAAATGAATGAAATAATCATTTGGGGACAGTACATTTTCCATTGGGTAGTTGGGCTGGCTACTGAGTGAAGTCTATTATGAATCGCCTTGCGAAGTGAA
GGGTTCTTCTGTAATGGGGAGGATCCTCCAGTCTTCGTGTATGTGTGAACTCGGAATTTCATAGACGGCCTTGGCTCACGATCGGTTTGGCACTTCGCGT
TCCTAGGCCACAGGACGTCGAACCTCGGGCGACAGCAGCCTCCCGCTAGGGGGCTCCCGACTTCCCACGGAGGTTCCACCTGTACTGCGCAGCCTCCGTC
CGGGAGTGGGCGGAAATTCCCTTGCTGACGCGCGTGACGTCACCGGAGGGCGCGGTCTGCTAGAGGGGGTGGGGCATTCCCCTGCAGCAAGGGGCGGGGC
CACCCCAACGCCGCTTCTGCGGCCAAAGTAGGTTGGGAGTGGAAGGTGGTGGCTGCTGCTCCGCAGTGTSGGGAAGATGGCGCCGCCGGTGGCAGAGAGG
GGGCTAAAGAGCGTCGTGTGGCAGAGTGAGTGCGGTGGGGTAGGGGTTGAGAGAGGGAAGGCCGGGAGGCTGCCGTGCCGGGCCTCGTTTTGCAGCCCCA
ACCYAGCGGTCTGTTGAGGAGCCGCCGCGAGCACTTGTTGCTTTGGGACCTGTGTGAGGACTTCTTCCTGCTTTCCTGCCCTGCCTTATTCCTTGCCAGC
ACCAGGGATGGGCGGGGTGCGACGGGACGCGGCCTTCTCGTTGGCGTCGGGCACCCCCTCGCCTCGGCCGCGCTCTGGCCGCGAAGCTCCGCCCCGGGTG
AGCCGCCCGGCCCGGCTTTCCCTCCCGCGGAGCCCGTGCGTGCCCTCGGCCGCGCTCCCCACTCTTCTCCGCTCCCGTCCGCGCTCCACCAGTTGGGGAT
GTCTCTCCATCCGAGACAATYCGGGCGCTGTTTATTCCGCCCCCATCTCCACCCCACACTGGAGTTTGCAAGGACTGTTTATTCTGCTTATTCGTGTTAG
TATCAACCCGTGCTTTTCAAAAAACCTCACTGTTTAACAGACTCATCTTCCCCTATTCCGAGAGGAGCCTACTTTCTGAAAAGTTCTTGAGAAGAGACCA
TTGGAATGACCGGTGTCCAGCCGTGACATCTTCCTGCATAGCCTGGGCAAGAGCCGCTCCTTCCGTTTTCCCTACTCTCGGGGGCCCCTCCCTGCTGTTA
GGACCGGACTCCTTATTGGTTACTGATGTTCTGCGGTATCATCCACAACTTTCATAAACATCGCTCCAAACCTAGGTCTGGCAGGTTAGAGAAAGAATGA
AACCACCCAACAGGAATAACCATCATTSTTTGGTATCTCTGAGTTCAAGATAATTATGGCCTAGTAGTGGAAAGGGAGTAGCATCTAATTAGTATTTCTT
AGTCCAACTTGTTGAACAAAAAACAAATGATTTAGTCAGCAGAATTCTGGGAGTTAGAGTTCCTTGTCTAAAATTAAAAATCCAAATCAGTAACTGGGAT
AGTGCTTAACATATAGCAGGCACTAAGCAAATGTATAAATAGGTGAAAAATATGAAATTATCTTTTAAAAGATTAGATAATTTTAAGGTTGGCATTTGCT
TTTTCAAGATTTACATGGCTGACTTAAGATTTGAGATGTTTTAAAACAATGGTATTTAAATACATTTATGTGAAAATGGGTAACAAATTGTGTTGTATAA
TTTCCAAGATATATATGTGATTAACATCCGCATGTATGTATTTAAGCCAGTTCTTTACATATTGAATCATAAGCTTTTCCCTTTTTCACATTTTCCTTCT
GATCCTCATACAGATAAAGACATTGTTTTTATTATCTGTCATTCTGTGACTTCCTTTTTTTTAAACAACTGACATTGACTCAACATTTTTCATGTTGCTT
CACAATCTCGTAATTAACWTTTTAAATTGCTTTTTAAATACCTTGAGGTGGCAAAAAATTTTGATAGCAGAAAAGAAAAGAAAAAATTATGGCCAGGTGC
AGTGGTTCAYGCCTGTAATCCCAACACTTYGGGAGGCCGGGGCAAGATGATCACCTGAGCCTAGGAGTGGGCAACAAAGTGAGACCCCATCTCTACAAAA
AAATTTTAAAATTAACCATGTTTGGTGACATGCACCTGTGTTCCCASCTACATGGGAGGCTGAGGCAGGAGGATCCCTTCAGCCCAGGAGGCTGAGGCTG
CAGTGGACATTGATTGTGCCACCGCACTCCAGCCTGGGTGACAGAGCAAGACCYTGAGTCTAAATAAATAAATAAATAGCTAGCGTAAGCCCGGGCACAG
TGGCTCACGCCTGTAATTACAGCACTTTGGGAGGCCAAAGCAGGTGGATTGCTTGAGCTCAGGAGTTCGAGACCAGCCTGAGCAACATGGTGAAACTCTC
TCTCTATCAAAAATACAAAAATTAGCCAGGTGTGGTAACGCACACCTGTGGTCCCAGCTACTCGGGAGGCTGAAGTGGGAGGATCGCTGGAGCCTGGGAA
GTTGAGGCTGCAGTGAGCAGTGATCATGCCACTCAATTCAGCCTGGGTGACAGAGCATAACTCAGTCTCAAAAAACAAAAACAAAAATTATTTGGGTAAC
TTTTGGACTAGTGGAAGATTAATTTAGAGATTAGGTAGAAGCCAGTCAGTGGAGGATGTTAAATAGTAGAGTTTAGATTTTATTCTRTAAGCAAGAGYGA
GCATTTGAGGGAATTTCGAGGTGTGTATTAATATAAACAAAGGGTTGTATTTCAGGAAGGTGACTCTGACAGCTGTGTGAAAAATGGATTGAAATAGCAA
AGGTGTTGGAGGTGGAAAGCAGGAAATCCAGATAGGATTCTATTGCAGTACTTCAGTGAGAGAGAAGAATCAAGTCGATGCTGGGTGACAGTAGCAATGA
AAAATAATAGCTACCAGGGAGAACAATCAATATGCCTAATAGGTGGGCGTGGGGAAAGGAGGAAATAGACAAAGACAATGACTAAGAAAATGACAATAAT
ACTTAGAGAAATAAGTCTAGAGTAGTTTTCAGGGTGCTGTAATCTCAACTTGAGACATGTAGCTGCTTGTATCTGTATTGCGTAGTTGAATGAAGTTCAA
AGAGAGAAAGGCTGTAAGATTGTGGAAAATCGAAAGATTAATATGATAGATGAAACTTTGATGATGAATATGGTCTCTGAGAAGACCAGCCACAGGAGCA
AATTCTCTTACCTTTGCTCTGAGAACAAGCAGAGCAAAAGTAAGAGAATTGAGTCTTGAGATATATCCATATTTAGGATGCTAGAGAAATGGATATAAGG
TCAAATGATTTTCATTAGTATTTAGAGGAAATACCTCCTTAGTTCTATAGTATTTGTTGATATGATTTCCTTTGACTCCTCTCTAAACATACCTACCTGT
GACTGTGTCACTTTTTATGGGTGCCCTTACTATCTCCATAAAACTAGTTCKTTCTTTTAGACAATAACACTGACTCTGTAGGTATCTTCAGATTCTTTTT
ATTTTTTCSTCTGGCAGACACAGGTAGATCCAAGTATCTTCAGATTCCAAGACAGTTCTATCATTAGAAATTTAAAGCACATATGTAATTTTAAATTTTC
TAGTAGTCACATAAAAAGGTAAAAAGAAAAAGGTAAAATTAATATATTATATTTGACCTAATAAGTTTTTTACATTCCTTTTTTTGTGCTAAGGTTTTTT
GAAGTCTCATATGTATTCTGTACTTACAGGATATCTCAGTTCAGACTAGCCACATTTCAGGTGCTCAAYAGCCAGATATGGCTGGTTTCCACCATCTAGG
ACAATGCAGTTCTAAGGTTTCAAAGACTGTAATGAGATGACTTCTGCTTGGGGAGCTTTTCTCCAATCTGCTCCATCATAAATTCCATGAGCATTCATTT
CTTAAGAGAAAGACACAAATAAATCTGATAAAAACAAGCAAATGTCTTCAATTTTCAGCTGTTTGAGGTATAAGGAATGAAGCTAGCTTTGAAAGGAAAA
GCAGCATAATATTTCTGTATCTGAGCTCTACCGGAGAAAATCCTTTATTTTTGCCTGTAGGGTTCTAGAAGCCAGCGCTTTTGGCTTAAATTATGGTTAA
ATATTTCGGACTTTCACCATAATTCTCATATAACACTATAATCCTCCTAGCAAACAATATATAATTATCTCAATTGATATTTCATAACACTTCCAAATCT
TCTCAATCACARTACAACCTTCCAGATCACAATTCTAAAAATGACTATAAATAACTGAATTGCTTTTACTAACAACATTTCTGACACCAAATATGTGTTT
TATTCCCCCCTCACACCAACCAGTTCTCCAACTCTGGACACCAGCTGTATTAGTGTCAGAATTGAAATGAATTGTAGGATATCCAGTTAGTTAGGAACTA
GTTAGCTAGGAACACTAGTTAGTGTCAGACTCCACAGGTTTAAGGGCTCAGTCTCACAATACTGCCTTCACTTCAAATGCCAGTACCAAGTCCCTAGGTT
ACCCACACTTCTGTCTGTCTTGGCTACAAAGTCAGGAATTCCTACAACCTCCCTTCCCTTTCAGGTTCATTAATTTGCTGGAATGGCTCACAGAACTTCA
GAAAACGCTTAACTTACTATTACCAGTTTATTACAAAAGATACAAATGAACAGCCAGGTTGGAGAGGTACATAGGGTAAGGTCAAAAAAGGTCCTAAGCA
TAGGTGCTTCTATCCACATGGAGTTGGGTGTCTCACCCTCCTGGCACATGGTTTGTTCACCACCTTGGGAGCTCTCCAAACTCTCTTAAGGGGTTTTTAT
GGAGGCTTCATTATATAAGCATGAATGATTACATCACTGGTGATTGAACTCAATCTCCAGTCCCTCTTCTTTCCCAGAGGTCCTGGGGTGGGGCTGAAAG
TTCCAACCCTCTAAACATGGCTTGGTCTGGTGACCAGCCCTCAATCTAAAGCTGTATAGGGGCCCCTCACCCAAGAGTCATTTCATTTGCAGACGGAAGA
GATGCTATCACTCAGGAGATTCCAAGGTCTTTAGGGGCTCTGTGCTAGGAACAGGGGGTAAAAACCAAATATTTTTTATTGTAYCACAGTAACTGTTATT
ATTTATACCCTCTGATAGAAGAGCCGTCAGTTTTTAACATGACTTGTTACCAAAAACTTGTTGATAAATTTCCCAAAAGCATTAACTTAAATATAAATTA
GGAAATAGAAAAGCTTAAGTTAATGAAATAACCATCTCATTAATAAGATTTAATGAAAAATAGGTTACTATAAYTTATATTTTAATTATATTTTATGTAT
TACTATGTATTACTACCGATTTTAAAATCAATTGAACATTAATAAAACATAGTGTGGGAAATTGTTTTATTAAGTAGAACAGATATTTGTATAAATTGTC
CACATGAATTATTTAATACATAATGGAAAATGTTTTTAAATCAGTGAACTAATTTTTAAAACATATTTAGATAATTTTGAAAGTCATTGTAAGGAACATA
TTTATTGATTATAAATCAAGACTGAATATTGGTATCCAAATGCTGTGATATGTATTGTTGAAAAGCATAATGTAGTAAATCAGTATGAAAAATKTTTATG
CAGATTTGATCATCAGATATAATTTAGCAATGGGCAACTTAAGGATGTTCCCGTGGGTTTTTTGTTTTCATCTTGTTTTACTTGGGATTTAAGTAGAATA
GGAAAAACCAAATCAGGTAATAATTTTAGAAATATTTTCTCGGTACGTTCATGTACTTAAATATATTAACCCTTTTTATAATACCTTTTAAAGTTAAAAA
ATTGATTACAGTTTAAATGTACTGTATAGGCTAGGTATTAGAATTGGATTTTTCCGTAAGGTTTAACAAATATGTATGCTTTTTATGTAGTTTAACAAAT
TTCAAATTGGATTTTTCCTTAGCCATTTTGGACCCTTTGGATTACTATGTTTCTGTTTATTTAATTCCTAAGTAATTCCTTTCTTTTTTAAACAGAGATA
AAAGCAACAGTGTTTGATGACTGCAAGAAAGAAGGCGAATGGAAGGTAGAGTTTGCATACCTTGCTCTTATAAAAAATAATACAAACTTTAAAAACAATA
CAGTATAAAAACTACATAGTATTTACATGGTATTAGGTATTCTAGTATAAGTAATCTAAAGATAATTTGACGTATGTGGGAGGATGTGTGTAGGTTACAT
GCAAACACTACACTATTTTATATAAGAGATTTGAGCATCCATGGATTTTTGGTATACACAGGGGTCCTCGAACCCCCATGGATACCGAGGGATGACTATA
TAGGGTCTGGAATCACACTGCTTGGCTCCAAATACTAACTTCACCACTTAATAGCTGTGGCTCCTTGCACAAGTTACTTGACCTCTCTCTGCCCCATTTC
CTTGTTTATAAAAATGGTGATGGTAATACCTCATATGGTAATTGTAAATATGAGGTGAATTAATCCATGGAAATTACTTAAAACAGTGCTTTGTGCAATA
ATTGTTCTACAAGTGGCAATTGTAATTTTAAGAAAATTTGATGTTAAACAGTGTCATTCAAAATGAATAAGCTCTATGTTTCAAATTAGAAATATTTCTG
TTTGTTTACTTATGTACGATACTATATGCATGTATATTGAGAAAATCTCTAGCTCATGCAAGATAAAAGATGAGATCATTTTGCCTACTGTTCTGATATT
TTGTGTTATAAAAGGCTTATAAAGTTTAATGGATAAAATTCTTTTTTTCATTCTTGGTAATAGGATGCTTACAGTATTTTTAAATTTGTGTTTGTTTTAA
GATAATGCTTTTAGATGAATTTACCACTAAGCTTTTGGCATCGTGTTGCAAAATGACAGATCTTCTAGAAGAAGGTATTACTGGTAAGTGTTATTCTTGG
CATGAACACTTTTTAATTGTAATTGGGGGAGATCTGAGGTATTAAATTTTAGTTAGTAGTTGTGTTTCTAAGGAGCTTATTTTTTTAAATTACTGTAGCC
ATAACTATTAGATTTAACATTCTTTTCTCTGAATCTTCTGTCAGTTTTTTTCCCTCAGCCGAGACATTAATWGACCTCTAACCARGCCTAACTTAATTGC
TTTGTTGAGGTTGTTCTTTAAATGTTTTACTCATATATACWTATATATATATAAAACAATTTTGTATATTGATACACAAGCTTTACTTCAGTATTTTGAT
TTAGTTTATGGTTTCATATATCRCTTTAAAATGGATATCAAGATTTATGTCATAAAATCAGCTGTTGTACATGTTTACAAATGCATAATGCTGACTTCGT
AAATTTATCTTTATTACCAGAAATGAGACAAATAATTATAAGTTTAAATCAGTTTTAGTATGAAAATTTGAAATACTTACAGATTCTGAAAAAAAATCAT
AATGTCATAAGAAGTTATCTTCCTCTAGGCGGGATTATGTTATTGAGATATTAATCTGTATTACCTATTGAGGAAAATACCAATATCTTGTAACATGCAT
AATCATGTTATTCTTAATTCATCATCCTTTAACTCACTTATTAAAATTTGATCTTCATAATAACCCTATGAAGACAGATAAATACTCTCATTTGTAATGA
GGAATCTGAGGCTCCAAGTGAAATATAATTCATTTATATTTTGGATCCTAATGTAGTTTATGTACCGTCTGTTACTCCTAACTTAATGAAGTTCAAAAGT
ATACCCAGTATTCTCAAGAAAGTCTGACCATATAATATTTATGTTTTGATGTTTACACATAAAATAATCTTTTTTTTTTTTTTTTTGAGACAGGATCTCA
CTCTGTCACCCAGGCTGGAGTGCAGTAGTGCGATTTTGGCTCACTGCAGCCTCCTCCTCCTGGGTTCAAACAATCCTCCCATCTCAGTCTCCGAAGTAGC
TGGGACTACAGGCACACACTAGCACRCCCAGCTAATTTGTATATTTTCTTGGATAGAAACAGGGTTTCACCATGTTGCCCAGGATGGTCTCAAACTCCTG
GGTTCAAGTAATCCACTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTAAGCCACCATGCCCAGCCATAAAGTAACCTTTATTGTTTATTACATA
TTCAATTGTGGTCTTTCTGACCCTCAATGTAAAAAGCTCTAAACTAGAAATTAGAAAATTGAAGCCTTGATTTTTCTACTCCTGGATAAGTGAAATATTG
ATTAAGCCACTTAAGTTTTTTAAGTTCTGAAAGGTCATTCTGATGTGAAACTAGGGTGAGAACCATTTGATAATACATAAAAGTTCTGTGGAACTGCAGA
GCCATTATGCACTGTAGGGAGGTTTTATTGCATTTTGTAGACCATTGTTTCTTACTGTATGCTCACTATTAATAGATATTCTTCAAGGAAGGGATTCCAT
GGCCAGTACATTTAGGAAACAGTATTAAACAGAGCTCCACAGCTTTCTTTAGGACTTAAGAGTCTTTATATGCCAAGGTATAAGTGGATCCCCTGGGTAA
AATGATAGTATTCAGTTTTCTAAACTTATTTGGCCACAGAAAGCTATTTTTGAGAAGCATTTCATAGGACTGTATATCATAGAGCTCGCTGCTGTGGGAT
ACCTTTGATATCCTCCAGAACCACCTAAGTTTGCTATGGTTTAATTGTAGTCATATCTTCTAACTTAAACTCAAAACAGTCCTTTTGAGTTCCACATTAG
CTCTCCTGAAAATCCCTCTATGAAACTGGGCACTGGCAGGTTCAGCAGTCAAACTTTCTGTTGTCATTCAGGTCATTCATGAAAATATTTAGTAGTGTCT
TGGGATTAAAACAAAATCGGGAAAAAAAATGCTCTGTCAGGATTTGCTACTTGAGTGGAGAATAAAGTCAAGTATAAAACCTTAAAAAAAATAAACTGAA
GCTGGGTACAATGACTCATGCCTGTAATCCCAGCACTTCGGGAGGCTGAGGCAGGAAGATCACTTGAACTCAGGAGTTCAAGACCAGCCTGGGCAATATA
GTGAGACTTTGTCTCTACTAAAATCCAAAAAAATTAACCAAGCATGGTGGCACATACCTGTAATCCCAGCTACTTGGAGAACTGAGGCAGGAGGATTGCT
TGAGCCAGGGAAGTCAAGGCTGCAGTAAACCCTGATTGTGCCACTACACTCCAGCCTGGGTGACAAAATGAGACCTTATTTCAAAAAAATAAATAAAAAG
TAAAAAACAGACTGGGAATTAGATTTTTTTTTTCACTATTAAAGACCTTTCTCTTTGTTTTTTTAGTTGTTTGATAGATGTGTATTTTTCAGTGAATGGA
GAAGTGGCACTTTCTGTTATTAATAAAGAGATTTCAGAATATTTTCAGAGCCTGAGCCCTAAATCATATYTATCACAGTATTTTCAGTGTTTTAACAAAT
ACATTATTCACCAAACAAAATAATATGTATAGCATGACTGTAAGACACTCCATTTTGAACATTAAACAATTGAAATAAATGAAAACAGATTAAACCTTAA
TTTTTTCAAGTAAAACTATAATAGTTGAGAATGAAGATAAAAAGATTAAATTTTTCCTTGGAAATATTATTTGATTGTCTAGTAGTAGTTATGATAAACC
TATACATTACTAATATACATTTAGGAATGAGAAAAGGAAATCACCATATTTAAAAGAGAAGTCCAGCAGTAACCTCTCTTGCCCGTCACATTAATGTTAA
TTCTTTCTAGGCCCTTTGTCAACATGAATCTTGAAAGATGGTTCCCTGGATTTGTTGAAGGATACTTTAAATTAGTTTTAAGAAATATATATGTAGCTTT
AAATAGTTAATTTGACAAAGTTTATTAACTTTATATTCACTTTGCTTTAGCTAATCTTATAAACTGCTTAATTTCCATAATAAAAAATATAATTGACTAA
ATTCTAGTGATGTTCTGTTGTTGAAAAAATACTTTATAAATATGTGTGGTTTTGAAAGAATAGGCGTTAATTGGCAATTTATTTAAACAGCATTGTGGCA
GGTAAAAACTTGGGCTCTGGAGTCACATCTGGGTTAGAAGCCTGCCTGTTCCACTTCCTAACTGTGTGATTGGATAAGTTACTTCTTTAAGCTTCAGTTT
CCTCATTTGTAAAATACTTGCAAGGTTATTATGAATTTTAATGAGTAATTCATGTAAGAAAATGAATTATTAATTTAAGAAATGAATAATTTCTTACATT
ATTCATGTAAGAAAATGAAGAATTTTTATTTTTCATTTTTCAGGATTTTAAAATGTATCCAGTGAAGACAAAGAAAATGTTAAACCCAGTAAATGTTTTT
GTTTTCATATTATTTGTAAATGTATTTTCATATTATTATAAATGGAAAGTACAGTAAAGTTTATTTAAAAATTATTTTAAGTATATAAATATTTGGTTAT
ATAAAATGACCTTTTTTCTTGTTAGTTGTAGAGAATATTTATAAGAACCGTGAACCTGTCAGACAAATGAAAGCTCTTTATTTCATCACTCCGACATCAA
AGGTGAGTATTTTGAGACCTTAAAAAGCAGGTTCATCAATATTTCACCATTGTTATGGTTTACTAASAGAAAATTCAAAGTAATAAAGTACACTTTAGTA
GAAAAATATTGCCATAAACTAGTTTGCTTAGGAAAGTTTTTTTCTGTGTTAGAAGATTATTTGCATTCTTCCGAATGAGAATGTATAAGTAAAAGGATTC
CTTTTTTCCCCATATATGAAAGCAGAATTAAATTGTATAAAATAACATTTCTTTGCATGTTTTGTTTTTCATGCAGTTCCTATTGAACTATACCTTTTGG
GGGGATGGTAATGTAGGTAAAAGAAATAATCTATAGTCTTGGATTACTTCTTTATCTCAGTGACTTTCCTGTAGCATATTTGTATGTATATATGAAGATG
GGTATATATGTGTGTATGTATATATTTTATGTGAAAGGAAATTCTTTAGTTTATAATCTGACTCTATGACCTAACTCATACTTGATGCCAACCTTTCAGA
GCCAAATTATCAGATTTCTTTATTCTGTACAATATCTGAGAATGCATTTTTGAAAACCTGATCTCTCACTTATTCCCATGTAGAACGTTAATTTGGCAAT
CTCTGTTTCATTTCACTTCTAAAAAACTTTAGCAGACATTTTTAAAAAAACAAAAAGATACACACTTTTTAGTCTCTACATGTTGGCTGCTAGTGGGTTT
TAATGACATTTTATATCTTATCTGTAATATAATTCCATAAGAGAAAAATTCATGATTGGAAAAAAAAATGCAACTTAAAAGYACCATTTTTCACCTAGCA
AATTGGCAGAGGGATTTAAAATATATATATATGGGTATGTATGTGTGTGTGCATTCTGGCTATTCTGGTTATCAGTGGATAATGGAGCAGAAACTGCCAT
ATACTGCTAGTGGGAGTATAGATTGATACAGCCTTTTTGGAAAATAGTTTGTAATTTGTTATCAAGAACCTTAAAAAATGTTTTATATTTTAGAGTTTAT
TGTTAGGAAATAAATAAATGGTTTAGCTAAGTTTCTAGTAGTAAATAAATCTAAWTAAATTTTAGCATTAATAAATAATAGACCATATGATGATATCTGA
ATGAAATATATGAATAAAATGATAAATAAATGAAAACCCATGTGGCCATTAAAAATAATTTTTCTAGGGGTTGTTAGTGACCTAGATAAATGTTCATTTT
GAATGTTAAGTGACAAAAGCAAGATACAAAATTGTATATTCCTCATTCTTGCAGTCACCTACCAAGCTTTGGATCTTTCTAATCACTTGATAGTTTAAGC
TTCTCACTCACTGTSTCTCACTTCAACACTTCTCCAGTCATAAGTCTTGGTGGTTCGTTATCCATGTAGATGATACTTATAGTATGTTGGTTTCTAGTTC
CTTAATCTGTTATATTCCARTAGTCTTGTCTTCTATGTTGTTTCAGTTTTCCTAGACCTCTTCATTGCCAATAAGAGCATCCTGTTCATACATATTACCT
TACTCTTTTTTTTTTTTTCCAAAACCAAAAATGGTTAATATTACCTTACTCTTTTTACCTTACTACCTTATTAGCTATCACTGGCTGGAGAACATAGCAT
CTTAAAAAATCAGTTTATAAATTAAACTTTTAGCCAGTAAAGTTTTATTTTGTCACTGAAATAAAATAATCTTAGTCATTTCAAAAGGTAACATATTTAA
ATTAATATTTAATAAAATGTGTATTAACATCTAACCTTTTTTAAGTCTGTAGATTGTTTCTTACATGATTTTGCAAGTAAATCGGAGAACAAGTATAAAG
CAGCATATATTTACTTCACTGACTGTAAGTCTTTTAAAAAGTTATTGCTTCATTGTTCAAAATSCCATTGGTTTTAAACTGTCGACTTTTTAAAAATCAG
CCCAAAATGTCATTAAAGTATCTACTTTTTATAATATTATTTCAGTCCTGGTGATTTTCTATTTATCATTTGTTCTAATTAGGCTAGAAAGAATCTAAAA
ATGTAAGATTATATCTATCCTAATTCATATTAASGTGATAGAAAATTAAAAGAAACTATTCCCAACTGCTTTCAAAAGACAGTCATTTTGCTGGGATGCT
GGGATGTGAGGGATGGGTGGAGAGGGCTAGCCCTCAAATCCTGTGCTGGTGACAGGAAGAAATATTTTTAATCAGCATTTCAGTTAGGGATTTGATTCTC
TTGTGAAAAACAAAGACCTTTTGAGAGGGCACTGAAGAAAACAGCCATCTGTTTGGCAAATATAAAGGGAGAAAATCTGTCACATTTATCTTACTCTGCC
ATATGATCACATAGAAAACTGGTAACTAAAGAATCACAGAGAAGTCCAAAGACACATACAATTCTGTCTTATGTTAYATGTTATATAATATACTTCAAAA
TAAAAATATCATATCTAAGTTAAGTCTTGGTCTCTGCTGTTAGAGATTCCTCACTTTAAGTAAGTAGTATATCATTTTTCCTATAAATTTTTATCTCATG
CCTAATAGTTTGCATTTTTAAAAATGTCACACCATAAGTATTTGTAATGTAACCTTATTATACAGAGCATCATGTTTATGGAATTGATGAAATTTAATGA
ATGTGAACCCTCTTTTAACTTAAGGAATCTTAAGGCTAAAGAATATCATGTTAAAAGATACTAGGAGCCAGTGGTTGATATTCCAACCTAGATCTARTGG
AATGATAAACTCTTTGATGAAAGGGGAAAAACACTGGCTCTGAGTTCCAGAACTTAGTATTATAGAGTCTTAGAATTTTCTAATGTTAGAAAGCTGCCTT
TAATTGAAGGAAAAATTAACCATTTGTGTTGTATGATTGTAGTATGGATCACTTAGTGGCAATTTGGAAAAGTAGTATAAATTTCTAAGATGTCCTGAAA
GTGCTGCTGTTTGTTAAGTCATAAGTTTGGACTTGATTTTTCTTCCTAACAATTTCAGTTTGCTCTGTTAGCAGATCTTTAAGGAAATACATCTGAGGTT
GTGGTGGATGTGAATGGGAAAGATGGAATTTCTGTTATAGTCCTTTTCAGTAGAATATATCTTTTGTAAAGCAAATAACAATATTTATATATTATTTATG
TCCTCATAATAACTGTGAAAGCCAGTAATTATGTATAACTATTCTTGGATGTTGGAATGATTTATTTAAAAGGAATAAAATCTAGATGTAACTATATGCT
TTGTTTTTTTTTCCCCTCAGTTTGCCCTGATAATCTCTTTAACAAAATTAAGGCTTCTTGCTCCAAGTCAATAAGAAGATGTAAAGAAATAAATATTTCC
TTCATTCCACATGAATCTCAGGTACTTTCTATTTTTATTTTTTAGTTCATGAGAGGTTTCAAATTTGGTTTTATGGCTTATTGTTAATAAAGTATATTCT
GAAGATATTTTTTATATGTATTTGGTGAATTTTGAACCTAATCCACAAATAGACATTTCCCATGATGAAGTCAGACGCGTGAGCAATAAATTGGAATTAA
AAATGAATAGCAGGGCTTAAATTTCATATCTGCCACCAAGTCCTTTGTCAAATTACAGAACTACCAGGTTATGAAATCAAGAGAGTTTTGAGCACAGTCT
TTGTTAGATGACTCCAAAAAAAGTGTTTCATTTAGCTTGTGTAACCTTTTGTGATATTAAAACAAATGCTCTTTAATAAACTTTTTATATAATATTATGT
AAATTATTTTAATTTATAAAGTGAGGGGATTTTTGACTTGTTTTGCCTTTGGAACATTGAGCCTTCAATTAATAATAGCAATGATTATAATGATATAAGC
AAACACTCATATAATACTCCCTATGTGTCATATACTTTCCTGAGTGTTTTACATAAATTTATTCATTTAATCCTCACAATAGCCATAGTAATAGATTGTA
CTTCTCCATTTTGAAGATCARGAAATCAAAGAGGTTAAGTACCTTGCCTCAAATCACACAGCTAATGAATTGTTAAGGTTTGTTTTGCTCTGTTCTCTGT
GTTTGGATTCTAGCATTTTATAGAATTGAAATAGTTGACTGTTGTTTGGAACTATGATCAATATTTTAAGGGATAGACAAGTCCTAGACAAGGGATTTCT
ACTATATTACTTTTAAGATACTGCTGGGTTTTTTGTTTTTGTTTTTTTCTTTTTTTGAGACTGAGTTTCGCTTTTGTCACCCAGGCTGGAGTGCAATGGC
GCAATCTTGGCTCACTGCAACCTCCATCTCCCAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGTTGAGATTACAGGCATGCGTCACCACACCT
GGCTAATTTTTTTGTATTTTTAGAAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTGCTGACCTCAGGTGATCCAGTATCCTCGGCCTTC
CCAAGTGCTGGGATTACGGGTATGAGCCACCACGCCCAGCTGATACTGCTGTTTTTGACAAAGAAAGATAATAATCCAAATTATAAGATTTTAACATATC
TGCTTAACATTAAACTGTTTTCCAAAAGTTTCCTTTAAACTTATTATTTTAATATGTAAGTTTAGGGTGAAAATGAGCTTCTGAAAATGATGTAGGATTT
AAGTGGTAGTGTGAGAAATATTACAAACATTTCTAGAACATCTCGCTTCACAGAAGATAAATATAATTTTAGCCCCAGAATTTATTAAAATTCTGCAGTT
GCTGCATTTGAAGGAATGATTTGTGTAGATATCTGAATAATTTGATGGTGAATAGAAATAACCTGTCTTTGCATGTCTAGAGAATGCTCTTGAGAAGTTT
CTACTTATCAGTCTTTACAAAATATTGTGATTATGTAAGGTCCCATCTGTGAATGGTTTTCCTATAAGAATTTTTTTCTTTTAATTTACTTACTTGAAAA
GAGTCTTAGGAGGGTATACTTGACTGGGCACAGTGGCTTACCCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGTGGATTATGAGGTCAGGAGTTCA
AGACCAGCCTGGCCAACATAGTAAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCTGGGCATGGTGATTAGCACCTGTAGTCCCAGCTACTTGGGA
GCCTGAGGCAGGAGAATCATTTGAACTGGGGAAGCAAAGGTTGCAGTGAGCCGAGATGGCACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCAT
CTCCAAAAAAAAAAGAGGKTCTACTTAATAAATCTAACTGTTTTGGAGAAATTACATTGAAAATATTTTGGATTTTTGATTGTTTGCAAGTGAAAATGTA
AATGAAATACTACTAGGTGCTTTGAGCTGTGAGCAAAGGCCTACTGAGCATTTATCAAGATTATGTTCAGTGGACGTTGTTTGTTAAATGCAAAGCAGTC
TACTGTGAAAAGATGAGCAAGATATATGTCCTACCCTCATTTGAATACTATAAAGAGATTAAAAAGTATTAGACATTTTCAAAAACTGTTTCAATCATGG
TTAAATCAAGTAGGACTAGGCTCAACTAATTAAAAGAAAACTCTGGACTTTCAGTGGATTACACAACACGGAAATTTATTTCTTCCTAATACACAAGAAA
TCAGGAATAGKCTATATAAGGGTGATAATGCTGGCTCTATGAAATTGTCAGGGGTCTAGTCTCCTAGGCATGGCCCTTATGATCTAAGATGATTGTAAAT
TTTTTTTTTTTACTGTTATATCTTTTTTTTAATTTTAAGGAATGTTATTTTAAAACATTATAAAAATCATAGGCTTATTTCAATATTTTAAAATATCTTC
TGTAACATTCCACTCAGAAGGTAGATAACAAAATTCTTCCCATAGGAAGGGTGCCAATGGAATGTGATATTATATTATTCAGTTATTCCATTTTTTCTTC
CTACCTCATTTTTGCTGAAGAACTGCTCACTTAATATCCTGGGAGTGATCTTGTTGAAATTTGCCACCATCATGTTGAAGCAATGAACCTTCACCCGTAR
TATAATGAATGTGACACTGCTTATATCTATCCTGTAGGACAGCTAAAAGGACAAGACCTCAGCATCACATGCCAACCAGTCTGTTAGAGCAATCACACAC
ATAACTACTTTTGCCAAAATCCTCCAACTTAATTTTTAAATAGCTGAAATATAGTCAAGGCCATATGGGTACTGTACCTGGAACTAGAAACATACCCTTT
TCACACACATTCAGTGTTACAGCAACAGCATCCTGGGACAGGTTAGGACACAATCACATTTTTTAAAATCAAGAGTAAGAAGTAAACATAAAAGAATATT
TGCACAAGGCACAGAATCCTGTTTCTTGGCAATAGACAGAAAACAACTGGCTAAAGAAATAGGTTTACAGATAGATACAATCTAGAATTTGATTCTTTGA
GTATTAAACTTGGAGACATAGCTATATACATTCCAACATACAATCTAATATTTTACATTAGTAGTTTCTTATTCAATATTTAAAAGAAAAACCTACCAAA
AACCAACCCAAATTATATTTATTAACCATTGGATAACCCCTTTTATCCTTTATCAGCCACTTTACTCCAGGTTTGATTAGTGTAATCATGAGATTGTCTA
GCCTAATGCTCTAGGGAAAATTCTGTGGGTGTAAGATGATGCCTTGCTGTGGAACCATTAATTATTAAGCTCCAAGTGAACTGAAGCAGATATTTATGAA
ATGATGATATATTTCCAAAAATACGAAAAACAGATAAGGCAGATGGTAACTCTAATAAGAGTCACTGAAGKATTATAATGGCACTCTGGAAATGGCTCAT
AGCAAAACCCAACTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTACCCAGGCTGGGGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCACTTCCYG
AGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATYACAGGCATGTGCTACCATGCCCAGCTAATTTTGTATTTTTTTTTTTTAGTAGAGA
TGGGGTTTCTCCATGTTGTTCAGGGTGGTCTTGAACTCCCGACCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATCACAGGCATGAGCCA
CTGCGTCTGGCCCTAACTTTTTTTGTTAACTTTTAGGTTTGGAGTACATTTGCCAGTTTGTTATAGGKAAACTCATGTCAAGGGGGTTTGTTACACAGAT
TATTTCATCACCCAGGTACTAAGCCTAGTACCCAATAGTTATTTTTTCTATTCCTTTCCCTCCTCCCACCCTCTACCCTCAAGTAGGCCTAGTGCCTATT
GTTCCTCTCTTTGTGACCGTGTATTCTCATCATTTAGCTCCTACTTGTAAGTGAAAACATGTAGTATTTGGTTTTCTGTTCCTGCATTAGTTTGCTAAGG
ATAATGACCTCTAGCTCCATCCATGTTCCTGCTAAAGACATAATCTCATTCTTTTTTATGGCTGCTTAGTATTCTATGGTACATATATATAKAGAGAGAG
ATACCACATTTTTTTTAATCCAGTCTCCCACTGATGGGCATTTAGGTTGATTCCATGTCTTTGCTATTGTGAATAGTGCTGCAGTGAACATATACGTGCA
TGTGTCCTTATGATAGACTTATATTCTTTTGGGTATATACCTAGTAATGCGATTGCTGGGGCAAATGGTAGTTCTGTTTTTTAGGTCTTTGAGGAATCAC
CACACTGTCTTCCACAATGGTTCAACTAATATACATTCCCACCAACGGAATGTGAGCGTTGCCTTTTCCCTGCGGCCTCACCAGCATATGTTATTTTTTG
ACTTTTTAAAAATAGCCATTCTGACTGGTGTGAGATAGTATCTCATTGTGGTTTTGATTTGCATTTCTTTAATGATCAGTGATTTGAGCCATTTTTCATA
TGCTTGTGGGTCACCTGTATGTCTTTTGAAAAGTGTTGATATCCTTTGCCCACTTTTTAATGGTTTTTTTTCTTGTAAATTTAAGTTCYTTATAGATGCT
GAATATTAGACCTTTGTCAGATGCATAGTTTGCAAATACTTTCTCCCATTGTATAGGTTGTCTGTTTACTCTGTTGATAGTTCCTTTTGTTGCACAGAAG
CTCTTCAGTTTAATTAGATTTCATTTGTCGGTTGTTGCTTTTGTTGCAATTGCTTTTGGCGTCTTTGTCTTGAAATCTTTGCCAGTTCCTACGTCCAGAA
TGGTACTGCCTAGGCTGTCTTCCAGGGTTTTTATAGTTTTGGGTTTTACCTTTAAGTCTTTAATCCATCTCGAGTTGATTTTTGTATATGGTGTATGGAA
GGGRTCCAGTTTCAGTCTTCTGCATGTAGCTGGCCAGTTATCCCAGCACCATTTATTGATTAGGGAGTCCTTTCCACATTGTTCTTGTCAGCTTTGTCGA
ATATCAGATGGTTGTAGGTATGCGGCCTTATATATGGGCTCTCTATTCTGTTTCATTGATCTGAGTGTCTGTTTTTGTACCAGTGTCATGTTGCAAAACC
TTCTTTTCTGTTAGGTTCATCACATGGGTGCAACCATTGTCAGTAGAAAACAAACAGGAGCCTCCATGGGTAGGCCCACGCCAAGGGAATTTTCCTCTTA
TGGATCCACAGAAGAAAAATAATTTTTGGTGCCATGTGGCTTGTCCTTATCTCCAGCAAAACAATCTAGTTCCCTCAACCCCATTGTGTGTCTGGGAAAA
GATAGTGAAAATATTTCCATAAGAGGCAAAGACTATAACAAAGCTACAAGCTCACTGTGCAAAGGTGTGAAAATGTCATGGTAAAAAGCACCACATGCYA
ATTTTTTTTTTTTTTTTTTTTTYTGAGACGGAGTCTCATTCCATCRTCCAGGCTGGAGTGCAGTGGTGCAATCTCGTTTCACTGCAACCTCCACCAGGTT
CAAGCATTTTTCTTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGACAYGTACCCCCACGCGGGGCTAATGTTTGTACTTTTAGTAGAAATGAGATTTCA
CCATGTTGACCAGGCTGGTCTCAAACTCCTGACCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCTCCCGGCATTTTTTTTTTTTTTTTTTTTTT
TTGGAGACAGATTCTCACTCTGTCACCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTTCAGCCTCTGTCTACTGGGCTCAAGCGATTTTCCTGATT
CAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCAAGCCCAGCTGATTTTTTGTATTTTTAGTAGAGACTGGGTTTCACTATGTTGGCCAGGTTA
GTCTCAAACTCCTGACCTCAAATGATCTGTCCGCCTTGGCCTACCAAAGTGCTGGGGTTACAGTTACAAGCCACCGTGCCTAGCTGATTTTAATAGCTTT
TTTTTAACTGGAGAAATCTATTTRTTATGTACACACCACAGAAAAATTGCCCCCGCCCCTGAAAAAAAAAAGGTCATGCAAGAAAATCAGATTCCTAATA
TAAAAATGTATATATCTAAAGTAGGCAAAAATATGGTTTATGTTTTAAAAAGAAAATATGTAAAATTTCACTATGAAATGCTTTGATTTGCATGTGACTT
AGTACTTATTTCATATTAACCATATCCAGTTGCTATGATAAGTCTCTATGTTTTAGAATAGCTATTCTTTAAAAATATCTATTTTTAAGCCAGAACATAT
ACGTTACATTTGTGCATCCGTGTGTAAGCTATCCTGCTTGGTATGGAATCAAGATACTAAAAGATTAATAAAAGAAGTTTTAAAATCTTCAGTCACAGAC
TAGCAAAGAATATATTTCTTCAAGTTTTCTGGGCCACACTGCTGACTTAATATTAATGCAATCTGAATTTTCAGATGTAAATACCAGTGAGAGGTTGGTT
GTCAAAACTTAAAAGCAGTTGAGTTGGGAGGACCTTCACAATATCGGCTCTTAAATCATAAGTAAAATTATTCTTAGAACTGGACCATAGTAAGCAGAAA
GCCTTAAGTTTTCTTAGCTCAAACCCTCCAAATTGACTCTTAACATTCATAATCATGCCCTTTTAGTTGCTTTAAGAGGGCATACTGACTTTGTGGTCTA
TACTTTGTAAGAGAGCAGGTAACTCTAGCACAAAAGAAACTGTAATATGGAACTGGGGAGGACTTCAGTGGCACTATTCCAATTTTATTGATCCATACTG
TTGCTTTCAACCCTGCTTTGAGACCCCCTTGTGTGTCACTTTCTAACATGTCACCAACCATCACACAGTCCACAGGTTGTACTCCAAGGAGATTGCAGCA
TTAATAAAATATGGAAGGTGCTGGCTTCTCCTCCCTCTGCTGTTCACCTACAACAACTTGGACATAGGACTGACAGACACAAGCCTCATCTTCTCCCTCT
GGGTCTGTCTGACCCCATTCATTACTAAAAGTAGGCAGACCTCCTTTCTGATTTCAATGAGCATAGCTTTGACATCTCACTGACCTTAGTGTCATGTGCT
GTAAATGTGTGGTTTTCCAAAGGAGGTAACGTTCTTCAGCCAGTTTCCTATTGGCTACACCATGTTTTGTTTCCTGGATTGCTTCCTCCCATTGTGAAGT
CCTTAGATCAGTAATGCATGTATTGTAATGGTGAAAACATTCCTTCTTGAGTTTAACTTGAGCTTTATCACAGGTGAATTCAGCCTCCTGTTTATACTGG
TATTTTGATTGTAAGAGCTTTATTGCCTCCAACATGCMTCTCCTGCTTGTCACACCTGTGTYGATGAGTGTGTTGTCCAGGTCAAAGAAAAYGGCCTGCA
CGTGGCTCAGCCCCATAGCACCTGTGCCTTGCTGCAACCTGCCACGTCGCTGCCTGCACATGCGCAAGGTGGGCGGCCCAATTTTGTTTTTTTCTTTGAG
AGAGGGTCTCGCTCAAACAGTCCTCCCGCCTCAGCCTCCCAAGTAGCTGGGACCACAGATGCATGCCAGCACGCCCAGCTAATTTTTTCTTCATTTATAG
CAGAGATGAGGTCTTGCTATGTTGCCCAGGATGATCTAGAACTCCTGAGCTCAAGCAATCCTCCTACCTCAGCCTCCCAAAGTGCTGGGACAGGCATGAG
CCACCACTCCCAGCCATACTGTAGAATTATTACATCATCATTTGAGGATATACAAAAGAATGAGAGAATAATTTTCGTTTTTATCTCATTAGCTAAAATT
GAGTCACATGGCTACACATAAGTGCATGGGAAACTGAGAAAATTTTTTAGCTGGGCATATATGGCTGTTCTTCACAAAGAACTGAAGTGCAGTTACTGAA
AAGGGGAGGATGTTTGTTGGAGAAGCATCTTGTAGTCGGCCACAAAAGGAGGGAGATTCTCTTTTTAAATATTTATTTATTTGACACATTGTAATTGTAC
CTATTTATGGGATACAATTTGATGTTTTGATACATATCTGTGTTGTATAATGATACAAGGAATGTATCCATCATTTCATGCATTTAGGAGCCAGGTTTTG
TTAGGTTTTGTTTGTATTTTTAGTAGAGATGGGGTTGCCCAGGCTGGTCTCGAACTCCCGGGTTCAAGCAATCTGCCTGCCTCGGCTTCCCAAAGTGCTG
GGATTACAGGAATGAGCCACTGCACCAGCATTGAGAGAGGCTAATTCTTACTGGGAGATTGGGAAAATATTTGAAGAATGGATGTATTTTTATAAGGTAG
TAATGAAGAGGGAAAGAACCTAGGAGGTAAAAATAATCTAGATGTAAAGATACAGAATCAGAAGAGTGCAGGAGAACAGCAGGAATGTGGCTTATAAGAG
GTGAAGGAATGAAAGATAGGCTCTCTGTAGGTAGGTTGGGGCTATTGTACGTAGGAGGCTCCTGGTTCTACCAAAAATAATGACAGAAAATTAGCTGGTG
CAGAAAACTGTGGAACTGGTCGTAAAGTCCTTAATGAAAAGTAGARTCCTAGAAGTCAGGAGATCATTGCAGAGAGATTGGTAAAGTCAGATAYGATAGT
GCTTCAAAGAAATAAAGTTGGACATCAGCACATTTAGAAATTACATGGAGAGGAAGAAGATTAACTCACTCATGGTGATTCCATGAGTCAAAGGGATTAA
AGAAAGATCTTTCTTTCCCTTTCAGAGGATTTAAGGTAAGTGATGCTGTCACATATATAATAAGGCAAGTAGAGTTGATCCTTGAATAACATAGGGGTTA
GGGGCACCAACCCCCTGTGCAGTTGAAAAATTTGTGTATAATTTTAAACTCGCCAAAAACTTAACTACCAATAGCCTGCTGTTGAGTGGAAGCCTTCCTG
ATAACATAAACAATAGAATAACACATATTTTTWATATTGTTTTTACTATATTCTAACAAAGTAAGCTAGAGAAAAGAAAATGTTATTAAGAAAAYCAAAA
GGAAGAGAAAATATACTTACTATTAAATAGAAGTGGATTATTATGAAGGTCKTCATTCTTGTCATTKTCAAGTTGAGTAGGCAGAGGTGGAGGAAGCGGA
GGGATTGATCTTGCTGTCTCATGGGGTGGCAGAGGCAGAGGAGGTGGCAGGGGAGGCAGGCACACTCTTTGTAACTTTTATTGAAAAAAATCTGCATATA
AGTGGACCTGTGTACTTCAAGCCCTTGTTGTTCAAGGGTCAGACAAACATAGAAAGCATTCAAGAATATGAGGGAGTTTGTTTACAGTGAACCTTAGTGA
GTACAGAGAGTCTGGTACAGTTAGTAGAGAGGATACTAGAAGGGATCTGGTAGAGATAGAAACAAGCTAGCTATAGATTAGCATGAAGARTAGATGGAAG
ACAGGATCTGTATTTAAGGAGCTGATTATAGGTTTATAAAGATGAAAAAAGCATGTGGCAGTAGTCTTAAAAAACTTTTAATGATGGTGATGGAAAGTGG
GGAGGAGATAGAGGAAGAGGGAAATGGAGGAAATGTGAGTATAGAATGAGAACCAGCACCCAGATTATCTTTGGTACATTGGGGTATTAGATAGCTTAGA
TTAATTTGTGGTAGGAACCCCCCAGATCTCAGTGCATTACTACAACAAAGGTTTATTTCTCATTTGTGTTGTCCATTGTTGTTTGGCTGGGGCTTTGCTC
TACATCCTCTACMTTCTAGTACTGAGGCCGAAGGGCTAGTCTGGGACATAGCCGAGGGAAAAGAGAAAATAGTGGAGCCACACAATAGCTTTTAAAGCTT
CTGCTGGGAAGTGGCACGTGTATCTTCTACATACATTCCAGGCTGAGCACGGTGGCTCACATCTGTAATCCCAGGACTTTAGGAGGCCAAGGCGGAAGGA
TTGCTTGAGCCCAGGAGTACTAGACCAGCCTGGGCAACAAAGTGAGACCTTGTCTCTACAAAGAAACTTAAAAAAGGAATTAGCCAGGTGTGGTGGCACA
TACCTGTGGTCCTAGCTACGTGGGAGGCTGAAATTGAGGATCGCTTGAGCCCAGGACCTCAAGGCTTCAGTCAGCCATAACCATGCCACTGCACTCCAGC
MTGGGTGACAGAGTGAGTCCCCATCTTAAAAAACAAAGACAAAAACAAACCTACACATGAYCATGGCTAAACCTGGTATCAGTGAGTGGGAGGGAGAAGC
CTTGGGCGGCCGTGCGATAAATGTTTTTAATCGAATAATGTTATCTCCTGCTGTGGGATATTATACTATGAGGAAGCCACAGTTCAAGTGTAGGGTGCTT
GTTGACAATTAATACAGCATCCTAGCCTTTTGAGCAGGAAAGAGATAAGTGGATGAGCCACAGCTAAATTTTCATCTATGTTCAGGCTGCTGCTGTTGGT
GCTGGGTTATGTCCAGAGAAATGAATAACTGTGTGTAAAAGGAAATGCGAGAAGTTTRTTCATAATTCATTACTTAACCTATAATGTTTATTACTTGCCT
ACTTTCACTTACAATAAATTTTCATAGTTTAAGAGAAATTATCATTGTTTAGAAAACAACAAAATTTAGTTTAACGGGGAACTCTCAATACCATTTAGGG
AGCTCCTGCTTTTGTATCCTCCAAATCCTCTAACCCAGTTCTTTGTACATAAGTAAATTATTTTGTTAATTGAATGAATGAATGTATCTGTGAGGTTTTG
CTGTACATACGTAYAGTAAGATTTATATTATGTCTAGCACAATGCCATGTCTTTTGGGGAAATATGTCTCTTATTTTAAGGACATGAAGAGTATAAGCTA
AAGAACGGAAGACATGTATCAACTATGGGAGATTTTTGGGTTACTCTCTAATGGGTTMAGGTTTATAATTTATGTCTGAGATATAGGCCGATTTTGGTAA
TGTTGTGTTTCTCTGTGCTAGGAGTTAGATTTTTATTTTAGTCTATCTCAGATTCCTTCATCTGTTGCACTGGTAGTAAAAAGCAGATAGTACAATCTGT
GTATGAAACAAGAATTGAAGGAGAGAGGTAGACTAAAGCAGGAGAGGAGAGYGAGAAAAGAAATAAAGGATGAAATCAGGATGACAGAGAAAATGAGATT
TGATTAAGGTAAAGACACAGTTGTTTCAGGAAACAGCATGGTTAGTGCAAGTATTTTTTTAACTGCCCCAAATAGTTGCTGCATTTTCTTGATATATATC
TATATATATATAATATATAAATATATATGATATATATCTATATATATAATATATAAATATATATGATATATATCTATATATATAATATATAAATATATAT
GATATCTATCTATATATATCATATATAAATATATATGATATCTATCTATATATCATATATAAATATATGATATCTATCTATATATATCATATATAAATAT
ATGATATCTATCTATATATCATATATAAATACATATGATATCTATCTATATATCATATATAAATACATATGATATCTATCTATATATCATATATAAATAC
ATATGATATCTATCTATATATCATATATAAATACATATGATATCTATCTATATATCATATATAAATACATATGATATCTATCTATATATCATATATAAAT
ACATATGATATCTATATATCATATATAAATACATATGATATCTATCTATATATCATATATAAATACATATGATATCTATCTATATATCATATATAAATAC
ATATGATATCTATCTATATATCATATATAAATACATATGATATCTATCTATATATCATATATAAATACATATGATATCTATCTATATATCATATATAAAT
ACATGATATCTATCTGTATCATATATAAATACATGATATCTATCTGTATCATATATAAATACATATGATATCTATCTGTATCATATATAAATACATATGA
TATCTGTATCATATATAAATACATATGATATCTGTATCATATATAAATACATATGATATCTGTATCATATATAAATACATATGATATCTGTATATATAAA
TACATATGATATCTATCTGTATATATAAATACATATGATATCTATCTGTATMATATATAAATACATATATCTATCTGTATAATATATAAATACATGATAT
CTATCTATATATAATATATAAATACATATGATATATATCTATATAATATATAAATACATATGATATATATCTATATAATATATACATTATATGTAACATA
AATATAAATATATATTTTTTTTAAATCAGGTCTCCAGATTAACAGTGAGTTTTTTTGTCTTAACTTAGGTGTATACTCTTGATGTACCAGATGCATTCTA
TTACTGTTATAGTCCAGACCCTGGTAATGCAAAGGGAAAAGATGCCATTATGGAAACAATGGCTGACCAGATAGTTACAGTGTGTGCCACCTTGGATGAA
AATCCCGGAGTAAGATATAAAAGGTAAGACACTGAGCATCTGCACATGTTATGCTTCCTATTTACCATTCATTATAGAGGTAAGTAATGTGTCTGTACCT
TGGCATGTTGGTTTGCAAAATTTATTTTCTTTGTATGATTACCATGCTCTACATATAGGAGATTTAAAGCTTGTGGTTTAAATTTCAGACTAGCAAATAG
CTTCTGTTACTGAATTTCGGAGCCTAAATTTGGTACAATTTACGRACGGTTTTTCATCAGTTTAAAGAACGCTTAGAGGAAATGTCTTTATAGTCACATA
GGGAATACAGTGTTACAGTTAATGTTTTTCATTAAATCACCAACAAATTTAAATGACCATATTCTCTGGATACCTGTTACAATGTCAAAGTATCTATAGT
ATCTAATCTGCCTATTCTAAATAAATTTTGGGGTTTTCTTAAGGGGTAAAATTTAACTTTAGTACWATATACCTTGACTTATATACTTCTTTTTAAAAAT
GAAGTTTACTATAAAGTGCCTAAATTGTCTATACAGTAAGTCCTCACTTAAAATGTTGTTGATAGGTTCTTGTTAACTGACAAAACCAATTTTACCATAG
GCTAATTGATATAAACAAGAATTAAGTTCCTTGGTTATGTAATGTCACCAAACTTCTRCATAAAGACCTGAAACACTTCGAATATTAAACATTGAAAGAA
ATGTGACTATATGTACATTTAAGAAAGATTAATAAAAACAGGATCATTTTTTTGCCCAGTTATTCTAGTTCAGGCTCATTAGAAGGATGGCCAGAGCTCA
TCCCAGCAGCTCATGGCACAAGGCAGGAACCCACCCAGATTATAGGATACCATCCCATTGCAGGGCACACTACACACACATCCACACTCACTCGACTGGG
ACAATTTAGACATGCCAGTTAACCAAACATGCTGCACATCTTTGGGATGTGGGAGGAAACCAGAGTACCAGGAGAAAACCCATGCAGACGTGGAGGGATC
ATGCAAACGCCACACAGACAGTGGCCTCAGCCAGGAATCTTTTTTTTTTCCTCTGCATTATATCGAGATGACGAACAAAATGACATTATTTGAGGACGTG
CTAGATATGGCATGTTAATTCATTCCAAAATGAACATATCCATCTAACCCTACCAAGGTCAAAAAAATAGAACATTAACAGCATCTCAGAGGCCTCTCTT
GTGATCCCTCCCAGCTCTCCCGTCCCTTTTCTTCCCTAGAGATGACTACCATCTGACTTTTAACACATAGTTAAATTTTGCTTGATTTTGAGCTGGTATA
AATGGAACCACATGATATTTTTTGTTTTTGACTTCTTTGCACAACATTATTTTCTGAGAGTCATCCATGTTTGTTGTGTGTGCCAGGCAGTTTTAGTTTT
AATTTTGGTCTGCTAGTTCATGTGTGACCCTCTCGCCTCAGTTTCCTTATCTATGAAATAAGAATGATAATAATACCTACCATATACAGTTGTTTTTAGA
ATTAAATGAATTAATATCTGTAAAGCATTCAGCACTAATAAATATGGTAGTAAATATATTGCACTACTCGTAATAAGTATTACTCATTTGTCTTTTAAAA
AGTCCTTTAATTTGAACATTGGCATTTGTCAAGTTAGCTGGCTGAACTGTTTAATTTTAAATTCATGTAGTACTTTAAGTCACATTACTCTTCACTTACC
ATTTAAAAATTCCACTATTAGTACTTAGAAAAAGTATAGTGATCTCCTTGGAGATTAAGTTATCTCCTTAATTCAGGTATTACCAGACAAGCTCTTTATT
CATACCTTGGGTATTAGAAACATTCTTTTTCTCTCTTTCTTTCCTTTTTTTTTTTTTTTTTTTTGAGATGGGGGTCTCTATGTGTTGCCCAGGCTGGTCT
CAAACTCCTGGGCTCAAGCAATCCACCTGCCTCTGCCTCCCAAAGTGCTGGGATTATCTTTTTCTTGTCAGAGATGTGCTAATTACATTCTGGACTCAGT
GGAGCTAAGTGGTTTGGCTCCTGTTAAGGGTTTAGTAACTGTTGAAGCTTCTACTGTTGGTGATTGGTTACGTTCRGGGAAATGAGTAAATATAGCCAAT
TTATAATTTTATCACTCACATAAGGGCTAGTTTTGAGTTATGCTAATAAATAATCTGTAATCCTGTCTTTTAAAATTCTACCTGTTTCCACAAAATATTC
CTTTACGCTTTATAAAGTATAATTTAAAAATGAAGTTTCTTTCTTTTGAAAATATAGTACAAAGAGTTTAATTTATTGTACAATTAATTTATTGTACAAT
TTATTGTACAGAGTTTAATTATTGTACAAAGAGTTGAATTACCCTTTATAGATGTTACATTATTTATTTTTAAGGTATACAACCTAAAGATTCTGTAAAA
CTTTGAAGCCCTCACAATGAGACCTCCCATTTTTGAGGTTGTTATGCTGGTGAAGAGCCTTTTTCTTTCTCTCTCTCTTTTTTCTTAAATAATTTTTGTG
GATACATAGTAGGTGTATATATTTATGGGGTACGTGACAYATTTTGATACAGACATACAATGCATAATAGTCACATCAGGGTAAACGGGATATCTATCAC
CTCAAGCATTTATCCTTTCTTTGTGATAAAAACAATCCAATTATACTCTTAGTTATTTTTAAATATACTGTAGTCACCCTGTTGTGCTATCAAATACTAG
ATCTTACTCATTCTACCTATATTTTTGTACCCATTACCCATCCCCACTAAACAGTCACCCACCACTCCTGCCCCTTTCCAGCCTCTGGTAACCATCTTTC
TACTTTCTGCATGAGAATTGTTTTCATTTTTAGCTCCCGGAAGCAAGTGAGAACATGCGAAATGTTCTTTCAGTGCCTGGCTTATTTCGCTTAACATGGT
GACCGCCAGTTCYATCCATGTTGTTGTAAATGTCAAGATCCATTCTTTTTTATGGCTGAAACATTTGTTTCAGTATTTGTAATAGTGTAATAAGAATGAC
TCATATGTCCATCTTTAGAGGAATCGATACATAGAATCCAATATAATCATGATGGAATACTGTATAGGAGATAAAATGAATAAATCCGATATGTGTGTCA
ATGTCAATGTAGATAAATCTMAMACACACACACACACACACACATACATATGAAACAGAAATGACTGGAGGGAGAATACACATGAAATTAATTATAATGG
TTGCCTTGGTTTGAGGCAGGGGTATGGGAGAGGACCAGGACTTAGGAGTGGAATAAAAGGAACTGCAACTTTACATGTAATATTTTATTTCCTTTATATT
AAAAAATCTGAAGCAGATATGATAAGGTTTTTCCTTGTAAATTCCAAATATATCGATATAAGATTATTTGATAYATTATCTGAACTTTTACATGTTTATA
AAATAATTTTTCATTTTGTAAACATTTTTTAAATTTCAGTTTAATTTTAGAATTAAACTTCATGATATTATAAAGTATACACTGAAAGAAAGATAATTST
TTGATCCTTTTTTCCATTTCTAGTAAACCTCTAGATAATGCCAGTAAGCTTGCACAGCTTGTTGAAAAAAAGCTTGAAGACTACTACAAGATTGATGAAA
AGAGCCTAATAAAGGTAATGTATGCAAGGCAAGTAATGACTATGCATAAAGTCTGTCTTATTTCTTTATAAGCCAAAGAAACTTGCTCATTCATTTTCTA
GTATTGATTTGGGAGTCATTAACATAGATCTCCAATACTGATTTGAGAATCATTAACATACACAATCGTGCAAACCTTAATAGATGGTATGGTTTAGAGG
GGGATCTATTAACTAACAGATTTTGAAGTCAGCACTGTGTCCAAATCTAGTTCTGCCGTTTAATTCATAGTTAATGTCTATTTGGGCAAATTATGTAACT
TCTATGTAACTACATTTTCTTTTCTATAAAATGGGGATAATAAAAGAATACCTATTTTAAAAGTTATGATTAAATGAGTTAATACATGGAAAGTCCTTAG
AATAATGCTTGCCAATGTGTAAACATTTAATAAATGTAGGAATTCCTATTATCACTAGTTCTGTGACCTTGAGTTTTCCATCTGTGAAATAGATGAAATA
ATATATACCTTGCTAGGCGGTATGAGGATTAAGTTAGCATGTAAGTATTTGGCACCAATGTGAATTTAATAAATGGCAGCCATTGTTATCCTATGGAAAT
AATATAATCAAAGACTAAGGTTGAAATCTGGGAAATACCAGCATTTACATGTGGGTGAGAGAATGAAGAGCTTGAGGAGACTGACAGAGGTGGTGCCAGA
GGCCTAGGAAGCCATATTACAGTAGCTGGAGAATGAAGAAAAGGAACTGTTGCTAGTTTAGAAGAGGAGTTGTGCCAGGAAACCACCAATTACAATACTG
TGTAATAAGTGGAATGAGAGAAGAATATACAGAGTATAATGGGAATATAGTCCCGGGCTTATCTTCTAAACTGGAGTGTTGGAAGGCATCCCAAGARGAA
GAGGCCCTTTAGCTTGAAGAATGAAGTAACATGATAAAGAGGGAGTTCATTGCATGGAAAACAGGATTCTTCAGGTAGAGGCAATAGAGAAAAAGGCAAA
ATCCACAATTAAACAGTGTGGCTGGAATGGAAGATATAAACTTAGATGTTAGGTTAGTTACCTTAAAAGTAACCTGTTTTTGGTTTAGAGGCCTGGTGAA
GGCTGTTATTCTGGTTGTAGTTTTGAAGACAGAATGGCTTAGTACACATCGTAGATAGTGAATAAATGTTTGTTGAATGAAGAGATATACAATCAAATAT
GCTTTTAGTCCTTCATGTTTTCAGTGGAAAAAGAGCAAAATCCACAAAAATTAAACTTGTCCTTTCCACTCTTTCTGCCTGGAAAATTAATCATCCTTCA
AATACTTGATACCTTTCCTTTATTCAGGGACACCTGATAAAGTGATAAAGTGTCACCTYATTTTTGAAGCCTTCCTTGACTCTTCAGGCCAAGTGTTGCT
TCCTCCCACATGCTATCATAAGCCCTAAGCCTGCTATAGAATTTATATTGCACTTTTTCCTGTTTATATTTCTGAAGATTCATAGCTCATATTTTTGAGG
GCTTACTGTGCTGTGTTTCATAGTATGATTATGTTTAACCTTTTCAGTCATCTTATAAGGCAAAGATTCCATAATTGTGGTTCATTTTACAAAGAGAATA
CTGCCATGTAAACAGGATAAGCATTTTGTCCAAACTTGTACTGCAAGATGTGGTCAAGGCTGGACTCAGATTCAGACCTAGCTGATTTCCAAGGCTGTGC
TCTGAACCACCATATCATACTGTCTCAAAATTTAATTAAATTAATGTGCTTAATTTTAAAATATTTTAAAAATCTAGCCTATAAAATTTACTTGTTATAT
GTAAATAAATAGAAAATGTTTGTATAATGATCTGTAGTTATCTGTTATTGCTTTGAATACTAATCCAAAGAATTTATTACTTTTTAAAATGAAATAKGAA
AGATACTGACATTAACAATAAATGTTTCCAGCACTGTTATTCACTGTTTAGTGATTAGTGATGTTTGCGAATTAATGATAACAAGGCTTTCATTGTGATT
TATCATCTTAGTTGGTATCAGTACAGTCTTTTAAAATAGCATAATGGATAAGAGCACAGATGTTGGAGCAAACCTGCATTTGAATCTCCATTCTGCCTCT
TACTACCTGTGTGATTTGGGCAAGTTAGTTCATTTCAGACCGCAATGCCCTCATGGTCAACTGGAGATAATAATGCCTGTCTCACAGGATTACTAAAAGA
ATTAAATGAAATARTCCATGTATTTTTGTTTAGTAAAATGTCTAATATTTAGAGCTCAAATAGTAGCTACTATTCATAATTTATATAAGTTTTAGTGCTT
TTGGAACTCAATTCATWAGAAAATAGATAYAGTGCAAACAAAATGTTACTTTTTTAAAAGGAATTTTCAAGCTATTATACAGTTGTCCCTTGGTAAACAC
AGAGGAGGGTTGGTTCCAGGACCTCCTGTGTATACCAAAATCCACACATACTCAAGWCCTGCATCAGCCCAACAGAACCTACATATCTGGAAAGTCAGCC
CTTCATACAYGCAGGTTTCACATCCTGCAAATACTGTATTTTCTATCTGTTATTTAGTTGAAAAAACTCTGAGTATAAGTGCATCCAYGCAGTTCAAACC
CAAGTTATTAAATATACCCTCTTACTCTAATTACAAAAGTAATTAGATTTTAGTTATATAGTCTTCATTTTTCCTCTCTTGGGCTACTCAGATTTTTCTT
TGTTTYATTATAACTTCACATTCTTAAGACAATTAACCATTTGTTTTGTTCTGTTGTATGTTTTTGGTGGGGAAAAGGGACAGAACTTAGGAAAAGKGTG
CTTTGTATTCTAAGATATTAAAACTATGTTCACACTAAGAAATTGAAGCTGCTTAAGATGATTTTATCTTGTTATTCTAGGGTAAAACTCATTCACAGCT
CTTAATAATTGATCGTGGCTTTGATCCTGTGTCCACTGTCCTGCATGAACTGACCTTTCAGGCAATGGCATATGATCTACTACCAATTGAGAATGATACA
TACAAGCAAGTATAACTTGAAGGGCATATAAAGGGCATATACAAACAGGATAGAATATGAGCATTTAATGATTTATATAGGCACCAGAAATCTGAAAGCC
CCTATAACCTTTTCTATTCAGAGACTTTATCCTTCTCTTATTCCTACAGTTATAGTCTTTGACAGATAATGTTGACCTTGTAAATTAAAGTGTAATTTGA
TTGCTTTGGAGCATTTTTGGTGTGTTTGCTTCCTTAACTGTGTGTACAGTAGAGCTACATTTAAACACAKGGAATTTGGCCCTTTTGCTTTTAAAAGTAA
ATACCAGGCTCACTATCATATTTATTGAAGGAGAAACCATATTCAAAATTGTTAGGCTATAATTGTTCTGAATCATACATTCAAAAGTGTATGTGTCTTA
TCAACATAAAGTATTTTAAAAGATTGGAACACTAGAAAACTAAATAGGATGGCTATTGAGGACAACAGGCATAGTTTTACCATTTTGGTACCTTCTACTG
AGTTAATCTTGGTATAAACATATTTACTTTAAAAGTAATGTCAAATAAAAACCTAAATGAAAAATGAAATAGTTTTCTATCAAGGAATCATCTTACTGTA
TCTCTGTATCATTTATGGTGTATGTGTTACATACATTACAAATGTTATTTGATGTCATGATTTCTGAATCCAAACTGGTATTTGTCAGCTAAGATTTACT
GCTTGAGTACAGTAATAAAAATGAAAATAGTTTTCTGAAATTTTATGTTTAAACTAATTTGTTAGTTTTAAGATACAGACACTTGTGATAGTTATGATAC
TGTTTTTTTTCTTAAATATTGTTAAAATTTGTATTTTCTATTGTATTTTTATTTGCATTCTGGTCAAATCTTGGTTTCTGAGTTTTTCTCTGTATTATCT
GTATTAATGTTAGATAACATAGCTATTTTTYTAATATAAAAGTTATTTTAAGCAGTTTATTCAGAGGRGATATTATTTACCTCTGTTACCCTGTAGGTCT
CTAAACTTTTAAGTAGACTTATTTTTTAAAAAGCTACTATACTCCCTTCTTTYTGAATCAAAAACATTCAGAGATAAGAATTAGATGGAAGTAAAGCTCC
CTGTGGTTTGTGCTCCATCMCAAWTTTTTTTTTTTTTTTTTTTTTTTTTAGTAGAGGCAGGGTTTCCCCATGTTGGCCAGGCTAGTCTTGAACTCCTGAC
CTCAGGTGATCCCCCTGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGGKGTGARCCACCACGCCCAGCCTTCATCACARTTTTTTATGGAAACAGAATAC
AAAGCAGCAGGAAGCTCTAAGTGTCCARATTCAAGTTTTCATGTTGGTGCCTTCTTTAAATTTACTTTTTTTTTTTTTTTTCTTTTTTTGAGACAGAGTC
TTACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCCGATCTCTGCTCATTGCAGCCTTCGTCCCCTGAGTTCAAATGATTCCCAGCCTCAGCCTCCCAAGT
AACTGGGACTACAAGTGTGCACCACTGCGCCTGGCTCATTTTTGTGTTTTTAGTAGAAATGGGGTTTTGCTGTGTTGGCCAGGCTGGTCTCGAACTCCTG
GCCTCACATGATCCACCCACCTCGGCCTCCCAACTAAATTTACTTTTAAAATGGGATATTCATCACCTGAGTATTGTCAGGCTTGTTACTCTTATCTCTG
TTTACAGATCACTTATAAGTCAAAGGTATTGTGTAAGAACAAAGTGGTATTTTAAATGACAAAAGGGCTTTCATCCTTAGTGCAGCCTTATATAATTGAG
CACAGTGATTCTGTCTTTGGTCATCTGTAATCCACACAGGTGGATGGTTTTATAGATTGATGTGTAATTTGTGGGGGTTATAGAAACGATTATATTCATA
TAGCAAAGTCTATATGTATTATTTGTAGTTCAGAGCTAGGAAAACTCAATGCAGTCCTTCCTGATCTTGACTCAGGAAATCAGTAGTTCCAAGGATGATT
CAGTCTTGTCTAGTTCCACAAATGGAAGGAGGGTGTCTGCATAAAAAGATAAGGGGAATCAGTCAGGAAGCCCATTTTGAATAGCTTCATGAATCCCTTA
AATTGTTGCTCACTTCAGCAGAACTCATTAAAGCTATCACAATTTTTATGGCTTACATTAATTTTTTTTAATCTCATTTTCTTTCTCATTCTGTAAAGGA
GATGTGGTTATAGGGTTGGGGGAGAATAAAGAAACAGATGATAAATGTTTGTGAATTTTGTACCAATTCTGAAACACCTTCAATATTTAATAGGTTATAT
TGGGGAGGATATTCCTGTTTTGTTTTGTTTGAGTCAGAGTCTTGTGCTGTCACTCAGGCTGGAGTGCAGTGGTGCGATCTCTGCTCACTGCAAACTCTGC
CTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAGTAACTGGGATTACAGGTGTGTGTCACCACACCCTGCTAAGTTTTTGTATTTTTTTTTAGA
GACAGGGTTTCACCTTGTTAGCCAGGCTGGTTTTGAACTCCTGACCTCAAGTGATCCGCCCACCTYGGCCTCYGAAAGTGCTAAAATTACAGGCGTGAGC
CACTGCACCTGGCCGATATTCCTGTTCTTAATGGAAATTTGATAATTGTACTGTGGGTTATTAGCACATCAAAACAATGTTGTAGGGAATTAGAACACAA
AGCGTTAGTATATTGAGTCTTGTTCTTAAAGTTAACTGTAGGACGTTGAATTTTTTTTATAAAGTACAATTTTGCTGAACTAAAACTCTAATAATGGCAC
CTAAACTGAATATTTGAAAATGTCTTGGTAGGCTTAGGACTTATTTTTAATGTAAGGATAGCAGCGTGCCTTAGTTTTGAGTAGGTATTCATTACCCCCC
TAAAATAGTGGATTTTACTTTTCAGTTTCTTGAGTTGTGTCTTGAAATTATTGTTTGTAAAAATGTTTCTTTTGATTTTGGAGGGAAAAAAATCAAAAAG
TTTTAGTGCYTCTGTCTACTTGTAGATATAAAACAGATGGAAAAGAAAAGGAGGCCATCCTTGAAGAAGAAGATGACCTCTGGGTTAGAATTCGACATCR
ACATATTGCGGTTGTGTTAGAGTATGTGAACTCATTTTAATTTTTGTTCCATAATTTTTAGACACTATGTGATAGTACATTTTGTAACCTTAAAATAGTT
CTGTAAAGAATTACATCTTAGAAATTTAAAGAATTCTCTCACAATTTGACAGGGAAATTCCCAAGCTTATGAAAGAAATTTCATCAACAAAGAAAGCAAC
AGAAGGAAAGGTAAGAGTCTTACTTAACTTTCAAAGTAATAGTGAAGGTGAATTTTAAAGTTTGTTTAAAATCTTTATTTTATTTCTGTAACTTTTTATT
TTTGGAAAGTTCTAACAYGGAGGTAGAGAATGAACTCCTACGTACCCATTGCCTAGTTTCAATAGTTAACAACATTTTTGTCTGTCCTGCTTCATTAAAA
TTTTTTTATTTTATTTTATTTTTTGAGACAKAGTCTCACTCTGCCATGCAGGCTGGAGTGCAGTTGCGCCATCTCAGCTCACTGCAGTCTCCGCCTCCCA
GGCTCAAGTGATTGTTTTGCCTCAGCGGGATTACTGGTGTGCACCACCACACCTGACTAATTTTTGTATTTTTAGTAGTGACAAGGTTTTGCCATGTTGG
CCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCTGCCCACTTTGGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCCATAAAGTTTATTTTAAG
GCCATTTAGTCAATTTTATCAATGCATTGTTGGGATTTTACATTCAGATATAATTTATAAGTAAAGCACACAAATCTTAAATTTATACTGGATAACTTTT
ACTTATATATACCCTTGAAACCACCACTTTAAATCAAGATACAGAACATTTTCATCATTCCAGAATATTCCCTCTTGTCCTTTCCCTGTCAGTACCCCTC
CTGCCAGAGGTAAACTCTATTCTAATTTTCATCACCATAGATTGTGTTCTTGAACTTCACATAATGAGATTCACCTGTGTTACGTATTTTAGTAATTCAT
TTTTTTCATTTGTGTATAGTAGTAATACCATTATGTAAATATACAACAATTTGTTCATCTTGTCTCCTTTTGATGGACATTTAGTTTGTTTCCAGTTTGG
GATTATTATGAACAAAGCTGCTATGGATTTTTTTGTACATGTAATTTGGTGGACATACACACTCTTTCTCTTGGGTATATTAAGAGTAAAATTATTGGGT
TATAGGGTAGGATTGTGTTTAGCTTTAATAGGTAATGCCAAAAGTTTTGCAAAGTGTTTCAACTGATTTACATCCCCATCAGCAATAATTGAGTGCTCTA
GTTGCTCCATATTGCCACCAACACTTGATATATTCTTGTCTTTATTTTCAATTAAAATTTCATTGCACGAGATGGTATCTTATTGTGGTTTTAATTTCAA
TTTCTCTAATGTTCTTGTGCATATTGGCCATTAGGATATTCTGTTTTGTGAAGTGCCCATTGAAGGTCTTTTGCCCATTTTTAATTGAGTTGTCTGTTTT
TCTTATTTCTAGAAGTTATTTTCTGGATATGAGTCCTATACATGTATTTATGTATGTATGTATCTTTTGATGAACAGAAGATCTCAATTTTAATGAAATC
TAATTTATCAATTTATTTCTTTTATACTTTCTCTGTGTCCTTAGAAGTCTTGGCTTACCCTGAGGTCATTAATATATTCTTCTGTTTTCTTCAGTAAGGC
TGATCATTTTAGCTTTTACATTTAAGTCTGTAATTCACTATATTAGTCCATTCTCACACTGCCATGAATAAATAGCTGAGACTGGGTAATTTATAAAGAA
AAGAGGTTTAATTGACTCACAGTTCCACATGGCTGGGGAGGCCTCAGGAAACTTAACAATCATGGCAGAAGCCACCAYGTCACAGGGAGAATGAGTGCCA
AGCAAAGGGGTAAGCCCCTTATAAAACCATCAGATTTTGTGTGAACGCACTATCACAAGAATAGCATGGGGCAAACCGCCCCCATGATTCAGTTAYCTCT
ACCTGGTCCTGCCCTTGACATGTGGAGATTATTACAGTTCAAGGTGAGATTTGGGTAGGGAAACAGAGCCAAACCGTATCATTCTGCCCYTGGTACCTCC
CATATCTCATGTCCTCACATTTCAAAACACAATCATGCCCTTCCAACAGTCCCCTACAGTCTTAACTCATTCCAGCATTAACCCAAAAGTCCAAGTCCAG
AGTTTCATCTGAGATAAGGCAAGTCCCTTCTGCCTATGAGCCTATAAAATCAAAAACAAGTTAGTTACTTCCTAGATACAATGGAGGTACAGGCATTGGG
TAAATACACCTGTTCCAAATGGGAGAAATTGGCCATAACAGAGGGGCTTACAGGCCCCATGCAGGTCCAAAATCCAATAGGGCAGTCATTAAATCTTAAA
GTTCCAAAAGGATCTCCTTTGACTCCRTGTCTCACATCTGGGTCATGTTGATGCAAAAGGTGGGTTCCCATGGCCCTAGGCAGCTCTGCCCCTGTGGCTT
TGCAGGATATAGCCCCTCTCCCAGCTGCTTTCATGGGCTGGTGTTGAGTGTATGCAGCTTTTCCAGGCACATGTTGCAAGCTGTTGGTGGATCTACTATT
CTGGGATCTGGAGGATGGTGACCCGCTTCTCACAGTTCACTAGGCAGTGCCCCAGTGGCAACTATGTGTGGAGGTTCCAACCCCACATTTCCCTTCTGCA
CTACCCTAGCAGAGGTTCTCCATGAGGGCTCCATCCCTGCAGCAAACTCCGGCCTGGACATCCAGACATTTCTATACATCCTCTGAAATCTAAGCAGAGG
TTCCCAAACCTCAGTTCTTGACTTCTATGCACCCTGTAAGCCCAACACCACGTGTAAGCCACCAGCTTGCACCATCTGAAGCAATGACCTGAGTTCTACT
TTGGCCCCTTTTAGCCACAGCTGGGATGCAGGGTACCAAATCCCAAGACCACACAAAGCGGCAAGGCTCTGAGCCTGACCCACGAAACCATTTTTTCCTC
CTTGGCCTCTGGACCTGTGATGGGAGGGGCTACCACGAAGGTCTCTGACATGCCCTGGAGACATTTTCCCCGTTGTTTTGGTGATTAACATTTGGCTCCT
TGTTTCTTATGCAGATTTCAGCAGCCAGCTTGAATTTCTCCCCCGAAAATGGGTTTTTCTATCATATCGTCAGGCTGCAGATTTTTCAAACTTTTATGCT
CTGTCACCTCTTGAATAAATGACTGCTGAGAAGTTTCTTCTGCCAGATAACCCTAAATCATCTCTCTTGAGATCAAAGTTCCCCAGATCTCTAGGGCAAG
GACAAAATGCCACTAATCTCTGCTAAAGCATAGCAAGAGTCACCTTTGCTCTAGTTCCCAAGAAGTTTATCATCTCCAGCTGATACCACCTCAGCCTGGA
TTTGATTATCCATATCACTGTCAGCATTTTGGCCAAAATCACTCAAGTTTCTAGGAAGTTCCAAACTTTCCCACATTTTCCTGTCTTCTTCTGAGCCCTC
CAAACTGTTCAACCTCTGCCTGTTACCCAGTTCCAAAGTTTCTTCCACATTTTCAGGTGTCTTCACAGTAGCACCCCACTCCTGGTACCAAAACTGTATT
AGTCCATTCTCACGCTTTTATGAAGAAATACCTGAGACTGGGTAATTTATAAAGAGATTCAGTTGACTCACAGTTCCATATGGCTGCAGAGGCCTCAGGA
AACTTATAGTCATGGTGRAAGGCACCTCTTCACAGGGTGGCAGGGGAGAGAAAGAATGCCGAGTGAAGGAGGAAGCCCCTTATAAGACCATCGGATCTCA
TGAGAACTCACTCACTATCACAAGAACAGCATGGGGGAAACTGCCCCCATTATTCAGTTATCTCCACTTGGTCCTGCCCTTGACGCGTGGGGATTATTAC
AATTCAAGGTGAGATTTGGGTGGAGACACAGAGCCAAACCATGCCATTCACTCAAATTAATTTTGATTTATGGTGTGAGGTAAGGGTCTAGCTTCATTTT
ATTTCGATATACATATCTGATTACTCAAGCACTGTTTATTGTAAAGACCATCCTTTCACCATTGAGTTGCAGTAATGCATTTGTTGTGAATCAAGTGACC
ATAAATGTGTGGGTCTGTGGACTCCATGTCCTTTTCCATGGTCAATTTGTCTATCCTTGTAACAAGACCACACTGTCTTAACTAGTGTACCTTTGTAATG
GTTTTGAAATTTGGTAGTATAAGTCTTCCAGCTTTGTTCTTCAAGATTGTCTCAGCTGTTACAACCTTTGTCTTTTAATACACATTTTAGATTCTGCTTG
ACAATTTCAACAGAAACATTTAACTGAAATTTTGATTGGGATTACATGAATCTGTACACTAATTTGGGAAGAACTGACAAAAATATTGCATCTTCTGATC
CAAGAACATAGAATATAGCTCCACTTATGTAGATAGTTTATCTCAGCCGCATTTTATAATTTTCATTTTAGTGGTATTGCACATTTTTTCTTTATTTCTA
GGTATTTGATTTTTTGGTGTTATAAATGGTATTTTTWAAATTCCATTTTACTTTATTAGTATATAAAATKTGATTGATTTTTGTATATTTACCTTGGATC
TGGTGACCTTGCTAAATTTATTTTTTAATTCTAGTACTTTGTTTATAGATTGGCTTTTTTGTTTTTAAGAGATCGGAACTCTGTTGGCCAGGCTAGTCTC
TGAATTCAAGCAATCCCCCCACCCTTGCCTCCCTAGTAGCTGGGACTACAGGCAGGTACCAGTGCACCTAGCTGGATTTTTATATACACAGTAATATAAT
CTGTGAATAAAGAAAATTTAGTGTCTTCCTTTCTAAATTAATCTTCCAGAGGTGTCCAAAGGAGAGAATACAGTCATGGGTTCTTAGTTTCTGTTTCRGC
TAGTAAAGTCCCTTCCTTATCCCTCTTTTCCACTTATCACTAGAGACAGAAACTAAAAACCATGGCTTCAGGCTGCAAAAAGCCTAAAACAAAACAGAAC
AACAACAACAACAAAATAAGGTGGGTTAGACAAGCTTGTCATACGTTTAAAATTTTTTTTTTTTAGTAGTTAATACCTCCTGGTTCTGGCTGATACCTCC
AGTATAACATGAAATCAAACTGGTGATAATGAGCGTCCTTGTCTCATTCCCAGCTTTATGGGAAATGAGTTCAATATTTCATCATTAAGTATTATGTTAG
TTTTAGGTAGTTTTCTTTTATCAGATTAAGGATGTTCCYTTCTATTCTTAGTTTACCAACAGGTTTTTATGTGTTTCTGTTTTTTGTTTTTTTCTTTTTT
CTTTTTTTTAAGAGACAGGKTCTTGTTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAGTCTCAACTCACTGCAGCCTCAACCTCTTGGGCTCAAACGATC
CTCCCACCTCAGGCCCCCAAGCAGCTGGAATTACAGGTGTGCACCACCATGCCCAGCTAATTTTTGTGTGTTTTTAATAGAGACAGAATTTCACCATATT
GCTCAGGCTGGTCTCGAACTCCTGAGCTCAGACAATCCTCCTGCCTCAGCCTCTCGAAATGCTGAGATTACAGGCGTGAGCCACCACACCCAGCCTGTTT
CTGTTTTCTTTTAATCAGGAAATTTCGATGTTGGATTTCATCAAAGGCATTTTGATATTGTCTTTTTTTCCCCTTTATTCTGTTAATGTGATGAATTACA
TTTATTGACTTACTAACATAAAAGTAACCATTTCTAGAATAAACTCCACTTGATCATGATGCATCATCCTTTTCCTCTATCACTGGATTTTGTTTGCTAA
TATTTTGTTGTAGGATATTTGCTTCTATATTTATGAGAAATACTTTTCTGTAATAGTCCTTTTTTGTAATGTTCTTGTCAGGTTTTAGCAGCAAGATTTT
TTTGGTCTTATGAAATGAATTGTGATGCACACTTTGTCATTCCATTCTCTGAAAGAGTTTGTGTAAGATTGTTACTGCTTGTTCTATTGCTGCTTGAAAG
AATTCACCATTGAAGCAGTTCAGGCATAGAGACTTCTTTATGGGGAGGTCTTTCGTTATAATTAATGATAAGTTATTTAATAGATATAGAACTATTTAGT
TTTTTACTTTTTCTTCATTAGTTTTGGGATATCGCATTTTTCAGGGAATTTGTCTATTATATCTAAATTTTGAAATGTCCTCTTATCCTTTCAATATGTG
TAGAATCTATAGTTAGATTTTATTTACTAATCTTGCTATTGTTAATTTGTTTATTCCCCTATATATTATTAATATCCCCTGCAGTCCGGGCACGGTGGCT
CACGTCTGTAATCCCAGCACTTGGGGAGGCCAAGGCAGACGGATCACCTGAGGTCAGGAGTTTGAGACCAGTCTGGCCAACATGGTGAAACCCTGTCTCT
ACTAAAAAAAATACAAAAATTAGCCGAGCTTGATGGTGCCTACCTGTATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGACG
GAGGTTGCAGTGAGCCAAGATAGTGCCACTGCACTTCAGCCTGGAGAAAAGAGTGAGACTCCATGTAAAAAAAAATAAAATAAAATTCACTGCATATGTT
WTTAATATTTCAAAGAACCAACATTTGTCTTTGTTGATTTTCACTCTTGCATGTTTTATCTTTAATTAGCTGATTTTTACTCAGTTTTATTTCCTTCCTT
CAGCTTACTTTGTTTTAAATGAAGCTTGTCCAACCTGTGGCCCATGGGTCACATACAGCCCAGGACGGCTGTGAATGTGGCCCAACACAAATTTGTAAAC
TTTCTTAAAACATTATGAGATGTTTTTGTGATTTTTTTTTTAACCTCATCAGCTATTGTTAGTGTATTTTATATGTGGCCCAAGACAGTTCTTCTTCCAG
TGTGGCCCAGGGAAGCCAAAATATCGGACACCCCTGGTTTAAATTTTTTCTTCTAGCTTCCTGAGTTGGAGTTTTAGAACATTGATTTCCAACCTTTCTT
CTGTTCTATTGTATATATTTTATAGTTATTTACATCTCAAACTTAGCTGCATCCCAGGAGTTTTGGAATAACTTATTTTCATTTAGTTCAAAACATTTTC
TAACCCTTATTATGATTTCTTCTTTGACCCATGTGTTATATAGGGAATACGTTTTTAAATTTCAAAGCATTTGGGAATTTTCTAGTTATCTTTCTGTTAC
TGAGTTGTAATTTAATTATACAGTGGTCAGAGAATGTGCACTATATGACATCAGTCTTTTAAAATATGTTAAGACTTGATTTATGGGGCTGGGCATGGTG
GCTCGTGCCTGTAATCCCAGCACTTTGAGTGGCCAAGGCAGGCGAATCACATGTGGCTAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCCATC
TCTACTAAAAATACAAAAATTAGCCATGTGTGATGGCACACACCTGTGGCTCCAGCTACTCAGGAGGCTGGGCAACAGAGTGAGACTCTGTCTCAAAAAA
AAAAAAAAAAAAAATTGATTTCTGACCTAGCATATATTATCATAAGTGCCCTATGTGTACTTGAAAGGAATATAAATTCTGTATGTGTCAGTTAAATCAA
GATGGTTAATCATGTTCAAATCTTCTATTTCTTTTCTGATTTTTTTTTACCTGCTMTGTCAGTTACTAGAAGTGGTATATTAAAAACTCTGATCATGACT
GTGAATTAGTTTGTTTTTCTTTAGTCCTTTCAACTTTTGAAGTTATATTAACTGATAAAGCTATGTTAAGTTCATTATACATTTAAGATAGCTATCTTTC
TGTTGAATTTGGCCTTTTATCATCATAAAATGTCCCTTTTATTACTTGCAGTATTTCTTGTCTTGAGGTCTACTTTGATGTTAATACCACTATATCTTCT
TTCTTTTGTTAGTGTTTACATAGTATATCTTTTCCCATCCTTTACTTTCAACTACCTGTGTCTTGATATTTAAAATGTGCTTCTTAAAAAGAGCTTGTRG
TTGAATTTTGTTTTTTTATCCAGCCCAAAAATCTTTTAATTAGAATGCTTGTTTAGTTCATATATATTTCATGTAATTATTGATATAGTTAAATTTATAT
CTAGTATCTTGTTTTCACTTCATTTTTTATATTCTATTCTTTTCCTTCTTTATCAAGTCTTTTTTAAAAATAAATTCCATTTCATCTCCAATATAAACAT
TTGTGTTTTGCCTTTAGTCCTTCCTTTAGTTATTATACTGGAAATTTAAAAATGTATTCTTACCCTAGTTTAATAGTATGTCCTGAATATGTCATGTCCT
GAATAATTCAGGAATCTTATAATAGTTTAACTTTATCCCCTTTCTCTTTTGTGCAGTTGTTTCATGTATTTTACTTCAATGTATGTTATAAACTCAAGAT
GTTATTTTTTTCAGAAAGAAAAACCCAAAAAAATAAAAGCAAGATGTTATTTTGTTAYAAACACTCAGTAGACTTTTATTATTACCCACATATTTATACA
WTCTGGTACTGTTTATTTCTTACTGCTCTTCAGTTTTTCCAGCTGGGTTAGATTGAATTCTCCCAGCTTTCTTTTTGTCTGAGGGCATCTTCGTTTTGCA
ATTTTTTCTAAGATACTTTTGCTGGATTTGGAATTCAAAGTTGGCAATTTTTTTCCTTTCAGCAATTTAAAGCTTTCAATACATCACCTTCTGGCTACCA
TAATTTCTGCTGAAAAAAGGCAGCTGTTAAGTATTATTGTTTTCCTGAAGATAAACTGTGTTTATTAATATTTTCTCTGTATCTTTGATTTTTTAGCAAT
TTGACCATGATATGCCTTACTGTAATGTGGTTTGCTTGCTATTTATCCTCCATGGGGTTTGCTGAGCTTCTTGAGTCACTGGGTTGATAACTTTCATTAT
GTTTGTAAAATTCTTGGTCATTATCTCCTCACATCTTCCTTTTGTCCCATCCTCTCTCTTCTCTCTTTCTGGGACCCCAGTCAACATGTTTTTTAGATCT
CTTGACTGTATTCTATATCTCTTGCATTCTGTTACCTTTTTTTTTTTAACCTCTCCGCATTGCAACTGAATGTTCTCTATTAACCTGACTTTGAGTCCCC
TACTTCTGTCTTCTGTTGTATTCAGTCTGCTATTAAACCCATTCATTGTATCCTTTTGAAAACTGAGGTATAAAGCAAAATTTCCCCTTTGTAGTATACA
GTTCTGTGAGTTTTGACAAATGCACACTCTCATATAACCACTACCACAATCAAGATAGAGAATAATGTCATCACCCCCCAAAATGTCCTCATGCCCGTTT
GCAGATAACCCCTTAACTCAGTCCCCATCCCCTGACAACTACTAATCTGTTTTCTGACCCTGTAGTTTTGCCTTTTCCAGAATGTCCAATGAATGGAGTA
ATACACTATGGCTCTTTTCATTTAGCATAATGCATTTGAGATTCATTCATGCTGCATGCAAGAGTAGTTTCATTACTTTTTATTGCYGAGTAGTATTCCA
TCATATGGATGTACCACAAGTTGTTTATCAATTTACCAGTTTCAGAACATTTTAGTTTTTCCAGTTGTTGGCAATTATGAATAAAGCTACTAAAAATATT
CACCTTCTTCATATCAGACATTCATGTCTATGAACAGATGTTATCATTTGCTAACTTAAAGTCTTATATTTAACTCTAGGACATTCATTGGATTTTTAGA
AAATAAATTCTAGTTCTCTGTTAAAATACTCCATCTTTTGATCCATGTAGTCCATCTTTTCCTCTGTTTCCACTTTAACATAAATGTGTTACTTTGAAGT
CTTTTTCTGCCAACAACATCTTAGGTCTACTTTTTGGGAGTTTCTTTGTTTTTACATTTTGAGGTGTTCTTTTCTTAGCTTTTTTATTGATGCATAGTAA
CTGTACATATTTATGAGGCATGTAATATGTTTATACGTGCATACAGTGTGTAATGATCAAATCATTGTATTTAGAATACCCATCACCTTGAACATTTATT
ATTTCTTTGTGTTGGGGACATTTCCAATCTTTTCCTCTAGCTATTTTGAAATACAAAATATATGTTAACTATAGCCATCATTGTGATATCAAACACTAGA
ACTTATTCCTTATCTTGGGTCTACTTTTATTGACTGTTTTGTCACTTGAGTATCAATCACTTTCCTGTTTCACCTATTAATGTTTTATTGTGCTAGACAT
GGTGGATGATACATTGCAGAGGTTCTAGATGATGCTGTCTCTAYACAGAATGTTGAGTTTTGTTCTGGCAGGCAGTTAAGTTGCTGAGGAATAATCGTGA
TTCTGTTGTAACTTCATGTTAGACAATGTTATGGTAAATTTATTTCACTTTTGCACTGAGTCCTAAGGCATAGTCCCAGGACTGAATGTGTAGGATGTTC
ACTTAGGTCTCTTTACTTTGTCTAGATCAGGAGATGCTAGTATATTCTTAGCACTAAGACCCCTCTGAAATCTTGTCCAACATTTAGCCACCCAGAAGTT
GTTCTTTACTACACCTTTGAGGGTTATGCCCTGTACATGTGCAGCTTAGGGGTTCAAGGACAATCTCTTTACACATTTTTGGGTTATGTTCTGTCTAGCT
CCTTTCTTTTTAGCACTCTGCTTCCCAAAATCTACCTCACAGCCCCAAGCTCTTATCTCCATTTTTTTTTTTTTTTTTTTTTTTTTTGCACCCAGGGAGA
TAATTGCTCTCTACTTGAACTGTATTTCCTTTCAGTGGTGTTTGGAAAACATCTTTAGGGAAAGGAAGGGTGCGTGCAGGGATCACCTTTGGTGCTTTCC
TTCACTCAGCTGTCTCAGCTGTGAGCTATTTTTATCCATTACTTGAAAGCTATTGTTTTATTTATTTGTCCAATCTTATTTATTTATGAAGGGAGAGTAA
TGTTGATATCAGCTACGTTATTGTGRGTGAAACTGGAAGCCTCCTAAATTCTTCTTTCAAAAAAATTGTCAAATATTCAGTAAATTAACTAGATTTGATA
ATTTGTAAAACTCTAGGATTTCAAAGTTGTAATATGGAATAACTGAATCATAGGCTTGCCTAAAAAAATGTTTGATTTTTCCTAGACATCACTTAGTGCT
CTTACCCAGCTGATGAAAAAGATGCCCCATTTCCGAAAACAGATTACTAAGGTAAGCAGTATTGTATATGAGATACCTGATTAGTTTTAGTTTATATTCA
GTTTATATTCAGTTCTGTAGTTCGATTTAGCAGTGGGTTTCGTGGAATACTTGGTGTTATTTGTCCTCTAAAACCTTACTATAGGTCTGAGARATATCCC
ATATATCTAAGCTTCTTCATAACTTCTCTATATGTATAACCTAGATTTATCTGAATCCAGCTTAAAGTTTCTATATCTTTGTCTTGAATAGCCTAACAGA
GTCAYATTTATCAACCTTACAAGAAATTCAGCACTAGATTGACTAGTGGATGTTATTCTACATGTTTCTTTAAAGTAATAGTTACTTACTAGTAGATTTA
AGAGCATTTAAGCTGTTTAGTCAGGTAAACTATTTTTTTGCTCCTTAAAAACACTATCAGAATAATCTTAACATTTTTGTCATGTTGCACCCTAGTCAAC
CAATGATTTTTGTGTGTGTTAAAATACTTGAAACATTTAGAAAGATAAAKAGAATATGAACTTGAAGAACTTCTGSGTATTTTTCTCATGTTATTTTTCA
TTACTGTCAAACTCAACACAAATTCAACAATTCAATGCTTCCATCCCATTTATGCTGTCTGTTGATTGCCTCCTGTTGTATTAGTCTGTTCTCACATTGC
TGTAAGGAAATACCCAGGACTGGGTAATTTATAAAGGAAAGCGGTCTAATTGACTCACAGATCTACAWGGCTGGGAAGGCCTTAGGAAACTTACAGTCAT
GGCAGAAAGCAAAGGGGAAGCCAGGCACCTTCTTCACAAAGCYACAGGAGGGAGAAGTACAAGCAGGGCACATGCCAGACACTTGTAAAACCATCAGATC
TCATGAGAACTCACTTACTATTATGAGAACAGCATGGGGAAAATCACTCCCATCATCCCATGTTCCAAACACTTCCCATCAGGTCCCTCCCACAACACAT
GGGGATTATGGGAACTACAAGATGAGATTTAGGTGGGGACATAGCCAAACCATTTCACCTGTAAATCACCTTCTCATTTACTTCCTTTCTTGAGCTGTTC
CCTTGCTTACATGTTACCTTCTTTCACCTCAGCCCATACTTTCTTTCAGGCCTGTCTCAAAAGTTTAATATTACCAGTTGCACAAAAGTCATTAAAATCC
TTTAAATGATTGATTTCTTCTGTTTTTCAGCAAGTTGTCCATCTTAACTTAGCAGAAGATTGCATGAATAAGTTCAAGCTTAATATAGAAAAGCTCTGCA
AAACTGAACAGGTATGTGCAGAGTCAGAAATGCCTCTGTTCATAACAAATTTCMAGGATAAACTTTGTAAGTTAAAACCTAACTTTTTGCTTGATACAGT
GGTTGGTTTTTACAGAATCACAGACTCTCTCTTATCAGGGGAGCCACCTAGGCAGTATTTAATGTCATTCCCCGCTAACATTAACAAGTAGCTGTAGAGT
ATCTTAGTAAACAGTCCCTCCTAATATATTATATATTTTTTGTTTAATGGAATGATTTAAATTTTGGGAGCATGATTTCAGGGTGGCATTATTGGCAGGA
CCTTCTCAGTACGGGATTTAATATAGCATCCAGCAGAGCTCATTTTACAAGGGGCCTTTTATATCATGCCTCAACTGTTTAGACCATTGCCCCTCATAGA
ATACAAGCTGCATGTAATTTTAATTATTCTAATAGCCATGTTAATGCAGGTAAAAATTAAAAAGTGCAATTAATTTTACGAATAAGTTGGGTGCAGTGGT
GTGTGCTTATAGTCCCAGCTATTCAGGAGGCTGAGGTGGGAGGATTGCTTGATCCCAGGAGTTTGAGGGCAGCCTGGGCAAGACCCTGTCTCTTTAAAAA
AAAAAAAGAAAAAAAAAACTTTGACAACCTGATGTATTCAAAATATTATTTCAACATATAATCAGTATAAAAAGTTATTAATTAGATAATTTTGCATTGT
ATTACTTCAAGTCTCCTGGTGTTTTGTACCTACAGCACATCTTAATTCAGACTGATCCCATTTCAAGTGTTCAGTAGTCATATGTGGCTAGTGGCCACAG
TACTGGATAGCATAGGTTTAGATTAATGATTTTTATCTTCTCTGATTTATTTTTTGACCTTTTGTATTTTGTATAAACAATAGTTTACAAGTGATGTTCA
TATTTTCTTGTGTAATGTCATCAGTGTTCCATTAAAATTTGACAAGATTTAATAATAGATTTTGTGTGTTTGTTTTTTGTTTTTTTGAGACGGAGTTTCG
CTCTTGTTGCCCAGGCTAGAGTGCAATGGCCCAATCATGGCTCACTGCAACCTCTGCCCACCGGGTTCAAGTGAGTCTCCTGCCTCAGCCTCCCGAGTAG
CTGGGATTATAGGCACCTGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTACAGATGGGGTTTTACCATGTTGGCCAGGCTAGTCTCCAACTCCTGA
CCTCAGGTGATCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTACCCAGCCAATAATAGATGTTTTTAACTAAAAAATGAATTTT
GGTTATAGATCACTGACAATATTTTATTTTCATTAAGGACCTGGCACTTGGAACTGATGCAGAAGGACAGAAGGTGAAAGATTCCATGCGAGTACTCCTT
CCAGTTCTACTCAACAAAAATCATGATAATTGTGATAAAATAAGAGCAATTCTACTTTATATCTTCAGTATTAATGGTAATGGAGATAATCACTTTTTAA
TAAGTATTTTACTATTGATCATAAAAGAATCTTTGAAAACTGAAAGATAGTTGCTGAACTTGGTTAAGATAAAAGGGAAAATATGAAATCGAGAGAAGAC
TGAAGGAGATATAATTTGACTGTTTTTTATTTTAAAAGCTTCATTCATGGGTACTACCTAAAGCCTTGAAATTATTTTGGTAGCAATTGTGTGATTGTGC
ACTCATATTTTTACCTATTTAAGGAACTACGGAAGAAAATTTGGACAGGTTGATCCAGAATGTAAAGATAGRAAATGAGAGTGACATGATTCGTAACTGG
AGTTACCTTGGTGTTCCCATTGTTCCCCAAGTAAGAAGTCTTATGTTGTGTATATACTTTATATGTATGTGTATGTATGGTTGTATGTATTAACTGTTTT
TTTTTTTTATGTGGACAGTCTTCTTAAGTTCACTCTATAGATTTTGAATAAGTAAGCAATTAAAGATTTTGTTCTCTTTTCCATATGTAATTTGGGCAAA
TGCAGTTTTCTAGCGAATTTGTATTTTATGGCTTCTGTCATAATTCACTACTTACATTTTTGTCTTTATGATTCATTTATAACAATTGTCATATTTTAGT
TAAACGTGTAACCTTTAACTATAATATGGCAGAGAAAATAAGTATATATTTTCTTGATTAAAAAAATTTAGGCTCGCTGGGTATGGTGGCTCACACCTGT
AATCCCAACACTCTGGGAGACGCTGAGGCAGGAGGATTTCTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCATCATAGTAAGACCTCGCCTCTACAAAAA
ACAAAAAAATAACCAGGTGTGTTGGTGTGTACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGATCTCATAAGCTCAGGAGGTCAAGGCTGCAGTGGGCCA
AAATCACACCACTGTACTCCAGCACAAAGTGAGACTCTGTCTCAAAAAAAAAAAMAAAAAAAAAAGGCTCAAAGTCAAATTTTGAAGAGCTCTATTTAGA
ATCTCACTCTTTCCCATCTTTTTTTTTTTTTTTTGAGACAGAGGCTCTCTCTGTAGCACAGGCTGGAGTGCAGTGGCATGACCTCGGCTCACRGCAACCT
CTGCCTCCCAGGTTCAAGCAACTTTCCTGCCTCAGCCTCCCATCTGGGATTACAGGCGCCTGCCATCCGCCCAGCTAATTTTTGTATTTTTAGTAGAGAC
AGGGTTTCACTCTGTCGGCCAGGCTGCTCTCAAACTCCTGACCTCAGGTGATCTGCCCGCCTCAGCCTCCCAAAGTTCTGGGATTACAGGTGTGAGCCAC
TGCATCTGGCCCCATCAAGTTTTTTTGTGTGTATGTGTGTGTGTGTGTTTTTTTTTTGAGACGTAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGC
TCGATCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTTATGCCATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGACTACAGCCATCAAGTTTTATAATA
CTTTTATTTTAATAGACATATGTTCTGATATGATTATAAATAAATTTTAGCATTAAAGCACAAAATACTGTTCAGTGGAGTTATGYGACCACACTCAGAT
TTTTTAAAATAGGCATCTCCACTCTTAGTTTTAAGTCAAATACAATATAGTATTTACTGGTAAATTAAATATCTTCGTTAGGAAACGTAAGAGTATTATA
TTTGAATAGAATTACTGGTTTTTAATTTTTTTCCTCTAATTGTATTAGTCTCAACAAGGCAAACCGTTAAGAAAGGATCGGTCTGCAGAAGAAACTTTTC
AGCTCTCTCGGTGGACACCTTTTATCAAAGATATTATGGAGGTAAAAATCATTAAAATGTTTTTTTCTACCTGAGTGCCCTCTTTAGAGTATTCTTTACT
TTTTGTAGTTTATGTCAGTCTGAGTATATGTATTGGGCAGGAAGTTTCTGCAGTGGTTGGAGGCTTCACAAAAAAGCCTGTATCTGGGAAACTCTTGAAG
ATTCTTCTTCTTTTTTTTTTTTTTTTTTTTTCTTTTTGAGACAGAGTGTCACTCTATCACCCAGGCTGGAGTGCAGTGGCACAGTCTTGGCTCACTGCAA
CCTTCGCCTCCCAGGTTCCAGCAATTCTCTTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACACGCCACCATGCCTGGCTAATTTTTGTATTTTTA
GTGGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTG
AGCCACTGCGCCCGGCTGAAGATTCTTTTCTTAAAGACCTCAGACAAACTCACACCACTGACTGTTTCAAAAAAAATAAAATAAACACATATATGCTTTA
TAAAAAATACTGCTTTGTTTTAATAACTGTATGTGGCAAAATATAATTTATTTGAATGAAAGTTCAACAAAATAACATTTGTATGTGGACCACTATTAAA
AAGTATTAGATGCCAATATTCTTGGAAATGTTTTTGGATTAAAATGTAAACTTCATTATAGTTTGCTGTCAGATGAATCATGCCTTTAATACTGTTTACA
CTTAGAGAACATTATTCAATTATAGGAAATTATAAAATGAGCTAATTTTAAAATTATGAGCTTAATAAAATCATGACACTGATTCTTCGGTCATGATCAT
ATAGTTTTTATTCCCCTTTTCCTTTGACTTAAACCCCAGTTTATACTTTCTTTKGGGAGCTAATTTGGTACAGTGCATAACTATGATTTCTCTGTTTTGC
TTGGCTWATTTTATGTTATTCACACATGCTTAAACATATATGAAAAATCTAAAGAATTTAGACTTTGTTTTCTCTAACATAAGAATTTTTTTTCCTTTCT
CACAGGGATGATATAGAACTAAGTAGTTTCTTATGGCTAGTTTTTTGTTTTTTTGTTTTTAAACATATTCCTAATCAGTTTACCATGGCTAGTATTTGTA
AAATAAGAAATGACTTTCTTGAACCCCTTAACAAAGATTTGCATGTTAAATTCAGAAAATACACATTTGGATCCATGACAGTCTTAGGCCTTTAGAATTT
CTCCTGAAACTTGATTTCCTCCCTTCTTGCAGTCTTACTGAAATATTCTTGGACTACTGAGTACTTTGTGCCCAATCCATGTGCCCACTTGTTAATACTA
CTTGTACTACCATGCCGTAAAGCAGTGGTCTCCATACTTTTCAGTTCATGCACACCTAACCATAAAAAAAATGTGARCATGAACCTATTTACTTATAAGT
TAAGCATTACTGTAATAAAAAATATATAATCTATGTATACAGTATATTTATATACATACATRTATCATAAAATCTAACATTGAAAAAAGGGAAAATTTTA
AAGAATAAAATGAAAAGGAAAACTTCCCATATCCCATTGAATTGTCTTGAGTACCCCTAGGCCATAGCAGTAGTAGCTATGAAGGGCAAAGCTTTAGAAG
TGTGTCACGACTGGAATAATGATTAGAGACCCCCGGCACCATAGAACTAAAGGCTCTGATAAGGTGCCTGGAATCCTTATAACAGCATGGGGACCCTCCA
AATGAAGAAAGGGAGTCATGCAGCAAATATTGGTGTAATAAGTAAATGATTTCACTGATTTTTGAAGGAAATAAGGTTTGTGAGTTTCAAAGAAAAGRCT
AATCTTATACTAAATATTTATGTCTAAGGTTCCTCAATTGCAAATGCAAGTTTTGACCTTTATGCCAAACAAAGTCCTGCAATTTACAATTTTATTGATG
GAATTAACTCTTTCCTTCCTTAGGATGCTATTGATAATAGATTAGATTCAAAAGAATGGCCATATTGTTCCCAGTGTCCAGCARTATGGAATGGTTCAGG
AGCTGTAAGGTAAATTCTACAAGTGAAAATCAATGAAATTTTCATTCTACGGACTAATAATTTAAAATGGTACACAGATACTCATATTTGGCAACTTTCT
TTCAAGTATATAATCCTGTATTTTTTCTTTAACTGTAACTTGTTTTAAATGAATCCAGATAAGCAATATGAAAATGTACTTTATTATAAAAAATATTTTC
ATGAAACAAGAAGTATTTCCTTCCCCACCTCCTCTTCCTTCACATAGCAGAGACCTTAATCCTTTTTGATAATTAYTTTTGTGTTGAGGTACTTTAAACA
TTTAAAAAGATACAGAGAATGTTACAATGCATACCCTTATGCCCAGTGCCCAGCTTATTAACTAAATCATTATAATTCAAGCTTCCTGTATATCACACTA
TGGTTTTATTATTTTCCCTTATTTTCTGTCCTGAATTTGGTGTTTATTGCCTGTATGTCTTTATACTTTTTCTACATATGTTTGTATCCTAAACAGTGTC
TTGAGTTRTATCTTGCAGGATTTCCTCTTGATCTTTGGCTTTCAGCCTTTAACTRTGTTGTGTCTAGGTATAGTTCTCTTTGTGTTTATTCTACCTGAGG
ATTGTTGAGTTTCTTAAATCTGCAAGTTAATAATTTTCATCAAATTTGGGAAGTTTTCAGGCATTATTTTTTTCAAATATTTTTCTGCTCCTTTCTCTCT
CCTTCCTTTCTTTCTGAAACTCCTGTTACACATAAGTTGGAGGGTTTGACATTGTCCTGTGAGTTACTGAGGCTCTTTTCTTTCATCTTTTTAAAATTTG
TTATTGTACTTTCACATGTAGAATTTCCATTTGATTTTTTTAAATTTCCATTTCTGACTGTTGAGATTCCCTGTTGTTAACTTGTTACCATATTTTTCTT
TTTAATTCTTTTGATCATATTTRTAATTGCTTGGAAGTCCCTAACATCTGAGTCTACTCAGGGTTAATTCCTACTGAATGTTTTTTTTTCCCCCAAGTAT
GAGTCACACATTCCTGTTTCTTTGTATATCTACTAATTTTTGGTTGAAAATTGGACCTTTTAGATAATGTATTATAGCAACTCCAAATTGTTTTAGTAAT
TTGTGTGGACTTTGAACTATGGAATCTTTCTCTCTTGCTCTCTTGTAGCCACTGATGTCCTTGTTGAGTTTTTAAAATTTTTTAATTTTTTATCTTAGCT
TCTAGTGGTTGCCCCTATGTCTGTGTAGTTTAGAGGTCAGTCAGTTATCTGTTCAGACACTTCAAGCCTGTATGGCTTCCATCCTCTACTGATCAAGCTG
AGTGTGGGTTAGGGGTTGCATTCCAAAATAGGCAGTTCTTAAGTCTCCCTCCTTTTTTTAATTTTTTTTTTTTTTTTAAATAGAGGCAAGGCCTCTCTCT
GTTGCCCACACTGGAGTGCAGGAGTGCAGTGGCATGATCGTAGCTTACTATAAACTCAAACGCATGGGCTCAGGTGAGCCTCCCACCTCAGCCTCCCAGG
TAGCTAAGGTTCCAGGTATATGCCACCACACCCAGCTAATTTTTAAATGTCTTGTAGAGACAGGGTCTCACTATGTTGCCCAGGCTGGTCTTGAACTCCT
GGGCTCAAGCGATCTTCCTGCCTCAGCCTCCCAAAGCACTGGGATTATAGATGTGAGACACTGCAGCCAGCCCTTTTTTCCCTCATTTTTTTTCCTGGAC
TTTCTCAGGTTTTCCCCACACATGCATAGTTTAGCAGTCAACTAATGATGTGTAGAGAGCTTATCTTTTCTTTCTTTGGCTTCTTTACTTCTGGGATTTC
CTTATTAAATTTCTACCTGGCCGGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACTTGAGGTCAGGAGTTCGA
GACCAGCCTGATCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCRGGCATGGTGGCACACTCCTGTAATCCCAGCTATTCAGGAGGC
TGARGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTAGGTGACAGAGCAAGACTCCACCTC
AAATTAATTAATTAATTWATTTATTTATTTGTACCTGATTGGCTGCCCATCCTAAGTTGAGACCACACCTAGCAAAGCTGCAGGATTTTGTACTCGCCTC
ACTGCCCCACCTTGAATCAAGTCTTCCACCAATGCAGTAAAGCTATAACTTTTATCTGACTGAGCTGGGAGAGCAGTGAGGGTTAGATGCAGCCCAGGCT
AGAAGGTTACATATTCACCACCACCGTTCTTACCAGATATGTTAGCAGATATTCAAGATTAAATGCTTCTCAATTTGTTGTCTGCCTATGGTTTCCAGTT
AACCTGAAATGTTTTGTTTTGTTTTCCCCACAATTTCATCCAGGAATATACTTGTTTTCTTAGAGGGGAATCTCCTGACCACCTTATTCTGCCATGACCA
CAAGTGCTCTCTATCTTATGTTTTTAAACTTAATATAGTGTCATATTGTGTGTCCTCCTGCAGCCTGCTTTTTTGTTTCTGTCACATTATGTTTGTGAAA
TTTATCCCAGACTGATACATGCATAAATTTTCACTGCTAGTTGGTATATAGTTATATGAGTATAGCAACTTATTCATCTGTTTTCCACATGATAGAAATT
TAGGCTATCTCAAAACTGGCATTATTACAAACAGTATGCAGTGAGCATTCTTGTACTTTTACGTATATCTGGATAGGGTGCTTCCCTTGGACTGAGKACT
TTTCTTTACTTTTGTTTTATTTTTTCCTTTTCTACAAAAGGTTTGGAGGTTATGTTATCTATTTTTATTCTTGTAGCAGTTTATTACTAAGCATATTTGA
CTCAACAAAGTCKAAGATTAATTAGTATCTCTGCCCTCCTCTTGAACAATACAAGAACCTTAGACCAACTGGATGTAAACCATGCACCCCTTAAATGTTA
TAATACTTCATTTGTGTTCACTTTGTATCTTTTTTACCCCCCATATTACTAAGCAGCATTATTGGTTTTTTAAAATTCAGTTGTATGTGCATGTGAACCT
GTTAAATCGCCCACCACCCCTTTCGTGTGGGCTCAGTTTCTTTCTTTCTGAAGTGTATCCTTTGATGCGGGTCTGTTGGTGGTAGTCTTTTTTATTTTTT
ATTTTTTTCCAAGACAGAGTCTTGCTCTGTCATCCAGGCCGCAGTGCRGTGGCACGATCTCGGCTCACTACAACCTGTGCCTCCCGGACTCAAGCAGTCC
TCGTGTCTCAGCCTCCTGACTAGCTGGGATTACAGATGTGCACCACCACACCCTGCTGATTTTTGTATTTTTAGCAGAGACAGGGTTTCACCATGTTGTC
CAGGCTGGTCTCAAACTCCTGACCTTTGATCTACGCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGCGCCACTACGCCTGGCCAGCGGTGGTAR
TCTTTACAGTTTTATCCGTTTCTTCATTTGGTCGTTGTTCTTAGCCAGCTATGAATTTCTAAGAGCTGAGTTATGTTCAGTCAACACTTGTAGAAAATAT
TCTGCTGTTTCCAGGGTTCTACTTTAGCTCTTGGGAAGGTGGAGGGGGTTGTGTTTTCTGTCAGTCTTGTACCTTTGTRAATAATTAACCTTTTTTCTCT
GGTTGTTTTTTGTCCTCGGTTCTGTATATTCTCTGTGCTATGTGTATCTGAGGATTTATTTTTATTTCTTTCTTTGGAATTCATTTATGTTTCCTGAATC
TGAGGATTTACATCTTTCATAAATTCTTCAAATATTGCCACTTCTGTAGTCTTGGTTTTGTTAGAACATCTTATTCTGTCATAATGTCTCTTAATTTCTT
AAACTTTTTTGTTTCTTCTGCTGGTGTTTCATTCTAGAAATTTTTCTTCAGATTTAGTTTTCAGTTCTTTAGGTCTCTCTTACACTGTGTCTCATCTGCT
GTATAAGCTGTTTTTTCTTTTTCTATTTTCAGTGACTTTATTTTTCTGTTTTAGAAGTTCTCATGTTTCTTTTTTAAACATGCTTGGACTTTTTGTTATT
TCTTATTTTGTCATACTCTCTATCCTCCTTTATTGTCTATTGTCATTTTAAACATACYTAATTTGTAGTCTATATCTAATAAATTCACTAATTTATACTC
TTTGGGTTCAATTCTGTTGCCTTTTATTTCTGCAGACTCATAGTTACTTATTTCAGTATGTGTCTTGTAATTTTGAATGCTGAGTTTATTTCAGTAGCCA
GCATTGAGAACGCATCCCTTCARGCAGGTTTTGCATGTGCTTTTGCCAGATTAGAGGTTTTTTCTTTTTTGTATTAATGTCTCAGTTTGGGGTTCCTCAG
ACCATGAAGGTAGTATGATTAATACCTAAGACTCTGTGAGACAGGCCTGTGGCTAAATTATCAGAGGAGAAGCTTCCTTGCATCTCCCCTTGCCTTTGAG
GTTGTCCTGACCTTATGCAGGGTGTCAGCTCCCAATCTGTACCTTGCACAGTACCCAGGGCTCGGCCCCTTGTTTGCTAASATCAGAAAATACTCCACAA
GGCAGACCAAGCCTCAACTCAGTTTACCATTCTAGTATTTAGCTTCCTTTTTACCAATAGCCCTGGAGATTTCTCTGACTTGTTTACTCTCAGCTATGCT
TTAAAAACATGTTTCCTCTTAATCAGTGCTCCTTGGTGCTATTTAGAGGGAAGTTTTCAGGATCTAGGGATTTAATTATCTTTATATCTCTCAGTCTTCA
CATGTGTGTGAAACAAATTAAATATAATCCCGTTACTCTAAAATTGCTATTCAGAAGCTTAGAAATTGTTAGAATTGTTTTGAGCAGTGTTGTCTCCTTT
TCTTTTGCCTTCTTACTCTATTTCTCTCTGTTGAAACAGTTCTTAAGCCAAAGTTATTAATACGTCCTTGACTTTGGGAACAAGAGTGGGTCTTGTTCCT
GTTTCATCTTTCAAAAGGAAAGGAAATTTTTAATTTTAGTTTTTAAAATTTGTTTCCTGTTGTTCACTGCCTCATTCTTTAAGGTAATGAATGGAAGCAA
TCATCTGAAAGGCTAGATTCAGATTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTAGAGTCCAGTGGTGTGATCTTGGC
TCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTTCTGCCTCAGTTTCCTGAGTAACTGGGACTACAGGCATGCGCCACCATGCCCAGCTAATTTTT
GTATTTTTAGTAGAGAGGGGGTTTCACCATGTTGGCCAGAATGGTCTCGATCTCTTGACTTCATGATCCGCCCACCTCGGCCTCCCGAAGTGCTGGGATT
ACAGACGTGAGCCACCACGCCCAGCCAAGAACATTATTAAAAGTTTGCTATGGGGCTGGGTGCCGTGGTGCACCCCTGTAAGTCCACCTACTTGAGGCTG
AGGTGGGAGGATTGCTTGAGCCTAAGAGTTCGAGGCTGTAGTGCCCTGTGATGATGCTGGTCCGCAGCTGCTGCACTGTAGCCTAGGCAACATAGCAAGA
CCCCATCTCTAACAAAACAAAAATTTGCTATGAGATCCTATACTGCAAGGCATTCTAGGTCATCCAGAACAGTGGCTCTCAAAGTAGGTAACAAAATGAA
CAATTGGGTACTTATTTTTACCTAAAAAAGAAGAAATTAAGTTTTACTAATATATACTAGTACACATATGTCATTTACACATTAATATATTTGTTTATAA
ATGAATGTTTATTTTGAAATATTTACTTTTCAAATAAAAGCTAAAAATTTTTACCAGTGGAGCTTGTGAACAAAAAAAGTAATTCCTATGCTCTAGAGCA
GTGCTAGCCAATAGAACTTTCTGCAGTGATAGAAAGGTTCTATATTGGCACTGTCCAGTATGACAGCCACTAGCTACATGTGGCTTTTGGGTACTGGATA
TGTGGCTAAGTATGGATGAAGAACTGAATTTCTTATTTCATTTAATTTCAACTAATTTAAATTTAAATAGCCTCATGTGGCTAGTGGCTACTATATGGGA
YTCTGGGGATCTAGAGCAATCTGGAGGAGGAATGGTAAAAGTAATGACTACTATTTATTGAGTACTTACCCAACACCAGATTCTGTACTTAGTGTGTTCT
GTACATTGTTTCATTTCATCCTTGTAACAGCCTTTGAGGTTTAGAGAGAAGTTAAGTAATTTTCTGAAAGTCATACTGAATCAAAAACAAGCAGAATAAA
AATCGAAACACAGGTCTAATTCTTAACAGCCAACCTCCTACCATCGTAGGTTCCTGAATTCCATTCCATCAAGGAACAACCTAATACTATATCAGCTCCA
AAGTATTACTTGCCCCTTTCCCCTTCACATCTTCAAAACCTTTTTCAGTGCCACTCTCTAATTTTTTTTTAATTTCAAGAAGCTGCAGACTTCTCAGGTA
TATTATTTCTTCTTATGAAATAATAAGGGAGGTTGTTAGCTCTACTCTATATGTTAAAATGCCAAGCCAGATTATGCATGATTTGTTAGAATTGTTTTTG
AAATGTGGCTGTCCTGCTTAAGTCTTGGTTAGTCATACTATGGTTAAGTCATTTCCTTAAAAATCAATGTAATTGGGCCGGGCGCGGTGGCTTATGCCTG
TTATCCCAGCACTTTGGGAGGCCAAGGTAGGCAGATCACGAGGTCAGGAGTTCAAGACCAGCGTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATA
CAAAAATTAGCTGGGCATGGTGGCACATGCCTGTAATCCTAGCTACTCGGGAGGCTGAAACAGGAGAATTGCTTGAACTGTGACCCAGGAGGCGGAGGTT
GCAGTGAACCAAGATCGCTCCACTGCAGTCCAGCCTGGGCTACAAAGTGAGACTCCACCTCAAAAAAAAAAAAAAAAAAAAAAAATCAATGTAATTGGTA
GCAAGTTTGAGTTTGGTTGAGTTAGGCTTTTTAAGTCTACAAGCATTATGGCTTTGGAAATGTTTATAACATGTTTACTTTTTTTTTTTTAAATTACTTT
TTAGTGCTCGCCAGAAACCCAGAGCTAATTATTTAGAAGACCGAAAAAATGGGTCAAAGCTGATTGTTTTTGTAATTGGAGGGATCACATACTCTGAAGT
GCGTKGTGCTTATGAAGTTTCTCAGGCACATAAATCCTGTGAAGTTATTATTGGTAAGACTTTCATTTTCTTCTTTTCTGTTTTTTTTTTTTTTTTTGAG
ACTAAGTCTCGGTCTTGTCCCCCAGGCTGGAGTGGAATGGCGCAATCTTGGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTTCTGCCTCAGC
CTCCTGAATAGCTGGAATTACAGGTGTCTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTC
AAACTCCTGACCTTAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGACATGAGCCACCGCACCCAGCCTTCTTTTCTGTTTTTAAACA
AACTCTAAATGCAAAAGTATACATGTAAAATGTTATCTTGTGTTATACATTTGAGACAAAATTTAATGCAAAAAAATTGTTAACCATAGAATGTGTTTTG
TCTGATGTGCTGGAGTTTTTTCCTAGTTGACTTTTTGATAGTTTTATTTTAAAATGTGCTTATTTGAGGAAAAGGAGCTTGCTCCTTTAAAATAGTATGT
TCTGTACGTTTGTTTAACCATTAAATAGTTTTTGAGGCACAAATACATTTCTACTTCAAAAATATTTTGAATTTTTTGTGGATATGGACATKACATTGGC
AAGGCCTGTGTGGAATTAAGTTTTAAGAATTTCAGGCCAGGCTAGTGGCTCAGGCCTGTAATTCCAGCACTTTGGGAGGCCAAAGCAGAAGGGTCACTTG
AGGCCAGGAGTTTGAAACCAGCCTGGGCAATAAAGCAAAACTCCGTCTCTACAAAAAATTAAAAAATAAGAATTTCAGTCAAAGCCAATGATAGGTAAAC
TCTCCTGACCCATGGAGGCGATGGATCTGTGTGTTAAGCCTTGACCTGCAGCACTGCTTAGTGGATCTCTATTATTGAACAATAACTGTTATAGTGCTGA
GGATAGGATAATCCCGTTTTGCCCTTCATTATACCAACGTATAGCACAAAGTAGACAAAGCACTAGGAATGGCCGCTGTTTCTGAAAAGTTACTGAACAT
GCTCAGTGGTGAAGAAGGATTGAAATATTGCAGCATAGGCAGATTTCAGGAAGATGTCTTACAGAAATTTTGTTACATTACCCCAGGCTACTGCACTTTA
CATATTTGAAGGACAACACATTATATTAAGCGAAGGAAAATTGATTTAACTGCTGGCCTCTGAAAAATTCTCTTTTCTCCTACCAGGTTCTACACATGTT
TTAACACCCAAAAAGCTGTTGGATGATATAAAGATGCTGAATAAACCCAAGGATAAAGTCTCCTTAATTAAAGATGAATAGCRTTTCTTTTTGGAGGGTT
TAGAGATTCTTACTAATATGTTGAACTAAAATAGAAAGAAAATGTTGCTGTCATGTAATTTAAACAATGTAAATATTTTATGGAATAATGGCTTTTCAAA
TACATTTCTTAAGGAACTGTTTATGATTATTACTGGATTTGTCATTTTTGATAATTTAAATATTGCTGCTGCTTTGTAGATGATGAGAAGAAATGTTAAA
GTGCTTTCTAAAAGGAAATTTTTTCACCTTTGGAGGAGAATATATTAGAGTTGTGGGTAATTTTTCACAGCCACCTATGTACATACTAATTACCCATTGG
ATACTTATATCTAAAAGTCTCATGCTGAAGTATAGTTTTTGGGAAAGAATGATTTTAAATAAAGAGATTGTAAAAGTAAAAAACTGTAAATGTATATGTA
TGATAGAATTGTTTCCTCTAAGTGTAGTTTTTCTTTCAACTAAAATTCAGTTTATGTGTAAAATAATTCAGTCATTAATAGAAATGGAGTGATTTCACAG
TGTGTACTGTTTTGCCACATACTTCTAAAGAACACAATTTTATATAATTTTGAAATCATGTATGTTTAAATTAGAAAACCAAAAATCATGAACATTCTAA
GAGAAAATAAATATAGAATTTAAAAAATTATTCTGGTTTGTGTTTTCTGTAGGGGAGAGGGGAAAGTTACAAATTTTAAAAGTTCTAAATTAGAGTAACA
AAGAAGAAAAGGAATCTACCGTAATATTCCCACCAAGATAACTCCTAATGACTTTTTCAAAAATAACGTAATCTCTATATAGGGTTAGATAATATATGTC
TGCAGATGTGTTTTGTTAAACAAAGGGAACATCTTTGTTTCAAATCTCTTCTTTTACTTGCCCTCATAGTGTTCTGTCATATGGCAGACCATAGTTTTAT
TGATTCAGAGTTTTGCTCTTATAAATAATGCTGCGTTGTTTGGGTACATACCTTTGCAGACTTACACAGACATTTCCATAATGTAAATTCCTAGCAGTGG
TCAAGGGATTTGTGCATTTAAATATTGATGGATATCCATTTTTAATTTTTATTTAAGTAAATCCATCGCTTTTCCATTTTGGCTTCTGAATTTCACATGC
TACTTAGAAATACCTTCCACACTCCAGGATTATAAATTTTTGATAGATTCATTCTATTTTTTTACAGGTAACTCACCCATCTGGAATTGATTTTAGTGTA
AGAATGTGTGCTAGATATTGTCTCTTAGTACTTGGCATGACGTCCCATGCCTCCTTACCCCATACCACAGGGGATGAAAGGCTAAACATGAAGTTTTTCA
GGTTCTAGGATAAGTAAGGTCTGAACAGTTTATATTCTACCAATGATGTGCACTTGGTCAAGATTTGGAGGCAGAGGCCATCTACTATGCCAGTAAGCAA
TCTCCCGCAGACAGGAATTGTTTGTAGCAACCAGACTCCACATTTTAGTGTCTTGTCGCCTGCTTCGTGGGTATGAGTTAATGCTGTGGCAGCAGCACTA
GCTTCCTGTCCTTTGGGTCACAGATGGTAAAATGATCGTGGGTCTCCAGTTTCTGCTCCTACTGCTTTTTCAGTGATTTTTGTAACGACCTAATTCTCTG
TATTAAATGCCTTTCTGCTTGAAATATCTAGAGAAGTTTGTTTCCTGCACAGAACCCTGACTTGATGGAGTATTTCATAGTGGTCCAGCTTCACTCCTTT
CTAAACAGCCAGATGTTATACCAGATCCTATTGGATAATCTCTCTTTCCCCAACTAATCTGAAATACCACCATTATCATAGACTAAATTTCCATTTGTAT
TGTGGTCTATTTCTGGATTCTCTTTTAATGACCTACAGTTTGTTTTGTATTTCTTTTTCCCTATTTCAATTCATGGTATGTTTCAATATGTAGTGGAAGA
AGTTCCTATTCAATCCACCTAAATTACTATTATTTTTCAGAAATTTTCTATCAGATTTTTCTAGATGAATTTTAGTATCCTTTTGTTGAGTTCCCAAAAA
AAGCCATTTTGGTATTTTCATAGGATTTGCATTGTTCCTAGGTTAACTTAGGAAAAATCAACATCTTTTATAATATTGAAACTTTGATATTCAGGAATGT
GAAATGTCTTTTCATTTAAATCTTCATAACCTTCAGAATCTTCATTTTCTTCATATAGTTACTGCACATTGTCAAAATATTTTTGTAGTTCCTTTGTGGG
TTGAATCTTCTACTATTTTCAAATGGTTTTTTACACATAGAAATTTATTTATTTTTTTTTAAATAGAGACAGGGTCTTGCTATGTTACCCAGGCTGGAGT
GCAGTCATGTGATCATAGCTCACTGGAATTTTGAACTCCTGGGCGATAGTGATCTTCCTGCCTCAGCCTCCCAAGTAGCCAGGACTACAGGTATGGGCCA
CCACATATGGCTAATTTTTGGGTTTTTTTGTTTTTGTTTTTGTTTTTTTGTATAGACAGTCTCACTGTGTTGCCCTGGCTGGTCTCAAACTCCTGGGCTT
AAGCAATCCTCCTTCTCAGCCTCCCAAAGTGTGGGGATTACAGGTGTGAGCCATTGTGCCTGGCCAACTTTTGATATGTTAATCTTACAACTTTACTAAG
TATTGATAATAAAGTAATAATATACAAATGCTTACTTAGTGCTTTCTATTATTAATTCATTCCATCTTCTCGTGTATTCCTGTGAGCATAGGTACTGTGA
TTATCATCTTTATTTTAAAGCTGAGGAAACCGACACAAAGAGATGGATGTAACTTGGTGTGGATGAGTGCATGGAAAGGAAGGGCCTGGCACAATAAACA
GCCCTCTTTGCAAACTACGCATGAAAACAATATATCTCCAGTAAGAGGATTAGTTTTTGGTGTCTGCATTTTATCTGAGATCTTTGTGTGCCTCAGTAAC
TCCCTCTCCAGGGTCAGAACATGTGTGGAATAGGTATTTAGATTAATCCAATGGCCTGGAACAAATGGAACTAAGAGTGTGATGACAGCAAACACTGGAC
TGTTTATTCATTTGATCACTTGACATCTCAGTGACCACTTTACCCTGATCACACTGATATCGGATGTTTTGAGTCCTGTATTTCACATATATGTTAAGCT
TTGAATTGCAGAGACCCTTTGTTTACAAAATCTCTTATGAATTTGAAGCCATAAGACGTCATCTCACATAAATTCCTTGTATAAGCTGATTTTTTTTCCC
CCATAGAATTAGCAATTACAGGCCAAAGCAGGAGGATCACTTGAGCCCAGGAGTTTGAGACGAGCCTGAGCAACATAGTGAGACCACATCTTTTTTTTTT
TTTTTTCGTTCTATGAATATTCCAAAAGTGAGACCACATCTTTACAAAAAAAGGAAAAAAAAAAAAGCTGGGTGTGGTGACACGTACCTGTGATCCCAGC
TACTACTCAAGAGGCTGAGGCAGGAGGATTGCTTGAACCAAGGAGGTGGAGGCTGCAGTGAACTGTGATCACACCACTGCACTTCAGCCTGGGCGAGTCA
GTCCCTGTCTGAAAAAAAAAAATTACAGGTTTTGATTTCAAGACCCAGAAAAAGACTTTTTTGTTGTTGCAACCAATGGAAACCATTTATTCACTGTCTC
TGAAACACAGATTTGCTTCCTGTTGAAATGTGCTTTATTTATAAAGTACAGTGGATTCACATTCTTCAATCATATTAGTAAATAAATAAGGATATCTTTA
TTAATCCTGTTATCCTGGTTCCTAGACCCTTAGCCTTTACTGCTCCAGGATCACAATAGGAGTTCACAAGATCTCAAAAGTCTTGGATTTGAGCCCCAAA
GGGCCTGACCCCACAGTTTATTGTGTAAGATACGACACCTCCATAACTCAGTTCTTCCCTAGGTATTTGTACCCATTGTAAGTCCTATTGGAATGCAAGC
AGATTTCTTCTAAAATCAAAGGAGCAAGAAATGTCTTCCTTCTATAGGAAAATTTTTAACACCAAAACAATGTTTTTTCTATTAAATATAAACACATATT
CGTATTTAGTACAAATTAGGCCTATTTTATATAATTCATTAACAGCAAGATTATAATAGGATAAAAAGATGAGATTTCTTTTGCAAACTATAATAGTTAA
CTAAAGGGGATGGCTAGAACTTTGTCTTAAAGATGATAGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAGGCCGAGGCAGGCAGATC
ACCTGAGGTCAGGGATTGGAGACCAGCCTGACCAACATGGTGAAATCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGGGTGCCTATA
ATCCCTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGATTGCAGTGAGCCGAGATCCCGCAATTGCACTCCAGCCTGGGCGACAGAG
TGAGACTCCGTCTCAAAAAAAATAAAAATAAAAAAAAATAATAAAAAGATGATAAAAAGCCCTCTATAGACAGTCCCATTGCATCCTGCTGGCAGCTTCC
AGCGGCCAGAGCACAGCTAGACCTTGGAGTAAATACTGAGAGGCCTGTGCACCCTGGAGACTGCCAGGTGTTTCTTTACAGCCCTCAGGCAATGCTGAGT
CCCTTGATGCCAGCATTAGGGGTACCATTACTTTTACTTCACAAGCTTGTTTTTCTGGTTTATTACTCGAACAGAATTAGAAGAGAGGTCATTAGAATTG
ACACAAGAATTGCATGAGGGAGGAGATGGCCAAGACTACAGGATCAGTAAGTATAAAATTATCCTTGTAAATCAGAGCCTAGTGTCTTTGTGGAACTCCT
TAAGGGCATTGCCTGCCCTTTTTTGCTATTTCTTAGATTAGTCGTGTTGCAGTGATTGCTCATAATGACCCCTAATCTTCAAGGAAATGGAAAATTACAT
TTAGAATATGGTTTGATAAAGCAGAAATGGGCCATATTTTTAAATCAAAAATGATTATAATTACCAATTTCTATAAATGTTAATTTGAGGGATTTAGAAA
TATTCGTTAATGGTAGACGTTTCTAACCAAGGTTCCATGGATTTGTTTCATGGTGTCCACGAACTTTTAAAAATGAATGTATTCTTTTCCACGAGAAGGC
AGAGCATGGGGGAAGGGAGACTCCATAGCTTTCACCAGATTCCCAAAAAATGAGCCCAAAAAAGGTTAAGAACTAATGAATCATATAAGAACACTTCAAG
CCAGAGAAGTATATGATTTTAAACTTGGGGATGAGATAGTGGTACTAACATACAAAACAGATTAGCAAGTTGTGATTAAATTTAGATATGTGATGATACT
GGAAGCCTCTTGGAACTGCCAAAAACCAAAATGTCAACAAATTAAGTCTAATGACCTAATTGGCTTTTATTAGCAATTTATGAATCAGGCAGCATCCTAT
CTATGAAATAGAAAGGCTGAGCACAGGAGTGGGCTTTATAGGCAGAAAAAAACAGAAGAAAATGGAAACAAGGAACAAAAGGTGTCTTTATATGGGTTAA
AGCAGAGGGGACTTCCTTATGCCAGCTCAGGTTGACGGGGCCCCTTCTAATGGGATACTGTGAATGTTCTGGGTCTTTTTTTTTTCTTTTAAACTGACCT
ATTTTAAAGTTCAGTTTGATTACGTGGCACCTAGCATGAGTGACTCCATTCTAGTTTGGTCTGGTCTGTTGGGGTCCCCTGTAGGAGCTTAGTCCAAAAA
AATGACCTCCCATAAGTTTTATTTAATAGAACATACACAGTTTAAGCTCTGTTTTTTCTAATACCAGCCATGGTTCCTTGCTATCTTCCTTACAGTGCCA
CAGCCTGAAGTAAATTTGGCCATAAAGTCAGAGGTATTTTCAGACTGACCTGTGCATTATCTCTTCCAGGGCACCCTAAACCAATTTACAAACCCCAAAG
TTAAAAACAGTCCATTCTCCAGCCAGCTAGACGAATACCAGCTGCTCACATTGGCACGAAAATCTAAAGTGGGAATAGATTCAACTCCCTCCTGACCACT
GAGCCAAACTCTGGGAGTTGGGAAACCATTTGTTGAATGTCTAGGGTGAATGAAAATCAGAAGTTTCAGGGAAGGGGGAAAGAGCCAATACCCTGCTGTG
CTGTCACTAAGGAGGTAATAAATCACTCTTAAAGAAGGAAAGCAAAAGCTTGATCTGGAAGGAAAAAAAAAAAAGCCTGCTCTGGTCTGCATGAAAATGT
ACTTAATCTCTGGTACACAGTTTTAATGAATTGTCTTTTCCAAAATTTCATTAAGGCTATTATTTTCACATATTTCTGACTTCAAGCGATCTTTAAACAA
ATAATTTTGACTTATAAGTATATTGTGAGAATTTCATATAGTACAGAAAAGAAGGTAAAAACCCCTTTCTCCCCCAAAACTCCCAGTTTCCTTTACTAGA
GGTTCACTTCAGATTTTTAGGTATCTTTCCTGAAAATACGTATGCCCTTTAAAAAAAAATACACAAATGAAGAGCCAGGCACATTGGTGTGTGCCTGTAG
TCCCAGCCACTCAGTAGGCTAAGGCGGGAGGATTGCTTGAAGTTCAAGTCCAGCCTGGGCAACATAGAAAGACCCCAGAGGTTACAACTCTCTATATATA
TGCTTAGGCATCTTGCTTCTTTCACTGACTTTTGCA


SNP Information

Context             (SEQ ID NO:55667):
CATGTATTTTTGTTTAGTAAAATGTCTAATATTTAGAGCTCAAATAGTAGCTACTATTCATAATTTATATAAGTTTTAGTGCTTTTGGAACTCAATTCAT
W
AGAAAATAGATACAGTGCAAACAAAATGTTACTTTTTTAAAAGGAATTTTCAAGCTATTATACAGTTGTCCCTTGGTAAACACAGAGGAGGGTTGGTTCC
Celera SNP ID:            hCV8849994
SNP Position Genomic:     37817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55668):
TTAGTAAAATGTCTAATATTTAGAGCTCAAATAGTAGCTACTATTCATAATTTATATAAGTTTTAGTGCTTTTGGAACTCAATTCATTAGAAAATAGATA
Y
AGTGCAAACAAAATGTTACTTTTTTAAAAGGAATTTTCAAGCTATTATACAGTTGTCCCTTGGTAAACACAGAGGAGGGTTGGTTCCAGGACCTCCTGTG
Celera SNP ID:            hCV8849995
SNP Position Genomic:     37830
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55669):
GTAATTAACATTTTAAATTGCTTTTTAAATACCTTGAGGTGGCAAAAAATTTTGATAGCAGAAAAGAAAAGAAAAAATTATGGCCAGGTGCAGTGGTTCA
Y
GCCTGTAATCCCAACACTTCGGGAGGCCGGGGCAAGATGATCACCTGAGCCTAGGAGTGGGCAACAAAGTGAGACCCCATCTCTACAAAAAAATTTTAAA
Celera SNP ID:            hCV8848187
SNP Position Genomic:     7610
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55670):
ATTCCTTCATCTGTTGCACTGGTAGTAAAAAGCAGATAGTACAATCTGTGTATGAAACAAGAATTGAAGGAGAGAGGTAGACTAAAGCAGGAGAGGAGAG
Y
GAGAAAAGAAATAAAGGATGAAATCAGGATGACAGAGAAAATGAGATTTGATTAAGGTAAAGACACAGTTGTTTCAGGAAACAGCATGGTTAGTGCAAGT
Celera SNP ID:            hCV26300040
SNP Position Genomic:     30552
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55671):
CTAAAGAGCGTCGTGTGGCAGAGTGAGTGCGGTGGGGTAGGGGTTGAGAGAGGGAAGGCCGGGAGGCTGCCGTGCCGGGCCTCGTTTTGCAGCCCCAACC
Y
AGCGGTCTGTTGAGGAGCCGCCGCGAGCACTTGTTGCTTTGGGACCTGTGTGAGGACTTCTTCCTGCTTTCCTGCCCTGCCTTATTCCTTGCCAGCACCA
Celera SNP ID:            hCV22274370
SNP Position Genomic:     6204
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,18)   caucasian(C,7|T,31)   total(C,17|T,49)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55672):
CTATGTGTCATATACTTTCCTGAGTGTTTTACATAAATTTATTCATTTAATCCTCACAATAGCCATAGTAATAGATTGTACTTCTCCATTTTGAAGATCA
R
GAAATCAAAGAGGTTAAGTACCTTGCCTCAAATCACACAGCTAATGAATTGTTAAGGTTTGTTTTGCTCTGTTCTCTGTGTTTGGATTCTAGCATTTTAT
Celera SNP ID:            hCV11327038
SNP Position Genomic:     20021
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55673):
TATGATATCTGTATCATATATAAATACATATGATATCTGTATATATAAATACATATGATATCTATCTGTATATATAAATACATATGATATCTATCTGTAT
M
ATATATAAATACATATATCTATCTGTATAATATATAAATACATGATATCTATCTATATATAATATATAAATACATATGATATATATCTATATAATATATA
Celera SNP ID:            hCV26300041
SNP Position Genomic:     31552
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55674):
TGCTCTACATATAGGAGATTTAAAGCTTGTGGTTTAAATTTCAGACTAGCAAATAGCTTCTGTTACTGAATTTCGGAGCCTAAATTTGGTACAATTTACG
R
ACGGTTTTTCATCAGTTTAAAGAACGCTTAGAGGAAATGTCTTTATAGTCACATAGGGAATACAGTGTTACAGTTAATGTTTTTCATTAAATCACCAACA
Celera SNP ID:            hCV26300042
SNP Position Genomic:     32145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55675):
AATCGATACATAGAATCCAATATAATCATGATGGAATACTGTATAGGAGATAAAATGAATAAATCCGATATGTGTGTCAATGTCAATGTAGATAAATCTC
A
AACACACACACACACACACACATACATATGAAACAGAAATGACTGGAGGGAGAATACACATGAAATTAATTATAATGGTTGCCTTGGTTTGAGGCAGGGG
Celera SNP ID:            hCV26300043
SNP Position Genomic:     35022
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55676):
CGATACATAGAATCCAATATAATCATGATGGAATACTGTATAGGAGATAAAATGAATAAATCCGATATGTGTGTCAATGTCAATGTAGATAAATCTCAAA
C
ACACACACACACACACACATACATATGAAACAGAAATGACTGGAGGGAGAATACACATGAAATTAATTATAATGGTTGCCTTGGTTTGAGGCAGGGGTAT
Celera SNP ID:            hCV26300044
SNP Position Genomic:     35025
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55677):
TTTTAAAAAGCTACTATACTCCCTTCTTTCTGAATCAAAAACATTCAGAGATAAGAATTAGATGGAAGTAAAGCTCCCTGTGGTTTGTGCTCCATCACAA
W
TTTTTTTTTTTTTTTTTTTTTTTTTAGTAGAGGCAGGGTTTCCCCATGTTGGCCAGGCTAGTCTTGAACTCCTGACCTCAGGTGATCCCCCTGCCTCGGC
Celera SNP ID:            hCV26300045
SNP Position Genomic:     39624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55678):
TAGTAGAGGCAGGGTTTCCCCATGTTGGCCAGGCTAGTCTTGAACTCCTGACCTCAGGTGATCCCCCTGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGG
K
GTGAACCACCACGCCCAGCCTTCATCACAATTTTTTATGGAAACAGAATACAAAGCAGCAGGAAGCTCTAAGTGTCCAGATTCAAGTTTTCATGTTGGTG
Celera SNP ID:            hCV26300046
SNP Position Genomic:     39749
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,6)   total(G,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55679):
GAGGCAGGGTTTCCCCATGTTGGCCAGGCTAGTCTTGAACTCCTGACCTCAGGTGATCCCCCTGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGGTGTGA
R
CCACCACGCCCAGCCTTCATCACAATTTTTTATGGAAACAGAATACAAAGCAGCAGGAAGCTCTAAGTGTCCAGATTCAAGTTTTCATGTTGGTGCCTTC
Celera SNP ID:            hCV26300047
SNP Position Genomic:     39754
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55680):
CCACACCCTGCTAAGTTTTTGTATTTTTTTTTAGAGACAGGGTTTCACCTTGTTAGCCAGGCTGGTTTTGAACTCCTGACCTCAAGTGATCCGCCCACCT
Y
GGCCTCCGAAAGTGCTAAAATTACAGGCGTGAGCCACTGCACCTGGCCGATATTCCTGTTCTTAATGGAAATTTGATAATTGTACTGTGGGTTATTAGCA
Celera SNP ID:            hCV26300049
SNP Position Genomic:     41066
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55681):
TTCCTGATAACATAAACAATAGAATAACACATATTTTTTATATTGTTTTTACTATATTCTAACAAAGTAAGCTAGAGAAAAGAAAATGTTATTAAGAAAA
Y
CAAAAGGAAGAGAAAATATACTTACTATTAAATAGAAGTGGATTATTATGAAGGTCTTCATTCTTGTCATTTTCAAGTTGAGTAGGCAGAGGTGGAGGAA
Celera SNP ID:            hCV16146816
SNP Position Genomic:     28495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55682):
TCTTACTTAACTTTCAAAGTAATAGTGAAGGTGAATTTTAAAGTTTGTTTAAAATCTTTATTTTATTTCTGTAACTTTTTATTTTTGGAAAGTTCTAACA
Y
GGAGGTAGAGAATGAACTCCTACGTACCCATTGCCTAGTTTCAATAGTTAACAACATTTTTGTCTGTCCTGCTTCATTAAAATTTTTTTATTTTATTTTA
Celera SNP ID:            hCV8850032
SNP Position Genomic:     41918
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,4)   caucasian(C,29|T,7)   total(C,51|T,11)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55683):
ATCTAAGCTTCTTCATAACTTCTCTATATGTATAACCTAGATTTATCTGAATCCAGCTTAAAGTTTCTATATCTTTGTCTTGAATAGCCTAACAGAGTCA
Y
ATTTATCAACCTTACAAGAAATTCAGCACTAGATTGACTAGTGGATGTTATTCTACATGTTTCTTTAAAGTAATAGTTACTTACTAGTAGATTTAAGAGC
Celera SNP ID:            hCV8850033
SNP Position Genomic:     53005
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55684):
TTGGTTCCAGGACCTCCTGTGTATACCAAAATCCACACATACTCAAGACCTGCATCAGCCCAACAGAACCTACATATCTGGAAAGTCAGCCCTTCATACA
Y
GCAGGTTTCACATCCTGCAAATACTGTATTTTCTATCTGTTATTTAGTTGAAAAAACTCTGAGTATAAGTGCATCCACGCAGTTCAAACCCAAGTTATTA
Celera SNP ID:            hCV11449114
SNP Position Genomic:     38010
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55685):
AACACTATCAGAATAATCTTAACATTTTTGTCATGTTGCACCCTAGTCAACCAATGATTTTTGTGTGTGTTAAAATACTTGAAACATTTAGAAAGATAAA
K
AGAATATGAACTTGAAGAACTTCTGGGTATTTTTCTCATGTTATTTTTCATTACTGTCAAACTCAACACAAATTCAACAATTCAATGCTTCCATCCCATT
Celera SNP ID:            hCV8850034
SNP Position Genomic:     53250
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55686):
TCAAGTTTTATAATACTTTTATTTTAATAGACATATGTTCTGATATGATTATAAATAAATTTTAGCATTAAAGCACAAAATACTGTTCAGTGGAGTTATG
Y
GACCACACTCAGATTTTTTAAAATAGGCATCTCCACTCTTAGTTTTAAGTCAAATACAATATAGTATTTACTGGTAAATTAAATATCTTCGTTAGGAAAC
Celera SNP ID:            hCV1236172
SNP Position Genomic:     57086
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55687):
TTATACTGGTATTTTGATTGTAAGAGCTTTATTGCCTCCAACATGCATCTCCTGCTTGTCACACCTGTGTTGATGAGTGTGTTGTCCAGGTCAAAGAAAA
Y
GGCCTGCACGTGGCTCAGCCCCATAGCACCTGTGCCTTGCTGCAACCTGCCACGTCGCTGCCTGCACATGCGCAAGGTGGGCGGCCCAATTTTGTTTTTT
Celera SNP ID:            hCV253967
SNP Position Genomic:     26892
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55688):
TATTTAGAATCTCACTCTTTCCCATCTTTTTTTTTTTTTTTTGAGACAGAGGCTCTCTCTGTAGCACAGGCTGGAGTGCAGTGGCATGACCTCGGCTCAC
R
GCAACCTCTGCCTCCCAGGTTCAAGCAACTTTCCTGCCTCAGCCTCCCATCTGGGATTACAGGCGCCTGCCATCCGCCCAGCTAATTTTTGTATTTTTAG
Celera SNP ID:            hCV1236173
SNP Position Genomic:     56593
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55689):
TGTGTATAATTTTAAACTCGCCAAAAACTTAACTACCAATAGCCTGCTGTTGAGTGGAAGCCTTCCTGATAACATAAACAATAGAATAACACATATTTTT
W
ATATTGTTTTTACTATATTCTAACAAAGTAAGCTAGAGAAAAGAAAATGTTATTAAGAAAATCAAAAGGAAGAGAAAATATACTTACTATTAAATAGAAG
Celera SNP ID:            hCV16212388
SNP Position Genomic:     28433
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,5)      total(A,4|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55690):
TTTGTCATGTTGCACCCTAGTCAACCAATGATTTTTGTGTGTGTTAAAATACTTGAAACATTTAGAAAGATAAATAGAATATGAACTTGAAGAACTTCTG
S
GTATTTTTCTCATGTTATTTTTCATTACTGTCAAACTCAACACAAATTCAACAATTCAATGCTTCCATCCCATTTATGCTGTCTGTTGATTGCCTCCTGT
Celera SNP ID:            hCV8850039
SNP Position Genomic:     53276
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55691):
GGTCTAATTGACTCACAGATCTACATGGCTGGGAAGGCCTTAGGAAACTTACAGTCATGGCAGAAAGCAAAGGGGAAGCCAGGCACCTTCTTCACAAAGC
Y
ACAGGAGGGAGAAGTACAAGCAGGGCACATGCCAGACACTTGTAAAACCATCAGATCTCATGAGAACTCACTTACTATTATGAGAACAGCATGGGGAAAA
Celera SNP ID:            hCV1236175
SNP Position Genomic:     53543
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55692):
TATATTCAGTTTATATTCAGTTCTGTAGTTCGATTTAGCAGTGGGTTTCGTGGAATACTTGGTGTTATTTGTCCTCTAAAACCTTACTATAGGTCTGAGA
R
ATATCCCATATATCTAAGCTTCTTCATAACTTCTCTATATGTATAACCTAGATTTATCTGAATCCAGCTTAAAGTTTCTATATCTTTGTCTTGAATAGCC
Celera SNP ID:            hCV1236176
SNP Position Genomic:     52893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55693):
ACTTGAGTATCAATCACTTTCCTGTTTCACCTATTAATGTTTTATTGTGCTAGACATGGTGGATGATACATTGCAGAGGTTCTAGATGATGCTGTCTCTA
Y
ACAGAATGTTGAGTTTTGTTCTGGCAGGCAGTTAAGTTGCTGAGGAATAATCGTGATTCTGTTGTAACTTCATGTTAGACAATGTTATGGTAAATTTATT
Celera SNP ID:            hCV1236178
SNP Position Genomic:     51844
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55694):
CAATGAATGGAGTAATACACTATGGCTCTTTTCATTTAGCATAATGCATTTGAGATTCATTCATGCTGCATGCAAGAGTAGTTTCATTACTTTTTATTGC
Y
GAGTAGTATTCCATCATATGGATGTACCACAAGTTGTTTATCAATTTACCAGTTTCAGAACATTTTAGTTTTTCCAGTTGTTGGCAATTATGAATAAAGC
Celera SNP ID:            hCV1236179
SNP Position Genomic:     51087
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55695):
TGGGGCATTCCCCTGCAGCAAGGGGCGGGGCCACCCCAACGCCGCTTCTGCGGCCAAAGTAGGTTGGGAGTGGAAGGTGGTGGCTGCTGCTCCGCAGTGT
S
GGGAAGATGGCGCCGCCGGTGGCAGAGAGGGGGCTAAAGAGCGTCGTGTGGCAGAGTGAGTGCGGTGGGGTAGGGGTTGAGAGAGGGAAGGCCGGGAGGC
Celera SNP ID:            hCV1757984
SNP Position Genomic:     6070
SNP Source:               Applera
Population(Allele,Count): african american(C,13|G,23)   caucasian(C,7|G,31)   total(C,20|G,54)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,11)      total(G,3|C,11) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:55696):
CTTTTTAAATACCTTGAGGTGGCAAAAAATTTTGATAGCAGAAAAGAAAAGAAAAAATTATGGCCAGGTGCAGTGGTTCACGCCTGTAATCCCAACACTT
Y
GGGAGGCCGGGGCAAGATGATCACCTGAGCCTAGGAGTGGGCAACAAAGTGAGACCCCATCTCTACAAAAAAATTTTAAAATTAACCATGTTTGGTGACA
Celera SNP ID:            hCV8848194
SNP Position Genomic:     7630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55697):
CCTCCCGCGGAGCCCGTGCGTGCCCTCGGCCGCGCTCCCCACTCTTCTCCGCTCCCGTCCGCGCTCCACCAGTTGGGGATGTCTCTCCATCCGAGACAAT
Y
CGGGCGCTGTTTATTCCGCCCCCATCTCCACCCCACACTGGAGTTTGCAAGGACTGTTTATTCTGCTTATTCGTGTTAGTATCAACCCGTGCTTTTCAAA
Celera SNP ID:            hCV1757985
SNP Position Genomic:     6521
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55698):
ATGATCACCTGAGCCTAGGAGTGGGCAACAAAGTGAGACCCCATCTCTACAAAAAAATTTTAAAATTAACCATGTTTGGTGACATGCACCTGTGTTCCCA
S
CTACATGGGAGGCTGAGGCAGGAGGATCCCTTCAGCCCAGGAGGCTGAGGCTGCAGTGGACATTGATTGTGCCACCGCACTCCAGCCTGGGTGACAGAGC
Celera SNP ID:            hCV8848195
SNP Position Genomic:     7747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55699):
GTTCTGCGGTATCATCCACAACTTTCATAAACATCGCTCCAAACCTAGGTCTGGCAGGTTAGAGAAAGAATGAAACCACCCAACAGGAATAACCATCATT
S
TTTGGTATCTCTGAGTTCAAGATAATTATGGCCTAGTAGTGGAAAGGGAGTAGCATCTAATTAGTATTTCTTAGTCCAACTTGTTGAACAAAAAACAAAT
Celera SNP ID:            hCV1757986
SNP Position Genomic:     6928
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,12)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55700):
TGAACTCCTACGTACCCATTGCCTAGTTTCAATAGTTAACAACATTTTTGTCTGTCCTGCTTCATTAAAATTTTTTTATTTTATTTTATTTTTTGAGACA
K
AGTCTCACTCTGCCATGCAGGCTGGAGTGCAGTTGCGCCATCTCAGCTCACTGCAGTCTCCGCCTCCCAGGCTCAAGTGATTGTTTTGCCTCAGCGGGAT
Celera SNP ID:            hCV26300050
SNP Position Genomic:     42031
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,7)      total(G,4|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55701):
GAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGACTCACAGTTCCACATGGCTGGGGAGGCCTCAGGAAACTTAACAATCATGGCAGAAGCCACCA
Y
GTCACAGGGAGAATGAGTGCCAAGCAAAGGGGTAAGCCCCTTATAAAACCATCAGATTTTGTGTGAACGCACTATCACAAGAATAGCATGGGGCAAACCG
Celera SNP ID:            hCV26300051
SNP Position Genomic:     43478
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55702):
GACATTGTTTTTATTATCTGTCATTCTGTGACTTCCTTTTTTTTAAACAACTGACATTGACTCAACATTTTTCATGTTGCTTCACAATCTCGTAATTAAC
W
TTTTAAATTGCTTTTTAAATACCTTGAGGTGGCAAAAAATTTTGATAGCAGAAAAGAAAAGAAAAAATTATGGCCAGGTGCAGTGGTTCACGCCTGTAAT
Celera SNP ID:            hCV1757988
SNP Position Genomic:     7519
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,16)   total(A,16|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55703):
AATTGGCCATAACAGAGGGGCTTACAGGCCCCATGCAGGTCCAAAATCCAATAGGGCAGTCATTAAATCTTAAAGTTCCAAAAGGATCTCCTTTGACTCC
R
TGTCTCACATCTGGGTCATGTTGATGCAAAAGGTGGGTTCCCATGGCCCTAGGCAGCTCTGCCCCTGTGGCTTTGCAGGATATAGCCCCTCTCCCAGCTG
Celera SNP ID:            hCV26300052
SNP Position Genomic:     44027
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55704):
TCTGAGCCTGACCCACGAAACCATTTTTTCCTCCTTGGCCTCTGGACCTGTGATGGGAGGGGCTACCACGAAGGTCTCTGACATGCCCTGGAGACATTTT
C
CCCGTTGTTTTGGTGATTAACATTTGGCTCCTTGTTTCTTATGCAGATTTCAGCAGCCAGCTTGAATTTCTCCCCCGAAAATGGGTTTTTCTATCATATC
Celera SNP ID:            hCV26300053
SNP Position Genomic:     44668
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,8)   total(C,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55705):
TTATGAAGAAATACCTGAGACTGGGTAATTTATAAAGAGATTCAGTTGACTCACAGTTCCATATGGCTGCAGAGGCCTCAGGAAACTTATAGTCATGGTG
R
AAGGCACCTCTTCACAGGGTGGCAGGGGAGAGAAAGAATGCCGAGTGAAGGAGGAAGCCCCTTATAAGACCATCGGATCTCATGAGAACTCACTCACTAT
Celera SNP ID:            hCV26300054
SNP Position Genomic:     45318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55706):
TTTATCTCAGCCGCATTTTATAATTTTCATTTTAGTGGTATTGCACATTTTTTCTTTATTTCTAGGTATTTGATTTTTTGGTGTTATAAATGGTATTTTT
W
AAATTCCATTTTACTTTATTAGTATATAAAATGTGATTGATTTTTGTATATTTACCTTGGATCTGGTGACCTTGCTAAATTTATTTTTTAATTCTAGTAC
Celera SNP ID:            hCV26300055
SNP Position Genomic:     46137
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,21)   total(A,1|T,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55707):
AATCTGTGAATAAAGAAAATTTAGTGTCTTCCTTTCTAAATTAATCTTCCAGAGGTGTCCAAAGGAGAGAATACAGTCATGGGTTCTTAGTTTCTGTTTC
R
GCTAGTAAAGTCCCTTCCTTATCCCTCTTTTCCACTTATCACTAGAGACAGAAACTAAAAACCATGGCTTCAGGCTGCAAAAAGCCTAAAACAAAACAGA
Celera SNP ID:            hCV26300056
SNP Position Genomic:     46498
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55708):
ATCAGATTAAGGATGTTCCCTTCTATTCTTAGTTTACCAACAGGTTTTTATGTGTTTCTGTTTTTTGTTTTTTTCTTTTTTCTTTTTTTTAAGAGACAGG
K
TCTTGTTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAGTCTCAACTCACTGCAGCCTCAACCTCTTGGGCTCAAACGATCCTCCCACCTCAGGCCCCCAA
Celera SNP ID:            hCV26300057
SNP Position Genomic:     46920
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,7)      total(G,6|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55709):
CTGGAGTTACCTTGGTGTTCCCATTGTTCCCCAAGTAAGAAGTCTTATGTTGTGTATATACTTTATATGTATGTGTATGTATGGTTGTATGTATTAACTG
T
TTTTTTTTTTTATGTGGACAGTCTTCTTAAGTTCACTCTATAGATTTTGAATAAGTAAGCAATTAAAGATTTTGTTCTCTTTTCCATATGTAATTTGGGC
Celera SNP ID:            hCV26300058
SNP Position Genomic:     55897
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55710):
CCATGTGCCCACTTGTTAATACTACTTGTACTACCATGCCGTAAAGCAGTGGTCTCCATACTTTTCAGTTCATGCACACCTAACCATAAAAAAAATGTGA
R
CATGAACCTATTTACTTATAAGTTAAGCATTACTGTAATAAAAAATATATAATCTATGTATACAGTATATTTATATACATACATATATCATAAAATCTAA
Celera SNP ID:            hCV26300059
SNP Position Genomic:     58777
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55711):
AGAAGATTGCATGAATAAGTTCAAGCTTAATATAGAAAAGCTCTGCAAAACTGAACAGGTATGTGCAGAGTCAGAAATGCCTCTGTTCATAACAAATTTC
M
AGGATAAACTTTGTAAGTTAAAACCTAACTTTTTGCTTGATACAGTGGTTGGTTTTTACAGAATCACAGACTCTCTCTTATCAGGGGAGCCACCTAGGCA
Celera SNP ID:            hCV8850040
SNP Position Genomic:     54054
SNP Source:               Applera
Population(Allele,Count): african american(A,25|C,13)   caucasian(A,29|C,7)   total(A,54|C,20)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,23|C,11)   caucasian(A,30|C,8)   total(A,53|C,19)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;JBIC-allele(A,173|C,556)   total(A,173|C,556)   (C,-|A,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55712):
GTTATTTTTTTCAGAAAGAAAAACCCAAAAAAATAAAAGCAAGATGTTATTTTGTTACAAACACTCAGTAGACTTTTATTATTACCCACATATTTATACA
W
TCTGGTACTGTTTATTTCTTACTGCTCTTCAGTTTTTCCAGCTGGGTTAGATTGAATTCTCCCAGCTTTCTTTTTGTCTGAGGGCATCTTCGTTTTGCAA
Celera SNP ID:            hCV1236180
SNP Position Genomic:     50101
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|T,6)      total(A,6|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55713):
TGTTTCATGTATTTTACTTCAATGTATGTTATAAACTCAAGATGTTATTTTTTTCAGAAAGAAAAACCCAAAAAAATAAAAGCAAGATGTTATTTTGTTA
Y
AAACACTCAGTAGACTTTTATTATTACCCACATATTTATACAATCTGGTACTGTTTATTTCTTACTGCTCTTCAGTTTTTCCAGCTGGGTTAGATTGAAT
Celera SNP ID:            hCV1236181
SNP Position Genomic:     50058
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55714):
CTTTCTTTTGTTAGTGTTTACATAGTATATCTTTTCCCATCCTTTACTTTCAACTACCTGTGTCTTGATATTTAAAATGTGCTTCTTAAAAAGAGCTTGT
R
GTTGAATTTTGTTTTTTTATCCAGCCCAAAAATCTTTTAATTAGAATGCTTGTTTAGTTCATATATATTTCATGTAATTATTGATATAGTTAAATTTATA
Celera SNP ID:            hCV1236182
SNP Position Genomic:     49599
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55715):
TGTACTTGAAAGGAATATAAATTCTGTATGTGTCAGTTAAATCAAGATGGTTAATCATGTTCAAATCTTCTATTTCTTTTCTGATTTTTTTTTACCTGCT
M
TGTCAGTTACTAGAAGTGGTATATTAAAAACTCTGATCATGACTGTGAATTAGTTTGTTTTTCTTTAGTCCTTTCAACTTTTGAAGTTATATTAACTGAT
Celera SNP ID:            hCV1236183
SNP Position Genomic:     49256
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,5)      total(A,3|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55716):
GAGGTTGCAGTGAGCCAAGATAGTGCCACTGCACTTCAGCCTGGAGAAAAGAGTGAGACTCCATGTAAAAAAAAATAAAATAAAATTCACTGCATATGTT
W
TTAATATTTCAAAGAACCAACATTTGTCTTTGTTGATTTTCACTCTTGCATGTTTTATCTTTAATTAGCTGATTTTTACTCAGTTTTATTTCCTTCCTTC
Celera SNP ID:            hCV1236185
SNP Position Genomic:     48201
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55717):
TTATTTTGGTAGCAATTGTGTGATTGTGCACTCATATTTTTACCTATTTAAGGAACTACGGAAGAAAATTTGGACAGGTTGATCCAGAATGTAAAGATAG
R
AAATGAGAGTGACATGATTCGTAACTGGAGTTACCTTGGTGTTCCCATTGTTCCCCAAGTAAGAAGTCTTATGTTGTGTATATACTTTATATGTATGTGT
Celera SNP ID:            hCV8850049
SNP Position Genomic:     55772
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55718):
TAGTGCGATTTTGGCTCACTGCAGCCTCCTCCTCCTGGGTTCAAACAATCCTCCCATCTCAGTCTCCGAAGTAGCTGGGACTACAGGCACACACTAGCAC
R
CCCAGCTAATTTGTATATTTTCTTGGATAGAAACAGGGTTTCACCATGTTGCCCAGGATGGTCTCAAACTCCTGGGTTCAAGTAATCCACTTGCCTTGGC
Celera SNP ID:            hCV11327050
SNP Position Genomic:     13526
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55719):
TTGTCTCATTCCCAGCTTTATGGGAAATGAGTTCAATATTTCATCATTAAGTATTATGTTAGTTTTAGGTAGTTTTCTTTTATCAGATTAAGGATGTTCC
Y
TTCTATTCTTAGTTTACCAACAGGTTTTTATGTGTTTCTGTTTTTTGTTTTTTTCTTTTTTCTTTTTTTTAAGAGACAGGTTCTTGTTCTGTCACCCAGG
Celera SNP ID:            hCV1236187
SNP Position Genomic:     46839
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55720):
GAACATATTTATTGATTATAAATCAAGACTGAATATTGGTATCCAAATGCTGTGATATGTATTGTTGAAAAGCATAATGTAGTAAATCAGTATGAAAAAT
K
TTTATGCAGATTTGATCATCAGATATAATTTAGCAATGGGCAACTTAAGGATGTTCCCGTGGGTTTTTTGTTTTCATCTTGTTTTACTTGGGATTTAAGT
Celera SNP ID:            hCV1757992
SNP Position Genomic:     11194
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|T,4)      total(G,4|T,4) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55721):
TTAAATTACTGTAGCCATAACTATTAGATTTAACATTCTTTTCTCTGAATCTTCTGTCAGTTTTTTTCCCTCAGCCGAGACATTAATAGACCTCTAACCA
R
GCCTAACTTAATTGCTTTGTTGAGGTTGTTCTTTAAATGTTTTACTCATATATACATATATATATATAAAACAATTTTGTATATTGATACACAAGCTTTA
Celera SNP ID:            hCV1757995
SNP Position Genomic:     12685
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,9)      total(G,5|A,9) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55722):
TGTTTTACTCATATATACATATATATATATAAAACAATTTTGTATATTGATACACAAGCTTTACTTCAGTATTTTGATTTAGTTTATGGTTTCATATATC
R
CTTTAAAATGGATATCAAGATTTATGTCATAAAATCAGCTGTTGTACATGTTTACAAATGCATAATGCTGACTTCGTAAATTTATCTTTATTACCAGAAA
Celera SNP ID:            hCV1757996
SNP Position Genomic:     12823
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,6|G,7)      total(G,7|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55723):
TCAAGCCTGTATGGCTTCCATCCTCTACTGATCAAGCTGAGTGTGGGTTAGGGGTTGCATTCCAAAATAGGCAGTTCTTAAGTCTCCCTCCTTTTTTTAA
T
TTTTTTTTTTTTTTTAAATAGAGGCAAGGCCTCTCTCTGTTGCCCACACTGGAGTGCAGGAGTGCAGTGGCATGATCGTAGCTTACTATAAACTCAAACG
Celera SNP ID:            hCV26300060
SNP Position Genomic:     60762
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55724):
TTTGATAGATGTGTATTTTTCAGTGAATGGAGAAGTGGCACTTTCTGTTATTAATAAAGAGATTTCAGAATATTTTCAGAGCCTGAGCCCTAAATCATAT
Y
TATCACAGTATTTTCAGTGTTTTAACAAATACATTATTCACCAAACAAAATAATATGTATAGCATGACTGTAAGACACTCCATTTTGAACATTAAACAAT
Celera SNP ID:            hCV1757997
SNP Position Genomic:     14970
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55725):
TGGGAGGCCGAGGCGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGATCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCC
R
GGCATGGTGGCACACTCCTGTAATCCCAGCTATTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCATG
Celera SNP ID:            hCV26300061
SNP Position Genomic:     61358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55726):
GTTGGCTGCTAGTGGGTTTTAATGACATTTTATATCTTATCTGTAATATAATTCCATAAGAGAAAAATTCATGATTGGAAAAAAAAATGCAACTTAAAAG
Y
ACCATTTTTCACCTAGCAAATTGGCAGAGGGATTTAAAATATATATATATGGGTATGTATGTGTGTGTGCATTCTGGCTATTCTGGTTATCAGTGGATAA
Celera SNP ID:            hCV1757998
SNP Position Genomic:     16882
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55727):
CAGCCTGATCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCACACTCCTGTAATCCCAGCTATTCAGGAGGCTGA
R
GCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTAGGTGACAGAGCAAGACTCCACCTCAAAT
Celera SNP ID:            hCV26300062
SNP Position Genomic:     61404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55728):
CAGTTTATTCAGAGGGGATATTATTTACCTCTGTTACCCTGTAGGTCTCTAAACTTTTAAGTAGACTTATTTTTTAAAAAGCTACTATACTCCCTTCTTT
Y
TGAATCAAAAACATTCAGAGATAAGAATTAGATGGAAGTAAAGCTCCCTGTGGTTTGTGCTCCATCACAATTTTTTTTTTTTTTTTTTTTTTTTTTAGTA
Celera SNP ID:            hCV15908185
SNP Position Genomic:     39553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55729):
TTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTAGGTGACAGAGCAAGACTCCACCTCAAATTAATTAATTAATT
W
ATTTATTTATTTGTACCTGATTGGCTGCCCATCCTAAGTTGAGACCACACCTAGCAAAGCTGCAGGATTTTGTACTCGCCTCACTGCCCCACCTTGAATC
Celera SNP ID:            hCV26300063
SNP Position Genomic:     61518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55730):
TTTGTTATCAAGAACCTTAAAAAATGTTTTATATTTTAGAGTTTATTGTTAGGAAATAAATAAATGGTTTAGCTAAGTTTCTAGTAGTAAATAAATCTAA
W
TAAATTTTAGCATTAATAAATAATAGACCATATGATGATATCTGAATGAAATATATGAATAAAATGATAAATAAATGAAAACCCATGTGGCCATTAAAAA
Celera SNP ID:            hCV1757999
SNP Position Genomic:     17155
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,7)   total(A,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55731):
CTGAAGTGTATCCTTTGATGCGGGTCTGTTGGTGGTAGTCTTTTTTATTTTTTATTTTTTTCCAAGACAGAGTCTTGCTCTGTCATCCAGGCCGCAGTGC
R
GTGGCACGATCTCGGCTCACTACAACCTGTGCCTCCCGGACTCAAGCAGTCCTCGTGTCTCAGCCTCCTGACTAGCTGGGATTACAGATGTGCACCACCA
Celera SNP ID:            hCV26300064
SNP Position Genomic:     62648
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55732):
TCATTTATGTTTCCTGAATCTGAGGATTTACATCTTTCATAAATTCTTCAAATATTGCCACTTCTGTAGTCTTGGTTTTGTTAGAACATCTTATTCTGTC
A
TAATGTCTCTTAATTTCTTAAACTTTTTTGTTTCTTCTGCTGGTGTTTCATTCTAGAAATTTTTCTTCAGATTTAGTTTTCAGTTCTTTAGGTCTCTCTT
Celera SNP ID:            hCV26300065
SNP Position Genomic:     63281
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55733):
CATTTATGTTTCCTGAATCTGAGGATTTACATCTTTCATAAATTCTTCAAATATTGCCACTTCTGTAGTCTTGGTTTTGTTAGAACATCTTATTCTGTCA
T
AATGTCTCTTAATTTCTTAAACTTTTTTGTTTCTTCTGCTGGTGTTTCATTCTAGAAATTTTTCTTCAGATTTAGTTTTCAGTTCTTTAGGTCTCTCTTA
Celera SNP ID:            hCV26300066
SNP Position Genomic:     63282
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55734):
ATTTATGTTTCCTGAATCTGAGGATTTACATCTTTCATAAATTCTTCAAATATTGCCACTTCTGTAGTCTTGGTTTTGTTAGAACATCTTATTCTGTCAT
A
ATGTCTCTTAATTTCTTAAACTTTTTTGTTTCTTCTGCTGGTGTTTCATTCTAGAAATTTTTCTTCAGATTTAGTTTTCAGTTCTTTAGGTCTCTCTTAC
Celera SNP ID:            hCV26300067
SNP Position Genomic:     63283
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55735):
ATTATTTGGGTAACTTTTGGACTAGTGGAAGATTAATTTAGAGATTAGGTAGAAGCCAGTCAGTGGAGGATGTTAAATAGTAGAGTTTAGATTTTATTCT
R
TAAGCAAGAGTGAGCATTTGAGGGAATTTCGAGGTGTGTATTAATATAAACAAAGGGTTGTATTTCAGGAAGGTGACTCTGACAGCTGTGTGAAAAATGG
Celera SNP ID:            hCV8848203
SNP Position Genomic:     8287
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55736):
AACTTTTGGACTAGTGGAAGATTAATTTAGAGATTAGGTAGAAGCCAGTCAGTGGAGGATGTTAAATAGTAGAGTTTAGATTTTATTCTATAAGCAAGAG
Y
GAGCATTTGAGGGAATTTCGAGGTGTGTATTAATATAAACAAAGGGTTGTATTTCAGGAAGGTGACTCTGACAGCTGTGTGAAAAATGGATTGAAATAGC
Celera SNP ID:            hCV8848204
SNP Position Genomic:     8298
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55737):
AAGATAGTGAAAATATTTCCATAAGAGGCAAAGACTATAACAAAGCTACAAGCTCACTGTGCAAAGGTGTGAAAATGTCATGGTAAAAAGCACCACATGC
Y
AATTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCATTCCATCGTCCAGGCTGGAGTGCAGTGGTGCAATCTCGTTTCACTGCAACCTCCACCAGGT
Celera SNP ID:            hCV8847403
SNP Position Genomic:     24899
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55738):
TATTTGTTGATATGATTTCCTTTGACTCCTCTCTAAACATACCTACCTGTGACTGTGTCACTTTTTATGGGTGCCCTTACTATCTCCATAAAACTAGTTC
K
TTCTTTTAGACAATAACACTGACTCTGTAGGTATCTTCAGATTCTTTTTATTTTTTCGTCTGGCAGACACAGGTAGATCCAAGTATCTTCAGATTCCAAG
Celera SNP ID:            hCV8848205
SNP Position Genomic:     9051
SNP Source:               dbSNP
Population(Allele,Count): (G,-|T,-)   Caucasian(G,20|G,21|T,63|T,64)   African-American(G,21|G,24|T,58|T,63)   Asians(T,17|G,67)   total(G,153|T,265) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55739):
AACCTTAGTGAGTACAGAGAGTCTGGTACAGTTAGTAGAGAGGATACTAGAAGGGATCTGGTAGAGATAGAAACAAGCTAGCTATAGATTAGCATGAAGA
R
TAGATGGAAGACAGGATCTGTATTTAAGGAGCTGATTATAGGTTTATAAAGATGAAAAAAGCATGTGGCAGTAGTCTTAAAAAACTTTTAATGATGGTGA
Celera SNP ID:            hCV8849944
SNP Position Genomic:     28890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55740):
AGGAACCCCCCAGATCTCAGTGCATTACTACAACAAAGGTTTATTTCTCATTTGTGTTGTCCATTGTTGTTTGGCTGGGGCTTTGCTCTACATCCTCTAC
M
TTCTAGTACTGAGGCCGAAGGGCTAGTCTGGGACATAGCCGAGGGAAAAGAGAAAATAGTGGAGCCACACAATAGCTTTTAAAGCTTCTGCTGGGAAGTG
Celera SNP ID:            hCV8849945
SNP Position Genomic:     29213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55741):
AAAAGCAAGATACAAAATTGTATATTCCTCATTCTTGCAGTCACCTACCAAGCTTTGGATCTTTCTAATCACTTGATAGTTTAAGCTTCTCACTCACTGT
S
TCTCACTTCAACACTTCTCCAGTCATAAGTCTTGGTGGTTCGTTATCCATGTAGATGATACTTATAGTATGTTGGTTTCTAGTTCCTTAATCTGTTATAT
Celera SNP ID:            hCV1758000
SNP Position Genomic:     17415
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55742):
ACTTCAACACTTCTCCAGTCATAAGTCTTGGTGGTTCGTTATCCATGTAGATGATACTTATAGTATGTTGGTTTCTAGTTCCTTAATCTGTTATATTCCA
R
TAGTCTTGTCTTCTATGTTGTTTCAGTTTTCCTAGACCTCTTCATTGCCAATAAGAGCATCCTGTTCATACATATTACCTTACTCTTTTTTTTTTTTTCC
Celera SNP ID:            hCV1758001
SNP Position Genomic:     17520
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55743):
GGCTGAGGATCTCATAAGCTCAGGAGGTCAAGGCTGCAGTGGGCCAAAATCACACCACTGTACTCCAGCACAAAGTGAGACTCTGTCTCAAAAAAAAAAA
M
AAAAAAAAAAGGCTCAAAGTCAAATTTTGAAGAGCTCTATTTAGAATCTCACTCTTTCCCATCTTTTTTTTTTTTTTTTGAGACAGAGGCTCTCTCTGTA
Celera SNP ID:            hCV8850050
SNP Position Genomic:     56455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55744):
ATTTCCATTTGATTTTTTTAAATTTCCATTTCTGACTGTTGAGATTCCCTGTTGTTAACTTGTTACCATATTTTTCTTTTTAATTCTTTTGATCATATTT
R
TAATTGCTTGGAAGTCCCTAACATCTGAGTCTACTCAGGGTTAATTCCTACTGAATGTTTTTTTTTCCCCCAAGTATGAGTCACACATTCCTGTTTCTTT
Celera SNP ID:            hCV8850051
SNP Position Genomic:     60323
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55745):
CATGATTTTGCAAGTAAATCGGAGAACAAGTATAAAGCAGCATATATTTACTTCACTGACTGTAAGTCTTTTAAAAAGTTATTGCTTCATTGTTCAAAAT
S
CCATTGGTTTTAAACTGTCGACTTTTTAAAAATCAGCCCAAAATGTCATTAAAGTATCTACTTTTTATAATATTATTTCAGTCCTGGTGATTTTCTATTT
Celera SNP ID:            hCV1758003
SNP Position Genomic:     17964
SNP Source:               Applera
Population(Allele,Count): african american(C,19|G,9)   caucasian(C,25|G,5)   total(C,44|G,14)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,15|G,3)   caucasian(C,22)   total(C,37|G,3)   
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|G,10)      total(G,10|C,4) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55746):
ATGAATGTGAACCCTCTTTTAACTTAAGGAATCTTAAGGCTAAAGAATATCATGTTAAAAGATACTAGGAGCCAGTGGTTGATATTCCAACCTAGATCTA
R
TGGAATGATAAACTCTTTGATGAAAGGGGAAAAACACTGGCTCTGAGTTCCAGAACTTAGTATTATAGAGTCTTAGAATTTTCTAATGTTAGAAAGCTGC
Celera SNP ID:            hCV1758004
SNP Position Genomic:     18797
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55747):
TACTGCCTAGGCTGTCTTCCAGGGTTTTTATAGTTTTGGGTTTTACCTTTAAGTCTTTAATCCATCTCGAGTTGATTTTTGTATATGGTGTATGGAAGGG
R
TCCAGTTTCAGTCTTCTGCATGTAGCTGGCCAGTTATCCCAGCACCATTTATTGATTAGGGAGTCCTTTCCACATTGTTCTTGTCAGCTTTGTCGAATAT
Celera SNP ID:            hCV1758005
SNP Position Genomic:     24404
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55748):
GAATCGATACATAGAATCCAATATAATCATGATGGAATACTGTATAGGAGATAAAATGAATAAATCCGATATGTGTGTCAATGTCAATGTAGATAAATCT
M
AAACACACACACACACACACACATACATATGAAACAGAAATGACTGGAGGGAGAATACACATGAAATTAATTATAATGGTTGCCTTGGTTTGAGGCAGGG
Celera SNP ID:            hCV16146767
SNP Position Genomic:     35021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55749):
CAGGCTGGAGTGCAGTGGTGCAATCTCGTTTCACTGCAACCTCCACCAGGTTCAAGCATTTTTCTTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGACA
Y
GTACCCCCACGCGGGGCTAATGTTTGTACTTTTAGTAGAAATGAGATTTCACCATGTTGACCAGGCTGGTCTCAAACTCCTGACCTCCCAAAGTGCTGGG
Celera SNP ID:            hCV1758006
SNP Position Genomic:     25049
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,8)   total(C,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55750):
CAGTTATCTCTACCTGGTCCTGCCCTTGACATGTGGAGATTATTACAGTTCAAGGTGAGATTTGGGTAGGGAAACAGAGCCAAACCGTATCATTCTGCCC
Y
TGGTACCTCCCATATCTCATGTCCTCACATTTCAAAACACAATCATGCCCTTCCAACAGTCCCCTACAGTCTTAACTCATTCCAGCATTAACCCAAAAGT
Celera SNP ID:            hCV1236191
SNP Position Genomic:     43690
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55751):
TGTACGTAGGAGGCTCCTGGTTCTACCAAAAATAATGACAGAAAATTAGCTGGTGCAGAAAACTGTGGAACTGGTCGTAAAGTCCTTAATGAAAAGTAGA
R
TCCTAGAAGTCAGGAGATCATTGCAGAGAGATTGGTAAAGTCAGATATGATAGTGCTTCAAAGAAATAAAGTTGGACATCAGCACATTTAGAAATTACAT
Celera SNP ID:            hCV1758008
SNP Position Genomic:     28046
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55752):
GCTGGTGCAGAAAACTGTGGAACTGGTCGTAAAGTCCTTAATGAAAAGTAGAATCCTAGAAGTCAGGAGATCATTGCAGAGAGATTGGTAAAGTCAGATA
Y
GATAGTGCTTCAAAGAAATAAAGTTGGACATCAGCACATTTAGAAATTACATGGAGAGGAAGAAGATTAACTCACTCATGGTGATTCCATGAGTCAAAGG
Celera SNP ID:            hCV1758009
SNP Position Genomic:     28094
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55753):
CTGCTAAGTTTTTGTATTTTTTTTTAGAGACAGGGTTTCACCTTGTTAGCCAGGCTGGTTTTGAACTCCTGACCTCAAGTGATCCGCCCACCTCGGCCTC
Y
GAAAGTGCTAAAATTACAGGCGTGAGCCACTGCACCTGGCCGATATTCCTGTTCTTAATGGAAATTTGATAATTGTACTGTGGGTTATTAGCACATCAAA
Celera SNP ID:            hCV1236194
SNP Position Genomic:     41073
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55754):
AGGCTAGTCTTGAACTCCTGACCTCAGGTGATCCCCCTGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGGTGTGAACCACCACGCCCAGCCTTCATCACA
R
TTTTTTATGGAAACAGAATACAAAGCAGCAGGAAGCTCTAAGTGTCCAGATTCAAGTTTTCATGTTGGTGCCTTCTTTAAATTTACTTTTTTTTTTTTTT
Celera SNP ID:            hCV1236196
SNP Position Genomic:     39779
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55755):
TAAGCTTTTCCCTTTTTCACATTTTCCTTCTGATCCTCATACAGATAAAGACATTGTTTTTATTATCTGTCATTCTGTGACTTCCTTTTTTTTAAACAAC
T
GACATTGACTCAACATTTTTCATGTTGCTTCACAATCTCGTAATTAACATTTTAAATTGCTTTTTAAATACCTTGAGGTGGCAAAAAATTTTGATAGCAG
Celera SNP ID:            hCV16211966
SNP Position Genomic:     7470
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,14)   total(T,14|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55756):
ATATTATTTCAGTCCTGGTGATTTTCTATTTATCATTTGTTCTAATTAGGCTAGAAAGAATCTAAAAATGTAAGATTATATCTATCCTAATTCATATTAA
S
GTGATAGAAAATTAAAAGAAACTATTCCCAACTGCTTTCAAAAGACAGTCATTTTGCTGGGATGCTGGGATGTGAGGGATGGGTGGAGAGGGCTAGCCCT
Celera SNP ID:            hCV25981815
SNP Position Genomic:     18134
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(G,34)   total(C,1|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:55757):
ATCTTGGTTTCTGAGTTTTTCTCTGTATTATCTGTATTAATGTTAGATAACATAGCTATTTTTCTAATATAAAAGTTATTTTAAGCAGTTTATTCAGAGG
R
GATATTATTTACCTCTGTTACCCTGTAGGTCTCTAAACTTTTAAGTAGACTTATTTTTTAAAAAGCTACTATACTCCCTTCTTTCTGAATCAAAAACATT
Celera SNP ID:            hCV1236199
SNP Position Genomic:     39468
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55758):
CATTTGCAGACGGAAGAGATGCTATCACTCAGGAGATTCCAAGGTCTTTAGGGGCTCTGTGCTAGGAACAGGGGGTAAAAACCAAATATTTTTTATTGTA
Y
CACAGTAACTGTTATTATTTATACCCTCTGATAGAAGAGCCGTCAGTTTTTAACATGACTTGTTACCAAAAACTTGTTGATAAATTTCCCAAAAGCATTA
Celera SNP ID:            hCV11327064
SNP Position Genomic:     10684
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55759):
GTTTTAGTGCCTCTGTCTACTTGTAGATATAAAACAGATGGAAAAGAAAAGGAGGCCATCCTTGAAGAAGAAGATGACCTCTGGGTTAGAATTCGACATC
R
ACATATTGCGGTTGTGTTAGAGTATGTGAACTCATTTTAATTTTTGTTCCATAATTTTTAGACACTATGTGATAGTACATTTTGTAACCTTAAAATAGTT
Celera SNP ID:            hCV15878623
SNP Position Genomic:     41600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55760):
CAAAAGCATTAACTTAAATATAAATTAGGAAATAGAAAAGCTTAAGTTAATGAAATAACCATCTCATTAATAAGATTTAATGAAAAATAGGTTACTATAA
Y
TTATATTTTAATTATATTTTATGTATTACTATGTATTACTACCGATTTTAAAATCAATTGAACATTAATAAAACATAGTGTGGGAAATTGTTTTATTAAG
Celera SNP ID:            hCV29059540
SNP Position Genomic:     10874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55761):
CCTACCTCATTTTTGCTGAAGAACTGCTCACTTAATATCCTGGGAGTGATCTTGTTGAAATTTGCCACCATCATGTTGAAGCAATGAACCTTCACCCGTA
R
TATAATGAATGTGACACTGCTTATATCTATCCTGTAGGACAGCTAAAAGGACAAGACCTCAGCATCACATGCCAACCAGTCTGTTAGAGCAATCACACAC
Celera SNP ID:            hCV29059541
SNP Position Genomic:     22100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55762):
CACTTTTTATGGGTGCCCTTACTATCTCCATAAAACTAGTTCGTTCTTTTAGACAATAACACTGACTCTGTAGGTATCTTCAGATTCTTTTTATTTTTTC
S
TCTGGCAGACACAGGTAGATCCAAGTATCTTCAGATTCCAAGACAGTTCTATCATTAGAAATTTAAAGCACATATGTAATTTTAAATTTTCTAGTAGTCA
Celera SNP ID:            hCV8848214
SNP Position Genomic:     9109
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   Caucasian(G,25|C,59)   African-American(G,38|C,46)   Asians(C,13|G,71)   total(G,134|C,118) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55763):
TCCAAGTGAACTGAAGCAGATATTTATGAAATGATGATATATTTCCAAAAATACGAAAAACAGATAAGGCAGATGGTAACTCTAATAAGAGTCACTGAAG
K
ATTATAATGGCACTCTGGAAATGGCTCATAGCAAAACCCAACTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTACCCAGGCTGGGGTGCAGTGGCGCGA
Celera SNP ID:            hCV29059542
SNP Position Genomic:     22871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55764):
TTTACATTCCTTTTTTTGTGCTAAGGTTTTTTGAAGTCTCATATGTATTCTGTACTTACAGGATATCTCAGTTCAGACTAGCCACATTTCAGGTGCTCAA
Y
AGCCAGATATGGCTGGTTTCCACCATCTAGGACAATGCAGTTCTAAGGTTTCAAAGACTGTAATGAGATGACTTCTGCTTGGGGAGCTTTTCTCCAATCT
Celera SNP ID:            hCV8848215
SNP Position Genomic:     9369
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,15)      total(C,3|T,15) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55765):
TGCCAAGCAAAGGGGTAAGCCCCTTATAAAACCATCAGATTTTGTGTGAACGCACTATCACAAGAATAGCATGGGGCAAACCGCCCCCATGATTCAGTTA
Y
CTCTACCTGGTCCTGCCCTTGACATGTGGAGATTATTACAGTTCAAGGTGAGATTTGGGTAGGGAAACAGAGCCAAACCGTATCATTCTGCCCCTGGTAC
Celera SNP ID:            hCV29059543
SNP Position Genomic:     43596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55766):
TTTCACCATAATTCTCATATAACACTATAATCCTCCTAGCAAACAATATATAATTATCTCAATTGATATTTCATAACACTTCCAAATCTTCTCAATCACA
R
TACAACCTTCCAGATCACAATTCTAAAAATGACTATAAATAACTGAATTGCTTTTACTAACAACATTTCTGACACCAAATATGTGTTTTATTCCCCCCTC
Celera SNP ID:            hCV8848216
SNP Position Genomic:     9812
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55767):
CCACAGCTAAATTTTCATCTATGTTCAGGCTGCTGCTGTTGGTGCTGGGTTATGTCCAGAGAAATGAATAACTGTGTGTAAAAGGAAATGCGAGAAGTTT
R
TTCATAATTCATTACTTAACCTATAATGTTTATTACTTGCCTACTTTCACTTACAATAAATTTTCATAGTTTAAGAGAAATTATCATTGTTTAGAAAACA
Celera SNP ID:            hCV8849954
SNP Position Genomic:     29958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55768):
GCCTCCTGTTGTATTAGTCTGTTCTCACATTGCTGTAAGGAAATACCCAGGACTGGGTAATTTATAAAGGAAAGCGGTCTAATTGACTCACAGATCTACA
W
GGCTGGGAAGGCCTTAGGAAACTTACAGTCATGGCAGAAAGCAAAGGGGAAGCCAGGCACCTTCTTCACAAAGCTACAGGAGGGAGAAGTACAAGCAGGG
Celera SNP ID:            hCV29059544
SNP Position Genomic:     53468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55769):
TACCTGTGGTCCTAGCTACGTGGGAGGCTGAAATTGAGGATCGCTTGAGCCCAGGACCTCAAGGCTTCAGTCAGCCATAACCATGCCACTGCACTCCAGC
M
TGGGTGACAGAGTGAGTCCCCATCTTAAAAAACAAAGACAAAAACAAACCTACACATGACCATGGCTAAACCTGGTATCAGTGAGTGGGAGGGAGAAGCC
Celera SNP ID:            hCV1758010
SNP Position Genomic:     29601
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55770):
AAGGCTTCAGTCAGCCATAACCATGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGTCCCCATCTTAAAAAACAAAGACAAAAACAAACCTACACATGA
Y
CATGGCTAAACCTGGTATCAGTGAGTGGGAGGGAGAAGCCTTGGGCGGCCGTGCGATAAATGTTTTTAATCGAATAATGTTATCTCCTGCTGTGGGATAT
Celera SNP ID:            hCV1758011
SNP Position Genomic:     29661
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55771):
AATTTAGGCTATCTCAAAACTGGCATTATTACAAACAGTATGCAGTGAGCATTCTTGTACTTTTACGTATATCTGGATAGGGTGCTTCCCTTGGACTGAG
K
ACTTTTCTTTACTTTTGTTTTATTTTTTCCTTTTCTACAAAAGGTTTGGAGGTTATGTTATCTATTTTTATTCTTGTAGCAGTTTATTACTAAGCATATT
Celera SNP ID:            hCV8850068
SNP Position Genomic:     62197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55772):
TGTTTTATTTTTTCCTTTTCTACAAAAGGTTTGGAGGTTATGTTATCTATTTTTATTCTTGTAGCAGTTTATTACTAAGCATATTTGACTCAACAAAGTC
K
AAGATTAATTAGTATCTCTGCCCTCCTCTTGAACAATACAAGAACCTTAGACCAACTGGATGTAAACCATGCACCCCTTAAATGTTATAATACTTCATTT
Celera SNP ID:            hCV8850069
SNP Position Genomic:     62313
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55773):
TATTAAATATACCCTCTTACTCTAATTACAAAAGTAATTAGATTTTAGTTATATAGTCTTCATTTTTCCTCTCTTGGGCTACTCAGATTTTTCTTTGTTT
Y
ATTATAACTTCACATTCTTAAGACAATTAACCATTTGTTTTGTTCTGTTGTATGTTTTTGGTGGGGAAAAGGGACAGAACTTAGGAAAAGGGTGCTTTGT
Celera SNP ID:            hCV25653461
SNP Position Genomic:     38206
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,35)   total(C,1|T,71)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,39)   total(C,1|T,73)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55774):
TAAAATAATTTTTCATTTTGTAAACATTTTTTAAATTTCAGTTTAATTTTAGAATTAAACTTCATGATATTATAAAGTATACACTGAAAGAAAGATAATT
S
TTTGATCCTTTTTTCCATTTCTAGTAAACCTCTAGATAATGCCAGTAAGCTTGCACAGCTTGTTGAAAAAAAGCTTGAAGACTACTACAAGATTGATGAA
Celera SNP ID:            hCV25653462
SNP Position Genomic:     35399
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,36)   total(C,1|G,71)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,36)   total(C,1|G,73)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55775):
TTACAATTTTATTGATGGAATTAACTCTTTCCTTCCTTAGGATGCTATTGATAATAGATTAGATTCAAAAGAATGGCCATATTGTTCCCAGTGTCCAGCA
R
TATGGAATGGTTCAGGAGCTGTAAGGTAAATTCTACAAGTGAAAATCAATGAAATTTTCATTCTACGGACTAATAATTTAAAATGGTACACAGATACTCA
Celera SNP ID:            hCV25653463
SNP Position Genomic:     59384
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,7)   caucasian(G,18)   total(A,1|G,25)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55776):
GTTTAAATTTTTTCTTCTAGCTTCCTGAGTTGGAGTTTTAGAACATTGATTTCCAACCTTTCTTCTGTTCTATTGTATATATTTTATAGTTATTTACATC
T
CAAACTTAGCTGCATCCCAGGAGTTTTGGAATAACTTATTTTCATTTAGTTCAAAACATTTTCTAACCCTTATTATGATTTCTTCTTTGACCCATGTGTT
Celera SNP ID:            hCV11615878
SNP Position Genomic:     48637
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,6)   total(-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55777):
AGTGGTATTGCACATTTTTTCTTTATTTCTAGGTATTTGATTTTTTGGTGTTATAAATGGTATTTTTTAAATTCCATTTTACTTTATTAGTATATAAAAT
K
TGATTGATTTTTGTATATTTACCTTGGATCTGGTGACCTTGCTAAATTTATTTTTTAATTCTAGTACTTTGTTTATAGATTGGCTTTTTTGTTTTTAAGA
Celera SNP ID:            hCV11615879
SNP Position Genomic:     46170
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,9|G,11)      total(G,11|T,9) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55778):
TCTTTGTTTTATTATAACTTCACATTCTTAAGACAATTAACCATTTGTTTTGTTCTGTTGTATGTTTTTGGTGGGGAAAAGGGACAGAACTTAGGAAAAG
K
GTGCTTTGTATTCTAAGATATTAAAACTATGTTCACACTAAGAAATTGAAGCTGCTTAAGATGATTTTATCTTGTTATTCTAGGGTAAAACTCATTCACA
Celera SNP ID:            hCV1236200
SNP Position Genomic:     38297
SNP Source:               Applera
Population(Allele,Count): african american(G,14|T,22)   caucasian(G,9|T,29)   total(G,23|T,51)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,20)   caucasian(G,9|T,29)   total(G,21|T,49)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55779):
ATATGTAAATAAATAGAAAATGTTTGTATAATGATCTGTAGTTATCTGTTATTGCTTTGAATACTAATCCAAAGAATTTATTACTTTTTAAAATGAAATA
K
GAAAGATACTGACATTAACAATAAATGTTTCCAGCACTGTTATTCACTGTTTAGTGATTAGTGATGTTTGCGAATTAATGATAACAAGGCTTTCATTGTG
Celera SNP ID:            hCV1236201
SNP Position Genomic:     37397
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,6)      total(G,6|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55780):
GTCCTTTCCACTCTTTCTGCCTGGAAAATTAATCATCCTTCAAATACTTGATACCTTTCCTTTATTCAGGGACACCTGATAAAGTGATAAAGTGTCACCT
Y
ATTTTTGAAGCCTTCCTTGACTCTTCAGGCCAAGTGTTGCTTCCTCCCACATGCTATCATAAGCCCTAAGCCTGCTATAGAATTTATATTGCACTTTTTC
Celera SNP ID:            hCV1236202
SNP Position Genomic:     36859
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,9)      total(C,9|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55781):
TATTTTTTAAAAAGCTACTATACTCCCTTCTTTCTGAATCAAAAACATTCAGAGATAAGAATTAGATGGAAGTAAAGCTCCCTGTGGTTTGTGCTCCATC
M
CAATTTTTTTTTTTTTTTTTTTTTTTTTTAGTAGAGGCAGGGTTTCCCCATGTTGGCCAGGCTAGTCTTGAACTCCTGACCTCAGGTGATCCCCCTGCCT
Celera SNP ID:            hCV15760157
SNP Position Genomic:     39620
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55782):
ATGAAAGCTCTTTATTTCATCACTCCGACATCAAAGGTGAGTATTTTGAGACCTTAAAAAGCAGGTTCATCAATATTTCACCATTGTTATGGTTTACTAA
S
AGAAAATTCAAAGTAATAAAGTACACTTTAGTAGAAAAATATTGCCATAAACTAGTTTGCTTAGGAAAGTTTTTTTCTGTGTTAGAAGATTATTTGCATT
Celera SNP ID:            hCV8848225
SNP Position Genomic:     16167
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55783):
CTGGATACCTGTTACAATGTCAAAGTATCTATAGTATCTAATCTGCCTATTCTAAATAAATTTTGGGGTTTTCTTAAGGGGTAAAATTTAACTTTAGTAC
W
ATATACCTTGACTTATATACTTCTTTTTAAAAATGAAGTTTACTATAAAGTGCCTAAATTGTCTATACAGTAAGTCCTCACTTAAAATGTTGTTGATAGG
Celera SNP ID:            hCV8849963
SNP Position Genomic:     32366
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55784):
GTATTTTCTATTGTATTTTTATTTGCATTCTGGTCAAATCTTGGTTTCTGAGTTTTTCTCTGTATTATCTGTATTAATGTTAGATAACATAGCTATTTTT
Y
TAATATAAAAGTTATTTTAAGCAGTTTATTCAGAGGGGATATTATTTACCTCTGTTACCCTGTAGGTCTCTAAACTTTTAAGTAGACTTATTTTTTAAAA
Celera SNP ID:            hCV15760158
SNP Position Genomic:     39431
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55785):
CTGTCACATTTATCTTACTCTGCCATATGATCACATAGAAAACTGGTAACTAAAGAATCACAGAGAAGTCCAAAGACACATACAATTCTGTCTTATGTTA
Y
ATGTTATATAATATACTTCAAAATAAAAATATCATATCTAAGTTAAGTCTTGGTCTCTGCTGTTAGAGATTCCTCACTTTAAGTAAGTAGTATATCATTT
Celera SNP ID:            hCV8848226
SNP Position Genomic:     18477
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55786):
GTGCTAATTACATTCTGGACTCAGTGGAGCTAAGTGGTTTGGCTCCTGTTAAGGGTTTAGTAACTGTTGAAGCTTCTACTGTTGGTGATTGGTTACGTTC
R
GGGAAATGAGTAAATATAGCCAATTTATAATTTTATCACTCACATAAGGGCTAGTTTTGAGTTATGCTAATAAATAATCTGTAATCCTGTCTTTTAAAAT
Celera SNP ID:            hCV8849964
SNP Position Genomic:     33976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55787):
CCAGGTTCTACACATGTTTTAACACCCAAAAAGCTGTTGGATGATATAAAGATGCTGAATAAACCCAAGGATAAAGTCTCCTTAATTAAAGATGAATAGC
R
TTTCTTTTTGGAGGGTTTAGAGATTCTTACTAATATGTTGAACTAAAATAGAAAGAAAATGTTGCTGTCATGTAATTTAAACAATGTAAATATTTTATGG
Celera SNP ID:            hCV8848227
SNP Position Genomic:     67983
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,11)   caucasian(A,30|G,8)   total(A,55|G,19)
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,12)   caucasian(A,31|G,7)   total(A,55|G,19)   
SNP Type:                 UTR 3

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55788):
GTTGATAGGTTCTTGTTAACTGACAAAACCAATTTTACCATAGGCTAATTGATATAAACAAGAATTAAGTTCCTTGGTTATGTAATGTCACCAAACTTCT
R
CATAAAGACCTGAAACACTTCGAATATTAAACATTGAAAGAAATGTGACTATATGTACATTTAAGAAAGATTAATAAAAACAGGATCATTTTTTTGCCCA
Celera SNP ID:            hCV1758020
SNP Position Genomic:     32558
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55789):
TGTTATGCTGGTGAAGAGCCTTTTTCTTTCTCTCTCTCTTTTTTCTTAAATAATTTTTGTGGATACATAGTAGGTGTATATATTTATGGGGTACGTGACA
Y
ATTTTGATACAGACATACAATGCATAATAGTCACATCAGGGTAAACGGGATATCTATCACCTCAAGCATTTATCCTTTCTTTGTGATAAAAACAATCCAA
Celera SNP ID:            hCV1758021
SNP Position Genomic:     34440
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55790):
ATAGTATGTTCTGTACGTTTGTTTAACCATTAAATAGTTTTTGAGGCACAAATACATTTCTACTTCAAAAATATTTTGAATTTTTTGTGGATATGGACAT
K
ACATTGGCAAGGCCTGTGTGGAATTAAGTTTTAAGAATTTCAGGCCAGGCTAGTGGCTCAGGCCTGTAATTCCAGCACTTTGGGAGGCCAAAGCAGAAGG
Celera SNP ID:            hCV1758024
SNP Position Genomic:     67292
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55791):
TGCTCGCCAGAAACCCAGAGCTAATTATTTAGAAGACCGAAAAAATGGGTCAAAGCTGATTGTTTTTGTAATTGGAGGGATCACATACTCTGAAGTGCGT
K
GTGCTTATGAAGTTTCTCAGGCACATAAATCCTGTGAAGTTATTATTGGTAAGACTTTCATTTTCTTCTTTTCTGTTTTTTTTTTTTTTTTTGAGACTAA
Celera SNP ID:            hCV11449081
SNP Position Genomic:     66605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55792):
GGAAATATGTCTCTTATTTTAAGGACATGAAGAGTATAAGCTAAAGAACGGAAGACATGTATCAACTATGGGAGATTTTTGGGTTACTCTCTAATGGGTT
M
AGGTTTATAATTTATGTCTGAGATATAGGCCGATTTTGGTAATGTTGTGTTTCTCTGTGCTAGGAGTTAGATTTTTATTTTAGTCTATCTCAGATTCCTT
Celera SNP ID:            hCV11615883
SNP Position Genomic:     30358
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55793):
GCTTTATCACAGGTGAATTCAGCCTCCTGTTTATACTGGTATTTTGATTGTAAGAGCTTTATTGCCTCCAACATGCATCTCCTGCTTGTCACACCTGTGT
Y
GATGAGTGTGTTGTCCAGGTCAAAGAAAATGGCCTGCACGTGGCTCAGCCCCATAGCACCTGTGCCTTGCTGCAACCTGCCACGTCGCTGCCTGCACATG
Celera SNP ID:            hCV11615884
SNP Position Genomic:     26862
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55794):
CTATTTTTATCCATTACTTGAAAGCTATTGTTTTATTTATTTGTCCAATCTTATTTATTTATGAAGGGAGAGTAATGTTGATATCAGCTACGTTATTGTG
R
GTGAAACTGGAAGCCTCCTAAATTCTTCTTTCAAAAAAATTGTCAAATATTCAGTAAATTAACTAGATTTGATAATTTGTAAAACTCTAGGATTTCAAAG
Celera SNP ID:            hCV25653473
SNP Position Genomic:     52526
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,40)   total(A,73|G,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,34)   total(A,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:55795):
TAGGACTAGGCTCAACTAATTAAAAGAAAACTCTGGACTTTCAGTGGATTACACAACACGGAAATTTATTTCTTCCTAATACACAAGAAATCAGGAATAG
K
CTATATAAGGGTGATAATGCTGGCTCTATGAAATTGTCAGGGGTCTAGTCTCCTAGGCATGGCCCTTATGATCTAAGATGATTGTAAATTTTTTTTTTTT
Celera SNP ID:            hCV64865
SNP Position Genomic:     21711
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,7)      total(G,7|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55796):
AAAGGAATTTTCAAGCTATTATACAGTTGTCCCTTGGTAAACACAGAGGAGGGTTGGTTCCAGGACCTCCTGTGTATACCAAAATCCACACATACTCAAG
W
CCTGCATCAGCCCAACAGAACCTACATATCTGGAAAGTCAGCCCTTCATACACGCAGGTTTCACATCCTGCAAATACTGTATTTTCTATCTGTTATTTAG
Celera SNP ID:            hCV8850003
SNP Position Genomic:     37957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55797):
TGGAAAGTCAGCCCTTCATACACGCAGGTTTCACATCCTGCAAATACTGTATTTTCTATCTGTTATTTAGTTGAAAAAACTCTGAGTATAAGTGCATCCA
Y
GCAGTTCAAACCCAAGTTATTAAATATACCCTCTTACTCTAATTACAAAAGTAATTAGATTTTAGTTATATAGTCTTCATTTTTCCTCTCTTGGGCTACT
Celera SNP ID:            hCV8850004
SNP Position Genomic:     38088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55798):
TGTTGACCTTGTAAATTAAAGTGTAATTTGATTGCTTTGGAGCATTTTTGGTGTGTTTGCTTCCTTAACTGTGTGTACAGTAGAGCTACATTTAAACACA
K
GGAATTTGGCCCTTTTGCTTTTAAAAGTAAATACCAGGCTCACTATCATATTTATTGAAGGAGAAACCATATTCAAAATTGTTAGGCTATAATTGTTCTG
Celera SNP ID:            hCV8850005
SNP Position Genomic:     38770
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,7)      total(G,5|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55799):
GAGAATTGTTTTCATTTTTAGCTCCCGGAAGCAAGTGAGAACATGCGAAATGTTCTTTCAGTGCCTGGCTTATTTCGCTTAACATGGTGACCGCCAGTTC
Y
ATCCATGTTGTTGTAAATGTCAAGATCCATTCTTTTTTATGGCTGAAACATTTGTTTCAGTATTTGTAATAGTGTAATAAGAATGACTCATATGTCCATC
Celera SNP ID:            hCV8849973
SNP Position Genomic:     34813
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55800):
GTATCCTCCAAATCCTCTAACCCAGTTCTTTGTACATAAGTAAATTATTTTGTTAATTGAATGAATGAATGTATCTGTGAGGTTTTGCTGTACATACGTA
Y
AGTAAGATTTATATTATGTCTAGCACAATGCCATGTCTTTTGGGGAAATATGTCTCTTATTTTAAGGACATGAAGAGTATAAGCTAAAGAACGGAAGACA
Celera SNP ID:            hCV15760168
SNP Position Genomic:     30214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55801):
ATCGATACATAGAATCCAATATAATCATGATGGAATACTGTATAGGAGATAAAATGAATAAATCCGATATGTGTGTCAATGTCAATGTAGATAAATCTCA
M
ACACACACACACACACACACATACATATGAAACAGAAATGACTGGAGGGAGAATACACATGAAATTAATTATAATGGTTGCCTTGGTTTGAGGCAGGGGT
Celera SNP ID:            hCV8849974
SNP Position Genomic:     35023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55802):
TCATAAGCTTTTCCCTTTTTCACATTTTCCTTCTGATCCTCATACAGATAAAGACATTGTTTTTATTATCTGTCATTCTGTGACTTCCTTTTTTTTAAAC
A
ACTGACATTGACTCAACATTTTTCATGTTGCTTCACAATCTCGTAATTAACATTTTAAATTGCTTTTTAAATACCTTGAGGTGGCAAAAAATTTTGATAG
Celera SNP ID:            hCV26300020
SNP Position Genomic:     7467
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,14)   total(A,14|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55803):
CATAAGCTTTTCCCTTTTTCACATTTTCCTTCTGATCCTCATACAGATAAAGACATTGTTTTTATTATCTGTCATTCTGTGACTTCCTTTTTTTTAAACA
A
CTGACATTGACTCAACATTTTTCATGTTGCTTCACAATCTCGTAATTAACATTTTAAATTGCTTTTTAAATACCTTGAGGTGGCAAAAAATTTTGATAGC
Celera SNP ID:            hCV26300021
SNP Position Genomic:     7468
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,14)   total(A,14|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55804):
ATAAGCTTTTCCCTTTTTCACATTTTCCTTCTGATCCTCATACAGATAAAGACATTGTTTTTATTATCTGTCATTCTGTGACTTCCTTTTTTTTAAACAA
C
TGACATTGACTCAACATTTTTCATGTTGCTTCACAATCTCGTAATTAACATTTTAAATTGCTTTTTAAATACCTTGAGGTGGCAAAAAATTTTGATAGCA
Celera SNP ID:            hCV26300022
SNP Position Genomic:     7469
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,14)   total(C,14|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55805):
CCAGGCTGGTCTCAAACTCCTGACCTTTGATCTACGCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGCGCCACTACGCCTGGCCAGCGGTGGTA
R
TCTTTACAGTTTTATCCGTTTCTTCATTTGGTCGTTGTTCTTAGCCAGCTATGAATTTCTAAGAGCTGAGTTATGTTCAGTCAACACTTGTAGAAAATAT
Celera SNP ID:            hCV8850083
SNP Position Genomic:     62900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55806):
GGGAGGCTGAGGCAGGAGGATCCCTTCAGCCCAGGAGGCTGAGGCTGCAGTGGACATTGATTGTGCCACCGCACTCCAGCCTGGGTGACAGAGCAAGACC
Y
TGAGTCTAAATAAATAAATAAATAGCTAGCGTAAGCCCGGGCACAGTGGCTCACGCCTGTAATTACAGCACTTTGGGAGGCCAAAGCAGGTGGATTGCTT
Celera SNP ID:            hCV26300023
SNP Position Genomic:     7854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55807):
AGTCAACACTTGTAGAAAATATTCTGCTGTTTCCAGGGTTCTACTTTAGCTCTTGGGAAGGTGGAGGGGGTTGTGTTTTCTGTCAGTCTTGTACCTTTGT
R
AATAATTAACCTTTTTTCTCTGGTTGTTTTTTGTCCTCGGTTCTGTATATTCTCTGTGCTATGTGTATCTGAGGATTTATTTTTATTTCTTTCTTTGGAA
Celera SNP ID:            hCV8850084
SNP Position Genomic:     63079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55808):
GGAATTCCTACAACCTCCCTTCCCTTTCAGGTTCATTAATTTGCTGGAATGGCTCACAGAACTTCAGAAAACGCTTAACTTACTATTACCAGTTTATTAC
A
AAAGATACAAATGAACAGCCAGGTTGGAGAGGTACATAGGGTAAGGTCAAAAAAGGTCCTAAGCATAGGTGCTTCTATCCACATGGAGTTGGGTGTCTCA
Celera SNP ID:            hCV26300024
SNP Position Genomic:     10235
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55809):
ATGGAAAATGTTTTTAAATCAGTGAACTAATTTTTAAAACATATTTAGATAATTTTGAAAGTCATTGTAAGGAACATATTTATTGATTATAAATCAAGAC
T
GAATATTGGTATCCAAATGCTGTGATATGTATTGTTGAAAAGCATAATGTAGTAAATCAGTATGAAAAATGTTTATGCAGATTTGATCATCAGATATAAT
Celera SNP ID:            hCV26300025
SNP Position Genomic:     11123
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55810):
TGGAAAATGTTTTTAAATCAGTGAACTAATTTTTAAAACATATTTAGATAATTTTGAAAGTCATTGTAAGGAACATATTTATTGATTATAAATCAAGACT
G
AATATTGGTATCCAAATGCTGTGATATGTATTGTTGAAAAGCATAATGTAGTAAATCAGTATGAAAAATGTTTATGCAGATTTGATCATCAGATATAATT
Celera SNP ID:            hCV26300026
SNP Position Genomic:     11124
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,5)   total(G,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55811):
GGAGCTTATTTTTTTAAATTACTGTAGCCATAACTATTAGATTTAACATTCTTTTCTCTGAATCTTCTGTCAGTTTTTTTCCCTCAGCCGAGACATTAAT
W
GACCTCTAACCAAGCCTAACTTAATTGCTTTGTTGAGGTTGTTCTTTAAATGTTTTACTCATATATACATATATATATATAAAACAATTTTGTATATTGA
Celera SNP ID:            hCV26300027
SNP Position Genomic:     12672
SNP Source:               Celera
Population(Allele,Count): no_pop(-,7|A,7|T,7)   total(A,7|T,7|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55812):
TCAGTTTTTTTCCCTCAGCCGAGACATTAATAGACCTCTAACCAAGCCTAACTTAATTGCTTTGTTGAGGTTGTTCTTTAAATGTTTTACTCATATATAC
W
TATATATATATAAAACAATTTTGTATATTGATACACAAGCTTTACTTCAGTATTTTGATTTAGTTTATGGTTTCATATATCGCTTTAAAATGGATATCAA
Celera SNP ID:            hCV26300028
SNP Position Genomic:     12741
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,12)   total(A,2|-,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55813):
TTTATTTCTGCAGACTCATAGTTACTTATTTCAGTATGTGTCTTGTAATTTTGAATGCTGAGTTTATTTCAGTAGCCAGCATTGAGAACGCATCCCTTCA
R
GCAGGTTTTGCATGTGCTTTTGCCAGATTAGAGGTTTTTTCTTTTTTGTATTAATGTCTCAGTTTGGGGTTCCTCAGACCATGAAGGTAGTATGATTAAT
Celera SNP ID:            hCV8850089
SNP Position Genomic:     63723
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55814):
TGTTACTCCTAACTTAATGAAGTTCAAAAGTATACCCAGTATTCTCAAGAAAGTCTGACCATATAATATTTATGTTTTGATGTTTACACATAAAATAATC
T
TTTTTTTTTTTTTTTTGAGACAGGATCTCACTCTGTCACCCAGGCTGGAGTGCAGTAGTGCGATTTTGGCTCACTGCAGCCTCCTCCTCCTGGGTTCAAA
Celera SNP ID:            hCV26300029
SNP Position Genomic:     13370
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55815):
CTCCCAAAGTGCTGGGATCACAGGCATGAGCCACTGCGTCTGGCCCTAACTTTTTTTGTTAACTTTTAGGTTTGGAGTACATTTGCCAGTTTGTTATAGG
K
AAACTCATGTCAAGGGGGTTTGTTACACAGATTATTTCATCACCCAGGTACTAAGCCTAGTACCCAATAGTTATTTTTTCTATTCCTTTCCCTCCTCCCA
Celera SNP ID:            hCV150095
SNP Position Genomic:     23268
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55816):
CCAAAGTGCTGGGATTGCAGGTGTGAACCACCACGCCCAGCCTTCATCACAATTTTTTATGGAAACAGAATACAAAGCAGCAGGAAGCTCTAAGTGTCCA
R
ATTCAAGTTTTCATGTTGGTGCCTTCTTTAAATTTACTTTTTTTTTTTTTTTTCTTTTTTTGAGACAGAGTCTTACTCTGTCACCCAGGCTGGAGTGCAG
Celera SNP ID:            hCV8850013
SNP Position Genomic:     39828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55817):
TCTAACAAAGTAAGCTAGAGAAAAGAAAATGTTATTAAGAAAATCAAAAGGAAGAGAAAATATACTTACTATTAAATAGAAGTGGATTATTATGAAGGTC
K
TCATTCTTGTCATTTTCAAGTTGAGTAGGCAGAGGTGGAGGAAGCGGAGGGATTGATCTTGCTGTCTCATGGGGTGGCAGAGGCAGAGGAGGTGGCAGGG
Celera SNP ID:            hCV15833143
SNP Position Genomic:     28552
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55818):
CATCTCCCCTTGCCTTTGAGGTTGTCCTGACCTTATGCAGGGTGTCAGCTCCCAATCTGTACCTTGCACAGTACCCAGGGCTCGGCCCCTTGTTTGCTAA
S
ATCAGAAAATACTCCACAAGGCAGACCAAGCCTCAACTCAGTTTACCATTCTAGTATTTAGCTTCCTTTTTACCAATAGCCCTGGAGATTTCTCTGACTT
Celera SNP ID:            hCV1236157
SNP Position Genomic:     63981
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|C,7)      total(G,2|C,7) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55819):
TTCTCATGTTTCTTTTTTAAACATGCTTGGACTTTTTGTTATTTCTTATTTTGTCATACTCTCTATCCTCCTTTATTGTCTATTGTCATTTTAAACATAC
Y
TAATTTGTAGTCTATATCTAATAAATTCACTAATTTATACTCTTTGGGTTCAATTCTGTTGCCTTTTATTTCTGCAGACTCATAGTTACTTATTTCAGTA
Celera SNP ID:            hCV1236158
SNP Position Genomic:     63558
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55820):
CATGTAATATTTTATTTCCTTTATATTAAAAAATCTGAAGCAGATATGATAAGGTTTTTCCTTGTAAATTCCAAATATATCGATATAAGATTATTTGATA
Y
ATTATCTGAACTTTTACATGTTTATAAAATAATTTTTCATTTTGTAAACATTTTTTAAATTTCAGTTTAATTTTAGAATTAAACTTCATGATATTATAAA
Celera SNP ID:            hCV8849984
SNP Position Genomic:     35274
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,27)   caucasian(C,6|T,28)   total(C,17|T,55)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,26)   caucasian(C,5|T,27)   total(C,15|T,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:55821):
ACTGTGTAATAAGTGGAATGAGAGAAGAATATACAGAGTATAATGGGAATATAGTCCCGGGCTTATCTTCTAAACTGGAGTGTTGGAAGGCATCCCAAGA
R
GAAGAGGCCCTTTAGCTTGAAGAATGAAGTAACATGATAAAGAGGGAGTTCATTGCATGGAAAACAGGATTCTTCAGGTAGAGGCAATAGAGAAAAAGGC
Celera SNP ID:            hCV8849985
SNP Position Genomic:     36397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55822):
TGTGGCTAAGTATGGATGAAGAACTGAATTTCTTATTTCATTTAATTTCAACTAATTTAAATTTAAATAGCCTCATGTGGCTAGTGGCTACTATATGGGA
Y
TCTGGGGATCTAGAGCAATCTGGAGGAGGAATGGTAAAAGTAATGACTACTATTTATTGAGTACTTACCCAACACCAGATTCTGTACTTAGTGTGTTCTG
Celera SNP ID:            hCV8850090
SNP Position Genomic:     65501
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55823):
TCTGTTATATTCCAATAGTCTTGTCTTCTATGTTGTTTCAGTTTTCCTAGACCTCTTCATTGCCAATAAGAGCATCCTGTTCATACATATTACCTTACTC
T
TTTTTTTTTTTTCCAAAACCAAAAATGGTTAATATTACCTTACTCTTTTTACCTTACTACCTTATTAGCTATCACTGGCTGGAGAACATAGCATCTTAAA
Celera SNP ID:            hCV26300030
SNP Position Genomic:     17606
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,8)   total(-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55824):
TTGGCTCACTGCAACCTCCATCTCCCAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGTTGAGATTACAGGCATGCGTCACCACACCTGGCTAA
T
TTTTTTGTATTTTTAGAAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTGCTGACCTCAGGTGATCCAGTATCCTCGGCCTTCCCAAGTG
Celera SNP ID:            hCV26300031
SNP Position Genomic:     20407
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55825):
ATAGCAAAACCCAACTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTACCCAGGCTGGGGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCACTTCC
Y
GAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCTACCATGCCCAGCTAATTTTGTATTTTTTTTTTTTAGTAGAG
Celera SNP ID:            hCV26300032
SNP Position Genomic:     22999
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55826):
TACCCAGGCTGGGGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCACTTCCCGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGAT
Y
ACAGGCATGTGCTACCATGCCCAGCTAATTTTGTATTTTTTTTTTTTAGTAGAGATGGGGTTTCTCCATGTTGTTCAGGGTGGTCTTGAACTCCCGACCT
Celera SNP ID:            hCV26300033
SNP Position Genomic:     23045
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55827):
ACTGCAACCTCCACTTCCCGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCTACCATGCCCAGCTAATTTTGTA
T
TTTTTTTTTTTAGTAGAGATGGGGTTTCTCCATGTTGTTCAGGGTGGTCTTGAACTCCCGACCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTG
Celera SNP ID:            hCV26300034
SNP Position Genomic:     23081
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55828):
TTGCTAAGGATAATGACCTCTAGCTCCATCCATGTTCCTGCTAAAGACATAATCTCATTCTTTTTTATGGCTGCTTAGTATTCTATGGTACATATATATA
K
AGAGAGAGATACCACATTTTTTTTAATCCAGTCTCCCACTGATGGGCATTTAGGTTGATTCCATGTCTTTGCTATTGTGAATAGTGCTGCAGTGAACATA
Celera SNP ID:            hCV26300035
SNP Position Genomic:     23592
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55829):
CCATTTTTCATATGCTTGTGGGTCACCTGTATGTCTTTTGAAAAGTGTTGATATCCTTTGCCCACTTTTTAATGGTTTTTTTTCTTGTAAATTTAAGTTC
Y
TTATAGATGCTGAATATTAGACCTTTGTCAGATGCATAGTTTGCAAATACTTTCTCCCATTGTATAGGTTGTCTGTTTACTCTGTTGATAGTTCCTTTTG
Celera SNP ID:            hCV26300036
SNP Position Genomic:     24089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55830):
TAGTGAAAATATTTCCATAAGAGGCAAAGACTATAACAAAGCTACAAGCTCACTGTGCAAAGGTGTGAAAATGTCATGGTAAAAAGCACCACATGCTAAT
T
TTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCATTCCATCGTCCAGGCTGGAGTGCAGTGGTGCAATCTCGTTTCACTGCAACCTCCACCAGGTTCAA
Celera SNP ID:            hCV26300037
SNP Position Genomic:     24903
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,9)   total(-,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55831):
GAGGCAAAGACTATAACAAAGCTACAAGCTCACTGTGCAAAGGTGTGAAAATGTCATGGTAAAAAGCACCACATGCTAATTTTTTTTTTTTTTTTTTTTT
Y
TGAGACGGAGTCTCATTCCATCGTCCAGGCTGGAGTGCAGTGGTGCAATCTCGTTTCACTGCAACCTCCACCAGGTTCAAGCATTTTTCTTGCCTCAGCC
Celera SNP ID:            hCV26300038
SNP Position Genomic:     24923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55832):
ACAAGCTCACTGTGCAAAGGTGTGAAAATGTCATGGTAAAAAGCACCACATGCTAATTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCATTCCATC
R
TCCAGGCTGGAGTGCAGTGGTGCAATCTCGTTTCACTGCAACCTCCACCAGGTTCAAGCATTTTTCTTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGA
Celera SNP ID:            hCV26300039
SNP Position Genomic:     24946
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55833):
TAGAGAAAAGAAAATGTTATTAAGAAAATCAAAAGGAAGAGAAAATATACTTACTATTAAATAGAAGTGGATTATTATGAAGGTCTTCATTCTTGTCATT
K
TCAAGTTGAGTAGGCAGAGGTGGAGGAAGCGGAGGGATTGATCTTGCTGTCTCATGGGGTGGCAGAGGCAGAGGAGGTGGCAGGGGAGGCAGGCACACTC
Celera SNP ID:            hCV16212370
SNP Position Genomic:     28567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55834):
GGATTTTACTTTTCAGTTTCTTGAGTTGTGTCTTGAAATTATTGTTTGTAAAAATGTTTCTTTTGATTTTGGAGGGAAAAAAATCAAAAAGTTTTAGTGC
Y
TCTGTCTACTTGTAGATATAAAACAGATGGAAAAGAAAAGGAGGCCATCCTTGAAGAAGAAGATGACCTCTGGGTTAGAATTCGACATCGACATATTGCG
Celera SNP ID:            hCV8850021
SNP Position Genomic:     41510
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,28)   caucasian(C,8|T,32)   total(C,14|T,60)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55835):
CATTCCTTCTTGAGTTTAACTTGAGCTTTATCACAGGTGAATTCAGCCTCCTGTTTATACTGGTATTTTGATTGTAAGAGCTTTATTGCCTCCAACATGC
M
TCTCCTGCTTGTCACACCTGTGTTGATGAGTGTGTTGTCCAGGTCAAAGAAAATGGCCTGCACGTGGCTCAGCCCCATAGCACCTGTGCCTTGCTGCAAC
Celera SNP ID:            hCV11615900
SNP Position Genomic:     26838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55836):
ATGTCTTTATACTTTTTCTACATATGTTTGTATCCTAAACAGTGTCTTGAGTTATATCTTGCAGGATTTCCTCTTGATCTTTGGCTTTCAGCCTTTAACT
R
TGTTGTGTCTAGGTATAGTTCTCTTTGTGTTTATTCTACCTGAGGATTGTTGAGTTTCTTAAATCTGCAAGTTAATAATTTTCATCAAATTTGGGAAGTT
Celera SNP ID:            hCV1236160
SNP Position Genomic:     59955
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55837):
GATCTGTCCGCCTTGGCCTACCAAAGTGCTGGGGTTACAGTTACAAGCCACCGTGCCTAGCTGATTTTAATAGCTTTTTTTTAACTGGAGAAATCTATTT
R
TTATGTACACACCACAGAAAAATTGCCCCCGCCCCTGAAAAAAAAAAGGTCATGCAAGAAAATCAGATTCCTAATATAAAAATGTATATATCTAAAGTAG
Celera SNP ID:            hCV11615901
SNP Position Genomic:     25524
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,9)      total(G,9|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55838):
ATTATTTTCCCTTATTTTCTGTCCTGAATTTGGTGTTTATTGCCTGTATGTCTTTATACTTTTTCTACATATGTTTGTATCCTAAACAGTGTCTTGAGTT
R
TATCTTGCAGGATTTCCTCTTGATCTTTGGCTTTCAGCCTTTAACTGTGTTGTGTCTAGGTATAGTTCTCTTTGTGTTTATTCTACCTGAGGATTGTTGA
Celera SNP ID:            hCV1236161
SNP Position Genomic:     59908
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55839):
GTACTTTATTATAAAAAATATTTTCATGAAACAAGAAGTATTTCCTTCCCCACCTCCTCTTCCTTCACATAGCAGAGACCTTAATCCTTTTTGATAATTA
Y
TTTTGTGTTGAGGTACTTTAAACATTTAAAAAGATACAGAGAATGTTACAATGCATACCCTTATGCCCAGTGCCCAGCTTATTAACTAAATCATTATAAT
Celera SNP ID:            hCV1236162
SNP Position Genomic:     59676
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55840):
CCAAATGAAGAAAGGGAGTCATGCAGCAAATATTGGTGTAATAAGTAAATGATTTCACTGATTTTTGAAGGAAATAAGGTTTGTGAGTTTCAAAGAAAAG
R
CTAATCTTATACTAAATATTTATGTCTAAGGTTCCTCAATTGCAAATGCAAGTTTTGACCTTTATGCCAAACAAAGTCCTGCAATTTACAATTTTATTGA
Celera SNP ID:            hCV1236163
SNP Position Genomic:     59198
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,15)   caucasian(A,31|G,9)   total(A,54|G,24)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,2)   caucasian(A,6)   total(A,8|G,2)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55841):
ATAAAAAAAATGTGAGCATGAACCTATTTACTTATAAGTTAAGCATTACTGTAATAAAAAATATATAATCTATGTATACAGTATATTTATATACATACAT
R
TATCATAAAATCTAACATTGAAAAAAGGGAAAATTTTAAAGAATAAAATGAAAAGGAAAACTTCCCATATCCCATTGAATTGTCTTGAGTACCCCTAGGC
Celera SNP ID:            hCV1236164
SNP Position Genomic:     58862
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55842):
ATTTGAACTGGGGAAGCAAAGGTTGCAGTGAGCCGAGATGGCACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCATCTCCAAAAAAAAAAGAGG
K
TCTACTTAATAAATCTAACTGTTTTGGAGAAATTACATTGAAAATATTTTGGATTTTTGATTGTTTGCAAGTGAAAATGTAAATGAAATACTACTAGGTG
Celera SNP ID:            hCV11615905
SNP Position Genomic:     21319
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55843):
TTTATTCCCCTTTTCCTTTGACTTAAACCCCAGTTTATACTTTCTTTGGGGAGCTAATTTGGTACAGTGCATAACTATGATTTCTCTGTTTTGCTTGGCT
W
ATTTTATGTTATTCACACATGCTTAAACATATATGAAAAATCTAAAGAATTTAGACTTTGTTTTCTCTAACATAAGAATTTTTTTTCCTTTCTCACAGGG
Celera SNP ID:            hCV1236166
SNP Position Genomic:     58307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,7)      total(A,7|T,2) ;JBIC-allele(T,326|A,1123)   total(A,1123|T,326)no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55844):
TTATGAGCTTAATAAAATCATGACACTGATTCTTCGGTCATGATCATATAGTTTTTATTCCCCTTTTCCTTTGACTTAAACCCCAGTTTATACTTTCTTT
K
GGGAGCTAATTTGGTACAGTGCATAACTATGATTTCTCTGTTTTGCTTGGCTAATTTTATGTTATTCACACATGCTTAAACATATATGAAAAATCTAAAG
Celera SNP ID:            hCV1236167
SNP Position Genomic:     58254
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55845):
ATTTGGGCAAGTTAGTTCATTTCAGACCGCAATGCCCTCATGGTCAACTGGAGATAATAATGCCTGTCTCACAGGATTACTAAAAGAATTAAATGAAATA
R
TCCATGTATTTTTGTTTAGTAAAATGTCTAATATTTAGAGCTCAAATAGTAGCTACTATTCATAATTTATATAAGTTTTAGTGCTTTTGGAACTCAATTC
Celera SNP ID:            hCV8849993
SNP Position Genomic:     37714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 301
Celera Gene:                 hCG1771443 - 61000125218781
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VTH2(1710336..1730006)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12461):
GGAAACAGTGCCAGGCGGCCAGGGCCGTGCCCGGATGATTCGACTTGGAGAGGGGGTAGGTGTTGGAGAACTGGCCAGAACCAGGCGTTTCCAGGGAGGG
GAAGCCCCAGGCTGCACTAGGTTGGGGAGGCCATGCCCCCTCAGGCCTGATGGGCTGGAGGCTCCGGGCAGGTGGAGTGGCTGGACTGACCTCGTCACCC
AGGCCAGTATGTGGGCACCAGGGGCCCGTGAGGAGAAGCAGGAAGGGCTCTGCCTTTGACCTTGGACATGGGATGGACAACTTGGAGGATGGCTTTGTGA
TTTGGGAACAGAGGGGACTAGAAATTGGCCACATGGGGCCCTGGTGGTGGGTCTGGCGATGCCTGGCCCTGCTGTGGCCGCCAGCCCCTGCCCTCTCTCA
CCTGAGCCCCTGGTTCTTTGGCCTTCCAGCTGGAAGACCTGAACTTCCCTGAGATCAAACGAAGGAAGATGGCTGACAGGAAGGATGAGGACAGGAAGCA
ATTTAAAGACCTCTTTGACCTGAACAGCTCTGAAGAGGACGACACCGAGGGATTCTCGGAGAGAGGTGGGGCCTGCGTGGTGCTCCCAGGGGAAGGGTGG
GCCTGGAGGGCTCTGCTGGACTTCCCAGAGCCACGAGGGCCACCTGTACCCATCCTGCAGGGGGCTCACCAGTCTCTGGCCCAGCTGGGGCCAACCTCAG
TGTTGCCAGGCTTCTGGTGCCAGCGCCTTCCCTCCTTGAAGTGAAGGCCTACTGGGATTGGTAACTCTGTCCCCAGGCCTGTGACCTCCCAGTTCCTCCC
CAGGGCTCCTCTCCACCTGCTGGAAGTCAGCGGAGGGAAGGGTGTTGGGAGCCTGGCCACCCTCCTGCCCCCACTGTGACTTTGCTGGTGGACCCTGTGG
GTGGGAGTCATATGGACTCTGCTTCTTGTTCCTCAGGGATACTGAGGCCCCTGAGCACTCGGCATGGGGTGGAAGACGATGAAGAGGACGAGGAGGAGGG
CGAGGAGGACAGCAGCAACTCGGAGGGTGAATGGTCTTGGGGTGAGAGGGTGTGGCCCTGTGAGCCCATCTGGCGGGAGGGCAGAGCCACGTGGGCGGGG
GGCGTGGGGCTCTGGGCCAGGCTTTTCCCTCCCTGGGAAGGCCAGGCCAAATGCTCTGTTCTCTGGCAGCCAGCAACAGGGATAAATTAATTAGTGCCGT
GATTAATTAGTGATGAGTAACCTCCAAGGCTGGCTTCTTCCTGATAAAGCAAAATTTATGTAGCCTCCATCTCTCCCCGCAGATGGAGACCCAGACGCAG
AGGCGGGGCTGGCCCCTGGGGAGCTGCAGCAGCTGGCCCAGGGGCCGGAGGACGAGCTGGAGGATCTGCAGCTCTCAGAGGACGACTGAGGCAGCCCATC
TGGGGGGCCTGTAGGGGCTGCCGGGCTGGTGGCCAGTGTTTCCACCTCCCTGGCAGTCAGGCCTAGAGGCTGGCGTCTGTGCAGTTGGGGGAGGCAGTAG
ACACGGGACAGGCTTTATTATTTATTTTTCAGCATGAAAGACCAAACGTATCGAGAGCTGGGCTGGGCTGGGCTGGTGTGGCTGCTGAAGCCCCACAGCT
GTGGGCTGCTGAAGTCAGCTCCGCGGGGGAGCTGACCCTGACGTCAGCAGACCGAGACCAGTCCCAGTTCCAGGGGGAGGCCTGCAGGCCCCTGGCCCCT
TCCACCACCTCTGCCCTCCGTCTGCAGACCTCGTCCATCTGCACCAGGCTCTGCCTTCACTCCCCCAAGTCTTTGGAAATTTGTTCTTTTCCTTTGAAGT
CACATTTTCTTTTAAAATTTTTTGTTTTGCATCCGAAACCGAAAGAAATAAAGCGGTGGGAGGCAGGGCCATTGTGTTGAGTGGTGGCTCCTGGAGATTT
GTGTGGCCCCACCCCTACCCCCGGCAACCTCAACACAGAGGCTGGGAAGGGTCGGGGGCCCCTGGAAGTAGAGCCAAGGTCCCATTCTCCTGCTTGGGTG
AAGTTTGACCGGCAAGGGCGTGGCCCCCTCCATAGGGGGACGTGGCCGTCGTGGGGGACAAGGGCTGCTCTCCTGTGCCGAGTTCTCGCTCCGGGGCCCG
CAGGGTTGGTGGCTGCAGTGGCAGAGCCACGGGGAAGCTGGCCACGTAGAAAACTCGGCCCAGGCGCCTGGCCACCTGCAGAGAGATGGCCTGGTGGGGG
CTGTCGCACACCCACCCAGAGCTTTCTGCCCAGCTGTGGTCTGGAGACCCTGACCTCACTCCCCAGCGTCTCACCTGGGCCCGGATCTTGAGGGCGGGCC
CCAGCTTCAGCCCCATGTTGGTCAGCAGGTGCTCCTCCGTCAGCAGTGGCAGGGTCTCCCCGTCGATCCCCTGCTCCCTGAAGACCTGGAAGGGGGAGGG
AGGGAGGGTCAGGACCCGGGTGCTGCTCCATCCTCCAGCCCAGCAGAGCCAAGAGGAGCTGTTTGTGCAGCTCACGGAAATTTTTTAAAAACAGTGATCT
GTTGGGTTTGAGTGTCAGGCAGAAAACACCTGGCAAAAAAAAAAAAAAAAAAAGGTGGGGTGCACAGTCCAGTCCCTGCTGCGCACTGCTTTTGGGGAGG
GAGAGGGCGTTGGGGAATGGCCCTACCCCACCATCCTTTCCAGGGAGGTAGTGACTGCCAGCCAGCTCCAGCCCCGCCCCAGGAACTGGGGCCCCCCCTT
ACCCGAGTGTACTCTCCACAGCCAGACAGGCCCCCCACGAAGCTGCAGACGTCATCCACGGTCCACTTGGTGACGTCCTCAGGGGCTGGGGCCTCCTCCC
CATCCATGGAGAGTCCCCCTACCGCGCCTGAGTTGTGGGGCGTGTTACTAGGGCTCTGGCTGGCTTTCCCATACCCGCCCGTCTCCTGACCGTCGTGTGC
CCCAATTGCTGAGGTGGGGGATGGGTGCCTAAGGGGAATTTTTCCTCCCCCCAAGACCCTTCCACAGGCGGCCTGCCAGTCCTGTGCCCTCTGGAAGGAT
CTAGAGTGTGGGGGTGCCCACCTGTGTGGAAGTAGGGGCTGACGGCATAAGGGAAGCCCAGGGGCAGTGTGGACCCTGGGAAAAGCCCCTTCCCCTCGGC
GCCGGCCCCTCCAGCTGGAGCTTGGCCCGGAGTGGGCCCCCTGCACCCAACAGCTGCCGTCTCGGGGTCCTCTCCGTCCGAGTCTTTGGGGGGCTCGTCT
TCCGAGCCATCTTGTGCCCAGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTGAGGAATCCTGCCTCCTTTCCCGGCGCCCCCACCCACCTCTAGCC
CGAAAGCCAATCTCCCCTGCCAGGCGGGCGGCTGGGGCCTGGGAGGCTGAGTGCAGCGGGCAGGGGGTCCGAGTGCATCCCGGAGGGACCCCTGGAGAAC
GTCCTGAGGTGGGGTGGACAGGGTCAGGGCCGACCCGGGGGAAGGGGCAGCCCCTCCAGCTGGCGTCTCTTCAGCACCTGGGGAGTCCTGGTGGCCAAGT
GCCCACTGCACCCAGCCCGGCCTTTCTGCTCACTGCCCCTCCCCAGGCTCCTGGGGCAGGCGTCTGGCTGCATAGACGACTCACAGACCACAGGGTCCAG
GAGCTTGCTCTCCTCGGGGGGTGCTGCTGACATGCCCACTGCCCACCCTCACCTGGGTCCACCCCAGACTCCATTTCTCTCTATATAAAATGTGAGCTAG
TCATGACCCTGGGGACCTAGGGGACATGGAGGTGTGGCCCGCCCCAGGGGGCATGGGGCAGGACGTGTGGCAGAGGGACCTGCATCCAGCCTGGCCTTGG
TGTCAGCAGGGCCTCAGCAACAGGAATGGCCGAGTACATGTGGCTGGGGAGGTGATGAGGGGAGATCATGCCAGGGTGGGTCCTCACCGTGGCTGGGGAG
GTGATGAGGGGGATCATGCCAGGGTGGGTCCTCACCGTGGCTGGGGAGGCCCAGGTGGTAGAGGCGCTGAGGGTCCTCAAAGGTGCTGGCCTCGCTCAGT
GCTGACACAAGCCGGCGGTAATGGTCCTCCGGGGCCATGCTGGGCCCCAGCTCCCGCGGCAGCAGCAGCGCCTCTGCTGGGGAGGACCCGGGGTGAGAGG
TTTCTCCAGGCACTGCCGAGGACCACGCCCCTCTAGAGTGCCTGCTCGAGGTCCAGGGGACCCTCAGGGACTGCCCCCTCCCCTGGTGACCTGTCTCTCG
TCCCAGCCACGCTCTTACCTTGAGGCGATTCGCTTCGTGCCCTCTTCTCTGAAAAGCAGTCGCTGCTGATACGGGGGGAGCGGCCCAGCCTCTTGCCCAA
CAGGTCACCTGCGGGAGGGTAGTGAGTGCCCACCTGCATCTCAAGGAATGGAAGGGGAACCCAGCCCCTGCTCCAGCTCAGCCTGGACCGCACCCACCAT
CTCTCAGGGGGCCCTTGGTCCTGGTGAGTACAGGCCTTGCCCAGCCCTGGCAGCCCCAGCCTTCAGCGCAGAGGACATCACGCCTGGCTGTGGCGGGACA
GGGGCACAGGGGAGCTCTGACACTGGCCCTGGTGCGTGTGTGCAGAAGAGATCCACAGCAGGCACCCAGCTGCCCCACCCGCCATCTAGCCTCTTGTGCA
AGTTAACGAGCCCCCCTCTCATCCCCCTAGAGGAGAATAAAAAGCTTTTGGTTTGACCAGGCACCACCTTCCCCTCCTGGACAGGAGTGAGGGCGGGCTG
TGCAGGGTCACATGCCAGCGTGGGGTGAGACAAGCCGGGAAGGACCTCACACCTGACCTCTTGCTGCTCTGTGAGTCACTGGGCTGTGGGCCCCCCAGGC
CGCCTCGAGGCGCCTCCACTCCCAGGCCTCCTACTTGGTCATACCCATCCCTGCCCCCAGAAGGCCCACGTCCTCCTCTCTGGCCCAGTCCTGCCTGAGC
TAGCACCCTGGCGTGGCTGTCATGCCCTTGTCCACCAGCCCAGCCAGGCTCTGGGCTTCTGGGGTGCACCTCCCAGTAGCTTCACCCACCTCCTCAGCCA
CGAGGCCAGCCCAGCCCTAGCCCCAAACACAGCCCAGCAGGTGGCAGAGGGGAGGCCCAGGCCAGGTCCAGCTTCAGCCCCAAACACAGCCCAGCAGGTG
GCAGAGGGGAGGCCCAGGCCAGGCCCAGCTCACTCTCCTGAGGTCCTCCCTTGGGTCCTGCCGACCGCAMCCATTCCAGACCACACCATCCATGTACCCA
TCTCCGACCCACCCCGAGCTCCTCCGAAGCCCCTGACTCCACGCCCTGGGGGTCTCCCAGGCCAGCCAGTGCCTCCGACTCTGGCCCTTCCTCATCCTCA
TGAGGGCTCTAGCTGGGTGGAGTGAGGGGCCACYCCCCTGTGACCCAAGACCTCCATGAGGCCTAGGCAGTGGGGCTCCCAAGCCCGTCCCCCCACAAGC
CCTGCCGTCAGCTCCAGGCCTAATTCCTTTTTCTTATTCCCTTAATCTGTCATTTTTATCAGGCTGGGGAAGTGCGGCGGCCACACCGATCAATCCCACA
TTACAGCTGACAGAGTGGTGCTAATAACTTATTGATCCTGGCCCGGCTGCTGTCAGGCCCGGCCCCAGAGAGAGGGTCAGTCCCACGGTCTGGTCCAGGG
TCCCCACCTCGGTGACAGATCGGGTGGCTGGGCCCGGCGGGCGGCGGGGGGCACCTGGCCACACACGGATCCAGGCACCACTGCTCAGGCCCCTGAGAAG
CCATCGTCTCCCCCACAGCCTCCCGTGCCAGAGCTCGGTGGGCTGGGAGGGGGTGGGCCAAGGCTGGGGGAACCTGGCTCTTTTCCACACCTGCCACCTG
GCCCACCATGCACATGCCCTCAGGGTTAGCAAGGCCTCTCACCTCCTGGCAATCACTTTTCCATTGTACACAGTGGAAACTACCCTCTCCGTTCTGTGGG
GGGCTAAGGCCTCCTCCTAGCCTGGGGGAGGTGACTGGGTGGGGGGGGGCAGGTGGAAGGGGGCCTGCAATGAGACCGCAGGAAGGCCGATGAGGCCATG
CTCACTCCTCACTCATGGACCCCAGCGGGTCTCACAGAGGCAGATGCAGGACCTGCTCTGAGTCCCTCACAGCCCAGGGCCCAGGGAGGTGCGGCTTAGC
GGGAGGGCCCGGGCTGGGAACAGGATGGATGTGTGGTTCCTGGGGTCACAGGAAGGGAGAAGAGGTGAACGCCCCCCAGGGTGAATGCCCCTCCAAGAGG
AGGCTCCGGGGAGCGGGCCAGACCCTGACACGGAGTGCGTATGGGAGACCTGGACACGGGTCCAGGACACGTGAGGCCCCGTAGAGCCTGTGAGCCCGGA
AGTGCACGAACACGTCCTGACTCCATGGGTGAGAGCTGCCGGGCAACCCCCATCACGTGCACCCCACAGGACCSCAGACACAGACATGCCGGCACACGCA
CACGCGTGTACCTGAGGAGGTCTCCCTGTGTGAAGGCACAGGGGAGGGCCTGCTGGCTCAGAATATCTCAATCATTGTGGGGCTCCCTCCGCTCTGCTGG
ATCGATGGGGCAATTAGATTTTATCAACCGCCTCTCAGCTGTCTCCAACGCGGCATCAGAAGCTGCCCCCACCCAGCCCCACAAGGGCCTTCCTAGGTGC
ACGAGGACGCGGATGGGGGCCATGGATGGGGGACACAGATGGGGGTGGGCCTCCCCCACCCCTCCTTCCCAAGAGATGCAGGCCCTGCTGGGAACACCCC
TGCCTGGGGTCCACAGGGCCTCGGGGCGCCCCCGCCTCCTTTCACGGCCTGCCCTGGGGCTGAGGCTCTGCTGTGCCCCTCTCTACAGCAGTGCCCTCTG
AGGGGGGCCTGGTCCCCCCACAACTGTGACCAGGCAGCAGCACCTCCCTCAGGCGCCGGATCCCTTCCCTCCCGAGAACCCCATCCTTCCCGGAGCCCTA
GAAGGCGGGACCGACCGGGGACCCCCTCCGTCCAGGAGCCCTAGGAGGCGGGACCGGGGACCCCTTCCGTCCAGGAGCCCTAGGAGGCGGGACCGGGGAC
CCCTTCCGTCCAGGAGCCCTAGGAGGCGGGACGGGGACCCCTTCCGTCCAGGAGCCCTAGGAGGCGGGACCGGGGACCCCYTCCGTCCAGGAGCCCTAGG
AGGCGGGACCGGGGACCCCTTCCGTCCAGGAGCCCTAGGAGGCGGGACCAGTCATGCGTGCGCTGCGGGAGTGCGTGCGTTCCTCCAGGGTGTGCGTTTC
TGAACCTCTGAGGCCACGCCTACGTCTGCCCTGTGGAAAGGGGGTGGCAGGGCCCCGGCTACTCCAAGCCCACCCCAGCGGCAGCCACAGCGGAGCCACC
GCCTCTGCCTCCTGTCTGCCCCGCTGGCTGGGATTAACACAATTACCATCCCATGCAGCCCCTGGGGGACAGGCCGCTCCTCCTGCCTCTCTGGCTGCCT
GCCAAGGCTGCTGGTGCTGAGTGGAGACGMCACCGTCCTCTGGCCCCACAGCCCCGACCCCGCCCTCAGGCCCCCTGTGCTCCTCACCGGCGGGTCGCAG
GCCAATCTCCAGGCTGCCTCTCTGGAATTCACAGCGGCTCTGATGCTCSGGCATAACGAGGTGGCGGCTGCGGTGGACGCTGGATATGAGGGTGGGAAGG
TTGCCGTCCTGGCTGCAGAACGAGACCGGGAAAAGCTGACCCCGTGGGCAGCTGCGAGGCTGGAGCCCAGCCTGGGCACAGGGAGTGCCTAGCTCTGTGT
GTGAGCGTGGGGATGACCTCTGAGTGCCACGTTGCTGTGCCCACGCCTCGGCATGTGGCCCGTGACGCCACTGTGTGCACACCCACGCAGCACCCGAGTC
AAAGCGACACAGAACCTGGCACTGGGACCTGGGACCCYACGGCTGCTCCAGGGAGGGTCTRTGTGGAGCAGCCAGCCGGCTCTGCCTTCAYGCCCTCCAC
AGGGAATCACAGTTATCTCACTCCCTGCCTCAAAGGGGGTCGAGGGGCCCACYGGGCGCCCRGGAAGAGGCCGATCTGCTCAGGGGCAGTCCTGCAGGAC
AGGCCCCAGGAGAGAATGTGCCACATGTGAACCATCCCCTGACCCCCGATTTCTGCACACGAGGAAACTGAGGCCCAGACCACAGTCCTGCAGCTGATGA
GACGCGCCCCACGCACACACGGCACCGGCAGACACGTGCAGCTCGCACCAGGCACCAGGGCTGCGTGCTCCAACCTCCCGCTGTCCCCCCGGCAGGCGGG
GGCTTGGAATCAACATGCATTTAACTCTTTTCTTCCCTCATTTCTCCTCTTCTTGCTAATTCAGCCCAATCCCACATCCACAGAGTCCCAGAGAGCAATG
AGACGAACTGTGTGGAGCACGGCCCTCCACCCCTTCCCGGTTCCGTGAGCCTNNNNNNNNNNNNNNNNNNNNAGTCTCTGTGGTGGGGCCGGGCTGCAGG
TCAGGAGGTGGGGAAGCTGGGAGAAGCAGTCAGGGCTGGGGCAGGAGGCGCAGGAAGGAGAAGGGGAGGGGGAGGCCAGAGCCTGGCAGGTGTGACCCCA
GCTGCCCACGCATGGGCCTCCCGCCACCGCCCCTCAKTGATGACCACACGGCCTAGCCCTTGCCCATTTTCCCACCAGCTCAGGGGCCCAGGAGAGAGGG
GCCAAGCCCCCGCCTGCAAACAATGGCTCGAGGAGCATCTGCCACCCCGGGTTCCTGAGGCAGAGGAGGACGGCCTGGGGCTCCGCTGGCTCCAAAAGGC
AGGTGGTCACTGCAGAGCCAGCCAGACAGGGCGAAGGGGATGGAAGGACAGAYGGACAGATGGGTGGAGRCCACTGGACGGGAGCAAATGAACACACAGA
TGGAGGTGGCCTGGCAGTGTGTTCTGTGGGAGCCTGCAGAGGCAGAAGGACCCAGGGACAGGCTGAAACACAGACATGGTCTGGGAGCCCGTGTGGGTTC
AGGGACCACCACCCGCTCTGACCGGACACCAGGGTCAGGTCAACAGGCGGAGGCTTCAGTCCACTCAGGCGTGTGCTGGGCCTTCTCCTCCGGGGACCCC
AGCACGCCCTCCCCTCTGACCGAAATCTCGCCCTTGGGAGATTCAGAAACTCATCCTAGCCCCTTCTAGGGCCCGTGCAGGATGGAAGACCTGGCCTCTT
CCTAGGGCACCCCAGGCTGTCTGCCGTCAGTGCTGCCGAGGGACGCTGCATTCCCGAGGCCAGGCAGACGGAGGAGGGGGCTGCAGGCAGGAGGAGCCGT
TACTGGAGCGGGGTCGGGGGGACCGCGGCTGGGTTTCCCTACAGGCCTCGCTGACAAATGTATTCTGTAGTGTCCCAWGTAAAAGGCTCATAAAATGTCA
TCAGTGTTCATGACAGTTCATAAAAATGATCAGGTGAGCTGGCAACCCCAAAATGAGGTAGAAATAAGTTTAAAGATGTTTTTATTGTAATTCGGCTCTG
AGATCCAGACATTCTCAGAGACATAAATAATAACACATCTGGCGTGGAGCCAAGACACGCAGGTCCCCTGGGCCTTCACGGCTCTGGCCCCAGGAAGCTG
GCCTTGTGGCAGACGCCTCCTTCCTGCCTTGCTGCCCTGGAAGCCACAGGGTGAGACCTGACCCCATTGACAGAATCCACAGCTGGGCTCTGTTCACAGA
CTTACCACTCGCTTCCCCCTGGAGCCAGGAACTCGGGTCCCCCAACTCCCTTGACCTCTTCCCCGGGGCTCTTCATTTTTATCTCCTTTCCACATCCTGG
AATCACACCCCCTACCGTCCTGCTTCCACAGCCTGAATCCAATCCCCTGTCTGCCAGGAAGGCCTCCAGAGGGACCTTCTCCAAACATACACCTGGTCAC
TGCCCTGCTCAAGAACTTTCGGTGGCTCCCGCCTGGAGGACGGTGCCCACAGGCCCAGCATCCATGACTCTTCAGCATCCAACTGAACCAGAGCTGCCAG
GTTCACTCCTCGTCCCTCCTACACGCCCTTCCCTGTTCCTCYACTCTGCAGACATCCCCTCGCCTTAGRGCTCCTACACACCCTTCAGGGCCCCACTCAC
ACATCAGCATTCTCACCTCCTTGTGGGTCTCTAGGAGGGTGGGAAGGGGGAGGTGACAGCCTCATTTTTGGGCTCAAATGGCCAGTCTCACATGGGAGGA
AGTGCACTCTAACTCCAGGGCCGGGCTGCCCAGAACTCACACCTGAGCTGCTGCCGAGAGCTGCATCTGACTGGGTCTGGGGTCCCTCAGTCCCAACTGG
GTGCAACACTGTCTGCCTCCCGGGATGGGGGACAACCTTGCAGCACATGTCAAACCTGGCAGACACTCAGCCAGCATCACAGCATCAGCTCACGCTGAGA
CAGCGGACAGCAGACAGCAGGGCACGGTCAGGGGTGGGAGGGAGGGAGGGGAGTCACGGCCCCCTCTTATGCACGCACAGCACGGCTCCTACCTGCAGGA
CGCCTCTCGGAAAGAGATGTTCACGTCCCAGTGGGTGTGGACTCTGCAGGAAGGGAAGCAGAAGGTCCATGTTGCTCTGGAGGCCCCTGACCCCAGCCTC
AGGATAGCAGGGCGTGCGCAGACCTGTCTCGGGTCAGTGCCCTGCTGGGCCACAGCCCTGGGCAGTGAACGAGGGCGGCTGCCATGCCCAGCACCACCTG
CTACTGGCTCAACATGCTGGGGCCTCCCACTAGGACAGGCCCATGGGCCAAAGCCAGCTCCTGGCCTCAGCAGACACGCATCAGGAAGAACAGGACCGAG
GCCCCTTCTCCCTCTTGCTTGTTGCCGTGCACTCAGAGGAGCCCTCCTGTTGTACCGCAGGTGGGGGCCGAGGCTGCTTCTGCACAGCCAGTCACGAGCC
TGAATGGAGCTCCCTGTTGCTAGAGCTGCTCTCTGGCCAGACTGGGACCCGGTCAGCAAGGGTAGCTGGAGCGTCGGCCCAGGAAGGTGCAGACCTCTGG
GTCCCAACTGCTGCCAACCTGCCTCTGCCAGTGAGCGCCGCAGAGCAGAGGTGGGAGGGGACGCCAGACAGGGGGCAGATGAGGAAACAGCTCCTGCCTG
CGACCCACACAGGACCCCAAAAAGACCAGCATCTGAGGGAAGGTGTGGGAGGCCGGTGTGGACACTCTCATCTGAGCAGCTGAAGGCCTGAAGCTCCAGC
CCCATCTGAGCCTTGCGCCTTCCTGTCCGGCCCTGGTCCAAGTACCTTCTCTTCATGATACGGATGTGCGGACCATCCTCCTGCTTCAAGCCTGGCCGCC
GCCCACAGGTGGGGCCACTCCCGTCGCTGTCACCATCGCTGGCAGAGAAGCTGGGAGTTCGCTCCTTCTTCAGGTTCCGGGCGGCAGGCAGGGCGACTGT
CCTCTTGTCTGCCAGCCGCCCCCGGTTCTGGTGGGGCAGGAGGAGAGGAAGGTGGGGCAGGAGGAGAGGAAGGTGGGGCAGGAGGAGAGGAAGGTGGGGC
TGGACCGGGCCGTTCCATCTCCCGGGGGTCTGCCCTGGTCTCGCACCCCAGGCCGAGCCCCAAGCACGGCAGAGGTGCCCTCAGAGCAGCCATCCTCCCT
CTACCTGCCTCTGGGATGCGCCTGGGGCCAGCAGGAGCCACAGCTGGCCAGAGACCCAGAGGAGAGCCGAGAGACGGGGCCGCAGTTGGGCATCCCCCTA
CAGACGACGCCCACTGGCTCAGCCCTCCCCTGCCCCACCCCACGCCAGCCTGGTTGGCCCAGCCCTTGAGGATGCTAGAGGGTCCTGGCCAACTCCAGGG
CCTGAGTCGGGGCCACCCCATGTGCGACAGGCCTCCGTCCCGGGCTTGTGTGGCCCCTCATTCCCAGCTCCCTTCTTAGGGCCCCTGCGTGTCTCCTGGG
ATCTGCCTGTGGCCTGGGGCTGGTGCTGGTGGACGTGCACTCAAATGCGCACGTTCCCTCCGTGTATCTGCCTGCCAATCCCACCCGTACTTTGTGACCC
TTCTGCCCACCACACCCTGCCACTGATGCCAACGTTGACAAGCGAATGCCCTTTTCTATTTCATCAGCGCCACGCACAGCCCGGCTCAGGGGCAGCTGCA
GCCTGGTGCAAGGCCACTGGCAACTGTCTGAGCTGAACCCTCGCAGACTGCAGGCCCCGGGGCTCACAGGTCACCAGACGAGGAGCCCTCACCAGCCCAG
GTCCTCCGTTCCGCAAACCCTGCCCCGCATTTCTCTCAGGGCTTCTTTCTCCCATCTCCTTTGCACCCACGGAACGAGCGTGTGGAGCTGTGGGTGCCTC
GGGTGGGAGCACAGACACGCCCGCTGTGGTCCCTGCAGAGCACAGCCGAGCCCCGAGCTGACGCACACACGCGGCGGACGTGCCCGCGGCACCCTGCACA
GCACACCAGCGCCGGCCCAGCCCCAGGCACTTCCGGACTCCTCCAGTGTTTCTAGGTCCTGCCACCCCCAGGGATAAAGGAAAGTTATTGATTATTTTCC
AGTGGGCGGGAGGCTTTTTTAAATGTAGTAACAGGCCGCTGGCTCCGGGAGGTGGCAGAGCCCTTGAGAGCGTCTAACTCACTCCCTCCTCCGTTCAGTC
ACCAGGGTCTCCTCAGACTTCCTCCCTCCCATTGCCACAACACAGCCCGGAGCTTGGGGATGAGGCTGTTAGGAGGGTGTCCTCCTCAGACCTAGAACCA
CCATCACCTTCAAATGCACAGCCCCAGTGCCAGCTTAGTTTGGGCAGTGCCCCCTCCCCAAGGGTCTGGAAGCTGGAGCATCCCCCCACCCAGGTGGAGG
CCCCCGTCCCAGAGCCACGTCTCCCCTCACCGGCCACTGGGCCTGCGCTGGGTCCCCTCTGCTCTCTCCACGACAGCTCACTGGGAAAACGCAGCACTGC
TGGGCAAGGGGTGGGGCCTGGGGTCCGAGGCTGAGACCCTGCCCTGACCCTGGGCTGCCCCCAACACCAATGACCACAGAGTGCGGCCAAGGCCGAAGGT
ATGATGCCTGTCTGTGCCCGGGCCTCCGCGTGTCAGCTGGAGCTCGGGGGTCCCTTCAACAGCCACAGCCTGTCCGGAGTGTGCTGTGCTGGGAAGTCCC
GCTTAGCTCTGCCCTTCTGCAGCCCAAGCACCAGGGCTTAGAGGCTCTGACAGCCTCTCCTCTCCCACCTCTCTTCTTTTTTAGTTTTTTGAGACGGAGT
CTCACTCTGTTGCCCAGGCTGGAGTGCGGTGGCACAATCTGGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAG
TAGCTGGGACTACAGGCACCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGTTTCACCGTGTTAGTCAGGATGGTCTCGATCTCCT
GACCTTGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGCGCCACCACACCCGGCCTCCCACCTCCCTTCTTTTGAGGAGAAGACA
CAATGCTTTGCTCTCTGCTTCTTGTCTGTGGGATGGGGAAGAGAGGGAAGCAAGGACCAGAAGACTGCCCCTTGGAAGGAGGCCAGGGCTGGCTGGGAAT
GGAGCCCAGGCTGTATACCAGCCTCAGCCCCGTGATGCGCAGAGTCGGGCGTGGGGACACACCGGCACCCCAGCCACGCCCCAAGGCACCTGGAGGGCAG
GTCTGGAGTGGCTGATGGGGGTGCTGAGGACCAGGACAGCTTCCCTGCCACCCACCCTGCCCAAGGACAGAACACACCTCCTCCACACTAGAGACCTCGG
CCACAGCACACAGATCTGAAAACTCGGCCCCTGACAGCACCTCCTCTTGGAAGGTGCTTGGCCTGCAGGGCCCCTGTGCAGGGTCCCCAAGGCACATACA
CACTCATATTCTGCCCCGGAGCATCTGTGACCATGAGGTGCACATGCCTGCGGATTTGGCATGGGGCTTGGGGGAGACAGCCTCTGAGTAAGAAACATGG
GGGCTGGAAAGAAGGGGCCCCTGGAGTTGCTTCCTAGGGGAAGGGTGTGGGACAGGCCTGGGAGGGACTGGCAGAGGCAGGCCTGGATCTGAGCCATCCC
TCACGCAGGGCAGGGACCTGGGAGCCCCAGGTGGGGGGGCATCTCCTGGCTGTGGCCACGGGGTGGGGAGGAGATGCTCACGGAAGCACTGTCGGAAGAG
ACTGACGCTGGGCTCAGGCTGTGTGCTCCCCACTCCTGGGGGAGCCCTCAAGGGGGCCGCTCAAATCCAAACAGAGACCCAAGGCTAGGCAGCGGGCTGC
CCAGAGGAGCCCTCTCCAGCACCAGCTGCTTGAAAGGAGGGAACTGGGCCTCTTGCCCCGGGTAGGTCTGTGACAGCAGACAGGGGGCTGCCGGCTGTCT
GCACACCTGCCTGGGAACTCTGTGAGCTGCCTGCCTGTGCGTGCAGGTCCATGTCGGATTGTGTGTCAGGTGGGCACATGGGTGAGGTGCGGCTGTGTCC
CCTTCCCCTGCCCAACATGCTGTATGTCTGAGGGACCAGCCGTCTTCACAGGTGTGTCTGCAGCCGCCCAGCCCCCTGACTACGGCACTCATGGCTCACA
GGCCCCTGGGCATCCCCTCCCCCATCCTACCTCAGGCCCAAAGCAGGCAAGCGGAGGTACGCCCGGGACCCTCAGGCCCATTTTGCACCTCTGCCTCTCC
TACCCTTTCCTGGAAGAAGGGGTTCCTGAGTGTGTCAGGAATTGCAGCCCCCACCCCCAGCAGCCATGGCCCTAATTGGCTCCAAACTAGTCCTTCCCAA
CAGGCATTCTTCCTTTTCAGATCAATCCTCTAACCCTCGCTGCCCAACTAGGGGGCTGGAGACTGGGTGGGGGGTGCAGGTGCCTCCCTGAGCAGAAGGC
AGCTCCCAGCATCCCCGTCTCTCCTGCCTGCTCCCTCAGTGAGGGTGTCCATAGCTGTCTACCCTGGGTTGGGGCCTTGAACCAGCCTCCGACTCCAGTT
CCCTGGACACCAAAGGCCCACACTGCAAAGACTCTGCCCCTGGCTAGCCTCTGCGTCCCTAGGACACACTTCGACGTCCAGGCCCTTGCACCCTCTGGCC
TTCAGCACCCAGAGACACAAGTCACTCACACCCAAGCCTGTAGCTCCCCAAAATGCTGTCGTCCCAGAATCACACCTCACCAGCTGGGCCAGAGAACACG
GTGACCCCCAAGCGGTGACAGGGCACAGTGCCAGGCCCACGTTGAATTACTCCTCCCAGGGAGAAGACCCTGACCCAGGACTCGAGGATAAGCAGCTAAA
AGGCACCCAAGGGGAGGCTCTAAGACAAGCGCGGCCCCCCTGTCTCCACCGGGGAGGGCGCTCGGGTGCCCGAGGACTCCTCCCCCGTCCAGGTAGAAGG
GCTGGGAGAGCACGAGGTAAAGCCGCTTCCCCCTGCCCTTCGGAGGCTCCCTCCAGCACACCCGCAGGGGTGAGGTTAGGACTCTCGATCCTGAAAACCC
TGAAAACCGCAGGGACAAGCTCCGCAGGGGAGAGTAACTCCCAGCCCCAACCGAGCCCCGCATCTCACCACCGGGGAGGATATTCGGCAGCCCGGGCAGT
CGCAGATCGGAGGATGCACCTGCAGGATCCCCTTGGACATAAGCGTCTTCAGACTTTTCCCTGCGAGCAGAGCCGAGGCAGACCCTGTGAGGGAGCGGCA
CGCTTCTGCGCGCAGTCAGCGGCAGGGCCAGTACCCCCTCCCCGGCTCGTGGACGAAATACACCCCGAACCCCACACCCACCTCGGCCCGACTTCCCAGC
CCGCTTCCCGTCCCACCCTCGCGAACGCCGCAGGGATCTGCTGGGCTCTGCAACTCCAGCCCGGGTGGAGCGCCCTCCCCCGACGAAGGGCCTGGGCGTC
CCCACCCGGCGCCCCTCCTCCCGCGCTCCACCCTCTCCCCGGCCCCGAGGGAACCGCACGCCGGGCCCAGAAAGGCTGAGTCCCGGAGCGGTGAGCGGCG
CCGTCGGGACCCTCGGCCTGCGCGGCAGGAAGAGGCGGCCACCGCGGAACCACGCACCGCTCAGGTCCCGAACTTTTTAACTCCCCGCGGCGCCTGGCGC
TCACCGCACCCCCTGTGTCCCGGCTCATGCGCCCCCGCGTCGCACCCTTGGGCCCAAGCGCCCGCATGCGCCAAAACACGTTGTGTGACCTGGCGCCGCC
GCTCGGGCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN


SNP Information

Context             (SEQ ID NO:55846):
TGCCCACGCCTCGGCATGTGGCCCGTGACGCCACTGTGTGCACACCCACGCAGCACCCGAGTCAAAGCGACACAGAACCTGGCACTGGGACCTGGGACCC
Y
ACGGCTGCTCCAGGGAGGGTCTGTGTGGAGCAGCCAGCCGGCTCTGCCTTCACGCCCTCCACAGGGAATCACAGTTATCTCACTCCCTGCCTCAAAGGGG
Celera SNP ID:            hCV27852490
SNP Position Genomic:     9938
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,39|T,1)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:55847):
GGGATTAACACAATTACCATCCCATGCAGCCCCTGGGGGACAGGCCGCTCCTCCTGCCTCTCTGGCTGCCTGCCAAGGCTGCTGGTGCTGAGTGGAGACG
M
CACCGTCCTCTGGCCCCACAGCCCCGACCCCGCCCTCAGGCCCCCTGTGCTCCTCACCGGCGGGTCGCAGGCCAATCTCCAGGCTGCCTCTCTGGAATTC
Celera SNP ID:            hCV11610714
SNP Position Genomic:     9530
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,9)   caucasian(A,1|C,3)   total(A,4|C,12)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55848):
CAGCCCCGACCCCGCCCTCAGGCCCCCTGTGCTCCTCACCGGCGGGTCGCAGGCCAATCTCCAGGCTGCCTCTCTGGAATTCACAGCGGCTCTGATGCTC
S
GGCATAACGAGGTGGCGGCTGCGGTGGACGCTGGATATGAGGGTGGGAAGGTTGCCGTCCTGGCTGCAGAACGAGACCGGGAAAAGCTGACCCCGTGGGC
Celera SNP ID:            hCV11610708
SNP Position Genomic:     9649
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55849):
TAGGAGGCGGGACCGGGGACCCCTTCCGTCCAGGAGCCCTAGGAGGCGGGACGGGGACCCCTTCCGTCCAGGAGCCCTAGGAGGCGGGACCGGGGACCCC
Y
TCCGTCCAGGAGCCCTAGGAGGCGGGACCGGGGACCCCTTCCGTCCAGGAGCCCTAGGAGGCGGGACCAGTCATGCGTGCGCTGCGGGAGTGCGTGCGTT
Celera SNP ID:            hCV26822551
SNP Position Genomic:     9181
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55850):
TCTTCAGCATCCAACTGAACCAGAGCTGCCAGGTTCACTCCTCGTCCCTCCTACACGCCCTTCCCTGTTCCTCCACTCTGCAGACATCCCCTCGCCTTAG
R
GCTCCTACACACCCTTCAGGGCCCCACTCACACATCAGCATTCTCACCTCCTTGTGGGTCTCTAGGAGGGTGGGAAGGGGGAGGTGACAGCCTCATTTTT
Celera SNP ID:            hCV16079288
SNP Position Genomic:     12069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55851):
GAGGGTCTGTGTGGAGCAGCCAGCCGGCTCTGCCTTCACGCCCTCCACAGGGAATCACAGTTATCTCACTCCCTGCCTCAAAGGGGGTCGAGGGGCCCAC
Y
GGGCGCCCGGGAAGAGGCCGATCTGCTCAGGGGCAGTCCTGCAGGACAGGCCCCAGGAGAGAATGTGCCACATGTGAACCATCCCCTGACCCCCGATTTC
Celera SNP ID:            hCV27846551
SNP Position Genomic:     10053
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,36)   total(C,43|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:55852):
GGTGCCCACAGGCCCAGCATCCATGACTCTTCAGCATCCAACTGAACCAGAGCTGCCAGGTTCACTCCTCGTCCCTCCTACACGCCCTTCCCTGTTCCTC
Y
ACTCTGCAGACATCCCCTCGCCTTAGAGCTCCTACACACCCTTCAGGGCCCCACTCACACATCAGCATTCTCACCTCCTTGTGGGTCTCTAGGAGGGTGG
Celera SNP ID:            hCV16206205
SNP Position Genomic:     12042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55853):
GGGCTGCAGGCAGGAGGAGCCGTTACTGGAGCGGGGTCGGGGGGACCGCGGCTGGGTTTCCCTACAGGCCTCGCTGACAAATGTATTCTGTAGTGTCCCA
W
GTAAAAGGCTCATAAAATGTCATCAGTGTTCATGACAGTTCATAAAAATGATCAGGTGAGCTGGCAACCCCAAAATGAGGTAGAAATAAGTTTAAAGATG
Celera SNP ID:            hCV16206206
SNP Position Genomic:     11378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55854):
TGGGGCAGGAGGCGCAGGAAGGAGAAGGGGAGGGGGAGGCCAGAGCCTGGCAGGTGTGACCCCAGCTGCCCACGCATGGGCCTCCCGCCACCGCCCCTCA
K
TGATGACCACACGGCCTAGCCCTTGCCCATTTTCCCACCAGCTCAGGGGCCCAGGAGAGAGGGGCCAAGCCCCCGCCTGCAAACAATGGCTCGAGGAGCA
Celera SNP ID:            hCV16206207
SNP Position Genomic:     10637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55855):
ACGGCCTGGGGCTCCGCTGGCTCCAAAAGGCAGGTGGTCACTGCAGAGCCAGCCAGACAGGGCGAAGGGGATGGAAGGACAGACGGACAGATGGGTGGAG
R
CCACTGGACGGGAGCAAATGAACACACAGATGGAGGTGGCCTGGCAGTGTGTTCTGTGGGAGCCTGCAGAGGCAGAAGGACCCAGGGACAGGCTGAAACA
Celera SNP ID:            hCV11447401
SNP Position Genomic:     10870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55856):
TGTGGAGCAGCCAGCCGGCTCTGCCTTCACGCCCTCCACAGGGAATCACAGTTATCTCACTCCCTGCCTCAAAGGGGGTCGAGGGGCCCACCGGGCGCCC
R
GGAAGAGGCCGATCTGCTCAGGGGCAGTCCTGCAGGACAGGCCCCAGGAGAGAATGTGCCACATGTGAACCATCCCCTGACCCCCGATTTCTGCACACGA
Celera SNP ID:            hCV27838739
SNP Position Genomic:     10062
SNP Source:               Applera
Population(Allele,Count): african american(G,10)   caucasian(A,1|G,33)   total(A,1|G,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:55857):
TGACTCCACGCCCTGGGGGTCTCCCAGGCCAGCCAGTGCCTCCGACTCTGGCCCTTCCTCATCCTCATGAGGGCTCTAGCTGGGTGGAGTGAGGGGCCAC
Y
CCCCTGTGACCCAAGACCTCCATGAGGCCTAGGCAGTGGGGCTCCCAAGCCCGTCCCCCCACAAGCCCTGCCGTCAGCTCCAGGCCTAATTCCTTTTTCT
Celera SNP ID:            hCV11447135
SNP Position Genomic:     7434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55858):
TCCTGAGGCAGAGGAGGACGGCCTGGGGCTCCGCTGGCTCCAAAAGGCAGGTGGTCACTGCAGAGCCAGCCAGACAGGGCGAAGGGGATGGAAGGACAGA
Y
GGACAGATGGGTGGAGACCACTGGACGGGAGCAAATGAACACACAGATGGAGGTGGCCTGGCAGTGTGTTCTGTGGGAGCCTGCAGAGGCAGAAGGACCC
Celera SNP ID:            hCV11447402
SNP Position Genomic:     10853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55859):
AGCTTCAGCCCCAAACACAGCCCAGCAGGTGGCAGAGGGGAGGCCCAGGCCAGGCCCAGCTCACTCTCCTGAGGTCCTCCCTTGGGTCCTGCCGACCGCA
M
CCATTCCAGACCACACCATCCATGTACCCATCTCCGACCCACCCCGAGCTCCTCCGAAGCCCCTGACTCCACGCCCTGGGGGTCTCCCAGGCCAGCCAGT
Celera SNP ID:            hCV11447136
SNP Position Genomic:     7270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55860):
AGGCCCCGTAGAGCCTGTGAGCCCGGAAGTGCACGAACACGTCCTGACTCCATGGGTGAGAGCTGCCGGGCAACCCCCATCACGTGCACCCCACAGGACC
S
CAGACACAGACATGCCGGCACACGCACACGCGTGTACCTGAGGAGGTCTCCCTGTGTGAAGGCACAGGGGAGGGCCTGCTGGCTCAGAATATCTCAATCA
Celera SNP ID:            hCV11447404
SNP Position Genomic:     8474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55861):
CACCCGAGTCAAAGCGACACAGAACCTGGCACTGGGACCTGGGACCCCACGGCTGCTCCAGGGAGGGTCTGTGTGGAGCAGCCAGCCGGCTCTGCCTTCA
Y
GCCCTCCACAGGGAATCACAGTTATCTCACTCCCTGCCTCAAAGGGGGTCGAGGGGCCCACCGGGCGCCCGGGAAGAGGCCGATCTGCTCAGGGGCAGTC
Celera SNP ID:            hCV27836895
SNP Position Genomic:     9991
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,39|T,1)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:55862):
CGTGACGCCACTGTGTGCACACCCACGCAGCACCCGAGTCAAAGCGACACAGAACCTGGCACTGGGACCTGGGACCCCACGGCTGCTCCAGGGAGGGTCT
R
TGTGGAGCAGCCAGCCGGCTCTGCCTTCACGCCCTCCACAGGGAATCACAGTTATCTCACTCCCTGCCTCAAAGGGGGTCGAGGGGCCCACCGGGCGCCC
Celera SNP ID:            hCV27840677
SNP Position Genomic:     9961
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,40)   total(A,2|G,72)
SNP Type:                 INTRON


Gene Number:                 302
Celera Gene:                 hCG1775207 - 110000085696893
Gene Symbol:                 CGI-147
Protein Name:                CGI-147 protein
Celera Genomic Axis:         GA_x5YUV32W3KM(3078355..3100727)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12462):
ATCCACCCACCTCAGCCTCCCAAAGTTCTGGGATTACAGGAGTGAGCCACTGCATCCAGCCCAGATCTTTCTTTTACCTGCCCTTGGCCCTCTCCTCTCC
CTATCTCCCCAGGTGACTCATCTGGTCCATGGTTGAAAATACTATCCCGTATTTGTATTTCTGGTTTTGACCTCTAGATTTATATATGTAAGTGCGTGAC
TTGGATGATTTATTATTATTATTATTATTATACTTTAAGTTCTAGGGTACATGTGCACAATGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGG
TGTGCTGCACCTATTAACTCGTCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCTCCTTCCCCCAACCCACAACAGGCCCCGGTGTGTGATGTC
CCCCCTCCTGTGTCCATAGATGATTCTTTAAGTGTCTCAAAATTAACATGTCCTTTTCTCCCTACACCTACCCACCTTCTTGTAACAAACAAACCTGGTC
TTCTCCAAACCTCCCTTCTCCCAGTACCTGGCACAACCACCCACCCAGTCACTAAATCCAGAAGCTTAGTCATCCCTGACACTTCCCTTTTTCTTACCAC
TCATCTAACCCAGGACCAAGTCCTATACCAAATATATTTGGTATCCACACACAACTGTCCATCTTCTTTGCTACCCTTCTAGTCCAGACCATCTTCATCT
TCTTCTTGGACTATGCAGTGGACTCTCAACTTCTCTCTCCATTTCTGTTCTTGCCCGCTTCAATTCATCCTTCACACATGAGCAACAATGAACTTCTTAT
AAATCCTATTACTCCTCTACTTAAAATTGTAGAATGATTTCCTACTGCACTCAAAATCAAATTCAAACTCATTCCCTTGGCCTGCAAAATTCTGCATGAC
CTGGATCCTGTATATATTTCCTATATCATCTCATGTCAATGTATTCCAAGTCTATTATGCTCCAGCCTCAAATAAGCATATATCCACATTGTTAACTCTC
TCTTAGACCCTCATGTGCTGCCTTCCTAACAATTCTTATTTCCCATTGTTTTCCCCAGAACCTGGTGTAAGGCCTGGGACACAAAATGTTTGTTCACTGA
CTGGATAATGAACAGATAAGGCAATAGATGTCACTGGAAAATGATCTTTCCATTCCAAGAAAGTGCTAAAAGACATCATGAAACATCAAAAGTTTCAATT
GCCAAATTCTGTGTTATGGCTTACACAGATAATGTAGTCTGTTAATACCAAAAAGTTAACAGAATGGCCCAAAAGAATGCCTCATTTGGTTAAGAATCTC
ACATATGTTGTAAAATATAGACAAAGTGAAGTGTATACTCAGATATTTATTTACTGGAACTTCATTAATAATGAGCAAACAATAATTAAGTAAGCAGCAA
CATAAAGCTATGCTTTTAAAAGAGGGCTGGGAAAGAGTTCTTGGCAATAGCTTAGGGGGCCACATGATGATAATGATCACAATCATGGTTAACTATATGC
TACAGACACTGTTCTAAATGCTTTATTTAAACCTATTCATTCAATCCTAACAAGAAGGGTATTGACTTCATTGTCCAGGAGGAAACTGAGATAGCAAGAA
GTAAAAAGTAACTAATCCAAGAGTTGCATAGTAATAGAGCTAGAATTTGAAAAAAAGCAGTCTAGCTTTATAGCCCTGGCTTTTAACACTACCTGCCTAG
TCCTTCCAGGTAATCTATAAAGAACAAAGTTATCATTAAAAAACTCAAGGACAAGAGAAAATACTCCCATGAACTACTGAAAAGATTAAGTAGTTCAAGA
ATACAAACAAACTCTTGAGCAATTATAGGTATATTAGCTGTGATATAATTACTCAATAGATTGCCCTTGCTTAATTTAAATATGCCTTAAACTTTAAGTA
TCACCTTTTATCTGACACAGAAAATTATCTCCTGTTCAAATTTCCTTGATGCTGCAAATCAAGGAGCATATTTTAAAATAAGCTTTATATAAGGGCCTAC
ATAATACCTAACTTCAGTTCAGCAAACTCCATCCAAAGCTGCTTTCCCATATAAAATAAGGAATTTCTTGAGGCAATATGCTCTTAGCAATTTACTATTC
CTCAAAATATTTGCAAGGCTTTGTGAAAGCAGAGTAACAATTTACAAAACCACGACAAAGTTATCACTTCAATTTGTCCTGTTTATTAGGATTCTCTAAT
CTAGAGTTCATTTCCACACCAAAATGGGAGACACAGCAAGGGCACTTGGGCAAAAACAGGAATGACAGTAGCACCTAGAACTATCATCTCCGAGAAAGAC
TAAAGAGACTAAAAAGTTTGTTAAATCAATGGAACCAAAAAAAAAGAGTACCCAACAATGCAAAGAATTAACTCTTCTACAATGGCTATTTACCCAGAAT
AAAATAACTAGAGAAATGGCTCTATATATAATAGATAATTAACATAACAAAATATTAAAATTACAAACAGCTTGGGGAGGTTTTTTTTTTTGTAAGAGCA
AATAATACAGTTCTCTCCTACTGCTTTTCTTTTATTTTCTTCTCTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGTCCAGGCTGGAGTGCAGTGGCGCG
ATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAACGATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTCTGCCACCACACCCAGC
TAATTTTTTTGTATTTTTTGTAGACACCGGGTTTCACCATGTTAGACAGGCTAGTCTCAAACTCCTGATCTCAGGTGATCTTCCCGCCTCGGCCTCCCAA
AGTGCTGGGATTACAGGCGTGAGCCACGGCGCCTGGCCAGTTCTCTCCTACTCTTTAGCAACAACATTCACAGTAGACACGTGTTAAGGCTCCTCCGTCA
TTTCCACTTGCCAGAAAGATAACTCAACACATGACAGTCATGAAGCATGAACTCAGACAAACTATTCTGAAGAATATAACTGATTTTCTTTCCTTAATCT
ATTACACTTCAAATCTAGCCAAGCACAGTTTTTGTTATGCTACAATTTATAAGACTAAACTAGCTAAAGAGGGAAAAAAAGTTTGTAAATAAGGCTTATG
TGCGTATGTGTGTATTTACGTGTGTATGTGGATAGATCCCTTTAATACCTAAGAGTAATTATTTTCATGTGAACTTGGAAATATTACCAAACCATAATAA
GATGCCTGGATACAACCTTGTTAGAACAGAAAGAACACTTGAGACCTTACAGTTCAGGTTCTAGCACTACCTAAGCCAGATGACCTCAAGCAAGCCAATT
ACTAATTACTGATTGTTTCTGAGCCTTAATTTTCTCCTCTGTTAAATGGGAATCTACTTATACATTCACAGAGATTCCTTCTAATTCTAAATATTGGTTT
CAGTGAAATAATAATGTTTCTTTTTTTTTTGAGACGGAGTCTGGCTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGC
CTCCTGGGTTCGCGCCATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGATTACAGGCGCCTGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAG
ACAGGGTTTCACTGTATTAGCCAGGATTGTCTCGATCGCCTGACCTCGTGATCCGCCCAACTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAACCAC
CGCGCCCGGCCCAATAATAAGGTTTCTTATTTAATGTAAGTAAGATAGGACTACTTCTACTCTTTAGTTAACTATACGTAGGCAAAAAACTTCAGCTTTT
TCTGCACTTGGAAGTTCTGAAGTGACAATACATGACGACCAAAAAGGATCAGATTTAAACTCCCGAATGCAAAACTATACTCATTTTCCAGGAACCTATT
TATTAACCATGGTGACTAATTCAATGGATCACGGTATCAAACTATTCTTTGCTAACTTTCAAAGGTGGGGCAAAGATCATCTCAGAAAAGTATGTGATAA
TATTTTCAGATAATGATGCAAAGTAACAGTATTCTACACTGACATATCTCCAGTTCTAAGAGTAAAGTGATACCATATTTTCATATTTAATAATTTCATG
TTTACTAGCTCATTTAATCTTTGTGACAGTTGTATGAAAGAAAGTGAGCAGAATTTTTATCAACACAATCTAGACCAGCTCAGAATGTTAGGTAACCTAT
CAGCCATTACTTAACAAGTGTTGGAGCCCAGACTTCAATCCAGGTCTTCTGATTTAAAGTTTAATAGTTACCAAAATCCTAAAAAGTGGTGATTCAAGCC
AAAAGCGAGAAGTTGGAAAAGTGAGAAAAACTGGATAATCAGTCCTTCAATTGAACATAAAGAAGATAAGATCAGATTTGGCAGTTATATAATCAAGAAG
CAAATTTACCGAATGTTAAACTAATGATACATCTATCATAATTCCATATCTCAAATTTTGTCACCTTGTTTCAAAGCCAAGCGTGAACAAATTTTCAAAC
TCAAAATAAGAAAAATATGTAAACTGACAAACTGATTTAACTAGCTATAGGTAAACTGGTAAAAGGCATCATGGTTCTATGTATATTTTCTTCTGGAATG
TGACTCATAGAAATTAAACTGTATTAATCAATTGTAATCAAGTAGGATATATCCCTCAAAGGAAAAAAGTAACCTTCAGTGCCTTAAGATAATGTAGGCA
AAGTAGTAAAATATAAAATTTCTACTCGAGAGAGTCACTTCATACCTACACAAATCAGTCACATTTGTCTAGGTACCACCATCCCTCTTCCACAGTAAAA
ACATAAGCTACAATGCATACAATGATGCCTAGTAAGTAAGTTTCTTCCTTTCATCATCTATGCTAAGAATACACAACTAAAATCAGAGCTAATGACAATA
CAATTACTAGGTAGTAGCAACTGGAATATTAAATTCTATCATGACAACACCAGAAACACTTGTACAAGCTTCTTCAAATGATCAATGTAATCTGTCCACA
AAAATCTCTGACAAGCCCCAAAGTAGAAATGAAAGACGTTAACATTAGGATAAGGAGCGATGCTGCCAAAACACATCAACAGTGGCCAGTCTACGTGTAT
TATTAGATTTTTACATGGAGTTGCAGGTAAATAAAAGATGATTGTGTAAAATCTTCTGGAGGTCATAAGTAATCTAGCAGTGTGACACAGGGCCACATAT
GGTTTCTGGAATTTTAGAGATTAAGTCGACCTTCACGTTTTACTGCAAATACCTCCACTGTAATAAGATATAGAGGTCGGGGTTCAGGGGTTTGGAAAGG
CAGACAACTCTTTTTCATTAAAGCAGTGAAAAATCTGAGAAGTTCCTCTCCAAGGGCTCTGCGGAGCGAAGGCCCATTCCCTTGGCTACCCTGTACCACC
AGAGCTTTAGATGGCACTTGCACGCCTGGATTTCGTTTAGGAGCGAATACATCTAGCATCATGCGCCAGAGGTTCGGGAGAGCAAAAACCAAACTGACAG
ATCCTGAGAAATAGCTCAGTCATCAGCAGGGAAGACCTTCTCCACTTACTCCAAGGTCCTGGACATCCCGGGACTAAGAGGTTCTCTAAAGAAGCCTAGC
AAGGCTTCCAAGTACGCGGAGAGGAGAACGAACAGCCCGGTGTCTGGGTTCAATGTCCGGGTGACCAACCATGAGAAGGTGTCCCAAATAACCTGGCTAC
CGCCAGCGTGAGACATCCAGGGTGAGACATCCAGTCAGCAGCGTCCTAAAACACTGCTGGAAGTCGGAATCACAGTGCCCCAGATCCGCAATGCCTAAGT
GGGAGAGCTCCGGAAGACGCCAAGCTCTGAGGACAGCCTCAGGCTTCGGTCCCCAATTCCCTGAGTTAGTTTACCTACCCGCTCCGACCCCGGCTGCTCC
GGATCTCAGGATCCTGGAAGCTGCTCCTTACGGACTCTCACACCCGCCGCTGGGCTCCAGACAACCGGAACCCGCTCACGTCACTTCCGGTCCGGTCCCT
CTGCCCCCTGAGACAGCCTCCAGAAGGGATACGTTCCTCCCTCCTTTCGGCGAGCTCGGTTGATCCTCGCGGGATTTCAGTTAGGCTCTTAGTGCGGGCC
CTGTGGGTGTGGCAAGAGGAAGAATGACTGCTCGCTTTGTGATTCTTGATCCGGAACTTGTCACCCAGGAACCCCGGAAGAGGTAGCTCACGCGATAGAA
ACGTGTTCGCTGCCCAGAAGAAGGGAAGGCGCGAGTGAGGAAAGGAGGTACTGTAGGTAGGTTGGTTGGCTCCTTACAGGGCGAAGGAGACCAATATCAT
TATTCATTTTCTCGCCAGTAGGAACGTTTCTTTTCACCTCGTTGCATTACCCACCTTCTTCATTTTCTCCTTTATAAACTGTCTTCCGCCCAGGGGCCGC
TGAGCCCTCTGTTCCTGTTCTGCGAACCGTCCTTTGGAGGAAAGGAACAGGCTGCTGGGKAGGGGAAGACTCAGAATTTCTAGTTCCCAGCAAAGCCTCC
AKGCAGGCAGTATCGATGCGCTCTCTCCGAAATTGATAAAATAGCGAGCAGGCCTCATACCCTCAGCTGGGCACTTATGAATATCCCCAGCGTTTCGAGC
TGTCGAGCTCTGCGTGGAAAGAATTGGTTTCTAAGAATATAGTCGAAAATTTGGGGCCGGGCGCGGTGGCTGACGCCTGTAATCCCAGCACTTTGGGAGG
CTGATGTGGGCGGATCACCTGAGGTCAGAAGTTCGAGACCATCCTGGCCAACATGGCGAAAACCCATCTATACTAAAAATACAAAAATTAGCCGGCGTGG
TGGCGCGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGACTTGAACTCGGGAGGCGGAGGTTGCAGTGAGCCGATATCGCTCCATTGC
TCTCCAGCCTGGGCGACAGAGTGAGACTTCGTCTCAGAAAAAAAAAAAAAGAAAGAAAAAATTTCCCCCCTTTTTCACACAAAGAGATTAACTAGAGAGG
TATTAATCCTTACTGACATACCCCAGGCACCATACTAGACTCTGGGAATATGYTATACAGGGAAAGTGGGGCAGTGGCTTAAGGGTCAGAGAAGATTTGG
GAAAGGTTTGTTTGTTTTTTTCGGTTGTAAACTGCAGACCCGGCGCGGTGGCTCAGCCTGTAATCCAACACTTTGGGAGGCTGAGACAGGAGGATTGCTT
GAGCCCAGGAGTTTGAGAACAGCCTGGGCCACATAGGGGGCCACATAGTGAGACCCTGTCTCTTAAAAAAAGATTAACGGGTGGAGCATGGTGCAGAAGG
AGGTAATGGGATCAAGAGCACTACTGAAATGGGTTTACTGAGGCAGGGGAATTAGAAGGCACCAAGAAGAAGATTTTATAGGATGTACTTATTTTGTTCT
GCTGTCATTGCCCAGAATTATTTATGAGACAAAGAATGGTTATTTGTTTTACCTTAGTCTTAGGCACTAGGCTTATTGATACGCTTGTCGTAAGTGTACA
GAAAAAGAGACAGACATGTTGTTTTAGAGGAGTTAGATGATAATCTGATCAGATTAATATGAGATTAGAACATCCTAAAGAACAAAAATATGTGTTAATT
TTAGCATTTTTATGATTAGACACTCCATTGAGATATGGGACATAATAAATAAACTTGGTAACTTTTGGAACTTTCACTGTCCTGTTTTTGATCTTATTGG
GTTTTTTTTTTTTTTTGGAGACAGGGTTTTGCATTGTTGTCCAGCCTGGGGTGCAGTGGCACGATCATGGCTCACTGCAATTTCCACCTCCCAGCCTGAG
GTGTCCTCCTACCTTATCCCCTGAGTAGCTGGGAGTATGGGCATGTGGCACCACATCTGGCTAATTATTTAAATTTTTTGTAAAGATGAGGTCTCACTGG
GTTGCCCAGATTGGTTTTGAACTGGACTCGAGATGCTGCTGCCTCGACCTCAAGCAACTCCTTGAGGCCAGGAGTTCCAGACCAGCCTGGGCAACATAGC
AAGACCAAGTCCATACAAAAATAAAAAATTTTTAAAAAATCAGGAGGGTGTGGTGGCATGCRCCTGTAGTCCCATCTACTTGGAAGGCTGAGGTAGGAGA
ATTGCTTAAGCCCAGGAGTTTGAGGCTGTAGCGAGCTATGATCATGCCACTGAACTCTAGCCTGGGTGACAGAGGGAGACCCCTTCTCTTTAAAAAAAAA
TAAAGAAAAAGGCAACTTCTCTGTTTGATCCTCATATTTCTCATCTTTAAAATGAGGCTAATATATCTTCCTTTTTATGTGTTCATAGCAACAATAAATG
AGGTAATGGATATAAAGGATTTAGTATGTTATCCAGCACATAATAGCTTCTCTATGTAGAGCAGTTCCTTCTCCAGATAGTACCGGAATGTAGTGTATGG
GATATTTGGTTACTTTGCAGCCTAGAAATTATTTCAGAGAATCCTAATTGCTGACATTGCATATTTGTTCAGTTTGGAGTCTGGTTGTTAGATTATCAAA
GAAAAGTCCTGCTGATATGTAAGCATCAAATAGAAACTTGGCCAGGCATGGTGGCCCATGCCTGTATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATC
ACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCGGGTGCCTGTA
ATCCCATGTACGTGGGAGGCTGAGGCGGGAGAATTGCTTGAACCCGGAGGCAGAGGTTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGGTGA
CAAAGTGAGATGCCGTCTTAAGAAAAAAARAAGAATTMTCTGTCTTTGTCTCTTTTAGGGGGTGGGGGCTGTAAAGGCACTAGAACCATAAATACTATGT
CTGTGCAGCCCTGTCACCGTATTTAGGCACTTGAGTGGAAGAGCACTGAAACTAGGTGCACTACAGCTTACCCTATGTGACCCTCCTACTCCTGGCCACT
CCATGTCAGTCTCCTTTGATTCCTAATGTTCATTTCCTCAGGATTATGTTTTAGTCCTTTCTTCATTCTACATATTTGTCCAAGTGGCCTCATACTCTTC
CATCTCTTCAGTAACTTCAATTATATGGTAAGGTCTCTCAAATCTATATTTCCAGCCCAGACCTTTCTGACTTTAAACTGATATATCCTAGACCTTTCTG
TCCTTTAAGCTGATATATCCTTTTTTTTCTTCTTTCTAGATATCTCTGAGATGTCTTTTGTTCAGAACAAAACTAATTCATTATCTTTTCCATTCAAACC
TGGTATTTCACCAAAATTCTCCATTTGTTCAAATCTAGCTGTCATTATTAACTTCTCCCTTTCTTTTGCCACCAGACTTCCTGTCAGTCACTAAATCAGA
CAGGTGTACCTTAGACACTTTTTTTATTTCTCATTCCCACTACTGTTGTCTAAATGACCATCATCTCATCTAGACTGCTGGGAGAGGCCTGATATAGTAA
TGTTAAGAACAAGGGCTCGGCAGGGCATGGTGGCTCACGCCTGCAATCCCAGCACTTTGGGAGGTCGAGGTGGGTGGATCACCTGAGGTCAGGAGCTCGA
GACTAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTAGCACATGCCTGAAGTCCCACCTACTTGGGAGGC
TGAGGCAGGAGAAGCACTTGAACCCCAGAGGTGGAGGTTGCAGTGAACCAAGATTGCACCACTGCACTCCAGCCTGGCAATAGAGTGAGACTCCGTCTCC
AAAAAAAAGAACAAGGGCTCGGCAGGGCATGGTGGCTCACGCCCGTAATCCCAGCACTTTGGGAGGCCGAGGTGGCTGGATCACCTGAGATCAGGAGTTT
GAGACCAGCCTGGCCAACCTGGTGAAACCCCGTCTCTACTAAAAATACAAACAATTAGCTCGGTGTAGTGGCGGGTGTCTGTAATCCCAGCTATTTGGGA
GGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGMAGTGAGCCGAGATTGTGCCATTGCACTCCAGCATGGGAGACAAGAACAAGACTCTG
TCTCAAAAAGAAAAAAGAACAAGGGCTCTGGATTAAGACGACCACTTATGAGCTGGGTGAATTTAGGCAAGCTATAACTTGTGTACCTCATTTTTCTACA
TCCGAAAAATGGGGATCATAATTATATATAGATGCTTCTCAACTTAGGGTGGGGTTATATCCTGATAAACCCATCATAAATTGAAAGTACCATAAATTGA
GAGCCAGGCACAGTGGCTCATGCCTGTAAATGTAGCTACATGGGAGGCTGAGGTGGGAGGGATCATATGAGGCCCAGAGTTCGAGACCAGCCTGGGCAAC
ATAATGAAACCCCTGTGTCTTAAAAAAAAAAGTTTTTTTTTAAATTAGCAGTGTGTGGTGGTATGTGCTTGTAGTCCCAGCTACTGGGGAGGTTGAAGTG
GGAGGATTGCTTGAGCTCAGGAGTTCGAGGCTGCAGTGAGCTATGATCACTCCACTGTATTCCAGCCTGGACAAAAGAGTGAAACCCTGTCTCTTAGAAA
AGGAAATAGAAGTTGGAAATAAATTTAATACACCTAACCTACCAAACATGGTAGTTTAGCCTAGCCTACCTTAAAGGTGCTCAGAACACTTAATTTATTA
GCGTACAATAGGGCAAAATCATCTAACATAAGGCCTACAAGTGTTGAATATCTCRTGTAATTCKTTGAATACTGTACTGAAGGTGAAAAACAGAATGTTT
GTATGGGTAAAGTTTCTACTGAATATGTGTTGCTTTTGAACCATTGTAAAGCCAAAAAGCTTAAGCGAAACTACAGTAAGTCCATGACCAGCTCTATTTA
CCTTGAAGTGCTGTTAGGCACATTAAAGAAGACAATTCCTATAGAGTGTTTAGCCAGTGTGTAGCAGAACACTTCATAAATGTTAACTATTACTACATTA
TAGCAGCCTCTGAAATGATCTCCCTGTATCTATTGCCAACTGCTAGTCAAGGCTCAGGTATCTTTTAGAACAGGCGTCCCTGTGGCCTGTTAGGAACTGG
GCCGCACAGCAGGAGGTGAGTGGTGGGCAACTGAGTGAAGTTTTATCTGTATTTGCAGCCACTCCCCATCGCTAACATTACCTCCTGAGCTCCGTCTAAT
TAGCGACAGCATTAGATTCTCATGCGAGTGTGAACCCTGTTATGAACTGCCCATGCGAGGGATCTGTGTTGTGTACTTCTTATGAGAATCTAATGTCTGA
TGATCTGTYACTGCCTCCCATCTCACCCCCGATGGGACTGTCAAACACCTTTTTATAACATTTACCAGTCTTGCAATTATTTGTCTTCACTACTTATCTA
TGAACAGCTGACAGTGGCCCATATTCATCACTATATCCTCAGCTTAACAGGGTGTATGGCTGGCACATAGATAGCCAGTAAACATTTGTTTTATTGAACT
TAACTTCTCTTGGTCTGAATTTCTTCATTTTTGATATGGCAGTAATCCTCACTTCTCAGTGGATCAAATAACAATACATGTCAAAGTATTGTGGAAATTT
TGAGCTATAAAGACAAAGTTTTGGCCGAGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATT
GAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAAAAAAAAAAAAATTAGCCGGGTGTGATGGTGGGTGCCTGTAGGGAG
GCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTGGCAGTGAGCTGAGATCGCGCCACTGCATGCTAGCCTGGGCGACAGAGCGAGACTCCATC
TCAAATAGACAAACAAACAAACAAAAAAACCCCAAAGTTTTAAAACAGCATGAAAGAAATTCAAAATTAGGATTGGACCATTTCAAAACCATTGCTAAAA
TGTAAGCTTCATTAGAGAAAGGACTTTTTCTGCTTTGTGCACTCCTGTATCCCTTAGATTCTAGAACAGGGTCAATCAGTATTTGTGGAAGGGAAGCAGT
ATATCATAAAACTAAAAGAATTGAAAAAGTAGAAAGTAGTCACACTTCTATTTCAGATACCCATTCCTATAGCTATGTTCTTTGTAATTGTTCGTCTCCA
AAATCAAAACCCTATGCATCGCTCTAAGTCTTTCCAGTTTACTTTCATTACACCTGTTCTTCAACAGCATGTCTAGATAAATAGCATGCATCACTTTATT
GTCCATAAATCAGTCTTTGATAATACAGGTTGCTTTTTATCAGGTAGGCCAAAAGAGAAAAATGTAATAACACAGGTTGCATGGTCTATCATGTCAAACA
TTCTTACCCTTATCCTAAATTCCCTTGTACCACTGTGTCTTGGGGCGTGCTCCTGGCATAATTTAAACTTGGATACATCCAACTACCATTTCAGTAGGAG
GGGAGAGCAAAGGATGAGTGTGGATGGAGGTTAGTTTGTATGTCTGGAGGAAGTGATTAGTAGTTTTAGTCTTTTGGCTTCTAAGTACTACTGGAGAAAA
TCACAAATAGTATGTTGCCATTAAAAAGTCATCATTAATCTTAACCAKGCTTTCAATATTCCTCTGCAATCCTGCCATATTTTGCCACACCTTTTATTTC
CGCCTTTCTCTTCTCTACTCCATTTTAACTTCTGTCTGAGCTCCTTCCCTCAGGGGGAATACTTTCCTGCCTTCAAATCCGTGGACCTACTTGATTTAAA
ACTGAAATTGGGAAAGGTGTCCCTTTTCCTTTCCAAAACCACATCCCTTTATAAAGTCKTTCTCTATCTTGAGCATTTACCTGCCTTTCTTCTGGCTTCA
TCCTATTAACATTTAAATATGCTTATCCTTTCTTCTTAGGAGAAAAAAAAAATTGCTTTCCTCTGTGTCGCCTTATATCCATTGCTTTTTCTTTTTGCTC
TATCTCTTGACCCCACCTCAAACGAATTTCTGCCCCACCAAAGACAGTAACCCCTTTTATGTTAAAATTAGTGGAAAGAATGTTAATATAATGCCCTAAC
TTTAAAGAAGAACATAAAGGAAATTTATAAGTACTTCCAGGGCTGTCATCTATGCCGTGCCAATCATGCAGTGCACAATTCCAAGGGCACCACTTTACAT
TACAAATACAGTGCATTACAAATATAGTGGCCCCATGTTTATAAATGCTTAGATAATACTCCACTAGAAAAAGAAACTGATAGTTGCTTGCCACATAGAA
GCACTGTGAATCCAGCAGCCTCATTTGTAGACTGATATAAGTGTCTTATTGGTGACTCAAATATTATGAACAGCTTTGCCGAAGTAGCAAGATTTTCTAA
AATAATAAAGGATGACATTCCTTTGTTTTATGATAGCTACACTTCTGGAAAATTCAGTATGGACAGTCTCCGACTTAGGATTTTTCAACTTTAGGATGGT
GTGAAAGAGACACCCATTCAGTAGAAACTGTACTTCGAGTTTTGCATTTTGATCTTTTCCTGGCCTAGTGATAATGTGGTACAGTACACTCTTGTGATGC
TGGGCAGCGGCAGCGAGCCACAGCTCCCAGTCACCCATGTGATCACGGGAATCAACAACCCATCCTCTACCGTGTACTGTGTTGTCAGCTTTTTTGGATA
TTGTGTTTTGTGTTTTCACATTCCATCATGTCTACAAAATGTCCATCAGTGTCTCCTGTTTCTGGTGAGATGAAGAAGAGGAAGGCAATTACTCTTGAAA
TGAAACTCAAGATAATTGCCCAGCATGAAGGTGGCAAGCCAGTAATGGCCATTGCACGTGAGTTAGGACTTTGGCAATCCACGATTTCAACCATCTTAAG
GGATAAGAAGCAAATCAGTGATGCAGCGAAATCGTCAGCATCAGTTAAATCCACTGTCATCACAAAGAAAAGGGCTGGACCAATTGATGATATGGAAAAA
TTACTTKTTATGTGGATGGAAGACCAGATACAGAAGCGTATACCACTTAGCCTACTGATGATCCAGGCTAAGGCAAGAAGTCTTTTTAATATGCTAAAAG
ACCGTGCCAGTGATCCTACATATACACAAATGTTTAAAGCAAGTCATGGATGGTTCCAGCGCTTCAAAAGGCGTCATAATTTTCACAATGTAAAGATCAC
TGGTGAGGCAGCAYGTGCTGGTAATGAAGGTGCCATAGCTTTTAAGGAACAGCTGCATAGGATAATTATGGCTAAAGATCTTTGCAATAAGGAGCTGATT
GCACTGGAGGAAGAAAGAGGTAAAGGCGTTGAGGCAGTGGAAGAAGTTACACCCACGGCACCTAGAAAGTTCACAGCAAAGAAACTGGCAGAGGCATTTG
CTGCTATCAGCAGTGGCCTACACGTTAGAAGAAATGGACGTCAATTACGAGAGATTCGCCACAGTTGACAGGCGCAGATACAGGATGCTCTTGCTTGCTA
CAGAGAAATATRTAGTGAAAAGAAGAAACAAGCTGTACGGTCAAAACTTGGTATCTTCCTGAAGAACAACACTATGCTTGCTAAACCATCAACTAGTGTT
GATGTCCCAATGCCTTCTACCACCTATTCTCGATGTTCATCAGAAGAGAGAGAAATTGAGGACCCTGTTGCATCCCCATCATCCAGCAATTAATTCTATT
TCAGTGCTTCAAACATTTTTCAGGACCACTGTGCTTTCAGCTGTGTAAATTAATGGTGAGTACCCATACAACCATTGTTTTCCACTTACAGTATTCAATA
AATTACAGGAGATATTCAACACTATTATMAAAGAGCCTCGTGTTAGATGATTTTTGTCCAACTGTAGGCTAATGTAAGTGTTCTGAGCACATTTAAGGTA
GGCTAGGCTAAGTCATGATATTCTGTAGGTGTATTAAATGCATTTTTGGCTTACAGTATTTTCAATTAATTGGGTTAATTGGGATATAACCCCATGGAAA
ATTGAGGAGCACCTGTACATAGTAAAACTATGCAAAAAATATTTTGTGTTCTTAAGTAAAATGATGTTGAGTTCTCATCTCAGTTATTAAGTTTTTCAGC
TGCACTCACGTCCAATGGGACAACTCTTCATTTTGTAAGGTTTTTAGCATCCTTGCTCAGGCTTAGTAAATTTCAGTAGTGCACCTCACTCCAGGCCCAT
TAATGTGACAGTGAGGTTCTTCTGAGGGTAACTGATTTGATACCATCTCCACTGAGAACCACTGCATTGTGAAAACACCGATTAGCACTGTATTCCAGGA
AAGGGTTATTTTTGGTTTCTTTAAATCTTAGGCATCTTGGTAAAACGGAACATCTCCACAAGACTAAGGGAAGACTGAGGAATAGAGTTTTTGAACTTTA
TGCAACTTCGTTTACATCAAGATTCAAAATGACCTAAACTGTTTCATGTGGATGCTTGAATCTTTTCTAGTACACTGGTGGTGGGCAAGAGGGTGTTGGA
AACAGGGTGCAGGCATAAGATCARAGGTGTGTTTTGCCTTTTTTCTGGATGACCATTAAGTGTATAGTCAAAATGTTTCTCTGATAAGCCTATACCTCTG
TAAGTTGTTACTGCCGGATAGTGATAACTGTTTKCCTTTCCTTTAAGATGCCCTCCAAATCCTTGGTTATGGAATATTTGGCTCATCCCAGTACACTCGG
CTTGGCTGTTGGAGTTGCTTGTGGCATGTGCCTGGGCTGGAGCCTTCGAGTATGCTTTGGGATGCTCCCCAAAAGCAAGACGAGCAAGACACACACAGAT
ACTGAAAGTGAAGCAAGCATCTTGGGAGACAGCGGGGAGTACAAGATGATTCTTGTGGTTCGAAATGACTTAAAGATGGGAAAAGGGAAAGTGGCTGCCC
AGTGCTCTCATGCTGCTGTTTCAGCCTACAAGCAGATTCAAAGAAGAAATCCTGAAATGCTCAAACAATGGGAATACTGTGGCCAGCCCAAGGTGGTGGT
CAAAGCTCCTGATKAAGAAACCCTGATTGCATTATTGGCCCATGCAAAAATGCTGGGACTGACTGTAAGTTTAATTCAAGATGCTGGACGTACTCAGATT
GCACCAGGCTCTCAAACTGTCCTAGGGATTGGGCCAGGACCAGCAGACCTAATTGACAAAGTCACTGGTCACCTAAAACTTTACTAGGTGGACTTTGATA
TGACAACAACCCCTCCATCACAAGTGTTTGAAGCCTGTCAGATTCTAACAACAAAAGCTGAATTTCTTCACCCAACTTAAATGTTCTTGAGATGAAAATA
AAACCTATTCCCATGTTCTATGGTTGGCAGTTGTCATCTTGGGCTTAAAAACAGTACTGTTGGTTAAATGGTCTTGGTGGTTCAAGTGAGAGGCTGAAAC
AGATATTTAAGATGAGAGAAACAGGTCATGATACAATTGGATTAAAATGGAGGAAACAGCATTTCCCTATACATGGTTAGGTCCCTTTGTGTTGGTAGCC
CTTCCCCAAGACTATGCTGCTGTCCCCCTGGAGGTCGAGGTTCAAGGGTATTCCCACTAGAGGCAAGCTGCAGTTTGTTCCCCTGCTGTCACTTTTTGGG
TGACTGATACAGCCACCCTCAATGGAGTCCCATGGTTTATAACCTGTTTAAATTTTGTCTCCAGGTTGAGTTTTATAGCATTGATACAACCTACTGTGCA
GTGTTTCATGTTCACCTTCCCTGACCCATACTGGCCAAAGGTTAATCAGCAGTGGTTCTAAATCACAGCCTATTAAAGTTTCTCACTTCCCCCCTTTCTT
GTAACAATGAAGCCACTGAAACTTGAGTAACCTTATGGACCTTAACAGATGGAAATGGGTGGGCCCAAGTAAGAATTTATGGTAACTGTAAAGTGAACGT
AGTTTGTCATCCCTGCTAGTATTTTTTCCTAGAACTAACTTTGACAATTAAGGGTGCCTTTTTTCCCTTTTGATCTTTAGATACACTTGATACAATCCTA
ATAATTACTATGTTATACCAGTTACCCAGAATATGAGGCAGAGGGTCCCAACTCCCCAAGCCACATAGCTTCCTGATAGTCATCTTGTTAGAAACTATTT
AAGCCTTCTTTTAGGAGGATACTGACAGTAATTTCTAAAATCAGTGTATCCCCAAGAACTGTAATGATGCCAGGGAGAATTTTGGTAATAGGCCCATTTT
AAGTGGCTCCACCTCTCTATGGTTAACTGCAATATAAGCAGCGTTATAGCACCATCTCAAGGTCTAAGGTCATTGGTGGAGTATTGTGGGCAGAACACTA
AAGACAGCCTTGAAATTTCTAATATTTGATTCATTTAATACACTTCGCACAGGCATATGACAGCACAGGAGAAAAATTGCAACTGTGAATGATGCCACAA
TAGCAACTATTTCTAAACAGAATGTTTACTGGCTGCAAAAGTGATGCAACAAAATGCAACGTTAAGACTGAGTTGAACTCAGTGCTAAGTGCATGATTCT
GGCTCAGGTAATTTCTGAGGTTTGCCTCAGATAGACTGATGGCTCCAAATTCAAAGGTAGTGGCATTCCCAACAGGATGGCATGGGGTGGCTAAGTAACT
GTCATGGCATATCTACTAAAAGGAATACTATGAAAATTCTGGTAATTGTGGATATATGCTTGTTTTCTAGTTCATCTGTACTTGGTATTTTATAGAACTC
ATAATCTTATAGTTTTCAAAGTATACTCTGCAGAACCCACAGGGTCTCCACAGAGTCAATGTTTTCATAATACTATTATTTTTTTTTTTCTCTGTGTTGA
TATTTGCACTGAGGGTGCAAAAGCAGTGGTGGGGAAAACTGATGGCACCTCCCACAAATCAAAGCAGGGGCACCATTGTATTCTTCACTGACCTGCACTC
ACATTAAACACTTTCACTTAATGTCCTGGATGAAACTAAATAGGTTTTTTTGTTTTTTGAGACAAGAGTCTCATTCTGTCACCCAGGATGGAGTGCAGTG
ACGTGATCTTGGCTCACTACAACCTTTGCCTCACAGGTTCAAGTGATTCTCATGCCTCAGCCTCCTGCCTCCTGAGTAGCAGCTAGGATCTTATAGGCAT
CCACCATCACACCTGGCTGATTTTTTATTTTTAGTAGAGATGGAGTCACCATGTTGGTCAGGCTTGTCTCGAACTCCTGGCCTCAAGCAATCCGCCTGCC
TCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCTGGTGGGACAGGGATTTTAAGTTTTAAAAAACTCTTCTGTGGAGCTTATGTTAGG
TAATTTGCCTAAGAGAGTTGTAAAGCAGTGCAAGACTAACTAGGCAAGGGGGTATGTGTAGCTATTGAGGATTAAGGGATAGTGAAATGAACTTTAGGAA
CATTCTCAGCCATAAGCAAGAGCTGGATTCACACAACCAATTTTTGAAAAAAATCAAGATACCCATAATTTGGGCACCTTTATAATTCATGATGAGAAAG
AGCATGTTAACTACATGTTTAAATATATTTTATTTCAAGTTAATATAACAGCCATGATTTGTTCATTTAAGTGAAATGCTTCGATAAAAACCTCGGTGTC
ACTTGGTTAAAATATTGGAGACAGATTAAATGTTAAGCCACTATAGTAGTGACTCTGGTTCTTTAGACTATTGCATGTACCTTGTTAATGAACTACAGGA
ATGCACATTGATATAATGCACAATGTCTTCACATGTCTCAATCCTCATTCCTCTTCCTTTCATGCCTCCCTAATGCCTCAGTATCCAATATAAAACTACA
AAAACTACTGTTCTTTTCGTTTGAGTGGTATTTAATTAAAACTTCAATTCTATGTTATTTCCACAGTCCAGTAATTTATTTTAAATTTGAGTAATTTCAA
ATTCCACAAACAAAACTGAAGAACAGCAATATTTTGTTTGAATTTCTCTCTTCTGTACACTCAGTGATCTAAAACACCACAATATCCAACATACACAAAC
CTCAGGGAAGGGTTAGTAAACACACACAAGATTGGAATCATGGTGCTCTTTGCTCCTGAATGGAATGGTCCCACAGAAAAAGCACAGGATACAGCACAAC
ATAAGGGCACCTGTTACATATGAAGTGAGCAAAACATACTAGCATTTTCTATATGCATAATGGGGAAACCTGCATAGGTTAGAGGGCCTTTTACGCTCAT
TTAAAAATCAGGCAAGTTGTCTGTAACATTTTTCAATAATCTGGGAAGCACTGCAATCCAGTGTACGATGTGCTGATTAGTGTTGTCTTTGTTGGCACTG
ACAGTCTTGCATGGTCATATGCCAGTGTTTTTGCTTTAGCTTTTCTTTGAATAAAACAGATTTAAATGCATTTAGACAATACGTATTTGTAAGCTGTTTA
CATACACTAAATTTAAGAGATTCAATATTAGAGTTTCTTTGTTTCTTTAAACACTACAGAGTGCAAATCAGGTTCTTCACAACAGATTGAATATTGAGCA
GTTCTTTAAAGAAAGAGGGGGAAGAAAAAAAGCCCAAGTGAATAAAACATTGAAACTATTCCCCTTCGAAAATAAATTCTAAAATGATGTGGAATGTGAA
ATAAGGTTTTAACATAGGTGATCCAAGTTTATAGTTAGAAACAAAAAGAAGTCCTTCATGAAATAAAGGTTACAAGAACACGTTGCCTGTTTTCCCCCAT
TATAAACTGAGAAGTGGGTAAAGACGATGTTTCAGTACGAAAATAGGTGACTACAGGATCAGCGCTTCATCTCACATGCTGTACCCAAAGCCAGGCTGTG
GCTGTCCATACGGTGGTGCGGTATAACCATAACCAAAAGGTGCCTGGGGAGGGACGGCAACACTGGGTCCTGCTGTCAGCATCAACTGGGGCTGACCTAC
AGTAGAAGAAAACAAAAAGGAGCAGGGGGCAGGGGCAAGGAGGCAGGACAAACTGTTAGCATTTAGAACACTCCAATCTCCTCCACTCTAGCAACATAAT
CTCAACCTCAAATGAGTTGTATGGGGGGCACATTTGATTGCTACAATTTTAGCATGACAGTCTTACTCTAAGAAGGTTCCTACCTAAAAAGCCAACAAAC
AGTGCAGGGCCAAAGGCCAGAACTGCTTATGACTGAACACCGTATGCCTGACACTCTGTATACTTGACACATACCTACATGCATATTACACTTCATGACA
CAATAAAATCAGCACAATAAAAGAATTTTTTAAAAGACTTTTTAAAAAAAAAAAAAAAAAAAAGAATCTGGCTCTGTTGCCTAGGCTGGAGTGCAGTTGT
GTAATCTCGGCTCACTGAAACCTCTGCCTCCTGGGTTCAAGTGATTCTCGTGCCTCAGCCTCCCGAGTAGCTGGGATTATGGGTGTGCGCCACCATGTCC
AGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCACGTTGGCCAGGCTGGTATTGAACTCCTGGCCACAAGTGATCAGCCCATCTTGCCCTCCCA
AAGTGCTGGGATTATAGGTGTGAGCCACCATGCTTGGTCTAAATGACATGTTTTTAACATAACTTTTAGAGTTACATTTAAATTTCTGATTTAAACATGT
CTAAATGGCAATGAAACCAAATTCATTTATAGAAGATCCAGTACTAATTTAGAGACAGCAGTTAAATTAAAAATAAGACACATTTGGGCCGGGCGCGGTG
GCTCACGCCTGTAATCCCAGCACCGTGGGAGGCCGAGGAGGGTGGATCATTAGGTCAGGAGTTGGACACCAGCGTGGCCGATATGGTGAAACCCCGTCTC
TACTAAAAATACAAAAAAAATTAGCCGGGCGTGGTGGTGCATGCTTATAATCCCAGCTACTCAGCAGGTTGAGGCAGGAGAATCACTTGAACCCAGGAGG
CAAAGGTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGACGAGACCCCATCTTGGGGGAAAAAAAAAGACATATTCAGACATTCT
TTAGGTATGAAATACATTAGAACATACACCCTCTATCAAATACTATGTTGACACTCTTTCTTATAAAGTTTAAATAGTTGTTGGCCATATACAGAAAACA
TGACCTGTAGAGAACTTGGCTTAGAGAGCGAAAACAAGTAACACCTCTCTCTACCCCTACAAAAGTATTTTTAACATCCCACTACAGTGTAAACCTAGAT
CAAGATTTCTCCTACACAAAGGACTTCATGTCTTTGCTTTTTGTGGTTAACAACCAAAGCTGTCTTCAGCAAACAAATTATTATTGGAAACCAGTTTATT
ATTATTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGGAATGCAGTGGTGCAATTTTGGCTCACTGCAGCCTTTGCCTCCCAGGTTCAAGCAATTCTCC
TGCCTCAGCCTCCCAAGTAGCTGGGACTACAGTTGCATGCCACCATGCCCAGCCAATTTTTGTACTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAG
GATGGTCTTGATCTCCTGACCTCATGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCAACAGAAACCAGT
TTTTAAAAAGTCATCCCTAATCTTGATAATGACATCTACTTGAAATTCCAACCCAATTTTCAACTACCCATGAAAACACCCTGAAGGCAAGCCAAATTCA
GTAGGTAACCCCAAAGTATTACACCCATCTTTTTTTTGTTCCTACTGTGTTTCCTATGTCTTTTTCACCTTTAAGGACTTGATGTGTTTCCTATCTCAAA
CATGTCAAACATCTTGCTCCCATCTCTAAGAACCCACTTTATCAAAACTATCCTGTCCTCTAAATTCCTAAAGTACTTTTTATCTACAGTAAAAAGGAGA
CAAAACCATAATAAGTGTATATATTATTATTTGTGTCAGTAGCCTGATATATAATGGTTATATATATATATATGTATATATATATATATATTTTTTTTTT
AAGGCGGAGTCTTGCTCTGTCACCCAGGCTGGACTGCAGTGGCACGACCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCA
GCCTCCCAAGTAGCTGGGACTACAGGCATGTGCCACCACGCCCGGCTAATCTTTTGCATTTTTAGTAGACACGGCGATTCACTGTGTTAGCCAGGATGGT
CTCAAGCTCCTGACCTTGTGATCCGCCCGCCTCAGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCAGCCATAATGGTCATATTTTTAT
GTTCCCTCACCTGGTTATTGTGCTTCTACCTATACTCTTCAAAGTGATTGTTCAAATGAATCTGTTCACCAA


SNP Information

Context             (SEQ ID NO:55863):
GAAGCAAATCAGTGATGCAGCGAAATCGTCAGCATCAGTTAAATCCACTGTCATCACAAAGAAAAGGGCTGGACCAATTGATGATATGGAAAAATTACTT
K
TTATGTGGATGGAAGACCAGATACAGAAGCGTATACCACTTAGCCTACTGATGATCCAGGCTAAGGCAAGAAGTCTTTTTAATATGCTAAAAGACCGTGC
Celera SNP ID:            hCV26023492
SNP Position Genomic:     14007
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55864):
GACTTGAACTCGGGAGGCGGAGGTTGCAGTGAGCCGATATCGCTCCATTGCTCTCCAGCCTGGGCGACAGAGTGAGACTTCGTCTCAGAAAAAAAAAAAA
A
GAAAGAAAAAATTTCCCCCCTTTTTCACACAAAGAGATTAACTAGAGAGGTATTAATCCTTACTGACATACCCCAGGCACCATACTAGACTCTGGGAATA
Celera SNP ID:            hCV26023493
SNP Position Genomic:     6950
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55865):
TTGCCTTTTTTCTGGATGACCATTAAGTGTATAGTCAAAATGTTTCTCTGATAAGCCTATACCTCTGTAAGTTGTTACTGCCGGATAGTGATAACTGTTT
K
CCTTTCCTTTAAGATGCCCTCCAAATCCTTGGTTATGGAATATTTGGCTCATCCCAGTACACTCGGCTTGGCTGTTGGAGTTGCTTGTGGCATGTGCCTG
Celera SNP ID:            hCV25926599
SNP Position Genomic:     15634
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:55866):
TGCTGTTTCAGCCTACAAGCAGATTCAAAGAAGAAATCCTGAAATGCTCAAACAATGGGAATACTGTGGCCAGCCCAAGGTGGTGGTCAAAGCTCCTGAT
K
AAGAAACCCTGATTGCATTATTGGCCCATGCAAAAATGCTGGGACTGACTGTAAGTTTAATTCAAGATGCTGGACGTACTCAGATTGCACCAGGCTCTCA
Celera SNP ID:            hCV11420854
SNP Position Genomic:     16014
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:55867):
GCATTAGATTCTCATGCGAGTGTGAACCCTGTTATGAACTGCCCATGCGAGGGATCTGTGTTGTGTACTTCTTATGAGAATCTAATGTCTGATGATCTGT
Y
ACTGCCTCCCATCTCACCCCCGATGGGACTGTCAAACACCTTTTTATAACATTTACCAGTCTTGCAATTATTTGTCTTCACTACTTATCTATGAACAGCT
Celera SNP ID:            hCV28954503
SNP Position Genomic:     11309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55868):
GCCTACCTTAAAGGTGCTCAGAACACTTAATTTATTAGCGTACAATAGGGCAAAATCATCTAACATAAGGCCTACAAGTGTTGAATATCTCATGTAATTC
K
TTGAATACTGTACTGAAGGTGAAAAACAGAATGTTTGTATGGGTAAAGTTTCTACTGAATATGTGTTGCTTTTGAACCATTGTAAAGCCAAAAAGCTTAA
Celera SNP ID:            hCV28954504
SNP Position Genomic:     10764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55869):
CTGTGCTTTCAGCTGTGTAAATTAATGGTGAGTACCCATACAACCATTGTTTTCCACTTACAGTATTCAATAAATTACAGGAGATATTCAACACTATTAT
M
AAAGAGCCTCGTGTTAGATGATTTTTGTCCAACTGTAGGCTAATGTAAGTGTTCTGAGCACATTTAAGGTAGGCTAGGCTAAGTCATGATATTCTGTAGG
Celera SNP ID:            hCV25988025
SNP Position Genomic:     14829
SNP Source:               Applera
Population(Allele,Count): african american(A,36|C,2)   caucasian(A,40)   total(A,76|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:55870):
GAGCCCTCTGTTCCTGTTCTGCGAACCGTCCTTTGGAGGAAAGGAACAGGCTGCTGGGGAGGGGAAGACTCAGAATTTCTAGTTCCCAGCAAAGCCTCCA
K
GCAGGCAGTATCGATGCGCTCTCTCCGAAATTGATAAAATAGCGAGCAGGCCTCATACCCTCAGCTGGGCACTTATGAATATCCCCAGCGTTTCGAGCTG
Celera SNP ID:            hCV27475786
SNP Position Genomic:     6502
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,16|T,1483)   total(G,16|T,1483) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55871):
TTTAGCCTAGCCTACCTTAAAGGTGCTCAGAACACTTAATTTATTAGCGTACAATAGGGCAAAATCATCTAACATAAGGCCTACAAGTGTTGAATATCTC
R
TGTAATTCGTTGAATACTGTACTGAAGGTGAAAAACAGAATGTTTGTATGGGTAAAGTTTCTACTGAATATGTGTTGCTTTTGAACCATTGTAAAGCCAA
Celera SNP ID:            hCV28954505
SNP Position Genomic:     10755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55872):
TCATTTTCTCCTTTATAAACTGTCTTCCGCCCAGGGGCCGCTGAGCCCTCTGTTCCTGTTCTGCGAACCGTCCTTTGGAGGAAAGGAACAGGCTGCTGGG
K
AGGGGAAGACTCAGAATTTCTAGTTCCCAGCAAAGCCTCCAGGCAGGCAGTATCGATGCGCTCTCTCCGAAATTGATAAAATAGCGAGCAGGCCTCATAC
Celera SNP ID:            hCV27475787
SNP Position Genomic:     6460
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,183|G,1314)   total(G,1314|T,183) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55873):
TCAAAATGACCTAAACTGTTTCATGTGGATGCTTGAATCTTTTCTAGTACACTGGTGGTGGGCAAGAGGGTGTTGGAAACAGGGTGCAGGCATAAGATCA
R
AGGTGTGTTTTGCCTTTTTTCTGGATGACCATTAAGTGTATAGTCAAAATGTTTCTCTGATAAGCCTATACCTCTGTAAGTTGTTACTGCCGGATAGTGA
Celera SNP ID:            hCV25927231
SNP Position Genomic:     15524
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55874):
AGAATTGCTTGAACCCGGAGGCAGAGGTTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGGTGACAAAGTGAGATGCCGTCTTAAGAAAAAAA
R
AAGAATTCTCTGTCTTTGTCTCTTTTAGGGGGTGGGGGCTGTAAAGGCACTAGAACCATAAATACTATGTCTGTGCAGCCCTGTCACCGTATTTAGGCAC
Celera SNP ID:            hCV1550770
SNP Position Genomic:     8830
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55875):
TTGAACCCGGAGGCAGAGGTTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGGTGACAAAGTGAGATGCCGTCTTAAGAAAAAAAAAAGAATT
M
TCTGTCTTTGTCTCTTTTAGGGGGTGGGGGCTGTAAAGGCACTAGAACCATAAATACTATGTCTGTGCAGCCCTGTCACCGTATTTAGGCACTTGAGTGG
Celera SNP ID:            hCV1550771
SNP Position Genomic:     8838
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,5)   total(A,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55876):
AATACAAACAATTAGCTCGGTGTAGTGGCGGGTGTCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTG
M
AGTGAGCCGAGATTGTGCCATTGCACTCCAGCATGGGAGACAAGAACAAGACTCTGTCTCAAAAAGAAAAAAGAACAAGGGCTCTGGATTAAGACGACCA
Celera SNP ID:            hCV1550772
SNP Position Genomic:     10044
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55877):
AGGAAGTGATTAGTAGTTTTAGTCTTTTGGCTTCTAAGTACTACTGGAGAAAATCACAAATAGTATGTTGCCATTAAAAAGTCATCATTAATCTTAACCA
K
GCTTTCAATATTCCTCTGCAATCCTGCCATATTTTGCCACACCTTTTATTTCCGCCTTTCTCTTCTCTACTCCATTTTAACTTCTGTCTGAGCTCCTTCC
Celera SNP ID:            hCV1550773
SNP Position Genomic:     12648
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55878):
TCCTACATATACACAAATGTTTAAAGCAAGTCATGGATGGTTCCAGCGCTTCAAAAGGCGTCATAATTTTCACAATGTAAAGATCACTGGTGAGGCAGCA
Y
GTGCTGGTAATGAAGGTGCCATAGCTTTTAAGGAACAGCTGCATAGGATAATTATGGCTAAAGATCTTTGCAATAAGGAGCTGATTGCACTGGAGGAAGA
Celera SNP ID:            hCV25925535
SNP Position Genomic:     14214
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,40)   total(C,73|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:55879):
ATACTTTCCTGCCTTCAAATCCGTGGACCTACTTGATTTAAAACTGAAATTGGGAAAGGTGTCCCTTTTCCTTTCCAAAACCACATCCCTTTATAAAGTC
K
TTCTCTATCTTGAGCATTTACCTGCCTTTCTTCTGGCTTCATCCTATTAACATTTAAATATGCTTATCCTTTCTTCTTAGGAGAAAAAAAAAATTGCTTT
Celera SNP ID:            hCV1550774
SNP Position Genomic:     12859
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,3)      total(G,3|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55880):
AAGAAAAAATTTCCCCCCTTTTTCACACAAAGAGATTAACTAGAGAGGTATTAATCCTTACTGACATACCCCAGGCACCATACTAGACTCTGGGAATATG
Y
TATACAGGGAAAGTGGGGCAGTGGCTTAAGGGTCAGAGAAGATTTGGGAAAGGTTTGTTTGTTTTTTTCGGTTGTAAACTGCAGACCCGGCGCGGTGGCT
Celera SNP ID:            hCV1550768
SNP Position Genomic:     7053
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55881):
TTGAGGCCAGGAGTTCCAGACCAGCCTGGGCAACATAGCAAGACCAAGTCCATACAAAAATAAAAAATTTTTAAAAAATCAGGAGGGTGTGGTGGCATGC
R
CCTGTAGTCCCATCTACTTGGAAGGCTGAGGTAGGAGAATTGCTTAAGCCCAGGAGTTTGAGGCTGTAGCGAGCTATGATCATGCCACTGAACTCTAGCC
Celera SNP ID:            hCV1550769
SNP Position Genomic:     8062
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55882):
AGTGGCCTACACGTTAGAAGAAATGGACGTCAATTACGAGAGATTCGCCACAGTTGACAGGCGCAGATACAGGATGCTCTTGCTTGCTACAGAGAAATAT
R
TAGTGAAAAGAAGAAACAAGCTGTACGGTCAAAACTTGGTATCTTCCTGAAGAACAACACTATGCTTGCTAAACCATCAACTAGTGTTGATGTCCCAATG
Celera SNP ID:            hCV28030076
SNP Position Genomic:     14512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 303
Celera Gene:                 hCG1775213 - 92000042679923
Gene Symbol:                 PRO0456
Protein Name:                PRO0456 protein
Celera Genomic Axis:         GA_x5YUV32W3KM(3153990..3167890)
Chromosome:                  Chr17
OMIM number:                 118955
OMIM Information:            CLATHRIN, HEAVY POLYPEPTIDE;CLTC


Genomic Sequence (SEQ ID NO:12463):
TGGTGATGAACAATGACTAGCAGCAGACTTCTTGAGACCTTATTATGTGCTGTAAATTTGGCTAGGTACTTTCAGATCTTCACTCAATCCCCCCAGACAC
CTTTCTAAAAAGTGAGACTCATAAAGTAGTGGGAATGCTGTCCGAATGGGATGTGTACCTGAGTCTTCTGACACAAAATATTTCAAAGAAATTGGATAAT
TGACCTTAAAAAAAGAAGTTATACAGTATCCTAGAGTGCTTTTTGTCTGTTGGACTTAGGCCCAGAGAGGTGAGTTCTCTCTACTTGTTTATAGATTAAC
AATGTGGTATAGTAGACAGAACAGGGAGGGCTTTAGGGGTTGTTGAAACAAATGCTGTCCAATAGAAAAATAATATGAGCCACATACTTTTTTTTTTTTT
TTTTGTTTTTTGAGACAGAGTCTCACTCTGTCCTCTGTCACCTAGACTAGTGTGCAGTGGTGCGATCTCGGCTCACAGCAACCTCCACCTGCCAGGTTCA
AGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTTTAGGTGTCTGCCACCATGCCTGGCTAATTTTTCCATTTTTAGTAGAGATGGGGTTTTACC
ATGTTGGCCAGGCTGGTCTTCAACTCCTGACTTCAAATGATCTGCCCACCTCGACCTCCCAAAGTGCTGGGATTATAGGCATGAGCTGCTGCTCCTGGCC
TCATATAAATAATTTTTTAAGTTTTCTAGCAGCCATATTAAAAGTGAAAAAACATAAAATTAATTAATTTTGGGTTTTTTTGGTAGAGACAGAGTCTTGC
TATATTGCTCAGGCTGGTCTCAAATTATTGGGCTCAAGTGATCTGCTCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCACCATGCCATGC
CCAGATAAAATTAAATTTAATATATTTTATTTAACTTGGGATATGCAAAATATTATTTCAATATGTAATCAGTATAAAATTTACTAATGAGATACCTTAC
ATTCTTTTTCATACTAAATTTTCTAAATCTAGTGTGTGTGGTTTTTTTTTCTTTTTTTTTGAGACAAAGTCTCACTCTGTCGCCAGGCTGGAGTGCAATG
GTGGATCTCGGCTCATTGCAACCTCCGCCTTCCAGGTTCAAGTGATTCTTCTGCCTCTGCCTCCCGAGTCGCTGGGACTACAGGCGCGTGCTACCACGCC
CAGCTATTTTTTTTTTATTTTTATTTTTTGGTATTTTTAGTAAAGATGGGGTTTCACCATGTTGGTCAGGATGGTCTCAATCTCTTGACCTCGTGAAATG
CCTGCCTCGGCCTCCCAAAGTGTTAGGATTACAGGTGTGAGCCACCGTGCCCGGCTATGTATATTTTGTACTTAGAGCATATATCAATTCAGACCCTATT
TTCTTTGGAAATCCTGGTCCGTATTTAGAGTTCATAAAATTTACAGTTAGAAAGGCAGATTTGGGGCTGGGGGTAGTGGCTCATGCCTGTAAACTCAGCA
CTTTGTGAGCCAAGGTAGGAGCATTGTTTGAGCCCAGGAATTCAAGACCAGCCTGGGTAACAGAGTTAAGACCTCGTCTCTATATTAAACAAACAAAAAT
GAAGAAAAAGGAAAGCAGATATGCAATACTTCAGTGATCCCAAACATACTTAAGTTTTCCAGTAATTGAATCACTTACTGGTTATTATTTAATTTTAATT
ACTTTAAAATTACGGTAACCACATTTCAAGTGCTCATTATGGTATGTAGGTTGTGACTTGTGGTTACCATATTGGACAACACAGGTTAAGTCTAACCTCT
TGCTTTTTTTTCTCTGGGAAATGGGCATACTTATCTCACAAAGTTATTATGAGGATCTGAGATCATGTATGTGAAAGTACTTTACGTAGCATTTTAGGAG
CATTAATTATTGGCTAAATAATTTTTGTCCAGTACATTTTATTCAGGTATCTCAACCAATGACACAATATTCATTTACAGATCCAGTGTTTTATGGTGTA
TAAGTATTTGGGGTTAACACATTTACCTAAGATTTGAGTACTTACTGCAGATGAGGAACTGTGTTAGACTCTAGGGACAAGGTGGTAAACAAGATGGACT
ACACCTTGCATTCATGCTTCCATTGATGAGTTGGCAAAGGCTGTACACTTGTTATTCCAACCATTGATGTTGTCTACTTGATTGTGGATCTTTTATGTGT
TCGAACATTTGATATTGTGCACAGTTTAATACAAATATTGATATGATACAAAGTTGATTACACTCTGAAACTGCCCCCCAAAAAGAAACTTTTAAATAAA
TCTTTTATTATGTTCCACGAGTCTCATTGTGTGCCACTGGTACATTTTAAATTAGGGTTCCTTGAACAGACATATTTGAAAAAAAAACTTAATGAATCAT
ATCGGATAAAATACCCATATGGAATGCCGGTCAGGCGATTGTTAGAGTTATTGTATGTGTTGTATGTGTCCTTTTTTAGGGTGGTAGTGTTGAAGTGAAT
CTTCTCACTTAGATGAGCAGTAGGTTCATGGCTGATATTTTAGTCCTGTATATTAGAATGAGGCTGTTTCTCTAAGTTCATGCACTATATGCCATGCCAA
AACTACTTCATGAAATAAACCTGTCTTCTGAGCCACAGCAAAGTTTACAGCTCTGGGTGTCTTGTCTTTGCTTCTTGGTTAAGTGCCTATGGCTAATGCT
CTTAACTCAAAAGATGGCTGAAAGCTTGGACCTAAATGTGTTATGCAAAACCCATCTGTCAGACTTTTGTGAGTCTCTTCTTTTGTATTATCTCCTTAAA
TTAAGACATAATTTAAGATATTTTTGTCCTACTTTTTTTGGGGGGTGGGGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCAAGG
CTCACTGCAGCCTTGACCTCCCTGGGCTTAGGTAATCCTCCCACCTCTGCTCCCTAAATAGCTGGGACTACAGGCGTGCGCCACCAAACCCGGCTAATTT
TTGTATTTTTTTTGTAGAGTCGGGGTTTTGCCATGTTTCCCAGGATGGTCTCAAAATCCCGGGCTCAAGCAGTCCACCTGCCACAGCCTCCCAAAGTGCT
GAAATTACAAGTGTGAGACACCAAGCCTTGTCCTATTTTTGAGGCAGTAACTATTCAAATCTTAATTGTCCTGTAATCTAATCCATAAAATCAAAATACA
TGGGCCATTATAGTTGTTTGAGCACCTATTACGTGCCAAGAACTGTATTAAATATTTAATGTTTATTATCTCATTTAATTAGCAAGAGAACCCTTGTGCT
TAGGTCAGATTAGCCTTATTGTAGAGATTGGGCAACTGAAGTTCATAGTAGGTAACTTTTAGAGTCACACAGCTAGTGAGCAGTTAGACTTTTAATATTT
ATTCTTTCATTTGGCTCATTGCCTCATTTGGTAAATGGTCTGTATCATTTGAATTGCAAAATGTACCACAATTGTTTATATCTATGCTGTGATGTTCTTT
GATTCTAGTAGTACTGTCGTTTGTTTATCGTGAAATATTTTTTATATTATGAGAAAAGTAGGAGACAGCAAACTAACATCTGACTTTATGCCTTGAATGA
TTATTTAGCTGTATCTTTTTTAAGGACTTTATCCTGTTTCCTATTGGAAAATTGTGCAGGATGATTGGGATCCGGTTAACTTGTAACCAGGATTGTCTGC
ATCCCTCTCATAAGACTGAACTTGTCACACTTTTCTATAGACTTTTTCTTACTGAAAAGAATGAGTGTGTTCCAGTCTGAAGCCACTTGTGAAAGGAGGA
AACTTCTGCTTTCTATTTTACTGTAAATTCATGTTTTTGTGTTTATGCCAAGAAATAGAAGCTTGAACTCAACGAAGGCAGTTGTGCATGAAAGGGATAG
GAAATGAAGGTGACAATGGAATATATTTGCTCATTTTGAGTAGCATCATGGTAGAAAGGAAAATGGTTACAGACTTGTAGGGTTGTGCTTTGGAGGCAGA
CTGCCAGTACTGTTAATACTTCTTGTTCCTAATCCTTAGGTAAATAAGGATTTTCTTCAAGTTCTGAAGTAAGACGGTTTTAAAGATTATTGCTGAAAGA
ATAGGAACCAGATCCATTAAAGCCATATTTTGTCACATTAAAAAACTCTGCAGTGTGCTATTCTGGAAAATGTCTCAGATGTTTAATCTGGGCTTATCTA
TTGATTATGTCAGGTTTTCAACTTGTCTCAACTTCCTCATTTATTAAAACAATATTTCCTGGCAATTTTAAAGTTAGACTACAGTATGTTTTTGTATTTG
TAGTATAATATTTAGCCCCTTAACCCCTTACAGGCACTCGAATATTAGTTCTTCCCCTCCACCCTGGAAGAGTTTCCCTTTGTCCACTTGAGTTGAATAT
ATGTGCCGTACTAAAGGAGAAAAACTACCATCTACCCAGTTATTGAAGCCAAGATCTTGAAGTTACACCAGACTCTCTAATTTCTCATTTTCTGCATCCG
TCGATTTCTGGAGTTCCTCAGTGATGCACACTGGGGGTCTCAGGGATGACAGTTTTTCATGACCCTAGGTTGAAACTGGGAGTCATAGAAGACGAAAAAA
CGAGAATTGGATTGGGAGTTGACTCTGTTGCCCAGGCTGGAGTACGGTGGTGCAATCTTGGTTCACTGCAACTTCCGCCTCCCAGGTTCAAGCAATTCTC
CTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGGGCCCGCCACCAGGCCTGGCGAATTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGG
CCAGGCTGGTCTCAAACTCCTGACCTCAAATAATCTACCCTCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATCGTGCCTGGCCAACTTGC
ATTTATTTCTGATTAGCTGCTCATCTGAGAAAGGTGGCTTAAAAAAAACCACCAAAGTGGACAGACTGAAGCTAAAGACTGTCAGTATATATGCTCTGCT
TGGCAAACAGCTGACTTTGGATAGATCTCATTATTTAAAGATGAATAATAAGGGGGAAAAACGTGTAGAGAGAACATGGTTTACAAAAACCCATCTCTTT
CTCCAGTCTCTGCAATATTCTATATTTGGTCATATTGAACTATGAAAATCTAAGGCAGGTTTCTTTATTTTACCACAGATATCCTCAGGAAAGAGTCTCC
TTATTAAAAGCCTTACTGAATCTCCATAGTATTGTGTCCTCTCACAGTTGCTTCTGTTCTGAGCACCAGAATGCTGTTTGGCAAAGGCTGCTGTAGGCTT
GAAATCAACTGGATTAGTGAGAGACAAATTTTACACATCTAAAATTCTCCTGTGTATGGCCTCACAGTTGGAACTGTTGGATGTTATAAGCAGATGATTT
AAATATCCCGTGAAAAGCAGTCCATTCGGGCATGTTTCTAGAGATCATAATTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCT
GGAGTACAGTGGCATGATCTTGGCTCACTGCAACTTCTGCCTCCCGGGTTCAAGCGGTTCTTCTGCCTAAGCCTCCCAAGTAGCTGGGATTACAGGTGCC
CGCCACCATGCCTGGCTGATTTTTGTAATTTTAGTACAGATGGGATTTCACCATGTTGTCCAGGTTGGTGTTGAACTCCTGACCTTGTGATCCGCCTGCT
TTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCAGCCTAGAGATCATAATTTACATAGAAAGATAAGAGAAAAACAACTCTCCTGAT
AACGCAAATAGATTTGATGTTACAAAACTGCACCATTATGATTGCTCTGTAATGGATTTTTGAAAAGCATTGTGAAATGGAGATGACTTTCCAGTGCTGA
TGTCAAAAATGCATATGCAGAGTTTAAATATAATTTTGTGTGTTTTGTTTTTTGAGACAGGGTCTTGCTCTGTCTCAAGTGGAGTACAGTGGCGAGATCA
TGGCTTACCACAGCCTCAACTTCTCAGGCTCCAGCCATCCTCTCACCTCAGCCTCCCAAGTAGCTAGGACTACAGGCGTGTGCCACCACACCCAGCCAAT
TTTTGTATTTTTTTGTAGAAATGGGCTTTGGCCATGTTGCCCAGGCTGGCCTCGAACTCCTGAGCCCAAGCAATCTGCCTGCCTCGGCCTCCCAAAGTGC
TGGGATTACAGGCAGGAGCCACTGTGCCTGGCCTAATTTTATAATTTTAAATGTCTGTAAAGTAAGCAAAATGACTAGTTGAATTGTACATTAAATATAT
CTAATCCCTAAGAGTTTATAATGRAAAGGGATCAAAACTTTTTCAATTGCGATAAAACTCACATAACAAAATTAACCATTTTAAAGTGAACAATTTAGTG
GTATTTAGTGCATTCACAGTGTCGTGCAGCCAACACCTGTATCTAGTTCCAAGACATTTTCATCTCCCCAAAAGGAGACCCCATACACGTGAAGCAGTCC
CTCTCCCATCCCCCTCCTCCCATCCGCTAGCAACTGCTAATTTGCTTTTTGTCTCTATGGATTTACCTGTTCTGGATATTTCACATAAATGGAATTATAC
AATAAAGGACCGTTTGTTTCTAACTTCTTTCACTAAGCATCCATGTTATAGCATATATCAGACTTCATTCCTTTATGACTGAATAATACTTTGCTGAATG
GATATATCAGTGTTTTATTTGTCCTTTCATCAGTTGGTGGACATTTGGGTTCTTTCTACCTTTTGGCTATTGTGACTAGTGGTGTTGCAAACATTCATGT
ACAAGTTTTTGTTTGAATGCCTGTTGTCAGTTCTTCTAGATATATACTTAGAAGTGGAATTGCTGGGTCATATGGTAATTTCTCTGTTTCAACTTTTTGA
GAGACCACGAAACCGTTTTCCACAGTGGTGGCACCATTTGACATGCCCACTAGAAATATATGAGAGTTCCATTTTCTTCACATCTTCTGACAGCTTTTTG
GGGTGTTGGGATGATTCGTCTAATTGGGAAAATAAGTACCTTATTTGGGCCTATATGGTATTTTTAATTCTGTGTGTCTGCTCCCAAACTCTGTAGCCCT
GCCCTCCCTTATATTGTGTATCCTGTTTCAGATTGTTTCCGTTTCTTCTGAGACACTGCATATACCCCTACATGTATCTGTGCTAGGCATACATCCCTGT
AACTTCATGGCATTTTTGTAATTGCTGTGTACCTGTTACGTATACTGAGTGGGAGTGTCTCATTTGCTGTAGAACTCTCTGCATTAGTGTAGTGTCTGGC
ACACAGTAGCTGCTCAGGCATTTTTTAAGTATATGATTATTGGGAAAACTACAGAGCTAGGGAGAGATCTGAAGAAATACTAGAAATTTTTTTCTGCAAA
GAAAACTTTAGAAAATTGTTGACATCATCTGTGGCATGCAGCAAAAGTTGATGTAAAAGGAACAGAAAGACCTATGGAGATAATGGGATGTAATAACAGA
AAACATACAKAAACAATTGGTTCTGAAATCAGTTAAGAGCAGAACTGGAATTCATACTCTGTGGAATGAATCAGCAATGTGGAAGGAGTAACAAGATTTT
TTAAAAAGATTTTGAATTTAGGCTGGGTGCAGTGGCTCACGCCTGTAACCCCATCACTTTGGGAGGCCAGAATAGGTGGATTGCTTCAACCCAGGCATTC
GAGACTAGCCTGGACAGCATGGCAAAACCCTATCTCTACAAAAAATAAAAAATTAGCCAGGTGTGGTGGCATGCGCCTGTAGTCCCATCTACTTGGGAGG
CTGAGGTGGATGGATCACCTGAGCCTGGGAAGTGGAGGTTGCAGTAGGCTGAAGTCATGCCACTGCACTCAAACCTGGCGGACAGAGTGAGACCCTATCT
CAAAAAAAAAAAAAAAAGATTTTAGTTTAGAAGTAAATCCCAGAATTAAGTAAAAGTGGTGTGTGTGTGTTTGTGTGTGTGACAGAATAGGTTACAAATT
TAAGAATTTTAGAAACCGGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGGTGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGA
CCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGCGGTGGCGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCT
GAGGCAGCAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCAAGATAGCTCCACTGCACTCCAGCCTGGGCGAAAGAGCAAGAATCCATCTCA
AAAAAAAAAAAAAAAGATTTTTAGAAACCAAAATAATTGGAATGGAAGCTCTTTTCAATGAAAGAAAACTTTTGTAATTTGAAAGAACCAAAATTAAAAG
GGCTTAGTGTTTGGAACAGGCCTGAAGAAGTTGTAATACCATGAATTTAAAAAAACAAAACAAACTCGGGAGGCCAAGGCACAAGAATTGCTTGAACCCA
GGAGCCGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCATGCCAGCCTATGCGACAGAGCGAGACTCTGTCTCAAAAACAAACAAAAAAATCCCTAAAA
CTATAAGCATCTAGGGCACATCCTCTTCCTGACCAAAAAAATCAAAGTAATACTAGTTTTTTAACCCTGAATTTTAGATAGTGAAGCAGTGTCTATAGTT
TTTGAGATGGAAAGTGTCTTCACTTGTTTTTAGAAGACATGAATCACAATTTGAACCCCCAAAGAGCCTCTGAGAGCCTAAAACCTGTTTTTTCTCCTAT
AGGTTGTTTCCTCACTAGTAATGACAAAGTTATAATCTTAGCACAAAATAAGCAAAGGGGACAGTTTCACACAAAAATTGTACTTAAAATATTGAGTTTG
TGTTAAGTTGCTAAATAATGGATGCTCAATATGTATTAATTGAAAGCAAATCATGGTGGTTGTCATTTTAATCATTTTAATGTCATTTTAATCATTTTAA
TGTCATTTTGAACTCCCTGAATTTGTTAATATTAAATCATTTTGAGATAATCTGTAACTCCTCATGCTGATTGTTAGTTAATTCATTCACTCATTTGAAA
ACAGTATTTGTGGCATTTAAGCTCACAGGAAAACACTCCAGGCTGGGTGCAGTGGCTCACTCCTGTAATCCCAATACTTTGGGAGGCCAAGGTGGGTGGA
TCACTTGAGATCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTGAAAAAATACAAAAATTAGCTGGGCGTGGTGGTGCATGCC
TGTAGTCCCAGCTACTCAGGAGGTTGAGGCAGGAGAATGGCTTGAACCCGGGAGGCAGAGGTTGTGGTGAGCTGAGATCATGCCATTGCACTCCAGCCTG
GGCGACAGAGCGAGACTCCATCTCAAAAAAAGAAAAAAAAATACTCTAGTGACTCAATTGTAAAATAAAATGGTTCTAGTCTTATAACTTGTAGCACCTG
GTAGACTGAGTATGCCTTAAATGATTGATCTAACTAGAATAATGTGGGATAGAGCATAATGTCTAATTTCCTGGCAGGTCCCTCAGTATAGGGTAGAAAG
ATAACATGAATATGTACAATAGTGATGGGGTTGACAGAATGTAACACTAGGCTCCCACTTAAATGTACATTTTGTGAAGTCGCTGGGAAGTTGTGTCATA
GAATGAAGTTTATCAAGGATCTTTATAACTTGAATATTAAGGAGACTGTCCAGATGTTTTATTCATATCAGGAAACCAAGCCTTTAATGTCTCCCTGGTT
ACATTCATTTATAACATCCTTTATGCTAAGTCAGCAATAAGTATTATATATATTTTTTGAGATGGGGTCTTGCTCTGTCACCCAGGCTGAAGTGCAGGGG
TGCAGTCACAGCTTGTTGCAGCCTCTGCCTCCTGGACTCAAACAATCTTCCCACCTCAGCCTGCCAACTAGCTAGAACTACAGGTGCACACCACCACGCC
TGGACAGTTTTTTTATTTTTTGTAGGGACAGGGTCTCGCCATGTTGCCCAGGCTGGTCTTGAACACCTGGGCTCGAGAGGTCCTCCCACCTTGGCCTGCA
AAAGTGCTGGGATTACAGGCATGAGCCACTATGCCTGGCCTTGAACCCTCAAAGTAAGCCCATTTGGTAGGTTTGGATATATTCTGCACAACTTCTCACC
CCTGCCATTGAATGTAGCTGTGGTTGTTTTGTGCTGCTGAATTGCATTTATACGGGGGGCATAATCTTGGTAAGTCATATCCATCTCCAAGATTTGGGGC
ATAAAAACTCCTGTATTTCCCTGCAGCTTGGTTAACATTGGCCTAATTGATCTGATATCATCTAATTATTGGCTTATTTTTTAAGAATGCATTAAATATA
AAGTTTTTGAAAATTTCCAATCAGCAGTTGATTACAAGTAGGAAAAATTCTTTGAGTCTCCTGGTAGTTTACCAAAGCTAATAATAGTCTGACAACCTCT
CTCCAACTGTGGTTGCTTCCTGAATATATTGCTTAAATTTGGAGTTTGTGACCAGAATCAAAAATTCTAAGAGCCAGTGATTCTCTCAAAGGCTAACATG
GAGTAGAAAAAAACTATATGTTTAAATGTGGGGACAGCAAGGGTTAAAGGCATTTTTATTTGTTGCTTGAAATCTGTGGAGCCTACAGAAAACAGTGGTT
GGTATCCTGTTGATGGAAGAACTAAAGGAATGCTGCATTCTCAGCATTTCTTATTTCCTGTAGAATACAGCAACTGCAGTTTTTATTTGACATTCTGCTA
GTTTCCAGGAAGGGCTCAATGAAGTGACTGCTGTCAGCATCTTTTTTCACCGCGACTGATACTAGAGAAGGTAGAGGATGTTTAGGAGCTTTTAAAGGAA
ATTATGTTTAGTGAAATACTTGGGTTAGGAAGTTAACCAAATCTTTAAGTACTGACTTAAAAATGCTTGTATTGAGAGATGAATGGTATCAGAATGACAT
ACAAGTATCAGCAGGTCTCTCAGATTGTTGACCTATTAACTCTACAGTGGTAACACTTCTAAAGTCCTTGGTAAGATACAAGATTCATTTGCAGAAAATA
GCTCCATCTGAAAAACAGTAGCTCATACATACTTCCTTTACATTTTCCCTATTCAGATGAAACAAGGAGGATCTGGAAAATGTGAAGCCAAGCAATAATT
GTGAAACATAAGTCCTTAGTAATGCTGTCATAAACCAGTTTTCATGTAGTTTGATTTTCAGCTGATAAAGCTGGTAAATGAGTTATACTACAAATCTATG
ATTCATTAGGAAGCAAACTCCTTAGGTATACTTACAGAGAAGCCAATTTCCAATGAGTTTATTCTTAACTAATCAGATGTGAGAACTGCTGGTTGAAATT
AGTAGGCTCAAAGCAAACCTATTACTCCTTTAATTATGTGGCGTCTGTAGGCACAAACAGATAGATTATGAATGATTGCTGAGAGTGTGCCTTGGTGCTA
ATGGAGAGTTGTCTTTAGATAGTTTAAGAATTGGGCCTTGAAAAAATTATGGTTTTATTTGGTTGTATGTCTTAAGCTAGCATTTTCTGCCCTTCTTAAG
GTATATAGTATTGAATTAAATATATTAATAGGACCATGGCCTCTTTGGTCCTCTTAACAATATTTTCATAGTTTGATCACTAATATATTCTGTTAAGATG
CTCATACAACACCATTAAGTTTCCTGATTCCTTGATGTATCAGGGTTTCCCCATTCTGTCTTTAGGAGCATGTGAACAAAGCGAATTGGCCCAGGTAAGG
TTTGAGTATATAACAGTAGCATGATGCTAAAACCAGTCTGTTTAAGAACAGTCTATATCGGCCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTG
GGAGGCCGAGGCAGGCAGACACCTGAGGTCGGGAGTTCGAGACCAGCCTGAGCTACTCCGGAGGCTGAGGCAGGAGAATGGCTTGAACCCGGGAGGTGGA
GGTTGCTGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTACGTCTCAAAAAAAAAAAAAACAGTCTATATCATAATACCA
TAGTCCCAGAACTAGAAGTTCATCAAATAATGGAGTGCTCTGTGCTCCCACACTAAGTGCTTGATGTGTGTTAAATCACCTTAACCTTTCATGGAGCACC
TAGGCATGCTGCTTTGCTCCCTCTCAAGTAAGGATGGATACTTTTTTTCCCTTTCCATTTTCCATATTTACAATCAAATGGAGTATATTTTTAAAACCAA
GACAGGAAAAACAAAGTTTAAACCATTAAAAACTGATGAGCATTCAACGTAGATTTCTGAGTCTCATTGCTGATGTGTTTTTTATTTTTATTTTTTATTT
TTTTGGAGACAGAGTCTTGCTCTGACGCCCAGGCTGGAGTGCGGTGGCGCGATCTCAGCTCACTGCAACCTCTGCTTCCCTTGTTGCCCAGGCTGGTCTT
GAACCGAACTCCTGGCCTCAAGCTATCCTCCCATCTCAACCTCCAAAGCACTGGGATTACAGGTGTGAACCACCATACCCAGTCTTGTATTTGCTTGTAT
TTGTTTCTTTTGCTTAAACATTTTAAATAAAGTCAGGCTATCATATTTTACCTGTAAACACTTCAGCTTGCATCTTTAGAAAATAAGGACATTTTCTTTC
TTTTTCTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTTGGCTCACTGCAGCCTCTGCCTCCCGGGTTCAAGCGAT
TCTCCTGCCTCAGTCTCCCGAGTAGCTGGGATTACAGGTGCCCACCACCATGCCCGGCTAATTCTTTTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAG
ACGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCTTGACCTCAGGTAATCCACCCACCTTAGCCTCCCAAAGTGCTGGAATTACAGGAATGAGCC
ACCGTACCTGGCCAGGACATTTTCTTATAATCATAATATTATTTATAGCTCCCTGATATTTAAGAACAATATCAGAAAACCAGTCCATATTCATATTTTC
CTCATTGTCCCTAAATGTTGTTTGGTTTAAATCAGAATCCAAGAAAGCTCATACTGCTTTCAGTTATGTCTCTGAAGTTTCTTTTCTTTTTTTTGAGACG
GAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAAGTGGCACAATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTC
CCGAGTAGCTGGGACTACAGGCGCCCGTCACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATAGTCTCAA
TCTCCTGACCTCATGATCCGCCCGCCTCGGNNNNNNNNNNNNNNNNNNNNCACCGTGCCCAGCCTGAAGTTTTTTAAAAAAAAAAAAAAAATTTTTTTTT
TAGCCGGGTACAGTGACTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGAGGATCCCTTAAGCCCAGGAGTTGGAGACCAGACTGGGAAACA
AAGTGCTGCCTATCTCTACAAAAAAAAAAAAAAAAAATTAGCTGGGCATGGTGGCGTATGGGTGGTACCATCTATTTGGAAGGCTAATCTATTATCAGTA
GTTAAAAGAAATTCACACCCAGAGTTTCAGCCAACCTATGGACAGCTGAATTAAGCAGCCCAGGAGGTTGAAGCTGCAGTGACCCATGATTGTGCCACTG
AATTCCACCCTGGGCCACAGAGCAAGACCCTGTATGAGAAAAAAAAGAATTGGAAGTCCTAAAGTGTAATTTCCTTTTCTCCTCACTTCCCCAACAAAAA


SNP Information

Context             (SEQ ID NO:55883):
AGAAAATTGTTGACATCATCTGTGGCATGCAGCAAAAGTTGATGTAAAAGGAACAGAAAGACCTATGGAGATAATGGGATGTAATAACAGAAAACATACA
K
AAACAATTGGTTCTGAAATCAGTTAAGAGCAGAACTGGAATTCATACTCTGTGGAATGAATCAGCAATGTGGAAGGAGTAACAAGATTTTTTAAAAAGAT
Celera SNP ID:            hCV392930
SNP Position Genomic:     7510
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:55884):
GTGCCTGGCCTAATTTTATAATTTTAAATGTCTGTAAAGTAAGCAAAATGACTAGTTGAATTGTACATTAAATATATCTAATCCCTAAGAGTTTATAATG
R
AAAGGGATCAAAACTTTTTCAATTGCGATAAAACTCACATAACAAAATTAACCATTTTAAAGTGAACAATTTAGTGGTATTTAGTGCATTCACAGTGTCG
Celera SNP ID:            hCV7971647
SNP Position Genomic:     6324
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 UTR 5


Gene Number:                 304
Celera Gene:                 hCG1775214 - 92000042679637
Gene Symbol:                 FLJ22060
Protein Name:                hypothetical protein FLJ22060;ARG147;DDX40;FLJ22060;PAD
Celera Genomic Axis:         GA_x5YUV32W3KM(3169077..3256537)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12464):
ATTCTTAATAATTTTGAACTGCATTTTCATTTGCACTGGGCCCTGCAAATTACACAGCCAGTTCTGTCTACAGATGATGCACATACTAATTATATATATA
ATAACATATATGTAAGATATATATTATATATAATATGTACATTATATGTATAATCTGTGTCATTAAAATTCTTTGTAAATGTTATTTTTTTCTTTTTTTT
GTTCAGTCTCCATAGAGACTGTCAAAAATTGCGAATGCCAACTATATTTCAAGTCATTATGGCGGGGTATTGGGAAAAGTTTTCAATTAGCAGTAATAGC
ACCTCGGATAAACCTCATTGGCTACGATACTGCCACTGCACAAAGCTGTAAATGTTATTTTTAACACATACTATTTCATCATATGGAAACATAATCATTT
ATTTAACTATGTCCCTATTTTGTTTTAAATTTTAAATTTTTTAAATTTTGTTTTAAATTGTGTACTGTTATAAATAATGATAAGAAACATCTTTTTACGT
TAATTAAAAATAGATTTCTGACTATTTCCTTAAAATAACATCCCAGACATAAAACTGAAGGGATAAAAGGATATGAACATTGTTGGACCTTTGTATTTAA
ATTGCCAGATAGCATTCCAGAAATATTAATATTATCAGCAGAAAGTAAGAAATTCTCTTTTCTTACTCTTGGTGGCAAAGAATATTATAATTTTAAAATA
TTTGGTAAATGAGTAAGTCAAAATATTATCCAATTACTTTAATTTCCATTTATTTGACTACCAGTAAAGAAGGTTTTAAAATATACATTTTATTAGTCAT
TTTTATTTCTTCTTGAAATTGTCCTTAGACTCTAAACTCCTCAACATGATTTTTAAGGCACTTGGTGTCCTACCACTCCGGGTTTATCTTCTACCACTCC
TCTCCTTCCCATTCCCCACCCTATTCTAAGCTCTAGCCATACTTAATTTTATTTAATATCTACAATTTGTCATGCTTTCTCTTGCTTCTGGCACTGTAAA
CATTCTACATACTATTTCTGGATGTCTTTTTCAATATCTCTTGTCTGGTTAATTTCTATTTGTCCTTCAGGTCTCAGCTTAAACATCACTTCCCCAGAAA
GCCTCCCCCACCCCCAGATTAGGCTGAGTGCCCTGCTAGGAGCTCCCAAATCATCCTGTATTTTTCTTCTTCTTCTTCTTCCTCTTCTTCTTCTTCTTCT
TCTTCTTCTTCTTTCTTCTTTCTTCTTTCTTCTTCCTTCTTCCTTCTTCCTCTTCCTCTTCTTCTTCCTTCTTCCTTCTTCTTCTTCTTCCTCTTCTTCT
TCCCCTTCTTCCCCTTTTTCTTCCCCTTCTCCTCCTTCTCCTCCTTCTCCTCCTCCTCCTTCTTCTTCTTCCCTTTCTTCTTCCTTCCTTTCTTTTTCTT
TTTCCTCCTCTTCCTTCTTCTTTCTCCTTATTCTTGTTCTTCTTCTGTCTTCTTCCCCTTCTCCTTCTTCTAGTACATATTTAATTTTGAAATGATTTTA
GATTTAAAGAAGAGCTACAAAGATGGTACACAGAGTTCCCATGTACCCTTCATCCAGCTTCCCCAGTGTTAACATGTTACATAACCATGGTACCATGATC
AAAACTAAGTTATGAACACAGTTATGATACTATTAACTACAGACTTTATTCAGATTTCACTAATTTTTTTCATTAATGTCCCTTTTCTGTTCTAGGATCT
AATCCTGGATAGCATATTGCATTTAGTTATCCTGTCTCCTTAGTCTCCTGTACTTCATATCTTATAGTGCTTAATGTATTTTATTACAATTTCCTCCCAT
TCTAGAATATAAGCTCTGTGAGAGTAAGGGCTGTTTTTTAAATTTTTCATTTATTTTTATTTTTAACCATTGCAACCTCAGTTCTTACAGTCGTACAGTG
TCCATAGTAAGCAGGTGGTTTATATGACTGAATAGAAAGCAGAATTTTTCCTTAAAGAGTTTCTCAGAAAAGAGGGCAACACCTTCCATTTAAGTTCTTA
CGAAATATCCTATATTATGTTACATTCTCTCAATTTTTTTATTTAGAGCAATAAAGTACTGTTCAAGGAACTCACATTAGCCTGAAAGGACCTCATAGAA
TGCATGGATGCTTGTAGAGAGCATCTATTGGAATCAGTAAAAAACGGAGACAAAGACATTTAAAAACCTTTAATAATCTGTGTTTTGGGGGCTGTGACCT
CACAGAGGAAAGGGCTGGATGCCCTTGTAAACAGGTTTGTTTGTTTGGTTGGTTGGTTGGTTGGGTTTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAG
GCTGGCGTTCAATGGTGCGATCTCGGCTCACTACAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGATTACAGGC
ATGTGCCGCCATGCCCAGTTAATTTTGTATTTTTAGTAGAGACGGTTTTCACTATGTTGATCAGGCTGGTCTTGAACTCTTGACCTCAGGTGATCCCCCC
ATCTCGGCCTCCCAAAGTGCTGGGATTACCAGCGTGAGCCTCCATGCCCAGCCGTAAACAAGTTTTAAAAGTAGATGGGGAGCCAGGCATGGTGGCTCAT
GCCTGTAATCCCAGCATTTTGGGAGGCCAAGGCTGGCGGATCACTTGAGGCCGAGAGTTTGAGACCAGCCTGGTGAACATGGCGAATCCTCATCTCTACT
AAAAATACAAAAATTAGCTGGGCGTGGCATGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCACGAGAACCACTTGAACACGGGAAGCGGAGGTTGC
AGTAAGCCAAGATCGTGCCACTGCACTCCAGCCTGGAGCCTCAAAAACAAACAAAACAACAACAAACACAAAGTAAATGGGGGAATGGTGGGAAAGAGAT
GGAGGCCGAAGAACAATGCTGATTACAAAGTTCACTTCAAAAGCAATTCTGCTAAGTAAGTGGCTTACTTCCCTGGTCAAAGCAACTGTTATCTCTTGCC
TGAAACTACTGCAACAGCCTTCTAAATGGTGTCTCTGAACCCCTCCTATCCATCTACAATCTTCTGTCCATGAACATCCAGAGTGATCTTTTCTTTTTCT
TTTTTTTTTTTTTTTTTTGAGGCAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGGAAGCTCCGCCTCCTGGGTTCA
CACCATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCACCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCAC
TGTTTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCA
GAGTGATCATTTCAAAATTCAAATCTCCTACTTAAAAACCTGTAATAGATTTGCAACTGATCTTTGAATAAAAATCAAAATTACTAATGACTTTAAAAAA
AACCTTGAATCCTTAGTCTCTCTCTCTATCTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTTGCTCTGTTGCCCAGGTTGGAGTTCAGTGGTGTAATCA
TGGCCCACTGCTGCCTTGATCTCCTGGGCTCCAGCAATCCTCACACCTCAGCCTCCTGAGTAGCTGGGACTACGGGCATGCACCCCATGCCTGGATAATT
TTTTAAAATTTTTTTGTAGAGAAGTCTCATTATGTTGCTCAGGCTGGTCTCAAACTCCTGAAGTCAAGCGATTCCCCTGACCCGGCTTCCCAAAGTGCTA
CGATTATAGGCATGAGCCACAGCACCGTCTCAAGCTTTCCTTAATGGCCTTTGTTAGAATTATAGTTATAACTATAAACTCTGTAAGGGCAAGATACACG
TTAATTTTTGCTCACCTTTGTCTTTCCAACAGCTAGCAAAGTACCTGGCACAGGTAATTTGTAAGCACTTATGATTATTTGAATACATGAACAAATGAGA
TCCTTCATTGGGAAATGAATTATCTACCCAGTGGTCTAAGAGAGTAAGCTTTAATATTTGTACTTTTTGGCTTCTGGAACTCCATACTTTACTCTGAGCC
CTGGCATCATGAGAATTGATCATCCAGTTTGGTTAAGACCATTCAGCTCTACCATTCTGGAATCAAATACCTGTTCAGCTTACATGATGCCTTATTTGAA
GATATTCATTTCTAGGTGTCCACATCAAACAGGTCATCAATGACTGACATCTGCTGTCTGATTCTCTGAAAAGTCCTTCATCTCCACCTAAGAGAGCAAC
CTGATATTTACCATATGAGAATTCTTCCCCTCAGCTCTCTTGGTCACCAACGATATGGGTCGTTTGTAGGTTCTCCAAGTTCTTCTCATGGTTAAGGGCA
TTTCAGGTGCCCTGCTTGGAAATGATAGCTCAGTTTCTAGTATTTGTAGAGAAGGAACATAAAACTTGGTGCAGCACATACTTCAAGAAATCTTGGAGAA
TTAAGTGTTGCTTCTCAGTATCTCACTCCAGTACAGAACTCCAGTTCTGTAGCTTTACACCTCATGTTGTAAGCATGAAGAGTAACTTAGAGTTATCAGG
CGGCTTCATCAGTTATATAGAAAAAAATGTATATTTTCCTTCTGTATAACTGATAGAATCCAGCTCTCTGTAGTATGTACTTTCTATAATCTGTTTGTGG
AGTAAAGCTGAGTTAATAGCAATTGTATCTCACACAGATACATTGCTCTGTGTCATGTGTCTTGCCTATTACTTCCTTGGAGAAAGTTATGAAAAGTTGT
GTCCTGTACAGAGACGCCACGATGCTCTACATCTTCCATGCTACTTCCTTACTCCCTGGTCACAGGCCTAACTCAGAGTTCTAATCCTACTGAACACTTC
ATTGTCTAAATGCCCCATTTACATCTTCTTCCTCTCTCCCTGAAGGCTTTCGTAGATTGTGTATTCAAAAGATCACTGAATCAAAAAGAAAATCACCATT
CTTTATTTTTTTTCCTGGCACTTATAATCATCCAACATAATACACATATTTTGTTTACATTGTTTATTGTGATTCCCTTCACTAAAATGTATGCTTCAGG
GATCCAGGAATGTCTGTCTGTTTTATTCGCAGTAGTAGTATTAGCAGTTAGTATAGAATCTAAAATATAGTAGGTGCTCATTAAATATTTGTTGAATGAA
TTAATGATGCCAAATTGATATAAGAAAGGATATTCAAGCATAACTTTACCATGCACAGGGTTTTTCATCATTTCAAATTGCTGAACAAAATTCTCAAAGT
TAAAAAACAAAAACAAACATTACTACTTTGGAAGAGAATGTAGGCATTTAGAACAAACAAGATGTAGAATTAGGGAATTTATACTAAAAATACCACCGAA
GAGTGAGCACTTGGAGACAATCTACATGTATCCATATGTCACACATGTGCCTGGGCTTTGGTTGCTAGAAATAATTTCCCTGAATAATTTCTGGGGAGGG
GATGTGTTTATAAATGCCCTCCTTGGCAGAGCACGGTGGCTCACGCCTGTAATCCCAGCTCTTTGGGAGGCGGAGGTGGGTGGATCACAAGGTTAGGACC
ATCCTGGCCAACATGGCGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGCGGCACTGTGCCTGTAGTCCCAGCTACCCGGGAGGCTGA
GGCAGAATTGTTTAAACCCGGGAGGCAGAAATTGCAGTCACTGCAACCCAGCCTGGGCGACAGAGTGAGACTCCGTCTGAAAACAAACAAACAAAAAATG
CAACAAACAAAAAATGCCCTCCTTGATCTGCTTGGCTCTGTCTTCCTCTCAGGATCTCGGTCACTTGGCTTTCTTCCTTGCCAGAGGGGTATTAGGAGAT
GGTAGCTGAGTCCAGGGTTTTATAACCAAGGGAATAGGGAGAGGCAACCTCTTGGTGGTGAGGACTGGGCTGCAGCAGCAGTTTCCGGAACCTACTTTCT
CATGACTGAACGTATGCAGGCTCTGGCTTCCCCAGTGGCTTCTTGGAGAAGTCAGGTAACGACTCATGGGAGATGAATTATTTATTCTTCTTCTGTGTCC
TCCAACAGATTATTGAGACCCATACAGCCATTCCAGAGATGTTCTCATTTGATCAGGCAACCAGTTGTGTTTCTTTGAGAAGCTGTAGCCCCGATTCCTC
CTTCTCTAGGATGGTACTCATCTTCCTCCCTCTCCCCACATACAATAAAAATGAGCTCTATGAGCGTTTTTTTAGGTTCTGTTTTCCGGGTAACCCAAGC
TAGAGCCTAGAGAAGAGGGAAGTATTCTGAAACAACTCACTTTCAAAAGATTACATGAAACCACAGGCATGTCTTAGGGTTCAAATCTTCTTTCATGTGC
CTTGATTCAAAACTGTATATTTCTACTTCAATATAGTTAAGATATTAATCTGTAGCAAAAGTCAAATAACCGTAAAATGAAAAACTGGTAGAACTTCAAG
TGAAGACTGGAATAGTTGGAGATGAGTTGTTGTAGTCAGAAAGACCCTTTTGTCAAATTCATTCATTCATTCAACAGAATGCCAAGTATTAATCTAAGTG
CTAGAGACACAACAGTGAACAAGACATATGGATCCTTCTGAAAGGAGCTTAAAAACAATGTGGGGAGACAAATGATAAATACAAAAATACTCAATATTGG
TCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAAGCGGGCAGATCACTTGAGGTCAGAAGTTCGAGACCAGCTTGGTCAACATGT
CGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACGCACCTGTAATCCCAGCTGCTCGGGAGGCTGAGGCAGGAGAATTGCTGG
AACCCGGGAGGCAGAGATTGCAGTGAGCTGAGATCGTGCTACCGCACTCCAGCCTGGGTGACAAAAAGAGATTCCGTCTCGAAAAAAAAAAACAATATAA
TATCAAATAGTAATCAATGATTAGAAGAAAAATAAAGAAGAGAGCATAGAGAGTGATGAGACACTCTTTTAGGTAGCATCATCAGGAAAGGCTTCTCTGG
GAAGGAAACTTAAGCAGAGATCAGAATGAGGGAGGTATCAGTGTAGAAGTCTATGAAATAGCATCTACTTTAGCCACATATACTCATAGGTTGTTTGTCA
GATTCGCTTTGAATTGAGAATAAATAAATAGAGAAGAGAAGGAGAAAAGTTTTTGCCTTTCTTCTTCTTTTTTTTTTTGTCACAAAAACATCTAAGCCTG
AATGTCTCCTAAATTATTCTTTGTGGCTGGTTAGTCAATTTAGCCAAAGTTGAAGGTACTTCCTCCTTCTTGAATGCAAAATTACTTCTTTTTTTCTTTT
TGTTTTTTTAATAGAGACGAGGTCTATGTTGCCCAGACTGGTCTTGAACTCCTGGCCTCAAGAGATCTGTCTGCCTCTGCTAACATGGTGAAACCCCGTT
TCTACTAAAAATACAAAAAAAAAAAAAAAAAAAAAATTGGCCAGGAGTGGTGGTGGACACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATG
GCATGAACCCAGGAGCAGAGTTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTAAAAAAAAAAAAAACAT
CTGCCTACCTCTGCTTCCCAAAGGGCTGGGATTACAGATGTGAGCCACTGCACCCTGCCCAAAATTACTTCTAGTCTTATTCTAGCCCTACACTCTGTCT
GGTATTATTGCTATTTATTTGCACATCTCATATCCATTTAATATGGCATATGATTTTTCTTTTAAGAGGCAGAGGCTATGTTGCTCTGTTGCTATGTTGC
CCAGGCTGGTCTCGAACTCCTGGGCTCAAGGGATCCTCCTGCCTTAGCCTGCCAAGTAGCTGGGACTACAGGCATGTGCCATGGTGCCTGACTAATGTGG
TATATGTTTTGAAAGCAAAGTCTATATATTTTTAGCATTATAGTTCTTGAAATATCTAGTACAGTCCTGTCACAAAGTAAATACTTATTTGTTGAATTTA
AATTTAGACAGAGTTTCACTCTTGTTGCCCAGGCTAGAGTGCAATGGCATGATTTCAGCTCACCACAACCTGCACCTCCAGGGTTCAAGCAATTCTCTTG
CCTCAGCCTCCCGAATAGCTGGGATTACAGGCATGCAACACCATGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGAGTTTTTCCATGTTGGTCAGGTT
GGTCTTGAACTCCCGACCTCAGATGATCCGCCCTCCTCGGCCTCCCAAAATGCTGAGATTACAGACGTGAGCCACCATGCCCAGCTGATTTTTTAAAAAA
TAAAATATCTGGACTCAGACAAGTTTACCTAACCTCTCAGAGCCTAAGTGTAAAATTGTTATTCCTGTAAAAATCAGAAATAATAATCATTTGACAGCAT
TTATTGGTACAAGAAAAGAGAACCGGGTGTGGTGGCTCATGCCTATAATCCCAGCATTTTGGGAGGCCGAGGTGGGCAGATCACTTGAACAAAGAGTTTG
AGACCAGCCTGGGCAACATGGTGAAACCCAGTCTCTACAAAAAATACAAAAGTTAGCTGGGCCTGGTGGTATGTGTCTGTAGTCCCAGCTACTCAGGAGG
CTGAGGCAGGAGGATGCTTGAGCCTGGAAGGTTGAGGATGCAGTGAGCTGAGATCCAGCCTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAA
AAAATAAATAATAAAATAAATAAATAAATAATCTAGTACAGGACCAGATACATGGTAATATTTAATAAATTGTTGGTCATTCAATCAAGAAATTAAGCAT
TTTTAAAGGCTTGATCTGAAACCAGGTTATTTGTTCATGTAAAGAATGTGGTAGTTATTTGTTAATAGCATTTGTTGTTAGTTATTTCCCATAAGGAAAT
GATGATGTCATCACAAGATCTTTTCCTTAATCAGCTTTATTAAGGTATAAATTAATTATAATTACATATAATTAAATATAACTTACATGTAATTAAATTC
ACCAATTTTCAGTGTATAATTTTTGACAAATGCACACCGTAATCAGCATCACAATCAATATGTAGAATATTTCTCTCACTGTAAAAAGTTCCCTTGTACC
TCTTTGAAAGCAATTTTCCCCTTCTACCCTCAGCCCCTGGCAACCACTGATTTGTTTTCTGCAAAAGATACTTTTTACTTTATAAGCAAATATTTATGAG
GGCCTTCCATTTTTGTTTGTTTTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCTGCTCTCTGCAAGCTCCGCCTC
CCGGGTTCACGCCATTGTCCAGCCTCAGCCTCCTGAGCAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTTAGTAGAGAT
AGGGTTTCACCGTGCTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATTCGCCCCCATCGGCCTCCCAAAGTGCTGGCTCACGCCTTTACATGCCCGG
TATGAGGGCCTTCTACTTAGAAGTCCTTGAGCTAGATAGATACTTCATAGAATACAAAGATAAGTAAGACTCAGTTTATGTCCTTAAATAGCTAAAAATC
TAGTCTAGTCGTATGTAATTTTGAGATTACTCTGTCTACACATAATATGGGACTGAATTTCAATATGAATTATGCCCACTAAAGAAGAATAAGGAAGAAA
AAATATTGTAAATGGTTCCTGAACTTTTAGAATAGTAAACAAAAGATTCATGAGTGCCACTAATTAATTATAATTTATTTTAAAAGGCACAAATTTATGA
TTACAGGATTTCCAGATAATTTTTAAAAAGTAAACTCTTTAAAATTAAGTAACATACATACAGGAAACAAAAGTGCAGAAATCCTAAGTGCACAGCTTGA
TCTTTTCAGATTATTTATGGCAACCTAGACCAGCACTGTGTGACCAATGCAGTAAAAAGACAACATCCTGAAGTCTTATGGTTTAGACAGAATAATTACA
TCACTGTAAGAAAGAAAGAGATAAGAGAATAATGTTCTGCAAAGGCTCACAAAGAATTGTGGGGATAAGTAGTGAGAAAATGGATGGCACATTAAAATTC
ATGAGGAAATGCCGTTTAACTTCTATGAATAACAAAGCGATTATTATGCAGGATCAGGTTTTTCTTTCATCATTACAGAAAGACACAAAATCATTATCGT
GATCTGCCATATGTTTTTCCTTTGTTATCAGATGCTGGGACAGGCCTATTAAATGTTCTGTGTTACCCAGGGGAATGGTCAGGGCGGTGAGTAATGATGG
TCACGATGCATATGGTTTTCTATAGTCCTAATTGTCAGTGCATTTAGATCCGAGGAAAGGAACAAATTAAAAAGGGCAGAATGGCTGGGTGAGCACTTTC
TTGTGATTGCAAAGAACTGGGTCTATTCTTACCCTTTCTGCCCCTTGCTTTATGCTTTACACCTGCCATTTCCAGACTGACAAGGCGCTTTGGTGGCGCC
TTGGTCAATGCAATGGGGACTACAATTAATTTAAAAAGGGGTAATGCATGCAAATCGCAGAAAAATATTAACACCAGGAGAAAAAACACAGTGTGGAAAA
ATAATCCTACAAAAATGTTTATAGTGGGGTCAAACATTTACCCACATTATAATTCCAATACATGCAAAGAAAATACTCCTTTTTAATTTCTATCATGGAC
CTAATTTTTCCTTGCAAGCTTCCACCTTGCTCTATAATAAGAGGAAAAAAACCAACCAAACGTTAAACTTGTCATTCCAGGCAACAATCTTTTTTTAGTT
TAAATAGTTTATTTTGGCCCTGCATGGTGGCTTACTTCTCTATTTAATCCCAGTGCTTTGGGAGACCAAGGAAGGAAAATGGCTTGAGGCCAGGAGTTCA
AGACCAGCCTGGGAAACATAGCGAGACCCCGTTTCTAGAAAAAATTTAAAAATTAGCTGGGTGTGGCAGTGCATACCTGTAGTCCCAGCTATTCAGGAGG
CCAAAGCAGGAGGATTTCTTGAGTCCAGGAGTTTGAGGCTGTAGTGAGCTATGATTGTGCCACTGCACTCCAGCCTGAGTGACTGAGACCCTGTCTCAAA
AAATATAAATAAATAAATAAATAAATAGTCACTTTTGAATAACAAATTTTCTTTTGGTTAAATCCAGAATCTTTCACATTTCTTCCTGCTTCCCTCTGCT
TCTGTTCAAAATAATGTCTAGCTGTACAGAGGGATTTGTGACCTAGGGTGGCAAGGAGAGGAAGGGCCTCAGATCTATGTGGGGGTCTCAGGATCAAATT
TGTCTCTATACCAGAGTGCATGTTTAGGGGAGCCAGAGATCAACCCCCTTTTGCTCTTAGTGGCCTCTTCAGCTAGATCTAGAAACCAAATTGACACCAG
GCAGATTAACAAGGGAAAAGCAAACAAATTGTATTAGTTCTACATGTACATGGGGGTATTCACAAGAGCATGAAGTCTGAATAAGTAGCCAAAGCAAGAT
GCTTTTGTATTTTTAGACAAAAAATGTTACATTTGAAAAGAAATGACAGAACAAAGAGTATCTGGCCAGGGGCAGTAAATTTTCTAGGGGAGTCACTCGG
ACATGTATGGAGGATGTAAAACAGGTGGAAGAAAAGGGTTACTTCGTCAAGTACATTTATTCGATCCATTGCAGCCTCCAATTCTTTTTTTTTTTTTTTT
TTTGAAATGGAGTCTCACTCTGCACCCCAGGCTGGAGTGCAGTGGTGCGATCTCACTCACTGTAACATCCTCCTCCAAGGTTCAAGTGATTCTCCTGCCT
TAGCCTTCCAAGTAGCTGGGACTACAGGCGCCCACCACCACGCCCGGTTAATTTTTGTATTTTAGAGACGGGGTTTCATCATGTTGGCCAGGCTGGTCTT
GAACTCCTGACCTCAGGCAATCTGCCCGCCTGTACCTCCCAAAGTGCTGGGATTACAGTCGTGAGCCACCCCGCCTGGCCTGCAGCCTCCAATTCTAAGT
CTCTGGTGATAAGGGTTTGCTCGCTCTGGTATGCAGAGGGTGCCCCTCCCAGAGGCATCTGTATCTCTTGCTGCATGAAATTACAATTTCTCAACTGTTT
TCAATTTCAAATAATTACTATACCAATCCGGAATATTTTGGGATGGCACATTCTTCACTCCTTCACATATCTCTGACTAAGTTATTTACATAGTAGAAAT
AAGTTCTCTATTATATCAGAAAAGTTGCAAAAGTAATTTATTTCTATTGTTTTTTATTTAATGTTTTTTATCTACCATGTATTTACTTTTTTTATACTTT
CCTACCTTCTATTGAGTTACTGATTTATTTTTCACCCTTACTGACTTGAAAGTTATGTTAAAAAAATTAACCTTTACTTATTATCGATTAAAAAGGAGTT
TCTCTGATAAAAAAGTGGGGTTTCAGGTTTATAACGTAAAGCTTTATGTGATATAGAAAAATGTATCAGTAAACAAAGCATGTTGTTTTCTTACAGGCTT
ACACAATTTTGAAATCAATCTTTTCCTCATTGTAATTACATAGAAGCTTAAAATTTTTTTAAGTTTGTTTTATCCATTTTTCCTTGTATACTTTACCTTT
GGTGGCAAGTTCACAGTTACCAAGTATATTTTCTTCACAGTGGTAAAATTAACAAGAACTTACTTTTGCTTTTTTTATTTATAAGAACAATATCACTTCC
TTTTACTGAATCAATGTTTACTCTTAAATTTGTAACATGCATGGCTCAACTTGGTCTAAGATACTGTCAGCCTCTTTTGAACAGTATACAATCTGAGAAA
CTTTATTCCTCCCATTCTTCCTGTTATTATAGTAATTTGGTTTCACCTTTTCAAAAACCCTCTCAACTTAGAGTATTAATTTATTTATTTTTATTTTTGT
TTTATTTTTTATTTATTTATTTTTGAGACGGAGTCTCGCTCTTGTTGCTCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCTACCTCCC
GGGCTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCACGCCACCATGCCCGGCTAATTTTTGTATTTTTGGTAGGACAGGGT
TTCACCTTGTTGGCCAGGCTGGTCTCGGACTCCTGACCTCAAGTGATCTGCCCGCCTCAGCCTCCCAAAGTATAGGGATTACAGATGTGAACCACCGTGC
CTGGCCTGAGTATTTATTATTATTGCTTTTATTTTGTTTTATTTTGACACAGGGTCTCTCTCTGTCACCCACACTGGACTGCAGTAGCATAATCACAGCT
CACTGCAGCCTTGACTTCCTGGGCTTGAGCAGTCCTCTCACCTCAGCCTCCTGAGTAGCTGGGACCACAGGTATGTACCACCACATGGCACTAATTAAAA
AAAAAATTTTTTTTTGTAGAGCTGGATCTTGCTATGTTGCCCAGACTGGTCTCTTAACTCCTGGCCTCAAGCAATCCTCCTGCCTTGGGCTCCCAAAGTG
TTGAGATTACAGGCATGAGCCATTGTGCCTGGTCTATTATTGCTTTTTAACAGTTAATATTAATATAGATTTACCAGTATTTTTACTAACTTCTCTGTTC
ACCATTAGTACTTACAGCGGGTCCTTTCTCCTGGGTTTAATTTCTTTTCTTTCTCTCTCTCTCTCTCTCCCTCTCTCTCTCTCCTCTCTCTCTCTCTCTC
TCTCTCTCTCTTTCTTTCTTTCGCAGGCAGAGTGGGCCTGGTGCAGCAGGGCTGACCACCAGTTTACTTTCTTTCATTTTAAGTGTATATTTGTGTTTTT
TTTTTTTTTGAGACAGAGTCTCGCTCTGCCGCCCAGGCTGGAGTACAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCT
CCTGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGCGCCCACCACTAAGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAG
CCAGGATGGTTTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGAATATTTGAGTGTATTTTTTAAAGCAATGACTTGTTAC
TATATATTATTTTAGTATTTGTCAGAAAATATCTTGAATTCTCTCTTGAATGTTAGTTTGAGTACAGACTTCTTGATTATTTTCGCTTAACAATGTGGAG
ATGCCCATCATTGTATTGTCTTTTCCATTTTTGTTGAGAAATCTGCTGATAATGTGTTATTGTTCCTTCGTAGGAAATTTTTTGTTTGTTTGTTTTTTGC
TTTTTGAGACGGAGTCTCACTCTGTCGCCCAGCCTGGGCCACAGAGCGAGACTCCGTCTAAAAAAAAAAAAAAAAAAAATTAGCCGGGCTTGGTGGCGGG
CACCTGTAGTCAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATAGCCTGAACCAGGGAGGCAGAGCTTGCCGTGAGCCGAGATCACGCCACTGTACT
CCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAATTTCTCTCTTTCCAGCGTGGTCCATGTTTCATTTTGGTCAGGTGTATA
TGGTTTTTAATTTTTCCTGTCTGGGGCTCAGTGATTATCTACTCAAATATTACTTCTTTCCTATTCAAATAGACATTTTCCATTACTCTGGAACTCCTTT
TAGACATCTATTGAGGCTTCCCATCCCATCCTCCATTTCCTCACAGGATACTGTACCCACAGAATAGCTTTGCATTTTCTCGGGAATTTGCATTCCCTCT
TCATTTCTGGCATCTGAAGATTCTTATATTTTATCAAGCATATCTATATTTTTGTTGCATCAGATGAGACTGGATCATCCAGATTTAACTCACCAGACTG
CTTGTAGTCCCATGCAGCAAAAAAGGTAAAATTTCTGTCTAATTTACAATTAAATGAAGAGGTATAGCTAACTTAATATGTAAAGTAAAAATTATGCATC
TGTGCAAAGTCTTAGAATTATGAATTAAAATGTCAGCATTTTGGTAATCCCTAGTGTCTAGACTGTTTCCTTTTTGTGTGTGTGCTTACTTTATAATGAG
ATTGTAAACCCAGTGGCATTGGGTAAACCTTAGAGGTATCTTGTAAGAATTCTGTTTAATTTTGCTTTATTGAACTTTATGTACTAGAAGGGAAGCACCA
AAAATGAAATTTTAGATAAAAGCCTACTATTGAAGCAATTGTCTATATTTAATACATAGAAATAAAGTTAGTGAAACATCAATATGAAGCCCATAAACAG
TTGGCGGAAAAAGCAATGGCCTAGAGATTTGGGAAGCTGTACCCTAGACTTTGCTCTGCCTCTATGCTGTATGACCTTGGGCAAGTCATTGAAGATCTTA
AAGTCTTGGTTTCTTCATCTCTACAAAGTGGGGATGGCAGTCTCTATAGTTTAAAATTGCATTATTCTAGATAGTGCAGAGATAGACAGTGTCATTTGAA
AATGTCTTAAAATCCTGATACTTCTAATGGAATAAAATGAAAGGGATAAAAACCAAGACATGGCCAGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTT
TGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTCAAACCCCATCTCTGTTAAAAATACAAAAATTAGCT
GGAGATGGTGGCGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGAAAGAATTGCTTAACACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATG
GTATCACTGCACTCCAGCCTGGGTGATAGAGTGAGGCTCTGCCTTGAAAAAAAAAAAAGAACCAACATCATACAAATTGTTCCTTTTAAATAGGGTGTAA
TGTTTGGAAAATAAAGTAAAAAAAAAAATCAACCAAAAAAAGTTGAAGAAACTCTCAGACAAGACCTATTTCAGATTTTAATTGTAAATTTTAAGAGTAT
AAGTCCCTTCTGGCCCGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAAGTGGGTGGATCATGAGGTCAGGAGATCAAGACCATCCT
GGCTAATATGGTGAAACCCCATCTCTACTAAAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGG
CAGGAGAATGGTGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCAGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAA
AAAAAAAAAGAGTGTAAGTCCCTTCCTTGGCTAAAATTTTCACTTATGGAAAAAAATGGTGCTAGAACAATTGTGTGTGTGTGTGTGTGTGTGTGTATAT
AGGTGTGTGTATGTATGTGTGTGTGTATACCTTGACCCATACCTTGTGCCATGTAAAAACATCAACTCAACTAAACATGCATTGCAAATCTCAATGTAAG
ATTCTATAACTATAAAAATACTTGAAGAAAACATTGGCCAGGTGCAGCGACTAATGCCTGTAATCTCATCACTTCGAGGCTGAGGTGGGAAGATCCATTG
AGCCCAGGAGTTTGAGACCAGCCTAGGCAATGTGAAAAAAATAAACAGTCTCTACAAAAAAAAGTACAAAAATTAGCCAAGCAAGAGGGGAGGGATAGCA
TTAGGAGATATACCTAATGTAAATGATGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAAACTTGCACGTTGTGCACATGTA
CCCTAGAACTTAAAGTATAATAAAATAATAATAATTTTAAAAAAATTAGCCAAGCATGGTGGCACATGCCTGTAGTCCAATTTCTCAGGAGGCTGAAGTG
GGAGGTTCACTGAGCCCAGAAGTTCGAGGCTTCATTGTGTGATCGTGCCACTGCATTCCAGCCTGGAAGACAGAGAGAGATCTTGTCTCAAAAAAAGAAA
AATTAAAAATAAATAAAGGAATAAATAAGAAAATATATGAAAACATCTTTGTGACATTGGATTAGGCAAAGATTTCTAAGATACCACACCAAAAGCACAA
TTTATAAAAGGAAAAAAATTGGTAAATTGAACTTTATCAAAATTAAGAACTTTTTGAAAGACACAATTAAGAAAATTAAAAGACAAGACATAGACTAGGC
CAAAGTATTTGCAAAGCATATATCTGACAAAGGACTAGTATTCAAAATGCATAAAGAACTCTCAAAACTCAGTAAGATAATAAGCAACCCTTCCCACACA
CATACAAGTGGGCAAACGTTTTGAACACACACTTTATGAAAAAGTTGTATGGACTACAAATCAATACCTTTTGTAAAAATATGTTTGATATTGTCATAGA
GGTATGCAAATTAAAACTGTAATAAGATACTGTTATCAGTGGAAGGTAGTCCAAGCTACCGGTGGCAAATCCGTATGGGTCTACGGCAACCTCAGTTCTT
GCCTCCTCAGAACAAATAATTCGACTGAGGGGCATAAGGCAGAAAAAAAGATCGAGGCAAGTTTCAGAGTAGGAGTGGAAGTTTATTAAAAAGCTTTAGA
GCAGGAAAGAAAGGAAAGTACACTTGGAAGAGACCCAAATGGGCACCAAGAAGGTCAAGTGCGACATTTAACCTTGATCTTAGAACTTTATTTTATTTTA
TTTTATTTTATTTTTGAGATAGAGTTTTGCTGTGTCACTAGGCTGGAGTGCAGTGGCAGGATATTGGCTCACTGCAACCTCCGCCTTCCATGTTCAAGCG
ATTCTCCTGCCTCAGCCTCCCAAGTAGATGGGACTACAGGTGTGAGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGTGTTTCACTATGT
TGTCCAGGACGGTCTCGATCTCTTGACCTCGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACACGCATTAGCCACCGTCCCAGGCCAATCCT
AGAACTTTATAGACTGGCCCACTTCTGGTGTCTAGTACCCCTTTCCCATGATATTTCCCTTAGGGTGGGCTGCCCGCAGGCGCAATACCCTCTATATGCT
TGGGAGGTGAGCACGCACAGTGTGTTTAGGAAGCTGTAGGCGTGCCCATCCGAAGCTTTCTTTCCTTTTCCAGTGGAGTGCCCAGGAAGGTCATACTCCG
TCATTTTGTTTCCCAATGTGCATGCCTGTGAAGTTGCCTCTCCCTGGTGTCTGCATTCAACTAATCTTTTAGAGCGACAGGTGTAAACCATCAGGAAATG
GCCTCTCCCTGGCAATTTATCAGCCTCTCATCAACAATATTGATGATGAATGATTTAATGACTGGTAACTGGCTCTGTGATAATTACTCAAATCTTAATA
TCTGGACACTCAAAAAGAATGAGAAGAAATTGTGATGATGATATGATATCTTTTACTTTTGGACTGAAAGTTAGGAATTTCTCTAAGTTTTATGATATGG
CCATGCCATCTAATTATGCCAATGTGTCACTGCTGCCAATTTGTCACTTTTAGAAAGGCAATATGATAATTGCCGAACCATTTCCTGACATTCCTGGTGG
GTGGGGAGAGCTCTCTCCTGCTCTGCTCATGCCTGTCTAACTACCTGTAACAATACCATTATCTCCTATTAGAATGGCTCAAACAAACGAACAAACACTG
ACAATATCAAGTCCTAGCAAGGATGCAGAGCAACTGGAATTTTCATACATGGCTGATCGAAGTGCAAAATGGTCCAGCTACTTTGGAAAAACAGTTTGGC
AGTTTCTTAGAAACATATATTTATCTTTGACCCAGCAATTCCACTCCTACGTATTTACCCTAGAGAAATGAAAACTTTGTCACTTAAAAACCTGTATATG
AATGTTTATAGTGAATTTGCACATAATCACCCAAAACTGGAAACAACATAGATATCTCTCAACTACTGAATTAATAAGTAAATTGTGGTACATCCATACA
ATGGAATACCACTTAATAATAAAAAGGATTAAACTATTGATATACACTACAACATGGATGAATCTCAAAGCAATAATGCTGAAGATAAAAGAAGGCAGAC
CAAAGAAGGAGTACATGCTATACAATTTCATTCATATGACATTTCGGGAGATGCTAAACTATACAGACAGAAAACAAATTAGTGGTTTTGAGGGCCTGGA
GGTAAAGGAAGGAGCGGACCATAAAGGGGTACAAGGGAATTTGTTAAAGTTATGAAACCATTTTTTATCTTATATTTATAGTGGTGGTTACACAACCATA
TGCACTTGTCAAAACTGGTAAAACTCAAAAAACTGTAACCCTTTTCCAGGGTTTTCCTTTTCCAGAACACATTATGAAAAAGCACCCAGTTGTGCCGGGC
GCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAATCACAAGATTAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACT
AAAAATACAAAAAATTAGCCGGGCGTGGCGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGC
TTGCAGTGAGCAGAGATCGGGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGATAAAGAAAAAGAAA
AAGCACCCAGTTGTAACTGCTGGAGTTTTTATTGTTTCAGAAAAGTTCAAGGGACCGGGCGCGGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCC
AAGGCGGGCAGATCACAAAGTCAAGAGATCGAGCCCATCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAGTTAGCTGGGCATGGTGG
CGCGCGCCTGTAATCCCAGCCACTGAAGTGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGCTGAGATCGCCCCACCGCACTCCAGCCTGGGCGACAGA
GGGAGACTCCATCTCCAAAAAAAAAAAAAAAAAAAAAAAGTTCAAGGAAGAAACCCAGCCACAGCAAAACAAAAACCAGTTGGATCCAGAGATGCCTGAG
TTGGAGATGAACTTTGGAGATTTCTCCTCATTAGCATACTAAAAATCCACCCAGGAAGGAGCTATTCTCCATTTGTATGTAGAGGCGTGATCGCAGACTG
GGCCTGAGCTGGCTCTACTCCACCTCTACATATGATAACTCAGCTAACCTGCCTAATAAAAGCCTTTTTATCACCTTTGTTTAGGGAGACACTGCTTTGG
GGATTTATCCCCGATATCCTCCTTACTTATTGTAAGTAATAAAATCCCCTTGTTAAATCTTCCTTGGTTGTGGTATTGGACTGTCACTGGCTAAGTGATC
AAACCCACCCATTGTGTGGGTAACAAAACTATACACTAAAACTATAACATTTGGAAATTATGCCCCAATAACCTGACCGCCCCCTCAAAAGCCTTCTCAC
AATGCTTTTCACAGATTTTTTTTTTTTGAGATGGAGTCTCGCACTTTCGCCCGGCTGGAGTGCAGTGCTGAGATCTTGGGGCTTTGCAACCTCTGCCTCT
GGGGTTCAAGCGATTCTCATGCTTCAGCCTCCTGAATAGCGGGGATTACAGGCGCGCGACACATGCACAGCTAATTTTTGCATTTTTTTAGTAAAGACGG
GGTTTCACCATATTGGTCAGGCTGGTTTGGAACTCCTGACCTCAGATGATCTACCTGCCTCAGCCTCCCAAAGTGGTGCTGGGATTATAGGTGCCAACCA
CCGCTGCTGGTCTTTCCTCAGATTTTAATGGTAATACTTGACAGAGCAGGAACATTGCCATCTTGGACAAGCACTGCTATTCTAAAGTTCCCCTTGATCA
AAAACTGCCTAATCCAAAAGGCATCAGCCTAATGGCTAAGGTCAGCATGACCATAAACCGCAAATGACATCTCTGACCGGAAACCTTCCAACCATAAGAT
AAACCCCTCCCCGACTGGAGAGATGTCAGCCCCAAGATAACCTTCCCTCCAACCAGAGACATTCCAACCCCGCAATAAACTTCTCCCCGACACAGAAATA
TTACAAGCCTGTGATAAATTCTCTTGCCCTGAACTCTTAAATAATCTTAGTCTGTAAGAGAGGGCCCCTGACTGAAATCGGCCAAAAGCCCCTCTCAGGC
TTATTCTCTAAAATAAACCTGTCTTTGACTGTTGAGCCGCTTTTAATGTTTCTTTCCTCTTTCTTTAATTCTTACAATACTTAAATATGTAAGCTCCTTT
TTTTTCCTATGAAAAAATTGTATCATAACTGAGAAATCAATAAGGACAATAAAAATTAAGATATTAAAATAAGGCCAGGTGTGGTGGCTCACACCTGTAA
TCCCAGCACTTTGGGAGGCTGAGGCAGGTAGATCACTTGAGGTCAAGAGTTCCAGACCAACCTGGACAACATGACAAAACCCTGTCTCCACAAAAAATAC
AAAAATTAGCCGGGCCTGTTGGTGTACGCCTGTAGTCCCAGCTACTGGGGAGGCTGAGGCAGAAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAATTA
GCCGAGATCTCACCACTGCATTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAATAAATAAATAAATAAATAAATAAATATAAATAAAATGGAAA
GAATTTGCAATACAAAATCTATGTGCCTTAAGGTAAGTCCTACTAAAGACATGCAGTAAATGTTTATTTATGTTTCAATCTGTTTCACTTTTTGATTTTA
TGAGTTAAATGTCAATGAAAAATTTTTTTCAGAGAAATAGTACTGTTTCATTTTTCTTTTAAATAATGTTGATCTGAAATTTCTCAAGTAAACCCAGCTT
GCCACCTTCAGGTCACTGAAAGATTTACAGAGACTATAGTCAGAACACTAATACTGCATCTTTCTCAATAATCCATAATTAATAATATCTTGATCACTCT
ATTGTGCCTTTGTCAAATGCACTCTATCTAGAATCTTTCCCTAGCATTTACTGGAATCTTCCCAACTTTCAAAGCTCAGTTCAAATGTCACTAACTCCTA
GAAGCCTTCACTGATCACTCTAGCTAGTTTTTCCTCCTCTAAATATTTTATTTCCTTGATTACTTGTAATCTCACTGAAGGTAATAACCATGTCCTACAC
ATATTTTATGCCTCTGCGTGGCTATTAAAAAAGGTGCATATAAGAATTGTGCATTCTAGCTGGACGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGG
AGGCGGAGGCAGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCATGGCCAACATGGTGAAACCCCGTCTCTACTCAAAATAAAAAAATTAGCCAGGT
GTGGTGGCAAGCGCCTGTAATCCCAGCTACTCAGGAGGTTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCGGAGATTGCAGTGAGCTGAGATCATGCCA
TTGCACTCCAGCCTGGGTAACAAAGTGAGACTTTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAATTGTGCATTATAATATTTACTGAATGAACACATGA
ATGAATAAATAGGAAGCTAGAGTAAACATTGAGCTTTCACTTGGAAGAGGTCCCATTTTACTAGTAAATTAACGGGAATTCTACACATTTATTAAAGACT
ATATGCATACATATAAAAGCACAATTTTCATTGACAACTAGCAGTGTCTCAATCTCTATTAAGCTCTCAAACAATATTGTTGATGAATGATTTAATGACT
ATTTGGTGACTGGCTTTGTGATAACTACTCAAATCTTAATATCTAGACATTTAAAGAGAAGAAAGTGTGATGATATCTTTTACTTTTTTTTTTTTTTTGA
GACAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTATCATGCCTCAGCCT
CCTGAGTAAGCTGGGATCACCGGCGAGCGCCGCCACGGCTGGCTAACTTTTGTATTTTTTTGTAGAGATGGGGTTTTACCATGTCGGTCAGGCTTGTCTT
GAACTCCTGGCCTCAGGCGATCTGCCCGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCATAGCACCTGGCTGCTATTTTTTACTTTTGGAC
TGAACGTGAGATATTTCTCTTGTTTTGTGATATGGCCATACCATCTAATTATTTTCCTCTAAACCCCCAAGTTGCTAATATACTATAAGCTTATTAATAA
AATATGTAACCGTGGCATGTAGTCCACCAATACATGACTCAGAAAAATTCCCAAATTTTTTGTCTAGTTCCATTTAGTTTAGGGCATGAGGTTTTCTTTC
ATGTTTACATTCTCTCTAGAATGAAGTTCCCCTCTCTCTCTTTCAAGGTCTACATGTATCCAGGACTACTAGATGAAAAACTGGTCATAGATGTTTGTTT
CTGGTTTTTTAATGGAGAAGGGAATGGTCCACACTTGAGAATGGTTTATCTCCTTGAATTCCTTCCATTAGAATTTTCTTTCTTTCTTTTTTCTTTCTTT
CCTTTTTTCTGAAACAGGGTCTCACTCTGTCACCCAGGCTGGTGTGCAGTGGCACCATCACAGCTCACACTGCAGTCTTGTCCTCCTGGGCTCAAGTGAT
CCCCCTGCCTCAGCCTCCCAAGTAGCTGGGAATACAGGCATGCACCTCCATGCCTGGCTAATTTTTGTATTTTTTGTAGAGATGAGTCTTGAGATGGGGT
CTCACTATGTTGCGCAGGCTGGTCTCAAACTCCTGGTGTCAAGTAATCCTTCTGCCTTGGCCTCCCATCGTGTTGGGATTACAGGCATGAACCACCACAT
CTGGCCCCATTAGAACTTTCTAACAAAAGATGATCTTTCTCCTGCCCCCTAGAGGGCTGTTTATCCCTTCTGTCAGTCCTTCCTTTCTCATTATATCCTC
TCCACTCTCTGCCCTCTGCCTAGGCCCAGCCTTATCCATCTGAGAGAGGAAGTAACCAGTAATTTGAGCATGCACAGAAGGCTCTGATTTGGGACCTCAT
GTCAGCAGTGTCTTTGGATTTTTGTTTCTGCTTTGTTGAGGGCTGAACAGGAAGATAGGCCCATGGGTTACCAGTGAGATAGAAAAAGGGGAGGAAAATA
CAGAGAAACAATCGGATTCACATTTTGGGATACAAATCCACCACAAATGCAAGTTTATAATACCTATGTGGGCTAAAAGTTTGTTCTCTCTCCTCCAGTC
CTTTATCTTTCCTCAAAATGTGAACTTGGTATTTCTCCCTCATCAGTATCAGTTTCAACTCTCCTAAACAAATCTTCTAATTGTACCCCAATACTTTCAT
TGACCAAGTCTTCTCTTAATCACCACATACACACTGTAGTAGCGGCATCTTTTTCCAGCTATTCTTTTCTCTCCCTTTCATTTACCCTAGTTGATTCTAA
CCAGCCATCCCCAAGTGTATTAGGTACATTTTCAGTTTGCTCGCGAATTCTCATTTACTCACAATATGGCTTCTGTCTGCTTCCCTTTACCAAGACAAGT
CTTGTTTTGGTCCAATTAATGAGCTTTTAAAAAATCCATGTAGCTTGATACCATTGCTCACTCCTTCTGTGAACAATTAGGTTCTGTTATTAATTAGGTT
TGTACATATCACCATTTTTCTAGCATTTTAAACTTTCTGGTTCTGACTGTAATAATATCTTTGATAATTTTCCTTTTTTTTTTTTTTTGCTTTATTTACT
CCTTTTAACCATCACAACAGTGGTCCTATACTTTTCTTTCTTTCCTGAAGATGATTTTAAAATTCCATTCCATTTTTGTAAATCTGTAATGTTGAGTCTC
TTTTGGATGCTCTGAAACAGGTTGCTTGGATTGTGGAATATTTTGAAAGACTGCTTATGAGGCAATAGCAGCAGGGTGCAATTCAGACTTCTCACACTTC
TTTAAATACCAGTTCTTTCAGGAGTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTTGTCCAGGCTGGAGTGCAGTGGTGAGATCTTGGCTCACTGC
AACCACCACCTCCCGGGTTCAAGAGATTCTCCTCCATCAGCCTCCTAAGTAGCCGGGATTACAGGTGGCTACTACCACCCTAGGCTAATTTTTTGTATTT
TTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCTCAACCTCAGGTGATCTGGCCACCTCAGTCTCCCAAAGTCCTGGGATTACAG
GCCTGGTCTCAGGTTTTTAATGTAACCCAAAGATAAGAAATAGATTCAATGTCGTTAGGGACACTGACCTTTCTTCCCAGATTCAACCCATTTATTTTCT
ATTTTTACTCTGTACTTGAGTTTTGTTTGTCATTGTAATTTGTAAACTCACTGGGTAGGAAATAATTGTTGATCTTCTAATTTAGAATAGCCCCAAGCAC
ATGGTTATCATGGTAACATGCTTTAAATGTCCTTGGTTATAAAATGAACAATGTTAAACATCACTTGAATTTTTCACTTTTATTTTTCTTCATTCTTTGC
TTGCAGGTTTTATATTCTATACTCTCAATAGGTGGTTCTCATACAAGAATGGGGTCAGTTCTATTAGAGTTACAAACATTGGAAGAAAATACATTATTTT
GGTACCAAAATCTAAATACTTCCATCTCCCAATGCAGTTTAGTGGTTATTAGTGTGACTTTGAATCTTGGCCCTCTTAGTTCTTTGTTTTGTCACCACAG
GCAAGTTTCTAACACAAAAATTAGGGATAGTAATAACCTAACTGTATGAGTTTTTGTGAAAAATAGAGGAAATAATTTACAGTTGAAACCTGAACAAGGT
GGGGTTAGGAGCACGAGCCTTTTGCACTGTAAAAATCTGCATATAACTCTTTTCTTTTTTTTTCTTGGAGACAGAGTCTCGCTGTCACCCAGGCTGGAGT
GCAGTGGCGCGATCTTGGCTCACCCCAACTTCCGCCTCCCAGGTTCAAGTGGTTCTTCTGCCTCAGCCTCCCGAATAGCTAGGACTACAGGCACGCACCA
CCACACCCAGCTAATTTTTTTGTATTTTTAGGAGAGATGGGGTTTTGCCATGTTGCCCAGGCTGGTCTTGAACTCCTGAACTCAGGCAATCTGCCCACCT
TGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACTGCATTGGGCCAAAATCTGTATTACTTGACTCCCCAGAGCTTAACTGTTAATACCAACTATT
GCCTGGAAGCCTTACCAATAACATAAACAGTTAATTAATACGTATTTTGTATATGTATTATATACTGTATTCTTAAAGCAAGCTAGAGAAAATAAAACAT
TAAGAAAATCATAAGAGAAAATATATTTACTATTCATTAAGTTTAAGTGGATCATCATAAAGGTTTCCATCCTGTTCAGTAGGCTGAAGAGAAGGAGGAG
GAAGACAAAGGGTTGATCTTGCTATCTCCAGCTTAGCAGGTGCAGAAGAAAAAATCTGCCTACAAGTGGACCTGCGAAGTTCAAACCAGTATTGTTCAAG
GGTCAACTGTATCAGAAAGATTTGACTACTATGAGCTAAGTGGTAATCATCATTGGTCTGAAATGATGATTTTTAGAAAGTGACTTTATTATATCACTGA
TAGAGATGCCCTATACTGAAATACTGAGATTACCAATACCTTGCCTGTACCACAAATGTATTTTTGCCATTTTGCTTTCTGTTTCTATAATATTTTGAAT
TCCTAACATGATCCAGAAGGCTGGGAGATGCTCCTAATGAAAGAGAGAAACCTGGAATGTTCTCCTATTTACCAGATTGCTTCCTCTCATACCCAGGTTT
TGAGATATAAAGTTGTTACAAAGTTCCAACTTATTTGGTATCATTCAAAATCTGATGAGCTTGCATTTTAAGAAGTGTTGATCAGTTCCATTTAAAAGCA
GTTGGTATGAGTTCACTTTATTTTTTGAGGTGGAATCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCCCTGCCTCC
TAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTATAGGCGCGTGCTACCACACCCGGCTAATTTTTTTTATTTTTTTATTTTTAAT
AGAGACGGGGTTTCACCATATTGGCCAGGCCGGTCTCGAACTCCTGATCTCAAGTGATTCATCTGTCCTGGCCCCCCAAGGTGCTGGCATTACAGGCATG
AGCCACCATGCATGGCCATGACTTCACTTCAAATGAGCACAGAAAAATCTGGGGGCCCAACAACCTTATGGTACATCTTTTGAAGCCTGGTCAGACAAGA
GGGTCTTTAGGTGATGGTGAAGTGACAGTTTTGAGTTGTCTTCTTTGGTAGTAAGTGTTGGCTAATTCTAACAGCAGGAACAATTGAGGAGTCCAACAAA
CAATCTTGTTCACATTGCAATGATTTTGTTACAGTTGACACTAATTTAAAAATTGGCAGGCTCTAGACCAGAAAGACCTGCCCCCAAAGTACCTTTTCTG
AAAAAGTTGCCCTGCCTCAGATGCTGTGTATCTGTTGAACTTTTCAGCTACTGTGGTTTCCAAGGAATGCACCTCTATCAAAAATGAGCTTAATTCCTAA
GGAAGTCAATTATTATTCCTCCATTCCAGCAAAGTCAACAAATATTGACAGCCCACCTTGAATCACTGTGCTGGGCCCTGGATGTAGCAGTGTTTTAATA
TTTCGACTCTTGTGGGGGGGGGCTTTACAATCTAGCTGGGCAGAAGAGGAAACATGCAAATAAATTAAAATGCAGGGTCCTATGAGGGAAATGAACAGCC
TTGGTGACCTAAGTTTTGATAATAACATAACTAAAAGTTCGGCTCCACAACTCAGTAGCTGTGTGCCTTGGACAGGTCATATCAGATTAGGAAAGGTGAG
AATGAGTTGAGGAACGCAGCACTCTGGGATCATGGTTCCAGCTCCGGGCAGAGGGTTACATCGTGTCAAGTGTGTGAAGGCAGAATAGCCTGCAGAGACC
ACTGTGGCGTTGAAAAGAGGTGTCGTCGCGACCTTCGGCGCCGGAGAGGCGAAACAAGAGGGGGTCTTCGGGCCCTCAGGTATGGCTCAGCCGCCCAAGG
CGAAGCGCACGTGGCAGTTGGCGGGAAATCCCTGGGGGGTGGAGCCTCGGCTCGAGGTCCGGCCGCCCCGTACCACGTCATCGAGCAGCTCCCCCTCCCC
TTGCTACAAGTCGCACGCGCGGAAGTAAACACCTCTACGTCATCAGGGCGCGTCCTCGTCTTTCCCCTCCCATCTCCTCAGATCGGTGGACGTGCTCGCC
TCCACTCGGGGCCAGGTCTATGTCCCGGTTTCCCGCAGTCGCGGGCAGGGCGCCAMGGCGGCAGGAGGAGGGTGAGCGGTCAAGAGACCTCCAGGAAGAG
CGGCTCTCGGCTGTTTGCATCGCCGATAGAGGTGCGGTCCGCGGGACGGTACGGAAGCCAGCGGGAGTTACGGCGTGGGGGTTTTGGTGGGGGGATGAAA
GTACGCCTTTGGCAGGCTGAGAAGAGTAGTGAGGAAGCCGTGGCGTTCTCCTGGCTTTCCAAGCCCGAGGCGAACTTTGCGTCCAATGAGCACTTTGCCT
TAGAGGGGGGCGGTCCCAGATTCAAGTTAGGCGAAAACCTTACTGGGGGGCGAAAAAGTGAACCCCAACGCCCGAAATGCATTCTGTTCTTAAACAGGCT
CATAGACCCTTTGTTCTCTACCCATTCATCCCCCCCACCCTTCGTCGGGCCGCCAGCCTGCCTTTGGGTACAGTATGAAGGGAGCCAGTTTCCAGGAGCC
AGTTTCCATGGTTACCCACCACTTGGCCTTCTGGGATATCAGTCGCTCTGAACAGGGACCTAACTTGAACCATGAATCAGAAGCAAACACAGGTGGCTTC
TAATCCAGCTGAGAATTTTCTGCTGTGTTCCAGTTTTTGGTCTATTGTTAAATAAAATTGAGTTTTGTGCTTCTGTGTAAGTATGCATGTGTATACGTTG
CCTTGAGCTATACTTGCTTTGAAAAGTACTTTGAGTTATGCGTGAACAAATGCTCAAGTTGCTGGATTTCACCAAAAAGTTGTTCTGGGCTCATTAACCC
TCACTTACAAATTGCGCTCATTAACGCTCACTTACATGAGCGATTTAACTGAGAAGTCATGGATGATCCCGTCCAGCCCTAAAATTCTATTGCCTTTCTG
GTTTTAGTCATGAGAAATTGAGTCAGAGATATCTTTACAAGTCTTTTAATTGACTTGTTTTTCTGTTATTACAGAAGAGAAAGGATGCACGTCCCAGGAG
GGAGGAACTACTCCAACTTTTCCTATTCAGAAACAAAGAAAAAAGATTATTCAAGCTGTGAGGGACAATTCATTCCTTATTGTTACTGGAAATACAGGAA
GTGGTAAAACAACTCAACTCCCAAAATATCTATATGAAGCAGGTGATTTTTTTCTGTTGTAATAATTGGAAATATTTTAAAAATATCCTCTTTTTAAAGG
CCAGTAGGACTTCTGTACTCCATGATTGCCCAGTATTTGCTTTATAGTCCCGCTTCTCTTGGCACACCCCCTTCCCCTATGTCTCCTTTGCTTCTTTATG
GTCTATTTCAGGTTCAAGAATTAGTTGGGATGGCAAATTTTCCCATTTTTAATTACCATAATAATCTCAAATAGAATTACATCTAGATATTCCATTTTAT
AGAATAAAGTTGTCTAGCAGTAGACTATTAACCATTGGATACTGAAATAATTTTGAGGGGTAAGAGATATGTGATATCTGTTGCTGCCATTAGTACTTCT
TGGTTCTTTCTCTAGAGCATTATCAGGTAAATATTTATCCCCTGACTTTGCCAGCGCAAGCCAACTAACAAATTACCTTTAAAATACGTTAAGTAAAGTT
AATAGGAGGCCTTTGGTTTGGACTGATCCCCCGCACTAGACCCAACAGACCAAACCAAAATGGAGTTACTCATACTGAAGTTCCACGCCACCAAGTCTAG
AAACTAAATTTTTCATCTACTGAGAAATCAGGAGAAAGAGATAATAGCCAAATCCCCAAACAGACCAGTTTTAGGAGCATCAAGAAGTTTCCTCTGCTTT
AACTTTGACAAGAAAAGTAACTTTGAAATGAGCAATCTGCTTTTTGTTTTCTGTTTCTGCTTTCCTCAGCCCTTTTCTGTCTATACAATCAGCCTCCTCT
GCTCAGCTCATTGGAACACTGATTCTATTTTATGAGACGATGGGTTGATGTGATTCCAGAGTTAGAATCACAAAAGCCAATTAAAAAGTTTTGGCTGGGC
ACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGCCCGAGGTGGGCGGATCATGAGGTCAGGAGATCGGGACCATCATGGCTAACACAGTGAAACCC
TGTCTCTACTAAAAATAGAAAAAAAAAAAATTCGCCGGGCGTGGTGGTGGGCGCTTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGA
ATCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGTGCCACTGTACTCCAGCCTGGGAGACAGAGTGAGACTCCGTCTCCAAAAAAAAAAAAATTTTTTA
GGCCGGGCGCAGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCAGGGCAGGTGGATCATGAGGTCAGCAGTTCGAGACCAGCCTGGCCAACATGG
TGAAACCCGTCTATACTAAAAATACAAAAATTAGGCGTGGTGGCGGGCGCCTATAATCCCAGCTACTTGGGAGGCTGAGGCGGGAGAATCACTTGAACCC
AGGAGGCAGAGGTTGCAGTGAGCTGAGACCGTGCTGTTGCACTCCAGTCTGGGCAACAGAGTGAGACTCTGTGTCAAAAAAAATAAATAAAAATAAAATA
AATTTGTTGTAATTTTGTTTTTTGACAAGTGTCATTCAGTATGACAGAACTTTCTGTCATAAGGTTTGTAAAGAGCAGTATTATATTGGATATGATTTGC
CTTAAAAAATAACAAATGTATTATTCTAATGCTTCAATCTAAGGTGCCATCTATTAAGATATATCACTATTTTATGTGCAGTAATCCCTTCTTATCCTTG
GGAGATGCCTTCTAAGACCACTCAATGCCTGAAACTGCCAATAATACCAAACCCTGCATATACTATGTGTTTTCCTATACATACATACATACTTTTGATA
AAGTTTAGTTTATAAATTAGGCATAGTAAGAAATTAACAACAACAACAATAAAATAGAGCAGTTATGACAATATACTGTAGTAAAACTTTTGTAAATGTG
GTCTCTCTCTGTCTCTCAAAGTACTGTAACATTTTTGGACCTCCACTGACTGTAGGTAACTGAAAAATTGGAAAGCAAAACCAAAGGTAAAGAGGGACTA
CTGTATTAGTAAGAATGGAAATGCGCCATCGATTTTAAGATGCAGCTCCATTCCCAAATATATTAAAATGGTATATGGAAGGTGCATATATATATATATA
TAAATATAGATATATATATTTATTTATTTTTTTGAGATGAGATCTTAYTATGTCGCCCAGGCTGATCTCAAACTCCTGAGTTCAAGCAATCCTCCTACCT
CAACCTTCTGAGTAGCCAGGCTCCTGAGTAGCTGGGATTACAGGTGTGTACCACTGCTCCCAGCAGAAAGGTGGCATATTTAAGTCCAGTTTTAGGCTGG
GTGCAGTGGCTCATGCCTGTGATCCCAGCACATTGGGAGGCTGAGGCAGATGGATCACTTGAGGTCAGAAGTTTGCGACCAGCCTGGCCAACATGGTGAA
ACCCCATCTCTACTAAAAATACAAAATTAGCTGGGTGTGGTGGCGCGCACCTGTAATCCCAGTTACTCAGGCGGCTGAGGCAGGAGAATTGCTTGAACCC
AGGAGGTAGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCCGCCTGGGCAACAGAGCAAGACTCTATCTCAAAAATAAATAAATAAATAAATAAA
TAAATAAATAAATAAATCCAGTTTTACTCTTGTGGCAAAAGTAAATTTATTTTGGGAAGTGTGTGGAATTTTATGAATTCTTATGTTTCAAAATTCTTGG
CTTACCTTTAGAGTAGATTTTTAGACAGAAAAAAACAGACAAAGCCTGAATTCTAATTTAAAAAATATATTTTTTACAAAAAAATTAGCTGGGCCTGGTG
GCAAGCGCCTGTAATCCCAGCTGCTCAGGTGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAAGTGAAAGTTGCAGTGAGCCGAGATCGCGCCACTGCAT
TCCAGCCTGGGCAACAGAGCAATACTCCGTCTCAAAAAAGAAAAAAATATATATATATCTATATATATATATAGATATATATATAATTTTTTCTTTCTTT
TTTTTTGTTTTGGCTGGGCGTGGTGTCTCAAGCCTATAATCCCAGTACTTTGGGAGGCAGAGGCAAGTGGATCACCTGAGGTTGGGAGTACAAGACCAGC
CTGACCAACAGGGAAAAAACCCGTCTCTGCTAAAATACAAAATTAGCCCGGCATGGTGGCACATGCCTGTTATCCCAGCTACTCGGGAGGCTGAGGCAGG
AGARTTGCTTGAACCTGGGACGCAGAGGTTGCGGTGAGCCGAGATTGCGCCATTGCACTACAGCCTAGGCAACAAGAGCAAAACTCTGTCTAAATATATA
TAATATACATTATATTATAATGTATATTTATATATAATATATAGTATATATTATAATATATTATAATGTATATTTATATATAATATATTATAAATTATAT
AATAYATATAATATGTTATATATTAATATATATAATATATAATATATTATAATATATATTATATATTAAATATATATTAGTATATAATATATATAATATA
TAAATATATATAATATAAACTGGATTTATATTATATATATTTATATATTATATATATAATATATTTTTGCATGGTTATTAATATGTATTATTTTAAATTA
ATATTTAAATTTCCATGATGCAAACATAGCAGTGTGTTTTTAATTTGCGAGATATTCTTTTGGAAACATTCAAGCAGTTTTGTGTTGATTGGCCAAAAAC
AATTTAGCTCTAATAGGAAGACAATTGCTAACATTGTTGTGTTTCTTYATCTCTGGTTTTGATAGGGTTTTCACAACATGGTATGATTGGTGTAACTCAA
CCACGAAAAGTAGCTGCTATATCAGTTGCTCAGAGAGTAGCTGAAGAAATGAAATGCACTTTGGGATCCAAAGTAGGATACCAAGTTCGTTTTGATGATT
GCAGTTCTAAGGTACAAAAGTCTTGTTGGTATTTGTTTCTTTTCTTTTATGGGACAGGGTCTTGCTCTGTCGCCCAGCCTGGAGTGCGTGGCGCAATCAT
GGCTCTCTGTAGCCTCTACCTTCTGGGCTCAAGTGATCTCCTACCTCAGCCCCTTGGGTAGCTGGGACTACAGGAGCATGCCACCATGCCCAGCTAATGT
TATAAACTTAACAGAAAGAGTGGAGAGAGTTCTGAAAGATTTTTAACTTCAAAGTTCAATATATATTTTAAAGAATTTATTTTTGTTGTTCATTGTTAAT
GCTTTAGCTCTCAAGTGTCTGATGTTCATCCCATTTTCTCCTTCCTTAGTTTATAAATGACAGTTTATTTTCTTAGGATTCTCTTATTTATGTTTTTTAA
CTGTAAGGATTCTTGACATGTAGGTTTTTAAAATGTTTTWTTGTAGTAAAATATATATAACTTAAAATCGACCATTTTACTATTTTGGTATACAATTCAG
TGCCATTAAGTATGTTCACAATGGGCTGGGCTCGATGGCTCACGTCTGTAATCCCATCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAG
TTCGAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTTTTAAAAATACAAAATTAGCTGGGCACGGTGGTGCATGCCTGTAATCCCAGCTACTCAGG
AGGCTGAGGCAGGAAAATGGCTTGAACCCGGGAGGCGGAGGTTGCGGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCC
ACCTCAAAAAAAAAAAAAAAATGTGTTCACAATGTTGGGTAACCATCACCATTTCTACTTTCAGAACTTTTTTTATCATCCCAAACAGAAACTCTTATAG
ATTAAAACCCCCATTTCTCCCTCCCCCTAGCCTCTGGTAACTTCTTTTTTTTTTTTGAGACGAAGTCTCACACCATTGCCCGGGCTGGAGTGCAGTGGCG
CAACCTCCACTCCCTGCAACCTCTGCCTCCCAGGTTCTAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGTTTACAGGCTCCTGCCACCACGCCCA
GCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTGGTCTCAAATTCCTGACCTTGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGGTA
AACCACCGCGCCCTGCTGTATCTTCTGTTCTACTTTCTGTCTCTACAAATTTGCCTACTCCGGGTACCTCATTCAAGTGGAATCACACAATATTTTGTAC
TTCGTGTCACTCTTATTTCACTGAGCATGTTTTCAGGTTGATTTATTTTATGTGTTTGTATTCTTGAAGTCAATGGAAAGCTGAATTAACAAAATCAGCC
AATTAACAAAATCAGCAAGTGTTAAAGCATCTTCTATATTCATGGCACCAACAAATTTAAAATTTTCTTTTTAATAGTGAATATTATAATTTACATTCCC
TGTGGATTTCTTAATCCTGTCCAGCTACAAAACGATCCCTGGTTTACATATGTTCCCTAATGGGAATGGCCATCAAATGTGGCACAAGATGACTCCCCAA
AATACTATCTTTTTGCCTTCCTAGTGGTCACTGTTTTTTCTTTCTTCTTTCCCTTGTTTTATGGATGTCGTTGCTGTTATTCCTACCCTTTGGACCTTTT
TCTCACCCTGTTTTAATGCTTGTTGAGTAACACATTTTTATTTGGAGATAGTGTCTTACTAAGTCACCCAGGCTGGAGTGCAATGGCGTGATCTCAGCTC
ACTGCAATCTCCGCCTCTCAGGCTCAAGCAGTCCTCCCGTCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGTGACCCACCACACCTGGCTAATTTTTAT
ATGTTTATTAGAGATGTGGTTTTGCTATGTTGTCCAGGCTGGTCTCGAACTCCTGGACTCAAGTGATCCGCCCACCTCAGCAACCCAAAGTGCTGGGATT
ACAGGCGTGAGCTACCGTGTCTGACCTAAGTAACACATTTTTTAATAGAGAAGAGGAGAGAGTGGGTGGAAAGTATGCACCTACCATTTTCTCATTTCCC
CCGAATCCTCTAAAATAGGGGCTGAGTCAGAAAGATAAATCTCATTTCACTGTTGTTTCCCACAACTTGCTTACCCAATGCCATTGCATCATCTTGCCAC
TTTCCTCTGACTTTATTGTATTTCCTTATTGGTGATTTTTGTTGCTTTGTCCAAGAATACCCAAGTGAGTTATTTGTCCCTTTTTCTGTATAGACAGCAT
GTTTTGTAACTTACCATCATTTTGTATACATAAGTTAGACTATTTTTATGTACCCTTTTGTTTAGTCAGAKTGGTTTGATCACTTAATGTTTGTACCTCT
TGAGGAAAAATTTAGTTGGGAAAATAGTGGTGAATTCCTGTGACACTGCTGTTTGAACATTAGGAGACAGCAATCAAATATATGACTGATGGATGTTTAC
TGAAACATATTCTGGGAGACCCAAATCTTACCAAATTCAGWGTCATTATTTTGGATGAAGCCCATGAAAGAACTCTAACTACAGTGAGTATTTTAATTTA
TTATTATTTTTTTATTAGCAAGTAGTTTGTTTGGGTAGCTTTTTATTGTGTAGAGAATTGCCTCCTCTTACTTTTTAATTTAATTTAATTTTTTAGAGAT
GGAGTCTTGCTCCATCACCCAGGCTGGAGAGCAGTGGCACGATCATAGCTCACTGCACCCTTGAACTCCTGGGCTCAAGTGATCCTCCCATCTCAACCTC
CTGAGTTGCTGGTACTGCAGACGTGCATCACCATGTCTGGCTAATTTTTAAGAATATTTTTTGTAGAGACAGTGTCTCGTTTTGTTTCCCTGGCAGGTCT
CGACCTCCTGGCCTCCGACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCTCCTACTTATATTTTAATGTATTAAAATAGG
AATTCCTTGGTTAGAATAGCAGTGTATCTAAAATAGTTTGGCTGTTAAGTGTACTTGTGACTTACTAGAAATTTACTTTTCTTTCAGGATATCTTATTTG
GTTTATTGAAGAAGCTATTTCAGGAGAAGTCTSCTAATAGGAAGGAGCATTTAAAAGTGGTGGTAATGTCAGCAACTATGGAATTAGCCAAGCTCTCTGC
ATTCTTTGGAAATTGTCCAATATTTGATATACCTGGAAGGCTTTATCCAGTCAGAGAGAAATTCTGCAATTTGATTGGTCCACGAGACAGAGAAAATACT
GCGTATATTCAAGCGGTATTACTTGGCATTCATTTAATGTCTTTTTTAAATATCTATGATTCTTACTAATTGGGTGGTTTGATAATTCATTTGTTCACTA
CTATTTTAATGACAGTCCTCACAGGTCCTAGAACTTTTAAGAACCAAATTTAATTTTTCTGTGGGGCAAGGGAAGTGGTGGTAAGGGAATGACTGTATTT
CCACTAGCATATTATGCCTGCATTTCTTGCTTTAGATTGTGAAAGTCACCATGGATATCCATTTGAATGAAATGGCTGGAGACATCTTGGTTTTTCTGAC
TGGTGAGCATTCAGTATCAAGTTAAAAAACTTAAGTATTTGTAAGTAAGGAATGTGGCACCCAGATAGAGTGCTACCTCTGTTGGGAATTCTGTGCCCTT
CTCAAGTGTTGCCCTAGCTTTTTCTGATTATCTGAATAATTTTAGGTAAAAGATAGATAAAAATTGTAAGCTAGCTGCCAAAGAGGATTATATATATTTA
TGTCAAAGACATAATAGTATGTATATATATTTTATGTCAAAGACATAGTAGTATATGTCAAAGACGTAATAGTGTATATGTATATATACACACACATATA
TGTCAAATGTCAAAGACATCAGGCTCATTAGTAAATATATGTAAAACACACTGACCTTTTAATAGAAAGAAATTAAATAGTGAAATATTGTTTTTTGTTG
GTCTGTCTTAGATAGAAATGWAACCTGACTAAACAGACCTGAGTTAATTCCATTATTTCAAAGGACATTTCACCAGGTTCTTCTTTGGGTGGTGGCATTG
TACTGTGTGATAACAACACATAAGGTGTAGAATCTATGTGTCGTAGACAAGCATGTGGCATTTTTGGAGATCAAAAATAAAATAGTTAAATCCCAAACTA
GTGGCATAACTTTTCAAATAGCAGCACCCTCCTAATAGGAATTAGTAGTTTCCTTGTTTACCTTTTTCCTCTGCCTTGTACTAATGTCAGAAGTRAGGGA
TTGTCACAATCTTTGCCTTTTTGGAGATTACTTAAGTATTTTGAAATTTAACCAAATGCAATAGCACCTGGACTAGCTTTTCTCCTTTGTTAACAATTTG
GTGAGTCTTCTCAAATACAGGGTGAAAAGCTTGACGATGATAAATATTTTTATTCCTTTAGAGATTTARGTTTCTTAGAAACTGATGTTTCTTCTACTTC
GAATTTTATTGTTGAAATATGGTACAGCTTATGTGTTCATCTCCTTTACATTAAATGAGAGATTTACAATAACTTTTAGGCAAAATTAATTTTAATCTTG
ACATTTTCTTTATTTTTAAATTAATTTTTCTGTTCAGTTGCTGAAGTTATTTTTTTCTTCCCATTTTAGGCCAGTTTGAAATAGAAAAAAGTTGTGAGTT
ACTTTTTCAGATGGCAGAGTCTGTTGATTATGATTATGATGTTCAAGATACCAYCCTCGATGGCTTGTTAATATTGCCGTGTTATGGATCAATGACAACT
GGTAATTTCTCATTAGAATAGAAAATTTGATTTTTTTAAAAAACTTTTTATTGAATAATCGTGTTTACAGAAAAGCAGTCAGATCTTAAGTGCTTAGGTA
AGTTTCACAAACCAGTCTCACCTTTGTAACCCACATCCAGATCATGAAACAAATCAGTGAGAACCAGCATTCCTTGACAGTAGTGATTTTTGCCTGAAGT
CTTTTTACATTCACTTTTTTGAGAGTCGTGGATATCCCCCTTATTATCGTTTAGAGTATTGTTTCTCCCAGCAAAACAAAACTATTGGTGAGAATTCTTT
GAAATGAGGACAGTAGTTTCTTGCTGGTATTACTGTAAGTCAAAACCTAATTTGCCATTGCCACAGAATTTTTAGAAATTGTGTATATCCAGCTATATCT
AAGTCTAAACACAGTGGATTGTTTTGTTTTTTTTTTGTGATGGAGTCTCGTTCTTGTCATCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCCCACTGCAA
CCGCCACCTCCTGGGTTCAAGCGATTCTCCTTCCTCAGCCTCCCAAGTAGCTGGGATTGCAGGCGCTCGCCACCACACCTGGCTAAGTTTTGTATTTTTT
TTTTTTTTTTTTTAGCAGAGATGGGATTTTGCCATGTTGGCCAGGCTGGTTTCAAACTCCTGACCTCAGGTCATCTGCCTGCCTTGGCCTCCAGAATTGC
TGGGATTACAGATGTGAGCCACCATGCCTGGCTGTGGATCATTTTCCTTTTAAAGTAGCCATGCCTTAGTCTGCTTTTCAAGAATGATCCTGTTCTTTGG
TGAATTCCAAGAGCAAATGCAAACTCTTGATTTGACATTTTGGTTATAGTAAATATTGTTGAATGAGGTTTAGAATTTGTTTTATAAAACTTTTATTATG
GAATTTAACTTGTAAAGTTAAAGGGAAATTAACCTTAGCCTCCTATTTGGAGTTGGAATTAGCATTTGAATGTTTTTATATTTTACATGTATGCGTATTA
ACAGCTTTTGTTGATTGGGTGATTCTTATCCCTATATTAACAAAGTTTTGGAATATATGTGTCAGTAAAGAACATAGATGTGCTATTTTGGAAATCTTTT
TTATGATGATATTAGCTTCTTACTCTCTATTRAAGCATAGATATCTATTTTAGATTTTGTCATCTTCAGGGAAATTCTTAGGATCATTGTTTAAGGTTCT
CATTGTTTTCTCAAGATTTGGTTCACYGATGCTTTTATAATTTACATTGAAACTGATAAAAACCCATTATGTTTGGTTTGTTATTAATCATTAACTAAAT
ATGTACATAGACATATATTATTCTATACAGAGTAAATAATTTCATTCTTTCTTACTGCTACATTGAAAATAATGTTCTGGATTTTCTCTTGCCTCTGTTT
TTTTTTTTTTGTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAGATTCAA
GCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCGCGCCCCCACGCCCTGCTAATTTTTTGTATTTTTCTTAGAGACAGGGTCTCACC
ATGTTAGCCAGGATGGTCTCGATATCCTGACCTTGTGATCCTCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCACCACGCCCGGCCTA
GAAACATGACTTGTAATGAAAAATTAAGTTCTTCAAAACTCGAGTTTGACACATGCATGTTGTAAATTGGTATTTTCTTTTTATATATACTTCAGATCAA
CAGAGGAGGATATTTTTGCCACCACCACCTGGAATTAGAAAATGTGTCATATCCACCAATATTTCTGCAACGTCTTTGACAATAGATGGAATCAGGTAAA
ACTTTTGAACTTTCTCTTAAAGTCAAGGAAGCCTATCGTTACTAAACATTAGCTAAACATTACTGAGTTTGCTTTTCTGTGCCCTCCACTAATTCCCTTC
TCTCCTACTTTTTGATGTTCTTAACATGTAATCACCTATTTTGTTTTGTAATTATTGATTGCTTTGAGCAGGAAATGGAGTAGGAGGTACATACTATATT
CCTATTCACACTTTTTGTTTTTTTAGAGACAGGGTCTCATTATGTTGCTGAGGCTGGAATATAGTGACTATTCACAGGCGTGCAGTCATAGCACACTACA
GCCTTGTATGGAGATCAGCCAATCCTCCCGCCTCAGTCTCCTGGGTAGCTGGGACCACAGGCATGTGTCACCRTACTTGGCTGTTCACACTTTTTAACTA
CTTGGCAACTTGAAGCTTCTTTTCAAATTTAAGATTATGTATAATGCTTTATGGGTTTCACTAAATAGGAAGCCAAACCTATTTTTCTGTACTCCCATTA
TAAGCATATACCTTAGATGATTTGATATTTCCTTCTACCTTGCAGCCTCACTCGGTAGAGTTAGTTTGTATATCCARTGTTTATCTGGATGTATTGTCTC
TGACTTTTTACCTTTTTGTGAAAATTAACTATGATTCAGGTCCCTTATCTTTTCTGGATGTAGTAAATAGTGCTATCAAATTTTTGGGTAAATTTAGTAA
GGAAACACWAAGAAATTTTAAGTCTGGACTGACAACTAATGCAAAGTTCTTTAAGACTGGGTTATTTATCATTTACCGAATATATTTTATTTCTTTAGCT
AAGTCTGATTGTCTGTCTCCGGAAGGCTGAACCTGAATCTCAAAGATCCTGTGTGTTTCTTCTGGGTAAAATGATCACCCAGGTCTGAGAGGAAGTCTAA
TTTCCTCTGCTTTTCTTCGTTACTTTAAAAATAATGGTTTCACTAAGGGATTAAGGGAGTGCTCTCCTGGGTAAATTAACCTCTGTAATTTTCTGTTTCC
TGCACAGGCAAAAGCCATTAAATAGCATGTTTCAGAATGTTGTCTTGTTACTGCTATCCTACTTTGGTTCCTTACCTGACTTGTTCACCATTTAATTGGC
TTAGAATGGCATGTTAAGGGCTAGTTGAAATTAGATTCTGAATCTGTTTAAATGGTCTGAAGCTGACTTTCAAGTTTGTGTATTTTTGTATTGAGGCAAA
ATTCACATAAAATTAATCATTTAAAATGAAAAATTAAGTAGTACTTAGTACATTTACAGTATTGCGCAACCACTGCTTCTGCTTAGTTCTAAAATATTTC
AACACCTCAAAATAAAACCCCATACCCATTAAGCAGGTACTCCACATTCCCCTCTTGACCCCAGCCCTTGGCAACTACCAGTCTTACTTTTTGTTTGTAC
GTATTTTCTTTTTTAAAAAATTCTTTAGATGTGTCAGCAGGAAGCAGTAGGTATTTTCTATTCTGGATATTTCATACAAATAGAATCATATAATATGTGG
CCTTCTGTGTTTGCTTTCTTTCACTTAGCATAATATTTTTGAGGTTCGTCCACATTGTAGCATGTATCAGTACTTCATTCTTTTTTGTGGCTGAATAATA
TTGCATAGTGTGTGTGTGTATATATATATATATATTCCATTGTGTGTGTATATATGCGTGTGTATATATACTACATACATATATGCAAAGCAATTTGTTC
ATCCCTTCTTCCATTAATGGTTAATGGACATTTAGGTTGTTTTTACCTTATGGCTGTGATTCATAGTGCTGATATGAACATTGGTCTATAAGTATTTGTT
TGAGTACTTGTTCTCAGTTCTTTTTGGTGTACACTTAGAAATGGAATTGCTGGATCATATGGTAATTTTGTGTTTAACTTCTTGAGGACCTCCGAACAAT
TTTCCACCTCGGCTGAACCATTTTACATTCCCACCAACAACATACGAGGGTTCCAATTTCTTGACTTTCAAGTTTTACACTTAACATAAAAGGCATTGTG
TACCTGCTAGTTTGCTAGAAAAGGAGAAACCAAAGTGGTTAACAATTAACAAGTCTTCTTTTATTTTCCAGAAACTTAACTTGCTTTGATTCTTCTTAGA
TATGTGGTAGATGGTGGCTTCGTGAAGCAGTTAAATCACAACCCCAGATTAGGGTTGGACATCCTGGAGGTGGTTCCAATTTCAAAGTAAGTCTCTATGT
CAAATCTTTTTATTCAAAGAACAACTGATTAGGTAATTTCTAGCTGTTTTGGGGAGACAAAGTAAATTACCTGAGAAACCCACAGAACATTTTGGGGAAT
TTTTGGGTTTTTTTCCTTTTGTAGGAGCGAGGCATTACAGCGAAGTGGCCGAGCTGGCAGGACTTCTTCAGGAAAATGCTTTCGGATCTATAGTAAAGAT
TTTTGGAACCAGTGTATGCCTGACCATGTGATCCCTGAAATTAAGAGAACTAGTTTGACATCTGTAGTTCTGACCTTAAAGTGCCTTGCCATACACGATG
TCATAAGGTATGTAGACAACTAGAAAAAAAAGGAAAAACTTGTTAGCCTGGAACCAAGTTATTGGCTCAAAAATTATTTTGAAATATTTGACTGATACAT
CCCTGAGAGTTGAGGCTAACCTCTTTTACAGGTTGGTTTTTATATTGGTTGCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTT
GTTCCGTTGCCCAGGCTGGAGAGCAGTGGCACGATCACGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGTCTCAGCCTCCCGAGTAG
CTGGGACTACAGGTACCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCTTGTTGGTCAGGCTGGTCTCGAACTCCTGAC
CTCAGGCGATCCACCCACCTCGGCCTCCCAAAATGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCTCTATTGGTTGCTTTTCAACTAAACTAACACA
GAAGACTTCCTTGCATTGCTTTAGTAGGATCTCTTGCTCATGTTTAACCTTGGCTTAATGGCGGGGTTAGGGGGTTGTGCTGATGTTTATGTGGATCACT
TAGTGACCACTGTTTATTTGTAATGAAAGGTATATAATGAGCTGGGCATAACAGCTTATGCCTGTAATCTCAGCACTTTGGATGGCCAAGGTGGGAGGGT
TGCTTGAGCCTAGGATTTCGAGACAAGCCTGGGCAACATAGTGAGACCTTGTCTCTACAATTAAAAAAAAAAAAAAGTCTGATATGGTGCATGCTTGAGT
CCCAGATATTTGGAGGCTGAGACGGGAAGATTGCTGGAGCCGGGCAGGTAGAGGCTGCAGTGAGCCATGATTGCACCACTGCGGTCCAGCCTGGGCAACA
GAGTGAGACCCTGTTTCAAAAGAAGGGGGCTGGGCGTGGTGGCTCACGTCTGTAATCCTAGCACTTTGGGAGGCCAAAGTGGGCGGATCCCTTGAGGCCA
GGAGTTTGAGACCCGCCTGGCCATCCTGGCAAAACCCCGTAGCTACTGAAAATATAAAAATTAGCTGAGCTTGGTGGCACGTGATTGTAGTCCCAGCTAC
TCCGGAGGCTGAAGCACGAGAATCACTTGAACCCAGGAGGCAGAGACTGCAACGTGCCAAGATCACACCACTGCACTCCAGCCTGGTCAACAGAGCGAGA
TTCTGTCTCAAAAAAAACAAAACAAAACAAAAGGGTATACAGTTGGAAAGTGGAGTGTTTTTTTTGTATGGCCAGCATCATACTATATACCATGAAAGAC
AGAGTAATACTCTGTAGTTTTTTGCTTTCACTAAGCTTAAGTTATATTAGGAAAACAAGGTTCAGACACGTGAAATAAAGGAAGAACAGTTAAATTAGCC
AAATATTAATATAATTTATTGGTATAAGATAGAATATTGTTATAGATAGAAATTTCTATCATACATGGTAGGGGAATTAATGGAGGAAAGTACTATCTTC
TTTATTTTGGTCTTAATTGCCTTGGAATGTAAAACTGCTCAGGAATTTTGGGGGATGGTAACCGTGCAGTTTTTAAATTCATAGTAAGTGATTATTAGGT
GCATCCAAATATGTATTGTAGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGACGGGTGGATCACCTGAGGTCAACCTGGC
CAACATGGTGTAACCCTGTCTCTATTAAAAATACAAAATTAGCCAGGATGGTGGTGCTCGTCTGTGATCCCAGCTACTTGAAAGCCTGAGGCAGGAGAAT
TACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCGCCATCGCACTCCAGCCTGGGCAACAAGAGCGAAACTCTGTCTCCAAAAAAAAAAAC
AACCAAAAAAAGCAAAAAAAACCCCAAAACCCACAAATACTCATTGTATACTCTTGGAAAGCCAATTTGCCAATTTCAAAATGTTTTGATAGTTATCATT
AGACTAGAGATTTTCTGAATGAGAATATGTAGATACTGGAAAGAGAAAAGCATGTAATAAATGAAATTCTGACTGTAGCAATAAATTATACCAATGAAAA
GAAGGAAAGCGCCATTTAAAGAAATCCAAAGAGCCCAATAGAAAACTTTCAGATGAACCCAGATATTAAAATAATGTCTTGATTTTTTTCATTTGGGGAA
AAAGGGCCATTTTTGGAAATAGCTGCTCAGTAAGTTTGACATTGACTCTTAGTATATTCACAAAGGATAGCAGAGCAGCCTCTAACCAAGAATGAGTATA
TATTAGAAAAATAGGAACAATAATTAATATCATCTGCATTGAATTATTTTTCCATCTTAAGTCTTAAAAGCCATAGTGTACTAAAAATCGCAAAATTWTG
TTTCAAAATGCTTGAAACAAAAAACAAAGACTTCCTTTTTAAAAAGTTGTATAAAGAATAAGGAGAGGTAGAGCCAGTGTTTGGGGTAGATGGTATAGGA
TTCATAGACGACAGAAAGAAAATGGACCTTCTCAATTATTATTTTGCTTTCCCTTTCTTTTCCATCAGGAAGAATAATTTTAAAGCTGAAAATGCAAGAA
CAGGTCTGAATAAGAAGGAATTGATGACTAAGGTGGAAGGAAATAATGAGGGAAAACCTACCACCATAAGTGATTTTGTCTTGAGCATTTAGACATTATT
TCCGTGGTGTTAAAAGAACTTGCAGATTTAGCGTCAGAGTCACTGTAGGTCATCTATGAGAAATTATGCAGAATACGTTATCAGAAAATGGTGAGAAAGG
CAAAAGTCTTAATTTTTTTCATTTGGTAAAAAGGGCGGGTTCTGGAAACAACTACCCAGTAAGCTTGACATTGATTACTAGCGAACTCTAGTACAGTTTA
TTGAAAAATGGTTTAAGGAAATTTAATGACGATTAATGAGTATGAATTTTAAAAGTTCACAATGAATATGTCATTTTTTGTTGTTGTTGTGTTTGGTTTT
GGTTTTCTGAGGCAGGATCTCACTCTGTCACCCGGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTC
GTGTCTCAGCCTTCTGAGTAGCTGGGATTACATGCGTGTGCCACCATGCCCGGCCAAATATGTCATTATAAGCCATTTCCTTTTCAGTTTGAGGACAGGA
CCGTCCACATAATGGGTGCTCCACAAGAATTTATTGAAATTTAACCTAATGTCTTTTATTTTCAGCACAGTATTTAACAATACTGCATTTGATATCTTGT
GAATAAAAAAGTAGTCTGTAGATGACAGTACTGCTGAGTATAGTTGCCAGATAGCCCAGTCTAGAAAAGTATTAATTAATTGCTTAGTGTAGACTAGATG
AAGTTTTTACTGGTATTGTGCTGAACTTAGTTTTTTCTTGATAAACATTTTTAATGATACTGAATAAAAATATTGAAGTTATGATTATATTTTTCTGGAA
AATATCTTAATATCTAATAGGTAGATGACCAAGCTTTAAAATGACTTTAACAGATTAGAACCATGGGCAAAAATCAACAGGGTGTAAATTTGAAAGGATA
TATCTTATATCCTGTGTTTGGGATGTACAATAGCAAATACATGTGGTAGAGATCTGAAATTATCAGATCATCACAACCTTAATATTGGCTTATACGTATG
GCTCTGTTTAAAAAATTTTTTTTTAGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCACAGTGGGCGGATTGCGAGGTCAGGAG
ATGGAGATCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGTGTGGTGGCAGACGCCTGTAGTCCCAGCTACTCG
GGAGACTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCCAGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTC
TGTCTCAAAAAAAAAAATTTTTTTTTTAATTCCACTGGCATAGACTTTGGTTACATTAATAAACTAGGTGATGGGGAATTACAGCATTCCTGTTATGTGT
TGGTCACTCAACATTTGGAGTTCAGTTTTGGATATAATCAAGTTTTATGAGGAGTTTGACATACTAGTGTTTTTAGAGAATGGTACTTAGGTATGGTAGA
TCTCTTAGAAACCAAGTAACTTATAAGGAGTGGTTGACAGAATTGGTAATTGGAGGAATCAAGGGGGGAAATTAATTGCAATATTTTAGAATAAGTAGTT
TTTCCTTTTATATAGAAGAAGCAGCTGACTGGTTTGGTATTGCTCTAGCACAAGGGTGGCAAACTGTGGTCTAATCTCACTGACTGTTTTTGTAAANNNN
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NNNNNNNNNNNNNNNNNNNNNNNNTTGTTCTTCCTCTTCAAAATTGTTTAGGCCATTCTGGGTCTTTTTCATATAAACTTTAGAACCAGTCTGTTGAAAT
CCACAAAATAACTTGCTGAACTTGCTGGGATTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCCGGGCTGGAGTGCAGTGGCCTGATCT
CGGCTCACTACAAGCTCTGCCTCCCAGATTCGTGCCGTTCTCTCGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCYGCCACAACGCCCGGCTAAT
TTTTTGCATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTG
GGATTACAGGCGTGAGCCACCGCGCCCGGCCCTTGCTGGGATTTTAATTGGGATTATGTTTTAATTAAGATAGATTAAGTTGCGAAGAAATGACATCTTG
ACAGTATTGTCTTCCTATCCATGTACATGGAATATCTCTTCATTTATTTAGATTGCCAGTAATTCATTGAGCATTTACTGAGGGTTTACCGTGCCTTAGC
CCTAGGACAGAAAACTAAGGATAAACAAGTTTTGTTGTTGTTGTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGTGATCTG
GACTCACTGCAACCTCCTCCTCCCAGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCAGGTAGCTGGGATTACAGGCATGGGCCACCACGCCTGGCTAATT
TTTGTATTTTTAGTAGAGATGGGGTTTCACCACGTTGGTCAGGCTGGTCTGGAACTCCTGACCTCAGGTGATCTGCCTACCTCGGCCTTGGGATTGCAGG
CATGAGCCACCACGCCCAGCCCGGCGTTAATTTCCTTTCATTAGTAAAGGAAGATAGTGCTTTTATAGTACATTAGTAATTTACTAATTTTTTTTTTGTA
GGATCAAAAGAAAAGGTAGTTTAGCCCTTGCATCCTTAGAGAATTCTTTTGAAGTTTCCAGGTCTTTAAACTTCTGCTTCTTTCTTTTCTTGGTGTGTCA
GTATAGGACACAATTTAATTTGACATATGTTAGATTTGTTTTCATGCAGTGGAGTAATTTTTTCTTTCAAGGAGCTTCCAAGTGAACAGTATACCTTGTC
TGCAGCCAGACAACAGAATGGGTTAGCTCACTGGCTTTATACCTTTGTAGGCTGGAAGTGTCGGGTCCAGATTAATTTATTATTGCCATGATTATAATGG
AGGATACATTTTTCTATAAAAATACTCTAATCAATATACTGTTTCAAATAGTTTGCAGTCTTTTTTTTTTTAATTTAAAAAATTTTTAAATTTTATTGAG
ACAAGGTCTCACTGTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCATTGCAACCTCTGCCTYCCAGGCTCAAGTGATCCTCCCATACCTCAG
CCTCCCCAGCAGCTGGGACCACAGATGCTTGCTACTATGCCTGGCTAATTTTTTGTATTTTTATAGAGATGGGGTTTCACTCTGTTGCCCAGGCTGGTCT
CRAACTCCTGAGCTCAAGTGACCCACCAGCCTTGGCCTCTTAAAATGCTGGKATTACAGGCCTGAGCCATTGCACCCAGCAGTTGCAGTCTGAARTGTCA
GAATTTTAATTCTRGTAATACCCCTAATTGCAATTTTTTGTTCTAATAAAATGCTGTATAAAAATAAGTAATGTTAACTGGTTTTCATGAGGCAGTATCA
GAGCTAAAAATACCAGTGGGCACAGTGGTATCCCAGCTCCTTGGGAGACTGAGGTGGGATGATTGCTTGAGCCCACGAGATCAGGGCCAGCCTGGGCAAC
ATAGCAAGACCCCATCTCTGATAAGAAATTAAAAAATAGGCCAGGTGTGGTGGCTCACACTTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGGTC
ACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCGACATGGTGAAACCCTGTCTCTACTAAAAATATAAAAATTAGCCAGGCGTGGCGTGCACCTGTGTTG
CCAGCTACTGGGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGTGACA
GAGTGAGACTCCATCCCCAAAAAGAAAAAAGAAAGAAAGAAATAAACAAGCTAAAATATTTCAAAACCTATTACAGAGTATTGAAGTAGGAGTTAAGAGT
GCAGGGTTCTGTCCAGCTCCACTACTACCTAATTATCTGACCATGGCCCTAGYTTTTCTAGATTTCATTTTTCATTTGTAAAACCAAGAAGTTGGATTAA
GGTGACCAACTCTAATAGTCTTTTAAGGCTAGAAAAAGAAAAATGTTTTTTCCATGTTGGAATATTTAAATAGATAAAATCAGTGTGGTGTTAGCCTTTT
TTGGGTGACATTTATTCTTATATAATTTCAAATAAGAATAGCAAAGGAATTCCTTTATACCTTCTATGCAGTTTCCGCAATTTTTAACATTTTACCCCCT
TTGCTTTATTACTCTGTCTCCCTCTATATATGTATATATAAACAGATTTTTTTCTTTTTCTGAATCATTTAAGAATAAATTGGAAGCATTGTGCTCCCTT
ACCACAAAATATTTACATCTGTATTAGGCAAGAACAAGGGCAATCTCTCATTTAACCATAGTACATTAATCAAAATTMGGAAATTGTTTTGTTTTGTTTG
AGAGAGAGTCTCACTCTGTTGCCCAGGCAGTTAGTGCAGTGGTGGGATCATGGCTCACYGCAGCCTTGACCTCCCGGGCTCAAGCAATTCTYCCACYTCA
GCCTCCTTAGTAGCTGGGACCACATGCATATGCTACCATGCCTGACTAATTTTTAAAAATTTTTTGTAGAGATGAGGTCTCCCCATGTTGCCCAGGTTAG
TCTCAAACTCCTAGGCTCAAGCAATCCTCCTGCTTTGGTCTCCCAAAGTGCTGGGTTTACAGGTGTAAGCCACTATGCCCGGCCTAAAGTTTGGAAATTT
AACTTTGATACAATATTAYTATCTAATCCAGAATCCATATTGAAATTGTCCATTTTCCCTAGAATCTACAGAAAGTAGTTTGAGAATTGGTAAGTTATAG
TACTGTGAAAAACAACCCTATATAACTACAGTTTGATATTTGTTTACAGTTAATTTTAGGTAAAATTTACATATAGTGAAATGCATAAATTTTAGGTGTA
TAATTCAATGAATTCTGTAAAATGCTTATACCCATGTAACCCAAGCCCTGTCAATATATAGAACATTTTTATCACTAGCAAGTTCCCTCAGTGCCACTTC
TTAGTCAGATATCACTCTACCTACCTTTGGTTAAACACTTTTCTTATTTTTTTCTGATTAGTTTGCCTCTTCTGAAACGTCATATAAATAGAATTTTTTT
TTTCTTTTGAGACAGAGTCTTGCTCTGTCATCCAGGGTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTTCACTTCCTGGGTTCAAGCAGTTGTC
CTGCCTCAGCCTCTGGAGTAGCTGGGATTAGAGGTCCCCGACACCATGCCTAGCTAATTTTTGTATTTTCAGTAGAGACGGGGTTTTGCCATGTTGGCCA
GGCTGGTCTCGAACCCATAACCTCAGGTGATCCATCAGCGTCGGCCTCAGCCTTCCAAAGTGCTGGGATTACAGGTGTGAGCCATTGTGCCCAGCCCAAA
ACTTCATATAAATAGAATTATACACTCTCCTTTCTTGTGTCTGGCTTCTTTCAGTCAACATAATGTATGTTAAGGTTTATTCATATTGTTGTATGTATGA
ATACTTTATTCTTTTTRTTGTTGACTAGTATTCCACTTTATGAACATACAGTTGTGCATTATCCTGTTGATGGACATTTGAATTGCTTCTTGTTTAGTTC
TATTTTTGAGTAAAGTTGTTTTGAACATTCTTGCACAAAAATTTGAAGGTGTTTATTTTCATTTTTCTTAGATAAGGTAAATGCCTAAGAAAGAAATTTG
CTGTGCCATCGAGTAGGTATATGTGAATCTTTAAGAAACTGCCAAACCTTTTCCCTGAACAGTTGTACCATTTAAAAATCACATCAGCAATGTTTGAGAG
TACAGCTTGCACTAAACACCCCTCTCAACATTTGGTATTGCCAATCATTTTATTTTACACATTCTATTATGTACCTCTTTGTGGTTTTAATTTGCATTTT
CCTGATGACTAATAATGTTGAGCACTTCTTCATGTGCTTATTGGCCATTTTTCTGTCTTCCTTTGTGATGTCTTTTAAAATATTTTGCCCATGTCTTTTT
ATTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATTTTGGCTCACTGCAACCTCCACCTCCTGGATTCAAGCAATTCTCCT
TCCTCAGCCTCACAAGTAGCTAGGATTACAGGCTTGCATCACCATGCCTGGCTAATTTTTGTAATTTTAGTAGAGACGAGGTTTTGCCATGTTGGAGGCT
GGTCTCAAACTCCTGACCTCCTGACCTCAGGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACCATGCCCGGCCCCTTGT
CTTAAATTAAAACAAAAAAAAAMAAAAACTTTAATTCGTGGATTCTTTCTTCTGCCAGCCCAGATCTACTGTTGAGCCCCTCTATGGCAGTTTCCATTTT
GTTTCTTGTCCTTGTCAACTCCAGCGGTCAGTCAGTGATTGGTCGGAGGTTGTACCTAGCTAAGCCTTTTAATTTAAGCCAGTGATGTTTTCACCTTTTA
CTGTTGAATCTGTGTTTCTGGTTAGGAGACTACTTTCATGGTTGAGGGAGTTGATGAATTTGTACTGTGTTCAGCCAAGGAGTMGAGGCTCAGACRTTCC
CTCTCTATTTACTTCTCAGAAGGCACAGCTTTGGGCATGAGAACAATCTTCTAGAACACCAGGAAGACTATGCTCTTAGCAGGTCTCTGTTTCCTTCATT
GATTTCTTCATTGAATTTTTGGCTGGTCTGTCTCTATTGGTGTCACAGCAAGCTGTTAGTCTCCACTGATTGCTAGCTGCTGGCTCTGTTGTTTTTGACA
GTGCCCAGAGCATAAATTGCKCCATAGTCTTGATCCAAATAAAGTTGGGCACCTCGGCAGGGGCAAGGTATTGCCCGTCTTTGATAATCCTTTCCCCWTC
CTTTCCTGGAAACAATCTCTGTGCTATGGAGCAGGAGTTGGAGAGGGTGGTGGTGGTAATGGGGGCCTGTTCTTCAGTGGCTCTCCTATCTGGGTCCTCC
CTAAATAGCAGAAGCTTGGGGTTGGGGAGTTAGGAGCTGATACTRTGGCTCACTTTGCATCTTCCTCAGCACAAAGCCTTTTGAGATGCAATCTCTGGAT
GTTCACTAGTTGCAAACRTACAAACCTGGAATAGCTCTAGGAAACTGGGAGTAGTGGGAACTACCACTGAGCTGCTGAACCCATTGGAACAACTCTTCTG
CAACACAGAGCTGTGGGGAATAGAGGACWGCGTAGGCTGTCATTAKCTGTTATGCTTTGATCTTCCCTACCGAGTAGCATTTAGGAGTCAGGGAAAGGGT
GCCGCTTTCAGGCTGCCTTGAAGGCTCTCGCATAGCCCTTCCACACACACAGCTGTTGAGAGTGGGGCATTCTTCCTACTGTCCTTACCGAATTCCATAG
ATTAGGCTTGTCTTAAGCATTTTAATCAATCTCCAGAGACTTTGAATGATTGTCTTTGGTAATTTTGACTAGTTTAATAGATGTCTCTCTAGAAAAGAAG
TTTTACCTAACTCCTCACATCACCATTCCCAATACAGTTGACCCTTGAACACACAGGTTTGAACTGTGCAGGTCTACTTATTTGTAGATTTTTTGTTTTT
TGTTTTTTTTTTTTGAGACAGAATTTTGCTCTTGTTGCCCAGGTTGGAGTGCAGTGGCACAATCTCAACTCACCRCAACCTCTACCTCCCAGGTTCAAGC
AATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGATTACAGGCATGTGCCACCATGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGT
TGGTCAGGCTGGTCTCGAACTCCCAACCTCAGGTGATCCTCCTGCCTCGGCCTCCCAACATGCTGGGATTACAGGCGTGAGCCATGCACTCGGCCAATTT
TTTCAATAAATATATTGGAAAAGTTTTYGGAGATTTGTGACACTTTGAAAAAACTCACAGATGAACTCCGTAGCCTGGAAATACCAAAAAAATTAAGAAA
AAGTATGTCATGAAAACATAAACTATGTGTAGGAAATGCTGCAGGATAATTAAGGAATCAGAGAGACCGAGGGGTTGAGGAGGAGTTATTTAATTATTTA
GGTGCACCAACCCAGTTGGATTAACATCCAAAGGACTGAGCCCTGAACAAAGAGTCAAGCTACCTTTTAAGCATTTCGTGGGGCGGGGGGAGATCTGTGC
AGGGGGAAGCATATTACAGAAGTGAGAAACAAAGACAGTTATTTAATTAAGACGTGCATTACATTATTTCTTACTTTTCAAGGAACAACATGTTTTACGA
CTTGAGATTATCTGTCTAGTGACCTTGAAGCTGCACAGCTCGAGAGTCTTCACAATGCCTGGGAAGGGGTGAGATAAGGCTCACTAGCCACAGAGAGAAA
AACAGGCAGTTAATTTTAAAGGACTCCAGCTCTTTCTCTTCCTCGGGGAATTGGGTTTTCTTACATACAACTGAGTTTTTGCTTATAMAGTCTTTAATTT
CTTTTAATTCCTGTTCCAGTACTAGTCTGTTTTATAATTTACTACCATAAAATATACACAAATCTATTATAAAAAGTTAAAATTTATCAAAAATGCATGC
AAACACAGACTGCATGGTGCCATGATTCTAGGGATTCCAGGAGGCACTGACTCACAGGTAGGCTTTTCTCCTGGTATTGMGAGCCAGGATGGGGTCGATG
CTGGAGTCTAGGGCAATTTGACTTTTGGCATGATATCTTCTGGGGGATGGCAGTTAGGTGCTTAAAATGAAATATTTTGGGTTAAAAATTAGTATCCCTG
GCTGGCGTGTTGGCTCAAGCCTGTAATCCCAGCACTCTGGGAGGCCAGGGCAGGCRGATCACCTGAGGTCAGGAGTTCAAGGCCAACCTGGCCAACATGG
TGAAACCCCATCTCTACTAAAAAATGTAAAAATTATTTGGGTGTGGTGGTGTGTGCCTGTAGTCCCAGCTACTTGGAAGGCTGAGACAGGAGAGTCACTT
GAACTTGGGAGGTGGATGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGCAGCAGAGCGAGACTGTCTCAAAAAACAAAACAAAAAACAA
AATTAGTCTCCCGGAGCAGTTCAAGAAATGGAGATTAATAATCATTTATATCTTTTCCTTACCAGGGTCATTTGTATGTTTGTATGGTCTGAGATAAATC
RTATTCTTTTTTTTTTTTTTGTCTCTAGCTGCTTCATTCAGTTGCTACCTAGGTAACATAGTTGGAAGCTACTTAAAGCATGGGATAGAAGACTTTATAC
CTTCATCAGTGTTTTCTTTAATCAAATTACTTTCCTCCTAGTAACAGGAACTGCTGCTTTGCAGWTTCACATCGTATTCTATAGTAAATGCTGCTCCCTG
GATTCAGGCAACATTGTGCCTCTGCTAGATCTAGCTGTGATAGGTATAGGGAATAGGAATTGTGATGTGACGTGTTAGATTGAAGGAAAGGATCCCTATG
CAGTTTTGAAAAAATGGCACTCTGAAAGATTAGCCCTGGATAAAGTGCTGTATGGGGAATTTGGGCAATCAGAGAGCACATGAGTCCTGAATGGGATCAG
GGGAAGTGGTATCGAAGTAAKTAACAGATAAATCTCAAAAACGTAATGTTGAGCAAGAGAAAACAGACACATCAAGTACATACTATACGATTCATTTATA
CAAAGGTTAAAAATGGGCAAAACCCATCTGTAGGATTAGAAGTCAGGATATAGTTATTCTTGTGGAAGGGAATGGGTAGTTACTCGAAGGAGGGCATAAA
AGGGGGCTGTTGAGATGCTGGTGATACTGTTTGTTGATCTGGGTACATTGGTATGTTGTGTTTGTGAATATTATATGAGCTACACACTTACGTCCTGTGT
AATTTTCTGTATGCATATTATACTTCAATATTACATTAAAAAAGAAAATGTTCGTAGTAGGTCAGTTCTGCATATATGGAGATCATGTCTAATTGCCCAT
AATTGGGAATTGGATAAATAAGAACTGGTTAAATTGTGTTATGTTCCCCATACTCCTGGGGAATACCRTATCATTGTTTTTTTCTTTAGACAAGGTTTCA
CTCTGTTGCCCAGGCCAAAGYGCAGTGATGCGATCACGGCTCACTGTAGCCTCAACCTCCTGGGCTTGGGCCGGGCACGGTGGCTTATGCCTGTAATCCC
AGCACTTTGGGAGGCCGAGACGGGCAGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACATGTGAAACCCCGTCTCTACTAAAAATACAAAAAAT
TAGCCGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAG
ATCGCGCCACTACACTCAGTCTGGGCGATAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAACCTCCTGGGCTCAAGCGATCTTCCCACCTCAGCC
TCCTGAGTAGCTGGGACTACAGGCATGCATCACCATGCCTGGCTAATTTTTGTATATTTTGTAGAGACAGGATCTTGCTTTGTTGCCTAGGCTTGTCTTG
ACCTCCTGGGCTCAATTGATCCACTTGCCTTGGCCTTTGAAATTGCTGGGATTACAGGTGTGAGCTACCACACCTGGCCCTATATTGCTATTTTTGAGAA
AGAATAATTCTATATGTACTGATATGGAGTTGTTATTAAATAAACAAATTTTCAGATTATATGTTCCATTTATAGAAAAATGAAACATTATGTACATATG
CTTATATATACATAGAAATTACCTGGAAGGACACACACTAAATAATGAACAGTACTTTGYCTTGAGGATTGGTTTATGGGTAGTGTGACTGGGGAACATT
GAACTTTTACATGATATTCTTTTATACCATTACATTTTTTTTTCTGTAAGCATGGATTACTCTTATAACAAAACTAATTTAAAAAGTAAATTACAAATAC
TATTTTTAAAAGGCAAATAGATTGGGAGAAGTRATGTTGCTATTCAGGTAAAATCTCCAAAGTGATATGAAAAGAAAAAAAGGAATTGTGGGAGAAATAG
AGCTTCCTAAGAGAAGTTAAGAAGAGTTAATATAGTTCTACCTTACTTCACCCCAGAGGATGAGGCAGATTTTAATGAGTTTCTGAAAGCAAAGTGATTG
TAGGCACTTAATGCAAAGTATAACTGAATTGCCTCTCCAATTCTTTTAGTTGATCCAGAGTACCAGAAGGAAGCAGAACAGAGACATCGAGAATTGGCAG
CTAAAGCTGGAGGATTTAATGACTTTGCAACTTTAGCTGTCATCTTTGAACAATGCAAATCAAGGTATGTAAGGTAGTCCTTTGTCCTGAAAAATGTCAA
TTTGATGTRTAGTTCCAATACGTACTTATGATGTGGCTTGTGACACTAACGTTCAGTGAAGATGATATTGACTTCAAGGTATTTTGAATTTCAGTGAAAT
TATCTATGTCAGATGACTATTGCTTAGTAGGCATTTATTATATAACATTGATTCTCTTSTTTYCTCCTCAAACCTTTACTGAAAATGACCTTRTAGAATT
TTGCTTCTATATAGGTAGCCTAGATTAAAAAATGATTGGATATTTGTTATTGCATATATAAGTAAAGAAATCCATTTACAAATTATTTTTTAATTTAGTC
AGGGGCACATTCATTAATTTAAATGTTTTTTTCAAGTTTCCTAAAATTCTTTTTTAGTACTTGGACAGGTCTCCTGAAGGAACTGACAGTTGTTTATGGG
TTTCCACTTTTGTAATAGAAATGAGAATTTTAGATTGTCTTTTACTTAGAGAAGATATTTTAAAGATACCAGTTTTTTGTTTTGCAGTGGAGCTCCAGCT
TCATGGTGCCAAAAACACTGGATTCATTGGAGGTGCTTATTTTCTGCATTTCGTGTGGAAGCTCAACTTCGAGAACTAATCAGGAAGCTTAAACAGGTGA
TTGCCRTAATGTTTTTTTTCTTGAGTAGCATTTTGGACCTATATATTTCATATTGAAGTTTCATTGATGTACATTAGCACCCTTTCTATTCTACCACCCT
TCCATTCTATTTGTTTCTATGACCTCCTTGACCCCATGAAACATTCCTAGTAGTGATAAAAGAATTGTCTTCACAGAAATGAAGATATTTAAAAATTGCT
TTCCTGATATATAATTGACGTGTGATAACCTACACATATTTAATGTATACACTTTGATGAGTTTTGACATTTGCGTAAAACAACTATCAAGATAATGGTA
CATATCCATCATCTCCCAGTTTTCTCATCCTCCCCCCCACCYTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGAAGTGCAGTGGCGTG
ATCTCGGCTCACTGCAATCTCCACCTCCCAGGTTTAAGCAATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCTTGCGTCACCACACCCGGC
TAATTTTTGTAGTTTTAGTAGAGATGGGGTTTTGCCGTGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGCCTCGGCCTTCCAAAG
TGCTGGAATTACAGGCATGAGCCACTGCACCTGTCCTCATTCCCTTTCATAATCCATTGTCTCACCTACTAGGCCCTCCTGCCCCACCAACCCAGGTAAC
CACTAATCTGCTTTCTGTCATGATACAGTAAGTCCTCACTTAATGTCATCAGTAGGTTCTTGGAAACTGTGAGTTTAAGCAAAATGATATACAGCAGGCC
CTAGAAAAATATTGTTTTATTCACCATTGTTTTAACACTGATGAGAGAAAAAAAAAAATCTTAAAAATTTTGCTTAACTTTGCAGTTTTTAAGAACTTAT
CATTGACATTGAAGACTTACTGTATATAAGTTTGCATTTCCTAGCATTTTACATAAATGGAATCAAACAGTATATGCTCTTTTTTTTTTGGTCTGGCATC
TTTTACTCCTCATGATTATTAGTTTTTCAATTTATATATCTTATTTTGGTAAAATAATTAATATAAAATTTACCTCTACTGGGCATTGATGATTAACCCC
TGTAATCCCAATGCTTTGGGAGGACGAAGTGGGAGGACCACTTGAGGCCAGGAGTTCAAGACCAGCCTGAGAAACAGTGAGACCCTGTCTCTACAAAAAA
ATTAAAATAATTAGCTTGTTGTGTTGGCACACACCTGTAGTGCTAGCTACTCAGGAGGCTGAGGCAGAAGGATTACTTGAGTCCAGGAGTTTGAGGTTGC
AGTGAGGTATGATGCCACTACACTCTAGCCTGGGCAACAGAGCAGCAGCACCCTGTCTCAAAAAAATTTTTTTTTTTTTTTTTTTTTACTGTTTTTATGC
GTACAGGTCACTGCACACTTAAAACATTTACAATGTTGTGCAGCCCTTACCACTTCTCCATCTCCAGAACTTTTTTTTATCATCCCATACTATAATAAAA
CTCCATAACCATTCAACAATAACTCCCCATTCCCGACAGTGCATGGTAGCTCACGCCTATAATCCTAGCACTTTGGGAAGCCGTAGTGTGGGGATCACTT
GAGCCCAGCAAGTTTGAGACCAGCCTGGGCAACACAGTGAGACCTTGTCTCTACTAAAAAAAAAAAAAAAAAATTAGCCAGGCGTTGTGGCACACACCTG
TAGTGTCAGTTACTCAGCAGGGTGAGGTAGAGGATTGCTTGAGCCTAGGAGATCCAGGCTACAGTGAGCTGTGATCACACAACTTCACTGCAGCCTGGGT
GACAGAGTAAGACCCTGACTCAAAACAAAAACAAAAAAACCTACCCATTATCTTCTTTCTCCAGCCTCTGGAAACCACTGTTATAATTTCTCTGTTTCGT
TATGAGTGTTTTCTGTTTGCCTTATCTTAAAGTTCATTAATCTTTTCTCCTGCAGTGTCTAGTCTAATCTGCCATTAATCCCATCTAGTATATTTGTCAT
CTCAGGTGTTGTATTTTCATCTCTAGATGTTGGATTTCAGTCTTTAAATTTTTACATTTTATTTTTCAGGTCTCTACTTTTTGAACATATGTAATCCAGC
TATACAGAAAATTATAATAAAATATAATTAGATCTGTGTCAGTTCTAGGTTGATTTTGATAGATGTCCTCATTATGGATTGTGTTTTTTTGCTTCTTTAC
ATCATACCTGATAATTTTTCAGCGGATGCCAAACATTGTGAATTTCACCTTGTTGGGTGCTGGATATTTTTGTGTTCTAGTTACTTGGAAATGGTCTTTG
GTCTTTCTTGTTGGGTCTTGCTTGCATGATTTGTTAGGTGGGATCAGAGCAGTGCTCAGTGCAGGGCTAGTTATTCCCCTCTACTGAGGCAAGGCCCATC
TGAGTACTCTTCCTAACATCACATGAATTACTGTAGTGTAGTATTCTCATGTGGCTTATAGGAACAGGCGCCATTACTAGCCCTGTGAAAACACCATGCC
CTTACTTATCCTTTTAAGAGGTTCTTTTCTTGGGCTGGTAGTTTCCTCACATTCATGTGCTAATCACTACTCAGCTCAACACTTGAGGAGGACCTTCTGC
ATCTCTCTGGAGTTGTGTCTTTGTGCACTTCTCTTCTCTCCTGAACTCTTGTCCTGTGAATTCTAGCCACCTTGGTCTTCCTGGACTCCCAGCTTTCTCT
CCCTAACCCAGGGAGTTCTCTGAGTTCCATTTGGGCTTTACTTCCCTGTACCTTGGTCTGCAGTCTTTATCAAGGCTGAAGTTGGGGCAGTTGTTGGGCG
TACTGCGTTTATTTCCTGTCTCTGTCCTTTATTGCCTGATATTACAGTGTTTTGGAAATCATTATTTCATGTATTTTTTCCATTTTTTTGGTTTCAGGTG
GAAGGGTAAATCTGGTCTCTCTTAATCTATGTTGGCCAGAAACAGAGGTCTTTAGAAATGTGGATTTTTCAAAATAAAAGATTATTTCAAATTGTACTAT
GAGATTTACCACTCTCTACATATTCTTTTTATAGCAAAGTGATTTCCCAAAAGAGACCTTTGAAGGCCCTAAACATGAAGTACTACGAAGATGTCTTTGT
GCGGGCTATTTCAAAAATGTAGCTCGAAGGTAAGCAATAAAGACTTGAGAGATGGATCAAGATATAATACTGTATTTGACTATAATATTGGACTATTTAA
TATTAAACATTGAAGATTTGATTTAAGCTCTGTGATGATTATGACATGAATTACAGTGACGAGGGAGAGCTACAGTGACGAGGGAGAGCTGCAGTGGCTC
AGAATGTGGTATTAGAGCTCAAGTAGGGTAGGAGGGGTATGTTTGTAGGGTGGCTGTCCAGCATGGGTTATCTTCACTTAAGGCAAGTAACAAGAGTTTT
CTTTCAGAGAGGTGGCCCTGTGTATAGTGTGAAAGCCAAGTAGGTTGAGCATAGCATCCCTGAGGAAGGGTAGCTTGGCATGGAGTGCTAGGGCTTGAGC
AAGGTGGGGAGGGGTTATTTGGTTTGGGGCATCAGTCAGAGTGTAGTGAGGAAGGCATCTTTATAGAGAAAGGGGTAACAGTGATGGTGATGGAGATTCA
TTAAATACAGAGGAATTGAACACATAACTCTRTGAGTGATAATGGTGAAGGGAGTTAGAAATAGCGAAAGTGAGAAAATAGGAATGATCTCTGTGCTGTT
GGATTGAAATTTCAGTGTATCATGATGAAGTTATGGGTTTCATTATAGATGGATGCATGGATGGACACTGGAATAAAAATAGATGTTAGTGTGTGTATAT
AGAATGTATTTGTATGTATGTAAATATTTATATGTATATATGCCCTAGCTCTGAGATAATAACAATGAATAGACATAGTGCCCAGATCTTGACTTGGGAC
ATCCATCTGCCACTTAAAGGAGTCAGGGGTCTTTGGAGAAATGGGGCTGGGAAAATGCAAGATGAGCCCAGAATATCTTATTTTGCCAGCAAGTAAAGAA
GTGATTAACAAAGGTTGAGGCCAYGTCAGAAGAACATAGGAGCCAGCATGAAGAGGCCCCAAGTAATCAAATATGAGACACTTTAAGCATCAAAATAAGT
AGTGATAGTAGCGGATTATTATGCACTTAATAAAATGTGAAATCGTGTCTATCGTGGTATAAATAAATGAGTAAAAGTTTATTGAGAAATGGAATTGTTT
ACAAGCACCTCTCCATAAAATTTTTGTTAATTACAAAAGCAAAAAGTAACTTTACAGTGGAGAATCCTGGCATATGTGACCTAAATCAAGCAATCAAAGT
GAACATAATGAAATAAATAAAAATCATGTTCTTCCTGATAGGATACAATGAGAAAAACACAGCATTATGTCTGTGATATTCCTGCTAAAGATGCATAACC
TGAATCTAATCATCCTGAAACAGACAAACTCAAACTGAGGGACATACCACACAGTAACTAGCCTTGACATCTTTAAAGGTGCCAAGATCATGAAAGTCAA
AGACTGAGGAAGTATTCCAGAATGAAGGAGACCAAAGGGAAATGAAAAATAAAGGCAATGTATGATTCTGAATTACATCCTTTTGCTATAAAGGATATTA
TTAAGACAAATTGGTGAAATGTCAGTGGGGTCTGAGGATTAATTGTTAGTAATGTATCAGTGTTAATTTCCTGGTTTTGATGGTTATAGTCATGTCGGAG
AATGTTCTTGATTGTTGATTGTAAGAAGTGCACAGTCGAGTATTTGAGGATGATGGGGTATTAGGTTGGCAGTTTGCTGTCAAATGATTCAGGTAAAAAT
TTTTTTACTCTCAACTTTTCTGTAAATTTAGATTGTTTCACACTTTTAAAAATATGGTATATCTTGGTTACCCTCTGTATGCCAAACACTGGGCAGGTAC
TAAAAATAGAAAAGTAGAGTAACATGAGTCCTTACATCATTCTTGATGATACCTGAGTCTAATGGAGGGTACAGATATGTAAGTGAATAATTACAGTGCA
GTCTGATCTGGGTTATACTATGAATATATACAAAGTACTATAGGAAATAAATTATGACAAATGAACTAGGTTTATTTTTTTGACAAGTTTTTTGGAATGA
CATTTAGGTAGGGTAATGTAGAAGAAAATAAGGGCATGAATCGGAAAAATGATAGATTAATTGTCAAGTTTTAGAGTAGTGAAAAAATCATCCCTTTAAA
AAGAGATGCAGCATAGTATAACATAAAGAAACCATATTTAAGTCAGAAGAACTGTTTAGGACTTGGTTTTACCATGCGTTAGCGCTGGTGATCTTGAGAA
GTCTAGCTAATTTATTTGAATTTTAGTTTTGACTTTTTAATAAAGTTCCTGGCTCTCAAAGCTCATAGATTATTGTTAATATTTGTACTGATTCCTTATA
CCTAATTGTAGTGACTTATACCTAATTGTAGTGACTGTTTAACCTGTATAATTAATTTAAGATGAATTGGTAGAGAGCTTGTAGTGACAGTTGAATAAAT
GTAAACCTCTGCTTATAATGCTGTTTGTAGTAGAACATATTGTAATTGTTCATTGCTGAATGTAATGCTCCATTTACTTCATTGCTTTACTGTTGTAGTC
TTTATCATTTTGTTTTTCTGTTTATAGATCTGTTGGGAGAACGTTTTGCACAATGGATGGTCGTGGAAGCCCAGTTCACATTCATCCTTCCTCAGCAGTA
AGTACTTCATTTTTAATAAAGGGAAGAAATTTGTAAAGTTGTAGAAATAAGTAATATACAAATGTCTTCTACTTTTCACTTTGGAGTTAAATTTACATAT
ATCTATATTACATAGATCTATAAGGGTATTGGTTGGCCTGTGCCTCCTGTTTGAAGAAGATAGGAATTAATTGAGAAGGATTYGGACTATTTGGTTGGTT
TAATGTGGAATAGGGCAGGTTATTGAGTTACCATCATTAAAAGAAATGTTTTGTATAGCTTCATGAACAGGAAACCAAACTTGAATGGATCATTTTTCAT
GAGGTATTGGTTACCACCAAAGTCTACGCAAGAATTGTATGCCCAATCCGTTATGAATGGGTAAGAGACTTGTTACCCAAGTTGCATGAATTTAATGCAC
ATGATTTGAGCAGTGTGGCCCGACGTGAAGTGAGAGAAGATGCAAGAAGGAGATGGACAAATAAGGAAAATGTAAAGCAGCTAAAGGGTGAGTAAATCAT
TTGTTCTACTCTTAACCACTATGCCATACTGCTTCCCAGTAGTACTTCACTATTTTTGTTTATAAAAATGTTGTGACCCACCTGGGCAATGTGGTGAGAT
CCCATCTCTAGCAAAATAAAAATAAAAATTAGCCAGGCATGTTGGTGTGCACCTGTAGTCCCAGTGACTTGGGAGGCTGATGCAGGAGGATCGCTTGAAC
CCAGGAGTTTGAGGCTGCAGTGAACTGTGATTTCACCAGTGCACTCCAGCCTGGGGGTGACAGAGTGAGACACTATCTCTAAAAAAAAAAAAGTGATGAT
TTATGCATTATTAACTCAGAATCCCCTTTGTTTCCAAGGGGCTTTTTCTTTCTTTCTTTCTTTTTCTTTCTTCTTTGAGACGGAGTTTTGCTCTTATTGC
CCAGGCTGGAGTGTAATGGTGTGATTTTGGCTCACTGCAGCCTCTGCCTCCCGGTTCAAGCTATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGATTACAG
GCATGCACCACCACGCCTGGCTAAGTTTGTATATCCAAGGGGCTTTTTCTATGAAATAATTAGGACCCTGGTTGGGAGGCATAAATAGTTGTGGTACTGA
AATAGGACAGAAAGTTTTTCAGCTCACATACACAGAAAACTTCTTAGTAAAGCTTTTTGAGGCTGAATGATGAAGCATATTGTATTTTCTTTATTTGACA
TCACTGCAAAATGGAATGGTGAAGAGTTTTGCCGAATAAATCATAGAAAAATCTTTAGAAATGTTAGCCACTAGGGAGGCCAGGCATGGTGGCTCACGCC
TGTAATCCCAGCACTTTGGGAGACCAAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAATA
TACAAAAAACTAGCTGGGTGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCAGAGCTTGCA
GTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAAAAGAAATCTTAGCCACTAGGTG
TTCTATTACAGTGTAATAACACTGCCACATGCTTGAATTAGGGTCAGTTTTTCTGACTCATTGGCCTTGGTGCTCTTAATTTTGTAACCATAGACTACAT
TGCTTTTGAAAGGGCAAAATTTAATTTTTCTCTTTATTGTTTTTACTTTGTTAACACTGAAAAATCAGGGCTTCTCTTTCTCTTAACATTTCTAGTACTG
AATCTCAAAGCTAAGTTTTATTGGATTAATTTGTAATGTTTTCAGATGGAATATCGAAAGACGTCTTAAAGAAAATGCAAAGAAGAAATGATGACAAATC
CATATCTGATGCACGGGCTCGTTTCCTTGAGAGAAAGCAGCAGAGGACCCAGGACCACAGTGACACACGAAAGGAAACAGGCTAAGGTGGTGAACCCTCC
AATTCAGGAAGTGGGAAAAGGAGCCAGGAAATGTGCTTCTACTTTGCCAGTTATTTCAGACAGCACTACCAAGAGGAGGTGGTCAGCACTTGTTATTGGC
CTATGAACTAAAAGCAAATCAAAGCTCATAAATCAAAGCTCATCAGTTCCCATAAATGCAGTTGTCAAAGAAAAGATTTGGTTGCCATAGTCATAAGCAA
TGATACATGAAACCAATGAAAGACAGTACATGTAATAATATTTTCCTCAGTACAATTTTGCTGGCCTTAACTGGTATCAAACGCTGTCATTGAGATGTTT
TCAAAGAACATTGAGTTGTATTTAATCAGCGTGTACTCCATTTGCATTGAAGCATTAAAAATTATTTTTCTTAAAATCTCTTTAAGGCCTTCTTGTTGCT
GTTAGAATAGTGCTATATATCAGGTATGTGACCATTTATTTCAGAAGGCTGAACATAAGAGGTTTCTACTCAGCAATACTTAGATGTCTAACTGTTTAAT
TGCTACAGAGCTTTATAGATATTTAGAGAAAAGACTTAATCAATTAGTAAATAAAATTGCCTATGGCAGGATTCTTTCTTGAATTAATATTAATCCTTAA
ATTGATTTTTCTGGGATTATACAAATTCCTTTTTATATAAAAGTATATTGTTTAAAACAGTAGCTATAGCCATTAACCAAAGGACAGATGATATATATAT
ATATGATATATATATATATATAAGTTCTTTTTTAGCTGTACCTACGTACTTATATCAGCMCCATGTATGTAGGTGTGATAGTACTTTCAAACAGCGCCTC
CACCTGGCCTACTCTGTTATTTCCACCTGTTTGGGTAGGGCCATTTAACTTCCATTATGCCAAACTTGGGATGGGATTTTCGAAGCAGACAACACTATTT
CATCGTGTTTCAAATTGGAACCTTGAGGCTAGTTAGTATCACACTCAGGCCACACTCAGCACTTGCCCACTCTTGTTTACTGCCTTGTATTCTAGTTATT
TGTGTATTTGTCTCCCTCACTAGATTATACGCTCCTTGTGGGCAGGGACTGTGTCTTTTTTCATCTTTGTATCTTTCATGCACCTAGCATAGTGCTTTGC
ACATAGTAGTCACTCAGTGTTTGTTAAATAAAGCTATTAGTGTCATTAAAATTCAAAAGACAGTATAATGTGTGTTTTTAGATATTTTGTGTAAAAATTA
AGAATCTAAATTTTTTATCGGTAACTCTTCTAGTTATTTCCTTTGGAATCTAGTTTTATGTTCAATAATAGAAACTTGAAATCTTTATCAAAAATCACAA
GGACCCAAATTCATGTATTTGTCCCTAAAGTAAGGTGAGTGATGATGGTTTCTCTAAACCTTTCCAGTGTTTTAATTTGTTAATTTTTTTTTTTTTTTTT
TTGAGACGGAGTCTCACTTTGTCGCCCAGGCTGGAGTACGGTGGCATGATCTTGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCT
CAGCCTCCCGAGTAGCTGGGACTACAGGCATCCACCACTATGCCTGGCTAATTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGAT
GGTCTTGATCTCCTGACCTCATGATGCGCCCGCCTCTGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGTCACCGCGCCTGGCCTAATTTGTTCATTTTT
ATCTTTAGTGCTCTAGACACTGTTATTAGCACATATTAATCATTTAGTTCTGTCAGTTTCTCTTCTCAGGTGTATTGTATAAGGGCATATCCTCAGATGT
GGTGGGAGTGTGTGGATTCTTGGAATGAGAGCTCTTCTAGTTTAGTAAATATTAAGCATATATTCTGAATCTACACCTCACACTCAAATTATATCTGTTG
TTTCAGTAATGTCCTTTATGGCATTTTTCTGTAGTTCAAGATTTAGTCTAGGATCACGTATTGTATTTAGTCTCTTAATCTGGAAAAAGTCCTCAGTCCT
TGTCTTTCACAACATTAACATTTTAAAATAATATAAGCTAGTTATTTTATAGAATGTTCTCAATTTGGGTTTCTCCAATGTTTCTTCATGGTTATGCATT
TTTAACTGGAATACTGCATAAGTAATAGTGTCATGGTATCACGTCTGGAGGTACATGGCATTTTCCCCTTGCTGGTGTTATTAATGTTAATTACTTATTA
GGGTGCTTTTTAAATTATATCAACCTGGTTATCCTTATAATTCATAAATAATTTGAGGGAGAGATACTTTGACATTATATAAAATATCTCGTTCCTCATA
AAATATGACATTTTGTATTTACCATCAATTGATGATTCTTGCCTGAATCCATTTTATTCTTATGGCTGCAAAATGGTGATTTTTTTTTCTAATTCTTTTC
TATATTTGTTGGTATTATATTGTAAGGAAGAGTTTTCCTTGAAGGATGAATGTCTGATAAACGGGTGGGTGCTAAGAAGAGCATGGATCAAGACAGAGAA
GTATTTATAGAAAGCCCAGGGGGTGTTTGAGATGGTGGCAAACAGTTGAGTTTACTTGGTGCATAGAATATATATAGGAGAGTAGGTGGCTCAAACTGTT
AAGGTCAGATTACAGAAGGCTTTGTAAACCAATCTATAGAATTTGGAATTATTTTATGGATTTGTTAGAAGGGAAGGACATCATTACAGTTTTGGGATAA
TTGTGATAGTGTTATTGATAAAAAATTTCTGTATCTCAGTTTGCATTGAGAGGACTGTGAGAGCAGTAGTATCAAGGGAATGCTGGATCTAGTTAAGGSA
AGAACATGGAAGCAGCCTTGCAGGAAAGGTGGSTTTTATGGAGGAGTTTGTTCTTAGAAGAATGGGAATACACCTTCAAGTTACTAAATGAAACAAAACA
GAATCAAAAACAAATTTTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTACAATGGTGCGATCTCGGCTCACCACAACCTCGGCCTGCCG
GGTTCAAGCAGTTCTCCTGCCTCGGCCTCCCGAGTAGCTGGGATTACAGGTGCGTACCACCACGCCTGGCTAATTTTTTTGTGTTTTTAGTAGAGACGGG
GTTTCACCAGGCTGGTCTTGAACTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTGTTGGGATTACAGACATGAGCCACTGCATCCAGCTGAC
AAATGTTATAATAGAAAAATGGGCAAAGGACATGGTCGGTCCTTTTATAAAAGGGGAAACAGGAGGAAGGGTCAGTAAATAAAAGACAATGAACCTAACT
TGTAATTAGGGAGACGGCATTCATTTCCATCAGATTAGCAATAATTAATACTCCTGAAAAGTGTTGGTGGTGAAGAATAAATTGCTTTTATTTAATTAAT
TAATTTTTCATACAGTTCTGTTGCCCAGGCTGGAGTACAGCATGATCATGGCTCACTACTTCTTTGATCTAGGCTCAAGCAGTCCTCCCACCTTAGTCTC
CTGAGTAGCTGAGAGTACAGGTGTGTGCCAACACACCCGACTGGTTGTTTTAAAATTCATTTTTTGTATATATGGGGTGTCACTATGTTGCTTAGGCTGG
GTCTCGAACTCCTGGGCTCAAATGATCCTCTTGCCTTGGCCTACCAAAATCCTGGGATTACAGACGTGAGCCACCATGCCCAGGCCAGCTCTTATTTTAG
AGAACATTTTGGCAATATCTAGTAAAGTTGAAGCTGTGTACAACCTGATACCTAGTAAGTCCACCTCTAGACGTAGGTGGTCTTTGACTAGCGTATCACA
TCTGGAGGTACATGGCATTTGCCGCTTATTGGTGATACTAGTTTTGTTTACTTAGGGTGGACCCAGTAAGTCCACATTTAGACTTAGGGGTTTCTCTAGA
CTAGGAACTCTCAGACTATATACAATATTCTGTGCCTCATAAAATTGGACTCCTATAGATTTAGCGTTAATTGCTGATGATAAATACATTAAAAATGTTA
AATACAGCATTCATTACAATGTGAAATACACCATTGTTGCTAATAGAAATCTGAAAACAGCACATATATATATAGCTATATCAGTAGGGAAAAGGTTTAA
TAAATTGTGATATGTTCTTACTGTTGAATCCTACAGCAGTGAAAGTGATTTCTGAGATTCCTGATGTGTACTCCTATTTAGCAGAACAGATGAACCAGTT
CATATTCCAACCAGCAATATATGAAAATGCCAGTCTTACTACACCTCATAGTTCCTCAGTCTTCTAATTATTGACAAAAAGGTGCCTCATTATCTTAATT
TACATATTTAGATATTTAATGCTTTTTCCATGTGTTCAAACTGTAGGGAATAATAAAATTATCTGATTTGAATTTGATAAGCCAGATAGTAAATATTTTA
GGCTTTCTGGACATGTAATTTCTGTTGCAGCTACTCTGATGTTGTAGTATGAAAGCAACAACAGACAGTACATGAATGAATATCACTTTGTTCCAATAAA
ACTATGGAGAATGAAATTCAAATTTCACATGTCAGCAAATACAGTCAGCCCCCTGTATCTGGGGGCTCAGTATCTGGGGTTCCACAACCACAGATTCAAC
CAACCACAGATTTCAAATATTCCAAAGAAAATCCAATAAAAATAATACAATAATGAAAGATAAAGAAAAAAAGAGTATAACAACTATTTACATTGTATTA
GATATTATAAATAATCTAGATATGATGTAAAGTATGCAGGAAAATGTGCATATATGCAGACACTACCCATTTTATATGAGAAACTTCAGCATCAACCAGA
TTTTGGTATCCTCAGGGGGAAGTCCTGGAACCAAACCCCAGCTGATACTAAGGAATGACTGGATTATTGTTTTGATTTCAGGTTTTTTTTCTTTGAGATG
GAGTCTTACTCTGTCGCCCAGGCTGGAGCGCAGTGGCATGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAATGATTCTCCCGCCTCAGTGTCC
TGAGTAGCTGGGATTACAGGCACGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCCCATGTTGGCCAGGCTGGTCTCAAACT
TCTGACCTCAAGTGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCACCAGTTTCAGTTTTTTACCACTTGTATT
TGAATCTAGAAAAGCTACTTTTTAATATTCCCATTCTAACTTAAATGATCACTTCATTTGCAAGAAGAGGTCTTAATGAAATGTCAGATTTTTCTGGCTT
TTACTTTTTCTTCATAGCAGAGTTGATGAGACTAAACATAATATCAAGGAATCAATAAATTTAAATAGTAATCTTTAATCACCCAAAGATTTTTAAAGTA
ATCCTTATTACTTGTTAGCTGTTCCTTTAAACTTAATACATGAATAATACAAAATTCCCTTGTGAAGCTGTTAAAGATTTTTCAAAGAAAATGATTAGTC
ACAGCTGGGCATGGTAGCTCACACCTGTAATCCCAGCACTTTGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAGAATCGCTTGAACCCATGAGGTGGAGGTTGCAGTGAGC
CGAGATCGCACCACTGCACTCCAGCTTGGGCAACGGAGCAAGACTCTGTCTCAGAAAAAAACGACAATGATTAGTCACATTCTTTGTCCAGATAAAATCC
ACATATTTTTCCCACCTATTAATATTATTACTTGGTTCTCAGCTAAAATACAGGAAATGAGATGAGTGAACCCAAAATACAGCCTAGCACCCAGTTTGGT
GCTTTGTATATGGGAGGTATTTATAAATGATTGTGCCAACTCCAGATGCGATTACTAACAACATAAAGTAGCCTAGGCTTCAAATTAAATGGGTCATGTA
ATCAATAAATGCTTTAATAGCTGGAGAAGTAAGGTAAATTGAATTTTTTTTTTTTTTTGAGACAGAGCCTCACTCTGTTGCCCAAGCTGGAGTGCAATGA
CGCCATCTTGGCTCACTGCAACTTCCGCCTCCCCGGTTCAAGCAATTCTCCTGGCTTAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCATCACACC
CAGCTAATTTTTGTATTTTTAGCAGAGGCGGGGTTTCACCGTGTTGGCCAGGATGGTCTTGAACTCCTGACCTCAAGTGATCCACCCACCTCGGCTTCCC
AAAGTGCTGGGATTATAGGCGTGAGGCACCGTGCCTTGCCGATAAATGGATTTTAAGCTGAGTCTTTGAGGGAAGAGTAGGACCTGCACTGAAACAAAAA
GACAATTTGTGGGGTTGGGGAGAGGAACCAGATGTAAACAATGGAAAGGTTTTGGTGTCACTTTGAGAAGGATTTTTTGGAAGGGTTTTGCAATGTCCAT
TCTGTATCTTGGGTTAACACTAGTAAGTCAAATGGAGAATAATTTGAGTGTCACTCATTCCTACAGATAGAAAAATTTTAAAGTAGCTTGGGCCGGGATT
TTCCTTTTATCATGTGCCATTGTGTACGTGTCTGCTACTTCATTTAGTTCCTTTTTTAAAAATGGAATTTTTATCACTTCTGTGCAAAGGTTAAATTTTT
TTAATAAATTAATAATGGAATGTTTAAGCCTTCCTCAGTAATGAGTATAATCTTATCTCTCCATCTGATCTGATGGGTCAACTATATAGTAACTAAAATA
GACTGTAACAGCTGTCTTCATCATTAGTTTTTATTTTCACCATGCATGTAGAATGCTTTATATTGTAGTCCCTTATTATCTGAGGTTTCATTTTCTGATG
TTTCAGTTACCTGTGTTCAACTATGTCCAAAAATAGGTAACTACAATGATATTTTGAGAGACCACATTCACATATAACTTTTATTATAGTACATTGTTAT
AATTGTCCTATTTTCATTGTTAATATCKTACTGTGCCTAATTTATAAGTTAAACTTTATCATAGGTATATATGTATAGAAAAAACATAGTGTATACTGTA
TGGGGTTCAGTATTAGCTGTGGTTTCAGGCATCCTCTGTAGAGGTCTTGGAATATATCCCTTGTGGATAATGGAGGACTACATATTTGACTGGTTGGTGG
AGTTAACCTAAGGAGACCTTTTCATGACTCTTTAAACTTTTAGGTTTAAAGGTTGACTCGGAAAAGAAAAACAATTTATATCAATAAATCTAAGGTAGGC
WTATATGAATGCTGCATACTTTTCATCACTGCAGTGTTGTGGAATGAAAAGTAATTGTATGGATTTTATACTATACAACATTAAACTCATAGTTATTTGG
AATATGAGCAACCAGGAAAAGAAAATAACCAGGTATTTTGTTTGATTTACATAGTAATCTACTTTTAGTAGTCATGACAGGATGAGGTATGGCATTTTAA
AAAAAGTAATTCCTAGTATTGCCTAGGTTTGGTACTACTCAGATTAGGTTACATTTGCAGGAGTACTATACAACAACTGTTCACTTTGATGAATCTGAGG
CCTTTAAGGTTCAGAACTGCTTTCCCTATATCAATTTTTTTTTTTCAAAAAAGSCTTTACAAAATAATTTAACATTGAGTATTTAATTTTACATTGCAGG
TACTGGAAAATATTTGTTGAAGAAATTAATTATTCCTTAAAACTTTATTATTGAGTTAACCAAAACTTTACCAAATCTCAGTCCTTAGCTATTCTGTTGC
GAAGAAGTGAGAGTTTACTACCATTAACAAGGCTGCAGATGTACACTGCTACTGGCAGAACTATCCCTAGAGTGGCAAAACTCTACATTTCCCAAGGGAA
CATATCTGTGGGTCATGTTTTGCTTTGGAGACAGTAGTAACTCTAGGAGGTGAACACAGAACGTTCTACATATTTAGAAATAGAAAAAAGAAATAGCCCT
TAACAATTAATCCCACACTCTCACCCTCATTACCTCTTCATTCTATAGATGCTCTCAAGCTTCTTGTGACTTTTGTTGCAAGATGTTGTGACATGGCATC
TGACTCCCTATTGATCAGCAGGGTTAAAATCCTCCTGGGTTTTCCTATCCACAATGTTCTGTGAATTGCTATATTTAAACTAGCTTTTTTTTTTGAGACG
GAATCTTGCTCTGTTCCCAGGCTGGAGTGCAGTGGCACACTGTAGAGTGGCAAATGAAGACATATTTATCTGATCCTCTGATATGAAATCCCCTATTAAT
AAACACCTTTCTTAAAAGTGCTATATAAAAGTATGCTTATAATAGGAATGTTTCCTTTAATTTGTCTAGAATTGAAAGGGAAATAGGCAGGGGGSTTCAA
AAAACAAAAGGGAAATTGAAGGCATCCAGAAACTTATTTTATTTTTGAGACCGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAATGGTGTGATCTCGGC
TCACTGCAACCTCCACCTCCCAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATGACAGGCACCTGCCACGGTGCCTGGCTAATTTTT
GTATATTTAGTAGAGGTGGGATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTAATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGA
TTACAGGCTGAGCCACCATGTCCTGCCTAAACCAACTTTTGTGAAATGGCTTTTTAAGGTAATGTCATGAACCACTTCATTCCTCTGCCAGGGTCTTATT
TAACCCTTCAAAAACATGGGTGGGCCCTATATAATGTGACTTCATTCTACATTGGATCCCCACAAAGCTAGTCTTGGCTTTTCACTTGGAACATGCCCAA
TGCTGATACAAAGTAAAGATTCACTATAGATCTTATTGCTATCCATCGTACGTTATAAAACTTGTCTAAATATTTAAAGGTTTAAAACAAGCCTGCGCAG
TGGATGTCAAGAGTAAAGTACGTTTCATAGTAAAATTAAAATGCCATTAAAATTTTGTTCTTGTGGGGCTGGGTGTGGTGGCTCATGCCTGTAATCCCAG
CACTTGAGGAGGCTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTACCCAACATGGTGAAACCCCTGTCTCTACTAAAAATACAAAAA
TAAGCCAGGCATGGTGGCTGGTGCCTGTAATCCCAGCTCCTCGGGAGGCTGAGGCAGGAGAATTGCCTGAACCCAGGAGGCGGAGGTTGTGGTGGGCCGA
GATCACACCATTGCAGTCTGGCCTGGGCGACAAGAGCAAGACTCCGTCTCAAAAAAAAAAAATTGTTCTTGCTTTGTAAATGCTGCTTTCTTTTCTTCAT
TTTGGAGCGGGGAGCCTTGCCGATAGTCAGTGACTTGTACATTTGTTTACTGGCATTTGATAGGCTGCTCCTTATCTTGCATGAAAAAATAAAGACCTAG
CCAGTCTAATCCTGCTGGGATTCATATCAGTGGCCCCAGGGGGTTGAGATGCTTCAAAGCTACTGTTTAAATGGCAAAACCAAGTATCTTACTTGGATAA
TACTAAAGTATGTCCTTTATGGCTTTATTGGAATCTGAATTGTAAACATTTGGTACAGTGGATTAAAGTTCTGCTTTAAAATTAATTTCTGAGTATGTGA
GATATGCCTTTTCTTTGTGACTTTTGCAGTGCAGTGAATTCAGGCTGTTTTTAAAAGGTCAAGTTTTTAAAAGGCAGGGGCATTAGTGCTAGGGCTGCTT
GAAGATGAACAGCTAATGGAGAAATCCTACAGTGAAAGGGGTTGTTTTTTTTTTTGTTTTTTGTTTGTGTTTTGAGGTGTCATTCTATTGAGTGTTTATA
TATATATATATATATATATATATATATGTATATATCTCCATCCTAATTGTTGGCATAACATTAAAATTAGTGACACAACACAGGTTTCTTGTATAGGTTT
TCAGAAACTAGCAGTCCTCAAAATAACAGACCAAGCAATGTAGTTTTTGCTAATGGCACTTGCTGTGACTCATGATAGTCTACTGTTGATGAGCATTCCA
ACTAAAATAGCTTTCACTTCACCATTGATTAACATGGCTACCTTGCTAAAACATTTTCTGAAACCAAAAGCTAGAGTGATCATTCATAGCATTGTCTTAT
TAAAAGACTATGTCATACTGTATCGTAGAAAAAGCCATTCTGGGTAGTAGGATTTGCTTCCTGGTCTATTAGGTTATCTGTTCTCCCTTCTAACTTGAGG
TAATGTCTGAAAACAGTGCCATTCAGGTATTGCTTAGGTAACTAAACCAGTGAAACCAGTGAAACTGCCTTTATACTGTTACCAAGAACAGCAGACTCCC
ATTAAAAAAAAAAAAAAACTCTTATTACCCTACTCAAATTATTCATCTTTAAAAAGGCATAGGGTTTTTTTTTAATGTTTATCATCTTGACTTTTTTTTT
CTCTTGAAAATTTTTGGATTAATTTGAAGATCATTTCAAAATGACCCAGGATATCACGATCTATTTTTCCTCTTCCTAAATTATTTCTCAAAACAGTGTA
ATTTCTATGTGTGATGACGTAGCAGTCACTAACAACCTCAGCGCACTTTTTGGTTAGATATTCCACTCCAAATAGCTAAAATCAACTGCTTTTGGGATTC
TAAATGTACTTAAAGTTACAGGGTCTGTATGAAAATGCCAGACACTAATTAAATTTTGGTGGCCCATTCATGATACGGCTCTTTTATCTCCGGATTCTGA
GATTGAAAAGGTGACTTGATCAAGCTATTGAATTACTGTAATAAAACAATTACTCCCTTAGAATTTTAATTTAGAATTTGTCTACTTCCAAAAAGGGTTT
AAAGCAGTTATTACTAGACTGGCATTAGGTTATTTCAAATGTTGCGGAACAGAGGATCTTCGTGTATTTAGCTTAACAATACAAAAAGAAATTTTGCAAG
CATAAATATTCACTCTTACAACATGGTGGCAAGGCTTTTCTTTGCAGAACAATCTTTGCCCTCTTACCTGCCAGACTCTTCTCTCATGCTCAGTATGTGA
GACAGTTAAGTAAAGGGAAAAACACTAAAAGCAACTAAAATGATTGGCAAACTTCTCACTGTAACCTAAACTGCTTAGCATACAAAATTATCGTCTACCC
AATAGGGTTTTATGTCCTTTAACTGAAAAGGACACTAAAAATAATTATTGTGGACTTGAGCTTTTCTCTTTCGGCGGGGCGGGGGGTGGGGGGGGAGAAT
CACCTCTCTTACAAAGATAAAAGGCACAGAACTAACGTCTTTCATCCTTTATTGTATTGGTGCGATTATGAAATATTATTATGGCTTATACTTTAGCAAG
AAAGTACCAGGAAGGTTATTATTAATCGACAATGAATGCCGTTGATACCTTCATGCTCTTTGAAGACAGGATGCTCCGGCTTTGAAGCGCTACATTTCTA
CATTGCTAACCTACAGGAACCTATGTTGAGGTGGTCCCACCGAAATACACGGCTAATAGTTCATCTCTTTCCTCCAGGAACCTTCAGGTTTTTTTTTGTT
TGTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGTTGGAGTGCAGTGGCGCGATGGAACCTTCGGGTTTTACTAAGCATCCTTACCCTAATTAT
CTAAATCTTTGAGACGTAAATTATTTGATGTGGCTAAAAATCCTCCTGCTAGAATTTAGGTCCAATCCTTTAATGTTCGGATACTCAAATTCTTTAACGA
AACTGATCACTGAGCTAGGCCGACACAAGTCCGCCAAAATGTCCGCAGAAACGTTAAGAAAAGCTGTCATAAGGCCAGCTTGAAAGACATCATAAAAGGC
CTTCGCTGTCCTTTGAGTTAATTATCTAACACCCGAAGAGAGTGCCAGTTCTAGTTAGAATCCGCGCGTCAGGTTCTCCAACAGTCAGAAGGGCTTGTGT
GAGGGCAGGGAAGATTTTAAACCCCGTTTCAGGCCCCCTCCCTAGGCTGTAGGAAACCACCCACTCTGAAGCCCGGCGGGGGAGGAGTGCTGCAGCCAGC
TGCCGAGGGAGCGCTCTGCGGCGAGGCCGTTTCCCTGAGTCACGGAGAGGGCGGGAGGCTGCGCCCGTCTGCCCCCGCCACGTCCTCCTGTGAGGGGCTC
AGTCGAAACAGGCAGCGGTCGCAGGGAAACGAAGCGGCACCCGTCATGCCTCAAGGTGGCCCAAAAGCCTCTTCACTCCCAGGAGACGCCGCATTTCCTT
AAAACGAGCTCTCCATTTCTGGCAGCAATCAGCCGACCCTTCCCCATCAGTATCACGTGCACCTGGAAGTACGTGGGTGGGACCTAAAGCGCCCACGGAA
GTGACGTCGGTCGCCCCGAGTCGCATGATGTGGCAAAATGAAAAAAAAAAAGTGGGGGGAGAAAGAGAAGACTGGCGAAAGTGATGAGTCTAAAAAAGTA
GTCCCTCCGGTTCCTCTGTTTCCCCCCATGTGGCGTCAGGAAGCGAGGCACCGGGCGCACTGCGCCCCGAATTCCTGCGCCCGCCGCGCGCGGCGCTCCG
TGGAGGGGTACATAAGGCGGAGGGGGTGAGGCGACTGGGCGGAGTTCTGTCGCCGGGATCCTTCCGCTGGGCTCAGCCGTTTCCGGAGTCTGCGCTGCGC
CCGGTTCCGCCATTGCGGCTCTCCTGGCCCCTGGAGCCTCCGCCCCCGACCCGAGCTCTTTCGTCTGCCTGCCAGTTTCCTGCGTCCCCGGAGAGGATCC
TGCTGAGCCCAGCCTCCCCCCTCCCCTTCTCCTCCTCTCCCTTGGAGAGCCCGGGCAGCCACTGCCCCGCAGCCCCAGTGACAGGAGGAGACCATAACCC
CCGACAGCGCCATGGCCCAGATTCTGCCAATTCGTTTTCAGGAGCATCTCCAGGTGCGGCCGGGCCCGGGCTGGTGAGGGCTGTGGAGAAGGTGGTAGGA
AGGATGGAAGACGCTGGAGTCTGGGCCCGAGCAGTATCGGAGCTGGAGGGGCGGGGGGGTTGTCGGTGATTGGGGTAGGTGGAGGAGGGGGCACTATCTT
GGAAAGCTTAAAATATTAAATGATGTGGGGCTTGGATGGAAAGGACAGGAGTTGGGGTGCAAAGAGCTGCAAGGACCAGGCCTGGATCCAAAGGCCTCTC
GATCTTGCTTCCTGGATGGCCAGAACTGCGCGTACAAACTCTCTCCCCATTTTATTCATTTCATTCATTTGGGTAGGGGAGTGGGAGGGGGATTCTCCCT
TGTTTCTACCAGAGCAAGGATTCTTATCCCCTGGGCCAGTGCGGGGCTGTCACCTTCCATTGCTCTCCTCTTTCCCTCATCGTGTCTGCACCCAGGAGTT
GTGGGGCGGGTGGGTTGGGGAGGAGCAACCTTTTTTTTCCCTCCCTCTGCGGCTCTCAACTGAGAAAGGCACCTTCTCCGGTGGTGGGGGTTGGGGGTGG
TGGTGAGGCGGTGGCTTTTCTCTTGCCTTCCCTGAGGCAGTAGGGACAGAAGGTCACTGAAAGAACGGAACGAGGGTAGAATGGGAGAACGCATTTCTTA
GAGCTATGTCAATCTCAGAGTGTGTGCGGTCAAACTCCCTAAGGAAACTCGCCTCCCCTTCCCCCTTTTTTTATTTCTCTGGGGATGTTGTGGCTCTTAA
CCCCTCTTTGGTTCTGGAAGGTAGGAAAGAGTGATACAGAGGTTATCTTTTAGTCTTCTCGAGTAGTAGCAGGTAGTTTTGAATATCTTCTTCAGGATCG
CATGGAATTGAACAGAGCCCTGGGGACAGCACAGCTGCTCTGAGACCTGCAGGGCTATTTGGTCTGTGACTGGCTTCCCTTTAGTAAGTTCTAGAGTTCT
TCCCCATGGTTCCTTATCCTGGAGGCAACATATTGTTATCTGGCAACATGCCAGTGGCGGGCCTAGGCAGGTGACCATTGGAAGGCTTCACTGAATTAAA
CCTCTTCAGAGCTTTTGATTTTCCTGTGTCACCAATCCTGTTTTTTACTGTAGCTTAAATAATTTATTCCTATTAATTTGCTTTCTTCCCAAATATCCCC
TTAAAGAAACCTGCCTCAGCTCAGTCGTCTGAAGGGCTAATTCCATAATGACAGGGAATGCAGTGGTTTGACATGACACTGATATCAGTGACCTATTAGA
CACTTTACCATTGAAGACCATTTTTATTTACATTTCCCCATTGGCATAGCATACATAAAGGATTCTTGTTAATAAAAGGTTTTAACATTCAGGCTATAAG
TAACATAATTTCATATTTCTTTGCAAGTATTACCATGTTTGCACTAGCAAGGACTTATTTTCCTTTAAGGCTTGAAATGTAAAGAATAATAAATTTTTAC
CCATAAAATGAGTTAAATAATGCACTTTCCTCAGTCATCTATAATTTTCAAATAACTCATCTGAAGTAATGGAATATACCTTGGCAATAAAAACACTTTT
ACAGAGGGTTAAAAATGTTAAATAACAAAATGGACATTTTTTTTTGATCAATCCAAGTTTAGTTGCTGTGGTTGCTTTTGTTAAAGTGGGGTGGCAAATG
AATGTGGAGAGTTGAGGGGTGCTGTTCTTAAGTGTGAGGGGAAAACGCGGGCTTATTTTCATATTAAACTGCATCTGAAATATCTTTCTGCAGACAAATG
TTTATAAACCACACAGAGAATCAAGTACAGCTGCTCTTTATTTTCCACGGCAGATGTGTAGCTCACTACTAAATCTTGTGGTGGTTGGAGTAATAGCTTT
TCATTTCTTTTAAAGAGGAGACAAGAATTGTTAAATGATCCCAAAGATTCGAACCCAACCTTGTCACTTATTAAAGACAAATTTAATACATGTCTGTTTT
GTAACTGGATCAAAGTTTCTGCAGATGCTTGAATGAAGCCATTTTCTTCTCAAATAATTTGAAGATTTTGAATATAAAGCGATTTGCAAATTGAAAAATT
CAGTCCTCTGTGTTTTGGATTGCTATGTCATGCCTAAACTTAAGCTTGCTTAGCTAATATGACTGTGCTCCAGTTGATTAATTGTGGAGCCCAAATAACT
ACAGCCTCTTTCATGATAATATATCTCCTAACTTCATATCATTATCTCCTCCCTTTTTAAAAATTAATAAGCATTTTGTTTTTTTGAGGAGACAGGGTTT
TTGCTGGAGGTCAGTGGCACCATCACAGCTCACTGCAGCCTTGACCTACTGGGCTCAAGCCATCCTCCCACCTCAGCATCCTGAGTAGCTGGGACTACAG
CCATGAGCCACCACACCTGGCTAATTTTTGTATTTTTTGTAGAGATGGAGTTTCATGTTGCCCAGGCTAGTCTCGAATGCCTGGGCTCAAGCAATCCTTT
GCCTTGGCCTCCCAAAGTGCTGGGATAATAGGTGTGAACCACCGAGCCCAACTAATAAGGATTATTTTAATTGGCATCTTTGGTCTTTGACCTCTGAGCT
TCTACCAGTTTGCTAAGTAGCAGAAAACTTTCTGAAACACGTAGGATAAAAACTGGAAACAAGAAATGGGGAACTTAAGTGTGAGTGTAGAGTTACCTTG
TGAAACTGTAAATGAACTTATTTTTATACCCTTTAACTACATTGTCCAACTGAAGGATCT


SNP Information

Context             (SEQ ID NO:55885):
ATAGTTTGGCTGTTAAGTGTACTTGTGACTTACTAGAAATTTACTTTTCTTTCAGGATATCTTATTTGGTTTATTGAAGAAGCTATTTCAGGAGAAGTCT
S
CTAATAGGAAGGAGCATTTAAAAGTGGTGGTAATGTCAGCAACTATGGAATTAGCCAAGCTCTCTGCATTCTTTGGAAATTGTCCAATATTTGATATACC
Celera SNP ID:            hCV26761876
SNP Position Genomic:     36633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55886):
TGACACTGCTGTTTGAACATTAGGAGACAGCAATCAAATATATGACTGATGGATGTTTACTGAAACATATTCTGGGAGACCCAAATCTTACCAAATTCAG
W
GTCATTATTTTGGATGAAGCCCATGAAAGAACTCTAACTACAGTGAGTATTTTAATTTATTATTATTTTTTTATTAGCAAGTAGTTTGTTTGGGTAGCTT
Celera SNP ID:            hCV26761877
SNP Position Genomic:     36041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55887):
AGTGAAATTATCTATGTCAGATGACTATTGCTTAGTAGGCATTTATTATATAACATTGATTCTCTTGTTTCCTCCTCAAACCTTTACTGAAAATGACCTT
R
TAGAATTTTGCTTCTATATAGGTAGCCTAGATTAAAAAATGATTGGATATTTGTTATTGCATATATAAGTAAAGAAATCCATTTACAAATTATTTTTTAA
Celera SNP ID:            hCV26976880
SNP Position Genomic:     63593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55888):
TATTTGTCCCTTTTTCTGTATAGACAGCATGTTTTGTAACTTACCATCATTTTGTATACATAAGTTAGACTATTTTTATGTACCCTTTTGTTTAGTCAGA
K
TGGTTTGATCACTTAATGTTTGTACCTCTTGAGGAAAAATTTAGTTGGGAAAATAGTGGTGAATTCCTGTGACACTGCTGTTTGAACATTAGGAGACAGC
Celera SNP ID:            hCV26761878
SNP Position Genomic:     35871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55889):
TGATATTGACTTCAAGGTATTTTGAATTTCAGTGAAATTATCTATGTCAGATGACTATTGCTTAGTAGGCATTTATTATATAACATTGATTCTCTTGTTT
Y
CTCCTCAAACCTTTACTGAAAATGACCTTGTAGAATTTTGCTTCTATATAGGTAGCCTAGATTAAAAAATGATTGGATATTTGTTATTGCATATATAAGT
Celera SNP ID:            hCV26976881
SNP Position Genomic:     63563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55890):
AAGATGATATTGACTTCAAGGTATTTTGAATTTCAGTGAAATTATCTATGTCAGATGACTATTGCTTAGTAGGCATTTATTATATAACATTGATTCTCTT
S
TTTCCTCCTCAAACCTTTACTGAAAATGACCTTGTAGAATTTTGCTTCTATATAGGTAGCCTAGATTAAAAAATGATTGGATATTTGTTATTGCATATAT
Celera SNP ID:            hCV26976882
SNP Position Genomic:     63559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55891):
GGAGGATTTAATGACTTTGCAACTTTAGCTGTCATCTTTGAACAATGCAAATCAAGGTATGTAAGGTAGTCCTTTGTCCTGAAAAATGTCAATTTGATGT
R
TAGTTCCAATACGTACTTATGATGTGGCTTGTGACACTAACGTTCAGTGAAGATGATATTGACTTCAAGGTATTTTGAATTTCAGTGAAATTATCTATGT
Celera SNP ID:            hCV26976883
SNP Position Genomic:     63409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55892):
CATTTTTTTTTCTGTAAGCATGGATTACTCTTATAACAAAACTAATTTAAAAAGTAAATTACAAATACTATTTTTAAAAGGCAAATAGATTGGGAGAAGT
R
ATGTTGCTATTCAGGTAAAATCTCCAAAGTGATATGAAAAGAAAAAAAGGAATTGTGGGAGAAATAGAGCTTCCTAAGAGAAGTTAAGAAGAGTTAATAT
Celera SNP ID:            hCV26976884
SNP Position Genomic:     63033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55893):
TATGTTCCATTTATAGAAAAATGAAACATTATGTACATATGCTTATATATACATAGAAATTACCTGGAAGGACACACACTAAATAATGAACAGTACTTTG
Y
CTTGAGGATTGGTTTATGGGTAGTGTGACTGGGGAACATTGAACTTTTACATGATATTCTTTTATACCATTACATTTTTTTTTCTGTAAGCATGGATTAC
Celera SNP ID:            hCV26976885
SNP Position Genomic:     62860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55894):
AGAACTGGTTAAATTGTGTTATGTTCCCCATACTCCTGGGGAATACCATATCATTGTTTTTTTCTTTAGACAAGGTTTCACTCTGTTGCCCAGGCCAAAG
Y
GCAGTGATGCGATCACGGCTCACTGTAGCCTCAACCTCCTGGGCTTGGGCCGGGCACGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGAC
Celera SNP ID:            hCV26976886
SNP Position Genomic:     62121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55895):
CTGCATATATGGAGATCATGTCTAATTGCCCATAATTGGGAATTGGATAAATAAGAACTGGTTAAATTGTGTTATGTTCCCCATACTCCTGGGGAATACC
R
TATCATTGTTTTTTTCTTTAGACAAGGTTTCACTCTGTTGCCCAGGCCAAAGTGCAGTGATGCGATCACGGCTCACTGTAGCCTCAACCTCCTGGGCTTG
Celera SNP ID:            hCV26976887
SNP Position Genomic:     62068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55896):
TCTGAAAGATTAGCCCTGGATAAAGTGCTGTATGGGGAATTTGGGCAATCAGAGAGCACATGAGTCCTGAATGGGATCAGGGGAAGTGGTATCGAAGTAA
K
TAACAGATAAATCTCAAAAACGTAATGTTGAGCAAGAGAAAACAGACACATCAAGTACATACTATACGATTCATTTATACAAAGGTTAAAAATGGGCAAA
Celera SNP ID:            hCV26976888
SNP Position Genomic:     61621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55897):
GAAGCTACTTAAAGCATGGGATAGAAGACTTTATACCTTCATCAGTGTTTTCTTTAATCAAATTACTTTCCTCCTAGTAACAGGAACTGCTGCTTTGCAG
W
TTCACATCGTATTCTATAGTAAATGCTGCTCCCTGGATTCAGGCAACATTGTGCCTCTGCTAGATCTAGCTGTGATAGGTATAGGGAATAGGAATTGTGA
Celera SNP ID:            hCV26976889
SNP Position Genomic:     61365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55898):
ATATATTAGAAAAATAGGAACAATAATTAATATCATCTGCATTGAATTATTTTTCCATCTTAAGTCTTAAAAGCCATAGTGTACTAAAAATCGCAAAATT
W
TGTTTCAAAATGCTTGAAACAAAAAACAAAGACTTCCTTTTTAAAAAGTTGTATAAAGAATAAGGAGAGGTAGAGCCAGTGTTTGGGGTAGATGGTATAG
Celera SNP ID:            hCV26761911
SNP Position Genomic:     45098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55899):
CAGGGGTCTTTGGAGAAATGGGGCTGGGAAAATGCAAGATGAGCCCAGAATATCTTATTTTGCCAGCAAGTAAAGAAGTGATTAACAAAGGTTGAGGCCA
Y
GTCAGAAGAACATAGGAGCCAGCATGAAGAGGCCCCAAGTAATCAAATATGAGACACTTTAAGCATCAAAATAAGTAGTGATAGTAGCGGATTATTATGC
Celera SNP ID:            hCV11630038
SNP Position Genomic:     68024
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55900):
TCAGTCAGAGTGTAGTGAGGAAGGCATCTTTATAGAGAAAGGGGTAACAGTGATGGTGATGGAGATTCATTAAATACAGAGGAATTGAACACATAACTCT
R
TGAGTGATAATGGTGAAGGGAGTTAGAAATAGCGAAAGTGAGAAAATAGGAATGATCTCTGTGCTGTTGGATTGAAATTTCAGTGTATCATGATGAAGTT
Celera SNP ID:            hCV11630039
SNP Position Genomic:     67632
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55901):
CCTTCCTTAGTTTATAAATGACAGTTTATTTTCTTAGGATTCTCTTATTTATGTTTTTTAACTGTAAGGATTCTTGACATGTAGGTTTTTAAAATGTTTT
W
TTGTAGTAAAATATATATAACTTAAAATCGACCATTTTACTATTTTGGTATACAATTCAGTGCCATTAAGTATGTTCACAATGGGCTGGGCTCGATGGCT
Celera SNP ID:            hCV26761885
SNP Position Genomic:     33940
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55902):
AATTAGTCTCCCGGAGCAGTTCAAGAAATGGAGATTAATAATCATTTATATCTTTTCCTTACCAGGGTCATTTGTATGTTTGTATGGTCTGAGATAAATC
R
TATTCTTTTTTTTTTTTTTGTCTCTAGCTGCTTCATTCAGTTGCTACCTAGGTAACATAGTTGGAAGCTACTTAAAGCATGGGATAGAAGACTTTATACC
Celera SNP ID:            hCV26976890
SNP Position Genomic:     61201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55903):
ATACATTATATTATAATGTATATTTATATATAATATATAGTATATATTATAATATATTATAATGTATATTTATATATAATATATTATAAATTATATAATA
Y
ATATAATATGTTATATATTAATATATATAATATATAATATATTATAATATATATTATATATTAAATATATATTAGTATATAATATATATAATATATAAAT
Celera SNP ID:            hCV26761887
SNP Position Genomic:     33005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55904):
AGGTGCTTAAAATGAAATATTTTGGGTTAAAAATTAGTATCCCTGGCTGGCGTGTTGGCTCAAGCCTGTAATCCCAGCACTCTGGGAGGCCAGGGCAGGC
R
GATCACCTGAGGTCAGGAGTTCAAGGCCAACCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAAATGTAAAAATTATTTGGGTGTGGTGGTGTGTGC
Celera SNP ID:            hCV26976891
SNP Position Genomic:     60856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55905):
ACCAACAGGGAAAAAACCCGTCTCTGCTAAAATACAAAATTAGCCCGGCATGGTGGCACATGCCTGTTATCCCAGCTACTCGGGAGGCTGAGGCAGGAGA
R
TTGCTTGAACCTGGGACGCAGAGGTTGCGGTGAGCCGAGATTGCGCCATTGCACTACAGCCTAGGCAACAAGAGCAAAACTCTGTCTAAATATATATAAT
Celera SNP ID:            hCV26761888
SNP Position Genomic:     32804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55906):
AAATTTATCAAAAATGCATGCAAACACAGACTGCATGGTGCCATGATTCTAGGGATTCCAGGAGGCACTGACTCACAGGTAGGCTTTTCTCCTGGTATTG
M
GAGCCAGGATGGGGTCGATGCTGGAGTCTAGGGCAATTTGACTTTTGGCATGATATCTTCTGGGGGATGGCAGTTAGGTGCTTAAAATGAAATATTTTGG
Celera SNP ID:            hCV26976893
SNP Position Genomic:     60680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55907):
CCACAGAGAGAAAAACAGGCAGTTAATTTTAAAGGACTCCAGCTCTTTCTCTTCCTCGGGGAATTGGGTTTTCTTACATACAACTGAGTTTTTGCTTATA
M
AGTCTTTAATTTCTTTTAATTCCTGTTCCAGTACTAGTCTGTTTTATAATTTACTACCATAAAATATACACAAATCTATTATAAAAAGTTAAAATTTATC
Celera SNP ID:            hCV26976894
SNP Position Genomic:     60488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55908):
CTCAGGTGATCCTCCTGCCTCGGCCTCCCAACATGCTGGGATTACAGGCGTGAGCCATGCACTCGGCCAATTTTTTCAATAAATATATTGGAAAAGTTTT
Y
GGAGATTTGTGACACTTTGAAAAAACTCACAGATGAACTCCGTAGCCTGGAAATACCAAAAAAATTAAGAAAAAGTATGTCATGAAAACATAAACTATGT
Celera SNP ID:            hCV26976895
SNP Position Genomic:     59928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55909):
TACTTATTTGTAGATTTTTTGTTTTTTGTTTTTTTTTTTTGAGACAGAATTTTGCTCTTGTTGCCCAGGTTGGAGTGCAGTGGCACAATCTCAACTCACC
R
CAACCTCTACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGATTACAGGCATGTGCCACCATGCCCAGCTAATTTTGTATTTT
Celera SNP ID:            hCV26976896
SNP Position Genomic:     59675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55910):
TGGGAGTAGTGGGAACTACCACTGAGCTGCTGAACCCATTGGAACAACTCTTCTGCAACACAGAGCTGTGGGGAATAGAGGACTGCGTAGGCTGTCATTA
K
CTGTTATGCTTTGATCTTCCCTACCGAGTAGCATTTAGGAGTCAGGGAAAGGGTGCCGCTTTCAGGCTGCCTTGAAGGCTCTCGCATAGCCCTTCCACAC
Celera SNP ID:            hCV26976897
SNP Position Genomic:     59246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55911):
GGGGTTGGGGAGTTAGGAGCTGATACTGTGGCTCACTTTGCATCTTCCTCAGCACAAAGCCTTTTGAGATGCAATCTCTGGATGTTCACTAGTTGCAAAC
R
TACAAACCTGGAATAGCTCTAGGAAACTGGGAGTAGTGGGAACTACCACTGAGCTGCTGAACCCATTGGAACAACTCTTCTGCAACACAGAGCTGTGGGG
Celera SNP ID:            hCV26976898
SNP Position Genomic:     59118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55912):
GGGTGGTGGTGGTAATGGGGGCCTGTTCTTCAGTGGCTCTCCTATCTGGGTCCTCCCTAAATAGCAGAAGCTTGGGGTTGGGGAGTTAGGAGCTGATACT
R
TGGCTCACTTTGCATCTTCCTCAGCACAAAGCCTTTTGAGATGCAATCTCTGGATGTTCACTAGTTGCAAACATACAAACCTGGAATAGCTCTAGGAAAC
Celera SNP ID:            hCV26976899
SNP Position Genomic:     59045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55913):
ACCTATTTTTCTGTACTCCCATTATAAGCATATACCTTAGATGATTTGATATTTCCTTCTACCTTGCAGCCTCACTCGGTAGAGTTAGTTTGTATATCCA
R
TGTTTATCTGGATGTATTGTCTCTGACTTTTTACCTTTTTGTGAAAATTAACTATGATTCAGGTCCCTTATCTTTTCTGGATGTAGTAAATAGTGCTATC
Celera SNP ID:            hCV26761922
SNP Position Genomic:     40777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55914):
CACAGGCGTGCAGTCATAGCACACTACAGCCTTGTATGGAGATCAGCCAATCCTCCCGCCTCAGTCTCCTGGGTAGCTGGGACCACAGGCATGTGTCACC
R
TACTTGGCTGTTCACACTTTTTAACTACTTGGCAACTTGAAGCTTCTTTTCAAATTTAAGATTATGTATAATGCTTTATGGGTTTCACTAAATAGGAAGC
Celera SNP ID:            hCV26761923
SNP Position Genomic:     40573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55915):
AGTTAACCTAAGGAGACCTTTTCATGACTCTTTAAACTTTTAGGTTTAAAGGTTGACTCGGAAAAGAAAAACAATTTATATCAATAAATCTAAGGTAGGC
W
TATATGAATGCTGCATACTTTTCATCACTGCAGTGTTGTGGAATGAAAAGTAATTGTATGGATTTTATACTATACAACATTAAACTCATAGTTATTTGGA
Celera SNP ID:            hCV28954487
SNP Position Genomic:     79101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55916):
TTTGCAGGAGTACTATACAACAACTGTTCACTTTGATGAATCTGAGGCCTTTAAGGTTCAGAACTGCTTTCCCTATATCAATTTTTTTTTTTCAAAAAAG
S
CTTTACAAAATAATTTAACATTGAGTATTTAATTTTACATTGCAGGTACTGGAAAATATTTGTTGAAGAAATTAATTATTCCTTAAAACTTTATTATTGA
Celera SNP ID:            hCV28954488
SNP Position Genomic:     79454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55917):
CTATTGAAGCATAGATATCTATTTTAGATTTTGTCATCTTCAGGGAAATTCTTAGGATCATTGTTTAAGGTTCTCATTGTTTTCTCAAGATTTGGTTCAC
Y
GATGCTTTTATAATTTACATTGAAACTGATAAAAACCCATTATGTTTGGTTTGTTATTAATCATTAACTAAATATGTACATAGACATATATTATTCTATA
Celera SNP ID:            hCV26761927
SNP Position Genomic:     39527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55918):
ATTAATAAACACCTTTCTTAAAAGTGCTATATAAAAGTATGCTTATAATAGGAATGTTTCCTTTAATTTGTCTAGAATTGAAAGGGAAATAGGCAGGGGG
S
TTCAAAAAACAAAAGGGAAATTGAAGGCATCCAGAAACTTATTTTATTTTTGAGACCGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAATGGTGTGATC
Celera SNP ID:            hCV28954489
SNP Position Genomic:     80195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55919):
CTATATTAACAAAGTTTTGGAATATATGTGTCAGTAAAGAACATAGATGTGCTATTTTGGAAATCTTTTTTATGATGATATTAGCTTCTTACTCTCTATT
R
AAGCATAGATATCTATTTTAGATTTTGTCATCTTCAGGGAAATTCTTAGGATCATTGTTTAAGGTTCTCATTGTTTTCTCAAGATTTGGTTCACCGATGC
Celera SNP ID:            hCV26761928
SNP Position Genomic:     39432
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55920):
GTAGCTATAGCCATTAACCAAAGGACAGATGATATATATATATATGATATATATATATATATAAGTTCTTTTTTAGCTGTACCTACGTACTTATATCAGC
M
CCATGTATGTAGGTGTGATAGTACTTTCAAACAGCGCCTCCACCTGGCCTACTCTGTTATTTCCACCTGTTTGGGTAGGGCCATTTAACTTCCATTATGC
Celera SNP ID:            hCV456392
SNP Position Genomic:     72460
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,13)   total(A,13|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55921):
CCATTCCCAAATATATTAAAATGGTATATGGAAGGTGCATATATATATATATATAAATATAGATATATATATTTATTTATTTTTTTGAGATGAGATCTTA
Y
TATGTCGCCCAGGCTGATCTCAAACTCCTGAGTTCAAGCAATCCTCCTACCTCAACCTTCTGAGTAGCCAGGCTCCTGAGTAGCTGGGATTACAGGTGTG
Celera SNP ID:            hCV26761895
SNP Position Genomic:     31748
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55922):
TATTAGTAAGAATGGAAATGCGCCATCGATTTTAAGATGCAGCTCCATTCCCAAATATATTAAAATGGTATATGGAAGGTGCATATATATATATATATAA
A
TATAGATATATATATTTATTTATTTTTTTGAGATGAGATCTTACTATGTCGCCCAGGCTGATCTCAAACTCCTGAGTTCAAGCAATCCTCCTACCTCAAC
Celera SNP ID:            hCV26761896
SNP Position Genomic:     31704
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55923):
CTGTATTAGTAAGAATGGAAATGCGCCATCGATTTTAAGATGCAGCTCCATTCCCAAATATATTAAAATGGTATATGGAAGGTGCATATATATATATATA
T
AAATATAGATATATATATTTATTTATTTTTTTGAGATGAGATCTTACTATGTCGCCCAGGCTGATCTCAAACTCCTGAGTTCAAGCAATCCTCCTACCTC
Celera SNP ID:            hCV26761897
SNP Position Genomic:     31701
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55924):
ACAGTGCCCAGAGCATAAATTGCTCCATAGTCTTGATCCAAATAAAGTTGGGCACCTCGGCAGGGGCAAGGTATTGCCCGTCTTTGATAATCCTTTCCCC
W
TCCTTTCCTGGAAACAATCTCTGTGCTATGGAGCAGGAGTTGGAGAGGGTGGTGGTGGTAATGGGGGCCTGTTCTTCAGTGGCTCTCCTATCTGGGTCCT
Celera SNP ID:            hCV7461175
SNP Position Genomic:     58898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55925):
GGAGTTAAATTTACATATATCTATATTACATAGATCTATAAGGGTATTGGTTGGCCTGTGCCTCCTGTTTGAAGAAGATAGGAATTAATTGAGAAGGATT
Y
GGACTATTTGGTTGGTTTAATGTGGAATAGGGCAGGTTATTGAGTTACCATCATTAAAAGAAATGTTTTGTATAGCTTCATGAACAGGAAACCAAACTTG
Celera SNP ID:            hCV25986531
SNP Position Genomic:     69883
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,35)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:55926):
CAAAAATAGGTAACTACAATGATATTTTGAGAGACCACATTCACATATAACTTTTATTATAGTACATTGTTATAATTGTCCTATTTTCATTGTTAATATC
K
TACTGTGCCTAATTTATAAGTTAAACTTTATCATAGGTATATATGTATAGAAAAAACATAGTGTATACTGTATGGGGTTCAGTATTAGCTGTGGTTTCAG
Celera SNP ID:            hCV11611866
SNP Position Genomic:     78828
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55927):
GGCTGGTCTGTCTCTATTGGTGTCACAGCAAGCTGTTAGTCTCCACTGATTGCTAGCTGCTGGCTCTGTTGTTTTTGACAGTGCCCAGAGCATAAATTGC
K
CCATAGTCTTGATCCAAATAAAGTTGGGCACCTCGGCAGGGGCAAGGTATTGCCCGTCTTTGATAATCCTTTCCCCATCCTTTCCTGGAAACAATCTCTG
Celera SNP ID:            hCV26976900
SNP Position Genomic:     58821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55928):
TCGTCTTTCCCCTCCCATCTCCTCAGATCGGTGGACGTGCTCGCCTCCACTCGGGGCCAGGTCTATGTCCCGGTTTCCCGCAGTCGCGGGCAGGGCGCCA
M
GGCGGCAGGAGGAGGGTGAGCGGTCAAGAGACCTCCAGGAAGAGCGGCTCTCGGCTGTTTGCATCGCCGATAGAGGTGCGGTCCGCGGGACGGTACGGAA
Celera SNP ID:            hCV25989260
SNP Position Genomic:     28556
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,40)   total(A,77|C,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55929):
TTTTACTGTTGAATCTGTGTTTCTGGTTAGGAGACTACTTTCATGGTTGAGGGAGTTGATGAATTTGTACTGTGTTCAGCCAAGGAGTAGAGGCTCAGAC
R
TTCCCTCTCTATTTACTTCTCAGAAGGCACAGCTTTGGGCATGAGAACAATCTTCTAGAACACCAGGAAGACTATGCTCTTAGCAGGTCTCTGTTTCCTT
Celera SNP ID:            hCV26976901
SNP Position Genomic:     58596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55930):
GATGTTTTCACCTTTTACTGTTGAATCTGTGTTTCTGGTTAGGAGACTACTTTCATGGTTGAGGGAGTTGATGAATTTGTACTGTGTTCAGCCAAGGAGT
M
GAGGCTCAGACGTTCCCTCTCTATTTACTTCTCAGAAGGCACAGCTTTGGGCATGAGAACAATCTTCTAGAACACCAGGAAGACTATGCTCTTAGCAGGT
Celera SNP ID:            hCV26976902
SNP Position Genomic:     58584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55931):
GACCTCAGGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACCATGCCCGGCCCCTTGTCTTAAATTAAAACAAAAAAAAA
M
AAAAACTTTAATTCGTGGATTCTTTCTTCTGCCAGCCCAGATCTACTGTTGAGCCCCTCTATGGCAGTTTCCATTTTGTTTCTTGTCCTTGTCAACTCCA
Celera SNP ID:            hCV26976903
SNP Position Genomic:     58323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55932):
ATTATACACTCTCCTTTCTTGTGTCTGGCTTCTTTCAGTCAACATAATGTATGTTAAGGTTTATTCATATTGTTGTATGTATGAATACTTTATTCTTTTT
R
TTGTTGACTAGTATTCCACTTTATGAACATACAGTTGTGCATTATCCTGTTGATGGACATTTGAATTGCTTCTTGTTTAGTTCTATTTTTGAGTAAAGTT
Celera SNP ID:            hCV26976904
SNP Position Genomic:     57517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55933):
TTTCTTCCCATTTTAGGCCAGTTTGAAATAGAAAAAAGTTGTGAGTTACTTTTTCAGATGGCAGAGTCTGTTGATTATGATTATGATGTTCAAGATACCA
Y
CCTCGATGGCTTGTTAATATTGCCGTGTTATGGATCAATGACAACTGGTAATTTCTCATTAGAATAGAAAATTTGATTTTTTTAAAAAACTTTTTATTGA
Celera SNP ID:            hCV26761934
SNP Position Genomic:     38254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55934):
AAGCAATCCTCCTGCTTTGGTCTCCCAAAGTGCTGGGTTTACAGGTGTAAGCCACTATGCCCGGCCTAAAGTTTGGAAATTTAACTTTGATACAATATTA
Y
TATCTAATCCAGAATCCATATTGAAATTGTCCATTTTCCCTAGAATCTACAGAAAGTAGTTTGAGAATTGGTAAGTTATAGTACTGTGAAAAACAACCCT
Celera SNP ID:            hCV26976905
SNP Position Genomic:     56719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55935):
TGGACTAGCTTTTCTCCTTTGTTAACAATTTGGTGAGTCTTCTCAAATACAGGGTGAAAAGCTTGACGATGATAAATATTTTTATTCCTTTAGAGATTTA
R
GTTTCTTAGAAACTGATGTTTCTTCTACTTCGAATTTTATTGTTGAAATATGGTACAGCTTATGTGTTCATCTCCTTTACATTAAATGAGAGATTTACAA
Celera SNP ID:            hCV26761935
SNP Position Genomic:     37969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55936):
TTTGAGAGAGAGTCTCACTCTGTTGCCCAGGCAGTTAGTGCAGTGGTGGGATCATGGCTCACTGCAGCCTTGACCTCCCGGGCTCAAGCAATTCTCCCAC
Y
TCAGCCTCCTTAGTAGCTGGGACCACATGCATATGCTACCATGCCTGACTAATTTTTAAAAATTTTTTGTAGAGATGAGGTCTCCCCATGTTGCCCAGGT
Celera SNP ID:            hCV26976906
SNP Position Genomic:     56497
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55937):
CGAGATATTCTTTTGGAAACATTCAAGCAGTTTTGTGTTGATTGGCCAAAAACAATTTAGCTCTAATAGGAAGACAATTGCTAACATTGTTGTGTTTCTT
Y
ATCTCTGGTTTTGATAGGGTTTTCACAACATGGTATGATTGGTGTAACTCAACCACGAAAAGTAGCTGCTATATCAGTTGCTCAGAGAGTAGCTGAAGAA
Celera SNP ID:            hCV2562474
SNP Position Genomic:     33348
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55938):
TTTTGTTTGAGAGAGAGTCTCACTCTGTTGCCCAGGCAGTTAGTGCAGTGGTGGGATCATGGCTCACTGCAGCCTTGACCTCCCGGGCTCAAGCAATTCT
Y
CCACTTCAGCCTCCTTAGTAGCTGGGACCACATGCATATGCTACCATGCCTGACTAATTTTTAAAAATTTTTTGTAGAGATGAGGTCTCCCCATGTTGCC
Celera SNP ID:            hCV26976907
SNP Position Genomic:     56492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55939):
AAACTAGTGGCATAACTTTTCAAATAGCAGCACCCTCCTAATAGGAATTAGTAGTTTCCTTGTTTACCTTTTTCCTCTGCCTTGTACTAATGTCAGAAGT
R
AGGGATTGTCACAATCTTTGCCTTTTTGGAGATTACTTAAGTATTTTGAAATTTAACCAAATGCAATAGCACCTGGACTAGCTTTTCTCCTTTGTTAACA
Celera SNP ID:            hCV26761937
SNP Position Genomic:     37795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55940):
TAGTACATTAATCAAAATTAGGAAATTGTTTTGTTTTGTTTGAGAGAGAGTCTCACTCTGTTGCCCAGGCAGTTAGTGCAGTGGTGGGATCATGGCTCAC
Y
GCAGCCTTGACCTCCCGGGCTCAAGCAATTCTCCCACTTCAGCCTCCTTAGTAGCTGGGACCACATGCATATGCTACCATGCCTGACTAATTTTTAAAAA
Celera SNP ID:            hCV26976908
SNP Position Genomic:     56459
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55941):
AGGCTCATTAGTAAATATATGTAAAACACACTGACCTTTTAATAGAAAGAAATTAAATAGTGAAATATTGTTTTTTGTTGGTCTGTCTTAGATAGAAATG
W
AACCTGACTAAACAGACCTGAGTTAATTCCATTATTTCAAAGGACATTTCACCAGGTTCTTCTTTGGGTGGTGGCATTGTACTGTGTGATAACAACACAT
Celera SNP ID:            hCV26761938
SNP Position Genomic:     37521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55942):
AATTGGAAGCATTGTGCTCCCTTACCACAAAATATTTACATCTGTATTAGGCAAGAACAAGGGCAATCTCTCATTTAACCATAGTACATTAATCAAAATT
M
GGAAATTGTTTTGTTTTGTTTGAGAGAGAGTCTCACTCTGTTGCCCAGGCAGTTAGTGCAGTGGTGGGATCATGGCTCACTGCAGCCTTGACCTCCCGGG
Celera SNP ID:            hCV26976909
SNP Position Genomic:     56378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55943):
ATCTCAGTTTGCATTGAGAGGACTGTGAGAGCAGTAGTATCAAGGGAATGCTGGATCTAGTTAAGGCAAGAACATGGAAGCAGCCTTGCAGGAAAGGTGG
S
TTTTATGGAGGAGTTTGTTCTTAGAAGAATGGGAATACACCTTCAAGTTACTAAATGAAACAAAACAGAATCAAAAACAAATTTTTTTTTGAGACGGAGT
Celera SNP ID:            hCV29299837
SNP Position Genomic:     74533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55944):
AATTGTGATAGTGTTATTGATAAAAAATTTCTGTATCTCAGTTTGCATTGAGAGGACTGTGAGAGCAGTAGTATCAAGGGAATGCTGGATCTAGTTAAGG
S
AAGAACATGGAAGCAGCCTTGCAGGAAAGGTGGGTTTTATGGAGGAGTTTGTTCTTAGAAGAATGGGAATACACCTTCAAGTTACTAAATGAAACAAAAC
Celera SNP ID:            hCV29299838
SNP Position Genomic:     74499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55945):
AATGTATACACTTTGATGAGTTTTGACATTTGCGTAAAACAACTATCAAGATAATGGTACATATCCATCATCTCCCAGTTTTCTCATCCTCCCCCCCACC
Y
TTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGAAGTGCAGTGGCGTGATCTCGGCTCACTGCAATCTCCACCTCCCAGGTTTAAGCAAT
Celera SNP ID:            hCV26976878
SNP Position Genomic:     64342
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55946):
GTGCCAAAAACACTGGATTCATTGGAGGTGCTTATTTTCTGCATTTCGTGTGGAAGCTCAACTTCGAGAACTAATCAGGAAGCTTAAACAGGTGATTGCC
R
TAATGTTTTTTTTCTTGAGTAGCATTTTGGACCTATATATTTCATATTGAAGTTTCATTGATGTACATTAGCACCCTTTCTATTCTACCACCCTTCCATT
Celera SNP ID:            hCV26976879
SNP Position Genomic:     64006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55947):
TACCTTTTTGTGAAAATTAACTATGATTCAGGTCCCTTATCTTTTCTGGATGTAGTAAATAGTGCTATCAAATTTTTGGGTAAATTTAGTAAGGAAACAC
W
AAGAAATTTTAAGTCTGGACTGACAACTAATGCAAAGTTCTTTAAGACTGGGTTATTTATCATTTACCGAATATATTTTATTTCTTTAGCTAAGTCTGAT
Celera SNP ID:            hCV16028764
SNP Position Genomic:     40909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55948):
GAATAGCTCTAGGAAACTGGGAGTAGTGGGAACTACCACTGAGCTGCTGAACCCATTGGAACAACTCTTCTGCAACACAGAGCTGTGGGGAATAGAGGAC
W
GCGTAGGCTGTCATTATCTGTTATGCTTTGATCTTCCCTACCGAGTAGCATTTAGGAGTCAGGGAAAGGGTGCCGCTTTCAGGCTGCCTTGAAGGCTCTC
Celera SNP ID:            hCV7971707
SNP Position Genomic:     59229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55949):
AAAATATTTCAAAACCTATTACAGAGTATTGAAGTAGGAGTTAAGAGTGCAGGGTTCTGTCCAGCTCCACTACTACCTAATTATCTGACCATGGCCCTAG
Y
TTTTCTAGATTTCATTTTTCATTTGTAAAACCAAGAAGTTGGATTAAGGTGACCAACTCTAATAGTCTTTTAAGGCTAGAAAAAGAAAAATGTTTTTTCC
Celera SNP ID:            hCV26976910
SNP Position Genomic:     55953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55950):
TCAAGTGACCCACCAGCCTTGGCCTCTTAAAATGCTGGTATTACAGGCCTGAGCCATTGCACCCAGCAGTTGCAGTCTGAAATGTCAGAATTTTAATTCT
R
GTAATACCCCTAATTGCAATTTTTTGTTCTAATAAAATGCTGTATAAAAATAAGTAATGTTAACTGGTTTTCATGAGGCAGTATCAGAGCTAAAAATACC
Celera SNP ID:            hCV26976911
SNP Position Genomic:     55314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55951):
TGGTCTCAAACTCCTGAGCTCAAGTGACCCACCAGCCTTGGCCTCTTAAAATGCTGGTATTACAGGCCTGAGCCATTGCACCCAGCAGTTGCAGTCTGAA
R
TGTCAGAATTTTAATTCTGGTAATACCCCTAATTGCAATTTTTTGTTCTAATAAAATGCTGTATAAAAATAAGTAATGTTAACTGGTTTTCATGAGGCAG
Celera SNP ID:            hCV26976912
SNP Position Genomic:     55295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55952):
TTTGTATTTTTATAGAGATGGGGTTTCACTCTGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGTGACCCACCAGCCTTGGCCTCTTAAAATGCTGG
K
ATTACAGGCCTGAGCCATTGCACCCAGCAGTTGCAGTCTGAAATGTCAGAATTTTAATTCTGGTAATACCCCTAATTGCAATTTTTTGTTCTAATAAAAT
Celera SNP ID:            hCV26976913
SNP Position Genomic:     55252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55953):
CTCCCCAGCAGCTGGGACCACAGATGCTTGCTACTATGCCTGGCTAATTTTTTGTATTTTTATAGAGATGGGGTTTCACTCTGTTGCCCAGGCTGGTCTC
R
AACTCCTGAGCTCAAGTGACCCACCAGCCTTGGCCTCTTAAAATGCTGGTATTACAGGCCTGAGCCATTGCACCCAGCAGTTGCAGTCTGAAATGTCAGA
Celera SNP ID:            hCV26976914
SNP Position Genomic:     55202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55954):
TTAATTTAAAAAATTTTTAAATTTTATTGAGACAAGGTCTCACTGTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCATTGCAACCTCTGCCT
Y
CCAGGCTCAAGTGATCCTCCCATACCTCAGCCTCCCCAGCAGCTGGGACCACAGATGCTTGCTACTATGCCTGGCTAATTTTTTGTATTTTTATAGAGAT
Celera SNP ID:            hCV26976915
SNP Position Genomic:     55070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55955):
GGAGTGCAGTGGCCTGATCTCGGCTCACTACAAGCTCTGCCTCCCAGATTCGTGCCGTTCTCTCGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCC
Y
GCCACAACGCCCGGCTAATTTTTTGCATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCCACCCGCC
Celera SNP ID:            hCV26976916
SNP Position Genomic:     53881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 305
Celera Gene:                 hCG1775249 - 66000115884281
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VSLS(4514241..4534549)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12465):
AGCCACCCCCGTCACGCTCCCTGCTGTCCCCCTTCCTAGCCAGGCTCTGTTTCCTGTTTTCAGGCTTCATATCCTGAACGCTGGGATCCCCCAGGACATT
CCCTGGCCCCCAGGCCCCAGGTCCCAGGCCCCAGGGCTGAGCTGTGGGCAGGCCCCACCTGGTGAGTTACTTGGGGACTGAGGATGGATAGGAGGAAGCA
CAGAGGAGGCTAGAGGCTGAGATTCGCCCTGCAGGAAGTGTGATGGGGCATGCGGCTGGGCTGCACTGGAGGGGTGGGTAGACGCTGGCACTGGGAGGAT
AGGTGGGCCAGCATCCTGGATGAAAGGCTGGAGATTTGGCTGCTGGAGGGTTAAAGGTGAAGGAGGAACATGGGCGGCTGAGATGGGGTTAATTTAGGAG
CCTAGACCTGGAGGGAAGGAGGGGCTGCCCTTCTTGGGGCTGAGAGTGGCTTTGGGGACCCTGGGAGTGTGTGGGTGTGGGGTGTGGGGTAGGGCCAGGC
AGCAACATTCCAGAGATACTCAGGGGGGTAAGGGGCCAGCAACCGCGACCTTTCTCTCGTCTCAGAAAAATTATAAGCAGATGTGGGCGCCTCGGGGAGG
CGTAGAGCAGGGAGCCAGAGCAAGTTTTGGGAACACGGAATGCAGACCCTGAAGCCGGCTGCGGGGATGGGCACTGCGGTAACTCATCCTCTCCTGAGCT
CAGGAGCTGAGGCAGCAGAGCCGTCTGAAGTGCTGGGAGCCAGGGGTGGTGGGGATGGAGAGGACCCCATTTCCGAATGGCTGACAGGGCAGTCTGAGGG
AGGCGGGAGCTTTTCCTTAAATGCAAGGCCAGGTTGGTGACCTCTTCAGGCGATGGCACCTAGAGTTGGGTGTTGTGGTGTGCTGGCTAAGGTGTCACAA
CTGACTCTGGGAGGGAGACTGGCCTTGGGTTTTAGTGTTTGCTAGTTTCTCTGGTGTCAATAACCCCCCATGCCTGATTTCAAGCTACTCACGTGACATC
ACTGAACATGTTGCTAGGAAGAGATGCATACAATTGGCTCTCTGGGCCCGTATGAGGTGGTTCCAGCACACCACTGGTTGGGAGGTCACCTGGACCCAGC
CCCACTCCCACCATATAGAGCAGGAAACCCCTGACAGCGTTTCATCAGGCTGGTTTTGGCTTCTGCCTGCATATGTCCAGTGACAGGGAACTCACCACCT
GAGGTAGCCGATTCTATTCCTGAGCCGCTCTGACTGTTGGAAAGTTCTTCCTCTGACTGAGCCCAAGGCTGAGTCCCTCATCACTTCCCCTCACTGGTTC
CAGTCTCACACCTTGGTACAAATATCAAAGTGCCCTGGGTAGGGCCTGGGCTGGGGGCTGGGGATTCAGAGATGAAACGCACTGGGTCCCTGCCTCTGGA
GGTCATGGTCAGGGAGCAGGCACTGGAACAGTGGGGTGGGGGTGAATGATACTGGGACCCCCAGAAGGAATGAGTGGGATCATCTGCCAATGAGCATCAG
GAAGTGGAGGAGGGAAGGGGTGGCACCTGAACTAGACCTTGAAAGATGGGAACTCCAGGTGAAGAATGAGACGTGAGGGTGTCTAAGCAAACTATGAGCA
AAGACCGGAGGCGTGGAAGTGACTGCAGTTCAGGAGTGAGGTGTAGGGGAGCTGGAGCTCAGAGCAAGGGGCCAGAGGACACGGGGCCGCAGTCTGGTCT
CTTCTGCATGCCCACGGCTCAGATCTCTGCAGACAGGTCCTCCAGGCTGCTGGCTGCAGCGCCACTGCCCACTCTGCGCCGGTCTTGCTGCAGGCCTCTG
CAATGTCACCGCCTCTGTGTCCCCTCCTTCTCCTGGCTGTGGGCCTGCGGCTGGCTGGAACTCTCAACCCCAGTGATCCCAATACCTGCAGCTTCTGGGA
AAGGTGAGAGGGCCCCTGCTGCACCTTGAGGGCACCAAGCCCTAGCTCCCGATTGTCCCTATTGTCCCTACTGGGGTCCTTTTCTTGGTCCTTCCTTAAT
CTCCTTCCTTCTCTCTAGTCTCTCCCCTCCCGCCTATTTCTCTGTTTCTGCTCTCTCTACTCCTCTCTATGGGTTGCCTTTGACTCCAGCCCCATTTCTG
ACCTTGTCTCAGTCTCTGAACCATCCTTTCTCTTTCCCCGTCCCTTAGTTCCTGTGGGAGGCCAACTTTGGAACAGAGCGCAGAGTGGGAGCCATTCGTT
GTGGAGCAAGCAGAGGGGCTGGCCCAGGGGGAGCAAAGGAAACAGGGCGGGGAGAAAAGACCCAGGGCAGAATATAGCCGGAAATACTTCAGCCCATCGC
CGCCAGCTGGGCCCAGGAGTCAGTTCTCACTCACCCTTTCCATACAGGGAGGAGAGGGCAGGGAGAGAAAAATGGAAGGCTCCGGTCCAATAGAGTGGGA
AGGGCGCTCTGATGGAGGGTATCCCAGGAACCTTCCAGTTCTGGGAGAAGCCTCCAGACTTGAGAGGTGGGACAGGATGGGGGTCCCATCCTAGGCTACG
AGAGCAGCCCCAGCGTTGGGCTGTGGATTCCCCACTGTGGCCAAGCCCTCATGGCCATTTTCCCGTTGTGGCCGCTCAGGCCTCCTCCTGCCCTCGGCCC
TGACCCTGTTCCCTGTCTTGCAGCTTCACTACCACCACCAAGGAGTCCCACTCCCGCCCCTTCAGCCTGCTCCCCTCAGAGCCCTGCGAGCGGCCCTGGG
AGGGCCCCCATACTTGCCCCCAGCCCACGTGAGTGCTCCTCATCCTCCATGGGTGGATGGGCTACCTGAGTCGCTGCCTCAGCCTGGCCCCTGGCCCTCT
GTACCTGTTCACTTCTCAGAAACTCAGAGGAAACTCCTGGCTTCTAGGGATTCATTCTGCATGGTCTGTGTCGGGTACGTGTGTATGGGATGTATATGTG
AATGCGTGTATGTGTGTTTAGGGTACGCATGCATGTTACAGTATATGCCTGTGGGGTTGGGGGGGGGGCAAGAAGGGAATGCTCTTTCTTTTTTTAATAG
ACAAGGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGAGATCGTAGTGCACTGCAACCTCAAACAGGGAATGCGCTTTCTATGCGCCCTCAGCCCA
GAGTGTTGAGTGGTGCCCCTTCCCTGGCCTCCCCCTGGCCACACTGTGGTGAGTGCGGACAGCAGGGAGGGCTGAAGGCCACCTTCCTGGACTCCGCAGG
GTTGTATACCGGACCGTGTACCGTCAGGTGGTGAAGACGGACCACCGCCAGCGCCTGCAGTGCTGCCATGGCTTCTATGAGAGCAGGGGGTTCTGTGTCC
GTGAGTCCAGGGTTGGGTTAGGGAGCGGGGTGGGGCAATGGAATGCGGGGAGCTTAGCCTACTCTTCTGAGTCCCTCCCGGCCCCCGCTAGAATGGGGTT
ACTCCTCTGCCCTTTTGGGTTCCCCCCTCCTCTCCTCTCCCTGGCCTTGTCCCCAGGATGCGGATCAGCACTTCCCTCTCCATCACCACTTCACACCCCT
GTCTCCAGCCGGCCCCATGTGTCTCCCACCCCATCTCTCCATGTCCCTCAACAGTGTCTCTGCATCGCTGTCTGCCCTAGAGCTCTTGTTCTGTCTTTGG
GCTGTCTCTGTCTCTCTGTCACTGTGTGTCTCAGGACTTGGTGTCTGGGTCTGCCTCTGTCTCTTCCTCTCCCTGACTCTCTGTTGCTATTGGTCTCTGA
CTTGTCACTATCCAGTCTCTCCTGCCCACTGCACCCCCCTCCCAGCACCCTGTAATGACTGGAGCCTGTCTTCCTCTTCCTCCCACTTCCCTCAGCCACT
GCCCATCACGAGCCTCTGCAAACACTGCTCTCCAGAGAACCCCGACCACCACCTGCCCTCTCTCTGGACAGTGTCCATGTTCAGTCCCCTTTTGAGGATC
TCCCCCAAAGCATTTTCCCAACAAGGTGCTCAGACAATTTCACAAAAAGGAACAGGGGAACCCAGAACACTGGCATCTTGCTAAGTTCTCCCCCTGAGTT
GCTGCCCCTCAGTCTTTATCTTAGAGGCAGAATTGGGGCTTGGAGAACTTCAGGTCCCTGGTTTTGGAAGAAGGTGGGGTTAGGCTTTGCAGGATAAAAG
CTGGGTAGGGGCAGGGGTGGACACATCTCACCACACCCATCTCTGTCCCAGCGCTCTGTGCCCAGGAGTGTGTCCATGGCCGTTGTGTGGCACCCAATCA
GTGCCAATGTGTGCCAGGCTGGCGGGGCGACGACTGTTCCAGTGGTGAGTGGCTACTGACCCCAGGGAGTGGCCTCTTGTGCCTTCAGGGCCACAGGACC
CTCAGGTACACCCTCCCTACCAGGGCACAGGGGCTTAGGACCCCAGGGCGATTACCCGCCAGAGCCCCATTGCTGCCATCTGCCTTTTCTGGAGATGTGG
AAGACAGGGTGGGCCTGTGGGGGCTGGGAGACAGAGGCTGGGAGACAGAGACGGGGAGGCTGGGGATGGACTAGACCCCTGGTGACCCCCTTCCCGCCTC
CTTATCCCACAGAGTGTGCCCCAGGAATGTGGGGGCCACAGTGTGACAAGCCCTGCAGCTGCGGCAACAACAGCTCGTGTGATCCCAAGAGTGGGGTATG
TTCTTGCCCTTCTGGTCTGCAGCCCCCGAACTGCCTTCAGCCCTGTACCCCTGGCTACTATGGCCCTGCCTGCCAGTTCCGCTGCCAGTGCCATGGGGCA
CCCTGCGATCCCCAGACTGGAGCCTGCTTCTGCCCCGCAGAGAGAACTGGGCCCAGGTATGTAATGGGGGGAACGACACTTTAACAAGATCGCAGACACA
AGGCCACACAGATCTATGTGGGGAAATGAGGTGACTCAGACAGGGCCCCAAGTGTGGGGATGATGTGGAGGCCAAGATCCTGGTCCCAGTGGATCCTATT
CCTCACGAGTGGAGTGACCTTGAGCAAATCATTGACTCGTTGTGGGCTTGTTTCCTGTCTGTAAAACGGGAATAGTATTGTCTACATGGCAGGGTGGCTG
TGAAGATAACATGAGGTAGCACGTGTGTGAAGGCATGCTGCAAAGTGAGGCTGGGACAAGGACCCAGAGAACCCTGTTGCAAGGCAGGGTGCAGGGGGAG
CTGGGGAGTCCCGGGAGGGAGAAGGTAGACCTAGGTGGAAATCAAGATCACGCTTTGTGGAGGCGCTCGTGGAGTTGAGCCTACTACAGTAGCACAGATG
TTCCCCGAGAGTGAACAGACCAAGCCAAGGTGAGGAGGTGGGGGCGCCCGAGAGGCAGACATGCCACCCGTGGCTCTTTGCTCACCCCCACCTGCCGGTG
CCAGGGTGTCCCTGCCATTTCCAGTCCTGGAAACCTTTGCTTTCTGACTCGACAGTCCCCAGCAGGAAAGAGCAAGTGTGAATCACTAAGTCCTGAGGTG
GGGGTTGTGGGGGCAGTCCTTGGAGGCAAGAGAGGAAGCAGTTATTGCTTGTTTGCACATTGACTCCACCCACTCTGTCCTGCAGCTGTGACGTGTCCTG
TTCCCAGGGCACTTCTGGCTTCTTCTGCCCCAGCACCCATCCTTGCCAAAATGGAGGTGTCTTCCAAACCCCACAGGGCTCCTGCAGCTGCCCCCCTGGC
TGGATGGTATGGAGGGTGGGGCCTGTGGGCATGGGGTGTGGGTCTGGGGAGAATTCTGTGGGTGGTGCTAAGCAGGGCTCCAAGGTGAGTGAGGGGGGTG
AGCTCTGTGGTTATGGGGGTGTCAAGGGGTCCTGTGGCCTTGGGGAGGAGGCTGGGTGCCTGGGGCCCTGTTGACCTCTTATCCCCACAGGGCACCATCT
GCTCCCTGCCCTGCCCAGAGGGCTTTCACGGACCCAACTGCTCCCAGGAATGTCGCTGCCACAACGGCGGCCTCTGTGACCGATTCACTGGGCAGTGCCG
CTGCGCTCCGGGTTACACTGGGGATCGGTGAGTGGCGTGGGGCGGGCGGGAGACGGGAGGGAGGAGGTGGGGCGCCGCCAGGCTCACTCAGCTAGGTGCC
CAGGTGCCGGGAGGAGTGCCCGGTGGGCCGCTTTGGGCAGGACTGTGCTGAGACGTGCGACTGCGCCCCGGACGCCCGTTGCTTCCCGGCCAACGGCGCA
TGTCTGTGCGAACACGGCTTCACTGGGGACCGCTGCACGGATCGCCTCTGCCCCGACGGCTTCTACGGTCTCAGCTGCCAGGCCCCCTGCACCTGCGACC
GGGAGCACAGCCTCAGGTGGGCCGCGGGACATGTGGTCAAAGGATCAGGAGGCCAATGGGGAGGTCTTCCTGGCCGAAGTCACCACAGAGCCAGGGCCAT
ATCCAAGGGGGACAGGTGTCACAGAAGGGGAAAGGGAGGGACCTCAGGGGCCGGGAGGGGCCTGGGGTACCGCTACTTGCCCCAACCCAGTTTTCAGAAT
AGCGCGGAGCCTCCCTAGTGACCCCCTTACCCCAGCGATGTGCGAATCCCACTGACCACGCGGAGGGGTCGGGAAGCTGCCCTGCCCCTGCCCAGCTCAG
ACCRCGCCACGCCCCCGCYTCTGCCCCCAGCTGCCACCCGATGAACGGGGAGTGCTCCTGCCTGCCGGGCTGGGCGGGCCTCCACTGCAACGAGAGCTGC
CCGCAGGACACGCAYGGGCCAGGGTGCCAGGAGCACTGTCTCTGCCTGCACGGTGGCGTCTGCCAGGCTACCAGCGGCCTCTGTCAGTGCGCGCCGGGTT
ACACGGTGAGGCGCGCCCGGCTGCAAGGAAGCGAGGCAGGTGGAGAGGCCAAGGAATGGGCCGCCCCTCTCACCCGCTCACCCTCTTTCAGGGCCCTCAC
TGTGCTAGTCTTTGTCCTCCYGACACCTACGGTGTCAACTGTTCTGCACGCTGCTCATGTGAAAATGCCATCGCCTGCTCACCCATCGACGGCGAGTGCG
TCTGCAAGGAAGGTAATAGGGTGGAGTTTCCCAGAGAGAAGACTTGGGGGATGGCCAAGGGAAGAAGGGARAGTCCAAGAGTATGGGTGGGCCAAGGGCA
GGGGAGCGGCTGCAGGGTAAGGGTGGAGGGGCAGCAGCTGGACACAGGGAAAGTATCCAGGCTACTTTCTTCCTGGAATATCCACTTTGCTTTTCTTCAA
CCACAAAGATCCTACCTGTCCTTAAAGGCTGAGGCCAAAAGCCACCTCACTGGCGAACGTCCCTCACCCTCAGTCATACGGAAACACAATTACCATGCTG
GGAAGGGCCTCACATCTGCCAGAGTGACACATTGGCAACCTTTAGGCTGGACTCGGATACAGTTGTGCTTTGTTTGGCTAACAAGTCTCCCATCTTCAGT
CCCCACTACTCCCTGTTGTCTGGCACATCCTCTGTATAAGTCATTTAGTTACCTGATGGGGCCCCTGTAAACATTTGGGTTTAGTGCCATCCCCTTTATT
TTGCAGAAGGCACCCCAGACCCAGAATGGGGTGGTACCTCACTGGAAGGCAGTTAGCCTTCTGCTCCGCATCAAATAACTCATAAGCTTTTCTCCTGTAT
GGTGCCGTGAACACCCCCCACCCACCCCAGCTCATAGCATAGAATCTGGCCCAGCCAGCTCCCACTGTGTGCTTGCTCAGGAAGGGAAATGGGTCCCCAT
ACCTACCTACCAGGCYCCTCCTCCAGGTTGGCAGCGTGGTAACTGCTCTGTGCCCTGCCCACCYGGAACCTGGGGCTTCAGTTGCAATGCCAGCTGCCAG
TGTGCCCATGAGGCAGTCTGCAGCCCCCAAACTGGAGCCTGTACCTGCACCCCTGGGTGGCATGGGGCCCACTGCCAGCTGCCCTGTCCGGTGAGTGCTG
GACAGCCTGTCTGCCTGGGGGTGGGGAGGGCATGGCGTCCCCCAGCTGACTGGCCTACCTGCTCCCCACTCCTTCTCCAAGAAGGGGCAGTTTGGAGAAG
GTTGTGCCAGTCGCTGTGACTGTGACCACTCTGATGGCTGTGACCCTGTTCATGGACGCTGTCAGTGCCAGGCTGGCTGGATGGGTGAGCATTCTGGGGC
CCCAGGCCTACTRTGGATTGGGGGATGCATCCATAGGAAATGTGTCCAGAAGAGCCCCCTGRAACTGAAGGGGGCCCAGCCAGGCACACCCGACTGCTGT
CTCCCACAGGTGCCCGCTGCCACCTGTCCTGCCCTGAGGGCTTATGGGGAGTCAACTGTAGCAACACCTGCACCTGCAAGAATGGGGGCACCTGTCTCCC
TGAGAATGGCAACTGCGTGTGTGCACCCGGATTCCGGGGCCCCTCCTGCCAGAGATGTGAGGCTCCCTACTGCCCCTTCCACCTGCCACCAGCAGGGGGC
AGTGTAGTGTCAGCTGCCAGAGCACCCCTCCCCCCGCGCCCGCCGCCCACCTCTCCCACCTTACCCCCGGTCTCTTCCTCTGACCCGTCTTCAGACTAGT
TACTGCAGTGGGAAGGTGGGAGGGAGACGGTGGGGTAAGGGCTGATTGAGGATTGGCCTCTGCCCCCAATCACCATGTACCCCTTTCCCCCAGCCTGTCA
GCCTGGCCGCTATGGCAAACGCTGTGTGCCCTGCAAGTGCGCTAACCACTCCTTCTGCCACCCCTCGAACGGGACCTGCTACTGCCTGGCTGGCTGGACA
GGCCCCGACTGCTCCCAGCGTATGTGGTAGCTTGTGTGTCTGAGCATACGTGCATGCTGAGAGGGGGTGCTGAGGACGGGAGGTCTCTGTCCCCCAGCTC
CTGGGTATAAAAGCCTCTGGGCCCACCTTGAGTAAATATTTACTGGGCACCACCTACATGCTGGGTACTGTTCTAGGTGCTAAGGATGCAGCAGTGAACA
GGTCAGGGGGAAAAATTCCTGCCCTTCTGCATGGGAAGCCTGGGAAGAACAGTATTTTTATGGGAGCAGGGGAAATCATAGGCTTAGCTTGGGACATTTT
CTCTTGATTTCTTTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTTCTTTCTTCTTTCTT
TCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTTTCTTTCTTTCTTTCCTTTCTTTTCTTTCTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTT
CTTTCTTTCTTTTCTTTCTTCTTTCTTTCTTCTTTTCTCTCCCTCCCTCTCTCTTTCTTTCTTTTTTTTTTTTTTGACACGGAATCTCACTCTGTTGCCC
AGGCTAGAGTGCAGTGGCATGATCTCAGCTCCCTGCAACCTCTGCCTCTGGTTTAGTTAATTCTTTTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGGC
ACACACCACCACAGCAGGCTAATTTTTGTATGTTTAGTAGAGACCCCTGGGGTTTCATCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGAT
CCATCCGCCTCAGGTGATCTTGGCTTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCCAGCCCTTTTTTTCTTTTGCATTTTTCAGTTTATTT
TTATTTATATATTAATAAATACATGTATTTCTTTATTTTATGAGCCTTTCCCCCACAAAAATATATTAAGATCATTGAAAAGATTAGTCCAAAAAAGCCA
AGTAAAACGAGTTTGGAAAGAGGAAACAGGCTGTTATGAAGAAGACTGAATTTCAGCTTACCAGCAGGCGGGGTAAAGAAGGAAGTCATCTTGGTGAAGA
GTTTTTCCATAGACTCTGGTTACAACTACTATTAGATTATTGCTAGTGTTAGACACACAAAAATAATGCCTTAAACAGGACAGATGTTTACTTCTCTCTT
ATGTTAAAAACAAAACAAAAATCCATCCGGGGTAGCTTGGAAGCCTTTGGTTGTGTGGCACTGAATACACTATTTTGAAGTGGCTATTAGATAGTCAAGT
GCAGATGTTGAGTAGGTAGTTGGACACGTGGGTCTGGAGTTTGGGGGAGAGATGGGGCTGGAAATAATCATTTGTGAGTCATTGGTTGCAGATACTGTTC
AAAGCTTTGGTGTGCCCAGGGAGACCAAAGCTGAGCTAAAGGCTTCAGTGATGCTGGGGGCTGAGAGTTCATCCAGGAAAAGCTGTACCTGCCCCACCAG
ACAGGCCCCATGTCTCCCGTAGCATGCCCTCCAGGACACTGGGGAGAAAACTGTGCCCAGACCTGCCAATGTCACCATGGTGGGACCTGCCATCCCCAGG
ATGGGAGCTGTATCTGCCCCCTAGGCTGGACTGGACACCACTGCTTAGAAGGTACCAACAGAAGGGGAACTCCAGGCCCCTGCCTCCAACTTAACCCTTA
CCCAAAAAAAGGAGACTAGAGTTTCCTGGCGGCTCTGATGCCGGYCTGCCTCCTTGGCTGTCTCCCCAGGCTGCCCTCTGGGGACATTTGGTGCTAACTG
CTCCCAGCCATGCCAGTGTGGTCCTGGAGAAAAGTGCCACCCAGAGACTGGGGCCTGTGTATGTCCCCCAGGGCACAGTGGTGCACCTTGCAGGATTGGT
GAGTTCTTTGCCCTCTCCTTCCCACCCATTGTCCCCAGGGAACTGGGACCTAGGCCCCTCATACAGTCCCTACTTCCCTCCTGAGCACCTCTCCCATGCA
GCAGAGCCAAGATGCCATTCTGAGTGAGCACCCCATTCCACACAGGAATCCAGGAGCCCTTTACTGTGATGCCGACCACTCCAGTAGCGTATAACTCGCT
GGGTGCAGTGATTGGCATTGCAGTGCTGGGGTCCCTTGTGGTAGCCCTGGTGGCACTGTTCATTGGCTATCGGCACTGGCAAAAAGGCAAGGAGCACCAC
CACCTGGCTGTGGCTTACAGCAGCGGGCGCCTGGACGGCTSCGAGTATGTCATGCCAGGTGAGCTGGCACAGGGYCTGGGGCACAGATGAGTGGCTGGCT
CATAGGCACAAGAGTGGATGCTGGGCATGACCCAAASGGAAGATGAGGAGTGGGGAGGAGGGAGGAAGGGAGGTCAGGGAGGCCAAAGTACTGATCTCCG
GGGACAAAACAGCTCTCTTGGACTCCTGCCCATYGCTGAGCTCACCCTGTGCTTGTGTCTGTCATGCAGATGTCCCTCCSAGCTACAGTCACTACTACTC
CAACCCCAGCTACCACACCCTGTCGCAGTGCTCCCCAAACCCCCCACCCCCTAACAAGGTCAGTGCCGGGGGAGGGGGTGCACTGTGGAGGGAAGCGCAC
AGACCAGCTTCTCTGGAAAGCCCTGTCCTTGCCTCTTGCTCTCCCTCCTGCACTGTCCCCTCTTAGGTTCCAGGCCCGCTCTTTGCCAGCCTGCAGAAMC
CTGAGCGGCCAGGTGGGGCCCAAGGRCATGATAACCACACCACCCTGCCTGCTGACTGGAAGCACCGCCGGGAGCCCCCTCCAGGGCCTCTGGACAGGGG
TAGGTGCCGGGAGGCCAGGGTCTCTGGCGCGGGTGGATGTGTGCAGCCCAGATGCCGCGTCTGAGTGTGTGTGTCTGGAGACGGGGGCTCTGGGCCCCAT
TTCTAGAGGAAGTGTGAGCCGGGGGAGGGGACAGAGGGCTGATTACCAGTTGCCTCCTCCTCCTCAGGGAGCAGCCRCCTGGACCGAAGCTACAGCTATA
GCTACAGCAATGGCCCAGGCCCATTCTACRATAAAGGTATGGGCACAGGGGCAACAAGGGAGGTGGCTGAGCTGGGGCTGAGGAACCAGTGCCTCCATGC
GGCCTGACTTCTTTCCTCTATCCTTAGGGCTCATCTCTGAAGAGGAGCTCGGGGCCAGTGTGGCTTCCCTGAGCAGTGAGAACCCATATGCCACCATCCG
GGACCTGCCCAGCTTGCCAGGGGGCCCCCGGGAGAGCAGCTACATGGAGATGAAAGGCCCTCCCTCAGGATCTCCCCCCAGGCAGCCTCCTCAGTTCTGG
GACAGCCAGAGGCGGCGGCAACCCCAGCCACAGAGAGACAGTGGCACCTACGAGCAGCCCAGCCCCCTGATCCATGGTGAGCCCTCCCTCTCCACTGGCA
GGAGCAGCAGAGAACTGGGACAAGGGAGGCAGAAAAACAGAAGGAACAGAGGGAGAAGAGAAGGCATGATGTGGCATCAAGAGTGAGGCCTTTGGGGTCA
GCTTYGGGCTCAAATCAGGCATGACGGGGAGGCGACGTGGCCTCTCAGAGCCTGTGTCCTCATCTGGAGAACAGTATGGTGTACCTWCTTCGCAGAGCTC
AGGATAGAAGTGGGGTCGTACAGCATCAGAGTGGTGGAGTTGGTACCCAGAAAAGTAGGGAGCCAGGCAGGTGATAAAGTCTCCTCATATCCTGGGAGGT
GGGCGGGCTGAGGTGGCTTTCTCCATTGGCAGCTGAGAAGCTAAGAGAGTTTTGCTTGGAGCCGCACGGCCAGCTGATAGTAAACTGGTGTATGTATCCA
GGCCCCATCTGCTTCTCTTTGCCTTGAAGAGGCTGAAGAGGAGAGGAGYGCAGTGGGAGTGGAGGGAGTGGGGAGAGTGGTGGGAGGAGCCACTCCCTCT
TATCTTGTCCTCATGTTTCCAGACCGAGACTCTGTGGGCTCCCAGCCCCCTCTGCCTCCGGGCCTACCCCCCGGCCACTATGACTCACCCAAGAACAGCC
ACATCCCTGGACATTATGACTTGCCTCCAGTACGGCATCCCCCATCACCTCCACTTCGACGCCAGGACCGTTGAGGAGCCAGGATGGTATGGCAGAGGCC
AGCACACCTGGCTGTTGCTGCTCAAGGCTGGGGACAGAGCCTAGTGTACCCCTGCCAGGAGCAGGGAGTGGACCGGCAGGCTGTGAACATGAACAACGCT
TAACAGAGCAAGTGATGGGAGCCTTGTTCCTGGGTTCTACCATGGGAGACGCTGATCAGCAGGATGCCTGGCTCCCTTTCCCAACCCACTGCTCCCAAGG
CCTCCAGGGCCCTGTGTACATAAACTGGTGGGTTGGAAGTTGCTGGGTAACTCTGATTTCAGACATGCGTGTGGGGTACCTTTTCTGTGCATGCTCAGCC
TGGGCTCTGTGCGTGTGTGTGTTTCTGTGATTTTAGAAGGGTACCAGGCACAGGTTCTGTCCTAGGGCACTTACCATTTAGTAGGGAGATGGAACCAACC
CAATTAACTCTAGCAATAGCCTCCTAACTGGCCTCCTCCATTGATTCAGTGAACCTTCCAATGCATGGCTCATAATTTCAAAATACAGGCTGGTTAGTTA
CTCCCTACCTGAAAGCCTTCATAGGTGCCTCTTTGCTCTTCTGCCAGTATCAAAACTTTTGAAGGCCTTAAAGGCCCTGCTTTGCCTGGCCCATCTGTCT
CTCCAGCCTCACCTTGAACTGTGTTCCTGTCACTGCACGCCAGTCACACCGGCCTCTAGGTCCTCCTGTAGGCCACTCTTCTTTCTGGCACAGGGACCTG
CACACCTGGAGTGCCCTTCCTCCCCCACTCGCCTGTTCACCCCTGCTTTTCCTTTACACCTCCTCCTCAGGGAAGTGCCCACCCTCCGTACATCTTTCAC
AGCCCTGATTGCAGCTGTGTTCACTCACCAGGTACCTGCAGAAGGCCTACAGGGTGCCAGGCACTTCTTTAATGKGTTCTTTCTTTATGTGATTATTTGA
TTAATCTCTGCCTCCCCCACTAGACTGTAAGCTCCCTGAAGGCAAGAATCCTGTGCTTATGCTCAATATTAGCTCTCCCTTGGCACAGAGTAGGCACTCA
ACAAATGCTCCCCAAAAGGCTGAGTGGCTGACTGAATTAAGTACCAGTGACATGCAGTAACTGCTAAGATAGATGAGCCATCTGTATGCTCTGACAGTTA
CAGACTGAATAAGTTGGAGACTTCCCTAAAGGGTGGCATTTCCCCAGGGTAACAACGCAGAGCTCAGGTGTGGGAAGGTGCCAGGGGCAGGGGTGCAGAG
GGGCTGAGGCTGAGGGGGGTGCAGAGGCTGGAGAAAGGATAACAGGAGAGAGTATACAGGCATGCCTTGATTTATTGCACTTCACAGGTAGCAGAATTTT
TAAAGAAATTGAAGGTTTTGGGACATATATGTGACAGCAATAGGTTAAGAAAAGCAAAGCAGAGAAATTGAAGATTTGTGTCAACACTGCTTTAAGCAAA
TCTGTTGGCACCATTTTTCCAATAGCATGTGCCCATTTTGGGTCTCTACATTGCATTTTGGTAATTGCTTGCAATATTTCAAGCATTTTCATTGTTATTA
TATGTGTTATAGTGATCTGTGATCAGTGATCTTTGATATATTATTGTAATTGTTTCGGGGCGCCATGAACCGCACCCATATAACACGGTAAACTTAATCA
GCAAACGTTGTGTGTGTTCTGACTGCTCCACCGACCAGCCGTTCCCCCAAGTCTTTCCCTCTCTTAGGGCCTCCCTATTCCCTGAGACACAACAATATTG
AAATGAGGCCAATTAATAACCCTACAGGGGCCTCTAAGTGTTGAAGTGAAAGGAATAGTCACACATCTCTCACTTAAAATCAGAAGCTAGAAATGATTAA
ACTTAGTGGGGAAGGCATGTTGAAAGCCAAGACAGGCTGAAAGCTAGGCCTTTTGCACTAAATAGCCAAGTTGTGGATGCAAAGGAAAAGTTCTTGAAGG
AAATTATAAGTGTTACTCCAGTGAAAACATGAATAATAAGAAAGTGAAACAGCTGGCCGGGTGCGGTGGGTCACGCCTGTAATCCCAGCACTTTGGAAGG
CCAAGGCAGGTGGATCATGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGG
TGGCGCGCACATGTAATCTCACCTACTCAGGAGGCTGAGGCAGGAGAATCGTTTGAACCCGGGAGGCGGAGTTTGCCATGAGCGGAGATCATGCCATTGC
ACTCCAGCCTGGGTGATAGAGCAAGACTCCATTAAAAAAAAAAAAAGTGAAACAGCCTTGTTGCTGATATGAAGAAACTTTTAGTGGTCTGGATAGATCA
AATCAGCCACAATATTTCCTTAAAAGCCAAAGCCTAATCTGCAGCAAGACCCTAACTCTCTTCAGTTTTATGAAGGCTGAGAGAGGTGATGAAGCTACAG
AAAATTTAGAAGCCAGCAGAGGTTGGTTCGTGAAGTTTAATGAAAGAAGTTTAAGAAGCCATCTCCATAACATAAAAGTGCAAGATGAAACAGCCAGTGC
TGATGTAGAAGCTGCAGTAAGTTATCCAGAAGATATAGCTAAGACAACGATGAAGGTGGCTCCTCTAAACAACAGATTTTCAATGTAGACAAAACAGCCT
ATATTAGAGGAAGATGCCAATCTAGGACTTTCACAGCTAGAGAGAAGTCAATGTCTGGCTTCAGAGCTTCAAAGGACAGGTGTTAGGGGCTAATATAGTT
GGTAACTTTAAGTTGAAGCTAATGCTCATTTACCATTCCAAAAATCCTCAGGCCCTTAAGAATTATGTTGATTATTTAGTGTGGCGTGGTGGCACATGCC
TGTAGTCATAGCTACTTGAGAGGCTGAGGTGGGAGTTTCGCTTAAGGCCAGCAGTTAGAAGGCTGTAGTGAGGCCAGGTGCGGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACGAGGTCAGGAGATTGAGACCATCCTGGCCAACACGGTGAAACCCTGTCTGTACTAAAAGTACAAA
AAATTAGCCGGGTGTGGTGGCGGGTGCCTGTAGTCCCAGCTACCTGGGAGGCTGAGGCAGAAGAATCAATTGAACCCAGGAGGAGGAGCTTGCAGTGAGC
CAAGATTGCGCCACTGCACTCCAGCCTGGGCGAAAGTGTGAAACTCTGACTCAAAAAAAAAAAAAAAAAGAAGAAGGCTGTAGTGAGCTATGATCATCAT
CACTGGACTCCAGCCTTGGCGACAGAGCAAGATCCTGTCTCTAAAAAGAAAAAAAAAAAAAAGGCCGGGCATGGTGGCTTACGCCTATAATCCCAGCACT
TTGGGAGGCTGAGTGGGGAGGATCACTTGAGGTCAGGAGTTCGAAACCAGCCTGGCCAACATGGTGAAACCCCATCTCCACTAAAAATACAAAAAAAATT
AGCCAAGTGTGGTGGCGCGCACCTGTAGTCCCAGCTACTGGAGAGGCTGAGGCAGGAGAACTGCTTGAACCTGGAAGGCGGAGGTTACAGTGAGCCAAGA
TCGTGCCACTGCACTCCAGCCTGGGTGACAAAGCACGAATCTGTCTCAAAATAGATAAATAAATAGAAAAGAATGCTAATTTTACCCTGCCTGTGTCCCT
GTGCTCTGGAAAAGGAACAAAGTCTGGATGATAGCACATCTGTTTACAGCATGGTTTACTGAATATTTTAAGCCCACTATTGAGATCTACTGCTCAGAAA
AAAGTATTCCTTTAAAAATATTATTGCTCCTTGACAATGCACCTGGAGATGTACAAGGAGATTAATGTTGTTTGCATGGTTGCTAATACAGTATCCATTC
TGCAGCCTGTGGATTGAGGAGTAATTTCGACTTTCAAGTCTGATTATTTAAGAAATACATTTTGTAAAGCATGAGTTGCCATACATAGTGATTCCTCTGA
TGGATTTGGGCAAATTCAATTGAAAACCTGGATAAGATTCACCATTCTAAATGCCATTAAGAACATTTGTGATTCATGATGGGAGGAGGTCAAAATATTC
ATGCTAACAGGAGTTTGGAAGAAGTTGACTCCAACCCTCATGGATGACTTGGAGGGGCTCAAGACTTCAGTGGAGGAAGTAACTGCAGATGTGGTAGAAA
TAGCAAGAGAACTAGAATTAGAAGTGGAGCCTGAAGATGAAACTGAATTGCTGCAATTCATGATAAAAGTTGAATGGATGAGGAGTTGCTTATGGATGAG
CAAAGAAAGCAGTTTCATGAGATGGAATCTACTCTTGGTGAAGACGCTGTAAGCATTGTTGAAATGACAAGAAATGATTTAGAATATTCCATAAACTTGG
TTGATAAAGCAGTGGCAGGATTTGAAGAATTGACTCCAATTTTGAAAAAAAGTTCTACAGTGGGTTAAATGCTATCAAACAGCATTGCATGCTATTGAGA
AATCTTTTGTCAAAGGATGTCAATCGATGTGGCAAACTTCACTGTTGTCTTATTTTAAGAAATTGCTACAGGCACCGCAACCTTCAGCAACCACCACCCT
GATCAGTCAGCCGCCATCAACCTCAAAGCAAGGCGCTGCACCAGTGAAAAGATTATGACTCACTAAAGGCTCAGATGATAGTAACATTTTTAGCAATAAA
GTATTTTTAAAATTAAGGTATGTGCATTGGGCTGGGCGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGAGAGGATCACTTGAGGT
CAGGAGTTCAAGACTAGACTGGCAAACATGGTGAAACTTCGTCTCTACTAAAAATACAAAAATTAGCCAGACATGGTGGTGTGCGTCTGTAATCCCAGCT
ACTAAGGAGGCTGAGGCAGGAGAATCGCTCGAACCTGGGAAGCAGAGGTTGCAGTAAGCTGAGATCATACCACCGCACTCCAGCCTGGGCGACAGAGTGA
GACTCCGTCTCAAAAAAAAAAAAAAAAAAGTTATATGCATTTCTAGACATAATGCTATTGCACACTTAACAGACTACAGTATAGTGTAAACGTAATTTTA
CAGGCACTGAGAAAAACAAAAGCGGTGTGACTCACTTTAATGCCATATTAGCTTTATTGCAGTAGTCTGGAACCCAACCCTTAGAATTTTGGGGGTATGC
CTTTACTCAAATGGGGCCCACCAGGGCAGAACCATCAGGGTCTAGAGTAGGAGTCAGGTGATGACTTTGAATCCCAGGTTTGTAAGGAGTGTGATTCACC
TTATTAACTCGTTAGAGGATTAACTGAGTCCCCAGAGACCTCCAGGAGGCTAAACAGATGGAGGTCGAGAATATAAACCTAGCACCACACCAACTAGATG
GGTTTCTCTAGACGCCTTTCACCAGGTGCTCTCTCCTTACTGGACAGCGGGGTGGACTCTGGAGAGTGGACCTGCCCCCACCTGGATTCTCCCTAGTATC
CTCCGACCGCCCACTACCCCACTCCCCCAGGCTCCGCCCCGATCCCCCAGGCCCAGTTCCAGGATGACTTTGGATTGCCCGCCCTCGCCCTATCCCTGTC
CCCGCTCCCGTCCTAAGATCCACTCGTTTCCTTCGCCATGGCTCCGCTCAGGTCCTAGGTCACCCTAGCCCTTCTCTCTTAGCACAGGCTCGGCCAGCCC
TGGCCCTCTGGGACCCATCAGCTCCTGCGATCTCTGGCCGGCCTCGCCCTGCCTGCTCCGCCGGGCCTGGCCCGCCCCTCGGGTTCTGGCTCCGCCACCC
GCCCTCGTGGGCTCTCCCCTCGCCTTGCTCTGCCCTGCGGCGCCCCCTGTCGGCCCCGCGTGCTCTCTGCGGTTGCCCCTTTCCCTCGGGCCCGCCCGCC
TCGCGCGGTTGTCTTGGAGAGGGACGCGTAGGCTACGCCACCGCGGACGGGTCGGATCCGGTCCCTGGACGCGGAACAGAGATCCCCTGATTCAGCCACC
CCCAGACTGAGCCCCGTAGAGTGCGTTCTTACCTTCCTGCCCCGACGAAGGTCCCAGAGACGCTGCGGACAACACCAGCATGTCGAGCGAGCAGAGCGCG
CCGGGGGCCTCACCCAGGGCCCCGCGTCCGGGGACCCAGAAGTCTTCTGGCGCGGTGACCAAAAAGGGAGAGCGCGCGGCCAAAGAGAAGCCAGCGACCG
TTCTGCCTCCCGTGGGGGAGGAGGAGCCCAAAAGCCCTGGTACGCTGGCGCCGGGGTTTGGGGATCGGGCTTCCAGGCTGCGTCTTCCCGGGTTCCCACT
AGCTACTCACTGCTCCAAGGTTATGGCTGAACTCATACATACCTACGTTGAGTTCCTGAATCTCGGCTTGATAGATGTTTCAATTGAACTTGATCTTAAA
GAACCCACACTCTGGTTTGGGATGGTGACAAATACCAATAAGATGTGATAAGATATAGAAGAGAGGAAGGCCCAGGGGGTGAGGGCATCAGGGGTGTTGC
CAGGAGGTGCCTTTGAACAGAGTTTACAGATGTTCATTCATTGATTCAACAATTACTTTCCAAATGCCAGCCATGAGGCCAGATATGTCACGGAGGAGAA
CGAGGTGGACACAGTCCTGCCCCCATGGGGTTTACATCCTCTGGGAAAAGAAAATGAGTAGAATGGTATAAGTAGAGGTATGGCCCTTTTTGTTGCAAGT
GATAGAACCCCAATCAAACTAAGCATGAAGGGGAAATGTATCCGAAGTCTTCTTGATACAAATCTGCCAGCTTCGTCATCACGGGGACAAGAACTTGCTG
TCTCTGGAATCGAAGTAAAACAACTTGGGAAAAAGATCTGATCATCCAGCATTAGCCAGGTACTATCTCTTTGTCAGTGCTGGTGGATGGGGAGAAGGAA
TTATAGGAGCTGGAGAAACAACATCTTCTGGAAGGGAAGACAAGACAGTATACAATCCCCTACAGGTACGAAGCCAGTTACATTCAAAACACACACACAC
ACACACACACACACACACACACACACACACACACACACAGACATGGCTGCTGTATAGAATACAGGGTGGAAGGAGGCAAACAGATGAGTTACCGGACTAT
TTCAACAGCCTAGTCTGGGGACAGTGGGAGTTGGGATAGGGCAGTGAGAATGGTGAGGCTTGGTTGAGTTAGGCTCCTCAGAGAAACACTTTTGAGGTAG
AAGTAATAAGAGTTGGCGAAGGACTGGACAGGGTAGGGAGTGAGTGACAGAGCAAGAAAGATTCTGAGGCTTCTGGACTGGGCACTGGGTGGGAGGAAGT
GCCATTCATGGAGATGGGAAAGGCCAAAGGAGGTGCATGTAAGGGAGGAGCTCTAAGGGGTGATGCCAGCTGGACAGCTGGACACATGGGTCAGCAGTGC
CTGAGAGGTTAGGGGTGGAGTTGTGACTTTGGGTGAAGTTGTGACTTTGGGAGCTGCTGATGTTCTGGCATAATTAAGTCCTGGCAATGAAAGAGACCCC
TCAAGGAGGCAGGGAGTATAATTAGAGAAGAGGAGAGGGCTCAGGATCCAGCCTTACAGGTTGTAGAGGATGGCAGGGAAACCTGAGCAGCCAGCAGAGA
GGTAGGAGAGAATGGGAGTGATGCCTGCACAGGCACCTGGATAGGACAACATGGAGGTCATGGTGGCCTTAGCAGACACCAACTGTGTGCTGTGGCAGGG
GCAGATGT


SNP Information

Context             (SEQ ID NO:55956):
ACTGTGTGCTTGCTCAGGAAGGGAAATGGGTCCCCATACCTACCTACCAGGCCCCTCCTCCAGGTTGGCAGCGTGGTAACTGCTCTGTGCCCTGCCCACC
Y
GGAACCTGGGGCTTCAGTTGCAATGCCAGCTGCCAGTGTGCCCATGAGGCAGTCTGCAGCCCCCAAACTGGAGCCTGTACCTGCACCCCTGGGTGGCATG
Celera SNP ID:            hCV25743433
SNP Position Genomic:     7664
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,7)   caucasian(C,37|T,3)   total(C,64|T,10)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,556|C,943)   total(C,943|T,556) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55957):
GGCTCCGAGTATGTCATGCCAGGTGAGCTGGCACAGGGCCTGGGGCACAGATGAGTGGCTGGCTCATAGGCACAAGAGTGGATGCTGGGCATGACCCAAA
S
GGAAGATGAGGAGTGGGGAGGAGGGAGGAAGGGAGGTCAGGGAGGCCAAAGTACTGATCTCCGGGGACAAAACAGCTCTCTTGGACTCCTGCCCATCGCT
Celera SNP ID:            hCV25768541
SNP Position Genomic:     10937
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,30)   caucasian(G,38)   total(C,2|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:55958):
TTAGAAGGTACCAACAGAAGGGGAACTCCAGGCCCCTGCCTCCAACTTAACCCTTACCCAAAAAAAGGAGACTAGAGTTTCCTGGCGGCTCTGATGCCGG
Y
CTGCCTCCTTGGCTGTCTCCCCAGGCTGCCCTCTGGGGACATTTGGTGCTAACTGCTCCCAGCCATGCCAGTGTGGTCCTGGAGAAAAGTGCCACCCAGA
Celera SNP ID:            hCV25748488
SNP Position Genomic:     10345
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,6)   caucasian(C,26|T,2)   total(C,56|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:55959):
CCCCACCCACCCCAGCTCATAGCATAGAATCTGGCCCAGCCAGCTCCCACTGTGTGCTTGCTCAGGAAGGGAAATGGGTCCCCATACCTACCTACCAGGC
Y
CCTCCTCCAGGTTGGCAGCGTGGTAACTGCTCTGTGCCCTGCCCACCCGGAACCTGGGGCTTCAGTTGCAATGCCAGCTGCCAGTGTGCCCATGAGGCAG
Celera SNP ID:            hCV25743372
SNP Position Genomic:     7616
SNP Source:               Applera
Population(Allele,Count): african american(C,24)   caucasian(C,37|T,1)   total(C,61|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:55960):
GCGGAGCCTCCCTAGTGACCCCCTTACCCCAGCGATGTGCGAATCCCACTGACCACGCGGAGGGGTCGGGAAGCTGCCCTGCCCCTGCCCAGCTCAGACC
R
CGCCACGCCCCCGCCTCTGCCCCCAGCTGCCACCCGATGAACGGGGAGTGCTCCTGCCTGCCGGGCTGGGCGGGCCTCCACTGCAACGAGAGCTGCCCGC
Celera SNP ID:            hCV25744166
SNP Position Genomic:     6504
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,1|G,37)   total(A,1|G,67)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55961):
GTGCCCACCCTCCGTACATCTTTCACAGCCCTGATTGCAGCTGTGTTCACTCACCAGGTACCTGCAGAAGGCCTACAGGGTGCCAGGCACTTCTTTAATG
K
GTTCTTTCTTTATGTGATTATTTGATTAATCTCTGCCTCCCCCACTAGACTGTAAGCTCCCTGAAGGCAAGAATCCTGTGCTTATGCTCAATATTAGCTC
Celera SNP ID:            hCV3178920
SNP Position Genomic:     13575
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,6)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:55962):
TGACCCCCTTACCCCAGCGATGTGCGAATCCCACTGACCACGCGGAGGGGTCGGGAAGCTGCCCTGCCCCTGCCCAGCTCAGACCGCGCCACGCCCCCGC
Y
TCTGCCCCCAGCTGCCACCCGATGAACGGGGAGTGCTCCTGCCTGCCGGGCTGGGCGGGCCTCCACTGCAACGAGAGCTGCCCGCAGGACACGCATGGGC
Celera SNP ID:            hCV3178915
SNP Position Genomic:     6519
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,10)   caucasian(C,33|T,5)   total(C,53|T,15)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55963):
CCGCCTCTGCCCCCAGCTGCCACCCGATGAACGGGGAGTGCTCCTGCCTGCCGGGCTGGGCGGGCCTCCACTGCAACGAGAGCTGCCCGCAGGACACGCA
Y
GGGCCAGGGTGCCAGGAGCACTGTCTCTGCCTGCACGGTGGCGTCTGCCAGGCTACCAGCGGCCTCTGTCAGTGCGCGCCGGGTTACACGGTGAGGCGCG
Celera SNP ID:            hCV3178916
SNP Position Genomic:     6615
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,24)   caucasian(C,2|T,32)   total(C,12|T,56)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55964):
CTGCAAGGAAGCGAGGCAGGTGGAGAGGCCAAGGAATGGGCCGCCCCTCTCACCCGCTCACCCTCTTTCAGGGCCCTCACTGTGCTAGTCTTTGTCCTCC
Y
GACACCTACGGTGTCAACTGTTCTGCACGCTGCTCATGTGAAAATGCCATCGCCTGCTCACCCATCGACGGCGAGTGCGTCTGCAAGGAAGGTAATAGGG
Celera SNP ID:            hCV3178917
SNP Position Genomic:     6821
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,26)   caucasian(C,3|T,37)   total(C,11|T,63)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55965):
GTTTTGCTTGGAGCCGCACGGCCAGCTGATAGTAAACTGGTGTATGTATCCAGGCCCCATCTGCTTCTCTTTGCCTTGAAGAGGCTGAAGAGGAGAGGAG
Y
GCAGTGGGAGTGGAGGGAGTGGGGAGAGTGGTGGGAGGAGCCACTCCCTCTTATCTTGTCCTCATGTTTCCAGACCGAGACTCTGTGGGCTCCCAGCCCC
Celera SNP ID:            hCV994736
SNP Position Genomic:     12449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55966):
GGAGACGGGGGCTCTGGGCCCCATTTCTAGAGGAAGTGTGAGCCGGGGGAGGGGACAGAGGGCTGATTACCAGTTGCCTCCTCCTCCTCAGGGAGCAGCC
R
CCTGGACCGAAGCTACAGCTATAGCTACAGCAATGGCCCAGGCCCATTCTACAATAAAGGTATGGGCACAGGGGCAACAAGGGAGGTGGCTGAGCTGGGG
Celera SNP ID:            hCV3178918
SNP Position Genomic:     11577
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55967):
TCAGTGCCAGGCTGGCTGGATGGGTGAGCATTCTGGGGCCCCAGGCCTACTGTGGATTGGGGGATGCATCCATAGGAAATGTGTCCAGAAGAGCCCCCTG
R
AACTGAAGGGGGCCCAGCCAGGCACACCCGACTGCTGTCTCCCACAGGTGCCCGCTGCCACCTGTCCTGCCCTGAGGGCTTATGGGGAGTCAACTGTAGC
Celera SNP ID:            hCV7618962
SNP Position Genomic:     8062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55968):
GACAGAGGGCTGATTACCAGTTGCCTCCTCCTCCTCAGGGAGCAGCCGCCTGGACCGAAGCTACAGCTATAGCTACAGCAATGGCCCAGGCCCATTCTAC
R
ATAAAGGTATGGGCACAGGGGCAACAAGGGAGGTGGCTGAGCTGGGGCTGAGGAACCAGTGCCTCCATGCGGCCTGACTTCTTTCCTCTATCCTTAGGGC
Celera SNP ID:            hCV3178919
SNP Position Genomic:     11630
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55969):
AGGCCAAAGTACTGATCTCCGGGGACAAAACAGCTCTCTTGGACTCCTGCCCATCGCTGAGCTCACCCTGTGCTTGTGTCTGTCATGCAGATGTCCCTCC
S
AGCTACAGTCACTACTACTCCAACCCCAGCTACCACACCCTGTCGCAGTGCTCCCCAAACCCCCCACCCCCTAACAAGGTCAGTGCCGGGGGAGGGGGTG
Celera SNP ID:            hCV7618964
SNP Position Genomic:     11080
SNP Source:               Applera
Population(Allele,Count): african american(C,11|G,17)   caucasian(C,5|G,31)   total(C,16|G,48)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,15|G,19)   caucasian(C,5|G,23)   total(C,20|G,42)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55970):
AAAGGGAAGATGAGGAGTGGGGAGGAGGGAGGAAGGGAGGTCAGGGAGGCCAAAGTACTGATCTCCGGGGACAAAACAGCTCTCTTGGACTCCTGCCCAT
Y
GCTGAGCTCACCCTGTGCTTGTGTCTGTCATGCAGATGTCCCTCCGAGCTACAGTCACTACTACTCCAACCCCAGCTACCACACCCTGTCGCAGTGCTCC
Celera SNP ID:            hCV25768953
SNP Position Genomic:     11034
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,27|T,1)   total(C,56|T,2)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,22)   caucasian(C,35|T,1)   total(C,57|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55971):
ACAGACCAGCTTCTCTGGAAAGCCCTGTCCTTGCCTCTTGCTCTCCCTCCTGCACTGTCCCCTCTTAGGTTCCAGGCCCGCTCTTTGCCAGCCTGCAGAA
M
CCTGAGCGGCCAGGTGGGGCCCAAGGGCATGATAACCACACCACCCTGCCTGCTGACTGGAAGCACCGCCGGGAGCCCCCTCCAGGGCCTCTGGACAGGG
Celera SNP ID:            hCV7618965
SNP Position Genomic:     11299
SNP Source:               Applera
Population(Allele,Count): african american(A,11|C,21)   caucasian(C,14)   total(A,11|C,35)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55972):
GGCCTTTGGGGTCAGCTTCGGGCTCAAATCAGGCATGACGGGGAGGCGACGTGGCCTCTCAGAGCCTGTGTCCTCATCTGGAGAACAGTATGGTGTACCT
W
CTTCGCAGAGCTCAGGATAGAAGTGGGGTCGTACAGCATCAGAGTGGTGGAGTTGGTACCCAGAAAAGTAGGGAGCCAGGCAGGTGATAAAGTCTCCTCA
Celera SNP ID:            hCV7618966
SNP Position Genomic:     12187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55973):
GTAGCCCTGGTGGCACTGTTCATTGGCTATCGGCACTGGCAAAAAGGCAAGGAGCACCACCACCTGGCTGTGGCTTACAGCAGCGGGCGCCTGGACGGCT
S
CGAGTATGTCATGCCAGGTGAGCTGGCACAGGGCCTGGGGCACAGATGAGTGGCTGGCTCATAGGCACAAGAGTGGATGCTGGGCATGACCCAAAGGGAA
Celera SNP ID:            hCV25768122
SNP Position Genomic:     10841
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,37|G,1)   total(C,67|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:55974):
TCCTTGCCTCTTGCTCTCCCTCCTGCACTGTCCCCTCTTAGGTTCCAGGCCCGCTCTTTGCCAGCCTGCAGAACCCTGAGCGGCCAGGTGGGGCCCAAGG
R
CATGATAACCACACCACCCTGCCTGCTGACTGGAAGCACCGCCGGGAGCCCCCTCCAGGGCCTCTGGACAGGGGTAGGTGCCGGGAGGCCAGGGTCTCTG
Celera SNP ID:            hCV27828777
SNP Position Genomic:     11326
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(A,1|G,17)   total(A,2|G,48)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55975):
CTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTTCTTTCTTCTTTCTTTCTTCTTTTCTCTCCCTCCCTCTCTCTTTCTTTCTTTTTTTTTTTTT
T
GACACGGAATCTCACTCTGTTGCCCAGGCTAGAGTGCAGTGGCATGATCTCAGCTCCCTGCAACCTCTGCCTCTGGTTTAGTTAATTCTTTTGCCTCAGC
Celera SNP ID:            hCV26628288
SNP Position Genomic:     9175
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55976):
CAGCAGAGAACTGGGACAAGGGAGGCAGAAAAACAGAAGGAACAGAGGGAGAAGAGAAGGCATGATGTGGCATCAAGAGTGAGGCCTTTGGGGTCAGCTT
Y
GGGCTCAAATCAGGCATGACGGGGAGGCGACGTGGCCTCTCAGAGCCTGTGTCCTCATCTGGAGAACAGTATGGTGTACCTTCTTCGCAGAGCTCAGGAT
Celera SNP ID:            hCV27517678
SNP Position Genomic:     12105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55977):
GCTGTGACTGTGACCACTCTGATGGCTGTGACCCTGTTCATGGACGCTGTCAGTGCCAGGCTGGCTGGATGGGTGAGCATTCTGGGGCCCCAGGCCTACT
R
TGGATTGGGGGATGCATCCATAGGAAATGTGTCCAGAAGAGCCCCCTGGAACTGAAGGGGGCCCAGCCAGGCACACCCGACTGCTGTCTCCCACAGGTGC
Celera SNP ID:            hCV25772001
SNP Position Genomic:     8013
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,37)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:55978):
ACTGGCAAAAAGGCAAGGAGCACCACCACCTGGCTGTGGCTTACAGCAGCGGGCGCCTGGACGGCTCCGAGTATGTCATGCCAGGTGAGCTGGCACAGGG
Y
CTGGGGCACAGATGAGTGGCTGGCTCATAGGCACAAGAGTGGATGCTGGGCATGACCCAAAGGGAAGATGAGGAGTGGGGAGGAGGGAGGAAGGGAGGTC
Celera SNP ID:            hCV25768170
SNP Position Genomic:     10875
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,38)   total(C,66|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:55979):
TCGCCTGCTCACCCATCGACGGCGAGTGCGTCTGCAAGGAAGGTAATAGGGTGGAGTTTCCCAGAGAGAAGACTTGGGGGATGGCCAAGGGAAGAAGGGA
R
AGTCCAAGAGTATGGGTGGGCCAAGGGCAGGGGAGCGGCTGCAGGGTAAGGGTGGAGGGGCAGCAGCTGGACACAGGGAAAGTATCCAGGCTACTTTCTT
Celera SNP ID:            hCV11333147
SNP Position Genomic:     6971
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,27)   caucasian(A,3|G,37)   total(A,10|G,64)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Gene Number:                 306
Celera Gene:                 hCG1776259 - 83000099354083
Gene Symbol:                 FLJ23556
Protein Name:                hypothetical protein FLJ23556
Celera Genomic Axis:         GA_x54KRFTF114(19264507..19304174)
Chromosome:                  Chr10
OMIM number:                 602228
OMIM Information:            TRANSCRIPTION FACTOR 7-LIKE 2;TCF7L2


Genomic Sequence (SEQ ID NO:12466):
GGGAAAAAAGGGCCAGGTTCCCTGACTCCACCTGTCATTGAATTACAAGCTGGGAAGCTGGGCCAGGCAGAGCTCCAGTTGCCAGACACTGTGGCCGCTC
TGGTACCAGCTACTCCTAGTACCCAGTGCAGGCAAGGTGTTTAGTGTGGCCTATGAGGATGTTGTTTACCAGGCAGCAACCTCATGAATAGGCAAAAGGC
CTGTTTTGAATGCCTCCTGTTTAGAAGTCTGAAATGTCACATCCAGACAGTTTGGAAACATTTTAGGTGGAGTCAAGGGCAGAGACCAGAAGACATTCAT
AGATCTGCAGTTGCAGATGGAGACTTTGTTCCAGCTACCCATGGTGTGAGTATACCTTACGGGTGCTATTTGGAATAGGACCTTATTTTTGTTCAGTATA
TTGGACAAAGTAATTCCTGCTTCCAAACTCACACAGTATTTATGTGGCCCCGGCTGTCTGGCTTATCCACCTGCAGCTGTGGAATTACTTATGAAGCGCT
TAATATGCAGCCTCGGTTTCTTTATCTGTTAAGAATCGGGATAACTGGGGCTTCTGAAGGGGTAGGGTCATGTAGCCTGGTGGTTAGGACCTCTGGCTTT
AGAGATGGACAGGTTTTGGTTTGGGCTCTGGCTCAGCTGCCTCCTTGCTTTATCAGCTTGAGAAGTTAATAATCTCCAAGTTTCCTTATCTGTAAAGTAA
GGAAAATAATAACTACCTCCCTCATAGGTTGTAGTTAGGAAAAAGATGTTGTGAGGCTCAGGTGGTCTGAGGGATATAGAATTGCTTCTCAAACATGATA
TGTTGCTTTGCCCAATGCTTAGGAGGGAGTTGCGGTTAATAGTTGAAGTGTTCTGCAAGTAAGTCTTTTGGATCAGTATAAGGCTGTGATAATTCTTATT
ATTTGGTTTGTGTCCGTGCATGAAAGCAGAAAGCAGCCAGAGGAGTCCATGATTCAAGGAGCATGAGAATTACTGTTTGCAACACCATGTTTTCTGAATT
CCAGTATACCATCAGTTGTAAGATATGCTTAAGGTTGGACGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGGCGGATCACTTGA
GATCAGGAGTACGAGACCAGCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAATAAAAAAAATTTAGCTGGGCTTGGTGGTGCATGCCTGTAATCC
CAGCTACTGGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGAAGGCAGAGGTTGCACTGAGCTGAGATTGCGCCATTGCACTCTAGCTTGGGCAACAA
GAGCAAAAGTCCGTCTCAAAAAAAAAAAAAAGTTATGCTTTTAATCTAAAAGCAAATTTTCAGGGAGAAAAAGAGCACGGCTCTCTTAACTGTATCTACT
TACCATATGCATCTGAATTTCAGATGCGTAAAAATGTAGAAACAATGCGAGTCTTCAAATGGAGGAAATAATGCCTGTGTGCTTATATAATTTGAATAAA
AGCTGTGCTGTTTGGAGCCCTAAACTTCAAATGGATGACATGTTAAAAGCTTCCAAACCCACTTTTGATCAAAAATGGGTGGAACCTATGTGGACCAGAT
TTTTCAGCTGTGCTGAAAGAGTAACAGCAAACCAGAGTCATTGGGCGTGGTTGTGCCAACGATCAGCTCTTAGAAGACCATACCAATCACATTTTACAGG
ATTCTATTCATGAAGATTCTGCATATCTGTTTCCATGTTGTTTCTGACCATTAAGGAGAGTTGCCGGTATTGACAGATGAGGAGGCTGGGCTGCCCTGCA
GCTTGCTTCTCCATAAGCACACCATCAAAAACATGTCCACATTCCAGTCTCACCTTAGCCCATCTCCTCATTGGGAGGAGTTAGGCTGCAGCATGAATGG
GAACAATGAATATGGAGGTTTCTTCAGAAGGCGATATTAGAGCATTTAATATACTGCTGTTCTTGTGTATTCTATTGGAAAGAATGGGCAACTGCACATT
AACCTTACTGTAAGTGTGATGCATTTGAACATACAGTTAAGAATAGCTCAAAGAATATGCATTTCTGCTGTGAGTGGTTTTGAATAAATCAACATAATAG
CCCATGGTTATTAACATATTATGTGAATTGGACAATGATATATACTTTGAGGACCTTGAACTAAATCCACCAGCTAAGAGCAACCCGTAGGAGGGGCTCC
AGAAGGACCGGAGTTCTGGGTGTTGAGGTTGTCATACAAAGAAATGAACAGCAGACAACTGGCAGAAGAATTTTCTGGTAATACTCAACCCAAAGTCAAT
TTTCAAATGCTTGGACTGCAGCACAGAATTGACTAATGTCAGATTAATTGAATTTGGACTTCTAAATGTGGGTCAGTTTGGGTTGGAAGTGATTTTATTA
TCCAGAAACTTCTGTGTACCCCTCTTCCCCCACAAGAAATATTCAGCCATAATTTTCCCCTGTTGCTGAGCTTCTCTTGCAAAGTTTCTGAGAAGCAGTG
AATCTTTCTGTTAGATTTCATAAGAAGTAGTGCTAGGCTTTTGATATAATTACGTTTAGATTTCAAGGAAACTTTCAGTGTGTTGAAAAATAAATTCTAA
GGCATAAAGGGGAAGGAGTCCTCGGCTGAGACCCAGACAGCCCGAGTCCTTAGCCCAGTTAGAAACTTGCCATGTGACCTTGAGCAAGTCTTGGCATGCT
CTGCCTCATGGTTGAACATTTTTTTTTTTTAAGTGGGGAGGGTTATATATGACCTTCTTTTTGTCCCTTTAGCTCGGACACTTAGAGGTTTAGTGATCTG
TGGGTTTTGTTTGTTTGTTTTTGTTTGTTTGTATTTTTGGTGGGAGGGGGCTAGAGTACAAAATGGAAAAGAAGATAAGTAGACAGGGGCTCATAATCTT
TGAGAACCAGGATTTTCCTTAAATTGCTCTCTTTTGAATCTCCTGGTACCCTTTAAAAAACCTCTTTACCTGGGTGCGAGTCTTCTTCCGTGACACTTAA
TATAACTTTATGGACCTCAGTTAGACTCTGATGTCCTTTTCAAAACAGTGTTGTTTTTTAAAGTATGAAGTGCTTATTAAACCCGCTTAGGAGATGCAGT
CCTAGGAGGCCATTGATCACACGTGAAAACACTCTAGATATAACTCTCCTTTCAAAAAAGTGGCTAATGAAGTATATACCACCTTCCTATTTTGAATAAA
GTGCTATGACTGGACAAAATAGAACAACTTTTTGGACAAAAAGGCTGCTGGAGCCGCTGCCGTCTCTATTCTTGCACTGCTTGCTGTTGACAGCCCATGT
GTGAGGACACTTTGTTAGTGACATTTAGCCAGTGATTGGCCCATCCAAAAGGCGGTTACCCAGAAGCCCTCGTGAGCAAGCCAGGATGCTGGGAGAGGGA
TGGGAGGTGGCCTTTTGGAAACAAGGGGACATGGCTGGGTTCTTGTAAGTCATGTGGAGAGTATGATACACCTCTACCCTGCCATGCCATGGCAGCTGGG
CCTCGCAGAGATGGACACCAGAATTCACAGCACCAGAGTTCAAACACTAAACACGGGCAGCTGGACATTGGCCTTGGGAGGCCCAGACGTGGAGCACTGT
CCTGGACCTCAGGCTGTTTCAGGGACCTCTGTGGCAGGAATTGACTACCCTTCTCTTTCAGGCTCAGCCATGATGTGCTTGGCTGTTCCCTTGGGCTCTC
TCTTCTGGAAGCTCGTCCCGTCCGCAGGCCCCCTTGCTGTACTTGTACCTTCATTCTCCATCTCTCAGCTTCTGCGCACTCTGAACTTTGGCCATTCGCA
TGCTGCCAGACCCCTTCCAACTCTTGGACTCCTCCTTACATCCCTTTACCGTTGGCTCCCAATTCTTTTTTTTTTTTTAATTTCCCAATTAAAACAACAA
CCACCACCAAGAACAAGAGTTAGGCCCTGCCTACCCTTCTTTGGATGGGGTGTTTGTGCCAAGTAGCATCACCAACTGCTGTTCATCCTTGACATGGGTG
TCCTGGGGTCAGGTGTTTCCTCTGGCCCAGTTAGCAGGGAGGAATGTCATATGGTTTAGAAAGGAGGGCCCAGGGCTGGCCGTCTCTTGGAGGGGCCCGG
GATGGGGTACGCCCCCTTGGAAGGGGATGGTGGTTGCGGTGGGCGCTGTAAATGTTGTGTCCAGCTCAGAGGGTGCAACAGTGTCTGTAACTCATATTCT
TTTTTTTTTTTTTTAGACAGAGTCTCGCTCCTACACCCAGGCTGGAGTGCCGTGGTGCAATCTCAGCTCACTGCAACCTAACCTCCTGGGTTCAAGCAAT
TCTCCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGTGCTCAACCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTT
GGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCGCCCACCTCTACCTCTCAAAGTGCTGGGATTACAGGCGTGAGCTGCCGTGCCCAGCCAGTAT
CTATAACTGAAGGCTGTTTATTTCTGCTTGCCTAACCCGTCCAGGAGGATGTGCTGGGGCCATCTGAACAACCATTGACATTCAGACATTATTTAGAAAT
GGAATTGGGAAGTGTTTAAAAGGCATAGACTAGTCTGGCCTTCTGCCCATTCAGAGACTGTGTATGTAGTCAGTGTACAGTGTATTCATTGAGGGCCCCT
CGCTGGATGTTTCAGCCACTCCCTCACAGGTTCTCGTGTCTGCTTGGTACAGTTGAGATCTGCAAGAGCTGATTCATCGGCCTGATTGAGATTCCTTTGT
AAAACCAGATATTCAAGAATACTAGTGGCAAGAATGCTTTGGTGAGCGTAAGATAGCGGCTCCCACTGGATCACATGGCTGGTCGGTGTCAGGGAGATCA
CCGTGGGAGGTAGCAGGAGTCAGTCTTTAAAAAAATTATTGGGCCGGGCATGGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCAAGGCGGGTGG
ATCATGAGGTCAGGAGATCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTATTAAAAATACAAAAATCAGCTGAGTGTGGTGGCAAGTGCCTGT
AATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCCCTTGAACCAGCGAGTCGGAGGTTGCAGTGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGCG
ACAGAGTGAGACTCCGTCTTAAAAAAAAAAAAATTTATATATATATATATATATATGAATTAATTAATTTAATGTTGCATTAACGAGTGGTATAAGGTTC
TTAGCCCTTTGTCTGGTATCTGCTGGGTGTTCAGTATTCATTTCCTCGCTTTCCCTGCATATTTTGAGCTAATAAATGTTTGGGGACACCACTTTCCTGT
AGAATCTCATGTAATCCCAAACAGATCCTAGCTGCTTGCTATGGCCCATCTGCGGGACCCGCGTCAAGGCTTTCCCATAAAGGAGAGCCCTGCGGGAATC
ATCATGTGCCAGGCACTGTGCTAGGCTCTTTAGGTGCATCTTGAAACTTAATCCTCGTGACATTTTGGAGTAGATACTATCATCCCCACAGAAGGTACTG
AAGTCTCAAGCACATTAATAGCTTACCTAAATATTGCTAAGGGTCTTCCAGATGATCTTTAGGAAATTTTCAGCCAGGGGAGAGTGAAAGCTCTATTTGC
TATAGTTAAAGCAAGGAACCCTCCTTCTTAAAAAATTATACAGTTATTGAGATATAATTCACATACCTTACAATTCATCCATTTAAAGCATGCAATTCAG
TGGTTGTAGTAGATTCAGGAGTTGTGCGAGCATCGTCACAGTCAATTTTAGAACATTTTCATCACCTTCCACAAAACCCCCGTGTCTCCTAGTAGCCACT
CCCCATTTTCCCTAAGTCCCACAGTCCTAGGCAACAACTAATATATTTTCTGCATCTATGGATTTGCCTATTCTGGACATTTCATATAGATGAAATCATA
GGCCCGTGGTCTTTTGTAACTGACTTCTTTCACTTAGCAAATGGAAGGGTTTTTGATGGAATCTTAGCTCAGATGTCGCCCTAGGCTTGGCCTTCTGGAA
CTCACTGTTCTCTTGCTTCCTTCCACCCTGCCTCCCTACCCGCTTTGCTACAAGAAGACAGAATGTAGAAACCCCCAGTTGACTTTTTGAGTAGAAATGA
GCCATGTTCTATTTAGTGGTAGAATGTTTGCTGGGTTAGCCCAGGACTTCAGATGGAGTGCTTCCTCCTTTTTAATACCTTGTGACTGCTGTGTTGGCAA
GCAGAGGGTTAAATGCTGCAGGAGGACATGGGAGAGTTTTTGCTTTGAGGGTCCACTGGAGCAAGAGAAGCTTGAGAGTCTGTCTCTGAGATCYCAGAAC
AGACATGAAGATATGGTACCGATTCCCTTGGTGCTAAAAGGAACTCCAGGGGAATTTCAGGAAACCCCTCCTTTTCTCRTCTTTATTCTCACCCCGTCCC
CCCGCCACCTCTCTCCCCAAGTTCACACTCAGGAGGGAGGAATCTTTTACCTTTTCCGTTCTGGGCAGCAGCTGTAGGGAATGTTATCAGTGTTGGGACT
GGGCACGGGACCAAGCCTTCCTGGTGCCTGGACTGCAACCWAGCTGAGAGCTGACATGGCAGGGCRAGTTGTGTGTGAGTTGGCTGCCCCTAGGCTCATA
GGCCTAGCACAATAGAGACCCTGTCAATGGAGGGACACTATCAGGCAGGTCACTATCAATGTGACAGACACTATCAGGCAGGTCACATTGGTGCAGATCC
TTGGAGGACTCCCCCCCACCCCCCATGAGTGGATTCCTCCAGGTCAGGGGCTGGCTGGGACTGTGGATGCTGGAGTAAGTGGAATTGTGGGTGCACTCTG
CTTCAGCAGTACTCTCCAAGGAGAATGATTGTTTTAATAAATTACTGTTTTAATAAGGGAGGTGGAAGAGCTTTTTAATCACTTGCTTTTTAAAAATTTT
TAATTTTATTTTAATTAATTAATTAGTTTATTTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTG
CACCTCTGCCTCCTGGATTCACACCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCACCCGCCACCACGCCCGACTAATTTTTTGTATTT
TTAGCAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTGTAGATCTCCTGACCTTGTGATCCTCCCGCCTCAGCCTTCCAAAGGGAGGGATTACTGGCG
TGAGTCACCGCGCCTGGCCTTTATTTTTTATTTCTTTTGAGATGGAGTTTTGCTCTGTCACSCAGGCTGGAGTACGGTGGTGGGATCTCGCCTCACTGCA
ACTTGCGCCTCCCGGGTTCAAGCGATTCTCCAGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGTGCCACCGCCTCCAGCTAATTTTTGTATTTTT
AGTAGAGACCGGGCTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGAGCGTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGC
GTGAGCCACTACACCCAGCCAATCAGTTGCTTTTAAACTACTTAAATAAAAAGAGCCAACCCAAAATCTTGTGCATGCTTGGGAAACTGGCAGTGGAATA
TGAGAAGTTTTTATTTGTGGTGCACACAGGTGACTCGGGCTGTTGTGTATTGGTTCTTGCCTCGATCTGTAGCAAGCAATCTGTTGTTTCTTGCCTGCCT
TTTGGGAAGAAATGAAAAAAGAAGCAGCACGAGTCTCCATACATCATGATTGTGATGGCACTGGGCCTGAGACCTTTTCTGCTGTCCAGGTAAAAATGTG
AAGACCATGGTTTTGAGGTTTCTTAATAAATTCAGGTGTTAAGTGCCAAGTGATGCTCCCAGCCCCTGAGCTAGAGCAACTATGCTGTTCATGTCCCCAG
GAATGGAAGTGGACCCTAGTTAGGTGCTGGTGGCCAGCCATGTGTACCTAGGGCAGGGCCAGGTCGTGTGTGTGTGTGTGTGTGTGTGTGAGAGAGAGAG
AGAGAGAGAGAGACAGAGAGAGAGATAGAGAGAAACATAAAGGTGATCGGCACTCAGACATCCTGTGTGGTCCACCTCACTTCTCAAGCAGGTGTCTTTC
CAGTCTACAACTCGTTGACCACAGGTGGAATTCATAAGCTCTGTTCCCTGTCCTGCTTGGGTCCTCCAGRGAAAGAAATGTTGAATTATCATCTTGGTGA
TGGTCAACTCTGAAAGCCTAAATTTTCATGATCACCAAAGTGTTTGGATTTAAAAGGGTGGCTCACTCCGTAATTCCGGCACTTTGGGAGGCTGAGGCAG
AAGGATCACTTGAGCCCAGAAGTTTCAGACTAGGCTGGGCAACAAAGCAAGACCCGGTCTCTACCAAAAAAAAAAAAAAAAAAAAAAAAAAAAATCAAAA
AAATTAGCTGGGGGTGGTGGTGTGCTCCTATAGCTCCAGCTACTCAGGAGGCTGAGGCGGGAGGATCGCTTGAGCCCAGGGGTTTGCGGCTGCAGTGAGC
TGTGATTGCACCACTGCACTCCAGCCTGGGCGACTGTGAGACCCCGTCTTTAAGAAAAAAAAAAAAACAAAGGTCACAAGACATTCTTGGCTCCGCCCTG
CAGAGCTGCTTCCCGATCTCCTTTTTTATTTGCTTCCCAACCTGCGGGCCTCAGTGTGACTCACCACACCGGACTGCCTGGCCCTGCTGCCTGCCGCCCA
TCCTTGCGGCCTGGACGACTCCATGTGCGAGTTGCTGGCGCAGCGTCCAGAAAACAGACCACACCCCAGGAATGATGATACGTTATAGCATTTCTCTGCT
CTGTAAGAGAGGCACCAGGGTCGTGTGCTGGGTCTGGGGTTTGTCCATTCCACATCCGGTGCTGCTGTTGACTCTGGTGTCGGCCGCTGGTGAGCTGGCT
GTAGCTGGTCACCTCTGGGTGGTTTCTGGGGCGGTCGCAGGCTGACTAACAYACCAAAGGTCAGCCAGGGTGTTGAAGCTGGCACCTTTCTTCCTGGAGC
ACAGACGTCATCTTGGATCTTTTAGATACTTGGACTTACTTTATGCAGAACATTCTGGATTTGTGAATTAGATGGACTCTTTATTATTTTGTATTTGGAT
TATTTCTTTAAAGAGATCAGAGATAAAAATATCATTGTTTTGCCAGTTTGCTACCACCAGCCCACACCCCTCTTCCCGTTGTCCAAAAAGGGGGTGGTTA
GAGTTTTCTTGAGTGACTGGGCTATTATGATTAGCAGATTACTAAAGCTGTGTGATTTTAACAAGACGTAAACACATATGGGAACCCCTCCTTCCATATC
TTGCTAATGTCAATTARCAACATATTAATCTTGCTAATGTCAATCCTGTCACTTCATACATTTATAAATATTAGGGACATTTAAAAGAGTTGTCGGACTG
TGCGGGACCTTGGCACACTGCTGACGGCTGCACACTCATCACTGCGGGGCTCATCACACATTGACACCAGCACCATATTTTGCTGGGTTTCCTGATCTCG
GTTGAGTATTTGGATTTGAATGGGATGGTTTTAATGTTGCTACTGACTACTACAGTGATCCAAATAAACTTTAAAGCTGGGGCCTCCACGCCAYAGGCAR
ATTTTCATACCAGTTGCCTTTACCTCAGTAGTTTTCAGCTGGGGCAATTTTGTTCCCCAGGAGACATCTGGATACAGTGTTGGTTGTAACAGCTGGGCAG
GGGGTACTTCTGTCATCATCTCATGGGCACAGGCCAGGGATGCTGCTAGGGCAACCCCTCACCCTCCCAAAGAATTATCAAAAACATCAACAGTGCCAAA
GCTGAGAAGCTCAGCTTTAATGTGTTCATTGAGCAACTAAAGAATAGACTCAGATATAGGAAAGTATTTATTTATTTATTTATTTAGAGACAGGGTCTGG
CTCTGTTGTCCAGATCATAACTMACTGTAACCTTGATCTCCTGGGCTGAAGCAATCTTCTCACCTTAGTCTCCCAAAGCATGCTGGGATTACAGGTATAA
GCCACAGTGCCCAGCCTGAAAAGAATACTTTAAATGGGCGGGGTAATGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCGGGCAGATCA
CCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTATCTCTACTAAAAATACAAAAATTAGCCGGGAGTGGTGATGGGCACCTGTAA
TCCGAGCTCTCCTGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGTTTACAGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGCGA
CAAGAGCGAAACTCTGTGTCCAAAAAAAAAAGAAAAGAAAAAAGAAAAAAAGAGTATCTTTAAATGAATGGCAACCCAATTTGCAAATGTATTTTTTTTA
ATGTTGCCAATTACTTTATGTGTTTAAAAAATATCTTTCTGGTTTACTAGGGTATTCTTCAAAAAAAGAGAAAAGATTAAAGCTGCACAGACATGATGAT
GTAAAAGCTAGTAGCTTCTCAAGCTGTGAAAGGTCTGTGGTGCAGAGAATAGCTCCCTRTGAGCTGAATTTTGTTTGCTGTGGTGCAGCATGGGTTTAGA
TCCTACCTGGTTAGTGAAAGAGATAATGTGAAGTCATTGCATTTGCATTTGTCAAAATCCTAGTTTTCCACTTACCTAATAGTTTTTTGTTTGTTTGTTT
GTTTCATTTTGTTTTTAAAGACAGGATCTTACAGCCGGGGCCTGTAATCCTAGCACTCTGGGAGGCTGAGGCGAGTTGATCACCTGAGGTCAGRAGTTCG
AGACACACCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACRTGCCTGTAATCCCAGCTACTGGGGAGG
CTGAGGCAGGAGAATCACTTAAACCCAGGAGGCGAAGGTTGTAGTGAGCCGAAATCACGCCACTGCACTCCAGCGTAGGCAACAGAGCAAGACTCCATCT
CAAAAAAAAAAAAAAAAAAAAAAGACAGGATCTTGCTCTGTCACCCAGGCTGGGATATACTGRCTTGATCATAGCTCACTGCAACCTTTAGCTCCTRGAC
TCAAGCAATCCTCCAGCATCAGCCTCCTGAGCAGCTGGGACTATAGGTGTGAATTACCATGCCTGGCTAACTTTTTTATTTTTTGTAGAGACAGGGTCTT
ACCCTATTGCCTAGGCTGGTTTCGAACTCCTGGCCTCAAGTGATCCTTTTGCCTTTGCCTCCCAAAGTGCTGGGATTACATGCGTGAAACACCACACCTG
AACTAGTCTTTTTGTTGTTGTTGTTAAAGTGAGAGACCCAGACCAAAATCATCTTTCTTCTCCCAAAATGCTAATTATTATTTGTTTTAAGTTATAGCTC
CAGATTACCTTGTAGGATTATTCACATTTTCTTTCTAAATGCTGTTCTTGAAAGGAACCATCTATTGACAGTACATCAGAAATTCTATGGTTCCTTTATG
ACATTTCTGGGGAAGTAAATGAAAGGTGTAAATTAAGAAAAGCAAGTGTTTGCGGTTCCCACTTTAACCTTGTGTTATGTTAAGTGGCTTTGTTGAAGAG
GGCTGTCACTGTTCTTGAAAACTTGGGAAAATCCATAGCAAGCTGTGCCATTAGTTGCCTTTGGGAGCACAGGATGTTTGATGTGAAAATTATATGGACA
CATCTAATTGGGTGTATTTTCACCCCACCAGATATCAAGTAAAGAGGTGACTCTTCCCCCTCCCCTGCATTTTTAGCTAAATTGTTTAACCTGAATTTCA
TGCTATTAAGAATTACATTTCAGTAATCCACCTGCCATTTTTCAATGCCTTTTGTTTAGTAGCATGTCTGTATGATCCACCTACAGAACATTTCTAGACA
TCTGGCAAGAGCTAGTTATCATCCCTTCCTGATTTGGGGTGCTAAGACCTGTGGTCCCCTTCTTCCACCGTAATTTACATTYTTCCCTGAGTCCTGCAGG
AACTCAGCCAGGCAGTGGAAAGAAAACAGAAGCTCTGTGGACCTCTGCTTACTGTAAAATGGGAATAATAATTCTTATCCTGCCTGTTTCCCAGAGTTGT
ATATTCTTTTCCAATAAAATGTACTCAAAATTAAAATACAAAGCAGTTACACAGAGATAAGATAGTGGTAATTATGCCAATTTAAACTCCAGAATTAAAA
AATAAGTTTAGTCACATACCATGCAGTTCACCCATTTAAAGTATATAATTCAGTGGTTTTTTGTATATTTGCAGAACTATGCAACCAATATCGCCATTGT
AGAACATTTTCCTCACCCCCTAAAAGAAACTGTACCCATTAGCTCTCACTCCCCATTTCCCCCACTCTGCCTTCTCCCCCATGCCCAAGGCAACTGTCAA
TCTACTTTCTGTTTCTATGGATTTGCCTGTTCTGGCATTAGATATATACATGAAGTCATAAAATTTGTGGTCCTTTGTGACTGCTTCTTTCGCTTAACTT
AAATGTTTTCAAGGTTCGTCCATGTTGCTGCATGTATCAGGACATAATTTCTTTCTTTTTCTTTTCTTCTTTTTTTTTTTTTTTTGAGATAGAGTCTTGC
TGTGTCGCCCAGGCTGGAGTGCAGTGGCATATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAGGCGATTCACCTGCCTYGGCCTCCTGTGTAGCAG
GCCCATGCCACCACGCCTGGCTTGCTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATWGTATTTTTAGTAGAGATGGGGTTTCACCAT
GTTGGCTAGGCTGGTGTAGAACTCCTGACCTCAAGTGATCTGCCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCAG
GACTTTATTCCTTTTATGGCTGAATAATATTTCATTATATGGATATCCCATATTTTGTTGACCCATTCATCAGTTGATGGCAAGCTTCAGAATTAAAAAA
AAAAAATTAAGCTAGTTCATATTTGCTTTAATTTTCCAAATGATCCCTTTCCTTTTATTGCAAGTTAAGTGTTCCTATGGTAATGACTGTTATGGGGCAA
AGATGATCAAGTCTATGAGCGGTCCACACAGTTCAACAAATATGTACCTCAGCACACTACCTGGAACCAGACATTGGGTAAAGATAACTTTAGAATTCAT
GGTCCCCCTGAGACACTAAAGACTTTTTAATGAATGCAATTAGTAACTTTCTACTTACTGTTACTCTTTTTATTTTATTTTTTGAGCAGGATCTCACTGT
GTTGCCCAGGCTGAAGTGCAATGGCCCAATCACAGCTCACTGCGGCCTTGACCTCCTGGGATCAAGTGATGGCTGAGACTACAGTCATGTGCCACCACAT
CCAGCTCTTTAAAAAATTTTTTTTGCAGAGATGGGGTCTCACTATAGGCTGGTCTTGAATTCCTGGCCTCAAGGGATCTTCCTCCCTCAGCCTCTCAAAG
TGCTGGGATTACAGGCATGAGCCACCACACACACCCAGTTTGTTGCTCTTTCTGTAGGTTGGCTAAGGATTAAGATGTTATCTCCGGTGGCTGAAACATG
CCTCTGATAGGTGCTATCTCCCTTGTCTTCATTTTCACGCTGGTGGTAATCCTGGAAGCCGCAGGGATCAGTCAGATGGCAACAGCAGATTCTTTTTTTG
TTTTTTTTTTTTCTGAGATGGAATTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATTTCATCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTG
ATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACAATGCCTGGCTAATTTTTGTATTTTTAATAGAGACGGGGGTTTCACCATG
TTGGCCAGGCTGGTCTCAAACTCCTGACCTTAAGTGATCCACCCATCCTGGCCTCCCAAAGTGCTGGGATTACAGGYGTGAGCCAGTGCGCTGGGCCAGC
CACAGCAGATTCTGACAGGTGATGCCCTTGCCAGCCTGGGGAGCCTTTTGGTTTTGGGTTTGGTTTTTAAATTTGTTACTGTTTTGGTGGTTGTTTTTAC
CTGTTGTAAATATTAAGAAGCCTAGGCATGATGATGCTCTGAAGACAGGAAAATTTGTTTTGTCCCGATTTGCCACACGGACTCCTGCCTGCATCTGCGT
TGATGTGGCCACACGGAGAGCTGCTCTGCTCAGGAGATCCAGCCCGGGCCAGCAGCTTTATAATCAGTTCTGATCGCCACCCTGCAGGGCTGTTTTTGGC
ATTTTAATGTCCCTTAAGTACTTTCAGAAGAAAGTTTTCAAGGAAAACCTGAATTTTTTCTTTATTGGCTGCACATGTTAGACATATGAAGATGTGTTTC
ACTTTACAAAGTGGGGGGAACCCTCAACAATCTTTAAGAGATCCCTAAAAACTGAGGGTTGTTTCAGAACCATCTAAATCCAAGAACGTTGGACCTGTTA
TACTTATTCTGGCAGATGGACCCATCCCTTTTTTTTTCTGAGACAGAGTCTCGCTCCATCGCCCAGGCTGGAGTGCAATGGTGTAATCTCGGCTCACTGC
AACCTCTGCCTCTCGGGTACAAGCGATTTTCGTGCCTCAGTTACCCAAGTAGCTGGGATTACAGGTGTGTGCCACCATGCCCGGCTAATTTTTGTATTTT
TAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAAATCCTGACCTCAGGTGAACCACCCCCCTCCGCCTCCCAAAGTGCTGGGATTACAAG
TGTGAGCACTGTGCCTGATCGCCATCCTTTTATTGGTGAGAAGAAAAGGGAGCAAGATGAGGTTGACCCCTGCATCTTATGTGTGTACTGTCTCTGCCTC
TGTACACACACACATGCACCACAGACACACCACACACACACAGCCCACATACACAGCCCACATACATGCACACACAATTTAGGGTTTTCCCCCTTCTCAC
AAAAATCCTCTTTAACGTGATTTTTACTAATAAAGTTATAAATGTCTGGGGTTAGAAGACAGCCAAAGTTTTGGGTGGCGCAAGAGATAATTCATCCCAG
ACTCCACACCCCTTATGCCATGAAAACTTCACCTCTCCGTTTCAAGCTGAGAAACCCCACATACACTGCAGATACATTACAAGGCAGCTACCACATCACC
AAAGGCCAAGCAGAAGGCATTGTGGATGCCCTGGGTATATACTCTCTGACACAGAGGTGACTGCCTAAGCAGTCAGATTTGCGACAGTGTGATCCTTTTT
GGAATTCATATACTGGGGCAAGTATTGGAACCAAGGTTGCCAGCGAATGGGGCTGGCAAGTCTTTTTTCAAGTTTCCTTGTGTGTTCCCATTCTGAACAA
GGTGGTGTCAAGTTGATCCTGCCTGTGGGAATGCATTGTTCTTGAATATTTATATCTTTGTATGCTCCCATTGGGATTTCTCCTTTCATAATATCTGAAA
AGAACTTGTTTTCATTAAAGCCATTTCAATTTCGTACATTTTTATGCAATAATTTAGTGTTTATGGTGTCTCTTAACCAACATGGCTTGTTTTCATAARC
ACCCGAGAAGGTTTAAATAACATTTTCTCATAAATTAGCCCTCGTTTGCACACTTATTCAGTTATTGCATCATGAAGACCCTCTGGAGTTTGATGTTGTC
AGGAAACATATTAGCAGAAAATAGTGTGTTATTATCTAATGCTRATAATTGGTTAGTGGAAATGAGAAAAGAGGATATGTAATTGGGGTTCCTGTGGCTA
ACAAGATGTGAATTATGAAAGCATTTCCAGGAGAAATTCCAGGGGTGTTCCAGGAACCTGTTATTTACATTTTAAAACATTTGATTCCCATTGAAAGGGG
AGGAGGGCGCTGTTTACCAACACTGCTTTCTTTTTCAGAGCAAATCCATCTAAATTTCCTGAGTGGTAGCTAGATCTCCTAATACACCTAGCCCCTATGT
TGTTTTGACTTTGCAGTCCCATTTTAGGCTGCTAACGTTCTTTTTGTAAGAGATATGTTGGCTTTTAAAGAGAGGATTACCTAGTACACATCACAAGTCC
TGATCAGACCCTCTTCTCCCTCTTGGCCCCGTGATTCTGCCCAGTAATGTTTACAGCACACAACACGCACCAATACTACTTCCCAAAGGCTGCTTGGGAG
AAGGAGCGTACCTTTAGCAAGAATCTCAGTATAAGCACAGTATAATGCTTTCTTCATTAGCTAGATTCACAAAGCTTTCTGCAGCCTGTGCTGCTTGAAC
CCGAGCTTCTGCTTAATGTTCTTCCATAGCCAGTCATTGCTGAGTAAGGTGGATGGGCTTCTGTGTTATGCTTAAACAAGTGAAATCAACTCCTGTTCTC
TCAAAGTCATTGATGAGCATGGTTTTTCATGCTTGCTCGCTATTGACTTGTCTGGAAAGATTATACTGTTAAGGACAGAGACTCTGTCAGTTGCATATGG
AAATAATGGATATAAAGATTGCAAGGAGAGTTCATTTTCCACCTGCTTGAGGTCACATTGAACCTCATCCCTGTTGCGGAAAACAAATGGGAGTGATAGC
TGGTGCCAGTTAGTGTATGGATGTCCTCGAAATTAGATGTGCCTTCAAAAAGACTTGATTTAATGTTAGCCAGGTCTGTTTGAACTTCATTATTACTATT
ATTATTTTGAGATGGAGTGTYGCTCTGTTGCCCAGGCTGCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTC
AAGCAATTCTCCTGCCTCAGCCTCCTGAGTATGTGGGATTACAGGTGCCTGCCACCACGTCTGGCTAATTTTTGTATTTTTAGTAGACACAGGGTTTCAC
CATGTTGGCCAGGCTGGTCTCGAACTCTTGACCTCAAGTGGTCTGCCTGCCTTGACCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACTACCATTTTT
TTTTTTTTTTTGCGTGCCTTGGTTAATATCTCAAGTTCAGATAATGTTAAGGTTAACCACTTCATCTTATTACCTTTCATCCCAGTAAAGCCTTGACCTT
CACATATAAAACTAATTTAGTGTCAATACAGTTAAAAAGTGTCTCCTTTATTCAGAATTACCCATATAATGTCTTTTTTTAATAACTTTATTCCAAACTT
GAAAAAAATTATTATCTTTACCCATTTTTCCCTGTACTGTTTATGATACAACAATTAAAAAAATCTTATTTCCAATTTCTCAATATTTGATAGGTACACT
TTCCCCCCCACAGGAAAAAAGAAACAGTTGACAAAACTTTGTTTTAACCAGCAAACACCTTTTGAAATGGTGCTGCAAATTCCTATTCATGATGCCATAT
TTCTAAAACACTTTTTCTTGGTCATGTTGAACTTTTATTCAGTAAAAGAAATCTTCATTCTGCTTGTGTGTGTGTGTGTGTGTGTGCACGTGCACACGCA
CATGCATGTGGCCTTTTCTCCTTGAATGTGACTTATTTTAATAAATTTACCCTCTTATTATATAATGGCCATGTCCAGAAATCGGGGTGCATCGCTTCTG
TACGTAGAGAGTCAAGGTCCTAACAAACCCGCCCCTCTGTGTTCTGCTAGCCATACAGAAGTGGAGTGTGTTGGAGGTGGACACAACCCTTAGAAGTCAT
CCAGCAGCCAGCATCCTCATATGCTGTGTCAAGCTGAGCCCCAGAAATTCAGAGAGTACAGCTAGTCAGTGGGAGGGTGGCAGTGGCAGTGACACTGAGG
CCCCATGCTCTGTCTGTGCGAGGTTAAGGAGGGGTGAGCAGTGCTTTGTAAAGGTATGTGAAAAAGTGGTCTCTTTCTATGCTCATTCTGTTTTGCCTTC
TGTTTGGAGCCTTGTCTTTTTCTCAGGTGAGGTCTTTGAGGGCTGAGGTAGACTTCATTTCTGCATGCCTTGAGTGCAGAGATGGTGATTACATTCCAAC
TCGTGCCAACTTTGAGCAGAGTGGCTGTGTGCTATGGAGGTAGTAAGGGAAGAGGGAGGTGCCATGTGTGACCTGGACACTTGCCATTCGTGACTCTAGG
ACACTGCCCTCCACATATACTGATAGACACACACACACACACACACACACACACACACACACACGTGCAAGTGTGGGCCCATACTCACACCTTGCCACTC
ACACCTTGCCACTCACACATGCTCACATTAAAAAAAAATAATAATGAGAAAAAAGGATTGCATACATCTGCCATGTGAGTGATGATATCCCGGTCTGGGG
AGGAACTGGGCTTGTCTTTACGATAAAAATGGTAGCTTATCTGGAGCCCTGATGGCAGTTTCTTTGCCTTTGCAGTAAGTTGACAGTGTATTTCAGATGT
AATTAGTTCCCATCAAAGTTACCTCATCTTCAGAGGTGAGAATTATCGATGGTGCATAAAGCTGGATCAGTGTGACCTGTAAAGACCTTACCTGTCTCCA
AGGTTACGCGTGTGTACGTGGGGTTGGCTGGTTTGGATGGTTGCTCTTTGTTTTTTGGCATCCTTGTGTGTGAATACATGATAAGAAATATGAGGATGTT
ACCTTCTCACCAATTTTTAAAAATTGTCAGTTCAGTACTTTGCTTTTTTAGTGGAATGGCCCTTAGCAATATCCTTCTTTTAAATGGATTTCTTATTGTT
CCAAAGATGTGGCATTTCCAAAAGAAAATTCTTCCATTTATGCATAGAACCTTGAACTCTAGTCTTTAAAAATCTAGGCTTTAGTTTCAGCTCTTTTTTA
GCTGTGTGGTCCTGGACAGGCCCTTTTACATCTAGACTTGGAGATTTAAAGAAAATCATAAAGAATTAAATGAGATGATTTCTAAGACTCATTTCATTTT
AAAACTCTGATCTTTCAGAGACGCACAAATCCATTCCCTCTTGCTGTGGAGGAGAAAATACATGAAAATCTGAATCCATATGCATTTGTCAGGGTTCTCC
AGAGACATAAAACCAATAGGATGTATGTGTTTATATAGAGAGATTTGTAATAAGGAACTGRCTCACCCAGTCATGGAATTCCATAATCTGCATCATCAAG
TGTCATGGTCTGTAGCTGGGAAGCTGGAGACCCAGGAGAGTCCATGGTGCAGCTCTAGTCTGAGTCTAAAGGCTGGAGGACTGGTAGAACTGATGGTGTA
ATTCCTTTTCAAAGGCCGGTGGGCTGGAGCCCAGAGATGCTGCTTTAGCTCAAGCCCGAAGGCAGTTACTCAGGAGGATGCCGGCTGGTTTGGAGGAAGA
TCAGCCTTGTATTCTGTTCAGGCCTTCAGCTGATGGGCTGAGGCCTGCTCACATCAAGGAGGACCATCYGCCTTACTCAGTGAATGTTAAACTTATCTAA
AAATATCCTCAGAGAAACATCCAGAATAGTGTATAACCAAATATCCGGGCACCTTGTGACTTAGTCAAACTGACACATAAGGCCAGGCATGGTGGCTCAC
ACCTGTAGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACTTGAGACCAGGAGTTGGATACCAGCCTGGCCAACATGGTGAAACCCGGTCTCT
ACCAAAAAAAATACAAACATTWGCCGGGAGTGGTGTTGTGCACCTGTATTCCCAGCTACTCGGGAGGCTGTCACAAGAATCGCTTGAACCCGGGAGGCGG
AGGTTGCAGTGAGCTGAGATTGCACCCCTGCACTCCAGCCTGGGTGACAAAGTGAGACTCTGTCTCAAGCCACCCCCCCCCAAAAAAAAAAAACAAAAAA
CCCTGACACATAAAATTAATCACCACCAGAGTTTTCTGAGGCAAAGAGGAGTAAAGCTGTTGCCTTTTTCTTCTTGCCTGTGAGGTTGGTTGAGAKTCTT
CTAACAGCCAACAGGTGTTGGCCAATGTTACTCTGATTGACACCTTTCTTTTTTTTTATTCAGGTTTCCCTCTGTCACCCAGGCTGGAGTGCGGGGGCAC
AATCATGGCTCACTGCAGCCTTGATCTTCCAGGCTTAACCAAACCTTTCACCTTGGCCTTCTGAGTAGCTACAGGCCTGCACCACCACATCTGGCTATTT
TTTTTTTTTTTTTAATTTTTAGTAGAGACGAGGTCTTGCTATGTTGCCCAGTCTAGTCTTGAACTCTTGAGCTCAAGCAGTCCTCCAGCCTTGGCCTCTG
ACAGTGCTGGGATTATAGGTGTAAGCCACCACACCCAGCCCTGAGTGACATTATTTCATACAAAATTCTCATCTCTGGAGGCCTTTGTATTTTTAGGGGT
TTTGTTTTTCAAATGCTTTTTACCTCTTTCTATACTTGTTCATTTTTAAATGTTTCCTGGCAGAGCAATTAGTATTTTCTGGCTTACTAGGTGCTATTCG
ATTGCATTAGCGTTTGAATATTACCCAGCTAGTTGTGGAGTGGGGCAGTAAGCTCATAAAGAAGCAAGATAATGGAATACACAAATATTACTACGACTTT
ATGGGTGGCATACCTTGATTCTTGATCCACGTGGCTGTGTTCAGATCTGGTTAGCACACATTGACATCAGGGGCTGAGCCACCAGTGAGAGTCAAACCCA
GCAGCCCTGTCAGTCTACCTTCTCTCTTGACTTGATCCAGCCTCATAACTTCACTTTCCGCAGGAGAAACACACCTCTTGAGGTCCTCTGTCACAAATAG
GCAGTGTTTCTGGAGAAAGCCAGGAGGCAGATTTTAGTGCTGTTCAGCATCTGTGGTCTCTACTTTCTGGATCTGGTGCATTATGGAGACCATGAAATGA
CATGAAATAGCTCAGTGCTGCCAGTGGCGGTGACAGGGACACTAGAGGTGAAGGAGGGCCCTTGGGGCAATTCCAGCAGGTGGGTGGTGGCTGAAGGTCC
TTGTCTTCTTTCTGCAGAGACTGGCCACCTGCTTCATTCTTTCAAGAAGCACCAAATCCCTACTTCAGTACTTTGCCCACTCGTCATGTCAGGAGCATGA
AACTCACGAGGCCTTCATTTACTTTTATCCTGTAACACCTTCAATTTTTCCCACATCCTCCCTTGATTCGTGGATGGACAACTATGGAGGCCAATCTGGC
TGAGGTGAGGACTGCTTGAGTCTAAATTCCTCTCTCCTCAAACCCAATTCAAACTGGCCTGAGCAAAATGAATGTATTGATCCATAACTGAAAAGTCCAG
AATGATCAGGCATCAGGCATGGTTGCATCCAGGGGCCCATGTATTAGAACCATCTCCTTCCAGTTCTGGGCTCTGCTTGCCTCCCAGTTGGTTTTACTGC
ACAGAGGCTTATTCAAGTCCAGAGAGATCTTATCTTTCCCTACAAGTCTGTGACCTTGATTCTGAACCTGCATCTATGGGAAGGGCTTGCAGTGTCTGAG
TGAGCTTGGACTGTGTAAACTTTCCCACTTCTGAAGCTGGGGGTGGGGTTCACTCCACTAAGCTACATGGCTCTAGAGTCAGGGGGTTGCCCCCTAAGTA
ACTGGCAGTATTGTTACCAGAAAAATCATGAATGGACACTGAGCAGAAAACTCAGCAGATGTTTATTTCCTGGTCTTTAGGATTTGTTGAAGAGTTTTTT
ATTTGTTTGTTTTTTAAGAAAGACTCAAAAGGAAAAAAAAAAAGAAACTATAGTTATTTTCTCATGATATAAAAAGATTCTGTAGTTGTATATACATTTG
AACTTTTTGTAAGACATCTCCTACCCCCCTAAAATTGGAAGTCATTTATTAAGACTTTGTATTCTGTAAGAGGATTGGAAATGAATAATTAAGAACATTA
AAGAGGAAAGCAGGGGGTGGTGGGAAAGTGTGGTCTTGAGGGGGTAATAAACCTCCTACAGGCCACACACACACAAGRAAAAAAAAAGGGCAATAAGTGT
AGCCCAGTAACATAAGGTGGGGAATAAGGTTAGGGGTAAGGTTAATTCTACAAGTTCAAAGCCAGTAGCCCCTGATGCGCTGTTGGACGTGAACTATAAA
TTTGGCTCTGAGGTTCCCAGGCATGGAAGAAYATCTAGATCTGTACAGAGAGGTTGTGTGTGTGTTTAACATTTCCATAATGTACAATTTCCTCTAAGAG
TAAAGGCCATGAGGAAATGCCCGTGGAAGATAAAGGAGACCATGTGGTCTGTGGCAACCATGGATACATTTCTTTCCCAACGCATTCTCTGAGGCACTTT
GGTAACTCTGCCTCTTTGCTCTCAGCATTGTGTTAGAAAATAAAGCCAGCAGACWAGGATTAAACCCTCATGTTGCTGGGTTCCTTCTAGAAACAATTGG
AGGGCTAACCAAGTCACCTTTGGTGGAAGGCAGTAAGGTGAGTCATTGCTGTGGCTGGACTGAATAGGATAGCCTTAGCTGTAAAATTGGGCTGATCTTT
CAAATGGACTCATGCTTGCCGAATGACTCACGCTCCTGTTTACAAATCAGCTCTGTGAAGAAATGCAGAGTGGGAGGCTCTGCTTGCCAGACGGAGACCT
TAGACCTCCAGGGGTGGAGAACGGAGTACTTCCTCTGGTGCTCGGCTTCCCTTCCTGGGGGCAGATCTCTCAGCTTCTGGTTGGTGGCTCTCAAAATCCA
GACACAAGGTCAGCTGCAGCCAGCGTGGGCCCTGGAGTAGCTCCAGTTATGGGGCAGCAATGGCCCCCTCTCATTTTGAGAGCTCACTTTGCCTGTGGAT
GGTTTTAATCCATCTGGATAAACTTGAGGCCCATGGGAATACCATATACTATGGTAACCATGTACACTGCTCTAAAGATGTGGCTGCTGTTGTATAACTT
TTTCCTTTATTTTTGTCAATTTCCTATTTTCCAGRGTCTTGCATACCCACTATGTCTACTGTGATAGTGAACGTAAAAACATACAAGATGTTGGTGTTAT
CCTCAATCTCTTATTCTTAATCCTGAACAAATTACATGAAAAAATCGTTCATGGAGTTTTTCTTCATATAAAACTTTTTACAATGAACATAAAGGGCATA
GCTATTTCTTTTTTTTWAAAAAGAAACGTAGAATATTATTTCTTGGTTGTGAAATCGCCCTTCTTGGACCCCAAGTTGTTTTTTACAGCCCTAAATTCTC
TTGTTTATAGAGCCTGTTTATAGAGCCATAGACAGGCCAATGGGTCTCTACAGCAGGCACCTGCATGAGTTGACTGGGACCTGAGCTATATTCCCCCTCT
GCCATTTACTAGCAGTGTGACCTTGGGCATGCTCCTTACAGTCTCTGAGTCAGTTTCCTCCTCTGTGAAATGGGCATGATACTACCTACCTCATAAGGTA
GGGGTGAGGATTAATGGAGTAAGAGGCACACTCCTGTCCAGGGCCCCAGACAGAGTAGGCCGTCAGTAAACTGTAGCAGCTATTGTGATAGGGTTTGAAA
TTCAAATTAACGCATATTTCTTGAGCACCCAAGGTGTGTGCTGCTGGATCTTTCAAGGGGTCCAGAATTGRTAGTATAGTTGCTTTTCTCAAAAGACTGT
CGCCTGGCAGAGGAAAAGGTGTTAAGGTATGAGTGAAGACAGATCAGCCAGACATGGTGCCGCTTGCCTGAGATCTCAACACTTTGGGAGGCCGAGATAG
GAGGATTGCCTGAGCCCAGGAGTTCAAGACCAGCCTGAGCAACATAGCAAGATTCTGCCTCCMCAAAAAAATAAAATAAAAATAAAAAGATTAGCTGAGT
GTGGTGGCGTGCACCTGTAGTCCTAACTGTTTGGGAGGCTGAGACAGGAGGATTGCTTGAGCCCAGGAGTTTAAGTCCAGTCCGGGCAACATAGCAAGAC
CCCATCTCTTAGAAAAAAAAAAAAAAGATCAGCTCCCCAAACAGCTGAAGTATTAAGTGGAACCATATGTAATTGTATTTTTGTAGGACAGAAATATCAG
CAATTTCACATAACTAATAGATTCAGTAAGGTAAGTTGAGAGAGAAAATGCTAGCTAACTGGTTCTTGAGAGGCTCAGAGGAAGGGGAGGCCATGCCCAT
TAGGAGAATGGTGGGTAGGGGTGGGAATACACAACAGGAAGGCTGCCTGGAGGAGGTTGCATTTCAGATGTTCCTAGAAGGGACCCTGAGCTGGATGGCA
GGGAAATAGGAGAGTTCTGATTTGTGCTGGGAACTGTAATCCCTCTATCATGGAGCTTCTATAGAAATGTGGGTTAGGGCAGAAAGGAAGGCTGGGGGCT
GTGTGTGCCTTGGTGACGTGTCCCCCTCGCTCCCGAGCCTTACTCTGTTCCCCTTTCTTCCTGGCAGCAGAGCCCCCTCCCTTGCTGCACTCAGGGACAT
GACTGTCAGCACTTCTACCCCCCCTCAGACTTCACTGTCAGCACTCAAGTCTTCAGGGACATGAAAAGGAGCCACTCCTTACAAAAAGTTGGGGAGCCCT
GGTGTATTGAGGTAGGTCTCGGAGCAGAATCACGGTATGAGATGAGCTAGCTCTAAAATGAAGCYGCCCACCCAAAGTTTACCTCTCTCTAGGGCAGGGC
CCATCCACTGYGATCCCTGAATTCTTGTTGGGTCACTGTCATTTTGGGTGCCATGATGTCTGGGTGTGCTGACCGCTGATAGGGATATCATAGCCATAAA
AACGCCTGTTTACAAGGAGAGGGTGGAGGGTGGTGCTCGCATGACTCCAGGATGCCTGGCTCCCAGTGAAGGCCCTCGTGATCCAGTGCCACACGTAACT
TCTGTGAAAATGAGGAGCACAACATTATCCCATTAAACTTGGCCCCAGGAAGTGTCTCTTGGGACTCTTCACAGTTCACAATGGAGGAGAAGTTACCACC
TCAACTTTGCCTTCGTTACTAGTAATTTAGAACTTAAAGATTTTCTTTTAAAATTCAGGGTGCTGGAAAATGCCCACTTTGCCTCGACAATACCTACCTG
AGGCAGCCRTGAATGGCTTTACTCGCAGATGTTGCTCTCCAAGGACAGGAAGCATTGTTAATTTCCTTTAAATAATTCAATACAGTGTCAATACCCCACA
CTGCTCAGTGCTTGGGAGTAACAGTTCTCTTCAAATTAATAGTCCTGAAGAAAAAATAACACCTAGAACATGCTTTTATCTTCAGAAAAGCAAAAGTCAA
TGCAGATGAAAAATTTTCAAGGAACTCTTAGGTTTAAACAGCAAATGATTTAGTACTARTGTTAGCTTTTAAAAAAAGAAAAGTGAATATTTATGAACCA
AATAATAAAGCCTCTGTCTTTAAAAACATTTATTGTATACCTATTGGGTGCTGTGCTATGTGTTACAGCCACAGGGACAGAAAGCAGTGCCTCCAGCAGG
CAGAGACCTGGAGTAATACATATGTACATAAGTCTTGCTGTTGGAGAGACAAAATGTGGAATAAGTCATCTTTAAAAGTTTGTTCTGGCGTAGGAAGTGA
TGAATAGCCACATAAGACAACTAGAAACTGTAAAAATACATAAAGAAAATGTAAATACCTATACTCTTATTACCTATTGATAATCTCTCTCTCTTTTTTG
AGATAGAGTCTCGCTCTGTTGCCCAGGCCAGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACTTCTGCCTCCGGTTTCAAGCGATTCGCCTGCCTCAGC
CTCCCGAGTAGCTGGACTACAGGTGCGCGCCACCAAGCCCAGCTAATTTTTTGTATTTTTAGTAAAGACAGGGTTTCACCCTGTTAGCCAGGATGGTCTC
GATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAACTGCTGGGATTACAGGCATGAACAACCATGCCTGGTCTTTTTTATTTTTTATTTTGAGA
CGGAGTCTTGCTCTGTCTTCCAGGCTGGAGTGTGTGATCTTGGCTCACTGTGACCTCCGCCTGCCAGCTTCAAGAAATTCTCCTGCCTCAGCCTCCCGAG
TAGCTGGGATTACAGGCACCTGTTACCATACCCGGCTAATTTTTGTATTTTTAATAGAGACAGGGTTTTGCCATGTTGGTCAGACTGTTCTTGAACTCCT
GACCTCAGGTGATCTGCATGACTTGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGTGTCTGGCCGATAATCTCTTAATATTTGGATACATTT
CCACATTTCTAGTCATTCATATGCACAGACCTTAAAAGCGTTTCGCAAAATTGGTATTATACCTCATACGGTTTTGCAATTTCTTTCTACTTTTAATTCT
AGGAACACTTTTTGACACTATAACATGTGCCTAATTCTCTTTAGTAACTTCATGTACTAAAGTGGAAATCCTCTGGTCCACCTATTCCCTGTTAGCCAGA
TGTGCATAAAACTGAAGATGTGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAGGCTGAGGCGGGCAGATCACGATATCAGGAGTTCA
AGACCAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGCGTGCCCGTACTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAA
TCGCTTGAACTCAGAAGGAAGACAGAGGTTTCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCTCAAAATGTTT
CTGGAGTCTTTCGGACTTTTCGCTGTCTTGCATGCTTGCCTCTGATCTTGCATGTTCTTGGGCCACGCCTATGTCTTGATTACCTGGAGCTGCTGTCTGT
GTGTTTAAGGAGCATTCCCTTTAACTGGCCTGGGTCTGATAGAGCAGGGAGGCCCCCTTTTCTCTGCATTAGCCATGGCCTGGTAGAAGATCTTTTTCAG
TAGCCTCTCACTGGTTCAGCTTTTAATAAGCATAGCTGTTCATTCTGGCTATTTATGATAAGATGATATGAATATAGCTATTCTCCCATCAGAGCCTGGC
ACATGGTAACTCATTAATCTTTGGTTGGCGGCAGGAGGTAGATAAAGGAACCAGGCACCCATTTTAAGTATGAGGAAAATGAAACAGAAAGACTGGGTTT
CTTCCTTATAACTCAAGGTCTACAGGAGCTGATTAGATCCCTGGCGCCAGTGACTGAGCATTTCTCAGCCTTGTCCTCAGAACCCAGAAGCATCTCCCAG
GGACGTGCCAAAATGCCACGTTTCCAGGATGTCATCTAAATCTGTAAACTGTGAATAGGTGAGGTACAAAGATGCCACTTATGGGCTGTGCCAACTTGGG
CAAGTTACCCGACTGATCTGTGCTTCAATTTCTCCATCAGTGATAAAGGTTCACATACAGGCTGTATGTAAAGCGGGAGCTTGATGAGAGAGCTGGTGGG
CTCAGACTGGTGCAGGCAATTGGCAAGATTCTTGAGGAATCACAACCTGATGGTGTGTCTGTGTGATGGGCCAGTCGCTGCTGGAGTAGCTCAGTTATGT
GTTCCATGTAGGTTTCCATGGAAATTCACATGTAACATTCCTAGTACCTACTTCAAGAATTTTGGTGGTGGCTGGGTGTGGTGGGTCATGCCTGTAATCC
CAGCACTTCAGAAGGCCGAGGTGGGCAGATCACGAAGTCAGGAGTTCGACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAACCAGGCGTGGT
GGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAATCTGGGGGACGGAGGTTGCAGTGAGCCAAGATAGCACCACTGCT
GTCCAGCCTGGGCAACAGAGCCAAGACTCCCTCGGCTGGGGGGGTTGGTGGGGGCAGGGTAAGAATTTTGGTGATCTCTGAAAATCCGGATCCCACAGCA
TGGGTGTGATAGAAATGGCTCTGCAGAGTGTGATGGGAACCTCTTGTGACTGGTCGTCAGAACTAAGTTTGAGTCCAACACTCACTTTTTTGGCAAGGTG
CTTCCCCGCTCCGTGATGCAATTCTTGCATCTGCAAAACAGGCGGTGGTCATGGGATATTCCCGCAGTCTGCTCCACTGGGTACCTACAGAGATCCCTTG
ACATTTAACACAGGCTTCCTGTGATCCAGGAACTACTGTACGAACTACTGTAACTACCTCCTATATTAACTTTTCCAAACCTTGATAGCAACCTTATGAG
GGAGGTGGTGTGATTATTCCCATTTTGCAATTAAGGTAACTGAGCCAGAGAGAGAGAAAGCAATATCCATAAGATCACACAGCTGAAGGGTGAGAGCTAT
AAAAATTGCTGGGAATGAAGGGCCATGGTTCTTGGCCATGGTTCTTGGCCATGGTTCAGAGCTGTGATACCAACCATCTTCCACTTGTTCAGGGAGAAGG
TGTTTGATCCTTTTCTTCACTCAGCTGCCTTAGGAGTTGGGAGGAAATTTTGTTTCAGGATACCTAAGTTCTTACAAGTCTCAACAATTGTACTTTCTGT
TCCATCTACATTTCAAATTCATTGTCCCTTCTCTTTCTTTCCATGTAATTCAGCCAGATTCGAACCCTTTAGATCCCTTCCTCTAGGGAATTAAGGTTGG
TAGACCAGCTGAGTAAATGTGACTCAGAAAGTCAATATCCACCTGGGCAGGGATGAGTCATTTCTTTCTAGTTAGCTATTCATGTACATTTTAAAGCTCG
CCACACAAAGTCATTACATTGAGGCTATTAACATGTTTAATAGTGACAATAATAGGGTGTGACCCATGGCATATAACCGCATTCAGATAAGAAGAAAGAG
TTTTCTTTTTTCTTCTTCCTGTAATTGCTCAGTCAATACCATTTTCAYGGAAATACTTGCAAACAAACTTTTAAAAAGTTCATTGTCCAAAGCCTTCCCT
GATTCCTTGTTTCCTTCCTCTTCAGGGGTTCTATAAACTTTTCCTGATCAGTGGCCGGGGATTAGCGAGATGGTGCACTCTGTCCTGATTTTGTGGTTGA
CCTACCCTTTTGCTGGTGTTGAGCCTGTTTTTATTGCATTTTTTGGGGTGTGTGTGCGCGTGCACGCGCATGTGTGTTTTTTCAGGAGGGGGCACATTAT
TGCTGCTACTTGCTTATTAACCTCTCAATCTAGAAATTTCAGGGAAGAAGAGACTTCCGCTAAATTTGCCAAGCTAGACACATAAACAGGGAGTTAGCCA
TTTTGGTGAGAGGAAATGAAACTTTTCTTGGGTTTATTAGACCACATCCTATGTGGCTTATTTTATGTCTGATTTCTAAAAAGCATGTCATCACGGTCAA
AGTTTTATTTTTGCTTGTTAGTCATTTGAAACAAATATAGATATTGCTTCATTTCCTGGGTACTGTATTTTTCRGTACGTGGTATGTATGGAAAATTTGG
GTTTACACAATGAAGTGCACTAGAAGGGAAGTATTTGCTAATTTAGAACTCTCTACATTATAACTTTGGATTAGCAAGCATTCGGCTAACTAAACATTTT
CATTTATCTCCTACCCCTGATTATATAAAGAAGCAGATGAGACAACCAAAGAAATACCCCTCCAAGACAAAGTGAATATTTTGAAATACTTCCTYTCAGT
CTTTTAAAAAATGTGATTTAAAAATCGTAGGTGGGATCATACTATACATGCACTTGTTTTCTGTTTATTTTACATCTCTCTATACTAGAAACACTTTCCT
ATATATGCCACAAAAACTGTGAAAGTACTAATGATTATCCCTCCTGTCCCTTAATATGCTTAGCTATTGCCCCAATGAACTCAGACTGTTTCCAAAGTTC
CGCTGTTGGCCGGGCACTGTGGCTCATGCCTGAAATCCCAACACTTTGAGAGGCTGAGGCAGGTGGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGG
CCAACATGGCAAAACACTGTCTCTACTAAAAAATACAAAAATTAGCTGGGTACGTGGTCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAACC
TGGGAGGCAGAGATTGCAGTAAGCTGAGATTGCACCTTTGCATTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAAAATAAAAACAAAAAACAAAA
AACCAAAAAACAAAGTTCCACTATAAATAGTGCAACTGCATCTCATGTGGCAGAGGGTGGAAGTTGCAAATAGTGAAGAGAGAGTGATTCTGGGACATTC
CATAATGCCCCCTTGATGTATGTGACCCATCATTGCTTCGCATGTATAGCCCCGGATTGTTCTGTGTGAGTGGGCCGGCAAATTCAACTCCTCCTCACCC
CCTCTCTACCCCAGTTCATGCTCACTGGGTAGGATGGGAGGTGGGACTGCCAGATTATTTTTATTTTTTCCTTTCCCACATTGTCTATCTGCCAATATTT
TTTTGTTGAAGTCTTTTAGGCTAAATGAGCGGACAAATTTTCTCTGCTGATCAACCGCCGTGGTAGCATCAGTGGGCACTGCAGTGCCTCCCTGGGAATT
TTTAATGCCTCAGTGAGGTCATATTCCCAGTGTAGAGGGAACATGACGTAGTCCCACTCTACTTATCAGATGCAGAGCTTGCTACCAGGAAAACAGACGC
GGAGAAGCYGGGATCATTTCTGGCCCCATTTCCCTCATTGTTCACCATTCCTTGGACTGCAAAGAGATGTCATTGTAAACGCTATCCTTTTCATTTTGTA
TACTAAGCAGGAAGCCCAGGCACTCTCTGTGGAGGTCTTCCAAGGAGCTCATCCATGCAGAAGATAGGAGTGTTCCTGCACCCTGCATCCTAGCCTCAGT
GAGCCCACTTGACACCCCCCAGGGTGCTGCAAGCTGTGCCCATGTCTCTCCACGTTAGTGGCTACCTCCCTTTTCCCCTTTCGTCGTGAGTCACGTATTT
TCTTTGTGTCTCGTGTGACAAAGGTCACTCGTAGAGAAGATTTGGGCCTTTGGTGTGTGACATGTCATCCCCACAGTTGATTGTTTTGGCTCCTCCCCTT
TTGTAATGCTGTGAGGTGACAGGTCAGTTTTTAATGGGCTAGTCTGCGTCAAGGGAGAGTATAAATTAGCCTTAAGACTTTGTATTCCATATAGGGTTTC
CCATATGAGAATATGCAGTTAGCACTTAGGGAGAGGGGTAGACGCTGCAGGGGTGGTTTTGACTTATCTGCCTATCAGTCAGCGTCTCTGTTGACGTACC
TGTTTCTCAGATAGCAATCCCTTTTATGACGTCAGCAAGGTAGATGTTTGGAATTTGGAAATGGAGAGGAACCATATTTCAGCCCAGACTCTGGAACTTA
ATTTACTCATTTTTATTAAGGGCAGTGATTATTAGGCAAGCAGCTAATAGCAGATCTGAGTTCTTATTCTTCCTTATAAGGCCTGTCCTATGGACCTTAT
TGGAAAGGTATTTATTGCATCAGCTGCTGCTGGTTTAGTCAGGAGCACCATCATCTTTCACCTTTTACTTCACACCCATCCAGTGTTCTCTGTCACGTCT
CTGAAAGGCCATTTCAAACCGGTTTGCATTAAGAAAAATCAGTAGTTTCTTTTTTTTTTAGTTTGGTGGAAGCGCCATAGGAGGCCAGATTTGCTTTTCC
TGGTCAATGTCTGGCCTCTTCTGTGGGGGCCAAAAATGAAAGAGGAGCAGCCACACCCTTTTAGATTCTGGCCATGTCACAGCACACTTACAGCCAGCTT
CAGAGGCCAGTGCAGCAGGGAGAAAAGCTCTTGGCTGGGAAGATCTAAATTAGAGGCCTGTTTGTGCTCAGAGTGAAAGTTTCTGTTTTGGAAAAGCCAG
CTCCCTCCAGAGGGGAGGGTGGGGATGGGAAAGCAACGAAGACACCAGAGAAAGAAGAAATAAGAGGGGGACGTGAGGAGGCATGTAGTGACTGACTGCA
GGACATGGGACCCCCCTGCTCGGCTTCTGCTCCTACCCCACCGGTCACTGGGTCAGACAAGCTTAGCCTGAGCCCCGCGTCACCATCCCTGTCCTAGTGG
TAGCCTCTTGCTGTTTAGAAAAACAGAGTTGGGGGAGATGACAGTAGCTTGCCTGTGATCTACACACAGGGCAGGTTGGGAGGGGTCCTGCACACTCTGT
CACGTAGTGCTCATCCCAGCTCCTGCCTGCTAGGTTTGTGGCAATATTTGTGGTAAGCCTTGTGGTTCGCCAGGGGCCAGGGTGACAGATGAGAAGTCCA
CTTGTTCCTGAGAAATGAGCTCCACTAGAAAGTAGGAGCAGCTTGTAACCAACCAGGGGGAAGTCCTGTGTGTAGGTTGTCACAACTCTCTCTCAGGACA
AATTTCTTTCCTCTTGCCAGTTGTAGAAGAACCCATGAGGAGGCCGGGCACGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAAGCCAAGGCRGGTGA
ATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTAAAACCCCATCTCTACTGAAAATACAAAAATTAGCCAGACATGGTGGCAGGCACCT
GTAATCCCAGCTCCTCGGGAGGCCGAGGCAGAAGAATCACCTGAACCTGGGAGGTGGAAGTTGCAGTGAGCCAAGACTGCACCACTGCAGGGTGACAGAG
TAAGACTCTTGTCTCGGAAAAAAAAAAAAAAAAAAAAAAAAAAAACAACCATGAGAAAGATATATGGAGGTGAGAGGGAAAGGTGTACCCTGGAGGGATT
TCTTATGGCATCTTTTACTGGCTTCAGAAACACAGGTCATGGCCAGACGCAGTGGCTCACACCTGTAATCCTAGCACTTTGGGAGGCTGAGGCAGGCGGA
TCGCCTGAGGTCAGGAGTCAGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTTTGCTAAAAACAGAAAAATTAGCCAGGCGTGGTAGTGCGCTTGTA
ATTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATAATGCCACTACACTCCAGCCTGGGTG
ACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAAGAAGAAGAAGAAACACATGTCGTACCTGAAGGGAAGGTAGGTCCTTTCCCTGC
CCTTCTTCCCCATTTCCTTGGTAGGGGCAGCAGTGTCTGGCACAGGCTCCTGACCCTTGTGATGTAATGATATGTTGGGGATGTTTGTTTCTTCTTGGAC
CTTTCCTGTTTGGGACAGCAAAATCTACAAGATCCAGGTCTCCGTTGGGGCTTTCCGCACTGGGATCTTCCTTGGTCAGGTCACTTGCAGCTGTTTTTCA
AATCTACACTCAATGGCATGCAATTCTGTGCCCTGATTTAACGTATGAGGGTCAAGTGTGAGACGTGGGATTTTTATTTAAAAAATTGTATTTTAGGCCG
GGCTCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGATGGATCACAAGGTCAGGAGTTCGAGACCATCCTGGCCAATGTGGTGAAA
CCCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCGGGAGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACC
TGGGAGGCAGTGGTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGCAACAAAGTGAGACTCTGTCTCAAAACAAAACAAAAAACAAAAAAA
ATGTATTTTAAAATATATTATGATCATTGACTTTTTCTTTTGGTCTCCTGTTCTACGAATTGTAATATAAATTCGTATTATTGCCACCACGTAGGACACA
GAACAGCTCCATCGCCCTGTACATGTCCTGTTGCTGCCTTTGTGTAGTCACTGGAGATGTGGGTTTTATTTTTATTATTTTCTCCATTTGATAGATAGTG
CCGACTTGATTCACTTCATCCATTCCAGGGCCAATTTTTCACTGTTGATTGTCAGGGGCTCTGCTCTGCTGTTTCTCCAGCCCTCTCCAGTGAAAGAGAT
GTAACTGCAGTGCCATAGTTGTCAGCTTGTTAGTTATTGGCAAGTCTTGGTTGGATTTTCTATTCTTCATTGTGGGCTGTCCTTGCCTGTACACCTAGCA
TGCTCTGGAACCCTTTGTGGATTTATGAGAATTCAAGAAAAAAAAATAGCCAGGGAAATATGTTATTGCTAACCATATAGGCCTCAGAGTGAAAACGGCT
TTTGGAGTATTCTGCTTTGAATTATTTATTTTAGTCTTTCTCAGATGTCAGGACAGATTTTTAAGATTTGGGCATAATGTTTAAAATGAAGATGGTATGT
CTGTAGATTTTATTGACCCAACTTGGTCCCCCCAGGCTGTCCTCATCTGCCCCACTACTTAGATGAAACCAGGAATGGCAAGAGGAGAGCATCCAAGCCG
CCTGCACCAGCCCTCAGTGCATCCCCACCCAGGCTCTGGAACGAGCTGCTACATGCACGGGAAGACCAGAGCTGCCGTCTTCCTGGCTGTTGTTCAGAGC
TTATGCTTTCTTAGGGAAAAGTACAATGTAGGGCTATGTGTGTGGTGGGGATCTTCTGTGTGTGCTTGTCCTCCCCCTGGGAAATGATGAGAGGTGACCC
CCGAGCTCCCAGCTCAGTGTCACACTCGAGTGAACAGTAGATGATGCTTCTGCCATGCGTTTTGCTGGGGAAGGTAACAGCCATCGCACACATGTAAATT
CTTGTGTAATCCAATTCCTGTCTTTGTAATTACTTGGAGACTTGCCATCGCAGCCAATTGAGAAGTGGGAGCAGTGACCCTGGGCAGAAAGCAGAAATTG
GAGAGGAGGGGAGGGGCGGGGAGGTGGCATCCAGAACACAGTTGTAGCTCTCCTGGCTTTACAGCATCTAAAATCACTTCAGGATCAGGAAAAAGCAAAA
ACATTATAACTGCCCTCCACGCAAGTACCCCAGCTTTTCTGTCCCAAGTTCCCACTCCCTCTACCTCTCTCTTAGCAGGCTGGAGGAATTCTCAGCAAGC
GTGATAGAGTCAGGTCATCCGTGACTTAGCTGAGAGGAAGGACTTTTACTGATAAGAAACTCCCATTGTCTGGCAACAGGTTTCTGTAGAGGAATGTCTT
CCAGGTGGGAGAAGAATGGCTTTCATTTTTAACAACCACACACTATAAACAAAGCATCCCGAGAGCACGGGTACCTAGCAGAAGAAGAACGAAGTAGCCA
GGAAACAAGTTGCTTTTCAGCATCCCCACTGAAATGATAGGGTACTTTAGAAAGCGGGTGGTGGCATTCTTTCCACAAGTACAGCAAGTGTCACTGTGGG
GTCTTAATTCTCTCGAATCTGCCTTTAGAAGGCAGAAGGCAGAATGATCAGCTCTGCTCTGAATGTGTTTGCCATTTGATTGACGTCGGAAACATGATGT
CACTTCTGCAAACACCCACGTGAGAAGGTGTATTTTTTTTTTTTCTTATTTGGGTGACAGATTGCATGTTAGGGCACTAAAAGATGAAAGCACTAAATAC
TTGCTTTAGAAAAACACAGTGGAAGATTCTCTCATCCTCCCCGCTGAAAATTTATGGGCTTAGAATTCCATGAACCAAAATGACTGTCTTCAGTTAAACT
TATTGCGACCCTCTGGGCATGATTAACAAATCAGGTGGAAAGGGAAGGTGGAGGAGTATACGGGATTCTTTTTTCATGTTGTGTGGAATAGGGCACTTTA
GTTGAAATTGAGGTTCAAGTTAGCAAAAAGAAATTCCATCCTTCGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCTGACGCAGG
TGGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCTCATTTCCACTAAAAATATAAAATTAGGCAGGCGTGGTGGCGTTTGC
CTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCAGGGAGGAGGAGGTTGTGGTGAGCTGAGATCGCGCCATTGCACTCCAGGCT
GAGTGACAAGAGCGAAACTCCGTCTCAAGGGGGGAAAAAATCCATCCTTCTTCAATGTGTATCTTATCCTTCTCAGTGTTTAATAGGACGTTCTACTCAA
TGGATTGGTTTCCTCCCTATAAAAAGGAGCATTTTGTTATTCCCTCTTTCAGATTTAATGATAAAGTCATAATTCCTGCAAGCCTTTTGAGGAGGATATA
TCTTATCTCATAAGATAGCTGGGCACAGTTGTTCAGGCCTATATTGTCAGGGCTTTGGGAGGCCTCAAGGATCGCTTGAAGGCAGGAGTTTGAGACCAGC
TTGGGCAACATAGCAAGACCCCATCTCTACAAAAAATTAAAAAGTTATCCAGGCATGGTGGTGCATACCTGTAGTCCCAGCTACTTGGGAGGCCGAGGCA
AGAGAATTTCTTGAGTCTAGGAGTTCGAGGCTGCAGTGAGCTCTAATTGAGCCACTGCACTCCAGCTTGGGTGGCAGAACGAAACCTTGCCTCTTGAAAA
AAGAAGAGAGGGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTTGAGGTGGGCGGATCACAAGGTCAGGAGATCGAGATCATCCT
GGCTAACACAGTGAAACTCTGTCTCTACTAAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGCCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCA
GGAGAATGGCGTGAACCCAGGACGGGGAGCTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAA
AAAAAAAAAAAAAAAAAAAGAGAGGTGTGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATTGCCTGAGCTCAGGAGTTTGA
GACCAGCCTGGGCAACATAGTGAAACCCCATCTCTACTAAAATACAAAAAATTAGCCGGGCGTGGTGGTGTACGCCTGTAGTCCCAGCTACTCGGGAGGC
AGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCGTGACTCCATCAAAAAAAAAAAAAAAAAAAAAAAAAAA
AGTGAGAAAGAATGTGGTTTTGGTACTCAGTGTCTAGGACGTCTGTTTAATGGGATGGTTAGGAGCGTGTGCTCTGTACTCTGAGCTCAAACCTTGGCTT
TGCCTCTGACCAGCTGAATGACCATGTGCAACTCACTGTTTATGCCTAAGTTTTCACATCATAAAACCAGGACATTATTTTGCCTATCTTTACTTATTAG
TAGATTTGAATGAATTACAGTATATAAGGCAAGTGACATACATGGAAACTGGCAAACATCTGTTTTTTGTTGTTGTTGTTTGTTTGTTTTTTTTTTTTTT
TGAGACAGAGTCTCGCTCTGTCGCCGAGGCTGGAGTGCATTGGTGCAATCTCTGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTC
AGCCTCCCGAGTAGCTAGGATTACACGTGCCCACCATCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTGGCCAGGGTGG
TCTTGAACTCCCGACCTCAGGTGATCTGTCTTCCTCGGCCCCTCTAAGTACTGGGATTACAGGCATGAGCACCTGGCCATATCTGTATTTTTTAATTCAC
TTCTTTGATTTGGGAGGAAAGAAACCTGAACCCTCTTCTTAGTGGGAGTGGGATAGGCTTTAATGTTAATACTATGCATCATGTATTAAAAATCCACTAT
CCTTCTGGCACTGGATTAAGCTTTTCATAAGTATTATTGTTTCACCCTTACAGCTGCCACAGAAGAGAAAAACCAATATTATTTAAAGTTTATGTATAAA
TAAGCTAGTCGCTAACATGTACTCAGCACTTACTGTATACCAGGCTCTGCCTTAAGTGGTTTTCATATATTAACTCATTTAATCTGCTCAATTTGTGGGA
ACCATTTTTTCTCATTTTATAGAGAGGAAACTGGTGCAGACTTTTTTTTTCTTTTTAATAATTTGTCCTTGGTTCCACTGAAAGTAATTGTTAGGACTGG
GATTTGAAGGCTGGGTCTTCAAATGTTGTCCAAACGAGGCTGCCCACCTCCCCATCAATGACAACCTTCTGTCCTGTAATGTGGAAGTGGGCCCAGCTGT
ATGAGAAGCTCAGAGCACACAGATGCTGTCCAGATATGCTGGCTTCTGATCCTTGCAGAGAAAAAATCTTTATTACCGGAAGTTGTGGCTTCTGAGCCTC
TCTGCAATTGGCAACATAGATTTTTGTTTTGTTTTGTTTTGTGTGTGTGGTTTTGTTTTTTAAATAATTAGAAACAGTTCTACAATTGTTACCACCCACA
GTAAAAAATTGCTTGGATCCCGCGAAGTAAGAAAGAAAAAAAAATAGGCCATTTGGTAGAATGATTAACAGGGGGCTTTAAAGAGGAAAGTCTGCTTTGG
AGGGTGAGCTTTGGATGTACAGATGCTGGGACCCTCGTGTTTTTCAAGTCCCCCATTTGCCTGCATTGAGAATCAAATGTGAATGGTGGTTGCCAGTGAT
AGGAGGGGTTACAATGCGTGAGATGGCTCTGGGAGGAAACTCACATTTTTTCGTACTTATTAATGGTATGTCTTTTGTGCGAGTGGGTGTGAGTACTGAG
AGCATCAAGTGTATATTTGCACAGTGTGTGGTCCTTGCTGCTGTGTTCCACTCCCCATGATGGTGGGCTACACTAGGAGGAGAAGCAAGCCTTAGCACAG
CTTGACAGTTTCCATTATATGGACAGAGTCACTGAGGCAGGAGCAAGCCAGGCCTTTTTCCAGGTCAAGGGAGCTGGGTCAGTGTAGCTGGGACTCTTGG
TTTCTTAGCACTGTGCTCTGACTATCAAAGCTACGCCCCCACTTTTGTGGGAATAAAATCGGTGCCCTTGCATATAAGTTGTTCGCTTCACTCCCAGCCC
CCTCCTGAGAATTAGGATGGGCCAGGATCTGAGTTCAGTGCCTTTGGTCCAGTAAGATGTGCTATTCATTGGCGATCCTTCCCCCATAGTTTCAAGACTG
TAAGTGGTCACATGGGCAAAGAGATGATTTCCTAATCCTCGTGGGAGCTTGAAGGATTTGCCTTTGTTAAAGGAGGAACATCACGCTGGAGGGGTGTCTG
TCTATGTGTCCCACTTAAACCACACTGCTTTTGACTTCTCCTCTGTGATGATTCCCAGGCAGCCTCCTCTTGCCATCCTGACTTGTTTAAATTTATGGGT
TGTTGGCAAGCAATTTTTTGATGCTATTCTTCTCATAGCCAGAGGCCAAGATCCCTTGTGGAGCAGTGCCTGAATTTAATAGATGTCATCTGGACACCAG
GGAGGGGCATTGAGAAGCACTGGGGGAAAAGTCTTAGAAGTGAGATTTTACCCCTAACGCCGTCTCCCAGCCTCTTATTTATCCTTTTCAGGGCAATGCA
GCCTGTGATTTTTTTGGTGGTACCATAGTGTCATATACCATACTCTACAATTCTAGGACAAAGGACACAGTGTCCTAATGGTCTTGCAGATGGCCTAAAA
TACATATGGTAAGCCACTTATTTAATTTGATCTCAAATATCTCAGCATTACTGAGCTCTACACCTGG


SNP Information

Context             (SEQ ID NO:55980):
TTTGTTTGTTTCATTTTGTTTTTAAAGACAGGATCTTACAGCCGGGGCCTGTAATCCTAGCACTCTGGGAGGCTGAGGCGAGTTGATCACCTGAGGTCAG
R
AGTTCGAGACACACCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACGTGCCTGTAATCCCAGCTACTG
Celera SNP ID:            hCV27432590
SNP Position Genomic:     10894
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55981):
ATGATTGTTTTAATAAATTACTGTTTTAATAAGGGAGGTGGAAGAGCTTTTTAATCACTTGCTTTTTAAAAATTTTTAATTTTATTTTAATTAATTAATT
A
GTTTATTTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCTCTGCCTCCTGGATTCACACC
Celera SNP ID:            hCV27432591
SNP Position Genomic:     7025
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:55982):
AATGATTGTTTTAATAAATTACTGTTTTAATAAGGGAGGTGGAAGAGCTTTTTAATCACTTGCTTTTTAAAAATTTTTAATTTTATTTTAATTAATTAAT
T
AGTTTATTTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCTCTGCCTCCTGGATTCACAC
Celera SNP ID:            hCV27432592
SNP Position Genomic:     7024
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:55983):
TTGGCAAGCAGAGGGTTAAATGCTGCAGGAGGACATGGGAGAGTTTTTGCTTTGAGGGTCCACTGGAGCAAGAGAAGCTTGAGAGTCTGTCTCTGAGATC
Y
CAGAACAGACATGAAGATATGGTACCGATTCCCTTGGTGCTAAAAGGAACTCCAGGGGAATTTCAGGAAACCCCTCCTTTTCTCGTCTTTATTCTCACCC
Celera SNP ID:            hCV27488342
SNP Position Genomic:     6394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:55984):
GAATGATTGTTTTAATAAATTACTGTTTTAATAAGGGAGGTGGAAGAGCTTTTTAATCACTTGCTTTTTAAAAATTTTTAATTTTATTTTAATTAATTAA
T
TAGTTTATTTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCTCTGCCTCCTGGATTCACA
Celera SNP ID:            hCV27432593
SNP Position Genomic:     7023
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:55985):
AGAATGATTGTTTTAATAAATTACTGTTTTAATAAGGGAGGTGGAAGAGCTTTTTAATCACTTGCTTTTTAAAAATTTTTAATTTTATTTTAATTAATTA
A
TTAGTTTATTTATTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCACCTCTGCCTCCTGGATTCAC
Celera SNP ID:            hCV27432594
SNP Position Genomic:     7022
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:55986):
CCACGCCATAGGCAGATTTTCATACCAGTTGCCTTTACCTCAGTAGTTTTCAGCTGGGGCAATTTTGTTCCCCAGGAGACATCTGGATACAGTGTTGGTT
G
TAACAGCTGGGCAGGGGGTACTTCTGTCATCATCTCATGGGCACAGGCCAGGGATGCTGCTAGGGCAACCCCTCACCCTCCCAAAGAATTATCAAAAACA
Celera SNP ID:            hCV11290228
SNP Position Genomic:     9786
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55987):
TACAGAACATTTCTAGACATCTGGCAAGAGCTAGTTATCATCCCTTCCTGATTTGGGGTGCTAAGACCTGTGGTCCCCTTCTTCCACCGTAATTTACATT
Y
TTCCCTGAGTCCTGCAGGAACTCAGCCAGGCAGTGGAAAGAAAACAGAAGCTCTGTGGACCTCTGCTTACTGTAAAATGGGAATAATAATTCTTATCCTG
Celera SNP ID:            hCV29347849
SNP Position Genomic:     12082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55988):
CTCAGTGAGGTCATATTCCCAGTGTAGAGGGAACATGACGTAGTCCCACTCTACTTATCAGATGCAGAGCTTGCTACCAGGAAAACAGACGCGGAGAAGC
Y
GGGATCATTTCTGGCCCCATTTCCCTCATTGTTCACCATTCCTTGGACTGCAAAGAGATGTCATTGTAAACGCTATCCTTTTCATTTTGTATACTAAGCA
Celera SNP ID:            hCV11290247
SNP Position Genomic:     30609
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55989):
TTCTAAAAAGCATGTCATCACGGTCAAAGTTTTATTTTTGCTTGTTAGTCATTTGAAACAAATATAGATATTGCTTCATTTCCTGGGTACTGTATTTTTC
R
GTACGTGGTATGTATGGAAAATTTGGGTTTACACAATGAAGTGCACTAGAAGGGAAGTATTTGCTAATTTAGAACTCTCTACATTATAACTTTGGATTAG
Celera SNP ID:            hCV1349600
SNP Position Genomic:     29374
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55990):
AATAATAGGGTGTGACCCATGGCATATAACCGCATTCAGATAAGAAGAAAGAGTTTTCTTTTTTCTTCTTCCTGTAATTGCTCAGTCAATACCATTTTCA
Y
GGAAATACTTGCAAACAAACTTTTAAAAAGTTCATTGTCCAAAGCCTTCCCTGATTCCTTGTTTCCTTCCTCTTCAGGGGTTCTATAAACTTTTCCTGAT
Celera SNP ID:            hCV1349601
SNP Position Genomic:     28848
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55991):
GGTAGGTCTCGGAGCAGAATCACGGTATGAGATGAGCTAGCTCTAAAATGAAGCCGCCCACCCAAAGTTTACCTCTCTCTAGGGCAGGGCCCATCCACTG
Y
GATCCCTGAATTCTTGTTGGGTCACTGTCATTTTGGGTGCCATGATGTCTGGGTGTGCTGACCGCTGATAGGGATATCATAGCCATAAAAACGCCTGTTT
Celera SNP ID:            hCV1349602
SNP Position Genomic:     24611
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,32|T,8)   total(C,66|T,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:55992):
AAAGGAGCCACTCCTTACAAAAAGTTGGGGAGCCCTGGTGTATTGAGGTAGGTCTCGGAGCAGAATCACGGTATGAGATGAGCTAGCTCTAAAATGAAGC
Y
GCCCACCCAAAGTTTACCTCTCTCTAGGGCAGGGCCCATCCACTGCGATCCCTGAATTCTTGTTGGGTCACTGTCATTTTGGGTGCCATGATGTCTGGGT
Celera SNP ID:            hCV1349603
SNP Position Genomic:     24565
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,6)   caucasian(C,26|T,14)   total(C,56|T,20)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55993):
TCAAAAAAAGAGAAAAGATTAAAGCTGCACAGACATGATGATGTAAAAGCTAGTAGCTTCTCAAGCTGTGAAAGGTCTGTGGTGCAGAGAATAGCTCCCT
R
TGAGCTGAATTTTGTTTGCTGTGGTGCAGCATGGGTTTAGATCCTACCTGGTTAGTGAAAGAGATAATGTGAAGTCATTGCATTTGCATTTGTCAAAATC
Celera SNP ID:            hCV1349620
SNP Position Genomic:     10659
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55994):
TTAATCCTGAACAAATTACATGAAAAAATCGTTCATGGAGTTTTTCTTCATATAAAACTTTTTACAATGAACATAAAGGGCATAGCTATTTCTTTTTTTT
W
AAAAAGAAACGTAGAATATTATTTCTTGGTTGTGAAATCGCCCTTCTTGGACCCCAAGTTGTTTTTTACAGCCCTAAATTCTCTTGTTTATAGAGCCTGT
Celera SNP ID:            hCV1349604
SNP Position Genomic:     23117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:55995):
TGTTCATTGAGCAACTAAAGAATAGACTCAGATATAGGAAAGTATTTATTTATTTATTTATTTAGAGACAGGGTCTGGCTCTGTTGTCCAGATCATAACT
M
ACTGTAACCTTGATCTCCTGGGCTGAAGCAATCTTCTCACCTTAGTCTCCCAAAGCATGCTGGGATTACAGGTATAAGCCACAGTGCCCAGCCTGAAAAG
Celera SNP ID:            hCV1349621
SNP Position Genomic:     10023
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55996):
CAACCATGGATACATTTCTTTCCCAACGCATTCTCTGAGGCACTTTGGTAACTCTGCCTCTTTGCTCTCAGCATTGTGTTAGAAAATAAAGCCAGCAGAC
W
AGGATTAAACCCTCATGTTGCTGGGTTCCTTCTAGAAACAATTGGAGGGCTAACCAAGTCACCTTTGGTGGAAGGCAGTAAGGTGAGTCATTGCTGTGGC
Celera SNP ID:            hCV1349606
SNP Position Genomic:     22355
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,6)      total(A,4|T,6) ;JBIC-allele(T,65|A,1432)   total(A,1432|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:55997):
GGTTGAGTATTTGGATTTGAATGGGATGGTTTTAATGTTGCTACTGACTACTACAGTGATCCAAATAAACTTTAAAGCTGGGGCCTCCACGCCATAGGCA
R
ATTTTCATACCAGTTGCCTTTACCTCAGTAGTTTTCAGCTGGGGCAATTTTGTTCCCCAGGAGACATCTGGATACAGTGTTGGTTGTAACAGCTGGGCAG
Celera SNP ID:            hCV1349623
SNP Position Genomic:     9700
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55998):
AAAAACCCTGACACATAAAATTAATCACCACCAGAGTTTTCTGAGGCAAAGAGGAGTAAAGCTGTTGCCTTTTTCTTCTTGCCTGTGAGGTTGGTTGAGA
K
TCTTCTAACAGCCAACAGGTGTTGGCCAATGTTACTCTGATTGACACCTTTCTTTTTTTTTATTCAGGTTTCCCTCTGTCACCCAGGCTGGAGTGCGGGG
Celera SNP ID:            hCV1349608
SNP Position Genomic:     19996
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:55999):
GATCTCGGTTGAGTATTTGGATTTGAATGGGATGGTTTTAATGTTGCTACTGACTACTACAGTGATCCAAATAAACTTTAAAGCTGGGGCCTCCACGCCA
Y
AGGCAGATTTTCATACCAGTTGCCTTTACCTCAGTAGTTTTCAGCTGGGGCAATTTTGTTCCCCAGGAGACATCTGGATACAGTGTTGGTTGTAACAGCT
Celera SNP ID:            hCV1349624
SNP Position Genomic:     9694
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56000):
TTGGGAGGCCGAGGTGGGCGGATCACTTGAGACCAGGAGTTGGATACCAGCCTGGCCAACATGGTGAAACCCGGTCTCTACCAAAAAAAATACAAACATT
W
GCCGGGAGTGGTGTTGTGCACCTGTATTCCCAGCTACTCGGGAGGCTGTCACAAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATTG
Celera SNP ID:            hCV1349609
SNP Position Genomic:     19722
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56001):
CTGGGCTATTATGATTAGCAGATTACTAAAGCTGTGTGATTTTAACAAGACGTAAACACATATGGGAACCCCTCCTTCCATATCTTGCTAATGTCAATTA
R
CAACATATTAATCTTGCTAATGTCAATCCTGTCACTTCATACATTTATAAATATTAGGGACATTTAAAAGAGTTGTCGGACTGTGCGGGACCTTGGCACA
Celera SNP ID:            hCV1349625
SNP Position Genomic:     9417
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56002):
ACATCCGGTGCTGCTGTTGACTCTGGTGTCGGCCGCTGGTGAGCTGGCTGTAGCTGGTCACCTCTGGGTGGTTTCTGGGGCGGTCGCAGGCTGACTAACA
Y
ACCAAAGGTCAGCCAGGGTGTTGAAGCTGGCACCTTTCTTCCTGGAGCACAGACGTCATCTTGGATCTTTTAGATACTTGGACTTACTTTATGCAGAACA
Celera SNP ID:            hCV1349626
SNP Position Genomic:     9052
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;JBIC-allele(T,271|C,1222)   total(C,1222|T,271)
SNP Type:                 INTRON


Context             (SEQ ID NO:56003):
GAGTTGATCACCTGAGGTCAGGAGTTCGAGACACACCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCAC
R
TGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCACTTAAACCCAGGAGGCGAAGGTTGTAGTGAGCCGAAATCACGCCACTGCACTCCAG
Celera SNP ID:            hCV27104360
SNP Position Genomic:     10973
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56004):
TCTGTCTCTGAGATCCCAGAACAGACATGAAGATATGGTACCGATTCCCTTGGTGCTAAAAGGAACTCCAGGGGAATTTCAGGAAACCCCTCCTTTTCTC
R
TCTTTATTCTCACCCCGTCCCCCCGCCACCTCTCTCCCCAAGTTCACACTCAGGAGGGAGGAATCTTTTACCTTTTCCGTTCTGGGCAGCAGCTGTAGGG
Celera SNP ID:            hCV25651168
SNP Position Genomic:     6479
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56005):
GTCCACCTCACTTCTCAAGCAGGTGTCTTTCCAGTCTACAACTCGTTGACCACAGGTGGAATTCATAAGCTCTGTTCCCTGTCCTGCTTGGGTCCTCCAG
R
GAAAGAAATGTTGAATTATCATCTTGGTGATGGTCAACTCTGAAAGCCTAAATTTTCATGATCACCAAAGTGTTTGGATTTAAAAGGGTGGCTCACTCCG
Celera SNP ID:            hCV1349628
SNP Position Genomic:     8270
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:56006):
CTTGCCTGAGATCTCAACACTTTGGGAGGCCGAGATAGGAGGATTGCCTGAGCCCAGGAGTTCAAGACCAGCCTGAGCAACATAGCAAGATTCTGCCTCC
M
CAAAAAAATAAAATAAAAATAAAAAGATTAGCTGAGTGTGGTGGCGTGCACCTGTAGTCCTAACTGTTTGGGAGGCTGAGACAGGAGGATTGCTTGAGCC
Celera SNP ID:            hCV624926
SNP Position Genomic:     23763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56007):
CTGTAGCAGCTATTGTGATAGGGTTTGAAATTCAAATTAACGCATATTTCTTGAGCACCCAAGGTGTGTGCTGCTGGATCTTTCAAGGGGTCCAGAATTG
R
TAGTATAGTTGCTTTTCTCAAAAGACTGTCGCCTGGCAGAGGAAAAGGTGTTAAGGTATGAGTGAAGACAGATCAGCCAGACATGGTGCCGCTTGCCTGA
Celera SNP ID:            hCV624927
SNP Position Genomic:     23571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56008):
CTGGGAGGTGGAGGTTGCAGTGAGCCAAGATAATGCCACTACACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAA
A
GAAGAAGAAGAAGAAACACATGTCGTACCTGAAGGGAAGGTAGGTCCTTTCCCTGCCCTTCTTCCCCATTTCCTTGGTAGGGGCAGCAGTGTCTGGCACA
Celera SNP ID:            hCV27432580
SNP Position Genomic:     33044
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56009):
GGGAATACCATATACTATGGTAACCATGTACACTGCTCTAAAGATGTGGCTGCTGTTGTATAACTTTTTCCTTTATTTTTGTCAATTTCCTATTTTCCAG
R
GTCTTGCATACCCACTATGTCTACTGTGATAGTGAACGTAAAAACATACAAGATGTTGGTGTTATCCTCAATCTCTTATTCTTAATCCTGAACAAATTAC
Celera SNP ID:            hCV27432582
SNP Position Genomic:     22935
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56010):
GAAATGAATAATTAAGAACATTAAAGAGGAAAGCAGGGGGTGGTGGGAAAGTGTGGTCTTGAGGGGGTAATAAACCTCCTACAGGCCACACACACACAAG
R
AAAAAAAAAGGGCAATAAGTGTAGCCCAGTAACATAAGGTGGGGAATAAGGTTAGGGGTAAGGTTAATTCTACAAGTTCAAAGCCAGTAGCCCCTGATGC
Celera SNP ID:            hCV8898726
SNP Position Genomic:     21978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56011):
AAATGCAGAGTGGGAGGCTCTGCTTGCCAGACGGAGACCTTAGACCTCCAGGGGTGGAGAACGGAGTACTTCCTCTGGTGCTCGGCTTCCCTTCCTGGGG
G
CAGATCTCTCAGCTTCTGGTTGGTGGCTCTCAAAATCCAGACACAAGGTCAGCTGCAGCCAGCGTGGGCCCTGGAGTAGCTCCAGTTATGGGGCAGCAAT
Celera SNP ID:            hCV27432583
SNP Position Genomic:     22661
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,6)   total(G,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56012):
GCAGAAAACTCAGCAGATGTTTATTTCCTGGTCTTTAGGATTTGTTGAAGAGTTTTTTATTTGTTTGTTTTTTAAGAAAGACTCAAAAGGAAAAAAAAAA
A
GAAACTATAGTTATTTTCTCATGATATAAAAAGATTCTGTAGTTGTATATACATTTGAACTTTTTGTAAGACATCTCCTACCCCCCTAAAATTGGAAGTC
Celera SNP ID:            hCV27432584
SNP Position Genomic:     21743
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56013):
CTGCAGCCTTGATCTTCCAGGCTTAACCAAACCTTTCACCTTGGCCTTCTGAGTAGCTACAGGCCTGCACCACCACATCTGGCTATTTTTTTTTTTTTTT
T
AATTTTTAGTAGAGACGAGGTCTTGCTATGTTGCCCAGTCTAGTCTTGAACTCTTGAGCTCAAGCAGTCCTCCAGCCTTGGCCTCTGACAGTGCTGGGAT
Celera SNP ID:            hCV27432585
SNP Position Genomic:     20213
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56014):
CTGCACTCCAGCGTAGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGACAGGATCTTGCTCTGTCACCCAGGCTGGGATATACTG
R
CTTGATCATAGCTCACTGCAACCTTTAGCTCCTGGACTCAAGCAATCCTCCAGCATCAGCCTCCTGAGCAGCTGGGACTATAGGTGTGAATTACCATGCC
Celera SNP ID:            hCV11290232
SNP Position Genomic:     11163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56015):
GTTTGCACACTTATTCAGTTATTGCATCATGAAGACCCTCTGGAGTTTGATGTTGTCAGGAAACATATTAGCAGAAAATAGTGTGTTATTATCTAATGCT
R
ATAATTGGTTAGTGGAAATGAGAAAAGAGGATATGTAATTGGGGTTCCTGTGGCTAACAAGATGTGAATTATGAAAGCATTTCCAGGAGAAATTCCAGGG
Celera SNP ID:            hCV27432586
SNP Position Genomic:     15844
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56016):
AGGACAAATTTCTTTCCTCTTGCCAGTTGTAGAAGAACCCATGAGGAGGCCGGGCACGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAAGCCAAGGC
R
GGTGAATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTAAAACCCCATCTCTACTGAAAATACAAAAATTAGCCAGACATGGTGGCAGG
Celera SNP ID:            hCV1349597
SNP Position Genomic:     32395
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56017):
GATTCACCTGCCTCGGCCTCCTGTGTAGCAGGCCCATGCCACCACGCCTGGCTTGCTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTAT
W
GTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCTAGGCTGGTGTAGAACTCCTGACCTCAAGTGATCTGCCCTCCTTGGCCTCCCAAAGTGCTGGGA
Celera SNP ID:            hCV27432587
SNP Position Genomic:     12870
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,5)   total(A,3|-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56018):
TTTGAGATAGAGTCTTGCTGTGTCGCCCAGGCTGGAGTGCAGTGGCATATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAGGCGATTCACCTGCCT
Y
GGCCTCCTGTGTAGCAGGCCCATGCCACCACGCCTGGCTTGCTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTGTATTTTTAGTAG
Celera SNP ID:            hCV11290233
SNP Position Genomic:     12783
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56019):
AGGGGTAAGGTTAATTCTACAAGTTCAAAGCCAGTAGCCCCTGATGCGCTGTTGGACGTGAACTATAAATTTGGCTCTGAGGTTCCCAGGCATGGAAGAA
Y
ATCTAGATCTGTACAGAGAGGTTGTGTGTGTGTTTAACATTTCCATAATGTACAATTTCCTCTAAGAGTAAAGGCCATGAGGAAATGCCCGTGGAAGATA
Celera SNP ID:            hCV27495375
SNP Position Genomic:     22132
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,83|T,1408)   total(C,83|T,1408) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56020):
CCTCCCGCCTCAGCCTTCCAAAGGGAGGGATTACTGGCGTGAGTCACCGCGCCTGGCCTTTATTTTTTATTTCTTTTGAGATGGAGTTTTGCTCTGTCAC
S
CAGGCTGGAGTACGGTGGTGGGATCTCGCCTCACTGCAACTTGCGCCTCCCGGGTTCAAGCGATTCTCCAGCCTCAGCCTCCTGAGTAGCTGGGATTACA
Celera SNP ID:            hCV11290218
SNP Position Genomic:     7362
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:56021):
ATCTCAAAAAAAAAAAAAAAAAAAAAAGACAGGATCTTGCTCTGTCACCCAGGCTGGGATATACTGGCTTGATCATAGCTCACTGCAACCTTTAGCTCCT
R
GACTCAAGCAATCCTCCAGCATCAGCCTCCTGAGCAGCTGGGACTATAGGTGTGAATTACCATGCCTGGCTAACTTTTTTATTTTTTGTAGAGACAGGGT
Celera SNP ID:            hCV27432588
SNP Position Genomic:     11197
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56022):
CATTTTCATTTATCTCCTACCCCTGATTATATAAAGAAGCAGATGAGACAACCAAAGAAATACCCCTCCAAGACAAAGTGAATATTTTGAAATACTTCCT
Y
TCAGTCTTTTAAAAAATGTGATTTAAAAATCGTAGGTGGGATCATACTATACATGCACTTGTTTTCTGTTTATTTTACATCTCTCTATACTAGAAACACT
Celera SNP ID:            hCV1349599
SNP Position Genomic:     29595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56023):
ACCCAGGAGGCGAAGGTTGTAGTGAGCCGAAATCACGCCACTGCACTCCAGCGTAGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAA
A
GACAGGATCTTGCTCTGTCACCCAGGCTGGGATATACTGGCTTGATCATAGCTCACTGCAACCTTTAGCTCCTGGACTCAAGCAATCCTCCAGCATCAGC
Celera SNP ID:            hCV27432589
SNP Position Genomic:     11123
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56024):
AATCTTTTACCTTTTCCGTTCTGGGCAGCAGCTGTAGGGAATGTTATCAGTGTTGGGACTGGGCACGGGACCAAGCCTTCCTGGTGCCTGGACTGCAACC
W
AGCTGAGAGCTGACATGGCAGGGCGAGTTGTGTGTGAGTTGGCTGCCCCTAGGCTCATAGGCCTAGCACAATAGAGACCCTGTCAATGGAGGGACACTAT
Celera SNP ID:            hCV52079
SNP Position Genomic:     6641
SNP Source:               Applera
Population(Allele,Count): african american(A,29|T,3)   caucasian(A,26|T,12)   total(A,55|T,15)   
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(A,34|T,4)   caucasian(A,28|T,12)   total(A,62|T,16)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,6)      total(A,6|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:56025):
CTCAGGAGGATGCCGGCTGGTTTGGAGGAAGATCAGCCTTGTATTCTGTTCAGGCCTTCAGCTGATGGGCTGAGGCCTGCTCACATCAAGGAGGACCATC
Y
GCCTTACTCAGTGAATGTTAAACTTATCTAAAAATATCCTCAGAGAAACATCCAGAATAGTGTATAACCAAATATCCGGGCACCTTGTGACTTAGTCAAA
Celera SNP ID:            hCV1349610
SNP Position Genomic:     19469
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56026):
ATGTCCTCGAAATTAGATGTGCCTTCAAAAAGACTTGATTTAATGTTAGCCAGGTCTGTTTGAACTTCATTATTACTATTATTATTTTGAGATGGAGTGT
Y
GCTCTGTTGCCCAGGCTGCGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGC
Celera SNP ID:            hCV1349612
SNP Position Genomic:     16821
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56027):
CATGAAAATCTGAATCCATATGCATTTGTCAGGGTTCTCCAGAGACATAAAACCAATAGGATGTATGTGTTTATATAGAGAGATTTGTAATAAGGAACTG
R
CTCACCCAGTCATGGAATTCCATAATCTGCATCATCAAGTGTCATGGTCTGTAGCTGGGAAGCTGGAGACCCAGGAGAGTCCATGGTGCAGCTCTAGTCT
Celera SNP ID:            hCV28015673
SNP Position Genomic:     19161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56028):
AAAGAACTTGTTTTCATTAAAGCCATTTCAATTTCGTACATTTTTATGCAATAATTTAGTGTTTATGGTGTCTCTTAACCAACATGGCTTGTTTTCATAA
R
CACCCGAGAAGGTTTAAATAACATTTTCTCATAAATTAGCCCTCGTTTGCACACTTATTCAGTTATTGCATCATGAAGACCCTCTGGAGTTTGATGTTGT
Celera SNP ID:            hCV1349613
SNP Position Genomic:     15699
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56029):
ACACCTAGAACATGCTTTTATCTTCAGAAAAGCAAAAGTCAATGCAGATGAAAAATTTTCAAGGAACTCTTAGGTTTAAACAGCAAATGATTTAGTACTA
R
TGTTAGCTTTTAAAAAAAGAAAAGTGAATATTTATGAACCAAATAATAAAGCCTCTGTCTTTAAAAACATTTATTGTATACCTATTGGGTGCTGTGCTAT
Celera SNP ID:            hCV25652151
SNP Position Genomic:     25259
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,29)   caucasian(G,40)   total(A,7|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:56030):
CAGCAGCTGTAGGGAATGTTATCAGTGTTGGGACTGGGCACGGGACCAAGCCTTCCTGGTGCCTGGACTGCAACCAAGCTGAGAGCTGACATGGCAGGGC
R
AGTTGTGTGTGAGTTGGCTGCCCCTAGGCTCATAGGCCTAGCACAATAGAGACCCTGTCAATGGAGGGACACTATCAGGCAGGTCACTATCAATGTGACA
Celera SNP ID:            hCV25984675
SNP Position Genomic:     6666
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 UTR 3


Context             (SEQ ID NO:56031):
AATAGAGACGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTTAAGTGATCCACCCATCCTGGCCTCCCAAAGTGCTGGGATTACAGG
Y
GTGAGCCAGTGCGCTGGGCCAGCCACAGCAGATTCTGACAGGTGATGCCCTTGCCAGCCTGGGGAGCCTTTTGGTTTTGGGTTTGGTTTTTAAATTTGTT
Celera SNP ID:            hCV1349614
SNP Position Genomic:     14077
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56032):
GCCTTCGTTACTAGTAATTTAGAACTTAAAGATTTTCTTTTAAAATTCAGGGTGCTGGAAAATGCCCACTTTGCCTCGACAATACCTACCTGAGGCAGCC
R
TGAATGGCTTTACTCGCAGATGTTGCTCTCCAAGGACAGGAAGCATTGTTAATTTCCTTTAAATAATTCAATACAGTGTCAATACCCCACACTGCTCAGT
Celera SNP ID:            hCV25652152
SNP Position Genomic:     25009
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Gene Number:                 307
Celera Gene:                 hCG1776285 - 145000147124751
Gene Symbol:                 THAP4
Protein Name:                THAP domain containing 4;CGI-36
Celera Genomic Axis:         GA_x5YUV32VWPT(47100079..47168689)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12467):
TCGGGAGGCTGAGGCAGGAGAATTTCTTGAACCCAGGAGGCGAAGGCTGCAGTGAGCTGAGATAGAGCCACTGCACTCCAGCCAGTTTGGGCGACAGTGA
GACTCCGTCTTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGACGGAGAGGTGCTGTACACCTTAAGAAAGAGTCCCCCTTAGAAGCAGTTCTCCCA
TTTGGTCGGCTGGATCCCAGACACTTGATTTTCCACGCCCTCTTCCCTGGGACTTCTGCGATCACAAGCAGAAGAGGGCAGATGGCATTTTAATAATATA
GTAATTCCATCAGAAAAAACATGTGACTTAGTACTACTAATCTGACAGGCAGAAATGTAGGGAATTGTACTCAATGAATTTAACCAACTTCTCTCCATTT
AGTACCAATTACACTTCATTCAACCAGAGAGGACTACAAAAAAAAAACGAGTAAATTTAAGAGCTTACTGTAAACCACTTCATTTCGAAGAAACCTTCCT
AAAACACTTAGAAGTTATTTTCCAAAAGATTTATATTTTATAAATTCAACAAAGGTTCTTCTTTTCCTTTAGAAAGCTCTTAGGTTTAAGATAACAGTTT
GCATATGATTACTACTTTTTTTTAAATCTCCAAGAGTTTACATGAGAATGCTAGTAGTTCAGTCCTGAATGAAAACAGAGAAAGAGAGAAAGGAACTCCA
AATTTAGCTACATCAGAAAGCTAGAAAACACTGTTTCAGTGCACACACTGGGCAGATTGCGCACATTAAAACCCACTCCCCTAGATCGCGCCCACCGCAC
TCCAGCCTGGGAAACAGAGCAAGACTCCGTCTCAAGAAAAAAAAAAAAACCACTCCCCAGCAGCCTCTGCATTCATTACATGTTATGCTAACATACTGGA
TTTATGTTAAACTCTACAAACTGAAAGCTTTGATAGTAGGGGAATGTGTAGGTTATTATTAATTCAAGTTCTGTTTTTTTTTTATTACCAACCACATGCC
AGACACAAGTGATGCACTAGAAATGCAAGCACAAGACACCAGCTCTGTCCTCAAGGAATGGGCAGTGTGGCTATTTAAGTGCTGGCACCTGCCAGTCGTC
TGAATGGGGAGCATGCTTTTAGGGACAGTGCTAGGGACTGGTGGAGAACACAGCCACACTGTGGTCTGCCTGCCACCTCCTGGACCTCTCCACACCCGCA
GAGGCCTTTGGCCTCTTTTCTTTCCCACCCACATTCACACCCTGGGTGACCTCATCTGATGTGACCTCCAGTCTATCTCCAGCCCAGGCTTATTCTTTTA
GCTCCAAACCTGTAGACCCAAAAGCCCACTGGACACTGCTCTACAAGGATGTCTAACATCCACCTCACATTCAACACACATAAATCCAAACTCGCAACAG
AAAGCTTCCCACCAGACAGGACCTCCCCAAGTCTTCCCCATCTGAGTTTCTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGA
GTGCAGTGGCGCAGTCTTGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGCGTAGCTGGGATCACAGGCGCCCGC
CACTATGCCCGGCTAATTTTTTGTATTTTTAGTAGCGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCCACCTA
GGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCCGCCCCCCTCCATCTGAGTTGCTTAGCTCAGGCCATACACTATGGGGCCATCTTTA
ACTCCTCCCCTCTCTACCCATCCCTCTCCCAACTTCCAATCTACAAACAAATTCTATTGTCTCAACCTCCAAAACACATGCAGAAGTCAACCTCTTACCC
ACCCTGAGCTAATCCACTGGCATCTCCTTGCTGGCTTGTTCAACAGTCTCTTAGCTGGTCTCGTTGCCTCTGCCCTTGCCCCTCTGCAGTACATTCTCAA
AAGAGATGCCAGAGCAAGCCTGTTGAACACAGTCTATCATGTGACTCCTCCTCTAGAATGAAACCTTCCAAACGGCTGCCATCCTGTTCAGAATAAACAC
TGAGTCCTCACTATGAGCTGCCATCCTGTTCAGAATAAACACCGAGTCCTCACTATGAGCTGGCAAGGCCCCACTACACTGAGCCTAAGTCACCTTTCTA
TCCTCAGCTCCTGCTTCTCCCACCGCCACCCGCTGCACCCGAGCCACACCAGGCTCTTGCTACCTGCCCTTCCTCCTACACTGCTTTAAGTCTTCGTCAA
AACTTAAACCTTCAGAGTGAGACCCTTCCTGGCCATCCTGGCTACAATTCCAATCCTCCTCATCCTTGGCCCAAATCACCATCCCCCAGGAGCCACGCAC
TTCGCTGCTAATGCTGGTCTCATGTCTAGAACGTTAGCTACCCCAGGGCAATGGTTTTCATCTATGTTGTTACTTCTCTAGTCCTAGTGTCTAGAACAAT
GCCTAACACATATCTGACAGTCAGTAACAAACAGTGTATTGAATTAATGACTATCAGAACAGAAACTGTATTACACATGGTCAAGGAAGGCAGAATCTTC
AAGAACTCTAGAGATCAAAGGAGGGCAGATCATTAATCATCTCTGAAAGGAAATACAGCATCAAGTCAGAAGGAAAATTCCCCATGATATCCTACAAACA
TCATATACGTTTTTATCAGCATAAACAGAGACCTTTAAATGCAAACACCTTTTCTACTCTGATCCCACATGCAGCAGCATCCAGTGTCCTATTAAAGTAT
CACCATGTCAACACAGTTGTCAAGGGAAAATAAAAGATAAAATAAAGTATCGCCATGTAACAACATAACTGTTCTCCCAACTTGAACATGATGATTTTCA
CATTTTAGGTCATATGATCGACACTGAACCGTGTTTTTGACCTTAGCCAAGTCTCTCATATGATACTCCAGCCTCAAGGTATCGAAATGATAGAGGCAGG
AGGCAGACAAATCCTAGGCAGAGAGGGGTGGGTCACCAGTGAAACCCAACCTTCAAGCCACAGTTTAAAGCCTGAAAGCCAAGCGACGAGTCTCGGATAA
ATCCACAGACTGGATTGCGAACCTCTCTTCCTGTTTGGTGCGCTTTCCTCTAATTAATCCCCACCCTTCACCTATTTTACATATACCTACTTTTCTCTAA
TTGGTTTATTACACTGTTGTGCCCACCTTTGAGTAGTGACTTTGTTTTAACCTTTTTTGCATACTCACAGACAAATCAGCACACACTCCCCATTCTGAGC
CTATAAAAGCCCTGGACCCAGCCACACCAAGGGAGACCACCCGACTTTGGGTGGAAGACCACCCTTGAGTCCCCTCTCTGCTGAGGGGTGTTTCATCACT
CAATAAAACTATTCTCCACCCTCCTCACCCTTCGATTGTCAGTGTTAAGTGTAGTCTCATTCTTCTTGGACGTGGGACAAGAACTAGGGACCCAATGAAT
GCAAGTACAAAGAAGGCTGTAACACTGTGGCCCTGGGCCCTCTGCCGGCAAAGGGCAGCCACCCACTGTGACACCCCACGTGACAGGAGGCAGCAAAGGG
AAGCAGCGGGGACGGAGCCAGCCCCAGAGCTATAGCCTGGAGCAGGGCAATGGGAGTAACAGGGCTGCTGACACTCTGCAACACCCCCTCTTGGGCTTCA
GGGTTGTAAGCACCCCTGCTTGGGCGCCACTACCTTCCCCTTGTCTGGACACCAGAATCCACTGTCCCTTTGTCTGGACGCTGGAGTCCGCCGTGGGAGT
TGCTTGCCACATGTCTAGCTGTAAGCTCTGCAGAGCCCACTCTGCTGCCTGCGCTTGAAACAGCTGGCGGGACCCGGCACTCACTCACCCACACACCCAC
TCCCGCCAGGGGCTGAGCATACAGTCATGGTGGCCATGGTATCCGTGCCATAGTGCAAACCAGGTGCCCACCGGTGGACCAAGTAGATGGGGTATCTCCT
GCGGCGAGCCTGGACCCAAGCAAGGCCTGGGCAGGGGCCTCGCCAGCCGGAGGTCTCTGGCTGCCAGAGTGGCTGAGAAAAATCCTGCATCACAAACAAT
AACACCTAAAAAGATATAATACAACAGTTGTAAAATAGTAAACAACAAATAGTACACAGCTGCAAATAGTTCAACCGTGAATGACGGTTATTCTAAAAGA
CAAACTTCACAAGATATACACCTGGTCAACATGCTCCTTAGGGAGTCAGGGCTCCTGTTTCCTCCAGCCACCTACCACATTTAAGTGGTGAGCTGCTACA
AATCATTTTAATAGATATTGGCAATACACATTACAGTTTTCCAACTCAGATCTTAATAAATTTATGTTGTAGCTACCAGAAAAATAAAAAGTAAAAACAA
TCCCATTCAGAATGACAGAATTAAACCAGATGAAAATCTTTCTTTACAGATGGGGGATACTTGGTAAAAGGCAAATCAGTTCCTACAAAGAATGAATGAG
CTAAAACTTCTGTGTAAAAATATTTCTAGGGCTACTGGGCTAGCGATGGGTTTGGCGCTGACTTAAAATAATCTTGCTAGCAAAAATGGAGCGGAAGCAT
GAAAGGATAGGAAAAAAACCAACACTCCCTATACACACACACACACACTCCTTCTCTTTCTCTCTCTCTTAGGACCCCAAGAAACTAAGACCCGATGATA
CAAATTCACTGTTTCTCTTTCTCGTCACGGAAAAGCAGCTTGGAGAATCTACTGGTTACTAAATTGAAGACAAAAACAAAAAAGATACGTATACTGTGAT
GAACACGTCACGTTTCTCTCCTCCAACCTACCAATAACTTCATAAAAGTTAAAGAGCTTCCATCCCTTCACGCTCAGCTGCGGAAAGGCTACGCTTTCGC
CCGCCGCTCGCGTCCCCGGCCCGGACCGCGGCCGCCCCGTTCGCCGCCGCGCCTCTCCCCGCCCGGCAGGCTCCGCCGCCCTCCACGGCCGACCTGGCGC
AAGGGCCTGTGCAGCCACAACCTCCGGAGCGCTCCGGACGGGACCGGAAAAGCAGAAGCTCCAGCGCAACCGACGGCGGGTTCCGCGGCGCAGTGCGCCG
CCGTCCCCCTCCCGCTCCCACCGCCCACCACCCACCAACACCGCCCCGCGCTCCCGCAGCGCCCGCCGCCCCGGCCCAGCCTGGCCCGCACCGGCGTGCC
CCGAGGCGAGTCGCGGCAGCCCGACCCGAGCAGGGGAGGCCAATGATAAGGCGAGCACCTCCTGCGGAAAGACCGACCCCCGGCAACTCCTCACCTGCGT
CCATCTTCCCAGTCCGGCCGCCGACTGACCCGAGCGGCGTCGCTCCGACGGGCCAGCAACGCGACGCGGCGACGGGACGCCGCGGGGGCCAATAGGTGTG
CCGGCGCAGGCGGCGAAGACGATACGGCGCGCGAGCGGAAATACGCGGGAGCCGCCATTTTGGCGTACGGCCGGGCCGACGCGAGCCCCGGGGCGCCCTG
CGGGCGGCATGGGGTCGTGTCGTGGGACGACGGCTGGTTCTGCTGTCCGACGGGACACTGTGTGCCATGGGTGGCGCTTCCTCCTCTTAGAGGACCCAGG
AGCAGTTGTCGAGGCGGCAGAGGCGAGCTCTGTCCCCGTCCGAGCAGCCATCTTGCGGTACGGACGTGCTCGGCGCGCCCATGTCGCGGTACGGACTTGC
CCCGCCGGGGCGACTCCCCCGCCCGTCTGCCCGCCTGCCGACGGACGCTGCGAGGGGCCTGCGGCGCCCCGCTGGTCCGAAGACGCCCGAACCCGCGGCT
GGCGAGGACGCGGGCGGGGGATGGGGCGGGGGCGGGCCCGCTGCGGGCGCCTGCGCCTCCATCTTGCCGTACGGCGCGGACGCCGCGGGCCGGCCCACGT
CCCGAGCCGTGTCGCCGCCGCGCTCCCTCCCTCGGGGCGGTCCGCGGGCGGGCGGGCGGCTAGGGCCGGGGCCTGGCTGCGCGGCTGGGCCAAGGCCCGC
GATGGTGATCTGCTGTGCGGTCGTGAACTGCTCCAACCGGCAGGGAAAGGGCGAGAAGCGCGCCGTCTCCTTCCACAGGTACGCGGGCCCCGGGNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGCCGGCGCCTAGCTTCAGAAAGCCG
CACGCTCTGGTAACGCAGGTCCTGGGCCGATTGTCCTGCTCGGCCGCGACTGCTGACTCTCCGGACCGCGCGGGCCGTCGGCCTGGATGTCTGCGAGCAG
GAGCGACCGGGCAGACGCGACCTGCGCCTCCGTAGCTGACAGCCCCCGAGAGGGCTTTCCGGGACTGGGCCCCCGAGCCCAGGACGCGGGTACGCGCGGA
GAGTCTACGGGACGGCCGGCTGGGGACGGCATCCTCCTGCGCTCCCTTAGAGCCTGGCCCGGGGCTCTCGGCCGCTTCCCACGTGGGCCCCCGCGGCAGG
GCCCAAACCCCTCTAAGGCCTTGTGAGTTCAGCCTATTTCAGTGAGATTTCTGCGGATTACACGCGGGAGGCACCAGAACCGCGAACAGACTTTAAAAAC
CACTTTGGAGATGTTTCTGTTTTATGTTGCATGGTGTTATTTAAGTTTTAAAGACGGGAATGGCACGTGTTATTTATAGGGTTATTGAAAGTTCACAGTA
GTTTGCTGTAAGTCTTAAATCATTACAATGTATTATAAGAATTAGTAACATTAGATTATTTCACAAGTCAGCCAGCGCACTTTCTTGACAATTTCCTTCA
GAGCTTGTGTCCTAGAAGTTTTGTTATTGTTTTTTGAAAACGAGGCAACGTGTTGCAACGGTCTAACATGGTATGGGAGGAAAGGACATCGGAATTGGGG
GTGGGGGGGTACCTTTGCAGTTGGCCTCACAGTGTTCAGAAAGGAGGTTAGAAGGTCCTGTTGCTTAGAACGGCCCAGTCCATCCTGTTAGGATTTGTCC
TGGTCCACACTGGCCTCAGGTGGAGCAAATAGCAGTTAGAACTGACCACCCTGTCCCTTATGTGCACATTAGGGCCTGGTTTTTTTTTCTTTTTTTCTCT
TTTTTTTGAGAAGGAGTCTCCCTCTGTCGCCCAGGCTGGAGTGCATTGGTGCGATCTCGGCTCACTGCAACCCCCGCTCCTGGGTTCAAGCTATTCTCCT
GCTTCAGCCTCCCAAGTAGCTGGGATTACAGGCAAGCGCCACCACGCCTGTCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTGGCCA
GGCTGGTCTCGAACTCTGGCCTCAAAGTCCTGACCTCAAGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCCCGCCCG
GCCCAGGCCTATGTTCTTAAACACAGAGTTTGCCTTAATGAAGAAATGGTTATGAAGGATCTTTATTAGGTAATAAAGAAATGACTAAACATCCTATTCA
GTATCTTCCTGCGCTGGTTGCTTTTTTCTCACCATTTTTAAATTATGGTATAATACATGTAACATGAAATTTACCATCCTAACTTTTTTTGGAGACAGAG
TCCCACTCTGTCACCCAGGCTGGAGTGCAATGGTATGACCGTAGCTCACTGCAGCCTCAGCCTCCTGGACCCAAGTGGTCCTCCCATCTCAGCCTCCAGA
GTAGCTGGGATCACAGGCATGAGCCACGGCTCCCAGCCTTTCCTACCGCTTTTTCAGTGTACAATTCATGGCAACAAATACATTCACGTTGTTGTGCAGC
TGTCACTACCATCCACCTCCAGAATTATTTTTATTTTGTAAAGCGGAATCTCTGGACTCATTAAACATTAATACCCCAGTCCTCCTCTCCCTAGGCTCTG
GGAACCCGCATTCTCCTGTCTCTATGAATTTGATTACTCTGAGTACCTCATGTGAGTGGTATCATGCAGTGTTTGTTTTTTKGCACCTGCCCTATTTCAT
TCAGTATAATGTCCTCAAGGATCATCTGAGTTGGTTGATTTTTTTTGAGGGGAGAAGACCGGGTTTCACTCTGTTCCCCAGGATGGGGAGCAGTGGTGCA
GTCTTAGCTCACTGTAACTTCGAATTTCTGGGCTCAAAGAACCCTCAAGCCTCAGGCTCCCAAGTAACTGGAACTGCAGGTGAGCACCATTGTGCCCTGT
CCCTGGGCTGGTTGACTTTTAAAAGGAGCATTTTTACTCCTGGAGGTGGGCATGCAACAGGAACACAGAACTGTAGCTCTGGAGTCTTCTGGAGGTCTCC
AGATTCTCAGCTGCTTGCGCACAGCCAGGGCTGCCTCCATGCAGTCCTGACCTCTCACGCCCTAGTGTCTGTGGATGCTGGCCCTGGTTTTGGTACCCAG
AGTCCTACCTTCCAGGCAAGTTGGGAGGGTTGGTTAGCAGTCAGCTTCTAGGAGCTATTTCCTGCTGTCCTGAGGCCATCCTGGCACTGTCTGTCAGCAT
CCTGTGTCCCCATTGGGCATTTACCACAGCCTGGGGAGCAGTTGGTTACCTTCTTTCCCATCCGCCCTACAGACTATAAGCTCTGTATGGGTAGACAACG
GGTCTTTCAGATTTCTACTCCAGTAATAACTGCAGGTAGAAGATGTTCTTTAAATCTTTTTGAAGTATTTTTTTAAGTGGATGAAGTCAATACGGCTTAG
GGTGCGTGCAAAAATACTTGTTTTGCTTTTACAGTTGATTATTTTAAGGGGAGACATTTAATTATTTCTAATTACTTTTTGTCATTTGTCCTGTAGGTTC
CCCCYAAAGGACTCAMAACGTCTAATCCAATGGTTAAAAGCTGTTCAGAGGGATAACTGGACTCCCACTAAGTATTCATTTCTCTGTAGTGAGCATTTCA
CCAAAGACAGCTTCTCCAAGAGGCTGGAGGACCAGCATCGCCTGCTGAAGCCYACGGCCGTGCCATCCATCTTCCACCTGACCGAGAAGAAGAGGGGGGC
TGGAGGCCATGGCCGCACCCGGAGAAAAGATGCCAGCAAGGCCACAGGGGGTGTGAGGGGACACTCGAGTGCCGCCACCRGCAGAGGAGCTGCAGGTTGG
TCACCGTCCTCGAGTGGAAACCCGATGGCCAAGCCRGAGTCCCGCAGGTTGAAGCAAGCTGCTCTGCAAGGTGAAGCCACACCCAGGGCGGCCCAGGAGG
CCGCCAGCCAGGAGCAGGCCCAGCAAGCTCTGGAACGGACTCCAGGAGATGGACTGGCCACCATGGTGGCAGGCAGTCAGGGAAAAGCAGAAGCGTCTGC
CACAGATGCTGGCGATGAGAGCGCCACTTCCTCCATCGAAGGGGGCGTGACAGATAAGAGTGGCATTTCTATGGATGACTTTACGCCCCCAGGATCTGGG
GCGTGCAAATTTATCGGCTCACTTCATTCGTACAGTTTCTCCTCYAAGCACACCCGAGAAAGGCCATCTGTCCCCCGAGAGCCCATTGACCGCAAGAGGC
TGAAGAAAGATGTGGAACCAAGCTGCAGTGGGAGCAGCCTGGGACCCGACAAGGGCCTGGCCCAGAGCCCTCCCAGCTCATCACTTACCGCRACACCGCA
GAAGCCTTCCCAGAGCCCCTCTGCCCCTCCTGCCGACGTCACCCCAAAGCCAGCCACGGAAGCCGTGCAGAGCGAGCACAGCGACGCCAGCCCCATGTCC
ATCAACGAGGTCATCCTGTCGGCGTCAGGGGCCTGCAAGCTCATCGACTCACTGCACTCCTACTGCTTCTCCTCCCGGCAGAACAAGAGCCAGGTGTGCT
GCCTGCGGGAGCAGGTGGAGAAGAAGAACGGCGAGCTGAAGAGCCTGCGGCAGAGGGTCAGCCGCTCCGACAGCCAGGTGCGGAAGCTACAGGAGAAGCT
GGATGAGCTGAGGAGAGTGAGCGTCCCCTATCCAAGTAGCCTGCTGTCGCCCAGCCGCGGTCAGTACCGGAGCCTCGCGTACCCATGTTCCCTTCCCGTT
AGGAGGGGTTTCTCTGCAAGGTGGCCAGYGTCCCCTGAGCATTTCTGGGAGGTGTCACAAGCTCCCTGCGCTCTCAGGAGGAAGCTCTGGTCGTAACCAT
ACCTTGTGGATGAGGGAATCCAGGTTAGAAAGCAGGCCTCACTGCACCTGGTCCCACAAGAGGCATCTGTGTGTGTAGGGATGTAGGCCGTGAAGGAGGC
AGGCAGCACGCGTCAGCCAGGAGTGCCTGAACGCCTCCGTGGAGAGTGCACAGGGAAAGATAGCTTCTGTTTCATACCTTATGCAACAGAAATTCCAGAT
GAGTTAGGAACTAGATGGAAAATAAGAGAGTAAACTCTCAGAAAAAGCAAATATCAGAAACTGTTAAAATCATGAGGAGGTTCTTTCTGTTCACGTTTTA
AGGAATATCCTTGAAGTTAAATCATCATGAACAKTAATAATTATTTTAACATCYATTCAATTAAAACATCTGTTGAGGCTGGACTCGGTGGCTCACACCT
GTAATCCCAGTACTTTGGGAGGCTAAGGTGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCACCCTGGCCAATATGGTGAAACATACAAAAACATACTA
CTAAAACATACAAAAACTAGCTGCACATGGTGGTGCACGCTTGTAATCCCAGTTATTGGGGAGGCTGGGGCAGGTGGATTGCTTGAACCTGGGAGGCAGA
GGTTGCTGTGAGCCAGGATTGCACCACTTCACTCTGGCCTGGGTGACAGAATAAGACTCTGTCTCCAAAAAAAAAAGACACACATCTATTGAAACACATT
CTCAGCCGGGCATGGTGGCACACTCCTGTAATGCCAGCTACTCAGGAGGCTGAGGCAGGAGAATAGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTG
AGATGGCATCACTGCACTACTCTTTGTCAGCCTGCGTGACAAAGAGCACAACTCTGTCTCAAAAGAGAAAAAAAAAAAAAAAGAAATACAATACATTCTC
TGTTGCAAAAATTAAAACTGCAGAAATAGACTAAGAAGTGGTAAAAAAATTATTGTTTGTCATCCACCTCCCAAGTTCTATTCCTTGTTGTTATTAAAAA
TTTGGTGTGTAAGCCAGGCACAGTAGCTCTTGCCTGTAATCTCAGCACTTCGGGAGGCCRAAGAGGGAAGGTTACTTGAGTCCAGAAGTTCAAACCAGCC
TGGGCAACATAGGGAGACCCCATCTCTATAAATAATTTAAAAATTAGCCGAGTACCATGGTGCACGCCTGTGGTCCCAACTACTTGGGAGACTGAGGCAG
AAGGATAGCTTGAGCCTGGGAGGTCGAGGCTGTAGTGAGCTGTGATTGCACCACTGTACTCCAGCCTAGGTGACAGTGAGACCCTGTCTCAAAAAACAAA
ATTTCCTGTGTAATCTTTGTATGTATATTAGCTCTATTTCTGTTTTTTCCCRTATTTTACTGTTAAGTATTTCTTAAAATTGGTTTCTAGATGTTTACAT
ATGGCGGATGGTTTCCTTTGCCTGTCGTGTACATAGGAAAACCATATTCCTACCACATTGTTGATTTCATCTGGATCAATGCTTGTCAATAAGTATATGA
TAGTGGGACAAGATTTTCAGGACCTCCTGGATCCTCAGGGTAACAGCTATTAGCACAACCGAAAACAAAGCCCATCCGACATGTTCTCCAGATGTGTCCT
GGGGAGGAACGGTGCCACTGAGTACTGCTGACCTAGATTTTCAGATCAAATCTAGATTTTCGGATTCTTGGGTTGAAATTGTATACTGTTTTTCTCTTGG
AATTTTATTTTATTTTTTGAGATGGCATCTCACTCTGTTGCCGAGGTTGGAGTGCAGTGGTGAGATCTCAGCTAACTGCAACCTCTGCCTCCCGGGTTCA
AGCAGTTCTCCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTACCTCAGCCTCCCAAGGAGCTAGGATTACAGGCCCCTATCACCACACCTGGCTAAT
TCTTATATTTTTAGTACAGATGATGTTTCACCATGTTGGCTACAGTTGTGAGCCACCACACCAGGCCTTCTCTCGGAATTTTTTTTTTTTTTTTTTGAGA
CGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCAATCTTGGCTCACCGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCTTGCCTCAGCC
TCCCGAGTAGCTGGGATCACAGGCATGCGCCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGACAGTGGTTTCTCCATGTTGGTCAGGCTGGTCTCG
AACTCCCGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAGCTTCTCTTGGAATTTTAAAGCTGTTTGTAGTTATCAGAGCTAATGCTGCTTTWGACAGC
TTCTCTCTGTTCCTCTTGGTTAAACTTCCTGAAGTTTGTCTCCATTACAGGTTTTTGCAAACAGCCAGCCCTTCGTGTCTCTGAGTTGTTGTTTATGCTG
GTTAATCCTTACATCTTTTTGCTTTGTTGGGTTTTTTCTTGTAGTTCTGGTTCCTGGCGTGTTCCTTAACCCTGCAATGGAGGCTGTGGCTCTGCTGTTC
CTTGGGCTGCGTGCCATGGATCTGCCTCTCTCTGCTTTTGTTGCTGTTCATTTCTGAGTCGTTTGTAATTCCAGCCTCGATGCCCCCTTTAACCCTGTGG
TTATTTAAAAGGGTGTTGACAGATTTTTCAGTGCACACAGATTGGGCGAGGGGAGCAAATTTTTTTGTAGTTACTTTAAAATTTGATTGCATTAAGGTCT
AATGGTAAGGACTGAAGGAGTTCTGCTTTTTGGAATCCTTTGAGACTTCACTGTGGCTAACACAGTCCCTTTTTGTGACTGTTGCAGTGTAGTGCTAGAA
GAATGTATCCTCACCACTCCTTGGTTATATTGTTCCCGCCTGAAGCTGGGCACTTGCTTACTTGTGTTAGTCAGCGGACCAGAGCGTTCCCTAGCTTCTT
GTCAGGCTCTCGGTCTGCTGATTTCCAGGAAAGGTGAGGTAGACCTCCCCTGTGGTTCTGGAGGTGCCCGTTTCTGCTTGTATGTCCAAGTTTTGCTTTC
TGCCTCAAGACCATGCTGTTTGATGCATAAGTTTTCCTGTTACCAACACAAGAAACTCCTTTTTGTCCCGTTTAACGTCTTATTTCTTCATTTCCTTATT
TTCAACCTTTTCATCTTATTTTATAGTTATATTTTTAACTCAATCCAAAAGTCTTTTTGTAGAGTAATTTAGTCATTTACAATTGTGATTACTGATAAGT
GGGAATTCGGGCCTACCTTTTTAATTTGTTAGGCTTCCTCACCGTTTTCTTATTATTCTTCTAGTGGATATGTTTCAATTTTTTCTTTTCTTTTTTTTTT
TTTAAGAGACAGGGCTTTGCTCTGTCACCCAGGCTGGAGTGTGGTGGTCCTATCACAGCTCACTGCAGCCTTGACCTCCTGGGCTCAAGCGATCCTCCCA
CCTCAGCCTCTCGAGTAGCTGGGACTACAGGCACATACCACCACATCCGGCTAATTTTTAAAATTTTTTGTAGCAATAGGGTCTTACTATGTTGCCTGGG
CTGGTCTTGAACCCTTGGCTTCAAGGGATCTTCCCGTCTCAGCCTCCCAAAGCTCTGGGTTTATAATTGTGAGCCACTGTGCCCAGCCCATCTTTCAGTT
TTAAAAACAAACACGTGAGCCCCTCTTTGTGTAACTGTTGAGAGCTGATCGGTCCTGTGTGCCACCTTCCCTAGGTGGAGGCTGTATGTCATCTTAGTTC
CGGTGCTTCTTATTCCCCCATCAAGCAACCATGATTATTAGATTGAAGTATACATTTTACTGGTTACTTTATTTACCATTGTTTGCTGTATCCAAGTTTC
CCCTCCTTTTTGGCAGTATTTAATGACTTTTTTTTTTTTTTTTTTTTTTTGAGACAATCTCAGACTGGAGTGCAGTGGCATGATCTCGTCTTACTGCGGC
CACGACCCCCTGGGCTCCAGCGATCCTCTCACCTGAGCCTCCTGAGTAGCTGGGACTACAGGCATGTGCCATCATGCCCGGCTAATTTTTTGTGTGTTTT
TTTGTTTTTTTGTTTTTTTTGTTTTTTGTTTTTTTTTTTGTAGAGATGGGGTTTTGCCATGTTGGCCAGGTAAGCCACCGCACCCAGCCATGACTTTAAA
AAAAAAAAATCCTATTCCAGTACAGTTTTGAGGGGGGCGCTGGTGACTGTTGTGGCAGTCCCAGGGTAGATGGCGATGGCTCAGACTTTAGGGAGGAAGT
GGCGGTGGTAGCAATGCTGGAGTACTGGCTGGGTTCAGGGGGTTGAGAGGCAAAAGATCAGCAGGCCAGCTACAGGGATTAGGCTTGAGCACCTGGAGGA
TGCTAAGTGGGAGAGGCTTTTGGGGAGGAGCAGGAGATGGGGGTGAGGAACGGAGTTTGAGATGCTCTTGGGTGCTGAGGCCAGAGTTTGAACAGGCAGT
CTGAGGCCAGCAGCTGGCCTCTGGGATTTGGGCATGTGAGTGTGGGGGTGGAGGGCAAAGGTGTTTGAAGCCTTGGGGGGTCGAGTGTGGTTCTAGGCTG
GGCTTCAGTGCCCGGCCCAGGAGCAGGCCTCGCTGAGAGGGGGCAGCCGAGGCGGGTCCAGGGGAAGGCTGAGGGGTTGTTCAGGAAAGAAGGGTGACTT
GCTGTGCTGGGTGCTACTCTGACCAGAATGGAGAGAAGGGGGCTGGATGTGCCCCAGGATAGTGGAGAGAAGGGGGTTGGATGTGCTCCCAGGGTCGCTG
GTTACTGGAATCTCACTGGAGAGGCTGGTGGAGCTGGGCGGAGAGGGGGCCAGTGATGAGGGGTCAGGGCCAGGTTTGGCCGTGAAGTGGAGTGAGGCAA
GTAGACAGGAGCCAGAGGGAGTGTGGCTCCAAAGAGAGTGTGTCAGTGGGGAGGGCTGTGAAGGGCCAGGCTCTGGAGAGCAAGGGACAGGTGCAGGCAC
CACCCTGCATGCCTTGTGCCCCTCCAAAGGTGAGGCCAGGCCACGGCTGGGCATGCGGTGTGGGCACAGGGGTGGCAGGAGCGAGGGTGTGGTGGGGAGA
GGACATCCTCTCCCTGGGGTTGCAGTCTGTCACGCCGGCGTCGCAGGCCCTGGGGTCTGCACTCTGTGGTTCTTGCTGTCCGTGTGGATTTGTTCTTCAG
TGACAGACTCTTTGGGTCATTCTTTAGGGATTTATGTGGAAAGCGCCGCACACTTGTCTATTCAGCTCGCTAGCCAGTGTCTGCTTTTGGGCAGGTTCCC
CAAACTGAAGGATGCGGGCCAGTGGGCTTCAGAGGTGGGTTGAAGCCACGCTCCAGAGGCAGTGCCCGGTGGCGTTCTGTGGACGTAGTGTTCTTCTCCG
CCAGCAGCGATTCCTTGAGGGTACATTGTTAGCACGTCTATGAACCACGTGTTCGCGGTCTTGCTTGCCCACTGAGTTATAAACGTTCTTGATACAGTAR
GGATACCAACGCCTGTTAAATATTATTCACCTGTTTCCTAAGTTCAGCAATTTAACACTTGCTTCAAAATCTGTTTTCTTTTTRTTCCTTTATGGATTCA
TTATCTACATATAATTCTTGAAATCTGGATTGTCAAAATCCAAGTACAAAACAAGTGAACCTTAATGTAAACTATGGACCCTATTTGTAGCAATGAATCA
GTATTGGTTCGTAACTTGAGACACACATACCCACACTAATGCAAGATGTTAATCATAGGGGAACAGGGCAGGGGGTGAGAGGGTGAAGGAATTCTCTGTA
CTACCTGCTGGATTTTTCTGTCCTAAAAACAATCTGTTAATAAATAATAAATGGAAGCTGAAGAGTTTGGAGAAGTGCAGACAAAACAGGAATGTCAGAA
GAGTGATAAATGGTGAAACTAGGGACATGTGTGTGGATTTATTACACTAATCTGTTTAATTTGTAATGTTCAAGATTTTTCACAATATAAAGTTGTTCAA
AAATCCAGATTAGCTGGGCTCAGTGACTCATGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCAGGCAGATCACTTAAGGTCAAGAGTTTGAGACCAGC
CTGGCCAACAGGGTGAAGCCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGACACGTGCCTGTAATCCCAGCTTCTCAGGAGGCTGAGGCA
GGAGGATCACTTGAACCCGGGAGGTGGAGGTTGCAGTGAGTCGAGATCACGCCACTGCACTCCATCCTGGGTGACAGAGCGAGACTCCGTCTAAAAAAAA
AAAACAAAAACTGTTAAGAAATAGCAGAAATAATAACAGTGTTTTTTTTCCTCCTTATGATGTGAGCTGTAGTACTTTGTTGTTGTTTTTTGGTTTTTGT
TTTTTTGTTTTGTTTTGTTTTTGTTTTTGTTTTGAGACGTAGTTTCGCTCTTGTTGCCCAGGCTAGAGTGCAATGGCGATATCTAGGCTCACTGCAACCT
CCGACTCCCTGGTTAAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCACCATGTCCAGCTAATTTTTGTATTTTTAGTA
GAGATGGGATTTCACCATGTTGGCCAGGCTGGTCTCGATCTCCTGACCTCATGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGC
CACCAAGCTGTAGTTTTTTTATATGTCCTTTATCAAGTTGACAGAATTCCCATTTATTCCTGTTGCTGAGAGCTGTTATCATGAATGGGATGTTGGAATG
TGTCAGATGATTTTTTTGCACCTATTAATGTGATCCTGTGATTTACGGTCAGATGATTTGCCTGTTGATGTGACGGGTTACGTTAATCAATTTTAGAGCA
CAGAGCCAGCCTTGCATACCTGGAATAGATCTCACTGGGTCATGGCAAATAATTCTTTTTATACATTTTTTTTATTCAATCGCAAATGTTTTCTTAGAGA
TTTTTGCATCTGTGTTCATGAGAGATATTTGTCTGTAGTTTTCTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTAGAGACGGAGTCTTGCTCTGTTG
CCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAAAACCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGACCA
CAGGCGCCCGCCATGACGCCCGGCTAATTTTTTGTATTTTTTAGTAGAGACGGGATTTCACTGTGTTAGCCATGGATGGTCTCGATCTCCTGACCTCGTG
ATCTGCCTGCCTCACCCTCCCAAAATGCTGGGATTACAGGCGTGATCCACACACCTGGACTCTTTTTCCTTTTTCCTTTTTTTTTTTTTTTTTGAGACAG
TGTCTCACTCTGTCACCCAGGCTGGAGTGCATAGTACAGAGGTGTGACCTCGGCTCACTGCTGCCTCAACCTCCTCGGCTCAGGTGACCCACCTGCCACA
GCCTTTCGAGTAGCTGGGACTATGGACACGTGCCGTCACACTGGCTAGTTTTTTAATATTTTTGTACAGACAGGGTCCCAGCCTGTTGCCCAGGCTGGTC
TCGAACTCCTGGGTCCAAGTGATTCTCCCAGCTTGGCCTCTGAAAGTGTTGGGACTACAGGTGTGAGCCACCACACCCGGCCTGTAGTTTTCTTGTAGTG
TGCGTGTTTTGGTATTAGGGCCCTGCTGGACACACAGAATGAGTTAGGAAGCATTTCCTCTGCTACTGTTTTCTGGTTTCATTTCTTCCTTGAATGCTTG
GTAAAATCCACCAATGAAGCTAGCAGGGCTTGGTGCTTTCTGTTTTGGAAAGCTATTAATTATTCCATTTCTTTAATAGATGCTGTGACATAATAAAAAA
ATATATTTAGTCTCTGCCCCAGAATATGGCCCAGAGCTCCTAAAACCCTTGTCGTCTCCTGAGCAAAATGGCGCTCCGACCACCTTCCGTTCTCATAGTC
GGTCTTTGCTCTGTTCGTCATACAGAGCTCCTAATCCCTTGGAATGTTCTAATAAAGTGATTCTTGGGGGGCTCCCAGATGAGGGCTGCTCACCAGAAAG
ACCAAGCCATAAACAGAAGCTAGGGGCTTTGAGCCCCACCCCCTCCATCCTGCAGGAAGAGGAATGGGGTAGAGTTAATAATTGATCATGCCTATGTAAT
TAAGCCTCCATGAAAACTTCAGAACTACAGAATTTGGAGAGCTTCCAGGTTGGTGAACACATCTGTGTGCTGGATGAGGTGATGGTGCACCCCAACTCCA
CAGGGACAGACGCCCCTTGCCCGAGACCCTTCCAGACCTCTCCCTGAGCTCTTCCTCTGACTGTTTATTTGTATCTTTTTTTTTTTTTTGAGAAAGAGTC
TCACTGTGTTGCCAGGCTGGAGTACAGTGGCGCGATCTCGGCTCATTGCAACCTCTGCCCCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTA
GCTGGGAGTACAGGCACGYGCCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGACTGTGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTG
ACCTCGTGATCTGCCCGCCTCAGCCTCCCACAGTGCTGGGATTATAGGCGTGAGCCACCACGCCTGGCTATTTGTGTCTTTTAAAATATCCTTTGTAATA
AATTGGTATTAGTAAATAAACTCTTTTTCTGGGTTCTGAGAGCCTCCTAGCAGATTATCAAACCCAGGGAAAGGGCTGTGGGAAGCCTGGATTTGTAGCC
AGGTGGGGCAGAGGCTGTGAGTAACCTGGGACCCACTACTTGCCATCGTCCTCAGATGGGGGCAGTCTTGTGGGACTGAGCCCTTAACCTGTGGGATGTG
CACGAACTCCAGTTCGTGTCAGAACTGAATTGACGTGCAGGACACCCAAATGGTATCAGAGAATTGGTCAGTGTGGGAAAAGACCTGCATGTGGCCACAG
AAGTGTCCTGAGTGTGCGTATAGAGAAAGAGATTGTTTTTTTCCATATATTCAATATAGGCCTGTTCAGATTATCTATTTCTTCTTGTGTGAGTTTTGGT
GGAGGTATCTTTCAGAGAATTGGTCCATCTCATCTATATGATTAAATTTGTGGGCATGGAAGTGTTTATGATACTGCTCTATTAAGCTTTTAATGGCCAT
GGGATTAACAGTGATTGACCCCCTCCCTTCTTTTTTTTTTAAATGATATCAATAATTTGTACCTTCTYTCTTTTTTTTTTTCCTTTTTTCTTTCTTGAGA
CAGGGTCTTGCTCTGACACCCAGGCTGAAGGGCACTGGTATGATTTTGGCTCACCGCAACCTCCGCCTCCTGAGCTGAGGTGATCCTCCCACTTAGCCTC
CTAAGTAGGTGGGACTACAGATGSGTGCCACCATGCCCTGCTAATTTTTGTATGTTTTGTAGAGACAGGGTTTTGCCATGTTGCCCAAGCTGGTCTGGAA
CTCCTGAGCTCAAGCTATCTGCCTGGCTCAGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCCACCATGCTGGCCTATCCCTTTACTTTTAATCTATGT
TTTTATATTCAAAGTGGGGTTTTTTTGTTGGTGGTTTATTTTTATTATTATTATTATTTTTGACAGAGTCTCACTGTGTCACCAGGCTGGAGTGCTGTGG
TGCAACGTTGGCTCACTGCAGCCTCCGACTCCCTGGTTCAAGTGATTCAGGAGGCCTTAGCCTCCTGAGTAGCTGGGATTACAGGCATGCACTACCACAC
CCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGGTGGTCTCGATCTCCTGACATTGTGATCCGCCCGCCTCGGCCTCCCA
AAGTGCTGGGATTACAGCCGTGAGCCACCGTGCCTGGCCTCAAAGTGGGTTTCTTATAGTCAACATATATTCAGGGCCAGGTGAGGTGGCTCACACCTGT
AATCTCAGCTTTGAGAGGCTGAGGTGTGAGGATTGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACCCCATCTCTACAAAAAAAAA
TAAGAAAATTAGCTAGGCATGGTGATGCACACCTGTAGTCCCAGCTTCACAGGAGGCTGAGGTAGGAGGATCGCTTGAGCCCCGGAGGTTGAAGCTGCAG
TGAGCCGTAATTATGCCACTGCACTCCAGCCTGGGAAACAGAACAAAACCCTATCTCAAAAAAAGAAAACTTTTTTTTTKTTTGTTTTCTGTTAGGTCAA
TTAAGAATAAGAAAAGATTTTATTTTACCTTCACTTACTTCTCTCTGATGCTCTCCCTTTTTTTACATACATTTTAGTTTCTGACGTATATCATATTCCT
TCTCCCTGAAGAACTTTTAATATTTCTCAAAGGGAAGAGGTACTGCCAGTGAATTCTCTGTTTTTATTTAAAGAAATTTTTTTGTTTGTTTTTTGTTTTG
TTTTGTTTGAGACAGAGCCTTGCTCTGTCGCCAGGCTGGGGTGCAGTGGCGTGATCATCTCAGCTCATTGCAACCTCCACCTCCCAKGCTCAAGCAATTC
TCCTGCCTCAGCCTTCTAAGTAGCTGGGATCACAGGCGCCCGCCACCAGCCCCAGTGTCGTATTTTTAGTAGAGACAGGGATTCACCACGTTGGCCAGAC
TGGTCTCGAACTCCTGACCTCAGGCGATCCACCCGCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGYGCCCGCGTAAATAAGTCTTTA
TATTGAGTTTCTTTTTCAGAGATTTAGAAAAAAATGGGAAAAAAGTAAGTTCTTTACTTCTCCTTTGCACCCGAAGAATAGTTTCACTGGATGTAGAGTT
GCACGTTTTTGGTTTGGTTTGGTTTTTTTTTTTGCTTGCGTGGTTTCTGACAAGTCTGCTGTAATTCTTATTCTTTCTGCTCTACATGTAAGGATTTTTT
TTCCTTTTGATTCTCTTAGTCTTTGGTTTTCTGCAGTTTGAGTATGACATGCCTATGTGTAGATTCTTTGGTATTTATCTTGCTTGATGTTTTCCGAGCT
TCCTGGATCTGTGGTTTGGTGTCATCGATAATTTTGGAAAACTCTGAACTATGGTTAATTCAAATACTTCTGCTCCTTTYATCTCTTTCTGGCATTCCCA
TTATGCTCATGTAACACTTTTGCCCCACAATTCTCCAATATTCTGATTTTTTTTTTCCGTTTTTTTCTCTTTGCATTTCAGTTTGGGAAGTTTCTATTGA
CATATCTTCAACTCAGTGATTCTTTCTTCAGCCATATCCATCCTATTGATGAGCCCTTAGAGATTCTTCATTTCAGTTAGCATTTTTGGTTTGCAGCAAT
TTCCTTTTTGTTCTTTTGTCCATCACTCCTCTTACATTGCCCATGTTTTCTTGCCTATCACCCACTTTTTCCRTTAGAGCCCTTAGCATATTAATTGTAC
TGATTTTATTATTATTACTATTATTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAGTCTCGGCTCACTGCAACCTCTGCTTC
CTGGGCTCAAGCAATTCTCCTACCTCAGCCTCCCGAGTAGATGGGATTACAGGCACCCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGG
GGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGAGGTGAGCCACTG
TCCCCAAACTAACCAGTAATTTTAATTTCTCCGTGTGGTAATTCTAAAATCTCTGCCGTACCTGAGTCTGGTTCTGATGCTCACTCTCTCTCTTCAGATT
TTTTTTTTTGCCTTTTAGCATGTCTCGTTATTTTTGGTTGCAAAGTAGACATGAAATATCAGATCCAGCCGTGTGCTACATGATGATGTTTTGGTCAATG
ACAGACCACATACACCATGGTAGTCCCGTAAGAATTATAATGGAGCTGAAAGAGTCCTGTCACCTAGTGACATTGTAGCCATTGTAACATCGTAGTACAA
TTTTTTTTAATCGATTTAGTGTAGCCTCTGTGCAGTATTGAGAAAGTCTACCATAGTGTACAGTCATGGTCCCAGGCCTTTGCATTCACTCACCGCCGGA
GTCACTGCCTCAGTCACCGACTCACTCACCCCTCACTCACTGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNCACGACTCACAACTCACTCACCCCTCACTCACGACTCACGCACCCCTCACTCACCGACTCACTCACCCCTCACTCACC
GACTCACTCACCCCTCACTCACCCCTCACCGACTCACTCACCCTTCACTCACCGACTCACTCACCCCTCACCCCTCACTTACCAACTTACTCACCAACTC
ACCCAGAGCAACTGCCCATGCTGCACACTCCAGTGCTGGTAAGTGCCTTATGCAGGTGAACCATTTTTTGTCTCTTATGCCATATTTTTACTGTAGGTTT
TCTATGTTTAGATGTGTTTTAGGTACACACACCCTTGGCACTGTGTTACAACTGCCTACAGTATTCAGTAACACACTGGGGTGTGTAGCCTGGGAGCACA
GGCTGTGCCATACAGCCTAGGTGCGTGGTACGCGGTAAGTGCACTCTGTGACGTTTGTACAATGATGAACTTGCCTCATGACGTGTTTGTCAACRCATCC
CCCATCAGTAAGTGCTGCTTGACTGAAAGGTGAAGTAAGTGTGCCTTGTTTGGAGGGCATCCATCCCCTTAACCTGGCTGGCACTCGGGCTGTGTTTAAT
CCTGCAGTGGCTGTAAAATTCCTCGAGTGTCCTTGTTTTGTCTCCCTGTTGTCGTGGAGTTTCTCCGAGCATGCCTTCCACAGCCTGCGCCTGGGCCCTT
TCCACTCCCACCCAGGATGTTATGCTGGAGCCTGCAGGGCTGGGAGGGGAAGCAGGCTCCAGCCTGTGACTCGATTTAAGCCCTTCAGTGGCCCGTGTCC
CTGAGCCGTGACCTTCACACGTGTCTTTCCCTTTCTCCTCCCCGCTTGGGTGAGACGGAAGACTGGTGGGGCTGGAGCAGTGAAATGCCCTTCCCAGCTG
AGATGAGGTCCTGGTGAAGTCAGCTTCGCTACAGAGCAGGCCTGGCCTTTGCCTGGAGAACGCTCTGGGCTCATTTCAAGGTGGTCACCTCCCCCTCCTC
ATCCCAGAGACATGAGGTGTTTTTTTTTTTCTTGGCTTTTCGTGGGGAGAACCTGATGGGGTTCCTGGAGGTGAAACCTATGAAAATGTAGGACCCCAGG
AGATTCTCACACCTGCCATGTTCAGCCTCCAGCATTTTGTCCAAATCAAGTTCCCACCAGTTCCTTCCCCTGTAGACTGTAGATTCTGCTCCACGTGAGC
TGATCTCACTGCTATTCTCTGTGGCAGGAGAGACATCTGTGACCTCACTTCCTTATGGATCCAAGAAAAGTTGTTGATTTTTCACTNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNGCCGATTCTAATAGTTCTTCAATTGATACTCAGATTAACGAGGGAAATCAAACATAACATTTGCAAATTATTTGTATC
CACTTTATGGCCTTTTTATATTTTATAGAAATACTTGCTGTATTTTCTCTCCATCATGATTTCTGTTTTTCCCCTGGGCATGCAACTCCTTCCGTTTCAT
GGTTGATAAGTTGAGGGCCTTGATGTCACTTTAAAACAACAGTTCCCTGCTGGTATGCCTTGTCAGTGGACCCAAACATATCACGGTGTTCCTGGACAGC
TCCTCCCCACCTTGGGACAGCTGGTGCGGGCCGCGCACCCTCAGCTTCCATGCACCCTGTTGTACTAAGCAGTAAGTGTCCCTTTCTGTGTGTGCCTTGG
CAGGAAACACCGTGTCACTAACACAAAGAGATGTGAGGGTGGGAGCTCCAGGAAGGAGCCGTCCCCAGGTCCCAGTGGGTGCATTTGCTCACTTCCTGTC
CTGGGTTCCCGGGCCGCTTGCCAGGAGACAGGACAGTCTCTGGAGCCTCCATGTCCAGGTGAAGATGAGTCTCCAGCCACCCTCTAGGAGACAGAAAAGG
ACATGCCAGGGGTGGCCAGAGGGACTGCTCTGGAGAGAGAAAGCATTTAGGATGTGCCTGKYTCTGTGGTGTTGCCTTCCTCTGCTGTAGCTGGTGGAGG
AGGCTGAGGGTAGAAGCCGCACTCGTCACTCCGCCCAGACCTCTGGCCAGTCCCTCTTTCATAAAATTCACCTAACCTCCAAAGCTCCTTCCAGCTCTGA
AATTCTGTGATSTGGGCTGTYATTGTCTTTTACTTTCTTCTGAGACGTGATCTTTCATAGTGGAACTACAATTCCCAGAATGCACCATTTAAAGTTAGCA
TTCACTTCCTGCAGAGCCATTAAGAGCCAGGTGCAAACATTTCCCGTCAATTGGCAGAAAACAACCTTGAGGAACCTTGACGAGTGTCCGGAGTTTAGAA
AACTTAGGGATGGGTAAGCCTGCTTTCAGTGTCTTGGGCCAAAACATGAAAATTTAAATTTCTTGCAGGAAATTTAAATTTTTGTTTTTGTGTTTTGGTT
GAGATTTYAATAAAAGAAAAATGAAATCAGAAAAGAAATGCCTASAAAAGCCTGTCTGGTTTATTTAAAGAGGTGGAAAGTGACAAATAGACTAGGTCCT
TTATAGTATTTTTTGTTTCATGTTTAAATTTATTTTTTTCTAATGAAGTATAATTTACAGAGAGTAAAATACACAGATATTGAGGTCACAGTTTGATGGA
TCTTAACATATATCTAGGCTCAAGTAACCTGATGTTTGGATTCTAAAATTCTCTTACTGGTCGTCCTCACCCCCACCCATGCTTCAGTGACAACAAGGAG
GGACAGTGGCTAGGCTGCTGCCACGTTCCACGCGGCCCGAAGTGGTGGAGGGTGCAGGGGGAGCGGCCCCAGGAGCAGGTTAACCTGGTGAGGTGCAGYG
TAGACAGAAGGAGGCGCCGCCGCTGCTTGTTTACTGCCTGACCTGTTGTCCCTGTCCAAATTAAACTCCATTAAGATTCAGAGCAAATAACAGCAAGCCA
GGAGGGCGACAGGAAGGGAAGTATTTCTCACAGCCATTAGTTGCTCACAGCCGTAAGCCTCCATCTAGTTGCTTAGCCGCGTGCTCCTTCCTTTCCAGTC
TGATGTTATTTTTTCTGCTCAAAAGCGTTTCTTCTGAATTTCAGAGCTATCTTAGAATTCTCTAGTTTTTTAAAAAGAAATTGCCACATAAGTGCTGCGT
CCTGTCCTGTCCCCAAGTGTGGTGTGGGCCCTGTGCCCCTGAAGCAGCAGCCGCCTGCAGGGTAGCTTCTCTCCAGGGCCCGCGGGACTTGCTTCCCTGA
CCTGGCATGCACATAGCAAAGTCCACTCAAAAGCTCACTTTTAGCCAGAATTTTTGAGGCAGCCTCTCCCTACCTGTTCTTACCAGGACACCATCCCCCT
GCTCAGGTGCCACTGCTTACCCGCTCTGTGGTGGGCCTCTCTGGTCCTGATGCCAGGGCTCGCCCTCAGCTCTCGTGCGCCTGCACCCGCCCTTCTCACT
GATGTCACGGGTCGCCTTCCAAGCTGCCAGCAATGCCAGCTGCTGGCCATCTCCAGCCCACCCATCCCTCTTATCTCACTCTCATTTCCATCTCCCTTGG
GCTAGTCGTCGAGGCAGAAAGCCCGGGCCACGTCCCTCCTACGTAAAAGGTTCTGGCCCATCCAGGCCCACTTGGGGGAATAGATGGTCCAGTTCAACTT
GACCAGACTTCAGATAAGCCCAGTTCTTCTGAGGAGCCAGCTGTGCTCACCTGTCCTTGCCAGCCCCCTGACTGAGTTCTCCCAGGCGTCTTGTGGCAGG
GGCTCTGGGCTGCTCCAGCTGCAGGACTGGGGCAGAGTGTGTCCCCATGGGCGCCCTCCTTGCTTCCAGGCCAGCCGGGCTGGGCCTGTGTCTAGAACCA
GCTCCCCAGCATCCTGAGGAACGCGAAACCTACTCAGAAACACGGCTGAGGGCGGCGAAGAGCTCTCCTGATGTGTCGGGAACCGTGGGCTTGGGGCACG
GGGATGTGCTGGGTGGCTGCCAGTGGCGTCCTCACTCCCACCTGGGAGAAGAGAGGAGTGAAGAGGAGAGGTGGGAGGTGAGAGGCACCGGGCAGGGCGC
TGTGTGTGGCTCCAGCCCTCTCTGGCCCTCTGCACCTGCCCCAAGGTATGCGACTCACAMCACAGTGGTGTCATTTGTTTTAATTTGAACAGATGTTTAG
AAATTGGGATATTTTAGCCTAAAATCAGCTTCTGGCTTTTCTCGAAATATTAGATCTGCAGTAGGTGCTGCAGCTTGGATGGCAGCAGACCCTGGGGCCA
GGAGCCAAGGCCCTGAGCTGTGAGGCCRACCTCACTCCCCACCACATCCCCTGCTCTGAGGCCACCCAGAACCCTGTGCTGCAGTAACATAGTAAACACT
CTTGGGATAAAATKCTTTTAGTTTTTTTAAGTTTTCTGCTTTTTGAAATATTAATTTGTTTGGGGAGGTTTTTCTTTATAACATTTTTATTGAGGTGTAA
TTCGCATAAGTGAAACACAAGCTCCTAGGTGTTCCCGTGGTGAGTTTTGGCAGGTGCAGGCGCTTGTGCAGCCACACCCACGTCCAGCGGTCCAGGTTCT
CCTTTGCACTCCCCTCCAAGCCCCTCCCCGTCACCGTTCAGATTCCCCACCCTCCATCCTTTCTGCCTGGTCTCGAATTTCATCTAATTGGAATCATAGA
ATATATACGTTTTTGTCTGGCTTCTTTCTTTTCGCGCAGTGTTTTCAAGGGACACCTGATTGATTTTCATTTCTAGTCTCACTGCATTGTGATCAGACAG
TAGACTTCTTTCTGCTTTCTGGAACTTACAGGCTTTCTTTGACCATTTAGAAGGCCAGTTTGCATGACTGTTCCAGAGGAACTTGAAGAAGGCATTCCTT
AGTTTTGTTTTTGTTTTTGTTTTTGTTTTTGTTTTGAGATGGAGTTTCGCTCTTGTCACCCAGGCTGGAGTGCAATGGTGCAATCTCGGCTCACCGCAAC
CTCTGCCTCCCAGTTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGATTACAGGCATGCACCACCACACCCGGCTAATTTTTTGTGTGTTTT
TAGTAGAGACGGGGTTTCATCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACTTCAGCCTCCCAAAGTGCTGGGATTACAGT
CGTGAGCCACTGCGCCCGGCGGTATTCCCTAGTTTTAAGCTACAGAGTTCAATATGTATCAGTCAGAACTACCTTATTAATTATATTATTTGGGAATTTT
GTTTTATTTGTATTCATTCAGACTTAGAGGTGAATTGCAATTTCATTTAGTTTCTTTCTCTCGACATCTTCGTGTGTCATCAGTAATTTCTGCTTTATAG
ATGTTGCTGTGCTTGGTGCATGAGTATCCCTCACGGTTACGTCTTCATTGTGCATTCTGCCCTTCATTCGGGAGAGCCATTCTTTGTCTAGTTCCATGCA
TTTTACGTGATGCTAAGATTGGGAAGCCTGCTTCCTTATTGCTTATTGCCCAGCTTTCTGGACTCTCTCTCTGAATTGCTTTATTTTAGGTGCATCTCTC
ATTTACAGCAAAAGAGGTGAGGGTCTTGCTTTGTGGTCCAATCTGAAAAGCCTTTTTTTTTTTTTTTCTCAAGGCAGGGTGTCTCTCCAGTTGCCCAGAC
TGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAGCCTCAACCTCCTGGGCGCAAGTGATTCTCCCCACCTACCCTCCCAAGTAGCGGGGGCTACAGACAC
GCACCACCATGCCTGGCTAATTTTTTTGTATTTCTGGTAGAGATGGGGTTTCACTATGTTGCCCAGGCTGGTCTCGAATTTCTGGACTCAAGCAATCCAC
CCACCTCGGTCTCTCAAAGTTATGGGATTATAGGTATGAGCCATCATGCCCGGCCTTGAAAAGCTTTTTCATATGTAAGTTCAAGCATTTTTAGTCTTGG
TTCTGTCATCTTATTTTATATTATGCTTGTTGTGTTTTACTTTTTTTTGTTTTGTTTTTGTTTTGTTTCTGAGACAGGGTCTCGCTCTGTCACCCAGGTT
GGAGTGTAGTGATGTGCTCTCGGCTCATTGCGATCTCTGCCTCCCAGGCCCAAGCGATCCTCCCASCTCAGCCTCCTGAGTAGCTGGGACGACAGGCACG
TGCCACCACGCCCAGCCAATTTTTTGTAGTTCTGGTAGAGACAGTGTTTTGCTATGTTGCCTGGGCTGGTCTCAAACTCCTGAGCTCAGGCAATCCACCC
TCCTCGGCCTCCCAAAGGGCTGGGATTACAGATATGAGCCACTGCAACCGGCCCAGTTTTTAAAATGAAATCTTCCACTGCTACTTCATTTGTAAGCCTC
TGTGGTGTCAGCTCTCAGGGACAAGACCAGTGGGGAGTTCTGCCCCTTCAAGGGTCCTATGAGTTGAGTGTCATGCCTGTACGACCAGGCATCTACCACC
TATAACCAGTTTTTTTTTGTTGTTTCTATAACCGCTTTTTTTTTTTTTTTGGCTTAGTACATTCAGTGTTTACGGAGGTTTCTTTCCGCATCATTTCCCT
ATTGTCTCCTGATGACATCCAGCTGCTGGTAATGTCCTCAGGGAGAAGACATAGAAACAAAGCTCCTTGGGTGCCAAGGGTTGAAAACTCCATTCCTGCA
CTGTCGAAAAGGTCTAGAGAGTGAGTCTCTTATGTAGTTTAATATTTTCTAATAGCTACATTAAAAAGGTAAAAAGAAACAAGTGAAATCGATTTTAATA
ATATATTTTATTTAACCCGATATTATCTAAAAATTATTTCAACAGGCAACCACCCATACTATAAGATTATTGAATTATTTGAAGACTTTTTGGACTGAGT
TTTCGGAATCTAGTTTGTAGCTCGCACTCACTGCACGTGTCAGTGAGCCAGCTCACGCGCCTGCAATCTGGAAGGATCGCTGTGGCCAGCCGTAGCATCC
TTGCCACTCACCTTCCCTCCTCATGCGCCTTCTACGTGTGACTCTAGCGTCTTCTGCCACAGAACGCAGCTGTGGAGAAACACTGACCCACGTTCTGTCT
CTGTAGATGTGTGTGTTCTGCACCTTTCACAGAAATGGAATTGCAGAATATGTGCTCTTTTGAGCCTGATTGCTTTCATATGGTGTGTTGTCAAGGGCCA
TTTGAATTGCAGCTTATATTAGTGCTTCATTTTTATGGCCAAATAACATTCCATTGTCTGGATATACTGCAGTTTGTTTACTCATTGGTTGACGGACATC
TGTGTTGTTTCCACTTTGGGGCTGTTGGGAATGGTGCTGCTGTAAACATTCATGGGCAGCGTCCTGTGGGGACAGGTGTGTCATTTCTGCTGGGWRTGCA
TGTCTCCAGGAGTGGCAGTCCTGGGCCACTGCTCCACACTTAACCTCTCAGGCACATGCCAGATGGTCTTCACTAGGCTGTGCCAGTTCACGTCCCCATC
AGCAGTGTGCCAGGCGTTCCCGTCCTTCTAACTTTGTTTCCATTTCTCTATCTTTTGTCTTTTTTTTTAACTCATTTCTGTCCTCTGTGTTCCGCTGTGT
TTCCCGGTGTTTGTTTCTCCCTGTGCTGCTTCCAATCTCCACTTCATTTGGGTGGTGGCTTGATTTTTTTTCTTTTACTTTCTCGACTTCTGCCAGGTCA
TGTTTCACCTTCTCCTCTTTCCTTGCCGTTTCTCTCCTGAGTTCTTACATGTTTAGTTAGTGGTCTTTCTTCATGGAGCAGCTTCATTCAACTACTCGGG
AGGCTGAGGCGGGAGAATCACTTGAGCCCCAGTGGTCTAGGCCGCAGTGAACCGTATTCATGCCACTGCACTCCAGCCTGGGTGACTGAGCAAGACCCTT
TCTCTTAGTTTCACCTTTGCCCCATCAACATTTTGCAGTTTGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGGCTCACTGCAACCTGTGCCT
CCGGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGTACTACAGGCACCCGCCACCACGCCCGGCTAGTTTTTTATATTTTTAGTAGAGAT
GGGATTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGATGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCAC
TGCGTCCAGCCGGCAGCACCCCTTTCTTTCGGAGTGGCGCATTACTTCTCTATGGCGGGTGGTGGGTAACCCTGCATGGAGGCCAGCCTGGGCCTTCAGC
ACCTGGGCGAACACCTGGGGTGTCCTGGGCAGACGCGTGGGGTGCCCTGGGCCTGCTGTTTGCAGGAGCTCCCTGTGGCAGAGCGGGGGCCAGAAGAGCC
TCCAGGCTTCCCAAGTCCAGGGCTCCCCACTCCGCCCCAGGCCTCTGAGCCAGGCCAGACCCTGAGGCTTCTCAGGGGCCACCCCCCCAGCTCCCAGAGG
CCCCTCCTGTCCTCCAGCGAGGCACTGACCCMCCACTTCTCACAGCATCCGTATGTGTGTTTTGGTGGCTGTGGGTTGTATCTGTGACCTATTTTCCCTC
AAAATCAAGTTCAGGGAAAAGGTTTTTTCGTTATTTTTGTTTTTTTTAATTCTTGGGAGGGAAGGTGATAATATTGTTACTTACCTGAGAGTCCCCCTCG
GAGACCCCCAGAAGCTGGTTTTAAGGGAAGAAAGAGTAAGATCCCTTTCTGTGTCTCTGTCTCTGGCCCCGTCTCTGGCCCCATCCCCGTGTCTCTCTGG
CCCTGTCTCTCTGTCTCTGTGTCTCTGTCCCCGTCCCGTCTCTCGCTGTCCCTGGCTCTGTCCGTCTTTCTTCCCCATTTAAGGAGCGCCTCCTCTCCGG
TCCCCTCTGAGGAGCGCTGGATGGAGGACAGGGCCTCCCGGAGAGGACTCCACGGTGGGTGGTGGGAGGGAAAGACCAGGGGGAGGCAGAGGCTGCCGGT
GAGAGGCGTCTGCCAAGTAGATGAGGGGCCGGGAGAAGACCCCGTGGCTGGGGAAGCAGGAGTGGGGAGGGCGGGGCCTCCGGGCCGAGGGGCGCGGTCG
CTGTGGTCTGTGGAGGGGCYGGCGAGGCTCCCGCCTCTGCTCTTGCTGGAGCTCTTGAGTGAGCCCTGTGACGCCTGCTAGGTGAGGTGGCAGCCAGTGA
GCGCGCCCCACCGCCCAGCGCCGCCCAGCCTCCGCCCTGACTCCTCTGCCGCTCCCCAAACAGGGCGCGGTGGCGTGACCCTGGCGCTGGGGGGCGAGCG
CGGCCCTCCCGGTCCCGCAGGCGCAAGAGAGGGCGGAGATGCGGCGCCTGAGGCGGGGCTGCGCWTCCGGGGCGGGGCCGGCGGAGGCTGGAGGGGGCCG
CCCGGGAGCAGAGGCAGGACTTGCGGCGCGTGCCCCTCACCCYAGCCCGGGGCTGTCCTGCCTCGTGGGGAGTGTGAAGGCCATGCCCGGCGCCGCGGCC
CTGGTGCCCCTGTTCCACTGGGACCCTGGGGGGCGCCGCCAGGCCCCTTGGCCTCTTCCTCGGGGCCCTCGGGACCCAGGGGCCGGTGGTGGCCGTGCCG
GGGACTCGGGCGTGAGGGGTGGAGATCGCGGCCCCGGTGCAGCAGCTCAGAACCTGGACTCTGGATCGCTGCTCCCCAGCGCCCGGGGTGCCGCTTCCCA
CAGGGTTCAGCTCCCATGCAGGCTGCGCTCACCAGTGGAAGTGGGTCCACCCGGTCCCAGGAGAGCCAGAGCCCCGTGGCAGTCGCTGTGGGGTGTGCTC
CGCACAGGCCAGAGAGCCGGCCCAAAAACCTGAGGTTTGCAAAGCCTCTTTCTTTCTTTTTTTTTTTTTGAGAAAACGTCTCTGTCGCCCAGGCTGGAGA
GCAGTGACACGACCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTTGTACCTCAGCCTCCCGAGTAACTGGGATTACAGGCGTGTGCCA
CCACGCCCGGCTAATTTTTGTATTTTTAATAGAGACAGCGTTTCACCACGTTGGCCACGCTGGTCTCAAACTCCTGACCTGAGGTGATCTGCCCGTCTCG
GCATCCCAAAGTGCTGGGATTACAGGTTCAGTGAGCCATTGCGCCCGGCCCAAAGCCTCTTTCTTTTCRGTGCTGAGCTGGATAAAGTCTACCAAACTGA
AAGGTCTCCAAGGCTATAGCTGGCTGTCTGAGAAATTATGGTGTTTGTTTAGCCCATCTTAGGACTTGGGCTATCCCAGGTGACTGAGTTTTGCTGTTTC
ACACCTCCCAAGGTTCTTCTCATTCTTCCTTTTCTCCATTAATGGTAACTTGTCTTCTCAATTGCTCAGGCCAGAAACCTCCGTTACCATCTTTTCTTAC
GTGTTTCACATCCAAACCATCAGCACATCCGGGTGGCTCTGCCTTCAAGATAGATCCAGAAGCTAGGTCCTTTCCACTGCCTCCACCACGGCCACCTGGC
CCAGGCCACCCTCCTCTGCCACAAGGGTTTTTGCCATTGCCCTCCCTGGCTTCCTGTGGTTGCAGTCAGAGACCTCGTCCCTCCCACTCAGCCTTCTCGA
GGGCTTCTGTCTGCTCAGAGTCAAGGTCACGGCCCTTCCGAGGGGTGAGGATCTCCTTCCCCTGGCCACACTGGCCTCCTGTTCCTCTCCAGCAAGACCA
GGCCTACGTACCCAGGACCTCCGTCTCTGGCACTTCCACCTGGTCTGCTCTTCTCCAGGGTAGCTGCAGGGACCCTGATCCCCTGCCTGGTCTGTGCACA
CTTCTCAGGGAGGGTGTCCTTGTCCCTTTTGGGTAGGTTTTCACAGTGCCCCAACAGCCCTGTCTCCCTTTCTGCCTCATCTCCTAATGTACATTCAGTT
CTGCATCATTCACTCATTTCTTGTGTATTGTCTGCCCTCGCTAGGATGTATGCTCCGTAGGGATGTATGACTGTTCCGTCAGCTTCTCCCTGGAAGAGTG
TCCAGCACGTTGAATGATGAAAGAATTGATCAGCTATGATAGATCACAAGCCTCGTTCCAGAGGCCACACATTGGATTCAGAAGCTTCTATTCCTTATCT
CCGTGAAAGATTGCAACGAAAATCTTGATTTAAAAATTCTCTTATTGTCTAATTAGGAAAGTTTTATTGAAGTCCAAATATTCCCATCCTCACCTTCCCA
CTTTTCACCGGGAGTCTGAGGAGGAAATACTGATATAAAAAATTTTTAAATCATCATTTAAGAAAAACAAAAAAGGAAATACTGAAAGACCACAGGCCAG
TCTGGAAAAGGAGCGGACTCTCCCACTCTCCTGCTTCAGGTCACCTATGTTTGCCCTGTGCAGCCAGCAGGCAGAGTGCTCATTACCTGCTCTCCACCCT
CGGTTCTCACTCTGGGCCCCAGGGCTCGGCCACTGGGCCAGGCCACATGTGCGGCCCTCCTTGGTTCCAAGCTGTTCTTGGACGTGGTCTCCTCCACCCC
CAGAGCCTTTGCTTTCCTTTCCCCMGATCTTCTTTTCCCAGACTTCCTGGAATTTATAATCCAAAGGTTGTGTAATTTCAGAAGCTGCGATGGTTCCAAG
AACTCCTGTCCCCGTCAGTCCGTCTTCTGCTTGCGCGGGCCTGGAGGAGACACTGGGGGTCAGTCCTGATCCCGTCCCCATCAGTCTGTCTKCTGCTTTT
GCGGGCCTGGAGGAGACGCCGGGGGTCAGTCCTGATCCTGTCCCCGTCAGCYGTCTTCTGCTTGYGCGGGCCTGGAGGAGACACTGGGGGTCAGTCCAAT
CCTGTCCCCATCAGTCCGTCTTCTGCTTGCGCGGGCCTGGAGGAGACACTGGGCATCAGTCCGATCCTGTCCCCGTCAGTCCGTCTTCTGCTTGCGCGGG
CCTGGAGGAGACACTGGGGGTCAGTCCTGATCCCGTCCCCGTCAGTCCGTCTTCTGCTTGCGTGGGCCTGGAGGAGACGCCGGGGGTCAGTCCTGATGTG
CAGGCCGGTCTCTGTGCTTGGGCATCTTTGGGCTCCGTAGATGAGGCTTGTGCGGCCACAGAGCTGCTTCTGTCCCTGCTGCTGCTCCTGGGTGTCAGTG
TCCGTTCTGTCAATTGAAGCACTGAGACTTGAGGGTTAAGCAGGCCTGGGAAGCAGGTCTTTGGGATTGCCTCTGGGGATCAGTCCTTCTCTTCCAGCGC
CCCTGATGGGTAGCATGCAGTGGGGCTTTCCTGTGGTCCCCGCACAGGTCTCCCTTAGAAAATGAGTAAGAGCAGGGCCCGTGCATCCAGCCAGGGTGAG
GGTCATGTGAGTGAATCCTGAAAAGCCGCTCGGGAGCACCCAGTCCTTGCTGAGCGAGGCAGGAAGCAGGGGTCCCTTTGAGTTCGCCCAGCAGAACAGC
CAACCCAGCGGCCCCTCCCTGCTGTCCTGTCACTGCACCCCCACCTCTGAGTTCCAGGCCTGTGGTGTCATCCTTCACACTTAGTGGGATGAGAGACTGA
ACCCCACAGGAGACCTTCTAAAGGGGTCTCCTGGCCACTACACAGGCTGCTGTGAAGCCCCAGCCCCTCCTCAGGGAAGCGGGGTCTTACTTCCCTTTTA
AACCCCGCCTGCCCCTGGGCCCTCACACTCTGGCTGCTCCGAGACCCTGCATCCCCTTTCATTTTCTCCCTGATGCTCTTTGTCTCCTTCACACACTCTT
CACRCCAGGGCACCGTGCCTCCCGTGTGAGCTGCTTTCAGCCTTGCTGTAGGACATGKAGGACCCCTGAGCTATTTGGGGTCACAAGGAAGCTGTTAGTA
TGTGGTTCTCATATTCTTAACTGTACAAGAAAGCAAAAGCCCCTTGAGGTCCCTCAGTATCCCTTCCCACCACCTGCACCCCACAGGTGGAGAAATTGCC
TGCTTTTAGGGAGATAGCAGTGTAGGCCTCTTTGCTTGCGCCCTGCCTGGCCCCTGTTGGATCTCTTTTCTCTGCAGGAACTGCAGAGGCTTCTGAAGCT
GGATCTTTCACTATGACATTTACAGTTGCTTGACCATTTTCTCCCGCTCTTGACAGGTCCCCCAGGATTAGCTGTGGCCACCAGAAGCAAGCGTCGATAT
GGAACGTGCATTCTGCTTAAAGCTCAGCAAGGCATGGTTGGAGGGAGGCCACTGATAGTCTCATTCTTTTGTCCTCAGAGCCCCCCAAGATGAACCCAGT
GGTGGAGCCACTGTCCTGGATGCTGGGCACCTGGCTGTCGGACCCACCTGGAGCCGGGACCTACCCCACACTGCAGCCCTTCCAGWACCTGGAGGAGGTT
CACATCTCCCACGTGGGCCAGCCCATGCTGAACTTCTCGTAAGTTGTCTCCCTCCACCCCACCCTGCTTGACTCATGGGCCGCCTAGGTCTCTGAAAATA
ATTCCAGACTGATCAAAGACAAAGGCCAAGCAGGAAGGTGTAAAAGGAACTTGTCCATCTATTTCAGAAAGGTGTCCTCTTGCCTGAATGTGCAACTGAG
ACACAGAGTGGTAAAAATGATACTTTCTGGTTCTGTTATATTTTTGGAGATATTAAGCTGACCACCAAATTACAGGCTTGTTAATCCAAACATAAAAACA
AATGCATGTACTTAATTTATGTATCAAAATTAATCACCCTGGCCAGTGCGGTAGCTCATACCTGTAATCCCAGCACTTTAGAGGCTGAGTCAGGAGGATT
GCTTGAGCTTAGGAATTGAAGACCAGCCTGGGCAACATAGTGAGACCTTGTCTCTACTGAAAAGTATTTAGCCAGGTGTGGTGACACATGCCTGTAGTCC
CAGCTACTCGAGAAACTGAGGTGGGAGGATTGCTTGAACCCAGGGAGGGCCAAGGCTACAGTGAGCTGTGATCATAACACTGTACTCCAGCCTGGGTGAC
AGAGTGAGAACCTGTCTCAAAAAAAAAAAGAAAAAAATTAGTCACCCAATATTACTGAAAATAATAGTGCATGTTTGTATTTTACACGTACCCCTGAGCT
ATTTGGGGTCACAAGGAAGCTGTTAGTATGTGGTTCTCATATTCTTACCGTACAAGAAAGCAAAAGCCCCTTGAGGTCCCTCAGTATCCCTTCCCACCAC
CTGCWCCCCACAGGTGGAGAAATTGCCTGCTTTTAGGGAGAYAGCAGTGTAGGCCTCTGAAGTAGAGGAGAGCCACCAGGGATGGGGAGTGGTTGAAGTA
TCTTTATTTTTTAATTATAGAAGTAATACACAGTTTTTTTAAAGTTTAAACAAAATATAAAAAGCAAACCCTCCCTTAGTCTCCATTACACAACTATATG
TTAAGAATCTTATTAAACCAACTTGGTACTATTTGTATAATGCCTAGCAGTTTCAGAACGGGGCTGGGCACCTGGCTCTCAGACCCCCAGCTCTGAGACC
CTCCATCCCCTTTTAGAAGATCTCATTGTTTTTAAAAATATCTCCTACCTTTTTATATTATTATTGATTGAATGCATGAGGTCAAAGTAATACATCTGCA
CATAAACCAAAAGGTGAGAATTCTGGGTAATACAAAATAACCCAGAACCCAAGCAGTCTTTTTTAAACTATAGATTATAACCCACGAAAAGGTCAGAAAG
TCAATTTTGTGACTAGCATTCGAAGAAAAATGAACCAGAGTGGAAAATATATTTCAGTAAATGTGATGGTATGTGTGTTTGTGTGTGTGTCCTAGAATAT
GGTATAAATGTATTTCTTTGTCGGGGTTATGTTAGTGAGCATGTACCATTCTAGAAGGTGTAGCACCATCACTAGCCCAACAGAAATTTATCTTGGCCCA
GCGCGGTGGCTCGTGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACTTGAGTCCAGGAGTCCAAGACCAGCCTGGGCAACACAGTGAG
ACCCTAAAAAAATTTGTTTTAATAAATAAATAAGTTTATCTTGGCCAGGTGCGGTGGCTGACGCCTGTAATCCCAGCACTTTGGGAGGTCAAGGCAGGTG
GATCACTAGAAGTCAAGAGTTCGAGACCAGCCTGGCCAATGTGGTGAAATTGTGTCTCTACTAAAAAAAAATACAAAAATACAAAAATTAGCCGGGTGTG
TGGCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGAGAGGCTGAGGTGGGCAGATCACCTGAGGTTGGGAGTTCAAGATCAGCCTGACCAACA
TGGAGAAACCTGGTCTCTACTAAAATTACAAAATTAGCCGGGCATGGTGGCGCATGCCTGTAATCCCAGCTACTCGGTAAGGCTGAGGCAGGAGAATCGC
TTGAACTCAGGAGGCGGAGGTTGCAGTGAGCCAAGATAGCGCCATTGCACTCCAGCCTGGGCAACAAGAGAGAAACTCTGTCTCAAAAAATAAATAAATA
AATAAATAAATAAATTAGCCGGGTGTGGTGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATCATTTCAACCCAGGAAGCGGAGGTTT
CACTGAGCTGAGACCGCGACGAGCCTGGGTGACAGAGCAAAAAAATAAATAAATAAAGTTTATCTCTAAGAATCATAGAGATGGATTCCCTATAGAAACT
CATAAGGTTGGTGAAATGATAAATGAGGCTTTTTTTTTTTTGGTTTGGTTTTTTTGTTTTTATTTTTGTAGAAACAGGGTCTGTGTTGCCCAGCCCTGTC
TCAAATTCCTAGGCTCAAGAGATCTACCCGACTGGGCCCCTGAAGTGCTGGGATTACGGCCTTGAGTCACCATGCCAGCGAGTTAGTTTTTAAGCCGTGG
TTTTGTGCCCTCAGTTCAAGATGCAGGTGCCTGTCTTTTACTGTTGAGAATTTGCACTAATGATGAAGGGTGATAAGAAACCATACCATAACTCAGCACC
TGTTCTGTTTTTTACCGTAGGAATTGATTAGATTCTTACACAAGAGCATAGCTCAAAAGAGAAAGATTGTGTTAGGGTGAGGTTTACTGCAAGGGAGTGC
TGAGGGCTGACACTGTGTGAGGCCTGGGCTAACGGGCCCAGGGCAAGGATATGCCCTGAGGTGATTAAGAACAGTGCTGTCTTCAGGAGCTGAGGGTCAG
CAGGCAAGACAGACACAGCCAAAATGAGCAAGGTGGTGGAGGGGGCGGGCAGGTGTGTGGGCGTGGCTGGAACAGCCCGTCTTCAGGAGTGGAGGGTCAG
CAGGTAAGACAGACACAGCCAAAATGAGCAAGGTGGTGGTAGGGGCAGACAGGTGTGCGGGTGTGGCTGGAGCAGCCACCTGGAGGGCACCCTGGACAGT
TCTGGCATCCACGCAGCCCACGCCATCTTGGAGGCCAGTGCCTGGGCTTCTCAACTCCAACTTCCCGTCCAGGTTCAACTCCTTCCACCCGGACACGCGC
AAGCCGATGCACAGAGAGTGTGGCTTCATTCGCCTCAAGCCCGACACCAACAAGGTGGCCTTTGTCAGCGCCCAGAACACAGGTGAGGCCCAGCTTGCGG
GGCGGGAGGGCTGGCCATGGGAGGCTGCTGCCTGCATTCGAAGCAGGGGTGCAGGGATGCCCATGTGCRACCCTGCTGAGGCATGTGCTGGTGGGGACCG
TGGGGATGGCCCTGAGTGTTGAGAGTGGTCCTGGGAGCCTGCGGGGCCGACTGTGTAGCTGTAGGGGCCTCCGGCACACAGGTTGTGTGCGTGCAGCCCC
CTGACCATGAGGGCCCGTTTACCCAGTGCCACGTCTGCAGAAATGGCCATCAGCTGTGTGCATTCATTAGGAATTGCTGGAAAACAGGTTGGGCACAGTG
GCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGTGGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATACTGAAATCCCGTC
TCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCATGCCTGTAATCCCAAGCCACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGG
CAGAGGTTGCGGTGAGCCAAGAATGCGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGATTCTGTCTCAAAAAAAAAAGAAAAAAAAAAAAACCAGCCT
GCGTGACTCTAGATCAGTGTTTCTTCCTGGACGTCCATTCCCACCTGCGACTTCTGCCACTGTATGTGCTAGGGGTGGTTCTGCCAGGCTGATTGGTGGG
TGGAGGTGGGAGGGCTGGGGCCCAGTCTGGAGAGGGTGGCCTTCCATAGAGCACCTGCCTGTTCTGTGAGGAGAGTTGTGGCTTTCCCTCCGTATCCACA
GGGTGAAGTGGGGAGGAGGAGAAATATCGTTGCTTCCACAGCTGCAGAGTTGGGGCCTCCTGTGGAGTCCCGGCTTGCAGGCAAGGAGAGTCAAGGCTGC
CTCTCTGCAAGCCGAGCAGCTGCTGGGTGAGCTGACTGCCCTTCCCTTGCAGGCGTGGTGGAAGTGGAGGAGGGCGAGGTGAACGGGCAGGAGCTGTGCA
TCGCATCCCACTCCATCGCCAGGATCTCCTTCGCCAAGGAGCCCCACGTAGAGCAGGTGAGCCCAGCCCTGCTCCCAGCACGCTCCTGTCTTCTGTTTGC
AGCGGTCTGTGGAGTCAGCCTCTTCCTCTTCCGTGAGGTAGTGCGTGTCTTGCCACTGTGTCTCACAGGCCTGTCTTCACTGTCTCCTTCTTTTCCCTTC
TCGGACCATCCAGGGTGGATGTTCCCTAAATTCATTGCCCCCTCCTCGGCTGGTCAGTGGTGTGGTTTTTTTGAGGTTTGTTGTTTGTCACAAACATCCT
TTTGCATTTGGGTTGTCCACGTTTACAGATATATCCATATCTATTGATAAATTTTTCCCAGTTAAATTGCTGGATCAAAGGACAGGTACATTTTAAATTT
GATACACACTGTTAGATTGTATTTCTTCATGATTATCCTCCCACTATCTCTTGCATGAGGGCAGCTGGTTCCCTACTCCTTAACAACATGGTGTATTTTC
AGAATTTCGGTCCTTTCAAATCTGAGAAATAAAAGATGAAATCTCACTCATGTTTTGAATCTAACTTAGAAGCAGGAGGGCTCATTCCCCATGCTCACTG
GCTGTTTACGCTTCTTATTCTGTGCACTTGATATTTAAAGTCTTTGCCTGTTTTTCTGTGGATTGTTCTTTTTTGAGGCGGAGTTTCGCTCTGTTGCCCA
GGCTGGAATGCAAAGGTGGGATCTCGGCTYATCGCAACCACCGCCTCTCAGGTTCAAGCGATTCTCCTGCCTCGGCCTCCTGGGTAGCTGGGATTACAGG
CATGCGCCACCACGCCTGGCTAATTTTGTATTATTAGTAGAGACAGGGTTTCTCCRTGTTGGTCAGGCTGGTCTTGAATTCCTGACTTCAGGTGATCCAC
CCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTATGAACAACCGTGCCCGGCCAGATTGTCCTTTTTTTTTTTTAAAGATTTGTAGGAGCTTTCTGTA
TGCCATGGGTTAATCTGTTGTCTGCTTTATTTGTGACACATACTTCCCTAGTCTGTGGCCTGGTCCATGATGGGCTGTGCCCCACAGGTGCTCAGCTTTC
CTGTTGTTGCCTCTGGGCTGTTTCCTTTACAATGTCTGGATTTGGGTTCTTGCTAAGGAAGTTGTTGTCCACTCCAAAATGATAAAAATATTCTCTCATT
TTCTTTCTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGAGCAATCTCGGCTCACTGCATGTTCTGCCTCCTG
GGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACACCCAGATCATTTTTTTGTGTTTTTAGTAGAGACGGG
GTTTCGCTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGCGC
CCAGCCTGTTCTTTCATTTCTTGTATTCTTACAGCTTTCCTTTTTACATTACCACCTAGACCTTTAATCTCTCTCACATTTGTTTTTTGAGTGACGCAGC
GTATAATTCTAACTCTTCCAGATGAGTGACCCAGTRGTCCCAACACCATTCATCGAATTCCATCCTGACTCCACAGATTTGGAATGTCATACATACATTA
AACCACATCCACATAAATATAGGGGTCTGTTTCTTTTTTTCTTTTTTCCTTTTTTTGAGAAGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCA
CAATCTCAGCTCACTGTAGCCTCCACCTCTCGGGTTCAGGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCATGCCCA
GCTAATTTTTGTATTTTTAGTAGCCATGTTGACCAGGCTGGTCACAAACTCCTGACCTCAAGTGATCCGCCTGCCTCAGCCTCCCAAGTGCTGGGATTAC
AGGCATGAGCCACTGTGCCCAGCCTCGTTTGTCTTTCTTCGTCTGCTTGTCCACTTCCTTACCAGTAACACATTTTTAGCTCTCACAGCTGTATATTACA
TGTTAATGTCTAAGGGAACGKTTCCCACATTTTTTCTCCAAATTTTCTTACTCATTCTTAAGCATTTCCTCTTCTAGATGAACTTTTGAATAAACATCTC
AAGGCTTATAAAATGTACATCAAGACTGCATTGAATACATKAATGAATTTGGGTAGAATTGACATATTTTCATGGGTAGCAATATGCAGCGTGACAGTGT
ATTACGGTGACTTTAGGTCATGTTTTGTGTATTTTAGTATATAGAAAAGCTTTATTTCTTTATAGTTTTAATTATACAGGTCTTGTACATTTCATGTTAG
GGTAAACTCAAGTGTTTTATCATTTTTGTTRCTTGTAAATAGATTTTTTCCCATTTAATCTTCAGATTGATTATTGATAATTGTGTGGACACTTCTGATT
TCTCTGTGTTGAACTGGGCCACTGGTGTAACTTTCAGACAGCCAGGATCTTAGGCACAGCATGGATAGAACAACAGGCGTGAATGTTTGTTGCATGCTTG
TCCCTGACTCTAGTGGAAATAGTTCTGTGTGTCACCACCTGTAAGATGCTCACTGTAGATTACTTACTGGTAGATAAGAAGGTAGCTTTTTTTTTTTTTT
GAGACAGAGTCTCAATCTGTTGCCCAGGCTGGAATGCAGTGGCACGATCTCAGCTCACTGCAACCTCCGCCTCCTGAGTTCAAGCGATTCTCATGCCTCA
GCCTCCCAAGTAGCTGGGGTTACAGGCATGCACCACCACACCCAGCTAATTTTTGTATTTTTAGTACAGATGGGGTTTCACCATGTTGGCCAGGCTGGTC
TTGAATTCCTGATCTCAAGTGACCCACCCGGCTCAGCTTCCTAAAGTGTTGGGATTGGGCATGAGCCACTGCGCCCAGCCGGATAGCCTTTTTTTTAGTT
GTAAAATTTTTCTACTTTTTTTTTTTTCCAGTGCAGGTGCGTATCTTGGTAAAGGCAGTCTTTTTCAGGTTAAGAAGATTCAGTTTCTAGTATGCCAAGA
ATTGTATTCAGAAATGAATTTTGAATTTCATCAAATGCTTTTATAACCTGTTGGGGATGAATCTGTTTTTCCCCCTTGTCTTCCTCTTGAAGCTGTTAAT
GCAGTCCTCACTGCAGGAGGTGAGTGGCCAGCAGGTGAGTGGGCATGACCTCCTGAGCTCCACCTCCTGTCCATCAGGTGGCAGCATTAGATTCTCATAG
GAGCACGAACCCTGCTGTGAATTGTGCATATGAGGGATCTAGGTTTTGCTTCTAATGAGAATCTAATGCCTAATGATCTAAGATGGAACAGTTTCATCCC
AAAACCACCCCCACCCCCACAGCTGTGGAAAAATTGTCTTCCATGAAACCAGTTCCTGGGGCCAAAAAGTTTGGGGACTGCTGTAATAAATTATATTAAT
AGCTCATCAGTGTTGGATCATGGTTGTTTTTGGGGGATAACCCTGAGTTGTCATGATATGTTGTTTTTAGACATCATTGTCCATTTTGGTATTGGAGTTA
TTCACAGGCTAGCTGGGAGCTTCTTAGCTTTTGCAAATGTTCTCTGGCAAAGGGTGGCCCCGTGGGAGTTGGTCGGCCTCTCTGGGAAGGTATCTGGTAA
CCAGACCTAAGCTGTGCTTTTACTTTGTTCCGTGACTGCTTGTCTCTCCACGTTCTTACTTGGCTCCATCTGCAAATTCATGTTCTCCTGCAAAAGTGTC
CGTTTCATGAGATTTTCAGAATTTTTGGAAGAAGTAATAGATACTGTTTTCTCTTGATGTGCTGTTCTATGTCACTTCTCTTTTACTGATGTTTTGTGTG
TGTTTTCTCTTTTTCTTGATCATACTTGTCAGAGGTTATCTATTTTACCAGGGTTTTTTGTTTTTTTTTTTGTTTGCATGTTTATTTTTGCTAAATAACT
AGATTTGGGTTTTATTAATTTAACAAAAAGTGGCTCTTTTTCTGCAAATAGAGGGAGGAGACAGAGACGATGGAGTTGCGAAGCCTGGGCATGGCGCTTA
GGGGAAGGCTCTGTGCCATGCAGCCCCTGCACCCTGGGGGCTTTGGGGACCTCTACCGAGCGACTTAATGGACAGAAGCTGGAAGCACAACCTGAGGGGC
TGGGCCTCCCCATTGGGTTGACATCAGCAGGAYTGAGGAAGCCAGGAAGCACACACAGAAGGCAGGGACCTTGAGGCTAGAAGGAGAGCAGGAGGCAAGA
AGAGCTGGGTCTTGGAGGGCCAGTCCTACTAGGCTTGTGCGGGGGTGAAAGGAGCTGTCCCTGTTATTACAGTGTTGGGGGAATTTCCTGGGACTTTGTT
TGTAGCCAAATACAAAGTCAGTGTTTATCATCTTTCCAATATGTATTGGGGGAAATGTGTCTTCCTTGTTAGGTTCAGAGTTCTGTAGCTTTATGTGCTG
CATAAAGAAGTTTTCCAGCTGGGCGCAGTGGCTCACACCTCTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATTACCTGAGGTCAGGAGTTCGAGA
TCAGTCTGGCCAACATGGTGAAACCCTGTCTTTACTAAAAATACAAAAATTAGCCAGGCGTGATGGCGGGCGCTTGTAATCCCAGCTACTTGGGAGCCTG
AAGCAGGAGAATCGCTTGAAACTGGTAGGCAGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAAGAGCGAAATTCCATC
TTGGGGAAAAAAGAAGTTTCCTTCAGTGACGGACTGACAGACCCCACTTATGATGGTCAGGCCATAAGATTGTAATGGAGCTGAAAAATTTCTCACTTCA
TGAGTGAAAGAAGCCATCTAATGTAGCACAATTACTTTTTAAAAATAAAAATATGTTTATAAATTTAATGCAGCCTAACTGTACTGTATTTATAAAGTCT
ATGGTAGTGTACAGTCATGTCCTAGACCTTCACATTCACCCATCACTCACTCACTGACTCACCCAGAGCAACTGCCAGTCCCGCCAGCTCCACTCATGGT
GCCTGCCCCAGACAGGTGGACTTTTTGTTGTTGTTGTTGTTTTTGAGACGGAGTCTCGCTTTGTGGCCCAGGCTGGAGTGCAGTGGTGCARTCTCGGCTC
ACTGCAAGCTCTGTCTCCTGGGTTCACTCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCGCGCCACCACGCCAGGCTAATTTMTTA
TATTTTTAGTAGAGTTGGGGTTTCACCGTGTTAGCCAGGATGGTCTCCATCTCCTGACCTCGTGATCTGCGCACCTCTGCCTCCCGAAGTGCTGGGATTA
CAGGCGTGAGCCACTGCGCCTGGGCGACAGGTGGACCTTTTTATCTTTTTTGTTTTTTCCGCAAATGTTTTGAAGGCAACAATTTAGATTTTTTTTTCTT
TCTTTCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTGTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCGCCTCTGG
GGTTCAAGCAATTCTCCTGCCTCAGACTCCTGAGTAGCTGGGATTATAGGCCCGCGCCACCACGCCAGGCTAATTTTTGTATTTTTAGTGGAGACGGGGT
TTCMCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACTTCATGATCCGCCCACCTCAGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCATCACGCCT
GGCCTAAAAATCTTTTATACTGAATTTTTACTGCAGCTTTCCTATGTTTAGATGCACAAAGACTTTGCATTGTATTACAGTTGCCTATAGTATATAGGAC
AGTCTGTCTACCGTACGTATACATATACACGTAACTATATGCTGTGCAGGTTTTTCTAGCTAAGGAGTCATGGGCTGTCCCAGAGAGCCGAAGTGTGGAG
GAGGCCATTCCATCTAGGTTTGTGTAGGTGCACGCTGTGATGTTTGCACAATGATGACATCACTGAATGGCACATTTCTCAGAATGTATCTGTCCTTAAG
CAACCCGTGGCTATTTGTCTTTAAATGAGACTTCCTAATCGTGATTGAAATTCTCTTTGGCCCTTTTTTCTTCTTCATCTGTCAGTTTGTGAGTTCTGCT
ACGTAGTGTTCCCACTCAACTGACCCTTATTTCTTGTTCGTTAGAGGTAAACGGTCTCAACTCTTTGAACTGATTCATTTAGTTTTTAGCTCCATATTTA
GCCATGAGGTGTGTTGATTGCTTCCTCTTAACATTGCTGACTACGCCTTACTGACCGAGCGTCTGCTCACCGTGGATGAAGAAGATTCTGCTCCCGTACC
CAAGACCCCAACTCGGTTCCCATGCATGTCCTACTCCCGCCTTCCCGGAGAGTGTGTGTCCTGATTTTACTGGGTTGCCACTGTTACAGCCGAGTCCCCA
CGCTCACAGCCAGATCACGGGCTCCACGATGGCTGTTCCTTTTCCGTGTACCTTTTTTGAGTTAAAAATGTTATTTTTTTTTKGTTTGCTTAATGTTTAC
ATGCTTATCCCTGAGTCAGCACCATGCGTTCTGCCGGTATCTAAAACTCAGCTTGGGTACTCAGATGTGATACCTGAATTCCACCTGCGGAACTCTCAGA
GCTGCTTGATCTGCTCTGTTAAGACCAAGGAGTAGAGCTGCCATCCCTGAGACTCCCTCCCCACTACCCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNC
TGGCTAATTTTTGTATTTTTAGTAGAGTACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCCAACTCCTGTACCTCAGTGATCTGCCCACCTCAGCCTCC
CCAAAGTGTTGGGATTACAGGCATGAGCCACCGCGCCCGGCCTTTTTTTTTTTTTTTGGAGACAGAGTCTCACTCTTGTCGCCCAGGCTGGCATGCAGTG
GCATGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGGTTCTCCTTCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCTTATGCCACCATGC
CTACCTAAATTTTATATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGTTCTCAAACTCCTGATGTCAGGTGATCCACCCTCCTCAGCCTCC
CAGAATGCTGGGATTACAGGCGTGAGCCACTATGCCCCGCCCCAAGTTGCTTTTAATTTTATGTTTGTTTGTTTGTTTGTTTTGGTTCTGGATTGGATCT
TATAGGCCACCTTTAGATGTCTGGGGTCCCTTGGACCACCCCCAGCCAGGTTCACTGGGAGGCCTCATAGGACGTGGCAGGAGCTGACTTATTACAGCGG
AAGGACATGGAGCACGGTCAGCACAGGGCAGGGCACGGGGCAGAGTCTGGAGGAAACAGGTGTGAGCTTCCAGCATCCTTTCCACGTGCAGCCCACGGGA
CGCGCTCCATTGCCCAGCATCGCATTGTAGCGACAGGAGTGAAATGTCCCAACTAGGGAAGCCCTTCAGAACCTCAGTGCCCAGGGTCGTTCCGGGGCTG
GTCTTACAGCAGCCTCTGCCTGGTTCTTGCTCCCAGTGTCTGGGCACAGCTGAGGCCCAGATTCTCATGTCACCCTCTGCTGGTAGAGGGAGGCACAGTT
GCCTCGGTACGGGGAGCTGGTGGTGGAAGCTGGGGAGTGACTGCTGCTGCCTTGTTTGTGTCCATGTTTGTTTGCCATATACCTGTCACTCAGCATGTCT
CATGTATTTCTTCTTCTTTTTTTTTTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCGCCATCTCAGCTCATCGCAACCTCTGCC
TCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACGTGCCATCATGCTGGGCTAATTTAATATTTTTATTAAAGATG
GGGTTTCTCCATGGTGGTCAGGCTGGTCTTGAACTCCTGACCTTAGGTGATCCGCCCAGCTCAGCCTCCCAATGTGCCAGGATTACAGATGTGAGCCACT
GCACCCGGCTGTCTCATGTATTTTTAACAGCTCTTTAAAGATATAATGCAGGGCTGAGTGCGGTGGCTCACGCCTGTAATCCCAGCTCTGTAGGAGGCCA
AGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNCGAGCGAGACTCTGTTATCAGAAAAGAAAAAAAAAGATCTTCACATACTATTCAGATTGCTCACAGTGTGCAATTCTGTGGTTTTTAGTATGTTCA
CAGCYCTGTGTACCCATCACTACAGTTAATTTCAGAACATTTATCTTCTGTGGCACAATCATAACTCACTGCAGCCTCAACCCCCCTGGACTCAGGTGAT
CCTCCCACCTCAGCCTCCTCAGTAGCTGGGACTGCRAATGCGCACCACCACACCTGGCTCATTTTTTTGTTTGTTTTTGATTTGGGGTTTTTCTTTAAGA
GAGGGTCTCATTCCATCACCTAGGCTGGAATACAGTAGCAAGATCTTGGCTCGCTGCAACTTCTGGCTCCCAGGCTTGAGCGATCCTCCCACCTCGCCCT
CCCAAGTAGCTGGGGCCACAGGTATGCACCAGCATGCCCGGTTTTTGTTGTTGTTGTTGTTGTTTTGTTTTGTTTTGTTTTTTGTATTTTTAGTAGAGAT
GGGGTCTTGCCACATTGCCCAGGCAGGTCTTGAACTCCTGAACTCAAGCAGTATACCCACCTGGGCCTCCCAAGATGCTGGGATTACAGGCATGAGCCAC
CTAATGAGCACGGCTACTTTATTTGTAGTTTTTGTAGAGACAAGCTTTTGCCATGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTTAAGCAATCCTCCTG
CCTTGGCCTCCCAAAGTGCTGGAATTACAGGCATAAGCCACAACCCCTGGCCAGAACATTTTTTATACCCCAAAAAGACACCTGGTACCCTTTAGCTGTC
AGCCCCAACTTCCATCTCCCCCAACCCCTGGCTACCACTAATCTTCCTTCTCTGTAGATTGCCTGTCCTGAGCATTTCATAGAATTGGGGCCATAGACTG
TCACTTAGTGTAAGGTTTCCAGAGTGTATCCAACTTGGAGCATGCCTCAGGCCTCACTCCTTTTCATGACTGAATTATTCCATTGGTGATGTGCTGTATT
TTGTTTATCCATTCCTCATTGATGGGCAAGTTGTTCGTTACTGAATCTTGGCTGTTAAGAAGAATACTGTGCCTCGCGTGGTGGCTCACRCGTGTAATCC
CAACACTTTGTGGGGCTGAGGCAGGAGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGGACAACATAGCAAAACCTGGTTTCACAAAAAATACAAAAA
GTAGCCGGGCTTGGGGAGGCATGCCTGTAGTTCCAGCTACTTGAGAGGGTGAGGTGGGAGAATCGCTTGAGCCTGGGAGCCGGAGGTTGCAGTGAGCAGT
GATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAATAAATACATGAAATAATACTGAATTGCCTCTGAAACACATTTTCAAG
CAAACCTGCTGTTTTCAGCCTTCATCCACGGCCACTGGTAGAGACACTCAGGCCACGCCACGGAGCTTTTGTGGGGTGTTAAGGCAGGCTGTTCGCCTGT
CCCCAGTGCTGCATTCAGCCTCGGCCTTCCTGGGTCGGCTGTGTCGGGTCCCCGTGTGCGTCTCATTTCCAGCCCCTCACGTTCTGTGGCTGTGTGCCGC
CTCCCATCTTTCTCCTGCGGATTCATGCTGTGGACAGCATTCCTTCACTGCCATTCCAGTCGGGGGCTGTTGCAGGAGACACAGTGCTGTCCTCACCCGG
GAGGCCTCACCTCAGAGCTCTGTGCCGGCTTGCTGGGTGAGCAAGATTTTCATCTACATTTTACCGTTTTTTTTAATTTTTTACTTTTTATTTTATTATT
ACTTTTTTTTAGACAGAGCCTTGCACTGTCGCCCAGGCTGGAGTGCAGCAGTGCGATCTCGGCTCACTGCAGCCTGCACCTCGTGGGCTCAAGCGATTCT
CCCACATCTTCCTCCCAAGTAGCTGAGACTACAGGCGTTTACCACCACTCCCCGCTAATTTTTTGTATTTTTAATAGAGATGGGGGACTCACTTTGTTGC
TCAGGCTGGTCTCAAACTCATGGCCTCAAGTGATCAACCCGCCTCAGCTTCCCAAAGTGCTGTGGTTATAGGTGTGAGCCACCGTGCCTGGCCAGCTTTT
CCTTTTAAGATGCATGGTATTTGGGATTATTGTTTCTCTGTAGTGTGAGGTAGCAGTCCCATTTTCCCTTTTTCCCCGTACAGACGTCCCGTGGCCCTTG
TTAGGCACTGTGGCCCCGCTGACTGCTGTTTGGGGCATTTCCCTCCTTGGCTGTCAGGATTGATGCTGCCGGCCATAGCGTCAGACACGGTGTCTGCATG
TGGATGCAGAAGCACCCGGTTTTTCCCCCTCGCTCTGGAGGAGCGGGCTGGAACCTCTCGAAGAGACCGAGGCTTATGTTGGGGAAGTGAGGCTTTCCTT
TAGCTGCTCCGTGGCATCTGGGGGATCAGGCTGGGATGGGACGTGTGAGTGTCTTTACTGTTTGTGTGGGTGTTGGTGGGCATGGCSCAGACTGCAGGCC
CCACAGAGGGTAGCAATGCCTCAATGAGCTGTGTACTGAGCCTGGTGGAGCCTGTGAGCTGCCGAGGGTCCCTGGCCAGCTTGCCCCAGGGACAGCTTGT
CACTCATGTCCGGTGACTGAGCAGTGGTGGCACACCCCAGGGGAGAACTGAGTGTGTTGGAAGAGGCTCGTGTGACTCTTTTTGGGAGGGCCTGAGGGGT
CCCCAGGCTCCCGCTGACCTGCACATTCCCTGTGCTGTGTGTGTCTGTGCTTTGTAACTTCAGGGCCCCATGCAGTCTGTGTAGCACGTGCCTTGCAGCA
GCCCTGAGACGAGGCAGGTCCAGGCCAGGCCCCATTTTACAGTGAGGCTCAGAGAGGCCCCCAGCCTGGCAGAGCCTCCCCGCTTCCTGCCTTATGTGGG
TGGCTCTGGACCTAGCTTTGCAGCCTGGGCTGCCACCGGTGACCTGYGAGCTTGAGCATCTTTTCACGTCGTTGCTGGGTCATCCTCCAGCGAGGTGCCT
GTTCAGGTCTGGTGACCATTTCCACTGTGCCTTTTCTGGCTGACATGTCAGAGTTCTTTATATGATTTGAATAAAGCTCTGTTAGCTAAATGTGTTGCAA
ATAGCTTTTTCGGTCTGTGATTATCTTTTGAGTTTTACAAATTGTTTTTGAAGAACAGAGGTTCTGGATTTTATGTGGTTCAGTTTGCCAATCTCTTCCT
TTATGGATTCTGTTTTTAATGTCTTAGTTAAGCAGTCTTTCCTCACTAACAGGTCAAAATATGTATTCTGAATTTTTCTGGAAGCTTCACAGTTCAACCT
AAAATCTTTCCTTTAGGTCATTAATCCACCTGGGGYTGAGTTGTGTGTATAGTGTGAAGTGCTGTCCCCTCTCCTTGTTCTCAGATGAGGGCCAGCTACC
CTGCACCCTGCATGAAGAGCCCGGCCCCCCTGTTCACCCATGCAACTGCCCCCTGAGCCCCTCAGTATCCTTCATCAGGGGTCTGCTTCTCACCCTCTCT
CTGGTTCCAGGTGGTCTGTTTGTCAGTCCCTGTGCCAATACCACACTGTCTTCATTATCATGGCTTCTACTTTTTAAAAATCACCTCTATTGAGGTATAC
TTTATATGGAATAAATGCATACACTTCAAGTGTGCAGTTTGATACATTTGGACAAGCATATATAATCTTGTAACGCTGCGCCAGTCAAGACTGAGAACAG
TCCCAGCACCCTAGAAAGTCCCCGTGCTCCACAGGCAACCCCCGCTGCCCTCTCAAGCCCCCGGCCTGGTTTCTGCCACTGTAGACCGAGCAGCTCTGAG
TGTCCTAGTGCCCATGATCATCAGCCGAGCAGTTCTGAGTGTCCTAGTGCCCATCATCATCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATCATCGTC
AGCCTGGCAGTTCTGTCTGTCCTAGTGCCCATCATCATCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATCATCGTCAGCCGGGCAGTTCTGTGTGTCC
TAGTGCCCATCATCGTCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATCATCGTCAGCCGAGCAGCTCTGTGTGTCCTAGTGCCCATCATCGTCAGCCG
AGCAGCTCTGTGTGTCCTAGTGCCCATCATCGTCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATCATCGTCAGCCGGGCAGTTCTGTGTGTCCTAGTG
CCCATCATCGTCAGCCGAGCAGTTCTGTGTGTCCTAGTGCCCATCATCATCAGCCGGGCAGCTCTGAGTGTCCTACTGCCCATCATCATCAGCCGAGCAG
CTCTGCGTGTCCTAGTGCCCATCATCATCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATCATCATCAGCCGAGCAGCTCTGTGTGTCCTAGTGCCCAT
CATCATCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATCATCATCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATCATCGTCAGCCGGGCAGTTCTG
TGTGTCCTAGTGCCCATCATCGTCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATCATCGTCAGCCGGGCAGTTCTGTGTGTCCTAGTGCCCATCATCG
TCAGCCGGGCAGTTCTGCGTGTCCTAGTGCCCATTATCGTCAGCCGAGCAGCTCTGCGTGTCCTAGTGCCCCTCATCATCAGCCGGGCAGTTCTGAGTGT
CCTAGTGCCCCTCATCATCAGCCGAGCAGTTCTGTGTGTCCTAGTGCCCATCATCATCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATCATCATCAGC
CGGGCAGCTCTGAGTGTCCTAGTGCCCATCATCATCAGCCGGGCAGCTCTGAGTGTCCTAGTGCCCATCATCATCAGCCGAGCAGCTCTGTGTGTCCTAG
TGCCCATGATCATCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATCATCGTCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATCATCGTCAGCCGGGC
AGTTCTGTGTGTCCTAGTGCCCATTATCGTCAGCCGAGCAGCTCTGTGTGTCCTAGTGCCCATTATCGTCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCT
CTCATCATCAGCCGGGCAGTTCTGAGTGTCCTAGTGCCCCTCATCATCAGCCGGGCAGTTCTGTGTGTCCTAGTGCCCATTATCATCAGCCGAGCAGCTC
TGAGTGTCCTAGTGCCCATCATCATCAGCCGGGCAGCTCTGAGTGTCCTAGTGCCCATCATCATCAGCCGAGCAGTTCTGTGTGTCCTAGTGCCCATCAT
CATCAGCCGAGCAGCTCTGTGTGTCCTAGTGCCCATCATCATCAGCTGAGCAGCTCTGAGTGTCCTAGTGCCCATTATCATCAGCCGAGCAGCTCTGCGT
GTCCTAGTGCCCATTATCATCACCCGGGCAGCTCTGAGTGTCCTAGTGCCCCTCATCATCAGCCGGGCACTTCTGAGTGTCCTAGTGCCCCTCATCATCA
GCCGGGCAGTTCTGTGTGTCCTAGTGCCCATGATCATCAGCCGAGCAGCTCTGAGTGTCCTAGTGCCCATTATCATCAGCCGAGCAGCTCTGCGTGTCCT
AGTGCCCATCATCATCAGCCAAGCAGCTCTGAGTGTCCTAGTGCCCATCATCGTCAGCCGAGCAGCTCTGTGTGTCCTAGTGCCCATCATCGTCAGCCGG
GCAGTTCTGTGTGTCCTAGTGCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNTTTTGTTGTACTTATTTGCCACTTGTATTTCTTGTTTTGTGAAATGAACATTCAGATTTTTTGCCCATTTGTT
TAAGTGTTTGTGTTATTCCTGAGTTGTAAGAGCCTGTTGTTTGTTCTGGGTATAAGTCCTTTATCAGGTGTACTTGCCAACACGATATTCCTATCCTGTG
CCTTGCCTTTCTGTTTCCTAGACAGTACCATTTGAAGAACCAAATGTTGTTTTTTTTGGTGGGGGTGGGGGGTTTCTTTTCTTTTTYTTTTTTTTTTTTG
AGACATTGTTTGCTCTCGTTGCCCAGGCTGGAATGCAATGGCCTGATCTCAGCTCACTGCAACCTCTACCTCCCAGATTCAAGCGATTATCCTCTCTCAG
CCTCCCAAGTAGCTCGGATTACAGGCTCCCACCACCATGGCCGGCTAATTTTTTGTATTTTTAGTAAAGACGGGGTTTCACCATGTTGGCCAGGCCKGTC
TCGACCTGACGTCAGGTGATCCACCCTCGTTGGTCTCCCAAAGCGCTGAGATGACAGGCGTGAGCCACCATGCGCAGTCTAGAACCAAATGTTTTAATTC
TGTTACCATTTTTTTTCTCTAGTCAGTGCTTTTTGTGTCCTGTCTTAAAATTTTTCACCTAGCCCAGGCAGCAAAGATTTTCACCTGCATTTTCTTCAAG
AAGTTTTATAGTTTTAAGATATATGCTATTTGGAATTGCTATTTCTAGATGGTATGAGGTAGTAGTCACGTTTTTTCCATTTTTCCTCATACAGATACCT
CGTTTCCAGCACCATTTGTTGAAAAGAGAACCCTTAATTTATTAAAGTATGCAGTGCTTTTGTCGAAAATCAACTCACTTTGTGTGTGTGGTTCTTCCCC
AGGACTCTCTCTTCTGTCCCACTCTTCTCTGTTTCGGTCTTTATACTGTTACCATGCTGTCTTGATCATTGTAGCTTTATATTGAATCAGGTGATAGAAG
TTACCCAACTTTTCTTCTTTTTCTTTTTTCCAAAATTGTTTTGGCTATCCTAGGACCCTTTGCATTTCCTTATGAATTTCAGAATCAGCTTGTCAGTTTC
TAGAAACATTTTCATTGGAACTACTTGAATTTCTAAATTAATTTGGGAAGAAGTGCCATCTTAGGCAAACTGAGTCCTCCAATCCAGTGCCATGGTAAGG
TGCTCCATTTATTTAGATCAGTCTCATCCTATATTTTCTTGTAGTTTTCAACGTATTGGTTTTGCACACATTTTGTTAAATTTATTCCTACATATTTTGT
GGTTTGGGATGCTATTATAAATGATTTTTTAATTTTCCACTTATTTGTTGCAAGTATATAGAAGTACAATTAGCTGTTGTATATTGATCTCGTATCATGT
GACTTTGTTAAATTCATTCATTTCTGTAGTTTGTTTCTTTATTTTTCTTCTTTTCCTTCCCTCCCTCCCTCCCTCCCTTCCTTCCTTCCTTCTTTTCTCT
CCTTTTTTCTTTTTTCTTTCAATAAAAACAAGGTATTCTGTGTTGCCCAGGCTGGAGTAGAGTGGCTATTCTCTAGTGATTTTTTTCTTTTTTTTTGAGA
TGGAGTTTCTCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAACCCCCACCTCGCCAGTTCAAGTGATTCTCCTGTCTCAGCC
TCCCGAGTAGCTGGGATTAAAGGCATGTGCCACCACACCCGGCTAATTTTGTAGTGATTTTTTTTTTCTTTGAACAGGGTTATTTAGAGATATGTTACTT
ATTTTCCAAATAATTGAGAATTTTTTAAATAGATTCTATTGCTCAGGATTTTTCATTCAATTCTATAAGGCCCAGACAACATACCCTCTAATATTTTAGT
CTGTTAAAAAATGTTGGAGACTTATTTTACGCCCCAGTATATGGCCTAACTTCATGAATATTTCATGTACACTTAACGAATGTAGCATTCAATAGTTATA
AAAGTCCCCTCCRCAAGCTGGAAACCCTGGGATGCCAGTGTCATGGCTCAGTCCAAGTCCAAAGGCTTCAGAACCAGGGAAGTCAGTGGTGTCACTCTTG
GTCCTGGGCCAAAGGTCTCAGAGCCCTGAGGAGAGAGGAGGTGCTGGTGACATCTGGGAGTCCAAAGGTCGGGGGGCCTGGAGGTGTCCAAGGACGGGGG
AGGAAGAGTGTATCCCAGCTCCAGCAAACAGATGGACATATTCGCCTTATCTTTGTTTTTATTTTATCTGGGCCCCCAGCCTATTAGATGGTGCCCACCC
TCATGGAGGGTAGATCTTCCTCACCTGGTCAGTCACCTCTGGAAACATCTTCTCAGACATACTCAAAATAATCCTTTACCGGGTTTCTAGGTGTTCCTTA
ATCGGTCACCTTTGACCTTTGACACCTAAAATTAACCATGACACCCACACCCACCTCTGGCTGCTTTCAAGTTTCTATTTTCTTGCCTTTGATTATCAGC
CAAAGTTTTGCTGTGATATAATTAGAATTTGTGGCTTGATATATTTTGTTAGGCTCAGAAAATTGGCCATGATCTTTTCAAATATTGCTTGTGTTCTGTT
GTCTTTCCTATCTTCTTCTGGGTCTCTGGTTACACATGTGTTCAGTCTTTTGCAATTTTCAATGTGTCCCTTATGCTTTCATCCATATTTTCCATTATTC
TCTAAGCTTCAATGTGGATATTTCCTACTGATCATTTTCCATTTTACTAATCCTTTCTTCATCTGTGTCTAATTTGTCTATTTCATTATTGGGGCCTTAA
TTTGAGTTATTATGTTTTTCAGTTGTAGAATTTATATTTTAATCTTTTTGATAAATTCTGATTACCTGCAGAAATTCTCCATATTGTCTTCTAATAACTC
CAGTATTGGTATCCCCTGGGTGAGGGTGGGGGAGGTGTCTATTTCCTGTTTTTTCTTTTGATCTTATCTCCTAGTAACCTAAGGAGTTTTTCTTTTTTTC
TTGGATTCTAGACAATATGTGTGAAAAATTGTAGAGATGACTTGAGGCTTCCTTTGATGTTATCCTCACCAAAGAGCAGTTCTGTGCTTCTGCCTGTTGG
TCAAGGATGGACAGCTCGTGTTCAGTAGAGGCTGAGCTGGTTTGAAACCGGACTTCCCAGCCTGTTTCTGGTTAACTCTTACTCCTGGGATGGGACCCTT
CAGGGACCCCACCCAAAGCTGGGGTGCTTTTTTTTTTTTTTTTTTTTTCCTCTTCAGATGGAGTCTCGCTCTGTTGCTCAGGCTGGAGTGCAGTGGCGCG
ATCTTGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCCGCCACCACACCCGGC
TAATTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCCTGTTAGCCAGGATGGTCTCGATCTCCTTACCTCGTGATCCGCCCGCCTCGGCCTCCCAAA
GTGCTGGGATTACAGGCGTGAACCACCGTGCCCAACCTCAGGGTGCTTTTTTTCTTTCTTTTTCTTTTTCTTTTTTTTTTYTTTTTTTTTTTTTTTTTGA
GAAGGAGTCTTGCTCTGTCACCCAGGCTGAAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCACCTCTTGGGTTCAAGCAATTCTGCTGCCTCAAC
TTCCCGAGTAGCTGGGACTACATGTGCATACCACCATGCCCGGCTGCGCCTCTCCTCCTAGATGGACACTGAATTCCAGTGTTTGTCCCTCCAGCTCCAT
GAGTCTGAGAAGGCCCCACTTAGCTTCTCAGCCTCTTAGCTACCACATCCCTCTCAGCCTCCACCCCTTGAACCCCTTGACTTCCGGGCAGCAAAAGCAT
CGGGGCCAGTTGCTCCAAATTGGGTCTCACCTCCACACTTCCTTCTCTTTGGGGTGCTGGTCCTCGCTGACTTGGTGGTTCTCTGACACCTTTAAAGAAA
CTTCTTAAAACCTGGGTTGTTATCTGCAGGAGGGTTGGTCAGTTACAGAGTAGTCAGCCATGGCCATAAGCAGAACTCCGTTTCATCCACTTCTGGTGCC
CCCCACCCCACATGACCCCCCACACATCTGGGGCACTAGAGAGATAGTGCCCATCAGAGAATTGTCTTTTGACAGTGGTCACTCTCACAATTTGCCGGCA
AACATTCTGGGCATATAGGGCTGACTCATTCGGGACTTAGCTGCCATAGGCTTGGATTCTTGTTGGAAACAGCTGCTATAATTTATTCTGATGAATTACT
GTTCCAAAGATGGTATTTCTGAGCTTTCCAAGAACACAYTGGACATCAGTTCTAGTTACAGTGAAAGTGGGAGGCAGTGGAGAAGGGAAGCACTGGAAGC
TCAGCGCTTGTCTGATCAGGTATATGATTTGTAGAGACCAAAAAAAGGTGACTTCTCCCATCCAAGTACTAACCAGGCCCGACCCTCCTTAGCTTCCGAG
GTCAGACGAGATCAGGTGCGTTCAGGGTGGTATGGCCGTCGACAAAAAAGGTGACTTCTAAATAAACAATCCCTGTGTTCCCCTGGTGGTCTTCTGGAGG
CAGCTGAAGGGCACCTGGATTGTGACATGCCCAGGGGCCCTGGGCTGTGTGTCTACCCTCCTCTGGCAGGGCCACTGCCTGGCTCACAGCCCGTGATGAG
TGTGTGGCATGCAGTGGGCGCACAGGCATTGATTGAATCTTTTGAAGATAAAACTAAGCTATCTTTGTTCCATTCTCCTGCTCAGATCACCCGGAAGTTC
AGGCTGAATTCTGAAGGCAAACTTGAGCAGACGGTCTCCATGGCAACCACGACACAGCCAATGACTCAGCATCTTCACGTCACCTACAAGAAGGTGACCC
CGTAAACCTAGAGCTTCTGGAGCCCTCGGGAGGGCCTGGCTACTGTGCCTCAACGGTTCGGCTCCTCAACAGACAGTCCCTGCGGCAGAAGTGGGTGTGG
CCGTGAGCCTCTGCAGGCTCAAGAGTGTTGTCCAGATGTTTCTGTACTGGCATAGAAAAACCAAATAAAAGGCCTTTATTTTTATGGCTGAGGATTTTGA
ATATTATCACTTGCGTAGGCTGTACATTTTTTTTTTATCTGCTGATGTTTGTTTTCCAAAGCGTTCCCTAAGAAATTAAGAAGGGGGCTGGGTGTGGTGG
CTCACGCCTGTAATCCCAGTACTATGGGAGACCAAGGCTGGCGGATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCGTCT
CTACTTAAAATACAAAAAATTAGCCAGGTGTGGTGGCGCATGCCTATAATCCTGGCTACTTGGGAGGCTAAGGCAGGAGAATCGCTTGAACCCAGGAGTT
GGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGAGACAAGAGCAAGACTCTGTCTGGAAAAAAAAAAAAAAAAAAATTAAGAAGGGA
TGAATCTCTTTCCTTTTCTTTCTTCTTACAGTTTTGACAAGATCTAAAATATTTGTAAATCTTCTATAGAGTTGGCCGGGCGCAGTGGCTCACGCCTATA
ATCCCAGCACTTTGGGAGGCCAAGGCGAGGAAATGGCTTGAAGCCAGGAGTTTGGGACCAGCCTGGGCAACGTGGCAAAACCCCATCCCTACAAAAAAAA
ATAGAAATATTAGCCGAGTATGGTGGTCCATGCCTGTGGTCCCACCTACTCAGAAGGCTGAGGTGGGAGGATCCCTGGAGCCCGGGTGGTGGAGGTTGCA
GTGAACCAAGATCACACCACTGCACTCCAACTTGGGTGACAGAGCAAGACCCTGTCTCCAAAAAAAAAAGATGGCAGTCATTTTCTCATTACTTTTAAAG
AGCCGAGTCTATATTTTCCTACAGATGGAGCATTCCCAAGAGGCTAGCTGTGATCTTAACATCATCATGTAAGTTTTAGTTTGTAACTCTAATACAGCTT
TCGTTTTTGTGGGGTTTTTTTCACTATGAAAGTTTCCAAACATACACTAAACCCTTGTACCTGTCACCCAGCTTCAGCACCTGCCAGCATTTTGCCCAAA
GCACTTCCATCTTTTCCTCCCCCACTTCTGCGGGAATACACGTAAGCAAATTCCAGACATATTGTCACTTGCCCCTAAATCCTTTGGTAGGCATCACAAA
ACAACACAAAGCCATTTTCTTTCTCTTAACTCGTTGCCATATCAGAAGTCTCACCAGGCACATGGAGACGAGGCTACACGGGTGTTGGGAAGCAGAGTCA
GAATAGGTAGCACACAGGCTGCGCAGGGTTAACATCCAGGGTAGCAACCGCAGGTACCACCTCCAGGGCTTGGGGACAAAAAGTATTACCAGGGTGGGGT
TTCAGGGACCTCAGAGCTTACAGGATGTGCTTGGTTCTCGCAAGAGGGGCAGGAGGGCCTAGGACTGTACTCCAGGAGCCAAGGGGGCACCAAGGGACCT
GGTGGCTGGGCTCAGAGCTGTCTCTGCTCCCAAAGTGATGCTGAAATAACCTGGGAACACCAGGGAGGTCCCAGCCCCAACTCCTGCATCCAGGGCTCCA
GCACACCCAGCTGGAAGGGTGTGTGGAAGGGCAGCACTCAGGGCAGAGCACAGACAAGCCAAGAGACAAGAAGTCAATAACTGACGGCACAGTGCTGTTT
TCACAAAATGCATAAGAATTCTGTAATGTTCTCTAACAGTCCTATTCGTATTTCCCTTACTGCCTAAGAAATATCCTCACACGATTGGATTATCAAAGCT
TTATTCACGTTTGTGTTTGGCTACAAAGTCTTTTAGGATCCTTTTGATCCTAAAAGTCCCCCTCTTCCCTCCCCTGTGCCCTTGACTTGTTGGTGAAGCT
GGTCACTTGTCCTCGAAGGTGTCCCCAGTCTGGACTTAGCATCCTCCTTGTAGTGTTTAACTTGTTCCTCTGTCCCCTCTATATCCTGTCGTCTGGAAGT
TGGATCTAAAGTTGTGGCTGGAATCACACCCGGACGGTGCTCAGTTCCTCGTGTCACAGCCTCATGTCCAATTGTGTCACTTTGTTGAAGCATTAATAAG
CTTGGATGGCGACAGCCTGACCCCTTTATCGTCAGTTTCCCCTCAACTGTTCCCCTGACAGTTTTGCCACCTGTGGGTGACCATTGCTAGAACCAGAACC
TTCACTGGGACTGCAGAATTCTCGTCTTCTGTCTCATCAGAAGGACATTTAGTGGCTGGAATTCTCTCAGACCTTCCCTTTATCCATTAGGGTAAGTCAG
GTTACCCTGAAGTGCGTTCATACTAGAAAGGCAGCATAAGCACTTAATTATTTCCCTTTAATGATCAATTTTTGGAGTAAGAATGTCCTGGCACCCTCCA
GTGGTGCCAAAGGACTGGGAGTTCCTCACACCACTGCACTTACCCTTCCCGCTTCCCTACTCATGTTACGAGCTTAATGCTTTCATGTATACAGTCTGTC
CTCAGTATCCACAGGGGTGCGTTACAGGACCCACACGGGTACCAAAATCAGATGCTCGAGTCTCTTGTATAAAATGGCATGGGATTTGCATGCAACTTAT
GCACATTCTCACATATACCTTAAGTCATCTCTAGATTGCTTATAATACCTGATACAGTGTAAATGCTCTGTACGCAGTTGTTATACTGTATATTTTTGGG
GTTTTTTATTGTGGGCTTTTGGGGAATATTTTTATTTTTATTTATTTATTTATTTATTTATTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGAAG
TGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCATGCCATTCTACTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCC
ACCACACCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGATTTCACCATGTTAGCCAGGCTGGTCTCGATCTCCTGACCTCGTGATCCACCCACCTCA
GCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCATGCCCGGCCAGGAATATTTTTTATACACAGTTGAATCCACAGAAATGGAGGGCCAACTGTAT
TTGATATCATTTTAATCAAGTGCTGCGTATATCTTTGGCAAACAGGAGATGCTCAGATTATCTCGTAATTGGACAGAGGAGCCCCTCCATCCAGTGGGCT
TTGATGCCTCCTTGCTCTGGGGCCACAGCTGCCTCTGACTTTTCCTGCCCAGAACCTGGAACTACCCATTTCTCCAGAGCCCTGGTTCTCGTTAGTGGGG
AGTGGGAATTGGAGGGAGTGGGAATTGGAGGCCACAGACTGAGCACTGACTGCTTATGATGGCTGGGCTGCTCTACCTCCCAGCCTTTCCATGGACAAAA
CCAGAAAATTGTTCTAAAATTTATTTTCTCAGCTAGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGATGGATCACCTGAGG
TAAGGAGTTCGAACCTGGCCAACATGACAAAACCCCATCTCTACTAAAAATACAAAAAATTAGTCAGGCATGGTGGCGGGCACCTGTAATCCCAGCTACT
CGGGGGGCTGAGGCAGGAGAATTGCTTAAACCTGCGAGGCAGAGGTTGCAGTGAGCCGAGATCACACCATTGCACTCCAGCCTGGGCGACAGAGCAAGAC
ACTCTCTCTCAAAAAAAAAAAAAAAAAAAAATTTCTGGTTTATTTTCTCTGAATCGTGAGGTTGTATTAGAGATCAGGACCCTTCACCCTTAACTACTTT
AGCATGGGATATACACATGTATTTTTGAAAAATATGAATTCATACTGTTTTCCATTCAAATGTTAAGATTATAAGGGTTTTTAAATATTCTTTGATTTTA
CCTCTTAAGCTGAAAATCTTGGTTCATTACAACATTAACATTATTTGCTTTATTCTACATATAAATGCATATAATCATTTCAAAATAAGCCTGGGCAACA
TAGTAAGACCCCACCTCTACCAAAAAAGGTATTGTTAACAATGACTACTGGTCAAAGTTTTTTTCTGCTAGCTTTTTTAGACCTTTCCCTTTGAAGATAC
AAAGTTAAAATATGATGTAATTGGATTAACTACTCTGCGCTTCTGTCACCAACTTGATACACAAGTCCATTTGTTTAAATTCTAGAAATTGTTATAATTT
GTTTTGTGAATACAAATCATTTGACTGGCTTTCTTGTCAGAACTGTAAAACCAGGCACATTTGCTCCACACAGGCCTCTAGCACAGCTACCGAGTGCTCC
GGTAAGCTCGCCGTGGGTTAGCTCGCCGTGGATTAGCTCACCGTGGGTTAGCTCGCCGTGGATTAGCTCGCCGTGGGTTAGCTCGCCGTGGGTTAGCTCG
CCGTGGGTAAGCTCGCCGTGGGTTAGCTCGCCGTGGGTTAGCTCGCCGTGGGTAAGCTCGCCGTGGGTAAGCTCGCCGTGGGTTAGCTCGCCGTGGGTAA
GCTGGCCGTGGGTTAGCTCGCCGTGGGTAAGCTGGCCGTGGGTTAGCTGGCCGTGGGTTAGCTGGCCGTGGGTAAGCTGGCCGTGGGTAAGCTGGCCGTG
GGTTAGCTGGCCGTGGGTTAGCTGGCCGTGGGTAAGCTGGCCGTGGGTTAGCTGGCCGTGGGTTAGCTGGCCGTGGGTTAGCTCGCCGTGGGTTAGCTGG
CCGTGGGTTAGCTCGCCGTGGGTTAGCTCGCCGTGGGTTAGCTGGCGGTGGGTTAGCTCGCCGTGGGTTAGCTCGCCGTGGGTTAGCTCGCCGTGGATTA
GCTCACCGTGAGTTAGCCAGCAGATCCCCTCATGCTGGGCCTTGGGTTGTTTCCAGTCTTTGGCCAATCAAATGTCAGAGTTGGACCCAGCACCTCCGTT
GGGACTGCAGAGTGCTTGTCTTCTAAGTCTGGTTAGAAGGGCATTTCCACATCCTTGTGGATTCTGGCCATCGTATCTTAAGGATACATTTCTGGAAGTG
GGATTGCCAGTCGGCGGGGAGAGGCTCATCTGGCTTGTCTGGGTGTTGTCCCTGTCCCCAAGGGGCCAGGCGTTCTGCATCCCCACAGCATTGTAGGAAG
TCCCTGCCCCCCTCAGCAGCCGAATCTGGTGTCAAATTTGGATTTGGGTCAATCTTGTAGGTGAGAAATGGAGTCTTGGGGTGGTTTTGGTTTGCATTTC
TCTCTCTCTTTTTTTTTTTTAATCATTTTCTTGATTTTCCAAACTCATGAGCTCGTTTGAATAAGGAATATTAATCCTAATATTTCTCATTTTAAGTTAT
AATTTTTATTGAGGTAAAATATACATAAAACAACATTTTTATCAGAGTCCTATAGATGGTTAAAAAAATTCACCATTTTAACCATCTCTTAAAGTCTACA
ATTTAGCAGCATTTAATACATTCATAACGTACAACCATCACTTCTGTGTGCTTCCAAAGCCTTCATCACGCCAGAAGGAGACCCCGCGCCCGTTCAACAC
CATCCCCCCACCCTCAGTCCCCGACAGTCACTGCCCTGCTTCCCACTCAAGTCACCGACACTTTGAAAATGTGCTATGTTATAAAACTTTTTTCCCAGTA
TACATTTTGTCTTTTATCACTCCTGGGTTTTAAGTCATATTTAAGAAGATTTTGCCCACTCCCCGGTGATGAAGGAATTCACTTTTTCCTAGTACTTTTG
ACCCATTTGGAATTTGTCTTAGTGTATGGTATGAAGTGCAGATTCATTTTCGTCTTTCTCCAAGTGGTTAACGTTTAACCACTTGTATTAACAAGTCCAT
CCTTTCCTCACCGGTATCATATGCTACCTTATAGACTGAATGTTCTAGGCACTGGGGTCTGTCCCCGGGTTTTCATGTCCCTGGGCCTGCTTGCCTACAT
GGGTCCTGGTGTCATGTGGTTCCATTACGGAGGCCAGGAGATGGTTCAGGGGCAGAGGACCTCTCCATTTCTTTTGCAGAGTTTTCCTGGCTATTTTTAC
ACTCTTGTGCACTTCCTCTCTCACATGAACTTTATAATTAGTTTTCTAGATCTGGGGAAAAGCATGCGGCGTTTTTATAAGGATTACATTACATTTATAA
ATTTACTTTT


SNP Information

Context             (SEQ ID NO:56033):
TCTTTCCTCACTAACAGGTCAAAATATGTATTCTGAATTTTTCTGGAAGCTTCACAGTTCAACCTAAAATCTTTCCTTTAGGTCATTAATCCACCTGGGG
Y
TGAGTTGTGTGTATAGTGTGAAGTGCTGTCCCCTCTCCTTGTTCTCAGATGAGGGCCAGCTACCCTGCACCCTGCATGAAGAGCCCGGCCCCCCTGTTCA
Celera SNP ID:            hCV26891602
SNP Position Genomic:     52636
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56034):
GCTCAGAGAGGCCCCCAGCCTGGCAGAGCCTCCCCGCTTCCTGCCTTATGTGGGTGGCTCTGGACCTAGCTTTGCAGCCTGGGCTGCCACCGGTGACCTG
Y
GAGCTTGAGCATCTTTTCACGTCGTTGCTGGGTCATCCTCCAGCGAGGTGCCTGTTCAGGTCTGGTGACCATTTCCACTGTGCCTTTTCTGGCTGACATG
Celera SNP ID:            hCV26891603
SNP Position Genomic:     52247
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56035):
ATTGCTTGAACCCAGGGAGGGCCAAGGCTACAGTGAGCTGTGATCATAACACTGTACTCCAGCCTGGGTGACAGAGTGAGAACCTGTCTCAAAAAAAAAA
A
GAAAAAAATTAGTCACCCAATATTACTGAAAATAATAGTGCATGTTTGTATTTTACACGTACCCCTGAGCTATTTGGGGTCACAAGGAAGCTGTTAGTAT
Celera SNP ID:            hCV26031594
SNP Position Genomic:     37129
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,6)   total(A,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56036):
CTAATTCTTATATTTTTAGTACAGATGATGTTTCACCATGTTGGCTACAGTTGTGAGCCACCACACCAGGCCTTCTCTCGGAATTTTTTTTTTTTTTTTT
T
GAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCAATCTTGGCTCACCGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCTTGCCTC
Celera SNP ID:            hCV26891604
SNP Position Genomic:     12396
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,9)   total(-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56037):
GACCGAGAAGAAGAGGGGGGCTGGAGGCCATGGCCGCACCCGGAGAAAAGATGCCAGCAAGGCCACAGGGGGTGTGAGGGGACACTCGAGTGCCGCCACC
R
GCAGAGGAGCTGCAGGTTGGTCACCGTCCTCGAGTGGAAACCCGATGGCCAAGCCAGAGTCCCGCAGGTTGAAGCAAGCTGCTCTGCAAGGTGAAGCCAC
Celera SNP ID:            hCV26891605
SNP Position Genomic:     9380
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,15)   caucasian(A,3|G,5)   total(A,18|G,20)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,1)      total(G,1|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:56038):
CGCCCAGAACACAGGTGAGGCCCAGCTTGCGGGGCGGGAGGGCTGGCCATGGGAGGCTGCTGCCTGCATTCGAAGCAGGGGTGCAGGGATGCCCATGTGC
R
ACCCTGCTGAGGCATGTGCTGGTGGGGACCGTGGGGATGGCCCTGAGTGTTGAGAGTGGTCCTGGGAGCCTGCGGGGCCGACTGTGTAGCTGTAGGGGCC
Celera SNP ID:            hCV11525880
SNP Position Genomic:     39769
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,12)   caucasian(A,24|G,14)   total(A,50|G,26)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56039):
TCAAGCAATTCTCCTGCCTCAGACTCCTGAGTAGCTGGGATTATAGGCCCGCGCCACCACGCCAGGCTAATTTTTGTATTTTTAGTGGAGACGGGGTTTC
M
CCATGTTGGTCAGGCTGGTCTCAAACTCCTGACTTCATGATCCGCCCACCTCAGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCATCACGCCTGGCC
Celera SNP ID:            hCV26031595
SNP Position Genomic:     46404
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,13)   total(A,13|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56040):
GGATTCACCACGTTGGCCAGACTGGTCTCGAACTCCTGACCTCAGGCGATCCACCCGCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCG
Y
GCCCGCGTAAATAAGTCTTTATATTGAGTTTCTTTTTCAGAGATTTAGAAAAAAATGGGAAAAAAGTAAGTTCTTTACTTCTCCTTTGCACCCGAAGAAT
Celera SNP ID:            hCV26891606
SNP Position Genomic:     21079
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56041):
GCGACAGGTGGACCTTTTTATCTTTTTTGTTTTTTCCGCAAATGTTTTGAAGGCAACAATTTAGATTTTTTTTTCTTTCTTTCTTTTTTTTTTTTTTTTT
T
GAGACAGAGTCTTGCTGTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCGCCTCTGGGGTTCAAGCAATTCTCCTGCCTCA
Celera SNP ID:            hCV26031596
SNP Position Genomic:     46224
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56042):
GATATTTAAAGTCTTTGCCTGTTTTTCTGTGGATTGTTCTTTTTTGAGGCGGAGTTTCGCTCTGTTGCCCAGGCTGGAATGCAAAGGTGGGATCTCGGCT
Y
ATCGCAACCACCGCCTCTCAGGTTCAAGCGATTCTCCTGCCTCGGCCTCCTGGGTAGCTGGGATTACAGGCATGCGCCACCACGCCTGGCTAATTTTGTA
Celera SNP ID:            hCV11525881
SNP Position Genomic:     41430
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56043):
CCCCGGAGGTTGAAGCTGCAGTGAGCCGTAATTATGCCACTGCACTCCAGCCTGGGAAACAGAACAAAACCCTATCTCAAAAAAAGAAAACTTTTTTTTT
K
TTTGTTTTCTGTTAGGTCAATTAAGAATAAGAAAAGATTTTATTTTACCTTCACTTACTTCTCTCTGATGCTCTCCCTTTTTTTACATACATTTTAGTTT
Celera SNP ID:            hCV26891607
SNP Position Genomic:     20580
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56044):
GCTCACTGCAAGCTCTGTCTCCTGGGTTCACTCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCGCGCCACCACGCCAGGCTAATTT
M
TTATATTTTTAGTAGAGTTGGGGTTTCACCGTGTTAGCCAGGATGGTCTCCATCTCCTGACCTCGTGATCTGCGCACCTCTGCCTCCCGAAGTGCTGGGA
Celera SNP ID:            hCV26031597
SNP Position Genomic:     45997
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56045):
AAGCGATTCTCCTGCCTCGGCCTCCTGGGTAGCTGGGATTACAGGCATGCGCCACCACGCCTGGCTAATTTTGTATTATTAGTAGAGACAGGGTTTCTCC
R
TGTTGGTCAGGCTGGTCTTGAATTCCTGACTTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTATGAACAACCGTGCCCGGCCA
Celera SNP ID:            hCV11525882
SNP Position Genomic:     41556
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56046):
ACATCTGTGTTGTTTCCACTTTGGGGCTGTTGGGAATGGTGCTGCTGTAAACATTCATGGGCAGCGTCCTGTGGGGACAGGTGTGTCATTTCTGCTGGGT
R
TGCATGTCTCCAGGAGTGGCAGTCCTGGGCCACTGCTCCACACTTAACCTCTCAGGCACATGCCAGATGGTCTTCACTAGGCTGTGCCAGTTCACGTCCC
Celera SNP ID:            hCV94250
SNP Position Genomic:     30396
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56047):
ATTAAGCTTTTAATGGCCATGGGATTAACAGTGATTGACCCCCTCCCTTCTTTTTTTTTTAAATGATATCAATAATTTGTACCTTCTCTCTTTTTTTTTT
T
CCTTTTTTCTTTCTTGAGACAGGGTCTTGCTCTGACACCCAGGCTGAAGGGCACTGGTATGATTTTGGCTCACCGCAACCTCCGCCTCCTGAGCTGAGGT
Celera SNP ID:            hCV26891608
SNP Position Genomic:     19581
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,9)   total(-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56048):
CATGAAAATTTAAATTTCTTGCAGGAAATTTAAATTTTTGTTTTTGTGTTTTGGTTGAGATTTCAATAAAAGAAAAATGAAATCAGAAAAGAAATGCCTA
S
AAAAGCCTGTCTGGTTTATTTAAAGAGGTGGAAAGTGACAAATAGACTAGGTCCTTTATAGTATTTTTTGTTTCATGTTTAAATTTATTTTTTTCTAATG
Celera SNP ID:            hCV25743452
SNP Position Genomic:     25545
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,36)   caucasian(C,3|G,37)   total(C,5|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:56049):
TTCTTACCGTACAAGAAAGCAAAAGCCCCTTGAGGTCCCTCAGTATCCCTTCCCACCACCTGCACCCCACAGGTGGAGAAATTGCCTGCTTTTAGGGAGA
Y
AGCAGTGTAGGCCTCTGAAGTAGAGGAGAGCCACCAGGGATGGGGAGTGGTTGAAGTATCTTTATTTTTTAATTATAGAAGTAATACACAGTTTTTTTAA
Celera SNP ID:            hCV78689
SNP Position Genomic:     37342
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56050):
CACTCATGGTGCCTGCCCCAGACAGGTGGACTTTTTGTTGTTGTTGTTGTTTTTGAGACGGAGTCTCGCTTTGTGGCCCAGGCTGGAGTGCAGTGGTGCA
R
TCTCGGCTCACTGCAAGCTCTGTCTCCTGGGTTCACTCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCGCGCCACCACGCCAGGCT
Celera SNP ID:            hCV26031598
SNP Position Genomic:     45891
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56051):
ATGATACTGCTCTATTAAGCTTTTAATGGCCATGGGATTAACAGTGATTGACCCCCTCCCTTCTTTTTTTTTTAAATGATATCAATAATTTGTACCTTCT
Y
TCTTTTTTTTTTTCCTTTTTTCTTTCTTGAGACAGGGTCTTGCTCTGACACCCAGGCTGAAGGGCACTGGTATGATTTTGGCTCACCGCAACCTCCGCCT
Celera SNP ID:            hCV26891609
SNP Position Genomic:     19568
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56052):
GTTACAGCCGAGTCCCCACGCTCACAGCCAGATCACGGGCTCCACGATGGCTGTTCCTTTTCCGTGTACCTTTTTTGAGTTAAAAATGTTATTTTTTTTT
K
GTTTGCTTAATGTTTACATGCTTATCCCTGAGTCAGCACCATGCGTTCTGCCGGTATCTAAAACTCAGCTTGGGTACTCAGATGTGATACCTGAATTCCA
Celera SNP ID:            hCV26031599
SNP Position Genomic:     47283
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56053):
TTTCCTTTTTACATTACCACCTAGACCTTTAATCTCTCTCACATTTGTTTTTTGAGTGACGCAGCGTATAATTCTAACTCTTCCAGATGAGTGACCCAGT
R
GTCCCAACACCATTCATCGAATTCCATCCTGACTCCACAGATTTGGAATGTCATACATACATTAAACCACATCCACATAAATATAGGGGTCTGTTTCTTT
Celera SNP ID:            hCV11525884
SNP Position Genomic:     42336
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56054):
ACTGGGGGTCAGTCCTGATCCCGTCCCCATCAGTCTGTCTGCTGCTTTTGCGGGCCTGGAGGAGACGCCGGGGGTCAGTCCTGATCCTGTCCCCGTCAGC
Y
GTCTTCTGCTTGTGCGGGCCTGGAGGAGACACTGGGGGTCAGTCCAATCCTGTCCCCATCAGTCCGTCTTCTGCTTGCGCGGGCCTGGAGGAGACACTGG
Celera SNP ID:            hCV27965119
SNP Position Genomic:     34952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56055):
GAGCCCCGTGGCAGTCGCTGTGGGGTGTGCTCCGCACAGGCCAGAGAGCCGGCCCAAAAACCTGAGGTTTGCAAAGCCTCTTTCTTTCTTTTTTTTTTTT
T
GAGAAAACGTCTCTGTCGCCCAGGCTGGAGAGCAGTGACACGACCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTTGTACCTCAGCCT
Celera SNP ID:            hCV11525057
SNP Position Genomic:     33069
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56056):
GCCAGCAGCGATTCCTTGAGGGTACATTGTTAGCACGTCTATGAACCACGTGTTCGCGGTCTTGCTTGCCCACTGAGTTATAAACGTTCTTGATACAGTA
R
GGATACCAACGCCTGTTAAATATTATTCACCTGTTTCCTAAGTTCAGCAATTTAACACTTGCTTCAAAATCTGTTTTCTTTTTATTCCTTTATGGATTCA
Celera SNP ID:            hCV445059
SNP Position Genomic:     15800
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56057):
CTCGGCCACTGGGCCAGGCCACATGTGCGGCCCTCCTTGGTTCCAAGCTGTTCTTGGACGTGGTCTCCTCCACCCCCAGAGCCTTTGCTTTCCTTTCCCC
M
GATCTTCTTTTCCCAGACTTCCTGGAATTTATAATCCAAAGGTTGTGTAATTTCAGAAGCTGCGATGGTTCCAAGAACTCCTGTCCCCGTCAGTCCGTCT
Celera SNP ID:            hCV28958030
SNP Position Genomic:     34725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56058):
GGCGCCTGAGGCGGGGCTGCGCTTCCGGGGCGGGGCCGGCGGAGGCTGGAGGGGGCCGCCCGGGAGCAGAGGCAGGACTTGCGGCGCGTGCCCCTCACCC
Y
AGCCCGGGGCTGTCCTGCCTCGTGGGGAGTGTGAAGGCCATGCCCGGCGCCGCGGCCCTGGTGCCCCTGTTCCACTGGGACCCTGGGGGGCGCCGCCAGG
Celera SNP ID:            hCV28958031
SNP Position Genomic:     32643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56059):
ATACATTTTACTGGTTACTTTATTTACCATTGTTTGCTGTATCCAAGTTTCCCCTCCTTTTTGGCAGTATTTAATGACTTTTTTTTTTTTTTTTTTTTTT
T
GAGACAATCTCAGACTGGAGTGCAGTGGCATGATCTCGTCTTACTGCGGCCACGACCCCCTGGGCTCCAGCGATCCTCTCACCTGAGCCTCCTGAGTAGC
Celera SNP ID:            hCV11528211
SNP Position Genomic:     14250
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56060):
GCGCGGTGGCGTGACCCTGGCGCTGGGGGGCGAGCGCGGCCCTCCCGGTCCCGCAGGCGCAAGAGAGGGCGGAGATGCGGCGCCTGAGGCGGGGCTGCGC
W
TCCGGGGCGGGGCCGGCGGAGGCTGGAGGGGGCCGCCCGGGAGCAGAGGCAGGACTTGCGGCGCGTGCCCCTCACCCTAGCCCGGGGCTGTCCTGCCTCG
Celera SNP ID:            hCV28958032
SNP Position Genomic:     32565
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56061):
GCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCACCGTGCCCAACCTCAGGGTGCTTTTTTTCTTTCTTTTTCTTTTTCTTTTTTTTTT
Y
TTTTTTTTTTTTTTTTTGAGAAGGAGTCTTGCTCTGTCACCCAGGCTGAAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCACCTCTTGGGTTCAA
Celera SNP ID:            hCV26333616
SNP Position Genomic:     61081
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56062):
GATGAGGGGCCGGGAGAAGACCCCGTGGCTGGGGAAGCAGGAGTGGGGAGGGCGGGGCCTCCGGGCCGAGGGGCGCGGTCGCTGTGGTCTGTGGAGGGGC
Y
GGCGAGGCTCCCGCCTCTGCTCTTGCTGGAGCTCTTGAGTGAGCCCTGTGACGCCTGCTAGGTGAGGTGGCAGCCAGTGAGCGCGCCCCACCGCCCAGCG
Celera SNP ID:            hCV28958033
SNP Position Genomic:     32320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56063):
TTGCTTGATGTTTTCCGAGCTTCCTGGATCTGTGGTTTGGTGTCATCGATAATTTTGGAAAACTCTGAACTATGGTTAATTCAAATACTTCTGCTCCTTT
Y
ATCTCTTTCTGGCATTCCCATTATGCTCATGTAACACTTTTGCCCCACAATTCTCCAATATTCTGATTTTTTTTTTCCGTTTTTTTCTCTTTGCATTTCA
Celera SNP ID:            hCV458122
SNP Position Genomic:     21480
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56064):
CCGCCCCAGGCCTCTGAGCCAGGCCAGACCCTGAGGCTTCTCAGGGGCCACCCCCCCAGCTCCCAGAGGCCCCTCCTGTCCTCCAGCGAGGCACTGACCC
M
CCACTTCTCACAGCATCCGTATGTGTGTTTTGGTGGCTGTGGGTTGTATCTGTGACCTATTTTCCCTCAAAATCAAGTTCAGGGAAAAGGTTTTTTCGTT
Celera SNP ID:            hCV71531
SNP Position Genomic:     31732
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56065):
GCAAGGCCACAGGGGGTGTGAGGGGACACTCGAGTGCCGCCACCGGCAGAGGAGCTGCAGGTTGGTCACCGTCCTCGAGTGGAAACCCGATGGCCAAGCC
R
GAGTCCCGCAGGTTGAAGCAAGCTGCTCTGCAAGGTGAAGCCACACCCAGGGCGGCCCAGGAGGCCGCCAGCCAGGAGCAGGCCCAGCAAGCTCTGGAAC
Celera SNP ID:            hCV27835065
SNP Position Genomic:     9436
SNP Source:               Applera
Population(Allele,Count): african american(A,22)   caucasian(A,5|G,1)   total(A,27|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56066):
GCTGAAGGGCACTGGTATGATTTTGGCTCACCGCAACCTCCGCCTCCTGAGCTGAGGTGATCCTCCCACTTAGCCTCCTAAGTAGGTGGGACTACAGATG
S
GTGCCACCATGCCCTGCTAATTTTTGTATGTTTTGTAGAGACAGGGTTTTGCCATGTTGCCCAAGCTGGTCTGGAACTCCTGAGCTCAAGCTATCTGCCT
Celera SNP ID:            hCV64421
SNP Position Genomic:     19724
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56067):
GGAGTACAGTGGCGCGATCTCGGCTCATTGCAACCTCTGCCCCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGAGTACAGGCACG
Y
GCCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGACTGTGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCC
Celera SNP ID:            hCV64423
SNP Position Genomic:     18819
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56068):
AGCACAGGCTGTGCCATACAGCCTAGGTGCGTGGTACGCGGTAAGTGCACTCTGTGACGTTTGTACAATGATGAACTTGCCTCATGACGTGTTTGTCAAC
R
CATCCCCCATCAGTAAGTGCTGCTTGACTGAAAGGTGAAGTAAGTGTGCCTTGTTTGGAGGGCATCCATCCCCTTAACCTGGCTGGCACTCGGGCTGTGT
Celera SNP ID:            hCV26707777
SNP Position Genomic:     23495
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56069):
GCTTCTGGCTTTTCTCGAAATATTAGATCTGCAGTAGGTGCTGCAGCTTGGATGGCAGCAGACCCTGGGGCCAGGAGCCAAGGCCCTGAGCTGTGAGGCC
R
ACCTCACTCCCCACCACATCCCCTGCTCTGAGGCCACCCAGAACCCTGTGCTGCAGTAACATAGTAAACACTCTTGGGATAAAATGCTTTTAGTTTTTTT
Celera SNP ID:            hCV487953
SNP Position Genomic:     27328
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,6)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56070):
GGGGTCACAAGGAAGCTGTTAGTATGTGGTTCTCATATTCTTACCGTACAAGAAAGCAAAAGCCCCTTGAGGTCCCTCAGTATCCCTTCCCACCACCTGC
W
CCCCACAGGTGGAGAAATTGCCTGCTTTTAGGGAGATAGCAGTGTAGGCCTCTGAAGTAGAGGAGAGCCACCAGGGATGGGGAGTGGTTGAAGTATCTTT
Celera SNP ID:            hCV78690
SNP Position Genomic:     37305
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56071):
CGTTCTTGATACAGTAAGGATACCAACGCCTGTTAAATATTATTCACCTGTTTCCTAAGTTCAGCAATTTAACACTTGCTTCAAAATCTGTTTTCTTTTT
R
TTCCTTTATGGATTCATTATCTACATATAATTCTTGAAATCTGGATTGTCAAAATCCAAGTACAAAACAAGTGAACCTTAATGTAAACTATGGACCCTAT
Celera SNP ID:            hCV26891610
SNP Position Genomic:     15884
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56072):
GAAGAGGAGAGGTGGGAGGTGAGAGGCACCGGGCAGGGCGCTGTGTGTGGCTCCAGCCCTCTCTGGCCCTCTGCACCTGCCCCAAGGTATGCGACTCACA
M
CACAGTGGTGTCATTTGTTTTAATTTGAACAGATGTTTAGAAATTGGGATATTTTAGCCTAAAATCAGCTTCTGGCTTTTCTCGAAATATTAGATCTGCA
Celera SNP ID:            hCV487954
SNP Position Genomic:     27160
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,8)   total(A,5|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56073):
TGAGCTGTGAGGCCAACCTCACTCCCCACCACATCCCCTGCTCTGAGGCCACCCAGAACCCTGTGCTGCAGTAACATAGTAAACACTCTTGGGATAAAAT
K
CTTTTAGTTTTTTTAAGTTTTCTGCTTTTTGAAATATTAATTTGTTTGGGGAGGTTTTTCTTTATAACATTTTTATTGAGGTGTAATTCGCATAAGTGAA
Celera SNP ID:            hCV11525748
SNP Position Genomic:     27414
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56074):
AATTTTCTTACTCATTCTTAAGCATTTCCTCTTCTAGATGAACTTTTGAATAAACATCTCAAGGCTTATAAAATGTACATCAAGACTGCATTGAATACAT
K
AATGAATTTGGGTAGAATTGACATATTTTCATGGGTAGCAATATGCAGCGTGACAGTGTATTACGGTGACTTTAGGTCATGTTTTGTGTATTTTAGTATA
Celera SNP ID:            hCV27965120
SNP Position Genomic:     42941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56075):
AGGGACAGTGGCTAGGCTGCTGCCACGTTCCACGCGGCCCGAAGTGGTGGAGGGTGCAGGGGGAGCGGCCCCAGGAGCAGGTTAACCTGGTGAGGTGCAG
Y
GTAGACAGAAGGAGGCGCCGCCGCTGCTTGTTTACTGCCTGACCTGTTGTCCCTGTCCAAATTAAACTCCATTAAGATTCAGAGCAAATAACAGCAAGCC
Celera SNP ID:            hCV487955
SNP Position Genomic:     25899
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56076):
AGCCTCGTTTGTCTTTCTTCGTCTGCTTGTCCACTTCCTTACCAGTAACACATTTTTAGCTCTCACAGCTGTATATTACATGTTAATGTCTAAGGGAACG
K
TTCCCACATTTTTTCTCCAAATTTTCTTACTCATTCTTAAGCATTTCCTCTTCTAGATGAACTTTTGAATAAACATCTCAAGGCTTATAAAATGTACATC
Celera SNP ID:            hCV27965121
SNP Position Genomic:     42821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56077):
GCAAGAGGCTGAAGAAAGATGTGGAACCAAGCTGCAGTGGGAGCAGCCTGGGACCCGACAAGGGCCTGGCCCAGAGCCCTCCCAGCTCATCACTTACCGC
R
ACACCGCAGAAGCCTTCCCAGAGCCCCTCTGCCCCTCCTGCCGACGTCACCCCAAAGCCAGCCACGGAAGCCGTGCAGAGCGAGCACAGCGACGCCAGCC
Celera SNP ID:            hCV29271251
SNP Position Genomic:     9892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56078):
ACTCGTCACTCCGCCCAGACCTCTGGCCAGTCCCTCTTTCATAAAATTCACCTAACCTCCAAAGCTCCTTCCAGCTCTGAAATTCTGTGATCTGGGCTGT
Y
ATTGTCTTTTACTTTCTTCTGAGACGTGATCTTTCATAGTGGAACTACAATTCCCAGAATGCACCATTTAAAGTTAGCATTCACTTCCTGCAGAGCCATT
Celera SNP ID:            hCV487956
SNP Position Genomic:     25221
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56079):
ACTTGTTTTGCTTTTACAGTTGATTATTTTAAGGGGAGACATTTAATTATTTCTAATTACTTTTTGTCATTTGTCCTGTAGGTTCCCCCTAAAGGACTCA
M
AACGTCTAATCCAATGGTTAAAAGCTGTTCAGAGGGATAACTGGACTCCCACTAAGTATTCATTTCTCTGTAGTGAGCATTTCACCAAAGACAGCTTCTC
Celera SNP ID:            hCV27852590
SNP Position Genomic:     9116
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,18)   total(A,53|C,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:56080):
AGAAGCCGCACTCGTCACTCCGCCCAGACCTCTGGCCAGTCCCTCTTTCATAAAATTCACCTAACCTCCAAAGCTCCTTCCAGCTCTGAAATTCTGTGAT
S
TGGGCTGTCATTGTCTTTTACTTTCTTCTGAGACGTGATCTTTCATAGTGGAACTACAATTCCCAGAATGCACCATTTAAAGTTAGCATTCACTTCCTGC
Celera SNP ID:            hCV487957
SNP Position Genomic:     25212
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56081):
AAGATGAGTCTCCAGCCACCCTCTAGGAGACAGAAAAGGACATGCCAGGGGTGGCCAGAGGGACTGCTCTGGAGAGAGAAAGCATTTAGGATGTGCCTGT
Y
TCTGTGGTGTTGCCTTCCTCTGCTGTAGCTGGTGGAGGAGGCTGAGGGTAGAAGCCGCACTCGTCACTCCGCCCAGACCTCTGGCCAGTCCCTCTTTCAT
Celera SNP ID:            hCV487958
SNP Position Genomic:     25062
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56082):
GAAGATGAGTCTCCAGCCACCCTCTAGGAGACAGAAAAGGACATGCCAGGGGTGGCCAGAGGGACTGCTCTGGAGAGAGAAAGCATTTAGGATGTGCCTG
K
CTCTGTGGTGTTGCCTTCCTCTGCTGTAGCTGGTGGAGGAGGCTGAGGGTAGAAGCCGCACTCGTCACTCCGCCCAGACCTCTGGCCAGTCCCTCTTTCA
Celera SNP ID:            hCV487959
SNP Position Genomic:     25061
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56083):
GGATGGGTAAGCCTGCTTTCAGTGTCTTGGGCCAAAACATGAAAATTTAAATTTCTTGCAGGAAATTTAAATTTTTGTTTTTGTGTTTTGGTTGAGATTT
Y
AATAAAAGAAAAATGAAATCAGAAAAGAAATGCCTAGAAAAGCCTGTCTGGTTTATTTAAAGAGGTGGAAAGTGACAAATAGACTAGGTCCTTTATAGTA
Celera SNP ID:            hCV1499301
SNP Position Genomic:     25508
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,7)   caucasian(C,24|T,14)   total(C,45|T,21)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56084):
TCAGCCTCCCAAGTAGCTCGGATTACAGGCTCCCACCACCATGGCCGGCTAATTTTTTGTATTTTTAGTAAAGACGGGGTTTCACCATGTTGGCCAGGCC
K
GTCTCGACCTGACGTCAGGTGATCCACCCTCGTTGGTCTCCCAAAGCGCTGAGATGACAGGCGTGAGCCACCATGCGCAGTCTAGAACCAAATGTTTTAA
Celera SNP ID:            hCV1499302
SNP Position Genomic:     57997
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56085):
TTCATTTTCTCCCTGATGCTCTTTGTCTCCTTCACACACTCTTCACACCAGGGCACCGTGCCTCCCGTGTGAGCTGCTTTCAGCCTTGCTGTAGGACATG
K
AGGACCCCTGAGCTATTTGGGGTCACAAGGAAGCTGTTAGTATGTGGTTCTCATATTCTTAACTGTACAAGAAAGCAAAAGCCCCTTGAGGTCCCTCAGT
Celera SNP ID:            hCV1499304
SNP Position Genomic:     35958
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56086):
CCCGCCTGCCCCTGGGCCCTCACACTCTGGCTGCTCCGAGACCCTGCATCCCCTTTCATTTTCTCCCTGATGCTCTTTGTCTCCTTCACACACTCTTCAC
R
CCAGGGCACCGTGCCTCCCGTGTGAGCTGCTTTCAGCCTTGCTGTAGGACATGTAGGACCCCTGAGCTATTTGGGGTCACAAGGAAGCTGTTAGTATGTG
Celera SNP ID:            hCV1499305
SNP Position Genomic:     35904
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56087):
CCTGGGGGCTTTGGGGACCTCTACCGAGCGACTTAATGGACAGAAGCTGGAAGCACAACCTGAGGGGCTGGGCCTCCCCATTGGGTTGACATCAGCAGGA
Y
TGAGGAAGCCAGGAAGCACACACAGAAGGCAGGGACCTTGAGGCTAGAAGGAGAGCAGGAGGCAAGAAGAGCTGGGTCTTGGAGGGCCAGTCCTACTAGG
Celera SNP ID:            hCV26031600
SNP Position Genomic:     44933
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56088):
ACTTACAGGCTTTCTTTGACCATTTAGAAGGCCAGTTTGCATGACTGTTCCAGAGGAACTTGAAGAAGGCATTCCTTAGTTTTGTTTTTGTTTTTGTTTT
T
GTTTTTGTTTTGAGATGGAGTTTCGCTCTTGTCACCCAGGCTGGAGTGCAATGGTGCAATCTCGGCTCACCGCAACCTCTGCCTCCCAGTTTCAAGCGAT
Celera SNP ID:            hCV26031601
SNP Position Genomic:     27924
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56089):
GTTGGAGACTTATTTTACGCCCCAGTATATGGCCTAACTTCATGAATATTTCATGTACACTTAACGAATGTAGCATTCAATAGTTATAAAAGTCCCCTCC
R
CAAGCTGGAAACCCTGGGATGCCAGTGTCATGGCTCAGTCCAAGTCCAAAGGCTTCAGAACCAGGGAAGTCAGTGGTGTCACTCTTGGTCCTGGGCCAAA
Celera SNP ID:            hCV1499309
SNP Position Genomic:     59513
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56090):
ACTCTCAGAAAAAGCAAATATCAGAAACTGTTAAAATCATGAGGAGGTTCTTTCTGTTCACGTTTTAAGGAATATCCTTGAAGTTAAATCATCATGAACA
K
TAATAATTATTTTAACATCTATTCAATTAAAACATCTGTTGAGGCTGGACTCGGTGGCTCACACCTGTAATCCCAGTACTTTGGGAGGCTAAGGTGGGCA
Celera SNP ID:            hCV27962081
SNP Position Genomic:     10734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56091):
CCTCTGAAACACATTTTCAAGCAAACCTGCTGTTTTCAGCCTTCATCCACGGCCACTGGTAGAGACACTCAGGCCACGCCACGGAGCTTTTGTGGGGTGT
T
AAGGCAGGCTGTTCGCCTGTCCCCAGTGCTGCATTCAGCCTCGGCCTTCCTGGGTCGGCTGTGTCGGGTCCCCGTGTGCGTCTCATTTCCAGCCCCTCAC
Celera SNP ID:            hCV11535556
SNP Position Genomic:     50780
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56092):
GTGAGGCTTTCCTTTAGCTGCTCCGTGGCATCTGGGGGATCAGGCTGGGATGGGACGTGTGAGTGTCTTTACTGTTTGTGTGGGTGTTGGTGGGCATGGC
S
CAGACTGCAGGCCCCACAGAGGGTAGCAATGCCTCAATGAGCTGTGTACTGAGCCTGGTGGAGCCTGTGAGCTGCCGAGGGTCCCTGGCCAGCTTGCCCC
Celera SNP ID:            hCV27896731
SNP Position Genomic:     51787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56093):
TGTTTTTTGTTTTGTTTTGTTTGAGACAGAGCCTTGCTCTGTCGCCAGGCTGGGGTGCAGTGGCGTGATCATCTCAGCTCATTGCAACCTCCACCTCCCA
K
GCTCAAGCAATTCTCCTGCCTCAGCCTTCTAAGTAGCTGGGATCACAGGCGCCCGCCACCAGCCCCAGTGTCGTATTTTTAGTAGAGACAGGGATTCACC
Celera SNP ID:            hCV11528198
SNP Position Genomic:     20887
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56094):
ATAACTGGACTCCCACTAAGTATTCATTTCTCTGTAGTGAGCATTTCACCAAAGACAGCTTCTCCAAGAGGCTGGAGGACCAGCATCGCCTGCTGAAGCC
Y
ACGGCCGTGCCATCCATCTTCCACCTGACCGAGAAGAAGAGGGGGGCTGGAGGCCATGGCCGCACCCGGAGAAAAGATGCCAGCAAGGCCACAGGGGGTG
Celera SNP ID:            hCV27846656
SNP Position Genomic:     9253
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,17|T,1)   total(C,51|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:56095):
CTCCTCTCCCTAGGCTCTGGGAACCCGCATTCTCCTGTCTCTATGAATTTGATTACTCTGAGTACCTCATGTGAGTGGTATCATGCAGTGTTTGTTTTTT
K
GCACCTGCCCTATTTCATTCAGTATAATGTCCTCAAGGATCATCTGAGTTGGTTGATTTTTTTTGAGGGGAGAAGACCGGGTTTCACTCTGTTCCCCAGG
Celera SNP ID:            hCV154887
SNP Position Genomic:     8282
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56096):
AGCTGCCATAGGCTTGGATTCTTGTTGGAAACAGCTGCTATAATTTATTCTGATGAATTACTGTTCCAAAGATGGTATTTCTGAGCTTTCCAAGAACACA
Y
TGGACATCAGTTCTAGTTACAGTGAAAGTGGGAGGCAGTGGAGAAGGGAAGCACTGGAAGCTCAGCGCTTGTCTGATCAGGTATATGATTTGTAGAGACC
Celera SNP ID:            hCV29072414
SNP Position Genomic:     61839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56097):
CACTGTACTCCAGCCTAGGTGACAGTGAGACCCTGTCTCAAAAAACAAAATTTCCTGTGTAATCTTTGTATGTATATTAGCTCTATTTCTGTTTTTTCCC
R
TATTTTACTGTTAAGTATTTCTTAAAATTGGTTTCTAGATGTTTACATATGGCGGATGGTTTCCTTTGCCTGTCGTGTACATAGGAAAACCATATTCCTA
Celera SNP ID:            hCV461115
SNP Position Genomic:     11752
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56098):
TCAGTTAGCATTTTTGGTTTGCAGCAATTTCCTTTTTGTTCTTTTGTCCATCACTCCTCTTACATTGCCCATGTTTTCTTGCCTATCACCCACTTTTTCC
R
TTAGAGCCCTTAGCATATTAATTGTACTGATTTTATTATTATTACTATTATTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACA
Celera SNP ID:            hCV36394
SNP Position Genomic:     21773
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56099):
TCATCCACCTCCCAAGTTCTATTCCTTGTTGTTATTAAAAATTTGGTGTGTAAGCCAGGCACAGTAGCTCTTGCCTGTAATCTCAGCACTTCGGGAGGCC
R
AAGAGGGAAGGTTACTTGAGTCCAGAAGTTCAAACCAGCCTGGGCAACATAGGGAGACCCCATCTCTATAAATAATTTAAAAATTAGCCGAGTACCATGG
Celera SNP ID:            hCV461116
SNP Position Genomic:     11460
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56100):
TCAGAAACTGTTAAAATCATGAGGAGGTTCTTTCTGTTCACGTTTTAAGGAATATCCTTGAAGTTAAATCATCATGAACATTAATAATTATTTTAACATC
Y
ATTCAATTAAAACATCTGTTGAGGCTGGACTCGGTGGCTCACACCTGTAATCCCAGTACTTTGGGAGGCTAAGGTGGGCAGATCACTTGAGGTCAGGAGT
Celera SNP ID:            hCV461117
SNP Position Genomic:     10754
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56101):
GGTCTCGAACTCCCGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAGCTTCTCTTGGAATTTTAAAGCTGTTTGTAGTTATCAGAGCTAATGCTGCTTT
W
GACAGCTTCTCTCTGTTCCTCTTGGTTAAACTTCCTGAAGTTTGTCTCCATTACAGGTTTTTGCAAACAGCCAGCCCTTCGTGTCTCTGAGTTGTTGTTT
Celera SNP ID:            hCV461118
SNP Position Genomic:     12694
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56102):
AACTCCTGACCTGAGGTGATCTGCCCGTCTCGGCATCCCAAAGTGCTGGGATTACAGGTTCAGTGAGCCATTGCGCCCGGCCCAAAGCCTCTTTCTTTTC
R
GTGCTGAGCTGGATAAAGTCTACCAAACTGAAAGGTCTCCAAGGCTATAGCTGGCTGTCTGAGAAATTATGGTGTTTGTTTAGCCCATCTTAGGACTTGG
Celera SNP ID:            hCV128618
SNP Position Genomic:     33369
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56103):
CGTGCAAAAATACTTGTTTTGCTTTTACAGTTGATTATTTTAAGGGGAGACATTTAATTATTTCTAATTACTTTTTGTCATTTGTCCTGTAGGTTCCCCC
Y
AAAGGACTCAAAACGTCTAATCCAATGGTTAAAAGCTGTTCAGAGGGATAACTGGACTCCCACTAAGTATTCATTTCTCTGTAGTGAGCATTTCACCAAA
Celera SNP ID:            hCV27833054
SNP Position Genomic:     9105
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,16)   total(C,1|T,51)
SNP Type:                 UTR 5


Context             (SEQ ID NO:56104):
TTTCTGAGACAGGGTCTCGCTCTGTCACCCAGGTTGGAGTGTAGTGATGTGCTCTCGGCTCATTGCGATCTCTGCCTCCCAGGCCCAAGCGATCCTCCCA
S
CTCAGCCTCCTGAGTAGCTGGGACGACAGGCACGTGCCACCACGCCCAGCCAATTTTTTGTAGTTCTGGTAGAGACAGTGTTTTGCTATGTTGCCTGGGC
Celera SNP ID:            hCV94248
SNP Position Genomic:     29166
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56105):
GACATCTGTGTTGTTTCCACTTTGGGGCTGTTGGGAATGGTGCTGCTGTAAACATTCATGGGCAGCGTCCTGTGGGGACAGGTGTGTCATTTCTGCTGGG
W
ATGCATGTCTCCAGGAGTGGCAGTCCTGGGCCACTGCTCCACACTTAACCTCTCAGGCACATGCCAGATGGTCTTCACTAGGCTGTGCCAGTTCACGTCC
Celera SNP ID:            hCV94249
SNP Position Genomic:     30395
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56106):
TATCCAAGTAGCCTGCTGTCGCCCAGCCGCGGTCAGTACCGGAGCCTCGCGTACCCATGTTCCCTTCCCGTTAGGAGGGGTTTCTCTGCAAGGTGGCCAG
Y
GTCCCCTGAGCATTTCTGGGAGGTGTCACAAGCTCCCTGCGCTCTCAGGAGGAAGCTCTGGTCGTAACCATACCTTGTGGATGAGGGAATCCAGGTTAGA
Celera SNP ID:            hCV25770378
SNP Position Genomic:     10329
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,37|T,1)   total(C,71|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:56107):
ATTCCTATCCTGTGCCTTGCCTTTCTGTTTCCTAGACAGTACCATTTGAAGAACCAAATGTTGTTTTTTTTGGTGGGGGTGGGGGGTTTCTTTTCTTTTT
Y
TTTTTTTTTTTTGAGACATTGTTTGCTCTCGTTGCCCAGGCTGGAATGCAATGGCCTGATCTCAGCTCACTGCAACCTCTACCTCCCAGATTCAAGCGAT
Celera SNP ID:            hCV26333608
SNP Position Genomic:     57787
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56108):
CAAGATGAACCCAGTGGTGGAGCCACTGTCCTGGATGCTGGGCACCTGGCTGTCGGACCCACCTGGAGCCGGGACCTACCCCACACTGCAGCCCTTCCAG
W
ACCTGGAGGAGGTTCACATCTCCCACGTGGGCCAGCCCATGCTGAACTTCTCGTAAGTTGTCTCCCTCCACCCCACCCTGCTTGACTCATGGGCCGCCTA
Celera SNP ID:            hCV28958027
SNP Position Genomic:     36486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56109):
CCTGATCCCGTCCCCATCAGTCTGTCTGCTGCTTTTGCGGGCCTGGAGGAGACGCCGGGGGTCAGTCCTGATCCTGTCCCCGTCAGCCGTCTTCTGCTTG
Y
GCGGGCCTGGAGGAGACACTGGGGGTCAGTCCAATCCTGTCCCCATCAGTCCGTCTTCTGCTTGCGCGGGCCTGGAGGAGACACTGGGCATCAGTCCGAT
Celera SNP ID:            hCV28958028
SNP Position Genomic:     34965
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56110):
GGTTCCAAGAACTCCTGTCCCCGTCAGTCCGTCTTCTGCTTGCGCGGGCCTGGAGGAGACACTGGGGGTCAGTCCTGATCCCGTCCCCATCAGTCTGTCT
K
CTGCTTTTGCGGGCCTGGAGGAGACGCCGGGGGTCAGTCCTGATCCTGTCCCCGTCAGCCGTCTTCTGCTTGTGCGGGCCTGGAGGAGACACTGGGGGTC
Celera SNP ID:            hCV28958029
SNP Position Genomic:     34892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56111):
CGAGCGAGACTCTGTTATCAGAAAAGAAAAAAAAAGATCTTCACATACTATTCAGATTGCTCACAGTGTGCAATTCTGTGGTTTTTAGTATGTTCACAGC
Y
CTGTGTACCCATCACTACAGTTAATTTCAGAACATTTATCTTCTGTGGCACAATCATAACTCACTGCAGCCTCAACCCCCCTGGACTCAGGTGATCCTCC
Celera SNP ID:            hCV127424
SNP Position Genomic:     49405
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56112):
ATTTTAGTATATAGAAAAGCTTTATTTCTTTATAGTTTTAATTATACAGGTCTTGTACATTTCATGTTAGGGTAAACTCAAGTGTTTTATCATTTTTGTT
R
CTTGTAAATAGATTTTTTCCCATTTAATCTTCAGATTGATTATTGATAATTGTGTGGACACTTCTGATTTCTCTGTGTTGAACTGGGCCACTGGTGTAAC
Celera SNP ID:            hCV442109
SNP Position Genomic:     43131
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56113):
AACATTTATCTTCTGTGGCACAATCATAACTCACTGCAGCCTCAACCCCCCTGGACTCAGGTGATCCTCCCACCTCAGCCTCCTCAGTAGCTGGGACTGC
R
AATGCGCACCACCACACCTGGCTCATTTTTTTGTTTGTTTTTGATTTGGGGTTTTTCTTTAAGAGAGGGTCTCATTCCATCACCTAGGCTGGAATACAGT
Celera SNP ID:            hCV127425
SNP Position Genomic:     49536
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56114):
TGTGCTGTATTTTGTTTATCCATTCCTCATTGATGGGCAAGTTGTTCGTTACTGAATCTTGGCTGTTAAGAAGAATACTGTGCCTCGCGTGGTGGCTCAC
R
CGTGTAATCCCAACACTTTGTGGGGCTGAGGCAGGAGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGGACAACATAGCAAAACCTGGTTTCACAAAA
Celera SNP ID:            hCV127426
SNP Position Genomic:     50390
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56115):
GCGTGACAGATAAGAGTGGCATTTCTATGGATGACTTTACGCCCCCAGGATCTGGGGCGTGCAAATTTATCGGCTCACTTCATTCGTACAGTTTCTCCTC
Y
AAGCACACCCGAGAAAGGCCATCTGTCCCCCGAGAGCCCATTGACCGCAAGAGGCTGAAGAAAGATGTGGAACCAAGCTGCAGTGGGAGCAGCCTGGGAC
Celera SNP ID:            hCV1499298
SNP Position Genomic:     9745
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,6)   caucasian(C,1|T,1)   total(C,5|T,7)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Gene Number:                 308
Celera Gene:                 hCG1776934 - 206000044146590
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(39292100..39305065)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12468):
TTATCTCAGAATGCTTGCTCAGCATATATCTGGGGCTAGTTAATCGATCCAAAGTAATACATCTGAAAGAATATACGCATGTAAAAGTCCCACTCCAATA
CACACCTGGGATAGTGGATTTTGGTGAAGGCAGTTGATTCCACCAACAAAAACCATATTGGGCATGATGGGCCTAGGGTAATCCTTCACAAAGTCACTTC
TAAACAGCCAGACAGATGCAGAGCTCAATAGGTCCTGGACAGTCACCTCTCTCTGAAGGAATTCTGAGGCAAGGGTTGCATACGGGGAATAAACCACGTC
GCACAGAAAGTTCTGTGAAAAGGCAATGAGCATGTTCTTCACCCGCTGCAGGAAGGTCATGTGATCTGAATGAGAGGAGAGAGGCCTGGGCACGTAGGAG
AATGGGTTGGGGCACTGGGTAGCCTCAAATTCCAGGCTGCATGGCAGTGCATGCAAGAAGAATACAGTGGGCAGAGACAGGTACTGGGCCACGATGGGGC
TGCAAGGAAGGAAAGGGTCCGTCAGCATGACATCAAAGCTGCTTTCTGCCAGGGAGGCCATGAGCTCCTTGTTGTGCAGTAAGTGGGAACAGCCAGACAA
AAGCATAGCAGAGTCCTTTTTTATTTTCTTGTATGTTTTGATCACACGCTGCAGGAAAGAATCATTCTCAAAAACATTATGCCCGAGACTAACAAAAGAC
TCTTTCACATCCTCCCTTTGGAATGGCACAGGGTACGTCTTCAAGGTGTAAAATGCTCCGTCTCTGATGTACAACGAGGCGTCAGGTGCTAGGACAACTA
TTTCATGTCCCCTCTGCTGCAGCTGCTGGATGGCCCCAAGCATGCTCAGCCAGTGGCTGCCATCCACTGGGATCAACAGTATCTTCCCAGCATGGGACAC
CACTGGGCCCAGCACACACAGCAGCAGGCCCAGGACAAGTGGGCGTCCGCCCTGGGACTCCACAGCCATGGCGCCTTTGCTCCTGCCAGAGGTTCGCCCT
CTCCTACTTATATATATATATATGGCAAAAACCAATCGATACACCAAGTTAATGTTTGACTGTGTCACGTGACTATAAAAAGCTGTCAGTCCACAAAGGT
AGCAGGGAGTTCACTTTCAGAGATAAAGAAGGTGGAGCTTTATTAGGTTTCTTAATAGGCAACAACAGTTGAACTGGCTGGAATTTCATACTCAAATCAC
ATTCTTGAGTGAACACAGCAAAGTACTTCCAGAACCTCAGGATCCATTAAATTAGTATTTCCACAGACCAACAAGTGTTACCAGAGAGGAAGAAGGACGA
CTATGTAGTGAACAAGTTAGGCTTCTTTTCCAGAAATTAAACAGAAGGCTTTTTAGAAAGCCTTTTAGAAAGAAAAGAACACAACTGTACCCCCGCTTTC
GCCATGGAAACCTGTAAGAGTGCCCACTCCACAGCTCCCCCGGTACTGCCTGCTCACTTGTATCATGTGTTTCATTCCTTCGTCCAACAATATTTATTGA
GTCCAGCACAGTGTGGGGTCTTGAGGCTGCAGCAGAGCCCACCACACGAGCACGCGCCATGAGGTGAGCCAGACTCACAATTTAAACACATGAGCAGGAA
CTTAGAAATCGTGAAGCATGCTAAGAAGGAAATGAACAGGTGGGTGGGTGGGGCGGGTCGGGGGTGGGGGGCGTGCTGGGGTAGAGAATGACCAGAAAGG
GAAATTCACTGGAGCGCATGTGAACAGAAGTCTTCCCCAAGGACAGGCCTTTATTAGTGTGAACCTGAAAGAGCCAGTCCTGTAAGATAGATCTTGAGTG
GCTAACTGGGCCTGGATTTAAAATAGAGCCAACTGGCCCTTTGCTTACTACAGGTCACACGGTTACTCTGAGTATCCTGAAAACCTGTACCTTTTTATAG
TTGAGATTTTCAGCGCTCACCTGAACCAACCAATTAAAGCTCACCCACCTCAGCCACTCAGGGCTCAGCTTCATCAACCAATCAGAATGCAGCTGCAGTG
ACCAATAAGAACTAAGCAAGTTTCCATCCTTCATTTGCATAAATGGACCTGATTGGGAACCTGGGAAGGAACTTTTTGCCGTGAAACCTGCCTGCCTTGT
GTTCTGTGGAACTCACCTTCATTGCGTACCAGAGGCTGTAACTCCCTGGTTTGCAAACTGTTCACTAGAACAAAGTCTCTTTCTTCCAAATTCCTTTTCA
GAGAACTTTTGTTCACAACAGGAAACCAAATAGATAAGCAAATTCAATTAAGTTAAATTGTACTCATTCCACTGGCCCAAGATCCAGGGGAAAGGCATTT
GGGGAAATTCTGATGACTGATTTGAAGTCAAAAGGGAAAGATGAGCAAAAACAACTCAAATTTGTATTTATTGACCATGGACTATGGGGCAAGTATTGTG
CAGCCAGAATTGGAAGTATTACACTCTTTTTGGGGGGGATATACTGCTGTACTATACAATTCCAAGATAACTGCACAGATCCCAACATTTGAACCATACA
CATCACTGGCCAGCCATACTTGGGGATGTGCTTAGAGGATCATAGAGAAACAGCTAACTAGAGTTTTGGTGTCCTATGGGACATATTAACAGGTAATTAG
GGTACCCTCTCATTCTTCTCCTTAGAGTAGGTACTTTGCATGCACATGCACACTGAAGCTCCTCCCCACACCCAAACACTCTTCATTTTTTAGGACCAAG
ATTCTGGGCAAGCAGAATAGACATAGCAATGCTTTCACTCTTTGTTGTGTCCTTATTAGAAATTCTGAAATTCACAGTTTAATTTAAACCTTAAGGGTGA
TAATTCTTCCAAAGTCCCAATGCTGTGTGAGTTCATTTGCAGATTATAGACAGTAAAGGGGCTATAAACACATAAGTCACCACTGTAATGATTTTATGAC
TTTCCTGCATCATGCAGAGCTTCCAAGCTTTTTGAGGCTGCTTCTGCTGTGTACCTGGATGGTTTGTGGCCACAGCTCTGCCCTTGACCAAGAAATACTT
ACTAATCTGAATAGTGGGCAATCCACATTCATGCTCATGAATTACAACAGAGAACCACTACTAAGCAATCCAATTAATATCTGCTCTGAAACCAAAGCAG
AACCCATTGCTAATTCCCTCATCTGCCAAATATTTATGGAACGTGTGAGCCCTACTGGATGGCAGTCACTATGCTAGGAACTAGGCCCAGAAAGTCAAGT
TAGAAATGGTCCTTGCCTGAAAGGAGGGGTCAGGTAGACAGAGACAAACTCATGACCAGGCAATTACAGGGGATGGTGCTCTAGGGGCTGAGAAATCACA
CAGCAGGGCAGCAATATGATGGTCTTGCTTTGGGGGCTGCTAAAGAGTGACACGTCCATGGAAAGTGTTTCTGGAACCCTTTTGAAGCTACTTTCTTTTT
AAGCTGAAGACATAAGTTAGTAGGCCACCATCAGACACACTACCAGCTCCTTTCATCTCCTTTCATCAAATCAGAATGACAGGCTTATTACTAAAGGAGC
AACATAAACATGTCCAGTGCCCTGTAGATCATCTACAGGACCCTCCCGGGAAGCAAAGCCACCTTCCTTGAATCCCTTGAATTCCTTGAATTTCCAAAAT
CCCAGAAAAACAGCATTTTGTTCTGTTCTGCCTTGTATCTTTTAGCAGTTTGCATATCTGTCCTTGCTATTAGACTATAGCTATATCATATATACATATA
TATATATATATATATATATATATATATATATATATATTCCTTACAGGCAAGATTTTGGCTTTGGAATCATGCTATCACTCAGGTGCCAGTCCATGGTTTT
GGAGACAGTAAGCGCTCTGGACATGTTTCTGTATAGAAGTGACTTTTCTTCTCTTTTCGTTCTAGACCCTGCATCCAAGCCAGCAAGTAAGTGCTGAATC
TGGATGTTTCTACCACTGTCTCTCAGACCCAGCTGTCATGGTCCCATTTCAGGGCCCCAGCCCCCCTGTCCCCCAACCCCCAGCTGTCCCTTCTGAATCA
TTGCATCGGCTGCCACCTGAATAACCCCACCTCACCACCACTTCTGGAACCTTGGTCAGCAGCTTCCTGGGCACAGAAAATTCAGAGTCCTCTGCCTTGC
TCTCAAAACTCTGGGATAGACCCCAGCCCACCTGTCCAAGCTCATTCCTCCTCTCTAGCCCTTCTGCTTGCCCCCTCCCTCTGCCTCTTACCCTCTAGCC
ATTCTGGATCCCTTGCTGTTCCCCAAACTTCCTTTGATGTTCTCAAATTGCTTTGTTCACACTGAACTCTACCCTTGGCCAGCTTACTATGACTGTTCAT
TGCGTGCTTACCAAGTGCCAAGTCCGGGTTTCAGGTTATGTAACTAGAGGTTATATAAACTCAGAAGTTTGTTCTGGTGAGATAACACATCCTCATTACA
CCTAATACCCTTTATGAACCGTTAGAATGTTCTTTGGTTAATCATTTTCCCCTTGGAATTGAGTGACCTTTACTAGTGTATTGCCCCACAATTTATCAAA
GCAAAGAATCCAGTGTCAAAAAGAGAATAAGGAGGAGGTGAAGAGAACTCAGATCTCAAAAAAAGTCCCCCCAAAATTCATCGTCATTATATAGCAGTTC
TAGCGGAAATAATCACTGCATCCCATGTTTATCCCCAGTGCTATACACACGGCCTGCAAGTCTTAATGGTTTCGATACAGTAAATAGTGCTGTATTTCCT
TTTGTCTGAGAGGATCTCCCTGGTTGTTTTAGCAGTCAAGAAAAGTGAATAACATGCACATTTGACCCTCCATATACTTGGGCTTCACATCTGCAGATTC
AGCCAACAGCAGATTGAAAATATTTGGGGGGAACAACAATGAAAAAAAAACAGTACAAATAATACAAATAAAAAACCAATACTGTAAAACAACTATTTAC
ATAGCATTTACATTTATTAGGTAAAAGTAATCAAGAGATGACTAGAGGTTTAAAGGAGGATATGGGTAGGTTATATACAAATACTGTGTCATTTTATAAA
AGGAGCTTGAGCATCTAGATTTTGGTATGGGGAAGGAGGGTTGTCCTAAACTAATCCCTTCAGAATACCAGGGACTACTCTGCTAGACTAGCGATTCTCA
AAGTATGAGCCAGGAAATCCTAGGGATCCCCAGTAATTTTTCAGGAGAATTTTACAAAGTCAAAACTATTTCCGTAATAATGTTACTTGATTTTCTCATT
GTCATTCTCCCACAAGTGTACAGTGGAGTTTTCCAGAAGCTACATGGGGGATGTGTAATATCACAATAGATAGAATGCAGAAGCTGACATGAGAATCCAC
CTCTCTATAGAGCCAAGTACTAAAGAGAGATGCAAAAACTGTAAAACGATGCCACTCTTCTCACTACATTTTGTCTCAAAAAAAGTTACATAAAAAGGTT
TGTTAGTGTGTCATGGGTTTATTCTTCTTAAATTGCCCAATGAATATGTCTTTTTAATTCTGTTTTAATCTCTAATGCAGTACATATGATAGGCATAATC
CAGATGAACAAAAGCAAATGGGCACCGGGGCTGGAACGTTGGAGAACCGCAGTCCTAAACAACAGGATGTCTTCAGCCCCGGTCAGACTAAACTCACTCC
CACCACCCTCTTCCCTCCTGTGGCCGAGGAAAAAGACTGATATAAAGCCTACTTTAAGAAAAACAGTTCTTCAGGCAGCCAAAGTCAAGGCCCTCTCTTT
TCCCCAACCTCTTTTTCCCATCCTTTTTGGAGACCATGGCTGGTTGGAGGCCGGAGTGGGCGGGGCCTGGTCTTGGAGCATCACAGGGCCTCACAGAGCC
TCACAGAGAGCAGGGCCAGTCCCAGGAGCACTGCATCTTGGGATGCGAGGCGCTCACAGGCCTCGGCCAATGAGATGTGGCTGCGTCATAAGGGGCGGCC
CTCCAGGCGGCCCAGGTCGCCAAGCCTCTGACCTGTGCGCGGGTGCTGGCAGCCTTGCCGCTCGCTGTGCCAGTGCCCCGCAGGCTCTTTGGCAGTCCAG
CATAGTGGACTACTACGAGGTGCTGGGAGTACCCCGGTAGGCCTCGTCCGAGGGTATCAAGAAGGCGTACCGCAAGCTGGCGCTCAAGTGGCACCCCGAC
AAAAACCCCGAGGACAGGGAGGAAGCGGTGAGAAGATTCAAGCAGGTGGCTGAGGCCTACGAGGTGTTGTCGGACGCGTAGAAACGCGATATCTATGACC
GCTATGGCGAGGCGAGGGCGGAGGGCGGCTGCGCAGGCGGCAGGCCCTTCAAGGACCCCTTCGAGTASGTCTTCAGCTTCCGTGACCCCGCCGAGGTCTT
CAGGGAGTTCTTTGGCGGCCRGGACCCATTCTCCTTTGACCTCTTGGGAAACCCGCTGGAGAATATTTTGGGGGGTCAGAGGAACTCCCTGGGAAGCAGA
AGCAGAGGGTCTGCACCCCTTTTCTCTGCCTTCAGTGAATTTCCAGCTTTTGAGGGTGGTTTTTCTTCTTTTGATACAGGATTTCGTTCCTTTGGCTCCC
TGGGAAGTGGGGGCCTTTCTTCCTTCTGCATGTCCTACGGTAGTGATGGGACAGGCAGCTTCAAGTCCATGTCGACTTCCACTGAAATAGTTGATGGTAA
AAAAATCACCACCAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAAYRGCAWAG
AGCAGTTRCTCCSCATTGACACCAAGTAATTCCAGTCCACATTTGMCTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAACTT
TACTTTCAGAACAGCTGTACCCAAGAATTTATAAACACTTTATGCCAATGCCTGTCTTTATTGTTGGGACTRCACGGATAGGACCTCTGTTTGTCTTTCG
ATCATTGTAAATATCTGTATGCAATTTGCTATTTATTAAACTTAAGCCTGAGGCAGACAATGATTATTTCCTAGTGCTAGGACAGAATGTTCATCTCAGC
ACTTTGAGCCTTACCTTTTTCCGTTGGGAAAGTGTGAGCCAGGTGGTTTGCTCTAAATCATTTGACTTCAATGTTTTACTGTGTGGTGGTGAAATCTATG
AATATATTAATACTCTGGCTTAATTTAATGATGGCTTTTAATTGCACATAAATGCTCGTGATGTAGGAAGAGTTGACCATTATTTAGATAAAAGGTTAAA
CCCAGGCTTTATAAAAGCAGGTAAACCTGGCAAAGTGGATGCATTCGTTTCCTATCATGGCTGTAACAAATTACCCAAACTTGGTGGCTTAAAACAACAC
ACGTTATTCTCTTAATATTTTGGAGGTCATACATTTGAATCCCATATCACTGAGCTGAAATCGGTGTAAGAAGCATGTTCCTTCTGAAGGCTGAGGACAG
ACCTTGGGGTTATGTGGTTGGTCAATGATATACTAGGACTGTCTTCAGCCCTAACGTGGTTCTCCAACTATGGTAGGTCCTGGAAATGTAAAGAAAAGCG
TTTCCAAAGGGCCACGCAAAACTGTCCTATTGCTGTGCTTGGGGCATATCAAATTAGGTTGATGAAAGCCAAGTGCATCTGTAATATTGTTTGGGTGAGG
CACCATACACACAATTGAGAAAGTACCTTTGTGTTGGCACGGGTTATGCCCCAAATGAAGACCTTTTGGGGCATATTGCCTTGGGGTAGTCCATCACAAA
GGGTCCCATCTTCTAGGGTCACCTCTGAGGAAAAGTTTGCATGAGAGCAAAAGGGCAACAACTAGACAGGCTGAAAAAAATTAAGAGCAGCATGCTGGTA
ATTTTTTACAGAAAAATCATGGCCTGAACACATCATTAACCAACAAATACTGTGACAATGGGTTTGGATATGCTCTAGTACCCTCAGAGTCCAATCTGCA
TGGAATGGCACCCAAGTAATAAACAGCAGGAAAATGGCAGTCAGCTGGCACCATCCCACAGGGGCACACGGGGTCTCACACTGAACTCTGAAATCAACAT
GCTCCAAGGTGCCTGGGTAGTTGCTTCTTAAATAATAACTATACAAGAAGTATCAAAATAAGACAGACTGTCAGGGCTTTTGAAAAATGAGTTCATTTTT
TAGTGATCCGGATAAGGGAACTTACATGTGTGAAGATACTCACTGAGTAGTTTGCTGGGGATGGGTTTGCTTATGGAGCCGTTCAGGAATAAAAGGAGTT
TTGAGGTGGGAGGAAGGCATGGGAACAGTTTCATGGTAGTTTTTTGTGTTGTAAATCACCACTCTGGGTAGGATAGAATGAGTGGGTTTGTATCTACACA
ATTGGTTACATAAATCCCATTGTTCAGTGGTCAGCAAAGAGTGGCATACCAGTGTCACTCAGAGGTGGATCTGTAACAACGCTGGCTAGTTTTAACAGTT
GAAAGCTAACACAAAGTTCAAATTTTGATATATCCTAGATTACTGATGTCATAAATGGGAAGTGTTCCTTCTACAGAAGTGTAAAGCTTGTTTGGTTATT
GTTTGTTTGTTTGTTTGTTTGTTTTAGAGACAGGGTCTCTCTCTGTAGCTGTTGCCTAGGCAAGATCATACCCCACTAGTAAACATGAATTTCTGGGCTC
AAGTGATCCTTCCTCCTCAGCATTCCCAGTAACTAAGACAACAGCTACCACACCTAGCTAATGTTTTTTTAAAAAAAATCTTGTAGAGATGGGAATGATG
TTGACCCACTATGTTGTCCCAGCAAGAGCATTTTATTTAAAGAATTTTTAGAATTGAAAAATCGCTTTTTAAAATGTCTCATCTCAAAAACATAACACTG
CTAGAGGCCTATATGTGGGTATTCATCTTTTATAAAAGGGTTCGATAAATCAGGTTTTCAGAATGGAAAAAGGGGCATTTCCTCTGTTGCAAAGATGACC
CTCTTGAGACCCCTAAAATGAATTTCCTCCATGGAAACACTTGTTCCTTCTCACCAAGCACACCGGGCAAGGAAAGGCATGACCCTGTGAGCCCCAAGAG
ACCTGGAGTCCTGTGACCATCACAGTAGGGTCCAAAAAACCAAAATGCCAGATATTTTTTCTGGCTGGAGTTCAACACAGCTGATTTTAATTCAGCTTAC
ATCACACACTAGAAAGCATCTAGAAGAGGGAATGATCCTTTCTGTCCATCATCTTCTTCTCCTCTGATTCTACTTTCTGTCTCCAAACAGGTAGAGAGAC
TTCCCCATCTCGGGAAATCATTCACACAACAGCTTACCTTTCTAGGAATTTCTAATTCCACTTTCTCATCAACTTTCTCAATAAATGCAGATTCATTTCC
TTTTCTCAGACTCTCCTTTAAACCCTTTCAGTATAACTTCAATCACCACCAATCTTGTATTAGTCTGTTCTCACACTGCTATAAAGACATACCCAAGACG
GGGTAATTTATAAAAGACAAAGGTTTAAATGACTCAGTTCCACATGGCTGGGGAGGCCTCAGGAAACTTACAATCATGACAGAAGGTGAGAGATAAGCAA
AGTCATGTCTCACATGGCAGCAAGCAAGAGAGAAACAGAGAGGAAGAGTTCACTTGTGAGTGAAGGAGGAAGAGCCCCTTATAAAACCATCAGCTCTCAT
TAGAACTCACTCAGTAGGATGAGAACAGCAAGGGGGAAACTGCACACATGATCCAATCACCTCCCACCAGGTCCCATCCTTAACACATGGGAATTATGGA
GATTACAATTTGAGATGAGATTTGGGTGGAAACACAGAGTCAAACCATATCATTCTGCCCTCTGGCCCCTCCCAAATCTCATGTCTTTTCACATTTCAAA
ACCAATCGTGCCTTCCCAACAATCTTCCAAAGTCTTAACTCATTTCAGCACTAGCTCAAAAGTCCATAGTCCAAAGTCTTATCTGAGACAAGGCAAGTCC
CTTCCCCCATGAGCCTGTAAAATCAAAAGTAACTTCCAAGACACAATGGGGGTACAGAAATTGGGTAAATATTCCCATTCCAAATGGGAGAAACTGGCCA
AAAAAAGGGGGCTACAGGCCCCATGCAAGTCCAAAACCAGGCAGGGCAGTCATTAAATCTTAAAGCTCCAAAATTATCACCTTTAACTTCATGTCTCATA
TCTAGGTCATGCTGATGCCAGAAGTGGGCTCCCACAGTCTCAGGCAACTTGGACACTGTGGCTTGCAGGGCAAAGCCCTCCTCCTGGCTGCCTTCAGAGG
CTGGCATTGAGTGTCTGTGTCTTTTCCAGGCACACAGTGCAAGCTATTGGATCTACTATTTGGGATTCTGGAGGATGGTGGCCGCCTTCTCACAACTCCA
CTAGGCAGTGCCCCAGTGGAGACTCTGTGTGGGGGCTCCAACCTCACATTTCTTTACCACCCTTCTCTAGCAGAGGTTCTCTATAAGGGCTCCATCCATG
CAGCAAACTTCTGCCTGGACATCCAAGCATTTCCTTACATCCTCTCAAATTTATGTGGAGGTTCCCAAACCTAAATTCTTATCTTCTGTGTACCCACAGG
CCCAACACCACATCGATGCTGCCAAGGCTTGAGGTTTGCACCCTCTGAAGCAATGGCCTGAGCTCTACCTTGGCCTCTTTTAGCCATGGCTGGAGCCACT
GGGACACAGGGCACCAAGTCCTGAGGCTGCACACAGCAGGGGGAGCATGGACCCAGCCCACAAAACAATTTTTCCTTCCTAGGCCTCCAGGCCTGTGATG
GGAGGGTCTGCTGCAAAGGTCTCTGATGTGCACTGAAGCCATTTTCCCCATTGTCTTGGCAATTAACATTTGGCTCCTCCTTACTTATGCAAATTTCTAT
AGCCAGTATTTCTGTAGCTGGTTTGAATTTCTCCCCATAAAATGGGTTTTTCTTTTCTACCACATGGTCAGGCTGCAAATTTTCCAAACTTTTATGCTCT
GCTTCCCTTTTAAACATAAGTTCCAATTTCAGATCATCTCTCTGAAGTTCAAAGTTCCACAGATCTCTAGGGCAGGGGCAAAATGCCACCAGTCTCTTTG
CTAAAGCATAGCAAGGGTGACCTTTGTTCCAGTTCCCAATAAGTTCCTCATCTCCATCTGAGACTCAGCCTGGACTTCATTGTCCACAACATTATCAGCA
TTTTGGTCAAAACCATTCAACAAGTCTCTAGGAAGTTCCAAACTTTCCCACATCTTCCTGTCTTCTTCTGAGCTCTCCAAACTGTTCCAACCTCTGCCTG
TTACCCAGTTCCAAAGTCACTTCCACATTTTCAAGTATCTTTATAGCAGTACTCCACTCTCCATGGCACCAATTTAATATATTAGTCCATTCTCACACTG
CTATAAAGACATACCCAAGACTCGGTAATTCATAAAGGAAAGAGCTTTAATTGACTCACAGTTCCAGGTGGCTGGAGGGGGGAGCCTCAGGAAACTTATA
ATCCTGGCAGAAAGTGAGAGAGAGGCAAAGACACGTCTTACATGAAAGAGAGAAAGAGGAAGAGCTTGCAAGTGAAGGGACAATGGCCCCTTATAAAACC
ATCAGATCTCATAAGAACTCACTCACTATGATGAGACCAGCAGGTGCGAAACTGCCCCCATGATCCAATCACCTCCCACCAGATCCTGTCCTTGACACGT
GGGGATTATGGGGATTACAATTCAAGATGAGATTTGGTGGGGGATACAGAGCCAAATCATGATAAATCTAGTGTGACTTCATGTTGAGACAGAGTCAGTG
GCCTCACTATTGAATACATTAGCCTGTTCTTTACCACACTCGAAAATTAGCCTTGCTAGTGTTCTCTAATTCTCTAAGGGGCATAGCAAGAGTGATCTGT
GCCACAGTTCCCAATTCGTTCTGCTCCACTGAGATGACAGTGAAGTTTTGAGCAATGTAGTTAACACTAGAGAATATGTTCACATTGAAAAACTGGAAGA
AAAGGGCAAGAGTCACTATTTAAATTCCATCCCACTTTTCAACATTGTTACAAATCTAATAAACACATATTTTATAATTGAATAACTACACTGCATAAGG
GAGAAAATCACCAATAAAAAAATCATGTGGTTTGATTTTAAAAAATGAAGCTTAGAGTGTTTGGCAATAATACCTATGTTAATAAAAAGAAGTACAGAAA
TAAAAATACAAAAGGATCAAGTCATGGAAGTTCATATGCATTCAGTGAATATGACATAAAAAGGCTGAATTCTCTCATGAAATACATGGCACACCAAGGA
ATAAGAAACAATATTCAGGTCCCAGAGTACCACATCAATGAACCCCAAATATTCTGGATTAAAGAAAGCTGCCTTTGAAATTGTTGGTAAAGAAGTAGAT
CCCACTATAGAAACTTGGAGTGGGATAGGGTGGGTTTGGTGATATGTTCAGCTTCACCTGAGAAACACTTCCCTTCTTGGACACATGTCCATTCATCACC
GTCCCCAGCTTAACTGGGCTTATACGCTCACAGTTTTATCTCCTCCCTAGACCCTTCCACAATTTCTTGATAATTTCAGCATTCCAAGTAGAAGACCCAA
TTGACCTGCAACCAAAACTATGCCTTCCGAACTCTGAGATGTCCCCACATCATGCACCAGACCCCAAATCCTGACCAGAAAAATCTTTTGTCAGCACAGA
TCCCTCTCTGGAAACTGAACTCAGTGTGTAATTCTATAATCACAGACATATATCCCACGTTCGTTGCTCTACTTCCACTGAACTGAGTCAACCTCTTTAA
CACTTCTACTTCCTGCGAGTGCTTAGGTCTCCTGTGGTCACCTCTCTATCATTCGCAAGACAGGACCACTAAAAATTATCACATTAACAATTGTAATTTG
CTGTTGCATCATCTTTCCCCTGAAAATTGTGCAAACAAAAAATCCAGATGGGTCAAGTCTCAATGTAGTGTCCCTGCTCCTTCCCAATGAAGGACATGCA
CAACCATGAAGATGGTGCCTTTACAAACGAACAGTCTCCATGAGTCACATCAGTCCTAGTCCATC


SNP Information

Context             (SEQ ID NO:56116):
ACCACCAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAACGGCATAGAGCAGTT
R
CTCCCCATTGACACCAAGTAATTCCAGTCCACATTTGCCTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAACTTTACTTTCA
Celera SNP ID:            hCV27155455
SNP Position Genomic:     6708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56117):
TAAAAAAATCACCACCAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAACGGCA
W
AGAGCAGTTGCTCCCCATTGACACCAAGTAATTCCAGTCCACATTTGCCTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAAC
Celera SNP ID:            hCV27155456
SNP Position Genomic:     6698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56118):
ATGGTAAAAAAATCACCACCAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAAC
R
GCATAGAGCAGTTGCTCCCCATTGACACCAAGTAATTCCAGTCCACATTTGCCTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGT
Celera SNP ID:            hCV27155457
SNP Position Genomic:     6694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56119):
GATGGTAAAAAAATCACCACCAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAA
Y
GGCATAGAGCAGTTGCTCCCCATTGACACCAAGTAATTCCAGTCCACATTTGCCTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAG
Celera SNP ID:            hCV27155458
SNP Position Genomic:     6693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56120):
GAGGGCGGCTGCGCAGGCGGCAGGCCCTTCAAGGACCCCTTCGAGTACGTCTTCAGCTTCCGTGACCCCGCCGAGGTCTTCAGGGAGTTCTTTGGCGGCC
R
GGACCCATTCTCCTTTGACCTCTTGGGAAACCCGCTGGAGAATATTTTGGGGGGTCAGAGGAACTCCCTGGGAAGCAGAAGCAGAGGGTCTGCACCCCTT
Celera SNP ID:            hCV25924737
SNP Position Genomic:     6321
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 UTR 3


Context             (SEQ ID NO:56121):
GGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAACGGCATAGAGCAGTTGCTCCCCATTGACACCAAGTAATTCCAGTCCACATTTG
M
CTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAACTTTACTTTCAGAACAGCTGTACCCAAGAATTTATAAACACTTTATGCC
Celera SNP ID:            hCV27155453
SNP Position Genomic:     6746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56122):
GGACTTTTTTTAGGATTGAAAGTGAACTTTACTTTCAGAACAGCTGTACCCAAGAATTTATAAACACTTTATGCCAATGCCTGTCTTTATTGTTGGGACT
R
CACGGATAGGACCTCTGTTTGTCTTTCGATCATTGTAAATATCTGTATGCAATTTGCTATTTATTAAACTTAAGCCTGAGGCAGACAATGATTATTTCCT
Celera SNP ID:            hCV11742283
SNP Position Genomic:     6872
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:56123):
CAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAACGGCATAGAGCAGTTGCTCC
S
CATTGACACCAAGTAATTCCAGTCCACATTTGCCTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAACTTTACTTTCAGAACA
Celera SNP ID:            hCV27155454
SNP Position Genomic:     6713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56124):
TGTCGGACGCGTAGAAACGCGATATCTATGACCGCTATGGCGAGGCGAGGGCGGAGGGCGGCTGCGCAGGCGGCAGGCCCTTCAAGGACCCCTTCGAGTA
S
GTCTTCAGCTTCCGTGACCCCGCCGAGGTCTTCAGGGAGTTCTTTGGCGGCCGGGACCCATTCTCCTTTGACCTCTTGGGAAACCCGCTGGAGAATATTT
Celera SNP ID:            hCV11742284
SNP Position Genomic:     6268
SNP Source:               Applera
Population(Allele,Count): african american(C,22|G,14)   caucasian(C,20|G,14)   total(C,42|G,28)
SNP Type:                 UTR 3

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 UTR 3


Gene Number:                 309
Celera Gene:                 hCG1780175 - 104000117043355
Gene Symbol:                 IL17E
Protein Name:                interleukin 17E;IL-17E;IL-25;IL25
Celera Genomic Axis:         GA_x5YUV32VVQK(29393947..29409492)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12469):
AGTCTGGGCCTGTCGGCCTCCTCAGCCTGGCTCACTCTTGCTGCTATGAGGAGAGGATTGGGCAGGACCGCTGGCACAAAAGTTGCTAGAACTCTTCCAG
AGGAGATGGGATCTAGCCCCACCAGGAGTTTCCACTGAAAGGATGGTGCTCCTAGCCCCCTACAGCTCCTCTGCCCTGGGATAACTCCTTAGTGTGTGCT
GCTTCCCTGGACCTTCCCTCTGGGACACACACATCAGGGCCTCTCAGGCTTGAGTGAAGCCTGCCTTCTTCCATTTTTGAGGTTCCTGGTATTTAAAAAG
CAAGATGACAAACAGGATTGAAAGCTGTGGTATATTTTGGATGTTTACATTGAACAAATTAACGCTTCAAACACATACAATAGAGAATGACTCTGTGCAT
AACCTTATTTGGAGACAAGATCAGAAATGTAATATAAGGCCCTTGGTGAACTTGAGGCCCTGGACAGATAACCTTGCCTCAATATTCCACAGGCCCACAC
ATCTAGGCATTTCCTAGGAGAGTGTGGTCAGGACACCTGCCCCAGCTCCTTCCCCACTGTATTACCTGGGCACCTGTGAAGAAACCTCTGCTGGAAGGGT
GTGGTGGAGCCTATGGGGTGGAATAGGGAGAGATTCTGGGATAAACATGGGGATGGGGATAAACTGTGTTGGCTCTAGGCTGGCTCTCCATGATGGAAGA
CTCCTGAATAGATTCCAACTCCACTGGGATGGTAGAGGAACTTTTAAATTTCCAGGGAGAGCTCCTGCTTCCCAGCTCCAGTTAGGTTAGAGGTGGCCAC
TAGGGAAGATTTTCCAACCTCTTCCAGACCCCAGCCCTGGGGGACCTGGCTGCCAGGCACACGGATATCCAGCTGCTGGCGAGTGACTTGGTGTGATCTC
TGCCCAGGAGACTGCCAAGGCAAATTGGGGTCCAAGGTGGAGGTGGGCAGGAAACCCTGTCTTCAAAGATGAATGCTTTGACTGGCACGAGGGGAAATAG
ATGGAGGCCAGAAAAGGCTAAGGAGGAAGGAAACTGCTAGGACCAGGCAAGGGTTGGCTTGGGAGATGGGCAGGCAGTTTCCCTGCCCGGGGAAGGGTAG
AAGAGGGACAGCAGAGGACAGACCAGTGGGAAATAAGGCTGCTTCTGGAATATCCAGGTGTGGAATGGAGCCAGTCAGAGTCACAAGTGAATCCTGCTTA
ACTAGCTGTGTGACCTTTGTCCAGTTATAGGGCATCCGAGTCTCAGGTCCTCCTCTGTGGCAGTGACTTTGGTGAGGAGTAAGCTTATGTAGATTGCCAG
GCACAGTGCTCTTCTTCCATGGCTTTTCCTCTTTACCTTGGCTTCCCCTCTGACTTGTGCTTTCCAGAAAGCTGAATGTGTTCGTTGTTGAGGGCAGGTG
AGGTTGGAGAAAACCCAGGCTTGGCAGGTAGCTGAGACCCTGGGTGGGTGGCAGCCTCAAGCAGTGGGTCTTCAAGGTTTGCCCTTGCCATATTCAGGGA
GAAGAAGGGAAGGAACCCCTCCATTTGGCTTCCCGGGTCCCAGTCTTTTCTCCCATTCTTTCCCCTTCCCTGCAGGTCCAATGAGCTGGTTTTTTCCTCA
CCTGACCCCAAGACTTCCTGGACCTCTCCTTGTTTCTCCTGCTACCCAAAACTTCTTGGGTGCTCACCAATTCTTCAGTTCTCCTCTCTTTGGACCCATA
GCACCTAGATTGCCTGGGTTCTAATCCTGGTTCTAACACTGGCTAGTTACCTTGGCCAAGTTCTGTGACTTCCTGGAGCCTCTGGTTCCTTGTCTGTAGA
GTGGGAATGTTAATTGAACTTTTAGCATTTACTTGTTATGAGGATTAAGGGAATCCCAAGAACAGTATCAGGCCCATGAGGTGTAAATTTTGGACAAAGG
CAACTACTATTATTGTTATTTGGTGATGGCCTTGTGGTGGCACTAGAATGTCAAGGACATGGTGCCTGCCCTCAAGAAACATATCATGTAGCTCATGCTT
GAATCCAGTCAATATCTTCCGGCTGACTCTGGAATAAAATCCAAATGCTCCATGGTAGCCTGGAGGACCCTATGTGATCTGCTCCCTGCCCACCTCTTTC
ACCTCATCTTGTCTCCCTCTCCTCCTTATCTCTTGTTCAACATCTACACTGTCCTTTCTGTTTCTCAAATATGCCATGCTCTTTTCCACCTCTAGGACTC
TGCATGTCCTGCCCCCTCTGCCTAAACTACTTCCCCCAGACCCTTTCTGTCATCAGGTGAAATCCTGCATCCTCAGAAAGGCCTTTCCTGGCTTTCCAAC
TTAAAGTTGCCCTGCCTTCCTCTCCCCCACCCCCAGTAACTCCCTATCTCATAATGCTGTTTCATTTTCTTCATAGCACTTATTATTATCAGAAATTATC
TTGTTTCCTTGTTTATAATCTGTCTCCCCCTAAAACGTAAGCTTCATGAGGCAGGGACCTTGTCTGGCTTGTCCTCCCCTGCATTTCTAGCTGTTAGAAT
AGTGCTTGGAACACAGTAGGTGCACAGTAAATATTTGGTGAGTGGATAAGTGAACGAAGGCAGCCATGACTATAGGACAAAGCCGAGTAAGCTGAGGGGC
CTCCTGGGGAAGGCTACAGCCCTGGACTAAAGACATGGGTTTGTTGGGTTCTTGGTTCTGCTAACTCTGATTCTCCATGTGTCTCCCAGGGTCTAGACTG
GGTTCTCCTTGAAGGCTGCTCCTGAGCCTAGGCGTTTTTGTAGCTAAACCATTATCATCTACCAATCAGAAAGTGGTAGCACTGTTCTGGGGGCCTCCAT
CTGTGCCAGGTGTTCAACCTTTAGTTGCTGGATCATAGGGAAGTATGGTAAGGTGGTGTCCCAAGGCTGAAGGAAGCATCTACTTACCAGCAGGAGCAGA
AGTATTTCAACATTTTGATGTTCGGTGCCTTAGCTTCATGTACAGTGAGTGCCGATGAGCTTCAGTAGACCCTGCTGAGTCCTGTGGATTCAGCACTATT
TCAGGAGCTGAGGTCTGGAGCAGCTAAGCTGGTTGGCACCTTTGTGACCATCCAGGTCAATGTTCCCCCCAATCCCCGCCCACCCAAACCCACCCACTTC
TACAATTGAAGAGGGAGGAGCAGAGAGAGGGCTCAAGATCCAGAGCTGGTCATTGGCAGGGCCAAGACTTCAAGGCAGCAGGTGGAGACTTGCATATCTT
CCTGAGAAGGGGCGGGGAAGACATATTCTCACTTTCTGTAAGCCCCAAGAGCCTTTCCAAGCCAAGATTGGGAAGTGTATTCCACCACATCTTCCCTGCC
CTTTCCTAGCAGGTGCTTCTCTCTTTCCTCAGGGCCACAGGGACAGGAATCCCAGGAAGCTCTCTTCAACTGCCAGGTCAGGCCTAGGCAGGTGAAGACG
TGCTGGGAGGGGACCTTGATGTCATGTGCCATGCAGACTTTCCTTTGTTCCTGCCTCCAGCCTTCTCCCCATTGCCACCCCCCTATCCTCACACCCCCAA
GGGTTCCCTGGAAGCTGAAGTGACTCAGGGATTCCAAAACTAGTCACCTCAGGAGGAAACCCCACTGGAAAATGTTTCTCATGACAGGGAGTCACCCTAA
GGAGTCCCACAAAGCTGCTACTGAGATAAGGACAGAGGGTGAGCAAGTGGGGTGGGGTGGGGGCATGTGGCTCAGAGCACAGGTTCTCAGGTCAGTCCTG
GTCATCATGGGGGTGGGAAAAGCCAACCCTTCCTGGAGGGTTTCTCCCTCTGTCCTAGAGGGACACCCCAAAGGACTCTTCTGAAGGGCAACGTTCCTGG
TGACCTAGGCTGGGTCCTCCCTGCAGCGTCAGCAAGTGAAACAGGTAGTTGGGATCACTTCTGGCTCCTTTGAACACCCCCTCCTGGGCAAGGGTCAAGA
TAGGAGATCTGAGCCAACTCCATTTCTACTACCTTCTTAGCCCTGAGGTTCTGATTGGTGAGAGCGAGACCCATAGGTATCCAGCTCTTCTGAAACGGCA
CTGCCTCCTAAGATCCTGTTCTGGGATTGAGGTTTTCCCAGGAGCACGGGAAGCCACCTTGAGGCCATGTCTGCCAGACAAAAGGCTAGGAAAGGGAGCT
AGTGCAGTGAATCCGAACAGCAGGGCTGGATACCTAAGTGGGCAGACACACCCTGTGGCCCTCAGCAGGTGCAGTTGAAACTTGTCCCAACCCAAGCCCA
GGTGAGCAGGAAAGCATTCACTGTGGGGCTCCCCTTCCATTCACAGCCAACTAGGGGTAGGCACGGTGTGGCACTTCCATGCCAGGAGGTTACATGTGGA
ATTGGTCAGAGCTGGAATGGGAAACCAGCTCAGCCTCTTTCTTTGTGATCTTGGGTAAGTTACTAAATTTCCTTGGGCCTCAGTTTCCTCATCTGTAACA
TGGGGATAATAGTTTCCATGTCATGGTTTCATTGTCGGGATAAAATGAGATGATGCATGCCCAGGGCTTAGCACCATGCCTGGCACATGTAAGTGCACAG
GAGCTGAGGCCAGCAGGATATGGAAGGGAGAGGACGTCTGCGAGTACTGGGGGCAGAGGGTGAGGCAGTGAGAGTGGGGCCATGATACTGGCCTCATCAC
TGTTCCTGAGTGCCCCTGCTTTCCCAGCCACCACCTGCTTCTTCTAAGTGCCCTCCATCCCACAGTTCCAGGTGCCCCAAGACTCATCAGAGCAGAGCAG
TTTCTCCCAATTTTCCAGATTGCCCTTTGACTTCATCACTTCTCTCTTTTGGGGCTGCTTTGCCCTAACGCATTGGAAAGATTCCTCTCACTGCAGTTTA
AGTTATTCCTGGTTCCCTTTGTTGATTTCCTAGTCCTTGGTTACTAGAGGAGTATTTTCTAAGGGAAAGCACATGCAAATCAAGCCACATCATTCTAGGG
GCAATGTCTGTGTATGGGTATGTTGGGTGCGTATGGGGGATGAGGCAGGCCAATAGGCAAGCATGAAGAGAAGGACCTGGGGGGAAGGACACACTGGCCC
ACTCTCAGCACAGTGTCTCCCAAGCAGGCTGGACCCGGCTGACCTGTGTCTTTGGGGTCAAGCCCAACTGTAAGCCTTTCTGGGGCACACATACACCCTC
CTGGCTAACAGTGGCCCATGTTTCTGGACCTGCTGAGGCTGAGTGGGCTCACTTCATGGCCTGAAAGCAGTAGCTGACCCTGTCATGGGCTTGGTCCCCA
AGGCTCTGTGAATGAGAGCAGGTTGGTTCCTGGAACTGAGACCTCCTTCCTGTTGGGTCTTAGGTGAGGCTGTTTCAGTTTCCCTCCTCTTCCTTGCTTC
ACCTTCTCATTTGTGCAATGGGGACACTCACCCACAGCTTCTTCCATCAGACCTTGCCCATCCAGCCAACAAACTTAGGAAGTCAGGGTCTTCCAGCAGC
CCTGTGAGGGTAGGCTTGTATCCCCGGTGGGGGGCAGTGACTGGCGAGGGCAAGGGGGAGTTAGGGAGTGGGTCATGGACAATGGGGGAGAAGTCATAGC
TGATGGGGGTCATAGAATTTTGGGGTCATTGAAAATGTGGAAGAGGTCAGAGAACAAAGGGGATGGGAGTCAAAGGATGTCTAAGGGAAAGGAAATAATC
ACGAAGGTGGATGATCAGAGGGACACCTGGGAAGAGGGGAATGGTGAAACCAGACCCTGGATGGGGGGAGCAGGGATCATGGAAACGAGGCCTCTTGAAG
GGAGGCCACAAGACATTTCCTAATTTTGGCTACCAAACCAACCAGGGAAATCCCGCTAATGCCAGTTCACAAGAATGCAGAACAGCAGACTGTTATTGCT
TTGACCCCATGGCCAGAAAAATTCAAAGAGCAAAGTTTACCCAATCAGCTACCAGGCATATAATGATGGTCATCACAACTTCCATGAGTATTGCATTTTA
AGCAGCCTTTGGAAATACTTTCAGAGTTTTTTTGGTTTTGTTTTTTAACCTCAAGTCACTCCCTAAAAAGACAGTGGAAATAAATTTGAATAAACAAAAC
AGGCTTGCTGAAAATAAAATCAGGACTCCTAACCTGCTCCAGTCAGCCTGCTTCCACGAGGCCTGTCAGTCAGTGCCCCACTTGTGACTGAGTGTGCAGT
GCCCAGCATGTACCAGGTCAGTGCAGAGGGCTGCCTGAGGGCTGTGCTGAGAGGGAGAGGAGCAGAGATGCTGCTGAGGGTGGAGGGAGGCCAAGCTGCC
AGGTTTGGGGCTGGGGGCCAAGTGGAGTGAGAAACTGGGATCCCAGGGGGAGGGTGCAGATGAGGGAGCGACCCAGATTAGGTGAGGACAGTTCTCTCAT
TAGCCTTTTCCTACAGGTGGTTGCATTCTTGGCAATGGTCATGGGAACCCACACCTACAGCCACTGGCCCAGCTGCTGCCCCAGCAAAGGGCAGGACACC
TCTGAGGAGCTGCTGAGGTGGAGCACTGTGCCTGTGCCTCCCCTAGAGCCTGCTAGGCCCAACCGCCACCCAGAGTCCTGTAGGGCCAGTGAAGATGGAC
CCCTCAACAGCAGGGCCATCTCCCCCTGGAGATATGAGTGAGTCTGCTGCCCCTCCCGAATGCCTGCCCTGTGTGTGCTGGCCAGGGTATGCGTGAGGGA
CCAGGGCAATTCCAGCTTACTTTCCCATTTTGATCTCAGAGGGGCTGTAAAGGTTTGGGAGTTAGACAAGGTCTGTATTTGAGTCCTAGCTCTGACTCTC
ATTGGATGATCTTGAGTCAATTCAAGTTTTCAAAACTCAGGGTTTTTTTTTTTTTCACCTGCAAAATGATATAATGCCCCATAGGCTAATGTGCAGATCA
AATGAAATATAATGTATGTAAAAGTCTGTATTTATGTTGGTTCTCTCCTTTTCTTTTAAAACATCCCTATAATGGCCCATGTTTTTTCTGGGTAAAATAT
TAGGGAATAATGGCATGATACAGGCATGAAGCATCCCAATACCAATTGATACTGCCCTGGCCATGAATGGGTTAGTTATAAGCATACTAAAGGAGTGAAA
CCCTTAACTTTTGGGGGCAGCTGGCTGGCTGGAGCTGTGGACTGGATATCTTTGATCATGATCATGGGTACTGTATTCTTTCACTCAGTGTGCCACATAA
ATATTATAGTTCTCTATTTGTGCCATGATATGAAAAATATTAGGAAGTGCTGAAATATGAATGATGAAGCAAAATATTAAAAACTAGGGTCTTAGGGATT
CCAGACATGTGATTTCACTTCTTCCTTCTAGTTCTGTCTTAGCATTGGCTTTGGGGGTAGATGGAGAAGTTCAGTGGTGGGGAGGGGGTCAGATYTAACT
GAGATTGGATCTAGTGTGGACACTACAGGTCATGACTCTTTGGAGTGGTCTCAGAAGCTGGCTGGGTCCTGGGCCAAATCAGATGGCATGGGAGCTTCTT
AGGGGAGGCGGGTGCCAGAGGTTAACTCAGCTGTCTTCCAGACCCCTTGCTGGGAGTCTGTGAACCCGAGAACCACTCAGGTGGCTTTCCCCAAAGTGTG
TTCTGTGCAATGCTCATCCCATGAGCTGCTTCTCAGAAAAAAGTGATGCCAGGTAAACTTGGGAAAGACTGCTGTATCTCCTACCCCTTGGAGATTCATA
CTGTCATTGTACATTAAAGTCTGCAAGAAGTCTGTAGAAAGTAAACCGTTAAACTGGTGTTTCCCAAATTCATTTAAGCACCCAACAGGTGCAGGTGATT
TATTAGGGAACCCACTTTGGGAAGTGATGTGCTAGCTAATTCCATTTGCCAGGGCTTGTCTGTGTGGGGAATGGTCCCACAAGCTGGAGACTGTCGCCTG
CCAGACTAATGGAGTCGCAGACCTGTGGGACATCTACTTTTCAGTGTTTTTCATCTTTCTTTCTTTCTTTCTTTTTTTTTTTTTGCCATGAAATCCTTTC
AGAATAAGTAAATAAGTCTTCCCATGCACTCTCAAGTATGCTTATAATATAAGCTTGCACAGCGTCTGGAAGAATGTGCAGGAAATAGTTGAGGATAGCT
TCTTCTGGGGAGTGGGGCTGGTAGGGAGAGACTATTAACTTTCACTCTTTATACTCTTTAATACTTGGATGTCAGAGTGGTTTTTACTTTTGCAATAATG
CTATAATAATAATAGAAACACCACCTAAAGTCCGGCCCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCGAGGTGGGTGGATTACCTAAGGTC
AGGAGTTCAAGACCAGCCTGGCCAACCATGGCCAACATCATGAAACCCCATCTCTACTAAAAATATGAAAATTAGCTGGGTATGGTGGCGGGCATCAGGA
GAATCGCTTGAACCCAGGAGGTAGAGGTTGCAGTTGAGCCAAGATCGTGCCACTGCACTCCAGCTTGGGTACTCCGTCTCAAAAAAACAAAAACAAAAAA
TCAAAAAACAAACAAAAACACCTAAAGTGTAATCATTACAATAAGAAACCTCATGCTGAGTCAGATAGAAGCAGTGCTGGTCAATGGAGGCTAAGGCAGG
AGCCTGCTCACCCTCCCCTGCCTCCCTCACGGTCCCAGGACCAGTTGGAAAGCACTCTGTCACCTGCTACCCTCATTTACAGTGGGGAAAATTTAATAAA
GGAGGGAGGTGACTTGTTCAAAGTTACACAGCAAGTGGGTTCAGAACTGAGACAAGAGGCCAAGGCCCCAGACGGACCATTTCCTTCTTCTGGCACTCCC
ATGCCACCCCACCCTCTCTGTTTCCGGCCCATCTTTCCAAGGCCTGACAAGTGCCGCCCCCACAGGTTGGACAGAGACTTGAACCGGCTCCCCCAGGACC
TGTACCACGCCCGTTGCCTGTGCCCGCACTGCGTCAGCCTACAGACAGGCTCCCACATGGACCCCCGGGGCAACTCGGAGCTGCTCTACCACAACCAGAC
TGTCTTCTACMGGCGGCCATGCCATGGCGAGAAGGGCACCCACAAGGGCTACTGCCTGGAGCGCAGGCTGTACCGTGTTTCCTTAGCTTGTGTGTGTGTG
CGGCCCCGTGTGATGGGCTAGCCGGACCTGCTGGAGGCTGGTCCCTTTTTGGGAAACCTGGAGCCAGGTGTACAACCACTTGCCATGAAGGGCCAGGATG
CCCAGATGCTTGGCCCCTGTGAAGTGCTGTCTGGAGCAGCAGGATCCCGGGACAGGATGGGGGGCTTTGGGGAAARCCTGCACTTCTGCACATTTTGAAA
AGAGCAGCTGCTGCTTAGGGCCGCCGGAAGCTGGTGTCCTGTCATTTTCTCTCAGGAAAGGTTTTCAAAGTTCTGCCCATTTCTGGAGGCCACCACTCCT
GTCTCTTCCTCTTTTCCCATCCCCTGCTACCCTGGCCCAGCACAGGCACTTTCTAGATATTTCCCCCTTGCTGGAGAAGAAAGAGCCCCTGGTTTTATTT
GTTTGTTTACTCATCACTCAGTGAGCATCTACTTTGGGTGCATTCTAGTGTAGTTACTAGTCTTTTGACATGGATGATTCTGAGGAGGAAGCTGTTATTG
AATGTATAGAGATTTATCCAAATAAATATCTTTATTTAAAAATGGCCTAATCTGTATTTGGCATCCGTGGTGCCTGAACATCTCGCGGTCTCCCAGCCTG
TCCCTTCTCCTTTCCACCATTGGCCCTCACCTCTGTCCACCCTGCCAGCTCTCTCCGCCCTCCAGAGTTTCCGCTGCACCCTCCCGTCCTCTCCCATCTC
TGTCTCCCTGGCCCATCCCAAACACCAGGGTGGGGGCTAGGCCGCGCTCCCGGCATGCTGGAGAGACAGAGGCCCATTGAGGCATTGCAGCAGGCACAGA
GCGCCCCCTTGTCCCCCAACAATCCGCCTTTGTCCTCCAGTCCTGGCTGCTGCAGCTTGGTCCTGGGGGTGCTGCCTGGGCTGGGCTCCAGCTCACACCC
TCCCTAAAAGGAAATGGGAGAAAGGACCGGCCAAACAAGAGGGTTAAGGTTAGAGAAGGGGGACACAAATGTCTTCAGGCTTAGGTCCCTGGGGGCTCCC
AGTCCTGCCCCTGTTCCTCTACTCACATCCCAGCTCCTCCCAGTTTCTTTTCGGACCTCCTCCTCTCCCCTTCCTTCTCTATTCCAGGCTGGGTTGGGCT
CTAAGCAAGGGGAGGGATTAGAGCCTCCTTCCTCTCTGCCCCTCCCCATGGGTCTCTAGGGGGCTGGTGCAGGCAGCAGCAGAGGCACTCTGGGCAGCTG
GGTGAGGGCCCATCTGGGCAAGGCCCCCAGCGCCTGCCTTCTCTCCCGGGGCCCTGTGGGCAAGCCTCCTGCTTCACTTTCAGGTTTCTCGAAGTGCCTT
CTTGCTCCTGTCTGTTTCCCCATCCTGCCAGATTTCTGTTTCTCTTGCTGGGCTTTTGGCAGTAGGGGGCTGTGTTGGTGGGCCCTACGAAGATGCTCAG
TGCTCGAGATCGCCGGGACCGGCACCCTGAGGAGGGGGTAGTTGCAGAGCTCCAGGGCTTCGCGGTGGACAAGGCCTTCCTCACCTCCCACAAGGGCATC
CTGCTGGAAACCGAGCTGGTAACAGCTGCCTCCCAACCTGGTGCCTCCATCTCCCTGACCCCCGGCTCCTGGCCAGCCTTATGCCAGCCCCCAGCTCACC
CTTCAGTAGCCTCCTTCCCCAAGCCCTCTGGACACCTCTCCTGCCCGCAGCTGCCCCTTCTTCGTCTCCTACTCTGCCTTCTTGCTGCCTCTCCACCCGG
AGACATTTACAGCAGGTTTCAGTTGCAGCAGGAAGGACTGCAGTTAGACAGGGTGACTTTTTGGGACATTGAGGAAGCTTGAGACATAGGGATGGGACAG
GGGCAATGACAGCCTCTAACATGGCCACTTCTCAGCACGTCCAAGAAGTCTAACTATCAAAAAGGGCAGACTTCCTGCAACTGCACTTTATCTGTGGTCT
GCTGCCCAGAAACATCTCTTCTCAGGAAAGGATCTTCCCCTGGTTACTTAGCAAGACCACAGTGTAGAGTTAAGGCCTCTGCACGTATGCCACCCTAGGT
CATCAGAGCTAAAGGGGCTCCCAGAAACCACTGGGCAGCATCTGCCTTCTCTCTTGGCATGGAATCAAAGGCTCTGGTCCTTGTCAGGGGGCTTTCAGGC
ATCTGGGGGTGGGGAAAGCATTATGAGGCAGGGGGCTCCTCTTGGTCCCTGTGGAGTCGGGTCTCTGTGGGCACAACTCCAGGGGCTGGCATTCACACTG
TACCTATGAATTACTGTGGGATAGTGCTCCTGGGAGCCATATGGCTTGGCCAGACTGCTGGGGTTGCTGGGTGAGCAGAGTGGGAGGCCGGAGACTGCCC
TTGACCGGCAAATGCCCTGCAACGGTGGCTCCTGACACCAGGGGATAGGGAGATGTGCCAGAGTCCTTCCTCCCCTCCAAGGACAGGTAGTAGGTGCCAG
CCTAGGGGAGCTTCCAAGGAGGGGAAGGCAAAGCCCTGGCCCCTGCCTGTGTCCCCTTCTTGGCATGTTCCACATGCTCGGTCCTGCAGGCCCTGACCCT
CATCATCTTCATCTGCTTCACGGCCTCCATCTCTGCCTACATGGCCGCGGCGCTACTGGAGTTCTTCATCACACTTGCCTTCCTCTTCCTCTATGCCACC
CAGTACTACCAGCGCTTCGACCGAATTAACTGGCCCTGTCTGGTGAGGAACCCTGACCCCTAGCCCAGTTTGGGGCCCTTCCCTCTCCTCTAAATGATGC
ATTTTCCTTTCCTCCCCGAGCTTCTTTCCATTTCCACACCACAGCTGGGCTTTGTCCCATGCTATGCCCTGCACTCAAAGGTGTGCTTTGACTCACACTG
ATTTCACAGCTGCAGGGCCACGGGCAATCAGGAGGACCACATCCGCTAGATCTACTCTCCCACTCAGCAAAGGTCCAGCCCCAGCCCTGGCCTGGCTTGA
CCCCCCCGGGCTGGCATACTCCAGCCGCTGTCCCCTGGGTTCCAGCCCCAGCGCCTGGCTTCTGGTCCTGGTTGCTCTGGTTCATCTGCTTCCACTCCCT
GGGTAGCAGTGTGAGCGCTCTGTCTCTTGAATGTGCTTCATATTGTGTGAGGGGTATCCTATGGAGGGGTTCAGAATCCCTCAGGGTCGGGCTGCTGGCT
AGCCTGGAAAACTTCAGGGTAACGCCCCCTGCCTTCTGAGGTCCTGTTAACCCTGCACCCCTGGCCCCCAGGACTTCCTGCGCTGTGTCAGTGCCATCAT
CATCTTCCTGGTGGTCTCCTTTGCAGCTGTGACCTCCCGGGACGGAGCTGCCATTGCTGCTTTTGTGAGTTCAGCCCTGCAGGACTCCTTAGCCCCTCAA
GAGCTCAGGCTGGTGCTTGCACACTTTCTGTATCAGAAGCCACAGCCAGGACTTGGGGTTCTGGCTTGCACCTCACCCTATACCTTAACCCAATGGCCCT
ATAGCCTCTGTTTTGCCATCCCCACTCCCACTCCCACAGGTTTTTGGCATCATCCTGGTTTCCATCTTTGCCTATGATGCCTTCAAGATCTACCGGACTG
AGATGGCACCCGGGGCCAGCCAGGGTGAGTGCCTGTGCTCTGTGGAGAGGAGATGCCCTCCCCACCCTAGCTACCCATCCTGATGTGGGTCCCTACCTGG
CTCTATCCTCACAGGGGACCAGCAGTGACTCTGGGGCTACCTGGCTCCTAGGCCCAGCCAGCCAGAGAGGACAGTGGAGCCCAGACACGTCTCCTTGGGA
TTCACTAGCCCCCAGCCCGCCAAACCCCACCCCAGCCCTACACAGCAGTCTGGCCTGAGACGTCACTGGGGACTTATCTGTGGAGCCTGGTGCTCCAGGA
TGTGGCTTCTCATGAAGCTCTGGCCAGAGGAGGGGAACTTATTGGGGGAGGGGGGGTGGAGGGGAGGAATCTGGACCTCTAAGTCATTCCCAAATTAAAA
TATTCAAATTCTACTGGTGAGTCTCTTTCTTCCCCAGAAATTAGGCAGGTCAGGAATGTCAAGGAGTATTCATGGGAATGTTGCCAGAGCAGGTCGTGGT
CTGTCTCTGGGACTGGGTCTGAGCAGTGAGGATGTGGGGGCTAGCCAGAAGAAGCTGAAGACATCCTCCAACACAAAACTTCTACGCTACACCTCTGTGT
GCACGGCCACTTTGTGGTGTGCCTGGTGGCTGGGCATCTGGAGTTCTGTGTCTGAGAAGGCACAGCCTTCCTCATGGGAGCATGCATGCACCACCACACC
TGTTCCCGCAGGTTAGTGGGCTGGAGGCCAGGCGCTCGCCTGGGGCGTGTGCAGAGCTCCCCCTTGTGGTGTGGGGAAGACTTGGCCCACAGGACGCAGG
GAGAGGGCAGCCTGAGGTATCAGAGGAGGGAGAGATTTCCCAAAATGCGAATGCTGGGAGAGCCGTTGATTATCAGCTGGTCCAATGCCCTCATTTCACA
TAAGAGAAAACAGGCCCAGCCAGGGGAGGTGAACTCATTTGTGACAGAGCTAGGGCCAGAACGCAGCTCTTCTGACACCTAAGCGAGTGTTCTGGATACT
GTACTGAGCCTCCTTGTAGCTCAGAAAAGAATGGCCAACTCTTCCCTCCACTGCGGGTCCACCCTCCCAGCTTGCCAGCTCCTCAGCACACATTTCCTGA
GCATCTCCCATGCACACTGTGCTGGGTGCCAGGGCCTCAGAGGTGACGGGGGGCCTGCCCTTTAGCACTCACAGGCTGGGAAAGAGACAAGCTGGTCAAG
AGCTCCCCACAGTGAATGCTATGGGAAGGCTCAGGGGAGTTTGGAGCAGACACTGCCACAGCCCGGGAGTCAGCCCTGCTGGGCCGAGACAGACAGATGT
GCAGCCAGACGTTCCTGCCCAGCCCGAGGAGCCCAGCATGGCCTGGCTCAGCAGCTCCATCCCAGCTGACGTGCTATCTCCTGTCGCTGATGTGTGTGTG
TTCCCGCCCTGAGATACAATCCTTCTTCTGGAGCGCTCCTTCCAGCTGCAGGCCCCAGCTCCCAAGTCCTGCCCGAACCCTGGATCTTGAACTCTGGTCA
GAGCGCTCTGCTTCCTTGGTGGCAGCCACTCCTCTCTCTTGGTCTTTTTCCTGCCTCCTGCTTCCTGTTCTCCTATCCTTGTGTCCTGGCTCACCATCAG
AACTGGCAGCCTCTCCTGGGCTAGAACCAACAGGATTTTGTGTTTCTCTGGTCACTGCTCACATTTCTCAGGGCTTTATGCACAGTCCATTCTCATGGTC
TCAGAGGAGGGATAGAAGAGGCTCCACTTGGGGAGTCAGGGAGATGGGGTGCCAGGTGAACGGTTAAGGAGGCGGTCAGCAGAGCCTGGCTGCAAAGCCC
AGTGGGGAGTGGGGATTTGCTTTGTGCAGAACGGGGTCAGGACCGGGCCTGTCCCACAAGCAGCTGTGTGATCCAGGCCAGACTGTCCCCAGTAGGAGCT
TAGAGAGAGCAGAAATGTGACCACAGTGTTTCCCTGTACAGGCACCTGTGCCATCTGTGTCTGTGTGAGAACCAACATGAAATGAGCAATGCCCAGGCTT
GGTCCTCATGGCATATTGGTTTGGGCTCAGTGTTGATTGGCCCCAGAGTCTCAAGATGCCCTCACGGTGAGGTGCTGAATCATAGGAGGCAGGGGGAGAC
CCCTGGGGAAGACAGGGAGGGGGCTCCCTGGGAGTTACTTCCTAGGGGCTGACTAGAATGGAATCTCTCCCATCTCCTTTCCCATACCTTAATTCTCAGC
CAGCTCTGAGCCTTTTCTGGCATTGGTGGAAAATTCATTTCAGAAAGAATGGGTGTCCTAGGACACCTTTAATCATTGCAGCCTCAGGGGTGGGGTAGGT
GGAGAGTGGCTTCAACTTCGGCACCAAAATTCTATCTCGTAGCATCTTGGACTGGCTCACCATTTTGATGCCATTGTTTTCTTCACTTTTGAAATTTCTC
CCTCTCCACCCTTGTGTGGTTGACTGAGCAGAACTGGGACTCACAGCTGTCCACGTCAGGCAGAACACCTCACTCCTCTGCACCTCGGTCTCCTTCCTTG
TGGATATGGGATGCCTTGGCTCTGGCAGCTCTGATACAGGGGCTGGGGGCCTCCCTCCTCTCAGGCCCCCTACTGCCCTGATCCAGGATGGACAGCTGGC
AGGAAGGACAGATGGGCTCAGGCAGAGTTTGGCACTCATATTTATTACAGGTTGGCAAGAGTGAGGTTCCCGAGGCAGTGTCACTCCTCATCGTGCATTT
TTTGCTGCAAAAAGAATAAGAGGTGTGAGGGGGCAGCTGGCAAGAGGGAGAAGTGTGTGGGGACAAATCCCTGGGGCTTTCAGAGGCCTAAGGGAGATGC
CCTTGGAGGGAGAGGCAGGGCCCCAGGGATCCTGTGGTCCCACGTTAGAGGCACTTGTGGTTTAGGGGGATGGAACTGGGGATCTCTGCAGAAGTTCCAG
TCAGTGGGGGGCTGTTTTGAGCAGGAGAGTGGATTCTCAGGTTATGTAAGCTATGGGACCCTCAGAACTGCCTACATATAGGGCAAGCAGTGCCCACTCT
GAAGGGCACCCATATCAGGGGGCATGCTAATGTGGAAGTGACTAG


SNP Information

Context             (SEQ ID NO:56125):
GGGATTCCAGACATGTGATTTCACTTCTTCCTTCTAGTTCTGTCTTAGCATTGGCTTTGGGGGTAGATGGAGAAGTTCAGTGGTGGGGAGGGGGTCAGAT
Y
TAACTGAGATTGGATCTAGTGTGGACACTACAGGTCATGACTCTTTGGAGTGGTCTCAGAAGCTGGCTGGGTCCTGGGCCAAATCAGATGGCATGGGAGC
Celera SNP ID:            hCV2484747
SNP Position Genomic:     7295
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56126):
CCGTTGCCTGTGCCCGCACTGCGTCAGCCTACAGACAGGCTCCCACATGGACCCCCGGGGCAACTCGGAGCTGCTCTACCACAACCAGACTGTCTTCTAC
M
GGCGGCCATGCCATGGCGAGAAGGGCACCCACAAGGGCTACTGCCTGGAGCGCAGGCTGTACCGTGTTTCCTTAGCTTGTGTGTGTGTGCGGCCCCGTGT
Celera SNP ID:            hCV2484749
SNP Position Genomic:     8911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,6)      total(A,5|C,6) ;(A,-|C,-)   Caucasian(A,11|C,73)   total(A,11|C,73)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56127):
CCACTTGCCATGAAGGGCCAGGATGCCCAGATGCTTGGCCCCTGTGAAGTGCTGTCTGGAGCAGCAGGATCCCGGGACAGGATGGGGGGCTTTGGGGAAA
R
CCTGCACTTCTGCACATTTTGAAAAGAGCAGCTGCTGCTTAGGGCCGCCGGAAGCTGGTGTCCTGTCATTTTCTCTCAGGAAAGGTTTTCAAAGTTCTGC
Celera SNP ID:            hCV2484750
SNP Position Genomic:     9176
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:56128):
CTGGAGACTGTCGCCTGCCAGACTAATGGAGTCGCAGACCTGTGGGACATCTACTTTTCAGTGTTTTTCATCTTTCTTTCTTTCTTTCTTTTTTTTTTTT
T
GCCATGAAATCCTTTCAGAATAAGTAAATAAGTCTTCCCATGCACTCTCAAGTATGCTTATAATATAAGCTTGCACAGCGTCTGGAAGAATGTGCAGGAA
Celera SNP ID:            hCV27129032
SNP Position Genomic:     7884
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56129):
GCTGGAGACTGTCGCCTGCCAGACTAATGGAGTCGCAGACCTGTGGGACATCTACTTTTCAGTGTTTTTCATCTTTCTTTCTTTCTTTCTTTTTTTTTTT
T
TGCCATGAAATCCTTTCAGAATAAGTAAATAAGTCTTCCCATGCACTCTCAAGTATGCTTATAATATAAGCTTGCACAGCGTCTGGAAGAATGTGCAGGA
Celera SNP ID:            hCV27129033
SNP Position Genomic:     7883
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56130):
AGCTGGAGACTGTCGCCTGCCAGACTAATGGAGTCGCAGACCTGTGGGACATCTACTTTTCAGTGTTTTTCATCTTTCTTTCTTTCTTTCTTTTTTTTTT
T
TTGCCATGAAATCCTTTCAGAATAAGTAAATAAGTCTTCCCATGCACTCTCAAGTATGCTTATAATATAAGCTTGCACAGCGTCTGGAAGAATGTGCAGG
Celera SNP ID:            hCV27129034
SNP Position Genomic:     7882
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Gene Number:                 310
Celera Gene:                 hCG1780484 - 84000314998055
Gene Symbol:                 KIAA0494
Protein Name:                KIAA0494 gene product
Celera Genomic Axis:         GA_x5YUV32W802(36406748..36462749)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12470):
ACACACATGCACACAGACCCCTCCTCAGTCAGAAGAGCCCTGCCTTCATGATGCAATCACCTTCTCTCCCAGCCTGTGCTGTTTAGGCTTTCTAGGTCAA
ATGGATTCCTCAGAGGTTCCATTCCCAGCCTCCCTGTCCACTCAGTGCACTTAGCAATTCCCCTGAAGGCTTTTAACGTTCACCATTTAAATTTCATTCT
TACCACAGGAACTGCCAGGAGGTCAGCACTGTTAGGTCCAATTTGCAGGTGAGGAACAGACTCAGAGAGGAAAAGGAACTGGTCTAAGGTCACACAGCTA
GTGAGTGGAGAGGCTCAGATTCAAACCCAGGGGTGCTGGCCTTGGGCTCCCTCCATAGGCAGCTGCAGCCTCCACTCCAGCTCAAGCCCCAGGGAAAGGG
ACAGGAGTGGAGGCATGGGCAGGAGGGTGGGAGGTCACAGTACAGATTCTTTACTCCCAGGATTTTTATTATCACCCTAAAATAAAGCTAGTTACTCCAG
GCTTGCTTCTCCTCCCCCCACCCCACCCCCACTATAAACCTTTCTATGACATTTACAGGGTGGGGGGCATGGGGCATAGGGGGAGACAGCATCGCCTGCT
TCCTGGGAACTCTTGTAGGGCAGAACCTGACTATTACTGATGTTCTCCAGGACCTCACACACAGTAGGGGCTCACCCAGGGTGGGTTTGATGGATGGATG
GATGGATAAATAGGATCATCAAGATGAAGGGCAATGCCTGGGAACTCTTTAGAGTCTTTAGCGTCTCATCTTTTAATTCAGCAAACGGGCCCAGAAGATT
CCCATCCCTTCCCCAGCACTAGGCCCTGTTTTGGATGCTAAAGACACATAAATGGGGAAACTGAGACCACTACTTGGCAGAGACACAAAAGTTTGCAGCA
ATTCAGAAGAGGATGTGCCTGGAATAGAAGGAGAATCTCAGGAGGGGCAGTCCTCACCCCTGCCCACAATAATGCTGTGAACCAGTTGCTGCTTCCGGCT
GTTTGGGCCCCACCGGCAGAGAAGCCATTGTTTAGCTTGGTGCTTGGCGCCTTTCCTACCACCCAATCCTTCCCCTTCCCATTGTCCTCAGGCCCCTCAT
CAGGGTACAGGATGCAGCTGCCGGCACAGCAGCAAAAAGAATGGGAAGGGGCTGGGAGAAGTAGATCCCAGGAAAGTTGAGAGGCTTCAGCTGGTGGTCC
CTTTCAGAAGAGCTGCTGACAAAGGCCCCAGGCAGCAGGCTCTGCCAGCATGGCACTGGGCACTGGGTGCAGAACTCAGGCTTCAGAGGCAGAGAGATCC
AGATTCAAGCCCCAGTATCTGCCGCTGACATACTGTGTGTCCCTGGGCAAGTCTCTTTTGATCTCTGAGCAACAATTTCCTTCTTGGTTAGAGGAAGAAT
AAGATGCTTGCTTAGTGAAGAATGACTTATTGCATTGAGGAGTAACACAAAAATGCATGATACCTAAATATTTTTAAATGTTCATTTCTGTTCCTTCCCC
CCACCTCAGCCATAGCAAAGTATCAAAAAAGATTATGTCAAAGAGGACTCTTGTGACAAGTGGAAGCAGTGCTTTCTCTTCAGTAAATGAAGATGTTTTC
CCACAACTGGGTTATCTGAAAAATCACATTGAACAAATCTATAATAAATCCCATTTAGTAATTTATAATCACATTAATGGAACAGCTGACATTTATTGAG
TACTTACTATGTGTCAGACACATCACTTCTGCACAGATACTCTGTGAGTTAAGTACTCCAGGGTTAATTTCATGGGTGTATGACCAGAGTAGCTGCACAG
GGCCCCCCACTCAGAAGGGTGCCATGCACTTGGGGTTTAATTTCCTGTGGTCACCACCTTGAAATTCTTAATCATTCTATCTTTTAATTTGTGTCTTATA
AGAAAAGTTGGGTGGAGCAGTGGAGCACACACTGGTTATTTGGAGCCTTGGTTCATACACGGTCCTGCCTCCTGTCACCTCCCCACCTCCTCCTCCCTGA
GATGGGTTCTCAGCTGTCTGTTCCCCTAAACACCCCACATCCCTATTGCCACCACAACTCCATCCCAGGCAGGGGCCTGGGTGTCGGCACAGGGAGAGGA
AGAGAGAGTTTGCATGCCAAGTCATGAAACAGGCCTCTTGCCTGTCTCATGTGAGGGTCTACACTCACCTTGTATCACCAGGCCTAAGGGAATACAACAT
TAAATAGTGAATAATAAACAGGAAGACAGGTTGAGAGAGACAGCAGAGAGAGAAAAGGAACCCTGCATTTGCATTTGCACTGGTCCTCATAAATTATGTA
GCCAGTCCTGGGTACTATGATTGCCTCTATTTCACTGAGGTGGCAATCATAGTGGACACTGAGGCTCAGAGAGGCTCAGTACTTTGTCCAGGATCACACA
GCTGCCAAGTGGCAATGTTCAGACACAGACTTAGATCCCAGGTAAGAGAGGACTCCAAGATCTTAAAGAGCTTTCAGCCCAGGAATTAGGAGAGCTGGAT
CCAATTTTTGACTATGACCTTGGCAAGTTTGCCCCTACTCTGTGCCTCAGCTTGCCCAAGTGAAAGCACTCTATGGAGTCTTCCAAAGTAGCACAGGGTC
TCAAGATTTGGCTTTGCCAGTTATATGGGCTGTGATTTTGAGCACAGGGAAATCATCTTTGCCTACCTTCCCCATAGAGTTGACAGAAGCATTCAGCAGA
CATGTACCCACTCTGCATGACACTTCACAGCATGTAAAGCACGCCCATGCTACTCCCTGCCCCAAACAACATGAAGCAGAAGACTGGGCTAGGAATATTA
TCATCCCCATATCACAGACAGAAACTTTGAAGCGCCAGAACTCTAAAGTGACTTCCCCAAACTCACTGCATTTCAGGCAAGTTTTGAGTAGGTTAACAGA
CTCCCCAGGATCATAATATGAACAACCCCAAAGGAGAAGATGGATCACAACCTTGGGAGTCCTGGTGTGGGAGGGCAGCAGGAGGCCCCACTCTGAGTGG
GGTGGCTTAATCCCTGGCCTTGAGGGTCCCGGGTCTGAGGAAGGAGGCCAGAGAGGTATCCAAGAGCTCCTGAAGGAAAAGAAACAGCTGGCCAGTAACT
TTCAAAGGGTGACAGCATCCTGTGTGATGTCTACCCAACAAGGAGGGGTGTTATCTACAGATCATAAGCAAACAGGCAGACAGAAGGACTGAGAGGCAGA
TCCAGCAGAAGCATTCCCCTGTTTGTCAATTCTACTCCTGCAGCCTCCCCACCCATGACCAGCCCACTGGCCAGTCATGGGAGAGATCTCCACCCACAGA
GAGCACAGGCTCTGGCTGACCAGAAGTCCCTGCAGCGGGGGTGGTATGTCCTCAGCCCTGCCCCACTCCCCTGGGTTCCTCAGTCCCTGGTTCCCTGGGA
ACCTGTATCATCTACAACAAAGGAGGGCCACCCCACCCTCGGGCCAGCCACCTCTCCTGCCTGGGGCTTCTGGTGACCACAGGATGTGTTTCAGAAATGG
TTCTTGAAGTCAGGAGCCTCACCTGTCTATCCCCAGTCCTTCAGGGAAGCATTAGTGAAGAACTCTCCAGTAAAACTTTCTGTGGTGGTGGAATTGTACT
ATTACTTGCTGCCTGGTAGCCACTTGCCACATATGGCTACTGGACACTGTGGCCAATGATACTGAAGAACCAATTTAAAATTTGTATTTTGTTTTAATTA
TGTTAAATGTAGATTTAAATTGTTATATGTGGCCAGTTTGGCTACTGTATTGGGCAATGAAGCTCTAGAAACAAAAGGGGACAATACACCATGACTTGGG
GCTTCAAAAACACTTTCACATTCATCTCATTGTCCTGTGAAATAGGTGTTTATCCCCATTTTACAGAGGAGAAAACTGAAGCTCAGAGAAACTAAACGGC
TTCCATGCTGATGGAGCCAGGAAGAAGTAGAGACATGATTGAGTCCCAGGTTTCTTGATTTTGATTCCAAAAGTCCACTCATACCTCTTTGCAACACTGC
CCACTTATGTAGTCATCACATATTTATTGGGTCATCGTTATTTAGGAGTACACTTCTGGGCTAGACACTTAAAAACAAATCAGATACAGGCCCAGGCTTT
GCGAGAATCCTTGGACAAAAGCAGCGTAATTGCCACAGTAAGAATATGGGCATAAAAATTACTTTAAGTGACTTTCTTCCAAGTAGCTCAAAGCACTTTG
CTTTAAATTCCATTTATATCTGATGACTTCCCAATTGATATTTCAGGCCCCAACCTGTGCCCAGAGAACTCTCAATGGGTATACCAAACAGCCTCCATTT
GAATATTGAATTGGCTTGTCAAACTTGTCCCAAACTTGCTCTACCCCATCTCAATAAATAACAATTCCTTGCTTCCAGTGTTTCCACCGCCAAACCCTCT
CTTCTCTTCACACCTTTCATCTAATCTATCAGCAAAAATTGTCAGCTCTGTCTTCAAGAAACATCCAGAATGCTCTCCATCTCTGCTACTGCCTCTCTAA
TCTATCAGCATCATCTCTAGCTGGACTGTAACAAACTGCTCTCCTGTGTTCCTCACTCCCCCCCCACTTTTTTCTACAAAGTAGCCAGAGTAATTTTTTC
CTTTATTTTATTTTATTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTGAGACGGAGTCTCGCTCTGTTGCCAGA
CTGAAGTGCAGTGGTGCAATCTCGGCTTGTTGCAACCTCCGCCTCCCGGTTTCAAGCCATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGGATTACAAGCG
CGCACCACCACGCCCAGGTAATTTTTGTATTTTTAATAGAGACAAGGTTTCACCATATTGGCCAGGATGGTCTCCATCTCCTGACCTTGTGATCCGCCCA
CCTCAGCCTCCCAAAATGCTGGGATTACAGGCGTGAGCCATCGCGCTGGCCCAGAGTGAATTTTTTTTTTTTTTTTTTTTTTTACGGAAAAGCCAGAGTA
TGCTACCTCTCAGCTTAAAGCCCCCAGTGCTTTCCCAAAGTCCTTTCAGTGATCCATAAGGCCCTAAAGCCCTGGCCTCTGATGCTTCTCTGACCTCATT
TCCTATCACTCTGCTCCTTGCTCTTCTGGTCCAGCCACAACAGGTCTTCCTGGTCACTCCTTCCTGCAGCCACTGCACAGCTCATTCCCTCACCTCTCCT
CCGATAAGCTGACTAAATGTTCCCTTTTCACAGAGGCACTCCCCATCACCTGACCGTGTTTCAATTTTCATCATAACACTTATCACCTCCTGACATTTAA
TATGTTTGCCTATTGTTGCTCTCCTCCCTCTAGAGTATAAATAAACTGCAGGAATAGATTGGCAGATAAGATACACGATGCTCAGTTAAACTTGCATTTC
ACATACACAATGAATAATTTTTTAGTGTGAGGATGTCCCAGATGTTGCATGGGATGTCTTAATGCTAAAAAATTGTTTGCTGTTTCTCTGAAATTCAAAC
TTTACTGGGTGTCCTACATTTTTATTTGCTAAATCTGGCAACACTATACAGGAAGACAAGGACCCTGGTTATTTTGTTCATGGCTGTATCCCCAGCGCTA
GAACAGCTCCTGACACGTAGTAAGTAAGCTCTCAATAAATATTTATTGACTGAATGAATGTGTTAATTAATCTGAAACGCGCCTAAACTTTTAACAGCCT
GTGTGAGAGTCAGAGAGGCGGAGCCTTCAGACTTGGTTAGTCCAGGGGGCCTGGGCGGCTGATGAACTTTCGAAGTAGGTCGAGCAGCCGGGCGCTTTGC
CTGCCCCGCCCGCGCTCCGCAGGATGCAGGACTCCACCCGGCTCAGGTTCGCAGCAGGTCCCGGAAGCCCTCCTGGGGGCGGGGCCACCCTAATCGGCAG
GTGGGACCCAGCCCCAGCCGGGGCAGGGCCCCTTTAACGCCCCACCTCTCCGCCACGACTTTCGCCCCGGCGTGACGTCACCCCAGCGGGCGACCAATGG
GAGTGCGGCTTACTGGCAGGCGGCGCAGGCGGCCGCTGCCAAAGGGGAAGTGATCTGGGGCTGGAGCGATGGCCCGGGGCTGGAGCTCGCGGCCGCCGCC
GCCGCAGCCGCCGCCACCAACGCCAACAACAACGTGTCGGGAGCAGCCGCGGCCGAAGCCGGAGCAGGGGCCGGAGTCGCGGCTGGAGTGGGGCCTGCGC
GTGTGAGTGGCCGAGAGTTGCCCGTGCCGGAGACCTCAAACTCCGGGCGGGAGCGCTTTCGGTSGGCCGAGCCGCCGTCGCCCGCGGCACCGTRTCCCCA
AGGCCCAGACAGCGGGGCGGGGGTCTATCAGGCGCGGGACTGGCTTCTCTCAGGCCGACCCTTCTAGCCGGGCTCCGGATCTTCCTCGGCCTCGGGCCCC
CTTCACGTTCAGGACGGAGGCCGGAGAACGGTGATCATCACACACCCCAGCCGGCTTCCTGGCCAGGGCATTTTCTCTGCGGCCAAGCAGTGTTGGGATT
GTAGCTGCTGGGAGCCCCCTCCTGCCGCCACCTCTCCTGCAAGGAAGGGACTGACGCGTTCCCACTTTCTTACTCTGCACCTCCCCACTCTCTTCCCATT
CAAGAACGAGTTTCTCTTCCCTCTCCATTGGAAATCYTGCTCCGGAGGTCCRAAACACGTATTTTAAGCGTGCCCTTCCTCACCTCCTGGAGCACCCTTA
GAAGTATTGCCTACTTATCCGGGCTGAGAATCCTTCATTTTTGACCTGGCTTTTTTTTCGCCCTTTGGGAGATAAAGGTCCCTCTCCACCCTCTACTAAC
ACTCTGCACCCAAGGCCTTATCCTTTGGGGTCACCAGCTCCTTGGCCATTTCTATGTGATTTCCCCCACCCATCTGAGTTCCAGTTTCCTCTGGGCTCCA
ATCTCCAGTCCCTGGCGGATCTGGTCAGTCCCACCCCTAGGTGGGAGTGACCAGGGGGCTCTGGCCCAGGATTCCCAACCCTGGAAGGCAGCTCCAAGGC
AGGAAGAGAATTGGGCATCGGGTACGAACCTGGCAGCTCAGGAGTCGGGGCTCCACTCACCCCACACAAAAAGATGAAAAAGCGCAAAGAGCTCAATGCA
TTGATTGGTTTGGCTGGGGACAGCCGGAGAAAGAAGCCCAAGAAAGGCCCAAGCAGTCACCGCCTGCTTCGCACTGAGCCTCCCGACTCAGACTCTGAGT
CCAGCTCCGAAGAGGAAGAGGAATTCGGTGTGGTTGGAAATCGCTCTCGCTTTGCCAAGTGAGTAGTGGTGAAAGGTGGAATGGGAAGAAGGCATCTCCT
TGCACTACCAAGGGGCCACATTGACAGGAAGGAGAAAGGAAGTCCTTAGGAAGAAAAAAGGGTGTAGGCCTTGGAAGTCAAAGAGGGAAAAACGGTTTTA
GGGAGAAGGTAAGTTCAGATCCTGAATGAAGAATAAGTTAGAGATCTGTCTTTAGGTGTAGAAAGAAAAGCTCCAAATCTGAGGTGGAAATGTGGACTTG
GAGAATGTGCCAAGAGCCCAGGGAGTCCTAAAGAAGCAAAGAATGGAGACAGAGGAGCAGAGAAGCTTTGGGGACTAGACTTTTTAAAACAGTGTAGAAC
AAAGGAGAAGCAGAGACTTTAAGACTGCAGATTATTTCGTTTTTGCACTCTTGATGAGTCTGAATATTGGTGGTGGGGAAATATGGTGAGAGATATACTG
TAGGAAGTATGAGCCTTGAGAGTAGGTGGGGTCGGGGGGCAAAAGAAGAGGCATCATTTTCCCTAGCCATTCATAGGTGGAGAGACCACTAGGCAAATCA
AGTAGTAAGATTTGAGGACATTGGGATTGGGGCTCAGGATGGGAAAGGACTAAAGGGAACTTCAAAAACGTCCTTTGACTCTCTCAGAGCACACTAAAAG
AAAAGAGGATTCTGCTGAGGATGTAGAAACAATGGCTAGGCAGAAGGTCGGGGTGCTGACATTGAGTGGTTGGTTGGTTTAAAATGTCTTGTTTTGTTAA
AGGAAGAGTTTGATTTCTAATGAGCTTTGTCAGCTAAGGCTGTTAAGGGCAATCCTGGGTTTGGGTTATGAAGATCAGTTGAAGTGTTACCTTCATCAGA
AGGTACCTGGAGTAGTAACCCTACTAAGTTAGTTTAGACCTTGAAGGTTGGTTGATGTTTTGTGTGAAATCCAGCCCCTTCTATGTTTCCTTACTTCTGA
GCCAATAAGCTAGAATACACCAGGTGTCCACTTAAAACTACAGATCCTGTTTCTTTCATTTCTTTTGCAGTAAAACTTGCTCAAAAGTTTATAAAGTTTC
AGTAAACTGGAGCAAGGTTCCCCGGAGTGAGTATGTATTTCAGAGAGAARTCAATAGGCAAATTMCAGTGCAGAGATGGAATTGCAGAGAAACATTGGTC
TTTACACTTTTGTGACCTGAGCTTGTATTCAAAGACCTCCCTCCTGATAATGACAGCTGCAGTGCCTTTAGGTTCTTCCTTTTACCTGCAGGAACTCCTT
CTGTTTTATGTGACATTTGAAACCTTTGTATCCAGTAGATGAACCCTTAATAGGTCAYATTATTTATTCATTTAAGTGCTTTRCCCTGCCTCCCCTGGTT
AATTCACTGGTTATTCATTTAAAGGARATAATTGCATGGCAAAACGTGTACTATTGCTAATAAAGCTATACCCATAATCACTTTTGTACTCATGGTTGAA
TTTGTCCTCTTGAGCAGGGGAGACTATTTACGATGCTGCAAGATCTGTTATCCGCTCTGTGGTTTTGTCATCCTTGCTGCCTGTGTTGTGGCCTGTGTTG
GCTTGGTGTGGATGCAGGTTGCTCTCAAGGAGGATCTGGATGCCCTCAAGGAAAAATTTCGAACAAGTAAGTAAGTGGTTACTCTCTTTTTTTTTTTTTT
TTTTTTTTTTTGAGACAGGGTCTTGCTCTGTCGCCTAGGCTGGAGTACAGTGGCGCAATCTCGGCTCACTGCAACATCCGCCACCCAGGTTCAAGTGATT
CTCATGGTCAGCCTTCTGAGTAACTGGGATTACAGGTGTGTGCCACCACACCCAGCTAATTTTTTTGTCTTTTTAGTAGAGACGGGGTTTCACCATGTTG
GCCAGGCTGGTCTCAAACTACTGACCTCAGGTGGTCCACCTACCTCGGCCTCCCAAAGTGCCAGGATTACAGGCGTGAGCCACCACACCCAGCAGTGGTC
ACTCTTTTCAGGGTGTAATCCTGGACTCCTTTCCAGGTTCTGGGACAAAGTCAACCCTGCTGAACGAAGATTTTTGCCCATTCTAGTGAAGCAATTATAC
GTTCCTCTCAGTATTTTTATACTCTTTTTGAGCTCTCTGCTTGAATGTTGTAACACTTATTTGTTTTTAAACTCACAAATAAAAGGCAGTGCTTATGCAC
CAGCAGGACAAGTAGCATCTGAAATAATGGCATTGCAGTCAATGCTTAGCGTGCAAAAGGCAAGAGACTCCTACCCTAGGGGTRGGAGTCTAGAACTTGG
TGTAACCTCTACTTATGGCTTGCATCTCCCCRAGCATAAAGTGGCAATGACAACACTGGGCTATTCCTTCCACCTCACAGGGCCATTTGAGAAAGAATGT
GGGAGCATCTGTCAAACGATTGCCTCTTTAGAAGGACTGAATAGGAGCATAGGAATGGGCAATAATAAGAGTAGCTAACATTTGTGGAAGGCCTACTCTG
TGCCAAGTCTCAAATCATTTTCTTTACAAAATAATCCGGTGAGATGGGTATTATTTTTATTATTTTGTGCTCTTAGAAGGATTAAGTAATTTGTTCAGTG
ATTAAGTATRACAGAGCTGAGCGTCCTCTTGCCCCTTGCTGCCCAAATTCACATTTATAACACTACTGTCTGCACCACTGTTCCTGGTGGCCTTGTAAGC
CTATGCACATTTCTTCAAGTGCCTACAGATCTCTTTGATATCAACTTGGTCAGTAATCTAAAAGAAGTTTAGTAGAAGAAACAGGAAGAACTGGTTTTCT
GCATACTTATCAGTTTTCAAGCTTAGAGCAAGGACTGATAGATTTCTCTCCTTAGCTGTGCTTATACTAGTAACACGATCTCTTTCAAGAAAAAAACATT
TAAATACCATTAATGAGTGTTATCATTTTAAAGTTTTAGGAAACTTGAACTAAGTTACATACTCGTGAAGGGCTTACAACAACCATACCTACTTTGAACA
CTGTGCAACTGTCAGAAATGTTTATCTCATGAGTGAGTTTTAAAGTTTAAGGAGGTTTTGAAGTCACAGAGTTTTGTATATTCTAAATTGTAAAGTTATA
TTTTACACATCCAAATTACTTTTTCATTTCTTTTTCTTTCTTGTTTTTTTTTTTTTTTGAGATAAGGTCTTGCTTGCTCTGTCACCCAAGCTGGAGTGCA
GTGGCATCTGGCTCGTTGCAGCCTTGACTTCATGGGCTCAAGCAGTCTTCCCGTGTCAGCACCCCACACCCCCAATCCCAATAGCTGAAACTACAGGCAC
GCGCCACCCTCTGCTAATTTTTGTATGTTTGTAAAAGACAGGGTTTTGCTATGTTGCCCAGACTGGTCTCGAACTCCTGGGCTCAAGTGATCTGCCTGCC
TCAGCCTCCCGAAGTGCTGGAATTACAACTTTGAGCCATTGTGCTCGGCCCAAATTACTTTTTCCAAAAGGTATGTTTGCATAATAGCTTTGACCGAATT
TAACATAGAATTTTTTTTTTTTTTTTTTTTAGCAACACTGAAACTTTTGGCTCTAGGTTTAAGGGTTAATCTTCTAAGCAAAGGAACCAGTTTCAACTTA
ATCACAAATACCCTAACCTTAATAGCATGAGCACACCAGGAAACTGACCACAAGGCTTTCTCAAGGTCATAAAGAAATCTGGCTCCAGAACTGGAATTAA
AGTTCTTACTTTCSATCTTAAGCCTAGATTACAGTATCCTCACTTTCCCATCTGAAGCCTAGAAGATTGCAATATCCCAACTTCTCTTGGCTGCCTACAG
TTACTCAAGTTTTGAACCCAGCCTAAGAACAGCTAATTTTTAGTGTGTTAATGATGTTTCTAGTGATGTTGCTTAAAAAAAAAATACTGACTTTGGTTTT
CTTCTGAGTTTCTGATTCTGGGGCTGGGGATTCAGTATGCCACAATTCTCTGCCAGAATCCTAACCTGGATTACCAATTTTTAGAGTATGATATAAGAAA
CAATGAGATATATACCCCATATTTATTTTTCCTCCTTTATAGTTGTCCTTGCAGTATTGTACAGTGTCTCTGAGGCCAATTTTTCCTTTGTAAGTAGTAA
GCATAACTTGGAAATTAGGTTCTCAGAAACAGTGTTCAACCATAAGTAACCACTGAAGACACCTGTCTGTGCCGTCATCTCTCTGTAGTTAATTGGGTCT
CCTAACTACAGCCCTGTAGTTAGTTAGGCTTGTAGTTCAGCTATAGGCTTGTGCTGTAGCTTGTTTTGATCACATATAGCAATTATTTATTTATATATTT
CAAAACATTGCTCAATTCACCYATCCAGGGATTCCTTTTTCTGACTGCTCTGTACCTGTGTTTACAGGATACTTATGTAATTTATAGCTTAGCTGAGCTT
TTCRGGTAATTTCTTTGGGAATGCAAATAAAGTACTACATTTTAAAAATGTAGTACTTGTACATATAATAGACCTGGCAATCAGTCAACAAATATTTATT
GAACACTTGTTAATACCAATCCCTGGAAATACTATATTGTCTTCAGGAGATGTCAAGAATTATACCCTGGACTGCGGACCCTGCTTTCTACCATTGAGCC
ACATTCCCCTGGGACCCTAACTACATTTGTCAGCCAGCTGAATGAAGCAGATTTGGAATTGTCAGTCCAGCTGTTTTGTTGGCTTTGATTCGCTACAATA
GAAATGCCAGCACCTGCAATGTCTTCCTGACATTGCAAAGCAGGACTTCCTGAGGGAGGGTAGGGAATGGGGTGTAGTCAGTCCATAGGCTAAACCATCA
TAGACTACTTAGGAGTTATTTTGTGAGAACCAATATCTTGACTAAATGGAACCAATCTTGTTAGGTTTAAATAATCTTTCTTTGAATTATGCTTCTACTT
TAAAAAAAAAATTTTTTTTTTTTGGTTGGTTGGTTGGTTGTTTTTGAGATGGAGTTTTGCTCTTGTTACCAAGGCTGGAGTGCAATGGCATGATCTCGGC
TCACTGCAACCTCTAACTCCCAGGTTCAAGTGATTCTCCTACCACAGCCTCCTGAGTAGCTGGGAATTACAGGCGCATGCCACCACATGCAGCTAATTTT
TTGTATTTTTTTTTAGTAGAGACAGGGTTTCACCTTGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTAATTCACTCTTCTCGGCCTCCCAAAGTG
CTGGGATTACAGGCCTGAGCCACCACGCCCTGCCTAAATATATTTTTTAAGGTTAATTTTTTTTTCTTGTTTTTCAAGAAGACAGTGGGATTCACGAACT
TGGATAAGACCACCTGCTTGTCTGGCTTTAATACCTTTTTGAGAAATCCAGAACTTCTTGATTTTATTTCTATAAATTTTCCAAGACACTTGCAAGGAAA
GGAAGGATTGCTAAAATACCTGAAATAGAAAGCAAAGCAGATAGGCTTGGCCTTTTTTTTTCTTTTTTTTTTCTCGTCAAAGAGAAACTTGATCCTTAAG
CTAAAAGTACTGACTGGCCCTGAAACTCTTAGCTCAGTATTCTTTTTTCCAAAACCAGATACTTCAAAAAACCTCCACAGTTATTCTAAGGAAGATTCTA
TTCTCAACCATCCTTTTCTGTCACTCCACTATGAAAGACTTGAGTAAATGAAAAGAAATTTGGAAAAGTATAAATAAATCAGGCACCTCCTTTTCTGGCC
ATACAGACAAAGTAGTGACTTGGTCATTTAGCACAGAAGTTAAAGATGGTCTTGTGCTAACGAGGGCATTAGGGAATATAGGTATCTGTGACCTCTAAAG
TATACTAGAAAAAGTACTGGTCCTAGGAGCAGAAGGTTTGACTTTTTGAATTCTGGCTTTGCAAAACTAGCTGTAAAACTTAGACAAGTCACTTATTCTT
TCTGGGCCTTCACTTTCTCATCTATAAAACATAAAGATGTATTTGTGYTACCAAAGCACTTTGGGCATTCCTCTGTCATAACATCGGTCACACTGTATAG
TAATTCTGTGACCGTGCCTGGCTCCCCACTAGACTAAGAGCTTCAGGGTCTTTTGTATATACTAGTGCCGGTGCAGGGATGGACACATGGTGGGGGCTTA
ATAACAAGTTGTTGAATAATTAATACATAAAAGTTTATTGCAAACTGGAAAGACATTGTATAAATATAAAATATTGCTGTCAGCAATATGTTTACTATTT
GAGTGGTATATGTTTACATTTTTCCATTTCCTCATCTTAAAGATTAGGAAATCAAAAGAACTAGGTAAATTCTTTTGAGCATTAACATACAAAATTTTAA
GTTGTTTGCTTCCTTTGTTGGAAAAACATGAATTAGTAATCAGAAGTTGTTTGTTTGCTACACTTCCTCCCATTTATGTAATAAAAGTACCTCTACTTGA
CTTGTCTCTCCTAAAAAGCTCCAAACCAGATAATCATTGTGATCCCCTCTTGGCTCATAGAGTCCTCAGGATCCAGAATATTTTCAGGGCTGGTCAGCTT
TATGTGTTTCTTAGTTAATAATTGTAACCCAGGTTATTTATGTATTTGTCTATTTCCTCTTCCACTCCTACCTCCTAGTTCATGCGTATAGACTGCAGGA
AAGAGAGACTTCGCCCCTTGCCCCTTCGGGGTACCTGAGTATGGCAGATGTTTGTTGGATGAGTTTTTCTTTATAACCTAACTGAAAATGTATAGGAAAT
TCAGTGAAATGAATTTAGACTGGCTGGTAAAATGTTTYTACTGTATGAGATAGATAGATTCCTGTAAACCATGTGTAAATCAAGTGCTACATTAAAAGCA
CCTGCTGGGAACTRCTGGGCAAAAGGAAATCAGTATGTGGAAGAAACATCCACACCCCCATGTTTATTATAGCATTATTCACAATAGCCAATATATGGAA
TCAACCTAGGTGTCCAACAGCAGATGGATGAAGAAAATGTAGTATATATACACAGTAGAATACTATTCAGCCATAAAAAGAGTGAAATCCTGTCATTCTC
AGCAATATGGATGGAACTGAAGGACRTTGTTAAGTGAAATGAGCTGGGAACGGAAAGTTAAACACTGCATGTTCTCACTCATATGTGGAAGATAAGAAAA
GTTTATCTCACTGGGTATGGTAACTCACGCCTGTAATCCCAACAACTAAGGAGGCTGAGGCAGAAGGATCACTTGAGCCCAGGGGTTTGAGACCAGCCCA
GGGAAGCATAGCAAGACACCATCTCTAAAAAAATTAAAAATAGCTGGGCGTGGTGGCACAAGCTTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGAAGG
ATCGCCTGAGCCCAGGAGTTTGAAGCTGCAGTGAGCTATGATCATGCCACTGCCTTCCAGCCTAGGTAACAGAGATCTCATGTCTAAACAAAATAAAAAT
ATATTTCAAAAAAATCTGATTCTATAGAAGTAAAAAATACAACAGAGGATACTAGAGACTGAGAAGAATAGGGGAAGAAGGGATAGGGAGAGATTGGTTA
AAGGATGAAAAATTACAGCTAGATAGGAGGAGAAAGTTCTAGTGTTATGTACCACTGTAGCATGACTAGAGTTAACACTAGATAGTTCCAAATAGCTATA
AGGAGGATATCAAATATTCCCGACACAAAGAAATGATAAATGTTTGAGATGATGGATATGCTAATTACTCTGATCACTATACATTACATGTATGGAAACA
TTGCTGTGTACCCTGTAAATATGTACAATTACCATATATCAATTTTTTTTTAATTTTAAAGCATGTAGGAAGTCTGTCATTATAATGAAGCCCTTTGGCA
AACATTTTTGGAAAATGAATAAATATATCTCATTTCTTTTAATTATTCTGAATTTTCAGTAGTAAGCTTGCTTAAAATAAGGATACCACCATCACTCCTC
ATTTTGTGGGGGATCTTGTTAAATGTGTTTGGGTTTTTTATTTGGTTTTGTTTGTTTGTTTGTTTGTTTTTGAGATGGAGTCTCGCTCCGGCCGCACAGG
CTGGAGTGCGGTGGCAAGATCTTGGCTCAACACAACCTCCACCTCCCAGGTTCAAATGATTCTCCTTCCTCAGCCTCCCGAGTAACTGGGATTACAGGCA
TGCCCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGTTGACCAGGCTGGTCTCAAACTCCTCACCTCAGGTGATCCACC
CACCTCAGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCGCACCCAGCCTGGGTTATTTGTTGAGGGTTTTTTTTGTTTAACTTAATAGTATAAC
ATTAACTCCATTTCATACCCTGCAATTATTTCACAGAACAAGCATTTGAACCCTTCTGAGTACCTGGCTCTGTGCTGGCTGCTGGAAATGCATACCCAAG
TTAGATCTAGTCTTTGTCCTCAAGCATCTCACCATTTGGTAGAGGAGACCGATGAGTAAAGTTACAGTACCACGTGTTAAGTGCATGGTAGAATTTGGAG
TGAAAAGAGGTGCAGTGGTCCGAGTGTCCTGGCTGTTGGTGCTGAATCTTAGAAGGAATGAACTAGGCCAAAGTGGTAGAAATAAAGAAGAGACAAGCCA
AGGGCATCTAGGCAAAAACCATAGCATGTGCAAGGGTCATGAGGCTTCAAAGGTTAGTGTGTCAGGAAGATCAGCTTGGCCACAAGTAGGTTGAAGAGGT
AGGTAAAGTGATGAGAAATGTAATTGGAAGTTAAGCAAAGGTGAAATATTTATTCAGGTGATAAATATTGATTGAGTGCTTAAAATTTTAATTTTAATTA
ACATTTTAATGTGTCAGGAGTGTTCTAAGTGTAGAAGTGAACAAAATAGCACATGAACAAATGAACAAAATGTAGCTGACCATGTAGAAATGAACAAAAT
AGTCTTGGAGCTTACATTTTAGGAAGTTATTTTATATGGGTCTTTTATGCCAGTTTTTAGTTTTAAGGAAGCATATAATAACTAAGGCGGTCTGTGGCTT
TAAAAAAAAAAAAAGGATGTAGGTTTTATTCTGGAGGACCAGCCATTATTAATATTTTATTTTCTATGAAAAGGGAAAATGCTCTTTAAAGAAAGAAGAG
AAAGCATTGTTTCAGGCCTCTGCCTTCAGGCTGGCAAATCCCTAAACCATTCAGGAGCTATTGTTTCCCAAAAGAAAGGCCAAATATCATACTATACTTC
ACCTAGCATATTCTTTTATCTTCTATTTCATTTTGAGTTTTGGGGTGATTTAAGACTTAAGAAAATACTGTTTACTACTTATGAAAAAGATTAAAAATCT
TAGYCCTCGTAACAGCATTCGAAAGGTGGTAAAACCTCCCCCTTGCAGTTGACTAAGGTAGAAAAAGATTTAAGCATTTAGAAATATAACTTATAATCTC
ACCTTGGGCATTAATGGAGTAGATTTATAAATCTTAATTGACTAATCTAAAAGCTCCTTAATTGAGCTGGTCAGTACTTAGCRTTTATCATCTATGACCA
GCTGTCTTAAGTGCTTTGCAGCCATTCTCTCACTTAATATTAACAGTCCTGTGAAAGTATATTTTATCGCTGTATTACAGATGAGGAAACTGAGCTCTAA
GAATTTGAGTAATTTGCTCAAGATCATAGTGAGTCACAAAATTGAGATTCAAAGCCAACTCTTTCTGCTCACATTCTGTTATGATTTTTAGTTGGCTAAC
TTTTAAAAGTTGCATTGCCAGCAGTGAAATAGCCCCAGTTAAAATGGGAGCTTTAGTGTGAAAGATATATATTTACATAAATAAAAGAACAATGTCAGAA
TTAACTTTTATTAATCCATCTTCTTTCCTACTGTTTGATGATTTTTTCATCTTAGGACCATGAGGGCACTTTATGCTAGTTATGATTGTTCTTATTTTGT
CTTTTTAGTGGAATCTAATCAGAAAAGCTCATTCCAAGAAATCCCCAAACTTAATGAAGAACTACTCAGCAAGCAAAAACAACTTGAGAAGATTGAATCT
GGAGAGATGGGTTTGAACAAAGTCTGGATAAACATCACAGAAATGAATAAGCAGGTACTAAAAGTTTGATTTTTGCTGTGTAAGCTATGAATATTTGTTT
GGTTGTTTAGTATGAATAGGATATAGAGAATTGTAGGTATAGGGAATTCATTTCAGTTTGTTTTACTTTTTGAAATGGGGTTTTGCATACTGTAATCCCA
GCATGTTAAAGTCAGGTAAAATAGTTATGCATTTACCAGATATTTAAAATGTTAATCCTTTCTGCAAAAGAAAATAATTCTACTAAATACAGCAGTTGAG
AGAAAGTTGGAAGTTTCTTGAATCACCCTTTCCTACATAGTAGAATAGGTGTCAGATAAAAAAGGAGTGTCATCTAACCCCCAAGAAAAGTAGATAACCC
ATTTTTATTAGCTAATGAGAGCTTATTTCATTTGAGTTTACAAAATCTGGAAATCATCAACAGTAGTCATTCTAAGAATAGCTTAGGAGTGGGTGATGGA
GTTGGTTAAATACCTTGGTCAGTCAAATAAGCCTAATACAACATAAACTTTTCCAGTCCCTAAATTGACCAGAGTTGAGTAGGCATTGATTCCAGAAGTG
GGACTCTGCCAGAGAATAAAGGCTTATTCTAAGGATGTTGATCAAGCATCTTGTATGTATAAGGATACCATATTTGTCACAGGGTAACTATAGCCCCATC
CCTACTTTTTCCATTTAGTTAGGAAATGTATATGTGTAGAAAAGAAAAGTCAAGTACCAGATGAATGACACACATGCAAAGTGCTTAAAAATAGATATTA
TTTTTCTTGGGGCTGAGAAGGTATTGTCTTGTTCAGAGTAGAATCACAAAGTTCAGAATGAGCCAGTAGTGACAAGGAGTGCTGTGCTAGAAGAAAGTGC
TTGCAAATGTATCTGAAGCCACACCTTTCAGCAATGGTCCAGGAGTGGGGCAGTTCAGCACTTAAGACCAATGATAAATAGTGTGGGGCAGTGACTTCCA
AACTTTTGCCTGGAACCTGCAGTAAAAAATGTTTTACATCATTACCCAGTAAACGCATACATACCTATTTGTAACTGACATAAACGTTTCTGAAACAGTA
GCTCACTCTTAATGTGTATGGTGCCTTATGACACTTTCCATTCAGTTCTATTTAATCTTTCAAAATTATTCATGAAATAATTCATGAGTTACAGCCKTCT
AGTATTTACCCTCTGTCCTTTACCTTTGGACTCTAAGTAATTAGAGAAAAGCAGGTATTCACCCCTTTTTTGCAAAAAGKATGGGAGAAATTGGCCTTGC
CTAAATTCACACAGCAAATTACATCAGGTGAAAGTAGACCACATTGAAGCACTGAAAGATAATCAGCATCTCTCCTGGGGCAAACTGGGGATTCCATATA
GGTAGCCAGCCATGCAGTTTACCATTCTGAGAGGAGGATGATACCGTTCAGCATGAAAAGGCAAAGTCAKCTATCTATTTTTCATCTCGTTCTTGTAAAC
TGACATTATAGGAAGAGTCAAAGGGGATATTGGTACATGGTGGGAGAAAACACATAGATTTTCAAATCTTTGGTACATATGTTGGTTTCTGAGTTCTCTT
TAACCAGGAAGCTAGACACAAAGTAATCATTTTATTCTTAGCCTGCCATTATTTTTAATGCAAGAAGCACCTGAGAAGGCAGATACAGTAAATCTCAATG
TCATTGATAGGTTTTTGGAAACKGTAAACTTAAGTAAATGGCATATAATGAAACCAGTTTTATCATAGGCTAATTAATATAAAGAAGACTTAAGGTCAGG
TGTGGTGGCTCACACCTGTAATCCCAACACTTTGGGAGGCCAAGGTGGGAGAATCACTTGATCCAAGGAGTTCCAGATCAGCCTGGGCAACAAAGCAAGA
CCCTGTCTCTAGAAAAAAATAAAAATAATTAGCCGGGCATGGTGGCGTACACCTTTAGTCCCAGTAACTGAGGAGTCTGCAGCAGGAGGATTGCTTGAGC
CTTTGAGTTTGAAGCTGCAGTGAGCTGTAATCGTGTCACTGCACTCTAGCCTGGGCAACAGAGCAAGACCCTGTCTCAAAAAAAAGAAAAAAAAAGTTAA
ATTCCTAGGGCACATTTCTGGCCACAAAAAAAAATCACTACACTTCTAGATAAAGACCAAAACACATCTAGTATTCAACATTGAAATAAACGTGAGCGAT
ACATACATTTACAAAAGATGAATAAAAGCAAGTAAAATATTTATCCGTTTATTTCAGCGCAGGATCGGGTCATGAGTGGCCAGAGCCTATCCTGCTTAGG
GTACAAAGCAGGAAACAGCCCTGGACAGGACGCCACCCCCATCGCAGGGCTTACTCATACACACGCTCACACTCAGACTGGGACTGTTTACACATGCCAG
CTAACCTAACATGCACAGTTTTGTGATGTGGGAGTACCTGGAGAAAACCCATGCCAACATGAGGAGAACATGCAAACAGACAGTGGCCCCAGCCAGGAGT
CAGATTTTTTTCCCATCAACGTTATAACCAAATGACATTGGACAAAATATTATTCAAGAACCTGCTATAAATAGGAAAGTTTGCTTCTGTCCTAGGGCTT
CATCTATGAAACTGGAAGAGATTGCAGTGAAACCCTTTCCATTTCAGCATCAATATGCCTTCAAAGATGCTGGGACTGACTTATGAAGCCAGCCTGATAA
CAGAGGACTTCACCATGAGCGCAGGCCCAGAGCATTGGTGATGGGAAAGCAGAGACTTGTGTTGTTTCCTAAGGGAGCTCAGCACTCTCTGTCTGAGTGG
TTTTCTAAAATTAATGTTACACATCTCTGATGGTCTGTTGAAGTCAGAGGCATCTGTCCTAAACCAAAGTAGGTAGAAAAATTAAAGTAATATTTAACTA
TGTTTCCATATCTAAACATAACTGTCACTTAAGATGCTTTTAGTGGCAGTTGTTTTAGAAGCAATTCAAACTGGCTCAAACAAGAAGTGTTATTATATCA
CTTAACGAGAACTGTTCTTATCACAATGTAAGTTGAAGTTAATATAATCTGAAAAAAAAGCCATTAGTTTGAAAAAAAAAAAAGTTAAAATCAAATCTTC
CCTTGAAAAAGCTTTAAATTAGTAGTTGAAATCTAATTTACTTTTCTGTTTTATTCATGAAACCTCTGGTTTTATACTCATTCCCTCTTGACTGTTATAG
GGAGTCTCCTTCCTTGAAGACATTATTCAACAATTACCTAGCTGCTTTTATGGAGCTAGGCTTTGGATTCTGTCTAAATCCATTCGGGCTGCTATAACAA
AATATCGTAGACTACGTAACTTAAAAACAACAGGGGCTGGGAAGTCCAAGATAAGGCACCAGCAGATTTGGTGTCTGGTGGAGGCTCATTATTTCATACA
TGGCACTTTCTTGTTGTGTCCTCACATGGCAGAACAGAATGGGCAAACAAGCTCTCTGACCTTTTTTTTTTTTTTTTTTTTTTGAGACACAATCTCACTG
TGTCACCCAGGCTGGGGTGCAGTGATGCAATCACAGCTCACTGTGCAGCCTCGACCTCCCAGGCTCGAGTGATCCTCCCACCTCAGTCTCTGGAGTAGCT
GGGACTACAGGCACGCACCACCATATCTGGCTAATTTTTTTTCTTTCTCTTTCTCTCTCTTTTTTCTTTTTTATAGAGACAGGGTCTCACTATTTCCCAG
GCTAGTTGCAAACTCCTGGAATCAAGTGATCCTCCCACCTTAGCCTCCCAAAGTGCTGGGATTACACATGTGAGCCACTGCCCCCAGTTCCCTCAAGGAT
CTTATAATCAGATGGAGGAAATAGAAAAGTAAACAGTTGTAAAGCAGCCTGATAAGCAAAAAGAAATAGGTCCAAATGAGTATTGTGAGGGCATTTTTAA
GTATGTATCTCACCTAGATTGGAGCCAGGTGAGATTTCCTAGAGATCTTGAACTGAGTCCTGAAGGGCAAATAGGAGTTGGCCAGCTGAATTCTACAGAA
AGAGAGAAGAATATTTTAGGTAGAACATTAGTGCAGTTGATCCTCATAATTTATCAATTCTGTACTTGGTAAATTTATTTGTAATCTCAAAATCTATACT
TGTGGCACTTTTGCAGTCATTCATCAACACATGCAGAGCAGCAAGGAATTTGAGTCACCCAGCATGCATATATACAGCTGAGTTTGAACAAGGTGACATG
CTGCCTTCTTGGTTCAGCTCTCATACTGTAAACAGTGTCTTTTTCACAATATATTTAATGCCATATTTTTTATATTTTTGTGCTGTTTTTGGTGATTTCC
ATGTTCAAAAATGTCCCTCAGCCATAGTGCTAATGTGTTGTCTATTGTTCCAAAGTGCAGGGAGACTGTGATGTTCCCTATGGAAAAAATACATGTGTTA
GATAGGCTTCTTTCAGGCATGRGTTATGGTTCTGCTGGCTGTGGGTTCAATGCTAATGAGTCAACAATATGCATTAAATAAGATGTCTTTAAACAGAAAT
ACATATACAACAAGGTTATGTATTGTATTGATCAGTTTAAAAAAATTGAGCAGGCCGGGCACAGTGGCTTATGCCTATAATCCCAGCACTTTGGGAGGCC
GAGGTGGGTGGATCACGAGGTCAGGAGTTCRAGACCAGCCTGGCCAACATGGTGAAACCYTGTCTCTACTAAAAATACAAAAATTAGCCAGGCRTGGTGG
CGAGCACCTGTAATCCCAGCTACCTGGGAGGCTAAAGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACT
CCAGCCTGGGCGACAAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAGTACGAGCAGAGGACTCACAGGAACCTAACCTGTGTTTCCCCAAGGAACAGTTG
TTCAATATTCACTAATTGAATGTTTTGTTGCAAGTTTTCTAGAACATAACTACCACTAATAATGAGAATTGACTATATGTGCAAAAGTATAGATGAATGA
AAACATGGTGTGTTCAGGGAATTTTAGTCACTCATTATAGCTACAGTATGGTTTGGTAAAAAAGGCCAGAGATAAGTAAGTCAGCAAGAGCCGTATCAAG
AAGGACCTTGAGTGCCCTTCTCCTATAGTACTCTGTGTAGCTCTCTTTTAGCACTCAGTCCAAATACCTTATGTGATGCTTATTTGCATATACTTCTAAT
TGCACTAGAAAGTTGTACACTGTACTCTAAGCCTTAAGCATGATGATAAAGAAAACGATGGCAATGATGATGATAACGATGATGGTATTGACGATAACTG
CCATTCATTAAATGCTTTCTTTGTGCCAGCCATTATTAGGTGCACTGCACATGTGATCTCCTTTCTTGGCTTCTACAGTCCTATGAAGTAGGAGRTGTTC
TCTCCATTTTACAGTTAAGAACACTGAGGTTCAAAGAAGTTAAGTAGCTTGTCCACAGTCACTCAGCTGTGTAGCAATACTAAAAGTAAAATATTCAAGT
CCTGGAAGCCTCTCTTCTTTCCAGCTTCCCATGCTGCGTTACATCTTGGTAGCCCCTGTAGGATTCAGTAGGTGCTCAGTAGATAAAGCTGAAAGGATAT
GATGCTGAGTCCCTGCTAGGACTAATAATCACTCATCATTGATGATTGTCTGTTTTAATAACTTTTTCTTTACTATTTAAAGGACACTTAACTTCAACCC
CAAAGCAAAAAAGCAGCATTTCCAACTTCATAGTATAAAATGATGTATTAAGCAAATGGTCTACTGTAGCTATTTTTAATTTTTCTAATGAAAAGTCATG
TAATATGCATAAAAGTCATGACTCATCTTTTGGCTGGAATATGGATTTTTCTTAATGGGTTCTATTTAATTCAACTTTTTAGACTCTGAATTCCAAAGTG
TGACTTTTCTAATGCCTGAATCTGATCTGACATTCTAGAATGCATCTGTTAGAGKCCAGAGCAATTCCAGAGAAAGTAATGGGAGGGTGCCTCATCTCCA
TTTTAGTTACATATATAAGCTTTGCTATAGCTTTCCACAGATGTTGGCATTATTTTACTGAAGAGAGAAATGCTAGAAGACGGAATCCAGCTTTGTAATT
TATGGGTTAAATAGCCAAGTCCTAGGGAACAGTGGGTGATCCAGGTTTTATAAGTGAGTAAGAAGACCTAAGTGATGTTTGGTACCTGGAAAGTTAATGG
TCAGCTCTCCAGAGCATGCTTTTGCAGTGAGGCAGCTGATACACTAGGCATAGAGTGTTTGCAGCACAGAGAAAAGTGCAGCAGCACCTCACTCGATCCT
GCTGGCATTGGCTTTCAGCTGCTTCTTAACTTTGGGTGAAACGGCAGCTGCCARCCAGTCACACTGGCTTTTTGTGAGACCACTACCATTCCCRAGATAC
TTCTGATTAGCCATGCACTCTGCCATAGCCTCAGGAGGTTGGAACTTTCAGTACCTGGAAGAAGAGTTTTTACCCAAAGAACAGCTTCTTCCTTTAGGAT
CTGGCCAGTTGTCAGTGGAGGAAGGTGTTTGTCCCCTCAGGTGGCTGAAAGGTAACYACATAATTGATAAGAGTATTAGGAATAACTATAGTCTTGCCCT
TCAAACTGATCTTGAACCAACTGTGTACATACTTTGGGGCACTAAGGAAAACATACCTGGGGCAGGAACCCTTCCTAGCATTTTATGATTGGGCATGTTA
CAGTGGTCTCRGAAAGCCCCGTGAGGGCATGGAAGAAAGGGTCAGCCAAGAAAACCCATCAAACCCTTTGCAAAGTTATGTGGCGTCTTTTTCCTGTGTG
TGTATTTCTTTCTCATCTTTTGTCTTTTTAAAAATTTCTTAAGTAATTTGTGAGTGGATTCTTATATAAGGTTTAAACTATAAAACACATACAGAAATCC
TATGAAAATTTTCCTTCAATTCCCATCTCTGTGTTCCCATCTCACATGCACACACACACACACACACACACACACACWCWCTCACTMTCTCTCTCTCTCT
CTCTCTCTCATGCCCCCATAGGTGTCCAGTCAGTAATGTGGGCTTCATCCTCCTAGTTCTCTATTTACAAAATCATAATAGTTTTTAGTATGAATTAGCC
TATGGGTTAACATGCGTGTGTGTTTGTAAATAAATAAGGTCATTCAATATATGTTCTGCAGCTTGCTTTTCCACTGAATATATGCACATTCTTAGTGATA
TACATTTAAATTGTTTCTAGTATTTTGCTGTTACAAATAAGGAAAAATTATTTTAAAAAATATATCATGTACATGAGCTATTTTATAAGATTTCTAGACA
TGAAATTGCTAAAATAAAGAATATAAACATTTCAAATTTTGATGGATATTCCTAGATAAACTTCTTACAAGTCTTCTCTAATTTATACTCCCATAAGCAG
AGCATGAAAATGCCTGTTTCTATATGTCCTTTTCAAACCTGGATATCATTCATATCTTTTTAAAGGCATGAGTGAAAACCTCCTTAATGTAATTGCTTCT
CTTAGGAAGTTTATGGTTTGCTGAGAGTATCTCTGTGGACTGAGGTTTCTCACCCATCTTGTTTTTAAATGAACAGAGTTACAATGTTGATGATTAGTCT
GGTTATTCTGGAGTCCTTATGTAGAATTGCATGTTTTAGTGCTTATTAATTTCACTATTAAAGAACTGTCACTTATTTGATATTTCATCTGTACCAGGTA
CTATGCTAAGAGCTTTGATTATATGTCTCATTTAATTCTCATAGCCTGTATTGATCATYTGTTCCTTGGTTACAAATTACCCCAAAACTTAGTGGCCTAA
AACAACAGTCATTTAGTATCTTACGGTTTCTATATGTCAGGAATTTGGGAGCAGCTTAGCAGACTGGTTCTGGCCAAGATCTCTAAGGTTGCAATTAAGA
TGTCATCCRGGTCTTTATAACCTGGAGGTCTGACTGGGGCTGGAGGTTCCTCACTCACATGGCTTTTGGTAGGAGGCCTCAGTTCCTCCCAACATGGACT
TGTCATTCTGGGGCTACTCGAGTGTCCTCACAGCATRGCAGCTCCCTTCCCCAGAGTGACTAATCCAAGGAGAGCAAAGAAGAAGGCATAGGACCTTTTG
TGACCTAATTTCTAAAGTTGCCAGTTGTCACTTCCACTTTATTCTSTTCTGTAGAAGCAAGTTACTTATGTCAGGCTACACTCTAGGGAAGGGGAAGTAG
GTTTCACCTCTTGAAGGGAAGAAGACTATCAAAGAATTTGTAGACATATTTTGAAACCATCACGTATCCTTATAAGATAGTTGTTAAATAGTTGTTGTTG
TTATTATTATTATACCCAGTTACTGATGAAAAGAATAAATTCACTACTTATCTAGCCTTATCTCCTACCCCCCGGCCTCTGTCTTCTACTCTGCTTAGAC
TAGCCTTCTCAATGTCCATCCCAGACACAGAGTGTTAATTCTCAGCCATTCATTCAACAAATGCCAGTCTTTGTATCACGGGTATTGTGGAAAGTAAAAG
AGACATGGTCCTTGATCATGTGGAGCTTATAGTCTTGTGGAAGAGAGAAACCTCAATCAAATAACCACCTAAACAAATCATTGTCACTTTGAGAAGTGCT
ATGAAAAGAAAGTACTCCTGAGCCTGTTCATACTGTGTTCCCTATCCCCCGATGCCACCCTCACCCTTCTAACCTAGAAAGAATGCCTGCTTGGTTTTTA
TGTATAAAATTCTAACTTCTCTGTCAGAGTCCAATTTGAGTCCTCCTTCAGCGAAGCCTGTTTCTTTCAGCTTGCATTGATATCCTTTTCTCAGAACTTT
ATTCAGTATCACGTTTAATGCTTAATTGTTTCTTTAATGTACTCTTGCCTTGTCTCTCAGTTATATTGAAAGCTCCTTGAGGTGAGAGACCTAAGAGTTT
CCCTTAATTCTTCTATCTTCCCCACTGTTAACACCCAGTCCCAGCAAATCGTATCATCTCTACTTCTGCTACTACCTCTACTACCACTCAAGTCTAAACC
ACCATTATCTCTTGCCGAGACTACACAGATCKCCTTCTTACTGGTCTCTCCATTTCTACTGACAGCCATAGTAGTCTTCCTCCAAGGTGTCTCCATTCAT
GTAATTATCCTGCTTACACACCCCTGCCTATCACACCTCAAGTAAAACCCATGTGCTTGTTCTGGTTTACAGAGTCCTGTCTGTTCTGGCACTTTACTGC
ACAACTGGCCTCACCACCTACTTTGTCTCTCTGTCTCTCTCACATACACACACACATTATGAGATCCTGCCACCTAAACTTCTGTTCTCTGAATATGCCA
AGCTCTTTCCTGTACTGGGACTTTTGGTCTAGCAGTTCCCTCTTCCCTGAAATAGGCTTCATCCAATCTTCATATGATTAATTCTTTCTTACTATTCAGA
TCTCAGTTTAAATTTTATCTCCTTACAGAGGCCTCCTCAGACCGATCAGTCTAAAAGTTGCTACCCAGTCACTCCTGTCAAGTTACTTTATTTTAATTTT
TTTCTAGTGCTTCCCACTATCTGATATTTTTCTATATAAAAGTGTCTGTCTGCTTGCACTAAAATGTAAACACCACAGGATCCCTGACATCTGTGTTGTT
CACCAGTGGTGAATAATAGGGTCCAGTAGTATTTGTTTTATTAGTGAGTGGCTGAAAATTCATCTTAAGCCTCTGAACTTTTGCCTTCTAAAAGAAAAGA
GGGAAAAGAGAACTTGAGTTCCCGAGTTCCCAGGCTCCTTACCAGACTCCCTGTCTCAGACCAAGCTACTACTACTTACTCAGGGAGCTTTGTTTAAATT
AAATTCTTTGCATAGCCGGACATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACCAAGGCAGGTGGATCACTTAAGGCCAGGAGTTCAAGACCA
GCCTGGCCAACATGGCGAAACCCCTATCTTTACTAAAAATGCAAAAATTTGCCAGGTGTAGGGGCATGCACCTGTAATCCCGGCTACTCAGGAGGCTGAG
GCACGAGAATCACTTGAACCCAGGAGGCAGAGGCTGCGGTGAGCCAAGATCACTGCACTGTACTCCAGCCTGGGCAACAGAGCAAGACTGTCTCAAAAAA
AAAAAAAAARAGAGAGAGAGAGAAAGGAAAAAATTCTTAGCACAGTACTTATTACAATCTGATTTCTTTTCTTTGTTTTTCTGTCACCTTTTACTAGGAT
GTATGCTCCATGAGAGCAGAGCTTCATGGTCTTGTTTGCCTCTCTGCTGTCTCCACAATGACTGCAGCAGTGTCTGGCACAGAGATGCCAAACATTTGCT
AAAGGAATGAGTAGGGAATCAGGTTCTGTTTTGTCTTACACCCCCCAGTGCCTACCACTGTGCTTGGCCCATAACAAGTGCCCAGAAACTGGTGGGTACT
CTGAGGCCACTCTGAATATAATTGCTATTGGTAGATCTGTGTTCTCATCCTAGAATTTAGAATGGGAAAGCGGTTTAGAACTAAGAGTCTTTCAAGTGTT
TCGAGCCAAACTGCAAAGCTTTTAGAATATTGTCTCTGCRGCCTGAAACTGACTATTACACAGGTTCCCCCAGTTCCCATTCAAGAGCGAAGTCTAGATG
TTTAGAATTCTATGCCTAAATAGCAGAACGGAAGCCTCATTTTATTTTGATTAAATTCCTATTTTAATACATACATTGCATCAGTCAGTGAGTCAGTGAG
TATTTATTGAGCCCCTTCAGGATACAAAGTAGTGCTCTGGTAGAGCTATTGAGTTTGAAATATTAGTCACATTTTTAAACCAAAACCAAATCCCCAAGTA
GTTGAAAGTGCTGTTCAAATTGTCAGAGTGCAGTTCCTGTAGACTGTATTTTGTGAGATGGGCTTTTACTTTATATGTTCCCACTTGGGCAGGAACAAAA
GTTTGGTAAATTACTGAGGTATTACATTTTACCAAAATGAAATTTTGAAGTGATCCTTCATCATTAGCTTTCTTCCTGTCCAATTGTTGRGGGAGTGTGT
GATAATTACAGCATCTTTTGAGTAATTTAAGATTTTGGGATCTTGTGCTGCCAGGACAGGGTAAAGAATAACACTTGCCTTCACTCTTTGACACTAGTGT
TCAAATTGGGCAGGGAAAGAAGGGGTATTATTGTTGCCTCCCAGATCCCAACTCTATCCAAAGTACTGTCTCCTTTACTTCTGTGAGCTGACAGGGTTGC
AGAAACACATAAAATCCTAGACTATCTTGACATCACCAACCGTAGAGTTTGTGAAGGTAACGTGTCCTCTACAAATTCTCATTTGTTTTCATTGTTTGTT
ACTCTTTTTTGTTCAGATTTCTCTGTTGACTTCTGCAGTGAACCACCTCAAAGCCAATGTTAAGTCAGCTGCAGACTTGATTAGCCTGCCTACCACTGTA
GAGGGACTTCAGAAGGTAGGTGCCATGTGTGGGTACAGAGACTTCAGAAGGTAGGTGCCATGTGTGGGTACTATTTGCCATAATTCTAGCTTCTTATAAG
TTTTCATTGAAAGCCTAGCATTTGAAATCAGCTGCTCCAAGAGGGCAGTAATGGAGTGTATCACTGTGTCCTAAAGAATTCAGAACAATTTTGTTTTGGT
CTGGTTAGTTAGGCCTTTAATTTGCAACAGGTTACCTCAGCTGTGATTTATATGGGTTCATACCTTTTTATTTGGCTCTCTGAGTCCCAGAATTGCTCTG
CTGGCACTCTTGTGTTAGCATATATGGGTTCGCTTTTCAGCTTGCTTTTTCAGTTCACCACTCACAATATCTTCATCAAAGCAGACCAATTGTACATGAT
AGTTACCCTAAATCTCTGTTACTTTCCATAATTAAGAAAGTTAAAAAAAAAAAAAAAAGATGACCTGGGGAAATGCAAAAATTAAAAATTCAGGAAACAA
GTGTTGGCAAGGATATGTGGAACGAAGGAAATTTTCAAACACTCCTGCTCCTGCTAGGAGTATTAATTGGTAAAAATCACTTTGGAGGCTGGGCATGGTA
GCTCATGACTGTAATCCCAACGTTTTGGGAGGCTGAGCCAGGAGGATCACTTGAACCCAGGAATTACAGACCAGCCTGGGCAACATAGGGAGACCTCGTC
TTTACAAAAAATTTTAAAGTTAGCTGGGCATGGTGGCACACAACTGTAGTCCCAGCTACATGGGAGGCTGAAGTAGGAAGATCACTTGAGCCTGGGAGGT
TGAGGCTACAGTGAGCTGTGACCAACCAGATGAATAGTACTCAGGGATCCTTAGAGATGGACGGGAAGAGTGGATAGGGGTAGGAAGGCAGAAGAGGTGC
CTAATTCGAACATAAAGAACATCATCCCCTGACACAGGAAATGGAAGAAGGGATTCCCCAAACGGTGGATATCAAATCTAGGATCTTTGAATTATAAAAA
TATGTGCTAAGTTTGGTCAGATTATGTGCCAGGGTCTATGAGCATATGAATTCTTTCCACAAAGGAGCAAGAAATTTCTAAGCCATAAGCGAAGACAAAA
TTTGCTATTTTATAGCCACACCATCTGTGTGTGCTCAGTCTCCATAATTTGCTACTTGTCCAATGTGGCCATCTACTTACAAATTCGGGGGGAAAAAAAA
GGGGTAGGGACAACTCTGATGAGGCCAGATTCTTGCCGTTGTTCCTAGGGCCAATTCAGGAAATGATAGGCTTCTGTAGCCATTAGTACAGAAGCAGCTC
TCACAGTCTTGCATTAGAAAAGGAAACTGGTTTATTCTTTTTTTTATTACACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTTACGTATG
TATATATGTGCCATGTTGGTGTGCTGCACCCATTAACTCATCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCCCCACCCCAAAACAGGCCCCG
GTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCAGTGTTTGGTTTTTTGTCCTTGCAATAGT
TTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGAACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATCTGCC
ATGTTTTCTTAATCTAGTCTATCACTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATAAGTGTGCGTGTGTC
TTTATAGCAACATGATTTATAATCCTTTGGGTATATACCCAGTAACGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCTCCAC
ACTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGATT
TTTAATGATCACCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTGTGATGGCCAGTGATGATGAGCATTTTTTCATGTGT
CTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCGTATCCTTCACCCACTTTTTGATGGGGTTGTTTGATTTTTTCTTGTAAATTTGTTTAA
GTTCTTTGTAGATTCTGGATATTAGCCGTTTGTCAGATGAGGAGATTGCAAAAATTTTCTTCCATTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTC
TTTTGCTGTGCAGAAGCTCTTTAGTTTAGTTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCC
ATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTATTTAATCCATCTTGAATTAATTTTTG
TATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCATTTTTTG
TTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTATTATTTCTGAGGGCTCTGTTCTGTTCCATTGGTCTATATCTCTGTTTTGGTACC
AGAAAAGGAAACTGGTTTATTCTTGAATTTATTCATTCAATAAACATTTGTGGAACTTCCTCCAGTATGTACCAGGCACTTTGCTGTTGATGGGAATACT
AGTTTCAGAGTTTTGCTCCAGAGTTCACATGGCTCTGTCAGTTGCTTCCTTAGGGGAAAAAAGAAAAGAAAAAAAAAATCCTTAAACAAGAGCTTACTAT
CTTCTGGCATCCCAATGGGTTCATACATCCAGCCAGTGAGGATTGGATTCACAAACAGTAGGTGTCTTTGAATGCCTGTAGCTTTTGCAACAGGCATTCA
GAGCTTACATAGATAGCAACAGAGCTTACATAGAYAGCAAACCAGCTTAGATACTTTTACCCAGTGTGTTGTCTCTTTGCAAATCTGTGTGTTTATCATG
CCAGGCACTGTGTTTCTTTCAAGTGGCTMAGTTTTGAAGTGGTAGGTCATGCCAAATACCTAACTTTATTGTATCTCATGTAATTTTTATTAGTGTCATC
TCGTGTTCTCTTGGATTCTTGGATATCAGTGTAATAAAAATGACCTTGGTTAAAAATACTAATGTGGCACTGTAAAACTGTCAGCATGTCTTGAAAAGGC
CAAAACTCACTGAATAGTAACACCCTTTTAGATGTTCCCTTAGGACAGGCTTTTTTTAAAACATGGCTTCTGAATTATATCTCCAAGTTCCCTGTCCACT
TGGGCTTTTTAGGGCTAATGAAAGCAAAGTAAGCCACTACTCATATCCCTATTCAGTGGTTGCTGACAGGATTCTACTTTTTTTTCATCTCTGCAGTATT
GAGTTTCCCAAAGCCAGATATGGTTCCCTCCCACTTTTGCTCGAAGTGTCCTTTGCTCCTAACAAGTGGCAGTCTACTGTGTTAGCTCGGCCATCTGCCT
TCCCACAGCAGGGATTGACAGAGGCAGTTTGTGAGAGAACCTTATCCCTGGGTTCCAGATTTATAAACTAATATTTTTTCTTTAGGGAAGATTTGGTTTT
CCTCTAGGAAAAATCATTTAAATTAAGAAAATTACTTGTTTGATTGATAGARAAAGAGTMCTGTTAATTATCTCAGTATACACTACATGTAATCATAGTT
TGAAGATATTTGAAATAATCAGAAACACCGATTTTCATTAGGGCAGTGTTTCATTAGGGCAATGTAAATTAAAATCACAATATACACTTCCATTAGAATG
GCTGAAGTTGAAAAGAATGACTGTACCAATATTGGTACAGGATTGGTGAGGATATGGAGTAACAGGAACTCTCATTCCCTGCTGGTGGGAATGTAAAATG
GCATAACCATTTTAGAACATTGTTGGGCAGTTTTTTAACAAGTGAAGCATAGACCTGCCATATGATCAGCCATTCACCTGCTAGGTATTATGGCGATTAG
AAAGCATATGATAAAGGGGAATGTCTATAAGTCCACATGAAGACCTGAACACGAATGTTTATAGCAGCTTCATTTGTAATAGTCAAATATTGAACACAGC
CTAAATGTCCATGAGCAGGGGGAGAGATAAACTGTGATAGAGCCACACAATGGAATGCTGCTCGGCAGCCTGCCAAGTAGCCTCAACATGGATGAATCCC
AATTCTGCTGAGTAGAAGCAGCCACACTTTAAAAAGCACTACTTGCTCACTGGTTCTACTTATATAAAATCTAGAAAATGAAGACTGATTTATTGTGACA
GAAAGTGGATCAGTGGTTGCCTGGGAACGATCGGCAAGGGAGTGATTACAGAGAGTCATGAGGAAACTTTCAGAGGTGATGAGTGTTTATTATCTTGATT
GTAGTACTGGTTTCACAATTGTTTATGTGTCAAAACATTCAAATTATACATTTTTGAATATGTACAGTTTATTGCATGTCAGTTGTCTCTTAAAGCTTTT
TTACACCTTCCTATATGTTTCCATTCAGAGTGTAGCTTCCATTGGCAATACTTTAAACAGCGTCCATCTTGCTGTGGAAGCACTACAGAAAACTGTGGAT
GAACACAAGAAAACGATGGAATTACTGCAGAGTGATATGGTAAGGAGACCCAGCAAGTCAGCATGCTCCTGCTCACCCTTTTTTGTGTAAGAGTCATGTT
GCCAACTTTCCACTAATCTGAAAAGGCCCTGCTATGCATCTGTTCAAAAGATCTAATAAGCAGTATACATTGATTGTTCTACAATTTGTTAATAAAGCAA
TTATGGTAGATAAAATTAAAAGCCAAATCTTKTGCAAACATAGTACTGGAGGAGGTAAGGTAATAAGACACAGTTCSTGAGGATGGAATGGGTAGGACAG
AAAATGGAAAAGAAGGAAAGGAAGTGGAAAAGTGTCTCATTGTTTATTACTACATAACAAAGCACCCCCAGAAGTTTGTGGCTTAAAACAAGTAATTATT
TCTCACTATTCTGTGCATCAGGAATTTGAGCAAGGCTCTTAGACTCCCAAATGCTGAAACATGTGCTCGTGGATGAAAGGCAGGCTGTCTAGCATGTTCC
AGCTCCAGCCAGGCTGTCAGTTAAATGCAGCCTACAACACATGGAACAGCACCACCCCCATCCCTCAACCCCCAGCTGAGCCCAGTCAACCCACAGAATC
ATGAGAAATACTTAATTGTTGTTGTTCTAAGCCACAAAGCTTTGGGATAATTTGTTAGGCAGCAACAGATAACTGACAGAATCAAACCCCTGCAGTGCCT
AGGAATTGTTTTCAAATATCTCTGGATCACTTAGTGCTGCTGCAGATGTAAGCTGTCTGCAGTCATTTGGAGGCCTTAATCAATCACTTAATGGGTGACA
GCCCCGTGAAGGATTTATGAAGAGTAAAAAAAGGATGGTGCAGCCCTTGCCATCTTGCTGGGGAGATGAGTTATATGTAACTCATCTGAAATCAGGACTA
TTCAAGGCACACAAAAGTTCCCTAGTCTCTCTGCCAATTTCTGGATCTGCCCTCCCACCCCCACCTGCTCTTTGCAAGCTTCAGAATTTCAAGTTTAAAT
TGGGAAGTTTGTACCAAGGAGACCTGGGCTATATTAGAGAGCTCTAGAAGAGAGTTTTTTTCCATTTTCTTCAGGACTGGCACACCTCACTGTTACTTAG
TGGGGCTAACCCAGAGGAAAAAACATTGATCTGGGTGTCAAGACCCTTGGTTCTGGTTCTAACTGCCGCTGAGTAACTGTGTGACCCATAGTAACAAAGA
CCCCTCTAATTCAGCAATTCTTTTATTATTTTAATATCTTGATTATGCTCTCAAGTAATTCACTATTTTCTAAAATAATTTTTCCTAACTAAAAAATTTC
CTGCCTTCTAGAACCATGGATTCCCCCCTCCTTCTCTCCTCCTTTTCTCTTTATTGTTGCCTTTTGGTTTTCTTATAAAAACAGGGTTGATTTCAGATTT
CAAGGAAAACAACTTATTTTCACCAGTTGCATTCTGTTATAATTAAATCTACTTCTTTTAAATTTCCATAGCTGCCAATGGTAATCCTCCTACTGTCATT
CTTTGTGCTAGATAAGTCATAGTTATGGGCTCTGAAGGGTTAAGCCATGCAAAGTTTTCCTCACTAAAGGAAAAGTGTATATAAACATGTTATACTTCAG
TCTCTGGAAAGAAACTTGAGCAGTGGGAAGGGAATGGGAAAGGAAAGATAACCCTCAAACATAAGTCTTACTTAGCATAATGCTATAAGGGAAAAACTAA
TAATGCACATGATTGGTGGTTATGCTAAATGCCCAAGCCAGTGGTTACATGACTGGCTGCCTTTTTAATGTCAAAGCTCTTGAGTCCAGTGGAAACAATG
ACACYGTCCCAGGTTGRGACCGAGTTGGTCCCTGGAAAGTTACAGTGATGCTATAGTTTCTCTGGGAGCACAGGCAATGGGGCAAAGGAGAAATGGTTTC
TAGAGAGTTCATTCCTTTAAGAGATTGAGAAATAGACTAGGAGGATCTCAGTTCCCTAATGTAATCTTGGTGCTGCTGGCCTAGTGCATGCTCAAGCTGG
GTTCTCTCAGAACCTAGCACAAGACTGGTTAGCCTGTACATTCCCTGGCAATACTTACTGRTTAATCTGTGGATGYATTCTGGGGGAGGCTAGAATGTTC
TAGGACAATCTCAGATAGTTAAGTAGACCTAATAATTCCTTGTTGCCTACACTAAACTTCTTTCCTCTTAACAGAATCAGCACTTCTTGAAGGAGACTCC
TGGAAGCAACCAGATCATTCCGTCACCTTCAGCCACATCAGAACTTGACAATAAAACCCACAGTGAGAATTTGAAACAGGTGCTTTTTATCTCTGGCTTA
ACTCCCTGTGACCACAGTGCACTGCAGAGGCAGCCAAATAGTTTGGGCTTAGTGTTTGGTGTCTCAGCAGGTGCATCCTGTATTTATTTGCCTGCCTGGG
AGCTGAGCAGAGAGGAATGTGTGTTGGTATCTCGGGGATYCATATTGCTGTCCTTTCCCTTCTTTGGCACTTTGCAGTTTTTCCCTGCATGTCAGTCAGT
GGAGTAAATTCCTTTTCTTATCTTGAAAGACATAGAATGAGCAGATTATCCTGAAACTCTTTATGAAAAAATAGCTATCTGGGCAGGTTAAAGATGAATG
GATAGCTAAGTAATCCAGAGTGATGGCTATTTTGAGCCACAGTAAATTCTAAGAATGTTAGAAAGCATATCCTTGAAAATCAGGATTTTCTAAAGTCTAA
AGACGAAAAGGCAAGAGGGGGAAAAAAGACTTTGAGTTCAGAATCACATTAAAGAGAATAGAGGAAATCTTCACTCAGAAGAATTCCTGTCCTGAGTTTA
ATGCCCTTTAAAACCTATAGTTATCATTCTTTTTAAAGTAGCAATCAGTACTGGAGGATGTCAGTAAAAATAATTGAATCTTATACTAAACAATGCACTA
CTTGTTATGGTATTGTTACATGAGCCAATTCAGTAATCGGTATTGTTCCTGAGGTAGGTTTGTTCTGACAAATTAGGTTAATGGACCTTTCATTTAATAA
CCCAGCAAGCCTTTCCTCCAGCAGGTGAGGTAAACATTGGGGAAATCAATTCCCAAGCTCTCAGCTTTCTGGGACCAAAGAGTGAATCATGTAGGTAGTC
CTCTTCCCTCTTTCCCCCTCCTGTCTAGCTGAGGCCAAACAATTCCAAAAGGAGCAATTTAGAGTGYGAGGGACAAAGCAAAGACAGACGATTGATGGTC
AAAACCAGGAAAAGGAGTTTACTTCAGTACTTGACATAGTAATGGTTGTTCGGTGCTGCTGGCCTRCTTGTCTAATTTACRTCTTTAGTGGATTCCATAA
CTTTATTTATTTCCACTCTAGGATATCCTGTACCTTCACAACTCTTTAGAGGAGGTAAACAGTGCCCTAGTSGGGTACCAGAGACAGAATGATCTTAAAC
TCGAGGGAATGAACGAGACAGTCAGTAATCTTACCCAGAGAGTCAACCTGATAGAAAGCGATGTGGTTGCTATGAGCAAGGTAGAAAAGAAAGCAAACCT
GTCCTTCAGCATGGTAAGCCTTTTCTGATCTTTTGTGACATGCAGTGTGTTTTGTCTGTGCATGGATAACATTCTACCACCTTTTGAGAACAGCCTTCTG
GCATATTTGAGAGGCCACACATTTGTGTTGTGCTTAATCCTCACAATGTGTTGTCTCATTTAATCCTCACACTAGCTGTGTGWTGTGAATGGCCAGGCAG
TGTTTGTCCTGATTTGGAGAGGGAGATGCGGAGAGGTCGAGTCGCTTACCAAGGCCTCACCACTAGTTGTTGKCAGAGATGACAAGGCTACTGTCATGTT
ACCAGTGCGCCATCTGGTAGGGAAGTGCTGGCACGTATTTCCGAGGGCCTTTTGGGTCTTTTCTTTTTTAAGTTATTAGGGGTGGGAGCCATGAAAATGA
TAGTAACCAAAAATCTTTTATCATTTCTTTAAGCCTGAACTTGGCTTTCATATTTATCCTGCTGTCTATATATTAAGGGGAACCTTTTGCKTATGTCAGG
AAACAGATCAGGTCAGATCAGCTCCCCAACTTAAGAGGTCATTGAGTTCACCTCCTCATTTTACATGTAAGGAAACTGACCTACTAAGTCACTGATGCTG
GCCGACTGTGCACGGCTTACTGATTTTCATATTGTTGTGAATAAAATGTGCAGTTTCACATAAACTTTGTGCAGGGATCCACATGGATTCTTTTTTTAAT
AACTGCAGCCCCCACCCTTAAAGATTTCATATAGCAAAGACACAGGCATATATTTAAAAATAGAAACCAAATACAGGAAATTGTGCCATAAATTCAAGTA
ACCACCAAAGCTGGAAGTAAGCCCACAAATAAAGTCAAACTCTGGTTCATGGAAAGCAGCATTTGAACTGGCTCTGCCACAGTGGAGCCTTGGCAAGTTG
CCTGGACTTGGCTTTRAAGGGTGGAGTTGGAAGACCTGTTCCCCCTCCTGCTTTACAGAGTTGTATAATTTACTACAAAGCTGTGAAGATTAAAGGAGCT
TTATTTTACGAAGCCCTTTTGAACTCAGCTAAACTAGGTTGGCTAAGAATTTTGGATGATGAGTATTATGCCTTGAAAGTTTTCAAGGCTTATTGTGAAA
ACTTACCACTCCTAAACTCTCTTTACTGTCTCTGCCCTCTCCCCCTACTTTATATTTCTCCAGCAGAGAAAATAGGTAATAGTATCCATCTGTCCTACTG
TTTCTTAGAGCAGTATCGTGCTCAGCATGGTATTTTGAGTAAAAGTTCTACCACCTTTTATCCTTCAAAGCCTTAAAGTTTGTGACTGAAACAGCTAGAA
GCACTAGTTTCAACTTCGTCTCTGGCCTTTCTCCCTCTCTCCTCCCATCTCCCACTCCTCTGCAATTTCTGTTGAGAGTGTTCTGAGATCCTTTAAATAA
GTTTGACKAATTTGTTTAAAAGTGCTAGGTGTTCAAGTTTTAATGTTTGCCTTTAATCTTCCCTTTGTTTGTTTGTTTTTGTTTTGCCCTTTAAGATGGG
TGATAGATCTGCCACTCYGAAAAGACAGTCTTTGGATCAAGTCACCAACAGAACAGATACAGTAAAAATCCAAAGCATAAAGGTAAATAATGGGAGGCTT
ACCCTGAAGTAAAAGTAAATGCAGCAGCATCTCTGTGCTTTTGATCTACTGCTACTTTTTCAAAGGGCGTACTTTTGTTCTCATGTGCTGAAACTTCAAA
ACAAAGCAATTAGTAAATTAGTATGTTAGTGAATAAATGAATACTTTTTTAGGCACCTACCCTGTGCCAAACACTTTAGTAGGAGCTGGGGGGACCATAG
TGAGCAAGGCAGACATGTGACCCCTATTGTGGTGGAGCTCAAAGTCCTGTCAGTCAGAAAATCGTTAACACATAATTGAACAGGTCATGAATCATGAGTA
TGATAAGTATTATAAAGGACAAATACAGGATATGATAAGATCAAGAAGGCTTCCCTAAGGAAATGACTTTTACACTAAGACAGTAAGTTATCTGTACTAA
TGATGGGGGACAGAGGCAGAGATAATCTAAAAATGGTGTCTAATCTAAAATTTATTTCCTATTTTTGTATTGCAATCTCTATGTATTCATAGTCCATTTA
AACCTCAGCCAGTTCCCTTCACCTTGTACCTTCCCCTTTTTTGTTCTTCCTAGACATACTGTCAAGACAGCAATCTATGATATGCTTTGATATTCCAGGA
AAGAAAGTGTGRTTACAGTATTCTCTGATTAGAGTGTTAAACTCTGGGCTAAGATAAAAGAAAAGCCAGGAAGATTATGACCAAGTGACTAAATTACCAT
CTCAAATGCATATTATGTTTGAGAAGTTGGGAGGATCTGAGGTTCAGAGAAAATGAACTTGAACTGGAACCACACAGTAAAGGCAGCTTTTGATGTAATG
CTTTATATCTTTATTTTTCCTACCTTAATAGTTTTATATTATCTAGATAAAGTCACAATATATTAAGGTTTTAATGCATCATAAGCTAAGCTTTTGTTGA
GTTTTCTAACTGCTTCTGCAGATTTTTTTTAAACCTCACCTAGAGAAGACAGAAAAACTTAAGAGCCAGATGTAAATTTTGAGCACAAAAAAACTAATAG
GTGGTTTCTATTAGAAAGTAGTAGCAATTTCAGCCACAGTTCACATTTTAACAATAAATATCAGAACACACCAGTACACATGTATACATAAATTTCATCT
TGGCTTTACTTTCAGGCCTTTTTTGTTTTTAACTGTCATCGCAGGGTATCAGTTCCTTTGTCCTACCTCATCCAAACATCCTAACCAGATACAATTTCTC
CTTACCATTAGTTCTTCAAACATTTAGTACCTAGTTTTCACTACATATGTTCATATTTTAGCTCCCTAAATAAACTGAGTGAACTACTATACAGTAACTA
TTAGAGTAGAAATAAGATGGGGCAAGAGAAGTTAACAATTACTTATACAAGAAAAGTAAATCAATAATAAAATAAATGTGTAATGAGTTGGTGTTCTAAT
TAAACATAGGATCAGGACCTTTCACACTCATCTAAGCAGTTAGAAATGAGCCTCATAGAAACCAGATGTCTCTCTTTTTATAATTAAATGTATTTGTATA
TGCCACTCTTGATACTCCTGGGAATGAGGCAGGGTATGGGCGAAAAAACTTTTTTAAAAGATACGAGCAAGCAAGACTTTGAATTAGAAATATTACAGCT
CCTTCTTTATGTCTTAACAGTTTCTGCCACCAGTTGACTCATCACCAGGGAGAAACAGAGGAAAGATCAGGGGAAAACTTGTGGTTTGTTTTTGTTCAGT
TGCTTCTTTTTGTAAGGTGGTAAGAGCATGAAATTCTGCCTAAAGTGGTCTAGTCACAAGGTGAAGCAAGATATTTCGGAAAGTTATTTAGTTAGTGTGA
AATAGCTCCTAGAAAACAAGATCCTGCTYATTTAGGAAATGGGTGTCGCATAGGCACCTGAGCAAGGGTACATTTCCTTTACTGCTGACACATGCATTCC
TTCCCCCATCAACCAAATGTTCACAGTGAATCAGATCATCTGTAGCATAATGTTCCCTTAATGGTTTCAAATCCAGCAAGATACTTATCAGTGCTGAGGA
CCAAAGACATCACCAGTATATGTTGATTCATTCTTTTATTGTCTTTATAGGGAACCTACTGAGGGTCAAACACTACATGCTAAACAGGCTCTGGGAATAC
AGTGGACACTTAGATGAAGTCTTACTACCACCTTAAACCTTCTATAATCTTTGTTTTGTGCAGAAAGAAGATAGTTCAAATTCTCAGGTATCCAAGCTAA
GAGAGAAACTCCAGCTGATCAGTGCTCTTACAAACAAACCTGAGAGCAACAGGCCTCCAGAGACCGCCGATGAAGGTGAGAGCAGAGCCGGCTTCTTAAT
ATTTCATGGAGGCTTGAGCAGCTTGCCTCTCACATGGGGAGCAGGGAAGGTGTTCCAGCAGTACTGATCGCACCAAGCGAGTGATGCCTGAACGCACCRA
GATGAAGCTGATACACTTTGCTTTCATTTAGAAAAGGCCCATTTTGTACATGATTTGTACTCTAGTCTATTAAGGGAAGAATTGGTAATGTTTAGCTGGA
AATAGAATTCTCCATGCTGTCTGCATCCAATTATAGGCAAAAATGTTACTGTCATAGAGTATATTAAGCCAGCCCTAAAAGTTGTTTATGAGAGTCTTTT
CCTTTCTGTAAGTGCATAACATGTATTTAAAAATAAATATTCGYCCTTCTGAAAATCGTTAACAAAAATAATGATGGGATCTTTGGGTTGGAAGGGTCTT
TGGCTTTAGGTATGGACCTGTCTAATCAATATTAGCAGATACATGAGCCTCCACTGATTTAGACCCTGTGAGGACATAACCAAGGCACTGGACTGTGTTA
GCTTTGACCTTTTCCCCCACACAAGTATTTTTCTATTTTAGAAAAGCAGTACAAACTCTCTTGAATTCTCCTTTAGTAGGAGACAGAACTGTGGTGGAAT
GTCTTGTCCTAACATTGTGCTACATCATCTTACGGTTGCACTCTTAGCACCAGCTTAGCGGGTGGCACATACCCCTAGACTGGSTTTAAAGCACATCTCC
CAGGATGTCAAGATCTTTGATATCCAGCCACTGTTCTTGCCACTTGACAGCTTAAGCTCTTACCATCTAAACATGTTTAATGCTAGCTTGTACTGTAAGA
TCTTCTAATGGGACTGCTGCTGCAAACCTTAACGTAATATAATACTGATTGGTGTTCCCTTGCCCACAAATATGTCTCAATCCAAGCCTTTAACTTCACA
TAGTCACTATGCTACTTTATCTTCAAATGTTTCTCTAAATTAATTGTATATCCAATTTTCCTAAAAGGTGACCTTCGATACTAGTTTAATTTGGTGTTAG
ATTCAATAATACTAAATAAAACCTTATGTATTTGTTACAGAGCAAGTAGAGAGTTTCACATCAAAGCCATCAGCATTGCCAAAATTTTCACAGTTTCTTG
GAGACCCAGTTGAGAAAGCTGCCCAACTAAGACCTATCTCCCTACCAGGAGTTTCTAGCACTGAAGGTAAATTTTTATACCACGGGGTAGTAATGGGAAT
GTTCAAAGTAATAACTTTTTAATGTTTATTTTCACTTGTCAAAAATATATATGATCTAACATTTATTGAGGAGATATCAAGTGCCAGATACTTTATATGC
ATTATGTCATATAATCCTGATAACCATCCCATGAACATAAGTATTTATGTATTATACCCATTTTACTGATAGGGAAACTGCCTAAGTCCACACAGCAAAT
AATTGGTTGAAACAGAATGCAAACCAAGACAGTCTGATGCCAAAGCTTGTGCTTTTTTTTTAGACCCCCAGGCTGGAGTGCAGTGGCACAATCTGGGCTC
ACAGCAACCTCTGCCTCCCAGGGTTAAGCAATTCTCATGCCTCAGCCTCCCAAGTAGCTGGGACAGGTGTGTGCCACCATGCCTGGCTAATTTTTTGTAT
TTTTAGTAAAGATAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGACCCACCTGCCTCAGCCTACTGAAGTGCTGGGATTAC
AAGCACAAACCAACTCACCTGGCCGAAGCTTGCACTTTTAACCAGTGTACTATATTATCTTTCTGTTAATGTTTTTTAGGGTCTTCATTCACTGAGTGCC
TCATTAAACCTAGTGCTAAGCAATAAGAATACAGTATAAGATATGGTCTCATTTTCTTTCTTCAAGGATATTACAGTCTAATGGAGAAGGCATAAAAGCA
AATACAATACCATGAGATTAGTAAAATAAAGTAAAAGTTGACCCTGTTTGTCAGGGCCCTCCAAAAATGAAGGACCCTTTTACTGAAAATCAGCAAAATA
TTAGTACAAAGGATATGATTCACAGAAAAATGTGTTTGCACTGCTTCCAGCAGTGCATGTTCTATCCCTCATGGTGATGTTTAGTGCCTCCCGWTTTTGT
ATTAGCTGGCTGCCTGGCAAATCACTTGCTCCTGTCCACCACACCTTCCTCTGGCTCTTCTCTTTAGCCTAGATACCATTCTACCAGGAACATTTCCTTA
CCTCCAGTGACTGGATTAGGCTCCTCCTGTGTGCTCTTAAATTTTGTTTGCCCCTGTTTAGCACATGTCACTCTGTTGGAATTTCCTGGGGAGATACAAA
ATATAACTTCCTATGGGTAAGGACTATGTCTTGTTTACTCCCAGCCCCTAGCACAGTACCTGGTACTCCTGAATATTTGTTAAATAAATGAATGAGTTAC
CTACACATTRCAATTAAATGCTTAAAGCATAGAAGACTTAAATTTTTCTATCACCATTTAAATGTGATTACTTTTCTTCCCTGTTCCTGACTTTTTTTTT
TTCTGTTTTCTGGGGAGGAGGGGAAGTGTTGTGTTTAATGGGAACACAAGCTTCCTGCCACTTTCCATTGTTAAATCAATATTTGATGAGAATGAATGGG
GGAARGCTATTAGGTCAGAGTAAGGAATAGCAGTCTTAACACTTGTGCTTCAGTCCTCAGCATAGGCCTTAAATACTTTTGGATGACTATACTTTTGGAA
TGACCTGAGGCAGCAATCATATTTTTATTTGAATACTGCTACCAAGTGCGTAGTGTAGCATGTTGTATAAACTCATGCCACAAAAAAAAAGAAAAAAAAA
AAAACAGAACTCTTCAGCTAGCCACTTGGTGTAAGGCATTGGGAACAAGTGTCCCACTGCTTTCCTGCCTTTCAGAGAGCTTTTGACATTTTATTAGCTG
CATTGCTGCACCTATTGTAGGAGTGAGAGTAGGGCCCTATTCAGGAGCTTGTTTATAGGAGCTCCTTGATGGACTGGACCTTGCACTGCAACTGTTTTCC
CTCCCTTCAAGCTATTTTTATTCTTCCTGAATACCAAACATCAAGAGGCCTATTTTACCTAGGTATGGTGTGGAATAAATGATGAAATTAAAGGAGTTTG
GGAAGATTTTTAAAGAAACATAAAGCTCATTGACCTTCTTTGGTATTAGATATTAAATCTTCTATTTGATTATGGGGACACAAGTATTTTTTAAATGTTA
TGTATATACGGCCAGGTGCAGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCCAAGGCAGGCAGATGGCTTGAGCTCAGGAGTTCGAGACCAGCCT
GGGCAACACAGTGAAATCCCAACTCTACAAAAAATACAAAAATTAGCCAGGCGTGGTAGCGCACACCCTGTAATCCCAGCTACTCGGGAGAATAGCCTGA
GCCTAAAAGTTTGAGGCTACAGTGAGCTGTGATCATGCCACTGCACTCTAACCTGGGTGACAGAGGGAGACCCTGTCTCAAAAAAAAAAAAAAAGTTATG
TATATAACTGACCTTCCTAAGTGTTTGTGATGAGGCCCTTGAGAAAATGCCAGAAGAAACTATTGATAGACATTCTCTAATCATTTTGGCTCAATATTGC
CATTGARATAAAAAAGATACAGATCAACTGGTAATATTGCTCTTTTTCTTTTTACTGATTTTTAAAAAGTAGAGAGCATGCACTTTGGAGAGATAATTCC
TCTGGTTCTTTTTTATTGAAATACAATTCACRTACCATAACATTCACCTTTTTAAAATGCAGTGTTTTTAATCCAGTGTTTTTTAGTGTATTCACAAGGT
CATGCAACCATCACCACTATCTAATTCCAGAACATTTTCATCACCCCTCACAGAATCTCTGTACCCATTAAACAGTCACTCCCAGTCCCCTCTCCTGCCA
GTCTCCAGCAACCACTAGTCTCTTAATCACTATCTCTATGGATTTGCCTATTTGGGGTGTTTCACATAAATGGAATCATACAGTATGTGGCCTTGTGTGT
GCTTTTTCTTTCAATATGATTCTTTCACTTAGCATAATGTTTTTATGGTCTATTCATGTTGGAGCATGTATCAGTACTTCGTTCCTTTTTATGGCTGAAT
AATATTCCATTCTGTTGACCTAACACATTTTGGTCTGTTCATCCGTTGATGGACATTTCGATTGTTCTCACTTTTGGGCTATTAAGAGTAATGCTGCCAT
GAACATTCATGTGCAAGTTTTTATGTAAACATATGTTTTCATTTGCCTTGAGTATATATATACCTAGGAATGGAATTAATGGGTCATATGATAGCCCTAA
CTTTTTGAGGAACTCCTACACTTTTCCAGAGTGGCTGTACCATGTTACATTCCCATCAGCAATGTGTGAGGGTTCAATCCACTTTCTCCACATCCTCCCT
AATGCTTGGTAAGGCCTGTCTTTTTTTATTATAGCCATCGTAGTGATTATGACATGGTATCTCATTACACTTTTGAGTCACTGGTTCTTGAGCTGCTTAA
TTTCTGGATCCAGAGAGACAAGTGTCACATAGTAGAAAGAGCACTGGACTAGGTAATAAGAAATTTGTATTCTAGGCCAGGTGTGGTGTCCTAGCACTTT
GGGGAGGCTGAGGTGGGCAGATCATTTGAGGCTAGGAGTTAGAGACCTGGCCGACATGATGAAACCGCATCTCTACTAAAAATACAAAAATTAGCCAGGC
CTGGTGATACACACCTGTCATGCCAGCTACTAAGGAGGCTGAGGCAGGAGAATAGCTTGAACCTAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATACCA
CTGCACTCCAGCCTGGGTGACAGAGTAAGACTCCMCCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAGGCGTGGTGGTTCACGCCTATAATCCCAGC
ACTCTGGGAGGCCCAGGTGGGCGAATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAACATTAAAAAAAA
TTAGCTGGGCGTGGTGGCGGGCGCCTGTAATCCCAGCTACGCAGGAGGCTGAAGCACAAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAACCAA
GATCGCGCCACTGCACTCCAGCGTGGGCGACAGAGTGAGACTTAGCTTCAAAAAAAAGAAAAGAAATTTGTATTGTATTCCACTTAAGAGTTACATGACC
GTAGGCAAGTTACTTTCCTCTTTGAGCTTTGGATTTCCTGTCAAAACTGAGAAAGCTATGAGTGTTTGGGATTGTTTTATGGGCTTCCAAGTCATTCCTC
CAGTCTCCACTCAGCCATCCAACAAGAAATCTCACAATATGCCACAGTCTGTTTTATGAGCTAGCTCCTATCACATAACTCATTAGGCCTCTGCATTCCT
TTTCACCCCTTCAACATAAGAATAAATTCAGGAAAATCTAAAGGGAAGACGCTGGACAGAGAGAAGATGAGACCATTCATTCTCCTGCGATTATCTGTCA
CTGCTTCTACTTTGGCAGTGTCTCACTGTGTTGCCCAGGCTGGTCTCAAATTCCTGGCCTCAAGCAATCCTCCTGCCTCAGCCTCCCAGAGTGTTGGGAT
TATAGGCRTAAGCCACTGCACCCAGCCTTTTTTTTTTTTTAATATATTYTTAAGGGATCAAAAATTAGTCTTCCTGATTTAGTGAAATCCTAAACTTTAC
CATTTGGAAACAAAATTTGCGGAGTAGCTTTTCTTTTAGTGTTTTAAATTCAGTTGAGACTACTTTTAACTAAATTTAGCTGTATGTTTAGACGTATACA
TTTTTTGTAATTCATTTTTGACAGATCTTCAGGATTTATTCCGCAAGACTGGCCAGGACGTGGATGGGAAGCTGACCTACCAGGAAATCTGGACCTCCCT
AGGTTCTGCTATGCCAGAACCAGAGAGCTTGAGAGCATTTGATTCCGATGGAGATGGAAGATACTCATTCCTGGAGCTAAGGGTAGCTTTAGGTATCTAG
CTTCATCAGGCATATTTTAGAAATGGACTGCCTAATATCTATTTACCTARCAACAAAACAACCCTTACTTACCCATCAGTCCTCTAGTCCTCCAAACTAC
TGTAGCAGATACTTTGCCACCTTTTAACTTGTTTGAAGAAGCTATATAAAAGTTATTTTTTTAAAGAAGAAGACCATTTTACTTATGATGTTCAGAAATC
TATGATTTCCTACAACCAGTAAGATCTTACATTTTAAAATTGCCAGAAAAAAAATTAAAGCCCTCTTTTTTTCTCTTTCCTTTTTTTGAGGGGAGGAGAC
CTTATCTTTTAAAGCTGGGAAATGTATATAGAGAGAGAATAAGCCACTTTTATATTTCACTTAAATTTGCCTTAAATTAGCTGCACTTTATAGAGACTCA
GAAAATGTCTTTTCTTTAAAAGATAGGCCTTTTCTGTTTGTAAATATTTAAATGAAAGAAAGCATTGTGCATATTGTGTGGAAAGTAGGAAGAATGGTTT
TGAACAGGATATGAACAAATGACTTATTAAAAATTGCTGATCTGGTGTAGGTGGCAGCTGAAACTACATCCATGTCTCCATAAGGYATCCCTCAAAGGCC
CAGGCGCTGCCAGGGGGTTTGTCCTGGTAGCTGGAGGAACCGATTTCAGGGARTAGACACTGGAGACAATACTGACTCCAGGCATGGCTCATGGAAGTAG
GATTCTGGTTCTTTGTTCCTATTCCCTCAGCTAATCCCAACCTGGGAATCAGAGAAGTCTTGGGGATTTTTCTCATTTTTAGTACTATTTCAGGGTTTAT
GAGCATAAAAAGTTATCCATTGGGGAGCTCCATTTTCCCTGCTGAGTGAGCTAGATTGCCTTCCCMACCCACCCACTTAAGTCTGTCTTAAAGCCRTAGC
TGGCTCCCACCACCAGTACCATCTCCATTTGAATGGCAGGGCTAAATTCCCCCAGCCATTATCTCACACTGACCACCCAGAGCTTTAGAAGAGAGCTGTG
CTTCTAATTTTGACCCAGAAAACCATACCCCTTGAGATTTTACCTAGAGGCTAACCAAGAGCCTAATATGTTTCTCTGGGGGATGACTAAAGCCAAAAAG
GCTGTGAGATGAAACATGTGAAATAATATTCAGTTTCCTTACCATTACCAGCTCAGAAGTAGCTAGAGGCTTTCTACCCAAAGGATGCCAAAGTATAGCA
GGGCAGGCCTGGAGCTAGGGCCTTCACATGGTGGTAGCAAGTTTTTCAAATCTAATACAATCAAGTACAATACTTCCTTTAAATGCTTCTGTGGACCTGG
CATGAAAGATCCCTAGATTGAAAGGAATAATACCTCCATGTCTCCTGTATGTTGAGTCTAGAATTGCTGTGTTGTTCTTAGAAGCAGTCTTTGGGCAACA
ACTTGAAAGGGGAAAAAAAAACTACAAAAACTTAACTTTGGTATAGGCCAAGTCAGGGAGAAAGTAGAGAAAGCTGTCATGCCACAGACTTCTTTAGTGG
AGATCATTTCCTTTTTAACTTTGTTCAGGTTGCCCTTCACCATGGATACAGTCCGGTACCCTTAAACATTTAAGGGCTGTTTTTTTTTTCTTTAYATGAT
GTTCAGCTTGGTATTAACCAAACTTAAATTTTTTTTCCAGAAGTATTAAAATTTAGTYAAAGCAAGATGAAGTCTTTTCCCATGAATGTGTCCCCTTATC
TCATTATAGCTTATGCTCAGTTTCACTTTCTTGGAAAGGTTAAAACAAATTAGCCTGGCACTTTAGGTAACTTGAAAATAACTCTCACCCTTCTGACTGC
CTTCCATCCACTCTCACCCCACACCTTTTTTTAATATATATACACCCTTACAGATTTTCTAACAACCAAATAAAATTCTAGCAATAAATTGAATTATACT
GCTATATTTGTATATACTGTACCATAAATAGTATGTCTGTACCTGGAAGGTATTTTTTTGAGAACTGATTTATATGAAATATACTTGAGGGTAATGTAGC
TTGTCCTTTTTAGTTTCAAATTCTTATTCATAGGCAGATACTTTGAAGACACCTTAACTCTTTGTTGTGTGTATTTTCCCTTGCATCAGATAACTATACA
TGGAGAAATCCATTTTGTTTTTTGGTTTATCTTCTGTTCTTCCTACCTTGTGCTTGTCTGACTAGTATCACCCCTGAGCCAGTATACAGTACCATCCTCT
CCCCCTACCAAGTTTGGCAGAGGTGTTTATACTGCATTCTCAGATCTATGAATATTTTTGTCATCCTGCCTGAGAAAGTACATCTTCCAGGCAAAAGTAG
GGTATCTTGAACTCCTTTCTTCTGAGTTGAGCAGACTCACTGGCTTAAGCATCCCATAAGCCTATTATTTAGTGTGAATTTGGGACTTTTATTTGTATGT
TGTCTTAACTTACTRAGCCTGTGACTTGTATTTAGCTGTAGTCAAGCCTCACCAGCCATATCTCATCTCTGAGAGGAAGACTGGATAGTGAGTTTGGTTT
TGGTTTTGGTTTTAAACCCTTTTACCTTTTCAGTCTGGCAGCTCCTACTGCTGCTTTCCTAAGTTACTCAAAGCACTGCTTCTTGGTCCTTGTTTTCTTT
TGCCTTGTACTATCTTGTATAATGTTTACTAAAAGAGCCTCCCCATAAATCAGAGAGGCAAAAAGGTAGCATATAAAAAGAAGAACCAAAAGAAGAGAAA
ACCTGACTTCTAGATGACTGTGGTGTCATCTAAAAGGCAGAGGTGCCTGACCCTCAGGAATGTGTATGATGCAACAGAGCTGAAGAATGGGTTCCCTTCA
CCTACTGCTGGCCATTGTCCCTTCTGTTGGAGATTCCTTTCTTTATGGTTGCTGTTCATAACCCCTTCAACACCCCCCCTTGCTGGTCCTGCCGGTCACA
GTTGAGGATTTTGGCTGTGATGGGCTCATACTCATAATGGCCTGTTGAGTTGTTTTTAGTGACAGGTTTTGTTTGCTGCACACCTCATTGGCTTGCTTAC
CAACACCAGCTAGAAGTGGTCCCTCTTTCATATCCAAACCAGAACACATTTGGGTAWTCCTGAGACTTTATAGAGCGTGTATTGTTTGTTATACGAACCT
AACCTACCTTGTTGTTTTCTCATATTAAGAAATTTAAATCTACTTTKTTTTAGTGAAGCTATTTTGGTAATGTATAAGCAATTTTGGTTCTGTTTAGGGA
GAATTCAGGGYTTCCATGACTTGATTTGAGCTTTGCATATTTCAAATAAGTAACACAGCCATTTTAATTTAGCTAAATAAAAAAATTTCTTTTTTCTCTC
AATGTGTCTGACTAAAGCCTCTCTCACTCCCCTGCGATTTTTAAGGGAAAAAAAAAATCTGCTTTGATTTCTATATTTATGGACGCCTTACACCTTTTGA
AAGCAAGGAGTAACACATGGTGGGCCCAAAGTAATTAAGAGTCTGCCTTAAGGACTGCAATATTTGGCCTGAAGAAGCAAAGGCTGCAGGGTTCAGGCTT
TTTGCATCCAGAGGATGGGAGGGGTGAGGTGAGGCAGGAGTGAGCCCTGCCCCTGTGTCTACCCGAGATGCTCCACTTAGGCCTGTTTTATTTTTTGAGA
GTCAATATAAAAGCGTGTTTGCCATAAATGTCCCACCACCTTAAAAAAAAAAAAAAGCTTAAAATCCGTTGCTAAAGAGGGGTCATACACAAGCTAAAAC
TTTTTCACACACAGAAAAAAATAACTCTACATGTTTGCTAGATTCTGGATACCTCCCCCCCTCCCCGCAACACAGAATCTGGTGACCTTCCCCCTCAGTC
ATTATGTAAATGACTATACATAAAGCTTTTGTTATTTACAAATATAATGAGAGGATTTGTTCATTTCCAAAAGGAAAGGGAGAAACACATATCCTGTGAT
AGAGCTGGGCTTTCTTACCTCAAAACTGCAGCCAAATGGGCAGTATTATCTTTGTCTCACCTTTTAGAACCATTTCCAGAAGTACAAAAATTATTAATAT
TCCCATGTGGTGGATCTTAACTTTTGGGAGGGGGACATGGATTCCTGTAGGAAAGGTAAAAACTATGGATATATGTCTACGTATAATTTTAGGCAGTTCA
CTGACCAGCCCTTCCTCCAAGCCAGTTCATGGACCAACTTAATGACACCCTACATACAATCCGAAGCATTCACCAAGTGTTTTCTAACACGACATATCAT
TAGGGAAGGGGCACTATGGCGTATGGTGGGAAGATCAGTACCTTTGATGCCAAGCAACTGATGATCAATAACTTTCATACCAGTAACTTTGATGCAAGGC
AGATGTAGATTTGAGAACTGGCTCTGCAACTAAGAAAGGTATGGCATATGCCCTTGGAACCTGTCTCTTCATCCATAAGAGGAGGATCATGATATCCATT
TGGCAGTGTTCTTGTGAATTATTAGAAATAATGTAAAGAGGCAACCACGTAAGAGCTGCATACATCATAGATAATAACAAAGAATGCATTTCAGCCCATA
GTGCAGTGTGGCTCACAGGGCTCGTGATGACTCATTTTGCCTGTGACATAGCGACTGTAAATCAACATAGCTCACGTACCCTCAGCAGCTATCACTCTGG
TGGCAGCTGTGCTTCACATCCCACAGAACACCAGTGCCTTGGGGTACCTAGGCCAGGGCCTGGCACACATTTTTGTTTTAAATACTGAACAGAGGGATAT
TGAGTCCATCCACAAGTACTGGTTCAGTGTGTCTCCCCACAGCCAACCACCAGTGCCAGTTCATATTGGTGAGACTCAGCAACCAACTTGGTTTGCAAAG
TGACCCCATCAGACAGGAAGGACATTGCCTTCCTAACAGCAAATGAGAAACGAGGGAGCCTTGGACTTTTTTTTTTTTCTTTTAATGTTTCATAGCATGA
CATCCAGGTGGGTCCTGACCTCTGTCAATACCACCTTCCTGAGGTTAGTTCCATTTCCTACTCTGCACCTGATTCCTGCAGCTCCCACCTTCAGTGAGAG
GAGGCTACAGTTCTGAAGGAAAAGGCTTGGCATTGAAGCTATGGTCTTCCTGGGCCAGATTCAGGAGGGAATGGAAGAGAACATTCCTTTCAGGACAGGT
GGCCAAAGGATAGGAGACAGAGTGGTTCAGCAGGGGGGGTAGGTTGCACAAGGGTGGGGCAAAGGGCACCTCCTGAAAGATGGGAAGTGGGAATGGGGAT
CTGGCCTGGGGCTGCTGTGGAGCCAGCTGCAGTGCAGGTTGCAGGGGAGCAGGGGCTTCCGCCTTGGGGTTGCTGTCTTGGTCAGCATGGCTCCTGCCTT
CGGGGATGTCCAACTCCCACAGAACATCTGGATTCTGGACCTCAGTCTCAGTCTTGGTGACAGCAGGGGCAGGGCCCGTGTTGATGGCTGCATTCATGCC
GTAGCGCCGTCGCTTGTTAATCCAGTACAACAATGGGCTGTAGGTGAATGTGGCAGCTCTCATCACCTCCACCCACTGCTGGGCATGCTCTTCCCGCCTC
AAGTTCTTCCTCCAGTGCAGAAAGATAATGCACCCTCCAGTTATCACAGAACACAGCCCCAGGATTCCAAAGTACAATGAGACCCACACTAAGGCAGCAA
GAAAGAAAAAGAGGCATGCTGGCTGATAGCTGTAGCTTGGGGCCTGAGCTGTTTCTCATTCCTCTTTCACTTAACCCATGCATCAATCACTCCATCCACT
TAACTACTCTCACCGTTCCTTCCCTCCCTTATTGACTTGCCTCATCATTCCCTTATTCAGTCAAAGCTAGATTTCCAGGGAGCTTAAGCACCACCTTTAA
CTCTTTACAGATCACAAAAGCTAGGTCTAGCGGGGGCATGTGCTGCCCAGGCTCAGTCAAGCCTCTGATTCCTAACCCAGGACCCATCCAATCCATCAGA
CTGAGAAGTTTCACTATGGGCAAGTCCATCAAGAAGCAAAAGTTCACCAGCACTTTGTGAGGCCCAGGTGGGCAGATCACTTGAGGTCAGGACTTCAAGT
CCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATTTTAAAATTAGCCAGGTGTGGTGGTGCATGCCTGCAGTCCCAGCTACTTCAGAGGCTG
AGGCAGGAGAATCACTTGAATCCAGGAGGTGGAGGTTACAGTGAGCCTAGATTGAGCCACTGCACTCCAGCCGGGGCAACAGAGCAAAACTTCATCTCAA
AAAAAAAAAAAAAAGTGAAAGTTCATCAGTTGACAGAGACACCAATGTCCCATCCCATTCCATTCAGCTGTGATAGTCCTGGGCTATTGATAGTATCTTC
TCTGGTTGATCAGAGCATGGTCTTTGCCTTAAAATAATTCTTAGTTTTCTAGAGTAGACTATCTCCTAACTGCTTAGCTCTCCTCCAGGCAGCCAGGCAC
TGTCCCATCCATGCAAAGGGCCTTCCCTGAGTGTTTGTCCCCAAGCCCTAAGGCACAAGTCCAGTGACAGGGACTGGAGGAGCACTTACTCCCAGGGAAG
CGCAGGTCCTCCTGTTGGGAATCCATACAGCTGAGCTTTGGTACCTGGCCGATGGCTCTGGGGAGAGGGAACTCACCCACCCATCTGCCCAGCCAGTCAG
CCCATCTGCCCAGCCAATCAGAGTCTCCAGAATGCCCAGGCCCTTTGTTCTCTAAAGGAGAGGTCACTGGGTTCTGAGAATTGGGCATTCTAGGGGCAGT
GCTTGTGAAGTGGTCCTGGGTTAATGGAAGGAGGGGACTTCATCCAGTGGCATTTTTTGGGTGGAATGTCACTACTACTTCCATCAGAGACTGGTTCACC
TATTGAATTGTCTGTACCTACCCCTTATGGTGAACCCACAGAGCAGACCCCAGAAAAGGGCCATTGTCCCTCAGGTACTTACGGATGTTGCTGGTCTTTA
GGGAACGGTTGATGGGATACCTGTCCCCAGTGAGGAATGTAACAAGGAACACACAGCATTGGGCAGCCCTGTTCTCAAAAAGTATCTAACCAAGTTGGCA
GGAAGAAACCTGCTCAAGGGAACCAAGTGGTCAATACCTCCTTCTTTGGCTCCAACAATCTGTCTTTTATTTAATTACCTTCCTTCAAGTGCTGACAAGT
GTTTCCCAGGCCCCAGGCCCTGTGGGGCTTCCCACCATCTGGCCTGCATCTACTTCCAGCCTTACTTCCCTCCTCGTCCTCCACACACTTTTCCCTTTTG
CCTAGTCCGTACTCCTGAACAGACCCTGCTCATTCACATCTCTGGAGGTGTGCCCATGCTGCTCCTTCACCCAGGAGTGCCCCTGCCCACTTTTCCACCA
CTGAACACCTGCTCATCCTTCAAGACTCAGCTCAGCCCCCCTACTCTGTGACAGACTGCCCAGAATCATATCATCGCCAATTTGAAGAAACTTTGAGAGT
TGTCTAGTTCATCTCCACCATCTGATCCCACCATCAGGGCCATGCTTGACTCCTGGGGGTAGATTTTTCCCCACACAGCAACTAATCTCCCTGGACTCAA
GACTCACTTGAGTCAGGAACTTGCTCACCACCTCCTGAGGCAGCTTGATGCATTTATGGGCAGCTCAGTTAGAAAGCCCTTCCCTAATTAAGCTTAAGTC
AGCCTTCCCAGTATGTTGCACCACTGCTTGTAGCTCAGCTTCTTAGCACCATTTTAATGACTCCCCTCTTTATAGTCCTCCAATGTGTGACTTAGGGAAC
TATTTAGCACAGAATTCTCTCCAGGGTCCACTTACCCTTGTTCTCCTCGTATATCACTGGCCCCTACTTTCCAGTCTCCTTTGCTGGTTTCTCCCTTTTC
CCCTGATCTCTAAATGTAGGCATGTCTAGGGCTCAGTTCTTAGTGCTCTATCTACATTCATTCCATCAGTTATCTCACCCAGACCCCTGGCTTTAAATAT
CACTATACACTGACAGTACGCAACTGTATCTCTCCAGCCTGGAATGCTCCTCAGAACTTTAGACTCATACCCAAATACCTGGTTGACATCCCTCCTTGCC
AGTCTGTTAAATTATCCCAAACCAACATGTCCAAAACCAAACTCTGATTATCCATCCTCCAAAGTCTACCCTACCTACAGCCTTCCTCCTCTTCATAAGT
AGTATCTCTGTCCTTCGGGTTGTTCAGGCCAAAAACCTGCAAGTCATCCTTGACTCCTTTCATTCTATCACACCCACACTGACTCCATCAGCAAGATCTT
TAGGCTTTTATTTCAAAATATAACCAAAATCTGGCCACTTTTTTTTATCACTATCACTTTAGTCCAAGTACCACCATCTCTCACTTGGATTACTGTTCCC
TGTAGGGTGACCAACATCCTGGTTTGCCCAGGACTTGGGGTGGGTTCTCAGGACATGGGGCTTTCAATGCTAGAGCCAAGAAAGTCCTAGGCAAACTGGA
ATAAATTAGTCACCCTTGGGAGAGTTTCCATCCTTGCCTCCACATATCCTAAATCCCACCAGCAGCCAGCATGATCCTTTTAAAAAGTAGATCATGTTAC
TCCACTGCTTAAAACATATAGTAACTTCCGATCTCATTCGATTTAAAATCAAAGTCCTTAACCAAGGCCTAAGCAATCTAACTAGCCCTCCCTATACCTT
CTTGGTCTCATTTCTGCTGCTGTGCCCTCACTCATTCAGACTCAATAACCTCCTCATCAGGGCCTTTGCACTTGCTGTTTCCCCTACCTGGAAGGCTCTT
CCCCCAGCATTCCCACATTACCTTCAGGTCTCTGCTCAAGTGTCCCCTTATCTCTATCTCTCTTGGCCTGCTGTTTTTCTGCATACCATGTAGCATCACC
TAACATTATATATTTACTGTCTGTTTCACTCCACTAGAATGTAAGCTCAATGAATTAATATAAACAAGGATCTAAGAACTTCAGATAATGATAACTGCTA
TAAAGAGAATGCAATAGAGTGATGGGATAAAGACTATAAAGAGATGGAGGGGTTGTCATTTAGGTCCCTTGGAGGTGCTTACATGTGAACTGAGCCCTTA
GATGATGAGGAGGCAGCCACATGCAGATCCACAGAGAAAACAGCAAGTGTTAGGAGTGTGAGCCAGGTATGGGCTGGCATACTTGAAGGACTTATTCATC
TTCCATTACACTGTTCCTCGCACAGGGCAGGGCTCAGGGCTGATCTCCATGAGCATAGGTTGGATTGAGCAGAGTTGAAGGCTCTGCCCCTGTCCCAGGA
GGGGCTTCAATCAGACAAAACCCAGACAAGAAGGACCTGATGATGAGTACTGTCCCAGAGAGCCCACTCCAGGACTGGCCCTGTTCTGTGAGCAGGTGGG
A


SNP Information

Context             (SEQ ID NO:56131):
ATTCATGAGTTACAGCCGTCTAGTATTTACCCTCTGTCCTTTACCTTTGGACTCTAAGTAATTAGAGAAAAGCAGGTATTCACCCCTTTTTTGCAAAAAG
K
ATGGGAGAAATTGGCCTTGCCTAAATTCACACAGCAAATTACATCAGGTGAAAGTAGACCACATTGAAGCACTGAAAGATAATCAGCATCTCTCCTGGGG
Celera SNP ID:            hCV8641912
SNP Position Genomic:     18480
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,3)      total(G,3|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56132):
ATATTTCATGGAGGCTTGAGCAGCTTGCCTCTCACATGGGGAGCAGGGAAGGTGTTCCAGCAGTACTGATCGCACCAAGCGAGTGATGCCTGAACGCACC
R
AGATGAAGCTGATACACTTTGCTTTCATTTAGAAAAGGCCCATTTTGTACATGATTTGTACTCTAGTCTATTAAGGGAAGAATTGGTAATGTTTAGCTGG
Celera SNP ID:            hCV16173055
SNP Position Genomic:     40799
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,309|G,430)   total(G,430|A,309) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56133):
TAGGAAGAATGGTTTTGAACAGGATATGAACAAATGACTTATTAAAAATTGCTGATCTGGTGTAGGTGGCAGCTGAAACTACATCCATGTCTCCATAAGG
Y
ATCCCTCAAAGGCCCAGGCGCTGCCAGGGGGTTTGTCCTGGTAGCTGGAGGAACCGATTTCAGGGAGTAGACACTGGAGACAATACTGACTCCAGGCATG
Celera SNP ID:            hCV1690841
SNP Position Genomic:     47286
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:56134):
GGCAGCTGAAACTACATCCATGTCTCCATAAGGTATCCCTCAAAGGCCCAGGCGCTGCCAGGGGGTTTGTCCTGGTAGCTGGAGGAACCGATTTCAGGGA
R
TAGACACTGGAGACAATACTGACTCCAGGCATGGCTCATGGAAGTAGGATTCTGGTTCTTTGTTCCTATTCCCTCAGCTAATCCCAACCTGGGAATCAGA
Celera SNP ID:            hCV1690842
SNP Position Genomic:     47353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIC-allele(A,528|G,955)   total(G,955|A,528)no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56135):
CTTTCTTCTGAGTTGAGCAGACTCACTGGCTTAAGCATCCCATAAGCCTATTATTTAGTGTGAATTTGGGACTTTTATTTGTATGTTGTCTTAACTTACT
R
AGCCTGTGACTTGTATTTAGCTGTAGTCAAGCCTCACCAGCCATATCTCATCTCTGAGAGGAAGACTGGATAGTGAGTTTGGTTTTGGTTTTGGTTTTAA
Celera SNP ID:            hCV1690843
SNP Position Genomic:     49115
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:56136):
CATAGATAGCAAACCAGCTTAGATACTTTTACCCAGTGTGTTGTCTCTTTGCAAATCTGTGTGTTTATCATGCCAGGCACTGTGTTTCTTTCAAGTGGCT
M
AGTTTTGAAGTGGTAGGTCATGCCAAATACCTAACTTTATTGTATCTCATGTAATTTTTATTAGTGTCATCTCGTGTTCTCTTGGATTCTTGGATATCAG
Celera SNP ID:            hCV27480820
SNP Position Genomic:     31729
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,525|C,950)   total(A,525|C,950) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56137):
TAGTGGAGATCATTTCCTTTTTAACTTTGTTCAGGTTGCCCTTCACCATGGATACAGTCCGGTACCCTTAAACATTTAAGGGCTGTTTTTTTTTTCTTTA
Y
ATGATGTTCAGCTTGGTATTAACCAAACTTAAATTTTTTTTCCAGAAGTATTAAAATTTAGTTAAAGCAAGATGAAGTCTTTTCCCATGAATGTGTCCCC
Celera SNP ID:            hCV7568245
SNP Position Genomic:     48295
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:56138):
GCACATGATTGGTGGTTATGCTAAATGCCCAAGCCAGTGGTTACATGACTGGCTGCCTTTTTAATGTCAAAGCTCTTGAGTCCAGTGGAAACAATGACAC
Y
GTCCCAGGTTGAGACCGAGTTGGTCCCTGGAAAGTTACAGTGATGCTATAGTTTCTCTGGGAGCACAGGCAATGGGGCAAAGGAGAAATGGTTTCTAGAG
Celera SNP ID:            hCV27480821
SNP Position Genomic:     35105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56139):
TCATTTAGTATCTTACGGTTTCTATATGTCAGGAATTTGGGAGCAGCTTAGCAGACTGGTTCTGGCCAAGATCTCTAAGGTTGCAATTAAGATGTCATCC
R
GGTCTTTATAACCTGGAGGTCTGACTGGGGCTGGAGGTTCCTCACTCACATGGCTTTTGGTAGGAGGCCTCAGTTCCTCCCAACATGGACTTGTCATTCT
Celera SNP ID:            hCV8641885
SNP Position Genomic:     25109
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56140):
GGAGATGGAAGATACTCATTCCTGGAGCTAAGGGTAGCTTTAGGTATCTAGCTTCATCAGGCATATTTTAGAAATGGACTGCCTAATATCTATTTACCTA
R
CAACAAAACAACCCTTACTTACCCATCAGTCCTCTAGTCCTCCAAACTACTGTAGCAGATACTTTGCCACCTTTTAACTTGTTTGAAGAAGCTATATAAA
Celera SNP ID:            hCV7568246
SNP Position Genomic:     46750
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:56141):
TTCTACAATTTGTTAATAAAGCAATTATGGTAGATAAAATTAAAAGCCAAATCTTTTGCAAACATAGTACTGGAGGAGGTAAGGTAATAAGACACAGTTC
S
TGAGGATGGAATGGGTAGGACAGAAAATGGAAAAGAAGGAAAGGAAGTGGAAAAGTGTCTCATTGTTTATTACTACATAACAAAGCACCCCCAGAAGTTT
Celera SNP ID:            hCV11871633
SNP Position Genomic:     33577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,12)      total(G,2|C,12) ;(G,-|C,-)   JBIC-allele(C,366|G,1125)   total(G,1125|C,366)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56142):
GCAGGGGCCGGAGTCGCGGCTGGAGTGGGGCCTGCGCGTGTGAGTGGCCGAGAGTTGCCCGTGCCGGAGACCTCAAACTCCGGGCGGGAGCGCTTTCGGT
S
GGCCGAGCCGCCGTCGCCCGCGGCACCGTGTCCCCAAGGCCCAGACAGCGGGGCGGGGGTCTATCAGGCGCGGGACTGGCTTCTCTCAGGCCGACCCTTC
Celera SNP ID:            hCV7568280
SNP Position Genomic:     6264
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:56143):
TTTCTTTCATTTCTTTTGCAGTAAAACTTGCTCAAAAGTTTATAAAGTTTCAGTAAACTGGAGCAAGGTTCCCCGGAGTGAGTATGTATTTCAGAGAGAA
R
TCAATAGGCAAATTACAGTGCAGAGATGGAATTGCAGAGAAACATTGGTCTTTACACTTTTGTGACCTGAGCTTGTATTCAAAGACCTCCCTCCTGATAA
Celera SNP ID:            hCV26787363
SNP Position Genomic:     8350
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56144):
TTTAGACTGGCTGGTAAAATGTTTCTACTGTATGAGATAGATAGATTCCTGTAAACCATGTGTAAATCAAGTGCTACATTAAAAGCACCTGCTGGGAACT
R
CTGGGCAAAAGGAAATCAGTATGTGGAAGAAACATCCACACCCCCATGTTTATTATAGCATTATTCACAATAGCCAATATATGGAATCAACCTAGGTGTC
Celera SNP ID:            hCV26787364
SNP Position Genomic:     14014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56145):
CCATAGTGCTAATGTGTTGTCTATTGTTCCAAAGTGCAGGGAGACTGTGATGTTCCCTATGGAAAAAATACATGTGTTAGATAGGCTTCTTTCAGGCATG
R
GTTATGGTTCTGCTGGCTGTGGGTTCAATGCTAATGAGTCAACAATATGCATTAAATAAGATGTCTTTAAACAGAAATACATATACAACAAGGTTATGTA
Celera SNP ID:            hCV26787366
SNP Position Genomic:     21622
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56146):
TTTACCCAAAGAACAGCTTCTTCCTTTAGGATCTGGCCAGTTGTCAGTGGAGGAAGGTGTTTGTCCCCTCAGGTGGCTGAAAGGTAACTACATAATTGAT
A
AGAGTATTAGGAATAACTATAGTCTTGCCCTTCAAACTGATCTTGAACCAACTGTGTACATACTTTGGGGCACTAAGGAAAACATACCTGGGGCAGGAAC
Celera SNP ID:            hCV26787367
SNP Position Genomic:     23769
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56147):
TTTGAGAACAGCCTTCTGGCATATTTGAGAGGCCACACATTTGTGTTGTGCTTAATCCTCACAATGTGTTGTCTCATTTAATCCTCACACTAGCTGTGTG
W
TGTGAATGGCCAGGCAGTGTTTGTCCTGATTTGGAGAGGGAGATGCGGAGAGGTCGAGTCGCTTACCAAGGCCTCACCACTAGTTGTTGGCAGAGATGAC
Celera SNP ID:            hCV11871636
SNP Position Genomic:     36983
SNP Source:               Applera
Population(Allele,Count): african american(A,28|T,8)   caucasian(A,21|T,17)   total(A,49|T,25)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,6)   total(A,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56148):
CTATAAAACACATACAGAAATCCTATGAAAATTTTCCTTCAATTCCCATCTCTGTGTTCCCATCTCACATGCACACACACACACACACACACACACACAC
W
CACTCACTCTCTCTCTCTCTCTCTCTCTCTCATGCCCCCATAGGTGTCCAGTCAGTAATGTGGGCTTCATCCTCCTAGTTCTCTATTTACAAAATCATAA
Celera SNP ID:            hCV26787368
SNP Position Genomic:     24178
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,6)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56149):
AAACACATACAGAAATCCTATGAAAATTTTCCTTCAATTCCCATCTCTGTGTTCCCATCTCACATGCACACACACACACACACACACACACACACTCACT
C
ACTCTCTCTCTCTCTCTCTCTCTCTCATGCCCCCATAGGTGTCCAGTCAGTAATGTGGGCTTCATCCTCCTAGTTCTCTATTTACAAAATCATAATAGTT
Celera SNP ID:            hCV26787369
SNP Position Genomic:     24183
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56150):
TTGCAGTAAAACTTGCTCAAAAGTTTATAAAGTTTCAGTAAACTGGAGCAAGGTTCCCCGGAGTGAGTATGTATTTCAGAGAGAAATCAATAGGCAAATT
M
CAGTGCAGAGATGGAATTGCAGAGAAACATTGGTCTTTACACTTTTGTGACCTGAGCTTGTATTCAAAGACCTCCCTCCTGATAATGACAGCTGCAGTGC
Celera SNP ID:            hCV12109016
SNP Position Genomic:     8365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56151):
CTGCAAGGAAGGGACTGACGCGTTCCCACTTTCTTACTCTGCACCTCCCCACTCTCTTCCCATTCAAGAACGAGTTTCTCTTCCCTCTCCATTGGAAATC
Y
TGCTCCGGAGGTCCGAAACACGTATTTTAAGCGTGCCCTTCCTCACCTCCTGGAGCACCCTTAGAAGTATTGCCTACTTATCCGGGCTGAGAATCCTTCA
Celera SNP ID:            hCV3177153
SNP Position Genomic:     6637
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:56152):
TTTATGAGCATAAAAAGTTATCCATTGGGGAGCTCCATTTTCCCTGCTGAGTGAGCTAGATTGCCTTCCCCACCCACCCACTTAAGTCTGTCTTAAAGCC
R
TAGCTGGCTCCCACCACCAGTACCATCTCCATTTGAATGGCAGGGCTAAATTCCCCCAGCCATTATCTCACACTGACCACCCAGAGCTTTAGAAGAGAGC
Celera SNP ID:            hCV27478400
SNP Position Genomic:     47596
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,5|G,1458)   total(G,1458|A,5) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:56153):
TGACGCGTTCCCACTTTCTTACTCTGCACCTCCCCACTCTCTTCCCATTCAAGAACGAGTTTCTCTTCCCTCTCCATTGGAAATCTTGCTCCGGAGGTCC
R
AAACACGTATTTTAAGCGTGCCCTTCCTCACCTCCTGGAGCACCCTTAGAAGTATTGCCTACTTATCCGGGCTGAGAATCCTTCATTTTTGACCTGGCTT
Celera SNP ID:            hCV3177154
SNP Position Genomic:     6652
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:56154):
CTCTCCTGGGGCAAACTGGGGATTCCATATAGGTAGCCAGCCATGCAGTTTACCATTCTGAGAGGAGGATGATACCGTTCAGCATGAAAAGGCAAAGTCA
K
CTATCTATTTTTCATCTCGTTCTTGTAAACTGACATTATAGGAAGAGTCAAAGGGGATATTGGTACATGGTGGGAGAAAACACATAGATTTTCAAATCTT
Celera SNP ID:            hCV12109017
SNP Position Genomic:     18670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56155):
AATTCCTGGCCTCAAGCAATCCTCCTGCCTCAGCCTCCCAGAGTGTTGGGATTATAGGCATAAGCCACTGCACCCAGCCTTTTTTTTTTTTTAATATATT
Y
TTAAGGGATCAAAAATTAGTCTTCCTGATTTAGTGAAATCCTAAACTTTACCATTTGGAAACAAAATTTGCGGAGTAGCTTTTCTTTTAGTGTTTTAAAT
Celera SNP ID:            hCV12109019
SNP Position Genomic:     46349
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,4)   caucasian(C,15|T,21)   total(C,19|T,25)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56156):
TACCTGCAGGAACTCCTTCTGTTTTATGTGACATTTGAAACCTTTGTATCCAGTAGATGAACCCTTAATAGGTCATATTATTTATTCATTTAAGTGCTTT
R
CCCTGCCTCCCCTGGTTAATTCACTGGTTATTCATTTAAAGGAGATAATTGCATGGCAAAACGTGTACTATTGCTAATAAAGCTATACCCATAATCACTT
Celera SNP ID:            hCV25749453
SNP Position Genomic:     8583
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:56157):
TGGTTATGCTAAATGCCCAAGCCAGTGGTTACATGACTGGCTGCCTTTTTAATGTCAAAGCTCTTGAGTCCAGTGGAAACAATGACACTGTCCCAGGTTG
R
GACCGAGTTGGTCCCTGGAAAGTTACAGTGATGCTATAGTTTCTCTGGGAGCACAGGCAATGGGGCAAAGGAGAAATGGTTTCTAGAGAGTTCATTCCTT
Celera SNP ID:            hCV2712062
SNP Position Genomic:     35117
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56158):
CTGGCCTAGTGCATGCTCAAGCTGGGTTCTCTCAGAACCTAGCACAAGACTGGTTAGCCTGTACATTCCCTGGCAATACTTACTGATTAATCTGTGGATG
Y
ATTCTGGGGGAGGCTAGAATGTTCTAGGACAATCTCAGATAGTTAAGTAGACCTAATAATTCCTTGTTGCCTACACTAAACTTCTTTCCTCTTAACAGAA
Celera SNP ID:            hCV2712063
SNP Position Genomic:     35376
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,3)   caucasian(C,20|T,14)   total(C,23|T,17)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56159):
AGTTTGGGCTTAGTGTTTGGTGTCTCAGCAGGTGCATCCTGTATTTATTTGCCTGCCTGGGAGCTGAGCAGAGAGGAATGTGTGTTGGTATCTCGGGGAT
Y
CATATTGCTGTCCTTTCCCTTCTTTGGCACTTTGCAGTTTTTCCCTGCATGTCAGTCAGTGGAGTAAATTCCTTTTCTTATCTTGAAAGACATAGAATGA
Celera SNP ID:            hCV2712064
SNP Position Genomic:     35740
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;JBIC-allele(T,505|C,760)   total(C,760|T,505)
SNP Type:                 INTRON


Context             (SEQ ID NO:56160):
AACATTGCTCAATTCACCCATCCAGGGATTCCTTTTTCTGACTGCTCTGTACCTGTGTTTACAGGATACTTATGTAATTTATAGCTTAGCTGAGCTTTTC
R
GGTAATTTCTTTGGGAATGCAAATAAAGTACTACATTTTAAAAATGTAGTACTTGTACATATAATAGACCTGGCAATCAGTCAACAAATATTTATTGAAC
Celera SNP ID:            hCV2712065
SNP Position Genomic:     11604
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56161):
AGTTAGGCTTGTAGTTCAGCTATAGGCTTGTGCTGTAGCTTGTTTTGATCACATATAGCAATTATTTATTTATATATTTCAAAACATTGCTCAATTCACC
Y
ATCCAGGGATTCCTTTTTCTGACTGCTCTGTACCTGTGTTTACAGGATACTTATGTAATTTATAGCTTAGCTGAGCTTTTCAGGTAATTTCTTTGGGAAT
Celera SNP ID:            hCV2712066
SNP Position Genomic:     11522
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56162):
AACACATACAGAAATCCTATGAAAATTTTCCTTCAATTCCCATCTCTGTGTTCCCATCTCACATGCACACACACACACACACACACACACACACTCACTC
A
CTCTCTCTCTCTCTCTCTCTCTCTCATGCCCCCATAGGTGTCCAGTCAGTAATGTGGGCTTCATCCTCCTAGTTCTCTATTTACAAAATCATAATAGTTT
Celera SNP ID:            hCV26787370
SNP Position Genomic:     24184
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56163):
TGTTACTGTCATAGAGTATATTAAGCCAGCCCTAAAAGTTGTTTATGAGAGTCTTTTCCTTTCTGTAAGTGCATAACATGTATTTAAAAATAAATATTCG
Y
CCTTCTGAAAATCGTTAACAAAAATAATGATGGGATCTTTGGGTTGGAAGGGTCTTTGGCTTTAGGTATGGACCTGTCTAATCAATATTAGCAGATACAT
Celera SNP ID:            hCV3073199
SNP Position Genomic:     41044
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56164):
TTAGCTTTGACCTTTTCCCCCACACAAGTATTTTTCTATTTTAGAAAAGCAGTACAAACTCTCTTGAATTCTCCTTTAGTAGGAGACAGAACTGTGGTGG
A
ATGTCTTGTCCTAACATTGTGCTACATCATCTTACGGTTGCACTCTTAGCACCAGCTTAGCGGGTGGCACATACCCCTAGACTGGGTTTAAAGCACATCT
Celera SNP ID:            hCV11871640
SNP Position Genomic:     41298
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56165):
CAAAATATTAGTACAAAGGATATGATTCACAGAAAAATGTGTTTGCACTGCTTCCAGCAGTGCATGTTCTATCCCTCATGGTGATGTTTAGTGCCTCCCG
W
TTTTGTATTAGCTGGCTGCCTGGCAAATCACTTGCTCCTGTCCACCACACCTTCCTCTGGCTCTTCTCTTTAGCCTAGATACCATTCTACCAGGAACATT
Celera SNP ID:            hCV7568255
SNP Position Genomic:     42794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56166):
ACATACAGAAATCCTATGAAAATTTTCCTTCAATTCCCATCTCTGTGTTCCCATCTCACATGCACACACACACACACACACACACACACACTCACTCACT
M
TCTCTCTCTCTCTCTCTCTCTCATGCCCCCATAGGTGTCCAGTCAGTAATGTGGGCTTCATCCTCCTAGTTCTCTATTTACAAAATCATAATAGTTTTTA
Celera SNP ID:            hCV26787371
SNP Position Genomic:     24187
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,4|A,4)   total(A,4|C,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56167):
GGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAATTAGCCAGGC
R
TGGTGGCGAGCACCTGTAATCCCAGCTACCTGGGAGGCTAAAGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCAT
Celera SNP ID:            hCV8641896
SNP Position Genomic:     21894
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,16)   total(G,16|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56168):
CTTCCCCAGAGTGACTAATCCAAGGAGAGCAAAGAAGAAGGCATAGGACCTTTTGTGACCTAATTTCTAAAGTTGCCAGTTGTCACTTCCACTTTATTCT
S
TTCTGTAGAAGCAAGTTACTTATGTCAGGCTACACTCTAGGGAAGGGGAAGTAGGTTTCACCTCTTGAAGGGAAGAAGACTATCAAAGAATTTGTAGACA
Celera SNP ID:            hCV26787372
SNP Position Genomic:     25346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56169):
ATGAAAATGATAGTAACCAAAAATCTTTTATCATTTCTTTAAGCCTGAACTTGGCTTTCATATTTATCCTGCTGTCTATATATTAAGGGGAACCTTTTGC
K
TATGTCAGGAAACAGATCAGGTCAGATCAGCTCCCCAACTTAAGAGGTCATTGAGTTCACCTCCTCATTTTACATGTAAGGAAACTGACCTACTAAGTCA
Celera SNP ID:            hCV16099555
SNP Position Genomic:     37291
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,10)      total(G,10|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56170):
TCACTTGAACCCAGGAGGCAGAGGCTGCGGTGAGCCAAGATCACTGCACTGTACTCCAGCCTGGGCAACAGAGCAAGACTGTCTCAAAAAAAAAAAAAAA
R
AGAGAGAGAGAGAAAGGAAAAAATTCTTAGCACAGTACTTATTACAATCTGATTTCTTTTCTTTGTTTTTCTGTCACCTTTTACTAGGATGTATGCTCCA
Celera SNP ID:            hCV26787373
SNP Position Genomic:     27310
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56171):
GTAATCTTGGTGCTGCTGGCCTAGTGCATGCTCAAGCTGGGTTCTCTCAGAACCTAGCACAAGACTGGTTAGCCTGTACATTCCCTGGCAATACTTACTG
R
TTAATCTGTGGATGCATTCTGGGGGAGGCTAGAATGTTCTAGGACAATCTCAGATAGTTAAGTAGACCTAATAATTCCTTGTTGCCTACACTAAACTTCT
Celera SNP ID:            hCV26787375
SNP Position Genomic:     35361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56172):
TAGCTGTGTGATGTGAATGGCCAGGCAGTGTTTGTCCTGATTTGGAGAGGGAGATGCGGAGAGGTCGAGTCGCTTACCAAGGCCTCACCACTAGTTGTTG
K
CAGAGATGACAAGGCTACTGTCATGTTACCAGTGCGCCATCTGGTAGGGAAGTGCTGGCACGTATTTCCGAGGGCCTTTTGGGTCTTTTCTTTTTTAAGT
Celera SNP ID:            hCV26787377
SNP Position Genomic:     37073
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,9)   total(G,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56173):
GAGGCTGAGGCAGGAGAATAGCTTGAACCTAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATACCACTGCACTCCAGCCTGGGTGACAGAGTAAGACTCC
M
CCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAGGCGTGGTGGTTCACGCCTATAATCCCAGCACTCTGGGAGGCCCAGGTGGGCGAATCACCTGAGG
Celera SNP ID:            hCV26787378
SNP Position Genomic:     45535
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56174):
TACTTTGGCAGTGTCTCACTGTGTTGCCCAGGCTGGTCTCAAATTCCTGGCCTCAAGCAATCCTCCTGCCTCAGCCTCCCAGAGTGTTGGGATTATAGGC
R
TAAGCCACTGCACCCAGCCTTTTTTTTTTTTTAATATATTTTTAAGGGATCAAAAATTAGTCTTCCTGATTTAGTGAAATCCTAAACTTTACCATTTGGA
Celera SNP ID:            hCV26787379
SNP Position Genomic:     46308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56175):
TGAAATTCTGCCTAAAGTGGTCTAGTCACAAGGTGAAGCAAGATATTTCGGAAAGTTATTTAGTTAGTGTGAAATAGCTCCTAGAAAACAAGATCCTGCT
Y
ATTTAGGAAATGGGTGTCGCATAGGCACCTGAGCAAGGGTACATTTCCTTTACTGCTGACACATGCATTCCTTCCCCCATCAACCAAATGTTCACAGTGA
Celera SNP ID:            hCV27875573
SNP Position Genomic:     40229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56176):
GGGCTGGAGGTTCCTCACTCACATGGCTTTTGGTAGGAGGCCTCAGTTCCTCCCAACATGGACTTGTCATTCTGGGGCTACTCGAGTGTCCTCACAGCAT
R
GCAGCTCCCTTCCCCAGAGTGACTAATCCAAGGAGAGCAAAGAAGAAGGCATAGGACCTTTTGTGACCTAATTTCTAAAGTTGCCAGTTGTCACTTCCAC
Celera SNP ID:            hCV16229458
SNP Position Genomic:     25237
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56177):
CAGGAACAAAAGTTTGGTAAATTACTGAGGTATTACATTTTACCAAAATGAAATTTTGAAGTGATCCTTCATCATTAGCTTTCTTCCTGTCCAATTGTTG
R
GGGAGTGTGTGATAATTACAGCATCTTTTGAGTAATTTAAGATTTTGGGATCTTGTGCTGCCAGGACAGGGTAAAGAATAACACTTGCCTTCACTCTTTG
Celera SNP ID:            hCV16229491
SNP Position Genomic:     28190
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56178):
GCGAGGGACAAAGCAAAGACAGACGATTGATGGTCAAAACCAGGAAAAGGAGTTTACTTCAGTACTTGACATAGTAATGGTTGTTCGGTGCTGCTGGCCT
R
CTTGTCTAATTTACGTCTTTAGTGGATTCCATAACTTTATTTATTTCCACTCTAGGATATCCTGTACCTTCACAACTCTTTAGAGGAGGTAAACAGTGCC
Celera SNP ID:            hCV25769311
SNP Position Genomic:     36566
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,29)   caucasian(A,16|G,24)   total(A,25|G,53)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,526|G,963)   total(G,963|A,526) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56179):
AGTAGCTCACTCTTAATGTGTATGGTGCCTTATGACACTTTCCATTCAGTTCTATTTAATCTTTCAAAATTATTCATGAAATAATTCATGAGTTACAGCC
K
TCTAGTATTTACCCTCTGTCCTTTACCTTTGGACTCTAAGTAATTAGAGAAAAGCAGGTATTCACCCCTTTTTTGCAAAAAGGATGGGAGAAATTGGCCT
Celera SNP ID:            hCV29234427
SNP Position Genomic:     18397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56180):
ATGGGTTCTATTTAATTCAACTTTTTAGACTCTGAATTCCAAAGTGTGACTTTTCTAATGCCTGAATCTGATCTGACATTCTAGAATGCATCTGTTAGAG
K
CCAGAGCAATTCCAGAGAAAGTAATGGGAGGGTGCCTCATCTCCATTTTAGTTACATATATAAGCTTTGCTATAGCTTTCCACAGATGTTGGCATTATTT
Celera SNP ID:            hCV29234428
SNP Position Genomic:     23155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56181):
AGTATGGCAGATGTTTGTTGGATGAGTTTTTCTTTATAACCTAACTGAAAATGTATAGGAAATTCAGTGAAATGAATTTAGACTGGCTGGTAAAATGTTT
Y
TACTGTATGAGATAGATAGATTCCTGTAAACCATGTGTAAATCAAGTGCTACATTAAAAGCACCTGCTGGGAACTACTGGGCAAAAGGAAATCAGTATGT
Celera SNP ID:            hCV8641930
SNP Position Genomic:     13938
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56182):
CACCCAGTCCCAGCAAATCGTATCATCTCTACTTCTGCTACTACCTCTACTACCACTCAAGTCTAAACCACCATTATCTCTTGCCGAGACTACACAGATC
K
CCTTCTTACTGGTCTCTCCATTTCTACTGACAGCCATAGTAGTCTTCCTCCAAGGTGTCTCCATTCATGTAATTATCCTGCTTACACACCCCTGCCTATC
Celera SNP ID:            hCV29234429
SNP Position Genomic:     26232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56183):
GAATTCTGGCTTTGCAAAACTAGCTGTAAAACTTAGACAAGTCACTTATTCTTTCTGGGCCTTCACTTTCTCATCTATAAAACATAAAGATGTATTTGTG
Y
TACCAAAGCACTTTGGGCATTCCTCTGTCATAACATCGGTCACACTGTATAGTAATTCTGTGACCGTGCCTGGCTCCCCACTAGACTAAGAGCTTCAGGG
Celera SNP ID:            hCV8641931
SNP Position Genomic:     13148
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56184):
TTCTGGGACCAAAGAGTGAATCATGTAGGTAGTCCTCTTCCCTCTTTCCCCCTCCTGTCTAGCTGAGGCCAAACAATTCCAAAAGGAGCAATTTAGAGTG
Y
GAGGGACAAAGCAAAGACAGACGATTGATGGTCAAAACCAGGAAAAGGAGTTTACTTCAGTACTTGACATAGTAATGGTTGTTCGGTGCTGCTGGCCTGC
Celera SNP ID:            hCV25768840
SNP Position Genomic:     36467
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:56185):
ATTTTTCTCATTTTTAGTACTATTTCAGGGTTTATGAGCATAAAAAGTTATCCATTGGGGAGCTCCATTTTCCCTGCTGAGTGAGCTAGATTGCCTTCCC
M
ACCCACCCACTTAAGTCTGTCTTAAAGCCGTAGCTGGCTCCCACCACCAGTACCATCTCCATTTGAATGGCAGGGCTAAATTCCCCCAGCCATTATCTCA
Celera SNP ID:            hCV809537
SNP Position Genomic:     47566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56186):
AATATAACTTATAATCTCACCTTGGGCATTAATGGAGTAGATTTATAAATCTTAATTGACTAATCTAAAAGCTCCTTAATTGAGCTGGTCAGTACTTAGC
R
TTTATCATCTATGACCAGCTGTCTTAAGTGCTTTGCAGCCATTCTCTCACTTAATATTAACAGTCCTGTGAAAGTATATTTTATCGCTGTATTACAGATG
Celera SNP ID:            hCV9181990
SNP Position Genomic:     16683
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56187):
ACCCTTAAACATTTAAGGGCTGTTTTTTTTTTCTTTACATGATGTTCAGCTTGGTATTAACCAAACTTAAATTTTTTTTCCAGAAGTATTAAAATTTAGT
Y
AAAGCAAGATGAAGTCTTTTCCCATGAATGTGTCCCCTTATCTCATTATAGCTTATGCTCAGTTTCACTTTCTTGGAAAGGTTAAAACAAATTAGCCTGG
Celera SNP ID:            hCV809538
SNP Position Genomic:     48358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56188):
TAGCATATTCTTTTATCTTCTATTTCATTTTGAGTTTTGGGGTGATTTAAGACTTAAGAAAATACTGTTTACTACTTATGAAAAAGATTAAAAATCTTAG
Y
CCTCGTAACAGCATTCGAAAGGTGGTAAAACCTCCCCCTTGCAGTTGACTAAGGTAGAAAAAGATTTAAGCATTTAGAAATATAACTTATAATCTCACCT
Celera SNP ID:            hCV9181991
SNP Position Genomic:     16504
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56189):
GTTGTTTTCTCATATTAAGAAATTTAAATCTACTTTGTTTTAGTGAAGCTATTTTGGTAATGTATAAGCAATTTTGGTTCTGTTTAGGGAGAATTCAGGG
Y
TTCCATGACTTGATTTGAGCTTTGCATATTTCAAATAAGTAACACAGCCATTTTAATTTAGCTAAATAAAAAAATTTCTTTTTTCTCTCAATGTGTCTGA
Celera SNP ID:            hCV7568229
SNP Position Genomic:     49911
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:56190):
ATAAAACACATACAGAAATCCTATGAAAATTTTCCTTCAATTCCCATCTCTGTGTTCCCATCTCACATGCACACACACACACACACACACACACACACTC
W
CTCACTCTCTCTCTCTCTCTCTCTCTCTCATGCCCCCATAGGTGTCCAGTCAGTAATGTGGGCTTCATCCTCCTAGTTCTCTATTTACAAAATCATAATA
Celera SNP ID:            hCV7568263
SNP Position Genomic:     24180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56191):
CCTGCGCGTGTGAGTGGCCGAGAGTTGCCCGTGCCGGAGACCTCAAACTCCGGGCGGGAGCGCTTTCGGTCGGCCGAGCCGCCGTCGCCCGCGGCACCGT
R
TCCCCAAGGCCCAGACAGCGGGGCGGGGGTCTATCAGGCGCGGGACTGGCTTCTCTCAGGCCGACCCTTCTAGCCGGGCTCCGGATCTTCCTCGGCCTCG
Celera SNP ID:            hCV11871616
SNP Position Genomic:     6294
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:56192):
CTTGAACCAACTGTGTACATACTTTGGGGCACTAAGGAAAACATACCTGGGGCAGGAACCCTTCCTAGCATTTTATGATTGGGCATGTTACAGTGGTCTC
R
GAAAGCCCCGTGAGGGCATGGAAGAAAGGGTCAGCCAAGAAAACCCATCAAACCCTTTGCAAAGTTATGTGGCGTCTTTTTCCTGTGTGTGTATTTCTTT
Celera SNP ID:            hCV7568264
SNP Position Genomic:     23911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56193):
GGAAGAAGAGTTTTTACCCAAAGAACAGCTTCTTCCTTTAGGATCTGGCCAGTTGTCAGTGGAGGAAGGTGTTTGTCCCCTCAGGTGGCTGAAAGGTAAC
Y
ACATAATTGATAAGAGTATTAGGAATAACTATAGTCTTGCCCTTCAAACTGATCTTGAACCAACTGTGTACATACTTTGGGGCACTAAGGAAAACATACC
Celera SNP ID:            hCV7568265
SNP Position Genomic:     23757
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56194):
AAAAGTGCTAGGTGTTCAAGTTTTAATGTTTGCCTTTAATCTTCCCTTTGTTTGTTTGTTTTTGTTTTGCCCTTTAAGATGGGTGATAGATCTGCCACTC
Y
GAAAAGACAGTCTTTGGATCAAGTCACCAACAGAACAGATACAGTAAAAATCCAAAGCATAAAGGTAAATAATGGGAGGCTTACCCTGAAGTAAAAGTAA
Celera SNP ID:            hCV25989080
SNP Position Genomic:     38318
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,7)   caucasian(T,38)   total(C,1|T,45)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56195):
CAGAACTGTGGTGGAATGTCTTGTCCTAACATTGTGCTACATCATCTTACGGTTGCACTCTTAGCACCAGCTTAGCGGGTGGCACATACCCCTAGACTGG
S
TTTAAAGCACATCTCCCAGGATGTCAAGATCTTTGATATCCAGCCACTGTTCTTGCCACTTGACAGCTTAAGCTCTTACCATCTAAACATGTTTAATGCT
Celera SNP ID:            hCV27520823
SNP Position Genomic:     41384
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,43|G,1454)   total(G,1454|C,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56196):
CCTATGGGTAAGGACTATGTCTTGTTTACTCCCAGCCCCTAGCACAGTACCTGGTACTCCTGAATATTTGTTAAATAAATGAATGAGTTACCTACACATT
R
CAATTAAATGCTTAAAGCATAGAAGACTTAAATTTTTCTATCACCATTTAAATGTGATTACTTTTCTTCCCTGTTCCTGACTTTTTTTTTTTCTGTTTTC
Celera SNP ID:            hCV3073201
SNP Position Genomic:     43110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,9)      total(G,9|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56197):
GTTTTCTGGGGAGGAGGGGAAGTGTTGTGTTTAATGGGAACACAAGCTTCCTGCCACTTTCCATTGTTAAATCAATATTTGATGAGAATGAATGGGGGAA
R
GCTATTAGGTCAGAGTAAGGAATAGCAGTCTTAACACTTGTGCTTCAGTCCTCAGCATAGGCCTTAAATACTTTTGGATGACTATACTTTTGGAATGACC
Celera SNP ID:            hCV3073202
SNP Position Genomic:     43305
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56198):
TGTATCCAGTAGATGAACCCTTAATAGGTCATATTATTTATTCATTTAAGTGCTTTACCCTGCCTCCCCTGGTTAATTCACTGGTTATTCATTTAAAGGA
R
ATAATTGCATGGCAAAACGTGTACTATTGCTAATAAAGCTATACCCATAATCACTTTTGTACTCATGGTTGAATTTGTCCTCTTGAGCAGGGGAGACTAT
Celera SNP ID:            hCV25749361
SNP Position Genomic:     8627
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,15|G,23)   total(A,25|G,49)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,455|G,804)   total(G,804|A,455)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56199):
CACAGTGGCTTATGCCTATAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACC
Y
TGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGAGCACCTGTAATCCCAGCTACCTGGGAGGCTAAAGCAGGAGAATCACTTGAACCCGGG
Celera SNP ID:            hCV8641903
SNP Position Genomic:     21860
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,13)   total(C,4|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56200):
ATCAGTTTAAAAAAATTGAGCAGGCCGGGCACAGTGGCTTATGCCTATAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGTTC
R
AGACCAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGAGCACCTGTAATCCCAGCTACCTGGGAGG
Celera SNP ID:            hCV8641904
SNP Position Genomic:     21831
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,12)   total(G,12|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56201):
GTAATCATTTTATTCTTAGCCTGCCATTATTTTTAATGCAAGAAGCACCTGAGAAGGCAGATACAGTAAATCTCAATGTCATTGATAGGTTTTTGGAAAC
K
GTAAACTTAAGTAAATGGCATATAATGAAACCAGTTTTATCATAGGCTAATTAATATAAAGAAGACTTAAGGTCAGGTGTGGTGGCTCACACCTGTAATC
Celera SNP ID:            hCV8641905
SNP Position Genomic:     18923
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56202):
TAACCTTAATAGCATGAGCACACCAGGAAACTGACCACAAGGCTTTCTCAAGGTCATAAAGAAATCTGGCTCCAGAACTGGAATTAAAGTTCTTACTTTC
S
ATCTTAAGCCTAGATTACAGTATCCTCACTTTCCCATCTGAAGCCTAGAAGATTGCAATATCCCAACTTCTCTTGGCTGCCTACAGTTACTCAAGTTTTG
Celera SNP ID:            hCV8641940
SNP Position Genomic:     10914
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56203):
GTTCCCTTCACCTTGTACCTTCCCCTTTTTTGTTCTTCCTAGACATACTGTCAAGACAGCAATCTATGATATGCTTTGATATTCCAGGAAAGAAAGTGTG
R
TTACAGTATTCTCTGATTAGAGTGTTAAACTCTGGGCTAAGATAAAAGAAAAGCCAGGAAGATTATGACCAAGTGACTAAATTACCATCTCAAATGCATA
Celera SNP ID:            hCV27498209
SNP Position Genomic:     39012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56204):
TGCAGTGCCTTTAGGTTCTTCCTTTTACCTGCAGGAACTCCTTCTGTTTTATGTGACATTTGAAACCTTTGTATCCAGTAGATGAACCCTTAATAGGTCA
Y
ATTATTTATTCATTTAAGTGCTTTACCCTGCCTCCCCTGGTTAATTCACTGGTTATTCATTTAAAGGAGATAATTGCATGGCAAAACGTGTACTATTGCT
Celera SNP ID:            hCV25749479
SNP Position Genomic:     8558
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(C,1|T,39)   total(C,3|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:56205):
ACTGACCTTCCTAAGTGTTTGTGATGAGGCCCTTGAGAAAATGCCAGAAGAAACTATTGATAGACATTCTCTAATCATTTTGGCTCAATATTGCCATTGA
R
ATAAAAAAGATACAGATCAACTGGTAATATTGCTCTTTTTCTTTTTACTGATTTTTAAAAAGTAGAGAGCATGCACTTTGGAGAGATAATTCCTCTGGTT
Celera SNP ID:            hCV1690837
SNP Position Genomic:     44307
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56206):
TAATATTGCTCTTTTTCTTTTTACTGATTTTTAAAAAGTAGAGAGCATGCACTTTGGAGAGATAATTCCTCTGGTTCTTTTTTATTGAAATACAATTCAC
R
TACCATAACATTCACCTTTTTAAAATGCAGTGTTTTTAATCCAGTGTTTTTTAGTGTATTCACAAGGTCATGCAACCATCACCACTATCTAATTCCAGAA
Celera SNP ID:            hCV1690838
SNP Position Genomic:     44432
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56207):
CATTTGGGTATTCCTGAGACTTTATAGAGCGTGTATTGTTTGTTATACGAACCTAACCTACCTTGTTGTTTTCTCATATTAAGAAATTTAAATCTACTTT
K
TTTTAGTGAAGCTATTTTGGTAATGTATAAGCAATTTTGGTTCTGTTTAGGGAGAATTCAGGGTTTCCATGACTTGATTTGAGCTTTGCATATTTCAAAT
Celera SNP ID:            hCV7568236
SNP Position Genomic:     49847
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:56208):
GTCTTGGAGCTTACATTTTAGGAAGTTATTTTATATGGGTCTTTTATGCCAGTTTTTAGTTTTAAGGAAGCATATAATAACTAAGGCGGTCTGTGGCTTT
A
AAAAAAAAAAAAGGATGTAGGTTTTATTCTGGAGGACCAGCCATTATTAATATTTTATTTTCTATGAAAAGGGAAAATGCTCTTTAAAGAAAGAAGAGAA
Celera SNP ID:            hCV11871621
SNP Position Genomic:     16202
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56209):
TAAAGAACTGTCACTTATTTGATATTTCATCTGTACCAGGTACTATGCTAAGAGCTTTGATTATATGTCTCATTTAATTCTCATAGCCTGTATTGATCAT
Y
TGTTCCTTGGTTACAAATTACCCCAAAACTTAGTGGCCTAAAACAACAGTCATTTAGTATCTTACGGTTTCTATATGTCAGGAATTTGGGAGCAGCTTAG
Celera SNP ID:            hCV27955274
SNP Position Genomic:     24959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56210):
GTTCCAGATTTATAAACTAATATTTTTTCTTTAGGGAAGATTTGGTTTTCCTCTAGGAAAAATCATTTAAATTAAGAAAATTACTTGTTTGATTGATAGA
R
AAAGAGTCCTGTTAATTATCTCAGTATACACTACATGTAATCATAGTTTGAAGATATTTGAAATAATCAGAAACACCGATTTTCATTAGGGCAGTGTTTC
Celera SNP ID:            hCV8641876
SNP Position Genomic:     32352
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56211):
TAGTGACAGGTTTTGTTTGCTGCACACCTCATTGGCTTGCTTACCAACACCAGCTAGAAGTGGTCCCTCTTTCATATCCAAACCAGAACACATTTGGGTA
W
TCCTGAGACTTTATAGAGCGTGTATTGTTTGTTATACGAACCTAACCTACCTTGTTGTTTTCTCATATTAAGAAATTTAAATCTACTTTGTTTTAGTGAA
Celera SNP ID:            hCV7568237
SNP Position Genomic:     49757
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:56212):
TGTTCTCATCCTAGAATTTAGAATGGGAAAGCGGTTTAGAACTAAGAGTCTTTCAAGTGTTTCGAGCCAAACTGCAAAGCTTTTAGAATATTGTCTCTGC
R
GCCTGAAACTGACTATTACACAGGTTCCCCCAGTTCCCATTCAAGAGCGAAGTCTAGATGTTTAGAATTCTATGCCTAAATAGCAGAACGGAAGCCTCAT
Celera SNP ID:            hCV8641877
SNP Position Genomic:     27740
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56213):
AGGCAGTGCTTATGCACCAGCAGGACAAGTAGCATCTGAAATAATGGCATTGCAGTCAATGCTTAGCGTGCAAAAGGCAAGAGACTCCTACCCTAGGGGT
R
GGAGTCTAGAACTTGGTGTAACCTCTACTTATGGCTTGCATCTCCCCAAGCATAAAGTGGCAATGACAACACTGGGCTATTCCTTCCACCTCACAGGGCC
Celera SNP ID:            hCV27478397
SNP Position Genomic:     9484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56214):
CGATCCTGCTGGCATTGGCTTTCAGCTGCTTCTTAACTTTGGGTGAAACGGCAGCTGCCAACCAGTCACACTGGCTTTTTGTGAGACCACTACCATTCCC
R
AGATACTTCTGATTAGCCATGCACTCTGCCATAGCCTCAGGAGGTTGGAACTTTCAGTACCTGGAAGAAGAGTTTTTACCCAAAGAACAGCTTCTTCCTT
Celera SNP ID:            hCV7568271
SNP Position Genomic:     23594
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;JBIC-allele(A,539|G,962)   total(G,962|A,539)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56215):
ATTGCAGTCAATGCTTAGCGTGCAAAAGGCAAGAGACTCCTACCCTAGGGGTAGGAGTCTAGAACTTGGTGTAACCTCTACTTATGGCTTGCATCTCCCC
R
AGCATAAAGTGGCAATGACAACACTGGGCTATTCCTTCCACCTCACAGGGCCATTTGAGAAAGAATGTGGGAGCATCTGTCAAACGATTGCCTCTTTAGA
Celera SNP ID:            hCV27478398
SNP Position Genomic:     9532
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,274|G,841)   total(G,841|A,274) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56216):
TTTATAAACTAATATTTTTTCTTTAGGGAAGATTTGGTTTTCCTCTAGGAAAAATCATTTAAATTAAGAAAATTACTTGTTTGATTGATAGAGAAAGAGT
M
CTGTTAATTATCTCAGTATACACTACATGTAATCATAGTTTGAAGATATTTGAAATAATCAGAAACACCGATTTTCATTAGGGCAGTGTTTCATTAGGGC
Celera SNP ID:            hCV27998536
SNP Position Genomic:     32360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56217):
AGTGTTTGCAGCACAGAGAAAAGTGCAGCAGCACCTCACTCGATCCTGCTGGCATTGGCTTTCAGCTGCTTCTTAACTTTGGGTGAAACGGCAGCTGCCA
R
CCAGTCACACTGGCTTTTTGTGAGACCACTACCATTCCCGAGATACTTCTGATTAGCCATGCACTCTGCCATAGCCTCAGGAGGTTGGAACTTTCAGTAC
Celera SNP ID:            hCV7568272
SNP Position Genomic:     23554
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;JBIC-allele(A,352|G,1127)   total(G,1127|A,352)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56218):
AGTAAGCCCACAAATAAAGTCAAACTCTGGTTCATGGAAAGCAGCATTTGAACTGGCTCTGCCACAGTGGAGCCTTGGCAAGTTGCCTGGACTTGGCTTT
R
AAGGGTGGAGTTGGAAGACCTGTTCCCCCTCCTGCTTTACAGAGTTGTATAATTTACTACAAAGCTGTGAAGATTAAAGGAGCTTTATTTTACGAAGCCC
Celera SNP ID:            hCV27478399
SNP Position Genomic:     37716
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(A,599|G,898)   total(G,898|A,599)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56219):
TAACTGCCATTCATTAAATGCTTTCTTTGTGCCAGCCATTATTAGGTGCACTGCACATGTGATCTCCTTTCTTGGCTTCTACAGTCCTATGAAGTAGGAG
R
TGTTCTCTCCATTTTACAGTTAAGAACACTGAGGTTCAAAGAAGTTAAGTAGCTTGTCCACAGTCACTCAGCTGTGTAGCAATACTAAAAGTAAAATATT
Celera SNP ID:            hCV7568273
SNP Position Genomic:     22595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56220):
AAAGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACTCCAGCCTGGGCGACAAGAGCAAGACTCTGTCTC
A
AAAAAAAAAAAAGTACGAGCAGAGGACTCACAGGAACCTAACCTGTGTTTCCCCAAGGAACAGTTGTTCAATATTCACTAATTGAATGTTTTGTTGCAAG
Celera SNP ID:            hCV11871626
SNP Position Genomic:     22034
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,9)   total(A,3|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56221):
TCAAATCATTTTCTTTACAAAATAATCCGGTGAGATGGGTATTATTTTTATTATTTTGTGCTCTTAGAAGGATTAAGTAATTTGTTCAGTGATTAAGTAT
R
ACAGAGCTGAGCGTCCTCTTGCCCCTTGCTGCCCAAATTCACATTTATAACACTACTGTCTGCACCACTGTTCCTGGTGGCCTTGTAAGCCTATGCACAT
Celera SNP ID:            hCV27480818
SNP Position Genomic:     9810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56222):
CTATGCATCTGTTCAAAAGATCTAATAAGCAGTATACATTGATTGTTCTACAATTTGTTAATAAAGCAATTATGGTAGATAAAATTAAAAGCCAAATCTT
K
TGCAAACATAGTACTGGAGGAGGTAAGGTAATAAGACACAGTTCCTGAGGATGGAATGGGTAGGACAGAAAATGGAAAAGAAGGAAAGGAAGTGGAAAAG
Celera SNP ID:            hCV11871628
SNP Position Genomic:     33532
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,12)      total(G,1|T,12) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56223):
AGTGAGGATTGGATTCACAAACAGTAGGTGTCTTTGAATGCCTGTAGCTTTTGCAACAGGCATTCAGAGCTTACATAGATAGCAACAGAGCTTACATAGA
Y
AGCAAACCAGCTTAGATACTTTTACCCAGTGTGTTGTCTCTTTGCAAATCTGTGTGTTTATCATGCCAGGCACTGTGTTTCTTTCAAGTGGCTCAGTTTT
Celera SNP ID:            hCV27480819
SNP Position Genomic:     31635
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,61|T,1430)   total(C,61|T,1430) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56224):
TTTCAACTTCGTCTCTGGCCTTTCTCCCTCTCTCCTCCCATCTCCCACTCCTCTGCAATTTCTGTTGAGAGTGTTCTGAGATCCTTTAAATAAGTTTGAC
K
AATTTGTTTAAAAGTGCTAGGTGTTCAAGTTTTAATGTTTGCCTTTAATCTTCCCTTTGTTTGTTTGTTTTTGTTTTGCCCTTTAAGATGGGTGATAGAT
Celera SNP ID:            hCV25986473
SNP Position Genomic:     38208
SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,3)   caucasian(G,38)   total(G,43|T,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56225):
CTAATTTACGTCTTTAGTGGATTCCATAACTTTATTTATTTCCACTCTAGGATATCCTGTACCTTCACAACTCTTTAGAGGAGGTAAACAGTGCCCTAGT
S
GGGTACCAGAGACAGAATGATCTTAAACTCGAGGGAATGAACGAGACAGTCAGTAATCTTACCCAGAGAGTCAACCTGATAGAAAGCGATGTGGTTGCTA
Celera SNP ID:            hCV15975511
SNP Position Genomic:     36672
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56226):
GGATGAAGAAAATGTAGTATATATACACAGTAGAATACTATTCAGCCATAAAAAGAGTGAAATCCTGTCATTCTCAGCAATATGGATGGAACTGAAGGAC
R
TTGTTAAGTGAAATGAGCTGGGAACGGAAAGTTAAACACTGCATGTTCTCACTCATATGTGGAAGATAAGAAAAGTTTATCTCACTGGGTATGGTAACTC
Celera SNP ID:            hCV1130994
SNP Position Genomic:     14226
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56227):
AAGACAGACGATTGATGGTCAAAACCAGGAAAAGGAGTTTACTTCAGTACTTGACATAGTAATGGTTGTTCGGTGCTGCTGGCCTGCTTGTCTAATTTAC
R
TCTTTAGTGGATTCCATAACTTTATTTATTTCCACTCTAGGATATCCTGTACCTTCACAACTCTTTAGAGGAGGTAAACAGTGCCCTAGTGGGGTACCAG
Celera SNP ID:            hCV25769330
SNP Position Genomic:     36581
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Gene Number:                 311
Celera Gene:                 hCG1780499 - 84000314998070
Gene Symbol:                 ATPAF1
Protein Name:                ATP synthase mitochondrial F1 complex assembly factor 1;ATP11;ATP11p;FLJ22351
Celera Genomic Axis:         GA_x5YUV32W802(36456887..36504629)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12471):
AGTCTGCCTTAAGGACTGCAATATTTGGCCTGAAGAAGCAAAGGCTGCAGGGTTCAGGCTTTTTGCATCCAGAGGATGGGAGGGGTGAGGTGAGGCAGGA
GTGAGCCCTGCCCCTGTGTCTACCCGAGATGCTCCACTTAGGCCTGTTTTATTTTTTGAGAGTCAATATAAAAGCGTGTTTGCCATAAATGTCCCACCAC
CTTAAAAAAAAAAAAAAGCTTAAAATCCGTTGCTAAAGAGGGGTCATACACAAGCTAAAACTTTTTCACACACAGAAAAAAATAACTCTACATGTTTGCT
AGATTCTGGATACCTCCCCCCCTCCCCGCAACACAGAATCTGGTGACCTTCCCCCTCAGTCATTATGTAAATGACTATACATAAAGCTTTTGTTATTTAC
AAATATAATGAGAGGATTTGTTCATTTCCAAAAGGAAAGGGAGAAACACATATCCTGTGATAGAGCTGGGCTTTCTTACCTCAAAACTGCAGCCAAATGG
GCAGTATTATCTTTGTCTCACCTTTTAGAACCATTTCCAGAAGTACAAAAATTATTAATATTCCCATGTGGTGGATCTTAACTTTTGGGAGGGGGACATG
GATTCCTGTAGGAAAGGTAAAAACTATGGATATATGTCTACGTATAATTTTAGGCAGTTCACTGACCAGCCCTTCCTCCAAGCCAGTTCATGGACCAACT
TAATGACACCCTACATACAATCCGAAGCATTCACCAAGTGTTTTCTAACACGACATATCATTAGGGAAGGGGCACTATGGCGTATGGTGGGAAGATCAGT
ACCTTTGATGCCAAGCAACTGATGATCAATAACTTTCATACCAGTAACTTTGATGCAAGGCAGATGTAGATTTGAGAACTGGCTCTGCAACTAAGAAAGG
TATGGCATATGCCCTTGGAACCTGTCTCTTCATCCATAAGAGGAGGATCATGATATCCATTTGGCAGTGTTCTTGTGAATTATTAGAAATAATGTAAAGA
GGCAACCACGTAAGAGCTGCATACATCATAGATAATAACAAAGAATGCATTTCAGCCCATAGTGCAGTGTGGCTCACAGGGCTCGTGATGACTCATTTTG
CCTGTGACATAGCGACTGTAAATCAACATAGCTCACGTACCCTCAGCAGCTATCACTCTGGTGGCAGCTGTGCTTCACATCCCACAGAACACCAGTGCCT
TGGGGTACCTAGGCCAGGGCCTGGCACACATTTTTGTTTTAAATACTGAACAGAGGGATATTGAGTCCATCCACAAGTACTGGTTCAGTGTGTCTCCCCA
CAGCCAACCACCAGTGCCAGTTCATATTGGTGAGACTCAGCAACCAACTTGGTTTGCAAAGTGACCCCATCAGACAGGAAGGACATTGCCTTCCTAACAG
CAAATGAGAAACGAGGGAGCCTTGGACTTTTTTTTTTTTCTTTTAATGTTTCATAGCATGACATCCAGGTGGGTCCTGACCTCTGTCAATACCACCTTCC
TGAGGTTAGTTCCATTTCCTACTCTGCACCTGATTCCTGCAGCTCCCACCTTCAGTGAGAGGAGGCTACAGTTCTGAAGGAAAAGGCTTGGCATTGAAGC
TATGGTCTTCCTGGGCCAGATTCAGGAGGGAATGGAAGAGAACATTCCTTTCAGGACAGGTGGCCAAAGGATAGGAGACAGAGTGGTTCAGCAGGGGGGG
TAGGTTGCACAAGGGTGGGGCAAAGGGCACCTCCTGAAAGATGGGAAGTGGGAATGGGGATCTGGCCTGGGGCTGCTGTGGAGCCAGCTGCAGTGCAGGT
TGCAGGGGAGCAGGGGCTTCCGCCTTGGGGTTGCTGTCTTGGTCAGCATGGCTCCTGCCTTCGGGGATGTCCAACTCCCACAGAACATCTGGATTCTGGA
CCTCAGTCTCAGTCTTGGTGACAGCAGGGGCAGGGCCCGTGTTGATGGCTGCATTCATGCCGTAGCGCCGTCGCTTGTTAATCCAGTACAACAATGGGCT
GTAGGTGAATGTGGCAGCTCTCATCACCTCCACCCACTGCTGGGCATGCTCTTCCCGCCTCAAGTTCTTCCTCCAGTGCAGAAAGATAATGCACCCTCCA
GTTATCACAGAACACAGCCCCAGGATTCCAAAGTACAATGAGACCCACACTAAGGCAGCAAGAAAGAAAAAGAGGCATGCTGGCTGATAGCTGTAGCTTG
GGGCCTGAGCTGTTTCTCATTCCTCTTTCACTTAACCCATGCATCAATCACTCCATCCACTTAACTACTCTCACCGTTCCTTCCCTCCCTTATTGACTTG
CCTCATCATTCCCTTATTCAGTCAAAGCTAGATTTCCAGGGAGCTTAAGCACCACCTTTAACTCTTTACAGATCACAAAAGCTAGGTCTAGCGGGGGCAT
GTGCTGCCCAGGCTCAGTCAAGCCTCTGATTCCTAACCCAGGACCCATCCAATCCATCAGACTGAGAAGTTTCACTATGGGCAAGTCCATCAAGAAGCAA
AAGTTCACCAGCACTTTGTGAGGCCCAGGTGGGCAGATCACTTGAGGTCAGGACTTCAAGTCCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAA
AATTTTAAAATTAGCCAGGTGTGGTGGTGCATGCCTGCAGTCCCAGCTACTTCAGAGGCTGAGGCAGGAGAATCACTTGAATCCAGGAGGTGGAGGTTAC
AGTGAGCCTAGATTGAGCCACTGCACTCCAGCCGGGGCAACAGAGCAAAACTTCATCTCAAAAAAAAAAAAAAAAGTGAAAGTTCATCAGTTGACAGAGA
CACCAATGTCCCATCCCATTCCATTCAGCTGTGATAGTCCTGGGCTATTGATAGTATCTTCTCTGGTTGATCAGAGCATGGTCTTTGCCTTAAAATAATT
CTTAGTTTTCTAGAGTAGACTATCTCCTAACTGCTTAGCTCTCCTCCAGGCAGCCAGGCACTGTCCCATCCATGCAAAGGGCCTTCCCTGAGTGTTTGTC
CCCAAGCCCTAAGGCACAAGTCCAGTGACAGGGACTGGAGGAGCACTTACTCCCAGGGAAGCGCAGGTCCTCCTGTTGGGAATCCATACAGCTGAGCTTT
GGTACCTGGCCGATGGCTCTGGGGAGAGGGAACTCACCCACCCATCTGCCCAGCCAGTCAGCCCATCTGCCCAGCCAATCAGAGTCTCCAGAATGCCCAG
GCCCTTTGTTCTCTAAAGGAGAGGTCACTGGGTTCTGAGAATTGGGCATTCTAGGGGCAGTGCTTGTGAAGTGGTCCTGGGTTAATGGAAGGAGGGGACT
TCATCCAGTGGCATTTTTTGGGTGGAATGTCACTACTACTTCCATCAGAGACTGGTTCACCTATTGAATTGTCTGTACCTACCCCTTATGGTGAACCCAC
AGAGCAGACCCCAGAAAAGGGCCATTGTCCCTCAGGTACTTACGGATGTTGCTGGTCTTTAGGGAACGGTTGATGGGATACCTGTCCCCAGTGAGGAATG
TAACAAGGAACACACAGCATTGGGCAGCCCTGTTCTCAAAAAGTATCTAACCAAGTTGGCAGGAAGAAACCTGCTCAAGGGAACCAAGTGGTCAATACCT
CCTTCTTTGGCTCCAACAATCTGTCTTTTATTTAATTACCTTCCTTCAAGTGCTGACAAGTGTTTCCCAGGCCCCAGGCCCTGTGGGGCTTCCCACCATC
TGGCCTGCATCTACTTCCAGCCTTACTTCCCTCCTCGTCCTCCACACACTTTTCCCTTTTGCCTAGTCCGTACTCCTGAACAGACCCTGCTCATTCACAT
CTCTGGAGGTGTGCCCATGCTGCTCCTTCACCCAGGAGTGCCCCTGCCCACTTTTCCACCACTGAACACCTGCTCATCCTTCAAGACTCAGCTCAGCCCC
CCTACTCTGTGACAGACTGCCCAGAATCATATCATCGCCAATTTGAAGAAACTTTGAGAGTTGTCTAGTTCATCTCCACCATCTGATCCCACCATCAGGG
CCATGCTTGACTCCTGGGGGTAGATTTTTCCCCACACAGCAACTAATCTCCCTGGACTCAAGACTCACTTGAGTCAGGAACTTGCTCACCACCTCCTGAG
GCAGCTTGATGCATTTATGGGCAGCTCAGTTAGAAAGCCCTTCCCTAATTAAGCTTAAGTCAGCCTTCCCAGTATGTTGCACCACTGCTTGTAGCTCAGC
TTCTTAGCACCATTTTAATGACTCCCCTCTTTATAGTCCTCCAATGTGTGACTTAGGGAACTATTTAGCACAGAATTCTCTCCAGGGTCCACTTACCCTT
GTTCTCCTCGTATATCACTGGCCCCTACTTTCCAGTCTCCTTTGCTGGTTTCTCCCTTTTCCCCTGATCTCTAAATGTAGGCATGTCTAGGGCTCAGTTC
TTAGTGCTCTATCTACATTCATTCCATCAGTTATCTCACCCAGACCCCTGGCTTTAAATATCACTATACACTGACAGTACGCAACTGTATCTCTCCAGCC
TGGAATGCTCCTCAGAACTTTAGACTCATACCCAAATACCTGGTTGACATCCCTCCTTGCCAGTCTGTTAAATTATCCCAAACCAACATGTCCAAAACCA
AACTCTGATTATCCATCCTCCAAAGTCTACCCTACCTACAGCCTTCCTCCTCTTCATAAGTAGTATCTCTGTCCTTCGGGTTGTTCAGGCCAAAAACCTG
CAAGTCATCCTTGACTCCTTTCATTCTATCACACCCACACTGACTCCATCAGCAAGATCTTTAGGCTTTTATTTCAAAATATAACCAAAATCTGGCCACT
TTTTTTTATCACTATCACTTTAGTCCAAGTACCACCATCTCTCACTTGGATTACTGTTCCCTGTAGGGTGACCAACATCCTGGTTTGCCCAGGACTTGGG
GTGGGTTCTCAGGACATGGGGCTTTCAATGCTAGAGCCAAGAAAGTCCTAGGCAAACTGGAATAAATTAGTCACCCTTGGGAGAGTTTCCATCCTTGCCT
CCACATATCCTAAATCCCACCAGCAGCCAGCATGATCCTTTTAAAAAGTAGATCATGTTACTCCACTGCTTAAAACATATAGTAACTTCCGATCTCATTC
GATTTAAAATCAAAGTCCTTAACCAAGGCCTAAGCAATCTAACTAGCCCTCCCTATACCTTCTTGGTCTCATTTCTGCTGCTGTGCCCTCACTCATTCAG
ACTCAATAACCTCCTCATCAGGGCCTTTGCACTTGCTGTTTCCCCTACCTGGAAGGCTCTTCCCCCAGCATTCCCACATTACCTTCAGGTCTCTGCTCAA
GTGTCCCCTTATCTCTATCTCTCTTGGCCTGCTGTTTTTCTGCATACCATGTAGCATCACCTAACATTATATATTTACTGTCTGTTTCACTCCACTAGAA
TGTAAGCTCAATGAATTAATATAAACAAGGATCTAAGAACTTCAGATAATGATAACTGCTATAAAGAGAATGCAATAGAGTGATGGGATAAAGACTATAA
AGAGATGGAGGGGTTGTCATTTAGGTCCCTTGGAGGTGCTTACATGTGAACTGAGCCCTTAGATGATGAGGAGGCAGCCACATGCAGATCCACAGAGAAA
ACAGCAAGTGTTAGGAGTGTGAGCCAGGTATGGGCTGGCATACTTGAAGGACTTATTCATCTTCCATTACACTGTTCCTCGCACAGGGCAGGGCTCAGGG
CTGATCTCCATGAGCATAGGTTGGATTGAGCAGAGTTGAAGGCTCTGCCCCTGTCCCAGGAGGGGCTTCAATCAGACAAAACCCAGACAAGAAGGACCTG
ATGATGAGTACTGTCCCAGAGAGCCCACTCCAGGACTGGCCCTGTTCTGTGAGCAGGTGGGACACAGAGATGTTAATGTCACTGTCCCTGACCCTAGGAG
CTCACACCTGGTTCAGACGGTAAGGAAGATTGTGGCATTTGGGTTGAGAGAATGGAAGGAGAGAGGATTCCAGGGGTCAAAAAGGGCCTGAATAAGGACT
CTTCAAGGAGTAATCCTGGTGTTTCTTTGGGAGAGAATAGGTCACTGTGGCTGGAGTTCAAGGAGGATGTCAGGAAGCAGAGGAAAAGGAGGCTTGGGAG
GCAGCTGCCATCTTGAAAAGAGCTCAGCTGTCGGGTAGAACTTGAACAAGTCACATAATTACTCTCGGCCTCAGTTTCCTTATTTGTTAGATGAGGATAA
TACTGCCACACAGAGTATGAAGCCGCTCAGTGTCCTGCACATAGCAACCTCAGTAAAGAGAAGCTTGCTGCTGTGATTATAGTTGATGAAAAGACCTTCG
ATGCTGAAGGACGGACTACTACATCGAGTGCCTGGCACTACAGCGAGTGCCAGGGGCAAGCACCGCGAGGACATGGAGATCCGCTGGCTTTAGAGAACGG
ACTTGGCGCGCAGAGGCTGCTGGTCCCAGAGGGAGGAAGGGCGTTGAATTTGGGCAGCCTCCCTGGAGGAGGCGGGCCGTGGCATACACAGGGCGGCGAG
AGCGCGCAGTGCCGGGGCCAGAGCGGCGCGCCCCCTCCTCCCCGCCCCGCCTCGCCGCTATCCCGCGCCCGGAACCTTGGGCGCGCGGAACCTCGGTGCC
GGAGCGCGGGCGCGGCGCACTCGGAGCGGGATGGAGCGGGCGCGCGGGCCGCGGGCCGAGGCCGACGCGCCTGAGGAGGAGGAGGAGGCGGGGGCGGCCA
TGGCTGCTGTGGTGGTGGCGGCTGCGGGTGGCGCGGGACCGGCGGTCCTGCAGGTGGCCGGTCTCTACCGGGGCCTGTGCGCGGTGCGCAGCCGCGCCCT
GGGCCTGGGGCTCGTGTCACCCGCGCAGCTGCGCGTCTTCCCAGTGCGCCCCGGCTCGGGCCGGCCCGAGGGGGGCGCCGACGGCAGCGGGGTCGGGGCC
GAGGCCGAGCTCCAGGCCAACCCTTTCTACGACCGCTACCGCGACAAGATCCAGCTGCTGCGCAGGTGCGGGCCTGGGTTGGCTGGAGGCGGGCAGGAGG
CGGGAGGAGGGGCGGCCCGGGCTGCTGGGCCTTAGGACAGCCCTGTGAGGTGGGCACTAGTACTGTCCCAGCTCTTCAGATGATGTAGCCAGGCTCCGCG
AGGCTAGGTCACTTGCCCAAGATCACACAGCTAATTGGTGTCAGAGCTGGGAGTCTCTGCAAAGCCCTGGCTCGTTCCACGTTTGTCTGCTTTGGTTCTC
CAAACGCTAAGGTGGACTCTTATGACAGCCCTGAGGCAGGCAGCTCAGAGACACCTGTCCTCATTAYAGAAATGGGAAAACGCCTTCTAGAGAAGGGACT
TGACTTGCTCAAGGTCACATATTAAGATAGCTGAGGCCTGGCTCAGAGCTGGAGTTCCCAGGCTGGTGGTAGCTTAGGGCCTTGACTGCAAGGAAAGGCG
ACTGGGGATGGGAGGAGGGCATCAAAGACTAATAGTGTCACAGTCGGATCACCCATTGAACCCTCTTAAGGAGACTGAGGATCAGCGAGAGTAAGAGACT
TGCCAAAGGTCACACAGCTGTTTGGGATTTGTCTGACTCTGAGTCCAGGGTCCCTAACACCACCTCTTAGCTTCCAGAGGGAAGGATCTGGAGCTTAGAG
GGGCTTAAGGTGCATATGAGGGGCTATAGGAGCRTCTGAAGAGTTCAAGTGGGAAGAGCTAAAGGAGATCAGAGGTGAAAATTAAAGGGGCTTGGGAGAG
AATTTAGCAGGGTAAGAAGGTAGTTGTCTTATGAAAGGAAACCAAAGACTTAGTACTGTAAATTTGAGTTCTGTCTCATCTCTACTTCCACTGCCTTAAT
CTACTCCATCATCGTCACCTGGGCTGTTGCCATTATCCTCTAACTAGAGTTCCCTACTTCCATTCCTGGACTACTTTACCCCAGTTCCTCTCACTGCTAC
TGTAGTGATCTTTCTTGCCATTTGAAACAGTTATGCAGTAAATGAATGAGTATTTTTGCTCTCCTTCCAGCAGCATTGAGATAGTCTCAAGTATTTGTCA
TCTTAAAAGCCTTTCTTTGATGTACATTCCCCTCCAGGCTTCTCTCGTTGATCTGTATTTGATCTGTTTTACACACAAGCATCTCTGAAGAGTTGTCTAC
TTGTACTTTGAATACTTTATCAGCATCCATTTATTCTTACCCACTCATGAACAAATAAATAACTGGTTTTACCGTCCTTCCCCACTGGATCATTCCCATC
AACATTTACACATACTGTTATCCCCCCACTGACCTCTAAATAACATCCAAACTCCTTAATGTTTCACACAAGTTCCTCATACCCTAGTCCCTGCCAGTCT
CTCTCTAGTTTTATCTGTTAGCAAACTTCCTTTGAAAAAGAATGGAGAGGAGGGGATGTTCCAGGTAAGGGGAGCAGCARCATAAACAAAGGTACAGAGG
CATGAAACCACCTTAACCATTTGGGGATGTTTGAGCAAATTTTCATCATARTACCTGTTGTACTTTCATTTGTTTACTTTTATGCCTGTCTCTCCCACTG
GATAGTGAGCTCCTTGAGGTAGGGAGTCTGACTTATTTATTTCTATATCCTCAGATCCCAGCAACAGCTTYACTGCCCAGGCTGTCCCTTGCCCTCTCTA
CCCCTTCACTATGGCAGGCCCAGTTGCAGCTGTAGCCACTAGCAGGGTTGACCCTGGTCCTGGTACAGCCCCCAGGKCTGCTTGCAGCTCTGGCCAGGCA
GGTGCCATGCCYGACTAAGCAGAAACCCCTGGTGAGGCTCTTTATTGAGGAGGAGCCGGCCCACTACAGAGAGAAGAAAAACATYCCATCTACATGACAG
TGAAGGGAGTGGTGTTTTATGTCACCTCCAGAAAGGAATTTTATGGAAGAAGGGGCCCCCTATAATGCATTGACCAGGAAAGTCCACCAGAGGGATAGCC
AAGATGTCCCTGGGTCCTCCAGACCTCACCCATGAAACTCTGGGTCTCATGGCCAAAGAGCTGGAATCCCTGGATGATATCTTCACCAAAGTGTACAAAA
CCAAATATCCCATGGTTAGCTACACAGTCTGAAGAATTCTTAATAGGGACAGCACCCCAGCCTGGACTTCAAACCTGAAGACCAACCCCATTTTGACATA
AACAATGTGTTCTGTTGTTTCATCTCCAAGAGCAGCTTCTTTGGAGGGTAGGTTAGGGAGATACTCAGATGCTAAATCTTCTGCAAAATAGGCTACCTAA
AGCCTCTGAATCACCAGGATCTGAATAAAGCAGATGTTTAACCTGGTTGGGGGGACATATTTTCAAGAACTGGATGTATTCAAGTAAAAGCTTGACACCT
AGTAAGGAGGCTATAGGATTCTTGTCTGAAGAGGTGATCCAGCAAGATGACCTCAAAATTCTAAGTACCCTGAAWGTAAGTACCTGAGAGACTAAGCCCT
GTGTAAACCTAGGGAACAGCCTGCAAAAGAAAAATGTTACACAGGYCCCTTGAGGATTAACAACAGTTGAATAACAGGATTTCTTTTTCCAGTTTCTTTA
TTTCTAGGCCTGTGCCCAGTTCTTACTAACTGAAGGCAAATTTTTCAACCTCTCTGAATGGCAGTGTCCTTTCTCTGTAGAGGTGGAAAGTGATGCTTTG
TTATTTTAGAATTCAAAAAGGCCCAGTTGGTTTACCCTTTGGTTTACCTCTGATCAGGTCAGACCCAGCTGCTTTTGAGTCCCGCCTGGAGAAACGCAGT
GAATTTCGGAAGCAGCCAGTGGGGCATTCCAGGCAAGGTGATTTTATCAAATGTGTGGAACAGAAGGTAAGACCTTCCCCCATTTGTGGTGTTTGCTTAC
CAGCACTCCTTCACCCTCCTYACCCTCACCCTTATCCTTAAAGTTGGTTTATTGATGGGTCAGCTGGGTGAACTGAACATAGTCTCTCCCAACTCCATTT
CCATCCATAAATGTTTATCCTGCTCTTTCTAGGCAAAGTACTGTGGTCATGGTGGAGATATAGAAGTATGAGAGGGGTACTTCCTGCTCCCAAGAGGAGC
AGTCTGGTGGTCAAGGCAAGGCACACATGGTAGTAGGCTAGAGGTATCAGAGAAAATTTCCCATGRGAGATGGAACCTGACCTAGGCTAGGAACGTTGTR
GGGGATTTAAATTAAGTAGAGAGGAAGGAATGGGACTTTGATGTAGAGCAGGGGTCATCAAATTTTTTCTGTAAAGAACTAGATGTTAAATATTTTAGGC
ATTGTGGGCCGTATGGTCTTCTTTGTGACTACTCAGCTCTGCCATYATAGTGCAAAAGCAGGCCTAGACCGTACGTAAATGAATAGGTATGGTTCTGTCC
CAGTAAAACTTAATCTACAAAAATATTTGGCAGACTAGATTTAGTTTCCTGACAACCAGCCAACCCTGCCAACCCAYCCCCATCCATTCCCATGTTGAGG
AATTAGCTTAAACAGAGGAAGAGCTTTGAAAGTAAAAGGGGTTTCAGGAGACAGCAAGGTACTATGCCCAGTTAAAATGGAGAGGGAAGTGTTAAGGCTA
AAGAAATAAGTTAGGCATTAAACTCTTTGGGCTTAAGGAGTACAGGCAGGATAATTTAGCTGCTAAGAGGATGGGCTCTGGGGCCAKATGCCAAGGACTG
AATCCTAACCCTTCCACTTACTAGCTGGGTGACTCTGAGCAAATTGTTACTTCTCCATGCCTCAGTTTGCTTATCTGTAAAACAGGAATAATAACAGTAC
CTACTTCACAGAGTTGTGCTGAAGAGATAATACCATTTAAAACTCTTTAGCGCCGTCTCTGGCATAAGTACTTAATATATATTAGCCATTATTATCCTTA
AATAGGAATCAAAGCTGAGGAAAAGCATGTTGAAAACTGTGTCTGGGAAGATTATTCTAATGCAGTGTTTTTCAAACTTTTTGACCATGACCACAATAAG
AAATATATTTTACATTGCAATTCAGTACACATGTAGGTATATGATTGTAACTGAAAAAAAAATGTATAAAATAATGCTAACTTTTACAACATGCAGTCCA
TTCTTAYTACTTTTTATTCTCTTTCATCTTTTAAAAAACTCTGATCACAATCCACTAAATGTATTTCACAACCTATTATTTGAAAAATTCTAACCTAGGA
TGGTGCACAGAACAAACTGGTGTAGGAGAGGCCAGCGCCAGGGAGAATATGGAGTAATCCAGGTGTGGGCTGCAGAAGCCTGAATTAAGGTAGTTACAGT
AGAAAATTGGGATTCTACATTGTGTTTTAAAGTCAAATTAGAGGTGTTTATTTTACTTGGAAAATACTTTTTTTGCCTTGGGTATCCTGAATTTTAAGTG
AATCTGCTGAGTCTTAATGACTACTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAGTGAACTCAAACAAATTTACAAGAAAAAAAAAACCCCAT
CAAAAAGTGGACAAAGGATACGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAGACACATGAAAAAATGCTCATCATCACTGGCCATTGGA
GAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAG
AAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAAACATTGTGGAAGTCAGTGTRGCGATTCCTTAGGGATCTAGAACTAGAAATACC
ATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGATTACAAATCATGCTGCTATAAAGACACATGCACATGTATGTTTATTGCGGCACTATTC
ACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGAATCAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAA
AAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAGCTGGAAACCATCGTTCTCAGCAAACTATCGCAAGGACAAAAAACCAAACACTGCATGTT
CTCACTCATRGGTGGGAATCGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACACTGGGGCCTGTTGTGGGGTCGGGGGAGTGGGGAGGGA
TAGCATTAGGAGATATACCTAATGTTAAATGACGAGTTAATGGGTGCAGCACACCAACATGGTACATGTATAGATATGTAACAAACCTGCACGTTGTGTA
CATGTACCCTAAAACTTAAAGTWTAATAAAAATAGAAAAAAATAAAATAAAATGACTAATTGAGTTAATTAGAACAGGATTAATAGTAAATGGGTTGCCA
GGCGCAGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGTTGAGGTGGGCAGATCACTTAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACAGGGTGA
AACCCTGTATCTACTAAAAATACAAAACTTAGCTGGGTGTGGTAGCAGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAAC
CTGGGAGGCGGAGGTTACAGTGAGCTGAGGTCATGGCACTGCATTCCAGCCTGGGCAAAAAAAAAAAAAATAACAGATGGGTTAATTATAATAAGGTTGG
GGAGCAAATTCAACTCCTATGACAAATAGAGTTTACAACTTTATGTGAGCAAACAATTCTTTACTACAAATATTTTAACAATTGTCATTTCCTATAATAA
ACACTTATAGTAGTAAGGTTACAAGTCAATAGCTCTTGGAAATATTACTATATTATAAACTTTAAATATTAGATAGGAATGTTCTTTGCCCCTTTTTGGT
AAACAGACTTAGAAATTTGGCTTTATGAGGCCGGGCGTGGTGGCTCACGCCTGTAATGCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACGAGGTCAG
GAGATTGAGACCATCCTGGCTAACACGGTGAAACCCCTTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTTGTGGCAGGCGCCTGTAGTCCCAGCTAC
TCGGGAGGCTGAGGCAGGAGAATGGCGTGGAGCCAGGAGGCGGAGCCTGCAGTGAGCGGAGATCACACCACTGCACTCCAGCCTGGACGACAGAGTGAGA
CTCCATCTTAAAAAAAAAAAAAAARAAAGAAATTTAGCTTTATGATAAAATGTAGAATATGTAAAGATTTAATTTAAATTGTGGCAGCTCTTAGGTAAAT
ATTCACTTGCTATCTTCTGTATCTAGCTAGATAGAGGAAGGCTAACGGCTAACACATATTTTCCATTCCCACAGTCTTGTCTTTACTACTTTGAGTTATT
GGTTCCCCACCAYATGGGACTCAACATCCCCCTTTTATAATACATTTTTTAAAAATTCTCCCTTTTCTACCCTGAAATAAAACAATAGGTATGTAAAAAT
ATAACCTACCTGTATGTATAACCTCAGGTGGGAAAATCAATATAATGCCCTAMCCATAATATAAAGAAAAGTATTTTTTAACAAAATACATATTTTAGCA
TGTRAATATTAGGGCACGACTAYACTGTGAGACCTAATGTAGTCATGAGGTGCTTCCACCCATTTCTGAAATAACCTTGAACATGTAAGCAGCAAATACT
GACTGGCAAATGGGTGTTATGTTGATAATTATAAAAACTCTAAAACCACCGGGTGCAGTGGCTCACACATGTAATCCTAGTACTTTGGGAGGCCAAGGTG
GCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGGCAACACGGTGAAACCCCGTCTCTACTAAAATGCAAAAGAAAAATTAGCCAGGCATGGTGGC
GCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCGGAGATTGTGCCACTGCACTC
CAGCGTGGGCGACAGAGTGAGACTCTGTCTCCAAAAAAAAAAAAACCTCCAAAACCATGAGCAGTGTTGTTATCAGTGACCTATGATTCCACAATGTGGA
ATCTTTCAAGTTATATAGTAGTTGCATTTCTGGAAATTTTAGTATTAAAGCAGTGTTTAAAAAAAAAAGGTTCTAGGCCCAAGTAATTATAAATATTGAA
ATATTATAGGTATTTTCAGCTGCAAGAATGTCTAGCTAGACATTGAAAAGTTGTACAGGATGAGGGAAATTTTTTTTATTATGTAGAACTCACCCATTTG
ACACCCCTCCCATAATGTAGATATCAATATCCAATAAACTATTATGATAACCATAAAATTATCTGCACAGATTTCCAAAGCATCCATAGTAGGGAAGTAA
ARYACCCATTTAAAGTTCTTATTAAATGCTTCTGATTTTTGACATGTAGTTTCAACTGCTTTAATTACCTTATTTCATCAAATCTAAAGCTCACTCTTAT
TTTTCTCATTTTAACATCACTAAAATTGTCTTATAATTGATATGACAGGAAAATATTGTGCTATTTAATTGGCATCATTTTCTGATGCATAAAATAATGG
TGCATCTTAAGATATGATGTCTTAGATTTGATAAAATGCAATACGCTTATACTTAGGGCTTAAATTTTTTATTTCTATAAGTGAAAATGGATACAAATAA
TAGATTGGAGAGACATTGTGTAAAAACCGATACATGAGGCTTCATGACTGAAAGGTGAAAGCAGCTGTGCAAGTGGAGGTTTTGTTTTGTTTTTGTTTCG
TTTTCATGGTACACCTGAGAATGAGTGKTATGAAAATGAAATTCTCATCAGGCACAGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCGAAGCGG
GCAGATCACTTGAGGCCAGAAGTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCACAA
GCCTGTAGACCCAGCTACTCGGGAGACTGAGGTGGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGACATTGTGCCACTGCACTCCAGC
CTAGGCAACAGAGCTAGACCCTGTCTCAAAAAAAAAAAAAAAGAAAGAAAGAAAATGAAATTAACTCCTTTTTAGATGGTTTACATATGAAGGAACGGCT
ACACTGGGATGTTGTCAGTGTATAGGTGCGTGACCAAAAAGACTAAAGGGTGTTCAACAGGCTTTTCTCTAATTTGTGGGTACAGGTTCTATGACCATCA
TTTATGAAAAGTGTGGATTAATTAAAGCACAAAGTGACTAAAGGCAAGGTTTTATGCAGAAAGTGTTTTTCAGCCTCAGAATCCCAGGTGTCGAATGTAC
TTCTGAGAAGCACAGCCTTGAGTGGAAGACTCAGAACAACCCATCCCTACTACCAGAAACTACTCAAAACAGGATTTACTAGCTATGACCTTTATGAGAG
ATAATGGCTACGAGACAAAATAATCACTTTCAGTTGTTGGTGGCCTTTTTTTAAGGGTGTCTAATTTGATAGAGGAAACATTAAGATTGAACACTCAAAA
TGACTCTARTCTGCTGAGGATGCCTACCATCAAAGTGTTGTCAGAGATAAGCAGTATCCTTGGATAACACATCTTTCCATTTCTTACCTCTCCCATGGCT
CAGTGTGGAATAGGTCAGGACAGAGCACAGTAATCCCAAGCAGGCCTAATTCTGGGAAGAAATCCCTCATATCCACAGTGGCAGGTGGAGAATGGACTCT
CAGTACTAGTAGATGATAGTTTACTGAGAGAGAAATCTTATCTCTGAATCTCAGAATCTTAGAAGAAAGTTGTTTTCTTATAAACAATAATTTTTATTTT
TATTTCTTTWTATTTATTTATTTTATTTTATGAGACAGAGTCTCACTCTGTTGCCCGGGCTAGAGTGCAGTGGCGTGATCTCGGCTCACTGCATCCTCCG
CCTCCYGGGTTCAAGCGGTTCTCCTGCCTCAGCCTCCCAAGTATCTGGGATCACAGGCACCCGCCACTATGCCCAGCTAATTTTTTGTATTTTTAGTAGA
GACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTTATGATTCTCTCGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGTGTGAGCCA
CTGCGCCCAGCCAACAATAATTTTTAAAATAGTGTTAAAWTTTTAGAACAATTATTATAAAAAGTGGAGAGAAGTGAGTTCTCACATGCAAAATTATTTA
ATGAGATTGGGTACYTCACCTAGCTTAGTTACCTTTTTTCTTATGAGTAAAGTGTAGATTAATATCTTGTCTTATATATTTCAGACAGATGCCTTGGGGA
AACAGTCTGTGAACAGAGGATTCACTAAGGACAAGGTAGGTTTCTAATTAAATATAGGAAAAAAAGCTTGAAGTCATATRGGACATCTAGAACAAGAGGC
TGCAAATTTGAACATAAGTACTGTGGCTCAGTGATTTTGTGTAAGGTGATTTTCCAGCTGTAGAAGTGAGAAATATTTCTATGAACTTTGTGTCCTTGAC
CATGACCCCTAGCATAGCAGTTTAATTAAAAATAACAACCAAACTTTCTCCTCTTACCAGCTGCAAAGTGCCGCAGGACTCATTGGTAAGGGTGAAGCCT
TTGGGAAGTACATGGCAACCTAAGAGAGACTCCTCAGGAACAGAACTATGAAAACCTGTCTAGGCTTGGGGGCTCACTTTCTCTGAGCATGTGGGTTTTC
TTATACTTGTTTTCTACTTTTGGAAATCTGTTTCATTGTCCTGACATGTTTGCCACAGGCTTAGAGATAGAGTTAAGCTGTTTTTTTTTTTTTTTAATTA
TGTGTTAATTGCTTTTTATTGTCTCTTTCAAGACTCTCAGTTCAATCTTTAACATTGAGATGGTAAAAGAAAAAACTGCAGAAGAAATAAAACAGGTAAT
GAATGGAAATGGGCTGGCCTACTCTATGAAAATGTGAATTCTGTGAACCAAATCTGAAAGTACATTTTCTGACACCTCTTTCTAGCCACAATGAAAGGTA
ATAATAAAAGGCAAAAGTGATGAATTACTTGAAGAACAATGTCATAAGAAAACTTGTCTTCTTTGTCACTCTTATATGTCTAATCAACTTGTATKTCTAG
TTTCTTTTTCATTCCCATAATCCACATCTCSTGTAACCCTCATCAGTACTCTGTACCTGGATTACTGCACTACCTTTCCAAATAGGTTTCCCTTCTCCTT
TTTTTTCCACTCCACCCATAATATTCTCATCAACTGAGTCCTCTGAAACTTCTCCTTTCATTATGGAGAAGTATAGTGTATTGGTTTAAAAACACAGACT
CTAGAACCAAGCTGCCGGTTTTAAGTCCTAGCTCTGCCACTATCTATAGGACTTGGACAAGTTAATCAACTTGTCTGGGCTTTAGTTTCCCTATTTAAAG
TGGAGCAAATAATAGYACTTACCTCATAGAGTTATTTGGATAATTAAATGAGTTAACATTTATTATCACTTAGAACAGTCCCTGGCATAGAGTAAGTGCT
ATATTTATGTTTTTTAAAAAATGGGAAAAAAATGTATTAGGAACCTGGTCACAAATGTTCAGTGACTTCCTGTATTCCTTTTCTGGGCATTCATAGCTCT
CCATTATCACAGGACCTTCTTCAGGAAGCTTCYTGAACACTTTCCTTCAAAGCACTCATGAGCTATCCTGCCTGTTTGGTCATTTATATTTTTATACCTG
TGATTCTTTTCTCTCTAATAAGCTATTTTTCTGGCATTCTTTATAGTTCCATGAATTATAYATTAGGTAGATTGAGAGGATCAAAATAATAATAAAAGCA
GCATACTCTGTATCAGGTACAATGCCTAATGCTTCATRTGCATTATTTCATTAAATTCTCTTAACCACCCCGTGAAGTGGGTGCCATTATTCCCAGTTTA
CAGTTGAGGAAACTGTGACTTAAAGAGATTATGTAACTTAGTCAGTGGTAGAGCTGGGACTCAAACCCATGTCTATTTGACTCTGCATCATATTCCCACA
ACTGGAAGTTGTGCCAGTTGCCATGGGTTTCCTTTGTATGCTGTATCATTTATTTTAGCACACATTTAATGCATACCAATTAAATGTCAGACTCTGTKCC
AGATACAGAGATAAATGAGAGAATCCTCATCCCCAAGGAGTTTTAGCCTCCGCAAAACGGATCAGATCAGCACAGGGTTCTTTCTATTAATAGAGGCATA
TGCAAAGTGTCAGGGAGAACTCTGGCTGTGCCTTTGGGAAGAAGTACCAAAGGAACATGGACACAAAACATGTCATTTAGGGGAAAAAGAAGCCAGGCCC
AGGAGGCCTGATCATATGACAAGTATCATTGAGACCTATAGTTTTAGGTATAAATTTGTGTTTGTTGAAATGAGTAGCTAAATTCAACTATATAAGGAAA
CATATATCAGTCTCATGAATTTCAGTTTTGATTCATAAACTGTCTGCTAATATCATAAATTAAATAAAAATAATCAGAATATGCTGTCCTTAAAATGAGA
AGACAATGTTTTGACATGCAAAAAAAGAAAAGGTAAAGCAACCTTATGCCACATTGAGAGTAGTTTCCATAGGTCCTAGGAGTTAATAGTCCTTTTGTGC
TCTGTGTTGATTAGATGGATCACACTTTGATTAGTATCTTCAATTGGGGCCCCATATTTTAACAGAAATGTTGACAAAACAGACCAACTCTAAAGGAAGT
TGACCCATTCTTCAACACTAGCTCACTCTGGTGTCACCTTGGTTATGATACCCTCCTCTACTTCTATGCCTTTGTTAGTGTTGTCATTCTCTGCTTCAAA
TGTGTCTCTTATCTCCTTCTCCTGCCCTACCTGTTATCTTCCCAGCCTCCTTATTTCCCTACTCTAACTCCTAATCATTCTTCAGGATACAGTTCCAAGT
GTCCCTTCCTCTGGCACTCTTCCCTACCCTGGGTTAAGTGCCTCTTTTAGATTACATGTTTYTTATTATTTCACAATCATCTATCATTCAACCAGCATTT
CTGAGTACTTTTTGGGTTGCAAGGCATTGGTGACAACACAGCAGATACCTGCCTACAGGGGGCTTGCAAACTAGTGAGGGAAATAGATCCATATGCAAAT
GATCTTATTATGAAGTAGCATATCCTAGGCATCTTAAGAGAGATATAAAATATGAAAGCAAGGGGGAGGAAATAAATAAAATAGAAAAGCARCTCATAGG
AAAACTTCTGACTGTAATATCAAGGGAAACTGCATGGAAGAAGAAGCATATAGGCTCAGCTTCAGAGTACAGGARGAATTTGGGAGGTCAGAGGTAGGAG
AGAGAGGCTTTCTAGTCAGAGCCAATAACATGTAAAAAGGCATGGGAAGGCAAAAAAAAGGTAGTAAAAAATAAGAACACAGAGCATCCATATGATATTA
ATGGTAAATAATGAAAAGACACAATATTGCATATATGCTACATCTATGTATACTATAAAAGACATGCTAGAAAGAAATAAAGTAACAGTGGTCTTTGTTA
GGGTGGTAGGACTATGGGCATTTTTTCCTTTTCCCTGTTTTCTAATTTTCAAATTTTATTATATAATTTTTTTATTCCCCACCTTTTGGTATTTGCATCA
TGAAGGTCAACTGTAGCTTCCTTGTTCGTTAGTGTCAAGCAGAGGTAGGACTTCTGATTGGTATATACCATAGTCAGATCCAACAGACCTTATCTCTTCC
ACATGTAGAAGACTTTCTGGAAGCAGGATTTTAAGAGCTGCCTATAACATGCCAATAATATCTAATATGGTTTTGCTGTGTCCCCACCCAAATCTCATCT
TGAATTGTAGTTCCCATAATCCCCACACATCATGGGAGGGACACAATGGGAGGTAATTGAATCATAGGGGCAGTTACCTCCATGCTGTTCCCATGATAAT
GAGTTCTCACGAGATCTGATGGTTTTATAGGGGGCTTTTRCCCCTTTTGCTCATTCTTCTTCCTGTCACCATGTGAAGAAGGATGTGTTTGCTTCCCCTT
CCACCATGATTGTAAGATTCYTAACGCCTTCCCAGCCCTGTGGAACTGTGAGTCACTTAAACCTCTTTCCATTATAAATTACCCAGTCTCTGGATTAAGA
AAATATGGCACATTTACACCATGGAATACTATGCAGCCATAAAAAAGCATGAGTTCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAACCATCATTCT
CAGCAAACTATCACAAGGACAGAAAACCAAACACCRCATGTTCTCACTCATAAGTGAGAGTTGAAYAATGAGAACACATGGACACAGAGTGGGGAACACC
ACACACTGGGGCCTGTCAGGGGGTGGAGGGCTGGGGGAGGGATATCATTAGGAGAAATACTTAAAGTAAATGACAAGTTGATGGGTGCAGCAAACCAACA
TGGCACACGTATACCTATGTAACCTGCATGTTGTACACATGTACCCTAGAACTTAAAGTAYAATAATAATAATAATAATAATAATAATAATAAATAAATA
AATAAATTGCCCAGTCTCAGGTATATCTTTATTAGCAGTGTGAGAATGGACTAATACAATATCTAACAAAAGCTAACATTATTTGTAGTGTTTATTCTGT
GACAAGTGCTGAGCTAAGCACAGACCTACATTATTTCAGCTAGTCATGACAATTCTGTGAGGTTATTATTGCTATTTTATTGATGTTTTTTAGGGAGTTT
TCAGTAATTTGCCCAAGGTAGTATAGCTAGTAAATGACTGGAGCTGAGATTCGCATCCAGGTCTGCCTGACTGTGAACCCTGAGCTCTAGTCCTGACTCT
CTGGGAAGGCTCAGTTGGCTGGGGAGGTGTGGGTTTGGGGAGGAAATAAAAATGTGAAAAAAAAGAAGTTGTCTATCACACACAAGGCACATATTAAGAG
GAATGACTTTTAAAGTCAGAGAATCAGTTTCTCTGTCAGGAATTTGTTATTAAGAGTTACAGTTTAATCATCTAGAAGAGTGGATTGTATTAAATCTTTT
TTGTGATGTGCTAGTAATGAAAGCGTTATACTGGGTTTTTCCTCTCTGTTATCAAATAGCATATTCCTCTGAGCAATGAAAACTGTCACCATTTCTTGGC
ACATGTTGAAAAGATTACCCACATGTCACAGACACCCCTCTCTTTTTTGTACAGATTTGGCAGCAATATTTTGCAGCAAAAGATACAGTCTACGCAGTTA
TTCCTGTAAGTAGTTTGGAGGGCAAAGTGAAAGTGTTACAACATGAAAGTCAGTTCTCTAACCTTAGCAGGCAGTTGCCTTTACTTTTCCTATGTTTATT
GCCTCTTGAGAAGCTGCATTTTACAGCCCTGAGAGTTTTTATTATRCCCTGAGCACCAGAGATTGGAAGCTCCATATGGTATATTTATGGCTCTTGTTTT
CCTCCTTTCTACTTTAGAAATGTCTCTGAGTCAAGTCTCTGACAAGGGAGCGTGGTATAAGTTCATGTTGCTGAGTAATTTCCAGATGTCTTTTTTTTCT
TACTGATGTTTTCCAACCAAGCTGTTGGAATTTAAGACAGGGCCTCTAGCACAGCTTTTTTCCCTTCTTGCCTGTAAGTGACCTATACCTGAGCTGACTT
GGAGCCTCTTCCTAGTCTATCTCTGGTGAATATTCCCCTTAGCAAGTGGCATTTTCTTGGTCTTTCCCTTCTTGAAATTATTCTTAGAGATGGTCACCAT
CTACTGCTTGACCATTAAGGTCTGTGACAGAGAAGGGATGCTGCTGGCTTCTCTGGTTTAATGTTTTGCTGGCCTYCACTATAATAAAGCATCTGAAGTA
CTGGATTATCAGCTAGTTCTTTGTTTTTCCCTGAAGGAGGGGTGGGAGCTTAGGTTAAGTTTCTATCAAGCACACAAATATATATTGAGATTACATGAGT
AAGTGTAAGATTAAGGAGGAAAACATATAGATGGAAGGATAAAGCCAGGCCTTTTGGTGGTTATGATGGTATCGCTATCTTTTTTTTTAATCTCTCATAT
ATATATACCCTTATCCTACATGAATTCAACARCCAGAAGAAGAGTCTGCRCTTTTTGTGATGTTTTAGATCTCTGATACTGACTCATTGTTTRAACAGGC
CTTCTTACCTCTCCCTCAAACTGACTTGGTGACTTGATGTCTCTGACAATTGTTAAAGTTCCCTGGAGCATTGGTGCACCTAGTCTTTACACATAATTCT
GACAATAAACAGCAAAACAGACATCTGGTTTTTCCTGTCTTTCTGTCATAAGAGTGATTTGAAAATGATGAAACTTAAATGACTGTTTTAGTTGTATTAT
AATTCTAGAATTCAGTCTTGGTGAATTACATGTGATAGTGGCCTTTTGTGTTTTACTATGTGTAGGTTAACTTTATTCTTTTCCAACCTACAGGCAGAAA
AGTTTGATTTGATCTGGAACCGGGCTCAGTCCTGTCCAACAGTAAGTTTCTGGTGATCACGTAAGGGTTGCTTATCAATGTTGCCAAACAAGTATTTTCC
AGCCMATCACGTCATATTCCATACTRTCTCACATGTTATAGTGCTCTGTTTACTTAATAAAGATGCTCACATGTTGATTGTACTAATAAGTTATAGTKCT
CTGTTTACTTAATAAAGATGCTCACAYGTTGATTGTACTAATAAGTGACATTTTCAGCCTTATGAAATCATGTGGGTTTGACCCAGTAAGCCTCTGGCTT
TTTAGCTCCCTACCACATCAGCCCTTTCTGATGTAGATCTTAATCTATCRGTACAAGTGCGTTTTGGAAGACATCTGAGACCTTAATCTTTTCAACTTCT
TTTTTTTTTTTTTTTTGCTTTTATTATTATTTTTAATTGACACATAATTATACATATTTATGGGGTACAGTGTGATAGTTCAATACATGTGTGCAGTGTG
TAATGATCAAATCAGAATAATTAGCACATCTATCACCTCAAACATTTATCATTTCATTGTATTGGTAACATTCAGAATCCATTCTTCTAGCTACTTGAAA
ATATACAATAATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCTTG
TGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATTTCCTTTGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTT
TGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCAAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGT
TTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTA
CACTGTTGGTGGGACKGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCC
CATTACTGGGTGTATACCCAAAGGACTATAAATCATGCTGCTATAAAGACACATGCACACGTATGCTTATTGCAGCTTTATTCACAATAGCAAAGACTTG
GAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATG
TCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATTCTCAGTAAACTATGGCAAGAACAAAAAACCAAACACCGCATGTTCTCACTCATAGGTGGGA
ATCGAACAATGAGAACACATGGACACAGGAAGGAGAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAGTGGGGAGGGATAGCACTGGGAGATATA
CCTAATGCTAGATGACGAGTTAGTGGGTGCAGCGCACTAGCATGGCACATGTATACATATGTAACTAACCTGCACATTGTGCACATGTACCCTAAAACTT
AAAGTATAATAATAATAAATAAATAAATAAAAAGAAAATATACAATAAATTATTGTTAATTATAGTACTCCATAGTGCCGTAGAACACTAGAACATATTT
CTCCCATCTAGCTGTACTTTTGTATCCCTTAACCAAMCTTTGGCTATTCGTTCCTCTAGTAACCACTCTCCTACTCTCTCCTTCTATGAGATCAGGTTTT
TTTTTTTTTTTAGCTTCCAACATGTGAGAACATGTGGTATTTGTCTCTCTGTGCRTGGCTTATTTCACTTAACATAATGTTCTCCAAGCTCATCCATGTT
GTCACAAATGACAGAACTTGTTCTTTTTTGTGGCTAAATAGTATTCCATTGTGTATAGATACCACATTTTCTTTATCCATTCATTTGTTGATGGACACTT
AGGTTGATTCCATATCTTCGCTATTGTGAATAGTGCTGTAGCAAACATGGGAGTGCAGATATCTCTTCAACATACTAATTTCCTTTCCTTTGGATATATA
TCCAGTAGTGGGACTGCTGGATCATGTGGTAGTTCTCTTTTTAGTTTTTTGAGGAAMCTTCATAATGTTTTCCATAATGGCTATACTAATTTACGTTCCA
CCAATATTATACAAAAGTTCCTCTTTCTCCACATCTTCACCAGCATTTTTTTTTTTTTCATTTAGAGATGAGGTCTTACTGTGTTGCCCAGGATGGGCTT
CAAATCCTGGCCTCAAATGACCCTCCCACCTCAGACTCCCGAAGTGCTGGGATTACAGGTTGTCTTTTTTTTTTTCGTAATAGCTGTTCAAACTGGGCTG
AGATGCCTGTTTTATTGGCAGTTTTCTTCACAGTTTTGGCTATGCTATCCTGGTAATATGTGCCTAAAGGAATTAAGAGGTCGTAGCTGAAATACTGAGC
TGCCAGAAGGCCTAAGGGAAAAGGAATAGGTGGGGTGGACCAGCTAACTTGGTATCAGTAATGATTTCTCGGGTTTTCAAAACATTTTTGGAAACATTGC
TGAAAACAGAGAATACCTAAATAAATGGAAATGATATATACCATGTTCATGGATTGGATGGCTCAGTTTGTTACATTTTGTTTTGTTTTGTTTTTTGAGA
CAGGATCTTACAGTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCATAGCTTAYTGCAGCCTCAATCTCTTCAGCTGAAGCAATACCCCCACCTCAGCCT
TCTAAGTAGCTGGGATTACAAACATGCACCCCCATGCTCAGCTAATTTTTTGTATGTTTAGTAGAGACAAGATCTCACTTACGTTGCCCAGGCTGGTCTC
AAATTCCTTGGTTCAAGCAATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTAGGCTTTGTTATTGTTAAGGTATC
AGTTCTCTCCTAATTGGTCTCTAGATGAAATACAATACTAATCAAAACCCCACTAGGCATTTAAGAAATTGATGAGCTGKTTTTAAAATTTTACTTGGAT
ATTTAAAGGACTGAGATAGCTAAAACAATTTTGAAAAAGAACAAAGCTTGAGGACTTACATTTCCTGATTTCAAGACTTATTACAAAGATACAGTAATTA
AAACAGTATGGTATTGGCACAAAGATAGACATGTAGATTAAYRGAACAGAGTAGAGTCCTGAAATAGACAAACATATATGTGGTTAGTTGTTTTTCAACA
AAGGTGTCWATAAATTAGAGAAAGGATAATCTTTTCAACAAATGCTGCTAAAACAATTGAATATCATGCACAAAAAAAAGGAACCTCTACTTTTACCTCA
CAGTGTATACAAAAATTAAAGTAGATCATARAAGTAAATGTAACTTTTTTTTTTTTTTTTTTTTGAGACGGAGCTTGCTTTGTCACCCAGGGTGCAATGT
AGTATGATCTCAGCTCACTGCAACCTCCACCTCCTGGGTTTAAGCTATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCTGCCACCACA
CTGGGCTAATTTTTGTATTTTTAGCAGAGACCATTTTTTTTTTGAGTCAGAGTCTTGTACTGTTGCCCAGGCTGTAGTGCAGTGGCATGATCTCTGCTCA
CTGCAATCTCTGCCTCCCAGGTTCAAGCGATTCTTGAGCCTCAGCCTCGTGAGTAGCTGAAGTTACATGAGCCCACCACCACACCCAGCTAATTTTTATG
TTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGTCTAGTCTCAAAACTCCTGACCTCAAGTGATCCACTTGCCTCAGCCTCCCAAAGTGCTAAGATT
ACAGGCATGAGCCACCGCACCTGGCCCATAAATGTAACTTGTAAAGGAAAATAAAAGAAGAAATCTAAATTACCTTGGGTTTGGCAAAGATGTCATAAGT
ACATTACAAAAAGCACAAACTATAAAAGAAAAAAATCACCTTGGGCAATATAGTGAGACCTTGTCTCTATAAAAAAAATTTTTCAAGCACCTGTTGTCCC
AGCTACTCAAGAGGCTGAGGTGGGAGGATCACTTGAGCCCTGGAGGTGGAGGTTATAGTGAGCCCAGACCGGACAACAGAGCGAGACCCTGTCTCAAAAC
AATAAAAATAGGGTGGGTGTGGTGGCTCACGCATGTAACCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGGTCCGAAGTTCAAGACCAGCC
TGGCCAATATGGCGAAAACCCATCTCTACTAAAAATACAAAAATTAGCTAGGCGTGGTGGTGTGTGCCTGTAATCTCAGCTACTCCGGAAGCTGAGGCAT
GAGAATCGCTTGAACCTGGGAGGCAGGGACTGCAGTGAGCCGAGGTCACACCACAGCACTCCAGACTAGCTGACAGAGTGAGATTCTGTCTCAAAAAAAT
AATAATAAATAAATTAGATTTCATCAAAATTAAAACATTCTATTTGCATACCCAAATAGCTTCTACATTCATAGCAACATTAGTCACAATAGCCAAAAGG
TGTATAGCTCAAGTTATATCAGAAATTCTTATAACTCAATAATAAAGAGGATAGACAAATGGACAAAGGATTTGAACATTTTATCAAAGAATAGCAGATA
AGCACCTGAAAATATGCTTGACAGCATTAGTCATAATGGGAATCCAAATTACTACAGTGAGATACCATTAGAATGACTAAAATGTCAAAAACTGATCATA
CCAAGTATTGGTAAGAATGTGAAGCACCTGGAACTCTCCTATACTGCCGGTCATATTGCAAAATGGTACAACCACTTTAGAAAATAGTTCGGCTGTTTCT
TTAAAAATTAAGCATATACCTGCCATACTAACTAGCCATTCCATTTCTAGATATTTTCCCAAGAGAACTCAAAGAATATGTCCATAGAATGACTTGTGCG
CAAATATTCAAGCAGCTTTATTTGTAACAACCAATGCTGGAAACAATGCAAATGTCTGTCACTAGTGCACAGGAATTGTGGAAAGAGAGAATGTGCATGT
GTGTGTGTGTGTGTGTKTATGTGTGTATACATACACAATGGAATAATATTCAGCAGTAAAAGGAATGAACTATTGATACATGCAACAACATGGTGTTCTG
TGAAAGGGCCATATGTGCAAAACGACCCCCAAATGGTGAAGGAGCTGAAAAACCAAAGAAGGAGGCAGACAAATCCAATTTGTGGGTATGGGATGATTTA
TTGGGGGAACTTACAGACGGGAATGTCGTATTGGGTGGCTGCAATACAGGTAGATCTCCACACCACAACCAGACAGACCCAATATGTCTTATATCTTGGG
GAAAGTATACATGCTCTGGAAGGAATGTGTAGGTGGATACAGTCATCACTGCCTATGATTTCTGCAACAACATCAAGGATTGTTTTGGAAGAATAGATGT
TTCTACATAAAGAGTAATACATCAACTAGACATTTGGGAGGCATTCCTGGACTTGGGGTTAGTCAGAAGTCACACGGTGGACTAGCATTTAAAATAAAGT
CACTCTTGTTCCTACACATGGATAGATCATGAAACAGTTATGCTGACTGAAAGTAACCAAACCAAAAAAGTACTCATTTTGTGGTTCCGTTTTTACAAAA
TTCTACAAAGGCACACTAACCTATAGTGGCAGAAAGCAAATCAGTGGTTGCTTAGGGACAGTAAGGGACAGGGAAGTATGAACTTCAAAGGGCAAAGAAA
ACTTGGAAGTGATAACCATGTTCATTTTGTTGATTTTGGTTATGGTTTCACAGTACACATATGTCACACTCATCAAATTGTATACTTTAAATATGTGCAC
TTTGTTGTATTTCAAGTATACCTCAATAAAGCTGTAAAAAAAATATTTTCCCTAGCAAGGGATCATCTGTCAAGTAGGCACTAAGTTTATCTCATCTAAT
AATAATAAATTGGAGCCTGAGTGGTTGACAATAAGAAGATAATTTGTGACTAATGTGTATTGGGCTGCTTTATACTTTTGTTTTGTTCTGGCACCATTCT
TTTCTCTACTACTCATCCCCATTCTAAACATCTTGAGCATAAAACTTATTTTTTGGTGTTTAGTCTGGAGCCATGCTCCAATATCAGCCTTATCTGATAG
AATGTGAAGTAATTACAGCAATTGGAACGAGCTAATTCAGCAGCATTAGAAAGTTTAGAAATTGAAACATCCATCAAGAGAAGGATAAATAGTGATAAAC
TTCTACARTAGAATTCCATACAACAGTGAGATATTTATGAATTCAGAGTTATAGATATCAACATGGATAAATCTCAGAAGCATACTATGAAGTAAAAAAG
TTACAAAAGGATACACACACTTTGATAAGATTTAAGTTTTTAAACATATAAACTACTACTTTAAAAAAAATTTTTCTAAAGACAGGGTCTCACTATGTTG
CCCAGGCTGGTCTCAAACTCCTGGGCTCAATCAGTCCTCCTGCCTCAGCCCCCGAGTAGCTAGGACAACAGGCACATGCCACCACACCTGGCTATTTTTT
TTATTTTTTTGTAGTGACGGGGTCTCACTGTATTGTCCAGGTTGGCCTCAAACTCCTGAGCTCAAGTGATCCTCCGACCTTGGCCTTCCAAAGTGCTGGA
ATTACAGGTGTGAGCCACCATGCCCAGCCTGTAAACTACTACTTCTTAACTTACAGTTATACGCATATACATTAAAGTATTAAAATATGAAAAAGGAGGA
TAGACACCAAATGCTGGATAGATGTTAACTCTGGGATGGGATTAGAAGGGAATGCAGAGGGAACCTCAATTGTATTTCTGATGCTTTCTTAGGTGGATTG
ATAAGTACATGAGTATTTATTGCCACATATGAATTTCTTAATTTTAAAAAAATGTTTTAGGCTGGGAGCAGTGGCTCATGCCTATAATCCCATCACTTTG
GGAGGCTGAGGGAGGCAGATTGCTTGAGCCCGGGAGTTCAAGACCAGCCTGGGCAACATGGCAAAACCCCATCTCTACCAAAAAAAAAAAAAAAGTAGCC
AGGCTTAGTGGTGCACACCTGCAGTTCCAGCTACTTGGGAGGCTGAGTGGGAAGATCACCTGAGCCCAGCAGATCAAGACTGCGGTGAGCTGTGATCATG
CCTGCACTGCAGCCTGGACAACAGAGCGAGAACCTGTCTCAAAAAAATAAAAAAATATTTTAAAAACCAAATATGGAGGAAATGGAATGAATGTTACAGG
TGGTTGGATATAGAGCAAATAATTTCATTTATTCATCTGTCTCCTTGTATATCTGTTTTTCACAGTTTCTATGTGCTCTGCCAAGAAGGGAAGGTTATGA
GTTTTTTGTAGGACAATGGACAGGTACTGAACTCCACTTCACTGCACTTATAAATATTCAGGTAGGTGGCTTGTGCCCTTCCTCTAGAGGAAAGAGGACT
ACCCCTTGGTAGGACTAGAAACCCTTGGCTGAGGCTCAAGGACACAGAATAGCTGCTTACTCCCAGCATTTATTATTGTGGCRCAGATGAATTGTCATAC
TTTTTGTGTTGGACTAGTTTTCTAGGSCCTCCTCAATACCTAGAAATTGGAAAAGACTCCAAAACACCTTCTCTGACTACTTCTGGTTCTCTTTTGTCTC
TTCCCCAGACCTCTAGTTGTATATACTGCATGTGCCTCACTTAACAAACATGCCTGAGTTATGATGGCTATCTTTTTAACCCAAGCTAGAAGCCCCTTGA
GGAAAGCTCCAAGTCTTAAATGTGTTTTATTACCTAAGTCAACACCTTCCAACATGCTAAGTGAATAGTTTCTGTTTAATAAATGTTATTTTGTTTGCTT
TCTTCCTTTATTTCTTTATTTCCAATAAAACAATATTAACTTTTAAATATTATATTTAAAAGTTAGATTCAAAACATTTAAAACTTTTAAAATAAAAGTC
AATATTTTAAATCATAACTAGGATTGGCATTCTATATTTGGAGGTCAAATGTGGCAAAAAACAAGCAYGAATTATATTGGCTTTGAAGTTGGGGTAAAGA
ATGCAAAATAGAATGAAGGAACAGCTTTTTACTTTGCTATTTTGTAATATGTCTAACAACCCTTTATTGAGTACATACTTTAATAACCAACAATTTGATG
TACTTACTATGTGCCACATGTTTTATATATATTATGTCATTTAATCCTCATAATACGCCATATTTACTGTTATTATTTCTAATTACATAGAAGAAAGTGG
CCTCAGATGTTAGTTCACATTGTCTAATAAGTGATAGAGCCAGGATTGAGCCCAGGTTATCTGACTTCAAAGTCTGTGAACTTRATCATTATGGGATTGT
GTTAGGAACTGTGCTAAGACTTGGAGATCTGTGAGACAAGGTCCCTGCCTTCATGGAGCTAATATTCAGSTWTAGGAGAAAGATCCAGAAACATAATTAC
AATAAAAGTGATTAGTATAATATTAGAATGATGACCAAAATGATCAGTGTAACATTAGAAGTATGTTCAAGAAAAATGAGATGCTGAACTATTACAAGTA
CCCTAGTGATAGTTGGATATTTATAATTAAAAAGACTCGCTGAAATTTTAGAGATAAAGTCTAGGAATCTTCTTTTGAATGTAGTTGTTTCCACCTGTGC
TATGTAGGGGCTTTAGCTTTGAACCCATCCTCTCTACCTAGTCTAGACTTGAGATTTAGTAACCACTGCCCTGATCATTCTTCATAAAATCATGGTGTTT
CCATCCTTCTTCTCCCCTTCACCCCCYACCAACCCAGATTATATTTTAGAGCTGCACATTACAAATCTGGCTCATGTGCAAACTCTGCAGCTCCTGCTAC
AGCTTAAAAGAGCTCAGTCTTCAGAGCCAGCCAAGGGGAGTAGATTTCAACTGTGAAATGCACTAGTCCATRAAAGTGGCAATTACACAGGCACATTGCT
TTCTTTAGAACTTGATTTGGTAGCTGCTTGTGCCATTTTGTTTTTAAAYGTATGGTCACAATGATGGATTCACTGCCTACTGTAAACATTTTCTGGGAAA
AAAGCCAAACCTTTTCCAGTTGAAGACACAAATAACACTGTGCAAACTGTCAGTTTCACTGTGCCTTTGCAGGCCTGACCTTACCACCACATACCAGTCC
TCCAACTCACYAGCCACCCAAGGGGCTGTTAAGAGCCAGAATTTCCTCTAGACTGTCTATTGCTTTGAAATTGCAGTTTRTTGTGATGGTACCTTATTGA
GCCTTGATAAGTGTTCCACCTTGCAGACCCGAGGGGAAGCTGCAGCCAGCCAGCTGATTTTATATCACTATCCTGAACTTAAGGAAGAAAAGGGCATAGT
GCTGATGACTGCAGAAATGGATTCCACATTTCTGGTAAGAATTAACTTGCAAAACTCTTTGGATTTACCTCRTGGCACTGAAGGTATTACTCTTCTGCCA
AAGCTCATGAGAGAGAAAATTTCAAAGAGCTACATATACCTTGTTTCTTACTTATTTTAAAGTTGACAGTGAAGTTGTCTTGCTCAAGATCTTCCAATTT
GAAGTTAGTACAGATCCTCAATCATTTATTCACAATTCTGAAACCCATGGGCTCTGAGAACAAAATGTTTTTGTTCTCATTTGGTCACAAAACCTTATGT
AAACTTGAACTCATTTGGTAACTAAATCTTTAAACTGATGTGAAACTATTTATATAACTAATCCCACTTGGTGTGGAGTATTATGCATTTTACTAGGGAA
ATATTAATGTGTTTGAGTATGGGGAGTCACATAATATAGTTATATAGTATCTATACCTATTATCTTTCTAAAATTCAATAATTCTGAATCTAAGACACAT
CAGGCCCTAAGGGTTTCAGATAAGAGATTGTAGAYAAGTAAATGGCTTCTTAATTAYAGGGAAGAGTTGTATTGAAGCCTAGGATAGCTCTCAATATTTT
ATCTTCCTTCATACTGTTCATTTATACAACATTCATCATTTATAGTGTTTTTCTTTCCTCCTTTTCCCACTCCTAGATGAGAATCACTGAGATAGAGCAT
TGACCATATGCTCATAGTTAATGATGCCCACTGTGTTCTCTCTGCACATCCAGGTGCCAGGAGCAGTGTTGTGATTACTGTACACTGTCTGTCTAGTCCT
TGCTCATTTCAGTCACATATCCTTTTATCTGGCAGAGGTTAAGTTCAGAATGTCCCCAAACAGTGGACACTTCCCCCTAACAGTCTTCATTACAGCACCC
ACTTATTTTTTCTCTTTCTCTTACCAGCTGCATAGGGAGAAAGAAGTGATATCACTCAGCTGATATCTCACAGTAGCAGTAACCCACAAACCTAGGACAC
AGTGAGGATTCTACTTCCCTATTCTTGAAGCTATTCAGTACCATCTCTCCCATTCTTCCTTCCACATTAACCCTTCCATTCATCACATTCAACTGAAAGC
CAAAATTCTATCCAAGAATATGGAATTGCCATTAACTGAGATAGGCAAGATTGCAGGAGGAATAGGCCTAACAGGAAAATCAGGAGCTCACTTTTCGATG
TATTAAATCTGAGATGCCTATTAGATATCCAAGTAGTAGGCAATTAGATATATGAGCCTGGACTTCATGGGAGAAGTCCAGGCTGGAGATATAAATATGG
GAGTTGTCAGCATACAGATTGTACTTAAAACCATAGGACTGAATGAAGTCACCAAGGAAGTAAGTAAAAATAGAGAAGAGACGAGATCTAAGAACTGAGC
GAGGGGTCTCCATCCCTGGAGAGATGAAGAAGCATCAGCAAAGATTAAGAAGGAATGGCCATGAGGTAAAAGGAAAATTAAGATGGTAGAATGCCCTGGA
AGCTAAAATYGAATGTTTCAAGGAATAGGGACTGCTCAACTCACCAAATCTCCCTTGTTTATTAGGGCAAATGAGATTAGRACTGAGAATTTACTGATTT
CACAAACATGGAAGTCACTGGGGGCCTTATAAGAGCAGTTTCATAAAAGTGTGATTGGAGTAGACTTAAGAGAGGATGGGAAGAGAAACTCCGAAGAATC
AGCATAGAAACTCTTTCAAGGGGCATTTCTATAAAGGGAAGGAGAGAATGGGGTATTAGCTGGAGGTGGAGAAGTGCGCCCAAGGGTATCTTTTGTTTCA
AATATGAGAAAGAAAACATATTTGTATGCTGATGGGAAAGGTCCAGTTGAGGCTGGGCACAGTGGCTCATGCTTGTAATCCCAGCATTTTGGGAGGACAA
GGTGGGTGGATTGCTTGAGCTCAGGAGTTTGAGACCAGCCTGGCCAATGTGRTGAAACCCTGTGTCTACAAAAAAATACAAAAATTAGCCAGGCGTGGTG
GCATGCACCTTGTAATCTCAGCTGCTCGGAAGGCTGAGGTAGGAGGATCACTTAAGCCCCAGCAGCAAAGGTTGCAGTGAGCTGAGATTGCACCATTGCA
CTCCAGCCTGAGCGACAGACCCAGACTCTGTCTAAAAAAATAATAATAATAAAATAAAATAAATAAAGATCCAGTGGAGAGGGAAATGTTGATGATACAG
GAGAAAGCGGGAAGTGATATTTTTGAGTGGGCAAGTCTGGTAATGAGGGGTTGATCTTTACCAGGAATATGACAGCAGGAGAGAAGCCAGAGTATAAGGA
CACTGATAAAATTAGATGGATAGAGGTAGTGGTATAAGTTTCCTACAGATTGCTCAGTGAAAAGAAAGAAAAGTTCTCATCAGCTGAAAGCAAGGTTGGA
AAAATGTTGGACATTTGAGTCAAAAAGAGGAAGTACAAAATTGTTGTCTAGGACAAGCGTCAGCAAACTACAGCCTATGGGCCAAGTCCAGCCCACTGCT
TGTTATAACGCCCACGAGTTAAGAATGTTTTCTACCTCTTTAAATGATTAGGGGGAAAAACTCTTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTT
GAGACAGAGTCTCGCTGTGTTGGCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACATCCACCTCCCAGGCTCAAGCAGTTCTCCTGCCTCA
GCCTCAAGCAGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGCATGTGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGAGGT
TTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTAATCGACCCACCTCGGCCTTCCAGAGTGCTGGGATTACAGGCATGAGCCACCACGC
TGGGCCAAAAACTCTTTATTCTTAAAGAAATACAGAAATTATTTAATAACAAAAARTATTATTAAAGAAAAATAGTATTTCAAGTTTTATTAGAACACAG
CCATATTCATTTATTTACATATTATCTATGGCCTGAAGGAAGTTAAAGGTGAATGCAAAGGAATGATTATTGACCATGGAATGGAAGCTGGGTAATGAGG
AAAGTGAAAATATAAGGGAGGTTAGAGACAGTAAGAATTATGAGTCCTAATGGGTTGTGGGAGTTGGAAGTGAGCTGAAAAGATAGGAAATAATTTGATC
ATGCAAGTGAGTGACAATATAGAGATTGTACTATATTTTCTGGTCTTCGGCAAAGCACAGCATCTAATCATATTAAAAGTGGATCCTAYAGGTCAGAGGA
GGCCCATTCTGCTGTTTGCCATTTTTACCACCTCACTCTGGTGGTCTCAAACTGCTGTGCAGTTCTCATCATTGTTAAAATTTGCTTCCTGGCCTTTTAA
CATTTGACAGCATACAAGACAATACATATTTGCCTTGTATAAATCAACTTGACTGTGAGGTTCCGATGTAGTGTAGAACTAGACATGTTAGAACTTGTTG
TACATGACTTAGAGAAGAGAAACTTAGAAGTATAAGATGAATATATGATCCCCTGTATACTCATGCATGAATTGTGCACTTTAGGCATAGTATTTCCAAC
TATGGTAAAGCATTAATGTCAAATGAATAGAAATACATGGAAACTAGAGATTTCTTCTGAACTAACTTTAATGCTAAAAACTAATGGAATATTTAAAAAC
CTAGCTTTATTTGGCTCCACATCTATGTCAATAGATGATTTCATTGAAATGCAGTAAGTGCTAGGATAGACATGCAGAAGGTTCTAGGGATAGAGAGTGG
GGTGATATCCCTGGCCCAAAGGGAGTAATATTTCCTGGAGATGACACCCAGACTGAACCTTCAAACAGCAGGAGTTAGCCTAATAAAGAAGGGGAGAAAT
GTTTCYGACAGAGGGAATAGCATAAGTAAATGCTGAGAGACATAAAATGACTTGGAGTATTGTAAAGAGTTTGGTATCACTTGTGTGTGTGTGTGTGTGT
GTATGTGTGTATATGTAAGGTTTGGTGGTTTTTGTTTAGAGATTTGGCTTTACCCTGAGGGCATGAAAAGAGTCATTAAAGGGTTTGAACAGAGAAGAAC
CCATAAAGAGATGGATTTTAAGACCTAGCCTATTAATTATTAACTTTAATTATTTGCTTCCTAAACATTGTGTAGTTCAAGTCTAGTCAGTATGATAATT
TRGAAGTCAGTTGCAATAGTCTGCACAAGAAGTGGTGAAAACTTGAACTACAGCAGTGGTATAGAGATGGAGGAAAGAGAATGACCCCAGGAATATGTAG
GGAATAAAATAGTCAGGACTTGGTGCRTTGATTGTAGATTTGAAAATTGAAAGAGAGGGAGGAATCAAACTTGTTAAAATACCTCTTTATTGAGCAGCAC
AGGGAATTAGTATGTTTATCTTATTGGGTCTTGGAAAAGGAGGAGACTGTTGCTTCATGTTGAAAGCCAAGAGAATAAAAGGCAGGGGGAGAATAAGGGC
TGGTGGGGGTTGCCTTTCTATAACCCTCCATGAGAGGTAGACATCTCTCTCTGTGTCTTACCTTCCTATCCTACTCACYGTACTAGTGGTCTTCAAAAAC
TTTTTTTTTTTTTTTGGAGACAGTCTTGCTCTTTTCACCAAGGCTGGAGTGCAGTGGCTGGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGC
CATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAAGCGCCCACCACCACGCCCAGCTAATTTTGTTTTTGTATTTGTAGTAGAGACGGGGTTTCA
CCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCRTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCACGCCTGGCC
CAAACTTCTTTTTAAAGTAGTAGGAGGACCCCTTTATCCAAACAAAATCTTACTATGTAAAACCCCAGGATATGACAGCTAAAACAGGTGAAGGGACCTG
AGGCACCTCCACAGAGCMCCTAKGACTCTACAGAATAGTTTGAACAGCAGTGTTGTAGTGTGAACACAGCTGAACTTACTCCTACCTTCCCACCCCAAGC
TTCAGATAAAAGTTGATGTCAGAGGCCCTGTAGCCAGGGGCTGAGAGAGTGGTGGTATCCTCAGATTATAGCAGTGCACTTGCTTCAGAAATGATTTGCT
CTTGAGGCATGTGTGAATTTAAGAAAGGTAAAATGGATGAAGTAGTTATTGGCCTTCATCAATCTTAATTATCTTGCCCTACCAGAAACAGMAGGATGAA
TTGGGGGGAATACCAGCCAGGGAGTCTAGAGGTCTAGTCCTGGCTGTGACCTTGGCTGGCCACTTGACCTTGAGCCCATCCCTGAACCTCATCTGCCTTG
GTTTCCTAGCCTATTAAATGAGAACTGGGTGATCTCTGAGGTCCCTTCTAGCTCTAAAATTCTATTAATTTGAAGTAGCCAGCTTTTTGGGAAAAGGTTT
TTGATTGAAGATGCAGTCTCAGAGATTAGTGCCTGCTCATGAGAAATGTCCTGAAAGTCCCACAGAGGGAATAGAGATGGAGCACAGCCCATGTTATTTA
TAAACCCGTCTTCATCATTCTCTAGCTAGACATAGCACACTTTTGGCAGTAAGTTTTTAGTGGGAATTTTCCATGACCTTTTGGGGTTTAATTTTGGCTA
TATGAACATGGTGATAATGGACAAGTACCTCTGACCRACTAGAACTGCAGAATGTATAGCAAAAGTAAGAGTTGTCTGAGGTGACTCTTTTGCAAAGTTT
GAGAGTGTAGCCCGTGTTCTAACCCCCATCTCTGTCATTTTTTAATTTTTATTTTTAGAGATAGAGTCTTCCTCTGTTACCCAGGCTGGAGTGTGCTGGC
ATGACCATAGCTCAGTGCAGCCTCAAACTCCTGGTCTCAAGCAATCCTCCTGCCTCAGCCTCCCGAGTAGCTAGGACTACAGGCTCATGCCACCACATCT
GGCTAATTTCTCTGCCTCTGTCATGTAGGGTGGCCTGCTCACCATTTCTCTGCTATTGCTCACCATTTCTCTGCTACTGCCCTTCTCTTCCCTGGGCCTT
TGCTGATGTATTAGTTATAAATGGCTGCATAACAAATTATACAAAATCTAGTGGCTTAAAACAACAAACATTTATTACCTCGCAGTTTCTGTAGTAGCAG
CTTAGCTGAGTGGTTCTGGCTCAGGGTCTCACAAGGTTGCTGTCAAGATGTTATCTAGGGGTATAGTCATCCGAAGGTTGATTGGGCTTGAGCGTCTGCA
TCCAGCCCCACTCACATGGCTCTTGGCAGAGGCCTCATGTCTTTGTCGTGTTTCTCCATAGGGCTGCATGAATGTCCTCACTACATGGCAACTGACTTTT
CCCAGAGCAAGAAAATTAGCAAGAGAAAAGTTACAACCTTTATGGCTTGATAGCAGAACTCATTCTCCATCATTTTTCATTTTTTCATAGTCTTTTTTTT
TTTTTAAGGGGCTCACTACATTACCCAGACAGGCTCAAGCAATCCTCCTACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCTCACACCAATGCCCCCAA
CCATTTTGTCATAGTCTACTTGTTAGAAGGAAGTCACTGAGTATAGCCATTACCCAAGGAAAGGGAAATTAGGCTCCATCAAAGGGAGGAATATCTTAAA
ATTTGTGGGCAAATTTTAAAACCATCACAGCTGGCTCTGGGAGTACTTTTCTGACCAAGGTAGTATCATAACAGGTTTTATTCAAGTGTATATCTGGTTA
GTCAAGAACTTAGTTCTCACTCACAAACTGGTTCTTAGAGCTGGGTAACTRTTGCTGTCTTATTCCCCCCTTGAAATATATTTAACAGTTATTAGGGAAC
TGGATGAAGAGGAATAATGTGAACATGTACATTAATTTATTCAGTAAACATTCACCAGATGTCACTCTGCAGAGATATAAAACAAACCACGGTCTATGTC
TTTGAGGAATTTGTACTAGGGAAAATAGACAAAAAAAGAAAAGGAAAAATACAATACAGTGTGATAAATACTATGACAGTGGTAAGCACAGGATGATTTG
GTACACAGAGAAGGGGCACCTAACCAAGACTAGGGACTTCAAGAAGTTAAGGAAACTTTCTGGAAGTGGTGACTCCTGGGCGAGGGCCCCCACCCACCAC
ACAATTCAGACAAGAGCTTTGTGGCCCTGTGCAAGAAAGGACCTCATTATTCTTTTTACCTTACAGAATGTTGCTGAGGCACAGTGCATCGCCAACCAAG
TTCAGCTCTTYTACGCTACTGATCGGAAAGAGACCTACGGGTTAGTGGAGACCTTTAACCTCAGACCAAATGAGTTCAAATATATGTCTGTCATCGCTGA
ATTGGAGCAAAGCGGACTTGGAGCAGAACTGAAATGTGCCCAGAACCAAAATAAGACTTAGAACTGTACAGGTTGGCCCTTCACCTAGTTGACTCAGCCC
TCGATAGTCTAGAGCCCACCCCCTCCTCAGGAACTCAAGAGCTCAGCATTTATAATGAGCAGTTGGTAATGAGTTGCCCTATGTGCTTGTCGCAAGCAGT
CACAGAGATGAGCCCTATTACTTGATATTCAGGAACAAAGGTACCTGAACATTCTGATAATTATCTCAGCATACTTGAGGTTTCCTTTTTTAAGTGTTCG
AGGTTATAACAAGAGACAGCCAAGGACCTACAAGACAGTTGACTTGATTTTGCACAGTGTAACAGCGCAGTTGCATTCTGGCCACTTTGACSTTATAGCT
CCCAAATGATGAGTTTGTCATCTTTATGAACTCATGACAGGATAATAAGCTTGAAGACCTGCTRTAGTTAGATATGGGCTTTAATCCTTCCCAKGCACCA
GTCAGCTGAACAAAAGCATAAGCCAAACATCCTGTTTAAACTGTAGAATAACCAGATATTCCCATCAGGTTAAAGACTTCATCTAGATGATGCCCCCCAG
AGATGCCTTTAGTGTAAGTAGCTGGCTTGGGGTATCAGCAAATTTCAGGTATAGTTAGATAAACAGGTACAGGGCCTGCATACTATTAAACCATAGTTTG
TGGCACCCGCTTTTCTAACTCCACCTGTTAGAAGCTATGTGTTTGAAGGAATGAATCAGTGCAGTATAAATAAAATTCTTTTGTAAGGAGAAGATTAATC
CTGGTTTGCATGATTTTTTTAAAAACAACTCTAAACATGATACGAAAAAGTGGATGAAAGCAAATGTTCCCAGATTGGATGTGGGGAAAATATAGCAATA
ATTTTTTTTTTAAGTCTGGCTTACAATGTTTGTTATACAAAATAATGAAATCTGAGTTATGTACTGTCCATTGTGTCAGGGCTATGGGCTGATTTTATCA
AAACTCATCTTGGGACTGAAAAATTGTTTGGAATGCCAGAAATAAGAAAGTTGTTCTCCAGAGCTGGAAACCCATCTTTCGTTTGTAGTGTCACTGTTGT
GGCTCCAAGCTCAGTGATAGGAAAGGACGGTGGTTACACACCAGCCTTCTGAACCCAAGGCCCCCAGTATTGTTGTCAGCTGCCTTTACCATGGCATTTC
TTTCTCTTTCTTTTTTTCCTGAGATGAAGTCTTGCTCTGTCTTGCCCAGGCTGGAGTACAGTAGCGTGATCTCAGCTCGCTGCAACCTCTACCTCCCTGG
TTCAAGTGATTCTGCTGCGTCAGCCTCCTGAGGAGCTAGGATTACAGGCRCATGCCACCATACCTGGCTTATTTTTGTATTGTTGTAGAGACAGGGTTTC
ACTTTGTTGKCCAGGCTGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCACCACCTTGRCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGC
CTGGCCTGACATTTCTTTATTGATCTAACATGCTCCACTCTGCTGCTCCTGCCTAAGATCTGGTTATATGACACTGAATGTGGTGAGTGGGAATTTAAGC
AGTATTCGCAGTTTGTGTGTGTGTGTTTTCTTCCTTCCAGAAGAATTTTTATAGGTTGGGCCTGTCCCTAAGCTCTTTAAATAGGGTGGACATCCCACTA
TTCTCTGAGCCGTGTCTATTTTGTTGCACCTTTGAGTCTATGTATTGAGAGAGACAGATAGTATTTTTTTAAACTGGGGAAGCTGCTRTCCTTTCACTAT
TTCTCTAAAGGTTGAGCTGTTAACTAATGTAAATTCTGGACCTGCTTCTGGTCCTGGCAGTTTATCTTTTGAGAAACTTGAGTCTTATCTGCCCTGCCAT
TTTCATTAAATGCCTTCTGACCTTCTGAATGTTTTGGGTCCCAAGAATTTTTGACATCAGATGGGGTTGTTTTTATTGGTATCCAGTTATGTTTGCTTGT
CTTTCCAGATGGGCCCAGTTATTAGCCATACATAGTACATTGATACACCTCCACCAGCGGGTGAGGAAATGATGGAAAAAGGAGTAAGAAGTGGCCATTC
GTTTTAATCATTCCTCCTGGATTTGTCCTCAGTCCCCAACTGCCAAGTAGGATGTGTCCATGKATAAATGTGTGGGGCATGACTAAAGTACCACGTAGCT
GTTCTTTATATTTATTTACCTAGAAAGATCTGGCAAAGAACTCAAAGAAAATTGTACCATTTAATCAGTAAATGTGTCCCCTGGTGCTAGCATGGTGTTA
TAGAAAGTGGACAGGCTTTAGAGTTAAGTGAATCTGGGTTCATATGTTAGTGTTGCTATTCATTAGCTCTATACTGTTGAACAAATTGCTTAAACTATCT
AATTTTGGGGTTTTTTTTTCCATCTAAAATAGGGATAATAATATCTACCTCATAGGATTATTGTGAGAATTAAATTAACTTCACTATAGTAGAAAATATC
AACTACCATCCTTTTCTCTACTTCCCTTGCCCCTCATTAAAGACTAATACAAGTTAGCATTTCAGATGTGTAGATCATTCTTTATTCCAGTTAAAAGAAC
AAACTTTATCTCATCAGTTCTGAAACTTTAAGATGCAGTAGCATCACCTAAAGTGCTTTTAAAATGCAGATTCTCAGGCCTCAACCGTACACCACCCCCC
CACACACGTACTAAATCAAGAATATGTGCAGAAGGTACTGGGAATCTACTTGTTAATATGTGCTCCAAATGATTCTGATGTAGGTAATTAGCCAGCCACA
CTTTGAGAACCACTGCCTTATCTATTCTTTACAAAAATGTACATTGCCAGGTCTTTCTTTCCTGTGGATGCTAACTATAGGATATTTAGGTTCCTCTGTT
CTTTGTCTCCCATAGTGGCCCCCTTTGCAAACTCCAAATACATTATATTTATTTATTCTTGTGTCTTTTTTCCCCCACTAGACTGTGAGCTCCTTGAGGG
CCAGGACTTATCTCTGTTCGCAGTGCCAAGGACATGGCCTGGACCATAGAAGATACTCAGTTTTTTGTTGAATAAATAGGTAATATGGATTTCAACCAAA
ACATTGTCTTGTGTATGTACCTGCATGTAAATACTCTAGATTTAAAAGAATCTCTTAATACACATAGATCGAGAATTTGTTGAGTAGAAATATTTGCAAA
CCAAGATACCAAGTTATACACAGTTCTCTGTACCTCACCTAATCCACTGGCATTACCTTGGTGGACCATTACACAGTACAACTTAACAGCTGCTCACAGA
GCATCTATTCTGCAGCCACTATGTTAAGTGCTGGACACAGAAAGATGAGTAGAGTATGATTCCTGCTCGCAAGCTCTGTTTTAGCCACTGCCTGTTTCTC
TCTTGCCTCTGATTCAGTGCCTCACACCTACACCTGATTATAGTTTGCTTTGTCTAGTTCTCGGATGTTCATACTGGTACTTCTTTCTTCTCCAACCAGT
TTGGAAGCTGGAGCCACATGTTTTGCTTTGCACTCTCCATACTGACCTTTTGTTCAGTCTTGGAGAAGAGGTACTAATGCCCACTTCCTAGTCATTTGAT
TTGGCATTGAGTCAGCATTCATTCACACTTATTGAGCACCTTTTTGCCAAGCACTGTTATAAAAAACTGGATAATATAGCAATGAACATGGCAAATAAGG
CTCCTGTTCTCATGTAGTTTATATTCTTGTAAAGAAGACAAGTAAATCAATAAAATTATTTTACATACTGGTAGTGCTATGAAAATTTAAAAATAATATT
TTAGACTATGGAGTGGAGGCAATAACTTAATGGTCAGGAGAGGCATCTCTGCAGCAGTGGCAGCTGATACATGAGCTGGGGAAAGAGAACCAGGTAAAGA
GAACAGCAAGTGTTAACGCCCCGGAGCAGAGCCAAGCTAGGAATGCTTGTTTCTGGACAAATATAAAGATTCAGTATCTACCCTTTAGGAGCCTACAGTT
CAGCGGCATGACCTGACATGAATGATTACAATACAAGACAAACTGATCAATGCCGTCTCAGAAGGGGCAAAGAGAGTTAAGGAACTCCCCCCGCATGCTA
TGGAGGATGCAAAGCTTGCCAGGCTCTGGTACCCACCCATGAAGCACTTATGGCTTAATGGGGAATAACAGGTAGACAGTGTTAAAGTCTCAAAGGCTAT
ATGTTTCTTGCAATAGACAAGAGGTACTGTGGGTTCAGTGCTGGCCTCCCAAGCTACAGTCACGTACTACATAACAATGTTTTGGTCACGTTAGATTGCA
TATGCAACTGTGGTCCCATAAGATTATAATGGAGCTGAAAAATTCCTATTGCCTAGTGACATCATAGCTGTGGTAATGTTATAGCACAATGCATTATGTG
TTTGTGGTGATGCTGGTGTAAATCTACTACACCAGCATAGTGTATAGGGGTATAGGGTATAAAAGTATAGTGTACAGGGGCCGGGTACGGTGGCTCACGC
CTGTAATCCCAGCACTTTGGAAGGCCGAGGCAGGTGGATCCCTTGAGTTTAGAAGTTCAAAACCAGCCTGGACAGCATAGCGAGACCTTGTCTCTACAAA
AAAAATTTAAAAATTAACTGAGCGTGGTGGTGCACGCCTGTAGTCCCAGCTACTCAGGAGGCTAAGGTGGGAGGATCACTTGAGCCCGGGAGGTTGAGGC
TACAGTGAGCTGGGATCACACTGCTGCACTCCGGCCTGGGCCACAGAGCAAGACCCTATCTCAAAAAATAAAAAGGTATAGTGCATAAAACTATGTACAG
TACATAATGCTTGATAGTAAATGACTATTACTGGTTTATGTATTTACTGTATTATTTAGAGTGTGCTCCTTCTACGTATAAAAAATACTAAGTCAATTGT
AAAACAGCCTCAGGCAGGTCTCTCAGGAGTTGTTCCAGAAGAGGGCATTGTTCTTATAGGAGAGGACAGCTCCATGTGTGTTATTGCCCCTGAAGACCTT
CCAGTGGGACAAGATGTGCAGGTGGAAGTCAGTAATGTTGATGATCCTGACCCTGTGTAGGCCTAGGCTAATGTACATGTTTGTGTCTTAGCTTTTAACC
AAAACATTTAAAAAGTAAAAAATAAAATTTTTTAAAGAAAAAAGCTTACAGAATAAAGATAGAAAATATTTTATACAGCTATACAGTGTGTTTTAAGCTA
AGTGCAATTATAAAATAGTCAAAAGTTTTAAAAATTAAAAAGTTTATAAAGTTAAAAAGTTATAGTAAGCTAAGGTTATTGAAAAAAGAAAAATATTTTT
ATAAATTTAGTGTACAGTGTTTATAAAGCCTACTGTAGTGTACAGTAATGTCCTCCTCAGTCTTCATATTCACTCAGAACTCACTCACTGACTCATCCAG
AACAACTTCCAGTCCTGCAGGCTCCATTCATTGTAAGTGTCCTATACAGCAATATCATTTTTTATCTTATACTGTATTTTTACTGTACCTTTTCTATGTT
TAGATACGATAGATAAGTATTTACCCTTATATTACAGTGTCCACAGTATTCAGCACAGTAACATGCTGTACAGGTTTGCAGCCTAGGAGCAATAGGCTAT
ATGCCATCTAGGTTTGTATAAATACATCCTATGATGTTTGCACAACAACCAAATCACCTAATGATACATTTCTCAATGTAGTCTCCATTGTTAAGCAACA
CTTGACTATATACACATTAACAATAACCACTAACATTTACTAAGGGCTAACCATATACCAGGCACTGTGCTAAGCCCTTACATGGATTATCTCAATCCTA
CCAACCCTATGAGGTTGGCAGGAACCTGCTGGTCAGTGACATGTGCTGCTCTCTCCTTGTACCCTCATGCCCCAACTCCAGCTCAGAAAAGAGAGCAACC
AGCCAGGCACAGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCAAGGTGGGCCGATCGCTTGAGACCAGGAGTTAGAGACCAGCCTGCTCAACAT
AACGAAACCCCCTCTCTACTAAAAATACAAAAATTAGCTGGATGTGGTGGCACACACCTGTAATCCCAGCTACTCAGGCTGAGGTACGAGAATCACTTGA
ACCTGGGAGGTGGAGGTTGCTGTGAGCCCAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAATGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAG
TAAGTCATGGTTGGCTCTGGAACCAGCCCTGAGAAACATGTCTCCCAATTTTCTTGCTGGTAACTAAAGAACAAAATGCATGCATTATATACCTCTGATT
CCTCCAGACAATTTTGCAAGACATCATGTTCTAACTAGGGAAGACTTCCTTCGGAGAACTTTGGTCTTGTCAATTCTTCTGATGTGACAGGTTGATAACA
ACATCTTTATCCTTGTTCTGCTAAAAGGGAGAGTAGGAGCACAGAAAGGGAAGAGATGACTTCAAGGTTGCTGTCTGCATCAGGAGCCAACCCAGGAATA
ATAATAAGTGTGTCCATGCTCCACACTTAATAGGATCATTTGTAATGTCCACTGAGCAGGCTCATTCTTCACATTCACTTGAACAGGGCTACTTCTACGC
TCTTCAGGCTTTAGGAACTGGAATATCTACAAGAAAAATTGGTTCAAACCACTTAAGAATCATTACAGGTTCCCTAGGGCTTTCTGGACAAAGTCCTTTT
AGATCAGCTCACAGGAGCTTCAGGATCCAGTGCATGGTGTCTTTTCCAGGCTCATTTTGTGCCTCTCCTACCTACTCCTTTGGCTCCAGCCATTCTGGAT
AACTTGCAGTTCCCTAAACACATTGTGCTCTTCCTACCTCTGTTCTGCTCTTTTCTAATACATTTGCCTGCTTCAAATGCCCATTCCTCCTTAAGTTAAT
TCAAAGCTTCACTGTAGTATCCCTATGAGAAGCCTTCCCTGAGACCTATTCCCCTCCACATGGCCCCCCTGCAAGGCTGGCTTCCCCACCAGAATGAATA
GCCCTTGGAGACTGGGATCATATCTTACTGGACATTATATTCCAAGTGTCCAGCACGAAACCCGGCAGAGGGATAAGATACTCTGTGGATGCTGAACAAA
CTCCGTTTGAGTGACCACTAAACTCAGACCACCTGAGCCTACAAACATCGCTTGCACAGTGAGATCCAGCTCTGGCAAACACATTGTGGTTATGTCCCAG
CCCAAGACAGTGGTCATTTTGCTTGCTCTTATTGCAGAGGCTACATATGGAAAACCAAGCCAAGGGACCAACAGAGAAGGCAGTCAGGTCCAGGGTTTGT
AAGCAGAAAGAACTGAGAGATGATGATGTGAACAAACTTTTGGAGCAAAACAATTATTTTAAGTACCAGGCTGGCACTTTCAAGTTCTTGTCTTGCCTTG
CCAAACCTTAACATTAAAAAAGACCTGGTTGGGTTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACGAGGTCAGGAG
ATCAAGACCGTCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCAGGTGTGGTGGCAGGCACCTGTAGTCCCAGCTACTC
GGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGTGGAGCTTGCAGTGAGCGGAGATTGCACCACTGCACTCCAACCTGGGGGATAAAGCGAGACT
CGTCTCCAAAAAAAAAAAAAGACCTTACAGGCTGGGCGCGGTGGCTCATGCCTGTAATTCTAGCACAAGGCGGGCAGATCACCTGAAGTCAGGAGTTCGA
GACTAGCGTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGACAGGGGCCTGTAATCCCAGCTACTCAGGAGGC
TGAGGCAGGAGAACTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCGGTCTC
AAAAAAAAAAAAAGGGTGGGGGGTGGGCGGCCGAGAGCAGTGGCTCACAGCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAAATCACAAGGTCAG
GCGATCAAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCACATGCCTATAATCCCAGCTACT
CGAGAGGCTGAGGCAGGAGACTAGCTTGAGCCAGGGAGTCGGAGGTTGCAGTGAGCCGAAGCCTGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAAG
AAAAGGCCTTACAGACTATCCAGTCACCAGTTTTCAAACTGTGCTTCAAGAAATCCCCAAAGTCCAGAGATGGGGACCTTGGGATTCTGACCCCCAACTC
AACCAGAGAATCTGTGTTTTATTTACTGGGCTTCTCATAAGCTGTCATCTGAAAAAACAGTTTTCAAGAAAGACTGAAAAAAAAAAACCTGGTCTAGTCT
AATTCTCCCGCCCACCATTGTAGGCCTCCCTACAGCACCACT


SNP Information

Context             (SEQ ID NO:56228):
ATCCTCTCTACCTAGTCTAGACTTGAGATTTAGTAACCACTGCCCTGATCATTCTTCATAAAATCATGGTGTTTCCATCCTTCTTCTCCCCTTCACCCCC
Y
ACCAACCCAGATTATATTTTAGAGCTGCACATTACAAATCTGGCTCATGTGCAAACTCTGCAGCTCCTGCTACAGCTTAAAAGAGCTCAGTCTTCAGAGC
Celera SNP ID:            hCV11729204
SNP Position Genomic:     31227
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56229):
AGCGCAGTTGCATTCTGGCCACTTTGACCTTATAGCTCCCAAATGATGAGTTTGTCATCTTTATGAACTCATGACAGGATAATAAGCTTGAAGACCTGCT
R
TAGTTAGATATGGGCTTTAATCCTTCCCATGCACCAGTCAGCTGAACAAAAGCATAAGCCAAACATCCTGTTTAAACTGTAGAATAACCAGATATTCCCA
Celera SNP ID:            hCV7568060
SNP Position Genomic:     39664
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,15)      total(G,15|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56230):
AGGGGATGTTCCAGGTAAGGGGAGCAGCAACATAAACAAAGGTACAGAGGCATGAAACCACCTTAACCATTTGGGGATGTTTGAGCAAATTTTCATCATA
R
TACCTGTTGTACTTTCATTTGTTTACTTTTATGCCTGTCTCTCCCACTGGATAGTGAGCTCCTTGAGGTAGGGAGTCTGACTTATTTATTTCTATATCCT
Celera SNP ID:            hCV809550
SNP Position Genomic:     8451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56231):
TGTTTACTTTTATGCCTGTCTCTCCCACTGGATAGTGAGCTCCTTGAGGTAGGGAGTCTGACTTATTTATTTCTATATCCTCAGATCCCAGCAACAGCTT
Y
ACTGCCCAGGCTGTCCCTTGCCCTCTCTACCCCTTCACTATGGCAGGCCCAGTTGCAGCTGTAGCCACTAGCAGGGTTGACCCTGGTCCTGGTACAGCCC
Celera SNP ID:            hCV809551
SNP Position Genomic:     8571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56232):
CTGACCAAGGTAGTATCATAACAGGTTTTATTCAAGTGTATATCTGGTTAGTCAAGAACTTAGTTCTCACTCACAAACTGGTTCTTAGAGCTGGGTAACT
R
TTGCTGTCTTATTCCCCCCTTGAAATATATTTAACAGTTATTAGGGAACTGGATGAAGAGGAATAATGTGAACATGTACATTAATTTATTCAGTAAACAT
Celera SNP ID:            hCV7568063
SNP Position Genomic:     38651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56233):
CCAGGCTGTCCCTTGCCCTCTCTACCCCTTCACTATGGCAGGCCCAGTTGCAGCTGTAGCCACTAGCAGGGTTGACCCTGGTCCTGGTACAGCCCCCAGG
K
CTGCTTGCAGCTCTGGCCAGGCAGGTGCCATGCCCGACTAAGCAGAAACCCCTGGTGAGGCTCTTTATTGAGGAGGAGCCGGCCCACTACAGAGAGAAGA
Celera SNP ID:            hCV809552
SNP Position Genomic:     8677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56234):
TGGCAGGCCCAGTTGCAGCTGTAGCCACTAGCAGGGTTGACCCTGGTCCTGGTACAGCCCCCAGGGCTGCTTGCAGCTCTGGCCAGGCAGGTGCCATGCC
Y
GACTAAGCAGAAACCCCTGGTGAGGCTCTTTATTGAGGAGGAGCCGGCCCACTACAGAGAGAAGAAAAACATCCCATCTACATGACAGTGAAGGGAGTGG
Celera SNP ID:            hCV809553
SNP Position Genomic:     8712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56235):
AATTATTCTTAGAGATGGTCACCATCTACTGCTTGACCATTAAGGTCTGTGACAGAGAAGGGATGCTGCTGGCTTCTCTGGTTTAATGTTTTGCTGGCCT
Y
CACTATAATAAAGCATCTGAAGTACTGGATTATCAGCTAGTTCTTTGTTTTTCCCTGAAGGAGGGGTGGGAGCTTAGGTTAAGTTTCTATCAAGCACACA
Celera SNP ID:            hCV7568170
SNP Position Genomic:     21776
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56236):
ACACTTTTGGCAGTAAGTTTTTAGTGGGAATTTTCCATGACCTTTTGGGGTTTAATTTTGGCTATATGAACATGGTGATAATGGACAAGTACCTCTGACC
R
ACTAGAACTGCAGAATGTATAGCAAAAGTAAGAGTTGTCTGAGGTGACTCTTTTGCAAAGTTTGAGAGTGTAGCCCGTGTTCTAACCCCCATCTCTGTCA
Celera SNP ID:            hCV7568065
SNP Position Genomic:     37537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56237):
CAGCTCTGGCCAGGCAGGTGCCATGCCCGACTAAGCAGAAACCCCTGGTGAGGCTCTTTATTGAGGAGGAGCCGGCCCACTACAGAGAGAAGAAAAACAT
Y
CCATCTACATGACAGTGAAGGGAGTGGTGTTTTATGTCACCTCCAGAAAGGAATTTTATGGAAGAAGGGGCCCCCTATAATGCATTGACCAGGAAAGTCC
Celera SNP ID:            hCV809554
SNP Position Genomic:     8785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56238):
TGTATTCAAGTAAAAGCTTGACACCTAGTAAGGAGGCTATAGGATTCTTGTCTGAAGAGGTGATCCAGCAAGATGACCTCAAAATTCTAAGTACCCTGAA
W
GTAAGTACCTGAGAGACTAAGCCCTGTGTAAACCTAGGGAACAGCCTGCAAAAGAAAAATGTTACACAGGCCCCTTGAGGATTAACAACAGTTGAATAAC
Celera SNP ID:            hCV809555
SNP Position Genomic:     9375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56239):
CTTTTTATTTATTTATTTTATTTTATGAGACAGAGTCTCACTCTGTTGCCCGGGCTAGAGTGCAGTGGCGTGATCTCGGCTCACTGCATCCTCCGCCTCC
Y
GGGTTCAAGCGGTTCTCCTGCCTCAGCCTCCCAAGTATCTGGGATCACAGGCACCCGCCACTATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGG
Celera SNP ID:            hCV1690848
SNP Position Genomic:     15906
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56240):
GATGACCTCAAAATTCTAAGTACCCTGAATGTAAGTACCTGAGAGACTAAGCCCTGTGTAAACCTAGGGAACAGCCTGCAAAAGAAAAATGTTACACAGG
Y
CCCTTGAGGATTAACAACAGTTGAATAACAGGATTTCTTTTTCCAGTTTCTTTATTTCTAGGCCTGTGCCCAGTTCTTACTAACTGAAGGCAAATTTTTC
Celera SNP ID:            hCV809556
SNP Position Genomic:     9446
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,3)   caucasian(C,2)   total(C,13|T,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56241):
CTCTAACTCCTAATCATTCTTCAGGATACAGTTCCAAGTGTCCCTTCCTCTGGCACTCTTCCCTACCCTGGGTTAAGTGCCTCTTTTAGATTACATGTTT
Y
TTATTATTTCACAATCATCTATCATTCAACCAGCATTTCTGAGTACTTTTTGGGTTGCAAGGCATTGGTGACAACACAGCAGATACCTGCCTACAGGGGG
Celera SNP ID:            hCV1690849
SNP Position Genomic:     18962
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,11)      total(C,11|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56242):
TGATTTGCTCTTGAGGCATGTGTGAATTTAAGAAAGGTAAAATGGATGAAGTAGTTATTGGCCTTCATCAATCTTAATTATCTTGCCCTACCAGAAACAG
M
AGGATGAATTGGGGGGAATACCAGCCAGGGAGTCTAGAGGTCTAGTCCTGGCTGTGACCTTGGCTGGCCACTTGACCTTGAGCCCATCCCTGAACCTCAT
Celera SNP ID:            hCV7568069
SNP Position Genomic:     37092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56243):
GGTTTTATAGGGGGCTTTTCCCCCTTTTGCTCATTCTTCTTCCTGTCACCATGTGAAGAAGGATGTGTTTGCTTCCCCTTCCACCATGATTGTAAGATTC
Y
TAACGCCTTCCCAGCCCTGTGGAACTGTGAGTCACTTAAACCTCTTTCCATTATAAATTACCCAGTCTCTGGATTAAGAAAATATGGCACATTTACACCA
Celera SNP ID:            hCV7568174
SNP Position Genomic:     20021
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56244):
GGGGCATTCCAGGCAAGGTGATTTTATCAAATGTGTGGAACAGAAGGTAAGACCTTCCCCCATTTGTGGTGTTTGCTTACCAGCACTCCTTCACCCTCCT
Y
ACCCTCACCCTTATCCTTAAAGTTGGTTTATTGATGGGTCAGCTGGGTGAACTGAACATAGTCTCTCCCAACTCCATTTCCATCCATAAATGTTTATCCT
Celera SNP ID:            hCV809557
SNP Position Genomic:     9821
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,8)   caucasian(T,2)   total(C,16|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   JBIC-allele(T,361|C,1128)   total(C,1128|T,361)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56245):
GAGCAGGGGTCATCAAATTTTTTCTGTAAAGAACTAGATGTTAAATATTTTAGGCATTGTGGGCCGTATGGTCTTCTTTGTGACTACTCAGCTCTGCCAT
Y
ATAGTGCAAAAGCAGGCCTAGACCGTACGTAAATGAATAGGTATGGTTCTGTCCCAGTAAAACTTAATCTACAAAAATATTTGGCAGACTAGATTTAGTT
Celera SNP ID:            hCV809558
SNP Position Genomic:     10246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56246):
AAATGAATAGGTATGGTTCTGTCCCAGTAAAACTTAATCTACAAAAATATTTGGCAGACTAGATTTAGTTTCCTGACAACCAGCCAACCCTGCCAACCCA
Y
CCCCATCCATTCCCATGTTGAGGAATTAGCTTAAACAGAGGAAGAGCTTTGAAAGTAAAAGGGGTTTCAGGAGACAGCAAGGTACTATGCCCAGTTAAAA
Celera SNP ID:            hCV809559
SNP Position Genomic:     10377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56247):
TCATGTGCAAACTCTGCAGCTCCTGCTACAGCTTAAAAGAGCTCAGTCTTCAGAGCCAGCCAAGGGGAGTAGATTTCAACTGTGAAATGCACTAGTCCAT
R
AAAGTGGCAATTACACAGGCACATTGCTTTCTTTAGAACTTGATTTGGTAGCTGCTTGTGCCATTTTGTTTTTAAACGTATGGTCACAATGATGGATTCA
Celera SNP ID:            hCV11284513
SNP Position Genomic:     31372
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56248):
ATTTTACATTGCAATTCAGTACACATGTAGGTATATGATTGTAACTGAAAAAAAAATGTATAAAATAATGCTAACTTTTACAACATGCAGTCCATTCTTA
Y
TACTTTTTATTCTCTTTCATCTTTTAAAAAACTCTGATCACAATCCACTAAATGTATTTCACAACCTATTATTTGAAAAATTCTAACCTAGGATGGTGCA
Celera SNP ID:            hCV25990074
SNP Position Genomic:     11007
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,25)   caucasian(T,2)   total(C,1|T,27)
SNP Type:                 INTRON


Context             (SEQ ID NO:56249):
TTGGATGGCTCAGTTTGTTACATTTTGTTTTGTTTTGTTTTTTGAGACAGGATCTTACAGTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCATAGCTTA
Y
TGCAGCCTCAATCTCTTCAGCTGAAGCAATACCCCCACCTCAGCCTTCTAAGTAGCTGGGATTACAAACATGCACCCCCATGCTCAGCTAATTTTTTGTA
Celera SNP ID:            hCV26787400
SNP Position Genomic:     25154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56250):
CTTTGTTATTGTTAAGGTATCAGTTCTCTCCTAATTGGTCTCTAGATGAAATACAATACTAATCAAAACCCCACTAGGCATTTAAGAAATTGATGAGCTG
K
TTTTAAAATTTTACTTGGATATTTAAAGGACTGAGATAGCTAAAACAATTTTGAAAAAGAACAAAGCTTGAGGACTTACATTTCCTGATTTCAAGACTTA
Celera SNP ID:            hCV26787401
SNP Position Genomic:     25480
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,3)      total(G,3|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56251):
TCAGTCCTGTCCAACAGTAAGTTTCTGGTGATCACGTAAGGGTTGCTTATCAATGTTGCCAAACAAGTATTTTCCAGCCCATCACGTCATATTCCATACT
R
TCTCACATGTTATAGTGCTCTGTTTACTTAATAAAGATGCTCACATGTTGATTGTACTAATAAGTTATAGTGCTCTGTTTACTTAATAAAGATGCTCACA
Celera SNP ID:            hCV25987759
SNP Position Genomic:     22526
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,21)   caucasian(A,1|G,1)   total(A,4|G,22)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,261|G,1230)   total(G,1230|A,261)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56252):
CAAAGCTTGAGGACTTACATTTCCTGATTTCAAGACTTATTACAAAGATACAGTAATTAAAACAGTATGGTATTGGCACAAAGATAGACATGTAGATTAA
Y
GGAACAGAGTAGAGTCCTGAAATAGACAAACATATATGTGGTTAGTTGTTTTTCAACAAAGGTGTCTATAAATTAGAGAAAGGATAATCTTTTCAACAAA
Celera SNP ID:            hCV26787402
SNP Position Genomic:     25642
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56253):
AAAGCTTGAGGACTTACATTTCCTGATTTCAAGACTTATTACAAAGATACAGTAATTAAAACAGTATGGTATTGGCACAAAGATAGACATGTAGATTAAT
R
GAACAGAGTAGAGTCCTGAAATAGACAAACATATATGTGGTTAGTTGTTTTTCAACAAAGGTGTCTATAAATTAGAGAAAGGATAATCTTTTCAACAAAT
Celera SNP ID:            hCV26787403
SNP Position Genomic:     25643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56254):
GCCATAAAAAAGCATGAGTTCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAACCATCATTCTCAGCAAACTATCACAAGGACAGAAAACCAAACACC
R
CATGTTCTCACTCATAAGTGAGAGTTGAACAATGAGAACACATGGACACAGAGTGGGGAACACCACACACTGGGGCCTGTCAGGGGGTGGAGGGCTGGGG
Celera SNP ID:            hCV1690850
SNP Position Genomic:     20236
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56255):
TAGTAGGAGGACCCCTTTATCCAAACAAAATCTTACTATGTAAAACCCCAGGATATGACAGCTAAAACAGGTGAAGGGACCTGAGGCACCTCCACAGAGC
M
CCTAGGACTCTACAGAATAGTTTGAACAGCAGTGTTGTAGTGTGAACACAGCTGAACTTACTCCTACCTTCCCACCCCAAGCTTCAGATAAAAGTTGATG
Celera SNP ID:            hCV7568070
SNP Position Genomic:     36818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56256):
TGGTATTGGCACAAAGATAGACATGTAGATTAATGGAACAGAGTAGAGTCCTGAAATAGACAAACATATATGTGGTTAGTTGTTTTTCAACAAAGGTGTC
W
ATAAATTAGAGAAAGGATAATCTTTTCAACAAATGCTGCTAAAACAATTGAATATCATGCACAAAAAAAAGGAACCTCTACTTTTACCTCACAGTGTATA
Celera SNP ID:            hCV26787404
SNP Position Genomic:     25709
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,5)      total(A,2|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56257):
AAGTGTTAAGGCTAAAGAAATAAGTTAGGCATTAAACTCTTTGGGCTTAAGGAGTACAGGCAGGATAATTTAGCTGCTAAGAGGATGGGCTCTGGGGCCA
K
ATGCCAAGGACTGAATCCTAACCCTTCCACTTACTAGCTGGGTGACTCTGAGCAAATTGTTACTTCTCCATGCCTCAGTTTGCTTATCTGTAAAACAGGA
Celera SNP ID:            hCV809560
SNP Position Genomic:     10587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56258):
AAGGCAGGGGGAGAATAAGGGCTGGTGGGGGTTGCCTTTCTATAACCCTCCATGAGAGGTAGACATCTCTCTCTGTGTCTTACCTTCCTATCCTACTCAC
Y
GTACTAGTGGTCTTCAAAAACTTTTTTTTTTTTTTTGGAGACAGTCTTGCTCTTTTCACCAAGGCTGGAGTGCAGTGGCTGGATCTCGGCTCACTGCAAG
Celera SNP ID:            hCV7568073
SNP Position Genomic:     36379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56259):
CACAAATAACACTGTGCAAACTGTCAGTTTCACTGTGCCTTTGCAGGCCTGACCTTACCACCACATACCAGTCCTCCAACTCACCAGCCACCCAAGGGGC
T
GTTAAGAGCCAGAATTTCCTCTAGACTGTCTATTGCTTTGAAATTGCAGTTTGTTGTGATGGTACCTTATTGAGCCTTGATAAGTGTTCCACCTTGCAGA
Celera SNP ID:            hCV26787407
SNP Position Genomic:     31627
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56260):
TCTTCTGTATCTAGCTAGATAGAGGAAGGCTAACGGCTAACACATATTTTCCATTCCCACAGTCTTGTCTTTACTACTTTGAGTTATTGGTTCCCCACCA
Y
ATGGGACTCAACATCCCCCTTTTATAATACATTTTTTAAAAATTCTCCCTTTTCTACCCTGAAATAAAACAATAGGTATGTAAAAATATAACCTACCTGT
Celera SNP ID:            hCV809562
SNP Position Genomic:     13313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56261):
TATCCCTGGCCCAAAGGGAGTAATATTTCCTGGAGATGACACCCAGACTGAACCTTCAAACAGCAGGAGTTAGCCTAATAAAGAAGGGGAGAAATGTTTC
Y
GACAGAGGGAATAGCATAAGTAAATGCTGAGAGACATAAAATGACTTGGAGTATTGTAAAGAGTTTGGTATCACTTGTGTGTGTGTGTGTGTGTGTATGT
Celera SNP ID:            hCV7568074
SNP Position Genomic:     35706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56262):
GCTGGGCACAGTGGCTCATGCTTGTAATCCCAGCATTTTGGGAGGACAAGGTGGGTGGATTGCTTGAGCTCAGGAGTTTGAGACCAGCCTGGCCAATGTG
R
TGAAACCCTGTGTCTACAAAAAAATACAAAAATTAGCCAGGCGTGGTGGCATGCACCTTGTAATCTCAGCTGCTCGGAAGGCTGAGGTAGGAGGATCACT
Celera SNP ID:            hCV26787408
SNP Position Genomic:     33752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56263):
CTTTTCAACAAATGCTGCTAAAACAATTGAATATCATGCACAAAAAAAAGGAACCTCTACTTTTACCTCACAGTGTATACAAAAATTAAAGTAGATCATA
R
AAGTAAATGTAACTTTTTTTTTTTTTTTTTTTTGAGACGGAGCTTGCTTTGTCACCCAGGGTGCAATGTAGTATGATCTCAGCTCACTGCAACCTCCACC
Celera SNP ID:            hCV1690855
SNP Position Genomic:     25831
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56264):
AATAAAGAAGGGGAGAAATGTTTCCGACAGAGGGAATAGCATAAGTAAATGCTGAGAGACATAAAATGACTTGGAGTATTGTAAAGAGTTTGGTATCACT
T
GTGTGTGTGTGTGTGTGTGTATGTGTGTATATGTAAGGTTTGGTGGTTTTTGTTTAGAGATTTGGCTTTACCCTGAGGGCATGAAAAGAGTCATTAAAGG
Celera SNP ID:            hCV26787409
SNP Position Genomic:     35782
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56265):
AATAATTTGATCATGCAAGTGAGTGACAATATAGAGATTGTACTATATTTTCTGGTCTTCGGCAAAGCACAGCATCTAATCATATTAAAAGTGGATCCTA
Y
AGGTCAGAGGAGGCCCATTCTGCTGTTTGCCATTTTTACCACCTCACTCTGGTGGTCTCAAACTGCTGTGCAGTTCTCATCATTGTTAAAATTTGCTTCC
Celera SNP ID:            hCV7568075
SNP Position Genomic:     35089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56266):
AGTAATTACAGCAATTGGAACGAGCTAATTCAGCAGCATTAGAAAGTTTAGAAATTGAAACATCCATCAAGAGAAGGATAAATAGTGATAAACTTCTACA
R
TAGAATTCCATACAACAGTGAGATATTTATGAATTCAGAGTTATAGATATCAACATGGATAAATCTCAGAAGCATACTATGAAGTAAAAAAGTTACAAAA
Celera SNP ID:            hCV1690856
SNP Position Genomic:     28708
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56267):
ACCTACCTGTATGTATAACCTCAGGTGGGAAAATCAATATAATGCCCTAACCATAATATAAAGAAAAGTATTTTTTAACAAAATACATATTTTAGCATGT
R
AATATTAGGGCACGACTACACTGTGAGACCTAATGTAGTCATGAGGTGCTTCCACCCATTTCTGAAATAACCTTGAACATGTAAGCAGCAAATACTGACT
Celera SNP ID:            hCV809563
SNP Position Genomic:     13504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56268):
TCTAGAGGAAAGAGGACTACCCCTTGGTAGGACTAGAAACCCTTGGCTGAGGCTCAAGGACACAGAATAGCTGCTTACTCCCAGCATTTATTATTGTGGC
R
CAGATGAATTGTCATACTTTTTGTGTTGGACTAGTTTTCTAGGGCCTCCTCAATACCTAGAAATTGGAAAAGACTCCAAAACACCTTCTCTGACTACTTC
Celera SNP ID:            hCV1690857
SNP Position Genomic:     29983
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   JBIG-allele(A,290|G,1191)   total(G,1191|A,290) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56269):
CTCAGGTGGGAAAATCAATATAATGCCCTAACCATAATATAAAGAAAAGTATTTTTTAACAAAATACATATTTTAGCATGTAAATATTAGGGCACGACTA
Y
ACTGTGAGACCTAATGTAGTCATGAGGTGCTTCCACCCATTTCTGAAATAACCTTGAACATGTAAGCAGCAAATACTGACTGGCAAATGGGTGTTATGTT
Celera SNP ID:            hCV809564
SNP Position Genomic:     13523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56270):
ACCCCTCCCATAATGTAGATATCAATATCCAATAAACTATTATGATAACCATAAAATTATCTGCACAGATTTCCAAAGCATCCATAGTAGGGAAGTAAAA
Y
ACCCATTTAAAGTTCTTATTAAATGCTTCTGATTTTTGACATGTAGTTTCAACTGCTTTAATTACCTTATTTCATCAAATCTAAAGCTCACTCTTATTTT
Celera SNP ID:            hCV7568181
SNP Position Genomic:     14303
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56271):
TTCAGACAGATGCCTTGGGGAAACAGTCTGTGAACAGAGGATTCACTAAGGACAAGGTAGGTTTCTAATTAAATATAGGAAAAAAAGCTTGAAGTCATAT
R
GGACATCTAGAACAAGAGGCTGCAAATTTGAACATAAGTACTGTGGCTCAGTGATTTTGTGTAAGGTGATTTTCCAGCTGTAGAAGTGAGAAATATTTCT
Celera SNP ID:            hCV25989939
SNP Position Genomic:     16380
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:56272):
CTCGGCCTTCCAGAGTGCTGGGATTACAGGCATGAGCCACCACGCTGGGCCAAAAACTCTTTATTCTTAAAGAAATACAGAAATTATTTAATAACAAAAA
R
TATTATTAAAGAAAAATAGTATTTCAAGTTTTATTAGAACACAGCCATATTCATTTATTTACATATTATCTATGGCCTGAAGGAAGTTAAAGGTGAATGC
Celera SNP ID:            hCV7568077
SNP Position Genomic:     34756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56273):
GGCTGAGGCTCAAGGACACAGAATAGCTGCTTACTCCCAGCATTTATTATTGTGGCACAGATGAATTGTCATACTTTTTGTGTTGGACTAGTTTTCTAGG
S
CCTCCTCAATACCTAGAAATTGGAAAAGACTCCAAAACACCTTCTCTGACTACTTCTGGTTCTCTTTTGTCTCTTCCCCAGACCTCTAGTTGTATATACT
Celera SNP ID:            hCV1690858
SNP Position Genomic:     30027
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;JBIC-allele(G,295|C,1188)   total(G,295|C,1188)no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56274):
TACGAGACAAAATAATCACTTTCAGTTGTTGGTGGCCTTTTTTTAAGGGTGTCTAATTTGATAGAGGAAACATTAAGATTGAACACTCAAAATGACTCTA
R
TCTGCTGAGGATGCCTACCATCAAAGTGTTGTCAGAGATAAGCAGTATCCTTGGATAACACATCTTTCCATTTCTTACCTCTCCCATGGCTCAGTGTGGA
Celera SNP ID:            hCV809565
SNP Position Genomic:     15509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56275):
TACATAGAAGAAAGTGGCCTCAGATGTTAGTTCACATTGTCTAATAAGTGATAGAGCCAGGATTGAGCCCAGGTTATCTGACTTCAAAGTCTGTGAACTT
R
ATCATTATGGGATTGTGTTAGGAACTGTGCTAAGACTTGGAGATCTGTGAGACAAGGTCCCTGCCTTCATGGAGCTAATATTCAGGTATAGGAGAAAGAT
Celera SNP ID:            hCV1690859
SNP Position Genomic:     30784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56276):
CCTGACCTTATGATTCTCTCGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCCAGCCAACAATAATTTTTAAAATAGTGTTAAA
W
TTTTAGAACAATTATTATAAAAAGTGGAGAGAAGTGAGTTCTCACATGCAAAATTATTTAATGAGATTGGGTACTTCACCTAGCTTAGTTACCTTTTTTC
Celera SNP ID:            hCV809566
SNP Position Genomic:     16140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56277):
AGATGGTAGAATGCCCTGGAAGCTAAAATTGAATGTTTCAAGGAATAGGGACTGCTCAACTCACCAAATCTCCCTTGTTTATTAGGGCAAATGAGATTAG
R
ACTGAGAATTTACTGATTTCACAAACATGGAAGTCACTGGGGGCCTTATAAGAGCAGTTTCATAAAAGTGTGATTGGAGTAGACTTAAGAGAGGATGGGA
Celera SNP ID:            hCV7568079
SNP Position Genomic:     33381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56278):
CGGTTTTAAGTCCTAGCTCTGCCACTATCTATAGGACTTGGACAAGTTAATCAACTTGTCTGGGCTTTAGTTTCCCTATTTAAAGTGGAGCAAATAATAG
Y
ACTTACCTCATAGAGTTATTTGGATAATTAAATGAGTTAACATTTATTATCACTTAGAACAGTCCCTGGCATAGAGTAAGTGCTATATTTATGTTTTTTA
Celera SNP ID:            hCV809567
SNP Position Genomic:     17416
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56279):
AGCTATCCTGCCTGTTTGGTCATTTATATTTTTATACCTGTGATTCTTTTCTCTCTAATAAGCTATTTTTCTGGCATTCTTTATAGTTCCATGAATTATA
Y
ATTAGGTAGATTGAGAGGATCAAAATAATAATAAAAGCAGCATACTCTGTATCAGGTACAATGCCTAATGCTTCATATGCATTATTTCATTAAATTCTCT
Celera SNP ID:            hCV809568
SNP Position Genomic:     17761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56280):
TCCAGCCCATCACGTCATATTCCATACTGTCTCACATGTTATAGTGCTCTGTTTACTTAATAAAGATGCTCACATGTTGATTGTACTAATAAGTTATAGT
K
CTCTGTTTACTTAATAAAGATGCTCACACGTTGATTGTACTAATAAGTGACATTTTCAGCCTTATGAAATCATGTGGGTTTGACCCAGTAAGCCTCTGGC
Celera SNP ID:            hCV25988308
SNP Position Genomic:     22598
SNP Source:               Applera
Population(Allele,Count): african american(G,20|T,4)   total(G,20|T,4)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56281):
CACCCCTCCCATAATGTAGATATCAATATCCAATAAACTATTATGATAACCATAAAATTATCTGCACAGATTTCCAAAGCATCCATAGTAGGGAAGTAAA
R
TACCCATTTAAAGTTCTTATTAAATGCTTCTGATTTTTGACATGTAGTTTCAACTGCTTTAATTACCTTATTTCATCAAATCTAAAGCTCACTCTTATTT
Celera SNP ID:            hCV7568186
SNP Position Genomic:     14302
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56282):
TCTTTATAGTTCCATGAATTATACATTAGGTAGATTGAGAGGATCAAAATAATAATAAAAGCAGCATACTCTGTATCAGGTACAATGCCTAATGCTTCAT
R
TGCATTATTTCATTAAATTCTCTTAACCACCCCGTGAAGTGGGTGCCATTATTCCCAGTTTACAGTTGAGGAAACTGTGACTTAAAGAGATTATGTAACT
Celera SNP ID:            hCV809569
SNP Position Genomic:     17838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56283):
CTGGCTCGTTCCACGTTTGTCTGCTTTGGTTCTCCAAACGCTAAGGTGGACTCTTATGACAGCCCTGAGGCAGGCAGCTCAGAGACACCTGTCCTCATTA
Y
AGAAATGGGAAAACGCCTTCTAGAGAAGGGACTTGACTTGCTCAAGGTCACATATTAAGATAGCTGAGGCCTGGCTCAGAGCTGGAGTTCCCAGGCTGGT
Celera SNP ID:            hCV27852456
SNP Position Genomic:     7267
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:56284):
CTTACCACCACATACCAGTCCTCCAACTCACCAGCCACCCAAGGGGCTGTTAAGAGCCAGAATTTCCTCTAGACTGTCTATTGCTTTGAAATTGCAGTTT
R
TTGTGATGGTACCTTATTGAGCCTTGATAAGTGTTCCACCTTGCAGACCCGAGGGGAAGCTGCAGCCAGCCAGCTGATTTTATATCACTATCCTGAACTT
Celera SNP ID:            hCV25989438
SNP Position Genomic:     31680
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,4)   total(A,1|G,33)
SNP Type:                 INTRON


Context             (SEQ ID NO:56285):
ATAAAGAAGGGGAGAAATGTTTCCGACAGAGGGAATAGCATAAGTAAATGCTGAGAGACATAAAATGACTTGGAGTATTGTAAAGAGTTTGGTATCACTT
G
TGTGTGTGTGTGTGTGTGTATGTGTGTATATGTAAGGTTTGGTGGTTTTTGTTTAGAGATTTGGCTTTACCCTGAGGGCATGAAAAGAGTCATTAAAGGG
Celera SNP ID:            hCV26787410
SNP Position Genomic:     35783
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56286):
TAAAGAAGGGGAGAAATGTTTCCGACAGAGGGAATAGCATAAGTAAATGCTGAGAGACATAAAATGACTTGGAGTATTGTAAAGAGTTTGGTATCACTTG
T
GTGTGTGTGTGTGTGTGTATGTGTGTATATGTAAGGTTTGGTGGTTTTTGTTTAGAGATTTGGCTTTACCCTGAGGGCATGAAAAGAGTCATTAAAGGGT
Celera SNP ID:            hCV26787411
SNP Position Genomic:     35784
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56287):
AAAGAAGGGGAGAAATGTTTCCGACAGAGGGAATAGCATAAGTAAATGCTGAGAGACATAAAATGACTTGGAGTATTGTAAAGAGTTTGGTATCACTTGT
G
TGTGTGTGTGTGTGTGTATGTGTGTATATGTAAGGTTTGGTGGTTTTTGTTTAGAGATTTGGCTTTACCCTGAGGGCATGAAAAGAGTCATTAAAGGGTT
Celera SNP ID:            hCV26787412
SNP Position Genomic:     35785
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56288):
ACAAGCGCCCACCACCACGCCCAGCTAATTTTGTTTTTGTATTTGTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTC
R
TGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACCACGCCTGGCCCAAACTTCTTTTTAAAGTAGTAGGAGGACCCCTTTAT
Celera SNP ID:            hCV26787413
SNP Position Genomic:     36637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56289):
AAGTCTGTGAACTTGATCATTATGGGATTGTGTTAGGAACTGTGCTAAGACTTGGAGATCTGTGAGACAAGGTCCCTGCCTTCATGGAGCTAATATTCAG
S
TATAGGAGAAAGATCCAGAAACATAATTACAATAAAAGTGATTAGTATAATATTAGAATGATGACCAAAATGATCAGTGTAACATTAGAAGTATGTTCAA
Celera SNP ID:            hCV1690860
SNP Position Genomic:     30870
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,7)      total(G,7|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56290):
AAGTGTTCGAGGTTATAACAAGAGACAGCCAAGGACCTACAAGACAGTTGACTTGATTTTGCACAGTGTAACAGCGCAGTTGCATTCTGGCCACTTTGAC
S
TTATAGCTCCCAAATGATGAGTTTGTCATCTTTATGAACTCATGACAGGATAATAAGCTTGAAGACCTGCTGTAGTTAGATATGGGCTTTAATCCTTCCC
Celera SNP ID:            hCV26787414
SNP Position Genomic:     39592
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,17)      total(G,1|C,17) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56291):
GCTGGAGTACAGTAGCGTGATCTCAGCTCGCTGCAACCTCTACCTCCCTGGTTCAAGTGATTCTGCTGCGTCAGCCTCCTGAGGAGCTAGGATTACAGGC
R
CATGCCACCATACCTGGCTTATTTTTGTATTGTTGTAGAGACAGGGTTTCACTTTGTTGGCCAGGCTGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCC
Celera SNP ID:            hCV26787415
SNP Position Genomic:     40550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56292):
CATAAAGAGATGGATTTTAAGACCTAGCCTATTAATTATTAACTTTAATTATTTGCTTCCTAAACATTGTGTAGTTCAAGTCTAGTCAGTATGATAATTT
R
GAAGTCAGTTGCAATAGTCTGCACAAGAAGTGGTGAAAACTTGAACTACAGCAGTGGTATAGAGATGGAGGAAAGAGAATGACCCCAGGAATATGTAGGG
Celera SNP ID:            hCV1690862
SNP Position Genomic:     36002
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56293):
ACAACTGGAAGTTGTGCCAGTTGCCATGGGTTTCCTTTGTATGCTGTATCATTTATTTTAGCACACATTTAATGCATACCAATTAAATGTCAGACTCTGT
K
CCAGATACAGAGATAAATGAGAGAATCCTCATCCCCAAGGAGTTTTAGCCTCCGCAAAACGGATCAGATCAGCACAGGGTTCTTTCTATTAATAGAGGCA
Celera SNP ID:            hCV809570
SNP Position Genomic:     18098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56294):
TTCTGCTGCGTCAGCCTCCTGAGGAGCTAGGATTACAGGCGCATGCCACCATACCTGGCTTATTTTTGTATTGTTGTAGAGACAGGGTTTCACTTTGTTG
K
CCAGGCTGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCACCACCTTGACCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCTGAC
Celera SNP ID:            hCV26787416
SNP Position Genomic:     40610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56295):
AAGAAGTGGTGAAAACTTGAACTACAGCAGTGGTATAGAGATGGAGGAAAGAGAATGACCCCAGGAATATGTAGGGAATAAAATAGTCAGGACTTGGTGC
R
TTGATTGTAGATTTGAAAATTGAAAGAGAGGGAGGAATCAAACTTGTTAAAATACCTCTTTATTGAGCAGCACAGGGAATTAGTATGTTTATCTTATTGG
Celera SNP ID:            hCV1690863
SNP Position Genomic:     36127
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56296):
TATGCAAATGATCTTATTATGAAGTAGCATATCCTAGGCATCTTAAGAGAGATATAAAATATGAAAGCAAGGGGGAGGAAATAAATAAAATAGAAAAGCA
R
CTCATAGGAAAACTTCTGACTGTAATATCAAGGGAAACTGCATGGAAGAAGAAGCATATAGGCTCAGCTTCAGAGTACAGGAAGAATTTGGGAGGTCAGA
Celera SNP ID:            hCV809571
SNP Position Genomic:     19192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56297):
GGAGGACCCCTTTATCCAAACAAAATCTTACTATGTAAAACCCCAGGATATGACAGCTAAAACAGGTGAAGGGACCTGAGGCACCTCCACAGAGCCCCTA
K
GACTCTACAGAATAGTTTGAACAGCAGTGTTGTAGTGTGAACACAGCTGAACTTACTCCTACCTTCCCACCCCAAGCTTCAGATAAAAGTTGATGTCAGA
Celera SNP ID:            hCV1690864
SNP Position Genomic:     36823
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56298):
CTATTATCTTTCTAAAATTCAATAATTCTGAATCTAAGACACATCAGGCCCTAAGGGTTTCAGATAAGAGATTGTAGACAAGTAAATGGCTTCTTAATTA
Y
AGGGAAGAGTTGTATTGAAGCCTAGGATAGCTCTCAATATTTTATCTTCCTTCATACTGTTCATTTATACAACATTCATCATTTATAGTGTTTTTCTTTC
Celera SNP ID:            hCV7568083
SNP Position Genomic:     32357
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56299):
GGACATCCCACTATTCTCTGAGCCGTGTCTATTTTGTTGCACCTTTGAGTCTATGTATTGAGAGAGACAGATAGTATTTTTTTAAACTGGGGAAGCTGCT
R
TCCTTTCACTATTTCTCTAAAGGTTGAGCTGTTAACTAATGTAAATTCTGGACCTGCTTCTGGTCCTGGCAGTTTATCTTTTGAGAAACTTGAGTCTTAT
Celera SNP ID:            hCV1690865
SNP Position Genomic:     40988
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;(G,-|A,-)   Caucasian(T,31|C,49)   African-American(C,28|T,54)   Asians(C,19|T,61)   total(C,96|T,146)
SNP Type:                 INTRON


Context             (SEQ ID NO:56300):
TGGAAGGATAAAGCCAGGCCTTTTGGTGGTTATGATGGTATCGCTATCTTTTTTTTTAATCTCTCATATATATATACCCTTATCCTACATGAATTCAACA
R
CCAGAAGAAGAGTCTGCACTTTTTGTGATGTTTTAGATCTCTGATACTGACTCATTGTTTAAACAGGCCTTCTTACCTCTCCCTCAAACTGACTTGGTGA
Celera SNP ID:            hCV809572
SNP Position Genomic:     22032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56301):
CGATACATGAGGCTTCATGACTGAAAGGTGAAAGCAGCTGTGCAAGTGGAGGTTTTGTTTTGTTTTTGTTTCGTTTTCATGGTACACCTGAGAATGAGTG
K
TATGAAAATGAAATTCTCATCAGGCACAGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCGAAGCGGGCAGATCACTTGAGGCCAGAAGTCAAGA
Celera SNP ID:            hCV8641797
SNP Position Genomic:     14728
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56302):
TCTCATATATATATACCCTTATCCTACATGAATTCAACAGCCAGAAGAAGAGTCTGCACTTTTTGTGATGTTTTAGATCTCTGATACTGACTCATTGTTT
R
AACAGGCCTTCTTACCTCTCCCTCAAACTGACTTGGTGACTTGATGTCTCTGACAATTGTTAAAGTTCCCTGGAGCATTGGTGCACCTAGTCTTTACACA
Celera SNP ID:            hCV809573
SNP Position Genomic:     22093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56303):
CTTTTCCAGTTGAAGACACAAATAACACTGTGCAAACTGTCAGTTTCACTGTGCCTTTGCAGGCCTGACCTTACCACCACATACCAGTCCTCCAACTCAC
Y
AGCCACCCAAGGGGCTGTTAAGAGCCAGAATTTCCTCTAGACTGTCTATTGCTTTGAAATTGCAGTTTGTTGTGATGGTACCTTATTGAGCCTTGATAAG
Celera SNP ID:            hCV7568086
SNP Position Genomic:     31611
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)   JBIC-allele(C,291|T,1184)   total(C,291|T,1184)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56304):
TGATTTGATCTGGAACCGGGCTCAGTCCTGTCCAACAGTAAGTTTCTGGTGATCACGTAAGGGTTGCTTATCAATGTTGCCAAACAAGTATTTTCCAGCC
M
ATCACGTCATATTCCATACTGTCTCACATGTTATAGTGCTCTGTTTACTTAATAAAGATGCTCACATGTTGATTGTACTAATAAGTTATAGTGCTCTGTT
Celera SNP ID:            hCV809574
SNP Position Genomic:     22505
SNP Source:               Applera
Population(Allele,Count): african american(A,14|C,12)   caucasian(A,1|C,1)   total(A,15|C,13)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56305):
AACTGTGAAATGCACTAGTCCATAAAAGTGGCAATTACACAGGCACATTGCTTTCTTTAGAACTTGATTTGGTAGCTGCTTGTGCCATTTTGTTTTTAAA
Y
GTATGGTCACAATGATGGATTCACTGCCTACTGTAAACATTTTCTGGGAAAAAAGCCAAACCTTTTCCAGTTGAAGACACAAATAACACTGTGCAAACTG
Celera SNP ID:            hCV7568087
SNP Position Genomic:     31449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   TSC_42_A(T,25|C,58)   TSC_42_AA(T,33|C,50)   total(C,108|T,58)   (T,-|C,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56306):
ATTTTCAGCCTTATGAAATCATGTGGGTTTGACCCAGTAAGCCTCTGGCTTTTTAGCTCCCTACCACATCAGCCCTTTCTGATGTAGATCTTAATCTATC
R
GTACAAGTGCGTTTTGGAAGACATCTGAGACCTTAATCTTTTCAACTTCTTTTTTTTTTTTTTTTTGCTTTTATTATTATTTTTAATTGACACATAATTA
Celera SNP ID:            hCV809575
SNP Position Genomic:     22750
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56307):
CAGTCTGGTGGTCAAGGCAAGGCACACATGGTAGTAGGCTAGAGGTATCAGAGAAAATTTCCCATGGGAGATGGAACCTGACCTAGGCTAGGAACGTTGT
R
GGGGATTTAAATTAAGTAGAGAGGAAGGAATGGGACTTTGATGTAGAGCAGGGGTCATCAAATTTTTTCTGTAAAGAACTAGATGTTAAATATTTTAGGC
Celera SNP ID:            hCV26787381
SNP Position Genomic:     10100
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56308):
TCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAAACATTGTGGAAGTCAGTGT
R
GCGATTCCTTAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGATTACAAATCATGCTGCTATAAAGAC
Celera SNP ID:            hCV26787382
SNP Position Genomic:     11667
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56309):
TTTATTTGTAACAACCAATGCTGGAAACAATGCAAATGTCTGTCACTAGTGCACAGGAATTGTGGAAAGAGAGAATGTGCATGTGTGTGTGTGTGTGTGT
K
TATGTGTGTATACATACACAATGGAATAATATTCAGCAGTAAAAGGAATGAACTATTGATACATGCAACAACATGGTGTTCTGTGAAAGGGCCATATGTG
Celera SNP ID:            hCV809577
SNP Position Genomic:     27517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56310):
AGTTCATGTCCTTTGTAGGGACATGGATGAAGCTGGAAACCATCGTTCTCAGCAAACTATCGCAAGGACAAAAAACCAAACACTGCATGTTCTCACTCAT
R
GGTGGGAATCGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACACTGGGGCCTGTTGTGGGGTCGGGGGAGTGGGGAGGGATAGCATTAGG
Celera SNP ID:            hCV26787383
SNP Position Genomic:     12010
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56311):
CCTGAACTTAAGGAAGAAAAGGGCATAGTGCTGATGACTGCAGAAATGGATTCCACATTTCTGGTAAGAATTAACTTGCAAAACTCTTTGGATTTACCTC
R
TGGCACTGAAGGTATTACTCTTCTGCCAAAGCTCATGAGAGAGAAAATTTCAAAGAGCTACATATACCTTGTTTCTTACTTATTTTAAAGTTGACAGTGA
Celera SNP ID:            hCV809578
SNP Position Genomic:     31872
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,18)   caucasian(G,4)   total(A,8|G,22)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56312):
TGTTAAATGACGAGTTAATGGGTGCAGCACACCAACATGGTACATGTATAGATATGTAACAAACCTGCACGTTGTGTACATGTACCCTAAAACTTAAAGT
W
TAATAAAAATAGAAAAAAATAAAATAAAATGACTAATTGAGTTAATTAGAACAGGATTAATAGTAAATGGGTTGCCAGGCGCAGTGGCTCACGCCTATAA
Celera SNP ID:            hCV26787384
SNP Position Genomic:     12223
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56313):
TATAGTTATATAGTATCTATACCTATTATCTTTCTAAAATTCAATAATTCTGAATCTAAGACACATCAGGCCCTAAGGGTTTCAGATAAGAGATTGTAGA
Y
AAGTAAATGGCTTCTTAATTACAGGGAAGAGTTGTATTGAAGCCTAGGATAGCTCTCAATATTTTATCTTCCTTCATACTGTTCATTTATACAACATTCA
Celera SNP ID:            hCV809579
SNP Position Genomic:     32335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56314):
GCGTGGAGCCAGGAGGCGGAGCCTGCAGTGAGCGGAGATCACACCACTGCACTCCAGCCTGGACGACAGAGTGAGACTCCATCTTAAAAAAAAAAAAAAA
R
AAAGAAATTTAGCTTTATGATAAAATGTAGAATATGTAAAGATTTAATTTAAATTGTGGCAGCTCTTAGGTAAATATTCACTTGCTATCTTCTGTATCTA
Celera SNP ID:            hCV26787385
SNP Position Genomic:     13125
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56315):
AAATTCTCCCTTTTCTACCCTGAAATAAAACAATAGGTATGTAAAAATATAACCTACCTGTATGTATAACCTCAGGTGGGAAAATCAATATAATGCCCTA
M
CCATAATATAAAGAAAAGTATTTTTTAACAAAATACATATTTTAGCATGTAAATATTAGGGCACGACTACACTGTGAGACCTAATGTAGTCATGAGGTGC
Celera SNP ID:            hCV26787386
SNP Position Genomic:     13453
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56316):
AATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTACAGTGAGCTGAGGTCATGGCACTGCATTCCAGCCTGGGC
A
AAAAAAAAAAAAATAACAGATGGGTTAATTATAATAAGGTTGGGGAGCAAATTCAACTCCTATGACAAATAGAGTTTACAACTTTATGTGAGCAAACAAT
Celera SNP ID:            hCV11871655
SNP Position Genomic:     12557
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56317):
TAGATGATAGTTTACTGAGAGAGAAATCTTATCTCTGAATCTCAGAATCTTAGAAGAAAGTTGTTTTCTTATAAACAATAATTTTTATTTTTATTTCTTT
W
TATTTATTTATTTTATTTTATGAGACAGAGTCTCACTCTGTTGCCCGGGCTAGAGTGCAGTGGCGTGATCTCGGCTCACTGCATCCTCCGCCTCCTGGGT
Celera SNP ID:            hCV26787387
SNP Position Genomic:     15810
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56318):
TGACCTTTATGAGAGATAATGGCTACGAGACAAAATAATCACTTTCAGTTGTTGGTGGCCTTTTTTTAAGGGTGTCTAATTTGATAGAGGAAACATTAAG
A
TTGAACACTCAAAATGACTCTAGTCTGCTGAGGATGCCTACCATCAAAGTGTTGTCAGAGATAAGCAGTATCCTTGGATAACACATCTTTCCATTTCTTA
Celera SNP ID:            hCV11871656
SNP Position Genomic:     15486
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56319):
CTCTGAGCATGTGGGTTTTCTTATACTTGTTTTCTACTTTTGGAAATCTGTTTCATTGTCCTGACATGTTTGCCACAGGCTTAGAGATAGAGTTAAGCTG
T
TTTTTTTTTTTTTTAATTATGTGTTAATTGCTTTTTATTGTCTCTTTCAAGACTCTCAGTTCAATCTTTAACATTGAGATGGTAAAAGAAAAAACTGCAG
Celera SNP ID:            hCV26787388
SNP Position Genomic:     16781
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56320):
AAGGTAATAATAAAAGGCAAAAGTGATGAATTACTTGAAGAACAATGTCATAAGAAAACTTGTCTTCTTTGTCACTCTTATATGTCTAATCAACTTGTAT
K
TCTAGTTTCTTTTTCATTCCCATAATCCACATCTCGTGTAACCCTCATCAGTACTCTGTACCTGGATTACTGCACTACCTTTCCAAATAGGTTTCCCTTC
Celera SNP ID:            hCV26787389
SNP Position Genomic:     17095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56321):
GTATGAGAGGGGTACTTCCTGCTCCCAAGAGGAGCAGTCTGGTGGTCAAGGCAAGGCACACATGGTAGTAGGCTAGAGGTATCAGAGAAAATTTCCCATG
R
GAGATGGAACCTGACCTAGGCTAGGAACGTTGTGGGGGATTTAAATTAAGTAGAGAGGAAGGAATGGGACTTTGATGTAGAGCAGGGGTCATCAAATTTT
Celera SNP ID:            hCV3073208
SNP Position Genomic:     10066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56322):
CCTTTTGGTGGTTATGATGGTATCGCTATCTTTTTTTTTAATCTCTCATATATATATACCCTTATCCTACATGAATTCAACAGCCAGAAGAAGAGTCTGC
R
CTTTTTGTGATGTTTTAGATCTCTGATACTGACTCATTGTTTAAACAGGCCTTCTTACCTCTCCCTCAAACTGACTTGGTGACTTGATGTCTCTGACAAT
Celera SNP ID:            hCV16238868
SNP Position Genomic:     22050
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56323):
CAAGAGCTTTGTGGCCCTGTGCAAGAAAGGACCTCATTATTCTTTTTACCTTACAGAATGTTGCTGAGGCACAGTGCATCGCCAACCAAGTTCAGCTCTT
Y
TACGCTACTGATCGGAAAGAGACCTACGGGTTAGTGGAGACCTTTAACCTCAGACCAAATGAGTTCAAATATATGTCTGTCATCGCTGAATTGGAGCAAA
Celera SNP ID:            hCV27955275
SNP Position Genomic:     39111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56324):
GTCTGTGAACTTGATCATTATGGGATTGTGTTAGGAACTGTGCTAAGACTTGGAGATCTGTGAGACAAGGTCCCTGCCTTCATGGAGCTAATATTCAGGT
W
TAGGAGAAAGATCCAGAAACATAATTACAATAAAAGTGATTAGTATAATATTAGAATGATGACCAAAATGATCAGTGTAACATTAGAAGTATGTTCAAGA
Celera SNP ID:            hCV7568091
SNP Position Genomic:     30872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56325):
CCATCCCTGGAGAGATGAAGAAGCATCAGCAAAGATTAAGAAGGAATGGCCATGAGGTAAAAGGAAAATTAAGATGGTAGAATGCCCTGGAAGCTAAAAT
Y
GAATGTTTCAAGGAATAGGGACTGCTCAACTCACCAAATCTCCCTTGTTTATTAGGGCAAATGAGATTAGGACTGAGAATTTACTGATTTCACAAACATG
Celera SNP ID:            hCV809580
SNP Position Genomic:     33310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56326):
ATACCTGGCTTATTTTTGTATTGTTGTAGAGACAGGGTTTCACTTTGTTGGCCAGGCTGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCACCACCTTG
R
CCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCTGACATTTCTTTATTGATCTAACATGCTCCACTCTGCTGCTCCTGCCTAAGATC
Celera SNP ID:            hCV7568059
SNP Position Genomic:     40660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56327):
TGACTCTGAGTCCAGGGTCCCTAACACCACCTCTTAGCTTCCAGAGGGAAGGATCTGGAGCTTAGAGGGGCTTAAGGTGCATATGAGGGGCTATAGGAGC
R
TCTGAAGAGTTCAAGTGGGAAGAGCTAAAGGAGATCAGAGGTGAAAATTAAAGGGGCTTGGGAGAGAATTTAGCAGGGTAAGAAGGTAGTTGTCTTATGA
Celera SNP ID:            hCV809548
SNP Position Genomic:     7634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56328):
TTCAAAACATTTAAAACTTTTAAAATAAAAGTCAATATTTTAAATCATAACTAGGATTGGCATTCTATATTTGGAGGTCAAATGTGGCAAAAAACAAGCA
Y
GAATTATATTGGCTTTGAAGTTGGGGTAAAGAATGCAAAATAGAATGAAGGAACAGCTTTTTACTTTGCTATTTTGTAATATGTCTAACAACCCTTTATT
Celera SNP ID:            hCV7568092
SNP Position Genomic:     30468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56329):
TACCCTAGTCCCTGCCAGTCTCTCTCTAGTTTTATCTGTTAGCAAACTTCCTTTGAAAAAGAATGGAGAGGAGGGGATGTTCCAGGTAAGGGGAGCAGCA
R
CATAAACAAAGGTACAGAGGCATGAAACCACCTTAACCATTTGGGGATGTTTGAGCAAATTTTCATCATAATACCTGTTGTACTTTCATTTGTTTACTTT
Celera SNP ID:            hCV809549
SNP Position Genomic:     8380
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,21|C,61)   TSC_42_C(C,32|T,50)   TSC_42_AA(T,28|C,52)   total(C,145|T,99)   (T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56330):
TATAGCTCCCAAATGATGAGTTTGTCATCTTTATGAACTCATGACAGGATAATAAGCTTGAAGACCTGCTGTAGTTAGATATGGGCTTTAATCCTTCCCA
K
GCACCAGTCAGCTGAACAAAAGCATAAGCCAAACATCCTGTTTAAACTGTAGAATAACCAGATATTCCCATCAGGTTAAAGACTTCATCTAGATGATGCC
Celera SNP ID:            hCV809581
SNP Position Genomic:     39694
SNP Source:               dbSNP
Population(Allele,Count): (T,-|G,-)   Caucasian(G,1|T,81)   African-American(G,39|T,43)   total(G,40|T,124)no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56331):
GAGGAAATGATGGAAAAAGGAGTAAGAAGTGGCCATTCGTTTTAATCATTCCTCCTGGATTTGTCCTCAGTCCCCAACTGCCAAGTAGGATGTGTCCATG
K
ATAAATGTGTGGGGCATGACTAAAGTACCACGTAGCTGTTCTTTATATTTATTTACCTAGAAAGATCTGGCAAAGAACTCAAAGAAAATTGTACCATTTA
Celera SNP ID:            hCV809582
SNP Position Genomic:     41363
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56332):
GAAGAACAATGTCATAAGAAAACTTGTCTTCTTTGTCACTCTTATATGTCTAATCAACTTGTATGTCTAGTTTCTTTTTCATTCCCATAATCCACATCTC
S
TGTAACCCTCATCAGTACTCTGTACCTGGATTACTGCACTACCTTTCCAAATAGGTTTCCCTTCTCCTTTTTTTTCCACTCCACCCATAATATTCTCATC
Celera SNP ID:            hCV26787390
SNP Position Genomic:     17131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56333):
AATATACAATAAATTATTGTTAATTATAGTACTCCATAGTGCCGTAGAACACTAGAACATATTTCTCCCATCTAGCTGTACTTTTGTATCCCTTAACCAA
M
CTTTGGCTATTCGTTCCTCTAGTAACCACTCTCCTACTCTCTCCTTCTATGAGATCAGGTTTTTTTTTTTTTTTAGCTTCCAACATGTGAGAACATGTGG
Celera SNP ID:            hCV7568098
SNP Position Genomic:     24137
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56334):
TGTATTAGGAACCTGGTCACAAATGTTCAGTGACTTCCTGTATTCCTTTTCTGGGCATTCATAGCTCTCCATTATCACAGGACCTTCTTCAGGAAGCTTC
Y
TGAACACTTTCCTTCAAAGCACTCATGAGCTATCCTGCCTGTTTGGTCATTTATATTTTTATACCTGTGATTCTTTTCTCTCTAATAAGCTATTTTTCTG
Celera SNP ID:            hCV26787391
SNP Position Genomic:     17633
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56335):
GACACAATGGGAGGTAATTGAATCATAGGGGCAGTTACCTCCATGCTGTTCCCATGATAATGAGTTCTCACGAGATCTGATGGTTTTATAGGGGGCTTTT
R
CCCCTTTTGCTCATTCTTCTTCCTGTCACCATGTGAAGAAGGATGTGTTTGCTTCCCCTTCCACCATGATTGTAAGATTCTTAACGCCTTCCCAGCCCTG
Celera SNP ID:            hCV26787392
SNP Position Genomic:     19940
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56336):
GCAGGGACATGGATGAAGCTGGAAACCATCATTCTCAGCAAACTATCACAAGGACAGAAAACCAAACACCGCATGTTCTCACTCATAAGTGAGAGTTGAA
Y
AATGAGAACACATGGACACAGAGTGGGGAACACCACACACTGGGGCCTGTCAGGGGGTGGAGGGCTGGGGGAGGGATATCATTAGGAGAAATACTTAAAG
Celera SNP ID:            hCV26787393
SNP Position Genomic:     20266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56337):
TTAAAGTAAATGACAAGTTGATGGGTGCAGCAAACCAACATGGCACACGTATACCTATGTAACCTGCATGTTGTACACATGTACCCTAGAACTTAAAGTA
Y
AATAATAATAATAATAATAATAATAATAATAAATAAATAAATAAATTGCCCAGTCTCAGGTATATCTTTATTAGCAGTGTGAGAATGGACTAATACAATA
Celera SNP ID:            hCV26787394
SNP Position Genomic:     20461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56338):
TCTCACATGTTATAGTGCTCTGTTTACTTAATAAAGATGCTCACATGTTGATTGTACTAATAAGTTATAGTGCTCTGTTTACTTAATAAAGATGCTCACA
Y
GTTGATTGTACTAATAAGTGACATTTTCAGCCTTATGAAATCATGTGGGTTTGACCCAGTAAGCCTCTGGCTTTTTAGCTCCCTACCACATCAGCCCTTT
Celera SNP ID:            hCV25988363
SNP Position Genomic:     22627
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,10)   total(C,12|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56339):
CAATAATTTTTAAAATAGTGTTAAAATTTTAGAACAATTATTATAAAAAGTGGAGAGAAGTGAGTTCTCACATGCAAAATTATTTAATGAGATTGGGTAC
Y
TCACCTAGCTTAGTTACCTTTTTTCTTATGAGTAAAGTGTAGATTAATATCTTGTCTTATATATTTCAGACAGATGCCTTGGGGAAACAGTCTGTGAACA
Celera SNP ID:            hCV3073210
SNP Position Genomic:     16215
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56340):
GAAGCTCTTTAGTTTAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGAC
K
GTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTGTATA
Celera SNP ID:            hCV26787397
SNP Position Genomic:     23416
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56341):
AATAAAATAGAAAAGCAGCTCATAGGAAAACTTCTGACTGTAATATCAAGGGAAACTGCATGGAAGAAGAAGCATATAGGCTCAGCTTCAGAGTACAGGA
R
GAATTTGGGAGGTCAGAGGTAGGAGAGAGAGGCTTTCTAGTCAGAGCCAATAACATGTAAAAAGGCATGGGAAGGCAAAAAAAAGGTAGTAAAAAATAAG
Celera SNP ID:            hCV3073211
SNP Position Genomic:     19275
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,9)   total(G,5|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56342):
TCTAGTAACCACTCTCCTACTCTCTCCTTCTATGAGATCAGGTTTTTTTTTTTTTTTAGCTTCCAACATGTGAGAACATGTGGTATTTGTCTCTCTGTGC
R
TGGCTTATTTCACTTAACATAATGTTCTCCAAGCTCATCCATGTTGTCACAAATGACAGAACTTGTTCTTTTTTGTGGCTAAATAGTATTCCATTGTGTA
Celera SNP ID:            hCV26787398
SNP Position Genomic:     24255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56343):
AAAGTCAGTTCTCTAACCTTAGCAGGCAGTTGCCTTTACTTTTCCTATGTTTATTGCCTCTTGAGAAGCTGCATTTTACAGCCCTGAGAGTTTTTATTAT
R
CCCTGAGCACCAGAGATTGGAAGCTCCATATGGTATATTTATGGCTCTTGTTTTCCTCCTTTCTACTTTAGAAATGTCTCTGAGTCAAGTCTCTGACAAG
Celera SNP ID:            hCV3073213
SNP Position Genomic:     21346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56344):
AGATATCTCTTCAACATACTAATTTCCTTTCCTTTGGATATATATCCAGTAGTGGGACTGCTGGATCATGTGGTAGTTCTCTTTTTAGTTTTTTGAGGAA
M
CTTCATAATGTTTTCCATAATGGCTATACTAATTTACGTTCCACCAATATTATACAAAAGTTCCTCTTTCTCCACATCTTCACCAGCATTTTTTTTTTTT
Celera SNP ID:            hCV26787399
SNP Position Genomic:     24557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 312
Celera Gene:                 hCG17833 - 206000044641916
Gene Symbol:                 ADAMTS4
Protein Name:                a disintegrin-like and metalloprotease (reprolysin type) with thrombospondin type 1 motif, 4;ADAMTS-2;ADAMTS-4;ADMP-1;KIAA0688
Celera Genomic Axis:         GA_x5YUV32VSLS(235694..257007)
Chromosome:                  Chr1
OMIM number:                 602985
OMIM Information:            NADH-UBIQUINONE OXIDOREDUCTASE Fe-S PROTEIN 2;NDUFS2


Genomic Sequence (SEQ ID NO:12472):
TTTTTTTTTTTGAGACAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAATGGCGTGATCTCGGTTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCT
CCTGCCTCAGCCTCCTGAGTAGCTAGAATTACAGGTGCGTGCCACCACGCCTGGCTAATTTCTGTATTTTTAGTAGAGGCGGGGTTTCACCATGTTGGCC
AGGCTGGTCTTGAACTCCTGACCTAAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGTGAGCCACCGCATCCGGGCTTTAATCAAGTTTTAATCTCCTTA
GACCATAATTTCCTCACAACTGGGGTAATACTCTCATAGAGCTGTTGTAAAGATTAAACAAAATAATGCATACGAAAATGTTTGGCAAATGGTAAGCACT
CAGCTATTGTTACTGTAAGTTTGTGGAAAGTAACTGGAAGTGTCTTTGAAGGTTTTGGAGCAAGAGTATGAATAACATGGTAAAATAATGTTTGGGGAAG
ATGAAGGTGATGACACTGTATAGGATAGATGGAAAGGGGACAACATCAGCGGCAAAAACTCAGTGAATAGACTCCTAAAATAATCAGGGTCTAATACAAG
ATAAATCTGAATAAGAATGATGGCAATAAAAATTAAAAGGGAGAGATGACCAGATATGAGACATTACGAAAGTATCTACATGGTTTGGTAACTTACTGGA
CATAGACATGGAGGGCAAGATAAAACAGCCAAAGATGACTAAAAAGTTTCAATCCTGAGGGATTAGGAGAATGAGGGTGCCACTGATCAAAATCAAAAGT
CAAAAGGAAGAGCTAGTTTTGATAGGAAAAAAAATGGTTTGTATTCATGTAGGTTTCATTTGGTTACCAACGGGAAAACCACCACCTTGTCTGGAGAGGG
AGATAATGTAGTGAACCTGAAATATATTGAACATGGGAAAAGCTGGCATTAATATTTAAATTGGTAGGGACTTTTGGGTATTTACTGGGACCCATTCTTT
ATTTTCTTCTGCAACATCCTTCCTTTCCTTCTCTACTTCACAAATACCTGTTGTTATCACTATTATGTCTGTTGAATTTCGTGGTGAAAGAAGCAAACAG
GATAGGGGCTAAAATTTGCCTAAGACAGAGAGCTCAAGAGCACTTAGAAATCAGCTGGAGGCCAGGCATGGTGGCTCAAGCCTGTATCTCAGCACTTTCG
GAGGCTGAGTTGGGAGGATTACCTGAGGCCAGGAGTTTGAAACCAGCCTGGTCAACATAGCAAGACTCTGTCTCTACAAAAGGAAAATTTTCAAAATTAG
CCAGTTGTGGTGGCACAGGCCTGTTGTTGCGGCTTTCTGGGGAGGCTGAGACAGAAGGTTGCCTTGAGCCCAGAAGTTCAAGGCTACAGTGAGCCACTTT
CGCACCACTGCACTCCAGCCAGGGAGACAGAGGGAAACCCTGTCTCAAAAAAAGAAAAGGAAATCAGCTGGGGGCAGGGATGGGTGTGGGTTGGGACAGC
AACTCTGGTCACTCACCATTCCAAGGTGGAGGCTTCCAGTGGGCTGTTTCTTTGCTTGGGTACATAACAGCTCCCCCAAACTGCTGTGCCCATTCCACAT
CTGGCTGCCACTGCCGAACACCTCTGGGGAGTCAAAGACAGATCCTAGACAAAGGGCCTGAACAGTGTTTGGTTCCTGTGTTCCCATTCACTCTCAAGGG
GACCCAGGAAGGATGACCTGTTTTTTTGTTTTGTTTTGTTTTTTGTTTTTTTTGAGACTGGGTTTCACTCTTGTTGCCCATACTGGAGGGCAATGGTGTG
ATTTCGACTCACTGAAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGAGATTACAGGCATGCGCCACCAAACCCGGC
TAATTTTGTATTTTTTTAAAGACGGGGGTTTCTCCATTTTGGTCAGGATGGTCTCGAACTCCCGACCTCAGATGATCTGCCCGCCTAGGCCTCCCAAAGT
GCTGGGATTACAGGTGTGAGCCACCGCGCCCAGCCAATGTCCTGGATTTTTTAATGCCAAGTCACTGATCTGAAGTTAATGTAGCTTCGGCAAAACAAGC
TGGAACTCTAGAGGTTCCATTCCTACTAACAAATTATTCCTGGAATAACTCCACCCATCACCCCTGGGCATGCAAGGTTGGGATCCTAGCTTCTTCATAT
TTTCATCATATTGATATTATCAACCAGGTGAATATGAACGTGAGAAAAGTGTTTGTTCAAGGTCAACGACAGAGAGACAGCGAGCATTCTGGCTCTTTGG
CTGAGCTCTACTCAGGTATGACAGGAGAGGTGCATTCAAATTACTGAAGCTAAAAAGCAGAGTCTCCCACTCCGCTGATTTCACCTCGGCACGAACGAAC
TCTAGACCCTCTCCCCTCCCTCGCCAGAGTGGGCGCCACTGCATCCCGTAGCCCAAGAAATCAGGGATGGACAATGGGGTCACAGGCTTGGGTTATTATT
TTCTGGGGGAGTAAAGCGTCCCCAACCTGAGAAACCCTAGCCTTGGAGAAAGTGTGTCGAGAGCTGCCCTCGATCTCACCTGCTGGGCTGAATCGGCAAT
CGGACTCCAGCCCCAGGCCGCAGCACCTGGGCCGCGACGCCCCGGAAGCCGCACAAAGCCCTCAGCGCCGCCATCTTACTCCGGCTGCAGACTGCGGGAA
GGAGAACCGGGCGGAAGTAACTCCAGCGCGCCTCCTTCTTGGCTTCTCACCTATTCGCACAGTGAAGCCGCCCTCTTGGAAGCTGGCAGGGTCGTTTACC
GTCGAACTGACAACATCCGGGTCCTGTGACTCGGCTTCACTTGCGTTTAGATAACAGTGACCGCGGTCATCTTTACTGAGGGCGTTTCCTCCCACAGCTC
CTGGCTGGCTTTTCTAGGAGCGAGCAAGGGAAAATTGCCGTTCCTGCGTGGGGCAGATACTTCGTGCTCTCTCGCCGAGCCCGCCTGCGTATCTTGGAAA
CGCGCGGCGCTTCCTTCCCTACTCCCTTCCGCCTTGGCCGCCCTCATGCTTTAGTCCTGCTCTCGGATTGTATCTGAGCCCTGCCCTTATAGGGTAGCCC
CAGGCTTTGCCAATTACTTTCCCATCACTGAATCCAAAAGACAGGAGTTGGGAAAGCCAGCTAATTTCCAGATGTCATAAATTGAGATTGGAGAAAGGAG
CCTAAGTGGGGCTGGGCGGGTCTGAGAGCTCCCGCCAAACCAAAACAAAAAAGAATAGGATGCCAAGGCCGCCGGCATTGGTGGTGCGGAGGGGAGTGTC
GGGGTGTGTAGGAGCCACCTCATCCCAGATGGGGGAGTGGAGGTCCTCTGTGGGTGACCCTGACATCCTCCAGGCTTCCCGAACCTACAGAATCACAGAC
CCAGGAAGCGCCCTTAGAGATGCCTCACACCCCACTTCCGTCTTGCGTCAGCCTCTTTTCCCTAACGTCTTTCTGACCCTGCTATAGCCCTCCTGGGTAA
TGGCCAACAGCACGGAAATGTAGTAGCACCAGGAGTCTGATCACAATTCTGTATGGACAAAGATTCTTCCAGCCTTAGAGGCTAGTTCCTGTTTTCTCCC
TCTGCCTCTAAGCCCAACTCCAGCTGGGCCACCCACCCGTAGAGTTTGTACAACTCTCCAACTCTGAGCCTGGAAAGAGGCCTTCCCCAGATATCCCCTA
GACAGGATCCCAGGGACACAGCCCACCAGCAGCGCAGCAGGGTGAGGCAGACAGACCAGGAAGCAGAGATGGTGGAATTCTTCACTGCAGAGAAAGAGGG
GAAAGCCAGACTTCTGGCCTGGGAATTGACCTAATGGGAACTGTACCAAAGGGTGGGGCCAGATCCTTAGCTGTGGGAACTGACCAGGACCTGGGCTAGA
CAAGGCAGCTGCCACAGAGCCAGGGCAGAGGTTTGGTCCCTCTGTTGTCCTCATTCCTTGCTCTTTCCCTGGGCCTTCTTTCTATTGTTGAAACACAGCA
AATGTGGCCATGGTGGTGGGGGATGGGAAGGACTGCATTTATTTGCCTTGATCCAGCCTGGGAGAAGTCAGGATAGACTTTGGGCTGCTTGGCCCTGGAG
GCAGCTTGAGCTGGGACTGGGGTGGGGGGCTCCTGAGGGGCTGCCTAGGACACTGCAGCTTTTGTGCCTTCTCCCTGCTGCCAACACCCCCACACACACT
GCTGCAGCCACTCTAAAGCCCTTTGTCTTTCATTGCTTAGTCACCCCCTTTGTCCTCATCTCAAATAGGGGAGTGGAAAGGGGCAGTAGAGTTCTCTGGT
GATAGCTCCTCTTGCCCCTGCCCCTTCTGGTCTCCCACCCTTTGTCCGACTCCTCTAGTCCCAGCCCCGTTGGCTTAGAACCAGGGTCAGGCAAGTGGTG
GGTCAAGAGGTGGGTCTGGCAGTCACAAGGGGGTGGGTGATCCAGGAAGTGATAGGCACCAGGGCAGGTATTACCGACCTGAGCAGGAAGGGAGGGGGAA
AGGAAGTATTCTGACGGATATGATATGCGGGGGACAGGAGGTGACAAAGCAGAGTGAATAGGGGAATAGAGGCAAGAGGAGGTGGTCCACTTCTGGGAAA
GGAAAGAGACTGCTGACTGCACTCTCCTTCCTGGGGATTTCCTGGGGAAACAAGCAGCCAGAGGATGGGGTGAGCAGAAATTGCCCCTACTTCTGAACCC
TTCCTTGCCTTGAGAGTTCATACCCAAGACCTCTTTTCCGAGTTCCCTCCTATCCAAAGCCAAAGGAATAATTTGCTTCCTTTCCCTAACACCACCTCTT
CCTCCCCAGCCACTTTCCCCACCCCAGGCAATGGATTTCTCCCAGTACCCTAATTTCCCTATATGCACAATGCTGTCTCCACCCTCTCCCTGCCCCAGGG
AGAATTAAAAAGAAAAGATGACTAGATATTCCAGGAACCACTGGGTTCTCAGAGCAAGGTGGGGTGGATGGTGGGAGCCAGGTGGGGATTCTCCCAGATT
GATACTGGGTGAATCTGGGTTCCTGAGAGCAAGTCTTGCCTATGCTGGGGGCTGGCTGACTTGAGGCTGGGGGAGGGTTTAGGGCAGTTGGGAGTGGGTA
GGAGCAGGGCCAAAAGCCTGGGGGAAGCTACTGGGAGCTGGGCCAGGGAAATGGGGAGTCAGGAAGTGGGGAGGGGGAACCCTGGGGGGAAATGGAGGCG
GAATGGCTGTTCTGGGCTTTGGAGGGGGTGGGTAGTGGTAACTCAGGAAGGGGGATCCTGAGGGAGAGAAGGGACGTTAGAAAAGAGGAGGTGCCACCCT
GGATCCGCCTTCTATAAAAGGAAAAGTCGTTAACCCCTCCTGCCTTGTCATCTGCCGCCTCTGTTATGTTCATTCCAAGCAGGATCATCCTACCTTTGGG
CAGTCAACTCCCTGATCACTGTCTCCTTGCCTCCCCCAATGTTCTGCCTTTTTTACTCTTCCCAGCTGCTCAGTTCTATCCTGAGCCATGTCAAGCTACC
TCTTTTATTTGTTCTTCCCTCTTGATGCCTCCTTACCTGTTCCCTACCCTCTTTTCTCAGGCAGCTCACTCAGTCCCCTCAGCCCTGGAAACCAGCCACT
AGGGCCAAAGGGCAGCATGAGGGAGCCTTGAGAAAAGAGAAGCCATGGTAGGTTAGACTATAAGAGCAGGAATTCTCCCAGGACCGTGATCCTATCTGTG
CATGCCGGCCAGGCCCTTTCCCTCACTCTCTGCCTCTCCTGGGGCTCTGTCCCACCAAAAAGGGAAAGAGACAGCTGAGGGCTGATTGTGGGGTTTGGGA
AAAGGCTATGTCATCAGCTGGCCCAGTGCCTATTATCCATTCGGCTGCTAGAGATTCCCCTCCCCTGGGCAAGTCCCATTTTTTTGGGAAGCGATGATAC
ACCCATCTGAGTCCCACCGACAGAGCTCAGCTGAGTGGCTTAGAGATCAGCCAATCAATCGCAGAGGCTCACCATGCTTAAAAGAGCTGGCGCGGAGAGA
GGCTGGGGAGAACCCACAGGGAGACCCACAGACACATATGCACGAGAGAGACAGAGGAGGAAAGAGACAGAGACAAAGGCACAGCGGAAGAAGGCAGAGA
CAGGGCAGGCACAGAAGCGGCCCAGACAGAGTCCTACAGAGGGAGAGGCCAGAGAAGCTGCAGAAGACACAGGCAGGGAGAGACAAAGATCCAGGAAAGG
AGGGCTCAGGAGGAGAGTTTGGAGAAGCCAGACCCCTGGGCACCTCTCCCAAGCCCAAGGACTAAGTTTTCTCCATTTCCTTTAACGGTCCTCAGCCCTT
CTGAAAACTTTGCCTCTGACCTTGGCAGGAGTCCAAGCCCCCAGGCTACAGAGAGGAGCTTTCCAAAGCTAGGGTGTGGAGGACTTGGTGCCCTAGACGG
CCTCAGTCCCTCCCAGCTGCAGTACCAGTGCCATGTCCCAGACAGGCTCGCATCCCGGGAGGGGCTTGGCAGGGCGCTGGCTGTGGGGAGCCCAACCCTG
CCTCCTGCTCCCCATTGTGCCGCTCTCCTGGCTGGTGTGGCTGCTTCTGCTACTGCTGGCCTCTCTCCTGCCCTCAGCCCGGCTGGCCAGCCCCCTCCCC
CGGGAGGAGGAGATCGTGTTTCCAGAGAAGCTCAACGGCAGCGTCCTGCCTGGCTCGGGCRCCCCTGCCAGGCTGTTGTGCCGCTTGCAGGCCTTTGGGG
AGACGCTGYTACTAGAGCTGGAGCAGGACTCCGGTGTGCAGGTCGAGGGGCTGACAGTGCAGTACCTGGGCCAGGCGCCTGAGCTGCTGGGTGGAGCAGA
GCCTGGCACCTACCTGACTGGCACCATCAATGGAGATCCGGAGTCRGTGGCATCTCTGCACTGGGATGGGGGAGCCCTGTTAGGCGTGTTACAATATCGG
GGGGCTGAACTCCACCTCCAGCCCCTGGAGGGAGGCACCCCTAACTCTGCTGGGGGACCTGGGGCTCACATCCTACGCCGGAAGAGTCCTGCCAGCGGTC
AAGGTCCCATGTGCAACGTCAAGGCTCCTCTTGGAAGCCCCAGCCCCAGACCCCGAAGAGCCAAGGTAGGCATCTCTGGAGTCTGTGTCCTGCGGTGTCC
TCCCGCCATGTCTGTCCTACTGACCCCTATTCACCCTCTCTCCACCCACTTMCACTTCTGGCCGTTCTGCTTCCCTCCCTTCTGCCTGCCTTTCCTTTCT
CCATGAGCCTCCTTTCTTGGTAAGGCTCAGGCCTCTCCCCTTCACCCTTCTCCTAGCCAGACCCACCGAGGGTTCTCAGAGGTGRGTCACAGACTCTGGG
CTGGGAATAACTGCTCCCTCTCCCCACCCCACCCCTTCCTGGCCATGGCATCTCCTACTGACACAGTCCCCAGCAGTAAAGGTCTCCTAACAGCCCCTTG
GCCTTGGCTCTTTTCTCTGCTCCAAATTTGATTTTCATCCCCCACTCCCAGCTATAGGAGTCAGGTTTGAGGCCCTAGGGCTTGGTGTCTGGCTTCTGMT
GCTGCCTTTAAAATCACTGTGGCAAACTGCAAACTAGGGCAGGAGTGGCAAGAGAGGGAGGGTATCCCATACCTCCTTCTGGTCAATCCCCTTCACACAC
TGTGGCCGGACTGCGAGGCTGCCTGAGGCTCCATCCTTTCCTCCCTCCCACTCCTGGTCTCCCCCTTCTTCCCTTCCCTCCTCCCTCCTCCCTCTCTAGC
TTTAATCCAGACCAGACGCTCCCTCCACAACCGCCACGCTGAGCTCTGGCCCTGGCCCTAGCTGCTGACTGAATCGTTCCTCCAACCACACAGGGCAGAC
ACGTTGCAGCCCAGCCCTCTAGCCCTGGTCCCATAGGCCCCAGCCACACTCAGGCCTGGAGAACCCCAAAGTCCCTCCTGACGGCAGTCCAGGCTGCTTT
CACCTCTGGGGCTCCCGCAGCCCTGGGATGTGGCGTCCCCTTCTCCTCCCCTTCTTAGAACCAGCTGCTGACTCCTCAGAGTTACCACAAAAGCCCTGAG
ATTTGGCGTTGGGGGAAGGGCCCAACCAAGACCCGCCAGGAGTCAGGAATCCCGTGGGGTGTGTGGGGCCCAGCTGACTATGCTGAGTTCCAGACCCAGG
AAGTGAGGGATTGGAGAATCGACCGAMCCATGGGTCTGAGAGGCTATTTCAGGATCTTCCTCTCCCTTTTTCTCTACAGCGCTTTGCTTCACTGAGTAGA
TTTGTGGAGACACTGGTGGTGGCAGATGACAAGATGGCCGCATTCCACGGTGCGGGGCTAAAGCGCTACCTGCTAACAGTGATGGCAGCAGCAGCCAAGG
CCTTCAAGCACCCAAGCATCCGCAATCCTGTCAGCTTGGTGGTGACTCGGCTAGTGATCCTGGGGTCAGGCGAGGAGGGGCCCCAAGTGGGGCCCAGTGC
TGCCCAGACCCTGCGCAGCTTCTGTGCCTGGCAGCGGGGCCTCAACACCCCTGAGGACTCGGACCCTGACCACTTTGACACAGCCATTCTGTTTACCCGT
CAGGTGAGGCCSCAGTCAGCACCGCAGGCCATGCACTGCACAATTCTAAGAAGCGCCACTACATAGACTATGATGCAAATGATGTTCCTGGAGTTGTGTG
ACATGGTGCCTTGCCCCAGCCACACTGCCATGTGTGGCTACCTAGGCCCTGACAGTGCTGGGTCCTCAGTGCCCAGGTCCCCGGGAATCTGGATCTCAAC
CCAATGGACCCAGGTGTCTTGGCTGTCTATGCACCTTCTATGATCCCTCTCCACAGGACCTGTGTGGAGTCTCCACTTGCGACACGCTGGGTATGGCTGA
TGTGGGCACCGTCTGTGACCCGGCTCGGAGCTGTGCCATTGTGGAGGATGATGGGCTCCAGTCAGCCTTCACTGCTGCTCATGAACTGGGTAAAGTAGGG
GTGGATGAGAAAGGTATTAGGGAGGAGAAGGTGGGGGAGGGGGTAGCAAGTTCACCACAGTGTTAATGGGGGTCCCAAGGTATTCTTCCCCCAGGCCTAG
GTATAGGGCTATTACTCCTCTCTGCTCCAGGTGTAGACATACATTTACATTTTTCTATTAAATAAATTAGTTGGTCGAAACTACTGTGAACTCCTCKGTG
TGTGTGTGTGTGTGTGTGTGTSTGTCTGTGTGTGTGTATTTGGAGGGGGAGTCAGAGACAATGGGTGGGGTCACAGTTGGGAATGTTGGCTATAAGGAAA
AGTGGGTAGGGAGGGACCCTGAGTATATTTTGGGGAAGAGGAGACAGAGAAAGAGACGGGGCTACATACTGGGAGCCCTGAGAGTACCATAAAGGAAAGG
ACTGGGGGCAGGGTGAGGTGGGTAATGGATCTGATCATCCACAGCTGCAGCCAGATTTATTATGGAGTCCCTCAGGGCATGGGGAAGGGACCCTCAGATC
CTATCAGGGCCTTTGCTCCCACAGGYCATGTCTTCAACATGCTCCATGACAACTCCAAGCCATGCATCAGTTTGAATGGGCCTTTGAGCACCTCTCGCCA
TGTCATGGCCCCTGTGATGGCTCATGTGGATCCTGAGGAGCCCTGGTCCCCCTGCAGTGCCCGCTTCATCACTGACTTCCTGGACAATGGCTATGGTAAG
CAGATGGCACTTACCTTTCCCTGGGTAGCACTCAATTCCTGTCCTCCAGGGCACTCTCACTTCCGCTGCATTCTGCATGGACCAAATTGCCTCCCCCAAG
TGTGCTTCCTCTGCAGTGTGGGAAGGGGTGAGAAATGCTGCTGTCTTTGTGTAGTTCTCACTTCCTCCCAGAATAAATAGCATAGCTAGAGGAGGCGAAT
TTTGGCTYAGTAGAATTAGAACTGACTTTCTGAGGGCCAGAACTGTCCACCACTGGAATGGGCTGGCTATGAAGGAGGTGATTACCTTGTCACGCAGTGA
GGTATGCAAGAATAGCAGGATGACTGCCACTAGGCAGAGATGTTGATGAGAAGCAAACTCAAATATTCTATAGTTGGTTAGAATAGGCAGAATTGAGTTC
CTATCCTTACTCTGTTTTGTTTTGTTTTGTTTTGTTTTAAATACAGATGTGGTCTCACTGTGTTGCCTAGGCTGGTCTCGAACTCCTAGGCTCAAGCAAT
CCTCCCACCTCAGCCTTCCAAAGTGCTGGGATTACAGACATTAAGCCACCATGCCTGGCCTCTTATTCTGTTCTTTAAGCAGGTGTAGATGTGTGACTGT
AAGTTACTTCACCTCTCTGTGTTTGTAGTTGATATGTCAGATAAGTATAATAGCGGTACCTATCTCATAGKTATTTGCCATGATTAAATAGTGCTGGTCA
AGCATTTAGCCAATGCTCATCTCATAATAAGCATCCAATAAACTATAGCTGCCCATTAAAGCCTCTTACAGGGCTAGGCACAGTGGCTTACACCTGTAAT
CCCAATGCTTTGGGAGGCTAAGGTGGGAGGATTGCTTGAGACCAGGAGTTTGAGATTAGCCTGGACAACATAGCAAGACCTTATCACTACAAAAAATTCC
AAAAAATTAGCTGGACATGGCACATGCCTGTAATCCCAGCTACTCAGGAGCCCAAGGCAGGAAGTTTGCTTGAGCCCAGAAGTTTGAGGCTGTAGTGAGC
CATGATCATGCCACTGTACTGCAGCCTGAGCGACAGAGCAAGACTCTGTCTCAGGAAAAAAAAAAAAAAGTAAGTAATTAAAAYAAAAATTATAAATAAC
AAAAATTTAAATCCTCTTATAGTCCTAGGATTGTTTTTCTAGGCTCCATCAGGCCCCAGGGAGCCTAAGCTTTCTGCTGGCAATCCTGAATGCTCCCCTC
AGCCCGTTGCTGACTTTGTGCCCCAACCCCCTTCCCAGGGCACTGTCTCTTAGACAAACCAGAGGCTCCATTGCATCTGCCTGTGACTTTCCCTGGCAAG
GACTATGATGCTGACCGCCAGTGCCAGCTGACCTTCGGGCCCGACTCACGCCATTGTCCACAGCTGCCGCCGCCCTGTGCTGCCCTCTGGTGCTCTGGCC
ACCTCAATGGCCATGCCATGTGCCAGACCAAACACTCGCCCTGGGCCGATGGCACACCCTGCGGGCCCGCACAGGCCTGCATGGGTGGTCGCTGCCTCCA
CATGGACCAGCTCCAGGACTTCAATGTGAGATCCTAGGGCAGGGGTGGGGTAAAGGGCCCGGGGGTGTGGGGACTGGCCTTAAGCCCAGGAGAGAGTTCA
CTTATGCCCCACTTCCNTTCTGTGCCTTTGCAGATTCCACAGGCTGGTGGCTGGGGTCCTTGGGGACCATGGGGTGACTGCTCTCGGACCTGTGGGGGTG
GTGTCCAGTTCTCCTCCCGAGACTGCACGAGGCCTGTCCCCCGGAATGGTGGCAAGTACTGTGAGGGCYGCCGTACCCGCTTCCGCTCCTGCAACACTGA
GGACTGCCCAACTGGCTCAGGTGAGGAGTAGGGGGGATGGGAGCCCTTGGGAGGGGACAGTAGAGCAGGAAGGACTGTCCCTTGAGTGCAAGACCAAGGG
GGTGTTKATTCCCCTGCTGCTGTGGGGAGTGCCTTTAACCTCTGGGAATTGTCCTTGGCCGTCTGCAGGGAAGAGCAGAGCTGTGCTGTCTAGAGTTCTC
AGGGGTTGGGTGGAGGGATGTGGGGTGATGTGAGGAAGGAAGGAGGGGCTCTGACTGTTTTACCCCTCCAGCCCTGACCTTCCGCGAGGAGCAGTGTGCT
GCCTACAACCACCGCACCGACCTCTTCAAGAGCTTCCCAGGGCCCATGGACTGGGTTCCTCGCTACACAGGCGTGGCCCCCCAGGACCAGTGCAAACTCA
CCTGCCAGGCCCRGGCACTGGGCTACTACTATGTGCTGGAGCCACGGGTGAGGGTCAGGACACCCCCAGGCCCTGTCTATGGTCACACACACCCGCAGTG
CTCCCTCTGCTTTCTGATAACAAAGATCACCCAAAGTAACCCTGTTCCTACAGCCACGCCAGCCCAGTCCAGGATTCCACTCAGACTTATCTGTACATGG
GTATCAGGAAAACGAGCCCCAGACTCCAGATATGTGGCCAATAGGTCCCTCTAGCCTATCCTATTTCCCGTGGTTTCTTTTCCTCTGACTCCCCATCTTC
TAATGCTGCATTTGGTGAGAATCGAATGTGTGGCCTTTGGGACAAGTCCTTCACCCCTCTTCCATGGGCTCCTCTGTCAAMTTATAGTGGTGGTTTCATT
CAGCTCCTGGACAGCCAGTCCCTCAATGGACAGGCCTCCTGGAGATGACTGAAGTCCCTACACTCCCTCTCTGTGATAGGGTGGTGGGTTGAAGGCTGCA
CAAAGAAAAACAAGCCCCAGCAGCATTTTGCTCCCTTCGCCCCAACCTGAGAATTTCTACAGGCTGGCTGCCCTCTAGCGTCCATTTAGGGACAGTGCCA
TCAAGGTTTAGGGCTTGGTGCTGGGACCAGACAGACTGCACTTCCCATCTTGGCTCCTCTGCTTGCCATTTGTGTGGCTTTTGGACAGGTTCTTTAGCTT
TTCTAAACCTCAACGTTCCATCCCTAAAAACCTCAAATAGTGGTGGTGAGATTTACATTTGTGTTTATAAAACACTTAGCATGCTGCCTGATTCATACTC
AGTGCTCTGAAAATGCTGGCTAGATGTTATATGTGATAATAATTATTATTGTTATGATTATCACCCACATGGTGGCYGGCACTCACCCATCTACATCCCC
TACTTCATCCAACTTTTCCGACAACATTGCTTCCCTGATGGGACATGGGTCTCGTTTGATTTACCAACCCCTTTTGACTTAGGAGGAACCTTCAGCATTG
TTCTTTCTCTTTTCCTCAGGTGGTAGATGGGACCCCCTGTTCCCCGGACAGCTCCTCGGTCTGTGTCCAGGGCCGATGCATCCATGCTGGCTGTGATCGC
ATCATTGGCTCCAAGAAGAAGTTTGACAAGTGCATGGTGTGCGGAGGGGACSGTTCTGGTTGCAGCAAGCAGTCAGGCTCCTTCAGGAAATTCAGGTTCT
TTCACCATCATTCCTCCCTCTACCTTCCTGGACATTCTGGGTCCTAGTGATGCAGAGGGGAACTCAGCACTGTTTCCACTCTCAAAGAGCTCACAGTCTA
GCGGGAGATAGACGAGTAGGCAGCTACAGTGCGGTTTCCCATGTATTCATCCGAAGTTGGAACAGGGTGTTGTGAGTGCCCTTGTGGGCATCAGGGAAGG
CTTCCTTGGAGGTGACCTCTGAGCTGAGTCTCAGAAGGAGGGTAGGAATTAGACAGGTACCAAGGAAGTGGGGCTTGGAAGGGCAACTCAATAAGGGGGC
AGTGGGTGTAAAGGTCCAGAGATAAGAGGCAGTAGGGCACATGTGCATGTAGCTCTGATCCAGACCGAACAGCTCACATAGGATTGGGTGACAGCCATCT
ACACACATGTACACACATACAGTCACATAAGCACAGCTCAGAAGGCTGAGGGGATTCAGGTGATCCTGAGCTCCCCATCTACTCCTTCCACACAGGTACG
GATACAACAATGTGGTCACTATCCCCGCGGGGGCCACCCACATTCTTGTCCGGCAGCAGGGAAACSCTGGCCACCGGAGCATCTACTTGGCCCTGAAGCT
GCCAGATGGCTCCTATGCCCTCAATGGTGAATACACGCTGATGCCCTCCCCCACAGATGTGGTACTGCCTGGGGCAGTCAGCTTGCGCTACAGCGGGGCC
ACTGCAGCCTCAGAGACACTGTCAGGCCATGGGCCACTGGCCCAGCCTTTGACACTGCAAGTCCTAGTGGCTGGCAACCCCCAGGACACACGCCTCCGAT
ACAGCTTCTTCGTGCCCCGGCCGACCCCTTCAACGCCACGCCCCACTCCCCAGGACTGGCTGCACCGAAGAGCACAGATTCTGGAGATCCTTCGGCGGCG
CCCCTGGGCGGGCARGAAATAACCTCACTATCCCGGCTGCCCTTTCTGGGCACCGGGGCCTCGGACTTAGCTGGGAGRAAGAGAGAGCTTCTGTTGCTGC
CTCATGCTAAGACTCAGTGGGGAGGGGCTGTGGGCGTGAGACCTGCCCCTCCTCTCTGCCCTAATGCGCAGGCTGGCCCTGCCCTGGTTTCCTGCCCTGG
GAGGCAGTGATGGGTTAGTGGATGGAAGGGGCTGACAGACAGCCCTCCATCTAAACTGCCCCCTCTGCCCTGCGGGTCACAGGAGGGAGGGGGAAGGCAG
GGAGGGCCTGGGCCCCAGTTGTATTTATTTAGTATTTATTCACTTTTATTTAGCACCAGGGAAGGGGACAAGGACTAGGGTCCTGGGGAACCTGACCCCT
GACCCCTCATAGCCCTCACCCTGGGGCTAGGAAATCCAGGGTGGTGGTGATAGGTATAAGTGGTGTGTGTATGCGTGTGTGTGTGTGTGAAAATGTGTGT
GTGCTTATGTATGAGGTACAACCTGTTCTGCTTTCCTCTTCCTGAATTTTATTTTTTGGGAAAAGAAAAGTCAAGGGTAGGGTGGGCCTTCAGGGAGTGA
GGGATTATCTTTTTTTTTTTTTCTTTCTTTCTTTCTTTTTTTTTTTTGAGACAGAATCTCGCTCTGTCGCCCAGGCTGGAGTGCAATGGCACAATCTCGG
CTCACTGCATCCTCCGCCTCCCGGGTTCAAGTGATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCTCCTGCCACCACGCCCGGCTAATTTT
TGTTTTGTTTTGTTTGGAGACAGAGTCTCGCTATTGTCACCAGGGCTGGAATGATTTCAGCTCACTGCAACCTTCGCCACCTGGGTTCCAGCAATTCTCC
TGCCTCAGCCTCCCGAGTAGCTGAGATTATAGGCACCTACCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAG
GCTGGTCTCGAACTCCTGACCTTAGGTGATCCACTCGCCTTCATCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCACGCCCAACTA
ATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGCTCTTGAACTCCTGACCTCAGGTAATCGACCTGCCTCGGCCTCCCAAAGTG
CTGGGATTACAGGTGTGAGCCACCACGCCCGGTACATATTTTTTAAATTGAATTCTACTATTTATGTGATCCTTTTGGAGTCAGACAGATGTGGTTGCAT
CCTAACTCCATGTCTCTGAGCATTAGATTTCTCATTTGCCAATAATAATACCTCCCTTAGAAGTTTGTTGTGAGGATTAAATAATGTAAATAAAGAACTA
GCATAACACTCAGCATCTAGTAAGTGCTCAACAAATAGCAGCTGCTGTTACTTACTGTTATCAAATTTCTGTCCACATCCACTCTCCATATGCACTTGAA
GGTGGCAAAGATCCACAACCATGGTGCCTGCCTTTATCCTCAGGGTCCGTTCCTTTGGTTGGCAGACCCCTATCCTGGGTTCTGAGGGACCAACAGAGAA
AGGAAAATTCCATCCCTCACCTCTGGAAGTTCCCAATCACAGGAAGGAAACATAGTAAGCACGTGGCTACAAATACAATTGACAAGAACATGAAGGTGCA
GGATAACAAGAACAAATAACAAGAACAACTGCATCAACACAAATGAGTGCTTAGTAATAAGGGTGATAGTTGAGGGGTCTGGGTTTCACAACAGTAGAAA
GAGCACTGGAGTGGGAGCCAGCGGGTCTGGATTCAATTTGGGGCTCGGCGTCTTATTAGCTGGGTGGTGTTGGGTAAGTCACTGATGCTGAGCCTTAGAT
TGCTCATATGGGACTAACAGTATCTACTCCCACAGAGTTGTTCTGGGAACAAATGCTAGAATATTTTCAAAATAGTAAAGGTTATAGTCATGGCCATGTG
AGAGGTTACCCCTATGACTACCTGAAGATGGAACGGAGTCTCCAGAATCTGCCAGTGTAAACCCAGCAGAATGCCTAGAAGATGTGAGATTAGAATAAAA
TTTCATAAAACAAAAACAATCGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAAATGGGCGGATCACGAGGTCAGGAGATTGAGAC
CGACCATCCTGGCTACCACAGTGAAACCCCGTGTCTACTAAAAATACAAAATATATATATATATATATATATATATTAGCCGGGCATGGTGACAGGTGCC
TATAGTCCCAGCTACTTGGGAGACTGAGGCAGGAGAATGACTTGCACCCGGGAGGCAGAGCTTACAGTGAGTCGAGATTGCGCCACTGCACTCCAGCCTG
GGAGACAGAGTGAGACTCGTCTCGATACAAAAACAAAAACAAAAACAGGATATGGTTTGGCAGGAAATAGGCAAGAAGGCAAAAAGAATAACCTGGAAAA
GGATCTGAGGTAAGGGAGCCAGGTGCCTCAAAATGGCAGAATACCTGATGCCTGAGGAGAGGGAGGGAATAAAACATCTGCATTTTCCCCTCTGGGCAAG
GCGCCTTTGCTTGAGAAAGAATTTTGGGCTGGATGAGATGGTTCACACCTGTAATCCCAGTACTTTGGCAGGAGGATTGCTTGAGGCCAGGAGGTTGGGA
CCAACCTGGGCAACATAGAAAGATTCCATCTCTACCAAAAAAAAAAAAGATTGAAAAATTAGCCGGGCGTGGTGGCACCTGTAGTCCCAGCTACTTGGGA
GGCTAAAATAGGAGGACTGCTTGAGCCCACGATTTCGAGGCTATGGTGAGCTACAATCATGCCACTATACTCCAGCCTGGGTGAGAGACCAAAACACCAA
CTCAAAAAAAAAAAAAAAAAAAAAAAAAGGGCCAGGCATGGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCTGAGGTTCAAAACCAGCCAGGCCA
ACATGGTGAAACCCCATCTCTACTAAAAAAAAAATACAAAAAATTAGCCAGGTGTGGTGGCAAGCGCCTATAGTCCCAGCTACTCATGAGGCTGAGGCAG
GAGGATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAAATTGCGCCATTGCACTCCAGTCTGGGCGATAGAGTGAGACTCCATCTCAAAAAAAA
AAAAAAAAAAAAAAAGAACTTGGGCAGTCCTCTATGTGTCATGGATGGAACAGGGATGGGCAAGGGTGGTAGGTAGACCCTGCAAGAATTTGGAGTTTTG
AGAGGCAGACGCAGGACTGCTAGGGATTGGGGAAGGTACTGGATGTGGGGTTGTGGGAGAAACTATAGGTAAAGAAGACCCTGAGGTTGAGGTGGAAGAG
TGAAGAATGGGGGAACCAAAGGCACTTCACTCTGCCATAGCAGCCCCTAGCTGGGATGCCAAATACTGCTTGGAATGTGAAGCTGGGACTATGGGGTTGA
GGCAGGCCATGGAGGTTGTAGTGGTTATATGTGCTATGCTTACTGGATCTGGGCTTTGCTAATCAAGTTCTGTACCAGGCAGTGCCTTATACAGCACCCT
GTACTCTACACCAGCCAGCACAGCGCCTGCTTCCTCTGCAGCAATGAGAAAAGACTGCCCACACTCTCTTCTCTCCAGTAAACACGGTTCTCCCTGCTAG
GCTTGGCCCCCTGGCCCTTCCTGTGGTCCTCCTACTAACCAGGCTGAAGAAGATGGAGACAAGACAATAGTGATCTTTACTCGTTTCATCTAGTTTGCAA
AATGAGACCACAGATAGTATGTTTATGGACCTTGATACTATGAGTTGATGGTACAATGAGCAGAGTTCTGTGATAAGTAGATGTAAGGTACAAATACAAA
CAATATATACGACTGTCCTAAAGGGGTTCACACTGCATTCTGGGCAGGGGAGGTTGTATACTGCTCCCACTCCACCTTCCCCGCAAACAGAAGCAATGGG
ACAGTAAAAGGGACTAGAAGATAAGAGCCTAATGAGCCCTGAACTGAATGGACTATGAGGGTTATGGAGGGCTACCTTGGGCTGGGCCCTGGAGAACAGG
TCATCATGATAGCCCTTCTCACTTTCCTTTAATGTTCATGGAGATACACTTTTTTTTTTGAGATAGGGTCTCCCTTTGTTGACCAGGCAGGAGTACAGTG
GTGTGATCTTGGCTCACTGCAGCCTTGAACTCTCAGGCTCAAGCAACCCTCCCACCTCAACCTCCTGAGTACCTAGGACTACAGGCACGAGCTACCACAC
CCAGCTAATTTACTTTTTTTTTTGGTTGAGACGAGGTCTTATCATATTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGGGATCTTCCCACCTCGATCT
CCCAAAGTGTTGGGATGACCAGTGTGAACCACCATGCCTGGCCTTTTCTTTTGAGACAGTCTCGCTCTGTGGCTCAGGTTGGAGTGCAGTGGCACCATCA
TAACTTACTACAGCCTTGAACTCCTGGGCTCGAGTAATCCTCCCACCTCAGCCTCCTAAGTAGCTTGGACTACAGGTGTAGATTCACTTTTAAATCACTT
TTCTGCCTGTTATTTTAAGAGAAAGCCCTTCGCTCACCAAGTAGGGTTCTCACTGGCATAAGTAAGTTTTTCTGAAAATGAGACTGAGCTTAGGGGCCAC
CTCTGTGATTGGGTAAGTAAGCAGGAGCTAGAGTGAAAGAGGGGCAGAGAGAGCTAGCTCATCGAAGAGAAGTGATGGGCATCTCAGCCCTCAATCCCAG
GCAAGGCCTGACCCTTTTCTGGAATGGTCTCTGCCTTACCACACCTCCAAGACCCAGATTGTAGGTAGGCTTTACCTAATAGGAGTCCAACAAGTTCTTG
CTAGGGATGGGATTGTGGGGGGGCACATATCTCCCTGTAAGAGCCACAGTGAGCTCTGTTTCCCATCTGCCTACTTATTGCCCTCGTGGGCCTGAGCTGG
GGTGTAGATATATAAGGAGGAACAGAAACAGTAATAACAGGAAGTAAGGAGGCACTGAAACAATTCAAGTATCTGGTCCTGGAGATGAAAAGAGGAAATG
GAAAAAGAAAAGGCATTGAATGACAAGGGATTAGAACCCTGTCCCTAGAGAAGTTCAAGAAGAGTTTGGACAACCATTTTATGAGATGGCAAGTGTTGTG
CATGAGTATGTGTTTGAGGTGGGGGAGGAAGTTGAAGCAATAAGTTGGGCCAATTTCCTAAAGTCCCTTCTGCCCCTGAGATTCTCTGCTTCTGTGGTTC
AAACAGAGGAAATCTGGACATTTGTCCAGCCACTATTTTTGTAATGGAGGTGGGACAGCCAGGGTTCCTGGAGTGTGCTGTGGAATCGGCATTTACACTT
CTCTTCCATCTCTAGTCTCATTTCTGTAATCTTCATACAGTATTACAGTATTTTGTTTTCTAAAATACCAGATTGGCAGTAAGTGACAAAACTAGCATCT
CATTGGTCAGGGCTTGTGGGGGAGGAAGGGAGAAGAAAGTGGATTTCAATGTATTAACATTTTATTGGCTGAGAGGATGTTTCTGAACCAATTGAGTACC
TTCCCCATTGACTGTTGCTGGGGCCAAGCCAAAATCATTGGCACCACGAGAAACCAGATGACAGCTGGAGGAAACCACGAGTGCTAAAAATGCTCAGAAA
GAGGGGGGTCAGGGAAGGCGGGGGAGCAACAACACTGAACAACTTCCCCAGGCAGGATCTTACATGGGGACAGACCCAGGGTACTTAAGTAGCATTAGGA
AGGAAAGGGAGGGGAGGAAGTAGATTAAGTATCCCTCACAGTCTTGGCACAACAAACAGGCACCATACACCCACACCAACAGTGACACATTGACATAACA
CACATCCAACTTCACAGAGACACACTAGCACATTCTCTCTTTTTTTTAAAATTTATTTTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAAT
GTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCATCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCC
CCCTCCCCCCCTGCCTTTCTTTTTCTTCTTTTTTTTCTTAAGACAGATTCTCATTCTGTCACCCAGGCTAGAGTGCAATGGCGTGATCTCGGCTCACTGC
AACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTGCCAAGTAGCTGGGATTACAGGTATGCACCACCATGCCCAGCTAATTTTTTGTATTT
TTAGTATAGAGACGGGGTTTTCCATGTTGCCCAGGCTGGTCTTGAACTCCCGGGCTCAAGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACA
GGTGTGAGCCAGGGTGCCTGGCCAACACATTCTGTTGATAATATAGATGCAAATAAGTAGTAGGGAGCGGAAAATGTAAGAATTTTCACCTGAAAATGGA
TCTGAAGAGTAAAAGATATTAATTGACCTAATCGTGCATTGAGAATTGACTGTTTATCCCATTTATTTGTTCAATAAATAAGCCAATGGGTTGTAAACAT
TGTAAACATTCCACAGCATGTGGAAAGGACATGGATTTTTGGAGTCAAATTGAATCTAAGCCTTGCTACTTACTTACCTGTAATGATGCAACCTTAATTA
CTTGATCTCTGTAAACCTCAGTTTCCTTACCTACAAAACGTTTGTACTATTACCTGCCTTATAGAGAGGTCCAGACTTAAGAATATGATGATGTAAATGT
TTGGCACTGTGTCTGGCTTTTAGTAAGTGGTCAATAAAGGCCAGTTCTCCTTTCCTTATATCTCTTCCTTTGTCTGCTCCCTGACTTCTAACCCCTGCAT
TCACGTGAGAAAACAGTTATATCAAGGAACTGTCTAGGTCAGATCTAAGGGCCATTTTGTAAATTTGTGCAAAAAGTTCTGGCTTACATTGAAGGGATGA
TAAAAGGAAAGACATGGTCCTAATCCTCAGAGTTCACAATCTGGTGGCTGAGACAGTCAAGTAGGACAAAAATTTCAGACTTCTGTGATAGGTGCCATGA
TCAAGGAGGGGCACCTAGCACAGAATATGAGGCCACAGAAGTGTTTCTGGAGGAGGTGCCTGTCTCTCCTTCTAGAAGTGAGCAGTAAGGCTGGGCACAG
TGACCCATACCTGTAGTCCCAGCACTTTGGGAGGCCAAGGTGGGAGGATCACTTGAGGCCAGAAGTTCAAGACCAGCCTGGGGGACATGATGAAACCTGG
TCTCTACAAAAAATACAAAAAAAGGCAGGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCATGAGGTCAGAGTTC
AAGATCAGCCTGG


SNP Information

Context             (SEQ ID NO:56345):
CTCTCTCCTGCCCTCAGCCCGGCTGGCCAGCCCCCTCCCCCGGGAGGAGGAGATCGTGTTTCCAGAGAAGCTCAACGGCAGCGTCCTGCCTGGCTCGGGC
R
CCCCTGCCAGGCTGTTGTGCCGCTTGCAGGCCTTTGGGGAGACGCTGCTACTAGAGCTGGAGCAGGACTCCGGTGTGCAGGTCGAGGGGCTGACAGTGCA
Celera SNP ID:            hCV25651633
SNP Position Genomic:     6661
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,2|G,38)   total(A,4|G,74)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,1|G,35)   total(A,3|G,71)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56346):
GGAGATCGTGTTTCCAGAGAAGCTCAACGGCAGCGTCCTGCCTGGCTCGGGCGCCCCTGCCAGGCTGTTGTGCCGCTTGCAGGCCTTTGGGGAGACGCTG
Y
TACTAGAGCTGGAGCAGGACTCCGGTGTGCAGGTCGAGGGGCTGACAGTGCAGTACCTGGGCCAGGCGCCTGAGCTGCTGGGTGGAGCAGAGCCTGGCAC
Celera SNP ID:            hCV25651634
SNP Position Genomic:     6709
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,26|T,12)   total(C,61|T,13)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56347):
CCTGCCTTTCCTTTCTCCATGAGCCTCCTTTCTTGGTAAGGCTCAGGCCTCTCCCCTTCACCCTTCTCCTAGCCAGACCCACCGAGGGTTCTCAGAGGTG
R
GTCACAGACTCTGGGCTGGGAATAACTGCTCCCTCTCCCCACCCCACCCCTTCCTGGCCATGGCATCTCCTACTGACACAGTCCCCAGCAGTAAAGGTCT
Celera SNP ID:            hCV27858007
SNP Position Genomic:     7285
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:56348):
TGCGCAGCTTCTGTGCCTGGCAGCGGGGCCTCAACACCCCTGAGGACTCGGACCCTGACCACTTTGACACAGCCATTCTGTTTACCCGTCAGGTGAGGCC
S
CAGTCAGCACCGCAGGCCATGCACTGCACAATTCTAAGAAGCGCCACTACATAGACTATGATGCAAATGATGTTCCTGGAGTTGTGTGACATGGTGCCTT
Celera SNP ID:            hCV25651636
SNP Position Genomic:     8512
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:56349):
CTGCTCCAGGTGTAGACATACATTTACATTTTTCTATTAAATAAATTAGTTGGTCGAAACTACTGTGAACTCCTCTGTGTGTGTGTGTGTGTGTGTGTGT
S
TGTCTGTGTGTGTGTATTTGGAGGGGGAGTCAGAGACAATGGGTGGGGTCACAGTTGGGAATGTTGGCTATAAGGAAAAGTGGGTAGGGAGGGACCCTGA
Celera SNP ID:            hCV25651637
SNP Position Genomic:     9122
SNP Source:               Applera
Population(Allele,Count): african american(G,18)   caucasian(C,1|G,13)   total(C,1|G,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:56350):
CCCAACTGGCTCAGGTGAGGAGTAGGGGGGATGGGAGCCCTTGGGAGGGGACAGTAGAGCAGGAAGGACTGTCCCTTGAGTGCAAGACCAAGGGGGTGTT
K
ATTCCCCTGCTGCTGTGGGGAGTGCCTTTAACCTCTGGGAATTGTCCTTGGCCGTCTGCAGGGAAGAGCAGAGCTGTGCTGTCTAGAGTTCTCAGGGGTT
Celera SNP ID:            hCV25651646
SNP Position Genomic:     11507
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(G,25|T,7)   total(G,51|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:56351):
TGGATCTGATCATCCACAGCTGCAGCCAGATTTATTATGGAGTCCCTCAGGGCATGGGGAAGGGACCCTCAGATCCTATCAGGGCCTTTGCTCCCACAGG
Y
CATGTCTTCAACATGCTCCATGACAACTCCAAGCCATGCATCAGTTTGAATGGGCCTTTGAGCACCTCTCGCCATGTCATGGCCCCTGTGATGGCTCATG
Celera SNP ID:            hCV25651639
SNP Position Genomic:     9426
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56352):
TTGAGGCTGTAGTGAGCCATGATCATGCCACTGTACTGCAGCCTGAGCGACAGAGCAAGACTCTGTCTCAGGAAAAAAAAAAAAAAGTAAGTAATTAAAA
Y
AAAAATTATAAATAACAAAAATTTAAATCCTCTTATAGTCCTAGGATTGTTTTTCTAGGCTCCATCAGGCCCCAGGGAGCCTAAGCTTTCTGCTGGCAAT
Celera SNP ID:            hCV26627182
SNP Position Genomic:     10684
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,6)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56353):
CAAGACCCGCCAGGAGTCAGGAATCCCGTGGGGTGTGTGGGGCCCAGCTGACTATGCTGAGTTCCAGACCCAGGAAGTGAGGGATTGGAGAATCGACCGA
M
CCATGGGTCTGAGAGGCTATTTCAGGATCTTCCTCTCCCTTTTTCTCTACAGCGCTTTGCTTCACTGAGTAGATTTGTGGAGACACTGGTGGTGGCAGAT
Celera SNP ID:            hCV25473921
SNP Position Genomic:     8127
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(A,5|C,29)   total(A,5|C,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:56354):
CTAGGTATAGGGCTATTACTCCTCTCTGCTCCAGGTGTAGACATACATTTACATTTTTCTATTAAATAAATTAGTTGGTCGAAACTACTGTGAACTCCTC
K
GTGTGTGTGTGTGTGTGTGTGTGTGTGTCTGTGTGTGTGTATTTGGAGGGGGAGTCAGAGACAATGGGTGGGGTCACAGTTGGGAATGTTGGCTATAAGG
Celera SNP ID:            hCV11626863
SNP Position Genomic:     9097
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,5|-,7)   total(G,5|-,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56355):
GACTTCAATGTGAGATCCTAGGGCAGGGGTGGGGTAAAGGGCCCGGGGGTGTGGGGACTGGCCTTAAGCCCAGGAGAGAGTTCACTTATGCCCCACTTCC
N
TTCTGTGCCTTTGCAGATTCCACAGGCTGGTGGCTGGGGTCCTTGGGGACCATGGGGTGACTGCTCTCGGACCTGTGGGGGTGGTGTCCAGTTCTCCTCC
Celera SNP ID:            hCV11626865
SNP Position Genomic:     11217
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,18)   caucasian(A,22|G,16)   total(A,40|G,34)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,15)   caucasian(A,22|G,16)   total(A,41|G,31)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56356):
TTCTTTAAGCAGGTGTAGATGTGTGACTGTAAGTTACTTCACCTCTCTGTGTTTGTAGTTGATATGTCAGATAAGTATAATAGCGGTACCTATCTCATAG
K
TATTTGCCATGATTAAATAGTGCTGGTCAAGCATTTAGCCAATGCTCATCTCATAATAAGCATCCAATAAACTATAGCTGCCCATTAAAGCCTCTTACAG
Celera SNP ID:            hCV27463552
SNP Position Genomic:     10271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56357):
CCCCGGCCGACCCCTTCAACGCCACGCCCCACTCCCCAGGACTGGCTGCACCGAAGAGCACAGATTCTGGAGATCCTTCGGCGGCGCCCCTGGGCGGGCA
R
GAAATAACCTCACTATCCCGGCTGCCCTTTCTGGGCACCGGGGCCTCGGACTTAGCTGGGAGAAAGAGAGAGCTTCTGTTGCTGCCTCATGCTAAGACTC
Celera SNP ID:            hCV11626866
SNP Position Genomic:     13915
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56358):
AGGGGCTGACAGTGCAGTACCTGGGCCAGGCGCCTGAGCTGCTGGGTGGAGCAGAGCCTGGCACCTACCTGACTGGCACCATCAATGGAGATCCGGAGTC
R
GTGGCATCTCTGCACTGGGATGGGGGAGCCCTGTTAGGCGTGTTACAATATCGGGGGGCTGAACTCCACCTCCAGCCCCTGGAGGGAGGCACCCCTAACT
Celera SNP ID:            hCV25472222
SNP Position Genomic:     6846
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,5|G,35)   total(A,15|G,63)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56359):
CCCGAAGAGCCAAGGTAGGCATCTCTGGAGTCTGTGTCCTGCGGTGTCCTCCCGCCATGTCTGTCCTACTGACCCCTATTCACCCTCTCTCCACCCACTT
M
CACTTCTGGCCGTTCTGCTTCCCTCCCTTCTGCCTGCCTTTCCTTTCTCCATGAGCCTCCTTTCTTGGTAAGGCTCAGGCCTCTCCCCTTCACCCTTCTC
Celera SNP ID:            hCV25472223
SNP Position Genomic:     7152
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,2)   caucasian(A,6|C,4)   total(A,12|C,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56360):
CTGAGCTCCCCATCTACTCCTTCCACACAGGTACGGATACAACAATGTGGTCACTATCCCCGCGGGGGCCACCCACATTCTTGTCCGGCAGCAGGGAAAC
S
CTGGCCACCGGAGCATCTACTTGGCCCTGAAGCTGCCAGATGGCTCCTATGCCCTCAATGGTGAATACACGCTGATGCCCTCCCCCACAGATGTGGTACT
Celera SNP ID:            hCV25473205
SNP Position Genomic:     13566
SNP Source:               Applera
Population(Allele,Count): african american(C,24|G,4)   caucasian(C,37|G,3)   total(C,61|G,7)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56361):
ATTCTGGAGATCCTTCGGCGGCGCCCCTGGGCGGGCAGGAAATAACCTCACTATCCCGGCTGCCCTTTCTGGGCACCGGGGCCTCGGACTTAGCTGGGAG
R
AAGAGAGAGCTTCTGTTGCTGCCTCATGCTAAGACTCAGTGGGGAGGGGCTGTGGGCGTGAGACCTGCCCCTCCTCTCTGCCCTAATGCGCAGGCTGGCC
Celera SNP ID:            hCV40792
SNP Position Genomic:     13978
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,2)   caucasian(A,26|G,10)   total(A,42|G,12)
SNP Type:                 UTR 3

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:56362):
TAGCATGCTGCCTGATTCATACTCAGTGCTCTGAAAATGCTGGCTAGATGTTATATGTGATAATAATTATTATTGTTATGATTATCACCCACATGGTGGC
Y
GGCACTCACCCATCTACATCCCCTACTTCATCCAACTTTTCCGACAACATTGCTTCCCTGATGGGACATGGGTCTCGTTTGATTTACCAACCCCTTTTGA
Celera SNP ID:            hCV40793
SNP Position Genomic:     12677
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,10)   total(C,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56363):
TCCTCTGACTCCCCATCTTCTAATGCTGCATTTGGTGAGAATCGAATGTGTGGCCTTTGGGACAAGTCCTTCACCCCTCTTCCATGGGCTCCTCTGTCAA
M
TTATAGTGGTGGTTTCATTCAGCTCCTGGACAGCCAGTCCCTCAATGGACAGGCCTCCTGGAGATGACTGAAGTCCCTACACTCCCTCTCTGTGATAGGG
Celera SNP ID:            hCV40794
SNP Position Genomic:     12181
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,7)   total(A,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56364):
TGGCCTTGGCTCTTTTCTCTGCTCCAAATTTGATTTTCATCCCCCACTCCCAGCTATAGGAGTCAGGTTTGAGGCCCTAGGGCTTGGTGTCTGGCTTCTG
M
TGCTGCCTTTAAAATCACTGTGGCAAACTGCAAACTAGGGCAGGAGTGGCAAGAGAGGGAGGGTATCCCATACCTCCTTCTGGTCAATCCCCTTCACACA
Celera SNP ID:            hCV27834702
SNP Position Genomic:     7499
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,40)   total(A,77|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:56365):
CGCACCGACCTCTTCAAGAGCTTCCCAGGGCCCATGGACTGGGTTCCTCGCTACACAGGCGTGGCCCCCCAGGACCAGTGCAAACTCACCTGCCAGGCCC
R
GGCACTGGGCTACTACTATGTGCTGGAGCCACGGGTGAGGGTCAGGACACCCCCAGGCCCTGTCTATGGTCACACACACCCGCAGTGCTCCCTCTGCTTT
Celera SNP ID:            hCV40795
SNP Position Genomic:     11813
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,19)   caucasian(A,13|G,21)   total(A,28|G,40)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): (C,5|T,5)      total(C,5|T,5)Caucasian(T,109|C,197)   Chinese(T,7|C,51)   Japanese(T,2|C,18)   African(T,45|C,53)    ;(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56366):
CTCCTCGGTCTGTGTCCAGGGCCGATGCATCCATGCTGGCTGTGATCGCATCATTGGCTCCAAGAAGAAGTTTGACAAGTGCATGGTGTGCGGAGGGGAC
S
GTTCTGGTTGCAGCAAGCAGTCAGGCTCCTTCAGGAAATTCAGGTTCTTTCACCATCATTCCTCCCTCTACCTTCCTGGACATTCTGGGTCCTAGTGATG
Celera SNP ID:            hCV27464590
SNP Position Genomic:     12952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56367):
CCTCTGCAGTGTGGGAAGGGGTGAGAAATGCTGCTGTCTTTGTGTAGTTCTCACTTCCTCCCAGAATAAATAGCATAGCTAGAGGAGGCGAATTTTGGCT
Y
AGTAGAATTAGAACTGACTTTCTGAGGGCCAGAACTGTCCACCACTGGAATGGGCTGGCTATGAAGGAGGTGATTACCTTGTCACGCAGTGAGGTATGCA
Celera SNP ID:            hCV25651640
SNP Position Genomic:     9808
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,38)   total(C,63|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:56368):
ATGGGGTGACTGCTCTCGGACCTGTGGGGGTGGTGTCCAGTTCTCCTCCCGAGACTGCACGAGGCCTGTCCCCCGGAATGGTGGCAAGTACTGTGAGGGC
Y
GCCGTACCCGCTTCCGCTCCTGCAACACTGAGGACTGCCCAACTGGCTCAGGTGAGGAGTAGGGGGGATGGGAGCCCTTGGGAGGGGACAGTAGAGCAGG
Celera SNP ID:            hCV25651641
SNP Position Genomic:     11369
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION


Gene Number:                 313
Celera Gene:                 hCG1785581 - 104000117719958
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W0QP(47237791..47303180)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12473):
AAGTCATGGAGATAGAGAGTAGAATGATGGTTATCAGAGGTGGGAAGGGTAACGGGGAGAGGGTAATAAAGAGGGATAATTAGTGGGTACAGAAATACAG
TTTGATAGAAGGAATAAGATTTAGTGTTCAGTAGTACAATAGGGCAACAAGAGTTAACAGTAATTTATTGTACATTTCAAAATAACTAAAAAAGTGTAAT
TGGAATTTTCCTAACACAAAGAAATGATAAACGCTTGAGATGGGCATTCCAGTTACCCTGATTTGATCATTACACATTGTACACTGTATGCTTGTATCAA
AATATCACATGTACCCCATAAATAGGTATACTTAGTATCTATAATAATTAAAATTTTTATAAATAAATAATTTGTTTCCCCAAATAACACCTTGCTTTTG
GCTTGTCAGATGGACACCAGGTGAAACTGTCAAGTCAATGAGGTCTGTCCATCCCTGTCTTACCTGCTCTATTCTCTCTCCCTGGTCTGTCTGCCCTCTG
CATTCTTCCACCAACCAGTGCTCCCACCATCATCTATCAAAGATCCACATGGTTGTAGATTCCAACAGGCCCCGGGGATCCAAGACAGAGAGGGATCATA
GCTCCCACAGTTAGGGACTGTGACTTACTTAATTCAAAGTATTTTCATTATCAGACATTTAATAATACGTCCCAGAGCTGAGAGTATGCTGTCAGCAGTA
GTTGGTAGGGATACAAGATGACGACCTTCTCTCTGACCTCAAGGAGCTCATGCTTTGGTAGAGAAGAAGATGTGAGAGAAACTAATAATCATACAACTAC
ACAGTAGTAAGCACTACACAGAGATGGGATGGAAGAGCCGTGGGAACTGGGAGGAGGGTAGGTCATTCTACCCCAAGCCCTCTGCTCCTTTTCTAGAAGT
TCCCTACTTTTCCTACATCTGTGGAGCACGTGCCAGGCACCACGACAAGCTCTGAGCCCACAGGAAAGACTGAAAGGTTGGGCTGATGGTTAAGACACAG
GGTCAATTTATAGGATGGCATTTCAGGCACATAGTATCTGGGAAAGAGGGACTGAACTGAAACTGACTGATTCCCTTAACAGCTGGGTGACTTTAAGCAA
ATTACTTAACCTCTCTGAGTGTCTGTTCTCATTTCTTTCATTCATTTAACAAATATTTATTAGATACCTACTGTATGCAAGGCACTATGGACACAACAGT
GTTGTGTTTTTTTTTTGTTTTTTTTTTTCCTGAGACACTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAGCCTTGACTTCCTGAGCTCAGATGATCCT
CTCACCTCAGCCTCCCAAGCAGCTGGGACCACAGGCATGTGTCACCATGCCCGGCTAATTTTTGTACTTTTTGTAGACGTGGGGTTTCGCCATGTTACCC
AGGCTGATCTGGGGCTCCTGGGCTCAAGCAATCTATCCGCCTCAGCCTCCCAAAATGCTAGGATTACAAGCGTGAGCCACTGTGCCCCACCACAGCTGTG
TTTTGTTTGTTTGTTTGTTTTTGGAGACAGAGTGTCACTGTTATTGCTCAGGCTGAAATGCAGTGGCCCGATCTCGGCTCACCGTAACCTCTGCATCCCA
GGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGATTACAGGCATGCGCCACTATGCCTGGCTAATTTTGTATTTTTGTATTTTGTATTTTA
GTAGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCTTGACCTCAGGTAACCCACCCGCCTCTGCCTCCCAAAGTGCTGGGGTTACAGGCGTGAGC
CACCACGCCCCGCCAACTGTGTATTTTTAAAAACCTATCCTTGTGGCACTTAGGTTCTGCTAAGGGAGGTAAACAATAACAAATATAAAATTTAAAGCTA
CAGTATATAGATGGTGATATGTGATCTGGCAAAAAATAAAGCAGAGTAAAAAGAAAGGGAGTGCCCATTGTGGGGAGAGGGATATTAAAAAGACAGGTCA
GGGTAACATCTGAGTAGAGACCTGGAAGAGACCAGGGCATAAGCCACGTGGCCACCTGGGGGCAGAGCAATCCAGGCAGAGACTGTCAGTGCACAGGCCT
CAAGGAGGAGGCAGCCTGGTGTGTTCAAGGAACAGCACAAGCTGGTAAGGCTAGAGTGGTGTGGAGGAGACAGGGTGCTGTTAGAGATGGAATCTGATAA
GAGGGCCAGGCTGAGCAGGCCTGGTAAGCCATTAAAGGAGCTTGTGCTCTCACTCTCAGTGAAGTGGGAAGTTACTGGGAGGGGAGGTGGGTGGTTTGAG
AACAGGAGTGACATGATTTGACTTCTTATCTTAAAAAGGAAAATGGGTGAAAAATTGAGACTAGAGAACAGGGCAGAAAGCTTGGAGGGCAGTTACAATG
CTACTGCAGCAATTCAGATGCTGGCATTTGGACAAGGCTGGTGGTAGTAGAGCCAGTAGGAAGTGGTTGGATTTGGTGTATATTCTGAGACAGAGCTGGT
AGGACTGCTTGATGGATGAGAGACGAGATGTGGAGAGTAGGAGAAAGGGGTCAAGAATGACTGAACAACTAGAAGGAAGGAGTTGCGGAGCTGCCGCTGA
CTGGGCTGCGGAAGACTGAAGAAAGGACAGGAAAGAGCTGGAGAACCGTGTTAGACATGTTTGAGATGCCTAATTAGGCTTCCAGTAGTGACATCAAACA
AGCAGATGGATATATGGGCCCAGAGTTTAGGACAAGTTCTGATGTGGACTGTGTTTTCATCTCCAGCAAGCCACATGGCTGCCTGGGGGCAGGGCAATCC
AGGCAGAGATACAACCAGTGAAGAGGTCTAGAGGAGGAGCACAAGGCCCACGTGGCTAGAGTGGTATGGAGGAGAGAGTCCATTTCATTTATGTGAGTTA
AAGTTACCTTGGGCAAAGCAATCAGCAGTGATTGTGCACACAGCAGGTATTCAATGATCAAGGTTCTTTTCCTTCCCCTTCCCTGCCTGGCCCAGTCTCT
ACCTCCTGTTCATCTGAGACTTATTTCCTCAGCTCAGATCAATGTACTAAACATCTGTTTCTTCAAGGTACTACAGGAGCCTGGAAAATGAGAGAGACCA
AGCTGGCTTGGGCTCTTGACACTTGGATGGTTCTTTAGCCTTGCCATCTTCAAGTCTTCCCCAATACTACTCATTTTGACTTGTTTCAATATTCCAGTGA
AAGGGCAAGAAAAACCATCACATTTCCCAAGAGTAGATATAAATTTGAATTAATAAAGAAAGTTGGTTAGAGTTTGAACTTCAAACCCTTCCATGATGTT
TTTGTTTAAAAATAAAACAGACTCAAAATAGTAACTTCCATTTTCACGTGACTAACAAATAGCAATTGTGGATTTCAGATCTTGGTACACTACATTCCTC
CCGGAAATAAATCGGAATAAGTCAAATACCAGGAGTTCTGAGAAACAGAAGTCTCTGATTTGGGCTCCATTCTTGCTTGACGGATTATGGGGGAAAAAGT
CACATTTAAAACTCTTCATTCTGGGGTGGTAAGGAAATGTAGGCACTGTTCTGGGTCCAGAGGTAGAAGGAAAACTACATGGTATTTCACAAAATGCTCA
AGACAGTCTCTGTGGTGTGTAGAAACAGGCAAATGTTTATTTAAAACTTTCAGTTCAGTAGAAGGATGTCTAAGAAAGTTTTTAAAAAAGGCAAAAGGAG
GCTGGGTACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATTACTTGAGGTCAGGAGTTCAAGACCAGCCTGGTCAACATG
GTTGAACCCCGTCTCTACAAAATTACAAAAATTAGGCTAGGTGCGGTGGCTCATGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGGGGATCACCT
GAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAAAAACCCTGTCTCTACTAAAAATACAAAATTAGTCAGGCATGGTGGCATATGCCTGTAATCCC
AGCTACTCGGGAGGCTGAGACAGGAGAATTGCTGGAGCCCGAGACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAATTAGCCGGGCT
TGGTGGTGGGCACTTGTAATCCCAGCTGCTCAGGAGGCTAGGGCAGGAGAATTGCTTGAACTTGGGATGTGGAGGTTGCAGTGAGCTGAGATCCTGCCGC
TGCACGCCAACCCAGGTGACAAAGTGAGACTGTGTTCCAAAAAAAAAAAATTAAAAAAAAAAAAGGGCAAAAGGACAAGTGACCTGTGTCTACCCCAAGA
GCCAGCTAGAACAGCTTGCCTGGTGGTAGAACAATAGTCTTGTAGGCAATGGCAGACAAAAATCCCCTAGGCAGCTGTAAAACACTGGCCCAACCTCTCA
AGCTCCTATTACTCTCTAGGCGTGGGACCCAGGCAGCAGTAAATCATCACAACCATCAGTGCTCAGTGGAGTGAGATCATCTGCAGGGATTCCTTAATGA
AACGTGATGACTTCTCTGGCACTCCAGCAAGTGGGGTGTGCTGAGGACACCACGCTTTTCTCAGGAGATCAGTTATCAGCTTTTCCACACGTTCTCCTGA
ACCAGCACACAAAACAGCCCACGTGGCACCATGGCACCGACCTCAGGACTGTGCCGAGCTAGCTGGATAGCTTGCTTGCTTTTCCTTAAGTTCTGGTTAA
AATGCACTGTACCAACTGCTCATTAAGGTCTTACTGTGTGTCAAGCAGTTGTAGGTGCCAAGGAAACAAAAACAGGCAGGATTCTGTTGTTTTTATGAAT
TCTGCTCTCATGGAATTCATAGTCCAATAAGTAAATGCATCTGAGTCAAAATCAGACTTCCTTTTAAAAACGAATGTGGCCAGCCAGGTGTGGTGGCTCA
CGCCTGTAAACCCAGCACTTCTGGGGGCCAAGGTGGGTAGATCACATGAGGTCAGGAGTTCAAGAACAGCCTGGCCAACATGGTGAAACCCTGTCTCTAC
TAAAAATACAAAAAAATTATCTGGGCGTGGTGGTGCATGCCTGTAATCACAGCTACTTGGGAGGCTGAGGCAGAAGGATTGCTTGAATCCAGGATGCAGA
GGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCCGGGTGACAGAGAGTGAGTCTGTCTCCAAAAAAAAAAAAAAAACAAACCAAGAATGTGGCC
CTTCCTTCTGCTCTCAGGGCTGGGGATGTGTGGAGGAGCGTGTCCACAAACGAGGCCTACAGGCACGTGTGGATAACCTGATGGAGCCGGCCCCAGGATG
TGCTTCCCCCTTTATATTCATGTAGGAAGAACTGCTGTAATTCATAAAGTTTATATTATCCCATTTAATTCTAACAGTGTTATGGAGTTTCTTGGTGAGA
ATCACTCTCCCCATTTCAGCTGACACTAAGAAAGATCAAGAGACTTGCCAAGCCCACCAAGTTAGTTCATAGCGGCACCGAGATTATAAAACCAAGTTCT
CTGATTCTCATCCCAAAGAAACAGAGAACTTGGTTTATAATCTTACTGCTCTGCAAAACCTCCCCAAGTGACCGGTGGTTCACCTACCTGTCCTTGACCT
GCTTCTGTCTGCTCTCAATTTTTCTTACCCGTACCTCCACCCTGCCTTTGCCTCAAACTTCCCATCTCCATGAAGGTAATCTTCTGCTTTTCCTAAGCCA
ATGGTTGTTAAGTCTGGTCTCCAGATCTGCAGCATCAGACTCACCTGGGAAGTTGTTAGAAATACAGATTCTTAGGCCTCGCCCCAGATCTACTCAATGA
GAAATTCTGGGAGTGGGGTCCAGCAATCTGAGTTTTAATGAGCTTTCCAGGGATTCTGCTGCATGCTAAAGCTAGAGAACCCCACTGAACTAAGCTAAAA
AGCCAGGTACCTCTAGAGTCCCTGTGTTGCCCCACCATGATCACGGGGCCCCCACATACACAAACTCCATGACTAGAGAAGAAAGCCATTTGTCTGACAC
CATGCAGCAGTCACAAAATGCAGTCACATCCAGTAAAATTTTTCAGGGCCAGCTTAGGCAAAAGCTTGAAGCAAGAGGTAACAGCCCTCCCCTTTGTGGT
CTACCCTTCATAATGATAGCCCCCTTTTCTCAATCAGTGCAATGGCCTTTAATTCAACCCCCTCCCACCTCATCAGACCCAGCTCTTGACCCTTAGATTA
GAAGCCCACCACAATGCGAGTGGATGTGTTCATACATAACCCTCTTCCCTAACCATGAAACGTAATGAAAGGCTCCAAGCTCTGTTCAAGAGGGTAGACA
GGGGTACTTCATCTAGAGTAAATGCTAACAATAAAACGTGAACTACGCAATTGCGCTACTTTCTACAAATTACAGAACGCTTCCATAACTCTCACAAGGA
TCACAAAAGCTACTTCTGAAACAGACATTAGAACCCAGGGGCCTATCTACTGTAACACGCCAGACATTATATAAATTCTTGTTAGTCATCTAATGGGGCT
ATTATAAAAGTTCTGGTCACTCTGTAAGGGCAGGGGCCCATGTCACCAGAGCACACTGCCACATAAAAAGAATTTCTTTGTCGCAAACCCAGGCCATTAG
AAATAATGCAGAGACACACGACTAAACAAAGGATAACTTCCTGAATCCAAAGTATCAAGTTTACTGAAAAGGGCAGGGGACGACCTTTACGGTCCGACTT
TTCTTTGTGGAGATCTAATGATCCTCTTATCTACTCCCTTGACTGGCTAACAGGTCTGTAGTTTTCTCTTAGAAGAATGAAAGGTGGTTATTCTCTTATT
GTTTTAATGTCTACCGCAGCAACATTTGGAGGAATAAAAAAGGCCCATAGAGGTAGAACTGAGGTTCCCGCACAATCACTCTTTGCCCATCAATATGGAA
TTTATGCTCAGTTCTAAAATGCACAAAAATTGCATTTGAAAAATGAGAAGCTTTCAGAAGTCGGAAGTGTGTGTGTGTGCGTGCACACAMACACACACTC
TCTTCCATATGTTCCAGAGAGGTGGAAATATGCACAAGAAGAATCTGATGACCCTCCCATTCCGCCTCCTTTATTTTCATTTCTTAGAAACTCCTTCTAT
TGGAACATCCCTTCCCACATTTATATACAGGGATAGATTCCTGGAGAAGAGAGGGAGTAAGATTCACAAAAGATCTAATTTGGAGCACTAATAATTACAG
CAGCTGAAAAGCATACGAAAGCAAAGAGCCCTGTTAACAAAACACTATCAGGGCACTTTCCAGAAAACAGACCGGCGATGAGATTACTACTAAAAATAAT
GAAGACAAGAAGAGCCAAAATCAAATCTCAACTATGCAGACAGACTTGTAGAATTTTTCACCTTCACTGCTACAATCAGCATTTTTTAAAAAGAGCAGTA
GACTGCATGAGTTGACAAAGGAAGAAAAACAAAAGATAGCAAGAGACTCATTCTGGACACACAGTTGCTATTCTGTATTCACAACTCTACACCAGCAACA
GCAGCTCAAATAAGGCACAAGGTGGGGTCCTGGACAAATTCACCCATGATCAGACCAATTATCCACGCTGCACTTCTGCACACAGTAAACACCCCTGACC
TGCACCACCTCTGCACCTCCCACCCCCATGACTGGGATAAACCCCACCACAAGCTGAAAAGAACCCTGTTTTTTTTGTGAGAACCAGCCAGAGCCTAAGC
TGTCATTACACAGCAAAAACCTAGCGAGAACAAAAAGCCAGCAGCAGACTGATGTAGAAAGCCCAGAACATACCTGAATTCTTCAAATGCAAACATGACC
TAGTCAGAGACAATTTCCTTAGATTGTGTGGTAGTCTTTTTGGTATGGAGGACAACCATTTAGTTAGTCAGATGGTGCAAAGTGCAGAAAAATGAGGCGG
GGTTTCCACACCCCCCAATATTCTGAAGTAAAAGGCTTTCTGCAGACAGGGGCCTGCAGCCTCCAGCTCCGCCAGCTGCTGACAAGCGGCAGCTAACAGG
GGAGGCAGCTAGAAAACCATGTGATCATTCCAGCAAGTCTGATTAATGCAGTGTATGCTTAGGCTCCAGGCTGGGAACTGGATTAGTCTAKAGAAAGAAG
TCGAACCCAGGGCACGCCTGGGATCCTGGGTAAAGCATGTAACACATCCCACCCCCTACCAGAACTGTGCASGTTGGGGAGAGAGGAGAGAAGGCTGAAA
GGAATGAGAATGCAACCTGTTCCGCTGTGATCTGCCTAATTACCTCATCTTCCTCTGGCTGCTGCTGCTATAAGCTCAGGCATGACCAACATTATATGTG
AACGTAAGTACTGAAAAATTCTGCAGAATTCTGTATTTTACCATTCCACTATCAAACACTATTTTAGCACAAATGCATAAGCTGCTTCAGAATCACAAGT
CGCATTTTATGTCCACCACTTTACCATGACCAGCGTGACCTTACATGTCACTCCTTATTAGTGATCTCATTTATTTGATTATTCATTTATCGAGTATATA
GTAGGTACCCGGTTCTCACCAATTCCTTGAAGTACAAAAATTGCTATAATCATTTCAGAAGAGAAGAAGGAGGAAACGAGATGCCAGCCCCCAAAAGAAA
AATGTTTATCAGGCTGGCAAGATTTGGCAAATGAGCTGAGGTTGTATTCTGAGACTCGCCATGAAGGAAAATCTTCAGCATTCGGGTTGCAACTCTTTGT
GAAATAAGCAAGGCAGATCTCAAATAAAAACGTATGAGTCACTCTTGACGTTTTTTCTCTCCCTTGACCCCAGTGTCATCAGTCACTAACTGTAATCGAC
CTGGAAAAGGTGGCCTGAAGCTGCCCCTTTCCCCTCACCCGCTCACGCAGCCTGGGTGTGCCCTCAGCGCCCCTCACTCAGCCTCTGGCCTTAGGAAAAT
TGCTCTGGCTGAGTTTTAGAGAAGGGGTGGAAGAAGGAAAACCAGTTACCAATTCTGATTTTGATGCCTCTGTTTAACCCTGCATTACTAACTCCTCACA
GCTCAAGAAATAAAGTCTTTCACGCCTCTTCATGACATGCAAAGTCTTATTTCTCCAATTCTTTCTTCCACTAAAACTCTTCACACACCTTCAAATTCAG
TYAGACATTCACAGTTCCCAAAATCTGTCAGGACCTCCCTTCTCGRGCCCATGGACCAGCTGGATGAGGTTCTTTGCTGCTCCCTAATGTGAGCYGCTGC
CCACGTGCTGCTCCCTCACTGCTCCCTCTCCGAGGGGCTGAGATTCCCACAGGGCAGCGCACTGCTCTCTCTTCTTGGCTGCCACCTGCRTGGCATCCAA
CATTGTGTTTGCCTCTCCTGCAAATCTAAGAGTTCCTTGAGGACAGGAATGTGTGAAGTTAATTTCTGTATTCCCAATGCCTGACATAGCACTTGACAAA
AAGGAATTATTCACATAAGGTTTGCTGAATGAACCTCTTTTGCCTCAGCTTTTATCAGGGAGAAGAGTGATCCAGTACATGCATTCGCACGAAGGTGCTC
TGGGACAAATGTATCACTCTTCATACAGTTATCTCCGTCTCGAAGAGAAGCAAGAGAGTCCAGGTCTTGACTCAAAGAAATGCAGTGACAAAGGCCAAAC
GAGGCCGACTGACGAGTGAGGGAGGTGTCTGGGGGAATCCTGTGGTCCCCCAAACCACACAGCAATCACCTAAGCTGATCTGAAATGCCTTCTGCAGTAT
TCATGACCAGCATCTGCCTGAGACCTTCTGGTGATGGCAGCTTCTTGGCAGAATCATAATAACAGGAAACAAAATATTCAAGTCATTAAATAACTCAGTT
TTAAGTCCCAGATCTGCCCCTTACTCTGTGATCATTGACAAGCTACTTAAATTCCCTGGGCCTTGGATTTACCCTATATAAAACCAGAATAATATTGATA
CTGCCCACGCCTCTCTCATAGGAGTGTTGTAAGAAACCAATAAAGTAGGAGTTGGAAAGTTCTTTATCAAATATATTAAGTTACATAAGTATCTTCATCA
GCTTTATTATCTCACAAGATGATCTCTAACCGGACAGCTCTGATGACTGGGTGGTTCTTCTTCATGAAGAGACTACCACTCCTTGGAAGTATCCTGTCTG
CTCAATGGGTGGCTCATTTAATTTTGTGGGGACCTCTAGACTCTGTGCCTGCTCTCCACCAGTKACTCAAGACTCTCCTTTTGCAGGTATAACCAGCACC
TTTCAGGGCAATTCATAAGGTCCTGGTAGAGGACAGTTGGTAGAAATGGTGAAAAATCAAATCCCAGCACCAAGCTCATTTTACACATAATATTAAGAGA
TTCTCCCAACTTACTAATAGAAGACAGAGGCCAAAGTGGTTAAGTAACTTGTCCAGGGTCATACAGCTATAAGTAGCAGAGTAATGACATGGATTCCGGC
TGAGCTAACTCCAACATGCTCTCCTGGTGTCCTTACACCAAYGATCCAACCAGCTCAGGCTGCCTCCAGAAGAGGACTTATTTGATAGACTGTCAGGCAG
CCTGTGGCCCTGCAGAGGCGGTAGGACACTGACCCTTTTGGGCTATTTTATGTAGCTGGCCAGGTGAATCCCCAAATTTCATGGCCAAGCAAGAGACCTG
CCAGGGCTAAAMAAAAGTGCCTCAACTGTTCCAGGAAGTGAGAGGTAGACACCTCAGCTGACATGGCATTGGGGTCCAAATGGGAACCAAGTCTGCTTCA
AAGGCTAGAAATCCTCGACCACTTGATTACTGATAACACCAAAGTGTCAGAAACAGAAACATAAGTGAGGGTCCGTGACTCCTGACAACTCCACTCCTGT
CTGGAATAGGGCTCAAAAAGGCACTTCTGTGACCACATAATGTGTTTTTTTGTTGTTGTTGTTTTTGTTTGTTTGTTTGTTTTAGAGACGGAGTCTCGCT
CTTTTGCCCAGGCCGGACGTTTGTTTGTTTTTTGAGCCGGAGTCTTGCTCCATCGCCAAGCTGCAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCT
GCCTCCTGGGTTCAAGTGATTCTCGTGCTTCAGCCTCCCGAGTAACTGGTATTACAGGCACGTGCCGCCACACCCAGCTAATTTTTGTATTTTTAGTAGA
GACGGGGTTTCACCATGTTGGCCAGGATGGTGTTGATCTCTTGACCTTGTGGTCCACCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
CAACGCCCAGTGTTTTGTTTTTGTTTTTGTTTTTTAAAGGCACTCCAAGCCATTCGCCAACAACTCAGGCTCAGATAATSCACACTCCTACTCTGGGACT
TAATTTCCCTTTGTACCATGAAAGAATAGCCAGATGTTAAATTTTTAAATTAATAAATAATTAATTWTTTTTTTTTTTTTTTGAGACAGAGTCTTACTCT
GTCACGCAGGCTGGAGCGCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCATGTGATTCTTGTGCCTCGGCTTCCCCAGTAGCTGGG
ATTACAGGCATGCACCACCAGGCCTGGCTAATTTTTATTTTATTTTATTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCT
GGCATCAAATGATCTACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCAATAATTGTCTTATTTTTAAAAATAACA
CTTCCATGGAACCCTAATACATACAACTGATCAAAGTAGAATAGTTCCRGCTGAAGAAGGTGGAGGGGCCCTAGAGTCCCTGCTGCAAGGCCTTCCCTCT
CTCTACCAGGACAGGCTCAACCTGAACACACTGGCCTAAATGACTCTGGCAGTCCCTGCCGGCGCTAATGATCTGTGGGGCTCTCCCAGCTACAAACTGT
CACACTCACCCTAGTTAATCTGGATTCACTTCCTCTTTCTAGTGTCATTCCTAAGAATACCCTCCCTAGCCCCAGCGGTACTACCATGGYAGAACACTCA
TCTGCAGTTACTGGACATGTGAGCTGCCCGGGACTTCTCCGGAGAAACAAACATGGAGACGCTGATACAAACACAAACATGAACAGGAAATGGCCCTGGG
TTCCTGACAATGTGGGAAAGCTAAATGAGAATATTTTAAACAAGTGTCCTCAGCTTAACCGGTACCTTCGTTTTGCAACCCATGTCTTTTCATACGAAAT
GGTCAACTGTCCAAGAAAAGGAATTTATGATTTGTTAGTACTGAATCTCATTACAGTTCACTTGGAGGCCAATAAACAGAGAGTTTAAGGCCCTGATGTC
CCGTGGACTTGAGACCTTACAATCAACATTTCCTCTGCCACTTTTTTAGGCTGTGGGGCACACAGCCATGATGGACGTGAAGCAAAATAAGGACTGAGCA
TCTGAACAGAATCTAATGTGCCAATCAAGTAAAAAAAGAACTCTATTTCAACATTTACTAATATGCACATTCACTTCTGTGCTGTGTGGAGATGAAACAG
AAGGAGCCACAAATGGAAGTCAGCTATGATCATGACTAAAAATACTATTCTTTTCTCATGGCCCAATCAAGGATCTTTCCAATGGSCAGGGGGCTGAGCG
GTAATAAGAGGAATTCAACAGTGTCTTCAGAGGCCCATTTCTCCCTGGTTTCACTTCTACAACCCTAATTAAGACCCTTCTAGCCTCTACCTGATCTCCT
GCCTGTCTTACTCCCTTCCTGCACAGTTTTCAACCCTACCAATTGCCAGTTAAAAAACCCACAACTCAAAAACTAAAACTAAAGTGTTCATATGATCCAG
CAATTCCACTGCTAGATATATACCCCAAAGAAAGGAAATCAGTATACTGAAGAGATATCTGCACTCTCATGTTTACTGCAGCACTGTTGACAATAGCCAA
GATTTGGAAGCAACCTAAGTACCCATCAACAGATGACTGGATAAAGAAAATGTGGTACATATACACAGTGGAGTACTATTCAACCATAAAAAACAATGAG
TCCTGTCATCTGCAACAACATGGATGGACTGGAGGTCATTATGTTAAGTGAAATAAGCCAAGCACAGAAAGACAAACTTCACATGTTCTCACTCATTTCT
GGGAGCTAAAAATTAAAACAATTGAACTTGTGAGAAGAATGAGAGCTAAAAATTAAATTTAAGTTAAAAATTAGAATAGGGGCTAAAAATTGAAACAATC
GAACTTGTGAGTAGAATAGAGAGTAGAATGATGGTTACCAGAGGCTGGGAAGGGTTGGGGATGTTCATGGGTAACCAATGGGCAGGGGACTGATCATATT
TTATCTATTAAAATAGAGTTAGAATGAATAAGAATCAAATGCTAGTATCTGATAGCACAATAGGGTGATTACAGTCAACACTAATTTATTGTACATTTAA
AAATAACTAAAAGAGTATAACTGGAATGTCAGCAACACAAAGAAATAATAAATGTTTGAGGTGATGGATACCCCATTTGTCCCATTTGTAATTAGTTATT
ACACATATCTGCCTATATCAAAATATCTCATGTACCCTATAAATAGAAATATCTACTATGTAACCATAAAAATATAAAAAATAAACCTACCATTCTTTTT
TACTGTCTGCATAATAGTCTCAGCCCCCAAACTTGGCATTTGGCTCCCGCACAATCTGACCATTGTATGCTTCAACCCAGCTCTCAAACTTGCCAACCTG
GCCCCTCGGCATGGCCCTGCACTGACTCCGCACCCTAACCATATCACCTCCACCTGTGCTGTGTGGAGATGAAACACAAGGAGCCACAAATGGAAATCAG
CTATGAACATGACTAAAAATACTATTCTTTTCTCATGGCCCAATCAAAGATCTTTCCAATGGCCAGGGGACCCTCGGTCCCGGATCCATAGTGCTTCCAC
CTTCTCTCCACAAGTGGCTATGGAAAGCCACTTGATTCTGAATCCAGTTCTACTCCTATCTCCCTGAGAAGCCTTGGGCAAATTCTCACCAGCCTAAGTC
TCAGTTTCCTCATCCTAAAATGGGGAAGACAGCATGTATTTTGTGGGGATGCTGTGATGTGCATTACACACATTAACCACAATCAATGGTAGCTAATATT
ATCAAATATGCCTCAAAAACCCATCGAGTTGCCCTCCTGACCAAAACCAGTCTCAACTGATCTCTAAAACTCCTGRATTCCTATCACAATCAATAACCAT
TTTTAAAATGTTCACACATTGTCTTATGCTGAACAACTCAGTTCATTACGTGTCTTGGGACCCTAGTCAAAGAGAGTCCCTGGGGATGGAACTAGAATGG
CTAGAAGGTGAGGCCTGAGGGGTTTAACTCCCCACAACCTCAAAGASAGTCCCTGGGGATGGAACTAGAATGGCTAGAAGGTGAGGCCTGAGGGGTTTAA
CTCCCCACAACCTCCATCAGACAAGAAATACACACACAATCTAAGTAATAACAGCATGCTTGGTATGCAAATACAGCTTCAAAAGGAAGCCATTACAATT
CTGGGCCACTATCCTCAAATTATCCYATTTTGAAATTGTGGGGAGTCCACTAGCACTGACCTTGGTTTTAGTCCTAATCTTTCACAAGGCACAGCAATTC
TTAGTCATACATTGTAAGTCTTAGAGACGGTTTTTCTCACAACTCAATTGTTTCATGTGGCTCTCAGATTACTAATGAAACAGAGCCAAGATCAAAAACA
TCTCAAGAGAAAAAGTAAAACCACCACCAGGACCATAAGCCAAAGGAAGTGTCAACTCCATGAAAGGGGGGCCCTTGCCTCATCCTTACCATTCTTTCCC
CAGGCCTGGCACACAGAATTGTTCATCTGTTGAGTTAATTAATCAATGGTTTGTGGACTTAGAGAGATTTAATAAAAAGATGAAATTAGATTAAGTCAGC
AGTCCTCTTTCCAGTACAAACATCAAATAATAGGGCAGATTACCCTTTTGAATAAGCAAGTGCAGCTGCTCCAGTGTCACCCTGATTTACTGAAATTTGC
TAATTAAGAAGGTATTTCCAGGAAGAAAGGAATAATCAAGAAGATAAAATCATGTAAAGCAAATACATACATTCAATAAAGAAATATATACTGAGCACCT
GCCATGTGACCAGCACTGTTACACCCGAGGCGGGAGAAGAGGTCAAAGAAGATTCAGACGCACTTCAGGCCTTTCCAACAGTTAGAAACAGACCCCATAA
CCTAAAAAAGCTGAAATGATAGTTAGCAATGGTAAATCAATACCAAGTATATGAAGCTGGGGTATAGGATTTTCTATTTATTCCTTTAGTGTTACTAGAT
TTTTTTCCACTTCAATTCACTGTTCTTATCAATGTCCCTTTTGAACCCTGGCTCCATTATGAAGTTGCTGAATGTACCTGGAGAGTGAATAGCTGGGCTG
TGGTCCCAGCTCCATTCCTTAACAGCTGAGTGTCCTTTGGCAAAACACTTTATCTGTCAGCATCTCAGTTTACTCACCTGTAAGTTGTAAATAATAATTC
CTATCCTGCTTCCTCACACAGAAATCCTGAGGATCAAATATAATAACAGGTGTGCCAATCTTTCGTAAATTTTAAGTGCTATACAAGTCAACAGTAGTAC
TATTAACAACAACAAAAGAAATTATCCCTTTGCACTTTGTGTCATTTGAGATCTTGATAAGGCAGGAATTTTAAGTCTTCATCCAGGCCATATAATTAGA
TTAYCCTTAAGAGCAACTTACTATCCACGTGACCAAGAGAMTATAGATAAACACCCACAAGTACAGGAATGCAGGGCTGACAGAGTATCATAGTCAATTT
AGTCAAAACTTTACTCTTGGGCAATAGTCTAAGCCATCCAAGATGCTTATATGCTCAATATTCTTATATGCTCAATATGTACTCATTATGTCGAAGTCTA
ATTTTCAAAAAGCTAAAAACACAGCTCTCATAAAAATATTTAGTATATATGTGTCAAAGGCTGATTAATCTTGCAAAGTTAGATATAAAACTGGTTAATG
TTTCATTTCAGAGCAATGAAACCATAATCTTTGAGGTTATCTTTTCTATTAAAACAGGAATCATTTAATTTCTACTGGACAAAAATCATTTGTAACATCA
ATTTTCTATAAATTAATATCTAACTTTACAGAGTCTAAACTCTATTCAAAAGTAAGTCAAATAATTACCTTCTCCAGGAATGTTCTATGTCCCTTCAGTG
GACTTTCCAAACAAATGCTTTTGAGTGACACTGAAAGGGCACACAATAATCTTTTTGCCTTTTCTCCAAGTTTTAGATAACATTTCTAAAAATCTTCAAA
ATATCTAAACATAGCTTATCATCTATTCCAATGAACTAGTTAATAAAAAATTCTCTCCTATCTGGCCCATTTTTGTATCTTCCTCATTCACATGTTCTTT
ATAAAAATCTTCAAGTGAATAAAGTCAATCATAAATAATTGCTTAGTTTTCTTAGGACAAATCATCTTGAAATCCAAAGTTGAGGAGGGCACTATGTTCC
AAAACTTCCAGTCCTCAGTGCCTCTCTGCATTCTCTCCAACGACCTCACTTTTGGATCTCCTAAAGATGAAAAACGGAACATTTGATTCACAGGCTTTGT
AAATTCCCTAGAGGTCTGGCTATTCTGAGGCAGTTGCCATAATTAACCGTAATTTCCTCATCTTCACAAACCCATCCCTGTCACCCTTTTCTTTCCAATA
TAACAATGCTTGGAAGTCAAAACCAAAATCACTACAGAGGTACGAACAAACAAACAAAAAACCTGCTGGGCACAGTGGCTCAACGCCTGTAATCCCAGCA
TTTTAGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTACTAAAAATACAAAGAATT
AGCTGGGCGAGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGTAGGAGAATTGTGGAGGCTGCAGTGAAGTGAGATGGTGCCACTGCACG
ATCTTGTTGCCTGGGCAACAAGAGCAAAACTCTGTCTCAAAAAACAAACAAACAAAACCAACCCACACTAACTAGCACAATAATGACGACCAAGTTCTGA
TTTTTTATCTTGCCCAAATTCCTACCTAAGGGGTCTAGGAGTCACGCCCTACAAACCATAAATTCTCATCAGATGGGTTTTATTTTAACCCTGTATATCG
TGACTTACTTTCCAATCTGAGTGACTCTGGCATAACAAGGAAGAAAATCAAAATGTTTTACCTCAAAATATATTTCCTTGCCATACCTTGAAATTGCCCT
GCAAAGTCTCTTGTGGGAAAAWTCTGCATTCTATAGAGAACCCCCTCTTTTCCCTTTGTTTTTCTTCCTTCCTTTCCAGATCCAGGAGACAATCAACTAA
GAGCCAGGCACCCTTTTAAGTCTGATAAGAAACATTTTACAACGTGCTCTCTCTAAAGTCTGAGAGTTTCCTCTGCACAATAAAACTTGGTCTCCACAAT
CCTTTATCTTAACCTGAACRTTCCTTTCCGTTAATCCCAGGTCTTCAGATAAACTTAACCAATTTCCAACCAGAAAATGTTTAAATTTACCTACAGCCTG
GAAGCCCCTGCTTTGAGTTGTCCTGCCTTCTGAATCAAACCAATGTATTTCTTAAATGTATTTGATTGATGTCTCATGCCTTCCTAAAATATATAAAACT
AAGCTGTACCGTGACCACCTTAGGCACATGTTCTCATGACTGTGTCATAGGCCATGGTCACCCATATTTGGCACAGAATAAATCTCCTAAAATATTTTAC
AGTTTGACTCTTCATCAACAACAATACGAAGTCAAAAAAGAAATCTAATTAATCTGAGAATGTCTTCTTCACATTTGTATTTTCCACAGAGGTTAGGGAA
CTGGAATGATTGAATAAACAAATAAATAAATTGAATGGACTAAAAAAACAGAAAGAATGAATGGATTCCAAAGGTTTCAGCATGTTAAAATGTCTTTCAA
GAAACCAAGAAAGGAAGGCAATTTCTGGAGACTAGTCCAGTGAGGGCTTCAGAAATGAAGACTACATGAATGAACACTGTGGGAATTTCAAGCATCCAAC
TGGCAAGGCAAGATGGAAGACATTTTATTTTGAAGGTAGGGAGATCAAGGAGGGGAATAAATATGCACATCTGAAATGAGGCCACACGGGTGTGTTCTCA
AAGAGAGCAGTAGTTCCCATGTTTTCAGAGCCTAAGGTATGGAGTCTAGGTACCAATGCTTGACCATGCAACCCCTTCCTAATCTACAAGTACTAAAAAT
GAAAACCTTCATTTAATACATGTTCTCACTGGAGAAGGAGGTAGAGGGAAGGCAGATATAATCATAAAGAAGTTGCACAAACATATGCCTAAGAGAGTTG
TAATCTAAGAAGTCTTACGTGAGGTAAACGTGTTTTGTTTCCTCAAAAAGCTAATTTTTCTTTCTCACATTCCATTTCTGATAATCAGGACTTCTCTATT
TCTGATTTCCTACTAAGATGTAAAAAGCAGTGTTTTTTCCCTCATCTAAAATAGCACTGCTTCTTAGTTTCAAAAAGTTCTATTTGCATTTCATCTCATG
AGTCTTGCAGTGTTGCTTATATTCCTTCTTACAAAAAGCCCCAACACCCAACATACAACCATGGTATTTAAATTAATAGGTACAAGGACAAATTGATTAA
GACCTTCCCACGGATTGCTAATGCCACACTGGGATTTGTTAGGTGACTKACTACATTTGAAAATGCAGTTATTTTTTWAAAGATATATTCATACTACCAT
GAAAAAAATGGGCATTTGATTATTTTCTAAGCCTCCTTCTCAAGCCATTCAACTCTTTCTTGGACCCTAAAGCAAATACTGAATACAGAAGAAAAAGAAG
GGTAAAGGAGTAGTTGCCTTCAGACACTAGAACAGGCACTGAATGAACCAAACCTTGAGAACCACTGTGTTACACGCAAGAACATGAGGGTTTCAGAGAT
TTCATTAATATGGTAAGTKACCTAAGAAAAGAGTCAGTCTGATCTCCTCACTTTGAGCAAAGAAACAGAAAAACGCAGCACCTTGCCTAGGGTCACACAA
TCACAGTCAGAGATGGAATTAGAACTGAAGTGTCCTGATTTCTAACTCAAGTGTTTCTTCTCCACATTAGTGGCTCTCAAAAGCGGGGTCATCCACCAGC
CATATTAGCATCACCTGGGAGCTTGTTAAGGATGAAAAATCTCAGATCCCGCCCCAGAATTAGTGCATCAGAGGCTGGAGGAGAGAACCAGCACTGTTTT
AACAAGCCCTCCTGGGGATTCTAACGCATGCTCAAGTTTGAGAACCACTGACTGCCCTACACCAGCAGTTCTCAACTGGGGATGATTCTGGGCCCCAGGA
ACATTTGGCAACGTCTGGAGATACTTTTAGCAGTGGCGACTGGGAAATRAGGTTGGGTGTTGCTTCTAGCATCCAATGGGTAGAAGCCAGAGATGTTGCT
AAACATCCTACTATGTACAGGTAGYCCTCCACAACAAAGTATTATCTGTCAATAGTGCTGAGGTTGAGGAACTCTGCCCTACACCTAATAGTGGGAGGGC
AGAACYAGGAAAGCTGTCCGTGCTTTTCTTTCTTTCTCTTTCTCTCTCTGTCTCTGTCTGTCTCTCCCTCTCTCTCTCTCTCTCTCCTCTCTCTCTGAAA
GTATCTATCTGCTTTAGCTGGAAGTTCAGTTCTCTTTCATAAATGCATCCTGTGAAGCTGTACCTCCCCGCTGGAGTGCCTCCAATAGGTAAGGCAAGCC
GACACACTTTGAGTCTTTGGCTACTTCTGAGATCAGAGCCTCAGGCCCCTTGGCCAGTCACTCTCACAGCAAGCAGCTATATCTAGTTCCCAAGGGTATC
ACGCAAATGTTGGCATTTTTCATGAGTGCCATGATGTGAGTAGATAAGAGAGCAGCACAGATCTTTTTTTCAAAAGTCAGAGTTCCTCCTGTGAAAGGAA
AATAAATCTTGGGGCCCCCAAATCACTAAGCTAAAGGGGAAGTCAAACTGGGAACTGCTTAGGCCAAACCTGCCTCTCATTCTATTCAAAGTCATTCCTC
TGCTCACTGAGAAAAATCTGATTTGCCTCCTCTGGAAAACCTAAGCAGAAATTCAAAAGAATGCAACCATTTGTCTCTCACCTACCTGTGACCTGGAAGC
CCTCTCCCTGCTTGAGTTGTCCTGCCTTTCTAGAGGGAACCAATATATATCTTACATATACTGATTGATGTCTCATGTCTCCCTAAAATGTACAAAACCA
AACTGTGCCCCGACCACCATGAGCACATATCGTCAGGACCTGTTGAGGCTGTGTGACAGGCGCACGTCTTCAACCTTGGCAAAATAAACTTTCTAAATTA
ACTGACACCAGTCTCAGATATTCGGGGTTCACATTCTGGTAACCACGAAAGGATTCTGAGTGAAGGTGCCCCTAACCTTTGACAAATCTCCTACTGGTGC
TTGTACCAGCTTGAGCTATCTTTWTGGCTCAAACCAACAGGACAATTTGCTGAGGCCTGGAAGCACCCCTCCAGAGAATCTCTGATTTCCCAAAATCTGG
ATGAGATTTAAAGTTTATTTTGCTGTACAACTCCTTTTTTTTTTTTTTTGATGTTTTACTTGCTTCCAACACAAAGAAGGCAAGTTTTTCCTGCTTCCAC
GATGGAAGGCATGAACTCCTTTATGGAGTTTGAGCTCGCTTCCAACAGGGAAGACGAATTTGAGATTTTTCCTGCTTCTTGGATGGCACAGAGCAGTCTT
CAGACTGAGACCCATCCATAGGCCTAGGTCAGTAACTGAATTGGGGTTCGTCTTGGCTAAAGTTAAGATTAACATGCCGGGCGCAGTGGCTCACACCTGT
AATCCCAGCAGTTTGAGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTCAAAACCAGCCTAGCCAACATGGTGAAACCCCATCTCTACTAAAAAT
ACAAAAAACCCAGCCAGGTGTGGTGGCAGGCACCTGTAATCCCCGCTACTTGGGAAGCTGACGCAGGAGAATTGCTTGAACACGGGAGGCGGAGGTTGCA
GTGAGCCAAGATCGCACCACTGCACTTCAGCCTGGGCGACAGAACGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAGATTAACAACCAGCTGGTTTTAT
TTKCTCCTTACCATTAAAGCATTCAGTAATYGTATAAGTTGTGCCATCGTTTGTTTTGCTTGACTGTTTTGTCTTTGTTTCTGTTTTTGTTGTTGTTTTG
GTCTTTTTCCCATTGGGTTTCATCAACTCTATCCGACCTGATCAAATCCACAGGAAAGTTCCAAATTATGGGGAACGAGGCCTCTRAAGTGGCTAAATCC
CCCTCACCCCCAACACACACAAAAGTGTTGTCGGTGTGGGGGGKGGGGGGRAATGGCCAGCAAAAGGGGAAAAAAAAAAGGAAAGATTTTTTGACTTAAA
GGGCTTTATTTACGTCACACGGCCACCTTTTTGCTAGCCATGCCAAACCAAAAGAGTGATGGCTGTCGCCCCATGCTGCAGTTCCATAGCTAAGGGTTCT
GCCTTCTTTTTTTTCCACCGGGACAGCCTGGGTTTGGTTCCTAAATCAAGCCCTTTCTGGTTTGATGCTTGGTACTTCTGCAATAGTAGCAATTTGTGCC
AGCTGAAATATGGTAATGAGATTTAAAAAGTTTTTTAAAAGAAGCTCAATGGTTAAAAGTCAGTTTAATTAAAAGGTAACATCCAAGGGGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTATTTAAAAGGCCTTCATACTTTTTGTTTTTCTCCTAGGACACTGTCTTTTTTTTTGAGCGAGAGTTTTCTTCT
CAGTTGATTGAATTCTGTTTTCTTCATTTACTTCTGCTGTCTCTCCTTTCTCTTGCACCCTCTGATGCATGAGGGACCAGGACATACTTATCCCTGCCAA
GTAATATTAGGTGTCAAAATTTGGCATAGGGGTTACAAAACTATAAACCCAGCTTAAAACAGAATGATCTTTGCTTGTATAATTTTTAATAAATAAGATA
TTGATATTAATTTAATGAAAACAGCTACATCTTGAATTATTTAGTAAAATTACCATAACTTCTAATCTTGTGGCTTTAGGCAGTCTAGTCCACAGGCAGT
AAGGAGGTTTGTTTAGAGAAAGGACTGCTGTTGTCTTTATTTCAAAACTATAAACTAAGTTCCTCCCAAAGTTAGTTTGGCCTATGCTCAGCAATGAACA
AGGACAGCTTGGAGGTTAGAAGCAAGATGGAGGCGGTCAGATCATATCTTTTTCACTGTCTCTMTTATAATTTTGCAATGGCAAGCTTCACAACTTTAAA
TGATGACTGTTGTAGTTTTCATAAGTAATCTAGGTAAATGATTAGAATAAAATAATTAGGTAAATGTAATGAAATAAATACTTGTAGACAAACTTGTCAT
AATTTAGAATCTAAAGTTAAATTAAATAACAGATATTTCATTATTTAGGTATATTCCAATAAAAATATATTGTAGGAAAACATTCTAAAAAAATACATGT
GTCCTTTTTAAAAAGGTGAACAATTTTTGTCTAATTCAAAGCTTATTTAAAGGTTATGTATAAAACAAGGTAAAAGGAACCAGGAAATAAGAGAAATATA
TAGAAAGTTACAGCAATAAAGAGGTATTTTTTGGTAAGAAAGCTTAAAGAGAAATAATTTTATATGAGAAACAATCTTGAATGGTAAGTGCAGTCCTAGA
ATAAAATGACTGGTTATTTAAGAAAGAGGGACATTCGGGAAGTCCAAGCATGTCATGAATGGTGTATGTAAGTCACAATAAGAGGATTTATTAAAAAGAC
AAAACTTTTATATGATCAAATTAAAGAGAAATTAAAATGGTCTTTCTAGAGACTGAGTTTGATGTTAAAAAAAAAACCACTTACACACTAAAGAACTGAC
TAGAACAGTAACATTTTCTTAAGGGATTGATTTACTCTTAATAAATGATAAGAGATTGTAATTTTTTTTAACCCAAAGTTCAACCTTTCTTGCATCTTGC
CATTTTCGGTTTTCTCTCCCCTTTTTAAAGGTGTGAAATAGTACTGCCCTCCTTCGACTCATTTTCAGTTCATAAAAGGTTTTTTTCCCTTGAGTTCTGT
TTGTTGTGGCCTGATGCTAACATTTGTTTGTTGGTTGGTTGGTTGGTTGATTTTGAGACACAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACC
ATCTCAGCTCACTGTAACCTCTGCCTCCCGGGTTCAAGTGATTCTTGTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCACGTCACCACATGCAGC
TAATTTTTGTATTCTTAGTAAGGACGGGCTTTCGCCATGTTGGCCTGGCTGGTCTTGAACTCCTGATGTCAGGTGATCCACTGCCTCGGCCTCCCAAAGT
GCTGGGATTATAGGTGTGAGCCACCGCATCTGTCCTCTAACATTTTTTTAAAGGTCTAAAAGGAATGTTTTCTTCCAATATAATCTGTGCACTGCAGAAG
GTCTCTTCTTTTGCCTTTTGGTAATTGGTCTAACAGATTTTACATTTTATCAAAATAATTCCTATGCCATTATTATTAAATTTGGTTTGCTTAGGAAAAA
ACTGAGATTAAAAAAAATTTTTTTTTAATTAAGGTTATCGGCCAGGTGTGGGGGCTCACGCCTGTATTCCCAGTGCTTTGAGAGACCAAGGAGGGCAGTG
ATCACCCAAGGTCAGGAGTTTGAGACCAGCATGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGAATGGTGGCACATGCCT
GTAATCCCAGCTACTTGGGAGGCTGAGGCAGGATAATTGCTTGAACCCAGGAAGCAGAGGTTGCAGTGAGCCGAGATGACATCATTGCACTCTAGCCAGG
GCAACAAGAGCAAACCTCTGTCTCAAAAAATAAAAATAAAAATAAAAAATAATAAAATTAAGGTTATTACATCCATGTATCTTTCTGTATGTGCTTTTAA
AGTCCTTGTGACACTGAGTTACAGGGCTTTGACTCCTGGGTCTAAAAAGGACACCAGRTCCTGTTAAATGTTAAACAGTGATAGCAATTAAAGCCTCATC
TTCAGGCCTGGAAGGAGATGCCAATCGAAATAAACTCCATTCCTGAGATGCAGGGCCAGAAATTAAAGCTATTCAACTCCTCAAGGCCCAGGGACTATAG
TGGAAGAGGGGGGTGCGTGAGATTGTAAGGGTCGATTTTGAGAGATAAAATAAGTTCAGTTTCTCTATAAGTTAACCATTAAYGTCATAGGTACACTGAT
GCAAGACCAGCATACGGGCTCCTATGTCGGATTAACAAGCTTTTCTTGAAGCATTAGCCAACTCCTTAATAAAGGCTATAAAGGTTATAAAAGGCTTATG
GAAGTTATATATTATGGTCAAGATTAAAATATTATAGATTATAAAATTTTGGAAAAGAAATTTAATTGGCTTCATGCTGCTTTTATTGGGCTTATTGTTT
GGAAAATTAAGTCTCCTTTCTCAAAGAATGAAGGTTTTCACCTTTTTATGGAAATCTTTGAGTTATCACTTTAGTTAAATGAATGACTTATTTCATAATG
ACTTGTGATCCTATTTTGTGATATCATGTGTTTTAAACCCTTGATATTGGACAAACTTTCCAAAATCAAGTTATAAATTATGTCTTTTTCTGACCTAATT
AATCTTTTAAGATATTAGGTTCCCTAAAGTCCAAAAATGGCATATTTGGCTTATTTGGTTTAAAAATTATACAGGAAGCATTGTCAAATATAAAATGCTG
TTTGGCTTTCTTTGGGCTGTATTTGTATAAATGTTATTGGTATGTGTTGCAAAATTATAGGAAACTCCTATAATTCTGGTATGACTTAGTGCCTATTAGC
AGTAATAATTATAATTGTTATGTTAAATTATTGTGTGCCACAGAGACAATAAATTTCCTTGTCAGTTGTGTCTCTGAATATGGCTGCCATAAAAACTTTT
TGTCATCTACAGACAATTGTTGTCTCCTTTTGGTCCTCTTTAGAAGGTGGTTTTAAAATCAGCTATAAAACTCTAACAGGTGCTCTTGAATGCAGGTTTC
TGATAACTTTGGAGATTGTGACATCAGGATGACGAAAAACTTTCAGGACTCATGGAGAGCGAAATGTTCATGGATATCAAGCAGAACAGGAATTAACTGC
ATGGACTGAACTAATAGTGGACTGAAGTTATCTTTTTGACTTTTTGCTTAAAACGTTGCTGATCCTTTGTTTTTTAGAGTCAAGGAAACTTTTCTTTTGA
GCTATTGACAGAAACTAGGTATACTCCTATGAACAAAATTTGGAGGATATTTGTTTCTCTCTACTTGATTCCTCCAGAATTTGGAAACTATCTGTGAGTA
TTCTTAATGTATGGCAATATAGTTATTTGCATAAGTACAATAAAAGTTTGTTTTCATTTGTAACAGGCGAAACTGGTTATTTTACCAAGGCTTTGACTAG
AATGGTATGCTTTCCTTTAAGGAATCAAACTTAACTTACAGAGCCAATAAAATCCCCTTGGGAAAACTAGCCTCATACCTTGTCTACACAGTCCCTGTAC
AGGGTTCCTGACCTGTGGTAAGTAAAGAATGTCACTTTCTGACAGGCCCAGGAGCCCCAGGTTATCATGGGACTTCAAGAGGAAGAAAAATTCACCTGAC
TCATAGTTATTTGATGGTACAAATCCACGGCTGGGCTTGTCTTTTAAAAAGCCTTATCTGAGACTCCTTCAATGGAACAAAGTTCCACCAAAGCCAATTT
TAAAAGCCTATGTGAGAAATAATTACTCTCGCTGCACTTTATACAAATAATCTGTCCAAGTATAATAAAGCAAATCAGTCCTACCATGATTTGTCTTTAG
TAAAAACGGGAAACTGGAGAGAGAGACGAATTCTATTTCAAAAACTATAACACACCTGTTGCTAGATTCTAGTCCTAATGTTTTCCAGTTTTTATTATTT
TCTATAGTTTGGGCTGAATTCTAATTTTTCCTGGCTATAAGTTTCCAAAATAATGTTTTCAATTTTTTCTTTCTTTTCCTTTTCCTTCCGTTTTTTCCTA
ATTTGAAATCACTGAAAACTAAGCTGTGCTTCTTAAAGCCTTGCAAACTTAATCCAGACAACTAAACTTCAGAAGAAAATAACAGCAACCTATTTACATA
CATAAGCCACTTTCATACCTGCCTACTGATACATGGACTTCAGAGTAACGTGGCCTCTATCAATTTTCCAGGATTGTTGTTTTGTTTGTTGTTGTTTTTC
TCCCTTCCTCCCCCTATTTTCTCTTCATAGGACATGAGACTTCTCAACCTGCTAAAATAATATTCCTAATATTATTCTATTAATATAATTCCTAATAACT
CAGGACCTACCTGTCTAGGAATAAACCATCCTAGCCATGAGAGATCAGACAAAACCTGAGACCAGAGACTCATTTTCTTCTAAAATGCTTTCTCCAAAAA
TGCTTTCTCCAAGAGATTTTTAAAAAGAAAAGGGGGTAAATGTGAAAGAAAAATAAATCTTGGGGCCCCAAATTCACTAAGCAAAAGGGAAAAGTCAAAC
TGGGAACTGCTTAGGGTAAACCTGCCTACCATTCTATTCAAAGTCATCCCTCAGCTMACTGAGATAAATGCATACCTGATCGCCTCCTTTGGAAAGGCTC
ATCAGAAATGCAAAAGAATGCAACAGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATCGGGACCATTYT
GGCTAAAACGGTGAAACCCCGTCTTTACTAAAAATACAAGAAATGAGCCGGGCATGATGGCACGCGCTTGTAGTCCCAGCTGCTCGGGAGGCTGAGGCAG
GAGAATCGTTTGAACCCAGGAGGCGGAAGTTGCAGTGAGCAGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAA
AAAAAAAAAAAAARAAAGAATGCAACAGTTTGTCTCTTATCTACCTATGACCTGGAAGCTCCATCCTTGCTTGAGTTGTCCTGCCTTTCTGGACAAAATC
AATGTACATCTTACATTTATTGACTGATGTCTCATGTCTCCCTAAAATGTATAAAACCAAGTTGTGCCCTGACCACCTTGGGCACACGTTGTCAGGACCT
CCTGAGGGTGTGTGATGGACACGTGTCCTCAACCTTGGCAAAACAAACTTTCTAAATTAACTGAGACCTATCTCAGATATTCGGGGTTCACACTTCCTAT
TCCATTCCAATACTGGTGGACTAGCTGTAGATCAATGTTTCTGGTGAAATAACCAAAAATGCCAGGTAACACAGTTAAGCAAGCAAACAAAAAGCACTTC
TAAAGGCTTCAAATGGCTGTGAAGACAGTAAAGAATTACTAGGCAAAAACTAAAGAGAAAAACAGGGGTTCCCCAAAAGACAAATGAGCACAGAGCCCCT
TTTGCCCTGAGGGCATCTGTTGATCCCAGAAAACACAAACTTTTGTGCTGATGGCCTCACAGGGGAAGAGAGTGACCCCCCACCACAGTATGCCCTCTTC
ATAGTAAGCTCCAGGGGTCCACAGACATCTCTCTGCAGAAGCAATCCATGGCGCCTCAAAGGAAGAATTCCTACCACCACCCATAAATAAAGGCTGACAT
GTTTTATTTTAATTTTTTAAAAAGTGTTAGAGACAGGGTCTTGTGTTGCTCAGGCTGGTCTCTAATTCCTGGCCTCAGGTGATCCTCCTGCCTCAGCCTT
CTGAATAGCTGTGATTATAGACAGGAGCCACCACATTTAGCTAAAAGTTAAAGTGCTGTTTATTGAGTACTTATTATGTCCCAGGCACTGCTCTACATTC
TTTATATGTGTCAGCGGATTTAATCCTGAGGGAATGGCAAAGAGATCTTGTTATTTTTCCCATTTGATAAATGAGGAACCTGAGGGACAGAGAGRTAAAG
TAATTTGCTCATGATCACATAGTTCAAAAGTGGCAGAGCTGAYCACACTCAAATTCAGGCTGCCTGACTCCAGAATCTGTACTCTTAATCACTACAGAAT
AAGTTAAAACCAAAAGGGCACAAATATATTTATTCCTATGTGACTTCAAATAGCAAAAAACTAAATATCCATTGGCAAGGGACTGGTCAAATAATGTATG
GTAGACACAACAGAGTACCAGTCACTAGAAATATAGCCCTTCACTAACTGCATGAACATTACTACTGTTGAATAAAAACATTATAGAAAATTATTATAAA
TTTATAAATTACTATAATTTATAAATTATAAAGTATAATAAACATTTCCACAAATCAAATAAAAAAGCAAATATAAAAGTATAGACAGTATATTCTCACT
TATGCACCATCATAATATTATACACCACATAGTGTAATAGCATGGTCTTGAGATTCAGAGACCATTACTGGACCTTGGACAATTTACTTCATTATTCTAA
ACACCAATTTCCTCCTGAGCAAAATGGGGCAACATTATGTATCTTGGAGGGTTTTTTGTGAGAATCAAATGATATAATGCATATAAAGTTGCTCATCCTA
GAACCATACATAAACGCTAGTAAACACAGTTATTCCATTATTATTATGCTTTTATCTGTATATATGTTTGTATAAAAAAAATTTGGAATCATGTTAGCCA
AAATGCTAACTACTACTAATTTCCAAGGCATGTCAGATGATTTATTCTTTATTTTTGTACTTTTCTGTATTGCAAAATTTGTAGAATGAGCAAGTATGAT
TTTTACAAAACTAGTAACTTTTATAGATGCAGACATGTATATATATGTGTGTGTGTATGTATCTCCTCCCAGCATACAGATAACAATGCTTGTACAAAAT
AAATACTCCTCTATTCTGACAGCATTAAAGTGATAAGACAATATCTCAAATTAGAGATCCATGGGAAGGAGAAAGAACAAGCTGAGGAGAGTCAGATCTT
AGACCCGGAACACCACTATGCATATAATAAATATTTTGTTGTGCGGAGTGCAGGGGCTCATGTCTGTAATCCCAGCACTTTGGGAGGCTGGGGTGGGAGG
ATCACTGGAGCCGCGTTTGAGACTACACTGGGCAACACAGTAAGTCCATGGTTCTACAAATAATAAAAAAATTAGCTAGGCATAGTGGCGCAGATCTGTG
TTCCCAGCTGCTTGGGAGACTGAGGTGGGAGAATTATTTGAGCCCAGGTGGTGAAAGCTACAGTGAGCCATGATCACACCACAGCACTCCAGCCCGGGTA
AAAGAGCAAGACTTTGTCTCAAAAAAATAAAAAATAAAATAAATAAATGAATAAATAAAGAGTTGTTGAATGAATGAAGGAACAAATGAATTGAGAGGCA
ATACAGTACAGATGGGAGACTATGAATCCAAGAGGTTAAATGACTTCATCAGTCAAACCTTGCATTTCTAATCATGCTTGGTAACAGAAAGGGAACTGTA
TAGAGTATTTCCCCTTAGGAAAGGAGAGGTAAGGGAGGAAAAATAAATCTGTAATTTCAGCTCTGCTTAATGAAGAGTAGGGCAGAGGTTGACATCAGGG
AACAGAGTTTGAAGTTACACATGAACATCACTTCCTTCTAACGCAAACAACCAATAAAAGGAGAAATCTGTGTTTATTGCCTCACCTGACCTAGTTCTGC
CCTAATTTTGGATGTACAGAACCCTGATAGGTCTGTCCTCTCTTCACCCATTCCTCAAAACACTGACTTCAGACCTATCTCCATTTCACAACAACTCTAC
TCCCACGGCCCTCCCCATACYTTTCTTGTCCTAATCTTTTCCTCTCCCAGAATCAAAATCATTCATCTTGGTCAATGGACACTAAGCATATACTGCATGC
CCAGCTGTGGCATAAGACACCTTAATCTTGTGACCTGGACTACATAAAGGCTAAGCCTATGTACTGACTAATACGTACAGGATGGTTGCCTCCCTGCCCT
TCAGGCAAGAACAACTGAGCAAGAGAAACTGAATTGTGATCATTAAACACCTACATCATTCTTCCCTTCCAGCTTCTTAACTTCCTCAAAGCTTGGAATT
CTCAATGAGAAGCTGGGCATTTACATTAGCCATACAAGAAATGCCAAAGGAGTTACACTTAGGCAAACAATTATTTTTGCAAGTGATTAAAAAAAGGAAT
GCGTAATAAAGATGGGAAAYGACACAAACTGAAGGTCTACATCATGTAATAACAGAGTATCTAAAATTTCTGAGTTATGACATTTTGAGCAGTCCAGTCA
GTACCGTGACTCTCAAGCTTGGAATTGCTAGTCTACAATTTCTAGCCAAATGGGTGTCACCTCATCACTCCGTGCCTCAGGTTCTTCCCCTATAAAAAGA
GGGCAGTAGGCCGAGCGCAGTGGCTCACGTCTGTAATCCTGCACTTTGGGAGGCCAAGGCAGTTGGATTGCTTGAACTCAGGAGTTCGAGGCCAGCCTGG
GCAACATGGCTAGATCCCATCTCTAAAAAAATACAGAAATCAGCCAGACACGGTGGCATGTGCCTATAGTCCCAGCCACTCTGGAGGCTGAGGTAAGAGG
ATCACTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCTGTGATTGTGCCACTGACCTCCAGCCTGGGTGACAGAGCTAGACCCTGCCTCAAAAAAAAAGGG
GGAAGGGGGAAAAGAGAGTAGTAATCATACCTACCTCTTGGAGATATTGCAAAGATTAAATGAGATAATGTATGTTAACTGGTTAGAACAATGCCTGGCA
TGTAAAAATACTCAACAAATGAGTTATTTTTACTATTTATGTTAATTGAGAAATAGAATTGAAGTCCCCTTACCAAGTTGCACTTTTGAACTCAGAGTTC
ACATTTTATCACATTTCATGAACTATATAAAGGGATTAAATTAGTTCCCAGAGAAGGTTGACTCCAAAAGAGAGAGCACAGGAAGATGATGGAATAGAAA
ACACCAGATCCTCCTTCCCCTATGGAGATGAATTAACAATGTTAGATGGCCTCTGTGAGAAATCCAGAAACYAGTTAAGAGGTTTCTGTACCCCAAGTAT
GCCAAGAAGAACCTCATGAAAGCCAGCAGAAAAGTTCATGGCATATACTTTCCACAGCCTCTCCCCAGCACAGCATAGCACCATTGGAAAAAAAAAAAAA
ATCCCAAATCCCTTCTTTCTKGGATGAAAAGATAAAAGTAGAGCACACATTCAATGTTCTCACTTTGATGGGGTGGTGGGGGAGGGGGGAAGCTACCTGA
GGGACTGGTTTCTTAACTGAATCTAAGACAGAAGTGGGCACCAGGTTGGAAGCCACTGAAAACAAAGATCACTGCAACTGGCTGTAGCACCAGAGAGTGT
GCAGTACCACTGACAGACGCTAGGGAGAACTCCAGTACCAAGGCTTGCCACAGCACCAGAGAGGAAACAGTACCACAGATGGAAATCGGGAAGTGAAAAT
CCTGAGTACAAATAGGTAAACCTCAACTAGGGTATTACATGCATAGAGAAGACTCAACCCAAGAAAAGGCTTGAGAGTTCTCCAGATTATCTAGTAAAGT
TGACTGGTGATGATCTCTCCCTGTACAAAGCCAGATTGTAAGGACTGGGAGGGGTGCTGTTTTTTCAAATACTCAAGTCTCAACAAAAGATAATAAGGTA
TACAAAGAAACAGGGAAACATGGCCCAATCAAAACCACAAGTTAAATCTCCAGAAACTAACCCTAAATASATTTATATGAATTACCAAAGAATTCAAAAT
AGCCACTGTAAGGATGCTCAATGAACTAAAAGACAACACAGATAGAAAACTAAAGAAATCAGGAAAACAATGCATAAACAAAATGAGAATATCAACAAAG
AAAAACTATGAAGAGCCAATTGAAAAATTAACTAGAGGGGTTCAAAAGCACTTAACTAGGCAGAGGACAGAACCACCGAACTCAAAGTCAAGACATTTGA
AATTACTGAGTCAGAGGGATAAAACGAAAAAAGAATAAAGAAAGGTGAAGAGAACCTCAAAGAACTTATCGACTACCATCCAGTGAAATAACATGTAAAT
AATGGACATCTCAGAATACAAAGAAAAAGACAAAGAGGCAGAGAGCCTAAAACTTCTCAACTCTGAGGAAAGCCATGGAGACACAAATTCAAGGTTAAAA
AAACTCCAAATAGAATAAATCCAGACACGCATACTAACACACGTAATAACCAAACTGCCAAAAGTCACAGACAAAAAGAGAATCCTGAAAGCAGCAAGAG
AAAGGTGACTCTTCATGTATAAGGAAGCTCCTATAAGATTATCAAATAATTTCTAAGTAGGAATCTTGCAGGCCAGAAGGGAGTGGGATGATATATTCAA
AGTGCTGAAAGGAAAAAATAACTGTCAAATAAGAATACTACATGCAGCAAAACTGTCCTTCAAAATGAAGGAAGGAGAAATGAAGACTTTTTTCCCTTCT
TTCAGATAAATAAAAGCTGACACTAAACCTCCCCTACTAGAAATGCTAAAGGGACGTCAAGTTGAAATGAAAAGATGTTAAATAGCATCATGAAACCATG
AGAATATACAAAACTCCCTGGTAAAGGTAAATATGTAGACAAATATAGAATCCTATAGTATTGTAATGTAGGTGAGTAAATAACTTTTAAACAGTATAGA
ATTTTAAAAACAAAAGATAAAAAGTAACTATAAGTCTGTTAATGGATATGAAATAAAAAAGGTAATTTGTATTATCAATAACATAACGGGGTGGACAGGG
ATGTAAAGGAGTAGAGTTTTTAACGCAACAGAAAGGAAGTTGTTATTAGTTTGAAGTAGATTGTTATAACTTTAAGATGTTTTATGTAATTGTAATGGTA
ATCACAAGTAAAWTATCTATAGAATACATACAATGGGAAATGATAAGGGAATCAAAATATGTCACTACAAAAAAAATCAATAAAACACAAAAGCAGCAAC
AAGAGAAGAAATGAGAGACAAAAAGCTACAAGGCATACAGAAAAACTATTAACAAAATAATAGTAAATCCTTCCCAATCAGTAATTACTTTAATGTAAAT
GGATTAAAGTCCAATTAAAAGACATAGATTGGTTGAATGGATAGAAAACCAGAATCCAACTATATGCTGTCTACAATAGATCCACTGTAGATCTTAAGAC
ACAAATAGGCTGAAAGTACAAAAAAAAAAAAAAAAAAAAAAAAAAGCCAAAAGGCTGGGTGTAGTGGCTCACACCTGTAATTCCAAACTGGATACAACTT
AAAAGAAACTGACAAATTCCTAAAAATATACAACCTACCAAGACTGAAGAAATAAAAAAATCTGGGCTGGGCACAGTGGCTCACACCTGTAATCCCAACA
CTTTGGGAAGCTGAGGCAGGCAGATCACCTGAGGTCAGGAGCTCGAGACCAGCCTGGCCAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAAAAAT
TAGTCGGGCATGGTGGCGGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGAAGAATCGCTTGAACCCAGAAGCAGAGGCTGCAGTGAGGGAAGA
CTGCGCCATTGCACTCCAGCCTGGGCAACAAGGATGGAACTYTAAGTCAAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAACAATCTGAAAAGACTT
ATAATTAATAAAGAAATTGAAGCAGTAATCAAAAACCTCTCAACAAAGAAAGATGTCTTCACTGGAGAATTTTTCCAAACATTTAAATAAGAATTAACAT
CAATCCTCAAACTCTTCCGAAGAATTGAAGATGAGGGAACACTCCCAAACTCATTCTATTAGGTCAGCATTAATCTGATACCAAAACCAGACAAAGACAA
AATAAGAAAACTACAAACCAATATCTGATGAATACCGATGAAGGAGTCCTTAACAAAATACTAACRAACTGAATTCAACAACACATTAAAAGGATTAAAC
GACCGGGCGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGTGGGCAGATCACGAGGTCAGGAGATTGAGACCATTTTGGCTAACACCG
TGAAACCCTGTCTCTACTAAAAATAAAAAAAAATTAGCCAGGCGTGGTGGCACGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACT
TGAACCTGGCAGGCAGAGGTTGCAGTGAGCCGAAATCATGCCACTGCACTCCAGCCTGGGTGATAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAA
GGATTATACGCCACCACCAATGCCTGGAATGCAAGAATGGCTCAACATACAAAAATCAACGCAATACATTAACAAATGAAGGACAAAAACCATATAATCA
TCTCAATTAATACAAAAAAATGCATATGACAAAATTCAACACCCTTTCATGATAACAAAACAAAACAAAACACTCAAAAAACTCAGAATAGAGGAAACTA
CCTCAACATAATAAAAGCCAGATAGGAAAAGCTCACAGTTAACATCATACTCAATAGTGAAAGGATGAAAGATTTTCCCCTAAGATCAGAAGAAATAAGG
CAATGATGTCCATTTGCATGTATGGTCAAATAATCTTCAACAAGGGCACAAAGAGTACACAATGAAGAAAAGACAGACTTTTCAACAAACAGTGTTAGGA
AAACTGAATATTCATATGCCAAAGAATGAGGTTAGATCCTTACCTTACACCATACACAAAGATTAACTAAAAATGGATTAAAGACCTAAACATAACACCT
ATAACACTCCTAAAAGAAAACGTGGCGGAAAAGTTTCAAGACATTTGATTTGACAATGATGTCCTGAATATAATACCAACAGCAAAAATAGACAAATGAG
ACTAAATCATATTTAAAACTTCTGCACAAAAGAAAACAATCAACAAAGTGAAAAGACAACCTACAAAGTGGGAAAAAATATTTGCAAATCACATATATGG
TAAATGATTAATATCCAGAATATATAAGGGACTCCTATAGCTCAACAATGAAAAAAACGACCCATTTAATAAATGAGCAAGTGACTTGAACAGGTAATTC
TCCAAAGAAGATATACACACAACCAAGAAGCATATGAAAAGATGTTCAACATCAGTAATTATAAGAGAAAAGCAAATCAAAACCACAATGAGATACCACT
TCACACCCATTAGGATAGCATTATCAGAAGAACAGAAAATAACTGCTGGCAAGGATGCAGAGAAACTGGAACCACTGTGCACAGTTGGTGGAAGTGTGAA
ATGGTATAGCCATTTTCTAAAATTAAAAATAAAATTACCATATGATGCAGCAATCACTGGACACACACACACACACACACACACACACACACACAGAGTT
GACCCTCAAACAATGCAGGGGTTAGGGTGCAAACTCCCACCCTCCCACCACACAGCTGAATATTTATGTATAACTTTGAATCCCCAAAATCTTAACTACT
AATAGCCTACTGTTGACTGGAAGCCTTACTGATAACATAAACAGTCAATTAACACATCTTTTATAAGTTACATGTATGTATTATATATACTGTATTCTTA
ACCCTTTTCCCCTTTGCCCCAAGCATACTTGCTGGCAGCGCCTGTGGTTGCTGCGTTTACCCCGAGATAACTTTGCCACGAAATACCTTGCTTTTATTAT
TATTTTCGCATTGCTCTAGTATATCAACTTTGGAAACAAAAGACATCATTCTATTTATAGCATTCTGTTTTTAGCAGTGTTATTTCCATTTACAAAATAT
AGTAATTCTCAATCGCTGAAAATGCCAAATCCTAGAAAACACCACATTCCTATGTGTGATGTTAACATCATTCTCAGTTGTTGGCCAAAGATTCATTTGA
TGAATCTGATTTTTCTAAAATAGACGATTCTGATGATTCAGATGATTCTGATGTTACTTTGTTTAGAAATAACTCCAAGAACAGTTTTTATATTTTATTT
TCACATAGAAAATCAATCAGATTTGCTTCAGCCTCAAAGAGTGTGTTTATGTAAAATTAAATGAGCACTGGCAGCRAGCTGTACTTTTTCTAAACAGGAA
AAGGGTTAAATTAAAATAAGCTAGAGAAAGAAAATGTTATTAAGAAACTCACAAGAGAAAATATATTTACTATTCACTAAGTGGAAATGGATAATCATAA
ATGTCTTCATCCTTGTCTTTGTGTTGAGAGGCTGAAGAGGAGGGAGGGGTTGATCTTGCTGCCTCAGGGGGTGGCAGTTCATCTCCAAGTTTCTTTCAAA
TTGTCACAAATCTCCAAAAAATTTTTCCAACATATTTACTGAAAAAAATCTGCATATAAGCAGATCAGCATAGTTCAAACCCATGTTGTTCAAGGGTCAA
TTATATATATACAGCTATATATACAATTGGGTACACACACATACACACCCCCTCTCTCTCTATATATATATCCAGAACCATTTCCGGGTATGTATCCAAA
GAATGCAAAGTAGGATCTTGAAGAGATATCTGCATACTCATGCTCACTGCAGAATTATTCACAATAGCCAGGAGTGGAAGCAACCCAAATTCCACTGACG
AATGAATGAATGTTTAAAAAGTAGCATCTCTCTCTCTMTATATATATAGAGTATAATATTTTGCAGCCTTTAAAAAAGGGTATCTGATCACATGCTACAA
CATGGATGAACCTCAAGGACATTATGCTAAGTGAAATTAGCCAGTCACAAAGGGACAAATGCTATATGATTTCACTCAGTTTAAGTATTTAAAGTAGTCA
AAATCATAGAAACGGAAAGAAGAAAGGTAGGTGCCAAGGGCTGTCAGGAGAGGGAAAGTGGGAATTAGTGTTTAATGGGGTTTAGAGTTTCAGTTTCGCA
AGATGAAAAAGTTCTAGAGATCTACTGGACAACAATGTGCATATACTTAACGCTAATGAACTGTACACTTAAAAATGGTTAAGACAGTGGGTTTAATGTT
TTTACAATAAAAATTAAAATTAAAAAAGAGCGAACACTGGAAATAAATAACTTATTGTTAAGCAAGTTTTCTGAACTTCGCTGATACCCTAGTATATGCC
AGAAGATGAATCTGAGCAAAGTAAATTGAAAACCTTCTGAAAATATTCACCATTCTAGATGTCATTAAGAATATTTGTGATTCAGGGAGGAGGTCAAACT
ATCAACATTAACAGGAATTTGGAAAAAGCTGACTCCAGCCTTCATGGATGACTCTGACCATGTTATACAAAGCTTAAGTAAGCAAAGTGTTTAACCTAGA
GAAGACTTGGGGGAAATGATTGCCATATTTTAATTCTTGGGTGTTGTTTTGGATTATGCAGAAGTTGGGTCAACAGTAGAAATTTCAGAGAAGCAAATAC
TAGCTGAGTATAAGAAGAAGGAAGAAATAACTAGGGCTAGTTTAGTAATTCAATAAATTGCCTCATAATCCAYGGACTGACTTACTACTACAAGTATAAA
AGCAGGAGCTGGGTGAACGCCTGCCACAGATAACAGCTATGATTACATTCATTCATTTAACAGATATTTACTGAGTGCCACAGTAAGCTATGTCAGGTAT
TAGACCAGCACTGTCTATTAGAACTTTCCACAATAATGAAAATGGTCTATAATCTGTGCTGTCCAATATGATAGCCACCATGTAACTGTTGATCACTTGA
AATGTGGCACTACAATCAGGACGAATATTATATACAAGGTAAAAGATGTATAAAAAATATGTGAGGGTGGGTTCCTTATAACAGGAAAACAGAAGAGATT
AATCTGGAGAGTCATGAAAGAGGTTAGCTCATGCAAGACTTTGCATACTCTCTAGGAGTTATGACTTTATTATAAAGATATGGGAATATCCTCAAGAAAC
CTAAGAAGAAAATATTAACTCAGATTTGAGTACTAACAACAAAGCACAGAGGAGACATTTTAAGAGGTAGAAAACAAAAGTGGAATATAATTATGGTGTT
TTAATAACGATGAAGACCTGACTTAAATAAGTATCACGGCCCTGGGGAGATGGGGACAAAGAGAAGAGATTTTTAAGGAAGAAGAAATGATAAAAGACAC
CTGGATGTGACAGGAGGGAACCGAGACACTCCATCACACCTCCAGGTTTCTATTTTGGATCACAAAGTGTGTCTCTCTGGGAATAAAGGTTCTGAAAAAA
GACAAGTCTGGGAAGGAACACAGTGAGTTCAGTTGTTGTTGTTTTAAAACAGATTTACTGAGGAACAGATTTTTTCTTTTTCATAAAATTCACCCATTTA
AAGTATACAACAGTTTTTAGGATATTCACAGAATTGTACAACCATTACCATAATCCAATCTTGCGATACTGGGATTATCTGCAAGAGAAATCTTGTACTC
ATTAGCAGTTACTCCCCATTCTCAAACTGACCCTCAGCCCCACACCCTCCACCCACCCAAGCAATCACTAATCTACATTCTGTCTCTATAGATTTGCCTA
TTCTGGACATTTCATGTAAATGGAATCATACAATATGTGGTCTTTTGTGACTGCACCTGTCATTGAGTATAATATTTCTGATGTTCATCCATGTTATATC
AGTATTTCATTAGTTTTTATTGCACTGTATGGATATACCACATTTTGTTTATCCATTCATCGATTCGTGAACATTTGGGTTGTTTCCACTTTGAGGCTAT
CATGAATAATGCTATGATCATTTGTGTATAAGTTCTGTGTAGACATATGTTCTAATTTCTCTTGGCTATCTGCCTACGAGTGGAACTGATAGGTCATAGG
GTAACTCTATGTCTAACATTCTGAAAAACTGACAAACCGTTTTCCAAAGCAGCTGCACCATTTTACACTCCCCAGCAATGTACGAGGGCTCCAATATGTG
AGGTTTATCCACATTCCCAATGTGTAAGGGTTATCCTCATCCTCACCAACATTTGTTATTATCTTTTTTATTCAAACCATCCTAGTGAGTATGAAATGGT
ATTTCATTGTGGTTTTGGTTTGCCTTTCCTCTTGTCTAATGATGCTAAGCACCTTTTCAAGTGCTTATTGGCCATTTGTTTATCTTCTTCAGAAAGGTAT
CTATTCAAATAATTTGCCCATTTTAAAATCAGGTTGTCTTGGCCAGGCACGGCGGCTCACACCTGTAATCCCAGCACTTTGGGAGGTCGAGGTGGGCAGA
TCACCTGAAGTCGGGAGTTTGGGACTAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAAAATACAAAATTAGCAGGGTGTGGTGGTGCATGCCT
GTAATCCCAGCAACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACTCAGGGGGCAGAGATAGTGGTGAGCCAAGATCACGCCATTKCACTCCAGCCTGG
GCAGCAAGAGTGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAATTGGGTTGTCTTTTCATTGTTGARATGTCTTAGTCTATTCAAGCKGCTAT
AACAAAAATACCAGAAACTGGGTGGCTTATAAACAATATTTATTTCTCACAGTTCTAGAAGCTGAGAAGTCCAAGATGAAGGCACTGGCAAATTACCTAT
CTGATGAAGGCCTTTTCCTCATAGAGCCTTCTTGCTGCATCCTCACATGCWAGGAGGGGCAAACAAGCYCCCTCAAACCCCTTTTATTTATTTGTTTGTT
TGTTTGTTTACTTGAGAWAGAGTCTCGCTCCTGTCACACAGGTTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTK
ATTYTCCTTCCTCAGTCTCCCAAGTAGCTGGGATTACAGGCGTGTGCCACCATGCCAGGCTAAGTTTTGTATTTTTAATAGAGACAGGGTTTTGCCATGT
TGGCCAGGCTGGTCTCRAACTCCTGACCTCAGTTGATCCACCTGCCTTGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACCATGCCCGGCCTCTA
ACCTCTTTTATAAGGACACTAATCCCATATATGAGAGTTCAACCCTCATGACCTAATCATATTCCAAAGGCCCCACCTCTTAATAATATAATCTTGGCGG
GGGGTAGTATTTCAACATATGAATTTTGGGAGCACACAAACTTTTAGACCATAGCAAAATATAAGAGTTCTTTATATATTCTAGATATAAATCTCTTATC
AGATATATGATTTGCAAATATTTTCTCCCATTATCAGGATTGTCTTGTCACTTTATTGACGGTACCATTTTCAGCAGAAACATTTTTAATTTTGATAAAA
TCCAATTTATTTATTTATTGGTCATTTGTGCTTTTGGTGCTATTTCTAAGAAACCATTGTCTAACATAAGGTCACACAGATTTACTCTTGTATTTTCTCC
CATAAGAGTTCTAAAGTTTTAGTCTTCCCACTGAAGTTTACAATCTACTTTAAGTTGAATTTTGTATATGGTGTGAGGTAGGGTCCAATTTCATTCTTTT
GTATGTGGGTACTTTGTCCCAGTATTTGTTGAAAAGGCTATTTTCCCCCATTGAATTGTCTGGCACTCTTGTCAAAAAACAATTGCTCATAAATGTAGGG
GTAGTAAGTCCAGTTGTAGACATGCTGAATTGCACGTACTTATGCTCTATCTCCTTGGAACTAGGCTACATGTGTAGAAAACCARGTCTTCAATTCATAG
TCCAGAAATCTGCACAGTGAACTCAATAAATATTTGTGCAATTATTACCATATGTGCACTTCACAGTCATGCTGCCTCATCACCCATAGCCTTGGACACT
CTGAAGCATATCACTCTGATCTTGTGAAGGCACCAGCTGGTTCCCTTCCTAGCGCTGCTCCTCTAATTGGGACACTATCTGATTCAGTCTGTTGCTTACT
GTTTGATTTTTCCTTAATGATACAAATTGAGGAGAGCATTTTCCTTCTTCCCAGGAAAGAAAATGCTCATAAACGGGACCCTGAAGCTGTCCTCTTAGAA
ATCTCAGCTGGTAGAAAGAAGCAGTGCCAGTGGATACATTTGATTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCCACTCTGTCACCCAGGCTGGAGTA
CGGTGGTGCAATTTCAGCTCACCACAACCTCCACCTCCCAGGTTCAAGCGATTCTCATGCCTCACCCTCCCGAGTAGCTGGGACTACAGGCACATGCCAC
CACGTCTGGCTAATTTTTATATTTTTAGTAGGGACAGGGTTTAGCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACTTCAGGTGATCCGCTCGCCTTGG
CCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATCGTGCCCAGCCAATACATTTGATTTTGATCTATCAGCAAAGAGGCTCCAAGGTTTAGTATGTTTC
CATTTTGTATTCAGGGTTTCATTTGTGTGCTAGGTCGAACATCTTTCTGTATTCAAGCCGAAGTTAGAGATCTAAATTGCTAAAGGACTTCAGCAGGCCA
GAGCTCAGTGAAAGGAAGGTCCACAGAAGGGCCACTAATTAGTAATGAATGGCTAAAAGACAAGGGACTTTTTTTTTTTTTTCTTTCTGAGATGGAGCTT
CGCTCTTGTTGCCCAGGCCAGAGTGCAATGGCGCAATCTTGGCTCACCGCAACCTCSACCTCCTGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGT
AGCTGGGATTACAGGCATGCACCACCACACCCAGCTAATCTTGTATTTTAAGTAGAGACGGGGTTTCTCCATGTTGGTCATGCTGGTCACGAACTCCCGA
CCTCAGGTGATCCGCCCACCTGAGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACCACGCCTGGCCAAGACCAAGGACTTTTAACCAAGAAAAGGC
AAGACTTACTGAAGTCCATTGTCTTCAAGCATCTGAAAAGCCAACTGGAAGAAAGACCAGTTCAAGGAAGTACAAAGGTGAAGAACCAAAACAGAAGATA
AGCCCAGTCAAAATCCTGCCAGTTCCCCTAGGCCCATCTCAAATGTAATAATAATAATAAATAAAAATTATGTCGTTCATACCTCTTTTCTGACACTGCC
ATCTCATATGCCCCATGCTATTCTTCTTGGCTATAAACTCCTTGAGGCTTATGTAGGTCTCCATAGCTCTCTATCCCTAGCCCCACTATCTTGCATATAG
TAGGTACTCAATATATATATATCTGTCAAGCAAAAATGTAAGCAAATGTGATTAAAATTAAATGAGTTAAGTCTGAGAAACCATCAGCACCAAGAGGAGC
CTAAAGAGATATAACAACTTAACGTTGTTATATACAAACTAAACTAAATGTCCTGAATGGGATCCTGGAACAGAAAAAGGATACCGGGTAAAAACAACAG
AAACTTTAATAAATGCTGGACTTTAATTAATAATAATGTCAGCTGGGCACAGTGGCTTATGCCTGTAATACCAGCAATTTCAGAGGTCCAGGTGGGTGGA
TCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGCAACTCAGTCTYTACTAAAAATACAAAAAAATTAGCCGGGTGTGGTGACGCACACC
TGTGATTCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAAACTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTG
GGYGACCAGAGCAAAACTCTGTCTCAAATGATAATAATAACATATCAGTAATAATGTATCATACTAATATAAGATGTTAATTAACAGGAGAAACTATATG
TGTGCAGGAGGTGTATAGGAACTCTCTGTACAACCTTCTCAATTTTTCTATAAATCTAAAACTGTTCTAAAATACAAAGTCTATTAATTTAAAAAAGAAA
GAAAAGCATTCATTCATCCTTGGGGATGGGGCTGGGGTCTCCATTTTGGAAAGACACATACATACATACACATCCCTCCAGTGATTCCTACACATATTCA
AGTTTGAGAAACATCTGGGATACTAAGGGTTACAGTGGATAACGTCCTTACAAAGAAATCACAGAAAAAAATACCCATCCACACATCACCAAACAAATCA
TGTCTTATGGCAGCAGTAAGGACACAACAGACTAAATCACTGACACCTCAGTAATGCATTAAGTCATTAAGCACATAATAAAATAGCTTTTGCTTGGATG
CTAGCTTCTACGATTTGGGGGTGGCCACCTGAAATGCTGTCCTTAGAAGGATCCATGCCAAACTGGGATGAATGCCACGATCAACTATCCATCTTAGGTA
CAGGTGGCAGTGTCAATGTTTTATTAAACATCTACCAAGTGCCAAGTACCAGTGCTTGGGGTTCTGGGGTTCTAGCAGAGATCAAAACAAGCATAATCTC
TGCCTTTATAAAGCCTTCAGTAGATCAGGGAAATTTTAAGTAATTACATACATATAAACAGTTACAGAAGAGGAAATATGGGATATCACAAAGGTAATTA
ACAGGAAAGGGCCCTCAGCTAGGCTAAGGGTCAAAGGCTGCCTCCCTGAGGAAGTRATGTTTCAAATAAGATTTGAAGGCTAAGAAGTTAGCAAGGTAAA
GAGGAAAAGGAAGCAGCTAGACTGAGATCAACTTGCATGATTTAGCAWCAGATCTTTTCTTATTTAAGAATTCTTTGAGAGAGAAGGGAGAAGAGAAGAT
AAGTGCAATAAACACAGCTCCACAAAAGCAGCAGAGCAGCAGGCAGGACCCAGAGAATGGTTGAGAGTGCTGGAACCTTTTAAAGAAGAGGCCCAGGACA
AATACATGGGAAAAGGACTGGAGAAGGGTGTAGGCGGCTGCCAAAACCAAGCTCTTGTAAGGTCCACTGTCTCTTTAAGTTCCATAGGAAACACACCTTT
AGAGCTATAAAATGGCATGTCTCTCCTTTATTACCCAAGGAGAGGCACACACTGGCTCATGTTTCCCTTTCTGTCATGACTTCCATGAATTTCACAGCTA
AGTGTGCTCGACTGAAGTAACTCTTTCTTAACCTAAGTTTTCTGGTACAATTATCGCCTCTACGTCCAAATATTATGTCTCCTGTTTTATCTTTCTTTTG
TCTATTTCATCTTTCATAGAGAATGTCACTGGATCTTTCTTAGAAGGTGATGCATCAATAGCAACTGCAGTTTCTAAACCAAAATTTATCACATATGAAG
TCATATAGTCATCTGACAAAAGGGCAGAATATTTGAAACCAGAACTGTCCCATATCCTCATGGAAGATAAACCCTAGAAAATAAATACAGGGTGGTGAGG
CTGGGGTGGGGTGGAGTAGGGCAGAWAACTAACCTTTACTGAATATCATAAGCTGAGAACTTCTCATGTATTCTCATTTGATCCTCACAAAACCCTCTGA
AGAAAGTKAACTGTCCTCATTTATACTTGAGAAAAACGGRGGCTYATAAAGGTTACGTAAATTGCTAAAAGTCAGCTGATAAGTAGTACCTCTGGGGCAG
AATCCAGGTCTGACTCTAAAACCCAGGCTGCTCAGTATACAGGGGTTAAATTAAACTAAAACATTTTAAATCTAACTCAAATTCTTTTTAAGAAGTCCCT
TTACATACCTACATTAACTGCAAACTGAAGAGTAGATGTCTTTCACACAGCCCTAAAGACAAAGACAATGCATCTTCGTATGAATCGCTCACAGAGGAAC
TGGGAACAGGGCTCCCTCCCCTGGTGAGCAGACAGAACTACACCATTTCAAAGTACAGTATTTTTTCCCCCCGCTCTCCCTCTTAACCCCATTTACTTCT
CTCTCCTGATTCCTTTCCAAAGTCCTTCCTTTGGTGCTTGTTTTTGGGAGAACCTCCAAGTTAAACCTCTAGGATTAAACTTCTATTCACTAACTTTATC
TTCTTCTTCTTTAAAATTAACATTCTGGTAGTATATATTGATAGCCTTTAAAATGTTTATACCCTTTGGTCCCAAAAATACCATTAAAATATATATTACG
AATAAATTATAGTATACCATCTGACAGACTATTATTCAGCTATTTTAACTGTTTTCAAAGAATATTTAGCTGTTTTCAAAGAATATTTAGTAAGGGGGAA
GTGCACATATATCAAATGTACAATGCCCAATACAAATATACAGTACACTTTCAATTTTGTAAAAATGTTTCACTTGTACCTGGGAATGATAAAGGAACTA
CACCACAGGTTTGATGTGGTTATCTGTAAAGAGCAGGATCAATGCTTATSTGTATTGTCTTCTTTATATCATACCATTCTGTTTTCATACTCTCCTTAAC
TGTTTCATGAAGGGACCGGCCACTCTTCTCACCCTCACCCCGACATCAGCTGGAAGTGCTTTCCCCTGAGTTACCACCACTCTTACTGCAGCACTTGCGA
TACATTCATGTGGCAACTCAAGAGTCCCTTCATCAAGCTTATCCAGACAGACCTCGTTTCATTGGGCTTCACTTTATTGAGCTTCACAGGTATTGCGTTT
TTTACCAATTGAAGGTTTGTAGCAACTGCCCTGAGCAAATCTATTGACATCATTTTTTCCAATACCCTATGCTCACTTTGCTAGCATTTTTAAGCAATAA
GGTATTTTCTAATGAAGGTATGTACATTTTCTAGACATAGTGCTACTGCATACTTAACAGACTATGGTATAGTGTAAACATAACTTCTATATGCACTTGG
AAACAAAAAAATTCATGTGACTTGCTTTCTTACAATATTTGCTTTACTGCTTTATTGTGCACCCACTGTATCTCCAGGGTAAGTCTACTGCAAGGTTCCT
CAAACATGGGCAGTACACATATTCTCTYTAAAGGGGAAAAATCTGTATGTGAAACAATATGATTTAATTTATATTCATTCAGCTTATATATATAATTGTT
ACTTTTCTTTTTTTTAATTTTATTTTTGAGACAGTTTCACTCTGTTGCCCAGGCCGGAGTGCAATGACATGATCTCGGCTCCTGCAACCTCCCCATCCCG
GGTTCAAGCAATTCTTCTGCCTCAGCCTCCCAAGTAGATGGGATTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGT
TTCACCATGTTAGCCAAGCTGGTCTCCAACTCCTGACCTCAGGTGATCAATCCACYGCCTCAAACTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACCA
TGCCTGGCCTATTATTTTTCTTAATCAACAGAAGTGCTAGCCAAAAGCCTAAAAAGCAGATGCCTACACTTTTTTTTTTTTTTGAGATAGGATCTCAATA
TGTTGCCCACCGCCGCCGGTCTCAAACTTTTGGCCTCAAGCCATCCTTCTGCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGACACCACACCCAG
CTTATATACACAACTATAAAACTAAGTTTAAATGTCTTATGTTTATATAACTAGATAAGCAAAAAACAAACTTATAAATTAAATACAAACAAAATCACCA
AACCAGCAAAATTCAAAATAACATTAATCAATGATGCCGCTCAAATTAAAATCACTGCCCACAAGGTAAATATGGTAATGGCATAGGCCTAAAAACAGGC
AGACAGAACAAGAGAGCCTGGAAAGATACACACGGAATCCCTATAGCCCTTACAAAAGCCACCTTAGGAAATGCCCCGTACCTGCAATTTGCAGCACTGG
GTTCAGAAATATATTTGGACCCAACTGTGATAGCTAGTATAGGCTAAGGGTGAGAAATGGAGACTGTTTGTACCTGTGTATTTTATACTGTATTCTGTAA
TCACACTGCATTCTGTAGAACTCCAATATCAATAAAGTGCCCTTGGCCCAGATGAAGCGGTTCTTGGCTCGTAACCAGACCTGTTGACAGGCTGGACTGG
CCATGCCTCACATGTACAAGGCTGGCCCCGGGGGAGGCAGGTAACTTTCTGAGAATTAGAGGTGATTCTMACTCATGTAGGCATTACCAGCCACAACCAT
GCACCCCGGGATGTTGGGATCCAGATGCCTGCACGGCCGTCCAACCCAGAAAATGTTGCTGTTATCTCTACCACATAAACTACTGATATGATCAAGTATC
TGACCAGCAATTTTGAGAAAAATATAATTTAAGTCTCCATCTCATATTTCAGACCATTTGAAGAATGAATTTTTAAAACTGTTATACAGTCATACTCAGT
ATCCACAGGAGACTGGTTCCAGGACCCATCTCAGATACCAAAGTTTGCAGATGTTCAAATCCCTTAGGTAAAATGGAGTCATATTTGCATATAGCCCAGG
TATATCTTCCCATATACCTTAAATCATCTCTAGATTACTTATAACACCTAATACAATGCAAATGCTATATAAATAGTTGTTATACTTTATTGTTTAGGGG
ATAATGACAAGAAAAAATATCAGTACGTGTTCAGTATAGACACAACCATCCTTTATTTATTTATTTATTTTTATTTATTTATTTTTGAGACGGAGTCTCG
CTCTGTTCGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAGCTCTGCCTCCCGGGTTCGCACCATTCTCCTGCCTCAGCCTCCCGAGTAG
CTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATTTTTTGTACTTTTCGTAGAGATGGGGTTTCACCATATTAGCCAGGATGGTGTGGATCTCCTGA
TCTCGTAATCCGCCCACCTCAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCACAACCATCCTTTTTTTAAAAAAAATATTTCC
ATCCAAGGTTGGTTGAACCCACAGATGCAGAATCGACAGACACAGAGGGCCAACTTCACATATAACTGAAAAAAAAAAGTTTAATAATTAAAATTCTAGA
AAAACAATAACTTAAATGTCAGAAATATGGAAAAATCATCAGGAACAAAACTTAATGACCTAAAATTTTTTTAACTTCTGTATCTAAATCTTTAAAAAAA
GCAGATAGGGAAAATGTTCACAGAAGAGAATGTTCCCAATAGATAAATGACTCGAATATATAAGCAGAAATAGATTGCATATTGTGTATATGTGGGTGGG
TTTTTTTGTTGTTGTTTTTTTTTTAGCAACTGCAGAAAGATTTAGTAAGTTTCTGTAAATCTTTTAGGTATGGGGATTATTTGTGTATGGGCGGTGAGAG
TGGGGGATGGGAGTGTCTAGTTCCTTACACCTCCTTACCCCATCTAATCCAGTACCAGACAACAGTAAGCCTTCAAAAAACGATTTCTCAATGAAAATAT
GAAAATACATAGAGTCTGTTAGAAAAAGAGAAACAAGAATTCAGGCAGTAGTCTAGAAAATAAAGAAAAACTGAGACTTAGACTTCWTTATTTGAATAAG
TCGATTCAATAGTACTTTTTTGCTAAAATAAGTGGACATGTGCCTCGAGTGTTTAGCTCACTTGTTAGAATGCATCTCCAGCGTTATGGCTTCCTGAGAT
GCTCCAAAAGGAACACAGTTTGGATATTACATTCTAGACTTTTAGCAATAGGTCATATCTACGTACTCTCATGACAGTATCTATCAAGAGAAATAATACG
TTACTTTCATTTTAAAAATTTAGGACTGAACAAAAAGGAAAGTGTTATCATAGGTAAACCAAATTGCTTATAAATAATCAAATCAAATCAACTGACAACA
AAGGTAATGAAAAGTCCCCCTGGATTCATTTAAATCCATGTACTAAAGCCAAGTACTTCAGGTACAGGTAAATATACACGTATAGGTATTCAACTATAAG
CAGTCTGCAATGGAGAACCAGGTTAAACTGTAGCAATTTTAAAAATCTGTGTAAAAAATGACTGACTTAAAAAAAAGAAAAGAAAAATGGCTCTTCATTC
TGGAAAAACCACTTAAGAACTTTTATTTCTACATCCATGCCTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCG
ATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCGCGCCATTCTCCTGCCTCAGCCTCCSGAGTAGCTGGGACTACAGGCACCCGCCACCATGCCCGGC
TAATTTTTTGTATTTTTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCA
AAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCTGCTGACTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAAGATGGAGTACAATG
GCAAGATCTCAGCTTACTGTAACCTCTGCCTTCCGAGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGTCGCCCACCAGCACGC
CTGGCTAACTGTTGTATTTTTAGTAGAGATGGGGGTTTTGCCATGCTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTTGGCCTC
CCAAAGTGCTGACATTACAGGCATGAACCACCGTGCCCAGCCATCCATGACTTTTTTAGATCCCAAAGAATGAGATCTGAGAATGCTCTTATGCTACTGT
AGACTCAAAAATTAAATGTTCTGGCCAGGCACGGTGGCTCATGCCTATAATCCCAGCACTTTGGGRGGCCGAGGTGGGCGAATCACGAGGTCAGGAGTCT
GAGACCAGCCTGGCCAACACAGGGAAACCCCGTCTCTACTAAAAATACAAAATATTAGCCGCGCGTAGTGGCGGATGAAAATACGATGTATTAGCCGCAC
ATAGTGGCGGATGTCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGATGGAGGTTGCAGTGAGCTGAGATCGCACCA
CTGYGCTCCAGCCCAGGCAACAGAGTGAGACTCCATCTAAAAAATAAAAATAAAAAATAAATTAAATTTCTATTCAGGAGGACTGGTTAGAGCATAATTT
TTATCAAATAAATAAGGAAATCAAGACAGGAGAAAGGAACCATGGAAAGGAGATAAAAGTACCYGCCCCCCAAATCTTTTGTTTTAATGACCTGAGCTAA
ACTGCTATTTTTTTCAATTAATTATTTATTAAGAGGAGTTAAAGACTTATTCTTAAAGTTATCTTGATTCCAAAAGCATTTCACAAACTGGCAGAGATAA
TCTAATACAATTAGGACAGAACACAAGAAAATAGGTGTCACTGTTCTCTACAGCTTCCATAACCTGGTAGCATGAATCTCCAGAATTGAATATTGACTCA
AACTGTTCCTGAAAATGCAAAAATCAGGGACTTTTACTGATAGTAACTGTGGACTAATCAGAACAAKCAGAACAATCCTCCATCTAAAAAGAACTAGAAA
CGCTGGGAAAAATGTAAGAAATACCTGCTTGGAGGCACGGGGGAGGAAAGCAAGTCAGAGCCTGAGAAAGTGAGCTCAGTGTTTGAGGCTAATTTTCCTG
AAGGGTGTTTATCAATTCTGAAGGGAATGCTAAAAGATTGGCGCTGGGGTGGAGAGTAAAGGTGCTGGTGAAGAAGAGAACATTAGGAGGAAAAGTGAAC
AGAACAGGTTTGTCTTCACAAGAACTGCAGCTCAGCTTAGAGATATTTCAATCCCTGAAACTGTACTGAAGGCAACGCCAATTSTAAGTGCTCCCATGTG
CCTTATAACAGCAGATATTAATTATCTCTGGAAGAAAAAAGCATCATCTTAGGCCTCAAATTATTCCTACAAATAATTTTGCAAATATGATGTTTACCAC
ACATTAAAAAAAACACTAGGCACATAAGGAGACAAGACAATATGAATGAAAATCAACAGAAACAGACACTGGAAACAACTAACAGATTGCCATAATTGAA
CATGGACTTTAAGATAATTACACATACTATGTTAAAGGAGGTAAAAGACAAGACTGATAATTTTGGCAGATAGCTTGGAAGTATAAAACAGAAACAAATA
GAAATATAAAAATCAGCTGGGCACAATGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCAGGAGTATCACTGGAGGCCAAGAGTTTGAGACC
AGCCTGGGCAACACAGCAAGACCCTGTCACTTAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAAGCTGGCCATGGGGGCGTGTGCCTG
TAGCTGCAGCTACTTGGGAGGCTAAGGTGGGAGTTTAAGGCTGTAGTGAGTCATGACTGAGCCACTGCACTCTAGCCTGAGCAAAGGAATGARACTCTGA
AAAATAATAAAAATAAAAAACAAAAAAGAAATTTAAAAATAATTTTTAAAAACCCTGAAATTAAAAACTCAATGGGTGGTTTTAATAGCAGATTATATAC
AGCAGAGGAGGGGTGATGGAGAGAGACAGACAGTGAGAAGGAGATAACCAGAATAAAGAAGAGAGAGAGAAACATSTAAAATGCAGAGAAACAGTTAAGA
GACATAGAAGATATAGTGAAATGGAATAACATGGGGGTCCTCAACCCCTGGACATGAACTAGTATCGGTCCATGGCCTGTCAGGAACCAGGCCACACAGC
AGGAGGTGAGTGGCAGATGAGTGAGCATTACTGCCTGCAGTCTGCCTCCTGTCAGATGAGCTGAAGTATTAGATTCTCATAGAAGCGTGAACCCTATTGT
GAACTGTGCAYGCAAGGGATCCAGATTGTGCACTCCTTATGAGAAGCTAATCCCTGATGATCTGAGGTGGAACAGTTTTATCTGGAAACTACCCCCCTAA
CCCCCCAAGGAAAAATTTTCTTCCATAAAACCAGTCCCTGGTGCCAAAAAAGTTGTGAACTGCTGGTCTCACATATATCACTGTAGCCCTAGAAGGAAAG
GTAAGAGAAAATGGGGCAGAAGAAATAACTGAAGTACTTATGGCTGATGATTTCCAAAACCAATGGAAGACATGAAGCCACAAATTCAAGAATCCCTAAA
AACTCTAATTATAAATAAAAAGAAATCCATACTAGGGACAGTATAGAAAAATTGCTGAAAACCAAAGACAGAACTTTAAAAACAGCCAGAGAAAAAGACT
ACTTTCAAAGGAACAAGAGACTGACAAGTGACTTCTCAACAGAAACTAAGTCATAGATAATGAAATAGCTTTAAAATGCTAAAAGAGTTCTCCAAGAAAA
CACCAAATGGCGAATGAGACCAGTGCAGTGGGAGGGCCTAGAGGCCCCAAAATGGGAAGCCACAGCAGTGGCATCCAGGGCTAAGGCTGGGGCCACGGAG
CTGGTGGTGGCAAGGCCAAGGCCAAGGCCAAGGCCAAGGAGTAGGTCCCCATCATCAAACTGGGCAGCATAGTCAAGGACATGAAGATTAAGTCCCTGAA
GCTCTATCTCCTCTCCCTRCCCATCAAGGAGGCTGAGATCATCGACTTTTTCCTGGGGGCAACCCTCAMGAATGAGTTTAAGATTATGCCAGTAAAAATG
GAGACTTGCACTGGCCAGTGGTCCAGATTCAAGGCACTTGTTGCCATTGGGGACTAAAATATCCATGTCGGTCTGGGTGTTAAATGCTCCAAGACGGTAC
CTACTACCATCCAAGGAGTCATCATCTTTGTCAAGCTCTCCACTGTCCCGGTGCAGAGAGGCATCTCAGGAGACAACACTGGCAAGCCCCACRGCATTCC
TTGCAAGGTGACAGACCACTSCAACTCTGTGCTGGTACABCTCATCTCTACACACAGAGACAATGGTTTCATCTTGATCTCTGTGCCCAAAAAGCTGTTG
ATGATGGCTGGCATTAAGGACTGCCACACCTCAGTCAGGGGCTGCACTGCCACCCTGGGCAACTTCACCAAGGCCACTGTTAATGTCATCTCAAAGACCT
ACAGCTATCTGATCCCCAAGCTCTGGAAGGAGACCATATTCACCAAGTCTACCTATTAGGAAACTAGGAATTCACTGACCAGAGTCTCCACTGCAGAGAA
CCCAGGCTCCAGCTATGGCTATTATACAATGCAGGATTTTTATACAAGAAAAATAAAGTGAATTAAATTTTTAAAATGCTAAAAGAAATCAATGGCAAAC
CAAGAGTTCTATAAAACTAATAAAAAGACACTTCACAAATGGAAAAAAGTTCTAAAATTAGATGTGGTAATGGTTGTATAACTGAATATTCTAAAAACCA
CTAAACCATAGGCTTTAAATGGGTACATTTTACTGTGTGAATTATATCTCAATAAAACTTACAAAAAAGAAAACAATGAAGAATAAATAATGATGTTTTT
CGACAAACACTAAGAATTTGTTGCCAGACCTGCACTAAAGAATACTGAAGAGTATTCTTCAGGCAGAAAGAAAATAACTCCAAAGCGAAGACTGGAAGAT
GACAAAGGTGGTACAACAGAGTTATGGGGAAAAGATTATCTTTTTAATAAATGGTGCTGAAAAAAATGGTGTTAAGTAAAAATAAAATTTAACCCCTTTT
TCACATTATGTCACACAAAAATGAATTTCTGGTGAACCATATATCTTAATGTAAAAGGGAAAACACATGTAAGCTTTCTAATATTTTACAGGAAACTATT
TTCGGTGGCTCATGCCTGTAATCCCAGCAGTTTGGGAGGCCAAGGCGGGTTGATCACCTGAGGTCAGGAGTTCGAGACCCGCCTGGCCAACATGGTGAAA
CCCCGTCTCTACTAAAAATACAAAAATCAGCCAGGTGTGGTGGTACGTACCTGTAATCCCAGCTACTCGGGAAGCTGAGACAGCAGAATCGCTTGAACCC
AGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAAACAAACAAACAAAAACCCAAGA
GAAATGTGGGCAAGATATCTGAACAGGCACTCCAGAAAACTATACCAAATAAAAATAAAAAGATGTTCAGCCTCATCAGTCAACAGGAAACTGCAGATTA
AAACCACAATGGGATATCATTTCATAATCACCAGAATGGTTAAAATTTAAGACTGACAATACCAAGTGTTGAGAAGGAGGTGAAGCAACAAGAACTCTCA
CACATTTTTTGGTAAGAATGTCAGCTCGTAGAACCACTTTGGCAACTTGGTGTTTACCGCTAATGCTAAAGATATGCTTATCTTTTGACCTAAAAATTCT
ACTAGATATCTACCCAATCGAAATGAATGCACCAGGAGATACACAACAATATCCATAACAGCATTATTAATAGCCAACAAAGCTAGAAACAACTAAAATG
TCTAGTAACAGTAGAATGCGTACACTGTGGTATATTCTTACAACAGAATACTATAGACCAATAAAAATGAACAAATAACGATTACAACGGAATGGATCTC
GAAAACATCTTGAAAAACACCAGACACAAAAGAATACTGTATTATTTCATTGTCATAAATAATACAAAACAGGCAAAACGAAACTATAGTTACAAACTAC
AGTTTTTACGAGATACGTGTTCAGAAAGCAAAATTACAAATGGAAAAAAAAAAAGTGATTACCCCAAAAAAGTCACGACAGGATCTGGAGAGGAAGGGAG
GGTTTAGCGACTGGGAGAGGGCACCGGGCTTCTGGCAGAAGCAAGGTTTTATTTCTTGGCCTGATAATCAGCAGGCTCCCGAGCTGGGTGATACATCAAC
GAGCGGTACATTTGGGGGCCTTGCACTTTACTGGCGTGCAAGAAGAAAAAAAAGGGGGGTTGAGAATTAGGAGACGAAGGGGTTGACGGGCTCCAAGTCG
AGGGGAAACTACACCTGTAAAAGCCCAAACGCGGCTCTGGGCGCTGGCAGGGGGAGGCTTCGGCAACGCCTGGGGGCTTCAGGCCAGCCTCCTCCGGGCT
GGAAGGCACCGCACAGGGGCTTCCGCCAACTTCGGTCCTCGCGCGGTCGGGACACGGCCACACCTGCCCGCGGGGGTCTGCCTCCCAGGCCGCCGCAGGC
CCCCCGGAGCCTAAGAGGACCCCACAAGCAGCCAAAGCCAGCGCCGCCTGCCCCTTGCAGAACACTGCCCCCCACAAGCCCTGCAGACCCTCCCGGCTCT
CCAGACGCCCCCACGGCTCTCGCGAAGCCATTCCCGCGCTCTGAATGCCCCCGAATCTCTGCAGAGCCCCCGCGGTTCTCTGGAAGCCCCCGCGCCCGTG
GAGCCCCCCTCCCGCCCTCGGGGGCACCGCGGGCCCCCAGCCCAGCCCCTCCGACGCTGGCCGCTGCCACCTCCCACGAGGCGCCGGCCCCGACTCACCT
CATTGTCGCTGCCGGGGACGGGCGCGCCGGGCCAGGGGCGACCCGGCGGCGGCGGCGGCGGCGGCGGCGGGGCGCGGGACGCGGGCGCTAGCGGGGGAGC
CGGCCCCGGGCGCGGCGGCTCCGCGTCTGACTGGGCTGCGGGGGGCAGCGGGGGCTCATCTTCTCCGGGTGGGCGTCGGGGCCGCTAGCTGCGGGGAAGG
GCCGCGGCGGCGGCGACTGACAGCTGGGCCCCGGCCCCTGCCATCTTGGCGGGCGCTGCCCGGGCCGGCGTGTGCSCSGGCGCGTGCCTGGGGGCCGCCG
CCGGGKGATGGSGGGGCGGGGGGCGAGCYGGCTGGGGTCCGGGCGGCGGGAACGCGTGCGCGTCCGCCTGAGACTCGGGGCGGCGGCCCCTGGCGAGTGC
GCGGGCGGCTCCGAGTCCTCGAGGGAGAGGCGCGCGGGCGCGCGGGCTAGTCTCAGCACAGCAGCCAAGAGCTAGGGTACGCGCGTTGCTGTTCGCCCCA
CCGCCCTCCGAGGGGACTGCGCGCGCGTGCGCCCCTCCGCCCGCGGCCGCTGAGGTGAATGAGCGCGCGCGGCGGTCAAAGCCCGACACAAAAGGCGCGG
GGCCCCACCGTCCGCGCCTCCGGGAGCGCTGAGCTTGAGGCTGCGAGGGGCGGGGCGGACGAGAGTKGCGGGGCTGAGGGGCGGGGCTTTGAGGGAAGCG
CGAGGGGCGTGGCCGGGGTGGGGGCGGGGCGCCGGGCGGGCACGTGGCGCGGTGCGCTCCCTCCCGGCGCGGACGCTCCTCCAGTCCCCGCCTGACCCCA
GAGCTCACAGAGGCCACCGGGGGAGCCAGGGTCCGTGCTCGATGGCCCCATGATTCCCATCACCTGGCCCTGCTGAGCACCCTGCCCGCTCGGACTCGGG
GCATCCCTGATCCGAGGGCCGTCGAGGTCACCGGCGACTGATTCCCTCTCTTTGTACATAAGGAGCCGTGGCGGGGCCGGAGAGTTGCAGCTTTGGGGCG
ATATCAGTATTCGAAGTATCTCCCCCAGCTCAACAAGAGCCCACACGGSTCCCCAGAACCACAGCCTGTGAAAAATCACATTTACCGTACACAGCGTCAA
GTAGTTCGTCCAGGTTGTCTCTGGTTTTTAAATCCCCATCTTTCCTAAAGGTTAGTGAATCTCACTGGTGGCTGGAAACCCCAGATCCTCCAGGGTCTCA
CTCCCCGTGTGTAAGAAGACACAGTTCCGGCCCGGCGTAGTGCCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTC
AGAAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCTGTCTTTACTAAATACAAAAAGTTAGCCCGGCGTGGTGGCACGCACTTTTAATCCCAGCTAC
TTGGGAGGCTGCAGAAGGAGAATCGCTTGAACCCAGGAGGCAGGGGTTGCAGCGAGCCGAGATCTTGCATTCCAGCCTGGGAGACAGAGTGAGACTCTGT
CTCAAAAAAAAAAAAAAAAGAAGACAAAGTTCCTCATGCATTACCAGTATGGGCACTATTGCCTCCCTTCCCCGTGTCACAGAACGTTAATAGCTACCTT
TTGAAAAACGGTCTGAACAAGAGCATTTAAGGCGTTTGTCAGCGTCTGGCAGTTAGGAGGGCAATGAAGGGTCGCTATTTTCCTCCTGTCCAGGATTGAG
GAGAGGCTGTGTGTGTTAAGCAGTTTTGTCCAAGATATAGTAAATGGTGGAGCCAAGTCTCAAGCAGCGTTTTTCTGACTCGGAATCCCAGTGCCCATGC
GTTCTAGTTTGCTGGGGTTGAACATCAGTGTCATGGGCTGCAGTTTGGGTCTCTATGTGCTTCTCTCTCTCCCTGTCTCCTTGTACCTCCCTCACCGTGT
ACAGGTATTTAGAGTTCCCTAGCGATTGGTTGTAGCACCTCCACTTTCCTTCCTGTATTTGTTTAAGCCCAGAGTTGTCAAACCTGAAAGGGTACCATGA
TCTCCTACAGCCCTGGTAGCAGCCCCTGAGGGTGGTACCCTCTCATAACCTCATTTGTCCCTCTCTTCACAAGTTCAAGAGTGGTCTCTTTGCTACAGGA
GAGTCTTGTTGCATCCTAAAATTTACTAAAATGCACAAGCCTCAGGTCACCTGGGGACATTCCAGCTGTGCTATGGAAAGGCAAGGTTAACCCCTGGTCA
CTGCCTATCAAAGTCCTGTGCTGAGACCTTGGGATACAGGCCTGCTTGTTTGCAGCCTGGTTTATTGATGCTCTTTCAGCATGTGGCCCACTCTGATCTC
CAGATCAGGTATTTTCCCTGCTGCCCTGAAGTCTGACAAGTTGTTACCGTCTTGCTCCTGGAGAGGTTGTTTCTTGCAGCTGATGTTTGTTCATCAGAGG
GCTTCATGAGCTGCAGGAGGAGCTGAGAGACGACAGATTGGGACCACTCACATCCTATCCTGTGCCCTGCTTCCACCTGAGTGGGCATTGGTCTTTGTCT
GACAGACCCTGGGATGCTTGGGGAGTCAGAGGCTCCTTGTGTTAATCCTCCAGCTCACACCTCTCTGACCTCCATTCCTCCTCTGGCAGGTGGGAATCCT
AAAGCCCATCTGGCAGGTGCTGCTGAGGCTCAGATGAGATGCCGATGTCCACACAAAGTAGATCCCGAGAAAGGCCTTTTCTGCCCTTCTTCAGTACCCT
CCCCCTCGCCTCCCCTCCCCTCTTCCTTAACGAAACATAATTTGAAACCACAGTCTATTTGGCACGTTTTGCATTTTCTGAACAAAGGCTTTATTCCTTA
AAAGTACATGAATTCATGTTTTCCATTCTTCTGATAAAAAGAAAATTAACATTTGGACATGTGGCTCCCCCGAATGACTTATTTCTGGAGGTCACCAGTC
CTAGGATTTGGAAAGTTTCCTTGCCAGAGTCAGTGATTTCATGACATCTGATGTGTGTGGGTGCAGGACACTCAGCCAGGCTGACGACCCATGCCTCCAA
GCGCTCCTGGGCTGGAATTTCCATTTGTAAGGGAGGCAGGAAAGATGATTTTGGCTGTTTGTTGGGTTCAGGATAGTCACAGAGTCACAGATAACAGAGC
TAGCAAGTCTTCAAAGGGCATCTCATCCAACCTACTTGTCCAGAGGGTGATGAAACTGAGGCCCCAGGAGGTCACACAGGTGACTGGAATAAGAGCCAAA
TGAGCATGTATTTCTGCAGACTCCAAGGCCTTGGACTGCCTGCCCAGTTCTTGAAGTTTTTCCAGCCCTGGGGTCACTGCTGAGGAGCCAGCTCCATGGA
CCATCTTCTCCATTGCTTAGTGTTTGCCAAAACGAAACTCACCACAAATAATGGAAAGAAACACAGTTGCTTTCGATGATTCACCAATGAGACCATGTCT
GGTTCACATTAACCAGCATAAGTGAGTTACAAATGCATGCCAGAATCCAAAGTAAAGCACGCTTAGACAACCACAGATGTCTCAGGGGTTTGGGGGACCA
CCTGTGACCCTGTACCCCTTTTTCATTCACACCATTAATTTCATTGCCCAACTCAGTTATTACCAGCAGTTGTTTTCCTTAAACACAGCATGGCTAGTTT
TCCTTCATTCATCCATTCGTTTAATGTGCCTTGMGCTCCTCGGCACGTGTCTGCCTCCTCTCCTGCCCTGCTCACTGCCTCAGCCTGCCTGGCAAATCAT
CTTCAATCCTGCTATGTGTCAGGTCTCTCCTGGACCGCTCAGCACCACCCTCCCCCACCACAGGCTGCAGGCTCCTTCTCTACACTGTTTCGGGGTCACA
CGCCTGCCCTCCTGCATCGGGATTGTCTTCTTACTTGCAGGCTCCCCAACTAGGCTGTGAACTTCATGAGACCAGCAAGCGAGTCTCATTCCTCTTTGTG
CTGCCAGCCTCTCCAGCCCTGTGGGCTTGTGACAGTGCAGAATTGAAGGAATCCTGCGTGAGCGCCGCCATTCCAACCCAAGCAGTGCCCTGGGAGGGTC
AGAGACCACTAGCCTGTGTGCGCGGGCATTTTTGGCAACTACGGCTCCTGCTTGTGTTCTATCTGGCAGGAAATAGAAATTACTTCTGGTCCATTTTGGC
TTCCACACCTTGAAGATGGCCTGTGGGTCAAAGCTGGAGCTTTTTTTTTTTTGGTTCTAGCAATTCTGGTGCCTCAGCCTCCCGCCACCATGCCCACTCA
GCTTAATTTTTTTATTTTTAGCAGAGATGGGGGTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTTGGCCTCCCA
CAGTGCTGCGATTACAGGTGTGCGCCACCGTGCCCGGCCTGGAGCTTATTTTAATTTCACCTCTCTCGGGCTCCCCCACTCAAAAGTGATTTCCCTAAGA
TCATGTTTTACTGGCTTTGAAGGCAGGAGGGGTGACTCTGGGATGAGGGCCCTATAGTCATACCGGGGAGCACTCCAGCCTTCTGCTGGGGTGACTTAGA
GATCTGGACCCATCAATAAGAAGCGTGGCCAGACGGGGCTGGGGGAAAATCTTTGCTACCTGTCTTGTGGAGGGCAACTTCTTAGTGCCACTGTTTGCAA
GGAGAAAGGAGGACCTAGTGTTACCGGTGGAGGGTGTCCAGGTTCTTCGCATCTTGAACAAAGAACTGGACAAAACACACAAACAAAGCAAGGAAAGAAT
GAAGCAATAAAAGCAGAGATTTATTGACAGCAGAAGTATACTCCCCAGGGCGGGAGCGGGTGAGCATGGGGGTTCCAGAGCCCCATGACAGAATTTTCTG
GTTTTCCTCTCGCAAGGCCAGAGTCCCTCCGCTAGAGCGCTTCCCGCCCGGCCTGGCAGTCGGAATCCCGGGTTCCACGCAGGAAGGGGAGGGGCCAGGC
TCCTCCCTGCTGCAAACCTTGTGAACTTCCCGAGGCTCCCCCTCAGTGGGCAGGCTGGCTGGAGTTTCTCCAGGGACCTGCTCCCACCTGGCTGTGTCAC
AGGGCTGGGCGGGAGCAGGCCTGCTGTTCTGCAGCCAAGTCTGAGTGTTCCCACTTTATGGGAACTTAATGTCTCCACTTAATTGAAGAAGAAAACTAAG
CCAAGTACATGCCTGGGACAACCAGCCAGCCATCCTAGAGAGGCCTAAGGGTCCCCCTGGAGCCCGTGCCCCTTCCCAGGAGCCCTGAGGCCACTGGGAA
GGGAAGCCCCATCCAGCTCACACCTAGGAAAGCCAAAATCTCTCCTCACTCCCAGCTAGTCATCGGGTCCCAGCTTGGGGGCCCGTTCACCATCAGCTTT
GGGGAAGAAACTTCCCGCTCACTTCTCCTGCCTGCTGTCTCGCAATTACCGTGGGGACTGTGGCAGCCAGGCCTTTGTGGGAGCCGCCGGCACTTCATTC
GCAAGGAGGCCGGGAGGCCCGGGCATCCGAATGCGAGCAGACGTGTCAGGGGTCGGGGTGTTGGGAAGTTTAAAGGCTGCAGCCTCCCCACCCAGGGAGG
CACGGTCTTCCCGCCAGGCTGCGCAGTCAGAATGTGGCATGTCTAAAGGAGGGAATCGTAGAGAAGTGATGAGGAGAGTCAAGAAGATCTTGCCTAAGAG
CAATTGGAAAACAAACAAAAAAATCTTGAGAATAGAAAATACATTATTTCAAAATTAAGAAATTAATTAGAGGCAGTGAAAAACAAAAGACACTCCTGCA
GAACAAGGGTCAGTACACTTTCTGCAAAGGACCAGCTGGTAAATAGTTTTGGCTTTTTCAAAGCCATGTGGTCTGTCACAACTGTGGCAGGCCAATTCTC
CCTGACAATCACACAGACGGGCCTGTATGACAGTCGACAGACAGGCCTGCACAGCACCCCAGTTACACAGATTTCCACAGCGCTGCCTTAACACTGAGCA
AATAGTTAAACCTAGGGCAATCGGTGCCCAGACATCAAAGCTACAAATAAAGCATACGGTCAGTAGAAGCCTTGCATGGGCTTCTCCCTAACCTGGAGCA
AGTCAAAATAATAGAATCTAACATTCCTAGTGCCAGGACCTGCCTCGGGTCGACAAAATCTGAGACGAGTCAAGGTAACAGAGGCAGCTGTTTGAATAGA
TTCATCAGAGAGTCTAAGGCAGCACTCCAGACCAAGCTGTAAAGGAGATAAGATAGAAATAATCACTCTGGTACCACAGGAGACAGGCCTTGAAGGTACT
GGGGCCCACACAGCTTAATCAGACTTAGCTTGTTTTTTTTTTTTTATGTTCCAAATGTGATGGGTTTATTTTATTTTACTCTGATGCAAAATCAAAGATT
CCACAATAGCACAGAGACCAATATATTACAGAGTCATGAAAAAAATGGTGTGAACATGCAGGACACGAGGTACAAACTGGAGGTTCAGATCGTCTCCTCT
AACATGACACCACACTGTCGCCGAGGAACACATTTAATAACACTGCAGAACTGAACCGAAACGTGGCACAAACAGGACAGCTTCCAGGCATGCTTTCCAG
CGCCTCCCCTCAGGAGGGACTCACAACCCCTAGACTTCAGTGTGGGGAGGATTACAATTTTTTGGAAGAGTAAAAAGTTCACACTTTTGAAATTTCACAG
AAGGATTGTAGGGCCAAAACATGGTGGGTTCATTTCTCTTCACTTCCAGGGACAAATCTGATGCTTTCCTCAAACCACATTAAGCTTGCAGTTCAAACGC
CAAGCCAACCTTGTGACCTCCTGCACTGAAGTTGTTTCCATCGATTAAAGCTGATAAAGGGTCAATTTGACTCCGGGTCGAAGGGTCTGAGTATAACCCA
GTCCAATCAGGCTGGCATTATTTACTTTAGCAGAGAGAGAAGTTCTACAATCCAGCTTGTACTTAGTAGCAATGCCAAAATGGGTGTTGTTACTCCAGCC
GTCCAAGCAAGGTTTATTGACATTTCAATCCCATTAACCTTCTGGTAGATAGAACCTCCAAATTCAGTGCCATCGGTCACATGTGTGTGCAGCTGGAAGT
CTGCAGCCTCGTAACCCAGGGCGAAATTATTCTGTGACAATTTGGATTTGGCTGTGTCAAAACTCATCTGATAGCCGGCAAGCCACCCTTCAAAGACCAA
CACAGCCCAGCCATAGATGGTTGGTCCGGAAAAATCTAGATCAACATTACTGCCAACACTAAAACAATCCCATTTATAGGAGGCCTTCAATTCCCCACTC
TTCTTTCCTGTGTTTGGTACCAATATGGTATCAAGACTCAGTTTCAACCCTTTAGCCAACTTATTCTCCAAAGAGATTTCTGTCCCAAGAGTATTGTCTG
TGTTCCGTTTTTGAGTGAAGGTAAGTCCATAGTTACAGACCTTACATTCGGGTTCTAGGTTGCCTGATGCTTTCCCTGTATCAGTGTAAGCATGACCAGA
AGTAGAAAATTCCACTGCACTACAGGACTTGGTTTTCAGGTCTATCTTCCCCATGCCAAAGCCATATCCTTTGTTGAAGACATCCTCAGCAGCCTTTCCC
AGGTCACAGTAAGTTGGTGTGTTACACATATCTTAGAAAAATCTTTCTCAGGTTCTTATGAAATCAAAGACCTCCACCCCCAAGGGCCTGTCTCCCACAA
GCTTTTTTTTGCCTCTGACCTTCTAGTTGAAACAAAATTAGTTACCAATAGACTTAGGCGAATGTTGTGCTGCACGTAGGCACATAACTCCAACCTGTAT
AAGCAATTCTAACACTTTGAGTTGGTCTGGTGGAATTATCTCTGGCCTTCTGCCTGTATCCGGTTACAGCAATAAATTCCCTTTTTTTTTTTTTTTTTGG
GACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTCTGCTCGCTGCAAGCTCCGCCTCCAGAGTTCACGCCATTCTCCTGCCTCAGC
CTCCCAAGTAGCTGGGACTACAGGCACCCGCCACCACGCTAGGCTAATTTTTTTTTTTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACGCGGTTTC
ACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCTGGC
CAATTCCCTTCTTCGCTAGTTTGTCTGCTTCTCATTATTGGGACTCAAGAAGAGGCAGCTGGACCTGACTTGCTTCCGGGAACACAACTACTTCCCTTGG
CCTTTGACTTGAAGACAGCCATAGACCATATGTGAGTGGATGTCACTGTGTTCCAAGAGAACTTTAGTGACAAAAACAGGTAAAACCATTTTTATTTTCA
GATGACATTATCTTACCTATAGAAATTCCTAAGGAACCCACTCAAAAACTATCAGAACTAATAAACAAGTTCTGCAAGGTCCAAGCATATAAGATAAACA
TATAAACATCAATTGTATTTCGATAGACTTGCTATGAAGAATCTGAAAATGAAGTTAAGAAAACAATTCTATTTACATGACATCAAAACAATAAAATACT
TATGAATGAATTTAACAAAAAAAGTGTAAGACTTGTACACTGAAAACTATGAAACGACTCCGAAAGAAATTAAAGAAAACCTATAAACGGAAAGATATCC
ATTTATGGGTTGAAAGAGCTAATATTATTAAAATGGCAAGAGAGCCCAAATTGACCTACAGATTCGATGCAATTCCTGTCAAAATCCCAGCTGCTTCCAC
TTTTATTTTGTGCAGAAATTAGAAAGCTGATCCTAAAATTCATCTGGAAATGCAAGGGACCATAGAATAGCCAGAAGAGTCTTGAAAAAGAATAAGTACA
GGTATATACATTGATGGAATAAAATAGACAGTCCAGGCAGGGAGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACC
TGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACCAAAAATACAAAAAATTAGCCGGGTGTGGTGGCATGCGCCTGTAGT
CCCAGCTATTCGGGAGACTGAGGGCGGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGTCAAGATCACGCCACTGCACTCTAGCCTGGGCCA
CAGAGCAAGACTCCATCTCAAAGAAAAAAAAATAGGATAGAGAGTTGAGAAATAAACCCTTAACTTTACAGTCAATTGATTATCAACAGGGGCGCCAAGT
TAAAGAACAGGCTTTAATAAATGGTGTTGAAACAACTAGATACCCACATGCAAAAGACTAAAGTTGAAACCTTATTTACATCATTCATAAACTTTATCTC
AAAATGGATCACAGACCTTCATATAAGAGCTAAAACTATAAAACTCTTAGAAGAAAACATACATGCAATCTTCATAACCTTGAGTTTGGCGGAGGCTTTT
TAGATATGACACCAAAAGCAGAAGTGACCAAAGAAAAAATAAATAAATTGGACCACATTAGTATTAAACACTTTTGCTGCAAATGATACCATCTAGAAAG
TGAAAAGACAACCCACAGAATGAGAGAAAATATTTGCAAATATCATATATCTGATAAGATCTGGTTTTGTCTGTTTACTGTTGCTATAAAGGAATACCTG
AGGCTGGATAAATGTGGCTCACGACTCTGCTGGCTGGAAGACTGGGGACCTGGTGAGAGCCTCAGGCTGCTTGCATTCATGGTGGAAGGTGAAAGGAGCC
CACAGGTGCAAAGATCACAGGGCGAGAGAGGGAGCAAGAGAGAGGGGGAGGGGCCAGGCTCCTTTTGACAACGGGCTCTCTCTGGAACTGATGGAGCAGG
AACCAACTCAGTCCTCCTCCCCTAGGGAGGGCATTAACGTATTCATGGGGATTCCCAACCCACGACCCAAATACCTCCCACCGAGCCCACCTCCAACGCT
AGGAGTCAAATTTCAACATGAAGTTTGGGGAAACAAACATTCAAAGTATAGCAAAGAGGTTTGTATCCGGAATATATAATGCACTCTTA


SNP Information

Context             (SEQ ID NO:56369):
GGGGCCGCTAGCTGCGGGGAAGGGCCGCGGCGGCGGCGACTGACAGCTGGGCCCCGGCCCCTGCCATCTTGGCGGGCGCTGCCCGGGCCGGCGTGTGCCC
S
GGCGCGTGCCTGGGGGCCGCCGCCGGGGGATGGGGGGGCGGGGGGCGAGCTGGCTGGGGTCCGGGCGGCGGGAACGCGTGCGCGTCCGCCTGAGACTCGG
Celera SNP ID:            hCV26475970
SNP Position Genomic:     55678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56370):
TCGGGGCCGCTAGCTGCGGGGAAGGGCCGCGGCGGCGGCGACTGACAGCTGGGCCCCGGCCCCTGCCATCTTGGCGGGCGCTGCCCGGGCCGGCGTGTGC
S
CCGGCGCGTGCCTGGGGGCCGCCGCCGGGGGATGGGGGGGCGGGGGGCGAGCTGGCTGGGGTCCGGGCGGCGGGAACGCGTGCGCGTCCGCCTGAGACTC
Celera SNP ID:            hCV15830970
SNP Position Genomic:     55676
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56371):
GAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCGCGCCATTCTCCTGCCTCAGCCTCC
S
GAGTAGCTGGGACTACAGGCACCCGCCACCATGCCCGGCTAATTTTTTGTATTTTTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTC
Celera SNP ID:            hCV26475971
SNP Position Genomic:     49161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56372):
GGCGGCGGCGACTGACAGCTGGGCCCCGGCCCCTGCCATCTTGGCGGGCGCTGCCCGGGCCGGCGTGTGCCCCGGCGCGTGCCTGGGGGCCGCCGCCGGG
K
GATGGGGGGGCGGGGGGCGAGCTGGCTGGGGTCCGGGCGGCGGGAACGCGTGCGCGTCCGCCTGAGACTCGGGGCGGCGGCCCCTGGCGAGTGCGCGGGC
Celera SNP ID:            hCV15830971
SNP Position Genomic:     55706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56373):
GTAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATTTTTTGTACTTTTCGTAGAGATGGGGTTTCACCATATTAGCCAGGATGGTGTGGATCTC
C
TGATCTCGTAATCCGCCCACCTCAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCACAACCATCCTTTTTTTAAAAAAAATATT
Celera SNP ID:            hCV26475972
SNP Position Genomic:     47797
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56374):
GCCTCCCGGGTTCGCACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATTTTTTGTACTTTTCGTAG
A
GATGGGGTTTCACCATATTAGCCAGGATGGTGTGGATCTCCTGATCTCGTAATCCGCCCACCTCAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
Celera SNP ID:            hCV26475973
SNP Position Genomic:     47756
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,9)   total(A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56375):
GCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAAGCTGGTCTCCAACTCCTGACCTCAGGTGATCAATCCAC
Y
GCCTCAAACTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACCATGCCTGGCCTATTATTTTTCTTAATCAACAGAAGTGCTAGCCAAAAGCCTAAAAAG
Celera SNP ID:            hCV26475974
SNP Position Genomic:     46256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56376):
TCTTACAATATTTGCTTTACTGCTTTATTGTGCACCCACTGTATCTCCAGGGTAAGTCTACTGCAAGGTTCCTCAAACATGGGCAGTACACATATTCTCT
Y
TAAAGGGGAAAAATCTGTATGTGAAACAATATGATTTAATTTATATTCATTCAGCTTATATATATAATTGTTACTTTTCTTTTTTTTAATTTTATTTTTG
Celera SNP ID:            hCV26475975
SNP Position Genomic:     45928
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56377):
TGATTCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAAACTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGG
Y
GACCAGAGCAAAACTCTGTCTCAAATGATAATAATAACATATCAGTAATAATGTATCATACTAATATAAGATGTTAATTAACAGGAGAAACTATATGTGT
Celera SNP ID:            hCV26475976
SNP Position Genomic:     42803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56378):
TTGTTTACTTGAGATAGAGTCTCGCTCCTGTCACACAGGTTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGATT
Y
TCCTTCCTCAGTCTCCCAAGTAGCTGGGATTACAGGCGTGTGCCACCATGCCAGGCTAAGTTTTGTATTTTTAATAGAGACAGGGTTTTGCCATGTTGGC
Celera SNP ID:            hCV27952808
SNP Position Genomic:     39904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56379):
ATTAATTTCATTGCCCAACTCAGTTATTACCAGCAGTTGTTTTCCTTAAACACAGCATGGCTAGTTTTCCTTCATTCATCCATTCGTTTAATGTGCCTTG
M
GCTCCTCGGCACGTGTCTGCCTCCTCTCCTGCCCTGCTCACTGCCTCAGCCTGCCTGGCAAATCATCTTCAATCCTGCTATGTGTCAGGTCTCTCCTGGA
Celera SNP ID:            hCV8900240
SNP Position Genomic:     59034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56380):
AAGACAAGGGACTTTTTTTTTTTTTTCTTTCTGAGATGGAGCTTCGCTCTTGTTGCCCAGGCCAGAGTGCAATGGCGCAATCTTGGCTCACCGCAACCTC
S
ACCTCCTGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCACACCCAGCTAATCTTGTATTTTAAGTAGAG
Celera SNP ID:            hCV26475977
SNP Position Genomic:     41757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56381):
GTCCAAGATGAAGGCACTGGCAAATTACCTATCTGATGAAGGCCTTTTCCTCATAGAGCCTTCTTGCTGCATCCTCACATGCTAGGAGGGGCAAACAAGC
Y
CCCTCAAACCCCTTTTATTTATTTGTTTGTTTGTTTGTTTACTTGAGATAGAGTCTCGCTCCTGTCACACAGGTTGGAGTGCAGTGGTGCAATCTCGGCT
Celera SNP ID:            hCV8900313
SNP Position Genomic:     39769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56382):
CTCCCAAGTAGCTGGGATTACAGGCGTGTGCCACCATGCCAGGCTAAGTTTTGTATTTTTAATAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTC
R
AACTCCTGACCTCAGTTGATCCACCTGCCTTGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACCATGCCCGGCCTCTAACCTCTTTTATAAGGAC
Celera SNP ID:            hCV26475978
SNP Position Genomic:     40017
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56383):
AGTTCTAGAAGCTGAGAAGTCCAAGATGAAGGCACTGGCAAATTACCTATCTGATGAAGGCCTTTTCCTCATAGAGCCTTCTTGCTGCATCCTCACATGC
W
AGGAGGGGCAAACAAGCTCCCTCAAACCCCTTTTATTTATTTGTTTGTTTGTTTGTTTACTTGAGATAGAGTCTCGCTCCTGTCACACAGGTTGGAGTGC
Celera SNP ID:            hCV8900314
SNP Position Genomic:     39751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56384):
CTCATAGAGCCTTCTTGCTGCATCCTCACATGCTAGGAGGGGCAAACAAGCTCCCTCAAACCCCTTTTATTTATTTGTTTGTTTGTTTGTTTACTTGAGA
W
AGAGTCTCGCTCCTGTCACACAGGTTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGATTCTCCTTCCTCAGTCT
Celera SNP ID:            hCV26475979
SNP Position Genomic:     39818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56385):
GCCTGGGCAGCAAGAGTGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAATTGGGTTGTCTTTTCATTGTTGAGATGTCTTAGTCTATTCAAGC
K
GCTATAACAAAAATACCAGAAACTGGGTGGCTTATAAACAATATTTATTTCTCACAGTTCTAGAAGCTGAGAAGTCCAAGATGAAGGCACTGGCAAATTA
Celera SNP ID:            hCV8900315
SNP Position Genomic:     39595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56386):
ATCATCTTTGTCAAGCTCTCCACTGTCCCGGTGCAGAGAGGCATCTCAGGAGACAACACTGGCAAGCCCCACGGCATTCCTTGCAAGGTGACAGACCACT
S
CAACTCTGTGCTGGTACACCTCATCTCTACACACAGAGACAATGGTTTCATCTTGATCTCTGTGCCCAAAAAGCTGTTGATGATGGCTGGCATTAAGGAC
Celera SNP ID:            hCV25749301
SNP Position Genomic:     52821
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,24)   caucasian(G,2)   total(C,8|G,26)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,21)   caucasian(G,12)   total(C,7|G,33)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,26)   caucasian(G,28)   total(C,6|G,54)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56387):
TGGGATTACAGGCGTGAGCCACAACGCCCAGTGTTTTGTTTTTGTTTTTGTTTTTTAAAGGCACTCCAAGCCATTCGCCAACAACTCAGGCTCAGATAAT
S
CACACTCCTACTCTGGGACTTAATTTCCCTTTGTACCATGAAAGAATAGCCAGATGTTAAATTTTTAAATTAATAAATAATTAATTTTTTTTTTTTTTTT
Celera SNP ID:            hCV16068153
SNP Position Genomic:     11280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56388):
TCTTTGTACATAAGGAGCCGTGGCGGGGCCGGAGAGTTGCAGCTTTGGGGCGATATCAGTATTCGAAGTATCTCCCCCAGCTCAACAAGAGCCCACACGG
S
TCCCCAGAACCACAGCCTGTGAAAAATCACATTTACCGTACACAGCGTCAAGTAGTTCGTCCAGGTTGTCTCTGGTTTTTAAATCCCCATCTTTCCTAAA
Celera SNP ID:            hCV8900247
SNP Position Genomic:     56449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56389):
GCGCGGCGGTCAAAGCCCGACACAAAAGGCGCGGGGCCCCACCGTCCGCGCCTCCGGGAGCGCTGAGCTTGAGGCTGCGAGGGGCGGGGCGGACGAGAGT
K
GCGGGGCTGAGGGGCGGGGCTTTGAGGGAAGCGCGAGGGGCGTGGCCGGGGTGGGGGCGGGGCGCCGGGCGGGCACGTGGCGCGGTGCGCTCCCTCCCGG
Celera SNP ID:            hCV8900248
SNP Position Genomic:     56067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56390):
GGCGACTGACAGCTGGGCCCCGGCCCCTGCCATCTTGGCGGGCGCTGCCCGGGCCGGCGTGTGCCCCGGCGCGTGCCTGGGGGCCGCCGCCGGGGGATGG
S
GGGGCGGGGGGCGAGCTGGCTGGGGTCCGGGCGGCGGGAACGCGTGCGCGTCCGCCTGAGACTCGGGGCGGCGGCCCCTGGCGAGTGCGCGGGCGGCTCC
Celera SNP ID:            hCV8900249
SNP Position Genomic:     55712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56391):
TTCAATTTTGTAAAAATGTTTCACTTGTACCTGGGAATGATAAAGGAACTACACCACAGGTTTGATGTGGTTATCTGTAAAGAGCAGGATCAATGCTTAT
S
TGTATTGTCTTCTTTATATCATACCATTCTGTTTTCATACTCTCCTTAACTGTTTCATGAAGGGACCGGCCACTCTTCTCACCCTCACCCCGACATCAGC
Celera SNP ID:            hCV8900281
SNP Position Genomic:     45350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56392):
ACATTCTTTATATGTGTCAGCGGATTTAATCCTGAGGGAATGGCAAAGAGATCTTGTTATTTTTCCCATTTGATAAATGAGGAACCTGAGGGACAGAGAG
R
TAAAGTAATTTGCTCATGATCACATAGTTCAAAAGTGGCAGAGCTGATCACACTCAAATTCAGGCTGCCTGACTCCAGAATCTGTACTCTTAATCACTAC
Celera SNP ID:            hCV8900354
SNP Position Genomic:     28095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56393):
ATCATAAGCTGAGAACTTCTCATGTATTCTCATTTGATCCTCACAAAACCCTCTGAAGAAAGTGAACTGTCCTCATTTATACTTGAGAAAAACGGAGGCT
Y
ATAAAGGTTACGTAAATTGCTAAAAGTCAGCTGATAAGTAGTACCTCTGGGGCAGAATCCAGGTCTGACTCTAAAACCCAGGCTGCTCAGTATACAGGGG
Celera SNP ID:            hCV8900282
SNP Position Genomic:     44545
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   MOT_asian(T,8|C,43)   MOT_caucasian(T,5|C,52)   MOT_african_american(T,1|C,56)   MOT_caucasian_CEPH(T,19|C,262)   total(C,413|T,33)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56394):
AAGGCCCAGGGACTATAGTGGAAGAGGGGGGTGCGTGAGATTGTAAGGGTCGATTTTGAGAGATAAAATAAGTTCAGTTTCTCTATAAGTTAACCATTAA
Y
GTCATAGGTACACTGATGCAAGACCAGCATACGGGCTCCTATGTCGGATTAACAAGCTTTTCTTGAAGCATTAGCCAACTCCTTAATAAAGGCTATAAAG
Celera SNP ID:            hCV8900355
SNP Position Genomic:     24383
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56395):
CTCAAGAAATAAAGTCTTTCACGCCTCTTCATGACATGCAAAGTCTTATTTCTCCAATTCTTTCTTCCACTAAAACTCTTCACACACCTTCAAATTCAGT
Y
AGACATTCACAGTTCCCAAAATCTGTCAGGACCTCCCTTCTCGGGCCCATGGACCAGCTGGATGAGGTTCTTTGCTGCTCCCTAATGTGAGCCGCTGCCC
Celera SNP ID:            hCV8900533
SNP Position Genomic:     9102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56396):
GGGGTGGAGTAGGGCAGATAACTAACCTTTACTGAATATCATAAGCTGAGAACTTCTCATGTATTCTCATTTGATCCTCACAAAACCCTCTGAAGAAAGT
K
AACTGTCCTCATTTATACTTGAGAAAAACGGAGGCTCATAAAGGTTACGTAAATTGCTAAAAGTCAGCTGATAAGTAGTACCTCTGGGGCAGAATCCAGG
Celera SNP ID:            hCV8900289
SNP Position Genomic:     44508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56397):
TCAATATGGAATTTATGCTCAGTTCTAAAATGCACAAAAATTGCATTTGAAAAATGAGAAGCTTTCAGAAGTCGGAAGTGTGTGTGTGTGCGTGCACACA
M
ACACACACTCTCTTCCATATGTTCCAGAGAGGTGGAAATATGCACAAGAAGAATCTGATGACCCTCCCATTCCGCCTCCTTTATTTTCATTTCTTAGAAA
Celera SNP ID:            hCV15969033
SNP Position Genomic:     6990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56398):
CTTATTTCTCCAATTCTTTCTTCCACTAAAACTCTTCACACACCTTCAAATTCAGTTAGACATTCACAGTTCCCAAAATCTGTCAGGACCTCCCTTCTCG
R
GCCCATGGACCAGCTGGATGAGGTTCTTTGCTGCTCCCTAATGTGAGCCGCTGCCCACGTGCTGCTCCCTCACTGCTCCCTCTCCGAGGGGCTGAGATTC
Celera SNP ID:            hCV16286969
SNP Position Genomic:     9146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56399):
GGTGGTGCATGCCTGTAATCCCAGCAACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACTCAGGGGGCAGAGATAGTGGTGAGCCAAGATCACGCCATT
K
CACTCCAGCCTGGGCAGCAAGAGTGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAATTGGGTTGTCTTTTCATTGTTGAGATGTCTTAGTCTA
Celera SNP ID:            hCV26475980
SNP Position Genomic:     39487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56400):
CAAGAACAGTTTTTATATTTTATTTTCACATAGAAAATCAATCAGATTTGCTTCAGCCTCAAAGAGTGTGTTTATGTAAAATTAAATGAGCACTGGCAGC
R
AGCTGTACTTTTTCTAAACAGGAAAAGGGTTAAATTAAAATAAGCTAGAGAAAGAAAATGTTATTAAGAAACTCACAAGAGAAAATATATTTACTATTCA
Celera SNP ID:            hCV26475981
SNP Position Genomic:     36176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56401):
CCAGAAGCAGAGGCTGCAGTGAGGGAAGACTGCGCCATTGCACTCCAGCCTGGGCAACAAGGATGGAACTCTAAGTCAAAAAAAAAAAAAAAAAAAAAAA
A
GAAAGAAAGAAACAATCTGAAAAGACTTATAATTAATAAAGAAATTGAAGCAGTAATCAAAAACCTCTCAACAAAGAAAGATGTCTTCACTGGAGAATTT
Celera SNP ID:            hCV26475982
SNP Position Genomic:     33772
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56402):
AAAGGGGGAAGGGGGAAAAGAGAGTAGTAATCATACCTACCTCTTGGAGATATTGCAAAGATTAAATGAGATAATGTATGTTAACTGGTTAGAACAATGC
C
TGGCATGTAAAAATACTCAACAAATGAGTTATTTTTACTATTTATGTTAATTGAGAAATAGAATTGAAGTCCCCTTACCAAGTTGCACTTTTGAACTCAG
Celera SNP ID:            hCV26475983
SNP Position Genomic:     30895
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,4)   total(C,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56403):
ATCTTGGGGCCCCAAATTCACTAAGCAAAAGGGAAAAGTCAAACTGGGAACTGCTTAGGGTAAACCTGCCTACCATTCTATTCAAAGTCATCCCTCAGCT
M
ACTGAGATAAATGCATACCTGATCGCCTCCTTTGGAAAGGCTCATCAGAAATGCAAAAGAATGCAACAGCTCATGCTTGTAATCCCAGCACTTTGGGAGG
Celera SNP ID:            hCV26475984
SNP Position Genomic:     26757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56404):
TTAAGGTTATTACATCCATGTATCTTTCTGTATGTGCTTTTAAAGTCCTTGTGACACTGAGTTACAGGGCTTTGACTCCTGGGTCTAAAAAGGACACCAG
R
TCCTGTTAAATGTTAAACAGTGATAGCAATTAAAGCCTCATCTTCAGGCCTGGAAGGAGATGCCAATCGAAATAAACTCCATTCCTGAGATGCAGGGCCA
Celera SNP ID:            hCV26475985
SNP Position Genomic:     24158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56405):
TCCCAAAGTTAGTTTGGCCTATGCTCAGCAATGAACAAGGACAGCTTGGAGGTTAGAAGCAAGATGGAGGCGGTCAGATCATATCTTTTTCACTGTCTCT
M
TTATAATTTTGCAATGGCAAGCTTCACAACTTTAAATGATGACTGTTGTAGTTTTCATAAGTAATCTAGGTAAATGATTAGAATAAAATAATTAGGTAAA
Celera SNP ID:            hCV26475986
SNP Position Genomic:     22364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56406):
AGATCACGCCATTGCACTCCAGCCTGGGCAGCAAGAGTGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAATTGGGTTGTCTTTTCATTGTTGA
R
ATGTCTTAGTCTATTCAAGCTGCTATAACAAAAATACCAGAAACTGGGTGGCTTATAAACAATATTTATTTCTCACAGTTCTAGAAGCTGAGAAGTCCAA
Celera SNP ID:            hCV8900322
SNP Position Genomic:     39574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56407):
AAATCCACAGGAAAGTTCCAAATTATGGGGAACGAGGCCTCTGAAGTGGCTAAATCCCCCTCACCCCCAACACACACAAAAGTGTTGTCGGTGTGGGGGG
K
GGGGGGAAATGGCCAGCAAAAGGGGAAAAAAAAAAGGAAAGATTTTTTGACTTAAAGGGCTTTATTTACGTCACACGGCCACCTTTTTGCTAGCCATGCC
Celera SNP ID:            hCV26475987
SNP Position Genomic:     21444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56408):
GGGGTTCACATTCTGGTAACCACGAAAGGATTCTGAGTGAAGGTGCCCCTAACCTTTGACAAATCTCCTACTGGTGCTTGTACCAGCTTGAGCTATCTTT
W
TGGCTCAAACCAACAGGACAATTTGCTGAGGCCTGGAAGCACCCCTCCAGAGAATCTCTGATTTCCCAAAATCTGGATGAGATTTAAAGTTTATTTTGCT
Celera SNP ID:            hCV26475988
SNP Position Genomic:     20524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56409):
GTCTGATAAGAAACATTTTACAACGTGCTCTCTCTAAAGTCTGAGAGTTTCCTCTGCACAATAAAACTTGGTCTCCACAATCCTTTATCTTAACCTGAAC
R
TTCCTTTCCGTTAATCCCAGGTCTTCAGATAAACTTAACCAATTTCCAACCAGAAAATGTTTAAATTTACCTACAGCCTGGAAGCCCCTGCTTTGAGTTG
Celera SNP ID:            hCV26475989
SNP Position Genomic:     17520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56410):
CCTGGGCGACAGAACGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAGATTAACAACCAGCTGGTTTTATTTGCTCCTTACCATTAAAGCATTCAGTAAT
Y
GTATAAGTTGTGCCATCGTTTGTTTTGCTTGACTGTTTTGTCTTTGTTTCTGTTTTTGTTGTTGTTTTGGTCTTTTTCCCATTGGGTTTCATCAACTCTA
Celera SNP ID:            hCV8900504
SNP Position Genomic:     21231
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56411):
GTAGCATGAATCTCCAGAATTGAATATTGACTCAAACTGTTCCTGAAAATGCAAAAATCAGGGACTTTTACTGATAGTAACTGTGGACTAATCAGAACAA
K
CAGAACAATCCTCCATCTAAAAAGAACTAGAAACGCTGGGAAAAATGTAAGAAATACCTGCTTGGAGGCACGGGGGAGGAAAGCAAGTCAGAGCCTGAGA
Celera SNP ID:            hCV27840186
SNP Position Genomic:     50467
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,29)   caucasian(T,36)   total(G,3|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:56412):
TGACTGCCCTACACCAGCAGTTCTCAACTGGGGATGATTCTGGGCCCCAGGAACATTTGGCAACGTCTGGAGATACTTTTAGCAGTGGCGACTGGGAAAT
R
AGGTTGGGTGTTGCTTCTAGCATCCAATGGGTAGAAGCCAGAGATGTTGCTAAACATCCTACTATGTACAGGTAGTCCTCCACAACAAAGTATTATCTGT
Celera SNP ID:            hCV8900505
SNP Position Genomic:     19449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56413):
CCACTGTCCCGGTGCAGAGAGGCATCTCAGGAGACAACACTGGCAAGCCCCACGGCATTCCTTGCAAGGTGACAGACCACTGCAACTCTGTGCTGGTACA
B
CTCATCTCTACACACAGAGACAATGGTTTCATCTTGATCTCTGTGCCCAAAAAGCTGTTGATGATGGCTGGCATTAAGGACTGCCACACCTCAGTCAGGG
Celera SNP ID:            hCV8900255
SNP Position Genomic:     52840
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,17|T,1)   total(C,51|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56414):
ACCACAATCAATGGTAGCTAATATTATCAAATATGCCTCAAAAACCCATCGAGTTGCCCTCCTGACCAAAACCAGTCTCAACTGATCTCTAAAACTCCTG
R
ATTCCTATCACAATCAATAACCATTTTTAAAATGTTCACACATTGTCTTATGCTGAACAACTCAGTTCATTACGTGTCTTGGGACCCTAGTCAAAGAGAG
Celera SNP ID:            hCV16068162
SNP Position Genomic:     14176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56415):
ATAGTCAAGGACATGAAGATTAAGTCCCTGAAGCTCTATCTCCTCTCCCTGCCCATCAAGGAGGCTGAGATCATCGACTTTTTCCTGGGGGCAACCCTCA
M
GAATGAGTTTAAGATTATGCCAGTAAAAATGGAGACTTGCACTGGCCAGTGGTCCAGATTCAAGGCACTTGTTGCCATTGGGGACTAAAATATCCATGTC
Celera SNP ID:            hCV8900256
SNP Position Genomic:     52569
SNP Source:               Applera
Population(Allele,Count): african american(A,23|C,9)   caucasian(C,20)   total(A,23|C,29)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,10)   caucasian(A,6|C,26)   total(A,32|C,36)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56416):
CCCCGGCCCCTGCCATCTTGGCGGGCGCTGCCCGGGCCGGCGTGTGCCCCGGCGCGTGCCTGGGGGCCGCCGCCGGGGGATGGGGGGGCGGGGGGCGAGC
Y
GGCTGGGGTCCGGGCGGCGGGAACGCGTGCGCGTCCGCCTGAGACTCGGGGCGGCGGCCCCTGGCGAGTGCGCGGGCGGCTCCGAGTCCTCGAGGGAGAG
Celera SNP ID:            hCV16068163
SNP Position Genomic:     55729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56417):
TGGCAGATGAGTGAGCATTACTGCCTGCAGTCTGCCTCCTGTCAGATGAGCTGAAGTATTAGATTCTCATAGAAGCGTGAACCCTATTGTGAACTGTGCA
Y
GCAAGGGATCCAGATTGTGCACTCCTTATGAGAAGCTAATCCCTGATGATCTGAGGTGGAACAGTTTTATCTGGAAACTACCCCCCTAACCCCCCAAGGA
Celera SNP ID:            hCV8900257
SNP Position Genomic:     51811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56418):
AGAATATTTGAAACCAGAACTGTCCCATATCCTCATGGAAGATAAACCCTAGAAAATAAATACAGGGTGGTGAGGCTGGGGTGGGGTGGAGTAGGGCAGA
W
AACTAACCTTTACTGAATATCATAAGCTGAGAACTTCTCATGTATTCTCATTTGATCCTCACAAAACCCTCTGAAGAAAGTGAACTGTCCTCATTTATAC
Celera SNP ID:            hCV8900290
SNP Position Genomic:     44426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56419):
TTCAGACACTAGAACAGGCACTGAATGAACCAAACCTTGAGAACCACTGTGTTACACGCAAGAACATGAGGGTTTCAGAGATTTCATTAATATGGTAAGT
K
ACCTAAGAAAAGAGTCAGTCTGATCTCCTCACTTTGAGCAAAGAAACAGAAAAACGCAGCACCTTGCCTAGGGTCACACAATCACAGTCAGAGATGGAAT
Celera SNP ID:            hCV8900509
SNP Position Genomic:     19019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56420):
GAGGAAGTGATGTTTCAAATAAGATTTGAAGGCTAAGAAGTTAGCAAGGTAAAGAGGAAAAGGAAGCAGCTAGACTGAGATCAACTTGCATGATTTAGCA
W
CAGATCTTTTCTTATTTAAGAATTCTTTGAGAGAGAAGGGAGAAGAGAAGATAAGTGCAATAAACACAGCTCCACAAAAGCAGCAGAGCAGCAGGCAGGA
Celera SNP ID:            hCV8900291
SNP Position Genomic:     43748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56421):
CAGGAAAGTTCCAAATTATGGGGAACGAGGCCTCTGAAGTGGCTAAATCCCCCTCACCCCCAACACACACAAAAGTGTTGTCGGTGTGGGGGGGGGGGGG
R
AATGGCCAGCAAAAGGGGAAAAAAAAAAGGAAAGATTTTTTGACTTAAAGGGCTTTATTTACGTCACACGGCCACCTTTTTGCTAGCCATGCCAAACCAA
Celera SNP ID:            hCV16286973
SNP Position Genomic:     21451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56422):
AAACAGTTACAGAAGAGGAAATATGGGATATCACAAAGGTAATTAACAGGAAAGGGCCCTCAGCTAGGCTAAGGGTCAAAGGCTGCCTCCCTGAGGAAGT
R
ATGTTTCAAATAAGATTTGAAGGCTAAGAAGTTAGCAAGGTAAAGAGGAAAAGGAAGCAGCTAGACTGAGATCAACTTGCATGATTTAGCAACAGATCTT
Celera SNP ID:            hCV8900298
SNP Position Genomic:     43656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56423):
TTGTTTGTTTACTTGAGATAGAGTCTCGCTCCTGTCACACAGGTTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGT
K
ATTCTCCTTCCTCAGTCTCCCAAGTAGCTGGGATTACAGGCGTGTGCCACCATGCCAGGCTAAGTTTTGTATTTTTAATAGAGACAGGGTTTTGCCATGT
Celera SNP ID:            hCV27868648
SNP Position Genomic:     39900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56424):
TGACTCTGGCATAACAAGGAAGAAAATCAAAATGTTTTACCTCAAAATATATTTCCTTGCCATACCTTGAAATTGCCCTGCAAAGTCTCTTGTGGGAAAA
W
TCTGCATTCTATAGAGAACCCCCTCTTTTCCCTTTGTTTTTCTTCCTTCCTTTCCAGATCCAGGAGACAATCAACTAAGAGCCAGGCACCCTTTTAAGTC
Celera SNP ID:            hCV26475990
SNP Position Genomic:     17322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56425):
TACGTGTCTTGGGACCCTAGTCAAAGAGAGTCCCTGGGGATGGAACTAGAATGGCTAGAAGGTGAGGCCTGAGGGGTTTAACTCCCCACAACCTCAAAGA
S
AGTCCCTGGGGATGGAACTAGAATGGCTAGAAGGTGAGGCCTGAGGGGTTTAACTCCCCACAACCTCCATCAGACAAGAAATACACACACAATCTAAGTA
Celera SNP ID:            hCV26475991
SNP Position Genomic:     14347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56426):
TGAATATCATAAGCTGAGAACTTCTCATGTATTCTCATTTGATCCTCACAAAACCCTCTGAAGAAAGTGAACTGTCCTCATTTATACTTGAGAAAAACGG
R
GGCTCATAAAGGTTACGTAAATTGCTAAAAGTCAGCTGATAAGTAGTACCTCTGGGGCAGAATCCAGGTCTGACTCTAAAACCCAGGCTGCTCAGTATAC
Celera SNP ID:            hCV29133114
SNP Position Genomic:     44540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56427):
GCACAGAAAGACAAACTTCACATGTTCTCACTCATTTCTGGGAGCTAAAAATTAAAACAATTGAACTTGTGAGAAGAATGAGAGCTAAAAATTAAATTTA
A
GTTAAAAATTAGAATAGGGGCTAAAAATTGAAACAATCGAACTTGTGAGTAGAATAGAGAGTAGAATGATGGTTACCAGAGGCTGGGAAGGGTTGGGGAT
Celera SNP ID:            hCV26475992
SNP Position Genomic:     13162
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56428):
ACCCTGATAGGTCTGTCCTCTCTTCACCCATTCCTCAAAACACTGACTTCAGACCTATCTCCATTTCACAACAACTCTACTCCCACGGCCCTCCCCATAC
Y
TTTCTTGTCCTAATCTTTTCCTCTCCCAGAATCAAAATCATTCATCTTGGTCAATGGACACTAAGCATATACTGCATGCCCAGCTGTGGCATAAGACACC
Celera SNP ID:            hCV29133115
SNP Position Genomic:     29921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56429):
AGCACAGAAAGACAAACTTCACATGTTCTCACTCATTTCTGGGAGCTAAAAATTAAAACAATTGAACTTGTGAGAAGAATGAGAGCTAAAAATTAAATTT
A
AGTTAAAAATTAGAATAGGGGCTAAAAATTGAAACAATCGAACTTGTGAGTAGAATAGAGAGTAGAATGATGGTTACCAGAGGCTGGGAAGGGTTGGGGA
Celera SNP ID:            hCV26475993
SNP Position Genomic:     13161
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56430):
GTCATTTGAGATCTTGATAAGGCAGGAATTTTAAGTCTTCATCCAGGCCATATAATTAGATTATCCTTAAGAGCAACTTACTATCCACGTGACCAAGAGA
M
TATAGATAAACACCCACAAGTACAGGAATGCAGGGCTGACAGAGTATCATAGTCAATTTAGTCAAAACTTTACTCTTGGGCAATAGTCTAAGCCATCCAA
Celera SNP ID:            hCV29133116
SNP Position Genomic:     15741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56431):
AAGCACAGAAAGACAAACTTCACATGTTCTCACTCATTTCTGGGAGCTAAAAATTAAAACAATTGAACTTGTGAGAAGAATGAGAGCTAAAAATTAAATT
T
AAGTTAAAAATTAGAATAGGGGCTAAAAATTGAAACAATCGAACTTGTGAGTAGAATAGAGAGTAGAATGATGGTTACCAGAGGCTGGGAAGGGTTGGGG
Celera SNP ID:            hCV26475994
SNP Position Genomic:     13160
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56432):
TCATGCTCACTGCAGAATTATTCACAATAGCCAGGAGTGGAAGCAACCCAAATTCCACTGACGAATGAATGAATGTTTAAAAAGTAGCATCTCTCTCTCT
M
TATATATATAGAGTATAATATTTTGCAGCCTTTAAAAAAGGGTATCTGATCACATGCTACAACATGGATGAACCTCAAGGACATTATGCTAAGTGAAATT
Celera SNP ID:            hCV8900330
SNP Position Genomic:     36738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56433):
TAACAACAACAAAAGAAATTATCCCTTTGCACTTTGTGTCATTTGAGATCTTGATAAGGCAGGAATTTTAAGTCTTCATCCAGGCCATATAATTAGATTA
Y
CCTTAAGAGCAACTTACTATCCACGTGACCAAGAGAATATAGATAAACACCCACAAGTACAGGAATGCAGGGCTGACAGAGTATCATAGTCAATTTAGTC
Celera SNP ID:            hCV29133117
SNP Position Genomic:     15704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56434):
CAAGCACAGAAAGACAAACTTCACATGTTCTCACTCATTTCTGGGAGCTAAAAATTAAAACAATTGAACTTGTGAGAAGAATGAGAGCTAAAAATTAAAT
T
TAAGTTAAAAATTAGAATAGGGGCTAAAAATTGAAACAATCGAACTTGTGAGTAGAATAGAGAGTAGAATGATGGTTACCAGAGGCTGGGAAGGGTTGGG
Celera SNP ID:            hCV26475995
SNP Position Genomic:     13159
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56435):
AGCATTAATCTGATACCAAAACCAGACAAAGACAAAATAAGAAAACTACAAACCAATATCTGATGAATACCGATGAAGGAGTCCTTAACAAAATACTAAC
R
AACTGAATTCAACAACACATTAAAAGGATTAAACGACCGGGCGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGTGGGCAGATCACGA
Celera SNP ID:            hCV8900332
SNP Position Genomic:     34066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56436):
AGGTACAAGGACAAATTGATTAAGACCTTCCCACGGATTGCTAATGCCACACTGGGATTTGTTAGGTGACTGACTACATTTGAAAATGCAGTTATTTTTT
W
AAAGATATATTCATACTACCATGAAAAAAATGGGCATTTGATTATTTTCTAAGCCTCCTTCTCAAGCCATTCAACTCTTTCTTGGACCCTAAAGCAAATA
Celera SNP ID:            hCV8900510
SNP Position Genomic:     18778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56437):
CCAAGCACAGAAAGACAAACTTCACATGTTCTCACTCATTTCTGGGAGCTAAAAATTAAAACAATTGAACTTGTGAGAAGAATGAGAGCTAAAAATTAAA
T
TTAAGTTAAAAATTAGAATAGGGGCTAAAAATTGAAACAATCGAACTTGTGAGTAGAATAGAGAGTAGAATGATGGTTACCAGAGGCTGGGAAGGGTTGG
Celera SNP ID:            hCV26475996
SNP Position Genomic:     13158
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56438):
GTGGAGATGAAACAGAAGGAGCCACAAATGGAAGTCAGCTATGATCATGACTAAAAATACTATTCTTTTCTCATGGCCCAATCAAGGATCTTTCCAATGG
S
CAGGGGGCTGAGCGGTAATAAGAGGAATTCAACAGTGTCTTCAGAGGCCCATTTCTCCCTGGTTTCACTTCTACAACCCTAATTAAGACCCTTCTAGCCT
Celera SNP ID:            hCV29133118
SNP Position Genomic:     12586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56439):
CAACATACAACCATGGTATTTAAATTAATAGGTACAAGGACAAATTGATTAAGACCTTCCCACGGATTGCTAATGCCACACTGGGATTTGTTAGGTGACT
K
ACTACATTTGAAAATGCAGTTATTTTTTAAAAGATATATTCATACTACCATGAAAAAAATGGGCATTTGATTATTTTCTAAGCCTCCTTCTCAAGCCATT
Celera SNP ID:            hCV8900511
SNP Position Genomic:     18749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56440):
AGGCTCAGATAATGCACACTCCTACTCTGGGACTTAATTTCCCTTTGTACCATGAAAGAATAGCCAGATGTTAAATTTTTAAATTAATAAATAATTAATT
W
TTTTTTTTTTTTTTTGAGACAGAGTCTTACTCTGTCACGCAGGCTGGAGCGCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCATGT
Celera SNP ID:            hCV26475997
SNP Position Genomic:     11367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56441):
TGGGAACTGGATTAGTCTAGAGAAAGAAGTCGAACCCAGGGCACGCCTGGGATCCTGGGTAAAGCATGTAACACATCCCACCCCCTACCAGAACTGTGCA
S
GTTGGGGAGAGAGGAGAGAAGGCTGAAAGGAATGAGAATGCAACCTGTTCCGCTGTGATCTGCCTAATTACCTCATCTTCCTCTGGCTGCTGCTGCTATA
Celera SNP ID:            hCV26475998
SNP Position Genomic:     8172
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,16)   total(G,16|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56442):
AGCTAACAGGGGAGGCAGCTAGAAAACCATGTGATCATTCCAGCAAGTCTGATTAATGCAGTGTATGCTTAGGCTCCAGGCTGGGAACTGGATTAGTCTA
K
AGAAAGAAGTCGAACCCAGGGCACGCCTGGGATCCTGGGTAAAGCATGTAACACATCCCACCCCCTACCAGAACTGTGCAGGTTGGGGAGAGAGGAGAGA
Celera SNP ID:            hCV26475999
SNP Position Genomic:     8091
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,15)   total(G,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56443):
GTGGTTTTAATAGCAGATTATATACAGCAGAGGAGGGGTGATGGAGAGAGACAGACAGTGAGAAGGAGATAACCAGAATAAAGAAGAGAGAGAGAAACAT
S
TAAAATGCAGAGAAACAGTTAAGAGACATAGAAGATATAGTGAAATGGAATAACATGGGGGTCCTCAACCCCTGGACATGAACTAGTATCGGTCCATGGC
Celera SNP ID:            hCV8900263
SNP Position Genomic:     51576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56444):
TGTGCCTGTAGCTGCAGCTACTTGGGAGGCTAAGGTGGGAGTTTAAGGCTGTAGTGAGTCATGACTGAGCCACTGCACTCTAGCCTGAGCAAAGGAATGA
R
ACTCTGAAAAATAATAAAAATAAAAAACAAAAAAGAAATTTAAAAATAATTTTTAAAAACCCTGAAATTAAAAACTCAATGGGTGGTTTTAATAGCAGAT
Celera SNP ID:            hCV8900264
SNP Position Genomic:     51393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56445):
GTGGCGGATGTCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGATGGAGGTTGCAGTGAGCTGAGATCGCACCACTG
Y
GCTCCAGCCCAGGCAACAGAGTGAGACTCCATCTAAAAAATAAAAATAAAAAATAAATTAAATTTCTATTCAGGAGGACTGGTTAGAGCATAATTTTTAT
Celera SNP ID:            hCV8900265
SNP Position Genomic:     50004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56446):
AAATACACACACAATCTAAGTAATAACAGCATGCTTGGTATGCAAATACAGCTTCAAAAGGAAGCCATTACAATTCTGGGCCACTATCCTCAAATTATCC
Y
ATTTTGAAATTGTGGGGAGTCCACTAGCACTGACCTTGGTTTTAGTCCTAATCTTTCACAAGGCACAGCAATTCTTAGTCATACATTGTAAGTCTTAGAG
Celera SNP ID:            hCV8900516
SNP Position Genomic:     14526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56447):
AGAGTTTTTAACGCAACAGAAAGGAAGTTGTTATTAGTTTGAAGTAGATTGTTATAACTTTAAGATGTTTTATGTAATTGTAATGGTAATCACAAGTAAA
W
TATCTATAGAATACATACAATGGGAAATGATAAGGGAATCAAAATATGTCACTACAAAAAAAATCAATAAAACACAAAAGCAGCAACAAGAGAAGAAATG
Celera SNP ID:            hCV8900339
SNP Position Genomic:     33013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56448):
AAATTTCTATTCAGGAGGACTGGTTAGAGCATAATTTTTATCAAATAAATAAGGAAATCAAGACAGGAGAAAGGAACCATGGAAAGGAGATAAAAGTACC
Y
GCCCCCCAAATCTTTTGTTTTAATGACCTGAGCTAAACTGCTATTTTTTTCAATTAATTATTTATTAAGAGGAGTTAAAGACTTATTCTTAAAGTTATCT
Celera SNP ID:            hCV27844080
SNP Position Genomic:     50164
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,21)   caucasian(C,1|T,29)   total(C,4|T,50)
SNP Type:                 INTRON


Context             (SEQ ID NO:56449):
TTTTAGCAGTGGCGACTGGGAAATGAGGTTGGGTGTTGCTTCTAGCATCCAATGGGTAGAAGCCAGAGATGTTGCTAAACATCCTACTATGTACAGGTAG
Y
CCTCCACAACAAAGTATTATCTGTCAATAGTGCTGAGGTTGAGGAACTCTGCCCTACACCTAATAGTGGGAGGGCAGAACCAGGAAAGCTGTCCGTGCTT
Celera SNP ID:            hCV1292837
SNP Position Genomic:     19525
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56450):
TCCTACTATGTACAGGTAGTCCTCCACAACAAAGTATTATCTGTCAATAGTGCTGAGGTTGAGGAACTCTGCCCTACACCTAATAGTGGGAGGGCAGAAC
Y
AGGAAAGCTGTCCGTGCTTTTCTTTCTTTCTCTTTCTCTCTCTGTCTCTGTCTGTCTCTCCCTCTCTCTCTCTCTCTCTCCTCTCTCTCTGAAAGTATCT
Celera SNP ID:            hCV1292838
SNP Position Genomic:     19606
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56451):
GAGCCAAGATCGCACCACTGCACTTCAGCCTGGGCGACAGAACGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAGATTAACAACCAGCTGGTTTTATTT
K
CTCCTTACCATTAAAGCATTCAGTAATCGTATAAGTTGTGCCATCGTTTGTTTTGCTTGACTGTTTTGTCTTTGTTTCTGTTTTTGTTGTTGTTTTGGTC
Celera SNP ID:            hCV1292839
SNP Position Genomic:     21203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56452):
ATTCAGTTAGACATTCACAGTTCCCAAAATCTGTCAGGACCTCCCTTCTCGGGCCCATGGACCAGCTGGATGAGGTTCTTTGCTGCTCCCTAATGTGAGC
Y
GCTGCCCACGTGCTGCTCCCTCACTGCTCCCTCTCCGAGGGGCTGAGATTCCCACAGGGCAGCGCACTGCTCTCTCTTCTTGGCTGCCACCTGCGTGGCA
Celera SNP ID:            hCV16243502
SNP Position Genomic:     9195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56453):
AGGCCAAGGCCAAGGCCAAGGAGTAGGTCCCCATCATCAAACTGGGCAGCATAGTCAAGGACATGAAGATTAAGTCCCTGAAGCTCTATCTCCTCTCCCT
R
CCCATCAAGGAGGCTGAGATCATCGACTTTTTCCTGGGGGCAACCCTCACGAATGAGTTTAAGATTATGCCAGTAAAAATGGAGACTTGCACTGGCCAGT
Celera SNP ID:            hCV25769502
SNP Position Genomic:     52519
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,32)   total(A,1|G,65)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,24)   total(A,1|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:56454):
GCTCATAAATGTAGGGGTAGTAAGTCCAGTTGTAGACATGCTGAATTGCACGTACTTATGCTCTATCTCCTTGGAACTAGGCTACATGTGTAGAAAACCA
R
GTCTTCAATTCATAGTCCAGAAATCTGCACAGTGAACTCAATAAATATTTGTGCAATTATTACCATATGTGCACTTCACAGTCATGCTGCCTCATCACCC
Celera SNP ID:            hCV8900304
SNP Position Genomic:     40785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56455):
TACTCAAGTCTCAACAAAAGATAATAAGGTATACAAAGAAACAGGGAAACATGGCCCAATCAAAACCACAAGTTAAATCTCCAGAAACTAACCCTAAATA
S
ATTTATATGAATTACCAAAGAATTCAAAATAGCCACTGTAAGGATGCTCAATGAACTAAAAGACAACACAGATAGAAAACTAAAGAAATCAGGAAAACAA
Celera SNP ID:            hCV8900340
SNP Position Genomic:     31870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56456):
CTACAAACTGTCACACTCACCCTAGTTAATCTGGATTCACTTCCTCTTTCTAGTGTCATTCCTAAGAATACCCTCCCTAGCCCCAGCGGTACTACCATGG
Y
AGAACACTCATCTGCAGTTACTGGACATGTGAGCTGCCCGGGACTTCTCCGGAGAAACAAACATGGAGACGCTGATACAAACACAAACATGAACAGGAAA
Celera SNP ID:            hCV8900521
SNP Position Genomic:     11990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56457):
AGGCATGAGCCACTGTGCCCAGCCAATAATTGTCTTATTTTTAAAAATAACACTTCCATGGAACCCTAATACATACAACTGATCAAAGTAGAATAGTTCC
R
GCTGAAGAAGGTGGAGGGGCCCTAGAGTCCCTGCTGCAAGGCCTTCCCTCTCTCTACCAGGACAGGCTCAACCTGAACACACTGGCCTAAATGACTCTGG
Celera SNP ID:            hCV8900522
SNP Position Genomic:     11749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56458):
AAGAATGAGATCTGAGAATGCTCTTATGCTACTGTAGACTCAAAAATTAAATGTTCTGGCCAGGCACGGTGGCTCATGCCTATAATCCCAGCACTTTGGG
R
GGCCGAGGTGGGCGAATCACGAGGTCAGGAGTCTGAGACCAGCCTGGCCAACACAGGGAAACCCCGTCTCTACTAAAAATACAAAATATTAGCCGCGCGT
Celera SNP ID:            hCV8900272
SNP Position Genomic:     49766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56459):
AGCCAGCAGAAAAGTTCATGGCATATACTTTCCACAGCCTCTCCCCAGCACAGCATAGCACCATTGGAAAAAAAAAAAAAATCCCAAATCCCTTCTTTCT
K
GGATGAAAAGATAAAAGTAGAGCACACATTCAATGTTCTCACTTTGATGGGGTGGTGGGGGAGGGGGGAAGCTACCTGAGGGACTGGTTTCTTAACTGAA
Celera SNP ID:            hCV8900347
SNP Position Genomic:     31321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56460):
CGTAACCAGACCTGTTGACAGGCTGGACTGGCCATGCCTCACATGTACAAGGCTGGCCCCGGGGGAGGCAGGTAACTTTCTGAGAATTAGAGGTGATTCT
M
ACTCATGTAGGCATTACCAGCCACAACCATGCACCCCGGGATGTTGGGATCCAGATGCCTGCACGGCCGTCCAACCCAGAAAATGTTGCTGTTATCTCTA
Celera SNP ID:            hCV8900274
SNP Position Genomic:     47070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56461):
GCAGAGGCGGTAGGACACTGACCCTTTTGGGCTATTTTATGTAGCTGGCCAGGTGAATCCCCAAATTTCATGGCCAAGCAAGAGACCTGCCAGGGCTAAA
M
AAAAGTGCCTCAACTGTTCCAGGAAGTGAGAGGTAGACACCTCAGCTGACATGGCATTGGGGTCCAAATGGGAACCAAGTCTGCTTCAAAGGCTAGAAAT
Celera SNP ID:            hCV16068148
SNP Position Genomic:     10612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56462):
GAGAGCACAGGAAGATGATGGAATAGAAAACACCAGATCCTCCTTCCCCTATGGAGATGAATTAACAATGTTAGATGGCCTCTGTGAGAAATCCAGAAAC
Y
AGTTAAGAGGTTTCTGTACCCCAAGTATGCCAAGAAGAACCTCATGAAAGCCAGCAGAAAAGTTCATGGCATATACTTTCCACAGCCTCTCCCCAGCACA
Celera SNP ID:            hCV8900348
SNP Position Genomic:     31172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56463):
AGATCTTGTTATTTTTCCCATTTGATAAATGAGGAACCTGAGGGACAGAGAGGTAAAGTAATTTGCTCATGATCACATAGTTCAAAAGTGGCAGAGCTGA
Y
CACACTCAAATTCAGGCTGCCTGACTCCAGAATCTGTACTCTTAATCACTACAGAATAAGTTAAAACCAAAAGGGCACAAATATATTTATTCCTATGTGA
Celera SNP ID:            hCV8900349
SNP Position Genomic:     28143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56464):
TTTGTTGTTGTTTTGGTCTTTTTCCCATTGGGTTTCATCAACTCTATCCGACCTGATCAAATCCACAGGAAAGTTCCAAATTATGGGGAACGAGGCCTCT
R
AAGTGGCTAAATCCCCCTCACCCCCAACACACACAAAAGTGTTGTCGGTGTGGGGGGGGGGGGGAAATGGCCAGCAAAAGGGGAAAAAAAAAAGGAAAGA
Celera SNP ID:            hCV1292840
SNP Position Genomic:     21386
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56465):
AAGTAACTTGTCCAGGGTCATACAGCTATAAGTAGCAGAGTAATGACATGGATTCCGGCTGAGCTAACTCCAACATGCTCTCCTGGTGTCCTTACACCAA
Y
GATCCAACCAGCTCAGGCTGCCTCCAGAAGAGGACTTATTTGATAGACTGTCAGGCAGCCTGTGGCCCTGCAGAGGCGGTAGGACACTGACCCTTTTGGG
Celera SNP ID:            hCV8900527
SNP Position Genomic:     10442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56466):
TCATCAGAAATGCAAAAGAATGCAACAGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATCGGGACCATT
Y
TGGCTAAAACGGTGAAACCCCGTCTTTACTAAAAATACAAGAAATGAGCCGGGCATGATGGCACGCGCTTGTAGTCCCAGCTGCTCGGGAGGCTGAGGCA
Celera SNP ID:            hCV1292841
SNP Position Genomic:     26899
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56467):
ATGAAGAGACTACCACTCCTTGGAAGTATCCTGTCTGCTCAATGGGTGGCTCATTTAATTTTGTGGGGACCTCTAGACTCTGTGCCTGCTCTCCACCAGT
K
ACTCAAGACTCTCCTTTTGCAGGTATAACCAGCACCTTTCAGGGCAATTCATAAGGTCCTGGTAGAGGACAGTTGGTAGAAATGGTGAAAAATCAAATCC
Celera SNP ID:            hCV8900528
SNP Position Genomic:     10164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56468):
ACCCAGGAGGCGGAAGTTGCAGTGAGCAGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAA
R
AAAGAATGCAACAGTTTGTCTCTTATCTACCTATGACCTGGAAGCTCCATCCTTGCTTGAGTTGTCCTGCCTTTCTGGACAAAATCAATGTACATCTTAC
Celera SNP ID:            hCV1292842
SNP Position Genomic:     27114
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56469):
TGAGCCGCTGCCCACGTGCTGCTCCCTCACTGCTCCCTCTCCGAGGGGCTGAGATTCCCACAGGGCAGCGCACTGCTCTCTCTTCTTGGCTGCCACCTGC
R
TGGCATCCAACATTGTGTTTGCCTCTCCTGCAAATCTAAGAGTTCCTTGAGGACAGGAATGTGTGAAGTTAATTTCTGTATTCCCAATGCCTGACATAGC
Celera SNP ID:            hCV8900529
SNP Position Genomic:     9290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56470):
TTTACATTAGCCATACAAGAAATGCCAAAGGAGTTACACTTAGGCAAACAATTATTTTTGCAAGTGATTAAAAAAAGGAATGCGTAATAAAGATGGGAAA
Y
GACACAAACTGAAGGTCTACATCATGTAATAACAGAGTATCTAAAATTTCTGAGTTATGACATTTTGAGCAGTCCAGTCAGTACCGTGACTCTCAAGCTT
Celera SNP ID:            hCV1292843
SNP Position Genomic:     30320
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56471):
GGGAGGCTGAGGCAGAAGAATCGCTTGAACCCAGAAGCAGAGGCTGCAGTGAGGGAAGACTGCGCCATTGCACTCCAGCCTGGGCAACAAGGATGGAACT
Y
TAAGTCAAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAACAATCTGAAAAGACTTATAATTAATAAAGAAATTGAAGCAGTAATCAAAAACCTCTCA
Celera SNP ID:            hCV1292844
SNP Position Genomic:     33742
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56472):
ACAGTAGAAATTTCAGAGAAGCAAATACTAGCTGAGTATAAGAAGAAGGAAGAAATAACTAGGGCTAGTTTAGTAATTCAATAAATTGCCTCATAATCCA
Y
GGACTGACTTACTACTACAAGTATAAAAGCAGGAGCTGGGTGAACGCCTGCCACAGATAACAGCTATGATTACATTCATTCATTTAACAGATATTTACTG
Celera SNP ID:            hCV1292845
SNP Position Genomic:     37573
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56473):
CTTATGCCTGTAATACCAGCAATTTCAGAGGTCCAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGCAACTCAGTCT
Y
TACTAAAAATACAAAAAAATTAGCCGGGTGTGGTGACGCACACCTGTGATTCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAAACTGGGAGGT
Celera SNP ID:            hCV1292846
SNP Position Genomic:     42656
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56474):
GACGGTACCTACTACCATCCAAGGAGTCATCATCTTTGTCAAGCTCTCCACTGTCCCGGTGCAGAGAGGCATCTCAGGAGACAACACTGGCAAGCCCCAC
R
GCATTCCTTGCAAGGTGACAGACCACTGCAACTCTGTGCTGGTACACCTCATCTCTACACACAGAGACAATGGTTTCATCTTGATCTCTGTGCCCAAAAA
Celera SNP ID:            hCV25749265
SNP Position Genomic:     52793
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,16)   total(A,1|G,47)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,14)   total(A,1|G,43)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56475):
CTCAATGAAAATATGAAAATACATAGAGTCTGTTAGAAAAAGAGAAACAAGAATTCAGGCAGTAGTCTAGAAAATAAAGAAAAACTGAGACTTAGACTTC
W
TTATTTGAATAAGTCGATTCAATAGTACTTTTTTGCTAAAATAAGTGGACATGTGCCTCGAGTGTTTAGCTCACTTGTTAGAATGCATCTCCAGCGTTAT
Celera SNP ID:            hCV1292848
SNP Position Genomic:     48487
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,3)      total(A,3|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56476):
TAGGAGGAAAAGTGAACAGAACAGGTTTGTCTTCACAAGAACTGCAGCTCAGCTTAGAGATATTTCAATCCCTGAAACTGTACTGAAGGCAACGCCAATT
S
TAAGTGCTCCCATGTGCCTTATAACAGCAGATATTAATTATCTCTGGAAGAAAAAAGCATCATCTTAGGCCTCAAATTATTCCTACAAATAATTTTGCAA
Celera SNP ID:            hCV1292849
SNP Position Genomic:     50784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)      total(G,6|C,4) ;TSC_42_A(G,33|C,50)   TSC_42_C(G,9|C,74)   TSC_42_AA(G,23|C,60)   total(G,65|C,184)   (G,-|C,-)   no_pop(G,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 314
Celera Gene:                 hCG1787965 - 79000076174819
Gene Symbol:                 SCMH1
Protein Name:                sex comb on midleg homolog 1 (Drosophila);Scml3
Celera Genomic Axis:         GA_x5YUV32W802(41886738..42115138)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12474):
GTGATCTCTTGCAGTTCTCAAGTATTTTTCATCGTGTTTAGTACAATACCATAAATCTTGAATAACGCCATGGGACCTATACAAAGTGCCACTAGTGATG
CTGGAAGTGCTCCCAAGAAGCAGAGAAAAGTCGGGACATTACAAGAAAAAGTTGAATTGCTTGATATGTGCTGCAGATTGATGTCTGCAGCTGCAGTTGC
ATGCTATTTCAGACAGATGATTCACCCTGTAAACAGACAATGTAAACTTATGGTATCGATAAATACAGTATAGTACTGTAAATGTATTTTCTCTGTTATA
TGATTTTCTTAATAACATTTTCTTTTCTATAGCTTATTTTATTGTAAGAGTACAGTATATAATACATATGCAAAATATGTGTTAATAGACTATGTTATCA
GTAAGGCTTCTGGTCAATAGTAGGCTATTAGTAGTTAAGTTTGTGGGGAGTCAAAAGTTACATGCAATTTTCGACTGTACAGGGGGTTGGCGCCTCTAAC
CCCCACATTGTTCAAGGGCTAACTGTATACCAAAGGCTGGGCTTATACTAATAGTTCAAGTTACAGAGATAAGAAAAAGGCATGAACAATCAAAATCACA
GGGGCTTGGGAAACAAAAAAAACCTGATTCAAAGCCAGACTCAGTTATTTACTAGCTATATGATTGTGAGCAAGTTATTTAACTTCTCTGACCTTAGTCT
CATCAGTTAAAGAGGGGTAACAATACCTACACCATAAGGGTTGCTGTGTGGATTACATAAGATGATATACACACCTGGCACATTGCAGGTGCTCAATAAA
TGTTAATGCTGTGCCCCTTATCCATTTGTAGAGAATCAATAGTAACACAGGCAATAATTATCATACCCTATGATCAATGCTATAATGCTAAGGAAGTGTA
GATAATAGAGGAACTTGTTTTATTGAGCAGAGAAGAAGGAAAGGGAAAACTTCAAACAGAGAATGAGCAGGAGCTGGCTAGGAGGATCTTCCAAGGGAAT
AGTGTGGACCAACACGTGGCTGTCCTGGCTCCAAGTCTTCCTTTTTGTCTACTTCCAGATGAGGTGGCATCTAGGGCCTGAAGTGAGCCATCTCTTCCTT
CTGTGACAGATGACTGATGTTTTCATTTCTTTGCCATACTATATAAAGTGCCTCCTCTCTCAACCAGAAATATGAACTAATCCAATTTGCAGATGAGTTA
ATGCTGGGACCTGAAATGCACTGAATTCTGAAGTTCTGATTCCAAGAAGAATGTCAAATGAGTCTCACTCTCAATGCATGTGACATATTTAAAAAAATAT
ATTTTAGGTGGATTTGATGCTGTTAAATTGAGACATATATATAAACTGTGAATGATATAGTTGCTGTGGGAACCCTTGAAATCTCCTAACATTTTTACAT
CCACAATTTCATGATCTCAATAACTTAGACTCCCAGAATCCCAAAATGTTAGTAATAGAAGACCCCTTAGAGGCCCAACCTCCACATCTTCCTGATGGAG
GAATGTAGGCCAAGACATGAAGAATGACCTGTCCAAAGCTGTACAGCAAAATCCTTAATTTCTGACACCGGAATGCAGGCCTCTAAGTTGGAAACCCAGC
TCTCTTTCTCCTGTAGTACAGTTACTCCTGAGGGACTGTTTAGGGTAAGGTCTTTTTAATTGTACACTTCAGTAACAGATATTCATTTTGAGGAAGATTC
ATTTCTTTTGGGTCCAATTGGTGCTTTCAACAAAGTCAAACCTCAGATTCTTGACCATCTCCATAATATATATATATAAGATATTTGATATATAATATAT
TAAGTATATATCATACTATATATCAAATATATATCAAACCTCAGGTTCTTGACCATCTCCATAATACTATGACCTAAAGGTGACAGAATCATAGACTCTT
AGAGTAAGAATGAGATTTTAGAGGCTTATCTGGTTCAATTCATCTTCTACCAAAGAAATACCCTTCTTGAATGTGTCCAGTGATGTATTCATTTCCCCAA
GAGTATTATCCCATTGTTTGCCCATGAATGCTAGCATCATCAAGTAGAACTCTGTTTCTCTGTCTACTCTGTCCATTAAGAGAAAGGGAAGGAAGGGAAT
GGTGTTCACTTACTGAGCACCGTTTGTGTACCAGACACATGTGAGAGTCTTGGATATGTTACCTCACTTGATTCCTGAAACATCCCTATAAAGTAGATGT
TCAATTTACAAACTAAAAAAAAAAAATAGTTCAGAAAGTTTAAATAATGTGCCCAAATTTACCCATGGTCAGTGGAAGAGTCAAGTCCATGGACTCTCTT
TGGTATGCTGAGAGGCCTTGTCTTCCCTGCCTCCTATCTCTCTTCAGTGTAGCTCTTTCAGCAAGCTGTGCTAGAGATTTCCTTTTAAAATAAAAATCTG
CTTAAAGGCCTTTGATGGCTCTTCAATACCCACTCAAGGTAAATAGTTCAATACCCACTCAAGGTAAATAGTCCAAGCTCTTTAGCTAATAATCAAGGCC
CTTGACAATCTGGCTCCAGTCAAATATTGCAGGCTCACTTCCCTCTTCTTTTCCGATGCATCCTAGGTTTTCCATGAGGATGCCTTTTTGTCTTTGTTCA
TGCTGTACTTGCTGCCTATGTGTCCTTCCCCTCCTTCTCTGCCTAAAAAAGTCCTAGTTTTCCTTTAAGGTCCACTCAAATGTCACCTTCTTGGTGAAGT
CTTCCCCAGTATCTCTGGGCTCAATGAACCCTCCTCTGCCTTCTCCATATTACAGAGGACATTGCAAAGTCCTCTGTAATAGCCTTTTTTGCATTGTCAT
GGTCCCTTGTAGACTGAGATCCTTAAAGACACGGATTGTACTTTACATTTATTTGCATTCCCAGTTCCTGGCACATAATAGGAGTTCCATAGATATGTGT
GGAATAGAATTGAGGCCTAATCCTTTTCCACATGTTAGCCCTTCAATTATCTGAAGACCCTTCTAAGGCCTTGCCCTACCCCACTCTACTCCCATTAGTA
GTTATTTCTTCTGCAGGCTAAATGTTCCCAACTCCTTTCAGCTGCTCCTTATAAAGTCTGATTTCCAGATTCCTTATCTGGTCATTTGCTTCTGGGTCAT
AATTTGTCAACATCACTCTTTTAAAATATAATGCCTAGGACAAACTCAATAGCCCAAAGTCTGGCCATAGCAGAACAAAGTGAGGGGATTCCAAACTGTG
ATTCCAATCTATGACGTTTTCTTGGCCATTACTGTGTGCCAGGAGGTCTTTCTACTTTATTTTCTTTCAGTCTTCAATAATCTGGTGAGGTAGGTGTCAT
TTCTTCCATTTTATAGATGAGGATATAAGCCATCTGGTAAGGCACTTTGAGAATAAGTTAAAGTCACAATTCCAGAGCATAAAGCAAACTTGTGATCAAC
TGATACCTTTAGATCATTCGTACATCAACTGCTGTAAAGTTATTATTTTTTCCAGTTACCGGCTAGTGACAGGCTTAAGGGAAACTGAGGACAAAGAATC
AGTACCTTTAGAAGGGTGTGAAACCAAAGCATACAGAAAAGGCAGGTTGGATTAATGACCACCTTCCTAACAATAACAGCCTTTATCTAGGAGCTCAGAG
ACTGGAATGTCTTAACCACACAGCTTCCTGGAACTATTTTTACTTTGTATTTTACAAGAGGAGAAAGAGCAGAAGCGTCTTAGATAAACAACAAGGTTTG
GGCTCAGCACATGTCTGAATCTGAACAGCCAGTGGGGCCCTGTGGTCACAAGGCAGATAATAAGGAGGTTGCCTCTTTGGTCTGTGGCTTGGGTCTGAAA
GGGTCCTACTGTGCACATTCATTCTATAAATATAGACTGATCACCAAATGTGTTCCAGGTATGGTGCGAGGTGCTGTGGATGTAATGAAGAACAAAGACA
GAGTTCCAATCTGTGGAGCTTACAGTCAGGTGAAAGATAAGCATAAATGAAAATGATATGCACAGATCCTAGTAAATGCAATGATGAATGAAGGTGCCAG
GCTACAAGGAGAGCGAAAGGAGGGGCATTTAATTTATCCTGGGGTGAGGATGGAAGAGAAGGTATCAGAGGAAGTTCCTGGGGAAGGTAGTCTTAATTGA
TGTGTAGGACTTAATGTGGTGAAGGCTCTTATGTATTTCAATGCATCCCCCCCACACCCCGCAACACACATACTTTCTTTAAGCATCAGAAACCATCTTT
CCCATTTCCTTTACCAACTCTTCTACTGGGTCATCAACAACATGAAAAAAAACAAAAACAAAAAACAAAACAAAAACTACTGTTTTTGTCAGTTCTGTCA
GTGCCAGAATAATCACTCCTTTTTGCTGTAATGTAATGTAGAAAAGAGCAGACCTGGGGTTTCCTAGCATACCTCCTTTAAAAAAAAATTACATCCTGAT
TAACTTGCCTATTTCTTCCCTCTCCATTGCCTCTGTATTTCTTGGCTTCCCCACACCTGTAACCCAAAGGTCACAGGGTCTGTCATAGCCCAATTCCACT
CTCCAGTTGCCTCTTGGTTTTTAACCCCCCTTATTAAAATCCAAACATTAAGCAACTAATAACACCCATGTGTAATTAGTTGTTTAATTGAACAGCACAG
AACTGTTAATACATTATGCTGTGCCCTGGAATATTAAGTGGAATAAAAGCAAAGTACTATATTCAAGGAAACTACAGTCTGACTTAAAATACTACAATGG
GAAACATTTCACACAGAGATTTTTACCAAGTGACAGTGGAGAGGAGGGAGAAATGAGTTCTTCCTGAGAAGTGTCAGAGAAGTTCTGAGCTGGATCTAAA
AAAGAAGCAGGAGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGAGGGCGGATCACAAGGTCAGGAGATTGAGACCATCC
TGGCTAACATGGTGAAACGCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCAGGCGCCTGTAGTCCCACCTACTCAGGAGGCTGAGGCA
GGAGAATGGCGTGAACCCGGAAGATGGAGCTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAAACTGGATGACAGAGCGAGACTCCATCTCAAAAAAA
AAAAAAAGCAGGAATCCAAAGGACAATATGCATAATATTTATTTATTTTTAGCAGATGTGGGAATATCTCCCTCATGCCAAGCCTTATCTAAGGCTACAG
GTGTGAATAAGGTTCCTGATCTCAAGACGCTTTCAGCCTAGAAAAGAGGTTTAGAAATATACTCCAATAATGGCAACATATATGGTGCCATGGACAGAGT
TACAGAACAAACTGCTAGGGGAATTCATAGAGAAAATGTTCAAGAGAACATTTCTCACTGGACGTAGTAGGCAGAATTCTAAGGTAGCTTCCTAGATTAA
CCTTCATGTACACCTTCTGCATAGTCCCTGGGACAGTGGCTATGATGAATTTTACTCCTGTGATTAGGGTATGTGATGTGGCACAGGTGATCTTAAAGTA
GGAAGATTATCTAGGTGGGTCTGACCTAATTACAAGTCTTTTAAAAGCTCATAGTGTTCTCTGACTGGTTGAAGAAGGGAAATCAGAGATATTTAAAGAA
TGAGAGGGAGTGACATGAGAAAGGTTCTCTGTTGATGAGATAAAAGGGATCACGTGGCAAGGACCTGAGAGTGGTCCCCAACAGAGAGCTGGCAAAACAG
TGTAGCTGTGGGATCCTAGTCCTACAGGGACATGAATTCTGCCAACAGCCCGAAGGAGCCTGGGGCAGACCTTTCCCTCGTGGAGGTGCTAGACATCTTG
ATTTCAGCCTATGACACCACGAGCAGAAAACCCAGCCACACCATGCCAGTTTTCCGACCTACACAACTGTGAGTAAATCAATGGGTGTTGCTTTAAGCTG
CAAAATTTGTGCCAATTTGTTATGCAGGAATAGAAAACTAATATGAGCACTTACAACACTGTGCTCTCATTAGCTATTGACATAATAGTTTCCCCAAATA
TGGGCTCCTTAGATTTAGGCTCTAATTATCCTTGTAACCTCAGGGCTCTTCATGAGACAGGTACTCCCCAAAACGCCATGGAATGAAAGTTTAAATTAGA
CAACAGGGATGCAGATCAGAACCTGGATAGATTCTGACCATTTCCATTTCTCAAGAATGGGCAGACGGATACTGACACCAATACCAGGATACAAGGAGGC
GGCCCCCCTTCAGTCCAAAGCTCTAAGACCTATTCTAGAGGCAAGGCAAGTAATCCAGGCTCAGCTGCCCCATCTGCTGCTCCAGCCTTGCTTAAGTGGA
CTTCCCTCCAAGGAACATTGTTCACAGAAGGATCATTAACAAGACATTCCTGTGTGACCTGAGGATTGCCATGTTCTAAATGATGCCCACACCCACTCCA
CATCCAGCTCAGCAGAGGTCTCGGGATTTATATTGCACTGTATTTTCAAGCAGCCAAAACAGAAGTCAAGACGTCAGTTTCCTAAGCTGCTAAAATGATG
TGGTGGTTAAACCAATTGTGTGCCAGGCGCAGTGGCTCACGCCTGTAGTCCCAGCGCTTTGGGAGGCTGACGCAGGAGGATCACTTGAGCCCAGTAATTT
GAGGTTACAGTGAGCTATGATGGCGCCACTGCACTCCGACCTTGGGGACAAAGTGAGGCTCCATCTCTAACAAAACAAAAATAGAATTGTGTAGCCAACA
TGGCTGGTGGGCCTGGAAGAATGAGCCTGTGCATTGTACCTGGCCCATCACGGGCTCAGTGCGTACTCGTTGAAGGGATCACCACAGGGAGGACCGAGGA
CGCTGACACTCCCTAGGGCATCCAAGCACCAACTCATCTCTCACCTACCCTCCGGGTGCAGTGCTATCGTGTTGGAGAAGAGGCCCCTGGGTGGCTGTGC
GAAGTAACTCGCCCAAGGTCACCACACGGCCAGCCACTAGCCCGGCGGGAGTCGCCCGAGGCGAGGCCCACGTCAGCCGGTCTTGGGGGCCCGACCGGTG
GCTCCTCCACCAGCCCCACGCGGCCTCAGAGCGGGCTACTGGCGTCCTCGAGATTCGAACCCGAGTCCTCGGCCTCGTCCCCGCCCTCGCGCCCTCTCAG
GCCTCAGTTTTCCCATCTACAGGACGCAGACCGGAGAGCTGGTCCGGGCGCCAACTGGGCCCCCGGACCCGGGTCGGCAGGCCGGCGGGGTACGGCCGGG
CCGGGTTCCCGCGCGCCCTCCCTCCTCCAGCGCGCCGCCCCGCCCCCCGCGCGAGCCCAACGGCCGAGGCGCGCGCCACCTCGCAGCGGGAGGCGCGGGG
GAGGGGCCGGGGGAGCCCCCGCCCCGCCCCCCGCCTCAGCCGCCACCGCCAGCTCGGTGGAGCCCCCCGCCGCCCGCCCGCCGCTCTCCCGAGCCGCCCG
CCCGCCCCCTTCCCGCGTCTCCGCTCCCTCCCTGCGCAGCGGAAACATGGCGGCGGGAAGAGAGTGAGCCGCCCCGCGCCCCCGCCGCGCCCTCAGGTAA
GCGCCTCGCGGCCGCCTCCGCCCGCCTAAGAGCTCGTGCCCTGAGGGGCCGCCTGGGGCCAGAAGGCGGTGGCGGGACCTGCGCAGCCGCTGCGCCTGCT
CCCCCGGGCCGGGGTCAGCCTGTCCGTCTGTCTGGCCGGCCTGCCAGTCTGTGGTCCGCGCGGGGCTGGGCCCTTTCTCGGCCGTGTCAGCCCGGCCCCG
AGCCCGGAGGCCGGCTCTGCATCTGCGGTCGGGCGGGCGGGGCCCACGGTCCGGTCGCGGCCCTGACGCCGCCAGGACTGCCCGGGGGCCCCGGCACGGG
AAACCCAAGGCCGGGGGCCCTTTGGAGGGTCGGCGTGGGGGCGGTCCGTATAGGTCGCCGTGTCTGGCCGGCGGGGCCGGGTGGGCCGGGGCAGGCTGGC
TGGGGGCCGAGGGCCGGGCGGCGGCGCGACCCCGTCTGCGCGGGTCAGTCGGTCCCCTCCGGCGCCAGAGGTGGGAATGCCTGTGATTCTGGCTGGCCGG
GTCCCGGTTCGGGGAAGGCAGAGACAGAGGTCGACGGGGCGGCGTGGCCCCCACCGAGAGCTGGGGCGCCTAGGGCCCGGAGCTGTCAGCAGCGTCCTGG
GGGCTGGGCCCCGGCYGGCCGACTCACGTGTGCCGCCTGCCCCAGTGCCCCGCCGGAAACGGGCAGGGAGAGCGGCCCCGCACCGAAGTGAGCCACAGCG
GCCCTGGGGGCCAGACACGTGGGCACAGTTGTGTGCCAGCCCGAGAGCATCGAAAGTGGTATCCAGCCGATGGGTGAACCCCGGAATATCTCCTGACTGG
AAGAGAATTTAAAAGTCATCTAGGGGCGCTTTCTCCCATCCCATGCCAAAGTGACTTTGAAAATCCCCAAATCCCCCCGATAATTTGACGAGCCCGTTTG
GAACCTCTTCCAGTGATCCGAAGCGAATCTCTTTAAAGGAAACCCATTCTGTTCCTGGACACATTTGGTTATAAGTTGAAAGAAACAGCTGGCTCCCATC
CTTCCTAGTTCTTTTCCCTTATGGGAAGCTGTTAAGATATCTGAAGATAGTAATCATGTCCCCTGAGTCTTCACTTCCACTTTCTTCAGTTGTCTCTCAT
CTGCTGTGGTTCTCTAAACTGTCCTCTGGATGAGCTTTAGTTTCCCCCATCCCCTTAAAGGAGAGTTTCTTAAAAGTGATCCTGGAGACAAAACGTAGTA
AGTTTCTCTAAGAAACAGCCCCAAGGATTGACCTGCTTAAATCAAAAGTACTCTAGATTCCCTTCCTCATTTCTGTACTGTATTTTGAACTTAAAAAAAA
AAAAAAAAGAAAACATTTAGTAGTGTTTGTTCAAACAAACTAAAAGACATCTTATTTTGTGGAAATTTGGGGGTTTCCTTCCTTTTAAAAAATGTCTATA
AACACTTTATCAAATGTTGCTAACTAATGTACATCAAAATGTTTTGTTGAAGTGTAATGTGCCAGGCAAATAGAATAGCTCTTTTTTTTTTTTTAAACTC
TGAAAAGGATTGAGACCTAGTTTAGTGCCAAACTGCAATTTTAATATTTGGTTGCAGAGGGAAATGCTTTATTACATTGAACTCTTTGCTCTAGTTCTAA
CTGCCAGCAGGAGGCCCAAAATTACTATGAAAGAGAACACTTTTTGTTGCTTACTTACCAACCTCCTAAACTCTTGCCTAAGCAACTCTGCAGGTTAGTA
ATGTTTTAAGCCCAGTAGAGATGAGATGGCCTTGTAGATAAAAGGCCAGGCTCTTACATCTGGGATCCTGTTTAAGTACTAAGCAAAGTTTCAGTGTTTT
TACAACTTAGACAAGCACATACCAGCAGTCAGAATTGGTTCTTTATTTTTGTTCTTAAGCCTTCATTTTTTAAATTGGTCAATAGTTTTGAACTTTGTAG
CACATATGTCAAGTTTTGATTTTAGGTATGTTTGTGCAAATGTTGTTCCCTTTTATGTAAGTTGGGTAAACATTTGCATAGCACCATTCTCAATGGAACT
ATACAGATCCAGAGGAAAGGCCCTGATTCCTTCCTTGCAAAGGACTTGGAGTGAAAGGTAGAGGATACTTAACTATGAGAAAGAATTGATGTGAATATCC
CACTGAAAATTTAAACTTAGGGCTGGATGCAGGGGCTCATGCCTATAATCCCAGCACTTTGGGAAGCTGAGGCAGGCAACTCTTTGAGGCCAGGAGTTCT
GGACCAGCCTGGGCTACGTAGCAAGACCCTGTCTCTACAAAAAATAAAAATAAAAATATAGCTGGGCATGATGGTGTATGTCTGTAGTCTCAGCTACTCA
GGAGGCTGAGGCAGGAGGACCGTTTGAGTCAAGGAGTTTGAGGCTTCAGTGAGCCATGATCACGCCATAGCAAGTGACAGAATGAGACCCCATCTTTTAA
AAAAGAAAAGAAAATTGGTATGTTCTAACCTTCACTGTACACTTATGTACCTACTATGGGTCAAGCACTATGCTATGTACTGTGCTCAGCTGGGTTTACA
AAGATTTCCAATCTTGTGGAGCTGGTAAATTAGATGCTTAAATAGATTATCTCAGAATAAAAGATGAGAACTACGCATAGCTGAGATATACAAGGTGAGA
GTAAAGGTTGCCCAAAGGTGAGGGCACTTAGACTAGCCTAGGAGTTAAAGGAAGGCTTTGGGAAGAGATGATATCTGACCCAAATCTTAAATGGTAGGTA
GGAGTAAGTGAGGCAAACATGAGCAGAAAGCGTCCTTCAAACAGAGAAAACAGCTTGAGCAAAGGCATCAATGTGAGAAAAGGAATGGCTTGCGTAGAGA
ACCACAAACAGTTTGGGACTGCTAGGAATATAACAATAAGTGATGAGTTGTAAGGCTGGAAATACAGTCAGAGGCCATGTCGTGGTGGACCTTGTATGCA
TAAGTATCCTAAAATCAATTCAGTAGGTGTTTTTTTTTTATTTTTATTTAATCACTGGAAGGTGTCTATCAGACATGGTTGAAGTAACATTTTTAAAATG
TGGTCATAGGGATGAAGAGAAAGAAATGAATCTGAGAAAATGTATAAGGCTTTAATGATTGATTGTATGTGCAGGTGAGAGGGTGAGGAGTCCCGTGTGA
TGCTCAGGTTTTTGCCTTGGATGACTAAGGAGGATATGTTGGTAATTTTAACTGAGACAGGAAACGATGATGAGTTCAATTCTGGACTTGAAGATTTTCA
ATTTCTTGAGTTAGATCAGTGAGCAAATATAGTGGAAGTAAGCTGAGAAAAAAAAGAGGTGTGGTCAGAAAGTGGAATATCGGAGTTAAGTTGTCTGATA
TTGGGACTGTTCTAGGTGACAGCGAGGTCTCTGTGTATGGGTAGCTAAAATACAGCAGAGGCGAAGGTCAGTAAAGCTGAGTATGACAAGGAATTTGGAG
GCTAGTGTATTGAATGAGTCATCTGTGTAGAGAGTGAAGTGATTGAGGATGATGGGATGTGGGGAAGAGAGAAAGATGTGACCCAGGTGCAGTAAAGATA
GGGGATTAATCAGGAGGGTGGTAGATGACAGATGAGGAGGTGGGGTAGAGAGTTATATAGCCAGATGGTGCAAACCTTGAAGGAGGAGGGGTTTTTAAAC
ACAAGAGTGAGAAGGTAATAGTTTTTTTACTTTTCCTTCCTGGAAGCAGAGTTCTGATCTCTATCTTTATTCAGGACTCATATTAATCATTCTGTTTGCT
CTGAAGAGTCTGTTCTTAGTCTTGGAAAGTGGGAGGGCACATACCTCATATTGAATCCTTTCTGCTAATACTTAATGACAAAGGGCAGTGGAGGTTTTTT
CCTCTGATGATCATTAGTGGGTGGGTAGGGAACAATCAGATAAAGCAGTGAGGATATACCCATGGTTTTCTAGACAGAGTATAGTGGAAAGAGCCTAGGC
TTTGGAGTTAGAAACACCAAAATTCAGATCTAGACTCTGTCACTTACTAGCTTTATGACTGTAAACAAATTATTTAGCCTCTGTGAGCTTCAGTGTCCTT
ATCTGTAAAAAATTTATACTTCATAGGATATCACAAATATTACATGAAAAAATATATACACACATACCACATAAAATCACAAGCGATTGGTGATTCATAG
ATACAAAGTAAATATTAGTTCCTTTCTTCCTTCATTTAAGGGGCTTATGCTCTGCTAGCTGAAATGAACCTTTTACATGCTTACCTAAGTTATAAAATAG
AACATAGTGAGTACTCTAAGGGAGGTAGTAGCAAAGTGGTAAAGCAGTTCAGAGGAGGGAGCTGTCATTTCTAAGCATTTGGAAACAAGGTTGGGCTTCA
TTTCAAAATGAATTTTACTTGGGCCATGAACAAATTTCAATAGAGTAAATAATTTAGGTAGATATATAAAATAGGGAAAGCATAGGGTATGGTATCTTTG
TTAAAAATAGCTACCACAGGTTTGAGTATTGTATTTGTAAAAGCTAATAGTAGGAAATATGGCTAGAGAGATGGGCTGGGGCATTGGTATTAAAGATCCG
AAACTGTGATGCAGTTTGGAGTTGATTCTGGATACATTAGGGAGCCACACATTGGATGTCTTCTTTCTCTACCTCAGTTTACTATCTGTAAAATGTATAG
GCATCAATTCAGAAACTTCAAATTTTTGTTTGCAATAAACGAAATAAGAAATTCCACACTTGAAAAGAAGTTCCTGTGTAGGCCAATTTTAGGTTAAAAA
AATCTAAGATTTGTTTTGTAGTTGTAGGTTAATCTTTGCAGTAATCTTATTTGATTGATAGGCTTCGTGAGGTTAAGAAACATACAAGATCTCACTGGTA
GAAAGTGACCGAAGAAGCTCTAATTTCAAATTCTGTCTTTTTTATTCCGCCATACTGATTAGGATTTTAAAGGAAACCTGAGTTCCTCAATGTCACTAAA
AATTAACCGCACAACCCCTGGCAGATCACTTTTACTTTGTCATTTATAAAATGAAGGAAGATGTAGCTGTAAGGTTTAACTAAGATAAAGTGCAAAGTAC
TTTAGATAATGTTGGTCACATATCAGGCACTCAAATGTTGGGTCTTTCTCTCCCCATCTGTGAATGAGGGAATTTAACCACAGCATTCCAAGACCTTAGT
GTTAACTCTCTAGCCACCGTAAACTGCTAGAACTAATTACATTTGGCCTTCTGTATCCATGGGTTCTGCATCTGTGTATTCAACCAATTATGGATTGAAA
ATATGGAAAAAGGATGGTTGCATCTGTACTGAACATGTACAGACTTTTTTCTTGTCATTATTCCCTAAACAATAGTATAACAACTATTTACATAGCACTT
GTATTGTGTTAGGTTTTATAATCTAGAGATGTTAAAATACATAGGAGGATGTGTGTAGATCATATGCAAATATGATTTTATGTAGGGATCCGATCATCCC
TGGAATTTGGTATCCAAAGGGCAGAGGGGGGCCCTGAAACCTTTTGATAACCTTATCGCCAGATAAACCCAGCAAGACTTATCACCTGTTATCTTTGTCC
CAGAATCAAACGGTCTGTCTTCCATACTGTTATTCTTATTTTGACCTGGCTTCCTTTTACTCTCTTCCAGCCCTGCTTTTTTGCTCCTTCCACTTGCTCT
CTCAAACTCCTGTTTCCTACATTGTTAACCATTTTATTGGATGTCTTTTTGTGTGTCCTGGCCTTAAGTGGAAGCCAGGCTATCTCCTGAGTCATGGAGA
ACATACTACTTCCTCTGTAGCTCTTTTAAATGGATGCAGCACATTCTCCTGCACCCCTCCCATCCCAAAGAAGAGAGGTGAARATAACTGTATTTTTTTA
TTCTCCACTATATCTGGACCATTACTTCTTCATCTTCTTAAAACCCCTGTGCTCTTTGGCTATACACACCCTTGGTTTCTGATATAATATATTCTTATAC
AATATCTATTAAGATGAAAATACACATAAACTACAATCTAGCAATTCCACTCCTAGGTATATACCCTTTGGAAACTCTCYAATGTATGCATAAAGGGATG
TTCAAAAATATTCATGCAACACTGCTACAGCAAAAAATTTGAACTAGTCTAAATGCCTGTCAGTAAAAGAATGAAAATATTGTGGTATATTTACTTAATA
GAATTCCATACAATAGTGAAATGAGTGATCTAGATCTATATAGTAACATGAGCAAATCTCACAAATAACAGGTTGAATGAAAAAGGTGAATTGCAGAACA
CATTTATATAAAGCTTGACATGCACGTATTATTTAGGGAGGCATACTTATGTAATAAAGAAATACATGATAATTATAAATACCAAATTAAGGATAGTAGG
TATCTCCAAAGGGTAAGCTGGGGAGAAAAGACCAAGAATAATGCAAAGAAGGGCACACACAGAGCTTAAATTGAATAAGTAAATATTTTTCAACTGAGTT
GTGGATATATAGGTATCTATTAATTATTCTTTATGCCTTTTATATATCTGAACTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTAGACGGAGTCTCATT
CTGACTCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAACCTGCACTTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTTCTGAGTAGCTG
GGATTACAGACATGCACCACCACGCCTGGCTAAATTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTTTCAAACTCCTGACTAT
GTGATCTGCCTCGGCCTCCCAAATATATGTATATTTTTAAAGAATAAATAGCATTCCACTCTTGTTATGAGCATAATACAGGGAGGGAGGGGACAGCAGA
AGTATAAAGAAATACTAATATTAGGGTGAATCATAAAATTTTTTACTCACCACTAATATTAGAGTGAACCATAAAATTTCTGTTTTTGTAGGTCTGAAAT
GATTTAATATAGGCAGATTCAAGTGGCCTATTCAATCTAATGTAACTAATGTTCTGGTTGAAATATATTCAAAATGCATTGGGCATGGTAACTCACACCT
GTAAGTCCAGCACTTTGGGAAGCCAAGGTGGTCAAATCTCYTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACTTGGTGAAACCCTGTATCTGCAAAAA
ATACAAAAATAAGCTTGGCGTGGTGGAAACATATTCAAAGTACTATGGGAACACTAGGGCAGGAACAACTGATGGCCAAGGCAGAAGGAGGGAAGTGACA
TTTGGAAAGGTTCCAGAGAGAGAGAATGACTTTTGAACTGAATCTTTTTTATTGTTTAAGTTTTTTTAAGASACAGAGTTTTGCCGGGCGCGGTGGCTCA
TGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGCTGATCATGAGGTCAGGAGATCGAGACCATCCTGGTTAACACGGTGAAACCCCGTCTYTACTA
AAAATACAAAAAATTAGCCAGGTGTGGTGGCGGGTGCCTGTAGTCCCAGCAACTCCGGAGTCTGAGGCAGGAGAATGGCTTGAACGTGGGAGGMGGGAGG
CGGAGCTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGATGACAGAGCCAGACTGTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
AGAGGCAGAGTTGCTCCGTTGCCCAGCCTGGAGTGCAGTATTGTGATCATAGCTAAAGTAATCCTCCTGCCTCAACCTTCCAAGTAGCTAGGATTACAGG
TGTGTGCTCATGCCCAGATAATTTTTAAAACTTGTCAAAATTGGGAATGATTGTATGTGGAATTATTTTAAAGAGCAGAAAGAAAAAAAACAGGGGTCTT
GCTATGTTGTCAGGCTGTTSTCAAACTCCTAGTCTGAAGTAATCCTCCCACCTCGGCCTTCCAAAGTGYTGAAATTACAGGCGTGAGCCATCATGCCTGG
CCCTAAACTGAATCTTAAAGATTGAGAAGGAATTCACCAGATAGAGGGTGAGGAGATGAAAGAAGCCCTTCCAGATAGGAAGAGGTAAAGACCCCTTTCA
GTGGGTGGAATCTGCCAGGTGGAATATGTGGAGGTTAAAGAAACACAGCAGAGGAAGAGACTAAGGAACAATAACAACACATACCTTTATAGTACTTACT
AAACAAGCACAAAGTTAAGTAACCTGTGAAAGATCACAGGGATAGCAAGTGGTAGAGCCTGGATTTGGACTCTGGCAGTCTGGATCTACAGTCTGTGCTC
TTGTGCAGTAAGTTATATTCTGAATCACTATACCATAAGCATAATCAGGAGAAAGTGATGTTTGGATGCCAAGAGAACAACGGTAAGTTTCAAAAAGAAA
GGAATAGTCAGCAGTGTGAAAGGCCCTAAAGACATGAAATGGGAATCCTAAAAAGAGAAGATCATTGGATATTTTTTTAAAAATCATTTTGCTGTAAGTT
ACAGTAAGGAATACCGGGATGATAGAGATATGGATATCTCAGAATACTAGTGATTCAGTCTATCAGTTCTGTGGGCCAGTGATTATAATTTCATTTAATT
ATGAAGAAGATATAATCAGGGACTATTAAAAATAGATCATCTCCATATTTAAGTACTTGATATATTAACATGATCGAAAGACTTTTGATCTTCTGCTATC
TATAGTCATAGTTACTCTTAGGTAACTATGATTGATAGTGACAATTTTGTTTATTCTTCTGTACTTTCTGGTTTTGATAAAGATAAAACTTAGCTTGCTA
GTTTAGTGGATTTTTCAGAATGGGATGATATTCTAAAGAACAGTAGTAGTTCAATCCCAAATATTTCATAGACAAGAAGGTGAAAGAGACCTTATAAGCT
GCATGGTATGTGGAAAGAGTTATATGGCTTATATATATATGGCTTATATATATATGGCTTATATATRGGGATTAAGAGTCCTGATTCAAGTCCCAGTTTG
CCACTCAGTGGTTCTGTGATTTAGGCAAGGAGTTGCCGTGAATGATTTCTAAGATCTCTTCTCACTCTCAAGTTCTGTAACTATTAGGTCATTTATTCAG
TAAAGAAACTGAGGCCTAAAGAAGGGACTTGTTTGTCGAGGGTCAAAAACTGGAATCTGGTTCTCTTGACTCTTGGTCCTGGATATCTGATGGAAGAATC
ATCAAACATTTGAGGGGCTGCCACATAGCAGACATGTATTAGGTGCTCGAAAAAGCAAAAGGCATGTGAAATTGTTTCAGAATTCATTTATCCAATTTGT
GAAAGTAACAATCAGCATCTTCTGTGTTTGTTTGTTTATACATATGTTGCCTTATTCCAAAATGTATTTAAAGCAGACCTACTCTATATAATGTACTGTA
CTAAAAAAGGGAATAACCTTTTTTGAGTATCTGTCAAATATGTTGAAACGTATAAACACGTTATTTTTACCCACCTGCATATAGGTAGTATCACCTCTAT
TTTATACATAAAGAAACTGAGACTCAGAGATAGCTGGCCAAGATTATGCAGTTTATAAGTAATAGGACTTRGTTTCAAGCCCAGACCAGCCTGACTTCAA
CCCCAGTCCTCTTTTCATTTCACCATATATGTGCCCCACAGCAGTGTTATGTAATTCTGAGACTTTATCAGTACAGGAGGCAAAGTTTACTTGCAGGAAT
TGACACATATATTTTTAGTCTGAATATATCTTCTATCTCACCAAACAATGTCRGCAAACAAAAGATCCCTGGTTAGAAGAATGAAATGGTTTAGCAAATC
AAAGTCATATTTATTTTTTAATTTGAGCAGATATATGACTAGATTCCTCGTTAGGATCAGTGCTCATATTTTAATAAATTATAACATTTCTGTACCCCTT
CAACCTTTGGTTTGCAGTTTTTCAACCTTTACCAGCTACATACTAAGGATAAAAAGGTGAGAATAAGATAGGGTTTCTTCCCTCAGTGGGTTTTACTATT
TAGGTGACAGATATAATAACTTTACCTAAGATCTCTTCCTCCCCAAAAGCCATAACCTGAGTCTAATCATGAGAAAACATCAGATAATCCCAACTGAGGT
ACATTTTATAAAATTTCTTTTTTTTTTTTTTTTGAGACAGTCTTGCACTGTCACCCTGGCTGGTGTGCGGTGTGTGAGATCTTGGCTCGCTGTAACCTCC
ACCTCCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGATTACAGGTGCCTACCACCACACCCGGCTAATTTTTTGTATTTTTAATA
GAGACCGAGTTTCGCTATGTTGGCCGGGCTGTTCTCGAACTCCTGACCTCGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGC
CACCACACCTGGCCTATAAAATTTCTAATACTCCACAAAACTGTTAAAGTCATCAAACAAGGAACGTTTGAGAAAGTGTCAGCCAAGAAGAGGCTAAGAA
GACATAATGACTAAATATAATGTAGCATGGTATACTGGATGGGGTCCTGTCATAGAAAAGTAATCTCAGGTAAAAATTAGGGAAGTCTGAATAAAGTGTG
GACTTTAGTTAATAAGGTATCAATATTGGTTCATGAATTGTAACAAATATGCCATACTAATGTAAAATGTTAGTAGTAGGGGAAATAGTACAGGGTATAT
GGGAGCTATCTGCAGTTTTTCTGTAAATCTAAAACTGTTCTAATAGAAAAAGTTTATTTTTAAAAAGTTATAATAAAATTATTCTAATTTTAGATGTTAT
TTCTTTGAGATTTAATTAAAACATATTTCTTCATAAAATGATGTGCCTAATTTAGTTGACTCATTTGATAATGACTGACAAACTGCAGTTTGTTGATAGA
TGCATGTGCCAGAATGTATACTAGGTGGATGTCATATGAACTTTTTCTGCCTCAGTTTCTTATGTATATAGTGTCAAAAACATGCCAAGTCCTAGTAATA
GTGAATCCCAGTACAAAATAGACCACAGTTTGATCAGCTGTCTCATAGCATATTATAAAGACGGCCAACCTCTTAACATGGTATATAGAATTCTACTGTT
CTGTTCTCAACTTTGATCCAGTCAATTCTGTGTTTTAGGGACTATCATTTGTGCCACTCCCACAAACCAATTTCTAATCATATGGGGTTCTTTAATTTGC
AAGCAATAATAATCTACTCTGGTTAACTTCGTTTGTAGCAGCAAGTCCCAAACCTTGTTGAATATCAGAATCGCCTGGAGAAATTTTTAAAATTAAAAGT
ACCATGTGCCAAAAAAATTATATTGAATTGGGATCTCTAAGGGGATAGAACATAGGAATTAATATTTTCTAAAAGCTCTCTAAGTAAGTCTGATACTTAC
TCATTGTTGCCAGTTTCAGTGAACAGCCCCCTAATTCATCTATTTGTTCAGGCCTAAAATCTGAGAATCATTTCTTTAATTTTTTTTTTTTTTTTAAGAC
ATAGGGTCTTGCTTTGTTGCTCAGGCTGGAGTGCAGTGATGCGATCATAGCTCACTGCTGCCTTGAATTCCTGGGCTCAGGGGATCCTCTTCCCTCAGCC
TTCTGAGTAGGTAAGACCTCAGGCGTGTGCTATGGAACCCAGCTAATTTTTAAATTTTTATTTTATAGGGATAAAGTCTTGCCATCTTGCCCAAGCTAGT
CTTGAACTCCTGGGCTCCAGTGATCCTCCCGCCTCAGCCTCCTGAAGTGCTGGGATGGTGCCTGGCTGGGAATCATTTGTTAAATTATCTTTTCTCCATT
TTTAGTTCATTGCTGATACCCCTTAGGACTACATCCTAAATATCTAAAGAATCTTTCTACCCCTCCCTCACCACTTCCTTCATTCTAGTCTAAGCCACCA
TAGTTCTTCTTTTGGACCATTATATCAACCCCCTATATGGCTTTCGTGTGTCTACTTTTGTACCCTATCCTCCACCAATGCGGTCACCACAGATCAGATC
ATATCTCTGCCTAAAATCCTTCAGTGGCTTTCCATTGCATTGGATATACAAATGATATTTTCCCTTGTGGTCTACATGATATGGAGACTACCTTCTTAGC
CTCACATAGTGCCACCATCCCCTAGCTAAGTTCTAGTTACATTGGCTCCCATTTCATTTCTTGAAGATGTGAAGCTCTTTCCTGTCTCTCAGACTTGGCA
CATACTGTTTCATCTGCCTGGGAGAGTCTTCCCCTGACTCTTGATTCATTCTTAAACATTACCTCCTCATAGAGGCCATACTGACTGCCCTTCCACAGTC
ACTCTGTTAATTCTGTTATAGCACTTAATCACAACATGTAATTATTTATTTGCTTACTTGTTAAGTTCCATGAGGACATGAGGGCAGGGGTCTTGCCAAT
CTTATTTTTTTTTTAATTATACTTTAATTTCTAGGGTACATGTGCACAATGTGCAGGTTTGTTACATAGGTATACATGTGCCATGTTGGTTTGCTGCACC
TATTAACTTGTCATTTACATTARGTATTTCTCCTAATGCTATCCCTCCCCCAGCCCTCTACCCTCCGACAGGCCCTGGTGTGTGCTGTTCCCCTCCCTGT
GTCCAAGTGTTCTCATTGTTCACTTCCCACCTGTGAGTGAGAACATGCAGTGTTTGGTTTTCTGTCCTTGTGATAGTTTGCTCAGAATGATGGTTTCCAG
CTTCATCCATGTCCCTACAAAGGGCATGAACTCATCCTTTTTCATGGCTACATAGTATTCCATGGTGTRTATGTGCCACATTTTCTTAATCTAGTCTATC
ATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCATTGCCAATCTTATTCTTATATGTGACTCCTATCACAGTGCATGGCA
TATAATGCATTCATTAAAAAGTTAAATGAATTAATGAATCTTTTTTTTTTTTGGTAGGGGGTTGGAGTTTTGCTCTTGTTGCCTAGGCTGGAGTGCAATG
GCACAATCTTGGCTCACTGCAACCTCCACCCCCTGGGTTTAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCCATCATGC
CTGGCTAGTTTTTGTCTTTTTAGTAGAGATACGGTTTCACCGTGTTGGTCAGGCTGGTTTCGAACTCCTGACCTCAGGTGATCCACCCACCTTGGCCTCC
GAATGAATGAATCTTAACTGCCACCAACCTGGTCCAAGCTTCTGTCATCTCTCTTCTGAATTACTGCAGTTGCATCTGAACACTTTGCCTACAACTGCTC
TGGGTCCCCTTTAATCATCTTCCACGTTGCTTTCAGGGTTAAATATTTAAAATTTTAAGTCTGATAATTATACTATTCTCTCTACATTCCTTTCTTTTTT
TTTTTCCCCAAGTCAGGATCTTGCTCTGTCACCCAGGTTGAGTGCAGTGATGTGATCACGGCTCACTGCAGCCTCCTAAGTACCTGGAACCACAGGTGCG
CACCATCACACCCAGCTAATTTTTTTTTTTATTTTGTAGAAATGGGGTCTCACCATGTTGCCAGGGCTGGTCTTGAACTCCTAGGCTTAAGTGATGCTCC
CACCTCAGCCTCCCAAACTGCTGGGATTACAGGCGTGAGCCACTGTGCTTGGCTCCTTACATTGTTTATATGCTTCCTGCTGGTCTTAATGTAGCTTATA
GAATGTTTTCTTTAATTATTTTTTAATTGTGGTAAAATATATGTAACATAAAATTTGCCATTTCAACTATTTTTAACAGTACTAAGTATAGTCACATTGC
TGCGCAACCMTCATCACCATCCATCTCCAGAACTTGTTTCATTTTGTTAAACTGAAACTCTATCCATTAAACAATAATTATACATCCCATTGTGGAGTCC
CAATAAGTAAGCAGCAAAGAGGAAGGAGCCACAGGTAGGGGAGAACAATGAACAATTGTTCTGAGAGACGGCTAATTACAAACAACCACTGGCACAACTA
CCTTGTCCTCATAGCCCCCTCCAGCATGACCCTGTAAAACTTCCCTCCAGTCCTTGCCTCTTTGTAGACAGCCCTTTCTCTGCTGTGCTGCCTATTGCAC
CTTTGCAACATATTTTCATACTTTCTCTAATAAATCTGCCTCCTTTTGTTTTGTTTTTGTTTTGTTTTTGAGACAGAGTCTTGCACTGTCGACCAGGCAG
GAGTGCAATGGTGCAATCTCAGCTCACCAGCTCACTGCAACCTCCACCTCCAGGGTTCACATGATTCTCCTCCCTCAGCCTCCCAAGTAGCTGGGATTAC
AGGTGCACACCACCATGCCTGGCGAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCAGACTGGTCTTGACCTGACCTCATGATCTGC
CCGCCTCGGCTTCCCAAAGTGCTAGGATTACAGACGTGAGCCACTGCGCCCAGCCAAATCTGCCTTTCTTTACCTATAACTGTCTTGGTAAATTTCTTTA
CCACTTGTGACATAGGCCCCAGCTAGTTGCACCCATGGCATACATTCCTCCCTCCCTCCAGTTCCTGGCAACTACCATTTTACTTTATGTCTCTATGAAT
TTGACTGTAATACTCCATGCACTTCATATGAGTAGAATCATACAATGTTTTCCCTCTTGTCACTGGCTTATATCACTCAGCATGTCTTCAAGGTTCGTCT
GTGTTATAGCGTGTGTCAGAATTTCCTTTCTTTTAAAATTAAAGGCTCAATAATATAATTTTTACATTAAATTTAAACAGAGTGACTATGGAAGGGCAGT
TGTTTAGTGCTCTACGAGGAGGTGATTTTTTAGCTGAGAAAGAATAAACCAAAAGTCAGAGGAAGACACTCCCAGGCAGAGCAAACAGCATGTGCTAAGT
CTCAGAGACAGGAAAGACTGTCATATATTCAAGACTCAGAAAGGGAGCCAATGTGACTGGAACTTAGCTAGGGGATTATGGCACCATATGAGGCTCAGAA
GGTAGGCTCCATGTCATGTAGACCACAAGGGAAAATGTCATTTGTATATCAGTGCAATGGAAAGCCACTGAAGGATTTTAAATCAGCAGAGCTAACATGA
TCCGTGGTGAGAGTGTTGGTGGGGGATGGGGATGCAGAACTATCTGCTTTCTATGCACCACCCTTTCTTCTGTGGGCTAGTCATGGCCCATCCCACCTCA
GGGTTTTTTCTTATGATTGTTCCCTCTGCCTAGAATGCTCTCTCCCCTTCCTTGTCTATTCATTGTTTAGATTTCAACGGAGACATAACTTCCTTAGGGA
ATCCTTCCTTGATCTCCCAGAATCTATTCAAAATAATCTCCATGTTGCACATTTCATAGTACCTTGTGACTTTGCTTTGTAGTACTTATAATAGTTTTTT
AAATGAAGCCATATTTGTATTTTTTGGTTGATTAATATATGTCAGAATAGCAGGGACCATGTCTTCTGTTCAATATTGTATCCTGAGCACCTAGTATTTA
AGTAGGTATTTCAGTAAATAATGTAACATATATAATAAATAATATTAATATTTGTTGACTAAATGAATTTAGGTCTGGACCTTGATGGCTTAATGTCTTT
CTAAAAATCTACTTCCATATCTAAGCCTTTCTTGACTACTTTCGCCTTTTTCTGTGAACTTAAAAGTCTTTATTCATTGTTTGCCGGATGCTAAACATTT
ACAAAAGTAATCCTTATGTCATCTGAAATTTTCTATTTTTTTCATATTGCTTATGCTTTATATTTGCTAGTTGGTCTTTTCCCTCTAAAATGCCACTAGA
GTTATTTTTCTAAGTTACAAATCTCATCATTTGTGGAAATTCTAGGGCATTTATCATCCCTTAAATGATATGTGGTGAAAGGGTAGTTTTATTTTCTGTT
TGTCTCAGACTAATAATTTTGTAAGTGTAATAAAAATGAATTACTAGAAAGATGAAATTTTTGTAAAGATGAAGTATAAACCTCAAAATCTTATAAGATT
TAATGACATAAAATTATTCTGTTAAATTGCTGTAGGAAATTTCCAAGTATTTACTGTAAATTCTGTACTTTTTGCAAACAGGTAACAAACATTTTGCTTA
TGAAGACCACACATTGAATAGTAGCACCACTTAAGGTTTCTGTGCAGGGATACCAGGAGGTTCAAGGTGAGGCAGGGTGGACTCTGCCTCCTTGCTCCCC
TTTCACCAGATAAGCTGTGTCTTTATTATTGTTATGTTTTACCTAACAATTTGTTTGAAGATGGTTCTTTGACCAAAAAAGGCTTAAAAAGCGCTAGTCT
GCCTGGTGTTTTAGAATGGCATTTAAAATTATTCTTCATCTGATTGCAGCCCAGTTTGCTAGTTCAGTCACTGCTTCTTGCCATAGATCCTATTCTTAAA
CCACCTGTCATTTTCTATAGGCCATCATACAAGCCCTTTCACTACTTATTACTTTTCCACTTTCCTTTGCTTAGAATTAACTAAACTTTCCTCTCTGGGA
TACGATGCATTCTCCAAGTTCTGATTGAAAAGTCACCTCCTATGTGAAGCCTCTTCAATTCCTTTGGATGGAATTGGTCACTACTTTTAACATACCTATG
GTAACTACATACTACATTCTGTTAATCGTTAATGGATTTGCTTGTCTTTCTCACATAACATGGTTCTAGTCCTGTCTATCTTTATATTCCCTAGCCCGGG
GACTGACACATACTCAATAAATGTTGATTGGATAAATTGGGAAAGTCATCAATATTTGTACATATCTCAGATATAAAAATAGAAGCATTTTATTTGGTTT
CAGGCAAACTATATGACTGCCTCCTTGCTCACTTCTCCCCACTTTGGGGACCTATCCCTGGATATTGAGTATGACATATATACTAAGAGTTGAAATATGT
GTCTTAGAAAATGCAAGTAATGAACCTCCTACCCAGGTTCTCGTGTGAACTTGCATTAAAGCTCTGTGTGTGTTGGGAGGTGCAGAGAGAAAGTTAAAAG
TTATTTTGAAATTATATTAATTATTAATGAAATTGTTTTGATTGAAAAGTTTGGAATCTGATCCTTTAAATAGCACCCTTGTTTTGTTTTATTTTAATTG
AATTTGTCTGCTCTTTCAGTTTTATGAGTGACCTTTAAGTAATCTCTTATTGCCAAGAGAAGCTGTTTGCCCTCTGGAAAAARTATAAGATTTAGGGTCA
TTTGACCAAGATATTCTAATCCTAAATCCAGTGATTACTAGCTGTGTGACCTTTATAAGTCATATAAAGTCTCTAAATCTTTTTTTCTTCACTTGTAATA
AAGGAACAACTGACATTTGTCCTATGTACCCTGCAGAATTGTGAGGGCCAAATGAAGTGGAGGGTATGAAAGTGCAGGTAAACCCCAGAAACAACAAATG
CGGGTAAACYCTACAACAGAACTTGTGCTATTTACTATCAGCTCTATGACTTTACACCAGTTAAATTATTTGTACCTCAGTTTATTCACCTATAAAATGA
GAATATTAATGCCTGTATCATTGGGTTTGTTGTGAGAATTAAGTTATTTATAAAAAAGTGTCTAGTAGATTGACCTGAGTGTTTGATTATCAGTCAATTT
ACCTTTGCCTTAGCATCACACCCTTTTCTAGCCTCCACCCTGAATTAGGGTTTAATAGTAATAATTATAAGAAATGATAGTAATTGGAGATTATTTACTA
AACACTAGTGTATGCTTAACTCTATGCTAGTTGCTATAGGGAAAATGGAGATACAATAATCACTAATCCCTTACATTTCATTTCAACTATTCAGTATTTA
GCACTCACCATGTGTTAGATACAGGGGATAAAGAAATAAACATGAAGCAGCATTACCCTTTAAGGCTCATAATCTAGTAGAGGAATCAGACACAAATAAA
TTATAATACAGTATAGCACAATAATATAAATGTATACACTTCATGGAAGAGATAATGATTTTGTCTGAGAGTATGAGGAAAGCTTCTATTCTATGCAAAT
TAGGTTTTAAAGGATGAGTAGACGTTTTTTAGGTAGACTGAGGAGGTGAAAGAGGGGGCGATCCAGATGGAAGGAGTCAGCATATGTAGTGTTTGGAACT
GYATAAATCGTTTATTACTGCTGTGTATTAAGGTTAAGAAGAGCTGACTAAAGGTGAGGCTAGAGGGTAGGCAAGGGCTGGATCATCCGAGGATGATTTT
TGTACCATCCTGGGGAGTTTAAATGTCATTCTGTGGGCAAGAGGAGTCAGTGAAGGGTTTTGAGCAGAAAACAAAGACTATCCCTTGAGTGTTGTAGGAA
AACCACTTTGATAGCCTTGCAAATGACAGAGCAGGGAGCTTTATAGATTACCCAAATGTTTGCAGGTTATTATCTGATTCTCACAACAGGTCTTTGAAAG
TTGGCAAGGCAGGAATTAATCCCATCTAATATATGATATATGAACCACTGAGAATTAAAGATGGCGCTGGAAATTAGCTTGCATCATATACAATCAGTAC
TTACTGAGCAACGATTAAACCTAGGCCTTTTCCAAATCTAGTTGTATTTTTACGATACATTGAAAGATACAGTCCCTGCCCTAAATGAAATTTAAAACTT
GTTAGGGATGATTGAGGGATAATTTTCCTTAAAAAAAAAAAGATAAAATTACGACTCTCACACAAATATAGAATGAACAAAATTTTAACTCATTAATCCA
TGTGGGAAACAGAAAGATAGTACAAAGATGGCTCAGAGAGGACCCAAAGTACCACATATTTATTGTCAGGGAATGCTGAACTTAATTCACAAATGGTGAC
AAAACTCGTCAATACCCATAGGACAGTTATCAATTGCATTACCTGGGCACAGTTTGCATTTCAGTGGACAGGAATTATTTGCATTACTRTGAGTTTTCAA
CAAGCTGACATCTTTCTTGACAAAGCTGTGAAATAGCCTAATTAAAGAGAGACCAAGTAACACATCTCTATACAATCAGGTAATCCTGGAAGGCTCCAGA
TTCCATTGATAGAATATGCAGTAATCTCTCTTGCCCATTTCAAAACCTCCCACAATTTTATCCGACAGGGATTTAGGACTAATTCTCAGAAAATTCAGAT
TAGGGGATAAAGAAATAAACATGAAGCAACCTCACCCCACAAGGCTCATAATCTAGTAGAGGAATCAGACAAATAAATTATAATACAAAATAGTACAATA
ATATAAATGTATACACTTCATGAAAGAGATGATTTCATGTGGGCTAGGATCTTCTCCAGTTTTCCCTATTACCCTATCATCAGAAATCAGGGATTCTTCA
TCTCAACAGAAGTATCCTTTGAAAAATGACTGCATCATACAGTCCCATTATGCAATGTCAGTTTCCATTCTCACTTTCTGTTTAGATTACCTGCCTAGGA
CTCTTCTTGAGTGTTTGAATTACCCCTTTCCAGAAATGAAAATCTGCCTCCAAACCCACCAACCTAGTTGTTGGTGGACCGTAATACCCAAGTGAAAAAA
GGCTTTAGGGTGCCAGGTGTCTGGATTTTCTAAGCAGTACTTCTGTAGAGTTCCTTGGCATAATGCCATCTTCCCCTTAGCACTGTGATATGTCTCGGTA
CAGTCTCTTTTGCTGTATTATAGAAGGTGCATTCCTAGGAAGCCTCATGTTATAAAGAGTTAGTATAGTAATTGTTTCAAGGGTTTTTTTCCTATATGAA
GGTAAAGGTGCTTATATAGCTGTAAGTATATAACTATAAAATCTAAAGATTTTGAGGAAATCCAGTGTTTGATTTTGTTTAACTTTTGCAAAAGAGTATT
TCTTTGCCTATCTTCACCAACATCACTTTATCACTTTTATTGTCTATTTTTATGGCAAAGCACCAAGTCACTTAAAGCAGTTGTTTCATATTTGCAGTAT
TTCTTTTTCTCCTTTCCTTTCTTTGTTTAATTCCTTCATGCTTTCTCTTTCTTCTTCTTCCCTTCCCTTGTTTCCTTTTCTTCTTTCCCTTCCTTCCCTT
CCCTCACTTTCTGCTTGTCTTATTCCTTCTCTGTATTCCACATAAAGTATGTTAGAATTATGCAAATAATGTTTCCTAAAACCAGATATAGGTATATCTC
TTTGACTTAATGCTGCCAGTTTAAGATTATTTATCTGTTCATATCATTTGTAGATGGTTCTGCTCTCTCAAGACTTATCACTGATTGCTTGATTGCTTAA
TGATGTCAATCTCCAGTCCTTTGTTTCCTAGCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGAGTTC
AGTGGTGCAGTGTTGGCTCACAGCAACCTCTGCCTCCCGGGTTTAAGCAATTCTTCTGCCTCAGCCTCCTGAATAGCTGGGACTACAGGTGCCTGCCACC
ACACCTGGCTAATTTTTTTTTGTATTTTTAGTAGAGATAGGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGGTCCGCCCAGCT
TGGCTTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGCGCCTGGGCCCTAGCCTTTTTTTTTTTTGCTATGAGCGTTTGGCCATGCCCTATTGAATT
TTGTGTCTGTGTGTTATATATATATAACAAAATTTATTATTTCATCCTCTTTTTTTTTTGTTTTTGTAGAAATGGTATCTTGCTATGTTGCCTARGCTAG
TCTTGAACTCCTGGGCCAAAGTGATCTTCTTACCTCAGCCACCCAAAGTGCTGGGCCTATTTTAACCATTTTTAAATGTACAGTTCTGTGGCATTAAGTA
CATTCACATTGTTATGCAACCATCACCACCATCCACTTCCAGGATGCTTTCATCTTCCCCAATTAAAACTGTACCCACTAAACAATAACTCCTCATTTTC
CACTTCCTCCAGCCCCTGCAACCACTACTCTTACTTTGTATCTCTGAATTTGACTACACTAGGAACCTCATATAAGAGGAATTATATAACATTCGTCATT
TTGTGACTGCATGCACTCTTGAAATTTGAAATACGGTATTGATGATGATGGTGGTAATAATAGTGATAATGGTTACCATTTAGTATTGTTCTTTTGGCCA
GGCATGCTATTTGTTTAATCTTTTCAATCTATGCCAATAAATGACTTTATTCATCCTCATTTGACAATTAAAAAAGATGAGACTAAAGAGATTAAGTAAT
TAATCCAGGATAAAGGATATAATCTGTGTTCTCTCTAAGATTTCTGCTTTCCATTACACCAAAAGTTGATGGTATTAGTCCTGGTTCCAACCTGTGTCAA
GATGGCATTGGAAAAGGACTGAGTATGCYTCATGGTTTTCTTCTCCTCTTATACACCAGTTTACCTTGTTCAGATTTCAAAAACATAGCACAAGATATGT
TCCATTAAAAAGATATGAACTTTATTTTCAGACTCCTTTAGATTATGCGCTTTTGTCAAAAACAAGGACCACGTCTTTCATTTCTGTATTTCTAGCATTG
GCCTAGCATGTAGAAGTCACCGTAACATGTGTTAACAAAGCTAAACAAATTGTGTGCTCTGAATCTGCCCCTCGTTTCCTATCCAGGTGAGTTGGTTTTT
GAGATAGAGATAGCTATAAGCATAGTTCCTGCTTTCAAGGAGCTTAGAGTCTAGTTAGAGATGAGACATTAAAAAATCACCATCATGAAAATCACTTTCT
GTTTGAATTGGTTTTGCACTAAATATGTTGGCTGTAAAATGTATTTCAGTCATTTATAGGGCTTAGTTCACATAACATTATTTGGGAAAATTAACTATTA
TTTCATGAGTCAAGGAATTGGATGTACTTCCTCTAAACACATGTACATAAACTCTGGTAAAACTCCTTCAACTGCTGCCTGCCCACAATGCAGTTGGTGC
TTGCTATAATGGGTCAGTGAGGAGTGATTAAAGCAGGCCATGGGTCCTCCGACTGGGGATTGTGTCCTTGCCTTGCGTGAGCAAATAAGTCCCAATCCCC
AAATACCTGGCAAGTACCTTACCTCTTTTTTCTAATAGACTTGTCACCATTCATCAGCTCAAAATTATTATTTTTAAGAGAAATAATGAAAAGCCCAATT
CTACAGATGAGAAGAAGTTTATGTTGATTAATATATAATGTATGAAAGAGTGGTTATATGAAAGTCAAAGATCTGAAAGACCAAGTGACTTGTATCTTGT
ATAGTACTTTTTTTTTTTTTTTGTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAATGCAATGGCACAGTCTCAGCTCACTGCAACCTCTGCCTCCCA
GGTTCAAGAGATTCTCCTGCCTCAGTCTCCCGAGTAGCTGGGATTACAGGCACCTGCCACCATACCCGGGTAAGTTTGTTCATATTTTTAGTAGGGACGG
TTTCGCCGTGTTGGCCAGGCTGATCTCAAACTCCTGACCTCAAGTGATCCGCCCACCTTGGCCTCCCAAAGTGCCGGGATTACAGGCATGAGCCACCGTG
CCCGGCCACGTTTTTCTATTTGATAGTAAACACTGGTTACTATTGAGTATACTGAGCTACCATAGGACTTCAATTATGGTATTCTGTTTTAACCCCAACT
ATTCTGATGACATCTGACGTATTTCAATTCAGTTCTGACACCAACCACCCAGTGTTAGAGTCAGACTCTACAAGTTTATGAGAGCATGGCCCCCAACAAG
ACTTGCCCCATTTCAGATGCCAGTCTCAGGTCAGATCCCCAGGCCACCCATACTTCTGACCAGCTGGCTACAAATCTGAGGGGTTCCCATGATCCCTTTC
AGGTTTGACAATTCACTGGAACAACTCACAGAACTTARGAAAGTGCTGTTCTTATTATTACAGGCTTATTATAAAAGATAAATCAGGGACAGCCAGATGA
AGAGACACTTARGATGAGGCCTGGGAGAATCTCAATTGCAGAACTTCTGTGCCCTCCTTCCATGGAATTGGGGCACATCACCCTTCTAGCATGTCAGTGT
GTTCACAAATTAGGAAGMAGCATTGAGCTTCAGTGTCAAGAGTTTTTATTAGGGTTTCATTATATAGACATAATTGATAACTCAATGTTCAGGCCCCTTC
CCTGCCCCAGAGGTTGGGCTGGTTCAAAGCCCCAGCCCTCTAATCATATGGTTTGTTCTTCTGGTCACTAGCCCACATATTGAACCATCTGACTATCAGA
AACTAAGGTATGATCCCAGGGGCTTATGAATAACAAAGATATTTATATCACTTGGAAAATTCCAGGGGTTTTAGAAGCTCTGTGCCAGGAACCTGGGACA
AAGACCAGACAAATTATATAACACATGGTACATAAGAGAAAGTTTAGTGTAGTGGTTAAGAGTGGTTTAACAGAAAGTTATTTCTTTTCCTCATGGGGTT
GTGATGAGGTTTAAATGTGGTCACCAGTGTAAAGCACTTAATACCATGCCTGGTATGTACTAAGTCTTAAATAGATATTAGGTAGTATTAAGAGGTGTTT
TAGTTTCCTAGGGTTGCTGTAACAAAGTACCACAAATTAGTTGGCTTAGAACAACAGAAATTTATTCTCTCAGTCTGGAGGCTAGAAGTCTAATATTAAG
GTATTAACTAGGCCATGCTCCCTCAGAGACTCTGGGTAGAATCTTTTCTTGCCTTTTCCTAGCTCAGTCCTTGGTGTTCCTGGGCTTGCAGTTGTATTAC
TCCAGTCTCTGGCTTTGATGTCATATTGTGTTCTCCCTGTGTATCTCTGTTTTCATATGGTCTTTAACTCTTAAGGACACCATCACATTGGATCATGGCC
TACCCTAATGACGTCATCTTAACTTGTTTATATCTGCAAAGACCCTATTTCCAAGTAAGGGCAATTCACAGGTACCAGGGGTACACAATTTTAGGGACAC
AATTTAACACAGTTCACAATTCTGGCCCCCTAAAATTTATGTTCTTCTCATGTGCAAAATATATCCACCCCATCCCAACATCTCCAAAAGTTTCAACTCC
TTCCAGCATCAACTCTAAGTCCAAAATCCCATCTAAATATAATCAACTCAAAAAGTTCCTAATTTCATTTTTTATATAATCTAAATCAGATATGAGTGAG
CCTCTGGGTATAGTCCTTCCTGAAACAAAATTTATTCCCATCTGCTTTGAAGCCTAGAAAACAAGTTGCTATTTGCTTCCAAGATACAATGGTAAGATAG
GCATAGGAAAGACATTGCCATTATGAAAGGGAGAAAATGGAAAGAATAAAGGAGTCACTGGTCTAAAGTAAGTTCACAACCCAGCAGGGAAAACTGCATT
AGATTTCAGAGCCTGAGAATAATTCTCTCTGGCTTGATTCTCTGTCCTCTGGACTGCTGGGGTGGCCCTACCACTTTAGCCTGAGAATGTCTCATTGGCC
CAGACCTCTCCATCTGTGGCTTTGCCCTCAGAGCCAGTCGTCCTGCATATCATTCCATCTCTGTCCATTTCAGTTATGGCTGGTAGTACTTTTGCTGGTA
TGAAATTCTCAAAAACCTTGTCAGTCTCCTGTGCAATGCAGGTCCAATCCATCTAACAAGAATGTTCTCCACATATCTTTGCTACATAACTGTATCTCTA
TTCCTGGCTTTTGCAGAGATGATTGACTGGGTTTGTGAATCACATGCAAATGCTATACCCTTGCCCTGGCCCTGTTTCCAGAGCACACTATCTGGATAGG
CAGAGAATTTTCTAAATTACCAAGTGCTGTTCCTTTTTTGCTTAATATTAATAGTTCATTCCTCAATTTATTTCTTTCCTCTCACATTTTACTGTAAGCA
CCAAGGAGAACCCAGGCCATACTTCCACMCTTTGCTTAGAAATCGCCTCAGCTAAATGTCCAAGTTTATCACTTGTAAGTTCTACTTTTCACCTAGTGGC
TCAACATAATTCGGACAAGTTTTCTGCTGCTACATAACAAGGATTGCCTTTCCCCAGGTGTCCAATAACATATTGATCATTTCCTTTGAAGGCTCTACCA
GAAGCATCTTTAGTGCTCATATTTCTACCAACTATCTCTTCAAGGAAATTTAGACTTTTTCTATCAAGCATCTCAAAATTCTTTCAGTCCCTACCCGTTA
CCCCATTCCAAAGCCACTTATTTATTTTTAAGTATTTGTTAGAGTAGTGCACCACTCTTGGTACCAAAATCTGTATTAGTTTCCTGGCAGCTACTAGAAG
ATAGAAGAGACAGGGAAGGATCTTCAGAGAGAGCATGACTCTACCAACACCTTGATTTTGGACTTCTGGCCTCCACAACTATGAGAGAATAAATTTSTGT
TGTTTTAAGATACTCAGTTTAGAGTACTTTGTTACAGCAGCCCTGGGAAACTGAAATAGAGATGTTTCCTGGAGGTACTATAGTCATCGGTGCAAAACAG
TGAGTACAAAGTATCTTCCTCCATCCTCAGATTTTCCTGCCATTTGTCTTTCTCTCATTTAGAGCATATTTGTGTCTAGTTGTACTGTAAAGTTTACTTT
TGCTATGTTAACAGCTTATGATTTGGCTTTATCTCAAGAGATCAGCCTTAAGTAGGGATGCTCTGGTGCCAGGAAGCCTTCAGCCTTCAAACCTTTGCAG
GGATGGAGGCTTTACTTTTACAGACTTCTTCTGCCAGAATGCCTAGTTGTGGCTCTTGGTTTCCTCCTCATGCAAATTCTTGTAATGCCTGCCTTCATCA
TGGTGAAGGTAGAAGAGTCCTGGTGGTACTTCAGTTAGATAGGCAGCTGACCCATAATTGATGAATCATATAATGAATCCTTGACTGTAACTTTTAACAG
ATAGCTGTTTTTCAATTGAGTTATTTTTCAAGAACACAACTTTTGCCTACCTTAATGAGGAGTTATACTTATTTGGATTTTCTTTAGTGCCGATCACAGT
GTTTGCAGATCTCTTAGAAGATGCTCCATAAAAATTGTTTTGCACTGAAGAAGGCTTATCCATGGCACTGCTAGTGAGAGACTAGCTCTAGCGATAAATA
AGAGATGTTAGTTGCCAGGGCTGTCATTTCAATTTGTCTTGCTTTTACTGAGCTCATTAATAAATTGCCACAGTGGTAATATGAAAGTAATGAACCTTCT
GGAGACCCACCTGGGGCACAGAATGCTAACAGGGACCTTCAGGGCAACTGCCATTGTGATACACAATTCAGTGAAAGGGTTTTAGGCTTTTTTCCCCTTT
GAAACATTTATATTTTGTAATATCCAAATCCTATGTTAACATTTGTGTACTTTCTGAGTATATTTAAATTCAGCTCAGCAAACATGGATCTGATGCCTGC
TACTGTCAGGCAGTATATTGGATCCCAGGGTTGTAAACATGAATGAGACATCCCTTAGGGCTTCACTATCAAATAGAGAGAAAAGGTGGGTAAACAAATA
ATTTTAATATGGTATTTAAATGCCATAAGTATGGGTCAGATATAAATGTAGCATACAAGAGGAAATGATTATCTAGAGAAAGGAGCTAGGAAAGCTGAGA
AAGGGGACTCATTGATTTCTGAGTTAAAATTTGAAGGATGGGTTATAGGTTGATGAGTTGGGTGCATAGTAGGAAAAGGGGCCTCATTGCAGATAAGAGG
AGGGACTGCAAATCATTTGGAATAACTTAGGGAAAGAAGGTAAAGAGAAGATTGTCAGCCCTAGATCCTGAAAAATAAAATAAAATAATGTAAAGAGAAG
AAGTAGATGAGGATGGAGACATAATAAGGGGCCAAATCTTAAAGGATTTAGGTTTTGAAGTGTTATGTATACTGTGCCAAGGGTTCTGGTGGATTTTATC
TTGTAGGGTACATGGATCCATTGAAAGATTTTAAGCAGAGAAGCCACATGATCAAATTTTTATTTCAGAAGAATTATTCTGGTTGTCTTTTATAGGATGG
AATGGAAGTGGAGAGAGACCAATTAGAAAGCTATTTACTAATTCTCTGTAAGGAACAGCATAGTAGACTGCAAAAAGCATGACTTAGGTTGTTTCAAATC
CCAATTCAGCCACCTACTAACTTTAACACTTAACTGTCTCTGAAGCCTCTTCATTAATGAAATGGAAATAATAGTAATCTCTCACTGGATATTATGAAAA
ATCACAAAAAATAACATACACATGGAGTTGTTCCAAAGTGCTGAGTATAAATGCTAGCTGTTATATTTCAAATTCTGTTTTTCTCGAGTTTTAGGTAACA
TAACTACGTTTAGCATTTTGAAGAAGCGCTTTCATTTTCCTTCTACCATTCTGTTGCAATGAAGCAGAAGTTGAGACATTTTCAAACACTTTATATTTAC
ATTAAGATCCATATTTCAGGATTTCCCAAACACTCAAAAAATAATATAACTAAAGCTTTTTCCTTTGGACACCCTGTCAGACCCTCAATTGGAGAATCAG
GGTTAGTGTCTTTTTTTTTGAGTCAGGGTATAATGGGAAAAGATTGGAGCCCTGTTTCAACAAATGAGCTATTTAGCTGAGAAATAGCATCAGAATATGT
TCTGCCTCCATCCTGCAACTATTTAATAAGAATAATGTGAACAGTTGTCCTAGCCATCTTGCATATTTATTGTGAGGATCACATTCTTTCCTTAGGTAAA
TGTTTATTAAATAACTACTATTCAAGGCCCTGTTTCAAAGAATGTAGAAATGAATCAGATCTAGATCCTAATTTCAAGTGAATTACTTGAAATGTAAAAG
GTGTATACAAATAACTAATTCAAGTAAGACAAAATATGAGTCAGATAATGTTGAAAATTATAAAGGACTTTGACACTTAAGTTATTTATATTTTGTATAA
TTATTGTATATTGTTATATTTTGCAAAGTATATTTCACATTGCTCTCATTATTTAAAGCGCCACCCCAAGTAAAGCAGAGATAGAGTCACTTTCTTGGAT
ATCTGTAGAAAATAAATGATAAATGTTTTTAGATTTCAGGTCAATTTAAAAACCTGTACACAGATTTTTATCTCAGGCTTAATGTTCACTGATACCCAAG
TAACTTGGTTAAGTTAGTCTCTGAGCCTCAGGTGTGTGCATGTATGTGTGCATGCATGTGCACATGTGTGTGTAATTGAGATAGTACCATCTAGCTCTTA
GATTTATTGTGATGAGATGGTCTTTATATGTAAAACAATGCTAACAATACATGTTGGGTTTTTCTGTAGTCTCTTTGCTGTCACCTACTTACCTTTTCAC
TATTGCCCAGTATTGAGCTTTGAGACAGCAGCTTCACTGAAATAATTTAAAGGTTTTTTTWAAAAAAAAATGTAAGCAATTATAGGGGAGGAAAATGTCT
TTTCCTCACCTGTCCTAGGTTCATGGCTAAAGTCCTTATAGCAAAAGACATATTAACAAGAGAAAAGCATAATCAGTGTTTTCTTAAGTTTTATGTGACA
CAGAGGGCTTCATAAAGAAATGAAAACCTGAAGAAACAGTTAAACTTGTATATTTTTATGCTAGATGTGATAATGAAGTAGATAATTGGGGAGCAATAGA
ATTGGACAAAGCGGGTATGATCTAATGGTAATAAATGGGGGGTAATTTAGACTTGTTTGTTCAGATTCTTCTTGGTCTCTCTGTGTCTTTGGCTCCTTTC
CTCTAGGAACCTGTCACATGAGGGTCTTATGACTTGCTTCTGGAAGAGTTCAGAAAACCCATAAAACCTGGGAAGGTTTTATGTCCTGCTACAGAGGAGG
AGATGGAGGAAGGTGAAGGTTACCTTCCTGCTTCTGTTGTTTTCCCACATTCCTTCAGCTTAAAATATTTGGGGATTACCATGTCCTGAAGCCCATCACA
AACATACAACAAAAGTGAAAGGGTTTATAATGAAAAACATTATAGCCACAAGCTAAATTTTACCAATACTTGTAAATATCACATATCTATGTGTCTTCCC
TTTACCCACCAGCTGTATTCAAATTTCTCTATTGATTCTTTGGGACTTTTCTGTAAAAGGTTTGTAACTAATTTGGAGGCTGGGAATGCAAGTATGTTTC
AAATATTTGTAATTAAATTGTACTTTAACAACTTACATTGCTTTTTACCTCTGATGAATTTTATTTACCAAGTTATTYATTATTTGGATCTATCTGTACT
ATTCGTGTTCCTACACTCTTATTTGTAGCATGGATTCATTTACTGGCATACAGATCATCCATTGCATTTTCCAGAGAATACCTTTAGTTAATCTTTTTTA
ATGTCAAATTTATAGTAGGTTCTTTATATTAGTCCTTGTCTTTTTCTCCTGTTAAAATATGTATCTTTTTTTTTCCCTCCAGACAGAGTCTCACTTTGTT
GCCCAAGCTGGAATAAAGTATGTATTTTTAAAAATTAATTTAAAAAAATGATGCTGCATATTTTGTGCCTAGTGGCAAACACTGCAGCTAAAAAGCTCTG
TGTGTACAGAGTGGGTTGCCAGCATGGTCTTAAAATCTCATGTATCTCAATATTTTCTATCATGACCGTTTCTTGTTTCTGAGCTTGGGGTGGTTGGTTT
GTTTTTCAGGAAAACTGGACTATTTAGTATGGCTAAGGATTAAATACAGTCTTTTGCCTATGTTTGGTTAGAGCCTCTCAGCTTTGATTGATGTTCTCCA
TTATATGTTACAGAAATTTTTGTTTCTGGTTCTTTGATGTCACTCTTTCCTATTTTCTGGTACTGTAAAGTATGTACTCATATTTGTAAAATCTTTTGTC
ATCACAATGCATATCTTTTAAATGAGTTTTAATTAGATAGAACATGTCTTTTTATTACATGGATTTCCTTAAGCTGTAAGAACTGTATTCAGAAAAATCT
TTGAAAAGCTAAATTTTTTATTCTTATTTTTCTGAGTCTGCTTCCTAGGGAATGAAAAGCTAAAATTATATTCATGATTGTGTCTCCCAACTCCTTCCAT
CCACTCATTACCTTTATGTAATGATCCTGTTGAATTTGAGAGTGACTTACAAATACTAAAGTGCCCGACTTGTTTTGTTTCGTATTTATTTATTTATACT
TTAAGTTCTAGGGTACATGTGCACAACAAGCAGGTTTGTTACATAGGTATACATGTGCCATGTTGGTTTGCTGCACCCATCAACTCATTTACATTAGGTA
TTTCTCCTAATGCTATCCCTCCCCCAGCTCCCTACCCCGCAACAGGCCCTGGTGTGTCATGTTCCCCGCCCTGTATCCAAGTGTTCTCATTGTTCAGTTC
CCACCTATGAGTGAGAACATGTGGTGTTTGGTTTTCTGTCCTTGTGATAGTTTGCTAAGAATTATGGTTTCCAGCTTCATTCATGTCCCTGCAAAGGACA
TGAACTCACCCTTTTTTATGGCTGCATTGTATTCCATGGTGTATATGGGCCACATTTTCTTAATCCAGTCTGTCATTAATGGACATTTGGGTTGGTTACA
AGTCTTTGCTATTGTGAATAGTGCCACAGTAAACATATGTGTGCATGTGTCTTTATAGTAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGG
ATCGCTGGGTCAAATGGTATTTCTACTTCTAGATCCCTGAGGAATCACCACACTGTCTTCCACAGTGGTTGAACTAATTTACACTCCCACCAACAGTGTA
AAGGTGTTCCTATATCTCCACATCCTCTTCAGCATCTGTTGTTTCCTGTCTTTTTAATCGCCATTCTAACTGGCGTGAGATGGTATCTCATTGTGGTTTT
GATTTGCATTTCTGTGATGACCAGTGATGATGAGCATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTATTCATATCCT
TTGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTAAGTTCTTCATAGATTCTGTATATTAGCCCTTTGTCAGATGGACGGATTGC
AGAAATTTTCTCCCATTCTGTAGATTGCTTGTTCACTCTGATGATAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGGTCCCATTTGTCTATT
TTGGCTTTTGTTTCCATTGCTTTTGGTGTTTTACTCATGAAGTCTTTGGCCAGGCACAGTAGCTCACGCCTGTAATCCCTGCACTTTGGGAGGCCGAGGC
AGGTGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCCAACACGGTGAAAGCTTGTCTCTATGAAAAATACAAACATTAGCTGGGCATGGTGGTGTGT
GCCTGTAATCCCAACTACTGGGGAGGCTGAGGCAGGAGAATCGCTTGAGCCAGGGAGGCGGAGGTTGCAGTGAGTCGAGATCATGCCATTGCACTCCAGC
CTGAGTGACAGAGCAAGACTCCATCTTAAAAAAAAAAAAAAGTCATGAAGTCTTTGCCCATGCCTATATCCTGAATGGTATTGCCTAGGTTTTCTTCTAG
GGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATTCATCTTGAATTAATTTTTGTATAAGGTGTAAAGAAGGGATCCAGTTTCAGCTTTCTGCAT
ATGGCTAGCCAGTTTCCCCAGCACCATTTATTAAATAGGGAATCCTTCCCCTATTTCTTGTTTTTGTCAGGTTTGCAAAAGATCAGATGGTTGTAGATGT
GTGGTTTTATTTCTGAGGCCTCTGTTCTGTTCCATTGGTCTATACATCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACGTAGTCTTGTAATGTAGT
TTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTTGCTTAGGATTGTCTTGTCTATGTGGGCTCTTTTTTGGTTCCATACGAACTTTAAAGTAG
TTTTTTTCCAATTTTGCAAAGAAAGTCATTGGTAGCTTGATGGGGATGGCGTTGAATCTGTAAAGTACCTTGGGCAATGTGCCATTTTCACGATATTGAT
TCTTCCTATCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTGTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACA
TCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGTAGCAATTGTGAATGGGAGTTCACTCATGATTTGGGTCTCTGTCTGTTATTGATATATAG
GAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAACTTAAGGAGACTTTGGGCTGAGACGATGGGGTTTTCT
AAATATGCAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCTTTYTCTTGCCTGATTACCCTGGCCA
GAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATGCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTGTTGGCCCATTCAGTATGATAT
TGGCTGTGGGTTTGTCATAAATAGCTCTTATTATTTTGAGATATGTCCCATCAATACCTAGTTTATTGAGAGTTTTTAGCACGAAGTGCTGTTGAATTTT
GTCAAAGGCCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCGATGGTTCTGTTTATGCGATGAATTACGTTTATTGATTTGCATATGTTGAAC
CAGCCTTGCATCCCAGGGATGAAGCCGACTTGATTGTGGTGGATAAGCTTTTCGATGTGCTGCTGAGTTCGGTTTGCCAGTATTTTATTGATGGTTTTTG
CATCGATGTTCATCGGGGATATTGGTCTAAAATTTTCTTTTTTTGTTGTGTCTCTGCCAGGCTTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTT
AGAGAGGATTCCCTCTTTTTTTATTGCTTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGTACCTCTGGTAGAGTTCAACTGTGAATCCATCT
AGTCCTGGACTTTTTTTGGTTGGTAGGCTATTAATTATTGCCTCAATTTCAGATCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTC
TTGGGAGGGTGTATGTGTCCAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCGTAGAGGCATTTTGGTAGTTTGTATTTCTGTGGGATTGG
TGGTGATATCCCCTTTATCATTTTTTATTGCATCTATTTGATTCTTCTCTCTTTTCTTCTTTACTAGTCTTGCTAGTGGTCTAACAATTTTGTTGATCTT
TTCAAAAAACCAGTTCCTGGATTTATTGATTTTTTTGAAGGGTTTTTTATGTTTCTCTCTCCTTCAGTTCTGCTCTGATCTTATTTATTTCTTGCCTTCC
GCTAGCTTTTGAATGTGTTTGCTCTTGCCTCTCTAGTTCTTTTAATTGTGATGCTAGTATGTTGATTTTAGATCATTCCTGCTTTCTCTTGTGGGTATTT
GGTGCTATAAATTTCCCTCAACACACTGCTTTAAATGTGTCCCTGAGATTCTGGTATGTTGTTTCTTTGTTCTCATTGGTTTCAAAGAACATCTTTATTT
CTGCCTTCATTTCATTATTTACCCAGTAGTCATTCAGGAGCAGGTTGTTCCGTTTCCATGTAGTTGTGTGGTTTTGAGTGAGTTTCTTAATACTGAGTTC
TAATTTGATTACACTGTGGTCTGAGAGACAGTTTGTTGTGATTTCTGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAAATATGTGGTCACTTTTA
TTTTTTATTTTTATTTTTTTAATTTTTTTCTTATACTCTAAGTTTTAGGGTACATGTGCACATTGTGCAGGTTAGTTACATATGTATACATGTGCCATGC
TGGTGCGCTGCACCCACTAATGTGTCATCTAGCATTAGGTATATCTCCCAATGCTATCCCTCCCCCCTCCCCCGACCCCACCACAGTCCCCAGAGTGTGA
TATTCCCCTTCCTGTGTCCATGTGATCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCGGTGTTTGGTTTTTTGTTCTTGCGATAGTTTACTGAG
AATGATGGTTTCCAGTTTCATCCATGTCCCTACAAAGGATATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTC
TTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGC
AGCATGATTTATAGTCCTTCGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTT
CCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTGGTCACTTTTATAATAAGTG
CAATGTGGTGCTGAGAAGAATGTATATTCTGTTGATTTGGAGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGAGTTCAAGTCCT
GGATATCCTTGTTAACCTGTCTTGTTGATCTGTCTAATATTGACAATGGGGTATTAAAGTCTCCCATTATTATTGTATGGGAGTCTAAGTCTCTTTGCAG
GTCTCTAAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGATACATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATT
ATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGCTGGTTTAAAATCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCTTTTTTTTCACTTTCCATTT
GCTTGGTAGATCTTCCTCCATCCCTTTATTTTGAGCCCATGTGTGTCTCTGCACGTGAGATGGGTCTCCTGAATACAGCACACTGATGGGTCTTGACTCT
TTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGGGCATTTAGCCCATTTACATTTAAGGTTAATACTGTTATGTGTGAATTTGATCCTGTCATTATGAT
GATAGCTGGTTATTTGCCCATTAATTGATGCAGTTTCTTCATAACATCGATGGTCTTTACAATTTGGCATGTTTTTGCAGTAGCTGGTACTGATTGTTTC
TTTCAATGTTTAGTGCTTTCTTCAGGAACTCTTGTAAGGCAGGCCTGGTGGTGACAAAATCTCTGAGCATTTGCTTGTCTGTAAAGGATTTTATTTCTCC
TTCACTTATGAAGCTTAGTTTGGCGGGATATGAAATTCTGCGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCACTCGCTTCTGGCGTAT
AGGGTTTTTGCTGAGAGAGGCACTGTGTCTGATGGGCTTCCTTTTGTGGGTAACCCGACCTTTCTCTCTGGCTATCCTTAACATTTTTTCCTTGATTTCA
CCCTTGGTAAATTTGACAATTATGTGTCTTGGGGTTGCTCTTCTCAAGGAGTATCTTTGTGGTGTTCTCTGTATTTCCTGAATTTGAATGTTGGCCTGCC
TTGCTAGGTTGGAGAAGTTCTCCTGGATAATATCCTGAAGAGTGTTTTCCAACTTGGTTCCATTCTCCCTGTAACTTTCAGGTACACCAGTCAAATGCAG
ATTCTTTTCACATAGTCCCATATTTATTGGAGGTTTTGTTCATTTCTTTTTACTCTTTTTTCTCTAATCTTGTCTTTTTGCTTTATTTCATTAATTTGAT
CTTCAATCACTGATATCCTTTCTTCCACTTGGTCAAATCGGCTACTGAAGCTTGTGCATGTGTCATGAAGTTCTCGTGCCATGGTTTTCAGCTCCATCAG
GTCGTTTAAGGTCTTCTCTACACTGTTTATTCTAGTTAGCCATTCATCTAATCTTTTTTCAAGGTTTTTAGCTTCCTTGTGATGGGTTTGAGCATCCTCC
TTTAGCTCAGAAAAGTTTGTTATTAACTGACCTTCTGAAGCCTTCTTCTGTCAACTTGTCAAAGTCATTCTCCATCCAGCTTTGTTCTGTTGCTGGTGAG
GAGCTGCGATCCTTTGGAGGAGAAGAGGCGCTCTGGTTTTTAGAATTTTCAGCTTTTCTGCTCTGGTTTCTCACCATCTTTGTGGTTTTATCTAACTTTG
GTCTTTGATGTTGGTGACCTACAGATGGGATTTTGGTATGGATGTCCTTTTTGTTGATGTTGATGCTATTCCTTTCTGTTTGTTAGTTTTCCTTCTAACA
GGTCCCTCAGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCCACTCCAGACCTTGTTTGCTTGGGTATCACCAGCGGAGGCTGCAGAACAGCTAATATTGC
AGAACAGCAAATATTGCTGCCTGATCCTTTCTCTGGAAGCTTCGTCCTAGAGGGGCCCCTGCCTGTATGAGGTGTCAGTCGGCCCCTACTGGGAGGTACC
TCCCAGTGTTGGGAGAACCACTCCTCTCTTCAAGCTATCAGACAGGGATGTTTAAATCTGCAGAAGTTGTCTGCTGCCTTTTGTTCAGCTATGCCCTGCC
CACAGAGGTGAAGTCTATGGAGGCAGTAGGSCTTGTTGAGCTGTAGTGGGCTCTGCCCAGTTCGAGCTTCCTGGCCACTTTGTTTACCTACTCAAGCCTC
AGCAATGGCAGATGCCCCTCCCCCCCGCGAGGATGCAGTGGGAAATCAGGGGTCTCACAGCCTTCAGAGCTGAGAGCCCCGAATTGATTGAGGTCAGTCT
CAGACTGCTGCGCTAGCAGTGAGCAAGGCTCCATGGGCATGGGACCTGCCGAGCCAGGCACAGGAGAGAATCTCCTGGTCTGCCAGTTGCTAAGACCATG
GGAAAAGCACAGTATTTGGGCAGAGGTGTACTGATTTTCCAGGTGCAGTCTGTCACGGCCTCCCTTGGCTAGGAAAGGGAAATCCCCCAACCCTTGTGCT
TCACAGGTGAGGTGATGCCCYGTCATGCTTCGGCTTGCCCTCCGTGGGCTGTATCCACTGTCCAACCAGTCCCARTGAGATGAACCAGATACCTCAGTTG
GAAATGCAGAAATCACCCGTATTCTGCATCGATCATGCTGGGAGCTGCAGACTGGAGCTGTTCCTATTCAGCCATCCTGCAGTTCAGTCATTTTTGTTTC
ATTTTAAGAGATTTTCCTTAACTGTTTTTCTCTCAGAAATCAATTTGTGGGTTGTAATTATAAGCCATCCAAGTATAATGTATTTTCAATTCAGTAAGTA
GCCACTATTCTGGTCATATAATTTTTTAGTTTTGTGCCTTTTTTCCTTACTATTAAATTAGCATATACCCATTTCATTAATAAATACCTATTGAGTATCT
CCTCTTACACCAGGCACTATTCCAGGTGCTGGGATATAATGCTGAATGAATAACATAAACACCCCAGTGAGAGAGACAAATAAATAGATATGGAAAATAT
TAAATGGTGCTAACTGCTATGTGGAGAATTAAGAGTGGTATGATAGAAAGGGTCTAGGTGACTACTTTAGTTTGAGTGATCAGGGAAGGATTCTCTGAGG
AGGTGACATTTAAGCTAAGACCTGAATGATGAAAAGCCAGACATGTGAATATTGAGGTGGAACATTCCAGGGAGTGTAAAGGCCCCAAGGTCATAAGGAA
CTTGGCYTCCAACAGGAGCTGAGAAGACCAGTATAGCTGGAGCAAAGCAAAAGGTGAGAGCCATAGGAGATGAAGTAGAAGAGGTAAGTAGGGGTCAGAT
CATGCAGGACTATGTGGGCCAGGATAAGGTACTTGGATTTGATTTGAAGTGCTATGGGGAGGCTTTGGGAGATTTTAAGCTGGAGAGTGATATGATCTAA
CTTACCTTAACATATAGTCAGGACAGGATCATATAGGGAAGAAAATAGGTCAATACTGAGAACCTGTAATTCAAACACAGGAAAAAGATTGCATTTGCTG
CTAAGGCGTACTAAATAGCCCAGTTTTCCTTGAAAAATCCTAAGCCTAAGAGACAAGAAATTTGGCCAAATTCCATTGTTTTGATTCCCAGCTCCACCAT
GTACCAACTGTGTAACCTTGGGCAAATTATAAGATATCTCTCTGCACTGGTTTCTCATCATTAAAATGAAGATAATAATAGTGCCTGCAGATAATAATAG
TGCCTGCCTTATAGACTAGTGAAAATTGAACAACATTGCTGAGACCAGCTCGGTCGGGGAGACCCTAACCCAGCGGCGCTAGAGGAATTAAAGACACACA
GAAATATAGAGGTGTGAAGTGGGAAATCAGGGGTCTCACAGCCTTCAGAGCTGAGAGCCCCGAACAGAGATTTACCCACGTATTTATTAACAGCAAGCCA
GTCATTAGCATTGTTTCTATAGATATTCGATTAACTAAAAGTATCCCTTATGGGAAACGAAGGGATGGGCCAAAATAAAGGAATAGGTTGGGCTAGTTAA
CTGCAGCAGGAGCATGTCCTTAAGGCACAGATCGCTCATGCTATTGTTTGTGGCTTAAGAATGCCTTTAAGTGGTTTTCTGCCCTGGGTGGGCCAGGTGT
TCCTTGCCTTCATTCCAGTAAACCCACAACCTTCCTGCGTGGGCGTTATGGCCATCATGAACAAGTCACAGTGCTGCAGAGATTTTGTTTATGGCCAGTT
TTGGGACCAGTTTATGACCAGATTTTGGGGGGCTTGTTCCCAACACAACATAATACATGGAATGTGCTTAGAGCAGTGCTTGGCACATAATAAGTACTTA
ATAGATGTTTAATTTTATATTTCCTTTAGAACTGTGTTTTTGATAGCCATGTGGTTAATATGACTGGATGTAATGAATTTTTTATTTTATTTTATTTTAA
GTAAATTTAAAATTAAAAACGGATCTCAATTCAGGTATTAGAAAAATTTTAAGTATGTTTGAAACAATTTGGATATGTGAATTTTCTATGTGAATTTTCT
TTTTCAAGTGTAAATTTACAAAATTGAAATACGGATCAAGTATTTGTGATGAAAATTTAGCATCTGAATTGAGGTAAGCTATAAGTGTAAATGTATACCA
GATTTTAAAGACACTATACAAATAATGTATTTTCATTAATGATTTTTATGATTACTTGCCAAAATAATATGATATACTGGGTTAAATAAAATGCATTATT
AAAATCATTTTTCACTTGTTTCTTTTTTTAAAACTTTTAAAAATATGACTACTAGAAAAATGTAAAAGCCACCTATGTAATTTTATATTTTTCTAGTAAT
CATATTTTTAAAAGTTAAAAGAAACAAGTGAAAATAATTTTAATAATGCATTTTATTTAATAAATACTGAACATTATGCTTATATTTCTGTTGGATAGCA
CTGTTCTAGACCCTGGGTCAGGGGAAGGGTAGTAGGAGAGGCATATAGACTAGGAGAGGTGCTTTTTCTAATTACACAAATACCTCTAGAGATTCTGAAA
CACCTTCATCCAGTGGAGCCTCCCTCCCCATCATATTACTCCTACCTCCTATTCCCTTGCTGAAAATCAGTGCTCTTAGTGAGTCTGCCCTCACTGATAA
GAGTTTGTATTCTTCAGGAGTGTCTGGGTGCAAAAAGTTATGAATTGCACTAAATTTAACAAGGTTAGACACCCATTAATGATTTCGATGAAATAAATTT
TTGGAGTTCTCTACACTATTAAATAGTATGGTACTACCATATAAAAGTACAGTAAAGTCTACCACGAATCCTGGTCCAATGGACTCCAGAGGCTTAAAGT
GAGAAAGAATTAAAGTAGATTTTATGAAAGTAAGGGATGAATTACTAGGTCAAAAGCTGAGGAAGTTGAGGAAGGCATCTTGTGTTCTAAAAGGTAAATT
TCTGGGAGGGAAAAAAAAAAAAGGCTGGGCACGTTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACAAGGTCAGGAGTTT
GAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACGAAAATTAGCCGGGCGTGGTCGTGGGCACCTGTAATCCCAGCTACTCGGGAG
GCTAAGACAGGAGAATCACTTGAACCCAGGATCTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGCCAACAAGAGTGACTCTGTCTCAAAAA
TAAAAAAACTCAAAAAGCTAAATAACCATAAACTTTGGTCTCTGAAGTGAAACTGGACATGTGTTATTTTTCTCACGCCTCTTGGTTCCTGCTAGTTCTG
TGCTTGCATACAAAGATTTCCTGAGTTATTTAAAGAGGCATTATTCTCAGGAGTTGGCATGAAGAAGGTTCCTAGTAAATACTGAGCACTATTCTGCCTG
AGCTGTTTAGATTGCTTGTTCTATATTCTTTTTACATTGCCTTAAATTAATTTTTTTAAAAAAAATCAATGATATCCCTTAGCCAAATACCTATTACCTT
TCAAAGATTATTTCTTGCCCTCTTAAGTCACTTCGCTAGAGAAGAGAGCCCCTTCCTGAGTTCTTTACCATTTCGGAGTCACAGAATACACATTTCACTG
GAAGCCCCTTGTTGGTGAGAGAAGAGGTAGTCTCAGAGTTTCCCAACCAGAAATGAGTGTCAAGGCAATTGCTTGAGTTGCTCATTGGAAGACAACTAAT
ATCACTTGATAAGGTTCCTTATTTCAATTTTCTGTGAAGCCATAAAATCAGATACTTGTAGAGGTGAATGATGAGGAAACAGGCATGCAGCTAGTTTGCA
GTAAATGTAGGACCCACCTGGGAAGGCACTAAGAGAACACTTGAGTTCTAACCTTCTGTTTTCTGTTGAGGAATTGGCAGCCCTGAGGAAGTGACTTCTC
AGTAGTAGAATGAACCAGGCTAAATCTAGATCTTTCATCTCAGTTTCTTGATACAGAGAAACCATGTTTACCCTCAAGTTTGTAATTCTGTAGGATTCRT
ACAAGACCCTAGATAATGCCATGGATTTATAACTCCCTCAGTTTTTAAAAGATAAGAATCTGAGACTTTAGAGAGGATTTACAGAATGGTTTATGGATGC
TGTTCTGTCAAGTTCAAATTACTTTATTTACCCATCTTCATGGCCCAAGTAGTTGAGGATCTAATCTATTGTCAGGGCTCTTTGTCCAAGGAGATAGTTT
TCTATATAGGATTCTAACCTATTAGACTGTAAGAGGTTAAAGTTGATCTTGAGATCTCTGGTCCCTTGTAACATTGACATCTTTCAACGGTCTGCTTAGG
CAGTGTGTGAACTGATAAAAAAAAAATGGTAAAGGTTAGTAATCTCTTATCTGTCCSCAAAGCCATATGAGTGAGACCTCAGCTGTTCATTTTGTTATCA
TGAAAAGCTTTTATTAGGTGACTCCTGTTTATAGATGATGACATGCATTCAAATCTTCACTCCAGAAAACCTTAGAGAAAAAGCCATTCTAAGAAGCGTA
ATGTTCTGGAGAGCTACAGGATTGTTCCATTATAGATTAAAGTTTTATTTTTAAAAATTATTTTAGTTGGAAATTATTTTAAAATGGATCATACCCCTTC
TTCCCTTTAATTTAGTTTAATGAGACTAATTTAGTATGTTTATGTGTGCGTGTGTAAAGGATACAAAGTTCCATGGGTTTTTAGTATCTATTCCTAACTC
TGTTTTCCTCACAAGCATTATTATTATTATTATTATTATATTATTATTATTATTATTACATTTATTTATATATTTTTTTGAGACGAGTTTTGCTCTCGCT
CAGGCTGGAGTGCAGTGGCGCAGTCTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGCGTAGCTGGGACTACA
GGTGCCTACCACCACACCCAGCTAATGTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAACCAGGATGGTCTCGATCTCCTGACCTTGTGA
TCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCCGGCCACAAGCATTATTTTTATAGAATTGTGAGGTTTCCAGGAAT
GTATACAGTTGTAAAAAACACCTAGATTTAAGTCTGTGGATTACAATCAAAAAAGATCTGAAAGCCAGTGCCAATTAGTTCCTTCCTTGCATTAATAACA
CTTTTTTACATTTGTTTAAGATTTGCCTGTTTGCCAAGCCTCTGTACATACACACTGTATATGGTCTATGATAAGTAAACTAGGGATGGTCTTCTTCTTG
TTTTAAACTATACTAGGCAGGCATAAGGAAACCGAAAAGAGGATGGACTTTGAAATCAATCTTTCTTTGATTTGAATTTTAATTTAGATTCAGGGGGTAC
ACGTGCAGGTTTGTTACAAGGGTATATTGCATGATGCTGAGGTTTGGGCTTCCATTGAGTTCATCACCCAGATAGTGAACATAGTACCCAATAGGAAGTT
TTCAGCATCCTCCCACCCCCACCCCCTATTGTGGAGTCCCTAGTGTGTATTATTCTTACTTTTATATCCATGTGTACCTGATATTTAGCTCCCACTTATA
AACAAGTACATGTGATACTTGGTTTTCTGAAATCAGACAACCTTTAATATTAGCTTTTGCATTTAGAAGTTGAGTGACCATGGGTGCCTTAACCTTAACT
TCCAAAGTTCAGCTTAAAAAAAATCTAAATGGGAACAGTAATGCCAGAATTGTTGGGTGCTTTAAGTTAAGTAATAAAAACACCTACCAGGAGCACAGTG
GATGACTCTCACAAAACAAAATGTTGAGTGGAAGGAAGTGGACATAAAAGAGTACATATGATATGATTTCATTTATATAACATTCAAAACAGGCAAAACT
AACCTACGGTGATAGAAGTCAAGACAATGGCTACTCTTAGGTGGAGCAGTAACTGGGAGGGGAGGGCACAGGGGATATTTATTGGGGTGCTAGTAATGTG
CTCTTTCTTGGTTTGGAGGTACATTATAAAAATTCACTAAGCTTGTATACTTATGATTTATGCACTTTTGGATAATAATGTTATAGTTTAATAATAAGTT
ATTTTTAAAGTGCCTAACACATAGTTTATGCTCTTCTGCTATGATGGTTCTTTAGGTTAACAACATGAAAATTTRTTTTAACAGAATGATCCTAGCCTCT
TTTCCTTGTAATCTTTCCATTTCTTTGTTCTGTAATAGTTCCTTTTTCCTAATTCCAGTTTTATACCTTGGCGTGTTTAATAAATATATACTGATGATAA
TCCCAATTGGTGTAGTTGGAGGAGTTTAGGTCAGTCAGGCAAGGTGAAATTGAATGTCACTGTCATCTAGGAGTATATACCATTCTCTGATCTTTAGATG
ATTTGGTGATATTTTGCTTTTCACATGAAGATTTCCCTGATTTGTGTAATACGATCTTGTTGAATATCAGACAGACTCTATCATTTACTTTTTAACGGTG
AAATATTGGACATATTCTGTTATTTCTTGCACTTTTAATGCAATCCAATTATAGTGTGGTGGGCTTTGAAATGGTCACTGTCACACCCTGTAGCACCTTA
CAGTTTTTCCTTGGGTTCTTGTTGCTAAAAGAGAACCATGCTTATTGTTTTTATCTTAACTATTTTTGTACTACAAGGGTAGAAGTAGACTTATATACTA
GAAAATTTATGAAAGCTCCTGTTWTAAAAAACAATTCTTGAAAATTCAAATTTTAAAAACTGAGGAAGTTACTTCTTCTGCTAAGCACTGCTAGACAATG
TGTAGGATATAAAATAAGCCTATGACAATCTCTGCCCTCACAGAGGGTGGACTCCTGCTATAAAGACAGGCTTCTGCTTTGTGGGGGTAGATAGAAAATG
AGTTTGTCCACACTTACTTTTTGTCTTTTGGATATTGGCTTTGAGAGAAAGTCTCTGATGGAGATGCTAGCAAGCCCCTCTAAACCCCAGAGAACTGTGG
TGATGATCATATGGATTCAGTTGGAGCCAAGAGACAAAGAATGGACTGTGACTTCATCAGCGATCAGTAATATGACAAAGTGTTGGGGGGCTGAGGCAGC
ACCCTCTATATATCAGACACTTACTTACATTAATTCATGAAAATAGATCATGACATTGAACGTTTCCTAACCTTGGGGTAGGCACTATTACTTCCATTTT
AAAGATGTAGAAATTGAGGTCCAGAGACACTTAGTAACCTGTCCAAGTTTACATAGCTAGTGACAAAGTTAGTATTCAAGCCCAAAGCCCATCTGTACTG
CATGCTATGTATAGATAGTAACATTATCCAGAAAAGGAATATGTTTATTAGAAGATGAACAGTTTGGAAACATGTTAAACAGGAAGTCATAAAGAAAGTT
GATAGAGGACTACATCTAGGACTACCCAGGAAAAGGAATTCTGTGGCTCAAGATTGGATTTCTTGAAAGTCCCCATGAAGCTCTTTGTGTTCCTTTTGCA
AGACAGTTGAATGAGGCTTTCAAACACTGATGCACATCCACCTGTTGCCTGTTTTTTTTTAATTGTGGCAAAATATACATAAACTTAAAGTTTACCATCT
TAAGACATTAAGTACATTTATAGTGTGTGTAGCCTGCACCATTATCCATCCCTAGAATTTTTTTTAATCATCCCAAATAGAAATTCTGTACSCATTAAAT
ATAACTCTCCTCTCTCCACCAGTTCCCTGGTAACCCTTATTTAACTTTCCATCTCTATAAATTTACCTATTATAGGTTCGTCCTGTAAGTAGAATCGTAC
AGTAGTTGTCCTTTTGTGTCTGGCCAGTTTCACTTAGCACAGTGCCTTGAAGGTTCATCCATGTTGTAGCATTTATCAGAATTGCATTCCTTTTTATGGC
TGAGTTTTCCATTGTATGTGTATACCATGTTTTGTTAATCCAGTCATCTGTTGATGGACACTTAGATTGTTTTCCACTTTTGGCTATTGTGAATCATGCT
GCTATGAACATTGGTGTACAGGTGTGTTTGAATCCCTGCTTTCAGTTCTTTTAGGTATATAACTAGGGGTAGAATTGCTGGATCATATGATAATTCCACA
TTTGACTTTTTGAAGAACTGCCAACCATTTTCCACAGCAGCTATACCATTTTACATTCCCACCAGCAATGCATGATGGTTGCAATTTTCCCATATCCTCA
CCAGCATTTGTTATTTTTCTTTTTTCATAACAGCCATACTAATAAGTGTGAAGTAGTATATCATTGTAGGTATTTTTTGCATTTCTTTAGTGATTATTGA
TGCTGAGCATCTTTTCATGTGGTTATTGGCCATCTGTATATCTTCTTTGGAGAATTGTCTTTTGCCCATTTTTGAATTGGGTTGTTTAGGTTTTTAGTTC
TTCTTGTTGTTGAATTATAGGGGTTCCGTGTATATTTTGGATATCGACAGACTACAAACATGATTTGCAAGTATTGTCTCCGATTCTGTGGACTGTCTTT
TCACTCTGATGATAGGATCTTTTGATGCACAACAGTTTTTCATTTTGGTGAAGTCCAGTTTATCTGTTTTCTGTTTTGTTGCCTGTGTTTTATCTGTCAT
ATCCTATAGTCATTGCCAAATCTAAAATGTTAAAGATTTTCCCCTATGTTTTCTTCTAAGAGTTTTATAGTTTTAGCTCTTACATTTATTTAGGTCATTG
ATAAATTTTGAGTTAATTTTTTTGTATATGGTATAAGGTAAGTATTCAACTTCATTCTCCTGCATCTGGATATTCAGTTTTCCCAGACCTGTTTGTTGAA
GAGTGTCCTTTTCCCATTAAATGGTCTTGGGACTTTTATTGAAAATTAACTATTTTTGAGCTCTCTGTTCTATTACATTGGTCTGCTTATCTATCCTTAT
GCCAATACTGTACTATTTTGATTACTGTAGCTTTGTAGTACATTTTGGAATTAGAAAGTGTAAGTTTTCTAACTTTGTTCTTTTTTTCAAGATTGTTTGA
GCTATTTGGAATCCTTTAAGATTCTTTGTGAATTTTAGGACAACTTTTTCTATTTGTGCAAAAATGCCGTTTGGATTTTGATAGGGATTGCGTTGAATCT
GTAGATTGCTTTGGATAGTATTGCCATCTTAACAATATTAGTCTTTCAGTCCATGAACACAGAACAGAGTATCTTTTCATTTACTTACATCTTCTKTAAT
TTCTTTCTGCAATATTTTGTAGTTTTCAGTGTACAAGTCTTTAGCCGTGTTAGTTAAATTTATTCCTAAATATTTTATTCTTTTTGATACTATTTAAATG
GAATTATTTTCTTAATTTTCTTTGCACACTGTTCATAGCTAGCATATAGAAATGCAACTAAACTTTGTGTGTGACTTTGTATCCCGCAACTTTGCTGAAT
TCATTTATTAGCTCTAATAGCTTTTTTGTGGRATCTGTAGAATTTCCTACATATAAGAGTATATCATCTGCAAACAGAGATCATTTTACTTCTTCCTTTC
AAATCTGAATGCCTTTAATTCCTTTTTCTTGCCTAATTACTTTAGCTAGAACTTCCAGTACTATGTTTAATAGAAATGGTGAAAGTGGCTATCTTTGTCC
TATTCCTAATCTTAGGGGAAAAGCTTTCAGTCTTTCACCATTGAGTATAATATTAGCTGTGAGTTTTTTATATATGGCCTTTATTATGTTGAAGAAGTTC
CCTTCTATTCTTAGTTTATTGTGTATTTTCATTATAAAGCACATTAAATTTTGTCAAATGCTTTCTCTACATTGACATTACCATGTGCCTTTTTTTTTTA
CTTCATTCTATTTATGGTATATTATGTTAATTGATTTTCATATGTTGAACCATCCTTATATTCTGGGAATAAACCTCACTTGGTAATTGTGTGTGCTCTT
ACTATGCTACTAAATTTTGTTTGCTAGTATTTTGTTGAGGACTTTTGCATTCTTAAGGGCTGTTTTTGAAATTAAAGTTTTATTGGAACACAGCCATGCC
CATTCATTTCTGTATGATCGGTATTATCTATGGCTASTTTCATGTTTCAATAGAGGCCACACGGCCTGGTAAGCTGCAAATATTTATTATCTGGCCTTTT
TTTTTTTTTTTTTTTTTTTTTTTTGAGAGAGAGTTTCAATCTTGTTGCCTGGGCTAGAGTGCAATGGTATGATCTTAGCTCACCACAACCTCCACCTCCC
AGGTTCAAGCAATTCTCCTGCCTCAGCCTGCCCGGTAGGTGGGATTACAGGCATGTGCCACCAAGCGCAKCTAATTTTGTATTTTTAGTAGAGATGGGGT
TTCTCCAGGTTGCTCAGGCTGGACTTGAACTCCCGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCATGCCCAGCCTATC
TGGCTCTTCATAGAAAAGGTTTGCAAACTTCTGAGTTAGACAAACAATTTCTTACTCTGGTTCCACACTGCCCAAGAAATCTGATTCTCATTTGGTTCCT
GTGTAGATGCACCTTTAAAGTCAAATGGCCCTGGTCATGTACCAGTAAATATTTTAGGCGGTTATATTTCTCACAGTAAATTAATAAATTAACATTCTAG
TTTACCTATTATTGTGTAATGACCTATAGCTCTATCCAAAAGAGTCTGYTCCATTTTTAACAGAATCAGGGTTCTGAACTCATAAAGCTGAGGAAAGTAT
CCTGGAAATTGGAAACTTAACCAAATTGCTGCCCTTGAGAAGCCCTGTCTGGATAACCAGCCTTCTGGCTTCCTCTGATGAAATCTAATTTCACTGCATA
TCTTCTTTGATCTACAGTAKTTCATATTTCTATTTTTTTCTATCTTTCGCTTTTAGATTTCTACATCGTACTAAGGAAGAATGATTTCCTATTTGATATA
GCTGAACCATGCAAAAATCAGATCCTTGAAAAGGTCAGAACCTGTATTTATACATAGTAGAAATAGAGAGTTATCCTCTATTAGGCTGTGTATGAATATA
TGTGTCACAAAAAACAGAGCAAATGAAAAAACTTCCCCTTTCTTGACATTTTATTCTGCAGTTTTTACAAATTATGTGTGCCTTTATAATGTGCAAACTA
CACTACTTAAAAGTATGTGTAGAGTACTGTTATTAATCCTGTTTTATAGAAACAATAATGGGCTAAGAGACTTATTCAAAATCCTGTAACTAATAGCTGT
AAGATAAAGCCCAGATCTTTTGCCTCTAAGTCTTAACCTTTCCACTACATTGTAAGTTCGTAATTAGTATCAGAATTTAGTAGACATGTAGTATGCAAGC
TGTATGAACATTGGAAATAATGTATATAAAAGTCTATGAAAAAGTGTTAAAACCCCTTTATGGATGTTAAGTATCATAAATAATTCAGATCTTGACCTTC
AATAGCTAACATATAATCTTGGGATGATACCAGAGTCCTCAATATATAATATACCATTGGCTTAGTATAGCAAGCAAAATTCTTTACAAGGTGCCTCATT
TCTACTTTTCTAGCCTCAGCTCATTCAGTTTCTGTCATCTGTCCCTGTAGCTTACTTTGTCCCTTTTCATCTGTAATAAATGGCTAGCATTGTCCAAACA
CATTGTCCCTTTCCATTTCTATGTTCAATTCCACATAATTAGGAAGAATGCCTGAAATGCCTATTTGTCTTTCTTCGGATAATCCTAGCTCAACTTCATC
TCCTCCATGAAGCTTTCCTCAACCCCCCCCCAACCCCTGGCAAAGTTAATCATTCCCTTCTGTTTTCCCAGAGCACTTTTTATAGCAAATCTCTGTATAG
CAAAAATCACACGATGATTGTATATTTGAATTGCTATCTTTCCTACTAATCTGTGAGTTCTTTGTGAGCATGAACAGGGACTTACACTTATTTGTCTTTG
TGTCTTTAACATGTTACTACTAGGCTTAGATTTTGTTACTCAGCTCAGATGTATTTTGTTTAATGAATAAAATAAGAGCTACAGTTCTTTCCTTATAAGG
ATCTGTATGTACAGTATTCTAAGTGGGAGACTGACCACACAAAAATACCTAAAAACACATAGATATATGTAAAACGATATAGTGTATGCTTGAGGTAAAA
TAATGGAATGATCAGAGCCAGGTTGAGTTATTTAGGGAAGGATTCCTCTAGGTTAGTAGTTGGCAATCTATGGCCCACAGGCCAAATCTATCTGCCACCA
GTTTTTTGTAAATAAAGTTTTACTGGAACATAGCCATGTTCATTTGTTAGTGTATTATATGTCTGCCTTAATGCTATGATAACAGAGTTGAGCAGTTGCA
ACAGAGACCATATGTCCTGTAAAACTGAAAATATTTGCCATCTGGCCCTTTACAGAAAAAGTTTGCCAACCCCTGCTCTAGGAGTGGGCTTTGGATATGA
AAAGAAGAGGAATGTGAATTGGTGAAGCATAAGTGTGCATCATAATGCAATGAAAACAAGCCATAGTAGTAGGTATGCTAGGTAAGAAAGCTCCACTCCA
ATTCAGTTTGTCAGAGAGACCTATGCTGAAGAGATTAAATGTCAAGAATGTTTGGATTGAGAAAGAGGGAACACAAATCTAATGGAAAGAAATTTTGAAG
TAAACACTCCGGGCCTGCAGCAAAATAGTTTCCTAAATAGTAGCAAAGGATGATGATGAAGGAAAAGGAAGCAGCAACATAAATTAACATTGACTGAGTG
TTTACTATGTGCCAGGTACTGTTCTAAGTGKTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTCCTATTTAATCCTCTCAACAACTAAATGAGATAATTGC
TATTATTGTCTTTATTTTGCTGCGGAGGAAACTCAGGCACAGGAGGCTAAGTTAACTTGGTCAAGTTAATACAACTGGTAAGTGATAGAACCAAGTCTGA
ACCCAGGCTGTCAGTCTGCAGAGTCTTCATAATAGAGAAGGGGAAATCTGGAGATATTTGGTAAAAATACTTTTAAGCTTGGAGTAAGGTACTTAGTCCA
AGTAATTGGGAAATGTACTATCCCAACATGGTAAAGAGAAAATGAACAGACAATAAAAGAGTAATGATGGAAGGCAGGGTTTCCAATTAGAAGAGTATAC
TATGGATTAGGCAGAATGGGCAGGGCAAGGAAGCAGATACTTAAGACATGTTATATAGTCATACAGTAAGATACATTATATAGTCAGTCATTGCGTTTAA
CCTTGATGAGACCAGAAAGCAATTAACTTTTCCTTGCACACATGAAAGCTGTCCTAAAATACTTGAAGAGCTGGTATATCCAATTGAGATATAGATTAGC
AGTGACTTTCAAGGAGGTAAGGGGCATTCAACCTTCCCACAAAAATATACACACCTTAGTATCCCAAGTGTATTATAATTGGTGGAGGTGTCAAGTCATA
GCACACACCATTCTCTCTCATTCTGTCTCCCTAAGAGGACTGGTTCCTGTCCAACCCTGTATGATTGCTATGGTAAATATTTACCCCTTTGGACAATTTT
TTTAAAAAAATACATATATATTGTATGCATGTTAAAGTAATACATATGCACTATGAAAATTTTGCCAATAGAAGTATACCAAATGCAAACATTGGCTAGA
GATGGTAGGATTGGAGATGGAAGGAGGAGGAGACATTAAACTAAATGACTTTCAACATTTCTTCCAAATCTGTAGTTCTATGTTTATACCAGCAGAGTGG
TAAGCACAAAGGAAAAGACCACAATGTGACTTTGACATGGTTGGCTTGAATAGAGGATAAAATGGTATAGGAGAAAATCCAATATATGAAATCTAAATTT
ATAGAGCAGATTACTTTGCAGTGAACCTTGGACTTATTTTTATAAAGATTACTTTTAACTAGCCATTTTGATATGTTCAAATATACTTAATTTTAATAAA
AAATTTCATTTACACTTAACTTGTCAGTAGTATATTTACTGTGTAAAATAAAGCAGACACACATTGTTCATTATTTCAAAGAAGGAAGAGATTTCAGCCA
AGTTATGTTGTAGTAGCTACAGTGGAAATAATTGAGCTGGGCCTTGCCCATAAACCTGCAATATGATAGAACTTAAAAGGGGACCAGGCATGGTAACTCA
CACCTGTAATCCCAGAACTTTGGGAGGCCAAGACAGGAGGATTGCTTGAGGCCAGGAGTTCAAGACCAGCCTGGATAACATAGTGAGACCTCGCCTCTAC
AAAAAATAAAAAAGTTAGCCAGGCGCATTGATGCACACCAGTAATCCTAGCCACTCAGAAGGCTGAGGTGGGAGGATTGCGTGAGTCCAGGAGTTTGAGG
CTGCAGTGAACTATGATCATGCCACTGTACTCCAGCCTGAGCAACAGGGTGAGACCCTGTCTCTTAAAAACTAACTAACTTAAAAGATACCTTAGGTATG
TAAGGTATGTAAAGTGCCTACCACAGTGCCAGTAAATGGTAGATGGAGACGCAGAAGAGAAAAAAGATGATGGTGGTGATGATGCTGTTGTTATGTCTTC
TGTCCCCATATCACACTTCTGTAAGGCTTCAGAAAGAAAGTTGGTATTGTATATATTTGTATACACACATACATACATGCACACACACACTGTCCATGCT
ACAAAACCTAAACTTGCACAGTGTTGTTTATAAAAACCAGGACTCAGATTTGAAGTCTCAGATTTGGAAGGAACTTTAAAGGTTACCCAGTCCAGCCTCC
CTCTTCCTCCTAATGATTTAGTATCTTCACCAATAGGTTATTTTACCTCTGCTTTCACATCCTTAGTGATGGCAAATTCATGCCTCTCCTTCCCAGAGAG
CTTATCCCACTTTTGGATACAGAGCTCTGACTGGCAGAAAGTTCTTCCTAATAATATGCTGAAGTCTATCTACCTATAGCTTCCACCCACTGGTTCTAAT
TCTCTCCCTTGGGGTAATATTGAAGAAGTAGAGCAAATCTCATCTCTCTCCTACATGAAATCCCTCCAGATATTTGCAAACAGCTCTCATGTTTCCCCTG
AGTCTTTCCTTCTAGTTAACCTTCCCTAGTTTCTTAAATTCTCACTCTTCTTGTTGCTTTACTTTAAATGAGATTGTGCATTTGTATCTCATTCAAAATA
TAGGACCTAGAATGAAACATAAAATCCTACTTCTGATATGTTTGGACTGGCAAGAATGGAGCATCCAGGACTGTCATCGTCTTTATTCCAAATATTGACT
GGAATAATGATGATGCTGATGCATTGCTTATTTAATGACATCAGATCCATATATGTCTGCTAGGAACTATGAAGTGGCACTATAGGAACCACTGAACTTC
TTCTCTGTTCAAGAAGCATGAGCCAGAAGCATTCCAAAAAGCATTAGCTTCTCTTACGCTCTGCCTCACACCTCTGCAAGTTTCTGGAAAGGGTAAACAT
TATACATAGTTAAAGAATACTAGGACTGCCTGTAGGACAAAGGAAGTCATGGCATTTTCATTAGCCACTTATTGCTAGCTGCATTACTTGTTAAAGGAAA
TACTGGTGTTCTCATGGGTTCTTTTCTGTGCATACACAAAGATGTATAGTTGCTACAAAGCAAGTGGAGCAGGGGGACACCAAAGAGATATGCTCCATCT
TCTTTGTTCACCTCTGCTACATGGAGGAGATAGGATTTATTGCTTTCTTTGAGAAAGAGATTGGCCAGTTTCCTTCCTCCCCCTTCTTCTGGTGGATCAT
TCCAGAAGAATATTGCATCTCATCATAGTTATCTCCTAATAAAGTAAAAGTAAATGAAGGAGAGCTGGAGACAGAGAATCAGCTGAGATGTGCTGGAAAT
ACTCGGCTGGGCGCRGTGGCTCGTGCCTTGTAATCCCATCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAACCTGGCC
AACATGATGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCTTGGTGACAGGCACCTCTCATCCCAGCTACTCAGGAGGCTGAGGCAGGAGA
ATCGCTGGAACCCGCGAGGCAGAGGTTGCAGTGAGCCAACATCATGCCACTGCACTCCAGCCTGAGCAACCAGAGTGAAACTCCGTCTCAAAACAAAGTA
ACAACAACAACAAAAAAAACTTGTTAATGAGAGAGTGGCTGATCAGTGGCACATCACAGATGAATCCTCTGTCTCCTGCCTCCCTGTAGCTTGTCCTTCC
ATCACCACAGTGAGTAGATGTTCTGCTCACAGCTTTTCCATTTTGATTTCTCTGCATATTGGCATAGTATTATGATTTATCTAAAACTGAGAGTTCTGTC
TTTTCTTATTGAATTTTCAGAAGTATGTTTGATGCATCTTTTTTCTGTTTTCCAGTTTCCATTTCTAGGGGAAGTATTCTTCTCTTCCTGTTCTTTGAAA
TACTTAACACAATATCTGGCATGTAGTAAACACTTAAAATGATAATTATATATTAATAATTTGACTGTTATTACTATACAGGTGATAATTTGTAACTAAG
TTTTTAATTGTATCTTAATATATGAAGAATTCTACTTTTCCTTGCTTCAAGGGGTGGCCTGTTGTGATTGTTTTATTACATTTTGAAAGGATACTACCAT
AGCCTTACAGATTCTTCTACTACCTATTATACTTCTTTCAACGACTTCCAGAAATACGGAGTCATTACATTCTCCAGATCTGCACTATGCAATGAGTAGC
CACAACCATGTATGTCTAATTAAATGTAAATTTAATAAAAATTAAATACAATTAAAAATGCACTCAGTTTGCACTAGCTACATTTCAAGTCCTAAATAGC
CACATGTGGCTAGTGGCTACCCATTGGACAACAGGAATATTGAACATTTCCATCATTGCATTAAATTTTGAGAGGCTGAGGCTGGCAGATTCTTGAGGTC
AGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAAGCATGGCGGCACATGCCTATAATCCCAGCTA
CTCTGGAGGCACTGCTTTGGATATTCGTAGTCTATGCTCTTGTGCTCTTTTCTTAGAAATTGAAGAGGATATATTTTCTAGGGTGTTCCTAAGACTAATC
TCTTAATGTTTCAGGGCTCTGAACATGCATTTTGAGGATTCACGTTACTGTTCTTATTCCAGCCCCTTAGTGCCATTACTATCTTTTGGAATAAATACAA
GAACTTTCACATCCTCCAAGAAGATTATACTACCATAAATTTTATTTTGTTTATTTTTATTTATTTATTTATTTTGAGACAGTGTTTCTGTTGCCCAGGC
TGGAGTGCAGTGGTATGACCATAGCTCACTGCAGCCTTGACCTCCTGAGCTCAGGTGATCCTCCTGCCTTAACCTCCCAAGTAGCTGGAACTATAGGTGC
ACACACCACCACACCTGGCTAATTTTTATATTTTTTTTTTTTTTGTAGAGATGGGGTTTCACCATGTTTCTGAGTCTCAAACTCCTAGAGATGGGGGTCT
CACTGTGTTGTCCAGGCTGGTCTCGAACTCTTGAGTTCAGGCGATTCCCCCCTACTTCAGCCTCCTAAAATACTGGGATTACAGGTGGTCCTCCTGCCTT
AACCTCTTTACAGGTGTGAGCCACCACACCCAGCCATTAAGCACTTTCAAAGCCATTTTTTCATTTGTTATTTACAGCAGCCCAGTGAAGCAAGTAGCAT
TGGGATTATTATTCCCATTTTACTAATAAGAAAACTGAGATTCAGTTAAGTTACAGCCTGAAGTCTTTTTGTTTTTTGGGGTTTTTTTTTTTTTTTTTGA
CCAAGTCTCACTCTGTCGCCTAGGTTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTGATGCCTCAGCCT
CTCGAGTAGCCGGGATTACAAGCATGTGCCACCATGCTTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGA
ACTCCTGACCTCAAGCATCCGTCAGCCTCAGCCTTTCAAAGTGCTGGGACTACAGACGTGAGCCACCRTGTCTGGCCATGTTACCTGCCTAACGTCTTAA
AGGGAAAATAAACATTAAGGCAAAATAGAGGAGATTCAGATCAGGGTAAAATTTTAACGTCAAATTCAGCATTTTTTGTTTTGTTTTTACTTTGTTTTTG
TTCTACTTTACTCCCACTCCGACTGTAATAAAAGAGTGAAAGTTCTTTAGGGGAACTGAGGTACTCCCAAAGAATTGCTACAGTCCCATTTGTCCTGTGA
TCATGTGCTTGGGGTGCCATAACAGAATACCACAGACTGAGTGGCTTAAACAATAGAAATTTATATCCTCAAAGTTCTGGGGGCTGGAAGTTCAGTGTCA
GGATGCTAGCGGCAGAGGCTAGAGATGAGGTCTTTCTCCTTAGCTTATAGATGACACCTTCTCTCTGAGTCCTCATGTAGCATTTTTCTCTATGTGAGAG
AAAGAGATATCTCTCATGTCTCATCCTTTTGTTTTAAAGAAACCAATTATATCAGATTAGGGTCTCACCTGTATGACTTTATTTAACCTTAATTACCTCC
TTAAATGCCCTGTCTCCAAATGTAGTCACATTGGGGGTTAGGGCTTTAACGTATGAATTTGGGGGAGACACAGTTCAGCCCATAACACCATGTTAATGGG
TTTTTAGTGTCTTTTGATATTCTGGCTTAACCTGGTTAGCTGGAAACTAAATTTAGTATTTGAATGGGACCAAATGTAGCAAATATCTGTATTCTTTATT
TCTGTGAATATAGAGGCTTAATTAAATTCAACCTGTGGTACTTGCTGTAAGGTACTTTGCAACTCCAAGATATTCTAATAGCAAAAAATCTGTATCTAAA
TTTCCTACTTTTCTTATAATGTAGCCTAATTGTTAATAATTAGAGATCTCAGTACTTTACAGGTAATAAATGTTCTTYTCCTTCCTCCCCACCTACCTTT
TTTACAGATGGAGAAATTAGCATACAAAGAAACTGACTTGTCAGAAGTCAGAGCAAGGTATTGGTGGATCCAGGGATAAATCCCAAACTTCTTAACCCCT
AGACCGGTTTTTAGTCCATTGACTATGCAGCCTAATGGTAAGTATCTTTTTACCCTATCGTGGAGGTAAGAGGGATTAAGAGACCTAGCAAGGACTGGCT
TTAAGGAATTCCTCACGAATAATTAGACTACTCGTTATCCTTTTCTTTATAGCCATGATGTCATTTTTGTCATTGGCATGAATTTTCCAGATTGGGAGAG
GAGGTCTGAAGTTTTGCTTTTTAAATACTTAAAAATATTTCTCGGTGGCTCATGCCTGTAATTCCAACACTCTGGGAAGCCAAGGTGGGCGGATCACCTG
AAGTCAGGAGTTCGAGACCAACATGGAGAAACCCCATTTCTACTAAAAATACAAAACTGGTGGGCATGGTGGCGCATGCCTGTAATCCCAGCTACTTGGG
AGGCTGAGACAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCTGTAAGCCGAGATCTCACCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCC
ATCTCAAAAAAAAAAAAAAAATCTGTAACAATTTGGCTACATGAGAAATAATTATTGAGAAAGGAAACTATTATTTAATGAATTTGTCCACTGTGTCCAG
CAGAAATACAATGCAAGCCACTTATGTAGTTTAAAGTTTTGTAGTAGCCACATTTAGAAAGGTAAAAAGAAGAAGGGGCATGGGAGCTCACACCTGTAAT
CCCGGCATTTGGGGAGGCTAAAGTGGGCCAATTGCTTGAGCCCAGGAATTGGAGACCAGCCTGGGCAACATGGCAAAACCCCATCTCTACAAAGAATACG
GAAGAGTAGCCAGTCGTGGTGGTGTGAGCCTGTAGTTCCAGCTACTAGGGAGGTTATAACACTTTATCACACTTATGTAACTCTCTGTCTTCTAGACTAA
GAGAGGGTGCCTTGTTGTTTTTTTTAATCCTTATTACCTAGCACAGGGCTGGAACTTAGGTAGTCAATGAATTTTTCGTTTGAAGCATGAATAAATGCAG
TTTCAGTATGGAAATATCAAAGATTTTAAGAGTGTTATTTTGAAAATAGTAAGTTGGAAATGGAATTTAAATGTCAAATTGAACAAGATTTAAGAGGAAG
CTACTCTCTTTAAACCCATAATATTGCATTCATTGATTCATTGTATTGACCTAGATATGTGAGATAGTAAGGAGAATAAGACATAATCTTTACTGACAAA
TAGTTCATAATTAAGATATACATGTGATCAAACACAAATACACACATAAGATATAGATAGTTGCTACTATAATATCTCAGCTCCCATAATATTGTTTGAT
GCTTAGTGAAAGAATTTCAAGGCTGAATAGGGTCTTAGAAGTTTATCTAGTTATCTCCCTTTACAACCTGTGAATTTTCTCTCAGCTTGGAAAAGTTTCA
GCATCTTTGGTGAAAAGTGGTCATTCAGCCTTTCTGCTTGTACATTTTAGTGTATAACCAATCCTCCACAGGACAATTCTCATTGCCAGAAAGTCTCTCT
CTGACATCTGCTTCCCTGTAGTGAATGCTTTGTCGAATGCCTCCAATCAAAAGACTACATTTTGTGAAATCCCTGCTGAGCATTCCAGTAGCATGTAAGC
TAGAACARGGGTCTTTTATCTGATTTGTTTAGTGATATATCTCCAGTGCCTAGAATAATGACTGACAAACAGTGGTAATAAATATTTGTTGAATGAATGA
ATCTAAACATAAGCAGGATTTAGAGCATTATTTCAATTCAGTTTTTTAATTGTCAGATTTACTCCCTTTGTGGACTATTACATATCTTTCATTGCTGTTT
CCTGATCAGTTCTTTGCCTGTATGGCATAGTTTAACTTATTGAGCCCTACATTCTTCATTTGTAAAAAGTTATTAATAATACCTGAGATGGAATATATGA
AAATGCCTGGCACTCGGCCTGGTATATATAGTAATGGTAAGTATTAGTTGAATCTGAAATGGAATCAGTGCAGCAACCTCTGAGCCTCCCCTGACCCTGA
CATCCCAGGAATGCAAGTTTATTTTTTAAAATTAATTAATTTCAAGAAGTATACATAACACAGAATTTACCATTTTAATAATATTTTAGTGTACAGTTCA
GTGACACTAAAGACATTCACATTGTTGTGCACCCATCACCACCATCAATCTCTAGAACTTTTTTCATCTTGCAGAACTGAAACTGTACCCATTAAAAATG
GTAAGTTCATTTTTAATGTTAGCTTAGGTAAAGCATGACTGAACTGGTAAATCTGTAGTAGAAAAAATAATACATTCTAAAACTAAATATAAATGACATA
TTATCTGCAGTTTTAAATGATCTGTTTTCAGTTATTGTTTATTAATATGAATAATTGATATCTTACCATGTGACTTCTAGGTATCATTCTCTATGTCACA
GTTGTTTTGATGAATGTGCATTGAAATACTGACTTTTTAATATGGGTAATTTTTCTCTCATTGCATAACTTTCTGCATTTAGTAAAAAGACAACTTTTTT
TTTTCTTTTGACTGCTTGCTGTGTGCCAAACTCTAGGAATACTGATTGGCTTAAGATTATTTAGCTCTGACACTGACAGGCATAAATGTAGGAGGTGGCA
CTACTACTTTGCTTAGGGCTGTCACCAGAAAGCTGTTACAAAATAATATTTGTCCTGGACTGTGAGGAATAAATAGGAATTTCCCAAATAGAGAAAAGGG
GAAGGTCCAGAGGTATGAAAGAGTATGAGTTTGGATGCAGTTTACAGTTGTATGAGCTTGGAAAGAGTATATGTTTGGATACAGTTTAGGGATTGATCCT
TGAAGAGTTTTAAATGGGGTAGTGACATGTTTTATCTTATTTGTATTTTAGAAAAATAATGCTGATGTATGATTGGAAGGCAGTGAGAACAAAGGAATTA
AATAACTGTTTTTATTGGTCAACGTGAGAGATAATGAAATCCTAAACTCTGAATGGGGCAGGGGAGATTAAAGAGAGATGGTTATTTTAGAGATACAACT
GACGGAATTGGATAACCAGTTGGATTTGGAGGACAAGAGGGATTACAGGTTTCTGATTTGTTATGTTAACTGGAATAGGGACTGCCAGAGAAGAAAGATA
TAAACTGATTATTAAATAGTACCTATGTATTATAATATACTCTGAAACATGGCCATTATTCTTAGAACACTTTGAAAAAATGATAGGTGACTAGCTCCTT
TTTTAATGTGTAGAATTCTATCAGATGCTGTATTCTCTTTATTTTGGGACAGTTGCCTGATTCAGGGACAGTTACCTGATTCACTGAGTAGTTTATGGCA
GTACTTAAAAATTACACATTTTGTAATGCATTTGTTTCTTTTTCTTTAGTGCTGCTTTCCATGTTTCAGTAGTTTGTACCAAGAGTCTATTTCTTCCTAG
AAGTTCCTTTTTCATTGTTTTTTTTGTTTTTGTCTTTTTTTGTTTTTAAGACAGAGTCTTGCTCTGTTCCCCAGGCTGGAGTGCAATGACGTAATCCTGG
CTCACTGCAGCTTGGACTTCCTGGGCTCAAGCAATCCTCCCATCGCAGCCCCTTGAGTAGCTGAAATCACAGGTTCCACACCTAGCTAATTTTTTAATTT
TTTTGTAGAGACGAGGTCTCACTGTGTTGCTGAGACTGTTCTCGAACTCCTGGGCTCAATGAATCTTCCTGCCTTGGCCTCCCAAAGTACTGGGATAAYA
GGCATGGGCCACCGAACTTTTTGAACTATTTGATGCCTTTCTGCCCTTAACTGTTATTTTGTTCATTTTGCTGCATAATTGAGTATGGATTTTGTTTTCT
TTTTTATTATTATACTTTAAGTTTTAGGGTGTATGTGCACAACGTGCAGGTTAGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAAC
TCGTCATTCAACATTAGGTATATCTCCTAATGCTATCCCTCCCCTCTCCCCGCATCCCACAACAGGCCCCGGTGTGTGATGTTCCCCTTCCTGTGTCCAT
GTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGCGATAGTTTGTTGAGGATGATGGTTTCCAGCTTCAT
CCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGACTGCATAGTATTCCATGGTGTATAYGTGCCACATTTTCTTAATCCAGTCTATCATTGAT
GGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCAYGATTTATAATCCTTTG
GGTATATGCCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAAGGGTTGAACTAGTTT
ACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCGCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCTATTCTAACTGGTGTG
AGATGGTATCTCATTGTGGTTTTGATTTGCATTTTTCTGATGGCCAGTGATGATGAGCATTTYTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTG
AGAAGTGTCTGTTCATATCCTTGGCCCACTTTTTGATGGGGTTGTGTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTTGATTCTGGATACTAACCC
TTTGTGAGATGAGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTA
ATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTAGCCCATGCCTGTGTCCCGAATGGTATTGCCTA
GGTTTTCTTCTAGGGTTTTTATGGGTTTAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTT
CAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCGTTTCCCCATTTCTTATTTTTGTCAGATTTGCCAAAGATCAGA
TGGTTGTAGATATGCGGCGTTATTTCTGAGGGCTCTATTCTGTTCCATTGGTCTATATCTCTGTTTTGGTATCACTACCATGCTGTTTTGGTTACTGTAG
CCTTGTAGTATAGTTTGAAGTCAGGTAGCGTGATGCCTCTAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCAATGTGGGCTCTTTTTTGGTTCCATGT
GAACTTTAAAGTAGTTTTTTCCAATTCTGTGGAGAAAGTCATTGGTAGCTTGTTGGGGATGGCATTGAATCTATAAATTACCTTGGGCAGTATGGCCATT
TTCATGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTTTATTTCCTTGAGCAGTGGTTTGTAGTTCTCCTTAA
AGAGCTCCTTCACGTCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTG
TCTGTTATTGGTGTATAAGAATGCTTKTGATTTTTGCACATCGATTTTCTATCCTGAGACTTTGCTGAAGTTGCCTATCAGCTTAACGATGGGGTTTTCT
AGATATACAATCATGTCCTCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGTCTGATTGCCCTGGCCA
GAACTTCCAACACTATGTTGAATAGGAGTGGTAAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTGTTGGCCCATTCAGTAT
GATATTGGCTGTGGGTTTGTCATAGATAGCTCTTACTATTTTGAGATATGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGKGTTGTTGA
ATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATCATATGGTTTTTGTCGTTGGTTCTGTTTATATGCTGGATTACATTTATTGATTTGCATATGT
TGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTGTTTTATTGAGGAT
TTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTCTCTGCCAGACTTTGGTATCAGGATGATGCTGGCCTCATAAAAT
GAGTTAGGGAGGATTCCTTCTTTTTCTGTTGATTGGAATAGTTTCAGAAGGAATGGTACCAGGTCCTCCTTGTACATCTGGTAGAATTCGGCTGTGAATC
CATCTGGTCCAGGACTTTTTTTCGTTGGTAAGCTATTAATTATCGCCTCAATTTCAGAGCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTT
TAGTCTTGGGAGGGTGTATGTGTCGAGGAATTTATCCATTTCTTCTAGATWTYCTAGTTTATTTGCGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTT
TGTGTTTCTGCAGGATTGGTGGTGATATCCCCTTTATCATTTTTTATTGCATCTATTTGATTCTTCTCTCTTTTCTTATTAGTCTTGCTAGCGGTCTATC
AATTTTGTTGATCTTTTCAAAAAACCAGCTCCTGGATTCATTGATTTTTTGGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATGTTAGT
TATTTYTTGCCTTCTGCTAACTTTTGAATGTGTTTGCTCTTGCTTTCTCTAGTTCTTTTAATTTTGGATCTTTCCTGCTTTCTCTTGTGAGCATTTAGTG
CTGTAAATTTCCCTCTACACACTGCTTTGAATGTGTCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCGTTGGTTTCAAAGAACATCTTTATTTCTGC
CTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCAGGTTGTTCAGTTTCCATGTAGTTGAGCGGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTTGT
TTGATTGCACTGTGGTCTGAGAGACAGTTTGTTATAATTTCTGATCTTTTACATTTGCTGAGGAGTGCTTTACTTCTAACTATGTGGTCAATTTTGGAAT
AAGTGTGGTGTGGTGCTGAGAAGAACGTATATTCTGTTGATTTGGGGTGGGGAGTTCTGCAGATGTCTGTTAGGTCTGCTTGGTGCAGAGCTGAGCTCAA
TTCCTGGATATCCTTGTTAACTTTCTGTCTTGTTGATCTGTCTAMTGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTCT
CTTTGTAGGTCTCTAAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATGTTTAGGATAGTTAGCTCTTCTTGTTGAATTGAACCCT
TTACTATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCACTGCCTTTTTTTGTTT
TTCATTTGCTCAGTAGATCTTCCTCCATCCCTTTATTTTGAGCCTATGTGTGTCTCTGCATGTGAGATGGGTCTCCTGAATACAGCACACTGATGGGTCT
TGACTATCCAATTTGCCAGTCTGTGTCTTTTACTTGGAGCATTTAGCCCATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTAT
GATGTTAGCTGGTTATTTTGCTYGTTAGTTGATGCAGTTTCTTCCTAGCCTCGATGGTCTTTACAGTTTGGCATGTTTTTGCAGTGGCTGGTACCAGTTG
TTCCTTTCCGTGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGTCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGATTTTATTT
CTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGCGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGTCCCTGCTCTCTTCTGGC
TTGTGGAGTTTCTGCCGAGAGAACAGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCCAACCTTTCTCTCTGGCTGCCATTAACAATTTTTCCTTC
ATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTCGAGGAGTATGTTTGTGGCATTCTCTGTATTTCCTGAATTTGAATGTTGG
CCTGCCTTGCTAATTGGGGAAGTTCTCCTGGATAATATCCTGAAGAGTGTTTTCCAACTTGGTTCCATTCTCCCCATCACTTTYAGGTACACCAATCAGA
CGTAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTGTGTTCGTTTCTTTTTATTCTTTTTTCTCTAAACTTCTCTTCTCACTTCATTTCAT
TCATTTGATCTTCCATCACTGGTACCCTTTCTTCCAGTTGATCAAATCGGCTACTGAGGCTTGTGCATTCGTCACGTAGTTCTCATGCCATGGTTTTCAG
CTCCATCAGGTCCTTTAAGGACTTCTCTGCATTGGTAATTCTAGTTAGCCATTCATCTAATTTTTTTCAAGGTTTTTAGCTTCTTTGCCATGGGTTCGAA
CTTCCTCCTTTAGCTCGGAGTCGTTTGATCGTCTGAAGCCTTCTTCTCTCAACTCATCAAAGTCATTCTCTGTCCAGCTTTGTTCCATTGCTGGTGGGGA
GCTGTGTTCCTTTGGAGGAGGAGAGGCGCTCTGATTTTTAGAGTTTCCAGTTTTTCTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACCTTTAGT
CTTTGATGATGGTGACGTACAGATGGGGTTTTGGTGTGGATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGTCAGGACCCTCAGCTGCAGGTCTATC
GGAGTTTGCTGGAGGTCCACTCCAGACCCTGTTTGCCTGGGTATCAGCAGCGGAGGCTGCAGAACAGCGGATATTGGTGAACAGCAAATGTTGCTGCCTG
ATCGTTCCTCTGGAAGTTTTGTCTCAGAGSGCCGTGTGAGGTGTCAGTCTGCCCCTACTGGGGGGTGCCTCCCAGTTAGGCTACTTGGGGGTCAGGGACC
CACTTGAGGAGGCAGTCTGTCCATTCTCAGATTTCCATCTGTGAGCTGGGAGAACCACTACTCTCTTCAAAGCTGTCAGACGGACATTTAAGTCTGCAGA
GGATTCTGCTGCCTTTTGTTTGGCTATGCCCTGCCCTGAGAGGTGGAGTCTACAGAGGCAGGCAGGCCTCCTTGAGCTGCGGTAGGCTCCACCCAGTTCG
AGCTTCCTGGCCACTTTTTTTACTTACTCAAGCCTCAGCAATGGCGGGCGCCCCTCCCCCAGCCTCGCTGCCACCTTGCAGTTTGATCTCAGACTGCTGT
GCTAGCAATGAGCGAGGCTCCGTGGGCATAGGACCCTCCGAGCCAGGCGCGGGATATAATCTCCTGGTGTGCCGTTTGCTAAGACCATTGGAAAAGCGCA
GTATTAGGATGGGAGTGACCCGATTTTCCAGGTGCCGTCTGTCACCCCTTTCTTTGACTAGGAAAGGGAATTCCCTGACCCCTTGCACTTCCCAGGTGAG
GCGATGCCTCGCCCTGCTTCGGCTCATGCTCAGTGCGCTGCACCCACTGTCTTGCACCCACTGTCCGACACTCCCCTGTGAGATGAACCCGGTACCTCAG
TTGGAAATGCAGAAATCACCGGTCTTCTGTGTCGCTCATGCTGGGAGCTGTAGACTGGAGCTGTTCCTATTCGGCCATCTTGGTGCCACCCCCCGGATTT
TGTTTTCTTTACTGGAATACTTCCTCTTTTCTCCTCTTTCTTTCCTTTTTTTTTTTTGTTTTTTTTTTGTTTTTTTTGGTTTTTTTTTTGAGACAAGTCT
TGCTCTGTTGCCCAGGCTAGACTAATTTTTCTAAATTGCATTGGTTGCTTTTGAATATTGTTTTACTGTTGATCTTTCAGCCTGGTTTCTATTTGTTGTG
GCTTCCTTGAACCAATTTTGTGTATACTGGTAGCTCACCTTTACTTAAGCAATAGAATACTAAAAACTAGTATATAAATGGAATATATATTGTATATTTA
ATTTTTAAGAATATATGTTTTCTAATTATGAAAATTTTTAAACATAAAATTAATCATGATCCCCTAATATATTTGTCAGTAATTTTAAAGCCTAATCTAG
TTTTTAATCTTTACTGATGATTCAGAGGAAAACAAGCATAGCAGGCTACTAGAAAGACAGGGGATGTAAAAACCAGGAGAGAAGGCAAACACTTGGAGTG
GGACACTGGCCAATGTTGCTGCAATGTAATAGAAAAGGGAGAAGTCATAACACATAAGATAGAGAGGTGGCATGAGTCCAATCCCATATGGCTTTGTAAA
GCRCCCTTAATTGAGTATGAAGCTATTGGAGGTCCTTCAGGAGAGAAATGACCTTATCTGTTTTATGTTTTAAAATACTCACTCTGACCTAGTATTAGGG
TTCTCCCCCAAAACAGAAACAATGGGAGCTGTGTAGGTAGGTAAAGAGAGAGATTTATTGTGGAAATTGGCTCACAGGATTATAGAGGCTGAGAAATCCC
ATGATATACTATCTGTAAGCTGGTGCCATAATTTAGTCTAAGTCCAAAGACCTGAGAATCAGGGAGCTGATGGTGTAACTCCTCCTTCAATGCCAAAGAC
CTGAAAACCAGTGGGGAAGGCAGAGGGTACTGGAGGCTCAAGAACTAGGAGCTCCAGTGTCCAAGGGCAGGAGAAGATGGATGTCCTAGCTCAAGAAACG
AGATAATTCACTCTTCCTTCACCTTTTTGTGCTATTTGGACCCTCAGTGGATTGRWTAATGCCCACACACATTGGTGAGGGCAATCTTTACTCAGTCTAC
TGATTCAAATGTTAATCTCTTCAATAAATACCACCACAGATACACTCAGAAATAATGTTTACCAGCTATTTGGGCGTCCCTTAGCCCAGTTAAGTTGACA
CATAAAGTTAACCATCACAAGTACTCGTTTTCAACTCGGCATCYGTATGTATTTCCTTAAGCCATACTTGATCTCCAAATGAAGACAGTAACAAGGTCAT
TATTCTACCTAACATAAACAGCTATCCTGCATACAACAAAAAACACACTAGCCCCTTCCCCAGGGGAGTGAAGTTCTTCAGTGATGTTTACTCTTCTCCT
GATAGCCTGTAACTTAAATATTATGATGTAAAATTAACAATACTTAAATATTRATATAAAGTCAATACAACTTTTGTTACATGATAAGAAAATAAGACAG
GAAAGAAAGCAAAGATATTTGCTTAATATGTGTGTATATACACACAAACATTCATAATGAAATAAGGAGAAAATACTTAGAACAATTACAGTTCTTGTTT
CTGTAACTGGTCACATGGTTATTGCTGGTATTTATAACTTATCTATTCAATTTTTTTTTCTTGTTTGCCTTCTGCAAGAACCTCATGATTCTTTACCCAG
CAGGGTGACCCAAAGGTTTGGCCCATTTGTAGTTCTGCCTGGATTGCATTTTTGTAGTTATCCATTGGCCCTAATCACAACGTGGAGTAATACTGAGAAA
CACCCTAAGGTATCTCCTGTACTGTAGACATACTCTTCAATTCTTCCATTGTGGAGTAGTAGTTCAGTTTCTCCTTGATAGTCCAGATGAATCACCTCAG
CCAACAACACCACAACTCCCTCTTTACCTGTTGACTCAGAGGCACAAGGAGCCCAGAGTAGCTGGGTGGCAGTCTTTAAAAAAAAAAAAAAAAAAATTGG
AGACTTTTTTGGTTTTGTCTGTTATTATTTTTTAATTGAAACATAATTGTACATATTTATTGGGTACAGTGTGATATTTCAATACATGTACACAATATGT
AATGATCAAATTGGTAATTAGTATATCAATCCCTTCAAACATTTATCATTTATTTATGTTGGGAGCATTCAGAAATATGCTCTTCTTGCTATTTGAAAAT
ACATAATAAGTTCTCATTAATTATAGTCACTCTATAGTGCTATAGAACACTATAACTTATTTCTTTTATTTAGCTGTACTTTTATATTTGCCCCCCTACC
TCCCCTTCCTTCCCTTTAGTAACCACTATTCTGTCTACTATGAGGTCAACTTTTTTAGCTTCCACATATGACCAAAAACATGTGGTATTTCTTTSTGTGC
CTGGCTTATTTCATTAACCTGATGTTCTACAAGCTAATCCATGTTGCCACAAATTACAAAATTTCATTCTTTTTATAGCTAAATAGTATCCCATTGTTTA
TATATACCATATTTTCTTTATCTATTTATCTAATGATGGACACTTTGGTTGATCCCATATCTTGACTATTATGAATAGTGCTGCAATGAACATGGGAGTG
CAGATAACTCTTYGACATACTGATTTCCTTTCCTATGGATATATACCCAGTATTGGAATTGCTGGATCATATGGTAGTATTCTTTTCAGATTTTTGAGGA
ACCTTCATCCTGTTTTCCATAATAGCTGTACTAATTTACAATACCACCAACAGTGAATAAGAGTTCTCCTTTCTCCACATTTTTGTCAGCATTTATTTTT
GTCTTTTTACTAGTAGCCACTGTAACTAGGGTAAGATGATATTTCATTGTGGTTTTGATTTGCATTTCCCTGATGATTAGTGATGTTGAGCATTTTTCAT
ATACCTGTTAGCCATTTCTATGTCTTCTTTTGAGAGATACTTATTCAGCTCATTTTGTTTATGTTTAAATCAGATTATTTGTTGTTTTGTGTTTTGGGGG
GGAGTTTTTTGTTTTTTGCTGTTGTTTGAGCTCCCTGCATGTTCTGGATATTAATCCCTTATTGGATKAATAGCTTACATATATTTCTCCCATTCTGTAC
TCTTTTCCCTCTGTTGATTGTTTCCTTTGCTGTGCAGAAGCTTTTTAGTTTGATATAATCTCGTGATGTCTAATTGTGTAATTTTGCTTTTGTTGCCTAT
GCTTTTGAAGTCTTCTCCATAAAATCTTTGTGCAGATCAATGTCTTGAAGCATTTCTCCTACATTTTTTTTCTAGTAGTTTTATAGTTTCAGGCCTTCAT
TTAAGTCTTGATCTGTTTTTAGTTGATTTTTGTACATGATGAGAGGTAGGGATCTAGTTTTATTTTTCTGCATATGGATATCCAGTTTTCCCAGCACTAT
TTATTGAGGAGACTGTCCCTTCCCCAGTGAATGCTCTTGATGCCTTTCTCAAAAATCAGTTGGCTGTAAATACATGGATTTATTTGTGGGTTCTCTATTC
TGGGTTCCATTGGTATATATGTGTGTTCTTATGCCAGTACTGTGGTGTTTTGTTTACCTTATCTTTGTAATATATTTTGAAATCCAGTAATGTGATGCCT
CCAGCTTTGTTCTTTTTTGCTCAGGTTTGCTTTGGCTATTCAGAGACTTTAATGGTTCCGTACAAATTTTAGGGTTTTTTTTTCTATTTTTGTGAAGAAT
GTCATTGGTATTTTGATAGGGATTGCATTGAATCTATAGATGACTTTTGGTAGTATGGTCATTTTAACAATATTAAGCCTTCCAATCCATGAACATGAGA
TATATTTCTATTTTTTTGTGTCCTTTTCCATTTCTTTCATCAATGTTCTGTAATTTCCCTTGTAGAGATCTTTCACCTCCTTGGATAAATTTATTTGTAG
GTTTTTTTTTATAGCTATTGTAAATGAGATTACTTTCTTGATTTCTTTTTTACTAGTTCATTGTTGGTTCAGTGCTACTGATTTTTATATGTTGATTTTA
TGTCCTGCAGCTTTCCTGAATTTGTTTATCAGTTCTAAGAATTTTTTGGTACAGCGTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAG
GCTGGAGTGCAGTAGTATGAACATGGCTCACTGCAGCCTTAACCTCTCAAAAGATCCTCCCACCTCAGCCTCCAAGTAGTTGGGACCACAGGCATGTGCC
TCCATCCTGGCTAACTTTTTGTATTTTTTGTAGAGATGGGGTCTTGCCATGTTGCCCAGGTTGGTCTTGAAGTCCTGGGCTCAAGTGATACTTCTGTCTC
ACCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCATCTTTCCTCTTAATATTGCTTTTGCTGTATCCCATAGGTTTGGGTATGTTA
YGTTTCTATTTTCATTTGTTTCAAGAAACTTTAAAATTTTCTCCTTAATTTCTTCATTGACCCATTGGTTATTCAGAAACATGTTTAATTTGTTTCTTTT
TCTACAATTTTGAAAGTTCCTCTTGTTATTGGTTTCTATTTTTATTCCATTGTGGTCTGAAATGATACTTGATATGATTTCAGTTCTCTTAAATTTGGTG
AGATTTACTTATGGTCTAATTTGGAGAATGCTTCATGTGCTTATGAAAATAATGTATATTATACAGCTGTTGGATGACAGTAAAAGTACTGTCACCTAGC
TGGCACTGTAACTGCATCTTTTTTTTTTTTAATTTTTAATGTAGACAGGGTTTTACCACAAGGCCATTCCATAGTTCTGTCAAGCCAGCTGCTTCAGGAT
GATGCATGTTAAGATCATTAATTCCATGAGCATAAGCTTATTGCCACACTTCTTTGTGTGGCTTCTTGGTCAGAAGCAGTGCTGTCTGTAATGGTGGATA
AGGGATTTTGTGAGTCTGCAGTTGGTAGTTTTGACAGTAGAATTGCATGCAGGGAAGGCAAATCAATATCCAGAGTAAATGTCTATTCCAGCTGGACAAA
ATGCTGTCCCTTCCATGAAGGAAGCAGTCCATTGTAATCAACCAGCCACTGGGTAGCTGGCTGATCACCCTGGGAAATAGTGCCATATCAGGGGCTCAAT
GTTGATCTCTGCTACTGGCAGATTGGGCACTCAGCAGTGGCCATCGCCAGATTGGCCTTGGTAAGTGGAAGTCTATGCTGCTGAACTTATGCATAATTTC
TATGCAAATAAGTGATGGAGGTGCCATTTACTGGGTTGGGGAAGACAAAAAGTAACAAGATGACAGAGGATGGCCTTCTGTTTTAGTCATGTTAAGTTTT
TAATATCTGATTGATAACCATGTAGTGATGGCCTATAGGTAGTTGTTTATGTGAATGTGTGTGGGATTCTAAGAATCCAGTTCTGGAAATGTGAATTTGG
AAGTAATCTTAATGGTGTGGTGAGCAGACACACCCTATTTGAATGAGGAGATAGTATGGGGTAGTGAGGAGGCAATAACTGTGAGGTAGCAATAACTGTG
AAGTAGTGAGGAGGCAATAACTGCAGATAACTCTTAAATTTTCCTGTGAAGGAGAGCAAAGAAATAGAGGGATATAATAGGAGGGATATGTGTGGGATTA
AGAGAAGGATATGAGGTTTTGTTTATTTTAGGTTTTCATTGATAGGAAATAATAGAGCAATAAGAATGCTGGTGGCAAATGACCTATTAGAAAGGAGGTA
CTTGATAGTAGGGTCAGCAATGTGGCAGAATAGGAAACTCCTGACTCTCCCTCCACCCATGAATGCACCAAATAAATATCTATTCATGGATCAGTTCTCT
CTCAGAGAAAGTCAGAGACTAGTTGAAAGATTCCTACCCATGGGGCAACTGAGGAAACATCCTCATCGAATGGGTAGGAAAAACTGAAGCACGCTAGGGC
CAGACCCCACCCTGGGCATTGTGCCATAAAATTGGGAAGGGAAGCCCCAGCATCCAACTTCTCCCCATGGAGAGGAGGGTTTTAACCCCACATATAGCAT
CCTAACTTAAGATTCTTCATGGTCTGGCTCTTAATTCACCAACTCTGGGAGCAGAGGGGATTAGACATACGCAAGTCTTTCTAGACCACAGGAAAAAAGC
CGCAGTTAGATATGGGCATTTAAGCACTTCAGAGCTTTCATCCCCCAGGAGCAATACATAGAAGGGACTTAAGAAATGAAGCTCCCTGTTTGCCCCCARA
AGGAGTTTATGACACACTATTCCAGCAGCTTCTTGTTTGTTTGGCTTCTAACTAACTTACATTGGGGGAGTTTAGGGGCAGTCAAATATTAACCTGCCAC
CAGCCTGGGAAGAGTTTGTCCACACATTGAGTCCCTCAGCTTTCACAGCTTCCACCGAGGGTCTACATCCTAAAACTCTCAGCTCTGGGAGAAGAAGGGA
TTGGCCTATGCAGATCTCTAGACCTCTGCAGGAAAAAAGCAGCAGATTTATACGGGTGCAGAAGCACATCGCTGGACTTTATTCCCCAGGAGAAGTGCAG
AGAAGGGGCTTAAAATGTAGCCCCCTGTTTTTCCCCAGAAGGGATTTATGACATACTCTTCTGGTGACTACTTGCCAGCCTGGCTTCCAACTAACTTGCA
TTGAGGAATTAAAGGGGTAGACAAATATTAACCTGACACCACCCTGATAGGCGTATGTCCACACAACGAGTGTCCCAACTTTTACAGCTGTCTCCCAAAG
GATTATATCCTAAACATCTTAGCTCTGGGAGCCAAGGGGACTAGGCATAGATGAGTTTTTCTAGATCACAGAACAATGGGGGTGGCTTTAAATAGGTATA
CAAATACCTTCAGAGGTTATACCTCCTCTGAGCAGTGAGCAGTGCAGAAAGGAAGTAGGAACATGTAGGTCCCATTTGTTCTCCAGAAGGGGCTTATAGC
ACACACTTCCAGCAGCTACTTGGCAGCCTGGCTTCTAATGAACTTACATTCGGGAGCTGATGGGAAAACAAACRGTAGCCCTCTAGCTAATCTCAGTGAT
AAATCCAAGGCTACTCATTCTTCCTGGAAGGAGTTTCGTCATGTCTCAAGTGCCACAACTTCTATAACTTCCACCCAAGGGACAAGCTTTGGGAGTCAGT
GGAGCTTTGCATTCATGAGTAGCCTTAGACCACAGCAAACAAAAAGGTGGACGTACAGTAGGACCACTTCTACGAGCTTCTCCTCAGGATCAGAGGGTGC
AACCTGAATTTGAGTACAGGTTTTTGCCACAGATCTTCTCCTTAGCTTAGAGCAGACAGAGAGTGGGACATAAATGCTCAGGCTCAGCTGTGAAGATAGA
AGGAAATGGAAAACCCATTCAGCACCTCAACATCTCCAGCTACATCTAGAGATTCTGGCTCCTACTCTACGGTATTGTGGGGGTATTGATGGAATGTGGT
ACATCCTAAGCTCGAGGGGACCATCAAAAAAGAGACAGCAGTCTGAATAAACACAGAGATWAGAGAGCACCTTAAAATTTTTGGCTGGATGGATTGGTGA
GATCCTTCTCCTACATGAGGCCAGTCTGACAAGTCTGGGAGAGGTTATATTCTTATGTAATGCATAGAAGCTAACACAAAAATCAAAGAACAGAGAATCT
ATTCCCAAAAAAAAAAAAAAAAAAAGACAAATCTCCACAAGTGAAATAGAGATATGTGATTTACCTGACAGAGAATCTAAGATAATGGTTATAAAGATGT
TCACTGAAGTCAAAAGAACAATGAAATAACAAACTAAGAACTTTGACAAAGAGATAGAAAGTATAAAATAGTACCAAATAGACATCAAAGATGTGAAAAA
TACTGTAACTGAACTAAAAAAATTCAATGGAGGTATTCAACAGCAGATTCAATGAAGCAGAAGAAAGGATCGATGAAATCAAAGACAGGTCACTGAAAAA
AATCCAATCTGAGCAAAAAGAAAAAAGAATGAAAAGGATAGTTTAAAGATAGTTTATGAGACCTGTGGGACACCATCAAGTGGACAACAAATGCATTATT
GATATGTCAGAAAAAGAAGAAATAAAATATATTCAAAGAAATTATGTCAGAAAACTTCCCAAGCCTTATGTCAGAAAACTTCCCAAGCCTGGGGAAGGAG
ATAGAAAGCCAAATCCAGGAAGCCCAAAGAACACCAAATAAGATGAACCCGAAAAGATCCACACCAAAGCAAGTTATAATCAAATTCTAAGTTAGAGAGA
GTTGAAAACAGCAAGGGAAAAGTGAATTGTCATATGTAAGGGAACCACCCTAAGGCCAGCAGTGGATTTCACAGCAGAAACCTTACAGATCAGAAGAGAG
TAGGATGATACATTCAAAACCCTGAAAGGAAAAAAAAAAAAAAAAAAAACWCTGCCAGCAAAGCATACTATACCCAGCAATCCTGTCTTTCAAAAAACAA
AGGGATGATCAAGACTTTCTCAAATAAAAACAGAATTTATCCCCACTAGACCAGCCTTACAAGAAATGCTAAAGGGAATTCGGAAGAGAACGTTAATCAG
CAACGTGAAAACATGAAAGTATAAAACTCACTGAAAGAGGAGATATTACAACTGACAACATAGAAATACAAAGGATCATGAAAGACTACTATGAACAGTT
ATAAGCCAACAAATTGGACAACCAGAAGAAATGAATACATTGCTAGAAATATGTAGCTTACCAAGACTGAATCACAAAGCAGTTGGAAATCTGAATAGTC
CAGTTATGAGTAATGAGATTCAATCAGTAATTAAAAGTCTCCAATCAAAATAAAGCCTAGGACCTAATGGCATCATAGCCAAATTGTACCAGACACTTAA
AGAAGAACCAATACCAGTCCTTTTCAAACTCTTCCAGAAAGTTGAAGAGGAGGGAATTCTTCAAAATTTATTTTATGAGGCCAGCAGTACCTTGATACCA
AAGCCAGACAAAGATACAACAAGAGAAGAAGACTACATCTCCCTTCATCTGAATGGTAAGAAGAAAAAGAAGACTGCAGACCAATCTCACTGATGAACAT
GGATGCAAAAATCTTCAACAAAATACTAAGAAACCATATTCCGTAGTATATTAAAAGGATCATTCACCATGATTAAGTGGGATTTGCCCTTGGGATGTGA
TGGAAATGAATAAATGTGAGTCACCATGTAACAGAATAAAGGACAAAAATCACATGATCATCTAAATAGATGGAGAAAATGCATTTGACAAAATTCAACA
TCCTTTCATGATGAAAACTCTCAATATATTAGATATGGAAGGAATGTTCCTCAACACAATAAAGGCCATATATGACAAGCTCATAGCTAACATTGTACTC
AGTGGTAAGAAGTTGAAGGCTTTTCCTATAAGACCTAGAACAAGACAAGGATGCCCGCTCTTACCACTTCTGTTCAACATAGTACCAGAAGTCCTAGCCC
GAGCAATTAGGCAAGAAAAAGAAATAAAAGACATCCAAATAGGAAAGAGTGAAATGAAATTGTCTCTGTTTGCTGACAACATGATCTTACATATTGAAAA
TCTCAAAGACTGTACCAAAACACCATTTGAATTAGACAAATCCAGGAAAGTTGCAGGATACAAAATCAACTTACAAAAGTCAGTACATTTCTATACACTA
ACAGTGAACTTTCTGAAAAAGAAATTAAGAAAACAATCCCATTTACAATACCACTTACTTCTAAGTAAAATACTTAGAAGAAAATTTAACCAAGGAAGTG
AAAGATCTATACACTGAGAACTGTAAGACACTGATGAAGGAAATTAAGGACATCACAAATAAGTGGAAAGATACCCAGTGTTTATGGATGGAAAGAATTA
ATATTGTGAAAATATTTATACCACCAGAAGAAATCTACAGATCTAATGCAACTGCCATCAAAATTCTAATGTCATTCTTCACAGAAGTAGAAAAAACAAT
GCTAAAATTAATGTGGGGGAGACACAAAGGATCCCAAATAGCCAAACAATCTTGACCAAAAAGAGCAAAGCTGGAGACATCACACTACTGTATTGCAAAA
TTTATTACAAAGCTATAGCAATCAAAAAAGCATGATGCTGGCATAAAAACAGACAAGTCTACCAATGAAATAGGACAGAGAGCCCAGAAATAAACCCATG
CATCTACAGTCAATTGCTTTTTGACAGGAACACACATTGAGGAAAGGACAATCTGTTCAAAAGGTGGTATTGGGAAAACTGGATATCCACATATAGAAGA
ATGAAAGTGGATCTTTATTTCACCCCTCATATGAGAATCAACTCAAAATGGAATAAAGACTTGAAACTATGAAACTGAAACTATAAAACTGCTAGAGGTC
TGGACAGAGATTTCTTTGATATGAACCCAAAAGCATAAGCAATAAAAGCAAAAATAGACAAATGGAATTGCATTAAAGTGAAAAGCTACTGCATAGAAAA
GGAAACAATGAAGGAAAGAGACAACACACAGATTGGGAGAAAATATTTGCAAATGATACACTGGAGAAGGGACTAATATCCGAAATATACTAGGAACTCA
AACTACTCAGCAACAAGAAAACAGCCCTGTTAAAAATAAGCAAAGGACTTGAATAGACATTTTTCAAAAGAAAACATATAAATGGGCCACAGATATATKA
AAAAAGTCCAACATCTCTAATCATCAGAGAAATGCAAATGAAAACCACAGTGAGATACCCTATAGCCAACACCTTTTAGGTTGGCTCTTATCAAAAAGAT
GAAAGATAAATGTTGGCAAGGATTACAAGAAAAAGGAACCTTTATACACTGTTACGGATATCACAAATTAGTACAGCCATTTTGAAAAACAGGATGGAGG
TTCCTCAAAATACTGAAAATAGAATTACCATATGATGCATCAATCCCACTACTGGCTATATCCCCAAAGGAAATGAAATCAGTATGTTGAAGGGTAGCTT
CATCTGCATGCCCGTATTCATTGCAGCACTATTCACAGTAGCCAAGATATGGGAATAACTTAAGTGTCCATCAATATATGAATGGATTTAAAAATGTGGT
ATATATACACAATGGAATACATTCTGCCTTAAAAAAGAGGAAATTCTGTCATTTTTGACAACGTGGATGAACCTAGAGGATGTAATGTTGAAGTCAGTTA
CAGAACGACAAATATCATATAATCTCACATGTAGAATCTAAACAAAGTCTAACTTATAGAGAAGTAGAGAGTAGAATGGTGATAACCAGAGGCTGGGAGG
GGAGGGGTGAGTATAGAAAAAAGGGATACATTGGTCAACAGGTAGAAACTTATAGTTAGATAGGAGGAGTAGTTCTGGTGTTCTATTGCAGAGCATGTTG
ACTGTAGTTAATAATAATGTATTATGTATTTCGAAATAGCTAAAGAGAGAACTTTAAATGTTCTCACCACAAAGAAATTATAAATATTTAAAGTAATGGA
TATACTAATTGCTATACTCTGGTGTGATCATTCCACAATGTGTACGTATATTGAAACATCACTTTATACCCCATAAATATGTAAAATTATTGTTGGCCAA
TTACAAATAAAAGCAAAAAAAATAAAGGGGATACTTGCAAGGTTTTTGAGAGGATGAGAGACTCTGGGACCTGCAGCTAAAATGGAGGGTTGGCTTTTGA
TAAAAACAGAGACACTTCATCCACAGTAACAGGAGAGAAGTCAGAAAAAATCATGAATGAATAGGTAATTTATTCACCAGACATTTAATGAGCGCCTGTT
ACTATACTACTTACTGGGGATTCACCACTAAACAAGATCAAGTCTCTACCGTCGTGAAATAAGTGGAAGGGTCTTACCCTTATTTCTGTTTTCTCAATGA
ATCCTGAATTAAAGTCATCCCCTAAGAGTGAAGTTGGGGAGAGTATATTTGGAGTTTGAGGAGAGAGAGAAAGATACGAATTTTTTTTTTTAGAAATTGG
AAAAGTAAACATAGTGTAGAAATGTGGTATGATTTCTGGGTGGTGTAAAGTGGCATTTGAGAATTATAGCTATGAGTTTAAAATGAGACCAATTAGCTTG
CATATGTTTTTCTTCAGCACTAGTGAGCTGCTGGGGTAGGCACAGTATAGGTTGATACGTGATTTAACCAGATTTAGGATTGAGCCTTTAGTAGGTACGT
TTGACAAAAAAGAGATGGGAAGGAGGAATTAAGAGTGTTTGCCAGAGAATGATGTTAATGAGGGACCATGGAGTCTGAGCTGGGCAAGAAATTAAGTAAA
GACATGATAGGTGATTGATGGTGAGAAAGTAGTAGAGTCAGTAGATGAATCTAAATTTTCAACCAAGGAAAATATATTCTCCTTATATGAGTAATGTATC
CTTTTTATGGAAAATTTGAAAATATATAAGATTATAAAGTAGAAAGTGGGTGCAGTGTCAGGGAACCCAGTACTACCACCCAAAGATAACCAGTTGTTTA
TATTTGCTGTGTTTACTTATATGTTTTTTTCTAATGATAATTTCCGCAGTTGTCTAAGTTTCCAGGGCTGCTGTAACAAATATCATGGACTAGGTGGCTT
AAACAACAGAAATTTATTTCCTCACAATTCTGAAGGCTAGAAGTCTAAGATCAAGGCATTGATTGGCAAGGTTGATTTCTTTCTTCTGAGGCCTCACTCC
TTAGCTTCTGAGGCTTCTCCCTCTGTTGATTACATGATATTTTCTCTGTACCTGTGTCCAAACCTTCTCTTCTTATGATAACACCAGTCATGCTGAATTA
GCGACCACCTTAGTGACCTCATTTTAACTTAATTATCTCTTTGAAGACCCTTTCTCCAAATATTGTGGGATCCTAGGGGTGTTGCTTTTCTGGCCGGAAA
CCTGTGGCCAGTGGTGCCTTTGCCTGAGTTTTGCTTGGGCCCACTGGGCTCGTTCCACTCACTTGGCCTGGCAGGCTGCTCATGCTATCAGCCTGGATCT
CACGCCTCCAAGAGAGACTGGAGTTAGGCATGGAGTGGTGAGGAGTGTGTATGAACGAGCTTGGGGCCCATCTACTGCGCAGTCAGACACACCAGCTCCT
GCCGCAAGGTGGGCAGCTCCAGGTGCCAGCATGGATGCCAGCTCTCTGTGAGGCTGCAGCTGGACCAGGCACACCACAAGCAGCTTCCCTGGCTGGCACC
AAAGAATGCAGTAGTSCCCAAAAGCTTGGAGGAACCACAGGGCCGGAAAGAGGGAGTCACAGCCCTGACTCCGGAAGCTCCCAGGTCTGGGCYCCCCAAA
SGGCTGCAGCTCTTCCCTCCTTCTCTTTGCCCAAACTGCAGCAAGCAGGGGGCATATTTCAGCCCTTTTGGTGTTACAGCAACTCTTTTAGCCACGCCGT
TCAGCAGATCCCGAGTTCTTGTCCTGCAACCAGGAAGAATGAGGTACGCAGACAAGTGGAGGGTGAGCAAGATGAAGAGGTGCTGTATTGAGCAATGGAA
CAGCTCAGAGAAGACTCACAGTGCCAGGGCGTCCCAGTGAGTGTTCAGCCCCTAGCAGGAAGGATAGCTCCTCTCTGCAGGTAGGTTTTCCCAACAAGTG
TTCACTCACTTCTCAGCAGAGAGGGTGGCTCCTCTGCAGCTGGTCATCCCATCTTCTGCAGTTCTCTGCAGAGGCAGAGAGGAGGCCCTAGAGTGGGTGG
CTCCTCTCTGCAAGCAGGTTGTCACGTCATCTCTGCAGCTCTCAGCAAAGAGGAGGCCCTAGAATGGGTGGCTTCTTTCTGCAGGCAGATTGTTCAGTCA
TATCTTCGTCCTCTGCTCTGCTCTGGGGCTGATCCTGGGGCTTTTATGGACCTCAGAGGGGAGGAAGTGTGTGCCCATTGGTCTATGGGTGGCCATAGGC
AGGCCTGGAAAAGGCACCACAAGTCCCCACTCCAGTCTGCAGGACTGGCAGTTCAGCCCCCAGCCTTCAGGCTCTCCCTGGCCTGAAGGTGGGCCTCACC
AGGGATCCGCCCTTTTCTGCTTAGGAACCTATCTGCCTCCTGCTGCCATTCATAGCATCCAGACTCCACCCTGACTTTGCTCCAAGATCAGAACAGGTGC
CAACAGCAGGGAGAAGCCAGGCAGGGGGAGCAGGCATTTCTGATCCTGGGAGGGAAGAGGGGTCCTGGCTGGACCCCCAAGAGTGCAGGGGTACCTGGGT
CTGCAGCCACATTTGGGTGGCTGCAGCTGTGCCCGTCACGGCAGGGCTCCTGCCTGTTCCATGGAGCAGGAGGTCTGGGTTTGCAGCCTCGGTTTGGGTG
GCTGCAGCTGCACCCAGGATGGCGGGACTCCTGCCTGCTCCCAGGCTCCCACCGGCTCCATGGAGCATGCATTCCCAGCTGTGCCTCCCTGCTGCAGCCG
GCATGATGACAGCAGCTGCTCCAGATGGCCCACCGCTGCCATCACAAATACAGTTACATTCTGCGGTACTGCGGAGTGGGGACCTTAGCATGAAGTTTTG
GAGGATACAGTTGAGCCCATAACTGGGGTGCTGTTTGTTTTTAGTGTTTTAAATAATTGTGATCATTCCATGAATATAATTTTTATCCCCATATTTTACC
TAATAACATAACATAACCATTTTCCCATTTGTTCTTTAGCCTTTTAAAAATTTAACAGCTTCAAAATACTTTGTCAAGTGTTTGTATTATCAAATCTTAA
TCAGTCTTCTATTTTGAACATTTAGGTGTTCCTTTTTTTGTTATTGTAAACAATGCCAAGGCTTTTTACATAAAACCTTTTTCTTGTATTTTGGAGTATT
TTTCCTTAGCATAGAATCTCGGAARTGGATTACTTTATTAAAAACTGTTAATACATACTGCCAAATTGGAAAAGTATTTAATCTTATACTTTCTTTCCAC
ATGACTATTTTTCTCTCCCTCTGCAGTGATAGACTGGAGTGATGTTAGAAAACACAAATATGGTCACCTATCAGAGTCTGCATCCCAATATCAAGGTAAG
GGGGAAAAAACTCCGTTTGGTGTGGAAAAATTTTACTCGGCATCTTTTCCCATAAAACCTTCGTTGTTAGAGGTCTGAGTTTACAAATAACTCAATTGTT
ATATCAGAAGCAAATATTGCAGTTTACAGAGGTATTGGTCATAAGCAATATACTTTGTTTTAGCTGGAAATAGGAAACCTAGATTCTGAGTATAGGTAAT
CCCAAATTAGCTTCATAGTTTTAGGCACGGTTGCTTAGCCTCTCTGGGTTTTCTATAGTTTGTATAAGTTTAGGCTTGGGAATAGGCAAAATTGGGTGGT
GTGCTTCCACAATGACTACTAAGAATCTCAGTGTCTTTTAGGATGAGATAACTGAACTAGACAAATACTCGATTTCCTATTTTACCCCAGAATTTCACCT
TCCATCATGTTGGTATGTTTGTCTTAATGACTTATGCTCCAACATTTTTTTCTTTACTAGAAGCTGCTGACATCCTGGATCTAGGTAAGCTATTTTTCTT
GTGTTTCTGTTAAATAAGGGGAATTGGTAAACCAGGGATTAGATTATAACCAGTTTTAACCAACGAGGAAAAGAATTCCACGTGTCTCTGTCTCAGAAAC
CAGTGAATCCTGTGCTCTTGTCTGCCTAATTATCCCATGTACTTCATCTCAGCTGTCACATCAAGTCCTGCTTATCAGTAGGCCACAGACCAAGCTAACA
AGAAGGGAGGGAAGGTGGTTAATTACATGGGGTATAGGGGAGAACAGGAACTGAACCAAACTGGAAATACCATCTTAATTTACTGAATCCAGAACTAAAA
CAAACCCCTGCCATCCATAAATCAGTGTTTGGTGGGATTTTTCCCCMAAAAAAATTACTTGTAAGATAAATTGAACTGAAACTAAACCTAAACATTTTCT
AACTTTATTGACAAATAAAAACTGAAATATTAAAATATTATCAAGTAAGAAGTCAGACCAATAATTGCATTTGGTTTTCCTCCCTGGTTAGTGTATTTCA
GGACTAAGATTTGAGTAATAAAACTAGTTCTAATACTTCTCAATCAGAGTTCCTGCATAAACATCAGTCTTAACATTTTAGAATCCTTTAAAATCCTTTT
ATATGTTACATAGATTTTGATATCCAGATACCTGTATCAATTTTTGTTCAAGTATTTTGATATATTTTGTTACAACTTGATATTTATTTAGCTCTATTAT
TATCATTGTCTATTTGCCTCCTCTTGCCTTTCTTTCCTGCAACATATTACTTTCCATTGCCCAGTGACACAGAAGATAACATGAAGTAGTAGAACACTAG
ACTAGGAGTCAGAACTCCTAGGCTTTTTGAGAGCCAGTTCTGCCACTTAGTAACTTTGTGACTCTGATCCTTAGTTTTCTTATTTGTAAAATGGGGATAA
TAATCCCATTCTGCCTACTTCACAGGGTTGTAAAGAAGATTACATGAGCTAATGGATGTGAAAACATCTTAAAAACTCTCAAATACTTTTCAACTTTGGA
GGATTATTATGATTTTCATTCTGTTCAGCGGCTATACTCAGACTTTACTCTAAAAGTCAAATCTTCTGACATTCTTTGAAGTGAAGCATTCTATGAATGT
GAGCTGAAGAAATGAATGAAATGAAATAATGCAGGTAAAGGTGCCTGGCACTTGATAAATGATAGTTATTTTTTATTATTCTTTAAAACTTTCCTCAAGC
TTTTTAAGGTACTGATGTGTGGTAGAAAAAACATGGACATAGGAGTCAGACAATTTGAACCAAGGTTCAAATTCCTATTCCCACTTACCARTTTTGTGAC
TTCAGGCAAATTACTTAATCTTTCTAAGCCTATTTCCTCATCTTTAAAATGGGAGTAAAACCTACTTTGCAGGTTATAATGAACMCAGGAGATAATGGAC
GTAGTCTGGCATGGTACAGGCAAATGGAAGACAGTGATAGCTGCTGTTGTTTTTGGTTTTGTCGCTAATATGAATGATAATAACAATTGTAGCTCAGTGA
CAGCTTAAGGCATATTGTAAACTGTTGATGGGGAGTTGTGAAATGTGGGTACTCAATTTAACATAGAGTATATCAGTTACTAAAAGATGTTAAAATTTGA
AAGTGTATTTTTCCTAGAGCATTGGTTGCATAGGCATATCCTCTGATGTAAGTTAATCCTGCATATTTCATTTTTACCATCTAGCATAAGGAGCAGCTCC
AAATAGCAAACTGAAATAAAATTCAGTAGATCTGTGGAATCTCAAAGTTGGAAAAGACCATAAAATAATCTACCCTTGCCCAGCATTTAAAACTCAACAT
TTTGAATTTTTTGTAAAATGTCTTATCTTGAACTCCTCAAGTTTTTGAGGACTTAGAACCTCCTCACGTAATTCATTTCATATTTAGACATATTTATTGG
TCAAAAATTTGCTCTTTTTGTAATTTCTGTTAGTCATCCCTCTGACTTTCTGGCCATATGAAACAGGGTTAGCCTATTTTTCACTTACTGGCCCTGATTT
TTAGAGAGAARCTCTAGGGACTGCCTTCTCATTGCCACTCTGCCGCTTTCATAGTTGAATCTCACACCTAGATTATTAAAACAGCTTCCTAACTAGTCTT
TTTTGCCTCCAGCCCTATCACCCTCCTRCCCATTCTTTACACTACAGCCAGAATGACTTCACCCCAAACGCTTGAAGACTTCCTCTTCTCAGTAATACAG
TATATTTGGCTCGCTAATGACTGAACACTGCCTTTATCTGTAACCTTTTTCTAAACTACTTTTTCTGTAAACTCCACCCAGCAGCCATACCAAAAGATCT
GCATTTAGAACTGCTTTTTCTCATGTCTGGGCCTTTATAATGCCTTTCTTTCTGTCTGAAACAAACAAAAAGAGTTTCCTTTTTCTTTGACTCCTGCTTA
TCCTTTTACACTTTAGCTTAGAAGCCTAGAGCTTTCTTTGGTAAGTTTCCACAAGCACTCTGGGTGCTCCTGTAGCACCCTCTGTCTCTCCAGTGTAGCA
CTTATCACATTATCTTAGTGGTGACTGTTTAGTCTCTGTCCCTCACTAGATTCTCTGTCTGTCACTAGACTGAAGCTCTGTGAGGTTAAGGATGATATTT
TGATTACAGTTATATGTCCAGCACTCAGCACAGTGCTTTGACACACACTATAAATATTTGTTGGATGGATGGGGAATGGCTCTGAGACTTCACTTTTTTA
CTCATGCTAATTGTTCATGTTCCTTCACCTGGTCCTCAGGTGATGTGGTTTTGGGTCTGTTTACCATCACTAGGTAATCATTTAAACTCAGATTTGCTCT
CTSTCAAAGTGTAGTTTTCAGAACTATATCCCAGGTATTATTTTATTAGTCYAAGAAAGAATAGGAATATTACTTGTGTGCTTCTTTTCATTCACTCAGA
AACTCATATTGAGCCTCTATTAAATTTCAGGCACTGTGTTAAACAGTAAAGATTTTAAAAATGAATATAAGCCCCCATCCATAAAGAGCTTACATAAATA
ATTATGGTGATATGATGTGAACAGGATGTTATAGGAGATAGGGAGATGGTAAAATTTGTCCAGCCCTTTTCTGCAAAGCCTTCTGACAGAAAATGTAAAA
TTTTTGCTGAGCTTTAGTCACTGAGTGTGAGTAACATGGGCAAAGATATGGGACCAAGAAAGCCATGAGTTTTAGGAAACACTAAGGTCCTTTGTAGCTT
GAATATTGTGATTCTACATCTGTGAAGCCTCCCAAATCCAGACCTTTCTCATATCAGGATATCTGCCTGGACCTTCGAAAACACCTCTGATTTCTCTGCC
TTATCTAAGGCTCTCTTTCTGTTGCCTGAAAGTCTGTGTCTTTTCAGAGGGACCCTGTGGTATAGTGAAAAGAACACTTTCTCTAGATGCTTTATTTCTA
TTAAGTAAAAATTCTTCTAGTGACTTTTCCTTAATCTACAAAGAACTCCTAGAATCTATGAGAAAACAAAAGAATATCTCAGCAGAAAAATGGCTAAATA
AAATACAGACTGGCTGATAAGCCTAAAGAGATCTTTGACTTTATTAGTAATCAAAGAATTGCAAATAAAATTATAATAGYATTTTATTTTTTCACTGATA
AGATTTGTCAAAATTATGGAAATTGTTAAAACACAGTTTTAGCAAATATGTGGTAAACACACCTGTGTACTTTCGGTAGGAATAGAAATTGAGTCTGGGC
AATATAGTGAGACCTTGTCTCTACTACAAAGAAAAAAATTAGCCAAGCATAGTGGTGCACACCTGTAGTCCCGGCTACTCTGGAGACTGAGCGGGGAGGG
TTGCTTGAGTCCAGATCGGGGTTACAGTGAGATATGATTGTGCCACCACACTCCATCCTGGGTATCTGAGTGAGGCTTTGTCTCAAAAAAAAAAAAAAAA
AAAGTTGGCTTATACTTGTAATCCCAGCACTTTGGKAGTCCGAGGCAGGAAGATGACAAGCCTAGGAGTTTGCAACTAGCCTGGGCACCATAGGGAAACC
CTGCCTCTAAGAAGAAAAATCAGTATGTTCTTTCTAGAGGATATTTCAGCAATATATATGTTGTATCAAAATCTAAACTATGCATGCTCTTTGTCCACTA
ATCCCACCCTTAGGACAAATCCCAAATCTGTGTCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGTTAGATCRCTTGAGCTCAGGAGTTCGA
GAACAGCCTGGGCAATTTGGCATAGCCCTGTCTCTACAAAAAATACAAAAATTAGCTAGGAATGGTGGCACACACCTGTAGTCCCAGCTACTAGGGAGGC
TGAGATGAGAGGATCGCTTGAGCCCGGGAGGTCAAGGCTGCAATTAGCTGTGTTCACACCACTGTACTCCAGCCTGACACTGACTCAAAGCAAGACCCCG
TCTCAAAAAAAATAAAATAAAGACACTTAAATTACCATCAGTGGCGTTTAACAAATATATTGTTATTTAAATTTTGGTACATGGAACACTATTTATACGG
TAATAGTGGAGTGGAATTTCTGATCTAAAGATGTTGATTATGCTTAATTGTTTTTAAGAATTTGGGTTCACATTTAGGTTGAACAAAGTAGAGTTCTTGT
AAAGGAATGTGGCCAGAACAGTAGCCAGACATGAGTAGCCAGCCTGTCAAATTAGGAGCAGTTGAGGGATTTGGGACATAGAGATTAGATATATCTAGGA
CCAGTAGAGGTTAGAAGGCAGATGTTGGCTGACTATAAAGAGCGGTCTGTCCATTTGTACTGTTGAGTAATAGCTAAATAGCTAAATAATGAGTGTCCCA
TGACTGGAAGTATTTCAGCAGAGGCTGGAAGGACCATTCAAATCTCAGCTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTACTCTGTCACCTAGGCT
AGAGTGCAGTGGTGCGATCTTAGCTCATTGCAACCTCCACCTCCCGGGTTCAAGCAGTTCTCCTGCCTTAGCCTCCCAAGTAGCTGGGATTATAGGTGCC
TGCCACCACGCCCAGCTAATTTTTGTATTTCTTTTAGTAGAGACGAGRTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGC
CCGCCTCRGCCTCCCAAAGTGCTGGGATTACAGGAGTGAACYACTGCGCCCGGCCCAAATGTCAACTTTTGTATCACCTTATCAAGATGTCTTTTTTGAC
TGCCCTGGCTAAAATAGCACACCTTCTTTACCTCTTACTTTTATTTTTTTAAATTTCAAAATAGCCAGGAATTGTATAATTAATCTGGTGTCTCTGTTAC
CCTCTGGACCAGCTGACGTATTTGTTTGTTTGTTTGTTTGTTTGKTTTTGCTCCATGTGGAGCAAAATATTGTTTGTTTGTTTGTTTGTTTGTTTTTGCY
CCATGTGGAGCAAAACATTGTTTGTTTGTTTGTTGTAAGCTCCATGTGGGCAAACTTTGGCTGTATTGTATTTTGCTATATATCACCAGTGCCTAGAACC
AGGCTTAACATATACTAGGTATTTAGTAAATATTTGCTGAATGAATGAATATTAGAGAAGGTGATTCATGCATTTAACTAGGTGACCTCTTATGCCCATA
TTTTATGGGCCAAGGTACTTTAATGCCATTTTTAAGTCTCTTCAGGGCAGGTACCTTTTTTTCTTTTTTAATAATAAATGTAACTATCACGTGGTATGCA
TCAGAGTTTATAAAAACACTTTTATAAGCATTATTTACTAAATGAGATGGCTTTTTCTCATCTGTAAAGTCTTAGCTTAGACATTTCCTCTGAAGAGTAT
CTGTCCATGACTTTAMTAAGATAGCTCCCAGTCTCTATCACATCACCTCATTTTATTCCCTTCAAGTTCTTTTCACTTACTGCCTTGTTTATTTATTGTT
TATGTGTTAGTTGTGTCTCATCATATACCAGCATGTAAATGAGGGCAGGGACCCCTGTCATATTGCCTGGCACATAGAGGATAGTTAATAAGTATCTGTT
GAATGAATAATTGAAAACATTCAAATTATACTGTTTGAATATTTTGAATTATAATGTTGGAATAATTGAAAACACTCACATTATATATGTTTAAATTATA
AAACATTATACCTATGTTAGTTAATAATATTAATCTTCGYAATAATCTCTGAGCCCAAGGATGAATGAGATTTTCATGTTCTGCAATCTCAAGACAACCT
GTACTACCTCGTAAACTTTATCATTATCATAACAGATTATTTGTGTTATGTTTATTAATGTCTCTGTTTATCTCTAGACTGAAAGCTCCATGAATTGAGA
AATCATGTCTTACCTTGTTCCCCTAACATTTAACACAGTTCTTTGTACTTGGAGAAGTTTAAATATTTATTGAATGAAGAATCTATATACAATCTTGTAA
GACAGATATTGTCTTCATCTTTCACATGAGTAAACTTAGGCTTGGAAGGATTAAGTAATTTACCCAAGATAGTTAGCTGTAGAAACAAGACTTTTACCAA
CATCTTCAGACTCCCAATATTACATTATTTAAACTACACCAGTAGTAGTTCTTAGTCACAGATGTTAATCCAAATTACCTAGGGAGCCTTGGAAAATACA
TATTCTCAGGCCACACTTGGAGCCTACTGAATRAGAACTTCTGAAGGTGAGGCCCAGAACTTTGTTTAAAGAAATGAGACTATAAGTATCACTTGAGAGT
CAATGATTTATACCAGAGGTCTGGCAAACTACTATTGGGAGGTCAAATCCAGCCCTCTGCCTGTTTGTGTAAATAAAGTTTGAGTGGAACAGCCATGCTA
ATTTAGGCACACATACTGTCTGTGGCTGCTTTCACACTGGAGTGGTGGAGCTGAGTAGCTATGACATAGACTGTATGGCCTAGAAAGCATAAAATTTTTA
TTATATTGTCCTTAACAGAAGACTTGCTAACTCTGGATCTATACCTTGGTGCCTGTCCTATTTCTTTTGTGGTTACTTTAGTGCTTGGAGATATGGCAGA
ATATTATGTCTGGCTTCATCATGGGCATTACAATAGGTGTCCAAACATTCTTACTAAGTCATAAAAATTATCTTATTTTGCAATTCACCTGATAATAAGG
AACTAAGCCTTAGGTAGCCCAAGAAGTCAAATAAAAGGAAAATACCATCTAGGTATGGTTCAAGCCAGTCAGCCATCACAGTGGGTGAACTACTTTAAAC
AGAGGTTCCTTTTCATCCAGTTAGTGATAGAGTGTTTCCTAAGTGGTAAAAGGGCTGAGGTTTCTAGCCTGTGTACATTACAGAATAGGGATTGATTACC
ATGGTTGATATGTATAATGGAGAACTGTAATTAATACCCTAATTGTTGTGGTACCCCTGATGCTGCCATTATTCTTAAGACCAAAGTCTCTTTGGTGCTT
TTAGTCAGAACTTAAGCTAATATAAGCAGTTACCCAGGACTGACCAAAACTCTTGATCTGTGCTTCCTAATACAGTAACTATTAGCTATGTGTGGGGATT
TAAATTTAAGTTAATTAAAATTTAAAAAATTTAGTTTCTTACGTACCCACATTTCAAGTATCCAATAGTTATGTGGCTAGTGGCTACCTTATTGGCTAGC
ACAGATACAGAACATTTTAGTCAGCACAGAAAGTTTTATTGGACAGTGCTGCTCTAGATGCCAGAGTTGAAGATTCTCAATCCAGGGAAATCCAAAACTT
ACTATTTGATTTAATCTTTCATTTGTAAGGATGGAATAATAAATTGTAATGTTTTATTTTTCTAACAGCAAACAATGATGAAATGTATTCAGTCCTTGCT
TTAGGGCCCTGTCAMCTAGAAGCAAACTCTTCATTAAATTCTGATAACGCCTTTAAACCTTGACTTCAGAAAATAGTCATCTCATTTGCCCTATGGACTA
ACTGTCTAGTCATGTTGATTAATCATCAGCTAGTTCATGAAATAGTTCAGAACTGACTGTGATTTCTGGCCAAATCTATTTGGCTTAGTTAAGGGTAGTG
GGAAAGGAACCAGTTATAAAACAGAAGCTATAAAATAAATAGAGTGTAAAGTCTTGGCATCATCTTTGGAGTGATTTAGATTTCWTCATTCAGTGACTCA
TTTTTATTCCCAGCATCTAGTGCTTTTTGCATGGCCCAAAGGGGCTCTGTGCTGCTCCACTACAGAGGAAACTTCAAGAAATGCTGGTTTGCTACAGTGT
TTTAGCTTGTGAGATTCTCTGGGACCTTCCCTGCTCCATCATGGGGTCACCTCTAGGTGGGTATTAGGGGGAGACTGGTAATTGGTTTAACCTTTAAATA
AAGAACTTGATAATCTTTAGTGATCCAATGAGGTCTGTATCAAATGTTCCTGCCTTAAGATGTTTTCCCTTCCCCCAGCACAGTGTCACCTTGAAGATTG
TTTATCTAGGACAGTGTTCTTCAAACTTTTAGAGGCTGTAAGGCCAGTTCAAGAGGCTAAAAGATTCTACAGACTCCCCAGCTTGTTCTTATTTACTATC
ATCAGACATGCTTCCCAGGTCCTACTTTGCTCTAAATTAACAGTTCTTTGTCACTTTGCACCCCAGAGCAACACAGCGGTGGCTAGGATGGGGGTGCAGC
GGGGGTAGGTGASAGAGAGCCAGTTTTTAGAGTGAGGATTCAACTATAATCTCACTCATCTGGCTTCCCCTCCCCTCAAATCATCTCGCCCCTTGTCTCT
AGACAGCCTTTTCTTCATTCTTCCTGAGCTGAGATGCTGGAATCCAACCATATTGGGTGTTAAAAGCTGCCACTTGACAGCGGTGAGGGACCTTTCCAAG
AGTCAGATTGTTCAAAAGGAATCTCCCCACCCACTTTCTGCCTCTTCTATTCTGTTTTCCATTAGCTTCCTGGTCACTTCTTTGAAGTACTAGTATATCT
TGCTTTGGCATTTTGGATCACTTTAGGAATGAACATAAATAACACCCTAAGCCATCTTTAGACCATTATTTTAAAACGTGAATCTAAAACATCCGCTCAG
GTCACTTAGATTCTTCCCCTTAATACTCCTTTGAGCTCAAACAGGAAAAAAATTATATTTTTTATGCTCAAAACCAGTCTACAAATAGCTTACTGTTTAG
TGTAGATTATACCCTGAAAACATTTTTTTTAGGAAGTTGACTGTGATATAGATTTCTATTTCCTTTACAGGTCATTTTACCTGGGACAAATACCTAAAAG
AAACATGTTCAGTCCCAGCGCCTGTCCATTGCTTCAAGCAGGTAATTGATTTTCAACATCTTTAGTAGGTGGAAGATAAGTCATTTTTTTATGGTTTTTA
GACAATCAAAACAGGAGGTGGAAGCCCTTGGGCTTCTTACCTGAGGGCCCCAGAATAAACTTCTATGGGAAGAACACAGCTCAAGAAGTAAAATTTGGTC
ACTGTGAGTTTTGGCAGCAGACATTCTTTCCACCTTCATCCCAAGTAACACCCTTGCCTCCTTCTTTACCTCCTTGAGGATATTCTGTGTTACTGAAAAC
AACTGCTAATTTTTACTAGAGCTCTTAATTCGGACAGGAAAGAGAGTTATAGTCCATAGACATTGTTGAAAATGGAGCAGTATTTCTTTCTCTGTACTCA
GCACTCCTGTCACAATCTTATCTTTCTACAAGAATGTTGACACTGAGTCCCACTGTGAAGCATCTCAGGAGCTCATCAGAGGTCATCCAGAGTTTCCCAG
AAGGATTAAGTAACCCAGACAATGCACAGATGGTATTGACTGTGTCAGTGTTTGATATGGCTGATAAGCAAAGAAGTGTTTGGTGCTAAACAAAGTTAAA
CGTCAGGAAGTTACCTACAATCCTTTCCTTTAGTACTCAAGGGTTATTTCCTCAAACTGTCAACATTTCAGGTTGAGTTTGAATTTTGTCTGTTTTCTTT
TTTTTTTTTTTTTTTTTTTGAGATGGTGTCTCACTCTGTCGCCCAGACTGGAGTGCAGTGGCGCAATCTCGGCTTAATGCAAGCTCCGCCTCCTGGGTAC
ATACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCTGCCACCATGCCCGGCTAATTTTTTTGTATTTTTAATAGAGACGGGGTTTC
ACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACCGTGCCCGGC
CATAGAATTTTGTCTGTTTTCTAAGTAGAAATACAAGTTCAGGACTTCTGCTCATTTGAAATAAAAGGGACTGAATTTATACTTCCACCTGAAACAATTT
ATTTAAAAAGACAACATATGTTAATAATGGTTTGTTTTGTTTTGYTTTGTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCGGTGTCTTGA
TCTTGGCTCACTGCAACTTCTGCCTCCCGGCTTCAGGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCACACCAACATGCCTGGCT
AATTTTTGTACTTTTAGTAGAGACAGGGTCTCATTATGTTGGCCAGGCTGGTCTCCAGCTCCTGATTTCAGGTGATCCACCCACCTTGGCCTCCCAAAGT
GGTGGGATTACAGGTGTGAGCCACCGGGCCTAGCCAACAATGGTTTTTAAGTCACTAAAAATCAAGCAGCCAAACAGTGATCTCTGAGAGAGAGAAAACA
AATGAGTTGAGCTACCTCTATGATTTTCTAGCTTACTGTCTTAACAGTTTCCAGACCATGGCCCAGGGAAAGGGAACTCATGTTGAGCCCAGCAGACTCC
CTAATTGGAGGAAATGGAAGAAAAAAAAAATGTGAGTCCAGAGAAACCAAGGTGGCTAGAATTTTTAGGACAGAGTGTCAGGAGGAGAAAGCTGCACACA
AAGAAAACCACAGTGATCTTCAGAGGGTCCAGGAAAAGACTACCATTTTATAAATGCATATGAGAAAACTACCTAAGGCCAAAGGAAAAAACTATCTGAA
AGGATTCAAAGGAATAGAACCTGGCACTCACACAGGGCTGAGAATAGTTCCTGATCTCACCAGCTAGACTAGAACATCTCATAATTGATTGGGCACTGGG
TATGATACTCAGGAAGGTGTTGCTCATATTGGAAAATAATTAACCTTAGCCTGAGTATTGCTTCAGTCCRGCCTGACAAATCATAAAGGTAAAACTCAAG
AAGATCAAACTACTTCACAAATAACTTAACTGCATCGAGGAACAAAGCCCAAGAAGATTTATAGGAATGCAAGAATATCCAGTACCCATCAGGTAAAATT
CACCAGATCTAACTTTCAATCAAAGACTACCAGGCATGCAAAGAGGCAGGAAAATGCAACCAATAATCTAGAGAATAATTGATTGAAACTGACTCAGACT
CTATACAGATCATAGAATAGCAGACAAACACATTAAAATAATTATTTTAATATATTTGTTATATTCAGATATTAAGCAGAGACATGGAAGATATTAAAAA
GACTCACTGGGCTACTATGTGGGAAATGAAAAATACACTAGATTGGATTAATGCCAGAAGAAATTAGTAAACTTGAAAACATAACAATAGAAACTATTCA
AAATGAAACACAAAGAGAAAAAGGAATTTAGAACCTGTGAACTATGGGTTAACTTCAGGTGACCAAATAGACGTGTAATTGGAGTCCCAGAGGAGAGAAG
TGRTGGGGGATAGAAAAAATATTTGAAGAAATAATGGCTAAAATTTTTCCAAAATTAAAAATAACAGCTGGGCATGGTGTCTCAGGCCTGTAATCCCAGC
AATTTAGGAGGCTGAGGTGGGCGGATCGTGAAGTCAGGAGATTAAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTGCTAAAAATACAAAAAAATT
AGCCGGGCATGGTGAAGGGCACCTGTAGTCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATTTTATGAACCTGGGAGGCGGAGCTTGCAGTGAGCTGAGA
TCATGCCACTGCACTGCAGCCTGGGCGACAGAGCGAGACTGTGTCTCAAAATAAATAAGTAAATAAATAAATAAAACTATAGGTCCACAGAATCAAGAAA
TTCAAGGAATCCCAAAGATAATAGAAGAAAACTACTCAGAGGCATATCATAATCAAATTGCACAAAACCATTGATAGAGAAAACTCAACAGCAGCCAGAG
AAAAAAGACACTTTATATATAGGATAACTAATGTAAGAATTATATTTCTTGTCAGAAACAATATAAGCAAGCACAAAATTGAACAACACCTTGAAAGTAC
TAAAAGAAAAATAAAAAACCTGTCAACCTGGACTACTGCAGCCAGCAAAAATGTCTTTCAAACACAAAGGTGAAATAAAGATATTTTCAGATTTACAAAA
GCTGAAGGAATTCATTACTCACAGACTCACACCTCAAGAAATGTTAAAGGAGGTTCATCAAGCAGAAAGAAAATGATATCAAATGAAATAACAGATCTAT
ACAAAGAAATGAAGGTCACTGGAAATTGTCATTATAAGGATAGATATATAAGATGTTTTCTTATTTAAATCTGTGTAAAAGATAATTGTGTAGACAATAA
CCGTATATTGTGAGGATGATAACATATAAGTAAAATGKATGATAAGAGTAGCACAAAGGCAGGAAGGGAGGAATCTTAAGTATACTATTACAAGGTTCTC
ATGCATGAAGTAGTACTATCTTACTTGATAAGGTAGACTGTGGTAAGTTAAAGATGTTTGTACTATAAACTCTAATGYAAMCACTAGAATAATGGGAAAA
AATAGCAAAATGTTTTATTTAAACCCAGCTATATCAATAATCAAATGTAAATGGTTTAAATGTTAAAAAGCGGAAATTGGCACATTGGATAAAAAGCAAA
ACCCAATTATATACTGCCTTCAAAAACTTACACTTTTTTCTGTTTCTTTACTATCGAGCTTGCTATGATTGGAAAAATTATGCTTTAAATAGGTTAAAAG
TAAATGTATGAAGATGATGTACCATGCTGACATTAGCTATAATAAAGCTGAAATGGCTATATTAATATCAAAGTACACTTCAAATAATATTAACAGGGTT
AAGGAAGTTAATTTTATAATGATAAAGAAATCAGACAAATCCTGACATGAAGCAAAAACCAATAGAACTATTAGGAGAAATAGATAAATCCAAAATTATC
TATAGTCAGACTTTTAATACTCCTCTCTGTGTAATAAAAGAACAAGTAGAGAAAAAAAATCAGCAAATATATAGTGGATTTGAACAACACTATGAACTAA
CTTGACCTAACTGACATACATAGAATACTGTCCAACATATGTAGATACACATTCTTTCCAAGTACCTGCATTTCACAAAATTAAATGTCCATTACTAAAT
AAAAACTCTCACCAAACTAGAAATAGAAGGGAACTTTCTAAATCCTAAACTCTAAAGGGCATTTATTAATAGTCTACAAAGAATATCTTACTTAATGGTG
AAAGACTAAATGCTTTCCCCTTAAGATCAGGAACAAGACAAGGATATCTGCTCTTGCCACTTTTATTCAGTATTGTATTACCAATGCAAATGGGCCAGAA
AAAGAAATAAAAGGGATCTGGGTCGAAAGATTTAGAACAAACACCAAGGAAAATGTATACAGGGCAAATAAGTACATGAATAGAGATGCTCAATACCATT
ATTTCATTAGGGAAATACAAAATAAAAGTGATTAGTGAGCTATCACTATACATTTATTTAAATGGCTCTGATTTTCAAAAGACTGACCATATTAAATAGT
GGCAAAGATGTAGAACAAATGGAACTTTCATATGCTGCTGGTGAAAATGCAGAATGGTTCAACTACTTTGSGTGGGGTGGGGGAGGAACTAACAAATACG
AAAAATTTATATAAAGAAAACCTTAGAAGATGCCTGACCAAAATTTTGATTCATTAAAAAAATAGAGTGGACTTTGTCAAAATTAAGAACTTCTGCTCTT
CAAAAGATACTGGTAAGAGAACAAAAATACAGGTCACAGACTATGAGAGAATAGTTTTGCATTGCTTAACGATAGGGATATGCTCTGAGAAATGAATTGT
TAAGCAATTTCATCGTCGTGTGAACATAGAATATACTTGCACAAACCTGGATGCTATAGCCTACTACACACCTAGACCATAGCCTATTCTTCCTAGGCTA
CAAAACTGTCCAGCATATTACTATACTGAATACTGTAGGTAGTTGTAACACAATGGTATTCGTCTATGTAAACATATCTAAACATGGAAAAGGTACAGTA
AAAAAAAAAATATGGTATAAAAGGTATATTAAAACTTGTACACCCGTATCAGGCACTTACCTTGAATGGAGCTTGGAGGACTGGAAATTGCTCTGGGTGA
GTCAGTGAGTAAGTGGTGAACTGCKTACCACTGTCAACGTTATAAACGCTGTACACCCAGGCTACACTAAATTTATTTAAAAATTTTTCATTCTTCAGTA
AAGAGTTAACCTTAGCTTACTGTAAATTTTTCGCTTTATAAACTTAATTTTTTAACTTTTTTGACTCTTATAATAATACTTAGCTTGAAACACATTGTAC
AGCTGTAGAAAAATAATTTTTAATTTTTTTTTTTTTTACCTTTTAAACTCTTTTTGTTAAAAAACTTAAGACATTACCCTAGGCCTACACAGACTCGGGA
TCATCAGTATCACTGTCTTCCATTTCTACTTCTGAGCCTACTGGAAGGTCTTCAGGGACAGTTACATGCATGGATGGAGCTGTAATCTCCTATGGTAACA
ATGCCTTCTTCTGGAATACCTCCTAAAGGAGCTGCCTGAGGCTATTTTTTAGTTAACTTTTATTTTCGTATAAAGAATACACTCTAAAATAATGATTTAA
AATATATAGTAAACACATAAACCAGTAACATAGTCAATTGTTATCAAGTATTATGTACTGTACATAATTGTATGTGCTATACTTTTATACAGCTGGCAGC
ACAGTAGGTTTTTTTACACCAGCATCACCACAAATGTGAGTAATGTGTTGCTCTAGGACCTTAAGACAGCTGCATTATAACTAGGATACAGGAATTTTTT
AGCTCCATTGTAGTCTTATGGGACCACAATCTATACATAGTCTGTTTTTGACCAGACATCATTATGCAGAACATGACTATATTTGCAAATCACATAACTG
ACAGCATTATTTTCCAAATTGATCTGTAGATTCAACACAATCTCTGTCAAAATCCCAGCTGCCTTTTTTGCAGAAATTGACAAATTCATTCTAAAATTCT
TACAAGAGACCCAGAATAGCCATAGCAATCTTGAAAAGAGAGAACAAAGCTGAAGGATTCACATTTCCTGATTTCAAAACTTACTACAAAGCTACAGTAC
TTAAGACATAATGGTTCTGGCAGGAAAATAGACATATAGATCCATGAATTAAAATTGAGAGTACAGAAATTGACCCATCAATTTATGATCGATCGATTTT
TGACAAGGGTACCAAGACAGTTCAGTGGGTTTTTCAACAACTGGTGCAGGTACAGCTGGTTATCCACATAAAAAAAAGTGAAGTTGGACTCTACCTCTAT
GCCATATACAAAAATTAACTTCAAGTGGATCATGGACCTAAATGTAAGAGTTAAAACTGCAAAACTCTTTAAAGAAAACATAGAAGGAAATCTTCATGAC
CTTGGATTAGATAWTATAACACCAAAAACATAAACAACAAAAGAAAAAATAGATAATTTAAACTTCATCAAAATTAAAAGATTTTTGTTTCCACACCATC
AGGAAAGTGAAAAGAACAACCCACACAATGGGAGAAAATATTTGAGAATTATATATCTGGTAAAGGACTTGTATCCAGAATATAGAAAGAACTCTTAAAA
CTCGGAAATTAAAAGACAACATGATTTTAAAATGGACAAAGAATTTGAATAGATATTTCTCCAAATATATACAAATGACCAGTTAGGCACATTAAAGATA
CTCAGTAGTCATTAGAGAAATGCTAATCAAAACTGCAATGAGATATACATCACATTGACTAGATGACTCTAACATCAAAAAGACAAACAATGGCAAGTGT
TGGTGAGAATGTGTAGAAATTGGAACCCTTGTACATTGGTGGTAAAATTATGAAATCCTATAGCTACTTGAGAAGACAGTTCAGAGGTTACCCAAAGTGT
TAAACAGAGTTACCACATGACCCAGCAGTTTCACTCATAAGTATATACGTAAGAGAATAGAAAACATGTCCACAGAAAAATATACCATAAATGTTTATCA
CATCATTATTCATAATAGCCAAAAAGAGGAAACAACCCAAATGTCCATCAGCTGATGAATGAGTAAGCAAAATGTATATCCATACAATGGAATATTGTTC
ATCAATGAAAAGGAATGAAGTACTGATACACTCATTGACATGGGTGAACCTTGAATCCATTTTGCTAAATGAAAGAAACTATTCACATATTGGCCACACA
TTATATAATTCCATCTATATGAAATGTCCAGAATAGGTAAATCCATGGAAACAGAAAGTAGATTAATGGTTTCTAGGGACTGGGCTGAGAGGGTAATGGG
GAATGACTCCACTGGGGCAGGGGGTTCATTTTGAGGGGATTMTGGAAATGTTATAAAAWTAGATAGGGATGGTGTTTACACAACTCTGAGAATATTCTAA
AAATCATTGAATTGTATACCTTAAAAGGGTTAATTTTCTGTTTTGTGATTTAAACATATACCTACCATGTGATCCAGCCATTTCACTCCTAGGTATTTGT
GCAAGAAAAAAGAAAGTGTATTTCCCTACACAAAAATTTGTACTTAAATGTTTCTAGCAGCTTTATTTGTAATCGCCAAGAGCTGGAACAAACCAAATCT
CCGTCAGCATGGTTATACCACTCAACAATAAAAGGAAATGAATTACTAATATGGATGAATTATCAGAGTAGTTATGCTGAGTGAAAGAAGCTAGACAAAA
AAGAAAGTACATCTTCTATGATTCCATCTAAGACTAGAAAACGCAAAGCAATCTACAGTGATAGAAAGTAGATCATTGGTTGCCTGGGTGCAGAGGTCCT
GGAGGGGCCAGAAGAAGAGATTACAAAAGAGCATGTGAGAGCTTGAGGATAATGGCCATGTTCATTATTTTTATCGTGGTGATACTTTCACAGGTTTATA
TGGTGTATATAGTAATATGAGTATATACATATGTCAAGACTTACTAAAGTGTATAGTTTATTGTATGTCTATTGTATGACTTGATTAGTAAGTTGTCAAA
ATAAGAAAAAATTAACCCTCAATAGTCTGTGTGGTAGATATACACACCAATATACTGAAATATTCCACAAAGAGACACTAAGAATATGGTAGTTTAATAG
GACGTAGTAGTCCTAAAAAGACTAAAAAGGGATTAAAAGTCCCTACCTGGAAGGGTAGGGAGTTAGAGAATTATAGAATGAGAAAACATTTAATTAACTG
GCCTATATAAGACATTCTTGTCCTTTTTTTAACTGGTATGGGTCTATTTGATGCTTCGTTGGAAAGTAATTTTTTCCCCTTCATCTTATCTTTCATTGTT
TCTTTTGCATGAAACCATTCTTAATTATTAGGGAATAATTCAGTTGGTTGTCCCTGGCCCAGCTATAACCAATCTGAATCCAAAACATGAATTTTGGGGT
TTTACTCTTAATCTGTCTATACCTCATGCCTTGTTTTTCCCAGTCCTACACACCTCCAAGCAACGAGTTCAAGATCAGTATGAAATTGGAAGCACAGGAC
CCCAGGAACACCACATCCACCTGTATTGCCACAGTAGTTGGACTGACAGGTGCCCGCCTTCGCCTGCGCCTTGATGGGAGCGACAACAAAAATGACTTCT
GGCGGCTGGTTGACTCAGCTGAAATCCAGCCTATTGGGAACTGTGAAAAGAATGGGGGTATGCTACAGCCACCTCTTGGTGAGTAAGTAAACCCAAACTC
TTTCTAGCCAATTATTAATAGTTAGCGTCCAAAAACTGAACATCCTATTATGGGAAAGCCTAGGGTACCCAGCTTATCCCTTATTTTTCATATAGTCTCC
TAAAAAGGCCCACCCAAAATGAAACAAGCTGCACAATTYGGACATCTCCATCTCTACATTAGCTTATGATATCCAGGCTTCTTCCAAATTCTTTCTAACA
AGAAATCACACCCTTTGTTCTTCTTGGCCAGTGCCCATTTACCTGAGAGAGAGAATGGAAGGAGGTCTTGCCGTTTAACCTATCTCAAAAAGCATAAAGC
TTTCACCAAATCCTATCATAATGACAAGAAATGAGAGAAAATCTGCCAGTAGAAAGCATGGCTGTTATAAGGATCTCTTATCTCCTTTCTCACTAATTCT
CACCTGGTCCTTGGAGTTTTCTCGCTTCGAATCCATTATTACATAAAAATCATTTTTTAAAATTTAAGCTAATAACCTCACTAGGTTTTTCTTTCCAGAT
CAGATTCCCCTCCAGCTTTTGCCTCAATAAATCTGAGGGATTCAGCCCTTCTTATCAGTTACTGTCAATCACTATTACAGTGAGTCTCAATGGGGGACCG
AGAGAGTTAGATTATGGACTTTGACTATACTTCCTCTCAGGAAGCTGTGCTAAATTGAGAATTAGAGAGCATGTATCATGGGCTCCCTAGGTACTTATTT
AACGTTTTCCCCCATTAAAAAAAAWTTTGTAATGTAAAATTTCAAACATATAAAAAGGTAGAGAAAAATAGCATAGTGAATGCTCATGTAACCTTCATTG
TTGAAGTCAATATAATTTTATCTATACTTGTATACACTTTCTGTCCCCACCTCCAATTGTTAAACATAGCATGATTTTATCATGAAAGTATTTAGTATGT
CTCTGTCATGGGCAAGGATGTCTTAAACATAACCATACAATTATCACATACAAATAAGCCAATGATAATGTCTTAATATCAACAAATATTTTAATGTGTT
TAAATTTTCTGGATTGTCTGTCTCTGTCTGTCTCTCTCTTTTTTAATCAGTTTTTTGAATCAATCTAACTAGAATCCTCACATTGCAGTTAGTTGATATG
TCCTTTAAGCTTCTTTAAATCTACAAGTTCTTATCTGCTCTAATTTTTCTTGCAGTTTATTTGTTTAAAAACCTAAGTCATTTGTCTTTTAAATTTYCTA
AAATTATATTTTGTTGATTGTATTCTTGTGGTATCATTCAACATGTTTCTGTGTCCTCTAGTTCCTAAAATTGGTAGCTAAATGTAGAGACTTGATCAGA
TTCTGGTTCAATTTTTTCATAAGAATATTTCATAGCTGGTGATATTTATTTCTATCAAGAAGCATGTATAGTCTGGTTGTCTCTTGTTTTATAATGTAAT
ATAATGTAGCAGCCATTGCTGCTCATAGTCTAGATCAGGGTTGACATTTTTCTTGACAGATCTGATAGTGAATATTTTAGGCTTTACAGATCATACATTC
TCTGTTATAATTACTTAGCTTTGTCTTTCTGCTAAGGCAGCTGTTGACAATACATAAACAAACAGGGTTGTGTTCTAATAAAACTTGATTTACAAAAACA
GGTTGTCAGCCTGCCAACTGTAGTTTGCTGCCCCTGATTTAAATCTATAATTCATATGGTTACAAAATGGAAAAATCTAATCCTGCCATTCTGTCTACAT
AAATTAATGGAATACATCTGTTAACATAAACTTTCATCAACTATTTAGTTATTTTGAGATATAGTTCACACAGGAAAAACAGTTTAAATGCATGCTTTAT
TTCTTTATTTACCAATTTTCAATGAATTGGTTTATTAGCATCCTCCAAAAATATTTAAGGAGGATTTTGTTGTTGTTGCTTAGTATCATRAGCTCAAAAC
TTCATACATATTTGTTGTGTTTCACTCCATCACACCAATTGACCTTATTGATGCTTGAATTATCCCATCTTTTGCCAGAAGGAAACTTGTCAAGTTGTCT
CCTGACTCTTTTATATACTGTYTGATACTATTTGATAGCTCTCTTGGATTTTTGCAATTTCAACATGTTCCAGGTTCATCTTATATATTTTTTGCCCCAA
ATATGGAATCAGCTAGTTCTTCTAGGTTCCTGGGCTCCTTTTATTGGGAAATGGTATTTAGAGACCATAATCAGAACACTAGAGTGCTCAGTGCTACTAG
GTTGGTCACCCTTTCTAGTCTTTTTGGTATAGAGAGGCAGGAACTACCTTTTTAAAAAGATTATTGGCTGGGTGCAGTGGCTCACACCTGTAATCCCAGC
ACTTTGGGAGGCCGAGGCGGGCAGATCGCAAGGTCAGGAGATCGAGATCATTCTGGCCAACATGGTGAAACCTCGTCTCTACTGAAAATACAAAAATTAG
CTGGGTGTTGTGGCATGTGCCTGTAGTCCCAGCTACGTGGGAGGCTGAGGCAGGAGAATCAGTTGAACCCGGGAGGCGAAGGTTGCAGTGAGCCGGGATT
GCACCACTGCACTCCAGCCTGGGCAACAGACTGAGACTGCGTCTAAAAAAAAAAAAAAAGTTATTGGGGTAAAATATCATTGGTTCAAATTGATACTTCT
CACTAAGGGACAGAGGTATTTTTACCTGCTTCATCTCTGCTACCTTAAATTTGAATCTCCTTTGTACCACAACAAAACCCTAGTTCTCCATGTTAACACA
GTAACTCATTTGCTTTATTCCGTATCACTCATCTAACAGTCTCAGAATAACAATACCAACACTACCACCAGTTTGATTATTAACAGTGTTTATTTGCATT
TTTTCCTTACCCTTAAGAAAAATACCCTTAATAAGTGTTATAAGGTCATTTAGATTAGTTTCTGTCTAAGTGACTGTACCACCAACTTAATAACTAAGGT
TCATTTGCTTCATTTTATGTTTTATTTTGTGGAATTGCTTTTTAAAATTTAATTTTGCTTTATAAATACATTATTATATATAATTCTGAAATATATATAA
TTCTGAAAAGTCAAGTCTATAAAACAGAGTATATTCAGAGAAATCTCTTTCACCTTGGTCTTTCCTTCTGCCATAGGTAACCACTTCTTTTTAATCCTAT
AGTTTATCATTCAATTTTATAAAAAATTTAGGCATGTGTGTGTGTCTATGTGTGTATGTGTGTATCTATCCCCTGCCTTTTTTCATTTAGTGATATGTCC
TAAATATGACATTGCAGTAACATGGAGATGCTCTTCATTCTTACACTGTAGTGTGTTATTCTTGCACTACTTTATGAATCACTATTTAGAAGCATTTGAG
AGGCTATTAAAAAATACAAGTTCTCAGGGAACATAGTGACCATGTAAATCAAATATTTCCAAAAATTCTCCAGAAACCTACAGATCAAAAAGGAAACAAT
CCACCCATAACTTATGCCTAAATATAACTAGGAGCCGAGAATGCCACAATTATCAGTTACTTTTTAATGGGGATATAAAGATCTGAAACCAGCAGAGCCA
GTACCAGACCATACATAACGAAGAATTTATGTAGGTGGAAATTGTATAAAAAAGGGAGAGAACAATGGGGGCCTAACAGAGCCAAAATTGCCCCCAGAAT
GAGATAGTCCCACCCAGAATGGGAAATACTGAGAACAGAGCTAAGATCTTGTGGATTAGAGCACAAACTATTGGAATTGGAAAGGAGAGTCAAAGTTGAA
AGTGGACTGGAGATGGCAGTCCTGGGGAGAAAACTTCCTCTGTGGAAGAGGGAGACTTAACGTTGAAGGGAAAAAAAGACAGCAGGGGGTAAAATTTAGG
ATTATACAGAATAAAAGGCATACCATTCTTCTCATCCTACCTTAAACAGGCCCATCTATTAAAGAAATTGTATTTCACTATGCCAACTCATGACCCAAGT
TCCCTGCCAATAGAACCTTTTGTTTTTTTGCTGGTCTGGGAAAATTTAAGATATATAAAAATGGTGAGAAAATAGCACTTGAAAATTTATAAAAAGCTTC
AATATGAAGAAAAACATAAGATGAGGATAAAACCATTTCAACTACTGAAAATGCTTCCAAAACCAACGACTAATCAGAGGAAACCTGTTGCACAGCAACT
CAACTTGAGTTAAACAAGTCTTGGCAGATATGAAAAAAATACCTTGAATCATAGGTTGTAAAAGTCAAGCTAGACATGCACAATAGACAAGAAGATGTGA
AAATAGTATTGTCCAAACTCAAGAAAAAAAAGACAAAATTATCTCAGTGGAAGACTGAATTCCAAGGTGAACAACAGGACAATAGACTCAACTGAAAATG
TAATAAGGGACATTAAGGAGGGAAATAAAAAGCCAAGAGAATAAAAATAAATATTAGAAAAGGTTAAAAAGTATCTCAAAGGAACTGTTAGATATAGAAG
ATAATGAACAAAAATCCAATATGTATATGTACACGATATGTATATGTATGTATAACTGAAAACCCAAAAGAAGATAAACAAAACAATGGAACAGAATTAA
CACTTAAATAAGAAAACTTTCCAAAAATTAAAGCAGACCTTTACCTTTRTATTTATAGGACCTACTTTTGATTCAGATTGGTCAACTCTAAGACATATTT
TAGTAAAACTATTGTATTCTAAGAAAATTTCTTCTAAACTTCTGGCAAAAAAAAAGCCAAGTCTTTTACAAGGTAAAGAAAGTCAAGTTTGCAGCTGTTT
TTCAGGTATTGAGGTTATACTGAAATCGTTTTCAGCATGCAGAACTCAGGGAATATTATAACCCCAAGCCCATTCTGAGGAATAAATTAGAGAAAGCTCT
TCATCAAAGCAAGAGATGATCAATTTAAGACAAAAACAAAGCAAGGGACAAGGGTAGAATAGTGTATGTGTGTATCAGGCTCAGTCCAGTGAAGAGAGAA
ACAACACAGTAATTTGAACATAGAAAGTTTAATATAATTGTTAACTATAACAGAGGATTGGAGTAATGAGGGATCAGTTAGTAAAGGAAAGATAACTCTA
AAGAAATTATATGAGTAGCAAACATAAAGAAAAGCCAGACTCTGAGGCTGAGATAAAGTGCCCAAGGAAGAGCCTCTCCTCCCCCATCCTGAGGGCTGAG
GTATAGGGCTGTGTTCTCTCAATGACAGAGAAATCACTGTGGTGYTATGTTGGTGGAACTTGCTAGGAACTCCCCTCTATGGTGCTCAGGAAAGCTGTTC
GTTGAGAGATATCTCTCTACAGTAACTCTACTATGAAACCACCCAAGGTGAGGGTAAGGATGCTGCTGCTTAGAAAGAGATGCAGACAAATGTACTAATG
AAGGCTCAACACAGCTCTTTCAAGGCAAGACAGGTCAAGAGGACAAAAAGTAAAAGTATGAAAGGCTTTAAGAAATCAGGTAGATCGTAGGTGTATGTGT
GTGTGTGTGTGCATATGTATGCATGTCAAACTTTAGATCCTTATAAATGATCTGCCTTGAAATTTAAAAATCTAAATAGCTCTTAGTTGAACAGGGGAGA
TATAAACAAAGTTTGCAAAATTCCTAAAACACGATGATAATAAACATCATACATCAGAATTTTGAGATATAATTAAAGCAGTACTTAGAAGAAAATGTAT
AGCCTTAAATATTTAACATCAGTAAAAATGAAAGGATGAAAATTGGGATTTAAATTCCCAACTCAAAGAGCTAGAAAAAGAATTACAAAGCAAGAAGAAA
AAAAAGATAAAGGAAATTAATGAGGCAGAAAACAGAAAAGCAATAATTCAAAGTTAATTCAAAGTACTGGTCCTGGCCGGGCATGGTAATTCATGCCTGT
AATCTCAGAACTTTGCGTGGCCAAGGCAAGAGGATCACTTTGAGGCTAGGAGTTCAAGACCAGCCTGGGTAACATAGCAAGACCCTGTCTCAACAAAAAT
GTTTTTAAAAATTAGCCCAGCATGGTGGCATATGCCTGTTGTCCTGGCTTTTAGGAGGCTGAAGCAGAAGGATTGCTTGCACCCAGGAGTTTGAGGTTAC
AGTGAGTTATGGTCATACCACTGCACTGCAACCTAGGCCACAGGGTGAGATACTGTCTCAAAAAAAAAAAAAAAAAAAAAAGTACTGTCCTTTGGGAGAA
AAAATGTCCATGAAATAGACAAACCACTAGTTAGCATAGTAAAGAAAAAAGGAGAGTAGGCACAAACATAGAAAATAAGAAATGGCCGGGCACAATGGCT
CACACCTGTAATCCCAGCACTTTCGGAGGCCGAGGTGGGCAGATCACAAGGTCAAGAGATTGAGACCATCCTGGCCAACATGGTAAAACCCCGTCTCTAC
TAAAAATACAAAAATTAGCTGGGCACGGTGGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGAGAATCACTTGAACCTGGGAGGTGGCGGTTGC
AGTGAGCCAAGATTGCGCCAGTGCACTCCAGCCTGGCAACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAGAAAGAAAGAAAAGAAGAAATGACAAAG
GGGAAATAACTATGCAGATAAATTTGAAAAGTTAGGTTGAAGTAGGAAATACTATTTGTCAAAATTAACTTCAATAGCATTACAATATTTAAACAGATAT
AGAAAACATGGCCAGGCATGGTGGCTCACACCTGTGATCCCAGCACTTTTGGAGTCCAAGGCAGACAGATTGCTTGAGCTCAGAAGTTTGAGACCAGCCT
GGGCAGCATGGCAAAACTCTATCTCTGCAAAAAAAATAACAAAATTAACCAGGCGTGGTGGCTCACGCCCATAGTCCCAGCTACTTGGGAGGCTGAGGTG
GAAGGATCACTTGAGCCTGGGATGTGGAGATTGCAGTGAGTTGAGATTGTACCACTACACTCCAGCCTGAGTGAAAGAGTGAGATCCTGTCTCAAAAAAA
AAAAAAAAGAAAATATACAAAAGTTTTCAAGGAACTGCACCTACAGTAAGCACCATGTGTAGATTATGTCACAGGGAAATTACCAAACCTTAAGGAGCAG
ATAGTCTTAGTGCTAGTTGAGTTGTAGTTCAACAATACCCAGCAGAACTTTCTGCAATGGTGGAAATATTTTGTATCTGTTCTATTCAGCATGATCCTCA
CCAGCCACATACAGCAAGTGAGTAAGCACTTGAACTGGCTACTGTGACTAAGGAATTGAATTTTAAATTGTATTTAATTGTAACTTAAAAGGCCTTGTAT
TAGTCCGTTCTCCTGCTGCTATAAGGACATAACAGAGACTGGGTAATTATAAAGGGAAGAGGTTTAATTGACTCACAGTTCAGCATGGCTAGGGAGGCCT
CAGGAAACTTACATTCATGGTGGAAGGGGAAGCAAACACATCCTTCTTCACAGGGCAGCAGGAAAGAGAAGAATGAGAGCTGAGCAAAGGGGGAAGCCCC
TTATAAAACCATCAGATCTTGTGAGAACTTACTCATTATCATGAGAATAGCATAGGGGAAACTGCCCCCATGATTCACTTACCTCCCACTGGGTCCCTAT
CATCATATGTGGGGATTATGGGAACTACAATTCAAGATGAGGATTTGGGTGGGGACACAGCTAAAGCATGTAAGGCCTGATGTGGCTAGTGGCTATTGTA
CTGAATAGTGTCATTCTAGATCACAGAAAAAGTAGGAAAGCATCTGAATTGTTTTTATGAGACACATAGAACTGTGTTGCCTAAACCTGATTTATACACA
TGTGCCCACACACACATGCAGATGTATAATCTCATGTATGAATACTGTTATTAAAATCCTAAATAAAAGGAATTAGGATTTAACATATTTAAAACAACAA
TTCATCAAGACATAATAGTAGGTTGGATTTTGGGGAGAATGAAAATATTTAACTTTAGAAAAATCATTAATAGAATTCAACATATTAAAAAAGCTAAGGA
ATAAAATCATATGAGCTTTGACAAAATTCAACACACTACTAGCAAAAAAAAATAATAAACCAGAAAATGGGTACTATATACTTAACTTGGAAAAAAGTAT
GTTTATACCTCAGTACTAAAGCCAACATTTTACTTAATGGTTTAAAATAACCTGATAGAAGATACATGGAAGACAAACTCCCATTTTCAATAGCAGGTAA
GGGGTGAGGGAAAACTAACAAATGTGTGAAACTTACATAAAGAAAACTTTGAAAAACCTGACCAAAAAGCATGATTAAAAAATAAGTCATAGAGTAGACT
TTGTCAAAATTAAGAACTTCTGCTCTTCAATAGACACTGGTAAGAGAATGAAAATACATATTGACTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCA
GCTTGGGGCTGAGAAGATGGGGTTTTCTGAATATACAATCGTGTCATCTGTGAACAGAGACAATTTGACTTCCTCTTTTCTTAATTGAATACCCTTTATT
TCTTTCTCTTGCCTGATTGCCCTAGCCAGAACTTCTAATACTACGTTGAATAGGAGTGGTGAGAGAGGGCATCCTTGTCTTGTGCCAGTTTTGAAAGGGA
ATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCTCTTATTATTTTGAGATACGTCCCATCAATACCTAATTTATT
GAGAGTTTTTAGCATGAAGTGCTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTAAGATAATCATGTGGTGTTTGTCATTGGTTCTGTTTATGTGA
TGGATTACGTTTATTGATTTGCGTATGTTGAACTAGCCTTGCTTCCCAGGGATGAAGCCGACTTGATTGTTGTGGATACGCTTTTTGATGTGCTGCTGGA
TTCGGTTTGTCAGTGTTTTATTGAGGATTTTTGCATCAATGTTCATCAGTGATAGTGGTCTAAAATTCTGTTTTTTTGTTGTGTCTCTGCTACGCTTTGG
TATAAGGGTGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTTTTGCTTCGAATCCTTTCAGAAGGAATGGTACCAGCTCCTCTTTG
TACCTCTGGTAGAATTTGACTATGAATCCATCTGGTCCTGGACTTTTTTTGGTTGGTAGGCTATTAATTATTGCCTCAATTTCAGAACCTTTGGTCTATT
TAGAGATTCAGCTTCTTCCTGATTTAGTCTTGGGAGAGTGTATGTGTCCAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCATAGAGGCGT
TTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGATATCCACTTTATCATTTTTTATTGCATCCATTTGATTCTTCTCTCTTTTCT
TCTTTATTAGTCTTGCTAGCAGTCTATATTTTGTTGATCTTTTCAAAAAAACCAGTTCCTGGATTTATTGATTTTTTTGAAGGGTTTATTGTGTTTCTAT
CTCCTTCAGTTCTGCACTTACCTTAGTTATTTCTTGTCTTCTGCTAACTTTTGAATTTGTTTGCTCTTGCTTCTCTAGTTCTTTTCATTGTGATGTTAGG
GTGTCGATTTTAGATCTTTTCTGCTTTCTCTTGAGTGAACTCCCATTCACCATTGATACAAAAAGAATAAAATACCTAGGAATCCAACTTACAAAGGATG
TGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAACGAAATAAAAGGACACAAACAAATGGAAGAACATTCCAMGCTCACGGATAGGATGAATCA
ATATCGTGAAAATGGCCATACTGCCCAAAGTAATTTATAGGTTCAGTGCTATCCCCATCAAGCTACCACTGACTTTCTTCACAGAATGGGAAAAAACTAC
TTTAAATTTCATATGGAACCAAAAAAGAGCCCACATGACCAAGACAATCCTAAGCAAAAAGGACAAAGCTGGAGGCATCATGCTACCTGACTTCAAACTA
TACTACAAGGCTACAGTAACCAGAATAGCATGGCACTGGTACCAAAACAGATATATAGACCAATGGAACAGTACAGAGGCCTCAGAAATAATACCACACA
TCTACAACCATCTGATCTTTGACAAACATGACAAAAACAAGAAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTGGCCATATG
TAGAAACCTGAAACTGGACTCCTTACACCTTATACAAAAATTAACTCAAGATGGATTAAAGACTTAAATGTAAAACCTAAACCTGTAAAAGCCCTAGAAG
AAAACCTGGGCAGTACCATTCAGGACATAGGCATGGGCAAAGACTTCATGAGTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAATTGACAAATGGGA
TCTAATTAAAATAAAGAACTTCTGCACAGCAAAAGAAACCATCAGCAGAGTGAACAGGCAACCTACAGAATAGGAGGAAATTTTTGCAATCTACCCATCT
GACAAAGGGCTAATACCCAGAATTTACAAAGAAAAACAAATTTACAAGAAAAACACAAACAATCCCATCAAAAAGTGGGCAACAGATATGAACAGACMCT
TCTCAAAAGAAGACATTTATGCAGCCAACAGACACATGAAAAAATGCTCATCATCACTGGTCATTAGAGAAATGCAAATCAAAATCACAGTGAGATACCA
TCTCACGCCAGTTAGAATGGCGATCATTAAAAAGTCTGGAAACAATAGATGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGTA
TGTAAATTAGTTCACCCATTGTGGAAGACAGTGTCGCGATTCTTCAAGGATCTAGAACTAGAAATACCATTTGACCCAGTGATCCCATTACTGGGTATAT
ACCCAAAGGATTATGAATCATGCTACTATAAAGACACATGCACACATATATTTATTGCAGCACTATTCACAATAGCAAACAATTGGACCAACCCAAATAT
CCATCAATAATAGACTGGATAAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAGGATGAGTTCATGTCCTTTGTAGGGACATG
GATGAAGCTGGAAACCATCATTCTCAGCAAACTATCACAAGGACAGAAAACCAAACACTGCACATTCTCATAAGTGCGAGTTGAACAATGAGAACACGTG
GACACAGGGAAAAGAACATCACACACCAGGGCCTGCTGGGGGGTGGGAGGCTGGGGGAGAGATAGCATTAGGAGAAATACCTAATGTAAATGACGAGTTG
ATGGGTGCAGCAAACCAACATGGCACCTGTATACCTATGTGACAAACCTGCACGTTGTGCACATGTACCCCAGAATTTAAAGTATAATACAAAATAATAA
TAGTTGAAAAATTAGAAAAAAGAAAATACAGGCCACAGACTAGGAGATAATGTTTGCAAATCACTTAACTATCAGTAATATTCTCCAAATTGATCTATAG
ATGCAGTGCAGTCCCTATCAAAATCCCAACTGCCTATTTTGCAGAAATTGACAAATTGGTTCTAAAATTCTTATAAGGGACCCAGAATAATCATAGCAAT
ATTCAAAAGGGAAAACAAAGGTGGAGGACTCACATTTTCTGATTTCAAAACTTACTACAAAGCTATAGTACTGAAGACATTGTGGTTCTGGCATGAAGAC
AGACATATAGATCCATGAATTAGAATTAAGAGTACAGAAATGAACCTACCAATTTATGGTCAATTGATTTTTCACAAGGATGCCAAGACAGTTCAATGTG
ATTTTCAACAGCTGGTGAGGAACAAATGGATATTCACATAGAAAAAAATGAAGTTGGACCCTACCTCTATGCCATATACAAAAATTAATTTCAAGTGGAT
CATGGACCTAAATGTAAGAGCTAAAATGAGAAAACTCTTCGAAGAAAACAGGAGGAAATCTTCATGACCTTGGATTAGATAATACAGCACCAAAAGCACA
AAAAAACAAAAGAAAAAATAGATAACTTGAACTTCATCAAAACTAAAAAGCTTCATCATCAAGAAGTGAAAAGACAGCTCACACAATGGGAAAAAATAGC
CAAATCCATGTAAGCAGAAAGTAGATTTGTGGTTTCCAGAGTCCAGCTTGAAGTGGGGATGGGGAGTGGCTGCTAATAGGTATTGGGCCTCTTTTTGGAG
GAGTGATGAAAATATTTTAAAATTAGATAAAGTGATGTTTGCACACTTTGTATGTTCACAGAGTACTAAAACCCATTGAACTATATACTTAAAAGAGTAA
ATTTTATGGTGTGTGAATTGTGAAGCTAATTTTTTATACTTACATATCTAATTCAGTAATGCTAGAAAAATGACATATACACATGCAAAAAAATGAAGTT
GGAACTTAACCTTACACTATATACAAAAATTAACTCAAAATGTATCAAAGGCCTGAATGTGGGGTCTAAATCCATAAAACTCTTAGAAGAAAAGCTTTAT
GACATTAGATTTGAATATGACACCAAAAGCACAGGCAACAAAAGAAAAACATACATAAATTAGACTACATCAAAATTCAAAACTTTTGTGCATCAAAGGA
CACTATTGACATAGTGAAAAGGCAGCCCACAGAATTAGAAAAAAAATTCACAAAACATATATCTGATAAGGGGTTAATATTCAAAAAATATTTTTAAAAA
CTCCTGCAACTGTGTTATTCAAGGTTTATGATATTTAAAAAATTAAAAATAAAAACTCCTAAACCTCAACAACAAAAAACCCATTTCAAAAATTAGCAAA
GGACTTGAATATATTTTTTTCCAAAGAAGATGTACAAATGGCCAATTAGCACATGAAAATATGTTCATGATCACTAATCATTAGGGAACTACAAATTAAA
ACTGCATTGAGATGACACTTCACATTCATTAGGATGGGTATTAGGAAAAAAACAGAAAATAACAAGTGTTGATGAGGATGTGGAGAAATGGGAATGTCTG
TTGCTGGTAGGAATGTAAAATGGGAGTTTCTCAGAAAGTTAAAAATATCATGCACCTGTAGTCCCAACTACCTGGAAGGCTGAGGCAGGAGGATCGCTTG
AACCCAGGAGTTCGAGGCCAGCCTGGGCAACATAGTGAGACCCCCAACTATTTTCTTAAAAAGTAAAAGTAGAATTCTGTGATTCAGCAGTTCCATTTCT
GGGTATATACTCAGAAGGACTGAAAGCAGGGACTTGGGCAGATATTTGAATACCCGTGTTTAGCAGCATTAGTCACAATAGCCAAAAGGTAGAAGCCACT
CAAGTGTCTGTTGATGGAAGAATGGATAAAGAAAATGTCACACATACGCACACACAGAAAGAGAGCGGGGCTGGGGAAGAGAGAGAGATGCAATGGGAAT
ATTATTCAGCCTTAAAGAGGAAGGAAATTATAACACATGCTACAACATAGGTGAACCTCGAMGACATGCTAAGTGAAATAAGCCAGTTATAAAAGCACAA
ATATTGTATGATTTCACTTAGATGAGACATCTAGAGAAGTCAAATRTATAGAGACAGAAAGTACAATAGTAGTTGCCAGGAGCTGAGGGAGGAGGAGGTG
AAGAGGTTGATAATAGGTACAGAGTTTCAGTTGGGGAAAATGAAAATGTCCTGGAGATGGATGGTGGTGATAGTTGCCTAATAATGTGAATGGACTTAAT
GTCACAGAACTGTACACTTTAAAATGATTAAAACTGTAAATTTGATATATATTTTACCACAAAAAAAATTACCAGGCATGCAAACAAGCAAGAGAAAAAC
TCACCCATTATAATTAGAATCCAGAAATMACACAGATTATAGAATTAATAGACAAGGACATTAAAGCAGTTGTTTATATTGCATATGTTCAAGAAGATAG
AGGAAATCATGAGCGTCATGAGTAGAGAAATGTAGGATTTAGATTTAAAAGAACCAAATTGAACTTTAGAGGTAGAACATACAAGATAATATCTCAAGTG
AAGAATAAACTGAATGGATCCACAACATATTACTGTTGGAATTGCTTCAGGAGGAAGATGAGCAGACTTAAAAACAGCAGTATAAACTATCCAAATGAAA
CACAGAGAGAAAAAGAACTGAAAAAGAAAGCATCAGTGAGCCATGGAACAACTTCACGTAGCCTATAACATATATAACTGGAGTCCTGAAGGAGAGATAA
GGAGCACATAAGAAATTATTAGAAAAATAATGCTTGAAAAATTTTTGAATACTATGAAAACTATAACTTCACAAATCAGAGAAGCTCAATGAACCCCAAG
CAGGAGAAATATGAAATAAACCACACAAGGCACATCATCATCAAATTGCTGAAAACCCACGATAAAGAGAAAAGTCTTAAGAGCAGCCAGAGAAAAACAA
GCACATGATATATAGAAGAACAAAGAATGACAGCAACTTCTCGTCAGAAACAGTGCAAGCCAGAATACAGTGGAGCAGCATTTTTAAGTTCTAAAAGGAA
AASAAGTTGTTAAGCTAGAATTCTATACCAAGCAAGAATGTCTTTCAAAAATAAAAATGAAGACATTTGCAGAAATATAAAAGCTTAGAGAATTAATCAC
AAGCATATCAGTACTACAAGAAAGGTTAAGTGAAGTCCTTAAAGCAGAAAGAAAATGATAACATGGAAAAAATGGATCTCTGCAAAGCAATGAGGAAAAT
TTGTAGGTAAATATAATAAAATTTGTAGTGTACATATAATAATTCAAAAATAGCTAGGAACTCCTAAAAAAGAAGAGCAATGTGCAGAGAGTAATCCCAT
TAGCTATTAAAACATACTTTAAAGCCTCTGAAATTAAAATTATATGGAACTGGCACATGAATAGGCAGACTGAGCAGTGTAAAATAAATAGCAAATCCAG
AGATAGATCTGACTGTATATGAAAATTTGCTATATGATAAAGGTAGTGTGGTAGTCTGCTGAGGCTGTCAGTGAAATACCACAGACTGTCTGGTTTAAAC
AACAGGATTTTTTTTTCTCACAGTTCTAAAGACTGGAAAGTCCAAGATCAAGGTTCTGGCAGGGGTTGATTTCTGCTGAGGGTCCTCTTCTTGCTTGCAG
ACAGCCATCTTATGGCTGCCTTCTCACTGTGTTCTCACAGGAGAAGGAAGAAGGAAGGGAGGGAAGTGGAGGGAGGAAGAGAGCTCTTCCTCTTCTTATA
AGACCATAGTTCTATCAAATAAGGGCTCTACCCCGTGACTTCACTTAACCTTCATCATCTCCTAACAACCCTGTCTCTGGGTACAGTTATATTGAGGATT
AGGACTTCAACATATTAATTTGGGGGATGGAGATTCAGTCCATAGTGGTTGGCATATTAAATTGGATAAAATTGACTTTTTCATAAATGACATTGGGATA
AGTTAATAGCCATTAGGAAAAGATACAATTGAATCCATATATCACAGCGTATGTCAGAATAAACTGCACGTGGATTAGAGATCAAAATGTAAAAAAATGA
CTATATAAGTACTAGGAAAACACAAATTCCTTTATAAACTTGGGGTGGGGAAAGCCTTTTTAAATATGATTCAAAATCTAGATAGACCGACAAATTTGAC
TTTTTAAAACATTTTTAGGGGAAAAAAAYACTCCAAGCAAAGCTAAAAGACAAATGATAAATGGGAGAAAATATTTGCAACATAAGGCACAGATAACTCT
CCCTAATTCATAAAGAACACTCATAAATAGAAAAATAGAAAAATTTTTTAAGACTAAAACCTATAGAAAAATGATCTTAAGGCATGAACAGTTGACAGAA
GATATACAAATGGTCCTCAGACATATGAAAATTCACACCACTCATAATAAAATAAGTGCAGATTAAAACCACAGTAAGATATTCTTTCTTACCAGATTGA
CAAAAATTCCAAAGCTTGAGGAGACAGCAAGGCTGTGGGGAAATAAGCGTTCTCATTTTTTTTTGCTGGGGACATGCAGAATGGTACATTTCACACCAGA
GAGGGAGGGCATACAATTCATCAGTATCTGAGAAAAACCACATATGCATTTATTAGTTGACCCAGGGATCCCACTTCAGGAATTTGATTTTAAAGATGTA
CTGCCACAAAAATAAAGCAATATACACATGGTTATTTTTTTGCAACATTAAGAGATTGATTGAATGTTATATAGTACATTCACACAATGAAGTACCATTC
AACCATAAAATAGAATGAGGAAGATCTGTGTAAACTAATATGGAGTGATTTCTAAGATATATCATTAATGTGAAAAAAGAAAGTTGCAGAAAGTATATAT
AATACGCTAACTTTTGGGAAAGAGAAGGGGAAATATGTATGTATACACATATGCACACATATATAACATATGAAAGTATGCATTTTAAATTTATTTTTGT
AAAAAGAAACACAGGAATGTCAAGCCAGAAAATAATGAAAAGATCACCCATTAGGCATGTCTTGGAATAAGGTAGAAAGTACTGGGATAAGAGTGAGGCT
TTTGAAAATACCTTTTAATATTCTTTTGACTTTTGAACTAAGTATTTTACTTAATAAATAAAATTAAACTAAAAAAGATGAACAAAGCAAACCCTAAAAT
TGATTAGAAACAAACAAAACTGAATCAAATGGATGTAATAACCACATTGAAAAAACTATTAATTCAAATAAAATTTTAACATAGAACCTTCACAGTATAC
CTTTAATATGGGGCATATTCTAAGGAAAAAATGGACTGCAAAGAAATTTTGACTTCTTAATAATGTTTGTGGTTTTGGCATGGTTATCTGAGACTAATTT
GCAGATATTGAAAATAGAGCAAATGAATAAATAAGATTCTAATATGGAAAAAGATGAGGAAGAACCCTGTAGTATTGGATTTGAATTGGAGAATATCTGT
ATCTACTCTGGCCTTTAAAATATATTTATATGTATGCATCCTATTCAAGTAATACATATATGTAACATATGATTTGTATGTGTGTGTGTATATACATATG
TATTTTCCAAGCACTGTTCATTGAAAGGGCCTAGAAGCAATTACATCTCAGTAGCAATGAYGACACCTTGATTTTGGTTTCTAAAAATCACCTGATACAC
CTGTAATCCCAACACTTTGGGAAGCTGAGGCAGGAGGATCCCTTAAGCCTAGGAGTTCGAGACCAGCCTGGGCAACATGGCAAGACCCCCATCTCTACTG
GAAAACATTAAAAATGAGCTGGACATGGTGTCACGCATCTGTGGTCCCAGCTACTTGGGAGACTGAGGTGGGAGTATCCCCTTGAGTCTGGGAGGTCGAG
GCTGCAGTGAGCCATGMTCATGCTATTGCACTCCAGCCTGGGTGACAGAGTAAAACCTCTTCTCAAAAAAAAAAAATTAAAGTTGGAGGGAAGAAATCTC
CTTTACAGAATGCCAGCCAATAAATATAGAAGGAATGAGGCTGGGCAAAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGATGRGTGGATC
ACATGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAACTCTGTCCCTACAAAAAAATACAAAAATTATCTGGGCATGATGACACACACCTGT
AGTGCCGGCTACTCAGGAGGCTGAAAAGGAAGAATCAGCTGAGCCCGGGAAGTCTAGGCTGCAGTGAGCGGAGATCTCGCCACTGAATTTCAGCCTGGGG
GACAAAGCAAAACCCTGTCTAAAAAAAATATATAGAAGGAATGAGAGAAAATTACTTTTTTGCAACTATTTTAATAATTGAGTCAGGCAAGAGTAACCAA
TAAATGCTTAAACTATTAGGTAAAAAAACATACTGAGGAATAGGATGTTCACAGTCTCAAAGTTTCTCTCCACTGATTGCCTGTAAATTACAAAGGGAAA
TTACAGTGAAGAACACTGTCAATCACCTCTTAACATGTGATCAAATTTTGTATCTTCAGTAATTAGACAAACTGACATTATGTGCCTCCTGCAGTATTGC
AATGAGAAATACTCCACATCACCTGTATAATATTTTTTATCAAATCTCTTTAGCAGGCCAGGCCTAGCAGTTTATGCCTGTAATCAGAGCCAGCACTTTG
GGAGGCTGAGGCGGAATGATTACTTGAGGCCAGAAATTCAAGACCAGCCTGGGCAATATAGCAAGTCCCCCATCACTACAAAAAATAGAAAAATTGGCCA
GGTGTGGTGGTGCACACCCTTAGTCCTAGTTGCTCAGGGGGATCACCTGAGCCCAGGAGTTGAAGGCTGCTGTGAGCCATGATTGCACCACTGCACACCA
GCCTGGGCAACAGAGAAAGACCCTGTCTCAAAATAAATAAATAAATAAATAAATAAATAAGCTCTTCAGCATGAATGTAATTATGAGGAAACGATCAGAA
GAAGTCCAAACTGTGGGACATTCTGTAAAACATAATCCAGACTCTTCAAAAATGTCAGTGTCATACAAAGCAAACAAAAGGCAACAGGACTATTATACAT
GAATTCTACATTAAAGGAGACTGAAGAAACATGACAACCAATTGCAGTATGTGATTCTTGATTGGATCCTGTATTTAAAAATCAACAGTTTTAAAGAACA
TTTTAGGGACAAATGAGAATATTTTTAATTAAATTTCCTGAGTGTGATAATACTGCAATTTTGTAGGGGAATGTCTTTTTTCAAATATACTGATATATTT
AGGGGTGAAGTGTCGTAACATCTCCAACTTTCATATAGTTCAGGGGTGGAAGCATTAATATATGTAGATGAAAAGCAGATGTGGGAAAATGGTAATAGTT
GTTGAATCTAGTTGAAGGGTACATAATTGTTCATTATATAGTTTTTGCTATTTTCTCTAGGTTTATAACTTTTCAAAATAAAATTAAAAAAATAAAATTA
TTTATATATAATTGTACATATGTTTGTGTGTCCATGTTCCCCAGGCCTTCTCTGGACTTCTTTCTAGAGTTGCTGAATCAGAAGCTCTAGGTAATGGGGC
TTGGGATTCTGCATGGCAAAATGGCTCTCCTGAGATACTGACACAACTGGTCTATATTTGGAAAACATTGCTCTGGAAGAGCATCCTTTTCCATTAAAAT
CTTGCATGGTGTATATGTATACGTATGTGTGTTCTGTTCTCATAAGGGATATTACTCTTTTGCAGTGGAGTCCTCCAAGGATAAAACATGTAGTAGAGTA
GAATGATTCTCCTCAGTTATCTCAAAGCTGCCACTCTTCTCCTCACAGCTCCCTGTTATTACTGACTGATTCTTCTACTTAATACTGTGATTGTTTCTTC
TAAAGAGGGCTGTCTAGAGCATAGTTCTCAAACTTGGCTACCTGTTAAAATCACCTAGGGAGCTCTTAAAATTTTCAGGGTCTAGGCCTTAACTTCAGAT
CAGTTAAATAGGGATTTCTGGGAGTGGATCTGATGTATTCTTTAATGTTCCCTAGGGGATTCCAGTCCAAGTTTGAGAGTCACTGAGCTGGAGTAGAAGC
TAGCCTTTAATGAGGCCCCTAGTCAAGTGAGTCACGATCTCAGTGTAAACTGCTTACCCAGCAAATTTGGTCACATGCTTTAGTATATACAGTAACTTCA
AAGGAATCCTTTGTATGTTTCTGTCACTGATCAATTCCTGGTGTGAATGCTCTTCTGTTACCTGCCACCAGAGGGCATGGACTATGATTAGATTATAGTC
CTGCTGCTCCACATGTATGTATGTATGTATTGAGGCAGAGTCTCGCTGTGTCACTCAGGCTGGAATGCAGCGTCACAATCATAGCTCACTGCAGCCTCGA
CATCCCCAGGCTACAGCAGTCATCCTGCATGAGCCTTCCACGTAGCTGGGACTACAAGCACACACCACCACACCCAGCTAATTTTTTGTATTTTTTGTAG
AAACAGGGTCTCACTGTGTTGCCCAGGCTGGTCTTTAAATTTTGGGCTGAAGTGATCCTCCTGCGTCAGTCYCCCAAAATGCTGCGATTACAGGTGAAAG
CCACTGTGCCCGGCCTGCAGCTCCACTCTTAAATCCAGTTTCATCAGCTGGCCAGTTTAAAGAGATGGACCCTAGCTTATCCAGTGGTCCCATAGTCTTG
GGAGCACCTAGAAGCACTTTAGAAGTGGTTCTTTATGAAGTTTTAAAAAATGAATCCTTGGTAAACACAGAGCACTTGCAGCCTGTGTTTGGAATTAAAA
GAGATCTGACTTTGTAATATTAACTTAGCCACTCACTACCTTAGTTGTGTGACTACTGGTAAGTTGCTTTACCTTGACTTGTAACGTTGAGTTTCAGTGC
CCTTACCTGCAAGATGATTAATAAATTCTTCCCCATGTTGTTTTTGTGGATTAAGTGGAATAACATAATAAAGCGTTCATCAATTCTTGGCACCCATTTA
ATAAATGGAGGGTTTTTTCCTTAATTCAATAAAACTATCAAGGATTTTGTATTCTAGTTGGAGAAGACATACACATTAAACTTTTTAAAAAGAAAATTCA
GATGGTGATAGGGGCTAGGAATAAATAAGAAGGAAGCAGGATAGATTTAGGAGTCTATTTTGGGTAAAGTAGTCAAGGAACACCTTTCTGAGGAAGTGAT
GTCTCAGCAAATAACTAACTGTAAAGAGTTGATTAAAAGGTGTTTGAGGCAGAGGGAAACAGCTTGGTATATTTGAGAACAGAAAGACCAATGAATAGGG
GTACAAGGGAGTGATAAGAGATGAGTAATGAGGAGTAAGCAAGGTCCAGATCATGTAAGCCTTGTAAACATGAATAATAAAGAGTTTAGATCTGTTTTGT
GTTGTGAAATTTGAGCATAAGGTAATGTGACCTGATTTATATTTTTAAAAACATAACCATATTATTCTGGCTGCAAAAGTAGAGGGCTGAGGTCCAGTTA
GAAGGCTGTTGGAGTTGTCTAGGCAAAGTTTGACTCTGGCTTAAATTAGGGTAATATAGCAGTAGAGATGGTGAAATGTGGGTCGATCTAGCATATATTA
AGTGGGAAAGCCATCAAGACTTGCTGATTAATTGGGTTTGGTGGGTGATAGAAAGGGAAGAATCAAKGATGACTTCTAGTCTTTTAGGTCTGAGCACCTG
GGTTTAATAAGGGGTGCCACCTATTAAACTGAGATGGGATAACTGGAGGAAAGAACAAGTTTGGAGGGAATAGTAGAATCAAGAGTACTGTCTTAAACTT
ATTCATTTTACGWTTTCTTAGACATCCAAGTAGAGTTATAGACTGAGGTAGTTGGATATATGAACATGAAACCCTGAGCAGAGGTTTTGGCTAGATATAT
AAATTGACAGTCATCATTTAACAGGAAGAAAGTGGGGACCAAGAAGAAGACAGAAGCAATGACTGAGCACTGAGGTGCTCTACATTTAGAGATTAGGATT
TCCTCTTACCCACCTGTCCTTTTCCTTATAGACAGCCTARGTCGTTGCCTAATTTGAATAGAGCCTCAAATTACTGTTTTCATCTTCCTTCTTTTCTCTC
TTTCACAAGTTTATGACTCCAACCCTTCTTACCTAGAGACAGTGTGGTAGGACTGAGTGATAAAATATTTGACGATATTAATGTGATGATTAGTTATGAA
AGCTCTGGAGACGGAGTAGTTGGGTTCAAATCCTGGCTCTGCTATTTACTAACTTACTAACTTTGGATATTTTACTTAATTTCTCTAAGCCTCAGTTTTT
TCATCTATAGTTACAAAAATAATAGCCAATGTTTATCTAACTCCTGCCTGTATGCCAGGCAGTGTTTTAAGTCCTTTGCATGTATTAGCCTATTTAATCT
TTAGAACAACCCATTGATTCTTATCCCATGCTGTTGTTGAGGAAACTGAAGCTAGAGAGAGGTTTTGTAATTTTCCAAAAGTTATGTACCTGGTAAGTGG
CAAAGCTGGATTTAAATTCAGGCAGTCTGGCACCAGAAACTGCTACTCCTCTAGTATCTGATTCAGAATAGTAGTAGTGATCCACTGCAAATGCTTAGCA
CAAGGAGCTGGCTCATGATATGTGTACAATAAATGTTAACTTTTGGAGGCAACATAGTGTAATAAAAGAGATAGTGTAATAAACATAGTGTAATAAAAGA
GAACCAAATAAGAAGTCCTGGGGTTCCAGCCTGACAGTGTAAGATTGGCTTGTGTGACCATGAACAAGTTTCTTAGCCTCTCTGGACTTCAGTTTCATCA
TCTGCAATGTAAGATCTTTGTACTTCATGGCCTCTGAGGTCCCTTTCAATGTTAAAATTATCTACTATCTATGATTGCCCAAGAATATTGAGGTAAATTA
TGGATATACTTGAATTTGAAGGGATAGAGTCCCACATCACCTAGCGGATTGAGGAATAAGATACCTTAGCAATTTCTTGGGTTCAAAATATTTCTGCTTT
GCCCCTGTACTCTTGAAGAATCCTGCTGGTAGTGAAACATAGTAAAGAACCACAAAGTTTGGTATCCAACCACCATATATTGAAATCTGTCTCCGGCATT
TACTAGCATGACCCTAGACAAGCTGCTTCTCTGAGTTTTCATTTTTTATCATCTGTAGAGTAGGGATAATAATAGTGCCTGCCCATGTTATTTCARATAT
TGAGTAAGAAATGGCATATAAAATGTTTAATACATGGTAAGCATTCAATATATATTAACTATTATGATAATATTGTAATGATTTCCAAAGCTGAGAGGAT
TTTTTAGCTCCTTAAGCTTCAGATGAGATAGAAACCCCCCAGTAACCCCTACCTCAAAAATGGAATTGGGAATTACATGGCTAGGCACTCTAGTCATTGA
TAACTATAGGCATTAAACCTGAATTTTCTAATTGTGCAGGCCTCCCTATACCAAGGTGTATAGACCACTTCTCTAAAACAGTAGTGCCTTGCTTTACCTT
ATCCATAGGTGTACCAAACCACTCATGGCAAAGCTGCTCTGGGTTTGGCTTGCTTCAGCCCTTCCCTGACCTAAGGAGAGTTGTTTTCCCACATAAACAC
CACGCTTGAATTTCTGGAGGGATTTAATTTTTTTAAACCATTGTCAAAAGAAGAGTAGCAGTTAAAAACCCAGCTCAAACCAGATTAGAGAGGGAAAAAA
GGAGGAGGCAGGAATTATTAACTCATATAACCAAGAAGTCCAAGGATTTATCTGGTGTTGAGTGTCTGAGTACTGGGTTTTAAACACTATTATGTGTCTC
CATCCCATGCTGTACTTTGGCTTTATTCTCAGGTCTGTTCTCCATGTAGCAGTGCCCAAACTGCAAACATCCTTATGGGCATGTTCTCAGACAAAGAAAG
ATGTTCTTCTCCAACGTCAATCTCATGTCAAAAAACAACTGGCCTAACATGGGACATAGACACATATACACTCTTGGTCTAGGGGAATTTGATGCTCTTA
AACAGCATTGTGTTTTACCCCAAGGCCAGGTAGGTAAGGACCACATATGTGGTTGACGTGCCCACCAAATCATGTGGAGTTACGGTGGGGTTTTTTTTGT
TTTTGTTTTTTTTTTGCCCTAAAGGGAAAAAAAAGCTGGGCAAGCAAAAAGGAAGTGATGGCAGTTTTAGATTGAGTGATAGGAAAGTCCACATTGCTGT
TGATATGGATGGGCTGTCCCAAGAAATCTCTTTACCTTGGGAAGGCTGGCTTAGCCTAGCCAGCTTTGGGACTAAAAGTTTAAATAGTATGGAGTGGTAA
CTCTTTTTTTATTTGCATTTCCTTGTCACCTCCTCCTCCTAACTTTAATTACAGTTGTTAATTGATACTTTTTTCCAAAAGCTGAATCTTCCCTTTTCAT
TTTACCCATACATTGCCAGTTTTAAAGTGTGGGCTCAGGAGTCAGATTGCCTGAATTTTAATCCTGTCTTTTCRTTTGCTCACTTTGAAATCTTAAGCAA
TTTATTTAACTTCAAATAAATTGTACCTGTTTCCTCATCTATAAAATGAAGATAATATCTACCTCCTAGGGCTGTCTTGAGGATTAGATAGTCAATAGAA
AGTGATTGGCATAGTGAACAGTAAAGTGCTCAATAACATCAGATACTGCTGCTGCTGTTATTTCCAGCTTTGCAGCTTGGGTGCAGCTTATCTGTTCTTT
TGTTTGGAGTGGGAAGGCTGAGGTAGTTTGGGAAATGCTCAAAAAACATTAGGTTTTGTTATCTCAGGATGCAGAGTTGAAGCAAATTGAAAGAAGCACT
TGGGGCTCTAATTGGAAGACCTAACTGTAATAATGATCTTATTTTTACAATTCATTGATAGGTGATAATGGACAGTTAACCTCTCTAGGCTTCTTTTTAC
TCTTTTGCAAAATGAAGATTTTTGGATAGGACAATCCTTTCCAATGTCATTCCTTGGTCCTTAGTTGTTTAAGTAAACAATGAACTTCAGAAAGTATTTT
GTACTTGGTGTGTGTATGTGTGCAAGACAGAAAGTGATAAGAGAAGTAGTGAGTTAGTTTACATTGAGAGGAACCAAAATGATTTACTTATATATTGGGT
TTATCGGTTGACATGTTTGGTTTCTTCTTAAGAGATTATTAGATCCCCTTTCATACTCTACTGTCCAGATCATCTCTAAGTATTCGTTAATCCTATCACA
TCTTTTTTGGATTTTTCAAATGCCTAGAAAGTTTTCTAGGCATTACGTTATGTGTTCTGTAGTACTTGTCTTAGGAAACTTGGTTTGGAGACTCTGTCCC
ACTATTTACTTTACAGCATTACCTTGGACAAGTTACATTCTCTCTTATGTGCCTCATTTTCTTCATCTGTCTAATGAGGTGTTTCTCCTTTTTAACCCTT
AAGTCCTTTCTTAACAGTCTGTGATTCTGTAACTATCACAGCATAGGAGTAGCTGGATTCTAAAGGCTGAACTTGATATCATAATGTAGAGTCCAGCCCC
ACAGGGTTGGTGGGTTTTCTCCCTGTGTGCGGAGACAAGAGAGTGTAGAAATAAAGACACAAGACGAAGAGATAAAAGACAGCTGGGCCCAGGGGGACCA
CTGCCACCAAGACACRGAGACCAGTAGTGGCCCTGAATGCCAGGCTGCGCTGATATTTATTGGATACAAGACAAAGGGGCAGGGTAAGGAGTGTGAGCCR
TCTCCCATGATAGGTAAGGTCACGTGGGTCACGTGTCCACTGGACAGGGGGCCCTTCCCTGCCTGGCAGCCGAGGCAGAGAGAGAGAGAGGAGAGAGAGA
GAGACAGCTTACGCCATTATTTCTACTAATCAGAGACTTTTAGTACTTTCACTAATTTGCTACTGCTAACTAAAAGGCAGAGCCAGGTGTACAGGATGGA
ACATGAAGGCGAACTAGGAACATGACCACTGAAGCACAGCATCACAGGGAGACAGTTAGACCTTTGGATAACTGCAGGCGGGCCTGACTGACGTCAGGCC
CTCCGCAAGAGGTGGAGGAGTAGAGTCTTCTCTAAACTTCCCCGGGGAAAGGGTGACTCCCTTTCCCGGTCTCTAAGTAATGGGTGTTTTTCCTTGACAC
TGACGCTACCACTAGACCACGGTCCGCTTGGCAACGGGCGTCTTCCCAGACGCTGGYGTTACCGCTAGACCAAGGAGCCCTCTGGTGGCCCTGTCCGGGC
ATAACAGAAGGCTCGCACTCTTGTCTTCTGGTCACTTCTCACTATGTCCCCTCAGCTCCTATCTCTGTATGGCCTGGTTTTTCCTAGGTTATGATTGTAG
AGCGAGGATTATTATAATATTGGAATAAAGAATAATTGCTACAAACTAATGATGAATGATATTCATATATAATCATATCTATGATCTATATCTAGTATAA
CTATTCTTATTTTATATATTTTATTATACTGGAAGAGCTCGTGCCCTCGGTCTCTTGCCTCGGCACCTGGGTGGCTTGCCACCCACATCACCATTCATTT
TTGAAACATACTTTTAATCTGTTGCCCATTATGCTTGCTGCAGGATTTCGGCTGAATGCGTCTTCTTGGCCCATGTTCCTTTTGAAGACGCTAAATGGAG
CAGAGATGGCTCCCATCAGGATTTTCCACAAGGTAGGCTATCCCTCAGATATCACCAGCTCCAGGCTGCTTAAGGTCAAATATTGAGACTTTGATGTCCA
CATTTACTTATGGCCTGAAGATGCCTTCTCAGAAATTAGTTCAGAAGGATTTTTTRGTAGCTTATGAAGCAGCAATTATCCCCAGAGGAATATATTAGAC
TATAAGGTCCCATAGATTAGATTATATGGTCCCAGCTTCCAGTAATCTCTGTTTACCTGTCGGGCTTGTTAAGAAGTTAAAATGTATTATTAGTAGAATA
TGTTAAATGTAATACAAATCTAAAGGCGCTATTCTTATTATAGATCTTGGAGTTCTGTAGAGTTCATGTTCTAAACAGAGAAAAGAAGGAGACTTTTTTT
ATTGCCTACGATATGTTTGGGACTTTATATATACTATCTCATGTAATACCCACAGCTAACTTTATGAACTAAGAATTATTATTTCCATTTAATAGTTAAG
GAAACAAATACTTTTGAATTAGGAGCTTGCTCAAGATCACGTGGCTAGTAAGCGGCAGAACAGGGATCCAAAACCTGTATTTGTTATTGCTTCTCAAGAA
GTGAGGCAGTGAGTCTATCMGTTGAATTTTCTAATGGGGTAAAAGTTACTGTAAAGGGTATTRAATTAGGTTTGCCTATGCTGCTAGTTAAGTCTCAACA
CTAAGAGCATCCTGCTTCTGAATTACCTAGCACTTATGTAACTCAGGAGTAGTTCTTGTATTCTTTGGGACTAGAAATAAAGATGAGTTTTAGACTTTGT
TATGCCAGCTGTGCAGTAAAGGGATCTACCAAAAGACTCCAAGTAGAATGTTTAACTTCCGGATCAGTGGAGGGGGAAAATAGAAGAAAACTTAGTTGAT
TGAAAAGGAGAAAAAAGAACTTTGGAAATTCAAATTAAATAGAAACATAGACAATAAGGTAGTTGTAATAAATTCAGATACATCAATTATCACAAGAAAT
GAGCTTAAGCTCATTATAATCATACATAGATCAGATTTTTAAAAATCTAGCTATATGCTATGTATAAGAGACACTAAACATAATGACAAAAATGTTGAAA
GTAAAAGAAATCTACAGAGGGTGGGAATGATGGAAAACAAATTTTTTAATTTTTAAAAAAGAAAATAAAAGAATATGAAAGATGTGCCAGATGAACTTTT
ATCAAAATAAAGCTGGCATAAACTATACGGAAATCACGCAAGACTTTGATACTAAAAGTCTAAATGATGCTAAAAGCACTGAGTCCAGGAATTTGAGACC
AGCCTGGGCCACCYGTAGCAAGACCCCGTCTCTAGAAAAAATTTAAAAATTAGCTAAGAGTGGTGGCACGTGCCTGTAGTCGCAGCTACTTGGGAGACCG
AGGTGGAAGAATCGCTTAAGCCSAGGAGATTGAGGCTGCAGGGAGCTGTGTTTGCACCATTGCACACCAGCCTGGGTGACAGAGCAAGACCCTGATTCTA
GAAATAAATAAATAAAATGCATTAAAGAGGTCACTATCTAATTATCATAAAGTACAGTTCACCAGGAAGATAAAACAGTCATAAATGTACATGCTCCTAG
AAAATGTAATCTCAAAGTATAATAGAGCAAAATTTGACAAAATTACATGGTAAAATTGGAAAATCCACAAATCACTAGGGAATATTTGAAGACTTATCTC
TTAACAATTGATAAATCAAGCACACAAGAATTGGTATGTCAATCAGCATAAGCTAATAATCAGTATCGAATAAGTTGGTCAATTTTTAAAAATCACTTTA
TTTGCATTTAACAACAGTTAAATTTAAATGATTTGAAAATAAATTTTTTAAATGCCACTTATGATAGCAATGGAATTGTAATTTGCCTAGAAAAAAAGTT
AGTAAAAAAGCATGAGATATTTATAGAGGAAATTTTTAAATGTATGTTGAAGAAATCTGCATTAAAGAAATCTTGGCCAGGCAYGGTGGCTCATGCCTGT
AATCCCAGCACTTTTTGGGAGGCCAAGGCATACGGATCACTTGAGGTCAGGAGTTCGAGACCAGCTTGGGCAACATGGTAAAACCCCATCTCTACAAAAA
ATAACAAAAATTAGCAGAGTGTGGTGGTGTGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGTAGGMGGATCACTTGACCCTGGGAGGCAGAGGTTGC
AGTGAGCCAGGATTACACCACTGCACTCCAGCCTGGKTGACAGAACCAGACCCTTTCTCCAAAAAAGAAARAGAGAGAGAGAGAGAGAGAGAGAGAGAAA
GGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATAATAAAGKTTATTTCCACCCAAATTTATCTATAAATTCG
TTGTAATTCCAGTCAAAATCCTAATAGGGTTTATATATGGAACTCRAAAAAACTGATTGAAATTTATATGAAAGACAGAGAATGAATAGCAAAAACAATA
TTGAAGAATGACAAAGTAGGGGGACTTTTCCTATCAGATATCCATTTAATAAGACTATGTTATTGGTACAGGATCAGATAGTAAGATTAAGGGAACAGAA
TAGAATGTACAACACATTTTTTGAAACTTGATCTATGTAACTGCATTACAAATTAGCACCCAGGAACTCTCTACACTTCCGGTGAAAGTATACAATGTTA
CAACCACTTTGGAGTACAAGTTAAAAATATTTGATAAAGCAGAAGATGTATATATCTACCCTATAACCCAGGAATTCAGGAATTCTACACCTAGATGTAT
AACCTAAAGAAACCTTCCTACACATATACAAAGAAGTGCAAGGATGGTGGTTAAAACTCTTTTAAAATAGTAAACAATTGGAAAGATCTTTAAGTGTCCA
AAGGAGAATGAATAAATTTCGATATATATATACAATGAAATACTATTACAAGTTAAAATGAATCAGAGCTAAATTTATCAACATGGGCAGATTTCAAAAA
CATACTGCTAAACAAAAAGCAAATTGTACAATGATATATACAGTATAATACCATTTATATAAAATTTAAAAGCAGGCAAATGGGTATGTATGTATATAGT
AAAATATAAAACATGCATGGGTAGCTGTTACCTCCGTGGTAGGTAGAGGGGGAATGGAATATGGGAAGGGCAGAAAGGGAGATTCAACTTTATCTGCAAC
CTTTTATTTCCTTTTTAAAAAATCTGAAGCAAAGTTGTCAAAATGTTAGGATTAATAAAGTAATACTTTAAATATTGAAATATTGAATTTAAAATTAATT
TAAAAGAAAGGCTATATATCCATTATAAGTCTCATGTAGCAGTCACTTTTTAATCATCCAAATTAGATAGTAGTCTATTGGCATAATGGCCTCTCTTTGT
GTCTAGGTGTGTATGTTTCTGTTTCTCATCTAGGAGCCACCATCGCCTTCCCACAACTTCTTCAAAATGGGAATGAAGCTAGAAGCTGTGGACAGGAAGA
ACCCTCATTTCATTTGCCCAGCCACTATTGGGGAGGTTCGGGGCTCAGAGGTGCTTGTCACTTTTGATGGGTGGCGAGGGGCCTTTGACTACTGGTGCCG
CTTCRACTCCCGAGACATCTTCCCTGTGGGCTGGTGTTCCTTGACTGGAGACAACCTGCAGCCTCCTGGCACCAAAGGTAAAGGCCCATCTACGTGCTCT
TGAAATCAGGACCCAGATGATAAGGGAGACTACCCAGGGCTGTCATGATCATATCTTCACCAGTATAYTTCACTAGTATGCAGGGGAGGAGCAAGGGCCA
GCAGCTTAGGTAAAAACCCAGGTCTACCAGGGAGCAATTAGAAACAGTTAAGTATTAAGTGTCAAATGAAACCGCATATGGCATTTGGGATAAAGTAATA
ATTCTTTGCTCTACATATCCTGGTTTATTCTCAGGCAACCAGCTTTTCATCTCTCTTACTTTTGTCCCTAACCCATTACAAAGTTTGAGTACTAGTATTC
CCAAGGCACACACCTTCCTCTGACCTTAGGGGCTTTGGATAAAAGCTGGAGTAACACTGTATTGTAAAAATAGTTGAGAAGCACTGTAGCAGGATGGAAA
AAGAACAAGCTTTGAAGTAAGATAGACATGGGTTTGAGGTCCATCTTTGCCTTTTATCAGCTGTGTAGCTTTGGGCAGTTAATTTACCTCCTTAAACTAC
AAATTCCACATCATGAAGTAGAAAACCTACTTTATGAAGTTATTGTGAGGAATAAATGAGATTACATGGGTAAAATGCTTACATGAAAAGTTGATGACTA
GCAAGTACTAAACAAATTTTTATTGTATTACTGCTGCTATTATAGTTATATTCTATATTATAACTATATCATATTATACTATATGATTATTACAATATGC
TATATTATCATTATTATAAAACTAACCACTACCWATGAGAGAGTATATATAAAGTACTAGAATAGTGTCACAGACTAAATGAACAATAAAATGATACAGA
TGATGACAGTGGAGAAGRTCCAGAATAGATTTTGAGGTAGCTGCTTTTAGTAAAGATAATAATAATAATCTCATCCTCTTAAGTCTAAAAAGTACTGGTG
AATCTGAGGGAATGAAAAGTCACCCTTCTTATTGTCTGAGGATCTTTTTCTAAACCTCTGTTGAATTCATTCATTCAATTAGCCAAATATTTATTGAGCA
CCTAATTGTAAGCCAAGCTGAGAGTACACAAGTGACAAAAATGAACAACATTGCTGTGCTCATGACACCTCCATTCTAGTTGGGTGAAACAGATGGTAAA
CATTTAAATCAAGAAATAAGATAATTTCATATAGATAATTTTTATAGACAGAAATAAAATAATTTCTCCTAAGGAAATAAAGTATGATGGGATAGTGACA
GTGAAGGTATAATTGTAAAGGGTTTTTTTTGTTTAATAGCCCTATTGAAATATAATTGACATAAGATAAATGGCATGTATTTAAAGTGTACAATTTGAAA
AGTTTTGACATCTATATACATCCATGAAACCATTACCACAATGAAAATAATGAACATATTTATCATTCACAAAAGTTCTTTGTAGAGGGGAAACTTGTTT
AGGAAGAATTTCTTTTCAAGAAATTTGTCTGAAAAGTTGATACTTGAATTGAGACCTGAATGATGAGAAGGAGTCATCCAAGGAAAGAGACTTCCAGGCA
GGCAGAAGGAACAACTAATATAATGATGCTGAGACATGAGTGAGTTTGCTGTGTTCCAAGGGCAGAAAGCAGACTGCTGTGACTAGAATGCATTGCCTGA
GCAAGAAAGTGGTACAAGGGGCTGGGTGCAGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGCTCAGGAGTTTG
AGACCACCCTGGCCAACATGGTGAAGCCCCATCTCTACTAAAAATACAAAAATTAGCAAGGCGTGGTGGTAACACGCCTGTAATCTCAGCTACTCAGGAG
GCTGAGGGAGGAGAATTGCTTGAACCTGAGAGGCAGAGGTTGCAGTGAGCCAAGATCGCACCAATACACTGCAGCCTGGGCGACAGAGCRAGACTCTGTC
TCAAACAAAAACAAGCAGTGCAAGATGATGTTGGAGAAGTGGRCAGGTGCCAAATCATGTAGGACCTTGTAAACCAGAGTGGGAATATTGGATTTTATTC
TAAACATATTAGGGAACCATTAGAAGGTACTAAGCCAGGGAAGTGACAAGATTTGATTTACTTTAAAAAAATCACTTGGACTTGTATCCAGAATATAAAA
GAACACCTATAACTCAATAATAAAAAAGACAACCCAATTTAAAAATAAGGAAAGGATTTGGATAGATATTTCTCCAGATAACATACACAGATAGCCAATA
AGCACTTAAGATGCTCAATATCATTCATCATTAGGGAAATGCAAATCAAAGCCACAGTGAAATACAACTTCACACCCATGGATACAGCTATAAGCAAAAG
ACAGATAATAACAAATGTTGCTGAGAATGTGGAAAAACTGGAATTCTCGATCATTGCTGGTGAGATTGGAAAATGCTGCAACCACTTTAGAAAACAGTTT
GGATGTTACTCAAAATGTTAAAGAGTTACCATGTGACCCAGTAAGTCCACTCATAGATATATACCCAAAAGAATAGAAACATATGTTCACACAAAAACAC
ATAATGAACATTCATGGCAGCATTATTTATAGTAGCCAAAAAGATAAAACAACCCAAATGTTCATCATCTGATAMATGGATAAATAAAATGTGGTATAGC
TAGAGGACAAAATACTAATTGGCAATAAAAAAGGAATAAAGTACTAATACATGCTACAGTATAGATGCATCTTAATAACATTATGCTAAATGAAAAGCCA
GTCACAAAAGATAATCATTGATGATTACATTTATATGAAATGTCCAGAATTGGCAAATACACATAGACAGAAGTAGATTCGTGGTTGCCAGTGACTAGGG
GAGGGAAAATGGGAAATGACTGCTATTGGGGTTTCTTTTGAGGATAATGAAAATGTTTTAAAATTAGGGATGATGTTTGCACAACTCTGAATATCTTAGA
AAACACAAATGTAGGGTGAATTTGTGGTATGTAACTTATGTCAATAAAGCTATTATCTAAAAAAAATTACTTGAGCTGGTCTGTGGAGAATGAGTTGTAC
AGTGGTAATTGTGGACAAGGAAGAAATGAGGTTGCTTGGATTAGGATAGTTGCACTGAGGTGGAGAGATCCTCGGGCAGAATGAAAGGGAAACACACTTC
TTGGCTCAGGAAAGTGCCACTCCTCTCTGTGATGCAAGAAACAAGTACCCTGGGGTCAGTATGGTAAATGCATTGTGAGGAAGCACTGTGAGGTAATAGC
TCTGTGGAAGCAGCAAGAAGCGAGGTACCTTGRAACTGATAGCAGAGTCATTTTTGTTACTTGAGGCTAAAACAGGATAAGCCTTGGTGCTCTGGGCTTT
ATTCAGTTAATAGGTTGATTTTCTCATTTTCATGCCTAGGGAATTCACTGTTCTTTTGACTGATAAATCTAGAGCAGTTAGGCAGTTCTCCAGAGCCAAC
AGAGCTGACGGTCTTTGTGTCCAGGTTGCTGGATATGCATTCCTTTTTGGCTGCAAACCTTGCTGATAAGAAATATGACTCACTCTGTGGCTGATGCTTC
CAGAGAAGTTTGCTGACTGTTTTCCTCTCTTCTGTGTCTCTGGAGTCCTTAGATTTTCAACAGAAGATGGTCAGAGGACCAGGCTCAGAAGGTAGAGAGA
GACCTTCCAGGTGACATTTCCAGACCAGGTGCTTCAGTCATCATTCCAGCAGTTAGGTTGTTCCCTCTAACAACTGTCTCCTCCCACACTTTACACCCTC
AGTAAGTCCTACAAAAGCGCTTTCTATAACAGCAGAAGTTTGGCCAGCAGTCTCCATGTCCTGGCTAAGGAGCAAGTGATGCAATGTGGAAAAAATGTGG
TTACTCAATTCATTTCACAAAACAAGTTGTTCTCTGTGTGTAAGCCTGTTCTCTTTCTAATCATACTATTTCCTCCTTCTTTCCTACCTTCTGGTCATTA
GTATGCAAATGTTAAAAATTCAGAGTAAGATAATGTTTCCTGCTCATGGCAAATAGGAAAAACCAATATTTATTTAATGTTCCTTTACACACAGATTTTC
ATTTTATCTTCTGGTAACTCTGAACAAGGTATAATTATTTTCAGATACATTTTATTTATGAGAAAACTGAAGCTCAGATMATTAAATGACTTGGCTCTGT
TGATATCTGAGTCTAGAGAGTGAAACCATGGAGATCTTTTAGTAGAGCCACCTGTCAGGACCAATATATCACTGAGGCATATTGTTTTCACACTTGTCTC
CCTGATACTCTTCCCATTCTCCTTTGGCCCTTCTTCAAAGCTTCATTTGAGACCCTGGATTTTGGCTTCCAAATCCTGATAAAAAATAGGAAAGAAAAAG
TATGGTGTARTATSAGAGCACTGAACTGGGTTCTAGTCCCAGCCAGGCCACAAACTTGGTTACGTCATTGAGCAAGTCATTCTTACATGTGAGAGGCTGA
ACTACATGATCCCTAGTGGGCACTTTTACCTCTGTAATACTATCTAGTTTAATGATCTTGGGAATAGGTAGCAGGTGACTCCTGTGCCTCTGTCTCCTAC
ATGATTTTAGGTTCATCAGCTCACCTATCACCTATCTCTGCCTTTTTGAAGTAATTCCTGTGTGCCAGCTGTCTGCTGCCTCTCTTTTTCTCCTTTTCTA
AGCCAAGTAGTATCCCTTTTAGTTGCTAAACTCCTGTGGCCAAGCCAACTCTGATGGGTAGTAACTACCAAGCGTCCAACTAATCCAGAGTACTTGGTTA
TAAAAGGCAGAAGCTTTTTACTTTTAGCTTATTTTTTGTGACTTAAAATAAAACTGAAACAGATACATSCTTTAGTTTTTAAATGTAAAAAGCAAAATGA
AGAATTCAGTACATATGGCATGACTATGATGCTAATCATACCTTTAGCCATCATGATAATCCACTTGACTTCCCCTTGCTCTGATTTCAGGCTGGGAAAG
CCAGTTTCAGATTATACCTTAGCTCCCTATGTGGATTGATAGCAGCGAGACAACATGAGACCCARGCTACTTTATATTTTTATTATAAATTAATATATTG
CTATTCTGGATTAGTACATTCGTCTCTTGTGACTTCATATGTTGTTAAACTGGATCTGTCTGCTGTCTACATGCTAATCCAAATATGGGAATCTAGTAGA
GGTGCTGCACTTTAGCATACCTGTTAGAGTACATGGTCAACCAGGCCTCCTTTACCCTCTCAGTCTACCCTTTCTACCTGCGACAGGTTTCTTTGTACAA
AGCAAAAATTTCAAAATCGGACTCAACATCGTGGCTCACGTACAGGATTCTTACACTGGTCTGGAGGGTAATAATTTGAYGCTTARAAACAAAACTTTCA
GAATATCTTTTCCTTTTTTTATTTGGAAAGTGCTTTCCATACTTAAAGAATGTTCTCTTTTTGTTTTAAAACCACATACGAAATTATGCCACAATCACTT
TGGGATTCTAGGGCAGAAAGAGTTAATTAAATTGTAATCCTAGGCTAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCRAGGCRGGCA
GATCACAAGGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTGAAAATACAAAAATTAGCTGGGTGTGGTGGTGCCCACCTG
TAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGT
GACAGAGCAAGACTCTGTCTCAAGAAAGAAAAAAAAATGTAATCCTAGACTACAGAGAGAAAAACTAGGATAGAGGCAAGAATAATACAACTTAAGGCTA
ACTTGTAGGTCTCAACATGAGGTCACCTGATAGACYGATCTTCCTCATCCATCCATTTATTCAAATTCTAACTATCAAGTCATGATTAAGTACTAGTCAT
TGGCTCAGTTGATGGAGATTCTGCCGTTAGTGTTTACAGTTTTGTGAACATATAGACCAATAAAGTACGACTTTGGAGGAATAAAGTACAGAGGGACCCC
AACCTAGATTGAGGGGACTGGAGGTTGGAGATCTCTATAACCTCCCTTGAGCCTAGCATGTCTAACATGGGCTGCTCTATAGCTATTGGGTAAATGGATG
AATAAAGGACAAGACTTCCAAACGAAGGCTTCCAAATGAAGTGATGTCTAAGCTGAAACCTTAAGAATGGGAAGGTAGAGAAAAAATTCTCTCTAGCAGT
GGAAACAGATTAGTGTAGGGCCAGAAGTTAAAAAAAAAAAAAAGTATGGTCAAGGAATTAAAAAATAGTTAAGGCCGGGCGTGGTGGCTCACGCCTATAA
TCCCAGCACTTTGGGAGGCAGAGGCGGGTGGATCACAAGGTGAAGAGTTAGCGACCAGCCTGACCAATATGGTGAAACCCCGTCTCTACTAAAAATACAA
AAATTAGCCAGGTGTGGTGGCTGACGTCTGCAGTCCCTGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGC
TGAGATTGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAGAAAAAGGAAAAAAGAAAATGGCTAGATTGTAGKGTGTAAG
TAGAGGAGCAGAAAGAGATAAGGCACAGCAGAGGAAGGCGCAGAATGCTTCCCTCATAGACCATCTTAAGGATCTGGATTTTTACCTTATGAGCATCGAG
AACTGTATTAGGCTGTTCTTGCATTGCCATAAAGAAATACCTAAGACTGGGTAATTTATAAAGAAAARAGGTTTAATTGGCTTAGAGTTCTGCAGGCTGT
ATAAACACGGTGCTGCATAGCTTGGCTTCTGGGGAGGCCTCAGGGAGCTTTTACTCATGGTAGAAGGCAAAGCTGGAGCAGGCAGATGGCAGTGTGGGGA
GGGGGGTGTCACACTTTTACAACAACCAGAACTCACTCACTATCTCAAGGACAGAACCACACCCTGAGGAATCCACCCCCATGACCCAAACACCTCCCAC
CAGGCCCCACCTCCAACGCTGGGGCTTACAGTTTGACGTGAGATTTGGGCAGGGACAAAATATCCAAACTAAATCAAGAACTATTGGCTGGGCGTGGTGG
CTCACACTTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAAGTTGGTGAAACCCTGTCT
CTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGTGCACCTGTAATCMCAGCTACTAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTA
GAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGAGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAACTATCAAATGGGCTTTTA
AGTAGTAGAGTTACAGCTCAGATTTGTGTTTTAGAAGGACCATTTTGGCAACAATGAAAGGACGGATTCAGATGCTGGAGTCAGGGATGCCAGTTAACAA
GCTGTTATAATATTCCAGGTGAGAGAGAAAATTGAAGCAGTGACATGGTGGTGAGGATAAGATGGGGTGGGGGGCATATTCTTTGAATAAAGAAGACAAA
ATGCAAGTTCTTAAWGTGTATCACCTATTGTGACTATTTTATTTATTTAACAAACAAGCCCTGTACCATGTAAAATAATGCCAAGTTTTCAGTGTAAGTA
TTTATGAGGAGCTAAAATTCTTCTTTCTGTCATGTCTAGGAAGTTGGGATTGTTTTCTACCTGGAGTCCATGTTAAATGGAATGAATTTATTAACTGCCT
CTTTATGTCCCCACCACTTGGAACATGCCATTTATTCAGTAATATCTGTTAACTGAAATAGGTTATACTATATTTTCTGATTCCATTTCTGTTGATCCTC
ATCTAAAGCCRTTATTCAGATATTCACTTAATTACAAAAAATAAGAATACTACTCGCATCTATGACAAATTTGACAGATTATTAAAAGCTATTTAAGGCC
AGGCACAGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCTGAGACAGGTGGATCACCTGAGGACCAGAGTTCAAGACCAGCTTGGCCAACATGGTG
AAACCCTGTCTCTACAAAAATACAAAAAAAAAAAAAATTAGCTGAGCATGATGGTGGGCATCTGTAATCCCAGCTACTTCGGATATTGAAGCAGGAGAAT
CACTTGAACCCAGGAGGCAGAGGTTACAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAMAAAAAAAAA
GGCTGTTTAATGTTACGGTTTTTTAATTTTGGAAACCTAATGGCCAAAAGTAAGAGTGGCACAGGGCACTAAGATTTGTTTCCAGAGCCCATATTCACTC
ACCTCTCAGTTACTAAACACATGTACACCTCTACACCTGGACCACCCCCTGCCCTTCCACCCAGCTTTTTTTYCTAATAAGCCACAACAACCAGGAGGGT
GTGGTCTCTACAGGTTTGGCAGCTAATATACCCCTCTTGTCTCCTGAGAAGGTGTGTTCACTAGCCACTAGTTCAGTAGTTCACTGTCAGAAAAGATATG
AGCATGTTGGTTAATAAGTGAAGCAAATTCTTTTTTGTTTATTGATATGTAATAATTGTACATTTTGATGGGGTACCTGTGATATTTTGATACATACATA
CAATGCTTAATGATCAAATCAGGGTCATTGGGATATCTGTCACCACAAACATTTATCATTTATTTGTGTTGAAAGATTGCAAATCAAAGCTAACTTTTTG
GTGCCTTTAATGAGAATAGCCACTCAGGTACTATTTTCCCTTTAACCCTCTCAGATATATTGTGTCCAGACCTTGCCCCTATTTATATACCATTTCCTCC
TTCCATAAACACACGTATGCATATAGTCTCTGTCCTTATTTCAGCTTTGGCCTTGTGATCTCATCACATCTGGTAAATCCGTCCTTTATTCACCTATCTA
TCCACAGTTACAGGCTCATGTTAGCAGTGCTAGGTTCACTGGAGGTTATAGACAAGTGTCTGCCTCCCCAGTTGATTGAATGATTGAAATGAGAAAATTG
GTGGCAAATGCATAGCACCATGTAGCACGTAGTAGATGCCCACTGTGCGTTAGTTGCATCTGAATCAAGATCCCCAGGCCTCCCAAGAAAAGGGAACTGC
ACGCAGAGCCAGGAAAGTGCTCTRTTTTGGTCAGGAAAAATAAATATGAGATGAGGCTTCTGCAGTGAACCAGTACTCTCATAACTGATTTTTTCTTGGT
TATATGCTTGTGGTACACAAATAGAAATAGGAAAATGGGGAAGTGAGATGGGTGGAGTAGATTATGAAGYAGAGAATCTGGGTTCTCCCACTGATTGTAA
TTAGGTCTGCCCAAGGGACCAGAAAAAAAAACTCCCATTCCATRTCTCTCTTCCAGAATCCTTAAGCTGCCCCTTGACTCTGCCCATTCGCTCTCTCTCT
TGCCCTCACAAACTCCAGATGCCTGAGAATGGTAGCAGTTTTCGACATGTATAATGAAACAATTGGCATCTCTCAAGCTGTTTGAAATAGTGAGATGTGA
TTTATGCAGTTCATAAATTTGACCACATTTACTGTTTTCTTGGGAATACATAGAACCCATATAGGGTTTTTTTGGCAAGCTTTTATTGTAACACCCACTG
TGCCAGCATCAATACATATCAATTTACARAATCCCCAATTTTAAATAAGTGTTGGTGATTTTCAGGAAAATCTTACTGAAAACCAGTGATAAATTGTGTT
ACTAAATTTCTTCCCTTGGGCCGGGCGCAGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGCGAATGGATCACTGGAGGTCAGGAGTTTGA
GACCAGCCTGGCCAACATGGTGAAACTCCATCTCTACTGAAAATAAAAAAATAAAAAAAAATTAGCCAGGAGTGGCGGCTCATGCCTGTAATCGTAGCAA
CTTAAGAGACTGAGACAGAAGAATCGCTTGAACCTGGGAGGTGGAGGTTTCAGTGAGCCGAGATCATGCCACTGCACTCCAACCTGGGTGACAGAGTGAG
ACTCTGTCTTAAAGAAAAAAAAAAAAATTTTCTTCCCTTGATTCCCTAGATTATTTTTGAGGAACTATTACAGTTATAAATGAGAATTTCTGAATCTCAA
TAATGACTTAATAGAAAAAAAACAAAACATAAACATTCATATATGTTAAGAAGATGAGAAAAACCTGGCAAACTCAAACCAAGCAAAGAAAAAAGAGGAG
GTTCTGAGGGTGATATGGCAAGAAGGCAGGATTGTGGTTGTAAGCTGTTAAAATTTATTGTCTTGTGCTAAGGAAAGCTGGAATGTTTTTGACTGTGTGG
CTGACTAGCAGGTGCTTTCTCACCATGTGCTTTCATGCCACCTTTCTGAGTGGCCTAAGCTTGACTAGCCATTAGCAGACCATCTTCTAAGAAAATATAG
CCCTCCACTTGCCGAAACTGCTCCTGAATCATCTTACCTACTGCCCTAGAAAACTAAGGTCAGTTGCACCTTTTAGTTTCAGTAATATGAGGCTTTTGAA
GTTTGTGGTCCTATCATGCATGATTTTAGTTATCTGTTTTCCCCCACTCTCTGCAGATTTATCAGCCTGAAGTCCCCAGGAAAATGTGACATGTCTTTGT
AGTTGCAGAGGTCCTCTATCCATGTTGTAGGAATGAGTCAGGAGAGAAAAAAGGAGCTGGATATGGAGTACCAAAAGTGTTAACTGAGCTGGATCAGAGC
AGGAGGCAACCCATGCTGTTTAAGTGAACTGGAATTTAGAAGACTGGAGTTTCAGCCTTGGCATCAGCCCAGCTGGCAGCACATAGCTGAACCCAGCCAA
GTTGAGCAAAGCTAATAAAAAACATATCCTCTAAATTACTATACCAAGGCCAATGATACACTACTGTGAATGAAAAATAAGATTCCATTCCAGGAAACTG
ATAAACCAAATGGATTTTCCCCAGCTCTTTTTTTCTTTTCCATTGTTCATGCTCTCCTATGCCATGTAGACACACACACACACACATGCGTGTGCATGCA
CAATAGCCTATTTTACATTTTATTAATTTATTCCCAATTCCCTATGCTCTGTTGTTGCTATAGAGACGAGAAATCTGATGATAAATTCTTTTGGGCAGTT
AAGACTCCTAAGGATTATTTAGAGAAACCTAGAAGGCAGCAGAGGCCTAGTGTCCTTCATTATTATAACTAGGCATGTTTAGTTCTTTATCTTCTCTCTT
TTATTCAGGTATACACTAGTGTTTTATTCATTGGTTTCAGAGTAACATAGTGGAAAGAATATAGACTTTGGAGACCAAAAGATCTAGGTTCAACTCCTAG
CTTTAGCTATGTGGCCTTTGGCAAGTCTTTTAACTTCTGTGAGTCCAGTGTCTCCATTTTTAAAATATCCAAGTATGATAGTTGACTCAGGAAAAAGCAT
TTGTGCAATTGTTTGAGTTGTAAGCTCAACTAGCTACTTTTTTCATGGAATATTATCTTTGCTTGAAAAAAACAGCGGACTTGGATATTTAGCAGACATT
TTCTCCAAAATGAAATGATCTGATCACTTCAAGGAAGGCAACCTATAAGCATTTTCTGTGAATTATAAATTTAAGGTTTCAAATGAAAATTAAAAATTTT
GAAAAAATGTGTATATCCACCAGAATGAGYTTTACATCTTATCAATAAATACAGACTTCAGAGTTACTCTTTACCATTTCTCTCCCATCTAAAAGTTACA
TTGGTTAAGAATCAGTTATTTGCCCTACTATTAAATGTGAGATGTGAGGAAAGTAAAAAGTCATAGAGTCTTAGAGTGCTGGGGCTAGAGGAAATCAAAT
TCAACCTCCCACCTAACTTAAGACTCATCTTGAAACCATCCCTATAAATGCTTATTTGCTGTTACTTAAATGCTCCCACAGGCAGAGATTATAACCTCCC
AAAGGAGCACTTTTAATTTGTGATAGCACAAATGTCTAAAAATACTGTTTTTTACTGTAAGCTGAAATATGCTTTCCCCAGTATCTATCCATTGGCTCTA
ATTTGGTTTTTCTTTCATCCAAAACCTTTTCACATACTCTTGTTTCCCTARGTCTTTTTTTCCCCGCTATTTTTGAGATTGTATAGTTTCTAAGCCCCTC
ATCATCTTGAGCTCTCTTCTTTTTTTTTTTCTCCCCGCCTCCCCAACCCCAGGTTCAGCTTTGACTTTAGAGTTTTCTTTTCTTGATCCATTTAAGTTTA
CAATGCTATGCCTAGAATAAACTCTAGACTGCAGGGACAGCCTCATTAGTGTGAAATGGAGAGGCATTCTGATTTCCCTTTAAAAAGGACTATACTGGCT
GGGTGCAGTGGGTCACGCTTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACGGGGTCAGGAGTTYGAGACCAGCCTGACCAATATGGTGAA
ACCCTGTCTGTACTAAAAATACAAAAATGAGCTGGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAAGCAGAAGAATAACTTGAACC
CAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCATGGGCAATAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAGAAAAAGA
AAGAAAAGAAAAGGCTATCCTATGACCTCACATGTTAAAGATAARGGATTGTGTTTTTATATTTTTGTATTCTGTAATGGTCATGGTAGATGCTTTACGT
TACTCCTTGTCTAGTCTCAGCGCAAGTTGAACCAAACTTAAAGACATAATGGCCATGCTAGATGAGGGGATTTTCTGGTAGTTAATTTTTTTTGCTGCCT
AGGGGGTAGAAATGGTAATTTATAAGACTGGGAAAGTACCTTTTTTTGTTGTTGTTAGAGACGAGATCTCACTATGTTGCCCAGGCTAAGTGGAAAGTGC
TTTTACARTTCTCTTTTATCACCATACCCGGGTTTTGATAAACTTAGTATTCTCCTTAGTAAAAGTTTTCATCAGATACTTSCTCTTTTTTATCTTGTGA
TAACTTTTCTTCACTCAAATCAATAGGGAAATACAGTATTTGCTGTATAAAAACATAGAAGCCTACCTTAGAGCTGAATTCACTCATTTATATATAATCA
ATAATCAGAGTATACCTATAGACACAGTCTTATTTTGAGCTTTCCATGGAAAAGAGTGTAGGTCACCAGGCTAGACCATAAAAATATGTTTAAACTTTTG
TTTTTCTCCTGTTTAGTACTAGATTAAACTAATCACCTTTTCTAATGTTGTTTAGAGCATGTTTACTGAGCATCATCTTAAGAAGAAAGAAAGTTAACAT
TTAGCAAGCCCATACAAGGTCCTAAAGACACTTTGATACATTATCTGAGTAAACTTCACAAACCTCCAGTGGGATTTATAGTATTTGCCCATATTTTACA
TAAGGAAACGGGCTCAGAAAGGTTGAGGGGAAGAATAAGAAACTAAGATTTATGGAGTCCCTAGGTCATGTCAGACACAGTACTCATATCCACATTCTCA
AACTTTATCTCAGCTAAACTTCATAATAACCCATAACTTAAAGAGGTTATTTGCAAGGACTTGAACCTAATTCCATGGGTTTCTGACTTCAAAGTCAGTG
TTCTTTCTTTCATACCACACTTCACTTCTCTATGCCTCAAAGGAGATTTAGAGATAACCGTTAGGTAAATAAGGCTGAGATAATTGTGAATATGGGGTAA
ATTAATGAATGTTAAAGTACTTTGAGAATTATGAAGTGTAAGTCTCATATGATAGGTTTCCATCTGTGATTTTGGAAATGCATAGTGAGACCTACAGGAA
ATTCCAGGGCCCTTTTTTAAACCAGCAGCTGGGAGTTTGGATGCGTTTGAAATGTGTGTTGGGAGTAGAATGAGAAGGATTAGGAGTGGAAGAGAGATCC
TTCAAAGCACTAATGTAATATAAGATAGAAAGAACTGTTGCTGATTTGATTTTATTCTGCATCCTGTTTAGATTTGCTATATTTTTATGGTGAAAATATA
TACATTTAGAATTAGCCAGCTGGACTCACTTTAGATAATCCCAGTTTTGTTGGCAACATCCAGAGCATCATAATCAGGAGCCAGTCAAACATCTGCCTTC
TTCTCTCCCTCAGGCCTGATCAGGGTGTTGACCACATCAGTGTCATAGAGCTTCTTTACAACCTGTTTGATCTGGTACTTGTTGATTTTGACATCCACAA
GTGTGTTGTTGTCTTCTATCTTCTTCATGGCTGACCCAGTGGTCAGGAGGGACTTAATAATGGCATAGCGGTCACGCTTATTTCTTTCTCCTGTGGGTGC
CCTTCCAAGGATATTTGGGCTGCCTCCAGAGCTGTAGTGTCTTGGGCTGCCAGGTTGGTGACATGTACATTTGTGGGCTGGCGGGGGGTGGGGGTCGGGG
GGAGGAAGGGGGAGGGAGGGAGTGCCTGTGGTCACTTTTCAGTACTGTCTTTTTGGCCCTCAAAGGCCTTGCTTTGGCTTTGGCTTTGGGAGGGACAGGA
GCTTCCTTCTTTGTCTTCAGTGCCATCTTGTGAAAAAAGAGCTACATCTGTATATTTTTTCAGAACCATAAAATTCTCACAGAATTTTCAAAATGACCTT
TTTAGCAATTTACTGTCACTTCACTTAACCTCCCTTAGCAAATTATTTAACTTCCATTAGTCTTTGTTTCTTCATCTATAAATTGAGGCAGTAACAGTAC
CTACTCACAGGGTTGTTGTAAGGAGTTAAGAATTTACATATTAGAACACCTGGCACATATTAAGCATTCAAAAAATGTGAGTTATTTTCTATTTTAATGC
TGTTATTTTGTRAATAAGGAAATTGAAGCCTGGTAAAAGGTCACTTTCTCAAGTTTTACTTGAATTAGCTACCAAATGATATATGTTGTTTGTATGATAA
TAAATAAGGTGAGTCTTTCATAAGTAGTATTTAAAAGTTTCAGTTTATGTGTATTACAGAAGCAGGTGCTTGTGAAATAGTTGTCAAAATAGAATGAAAT
ATTTAAGAGTTACCCAGAAATATATAATATATAAAGCTCAAAATAATACTAATAGAGACTGAGTAGGTGAAAAAGAGGGAAGACTGGATAGAACTTATTG
GGATTTGTGTCATTTGCTGAAGGATGTTTAGAGTTGATAACCAGTTCRAGAGGCAATTAATTCCAGGGGGCTAACATGCAAGGCACCAGCTAAGAAAAAG
AATCGTTCCAAAAACTTAAGCACAGAGACTATGTCAAGAAACTGAAATCAGACAAGGTGAAAGAATAGCACGGCTTATTCTGAATTTACACAGAAAATAT
TACAAAGAGACTATTGAAGAATTTTAACCAAAGGAGTGACATGATCACATTTGTGTTTTAGACAGATCTTTATGACCTGTTAGATAAGGAATAGAGGTAA
TGATGGGTTAGAATAAGTTAGAGGGAGAGAGACTGGTTAGTTCACCATTTCAGTGATTAAGACAAGGGATTTTGAGGATGTATATTAAAGTTGAGGCAGT
GGTATTKGAGTGGAAGAAATGAATTTGATTAGCTAGCTGTGGTGGCACATGCCTGTAGTCCCAACTACTTGGGAGACTGAGGCAGGAGGATTGCTTGAGC
CCAGGAGTTTGAGGCTACAGTGAACTATGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGACACCCTGTTTCTAAAAAAGAAAAGAAATGAATTT
GAGACATTCGGGAGACAGTTTCTCTGGAAAAGACATTCTTTTTTGAGCCRCATTCCTTTAAGCTTTCAGTACTAGAGGATCCTAAAACTAGAAGCAGACT
AAGATCAAATGCTAGGGAAACCGTGGACTTGATGCCAAACTAAGCAAAAAGAATAAATGCTGAGTTGGAGGTAGACCGTGTCATTAGCAGAATATGCTAG
ATCTAAACATGAACAACCAGAAAGCTAAGTCTGAAATCAGTCAGCAGAGTTGCAAATTAAGAAGACTAGTTGTCCAGATGAGTTTCCAGTAAAAGATAAC
AATTTCTCCTAACCTTAAAGGCCAATACTCTGAGCCAGTATCTGACAAACTAACTTGATTTCTAGATATACATTTTACTTCAAGAACACTAAACTAATTA
TCCATTTATTATTTTAGGTAAAGTATTTTTGCCCTTTTGTATACTTAGACATATTGCACATTGCCAAAACTGGAGCAGAACTGAAGGGCCCCAGAGTGAT
TAAAAACTAGCATGTTCTTTGAACTAGTTTGAAAGACTGGAAATTGCTGCTAATGTGTGTAATCCCTTTAGCAGCTGGTCCCATCTAATAGCCCAGTTAC
TGCCTGTGAAGTGGTAAGCATTAGGATTGTTTCATACTAATTATTAGCATGAGAAGAATGAGAAAAAAGGTAGGGAAAGGAGAAAGAAAAAGATACTAGC
CTGTCTGCACTTTGTGTAGTCATGTTGGTCCACTATGGCCATAGAACAGGATTCCCTTTGACTGTATCCTCTACAGGAGCAGAGTTTCAGGGTCCCAGAA
CAATTAGGGTCAAGAGTATCATTTTGCCGTAGTTGCCTGATGAGTGTTTTMTTTCTTTTCCTCTCCAATCTACCCTGCTCTTCACCTCCCACRTAGCAAC
ATAGTAGCAGAAAGTTCACTACAGTCAGATGAGAACAAGGCTAAGGTTTATTGAGCGTTCACTATGTAGCCAGTGCCGGACTGATCTCTTCAATTGTTAT
TTCATGTAATCTTGACAATAATCTGTAGGTAAGTACTATTATCTATTTTACAAATGAAGAAACTACAATGCAGAGAAATGAAGTAACTTCCTTAAAATCA
CACACCATGTTCAAATGTCCAGCTCCACCTTTGCTATTTATTTCCTGGGAGATCTTAAGCAAGTATTTTTCCTCTATAATGTTTAGTTTCTCCATCTATT
TTTTAAAAAGGTTAAACTAGATGACATAAGGTTGCTTCCAACTTTCAGTATTCTAAGACTGTGTTGGGTAAATCATTCCGTTAATAATTGTAATAAGTCA
TAAAAGTTCAGTGTCTGTTCCTATTATTGCTAGTATTATTGAATCTAGTGTTAACCTGAGCTTCCTACCTTCCTAACCTCTTTTGCTATTGTTAACATTT
TGTATATTCTATTCTGGTTTTTATTTTTTACAGTTTTTAAAAATGCAGTTTAATCACACTGTATATTTTACTGTATGCTATCCTATTCTGTTTTTCACTA
AATATTATCTATCTTGTTCTGTGTTGTTATACAATCTTTATAACCATCATTTTAAGTTATTATGTAAGAGTCAATTGAATGGATATGCAATTGTTTGCTT
AATTATTCCCCTAGTTTAATGGTCCAAATTTTCTTTTTTAATAATGATATGATAAACTTACTTAAGCATTTTTCTCAATGCCAAGGAACGTATCCTTAGT
TTCCCAGAAATACAAGACGGTGTCAAAGAAAGAATATTTTTAAGAATCTTGGCTGCACAGAGCCAAATCTGCTCATTTGAAATATATATATTCGCATGTT
CAACCAAGAATCATCTGCTTAAAATCGACCAGAATATAGCATCAGAATGGCACATTTTCCTGCTTCCAGCATATTTTTATATAGAAAACATAGACCCCAG
GAGSTAGGAGGTCAGCACTGTCATATACCAGTTACAACATTCATAACTACAGTAGAACTTATTACAAACCAGAGGAAATATGTCTAATTTTTTTCCCAGT
TTTCACTGCCCAATACGTGTGCTGTCACTTGGGAATAGGTTTTACTCAGAATTGTGACTGTGGGACTGCAAATATTCCCTAGGAAAAAGACTGCACATAG
TATATCCAAGGCCCAAAGCTTTGGGGACTACATGGAATATAGGTTAGCCTCTGTTTTGAGAATTTGTAGTCTGCTAGGGAAATAAAACATAAACCACTGA
AAAAGCAGTCAAAGTGAAGCAGAATTCTAGAATCAAATGCTAGAGTATGGGTTACATTTATTCACTCAACTAACATTTATTGAGCACCCACCATGTGTAA
AGCATAATTGTAAGATGTGGACATAACAACATAGTCCTTAAGAAGTTGTATTCTAGTTGAGAGAGACATAAACAGGTAAACTGGTAGCGATAATTTATCT
GGAGAAAAAATAAAGACAGGTAAAGCAGAAGAAGGAGAATAGAGAGTGCCAGGGGTTTGGGGGTGATGGGTTGGAGGTATTGTTTTATATAGGATGATGA
GGGAAAGCTTCACTGAAAGGTATCATTTGAGCAGAGATATGGCTGTCTAGGAAAAAGAATTTTTWTTTTTTTTTTGAGGCAGAGTCTCACTCTGCTCCAC
AGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTGCAACCTCCGCCTTCTGGGTTCTAGCAATTCTCCTGCCTTAGCCAYCTGATTAGCTGGGATTACAG
GCACCTGCTACCAAGTCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATGTTGGCCAGRCTGGTCAAAACTTCTGACCTCAGGTGATCTA
CCAGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACGATGCCTGGCTCTTTTTTTTCTTTTTAAAAAAATTATTTTATCTACCACTAAGAG
RGAGAAAGAAATTCTTTCTTAGTAAAGAGAGTTGAAAGTTTAAGTGCACCAAAGCAATAGTTTGCTTAGTTTAACAATTCTCAAACTGTACTCCTTGGAT
CCTTGGGATCCCCAAGACCCTTTCACAGCATCTTCAAGGTCAAGACCATTTTCATAATGTTAACTCTACTTGCCTTTTTTACTGGGTTAATATTTGCATT
GATTGGTATAAAAGCAATGGTAAGTAAAACTGCTGGCACCTTGACACAAATCAAGGCACCAACTATAGTAATAGTAATGATATACTTGATTGCCACATGT
TGCAGGGGGACCAAAACAAAACCAAAAAGCAACTCGGGCATAAGCCAAGTTCACTTAACAGTGTCCTTGATGAAGCAGTAAAATTTATTAAGCTTATTAA
ATCCCAGCCTTTGAGTAGATATCTTAACATTCTTTGCGATGAAATGAGAAGTATGACTAGTGCAATTCTGGTGCGTACTGATGTACTGTGGTTGCCTGAA
GAAAAAACGCTTGTATAATTGAGCTGTCAGCTGAACTAGCTACTTTTTTATGAAACTCCATTTTTACTTGAAAGAATGACTAACAAGACAAACTCGTTAT
TCAGATTTGGGTGTTTGGCAGACATTTTCTCAAAAATGAACTAAGTGAGCCTGTCACTTTAGAGAAAACAGCTAATAGCATTTGTTAGCAATGATAAAAT
TCAAGCTTTCAAATGAAAATTAGAATTTTGGAAACCTTGTGCCTGCCACCATAATCTTGACAGCTTCCCCGTACTTAAAGACTTTTCTGATGAGATTGTG
GTGATACCAACTAATGTGTATTTTTGATACTGAATAATAAAATATGCTGATATTTGGGAAATCTGTATAACTCAGTGAAACAGTGTTTTACAAATGACCA
ATGCATGATATTACAAAATCAGGCATGGATTAAAAATTCATTCAAAGTACAAGATAGACTAAAAGATTTTAATATTAACAGAATATGAAAAGTTTATTAG
TATTATTTCAACTTTCACATTTTGATTAACTTTTTTTATTATTATTATACTTTAAGTTCTAGGGTACACGTGCACAACGTGCAGGTTTGTTACATATGTA
TACATGTGCCATGCTGGTGTGCTGCACCCACTAACTCGTCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCCCCTCCCCCCACCCCATGACAGC
CCCGTGTGTGATGTTCCTCACCCTGTGTCCAAGTGATCTYATTGTTGAATTCCCATCTATGAGTGAGAACATGCGGTGTTTAGTTTTCTGTCCTTGCGAT
AGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATGTGT
GCCACATTTTCTTAATCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATATGTGTGCGTGT
GTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATGCCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCGC
CACACTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCCRCCAGTAGTGTAAAAGCATTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTG
ACTTTTTAATGATCGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTYTTCAT
GTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGGCTGTTCATATCCTTTGCCCACTTTTTGATGGGGTTATTTGATTTTTTCTTGTAAATTTGT
TTAAGTTCTTTGTAGATTCTGGATATTAGCCTTTTGTCAGATGGGTAGATTGCAAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGCTGATAG
TTCTTTTGCTGTGCAGAAGCTCTTTCGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTG
CCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTCCTAGGATTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTT
TTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCCAGCCAGTTTTCCCAGCACCATTTATTAAATAGGAAATCCTTTCCCTATTT
CTTGTTTTTCTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTATTACTTCCAAGGGCTCTATTCTGTTCCATTGGTCTATACCTCTGTTTTGG
TACCACTACCATGCTGTTTTGGTTACTGTAACCTTGTAGTATTGTTTGAAGTCAGGTAGCGTGATGCCTCCAGCTTTATTCTTTTGGTTTAGGATTGTCT
TGGCAATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAA
TCTGTAAAGTACCTTGGGCAGTATGGCCATTTTCACAATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTTTATT
TCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCTTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGATTG
GGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGTATAGGAATGCTTGTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCGTATCAGCT
TAAGGAGATTTTGGGCTGAGATGATGGGGTTTTCTAAATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACC
CTTTATTTCTTTCTCTTGCCTGATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCTTCCCTTCTTGTGCCAGTTTTCA
AAGGGAATGCTTCCAGTTTTTGCTCATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAACTCTTATTATTTTGAGATACATCCCATCAATACCTAG
TTTATTGAGAGTTTTTAGCATGAAATGCTGTTAAATTTTGTCGAAGGCCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTATCTTTAGTTCTGTTT
ATATGATGGATTACGTTTGTTGATTTGCGTATGTTGAACCAGCCTTGCATCCCAGGGATGAAGCCAGCTTGATCATGATGTATAAGCTTTTTGACGTGCT
GCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCCATGTTCATCAGGGATATTGGTCTAAAAGTGTCTTTTTTTGTTGTGTCTCTCAACTA
ACATTTTTTTTTTTTTTTTTGACACGGAGTCTCGCTCTTTCGCCCAGGCCGGAGTGCAGTGGTGCTATCTTGGCTYACAGCAAGCTCCGCCTCCCAGGTT
CACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGCGACTACAGGCACCCGCCACTGCGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTC
ACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGC
CTTCAACTAACATTTTTAAAGAAACTACCACTTGCTGAGTTTCAGAGTGAGCTTTTTAATTTTTTTAACTTTTAATTTAAAAAATTATTTTTAATTGTAG
GTATGTAATTGTTATACATATTTATGGGGTACATGTGATATTTTGATACAGGCATACAGTGTGTAAGGATTAAATCARGGTTATTGGGATATCAATCACC
TCAAGCATTTATCTTTTTTTTTTTTGGTTTAGAATCAAAGGAGAATATCCACAATTACCTGAAAAGGTTATTTCAGTACTCCTCCCTTTTCCAGCTACAT
ATCCCATGAGTCTGGAGTTTCTTTGTAACTTCAACCAAAAATTACGTATGGCAACAGATTGAATGCAGAAGCAGATATGAGCATCTAACTGCCTTCTGTT
AGATCAGAGATGAAGAGATTTGCAAAAATATAAAATAATGTTCTTTTCACTAAACTTATTGTTTTGGAAAATATAATTTCATAAAAAGGTGTTAACATGT
TTGTGTTAACTTAAAATTCATATTGTATCTAAGTTTTAATTTCTAATATGATAAATGTTGATAGATACAACACATAACAACTCTTTGTGGACCTCCATAA
ATTTTAAGAGTGTAAAGCGGTCTTGACACCAAAGAGTTTGAGAATCACTAGCAAAAAGGACAATATTGGCCAGGCATGGTGGCTCACACCTGTAATCCCA
GCACTTTGGGAGAGTGAGGCAGGTGGATCAGTTAAGGCCAGGAGCTTGAGATTAGCCTGGCCAACATGGCAAAACCTCATCTCTACTAAAAATACAAAAA
TTAGCCAGGCATGGTGGCACATGCCTGTAGTCCCAGCTACTCGAGAGGCTGAGGCACGAGACTCGCTTGAACCTGGGAGGTAGAGGTTGCAGTGATCTGA
GATTGTACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGAGACAACATGGTTAGAGTGGAATAATCA
AGGGAGAGTGGTAGGAAGTAGGTCAGAAAAATAATGAGGAATCAGATCATATAGGGCTCCAAAGTTCAGCATAAGGACCTTGGCTTTAGTTCTGAGTGAA
AGGGGAAGCTATTGAAGGTTTTGAGCAAAGGAATGGTGAGATCTGAAGCATGTTTTAACAGGCTCACTCTGGTAGCTGTGTTCAAATTAGAGTAGAGGAG
CAGAGACAAACCATTCAAAAGGCTTATTGTAAAAACCCAGGTTAGAGATGATGGTGGCTTAGGCCAAAGAAGTATGAAGGGGACTTATGAAAAACGATCA
GATTGTTAATACATTTTCAAGTTATAGCTCATGGACTGCTAATAGGACAGGAATATAAGAAGAAGAGAGGGGTCAAGGACAACTCCAAGGTTTTTAGCTT
GTGCCATTTGAAAGGAGATAGAGAAGTCTTGGGAAGAACAAGTCTATGGACTGAGATAGGTGAGTCAGAACTTCAGTTGCAGATATACTATGCTTAGAAT
GTCTAATAGATTTTCAAGTGGGAAATTGTATTAAAAACAAGAAGTTTAAGGGAAATTTCTAAGCTGGTAATATAAACTTGGAAGTTTTAATTATAGGTAG
AATTTAAAGCCATGAGGCTAGAGGAGATCCTAGGGTTGTGTTCTGAAAATGTGGTCCCCAGACCAGCAGCATCAGCACTGCCCAGAAAAGCAAATTCCCA
GACCTACTAAAGCAGAAACTCAGAGGCTGGGGCTCAGCAATCTGAATTTTAACAAGCCATGCAGACTAAAGTTTAAGAACCACTTACCTAAGGACTAGAG
TGTAGACAGAGAAGAGAAATCTGTTCAATGACACTCCTGGGACATGCCCATCATTTACAGGTTGGTAAATATTTTACATCTCCCCTTTTTCTACAGTATG
AATCTTAGTTTCCGCCAACATCCTATAATACACATAAAATAAGTTTCAGAATTCTATATGCATACCACTATGGAAAAACTCTTAGAAGAGTTCAAGATTT
GTTTACGTTTTTTTCCTCCTTAGATGGTTAAAGTACTTAAAGTACTCTGTTCAAAAATTACTTGAATTACTTTTTTTCCTTCAGTGTAATTATGTTATTC
ATTTAAAACACAGTTGTGAATTAGCCAGGCATGGGGACACACATCTGTAGTCCCAGCTAGCTACTCAGGAAACTAAGCTGGGAGGATCGCTTGAGCCTAG
GAGTCCGAGGCTGCAACGAGTTATGATTGAGCCACTGCACACCAGGCTAGGTGACAGAGTCAGACCCTATCCCTAAAAAAATAAAATATAGTTGAGTTTA
TTTGTTCCTGTTTGCATTCAGTTTAAGGTTCAGTTTTTGTCCTTATCTTTATGGATTTAATTTTATTTTTTGAATATATAGAAAATTAACTTGCTTCCAA
GAGTCAAAAGTCATACAAAACATTTACTAAGAGAAGTATCGTCCACCCTTTCTCTTCTACCTTATTCCTTCCACCACCACTACCCTCTTTAAGCAATCAC
TTTCACTATTTTCTGGTTTATCCTCCAATGTTTCATTTTACAAAAGTAAGCAAATTTATGTGTGTTTTCCTACCCTTCTTACACAAAAGTTAGCATGCTC
TATATTCTCTTTTGTACTTTGCTTTCTTCTTTTACTTAACAGTATACCCTGGGAGTCACTCCTTTGCAAGTTCACAAAGATCTCCCTTATTCTAAGCTGT
AGACTACTCCATTGTGTATGTGTGTGTGTATACAATCAATATAGTTTCTGGTATTTTACAATTACAAATAATGCTACCATTGCATAAATAAATACACACA
CACACACACACACACACACACCAGAAACTATATATATTGTGTATAGATTATTATATATAGTATATTGTACARTAATATGTAATACTGTATATGTATTGCT
TAATAAACTTGTACACATGTATTTTCATATTTGGAGGTGTATCTTCAGGGTAAATGACCAGAAGCGGTATTCTTGGGTCCAAGGGTAAAGGCAAATATAG
TTTTGTTAGATACTGCCAAATTCCCTTCCACAGAGATGCTACCAGTTTTCATTCTCACCAGCAATGTGCTTGTTTTCCCGTAGCCTCACCAACAGAGTAT
ATTATCAAGCTTTTGACTTTTTTGCCAATCTGATGGGTGAGAACTGGTTTCTCAATATAATTTTAATTTGCATTTCTCTTTTTATGAGTGAAGTTTAACA
TCTTTTCATATGTCTAGGGTGCCATTTTATCTTTTTTTTTTCTTTTACAGGTTGTCATTTCTTTTGCTCATTTACCCGTGTGATTATAGGTCTTTTTTCC
TCTCAATTTTAAAAGTCCTTTGTATGTTAGATACACCCTTTTATTGTAACATATATCGTAAATATTTTCTCCCAATTTGTACTTTGCTTATGGTAGTTTT
TCATTTGTTTCTCATGCAAAAGTTTTAATTTTATAGTTAAATTTATTAACCTTTCATTATAGGAATTCACCTATATTTTCCTCTAGTACTTATATATTGT
TTTTCTTTTTTATTGTTACATCTCTGATCCATTTGGAATTTATTCTTGTATTTGGTGTGAGAAATAGATCTAATTTGTGTTTTTCCAGTGGCCATCCATT
GTTCCACTATCATTTATTAATGTCTTCATCTTTGCCCTAGTAATTTGAGATACTGCTTTTATCATATCCCAGATTTATGTGTATAGTTGGGTCTGTTTTT
CTATTCCATTGGTGTGCCTGTCCATTGGTGTACCAGTACCACAGTTTTCATAATAGAAGCTTTGTATTTTAATGTCTGCTAAGGCTAATTCCCTCAGCTC
TCACATTCTGTTGTTTTCTTAGTTATTGTTATGGTTTCTGCTTTGTGTGTTTGGGGTTTTTTTTTTTTTTTTGGTTTTGTTTTGTTTTTTGAAACAAGGG
TCTCATTATATTGCTCAGGCTGGTCTCCAACTCCTGAGCTCAAACRATCAGCTTCCCAAGCAGGTGGTACTACAGGTATGCACTGCTGCACCCAGCTAGT
TTGTTGTTGTTGCTGTTGTTTAGAGACAGCATCTTGCTATGTTGCATAGGCTGGTCTTGAATTCCTAGCCTCAAGTGACCCTCCCACCTCAGCCTCCTGA
GTAGCTGGGACTACCAGTGTGAGCTACAGTGCCTGGTTGTGGTTTTTTTTAATACATACAAAGTTTAATGTCAACTTATCCAGCTCCAGGGGCAGGGCAG
GGCAGGGGCAGTGGGGAAAGGTTTCTTTGTATTTTTATTGAGGTTGCATTAAGTTTGTAAGTTAACTTAGAACTAACAACTTGATGATATTGAAAAATAA
AAGAACAAGGATAGATGTCTTTTTGTCAAGTCTACTTGTGTGTCTTTCAGCAGTGTTTTGTAATTATCTTCATATGGATTTTTCATATTTCCTGTTAACT
TTGTTCCTGAGTATTTCTGCCTCTGTTACATTATCTAACTGATTTGCTATAYATGAAGGCTGTTRAGTTTTGTATGTCAGTTACGTATTCTGTTACCTTG
CTCAATTCTTTCACTGTTTGAGCTAGCTTCATCACTGATTTTATAGGGATGCACTGTCCAATAGAAATGTAATTTGAGCTATGTACATAATTAAAATTTT
TGTAGTACATTTTWAAAAGAAAGGCTGGGCGTGGTGGCTCATGCTTGTAATCCCAACACTTTGGGAGGCCAAGGCGGGCAGATCACAAGGTCAGGAGATC
GAGACCATYCTGGCCAATGTGGTGAAACCCTATCTCTACTAAAAATACAGAAATTAGCTGGGCGTGGCGGTGGGTACCTGTAATCCCAACTACTCAGGAG
GCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGTTCACGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCATC
TCAAAAAAAAAAAAAAAAAAAGCAGGTGAAATTAATTTTAATACTATATTTAATCCATAATATCCAAAACATTATCATTTCAATATGTAAYCAATATAAG
ACATTATTAGTGAAATAGTTTACATTCTTTTTCTACTGTGTCTTCAAAATCCAGTGTGCATTTTATATTTACAGCACATCTCAGTTTGAACTAGTCACAT
TGCAAGTGCTCAGGAGCCACATGTGTCTAGTGCTTACTTTTTTGGATGGCGCATACCCTGTCATGTCATCTACAAATACAGATTGTTTTACTTTATCTTT
TCCAATTCTTAGGCTTCTAATTTGTTTCTCTTATCTTTAATACTTTGGTTAATACCTCCAGTGCAATGTTAAATATTAGTGGAGCTAGTAGGTATCAGTA
CTTTATTCCTGACCTTAGTGGGAATACCTCTTGTGTTTCTCCAGTAAGATGTTTCCTTTAGGATTTTGGCATATATGTATTATCATGTTAATCACATAGC
AAACTATTTATATTTTCTTGAGTGCTTAATTTTGTCAAAAACCTTTCCAGCATTAATAGAGTCATCACATAATTTTTTTTCTTAGACCTATTAATAAGGT
CTGTTGATTGATTTCCTAATATTGAATTATCTTTGCATTTATAGTATAGACCCAACTTGTTCGTGGTAGTCTCTTAACTCTTTTTCTTTTTTTGCTTTTT
CTTGTTTTTTATTTTATTTTATTTATTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTAYACATGTGCC
ATGCTGGTGTGCTGCACCCACTAACTCGTCATTTAGCATTAGGTATATCTCCTAAAGCTATCCCTCCYCCCTCCCCCACCCCACAACAGTCCCCAGAGTG
TGATATTCCCCTTCCTGTGTCCATGTGTTCTCATTCTTCAATTCCCACCTATGAGTGAGAATATGCAGTGTTTGGTTTTTTGTTCTTGCGATAGTTTACT
GAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGATATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATT
TTCTTAATCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTATGAATAGTGCTGCAGTAAACATACGTGTGCATGTGTCTTTAT
AGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGA
CTTCCACAAGGGTTGAACTAGTTTACCGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCCCCAGCACCTGTTATTTCCTGACTTTTTA
ATGATCGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGGTGAGCATTTTTTCATGTATTTTT
TGGCTGCATAAATGTCTTCTTTTGAGAAGGGTCTGTTCATGTCCTTCGCCCACTTTTTGATGGGGTTGTTTGTCTTTTTCTTGTAAATTTGTTTAAGTTC
ATTGTAGATTCTGAATATTAGCCCTTTGTCAGATGAATAGGTTGCGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTCTCTTTT
GCTGTGCAGAAGCTCTTTAGTTTAATTTGATCCCACTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGC
CTATGTCCTGAATGGTAATGCCTAGGATTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACGTTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATA
AGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATACGGCCAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTT
TTCTCAGGTTTGTCAAAGATCAGATAGGTGTAGATATGCGGTGTTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGT
ACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATTGTTTGAAGTCAGGTAGCGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCGAT
GCGGGCTCTTTTTTGGTTCCATATGAAGTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGTTGGAGATGGCATTGAATCTATAA
ATTACCTTGGGCAGTATGGCCATTTTCATGATATTGATTCTACCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTTTATTTCATTGA
GCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACTTCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTC
ACTCATGATTTGGCTCTCTGTTTGTCTGATACTGGTTTATAAGAATGTTTGTGATTTTTGTACATTGATTTTGTAACCTGAGACTTTGGTGAAGTTGCTT
ATCAGCTTAAGGAGTTTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAATCATGTCCTCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATT
AAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTAAGAGAGGGCATCCCTGTCTTGTGCC
AGTTTTCAAAGGGAATGCTTCCAGTGTTGGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTACTATTTTGAGATATGTCCCATCA
ATACCTAATTTATTGAGAGTTTTTAGCATGAAGAGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATYGAGATAATCATGTGGTTTTTGTCGATGG
TTCTGTTTATATGCTGGATTACATTTATTGATTTGTGTATATTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTT
GATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTCRCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTCT
CTGCCCGGCTTTGGTATCAGGATGATGCTGTTTGGCATGTTTTTGGCATGTTTTTGCAGTGGCTGGTACCAGTTGTTCCTTTCCATGTTTAGTGCTTCCT
TCAGGAGCTCTTTTAGGACAGGCCTGGTGGTGACAAAATCTCTTAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCTTAGTTT
GTCTGGATATGAAATCCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTGTGGAGTTTCTGCCGAGAGATCC
GCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCTCTAGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAA
TTATGTGTCTTGGAGTTGCTTTTTTTCATTTTCTTAATGTCCTTTGATTAAGAGAAATATTTTGTTTTAATGAGGCCATATATATCTTCACTCTTTGATA
ATTAGTGCTTTTTGTGTCCTGTTTTAATAAATCTTTGGCCGCCCCCATAGTTTTGAAGGTATTCTCATTTGTCTTCTAGAAATTTGATGTTTTAGCCTTC
ACATTAATTTTTGTATCTGGTGTGAAATAGAACTCAAGTTTAATTTTTTTCCATATGGATACCTATTTGACTCACCACAGTTTTATTGAAAAGACCATTT
TTTCTCTCCACAGAATTGCAAGGGCACATTTATCATAAATCAGATGACTATATATGTGTAGTTAATTTTGGAACTCTCTATTTTGCTCTGTTGATTCATT
CATCTACCCTTGCACCAATAATATATGTCTTTTTTTTTTTTAAGACAGAGTCTTATTCTGTCACCTAGACTAGAGTGCAGTGACACCATCATGGTTCAGT
GCAGCCATGACTTCCAGGGCTTAAGTAATCCTCCCACCTCAGCCTCCAGAGTCACTGGGACYACAGGTGTGCACCACCATGCCCAGCTAATTTTTTAAAA
AATTTTTGTAGAGACTGGGTCATGCTATGTTGCAAGGCTGGTTTCAAACTCCTGGCCTCAAGCAATCCTCCTGCCTCAGTCTCCCAGAGTGCTGGGGTTA
CAGGCATGAAACACCATGCCCAACAAATAATATATGTGTCAATTACTGTAACTTTATAATGAATCTTGCTATTTGATGATGCATGTTCTCCAGCTTTGCT
GTTATTCATCAAGATTGACTTGGCTACTATAGGTCCTTTGCATTTCCTATTAAAATTTAGAATTAAATTGTCAATTTGCATACATACACCACACATTTTT
TAGAAACTGCTGAGATTTCTATTGGAATTGCATTGACTCTAGATCAGTTTGATGAGAGTTGACACCTAACAGTGGTGATGCTTTCAATCTATGAATGTAA
CATATCCCTTCATGGCCATGTGATATCTAGATCTTCTTTAATTTCCCCTATCAATATTTTATAGTTTTCAGTGTAGATGTCTTGCCCATCTTTCACTGAA
TACTTGATGTTATTTGATTTTGTGGATTTTTAAATAATTTTCAAATTGTTGCTATTTAGAGAAATACATTAGATTTTTAAATATTAGATTTGTATCTAGT
GACCTTTCCAAATTCATTTTTTTATTTTAATAGATTTTGTAGACTTGTAAGGAGGAATATTTATGTAAACAATCATGTCACGTACAAGTAATGCTTCTTC
CCTTACAGTCTGTATTTATAGATTTTATTTCTTTTCCTTTCCTTATTGCATTGACCTCCAATACAATGTCGAATAGAAGTGGTGATAGTAGTTATTTTGT
TTTATCCCATAATTCAATAAGAAGTGTTCAATATTTCACCATTAAGAATGCTGTTGATTATAGGTTTTTTATAGATGCGTTTATCTAGACTAAGGAAATT
CTCTTTTATTCCTAGTTTATTGATAATTTTTATCATGAATGGATGTTGAATTTTGTCAAATGCTTTTTCTTCATCTGTTGAGATGATATATAGGTTTTCT
CTTTCATTTAGTGAATGTATGTGTTCAGCGGATTGTATTTTCCATTGTTAACCTTTGTATTTCTGAAATAAATCCCACTTAGTTATGATATATTATCCTG
CATGTTATGATATGATATATATAGGATTGTATATCTGATATACATATAGAGAGAGACCTAGATTTAATTTACAAATACTTTGTTAAAGATTTTGGATGTA
TGTTCATGAGGGATATTAGTCTATAGTTTTTTTTTCTTGTAACTATCTTTGTCATGTTTTGGTATGAGGGTTATGCTGGCCTTATAAAATGAAATGGGAA
GTGTTCCCTCTTCTATTTTTCAAAAGAGGCTTTGCAAGATTTGTTATTATTTCTTCTTTAAATATTTGCTAGAATTCATCAGTGAAGCCAGTTTAGGCCT
GGGATTTTCTTTGTGGAAAGATTTTTAATTGCAATTGCAATTTTTTATTATGTATGAGGCTCTTCATATTCTGTTTTTTTCTTGTGTCAGTGGTATTTTT
GCTTTGTTTTGTGTTTTAAGAGAGAGACTCATATATTATGTAAATAATGGAACAAACAAACAGATTTTTTAAAAATCATAATTAAAATGTTAAAATGTAA
AAAAGATGAACAAAGTGTAAGAAAAAATAGTACCCACAGAAATATCTATATAAAAAATTAAATGGACATCTTATACCTAAAAAATACAGTATTAGGAATA
ACTCATTGCATGGGTTTAAGGGCAGACAAGAGCCAACAGAAAGGAGTAATAAACTTGATGAAAAAATAGAAAATATCCAAAATAAAGTACAGTGAGAAAA
TACAAAAAAAATTTAGAGCATTAGAGATAAGAGATAGAGCCTGTAATCCAGGCTGAAGTGCAGTGGTGTGATATAGCTCACTGCAACCTCGACCTGGGCT
CAAGCGATCCTCTTGAGTAGCTAGGGCTACAGGCACACACCATGCTCAACTAATTTGTTTTTGTAGAGATGGGGTCTCACAGTGTTGCCCAGGCTGGTCT
TGAGTGACATTTTATCTCAATTTTCATATTTAATTGGCATAAAGTTATTCATACTGTCCTGTTCTCTACCCAATGTCTGATGGATCTATGATGAAATTGT
CTCTGCGTATTCTATATTTATTAGGTATATGTATCAGTTAGGTTGGTTGGTTAATTGGTTATTCATGTTATTAGTTTTCTTTCGGTTAGTGTTTATAGAG
TACATTATTTTCATCTGTTTGCTTTTCTCTTCCTGTGTTTTTATATTTTGAGTGTCTTTGTATCTCARGGCCCTCTTATAAACAAATATAATTGAGTTCT
GGGGGTTTTTTTTGGTCTGGTTTGTTCATTTATTCCTACTGACTGTTTTACTTAATCCACCCTTCTTTAATAAAATTATTTATTTGGGTTTAAGTCAACA
TTTTGCATTTTGCTTTTTTGTTTTCTATTTGTCCAAGTTCTTCCTTATTTCTTTATTCCTCCTTTCTTGCCTTCTTTTGGATTAATCAAGTATGTTTTAT
TATTCTACTTCTCTCCCCTTAGCTTTTTAGTAATGCATTCTTATCCCTGATAATTCTTTAATTAATTGCCGTATGCAAATATGCATATTGGACTTATTAA
AATCTACCTTAAATAAGTGCTCTAACTACTCCCAAATAATGCAAAATTCTTAACAAAGTTTGGCTCCATTTACTCTCCACTTTCATCCTCTGTGCTATTA
CTGTCACATAACTTATTAATACATATATTATAAACGGCACAAGCCATTTTTATTATTGTTTTAAATAATCAGTATCCTTTTGTATCAACTCACATGTTTA
CCCTTTCTCGTGTTCTTCATCCTTCCTGTAGTTTCATGTTTCCATTTGGAATGTCCTTCAGCCTGAAGAACTTCCTTTTCATTTTCCATAGTTAGGTCTG
CTGGTGACAGATTCTCTCAACTTTGATTATTTGAAAATCTCATTATTTTACCTTTATTTCTGAAGGATATTTTCACTGGGTGTATAATTCTATCTTTGGT
AGTCTGTTTCTTTTAGCCCTTTAAGGATACTATTCTACTTCTTCTTGCTTACAMAGTTTTATTAAAGAGCCTGCTATCACTCTTATTGTTGCTCCGGTAA
TGCTGTTTTTCTCTCTGACTGCTTTTTAAAATATATCTTTGTATTTCCTCCCTGTCTTTTATTTCATCTGTATTTCATCTTTTGTATTTTCAGCAGTTTG
ACAATTATGTGTTTTGGTATCGTTTTCTTTGTATTTTTCCTGCTATGGATTGCTGAATCCATAAGCATCCTGAATCTGTGGGTTGATGTCTTTCATTAGT
TAGAGATTAAGTCTCCGCTGTTACCTTTTCATATATTGCTTTTTCTTCATTCTATCTGTCTTCTCCCTGTGGGATTGCAGCCACTCATATTTTGGACCTA
TTGACTGTGTCTACTTAATCTCTAATGCTCTAATATATTTTTTCATATTTTCTCACTGTACTTTATTTTGGATGTTTTCTATTTTTTCATCAAGTTTATT
AATCCTTTCTRTTGGCTCTTGTCTGYCCTTAAACCCATGCAATGAGTTATTCCTAATAYTGTATTTTTTAGTTATAAGATGTCCATTTAGTTTTTTATAT
AGATATTTCTGTGGGTACTATCTACCTTTTCTTATATTTTGTTCATCTTTTTTACATTTTAACATTTTAATTATGATTTTTAAAAAATCTGTTTGTTTGT
TCCATTATTTGGATAATATATGGGTCTCTTTCTATTGCCTGTATTTTCTCTTGATTACTGATCACACTGTTTTGACTCTGTTATGTCTAATAATTTTTGT
AGTATGCCAAACGTTTTATATTAAAAGAACTATTGAGGCTCCAACTGGTATCTTCCATGAGAAAGAATTCTTCCTTTCCTCTGCTAGACTAAATAGGATA
GGGCCTGATCACCTCAATCTAATTCTGGATTGAGTTAGACCACATCTGGATTGTGCCTATGGTTTATGCTTGTTTTTTGGACACGGACCCTCTTGGGCTC
TTGGTTGGGAACCTAATTTCTAGCTCCTTAGCCCTGAAACACTGCAGGAGATTGTCCTACCCTTGAGAGGTCTGGGGCTTAGTTTTATTACCTCTCACCC
CTTATAGTTTTAAAATATCTTTAAGAGGAGATCAGCCATGTATTTGGGGTATACTACCTACTTCTAGTGGAACCTTATCTCCTAAAACCACAAGATTRTA
GGAGATTTTATTCTGCCTTTTAAAAGCTCTCAGTCTAGCTTTGAAGTTYCAATGTGCTGGCCCAAAATTCAGCAGATACCCAATGAGAAAAACTGGCCAC
ATGCAGGGGCTCCTTAAGTTTCCAGTTTGTCGCAGCAGCTCTCATTTCTCTTTCCTCCAGTAGAGCCCCTCACCACATGCCAAGCCTGATCCTTAGTTTA
TGCCAAAATTAGCAGATGCCCTCAGGAAAGAAAACAGTATCAGCTACCTCAGAGGCCACCCCTTGGAATTCCAGTTCATCTAATCCTCATGACAGCTCTG
TGGTGTCTTCCTCATGACAGCTCTGTGGTGTCTTTTTAAATAATTACTCTGACTTTTTCTAGTTGTTGCATCGTTAACATTGTACTACCACAACTATCAC
TTCCTACCTGGAGGCCTAGGAAGTATTATCTTCTACCTGCCCTATATAATAGTTTATTAACTGGTCTCCCTAATTCTACTCTCGTCCCTCTCACAAAGCA
GTCAGAGTGGTCCTTCTAAGTATATCTTGTCCCTCCCCTGCTCAAAACCCTCTAGTGGCTTCCCTTTATATTTAGAATAAGTTCAGTTCATTTTCACAGG
CTGCAGTCCTACACAATTTTACTGCTACKCACTCTCTAACCTAATTTCTCTCTACCCTCCCCTTTGCTCACTCAGTTACAGCTCTACTGACCTCCTTTCC
AATTTCTCAAACACACTAACATGTTCCTGTCTCAGACTCTTTGCACTTGTTGTTATACCCTCTCACATCTTCATAAGGCATTGTGCCTTTACCTCTTTCG
GGAGCTCTGTGTAAATGTCATCTCCTCAAAGAGGACTTCCCTTAAAATTTTGTTTCCTTACCCTGCATTAATTTTAATYACAGCACTTAGCACTACCTGA
CATTATACYGTATATTGTGTTATTTTTTTAATTTTCTTTCTCTCTCACTAGGAGGTAAGCTCCATGAGAGTGGAAGTCTGGTTTGTTCACAGTTCTATCC
CCAGAGCTTAGTACAGTGTATAACTTATAGTAAGTTCTCACTATTTGTAGGATGTCTTAGATATCCCTTACCTCAAAAAATTCTCAGTTTAAGGAAAAAA
TGAATAATTGGAGTAAAATTAAGAAGTACTGTAACATAGATGTCTACAGAATGCTTTGGGAGTAAAGAGAGGACACTGACCTAGTTGGGACATGGTCAGA
GAAGTCCTCAATAAGGAGGTGGCCCTGGATCCAGTGTTGAAAACTGAGTATTGATATGTGTCTGACAAAGAGTAATAGAGAGCTCAACATATAAGGGCTA
CTAGAACATGGGGTTGGATGATAGGAAATGACATCAGTCATAATGGGAGAGCAAGATGGGCAGAGTCAAAAAAGTCCTTAGAAATCAGGTTAAAGAATTT
AGACCTTACCTTAAAGGTAATAAGGAATAAAGGTTTTTAAGAGCAAAGATTTTTAAGGAGAGATGCTATCAGATTTATATTTCCACATGTTCCTCTACTC
CTCACTGCAATAGTCAAACTAAAACTTCAAGTAGATTGATGTAGAAAATCCCTGGCATGGTTATCAGGGCTCAATTTTAAAACAAGTTCTTATCCCAACT
CACTATGTAACCTGCGGAGGGCATTGTGTCTTGTTCTGAGCCTCAGACCTTCATTCTTAGCAGGACAGAATTACAGGTTTCTAAGAGCCCTTTCAACTCT
GAGCCTATGATTCTATTAATATTTATATACTTCACCTTTGACTTAGGTCACAATATTTGTCTAAGGTGCCTTAGGAAGAAAAATTTAATATTTTTTCTGC
ATCTGCCAGAAATAATTTAAAACCTCCAATTCCAGCCAATCTAAATTCAGTCTTCTTCAGAGATTTCCTTAACATTTAGGTCAAATGCCAGGAAACCAGC
TTCTTGGAACAAAACTACCTGAGCAGAAGTGGCAAGTCCTTTTTTTCTTCTGGCTGGGATGAGAATRCAGGGGGGAGGGAGGGTGATAGAATGAGTCTTT
TTCTTGCAGTTGTGATTCCAAAGAATCCCTATCCTGCCTCCGAYGTGAATACTGAGAAGCCCAGCATCCACAGCAGCACCAAAACTGTCTTGGAACATCA
ACCAGGGCAGAGGGGGCGTAAACCAGGAAAGAAGCGGGGCCGGACACCCAAGACCCTAATTTCCCATCCCATCTCTGCCCCATCCAAGACAGCTGAACCT
TTGAAATTCCCAAAGAAGAGAGGTCCCAAACCTGGCAGCAAGGTAGGTAAAATGTGGGTTTCCCAGAAAGGRATAAGGGWTTATAAAGGGGTCATTCGGC
CAGGCGCCGTGGCTCACGCCTGTAATCCCAGCACTTAATGGGAGGCCGAGGCGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAYGAT
GAAACCCCATCTCTACTAAAAATACAAAAAATTAACCAGGCGTGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGAYGTG
AACCCGGGAGGTGGAGCTTGCAGTGAGCGGAGATCGTGCCACTGCACTGCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAGAAAAGGCAGGGTTGG
GGGCGGTCATTCATCCATACCCATCTCTCTTGGAAAGGGGCACATCTGGCCCTCTTCTCTATCTTGTGTATCTTATAAGAGGAATTTCCTAGACCGTCAT
CCCTACTTGCTACTTACCTGAGAGTTGGTAATATTAAAGATAGAATTGGGGAGGATAGGAAACAAATTTTAACTTTGAAAGTCACTCATATTTGAGGAGA
TTCTGGTCTAGTGTACATGGAAGAAACTGCTCTTTGTTAACCTTTCCAAAGTAGATGTCCAGCGTGTGGACAGAAAGCACAAATTAACTCTGTAAATGTT
TTTTTTTTCTTTTAATCAGCTTTTTCAGGTTGAATGTAAATATATATTTTGCTATCTCTACCTCTTCTTTAAAAAAAATTGAATACCTACTAAGTGTCAG
ACTGTATTAAACACCAATACATACATATCCCATGATTTTCACAAAACCCTAAGAGATAAAYAGTGTTAATGTTATTTTATAGTAAATTGAGACTTACAGA
TGTAAAATGATTTTTCTAAGATCACATGGCTAGTAAATGGCAAAAGCTACAGAGATTGGCCCTTAGATCTACTTCCAAGGTCACTGCTTCCCTAGCATAT
ATTCACTCTTTCAGTCTTTCCCACATTTCCTGAGGGACACAACACTTCTAGTATTCTAGTATTGGAAAAGACAGCTGAGTCACCTTCACTGAGCACTGTT
ACTGAAAGTACTACCTCTTAGTCATGGCCTGTTTTTCATGGGTATCTTCCCTAAGGAAGGCATTGATATAAAAAAAAAAAAAAAAAAAGACTTCTGTCAG
CAGCTTCTCTAGGGCCCCTTTTAGCATCACCTCCTCCCCTCATTTCTTAACTGTTGGGAGATTTCTCTGATGAATCTCCTGCCTGAACAAGAATACCTGA
GTTCCAGTATGGAGATGATACCCAGTTCTCCCTGGGCATTCTATCCCAATCTCATTAATTCCTCCATCCCAATCTCATTAATTCCTCCCTAGGGTTMGTT
TGTTTGTCTGTTGGTTTGTTTTGCTTGTTTATTAGCTTCCACTGACTTCAGTCCTTGTACAATATAAGCTCCTCAAGGTCAAGAACCTAATCTTTTTCTT
CTTTTTTTTTCTCCTGTGGTACCTTATATCTCAGTCTCTTGGGAAATATTCAGAATATGCAAGATGGGTAGGAGGGTAGGTGGGTGGGTACATGGATGGA
AGGATDGATGGATGGATGGATGGATGGATGGATGGATGGATGGATGATTTTAGTGATGATGTTACCAATCTCAGTTGTCTCTTATTTTTGGCTTCGAATT
CTCAGTATCACCTCCTGATCTTCCTGTGTAACACGTAATACTCCTCTTGATCTGTTACCACTAACCCAGCTCCTAATTCATTTTTGCCTTCATTACCCAC
CTCTCATTCTCATGTTGTAGAGGAGAGGCTGAAGGCCCTAAGGATGCCAAGGCCAGAGAAGCCATGCTTTTGATGATGTGAAGACATCTTGAGGACAGTC
AGAAGAGGGAGAAAACTTATCTGGGGGACTCCAAAGATAGAACCAGAACCAATAAATGGAAACTCAAGCAGAGAAGCTTTGTCTCAACATAAAAGGAACA
GTTAAATCTATCCCAAAATGGAAGTAATGAGCCCCTATAACTAGAGGTGTTTCATCAGGGACTGGATGACTATAGGAGGGATCTTTTAGGGAGAGGGAAT
TAGAAGTATTGGGTAGATGGTTGGGTTAAATGGCCTTTAAGATCATTCARAACTCAAAAACTGATTCTGTGATTGCCTCTGCTCTGCTCCCTCAGGAAGT
CTTGAACGTAGTAACCAAAGTCCTTTTTCTTTCCAGCCTTCTTGAAAGCAGTCATTCTCATCTTTTCCTGTGTTTTATGTCCTAGCATTTGATACTCTTA
ATTCTCCTTCRTGCTCTTTTGCCTACCCCTACAAGTGTATATGCCTTCCACTTCACCTGTGAGCCTTATATCCCTTTTTGTTTGTTTTGCTTTGATTTTT
GAGGCAGGGTCTCACTCTGTAACCCAGGCTGAGTGCAGTGGCACAATCATTGTTTACTGCAGCCTTGACCTCCTGGGCTCAAGCGATCCTCCCACCTCAG
CCTCCCAAGTAGCTGGGACTATAGGCATGTGCCACTATGCCCARCTAATTTTTAAAAAAAACTTTTGTAGACATGGGGCCTTGCTATGTTGCCCAGGCTG
GTCTCAAACTCCTGGGCCCAAGCAATTTTCCCACCTAGACCTCCCATAGTGCTGGGATTACAAGTGTGAGCCACCATGGCTGGCTTTATATCTCTTTTTG
AAGCAGAGTAGTCTTGTGGATAGAGCATAAGCTTTAAAGTCAGACAAACAGGTTTAGATCTTATCTCCATATGTTACCACCTGTGTGACTTTGGGAAGGC
TTCTCTGGATAAAGCCCTGAGCCCATTTTCTCACCTGTAAAATGGAAATGAGATAATGTATGAATACATATAATATTGTACATGTACCTATCTCAAATAG
GTTTACATTATTCAGGCACCTAACTTACCAGGCTTCTTCCTTTAGGAACCCTGTGAAATCCTACCACCAACTCATTGAAGTTGAAGTGGTATTTCCCTTC
TTCCCTGACTCATTCATTACGTATTTGGATTTTCACTTTTAGCAGTAAAAAAGCATGAGCAGATGTTCACTTTCAATGTGTGTTTTGAATGCTTCATGAG
AGTTTGCATGATTGCTTTCACAGGCAAAGCCATCTTATATATGCCTGCTGTCATCAGGGCTATCTCTTTAGAGAACATACTCCTAGAAGGCAGACAGGTT
GATATGGCTCCCAGCAGTTATCCCTACATGAAGCATTTAGTAAAAGTGGATTTTTGGATCTCTGTGATGGTTATGTTCTCCTTGCATTCAGAAAGGCTTT
TAGCCAGACGTGGTGGCTCCTGCCTATAATCCCAACACTTTGGGAGGCCAAGGTAGGAGGATCGCTTGAGCAGGAGAAGTTCGAGACCAGCCTTGGCAAT
ATAATGAGACCTCATCTCTACAAAAAATTTAAAAGTAAGCCATGTGTGCTGGCACACACCTGTAGTCCCAGTTACTCAGGAGGCTGAGGTGGGAGGATCG
CTTGAGCCTGGGAGGTGGAGGTCGCAGTGAACCAGAACCATGCCACTGCATGCCAGCCTGGATAACAGAGCAAGACTCTGTCTCAAAAAAAAAGGCTTTT
AGGAAACTATTTCTTAGAAAAACACCTGAGATCTTTCTCCCCCAAAAACTGCCCTGAACAGTGTAGGGGAAATAATAGATTTCTCTCAAATCAGCTTTAT
TATTTCCTCTATTATTCTATACTGCATGCTTCATTAAAAAAATTTATTTACACTTATTTTATGCTAAGTACCATGCTAAGAATGGTACTTAGAACCAGAC
TTTCAAAGATTTCCAGGTGAATAGGGATACTGGTATGTAAACATATCATGACAATACGTTGACAAATGCAACAGTTCAAAAAACAGAGGTAACATAAAAG
AGACAATGATTAGAGAAAAACTAGAAAAGCTTCCTAGATAAACAAATTTGTAAAATAAATTTAAAAAGAGAGCATTTCAAGTGAAAGAGACATCTTATAT
TGTAAAGGTGTGGACCAGGTAAAAGTGCAAGTTTTTAAAGAAGCAATAGAGATTTAGTAGAATAGGAGATTTAAGGGAATGGCAGGTAATGAGGTGAAGA
GAGAGGCAGACAGAGTAAAGTTGTTTGTAGAGTTAGAAGGGTCATTTCTATTTTTTTTTGTTTGTTTCCATTTTTAAAGAGAGAAATAAAGTACAAAGTA
ATGTCAAAGCAGACTTAAACTATGGCATATTTTGCTTTTGTCTGCCCAACTAATAAGGGATCTGAAACTTCATATGATAATATTGAATCTAGTATAAAAG
ATAATAAATTAAGCTTTGACCCTAAAAAAGACCAGAGGCTTGTATATAGATTCAGAAAATGTCTACTAAGCATCTACTACAGGTATATGTATAGCTTTAA
GCCAGATGCTGTGTAGAGAACAAAGATAAAACACTATTCCATCCATAAATATATTTTTGCTTCATGAGTGAATTAAGTGCCAAGAATAGGGAATGAAAAG
ACCTGTCATGGGTAGCAATTTTTTTCCCATTCATTTTGACAGAGGAAACCTCGGACTTTGCTGAACCCACCACCTGCCTCACCAACAACCAGCACTCCTG
AACCGGATACCAGCACTGTACCCCAGGATGCTGCCACCATCCCCAGCTCAGCCATGCAGGCCCCAACAGGTAAGAGCAGATGACAGGACTACCTGCGCAC
AAGCCCCAGACCTAGTGTTTGCACTTTCTTTTGTCTTACACCAGTAATTAGCACCTTTCCACTTGTAAACCTAGGTAAAATATTTTTAAAAAATTTTATC
TTTGGCATTTGAAATAATGTCAGACAATCAAACTTAGGTAAATTTTCTGTGAACTCAGGGATGGGGAACTAATGCAGGGATAGCACCAAGAGCTCCCTGG
CCTAGTTTAGAATAATAGCCTTCCTTCCCAGTTAGGGGTGTTCCTTCTGAGTGATCCCTTCCACCTTCCAGAATCCTCCCAGCATTTCAGTAATGGTGCC
ACCCTTAAAATATGTATGAAATTTCTCTGATTTTTTTTTTTTAACAATCATTGATGGTGACAAACTTTGGTACAATGAAAGTAAGGTTGACTTATTGCAA
AATCTGGTGGATGAAATGGGTGGGTAATCATCCTGGGTTATGCATATCTGTTCCCATTTCATAAACTGTCTATGACAGTAACTAAAAGAACTGTGCGCAG
ATACACAGCCTTCCAAGGGGGTAACTATAAAGAAAAATACTCATTTTTTAATGTGTAAGTTAAGATAAATGTGTGAAACCCTATTCTGTTACTCAGCAGA
CACTCCATCTTCTTCTAGGAAGTCTTAAGCAATTGGCATGATCCCCATGGAAGTTAGGGTTGTCTTTCTCTTAGAAGGAGTTGATTATGTCTCTAATCAA
ATCCTAGAATGTAGGAGCCTGAAGGGAAGGCTCAGACATAGTTTCCCATAACCGATAGAAGATGAGAGAACCTGCCATGGTCAGGCTGTAATAGTCTTCA
TTGACCATTGTGTCGCCATCTCTTGAGTGGGCCTTGATTCACTTTGTGTGACTTTGATATCACTTCCCTGTCTGAGCCTCAGTTTATAATCTATACAATG
ATAGGATTAGTCCAAATAACCTTTATAGTCCCTTCAAATGTTAACAATAAAAGCTATCACAGACTGAATGTGATGTGCCACATTTATCTTTTACCTACTT
TTCATTTTTTTAACTGTAGAGAACTTTTTAAAAGGTATTTTGATTTGTGTCAGTTAYACACATTCATAGTTTAAAGGAATGAAGGGTCTACACAACTTAT
TACAAAAACAAAACAAACATACCTCGTATCCCCCTGTCAATTACTATTCCCCAGGGGCAATCACTTTCAATTTAACTGACGTTTTTATTTACCTCTGTAT
CTAAATAGCATGTCTATATTGCTGTCTTTTTTAGTTATTTTTCTAATGACTACCCACTCTAGAAGATGAGAATTTAACTCTTCTTAATCTCCTTGCCCCT
TATCCACCCACACATATTTCCCTACCCCAACTCCATGATATTATAATTTTAATTAGATCAAAATTCAGTGTTTTGTTATTATAACTAGTTAAATGCTGTT
CTCAATTGAGCCATGTAGTATACCGTGATTACTTTTCCTTTGTTGCTCAACATTTCATTTTCAGGGGAAATCTTGTTGATTTCCTTGTTTTGTGTTTATT
TTTCTGTGTACTTATTATTAATTCAACCTTAAACTCTCTTCCTACTGTGTACATCTCTCTTTATGTCCAAGTACATTATATATTCTATCCATGTCATACT
CTAGAAGAAATCTCTCCTGGAGCCTTCTTAGTTTCTTGAGATTCTGTTCACCTCTCTTTTTTGGTGAGGGTCTCTGTTTGCTCTTTCCAAGGTCTTTGTT
TTCTGTACATCATTCTTAGATTTACATATTTAGTTTTGTATGAAATCTCTTCATTCTCTTGGAAATTTCTCTTAATTCCCAGTACCCTAAAATTTCACTT
TGGATATATTTTCACCTACCATACTGGACACTTTTATTTTATAAAATTTTTAAAAATGAGCTGAGCATGGTGGCTCACRCCTGTAATCCCAGCACTTTAG
GAGGCCAAGACGGACGGATTACTTGAGGCCAGGAATTCAAGACCAGCCTGATCAACATGGCAAAACCCCTTCTCTACCAAAAATACAAAAATTAGCCAGG
CATGGTGGCACATGCCTGTAGTCCCAGCTACTCAGGAGGCTGTGGCATGAGAACTGCTTGAGCCGAGGAGGTGGAGTTTGCAGTGAGCCAAGATCGTACC
AGTGCACTCCAGCCTAGGTGATAGTGTGAGACTCTCTCTCAAAAGAAAAAAAAATTCTTTAATCAATTATTTTCTTTCACTTCTTTTTCTCTATTCACTC
CCGTCATACCTGTTTATTCAGTTTTTGAATCTCTTGACCTGGTTCTGTAATAGTCGTAYCTCTGTTCTTACCCCTATTCTTTGCCTTTTGGTCAACTTTC
ATCAAGTTTTCCTCAACTATATCTTCCAAACTTTGTATTGAGTTTTTCATTTTTGCCATCTTGCTTTTTAAATTATAATTATTTAGTACTCCAGTGGCAT
TTTCCAAAGTCTGTTTGGTAGAAACACCAGACCTGCAAAATGCTCTCCATAAAAGGATTTTACACACGTTTAGGAAATTTAGTTATATACATTTAGGAAA
TGCTTATACTCTACTTCCCCGTGGTTGGAGATTTGCATCTTGTTTATCAAGAGCTCTTTTTGTTGTTCTTTGAAATTTTTTAATAGACTTTTATTTTTTA
GAGCAGTTTTAGATTCACAGCAAAATTGAGTGGTAGATACAGAGATTTCCTATATACTTGCTGCCCCTACACATACATTGTCTCCCATTCATCAACATCC
TCCACCAGAGTGGTACATTTCTTAGAATTGATGAATTTACATTGACTCGTTATTATCACCCATGTCCATAGTTTGCATTTGGGTTTACTCTTGGTGTTTT
ACGTTCTGTGGGTTTTGACAAATGTATAATGACATATATCCACCATCATGTATAATACAAAATAGTTTCACTGCCCTAAAAACCCTCTGGTCTCTGCCTA
TTCATCCTCCCTCCCCACTAATCCCTGGCAACCACTGATCTGTTTATTGTCTCCATAGATTTGTCTTTTCCAGAATGTCACATAGTTGAAATCATACAGT
ATGCCACCTTTTCAGATTGGCTTCTTTCACTTAGTATTATGCATTTAAATTTATTCCATGTATTTTCATGTCTTGATAGCTCTTTTTTTTTTTTTTTTTT
TGTTGTTGTTGTTGTTGTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGAAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTTCACCTCCCAGGTTC
ACGCCATTCTCCTGCCTCAGCCWTCCGAGTACCTGGGACCACAGGCGCCCGCCACCACACCCGACTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCA
CCATGTCAGCCAGGATGGTCTCGATCTCCTCACCTCGTGATCCACCCGCTTCAGCCTCCCAAAGTGCTGGGATTGTAGGTGTGAACCACCACGCCTGGCC
GATAGCTCATTTTTTTTTAGCACTGAAAAATATTTCATTGTCCAGATGTTTCACAGTTTATTTATCCACTCACCTACTTATGGGAATGTTGGTTGCTTCA
AAGTTTTTGCAATTGTGAATAAAGCTGCTGTAAATATCTGTGTGCAGGTTTTTATGTGGACATACGGTTTCAACTCCTTTGGATAAATACCAAGGAAGAC
AACTGCTAGATTAAATAGTAAGAGTATGTTTTGTTTTGCAAGAAACCAAAGGGGTTTCAAGATGGCTGACTAGGGCTGGGCACAGTGGCTCATGCCTGTA
ATCCCAGCACTTTGGGAGGCTGAGGCAGGTGTATCACTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATCATGAGACCCCTATCTCTACTAAAAAT
ACAAAAAAAATAGCCAGCTGGGCACGCTGATGTGCACCTGTGGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGGATCACTTGATTCCAGGGATGGGGCAG
GGCAGAGGTTGCAGTGAGCCAAAATCACACCACTGCACTCCAGTCTGCGTGACAGAGCTAGACCCTGTCTCCAAAACAACAACAACAAAAAAAGATGGCT
GACTARAAGCATTTCATATGCTCACCTCCTCCACTTAGAAAAACCAAAAGAGTATATAGACAATCATACTTCTGATAAATTATCTAAGATAGAACACTGG
AATTCAACAGGAAAGTGACAGGAAACACAGAAAGCAAGGAAGGAGAAAGAAGAGAAGCAGCCTACCTGGCTGAGATTGGCTAGGAAACAGCAAGTGACTT
CCCAAGGGTAAGCAAGAGACTTCTAGCAGCCCACATCCCCACGTATGGAATCATGCATTCCTGGCAACGAGAGCCCTTTACCTTCCCAACCCCTGAAACT
GACATAGGGAGCTGCCAGAAGACCAGGAGAGGGAACTATTCCAGGGGAGGAGCTTGCACTGGGTCACACACCCTTTCTGAGCCATAAGCAGCTACAGTTG
ACGCACCATTTTCAATCCTAGCCATTGGCAGACTGCATTCTGTCCTGGGGCCTAGCAGCGCCAGGAATGAGGTGTTAGGGAAAATTGAGCTGTTACTGCT
TGGACTAGGGCAAAAATTGGAAATGGGTTCCCATAGGTAGGACTCACAAGTGAGGCGTAGGCTGCACCTGCCAGTTCTTTGAAGCTAGTACCACCAGGAC
TGAAACTGGGATGTGAACAGGGTGCAAGGTTCTGCTGGGGCTTATCTAAAATGTCATTGCCAAACCCAAGGTCATCTAGATTTTCTCCTATGTGATCGTC
TAGGAGTTTTATAGTTTGCATTTTACATTTAGGTCTATTATCCTTTTGGGGTTACTTTTTTTCAAGAGTGTAGGTTCTGTGTCTAGGTTCACTTTTTTAC
ATGTGAATGTTCAGTTGTTTGAGAACCATTTGTTGAAAAGACTCTCTATTTTTTATTGTATTGCCTTTACTCCTTTGTCAAAGATAAGCTGATTATATTT
ATGTGGGTTTATTTCTGGGCTCTCTATTCTGTTCCATTGATCTGTCTATACTTTAGGCAATACCACACTGTCTTAATTATGGTAGCTTTACAATAAGTCT
TGAAGTCAGGTAGTATCAGCCCTCCTGGCTTCGTTCTGGGTCTTTTGCCTCTTCATATAAAGTTTAGATTCAGTTTGGTTTGCTATTGTTGTGGAAACAG
AAGTGCACTCTGTTGCCCAGGCTGAAGTGCAGTGGCACAGTTACAGCTCACTGCAGCCTCAATCTTCCTGGGCTTAAGCTATCCTCCCACCTCAGCCTCC
AGAGTAGCTGGGACTACAGGCACATGCCACTATACCTAGCTAATTTTGTAGAGACGGGGTCTCACTATGTTGCCCAGGTCTCAAACTCCTGGGCTCATGC
AGTCTTCCCACCTTGATCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACCCCCAGCTGRTTCAATTTGTTGCTGTCTACAAAATAAATTCTGGGA
TTTTGATTAGGATTGCAGTCAATCTCTACATTGACTTGGAAAGAACTGACATCCTGACAAAATTAAGTCTTCTTATCCATGAACACAAAATATCTGTTTA
CTTAGTTCTTTTTACGTTTCTTTCAAAAAACTTTTCTAGTTTTCCTCATATAAATGTTATATATATTTTGTTTAACTTATACCCAGGTATTTCATTTTCT
GGTGCTAACATAAATGGTATTGTGAGGGTTTGGTTTGTTTTATTTTTTGAAATAGGGTCTTGCTGTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCACA
GCTCTCCGCAGCCTCAAACTCCTGGGCAGAAGCGATCTTCCTGCCTCAACTGGGTAGCTAGAACTACAGACATGCCACCATGCCTGGCTAATTTTTTTAT
TTTTATTTTTTTTATAGAGATGGTTTCTCGCCATGTTGCCCAGGCTGGTCTTGAATTCCTGGCCTCAAACAATCCTCCTGCTTCAGCCTCACAAAGCATT
GGGATTACAGGGAGCCATTGTGCCTGGCCTGTATGGTGTTTTTTAATTTTAAATTTCACTTGTTCATTGCTGCTATATAGGAAAGTGATTGACTTTTTGT
ATATTAGCTTTGTATCCTGCATTCTTGTAATCACTTATTAATTCCAGGATGTTTTTGGTTGTTAATTATTTCATATTCTCTGCATAGACGATCATGTCAC
CTGAGGACAAAGTTTTATTTCGTCCTTCCCAAACTGCATTCTTTTTATCTTACTTTTTGTCTTACTGCATTAGCTAGGACTTCCAGTATGATGTTGAAGA
GGAGTGGTAAGAGAGGGCATCCTTGTCTTGTTCCTGATTTTGGTTGGAAAGCCTCTAGTTTCTCACCATTAAGTATGATGTTAGCTCTAGGTTTTTTGTA
GATGTTATTTATTAAGTTGAGAAAATTTCCCTCTATTTCTAGTTTCCAATAGTTTTTATTATGAATGAGTGTTGGATATTGTCACATCCTTTTTCTGCAT
CTATCGATATGATTATCTGATTTTTCTTACTTAGCCTGTTGATATGATAGATTATATTAATTGATTTTTGAATGTTGAGTCAGCCTTGCATACTTTGGAT
AAATCTGACTTGGTCATAGTGTATAATTCTTTTTTATATTGTTCAATTTGATTTGATAATACTTTGTTGAGGACAATGCTGGCTTGATAAAATAAGTTAG
AAAATATTCCTTCTGCTTCTATTAATAACTTCTAAAATAGATTTTGAAGAATTGGTATAATTTCTTCCTTAAATGTTGGTAGAATTCACGAATGAACCTA
TCTAAGCCTGGTACTTTCCTTTTTTGAAGGTTTGGGTTTAATTAATTCAATTTTTTAATAGATATAAACCTATTCAGATTGTCTATTCTTGTTTGAGTTT
TGGCAGACTGTCTTTGAAGGAATGAGTTCATTTCATCTAGGTTATCAAATTTGTGGACATAGAGTTGTTCATAGTATTCCTTTATCTGTTTAATGACAAT
AGGATCTGTAGTGATGTCCCCTTTATCATTTCTGATTTAGTAATTTGTGTCATCCTTCTGGTTGTTTGTTTTGTTTTTTTGTTTGTTTGTTTGTTTAGTT
AGCCTGGCTAGAATATAATTGATTTTATTTATCTTTTCAACAAACCAGCTTTTGGTTTCATTGTTTTTTTTATTATTATTATTTTTTAGACAGAGTCTCG
CTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACTTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTAAGTAGC
TGGGACTACAGACATGCACCACCACGCCCAGCTAATTTTTTATATTTTTAGTTGAGATGCGGTTTCACTGTGTTRGCCAGGGTGGTCTCGACCTCCTGCC
CTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCAYGCCTGGCCTGTTTCCTCTATTGATTTCCTGTTTTTGATTTC
ATTGATTTCTGCTCTATAATCTTTAYGATTTTTTATTTTCTGCTTACTTTGGATTTAATTTGCTCTTCTTTTTCTAGTTTCCTAAGATGGAAGCTCAGAT
TGCTGCTTTTAGATCTTCTTTTCTAATATCTGCATTCAGTGCTATAAGTCACCCTTTAAACACTGCTTCTGCTCTATCCCACAAATTGTGATAAGTTTTA
TTTTCATTTTCATTTAGTTCCAATTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACACTGTCACCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCACT
GCAACCTCCACCTCCCACCTTCAAGCAATTCTCCTGCCTCAGCTTCCCAAGCAGCTGGGATTACAGGCACACRCCACCACACCTGGCTAATTTTTTCTTT
TTCTTTTTTTTTTTTTTTTCTGAGATGGAGTCTCTCTCTGTCCCCCAGGCTGGAGTGCAGTGGCCCGATCTCAGCTCACTGCAACCTCCGTCTCCTGGGT
TCAAGCAATTCTCCTTCCTCAGCCTCCTGAGTAGCTAGGATTACAGGCATGCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGGATGGGGTTTCA
CCATGTTGGCCAGGCTGGTCTCGAATTCCTGACCTCATGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCAAGGCACCCAGCC
TAATTTTTTTATATTTTTAGTAGAGACAGGGTTTTAACATGTTGGTCAGGCTGGATTCGAACTCCTTACCTCAAGTGATCCACCCACCTCGGCCTCCCAA
AGTGCTAGGATTACAGGCGTGAGCCACCATGCTTGGCCATTTCCAAATATTTTTTAAATTTCTCTTGTTATTTCTTCTTTGACCTATGTGTTATTTAGAA
GTGCATTGTTGAATCTCTGGTGATTTTTTTCATGTATCATTCTGTTGTGTTCTGAAAGAAGACATTGTGTGATTATTCTTTTAAAATTTGTTCAGGCTGG
GTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGTCTGAGGCCAGTGGATCACTTGAGCTCAGGAGTTTGAGACCAGCTTGGGCAACATGGTGAA
ACCCTGTCTCTACCAAAAATTCAAACAATTAGCCGGGTGTGGTGGCATGCACCTGTGGTCCTAGCTACTCAAGAGGCTAAAGTGTGAGGATCACTTGAAC
CTGGGAGACAGAAGTTGCAGTGAGCCAAGATCACAACACTGTACTCCAACCTGTGTGAAAGAGTGAGACCCTGTCTCAAAAAAAAATGAGAAATTTTAAA
AATTAAAAAAATATATTCAGATGTGTTTTATGGTCCAGAATGTGATCTACCTTGCTGAATGTTCTACATGAGCTTCAAAAGAGTATGTATCCTGCTGTTG
TTGGATGAAGTCGTCAATAGATGCCAACTATATTTCAGTTGATTGAGGGGCTATTGAGTTCAATTATGTCCTTACTGATTTTATATCTGTTTGATGTGTC
CATTTCTGATGGGGGGTGTTGAAGTCTCCAACTATAATAGTGGATTTATCTGTTTCTCCTTGCAGGTCTGCCTGTTTTTGCCTCATATATCTGACACTCT
GTTGTTAGGTATACACACATTAAGGAATGATATGTCTTCTTGGAGAATTGGCCTCTTATTATGTAATGCCCCTGTCTTTCCCTGATAATTTTCCTTGCTC
TGAACTCTACTCTGTCTGAAGTTAATATAGCTACTCCAGCTTTCTTTTGATTAGTGTTAGCATGGTATATCTTTCTTTACTCATTTACTTTTAATCTATA
TATGTCTTTATATTTAAAGTAGGTTTCTGGTAGACAACATAAACTTGGGTCTTGGTTTTTTAAAAATTTTTAAAAATAATCATTTACATTTACACCTTAG
CAGAATTCAAGCTCCTCTCATCCTCCTAACCTGGTGATCTTTCATTAGCTTTACAAAGACAGTTTAGTTTTGGGGAAGGGCTATTATCGTTTAAACTATA
AACTAAATGTCTCCCAAAGTTAGCTTGTCCCAAGCCCAGGAATGATTAAGGGCAGTTTGGAGGTTAAAGATAAGATAGGAGTTGATTAGATCAGATCTCT
TTCACTGTCATATTTTCTCACTATTACAATTTTTGCAAAGGTGGTTTCAGATGAATTAAGATTAAGGAAAATAGGCCAGGCATGGTGGCTAACATCTTTA
ATCTCACTACTTTGGGAGGCCGAGTTGGGAGGATTGATCACTTGAGCTTAGGAGTCGCCAACAACATAGCAAGACCTTGGCAACAAGGTCTTGGCACCTA
GGCAACAATGTAGCAAGACTTCTCTACTAAAAATAAAAATTAAAAAATTAATCAAGCATGGTGGTGCATGCCTGTAGCCCCAAGCTACTCAGGAGGCTGA
GGCAGRAGGATCACTTGAGCCTGGGAGATTGAGGCTGCAGTGAGTTACGAYAGYACCACTGCACTCTAACCTAGGTGACAGAGTGAGACCCTGTCTCAAA
AAAAGAAAGAAATTTAAAAAAAGGTCATAATTAATTTTGTCTTTACTTTTTTCTTCTCTGATGCTCTTCCTTTCTTTATATAGATCGAAGTTTCTGATCT
ATATCATTTTCCATCTTTCTAAAGAACCTCTTTTAATGTTTCTTGCAAGGCAGGTGTTCTGGCAACACACTCCCTCAATTTTTCTTTTTTTTTTTTTCTC
CCTCACATTTCAAGAACAGTTTTGCAGGGTACAGAACTTTAGGTCGGTGGGTTTTTTTCTCTCAACACTTTAAATATTTCACTCTCTTCTTGCTTGCATG
GTTTCTTATGAGACATTAGATATAATTCTTGTCTTTGCCCCTCTATAGGTAAGACAATTTTTTCCTCTGTTCTGTTTCAGTGTTTTTTCTTTATCTTTGA
TTTTTTGTAGTTTGAAAATGATATGCCTAGGTGTAGATGTCGGGGTTTTTGGCATTTTTCCTTCCTGGTATTCTCTGAGCTTCCTGAATCTGGGATTTGG
TATGTAACATTAATTTGGGGAAAATTCTCAGTCATTATTGCTTCAATTCCTTTCTCTTTTTCTTTTCCTTCTAGTATCACCATTATATATAGATTACATC
TGTTATAGTTATCCCACAGTTCTTGAATATTCTGTTATGGTTTTTTTTTTTCAGTCTTTTTTTTCTTTGCTTTTAATTTTGGGAGTTTCTTTCCCTTGAG
ATATATTTGTAAAGGAAAATTAGAAATTCTCTGGACCCGCCAAATTCCTTATGAAATGGGAGAGTTCCTTGACCTCCCTCGAAGGACATGCAATAGGGGT
GTGGCTTGTCTTTTCAGCGCCGTGCACTCAAACCCCTTACAGGAGGGGGAACACGTAGATGGGCAAGTGCAGGAGCTAGGATAAGCACTTTTGGGGCACC
GGCCCCACAGTAGCATCTAAGGGTGGGTGTCTGTAACTCCTGAAGCCCCAGTGGGCATGCTACAGTGCTCTTTTAGCTCTGCCATCTACAGATGGCTTAA
GTGTAAACCAGCTCAGTGCCCTCTTGGTACCCAGGTTCTTGTCTGGCATCCAGGAAGAATCAGGTCACACACAGACTTGAAGAATGGTGAATGTGGAGGG
TTTTATTGAGTGGTGGAGGTGGCTCTCAGTGGGATGGATGGGGAGCTGGAAAGGGGATGGAGTGGGAAGATGATCTTCCTGGAGTTTGGCTGACCAGCAG
CTGATCTCCTCTCTGACCATCCCCAGCCAAACTCCTCTCAGTGTTCAGATGCTCCTTCTCTTCCCTCCTTCTCTGCTGTGCCATTCTGCCACTCTTCTGC
TCATCGATCCTGGGGTTTGGGGTTTATATGGGTACAGGATAAGGGGGCATGGCAGGCCAAAAGGCAACATTTGGGCACGAAAACAGGAATGCCTGTTCCC
ATTTAGTGCTGTGGGTTTCCAGGCTTGGGGGTGGGGCCTTTGCCAGGGAATTGCCCTCTTCTACCCAGTATTTCCCTGTCTCCTGTCTGTATCACTTATG
CAACAGGGAAGGGTAAACCTGGGGGTTAAGCCATGTAACACCATCTTCCAGGTGAATAGCTGTTACTAGCATTACGCATTAGCCAGATCCCCAAAGGAAA
GGTAAAAAGCCTCAGGCATCCATGAAGGACTGCCTGCACAGATCATTCACAAGTAAACTCTTYGATGGTCTCCCACAAGCAAGGACACACCAGCTGCAAC
TTCAGGTCTATAATCTAAGTCTAGCTCTTAAACTCCACACTGATAATGTCAATATCATATCTTCTCAGGTGCAGAACAAAGACAAAGGGGACTRGTCATT
CCTCCACCAACCCAGAGATGTCTGCATAATTGATTTTTACTTTACCCCATTTTTGCTCTTCAAACATTCACATTATCTTATGTAAAATGTAGATTTGCCA
AGCACTTACTAAAGTCTCACAAGAATGTAACCATTCCCCTTACCGCCTACCTGCCCTCCTTTAAGAAAATGTATAAATAAGGCCGAGCATGGTGGCTCAC
ACCTGTAATCCCAGCACTTTGGAAGGCTGAGGCGGGTGGATCACAAGGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAA
ATATACAAAGAATTAGCCAGGTGTGGTGGCATGCACCTGTAGTCCCAGCAACTCAGGAGGCTGAAGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTT
GCAGTGAGCCGAAATTGTGCCACTGCACTCCAGCCTGGGTGATAGAGCGAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAACAAGAAAGAAAATGTATAA
ATACTAAAATCCTGAAAGCCTCTTTGGAACAGTCACAGATGTGTCTGTGGCTCATATTTTCCCCAGACATACTCCAAAGCTAGCTTAATAAACCTTGATT
GATTGAGACCATTTCTTCAGTCACTCATTCAGTTATCATGCTCAAATGCAGCAATTCTTGCCTTAGCATGTCTAACCTAATAATGGGCCAATGAAAGGCA
TTCATTTCATTTTTTTTCTTTTTCTTTTTTTTTTTTTTTTTGAGACAATCTCCCTCTGTCTCTCAGGCTGGAGTGCAGTGTGCAGTCACAGCTCACTGCA
GCCTCAGCTTCCCACACTCAGGTGATCCTCCCACCTCAGCCTCCTGTGTAGCTGGGACTACAGGCGCACGCCACCACACCTGGCTAATTTTTTGTAATTT
TAGTAGAGACAAGGTTTTGCCATGTTGCCCAGGCTGATATTGAACTCTTGAGCTCACTCAATCCACTGGCCTTGACCCCCCACAAAGTGCTAGGTGTGAG
CCACTGTACCCAGCCCATTCTTTATTTCTGTTACACTATTTTTGATCTCTGGTGTTTCTTTTTTATTTTTTCTTGGAATTTCCATCTCTCTGCTTACACT
GCCCATCTGTTCTTGCACGCTGTCTAGTTTATTCATTAGAGCCCCCAGCATGTTAATCATAGTTGTTTTAAATTCCCAGTCTGATAATTCCAGCATCCCT
GCCATATCTGAGTGTGCCGCTTTTTCTTCAAACTGTGTTTTTTGTCCTTGAGTATACCTTTTTTGTGTGATAACTGGACATGATGTACTGGGTAAAAGGA
ACCATGGTAGGGCCAGGCGCAGTGGCTCACGCCTGTGATCCCAGTACTTTGGGAGGTCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTTGAGGCCAGCC
TGGCAACATGGCAAAACCTTGTCTCTACTAAAAATACAAAAAAAAAGAAAAATTAGCCAGGCATGGTGGTGGAGGCTGAGGCAGGAGAATCGCTTGAACC
CGGGAGGCGGAGGTTGCAGGGAGCCGAGATCATGCCACTGCACTCCGGCCTGGGCGACAGAGCAAGATTCTGTCTCAAAAAACAAACAAACAAACAAAAA
AACAACAACAAAAAAAACATGGTAAATAGGTCTTTAGTGATGTGGAGCGATGGGAAGCATTCTACAGTCCTATGACTAAATCTCAGTCTTTCAATGAGCC
TTTGCCCCTGGGCTGTGAACTTAACAAGTGCTTCTGGTCCCCGCCCCCACCTCTTTGGGTTGGATAGAATGGCCTGGAGTGCGGTATTTCTCTTCTCCCG
AATGGAAGGCTAGCATTGGCTGGAGTTGGTTATTTCTCCTCTTCCAGATCAGTTAGGCTCTGAAAAATCCCTAATAGTTTAGGCTGTGGTAAAATAGTTT
CTCCTGAGGGAAGACCTTGTTGAGAACAGAGGGCTCTAGTATATTTCAAAATGGTTCCTTTTCCCCTCTCCCTGCCAAAAGCATGAGGGTATTTTTCTCT
TATATTTACTGTGAGAATCCGRTTGAGCTCCTGGAGGCAAAACTCACAAAAGTTTCCCCCTCCTCCCCAGTGACTGGGACTCCCTGGAGTTTTAATCTCA
AACTTCTTCACACTGAGCCTCTGACAAGTCATCAAGTACAGTTTAGGTTTTCCTKCCCTAGCACTAGTTCCAGAGACTTCGGCTTATTCACCTGTCTGTC
TCTTCAAATTTGAGGGCTAATAGTTTGCCCTGAGACCTTACTTCTCTGACAGATGTAAGGATTGTTGACTTTTCAGCTTATTCAGCTTTTTACTGGTTGT
TAGGATGGAGTGGCAACTTCCAAACTCCTTATGTGCCAGACCTTTCTCTGAATTTTTTTAATAACCTCCAATTCTAATTTAATGGATCTAGTAAAAAAAA
AAAAATGACAGTATACACAAATATCCTTATGACCTCAAGATTGGGAAGGATTTTTAAAATAAGACAATAAGCATAAACTATAAAGGAAAAGATCAATATA
TTCTATATTAAAATGAATACAGCTCATCTCTGCGCCACATGGCATCAGTTGGGGTACCTCAATTGGGGCTTATGATAATTCCATTCACATAACTAGCAGA
ACTCATGTTGYCTGTTGGTTCTCGCCAAAGGATAACTTGGGCTTTGCCATACCATGGTGGCTGCGTTCCTAGAGCAAGTTTCTCAAGAGATAGGAAGTGA
AAGCTACCATTTTCTTAAGGCCTGAGCCTCAAACTTAGCATAGCATCATTGCCACCATATTCTATTGATCAATCAGTCACAGAGCCTAGATTCAAGAGGA
GAGGAGTAGACCCCACCTCTCAATAGGAAGAGGGTCAAATAATATGGGCCATATTTTAAAACTACCTCTCTATTCTCTGGACATGGATTATTAACATTTT
TTCCACTTGCAAAATTTATTCTTGCCCTCACAAGATGCCCCATCAGAAGTCTCATCCTTTTACACCAGTAGGCTCAAGGTCTAGGATCTCATCATCTAAA
TCAGGTCCCAGTACACGAGGCCTCTTAGGTGTGGTTTGTCAAGGATACCTCCTTCAATGTGGTTCTTCTTGTCCCGACGACCTGTGAACTAAAGAAATAA
GTTGTCTGCTCACTACCTACCTAACACACAGTGGTGCAACAGACACGAGGTAACATTTATAGATGCTTTCTTTTCAAAAGGGAGGAAACCTGAAGGCATG
CAGCAGTCACTGGTCTATAGAAATTCTGAGGCCGGGCGCGGTGGCTCACGCCTGTAATCGCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACAAGGTCC
TGGCTAACACAGTGAAACCCTATCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGTGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCA
GGAGAATGGCGTGAACCCAGGAGGCAGAGCTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAA
AAGAAATTCCGAAATCCAGCTGGGCACATGTTGGCCAACTCCTTAATTAGGTCCAGTATTACTTTCTGGGAGTTGTTTTCCATGGATCTTGGTTTTATCC
TCTGAATCATCCTTGTTTTCCATAAGAAAACTGAGATTGCCTTTTTAGTTTCCTTCCTGCCTATATAAGGTTGGGCATCCAAAGGATTTTTTCCATTTTG
TACCATCTTTCTTGCTTTTAGTCCAAGCTGTCAATGCTTCTGCCAGAATGATTCTCTTAGAAACGTGAGAGGTTTTTCAGCTAGGTGCAGTGGCTCGCCC
CCATAATGCCAGCACTTTGGGAGGCCAAGGTGGGAGGATTCCTTGAGCCCATGTGTTCAAGACCAGCCTGGGCAACATAGTGAGAACCCGTCTCTACAAC
AAAGTAAAAATTAGTTGGGCATGATGATGCACACCTGTGGTACCAGCTACTCAGGAGGCTGAGGTGGGAGGACTGGTTGAGCCCTGGAGGCCGAGGTGGC
AGTGAGCTATGATCATGCATGCCACTGCACTCCAGCCTGGATGACAGAGCAAGACCCTGTCTGTAATTTAAAACCAAAGAAATTTGAGGGGCTTTCTTTG
AACTGTCAGAGTTCACTTCATTAGACAAAAGCCACAACTACAAGTCTTTTAATGATAAGCCCTTCTCTACTTTGGGCTTCCTATTCAGCTGCTGTAGGAC
AGTACTCTTAAGATTCTTAAAAATCCTGTTGTTTAAGGCAAAGAATCTGTGAGGCTTGCCCTTAAGATTCTTAGAGAACCTTTTAGGCCTGAGAGTCTGC
ACAGCATAGAGTTACATCTTTCTTACATCTTAAAGAATTTTACTGTCCTTTTCTAGAGTCGAAATCCTTTCATAATTTATAGTTTTTTGCCTTATGGAGA
GACTGGAAATAAGAAATTTTATTTGTAAATTCTGCAAGTCCTGGGGGTATGTGGAGGGGTGTGTGTACATGTTTTTAAGCTCATCTCTTGTCTTGCATTT
TATCATAAGCAGGGAGAAGCCAGGTGATACTTTCATTACTTTGTCTGGAAATCTCCTTAGCTATTTCCTTGAGTTCATCAGGAATATTTCTTATTTCCAT
GTTACTATAGGCAACAGTCCTGTCAAACTTTCAACACTTCCCCTTTCATCGATCTTCCAATAAGATTTTCTTCACTTTCCCTTAAACCTTCACTGACAGC
CTCATTAAGAACCTTTAGGCCGGGCGCGGTGGRTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGATCGAGAC
CATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGAGAGGCTG
AGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCAATGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAA
AAACAAAAAAAAACAAAACAAAAAAAAAACCTTTAGGCTTCCATTAAAACTCTCCTCGAGTCTCCTTCAGTTTTCACTGACACTCTGTGTGGTCCTTTAT
GCTTCTTTCTGCTCCCCAGGTCCAGAGCCAATGCCATGTGTGTCAGCCTTTTGTTACTGCAGCACCCTATTTCTGGTATCAGAATCTGTCCCAATAATCT
TTTGCCATGTAACAACCACCACAAAATTTCATGGTTTAAAACAACAATGTGGGCAGGCCTGGGTGGAGACAGCTTGTCTCTGTTGCATGCAGCGTCAGCT
GGGGTGGCTTGACTAGGACTGAAGGATCCACTTTCACCACATGGCCAACCAGCTCGTTCTGGCTGTTGGTTTAAATGGACCTCCCTGCAGGGTGGCTTTG
CTTCCTCACACATGGTAGTTGGGGTCTCAAAGCAAATGTCCCAAGAAACAGGAAGTGGAAGTTGTCAGTTTCTTAATCCTTAGGCCCAGAAACTGGTACA
GTGTTGTTTCTGCATAGTCTAAAGGCTTTATAGTTCTGCCTTTTATATTTCATCATTTAATCCATGTAGATTTTTTTAAATCATCACCAGACTAGTTATA
TTATTTCCTTTTTGTGTATTTTAACTGAGGTAAAGTTTCTACCTTTAGTGAAATGTACAGATCTTAAGCATACAATTTGGCCGGGCACAGTGGCTCACAC
CTGTAATCCCACCACTTTGGGAGGCTGAGGCGGGCAGATCACAAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAA
ATACAAAAATTAGCCTCGCGTGATGGCACGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTAAATCCGGGAGGTGGAGGTTGCA
GTGAGCCAAGACCGCACCACTGCACTCCAGCCTGAGCGACAGAGAGAGACTCTGTCTCAAGAAAAAAAAAAAAAAAAGCCTACAATTTAATGAGTTTTAA
GCACCCATGTGACTACAACTCCAAGGAAGATGGAAGACATTTCTGCCACCCCCGAAGTTCCCTTATGCCTCCTTACAGTTGGTCTCCACTTCCACCTTTA
TGCTGATTTTTATCACCATAGATTAGATTTCCCTATTCTTGAACTTACTATAAATGAATCATACTATATGTACTCTTTTGTATCTGGTTTATTTCACTCA
GTGTTTTAAAAAGCACCCATGTTCTTGTGCCTATCAGGAGTTCCTTCTTTTTTACTGCCAAGTGATACTCCATTAAATGAATATACACTCACGTATTACT
TAATCACGGGGATATGATCAGAGAAATGCATCATTAGCCAGTATCCTCATTTTGKGAATACCATAGTACATCGATCTTCAACCTTTTTGGCACCAAGGAC
TGGTTTTATGGAAGACAGGTGTTCCATGGACCAGTGGCATGGGGGATGGTTTCAGGATGAAACTGTTCCATCTCAGATCATCAGCCATTAATTAGATTCT
CATAAGGAGCACACAACCTAGATCCSTTGCATGCGCAGTTTACAATAGGATTCATGCTCCTGTGAGGATTTAATGCCACTGTTGATCTGACAGGAGGCGG
AGCTCAAGTAGTAATGCTCACTCGCCTGCTGCTCAACTCCTGCTGTGCAGCCCCTTTCCTAACAGGCTGTAGACCCCCGTATTGGTCTTCAGCCTGGGGG
TTGGGGACCCCTGTCATAGCGTACTTACTCAAACCTAGATGGTATAGCCCATTGCTCCTAGGCTACAAACCTGTATAGCATGTTACTGTGCTATAGGCAG
TTGCAGCACAATGGTTAAGTATTTGTGTATCTAAACATGTATAAAGATAAAAAGGATACAGTAAAATTATGGTTTAAAAGATTTTTTAAATGGTACACCT
ATACAGGGTACTTACCGTGAATGGAGCTTGCAATACTGGAAGTTGCTCTGAGTGAGTGGTGAATGAGTGGTGAGTGAATGTGAAGGCCTAGGATATTACT
GTACACTACTGTGGACTTTATAAACACTGTACACTTTGGCTACACTAAATTTTTTTTTAATTTTCTTCAATAATAAATTAACCTTAGCGTACTGTAACTT
TTTTACATTATAAACTTTTTAACTTTTTGACTCTTTTAATAACACTTGGCTTAAAATACAAACATACTTTATAGCTGTACAAAAATATTTTATTTTTATC
TTTATTCTGTAAGCTTTTTTTATTTAAAAAACTTCTAGATTTATTTTATTTTTTTACTTTTTAAACTTTTTTATTAAAACCCAAGACATACACACACATT
AGCCTAGGCCTACACAAGATCAGGATCATCAATGTCACTGTTTCCTATCTCCATATCTTGTCCCACTGGAAGGTCTTCAGGGACAATAACATGCATGGAG
CTGTCATCCCGTGATAACAATGCTTTCTCCTGGAATACCTCCTGAAGGACCTGCCTGAGGCTGTTTTACACTTAACTTTTTTAATAAGTAGGAGTACACT
CTACAATAATGATAAGAAGTATACTAAATACACAAATCAGTAACATAGTCATTTATTATGTTACCAAGTATTATGTACTCTACGTAATCCTATATGCTAT
ATTATTTTATATGCCTGGCAGTGTAGTAGGTTTGTTTACACCAGCTTCCTCACAAACACATGAGTAATGCATTGTGCTATGACTTTACATTGGCTACAAG
GTCACTAGGTGATAGGAATTTTTCAGCTCCCATGGGAACACTGTCATATATGCAGTCTGCCATTGACCAAAATGTCATTATGTGGCATATGACTGTACCA
CAATTTGTATCTCTTCTCTTTTTGGTGGATATTTGGGTTGCTTCTAGTTTGGGGTTATTATGAATAAACTATTATGAACATTCTTATAGGTGTCTTTTCA
TAGACACTTGTTTTTATTACTCTTCTTATCTCTCTGGATTCCTGCATTTTTAGTTATTTCAGTAAAAGAGTCACATTACTAGATGTGAAAATCCTGTTTC
TTAAAAGACTTCAGTTAAACCTTCTTTTATTAGATCCCCCTCACACTCACCTCCAGAGGCACCAACTCTGCCGATTATTAGGCCTTTTGCAAATTATGAG
AGCGTGGTTCTCATCACTCCCCACTCCAGCTTTAGGGTATACAGCTTTGTTGGGTCTGTTGAGTCAGTCGCTACGTTTCCAGTCCGCTTTCCACCTTCCT
AATCTTATTGTCATCTCCTCTCTTATTATCTGGCTCATTTTAGTGAGTTTTTGGAGAGAACAGAGTTAAATGTATTCGTTCAATTCATCTTGTTTACCCT
TTTCTTCTTTTTGTTTTTATGTTTCTCCTGTCACTTTCCACATATCACCTCCCTACTTTCTGTTTTCCATTTCTTCCGTCCATGTTGGTTCTCCTTAGAA
TTAGAATTATGAAGGTGGAGAATCCTCAGAGAGCATCTGGCTCAGTCACTTCATTTTTCAGGTGGTGAACCTGAGACCCAAGGAGAACAACAGTCCATCC
ACGGGCCACACAATTACTGCTCTTATCTTTTCTACCTTTAATAGCAAAGAGACTTTTGCCCTTCTACCCCTTCAGCTAGTGAGCCACAACCACACAAGAA
AGAATAGTACCCGCTACTCAAATGGGAAGCTGGAAAGCAGATGGAGGAGAAAATGTCATTGCTGACCAGGTTGCTGTGGGTCCTGAGGAGAGAACAACTC
CAGAGACAACTCTGTTAGGACTGCCTCGGTCTCCTGTGCCCACTGCACCCCTTCCCCACTGCAGTGCCAGGTGGAGGCCAGTAGCTAGGAGAGTGCTTAG
CCGTCTTGGGACCCTCAAGCTCTTTTCACTTTTTTTTTTTTTAAAGACGGAGTCTCTGTCATCCAGGCTGGAGTGCAGTGGCGCGATTACAGCTCACTGC
AGCCTTGAACTCCTGGGCTCAAGCAGTTCTCCCACCTCAGCCTCCCAAGTAGCTGGGAACACAGGCACATGCCACCACACCTAGCAAATTTTCTGTAGAG
ATRTGGTCTCACTGTATTGCCCAGGCTGGTCTCAAACTCCTGGCTTTAAGTGATCCTTCCGCCTCAGCCTCACAAAGTGCTGTGATTACAGATGTGAGCC
ACTGCACCCAATTTTTTTTTTTTTTTTTTGAGACCAATTCTCACTCTGTCCCCCAGGCTGGCGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCACC
TTCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCCCACCACCATGCCCGGCTATTTTTTTTTTTTAATAGAGACGG
GGTTTCACCTCTTCACCAGGCTGATCTCGAACTCCTGACCTCGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGC
CCAGCCCAACTTTTTTTTTTTTAATCCAATTTTTTTTAAAATTTTTATTATATTCTTTGGGCATGAGTGTTGATGTAGAAGATAACAAAGGGACCCTAAG
GCCCAAAACAGAAAGCAAGGCAAATGATCAATGGTGCAACTATTCTAAATCCAATGACATACATACACACACACACACACACACACACATATGCCCTTGC
TAATATTGCCATTGCCCCACAGYGCCTTACACATATATGGTAAGAGGTACAAAGAATATGTGAGGCAACCAAGTACAAAAAAATGGAAGTACGTACAAGA
GGGGAATTGTCTAGATTTTCTTTTCAGTGCACAGAAGACAAAGTGCAAACTCTGTGTCTTGGCCTTTGGTCTGGGCCACTCTTCCAGTCTTCCCACAGAY
TTTGATCATGCAGTTTGGGTTGGCAGTAGCTGGGCACAGCCTTTTCTTGACCCTCCACCCTCTACCTCCCACAGCATTTCACCAGCTCAGCTGCTAGGAA
TTCTGTTAGGAACCAGAGGCCAAGGTATAAAAGATGGAATAGGATGCTGTTCTCTGACTTCTCTATCCCAGAGACTCTTGAAGCTTCTTTGATTCTTTGT
CTCCCATAGTTTGTATCTACTTGAACAAGAATGGCAGCACAGGCCCCCACTTAGATAAGAAGAAGGTCCAGCAACTCCCTGACCATTTTGGACCAGCCCG
TGCCTCTGTGGTGTTGCAGCAGGCTGTCCAGGCCTGTATCGACTGTGCTTATCACCAGAAAACCGTCTTCAGCTTCCTCAAGCAAGGCCATGGTGGTGAG
GTTATCTCAGGTAAGCACACTTTGGCTCATATTGCCTCCCAGCCAGAAGGACCCACCTTCTCAACTGGTTGATTTCTTGTAAGGCATCCTGGTTCCCACT
TCATACCTGCAGGCTCTGGAAAAATGTGAAGGTATTCCATTCCTCATCTCCAACCCCCCAAGAGCCCCTCTGAGCCTTATGCATACCTCTGCCAAGGAGA
ATACCCACAGATTCTGCTTCASTGAGCCTCTAAACTGATTCCCCCCATCTACCTGATTGACCTGTCCGTACAGAAAGTATAGGAGAAAGAATCCAGAGGG
GGCTATGTTGTGGCAGCAGGAGGGTTTCTCCAGACTGTTGCAGCCTCCCACCTGGTTTCAGGAACCACTGAACTCCTCTATCATTCCTTTGATTCCTTAG
CTTCCTCGTCCTAAACCAGGCCCAGAAGAAGAGAATTAAATCCCAGGGTGGTTGGGAAAAGTCATTTCCTTTTTCTTTACTGCTATGAGAGTTTGATTCA
GTGACACAGTGTTTTTTGCTCTCACAGAATACTCATTTTTTCTCCTGTGTCCTGATTCTGTTTCAGTTTTCCTAAATCCAAAATCCTGTTTAGCCACTAA
ACCTATGAAGACTTGACCTAGAGCCTTTCAGTCTTAACTGATGCTATTCCATATTCCCCTGCCCCTCCTCCCTAGCAGGTTGTAATAACCAGCTTCAGGA
AACCCCGCTGGCATGGAAGACTCCATAAATAACCAGACTGTATTATTTTAGCAAACATTTATTGAACCCTTACTATGTGTCAGGTGATTGCCAGACACTG
GTCAGGAGAAGGGGAGAATAGAAGATGACAGCTTAGGCTCCATACCAGTGAAAAAGAAAGAATATACATAGCTAACTGTGAGAAGTGCTGTAATAGGGAA
ATGTATACAGAGTGGTGTGGGAACCCAGACTAGGGAGTACTTGGCTGTGAGGAGGATGGAGCAGACAGGCAGGGAATTTTTATAGAAGACTAGGAATTGG
CCAGGTGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACCTGAGGTCAGGAGTTGAAGACCAGCCTGGCCAACATGG
CAAAACCCTGTCTCTACTAAAAAAAAATACAAAACATTAGCCAGGCATGGTGGTGCACGCCTGTAGTCCCAGATACTCGGGAGGCTGAGGCAAGAGAATT
GCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACCCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAA
AAAAAAAGACTGGGAAGTGCCTGGGAAATTAAGCCTTATGTCCCTTCTGAGGCCCAGCCTACTCCCTGGTCTCTTCTTTGTTTCTGTGTARYGGTCTGTA
GGAACCTGGCCTTCTTTACTGCCTCTCTTTAGCTGCTCTCCTATACCCTCTCTGGGGTTCTTCTCCTGCCTCAAAACTGGTTCTTGAGAATGACCTATCT
CCCCAAATCCCCATGTCCTTGCTGCCCTCAGAGACAAATACACAGGTCTTTGCTTTTTAAGGTTTATACTGATACATTTTTATAGAAAAAGATGATAGGA
AGTAAACTAACACCAAGCATGAAACAGTTCCAAATGTTGCCAAAATTCTAGTGCCCTTATGTAGATCAGAAATTGTGTACCCATACCATTGCTGGCTATG
GCTATATWCTACTCTTCTGCCAAGCTTCTCTGTTCTTGGGCAGTTCTTGTGAAAATAGCACCCTAAATGAGCAGATTTCCTGGGGGAGGTCCAACCAAGT
GATGGAGCAGAGAGAATTATGTTCACAGTTGTTTTCACAAGTTGAATAAAATCATTCCAGAGCCCAGGGTGCAACAGACCTGGCCTGGCCACTCCCATAT
TTGCAAGCCCTTTACAGTTGGAGGCAAAAATCAAAGCCCTCGAGGGAGGGAGTTAAAGGGAGGGAGGGAGGAAACGTGGGGCACTGATTCCCTTTGTGTA
ACCAGGTAAGCCTGAGACAAGCAGTGGGCTGGACTCGTCCTGCCTAGCGCTGTACTCCACTGCCAGGCTGACATGCTTGGCCCTGTTTACTCACTCCACA
GCCGTGTTTGACCGGGAACAGCATACCCTCAACCTCCCAGCAGTCAACAGCATCACCTACGTCCTCCGCTTCCTGGAGAAACTCTGCCACAACCTTCGTA
GTGACAATCTGTTTGGCAACCAGCCCTTTACACAGACTCACTTGTCACTCACTGCCATAGAGTACAGCCACAGCCACGACAGGTACCTACCAGGTAGGAG
CTGGGATGGGGCCTGGGCTGAGAGTGGGGGACAGGGCTAGCAGCAGCACCTGCAGGGGCCCAGGGTCAGCCTTCAGAACTACTGGCCTGGCACCTACTAT
CTAGAGGTCTGCTTTTCTGTCCCTTACCTTTGCCATATCTGAGACTTCTCAGCCTCCTCTCATCTTTACTTTTTCTTCAGGATTTTGTTTTCTGTCTCTA
GGATCACCCCTATTTCTTCTAGATCCTTATCCCTAGATAAAAGGTGGTTCGCAATTCCCCTTCTGAGTTTCAGACTGCATGTGGAGCCACCAAGAAGTCA
CAGAACGTCTCCCAGTKTGAACCTGGCAGCAAAGGCCTAACACACATCTCCCTTGCCAGCAGGAAGGTTTAGTCTCAGGCTACAGATTGAGAAATTTGCT
CCCTGGTGATTGGCCATCTATTCTTTCCTTTGGCACATGGCCCTAACTTCCAGCACTGCCAGTCTAGCAAGTCAATTCAAGTTCCTGCTATTTCTAACTC
GGCTGGAAAATAACTTTCTTAGTTAACATACCAGACCCACAATGGGAAAGCAGATGCCACGTGGCCAAATCAGTGACTAAGTACTTCCGAGAGAGATTAA
AGATTCAATGGAACTCTGCGTCTCTCATCTGGAACCCAGGACACAGAACAAGGGAGGGAAGAAAAGCTCAGCCTTAAACATAGCAAGGTAGGTCATTACT
GAGAGGGAGGAAAGGCCCTTAAAAAAGCCCTGCAGATTGTGTCCTGAGCAGAGAAATAGGGAGGGGTGCTGCCAGTGTGAGTGCTGTGCTGTCTGTTGAT
GGGAGGGCACAGGTCTGAAAGGTGTCTTTTCCGACCTTCCTCTACACAAACAAGTCTTGTTCCCACACTGCCTTCCCTGGTGTCTTTTCATCATAGTCTT
AACAGAATCACCTCCGATAAAAGCACTGCTTCTAGAGAATGTGCCCAGGGAAGTGACTGTTCCCCCATTCTCCTTCCCCCTTTCCCTCATAGATACTTCT
GTACCCAAATCCGTATTGYTTATGTGACTTGCAAGCAGGTCAAAAAGATACCTGAATTTTAAATACTCTGTGGGGGCCAGACCATCTGATCCCTGCAGCC
ATTTCTRTGATCCCCTGGCTGATCCTTTTCTATGGAGGGAACTTCTCCTCACCTAACCCATGCTAGATTGCTTTCTTTCAGTACCAGAGTCTCTGAGAAA
AGAAAAAGGCATTCTGACTTGCAGTTAGAATGTTGCACTGGGAGTCTGGACTGGGCATGGTAGAGCTGGTCCAGACAAAGGCAAGTTTTAAATACCTCCA
GTTAGGCATTCAGGAACTCTGATCTACATTTCAGACGTGAAAGTTAGGCCTACCTGGGATTCTRAAAGAATGGATGCATGAATGGGGGTTAGCACATCCA
TGAATGTAGCTGCTAGTTTAAAAAGAGATTTCTCAAAGAAATAGGAACTCCGAATTCTTAAATGGAATGCCATCATTAAGAAGTGAGAGAAACATACTGG
TAGCAGCATTCAGAGACTGGTAAGGATGTACCTCATGGGCCTGCAGTCCCAAAAGTGGTTTGGGACCGGGGCATGACCTTTCCTGGGAATTCTGCCCCAA
TTTACATCTCTCTGATTCAGCCACTAGATAAGAGGAAGCAAACTTTAGCCAGACTCTTCTTGCCTCACCAACTAAGAGAAACAAAGACCAAGGTATCACA
TTCTGCCATTAGCTGCTACCTCTCCCTTCCCCRTTTTCAGACAGATTGAGCCCACTTTTTGTGTCCTCCTCTGCTCTTAAGCTGTTTCTCATCGTGGGTG
CTCAGCAACTTGTCTGCTCTCACTCTAGTTTCTATTTGCTTCCCTGAAATTAGCCTTTAACTATGCCCAGACAAGCCAGAGCCTTGCCTAAACTTCTAAT
TCCTCTGTGCTTCTTAGTGTATCCTTTCTGCCTGCTTGCCTGCCTGCCTTCCTGCCTGCTTGCCTGCCTTACTGACCCTTTGCCCCACCTCTGATATTAT
CATTTCCTGTGTTTTTCTGATTACTTACCTAAACCTCTGCCAAAGAGCTCGATCTGTACAAGAGCTGTCTTTTGCTTTGCCCTTTGGATCTGGTATTTAT
GACTCCTGCCCTTCTGCCTGGCTACACGCTTCTGCTAGACATACATAGGTACCACCTCTGTTATCTGGGTGCTTACTGGCCCTCCCCCTTTCCTATATCC
TTGTCTCCACACTACCCTACCACTTAGAGTCCTGGCCCAACTGACCATGCACTTCCGATATAGCAGGTAGTCACCCAAAGCTCAGGGAGATTTCATATCC
CATTAAGCTTTCCTACCTAAGTTGAGACTACTACTTTTTTCTCCAATGTTTTATTTTAAAAATTTCAAACCTACAGAAAAGTTACAAAAATAGAACARTA
AGCAACCATGAACTCTTTGCCTATCTTTACCACTTTTTGCAGTATTTACTTCGTCTGTTTCTCCTAACTATATATACACATATAAATATACATACTTGTT
GAATACCTGTATATTTAAAATGTTTTTCATTTATTTACTGAACCATTTGAGAGTTAACTGCAGATGAGAGATTTTATCCTTAAATACTTTTGTGTTTATC
TCCTAAGAATAAGGAACATAATAGTATTATTATGATTAAGAAATTTAACATAAATAAAAACTAATGAGGCCAGGCGCGGTGGCTCACACCTGTAATCCCA
GCACTTTGAGAGCCTGAGGCGGGTGGATCGTGAGATCAGGAGATCAAGACTATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAA
AAAAAAAAAATTAGCCGGGCGTGGTGGCAGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACTCGGGAGGCGGAGCTTGC
AGTGAGCAGCGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAACTAATGAAATTTAACATTAATAAAATA
CTACTAGGCCAGGTGCRGTGGCTCATGCCTGTAATCCCGGCACTGTGTGATGCCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCTGGGC
CAACATGGTGAAATCCTATCTGTACCAAAAATACAAAAATTAGCTGGGCATGGTGGTGTGCACCTATAATTCCAGCTACTCGGGAGGCTGAGGCAGGAGA
ATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGAGCAACAGAGTGAGACTCCGTCTGAAAAATAATAAT
AATAAATTAATTAATATACTATTAGCTATTATGTAGTTCATATTAGAATTTCCCCTAGTTGTCACACTAATGTCCTTTATAGCTGTTGTTTCCTAATCCR
GGATTCAATAAAGGATCATCCACTGCATTTAATTCTCCTGTCTCTTTAGTTTCCTTTATCTAGAACAGTTATCCACCTTTTTTTTTCTATCTTTCAYGAC
GTGACATTGGCATTTTGAATAATCCAGGCCAGTTGTTTTACTTTAGGTCATCAAATATTTACAAATACTTACTCTGTGCCCRATTCTATACTAGACTCTA
GGGAGACAGAGGTGAGACAGACTCCATCCCTGTGCTCAAAGAGCTGAGACAGGTAGAGATATGTGAACATGTATGTGGTGAAAGCAGAGCACAGAGGTAC
TCTGGCCCAGCAAAGCATGATGAGCAAGGAGTATGGTAAAAGAAGAAGTCAAGGGAGGATTCCTGGGGGAGGCAATGTCAGAGCAGAGTCTCTTCTTCAG
AACTATGCATGTGGCTGGATCAAATAAGAGGCTGGTGAAAACTAAAAGAGGCCCAGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGG
CCAAAAGTGGATCACCTGAGGTCGGGAGTTYGAGACCAGCCTGGCTAACATGGTGAAACCCTGTCTCTACTAATAATACAAAAATTAGCTGGGCGTGGTG
GTGCATGCTTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCACCATTGCAC
TCCAGCCTGGATGACAGAGCGAAACTCCATCTCAAAAAAAAAAAGCCCCTTCTGGCACCCTAAAAAATACTGAGAATGGTGACAAAGATATTGTCCCTAC
CTTCAGTATTAGGGACAATATGAACATGTATGTGGTGAAAGCAGAGCACAGAGGTACTCTGGCCCAGCAAGGCATGATGAGCCAGGAGTATGGTGAAAGA
AGAGGTCAAGGGAGGATTCCTGGGGGAGGTGATGTCAGAGCAGAACTATACATGTGGCTAGATCAAGTAAGTGGCTTGTGAAGACTAAGTAAAAGAGGCC
CGGCCGGGTGCAGTGGCTCAGTATGAGGCAGGAGATTGTTAGGACAGTATTAAGCAGGAGATTGTATTGATTTCACTGGTCCCAGTGACTATTAAGTTTA
GCTGTAATTGAAATCTACCCAGCATTAAACTCTGAGTCTGCTGTTTTGGGATTCTCAGGTTCCTCTCTGTTAGAGGAAGTGGTTCATTGCCCATGACACT
GGTTCCTTGTGCCTTTCTTTCCAGTTGTCATCCTGGTCTTCTGAGTTAGTTATAAAGTGGTTCTCCTGCCAAAATCCCAAGATTCACAGTGGTTAAAGCC
AAATAAAAACTGAAATATCAGGATGTGCTCTGATTCCCACATAGGTTTCCAGCCTAGAATTGTCAGAGTTTTAAGATGACGCAAATGCTCATAATTCACT
GAAGCACACTGTCTGGCACACGTCCGCTTTTCAGGTGGACCTTCGTGGGACCACAGCTTAAACTTCAAGGTGTCAGGAAGACCTCCAAGGCTCTCCTCAT
CCAAAAGAGATGCACCTGATACTGTCCATCTTAATATCCTGTTTCTTTCCTTTGTTATAATTATAATAGTTGCTAATATTTTTAGCTACCTGTATTTTGT
CATCTGCCTCACTATAGTAAATGTTCCATGAGGATAGAGACAATATCTTTTTCACCATTCTCAGTATCCATCATCCTAACTGTCATATGGTAAGTAATTA
ATAGTATTTGTTGAATGAAAGAGCAGTAAACGATGTGGGAAGTGGTTCAGAGAGGGATTTTTTTTTTTTAAACACTGAGAGTGATGTAAACATGCACAAG
GACTATGCTATGTCTTTGGGTCCTGCGTTGGTGTAAGAATTTTCTTAGATCAACATCTCTAGTTCCTTGGTCACTCAGTTCACACCCATAAAGGGGAAAG
CTCGGTTATGAGCATGGAATCTTTGTATCTTGGAAGTGGAAAGTACTCTAGAGATAATCTAGTATCTAGCCCAACACATGAGGGTGGTCATCTGACCTCT
GCTTAAATATTCCTGATGACAGGTTCTCTCTATCTTTGGCAATTGATTTTATTGTTGGGCAGTTCTGATTGCTAAAATGCCCTCCTTTTTTTGTTGTTGT
TTTGTTTTTGTTTTTTGTTTTCTGTTTTTTGTTTTGAGACAGACTTTCACTCTCGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCAGCTCACTGCAAC
CTCCACCTCCCGGGTTCAAGCGATTCTCCTACCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCACCACCACGCCCGGCTAATTTTGTATTTTTAGT
AGAGACGGGGTTTCTCCATGTTGGTCAGGCTGATCTCGAACTCTCAACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATG
AGCCACCATGCCCAGCCAAAATGCCCTCCTTTTAAAGCTGAAATCTGCCTTCTTACAACTCCTGCCCCCATTCTACTCTCTGTATTCCAAAAGAGCAAAT
CTACCTCCAATCTTCTTCTTTTCCCATGACTGCCCTTAGGGTGTTTCTCTCCCTTGACTTTTCTCCGGACGATGCCTTCCCGTTGCCTTTCCCCTTTGCC
ATGATCTTGAGGTTCCTCACCACCACTCTGATCATCCTCCACTGGGAACTCTAATTTTTAAGGTCAGCTTTGCAATGTGATACTCTGAGAAGAGCTGCTT
CTCACTGAAAATACATGCATAAGGGCTAGGTCCTTATCTATTTGTTTACCTCTGCATGTACCATAACTAGTATAGTGGCTGTCACACACACAAAGGGTGC
TCAACAAATGTTTGTTTGATCCCAGTTGCTCCCATATCTGCAGCATATCAATAGTATATTTTACATTGACCCTAGGAAGTTTAAGCATTTTTCCTCTCCA
TTTTATAGATGGGCAAAGGAATCCTGTAAAAAGGCAGTGATCATTGACTAATCAAGTCTTCCAGCCCCAGTCTTTGACACCTGCACCAGTGATTTCAAAG
TTTGTTTTGTTTTACCAGTAGAACTCCTTTTTTTAAAAAAAAAAAAAAAGTTTTTTGGCAAAGGTAAAATTATATATAAAATTTGTATACACTCCAGTGC
ATAAAAATTAAAACCAGAGTAGTTTTGATAGAAGCTTGGATGAGGCCCATAACCCTATTTACTTGGCCTCCCTGTGGAGGTTCCACAGGGCTCTGTAGAA
CACAGTTTGAAAGTATTGCAGTCTTCAGGCCAGGTGTGGTTGCTCACACCTGTGATCCCAACACTTTGGGAGACCGAGGTGGGCAGATCACTTGAAGCCA
GGAGTTCAAGACTAGCCTGGCCAACATGGCAAAATCCCATCTCTGCTAAAAATACAAAAAAAAAAAATCAGTGGGGCATGATGGCATGCACTACTTGGGA
GGCTGAGGCACAAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGAGGAGTGCAGTGAGTTGTGCCACTGTATTCCAGCCTGGGTGATAGAGTGAGACT
CTGTCTCAAAAAAAAAAAAAAGTATTTGCAATCTTCTTTTCTGGCACTGTCCTACCAAAGAGAGCCTCGTCTGATCAGCCTTGTCAGGACTAGGACCCCC
CAGAGCTTTGGAGCATGATGCTTTCAGTACATCTCATTAGGATAAGATTTYATGACTTGCCATCAGTCCAGATTTTCAGACCCTTCAACTCAGAATCTAC
GTCTCAGTGTTCTTAGCATTGCTGAAAGGAAGAGACACTCAATGGTTTGCATCAGCATCTGGTAAGCCTCTGGCTTTGTCATCATAATTATTCTTCACAT
CTGTTAGCTCATGTGAGGCAGACAATACTATMCCCAGTCTTAGCTGAATAAAATGAGAACTAGAAGAGTGAGGTTACCCTGCTGATAAATGCTGAAACTG
GATGAAATATTTTTCTTGTACTATCACAGACAGCTTAGATTTGCCACTTCAACTCCGAATGAAATACAAAATAACAATTTTTCACATTCATAAAGTTCCT
CCCATTCCATTTTCTCATTTGATGTTCTCAGCATGATAGGGGATGATTTTTCCCCATTTTACACATGAAGAAACTGGTGCTTAGAGAAGACAAGCTACTT
GTCTAGAATCACATACCTAGTGAAAGGCAGGAGCCCAGGTATAGAACCCAGGTCTCCTATATCCTGGATTGGATTCCCATTCATGTCTCAAAATGGGACC
CTGTTAGTCATTTTTCCTGGAAAATAGGAGTCAGAACCCTCATCTGCAGAAGGAGGTGGGATATGGCTTAGGTATTATGGACCCTCRGACTTATCTTTTC
AGAACCACTTCTAGGAAAGGGTTTCAACAATTAGCCTCCTTGATATAAAGGTAAATAGCTGTCTAATCCTAGATTTTACTTTGAGCTCATAGTTGCCAAG
CAATTTTAGGTAAGTATTAGAAAGCAGTCCTAAAATCCTAAACCATCTTAACATTGAGGCCTTACTGTGTGCCAAACAATGTGCTCAAATTTAGTGTTCA
TCAGAGGCTCCGAATGAATCCCAAGCATTACCTAAACACTTGATGTCTTTGAAAAATGATAAAGGACAGTGTTATGCTCCAGTACTCAAGACACCCTCCA
CAAGCAGAGAAGCTGTGGCCTAGGCTGAGGAACTGATTTGGTTTGGGTAGAACCCAGTCATGAGGAATCTGCTTCGGGTTCTTTGTACAGTGATTGGGTG
CTGCCGCCTGGTGTTGGGCCATGGACTGGGTATAGAAACATCACGGTAAGATTCCCTTTACAAGGAAAGACTTTCATAGCCATTCTTTTGTGATATTCAC
AAACTCCTTGGAAGAAAGGGGCTTCCCATGTTGTAGATGAGGAGACTAACATTCTCCGAGAAGCACTCTGCTGAGTGGCAGAGCCAGATTATACCCGATT
CTCATCTCCATGCCCAAGCTCACCGCTCATCAACCCCAGCTTCCTTGAAGTGTTTCTGTAGAATAGGGCAAATACAAAATGAGAGATGGAACATAGGAGC
AGATTCTTTACAAACAAGCCTTTAACCAAGCATCAAGAAGCATTTCTGACATGTCCAGATGGTTGAGCAGAGGGTCACCTTTTAAAGTACCTTCATCTAA
GCAATGTGTCCCAGCTCTAGCATGTTGTGTCTAAGGCAGTATCTTCCATCCTAGAATAGCTCCATTTGTTTAAGATGTTCCTTATCAAGAAAAAGCATAG
GGCATCTAGACCAGAAAAAGCCTCAAAGACCATCTAGTCTAAGAGAAAGAATTTCTAAAGAGACCAAAGTCCAGAGAGTGGCACTGAGCTTGACTAAGGT
CACCTCATGACAGCCACAACCATGACTGGTACACAGGCCTCCTGAGTCCCTGCCCAGGGCTTTCTCTGTTGTTGCTGCTTGCTCCACTCAAACAGGTATC
TGGGAGCCAGCACTCTGGCAGTCCTTCTAAGCTCTAACTCTGGTTTTACTGTTTTTCARGTGAAACCTTTGTCCTGGGGAATAGTCTGGCCCGCTCCTTG
GAACCACACTCAGACTCAATGGACTCTGCCTCAAATCCCACCAACCTTGTCAGCACCTCCCAAAGGCACCGGCCCTTGCTTTCATCCTGTGGCCTCCCAC
CAAGCACTGCCTCAGCTGTGCGCAGGCTATGCTCCAGGGGTAAGCTTACCAGAGTCCTGGCCCTCCTTCCCTCCCTCACTCTTTCCTTCACTTCCTTCCT
GAGCTCTGGGAGGCCAGAGAGGACCTAGCTCTGTTGCCCTCTGCCTGGTGGTGGGACTAGGGACTGGACTTACTCTTGTGCCTGGCCTTGCACCTGGGAG
GTAATTGGAGCTCCAGGATTGGCTTGAGCATAACAGAAACTAAGAGCCAAAGACCTAGACCCAAAAGGGACAGGGAAGGATTCATTCACTCATTCATCCA
TTAACTATTTATTTGAACTCCATTTGTGTTTGGCATGGGGAAGCAAAAATCAGTCACTTTTTATCTTCAAGGTATTATGGTGAGAGAGACACKTAAACAG
ATAATTATTAAACAATGTCTTGAGTGCAGTGACAGACATATGCTTTGGGTAATATGAAAATTACAAGAAGGAATACCTAACCCAAGCTTGGTGTTCAAGG
GACACTTTCTTAAGGGAATGATGCCTTGCCTGAGACTGTATAAATGGCCATATCAGGGCTGGTAGAGGAGGGAGAGCTTTCCAGGAAGAGGGGCAACATG
AATAAGGGCAAAAGAATAAGAAATAGCACTGATTATACCAGGAACTGCATGCAATTTGGAATTGCTCAACCATAAAATGTAATACTGAGACTCAAAGAGA
AAAGCCTGGAAAGGTCAAGGCATATATCATAGAAGACCTTAAATGGGCGTTTAATTAGAGGCAAGACAGGTTTTTGTTTTGAATAGATTATTGACTACTG
TGTTGAGCATGGATTTGAGGAGGGACAAAACTAGAGAAACCTAAACAAGTTAGGAGGTTACTCGAGTGGGCCAGATCTGAAGTGACAAAGGCCTGGGTTA
GGGCAGAGACAGAAGGTTTGGAGAAGAGAGAGTGGATTTGAAAACTGTTCACAAGGCAAATTTAATCAGATTTGAGGATTTAATCAGATGTGAGGAAGAA
GGGAGTGAGGACTGTCTCCCAGGTTTCTAGATGTGGCCAGATAGATGGTGGTGCCATCCACTGAGAGAGGGAACCCACCATAGAAGAGAAGGAAGGTGGG
GGAGCCCATGGTCATATAGATGACATCTAACAGGCAGTGGCTATGCAGATCCAATCCTCAGGGAAGAGTGCTGGGCTGAAGTTAAATATTTAGGAGTCAC
CAGTGTATAAACAGCAGTTGAAATTTTAGGGTGAATGATACTCACTTCTCAGAAGTATGTAGTGAATGAAAATAACAGTTAACCAAAGATGAAGTCCTGG
GAACCAACAAAGCTTAGGAGGTGAGAACGGGAAGGTGAGCCCACCAAGGAGAAAAAGGAATATTCAAAGTGAGGGAAAATTTAGAAAATTCAAAGTGAGA
AGAATTTGATATTGTGGTGGCCAGGACTACAGAGAGTATTTGAAGGAGAGCACAGCATAACAAAGTTCTGGCAAAAAAGGGACTGAGAAACATCTATTGG
ATTCCACCATTAGTGGGTAATTGGTGGATCTTAGCGAAAGCAGCCTTGGTGCTGTGGTGGAGGGGTGAAGGCAGATTGTGCTGGGGACTTTGATGAGAAA
AAAAAGGCTGGTGATGAGTAGGACTCTAAGTCAAAGAAGATCTTTCAGAATGGGAGCCCTTCAAGCACGTATGTCAGCAGACAGCTTGCACCTTCCAAAA
AGTAGCAATTAAGAATATAGGAAAGAGGAGAAAGTTAGGCTTCAGGAGTGGTGGGATCAAGGGCATAGGCAGAGGCATCAGTCTTAAGCCAAAAGGAGGC
ACACTTTCTCTGAGAGAGGAGGGAAGATTGAGTGTGTCCATCAGTGAATAGAGAAAGGCCTGGTCAGGGAAGGGGTTAGGAGCGCTGATAGACTGGACTA
GTCTTAAAGAAGATGGGGAAAAATGGACCAAAGAAAAGGGGATGATTTGCAGGAAACCTMAGGGCCCAACTATGCTTGGAGACTAGTTGGCCAGTTTGCA
CAAGCTATGGTTTTCTTCTGTGATTCTTAGCAACCTAGTAGGTATGGGATGAGAAAAGACAGCTTGAGAATTAAGGGCTTTTTTGCTGAGCTAGTAGAGC
AAGAGCTGGGAGGAAGGGGGAGAGTATGTAAAGAAATCAGGAATCAGGAAGAGCAGTTTAAGTCATCAACCACTACATCTGGGAAGGCAGTCAGGGTAGG
AAGGATGCAAGGCTAAATCAGGATAGGGAAAATGGAAAGTTTGACATGCCAAAGAACTTTGTGATATAATGGTTACAGTGGACATACGTCCCAAGAGAGC
TGAAAAGATGGAAGGTTGGGGTCAGAGAATGKGATGCTTAAAATTCTGAAGTGGATTTATTCCAAGGGATTGCAAGAATCAGACAGTGGTGTTGGCAGTA
GGTATTTGGAGTAGAATGGAGGTGAGAGTCACTGGAGGCATGGTAGCTGGATTGCCTCCAAGGATTAGAGCAGGAGTTGGGGTGGAACAGTGGGWAGTGA
GCTAAGTAACAAAAAGTCTTCATTTAYCAAGGGGCAGAAACCCAGATATCTATGAGTAACAGTGAGAAGGAAGAGCCAATGGTTGGGTACATGTTTGGCC
TCTGAAGAACATGAGCTTTCATAGGAGGATGGTCTAGAAGCAGCAGTGGGGAGCCAGGAGAATGTCACTTCCACACCCTGATTCCAGCCTCCTCCAGCCC
AGGGACGCATGAGTGAGGTGTGAAAGTATAGGAAGACTCCATTAGCAGAGCCTGCAATGAAAAAAAGTCACCTCGGCCGGGCACGGTGGCTTATGCCTGT
AATCCCAGCACTTTGGGAGGCCGAGGAGGGTGGATCACGAGGTCAAGAGATCAAGACTATCCTGRTCAACATGGTGAAACCCTGTCTCTATTGAAAATAC
AAAAAATTAGCCGGACGTGGTAGTGGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGACAGGAGAATGGTGTGAACCCAGGAGGCCGAGCTTGCAGTG
AGCCGAGATCACGCCACTGCACTCCAGCCTGGGGGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAGAAAAGAAAAGAAAAAAAGTCAYCTCAGCGGR
GAGAGCTTTCAGGAAGGCTGAATCATGGGAAGAAGCCTGTGGTGCCCCTCCCCCCACCCCAACCCGAGCAGGGCAGCAAAATGGAATCTAAAGGGCTCTC
AAGTAGAGAGGCAGAGCTGAGCGCTGATTCTAGCCTCGGCTCCCTTGCTTTGAGACTTGAGTCAGTCATCTCACCTCTCAGGTCTTCCTCATATGCAGAA
TGTTCCTCATGTGCAAACTGGAGATGGTGACACCAACCTGGTCTTTCCACAGGAGTGTTAAAAGGATCAAATGAAAGAAGGGATATGGAATCATTTTGGA
AACTAAATCGTTCCCCAGGTATGAGGGGAGTTACTGTTATTTTTATCTTCCCCAAGGCCCTGTTTCTGAGAAGAGTACTTTGTGATAGGCTGCCCTCCTG
GCACTGGCCTCAGATGGTACTGTTGTTCCCTAAGCATCTCCAATTTTCCTTGGAAACCCACCATGAGTCTGTCTGCCAGGTCATTGTATAAATCTCTTTA
CAGCCTGATGGTCTTCATAAGGCTATGAAAAGATTCATTCGGCTGGCCCTAGAATTATTTGTCTTAAAGAATTTGGATGTTGAGTCTGTTTCCTCTCTTA
CTGCATTAACCAGGATGATTAGGCATGAGCTTGTTAGTTGGCCTCTTGTGGATGTGCCTCAACTGCCTTAGTCATGCTCAGACTGAGACAACAAGCCCTC
CTTGAAGAGTAAGTGCCAGCCGTACACATTGAGGGGCGATGGGGAGAGCTTTGCCATAGGCTGTCTGCAGAGGGAATAGGAAAAGACAGGGCAAGTCACT
TCCTCTCTCTTTTCACCCCTCCCCTCTGAACTAAAGATGGTGATAACGCCTCCTTCAAGGGCTATTTTAAAGGTCAAATGAGTTGACAATGGTGGGGGTT
CTTTATAGAATATTGTTGATATATCAGGTCACCTTTTTACCACTGCCACCCTGGTAGTTCATGCCACAGTGGTCTCTTGCCTGGCTTATCATAATGGCCT
CCTTTTTTTTTTTTTAATAGTGTCTCTCACTGTGTCACCCAGGCTGGAGTACAGTGGCTCAATCATGGCTCATTGCAACCTCAGCCTCCTGGGCTCAAGC
GATCTTCCTCTCAAGCTACCTTCCAAGTAGTTGGGACTGCAGGCATGCACCACCACACCTAGCTAATTTTTTGCAGAGACAGAGTTTCACCATGTTGCCC
AGGCTGGTCTCAAATTCCTGGGCTCAAGCAGTCTGCCTGCCTCAGCCTCCCAGAGTGCTGGGATTATAGGCATGAGCCACTGTGCCTGGCCTAATAGCCT
CTGTCTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGGAATGCAGTGGCGCAATCTCGGCTCACTGCAACCTCCGCCTCTTGGG
TTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACTACGCCCTGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTT
TCACCATGTTGGCCAGGCTGGCCTTGAACTCCTGACCTCGTGATTTGCCCACCTCGGCCTCCCAAAGTGCTGCGATTACAGGCATGATCCACCATGCCTG
GCCAGTAGCCTCCTTCTTAACTGGTCTCTCCATGTCCCCCTGAAGTCTGTTACCAACATAGACAATGAGAGTGATCCTTCTTATTGCAAGTTGGTTCATG
TAACTCCTGTGCTCAAAACCTACCTATTTCACTCAGAAAAGCCAGTGGTTTTCCATGGTGTACAGGGTCCTCTGTTATCTTCACTGCCACTTCCCTCCTC
TTCCTCAACACACACATCCATGCCTCTTAGTGTTATTTCACACCACTTTCTCCCTCATTCACTTTGTTCTGATACATTGGCCTTCCTGCTAAATCCTACA
TGTGCTATTTGCTCTTCTGCCTCAAGGTCTTTGCTCAAATTTCATCATTTCRGAGACATCTCTCCTAATCACCATATAAATTAGCAACTTCCTACCACCT
GCCCTCATGGAGTTTATATTCTAATGGGAGTAGGCTGACAGACAAGCATATAAATATATAGTAGTATTAAATATGTGGGTCGTCTTAGTCCATTTGGGCT
GCTCTAACAAAGTACCATGAACTGGGTGGCTTATAAACAGTAATTTATTTCTCACAGTCCTGAAGACTGGGAAGTCCAAGATCAAGGCACCAGCAGATTT
GGTGTCTGATGAGGACCCACTTCCTGGTTCATAGACAGCCATCTTCTCACTGTAACCTCGCACAGCCAAAGGGGCAAGGGAGCTCTCTGCACCGTGTTTG
ATGAGAGTACTAATCTCATTCATGAGGGCTCTGCCCAGAGGTCCYACCTCCTAATATATATTATCATGTGGGTAGGGAGGGGTAGGATTTCAACATGGGA
ATGTTGAGGGGATACATATTCAGTCAGTAGCATGTGTGTATTTATATATACTATCATATATATGTGTGTATAATATCATGTATGTATGTATATATGGTAT
CTAGCCTCTGATTAGAGGAATTATCTAAGRTGGTCCAAGAAAGACACATTCTTGCATATACACTCTCTCCCCATATCTTCTCTCTGTTCTCCAGAGCCTC
TCTGCACTTGGTTTCTCTCTTAGCATCACAGTAGACTTTTAAGACAGGGAGAAGTGACTGGCTCACAGAGCCCCCTCCAACTTTCCATCTGTTAACACCT
CCAAAAAGCCACTGGGATTTCTGTGACTCTAAGCAGCCCCTGCTGGCTCTAGCATACCTCTCCCCAGTGCCCAACTATAAGCTTGAAAAGACAATATGCT
AGAATCTCTGCTCCAAAAGGGGCTGGACTAGGCCAGGCCAGACAAAGTGTACTTTGACTTTTTAGGCCCGGGACCCAGAATGAAGGCAAATGGGAGGAGA
TTCTTAGCCTTTGCCGGAGAGAGTTAAATATTAGGCCCTTTTACTTTAACAGGTGTGTGTGTGTGGTGGCGGTGGGGGAGGGGGGTGGTTGTTTGTTTAT
TGTTTGTTTTTGAGACAGGATCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGTATGATCATAGCTCACTGTTAACCTTGAATTCCTGGACTAAAGCCAT
CCTCACACCTCAGCTTCCTGAGTAGCTGGGACTATTGGTGCATACCACCACACCCAGCTGATTTTTTTACTTGTTTTGTAGAGACAGGGTCTCGCAATGT
TGCCCAGGCTGGTCTCAAACTCCCGGCCTCAAGCGATCCTCCTGCCTTGGCCACCCAAAGTGCTGGGATTACAGCGTGAGCCACTGCACTCAGTGTACAG
GTGTGTGTTAGCTCTGCCACTTGATAGTTTGCAACAAGGCACCTCTGGATGCTGTAGATACAGACGTGAGCAAGGCAAGGACCCTGCCTCAATAGAGACA
TAGTCTGGTTGGAGAGAAAGAAAAATATACAAGTAACTATTATCTGTGATCATTATTTATCTAACAGATGTGTTCGAACATCTACTGTGGCAGACCAGGC
ACTCTTTTATGTGTCAGCAACATAGCAAGGAACAAGAGAGAGCTTATATTGTATAGGGAGGAGACAGATAAGAAACATAAAATAAATGAGTCCATGAAAT
TATTTTAGGTAACGATATGTACTGTGTGGGGGTAGGGGGAAACTAGGGTAATTGGATTGTAGAGAACTGTGCGGGGAATTGAGCATTTTTACTAGGAGAT
CAGGGAAGGCCTCTCTGTGGAATCAATATTTGAGGTAAGAACCAAATGTTGAGAAGGAGTCAGGCATGAAAAGATTTGGGAAAAGAACATTCCAGACCCA
GGAAATTGCATGTCAGAGGATAAATGCTTGACTTATTCAAGAAGCAGAAAGAAGGCTAGTGTGTTTGAAGCACGGCGAGTAAGGGGTAAGTTGCGGGCAG
GGGTTGCAGAGTGAAATGAGGCCGAAGGTAGGAAGGCTCAGCTGATGGAGTACCTCATAGATGCTGGCAAGCACAGGAAGGAGTTCAGATTTCATTTCAT
ATGCAAAGGGAGGCCACTGCATTGAGTTTTTAGAAGGGGTTGACATGGTTCAATTACTGCTCTTTTTGTTTTTGTTTTTGTTTTTTTTGAGACAGGGTCT
CGCTCTGTCACCCAGGCTGGACTGCAATGGCGCTCACAGCTCACTGCAGCCTGGAACTCCTGGGATCAAATGATCTCCTGCCTCAGCCTTCTGAGTAGCT
AGGACTGCAAGCATGTGCCACCATACCAGCTAATTTTTAAAAATTTTTTGTAGAGATGGGGTTCTTGCTTTGTTGCCCAAGCTGGTCTTGAACTCCTGGG
CTCAAGCAATCCTCCCATGTCAGCATCCCAAAGTGCTGGGATTATAGGCATGAGCCATGATGCCCATCCTAATTATTGCTTTTTAAAGGTTCCTTTACTG
CTTCATGGAGAATAGAGATTACTAGCATGGTGTGATGGGGGAAAATGGTACAGAATGATCTGTAACCAAGAATATACTAAATACTTTGTGAGACCATTTA
TTTCAGTATTTGACCAGAAAAGTTTCATAAAGGAACTGATCCTTGAAGCCGAGACCTGCTTAGTTAAGTTGAAGTTTGCCCAAAGAAAATTAAAAATTGA
AGGGAGAGAAGGGGACAGATTCCAAGCAGAGAGAATAAAACATGTAAAAGATCTCTGACAGATGATAGTCAAAATACAGAGATCCCAAATCCCACAGGGG
AAACAGGAGGCGTTATATCTGAGTCAAAATTGAGATGAAAGCTCCAAGCAAAACACTAAATTAACATTGAGATTCCTGGCAGCCAAAGCAAAAACTTTTG
TGGCTGGGCGCGGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCACGGCAGGCAGATCACTTGAGGTCAGGAATTCAAGACCAGCCAGGCCAACA
TGGTGAAACCCCGTCTCTACTAATAATACAAAAATTACTGCATGCCTGTAATCCCAACTACTCAGGAGGCTGAGGCAGGACAATTGCTTGAACCTGGGAG
GCAGAAGTTGCAGTGAGCTGAGATGGCGCCACTGCACTCCAGCCCCTGGGTGACAGAGCGAGACTCCATCTCAAAGAAACCAAAAAACCAGCTTCTGCCT
TAGTGTATCAGGCTGTAATGAGGTCACCTATTCTCCAGGCCTTGGAAAAGAATCCAGGGTATTTTTTGCCCACGTGCCAAGGATTTGTCTCTAATCTTAC
CAGGCTACCAGTCTCTCTAGAAATGGTCCCCCAGAGCCAAGGCAAAAACAGCCCCACTCACCAGGCCCCCCAGACACCCAAATAGTCCCCTTACCATGTT
GGTACCACTGTCTCAGGTTTGGGCTGAATCATAGCCTCAATGCAAAATTTCTTCTGGCCATTTCCAAAAATCAGATCTACCCTTAAAAAACAAAGATTTG
GCTTTCCCTTTGTGAAGAAATGCTTCCCTCCCCCAGCTATCTCCAGTTCCTCAGCTCATCGTCTGGCACTACTGTGAGCATCACCTAGAAGGCCACTGAG
ATGTGCCAAGGAGAGTGGTGGGGATTTACAAACCAGTCCCCGCCCTTTATGGTAGGTGCCCTCCTGTCCTGCAGGGTCGGACCGATACCTGGAGAGCCGC
GATGCCTCTCGACTGAGTGGCCGGGACCCCTCCTCATGGACAGTCGAGGATGTGATGCAGTTTGTCCGGGAAGCTGATCCTCAGCTTGGACCCCACGCTG
ACCTGTTTCGCAAACACGTAGGTGCTGCTGCCTGACCTCTCAGTAGGAACMTGTGTGGAGAGCCTCACCTGGTGGGGACAATACGAGATGTTTGGGGAGG
AGGGATGCTTAKAGACAAAGGCTGAGGAGAACAGGTAGGCTTCAGCATCACAGCAGGTGAACTGGACTCCATGTGGCGGGCACTTCCCAGGATGGCCTAT
AATCAGAACCTGGGGTGGTCAGACCAACCAGGACTCTGATGGTGCCTCCCTTCCACTTCTGCCCACCTCCCCACCCCCCAGGAGATCGATGGCAAGGCCC
TGCTGCTGCTGCGCAGTGACATGATGATGAAGTACATGGGCCTGAAGCTGGGGCCTGCACTCAAGCTCTCCTACCACATTGACCGGCTGAAGCAGGGCAA
GTTCTGAACCAGGAGAGGCAGCCTAGACAACCAAGTGGCAGCAGGTGGGGGCATTCTTCTARGAATGAGGGGCATCAGCCCACCCCAGGCACCTCAGTGG
GGTTCCGGGCCACCTCAGGACTCYAAGAGGCTGTGTGGAGCCACCACTCCTAGCCACAGCTGCCATGATAAGTCCTTCCATGAAGGACTGAGGAGGGAGA
GTGGGGGTCCAGGGCTGGTGCTGCTCTTCCCTCAGCTCTGCCGGGGCTCTAAGGTCCCTCTATTTATTTCTCAACCCTGGCTGGCCTCTCACCAGGAGTT
TAGGCTGAATGCCTTCCACGTGATGGAGGAAAAGGCCAACTCTGTCCTGGTCTTGCTGTGGCACCCCATCGCCCCACAGCTCGTACCTTCTCACCAGATT
CCCCTGAATCCAAACTCGTGGTGCAAACCTCTACCTTTTTTACAAAAAGATCTTATTGTTAATTTATTGTTTCTGGCACTTGGGCAAACCCTGTAGTTAA
TACTCCTCCCACACTAGACACTGGGTTTCAGGAGGAGGGAGACTGCCCTGCTTTGGTCCCAGAGAGGCCCTCTGCAGATAGGCGTGGCCCCTCTTCAGAG
GACACTACCCTAGGGCACTTTCTCTTTGAGGTGGAGAGACCCATAAAGCCTTGACCACATCACTCCATATGGGGAGGAGAAGGATCCCTGTCACCTTCTC
CTCTCTTCACGGGGCCCTTTTGCAGCCCTAGGCCTCATCTGTGGGAAGGGAGTCCCTGGCTYATACTGCCCCCACCACAGCTCCTTGCCCTGGCCAGAAC
TGCTGTCGAAGAAAATCAGGCCGGAAGGCCAAGAAGGCGCTAAGGGGGATGGGAGGGCAGGTTTTCCAGGCTGGAGTCGGTTCCACCCACTCGCCTGTCC
ACAGGCTTCCTTGTAAGCAAGTCAGCAGCACAGCTACTCACGCTGCCATCTGGACTTATTTTATGTCAATCTGTTTATAAATAAAAACCAATATAGATAC
CAGTGTCTTTTTAATCAGTTAACAGCCAAATCACTACGCATTCATTGGACCAGTCATTCCCCTTCTCTTGGTCTTAGTTTTCTCATACATAAAACGAGGC
CGAGCACGCTGGCTCATGCCTGTAATCCCAGCACTTTGGGACGCCAAGGTGGGAGGATCTCTTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAACATGGT
GAAACCCCAGCTCTACAAAAAAAAAATACAAAAATTAGCCTGCTGTGGTGGCGCACACCTGTAGTCCCAGCTGCTTGGGGAGCTGAGGTGAGGGGATGGC
TTGAGCCTAGGAGATCGAGGCTGCAGTGAGCCGTGTTCGCACCACTGTACTCCAGCCTAGGTGACAATTTGAGACCCTGTCTCAAATAAATAAAATGGAG
AGCTTGGAAAAAATGATTCCTAAGCGTCCTTCTAATTCCAGCAGTCCCTAAAGAACAGGTGGTCTTCCGAATGTCCACCAGAGCCCCAGCATCACACAGG
CCCCTTGGAAAGTCAGTATGTGAATCCAGTCTCCACCCTCAAAGGGCTTTGCTCTGGTGCAGCTAGACAGTAGTAAGCACAGCAGCTATGCAAAGCCAGA
GCAGGAGGGAGCAATCTTACATCAGCAACTCCTAGGAGCCTCAGTGGCTGGGCATATCCTCACCCATATAGGGTGGGGAAAGATGCAGGCCAGCACAGCC
AGGTCAGGCCTGCACTGTACCCCTTGTGCTGACCAGGGGCCAGGCACACAACTCCAGGGCCACACGTCGTGTTTATAATTGGAGTATAGGGTTTGCAGGA
GGAAGAGAAGGCATAGGGGAGCAGCAGGTCAGTGCAGTATAACCTGATAATAACCACCACCAACACTTATATCACTGTGTGCCACATGAGCTGCTTACAT
GAATTAGAACTATCTCACTTACTCTTCACAACAAACCCATTTTATGGATAAGGAAACTTAAGCTCAGGTCACACAGGCAGGAAGTGCCAAAGCAGACATT
TGACTGCAAGGCTGAGGTTCTAGCCAGCCCACCTATGTGCCAGGAAGCTTTGGGTGGGTCATTTCCTTTCTTTGGGCCCATCTGGCTATGGGGTATTTGC
ATGAGGAGACTTGTGAAGGCCCTTCAAGCTTTCACCAGTGACAAGTTCCAATATCATAACTTACTTAGAATATATTTTCTACTTGGCCACTGTGAGGTTC
TAACCATGGTCACTGTGAAACAGTCAGGGTCAAGGCTGCCAAACAAGTTGAGGCCCTCATTTTCTACCAACTCCTTGACACTGGGGTTTTTTTTTTTTTT
TTGACAGTGTCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCCCTGCAACCTCCGCCTCCCGAGTTCAAGTGATTCTCATGCCTCAGCCT
CCCAAGTAGCTGCGACTACAGGCACACGCCACCATGCCTGGCTAATTTTTTGTAGTTTTAGTAGAGTTTCACCATCTTGGCCAGGCTGGTCTCGAACTCC
TGACCTCAAGTGATCCGCCTGCCTTGGCCTCGCAAAGTGCTGGGATTACAGGCCTGAGCCACCGCACCCGGCCAACACTGGGATCTTGTAGACTGTGCTG
TTCATTCAGGGTATTCCCAATGAGCACCTTGCTGAACCCTAACAACAAACTTCTAGATGTGACCCTCAAGACACAGGGACTAAAGGTGACACTGGCATAT
GTAGGCAGGCCAGACATGCTGCAAAGCTGGGCACCCACCCCACCTTACCCTCTTCGCCAAGAGTATGTAACTTCCTACTGAGCATTGTTGTGAGAACTCA
TTGTGCTGAGTTGTTTTTCTACACTATCCCACTGAAACCTCACAACAGTCCTATAGTATAACTACTGTTTCCCTATCTTACAGGTGCTTAGAGAGGTTAA
TTCCATAGCTGTTAAGGGGTACATGTCCTGCTGCCTGCAACTCTCTCCCGTGGGCCTTTGTCTCAGATCCAGCTACCATTCAGACTCCAGACCCCTGCAG
GCTACACTGGGCATGTCATTAACTTTGAAGACTGTCAAACAGAAATGGCCTGGCTGCAGGGCAGCGGGAAGCAGCCCTCTTCAGGGGAGGAGGGCAGTCC
TCACAGAGCCTCTGGTCATCAGGAGTTATTCTCCTTGGTTGCCCAGGTGACAGCTCAGGTACAAGGGAATGAGACACATCAGGGAGAAGGGGGTTGGTTC
ACTGTGGCTTAGAGGCATCATTCCCCAAAGGAGCTCATATCTCTTTGAACAACTCAATAGGCATAGCTTTCAGGGACCCCATAAGCCACATACCCAATTG
AGTCATTCCACATAGGACGCCCAACCTTATGGCTTTTTAACAAGTGTTTATAGTTCACACAGAAAACTCCAAGTGCTGATAATTTACAATTAGGAATCAT
GCTTACCATAAGTAATGTTGCACTGAAACAGCTAACATACTTTTATCTGGTTTCCAGACAAAAAGAACTAGAAAGGTAACCAAATGTCAAGTTCTGCAGG
AAAGGAGAGGATGATTCACGCTGCCATAACCTCTGGGGTCAAAATTAAATGTTGTTTAAGAAAGAAAAAAACCCCTCAACTTTGGAAATTGTTTCAAAAG
CCAAAAGCCTTCTAATAGTGACCCAGAATCATTAAAAGCACTCGAACGGGCCTCAGACCCAGTGCACACATGCTGCAGTGTTGGAGAGGCCACTCCGTGA
ACCCCAGCAGTCCAGTAGCCCACCAGGTGGAAAGGCACAGGTGCCAGAGGTCTCATGGCATCAGCTTCATGTGCTCACCCTCAATGGGGGGACAGGGAGA
TGACACTGACTTTGTGCTGAGCTCAGGAGGGAAACACCAAACACTTTGGGAGGTAACAGAGATCTAGGCCCCACCTAAGGCCGAATCCATGGGAGTGTGG
GGCATTTTTCTGGAACACTCCGCCCTCCCCAGCCGTGGCTCCACCCTGCCTGCTGGCCGTGGACTGCATTGTCCAGACACTCTTTGTGGGGGTCTTATGG
GACTCCTTAAGATTGATCCCTGAGGTGTAGCAATGGTGGGCCAAATGGACACTGTTCCGGCCCTCACACTGGTGCCACACTCCCTCGTTGGCAAGAGCCT
GAAGGTGAATCATCCCTCCTTCTTTACCACCAAAACAAAAAGTGTGGGAAACCTTGAGAAGAGGGTCCCAACACTTCTCCCCTCAGCAGCCCTCAGCTTT
TTGCAGCCTCTTTACCTAAGTACCCTGAGTCACTGGACATGGTCTTGCCACCACATTCCGTCAGGGCAGAGCCACAGCTTCCAGCCTTCAGCCCAGAGGC
AGTCACAGCCAAGCATCAGAACTGCGGCTCTGTGCCTACAGTGCCAAAGCCACTGCAGGTGCTCACAGAGGCTGGCAGCCCACAGTACCCAGGGCACAGA
CACTAGGCTGGAGCCACTCAAGTCAGAGATACTCTGCAGTAACTGGGGCTGGGCCCTGTCAGAGCCAGGTGGGGATCTACAGGCTGGAGGCAGCACGCTA
GGGGAGGGCTTGAGACCAAGGGAGGCTGGAGTGATGTGGGTCCCAGGACCTGGAAAGCTATGTTTGTAACTCTGCTCCCCAGAGTTCGCTCTTCTTGATC
ATCCTTGTTCTCTCCTGCACCTGGCTGGGCTCATTCCTCTTCCCTATCCCTCTGCCCCTTGACTGGCCTTCCTGGGCAAACAGCAGATTGTGAAGTGGGA
GCTGTGGGGAAGAGGGGATGGCATGCCTGCTGTGGGTTCAGGGATTGTGGCCATGTGGGCCACCCAGTGGACACTGTCCAGATAACATGAAAAGAGGCCA
TCCACAGCGGCTCAGCTCTCTGCCCCTCATCTTTGGGCCCCACCTCACATTCATAAAGAGGCTTAAATTCTAGGGTTTTTTCCTTCAGTTCAAGATGAGG
TTTGTCAGTGAGGTCACAGACATCCAGCAAGAGGGTTAACGGGGCTGCTTATCCCCCCACTGGGAACCCACCACTCCAAGCTGCCTGCAGAGCACCTATA
CTTTCTAATACTATTACCTAATACTAGAGAGCCAGAGACACCGTAAATAACCTTGTTATCTTATATTTATGTATTTAAAAGATGGTTCATAAATGTGTTT
AGTGCTTACCATGAAAGACAATTTTTACCCCCATCTCCAAAAAGAAGTAGAACTGATTCAGCTCACAGAAGGCTGTTAAAGGCGCCAGAGAAATATGTGA
TGCAGTGGCTTAAAGAGACTGCCAGGAAGAGTGGGGAAAGTTGCTGCACTCAAGTCAATTTGGGAAATTTCATGCAGAACAGCCACCCAATAGCAAGGCC
TCTAGGTAAGTAGGGAGAACGCCTCTGGTCATGTTCAGGTGTTTCGTCTGTCAAGGTGCTTCTCCCGGACAGCTATTTCTGCACAGTTCAACACGACTTG
AGTTGGCCATCTCAAAACAGCTATAGCCTCAGTTGCTGTGAGGGCACCTCATGGATGACAGAGGCAAGAAAGGCTTGAGGGAGAGGGGGTGAGGCAGGGG
GAGCTTGGAGCCGTCATTCTCTAACCCTAAGAGCTGTGGACACAAAGCCGAGCCCAACCTGGCTGCTGCCCGGGCGGGCAAGGAGAGGGCACCGAATGCA
CTCTCCCCAGAGCCTCGCACTGCCACCAGTTGAGGCCTGCGCCCCTCTCTTCCCCGCACACCATAGCCTCTTTTCTTGAGTGCTCTACCCAAACTACTGC
CTCACCCCCTAGGAAACAAACATTTGGTAACATCTTCAGAAAGGCTGCTTTCAAGGAAGGCAGCTTCTCTACGCTGTCAAACAGCTTTCTTAGTTGAAGC
ATCTAACTGTGGCACCATCCTTACTGCCCCCAATTGGGGCTTCCAGAAGCAGTGTGGGCAAGCGCTGCCAGCCTTCTGCAGAATGATGAGCACTGGTCAG
TCCTGTGCTGATAAAGACTGTGTGTCACCCACGTCTTGGTTTCTCCAACAGCAGGTAACAACCTCATCTTCCCAAAGAGATAGATAGCTACGCCTGACCT
ATTTTTCAGGGCTCTTCTGGACAGCAGCCTCTGTCTCCAGCACAGAGAAGGGCCTGGCGTCAGGGGGAGCCCTGGAGCCTACCATGTGCCTCCTGCTCCA
TCTTGGGAGCAGCTGGGCCCTGTCAGTACTCAGTAGAGCCTGGGATTGGTGACTGACTAAAGAGGGAGGTGGAGGCTTTAGGCAGCAGCGCTGAAAGAGG
TGGCAAGAGGTGACCTGCATGGGAACTGGGGCCTGAAGAGACATCACTAAGTGGGGAAGTGTGTCCCACAGCCAAGCTGCATGGTGGGTGGGCCGCTGGG
TCTGCTTCCAGTGTGTGGTGGGACCCACAGGGAGCTGAGTTTTCCTGTTTGATTTCCCGCACCCAGCCTGCCTGTGGCTGGCCAAGAAGGCATTGTTGAA
CCTCATGAGATCACAGAGGTAGCTGTGCAGGCCCCGCCCACTTCCTATAACCCTGGTTCTGGCCGTCCCTGTGCCAAGCCTCCAAGTTCCCTGAGAGCTA
CCGGCCAGGGGTCGGGAGGCTATGGGAGCTCAGGGCAGGCACCTCCCATGCTCCCGCGGGAGCCACCAGGACATGAAGGTCATAGGCCTCTCCTCTCCTC
CTCTTCCTGTTTGACCTGAATGCCCCCAGGCCAACTGCCTCAAGGATTCCATTTGAGAAGATGCAGGCTGGGTGTGTGGGGAGCAGTAGAGGGGCTGGTG
TGTGCACATATGTGCACAGCTCAGGACAGAGGCTCCCTGGACTTGGGGCGGGGGCACTAGGGCCCCAACTCTAACCCTCGTTCTGCCCTGTTGACCTCTG
CTCTCTGGACCAAAAATGGAGGACTCAGTCTAGACTAGTTCTTAGGGTCTAGGAGCCACCTTAAGTTATGTTTATATGCAAAGGCCATTTTTCTGAGAGG
CCATAGCTTTCATCAGTGTGCCAAAAAGCGTGAGATCCTCTGCTCTAAAAGCCTCTGCCCCAGCGCTGCCTAGTTTCAGAGCCCCCGATGGCCTCACATG


SNP Information

Context             (SEQ ID NO:56477):
TTAATCAATTATTTTCTTTCACTTCTTTTTCTCTATTCACTCCCGTCATACCTGTTTATTCAGTTTTTGAATCTCTTGACCTGGTTCTGTAATAGTCGTA
Y
CTCTGTTCTTACCCCTATTCTTTGCCTTTTGGTCAACTTTCATCAAGTTTTCCTCAACTATATCTTCCAAACTTTGTATTGAGTTTTTCATTTTTGCCAT
Celera SNP ID:            hCV25931450
SNP Position Genomic:     181259
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,6|T,32)   total(C,9|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:56478):
CCAGCATGGGCAATAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAGAAAAAGAAAGAAAAGAAAAGGCTATCCTATGACCTCACATGTTAAAGATAA
R
GGATTGTGTTTTTATATTTTTGTATTCTGTAATGGTCATGGTAGATGCTTTACGTTACTCCTTGTCTAGTCTCAGCGCAAGTTGAACCAAACTTAAAGAC
Celera SNP ID:            hCV2524922
SNP Position Genomic:     149045
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56479):
CAGGCTAAGTGGAAAGTGCTTTTACAATTCTCTTTTATCACCATACCCGGGTTTTGATAAACTTAGTATTCTCCTTAGTAAAAGTTTTCATCAGATACTT
S
CTCTTTTTTATCTTGTGATAACTTTTCTTCACTCAAATCAATAGGGAAATACAGTATTTGCTGTATAAAAACATAGAAGCCTACCTTAGAGCTGAATTCA
Celera SNP ID:            hCV2524923
SNP Position Genomic:     149382
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,12)      total(G,12|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56480):
GTTGTTGTAAGGAGTTAAGAATTTACATATTAGAACACCTGGCACATATTAAGCATTCAAAAAATGTGAGTTATTTTCTATTTTAATGCTGTTATTTTGT
R
AATAAGGAAATTGAAGCCTGGTAAAAGGTCACTTTCTCAAGTTTTACTTGAATTAGCTACCAAATGATATATGTTGTTTGTATGATAATAAATAAGGTGA
Celera SNP ID:            hCV2524924
SNP Position Genomic:     151212
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56481):
ACTAATAGAGACTGAGTAGGTGAAAAAGAGGGAAGACTGGATAGAACTTATTGGGATTTGTGTCATTTGCTGAAGGATGTTTAGAGTTGATAACCAGTTC
R
AGAGGCAATTAATTCCAGGGGGCTAACATGCAAGGCACCAGCTAAGAAAAAGAATCGTTCCAAAAACTTAAGCACAGAGACTATGTCAAGAAACTGAAAT
Celera SNP ID:            hCV2524925
SNP Position Genomic:     151548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56482):
CAGAGTCTCACTCTGCTCCACAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTGCAACCTCCGCCTTCTGGGTTCTAGCAATTCTCCTGCCTTAGCCA
Y
CTGATTAGCTGGGATTACAGGCACCTGCTACCAAGTCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATGTTGGCCAGGCTGGTCAAAAC
Celera SNP ID:            hCV2524927
SNP Position Genomic:     154780
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56483):
TGCCTTAGCCACCTGATTAGCTGGGATTACAGGCACCTGCTACCAAGTCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATGTTGGCCAG
R
CTGGTCAAAACTTCTGACCTCAGGTGATCTACCAGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACGATGCCTGGCTCTTTTTTTTCTTT
Celera SNP ID:            hCV2524928
SNP Position Genomic:     154869
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56484):
CCAGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACGATGCCTGGCTCTTTTTTTTCTTTTTAAAAAAATTATTTTATCTACCACTAAGAG
R
GAGAAAGAAATTCTTTCTTAGTAAAGAGAGTTGAAAGTTTAAGTGCACCAAAGCAATAGTTTGCTTAGTTTAACAATTCTCAAACTGTACTCCTTGGATC
Celera SNP ID:            hCV2524929
SNP Position Genomic:     155001
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56485):
GGCACCAAAGGTAAAGGCCCATCTACGTGCTCTTGAAATCAGGACCCAGATGATAAGGGAGACTACCCAGGGCTGTCATGATCATATCTTCACCAGTATA
Y
TTCACTAGTATGCAGGGGAGGAGCAAGGGCCAGCAGCTTAGGTAAAAACCCAGGTCTACCAGGGAGCAATTAGAAACAGTTAAGTATTAAGTGTCAAATG
Celera SNP ID:            hCV25746584
SNP Position Genomic:     136368
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,38|T,2)   total(C,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:56486):
TGTATAACTGAAAACCCAAAAGAAGATAAACAAAACAATGGAACAGAATTAACACTTAAATAAGAAAACTTTCCAAAAATTAAAGCAGACCTTTACCTTT
R
TATTTATAGGACCTACTTTTGATTCAGATTGGTCAACTCTAAGACATATTTTAGTAAAACTATTGTATTCTAAGAAAATTTCTTCTAAACTTCTGGCAAA
Celera SNP ID:            hCV11303880
SNP Position Genomic:     111249
SNP Source:               Celera
Population(Allele,Count): no_pop(G,8|A,9)   total(G,8|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56487):
CCTTAACATTTAGGTCAAATGCCAGGAAACCAGCTTCTTGGAACAAAACTACCTGAGCAGAAGTGGCAAGTCCTTTTTTTCTTCTGGCTGGGATGAGAAT
R
CAGGGGGGAGGGAGGGTGATAGAATGAGTCTTTTTCTTGCAGTTGTGATTCCAAAGAATCCCTATCCTGCCTCCGATGTGAATACTGAGAAGCCCAGCAT
Celera SNP ID:            hCV25923443
SNP Position Genomic:     174067
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,2|G,38)   total(A,3|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:56488):
CAAGAAGAAGACAGAAGCAATGACTGAGCACTGAGGTGCTCTACATTTAGAGATTAGGATTTCCTCTTACCCACCTGTCCTTTTCCTTATAGACAGCCTA
R
GTCGTTGCCTAATTTGAATAGAGCCTCAAATTACTGTTTTCATCTTCCTTCTTTTCTCTCTTTCACAAGTTTATGACTCCAACCCTTCTTACCTAGAGAC
Celera SNP ID:            hCV11303889
SNP Position Genomic:     128040
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56489):
TAAAAAATTATTTTTAATTGTAGGTATGTAATTGTTATACATATTTATGGGGTACATGTGATATTTTGATACAGGCATACAGTGTGTAAGGATTAAATCA
R
GGTTATTGGGATATCAATCACCTCAAGCATTTATCTTTTTTTTTTTTGGTTTAGAATCAAAGGAGAATATCCACAATTACCTGAAAAGGTTATTTCAGTA
Celera SNP ID:            hCV2524931
SNP Position Genomic:     158978
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56490):
AGTGTTTTGTAATTATCTTCATATGGATTTTTCATATTTCCTGTTAACTTTGTTCCTGAGTATTTCTGCCTCTGTTACATTATCTAACTGATTTGCTATA
Y
ATGAAGGCTGTTGAGTTTTGTATGTCAGTTACGTATTCTGTTACCTTGCTCAATTCTTTCACTGTTTGAGCTAGCTTCATCACTGATTTTATAGGGATGC
Celera SNP ID:            hCV2524934
SNP Position Genomic:     163252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56491):
TATCTTCATATGGATTTTTCATATTTCCTGTTAACTTTGTTCCTGAGTATTTCTGCCTCTGTTACATTATCTAACTGATTTGCTATACATGAAGGCTGTT
R
AGTTTTGTATGTCAGTTACGTATTCTGTTACCTTGCTCAATTCTTTCACTGTTTGAGCTAGCTTCATCACTGATTTTATAGGGATGCACTGTCCAATAGA
Celera SNP ID:            hCV2524935
SNP Position Genomic:     163265
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56492):
GTTAGAATAAGTTAGAGGGAGAGAGACTGGTTAGTTCACCATTTCAGTGATTAAGACAAGGGATTTTGAGGATGTATATTAAAGTTGAGGCAGTGGTATT
K
GAGTGGAAGAAATGAATTTGATTAGCTAGCTGTGGTGGCACATGCCTGTAGTCCCAACTACTTGGGAGACTGAGGCAGGAGGATTGCTTGAGCCCAGGAG
Celera SNP ID:            hCV9236
SNP Position Genomic:     151907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56493):
CACCTAGACTAGAGTGCAGTGACACCATCATGGTTCAGTGCAGCCATGACTTCCAGGGCTTAAGTAATCCTCCCACCTCAGCCTCCAGAGTCACTGGGAC
Y
ACAGGTGTGCACCACCATGCCCAGCTAATTTTTTAAAAAATTTTTGTAGAGACTGGGTCATGCTATGTTGCAAGGCTGGTTTCAAACTCCTGGCCTCAAG
Celera SNP ID:            hCV2524938
SNP Position Genomic:     167862
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56494):
TTATTAGTTTTCTTTCGGTTAGTGTTTATAGAGTACATTATTTTCATCTGTTTGCTTTTCTCTTCCTGTGTTTTTATATTTTGAGTGTCTTTGTATCTCA
R
GGCCCTCTTATAAACAAATATAATTGAGTTCTGGGGGTTTTTTTTGGTCTGGTTTGTTCATTTATTCCTACTGACTGTTTTACTTAATCCACCCTTCTTT
Celera SNP ID:            hCV2524939
SNP Position Genomic:     170168
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56495):
ACCCCGTCTCTAGAAAAAATTTAAAAATTAGCTAAGAGTGGTGGCACGTGCCTGTAGTCGCAGCTACTTGGGAGACCGAGGTGGAAGAATCGCTTAAGCC
S
AGGAGATTGAGGCTGCAGGGAGCTGTGTTTGCACCATTGCACACCAGCCTGGGTGACAGAGCAAGACCCTGATTCTAGAAATAAATAAATAAAATGCATT
Celera SNP ID:            hCV26064200
SNP Position Genomic:     134023
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,8)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56496):
TGCCTAGAAAAAAAGTTAGTAAAAAAGCATGAGATATTTATAGAGGAAATTTTTAAATGTATGTTGAAGAAATCTGCATTAAAGAAATCTTGGCCAGGCA
Y
GGTGGCTCATGCCTGTAATCCCAGCACTTTTTGGGAGGCCAAGGCATACGGATCACTTGAGGTCAGGAGTTCGAGACCAGCTTGGGCAACATGGTAAAAC
Celera SNP ID:            hCV26064201
SNP Position Genomic:     134584
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56497):
GGCAACATGGTAAAACCCCATCTCTACAAAAAATAACAAAAATTAGCAGAGTGTGGTGGTGTGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGTAGG
M
GGATCACTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCCAGGATTACACCACTGCACTCCAGCCTGGGTGACAGAACCAGACCCTTTCTCCAAAAAAGAA
Celera SNP ID:            hCV26064202
SNP Position Genomic:     134769
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56498):
TAGACAACCAAGTGGCAGCAGGTGGGGGCATTCTTCTAGGAATGAGGGGCATCAGCCCACCCCAGGCACCTCAGTGGGGTTCCGGGCCACCTCAGGACTC
Y
AAGAGGCTGTGTGGAGCCACCACTCCTAGCCACAGCTGCCATGATAAGTCCTTCCATGAAGGACTGAGGAGGGAGAGTGGGGGTCCAGGGCTGGTGCTGC
Celera SNP ID:            hCV25987907
SNP Position Genomic:     221524
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,29|T,7)   total(C,63|T,11)
SNP Type:                 UTR 3


Context             (SEQ ID NO:56499):
GTAATCCCAGCTACTTGGGAGGCTGAGGTAGGAGGATCACTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCCAGGATTACACCACTGCACTCCAGCCTGG
K
TGACAGAACCAGACCCTTTCTCCAAAAAAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTAT
Celera SNP ID:            hCV26064203
SNP Position Genomic:     134837
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,5)   total(G,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56500):
GGTGTTCCTTTTTTTGTTATTGTAAACAATGCCAAGGCTTTTTACATAAAACCTTTTTCTTGTATTTTGGAGTATTTTTCCTTAGCATAGAATCTCGGAA
R
TGGATTACTTTATTAAAAACTGTTAATACATACTGCCAAATTGGAAAAGTATTTAATCTTATACTTTCTTTCCACATGACTATTTTTCTCTCCCTCTGCA
Celera SNP ID:            hCV2524869
SNP Position Genomic:     88025
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56501):
GAGGTAGGAGGATCACTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCCAGGATTACACCACTGCACTCCAGCCTGGGTGACAGAACCAGACCCTTTCTCC
A
AAAAAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATAT
Celera SNP ID:            hCV26064204
SNP Position Genomic:     134861
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56502):
AGGTAGGAGGATCACTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCCAGGATTACACCACTGCACTCCAGCCTGGGTGACAGAACCAGACCCTTTCTCCA
A
AAAAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATA
Celera SNP ID:            hCV26064205
SNP Position Genomic:     134862
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56503):
GGTAGGAGGATCACTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCCAGGATTACACCACTGCACTCCAGCCTGGGTGACAGAACCAGACCCTTTCTCCAA
A
AAAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATAA
Celera SNP ID:            hCV26064206
SNP Position Genomic:     134863
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56504):
GGAGGATCACTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCCAGGATTACACCACTGCACTCCAGCCTGGGTGACAGAACCAGACCCTTTCTCCAAAAAA
G
AAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATAATAAA
Celera SNP ID:            hCV26064207
SNP Position Genomic:     134867
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,6)   total(G,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56505):
AGGATCACTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCCAGGATTACACCACTGCACTCCAGCCTGGGTGACAGAACCAGACCCTTTCTCCAAAAAAGA
A
AGAGAGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATAATAAAGG
Celera SNP ID:            hCV26064208
SNP Position Genomic:     134869
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56506):
GGATCACTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCCAGGATTACACCACTGCACTCCAGCCTGGGTGACAGAACCAGACCCTTTCTCCAAAAAAGAA
A
GAGAGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATAATAAAGGT
Celera SNP ID:            hCV26064209
SNP Position Genomic:     134870
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56507):
TTCCCTTTAAAAAGGACTATACTGGCTGGGTGCAGTGGGTCACGCTTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACGGGGTCAGGAGTT
Y
GAGACCAGCCTGACCAATATGGTGAAACCCTGTCTGTACTAAAAATACAAAAATGAGCTGGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTTGGGAG
Celera SNP ID:            hCV11303966
SNP Position Genomic:     148774
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56508):
TTATTTCTGAAGGATATTTTCACTGGGTGTATAATTCTATCTTTGGTAGTCTGTTTCTTTTAGCCCTTTAAGGATACTATTCTACTTCTTCTTGCTTACA
M
AGTTTTATTAAAGAGCCTGCTATCACTCTTATTGTTGCTCCGGTAATGCTGTTTTTCTCTCTGACTGCTTTTTAAAATATATCTTTGTATTTCCTCCCTG
Celera SNP ID:            hCV2524940
SNP Position Genomic:     170954
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56509):
CCCCTTATAGTTTTAAAATATCTTTAAGAGGAGATCAGCCATGTATTTGGGGTATACTACCTACTTCTAGTGGAACCTTATCTCCTAAAACCACAAGATT
R
TAGGAGATTTTATTCTGCCTTTTAAAAGCTCTCAGTCTAGCTTTGAAGTTCCAATGTGCTGGCCCAAAATTCAGCAGATACCCAATGAGAAAAACTGGCC
Celera SNP ID:            hCV2524941
SNP Position Genomic:     172098
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,10)   total(G,5|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56510):
GTATACTACCTACTTCTAGTGGAACCTTATCTCCTAAAACCACAAGATTATAGGAGATTTTATTCTGCCTTTTAAAAGCTCTCAGTCTAGCTTTGAAGTT
Y
CAATGTGCTGGCCCAAAATTCAGCAGATACCCAATGAGAAAAACTGGCCACATGCAGGGGCTCCTTAAGTTTCCAGTTTGTCGCAGCAGCTCTCATTTCT
Celera SNP ID:            hCV2524942
SNP Position Genomic:     172149
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,10)   total(C,10|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56511):
GTCCCTCCCCTGCTCAAAACCCTCTAGTGGCTTCCCTTTATATTTAGAATAAGTTCAGTTCATTTTCACAGGCTGCAGTCCTACACAATTTTACTGCTAC
K
CACTCTCTAACCTAATTTCTCTCTACCCTCCCCTTTGCTCACTCAGTTACAGCTCTACTGACCTCCTTTCCAATTTCTCAAACACACTAACATGTTCCTG
Celera SNP ID:            hCV2524943
SNP Position Genomic:     172729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56512):
TAAAACTCAACATTTTGAATTTTTTGTAAAATGTCTTATCTTGAACTCCTCAAGTTTTTGAGGACTTAGAACCTCCTCACGTAATTCATTTCATATTTAG
A
CATATTTATTGGTCAAAAATTTGCTCTTTTTGTAATTTCTGTTAGTCATCCCTCTGACTTTCTGGCCATATGAAACAGGGTTAGCCTATTTTTCACTTAC
Celera SNP ID:            hCV2524870
SNP Position Genomic:     90588
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,14)   total(A,1|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56513):
CATTGTGCCTTTACCTCTTTCGGGAGCTCTGTGTAAATGTCATCTCCTCAAAGAGGACTTCCCTTAAAATTTTGTTTCCTTACCCTGCATTAATTTTAAT
Y
ACAGCACTTAGCACTACCTGACATTATACCGTATATTGTGTTATTTTTTTAATTTTCTTTCTCTCTCACTAGGAGGTAAGCTCCATGAGAGTGGAAGTCT
Celera SNP ID:            hCV2524944
SNP Position Genomic:     172979
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56514):
GCTCTTTTTGTAATTTCTGTTAGTCATCCCTCTGACTTTCTGGCCATATGAAACAGGGTTAGCCTATTTTTCACTTACTGGCCCTGATTTTTAGAGAGAA
R
CTCTAGGGACTGCCTTCTCATTGCCACTCTGCCGCTTTCATAGTTGAATCTCACACCTAGATTATTAAAACAGCTTCCTAACTAGTCTTTTTTGCCTCCA
Celera SNP ID:            hCV2524871
SNP Position Genomic:     90711
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56515):
GTGTAAATGTCATCTCCTCAAAGAGGACTTCCCTTAAAATTTTGTTTCCTTACCCTGCATTAATTTTAATCACAGCACTTAGCACTACCTGACATTATAC
Y
GTATATTGTGTTATTTTTTTAATTTTCTTTCTCTCTCACTAGGAGGTAAGCTCCATGAGAGTGGAAGTCTGGTTTGTTCACAGTTCTATCCCCAGAGCTT
Celera SNP ID:            hCV2524945
SNP Position Genomic:     173009
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56516):
CTCATTGCCACTCTGCCGCTTTCATAGTTGAATCTCACACCTAGATTATTAAAACAGCTTCCTAACTAGTCTTTTTTGCCTCCAGCCCTATCACCCTCCT
R
CCCATTCTTTACACTACAGCCAGAATGACTTCACCCCAAACGCTTGAAGACTTCCTCTTCTCAGTAATACAGTATATTTGGCTCGCTAATGACTGAACAC
Celera SNP ID:            hCV2524872
SNP Position Genomic:     90828
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56517):
CGGCCAGGCGCCGTGGCTCACGCCTGTAATCCCAGCACTTAATGGGAGGCCGAGGCGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACA
Y
GATGAAACCCCATCTCTACTAAAAATACAAAAAATTAACCAGGCGTGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGAC
Celera SNP ID:            hCV2524946
SNP Position Genomic:     174497
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56518):
CATGCTAATTGTTCATGTTCCTTCACCTGGTCCTCAGGTGATGTGGTTTTGGGTCTGTTTACCATCACTAGGTAATCATTTAAACTCAGATTTGCTCTCT
S
TCAAAGTGTAGTTTTCAGAACTATATCCCAGGTATTATTTTATTAGTCTAAGAAAGAATAGGAATATTACTTGTGTGCTTCTTTTCATTCACTCAGAAAC
Celera SNP ID:            hCV2524873
SNP Position Genomic:     91503
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,8)      total(G,4|C,8) ;JBIC-allele(G,451|C,812)   total(G,451|C,812)
SNP Type:                 INTRON


Context             (SEQ ID NO:56519):
CGATGAAACCCCATCTCTACTAAAAATACAAAAAATTAACCAGGCGTGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGA
Y
GTGAACCCGGGAGGTGGAGCTTGCAGTGAGCGGAGATCGTGCCACTGCACTGCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAGAAAAGGCAGGGT
Celera SNP ID:            hCV2524947
SNP Position Genomic:     174597
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34|T,4)   total(C,71|T,5)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,8)   total(C,8|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56520):
TGGGTCTGTTTACCATCACTAGGTAATCATTTAAACTCAGATTTGCTCTCTCTCAAAGTGTAGTTTTCAGAACTATATCCCAGGTATTATTTTATTAGTC
Y
AAGAAAGAATAGGAATATTACTTGTGTGCTTCTTTTCATTCACTCAGAAACTCATATTGAGCCTCTATTAAATTTCAGGCACTGTGTTAAACAGTAAAGA
Celera SNP ID:            hCV2524874
SNP Position Genomic:     91552
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56521):
CTGAGTTCCAGTATGGAGATGATACCCAGTTCTCCCTGGGCATTCTATCCCAATCTCATTAATTCCTCCATCCCAATCTCATTAATTCCTCCCTAGGGTT
M
GTTTGTTTGTCTGTTGGTTTGTTTTGCTTGTTTATTAGCTTCCACTGACTTCAGTCCTTGTACAATATAAGCTCCTCAAGGTCAAGAACCTAATCTTTTT
Celera SNP ID:            hCV2524948
SNP Position Genomic:     175697
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56522):
GATCACTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCCAGGATTACACCACTGCACTCCAGCCTGGGTGACAGAACCAGACCCTTTCTCCAAAAAAGAAA
R
AGAGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATAATAAAGGTT
Celera SNP ID:            hCV26064210
SNP Position Genomic:     134871
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8|G,8)   total(G,8|A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56523):
CCCTCTGGACCAGCTGACGTATTTGTTTGTTTGTTTGTTTGTTTGTTTTTGCTCCATGTGGAGCAAAATATTGTTTGTTTGTTTGTTTGTTTGTTTTTGC
Y
CCATGTGGAGCAAAACATTGTTTGTTTGTTTGTTGTAAGCTCCATGTGGGCAAACTTTGGCTGTATTGTATTTTGCTATATATCACCAGTGCCTAGAACC
Celera SNP ID:            hCV2524877
SNP Position Genomic:     94100
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56524):
TCACTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCCAGGATTACACCACTGCACTCCAGCCTGGGTGACAGAACCAGACCCTTTCTCCAAAAAAGAAAGA
G
AGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATAATAAAGGTTAT
Celera SNP ID:            hCV26064211
SNP Position Genomic:     134873
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56525):
ACACTTTTATAAGCATTATTTACTAAATGAGATGGCTTTTTCTCATCTGTAAAGTCTTAGCTTAGACATTTCCTCTGAAGAGTATCTGTCCATGACTTTA
M
TAAGATAGCTCCCAGTCTCTATCACATCACCTCATTTTATTCCCTTCAAGTTCTTTTCACTTACTGCCTTGTTTATTTATTGTTTATGTGTTAGTTGTGT
Celera SNP ID:            hCV2524878
SNP Position Genomic:     94516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56526):
ACTTGACCCTGGGAGGCAGAGGTTGCAGTGAGCCAGGATTACACCACTGCACTCCAGCCTGGGTGACAGAACCAGACCCTTTCTCCAAAAAAGAAAGAGA
G
AGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATAATAAAGGTTATTT
Celera SNP ID:            hCV26064212
SNP Position Genomic:     134875
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,7)   total(G,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56527):
TCCCAGGTCCTACTTTGCTCTAAATTAACAGTTCTTTGTCACTTTGCACCCCAGAGCAACACAGCGGTGGCTAGGATGGGGGTGCAGCGGGGGTAGGTGA
S
AGAGAGCCAGTTTTTAGAGTGAGGATTCAACTATAATCTCACTCATCTGGCTTCCCCTCCCCTCAAATCATCTCGCCCCTTGTCTCTAGACAGCCTTTTC
Celera SNP ID:            hCV2524879
SNP Position Genomic:     97313
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;JBIC-allele(C,365|G,1132)   total(G,1132|C,365)
SNP Type:                 INTRON


Context             (SEQ ID NO:56528):
AAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATAAT
A
AAGGTTATTTCCACCCAAATTTATCTATAAATTCGTTGTAATTCCAGTCAAAATCCTAATAGGGTTTATATATGGAACTCGAAAAAACTGATTGAAATTT
Celera SNP ID:            hCV26064213
SNP Position Genomic:     134965
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56529):
AGAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATAATA
A
AGGTTATTTCCACCCAAATTTATCTATAAATTCGTTGTAATTCCAGTCAAAATCCTAATAGGGTTTATATATGGAACTCGAAAAAACTGATTGAAATTTA
Celera SNP ID:            hCV26064214
SNP Position Genomic:     134966
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56530):
AAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAAGGAAATCTTAACAAGTGGAAAAGACTATCATGTTTATGGATGGGAAGGCTTGATAGTATATAATAAAG
K
TTATTTCCACCCAAATTTATCTATAAATTCGTTGTAATTCCAGTCAAAATCCTAATAGGGTTTATATATGGAACTCGAAAAAACTGATTGAAATTTATAT
Celera SNP ID:            hCV26064215
SNP Position Genomic:     134969
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56531):
AGGCTTGATAGTATATAATAAAGGTTATTTCCACCCAAATTTATCTATAAATTCGTTGTAATTCCAGTCAAAATCCTAATAGGGTTTATATATGGAACTC
R
AAAAAACTGATTGAAATTTATATGAAAGACAGAGAATGAATAGCAAAAACAATATTGAAGAATGACAAAGTAGGGGGACTTTTCCTATCAGATATCCATT
Celera SNP ID:            hCV26064216
SNP Position Genomic:     135046
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56532):
CTACTCAGGAGGCTGAGGGAGGAGAATTGCTTGAACCTGAGAGGCAGAGGTTGCAGTGAGCCAAGATCGCACCAATACACTGCAGCCTGGGCGACAGAGC
R
AGACTCTGTCTCAAACAAAAACAAGCAGTGCAAGATGATGTTGGAGAAGTGGGCAGGTGCCAAATCATGTAGGACCTTGTAAACCAGAGTGGGAATATTG
Celera SNP ID:            hCV26064217
SNP Position Genomic:     138190
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,14)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56533):
AAGCTTTGTATTTTAATGTCTGCTAAGGCTAATTCCCTCAGCTCTCACATTCTGTTGTTTTCTTAGTTATTGTTATGGTTTCTGCTTTGTGTGTTTGGGG
T
TTTTTTTTTTTTTTTGGTTTTGTTTTGTTTTTTGAAACAAGGGTCTCATTATATTGCTCAGGCTGGTCTCCAACTCCTGAGCTCAAACGATCAGCTTCCC
Celera SNP ID:            hCV11303972
SNP Position Genomic:     162657
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,11)   total(-,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56534):
AGAAACATATGTTCACACAAAAACACATAATGAACATTCATGGCAGCATTATTTATAGTAGCCAAAAAGATAAAACAACCCAAATGTTCATCATCTGATA
M
ATGGATAAATAAAATGTGGTATAGCTAGAGGACAAAATACTAATTGGCAATAAAAAAGGAATAAAGTACTAATACATGCTACAGTATAGATGCATCTTAA
Celera SNP ID:            hCV26064218
SNP Position Genomic:     138875
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,9)   total(A,9|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56535):
TGTGTTTGGGGTTTTTTTTTTTTTTTTGGTTTTGTTTTGTTTTTTGAAACAAGGGTCTCATTATATTGCTCAGGCTGGTCTCCAACTCCTGAGCTCAAAC
R
ATCAGCTTCCCAAGCAGGTGGTACTACAGGTATGCACTGCTGCACCCAGCTAGTTTGTTGTTGTTGCTGTTGTTTAGAGACAGCATCTTGCTATGTTGCA
Celera SNP ID:            hCV11303973
SNP Position Genomic:     162746
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56536):
TGAGGTCAGGAGTTCGAGACCAGCCTGGCCAAGTTGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGTGCACCTGTAATC
M
CAGCTACTAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTAGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGAGTGACAG
Celera SNP ID:            hCV26064219
SNP Position Genomic:     143551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56537):
ATTTTAAAAAGAAAGGCTGGGCGTGGTGGCTCATGCTTGTAATCCCAACACTTTGGGAGGCCAAGGCGGGCAGATCACAAGGTCAGGAGATCGAGACCAT
Y
CTGGCCAATGTGGTGAAACCCTATCTCTACTAAAAATACAGAAATTAGCTGGGCGTGGCGGTGGGTACCTGTAATCCCAACTACTCAGGAGGCTGAGGCA
Celera SNP ID:            hCV11303977
SNP Position Genomic:     163509
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56538):
TCACAGACTGAATGTGATGTGCCACATTTATCTTTTACCTACTTTTCATTTTTTTAACTGTAGAGAACTTTTTAAAAGGTATTTTGATTTGTGTCAGTTA
Y
ACACATTCATAGTTTAAAGGAATGAAGGGTCTACACAACTTATTACAAAAACAAAACAAACATACCTCGTATCCCCCTGTCAATTACTATTCCCCAGGGG
Celera SNP ID:            hCV2524954
SNP Position Genomic:     180057
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;JBIC-allele(C,190|T,1277)   total(C,190|T,1277)
SNP Type:                 INTRON


Context             (SEQ ID NO:56539):
ATGAAACACAAAGAGAAAAAGGAATTTAGAACCTGTGAACTATGGGTTAACTTCAGGTGACCAAATAGACGTGTAATTGGAGTCCCAGAGGAGAGAAGTG
R
TGGGGGATAGAAAAAATATTTGAAGAAATAATGGCTAAAATTTTTCCAAAATTAAAAATAACAGCTGGGCATGGTGTCTCAGGCCTGTAATCCCAGCAAT
Celera SNP ID:            hCV2524881
SNP Position Genomic:     100403
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,10)      total(G,10|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56540):
CCAGTACCCTAAAATTTCACTTTGGATATATTTTCACCTACCATACTGGACACTTTTATTTTATAAAATTTTTAAAAATGAGCTGAGCATGGTGGCTCAC
R
CCTGTAATCCCAGCACTTTAGGAGGCCAAGACGGACGGATTACTTGAGGCCAGGAATTCAAGACCAGCCTGATCAACATGGCAAAACCCCTTCTCTACCA
Celera SNP ID:            hCV2524955
SNP Position Genomic:     180879
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56541):
AAGTATACTATTACAAGGTTCTCATGCATGAAGTAGTACTATCTTACTTGATAAGGTAGACTGTGGTAAGTTAAAGATGTTTGTACTATAAACTCTAATG
Y
AACCACTAGAATAATGGGAAAAAATAGCAAAATGTTTTATTTAAACCCAGCTATATCAATAATCAAATGTAAATGGTTTAAATGTTAAAAAGCGGAAATT
Celera SNP ID:            hCV2524882
SNP Position Genomic:     101478
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,13)   total(C,13|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56542):
ATGGAGTCTTGCTCTGTCGCCCAGGCTGAAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTTCACCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCC
W
TCCGAGTACCTGGGACCACAGGCGCCCGCCACCACACCCGACTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTCAGCCAGGATGGTCTCG
Celera SNP ID:            hCV2524956
SNP Position Genomic:     182223
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56543):
TATACTATTACAAGGTTCTCATGCATGAAGTAGTACTATCTTACTTGATAAGGTAGACTGTGGTAAGTTAAAGATGTTTGTACTATAAACTCTAATGCAA
M
CACTAGAATAATGGGAAAAAATAGCAAAATGTTTTATTTAAACCCAGCTATATCAATAATCAAATGTAAATGGTTTAAATGTTAAAAAGCGGAAATTGGC
Celera SNP ID:            hCV2524883
SNP Position Genomic:     101481
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,12)   total(A,3|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56544):
ACTATGTTGCCCAGGTCTCAAACTCCTGGGCTCATGCAGTCTTCCCACCTTGATCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACCCCCAGCTG
R
TTCAATTTGTTGCTGTCTACAAAATAAATTCTGGGATTTTGATTAGGATTGCAGTCAATCTCTACATTGACTTGGAAAGAACTGACATCCTGACAAAATT
Celera SNP ID:            hCV2524957
SNP Position Genomic:     184364
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56545):
ATTTTCAAAAGACTGACCATATTAAATAGTGGCAAAGATGTAGAACAAATGGAACTTTCATATGCTGCTGGTGAAAATGCAGAATGGTTCAACTACTTTG
S
GTGGGGTGGGGGAGGAACTAACAAATACGAAAAATTTATATAAAGAAAACCTTAGAAGATGCCTGACCAAAATTTTGATTCATTAAAAAAATAGAGTGGA
Celera SNP ID:            hCV2524884
SNP Position Genomic:     102571
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56546):
AACATCCTATTATGGGAAAGCCTAGGGTACCCAGCTTATCCCTTATTTTTCATATAGTCTCCTAAAAAGGCCCACCCAAAATGAAACAAGCTGCACAATT
Y
GGACATCTCCATCTCTACATTAGCTTATGATATCCAGGCTTCTTCCAAATTCTTTCTAACAAGAAATCACACCCTTTGTTCTTCTTGGCCAGTGCCCATT
Celera SNP ID:            hCV2524885
SNP Position Genomic:     106839
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56547):
GCGGTTTCACTGTGTTGGCCAGGGTGGTCTCGACCTCCTGCCCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCA
Y
GCCTGGCCTGTTTCCTCTATTGATTTCCTGTTTTTGATTTCATTGATTTCTGCTCTATAATCTTTACGATTTTTTATTTTCTGCTTACTTTGGATTTAAT
Celera SNP ID:            hCV2524959
SNP Position Genomic:     186359
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56548):
GCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTACAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAA
M
AAAAAAAAAGGCTGTTTAATGTTACGGTTTTTTAATTTTGGAAACCTAATGGCCAAAAGTAAGAGTGGCACAGGGCACTAAGATTTGTTTCCAGAGCCCA
Celera SNP ID:            hCV26064220
SNP Position Genomic:     144591
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56549):
CTATACTTCCTCTCAGGAAGCTGTGCTAAATTGAGAATTAGAGAGCATGTATCATGGGCTCCCTAGGTACTTATTTAACGTTTTCCCCCATTAAAAAAAA
W
TTTGTAATGTAAAATTTCAAACATATAAAAAGGTAGAGAAAAATAGCATAGTGAATGCTCATGTAACCTTCATTGTTGAAGTCAATATAATTTTATCTAT
Celera SNP ID:            hCV2524886
SNP Position Genomic:     107425
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|A,4)      total(A,4|T,4) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56550):
TGAAGCAGAAGAATAACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCATGGGCAATAGAGTGAGACTCCGTCTC
A
AAAAAAAAAAAAAAAGAAAAAGAAAGAAAAGAAAAGGCTATCCTATGACCTCACATGTTAAAGATAAGGGATTGTGTTTTTATATTTTTGTATTCTGTAA
Celera SNP ID:            hCV26064221
SNP Position Genomic:     148977
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56551):
AACACTTCCCCTTTCATCGATCTTCCAATAAGATTTTCTTCACTTTCCCTTAAACCTTCACTGACAGCCTCATTAAGAACCTTTAGGCCGGGCGCGGTGG
R
TCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTA
Celera SNP ID:            hCV27987614
SNP Position Genomic:     195433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56552):
GAAGCAGAAGAATAACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCATGGGCAATAGAGTGAGACTCCGTCTCA
A
AAAAAAAAAAAAAAGAAAAAGAAAGAAAAGAAAAGGCTATCCTATGACCTCACATGTTAAAGATAAGGGATTGTGTTTTTATATTTTTGTATTCTGTAAT
Celera SNP ID:            hCV26064222
SNP Position Genomic:     148978
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56553):
GAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCATGGGCAATAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAGAA
A
AAGAAAGAAAAGAAAAGGCTATCCTATGACCTCACATGTTAAAGATAAGGGATTGTGTTTTTATATTTTTGTATTCTGTAATGGTCATGGTAGATGCTTT
Celera SNP ID:            hCV26064223
SNP Position Genomic:     148996
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56554):
TAAAACTGTAAATTTGATATATATTTTACCACAAAAAAAATTACCAGGCATGCAAACAAGCAAGAGAAAAACTCACCCATTATAATTAGAATCCAGAAAT
M
ACACAGATTATAGAATTAATAGACAAGGACATTAAAGCAGTTGTTTATATTGCATATGTTCAAGAAGATAGAGGAAATCATGAGCGTCATGAGTAGAGAA
Celera SNP ID:            hCV2524889
SNP Position Genomic:     120429
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56555):
AACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCATGGGCAATAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAGAAA
A
AGAAAGAAAAGAAAAGGCTATCCTATGACCTCACATGTTAAAGATAAGGGATTGTGTTTTTATATTTTTGTATTCTGTAATGGTCATGGTAGATGCTTTA
Celera SNP ID:            hCV26064224
SNP Position Genomic:     148997
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56556):
ACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCATGGGCAATAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAGAAAA
A
GAAAGAAAAGAAAAGGCTATCCTATGACCTCACATGTTAAAGATAAGGGATTGTGTTTTTATATTTTTGTATTCTGTAATGGTCATGGTAGATGCTTTAC
Celera SNP ID:            hCV26064225
SNP Position Genomic:     148998
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56557):
CCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCATGGGCAATAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAGAAAAA
G
AAAGAAAAGAAAAGGCTATCCTATGACCTCACATGTTAAAGATAAGGGATTGTGTTTTTATATTTTTGTATTCTGTAATGGTCATGGTAGATGCTTTACG
Celera SNP ID:            hCV26064226
SNP Position Genomic:     148999
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56558):
CCAGTGAAGCAAGTAGCATTGGGATTATTATTCCCATTTTACTAATAAGAAAACTGAGATTCAGTTAAGTTACAGCCTGAAGTCTTTTTGTTTTTTGGGG
T
TTTTTTTTTTTTTTTTGACCAAGTCTCACTCTGTCGCCTAGGTTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTG
Celera SNP ID:            hCV26064153
SNP Position Genomic:     62082
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56559):
GATGGGTTGGAGGTATTGTTTTATATAGGATGATGAGGGAAAGCTTCACTGAAAGGTATCATTTGAGCAGAGATATGGCTGTCTAGGAAAAAGAATTTTT
W
TTTTTTTTTTGAGGCAGAGTCTCACTCTGCTCCACAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTGCAACCTCCGCCTTCTGGGTTCTAGCAATTC
Celera SNP ID:            hCV26064227
SNP Position Genomic:     154665
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56560):
CAGTGAAGCAAGTAGCATTGGGATTATTATTCCCATTTTACTAATAAGAAAACTGAGATTCAGTTAAGTTACAGCCTGAAGTCTTTTTGTTTTTTGGGGT
T
TTTTTTTTTTTTTTTGACCAAGTCTCACTCTGTCGCCTAGGTTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGA
Celera SNP ID:            hCV26064154
SNP Position Genomic:     62083
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56561):
CATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCCCCTCCCCCCACCCCATGACAGCCCCGTGTGTGATGTTCCTCACCCTGTGTCCAAGTGATCT
Y
ATTGTTGAATTCCCATCTATGAGTGAGAACATGCGGTGTTTAGTTTTCTGTCCTTGCGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCC
Celera SNP ID:            hCV26064228
SNP Position Genomic:     156240
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56562):
GATAGTTTGTTGAGGATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGACTGCATAGTATTCCATGGTGTATA
Y
GTGCCACATTTTCTTAATCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATACGTGTGCAT
Celera SNP ID:            hCV26064155
SNP Position Genomic:     67566
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56563):
TCCAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCA
Y
GATTTATAATCCTTTGGGTATATGCCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACA
Celera SNP ID:            hCV26064156
SNP Position Genomic:     67684
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56564):
GTTAGGGGTGTTCCTTCTGAGTGATCCCTTCCACCTTCCAGAATCCTCCCAGCATTTCAGTAATGGTGCCACCCTTAAAATATGTATGAAATTTCTCTGA
T
TTTTTTTTTTTAACAATCATTGATGGTGACAAACTTTGGTACAATGAAAGTAAGGTTGACTTATTGCAAAATCTGGTGGATGAAATGGGTGGGTAATCAT
Celera SNP ID:            hCV11303984
SNP Position Genomic:     179331
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56565):
CCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCGCCACACTGTCTTCCACAATGGTTGAACTAGTTTACAGTCCC
R
CCAGTAGTGTAAAAGCATTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCGCCATTCTAACTGGTGTGAGATGGTAT
Celera SNP ID:            hCV26064229
SNP Position Genomic:     156641
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56566):
TTCCTGACTTTTTAATGATTGCTATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTTTCTGATGGCCAGTGATGATGAGCATTT
Y
TTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTGGCCCACTTTTTGATGGGGTTGTGTGTTTTTTTCTTGTAAA
Celera SNP ID:            hCV26064157
SNP Position Genomic:     67963
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56567):
TTACCAGTTTTGTGACTTCAGGCAAATTACTTAATCTTTCTAAGCCTATTTCCTCATCTTTAAAATGGGAGTAAAACCTACTTTGCAGGTTATAATGAAC
M
CAGGAGATAATGGACGTAGTCTGGCATGGTACAGGCAAATGGAAGACAGTGATAGCTGCTGTTGTTTTTGGTTTTGTCGCTAATATGAATGATAATAACA
Celera SNP ID:            hCV25923547
SNP Position Genomic:     90085
SNP Source:               Applera
Population(Allele,Count): african american(A,32)   caucasian(A,28|C,2)   total(A,60|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:56568):
TGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTATTGGTGTATAAGAATGCTT
K
TGATTTTTGCACATCGATTTTCTATCCTGAGACTTTGCTGAAGTTGCCTATCAGCTTAACGATGGGGTTTTCTAGATATACAATCATGTCCTCTGCAAAC
Celera SNP ID:            hCV26064158
SNP Position Genomic:     69027
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56569):
ATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTACTATTTTGAGATATGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAG
K
GTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGATAATCATATGGTTTTTGTCGTTGGTTCTGTTTATATGCTGGATTACATTTATTGATTT
Celera SNP ID:            hCV26064159
SNP Position Genomic:     69392
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56570):
TCTCCTGCCTCAGCCTCCTAAGTAGCTGGGACTACAGACATGCACCACCACGCCCAGCTAATTTTTTATATTTTTAGTTGAGATGCGGTTTCACTGTGTT
R
GCCAGGGTGGTCTCGACCTCCTGCCCTCATGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCTGGCCTGTTTCCT
Celera SNP ID:            hCV11303989
SNP Position Genomic:     186275
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56571):
TTTCTTCTGGCTGGGATGAGAATGCAGGGGGGAGGGAGGGTGATAGAATGAGTCTTTTTCTTGCAGTTGTGATTCCAAAGAATCCCTATCCTGCCTCCGA
Y
GTGAATACTGAGAAGCCCAGCATCCACAGCAGCACCAAAACTGTCTTGGAACATCAACCAGGGCAGAGGGGGCGTAAACCAGGAAAGAAGCGGGGCCGGA
Celera SNP ID:            hCV25930769
SNP Position Genomic:     174144
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56572):
CCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCTGGCCTGTTTCCTCTATTGATTTCCTGTTTTTGATTTCATTGATTTCTGCTCTATAATCTTTA
Y
GATTTTTTATTTTCTGCTTACTTTGGATTTAATTTGCTCTTCTTTTTCTAGTTTCCTAAGATGGAAGCTCAGATTGCTGCTTTTAGATCTTCTTTTCTAA
Celera SNP ID:            hCV2524960
SNP Position Genomic:     186426
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56573):
ACCCAGCTAATTTTTTGTATTTTTTGTAGAAACAGGGTCTCACTGTGTTGCCCAGGCTGGTCTTTAAATTTTGGGCTGAAGTGATCCTCCTGCGTCAGTC
Y
CCCAAAATGCTGCGATTACAGGTGAAAGCCACTGTGCCCGGCCTGCAGCTCCACTCTTAAATCCAGTTTCATCAGCTGGCCAGTTTAAAGAGATGGACCC
Celera SNP ID:            hCV2524890
SNP Position Genomic:     126572
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56574):
GGTGCCACCTATTAAACTGAGATGGGATAACTGGAGGAAAGAACAAGTTTGGAGGGAATAGTAGAATCAAGAGTACTGTCTTAAACTTATTCATTTTACG
W
TTTCTTAGACATCCAAGTAGAGTTATAGACTGAGGTAGTTGGATATATGAACATGAAACCCTGAGCAGAGGTTTTGGCTAGATATATAAATTGACAGTCA
Celera SNP ID:            hCV2524891
SNP Position Genomic:     127813
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,7)   total(A,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56575):
GCATTTACTAGCATGACCCTAGACAAGCTGCTTCTCTGAGTTTTCATTTTTTATCATCTGTAGAGTAGGGATAATAATAGTGCCTGCCCATGTTATTTCA
R
ATATTGAGTAAGAAATGGCATATAAAATGTTTAATACATGGTAAGCATTCAATATATATTAACTATTATGATAATATTGTAATGATTTCCAAAGCTGAGA
Celera SNP ID:            hCV2524892
SNP Position Genomic:     129196
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56576):
GAGAACAGAGGGCTCTAGTATATTTCAAAATGGTTCCTTTTCCCCTCTCCCTGCCAAAAGCATGAGGGTATTTTTCTCTTATATTTACTGTGAGAATCCG
R
TTGAGCTCCTGGAGGCAAAACTCACAAAAGTTTCCCCCTCCTCCCCAGTGACTGGGACTCCCTGGAGTTTTAATCTCAAACTTCTTCACACTGAGCCTCT
Celera SNP ID:            hCV2524966
SNP Position Genomic:     192722
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56577):
GCCGCAGTTAGATATGGGCATTTAAGCACTTCAGAGCTTTCATCCCCCAGGAGCAATACATAGAAGGGACTTAAGAAATGAAGCTCCCTGTTTGCCCCCA
R
AAGGAGTTTATGACACACTATTCCAGCAGCTTCTTGTTTGTTTGGCTTCTAACTAACTTACATTGGGGGAGTTTAGGGGCAGTCAAATATTAACCTGCCA
Celera SNP ID:            hCV11740020
SNP Position Genomic:     79499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56578):
TCCCCCTCCTCCCCAGTGACTGGGACTCCCTGGAGTTTTAATCTCAAACTTCTTCACACTGAGCCTCTGACAAGTCATCAAGTACAGTTTAGGTTTTCCT
K
CCCTAGCACTAGTTCCAGAGACTTCGGCTTATTCACCTGTCTGTCTCTTCAAATTTGAGGGCTAATAGTTTGCCCTGAGACCTTACTTCTCTGACAGATG
Celera SNP ID:            hCV2524967
SNP Position Genomic:     192855
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56579):
CCTACTCTACGGTATTGTGGGGGTATTGATGGAATGTGGTACATCCTAAGCTCGAGGGGACCATCAAAAAAGAGACAGCAGTCTGAATAAACACAGAGAT
W
AGAGAGCACCTTAAAATTTTTGGCTGGATGGATTGGTGAGATCCTTCTCCTACATGAGGCCAGTCTGACAAGTCTGGGAGAGGTTATATTCTTATGTAAT
Celera SNP ID:            hCV11740021
SNP Position Genomic:     80761
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56580):
GGAATCCAACTTACAAAGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAACGAAATAAAAGGACACAAACAAATGGAAGAACATTCCA
M
GCTCACGGATAGGATGAATCAATATCGTGAAAATGGCCATACTGCCCAAAGTAATTTATAGGTTCAGTGCTATCCCCATCAAGCTACCACTGACTTTCTT
Celera SNP ID:            hCV11740022
SNP Position Genomic:     116379
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(C,-|A,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56581):
AAATGAATACAGCTCATCTCTGCGCCACATGGCATCAGTTGGGGTACCTCAATTGGGGCTTATGATAATTCCATTCACATAACTAGCAGAACTCATGTTG
Y
CTGTTGGTTCTCGCCAAAGGATAACTTGGGCTTTGCCATACCATGGTGGCTGCGTTCCTAGAGCAAGTTTCTCAAGAGATAGGAAGTGAAAGCTACCATT
Celera SNP ID:            hCV2524969
SNP Position Genomic:     193311
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56582):
TTCCTGACTTTTTAATGATCGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTT
Y
TTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGGCTGTTCATATCCTTTGCCCACTTTTTGATGGGGTTATTTGATTTTTTCTTGTAAA
Celera SNP ID:            hCV26064230
SNP Position Genomic:     156795
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56583):
ATTCCCTTTGACTGTATCCTCTACAGGAGCAGAGTTTCAGGGTCCCAGAACAATTAGGGTCAAGAGTATCATTTTGCCGTAGTTGCCTGATGAGTGTTTT
M
TTTCTTTTCCTCTCCAATCTACCCTGCTCTTCACCTCCCACATAGCAACATAGTAGCAGAAAGTTCACTACAGTCAGATGAGAACAAGGCTAAGGTTTAT
Celera SNP ID:            hCV11740023
SNP Position Genomic:     152951
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,73|C,1410)   total(A,73|C,1410)no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56584):
TAGGAGCTTGCTCAAGATCACGTGGCTAGTAAGCGGCAGAACAGGGATCCAAAACCTGTATTTGTTATTGCTTCTCAAGAAGTGAGGCAGTGAGTCTATC
M
GTTGAATTTTCTAATGGGGTAAAAGTTACTGTAAAGGGTATTGAATTAGGTTTGCCTATGCTGCTAGTTAAGTCTCAACACTAAGAGCATCCTGCTTCTG
Celera SNP ID:            hCV2524896
SNP Position Genomic:     133220
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56585):
GGATTCGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCCATGTTCATCAGGGATATTGGTCTAAAAGTGTCTTTTTTTGTTGTGTCTCTCAACTAACA
T
TTTTTTTTTTTTTTTTGACACGGAGTCTCGCTCTTTCGCCCAGGCCGGAGTGCAGTGGTGCTATCTTGGCTCACAGCAAGCTCCGCCTCCCAGGTTCACA
Celera SNP ID:            hCV26064231
SNP Position Genomic:     158504
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56586):
TCCCAGAACAATTAGGGTCAAGAGTATCATTTTGCCGTAGTTGCCTGATGAGTGTTTTCTTTCTTTTCCTCTCCAATCTACCCTGCTCTTCACCTCCCAC
R
TAGCAACATAGTAGCAGAAAGTTCACTACAGTCAGATGAGAACAAGGCTAAGGTTTATTGAGCGTTCACTATGTAGCCAGTGCCGGACTGATCTCTTCAA
Celera SNP ID:            hCV11740024
SNP Position Genomic:     152993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56587):
AAATGTGAAGGTATTCCATTCCTCATCTCCAACCCCCCAAGAGCCCCTCTGAGCCTTATGCATACCTCTGCCAAGGAGAATACCCACAGATTCTGCTTCA
S
TGAGCCTCTAAACTGATTCCCCCCATCTACCTGATTGACCTGTCCGTACAGAAAGTATAGGAGAAAGAATCCAGAGGGGGCTATGTTGTGGCAGCAGGAG
Celera SNP ID:            hCV11740025
SNP Position Genomic:     201122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56588):
CTTTTTTTGTTGTGTCTCTCAACTAACATTTTTTTTTTTTTTTTTGACACGGAGTCTCGCTCTTTCGCCCAGGCCGGAGTGCAGTGGTGCTATCTTGGCT
Y
ACAGCAAGCTCCGCCTCCCAGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGCGACTACAGGCACCCGCCACTGCGCCCAGCTAATTTTTTG
Celera SNP ID:            hCV26064232
SNP Position Genomic:     158576
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56589):
AGGGGAATTGTCTAGATTTTCTTTTCAGTGCACAGAAGACAAAGTGCAAACTCTGTGTCTTGGCCTTTGGTCTGGGCCACTCTTCCAGTCTTCCCACAGA
Y
TTTGATCATGCAGTTTGGGTTGGCAGTAGCTGGGCACAGCCTTTTCTTGACCCTCCACCCTCTACCTCCCACAGCATTTCACCAGCTCAGCTGCTAGGAA
Celera SNP ID:            hCV25926891
SNP Position Genomic:     200500
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,32|T,2)   total(C,65|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:56590):
TGCTACCATTGCATAAATAAATACACACACACACACACACACACACACACCAGAAACTATATATATTGTGTATAGATTATTATATATAGTATATTGTACA
R
TAATATGTAATACTGTATATGTATTGCTTAATAAACTTGTACACATGTATTTTCATATTTGGAGGTGTATCTTCAGGGTAAATGACCAGAAGCGGTATTC
Celera SNP ID:            hCV26064233
SNP Position Genomic:     161672
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56591):
ATTTCAGAGCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCGAGGAATTTATCCATTTCTTCTAGAT
W
TCCTAGTTTATTTGCGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTGTTTCTGCAGGATTGGTGGTGATATCCCCTTTATCATTTTTTATTGCA
Celera SNP ID:            hCV26064160
SNP Position Genomic:     69951
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56592):
CTGTTTGAGCTAGCTTCATCACTGATTTTATAGGGATGCACTGTCCAATAGAAATGTAATTTGAGCTATGTACATAATTAAAATTTTTGTAGTACATTTT
W
AAAAGAAAGGCTGGGCGTGGTGGCTCATGCTTGTAATCCCAACACTTTGGGAGGCCAAGGCGGGCAGATCACAAGGTCAGGAGATCGAGACCATCCTGGC
Celera SNP ID:            hCV26064234
SNP Position Genomic:     163414
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56593):
TTCAGAGCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCGAGGAATTTATCCATTTCTTCTAGATAT
Y
CTAGTTTATTTGCGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTGTTTCTGCAGGATTGGTGGTGATATCCCCTTTATCATTTTTTATTGCATC
Celera SNP ID:            hCV26064161
SNP Position Genomic:     69953
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56594):
CTCTTACTATTTTGAGATATGTCCCATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGAGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTAT
Y
GAGATAATCATGTGGTTTTTGTCGATGGTTCTGTTTATATGCTGGATTACATTTATTGATTTGTGTATATTGAACCAGCCTTGCATCCCAGGGATGAAGC
Celera SNP ID:            hCV26064235
SNP Position Genomic:     166672
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56595):
CCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTC
R
CATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTTGTTGTGTCTCTGCCCGGCTTTGGTATCAGGATGATGCTGTTTGGCATGTTTTTGGC
Celera SNP ID:            hCV26064236
SNP Position Genomic:     166847
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56596):
TGTTGATCTTTTCAAAAAACCAGCTCCTGGATTCATTGATTTTTTGGAAGGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATGTTAGTTATTT
Y
TTGCCTTCTGCTAACTTTTGAATGTGTTTGCTCTTGCTTTCTCTAGTTCTTTTAATTTTGGATCTTTCCTGCTTTCTCTTGTGAGCATTTAGTGCTGTAA
Celera SNP ID:            hCV26064163
SNP Position Genomic:     70206
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56597):
GAGTGCAATGGTGCGATCTCAGCTCACTGCAACCTCCACCTCCCACCTTCAAGCAATTCTCCTGCCTCAGCTTCCCAAGCAGCTGGGATTACAGGCACAC
R
CCACCACACCTGGCTAATTTTTTCTTTTTCTTTTTTTTTTTTTTTTCTGAGATGGAGTCTCTCTCTGTCCCCCAGGCTGGAGTGCAGTGGCCCGATCTCA
Celera SNP ID:            hCV11303991
SNP Position Genomic:     186773
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56598):
TGCTCTAATATATTTTTTCATATTTTCTCACTGTACTTTATTTTGGATGTTTTCTATTTTTTCATCAAGTTTATTAATCCTTTCTATTGGCTCTTGTCTG
Y
CCTTAAACCCATGCAATGAGTTATTCCTAATATTGTATTTTTTAGTTATAAGATGTCCATTTAGTTTTTTATATAGATATTTCTGTGGGTACTATCTACC
Celera SNP ID:            hCV26064237
SNP Position Genomic:     171426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56599):
GGGTGGGGAGTTCTGCAGATGTCTGTTAGGTCTGCTTGGTGCAGAGCTGAGCTCAATTCCTGGATATCCTTGTTAACTTTCTGTCTTGTTGATCTGTCTA
M
TGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTCTCTTTGTAGGTCTCTAAGGACTTGCTTTATGAATCTGGGTGCTCCT
Celera SNP ID:            hCV26064164
SNP Position Genomic:     70745
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56600):
GTGTCTTTTACTTGGAGCATTTAGCCCATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCT
Y
GTTAGTTGATGCAGTTTCTTCCTAGCCTCGATGGTCTTTACAGTTTGGCATGTTTTTGCAGTGGCTGGTACCAGTTGTTCCTTTCCGTGTTTAGTGCTTC
Celera SNP ID:            hCV26064165
SNP Position Genomic:     71223
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56601):
CAATGTAGCAAGACTTCTCTACTAAAAATAAAAATTAAAAAATTAATCAAGCATGGTGGTGCATGCCTGTAGCCCCAAGCTACTCAGGAGGCTGAGGCAG
R
AGGATCACTTGAGCCTGGGAGATTGAGGCTGCAGTGAGTTACGATAGTACCACTGCACTCTAACCTAGGTGACAGAGTGAGACCCTGTCTCAAAAAAAGA
Celera SNP ID:            hCV11303993
SNP Position Genomic:     188806
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56602):
TTTTTCTCCTGTGGTACCTTATATCTCAGTCTCTTGGGAAATATTCAGAATATGCAAGATGGGTAGGAGGGTAGGTGGGTGGGTACATGGATGGAAGGAT
D
GATGGATGGATGGATGGATGGATGGATGGATGGATGGATGATTTTAGTGATGATGTTACCAATCTCAGTTGTCTCTTATTTTTGGCTTCGAATTCTCAGT
Celera SNP ID:            hCV26064238
SNP Position Genomic:     175906
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|A,1|-,7)   total(G,1|A,1|-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56603):
ATCAAGCATGGTGGTGCATGCCTGTAGCCCCAAGCTACTCAGGAGGCTGAGGCAGGAGGATCACTTGAGCCTGGGAGATTGAGGCTGCAGTGAGTTACGA
Y
AGTACCACTGCACTCTAACCTAGGTGACAGAGTGAGACCCTGTCTCAAAAAAAGAAAGAAATTTAAAAAAAGGTCATAATTAATTTTGTCTTTACTTTTT
Celera SNP ID:            hCV11303994
SNP Position Genomic:     188851
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56604):
CAATCATTGTTTACTGCAGCCTTGACCTCCTGGGCTCAAGCGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTATAGGCATGTGCCACTATGCCCA
R
CTAATTTTTAAAAAAAACTTTTGTAGACATGGGGCCTTGCTATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCCCAAGCAATTTTCCCACCTAGACCTCC
Celera SNP ID:            hCV26064239
SNP Position Genomic:     176844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56605):
CTGAATTTGAATGTTGGCCTGCCTTGCTAATTGGGGAAGTTCTCCTGGATAATATCCTGAAGAGTGTTTTCCAACTTGGTTCCATTCTCCCCATCACTTT
Y
AGGTACACCAATCAGACGTAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTGTGTTCGTTTCTTTTTATTCTTTTTTCTCTAAACTTCTCT
Celera SNP ID:            hCV26064166
SNP Position Genomic:     71784
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56606):
TGTTTGCCTGGGTATCAGCAGCGGAGGCTGCAGAACAGCGGATATTGGTGAACAGCAAATGTTGCTGCCTGATCGTTCCTCTGGAAGTTTTGTCTCAGAG
S
GCCGTGTGAGGTGTCAGTCTGCCCCTACTGGGGGGTGCCTCCCAGTTAGGCTACTTGGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGTCCATTCTCAG
Celera SNP ID:            hCV26064167
SNP Position Genomic:     72530
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56607):
CCAGTGTCCAAGGGCAGGAGAAGATGGATGTCCTAGCTCAAGAAACGAGATAATTCACTCTTCCTTCACCTTTTTGTGCTATTTGGACCCTCAGTGGATT
G
GATAATGCCCACACACATTGGTGAGGGCAATCTTTACTCAGTCTACTGATTCAAATGTTAATCTCTTCAATAAATACCACCACAGATACACTCAGAAATA
Celera SNP ID:            hCV26064168
SNP Position Genomic:     74354
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56608):
AAGCATGGTGGTGCATGCCTGTAGCCCCAAGCTACTCAGGAGGCTGAGGCAGGAGGATCACTTGAGCCTGGGAGATTGAGGCTGCAGTGAGTTACGATAG
Y
ACCACTGCACTCTAACCTAGGTGACAGAGTGAGACCCTGTCTCAAAAAAAGAAAGAAATTTAAAAAAAGGTCATAATTAATTTTGTCTTTACTTTTTTCT
Celera SNP ID:            hCV11303995
SNP Position Genomic:     188854
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56609):
CAGTGTCCAAGGGCAGGAGAAGATGGATGTCCTAGCTCAAGAAACGAGATAATTCACTCTTCCTTCACCTTTTTGTGCTATTTGGACCCTCAGTGGATTG
R
ATAATGCCCACACACATTGGTGAGGGCAATCTTTACTCAGTCTACTGATTCAAATGTTAATCTCTTCAATAAATACCACCACAGATACACTCAGAAATAA
Celera SNP ID:            hCV26064169
SNP Position Genomic:     74355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56610):
CTTCAATTCCTTTCTCTTTTTCTTTTCCTTCTAGTATCACCATTATATATAGATTACATCTGTTATAGTTATCCCACAGTTCTTGAATATTCTGTTATGG
T
TTTTTTTTTTCAGTCTTTTTTTTCTTTGCTTTTAATTTTGGGAGTTTCTTTCCCTTGAGATATATTTGTAAAGGAAAATTAGAAATTCTCTGGACCCGCC
Celera SNP ID:            hCV11303998
SNP Position Genomic:     189541
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56611):
CTACTTAATCTCTAATGCTCTAATATATTTTTTCATATTTTCTCACTGTACTTTATTTTGGATGTTTTCTATTTTTTCATCAAGTTTATTAATCCTTTCT
R
TTGGCTCTTGTCTGCCCTTAAACCCATGCAATGAGTTATTCCTAATATTGTATTTTTTAGTTATAAGATGTCCATTTAGTTTTTTATATAGATATTTCTG
Celera SNP ID:            hCV7783545
SNP Position Genomic:     171411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,11)      total(G,2|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56612):
TACTTTATTTTGGATGTTTTCTATTTTTTCATCAAGTTTATTAATCCTTTCTATTGGCTCTTGTCTGCCCTTAAACCCATGCAATGAGTTATTCCTAATA
Y
TGTATTTTTTAGTTATAAGATGTCCATTTAGTTTTTTATATAGATATTTCTGTGGGTACTATCTACCTTTTCTTATATTTTGTTCATCTTTTTTACATTT
Celera SNP ID:            hCV7783546
SNP Position Genomic:     171459
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56613):
CTGCCAAGTGATACTCCATTAAATGAATATACACTCACGTATTACTTAATCACGGGGATATGATCAGAGAAATGCATCATTAGCCAGTATCCTCATTTTG
K
GAATACCATAGTACATCGATCTTCAACCTTTTTGGCACCAAGGACTGGTTTTATGGAAGACAGGTGTTCCATGGACCAGTGGCATGGGGGATGGTTTCAG
Celera SNP ID:            hCV2524971
SNP Position Genomic:     197055
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56614):
CCTTGAACTCCTGGGCTCAAGCAGTTCTCCCACCTCAGCCTCCCAAGTAGCTGGGAACACAGGCACATGCCACCACACCTAGCAAATTTTCTGTAGAGAT
R
TGGTCTCACTGTATTGCCCAGGCTGGTCTCAAACTCCTGGCTTTAAGTGATCCTTCCGCCTCAGCCTCACAAAGTGCTGTGATTACAGATGTGAGCCACT
Celera SNP ID:            hCV2524972
SNP Position Genomic:     199703
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56615):
AAAAAAAAAAAAAAAAAGACTGGGAAGTGCCTGGGAAATTAAGCCTTATGTCCCTTCTGAGGCCCAGCCTACTCCCTGGTCTCTTCTTTGTTTCTGTGTA
R
TGGTCTGTAGGAACCTGGCCTTCTTTACTGCCTCTCTTTAGCTGCTCTCCTATACCCTCTCTGGGGTTCTTCTCCTGCCTCAAAACTGGTTCTTGAGAAT
Celera SNP ID:            hCV2524975
SNP Position Genomic:     202291
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56616):
AAAAAAAAAAAAAAAAGACTGGGAAGTGCCTGGGAAATTAAGCCTTATGTCCCTTCTGAGGCCCAGCCTACTCCCTGGTCTCTTCTTTGTTTCTGTGTAA
Y
GGTCTGTAGGAACCTGGCCTTCTTTACTGCCTCTCTTTAGCTGCTCTCCTATACCCTCTCTGGGGTTCTTCTCCTGCCTCAAAACTGGTTCTTGAGAATG
Celera SNP ID:            hCV2524976
SNP Position Genomic:     202292
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56617):
TTCTAGATCCTTATCCCTAGATAAAAGGTGGTTCGCAATTCCCCTTCTGAGTTTCAGACTGCATGTGGAGCCACCAAGAAGTCACAGAACGTCTCCCAGT
K
TGAACCTGGCAGCAAAGGCCTAACACACATCTCCCTTGCCAGCAGGAAGGTTTAGTCTCAGGCTACAGATTGAGAAATTTGCTCCCTGGTGATTGGCCAT
Celera SNP ID:            hCV2524977
SNP Position Genomic:     203517
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56618):
AAAAGCACTGCTTCTAGAGAATGTGCCCAGGGAAGTGACTGTTCCCCCATTCTCCTTCCCCCTTTCCCTCATAGATACTTCTGTACCCAAATCCGTATTG
Y
TTATGTGACTTGCAAGCAGGTCAAAAAGATACCTGAATTTTAAATACTCTGTGGGGGCCAGACCATCTGATCCCTGCAGCCATTTCTATGATCCCCTGGC
Celera SNP ID:            hCV2524978
SNP Position Genomic:     204219
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;JBIC-allele(T,363|C,1122)   total(C,1122|T,363)
SNP Type:                 INTRON


Context             (SEQ ID NO:56619):
AAAGAGACAATGATTAGAGAAAAACTAGAAAAGCTTCCTAGATAAACAAATTTGTAAAATAAATTTAAAAAGAGAGCATTTCAAGTGAAAGAGACATCTT
A
TATTGTAAAGGTGTGGACCAGGTAAAAGTGCAAGTTTTTAAAGAAGCAATAGAGATTTAGTAGAATAGGAGATTTAAGGGAATGGCAGGTAATGAGGTGA
Celera SNP ID:            hCV26064240
SNP Position Genomic:     178297
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56620):
AGGAAGCAAACTTTAGCCAGACTCTTCTTGCCTCACCAACTAAGAGAAACAAAGACCAAGGTATCACATTCTGCCATTAGCTGCTACCTCTCCCTTCCCC
R
TTTTCAGACAGATTGAGCCCACTTTTTGTGTCCTCCTCTGCTCTTAAGCTGTTTCTCATCGTGGGTGCTCAGCAACTTGTCTGCTCTCACTCTAGTTTCT
Celera SNP ID:            hCV2524979
SNP Position Genomic:     204933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;JBIC-allele(G,206|A,1283)   total(G,206|A,1283)
SNP Type:                 INTRON


Context             (SEQ ID NO:56621):
AAGAGACAATGATTAGAGAAAAACTAGAAAAGCTTCCTAGATAAACAAATTTGTAAAATAAATTTAAAAAGAGAGCATTTCAAGTGAAAGAGACATCTTA
T
ATTGTAAAGGTGTGGACCAGGTAAAAGTGCAAGTTTTTAAAGAAGCAATAGAGATTTAGTAGAATAGGAGATTTAAGGGAATGGCAGGTAATGAGGTGAA
Celera SNP ID:            hCV26064241
SNP Position Genomic:     178298
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56622):
AGTGTCCAAGGGCAGGAGAAGATGGATGTCCTAGCTCAAGAAACGAGATAATTCACTCTTCCTTCACCTTTTTGTGCTATTTGGACCCTCAGTGGATTGG
W
TAATGCCCACACACATTGGTGAGGGCAATCTTTACTCAGTCTACTGATTCAAATGTTAATCTCTTCAATAAATACCACCACAGATACACTCAGAAATAAT
Celera SNP ID:            hCV26064170
SNP Position Genomic:     74356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56623):
GTGTCCAAGGGCAGGAGAAGATGGATGTCCTAGCTCAAGAAACGAGATAATTCACTCTTCCTTCACCTTTTTGTGCTATTTGGACCCTCAGTGGATTGGA
T
AATGCCCACACACATTGGTGAGGGCAATCTTTACTCAGTCTACTGATTCAAATGTTAATCTCTTCAATAAATACCACCACAGATACACTCAGAAATAATG
Celera SNP ID:            hCV26064171
SNP Position Genomic:     74357
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56624):
TTCATTGTTGGTTCAGTGCTACTGATTTTTATATGTTGATTTTATGTCCTGCAGCTTTCCTGAATTTGTTTATCAGTTCTAAGAATTTTTTGGTACAGCG
T
TTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTAGTATGAACATGGCTCACTGCAGCCTTAACCTCTCAAAAGATCC
Celera SNP ID:            hCV26064172
SNP Position Genomic:     77357
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56625):
TAAGGCCAGCAGTGGATTTCACAGCAGAAACCTTACAGATCAGAAGAGAGTAGGATGATACATTCAAAACCCTGAAAGGAAAAAAAAAAAAAAAAAAAAC
W
CTGCCAGCAAAGCATACTATACCCAGCAATCCTGTCTTTCAAAAAACAAAGGGATGATCAAGACTTTCTCAAATAAAAACAGAATTTATCCCCACTAGAC
Celera SNP ID:            hCV26064173
SNP Position Genomic:     81651
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,8)   total(A,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56626):
GCTCCAGGTGCCAGCATGGATGCCAGCTCTCTGTGAGGCTGCAGCTGGACCAGGCACACCACAAGCAGCTTCCCTGGCTGGCACCAAAGAATGCAGTAGT
S
CCCAAAAGCTTGGAGGAACCACAGGGCCGGAAAGAGGGAGTCACAGCCCTGACTCCGGAAGCTCCCAGGTCTGGGCCCCCCAAACGGCTGCAGCTCTTCC
Celera SNP ID:            hCV26064174
SNP Position Genomic:     86416
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|G,9)      total(G,9|C,5) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56627):
TCCGCAGCCTCAAACTCCTGGGCAGAAGCGATCTTCCTGCCTCAACTGGGTAGCTAGAACTACAGACATGCCACCATGCCTGGCTAATTTTTTTATTTTT
A
TTTTTTTTATAGAGATGGTTTCTCGCCATGTTGCCCAGGCTGGTCTTGAATTCCTGGCCTCAAACAATCCTCCTGCTTCAGCCTCACAAAGCATTGGGAT
Celera SNP ID:            hCV26064247
SNP Position Genomic:     184805
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56628):
CTGGCACCAAAGAATGCAGTAGTGCCCAAAAGCTTGGAGGAACCACAGGGCCGGAAAGAGGGAGTCACAGCCCTGACTCCGGAAGCTCCCAGGTCTGGGC
Y
CCCCAAACGGCTGCAGCTCTTCCCTCCTTCTCTTTGCCCAAACTGCAGCAAGCAGGGGGCATATTTCAGCCCTTTTGGTGTTACAGCAACTCTTTTAGCC
Celera SNP ID:            hCV26064175
SNP Position Genomic:     86493
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56629):
TCCAGATCAGTTAGGCTCTGAAAAATCCCTAATAGTTTAGGCTGTGGTAAAATAGTTTCTCCTGAGGGAAGACCTTGTTGAGAACAGAGGGCTCTAGTAT
A
TTTCAAAATGGTTCCTTTTCCCCTCTCCCTGCCAAAAGCATGAGGGTATTTTTCTCTTATATTTACTGTGAGAATCCGGTTGAGCTCCTGGAGGCAAAAC
Celera SNP ID:            hCV26064248
SNP Position Genomic:     192643
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56630):
AAAGAATGCAGTAGTGCCCAAAAGCTTGGAGGAACCACAGGGCCGGAAAGAGGGAGTCACAGCCCTGACTCCGGAAGCTCCCAGGTCTGGGCCCCCCAAA
S
GGCTGCAGCTCTTCCCTCCTTCTCTTTGCCCAAACTGCAGCAAGCAGGGGGCATATTTCAGCCCTTTTGGTGTTACAGCAACTCTTTTAGCCACGCCGTT
Celera SNP ID:            hCV26064176
SNP Position Genomic:     86501
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56631):
CCAGATCAGTTAGGCTCTGAAAAATCCCTAATAGTTTAGGCTGTGGTAAAATAGTTTCTCCTGAGGGAAGACCTTGTTGAGAACAGAGGGCTCTAGTATA
T
TTCAAAATGGTTCCTTTTCCCCTCTCCCTGCCAAAAGCATGAGGGTATTTTTCTCTTATATTTACTGTGAGAATCCGGTTGAGCTCCTGGAGGCAAAACT
Celera SNP ID:            hCV26064249
SNP Position Genomic:     192644
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56632):
GTTCAAGCAGTTCTCCTGCCTTAGCCTCCCAAGTAGCTGGGATTATAGGTGCCTGCCACCACGCCCAGCTAATTTTTGTATTTCTTTTAGTAGAGACGAG
R
TTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAACCACTGCG
Celera SNP ID:            hCV26064177
SNP Position Genomic:     93748
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56633):
ACGCCCAGCTAATTTTTGTATTTCTTTTAGTAGAGACGAGATTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCGCCTC
R
GCCTCCCAAAGTGCTGGGATTACAGGAGTGAACCACTGCGCCCGGCCCAAATGTCAACTTTTGTATCACCTTATCAAGATGTCTTTTTTGACTGCCCTGG
Celera SNP ID:            hCV26064178
SNP Position Genomic:     93808
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56634):
GACGAGATTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAAC
Y
ACTGCGCCCGGCCCAAATGTCAACTTTTGTATCACCTTATCAAGATGTCTTTTTTGACTGCCCTGGCTAAAATAGCACACCTTCTTTACCTCTTACTTTT
Celera SNP ID:            hCV26064179
SNP Position Genomic:     93842
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,10)      total(C,10|T,4) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56635):
GGAACTGAACCAAACTGGAAATACCATCTTAATTTACTGAATCCAGAACTAAAACAAACCCCTGCCATCCATAAATCAGTGTTTGGTGGGATTTTTCCCC
M
AAAAAAATTACTTGTAAGATAAATTGAACTGAAACTAAACCTAAACATTTTCTAACTTTATTGACAAATAAAAACTGAAATATTAAAATATTATCAAGTA
Celera SNP ID:            hCV2248625
SNP Position Genomic:     89047
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|A,12)      total(A,12|C,4) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56636):
GATTGTGCCACCACACTCCATCCTGGGTATCTGAGTGAGGCTTTGTCTCAAAAAAAAAAAAAAAAAAAGTTGGCTTATACTTGTAATCCCAGCACTTTGG
K
AGTCCGAGGCAGGAAGATGACAAGCCTAGGAGTTTGCAACTAGCCTGGGCACCATAGGGAAACCCTGCCTCTAAGAAGAAAAATCAGTATGTTCTTTCTA
Celera SNP ID:            hCV2248626
SNP Position Genomic:     92636
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56637):
CAAACTACTCAGCAACAAGAAAACAGCCCTGTTAAAAATAAGCAAAGGACTTGAATAGACATTTTTCAAAAGAAAACATATAAATGGGCCACAGATATAT
K
AAAAAAGTCCAACATCTCTAATCATCAGAGAAATGCAAATGAAAACCACAGTGAGATACCCTATAGCCAACACCTTTTAGGTTGGCTCTTATCAAAAAGA
Celera SNP ID:            hCV8362714
SNP Position Genomic:     83899
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56638):
TGCATGCTCTTTGTCCACTAATCCCACCCTTAGGACAAATCCCAAATCTGTGTCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGTTAGATC
R
CTTGAGCTCAGGAGTTCGAGAACAGCCTGGGCAATTTGGCATAGCCCTGTCTCTACAAAAAATACAAAAATTAGCTAGGAATGGTGGCACACACCTGTAG
Celera SNP ID:            hCV2248627
SNP Position Genomic:     92881
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56639):
AGGTTGCAGTGAGCCAAAATCACACCACTGCACTCCAGTCTGCGTGACAGAGCTAGACCCTGTCTCCAAAACAACAACAACAAAAAAAGATGGCTGACTA
R
AAGCATTTCATATGCTCACCTCCTCCACTTAGAAAAACCAAAAGAGTATATAGACAATCATACTTCTGATAAATTATCTAAGATAGAACACTGGAATTCA
Celera SNP ID:            hCV16074773
SNP Position Genomic:     183006
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56640):
GCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAACTAATGAAATTTAACATTAATAAAATACTACTAGGCCAGGTGC
R
GTGGCTCATGCCTGTAATCCCGGCACTGTGTGATGCCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCTGGGCCAACATGGTGAAATCCT
Celera SNP ID:            hCV2524980
SNP Position Genomic:     206217
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56641):
TTTTTCTATCTTTCACGACGTGACATTGGCATTTTGAATAATCCAGGCCAGTTGTTTTACTTTAGGTCATCAAATATTTACAAATACTTACTCTGTGCCC
R
ATTCTATACTAGACTCTAGGGAGACAGAGGTGAGACAGACTCCATCCCTGTGCTCAAAGAGCTGAGACAGGTAGAGATATGTGAACATGTATGTGGTGAA
Celera SNP ID:            hCV2524983
SNP Position Genomic:     206782
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56642):
GCTGGTGAAAACTAAAAGAGGCCCAGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAAAGTGGATCACCTGAGGTCGGGAGTT
Y
GAGACCAGCCTGGCTAACATGGTGAAACCCTGTCTCTACTAATAATACAAAAATTAGCTGGGCGTGGTGGTGCATGCTTGTAATCCCAGCTACTTGGGAG
Celera SNP ID:            hCV2524984
SNP Position Genomic:     207131
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56643):
GCTTTCTCTGTTGTTGCTGCTTGCTCCACTCAAACAGGTATCTGGGAGCCAGCACTCTGGCAGTCCTTCTAAGCTCTAACTCTGGTTTTACTGTTTTTCA
R
GTGAAACCTTTGTCCTGGGGAATAGTCTGGCCCGCTCCTTGGAACCACACTCAGACTCAATGGACTCTGCCTCAAATCCCACCAACCTTGTCAGCACCTC
Celera SNP ID:            hCV2524987
SNP Position Genomic:     212059
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 ACCEPTOR SPLICE SITE


Context             (SEQ ID NO:56644):
CTGGTCAGGGAAGGGGTTAGGAGCGCTGATAGACTGGACTAGTCTTAAAGAAGATGGGGAAAAATGGACCAAAGAAAAGGGGATGATTTGCAGGAAACCT
M
AGGGCCCAACTATGCTTGGAGACTAGTTGGCCAGTTTGCACAAGCTATGGTTTTCTTCTGTGATTCTTAGCAACCTAGTAGGTATGGGATGAGAAAAGAC
Celera SNP ID:            hCV2524988
SNP Position Genomic:     214160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56645):
CAGATCAGTTAGGCTCTGAAAAATCCCTAATAGTTTAGGCTGTGGTAAAATAGTTTCTCCTGAGGGAAGACCTTGTTGAGAACAGAGGGCTCTAGTATAT
T
TCAAAATGGTTCCTTTTCCCCTCTCCCTGCCAAAAGCATGAGGGTATTTTTCTCTTATATTTACTGTGAGAATCCGGTTGAGCTCCTGGAGGCAAAACTC
Celera SNP ID:            hCV26064250
SNP Position Genomic:     192645
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56646):
ATGGAAAGTTTGACATGCCAAAGAACTTTGTGATATAATGGTTACAGTGGACATACGTCCCAAGAGAGCTGAAAAGATGGAAGGTTGGGGTCAGAGAATG
K
GATGCTTAAAATTCTGAAGTGGATTTATTCCAAGGGATTGCAAGAATCAGACAGTGGTGTTGGCAGTAGGTATTTGGAGTAGAATGGAGGTGAGAGTCAC
Celera SNP ID:            hCV2524989
SNP Position Genomic:     214532
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56647):
AGATCAGTTAGGCTCTGAAAAATCCCTAATAGTTTAGGCTGTGGTAAAATAGTTTCTCCTGAGGGAAGACCTTGTTGAGAACAGAGGGCTCTAGTATATT
T
CAAAATGGTTCCTTTTCCCCTCTCCCTGCCAAAAGCATGAGGGTATTTTTCTCTTATATTTACTGTGAGAATCCGGTTGAGCTCCTGGAGGCAAAACTCA
Celera SNP ID:            hCV26064251
SNP Position Genomic:     192646
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56648):
GATCAGTTAGGCTCTGAAAAATCCCTAATAGTTTAGGCTGTGGTAAAATAGTTTCTCCTGAGGGAAGACCTTGTTGAGAACAGAGGGCTCTAGTATATTT
C
AAAATGGTTCCTTTTCCCCTCTCCCTGCCAAAAGCATGAGGGTATTTTTCTCTTATATTTACTGTGAGAATCCGGTTGAGCTCCTGGAGGCAAAACTCAC
Celera SNP ID:            hCV26064252
SNP Position Genomic:     192647
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56649):
TTTTTTAAATTTCAAAATAGCCAGGAATTGTATAATTAATCTGGTGTCTCTGTTACCCTCTGGACCAGCTGACGTATTTGTTTGTTTGTTTGTTTGTTTG
K
TTTTGCTCCATGTGGAGCAAAATATTGTTTGTTTGTTTGTTTGTTTGTTTTTGCCCCATGTGGAGCAAAACATTGTTTGTTTGTTTGTTGTAAGCTCCAT
Celera SNP ID:            hCV26064180
SNP Position Genomic:     94045
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,8)   total(G,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56650):
CTGGTTGTTAGGATGGAGTGGCAACTTCCAAACTCCTTATGTGCCAGACCTTTCTCTGAATTTTTTTAATAACCTCCAATTCTAATTTAATGGATCTAGT
A
AAAAAAAAAAAATGACAGTATACACAAATATCCTTATGACCTCAAGATTGGGAAGGATTTTTAAAATAAGACAATAAGCATAAACTATAAAGGAAAAGAT
Celera SNP ID:            hCV26064253
SNP Position Genomic:     193093
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56651):
AATTGTATAATTAATCTGGTGTCTCTGTTACCCTCTGGACCAGCTGACGTATTTGTTTGTTTGTTTGTTTGTTTGTTTTTGCTCCATGTGGAGCAAAATA
T
TGTTTGTTTGTTTGTTTGTTTGTTTTTGCCCCATGTGGAGCAAAACATTGTTTGTTTGTTTGTTGTAAGCTCCATGTGGGCAAACTTTGGCTGTATTGTA
Celera SNP ID:            hCV26064181
SNP Position Genomic:     94070
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56652):
TGAGGCAGGAGAATGGCGTGAACCCAGGAGGCAGAGCTTGCAGTGAGCTGAGATTGCACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTC
A
AAAAAAAAGAAATTCCGAAATCCAGCTGGGCACATGTTGGCCAACTCCTTAATTAGGTCCAGTATTACTTTCTGGGAGTTGTTTTCCATGGATCTTGGTT
Celera SNP ID:            hCV26064254
SNP Position Genomic:     194194
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56653):
ATTGTATAATTAATCTGGTGTCTCTGTTACCCTCTGGACCAGCTGACGTATTTGTTTGTTTGTTTGTTTGTTTGTTTTTGCTCCATGTGGAGCAAAATAT
T
GTTTGTTTGTTTGTTTGTTTGTTTTTGCCCCATGTGGAGCAAAACATTGTTTGTTTGTTTGTTGTAAGCTCCATGTGGGCAAACTTTGGCTGTATTGTAT
Celera SNP ID:            hCV26064182
SNP Position Genomic:     94071
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56654):
ATGGACCAGTGGCATGGGGGATGGTTTCAGGATGAAACTGTTCCATCTCAGATCATCAGCCATTAATTAGATTCTCATAAGGAGCACACAACCTAGATCC
S
TTGCATGCGCAGTTTACAATAGGATTCATGCTCCTGTGAGGATTTAATGCCACTGTTGATCTGACAGGAGGCGGAGCTCAAGTAGTAATGCTCACTCGCC
Celera SNP ID:            hCV26064255
SNP Position Genomic:     197226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56655):
TTGTATAATTAATCTGGTGTCTCTGTTACCCTCTGGACCAGCTGACGTATTTGTTTGTTTGTTTGTTTGTTTGTTTTTGCTCCATGTGGAGCAAAATATT
G
TTTGTTTGTTTGTTTGTTTGTTTTTGCCCCATGTGGAGCAAAACATTGTTTGTTTGTTTGTTGTAAGCTCCATGTGGGCAAACTTTGGCTGTATTGTATT
Celera SNP ID:            hCV26064183
SNP Position Genomic:     94072
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,9)   total(G,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56656):
TGAGGCAAGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACCCCAGCCTGGGTGACAGAGCAAGACTCCGTCTC
A
AAAAAAAAAAAAAAAAAAAAAGACTGGGAAGTGCCTGGGAAATTAAGCCTTATGTCCCTTCTGAGGCCCAGCCTACTCCCTGGTCTCTTCTTTGTTTCTG
Celera SNP ID:            hCV26064256
SNP Position Genomic:     202186
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56657):
TGTATAATTAATCTGGTGTCTCTGTTACCCTCTGGACCAGCTGACGTATTTGTTTGTTTGTTTGTTTGTTTGTTTTTGCTCCATGTGGAGCAAAATATTG
T
TTGTTTGTTTGTTTGTTTGTTTTTGCCCCATGTGGAGCAAAACATTGTTTGTTTGTTTGTTGTAAGCTCCATGTGGGCAAACTTTGGCTGTATTGTATTT
Celera SNP ID:            hCV26064184
SNP Position Genomic:     94073
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56658):
GAGGCAAGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACCCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCA
A
AAAAAAAAAAAAAAAAAAAAGACTGGGAAGTGCCTGGGAAATTAAGCCTTATGTCCCTTCTGAGGCCCAGCCTACTCCCTGGTCTCTTCTTTGTTTCTGT
Celera SNP ID:            hCV26064257
SNP Position Genomic:     202187
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56659):
CTTCTGCTCATTTGAAATAAAAGGGACTGAATTTATACTTCCACCTGAAACAATTTATTTAAAAAGACAACATATGTTAATAATGGTTTGTTTTGTTTTG
Y
TTTGTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCGGTGTCTTGATCTTGGCTCACTGCAACTTCTGCCTCCCGGCTTCAGGTGATTCTC
Celera SNP ID:            hCV26064185
SNP Position Genomic:     99045
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56660):
CAGTGATCATTGACTAATCAAGTCTTCCAGCCCCAGTCTTTGACACCTGCACCAGTGATTTCAAAGTTTGTTTTGTTTTACCAGTAGAACTCCTTTTTTT
A
AAAAAAAAAAAAAAGTTTTTTGGCAAAGGTAAAATTATATATAAAATTTGTATACACTCCAGTGCATAAAAATTAAAACCAGAGTAGTTTTGATAGAAGC
Celera SNP ID:            hCV26064258
SNP Position Genomic:     209635
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,18)   total(A,18|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56661):
CATTTAAGCTAAGACCTGAATGATGAAAAGCCAGACATGTGAATATTGAGGTGGAACATTCCAGGGAGTGTAAAGGCCCCAAGGTCATAAGGAACTTGGC
Y
TCCAACAGGAGCTGAGAAGACCAGTATAGCTGGAGCAAAGCAAAAGGTGAGAGCCATAGGAGATGAAGTAGAAGAGGTAAGTAGGGGTCAGATCATGCAG
Celera SNP ID:            hCV1484400
SNP Position Genomic:     45007
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56662):
ATTAACTTCAAGTGGATCATGGACCTAAATGTAAGAGTTAAAACTGCAAAACTCTTTAAAGAAAACATAGAAGGAAATCTTCATGACCTTGGATTAGATA
W
TATAACACCAAAAACATAAACAACAAAAGAAAAAATAGATAATTTAAACTTCATCAAAATTAAAAGATTTTTGTTTCCACACCATCAGGAAAGTGAAAAG
Celera SNP ID:            hCV26064186
SNP Position Genomic:     104414
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56663):
AAGTCACCTCGGCCGGGCACGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGGTGGATCACGAGGTCAAGAGATCAAGACTATCCTG
R
TCAACATGGTGAAACCCTGTCTCTATTGAAAATACAAAAAATTAGCCGGACGTGGTAGTGGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGACAGGA
Celera SNP ID:            hCV26064259
SNP Position Genomic:     215065
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56664):
ATAATGTTATAGTTTAATAATAAGTTATTTTTAAAGTGCCTAACACATAGTTTATGCTCTTCTGCTATGATGGTTCTTTAGGTTAACAACATGAAAATTT
R
TTTTAACAGAATGATCCTAGCCTCTTTTCCTTGTAATCTTTCCATTTCTTTGTTCTGTAATAGTTCCTTTTTCCTAATTCCAGTTTTATACCTTGGCGTG
Celera SNP ID:            hCV1484401
SNP Position Genomic:     50475
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56665):
GCATGCTTTATTTCTTTATTTACCAATTTTCAATGAATTGGTTTATTAGCATCCTCCAAAAATATTTAAGGAGGATTTTGTTGTTGTTGCTTAGTATCAT
R
AGCTCAAAACTTCATACATATTTGTTGTGTTTCACTCCATCACACCAATTGACCTTATTGATGCTTGAATTATCCCATCTTTTGCCAGAAGGAAACTTGT
Celera SNP ID:            hCV26064187
SNP Position Genomic:     108590
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56666):
GCTAAAAGAGAACCATGCTTATTGTTTTTATCTTAACTATTTTTGTACTACAAGGGTAGAAGTAGACTTATATACTAGAAAATTTATGAAAGCTCCTGTT
W
TAAAAAACAATTCTTGAAAATTCAAATTTTAAAAACTGAGGAAGTTACTTCTTCTGCTAAGCACTGCTAGACAATGTGTAGGATATAAAATAAGCCTATG
Celera SNP ID:            hCV1484402
SNP Position Genomic:     51024
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56667):
TCTGACAAAGGGCTAATACCCAGAATTTACAAAGAAAAACAAATTTACAAGAAAAACACAAACAATCCCATCAAAAAGTGGGCAACAGATATGAACAGAC
M
CTTCTCAAAAGAAGACATTTATGCAGCCAACAGACACATGAAAAAATGCTCATCATCACTGGTCATTAGAGAAATGCAAATCAAAATCACAGTGAGATAC
Celera SNP ID:            hCV26064188
SNP Position Genomic:     117198
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56668):
TTACCATCTTAAGACATTAAGTACATTTATAGTGTGTGTAGCCTGCACCATTATCCATCCCTAGAATTTTTTTTAATCATCCCAAATAGAAATTCTGTAC
S
CATTAAATATAACTCTCCTCTCTCCACCAGTTCCCTGGTAACCCTTATTTAACTTTCCATCTCTATAAATTTACCTATTATAGGTTCGTCCTGTAAGTAG
Celera SNP ID:            hCV1484403
SNP Position Genomic:     51992
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56669):
AAAATCACAGTGAGATACCATCTCACGCCAGTTAGAATGGCGATCATTAAAAAGTCTGGAAACAATAGATGCTGGAGAGGATGTGGAGAAATAGGAACAC
T
TTTACACTGTTGGTGGGTATGTAAATTAGTTCACCCATTGTGGAAGACAGTGTCGCGATTCTTCAAGGATCTAGAACTAGAAATACCATTTGACCCAGTG
Celera SNP ID:            hCV26064189
SNP Position Genomic:     117381
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56670):
TATTTTGAATTATAATGTTGGAATAATTGAAAACACTCACATTATATATGTTTAAATTATAAAACATTATACCTATGTTAGTTAATAATATTAATCTTCG
Y
AATAATCTCTGAGCCCAAGGATGAATGAGATTTTCATGTTCTGCAATCTCAAGACAACCTGTACTACCTCGTAAACTTTATCATTATCATAACAGATTAT
Celera SNP ID:            hCV2248631
SNP Position Genomic:     94840
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56671):
GAGGACTTTTGCATTCTTAAGGGCTGTTTTTGAAATTAAAGTTTTATTGGAACACAGCCATGCCCATTCATTTCTGTATGATCGGTATTATCTATGGCTA
S
TTTCATGTTTCAATAGAGGCCACACGGCCTGGTAAGCTGCAAATATTTATTATCTGGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGAGAGAGTTTC
Celera SNP ID:            hCV1484404
SNP Position Genomic:     54337
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56672):
ACTACACCAGTAGTAGTTCTTAGTCACAGATGTTAATCCAAATTACCTAGGGAGCCTTGGAAAATACATATTCTCAGGCCACACTTGGAGCCTACTGAAT
R
AGAACTTCTGAAGGTGAGGCCCAGAACTTTGTTTAAAGAAATGAGACTATAAGTATCACTTGAGAGTCAATGATTTATACCAGAGGTCTGGCAAACTACT
Celera SNP ID:            hCV2248632
SNP Position Genomic:     95333
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56673):
TGATCTTAGCTCACCACAACCTCCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTGCCCGGTAGGTGGGATTACAGGCATGTGCCACCAAGCGCA
K
CTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCAGGTTGCTCAGGCTGGACTTGAACTCCCGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATT
Celera SNP ID:            hCV1484405
SNP Position Genomic:     54570
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56674):
TTAGTTAAGGGTAGTGGGAAAGGAACCAGTTATAAAACAGAAGCTATAAAATAAATAGAGTGTAAAGTCTTGGCATCATCTTTGGAGTGATTTAGATTTC
W
TCATTCAGTGACTCATTTTTATTCCCAGCATCTAGTGCTTTTTGCATGGCCCAAAGGGGCTCTGTGCTGCTCCACTACAGAGGAAACTTCAAGAAATGCT
Celera SNP ID:            hCV2248633
SNP Position Genomic:     96785
SNP Source:               Applera
Population(Allele,Count): african american(A,30|T,4)   caucasian(A,24|T,6)   total(A,54|T,10)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56675):
ATATTTTAGGCGGTTATATTTCTCACAGTAAATTAATAAATTAACATTCTAGTTTACCTATTATTGTGTAATGACCTATAGCTCTATCCAAAAGAGTCTG
Y
TCCATTTTTAACAGAATCAGGGTTCTGAACTCATAAAGCTGAGGAAAGTATCCTGGAAATTGGAAACTTAACCAAATTGCTGCCCTTGAGAAGCCCTGTC
Celera SNP ID:            hCV1484406
SNP Position Genomic:     54949
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56676):
TAGAACATCTCATAATTGATTGGGCACTGGGTATGATACTCAGGAAGGTGTTGCTCATATTGGAAAATAATTAACCTTAGCCTGAGTATTGCTTCAGTCC
R
GCCTGACAAATCATAAAGGTAAAACTCAAGAAGATCAAACTACTTCACAAATAACTTAACTGCATCGAGGAACAAAGCCCAAGAAGATTTATAGGAATGC
Celera SNP ID:            hCV2248634
SNP Position Genomic:     99870
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56677):
ACCAAATTGCTGCCCTTGAGAAGCCCTGTCTGGATAACCAGCCTTCTGGCTTCCTCTGATGAAATCTAATTTCACTGCATATCTTCTTTGATCTACAGTA
K
TTCATATTTCTATTTTTTTCTATCTTTCGCTTTTAGATTTCTACATCGTACTAAGGAAGAATGATTTCCTATTTGATATAGCTGAACCATGCAAAAATCA
Celera SNP ID:            hCV1484407
SNP Position Genomic:     55120
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,11)   total(G,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56678):
GGATAGATATATAAGATGTTTTCTTATTTAAATCTGTGTAAAAGATAATTGTGTAGACAATAACCGTATATTGTGAGGATGATAACATATAAGTAAAATG
K
ATGATAAGAGTAGCACAAAGGCAGGAAGGGAGGAATCTTAAGTATACTATTACAAGGTTCTCATGCATGAAGTAGTACTATCTTACTTGATAAGGTAGAC
Celera SNP ID:            hCV2248635
SNP Position Genomic:     101338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56679):
TCACTCCATCACACCAATTGACCTTATTGATGCTTGAATTATCCCATCTTTTGCCAGAAGGAAACTTGTCAAGTTGTCTCCTGACTCTTTTATATACTGT
Y
TGATACTATTTGATAGCTCTCTTGGATTTTTGCAATTTCAACATGTTCCAGGTTCATCTTATATATTTTTTGCCCCAAATATGGAATCAGCTAGTTCTTC
Celera SNP ID:            hCV15810938
SNP Position Genomic:     108722
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56680):
TATATTAAAACTTGTACACCCGTATCAGGCACTTACCTTGAATGGAGCTTGGAGGACTGGAAATTGCTCTGGGTGAGTCAGTGAGTAAGTGGTGAACTGC
K
TACCACTGTCAACGTTATAAACGCTGTACACCCAGGCTACACTAAATTTATTTAAAAATTTTTCATTCTTCAGTAAAGAGTTAACCTTAGCTTACTGTAA
Celera SNP ID:            hCV2248636
SNP Position Genomic:     103125
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56681):
GCATCTCATCATAGTTATCTCCTAATAAAGTAAAAGTAAATGAAGGAGAGCTGGAGACAGAGAATCAGCTGAGATGTGCTGGAAATACTCGGCTGGGCGC
R
GTGGCTCGTGCCTTGTAATCCCATCACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAACCTGGCCAACATGATGAAACCC
Celera SNP ID:            hCV1484409
SNP Position Genomic:     60115
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56682):
TCTCTGCCCCATCCAAGACAGCTGAACCTTTGAAATTCCCAAAGAAGAGAGGTCCCAAACCTGGCAGCAAGGTAGGTAAAATGTGGGTTTCCCAGAAAGG
R
ATAAGGGATTATAAAGGGGTCATTCGGCCAGGCGCCGTGGCTCACGCCTGTAATCCCAGCACTTAATGGGAGGCCGAGGCGGGCGGATCATGAGGTCAGG
Celera SNP ID:            hCV8364255
SNP Position Genomic:     174372
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(A,7|G,33)   total(A,11|G,67)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56683):
GCAGTAGGTATTTGGAGTAGAATGGAGGTGAGAGTCACTGGAGGCATGGTAGCTGGATTGCCTCCAAGGATTAGAGCAGGAGTTGGGGTGGAACAGTGGG
W
AGTGAGCTAAGTAACAAAAAGTCTTCATTTATCAAGGGGCAGAAACCCAGATATCTATGAGTAACAGTGAGAAGGAAGAGCCAATGGTTGGGTACATGTT
Celera SNP ID:            hCV2524990
SNP Position Genomic:     214695
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,7)   total(A,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56684):
AGTCACTGGAGGCATGGTAGCTGGATTGCCTCCAAGGATTAGAGCAGGAGTTGGGGTGGAACAGTGGGTAGTGAGCTAAGTAACAAAAAGTCTTCATTTA
Y
CAAGGGGCAGAAACCCAGATATCTATGAGTAACAGTGAGAAGGAAGAGCCAATGGTTGGGTACATGTTTGGCCTCTGAAGAACATGAGCTTTCATAGGAG
Celera SNP ID:            hCV2524991
SNP Position Genomic:     214727
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56685):
TTCATCCATTAACTATTTATTTGAACTCCATTTGTGTTTGGCATGGGGAAGCAAAAATCAGTCACTTTTTATCTTCAAGGTATTATGGTGAGAGAGACAC
K
TAAACAGATAATTATTAAACAATGTCTTGAGTGCAGTGACAGACATATGCTTTGGGTAATATGAAAATTACAAGAAGGAATACCTAACCCAAGCTTGGTG
Celera SNP ID:            hCV8364832
SNP Position Genomic:     212593
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,8)      total(G,3|T,8) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56686):
CCCTCATTCACTTTGTTCTGATACATTGGCCTTCCTGCTAAATCCTACATGTGCTATTTGCTCTTCTGCCTCAAGGTCTTTGCTCAAATTTCATCATTTC
R
GAGACATCTCTCCTAATCACCATATAAATTAGCAACTTCCTACCACCTGCCCTCATGGAGTTTATATTCTAATGGGAGTAGGCTGACAGACAAGCATATA
Celera SNP ID:            hCV2524996
SNP Position Genomic:     217252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56687):
TCTCACTGTAACCTCGCACAGCCAAAGGGGCAAGGGAGCTCTCTGCACCGTGTTTGATGAGAGTACTAATCTCATTCATGAGGGCTCTGCCCAGAGGTCC
Y
ACCTCCTAATATATATTATCATGTGGGTAGGGAGGGGTAGGATTTCAACATGGGAATGTTGAGGGGATACATATTCAGTCAGTAGCATGTGTGTATTTAT
Celera SNP ID:            hCV2524998
SNP Position Genomic:     217645
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56688):
GCATGTGTGTATTTATATATACTATCATATATATGTGTGTATAATATCATGTATGTATGTATATATGGTATCTAGCCTCTGATTAGAGGAATTATCTAAG
R
TGGTCCAAGAAAGACACATTCTTGCATATACACTCTCTCCCCATATCTTCTCTCTGTTCTCCAGAGCCTCTCTGCACTTGGTTTCTCTCTTAGCATCACA
Celera SNP ID:            hCV2524999
SNP Position Genomic:     217830
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56689):
GCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGGGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAGAAAAGAAAAGAAAAAAAGTCA
Y
CTCAGCGGAGAGAGCTTTCAGGAAGGCTGAATCATGGGAAGAAGCCTGTGGTGCCCCTCCCCCCACCCCAACCCGAGCAGGGCAGCAAAATGGAATCTAA
Celera SNP ID:            hCV26064260
SNP Position Genomic:     215291
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56690):
GAGCCGAGATCACGCCACTGCACTCCAGCCTGGGGGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAGAAAAGAAAAGAAAAAAAGTCACCTCAGCGG
R
GAGAGCTTTCAGGAAGGCTGAATCATGGGAAGAAGCCTGTGGTGCCCCTCCCCCCACCCCAACCCGAGCAGGGCAGCAAAATGGAATCTAAAGGGCTCTC
Celera SNP ID:            hCV26064261
SNP Position Genomic:     215300
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1|-,4)   total(G,1|A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56691):
AAATCACAGTGAGATACCATCTCACGCCAGTTAGAATGGCGATCATTAAAAAGTCTGGAAACAATAGATGCTGGAGAGGATGTGGAGAAATAGGAACACT
T
TTACACTGTTGGTGGGTATGTAAATTAGTTCACCCATTGTGGAAGACAGTGTCGCGATTCTTCAAGGATCTAGAACTAGAAATACCATTTGACCCAGTGA
Celera SNP ID:            hCV26064190
SNP Position Genomic:     117382
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56692):
AATCACAGTGAGATACCATCTCACGCCAGTTAGAATGGCGATCATTAAAAAGTCTGGAAACAATAGATGCTGGAGAGGATGTGGAGAAATAGGAACACTT
T
TACACTGTTGGTGGGTATGTAAATTAGTTCACCCATTGTGGAAGACAGTGTCGCGATTCTTCAAGGATCTAGAACTAGAAATACCATTTGACCCAGTGAT
Celera SNP ID:            hCV26064191
SNP Position Genomic:     117383
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56693):
TGTAACATATGATTTGTATGTGTGTGTGTATATACATATGTATTTTCCAAGCACTGTTCATTGAAAGGGCCTAGAAGCAATTACATCTCAGTAGCAATGA
Y
GACACCTTGATTTTGGTTTCTAAAAATCACCTGATACACCTGTAATCCCAACACTTTGGGAAGCTGAGGCAGGAGGATCCCTTAAGCCTAGGAGTTCGAG
Celera SNP ID:            hCV26064192
SNP Position Genomic:     123661
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,12)      total(C,12|T,3) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56694):
TGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCACTAACTCGTCATTTAGCATTAGGTATATCTCCTAAAGCTATCCCTCC
Y
CCCTCCCCCACCCCACAACAGTCCCCAGAGTGTGATATTCCCCTTCCTGTGTCCATGTGTTCTCATTCTTCAATTCCCACCTATGAGTGAGAATATGCAG
Celera SNP ID:            hCV7785310
SNP Position Genomic:     164568
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56695):
AGCTGGACATGGTGTCACGCATCTGTGGTCCCAGCTACTTGGGAGACTGAGGTGGGAGTATCCCCTTGAGTCTGGGAGGTCGAGGCTGCAGTGAGCCATG
M
TCATGCTATTGCACTCCAGCCTGGGTGACAGAGTAAAACCTCTTCTCAAAAAAAAAAAATTAAAGTTGGAGGGAAGAAATCTCCTTTACAGAATGCCAGC
Celera SNP ID:            hCV26064193
SNP Position Genomic:     123917
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56696):
TTTGCTTTTTCTTGTTTTTTATTTTATTTTATTTATTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTA
Y
ACATGTGCCATGCTGGTGTGCTGCACCCACTAACTCGTCATTTAGCATTAGGTATATCTCCTAAAGCTATCCCTCCCCCCTCCCCCACCCCACAACAGTC
Celera SNP ID:            hCV7785311
SNP Position Genomic:     164491
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56697):
CATTGTGTTTTACCCCAAGGCCAGGTAGGTAAGGACCACATATGTGGTTGACGTGCCCACCAAATCATGTGGAGTTACGGTGGGGTTTTTTTTGTTTTTG
T
TTTTTTTTTGCCCTAAAGGGAAAAAAAAGCTGGGCAAGCAAAAAGGAAGTGATGGCAGTTTTAGATTGAGTGATAGGAAAGTCCACATTGCTGTTGATAT
Celera SNP ID:            hCV26064194
SNP Position Genomic:     130106
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56698):
GCAGCCTTGACCTCCTGAGCTCAGGTGATCCTCCTGCCTTAACCTCCCAAGTAGCTGGAACTATAGGTGCACACACCACCACACCTGGCTAATTTTTATA
T
TTTTTTTTTTTTTGTAGAGATGGGGTTTCACCATGTTTCTGAGTCTCAAACTCCTAGAGATGGGGGTCTCACTGTGTTGTCCAGGCTGGTCTCGAACTCT
Celera SNP ID:            hCV1484410
SNP Position Genomic:     61731
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56699):
TTTCTCCCTGTGTGCGGAGACAAGAGAGTGTAGAAATAAAGACACAAGACGAAGAGATAAAAGACAGCTGGGCCCAGGGGGACCACTGCCACCAAGACAC
R
GAGACCAGTAGTGGCCCTGAATGCCAGGCTGCGCTGATATTTATTGGATACAAGACAAAGGGGCAGGGTAAGGAGTGTGAGCCATCTCCCATGATAGGTA
Celera SNP ID:            hCV26064195
SNP Position Genomic:     131616
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56700):
ACTGCCACCAAGACACGGAGACCAGTAGTGGCCCTGAATGCCAGGCTGCGCTGATATTTATTGGATACAAGACAAAGGGGCAGGGTAAGGAGTGTGAGCC
R
TCTCCCATGATAGGTAAGGTCACGTGGGTCACGTGTCCACTGGACAGGGGGCCCTTCCCTGCCTGGCAGCCGAGGCAGAGAGAGAGAGAGGAGAGAGAGA
Celera SNP ID:            hCV26064196
SNP Position Genomic:     131700
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56701):
GGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGCATCCGTCAGCCTCAGCCTTTCAAAGTGCTGGGACTACAGACGTGAGCCACC
R
TGTCTGGCCATGTTACCTGCCTAACGTCTTAAAGGGAAAATAAACATTAAGGCAAAATAGAGGAGATTCAGATCAGGGTAAAATTTTAACGTCAAATTCA
Celera SNP ID:            hCV1484412
SNP Position Genomic:     62368
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56702):
CTCCCTTTCCCGGTCTCTAAGTAATGGGTGTTTTTCCTTGACACTGACGCTACCACTAGACCACGGTCCGCTTGGCAACGGGCGTCTTCCCAGACGCTGG
Y
GTTACCGCTAGACCAAGGAGCCCTCTGGTGGCCCTGTCCGGGCATAACAGAAGGCTCGCACTCTTGTCTTCTGGTCACTTCTCACTATGTCCCCTCAGCT
Celera SNP ID:            hCV26064197
SNP Position Genomic:     132157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56703):
ATAGCAAAAAATCTGTATCTAAATTTCCTACTTTTCTTATAATGTAGCCTAATTGTTAATAATTAGAGATCTCAGTACTTTACAGGTAATAAATGTTCTT
Y
TCCTTCCTCCCCACCTACCTTTTTTACAGATGGAGAAATTAGCATACAAAGAAACTGACTTGTCAGAAGTCAGAGCAAGGTATTGGTGGATCCAGGGATA
Celera SNP ID:            hCV1484413
SNP Position Genomic:     63278
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56704):
TATGTCCTTTAAGCTTCTTTAAATCTACAAGTTCTTATCTGCTCTAATTTTTCTTGCAGTTTATTTGTTTAAAAACCTAAGTCATTTGTCTTTTAAATTT
Y
CTAAAATTATATTTTGTTGATTGTATTCTTGTGGTATCATTCAACATGTTTCTGTGTCCTCTAGTTCCTAAAATTGGTAGCTAAATGTAGAGACTTGATC
Celera SNP ID:            hCV2248640
SNP Position Genomic:     107897
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56705):
CAGCTCCAGGCTGCTTAAGGTCAAATATTGAGACTTTGATGTCCACATTTACTTATGGCCTGAAGATGCCTTCTCAGAAATTAGTTCAGAAGGATTTTTT
R
GTAGCTTATGAAGCAGCAATTATCCCCAGAGGAATATATTAGACTATAAGGTCCCATAGATTAGATTATATGGTCCCAGCTTCCAGTAATCTCTGTTTAC
Celera SNP ID:            hCV26064198
SNP Position Genomic:     132756
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56706):
CTGCTTCCCTGTAGTGAATGCTTTGTCGAATGCCTCCAATCAAAAGACTACATTTTGTGAAATCCCTGCTGAGCATTCCAGTAGCATGTAAGCTAGAACA
R
GGGTCTTTTATCTGATTTGTTTAGTGATATATCTCCAGTGCCTAGAATAATGACTGACAAACAGTGGTAATAAATATTTGTTGAATGAATGAATCTAAAC
Celera SNP ID:            hCV1484414
SNP Position Genomic:     65008
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56707):
AGGCTGAGATAAAGTGCCCAAGGAAGAGCCTCTCCTCCCCCATCCTGAGGGCTGAGGTATAGGGCTGTGTTCTCTCAATGACAGAGAAATCACTGTGGTG
Y
TATGTTGGTGGAACTTGCTAGGAACTCCCCTCTATGGTGCTCAGGAAAGCTGTTCGTTGAGAGATATCTCTCTACAGTAACTCTACTATGAAACCACCCA
Celera SNP ID:            hCV2248641
SNP Position Genomic:     111845
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56708):
TGGCATAAACTATACGGAAATCACGCAAGACTTTGATACTAAAAGTCTAAATGATGCTAAAAGCACTGAGTCCAGGAATTTGAGACCAGCCTGGGCCACC
Y
GTAGCAAGACCCCGTCTCTAGAAAAAATTTAAAAATTAGCTAAGAGTGGTGGCACGTGCCTGTAGTCGCAGCTACTTGGGAGACCGAGGTGGAAGAATCG
Celera SNP ID:            hCV26064199
SNP Position Genomic:     133914
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56709):
AGAGCGGGGCTGGGGAAGAGAGAGAGATGCAATGGGAATATTATTCAGCCTTAAAGAGGAAGGAAATTATAACACATGCTACAACATAGGTGAACCTCGA
M
GACATGCTAAGTGAAATAAGCCAGTTATAAAAGCACAAATATTGTATGATTTCACTTAGATGAGACATCTAGAGAAGTCAAATATATAGAGACAGAAAGT
Celera SNP ID:            hCV2248642
SNP Position Genomic:     120062
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56710):
GATGGTGAAATGTGGGTCGATCTAGCATATATTAAGTGGGAAAGCCATCAAGACTTGCTGATTAATTGGGTTTGGTGGGTGATAGAAAGGGAAGAATCAA
K
GATGACTTCTAGTCTTTTAGGTCTGAGCACCTGGGTTTAATAAGGGGTGCCACCTATTAAACTGAGATGGGATAACTGGAGGAAAGAACAAGTTTGGAGG
Celera SNP ID:            hCV28972831
SNP Position Genomic:     127667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56711):
TGTGATGCAGTTTGTCCGGGAAGCTGATCCTCAGCTTGGACCCCACGCTGACCTGTTTCGCAAACACGTAGGTGCTGCTGCCTGACCTCTCAGTAGGAAC
M
TGTGTGGAGAGCCTCACCTGGTGGGGACAATACGAGATGTTTGGGGAGGAGGGATGCTTAGAGACAAAGGCTGAGGAGAACAGGTAGGCTTCAGCATCAC
Celera SNP ID:            hCV25987463
SNP Position Genomic:     221051
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,23)   caucasian(A,9|C,17)   total(A,18|C,40)
SNP Type:                 INTRON


Context             (SEQ ID NO:56712):
ACACTGGCCAATGTTGCTGCAATGTAATAGAAAAGGGAGAAGTCATAACACATAAGATAGAGAGGTGGCATGAGTCCAATCCCATATGGCTTTGTAAAGC
R
CCCTTAATTGAGTATGAAGCTATTGGAGGTCCTTCAGGAGAGAAATGACCTTATCTGTTTTATGTTTTAAAATACTCACTCTGACCTAGTATTAGGGTTC
Celera SNP ID:            hCV1484416
SNP Position Genomic:     73903
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56713):
CATAGGTGAACCTCGAAGACATGCTAAGTGAAATAAGCCAGTTATAAAAGCACAAATATTGTATGATTTCACTTAGATGAGACATCTAGAGAAGTCAAAT
R
TATAGAGACAGAAAGTACAATAGTAGTTGCCAGGAGCTGAGGGAGGAGGAGGTGAAGAGGTTGATAATAGGTACAGAGTTTCAGTTGGGGAAAATGAAAA
Celera SNP ID:            hCV2248643
SNP Position Genomic:     120146
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56714):
CCAAGAATCATCTGCTTAAAATCGACCAGAATATAGCATCAGAATGGCACATTTTCCTGCTTCCAGCATATTTTTATATAGAAAACATAGACCCCAGGAG
S
TAGGAGGTCAGCACTGTCATATACCAGTTACAACATTCATAACTACAGTAGAACTTATTACAAACCAGAGGAAATATGTCTAATTTTTTTCCCAGTTTTC
Celera SNP ID:            hCV28972832
SNP Position Genomic:     154004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56715):
ACATGATATATAGAAGAACAAAGAATGACAGCAACTTCTCGTCAGAAACAGTGCAAGCCAGAATACAGTGGAGCAGCATTTTTAAGTTCTAAAAGGAAAA
S
AAGTTGTTAAGCTAGAATTCTATACCAAGCAAGAATGTCTTTCAAAAATAAAAATGAAGACATTTGCAGAAATATAAAAGCTTAGAGAATTAATCACAAG
Celera SNP ID:            hCV2248644
SNP Position Genomic:     121103
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56716):
CCTTTATAAACTTGGGGTGGGGAAAGCCTTTTTAAATATGATTCAAAATCTAGATAGACCGACAAATTTGACTTTTTAAAACATTTTTAGGGGAAAAAAA
Y
ACTCCAAGCAAAGCTAAAAGACAAATGATAAATGGGAGAAAATATTTGCAACATAAGGCACAGATAACTCTCCCTAATTCATAAAGAACACTCATAAATA
Celera SNP ID:            hCV2248645
SNP Position Genomic:     122229
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   (T,-|C,-)   Caucasian(C,17|T,67)   African-American(T,84)   Asians(T,84)   total(C,17|T,235)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56717):
AATCAGATTATTTGTTGTTTTGTGTTTTGGGGGGGAGTTTTTTGTTTTTTGCTGTTGTTTGAGCTCCCTGCATGTTCTGGATATTAATCCCTTATTGGAT
K
AATAGCTTACATATATTTCTCCCATTCTGTACTCTTTTCCCTCTGTTGATTGTTTCCTTTGCTGTGCAGAAGCTTTTTAGTTTGATATAATCTCGTGATG
Celera SNP ID:            hCV1484419
SNP Position Genomic:     76368
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56718):
GAAATCTCCTTTACAGAATGCCAGCCAATAAATATAGAAGGAATGAGGCTGGGCAAAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGATG
R
GTGGATCACATGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAACTCTGTCCCTACAAAAAAATACAAAAATTATCTGGGCATGATGACACA
Celera SNP ID:            hCV2248648
SNP Position Genomic:     124093
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56719):
GGGATCCAAAACCTGTATTTGTTATTGCTTCTCAAGAAGTGAGGCAGTGAGTCTATCCGTTGAATTTTCTAATGGGGTAAAAGTTACTGTAAAGGGTATT
R
AATTAGGTTTGCCTATGCTGCTAGTTAAGTCTCAACACTAAGAGCATCCTGCTTCTGAATTACCTAGCACTTATGTAACTCAGGAGTAGTTCTTGTATTC
Celera SNP ID:            hCV2248649
SNP Position Genomic:     133263
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56720):
TCAGTAGTAGAATGAACCAGGCTAAATCTAGATCTTTCATCTCAGTTTCTTGATACAGAGAAACCATGTTTACCCTCAAGTTTGTAATTCTGTAGGATTC
R
TACAAGACCCTAGATAATGCCATGGATTTATAACTCCCTCAGTTTTTAAAAGATAAGAATCTGAGACTTTAGAGAGGATTTACAGAATGGTTTATGGATG
Celera SNP ID:            hCV28972839
SNP Position Genomic:     48299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56721):
CAGCAGAAAAATGGCTAAATAAAATACAGACTGGCTGATAAGCCTAAAGAGATCTTTGACTTTATTAGTAATCAAAGAATTGCAAATAAAATTATAATAG
Y
ATTTTATTTTTTCACTGATAAGATTTGTCAAAATTATGGAAATTGTTAAAACACAGTTTTAGCAAATATGTGGTAAACACACCTGTGTACTTTCGGTAGG
Celera SNP ID:            hCV15755227
SNP Position Genomic:     92280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56722):
TCTTTCATTTGTAAGGATGGAATAATAAATTGTAATGTTTTATTTTTCTAACAGCAAACAATGATGAAATGTATTCAGTCCTTGCTTTAGGGCCCTGTCA
M
CTAGAAGCAAACTCTTCATTAAATTCTGATAACGCCTTTAAACCTTGACTTCAGAAAATAGTCATCTCATTTGCCCTATGGACTAACTGTCTAGTCATGT
Celera SNP ID:            hCV15755228
SNP Position Genomic:     96515
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,200|A,1281)   total(A,1281|C,200) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56723):
TAACACCAAGCATGAAACAGTTCCAAATGTTGCCAAAATTCTAGTGCCCTTATGTAGATCAGAAATTGTGTACCCATACCATTGCTGGCTATGGCTATAT
W
CTACTCTTCTGCCAAGCTTCTCTGTTCTTGGGCAGTTCTTGTGAAAATAGCACCCTAAATGAGCAGATTTCCTGGGGGAGGTCCAACCAAGTGATGGAGC
Celera SNP ID:            hCV433594
SNP Position Genomic:     202608
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56724):
ATGGCCAAGGCAGAAGGAGGGAAGTGACATTTGGAAAGGTTCCAGAGAGAGAGAATGACTTTTGAACTGAATCTTTTTTATTGTTTAAGTTTTTTTAAGA
S
ACAGAGTTTTGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGCTGATCATGAGGTCAGGAGATCGAGACCATCCTGG
Celera SNP ID:            hCV26064277
SNP Position Genomic:     14772
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56725):
GGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGCTGATCATGAGGTCAGGAGATCGAGACCATCCTGGTTAACACGGTGAAACCCCGTCT
Y
TACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCGGGTGCCTGTAGTCCCAGCAACTCCGGAGTCTGAGGCAGGAGAATGGCTTGAACGTGGGAGGCG
Celera SNP ID:            hCV26064278
SNP Position Genomic:     14895
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56726):
ACCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCATCTTTCCTCTTAATATTGCTTTTGCTGTATCCCATAGGTTTGGGTATGTTA
Y
GTTTCTATTTTCATTTGTTTCAAGAAACTTTAAAATTTTCTCCTTAATTTCTTCATTGACCCATTGGTTATTCAGAAACATGTTTAATTTGTTTCTTTTT
Celera SNP ID:            hCV1484420
SNP Position Genomic:     77701
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56727):
TCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCGGGTGCCTGTAGTCCCAGCAACTCCGGAGTCTGAGGCAGGAGAATGGCTTGAACGTGGGAGG
M
GGGAGGCGGAGCTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGATGACAGAGCCAGACTGTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV26064279
SNP Position Genomic:     14994
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56728):
ATTTGTTCTCCAGAAGGGGCTTATAGCACACACTTCCAGCAGCTACTTGGCAGCCTGGCTTCTAATGAACTTACATTCGGGAGCTGATGGGAAAACAAAC
R
GTAGCCCTCTAGCTAATCTCAGTGATAAATCCAAGGCTACTCATTCTTCCTGGAAGGAGTTTCGTCATGTCTCAAGTGCCACAACTTCTATAACTTCCAC
Celera SNP ID:            hCV1484421
SNP Position Genomic:     80274
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56729):
TCATTTCATTTGCCCAGCCACTATTGGGGAGGTTCGGGGCTCAGAGGTGCTTGTCACTTTTGATGGGTGGCGAGGGGCCTTTGACTACTGGTGCCGCTTC
R
ACTCCCGAGACATCTTCCCTGTGGGCTGGTGTTCCTTGACTGGAGACAACCTGCAGCCTCCTGGCACCAAAGGTAAAGGCCCATCTACGTGCTCTTGAAA
Celera SNP ID:            hCV2248651
SNP Position Genomic:     136205
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56730):
TCTGGTCCCTTGTAACATTGACATCTTTCAACGGTCTGCTTAGGCAGTGTGTGAACTGATAAAAAAAAAATGGTAAAGGTTAGTAATCTCTTATCTGTCC
S
CAAAGCCATATGAGTGAGACCTCAGCTGTTCATTTTGTTATCATGAAAAGCTTTTATTAGGTGACTCCTGTTTATAGATGATGACATGCATTCAAATCTT
Celera SNP ID:            hCV28972840
SNP Position Genomic:     48657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56731):
CTGCTATTATAGTTATATTCTATATTATAACTATATCATATTATACTATATGATTATTACAATATGCTATATTATCATTATTATAAAACTAACCACTACC
W
ATGAGAGAGTATATATAAAGTACTAGAATAGTGTCACAGACTAAATGAACAATAAAATGATACAGATGATGACAGTGGAGAAGATCCAGAATAGATTTTG
Celera SNP ID:            hCV2248652
SNP Position Genomic:     137034
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56732):
AAAACTAACCACTACCAATGAGAGAGTATATATAAAGTACTAGAATAGTGTCACAGACTAAATGAACAATAAAATGATACAGATGATGACAGTGGAGAAG
R
TCCAGAATAGATTTTGAGGTAGCTGCTTTTAGTAAAGATAATAATAATAATCTCATCCTCTTAAGTCTAAAAAGTACTGGTGAATCTGAGGGAATGAAAA
Celera SNP ID:            hCV2248653
SNP Position Genomic:     137118
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56733):
GGTTTCTTTGTACAAAGCAAAAATTTCAAAATCGGACTCAACATCGTGGCTCACGTACAGGATTCTTACACTGGTCTGGAGGGTAATAATTTGATGCTTA
R
AAACAAAACTTTCAGAATATCTTTTCCTTTTTTTATTTGGAAAGTGCTTTCCATACTTAAAGAATGTTCTCTTTTTGTTTTAAAACCACATACGAAATTA
Celera SNP ID:            hCV2248654
SNP Position Genomic:     141586
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56734):
CAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAGAAAAAGGAAAAAAGAAAATGGCTAGATTGTAG
K
GTGTAAGTAGAGGAGCAGAAAGAGATAAGGCACAGCAGAGGAAGGCGCAGAATGCTTCCCTCATAGACCATCTTAAGGATCTGGATTTTTACCTTATGAG
Celera SNP ID:            hCV2248655
SNP Position Genomic:     142893
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|T,4)      total(G,3|T,4) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56735):
CCAGGTGAGAGAGAAAATTGAAGCAGTGACATGGTGGTGAGGATAAGATGGGGTGGGGGGCATATTCTTTGAATAAAGAAGACAAAATGCAAGTTCTTAA
W
GTGTATCACCTATTGTGACTATTTTATTTATTTAACAAACAAGCCCTGTACCATGTAAAATAATGCCAAGTTTTCAGTGTAAGTATTTATGAGGAGCTAA
Celera SNP ID:            hCV2248656
SNP Position Genomic:     143915
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56736):
TAGATTAATGGTTTCTAGGGACTGGGCTGAGAGGGTAATGGGGAATGACTCCACTGGGGCAGGGGGTTCATTTTGAGGGGATTCTGGAAATGTTATAAAA
W
TAGATAGGGATGGTGTTTACACAACTCTGAGAATATTCTAAAAATCATTGAATTGTATACCTTAAAAGGGTTAATTTTCTGTTTTGTGATTTAAACATAT
Celera SNP ID:            hCV592976
SNP Position Genomic:     105359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56737):
GATTTGTTTCCAGAGCCCATATTCACTCACCTCTCAGTTACTAAACACATGTACACCTCTACACCTGGACCACCCCCTGCCCTTCCACCCAGCTTTTTTT
Y
CTAATAAGCCACAACAACCAGGAGGGTGTGGTCTCTACAGGTTTGGCAGCTAATATACCCCTCTTGTCTCCTGAGAAGGTGTGTTCACTAGCCACTAGTT
Celera SNP ID:            hCV2248657
SNP Position Genomic:     144773
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56738):
TCCATGGAAACAGAAAGTAGATTAATGGTTTCTAGGGACTGGGCTGAGAGGGTAATGGGGAATGACTCCACTGGGGCAGGGGGTTCATTTTGAGGGGATT
M
TGGAAATGTTATAAAATTAGATAGGGATGGTGTTTACACAACTCTGAGAATATTCTAAAAATCATTGAATTGTATACCTTAAAAGGGTTAATTTTCTGTT
Celera SNP ID:            hCV592977
SNP Position Genomic:     105342
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56739):
AGCACGTAGTAGATGCCCACTGTGCGTTAGTTGCATCTGAATCAAGATCCCCAGGCCTCCCAAGAAAAGGGAACTGCACGCAGAGCCAGGAAAGTGCTCT
R
TTTTGGTCAGGAAAAATAAATATGAGATGAGGCTTCTGCAGTGAACCAGTACTCTCATAACTGATTTTTTCTTGGTTATATGCTTGTGGTACACAAATAG
Celera SNP ID:            hCV2248658
SNP Position Genomic:     145524
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;JBIC-allele(A,624|G,845)   total(G,845|A,624)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56740):
CCTGGGTGACAGAGTGACACCCTGTTTCTAAAAAAGAAAAGAAATGAATTTGAGACATTCGGGAGACAGTTTCTCTGGAAAAGACATTCTTTTTTGAGCC
R
CATTCCTTTAAGCTTTCAGTACTAGAGGATCCTAAAACTAGAAGCAGACTAAGATCAAATGCTAGGGAAACCGTGGACTTGATGCCAAACTAAGCAAAAA
Celera SNP ID:            hCV27490208
SNP Position Genomic:     152150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56741):
TAATAAATTAATTAATATACTATTAGCTATTATGTAGTTCATATTAGAATTTCCCCTAGTTGTCACACTAATGTCCTTTATAGCTGTTGTTTCCTAATCC
R
GGATTCAATAAAGGATCATCCACTGCATTTAATTCTCCTGTCTCTTTAGTTTCCTTTATCTAGAACAGTTATCCACCTTTTTTTTTCTATCTTTCACGAC
Celera SNP ID:            hCV11304044
SNP Position Genomic:     206600
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56742):
TCCGGGATTCAATAAAGGATCATCCACTGCATTTAATTCTCCTGTCTCTTTAGTTTCCTTTATCTAGAACAGTTATCCACCTTTTTTTTTCTATCTTTCA
Y
GACGTGACATTGGCATTTTGAATAATCCAGGCCAGTTGTTTTACTTTAGGTCATCAAATATTTACAAATACTTACTCTGTGCCCAATTCTATACTAGACT
Celera SNP ID:            hCV11304045
SNP Position Genomic:     206697
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56743):
CATAGACAAGAAGGTGAAAGAGACCTTATAAGCTGCATGGTATGTGGAAAGAGTTATATGGCTTATATATATATGGCTTATATATATATGGCTTATATAT
R
GGGATTAAGAGTCCTGATTCAAGTCCCAGTTTGCCACTCAGTGGTTCTGTGATTTAGGCAAGGAGTTGCCGTGAATGATTTCTAAGATCTCTTCTCACTC
Celera SNP ID:            hCV26064280
SNP Position Genomic:     16367
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56744):
AGGTTTTAAAGGATGAGTAGACGTTTTTTAGGTAGACTGAGGAGGTGAAAGAGGGGGCGATCCAGATGGAAGGAGTCAGCATATGTAGTGTTTGGAACTG
Y
ATAAATCGTTTATTACTGCTGTGTATTAAGGTTAAGAAGAGCTGACTAAAGGTGAGGCTAGAGGGTAGGCAAGGGCTGGATCATCCGAGGATGATTTTTG
Celera SNP ID:            hCV26064281
SNP Position Genomic:     25502
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56745):
AAATCCGTATTGTTTATGTGACTTGCAAGCAGGTCAAAAAGATACCTGAATTTTAAATACTCTGTGGGGGCCAGACCATCTGATCCCTGCAGCCATTTCT
R
TGATCCCCTGGCTGATCCTTTTCTATGGAGGGAACTTCTCCTCACCTAACCCATGCTAGATTGCTTTCTTTCAGTACCAGAGTCTCTGAGAAAAGAAAAA
Celera SNP ID:            hCV15875061
SNP Position Genomic:     204307
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,177|A,1134)   total(G,177|A,1134) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56746):
TTCACTGGAACAACTCACAGAACTTAGGAAAGTGCTGTTCTTATTATTACAGGCTTATTATAAAAGATAAATCAGGGACAGCCAGATGAAGAGACACTTA
R
GATGAGGCCTGGGAGAATCTCAATTGCAGAACTTCTGTGCCCTCCTTCCATGGAATTGGGGCACATCACCCTTCTAGCATGTCAGTGTGTTCACAAATTA
Celera SNP ID:            hCV26064282
SNP Position Genomic:     30312
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56747):
CCATACGAACTTTAAAGTAGTTTTTTTCCAATTTTGCAAAGAAAGTCATTGGTAGCTTGATGGGGATGGCGTTGAATCTGTAAAGTACCTTGGGCAATGT
G
CCATTTTCACGATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTGTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTC
Celera SNP ID:            hCV26064283
SNP Position Genomic:     39281
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|-,4)   total(G,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56748):
GGGCTGAGACGATGGGGTTTTCTAAATATGCAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCTTT
Y
TCTTGCCTGATTACCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATGCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGT
Celera SNP ID:            hCV26064284
SNP Position Genomic:     39678
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56749):
AATCTGTAGATTGCTTTGGATAGTATTGCCATCTTAACAATATTAGTCTTTCAGTCCATGAACACAGAACAGAGTATCTTTTCATTTACTTACATCTTCT
K
TAATTTCTTTCTGCAATATTTTGTAGTTTTCAGTGTACAAGTCTTTAGCCGTGTTAGTTAAATTTATTCCTAAATATTTTATTCTTTTTGATACTATTTA
Celera SNP ID:            hCV26064285
SNP Position Genomic:     53496
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56750):
TTCATAGCTAGCATATAGAAATGCAACTAAACTTTGTGTGTGACTTTGTATCCCGCAACTTTGCTGAATTCATTTATTAGCTCTAATAGCTTTTTTGTGG
R
ATCTGTAGAATTTCCTACATATAAGAGTATATCATCTGCAAACAGAGATCATTTTACTTCTTCCTTTCAAATCTGAATGCCTTTAATTCCTTTTTCTTGC
Celera SNP ID:            hCV26064286
SNP Position Genomic:     53732
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56751):
TTCCTAAATAGTAGCAAAGGATGATGATGAAGGAAAAGGAAGCAGCAACATAAATTAACATTGACTGAGTGTTTACTATGTGCCAGGTACTGTTCTAAGT
G
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTCCTATTTAATCCTCTCAACAACTAAATGAGATAATTGCTATTATTGTCTTTATTTTGCTGCGGAGGAA
Celera SNP ID:            hCV26064287
SNP Position Genomic:     57030
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56752):
TCCTAAATAGTAGCAAAGGATGATGATGAAGGAAAAGGAAGCAGCAACATAAATTAACATTGACTGAGTGTTTACTATGTGCCAGGTACTGTTCTAAGTG
K
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTCCTATTTAATCCTCTCAACAACTAAATGAGATAATTGCTATTATTGTCTTTATTTTGCTGCGGAGGAAA
Celera SNP ID:            hCV26064288
SNP Position Genomic:     57031
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,4|-,7)   total(G,4|-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56753):
CCATCCAAGACAGCTGAACCTTTGAAATTCCCAAAGAAGAGAGGTCCCAAACCTGGCAGCAAGGTAGGTAAAATGTGGGTTTCCCAGAAAGGGATAAGGG
W
TTATAAAGGGGTCATTCGGCCAGGCGCCGTGGCTCACGCCTGTAATCCCAGCACTTAATGGGAGGCCGAGGCGGGCGGATCATGAGGTCAGGAGATCGAG
Celera SNP ID:            hCV2248661
SNP Position Genomic:     174380
SNP Source:               Applera
Population(Allele,Count): african american(A,34|T,4)   caucasian(A,32|T,6)   total(A,66|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56754):
CCTCTTCTTTAAAAAAAATTGAATACCTACTAAGTGTCAGACTGTATTAAACACCAATACATACATATCCCATGATTTTCACAAAACCCTAAGAGATAAA
Y
AGTGTTAATGTTATTTTATAGTAAATTGAGACTTACAGATGTAAAATGATTTTTCTAAGATCACATGGCTAGTAAATGGCAAAAGCTACAGAGATTGGCC
Celera SNP ID:            hCV2248662
SNP Position Genomic:     175161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56755):
TGATATAATATATTCTTATACAATATCTATTAAGATGAAAATACACATAAACTACAATCTAGCAATTCCACTCCTAGGTATATACCCTTTGGAAACTCTC
Y
AATGTATGCATAAAGGGATGTTCAAAAATATTCATGCAACACTGCTACAGCAAAAAATTTGAACTAGTCTAAATGCCTGTCAGTAAAAGAATGAAAATAT
Celera SNP ID:            hCV11303823
SNP Position Genomic:     13480
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,9)   total(C,9|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56756):
AATGTAATCCTAGACTACAGAGAGAAAAACTAGGATAGAGGCAAGAATAATACAACTTAAGGCTAACTTGTAGGTCTCAACATGAGGTCACCTGATAGAC
Y
GATCTTCCTCATCCATCCATTTATTCAAATTCTAACTATCAAGTCATGATTAAGTACTAGTCATTGGCTCAGTTGATGGAGATTCTGCCGTTAGTGTTTA
Celera SNP ID:            hCV15993432
SNP Position Genomic:     142136
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56757):
AATGATCAATGGTGCAACTATTCTAAATCCAATGACATACATACACACACACACACACACACACACATATGCCCTTGCTAATATTGCCATTGCCCCACAG
Y
GCCTTACACATATATGGTAAGAGGTACAAAGAATATGTGAGGCAACCAAGTACAAAAAAATGGAAGTACGTACAAGAGGGGAATTGTCTAGATTTTCTTT
Celera SNP ID:            hCV15993433
SNP Position Genomic:     200323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56758):
AGGCAGAGACAGAGGTCGACGGGGCGGCGTGGCCCCCACCGAGAGCTGGGGCGCCTAGGGCCCGGAGCTGTCAGCAGCGTCCTGGGGGCTGGGCCCCGGC
Y
GGCCGACTCACGTGTGCCGCCTGCCCCAGTGCCCCGCCGGAAACGGGCAGGGAGAGCGGCCCCGCACCGAAGTGAGCCACAGCGGCCCTGGGGGCCAGAC
Celera SNP ID:            hCV1484368
SNP Position Genomic:     8116
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56759):
TCCCAACACTTTGGGAGACCGAGGTGGGCAGATCACTTGAAGCCAGGAGTTCAAGACTAGCCTGGCCAACATGGCAAAATCCCATCTCTGCTAAAAATAC
A
AAAAAAAAAAATCAGTGGGGCATGATGGCATGCACTACTTGGGAGGCTGAGGCACAAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGAGGAGTGCAG
Celera SNP ID:            hCV11304050
SNP Position Genomic:     209956
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,18)   total(A,1|-,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56760):
GCACAAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGAGGAGTGCAGTGAGTTGTGCCACTGTATTCCAGCCTGGGTGATAGAGTGAGACTCTGTCTC
A
AAAAAAAAAAAAAGTATTTGCAATCTTCTTTTCTGGCACTGTCCTACCAAAGAGAGCCTCGTCTGATCAGCCTTGTCAGGACTAGGACCCCCCAGAGCTT
Celera SNP ID:            hCV11304052
SNP Position Genomic:     210108
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56761):
CTCAAAATGGGACCCTGTTAGTCATTTTTCCTGGAAAATAGGAGTCAGAACCCTCATCTGCAGAAGGAGGTGGGATATGGCTTAGGTATTATGGACCCTC
R
GACTTATCTTTTCAGAACCACTTCTAGGAAAGGGTTTCAACAATTAGCCTCCTTGATATAAAGGTAAATAGCTGTCTAATCCTAGATTTTACTTTGAGCT
Celera SNP ID:            hCV11304053
SNP Position Genomic:     210887
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1|-,7)   total(G,1|A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56762):
CCCAGGCCACCCATACTTCTGACCAGCTGGCTACAAATCTGAGGGGTTCCCATGATCCCTTTCAGGTTTGACAATTCACTGGAACAACTCACAGAACTTA
R
GAAAGTGCTGTTCTTATTATTACAGGCTTATTATAAAAGATAAATCAGGGACAGCCAGATGAAGAGACACTTAGGATGAGGCCTGGGAGAATCTCAATTG
Celera SNP ID:            hCV8364937
SNP Position Genomic:     30238
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56763):
TCTCCTGAGTCATGGAGAACATACTACTTCCTCTGTAGCTCTTTTAAATGGATGCAGCACATTCTCCTGCACCCCTCCCATCCCAAAGAAGAGAGGTGAA
R
ATAACTGTATTTTTTTATTCTCCACTATATCTGGACCATTACTTCTTCATCTTCTTAAAACCCCTGTGCTCTTTGGCTATACACACCCTTGGTTTCTGAT
Celera SNP ID:            hCV8364938
SNP Position Genomic:     13283
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56764):
ACTCCATATGGGGAGGAGAAGGATCCCTGTCACCTTCTCCTCTCTTCACGGGGCCCTTTTGCAGCCCTAGGCCTCATCTGTGGGAAGGGAGTCCCTGGCT
Y
ATACTGCCCCCACCACAGCTCCTTGCCCTGGCCAGAACTGCTGTCGAAGAAAATCAGGCCGGAAGGCCAAGAAGGCGCTAAGGGGGATGGGAGGGCAGGT
Celera SNP ID:            hCV8361452
SNP Position Genomic:     222162
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:56765):
CAAGCTCTCCTACCACATTGACCGGCTGAAGCAGGGCAAGTTCTGAACCAGGAGAGGCAGCCTAGACAACCAAGTGGCAGCAGGTGGGGGCATTCTTCTA
R
GAATGAGGGGCATCAGCCCACCCCAGGCACCTCAGTGGGGTTCCGGGCCACCTCAGGACTCCAAGAGGCTGTGTGGAGCCACCACTCCTAGCCACAGCTG
Celera SNP ID:            hCV8361453
SNP Position Genomic:     221462
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,5|G,33)   total(A,6|G,70)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:56766):
TGTAACTAATGTTCTGGTTGAAATATATTCAAAATGCATTGGGCATGGTAACTCACACCTGTAAGTCCAGCACTTTGGGAAGCCAAGGTGGTCAAATCTC
Y
TGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACTTGGTGAAACCCTGTATCTGCAAAAAATACAAAAATAAGCTTGGCGTGGTGGAAACATATTCAAAGT
Celera SNP ID:            hCV1484371
SNP Position Genomic:     14541
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56767):
TTTAATTTCTAGGGTACATGTGCACAATGTGCAGGTTTGTTACATAGGTATACATGTGCCATGTTGGTTTGCTGCACCTATTAACTTGTCATTTACATTA
R
GTATTTCTCCTAATGCTATCCCTCCCCCAGCCCTCTACCCTCCGACAGGCCCTGGTGTGTGCTGTTCCCCTCCCTGTGTCCAAGTGTTCTCATTGTTCAC
Celera SNP ID:            hCV11303832
SNP Position Genomic:     19923
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56768):
AATTTTTAAAACTTGTCAAAATTGGGAATGATTGTATGTGGAATTATTTTAAAGAGCAGAAAGAAAAAAAACAGGGGTCTTGCTATGTTGTCAGGCTGTT
S
TCAAACTCCTAGTCTGAAGTAATCCTCCCACCTCGGCCTTCCAAAGTGCTGAAATTACAGGCGTGAGCCATCATGCCTGGCCCTAAACTGAATCTTAAAG
Celera SNP ID:            hCV1484375
SNP Position Genomic:     15320
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56769):
TGTGATAGTTTGCTCAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGGCATGAACTCATCCTTTTTCATGGCTACATAGTATTCCATGGTGT
R
TATGTGCCACATTTTCTTAATCTAGTCTATCATTGATGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCATTGCCAATCTTATTC
Celera SNP ID:            hCV11303836
SNP Position Genomic:     20169
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56770):
TAAAGAGCAGAAAGAAAAAAAACAGGGGTCTTGCTATGTTGTCAGGCTGTTGTCAAACTCCTAGTCTGAAGTAATCCTCCCACCTCGGCCTTCCAAAGTG
Y
TGAAATTACAGGCGTGAGCCATCATGCCTGGCCCTAAACTGAATCTTAAAGATTGAGAAGGAATTCACCAGATAGAGGGTGAGGAGATGAAAGAAGCCCT
Celera SNP ID:            hCV1484376
SNP Position Genomic:     15369
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56771):
CCACCTGCATATAGGTAGTATCACCTCTATTTTATACATAAAGAAACTGAGACTCAGAGATAGCTGGCCAAGATTATGCAGTTTATAAGTAATAGGACTT
R
GTTTCAAGCCCAGACCAGCCTGACTTCAACCCCAGTCCTCTTTTCATTTCACCATATATGTGCCCCACAGCAGTGTTATGTAATTCTGAGACTTTATCAG
Celera SNP ID:            hCV1484378
SNP Position Genomic:     16971
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56772):
AATTCTGAGACTTTATCAGTACAGGAGGCAAAGTTTACTTGCAGGAATTGACACATATATTTTTAGTCTGAATATATCTTCTATCTCACCAAACAATGTC
R
GCAAACAAAAGATCCCTGGTTAGAAGAATGAAATGGTTTAGCAAATCAAAGTCATATTTATTTTTTAATTTGAGCAGATATATGACTAGATTCCTCGTTA
Celera SNP ID:            hCV1484379
SNP Position Genomic:     17153
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56773):
TTTCATCAGGGACTGGATGACTATAGGAGGGATCTTTTAGGGAGAGGGAATTAGAAGTATTGGGTAGATGGTTGGGTTAAATGGCCTTTAAGATCATTCA
R
AACTCAAAAACTGATTCTGTGATTGCCTCTGCTCTGCTCCCTCAGGAAGTCTTGAACGTAGTAACCAAAGTCCTTTTTCTTTCCAGCCTTCTTGAAAGCA
Celera SNP ID:            hCV15755253
SNP Position Genomic:     176450
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,417|A,882)   total(G,417|A,882) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56774):
GTAACCAAAGTCCTTTTTCTTTCCAGCCTTCTTGAAAGCAGTCATTCTCATCTTTTCCTGTGTTTTATGTCCTAGCATTTGATACTCTTAATTCTCCTTC
R
TGCTCTTTTGCCTACCCCTACAAGTGTATATGCCTTCCACTTCACCTGTGAGCCTTATATCCCTTTTTGTTTGTTTTGCTTTGATTTTTGAGGCAGGGTC
Celera SNP ID:            hCV15755254
SNP Position Genomic:     176611
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56775):
AGATTTGGTGTCTGATGAGGACCCACTTCCTGGTTCATAGACAGCCATCTTCTCACTGTAACCTCGCACAGCCAAAGGGGCAAGGGAGCTCTCTGCACCG
T
GTTTGATGAGAGTACTAATCTCATTCATGAGGGCTCTGCCCAGAGGTCCTACCTCCTAATATATATTATCATGTGGGTAGGGAGGGGTAGGATTTCAACA
Celera SNP ID:            hCV11304061
SNP Position Genomic:     217595
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,10)   total(-,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56776):
AAGGATCTGGATTTTTACCTTATGAGCATCGAGAACTGTATTAGGCTGTTCTTGCATTGCCATAAAGAAATACCTAAGACTGGGTAATTTATAAAGAAAA
R
AGGTTTAATTGGCTTAGAGTTCTGCAGGCTGTATAAACACGGTGCTGCATAGCTTGGCTTCTGGGGAGGCCTCAGGGAGCTTTTACTCATGGTAGAAGGC
Celera SNP ID:            hCV8364877
SNP Position Genomic:     143068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56777):
CCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGGTCCGCCCAGCTTGGCTTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGCGCCTGGGCCCTAGCC
T
TTTTTTTTTTTGCTATGAGCGTTTGGCCATGCCCTATTGAATTTTGTGTCTGTGTGTTATATATATATAACAAAATTTATTATTTCATCCTCTTTTTTTT
Celera SNP ID:            hCV11303842
SNP Position Genomic:     27957
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56778):
CTTTAATTATTTTTTAATTGTGGTAAAATATATGTAACATAAAATTTGCCATTTCAACTATTTTTAACAGTACTAAGTATAGTCACATTGCTGCGCAACC
M
TCATCACCATCCATCTCCAGAACTTGTTTCATTTTGTTAAACTGAAACTCTATCCATTAAACAATAATTATACATCCCATTGTGGAGTCCCAATAAGTAA
Celera SNP ID:            hCV1484382
SNP Position Genomic:     21210
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56779):
TTTGTTTTATTTTAATTGAATTTGTCTGCTCTTTCAGTTTTATGAGTGACCTTTAAGTAATCTCTTATTGCCAAGAGAAGCTGTTTGCCCTCTGGAAAAA
R
TATAAGATTTAGGGTCATTTGACCAAGATATTCTAATCCTAAATCCAGTGATTACTAGCTGTGTGACCTTTATAAGTCATATAAAGTCTCTAAATCTTTT
Celera SNP ID:            hCV1484383
SNP Position Genomic:     24583
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56780):
CTGACATTTGTCCTATGTACCCTGCAGAATTGTGAGGGCCAAATGAAGTGGAGGGTATGAAAGTGCAGGTAAACCCCAGAAACAACAAATGCGGGTAAAC
Y
CTACAACAGAACTTGTGCTATTTACTATCAGCTCTATGACTTTACACCAGTTAAATTATTTGTACCTCAGTTTATTCACCTATAAAATGAGAATATTAAT
Celera SNP ID:            hCV1484384
SNP Position Genomic:     24810
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56781):
ACAAATGGTGACAAAACTCGTCAATACCCATAGGACAGTTATCAATTGCATTACCTGGGCACAGTTTGCATTTCAGTGGACAGGAATTATTTGCATTACT
R
TGAGTTTTCAACAAGCTGACATCTTTCTTGACAAAGCTGTGAAATAGCCTAATTAAAGAGAGACCAAGTAACACATCTCTATACAATCAGGTAATCCTGG
Celera SNP ID:            hCV1484386
SNP Position Genomic:     26289
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56782):
TGAATTTTGTGTCTGTGTGTTATATATATATAACAAAATTTATTATTTCATCCTCTTTTTTTTTTGTTTTTGTAGAAATGGTATCTTGCTATGTTGCCTA
R
GCTAGTCTTGAACTCCTGGGCCAAAGTGATCTTCTTACCTCAGCCACCCAAAGTGCTGGGCCTATTTTAACCATTTTTAAATGTACAGTTCTGTGGCATT
Celera SNP ID:            hCV1484388
SNP Position Genomic:     28095
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56783):
CCTAAATAGTAGCAAAGGATGATGATGAAGGAAAAGGAAGCAGCAACATAAATTAACATTGACTGAGTGTTTACTATGTGCCAGGTACTGTTCTAAGTGG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTCTCCTATTTAATCCTCTCAACAACTAAATGAGATAATTGCTATTATTGTCTTTATTTTGCTGCGGAGGAAAC
Celera SNP ID:            hCV11303849
SNP Position Genomic:     57032
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56784):
CCTACCAAAGAGAGCCTCGTCTGATCAGCCTTGTCAGGACTAGGACCCCCCAGAGCTTTGGAGCATGATGCTTTCAGTACATCTCATTAGGATAAGATTT
Y
ATGACTTGCCATCAGTCCAGATTTTCAGACCCTTCAACTCAGAATCTACGTCTCAGTGTTCTTAGCATTGCTGAAAGGAAGAGACACTCAATGGTTTGCA
Celera SNP ID:            hCV15755262
SNP Position Genomic:     210251
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,374|C,1113)   total(C,1113|T,374) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56785):
TTCTCTCTAAGATTTCTGCTTTCCATTACACCAAAAGTTGATGGTATTAGTCCTGGTTCCAACCTGTGTCAAGATGGCATTGGAAAAGGACTGAGTATGC
Y
TCATGGTTTTCTTCTCCTCTTATACACCAGTTTACCTTGTTCAGATTTCAAAAACATAGCACAAGATATGTTCCATTAAAAAGATATGAACTTTATTTTC
Celera SNP ID:            hCV1484389
SNP Position Genomic:     28729
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,9)   total(C,4|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56786):
GAGACACTCAATGGTTTGCATCAGCATCTGGTAAGCCTCTGGCTTTGTCATCATAATTATTCTTCACATCTGTTAGCTCATGTGAGGCAGACAATACTAT
M
CCCAGTCTTAGCTGAATAAAATGAGAACTAGAAGAGTGAGGTTACCCTGCTGATAAATGCTGAAACTGGATGAAATATTTTTCTTGTACTATCACAGACA
Celera SNP ID:            hCV15755263
SNP Position Genomic:     210432
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,142|C,957)   total(A,142|C,957) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56787):
CTTCCCATTCTCCTTTGGCCCTTCTTCAAAGCTTCATTTGAGACCCTGGATTTTGGCTTCCAAATCCTGATAAAAAATAGGAAAGAAAAAGTATGGTGTA
R
TATCAGAGCACTGAACTGGGTTCTAGTCCCAGCCAGGCCACAAACTTGGTTACGTCATTGAGCAAGTCATTCTTACATGTGAGAGGCTGAACTACATGAT
Celera SNP ID:            hCV8364885
SNP Position Genomic:     140610
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56788):
TGCAAGAAACAAGTACCCTGGGGTCAGTATGGTAAATGCATTGTGAGGAAGCACTGTGAGGTAATAGCTCTGTGGAAGCAGCAAGAAGCGAGGTACCTTG
R
AACTGATAGCAGAGTCATTTTTGTTACTTGAGGCTAAAACAGGATAAGCCTTGGTGCTCTGGGCTTTATTCAGTTAATAGGTTGATTTTCTCATTTTCAT
Celera SNP ID:            hCV8364886
SNP Position Genomic:     139533
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)   JBIC-allele(G,648|A,841)   total(G,648|A,841)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56789):
CAGTGAGCCAAGATCGCACCAATACACTGCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAACAAAAACAAGCAGTGCAAGATGATGTTGGAGAAGTGG
R
CAGGTGCCAAATCATGTAGGACCTTGTAAACCAGAGTGGGAATATTGGATTTTATTCTAAACATATTAGGGAACCATTAGAAGGTACTAAGCCAGGGAAG
Celera SNP ID:            hCV8364887
SNP Position Genomic:     138243
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,6|G,11)      total(G,11|A,6) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56790):
AGCTGGTCCAGACAAAGGCAAGTTTTAAATACCTCCAGTTAGGCATTCAGGAACTCTGATCTACATTTCAGACGTGAAAGTTAGGCCTACCTGGGATTCT
R
AAAGAATGGATGCATGAATGGGGGTTAGCACATCCATGAATGTAGCTGCTAGTTTAAAAAGAGATTTCTCAAAGAAATAGGAACTCCGAATTCTTAAATG
Celera SNP ID:            hCV15875095
SNP Position Genomic:     204564
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,125|G,1368)   total(G,1368|A,125) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56791):
GAGACAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCTGTAAGCCGAGATCTCACCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCCATCTC
A
AAAAAAAAAAAAAAATCTGTAACAATTTGGCTACATGAGAAATAATTATTGAGAAAGGAAACTATTATTTAATGAATTTGTCCACTGTGTCCAGCAGAAA
Celera SNP ID:            hCV11303850
SNP Position Genomic:     63906
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56792):
GGCCTGGGAGAATCTCAATTGCAGAACTTCTGTGCCCTCCTTCCATGGAATTGGGGCACATCACCCTTCTAGCATGTCAGTGTGTTCACAAATTAGGAAG
M
AGCATTGAGCTTCAGTGTCAAGAGTTTTTATTAGGGTTTCATTATATAGACATAATTGATAACTCAATGTTCAGGCCCCTTCCCTGCCCCAGAGGTTGGG
Celera SNP ID:            hCV1484390
SNP Position Genomic:     30418
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56793):
GTTCCTTTTTTGCTTAATATTAATAGTTCATTCCTCAATTTATTTCTTTCCTCTCACATTTTACTGTAAGCACCAAGGAGAACCCAGGCCATACTTCCAC
M
CTTTGCTTAGAAATCGCCTCAGCTAAATGTCCAAGTTTATCACTTGTAAGTTCTACTTTTCACCTAGTGGCTCAACATAATTCGGACAAGTTTTCTGCTG
Celera SNP ID:            hCV1484391
SNP Position Genomic:     32229
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,9)   total(A,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56794):
AAACACGTAGGTGCTGCTGCCTGACCTCTCAGTAGGAACATGTGTGGAGAGCCTCACCTGGTGGGGACAATACGAGATGTTTGGGGAGGAGGGATGCTTA
K
AGACAAAGGCTGAGGAGAACAGGTAGGCTTCAGCATCACAGCAGGTGAACTGGACTCCATGTGGCGGGCACTTCCCAGGATGGCCTATAATCAGAACCTG
Celera SNP ID:            hCV25987584
SNP Position Genomic:     221112
SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,2)   caucasian(G,5|T,15)   total(G,31|T,17)
SNP Type:                 INTRON


Context             (SEQ ID NO:56795):
GAAGATAGAAGAGACAGGGAAGGATCTTCAGAGAGAGCATGACTCTACCAACACCTTGATTTTGGACTTCTGGCCTCCACAACTATGAGAGAATAAATTT
S
TGTTGTTTTAAGATACTCAGTTTAGAGTACTTTGTTACAGCAGCCCTGGGAAACTGAAATAGAGATGTTTCCTGGAGGTACTATAGTCATCGGTGCAAAA
Celera SNP ID:            hCV1484392
SNP Position Genomic:     32697
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,10)   total(G,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56796):
TTTCTGTAGTCTCTTTGCTGTCACCTACTTACCTTTTCACTATTGCCCAGTATTGAGCTTTGAGACAGCAGCTTCACTGAAATAATTTAAAGGTTTTTTT
W
AAAAAAAAATGTAAGCAATTATAGGGGAGGAAAATGTCTTTTCCTCACCTGTCCTAGGTTCATGGCTAAAGTCCTTATAGCAAAAGACATATTAACAAGA
Celera SNP ID:            hCV1484393
SNP Position Genomic:     35661
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,5)      total(A,4|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56797):
GGCTGGGAATGCAAGTATGTTTCAAATATTTGTAATTAAATTGTACTTTAACAACTTACATTGCTTTTTACCTCTGATGAATTTTATTTACCAAGTTATT
Y
ATTATTTGGATCTATCTGTACTATTCGTGTTCCTACACTCTTATTTGTAGCATGGATTCATTTACTGGCATACAGATCATCCATTGCATTTTCCAGAGAA
Celera SNP ID:            hCV1484394
SNP Position Genomic:     36478
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56798):
CAAGCTATCAGACAGGGATGTTTAAATCTGCAGAAGTTGTCTGCTGCCTTTTGTTCAGCTATGCCCTGCCCACAGAGGTGAAGTCTATGGAGGCAGTAGG
S
CTTGTTGAGCTGTAGTGGGCTCTGCCCAGTTCGAGCTTCCTGGCCACTTTGTTTACCTACTCAAGCCTCAGCAATGGCAGATGCCCCTCCCCCCCGCGAG
Celera SNP ID:            hCV1484397
SNP Position Genomic:     43931
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56799):
TTTTTTGTAGAGACGAGGTCTCACTGTGTTGCTGAGACTGTTCTCGAACTCCTGGGCTCAATGAATCTTCCTGCCTTGGCCTCCCAAAGTACTGGGATAA
Y
AGGCATGGGCCACCGAACTTTTTGAACTATTTGATGCCTTTCTGCCCTTAACTGTTATTTTGTTCATTTTGCTGCATAATTGAGTATGGATTTTGTTTTC
Celera SNP ID:            hCV3028811
SNP Position Genomic:     67099
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56800):
CAGAGGTGTACTGATTTTCCAGGTGCAGTCTGTCACGGCCTCCCTTGGCTAGGAAAGGGAAATCCCCCAACCCTTGTGCTTCACAGGTGAGGTGATGCCC
Y
GTCATGCTTCGGCTTGCCCTCCGTGGGCTGTATCCACTGTCCAACCAGTCCCAATGAGATGAACCAGATACCTCAGTTGGAAATGCAGAAATCACCCGTA
Celera SNP ID:            hCV1484398
SNP Position Genomic:     44321
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56801):
ACTCAGAAATAATGTTTACCAGCTATTTGGGCGTCCCTTAGCCCAGTTAAGTTGACACATAAAGTTAACCATCACAAGTACTCGTTTTCAACTCGGCATC
Y
GTATGTATTTCCTTAAGCCATACTTGATCTCCAAATGAAGACAGTAACAAGGTCATTATTCTACCTAACATAAACAGCTATCCTGCATACAACAAAAAAC
Celera SNP ID:            hCV3028812
SNP Position Genomic:     74544
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56802):
AAGGGAAATCCCCCAACCCTTGTGCTTCACAGGTGAGGTGATGCCCCGTCATGCTTCGGCTTGCCCTCCGTGGGCTGTATCCACTGTCCAACCAGTCCCA
R
TGAGATGAACCAGATACCTCAGTTGGAAATGCAGAAATCACCCGTATTCTGCATCGATCATGCTGGGAGCTGCAGACTGGAGCTGTTCCTATTCAGCCAT
Celera SNP ID:            hCV1484399
SNP Position Genomic:     44375
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56803):
CCCTTCCCCAGGGGAGTGAAGTTCTTCAGTGATGTTTACTCTTCTCCTGATAGCCTGTAACTTAAATATTATGATGTAAAATTAACAATACTTAAATATT
R
ATATAAAGTCAATACAACTTTTGTTACATGATAAGAAAATAAGACAGGAAAGAAAGCAAAGATATTTGCTTAATATGTGTGTATATACACACAAACATTC
Celera SNP ID:            hCV3028813
SNP Position Genomic:     74753
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56804):
TTCCTTTACACACAGATTTTCATTTTATCTTCTGGTAACTCTGAACAAGGTATAATTATTTTCAGATACATTTTATTTATGAGAAAACTGAAGCTCAGAT
M
ATTAAATGACTTGGCTCTGTTGATATCTGAGTCTAGAGAGTGAAACCATGGAGATCTTTTAGTAGAGCCACCTGTCAGGACCAATATATCACTGAGGCAT
Celera SNP ID:            hCV2524906
SNP Position Genomic:     140380
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|A,11)      total(A,11|C,2) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56805):
CCATTCTCCTTTGGCCCTTCTTCAAAGCTTCATTTGAGACCCTGGATTTTGGCTTCCAAATCCTGATAAAAAATAGGAAAGAAAAAGTATGGTGTAATAT
S
AGAGCACTGAACTGGGTTCTAGTCCCAGCCAGGCCACAAACTTGGTTACGTCATTGAGCAAGTCATTCTTACATGTGAGAGGCTGAACTACATGATCCCT
Celera SNP ID:            hCV2524907
SNP Position Genomic:     140614
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,14)   total(G,1|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56806):
CAAGCGTCCAACTAATCCAGAGTACTTGGTTATAAAAGGCAGAAGCTTTTTACTTTTAGCTTATTTTTTGTGACTTAAAATAAAACTGAAACAGATACAT
S
CTTTAGTTTTTAAATGTAAAAAGCAAAATGAAGAATTCAGTACATATGGCATGACTATGATGCTAATCATACCTTTAGCCATCATGATAATCCACTTGAC
Celera SNP ID:            hCV2524908
SNP Position Genomic:     141069
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,12)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56807):
TTGACTTCCCCTTGCTCTGATTTCAGGCTGGGAAAGCCAGTTTCAGATTATACCTTAGCTCCCTATGTGGATTGATAGCAGCGAGACAACATGAGACCCA
R
GCTACTTTATATTTTTATTATAAATTAATATATTGCTATTCTGGATTAGTACATTCGTCTCTTGTGACTTCATATGTTGTTAAACTGGATCTGTCTGCTG
Celera SNP ID:            hCV2524909
SNP Position Genomic:     141265
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56808):
TCCAAAAGCTGAATCTTCCCTTTTCATTTTACCCATACATTGCCAGTTTTAAAGTGTGGGCTCAGGAGTCAGATTGCCTGAATTTTAATCCTGTCTTTTC
R
TTTGCTCACTTTGAAATCTTAAGCAATTTATTTAACTTCAAATAAATTGTACCTGTTTCCTCATCTATAAAATGAAGATAATATCTACCTCCTAGGGCTG
Celera SNP ID:            hCV15961929
SNP Position Genomic:     130474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56809):
TTCCTCAAGCTTTTTAAGGTACTGATGTGTGGTAGAAAAAACATGGACATAGGAGTCAGACAATTTGAACCAAGGTTCAAATTCCTATTCCCACTTACCA
R
TTTTGTGACTTCAGGCAAATTACTTAATCTTTCTAAGCCTATTTCCTCATCTTTAAAATGGGAGTAAAACCTACTTTGCAGGTTATAATGAACACAGGAG
Celera SNP ID:            hCV25928363
SNP Position Genomic:     89991
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:56810):
CCTACCTCCCCTTCCTTCCCTTTAGTAACCACTATTCTGTCTACTATGAGGTCAACTTTTTTAGCTTCCACATATGACCAAAAACATGTGGTATTTCTTT
S
TGTGCCTGGCTTATTTCATTAACCTGATGTTCTACAAGCTAATCCATGTTGCCACAAATTACAAAATTTCATTCTTTTTATAGCTAAATAGTATCCCATT
Celera SNP ID:            hCV11303860
SNP Position Genomic:     75695
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56811):
TTTCTTTATCTATTTATCTAATGATGGACACTTTGGTTGATCCCATATCTTGACTATTATGAATAGTGCTGCAATGAACATGGGAGTGCAGATAACTCTT
Y
GACATACTGATTTCCTTTCCTATGGATATATACCCAGTATTGGAATTGCTGGATCATATGGTAGTATTCTTTTCAGATTTTTGAGGAACCTTCATCCTGT
Celera SNP ID:            hCV11303861
SNP Position Genomic:     75913
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56812):
AGAAATGGTAATTTATAAGACTGGGAAAGTACCTTTTTTTGTTGTTGTTAGAGACGAGATCTCACTATGTTGCCCAGGCTAAGTGGAAAGTGCTTTTACA
R
TTCTCTTTTATCACCATACCCGGGTTTTGATAAACTTAGTATTCTCCTTAGTAAAAGTTTTCATCAGATACTTGCTCTTTTTTATCTTGTGATAACTTTT
Celera SNP ID:            hCV27478425
SNP Position Genomic:     149308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56813):
AGACTCCATCTCAAAAAAAAAAAAAAAAAAAGCAGGTGAAATTAATTTTAATACTATATTTAATCCATAATATCCAAAACATTATCATTTCAATATGTAA
Y
CAATATAAGACATTATTAGTGAAATAGTTTACATTCTTTTTCTACTGTGTCTTCAAAATCCAGTGTGCATTTTATATTTACAGCACATCTCAGTTTGAAC
Celera SNP ID:            hCV16067341
SNP Position Genomic:     163791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56814):
TCCCATTAAGCTTTCCTACCTAAGTTGAGACTACTACTTTTTTCTCCAATGTTTTATTTTAAAAATTTCAAACCTACAGAAAAGTTACAAAAATAGAACA
R
TAAGCAACCATGAACTCTTTGCCTATCTTTACCACTTTTTGCAGTATTTACTTCGTCTGTTTCTCCTAACTATATATACACATATAAATATACATACTTG
Celera SNP ID:            hCV16067342
SNP Position Genomic:     205598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56815):
GCGACAGGTTTCTTTGTACAAAGCAAAAATTTCAAAATCGGACTCAACATCGTGGCTCACGTACAGGATTCTTACACTGGTCTGGAGGGTAATAATTTGA
Y
GCTTAAAAACAAAACTTTCAGAATATCTTTTCCTTTTTTTATTTGGAAAGTGCTTTCCATACTTAAAGAATGTTCTCTTTTTGTTTTAAAACCACATACG
Celera SNP ID:            hCV2524910
SNP Position Genomic:     141580
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56816):
ACAATCACTTTGGGATTCTAGGGCAGAAAGAGTTAATTAAATTGTAATCCTAGGCTAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCC
R
AGGCAGGCAGATCACAAGGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTGAAAATACAAAAATTAGCTGGGTGTGGTGGT
Celera SNP ID:            hCV2524911
SNP Position Genomic:     141791
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56817):
CACTTTGGGATTCTAGGGCAGAAAGAGTTAATTAAATTGTAATCCTAGGCTAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGC
R
GGCAGATCACAAGGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTGAAAATACAAAAATTAGCTGGGTGTGGTGGTGCCCA
Celera SNP ID:            hCV2524912
SNP Position Genomic:     141796
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56818):
CCACCACTTGGAACATGCCATTTATTCAGTAATATCTGTTAACTGAAATAGGTTATACTATATTTTCTGATTCCATTTCTGTTGATCCTCATCTAAAGCC
R
TTATTCAGATATTCACTTAATTACAAAAAATAAGAATACTACTCGCATCTATGACAAATTTGACAGATTATTAAAAGCTATTTAAGGCCAGGCACAGTGG
Celera SNP ID:            hCV2524913
SNP Position Genomic:     144211
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56819):
CTGCAACTTCAGGTCTATAATCTAAGTCTAGCTCTTAAACTCCACACTGATAATGTCAATATCATATCTTCTCAGGTGCAGAACAAAGACAAAGGGGACT
R
GTCATTCCTCCACCAACCCAGAGATGTCTGCATAATTGATTTTTACTTTACCCCATTTTTGCTCTTCAAACATTCACATTATCTTATGTAAAATGTAGAT
Celera SNP ID:            hCV27966094
SNP Position Genomic:     190694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56820):
CCAGTACTCTCATAACTGATTTTTTCTTGGTTATATGCTTGTGGTACACAAATAGAAATAGGAAAATGGGGAAGTGAGATGGGTGGAGTAGATTATGAAG
Y
AGAGAATCTGGGTTCTCCCACTGATTGTAATTAGGTCTGCCCAAGGGACCAGAAAAAAAAACTCCCATTCCATATCTCTCTTCCAGAATCCTTAAGCTGC
Celera SNP ID:            hCV2524915
SNP Position Genomic:     145670
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;JBIC-allele(T,201|C,1286)   total(C,1286|T,201)
SNP Type:                 INTRON


Context             (SEQ ID NO:56821):
TGAGATGGGTGGAGTAGATTATGAAGCAGAGAATCTGGGTTCTCCCACTGATTGTAATTAGGTCTGCCCAAGGGACCAGAAAAAAAAACTCCCATTCCAT
R
TCTCTCTTCCAGAATCCTTAAGCTGCCCCTTGACTCTGCCCATTCGCTCTCTCTCTTGCCCTCACAAACTCCAGATGCCTGAGAATGGTAGCAGTTTTCG
Celera SNP ID:            hCV2524916
SNP Position Genomic:     145744
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56822):
TTACTGTTTTCTTGGGAATACATAGAACCCATATAGGGTTTTTTTGGCAAGCTTTTATTGTAACACCCACTGTGCCAGCATCAATACATATCAATTTACA
R
AATCCCCAATTTTAAATAAGTGTTGGTGATTTTCAGGAAAATCTTACTGAAAACCAGTGATAAATTGTGTTACTAAATTTCTTCCCTTGGGCCGGGCGCA
Celera SNP ID:            hCV2524917
SNP Position Genomic:     146029
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,11)      total(G,2|A,11) ;JBIC-allele(G,371|A,1113)   total(G,371|A,1113)
SNP Type:                 INTRON


Context             (SEQ ID NO:56823):
CAAGGAAGGCAACCTATAAGCATTTTCTGTGAATTATAAATTTAAGGTTTCAAATGAAAATTAAAAATTTTGAAAAAATGTGTATATCCACCAGAATGAG
Y
TTTACATCTTATCAATAAATACAGACTTCAGAGTTACTCTTTACCATTTCTCTCCCATCTAAAAGTTACATTGGTTAAGAATCAGTTATTTGCCCTACTA
Celera SNP ID:            hCV2524918
SNP Position Genomic:     148030
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|C,7)      total(C,7|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56824):
TTTACTGTAAGCTGAAATATGCTTTCCCCAGTATCTATCCATTGGCTCTAATTTGGTTTTTCTTTCATCCAAAACCTTTTCACATACTCTTGTTTCCCTA
R
GTCTTTTTTTCCCCGCTATTTTTGAGATTGTATAGTTTCTAAGCCCCTCATCATCTTGAGCTCTCTTCTTTTTTTTTTTCTCCCCGCCTCCCCAACCCCA
Celera SNP ID:            hCV2524919
SNP Position Genomic:     148451
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56825):
TTACTAGCATTACGCATTAGCCAGATCCCCAAAGGAAAGGTAAAAAGCCTCAGGCATCCATGAAGGACTGCCTGCACAGATCATTCACAAGTAAACTCTT
Y
GATGGTCTCCCACAAGCAAGGACACACCAGCTGCAACTTCAGGTCTATAATCTAAGTCTAGCTCTTAAACTCCACACTGATAATGTCAATATCATATCTT
Celera SNP ID:            hCV27944245
SNP Position Genomic:     190563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 315
Celera Gene:                 hCG1789555 - 30000035622532
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VU68(2558878..2580239)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12475):
GTCTCGAACTCCTCGCCTCAAGTGATCTACCCGACTCAGGCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACAGCGCCCAGCTAATTTATCCATTTTT
AGCTGTTGCATAGCATCCCACTGTACGAACATGTATCAACGCATTTATTCATTCTACTCTTAACATTTGAGTTGTTTCCAGTTTTCTGTTGTGTGTGTGT
ATGTTAGTACGTGTGTGTGTTGTTAATATGAACAATGCTTCTGTGAATATTCTTGTACATGTCTATCGTTCAATATTTACAAGAGTTTCTCTGAAGTGTA
CACCTAGGAATTGTTTGCTGAGTGATGGCTATATGAATGTTCAGCCTTCTAAGATAATCTCAAACTATTTTACAAAGTGATTGTACCTACTTATACAGCT
AACATGAATGGACTGGAATTCCCCTCGGCCACCTTGCTATCGTCCAACTTTTTAAATTTTTCCGATTGGCAGATGTGGAATGGGCCATTCAGCTTTCCTC
TTCTCTGCAAATCTATTCATATTTTGCCCACTTTCTCACTGGGATGCTTTTCTTTTTCTTATTGATTTGTAGGAATTTTCCATATTCTGGAAACTAATTT
CTTGTCAGTTACATGACTTCTAAATATCTGCTCCCTGTTTGAGGCTTTTTTCATTATAATTATGGTATATTTTAATGAATAAAAATTGCTAAATCAGTAT
CAATTTTGTACTTCACAGTTTTCACTTTTTGTGTCTTGTTTAAAAATACTCCTTTACTCTAATTCCTAGAGATATTATTCTGTGTTTTCTTCTAAATGTT
GTATAGTTTTTAACTTTTCACATTTTTATCTTTAATGAATCTGGAATTCATTTTCTTATATTTTAGGTAAATTTTGCCTTAGACAGAAATACAACTGCCA
TTTGTTAAATATGGGATACTCCATTTCTTTCCTCATTGATTTGAAATGCCCAAGCCGTACAAAATTAGTTTCTATAGGCAACAGATCTGTTTCTGAGCTC
TTTGTGCTAATTCACTGGCTTATTTCCAGATCATTGTAAGAGCCATCATGTGAAAGGCAAAACCATAAAATTAGAAAACATAATATGCATTCTTTTTTTT
CTTCAACTTTTATTTTAAGTTCAGGGGTAAATGTGCAGGATGTGCAGTTTTGTTACATAGGTAAACATGTGCCACGGTGGTTTACTGCACAGATCATCCC
AACACCCAGGTATTAAGCCTAGCGTCCATTAGCTATTCTTCCTGATGCTTTCCCCCCAACCACAGGTGCCAGTGTGTGTTGTTCTCCGCCATGTGTCCCT
GTGTGGAAAATATAATATGCATTCTTAACCTGTCAATATCTAAAGTTAATCTGTATGTTTGCTGTTTTCCTAAACAGTCCCGCAATTTAGAACAATTTAA
CTCCATTCATCCCCTTCCAGCCCTCATCTACTTTAATTCCATATTGTTTTTTCTTCTCAATAGATATATTATTTTATAGCCAATACTTGTCTTTACATTT
ACATTTGGTCGCATGCTTAGCACTCTATTTGTTCATTATTTTAATTCTTTTATGCATCTCAGAACTTTCATCTGGAATCATCTTCCTTCTGCTTAAAACA
CATTCTTTCAGATTGCTCTTAGTGAAAACTTAGAAGTTGATGGCAAATTCAGTTTTTTAAATGTTGAAAATGGCTTTATTTTACCCTTCTTCAAATATAA
TGTTACCGAGTCAGAAAATTCCGGAATGGCAGTTATTTCCTCCCAGCACATTGAAGATTCTATTCCATTTCCAGTGTCCATTGTTGCTTTTGAGGAGTCA
GTCATCAGTCTAACCACCATTCCTTTGTTGGTGATTTATTCTCTATCTGCTTGTAATTATCTGGTTTTCTGCCTCAATGTGTGTAGTGATTTATTTTTAT
TCCTTTTGCCTGGAATTCATTAGGTCTCCTTAATCTGAGAACTTGGGTTTTTTTTAAAGAATTCTATAAAATTCTCACTTTTTATTTTGTTGAATGTTTT
CTTATTCTCTTGTGTCTTCTTCTGGAACTCTGATTAGACATATTTAGACCTTCTAATTATAGCCTTCATGCCTTCTTGACTTCCTCCTTCGTCACTTAGC
TGCATTCTGGAAATTTTCCTCAGAGCTACATTTTGTTCAATAATCCTGGCTTAATCTGTTCCTGGATCCATCCACTGAACTTGTAATTTTAACGGCATTA
TTTATTTCCTCTGGTTTGTATTTCAGATCTGCTTGGTACTTGCTCCAATTTTAAGTTTGTTTTATTTTCTAAAACAATTTATATTTATATTCTTCATCCA
ATCATTCTATAGCCACTATGAGACAATAAATAAATCCATCCAACTCATCAAAACACAGCTGAGAATTACCAAATAAGTACAAACAAAAACCTAAATATGA
CTGATTAACTGTGCAGAATACAATGATGTAAGTTTACTATACATCAACCTCCTTGTACCCATCTCCTCGCTTCAACAAATAACTCAGGGCAAAACTTCCT
TCATCCATACTTCCACCCTCCTTCTCCCTGTCTGAACAAGATGCCACTCCAGAGACTGCAGGTTCTATGTCTATCATATGTGATTGCAATAGCTTGGTCA
TGGTAGAATACAAAAAAAAAGAAAAAAGTTGAAAGCCCTCTGAAAACTGTAGTGCTTATAATAGCCTTCCCAACTACTGGCCATACTTAATATTAATCAT
TAACACTCTCAGTAGAGTGTCTCAGAAGTCAAAATGTATCTCCTACTAGCTACAAGGAAGTTGGGATCTAATAAGTATTTATTTACAGCTGCAGTCACCC
AACAGCCTGAAATACCAGGGTCTCTAAATTCATGACTTTGTGTATGAACAAGGGTCAATAGGATCTTTACTCAGTCCTCGAGATATAACTCAGAAAAATG
AATTGCTGTGAAAAACTCACTTGATTTCCTGTGGTCACATTATAAGATCGAATAATCTACAAAAGTACAAAACTCAGTGATATAGAGAAGCCAGCAAATT
CTCCTGCCCTTATATAAACAGGTGGGAGGCTTTCCAGTAGAATTTTTTCTACTCCAACAAATTGGTAGATTGAATGACTATACCTCATAATGATGACACT
ATTGTATCATATTTTAGTTTAAATTTAAAACCTCAAAAACTTACCAAAACTAGCCAAAGATTTCTGGAATAAGATATAGACAAAGTTATTTCTCAAAAAA
AAGAAAAAAATTGGCTGGGCCGGGTGCAGTGGCTCACGCCTGTAATGCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACAAGGTCAAGGGATCAAGAT
CAGGCTGGCCAACGTGGTGAAACCCCATCTCTACTAAAAATACAAAAATCAGCTCGGCGTGGTGGTGCCCACCTGTAATCCCAGCTACTAGGGAGGCTGA
GGCAGGAGAATTGTGTGAACCGGGGAGGGGGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGTGACAGAGCAAGACTCCGTCTCAAAA
AAAAAAAAAAAAAAAAAAAAAAACGGCTGGACACAGGGGCTCACACCTGTAATCCCATCATTTTGGGAGGGTGGGGTGGGAGGATCACTTGAGCTCAGGA
GTTTGAGTCCAGCCTGGGCAACATAGTGGGACCCTGTTTCTACCAAAAATAAATAAATAAAAATTATGTAAGCATGGCGTGTGTGCCTGTAGTCCCAGCT
ACTTGAGAGGCTGAAGCAGGAGGATCACTTGAGCCTGGGAGGTCAAGGCTGCAGTGAGCTGTGATTGTGTCACTGCACTCCAGCCTGGGTCACACAGTGA
GACCCTGTCTCAAAATAAAAATAAAATGGAAAATAACTAAAAATGGGATTTTCAACTCTTTGATATAAATAGGTCCAGCCATAAGGAAGAATTGTGCTAC
AAAAGAGAACAAAAATCATCATGTTTAACAACTGCATTCATGTTCTTTTCTAATTATAAAGCTAACTATTGATTTTATAATGCTTCTACACACCTTGATC
ATGTGTTAGCATATGAAACTCTTAGCTGAGACCAACTTACTATAAAACTTGTGTAATTTAAATAGTATAATTTTCCAATGACTTTAATCTAACAACCTCC
TACCCCATTAATCAACACCAAAAACAATTCATCTTTGAATACATGTATAAAGAACATAGTTCATGTGTTTATAAAAAGTTCTTCTCTGCTACAGAGTTTA
GCTGTGACATCTATTAACAAAGTAATTTATAACTCTAATAAGTTAGCAAGGTCTTCTTGCTACCAGTCCAGTCATTGGTGGTGAGTACTCAGTATTGGCT
GATGAATACATGAATGGATAAAAATATAAGAGCTGCCCACACATATACCATAAAATGCATAAAATAGATTCCATTTTATCTCAATTTTTATTTCTGTGAT
ATAACTAAGATAAAATCAAACACAATGTATTATTTTAAAGTATACTGTTTATAAGAGAGAAATAATATGATCTGACCTTATTTTAGAAGAAAGTTGTGTG
TAAAAGAAATTTAAACTCAAAAGTAAAAAAGCCACTGGTTTCTAAAAACTCAAAAAAAATTTTTTTTAAGTGACTGGCTTTCAGAACAACAGCAACAACA
AATAAGCCACTAAAATAAGACAATTAAATTCCAATTTTTTTTGCATTTACTTGCTTGCTTAATTATATACAAATCTCAATTCCATTAAAGTATCAGGATG
ACAATTAATTAGATGTTTTTAGTGACTTTTCCAATCCCTTCTAATTAACTTGGAAGTGATTAACTGATTATCTAATTATATTAATTAGTGATTATCTAAT
TAACTAAGGAAGTGATTTACATGCTTCATGGGAAGTGTGAATTCTCAGCCAGGGGGTTTGAATGAAGGGAAGCAAGTGACTCAGGCATTTATTGGTTGCT
TACAATCAGATTCCCACCGATGAGATCATGCCCATGTGTCTAGAGGTCCACACACAAGCAGCTGCCTCCAGCCCAACCCTGGAAGCTGAGTGTAGTCCCA
AGTCCCCGCCTGCACCCCTTCCTATATAAACAGCCACTCTCGCTGTGATTATGGGGGCATACAAGGAAGATCAGGCTTCCATGGAAGCTTCTGCAACTGA
AATCCACTGGGGACTTTAGAAGGAGCACCTGTAAGTAGCTTCAGGATGGATGGGGCAGAGTCTGTCTCATGGTGGGTGTTAAGCTGGCCTCATACAAAAG
AGGAGACCCATCCTGATACCATGCCAGGTACAAAGCACTGTGTGATTTATTCTAAGTGTCTTGGTAACAGGACTTGAAGCCAGGTGGTGACTGGAAACCT
AAAATGCAATATTTAGTCATAGAACATTAGAAATAGAAAGAAAATAACCTCCCAAATCATCTAATCCATCACTCAGCTAAATTCATTTAATTCACATCCC
CAAACTACATCTCCAAATGTACAATGGTTTCATTCCTGGTTTAGGGATTCGAGGTTTTGTGTTTGTACAAAATATTTTAATAGTCTTATAAAATAAGATG
TCCAAAACACAATAAACTTAAAAGCCAAACACAAGCAAAGCATGAAACAGAGGTTCTGAAGAGCAACTCCTCAATACAAATCAAACATTGTCCTTTATCT
CCATTGTGACTTTCAGTTATGTAGGCACATCTGCCTTTTTAGATACCTAAATTATACATGAGGATTGTAAATATTCTTTGTGTGTATGTTAGGATGAAAA
AAACCTGCCAAGGCAGGCGCATGGGCTAAAAGAATACACTTTCCTGTTTCCTTTTATTACCTGTTTAATTAAAAAAAAAAAAAGTTGCCCCTGATAAAAG
CCTCCAAGAAATGCCTCTAGTGGTATTTTCTGGAATTGAATTAAGCATATTAACATATTGCTATACAAAGCGGGGGGCGTGGAAGTAAGGCAAGGTGGAC
TGTGGTGCCAATCCTAGTGACATGTCAGCAGAGGAGGAGTTTCTTGCCTGTGGACTTCATAAAAGGCTAGCTCAACACCCTCCATGAGACACACTCTGCC
CCAACCATCCTGAAGCTACAGGTGCTCCCTCCTGGAATCTCCAATGGATTTCAGTCGCAGAAGCTTCCACAGAAGCCTGAGCTCCTCCTTGCAGGCCCCT
GTAGTCAGTACAGTGGGCATGCAGCGCCTCGGGACGACACCCAGCGTTTATGGGGGTGCTGGAGGCCGGGGYATCCGCATCTCCAACTCCAGACACACGG
TGAACTATGGGAGCGATCTCACAGGCGGCGGGGACCTGTTTGTTGGCAATGAGAAAATGGCCATGCAGAACCTAAATGACCGTCTAGCGAGCTACCTAGA
AAAGGTGCGGACCCTGGAGCAGTCCAACTCCAAACTTGAAGTGCAAATCAAGCAGTGGTACGAAACCAACGCCCCGAGGGCTGGTCGCGACTACAGTGCA
TATTACAGACAAATTGAAGAGCTGCGAARTCAGGTGAGAGATGATGCTTGTGTTTCCTACTCTGTGTTTAGCTTCAAGATAAATCAAGAGGTTATCTATG
TTAGGTAGGTCCAAATGGACTTTGTAAAGCAAATTAGGCTAAAATGTTACATCTATAAAAATTCTTTCATCTACCTTTAGTGCTGGAGTACCTGACTGTA
CAAYAGGATGACCTTAAATCATGCTATTTTTAATGTTTAAYACAATTACATACAAAATATGAACATTTTATCCTCYGGAATAAAATGAATCTTTGTCACA
GCTTATCACATCAGGGCTAAATGTATAGTGAACAATCTTTCTGAAAAGAGCTAAAAATTAATTACGTGATAAATCTCTCTTAGTTTTTCACCTAGTCCTT
ATCAAGTTTTGAAACCCCAGTAAATTCAAAGACTTTTCTCCTTTTATTTAAGTAAATGTTATAATATGACTATTAGAATACTGTACTGCAGATTTAAATA
GCAAAGTGATTCTGGGTGGAAACAGTGTGGCAGGAATATGGGTCTTAATGATGCCTGGATTTTTAAGTGCCCTGTTTAATAACATGACCATCAGCATCAA
GCAGTTCAGAAACTACTTCTACAGTAATAAAATGTTCTATTGCCCCCAATTCATGTTTATTACAATCATATCACAACCTCCTCCTATGTCATCAAAAAAA
GGGTGGAGCTCTGTATTTTATCAGTTTCATGGAATAAAAGCAGAAGACTTTGCTCCTAATTGAAAATTTCAGATATGACACAGAGCACTTGCTTCAAATT
AAAGTTCTTATCTAATTAAGAAAAGTGTTCACTGTAATTTGTGTTAAGATTCATACTCCTTTAGAGCAAAGCGCATTTACTTACCAGCAAGTCTGTTTTT
CTTGAGTTGTACTAAACATCAGGGCAATTTGATTCGGACTCCATGGRAAGTTACTTTGGAATTTTAGAAACTATRGGCATGTGAAGCAATGGCATTTAAA
TAGCCCTTCCGGAATAAAGTTCATCCTYYGCAAGCTCTCACTAAAAATGTTCGAACCACACCTGTCTCGTGTTTCTGACTCTAGTTTGGTTCATCTGAAA
TACACAGGCACAGGCCATCCGTCCCATTGAGCTGGACAGTCCCAACCATAGGAAGCAGCCCTCTCCAAAACTGGGTCCATTGAAAGAGAAATGTCATTGT
AACATCTTCTGCAAGTAGATTTTTCATCTATATGCCTCCATCATGCATTTCGTTCTTTCATGCATCATGTTCTTTCATTCAGCCAATACTGAATGAACAC
TAACTAGGTGCTGGGCACCATGCTGGGGACTGAGGAATATTATGGTGGACACAATATGATTTATGAGGATACAGGGATGGACAGAGGGACCAGCACACAG
AGGGATAATGAGAGCACAGGCAGATCATCCAGTTCAGTTTTGAGAGCATCTGTGAAGGCTCCTATGAAGCAATGTTGTCGAACCTGAGACATGAGGGAGG
AATGGGAGTTCACCAGACCACAGGGGCTAAAAGAAATGTCCTAAGTAGAAACATCAAAGGCAAGGCACTCAATAAGGTGTGATGACTCAAGTTGAGTTAA
ATTATCCTTCTGTAAAATCACAAGAAAGTAGACCAAACCCTGGGGCATCTAGAGTTGCATTTTATGACTCTGTTATGTTAAATAACTATGTCATTATTTT
TTCTATATATTTTCATGTAGAAATACTTGAAATGAACATCATTTTTGACATAATAGTCACTGTAGCTGGGGATAAACTAAATCCTTGTAAACTCCTATCC
AGTTGAAAATGTCATTCTTGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGAACTTCA
AGACCAGCCTGGCCAACATGGCAAAATGCTGTCTCTACTAAAAATGCAAAAATTAGCCGGGCATGGTGGCGGATGCCTGTAACCCCAGCTACTCGGGAGG
CTGAGGCAGGATAATTGCTTGAACCTGGGAGGCAGAGGTTACAGTGAGCCGAGATYGTACCATTGCACTCCAGTCTGGGCAACAGAGCAAGATTCTGTCT
CAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAKMAAAAAGAAAATGTCATTCTTTCTCATGTATTTTCCAGATTAAGGATGCTCAACTG
CAAAATGCTCGGTGTGTCCTGCAAATTGATAATGCTAAACTGGCTGCTGAGGACTTCAGACTGAAGTAGGTTCCCTAATACGTGGCAAAAGTTTCTGAAA
AAGAATTCCTTTAGTAGTCCTTCCAGATACTCAGCTTTCCATATCATTGTTGATAAAGGAAGCACGGTTCAATGTCCAGAATCCTGAAGCCTAAAGGAGG
TTAGAAGCTACATGTATGAAGCTAACCCAGCACTCAGGGATGGCCTTCTCTTTCTTGATCCCCCGGCATGTAACTAAACACCTCCAGTAACTACTATTCT
CCTTGGTTATTACTGGTTGCTAAATTTTTTTTTAGTAACCTGGTATCTAAACCTAATTCTGCCCTTTGGAGTAATAACAAAGTAATTTACAATTCTCCTT
CTCCCTAAGTGCCTTTCTGTTATCTAAAGAGAGTCTTGTGTCTACCCTTGGTGATTCTCCAAGTAATTCTCCACGTTCATTCAAGTGCCTGCAAGTGTAT
GACCCAAGTTCCAGGGGTGACTCTTGATGATTTCTGGCTTGCCAGTGTTTTACAGGATGGTCTGGCCAACCAAAGAACCAGGACCAATCTATAATAATTA
GCTGGGCGTGATGCCGTATGTCTGTAATCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTTCAGTGAGCTGAGAT
CGTGCCATTGCACTGCAACCTGGGCAACAGACTGAGACCTTGTCTCAAAAAAAAAAAAAAGGAAGAAAGAAAGAAAAGAAAAAGAAAGTAAAAATTGTGT
TCACTTTCTTTGTAGTCATCACACCACATGTGACCAGACCTGTTCCTTGCAAACAGCTTCCACACTAAGGCCTCTTCATCCTGAATTTGTACAATGCATT
AACACCAAAAAGCCCTTTGTGGTTAGAAGGGTAGCCTTTTAATGCTCCAAGGGATTAACAAGAAGGAAATAGGAAATCAAATCCAAAGATGAAAGCAGTA
AAGGTGCATTACTTCCAATTTTACCTAGCACTGAGTGTCACATTGCAGTGTCATTTTTTAAAGTTGGATATTTTAGGAAACTGGGCAGGGCATGCATGAT
GGCTAACGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCAGGAGGCTCACTTGAGTCCTGGAGTTTGAGAACAGCTTGGGCAACGTGGCAAAACCACAT
MTCTATACAAAAATACAAAAAAAATTAGCTGGGCATGGTGGCATACATCTSSTGTCCCAGCTACTTGGGAGGCTGAGGTGAGAGGATTGCTTGAGCCCCA
AAGGTTGAGGCTGCAGTGAGCCATGATCACACCATTGTACTCCAGCCTGAGTGACAGAGTGGGACCCTGTCTCAAATACACACACACACACACACACACA
CACACACACAGTGTGTATGTAAGATTGTAGAGGAGGATGTAGAGCTGTTTGAGATAATTCACTTTGGATGTCTCTGTTCACAAAGTAATAAAAATAAATC
GATCATGTACATTCATTAAGTAAAACTAACCATTATTTAATATCAATAATAAGAACCCTTTGCCAACACAATAATTAACACAATTTAATTTCTTATAAGA
TAAATTCTAGAATTTAGAAGTGTTCAAAATTATTTCAGATTGCCTTTTTACCAGTCACCCCAAATTATAGAGATTATATTATTGAGCACATTTTCTGACT
CCTAGGTTCTTATGTAAATTTCATGATTGTGTAAAGGCAGACATTATAAAGTATTGAAATTGATCTCCTCATAAGCCACATTTAAAAACCTATCCCATTA
TATTAGATTCTCTCCTTATAATGGCTTCAGAAGGACCAGTTATCTCTGTACACTAATTAATTCACAGGTATGAGACTGAGAGAGGAATACGTCTAACAGT
GGAAGCTGATCTCCAAGGCCTGAATAAGGTCTTTGATGACCTAACCCTACATAAAACAGATTTGGAGATTCAAATTGAAGAACTGAATAAAGACCTAGCT
CTCCTCAAAAAGGAGCATCAGGAGGTGAGAAAATATTCAGAAGTGGTATTGGAAACAATGGAATGGTTCTATATAATACTAATAATAGGAGGAGCGGGAG
AAACAGGAGAAGGGGGAAGAGTTGGTGGTGATAGTGACAGAGATGATGACKATGACAATAATGATACAAGCCCTACCTTCTTTTCATAATGTTGTTGTAA
GTTAAATGACTTAGAGCAGCACCTGGACCACAATAAGCCCAACACAAGTTATTATTTTATATCTTTTTTACTTATTCCCARTGAAAGAGGTCATGAGACT
CCTTATGTCTTTTCWGCCCAGCCTTATCTGAGAATGTGCTTCAGACTAAAATCAATCAGAAATTTCACTTTCATAGGAAGTCRATGGCCTACACAAGCAT
CTGGGCAACACTGTCAATGTGGAGGTTGATGCTGCTCCAGGCCTGAACCTTGGCGTCATCATGAATGAAATGAGGCAGAAGTATGAAGTCATGGCCCAGA
AGAACCTTCAAGAGGCCAAAGAACAGTTTGAGAGACAGGTAACCACACAATTCTAAAGGGTGAGCAAACGTGTAGATGCTTTCCTCCAGAAACAGATAAC
TCATTTTCTTTTTCATTTGTTCATTCTTCCTTTCTCTTTCTGTCTTTTCTTTCTTATTTCCACCCCTCAACTATTTTTTTTTCACTCTTGGCACTGTAGA
CTGCAGTTCTGCAGCAACAGGTCACAGTGAATACTGAAGAATTAAAAGGAACTGAGGTTCAACTAACGGAGCTGAGACGCACCTCCCAGAGCCTTGAGAT
AGAACTCCAGTCCCATCTCAGCATGGTAAAGCATATCTAACTTCTCTTTCTCAATCTAGTATGTGTTTACCAAGGTCCTCTGTTWGGAACTATAGAAATG
CAAAGACCTACAAGAAATAACCCTTCCCCTTGCAGAACTGGCAGGGAAACAGGCCGAACAACTGATTATAATTAAAGGACAGAGAGAAATCGAGGAAAGG
GCAATGTACTGCATGAATGCAGAGGAAAGAGTAAATCTGGAAGATTTCACAGGGAAAGTGGCATTTAAACCAGATCTTYTTGTAACTTTTAAGTTCAGGA
GTACATGTGCAGATTTATGATGTAGTTAAACTTGTGTCATGGGGATTTGTTGTACAGGTTATTTCATCACTCAGGTATTAAACCTAATACCCATTGGTTA
TTTTTCCTGATCCTCTCCCTCCTCCTACCCTCCACCCTCTGTTAGGCCCCCATGTCTGCTATTCCCCTGTATGTRTCCATTATACCAGATCTCAAAATCT
AAGATAAAATTTTAAGATGGAGAATGGACTAGAGACATTCCAGGCCAAGCAAATCAGCAAGCCCATGACAAATTATGTTGTGGTAAGCAGAATCCCTCAA
ACCACAGTGGCCTGCAGCCATGATACTACATCCACCGTGACATTTCCTTTCCAAGGGCAAGGCTAAAGGGGTAGGCCCTACCTAGGACATGCCAGTGTCC
TGGCAGAAAGAAAAGAGCAATGGTTGGTCCACTTGATAGCTCTTAAAGCTTCTCCTTAGAAAAGGCATTTGTCCTTTGGGAGGCCAAGGCAGGAGGATCA
TTTGAGGTCARGAGGTTGAGACCAGCTGGCCAATATGGTGAAACCCCATCTCTACTAAAGATACAAAAATAAGCTGGGYATGGTGGTGTGTGCCTGTAAT
CCCAGCTACTTGGGAGGTTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGCGATCACATTACTGCACTCCAGCCTGGGCGAC
AGAGCAAGACTCCGTCCCAAAAAAAAAAAAGAAAAAGAAAAGGCATTTGTCAGTTTGACCTGCATTTTATTAACCAAAGAGAGTCACATGACCCAGCCAG
GTGTCAATGGATTAAAGGAATCTAATCCTGCAATTGAGAAATGCCACAGATCACATGGCCAGGTCTGATGAAGGAGTGAGAGGTATAACATCTTCACACA
GTGGGGAAGCAAGTACTGAGAACAATGCTACAATGCGCCGCACTGAAAGAACAGTAGGTGCAAAGCTACAAGCAAAGAAAAACCCCAAGAGCTAATGATC
CTAGCTGGCTGGCTGAGGTTGCCTAGTTGGGAAGAGTGGGAGATGGAGCTAGAAATATACACCATGCCCACAGTGATGAACTGCAGAGACCCTTCTCAAA
GGAAATTAAAATTAACCCATCTCTTGAATCAAGTCCTCACATAAGAAGTGCCCTATTTTTCTTGTGCTCATAGAAAGAGTCTTTGGAGCACACTCTAGAG
GAGACCAAGGCCCGTTACAGCAGCCAGTTAGCCAACCTCCAGTCGCTGYTGAGCTCTCTGGAGGCCCAACTGATGCAGATTCGGAGTAACATGGAACGCC
AGAACAACGAATACCATATCCTTCTTGACATAAAGACTCGACTTGAACAGGAAATTGCTACTTACCGCCGCCTTCTGGAAGGAGAAGAYGTAAAGTAAGG
CTCTTAGAATCAAGGAATAGGTGTCAATATCTGTATGCACTTCTATTTTAATGTCCCTGTCACTCATTACCCAGCACCAATGCAATCCCTAGGACAGAAG
CAATTATACTCACACATGCCTCACCACGAACAACAAAACGAAAATATACCAAAAAATACACACACGCCCAAAATATCAAGTACAGCCTTGAGATCATGTG
GTAGGACTGAGTTCTACCACATGATCATTTGGAGATAATTCTCCAAATGATATAGATTATGCTGATATTAATTTTCATCATTAATATATAATTGAAGGCA
TAATAACCTTTTGGAAATTCTAATTGAGAGCTCATGAATTAGACAATAAGCTGCTGAGGTCCACGGGAGCCAGTCTGAGAATCATAAGTGTGGCAGCAGC
AACTGTCTTCAGATACCATACCTAAGAATATCAACAAGAGAACACAAGATTTAAACTTCCATTGTAATTTTGTTATTTTAATTAGAGGAACTTCTTAGCA
TATATTAAACTGGTCAGTTTTAAATCTATGTATTTTTCAAGTTAAAAAGTAAAATGCTCAAGTTTGCAATAAAAGCAATGTAAAAGGGAAAGATATATGA
AAGCAATAACACATTCACTTGGACTTTGAAATATAAAAGACAGGAGTGCATTCCATTTTCAAAACAGCAATAATGCTTTTTTCTGTTTCTTTTTTCTTCT
TTTCATTAAAAAAAAAAACAGAACTACAGAATATCAGTTAAGCACCCTGGAAGAGAGAGGTAAGTTCTAAATTTTTGCACATTTTCTATGACATTCAGCT
GCTTTCTATTAACTACATGCCACTGATAAAAAGTAAAGTGAGGCTGTTTTAGTCTGTTTTCTGCTGCTGTGACAGAATACCTGAGACTGGATAATTTACA
AACAATAGACGTTTACTTGGCTCRCAGTTCTGGAGGCCAGAAAGTCCAATATCAAGGTGCCGGCATCTTGTAAGGGCCTKCTTGCTGYGTCATCCCATGG
CAGAAAGTAGAAGTGCAAAAGAGTGTCCATGAGAACCAGAGAGCAAGAGGAGGCTAATCTTTCTTTTAGAACTAGCCCACTCTCACAATAACTAACCCAT
TATCATGGTAACCACATTAATCCATCCATSAGAGAAGAGCCCTCATCATCTAATCACCTTTTACTAGGCCGCACCTCCCAACACTGTTACATTGGGGATT
AAGTTTTCCACACATGAACTCCAGGGAACACATTCAAACCATAGCAAAGGCCAATTCTCAAGGGAGCAGATATGACACCAGGGATTCTAAAAATCTTGTA
CATGGCATAAAGAAACCCTCCACATGGGAACTTGGGCACACTCCTCAGAATGGGGTGATTTTCTTGGCCTGTGCTATTGCTATCTTGAAACATCCTGACA
TCCTGAARAGGAAAAACAAGACAAAATTTGAATTCCACTTAAATTCAAGATAATTTATTTCTTGAATTTTTAAGAGTAGGACATTTGTAAATTTGGGGAG
AAGCACATTTTCTGCATCTATTTATAAAATGGACTTAAGATTTTTTGAGAAAGAGGATGGGTTTAACATATTTTTCTAAAAGAAGGAAATAAGTAAAAAG
AATAATAATTTAAAGTTGAATAWTATAAATCAGCAGAGTCATGTGCCTGAATTAACATTTAATGTTTAATATGAATTCAGATATAAAGAAAACCAGGAAG
ATTAAGACAGTCGTGCAAGAAGTAGTGGATGGCAAGGTCGTGTCATCTGAAGTCAAAGAGGTGGAAGAAAATATCTAAATAGCTACCAGAAGGAGATGCT
GCTGAGGTTTTGAAAGAAATTTGGCTATAATCTTATCTTTGCTCCCTGCAAGAAATCAGCCATAAGAAAGCACTATTAATACTCTGCAGTGATTAGAAGG
GGTGGGGTGGYGGGAATCCYATTTATCAGACTCTGTAATTGAATATAAATGTTTTACTCAGAGGAGCTGCAAATTGCCTGCAAAAATGAAATCCARTGAG
CACTAGAATATTTAAAACATCRTTACTGCCATCTTTATCATGAAGCACATCAATTACAAGCTGTAGACCACCTAATATCAATTTGTAGGTAATGTTCCTG
AAAATTGCAATACATTTCAATTATACTAAACCWCACAAAGTAGAGGAATCCATGTAAATTGCAAATAAACCACTTTCTAATTTTTTCCTGTTTCTGAATT
GTAAAACCCCCTTTGGGAGTCCCTGGTTTCTTATTGAGYCAATTTCTGGGTTAATCTTATTGATTTTTCAGCATCAGTACAACTCTACAACCTTTGAGCT
ATATCTGCTTTTTCCCATTGCTTCCACTGCCTTTTAAAACTCAACACAGCTYTTTGAATAATTTGAGAGTCAAATTCAATCACAAATGCTGAGMMGAATA
AGAGTGAAGTACACTATACTTAAAATGGAAATAGATTAAAAACAACATTACTGAAACCCTTCKCAAGGCAAAATGTGTCTCCTTTTGATAATAAGCTGCA
TATACTATCAGGTCCTCTCTTTCTTTATATGGTGAACATATATTTTTAATGAAATGTCTCTCATTTTTTTAATAACAGATTTATTGAGATATAATTCACA
CACCATGAAATTCACCCTTACAAAACGTACAATTCAGTGGTCTTCAGTATGCTTACAATGTTTTGCAACCATCACCACTATCTAGTTTTAGAACACTTCA
TCACCCCAAAAGGAAATCTTGTACCTATTAGTAGTCACCGCCTTTTCCCTTCCTCCCAGCCCCTAACAACCACTAATCTACTTCCTGTCTCTACGGATTT
GCCTACTCTGGACATTTCATATAAATAGGTTAATACGATGTGTCCTTTTATACACAAATGTTCATAGCAGCATTACTCATAAAAGCCCCAAAGCGAAACA
CCTCAAGTGTCCATCAACCGATGAATGGATAAACAAAATRTAATATATCCACACAATAGAATCTTATTCRTCAATAAAAAGGAATGAAGTACTGATACAT
GCTATAACAGAGATGAACTTCGAAAACATGCTAAGTGAAAGAAGCCAAATCCAAAAACAATAAAAACACATATTGTATCCTCACCCTTTTTGCATTTTAG
TGAGCAATCATTGCATATGAATGTTTATGGGAAAAATCAATGTGTGCTAAATCATTGTATTCCAGTAAATAGATTGGACTTAAAACTTGATACAGAAGTT
GCAAATAAGTGGGATTGAGTTTGATTATTATATAGAAAATAATTACATGATTCATTTAAGAATAATAATATCCACCATTTATTGAGCACTTACTATGAGC
CTGTGTGCCAAACATTTCATGCATTTCTCATTTAATTCTCACAATAATCCTGTGAGGTAGAAGCTATTAGGTTGAATCATATGAACTTGCCAATATATGA
TAATTTCTAAGAGTTGGGAATTTTTGAGGATGTGAATGGTACCACTTTGAATTCCTAAGATGTAATATAATATCTAACACATAGCAGGCACTTGATTCAT
TATTTTAAATTGAAAGAATAAAGWTTTTTTTAAAGCTTTCCAATATATGATAATTTCTGACTTTCAGAAATAGCAATTTTATATGCTATTATATAGCATA
TATAATAAGGTTCARCCTTATTATGTTACCCCCACTTTACATATGAGGATAAATGAGGACTCATATGAAGACATGAGATAAAGACTTTCCCAAAGTCAAG
CAGTTACCAAGTAGTAGAGCGAGACTGAACCTCAGCGCTGTTTCTCTAAAACCAGGACACCCTCATAAGCAACTAATTACATAACAAAGCAATACATGAT
TCACAGTTGAAATAGGCACTTGCCTATCCGCAGTTATTTTGTTGTTTTCTAATTGTCATTTTCATCAGCCAGACACAACAGCCAATTGTGGCAAATGTCC
AGCTTTGCTGGCTAACATCACACATGACTTGATTCAGTACAACTTTTGTCAGAAAAGGTATTCTCACCTATTCTCATTGCCTTCTTTTCCAAAGTGAARA
GATTTCACTCATTTTTTTCTTAATTTTCTTCCAAGTCACGCTAGCTAGTAAGTTGCATTTAAAGATGTTAAGAATATTTAAAAGTGAATTCTTTTTCACC
TACTGAGWCACATTCCAGAATAGTCTGAAACTTTGACATGCAAATACCAGACTGTGAATCTGATTAATAAGAAACCTATGCAGATGGGTTTGTAACTGAT
TAGGCCTGACCACTGTTATATGGCAATGATGACACTGTGTTAAAAGAGGTAGGATTGTTATTCTTAATTTAGGATGGTCCTCTTTTAACTACCTGTTAAA
AGAAGTAGAATTGTTATTTTTAGATCAGAAAAATGAAGATTTTTTCTTCCTCTTGCTTCTTTGGTCTGTCTCTAGTTTCTTCCAAGCAATCTTTCAAAGA
AGTGAGTGAGAGCTACATACATGTGGACCAGATGGTGGAGTTCTACCTCCAGTTCTGCCAGCAGTTACTGTGTGAAAGTGAAGCATTAATCTTTGTATCT
ATCTATATTTCTGATATGAGCTAAGAACTAGAATGACATAATCCTATTTCTGACAGGTAAACAGATCCAGAGAGAAGTCTTTATCACACATTAGAATTAT
CATCAATGTATTTTTTCATTTTATATGAAATTGTCAGTGCAGAAGTGAAGCTATCAAACTCAGAGAGAGCCCCTAGAGGTGAGGTTAGGATGGAAATAAC
TATTTTTTCTGAGCTCTGGAGATTATTTCTACCCAGAGTTCTGAATCATCTAAAAAGGAGAATGACATGGAGTGATACAAAATCAAAACATGGCCAGTGA
CCTCCTCAGACACTCTGTTCTCATCCACATGCATCAGGATCAGCCTCAGGTACCTGATTAGACCCCCAAGTAACAATTCCAACTTAAAGCATTAGTAGTG
ATTTTTATTTTTGAATTMTCTTTCAAACATCTCTGTTTTCTCTCCCCTAGGCTCATTTCCAAGATTCCTCTCATCAGGKTATTATTTTATCATCTTCCTG
TCTCCTACCACTTTCAAAATTCTCCCCTGCTTTCAAGAACCATTGATCTCTGGAGCCCAGAAGTCAATCTCACTCATACCCCTTAGGGTCCTTGTTTAAC
CCTCATCTCAAAAGCACAATACATAAAATGTAGGCAACCCAAAATTCTCTCAGTCACTCACAGGATTTTATAATGTTATCCAAAGTGAAAGATGTTACAG
ATCAAGGGATCAGCGAGTTGCAGAAAATGACAGGTCTGTCTTACGGGAAAAAACTCAGGTAGAAAACCCTGCAAAGACCAGGACAGAAACCAACCTGACA
TGAAAAGATGAGGGTATGATTTACTCAATAAAAATCTAAAGACTTGTAAAAACCACATAACTAATTTTCTCTATTTTGAACATTTCCTAAACTCTACAAA
AATGGAAGATATAATTCTTTTGAACAGTTTGCCCTGGCTATAATCATTTTCCTCTCTGCCTCAACTTATGCAATCACTCTGCCAACAAGCCCAAGATTGT
TTATTGTTTTTTACATCACCACTGCCTTATACATTAATGTGGCTGTCAAAGAAAATTATTTTCACTTCTAAAACCTCTAAAGCAGAGTCTTGATTATTTA
ACTTAGCCTCCCACTTAAAAAAAAAAAGCCACTGAAGAAGAAATATTTCCCTTTTCAACTTCTGAAGTTGCTCCCCATTCATAACTGAATTCAGAATAAA
TATTGGTCAAAGCATACCAGTAAATTAGGGCACAGTCATTTTCAAATGAAATGAATTTCAAATGACACATTCAAACACATTAAGACTTAACTTCTTTCAA
ATGAAATCATTCAAGGAGTGCAGTGATAAAGTTCAGCGAAACACTAGGCTAGGACTCAGGATAAAAAATAAATTAGATGTAGTACCTACCTAACAAGCTT
AGTCTAGGATAATATGTTATATGTATAGAAACATAAACAAATAATATATAAACATAATTTTTAGAGATTGAGCAATATTATTTAAATTTTACCATAGGCA
TTAGAGTTGGAAAGTGTACCTTTCAGCACAAAATCAATTCCAAGTTCAAAAATTCAACTTAATCATATTCCCGTATTATGTGATCAAATCACTGAGGTAC
AATTTTGAACTTGGCACATTTCTTTTGACATTTTATTTGCTTCTGTTTTCATTTCTATGGCAGTAAAATGGAATCTCTCTGTCTTGGGGGACACTTGGGA
GTGAATAATAGTTAACAACCATAACATCAAGTTCTTGTGTGGGGAGTGCAAGTTTAACTTGTGCTTTATAAGATCTCTGGAGATGTAGTTACAGGTCAAA
GCTAAAATGAAAACCGCATTTGCCTGTGTGTTTACAGAATTTCATGTGTCATGTTGTTGCTTATAAGCCATGAAAAGTCATTCTCTAGGTCTCAGCCCAT
ACACTGAGAAATTCAAGGAGAAAGCTTAAAAGAAAAGAAAAAAAAAAGAGCACCTCCTGTTAGATGTGCAGGGCAGAAGCCTAGTGTCAGGTGTCATAGC
TAGGGGATGTCAGAGTATCCTCTGCCCTTTTTATTGTCACCGCCAGCAGCAAGGTTGTGGTATCTATAGAAGGCACTGCAGGCCCGAATCCTATCTCTGC
CTCCTCCCAGCTGCATGGGCGTAAATAAATCACTTAACATCTGGACTCTCAGATTGCTCATCTGTAAAATAGGATAAAAGTACCACCTGAAGCTGGGCGC
CTTGAGGTGGCTCATGCCCGTAATCCCAGTGCTTTGGGAGGCCAAGGCAGAAGGATCACTTGAGGCCTAAAGTTCAAGACCAGCTTACGCGATATAACAA
GACTCCATCTCTACAAAAAAATTAAAAAAAAAAAATAGCCAGTGTTGTGGTGCCCACCTGTAGTCCTAGCTACTTGGGAGGCTGAGGCAGGAGGATTGCT
TAAGCTCAGGAGTTCAAGGTTTCAGAGAGCTATGATCACACCACTGCACTCCAGCCGGAGTGAGGGCAACCAAGCAAGACCTTGTTTCAAACAAACAAAC
AAATAAAACCAGTACCACTTTAAGAGCTTGCCGTGAAGGTTAAAAAATAATGTCTGTAATTCAGCTGGCCCAGTGTCCAAAAAGTAGTAAGTACATAATA
ACTGATAATTCAAACAAGACCAGCTCAGTCAAAATGCTTATAATATAGATTTAAGGAATCCTTGGTAAAAACCTCCATATGGGGCTAAAATCACTGGCAT
TTCCACTGACCAGATTTTCATTCTCTCAAGAAATTAAACAAATGGATCATGGCTTCTCTCAAGCTGAGACTGCCTTAGGTTGCTACATTCTTTCCACATC
TATAGCAAATGTGTGATTTCTGCAAATCTCTTGCTTAAACCCCCTTTATTTAGAAATCCCACTTGCTTGCTCTTTGTGACGAGTTTAGGTTGGGGAGAAA
TATGTCCCTTCACATTTGTCCCTTATGTAATAATATAAAAGGAAGTTGTAATTGGATTTCACCACGGGTTCATCATTTGTGTCCCTGGGAAAGTGGCTTT
TTTTTTTTTTTTTAATAAAAAGTCAAAACAGTCCTTCCATTTGCCAGAATTGATCCCAGGTATTCCTTATGGAGGTTTGCCATGGGCTTCAGGTGTGACC
CCTCGGCATCTGTCCCCTAATCCCCAGTGGGCACTGCTAGTTCTGGCTCAGGACTCTTCACAATGGAAGAACCTCAGCTTCGGGGAGGCTGTAATCAGGG
AGATAATATCTGGATATGCAGGTGGACAGGAGGCAGCAGTAAACTACGGGGAATCTAGGCTACAGGTCTGGAATTCCTCAGGAGTCAGTCTGTACTCTAC
AAGGCAAAACAAGTGCTAACCATTGAGACTAACTCCAATGAGATAAAGGCCAGCGAAAGAAGCATTCTCAGGAGAAAGGGCTCCCAGGGAAGGTGGAGCA
GCAGGGGCTGCAGAAGATCCCTCTGCAGGGAGCACCTGCACACTGGCACCAAGCAAAGACATCTGAGTGCATGTTTCTGGGTGTGTGTGTGTGCATGCAC
GTGTACATTAGAATGAGAGTAACATCTGAATGTGTCTACATTGTGAATCCACGAATACTTAAATTATTATACTTTGTAGCTTGCCTTTATATTGATACAC
TCTTTTTTGATTTTGGAAAAATTTCCTCATACATAACACACATTAATGGCCCAGCAGCTTGATTTATCAAGAGAGAAATCAATAAGCATATATTGAATGC
TGACTTTGTCCAAGACACTGGGCAAATGGACTAGACATTGAAGAATGGAGGTAACAGCAGA


SNP Information

Context             (SEQ ID NO:56826):
TCCAAACTTGAAGTGCAAATCAAGCAGTGGTACGAAACCAACGCCCCGAGGGCTGGTCGCGACTACAGTGCATATTACAGACAAATTGAAGAGCTGCGAA
R
TCAGGTGAGAGATGATGCTTGTGTTTCCTACTCTGTGTTTAGCTTCAAGATAAATCAAGAGGTTATCTATGTTAGGTAGGTCCAAATGGACTTTGTAAAG
Celera SNP ID:            hCV25769153
SNP Position Genomic:     6429
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,22)   caucasian(A,3|G,37)   total(A,15|G,59)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56827):
AGAATAAAGATTTTTTTAAAGCTTTCCAATATATGATAATTTCTGACTTTCAGAAATAGCAATTTTATATGCTATTATATAGCATATATAATAAGGTTCA
R
CCTTATTATGTTACCCCCACTTTACATATGAGGATAAATGAGGACTCATATGAAGACATGAGATAAAGACTTTCCCAAAGTCAAGCAGTTACCAAGTAGT
Celera SNP ID:            hCV26647914
SNP Position Genomic:     16715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56828):
GCATTACTCATAAAAGCCCCAAAGCGAAACACCTCAAGTGTCCATCAACCGATGAATGGATAAACAAAATGTAATATATCCACACAATAGAATCTTATTC
R
TCAATAAAAAGGAATGAAGTACTGATACATGCTATAACAGAGATGAACTTCGAAAACATGCTAAGTGAAAGAAGCCAAATCCAAAAACAATAAAAACACA
Celera SNP ID:            hCV26647915
SNP Position Genomic:     16070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56829):
TTTTCATAATGTTGTTGTAAGTTAAATGACTTAGAGCAGCACCTGGACCACAATAAGCCCAACACAAGTTATTATTTTATATCTTTTTTACTTATTCCCA
R
TGAAAGAGGTCATGAGACTCCTTATGTCTTTTCTGCCCAGCCTTATCTGAGAATGTGCTTCAGACTAAAATCAATCAGAAATTTCACTTTCATAGGAAGT
Celera SNP ID:            hCV25769227
SNP Position Genomic:     10881
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,38)   total(A,72|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:56830):
AATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGCGATCACATTACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCCCAAAAAAAAAAA
A
GAAAAAGAAAAGGCATTTGTCAGTTTGACCTGCATTTTATTAACCAAAGAGAGTCACATGACCCAGCCAGGTGTCAATGGATTAAAGGAATCTAATCCTG
Celera SNP ID:            hCV26647916
SNP Position Genomic:     12430
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56831):
GTATTAAACCTAATACCCATTGGTTATTTTTCCTGATCCTCTCCCTCCTCCTACCCTCCACCCTCTGTTAGGCCCCCATGTCTGCTATTCCCCTGTATGT
R
TCCATTATACCAGATCTCAAAATCTAAGATAAAATTTTAAGATGGAGAATGGACTAGAGACATTCCAGGCCAAGCAAATCAGCAAGCCCATGACAAATTA
Celera SNP ID:            hCV26647917
SNP Position Genomic:     11875
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56832):
TTGAGTCCTGGAGTTTGAGAACAGCTTGGGCAACGTGGCAAAACCACATCTCTATACAAAAATACAAAAAAAATTAGCTGGGCATGGTGGCATACATCTG
S
TGTCCCAGCTACTTGGGAGGCTGAGGTGAGAGGATTGCTTGAGCCCCAAAGGTTGAGGCTGCAGTGAGCCATGATCACACCATTGTACTCCAGCCTGAGT
Celera SNP ID:            hCV26647918
SNP Position Genomic:     9852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56833):
TAATCTTATTGATTTTTCAGCATCAGTACAACTCTACAACCTTTGAGCTATATCTGCTTTTTCCCATTGCTTCCACTGCCTTTTAAAACTCAACACAGCT
Y
TTTGAATAATTTGAGAGTCAAATTCAATCACAAATGCTGAGCAGAATAAGAGTGAAGTACACTATACTTAAAATGGAAATAGATTAAAAACAACATTACT
Celera SNP ID:            hCV29192050
SNP Position Genomic:     15452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56834):
CTTGAGTCCTGGAGTTTGAGAACAGCTTGGGCAACGTGGCAAAACCACATCTCTATACAAAAATACAAAAAAAATTAGCTGGGCATGGTGGCATACATCT
S
CTGTCCCAGCTACTTGGGAGGCTGAGGTGAGAGGATTGCTTGAGCCCCAAAGGTTGAGGCTGCAGTGAGCCATGATCACACCATTGTACTCCAGCCTGAG
Celera SNP ID:            hCV26647919
SNP Position Genomic:     9851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56835):
CCCAGAGCCTTGAGATAGAACTCCAGTCCCATCTCAGCATGGTAAAGCATATCTAACTTCTCTTTCTCAATCTAGTATGTGTTTACCAAGGTCCTCTGTT
W
GGAACTATAGAAATGCAAAGACCTACAAGAAATAACCCTTCCCCTTGCAGAACTGGCAGGGAAACAGGCCGAACAACTGATTATAATTAAAGGACAGAGA
Celera SNP ID:            hCV25741580
SNP Position Genomic:     11485
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,38)   total(A,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:56836):
AGTAGAGGAATCCATGTAAATTGCAAATAAACCACTTTCTAATTTTTTCCTGTTTCTGAATTGTAAAACCCCCTTTGGGAGTCCCTGGTTTCTTATTGAG
Y
CAATTTCTGGGTTAATCTTATTGATTTTTCAGCATCAGTACAACTCTACAACCTTTGAGCTATATCTGCTTTTTCCCATTGCTTCCACTGCCTTTTAAAA
Celera SNP ID:            hCV29192051
SNP Position Genomic:     15339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56837):
TTTATCAGACTCTGTAATTGAATATAAATGTTTTACTCAGAGGAGCTGCAAATTGCCTGCAAAAATGAAATCCAGTGAGCACTAGAATATTTAAAACATC
R
TTACTGCCATCTTTATCATGAAGCACATCAATTACAAGCTGTAGACCACCTAATATCAATTTGTAGGTAATGTTCCTGAAAATTGCAATACATTTCAATT
Celera SNP ID:            hCV29192052
SNP Position Genomic:     15122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56838):
TGCCCTATTTTTCTTGTGCTCATAGAAAGAGTCTTTGGAGCACACTCTAGAGGAGACCAAGGCCCGTTACAGCAGCCAGTTAGCCAACCTCCAGTCGCTG
Y
TGAGCTCTCTGGAGGCCCAACTGATGCAGATTCGGAGTAACATGGAACGCCAGAACAACGAATACCATATCCTTCTTGACATAAAGACTCGACTTGAACA
Celera SNP ID:            hCV29192054
SNP Position Genomic:     12949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56839):
AGATTCATACTCCTTTAGAGCAAAGCGCATTTACTTACCAGCAAGTCTGTTTTTCTTGAGTTGTACTAAACATCAGGGCAATTTGATTCGGACTCCATGG
R
AAGTTACTTTGGAATTTTAGAAACTATGGGCATGTGAAGCAATGGCATTTAAATAGCCCTTCCGGAATAAAGTTCATCCTTCGCAAGCTCTCACTAAAAA
Celera SNP ID:            hCV29192055
SNP Position Genomic:     7347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56840):
TTTAGTGCTGGAGTACCTGACTGTACAATAGGATGACCTTAAATCATGCTATTTTTAATGTTTAACACAATTACATACAAAATATGAACATTTTATCCTC
Y
GGAATAAAATGAATCTTTGTCACAGCTTATCACATCAGGGCTAAATGTATAGTGAACAATCTTTCTGAAAAGAGCTAAAAATTAATTACGTGATAAATCT
Celera SNP ID:            hCV29192056
SNP Position Genomic:     6676
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56841):
AAAATGTTACATCTATAAAAATTCTTTCATCTACCTTTAGTGCTGGAGTACCTGACTGTACAATAGGATGACCTTAAATCATGCTATTTTTAATGTTTAA
Y
ACAATTACATACAAAATATGAACATTTTATCCTCCGGAATAAAATGAATCTTTGTCACAGCTTATCACATCAGGGCTAAATGTATAGTGAACAATCTTTC
Celera SNP ID:            hCV29192057
SNP Position Genomic:     6641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56842):
AAAAGAGCAATGGTTGGTCCACTTGATAGCTCTTAAAGCTTCTCCTTAGAAAAGGCATTTGTCCTTTGGGAGGCCAAGGCAGGAGGATCATTTGAGGTCA
R
GAGGTTGAGACCAGCTGGCCAATATGGTGAAACCCCATCTCTACTAAAGATACAAAAATAAGCTGGGCATGGTGGTGTGTGCCTGTAATCCCAGCTACTT
Celera SNP ID:            hCV2557931
SNP Position Genomic:     12211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56843):
TTGAGAGTCAAATTCAATCACAAATGCTGAGCAGAATAAGAGTGAAGTACACTATACTTAAAATGGAAATAGATTAAAAACAACATTACTGAAACCCTTC
K
CAAGGCAAAATGTGTCTCCTTTTGATAATAAGCTGCATATACTATCAGGTCCTCTCTTTCTTTATATGGTGAACATATATTTTTAATGAAATGTCTCTCA
Celera SNP ID:            hCV11887628
SNP Position Genomic:     15563
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56844):
GGAGGCCAAGGCAGGAGGATCATTTGAGGTCAGGAGGTTGAGACCAGCTGGCCAATATGGTGAAACCCCATCTCTACTAAAGATACAAAAATAAGCTGGG
Y
ATGGTGGTGTGTGCCTGTAATCCCAGCTACTTGGGAGGTTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGCGATCACATTA
Celera SNP ID:            hCV2557932
SNP Position Genomic:     12279
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56845):
CCTGAGACTGGATAATTTACAAACAATAGACGTTTACTTGGCTCACAGTTCTGGAGGCCAGAAAGTCCAATATCAAGGTGCCGGCATCTTGTAAGGGCCT
K
CTTGCTGTGTCATCCCATGGCAGAAAGTAGAAGTGCAAAAGAGTGTCCATGAGAACCAGAGAGCAAGAGGAGGCTAATCTTTCTTTTAGAACTAGCCCAC
Celera SNP ID:            hCV2557934
SNP Position Genomic:     14080
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,6)      total(G,2|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56846):
TAAAGAAACCCTCCACATGGGAACTTGGGCACACTCCTCAGAATGGGGTGATTTTCTTGGCCTGTGCTATTGCTATCTTGAAACATCCTGACATCCTGAA
R
AGGAAAAACAAGACAAAATTTGAATTCCACTTAAATTCAAGATAATTTATTTCTTGAATTTTTAAGAGTAGGACATTTGTAAATTTGGGGAGAAGCACAT
Celera SNP ID:            hCV2557935
SNP Position Genomic:     14508
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56847):
TATAAAATGGACTTAAGATTTTTTGAGAAAGAGGATGGGTTTAACATATTTTTCTAAAAGAAGGAAATAAGTAAAAAGAATAATAATTTAAAGTTGAATA
W
TATAAATCAGCAGAGTCATGTGCCTGAATTAACATTTAATGTTTAATATGAATTCAGATATAAAGAAAACCAGGAAGATTAAGACAGTCGTGCAAGAAGT
Celera SNP ID:            hCV2557936
SNP Position Genomic:     14723
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,4)      total(A,4|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56848):
GAAGGGGTGGGGTGGCGGGAATCCTATTTATCAGACTCTGTAATTGAATATAAATGTTTTACTCAGAGGAGCTGCAAATTGCCTGCAAAAATGAAATCCA
R
TGAGCACTAGAATATTTAAAACATCATTACTGCCATCTTTATCATGAAGCACATCAATTACAAGCTGTAGACCACCTAATATCAATTTGTAGGTAATGTT
Celera SNP ID:            hCV2557937
SNP Position Genomic:     15096
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56849):
GAAGCCTGAGCTCCTCCTTGCAGGCCCCTGTAGTCAGTACAGTGGGCATGCAGCGCCTCGGGACGACACCCAGCGTTTATGGGGGTGCTGGAGGCCGGGG
Y
ATCCGCATCTCCAACTCCAGACACACGGTGAACTATGGGAGCGATCTCACAGGCGGCGGGGACCTGTTTGTTGGCAATGAGAAAATGGCCATGCAGAACC
Celera SNP ID:            hCV25768230
SNP Position Genomic:     6172
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,37|T,3)   total(C,73|T,5)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56850):
AGCAGCACCTGGACCACAATAAGCCCAACACAAGTTATTATTTTATATCTTTTTTACTTATTCCCAATGAAAGAGGTCATGAGACTCCTTATGTCTTTTC
W
GCCCAGCCTTATCTGAGAATGTGCTTCAGACTAAAATCAATCAGAAATTTCACTTTCATAGGAAGTCGATGGCCTACACAAGCATCTGGGCAACACTGTC
Celera SNP ID:            hCV27510665
SNP Position Genomic:     10915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56851):
CTTTATCATGAAGCACATCAATTACAAGCTGTAGACCACCTAATATCAATTTGTAGGTAATGTTCCTGAAAATTGCAATACATTTCAATTATACTAAACC
W
CACAAAGTAGAGGAATCCATGTAAATTGCAAATAAACCACTTTCTAATTTTTTCCTGTTTCTGAATTGTAAAACCCCCTTTGGGAGTCCCTGGTTTCTTA
Celera SNP ID:            hCV7571522
SNP Position Genomic:     15233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56852):
TGAGAACCAGAGAGCAAGAGGAGGCTAATCTTTCTTTTAGAACTAGCCCACTCTCACAATAACTAACCCATTATCATGGTAACCACATTAATCCATCCAT
S
AGAGAAGAGCCCTCATCATCTAATCACCTTTTACTAGGCCGCACCTCCCAACACTGTTACATTGGGGATTAAGTTTTCCACACATGAACTCCAGGGAACA
Celera SNP ID:            hCV16098786
SNP Position Genomic:     14230
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,10)      total(G,10|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56853):
TTGAGCTATATCTGCTTTTTCCCATTGCTTCCACTGCCTTTTAAAACTCAACACAGCTTTTTGAATAATTTGAGAGTCAAATTCAATCACAAATGCTGAG
M
AGAATAAGAGTGAAGTACACTATACTTAAAATGGAAATAGATTAAAAACAACATTACTGAAACCCTTCTCAAGGCAAAATGTGTCTCCTTTTGATAATAA
Celera SNP ID:            hCV16030787
SNP Position Genomic:     15494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56854):
TGAGCCGAGATTGTACCATTGCACTCCAGTCTGGGCAACAGAGCAAGATTCTGTCTCAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAT
M
AAAAAGAAAATGTCATTCTTTCTCATGTATTTTCCAGATTAAGGATGCTCAACTGCAAAATGCTCGGTGTGTCCTGCAAATTGATAATGCTAAACTGGCT
Celera SNP ID:            hCV26647920
SNP Position Genomic:     8545
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56855):
GTGAGCCGAGATTGTACCATTGCACTCCAGTCTGGGCAACAGAGCAAGATTCTGTCTCAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAA
K
AAAAAAGAAAATGTCATTCTTTCTCATGTATTTTCCAGATTAAGGATGCTCAACTGCAAAATGCTCGGTGTGTCCTGCAAATTGATAATGCTAAACTGGC
Celera SNP ID:            hCV26647921
SNP Position Genomic:     8544
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56856):
TACAGTGAGCCGAGATTGTACCATTGCACTCCAGTCTGGGCAACAGAGCAAGATTCTGTCTCAATAAATAAATAAATAAATAAATAAATAAATAAATAAA
T
AAATAAAAAAGAAAATGTCATTCTTTCTCATGTATTTTCCAGATTAAGGATGCTCAACTGCAAAATGCTCGGTGTGTCCTGCAAATTGATAATGCTAAAC
Celera SNP ID:            hCV26647922
SNP Position Genomic:     8540
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56857):
GAAAGAGGTCATGAGACTCCTTATGTCTTTTCTGCCCAGCCTTATCTGAGAATGTGCTTCAGACTAAAATCAATCAGAAATTTCACTTTCATAGGAAGTC
R
ATGGCCTACACAAGCATCTGGGCAACACTGTCAATGTGGAGGTTGATGCTGCTCCAGGCCTGAACCTTGGCGTCATCATGAATGAAATGAGGCAGAAGTA
Celera SNP ID:            hCV25769977
SNP Position Genomic:     10983
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56858):
CTCATTTTTTTCTTAATTTTCTTCCAAGTCACGCTAGCTAGTAAGTTGCATTTAAAGATGTTAAGAATATTTAAAAGTGAATTCTTTTTCACCTACTGAG
W
CACATTCCAGAATAGTCTGAAACTTTGACATGCAAATACCAGACTGTGAATCTGATTAATAAGAAACCTATGCAGATGGGTTTGTAACTGATTAGGCCTG
Celera SNP ID:            hCV7571529
SNP Position Genomic:     17208
SNP Source:               dbSNP
Population(Allele,Count): (T,-|A,-)   (T,-|A,-)   Caucasian(A,32|T,50)   African-American(A,12|T,66)   Asians(T,82)   total(A,44|T,198)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56859):
GCAGAGGTTACAGTGAGCCGAGATTGTACCATTGCACTCCAGTCTGGGCAACAGAGCAAGATTCTGTCTCAATAAATAAATAAATAAATAAATAAATAAA
T
AAATAAATAAATAAAAAAGAAAATGTCATTCTTTCTCATGTATTTTCCAGATTAAGGATGCTCAACTGCAAAATGCTCGGTGTGTCCTGCAAATTGATAA
Celera SNP ID:            hCV26647923
SNP Position Genomic:     8532
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,11)   total(T,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56860):
ACATGGAACGCCAGAACAACGAATACCATATCCTTCTTGACATAAAGACTCGACTTGAACAGGAAATTGCTACTTACCGCCGCCTTCTGGAAGGAGAAGA
Y
GTAAAGTAAGGCTCTTAGAATCAAGGAATAGGTGTCAATATCTGTATGCACTTCTATTTTAATGTCCCTGTCACTCATTACCCAGCACCAATGCAATCCC
Celera SNP ID:            hCV25746204
SNP Position Genomic:     13089
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56861):
CCAGCTTTGCTGGCTAACATCACACATGACTTGATTCAGTACAACTTTTGTCAGAAAAGGTATTCTCACCTATTCTCATTGCCTTCTTTTCCAAAGTGAA
R
AGATTTCACTCATTTTTTTCTTAATTTTCTTCCAAGTCACGCTAGCTAGTAAGTTGCATTTAAAGATGTTAAGAATATTTAAAAGTGAATTCTTTTTCAC
Celera SNP ID:            hCV2263187
SNP Position Genomic:     17099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56862):
CCAACTTAAAGCATTAGTAGTGATTTTTATTTTTGAATTCTCTTTCAAACATCTCTGTTTTCTCTCCCCTAGGCTCATTTCCAAGATTCCTCTCATCAGG
K
TATTATTTTATCATCTTCCTGTCTCCTACCACTTTCAAAATTCTCCCCTGCTTTCAAGAACCATTGATCTCTGGAGCCCAGAAGTCAATCTCACTCATAC
Celera SNP ID:            hCV25770552
SNP Position Genomic:     18079
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,37|T,1)   total(G,74|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56863):
TTTGGCTATAATCTTATCTTTGCTCCCTGCAAGAAATCAGCCATAAGAAAGCACTATTAATACTCTGCAGTGATTAGAAGGGGTGGGGTGGCGGGAATCC
Y
ATTTATCAGACTCTGTAATTGAATATAAATGTTTTACTCAGAGGAGCTGCAAATTGCCTGCAAAAATGAAATCCAGTGAGCACTAGAATATTTAAAACAT
Celera SNP ID:            hCV11940673
SNP Position Genomic:     15020
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56864):
GGAAACAATGGAATGGTTCTATATAATACTAATAATAGGAGGAGCGGGAGAAACAGGAGAAGGGGGAAGAGTTGGTGGTGATAGTGACAGAGATGATGAC
K
ATGACAATAATGATACAAGCCCTACCTTCTTTTCATAATGTTGTTGTAAGTTAAATGACTTAGAGCAGCACCTGGACCACAATAAGCCCAACACAAGTTA
Celera SNP ID:            hCV25768728
SNP Position Genomic:     10751
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,1)   caucasian(G,36)   total(G,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:56865):
TGAAAGAAATTTGGCTATAATCTTATCTTTGCTCCCTGCAAGAAATCAGCCATAAGAAAGCACTATTAATACTCTGCAGTGATTAGAAGGGGTGGGGTGG
Y
GGGAATCCTATTTATCAGACTCTGTAATTGAATATAAATGTTTTACTCAGAGGAGCTGCAAATTGCCTGCAAAAATGAAATCCAGTGAGCACTAGAATAT
Celera SNP ID:            hCV11940674
SNP Position Genomic:     15011
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56866):
TGATAAAAAGTAAAGTGAGGCTGTTTTAGTCTGTTTTCTGCTGCTGTGACAGAATACCTGAGACTGGATAATTTACAAACAATAGACGTTTACTTGGCTC
R
CAGTTCTGGAGGCCAGAAAGTCCAATATCAAGGTGCCGGCATCTTGTAAGGGCCTTCTTGCTGTGTCATCCCATGGCAGAAAGTAGAAGTGCAAAAGAGT
Celera SNP ID:            hCV11940675
SNP Position Genomic:     14024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56867):
TGGATAATTTACAAACAATAGACGTTTACTTGGCTCACAGTTCTGGAGGCCAGAAAGTCCAATATCAAGGTGCCGGCATCTTGTAAGGGCCTTCTTGCTG
Y
GTCATCCCATGGCAGAAAGTAGAAGTGCAAAAGAGTGTCCATGAGAACCAGAGAGCAAGAGGAGGCTAATCTTTCTTTTAGAACTAGCCCACTCTCACAA
Celera SNP ID:            hCV16177891
SNP Position Genomic:     14088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56868):
GTGTCCTTTTATACACAAATGTTCATAGCAGCATTACTCATAAAAGCCCCAAAGCGAAACACCTCAAGTGTCCATCAACCGATGAATGGATAAACAAAAT
R
TAATATATCCACACAATAGAATCTTATTCGTCAATAAAAAGGAATGAAGTACTGATACATGCTATAACAGAGATGAACTTCGAAAACATGCTAAGTGAAA
Celera SNP ID:            hCV2557941
SNP Position Genomic:     16040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56869):
GGTAGGTCCAAATGGACTTTGTAAAGCAAATTAGGCTAAAATGTTACATCTATAAAAATTCTTTCATCTACCTTTAGTGCTGGAGTACCTGACTGTACAA
Y
AGGATGACCTTAAATCATGCTATTTTTAATGTTTAACACAATTACATACAAAATATGAACATTTTATCCTCCGGAATAAAATGAATCTTTGTCACAGCTT
Celera SNP ID:            hCV2557926
SNP Position Genomic:     6604
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56870):
GCCGGGCATGGTGGCGGATGCCTGTAACCCCAGCTACTCGGGAGGCTGAGGCAGGATAATTGCTTGAACCTGGGAGGCAGAGGTTACAGTGAGCCGAGAT
Y
GTACCATTGCACTCCAGTCTGGGCAACAGAGCAAGATTCTGTCTCAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAAAAGAAAAT
Celera SNP ID:            hCV11887639
SNP Position Genomic:     8456
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56871):
ATTTACTTACCAGCAAGTCTGTTTTTCTTGAGTTGTACTAAACATCAGGGCAATTTGATTCGGACTCCATGGGAAGTTACTTTGGAATTTTAGAAACTAT
R
GGCATGTGAAGCAATGGCATTTAAATAGCCCTTCCGGAATAAAGTTCATCCTTCGCAAGCTCTCACTAAAAATGTTCGAACCACACCTGTCTCGTGTTTC
Celera SNP ID:            hCV2557927
SNP Position Genomic:     7375
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56872):
GGCTAACGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCAGGAGGCTCACTTGAGTCCTGGAGTTTGAGAACAGCTTGGGCAACGTGGCAAAACCACAT
M
TCTATACAAAAATACAAAAAAAATTAGCTGGGCATGGTGGCATACATCTGCTGTCCCAGCTACTTGGGAGGCTGAGGTGAGAGGATTGCTTGAGCCCCAA
Celera SNP ID:            hCV2557928
SNP Position Genomic:     9801
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56873):
TTGATTCGGACTCCATGGGAAGTTACTTTGGAATTTTAGAAACTATGGGCATGTGAAGCAATGGCATTTAAATAGCCCTTCCGGAATAAAGTTCATCCTT
Y
GCAAGCTCTCACTAAAAATGTTCGAACCACACCTGTCTCGTGTTTCTGACTCTAGTTTGGTTCATCTGAAATACACAGGCACAGGCCATCCGTCCCATTG
Celera SNP ID:            hCV16030772
SNP Position Genomic:     7429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56874):
ACAGAGAGAAATCGAGGAAAGGGCAATGTACTGCATGAATGCAGAGGAAAGAGTAAATCTGGAAGATTTCACAGGGAAAGTGGCATTTAAACCAGATCTT
Y
TTGTAACTTTTAAGTTCAGGAGTACATGTGCAGATTTATGATGTAGTTAAACTTGTGTCATGGGGATTTGTTGTACAGGTTATTTCATCACTCAGGTATT
Celera SNP ID:            hCV2557929
SNP Position Genomic:     11679
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56875):
TTCTCATCCACATGCATCAGGATCAGCCTCAGGTACCTGATTAGACCCCCAAGTAACAATTCCAACTTAAAGCATTAGTAGTGATTTTTATTTTTGAATT
M
TCTTTCAAACATCTCTGTTTTCTCTCCCCTAGGCTCATTTCCAAGATTCCTCTCATCAGGGTATTATTTTATCATCTTCCTGTCTCCTACCACTTTCAAA
Celera SNP ID:            hCV25770121
SNP Position Genomic:     18018
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,38)   total(A,1|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:56876):
TTTGATTCGGACTCCATGGGAAGTTACTTTGGAATTTTAGAAACTATGGGCATGTGAAGCAATGGCATTTAAATAGCCCTTCCGGAATAAAGTTCATCCT
Y
CGCAAGCTCTCACTAAAAATGTTCGAACCACACCTGTCTCGTGTTTCTGACTCTAGTTTGGTTCATCTGAAATACACAGGCACAGGCCATCCGTCCCATT
Celera SNP ID:            hCV16030776
SNP Position Genomic:     7428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56877):
TTGAGGATGTGAATGGTACCACTTTGAATTCCTAAGATGTAATATAATATCTAACACATAGCAGGCACTTGATTCATTATTTTAAATTGAAAGAATAAAG
W
TTTTTTTAAAGCTTTCCAATATATGATAATTTCTGACTTTCAGAAATAGCAATTTTATATGCTATTATATAGCATATATAATAAGGTTCAGCCTTATTAT
Celera SNP ID:            hCV16030777
SNP Position Genomic:     16624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56878):
TGAGCTATATCTGCTTTTTCCCATTGCTTCCACTGCCTTTTAAAACTCAACACAGCTTTTTGAATAATTTGAGAGTCAAATTCAATCACAAATGCTGAGC
M
GAATAAGAGTGAAGTACACTATACTTAAAATGGAAATAGATTAAAAACAACATTACTGAAACCCTTCTCAAGGCAAAATGTGTCTCCTTTTGATAATAAG
Celera SNP ID:            hCV16030778
SNP Position Genomic:     15495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 316
Celera Gene:                 hCG1794333 - 79000075504436
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(39280749..39293815)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12476):
ACTCCACTCTCCATGGCACCAATTTAATATATTAGTCCATTCTCACACTGCTATAAAGACATACCCAAGACTCGGTAATTCATAAAGGAAAGAGCTTTAA
TTGACTCACAGTTCCAGGTGGCTGGAGGGGGGAGCCTCAGGAAACTTATAATCCTGGCAGAAAGTGAGAGAGAGGCAAAGACACGTCTTACATGAAAGAG
AGAAAGAGGAAGAGCTTGCAAGTGAAGGGACAATGGCCCCTTATAAAACCATCAGATCTCATAAGAACTCACTCACTATGATGAGACCAGCAGGTGCGAA
ACTGCCCCCATGATCCAATCACCTCCCACCAGATCCTGTCCTTGACACGTGGGGATTATGGGGATTACAATTCAAGATGAGATTTGGTGGGGGATACAGA
GCCAAATCATGATAAATCTAGTGTGACTTCATGTTGAGACAGAGTCAGTGGCCTCACTATTGAATACATTAGCCTGTTCTTTACCACACTCGAAAATTAG
CCTTGCTAGTGTTCTCTAATTCTCTAAGGGGCATAGCAAGAGTGATCTGTGCCACAGTTCCCAATTCGTTCTGCTCCACTGAGATGACAGTGAAGTTTTG
AGCAATGTAGTTAACACTAGAGAATATGTTCACATTGAAAAACTGGAAGAAAAGGGCAAGAGTCACTATTTAAATTCCATCCCACTTTTCAACATTGTTA
CAAATCTAATAAACACATATTTTATAATTGAATAACTACACTGCATAAGGGAGAAAATCACCAATAAAAAAATCATGTGGTTTGATTTTAAAAAATGAAG
CTTAGAGTGTTTGGCAATAATACCTATGTTAATAAAAAGAAGTACAGAAATAAAAATACAAAAGGATCAAGTCATGGAAGTTCATATGCATTCAGTGAAT
ATGACATAAAAAGGCTGAATTCTCTCATGAAATACATGGCACACCAAGGAATAAGAAACAATATTCAGGTCCCAGAGTACCACATCAATGAACCCCAAAT
ATTCTGGATTAAAGAAAGCTGCCTTTGAAATTGTTGGTAAAGAAGTAGATCCCACTATAGAAACTTGGAGTGGGATAGGGTGGGTTTGGTGATATGTTCA
GCTTCACCTGAGAAACACTTCCCTTCTTGGACACATGTCCATTCATCACCGTCCCCAGCTTAACTGGGCTTATACGCTCACAGTTTTATCTCCTCCCTAG
ACCCTTCCACAATTTCTTGATAATTTCAGCATTCCAAGTAGAAGACCCAATTGACCTGCAACCAAAACTATGCCTTCCGAACTCTGAGATGTCCCCACAT
CATGCACCAGACCCCAAATCCTGACCAGAAAAATCTTTTGTCAGCACAGATCCCTCTCTGGAAACTGAACTCAGTGTGTAATTCTATAATCACAGACATA
TATCCCACGTTCGTTGCTCTACTTCCACTGAACTGAGTCAACCTCTTTAACACTTCTACTTCCTGCGAGTGCTTAGGTCTCCTGTGGTCACCTCTCTATC
ATTCGCAAGACAGGACCACTAAAAATTATCACATTAACAATTGTAATTTGCTGTTGCATCATCTTTCCCCTGAAAATTGTGCAAACAAAAAATCCAGATG
GGTCAAGTCTCAATGTAGTGTCCCTGCTCCTTCCCAATGAAGGACATGCACAACCATGAAGATGGTGCCTTTACAAACGAACAGTCTCCATGAGTCACAT
CAGTCCTAGTCCATCCTTTGATAAACATTCATGTCTGCCTCTTCTTCCTCTCATTGACCATTTAAAACCTGAAATACGCTACTAGAGACCCCTTAACAGT
TTATCTCACTGAAGGCTATTACGACAAGCAGAAATAAAAGCACCAGAAAGATAAGTAGATATGGAAGCAATTGTAAGTAAATACAATTTTTAAAAACTGT
TTTGCCTGGAACATTGATTGGATGAAGGCACGAACACCGACCTGAGATAGTGGCTTCCTGTTGGCACAGTTGATGCCCCCAATGAAGACCATGTTGGGCA
TGATCGGCCTGGGGTAATCCATCACAAAGTCCCCTCGGAACAGCCACACAGATGCATGGCTGAGAAGATCCACCACTGACACCTCCCTCTGAAAAAGCTC
AGAGGCAAGGCTTGCATAAGGAGCAGAAAGAGCATGGCAAAGGTAGGACAGGGCCAGAGGGTAGAGCATGTTCTTGACCCTTTGCAGGAATGTCATGTGG
TCTGAATTGGTCGTTAGTAACTTAGGAATATAGGAGGAAGGATTTGGACACTGTGTGCCCTTAAAGTCTAAATCACATGGAATGTTCCTCAAAAAAAACA
CAGCAGGAATTGATAGGTACTTAGCCAGCACTGCCCCACAGAGGTAAATTGGGTCTATTAAAACCACATCGAAGGAAGTAGCATTCAGGTGCCTGATCAG
GGCCTCATTATGCAGTAGCTCCACACAAGACCTATGAAAGACCAAAGATGAATTTTTCAAAATTGCCATACTTTTAGAAAATGTCTTCAGAAAATGTTCT
GTTTCAAAGTACAGTTGAGTGTGGCCCAGCACAAGGCGATCAAATTCATCCTGGGTCCATGAAATGGCATAGGTTGTCAGGGTGAAAAATTTCTCTTGTT
TGATGTGCATATTCACCTCTGGGGTGAGGACCACCGCCTGGTGGCCTCTGGCATGGAGCTCCCGCACGGCCTCCCGCATGCGAGCCAGTGGCTGCCATCA
ATGGGTACCACCAGCACCTTCCCACTCTCAGCCCAGGGCTGGGCACTGAGAAGGAGTAGCACTCCTGTGGCCAGCCACAGCAGGGGAACCTGGGGTCCTG
TGGCCATCTCAGCAGAAGACACGGACAGCTGACTGTCCACCCCACGCTGTGCCTCCTACATTTGTTTTCTTCATCTTAATTACCTTGTCACTGAGCCACT
TAGCAAATCATCATGTAATTGGAAGATAGAGTGCTCTCCTCCTAGTTAATTATTACCGATTAACCAATCATTGTCTTTCATTATGGGTCCCACTTCGGGA
AAGACCGATCACTCCTACTTGAAAAACTCATCTGACCCTGCGCTCGCTCTGGGGAACATCCAAGTTCAAGCTCTTGTTTCTCATCCAATTCCCAACAAAG
GCCTGTGGAAACCCATTTCATGTCACAGCCTCCTACTTCTCTGTTAACCACGTTTATCAGGCTGCAGCTGAGGTCTGAGAGGTCCCCAACAGTGGTAGGC
AATAGTAGGCAATCCACATTCACGCTCATGAATTACAACAGAAAACCACTACTAAGCAATCCAATTAATCTCTGCTTTGGAACCAAAGCAGAATCCATTG
CTAATTCCCTTATCCACCAAATATTTATGGAATGTGTGAGCCCTACCTACTATGCTAGGAACTCGGGACAGAAAGCCAAGTTAGAAATGGTCCTTGCCTG
AAAGGAGGGGTCAGGTGAACAGAGACAAACTCACAACTAGGCAATTACAGGGTGTGGTGCTCTAGGGGCTAAGAAGTCACACAGCAGGGCAGCAATATGA
TGGTCTTGCTTTGGGGGCTACTAAAGAGTGACATGTCCATGGAAAGTGTTTCTGGAACCCTTTTGAAGGTACTTTCTTTTTAAGCTGAAGACATAAGTTA
ATAGGTCACCATTGGACACACTCCCAGCTCCTTTCATCAAATCAGAATGAAGGGACTTGTTACTAAAGGAGCAACATAAACATGTCCATTGCCCTGTAGA
TCATCTACAGGGCCCTCCAAGGGAAACAAAGCCACCTTCCTTGAATCCCCACAGCGTTTTGTTCTGTTCTGCCTTGTATCTTTTAGCAGTTTGCATATCT
GTCCTTGCTATTAGAGTATAGCTATATCCTATACATATATTCCTTACAGGCAAGATTTTGGCTTTGGAATCATGCTATCACTCAGGTGCCAGTCCACAGT
TTTGCAGACAGTAAGCACTCTGGACATGTTTCTGTATAGAAGTGACTCCTCTTCTCTTTTCGTTCTAGACCCTGCATCCAAGCCAGCAAGTAAGTGCTGA
ATCTGGATGTTTCTACCACTGTCTCTCAGACCCAGCTGTCATGGTCCCATTTCAGGGCCCCTGTCCCCCAGTTGCCCAACCCCCAGCTGTCCCTTCTGAA
TCACTGCCTCAGCTGCTCCCTGAAAAACGCCACCCCACCAACACTTCTGGAACCTTGGTCAGCAGCTTCCTGGGCACAGAAGAAAATTCAGAGTCCTCTG
CCTTGCTCTCAAAACTCTGGGATAGACCCCAGCCCCCCTGTCTAAGCTCATTCCTCCTCTCCACCCCTTCTGCTTGCCCCCTCCCTCTGCCTCTTACCCT
CCAGCCATTCTGGATCACTTGTTGTTCTCCAAACTTGCTTTGATGTTCCCAAATTGCTTTGTTCACACTGAACTCTACCCTCGGCCAGCTTTCTATGACT
GTTCATTGTGTGCTTACCAAGTGCCAAGTCCGGGTCTCAGGTTATGTCACTAGAGGCTATATAAACTTAGAAGTTTGTTCTGGTGACATAACACATCCCC
ATTAGACCTAATACCCTATAGGAAATCTTAGAATGTTCTTTGGTTAATCATTTTCCCCTTAGAACTGAGTGACCTTTACTAGTGTATTGCCTCACAATTT
ATCAAAGAAAAGAATCCAGTGTCAAAAAGAGAATAAGGAGGTGAAGAGAACTCAGATCTCAAAAAAATTCCCCCAAAATTCATGGTCATGATATAGCAGT
TCTAGTGGAAATAATCACTGCATCCCACGTTTATCCCCAGTGCTATACACACGGCCTGCAAGTCTTAATGGTTTCGATACAGTAAATAGTGCTGTATTTC
CTTTTGTCTGAGAGGATCTCCCTGGTTGTTTTAGCAGTCAAGAAAAGTGAATAACATGCACATTTGACCCTCCATATACTTGGGCTTCACATCTGCAGAT
TCAGCCAACAGCAGATTAAAAATATTTGGGGGGAAGAGCAATGAAAAAACAATACAAATAATACAAATAAAAAACCAATACTGTAAAACAACTATTTACA
TAGCATTTACATTTATTAGGTAAAAGTAATCAAGAGATGACTAGAGGCTTAAAGAAGGATATTGGTAGGTTATATACAAATACTGTGTCATTTTATAAAA
GGAGCTTGAGCATCTAGATTTTGGTATGGAGAGGAGGGTTGTCCTAAACTAATCCCTTCAGAATACCAAGGACTACTCTGCTAGACTAGCGATTCTCAAA
GTATGAGCCAGGAAATCCTAGGGATCCCCAAGAATTTTTCAGGAGAATTTTGCAAAGTTAAAACTATTTCCATAATAATGCTACTTGATTTTTTCACCGT
CATTCTCTCACAAGTGTACAGTGGAGTTTTCCAGAAGCTACATGGGTGATGTGTAATATCACAGTAGATTGAATACAGAAGCTGACATGAGAATCCACCT
CTCTATAGAGCCAAGTACTAAAGAGAGATGCAAAAACTGTAAAACGATGCCACTCTTCTCACTACATTTTGTCTTAATAAAATTTACATAAAAATAAGAT
TTGCTATTGTGTCATGGGTTTATTCTTACTAAATTGCCCAATTAATATGTCTTTTTAATTCTGTTTTAATCTCTAATGCAGTACGTATGATAGATATAAT
CCACATGAACAAAAGCAAATGGGCACCGGGGCTGGAACGTTGGAGAACTGCAGTCCTAAACAACAGGATGTCTTCAGCCCCAGTCAGACTAAACTCACTC
CCACCACCCTCTTCCCTCCTGTGGCCGAGGAAAAAGACTGATATAAAGCCTACTTTAAGAAAAACAGTTCTTCAGGCAGCCAAAGTCAAGGCCCTCTCTT
TTCCCCAACCTCTTTTTCCCATCCTTTTTGGAGACCATGGCTGGTTGGAGGCCGGAGTGGGCGGGGCCTGGTCTTGGAGCATCACAGGGCCTCACAGAGC
CTCACAGAGAGCAGGGCCAGTCCCAGAAGCACTGCATCTTGGGATGCGAGGCGCTCATAGGCCTCGACCAATGAGATGTGGCTGCGTCATAAGGGGCGTC
TCTCCAGGCGGCCCAGGTCTCCGAGCACTCGGGCCTGCRCCTGGGTGCTGGCAGCCTTGCCGCTCGCTGTGCCAGTGCCTGGTGGGCCGTTCTGGCCATC
CAGCATGGTGGACTACTACGAGGTGCTGGACGTGCCCCGGCAGGCCTCATCCGAGGCCATCAAGAAGGCGTACCGCAAGCTGGCGCTCAAGTGGCACCCC
GACAAAAACCCTGAGAACAAGGAGGAAGCGGAGAGGAGATTCAAGCAGGTGGCCGAGGCCTACGAGGTGTTGTCGGACGCCAAGAAACGCGATATCTATG
ACCGCTATGGCGAGGCGGGSGCGGAGGGCGGCTGCACAGGCGGCAGGCCCTTCGAGGAMCCCTTCGAGTACGTCTTCAGCTTCCGCGACCCAGCCGASGT
CTTCAGGGARTTCTTCGGCGGCCRGGACCCATTCTCCTTTGACCTCTTGGGAAACCCGCTGGAGAATATTTTKGGGGGGTCRGAGGAACTGCTGGGGAAG
CAGAAGCAGAGCGTCTGCACCCCTTTTCTCTGCCTTCAGTGAATTTCCAGCTTTTGGGGGTGKTTTTTCTTCTTTTGATACAGGATTTCGTTCCTTTGGC
TCCCTGGGAAGTGGGGGCCTTTCTTCCTTCTGCATGTCCTACGGTAGTGATGGGACAGGCAGCTTCAAGTCCATGTCGACTTCCACTGAAATAGTTGATG
GTAAAAAAATCACCACCAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAAYRGC
AWAGAGCAGTTRCTCCSCATTGACACCAAGTAATTCCAGTCCACATTTGACTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGA
ACTTTACTTTCAGAACAGCTGTACCCAAGAATTTATAAACACTTYATGCCAAYRCCTGTTCTTATYGTTGGGACTRCACGGATAGGACCTCTGTTTGTCT
TTCRATCRTTGTAAAATATCTGTATGCAATTTGCTATTTATTAAACTTAAGCCTGAGGCAGACAATGATTATTTGCTAGTGGTAGGACAGAATGTTCAGT
TCAGCACTTTGAGCATTACCTTTTTCCGTTGGGAAAGTGTGAGCCAGGTGGTTTGCTCTAAATCATTTGACTTTATTGTTTAGTGTGTAGTGGTGAAATC
TACAAATAATATCAATACTTCTGGCTTAATTTAATGATGGTTCAAAACAACATGCATTTATTATCTTAATATTTTGGAGGTCAGACATTTGAATCCCATA
TCACTGAGCTGAAATCGGTGGAAGCATGTTCCCTCTGAAGGCTGAGGACAAACCTTGGGGTTACATGGTTGGTCGGTGGTATACTAGGACTGTCTTCAGC
CTGAACGTGGTTCTCCAACTATGGTAGGTTGCTGGGGATAAGCCCCCAATTCCGGCCAGAAGCTGGCCCCTAAACTGGCCATAAACAAAATCTCTGCAGC
ACTGTGACGTGTTCATGATAGCCATGATGCCTATGCTGAAGGTTGTGAGTTTACTGGAATAAGGGCAAGGAACACCTGGCCCACCCAGGGAGGAAAACCG
CTTAAGGTGTTCCTAAACTACAAATAATAACATGAGCCATCTGTGCCTTAAGGACATGTTTCTGCTGCAGATAATTAGCCAGAGCCCATCCCTTTGTTTC
CCGTAAGGAATACTTTTAGTTAATCTATAATCTATAGAAATGATGCTTATCACAGGCTTGCTGTCAATAAATATGTGGGTAAATCTCTGTTTGGGGCTCT
CAGCCCTGAAGGCTGTGAGTCCCCTGATTTCCCACTCCACACTCTATATTTCTGTGTGTGTGTCTTTAATTCGTCTAGCGCTGCTGGGTTAGGGTCTCCA
CGACCAAGCTGGTCTTGGCAGTGGGTCCTGGAAATGTAAAAAAAGGATCTCCATAAGGCCACACAGAACTATCCTATTGCTATGCTTGGGACATATCAAA
TTAGGTTGATGAAAGCCAAGTGTATCTGTAATATTTTTTGGGTGAGGCACCATAAACACAACAAGAAAGTACCTTTCTGTTGGCACAGGTTATGCCCCAA
ATGAAGACCTTTTCCATCACAAAGGGTCCCTTCTTCTAGGGTCACCTCTGAGGAAAGGTTTGCATAAGGCATGAGAGCAAAAGGCAACTGAACTGGATAG
GCTGAAAAAAATTAAGAGCAGCATGCTGGTAATTTTTTACAGAAAAATCATGGCCTGAACACATCATTAACCAACAAAGAGTGTGATATGGGTTTGGATA
TGCTCTAGAACCCTCAGAGTCCACTCTGCATGTAATGGCACCCAAGCAATAAACAGCAGGAACATGGCAGTCAGCTGGCACCATCCCACAGGGGCTCATG
GGGTCTGACACTGAACTCTGAAATCAACATGCTCCGAGGTGCCTGGGTAGTTGATTCTCATACAATAACCATAAAAGAAGTATCAGAATAAGACAGACTG
TTAAGGCTTTTGAAAAATGAGTTCAGTTTTTTGTACATCAGACGAGGGAACTTACATGTGTGAAGATACTCACTGAGTAGTTTGCTGAGTAGGTTTGCTT
TTGGAGCAGTTCAGGGATGAAAGGAGTTTCAAAGTGGTAGAAAGGCATGGGCAGTTTCATTGTGGTTTTGTGTGTTGGAAATCACTACTCTGGGTAGAGT
AGAATGAGTTGGTGTGTATCTACACAATTGGGTACATAAATCCCATTGTTCAGTGGTCAGCAAAGAGTGGCATACCAGTGTCACTCAGAGGTAGTGGGTC
TGTAACAACTCTGGCTAGTTTTAACAGTTGAAAGCAAACACAAGTTCAGTTTTGATATATCCTGGATTAGTGCTGTCATAAATGGAAAGTGTTGCTTTTA
TAGAAGTGTAAAGCTTGATTGTCTGTTTGCTTGTTTGTTTTAAAGACAGGGTCTCGCTCTGTAGCTGTTACCTAGGCAAGATCATAGCTTACTGTAACCA
CGAATTCCTGGGCTCAAGTGATCCTTCCTCCTCAGCATTCCCAGTAGCTAGGACTACAGAAATGCTACCACACCTAGCTAATTAAAAAAAAAACTTTTTG
TGGAGATGGGAACAATGTTGACCTACTATGTTGTCCCTGCAAGAGCATTTTATTTAAAGAATTTTTAGAATTGAAAAATCTCCTTTTAAAATGTCTCAGC
TCAAAAACAGAACAGTGCTAGAGCCTGTTATGTGGGTATTCATCTTTTATACAACGGTTTGATAAGGTTTTCAGAGTGTAAAAGGGGGCATTTCCTGTGG
TGCAAAGATGACCCTCTTGAAATCCCTAAAATGAACACCCTCCATGGAAACACCTGTACCTTCTCACCAAGTACACTGGGCAAGGAAAGGCATGACCCTG
TGAGCCCCAAGAGACCTGGAGACCTGTAACCATTTCATTAGGGTCCCAAAAAACAAAATGCCGGACATTTTTTCTGGCTGGAGTTCAACACAGCTGATTT
TAGTTCAGCTTACATCACACACTGGAAAGCATCTGGAAGAGGGAATGATCCTTTCTGTCCATCATCTTCTTCTCCTCTGATTCCACTTTCTGTCTCCAAA
CAGGTAGAGAGACTTCCCCATTTTGGGAAATAATTCACACAACAACTTACCTTTCTAGGAATTTCTAATTCCACTTTCTCATCAACTTTCTCAATAAATG
CAGATTCATTTCCTTTTCTCAGACTCTCCTTTAAACCCTTTCAGTATAACTTCAATCACCACCAATCTTGTATTAGTCTATTCTCAGCCTGCTATAAAGA
CGCAGCTGAGACTGGGTAATTTATAAAAGAAAGAGGTTTAATTGACTCACAGTTCCACATGACTGGGGAGGCCTCAGGAAACTTACAATCATGACAGAAG
GTGAGAGATAAGCAAAGGCATGTCTCACATGGCAGCAGGCGAGAGACAGAGAGGAAAAGCTTGTGAGTAAAGGAGAAAGAGTCCCTTATAAAACCATCAG
CTCTCATGAGAACTCACTTAGTATGACAAGAACAGCATGGGGAAAACTGCCGATATGATTCAATCAGCTCCCACCAGGTACCAACCTTAACACATGGGGA
TTATGGAAATTACAATATGAGATGAGATTTGGGTGGAAACACACAGTCAAATCATATCATTCTGCCCTCTGGCCCATCCCAAATCTCATGTCTTTTCACA
TTTAAAAACCAATCATGCCTTCCCAACTGTCCTCCAAAGTCTTAACTCATTTCAGCACTAGCTCAAAAGTCCATAGTCCAAGGTCTCATCTGAGACAAGT
CAAGTCCCTTCCCCCATGAGCCTGTAAAATCAAAAACAAGTTAGTAACTTCCAAGACACAATGGGGGTACAGAAATTGGGTAAATGTTCCCATTTCAAAT
GGGAGAAACTGGCCAAAACAAAGGGGCTATAGGCCCCATGCAAGTCCAAAACCAGGCAGGGCAGTCATTAAATCTTAAAGCTCCAAAATAATCTCCCTTG
ACTTCATGTCTCACATCTAGATCAAGGTGATGCCAGAAATGGGCTCCCACGGTCTCAGGCAGCTCCAACCCTGTGGCTTTGCAGGGTAAAGCCCTCGTCC
TGGCTGCTTTCAGAGGGTGGCATTGATGTCTGTGGCTCTTCCAGGCACACAGTGCAAGCTATTGGATCTGCCCTTCTGGGTTCTGAAGGACTGTGGCCTT
CTTCTCACAACTCCACTAGGCAGTGCCCCAGTGGAGACTCTGTGTGGGGGCTCCAACCTCACATTTCTTTACCACCCTTCTCTAGCAGAGGTTCTCTATA
AGGACTCTATCCATGCAGCAAACGTCTGCCTGGACATCCAAGCATTTCCTTACATCCTCTAAAATTTATGTGGAGGTTCCCAAACCTAAATTCTTATCTT
CTGTGTACCCGCAGGCCCAACACCACATCGATGCTGCCAAGGCTTGAGGTTTGCACCCTCTGAAGCAATGGCCTGAGCTCTACCTTGGCCCCTTTTAGCC
ATGGCTGGAGCCACTGGGACACAGGGCACCAAGTCCTGAGGCTGCACACAGCAGTGGGGGCCTGGACCCAGCCTAAAACACCATTTTTCCTTCCTAGGCC
TCCAGGCCTGTGATGGGAGGGTCTGCTGCAAAGGTCTCTGACATGCCCTGGAGCCATTTTCCCCATTGTCTTGGTGATTAACATTTGGTTCCTCCTTATT
TATTCAAATTTCTTTAGCTAGTATTTCTGCATCTGGCTTGAATTTCTCCCCATAAAATGGGTTTTTCTTTTCTACCACATGGTCAGGCTGCAAATTTTCC
AAACTTTTATGCTCTGCTTCCCTTTTAAACATAAGTTCCAATTTCAGATCATCTCTCTCAAGTTCGTAGTTCCAAAGAGCTCTAGGGCAGGGGCAAAAAT
GCCACGAGTTTCTTTGCTAAAGCTTAGCAAGAGTGACCTTTGCTCCAGTTCTCAACAGATTCCTCATCTCTATCTGAGACTCAGCCTGGACTTCATTGTC
CACAACATTATCAGCATTTTGGTCAAAACCGTTCAACAAGTCTCCAGGAAGTTCCAAACTTTCCCACATCTTCCTGTCTTCTGAGCTCTCCAAACTGTTC
CAGCCTCTGCCTGTTACCCAGTTCCAAGTCACTTCCACATTTTCAAGTAGTTTTATAGCAGTACCCCACTCTCCATGACACCAATTTACTGTATTAGTCC
ATTCACACACTGCTATAAAGACATACCCAAGACTGGGTAATTTATAAAGGAAAGAGCTTTAATTGACTCCAGTTCCATGTGGCTGGAGGGGCCTCAGGAA
ACTTATAATCCTGGCAGAAAGTGAGAGAGAGGCAAAGACACGTCTTACATGAAAGAGAGAAAGAGGAATAGCTTGCAAGTGAAGGGATAAGGGCCCCTTA
TAAAACCATCAGATCTCATAAGAACTCACTCACTATGATGAGATTAGGAGGTGGGGACCTCCCACCATGTCCTGTCCTCAACACGTGGGGATTATGGGGA
TTACAATTCAAGATGAGATTTGGTGGGGGACACAGAGCCAAACCATATTAAATCTAGTGTGACCTCATGTTGGGAAACAGTCAATGGACTCACTACTAAA
TACACTAGCCTGTTCTTTACCACACTCGAAAATTAGCTTTGTTAATGTGGAATTCTTAAGGGGCATAGCAAGAGTGACCTGTGCCACAGTTCCCAATTTG
TTCTGCTCCACTGAGATGATAGTGAAGATTTGAGCCAATGTAGTTAACTCTAGAGAATATGTTCACATTGAAAAACTGGAAGAGAAAAGGAAAAAAAAAG
GAGGTGTTGGAGAGGAGAACGGAAGCTTCAGCACCAATGGCCAAATAGGAACAGCTCCGATCTGCAGCTCCCAGCATGATCGACGCAGAAGATGGATGAT
TTCTGCATTTCCAACTGAGGTACCTGGTTCATCTCATTGGGACTGGTTGGATAGTGGGTGCATCCCACTGAGGGCAAGCCGAAGCAGGGCAGGGCGTCGC
CTCACCTAGGAAGTGCAAGAGGGTGAGGGATTTCCCTTTCCTAGACAAGGGGAGCCATGACAGACTGTACCTGGAAAAACGGGACACTCCCACCCAAATA
CTGTGCTTTTCCCAAGGTCTTATAAACTGGCAGACAAGGAGATTCTCTCCCCTGCCTGGCTTAGCAGCTCCCATGCCCACGGAGCCTTGCTCACTGCTAG
TGCAGCAGTCTGAGATTGAACTGTGAGGCGGCAGCCTGGCTGGGTGAGGGGTGTCCGCCATTGCTGAGGCTTGAGTAGGTAAACAAAGCATCCAGGAAGC
TGGAACTGAACAGAGTCCACCGCAGCTCAGCAAGGGCTACTGCCGCTATAGACTCCACCTCTGTGGGCAGGGCATATCTGAACAAAAGGCAGCAGACAAC
TTCTGAACATGTGGGGAACAGCAGACTTAAACATCCCTGTCTGACAGCTCTGAAGAGAGCACTCGTTCTCCTAGTATGGCATTTGAGCTCTGAGAATGGA
CAGACTGCCTCCTCAAGCGGGTCCCTGACCTCTGTGTATCTTGACTGGGAAACACCTCCCAGTAGG


SNP Information

Context             (SEQ ID NO:56879):
TCTTCAGCTTCCGCGACCCAGCCGACGTCTTCAGGGAGTTCTTCGGCGGCCAGGACCCATTCTCCTTTGACCTCTTGGGAAACCCGCTGGAGAATATTTT
K
GGGGGGTCAGAGGAACTGCTGGGGAAGCAGAAGCAGAGCGTCTGCACCCCTTTTCTCTGCCTTCAGTGAATTTCCAGCTTTTGGGGGTGTTTTTTCTTCT
Celera SNP ID:            hCV25754204
SNP Position Genomic:     6473
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,39|T,1)   total(G,77|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56880):
CAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAATAGCAAAGAGCAGTTACTCC
S
CATTGACACCAAGTAATTCCAGTCCACATTTGACTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAACTTTACTTTCAGAACA
Celera SNP ID:            hCV27155447
SNP Position Genomic:     6817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56881):
TTACTTTCAGAACAGCTGTACCCAAGAATTTATAAACACTTCATGCCAACACCTGTTCTTATCGTTGGGACTACACGGATAGGACCTCTGTTTGTCTTTC
R
ATCGTTGTAAAATATCTGTATGCAATTTGCTATTTATTAAACTTAAGCCTGAGGCAGACAATGATTATTTGCTAGTGGTAGGACAGAATGTTCAGTTCAG
Celera SNP ID:            hCV27468525
SNP Position Genomic:     7004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56882):
TTTCAGAACAGCTGTACCCAAGAATTTATAAACACTTCATGCCAACACCTGTTCTTATCGTTGGGACTACACGGATAGGACCTCTGTTTGTCTTTCAATC
R
TTGTAAAATATCTGTATGCAATTTGCTATTTATTAAACTTAAGCCTGAGGCAGACAATGATTATTTGCTAGTGGTAGGACAGAATGTTCAGTTCAGCACT
Celera SNP ID:            hCV8742093
SNP Position Genomic:     7008
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56883):
ACCACCAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAATAGCAAAGAGCAGTT
R
CTCCGCATTGACACCAAGTAATTCCAGTCCACATTTGACTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAACTTTACTTTCA
Celera SNP ID:            hCV27155448
SNP Position Genomic:     6812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56884):
TAAAAAAATCACCACCAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAATAGCA
W
AGAGCAGTTACTCCGCATTGACACCAAGTAATTCCAGTCCACATTTGACTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAAC
Celera SNP ID:            hCV27155449
SNP Position Genomic:     6802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56885):
AGAATATTTTGGGGGGGTCAGAGGAACTGCTGGGGAAGCAGAAGCAGAGCGTCTGCACCCCTTTTCTCTGCCTTCAGTGAATTTCCAGCTTTTGGGGGTG
K
TTTTTCTTCTTTTGATACAGGATTTCGTTCCTTTGGCTCCCTGGGAAGTGGGGGCCTTTCTTCCTTCTGCATGTCCTACGGTAGTGATGGGACAGGCAGC
Celera SNP ID:            hCV25760089
SNP Position Genomic:     6563
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,24)   caucasian(G,4|T,36)   total(G,16|T,60)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56886):
ATGACCGCTATGGCGAGGCGGGGGCGGAGGGCGGCTGCACAGGCGGCAGGCCCTTCGAGGACCCCTTCGAGTACGTCTTCAGCTTCCGCGACCCAGCCGA
S
GTCTTCAGGGAGTTCTTCGGCGGCCAGGACCCATTCTCCTTTGACCTCTTGGGAAACCCGCTGGAGAATATTTTGGGGGGGTCAGAGGAACTGCTGGGGA
Celera SNP ID:            hCV25758644
SNP Position Genomic:     6398
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,6)   caucasian(C,26|G,6)   total(C,46|G,12)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56887):
CCTACGAGGTGTTGTCGGACGCCAAGAAACGCGATATCTATGACCGCTATGGCGAGGCGGGGGCGGAGGGCGGCTGCACAGGCGGCAGGCCCTTCGAGGA
M
CCCTTCGAGTACGTCTTCAGCTTCCGCGACCCAGCCGACGTCTTCAGGGAGTTCTTCGGCGGCCAGGACCCATTCTCCTTTGACCTCTTGGGAAACCCGC
Celera SNP ID:            hCV25758580
SNP Position Genomic:     6359
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,32)   caucasian(A,1|C,37)   total(A,3|C,69)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,31)   caucasian(C,38)   total(A,1|C,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56888):
TCCGCGACCCAGCCGACGTCTTCAGGGAGTTCTTCGGCGGCCAGGACCCATTCTCCTTTGACCTCTTGGGAAACCCGCTGGAGAATATTTTGGGGGGGTC
R
GAGGAACTGCTGGGGAAGCAGAAGCAGAGCGTCTGCACCCCTTTTCTCTGCCTTCAGTGAATTTCCAGCTTTTGGGGGTGTTTTTTCTTCTTTTGATACA
Celera SNP ID:            hCV25754234
SNP Position Genomic:     6482
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56889):
GAGGGCGGCTGCACAGGCGGCAGGCCCTTCGAGGACCCCTTCGAGTACGTCTTCAGCTTCCGCGACCCAGCCGACGTCTTCAGGGAGTTCTTCGGCGGCC
R
GGACCCATTCTCCTTTGACCTCTTGGGAAACCCGCTGGAGAATATTTTGGGGGGGTCAGAGGAACTGCTGGGGAAGCAGAAGCAGAGCGTCTGCACCCCT
Celera SNP ID:            hCV25758477
SNP Position Genomic:     6424
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,34)   total(A,69|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56890):
GCGAGGCGGGGGCGGAGGGCGGCTGCACAGGCGGCAGGCCCTTCGAGGACCCCTTCGAGTACGTCTTCAGCTTCCGCGACCCAGCCGACGTCTTCAGGGA
R
TTCTTCGGCGGCCAGGACCCATTCTCCTTTGACCTCTTGGGAAACCCGCTGGAGAATATTTTGGGGGGGTCAGAGGAACTGCTGGGGAAGCAGAAGCAGA
Celera SNP ID:            hCV25758657
SNP Position Genomic:     6410
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56891):
TAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAACTTTACTTTCAGAACAGCTGTACCCAAGAATTTATAAACACTTCATGCCAAC
R
CCTGTTCTTATCGTTGGGACTACACGGATAGGACCTCTGTTTGTCTTTCAATCGTTGTAAAATATCTGTATGCAATTTGCTATTTATTAAACTTAAGCCT
Celera SNP ID:            hCV27466896
SNP Position Genomic:     6954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56892):
GGACTTTTTTTAGGATTGAAAGTGAACTTTACTTTCAGAACAGCTGTACCCAAGAATTTATAAACACTTCATGCCAACACCTGTTCTTATCGTTGGGACT
R
CACGGATAGGACCTCTGTTTGTCTTTCAATCGTTGTAAAATATCTGTATGCAATTTGCTATTTATTAAACTTAAGCCTGAGGCAGACAATGATTATTTGC
Celera SNP ID:            hCV8742101
SNP Position Genomic:     6976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56893):
GAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAACTTTACTTTCAGAACAGCTGTACCCAAGAATTTATAAACACTTCATGCCAACACCTGTTCTTAT
Y
GTTGGGACTACACGGATAGGACCTCTGTTTGTCTTTCAATCGTTGTAAAATATCTGTATGCAATTTGCTATTTATTAAACTTAAGCCTGAGGCAGACAAT
Celera SNP ID:            hCV8742102
SNP Position Genomic:     6966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56894):
ATGGTAAAAAAATCACCACCAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAAT
R
GCAAAGAGCAGTTACTCCGCATTGACACCAAGTAATTCCAGTCCACATTTGACTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGT
Celera SNP ID:            hCV27155450
SNP Position Genomic:     6798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56895):
TTGGGATGCGAGGCGCTCATAGGCCTCGACCAATGAGATGTGGCTGCGTCATAAGGGGCGTCTCTCCAGGCGGCCCAGGTCTCCGAGCACTCGGGCCTGC
R
CCTGGGTGCTGGCAGCCTTGCCGCTCGCTGTGCCAGTGCCTGGTGGGCCGTTCTGGCCATCCAGCATGGTGGACTACTACGAGGTGCTGGACGTGCCCCG
Celera SNP ID:            hCV29367991
SNP Position Genomic:     6039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:56896):
GATGGTAAAAAAATCACCACCAAGAGAATCATTGAGAATGGCCAAGAAAGGGTGGAAGTGGAGGAAGATGGAGAGTTGAGTTAAAGTCCTTCATAATAAA
Y
AGCAAAGAGCAGTTACTCCGCATTGACACCAAGTAATTCCAGTCCACATTTGACTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAG
Celera SNP ID:            hCV27155451
SNP Position Genomic:     6797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56897):
AGGAGGAAGCGGAGAGGAGATTCAAGCAGGTGGCCGAGGCCTACGAGGTGTTGTCGGACGCCAAGAAACGCGATATCTATGACCGCTATGGCGAGGCGGG
S
GCGGAGGGCGGCTGCACAGGCGGCAGGCCCTTCGAGGACCCCTTCGAGTACGTCTTCAGCTTCCGCGACCCAGCCGACGTCTTCAGGGAGTTCTTCGGCG
Celera SNP ID:            hCV25757712
SNP Position Genomic:     6320
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,30)   caucasian(C,8|G,28)   total(C,10|G,58)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,34)   caucasian(C,6|G,32)   total(C,8|G,66)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:56898):
TTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAACTTTACTTTCAGAACAGCTGTACCCAAGAATTTATAAACACTTCATGCCAA
Y
ACCTGTTCTTATCGTTGGGACTACACGGATAGGACCTCTGTTTGTCTTTCAATCGTTGTAAAATATCTGTATGCAATTTGCTATTTATTAAACTTAAGCC
Celera SNP ID:            hCV27155445
SNP Position Genomic:     6953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:56899):
ATTTGACTTTAAGCACATCTGGAGGAATAGCGGACTTTTTTTAGGATTGAAAGTGAACTTTACTTTCAGAACAGCTGTACCCAAGAATTTATAAACACTT
Y
ATGCCAACACCTGTTCTTATCGTTGGGACTACACGGATAGGACCTCTGTTTGTCTTTCAATCGTTGTAAAATATCTGTATGCAATTTGCTATTTATTAAA
Celera SNP ID:            hCV27155446
SNP Position Genomic:     6945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Gene Number:                 317
Celera Gene:                 hCG1807055 - 181000115031473
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRE9APK7(3800406..3860623)
Chromosome:                  16
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12477):
GACTATTCGAGCTCTACTAAACCACTCTAGGACATGCCTTCTTTGGGTCATCAAAAATCAACTCTCCTCGCCTAGGTTTTATTCTTGCCAACTTAGCATT
CCCACGGCAATTCACTAAAAACGCCTTAAAAAATCATTAGCTCTCATTTATTCAACTTGAACATCAGCATGGCCTGAAGCTCGGGAAGAAACAGACTGGC
ATAGTGACGCTGCCAGCACCAAGTAAAGTTTTACCTCCCAGCGCTCCAGGTTCCCAGCAAGACTTCCAGCCAGGGCTGCCTTCCACTCCATTTCAGCCTG
GCACCCTGACTCTCGCTCTACCAGCTGTTGGCACGCCTTGTGTTAACCGAGAATTTGTGAGAAAAGCAGAACCTTCCCACTGCGTGTTAGTTTTGCTTGG
CAACACTCAACAATCTCAAATTGGAAGGCCCCAAGGAAAATTTTTTGTTGTTGTTCTTCTGCCCCCAGGATGATTTTTTCTTCTTCTTCCTGAACCTGTT
TGGATTTTTTTCCACTTAAAAAATCTAGCAGCCCCCACCTAACTGATGGATACTTGTAGGTAAATGACTCTATCTGAGCAATGATGCGCTGACTGGGCCT
ATAAATTATGACCCATTGTGGTTAGTTCAAATAAAAGGAGGTTCCGATAAAGGAAAACTGACACTCGGAATTTTCTCTCTCAAAAAGGATGATGTCTAGG
GATGCAAAATTCAGGAATATAAAGAGAGACCTTGCAAATGTATCAGGCTCTTCTAAAATACAAGGGATTGGTATAAAATTGTCCTGGTGAAATCAAGGGG
AAGCACACAGGACTAAGGAAAGAGAGGCAAGAAATATATTTCTTCTCCTTTGCAGGGAAAACACTGCATTGGGAAGAAGCTTGCTCTTTCCAAATACATT
CCATTAAATTGACAACCACAGCCACCACTGCCACCACAACAAAAATCAGGCCAACCTAGATCAAATTACTAGGAATAGGTCTAATGTTACTTTTATGACC
ATGAGGTCCTGGCCCTCATCAGAACCTCTGGGTTACCCGTCCTATCACTTGGTAATGAATTTCATATATGTATGTGCTGTTAAAGCAAAAAAAAAAAAAA
AAGTAAACTCATAAATAATTCATCACACTGTCTCCTGCCAACTGATCATATATTGTTCATGTTTCACCGGCCATATTAAATAAAAATTTAAAAGTGTTTC
CGTTTTTCATTTAAAAACCTAGTCTATAATTGGAGGTGACCACACGAAGTGTCTTGAAGGTAGCAGGCATTAAAAAAATCATTACTTAAATTGCACAGTT
AAAAAATATTCATTAGAAATGGCTAAATTAAAGAAAAAAATGTTAGGGAATCTTAGGGAAATGTTTCTCCTAAATGTTGTCCCTAAAACTGCTTCACTCT
AAAAATCTGTTTTGAGCGACCTGATAAAAGGGAAAGAGAGAGTTTCAGCTCAAACTCAGGAAAGAAAGGCTGTACCAGTTTCTTCAGAATGGAACATTAA
AACAGGCCACTACTGAAACAGTTCTTGTGCCTTTGTGGCTAATTATTACATAATTGATCTTAAAAAAATTTTTTTAAGTTTAGGAAAAAAAATTAGAAGC
CTAGTGAAAGTACCAAAAACACTGTAACTTTTTTGTTTAAAAATTTATATCATGAATCGAAAATCAGAGGAGATGGCCGTTTTGGCCTGGTCTCCGTCCT
TTCCTTCTCTATTTTGATTGAGCCAGTCCCTTGTTAAGCCATCAGAAAACAGAGCACACTTAGAGCTCTTAAACTGCTTTAGACACAAAGAAAAAATTTA
AAAGGAAAAAAAAAGCAATAATCGTGTGACATCTCAGAGATGATAGCATATACTGTTGTTTTGCTTGATGACGATAACACAATTCTTTTTGAACTAAGTA
TCTCTCTAGACTACAACTGGGTCAAAATTATAGATATTTTTTGTGGCCCTGGATGAATTTTCTATTTGCCAAAACTCAAAGGATTCAAAACCAGGTTGAT
GTCTAGTTAAAGATGATGCTCCAACTGCTTGAGATGCTAGTTCATTTCAACAGACATTAAGATTGAAGGAGTGTCATAGATTGCTTAGGCAATTAGAAAT
TTAAAACCGTTTCAAAGAAAAGAAAAAACAACAACAACAAAAAAGTTATGCCATAGGAAGCATGAAGCCTCATTTACTAAAGTGGAGAAATGTATTTTAT
TTTATTGTCCTTATGGCGTTGATTGCCAGTTCTGACACATATTACAAATTTCACATTGTTTTTCTGAATGCTGAGGTCAGACCTACCATAAGCTTGTCCC
GTTGTATTACCAAATGGCTAATTCCCTCCCAGGTATTGGAGAAAAAAGTCAGAAGGGCAGCATCCTAAGAGAATGGGTGCCCAGTATGACAAGGAGCTGC
TAAGATAAAATGAACTTTCTAACTAAAAACAGAAAAGAAACTATAAAATTGATTTTAAAATCTGCAGGACATTTTTTTAAAATAAAGGATAAATTAACTA
TGAATATATTGAGTGGTTATGAAACTAATATATCTTAGCATAACAGAGTAGAGACAGCTTTAACTTTTCTATGATACTCATATAGTTATATTTTATGATG
CTCTAATAGGTATAGGGTACATAATGAAGAAGAAGCTGTTTGTGGATTCATTGTATTTTATTTTATTTTATTTTTTACTGCTTTGAGTATGAAGAGTCTG
CCCAAATATACTACTTATAAATCATACCAAAAGTGCATCAGTGAAAACCACAGTTCCATTTCTTAGGGGAAAAAAAAAATCAAGAATCAAGTTTTAGAAT
CCAACGATCACATTTTCCTTAATTACAAACGAAGACATCATGTATTATTTTTCTGTATCCACAAGAGATGAGAGAAATGTAATTTTTATCGCATGTTAAG
TTTTCACTGAATCACAGTATTATTAAGCTTTAAATCAGAGGATTGTTTCCTTCAGCTAAGTCTAACAATACTAGAAAGTAAAAGGGGGGGACAACCCCCA
CCTCATCTGGGGCTGCAATATTTGCTGAAAAAAATCTACTTCAAAACATTAATCAAATTTTTCGCCCACTGGGCAACCATATGGTACAGCAGCATGTGAA
TCTCACAAACTTGCTGATCTCCTGTAACTGGGTGCAATTAATTACGCTGGCTGCATCCATCTCTTGGATTTTCGCCTTGTGAAAAAAGTATTTATTGCAA
CAGCTTTTACAAAACAAGGGAATGAAAATCACAATTGATTAATGAGCTGAATGGAAATATTTCCGTTAGCAGATTTTTTTAAATGAATAAGGATTAATAC
CATGGATGGGAATGAACACACGTCGATCTCGCCTTGTACTTTTTGGACCCCCAAAAAGGTGGCAAAAGAGTGGGCAGAGACGGTGCTGTGAGTTCTAACA
TGCATAATTCACTAGCAGGCTTTAGGTCGCAAGTAATAAAGCCTTAAAACTGGTGAAGTAATAAAGAGGCTGGCTTTACAAGATACTATCCTGGGAGACA
GAAAGCTTGTTCTTTGATGTGAAAACACAGATATTAAATACTCAGTGGGTGAGGAACATTACAGGCCTGACAAAGAAGAGAAAGGGAAGGGCTCTTGAAG
TAAGCAACCTACTTTGTCCTCAGCTATTTAGGTGCAAAGGTTGCTGCACATATGGGCCGATTACTGTTTTAAGATCCCTCCATAAAACCAAGCATCCGAG
AGTCCGTCAGAATGGTACCACTGTCCTTACCTACTGGCTAAAGGCACAAACAATGCATAATTGCAAAATCTTCCCCCAGCAATGTTCAGCCATCATGCAC
TTGACTTTGCTTAACAGTCAGACCTCGTTCTGGTGCTGAGCCATCCTACGGGGCTTCATGGAGCTTGTTTCTTGATACACATGAGGGTCGTAATCCCTCC
CTTCTAACTTAATTTTTTTTTTTATTTTTATTTTTCAGAGACAGGGTCTCACTCTGTTACCCAGCTGGAGTACAGTGGCTCACTATAATGTTGAACTTCT
GGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAGTAGTCCTCCAAAGGACTACAGGTGGGTGCCACCCAGCCCGGTTAATTTTGTTTTCTCTTTTTTTA
GTAGAGACAGGGTCTCACTGTGTTGCCCAGGGTAGTCTCGAACTCCTGGCCTCAAGTGATCCTCCCACCTCGCCTCCCAAAGTTCTGGGATTATAGATGT
GAGCCACCTTGCCTGGCCTCAATCCTTCCCTTCTGAGGGAGTGACAGATCCAAGGCTGACAGTCTATAAACAAAGCAGAAGCAGATGCACTTTGCCCCTT
TTCAGAAGTGCCCTCTGGGTTTAAGTCCACCAGCTAGCCAAGCATTAATGACATCATCATTACATGCATGCCTATTTCAGAAAGATCAGTTCCATTTTCC
CTAAATAGACAGCAGAGGAGACCGCTTCCAACATTTTGCTAGTTGTTAAATATGTATCTTGAGAAAACGAAACTAATACTAAACATAATGGAAGAAATAC
GTAAGTTTGAAAGATCAAATATCGTATGACTCTTGAAACAGATAAAGGAAAAAGCTGTTAGGACCAAGCTTTGTAAGTCAACTCTTAAGCCAACCCTTTT
CTTTACTGCATCTATTGCATTTAAACTTCTACCAGGAAATTCTGCAAAGGACTTGGTTAAAGAGAATTTACTATTATTTTATTAATGCCTGCAGAGTGTG
TGTGGCTAGTATGATGATTTCTCTGCTCAAGTTTGTTGATTGATTTTGTAGAAATGTCCACAGGAGATAAAATCTGCAAACTCCTCAAAGATGAGACTGT
GTCCAAGAAAAGAGTAATGATACTTTATAAAACAAGAAGTAAGTGACATTTGAAACGATGGTTCATCTCAAACAACACATTTCCTCTGAGCTCCATGTTT
ATGTTAACATGTAAGTTTGGGAATGCTGATGTAATAGACAAAGATAACTCTTGCCACTTCAAAGTAGCAGGCATGCCTAGGTGGGCAAGAGGTTCAGAAA
GCCAGCACTTAAGGTGTTGAAGGGGTAATTTTTAAAAATCTTAAGAAAATCATTCCATTTGAGAATCGGAGCCACCTTACAATCAAAGAAGCCACTGTTT
TGAAGAAACCACTATCCTGCAAAAAGTAGACGGAAGTTACCAACAAAAAGTACTTGGCTCCCGAAGAAGAGGAAAATCAGATGGGAACGGGTTGTCCAAC
CCCTTAAACCAGTGACCCTACAAAGTACACCACCACCCACCACCACCTCTCAGATGATCTCTAAACCCCTCCTACACGCAATGGTTGTTGGCTTAAAAGT
TTAAAGAGCTAACAAAATGTTTTAACGAGATACAAATCTCAGAGATCATTAATCAATATGTTCAATGTTATTTGTGATAATTCATCATGACGTGATATTA
ATGGGTTACTGTACCCTTCAGAGGTGAGATTAATGCAAATGAGCTGCCACAATTAACTTTACTGCTCCCACCTCACAGGAATGGACAGATGATTATAAAT
GACAACTATATGTCAATTACAATATCCAATAAAGTGAAGCTTAGAGAACAATCCATCTCCTTTTATTGCTCTTCCTTGACGTAGCTGAATTTAGCTCAAC
CCACTGTTGTCACTATGTAACCATTGTTTGGGGGAGGGAAAAGAGATTTTTCTTCTTTTTTTTTTTCTTTTTTAATTTTTCGATGTCTTAAGAAGTGCTT
CAAAAACGTCCATGTAAATACGTTTTCTAAAGGAGGAGAGCCACAGGAAACCAGGAATAAATGCCACATTCATCCTATGTGAGTTAAAGAAAACTGTATC
CGTTTTCAAATTGTAGCAGTAAGGCCAGCAAGGAAACAACCTACCCAGCTGTGTATAATATATTTACTCAATTAAAAAAGGAAGACATTAGCACAGCATC
CTGAAAAGCCTTGAGTTTCACTAAACAAAAGTTATTTGAAAATGACTCCATCGAAGTAAATAGGTCACAGAGTGGAAAGCAGGTATGAGGCCGAGGGCGG
GATGAAAGGTTTGATGTCAGTCTGTACACCTGCACTTGGAGGTGTGGAGTGGGGAGCAGGTCAGTAAATACTACAGTGCTGGCCCTCACAGCAGAGAATT
TCTGTGTCTGCATCGTTCCTCCTTGCATGGATGGAGTGATTTTTGACAGCAGTCTCTCTGGTGAAGGTAGGCACGTTGTCATGTTGCCTCCTCAACCCAG
ATTCTCCTGCCGGGCTGGTGAACCCAGAAGCTGTAAGAATTAGCTAGTATCTCACAGCTACCCCTTCCTGCCCCANNNNNNNNNNNNNNNNNNNNTATGT
CCACGCCGCCCTCTTCCCCAGCAGACACTGGCTCATCGCTGACTGCCATAGGTCAGCCAGGCCCTGGTCTCAGTCAGGACCAACTCTGCTGTAGAATTCA
CCCTCCAGAGCTTCCCGTGGGATCAAGCTGAAGCTGATCTTCAGCTAAGCCACATCCTTCCTGGACATTTTCCCTGTCCTTTTTTTTTTTTTTTTTTTTT
TGAGATGGAGTGTTGCTCTTGTCACTCAGGCTGGAGTGCAACGGCACGATCTCGGCTCACTACAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGGCT
CAGCCTCCTGAGTAACTGGGACTACAGGCGAACACCACCACTCCCGGCTAATTTTTTGTATTTTTAGTAGACATGGGGTCTCACATCATATTGGCCAGCC
TGGCCTCAATCGCCTGACCTCGTAATCTGCGCACCTAGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACTGCGCCCGGCCACATTTTCCCTGTTC
TAAGCCACTCTTCTCATTTCCTTTCTGAAAGCATCCTGACCCCCATCAAATCAGTGGAACAAGAAGACTACCTTGACCTGTGCTTCCAGGTAACAGAACG
CAAGGCAGGTATCAATGAGATGGAAACAGGAATGCTCTTAATGCAGTGCAATTTACAAAAGAACTGTTCTTTGCTGACCACTAGTAAGAGACCATCCAAC
AGGCTCCTTTCTGAAGCCACATCCCGAAAAGATCCCCTCCTGATGTCTCTAGAAACATGCAAAAATAAAAYTGCAACGTCAGAACCATAAAAGGATCATA
GCAGATTGACGGTAGAAGCTATAGATTTGTGTGTCCAGAATGTTTCCCCAGGTGCCTCCTTTTGCAAAATTGGACCTCATTTTWCCATTAGGGAACGGGG
CCTCTCAGACTCYGTGGAGAAGCAGAGAATTATCTCCAGCCTTGACTGCCCAGGCTGCAGAGAACCGCATCATCCGGGGACATGACTGATTCAGGGATAG
GTGTCTGCCTAAAACTAGGCCAATCCTGGTTCTCCCTGTGGCTTTTGGGCCAAGGGTAGTGGGGAAAACAGCTTCTTGTCACTGGGGGAACAAGCCAAGA
TGGGACAGTGCTCGYCTGCCAGTGGCAGCCCCATTYGGAGAGAATTTTCCCTTTGAAGAATATAACCCATAAAAGATCATCAAAACTAAGGGAWTAAATA
AAGAGGGGACCTCGATGACATATTTAAGCTCTGAATAAAGCTAGACTCTAAGCAGGGGTTGGCAAACTATAACCGCTGGGCCAAACACGGCTGTGTTCTT
ATACAGCACACAGGCTAAAAATGCTTCACATTTTTAAATGGTTGGGGGCGGGGGGGAAAGAATAATATTTTGTGACACATGAAAATGTATATGAAATTCA
AATTCCAGTATCCATAAATAAAGTTTCTCGCAGCCATGCCTGCTCCTTTACATRTCGTTTATGCCTGTTTTYGCACTATGAGGGCAGAGTTGAGTAGTTG
GCAACAAACACTACAAGGCCCCAAAATATTTATTAAATATCCCATCACAGAGAAACTTTGCTGACTCTTGCACAAAACTTCGCATTTTGTCAGCCAGTAA
TGACCCTTTCCTCTTAAGCTAGTTTRAATTTGGAGCTTTTTGTGTGTAAGAGGAAACTCCTGATCTACTAAAAGAAAAAGCTATTCTTAGTCCTTCCCAG
ATATCCCTGAACCTCCACCCACCCAGTCTGCTGGGATCCTGATATAGTTTGGATATTTGTCCCYGCYCAAATCTCATGTTGAAACATGTCCGTAATGGGA
GGTATTTGAATCACTGGGGCRGAGCCCTCATGGCTTGGCGCTGTCTTCACCATAGTGAGTGAGATCTCTGGAGATCTGGTCATTTTAACCCTTTTCCCAT
TTGCCCCAAGAATACTTACTGGTGTGCAGTGTTTACCCTGAGATCGCTTTGCCATGAAATATCTCGCTTTTATTATTTTTTTCACATCACTCTAGCATAT
CGACTTTGGAAACGAAGGATATCATTCTATTTATAGCCTTCTGTTTTTAGTAGTGGTATTTCCATTTACAAAATATAATAGTTCTCCATCACTGAAAATG
TCAAATCCGAGAAAATGTAGCATTCCTGCATGTGATGTTAACATCATTCTCGAACAGTTGTTGGCTGAAGATTCATTTGATGAATCCGATTTTTCCAAAA
TACACAATTCTGATGATTCAGATGATTCTGATGTTAGTTCTGTTCAGAAATAATTCCAAGAACTGTTTTTATATTTTATTATCACTTTGAAAATCGGTCA
CATTTGCTTCAGCTTCAAAGAGCATGTTTATGTAAAATTAAATGAGCGCTGGCAGTGAGCTGCGCTTTTTTTTTCCTAAACAGGAAAAGGGTTAAAAGTG
GGGCACCTCCCACCCCCACCCCACGCTCTGTCACTTCCCACTGTCACCATGTCACCTGCTGCTCTCTCTTTGCCTTCTGCCATGATTGTAAGTTTCCTGA
GGCCTCCCCAGAAGCAGAAGCCGCTATGCTTCCTGTACCACTTACAAAACTGTGAGCCAATTAAACCTCTTTTCTTATAAATTACCCAGTCTCAAGCATT
TCTTTACAGCAGTGCAAGAACAGCCTAATACATATCCTACAGGTAACGTCTCAATATCCAGATCAAGTGACTGGTTGTTTCTCTTACCTGTTTCGCAGAA
GTTATTGCATTCTTTGTTGAATATCACAAACTGTTAATATGTTAATCTTAAAACATGTGAAATATATATAATATCTATCATTACAACTACAATTCCAAAT
ATTTATATATAACGTCAGCCATGCCAATGGACATGCAATTCTAGGCCCAGCAATGGACGATAAAGTAGGTTAAAAGTGGGGGAGAAAAACTGGTTTTAAA
AAACTGTACCTGAAGAACATATTTAATTTAAAGGGAAATCCCACAACAGCTAAATTGTTCCCCCAGTTGGGTAGAGCCTGCCATGATTAGCTGTAACTGC
CTGGAACACTCTAGACTCAGCTGACGAAACTCCAGTTGCCTGGTGAGAACAGAGTGATTTTGATGACTTTTGCAGAGGATCAGAAAGAGGGGAAACGGAT
TCATTTGATTCATTTGTGGTTTCCTGTTTTCCATAAGGAGATAGTTACAGGATTAAATTTCTCCTCCCTTTTCCCTATGCACTCACACCTGGGTCCCAGG
ACAGMAGGACCAATCGTCAGGAAAATACATCCATACTGCATCCCCTGATACTTCATCTCAGGTTGGGCAGGAGGGTTAGCAGAAGAGTTATTTCCCTTTG
CGAAGATTAAAGGGTATCTCACTTTTATTTTAACAATGTGAAGACAACTGTTGTTCCTTACTATTACCAATCTACTACACTGGATTCTAATAGCTCTATT
ACATTTTCCATACATTCTCCTGGCATGGGGCATAAATGGGTGAGACAGCTCTGGATAAATCACTGCCAGCAGCAGAGGCATTTTCTTTAGGGAATGAAGG
CTTCCATATAGCATTTAACTAACTCTCTTTTTGGAAACACCCCATCACAAATGAGTCTTTCAAACTGAAGAAATTGAAATTGATTTCTTAGGGTAATAAT
TAACCTCAGAAAATAATGATGAAAAGTTGCTTATTAATTATTTTTTATAATATACTTTGGGAATATTTCTTTTTTCCATGAAAGATAGAGACAAAAGTAG
ACACATTTTACAATCATATAAAATGTGATTAGACTCATATTTTATAGGAGAATGAAACTCATTTAATTTGCAAAATACTTAATATGAGAGGGAGGTGTCC
CCCTACACACACACACTCTTTTCAAGACTCTTAAATAGCCCTTTTTAAAACAACACAATCTCTCTGTTCTGTTCTTTATTTCTTCACACATAACTGCCTT
GGAGCTTTTAATATATTATTGCTATTTCAATCCCCCATGGTTTTTCTACTTATTCAAAAAGAAGGTATTTTTCATCTGAATAGCCATTGACAGCGAACTC
TGGTGACATCCTCAGTCTTCCTTGACAATGGGAGGAGGAGTTGTCACCAAGAAACTTGTTACTATCCCAAGTAACGAGCTAGCATCCCTCAGATAATACA
ATAGAGATGGACTAGTGTTTTTCAAACAATTTAAAACACACACACTTATGTACACAGAAAAACACATGTATACACGTACACGCACACACAAACACACACA
CTTTAAAACACCCTCTTTTTCTTTAGTCACCTGAAGAGTCGTAAAGCATAACTGCAAACTGATAAAGGTATAAATTAAATCATATAATAGATGTTGTTGC
AAATCGTACATGTCTGTCAGATCACCGAGATAGAAGTCAAAACATGAAAAGACCAGGAAATACCCACAAAAGAAGATGTAATTGATGAGACTATTCAAGA
TCTTTTATTTTTTCCTTCTTTTGCTAGTGGAAAATTTTTATTCTGCACTTTTCTGGCGGAGGGTGGTATTTTGTTTTCTGTAAGATACAAACAAAAGACA
GTTGTGTAAAATTAAGTTATGAGAACAACATAGAACTGTTTCTTGAAGCATTCCAAAGATAAGTTTTTGCTAATTAATTAACAAATTCAAGCTGGTTAAA
TAAAACCTTCTTCCAACACCTCCTATTTAATTGCAGTTTGGCACCAACAAATATATATCAAAATTATAGTATTTCCCCTGACAGGAAGCTCCTTCCTTCC
ACACACTATTATGGCTCTCTGCAGAGTAAGCCAGAATTGCTGACAACCTTGAACACTGCTACAACAATATTACTATACTTGGCAGAGAAGTACCCTTGCG
GCAAGAGAAAAGCTGTAATTTTGACTGTCACTTCACATTACACTAGATATTATTTCACTGTATACACATACACACACTCACAAACTCTTAATAGACTACA
GTTTTCGCACTGCCTGCCTTTCCAATATAAATGGCAATATAATACCAGCAAACCGCCAATGAGATCCTGGAGAGAAACAAATGTTTGGCATTATGGAAAC
ATCATCAGAGGATGCATTTTAAGGGATATTTCATTGCTTTGTCCCCCACTCACACCGTTCACACCCCATCATCAACTTCATAAGATCATCACCTTGGTTA
TCAAAAAGAAATTCACTTTTTTTAACCCCATGGTGGGCCAAGTCAGCATTAACAAATTCCATGTTTAAAAATTTCCATGGTGTTAGCAAAGGGTTGTGCT
ATGACTCGTAATATTTTGGACATTCTTCAAATCTGATGCCTGTTATGTAAAATTTCCAGATTTCACAAATGTATCCTTTTTCCTGCATTTATCTCGCTTT
CCTTCACACCCGGGGGGAGTTTGTTAAACTGCAGTGACCACTGGCAGAGTCCCAAGCCAAGCCAAACCGTGCAAACATGAAACGGCCCCACAAATCATGC
AAACCCTACACGCTGTCCCTGCCAGAGAGCAGCGCCTGTCTTTGCAGAGAACTAAATGCAACATATGCTTCCTTCTTACCAAGCTCACACTGAAGCAGAT
TGGGCCAGGTTCCCCACTGTGCCCTCCCCCACCCCCTGCCCAGCTTTGATTTACAAGATGCTATGTTAATATTCCCTCTATTTGTCCCAGGCAAGGAATT
CTGTGATGTCGGTATGAGCTCCAAATTGAGAACTCCCTGGAATCCGGAGCACAGGTCAGAAGGATGAATACACAGAGGGAGAAAACTGCAACTTCCCTCA
AGGAGAGAATGCTAGAAATGGCAATGGGCAGGAAAGAAAGGATCCTKACATCATTTTATAGAGAGTCGTTCATCCCTTACACAAACCTGGCCAAAAATCT
ACAGAATGCTGAGGAAACACGGCTATTCAACAAGAAAATCGGAGCTTCTCTCTCTACTTAATCTCTGCCATCCCCCTTTTTTTCCTCCCCTTTCAAATTG
CTACTTCAAACGATTTAAATAAGATTTAAACTTGTTTTACTGAATCAAGGAAAAGCAACAGCAAACTCTTTGCCCTCTGTTAAGAGAATGTATCCAAAAC
TTCACCGGGTCTGCTGACCACACCGAATTTAACAAGGTTCGCAAATGAACTAGAGTAAGTTTCCCACAGTGACACATTAATAATAAGTTCCTTATCCCAT
CCATCCCAAGCCATGAATATGTAATGTTATAAAATGAGTCCTTTTCACACAACGGAATCTCAGACGTGAATAAATAAAAACTATCCATCACAAGCCTGTG
AAAAATTAATGAGAGTTCGGAGATGCAAAGAAAAATGGGGACAAGGAGAGATGGCCCAGTTCATAAAAGCCTCCCTAAAACTTTCAGACATTAAATATCC
TAGCCCCCGTCCCTCACCAAATTGCCAGGTGTGGGTGGAAAGCAACAGATTTTATTTTTAATGGGCTAAAATTTTACARTCTTAAAGCACAATTCATGCA
AGCAACTGAGAGATCACAGCTACAAACACTGGACTTTCTATTTTCTCCATGCGATCCCAATTTCAGCTGCAGAGCCAGAGTTTATTTCTTTAATTATTCA
TAATTCATAACCAACCTACTTCCAGAAGGATTTGAGGTTGCTCACAGCAGTTATGAGAAAAGGGAGAAGAGTGGGGCTCGCGCAGGGCTCAAACATCAGG
AGACTGGAAAAACTCTGCTTTGTGCATTGTTCCTTGACATCGCTGTGGACACACAGTGCCTGATTAAATTGTATGTGTCGCTTGGGTTATAATTATTATC
ATTGTCAAAACCACTTGCTGGATGCTCACTCTCTGCCCAGCATTACACTAGTGCTATGCCCTGCATAAACTCTGATTCTCACCCTCTATGACCCCATTTG
ACAAACAGGGAAACTGAGGCTGGGAGGAGCTAACTAACCTACCCCAAGTCTAAGAGCTGGTGAGAGTAAGAGCCAAAGGAAGGAGGTTAGCCAGCTCCAA
ATCACCTGTGCTTCCCACCTGGGGCCACTCACTACCACTCATGAGTTAAGGTGTATGAAAACGGCTTTGGTAACCTCCTTCTTGCCATCATGAAACTGCA
GCACGCTAATACTGTCAGTCTGTCTCAGAAACCCCTGCCAGCCAGAAGGCTTAACTTTGAGATGAATGCAAAGCAGAATGAAGCCCAGGAACTTTGGGGG
TCTGGGCTAAGGCTGATGCTGGGCAGCAGATTAGAGGCAGAGCAGAGCCCAGAAGTCCAGCCTCCCCTCCCAGTGCACTCCTCGACAAGAGGCTGCACTT
CCTCGTCGGAAGGACTCCAGGTCCCACTTTGGGACCAGACATGCTGCAAAAACAAAGAAATTCACCCAAACTGGTTTGCCCTTTACTGGATTTTTTCTGA
GACTGAAAGTGTTGCCTTAAGGGACAAATACCAAAAGGAAGATTTAAAAATGGACCAATGGGGACAATCTGCTTAATCTGGCCCAACCTCCTCCCTCCTC
CCTTCTCCACCATCCATTCCATGTGGGCAGAACACGTGACTCATGGGATTACTGGGAGCCTGCCATGCTGTTCTGTTTTCAACTCACTACTTTTGTCTGC
GCTATTCTTTCATTCAGGATACCGCCCCAACCTCTCCACCTGGCTAAATCACTCATCCTTTGAGATGCAGAAGCCAAAGAGATCCTCAGCACATACCTCC
AGAAAGCCAGTTACTGCAGGGGATGCGTACGGACCAGCCAGGTAATGTCAATTTGGAAAGCGGGCCAGGTATAAATTAATAGGGGCTGGTTGGTGTGAGC
TGACCCGGTGGGCACAAGCCCCATCATCCAACTGGGGCGGCCACCGTACAGGGTGAGTCAAGGGCTGCGCCCGGGAAATGTGGGAGCAAAGGTGCCAGAC
CTTCCAGTTTTTTAAGAGAAACCAAGAATCCAGGTTTTTATGCGAACTTTAAAAAAAGRGGATGTGGGGGTGGGGGCAGCAAACACATGCCTGCAGGCTG
AATTCACCACCCCCCTCCACGTTTTAGATCTTATAATTACATCTTCTCTTTAGGATCCTTAAAGCATAAAGGCAAGAGCCAAGTCTCAGTAAACTCTGCA
TGGGCCACAGCTCGGAAAAGAAAAAAACCTGTTATATCGTGGGAGCTCAGTGCTTGCTGAACTGAACTGATTCACATCATGACTTGGGATTCATGAACCA
GAAGCACAGGAAATTAATAAAAACTGAAAACGAGCCAAAGAGAAGGGAAAGGCTCTCTTACCACTGTTGAGAATGTTATGTTTAATCCCTGCAAGCAGTA
GAGACTCAGTGTACTTCCATGAAGTGCTGCTTGGGCATTCATGAGGCATTAAGGGAGAAAGAATTTTTAAAATCTTTGTCTTCTCAAAAGGGAATACCAC
GATGGGGCCATGTCTAGAGCAAGGTGTCTAAGGTGATTCTAGGGCCCTCGCCCAAGAAACGAAAGCAGCATTGAACATGTCCAGGAAGGATGTGAAGCCT
GAAGCCAATGCAGAAGACAAAGCTAGATAACCCCTGTCTCTAAGACATAGGGACTTAGAACTCTTACCCTGATGAGCAACATTGAACATTGGATGTGTTC
ACCAGAATGGAAGGAGACACACTCCTGCCGAAATCATGAAGGGCAAACTGACCCAGAAAAGGGACAGGTCAAGGAAGGTATTACCTCTGCATAGTTCTAG
GTGTCCTGCTTAACTCATTCAGGAATTTCRGGCCAGAGGGATATYCAACAGGAATTCTAAMCTGAAGAGTTTAGAAACCAGTAGGAGAATCAGGATGAAT
TCAGAAATTACTATAATATGCATTTTCAAGTGATAAATCCCATCAAAAACAGAAAAAGTGCTTGAAGAACTGGAAGGAACAGTGATCATTCTTGTCAGAT
GGAATCTTAAAATCCAGTGGGTTTCAAAGGATGAGCAGGAGCTGGACATGAAGGGATTGGAGGATGGGGACTGGAAATGGGGAGTTCATTGCAATCAGAA
GGAAGAGCAAGAAAGGAACAAAAAGCAAGCAGTGTTTGGGGAGACCAGGATGTGATTCCAGTTTGGCCAAAATATAGGGTATACTGGGAGAATCTATTGA
GGTTTTGGGAGTGTATTTGTTTGTAGTTTGAAAACACCTAAGCAATTTTGAAGAGAAGCAGACTCTTTAAGTCAGATGCTGGGTTCTCCAGTCCAAATAT
GCCAATATAATTGTGTCTGGTCAATGTCTATCCTGTCCATCCCTCCTGAGTGCCAGATCTAAATCCAGGTGCCAATGGATGACTTCCACTTGGGTGCCCC
ACAGGCGTCATGAATTCAGTATGACTGAAAAGGACTCCTCCTATCTTCAGCGATGGTTCCACTACACAATACACTGTCCAAGCCAGAAGTCCCAAACTAG
CCTTCTGTCCTTCCTTCTCCATTCACCACGCCTGTCATCCCCTTCAGAGCTGTTGGCCAAATCTTGTTGATTTTACCAAGTATCTATCAAAATGTTTCCT
CTTCCTCCCTGTACTCACTGCAATCACTTTTGCTCAAGGGCTCATCATTTCGTGCCTGGGTGACTAGAGTTGTTTCCCAGCAGGTCTCCCCACCCTCCTT
TCTCACATGGCTGCCAGAACGGTCTTCTGAAAGGCAAATCTGACCATTCGACAACTCTGCTCTAAATTCCTCCTATGGATCCCCATGGCTTGGATTTAAT
AAATGTTTATTGAGTGAATGAGTTCTCTGCATACATGTTGTTCTCTGCCTGGTACCGTGGAGGTCAGGCTCGCACAGAAGCATACTTATGGTCAGAGTTA
GTCAATAAAAAAAGTGATCTATTCTGAGTTCCATACCACCCCAAAACACTGATCAGCTTGGGGAAACTTAGAAAGTTCAACCACCTGGGGATAAAGTTTG
GAMAACTAGGCTAGGGCCAATTCAGGGTACAGGTGGAGGCTAGGAAGTTTGGCATAGGATATCATTAAAGGTCTTCTAAGGATGAAGGCAATTGGAGCTA
CACTATAGGAAGGCACAGCAGGCGGAGAACAGACTTGAGAAGGATTTGGGAGGTGAAGAAACAGCTAAAAGACTCTATCTCTGACAAAGATATAATGCCC
AGAATTAGAAGAGTGGAAATGAAGGAATGATGAATGAAAGAGATTATCAAGAAGAAACAAACAAACAAATAAACAAACAAAAATCCCTGTAATCAGTAAC
CATCTATTATTATGTCCCAGATTTTGGAAATGAGACCCTAATGACAAGCACTCCTAAACCTTCAACATAGCTGCTGTTAAGGATGTTGTCTTGTGGGGGT
GAAAGGCAGACCAAAATGATACTACCACCCTACTCCTTACCGATGAGTCCTTTCTGATTTTAAGCAAATGGCATACAGTGTGGTGAATTAAAAACAGCAT
TATCCTGATTTTATTACTAGTATCATTACTATTAGCATTATTGCTACTGCTGTTATAGGTAAAAATGGGAACGTTGTGAACATTTCCCATTGCCTATCCA
AGGTGCTTGGTACTTTACATGATATCTCACTTAATCATCAGAAAGTTTGGAGTTATTCTATAGGTAATGAGGGAGATGCTATTATTACCTGCTGTGGTGG
AATAAAGATGGCTGCAAATTCTTTGTCACTTCTACCAGAAGAAAGTGAGGTGTATGTCTGCTCCCCTTGAATCTGAGTGGGTTTTGTAACTGCTTAGTCC
ACAGCAGTCATGCTGTGCCAACCCCTAAGCCAGGCCATAAGAAACTGGCAGCTTCCTGTTACTTTCTTTTGGAATCCTCTGGGAGCCCTGAGCCACCATG
TAAGAAATCTGATGGCCCTATATCTGCCATGCAGGAAAGGCCATGTGTAGGGCTCTGGGYAAGAGTCCCTCAGCTGAGCCAAGCATCCCAGTCATCCTCG
TGAAAGTGCCAGACCCATGGGTGACCATCCTGGACCAGCTGAAGTGCCAGTCCAATTCATCCTCCAGCATAGCACCACTGACTGACCCCAGTCAACACCA
CAAGGGGCAGAAGAGTCACTCCACTGAGCCCYAACTTASAGAAATCACAAGATAAAACAAAATGGTTGTTGTTTTAAGCCTCTAAGTTTTGGGGTAATGT
ATTATGCGGCTATACATAAATTGGAACATCCACGTTTTACAGATGAGCTACTTGTTACTCCAAAAGTTTGGCTGACTTATCTGTAGTCTCCTGGCTGATG
AGGTGTGCAGCCTGGATTAGAACCTCCATCTGCCTGACCTGGCTGCACACAATGCTTGTTAAGTTATCCCGGAAAACRTAAGGCCATACAGGTGTGGCAG
ACTAATTAAATTCACCATGCTCTTTGGGCTGTGTGACTGCTACCAAAATGTCCTACCCTACCTCACATATTCCCTTGTTAGGTAGAGAAGGCTGGACGAT
GCTACAACTGCTTCTCCGCCAGGCCTCCCAACGCCCTCGCTGGGCAGAGTCCCATGTGACTGTTTTCACTGCTAGAAAAATTAACTTGCATAATGACCAG
GAAGTAAAGATAAACTCAAGGATGAGAGAAAACCTCCCACCTCAGAGGCTCCACCTCACTGGGGTGAACAAGCACTGACCTTCTATCATCCTATAAGGAA
AACAAGAAGAAGAGATGTTTACTTGAATTACTACATAGGCTCCCTGCCTACATCCACATCTTGAAAATTCTGAGCTGTGAAGCTCTTGTGGTTGGCTCCT
GGGAACTTGAGATTCCCAGTGATATTCCAATGCTGAAACAGCCCAGCAAGGTGATGCAGGTAAGCACGCTTGTAGGATGTAACAATGTGAAACCTCAGCA
CATTGTGGTTATGTTTCAAAGCACGAGGTGACGGAAGCAAGAGCGAGTTTACATGGGCTTGTGATTTCCTTTGACAAGATACACGCACTCATTCCTTCAA
CCTAAGCAAAATTTCCAGGACTACAACAGATTTGAAACTCAGGTGGACGAAAAAAACCATCTGTGAATGGGATAACATACGAAATCATCAAAGGTAATTG
TTTTAAAAACGTGACTCAAGATGGCACAGAACAGCGTCCACAGATGTATTCTTGGTTACTTAAAAACACAATTTAAAGTAATTAGCTTAATGTTGATGTA
ATTCTARAGATCGATAAATAAACCTAAAAATCTTAATTTGATATTGAATCGCCCCAAATTAAACAACATATTTTCAAACCACTAAATATTGATTCATTTG
TAAGATGAGGCCTTTCAATGCAACTATTTGACCTGAACGCAAACAGGAAAGGGTTGACACATTTTCTCTGTGAAGGGCCAGATAGTTAAGTACCTTCATC
TTCGGGCCACGTATCGTCTCTGGCACACAGCCTTCTTTGGATTTTTTGTTCATTTTTGTTTTTTTTAACGGGTCATAAATAAAAGGCTACTGGCTGGAGT
TAGCCTTTGGGCCATAATTGGTTCATTCCTACCTTTTCATAATCTCAGTTATTGATCAGGTGATTTTTCAAACTGTGAAGGGTCTACACGTTCAMCCTCT
TCCTTGTAAGTTAATGAGTTAGCTACCAAGTTTTGAGGAAGCTAGCAGAAAACAGGAGACCCAGGATCAGATAYAGAGGACTTCGTTACTCATGGCASAG
CAAACAGCATGAGCTTTATTTCTGCACTGATTCCCATTGCCCTGGCCCCTAGTCMCACAGGGAGGATGTGGAACAGCCCGGTAGATGCCGTGCTCATRGT
ACGTTTCAGTCATGGCTGARGAGCCCCAAGCTTASAAACCCCAACCTTTATCAAGCAAATCTGCCAAACCGTTGTCCTGGAAGGAGGCACTGTCTTTATT
ATACTGGAAAGAAAGCCATCCTGTCCTCTGCTCCTGAGGGAGACACTATCTGTACCTTGCAAGTTTCTTTGCTAGACAACGTTCCTTGGAAAGATGGCCT
GAAACCAAAGCTGCCAGCACTTCTGTTCCCAAGACATGTGAAAACACAAGAGACCCGAGGATCACTGTGTCCAACCAATGACAGCTAGGAGAAAATGCAA
AAACTAGCATTACCTTAATCACAGGGGTCTTTTTCTATGAACCAATCAAGCAGATTTATGTATTTTTTTCAGTGCCGTAAAAAAAATTTGATGATTTTGA
GGCTTAACATCAAATACCAGTGAGATCAMAAGTTAGATATGACATCATACACATCATTTCTGCTGAAAAAGTACCTTTAGTTAAAAACAGAAACCAATTT
GTAAATGTGAATTAAATGCATACTCCACAAAAAAATACCTGGTGAAAGTAAAAAAAAAAAAAAAAAAAAAAAAACTTCCTTATGTATAGATATGTTTCCT
GACAGATGTAAATGAAAACTAATACGGTGACATTTTTCAAATTAGCCACTGGAAAACTGTGTGTGTGTGTTTTCAAACAGCCCGAGCAATTTTCAGTTAT
GTCGGCCTCGGAAAGTATTTATGAAAAGGATAATAAATAATTAATTCTACTGGCCAGAAGCTGCAACTCCTTTCTGCTTCGACAATATACATTGAAATGC
TGTTTAAATTAGAGGAGCAAATTGATTCAAAAGGCTTCCATTAGTGAGCTGGCAAACAGGTTTGAAGTTGGCTAATAAATTTTAGATAAAGATAGAGCTT
TTGATGAGGATGGCAATGCCGGACTGCTGATCTCCGAGTCACCAGTTTGTTAAATCGGTGGCTGAAGTCTTGATTTCGCTCCCTGTGTCATAACTCACTG
TGTTAAACAATATGTCACAGGGCAGCACGAGCACAGTCAAACCAGAATGGCTGCTGCAGGAGCCATCAGCATGACTGTGTGGCAGCTGCTCACAGAGCAG
GGACTAACATGGGAACCAGRCTAGCTTTTGCGTCCCTTTCTGAGTCTCCAGTCTATCCGGGTTTGCAGAACATTAATCAAGGTTAATTAGGCCCACCTGT
GACATAAAAATTTCTACCTATGCTATGTCTTGCAGCATAAAGTCACGTCTGACATATCTATTAAGAAAGATTCTTAATCAAAATCAAGAAACTACGCATG
AAGCTCTTAATTCCACTTGGATATACATACTTTAGCTGGCTTCAAGCTGCTCCTCTGGGTTGTGGAATATTACACAGCTCTGTAAAGGAATGATTTAAAG
CTGTACATACTAGCCTGAAAGGGCACACACTGTACACTACCTGGGGATGGTGGAGTATGTGTCCACTTATTTCAGAAAATGAGAACAAAATCTTATATAT
GTGTACATCTATATTAACATGAAGGAGGATGTACAAGAAGTACAAAATACTAATCATGGTTGCCTCAGAGGGATAGAATTAGATGAAGGAATAGAAAGGG
TTTTTTTAATGCCTCCTTTAGACAGCTCTATAATTTTAAAAAATTATTCAAATAATGTATAATAATGTTCTTTTATAATTAAAAAAATCTAAAACCAAGA
AATAAACAACATGAAGGCTTATGTGACTTGCAGAAAATTATAAAATGGGGAAGTCATTTATTTGCTTAGCTTATTTCTACCTGGCCAGTTTGGGGAAGCC
TGTGGAGAACTGATCAATCTGTCTTTCTGTCCATCCACTCTTCCACGTATTTAACCAAGAAACCAGACCTAGGAAATGGTGGGTGAAGAGTAAACAGCTT
TAGAATCCACCAGGCCTGGAGAGAAATTCTGCCTCTACCCACTTGCAACCTATGCAGCTTTGGACCATGCTCTCGATGTCTTCCAAGAATAAAATAATTG
TAAGAGCTACAGCAAATGCAGGTAGTGACTCTACAATTTCATCCACAAAGGTTAGCTCTTTTCCTGTGCACACCAGGATCTCAGTATGGCTACCCTGAGC
AGAATAATCTACACTTGGCCAAGATGGCAACCCAGGATGATAAAAGCAAAACACATTGCAGAGATCTGATTATTAAGGAATTCAAATTTACACTTTCTCA
AATTTGTACTACTTACCAATGGGGAAAAATAGAATGCTACTTTTTTTTTAAGGAATACTATATTTTCCCTTTTATTTGTAGCCACTTTTCAAATGGAGCC
TTTGTGAAGTACTTCCAGCCTTGGTCCCACCATGGGAAAGGTGGAATTCATAGAGGAAAATCGTGGAGCAAGCCAGACACGGCGGCTCACGCCTGTAATC
CTAGCACTTTGGGATGACAAGGCAGGCAGATCGCTTGAGTCAAGGGGTTCGAGATGAGCCTGGGCAACATGGCAAAACCCTGTCTCTACTAAAAGTACAA
AAACTTAGCCAGGCGTGGGGGCACGCACCTATAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCACTTGAGCCTGGAAAGTCAAGGCTGCAGTGAC
TTGAGATTGCACCATGGCACTCCTGGGAGGCTGAAGAAGGAGAATCACTTGAACCCGGCAGGCAGAGATGAGCCTGGGCAATGAGAGTGAGACCCTGCCT
CACAATCAATCAATCAATCAATCAATCAATCAGGTGGAACAGATACTATCCCTCACTACAAGTGGACAAGTGGATCTGAAGCAGTGTAGGGAGCAGGATG
AGGACCTCACAGGCAGGTCTCTTAAAAGACAGTGTCAGATGTCCTGCAGCTCATGTCTCAGGCTTGGTTTCCATGCCTGGATTTCGCTGCCAAGGACTGA
GCCTTCCTCAGGGGCTCATTCCCCTCGAGTCCTGGGCTGACCCCAGCAAGAGGGAAGGACAGATACAATGCATTCCAATCAGATGGCCTTCCTTTAAGAA
CACTCATGAAAGCTACTGACACTTTACACTGACTTTCACATTTTAATAGACTACAAAATAAAATATCCAAATTGTGCAAATGCAGAAAATGAAGCGAAAA
GTCAGAGTGATTCATTTTTATTTCTTAATTATAAAACAAGAAAACATGCAATTAATATCCGTGTGACCACATTAAGCACTCCACACATAAATGAAGCAGA
AAGAACAACTAAAAAGTATTTCTCCCCTTTCTTAGATACAAAAATTACGTGTGTGTGGGTACATGTGTGTATGTGTCTATGTGTATTAGTTCATTTTCAC
ACTGTTGAAAAAGACATACCCAAGACATGGAAGAAAAAGAGATTTAATTGGACTTACAGTTCCACATGGCTGAGGAGGCCTCAGAATCATGGCAGGAGGC
AAAGGCACTTCTTACATGCTGGTGGCAAGAGAAAATGAGGAAGAAGCAAAAGCAAAACCCTCTGATAAACCCATCAGATCTTGTGAGACTTATTCACTAT
CATGAGAATAGCATGGGAAAGACTGGGGCCCATGATTCAGTTACCTCACCTTGGGTCCCTCCCACAACACATGGGAATTCTGGGAGATGCAATTCAAGTT
GAGATTTGGATGGGGACACAGCCAAACCATATCACTATGAGAGAGAGGGGGAGAGAGGGAGACAGAGAGAGAGAGAGAGAGAGAATAGAAGAATAGAACT
TGCATTTATCAAGCACTTATTACATAGGAGGCGATGTTGGAAGCGATGAGTTTAGCTAAGTTAACTTGGTTCATTCCATACAACCCAAGGTAGTGGATAC
TCATTATTTCTTCCATTTGATGAGGAATCTGAGGTTGAGAAAAATAAAAAAGCTCACCTACATCCCTACAGGTAGTCAGCACAGAGCCAAGACTAGACTC
AAGCAGGCTAGTTCCAGAGAGTCTTATGGTCACCCTATGCTATCCTGCCTTCAGAGGGAAGGGACAAATAAGAAGAACAAAGGCAGACGTGGAGATGATA
GTAGGGGTTGCCAAGCTTTCTGGAAAGGAGCAGAGAGTATTTTAGGCTTTATGGGCCATAYAGTCTCCATCCCAACTACTCAACTTTGCTGGCATAGTGC
AAAAGTAGCCACAGATAGCTTATAAATGAAGGTGTGTAGGGCTGTGTTCCAATAAAACTACTTCAGATCTCTCTGGAAYTTCAATAAAAGTTTTTAAAAT
TTAGTTATGAACACTGAAATTTGAATTTCATACAATTTTTACATGTAATAAAACATTATTCTATTGGTTTTTTCCCCCAAACAATTACAAATGTAAAAAC
CATTCTTAGCTCTCGGGCTGTACAAAAACATGACAGGCCACATCTGACCTTCAAACCACAGTGTGTAGACCCTTCATATCAGAGACAGTTTGATGCAGGG
GAAATTGTTTCACCTTTAGTGTGAGACAGGTCTGGTGTTCAGCCCATGCTCTGCCCCTGTGAAAGAGCTCTGCAACCCTGGGCAAGTTCTTCAACAGCTC
TACACCTCAATTCCCACATCTGTAAAATAGGGATTAACACCCACTTCATCAATGTGTTTTGAGGATTAAATGAAACTGGATGTATATTAGGCCAAGCATT
GTACTGGATACAGGATAGACAATTTATTAAGGAGTCTATTTACTTGACAAATAACTTACTGAGTCCTGTTCTGTGCTAGAAACTATTTTAGGATGAAGAC
ACAGCTGTGAAAAAAAAAAGCTGATACAACTTTGTGCCCTCATGGAGCTGACAAAAAAAGATATTCGTGTTTTTTGTTGTTTTTTTTTTTTTGACATGGA
GTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAACAGCACAATCTCAGCTGACTGCAACCTCCGCCTCCCAGACTCAAGCAATTCTCCTGCCTCAGCCTCCC
AAGTAGCTTGGGATTACAGGCATGCACCACCACGCCCGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACT
CCTGACCTCATGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGTGCCACCACGCCTGCCCGTTCCAAGATATTTCTAAATATGAAAG
CAACCCAACTTTTCATCATGATTCTTAGTCCATCCAGGCTGCTATAACAACATACATTCAACAGAAATTAATTTCTTGGCTGGGTGAGGTGGCTTATGCC
TGTAATTCCAGCATTTTGGGAGGCCAAGGTGGGCCTCAGGGTCAGGAGTTCAAGACCAGCCTGGCCTACATGATGAAACCCCGTTTCTACCAAAAATACA
AAAATTAGCTAGGCATGGTGCCATGCACCTGTAATCCCAGCAACTTGGGAGGCTGAAGAAGGAGAATCACTTGAACCCGGCAGGCAGAGGTTGGAGTGAG
CTGAGATCGTGCCACTGCACTCCAACCTGGACGACGGAGTGAGATTTCTGTCTGAAAAAAAAAAAAAAAAGAAAGAAAGAAAGAAAGGGCAAGGGCAAGG
GAGGGGAGGGGAGGAAAGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAAAGAAAGGAAAGGAGAAA
AAGAAAAAGAAAGGAAAGAAACAAAGATACTGACTGATTTCTTACAGTTCTAGAGGCTGGGAAGTCCAAGATCATGGCACCAGCAGATCTGGCGTCTAAT
GAGGGCTCCATCTCTACTTCCTGTATGTGCTTTCTTGCTGTGTCCTCACATGGCAGAAGGCAGCAAACAAGTTCCCATGCGCCCGTTTTGTGAATGTAGG
GGTTATCAACAAACATTGCAGCCATACCACATGTATAGACCCTGCCCGTTGAAGAATGAGTCAAGAAATTGGGTGGGTGTTCTGTCATCGATCAACTCTT
GCTTATCACCCCTCTGCAGTGCTGCATGGAGGTCTCTCATATACGTGATGGAAGTGATTTGTGCTTTCAGCTGAGAGTAGCACTGTATCCATTCCAAAGT
TTCAGTTAGCCTCAGTCCCTGATGATCTGCAGGAATTTCTCCTTCTCTCTTAAAAAAGAAGGAACATGATATGCCACTTGCAAGATTAGGATATTYTGTT
TAAAAAGAGGGGATAATTTAAGCAGGGCTGGCGGTGGGRGCGGGGAGACAATGGAAAAGGCTGACATCTCCTGAGCATGGCTCAAGAAGGCATAATTCTT
CCGCATGTATAAGAATAAAACCTCTTAACTCATCTCCCAACACACTGATGTGGTGGCCCAAAGTAGGCTTTCAGGACAGTCACCAGGAGAAATGTTATCT
TGTGGGCTATAACTCACCTTCTCCCAAGTGGGTCCCTGGGGCCCTCTGTGGTGATGAGCAAATTCATGCCAAATGTCACTTCGTAATGACCAAGACTCAA
GAAGTGATCACCGTTACAATATTCAGATACACTTAGGGCAGGTGGCCAGAAACAAACCATCCAGAGATAAATGAACATTTTGCGCTCCACAGCAAAAAAA
AAAAAAAAAAAAAAAAAAAAAGATTTCACAGCCAAACACATATTTCTTTGTTGCATTAAGGGAAAAGTCGTGAGATGGCAAGCAGGCTGTATTTTTAAAG
GATGAAATACAGCAAGGCTGCTTCCACACTGGCCAGCCTGAGAAGCACACTGGTGAATCCATCCCAAGGCAGAGACTTCTAGAGCCTGAGAGTTGGCTTC
ATTGGAGGCAGGTGTACTGGGGAAAACTGATATCCTTTCTACTTACTCCAGGTAAGTGGCAGATAAATCTCTGGGAAGTTCTGGCTCAGGCATTCTTCTC
ATCAGTAATTACAAACCTAAAAATTACGATCTACATTTGAGTGGAACAAAATGGACTGGTGGCACTTCTTTCTTTTCTTTCTCTCTCTCTCTCTCTGTTG
ACAGCCCCATCACAAAGTCTCTGCAAAGCTATGATAACCTCACGGTAAGTAACAAATCAACTGCAGCCAGCAAGGGTTGATTAAGAGGCGTTTCATCACT
GCATGGTGTTAATGAGCATTTGCTGTTCTTACCTGTCCTGCACTTATATCCCCTTCTCCCCATTCACCTTTGGGCAACCCCTCTTCTCTGTGCACTTCAG
GGGAGCCGGACCCCACATCCTGAATTAAGGGGTGAGCACATGGCCCTGGATGGACCAATCGGAGATGGCCTCATGACTCAGGTCTGTCCAATATGCATGA
AGCCCTGGGCACTGATTGGAACTTTGAGGAAAGAGAATCACTGTTGTCCTGGTCTTGCTGAGAGGACACAGTGTATTTATTTCTTTGAGAGGAAGTCTCG
CTCTGAAGTGCAGAGGTGCAATCTTGGCTCACTGCAACCTCCATCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGAGATTACAGG
CACGCACCATGTTTCCCCCAGCTTCTGGCTTGCTACACTATGGAATGGAAGACGGATGCCCAAGAAGACCAATGTAAGGAAAGCAGAGCCAAGGGATGGA
GACAGAGCATGCCCTGAAAAAATAAGGCAAGCCCATGAGAGTTGAGCAGGGCTAAAAACTGTTTTGTCTCTCCTTGTTGTTTGATAGTGTTTCAAAGCCC
TCAGGGAATGCTGCAAATAGCTTCTCAGGCTATGAGAATTTCAGCTCCTACTTTTATGATCAACAGAGTAAGGGCATCTAAGAATGACTTTTTCTCAGGC
TGTCACCTCCCCACAGCCCAGATGGGCCTATATTTAAAGATCCGAGTCTTAGCAGTCCAGGGGCTATCTGTCATCACAGACCATCTGTGGGACCTTAGGT
AGGGCAGGTCTGTAAGTCTAAATATCCCCTCCTCCTGAGTTCCTGTCCTGTCCCCTTTGCCTGACCTTCTCCAACTGTTCTCATTAGATTATACTTCATG
GAAAGGGGCATATATGCCTTATATGCTGGATGGTAAGCTGGGGACAGGGGCCTGTCATCTCTGGTGTCCACAGGAAGTCAACTGAATGGCTGCATCTGCC
CCCATTATCATCTCTGAAACCTCAGCATAAGGACTAGGGTTTGCCATATAGCTGGTTCTGAATAAAATTTACTGAATAAATAAATTAATAAAGAGATTGC
TCCAAACAGACTGAAGGTCCCTTGAGAGCAAATGTAGACTTCTGTAAATCTGATCTTCTAACAGGAAGATCAGAATAGCAGAATACTTTGTATCTACCAG
AGATTCTCTGTATCTAACAGAATGCTCTGTATCTAACAGAGATACACTGTATCTAACAGAGACCGAAATATATTTGTTGAATGAAGACAGATGCCCCATT
AGCAGTAAAAAGTAATTTTAAATCCACTTACAACCAACTGGTACTATTTGTAATTCACCCTGGATAGGAGGATGTATATTTCCCTCTTTCCTTCTTTTTT
TTTTTTTTTTTTTTTTTTTTTTGACAGAGTTTCATTCACTCTTTTTGCCCAGGCTGGAGCAGAGCGCAATGGCATGCTCTCAACTCACTGCAACCTCCGC
TTCCCAGGTTCAAGCGATTCTTTCTTGCTTTCTTAAAGCCCTACTCAGATATAATGAGGCCTTGGCCTGTACTAGGTCTTCCAATTTGCATTATTGATCT
AAAATTTAACTTACACAGTCAATTTCTTAATGCAAGTTATCAGAATTGGTGGAGAAAAATGTGAATTACAACTGTGATTCGAGAACCCACCACATTATAA
CTATATATATATATATATATATATATATATATATATATATATATAGATACATAGATAGATAGATAGACAGACACACACACACACATGGCAAATGGGCCCA
CATACAACATGTTTTAGAAATTGTGATATTGCAAGTGGAGCCTCACGCTGAGATCTGAGATTGTTCTTCCATAGTCTCCCTGATTCCCAAACACGTAGTT
GCAATCAGACTTTTTTTCCTAAGGTTAAAAGGACAAATGCTTGCAGGTATATATGCAAAAATACATACACAGTCAATCACAGATGAAATACAAAACTAAA
AAAAAATCTGCAGAAGAGAAATGGAATTTGAGTGGCTTTCTTTTTAGTCTTTTCTTTTTATACAGCTATGATACCTTTTACAAAATATTTATTTATTTAT
TTATTTATTTATTTTTAGAGACAGGGTCTTGCTCTGTCGCCTAGGCTAGAATGCAGTGGTGCAATCATAGCTTACCATACATTAAAAGTATCCTCTTACC
TAATTTTATATGTATGTATGTATGTATGTATGTATGTATGTATSTATCTATCTATCTACCTTACCAYACATTAAAATCTTACATTTCTACACGTGCAGGA
CTAGAATGAACACACATAAAGCATGATACCAATCTGCTTTTTTGGCCACCATATAAACATTCTATGCTAAAATGTCAAGTTGTTTCATTTTACTTAAAAA
ATGTGAATGTGAAATGATTTAAACATTCAAAAAAAAACTTCGAATATCAATAATTTCACTTAAAGCTTCACATCATATTTGATTAAAACCAAATATTTAT
GAATCAATAAAAATTTCATACTTTCATTATTACTTGTAATTTATATTTAAATTTTAATCAATAACTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTAC
TCTGTTTCCCAAGCTGGAGTGCAGTGGTGTGATCTCGRCTCACTGCAACCTCCACCTCCCGGGTTCGAGTGATTCTCCTGCCTCAGCCTCCCCAATAGCT
GGGATTACAGGCACGCCACCACACCCAGCTAATTTTTGTATGTTTGSTACAGACGGGGTTTCACCATGTTGCCCAGGCTAGGTTCAAACTCCTGACCTCA
AGTGATCCACCTGCCTCAGCCTCCCAAAGGGCAGAGATAACTAATTTTTTTTTTTAGATGGAGTATAGCTTTGTCACCCAGGCTGGAGTGCAGTGGTGCA
ATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTACTCCTGCCTCAGCCTCCCAAGTAGGTGGGATTACAGGCACCTGCCACCATGCCCAG
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNTAGGAAATGTGCAATTAATGGAGCCATGTCTCCGGAAATAAAATATTTTTAATTATAGGGAGAATATTTTAATAAATG
AGCAGCTCAGCAAGTCATAATTGTCACACAATTAACAGATTTTCCTACATCATACTTACATACAGTATGAGCTGCATTTAAATATAGTTGTTTTTCTGGG
AAACAAAGTTTGTGAGATTTTATATATATAGTCTCTGATGTTTTTTAGGAGAAATAAAAAAATATTGGAAACATACTCAGTTCCTGTTTCTAGAAAGAAA
AGAAAATCCTATGCAAGAGAGTGGCTATTTGTCCCACGTCACATAAATGAGATAGTACCAGAATCTAAGTCTTAGAAGGCTAAGAGTTTTGAAAGTTATC
AAATCACTTTTCCATTCAAAGCAGCAGAGCATGAGTGATAATCGTTTCAAATCCTTCCAAAAGAATAAAGAATCTGGGATCTAATTTTTCTTTTTTTTAA
GCCTCCCAATGCAGAAGGAATGGAGATGGAAAAAACCGCTGCGGTAGACATCAGATTCCATTCCTTGGTTTTAATTGCGTGGTTGCAGTGGGGAATGAGG
AGAGTAAACAGCAGTGCCTCCCACGGAGCTCCCTGCAGGTTCTCCTTGTAGGAGTGAGATTTTGCTGGTGATTTATATTGTTTGAGASATACCCAAAGAG
TCTTGTGTCACTCAATCCCCAGCTCCATCCCTGGCTCGGAGGAGCCTGCACCGCCTCACGGGAGCCTGTAACTGTCAAATGGCATTCCCCGAATCCATCA
ATACTGTTTGCTGCCAAATAAATACCCTGCTGCTCTACAGGTTGCAAATATTTCAATCATTGTGCAGATCTGCACAAACTTGGAAAGAAAACTCATGCAA
TCTCAWGGCCTTATTTCCCCTTCCTACATAAGAGAAACATACATGCCTAAACCTTCACTTTCCAAATGTTTACTAGAAGATTAGAAAAACAACAGATGAC
AGGCAATGTGTCAGCCTAGAAGAATCACAAAAATCCTTCTTTAAACAATCTAGTAGCCAGATGAAGACCCCACGCCACGAGCCTGTATGTGGTTAAGAAG
TTCATGGGGCGACCCCATTCCTTCTGATTGCTGCGAAATGTAAAAGACACGGCCTCAAGTCCAAAGCCTAATGTGCCATTAAGAGTAGACTGCCTTGGCC
TCACCTGAAGCAAATGCATCTAGACCTGTCTGACTCTTTGACTCACAGTGCAGGAGATTAGGGATTCCCTGTATGGTTGTTCAGTCTGTACACTGAACAA
CTCAGTTGGTCAACATTTACATAGACTACGAAATGATAGAGACTTCTACAGGTATGCAATCACAGATGACAGCTTGTGTGATTCTAAAGGGGGGCGTCTG
AGGCAATCTACTACCATTCACCAATGTTCTGCTCTACTCTCTGTTCATGTTTCTGTACATCAACCATTCATTCAGTCATTCAACAAGTATTCACTAAATG
CAAATGAAATGTCAGTCTCATCCAATCCTTCAACCACCTTATTTGGCAGACACTATTCTTCCCATTAGTCCCATTTAGCAAAGGACAGTTTGCTAATGAC
CCTCTCCTGGCCTCAGTTAATTGAGGCCAGGAGAGGGTCATTACATTGCCTAGGAGGGTCACAAAGCTCTGTCCTCCAAGTCTGAGTCCAGTACATTTCT
CTCCTGGACTGAGCTACCCAGTTTATTGGAGCAAAAATTTCCTTTCTCACCAATGAATTTAAGAGTCAAGTTCTCAAGAGAAGCTGGAAGGTAGGGTCAG
AGAGATTACAGTGAGAAGTGAAGCGGTAGAGGCCAGTAGGTTTAGAAACCAGTGCTGTGGGCTGACAGGGRGTGACAATTTCCAGCTTTGGTTCTCCTCA
TTTAGGAGAGACATGAAGTCTCATGGTGTGGTAGACAGGCCACACAAGACTGGAAGTCTGAAGTGTGCTCACTTCATGGAGTAAATGTGTAGCCTTGAAT
GAGTTACTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGATGGAGTACAATGGTGCAGTCTAGGCTCACTGCAACCTCTG
CCTCCCRGGTTCGAGTGATTCTCCTGCCTCAGCCTCCTGAGCAGCTGGGACTACAGGCACATGCCACCATGCCCGACTAATTTATGTATTTTTAATAGAG
ATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACCCCTTACCTTGTGATCCACCTACCTCAGCCTCTCAAAGTGCTGAGATTATGAGATTACAGGCG
CGAGCCACTGTGCCTGGTCGTGATTTACTCCTTTCTTTGAACTTTAAGTTCTTCATCAATAAAATGAGAATAATAAGACCTCATAAAGCTACTGGGAGGA
GTACATGGATTTATAAGAACTAGAAAAATGTCTGGCTATTGTGGATGTTCAATAAATGATGGGTATTATTATTATTGACTGTTCTTGGGATGTGTTCTAC
TTGGGTGTGTCTCTGGCATCTCAAGTGTACGTATTTTCCTAAGTGGGGTGTGTGTGTGAAGGAAGAAGATGCCCTTCTTTTGTGCCTCGCCTTCCCCAAA
AGACATCAGGAGAGTAAACATGCCCCCTATAGTGCCAAGAGAGAAAAATGTAAATTCTTTTGGATAAATTAGCTTTTGCAGCTACCTCTCTCTTTGCTAT
GACTTCTGTTTCTCCTCTGCTTAAGCAACAAAGAGAGAAGTAACCGCAAACGCTAATTTATCCAGCGGAATTTACATTTCTCTTTCTCGGCAATATAGTT
TCTTAGTGTCTTCCAMGTTTTTAAATCCTTTAGGTTTATTCATTATGTTCCTTTTTCCTGCTTCTAAAAGGTAGCTGTTCTTGCCCACTGTTTTGGAAGT
AAGAAAACCTAGGAGCTGTTCTGTAAGCTCATAAACATAGTGTGCCAGAAACTGACTAGAAGGACAGCAGGGGGACGGGGGATCTGAATGTGCCAAGACA
GTTATACCCTTATGGGTTATGGCAAACATTAAATGGTCTAGAAAATCAGAGGCCTTGGAAAAGACTTGTAAAAATAACAATGTGAGAACTTAGCATAAAG
GCCAGGAACATGAAAGGGGAAGCCATGGGTGGCACATGTTGGAAACTGTGCTGGAAACACATCCTGAACTGCTCTTGCAAAGTGAGGCCTCTTAAGCAGT
TCCTGCAATCCTCCTCCCAGCCCTCCATACCAGGCAGACCAAGATGTGCTCCCAGCCTCTGGGCAGACAGTGGGTTTTCAACAACCCTGACTGGGGCTGA
GGTATGAGAGGTGCATATCAGAGCCCCAAGAGGGCTCTTAGAAAGGGAAGTTGGCCAGATGTGGTGGTTCACACCTGTAATCCGAGCACTTTGGGAAGAT
GAGGCAGGCAGATCGCTTGAACTTGCGAGTTCGAGACCAGCCTGGGCAACAGAGTGAAACCCCATCTCTACCAAAAAATATAAAAATTAGCCAGGCATGG
TGGCAGTGGCATGCACCCGGGTGCTCAGGAGGCTGTGGTCCCAGCTACTTGGGAGGCTGAGGTGGGGAGGATCACTTGAGNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTGTGTTGTTCTAAACCGACCTTTACTCCTTATTGCCA
TTTGTAATGCATGCATAATTCAATGCTGAAGCCGAGGGAGAAATAAGGATGTTGGTCTAAGTGGCCCTTTTTGGGTTGTTTTTTGATGATTTGCTATAAT
CCTATAAATAATACAAAGCTTGTCACTGTAAATATGTATTGTGTTATCTAGAGGTATATTCAGTGGCTAAAACAATAAAAGCTCGTCTACGTCTCCTGGC
AATCTCAAGGCATAATTAATCGCTGGTAAGATGTATTCTAGAACGTGAGAGCCCTTAAGTAGAAGGAAAAATAAAGGCCATTGTCAACACAAATGCTAAA
AGAAATGCCTAACGGGCATAGTCATTTGCCATCTGGGAAAAGTGTTTGCTAGTGTACTTGTTTGGAAGGCAAGAAGGATGATTCAAAAGGGATTTTTGTT
CAGGTGGTGAAGAAGTGTGTGTGTCTGTATGTATATACATACCCACGTAGTTTTTAATAAATTATAAATCAAGATGTTTACCAAGCTAACTTGTCAATTT
TAACTCATTTCTGTTATTTGTTTACACACACCTCCATCTGACAAATATATACAAAACAATGTATGTGTATGCACATATACATACATATGATTTTTTTTAA
ATAAAGCATAAATCAGGAGGTGCTCAGAGCTAGCTTCTGTCCATTCTAACCCATCTGCTATTTGTTCACTTGCACACACTCACTGTGCAATAAACCCTTT
CAATGTGGGAGACAAGTGCAAGATGCCCCTCTTTCCCCAAAGGGCACCTCTGTGTGCTCCCTCAGATCATAGCTGATGACATGTCAATGAAACGGTGCTT
GCTCTCATCCCAGAGATCAAAATGAGGGCTTAACCTGCAATTTACTTTACAAGTCCCATGACACTTGCCAGATCTGAAGACTTCATTCTAATCTTCCCTG
TTGAAAAAATAATCAAATACTCCAACAAAGATGTATTGACAACTCTTAATTAACCATGCTAATGGAGGGAAGAGATAGCATGGATAAATGAAATCCACAC
ATAACCCAAAACCTTCCTTCCCCATTAATTTCCAACTTCTTGACTAAACCTTACTGAGATAAGTGGGTGGGGAGTAGGGAGAGGCTGACTAATCCTTTAA
CGATAGAATTACTTGATGTCTACATCTGTACTATGCCAATCAGCTGTTGGACAAGGTAACAAGCAAGGAAGTGGCCAAGGACACCATGTGTTCCCAAAGC
ATCGGGGTTCAGCGGTAATGTTTTTGAATCTTCTCGGGTGTAAGTAAATATATTTCAGACAGCTTTTAGAATGAAGTTAGCTAGAAGARTTTTGCAGCAA
TAGAAGCTGATTTGATGTAGACCTTCAGGTTTCTTATCTATTTATTGGTGCTGCTCAGTTGGATGGGAAAGAGAGGAGAAGCTGAGAGACGCCTGGCACC
TGTACAGAGTGAAACAGGCAATGCTGTGTAACGAGCAGTTGACAGCAATGAATAAGGGTTGCAGAAATGGCAAAAGAGGGCACCAAATTAACCAAAGCCT
AGGGAAGATGACGAAGCCAGAGTATTCATTAAGGGACCAGATGAACTAGCATTTATTGAGCACCTTCTGTTTGCCAGGGCATATAAGAACATACTGTGAT
GAGGCACCATGAAATACGACCTTTGAACAGAAACTGGGTAAAAAACAAAAGTAGGCTTCCTCCTCCTCCTAACAGCATCTAGTGCAGCCACATTAGATGG
GAAGAGCCAGAACTAGGCAAGTTATTCCACTCCCTGATCCTCAGCTGCCTCGGTTGCCATCTCTGCACCTGCAGGGTGAACACACCCCAATAGCGGTAAC
GTAAGCATACCCTTAGAATGATCCTGTGTGGGAGATGCACCTGAATGTGTGGTCCGGGCTGGGGAATCCAGGAGTGACCAACCCAGAGATTTGTCCCTTA
TATATAACAGACATCTGTGCCCCATGCCTGTCCCGTGGAACACAGGCCAAACAGAGGATTGAGGTCCTGAGTTTGGAGTTAAATGAAGATTGCCAGGTAG
AGGTTGTTAGGGGGAGGGTGTTAAGTGAAGGTGTGATATAAACCACATGACATTTGCAGGTGGTTATGGTTTTCCTGCCCAGCCCACCGCCACCACTGGA
CTGTAGGGAGGTGGATATCCTGTCCAGCCTACTGCCACTGGACCATTTCTGTATGTAAGGTGGGCAGTTGTACTATCCAGCCCGCCATCACTGGACTCTC
TCCCCTATATGTAACCTCCTAATAAAACCCCATGTCTATCTGTTGGCTCTGAGTGTCTTCTTCAGCTCTTGAACCTGGTGCCTTTCCTATTGAGGTTAAT
AGGGGTTCAGCATGACAGCACCTCCACCTCCCATGGCACAGCATATGTACCCAATAAGCAGTCCTTACAATACCAATAGTTTCTATCTGTTGGGCACTGC
CAATTAGCCAGGCATGTCAAATGGAAGATCTCACTTAATCTTGCMAAAAAAAAAATGTTGTTCGTTGTTGTTCCTTCTATTACAGAGGAAAAAACAAAGG
CAGATGGAGGTTACATTATTTGCCTAAAGTTACACAGCTAGAAAGGAGCAGAGTTAAGAATCAAACCCCGGCCATCCAGCTCCAGAACCGAGCTTGTGAC
CCTGGCATGGGTATTTCCGGAGCTCTCGCTAATGTGCCAGATAGACGTTGTGCTAAAGAAATGATCTGTGTGTGTTTTCTCATTTAATATCCATACAGCC
CCCTAAATTGGAGATTACTACTGTTACACAAATGAGGAAACTGATCTTGGAGAGGGCCAGTCAGCTGCCAAGGTCACAGAGCCAGGGAGTGGGGGTGGCT
TGCCCAAGGCCAGGTCTGTCCCTCCAGGTGAAGGTAATGATTAAGAACACAGGTCTGGAGTGGGTTTGAATCACTGTGTGTTCAGCCGCTCACTGGGGAC
CTGGCCTCAGCCCTCTGAYTACTGCAGGGCTTTATTACTTTCTGAGTTCTCTTTGCTATCTCACTCGCCCTTTCCTCCCATTTCTCCTTCTGGTGCCCCT
TCTCCYCTTCCAGGCCCCCAGCCCCCAGCCCCCACCCCACAGCCATCTCTGTATTAAATGTTTGTGGAATGTTCACCGTTCAAAAGCCACGTTCTAGTTT
GAGGCTTTCAATTCTTGGGAAGAAAGGGGCCATATAAATACAAAAAATCAAGTCCGAAATGTTGTTGAAATGATCATTTTGGTCCACCTAAGTTTATACA
AAAACATTTTCCATGCTCTGATCTCCCCACTTGCACTGTTGGGTAGCCCAAGTTCCAGATGAACGGCCTTCTCACCTGCATGCTGAAACCAGCCGAGGCT
GCTGCCACATTAAAAACTCAGCCCAGGCTGCTCCTGAAAATGTTTCTGCCCTCAGAGCCACGTACTAAAAATTAAGGGGATTAAGGGAACTCTAGATTTA
CATTTAAAATAAAGGAGAAACTCATTGGAGAGGCTAATGCGGCGTGCACTGGAGGTAGCTACTATCACTAAGCATTAAGATAAACAATACGAGTGGCATT
CTGGYCCACGCCTGGCAAAGTGCAGGAGTCCCTGGAGGAAAAGGAATGAGAGTGCATCAGCGACCTCGTGAGGCAGTGCAGCTTTGCATTAATGCCTGCA
GCTCTGGAGGCGGACTTCCTGGGTTCACATTCACAACACCTCCACCGCCACCACTCCATGAGCTTGGGAAAGACATTTAACCATTCCATGCCTTGTCATC
TATAAAACGGGGCATGACGCCAGACACGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGTCGAGGTGGGAGGATCACAAGGTCAGGAGATCAAGAC
CAGTCTGGCCTGGTGAAACTCCATCTCTACTAAAAGTACAAAAAAATTAGCTGGGCATGGTGGCACGTGCCTGTAGTCCCAGCTGCTCCGGAGGCTGAGG
CAGGAGAATCACCTGAGCCCAGGAGGTGAAGCTTGCAGTGAGCCAAGATCGTGCCAGCCTGGTGATGGAGCAAGACTCTGCCTCAAAAAAAAAAAAAAAA
AAAAAGGCCGGGGGGCATAAGTACTTCCTCAGAGGGTTGTCCTGAGGACTGAATGATGTCATTTAATTCACATTGATATGGTTTGAATCTGTGTCCCCAC
CAAATTTCGTGTCAAATTTATTTATTTATTTTTTGAAATGGGGTCTCGCTCTGTTACACAGGCTGGAGTACAGTGGTGCGATCTCACCTCACTGCAACCT
CCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGTGACTACAGGTATGTGCCGCCACGCCTGGCTACATTTTTGTATTTTAGTA
GAGATGAGGTTTCACCGTATTGTGCAGGATGGTCTCAAACGACTGAGCTCAAGCAATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGAGTGTG
CCACCGCACCCAGCCTTCATGTCCAAATGTAATCCCTAACGTTGGAGGTGGGGCCTGGTGGAAGGTGATTAGATCATGCGGACAGATTTCTCATGCATGG
TTTAGCACGTATGCTGTGTGGTGAGTTGGCTCTCCTGAGATCTGGTTGTTGAAAAGTGTTTTGCACCTGCCCCCTTGCTCCCTCTCTTGCTCCTGTTTGC
ACCATGTGAGATGCTTTCCTTCCCCTTTGCCTTCCACCATGATTGTAAGTTTCCTGAGGCCTCCCCAGAAGCCAAGCAGGATGCTAGCATCATGCTTCCT
GTACAGCCTGTGGAACTGTGAGCCAATTAAAGGTGTCTTTTAAATAAATTACCCAGTCTCAGGTATTTCTTTATAGCAGTGCAAGAATGAACTAATACAC
ACATAGAGGATGGAGCACTCTGCCCAGCTCATGCCAACACTCCATCAATGTTAGTACTTAGCATCAGCATTATGTTGCATAGCTGATGATTCATATACAC
ATTACTCCCTGCAATCAATGCCCAAGCCTTGCAAGATATGTGCTTCAATCCCCACTTTACAGAGGGCTATGGATCGCCAAGGCTCCACCTGCAGTTGGGT
TCTACATAAGTGTCCTCTTTCCTCACATCTTCAGTAAAGTATGAGACCTCCATCAATGCCTGCTTGGGTGAGGAGCACAGGTGGGTGAAAGGTAAGGGAA
CAAGTGGAACTCCATATCCAAGGTAGGCACAGTGTGGACCAGAAGAGCATCCCTAGGACAGTGAGGTGATCCACGGACTGACCTGCCCCAAGGCCAGAGA
CGCAGGAGTGGAAAGTCACATGGAACCATGAGCTTTTATAAGGGGCAGGGGGCAGGTGTTGGGAAATTGCAGAACTAGTGTTTGAGCAGATGCAACAGAT
CCGAAGGAAATAGAGATTGCAGTTGAAATCTGGGTCCAACTGGCCCTATCAGCTGCATTCATGTGTTACCTCCCTGGTCAGCTGTACCCTCCTTCAGGAT
TAGGACTGCATCCTTACCAATGCTGAGTCCTCTGGGATCCCCAGAGGCATCTTTTGCACCCATGGCAAAAAAAAGAAAGGTGGGCAGCAGCAATGAGAAC
CATGTCCACTAGGTGCAAGTAATAACGGGTGCATTGTTCGCTAAGGACTTAAAAGTATTAATAAAAGTGACCAAAGTTTAACTGCTTTTTATCATCACCA
TGCTTGGTGATTCCAAACAATGTCAGTGAAAACAGATTCCTCCTGCTGGCAGGGGGGCGGCCACACCCATCACACCCCCTCTTGGCACCGCCATGATTTT
ACACACTGCACTCAACAAATATTCTCTGAAGGGCTGAAAAAAAGGGGGCTGGGGAAGGGCAGAAATCCTGTTGATTTCTGAGCAGCAAACACGTAAACAT
AACTGACATTAAGATATACAAAATACATCTTTCAAGGAAAGATGTGCCATTCTTTCTTGTGTGAAATAAAAACACCTCCCCATGCAAGATTCCAACTGCA
CAGACTGATACTGCTATGGTCTGACTGGAAACAGGACATCTTGCATTCTTGTGGCTCCGAAAATCACTCTGGGGTCCAAGGATTTATTTCCTCTCTCGGG
AGTCAGGGACAGATAATAAATACCCCTCATCAGCTGATCAATTGCTCGCACTTCCAGGCAAGCACCCAKCACTCCCCACCAAACACACCGCCCCACGCCA
CCTGAACRAGGTTAAAAGAACGGACTCATGACTGATGGTCGGGGGGAACTGGCTTCAGAAGAGGAAGTTGAAAATATTAAGAAATCAACACGGGCATTTA
AAAGCAAAGCCTTTTCCATGCCACAGAAGACGTTTTGCTATTCATCTTGTTCCCTGACTCTGCTTCACCAACTTGATGGAAGATGGTTTAACTGACATAA
AAACCAGCTATACATGAACAGCGGTGATTGATGGAACCATTCCAAACATCAGCCAAAAATGGCACTGAAAGATGCCTTGGGCTTCCTGTTAACTGTTTTA
TGAGGGGACCAACAGGTTTCCCCCCTCTTCTTTAAAGAATATATTAGCAGTACAAGTACTTTCAAAAACAGGGTAGTGTTATACCAAGAGAGAAACAGAA
GGGGAAAAAAAAGGTAGGAGGTCTTTTGCATGTTAGTATATGTATGAAGGGAGTTAGGACCTGGCAAACTGGGTTATATGAGGCTTTTTCCATACACAGC
TCTTTGGTTTCACGGTACATGATTTAAATAGGTTGTATTTAATTCCATGTAATAACAAACTGTGCCATTAAGTAGTTCTCCTGTACAAATGCAATGTTTC
AATGGCAACAGAAAGAAAATCCAGCCTTTAAAAAATGCACAGATGCTCCAAATGAGCCATGATAAAGAAAGGGGTGGGGAGCGGGATGATCTGCAAAAAA
GAATGAGGGAAGGCAGATTTGTACCACTTGTGCTAAAGCGTGGAGCCTTACCATTCAGGGAGAATGAGACGTTTGCAAAATGGCATCCTAGTCTTTGAAT
GCTTCTTAATATGGAACGGACGAGAACAGAGGTGGCAAGAGGGTTAGAATTCCCCCTCTTTGTTCTCCTTTCTGGAATGGAGAGGACCTTTTCCTGCCTT
TCTTTGCTCTTATTTTGAAGAGGTTAATTATGACCTGGAAGCGCCCAGGCACTTGGGTCTCAGCTATTGTCGAGGAAGAATATTGTCTGCGCTGTACCGC
AAGAACTAACTTAGGAAACATTCAAATTTGGAACTGCTTTCAGAAGCCTCAGGACCGATTCCATGTGGTGGCATTCTATGGGATGACAAATCCCCACTCC
GTTCCCACTACTTGTCTTTGAAGACATGCACATTAGTGAGGCAGAAAATTCACTCGACTTTAAAATAAAATAAGCTGGTTATTTGGCCCATCTAGAATAC
ATTCGTATCTCAACATTTCAAATCAAAAGGCCCACTTATTCCTGTCCTCATCCTGGCTCTGAAGCCAAGCTCAAGGTGCTCTCAATTACATGGTAGATTT
CTGGCCCAAGTTAATATGTATCAGGACTTCTCAAGCGTTTGTACCTTTGACCTAGAAATTCTACTTCTGGCAAATCAATCCCATAGAAATAATTTTAAAT
GGGAAAAATGCTTTAGAACCAAAGATGTTCGTGGCCATGGAAATGACGACTGAAAAGAGTTAGTGACAACCTAAAAATACAGTTAGAAGGAGAATGATGA
ACTAAACCGTGGTTCCTCTCATTGGTTTACTAACATGTCCCCATTCAAAGCACTGTTCAGGACCGTCTAGAACAACCTGGAGGCATGCTTTTAAAATGTT
AAGAGAGAAAAGAAACTATTATCCATATGGGATAATTAACAATGTGTTAAAAATATACATATCTCTGGAATATTTGAATTGCAGGAGGAGAATTAATTTA
GAGATAACAAGCAAATCCATCACGAGTACATATGCCACAATTGTAACAAAACAAAATAAAACAAAATGGCCTGGGCATTTGAAACTACTGTAAGAATATG
TGCCAAAATGCTAAGAGTAGATATATATTGGAGGATTTTCTTTTTCAATCTTTTTTTCAACTTTGGAGTATTTTCCCTTTTTTATGAATATGTCCCTATT
GTGTATGAGAAATAGCTAATTTTAAGAAGAAACAGAACTCCAAGGGGGAAAGAAAACACTTTTTTTTGCTCCTATGAGAATTCACTGGATAAGGGCTGTA
CATTTCGGGCCCGCCTACTTCATTCCACAGGAATTAGTAACTGCAGGTGCAAGTGTTGCTACTGCTCGAAGGCTAAGCCCTGATAAGGCCTGGGGAGGCC
CAGAGACTAACAAATGGGTTTCTTCCAGGACTTTGCTGCTGATTGATCACTGCACTTAATCCTTTCCAGAGATAGTTACTCAAAAGGACCAGGAAAGGTA
AATTTACCAACGCAGGCCAACGTGACTAAAAATAGAACCATAAAAATCTTGGGGAGATGCAATGTGGCAAGACCATGGTCTTCATTAAGGCAGGGCTGAA
GGTGGAATCCTATTCCAGATACTTCACAGCTTAGATCTTTTGCCAAGCCTCTCACAGTCTCAAATTCCCCATCATCAGCAGGAGTCATAACAGATTGCAA
GGAGGTTTAAATGAGGCAATACATGAAATATGCCATAAACGGCAATTTATCAGCATCTATGATCCCTAACATTAAACACTGACCACTTCCTTATGTGCCA
GACACAAAGCTGAGCACTTCACATGTACTGCTTCACATACTCCGAGAATTATTTTATTTAACCCCCATCGGGAAGAGACTATTATCATCTCCTTATCACC
CACAGGGATGCTGAGGTTACGAGGTATCAAGGGACCTACCCACCATTGCACAGGCAGAAMACAGGAGAGCCAAGACTGACACCCCCAGCAGGAGGTGTTC
CAGCCACCTTGGACACCTTCCACCACAGGCTGAGCCGCAGTGAAGGGCTTTCAGAGGGGCAGTCCACACTGGACATCAAACGGTAGAGTGGAGATTGGGT
CAAGGACAGGAGCTTCATTATCTTAAATGAATTAATGCGGGAAGAGAAAACCAACTACCACATGTTCTCATTTGTAAGTGGAAACTGAGCATTGAGTACA
CATGCACATAAAGAAGGGAACAATAGGCCAGGTGCGGTGGCTCACGCCTGTGATCTCAGCACCTTGGGAGGCCGAGGCAGGCAGATCACTCGAGGTCAGG
AGTTCGTGACCAGCCTGGCCAACATGGAGAAACACTGCCTCTACGCAAAATACAAAACTTAGCCGGGCATGGTGGTGCACACCTGTAGTCCCAGCTACTC
CGGAGGCTGAGGCACAAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATGGTGCCACTGCATTCCAGCCTGGAAGACAGAGTGAGACT
CTGTCTCAAAAAAAGAAGGAAACAATAGACACTGGGGCCTACTGGAGGGTAGAGGGTGGAAGGAGGGAGAGGACCGAAAAAGCACCTATTGGGTACCATG
CTTCTGACCTGGGTGACAAAAGAATCTGTATACCAAACCCCCATGACATGTCATTTACCTATTTAACAGCCCTGCACGAGTACCCCAGAAACTAAAGTTT
TTTAAAAAATGAAAATTAATAAAAATTAAAAGAAATCACAGATGTTTGCATATCACATCAGTTACTGCAGATATTTCAAAATATCATTTACACTCAACAC
TACTCAAAAGTATAGGTGTTAGTAGATACACTATTACCTCTTGTGATTTAATGTACTATAGAAGAAACGTGTATTACTATAGAACAATAAAAATGTTGAT
ATTTGTATTTCAAAAACAAAACAAAGGAATAAGGGCTTCCAAACTTTAAAATGCAAGAGAGCATCATGGGATGACAGTGGAAGAATGGACCTGGGTGAGA
GGAGGCTAGGATGGGGAGAGGGAAGGGAAGGCTCACATGTCTCTTTTTTTGTTTTTGGTTTTTTTTGAGACAGTCTCCCTCTGTTGCCCAAGCTGGAGTG
CAGTGGTGCGATCTCAGTTCACTGCAACCTCCACCTCCCAGGTTCAAGCAATTCTCATGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGCGCACACCAC
CATACCCAGCTAATTTTGTTATTTTTAGTAGAGATAGGGTTTCACCATGTTGGCYAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGCCTCGG
CCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACTGTGCCCGGCTGGCTTTCATATCTCTTATTCTTTCTGCTTCCGCTCTCTCCTGTCCCCTATTAGC
CATGGGTTCCAGAGAGGAGAGAAGGCTCGGGAGAGCAGGGGACTCAGGAGGTCACCCTGCTACCCTCACCTTTTTAATAACCCTCCTCAAACCCTGGTTC
CACGTCTCCCTCACTCAAGGATTTATGTCTCATTTTCAATGGAATGTTACATTTGGTCAGACCACGAAGAAAACTCCTCATTATRAACTAGGAAATGTGT
GGAGAGAGAATTATTTACCCAAGGCAGTGCTCAATCAGTGTTGCCCGAATATTTATTTAGCCCACACACGGAGAAGTTGTGTTAATGTTTGCCAAAGAAT
GTAGCTTTATAAAGTAACTGGGTCAAAAAAGACAGCATATCATTTTACAAATAACTTTAAAATTGCTTAAGTTAAATAGCTGGGCTCTCTCAGGTTTGTC
TTTTCAAAAACGCTGCAGAAACAATATCCAGAATTATGTCTAATAAAATACAGGTATTACAAAGTGGCTGTTTAGCCCATTAAAGAAAATGGAGAGTGAA
ATCTGAATTATTTCTACCCGAGGCAGAAGCAGACAAAGTTACCAAAATTATGTTAGGCCGACGTCGCAATTCTTCAAGTCTGCAGGGCGGCAAGGCTAAC
AGCTCCTGCACCAAGACTCTATTAGGAGAGCTGTATTTTTCAGTCAACAATGACAGGCATTCCATTTCTCAGCCTCAAATCTAGTGTAGCTATGGGGAAT
TCACCCAAAACATTTGCTTTTGCTTTATCAGTGGCATTTGTCTGCCTCAAAAGCCTTGTGAGGGAGAGGGCTACTACGTGACGCTGCCAGGCAATGCTGT
TGGAGGCAGCTGATTTGATGGACAAGAAGGGGAGCAGTGACCACCTGGGTCACTCTGACTCCGCCCTCTCTGAGCCAAGTGAATCTGAGCAATGATGTCA
TAATAATCATCAATAGCAACAGTGGCTGCGCGTGAGGGGCGTGGTGGTTCACGCCTGTAATCCCAACACTTTGGGAAGCYGAGGTGGGCAGATCATTTGA
GCTGAGGAGTTCAAGACCAGCCTGGACAACATGCTGAAACCCCATCTCTACTAAAACTACAAAGAATTAGCCAGGCATGGTAGCACATGCCTGTAGTCCC
AGCCACTCAGGAGCCTAAGGCAGGAGAATTGCTTGAACTTCCCCAGCTTCAAGAGGAAGAGTCTGCAGTGAGCCGAGATGGCGCCACTGCACTCCAGCCT
GGGTGACAAGAGTAAAACTCCCTCTCAAAACAAACAAACAAACCAAAAAAACAAATAGCAACAGCAACCAYAATCATCATCACCATCAAGGCTGGAACAA
GGATGAGGCAGGCAGGCTCTGATAGCAACAGGAGGAAGCAGACCAAGGAGGGAGAGAAAGGAAGGCAGAGAAGGGGAAAAAAAAACACAAATGATAATAA
TAGATGCTGACATTTACGGAGCACTTACTATGTGCTGGGAACCATGCTGACGGCACACCGAATCCACTGAACAGGTGGGTAAGTATCATGGGTCAATATC
ATTCTCATTTTAATGTTGACAGTCACAAGACTTTCATCTGTACAATGGGGGTACTGCTGGCTCCCAAGGCCAGTGTTGGTGGAATACAGTGAATAGAGGT
GAGTACCGTGTGACAGGAGGCTGCATCAGTAAGCAGGGGCAGCCAGCCAGGTGAGGAACATGCCCACTGAGATGGAGGTCAGGACGTTGAGAGATCCCCA
AATTGCAAGTTGTCATCCTGAGACAAGCGATACCTTGCTGGACACTAATTCATTCTTGGAGTCTCTCCCTCTCRGCCCTTTGGCTTCATGTTCTGGAGAG
AATGACCAGAGAGACCCATTTACTCAACGCTTCTCAATGAGACAGGGATCTTCTAAAGGGCACTGTCTTATATAGATCCTTGCACCTGCAATACCTGCCT
GGCCCAGCCTGGCCCTCGCAGGTTCTTGTGAAATATTTGCTTATGAGTAAGCAAATGCATAACACGAGACGGCTGCTCTGGAATGACAGTTGCGAACACA
GGAGGCTGCTGAGACTTCCAGAGACTGTAGATAAAGAACAAAGACCCTGTGAAGTTCCTCCGGGAAACCAGATGTGGCAGTGTGCTAGGGCTGCCCTAGC
GTATCAGCACAAGCTCAACAGAAACTGACTCTCACAGTTCAGGAGACCAGAAGTCTGAAACCAAGGTGTTGGCAGGGGTGACTCCTTGTGGAAACCGTGC
CAGGTTTCTCTCCTCGTTTCTGGGGGCTGCCCATGACCGTGGCATCTCTTGGCTTGTAGACGCATCACTCCAATCTCTGCCTCTGACTTCACAGAGCCTT
CTCCTCTGTGTCCTCTCCTCCTTTTTCTGTTTTGTCTTTTGGTGTTATTTTTTTTTTAAGAGATGGGGTCTTGCTATATTGCCCAGGCTGGCAATGAACT
CCTGGGCTCAAGTGATGCCCCCTCCGCAGCCTCCCGAGTAGCTGGGATTGCAGGCACACCCACCACTGTGCCCCCTGCTTTCCTCTTCTCATGAGGATAA
CCGTCATTGGATTTAGGGCCCACTCTAAAGCCTGAATGATTTAACCTTGAGATTCTTAGCTAATTACATCTGCAAAGACCCTGTTTCCATATAACGTTAC
ATCTGTGATTCTGTGTGGGTGTGGATTTTGGGGAGACGCTATTCCACCCACTACCCTTACACTGCAACTCACCCACACTGACAGCTTCCCTTGCCTGTGT
CTGTCCAACTGGCTTAGAACCGGAGCATGGCATCGTCACCATGGACTTTGAGAATGTATAAAGACAGGTGCCTGGTCCCATTCCCTGTGAGTCTTGAGGA
AAAAAGAAAAGTGAGCTTCAAAAACTAGAAGAGCCAGCCTGGTGTGGTGGCTCACATCTATAATCCCGGCATTTTGGGAGGTTGAGACTGGCGGATCACC
TGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACAAGTGAAACCCTATCTCTACTAAAAAATACAAAAACTAGCCAGACGTGGTGGCATGTGACTGTAGAC
CCACCTACTCAGGAGACTGAGACAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCGCGCTGCTGCACTCCAGCCTGTATGACA
AAGCGAGACCCTGTCTCAAAAAAAGAAAAAAAGCTAGAAGAACCAAATCACTAATGCCTAAGCAAGAACAGAGGGGATAGAGGGGCCTGGGAAGCAAGGC
CTGTAAGATCCCTTGACAATAACACACCAGTCCCATGAGCAGGAACACAAAACATTATCCCTGGACCCAGTTCTCCATCAGGGTCTCAGCATGAATGAGG
CTCTTCCTTCCTCACGGGGATGGGAGGACCACCCTGCTTTCTTTGCCCTTCCCAGGAGGAAGGGAACAGCACCTTCCCCATCTCTGCCAGCATCTGTCCA
TCAAGAGCTGGTCAACAGCTTAGACTCAGGGGATGCCACAGTCCACATTACAGTGTCACTGGGCCAGGGCTGGGAGAAGCCGTGGGAGAAATGCAGAATG
GGGAGGCTGAGGCAAAGTCAGGATGAACCAAAATGTAGGTGAGCACCAGACACAGTGGCCACCTGAGGAGGAAACACACAACAGCTGAGAATCCACGGGG
GATGCGTGGCCAGGTTAGAGCATCCTGGAATCAGGCAGGTACGAGGAGTCCACGAAGTGGAGAGGTGATGCAAATCTGCAGGCCTTGGGGACAAGAGCAC
ATCAAACCCTTGGGGGCCGATGCCTTCAGTATTCCTAATTCCTCCATGTTAGAAAGGTATTTTGGGCCAGGTACTGTAATCCCAGCACTTTGGGAGGCCA
AGGTGGGCAGATCACCTGAGGTCCGGAGTTCGAGACCAGCCTGACCAAAATGGAGAAGCCCCATCTCTACTAAAAATACAAAATTAGCCGGGTGTGGTGG
CACATGTCTGTAATCCCAGCTACTCGGGAGGCTGCGGCAGGAGAATCGCTTGAACCTGGGAGGTAGAGATCACGGCRAGCCAAGATCACACCACTGCACT
CCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAACAACAACAAAAAAAGTAATTTAGCACATATACTGCATATTACAAAATACCTTTGCGGGGTTTGGG
GCAACATCCTATAACAATGACATTTCTATTTCTTCAGTGAAAATATGATTATTCAGCCTGGCCAACATGGTAGAGAAACCGCATCTCTACAAAGACACAA
AAATTGGCTGGGTATGGTGGCACATGCCTGGAGTCCCAGCTACTTGGGAGGCTACAGCAGGAAGATCGCCTGAGCCCGGGAGGTCGAGGCTTCTCTGAGC
TGTGAACACACTACTGCACTCCAGCCTGGGTGATGAAGTGAGACCTTGCCTCAAAAAAACAAACAAAACAAAATGAACATTCACACTAGAAASGAGAAAC
AGGGACGCTAAAGCTGAAGTCAAATTTCACCACCAAATAAATTTGCTATAAATATACAATAAATTTGTTTTTGCTTTTCAGATCTCTTTGGGTTTTGGAA
TAACAAAAAAGGGACTGTACATGGATATTTCCAAGCTGGAACCGAGGCACTTTCTAGACGAAGGCAGCCTTATCCCCAGGAGGTAAGGTGTGGAAGTGAG
TTGAGGGTTGAGGCCAGCAAGACTCAGACCACAGCCTCCTGCTCCAAACAGCCACATCACTTAATCTATTTTGTAAACCAGGCTTCCCTCAAGGGATCTG
GTTTAATGAGAGAATTTGGGAGCTACAAAAAAGACTGAAAATTGTTGTTGGACATCAGATGCTGGCAAACTTTTTTTGTAAAGGGCTAAATAGTAAACAA
CTTAGGCTTTGTGAGCCAAGAGGCAAAACCGAGGCTATTACAGAGGTATTTACATAACAGGAGAGAAAAACAAATTTCTGCAAATTTTTTATTGATGAAA
TTCAAAACTTTATGACACTGAAATCAGAATTCCATATCATTTTCCTCCTTCAAGAAATAATATTCTCCTCTTTATTCTTTTTTGCAGATGATTGAAAATG
TAARAACTRTTCTGAGCCTGCAGGCCATAGCCAAAGAGGTACCGGCTGTATTTTGTCCATGGGCAGGAGCTTGTGACTGCTGGTCTAGGTCATTCCAGGT
CAACCAGGGGCCTCTCCCAGAGTGAGAACCACTGGTGATTCCCCAGAGTGGGACCAAGTGAAAGCACTTGGCTGGATCAGAGGGATAGGAGCCTGGCTGC
TCCTAAAACAAGACACTACTTGCCTTTGATGTTCAAGTCATTTAAGAAYGCAATTGCTTCCTACTCAATTTTTCAAAACCAAAATAACAAATACGATATG
AGCCATAACTTAGCAAAATTACGTGTTTTAAACAGTCTCTTTCAAAAAACAATAGATTAAAAAGTGCAATATTTTTACCCCCTCTTAAATTGGAATCATG
GTATAGCAGGCAGGATACAAACTTCTCATTTCCRTTACACATTTTCAGTGCCATCATTAATCTGAATGAYATCAACAAAATGCCCAATGCACATAAATCA
GTCAGACTTTGAATCATTCCTGCAGCCTCTGAACATTTACCATGGAGCTCAATAAGCCAGGCAAGAACACAGATTTTTTTTTTTTTTTTTTTTTTTGAGA
CGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCT
CCTGAGTAGCTGGGATTACAGGCATGCACCACCACACCGGCTAAYTTTTGTATTTTTAGTAGAGATAGSGTTTCACCATATTGATCAAGGTGGTCTTCAA
CTCCTGACCTCGTGATCCTCCCATCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGGGCCCAGCCGTAGGAACACAGATATTATCATCAT
GGGACAAGTCATCCATTCYCAGATTCCATGACCCTCTCTGGTGTCCACTGTGGATTTCAGCACATGTTTAACTATGAAACTCTAGTCACGCTTTTTGATA
TACAGGTTCATGGTTACTAGTGTCTTATCCTGCTTGAGCCAAGAATATGCACTAACACATTAGACAAACCTTGAATTAAAATGGGCAACCCACCATCCAA
ATGGGGAAAGATGATTACAGACAAGTTCGTACGAGTAAACTACTTGAAGGCAATTCCTGTGCTTAAAATGGCCACGTGAAAGGTGTCCCTGACATGGAAA
GGACAAACCATGAAATGACCCTTGAAGCTCTTAAKGTGTCTGTCAAAAAAGCAAAGCCAACTGTCAAACTGAAAAGCCAAAATCATCACAAAAACACCTA
TTCTTCAGAGGCCTCAAATCTCAAACTATCTCCCACCATCCTTTGTAAGTATGTATAAGGAGGCCAGGAAACTAGCATTTGCTGAGACTTTATTCTCAGC
TTTGTATGCTTTGCATAAATGATGTCATAGAACACATTGACAGTGAGAAAACTAACGTATTAACATTTTAATTACCTTGCCCTATCACGAGATTAGAAAG
ATTCAGATATGAGACATCCAAAGTCTGTGATCTGAACACCAGAGTCAGAGGCTGGCAACCTATGGCCCACGGGCTGAATCTGGCCCACTGCCTGTTCCTA
TAAATAAAGTTTTATTGGAACACATCCGTCCATTTATATATTATCTGTGGCTGCTTTCCTGCTGTAACAGGAGAGTTGAGAAGTTGCAACAGAGACCATA
AAGCCCACAAAGCTAAAAATATTGACTATCCAGCCCTTTAGAGAAAAAGGCCATGCCCAGGCTCCTGTGGGTACCTGCTATGCTACAGCCCCTCTGCTGG
GGGAAACCAGCCCACTCACAGGTTCCCAGTGAGGCAGGATCTCTGGGCAGTTCCTTAGTAATTGGTGGCTCTGTGACTTCCTTCCCCCAATCACCTTGAC
CATCTAGTCTGGACAATATGAGCGCCCATGACGTGAGGACAGCCTTGTAAACAGGGTGGCCTGGCTGGAAAGCCTTGTCCAAAAGGCACAACAGTGACTA
CACTGAACCCATCCCATGCATCCTTTTGAGAGTTAGAAGGAGGCAATTGCAAGCCGGCTGCAAAAGAAAAAAGACACCAGAGACTTAGAAACCAGTGAAG
CCACGCTGAAGATGCAGACAGAGAGCTAGAGACAAGGTCAGGGGCCTCTGTTGCACTCCAGACCCGGTCCGGAGGCTTTTCCATGCTTAGGGGCAAGGAT
TGTCAGGGTTCTGCTGTCCCTTTCTTTAACCTCCTTTATGATTCCCCAAGAGCATCCTGAGTGCACCTCCACTCCCTGCCACCAGGGGTCAGATGAGCCG
GCCTGGCAGGCTTGTTTCCCTCCACCAGACAACAGCAAGGACCAAGATTGGCAAAGTGACACATCCTCTCCAAAAGAAGAACATGCAGAACAAATCAAAG
AACACAAACCACGACTGACAAACACAGCCACACTCGATTTTAAAGTACTGAGCTGTTTGAAGAAAGGAAGCATGGCAAGGCCCCTTCCTACTAATAACAG
TAACAACAATAATACTAAATATTTTATAATAATTTTAAATTCTTAATTATTTATGATATTTCCCTCCATTAACATCACGAACATCATTACGTGTGTGTGT
GTATTTTTCTCATTTTAAAACCAGCAGATGAGAGTAAAGGATTTCTTTTTCCTCTCCCCCACCTCTTTACAGGACCTACTGTTAAGTTTTCAAGACCACC
CAGAAAGAAATTTGAAGTTGGGTTTATATCCTTAATCCCTCAGTTAGAAAAAAAAGAAAAGTGAAGAAACTGCATCTCCAAGATCCTGCTATATCAACTT
CAGTTTTTTGAAGTTAAATTTGATTTTTAAATCCCTTGGCTGATGAGACCTGTGTGGGTTTTTTTTTTGTTGTTTTTTTGTTTTGTTTTGTTTTGTTTTA
TCATTGTACCTCTATTTTAAAAATAGAGACTTGTGGTTCTTTTTCCAAAAGCAGTCCAACAGAAAGTGAATGGTGGTCAATGCATAATAAAATGAGAGTT
ACCTTTTGACTTGGAAGAATTATTAGCATTTTGATTTGATGGGTTCTTAGCTCTTCAAATTCAAAAATACCTTATTCAAGTCTAGGAGTTTTGCAAATAC
TTCGGTTCTAAAGATTACCCTTTTTCGATGCTTTGAAAACTAAAAGGGCATATCAGAATAGAAATCTGGCTGTTGAATAACTTGTAAGCTCTGCAGAGAC
GTACAAAAACATGGCCACTTTAGCCAGCAGTGTGGCGAAAGTCTGGGGCCCACACTACACACACACATATGAACTTCTCATGACCCTCAAGTATATTCAC
ATGATATATCACAAATACCATAAAGCAGCATTGTAATTACAGGGAGGAATTGATTTTAAAAGGCCTACATCAAAATTAATAGTCATAAAAGTATAATAAC
CTAGACTGGAAAATTTAGGGATTAGAGCATTTTGAACATTATACCTCAAATTTATAAAGGCTGTATATTAGCATTCACAAAGGTTTTTAAAGATGGAATA
GCTATGTACACAGTGAATTTATTCTAAAATCCAGACTCAAAAAAAAAATGAATATGAACTCCTCCCCACCGTGTTCTGGACTAAAATCAATAAGTTCCCT
TTAGGTAATTAAAATGCTGGTCCCACGACCTGCCATCCTATTCCCAGGCTTAGAATGTTAGGAACACTGTTTCTGCTTTGAGAATGGAAGAGAGCAGGTT
ACCCTGATGCCTCTGGGGCCAAACACAGGGGATACATTTTCCCAGTAGAAGAAATCAGCCCTGATCCTCAAGAAGAAGAACATATTGGCATATTTTAGTG
AGACGGAGGCATACTGCATCTTGGGGTAAAAACTGAATCATCAGGCCAGGCACGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGACAGGC
GGATCACCAGGTCAGGAGATCTAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAACTACAAAAAAATTAGCCAGGTGTAGTGGCAGGCGC
CTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAATGAGCCGAGATCGCGATAGTGCACTCCAGCCT
GGGCAAAAGAGCAAGAATCCATCTCAAAAAAAAAAAAAAAAAATTTAATCATCAAAGGAAAATGTTTCAAATTCTAGGGTAAGCTGACATGGTACACATA
TACAGCGAAATACACCCAGGGAGGCTGAAAGTCCAATAGGCCACCACAGCACGTTAAAAATGTCCTGTTTTACCTATAGTCAACAATAATAATAAATTAT
ATATTTAAAAATTTGTTAAAAGGGTAGGTCTCATGTTAAGTGTTTTTACCACAATAAAATATTTGTTTAATGTCCTCTACATGGCTATTATGATTGGAAA
AGGCATACCTTGAACAGAGATGAATAAATCTGCATATCTGTGAAATGTCAGTTCAGCATGTTGATCGTCAGTAATCTTTTCAGAACATTTCAGATATATG
AAAATAGCACCAATGTCTGAGTTTGAACCTGAACTGGTTTCAGCTAAAGTGATCATCTTCAGCCAAAATAATGGGTATTTCTTTCTTGGCCTTCCTTCTA
CAGACTTCTAAAAGACAGTGGAAGCACTGAATATCCTTTTAGAAACAAACAATTACAAATTAGCTGGGCATGGTGGCGCACGCCTGTAGTCCCAGCAACT
TGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGATTGCAGTTAGCCGAAATAGCACCACTGCACTCCAGCCCGGTGACAGAGCGAGACT
CCATCTTAAAAAAAAAGAAAAGAAAAGAAAAGAAAGAAAAAGAAAAACAGCTACAGATATTCATTCCTTTTTAATTTCTTGATAAATAATAGACCAGTAA
GAATCACATAAGAAGCAGTCTACATTTTTCAAAGAGTTTTTACAGATCCCATTTGATCTTCAAAAGGGCCTCCATTAGGAAAAACTAAATTCAAGTTTAA
AACTATCCATTTTATTTCTCCCATAAAAATATATTCAGCCCCTGGAGATAATCTCCAAATTCCTCAGATTTTAAAAGTTAATTTTTCTTATCTTGACCCA
AAATCTGTAGAAACAAGGATTTTTCACCAACAGTGAGCTCCCTTTTCATAAAATCCTTATCTACCAAGATTTACCTCTGCAAACCTCTACAGTCCCTGGT
TGTGAGCCCCTGATGGAAGAAGCTAGCATAAAGAAGTTCACAACTACTGGGGAGGGAACGACCTGACAAGTTGCAAGCAAGAAAGGAGTGAAAAACTGAG
TTAATTGTACAAGAATTTGTGTATTTATAAATGCAGGATAAATAAGATCACGTAGAAACTCTCTTTAGACTTCCATCCTTACTGCTGTAATTGAACGAAC
AGACGAATGTGTTTGACCGCAATTGCCCTAATACTATTTTTCCCATAAATACCTGAAATTCTTCAATTGTAAGTTTTCCTACTCTGGCAATTTTAAGGAA
AGTGATTCTTGAGGCTGTGGGTGAAATACCACATTCATTTTTTTTAAAAAAATAAGGTATACTTACTTGTACTTTCTACCATTTTATATATATTCTCTGT
TTAAATTGTGTAGCCCCTAATAGACTGCAAAGACAATGATAAAAAGGAACTTGCCTTATTCACAGGTACATCCTTGGAACTTAGTAAAGGGCTTAACCTC
CATAGCAGGCAGTCAAGACTTACTGAATGATTAAATAAAAACACTGAATTCCATATTGTGCAGGAAAAAAAAAATCAAGATTAGACCTCAGAAAAAATTG
ACATGTCTAGTAGAACTTACTATCTGGGCAAACTTGAAGAGAAGTGCAATGGGAAGGCCTCCTCAAAAAAGACATTGAAATCAAGATGGGACCCGTTCCT
ACCCTGGATTTCTCTGAATCAGCTACTCCTTAAGTTCGTATTTTGTTCCACTCAGCCAATGGCAATTCCAGGAGAGAGGCAATTGATAATAATTATGTTT
TCTGCCTTCTCTTGGGTTATGAATTTATCATGATGCAAAAGTCGAGCTACTCCGATGCCACGTTAACAATGAAAAACACCATAAAGACAAAAAGAAACTG
AATTTAAGCATTTGGATTCTGCAGAGGAGTTTATTGAACAGATTAACTAAGGAAAGGCAAAGCTACACAATTATGGAAAACAGGTAGCAACACTCAGGCT
GACTATTTTCGATGGCCACCTGAGAGCGGATTTCCAATGCCCTCATTTCTGTAGGTACATTATCCTGTGTTTTATTGTTAGTCACAGCTGCAAGTTGATT
AATTTGCATTCAGAAATTCTAAGTGGCAAATGTGCAATGCATAGTAATATACATTTTTTTATGGACACTGTGAAAATGCCGAAGCCACATCTCATAAGTA
ACTCTTGCTCAACCAGTGAGTAAAATCCATAAAAGAGTTTGCAAAAGGCTTTGAAAGAGTTTGGTTTGAAAGGAAAACTGCAAGAGCAAATCCCTCTCCT
CCACCCCAGCCCTTAAAAAACAAAACTAAACTAAGTCTGAAGCAAAACCAAACAAAGAGAACAGTTGGGTGATGTCAAGCTGCCAGAATCATAAATGTTG
TCAGTTCACGTCCCAGTCTTCCTGCTCTCTTGGCATTGCCAATAAAATCCAGAAACACCAGGGATGACTCAGTACCACAGTCAGTGCGTAAATAAGGGAT
AAAGATACCTGTTAAATCCATTGCCTCAAAGCAATCATGGGAGTTTCTTAAGAATACTGAACCTCCTCTCCGTTTTCTGCACTAAAGAGATAAGGAGTGG
CATGGAGAATCTAAATGTGTGGAAAATATATATCATTGGTGTGAGAACACATATTGTGATAGGTGTTCCCCTCCATCAGCCCCCTAGTCTATACTCCTAG
CTGCTTTATCTTCCAGATCATGCCTCCCCTGCTCAAAGTGAATTTGCCTTCCCTTTCACACTGACCTTAGAAGTGGATCTGAGACCATGCTTCCTAGCAG
GAGAAAACAACTTTTCCATTTGAAAACCTTTGCGAATTACCCACAACTCTGACAACAGGTGCTCAGCAGTTGATAGTATTCTTTTTGGAAAGTTTTATCA
ACCACTTAAGTTAACTTGAAGACGCCTAACAGCAGGATATGGTCAAGCAAACATGTTCATCAATTAATTCAAATGCAATTTTAGTTTACTTTTATATGAT
TTCCCATGCTTAAAACTACTAATTGCTTTCCCAGGCTGGCTGCATGAACATGGCCCAATCAAAGGATGCAACAGTCAAATGCTTGTGTACATCATGTTAC
CTGTCCATTTCCATCAGAGACATCATGGACACAGCTGAAATACTAGGCCTGGCCTTTTGTAAGTTCATTAGAGCATCACAAACATAACTGCAGCTATTCT
CACTGTTTGTGACTCTGTGATTCAAATGTTTTCACAAACCTTCCCTGGCACTGCGTATTAGATGGATTGAAAGATGCTGAAACGTAAGGCCGGGCACGGT
AGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGAGGATTGCTAGAGCCCAGGAGATCGAGACCAGCCTAGGCAACATGGTAAAACCCCAT
CTCTACAAAAAATATAAAAATTAGCTGGGTGTGGTGGCATGCACCTGTAGTCCCAGCTACTAGGGAGGCTGTTGCAGAAGGATCGCTTGAGCCCCAGAGG
TCGAGGCTGCAGTGAGCCATGGTCATGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGATCCTGTTTAGAAAAAAAAAGAAAGAAAGATGTTGAACTAT
ACACAAGAAATGAAAAGAAATAGCTGAGATATGGCTCTTGGGGAGAAAGAACAAAGCATCAACTAATAGAATTCAGAAAGAAAAGGAGGTACTCATCAAG
GCACTCTGCTAAGGTTTGACTAATGGGATTCCACATGGTCTGCATGTTTATGGCTTAAATGAGCTACCAACACTGAAACTGTCCACTTAATTAGCCCCCA
AAACAAGAAGTACAGACTGTGAGTCTGAGACCTACAGAGACTCCAAAAACAGAAACTACCATCGCCTCAAGCTAATCACTCTAAGTCCTAGAAATACATC
TGAGGTTGCAAACAGTCCATTTCATTCATTATTTTATATATATATATATATATCTATATAGATATAGATAAATATATATACAGATATACATATAGAGAGA
GAGAGATAAAACAGAAAAAATCTAAATGTCTAAAGGACCAGATATAAGTTAATCATAAAACGATGACAACAAAAACAAAGGCTTCTTGAGTTAAAAAGAA
TGGAAAATATTTAACTAGAGTTAAAAAGAAAAGCAATTTGATCAAGAGTCAGGAATTGTAGGTTCTAGTCCTGGCTCTTTTTATTCTTTTTATTTATTCC
TGTTTTTTTTTTCATTT


SNP Information

Context             (SEQ ID NO:56900):
GGGACAAATAAGAAGAACAAAGGCAGACGTGGAGATGATAGTAGGGGTTGCCAAGCTTTCTGGAAAGGAGCAGAGAGTATTTTAGGCTTTATGGGCCATA
Y
AGTCTCCATCCCAACTACTCAACTTTGCTGGCATAGTGCAAAAGTAGCCACAGATAGCTTATAAATGAAGGTGTGTAGGGCTGTGTTCCAATAAAACTAC
Celera SNP ID:            hCV2857907
SNP Position Genomic:     22961
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3)   his(T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56901):
GGGCAGCACGAGCACAGTCAAACCAGAATGGCTGCTGCAGGAGCCATCAGCATGACTGTGTGGCAGCTGCTCACAGAGCAGGGACTAACATGGGAACCAG
R
CTAGCTTTTGCGTCCCTTTCTGAGTCTCCAGTCTATCCGGGTTTGCAGAACATTAATCAAGGTTAATTAGGCCCACCTGTGACATAAAAATTTCTACCTA
Celera SNP ID:            hCV2857908
SNP Position Genomic:     20020
SNP Source:               Celera
Population(Allele,Count): cau(G,8|A,1)   afr(G,8)   total(G,16|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56902):
CTTTTTCTATGAACCAATCAAGCAGATTTATGTATTTTTTTCAGTGCCGTAAAAAAAATTTGATGATTTTGAGGCTTAACATCAAATACCAGTGAGATCA
M
AAGTTAGATATGACATCATACACATCATTTCTGCTGAAAAAGTACCTTTAGTTAAAAACAGAAACCAATTTGTAAATGTGAATTAAATGCATACTCCACA
Celera SNP ID:            hCV2857909
SNP Position Genomic:     19329
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   his(A,1)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56903):
TGTGAAGGGTCTACACGTTCAACCTCTTCCTTGTAAGTTAATGAGTTAGCTACCAAGTTTTGAGGAAGCTAGCAGAAAACAGGAGACCCAGGATCAGATA
Y
AGAGGACTTCGTTACTCATGGCAGAGCAAACAGCATGAGCTTTATTTCTGCACTGATTCCCATTGCCCTGGCCCCTAGTCCCACAGGGAGGATGTGGAAC
Celera SNP ID:            hCV25962773
SNP Position Genomic:     18774
SNP Source:               Applera
Population(Allele,Count): afr(C,37|T,1)   cau(C,38|T,2)   total(C,75|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:56904):
GTAAACTACTTGAAGGCAATTCCTGTGCTTAAAATGGCCACGTGAAAGGTGTCCCTGACATGGAAAGGACAAACCATGAAATGACCCTTGAAGCTCTTAA
K
GTGTCTGTCAAAAAAGCAAAGCCAACTGTCAAACTGAAAAGCCAAAATCATCACAAAAACACCTATTCTTCAGAGGCCTCAAATCTCAAACTATCTCCCA
Celera SNP ID:            hCV3285583
SNP Position Genomic:     53035
SNP Source:               Celera
Population(Allele,Count): chn(T,4)   cau(T,4|G,3)   afr(T,4)   total(G,3|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56905):
TCCCATCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGGGCCCAGCCGTAGGAACACAGATATTATCATCATGGGACAAGTCATCCATTC
Y
CAGATTCCATGACCCTCTCTGGTGTCCACTGTGGATTTCAGCACATGTTTAACTATGAAACTCTAGTCACGCTTTTTGATATACAGGTTCATGGTTACTA
Celera SNP ID:            hCV3285584
SNP Position Genomic:     52719
SNP Source:               Celera
Population(Allele,Count): cau(T,4|C,6)   afr(C,6)   total(C,12|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56906):
CCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACCACACCGGCTAACTTTTGTATTTTTAGTAGAGATAG
S
GTTTCACCATATTGATCAAGGTGGTCTTCAACTCCTGACCTCGTGATCCTCCCATCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGGGC
Celera SNP ID:            hCV3285585
SNP Position Genomic:     52569
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(G,6|C,5)   afr(G,6)   total(G,18|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56907):
TTGATTCATTTGTGGTTTCCTGTTTTCCATAAGGAGATAGTTACAGGATTAAATTTCTCCTCCCTTTTCCCTATGCACTCACACCTGGGTCCCAGGACAG
M
AGGACCAATCGTCAGGAAAATACATCCATACTGCATCCCCTGATACTTCATCTCAGGTTGGGCAGGAGGGTTAGCAGAAGAGTTATTTCCCTTTGCGAAG
Celera SNP ID:            hCV323875
SNP Position Genomic:     9505
SNP Source:               Celera
Population(Allele,Count): cau(C,4|A,1)   his(C,4)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56908):
CTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACCACACCGGCTAA
Y
TTTTGTATTTTTAGTAGAGATAGGGTTTCACCATATTGATCAAGGTGGTCTTCAACTCCTGACCTCGTGATCCTCCCATCTCGGCCTCCCAAAGTGCTGG
Celera SNP ID:            hCV3285586
SNP Position Genomic:     52545
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(T,4|C,6)   afr(C,6)   total(C,18|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56909):
TGGGACCAAGTGAAAGCACTTGGCTGGATCAGAGGGATAGGAGCCTGGCTGCTCCTAAAACAAGACACTACTTGCCTTTGATGTTCAAGTCATTTAAGAA
Y
GCAATTGCTTCCTACTCAATTTTTCAAAACCAAAATAACAAATACGATATGAGCCATAACTTAGCAAAATTACGTGTTTTAAACAGTCTCTTTCAAAAAA
Celera SNP ID:            hCV3285587
SNP Position Genomic:     52049
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(T,1|C,2)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56910):
TTTATGACACTGAAATCAGAATTCCATATCATTTTCCTCCTTCAAGAAATAATATTCTCCTCTTTATTCTTTTTTGCAGATGATTGAAAATGTAAGAACT
R
TTCTGAGCCTGCAGGCCATAGCCAAAGAGGTACCGGCTGTATTTTGTCCATGGGCAGGAGCTTGTGACTGCTGGTCTAGGTCATTCCAGGTCAACCAGGG
Celera SNP ID:            hCV3285588
SNP Position Genomic:     51809
SNP Source:               Celera
Population(Allele,Count): cau(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:56911):
TCATGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGCGCACACCACCATACCCAGCTAATTTTGTTATTTTTAGTAGAGATAGGGTTTCACCATGTTGGC
Y
AGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACTGTGCCCGGCTGGCTTTCAT
Celera SNP ID:            hCV2813384
SNP Position Genomic:     46655
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   his(C,2)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56912):
AAACGTGACTCAAGATGGCACAGAACAGCGTCCACAGATGTATTCTTGGTTACTTAAAAACACAATTTAAAGTAATTAGCTTAATGTTGATGTAATTCTA
R
AGATCGATAAATAAACCTAAAAATCTTAATTTGATATTGAATCGCCCCAAATTAAACAACATATTTTCAAACCACTAAATATTGATTCATTTGTAAGATG
Celera SNP ID:            hCV2857910
SNP Position Genomic:     18307
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   afr(G,3)   his(A,1)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56913):
CTGAAGTGCCAGTCCAATTCATCCTCCAGCATAGCACCACTGACTGACCCCAGTCAACACCACAAGGGGCAGAAGAGTCACTCCACTGAGCCCTAACTTA
S
AGAAATCACAAGATAAAACAAAATGGTTGTTGTTTTAAGCCTCTAAGTTTTGGGGTAATGTATTATGCGGCTATACATAAATTGGAACATCCACGTTTTA
Celera SNP ID:            hCV2857911
SNP Position Genomic:     17239
SNP Source:               Celera
Population(Allele,Count): cau(G,3|C,1)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56914):
GGACCAGCTGAAGTGCCAGTCCAATTCATCCTCCAGCATAGCACCACTGACTGACCCCAGTCAACACCACAAGGGGCAGAAGAGTCACTCCACTGAGCCC
Y
AACTTAGAGAAATCACAAGATAAAACAAAATGGTTGTTGTTTTAAGCCTCTAAGTTTTGGGGTAATGTATTATGCGGCTATACATAAATTGGAACATCCA
Celera SNP ID:            hCV2857912
SNP Position Genomic:     17232
SNP Source:               Celera
Population(Allele,Count): cau(T,3|C,1)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56915):
TACTTTCTTTTGGAATCCTCTGGGAGCCCTGAGCCACCATGTAAGAAATCTGATGGCCCTATATCTGCCATGCAGGAAAGGCCATGTGTAGGGCTCTGGG
Y
AAGAGTCCCTCAGCTGAGCCAAGCATCCCAGTCATCCTCGTGAAAGTGCCAGACCCATGGGTGACCATCCTGGACCAGCTGAAGTGCCAGTCCAATTCAT
Celera SNP ID:            hCV2857913
SNP Position Genomic:     17060
SNP Source:               Celera
Population(Allele,Count): cau(T,2|C,1)   his(T,2)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56916):
CAATAAAAAAAGTGATCTATTCTGAGTTCCATACCACCCCAAAACACTGATCAGCTTGGGGAAACTTAGAAAGTTCAACCACCTGGGGATAAAGTTTGGA
M
AACTAGGCTAGGGCCAATTCAGGGTACAGGTGGAGGCTAGGAAGTTTGGCATAGGATATCATTAAAGGTCTTCTAAGGATGAAGGCAATTGGAGCTACAC
Celera SNP ID:            hCV2857914
SNP Position Genomic:     16103
SNP Source:               Celera
Population(Allele,Count): chn(A,7)   cau(C,1|A,7)   total(A,14|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56917):
GGGACAGGTCAAGGAAGGTATTACCTCTGCATAGTTCTAGGTGTCCTGCTTAACTCATTCAGGAATTTCGGGCCAGAGGGATATCCAACAGGAATTCTAA
M
CTGAAGAGTTTAGAAACCAGTAGGAGAATCAGGATGAATTCAGAAATTACTATAATATGCATTTTCAAGTGATAAATCCCATCAAAAACAGAAAAAGTGC
Celera SNP ID:            hCV2857915
SNP Position Genomic:     14961
SNP Source:               Celera
Population(Allele,Count): cau(C,3|A,1)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56918):
AAACTGACCCAGAAAAGGGACAGGTCAAGGAAGGTATTACCTCTGCATAGTTCTAGGTGTCCTGCTTAACTCATTCAGGAATTTCGGGCCAGAGGGATAT
Y
CAACAGGAATTCTAACCTGAAGAGTTTAGAAACCAGTAGGAGAATCAGGATGAATTCAGAAATTACTATAATATGCATTTTCAAGTGATAAATCCCATCA
Celera SNP ID:            hCV2857916
SNP Position Genomic:     14945
SNP Source:               Celera
Population(Allele,Count): cau(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56919):
GAAATCATGAAGGGCAAACTGACCCAGAAAAGGGACAGGTCAAGGAAGGTATTACCTCTGCATAGTTCTAGGTGTCCTGCTTAACTCATTCAGGAATTTC
R
GGCCAGAGGGATATCCAACAGGAATTCTAACCTGAAGAGTTTAGAAACCAGTAGGAGAATCAGGATGAATTCAGAAATTACTATAATATGCATTTTCAAG
Celera SNP ID:            hCV2857917
SNP Position Genomic:     14930
SNP Source:               Celera
Population(Allele,Count): cau(G,2|A,1)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56920):
AACTTTCAGACATTAAATATCCTAGCCCCCGTCCCTCACCAAATTGCCAGGTGTGGGTGGAAAGCAACAGATTTTATTTTTAATGGGCTAAAATTTTACA
R
TCTTAAAGCACAATTCATGCAAGCAACTGAGAGATCACAGCTACAAACACTGGACTTTCTATTTTCTCCATGCGATCCCAATTTCAGCTGCAGAGCCAGA
Celera SNP ID:            hCV2857918
SNP Position Genomic:     12679
SNP Source:               Celera
Population(Allele,Count): chn(G,5)   cau(G,5|A,1)   his(G,5)   total(G,15|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56921):
GAGCACAGGTCAGAAGGATGAATACACAGAGGGAGAAAACTGCAACTTCCCTCAAGGAGAGAATGCTAGAAATGGCAATGGGCAGGAAAGAAAGGATCCT
K
ACATCATTTTATAGAGAGTCGTTCATCCCTTACACAAACCTGGCCAAAAATCTACAGAATGCTGAGGAAACACGGCTATTCAACAAGAAAATCGGAGCTT
Celera SNP ID:            hCV2857919
SNP Position Genomic:     12047
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   his(G,1)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56922):
ATATTTATTAAATATCCCATCACAGAGAAACTTTGCTGACTCTTGCACAAAACTTCGCATTTTGTCAGCCAGTAATGACCCTTTCCTCTTAAGCTAGTTT
R
AATTTGGAGCTTTTTGTGTGTAAGAGGAAACTCCTGATCTACTAAAAGAAAAAGCTATTCTTAGTCCTTCCCAGATATCCCTGAACCTCCACCCACCCAG
Celera SNP ID:            hCV8031260
SNP Position Genomic:     7926
SNP Source:               Celera
Population(Allele,Count): cau(G,1|A,6)   his(A,6)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56923):
CTCTGAGCTGTGAACACACTACTGCACTCCAGCCTGGGTGATGAAGTGAGACCTTGCCTCAAAAAAACAAACAAAACAAAATGAACATTCACACTAGAAA
S
GAGAAACAGGGACGCTAAAGCTGAAGTCAAATTTCACCACCAAATAAATTTGCTATAAATATACAATAAATTTGTTTTTGCTTTTCAGATCTCTTTGGGT
Celera SNP ID:            hCV3285590
SNP Position Genomic:     51193
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   afr(C,2)   his(C,2)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56924):
GTGGGGAATGAGGAGAGTAAACAGCAGTGCCTCCCACGGAGCTCCCTGCAGGTTCTCCTTGTAGGAGTGAGATTTTGCTGGTGATTTATATTGTTTGAGA
S
ATACCCAAAGAGTCTTGTGTCACTCAATCCCCAGCTCCATCCCTGGCTCGGAGGAGCCTGCACCGCCTCACGGGAGCCTGTAACTGTCAAATGGCATTCC
Celera SNP ID:            hCV8709614
SNP Position Genomic:     31988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56925):
TACAAAATTAGCCGGGTGTGGTGGCACATGTCTGTAATCCCAGCTACTCGGGAGGCTGCGGCAGGAGAATCGCTTGAACCTGGGAGGTAGAGATCACGGC
R
AGCCAAGATCACACCACTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAACAACAACAAAAAAAGTAATTTAGCACATATACTGCATATTAC
Celera SNP ID:            hCV3285591
SNP Position Genomic:     50777
SNP Source:               Celera
Population(Allele,Count): cau(G,3|A,6)   his(G,3)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56926):
CATTGCCCTGGCCCCTAGTCCCACAGGGAGGATGTGGAACAGCCCGGTAGATGCCGTGCTCATAGTACGTTTCAGTCATGGCTGAGGAGCCCCAAGCTTA
S
AAACCCCAACCTTTATCAAGCAAATCTGCCAAACCGTTGTCCTGGAAGGAGGCACTGTCTTTATTATACTGGAAAGAAAGCCATCCTGTCCTCTGCTCCT
Celera SNP ID:            hCV25963875
SNP Position Genomic:     18935
SNP Source:               Applera
Population(Allele,Count): afr(C,14|G,22)   cau(G,28)   total(C,14|G,50)
SNP Type:                 INTRON


Context             (SEQ ID NO:56927):
TCTTCCTTGTAAGTTAATGAGTTAGCTACCAAGTTTTGAGGAAGCTAGCAGAAAACAGGAGACCCAGGATCAGATACAGAGGACTTCGTTACTCATGGCA
S
AGCAAACAGCATGAGCTTTATTTCTGCACTGATTCCCATTGCCCTGGCCCCTAGTCCCACAGGGAGGATGTGGAACAGCCCGGTAGATGCCGTGCTCATA
Celera SNP ID:            hCV25963222
SNP Position Genomic:     18798
SNP Source:               Applera
Population(Allele,Count): afr(G,38)   cau(C,1|G,39)   total(C,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:56928):
GGAGGTCAGGACGTTGAGAGATCCCCAAATTGCAAGTTGTCATCCTGAGACAAGCGATACCTTGCTGGACACTAATTCATTCTTGGAGTCTCTCCCTCTC
R
GCCCTTTGGCTTCATGTTCTGGAGAGAATGACCAGAGAGACCCATTTACTCAACGCTTCTCAATGAGACAGGGATCTTCTAAAGGGCACTGTCTTATATA
Celera SNP ID:            hCV3285592
SNP Position Genomic:     48574
SNP Source:               Celera
Population(Allele,Count): chn(A,7)   cau(G,1|A,7)   afr(A,7)   total(G,1|A,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56929):
AGCCGAGATGGCGCCACTGCACTCCAGCCTGGGTGACAAGAGTAAAACTCCCTCTCAAAACAAACAAACAAACCAAAAAAACAAATAGCAACAGCAACCA
Y
AATCATCATCACCATCAAGGCTGGAACAAGGATGAGGCAGGCAGGCTCTGATAGCAACAGGAGGAAGCAGACCAAGGAGGGAGAGAAAGGAAGGCAGAGA
Celera SNP ID:            hCV3285593
SNP Position Genomic:     48071
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4)   afr(T,1)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56930):
TGAATCTGAGCAATGATGTCATAATAATCATCAATAGCAACAGTGGCTGCGCGTGAGGGGCGTGGTGGTTCACGCCTGTAATCCCAACACTTTGGGAAGC
Y
GAGGTGGGCAGATCATTTGAGCTGAGGAGTTCAAGACCAGCCTGGACAACATGCTGAAACCCCATCTCTACTAAAACTACAAAGAATTAGCCAGGCATGG
Celera SNP ID:            hCV3285594
SNP Position Genomic:     47780
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(T,2|C,4)   his(C,4)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56931):
GACAGATAATAAATACCCCTCATCAGCTGATCAATTGCTCGCACTTCCAGGCAAGCACCCATCACTCCCCACCAAACACACCGCCCCACGCCACCTGAAC
R
AGGTTAAAAGAACGGACTCATGACTGATGGTCGGGGGGAACTGGCTTCAGAAGAGGAAGTTGAAAATATTAAGAAATCAACACGGGCATTTAAAAGCAAA
Celera SNP ID:            hCV2857888
SNP Position Genomic:     42708
SNP Source:               Celera
Population(Allele,Count): cau(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56932):
CCTCAAACCCTGGTTCCACGTCTCCCTCACTCAAGGATTTATGTCTCATTTTCAATGGAATGTTACATTTGGTCAGACCACGAAGAAAACTCCTCATTAT
R
AACTAGGAAATGTGTGGAGAGAGAATTATTTACCCAAGGCAGTGCTCAATCAGTGTTGCCCGAATATTTATTTAGCCCACACACGGAGAAGTTGTGTTAA
Celera SNP ID:            hCV3285595
SNP Position Genomic:     46985
SNP Source:               Celera
Population(Allele,Count): chn(A,8)   cau(G,1|A,8)   his(A,8)   total(G,1|A,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56933):
ACCCAGTCTGCTGGGATCCTGATATAGTTTGGATATTTGTCCCCGCTCAAATCTCATGTTGAAACATGTCCGTAATGGGAGGTATTTGAATCACTGGGGC
R
GAGCCCTCATGGCTTGGCGCTGTCTTCACCATAGTGAGTGAGATCTCTGGAGATCTGGTCATTTTAACCCTTTTCCCATTTGCCCCAAGAATACTTACTG
Celera SNP ID:            hCV8031266
SNP Position Genomic:     8121
SNP Source:               Celera
Population(Allele,Count): cau(G,4|A,2)   his(A,2)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56934):
CTGGGGTCCAAGGATTTATTTCCTCTCTCGGGAGTCAGGGACAGATAATAAATACCCCTCATCAGCTGATCAATTGCTCGCACTTCCAGGCAAGCACCCA
K
CACTCCCCACCAAACACACCGCCCCACGCCACCTGAACAAGGTTAAAAGAACGGACTCATGACTGATGGTCGGGGGGAACTGGCTTCAGAAGAGGAAGTT
Celera SNP ID:            hCV2857889
SNP Position Genomic:     42669
SNP Source:               Celera
Population(Allele,Count): cau(T,4|G,1)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56935):
AACCCCCATCGGGAAGAGACTATTATCATCTCCTTATCACCCACAGGGATGCTGAGGTTACGAGGTATCAAGGGACCTACCCACCATTGCACAGGCAGAA
M
ACAGGAGAGCCAAGACTGACACCCCCAGCAGGAGGTGTTCCAGCCACCTTGGACACCTTCCACCACAGGCTGAGCCGCAGTGAAGGGCTTTCAGAGGGGC
Celera SNP ID:            hCV3285596
SNP Position Genomic:     45360
SNP Source:               Celera
Population(Allele,Count): chn(A,5)   cau(C,5|A,5)   total(A,10|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56936):
TGGAGTTAGCCTTTGGGCCATAATTGGTTCATTCCTACCTTTTCATAATCTCAGTTATTGATCAGGTGATTTTTCAAACTGTGAAGGGTCTACACGTTCA
M
CCTCTTCCTTGTAAGTTAATGAGTTAGCTACCAAGTTTTGAGGAAGCTAGCAGAAAACAGGAGACCCAGGATCAGATACAGAGGACTTCGTTACTCATGG
Celera SNP ID:            hCV25962604
SNP Position Genomic:     18695
SNP Source:               Applera
Population(Allele,Count): afr(A,3|C,15)   cau(A,3|C,35)   total(A,6|C,50)
SNP Type:                 INTRON


Context             (SEQ ID NO:56937):
AATCAGTCAGACTTTGAATCATTCCTGCAGCCTCTGAACATTTACCATGGAGCTCAATAAGCCAGGCAAGAACACAGATTTTTTTTTTTTTTTTTTTTTT
T
GAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCA
Celera SNP ID:            hCV11514321
SNP Position Genomic:     52396
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(-,8)   afr(T,2)   total(T,4|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56938):
GAGCAAACAGCATGAGCTTTATTTCTGCACTGATTCCCATTGCCCTGGCCCCTAGTCCCACAGGGAGGATGTGGAACAGCCCGGTAGATGCCGTGCTCAT
R
GTACGTTTCAGTCATGGCTGAGGAGCCCCAAGCTTACAAACCCCAACCTTTATCAAGCAAATCTGCCAAACCGTTGTCCTGGAAGGAGGCACTGTCTTTA
Celera SNP ID:            hCV25963804
SNP Position Genomic:     18898
SNP Source:               Applera
Population(Allele,Count): afr(A,35|G,1)   cau(A,38)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:56939):
ACTAAAAGAAAAAGCTATTCTTAGTCCTTCCCAGATATCCCTGAACCTCCACCCACCCAGTCTGCTGGGATCCTGATATAGTTTGGATATTTGTCCCCGC
Y
CAAATCTCATGTTGAAACATGTCCGTAATGGGAGGTATTTGAATCACTGGGGCGGAGCCCTCATGGCTTGGCGCTGTCTTCACCATAGTGAGTGAGATCT
Celera SNP ID:            hCV2857920
SNP Position Genomic:     8067
SNP Source:               Celera
Population(Allele,Count): cau(T,5|C,2)   his(C,2)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56940):
AACCTCCACCTCCCGGGTTCGAGTGATTCTCCTGCCTCAGCCTCCCCAATAGCTGGGATTACAGGCACGCCACCACACCCAGCTAATTTTTGTATGTTTG
S
TACAGACGGGGTTTCACCATGTTGCCCAGGCTAGGTTCAAACTCCTGACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGGGCAGAGATAACTAATTT
Celera SNP ID:            hCV11511382
SNP Position Genomic:     28747
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(G,1|C,2)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56941):
TCTACTAAAAGAAAAAGCTATTCTTAGTCCTTCCCAGATATCCCTGAACCTCCACCCACCCAGTCTGCTGGGATCCTGATATAGTTTGGATATTTGTCCC
Y
GCTCAAATCTCATGTTGAAACATGTCCGTAATGGGAGGTATTTGAATCACTGGGGCGGAGCCCTCATGGCTTGGCGCTGTCTTCACCATAGTGAGTGAGA
Celera SNP ID:            hCV2857921
SNP Position Genomic:     8064
SNP Source:               Celera
Population(Allele,Count): cau(T,2|C,6)   his(T,2)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56942):
AATTTATATTTAAATTTTAATCAATAACTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTACTCTGTTTCCCAAGCTGGAGTGCAGTGGTGTGATCTCG
R
CTCACTGCAACCTCCACCTCCCGGGTTCGAGTGATTCTCCTGCCTCAGCCTCCCCAATAGCTGGGATTACAGGCACGCCACCACACCCAGCTAATTTTTG
Celera SNP ID:            hCV11511383
SNP Position Genomic:     28638
SNP Source:               Celera
Population(Allele,Count): chn(G,4|A,1)   cau(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56943):
GTGACACATGAAAATGTATATGAAATTCAAATTCCAGTATCCATAAATAAAGTTTCTCGCAGCCATGCCTGCTCCTTTACATATCGTTTATGCCTGTTTT
Y
GCACTATGAGGGCAGAGTTGAGTAGTTGGCAACAAACACTACAAGGCCCCAAAATATTTATTAAATATCCCATCACAGAGAAACTTTGCTGACTCTTGCA
Celera SNP ID:            hCV2857922
SNP Position Genomic:     7772
SNP Source:               Celera
Population(Allele,Count): chn(T,4)   cau(T,4|C,2)   his(C,2)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56944):
TTCTGCACTGATTCCCATTGCCCTGGCCCCTAGTCCCACAGGGAGGATGTGGAACAGCCCGGTAGATGCCGTGCTCATAGTACGTTTCAGTCATGGCTGA
R
GAGCCCCAAGCTTACAAACCCCAACCTTTATCAAGCAAATCTGCCAAACCGTTGTCCTGGAAGGAGGCACTGTCTTTATTATACTGGAAAGAAAGCCATC
Celera SNP ID:            hCV25963840
SNP Position Genomic:     18920
SNP Source:               Applera
Population(Allele,Count): afr(A,1|G,35)   cau(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:56945):
CTCCTTCTCTCTTAAAAAAGAAGGAACATGATATGCCACTTGCAAGATTAGGATATTCTGTTTAAAAAGAGGGGATAATTTAAGCAGGGCTGGCGGTGGG
R
GCGGGGAGACAATGGAAAAGGCTGACATCTCCTGAGCATGGCTCAAGAAGGCATAATTCTTCCGCATGTATAAGAATAAAACCTCTTAACTCATCTCCCA
Celera SNP ID:            hCV11511385
SNP Position Genomic:     25139
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56946):
GGGAAAGAATAATATTTTGTGACACATGAAAATGTATATGAAATTCAAATTCCAGTATCCATAAATAAAGTTTCTCGCAGCCATGCCTGCTCCTTTACAT
R
TCGTTTATGCCTGTTTTTGCACTATGAGGGCAGAGTTGAGTAGTTGGCAACAAACACTACAAGGCCCCAAAATATTTATTAAATATCCCATCACAGAGAA
Celera SNP ID:            hCV2857923
SNP Position Genomic:     7754
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(G,2|A,4)   his(G,2)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56947):
AAAGTTTCAGTTAGCCTCAGTCCCTGATGATCTGCAGGAATTTCTCCTTCTCTCTTAAAAAAGAAGGAACATGATATGCCACTTGCAAGATTAGGATATT
Y
TGTTTAAAAAGAGGGGATAATTTAAGCAGGGCTGGCGGTGGGGGCGGGGAGACAATGGAAAAGGCTGACATCTCCTGAGCATGGCTCAAGAAGGCATAAT
Celera SNP ID:            hCV11511386
SNP Position Genomic:     25096
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56948):
TATCTGTAGTCTCCTGGCTGATGAGGTGTGCAGCCTGGATTAGAACCTCCATCTGCCTGACCTGGCTGCACACAATGCTTGTTAAGTTATCCCGGAAAAC
R
TAAGGCCATACAGGTGTGGCAGACTAATTAAATTCACCATGCTCTTTGGGCTGTGTGACTGCTACCAAAATGTCCTACCCTACCTCACATATTCCCTTGT
Celera SNP ID:            hCV8031302
SNP Position Genomic:     17478
SNP Source:               Celera
Population(Allele,Count): cau(G,6|A,1)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56949):
GCCAAGATGGGACAGTGCTCGTCTGCCAGTGGCAGCCCCATTCGGAGAGAATTTTCCCTTTGAAGAATATAACCCATAAAAGATCATCAAAACTAAGGGA
W
TAAATAAAGAGGGGACCTCGATGACATATTTAAGCTCTGAATAAAGCTAGACTCTAAGCAGGGGTTGGCAAACTATAACCGCTGGGCCAAACACGGCTGT
Celera SNP ID:            hCV2857924
SNP Position Genomic:     7494
SNP Source:               Celera
Population(Allele,Count): chn(A,8)   cau(T,1|A,8)   total(A,16|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56950):
CTGTGGCTTTTGGGCCAAGGGTAGTGGGGAAAACAGCTTCTTGTCACTGGGGGAACAAGCCAAGATGGGACAGTGCTCGTCTGCCAGTGGCAGCCCCATT
Y
GGAGAGAATTTTCCCTTTGAAGAATATAACCCATAAAAGATCATCAAAACTAAGGGAATAAATAAAGAGGGGACCTCGATGACATATTTAAGCTCTGAAT
Celera SNP ID:            hCV2857925
SNP Position Genomic:     7436
SNP Source:               Celera
Population(Allele,Count): chn(C,8)   cau(T,1|C,8)   total(C,16|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56951):
CAAGGGCTGCGCCCGGGAAATGTGGGAGCAAAGGTGCCAGACCTTCCAGTTTTTTAAGAGAAACCAAGAATCCAGGTTTTTATGCGAACTTTAAAAAAAG
R
GGATGTGGGGGTGGGGGCAGCAAACACATGCCTGCAGGCTGAATTCACCACCCCCCTCCACGTTTTAGATCTTATAATTACATCTTCTCTTTAGGATCCT
Celera SNP ID:            hCV11935330
SNP Position Genomic:     14159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56952):
CTAGGCCAATCCTGGTTCTCCCTGTGGCTTTTGGGCCAAGGGTAGTGGGGAAAACAGCTTCTTGTCACTGGGGGAACAAGCCAAGATGGGACAGTGCTCG
Y
CTGCCAGTGGCAGCCCCATTCGGAGAGAATTTTCCCTTTGAAGAATATAACCCATAAAAGATCATCAAAACTAAGGGAATAAATAAAGAGGGGACCTCGA
Celera SNP ID:            hCV2857926
SNP Position Genomic:     7415
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56953):
TAGAAGCTATAGATTTGTGTGTCCAGAATGTTTCCCCAGGTGCCTCCTTTTGCAAAATTGGACCTCATTTTTCCATTAGGGAACGGGGCCTCTCAGACTC
Y
GTGGAGAAGCAGAGAATTATCTCCAGCCTTGACTGCCCAGGCTGCAGAGAACCGCATCATCCGGGGACATGACTGATTCAGGGATAGGTGTCTGCCTAAA
Celera SNP ID:            hCV2857927
SNP Position Genomic:     7213
SNP Source:               Celera
Population(Allele,Count): chn(T,7)   cau(T,7|C,1)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56954):
ACCATAAAAGGATCATAGCAGATTGACGGTAGAAGCTATAGATTTGTGTGTCCAGAATGTTTCCCCAGGTGCCTCCTTTTGCAAAATTGGACCTCATTTT
W
CCATTAGGGAACGGGGCCTCTCAGACTCTGTGGAGAAGCAGAGAATTATCTCCAGCCTTGACTGCCCAGGCTGCAGAGAACCGCATCATCCGGGGACATG
Celera SNP ID:            hCV2857928
SNP Position Genomic:     7184
SNP Source:               Celera
Population(Allele,Count): chn(T,7)   cau(T,7|A,1)   total(A,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56955):
TTGCTGACCACTAGTAAGAGACCATCCAACAGGCTCCTTTCTGAAGCCACATCCCGAAAAGATCCCCTCCTGATGTCTCTAGAAACATGCAAAAATAAAA
Y
TGCAACGTCAGAACCATAAAAGGATCATAGCAGATTGACGGTAGAAGCTATAGATTTGTGTGTCCAGAATGTTTCCCCAGGTGCCTCCTTTTGCAAAATT
Celera SNP ID:            hCV2857929
SNP Position Genomic:     7071
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(T,1|C,6)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56956):
TCCCTCCAGGTGAAGGTAATGATTAAGAACACAGGTCTGGAGTGGGTTTGAATCACTGTGTGTTCAGCCGCTCACTGGGGACCTGGCCTCAGCCCTCTGA
Y
TACTGCAGGGCTTTATTACTTTCTGAGTTCTCTTTGCTATCTCACTCGCCCTTTCCTCCCATTTCTCCTTCTGGTGCCCCTTCTCCCCTTCCAGGCCCCC
Celera SNP ID:            hCV2857890
SNP Position Genomic:     39519
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,1)   cau(T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56957):
ATGTACCCAATAAGCAGTCCTTACAATACCAATAGTTTCTATCTGTTGGGCACTGCCAATTAGCCAGGCATGTCAAATGGAAGATCTCACTTAATCTTGC
M
AAAAAAAAAATGTTGTTCGTTGTTGTTCCTTCTATTACAGAGGAAAAAACAAAGGCAGATGGAGGTTACATTATTTGCCTAAAGTTACACAGCTAGAAAG
Celera SNP ID:            hCV2857891
SNP Position Genomic:     39045
SNP Source:               Celera
Population(Allele,Count): cau(C,2|A,7)   afr(C,2)   total(A,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56958):
TGTTCCCAAAGCATCGGGGTTCAGCGGTAATGTTTTTGAATCTTCTCGGGTGTAAGTAAATATATTTCAGACAGCTTTTAGAATGAAGTTAGCTAGAAGA
R
TTTTGCAGCAATAGAAGCTGATTTGATGTAGACCTTCAGGTTTCTTATCTATTTATTGGTGCTGCTCAGTTGGATGGGAAAGAGAGGAGAAGCTGAGAGA
Celera SNP ID:            hCV2857892
SNP Position Genomic:     37889
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   afr(G,7)   his(G,7|A,1)   total(G,21|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56959):
TCTGCTTAAGCAACAAAGAGAGAAGTAACCGCAAACGCTAATTTATCCAGCGGAATTTACATTTCTCTTTCTCGGCAATATAGTTTCTTAGTGTCTTCCA
M
GTTTTTAAATCCTTTAGGTTTATTCATTATGTTCCTTTTTCCTGCTTCTAAAAGGTAGCTGTTCTTGCCCACTGTTTTGGAAGTAAGAAAACCTAGGAGC
Celera SNP ID:            hCV2857893
SNP Position Genomic:     34116
SNP Source:               Celera
Population(Allele,Count): cau(C,1|A,5)   his(A,5)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56960):
CTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGATGGAGTACAATGGTGCAGTCTAGGCTCACTGCAACCTCTGCCTCCC
R
GGTTCGAGTGATTCTCCTGCCTCAGCCTCCTGAGCAGCTGGGACTACAGGCACATGCCACCATGCCCGACTAATTTATGTATTTTTAATAGAGATGGGGT
Celera SNP ID:            hCV2857894
SNP Position Genomic:     33407
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(G,6|A,2)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56961):
TTCTCAAGAGAAGCTGGAAGGTAGGGTCAGAGAGATTACAGTGAGAAGTGAAGCGGTAGAGGCCAGTAGGTTTAGAAACCAGTGCTGTGGGCTGACAGGG
R
GTGACAATTTCCAGCTTTGGTTCTCCTCATTTAGGAGAGACATGAAGTCTCATGGTGTGGTAGACAGGCCACACAAGACTGGAAGTCTGAAGTGTGCTCA
Celera SNP ID:            hCV2857896
SNP Position Genomic:     33171
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56962):
GTTTGCTGCCAAATAAATACCCTGCTGCTCTACAGGTTGCAAATATTTCAATCATTGTGCAGATCTGCACAAACTTGGAAAGAAAACTCATGCAATCTCA
W
GGCCTTATTTCCCCTTCCTACATAAGAGAAACATACATGCCTAAACCTTCACTTTCCAAATGTTTACTAGAAGATTAGAAAAACAACAGATGACAGGCAA
Celera SNP ID:            hCV15964504
SNP Position Genomic:     32206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56963):
CTCAGCCCTCTGATTACTGCAGGGCTTTATTACTTTCTGAGTTCTCTTTGCTATCTCACTCGCCCTTTCCTCCCATTTCTCCTTCTGGTGCCCCTTCTCC
Y
CTTCCAGGCCCCCAGCCCCCAGCCCCCACCCCACAGCCATCTCTGTATTAAATGTTTGTGGAATGTTCACCGTTCAAAAGCCACGTTCTAGTTTGAGGCT
Celera SNP ID:            hCV6359
SNP Position Genomic:     39606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56964):
AGTGAATGAGTTCTCTGCATACATGTTGTTCTCTGCCTGGTACCGTGGAGGTCAGGCTCGCACAGAAGCATACTTATGGTCAGAGTTAGTCAATAAAAAA
A
GTGATCTATTCTGAGTTCCATACCACCCCAAAACACTGATCAGCTTGGGGAAACTTAGAAAGTTCAACCACCTGGGGATAAAGTTTGGAAAACTAGGCTA
Celera SNP ID:            hCV11512085
SNP Position Genomic:     16013
SNP Source:               Celera
Population(Allele,Count): chn(-,1)   cau(A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56965):
TATTTTTACCCCCTCTTAAATTGGAATCATGGTATAGCAGGCAGGATACAAACTTCTCATTTCCATTACACATTTTCAGTGCCATCATTAATCTGAATGA
Y
ATCAACAAAATGCCCAATGCACATAAATCAGTCAGACTTTGAATCATTCCTGCAGCCTCTGAACATTTACCATGGAGCTCAATAAGCCAGGCAAGAACAC
Celera SNP ID:            hCV11514330
SNP Position Genomic:     52270
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(T,3|C,2)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56966):
AGTCTCTTTCAAAAAACAATAGATTAAAAAGTGCAATATTTTTACCCCCTCTTAAATTGGAATCATGGTATAGCAGGCAGGATACAAACTTCTCATTTCC
R
TTACACATTTTCAGTGCCATCATTAATCTGAATGACATCAACAAAATGCCCAATGCACATAAATCAGTCAGACTTTGAATCATTCCTGCAGCCTCTGAAC
Celera SNP ID:            hCV11514331
SNP Position Genomic:     52234
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56967):
AAAACTTTATGACACTGAAATCAGAATTCCATATCATTTTCCTCCTTCAAGAAATAATATTCTCCTCTTTATTCTTTTTTGCAGATGATTGAAAATGTAA
R
AACTATTCTGAGCCTGCAGGCCATAGCCAAAGAGGTACCGGCTGTATTTTGTCCATGGGCAGGAGCTTGTGACTGCTGGTCTAGGTCATTCCAGGTCAAC
Celera SNP ID:            hCV11514335
SNP Position Genomic:     51804
SNP Source:               Celera
Population(Allele,Count): cau(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:56968):
GGAGACCCAGGATCAGATACAGAGGACTTCGTTACTCATGGCAGAGCAAACAGCATGAGCTTTATTTCTGCACTGATTCCCATTGCCCTGGCCCCTAGTC
M
CACAGGGAGGATGTGGAACAGCCCGGTAGATGCCGTGCTCATAGTACGTTTCAGTCATGGCTGAGGAGCCCCAAGCTTACAAACCCCAACCTTTATCAAG
Celera SNP ID:            hCV25963314
SNP Position Genomic:     18855
SNP Source:               Applera
Population(Allele,Count): afr(A,2|C,34)   cau(A,2|C,34)   total(A,4|C,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:56969):
TAAAATAAAGGAGAAACTCATTGGAGAGGCTAATGCGGCGTGCACTGGAGGTAGCTACTATCACTAAGCATTAAGATAAACAATACGAGTGGCATTCTGG
Y
CCACGCCTGGCAAAGTGCAGGAGTCCCTGGAGGAAAAGGAATGAGAGTGCATCAGCGACCTCGTGAGGCAGTGCAGCTTTGCATTAATGCCTGCAGCTCT
Celera SNP ID:            hCV268507
SNP Position Genomic:     40105
SNP Source:               Celera
Population(Allele,Count): cau(T,1|C,3)   his(C,3)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56970):
ATAGCTTACCATACATTAAAAGTATCCTCTTACCTAATTTTATATGTATGTATGTATGTATGTATGTATGTATGTATGTATCTATCTATCTACCTTACCA
Y
ACATTAAAATCTTACATTTCTACACGTGCAGGACTAGAATGAACACACATAAAGCATGATACCAATCTGCTTTTTTGGCCACCATATAAACATTCTATGC
Celera SNP ID:            hCV2857902
SNP Position Genomic:     28267
SNP Source:               Celera
Population(Allele,Count): chn(T,6)   cau(T,6|C,1)   his(T,6)   total(C,1|T,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56971):
GGCTAGAATGCAGTGGTGCAATCATAGCTTACCATACATTAAAAGTATCCTCTTACCTAATTTTATATGTATGTATGTATGTATGTATGTATGTATGTAT
S
TATCTATCTATCTACCTTACCATACATTAAAATCTTACATTTCTACACGTGCAGGACTAGAATGAACACACATAAAGCATGATACCAATCTGCTTTTTTG
Celera SNP ID:            hCV2857903
SNP Position Genomic:     28244
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(G,6|C,1)   his(G,6)   total(G,18|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56972):
CTCAACTTTGCTGGCATAGTGCAAAAGTAGCCACAGATAGCTTATAAATGAAGGTGTGTAGGGCTGTGTTCCAATAAAACTACTTCAGATCTCTCTGGAA
Y
TTCAATAAAAGTTTTTAAAATTTAGTTATGAACACTGAAATTTGAATTTCATACAATTTTTACATGTAATAAAACATTATTCTATTGGTTTTTTCCCCCA
Celera SNP ID:            hCV2857906
SNP Position Genomic:     23079
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3)   his(T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Gene Number:                 318
Celera Gene:                 hCG1808182 - 84000313902647
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W45C(10861435..10874129)
Chromosome:                  Chr12
OMIM number:                 123805
OMIM Information:            PHOSPHODIESTERASE 3A, cGMP-INHIBITED;PDE3A


Genomic Sequence (SEQ ID NO:12478):
TGAAGTTAGAAACTGTTTCTTGCCTTGAACAAGTTCTCAGACCAAGTCAGAAGGCAGAGTTCTCGTGTATCCAAGTAAACTCAATTTTTCTTTGGTGCCC
ACTTGCTGTTATGCTATTCTTCAAATCCCTAGTGAGACCTGACCAGCTCAACATTCTGACATGCATCTTCATTTGTTATAAAAACACATTACTCATCAAA
ATATAAGCACATTCCCATACAGCGTATTTGATATACCAGGGTGCAGCCAAATTCTAGATGACTCTTGGTTGAAGACAACTTGAACTACTCCTTCTAACAC
TTTTAGCCAGTTCTGCATTTTGATAGCATTCTCTCAAATGTTAAAGTAACATGTAAAGGAGCATTGTCCATTTTAGGCATCTTGTTCATCTTTTATAATA
TCCCACGAATCTCTTTTTCACTTTTCTCAAATAAAAGACAGCTTCAAGCTGAAGGAGTTTTCTATTTTAAACACAATTATTAAAGTATATTGGTGTCCAG
TGGGCTCAATAGAAATATGTGAAAATTTATTTTTACCTAGTTGGCTAAAAGGTTCAAGAATATGGCACTCTCTCTTTTACAACCTCTTTGAAATTGGAAT
CCCAAAAGTCAAGGGAAAGGGCTAATTCACATCTGTGACCTATTGGCCCCTGGATGACAGGGACTAGGTCTCATTCACTGCTGTGTCCCCAGTGTTTAGC
ATAAACCTCACAATTTTGAGAAACTAGACAACTCTAGTAAGCACTCAATATATAATTATTGAATAAGTAAACAAACTAATGCAAAGCATCAAGCTCAACA
AAATAAAGCATAATAAATGGCAATGTTGGGCTGCGATGCATTCTGGGAAAGGAGCAGCATCAAATCCAAGACGGCACCAGCAGAAGGCTGATGAAGGAGC
TTGAAGAAATATGCAATTGTGGAATGAAAAACTTCCGTAACTTCCAGGTAGATGGAGCTAATTTATTGACTTGGCAAGGGCTTATTGTTCCTGACAACCC
TCCATATAAGGGGGCCTTCAGAATCGAAATCAACTTTCCAGCAGAGCACCCATTCAAACCACCGAAGAGCACACTTAAAGATCTGTCACCCAAATGTCCA
CTAAAAGGGGCAGGTCTCTCTGCCAGTAAATTAGTGCTGAAAACTGGAAGCCAGCAACCAAAACTGACCAAGTAATCCAGTCCCTCACAGCACTGGTGAA
TGACCCCCAGCCTGAGCATCCACTTCAGGCTGACCTAGCTGAATAATACTCTAAGGACTGTAAATATTTCTGTAAGAATGCTGAAGTTTACAGAGAAATA
GGGGGAAAAGCGACTTGTAGACTAAAATCTGCCACAATTGGCTCCAGTAAGTGTGAGCAGAGACCCCGTGCAGTGCATTCAGATACCCCACATGGAAGGA
CTCTGTGGAAACTGACACGTGCCACCGCCTACCACTTTGGCAGTTACCAACTTTCTACAGTTTTCTTAATCAAAAGTCGTCTAGGCAACCTGTAAATAAA
GGATTAAAAATTTAAGATGTTCTAAAAAATGAATAAAAATAAAAAATAAATGACAATGTCTGTAAATGAAACAAACTCTGGTTGGAAAAACAAAAATGTG
GTGTTGAAATATTTTGCTGTATTTTGCCTCATAAAATTTTATTTTCTGAAGCAACTGTTAAAATGAATTAACATTTAAAAGAACTGGAATAACACAGATT
ATTACTTCATCAAAAGGCAGAATCACGAGGAGAAAAGGAGATTCCTCTATATTCCAATCTTCTCTTGCTAGGGGACAATTTGAGTGGGAAATCTTTTCAC
CATTTAGGTCTGGAGTGTCCTGTTAATAAAATGCAATGTTGAAATGGCTAAATCACATTGGCTGCTATGCAATACATTTTTTTAGCTACGGCATTGCTTT
TACAAAGTAGCTTTTACATACTTAGCAATCCAGCAGGTGATAAATACATATGTTAAGAAGGATTAATGTACTTTAATGGAGGAAGTAGGAAACCAAAATA
AATTCCATTTAAAGAGATTAACTGAATCTTTTGTAACAAGACCTCTTTTAAAATGCATGGAAACAGACATTTGTAAACTCTCTTCTTTCAAAATGTAATG
TGGTAATTCCAACTACTCAGGAGGCTAGGGCGTGGGGACTGCTTGAACCCAAAAGTTTGACACCAGCCAGGGCAATAAAGCAAGACTCCATCTCAAAAAA
AAAAAAAAACCTTAAAATAAAAACTTTAAATAATGTAACGCAGGTTACCCTTTACAAATAAAATTTTTTAGTGAATTTAAGAAACACCAGTATCATCAAT
ATTAGAAATTACGTAGGTAAGTGCCTGCATTCATATCCAAATTCATGAAAAGAGAAGGAAACCATTCATGTTTTGAAAACCAAGGCATAATATTAAAATG
TCTTAACTCCAAGTTACTTTGGAGTACTTTATTCAGAAAAGTCTGTTAACAAAAGTAACATACCTACCACAGAATTTTTGTAGGTTACAATATTGTCCTC
TTCACTAATATTTCCCCCTGGAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGTTGTGCATTGACGCGACCTCGGCTCACAGCAACCGCCGCCTCCCGGGT
TCAATCGATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGAATTACAGGTGCCCAGCACTACGCCCGGCTAATTTTTGGTAGTTTTAGTAGAGACGGGGTTT
CACCAAGTTGGCCAGGCTGGTCTCGAAATCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTAGCTAGGATTACGGGCGTGACCCACCAC
CTCTTCTAGAATGGACAGTCTTAATATTACTAATGGAGTTTTAATATATGGTTAATGGGCTCCTCGCTGTGACTTCCCATCTCAGGAAATGACAGATCCA
TCTTTCCAATCTCTCCGAATACAAATCCATTAGTGTAAGAGAATGTAGGAAAAACCATTGTTTCTCCTACTCTCACACATCACTCAACACTTCTGACACC
AGATTCTTCAACAGACACCAGCTGAGCATCGTCTAATTCAATTCAATCCTAACACTATCCACCTGGACATAGCATCACCCCTCAGTCCCTCAAGACTGCC
CCCCTCTTCAGATGCCAATTCCAAATCCCAGGTTGTGACCTGTATTTCGACCAACCAGTTATAAATCAGAGATCCTATAACCCACCTCTTTGTGTTTGAT
TAATTTTCTAGAGCAGCTCACAGAATTCAGAGAAACATTTCATATTTATTTACCCATTTATTATAAAAAAATTACAAAGCATATGAATGAACAGCCAGTT
GGAGAGCTGCATAGGGTGAAGTATAGGAGAAGGGGTGCAGAGCTCCCATGTCCTCCCTGGGTGGTTGTACCACCTTCTAGGAACCTCCACATGTTCAGCT
ATCCAGAAGTCCTCTGAACCCTGTCCTTTAGGTTTTACATAGAGGCTTCAATTCTACAGGTATGACTGACTGTATCACTGGCCATTAGTAATCAACACAA
CCTTCAGCCCTGCAGAGGTTGAGAGATGGGGCTGAAAGTCCCAATCCCCTGACCATTCTGGTGACCAGCCCCCATCCAGAAGTTACAAAGGGGCCTCCAG
CCACTAGTCGTCTTATTAGCACACAAAGGATATTCTTATCAAGGGTTTTAGGAGCTGTATGACAGAAAACAGGGATGAAGACCAAATACATATTTTACAA
TATCACAATTAGCAAATTCAACTGGCTCTACTTTAAGAATATCCTCCTACCACCTTCACTGTCACCTCCAAGCCACTGTTATCTCTCATCCGGATGGCTT
GCAAGAGAGAGGCTTGTCTCATGCTGCCTCCTTTGCCCATCTGTGTTCCAGTTTCTCTTCTGAAGAGCAAGTGAAATGATGCCACTCCTCTGCAATGTCT
TTATCAGAATAAAATCCACACTCCTCAATATGTCTGGCACAGGCTTCCAGGGCATTTCTCACTGCTGCCTTCAGGACCTCTTATCATAACACTCTTGCCC
TTGCTCCACTGATGCACCCTCACCTGTGAGATTTACGCTTGCTGTTTTTTCTCCTTGGACTGCAGTTCCCTCAGCCATCCAGGTGGTTCTCATTTCCTTG
CTTCTTTCAGAGAAATAAGCAATCGCCCCTTTATCAGTTTGTGTCTCCCTGATCAACCAATATAAGATAACATACATCTCCCATAACTACCTATAGATAA
CACTCGGTCTGCTTTTCTTCACGGCATTTATTCCTCCAAATACATTACTAGCTGTTAGAATGAAATTTTAAATGAATAGAAGATTTACCTATTGTTAACT
GGAATTCTAAATGCTTAGGGTAGAGTCTGGCACATAGTAGGCAGAGAACTAATGGTCCCTAAAAAGTACTGACAAATCAAGAAGAGAATAAGATGATGTA
TACCTGGCATCCAGGACACAAACTCCAGTGGTAACAAGAACTCTGTCCCCACTACTCACCAACCTTGTTCCCGACCTTCCTTGAACGTGAGATTACCTCT
AAGGATCAGCCTTCTCGCCAACTGTTGGCTTAGATACCATGAAATATAACACATAATGAAGCTCGAGGAAAGCAGAAAAATAATGTTTTCCCTCACCCCA
TNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGTTTTCCCTCACCCCATCTCAAAACACTCAACACATGGTTCCTCACTCAG
TAGGCACTCAATAATACATGACCGTCTGAAAGCATGACCATTTTTATTTTACTAGAGAGGGAAGCAGAATGAGACAGATGACATTTTCTCACGACTTAAG
CTTATACATTTGGAAGGAAGAAAGCAGTTGTAGTAAGAGAGGCAGGCTCTTCAAATTCTCACAAAACACAAATTCCTAGTTTTGCTTTGGATGGGAAGGG
CTTCATTTCAGGCACGTTGGGGGAGAAAGGGCGAAGGGAAAAATGCTCAGACTATGCTATTTTTAAGTTATTTGGTAAGAATGGCTATTTTTCCCTCTGA
TATTCTTGAACCACCCAAATGTCATGTTTCCATGCACTGCTGTCTGGATGCTATCAAAGGCACGGCTCTGAGGTGAAAGGAAGGAGTCAGTCATATGCTC
ATCTTCTCACATGCTGCTACCACTGCTGATTTTTTTTAAAAGCTTTGTGACCTAGAAAGGAGATGTACGGTATGAATGATGCACAGACTGCAGAGAGCAT
AGGGCGTCATCAGTCTATTTATACCTCCAGGAAGGAAAAAATGAGTACAGGGCAATGGCTCTATATTCCAAGTACTGAGTATGCAAAGATTATCTGGAAG
AAACAATAAACAACACAGTGAGGGCGGCATTTATGTCATCAGTGAGAAAGAAAAGGTGAGGCCATATTCCCATGTTCCTTGATCGTTCCAAAATTCTGTT
AACTTTTAAAGAATTTCAAGTTGATCCCCTGATATTTCCCATGACTGTATAAAGCATCCCAAATCTGAGTTAAAGACACTGCCACCCATATTTTAATACA
GCTTCACCTCATATGTGCATATGTATTTACATTTAGCAATAATCGATATCCATTTGGCTATACTGTAAGTCCCGAGGGAAAGTTTTTCAGGGTTAAGAAA
GTATTTGGAAAAGCCTTACAGTTAATTATGCTACTTAACTCCAAAAAGGGGGAAAATGAGATTTACACAGATTTATACAATATGATAGAAAAAAAAATTT
TCTCAAGGTGTGTAGTTCATTTCCCTTAAGATGTGAAATCTTTCCAGGACAAAGCAGGGAAAAAGCACCCAGGCCCAGCTGCTAACAGTTATTCCTGGAT
CACTAGTAAACTTAATGCCAGGCTTCACCTCTCGACTTCCATTTGTTTCTACTGTAAGCAGTATAACATGGAGCCTAACAGAAATGATGTTCTGAAACGT
ACCCATTTTGCTCTTTTGCAACCCGTTTACTTGTGCAATTACTGCCAGTTTCACTTGCTTTGGAGTTATTTTACTAGCAGTGGCGATGGATTTGATGACA
GCTGGCCACAGTATGAGGTGTTTTCTAAGGCTTGACATTAGGTATTTCCTAGTGCAAAATTTACTGATCCCGCGTAGGCTCCAACCTAGAGCCAGGATTC
CTTAATGGAACACAAACTGATTTACTTTGAATATACTCAAGCTTCACAGCAAACACTTCCTGTTTCTATTACTGTCCAAGTCTTCTTACCATGCCTGAGG
CAGACAATTTAAGGCTTGATTCCTCACCCTTTCCCTTCATCTGCTGAAATCCCATTTAGTTTTAGTGCACCAGGCATGCASTGGTATTTCATCCTATGCA
TTCCTTCCACAGCCTGACCTATAAAGGGCTGACACTGAGTCCTGGCTTGTTCAGATCAGAGAGAATTAACACTTTTATTTCTTTRATTTCAAAAGCTTCT
GAGGTAACTTTTGAGCTCGTAAATGTCAATAATTTGTTGTCAAGACAATTATATTCTTAACCCAGCTGCTACATAYAGGGAACATAGAGACTGACAGAAA
GTCAGTGAATTTAGAATTAAAACAGTAAGTTTATCTGATTGACTATGCTTCTCAAAATGTAAATGGATGATACAAATTAATACAACCAATTCATTTTATT
TGGTTTGGTTTTGGTTTTTGAATGGGTTTATGGGTTTAASAGACATTGCTCTCTGTTGWTTATGTGTATTCAGTGTCAGAAAGGAAAAGTGAGCAGTGTG
AAGTCTTATTAGATGGAAGACAGGTCTAAGGCACATGGAAAACTGATATTCGTGATGGACAGGTCAGGAGCTAGAGAGCAGGGATAAAGAAAGCAGAAAA
GAAAAGAAAACTCAGCTACAGGTACTCTGTAAGTGAAACTAACAGGTACTTGATAAATATTGGCTGGTTGATTACACAACGGAGGGGAAAGGAATGGCAT
GCTGTATCATCTTTAAAGACTCCTCTACATGTGCCACACTACTATGAATAGGAAATCAATTTTCCTGTGCTCAATAATTGTAGAGCTCTCTTGTCTCTTA
ACTTCCTGCTATATAAACCAGTCCTGCAAGGTCCTCCCTCCTTCTTTTCCTTCTCTCATATTGCCACAGGGGAGCTCACCGAAGGAGTCTGCCTTTAAAT
GGAGATAAACCTAGCACAAACAAAATCAGTTGTGCTTTCAATAGGTTATTGAAGTACAAACATTCAGAGGGAGTTTTAAACACTTTGGCAAATCTTCTGA
GAGGCAGAGTAATGATGTTCCATAAGAAAATTTGCTAAACGAAAATAAGTAGAATAATACCTATTTCTCTTTTCAAAAAGAAATTTCATTTTCATGGAAG
TAGGGTTTTTTATGATTTCCATACTTAATCCTTAATTTATGCTAATGCCTCTGTTTATAATTTTCAACATAATTACTGTGGGGCAAAAGAAAGCAAAGGG
ACCTATACAGACATATTTAATGTACACACAGCAAACGAAAAGAGTTAGTCTTATGCAATTTTTAAAAAGCTAGTCAAAAAAATGACTAGTCAAATTTTTT
GAAGGAAACAGATATTTATTTTCGATTTCCTAATTTCATGTCTGTATCCTCAGTCACACTGACAGTCATCATTCATTCTAAAAAAAAATGAGGTATTACC
CAAATAGCTTATGTCAGCATTAATTGTTAAATAAGTACATTTGTAATTCCTCCTGTCAGCCATATCCCCTTACGTATCTATGCAGATAGTCAAGCTCCTA
TATCCAAGTTAGGAGTTAGGAATACAGTGGTACAGTTTATCAATATCCATAGATAGGACAGAGTAAGATTTCCTCTCACTAAACATTTATTTTAAATCTC
CCTCAAATCAATTTCTATATAATTTCTTGCAAAAAGAAATAAAAACCAGCAGTTACTGCTGACAAATTAAACTAGGGGCAAATACACATTAAATATATAC
ATTTATATATTTACATTTGTATATGTATATTTATATATACATTTATATACTTACACCTATACAGGAGCATTTCATTGTAGAATTTTGACTCATTCAAACT
CTGTTCACTACCATTAACTGATAAATTATTTATGAAAGATGATCATGACCTCCATTAAAAAAAAGGATCCCTCAAAGCATGATATATTTCTAAGAATAAT
GCAACCTATTTTCTGTGACACTGCTTTGTTCTTCAACACTGTCAGTGGATGAACGATATAGTTTTAACACATTTTTGTGCCATGGCCATGAAATGCTTAC
ATTTATTGTGTTAAGTTTAAGCATATGCTTCAATATTCAGTTTTCAACTGAGATAATGATTTTAAAAGATACAATCTCACCTCTTTAGGATTGTTTTAGT
TTTCACTTCCAAACTGCTACATTTGACTCGACACTATTACAAACTACTAGTGAACATAAATTTCAAAAGAATTGTCTTACAATTTCAGATCTTTAACCCA
TTGCAGTGGTGTGAACTAAGTATTTCCGTGCGTCTCCCACTTTCAGCCACGTGGTAGGATGGTGCTTCCCTGTCTCCTTGACATTTGGTGAGGCCATGCG
AGGTCAGTGAAATGCATGAACAAGTGGTATGCATCACTACCAGCCAGAAGTGCTGAGAACCAGCGTGTGACTACCATGTGCTCTCCCTCTCCTATGTGAT
TGTGAAAGAACATGTCAAGTGGAGCTTCCTTCAGAGGTAACTATGATAAGCAGTCTTCCCTTCAATCTACACAAACATGAGGGAAATCTTTTTTGTTGTA
AGCCATTACAATATTTGTGGTTGTTGTTACTGCAAGATAGCTTAGCCTATCCTAACTAATAGACAAAACAGGTCATGAATATGGGTCGCACACTGGAAAT
TTGGGGTAAAAAATACATTACATAATTTTAAAAGCCATTTTAATATGGAATAGGTAGTGTCAATGACTGAATTCCATTTTGGTGTAGAACTACAAATCTG
GAAACAGATTTTCAAATTTTTATGAAGAAGAAGGTTAATAAGCAGTTCAATATTTCACAAGAAATGAGAAAAGCAGAGCAGAATAGATGGATCCAGAAAT
GCAAAAGGGTCATCCAGGAGGAGGCACTAACCTAAGGAAAAGCAGAAGAATACAGCAAGGAGATTTCAGAGAAAGGAAAGTAGTTACAAATGAAGCTATA
GAGATTGGCAAGGCCTTGTACACCATGGGAAGAAACAAGAAATGCATGCTGTGGGCCCCGGAGGATCATAAGCACATGCACTATATGATCAGATCTGTAA
TTCCAAATGGTTTATCTCGGTAGTTTAAAGGCAGGGTTGAAGAGAGGGATGGGTGAGATGAGACAGAGTAATTGGGAGGAACACATTGCTCACTCTGCTC
AAAAACATCCTGTGAGTGACCACAGCTTACAGAATGAAATATCCATCCTTCCCTGTAGTACCAAATACCAACATCAGGGAACAGAGATTAGTGGTCAAGA
CCCCAGTCCCTGGTTTCAAGTTCATCTGCTGCCACATATTAGTTGTATCATGTCCTAAATTCTTTATCCATACATTTCTACTTCTTAGGTTTACTGTGAG
GGCTAAATAATTTATGTAAAATGCTTATTTTAGCAAAGTACCTGGCTCTTAGTGAGAATTAACTTGTCAATCTAATCCATTTTATGACCCATTACATAAT
TGCACTATTCTTCTTCAATACTATATTTTTTTCACTCTTCTGCTACTAATGATGTTGCCTTCGACTACGTCTTTCTCAGGTCTCTCCCTGTTCAAATTCC
ACTCACCCTTCAGAACCCACTCAATGACTATCTGCTCCATGAAGGATCCTACTCAATGACTACTCTACTCCATGAATGCTCCCTTTGCCTCAGGAAATAA
TCTCTTTCAAGTCTGGACTATAACACAGTTTCTAATTGCTTCATGGTACTTAATTATATATTTGCAGAATTTATTTTTCTCAATTATGTTCTATTTTCCT
TTAACCAGTATTACTTCTTATGTATCCATTATACTCCCAACAGTACTTTGTGGTAGTGCCTTGAACTTACTGAGCTTCACTGTTGAATAATTCAAGGAAT
TAGATCCAATCCTGGCATACAATTTCATTATAATTTATTAGTATGATACATAATGTTTTATTCATGTGTCAGAAACAATTTCACAAAACGGGTAGTTTTC
TCCCTCCTTTTACTCATAAATAATCAAAGGTGAGATAGGTGAAGTCATTCTAAAATGGCATGGCATATTGATAAGGAATCCCAAAAGAATATATCCATCT
CTGATGGAAAACCTCTAGCTCCAGGAGCAGAAAGGGAAGAAAGCTAAGCTTCCACAATGAGTTAGATCACACTCTTCATCCCACAGGGATAAAGATTTCA
CAAACTAGATAAGGATCCTTGTAAACAACTGGCTGTTAACAAATAGTTTTATTTTTCCTCAGACTCCACCACCAAGTAAACCTACTGTTCCTTGATACCC
TTTGTCCAGGCTGTAGTAAACAAGTACTCAAGAAGTGTTATGTAAGTGATGTGACTTATTGAGAAATAGATTTGCCCTTGAAAAGAAATATGAATAGAAT
TGCACTTGGCCCCTGTAGTTTGATCATTGTAACGTGAAAAAGATACAGCCTATCCCAGTTCTTTTGGCTTAAGTGAGCAAATAAAATTAAAAGGGACTTG
GAGAATAATTTTGCTTACTGCTCTGATTTCAACTTTTCTGAAATGGGCTTTGAATATTAACGTCTACTTCACAAACTTTTCACTATACTCAGTCCCAAGC
AACCCATAGGATCACACAGCCATGCCACCAATTTCTTTTTCCTTATAATTACGTTAAAATTTAAGTCTTTTGGGGGCCAAAAATTAAATCCTAACTATTC
CTTGTAAAACCTGGAGCAAGGCAATATCCTACACACCATCACTTTTTCATACCCCACCACAATGTTAACTCTTTGAAACATCCCTTGAACAGGTTTCTCT
CACACTCATTAGACTCAGAGCTTAATTAGATTTCTTTGGATTTATATCATACAATGACTTTTAAATTCTCATCATTTTTTATACAGTACCCAAATAAAAA
CAATCAGAAAGAATGTACACAGAAACAATTATGGATTTTGAAAGTTGATATCAACTTAGATATTGGTATCAAACTATGTAGGGAAATTATCATTTATGTA
GAGTTATTTAATCAAAAAATGTTGTCACAAAAGCAAAGCTCTACTAGATAGTGCTAGCTGTCTGTTCCTATTTTTTCCAGACTGACTTATGCAATATCCT
GATGTTTAAAACTATTCTGTCATGGAAAATCTGTCTCTAGGGTGGGGTGAGAGGAGGGTGTCCCATTTTCTTTTTAAAGTTATAATAAGAAGCAGACAAA
CAATATAATAAACTTGTACTTTGCAAACATTTTGAATTACGCATTGCAAGGCTACAAGGTAAAGACAGAAATATGCATTTTAAAATAAAAACTTAGCAGA
CACCCATTTTGCTCGCAGCATGAACAATACAGTAAAATCAAAATATTTTGCCTTATAAGCAGTCAGCAATAACCAGTGATCTGAATATTTTTAAGTGCAA
TAGGTCATATATCAAATGGAGTTCATTTCATTTTCCTCAAATGCTACCGTAGAAATTTAAAGACTATTAAGAAATAATGATAATTTCCCCTTTCATGCAT
ATAAAGAATCAATGAGTATAATAAAACTTCATTCAGGTTTTTCCCTTTTCTATGTTGACTACATGATATGTGGATATAAACAGACAAAATTCATACTGAA
TGTCATAAATCAATGTTAGGAAAAAGTAAATTTAGAGTAACTTTCCAACTGAGTGAGTCTTGTTCTCTTCAAAAAGTGAACCTTTCTGCTCTTATCTCTT
TTCTTGCAAAGCTAAGAAAAGCCCTTTTTAAAAGTCCTATTGTTATTTTCTGGATCATTACAGAAAAATTATATTTTGAAACTGTAAAGATTTCATTTTT
TAACATTCAAAACTGACTTAAGAATGGAACATATTGGTCAGGCACAGTGACTCACACCTGTAATCCCAGCACTCTGAAAGGGTGAGGCAGGCAGATCACC
TGAGATCAGGAGTTTGAGACCACCCTGACCAACATGGTGAAACCCCGTCTTCACTAAAAACACAAAAAAAATTAGCCAGGCGTGGTGGTACGTGCCTATA
GTCCCAGCTACTCAGGAGGCTGAGACAGGAGAATCGCTTTAACCTGGGAGGTGGAGGCAGGAGAATCGCTTGAACCTGGGAAGTGGAGGTTGCAGTGAGC
CAATATCATGCCACTGCACTTCAGCCTGGGAGACAAAGCAAGACTCCATCTCAAAAAAAAAAAAAGACAACATCTTAAGTGACAAGAGAATCCACGAATC
ATGGGTCTGGCTCAGTGATTGAAAGTGATTATTGGACTAGAAGCAAGGCACATCTCTGGACTCTAGTTGTGTCAGAGGAAACATGCTAACTCACATCATA
GCAAGTCCATATCCTGTGTGATAAAGATGTTATGACAGAAAGCTAAATCACTCCAACATTTCTACTTCACAGTATGTGCCTGAATGCATACCATATTTGT
CTCTACTATATTTTGCATTGCTTTTTAGATGAATAACTTTTGAACCATATTTTCTCATATTACTAAATCACTAAGTGCAATGTCAACATCTGAAAATAAT
TATTTCTGTGTATTCGCATAACCTTGGAATGCTGAGAAATGTATTTGGCTTGGGACACAGCATAACAGCCCTGACAACCCTGCCTTAACATTAT


SNP Information

Context             (SEQ ID NO:56973):
TCTTCTTACCATGCCTGAGGCAGACAATTTAAGGCTTGATTCCTCACCCTTTCCCTTCATCTGCTGAAATCCCATTTAGTTTTAGTGCACCAGGCATGCA
S
TGGTATTTCATCCTATGCATTCCTTCCACAGCCTGACCTATAAAGGGCTGACACTGAGTCCTGGCTTGTTCAGATCAGAGAGAATTAACACTTTTATTTC
Celera SNP ID:            hCV25747916
SNP Position Genomic:     6281
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|G,1)   total(C,73|G,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:56974):
GTAAATGGATGATACAAATTAATACAACCAATTCATTTTATTTGGTTTGGTTTTGGTTTTTGAATGGGTTTATGGGTTTAAGAGACATTGCTCTCTGTTG
W
TTATGTGTATTCAGTGTCAGAAAGGAAAAGTGAGCAGTGTGAAGTCTTATTAGATGGAAGACAGGTCTAAGGCACATGGAAAACTGATATTCGTGATGGA
Celera SNP ID:            hCV25749455
SNP Position Genomic:     6659
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,35)   caucasian(A,2|T,32)   total(A,5|T,67)
SNP Type:                 UTR 3


Context             (SEQ ID NO:56975):
TATTTCATCCTATGCATTCCTTCCACAGCCTGACCTATAAAGGGCTGACACTGAGTCCTGGCTTGTTCAGATCAGAGAGAATTAACACTTTTATTTCTTT
R
ATTTCAAAAGCTTCTGAGGTAACTTTTGAGCTCGTAAATGTCAATAATTTGTTGTCAAGACAATTATATTCTTAACCCAGCTGCTACATACAGGGAACAT
Celera SNP ID:            hCV25748379
SNP Position Genomic:     6385
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,14)   caucasian(A,9|G,31)   total(A,31|G,45)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:56976):
TGACTATGCTTCTCAAAATGTAAATGGATGATACAAATTAATACAACCAATTCATTTTATTTGGTTTGGTTTTGGTTTTTGAATGGGTTTATGGGTTTAA
S
AGACATTGCTCTCTGTTGTTTATGTGTATTCAGTGTCAGAAAGGAAAAGTGAGCAGTGTGAAGTCTTATTAGATGGAAGACAGGTCTAAGGCACATGGAA
Celera SNP ID:            hCV25749418
SNP Position Genomic:     6640
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,29)   caucasian(C,2|G,38)   total(C,9|G,67)
SNP Type:                 UTR 3


Context             (SEQ ID NO:56977):
TATTTCTTTGATTTCAAAAGCTTCTGAGGTAACTTTTGAGCTCGTAAATGTCAATAATTTGTTGTCAAGACAATTATATTCTTAACCCAGCTGCTACATA
Y
AGGGAACATAGAGACTGACAGAAAGTCAGTGAATTTAGAATTAAAACAGTAAGTTTATCTGATTGACTATGCTTCTCAAAATGTAAATGGATGATACAAA
Celera SNP ID:            hCV25748842
SNP Position Genomic:     6476
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,29)   caucasian(C,15|T,25)   total(C,24|T,54)
SNP Type:                 UTR 3


Gene Number:                 319
Celera Gene:                 hCG1811009 - 11000595722896
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRE9APK7(3663778..4789896)
Chromosome:                  16
OMIM number:                 605131
OMIM Information:            WW DOMAIN-CONTAINING OXIDOREDUCTASE;WWOX


Genomic Sequence (SEQ ID NO:12479):
AGGAAACTAACATGGGAACTCTCCCTGTTTCAGCATACCTTACAGGTCTTGGTTTAAATTTGTCTTAGAACCTTCAATCCACAGTTCTTTGGGTTGACTG
TTGACCTTCTGCTAATTCACTGTTATTTCTGGATATAAGGAGTCTCTCTCTATATATATATCAGAGACAGCTTTTTTTTTTCATTTGTGTGTTTGAATGA
ATAGATGAAATACAAACATATCTTCCTAAATAAGGACGCATTGATTAGAAGAGTTTTCCATAAGACTGCTGTTCAACATTCTTCCTTATTGGTTACTTCT
CAATGAGAAATTATCCGAAGAGCTAGGATGCCTCCCAGATCTCATTGGTACATTGAGTTTTGCACCAAAGCATCAGGCTTAATTTTCCAAGGAATGGCAA
TTTAAGTTAAATCAGGTTTGCAGAGTTGTCGGGGTGTTTGTGTATTTGAGGTTGGGAGGGGAAGGAAACGATCATCTTCAGGGTAATGATAATAAACTAA
TAAAATGTGGCTCCAGGAATGTTGCACTAAAACTTTGTGCCTCCTGCATACATTTCTTTTGAGTAATGCCAAATTGTGTTCAGTAAAATCTGATCAATCT
TATGTGCGTAAATTGTCAGTTATTGCAGAAGTAATCAGTCAAAAAGAAAAGAAAGTTTAAATGTAGAGACCCTTGTTAGGAGCTGGGCTTTAGCCTTTAA
AATCGTGGGTGGATAGGGCCATCTGGTGTGCAGTTGTGTAACTAGACATTGCTGTTTTTTTTTTAACCTCCTTGCTAATAATCAATGTGATTCATTTGTC
TTTACAAAAACAAACCATTCTTTTGTTTTGTTTTTTTTTCTTCAACTTTTACTTTAATTTCAGGAGTATATGTGCAGGATGTGCAGGTTTTTTACACAGG
TACATGCGTGCCATGGTGGTTTGCTACACAGATCTTCCCATTACCTAGGTATTAAGCCCAGAGTCCATTAGCTATTCTTCCTGATGCTCTTCCTCCCCTC
CTGCCTCCCTCTGACAGGCCCCATTGTAGGTTATTCTCCTCCATGTGTCCGTGTGTTTTCATCAGTCAGCTACCAGATAGAGAACATGTCTAGTCTGTTT
TCATGCTGCTGATAAAGACCTACCCGAGACTGGGAAGAAAAAGAGGTTTAATTGGACTTACAATTTAAAAAGAGATTTAATTAGACTTACTCCACATGGC
TGAGGAGGCCTCAGAATCATGGCGGGAGGTGAAAGGCACTTCTTCCATGGTGGTGGCAAGAGAAAATGAGGACGAAGCAAAAGTGGAAACCCCTGATAAA
CCCATCATATCTCATGAGACTTACTCACTTCACGAGAATAGCATGGGAAAGACCAGCTCTCATGATTCAGTTACCTCCTGCTGGGTCCCTCTCACAACAT
GTGGGAATTTTGGGAGATAAAATTCAAGTTGAGATTTGAGTGGAGACACAGCCAAACCATATCAATGTGGTGTTTGGTTTTCTGTTCATGTGTTAGTTTG
CAGAGGACAGTGGCTTCCACCTCCATACGTGTGCCTGCTAAGGACATAATCTTGTTCCTTTTCATGGCTACATAGTATTCCATGGGGTATATGTACCACA
TTTTCTTTATCCAGTCTATCATCGATGGGCATTTGGGTTATTCTATGTCTTTGTTATTGTGAATAGTGCTGCAATGAACATATGCGTCCATGTATCTTTA
TAATAGAATGATTTCTGTTACTTTGGGTATATACCAAGTAATGGAATTGCTGGGTCAAATGGTATTTCTGCCTCTAGGTCTTTGAGGAATTGCCACACTG
TCTTCCACAACGGTTAAACTAATTTACACTCTCACAAAGGGTGTAAAAGTGTTTCTTTTTCTCCACAACATTGCCAGCATCTGCTGTTTTTTGACTTTTT
AATAATTGCCCTTCTGATTGGCATGAGATGGTATCTCAATGTGGTTTTGATTTGCATATCTCTAATGATCACTGATGTTGAGCTTTTTTTCATATGTTTC
TTGGCTGCATGAATGTCTTGAGAAGTGTCTGTTCATGTCCTTTGCCCACTTTTTAATGGGATTGTTTAAAACAAACTATTCTTAAGGCTTTCTTAGGGTA
ACATTTGGAGAACATTGGCTCATTCCCAAACATAAGCCTTCTCAAACCGATTAAAATCTAATCCTCACCAAGTTAAGTAGGGCTTGCCTGCTGATAGATC
CTCATCAGAGCAAAGTCAAAGCTAAAGTTCAGGGGGACAGAAACTGAGTAAACAGAGGAAGCCAGTAAGGAGAGAGCAGAAAATGTAGCCCATGGGAGGG
AGGAGACAAACCTCAAGAGGAAAAAGTTCCCAACACTTGCATGTCTTACTTCTTTAACCTCATAGAACCCAACAAATAAGTTATAAGAAAGGGAGAAGAG
GCCGGGAGTGGTGGCTCATGCTTGTAATTCCAGCACTTTGGGAGGCCAGGGCGGGTGGATCACAAGGTCAGGAGTTCAAGACCAGCCTGGCCAAGATGAT
GGGGAAACCCCGTCTCTACTAAAATTACAAAAATTAGCTGAGTGTGGTGACGCTCACCTATAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACT
TGAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCTCTCCAGCCTGGTGACCGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAT
GGAGAAGAAAATGTGATCATGATAACCATTCCCGCCATTACTGGAGCCTGGACCAGCCGGCCAGATTTCCACAGGATGTCTCTGACCTGCAGAGGGGCTG
GCAAGGTGGGAGGCATCCAGACCATGTTACAGAACTCAGTAATCAGAGCCTGTGCTGGAGCCACCAGCATCCCAGGACCACCATGTGAACCTCCTGACAG
GAGCAGGCTCCTCAATGACTGAAATGAATCTCAGCAGAACTCCTGTGATTCATAAGTGACTCATTTACTAACTTATTGTCAGTATAGATTCTCCACTGGG
AGAAGACGGGCAACTTCTGGAGACATTTTTGGTTGTTACAACTAGGAGAGGGGCATCTACTACTCGCATCTAGTGGGTAGAGGCCAGAGATGCTGCTAAA
CATCCTACTGTACAGCCCCACCACAAAGAATGATCTGGCTCCAAGTATCGGTAATGTCGAGGTTGAGAAACCCTGGTGTCAGCAGTGGGAGAAGCCTTAG
AGGGAATTTCCAAAGTGGTAGGATCAGCACAGGATAGACCCTGAAGTTTAAACTTCTTCCAGGGGGACCGTTACCCAGTTTGGGGAACACCATGGTATAT
CACTAGCTGTGGGCTGATGCCAAGTTACAGGTAACAGATGCCAGCAGAAGCTCTGGGCAGAGGAAACCAAGATAAACCTAAGCAGACAGTCCTTGTGAAA
CTGAACAGAGTCAAAGATAATGAATGGAGAAACTGAGGCTAATCAGTTTGACCTCATTCCTTCCTCTCCCCACAATCAGGGGATCTTATGACTGAATTTC
TTACAAATAGCAAAGGAATAAGTAGGCTTAGGTGAGAGGGGAAAGGGGCTAAATTGAGGGGAGCAGTGGAGCAACAGATTAGTGGTAGCAGATTTATTTT
TATTTATCTTTTTTTGTTGTTGTTGTTAAGACAGAATCTTACTCTGTCACCCAGGCTGGAGTGCAGTGGTACAATCATGGCTCTCTGTACCCTTGAACTC
CTATGCTAGAGCCTAGGAGTAAATACTAGGATTACTAGAGTAATCCTCCGACCTCAGCCTCCCGAATAGCTGAGACTACAGACATGCACCACCACACTGG
CTAACTTTTAAATTTTTTGTAGAGATGGGGTGGTGGGGGTCGGCGGGGGGGGGGGGGGGGTCTCACTATATTGCCCAGGCTGGTCTTGAACTCCTGGGCT
CAAGCAATTCTCCTGCCTTGGCCTCCCATAGTGCTGGGATTACAGTTGTGAGCCACTACGCCCAATCCAATGGTAGCAGATTTAAACACAGGTGGATTTG
GAAAAAAAATCTTACGATAGGTTTAATATGAGTCAGCAGGCCTGTTGAAACAAAACAGTGCTTTGTTAAGCTTGTTTTTGGTTGGTCAAATGTAGAAAGG
CAGGTGTCTCCGCTAATGAGTACGTAGAGCAGGAATCCTAAGCAATCATCCATTTCAGAACATGAAGACAAAAAGCAGCTGCCCCTCCCATACACTGCCC
ATTAAAATACATACTTTTAAAATTCCTTATTTTCAATTTTATTTTTTTGCTCTCTCAGAAGAATCAAATATATGTAATTATTCTGATGGAGGCTTGCATT
CTTTGGGACCTAGGCCTGAGAAATCACGGTCAGTAGATTTCCCTATAACATGGGGCTGGGGAGCAAGTGCCAAACAGGGAATGTTCTGAAAACTCCTTAG
GCACAAGCTGAAGATATGTTTGAGGTTTTGGATACAGAACATTTATAGGATATCTTTTGGTGGTCCAAGAGGACTTGAGTGTACCTTGTAAATACAGGAT
TTTGTTTTTAATTAGATTGATTCACAGAGAACCAAACCTAAGGAATCACATCATTCATTCATTTGTTCATTTAATAAATTTGTAGGTTGAAGCATTTACC
AAGTGCTGGCAATAGAAAGAAGTCCCGGGTGTGCTTTGTCAGTTTAGTCGGGACTACACAAATGAGTCAATAACTGTAGTGGAGTGATGCGATCTCAACT
GCCAGGAATCCCCCGGCTCTCCTCTCTTCCTGTGCCTCCTCAGGTAATTAGCTATCCTTTCTTTCTTTTATTTTCCTTCCTTCCTTCCTTCCTTCCTTCC
TTCCTTCCTTCCTTCCTTCCTTCCTCCCTCCCTCCCTCCCTTTCTTTCCAGATTCTGGACCTATTCCAGACTTACTAAAGGAAATTCTCTAAAGGTGAGG
CAGTTTTTTAAAGACAGCAGCTCTCTCTGTCGTCCATGCTGGAGTGCAGTGGCCCGATCATAGCTCACTGCAGCCTCGACTTCTTGGGCTCAAGTGATCC
TCCCCCTTCAGCCTCAATGAGTAGCTGGGACTACCGATGTGCACTACCACGCCCGGCAAACTAAAAAAATAATTATTTTTGGTAAAGACAGGGGTCTTGC
GATGTTGCCCAGGCTGTTCTCAAACTCCTGGCCTCAAGTGATCCTCCTGCCTCAGCCTCCTAATGTGTTTGGATTACAGGCATGAGCCACTGAGCCCGGC
CTAGCTACCCTGTCTGAGTTGTGCCCACTACACAAAGGTGTCAGCTACATGTGATGTCTGTGCATTTCTGGCCTGGACCGCACATTAAGTGCTCCGTAAA
CATCAGTCTCTATTATCAACAGTCTCTATTATCAATCAGTCTCTATTATCATCAGTCTCTATTATCATGAGTCTCTATTAAACAACAGTCTCTATTATCA
CAGTCTCTATTATGTGTTTTGGCTGAAAGAAAGTTCTCTAAAACCAGGAAATCAGGAATCAGCAGTTTTAAGTTCTCCAGGTTATATTTTAACATTGTGT
TCATATGCAAAACAAAGGTTGTGAATCAGCACGAATGCTGGCAAGCCCTGGAAGGTTTGTGATCACGGACTTTCACGAGACCCCAAGGCAAGGAGAGACA
GAAGCCCAGGACAACAGCATGGGCGCCGCTTTTTAGTCGGGCGCCGCTTTTTGGTCAGGCGCCACCTGGACTACATTTCCCATATCCAATTGCCGGGCTC
CTGCAGGATTGGCCAGAACAACGCGGAAGTGATTACGGGTCGCCCAGCAACGGGCGGAGTCCTGGCCCGAAACTGGATGCGCACGCCCCTTCCCTGCGGC
GGGGAGGCTGACAAGGCTCCGCTCTATCTCTAGCGCCTCGGAGCGCTCTCCGGCTTTGCTGTCTAGCCCGGCGGCAGCGCGATCTCTTAGGCACTTTCAC
CGCCTTCCTCTCCAGGCCCTGCCCCTTTGACGCCGGCCGTCGCGATATTGCGGAGACTGGATTTCAGCTTCGTGGTCGGCGGAGCGGCCCCTGGAGGGCG
CAGTGCGCAGGCGTGAGCGGTCGGGCCCCGACGCGCGCGGGTCTCGTTTGGAGCGGGAGTGAGTTCCTGAGCGAGTGGACCCGGCAGCGGGCGATAGGGG
GGCCAGGTGCCTCCACAGTYAGCCATGGCAGCGCTGCGCTACGCGGGGCTGGACGACACGGACAGTGAGGACGAGCTGCCTCCGGGCTGGGAGGAGAGAA
CCACCAAGGACGGCTGGGTTTACTACGCCAAGTAAGGGGGCCGCAGTGGGGCCGCGGACGCACCTGGGACCCTGCACAGCCCACGGACGCCACCTGCGCG
GGGAGGACGCGCACTCCAGCGCAGCGCGTGCGGTGCAAAGTGAAAGTAACTGTTAAGGAGCTTCAGGGAAAAGGGTCCAGGGTTCCCAGTAGGGGCCGSC
CCCCTTGGTGGGCCTCGGGTCCAGCGGGGGTCACCTGGTGGCTTCCCGGCGCGCCCTCTGCTGTTCAGGATGCAGCACTGCGYGGCGCGGCGAGGGCAAA
GCGGCCTCATCCCCGCCAAAAAATAAAGATGTTTTAAAAAGCGCACATGCTCAGCTCCCTCCTGCAGGCTCTGGGTTGCAGGGATAGGAGTTTTGTTGTG
TTTTGTTTTGTTTTGTCCAGACCGGTATTGCTCAGTCATCCAGGCTGGAGTGCAGGGGTGCCATCATAGCCCACTGTAGCCTCTACCTACTGGGTTCAGA
CAATCCTCTCATCTCAGCCTCTTGAGTGGCTGGGACTACAAGCGTGCACTACTATGCCCGACTAATTTTTTAAGTATTTGTAGAGACTAGGGTCGCACCA
TGTTGCCCAGGCTGGTCTCGAACTACTGGGCTCAAGCAGGCCACCTGCCTCAGCCTCCAGAATTGAGATTACAGGCGTGAGCCACTGCGCCTAGCCAGGA
GTATTTTTTAGTAGCAGTCCTAGATAGCTTCACTATCATTTCCTGGGAAAGTTTTGGAAACCCCAGCAGAGCCTTCATCTTTAACTGTGTGACCTTGGGC
CATTGAAATAACGTTTAATCTTGGTTTTTTCACCTGTAAAATGGGTTGATATGAGGGTCAGTTCAGGCACTGTGCGTAAAGCACATAGCACCGTGTCTAG
TAGGTACTCTCTGTTCCTTAACTGTCKTTCCTTGATTRCTCTTAAGATACGACARTGCCTCTTATATCGGCACCTTAGAATCACCTAGGAAATGTCCTAA
ATACACGTTTTGGGTCTCCATAGAGAACCTACTGTAGCCGACTCTCAACTTTGGGAGTCTCTTTTTTTAAGCTTTCCAGGTGAGGTGGAATATCACCTGG
TTTTGAGAAACATGGATGTAAATCTGATTTTCAGCATCTGGGAAACTTTTTTTGTAAGAGCCTTTTTCTGGGCCCCACTTCCAGAGGGTTTTTCTTTTTT
TKTTTTCTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGYGGCGCGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCACGCCATT
CTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAAGTTTTTGTGTTTTTAGTAGAGACGGGGTTTCACCGTGTTA
GCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCTCCCGCCTCGGCCTCTCAAAGTGCTGGGATYACAGGCGTGAGCTACCGCTCCCGGCCTTTTTTTT
TTTTTTTTTTTTTTTTTTTAAGACAGGGTCTCGCTCCGTCGCCCAAACTGGAGTGCCGTGGTGCGATCTCGGCTCACTGCAACCTCTGCATGCCGAGTTC
AAGCGATTCTCGTGTCTCAGCCTCCCGAATAGCTGGGATTACAGGCGCCCGCCACCAGGCCTGGCTAATTTCGCGCTGTTGGCCCGGCTGGTCTCCAACT
CCTGGCCTCAAGTGATCCGCCCACCTCGGCCCCCCAAAGTGTTGGCATTACAGACAGGAGCCACTGCGTCAGCCCAGAATTTCTGATTTAATTGGTTTGG
CCCCTCCCCTCTCCCTTGGTAGGTTGTAAAATCTTCCCTCCCAGGTGATTCTAATCTATGCAAGGATGTGAACCACTGCTGCCTTTGGTGGCAAGGTAGA
GGAAAAACAACCAAGTTCTGATGAGTTCATTCAAGACACACACAGGTATTATGTGACAGGCCTTTGGCTGGCACTGGTTATACCGAGGCAAATAAGAGCC
AGTTGTCATCCTTAGGACCCAATCTTATTAGGGCACAGTGACATGTGTAGGAGCGTCCCCACGCAGTGTGTATACCAGGAAGTAGTGTGTCTGGCATGAG
GTGTGTGTAGGTAGTTGGGGGGGTCGTGAGGGAATATGGTGGCACCCTCACAGTAACCTTCACTTCCTGGGCTCAAGCGATCCTCCCGCATCAGCCTGTT
GAGTACCCGGGACCACAGGTGTGTGCCTCCACACCCAGCTAATTATTACATGTTTTGTAGAAATGGGGTCTCACCATGTTGCCCAGGCTGGTTTGAACTC
CTGAACTCAAGCCAGCCTCCCTCCCGAAGCACTGGAATCACAGGCCTGAGGCACTGTGCCAAGCCCAGAGCGGTGTTTTGAGCTCAAGTAGAGGTGGGTG
GGGCAGGAGGGCAGTCTAGGTAGAGGGAACAGTGAGAGGAGAGACCCCCTGCATGGCCTGTCCAGGGGCCTGTGATCTTTGTGAGGGTCCAGGAATGTGA
AGGTTAAGGCAGSGAAGGGAGGACCCATTTCAAGGATTTCTGTGCCTTGCCGAGAAGCTTGGGCTCTGTTGGCAGAGCCAGAGAGTGGCATTCATTCAGC
TTGTGAATTCTGGAAGAATTTCTGGCTCTGGAGAATTAAAGGGACATTTCCAGCAGCAGAGCTCCAGTAGCTTTTGCAGGGACGGAGGCAAGCTCCTGAG
CGGGCACTTGCTGTTCCTCTCACCTGTACATCTGTTGGGGAAAGGCTCCTTCTCATCCTTCAGAGCTGAGCTTACATGTCACTGCCCAAGAGACCTTCTT
AACTGTGGGTGTCCCCTCGACCTTGTACTAGTCACCTTGYTTCTCTGCTTCTTCGTGCTTAGCCTTGGCTGTGTACTCCTCCTTGTTGGCCCTGTCTCCC
TTGCCCAGGTTGCAGATGTCATGGGGCAGCTTGTTCATCTGAGTGTCCCCAGTGCTTGGCACCCAGAAGCCATAAGATGAGCCCCTGTGGGATGAGTAAA
TGAATCACCTTGGGAGGGTCAGCCGCAGGCTTCTGTGGGTGGGTGGGTGGTGCACTGGGCCCCAGAGTACAAAGATGCACATGACCCGCTTCCGGCTTCC
TAAGCCCACCTCTGCCTCTGGCTCTGTGGGGCGTCTCCTCCTTTGCCACTCAGCCCCAGAGGTGCTTCTGCTTCCCTGCAGGCTTGCCCTGGAGCCTGGC
GCTAGGGCCCTGGGGCTCCCTTGCTCCTGCKTGCCCCCTGYGCCTGCCTTCCTGCTGCCTGGCCTTTCTCCCATCTGCTTTCTTCCTGAGTGGCCCCTGG
CCAGGGGACTCGGGTGCATACATGGTTTCCAAACRCCTTTCCTCCAGCCCTCCCGACTAGTGTCTTAAATCTCAAGCTGGCCTCTCTGGCTCCGCTGTTT
TTTTTTKTTTTTTTTTTTTAATTTAATTTAACTTTAAATTCCGGGATACATGTGCAGGATGTGCAGGTTTGTTACATAAGTAAACCTGTGCCATGGTGAC
TTGCTGCACTTGTCAACCCATCACCTAGTTGTTCAGCCCCCCGTGCATTAGCTATTTATTGTATACACCAGCTGAGATGCCAGGGCTTGGCTGGCTCTCA
GCTGGAGGGCTCACTCTCTGGACCTTGTGTCCGTCCCCGCTGGCCCTCAGTTCTCTGGATCAGGGTTGAAAGGCTGAAATTCTTTGGGTGTTAGCTTAGG
ATGCCTCTGATCCATCCTAASCCGACATTCCCTTGATCTCTCCTGATCTGTGAGCATCCTGGCCCTTCTTTTCTTTTCAGTTTTAATTTTTGCGCTGGCT
CCAACCCCTTTTCATTCCTGACTCTGGAAGTGACACTTGTTTTTCTCTTGGGGTTTGGGAAACTTTGTGGTTGTTCTTTCTAGGAGGCTGCTCTTTGAGT
CATTTCTTTTCCATATTGTTTCTCCTACTGTAGCAGGGCCATGGCCAGGGATAGAGGCTGTAGCTCCCACTGAGACCTCGGGGTCTGGTGGAACCCGGTC
TTGTGTGGGTGCTGTCGGCCTCTCCTGCTTTCCCACCTGCCTCACGGTTCACTTGTGTGCCTCAAAGGCACACATGTCCTAGCACTCCAAAGCCCACCAG
GGTGGGCTCCCAGGGGTGAGGTCGAGGTAGACCGGGAACCCAAGAGAGCTGGTGGGCCTTTCTTCTACCCCTCTCCCCTCACAGTCTCAGAGCAGCCCCT
TCATGGGAGATGGGAAGTGAGGGACAAGGTCTCAGTGTCAGAGCCGTCCTTGTTTGCCCTTCCCCGTGCCTCTTATGAAGCTCAGGCCTTTTGGCAGTCA
GAGGCCTCAATGGTGCCTGTGTCCACAGGGCTGGCTGTCCTCACCGTSAAGTCTAGATCTCCCTGCTAACTTACACTGTGCTCAAAACACACACACACAC
ACACACACACACACACACACACACACMCACACTGGCTGTCCTCACYGTCAACTCTAGATCTCCCTGCTAACTTACACTGTGCTCAAAAAACACACGCACG
CACGCACGCATGCACGCACATACACACACACACACACACCCATAGGCTGGCCATGGTGGGAGGCCAAGGTGGGAGGATCGCCTGAGCCCAGGAGCTCGAG
GCTGCAGTGGGCTATGATTGCATCACTGTACTCTAGCCTGGGCCACAGAATGAGACCTTGTCTAAAAAAAAATTAACAGAAAACACCCCATACGTGGAAG
TGTGGTATTCACATAATATGATGTTCACTTAAATTTGAATCCTTTGGTTTAAGTTTAGATTACTCTTAATTATCTTTTTAAATGACAAGCTCGTTGAAAG
AATAAAAAATCAAAGACGGCTTCTATTTAAAGGAGAATAGGAGAATGCTTAGGGGACATGTGTTCTAATTTTCTCTTCATTAAAAAGTCATTTAAGGTTA
TAATTAAAAAGAACATCTTTTAATTAATTTTTATATTTATTAAAAAAAAGTCTTCTATTGAAAGGTACAGTTCTTAGTTCTTCCCGTGTTAACTCACTCG
GTTCTCTATAACCCCAAGAAGTAAGTGCTGTTATTGTCCCCATCTAAACTGTTGAGGAAACTGAGGCATGGGATTAAATGACTTCTTCAAGGGCAGAGTG
GCTGGCAAATGGGAGACCCAGAAAACCTTGGCAGTTGGGCTTCAGAATCTTCACGACCAAATTACTCTCTCTGCTTCAGCTGGTTCCGGATTCTTCCCCA
GGGATGGTTGTGTCCTGCAGGGGACGGCTGGCAATGTCTGGAGATGCTTTCTGTTGCCACAGCTATGGGACTGGGGTATTGGCATCTGATGGGCAGAGGC
CAGTGGTGCCCAAGGCAGCCCCGCAACAAAGAATGATGCAGGCCGGGTGCAGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGA
TCAGTTGAGGTCAGGAGTTCGAGACCTGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTATCCCGGCATGGTGGCAGGTGCCTG
TAATCCTAGCTACTCAGGCTGAGGCGGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATTGCACCACTGTACTGCAGCCTGGGTGA
CAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAGAATGATCCAGCCCCAAGTGCCACCAGCAGTGAGAATAAGAAACCCTGATTCAGGCATGTTCTGTGA
AAGTCAAGAACGTAGGTTGACAGAGTTTGTTTTGTTTTTTAAATGTCTTTCTGAATAAATAAAAACTGTTCTGAGTGAGTTTTGTAGTTCCTTTGGAAAG
TATTCATTCTGTTTGTTTACATTTGTGCGCCTGCTGTGGGCCAGGCATGAGGCTACATGTCTGAGGGCCCAGCTTCACCTTCTAAGGGCTGGGAGGCTCT
TTCTATGCCAGCCTGCCTGCCAACAAGGCTCAGCTTCCACTGTTAAGGGTCATTTTGTGGATTTTTTTATTTTTTATTTTTAGGTTGAGTCTTGCTTTTT
CGCCCAGGCTGGACTGCAGTGGCGTGATTTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAGGAAATTCTCATGCCTCAGCCACTCAAGTAGCTGGGAT
TACAGGCATGTGCCACCATGTCTGTCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGCCTAGGCTGGTCTCGATCTCCTGGGCTCTAGC
GATCCTCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTACCCCGCCACTCCATGGATTCTTGAGGGCAGAGTTTTTTGGAGCCA
GGCTTCAAGCACATTTGATGTGTGCCTATGAGATAAAGACTGCTTTTAATGGCAGGCAAGGAAAATGCAAGTCCATCTCTTAACTTTCTTGAAGAAGCTT
GAGACACAGCTCTGCAAGGGGCTGGAAGGTTTCATGTTATTGCCAATGCTTGGTTTATCTGATTGCTGTTGCCATTCATTTTGAAGGAGAAGCAGGAGTT
GGTATACCAATATTCCCACTGTGCCAGCAGAGAGCGGGTTATCCTTACTAGAGAGCCAGAGAGTCAGAACGGTTTTTTTTTKTTTTTTTTTTTTTTTTTT
GAGATGGAGTTTCACAATTGTTGCCCAGGCTGGAGTGCACGATCTCAGCTCACCGCAGCCTCTGCCTGCCGGGTTGAAGCAATTCTCCTGCCTCAGCTTC
CCGAGTAGCTGGGATTACAGGCATGTGCCACCACGCCAGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGKTCAGGCTGGTCGCGAAC
TCCTGACCTCAGGTAATCCGCCTGCCTTGCCCTCCTGAAGTACTGGGATTACAGACATGAGCCACCGCGCCCGGCCACAGAGCTGCTTTTTTTTGCAAGT
GATATTGGATGGTGGTTGATGTACAAAGTAGGAGTTTGTCCTTGCTACTGATACCGTAGCTGGTACAAGGTTTTAATCGTTCTCCAAGCACTGTCACAGG
TGTCATGTGTCTCGCCTTTTCAGCAGCTCTGTGAGGTGGCAGTAGCCCTGAGGAGACTGGCTGGACTCAGCTAGCATGGGCTGCTCAGGTCTTCAGCGTG
CTGAGTGAGGCATTCCTGCACTATGACAGAGACCCAGCTGCCAAGACTTTGTCAAACAGACCAGAAGCCAGCAGTTCATGAAAAGACCTTGCTTGCAAGT
TGTAGAATTTTTTAGAAAATTCGTGCTCTCTGTATTTATTTTCTGTAAAATAATTGATAGGGAAAGAATGTTCACATCTTATCATCTAGATGTTGCTGAT
TAAATAATATAACTTTCTGGGTTGGCATGAGTAGGTGAACTTTTAGGAAACGCAGCCTACCCTTCGAATACCTCTTGTAGCACCTGGCTGTTTCCCTTTT
GAAATAATTGTATGTTTTCCTGGATACCTTATTACCTGGTGACACGTGTTTCTAGTTATTGACCTATGTTTTTAATTATAACTTTGGGTGGTGGTCTGAA
ATGAAATGTTAAGTTTGACGCAAAAATMGGACTAGTTTGTGTAACTGATTTGTTCARAATAACAGCTTACATTTCTCAGAGCTTTTTGTATGCCAAGTGC
TATGCGAAACCCTGGATGTACAATATTCTTATAGTAGCCCCTGAGACCAGTGCTAGGATTATTTCCATTTTGCAGATGAGGGGATGGAGATTAAGGAGTG
GGGTCACTTGACCAAAGGTGCACAGCGCACAGCTAGRTGCCCTATGGGAAGGTCTTACTGCATCTCTTAACTACCTCTTGGGACCAGTTAGGAACCAGTG
CTTAATGAAACACTTTGAAGTTACATCTGTGGAAAGAATAAACATTTTAGCTGGGCAAGGTGGCACGGGCTTCTAGTCCCAGCCACTCAAGAGGCTGAAA
TAGGAGGGTTACTTGAGTCCAGGAGTTCCAGTCCAGCCTGGGCAACATAGTGAGACCCTGATTCTTTAAAAAGAAACACAAATAAATAAACATTTTAAGA
GATTATATAAATTAGATATTATGAATTTTGTCCCTACATCGTGGAATAAAACCAAAACAAATACACAGCAAAATGCCTCTAGATTTATTTATTTATTTAT
TTATTTTTGAGACAGAGTCTTGCTCTGTCGCCAGGCTGGAGTGCAGCGGCGTGATCTCGGCTCACTGCAACTTCTGCTTCCCTGGCTCAAGCGATTCTCC
TGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACGTGCCACTGTCCCCAGCTAATTTTGTATTTTTGGTAGAGACAGGGTTTCACCATGTTGGCCAGG
ATGGTCTCCATCTCCTGACCTTGTGATCTGCTCCCCTAGGGCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCTCCCGACGGCCTCTAGATATTT
TGAGTGATTCAGCAAACCTCCTAAAGTTGACCCCGTAGCTGGGGTCACAGTCCTCTTTCTCCTTCTTCCCCCYACTTCCTTCTTATATCTGGCTATCTGG
GAGAGAAAAAATTTAATACAATTGATTACTTTTTAGAAGAGTTAATTTTTACTTATTACTGKGGATTTTTTKTTTTTTAACAGTCACACCGAGGAGAAGA
CTCAGTGGGAACATCCAAAAACTGGAAAAAGAAAACGAGTGGCAGGAGGTTTGTATGTTGTTGTCTAAGGATCTTGGATGGAAGCATTAAGTAGATGAGG
AAATGTCACTGGCAGAGAGGTGACAGGTTATTGTGTGTTTAGGGAGGGCTCTCTGGTAGAGAACCAGACTCCCACTCTGAGGAGCTTATGGGATTTGGCA
GAAGAAGATGATGAGATCATAGGGTGGAGTGAGGATGATTTCTTACTGGTCTTAAAGTACCAAAATGGCCAGATGTGGTGGCTCATGCCTGTAATCCCAG
CACTTCGGGAGGCCGAGGCGGATGGATCACCTGAGGTCAGGAGTTTGAGACTAGCCTGGCCAACATGTTGAAAGCGCATCTCTTCTAAAAATACAAAAAT
TAGCTGGGCATGGTTGCATGCGCCTGTAATTCCAGCTACTTTGGAGGCTGAGGCACGAGAAGTGCTCAAACCCAGGAGCTGGAGGTTGCAGTGAGCCAAG
ATCACACCACTGCGCTCCAGCCTCGGTGACAGAGTGAGATGCTGTCTGAAAAATAGCGACAACAACAACAACAAAAACCAGAAAATAATTGAGGCCTTTG
ATTCACAGTTTATGATGTTTTCCTATCGTTGCAGTGTTTATAAAATTGTTCTTGGCTATACTATGGAATTAAATATATAAGTATTTGGAAATTTCGTAAA
GATTACCATGACTTCTAGGTGATTCTGAGATAATGTATGATCCACGGAATAGAAGTATAAGAAAGGGACAGGCACGGTGGCTTGTGCTTGTGATCCCAGC
CCTTTGGGAGGCAGAGGTGGGAGGATCACTTGTGCCTGGGAATTCGAGGTGAGCCTAGGCAACATAGTGAGACCCCATCTCAAAAAAAAATATGAGAAGG
TTCCTGCCCTTAAGAGGTTTAGGATCCAGCTGAAGAATCAACATGTGCACATGAAAAAAAATGGCCGTGCCCTCTAATGTCATAKGAGGTCAGCGTATGA
ATGACGTTGGGTGCCTGCCCTGCATATACATATGTTCTTTGAGCTCATTCAAGGGAGAATTCCCATGGATTGGCACAACCAGTATGGTTTATAGAGCGAT
CAGGAATAAAATAGGTTTTCTTCAAAACAAGAGGCAAAAATGTGGAGCCCAGGGTGGGATCAGGGGCCTTCTGCAGCTGTCGCAGTTGGAACATGTGACG
AAAGCCAGTTGATGTGACAACTGCTGGGTGGGAGGGACAGGCTTGGGGGCGGGGCTGGGAGGGCTCCTTCYCTTCCTGACCCAGGGATGGTCTTTACTTC
TCCCTGGCACCTGTAGACCTGTCTTTCTTGTGTTTCAGATTTGCCATACGGATGGGAACAAGAAACTGATGAGAACGGACAAGTGTTTTTTGTTGAGTAA
GTGTCTGCAAAGAAACCACTCTCAGCTGTTTTGCTTTTTAATAGGAATTTTTAATTATAAAAGTAATACATAGTAACTGTAGAAAAATACAAAGTATAAC
AGTGTGTATCTGTAATCTTAGCAGAAGTGACTACTTTTAACATCGCTGGAACTTTTAACATCGCTAGATTTATTCTTCTATTTTCCCCGCACACGCATCC
TTAAAAAAAAAAAGTAGGGAGGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCGAAGTGGGTGGATCCTGAGGTCAAGAGATCGA
GACCATTCTGGCCAAYATGGTGAAACTCCGTCTCTACTAAAAATATAAAAATGAGCTGGGTGTGGTGGCACGTGCCTGTGGTCCCTGCTACTCGGGAGGG
TAAGGCGGGAGAATCACTTGAACCCAGGAGGCGGAAGTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAATGAGACTCCTTCTC
AAAAAAAAAAAAAAAAAAAAAAGAGGGAATGCACTGTGTGGACTGTTTAGTAACCTGCTTTTTCCATGTAATATATTATGAGCATTTTCTTGTATCCATA
TCTATTTTTCAAAAAGATGCTATTTAGCAGCTCTAGAGTTATTATTTTGTACAGATATACTATAATTTATCAAATTGCCTATTGGACATTAATGCTAAAT
TCCTGTTATAGAGAACCTATAATTATAAATAATGTATTGAGCATCCTTATCTGTAAGACTTTTTCACCTCTCTGATTCTGTCTTTAGGATAAATTCCGGT
ATCACGCAGCAATAGTAACCACCTGTCCAACATATAGCATGAGCCAGGCCTGATTCTAATCATCTTGTATCTGTAGCATTAGGTCATTGGATCCCCACAG
TGCCCTGAGAGGTAGTATTGTTATTATCCCTAGCTTACTGCCAGTGACACAGACTTGAGGGGGTAAGTGACTTGTTAAGGATCCCACAGCAAAGAAGTAG
CACAGCCAGGCTTTGAGCCCAGCACCTGCTCCAGGGACTGTACTCTTGACCACCGTAGTTAAGAGGAGAATTAATGTTTCACAACTGTCAACATTTAAAT
TAGAAGCTTGAATAGTCTTTGACAGGATTAGGATTGGTTGGTTAATAGAAGTTGATTTGAGCAGGAATTTTTTTTTTTTTTAAAGTTATGAATGTAACAT
AAACGTTTCAGTATTTGATTCAAGTACACCAACATTTAGGGGTCGGGCCAGCCCTCCTCTGAGTGTGAGTCCACTTGCATGGATCCAGTGTGGTCTTCCT
TCCCCTAAGCATGCCTGTAACATAACATCTACAATTTCTACTTTCATTTTATGTGGGCGAAAGAGTACCTAGGTGCCGAGGCAAGAGACTGAAGGCACAA
ACTGTTTCAGTATAATAAAGAAAGTAGTTAGAATAAGAATAGTCATAATACAGGTTAGATATGGAGATGATCATGGACAATTATCAATCATTACTATAAA
CACTATTAATCATTAGCTTTTAATATTACTCTTTGTGGCATTACTAACATAACCTAGGAATAACTGGCATGTATAGGCTCAGGTGCTAAAGGGACATTGT
GAGAAGTGACCTAGAAGGCAAGAGGTGAGCCTTCTGTCACACCCGCATAAGGGCTGCTTGAGGGCTCCTTGGTCAAGCGGTAACGCCAGTGTCTGGGAAG
ACACCCGTTACTTAGCAGACCGCGAAAGGGAGTCTCCTTTCCTTGGAGGAGTCAGGGAACACTCTGCTCCACCAGCTTCTTGTGGAAGGCTGGGTATTAT
CCAGGCCTGCCCACAGTCATCCGGAGGCCTAAACCCCTCCCTGTGGTGCTGTGTTTCAATGGTCATGTACGTTGTCCGCTTTCATGCTCCTCCCGTACTC
CTGGTTCCTCTTTGAAGTACGTAGTAGATAGTGGTAGAAGAAATGGTGAAAGTTTTAAAGTCTTTGATCTTTCTTTTAAGGGCAGAAAAGAAAATGCTGA
CGTATGCTGCCTTCTCTCTCTGCTTCGGCTACCTAAAAGGGAAGGGCCCTCTATCCTGTAATCACGTGACTTGCTTCACCTTGTCAATCACTTAGAAGAT
TCACCCTCCTTACCCTGCCCCCTTGTCTTGTATGCGATAAATATCAGCGTGCCCAGCCGTTCGGGGCCACTACCGGTCTCCACATCTTGGTGGTAGTGGC
CCCCACCCTGGGCCCAGCTGTTTTCTCCTTATCTCTTTGTCTTGTGTCTTTATTTATTACAATCCCTCGTCTCTGCACACGGGGAGAACACCCGCTAAGC
CCAGTAGGGCTGGACCCTACAACTTTAAGGTTGAGCAAACACAGTATTTTCAAAGAATCTGATTGCTACATCATTTGGGAGTTTTATGGTATTTTTCTAG
CATTTTCACTGTAGTTGATTGAACCAAAACTTTTTTTTTAGCTGCTTGTCTTTGAGGCTCTCCAAAGCATTCGACCACATTTTCATAGATACCACTGACA
CTATTTTTCACCTCCCATGTTATCAGTTTGTGTAATAGTAGCTTGCTGGTAATGTAGTTACAGTAACAAGTTCAAATGACWTGTGTGTTTTTTGAGCAAA
CCTGGTGAACTTTTGGTGCAAAACTGATATTGAGAGCAAATAGGCCAAAGCTTGCTTGAGAGAAGTCTCCCAGGCCACCATAGGCAGCCCCAGGAAGACG
GGGCTGTCTAGCAGTTGGATAGGTGGGAGTGCCTATTATTTGTTAAAAGGCTTTTTGCCTAACTTGTGAAAGTTTTTTTTCCTCAACTAATTAAGGGTAT
CAACGCATTGGTTGTATGTTGAAAATGTTGAAAATGTTTTTTTTTTTTTTCCAAGTTTTCTTTCTTTTTTTTTTTTTATACTGGGTCTTGCTCTTCTTAT
CCAGGGCTGAGGTGCAGTGACACAGTCACAGCTCGCTGCAGCCTCAACCTCCTGGACTCAAGTGATCCTCCTGCCTCAGCCTTCTGAGGAGCTGGGACTA
CAGGCTCATGCTGCCATGCCCAGCTAATTTTTAAAGACTTTTTTTTTGTAGAGACTGAGGCTCAGTATGTTGCCCAGGCTGGTCTTGAACTTCTGGCCTT
CAGCGATCCTCCTGCCTTGACTTCCCAAAGCATTCATATTACAGGCATGAGCGACCACACCTGACTGAATTTCTTAAATTTTTTATGTAGTCAAATCAAT
TTTCTCCTGTGCAGTCTTTGCCTTTGCATTCACGCTTGGAAAGTTACTCCCTGAAATGGGTATTAATCAACCAAGAGCAGCAGTTCTCAGGCATGGTTCC
TGGACCAGCAGCATTAATATCACCTGGGAATTCAATAAAAATGTACATTCCCAGGCCCCCACCCCAGACCTACTGAATCAGCACTGGGGTGGGGCTTGCA
ATCTGCGCTCKAATAGTCATCCAGGGGATCCTGATGTTCCCTAGCTTGAGAGCCTCCCGTCTAGAGCAGGGGCTGTCTCCTTTGCCTGTAAAGGGCTAGA
TAATATGTTTTAGGATTTGCAGGGCATATGGTTTCTGTTGCAATGATTCAACTCTGCCTTTGTAGTGCTAAAGCAGCTATACACAATATACAAGTGATGG
GCGTTGTTGTGTTCCAATAAAACTTTATTTACAGAAACAGGCAGTGGGCCAGATTTGGCCAGCTCCTGGTCTAATCTAGAGGAGTAAGCAAGGGCTTTGG
GGGGAACCTGGAAATTGGCTCCCCTGGCTAGTTCTCACTTTTCTGAGCCTGTTGCAGTGGGGTGCTGGTAAATGTTTAGCACCAGGTCTTCAGGGGGAAA
AAAGCCACTGTTTGTTTCCACAGTATAAATACTTTGGCCATAGCTGATTTCATGCTGCCAAGGTGAAGTGAGGAATTGGGAAGAGATAGTCACGTTTGGC
TCTTGTAAGCCAGTTTGAGCCAGTCTAGCATAGAACTGCTCTGTTGTGTGTGTATAATATTGGGGTCACAAATTAAGGTTGTTATAAATAGAATGAGGAT
GAGGATGGTAATAATTAGAATAAAGGTTGGATTATTACTCTTGAGTCTTGGTACTTATAGGGAGATGAGTATATATTTTAAACTAATTTTACACACACAT
ACTTTTAAAATATGAAATTTCATCTATATTTAGAGGCTTCTTAATAGTTTTTAAGATATTCTGAGGTCTTTATCTCATATCCCAAGAATACATTTAAGAT
ATAAAAAGTAAATTCTATTATAAGGAGTACTCTTTTCATCCATATGTGCCTTTTTTTTTTTTTTTTTTTTAATGGTTACCCAGGGTCTTGGTCTGTCACC
CAGGCTAGAGTGCAGTGGCACAATCATGGCTCACTGCAGCTTTGATCTCTTAGGCTCACGTGATCATCCTCCTACCTCAGCCTCCCAAGTAGCTGCGACT
ACAGGCATGTGCTATCACACTTGAAATTTTGTTTAGTGTTTGTAGAGATGAGGTCTAACTATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGTGG
TCCTCTTGCCTTGGCCTCCCAAATTGCCGAGATTACAGGCGTGAGCCACTGTGCCCAGCCTCCAGTATATTTTAATACCATTTCTACAAGATTTAGATCA
ATTCCAAATCAAAATGAGTGCTCGTAGGAGGTATGAGTGCAGAGTCTTAAAATGAAAATCGTTAGAATTTTGGTAGTTGGCAGGTTTCTTATTTACAACT
AAGACTTTATCATTTTGAGTTTTCTACTTCTCTACGTCTTTAGGCCCTTGCACAGGGCTAAGAGATTTAATTGAAATCTACTGAAAAGAGTGGCTGACAG
ATCTTATAGCTACATTTACATGAATTACATAAAAGCCCAAAACCTTCTCAAGAAGCCTTTTTTGAGATCTAAGGATACATGGCAATAGTTATTGTATGTT
ACAGCGTATGTTATAGGCAGTTCTGAAGGAAAGGATTCGATGACTATCTTTTTTTGGCACAAATGTGATCCTTCTGGAGGCCAGAAGATAGATTCAGTGG
GCCCCAGWTCTTTCAGGTTTAAKGAATAAGCATTTTGGTCTATGAAAAATGGGGTTTKCCTAAAGTATAAGATTGTCTTATATTTATAAATGCYTGTGTT
CATTGCTGTGGGTTCACTGCTTTCTCTTTTGGGCAGCCATATAAATAAAAGAACCACCTACTTGGACCCAAGACTGGCGTTTACTGTGGATGATAATCYG
ACCAAGCCAACCACCCGGCAAAGATACGACGGCAGCACCACTGCCATGGAAATTCTSCAGGGCCGGGATTTCACTGGCAAAGTGGTTGTGGTCACTGGAG
CTAATTCAGGAATAGGTAGGCTCTTCACTTMGTTATTTATCTTTGGGACTGCTATAATGAGATCCACTTAGATCTAGCTATAATGGAATTTTGTTTAGTG
GTTCTCTGATTTAAACATGACTTTTATCYTTTTCAGMTATCGTTTCATTAACATCACTACCTCTTTTTAAATCCTAATGTTGTCATGGAAGCCTGTGTAG
GGGCTGACCTTGAAGTCTCTGAAAGCTGAACACTCAGCAAAAGACTGTGGCTATTTTGGTATTCAGGGATGAGAGACAACAGGCTCCGTCTAAGAGTTTT
TGACCTGGTCTGCATGGTGTATGGGCATATTCCAATTACCTGGGTTATTCAAACCAAAATTGATTGGTAATAGAATACGGGGAACAACAAGGTATTATGT
CTTTGGAACAAAGGATACTACAGGTTTCGACTGGTCACTGAGCATATCATTTTCTTTTGGGCACAGGATCTTATTTCTCTATAAAATTGGAGAATGAGTT
CCTGTCTTCACCTCTTAATTGCCAATGTTTACCCACAGGGACTATCATGGGTAGATGGCTCAAGAGGGTATCCTTGCTTCAATATGATGGGCCATTAAGG
AGACAGGAGCAAGGCGGGAGCAAACCATAACTCTTCATAGGATTTTATTCTGATTTTGCTTTGATCTATTTACATAAGTATCTGAATCAGTGAGAACCAC
CTGCTTTGAGTTTAGATATGCATCTTCAGATTTGTCGACATATGAAACGTTGCATTTGGCTGTCTTCTGTCAAGTTCTCTCTGTCCTTTTGGTCCCCCGC
AGCCCTCACACGGCCCCCTTGATGCCCTCCTCTACTCATTTGTTTCTCTTTCCTAATTTTGTTTTTATTTTTATTTTTTGTGGGTATATAAAGGTGTCTA
TATTTATGGGGTTCATGAGATGTTTTGATACAGGGATGCAATGTGAAATAGTCACATCATGGAGAATGGGGTATCCATCCCCTCAAGAATTTATCCTTTG
AGTGATAAACAATTCAGTTATACCCTTTTAGATATTTTACAATGTRCAATTAAGTTATTATTAACTATAATCAACTTGTTGTGCTATCAAATAGTAGGTC
TTATTCTTTCTTTCTATCTTTTTTGTACCCATTAACCATCTGCACTTCTTTCTTAATTTTGAACAATTCCTTGAAGCTGCAGAAATATTTTCTAGCATGA
TTAGGGAGGCACAGGAGGTAAAAATACATTGTTCAAGGGTCAATTATTGTGTTGTACAAGGTGTGAAATCTACCAGGTTGCCATCCGAGTGGAGAATTTT
TTTASTGTACTTGCCTATGAAGGTAAAGAAGCAAATGGAAATTTTTTTTTAAGAATTGAAAGGATTTTATTTCAAATCAACTCTCATACCTCATCCTGGG
CTCCAAATATGTTCAATCCACTTGTCTGAACTTCTGCATTGGAGTAAATTTTATATAATTGTCATTGAAGTCAAAACTGATGGCGTAATATTTAAAACAA
TGGCTGGATCCCCAATCTAAGAAGAATACATTTTGTTGATCATATTAAGTACTGTTACAGTGAATGCATGGACCCATACAATTGTGGAATAATTAAGAAA
AAAGGACTTAAGGGCTTAAAAATGTCTTTTTAACAATTTAACAAGTTAGCCAGAAACTTTAAAGATCTTATTCTCTTAATCTTCTAGCTAGACTCTTTTT
CTGTAATGAGTAAGATATGTGACTACTGATTGTTTTTTGTGTTAAGTGTTCGAACTGCTCCATGTGACATTAGATAGCAGACTCTTGAATAGAGCTAATG
CTCTTTCAAAGATTTGCAACAGCAGACCTGCGACATTGTAATCCAGGACTGATAGAGTTGGTTCAGAATATTAAAAGGGTGATATCTAGTTAGATACATA
AGTCTTGATGGAGAGGAGGAGATTCTGAAGCATTGAGAATAAATTTGTGGTTGCTGAGAATGGCCCTCACATGTTGGAGTAAAGCCAGAAACTCTTTGTG
CCTCTTCACAGCTCCCACTTCCCCCTAAGACTCTTCCTTCCTGATACCTATAATTCATTTTGTGGACACTGCAGGAGGTGTCTGCGGTCCAGTTGGAGGT
TGTGGCAAATTGTAACGCTCAGGATGGCACAGATGTCGCACAAGGTCTTAGGGAGACCAGCCTTTCCTATTCAAGTGCCCACAGCTCTTTCCCCAGCTGT
CACCTTCCGCAGGAATGGCCTTTAACACTGTCACCTCACCCCATTCCCCTCCACTCTTGGGAAGCATACGTCTAGGTGAGTGGTGAAGATTTTTATTCTG
MATTTTTGAAATAATATCGTACTGCAAGTTCCAGGCAATCAAAAACTCACAAATCACTTGCACTCTGCAGCAGTGGTATCAGGTCTGAAGAAAGGAAGAG
GCTGCAGATAGGCACATGGCTTTGCTAAGTTAGCTTTTATATCCTGCGTGGCTGCCTTAGAAAGTGTCCTTGCCCAAGTAGGCTGTGGCTTCTAGATAAA
GTCCTTCTACTAAGCTATGAAACATGCCAATTTATAAATTGCTATCACTACTTTAGTTCCGCTCATTTAAAATGAAATAGCTGAATGCCGAGTGAGTGAA
TTGGGCATCTTTACTTCCAAGACTTCTGGGGCATTCAGGAGTCATATTCTATCTAAGCTTTAATGGTGTTGGTGTTCCCTTTCCTTTGGCCACTCAAGGG
AGCCTGTTTTCTTTGGATAAACCGTGAAATCTTTAACCCTGTGAATGTCCGTTTTCTCTAAGGCGGGGTGGGCTGAAACATAACATAACAGGATTTATTT
TGAAAGTGGTGACTCCACAATAAAAACATAGATATCTAATTTGCCTTACAAAGGCCGATTTGCAAATCTAGTATTTCCAGTGGTTCTTTCTTTCTTTCTT
TCTTTCTTTTTTTTTTTAAATGCCCCATATGACGCTGCTTTGTTGGAATTGCCATTGGTGAGGATCTCACTGATAAAGAAGGGGACATCCCTCCCTTGAT
AGACTTTAGGGTTGCACTAGAGCCATGCCCCCTTTGAAGTGGCCTCTAAGCAAACTCTGTCTTGTCATCATTTTCCTCTCTGCAGCTGTAAGTGATACGG
AGCTGTATTTTGAGTTTTTGATACTGATATTACTAAGGCAATTGGAGGGATTCTTAATTCATCTAAAAAAAATCAGGGATTCTGACAGATAAAAGGATTT
GGAGGAAATGTCAGAATAAAGCATTGTGGGTTCATGAAGTCCTAGGTTTTATAATTAAGGTTTATAGGCAGGTATTACCGCTGCTGACTGGATTCAACTG
TCTGGATTGGAGATGAACAAACTGCCATCTCTGGGCTAACTCTGACCCACTGCCTGATTTTGTAAGTAGAATTTTTTTTGGAACACAGCCATGCCCATTT
ATTCCCATTCCTATAATGTTGAACTACTGTTTGTGTATATTCAGTTATCCCAAAATAATATGGCCCTTTGCTTGTTACCAGAAGAGTCGCCCAGTTGTGG
CAGAGATCATCTAGCTCGCAAAACTGTAAATATTTACTCTTTGGCCTTTCCCAGAAAAAAGTGCSGACTGCTATGTTAGATACTCCAGTTCATTCAAAGT
GATATCACCCTAACATTCTCTAAATTAGCCACAGCTTAGATGAAATTTAGGCAAATGGAAYGCCCCAGGCCCCAGGAAGACTGTGGCAGCACATTGTATG
TAACTGTTGGGGATGTTGCCTGAAACCCCCSCCYTTTTTTTAGGCAGCTGCAAGGATTAGAATGTTGCCTCCTCAGAAACTAACACTCTTCTCTCCTTGA
CCTTTGTTTAACCAGCTTTCTGAACCTGAAGAACTTTGTAGATTGAAAGCTGTAGCTTGTGGACCTCTCTCTGTGGAGATCAGCATCTCAGTATCCAGGG
GGAAGCCATCTCTTCACCCAAAGCTTCCGCTAGGAGATCAAGAGGCCCGGAACCCCGCAGTCCTGAATGCTAACCAGTAGAGACAAGGGAGGAATTCATT
TCTGTTTGTGTTCAACATAGACTGAGCAGGAAGGRCCAGGTGTTTTACGACTCTTTGGAGTTAGCAGCTTGTTGGCTCTGATTTGGTAAAAGCAACGGAA
ATGCCTTCAGCACGGTGAACRTTACATGCAAATGTTGGGAAGTGTTAGGAAAGGGAATTTTTTTAGGCGAGGGAATTTCGCATTGAGGAAGGTCCCTGCT
TCGTTTTTAGACACAGCCTATCAGTCAGCTAATTTGGCTATGCATATAAATACTTTAGTATAAAATGCTGCCCCCTGCTACCTGCAGGCTGACATGTTGC
TCATCAAAGGCAGGATCCTTCTAATGAGGGATTAGTTGGATGCCTAAATGTGGGACCACCTACTCTGTTCATTGTCTTAATTAGCTAGATGTTTGTTGGA
GCGCATGCAAATTATTTTCTGTAAGCAGACAGATTTATTATCATATTTACGGAGTGACATCCAGGGTTTGTGAGACATCCATTAAATTTTTTTTTTTTTT
TAATGTTTGAGATGGGGTCTCACTGTGTTGCTCAGGTGTTGGTCTCAAACTCCTGGGTTCAAGTGATCCTCCCACCTTAGCCTCCCAAAGTACTGAGATT
ACTGGTGTGAGCCACTGTGCCCAGATGCTATTAGCAAGTATGAACAAATTAGATATTTTCAGTCTACTCTTCTGTGGTAATGATGATAAAACTTCTTAAC
TTTCAGTCCTAAACCAGCAGTGGCTAAAACTTGATTTTTAAAATTTTTTTCAGAGTTTGGTCCAGATGAAGTTTCTTTCACCTTGCGAACCTTTAGAACG
CTGGGCTGCATCATGTGTGTTGTAACTTTAAAGTTAGAATAGCCTAGCTTCGTTACAGTTTTTGAGCCAAAGGACCCATTAACAGAAACAAAACTTTTTT
TCCTGCAAACAAATACAAGCTGGCCACACTGGTAAATACCAGTGAAATATATTTTGGGACTGACACTTGCATTTTCTATTGGTACTTATGTCACAAAATC
ACCTCTCTAACGTGTATTACATGGACCTATATATATGCATACTTACATATCAAAATGTATATATTTTGAGGTATAAAAAGTACGTGCTCAAGGTATTGGT
CACTCCTCAATTTGTTTTCCTTGAAACAAAATGAAGGTATAAATATTTCAGCCGGGCRCGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCCGAG
GCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGCAGTGGCG
GGCGCCTGTAGTCCCAGCTACTCGGGARGCTGAGGCAGGAGAATGGCGTGAACCCGGGAAGTGGAGCTTGCAGTGAGCTGAGATTGCGCCACTGCAGTCC
GCAGTCCGGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAATTTCATGCAGGGAATCCCAAAATGTAATTATAGTGTGATGTTGAA
ATTGATTGTCTTAGCTTAGAGAGCCTACTTTTTAAAACTTAGGGTCTTGTTTCTAAATCATGTGTTGAAATTACAGTGTGAACTGTAGTTGCCATACTCT
TTGATCCTACAAATTGTCACCACGATGAATTCATATCTTGTGCAAATTTTACCAGTTCTACGTGAATAGAAGAAAATTACTTTTTCTTCATGTAGAGAAG
GGTATTCATTCCTAAGATTTTAAATCCACACTTCCCAATTATGGACTACGCCAGCTTCCTTTACACCTTTGCTTCTTTGTTTTCTTTTCCATACCTAAAT
GTTACTAAATTTTGCCTTTGAGCCTAAAGCATGTCATTGATGGTTTTTTTTTTTCTAGTTATTCCAAAAGGTCCCATAAATCTGGGGCCATAGCTAACTT
ACATTTAGTCATTTTCATGGGTAAAACACACTCATATGAGATCATTGCACTTGGGATCTTGAAATGCCTGATTAGTTTCCTTTCTGATTGTTGACCAGAC
TTAAACTAGTGGGATCTTGGCATTTATCTTTTTAAAAACCTGGTGCTCATTAAGGAAAGGAAAATATTCTGAAATAATCGAAATAACCTTTTGGGCATTG
GAACTCCATTTTAAATTAAAAACATTTGTGCCTACTATTATCTTATGCTAAATTATACCCAGGTATTGTAAGTAAAATTATTTTGAAGTTACTTTGTTCT
AAGAAACTATGGAGATTCTTGACAGTGTTAGACAAAGTCCTTAAATGACATTATATAAAAATTGAGAATTAGTACCTTATGACTTAACCATTTTACACTG
AGATATTATTGGACATTGAGTGTACATGGAAATCACGTGATCAAAGTATTTGAGAAGTAAATATCTAAAGGAAGAGACCAATTTAAAACATTCTAATGAG
CATCATCTCATAATTTGGTAATCTCATGTAAAATGCTTATAATAGGGGTGTGTGTATGTTATATATATTTTWAAAATAAATTTGTAATCATGTATACAGT
AGTCCCCCCTTATCCGTGGTGTTTCAGTTTTTTTTTTTTTGAGTCAGAGTATTACTCTGTTGCCCAGGCTGGAGTACAGTGGCGTGATCTCAGCTCACTG
CAACCTTTGTCTCCCAGGGCCTGGTGATTCTCATGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCACACCACCACTCCCTACTAATTTTATGTTTT
TAGTAGAGACAAGGTTTTGCCATGTTGTCCATACAGGTCTTGAACTCCTGACATTAGGCAATCTGCTTGCCTCAACCTCCCCAAATGCTGGGATTACAGG
TGTGAACCGCTGTGCCTGGCCCGTGTTTCACTTTTTGAGGTTTCAGTTACCTGAGGTCAACAGGCATCTGAAAATACTAATTTTGAGAGAGAGAGAGTGT
GAGAGACCACATTTACATAACTTTTATACAGTACATTGTTATAGTTCTATTTTATTATTATTGTTGATCTCTTACTGTGCCTAATTTATAAATTAAAATT
TATCCTAGGTATGTATGTATAGGTGAAAGCATAGAATACATAGGGTTTGGTMCTATCCAGTTTTCAGGCATCACTGTGGGTCTTGGAACGCATCTCCCGA
GGATAAGGGGGGGCTACTGTCAGTGTGAACCTGATTAGATCTCAACTGAAACTTTTTTGTCACATGAGGCCATCAGTTGAATTTCATGCCTGCATGTAGG
TTTAGATTTTAATTACTTTTTTATGGTGTCAGCATAACAAATGAGAGTCATACAAACTATTGTTTAATGACAAAGTGGGTCAAACCCATAATTAAAAAAA
TTAATAATAGATTTTTGTTCTACTTGAGGTTTTGTAGCATTACGTAAAGCTTGAAAACTTGGAAATTGTTTTACTTAAAACCCAATTAAAATAATTTGAT
CTTTTGCTTTTACATCATAGAGTGGCACAATAAAAATTGTAATGGAAGATGTTATTTTACATTTTTTTTCTTTTTTTTTTTTTGAGACGGTGCCTTGCTC
TGTCACCCAGGCTGTAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTGAAGTGATTCTCCTGCCTCAGCCTCCTGAATAGCTGG
GATTACAGGCGTGAGCCACTATGTCCGGCTAATTTTTGTATTTTTCGTAGAGACAGGGATTCACCATGTTGGCCAAGCTGGTCTTGAACTCCTGAACTCA
AGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTAGGATTACAGACACTAGCCACCATGCCCGGGGGTGTTGTACATATTTCCTTTAATCTAAAAGCAGAA
CCATCTTTATATATTTTTATTTTTTTCCACTAGAGGGCTCTGTTGCCCTTTGATATAATTAAACAAAAGAGGCAGCATTGCAATATAGTTCTGTTCCTCT
CAGTCCATCTTGCTTTCATTTTGGTTAAATAATGTCTTTTACTTTTCTAACATATCTTTTAGGTCTTCTAATTCTCTGTGATGAAGTTCAAACTGAAGAC
TGTTACTAGTGTCGTGTTTGTTTCTTTTTCTCTCTCTTTTGTTTTGTTTGTATAAAATGCCRGGGATGAAGGGATCCACTTAATAAAAAGGCCCATTGTG
TTCAGGGAGCAGCCTGTTCTGCCAAATCACACAAGGGCATGTGTTTTCATGACATTATTGCTTTTGAGTGTGCTGGCCTAGCAATAATATGATTTTTTTT
TCCTAAGTGGAAATTGTAATATTTAAGTATTAATACCTCTGTTTAAGGTTCATTTTGAACGCCTTGGTGACCCTATGTTTTTTTCTTTGTTTTTTGTTTT
GTTTTTTTTTTTTTTKTTTTTTTTTTTTKTTTTTTTGAGATGAAGTCTTCCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCATTCTTGGCTCACTGCAAC
CTTCGCCTCCCAGGTTGAAGCAATTCTTCTGCCTCAGCCTCTCGAGTAGCTGGGAGTCCAGGCACCTGCCAACACGTCTGGCTAATTTTTGTATTTTTAG
TAGAGATGGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCATGATCCACCCGTTTCGGCCTCCCAAAATGCTGCGATTACAGGCGTGA
GCTACTGCACCCGCAACCCTATGTTTTTTTCTAAGAATATAGTGTCCCTTGCCCCCTGCTACAAGCCTTACCCAGTGTTACATAATTTATTGTAATTAAA
TTGTTTATTAATGATACATTCTTGCTGTAGAAGAAAACGTGTCCTTTTGGGCTCAGTACAGTATATGTTTCTTAAGTAAGAGGGATCATATTAAACCAGC
TACTTAATGTGAAGCAGATAGCCAGTGTTCTCCATGTACAATCTTAGGGAGGGTAATTTTTGTTTTGGCTGTGTAATTATGGTTTGAGGCAGCCCATTAA
TCGCATATTTCAGCTGTCAAATAGAAATTTGGCCCAGAAAGGAATACACTTTGGCTTTACAAAACTGCTTATTTTCAAATTTTTAAATGGGGACAAAAAC
GAATATGCTATATTATATACTTTTATTTATATAATTTTTTTTTCAGCAACTTTTTCTCTTTTGAAAATGCAAGAGCCTGAAAAACATTGTGAATATACTT
GTAACATTGCAAAGCTATTTCACCAGAGTAAAGATATTTTGGTTGTTCATATACGAGTGTGTTCGTTGTTTATCTAATAAATTGTTAAAACTAGATGGCG
ATTCTGGGAATTATTATAGACTTCATAATAAATAAGATGCTGACAGTTGAAACCCCCTTGACCGTTGCCTGTTTGGTATGACACAGACCTTCTTGGACTT
TTGTAGCCTATACATGAGYAGATATGAATCCTCAGCCTTCTCCAAAATAAGGTTGGGGTCACTAGGAGGCCTTCTTGGAAAGATGTCTTAAATTAAGGCA
CCAGTAGATGGATCAAAAAGCAGGTTCCAATAGCTCGCTTTTAGTTTCTTGCCTAAATTTGTGATCTCCCTTTGGCTTCATAAATAACGGTACATTTCAT
GAAGAGCTGGTCTCAGTCTACACAAGCCTAACTGAATGGGGTRCATAGGAAGGGTTGCATTGTGTGACAAGGTTTAAATCTAATTGTTTTAAGTCTTTGA
GTTATTTGCTCACCAGGCTGTGCTTGATGGTTTTACTTTTTGTGATTTTTGGAGCCTTCATGTTAGAAGCCATAGTCATATGGTGCTCTCTGAAAGCAAG
ACAAGGTTTCTTCACTASACTCTAAGAGGAGATCTGAGACAGAGAGATGGGGGCGGGGAGGAAACCTATTTCAGTGTCTCTACTATTTCTACCTAGGTGG
AGGATAACTAGCCAGATGAACGGAGCTAAGCCTTTTGTATGAAGTTTATTTCWTATAAAGAGGAACAAAATCAGAATCAAATTTCTTCTGTAGTTGCACA
GAAACTGAAGTTAAAGCTAATACAATGTTTTTCATTTTTACCCTTACCTCTACAATGTACTTAATTGTTACAGATTCGTATTTATTGATTATCATRTTGT
ATTACATTGATAGCCGTTTAAAATTTATGAAGATTCCGTACTTGTCATATTTAATTCTCAGCACCGTGCTTACAGCTGTCTTGTGATAATGTCGAAAGGA
AAGAGAAGGGAGGTGAGGTAACGTGCTTGAGATCATACAGGTCTTGGGCGGCGGGTGCCTGCAGGATAGATCAAAGGGTAATTGAGTCTGTGCCTGGGGC
CCCTTCCACTGTACATGCCACCATCCTGTTGGGAGGAATAACAGCACACTCCTGAATGAGCTCTTTCTAAGCAGCTCATTCATTTTGTTAATCCTGAGTT
TGGAATCAACCAATTTATTTAAACCCGTGAAGCCTCGCTCTGTGCCCGGTCAAGTGCTGGGAGTGGCATCTGYGGGGAGGGCCAAGGCAGATGTCATTTC
CAGACTGCATTGGATCCTGGATTCAGAAGCTGAAGCTTAGGAGTGGGCATGGTGGTTCACGCCTGTAAACCCAGCCCTTTGGGAGGCTGAGGCAGGAGGA
TTGCTTGAGCTCAGGGGTTCGAGAGCAGCCTGGGCAACATAGCAAGACCCCATCTCTACCAAATCAAATTTTTTTTAAAAGCTGAAGCTTTCTTTACCAA
AACCACTTTGGTATTATGATTGTAAAACAAACATTAAGGAATAAGTCTGGGGGAATGGGAAGTAGCATTCATCAAGCGCCTGTATATGCCAGGTGTTAGG
CTAGATTAGCTTGATGTGCCTTCTCATTTAATATAAGTAATTATTTTAAAGGTTATTGTGATTAACATGTATTCCTTATGGAAAATTTAGAAAGCGAAGA
AAAATAAAAAYAAGAATAAAAGATTTAAAAAAACCCCAATTCTTACCAGTTAGAAGTATACTATTAATATTTAGCATGTATGATTGTAAGCATGTTTTCC
CTTCTTTCGTGATTTTTCTATTTAAATTGTGATTATCTTTCTGTGTTGTTAAATACTCCACATCTTAAATGGCTGCATAGTATTCCATTATGTGGTTCCA
GCTCTTCTCCCAGTGTGGTACATTCGGGTGGTTTCCAGCTTTTTAATAGCTGTGGAATGGAGAAGCACATTTTGTAATTAAATGTTTGTACCCATCCGTG
ACTCTTCTATAGTTTTATTTTGTGGAAGTGGAATTGCTGAATGAAGTGATTTGCTCCCCAACCTTAATATCTTGATTTGTTTTGTCAAACTGCCCTGGAA
GATTGTACCAATTTGAATGCTCCTTTGCCCAGCATCCTTGCCAAACTTGAGAATTAGAATTTTTAAAAAATATCACTTAAATTTGCCTATCTCTGATGAT
TAGCAAGATTGATAGGCTTTTCTTATGTCGGGCCATTTGTTTTTTAACGAATTGCCCTTTCATCTTATATGCATGACTRTTGGATATGTATCGATTACTA
ATTGATTGCTTGCCTCATGTGCTATMATTTAATTTTCAAAATGTCCCTTAGAAGTTAATTTATAAAGTGTCTATTACTTTAAGTACCTGTTCAATCCTGT
GATCAAGAGGAAATTCACAGAGAAAGAAATTGGCCTAACTCCTCAGTTTGCTTCACTAAAATCTTTTAAGCACACATCTTGTCTATTATGCCAGCTGCAA
CTCAAATCAAAGGCACTGTTGCTTTGGTACCCGCATTTAAGGAGGGAATACCCCAAAAAACTTAAACTTGTCTGGCTTTGCAATGGTGGTGGAGTCCCAA
GATGACACAGTAGGCAAGATTTGATTACTTTGGTTATGCAAATTTCCCCTAGATCTTCTATTAATGACAGTAACAGCGCTTCAGAGCTTTTCTATGCATT
CTCTCATTTGATGAGCCTGCTTTCAGGTGGAGAAATTGTACCATTGCTGAAAATAGCTTCGCTGACAGTTAGGGCAAGCTTCATTGGTAGCAAGTTTCTA
TCTGGAAAGATGTAGGASAGGAACACTGACTCTGGAAGCAGACGTGACCTAGTTTTGAAACCTGGGATAACCACTTCCTATCTGTATGACCCGAGCAAGT
TACTTTCCTTCTCAGAACTCCTGTTCCACCTCTGTGCAATATGGACAGTACTCCTACTTTGCAAAGTTGTTAAAGATGGGAACTCCAGAGTGCCCAGGGA
ATTGTCTACTCATCATTGCAGGCGTTTAATAACGTGTAGCCATTTCTGGAATGGGAGGCAAGAGGATCGAGTTACCAGTGAAATTAGTTTGGTATTTTCC
TAGCTTCCTGGTTCCCAGATCCTCAAGAGGCTGCCATAATCTCTGTGAATTTGTCCTAAAATGACCTGTATAAATAACTGCTTTAGACACTGGCTTGTCT
TTGGTATGAAGGAAAACATTTTAGAATTTTTTTGGCTGGAGGTCAGTAGCTTTCATCCAGAAAAGAATAATCAACGGAAAAAAAAAAAAACCACCGAGAC
GAGGTTATTTTTGTTACAGTCAAGGAACAAAAAGGGATATATTAAACTTGGGGGAAAAAGAGAAGGAAAACTATTATTCTTTAAAACCGTTATACCATGC
ATCATGGTAACATCTTTTTTACTGAGAGTTCTGCATTAGCACACTTGTTCACCCAAGTTTGTGATAGTTTATAGGACTGCCTGGTGTATTAAGTAGAAAT
GCTCAACTTTGCTGTCCTATTTTTTTGATCATATCCAAAAAGTGTCAGTGTTTGAATATAGTTTTATTGCCACTTAAAAAGGTAGGACAGTTTTATTGGC
GTCTACTGGACATGGTAGGAAGAGAGCTGTAATTTGACACAGATTGTCCTTAACTTGGGTGACTTAAGGCAAGTCACTTAACCATCTGAGCCTTAATTTC
CTCGTTTGTAAATTCAAGAGAATAATAACTTCTCTGTCACATACTGTTTTGTACAGATCAAGTAAAACAATGTGTGAAATGCTGTAATGAAGAAGTCCAA
TAGTGTATGAATATAAGGTTGCTGGCGTTTGGGGAAAAATCATAGTTATAGAAGAAAGACTCCTAAAGGGAAGATTAGGGTTGGAAGAAGATGGAGGAAG
AGAGTAATTTAATTCCTTAATGGAAAGAATAAAATAAGAGCTCTTGACTTTTTTTTKTTGTTGTTGTTAGGATATGGGGAGAGGTTTCTGCAAATATCTT
CTTCAGGGTTTACGAAGTGAACCGGATGTCCGGTAACAGGGTTGCATGTCATGCAATTGACTGGGTGGTGATGACTAAAATTTTAATGATGCGATCTCAT
TTAAAGTTGACAGGCTCTGACTCTAGCCAGATATTCAGGAGCAGAAACTTGATTCAATAAGAAGGGAACCTGCAGAGGCAGAAACTTCTGTGGGTTGCAG
TTGTGTTGAGATTACACAGGTGGAAATGTTGCGAGTTCTTGGGTGATGCGATTTCTTCCTGCTTGCCTTAAGTTTCACCTGCCCAGGTCCTTACTTCTGC
TCACAGTGCAGCACGAATTTAGATACTGATTGGGGATTCAGACACAAACGGGATGCTCCTTGCTTATATAACATCAACAGAATTGCTGGCCACATCTTGA
TTATAGAAACTCTTTTTCCTGGTGATCACACAAAGCAAAAGAATGAAAATAATCAATCTCTTTCAAATGGAGAGACTCCGCTGTGTCAGCCACCATTGGC
TATAAGGATGAACTCTCAAAACTTTTTGTATCTTGCAATATAATGTCTTCCAACTGCCTTTGATTTTACTGTGTGGCTGTGTGATACAGCAAGGCAGCTG
TGGCTTCTAAATTCAGCAGCTAGGTTTGAGAAGCTTCTATCAGCTGAGAGATCATCAGTACATTCCAAATGGCATTAAAAATGCTGTTACAGCTTTATCT
ATTAGCAAAGGAAGTTTCAATTCTAAGTTCACGTACAGTTACTAGATTGAGTGTTTGACAAGGTAGAGAGCTCTGTAGTAGATCCATATGGGGAACATCT
CAGTCAGGGTGTGGAGTCAGATTTTTGGCAAGGGATACCATCCTTTCAGCCTGAAAAGCTGACTTGGGAGCTGTCAGCCTGTGTGCACGAGGACCTTTTT
CCTCCCAGGGTTAGCGTCGCCACTTGCCCAGTGTTTCTTTTTTATTTCCTGCTGGCCTGATCCGGGAGGGATTTGGGAAAGCTAGTCTTGTTGGTGTGTC
ATCATCGCGACGCTGTTAGTGATTGACTTACCCGAGTGTACACATGTTTGCATCTCACTTGTATGTTCCTTACATGTTTACTTAATTATTGGGAAGGTGT
ATTAATGTCCTGTTGCTRCTATAATGGACCACCACAAACTCGGTGCTTCTATGCTGCAAACCTAAGATTATAGGCAGTCATAACACAGTGTTAAGTATTT
GTGTATCTAAACATAGAAATGGTTCAGTAAAAATACAGTGTTGTAATCTTATGGGACTGCCGTTGTGTGTGCAGTCCATTGTCATGTGATAGTGATTAAG
GGAGGTGGACATTTTTGTGTTTGCTTATTTCCATAAGCTCAAGGGTAAAGCTTCCCAATCAGCCTTTAGGACAGAGGTAAGAACTGGTTGGTGGCCTGGA
GCCTGGATCTGGCCTCCAGATGTTTTTTGTATGGACCACACAAAAATGGTCTATAGTGGGATTTTTTTTCTTTTTTTTTTTGTCAGACTACTTGCCAGCA
TACTAAAATCAGGATATTTTACTTAAATGTAGATTTATGACAGTTTTGAAAAATCAGAATGAGTATTGKAGACTAAATGTTTATGTCTTCCCCAAAAATT
CCTATGTTGAAACCCTAATCTTAAGGTCATGGTATTTGGACATGGTTGTGTCCCCACTGAAATCTCATCTTGAACTATAGTTCCCATGATCCCCATGTCT
TGTGGGAGGGACCCGGTGGGAGATAATTGAATCATGCYGTTCTCACGATAATGAGTGAGTTCTCATGAGATCTGATGGTTTTATAAGGGGCTTTCTTCCC
TTTTGCTTGGCACTTCTCTTACTGCTGTCATGTGAAGAAGGACGTGTTTGCTTCCTCTCCTGCCATGATTGTAAGTTTCCTGAGGTCTCCCCAGCCACGT
GGAACTGTGAGTCAATTAAACCTCTTTCCTTTATAMATTTCCCAGTCTTCGATATGTCCTTATAGCAGCATGAAAACAGACTAATACAGGGGCCTCTGGG
AGGTGATTAGATCATGAGGGTGGAGCCCTCATAAGTAAGATTTGTGCCCTGATGAGAAGAGGATAGAAAGGTAGCTAACTTTCCTTAAGCTATGTGAAKG
TGAGAACACAGTGGGAAGGCAGCCATCTGTAACTAGTAGGAGGGCCCTCCCCAAGAACGTGACCATGCTGCCACCTTGACCTTGGACTTTAAGCCTCCAG
AACTGTGTTAAAGAAATGTCTGCTATTTAAGCCACTCGGTCCATGATATTTTGTTGCTGCAGCTTCAGCTGACTATGGCTTATGTCTATCAAGGAACATA
GTTGCACTGAGGTTGAACAGAGCTGTTCCTATAGGCTGACCCCCTGTAGGCAGGCACAGGCTATTTTCCATGGTCAGTTTACCTGCCTGCTTCCTGTAGA
GGCTTGAGCTTGGTTTAGAGTCTGCAATGAAAACTGTGTGATGATATTGGACTCACTGGCTCATAGCCACTGCCACGCCCTTATTCAGTCTTTTGTGCAA
TTAACAAACATTTATTGACTACTGAGTACCAGGTGCTAAGACTTCAGTGTAGAAACAGGCAGGGTCCCTGCCCTTGTGGAGGATACAAAACACACCAAAA
TGCAGTCAGCTTCACTGAATGACAGAGATATGATCTGAGAAGTGTGTCAGGCAGTGTCATCGTTGTGCGACCCTCATAGGATGTACTTACAAATCCTACG
TGGTATAACCCATTATACACAGAGGCTGTATGGGATAGCCTGTTGCTTCCAGGCTGCAAACTTGTATAGCATGGTACYGAACTGAATACTATAGGCAGTC
ATAACACAATGGTAAGTATTTGTGTATCTAAACACAGAAGTGGTACAGTAAAAATACAGTGTTGTAATCTTATGGGACCGCCGTTGTATCTGCACTCCAT
TGTTGACCAATGTGTTGTTATGCAGTGTGTGACTGTACCAGCAGCTTGATCTTTGTGCTTCTAGAGAACATTTAAATTGATTCGCTTTTGTGAGACAGGG
TCTTGCTCTGTYACCCAGGCTTCAGTGCATCAGCGTGATCATAGCTCACTGTAGCCTCTCCCTCCTGGGCCAAGTGATCCTCTCACCTCAGCCTCCTGAG
TAGCTTGGACTACAGGCATGCACCACCATTCCTGGCTAATTTCTTTTGTATTTTTAATAGAGATGAGGTCTTGCTATGTTGCCCATGCTGGTCTTGAACT
CGTGGGCTCAAGCAGTCCACTTGCCTCAGCCTMCCAAAGTACTGGGATTACAGGTGTGAGCCACCACATCTGGCGAAACTCTGGGTAGTTTCTAATTATT
TCTGTATTTCTATTTGTATTTAAAAGTACAGGATACTAAAATGTTTTTTTTTTCTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGATGGAGTGCAAT
GGCCCGATCTTGGCTCACTGCAACCTCCACGTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGTGTGCCACCA
CGCCCAGCTATTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGACGGTGTTGAACTCCTGACCTCGTGATCCTCCTACGTCGGCC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCAAGGATTTTTTTTTTTTCATACTTGAGGAAACATCTAACAGCAAATATGTTCTTATA
AGTTAAAAAGAACTTTTGCTATTTTGAATGACACTCTCATTAAGTCTTACTACTAGTCTCTGATTTTTCTTTTTTCTTTTTCTTTTTCTTTTTTTTTTTT
TTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCTATCTTGGCTCACTGCAAGCTCCACCTCCCGGGTTCACGCCATTCTCCTGCC
TCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCGGCTAATTTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCAAGG
ATGGTCTTGATCTCCTGACCTCGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCTTGATTTTTCTTAA
CCTTTATTTCCAATTATGCATCTTCTGAGTAACTATAAAGAAAAGCAAAATCTACRGTAGGTATGGAGTGAGTGCAGAGTCACCATCAGCTTGAACAAAT
GTGTGTATCTGTGGTCAAGTTTAATTGCTTCTTCTGTAATTTATATTAATCACGCTTCCATTGCTTGCCTTTTGTTAATACGTATGCGGCCATGTGATGA
TTTTTTAAAAGGTCATCCAGTATCTTGATGTCCAGTCCATGCTTATAACCTGAGCAGTTTATGTACTCTTGAGATGGTATGTGCTAAAAATGAGTAGCTA
GTCTGAGTGGCAGCCTTACCCATTTTATTTTGTGGGCAGATTTCTTTTACAGTTCTGGCTGGGTTTCTTTTAGTTGGCTTCTTTGCTTTGCTCCTRTTAC
GACTTAGCCCTGTAGCTCTGRGCTCTTCGATTCTCACGTGCTGATGGTGTAGCTGAGCTCTGCTAATGCTGGTTATTAATCTGACAATCTATACCAGGGA
GGTTTTATAATTGCCATAATTCTTATTTGCTCCATTCCATTTCCCAGCTTCTCAAATGGGGTGGCAGCTGCAAAGCACAGTATTTGAACATGAAGTAGAG
AATCGTCACTTCAGCTTATGATTTTACATTCTGTCAAGGCTGCAGGGAAAGCGGTCATGTTTCTGGATGGTATTTGGATCTACAAATTCCAAGCAAACTT
TTTACTTCTTATTATGTAAAATGGAAGGGTTAGCCAAATTAAGATCTCACCATCAACCTTGAGGGAGTGACTTCTACATGCCRTGTATTACTGGTTATAA
AGCTAGTCTTGTTTGGATTGAAGAATTTAATCATATTTAACTTTTCAAAGGATGCTTTTTAAAAAACCTTATCCGCGTGTTATGTTTAAACTGAGAAGTA
CCTGAAAGTGAAAATTTTATTTATTTTTACTTTTTTTGAAAGATGGAGTCTTGCACTGTCACCCAGGCTTGAGTGCAGTGGCTCAATCTCGGCTCAGTGC
AAGGTCCACCTCCTGGGTAAAGGAGATTCTCCTGCTTCAGCTTCCCAACTAGCTGGGACAACAGGTGTGTGCCACCACGTCCAGCTAATTTTTGTATTTT
TAWTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTAACCTCAAGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGG
CTCACGCCACCATGCCTAGCTGATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAGGTGATCCA
CCCGCCTCGGCCTCCCAAAGTAGTGGAATCACAGACATGAGCCACCATGCCTGGCCTGAAATAATTTCAAATTAACCCCTGAGGAACAAATGCTCATGAC
TTTCAATGAATAGAAAAATCARACTGCTAGAACCTCCAGACTGCATGTCATGCRTAGAAGTAGAATCCTGGGGAAGCTAGCTCACAAAAGCAAGGGAGAT
ACCTGCAAGGCTGAGCTGAGCTTGCAAGGGAAGAAAAATATTAGAGAGTTGTCACATTTAGAAATAAGTGATTCCAAATTTACAGTCAATGGACTGTAGA
TGCCTTCCATCTTCTTAAGAGATTTTGTGCCTCTTGCACAGGTATTATCCCTAAGATGTGTTTTCTTCAATGTACCTAGACTGTTTCCTTAAAGAATTGC
TTTTGTATGGTACGGCTCTATGTGTCTGTGTTTCTCATGTTGGTTAGGAGAACTAACCCTTGTGACGAATAAGAAATGGCAAACATTGTTAATGTTGACT
TTACTAGTTGCTCAAATATTAGCATTGGATTTTAGAGTCAACATGCTAGCAGGATGGCTTTATTTTAAAACCATGTGATAGAAAGCTATCTGCTATTATT
GATAGCATTTCTGGATGGCTGTCAGAAGTCTTTCTTTAGAAATTTAACCATATTTTTAATGGTGGGCATTGCAGTCAACAATAGTACAGACTTTGCAAAG
ACTATTTTTTTTTTGGGGTGCAGTGAATACTTCGCAATGCCTGCTGAATTTTACCTATTCTGTAAGTCTTTTTGGGAACCGTTGAGCCCCTCTTCTCTTA
GTTGCCTTTAGCCTTTGTTTTTATTATGACAATTGGTATGAAATTTTTCCTTTTCATTACTTCTTTTATTCAGAGCACACCTCTGGCTTATCTCTTCATT
CTCTGTTTAGTTTCATATTTTACTTTAATTTCTGTACATCAATATCTGCCATTATAGTATTTAAGCTCTTGGAAACATCAGGCATTTGTTAACTTGTTGA
GAAAATAAAGCACTCCACTGTTGTTATGAGCTGCTTATGGCAAGTGAAAAACTCACAATATTTGGCCAAACTTGGGATCATTTAGGTGTTGTTTGCAATT
AATGGCAGGAGATATTTTCCTTGTTGTTAAGAGTATAACGTTGGTTTTAGAAAGCTTGATCTATGTTTTTCTCCATGTTAGATGTGAAAAGAACCAGGAG
AGTGTGAGGATATTGGTAATATTGTCATATGGTGATCCCACTGTGGATAGATACGCAAGAGAGAAAATCCAGAAGAAAGCATTTCACTGAAGCCTGGGGA
CATTTCTGGTGACAAATGGTGCTGATGGCACAGTGAGAACGGGAGAGGGCAGAAGCAATGCACAGATAGAAAGGGTGTCACCTGCGCATTGAAAAATCCC
AGTGCCATAACAATGCAGTCCCTGCAATACAGACAAACCTGACTCCCACCATTCCTGTAAATGAAGATGGGGCCTTGCTGAGAAATAGAGGATGCAGATT
CCACCCTCAGGCTTCCCGTCTTGGGATGCAGAGAAAACTCACCCACGTGCAACAACTCAAGAGTCGTTATTTACCTAGCAAAGTGTTCACATGACAGTGT
TTGAAATGTACCACGTGCCTTTTCATGTTTAGTTTAGAGCTTGACACTAGAGCTCTACTGTGGTTTACCAAGTGTGAGGGACTATTTCTTTCTGAGAAGG
AGGGGAAGCTTTAGTTTCCTTGAATGTCTAATAGAGTCTGAGTTTCCTTTTAGAAGCATAAAAGACGTACAGTAGGCAGAATCTGGATTTTTAACTATAC
AGTTGCTGAAGTTATCTTCAATTCAAATCTTCTAAATTCAATTTTGTTAATGTTGTTTAGATATTATTATAGAAGCCAGCTTTACTGACTTCTGCACATT
TAATCATAGGAGATTCTTCCATTCTGTGAACTTAGATTTCTTTTTTCTATCCATGACATTTATCTAAATCAGGCTTTCTTTTCTTTCTACTAAATTTTTC
AATTACCAATAGGCTATGAGAATAATTAGACTGACAGTATTACTGAAAAAAAAACAAAACAACAACAACAAACAACAAAAAAAACACCTTCCACTAAAAC
TGACTCAAAAAGATAATAGCAGGGAAAATGACATGTCGRTCTGTGATTCCTTTTTTACTTGTCAGTCCTTTTGGGAGTTGAACATATAAGCACATGTACC
TCTATGTGACTTTTGAGACGTCTAGAATAGAGAATTCACCTTTGTAGCTGGAATTTATTCAGCATGCAAATGTGGGTGGGTGATTGTTTTATAGATGCCT
GGTGTTGAATGATGGGCAGTTGTGATAACTATATATAAAATTATATTAAAGTCCAAGAGGTGCTTTTATGAGGCAGGCTGGAAATGGCATCCGATTTTCT
TATGGCTTTTTCATGTCCATTTTGATGAATCTATTTATTACTTCTATAATGAGTAGTACACATGGTTGGTTAGCCAAGTTATTGAACTTTATCAACCTTG
GCTGAAATTCACAATGCGTGCCAAACTTGTTGTAACATGTAAGAAATTACATCTGGGCTAAAAGGTTCAATAATGATTACTCTTATAATGGAATCTTCTA
CAAAGCAAGGGATTTCATGATATSCCTATGCTTTTAAAAAATTATTGTGATACAGTGAAACAAGGAAGAACGTGTAGCTGGAAAAATAGTATTTGCTTGT
AATATACATTCAGATTCATAAYAGGCTTATTTGATTCCCAGGACAGGGTGAGCAAAGGATGCTGTTTCCTGGGTGTCTGCTTTGGTGTTCATTGAGTCAT
GTCTCTCTCTTTAGACCTTACTGGATCTAGTCTTCATCATGGGGCCTGTGAGCTCTTTCAAATCTAGAGGACAAAACCTAATAAAGTGCTGTCATATCAC
ATCTGTTTATGAGTTTCAAACTGAAATGAAATGTGTAGCCGTGTTATTCTTAAATTACAGAGACTTGAGGAACGTAGAGCTTTTTACTCTCACTAGAGAA
ATCTAAGCACAGGTTGGTTCGTTAACCTGTAAAGAGATGTTTGGGTTTTAAGAGGTCTATCAAATAACACAGTTTCCCTTTCCCAAGTTACTACCTAACT
GAGCAGTAAGACCACCCATTAGGCAAATGGAAGACCAAAACATCACCTGAGTCATTCATGAAGCTGATACTGGAGAATATGTATAGCTGTGTGAGCTGGT
GGGCTTTCTAATCCTGACCACCACAATTAGACAGGGTAATGGGTCAGTGCTAGGTCAGGCCAGACCTTCGCAGAGGGCAGACCCCATTCATGCAGCATGT
TCAAGACAGTGCAGGAGAGCAGGGTGTGTGCTCTCTGTAAGAGGAGAGGAGAGGCAGAGCTGCGTGTGCCCGGTTCTCAATCCTGGAATTACCATTCACA
TACCATTCACAACATAAGTTGGATCAGCTCCCTTGAGCAGGAATAAGTGAGTGGCAGAGGGGGTCAGGGATGTTAACGCAAATGGAGATCCCTTCACCCA
GAAAGACACATCTGAAATGGAGAAGATGCYTTTTTCCTCCTGCAACCAATAAGAGAGTGATGAAAATTATGACGCCTTGGGAAATAAGACTGCAACGTAA
ATGTGTGTCCACCCCCTAGTTTTCTTTTGGATTGTGAATCCTCACCCTCCGATAACTAGACGTGCTGTTTTGACGTCTATGCTTTCCAGCTTGCCAATTC
TGGGGCCTGGCACAGTATCTTTCACCCCGGAGTCTCAGTTTCCTCATCTGTAAAATGGGAACCATGACGTCRGCATCACAGAGTTGTGAGAATTCGACAA
GGTGGAATGAAAGCAACTAGTGTGGTGTCTGACCGCTTGTGTTAGTCCATGAGGAATTTCCTTACGTATTGTTTTGTGTCTAGGACCAAGTTCTTATTTT
CTTCTTATGGATGACTTCATATATATGCCGCCACAGAGGGAATTACCGTTTTTCTTTGTAGGTAAAAAGGAGCTGGGTTAAGATGCACCGTCATATGAAA
CAGGGAAAAAGGGTTTGCTTGGGTTTTAGATTCCTGAAACAGTCTGCTGAGGGATTCTAAAGTTGTTGTGGTCTCTGTTCCACTTTGGGAGTTTGATAAA
AATTGGCCTGTTTTATTTGACAGCTCTTAGGTAGTGTGCAAAATTGTCAACAGATAATAAAAGTTTTTTGCAAAGCTATGGCTCTATGTGCTGTACTTGA
GCAGTATCCATACTCTTAATAGAATTGATATATGAAAGCAGGTCTTTTTCCTTATCCGTTTAGACCTAAATCTTATCCATAGTGTGTGGATATCACAAAC
AGCACAAGAGGAAGTGAAAGGAACAGAGTGGGTGAGCAAACCATTGTTCAAAGGAAACAGAACCTCGCTCAAGGAAAATGAGAATTCTTCTGATCAGCTT
CTATAATGGATGCAATGAGGAAAGTTGTCTAGCAGACTGTTCTTGGCCAACTGTCTAAATGGCTCGCTGCATCCTCTTCACGAGAGCTGATGGTAGGACT
GTAGAAGAGTCACAAAACATCACATGACAACGCCAGTCCCTCTGATAATCCTGCAAGAGCCAGCCCAGTTTTGCTGACAGCACAGTCTGCTGTTTAATTA
TTGTGTGTTCAATGACTTACCTCTTTTTAGTTTAATTRAAATTATTTCTCAGATTAAGAGCCATGCTATGATGCTTGCCAACGGATATTTAAAACATGTA
ACTGATTTGTTTTTTRTAATGCTTCAGGAGAACTCAGTTGAGCAGTAAAGATGTGCTCGTGATGTGGTTAGCTCAGAATAAGGATGTGAAAACCAAAAGG
GAAAGGAGGACAGGAGTGAATCTGGCACTTATCTTTCAGTGGGGCCTGAGTGCAAATTCTTCCTACCTTCCATATGAGAGAATAGGGAAAATTAAAGAAT
AAATGTCTCTGGGTTTAATGCAACTTTACTAAGGAATGAAAGTCCGATAAGAATCCRTATCTTTTGAAAGAAGATTTTTTAAATTCCTTATTTTTCCTTC
CTGCATGGTCATAAAACACACTGGGGACAGCCCACCCTGAGAAGTCACCAGGCATCTGCCTGCCTTCAGTAGCAATCACCCAACTGCTGTAGACCGTAAT
CAAGCTTTCAAGAACCACGTGCAGCACGCTGCGGGAGAGTCCCAGCGAAGTGCTTAATGCGCCACTCCACGGATGTGAGTGGGGAGCAAGTGCTCAAAAT
GGGGCTTCTGAATTGCAATCATCATTTGGCATCTCTATTACCTACAGCTGCTCAAAGATGTTCCCCCCATGCAACTGTTTCTTGCAACTCCTAACATTTG
CAACGAGGCCTCTGATGCAGACAACCCGTTTATACCTCTGGGTGGTTGAAACCTTCATGGTTTGTTGTAAAGAAAGGTACACAGTCCCACCAATCAGACC
GTATCTAGAATATTACGTTCATTTAGGGGTGGCGCATAGACAGGCTAAAGGATGGCAAAGTCATTGGGTCATGTCCTAGGAGCAACCCTTAAAGGAAGAG
TGAATGGCTGGTTAGTTGGTAGAAGAAAAGATTTATGTAAATTAGTTCTCTCAGTAGCTATCTAGGAGAGAGATAATCCTAGCTTTCTTCAAGGGACAGA
ACCAGGACCAATGGACAGAATCTGCAAGGAGGCAGCATTTAACTGATTAGAATTGTCGGGGGTGGGGTTGGCGAGAGGGTGTTGCTTTTCTAATGATTCA
CATTGTATAAAAAGCAGACAGTAGGTCTGGCACTGTTGGCTCATGCCTGTAATCCCAGTACTTTGGGAGGCCAAGGCAGGTGAATCATGAGGTCAAGGGT
TCAAGACCAGCCTGGCCAACATGGTGAAACCCCTTCTCTACTAAAAATACAAAAAATTAGTTGGGCGTACTGGCAGGCGCCTATAATCCCAGCTACTCGG
GAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGCGAGCTGAGATTGCGCCACTGCACTCCAGCCCAGGCGATAGAGTGAGACTCT
GTCTCTAAATACATAAATAAATAAAAGTAGAGAGTAAGTTTTCTGTATTGAAAATGTTTTAAGAGTTCTTTGTCTTACCTTAGGTTCCTCCAAAAACAGA
ACCAGAGAAAAAGACATATTTATGCATAATTTGGGATGTGATTACAAAGAGAGGGATGGGGAATTCAGGAAGGAAGGAGAGGCAATATAAAAATGTGTTT
TTTAGTTAGTCATTACTAGAGGCAACTAGTGCTCAACTCCAGGCACTTTAGGAAATGCATCTCATAGCTGTCTGCCTGCGGAATAAAGGGCATTTATCCA
CCGGCTTCTGACCCCGTTGGACAAGGGCGTCCCATAAGTTTTGATGTCCCAGAATTTTGGGTTTGCACATGTGCAAGTGCCAAGCAGGTTCTTGTAGGCA
TCCCATGCTGCAGAGTCAGAGAATCTCTAGGATGGAAATGGGGGGATCCATATTGTAGCCCCAGGTGAGGCCATCTGGTTGCATTTGTGTCAAGTTGGTT
GAAAACTGCATGGTGGGCGTAAAAATGGTTTGAGTAAAATGGAGCTGTGAGAATTTGAAGGGGTGCATGAGAGGTGCCCGATACAGTCCACCCCCTGCAC
CATGCTCAGGTCTCTTAAGAGTAAGCAGAATCTACCACAGTGTATCCTTAAAGTTAAAAGGCTCTCTGATGGGACTATAAATGAGTCCCAGTTTGATGAA
TTCTGGGGCTTTAGCCTTTTCTGCTGTGGTATTAGTTTTCTGGGGCTGCTGTAGCAAAGTACCATAAACTGGGTGGCTTGGGACAACAGAAATTTATTGT
TTCCAAGTTCTAGAGGCTAGAAGTCTGAAATCAAGGTGTTGGTAGGGCCATACTCCCTTTAAAATGTGTAGGGAAGGACCCTTCCTTGCCTCTTTCAGCT
TCTGGTAGCCCTAGATGTTCATTGGCCTGTGGCAGGGTAATTCCAGTCTCTGCCTCCATCTGCACAAGCCATTCTCCCTGTATCTTTTCACATCATCTTC
CCTCTATTACTGTTTGTCTCTGTTTTCTGATCTCCTCTTCTTCTAAGGGTGACAGTTTTACTGGGTGAGAGCCCACCTTAATGCCCTCAGTTTAACTCGA
TGACCTCTGCAAAGGCCCTGTTTCCAAGTAAGGTGACATTCTGAGGTACTGGGCTTAGGACTTCAACATATCTTTTTGGGGGGACACAATTAGACCAATA
GCAACTGTGCTATAAAAGAGATGTTGCTTTTTATCATTGATGCTATCCAGATGCATAGCAATCATTCAACAAGTCATTCGAAAGAAATAGGTATTTCCTG
AGGGTCTAGTATGTAACTCAGCTCTGCTCTAGGACCTGGTGATTACAGCAGTGAACAAAGTGCTCCTGCCTACGTGCAGCTTACTTTCTTATGGAGCATG
ATTTTCAGAAGTAATTGTTCTTTTGCCTCGTTATCATCAGACATTAGGAACCAAGGGGGGATTGCCTGCTTTTGGATCACAGAGCAAGCTGCCTTGAGCA
AGTGAGTTCGAATTGCAAAGGTGTTTAAGCATAGCTTGGTGGCTGCTTAGTGAGGATGTTGCAGAGGCAATTTAAATGCCGAGCAGGGCTTTGGGTTTGT
GATGGTTAAAGTCCATTTCCACTGCGGAGATGGTATGATTGTACAAATGGACAGGTTCTGGGCCTCTGTCTGTTTTGTCAAGTATACAACACTTCTGTTT
ATCTTTAAAGGGAACAAATAGTGTTTTCACAGGTCTCTGCTTAAATAAAAAGATTCTAGACCACTGGATGTCAACCCCACCATCCCCCTTCTTTTTTTTT
TTTTTTTTTTTGCATCCTGTACTCCTTTGAGAATATAGTGGAACCTCTGGCCCATTCTACAAGGGAAAAATAAATGTATTCCTAGCCAGGCATTTGTGTA
CAATTTTGTAGGGGAGGAAAGGATTGTTCATAGACACTGAATTAAGAAATCCCTACACTTTATGGGAATTGTAATCATTAGTAGCAGTTACGTAGACATA
CTTCCATTAAATACACATACTTGCTTTAGAGAGTGTGTTTATTCATAAAAATTCATTGAATAGGATTAGGAATAAAAATATGCATAGAAATATTTGTTAC
TTTTTCATTGTAATGGTTTTTTTTGGATAGAAATTTATCAGTGTGTAATTAATAAAGTAGTATTGATTTCAGAATTATACGGTGCTAAACAATGGAAATT
TCCTAAATAACTGGCAGGTAATGGAAAAAAAATTCAGTTACTGACAGCCTGTCATAGTTGAATCTAAGAGCTAGGGGCAAAATACATATATTCTATGTAG
TTTCCATTTCTAGACCCTGGATTTCTAAATTCTTCCTTATAAAATTTTAAATTTCTTTTTTTTTTTTTTAAAGATGGTGCTCCCTAACTGATTTCCTTCA
TTTTATTATCTCATAACAGATTTGATTTTCACAATGAAGGTAATTATTAAAATGCTTCCTTTGGTAGTCAATAAATATAATTAGTTTAAGAAAACTAGAA
ATATTTGTTATTAGAATTAGGTGAACATCTAAGAGTCTTATTTATGGAAGCAACATGGTCAATATTTATGGAATTGAGTTGAGGCTTTGCAACACTTTCA
ACAGCTTTTTAAAAAGCAAAATAGTTACTGCCTCTGTGGAAATAGAAATTACCCACCTATTATGTAATGAAAAACTAATGTTGGTTTACTTAAAACAAAA
CTGTGTAGCAGTGTGTTATAGCCACAGGAACTCCTCAGCCAAATGTTAAGTTAATGCAATGAAAACATTTGTAAAAACATTATCAAGCTGCAAAAGAACT
AGAAATGCTAGATACTCCCTAGTAGCTGGGTGTTCAAAAACACTTGTCATTCTCACAGTTATATTTGTGGTATCTTAGTGGTCATTCACCTTGGATGTGA
TTCCTCAAGTATGCCAGAAAAGCATCGTCTTGTGCAAGTGTTGTATTTAGGAAGAACTTTGTGTGAAATCATGATTGTGGGTGAATAACTTTAAATAAAT
AAATCGTTTTCCTTGATATACAATATTGTGCTACTTTCCACAGAAAGATGGAATCAATGCTCTTGACTGTAATGGAGGTTTACAGTTTTTCTAATTTCTT
ATTTAGGCTGATCTGAGCAAAGATGTTCAAATTTCCACTTATTTAAACAAGATAGAGTTTTTGCTATGTTGAAGGAATATTTTTAGCTTAGTAATTTACT
TAGAAACTGCCTTATTCAATATTCGATGTTAAATTTGAACTAAAACACATAGCATCATATGACATGGAGTCTTACATTCACATTTTGTTGGACTGGAAAC
AGAATCAACATATTAGTCATCTTAATTCATTTAAGTTGGCTTTCTCCAGAATTCTAGAATCCAAAAACAACACATTTGTCAGTTTTACACACAAAAGGAG
AGGCAGGATGTAGTTTATAGTTAAACATCCAGCTTTGCAATGAAAAGCCAATGTAGCTATAGCACACTGAATGAAATTCTGGGTGAAACAAACTGTGTAA
TAAGATTTTGATGCATATTGAATACTTAGAAAATTTGTTTTATATTTGTTTTAATGAGATTCTCTTTATATCTGCTTTCATAGAAACTTGTAAATTGTCT
AAAATTAAATTTTCTGTGGTTGTCATCCACATGGGTTCTGAACTTGCTGTTATAATTATTCACATTTTCTTGCAGTGAAAATCTACAGRTCAAGGTCATC
TTCACGTCTTTAGTTCTTGTTTTGCTTCAGGTCASTTTAGAACCGAATGTTAAAAGGATATTGTCTATTCGAAGGGTCAGATTGTGGCACGTGGACCAAA
TCCAGCCCCCCGAGGCCCACTTTTGTAAATCAGGTTTTATTGGAACACGGGTGCTCATCGTTTACATATCGCCCATGGCTGCTTTCACATCATAACAGCA
GAATTGAGTAGCTGTGAGACCCTATGGCCAGCAAAGCCCAAGATATTTACTGCATTTATTTACTGTATTTATGTTTATTCTCTTGCCCTTTACAGAAAAA
GTTTGGCAACCCCTGGTTTATTCTGTTAACATGTTTCCTATATAAGGATTCCTCTAATAAGTTTTCAGAATTATTAAGAAAACAAAGCTCATTCCTCTAA
AAGAATTGGTATGTTTTTTTTTTTTTTTTTTTGGTGGTGGTTGTTTAATGAGGAGGACATTATAAAGTATTATATTTCGTTTCCTTACCTTGGTTGCCAG
GAAGCTCAGAACTTTAAACATTAAAATGTTTAAGTAACCAGCTCACTTCACGTTTCGGATCAGCTTTCTTTTTCTTAACACGGGGATACATTTTCACTTT
AAAAAAAAATCAACTTTTTGAAGCATAATTTACATGTTGTAAAACCCATACATTTAAATCATACACATGAAGGTCTTGACAAGTGTGTACACACACATAA
ACCACCACCCCAGTCAAGATAATAGAATATTCACATCTGTAAGAAATTTTCCACCTGCCCCTTGGCTCAGGCAATTTGTCAGTCTTACTACTGATTATTG
CGTTATTTTAAAACCCTGGGTTGTATGCAATTGTCTATTACAAGCTGTTTTAAATAGTTTTCGGTAGTGGCTGGGGCACTAATGATTAATAGTTGAATAG
CACAGCTGGAGAAGTTAAGATTCATTTATTCTATTTAGTCTTCAGTACAAATTTTTAGGTTTCCATGGGAGAATCTGAGATACAGCTCACATGGAGAGCC
TTTTAGCTAATGTAGCAATAATTAATAAGCTGGATAGCCTGATAGCCTGATGTTTTATTAGGGTGGTGCAAACGTGGTTTTTGCCATTACTATATATATA
TATATATACACATATATATATATACACACATATATATATATATATATACACACACACACACATATATATATATATATATATATATTTTTTTTTTTTTTTG
GAGATGGAGTTTTACTCTGTCGCCCAGGCTGGAGTACAGTGGCGCGATCTGAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCA
GCCTCCCAATAGCTGGGATTACAGGTGCAYGCTACCATGCCCGGCTGATTTTTGTATTTTTAGTAGAGGTGGGGTTTTGCTGTATTGGCCAGGCCAGTCT
CAAACTCCTGACCTCAAGAAATCCGCCCACCTTGGCCTACCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCTGCCGTTACTTTTAATGGC
AAAGATAATTCTTTTAATAATTAAAATTTGAAATAATTCTTTTAATAAGAATTTGCTGCTTGCCAAGAGCTCTGCAGTTATTTTATTCAATTTTCCTAAC
AGCTCTTAAGAGTACATCTTATTATTCCCCTTTCACAGATGAGGAAATTGAGGTTCACAGAAGTTAAGTCTATTAGTTTGCTAGAGCTGCTGTAACAAAG
CACCACAAATTGGGTAGCTTAAACAACAAAATTTATTGTCTCATAGTTCTGTAGGCCAGAAGGTTGAAGTCAAGGTGTTGGCAGGGTTGGTTCCTTCTGA
GGACTGGGAGGAGATACCTGTTACAGGCCTCTCTCCTTGGCTTGTAGATGAGTGTATTAGGGTTCTCTAGAGGGGCAGAATAGGATAGGTGCATTAATAT
TTATGAAGGGGAGTTTATTAAGGAGTATTGACTCCCACAATCACAAGCTGAGGGACAAGGAAGCCAGTTTGAGTCCTCAAACCTCAAAAATAGAGAAGCC
GATAGTGTAGCCTTCAGGCTGTGGTCAAAGGCCCCAAGAGCCCCTGGCAAACCACTGGTGTAAGTCCAAGAGTCCAAAAGCTGAAGAACTTGGAGTCCGA
TGTTCCAGGGCAGGAAGGATCCAGCATGGGAGAAAGATAAAGGCCGGAAGACTCAGCAAGTGTGTTGTTCCATCTTCTCCTGCCTGCTTTTCTCTTGGCT
CGCTGGCAGCTGATTAGATGGTACCAACCCAAATTGAGGGTGGGTCTGTCTCTCTTCATCCGCTGACTTAAATGTTAACCTCCTTTGGAAACACCCGCAC
AGACACACCCAGGAACAGCACCTTGCATCCTTCAATCCAATCACATTGACACTCAATATYAACCATCTCAGYAGGCTTCTTCGTGTTCACATAGTCTCCT
CACCGTGTGCTGTGTCCAGATTTCCCCTTTTCATAAGGACACCAGTCCTATTGGATTAGGGCTCCCCCATTATGACCTCATTTATCCTTAATTATGACCA
TAAAGGCCCCATCTCCARATGCAGTCATGTTGGGGGTTAGGGCTTCAGTGTATGAGTTTGGGATGGCAGGGGAGCAGTTCAGCTCGTRAGAATCGTAAGA
TTCCTGATCTGTTTCTCTTCCAAGAAATTGTTTGGTTTCATGTTGATTTTATCTCCTTTTCCCTATCTGTCTCAAAGCACTGAAGAAAATCAAGTCCCCC
TTGCCCTGATAAGGACTTTAAAATGGTGTTTGCTAAAATGGTGTGTGCTTAGGGGCAGCTTTGAGCCAGATAACAATTCTAGTTGCGCATGCTTCCATAA
GCTGTTTACTCTAGGAAGGAGAATCTCTGTTGGGATCTTTTGGGGAGTACTTGCCTCCCAAGTGCTTAGGCTCCCGCTGCTGACAAGACCCTCTGCCTGG
SAAGCCSTGCAGGTTGGAATCCTCTGTTAGGGTTCCAAAGCCTTCACCAACTCAGAGCTCTTTCTCTCTCTGTTTCTCTTTTTTGAATTTAAATTGATCC
TAGTCACAATGTTCACATTACCTATGTTGGGGATCCTACCAAGACCCTCTTTTTGGCCCAGAAGCAGCAGCGGGGTGAGGGGAATGAAACAAAAATTTAT
AGCTGTCGAGTCTCCAGAAGTCATGTAAAATCAGCCTCAGCTGGAAGCTCCTCCGTGCATCCCTCACATTCACACAAGCAGGTGCCTGATCACAGCTGAT
GGTTAGATTACACGTTTCCTGAGAGGTATAGATTTCAAAATTGGTGTATTTCACCCGTCCCTCATCATGGTATCCCCAAACAAAATGTTATCAAATGAAR
AACTCCTTCCCAGCTCTCCCTTCTGAGTGTCTGATTTTATTCAAGCTCAGATGGCTTCTCAGATAGCKTAAAAAGTGATGGAGAATTTCTTTTACCAATT
GTATGCCCTGTGGGAACCTGGGTGCTGTAATCACTGAATATGTTATAACCAAAAAGGTCAAACTCGCAATGATTCGGTGTGTTTTGTTCCGTGCATCCTG
GCATGTGAAAGAAGTGAGGTAAAGAGTAYAATTTACTTCCTTGTTTTAAAGCTAGCATTGCCCRTGCCTTCCACGCGGGACTGTTGTGGATATTTGACCA
CTGCAAGAAAACTCACAGAAGCAGAAACTTAGGGCTTGCTTTAAATGTTATCAGTGTGAATTGAGATGGTGTCAGCATTATTTTTTTAAAGACCAAAACA
ACAAKAGTAACAAACACACACAAGCCACTGTTAGATTTTACAAAACTTTAAAAAGTAATTATCTTAAAGATATCTAAGATAGTGATCTGGTTACATAGAT
TATCAGAGATACTTTTTTTTTTGATTATCAGAGATACTTTTAAAAAAGCAACTACAAGGTAAGGATTATCCKTTAATTTAGTGTTTTTCTATTAAACTCA
ATTTGCTTTAAAGTTTTTTACATTTTGCCTCTTTTTTGTATGTTTGAGTACCACTTCCTAACCAATCACAATAAATGTCCGGTTTGGAGTTGGAGGAGTC
ATTGATTTTAGGCAAGGTGATGGTGAGCCCACAGAGCACAGAGTTAATGGAACTCTGGCCGTTGATGTAGCTTYGAAGCCTGAATTTAAGTCATATTTTT
GAAAAGTTGCGTCTTAAAAAGTTACTAGCGATGGAGAATGAAAAGTCAATTTGGACACTTTAAAAGTGAGCCTCAAAAAACTGCTGAATTTTCCCAACAT
TGTGTTTTGAGCACTTCCACGTGACTTTGGTAGCATAAAGACTTTAGTCTTTTCAAGAGGCAAAGTAATATACCACTTTTCGCTTTTTTAATGGTGAGAG
CCAAGGTCAATCTGAATTTTTCTTTTTCTTTCTTCCTTTTTTTGTTTTTTTTTTTTTTTWWWAAAAAAAAGGTGCTTGAATTAGAAAGGTAGCACAYTGT
CCACATGGACAGTGCAGGATGGGGCTGGCTTTTTCATTTCTGAGAGCTGGCAATGGAATGAAGGTCTTTTTTTTTTTTCTTAATTTTTCTTTTTTAAACA
ATTCCCTCCTAAGCATTTCTTAATTGACAGGGGTGGAAACTATGTTGCCAAGAGGGATCACAGCCCTTTTGGTCATTAAGAAAGTCAAGGAACGGGGTCT
CTTTGGATGAGTGTGTGCGTGTAGAATCCTGGTGGCTGGCCTGCTTGCTCTAAATCATAAAGAACCCTGTCTCGAGCAGACGAGAAAGAGTAACGGAGGC
CTCAATGGTGAAAGGAAATCCTGTACCAGCTGTGAAAACAATGAGACACRTTCAGTAATAGAATATAGTGTGCTTACAAATTCAGAGTTGGGTTCCCTTC
TTCTCTTGAAGTGGCTATAAATTAATTCATCAAAATAAAAAAGGCCAAACTTCAGGATAAATCTTTCTACTTCTAAACAACCAGAAACACTTTGGTTGTC
TTAGTAGATAGGAGTGTGAGTACAGAATTATACGAAGTGAGACCATGGGTGTGTGTGTGCACGTGTGTGCGCATGCCTGTGTGTGTCATTGSTTAGTTAA
CAAAAGGATTGCCCTCTGAAGAACATGAACTTGGGCCAGACAGCACGTGTAGGGGGTGGAATTATGGAGCAATTGTTACTTTCTTGTATTAAGAAGAAAG
GGAGCAAAAGAGCTGTGTCTTCTTGAGAACCTTTAAAAGACACAGAGGTCTCTGCCTCTAAAAAGCTCCATTACATTTTTTTTTTTAACAGGAGGCCTAA
ATTTTTTATGTTTTATTTTGTGCTGTTTTATTTTTCTTCCTAAGGTTCTCAGACAAGTTTATAAAAGTGCCATGTTGGCTGGGCAGAGTGGCTCACGCCT
GTAATCCCAGCACTTTGGGAGACCAGGGTGGGTAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAAT
AACACAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCA
GTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCRTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGTGCCATGTATATTT
TGATTACAAAAAATTTCATGCGGTGTTACTTTCTTTTTATTGGTRGAGGGTCTTTATGTTTTATTTTTTTGAGACAGAATCTGCTCCATCACTCAGGCTG
GAGGGCAGTGGCAGGATCGTAGCTCACTGTAACCTCGAATTCCTAAGCTCAAGTGATCCTCCTGCCTTGGCCTCCTAAAGTGCTGGGATTATACTTTGAG
CCACTGTGCCTGGCTGGCCTTTGTGTTGGACGTTAATACAGTTGGTTCTTTAAAGTTTGACAGTGAAGACTTTTGGAAATTAAAGAAAAAAAATTGAGTA
TAACTTGTAACGGTCATGGTGTAAAGATCATTTTTTACTGGTTGGAAGTATAGAAGTGGGGTTAAATTAAGTCTATAATTGTAAACTATTGATGTTGGAA
GAACATAGAGAGAAACTTATTCCTGTGGACTGGTGATCCCATCTCACAGCCCTTACAGATAAATGTTTGTAAAAGCAAAGGACAGTGTTAATTCTGAGCC
CCAAGATGAAATATCAAGTAAAAGAGAAGAACATTTGCCAATGCATCACTGTCTGGGAATGGATTCCATACAGCAGGTAGGTTTATGTAATACAGTAGCT
GAAGAGACCTCAATTCTGTGCCTTGATGGGATTACACCGAAGGGAGCACTGGTAGGCTGTTGATGAAACAGGTGGTATTTGGACCACTTCTCCCTCTTTC
MGGACAGCTGCTTAGTAGGTTTAGCTTAAATTATACACATGCCAAGCATGTACACATATGAGAAGCCTATATCTCRTAATATCCACAGAGAATAGATGGC
AAATCCCATGATTTGTATTTGACTGACAGTCAAGACCCTGTGGGGTGTGAGCCTGGTGGGGGCATTCCAGGCTGGTTTCTCCTGCCTCMAGGAGCTGCTT
CTAGTGTGTGCTCTTAACCCTAAAGGAAGGAAACACTGTGTCTTCCTCTTCTCTCATACAGAGCCCTTCCCATGACMAATGTGTGGAGTGTTCCCTCCTT
TTACGTAATTCTCCAATTTTCTGGACCCCAGCTTGGTGTCCTACAATTCAGTTTTGACACTAACGACCCAGAGTCAGCACAGACCCCATGGTTGAGGGCT
CAGTCCTACAGGATCATCCCCTACTTCAAATGCCAGTAGCAAGTTCAAGATTGTCAAGTGCACTTCTGACTCACTGGCTACAAATTGGGGTTCCCACGAC
CATCTCCTCAGGCTTGATAATTTGCTATAATGGCTCATAAAACTCAGGGAAATATTTACTTATGTTTACCTGTTTATGATAAAGGATATTACAAAGAGTA
CAGATGAAGCGGTACATAGGGCCAGGCATGCGGAGGGGATGTGGAGCTTCCATACCCCCTCCYGGCATGCCCCTCTCCAGGCACCACATGCTCAGCAATC
TGGAAGCTCTCCAAACCCTATCGTTTAGGTTTTTGTTGTTGTTGTTTTGAGATAGGGTCTCGCTCTGTTGCCCAGGCTGCAGTGCAGTGGTGCAATTATG
CAATCATGGCTCATTACAGCCAGGACCTCCCAGGCTAAAGCCATCCTCCTGCCTCAGCTTCCTGAGTAGCTGGGACTACAGTTGCACACCACCATGCCTG
GCTAAGTTTTTTTGTTTTGTTTATTAGAGACGAGGTCTCAATATGTCACCCAGGCTGGTCTTGAACTCCTCAGCTCAAGCAATCCTCCTGCCTCGGCCTC
CCAAAGTGCTGAGATTACAGGTGTGAGCCACTGTGCCTCTCCATTTAGGATTCTTAGAGAGGTTTTGTTACCCTAGGCATGATTACTTAAATCATTGGCC
ATTGGTGATTAAGTCAATCTCCAGCCCCTCCTCTTCCCCCAAGGTGGGGAATGTGGGGGTTATCAATTATTCACAACTCTCTAATTGTGAATAATAAAAG
ACTCTCCCCTCACCCACATTGCTCAGAAAATTTCAAAGGTTTTTGTTTTTTTAGACAGGGTCTCGCTCTGTCACCCACCCAGGCTGGAGTGTAGTGGTGC
AGTCATAGCTCACTGCAGCCTCCAACTTCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCTTGAGTAACTGGGACTGCAGGTGCATGGCACTGTGCTCCA
CAATTTTTTTTTTTTTTTTAGAGATGGGATCTCACTGTGTTGTCCAGGCTGRTCTCAAACCCTTGGGTTTAAGTGATCCTCTTGCCTCAGCTTCCCAATG
TGCTAGGATTACAGGCATGAGACCCCATGCCTGGCCAATTTCAAGGATTTTAGGAGCTCTGTGCCAGGAACCTGGATGAAGACCCARTATGTATTTCTTA
TTATATCACAATATCACAAATSCACAGTCACATGGTGATTGTGGTAGTKTGGGGGGCCTGATGGTGGGGTACACCTGCTTGAAGTCAGGCTACCATGCCC
ATTGGGGTCCTCCCCCTTTTTTGCCCTCTGATCTTGTGAGTTCCTTAACATTGGGGATCAGTGGTTTTTCTCTTACATGAAATGACAATGACACTTTATA
GGGTTTCTGTAGAGAACACCTTAGAATTAGTTAATGTGTTTCATAAAGCACATGGCGTGGTACCCAGCCAAGAGTAACACTCTGAAGTGCTCCTCCTTAC
CTGGACATTACAGCATCCTTTGTATAAATCAGGATGCTCAGGAAATACCTTGTTTGGAATAGGAATAGGCTCCTCCCTTTTTTTCTCACTTGCCTTGATT
GCTCTGTATTAAAATTCATAAAGGCYCATGAATTATCAATTAGATAGCATTTGGTTTGTTATTTTTAGTTTCTTCCTATAGCAGGCATGTATGCATGTGT
TAAAAATGGAAGTAGCGTCGACATTATGAAATGCACAAGAAGTTTTCCTGCCCCCAACCGGTAACTCTCTCCTGCAGTAATCAATGTTGGCACCTGTTTA
ACCACTTTTGTGTCTTACGTGCACGCTGTTCGGTACTTTGACTTTTTTTCTTAATATTATAACATGGAGGCCAGGCGCGGTGGCTCACGCCTGTAATCCC
AGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATGGAGACCGTCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAA
TTAGCCGGGTGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGARTGGCGTGAACCCGGGAGGCRGAGCTTGAAGTGAGCCGA
GATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAGAGAAAAAAAAAAAAAATTATAACATGGAAATGTTTCCTTGCATCTCCG
TATCATTTCTCCTCATTCTTTTTAGGTGTAACACAGTATTTTGTCCTATTCATGCAATATAATTTATATAACCTAATTGATAAAACATTTTGGTTGATTG
CAGTCTGTCGTAGATAATGCCGTACTGAATATTMCTCCCACATATTTGCAAGTCTATTTGTAGGATAAATTTCTGGTTGTGGCTGGGTCAAAGAGCATGT
CCACTTCAAATTTGATAGCTATGTCCCAACTGCCCCCAAATATGTTAAGCCATTTCCTATCCCCCATCCCTCATTAATCTATGAAGTTGCCTGGTTGCCC
CACATCTTTACCGACAGGACTGCCGCTCAATGTAGTTACCCTTGTAGAATCTGTCTGCATGTGCCTGTCTAGGACCATGTTAATTGTAATCTTTGGGCAT
TTTTCTCACTCATTCCTAACCAGGACTGTCACTGGCAGGTTAAATGAGAACTTATTCACCCAGCACAGTGGCAGCACTAGTAGCCAGCCTGGGGTCAGTC
TTGCCTCTCGAGAGATCTCATGCAGTCAACTGGGATTTATTGTACAGCTTTACAAAACATTACGGCCTCAGCCTTGTACTGCCCAAAGCATGCAGATGCC
GCCTGGTGTATTTTAAAGATATTCCACATGAACTGACCCGTTTCCCACTTCTTGAGTTGGTATGTTTTTTGATTAATATATTTGAGATGTATTTATGTTA
TTAGGGCTATTTAGGAAGCTCTGTAGGGATTTGTTGCTTGCTGTATATAACACATACTTTTAAAAAGCAGGGCTGGCTATGACTTATTTTTCTCTAGAGA
GACCTGTGTAGTTTTGTAAGTTCTTAAGATTTGGCAGCTGTGGATCGTGTTTAGTAAGCACGATCTCTAACTCTTTGGAACTCAGAACTATGTAATTGAA
ATGGCCTGGGAGGCAARTGTGATCATTCAGGTAATCAAAGTAACTACAGAAACAGAGGTATGGATTAGCTAGTCATTGCAGATGTGGCATTGAGCATATA
RGCGTGGTGTACWTCTTAGAACTTCATCTGGAAATGCCTGTGGGGGAGTTGGATTTCAAGATCATCGTCAATGTCATGTCACTGTAATTTCATTTACATT
AATCAGATTAGTTTGGAAAGTATGGTCTTCCTACTTTTAGGAGGATATAGGAGAAACTCATCCTTAAAGATAGTAGTCTGTTAATACAAAAACAGTCCCC
ACATTTGCATTGTCCCCAAATCTAACCCAAGCTGAAAGACATTAGGCCTATCTTCTTGCTTTATGCATAATGGCAGATCTCCAGGGAGGGAGAGGATGTG
TGCTGGAAGATTCTACAACTTGTTGATTGGTTCCTAAAGATSGTTTTAGTGCTATGTTTGTGGGGCGGGGCTGGAGGGGGCTGGAAATCACCATCTCTGT
GGCCTTTTAATTGTGCCCAGTTACAAGTAACATTTGTCCCCAGTGTTTCACAATTATAAATTAATAATAACCACCCATTAGAAATTACGGGTATTGTAAG
CCCCAACTCCTTTGGGCGTCTTAATAAAAATGATAATTAAAACCATAATTTACAGTAAATGGGGACACTGCCCAAGTACATCCACAATATGGAGAAAATT
AAAAAACTTAAACCAGAAGGAACCTTCCTGGCATCGGGGAAAGAAGCTGCCTTTTTCTTAGCTCCTACCTCTGTGGGAGCTTTGTCAGTATTTGAGGGGA
CAGRGTTCCCACCTTCATGTTTTTTGTGCCTGAGGATTCTGTGGGCGACTGTCCCCACCTGTCCAGCCTACCAGTGAGTCTCATGGTGTGCGGCTGCCTG
CTCCGATGCTCTCCACCACCATGCCCAAGCCATTTCTCCCTTTGTGTTCCCTGTCTGGGTAAACAACTTGCCAAGCTCACCAGTGGCCCACAGGGCACCT
TGGACACCTAGACTTAGGCAGTCCCTGGCTTTGTAGATTTTTTTTGCTTCCTACATGATTTTCTAATTTATACCTTGAGCTGCTCGGGATAAGAGGGCAC
CTCGTCCATTTCTGGCTGGTCACAAGGCCACAGTATCTTGAGCGAGTCCATTGTGACCACTGGAGGTACTGTAAATGGATAAAATAATAATATGAATAAT
AACTCATAGTGTTTACTCCCTGCCTAAATCCACAGGCTCCCGCTGCCTACAGAGGAGTCCCACAGTTTTCGCTTGCTTCATGGAGCTTCATCTCTGTTGT
ATTCATGTGATTTATTTACACGGAGTTGCTCCCCAATCCTTGATCTTTTTTTTTTTTTTTTTTTTTGCCAAGCACCCTGCCTTTTTGCTTGTCTGTTTCG
TCTTTATCTCTCCTTCCAGTAAAGTTCTTGGCCCAGAGGTTCTGCTGCCACTCARTGACATTTGTGAAATGCAAGGGAGCTTGCACCATGGGTTCAAGCT
CCTGCAGATCCCTGAGCCTGCTACCCTTGTGCTTCTCTGTCCACGCAAAGCCAAGTGCTACTGCGGGGTTTTCCAAGGCATAGCTAGCATCCTAATAGTC
TCACACTTGACAKAGTAGGGTTTGACATGGTTTAAATAAAATCTCAACCAGATCAGTGGGAGATGTTCTTTGAGATTCGGTGATTGAGTTGTGAACRTAT
GGACTGAGGGTGTTTTGTGGTAAGGCTTGAGTCATGTCTGTAGCAAGGATGTTTCCTGRATAATGTGCACTGAGCATCAAGTGCCTGCAGTGGCCTGGCG
GGTAATGCCAGCAGCACGGGTGATGATCATGGTCAACATGACCAACTAGAAAGCCCAAACCCCACCTCTAGCTGACAGTGGCTTCTCAGCTAACCTGTCA
CYACGTGGGATTGGGCCCCCAGTGGTGTAAGCTTTTTCAGAGAAGCTACACATCTAGCTTTTGGACCTGTGATCTCCCCAATGTTTTAATGCTGGCAACT
AATTCAAATTAGGAAGGAAGGAAGGAAGAGAGGTTGGAAGGGAGAGAGAGAAAGAAGGAGCAAAGGAGAAAAGAAAGGAGAGAAGGAGGAAGGGAGGGAG
GAAGGAAGGAAAGAAAAGGAAGGAAGGGAAAGGGAAGGAAGGAAGGGAAGGGAAGAAAGTATGGGCCACACAAAACAGGTCTGTGGGCTTGACTTGTCCT
CTGATCATCAGTTTGTGACCTCTGTTCTAAAGAGTGAAAACTATGTAAGATAGTATMAGATAAGTAGGTATTTAAATTACTTTGCACCTTTTCCATTTCA
TAGAACTTGAATGTTTGTGTTCAAAGCTTAAAACCCAAGACAGTGAGCTATTAAGCCTCCATGGCCACGTCATTTTTCTGATTGCATCTGATGTAACAAG
TGCTAGAAAAACTGATGCTGTTCATTGCTTTAAAACGTCTTTCTTTATTTTCTTGGTATTATTAGGTTTACATATTCTTCCGAACACACTCTTGCCATCT
CCATGCAGTTAAGCTAGTTCAATTTAAACATTGTCATAAAGTTAATTTTTTATAAGATGAATCAGGTTATTAAATTTAGTAAACCATTGCCTTCATTATT
TTGCACAAACTTTGGCACTGTGCAGAATAGGCTTAGCACTACTACATTTAGCTAATTAAACTGGCCGTCAGCTGCAGTATTACAAGAGTGAGGGATGTTA
TTCTCTTGGGTTTTATCCAGGACTTTAACAGTAGGTAGCATTATTAAGCTTTTTTTATATAAAACTCCACACTCTAGAGATATGGTTTACTATAAAAGTG
TTATTGTCCTTCCTGTTAAACTATCATCTTTTGAAATAGCCACGCTTTGTTTCTGTTCCAAAGGCAATTGTAAAGGGTAAGAAAATGGAGTTGTCTATTG
CAGCTTTTAAAAGTAGACTAGCAACGGGTAATGCATTGCTTAGATAAAGGAAGATGTAAGAACCAGAGTGTAATTTCACAAGACACAGAGACAGATGGCT
TACCCGTAACTACAGTCAGGAATTCTCTAAAGGAGAGAGGGTGGAAGCTTGAGCCTGTAGCCTGTTGCTGCTGTCTTGTCAGATGTGCCCTTTCTGGTAA
TAAAAAGTCCTTTGCCGTGGGTTATTTTGTCAAGTGAGATAGCAGGACTTAACAGGTTTGTTTGGGAAAATAAAATYTGATAGAAAAACGGCATGCTTTT
CCCCCACAGATTTCTTGGTAGCATCATTCAAAACTACAGTGAGCAGTATCTTTGCAGGATTTTAATATTTATTCATTATTATAAAGGAAGGAAGAGGGCC
ATCGTGTTGCAGTTTGAAACAGCCTGGATTGTTTTAAAATAGTCCAGAGCTGCAGCCTATTAGCAGTCTGCAAGAACCATTTGTTTCTTCAGCAGATATT
TATTGAATCCTACTGGGTGCTAGTCTGGCGAAATACGGAGATTGGAGGGTGTAAGGCTCAAGGAGCTTACCTGAGAAACTGGATAAATAAAGCTCTGTAC
TGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTCGAGGTGGGTGGGTCATTTGAGGTTAGGAGTTCGAGAGCAGCCTGGCCAACATGGT
GAAATCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACGCGCCTGTAATCCCAGTTGCTGGGGAGACTGAGACACGAGAATCGCTTGA
ATCCCTGCGGTGGAGGTTCTAGTGAGCAGAGGTTGCAGATTGCACCGCTGCACTCCAGCCCGGGTGACAGAGTGAGACTCTGTCTCAGTCAGTCAATCAG
TCAATCAATCAAGTTCTGGAACCTGCCTGGCCTTGTGTTATATCGATGCTTTCTCAATCTGTTAAAAACGTAGCTGCTATTGAATGACTAAGAATTGTTT
ACTCTCATTTCCACTCTCTKACATCTTTTTTTTTTCTTTTAATACCCTGTGATGAAACTGTGAAGAAAGATATTCCTGATCATTGCTTTGACCTGGAAAT
TTCAAAGGGACCCACAGTCCACCATTCCGTCCAAGATCTTCTGGGTGTGTGAAGTCCCGGGCTCACAAATGCAGTTGTGTTTGGTCACTGTGTTGCTTGC
ATATGGCTGTTGGCATCTCATTAGCCTGATTGATGGGGCAGATCAGTCAGCAAGACTTTGTTCGGTGCCTGCCCCCAGCCAGCTGGGCTACAAAACCTGG
CATTTTACTTCTCTCATTTTCCCCAAATGATCTAGGTGTCTTTTGCTCACTGGTGATAAGGGGTGACATTGGTATCACAGGTAAAARTGAGTAAATTTGA
GATTATTGTCGTCTTGCTTTAAAGGTTGGAGATACAGCTTCAAAAACCTTTTACTACCCACACACCCAAGGGGAGTCAAATGGATTTAGGTGTTAAATAC
TTCAGGTTTGAAATCCTTTGTGCATTATTTCAGCATCTGATTTAAGTATCAGAGGTCATCTTTAGGTAATAAGTAAGTATTTTGGAATATGGGATTTGGC
AAAATCTCAAGAAATAATTTCAGGTTGTCTCAGCAATGAGGTTAAATTGTGCTCCAGAGTCCATATTCAGACAAACGGAATGGTGGAGCCCGAGGTTGAT
TTCTTTGAATTCTGGTTGGTATTAAAGTCATTCAGCCCTCGGGTTACCATTGGTAGCACATCTAGGAGCAAGTTTTAATTTTTTAGTCATAGTGACTGTG
CTGGATTTGGTAGGTCGTACGAATTGGGKAAGAGGCATAGGACACCAAGGATTTTGCAAAAAGCAGGCAACTAACATTTGTTTTCCACCTACTATGATTA
TGTTAGGCTCTCAATATATGTTTACCACTTATTCCCCATTTTACAGAAACGATAACTGAGTTTCACATGGGTTCAAGGCGTGACCTTAGATCCCACAGCT
TGTACGTGCTTAGAACTGGCAGCAACACAAGTGTGTCCAACTTGAGTTTTCCTCTGTGCTATGCTGATTTTCCTTGAGAAGTATTCTGTATAAATAGACT
GTTTTCTATGAAGATTAGGCCTGTGGGAGTGATATGAATGAATGAACTTTACTAGGCTCTTTCACATGGTGATGTCAGGAAGATAACGGTATGCTGATTT
TGCGTGCATATTAACATTATCTTGTAAACAATAATTTATGGCCATTTGACATGGGTTTGGCTGAATTGCATAGCTGCCTTCTCTAGTAGAATTGACTACT
TTGTTATTGTACTGTACTCTATAGGGTCTTCCACCACAGATTACAAAATATGGTATTTTTTAGTTTAGAGCAATGGGTTGGTGTTCAAGCTCTGGATTAG
ACTGCCTCTTCTTTTTCCTCCCTCCCTCCCCTCCCCTCCTCTCCTTTCCCCTTTTTTGAGATGACTTTAAAATATAGATTCATATTTTTTAAATATACAG
AACTTTTTCAGTTTTCCATTTCTTCTTGTGGCAACTTTTTTTGTAGTGTTTTTCTAGGAATTTGTCTTTTTTACCTGTATTGTAAATTCATTGGTATAAA
GTTGTTCACCATATCTTAAGATCTTCTTAGGGTTCATAGGATCTGTAGTCCTTTTCTTTATTTTTCATTTTTAAAAACAACTTTATTGAGGTATGATTGA
YGTACAAAAAGCCTYACGTATTTGAYGTATAGAACTTGATAAGTTTGGAGATAAGTATATACCTGTGAAACCATTATATTTTATAAGTACATGATACAAT
ATGAGCACAGTACTATATGGTAGATCTCTAGGGCTTTTCCATCTGGCGTACCTGAAACTTCATACCCTTTGGCTAATACCTCCTTGTTTCTCTCTCCCCT
CAGCCCTTTGCCTACACCATTCTATTTTTTGCCTCTATGAGTTTGAGTGTCTTAGATTCCTCATATAAATTGTATCATGTAGTATTTGTCCTTCTGTGTC
TGGCTTATTTCACTTAGCATAATGTCCTTCAGGTTCATCCATGTTGTTGCAAATAGCAGAATTTCCTTCATTCCTAAGGCTGAATAATATTCCATTGTGT
GTGTTTGTGTGTGTGTGTGTTTGTGTGTGTGTCTTCCACATTTCCTTTATCCATTCATTCATCAGTAGAAATTTAGGCTGCTTCCATGTCTTGGCTAGTA
TGAATAATGCTGCAGTGAACATGAGAGGGCAGACATATTGTTGTGATCCTGATTTGAGTTCCTTTGGATATGTATCCAGAAGTAGGATTGCTGGATCATA
ATCCAGCAATTTTTAATTCTTGTTTCGTTTTTTGAGGAACCTCCATACTGTTTTTCATAATGGTTGCACCAATTTACATTCCACTAAGGAATGTAAGTTT
CTCACGCATAAGGGGGCTCTTGTTTCCACACCCTGAACCACACTTGTTATCTTTCATTTTATGATGAGAACCACCTTAAGAGGTGTGAGGTGACATCTCA
CTGTGGTTTCAATTTGCATTTTCCTGAGAATTWGTGACAGTGAGCCCCTTTTCATACACTTGGCTATTTGTATGTTTTCTTTGGAGAATTGTCTATTTGG
TTCCTTTGCTTGTTTTTAAAATCTGTGGTTTTTTTTTTTTTTTTTTTTTTGCTATTGGGTTTTAGGAGTTCCTTATATATTTTGGATATGAACACTATCA
GTTATGAGGTTTGCAAGTATTTTTTACTATTTTGTAGCTTGCCCTTTCAGTGTCTTGATTGTTTTCTTTAACGTGCAGAAGCTTTTTAGTTTTACGTAAC
CTCACTTGTCTAGTTTTGCTTTTGTTGCTTATGCTTTTATGTGGCATAATGTTGTCCTTTTATTCATCCCTGATATTGGTTGTTCAAGCCCTCTCTTTCT
GTCTCTGTCTCTCTCTCTGTCATTCTTGCTAGCCCTTTATCAATTTTATTAGTTTTTTCAATTGACAGACTTTTAGCTTCTTTTTTTCTCTGTATTTTAT
GTTTGTTTTAGATTTATAAGTTTCTCCTTTCTCCTTTTATTTCCATCGTTCTGCTTTCTTTAGGCTTAATTTGCTGGGTTATTTTCCTAATGTAATGGAT
GCTTAGATCATCTTGGATGCTTAGATCATCATTTTTTCTTTCTTTCTTTTTTTTTGGAGCAAGATCTCACTCTGTCACCCAGGCTGGAGTGAAGTGGCAT
GATCATCCTCCTGAGTAGCTGGGACCACAGGTGTGCACCACCACGCCCAACTAATTTTTTGTAGAGATGGAATTTTGCCATGTTGCCCAGGCTGGTCTCR
AACTCTTGGGCTCAAGCGATCCACCCGCCTCGGCCACCCCGATTCCTGGGATTACAGCCATGAGCCACTGTGCCTGGTCTTCTTTTTAATATATGTAGTT
AAGGCTATAGATTTTCTTTTAACCATGGCTTTAGCTATACTCCTTAAGTTTGTATATGTGTTTGTAATTACCGAGTTTAAAATATTTCTAACTTTCATTG
TAATTTTTTGAGCCATAATGTCTTATTTATTTATACATATATTTCCAGAAATGAGAATTTTCTGGGATCTTGTTATTGATTTGTAATTTAATTCCATTGC
GGTCAAAGAGCATACTTTCTAATTTTAATCTTTTGAAATTCATTGAGACTTGCTTTTGCCCCTGCAAATCATCAGTTTTGGTAAGTATTCTTGAAGTACT
TGAGTATATTTTGCTGTTGCTTTCAGTGTTTATCATATTCAATTATTTTCAGTTTATCAATTAAGTTGTTCAAGTCTTCTATATACTTTGTGTTTGTCTG
CTTATTTTATCTGTTACTAAGAGGGATATGTTAAAATCTTCCRTTATAATTGTGAATTTGTCTATTTATTGTCCTAATTCTGTCAATTTTTGACATATAT
GAGAGGCTCTATTATTAAGTACATATAAATTTAGAATTGTCATGTATTCTTGGTGGATTGAAATTTACCATTGTGAAATATTCAGCACTTTCTCTTGTAA
TGCTTCTTGCTTTAGAGTCTTTTTTTTCTGAAATTAGTACAGCTATATCAGATTTCTTTTGGCCCGTGTTATACAGTATACCTTTTCTATTCTTTTACTT
TTTTTATGCTTATGTTTAAATAAGGTATAAAACATAATGTACATTCTTTTTTAAGGACAGTATATGTATATTTATGTTTTCTTCAGTCTGACAAACTTTT
TCTTTTAATTGCCATCTTTAGGCCATTTATATTTAATGTAATGACAGATATATTTGAGTTTGGGTTTAAATATACCACCTTATTATTGGCTTCCTGTTAA
GTTATTCTATATTCCTCTTTCCCTTATTTCTATCCTTTCTTTCTCTTTTTTCTTTTCCTTTTTCCTTTCTCTCTCTCTCTCTCTTTCTTTCTCTTTCCTT
TCTTTCTTCCATTTAAATTGAGACAGGGCCTTGCTCTGTCACTCTGGCTGGAGTGCAGTGGCATAATCATAGCTSACTGTGCCCTTGAACTCTTGGACTC
AGGCAATCCCTCGACATCAGCCTTCTGAGTAGCTGGGACTACCGGTACCTGCCACCACACCTGGCTATTTCTTTTTTAATTTTAATTTTTGTAGAGACAG
AGTTTTGCTATGTTGCCCAAGCTGGTCACAAGTGATCCTCATGCTTTGGCCGCCCACGGTGCTAGAATTACAGGCCACTGTACCTAGTCATCTTCTCTCC
TTTCTTGCCTTTTTATCATTCTGCTTTTCTTCTCCATTAGCTTTTTAAATTTGTAGAGATTTACATCTTGCATCTTTGACTTATTAAAATCTAATATAAA
TCAGTATTATATCACTTCCTGGAGAAGACAAGAACCTTAGGATACTTTGCTTCCATTACTCACCTCCTAGGTTAAGCATTGTTATTATTATTGATATAGT
AATTTTTGCTATATATTTTAAAACTCACAGATTTCACTCTTACCATTTGGRTCTTAACATGTCGTTACCCTTTATGTTGCTCTTTGTTACTTTCTGCATC
TCTGGGTTTATAGCTAAGGTCATTTTCCTCCTGCCTGAAGAGCATCCTTTAGTGTTTCCTCTAGTGTGGGTCTATACGTGACACTAGGTGTAGTGTAGGT
GACAAACAAAAAGCAGCTTTCGTTTGCTTAAAATTTTTGTTCTCTGCCTTTATTTTTCAARAATATTTTCACTAGGTATAGAATTCTAAGATGAAAGTTT
TATTTKTTTTCAGCTGTGGCTTCCATCATTTTCCTGAGAGGTATAACTATCAGTCTTGTAGCTACTGGTCTCTAACTACTTCTAAAACTATCTGCAGTTT
TTAGCAGTTTTACTCTGATGTGCCTTGCTTTGACATGTATGTGTATATATGTGTATCTACACACACATACACACATACAGATACACACTCACATATATAT
TTCTGTTTGCGGCTCACACAGACATAAATATATATATATATATACAAACGTACATTTCTGCTTGTAGCTTGCACAYATATATATAYACACACACACATAC
ATGTAGACACACACATTTATACATATACATGTCAACACATACACATACATATTTCTGCTTATGGCTCAGGATACTTCTTTTTTTGGCCGTGTATGCGTCA
TTGATTTTGTAACATTATCAGCCATTCTGTCTTTAAATATTGCTTTTCTTAGTCTATTTCACTTGTTTTGGAACTCAGATTACATGTATGTGTAAGAGCC
TGGGAGAATGTGTTTCATATGTCTCTTTTGTGCTTTGTTTTATTGTGTTATTTTTTTCTTTTTATGCTTCACTTTGGATTTTTTTGTTAACTTATTTTGT
AGTTTCCTCAATCTTGTCGTCAGCTGTGTCTTGTATTCTGTTAAACTATATGCTGAATTCTTCTTTACTCTTATTACTCTTATTTTGTTTAAGTTTCAGA
ATATCTATTTGAATTTTTTTATTGTTTCTAATTCCCTGGCAAAATTCTCCATCTTGCCTTTTTGTTCCTTGAATTTGTCAGTCAGACTTATTTTAATCAC
TGTTTCTGAATAACTTGATTAGACAGATCTCCTGTGCATTTATTTCCATTTGTTCCCCTCTGGCTTTTGGTGAAGTTTTTTCTTTTTGTATGCTTAGCTA
TTTTGTTTGAATGTCTGAGAGTTTATATGAGTATTTGAAATAATCATAGTGGTAATTTGAGACTCTAGATAATGGTATCTTCCTCCAGAGAACATTTTCT
CTTGCTTCTGGAAATTGGATAGATAGGGACTGATCACTTTAATCAAACTAGGAATTGAAATGGCCTGAAGCTGAGTTTCCACTCTTGTGAAGGCTGGACT
GTCTCTTGTTATTACAGCGAGGGTATAACTCTTTAGGATCCCGACCMAAGGTTTGGTGTGTTTACCGTGGCCCTTTCCTGGTGGGTCCTGAGCTCAAATT
TATGTCTTTTTCCTTGTTATAAAATTGCCAAAAGCTCAGCCCATCTTCTCAGGCTTCCAACCACTATGTTTGGAAATGAAATATGCCTTGAAGGAAAAAA
GCTGCCAAATGCTGGCCTTGCAGTTTTTGCAGATCTTGGCCCCMAAAATTCTTAGTCATAGTGCCCTTCTGATGCCTTCAAACAGATATGGGTGTGTATG
CACGTGTGTTATTTTGTCCATCTTTTCTAATTGTTCTCAGTAGGAAATGGGGCTAAGAAACCTAGGTAACACTGGTAGAAGCAGAGGTGCTGGCGACACT
TACCATAGAGTAGAGCATAAAGTCCTTATCGTGGGCACAGGATCTGGTCATTATTGATGGTTAAATGGCTGGACATGCCGTGAACTCTTCTATGTCCCAG
TCTTCATCTTTGAAATCACTGCATCCCTAGGACAAGTTTTCTCACCATCACAGTGTTGACAGTCCGGGCCAGATGGTTCTATGTTGTCAGGGGCTGCCCT
GTTCATGGTAAGATGTTTTGTAATGCCTGGTGTTTACCCACTAGATGCCAGTAGGACTCTACCCCACAACYGTGGCCACTGAAAATGTCTCCAGACATTT
GCTTCTGTCCCCTGGGGATCAAAATCACCCCTGGTTGAGAACTTGGGGTAATTTAAGTGGTGCTCCGGTAAAGGCCATTCAACWTGACTCACTGTGTTGA
TGTTATGTTTTCTAACATTGACTTTCCTTTAAACCATAGGGTTCGAAACCGCCAAGTCTTTTGCCCTCCATGGTGCACATGTGAYCTTGGCCTGCAGGAA
CATGGCAAGGGCGAGTGAAGCAGTGTCACGCATTTTAGAAGAATGGGTAAGYGCTTGACTGTTGTTGTTTTTTTTAATTGTCAAATACACATGCCRGGCT
AACCATATGGAGATTTYAGTGGAGTGTGTAAAGTTTATTGCTCTTGGAATCATGTCTTTATTTTTAAAGTCATCTTCACTTTGTTTGTCTTATGAATGAA
AGCATGAGCAAGTCMATTATTATTCACGCATTTGTTTGTAGTTCATTGTCAGTGTCATCTGCTTTATTAGTCAGGGGTTTGAGAATGTTTCTTCCTTTAA
CTCATTTATTAAGAAAAATAAAACGTGGTGAACGCCCATGATTGCAACTAGGAGACTGTTATGCTTATGGTTGTTAAGATTAGAAAGAAGGARGCTTTAA
CCCTATCTCTRATTTCTTACTTTTCTCTGTCTATGTAGAAGTTGATGTTGATACGTGTCTACATAAATATTTACTAAGGGCTTGCMTTAGTCTTGGGACC
AAGGATATAGTATTAAACGAAACAGAATCCCTGCCCTCATAGGCTTACCTTCTAGGTAGGAAAAATAGACCATAATCAAGTTTAATATTTGCCATAATGT
CAGTAAATAAAGGACTGTAAAGCAGAGGAAGGTGGGGGGAATGATAGCGTGAGTGTGATGGAGTCATCAGCAGGGAGCCTTCCAAAGTTGTGACATTTGA
TCTGAGACCTGAATGAAGTAGGGGTAAGCCATGCAGATGTCAAGAGAAGTATTCTCTTAGCAGTGAGAAGAGCATATGCTAAGGCTCAGAGGTAGGCACA
AGCCTGGAGATTTCAAGGATCATCAGGGAAGCTAGTGTGGCTGGAGATGAATGGAGTGGGTAGGAGAGGTGCTGTTGGGGGATGGGTATCTGGTAGACTC
TGAGRTAGCGGTGAGGAAGACATTAGAGGGTTTGAGCTAGAGAGTGATGCGAGCTGTTTGATTTTTGAAACATCGCTGGATTTCAGAATGAAGTCCAGAC
TGCATTCATTCACTTTTCATTCATTCACATATTCATGAAGTGCACCTCTGTGATGGGTGCTGGGGTCTACTGTTAAGGACAACAGACGTTGCCACTGTCT
TTGTAGAGCTTTCAGCCTATTGTGGAAGACAAATTTAGTCAAAAAACACAGATCTTAATGTAAACTTGAAAAAGCAGTGAGTGGTCCTAGGAATCAGTAA
TGATGCCAGGGAGTTGGGAGACCTTTGGGGTCCCCAAGGAAGAAGTGATTGAACTAAGATCTGAAGAAAGACCTGAAGAGGGTGGAGAAGGGTCAGATGG
GGTAGGGGAATGGCAGGTGCAGAGGCCCTGGGAGGAGGGGGAGGAGGAGATAGAGCAGCGTGTTTGGGAGCAGAGCCTGAAGGGGGCTGGGTACACCCTG
TGGAGGCCGTCTTCATTTTTGAATGCTGTGAAAGATTTCTTGCCATTTGAAGAAATAGACTACAGTGTACTTAAGAAAATTTTTGGTACTCTGGACTGAA
AAGTAGTGAAAATAAAGAAAAGGAAGATTTATTTCTGCTTTTTCAGTGTATTTATGATGAAATATTTGAAATTCAGTATATTTGAAATGAGCCCTTATCT
TGAGCTCACTGAGCTTATTATTTTGGGTTAAATAAAAAAGAAAACAGAGTCTTACTTTTTCTGATCMTTTTATTGTCTTTCTGACTAATGTTAAAAAGTA
GTAACCTCTAGTAGGTGGGATAGTAGCAATTTTTAGGGATGTATTGAGAAGAGTACAAATGGGAATACGTGCATCTTATTTGAATCTACACGCAGAATGG
GAAGGTGAAAAATGAAATGTGAAAGTCGTTCTTGGTCCTTCTCTTGGAAGATAAACATTATGTATTCTTCCAGAAAAAGGTTATCTATATACCAGCAAAC
ACACTCACATTCTGTTCTGTACTTTTTTTTTTTTTAAACTTAGTACTGCAGGAGATCTCTTATTAGTGCATATAGATCTACTTCATTGTTTTAACTGCTG
TATAATATTCCATCATGTGCTTATGCTATAACCAGTCTTCCCTTTGGTGGCCATTTAGGTTGTTTGCATTGTTTTGCTATTTGTTATTCCAAGCAATGGT
GTTTCACAGTTCTCTCTTTCTTGCATCAGTCTTTCTTRCGATATCATCTGATATTGGGCCTAAACTATGCTGCTGTGAGCATTCTTTATTTACGTATTTG
TGAGTAAATGCCTGGGGCAGAATCTTAGCACTGGACTCCTTGATTCAAAGGGCATATGCATTTAAAATTTTGGTAACAGTTCCCGAGTCATTTTCTTTTT
TCTTTTTTTTCTTTTTCTTTTTTATTTTTTTTTTGAGACTGAGTTTCACTCTGTCACCAGGCTGGAGTGCAGTGGCACAATCTYGACTCACTGCAACTTT
CACCTCCTGCGTTCAAGCAATTCTTCTGCCTCAGCCTCCCGAGTAGCCGGGACTACAGGCACGCGTCACCATGYCCAGCTAATTTTTGTATTTTTAATAC
AGACGGAGTTTCACCATGTTGGCYGGGATAGTCTCGACCTCCTGATCTCATGATCTACACACCTAGGMCTCCCAAAGTGCTGGGATTACAGGCATGAGCC
ACCGTGCCCGACCTCCCGAGTCATTTCTTATCTTGTTGCTCCAATTTCCATTCCCACTGACAGTGTAGACAGACAACTGCTGAGGGCTTGCAGTGTTCTT
GGGACTAGCAGGAGGGCGTGTCAAAATTGTAAAACTCTGCCTATTTGATGTAATATTTGAAACTAGAAAGGTAAAATTCCAGGGAYGCTAGTGACACTAT
GGTAACCTGATTGTACAGTGACATTCATGTTTAAACCAGTCTTGGAAGATAATGCTGTAGCACAACTGTTTTTGCATCATTAAATTTATCCTCTTCTTTT
CTGAGAACACAATATATATGAGAACACATTCATCTGCATTTATCCTATTTTAATTATTGTTTGATGCTTAGAGCAGAAATTCCTGGACCTGCCCCAATTA
GCGATGAGACCTTGGGTAAGCCTCTGGATCTATTTGGAGCCTGTTTCCTCATCTTTAAGGAAAAAGGTTGGATGGATGATGTCAAAGACCCACTGTTCAG
TCTTTCTTTCTTATATTTTGAGCCTTAATTGGGTCCCTGTGAGTCAATTTCMGATGATAGAATTTGCTGTTTTATAGTTTTACTCTAACATGTAGTACCT
TGAGATAGACCAGTGATCCCAGACTAAGAATTATTCAGAATCATTCACCGTCGGGGACACAGAAAAAGGAAAATGGAACAGAAACAAAACTAATACACGT
GGCTCCAGATGTTTAAAATTAGATTTGATAGGTTGTAGGCTGAAGAAACTCAACCTGTTCATCATCTCTCATCTTTTCACTTGTTCTCTCTGTATGCCAT
TATATTGTGTTCCTCATTTTCCCAAGATGATGATTATGGAAACTCAAATTTTGCACCAGAAGCTGTAGTTACCATTTCATTCCATTGCACCATTCATACC
CTGCAGAGAGGATGTGAAGTYGTAAGGCCTTCTTGCTCTGGTGACATCTGTTAGGCTTCGTCTCTATATCATCCCCCAACTCCTTGACCCTTGATATTTG
CTGGTCTACTTCCCTTCAGGTCCTTCCTCACCTCACATCTCTGCGCAAGGATTTCATCTGGTATGTCACTAAATATTACCTTCCTGTGTTTCTCAAGGTC
AATTTGATAGACTCCAATTTTTCAAGCTGCTGGCCAGCTTGAGCGTATTCATATGTTACCTACGATGAATCACATCAGTGTCGGGGCCGGGAAGGTACTG
CAACATATTGGCRCCTCACGGGAGGCTCTCAAAATGATCCAAAGTTTTTTGTTGCAGCAAAAGCTCATTCAGAAGTCTTTGGGCCATTTGGCTCAGCGGA
GGCTGTCATGTGCCAAGGCTCCGTGGGCATTCTTAGCTCTGCTTCTGGAGATAAGAGTTCATTCCTCCATCCCAACTTGTTCTTCCCTGCCCATTCTTCC
TCTTCCTGCCTTCACTGCACATTCCGGGATCGCCATGTTCTAGAACATTCATGTCTGCCTTTTAGCCAGCAGAATGCTATTCTCACATCCACAATGGGAC
AGCTAAYAGCCCCCATTTATCAAATCCCTGTCATATGCTGTGTCAGGCACTTTATATCCCTCATCCAGGAGGATGCAAAAACCTGGTGTTTTTCTTTTTT
TTTTTTTTGCATTTTCCAGACGAGCCAAGRGATGGCTCAGAARGGTGAAGGAACTCACCCGAATTGCACAGCTGGTGAGCTCAGAGTCAGKCTCCTTGCT
TGGTCCATCTGGCTTCCAAACTSCAAGTCTGTCTGCTCCACCCCATGGCCCATCTTTTTACCATGTTTAGTATCAATGTTCATACTTTGCAGATTTTGCT
TTCAAACTCTCTAGCTGCGGTTTGAGTGATTAATTTCAGGATCCATCCTATTTCTTAGAGGAAGCCACTCTGATCTACCCTGTCGTCTCTTTATATTCAA
GATATCCTTTATAGAGCTCTCAAATTACTTTTGGGAAGAAGGAGCTATTTAATAAAATACAACTTAAGTGAAAACACATTCCATATAGAAGTATATTAAG
AACCTATATGTAATTACTATGACTACTAATTATTTCATGGGAAAATGCCCTCCTGCTGAGATGTTTTAGATGCTCCAAAGTTAGAAGAGAAAAAATGAAA
ACAATTAAAACAGGATAACATGGACAGTACAGAAGTAAACCACTGTCTTAAAAGGCCAATCCATTTGGCATAATTAAAAAAAGAGGGAGGAGATGGAGGC
ACATCAGCCCCCATTCATATTTAAATAAAGAAAACGGGGCAGTGGGGCTTGTTCCTATGTTGTGGAACAGCACACAGATGTGATCTACCTCATTCACATC
CTTATGTGAATTATACACTGGTGCCCTCACCTCTTAAGACAAGCACCTATCGTTTTCCTGTGTATTCCAAGAGGCCAGTGTGGCTGGTGGAATAAGATGT
TTTCCTGTTTTCAAGATGSAGTGGACTCTCTTTTATTTARCAGCAGTGTCTATGTGTTAGGAATCCATGTGAGTTCTCTAAGTCTGGGACAACGATAGGT
GTGTCTGAGTCCTGCATTACCATGGTTTATTCTTTCCTTTACCCAGTATCTATTGGAGTTGGGCTTCTGTTGCTTTATTTCTCGGGGTCTGGCATATCCC
ACTCCCTGTCTTGAGATCTCAGGACCTCTGAGGGGCATTGCATKTAAAGAACAAGAGCTTATTAGGTATCAAAACATACTTCATGAACAGCTACAGCAAG
ACCTCGACATTCCAGTGTAGAGCTCTTGAAAGACCCCAGTGGGGCTCTGAGTTCCTCCTTCTTCTGTTTCTATTAGATTTCTAAATTTTAGTTTCTAAAT
TTTAGATCCCCGGAACTTGGGATCTAAAACTCTGGTCCTGTGGAAGAAGGAGGTAGGGTAGAGTGGGAGCAGATGGACCTGATGTCATCCATCTCCCTAC
GTTGTTTGCAGGAGGAAAAGGGATGAGGCTGAGGCTGGGAGGCAGGGGCGGTGGATTGAGAGAGAGGAGAGGGATTGTTATGAGTAACCAATGTTCCTCA
TGCCTGCCAGGCCCTCACTAGATCTGTTTAACAGAGAGTGCAGAAGAGCTTCTGTTGGGGACTGGCCATTAGTATAGCGAGGGGCCCAATAAGTGTTGTG
AAACATCAGCATCTGCTGGACATTGAGATGGCCACAGGTTGGTCAGAGAGGGCTGGTATGGGAAGAGGGGCAGGTGGCTCTCCCTTAGAGTTACTATTTG
ACTCACCCCTGACTTCCCAGAATGTGTCTTGAGTCTATTMCCCTCTCATATGGGAGGGGTGACCCAAGTATGTTTGTGGCAACCAAAATGTCTCCAGGCA
TTGCCAGATGTCTCTTGGGGGTGCAAATCGTCCCCAGTTCATAACCACGGCTATAAAACATGCTGTATTATAGTGGCAAAGATTAGAATCAGATACATCT
TATGACCTTGGGCAAGTTTCTTAACTTCTTTAAACCTCAGTTTCTTCATCTGTAAMATGCACATCATAATATCTCTATTCAGAGATACAGGTGGTTCTAT
TAAACACATCAACTCTGTGTATATAAAGTCTTAACCCATTGTGGAATAAATTAAGTGCTCAATTAAATGTTAGCTGCTGCTATTAATAACAACAATAATA
ATATTTTCTTCACGCATGAAAGTGCAAAGTGATGCTTACTTTTCTTAACCTCTCCAACTGGCTGAAAGAGGAGCTCTAGGGCAGATGTTTATCAGCCTGA
TTTCAGTGGAGTTGCAATGAATTCTTTTTCTGTCTTCATATGTCTGGACTCCTACATTTTAATGGATGTGTATTTAGTTTGTTGATTAGTATTTTCCAGT
GTAGCTCATATTAGCACTCAACTGTCATTTGAAAAGCCATCTTAACTATTTATGTGATTGCTTTTTCTTTTGTATTTACAAAGAAATACACTCTGCATAT
ATTTTGGAAAGATGATTAAGGGATTAGTCATCAGGAACAGCAAGCAATGGTTTATATCAAAATGATTATTGAGAAAGCAGAGAGATGAGGGGTAAAAATA
AAAGATTTATTAGCCAGAGGTAATGGAATGTGCATGTTTTAGGGAGAGAGCGCATGCTCAGTTGATTGCAACCACACGGTTTGCTGCTGAAGTGCTGTAA
TGATTCAGGTTTTCAATAGAGTTGATATCGGGTCTATTTATTTTGTGGGAGTGAAGGGATAGGGATAGTACTGACAGCATTATGTGATTGCAGCCTCATT
GATAAGCATCRGAAATAATGACTTTAACATTATTTTCAGATAGGGAGCACTCAGTACCAACCATTATATTAGGCTCATGGGCTCAACATTTTGCTGTRCT
TTTCATAGATACTGACACYTGTGTTTTCATTTTGTTGTTGTTGTTGTTTTCCCTGCCGGGAAACTGCCGCATCCTGTGTTTTCATGGCATGATATTAAGG
AACGATGGGTAGGATGCTGAGGAGTAARTTGCTCGCACTTTTAAAGACTTCTGCAAAACTCCACCTACTTTTAGGCTCCTTAAAATTCAGTGACTTTATG
AGCTGGTATAGCTTCACTGTTTGTGGGAATTCCATGCAATCTCCTTTGACACTAAAAGCTTAAGTCCCATGATTTGCCTTTGTGGATGGAAGGCCTTGGC
CTTCTTTTATGATATATGTGTTGGGGGGAGGCATGTGGTATGTGGRGCGGGTAAAATACGAGCCTCATGCCTGTCTAAGCTGGTGACTTGGCTTGGAAAA
GATGATCATTCGTCAACGCATCACAAGTCACAGGGCTTATCTCCATTGTTCTGAACGATCTGTAGCTAAACAAAAAGATAAAAGCTATTAATATTATTAA
TAGTTGTAGATTACCGGGAAGARCGCATCCTAAATCAGCCATTAGATTTGTTCCTCATTTCTTTGCTTTACAAATTGTTTTTCTGTATAGTATTGGATTT
TCAATAAATAAAGKATGATATAAACAAGTCTGCAAACCAGCAAGAACTATATAAGCCACTTGCTCAAGTCAATAAGCGCAYGCTCACAAAGGAACGTAAA
GTTCTGAAGTTCTTCTTTGGGGCGTTTGCAAAATGTCCTATTATTGTCACCTGCAGGTGGGGGGTTGGATATTCCTATTTGTCTTTGTACTAGGTACTGT
GCTTAGCATTTAACAGTAAAGTATTTATATTATGTGTGAAACCCATTGTGCAGATGAGGCAGTTTAGAGGCTGGAAGAGGCATAGACTTTCCCAGGCTCA
CACAGCTGGGAGATAACGGGGTGGATCCAAGATTTGCAGCTGGTGTGTGGGTGATGCCGGAAGATTGGCCTTTTTCAAGGACTTAGACAAGTATTGTACT
SATACATTATTTGCATTTATTTGTATGAATACTTCTGGGTTCCTAATATGAGGGTACCTAAAAAGTACATCCGCTGCGCTTCTTGTAATCTGAGGGAGTT
GATGAACATGGGCCAAGGAAGCTCTTTCCTTCGCCTTCCGTTCCAGACTTCCTTTTCGAGTAGTATATCGTGTATTTACTGTTCTACTTCAGTTGCCTAT
TTGACCTTTCTTGTCACAGGCTCAGGGAAGATTCTTTATCAGATAATAAATTATTCATCCCCCTCATAGACATAATCGGTTGCTAAAATATTCTGAGTTT
CCTGTCTCCAGAATACCTAAAACTTGTGCTTGGTACTTATCCTCTAAGTTTTCCGTTTCATTTCTCATTCTGAAAATTTTGCACCGACTTAGTCTTGAAT
GTTATTCATTGTTCTTTGATCATTGTCTTTGTGTCTTCTCCTTTTTTTTTTTTTTCCTGGCCACCGCTCGCAGTCTTGAACCGAATCTTTCAAACTTTAT
ATCCATGTRACCTTTGTATAATGAGGGCTGTGATTAACTGCAGAGTTTTAAAGAGTGAAAGTCAAGCATAGGTGGCTGGCTCTGAACCATCACTCCCAAT
AATGTGAAACCCAAAGCAGATGCATCCTTTCATTAATGTGGGGTCCCCTGAGTTCTTATTAAGCAATTTTGACATAGTTTGAAGAGACGGATTTCATGTT
CAGACAGTGTTCAGCCGCCAATGGCTGAAAGGCCTGCTTTTGGCCACTTGGCATTTAGACTCCATTATTTAAGAGGGGAAAAATATGCCTGAGACTGTTT
TTCATATTTATTGTGGGACATTTAGAGAATCTCAGACTAGCAGGTGTTAGATTAAACAGAGGAGAAACGGTCCTTGTGGTGATAAAACTTCCCTACGCAA
GGACAARTAGAGAAACAACTGTAGATGAAGCAGCCAGTCTCAGGCTGGGGCAGCACGCCCTGCGATAGGTTAAGGTTTATTTTAGACAAATATTTAAAAT
GCAGCTAATTTTTACATATGCAGACGCAACCCAGTGGAATAGAGGTAGCCCCAGCTTTGGAGTCATACAGATCTGGGGTTAAATCCCAGTGTGAATACTA
ACTCACTCGGTGTCCCTGGGCAAATCTGGTCATCTCTCTCTCTCTTTTCTTTTTTTGAGATAGGGTATTGCTCTGTCACCCAGGCTGGTGTTCAGTGGCA
CAATGATGGTTCACTGCAACCTTGACCTCCTGGGCTCAAGTGATCCTCCCATCTCTGCCTCCTGAGTAGCTGGGACTACAGGCTTATGCCACCACACCTG
GCTAATTTTTTTTTTTTTTTTTTTTAATGTAGAGGAAGGGCTTCACCACGTTGCCCAGGCTAGTCTCGAATTCCTCTGCTCAGGCGATCCTCCTGCCTGG
GTCTCCCAAAGTGCTGGGATTACAGGCATGGGCCATCGTGCCTGGCCTTAGTCATCTCTTTGAACCTTGGCTGATTTACCTGCAGATGCTAATATGACTC
TCAGATTCTGGCACATAGTAAAGATTCAGTAAATGGTCGTTGCAGGGAAAGCTAACTTGTCCAATGCAGATCTGTAAAATATACTCATAAATCTTGTTGG
AGCAATATTTCTTCTTTGTCTTACTTCGGGCTAATAACAAAAATATCATACAATGAGTGGCTTAAATATTTATTCTTACAGTTCTAGAGGCTGGAAGTCC
GAGACGAGGGTGCCAACCTTGTTGAGTTCTTAGTGAGGTCCCTCYTTCTGGTTTTTAAGTAGCCTGTTTCTTGCTGTGTCCTCATATGGTGGAGAGCTGA
GAGGAATTGAGAGAGAGAGAGAGAGAGGTCGCACTGTCTCATGTGTCTTGTAAGGGCACTAATCCCTTCATGAGGATTCCACTCTCATCTAATCACCTCT
GAAAGGCCCTGTCTCCAACTACCATCACATGGGCAATTAGGGTTTCACCATAATAATTTTGGAGGGACACTGTATTAGTCCATTTTCATGCTTCTAATAA
AGACACACCCACGACTGGGAAGAAAAAGAGGTTTAACTGGACTTACAGTTCCACATGGCTGGGGAGGCTTCAGAATCATGGTAGGAGGCGAAAGGCACTT
CTTATATGGTGTMAGCAAGAGAAAAATGAGGAAGAAGCAAAAGCAGAAACTGCCTGATAAACCCATCAGATCTCTTGAGACTTATTCACTATCATGAGAA
TAGSATGGGAAAGACCGGCCCCCATGATTCAATTACCTCCCCCCGGGTCCCTCCCACAACATGTGGGAATCCTGGGAGATATAATTCAAGTTGAGATTTC
GGTGGGGCGCAGCCAAACCATATCAGACACAAACATTCAATTCACAGCATTCTACCCCAGCCCTCCAAAATTCATGTTYTTCTGACATGCTAAATACATT
TATTACATCCAAATATCCCCAAAATCTTAACTCATTCCGGCATCAGCTGTAAAGTCTATGTCTTTTTAATTTTTTTAAATGATCAAAGCACTGGGAAGTA
GCCACTTCTTTCCTCAGCTTCCCACCAATGTGTCAATTAATAATCTGACTAAGGTGGCCGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAG
GCCAAGGCGGGCGGATTGCCTGAGCTCAGAAGCTGGCGACCAGCCTGGGCAATACGGTGAAACCCCGTCTCTACTGAAAATACAAAAATTAGCTGGGTGT
GGCGGCATGCGCCTTTAGTCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATTGCTTTAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCAGGCCACT
GCACTCCAATCTGGGTGACAGAGCAAGACTCTGTCTCAAAAATAATAGTAATAATAATAATAATAATARTAATAATARTAATAATAAKAAGAATCTGACT
AAGGTTATTAACCATTAAGGTATGCTGTGCTAAGGAGCAGGGGGCCCCTTCCATCCGTAGAGGGCAGAAAGGTGCCTATCATGTCTTCAGTGTCAGTGCC
CTGGTATGGAGCTAGCTGGCCTTCCACAGGTTCTGGAGTTAATGCTGGAGAGAAGTAGGGGTGKCAGAGCCTACCCTGTGTTCCTAGGGGGGTTCATCTG
GAGCTAGTCCCTGACCCTTAGGTGGAAGATGCAGCTATGCCCAAGGTTCTGAAGACCCTGTAAAAGGAAGCCTTAGAAGTGGCTGCGATTGTTTTAAAGT
CTGTCCACAAATTCTTTGATAATTCTCCTTTCAAGAAGTAGAGGCCAGTTCTCCTCTCTTGGAATATGGGCTGTACTTAGTGACTCACTCTCCATGAATA
GAATTTGGCAGAAATGGCCGGGTATGACTCCTGAGGTAGGTCCTAAAGGCTTCGTGGCTTCTTCTTGCTCACTCTCTTGGATCACTCACCAGCCACCATG
TTGTGAGGAAACTCAAGCAGACCTGAGGTGAGGCCCATGCAACAAGGAATTGAGGCCACCAGCCATGTATATGATCCCCCTTGGAATCCTCCAGCCCAGT
CAAGCCTTCAGATGACTGAGGCCCTGGCTGATTCATGTCATGAGAGATCCTGAGTCAGAACCACCCAGCAGCTAAGCCACTTCTGAATCCTTGACCCACA
AAATATGGTAAGATACCAAATGGTKACTGTTTTAAGCCACTATGCTCTGGGGGAATTTGTGATGTAGCGGTAGATAACTATCACAGGATCCATGGCCTCA
AGGGGAGAAGGATCCTTAAGAGAGACTGGACAGTGAGTTCTAAGGATAAGACATGTATACTTACCCAGGAAGCTCCACTGTGTGCAAGGAATCCTAAGTT
CCCGGGGTTGCATCCATCTCCCAGGTCACCTTGTTTGACCTCTCTCCAACACTTTTAAAACATACCTGATCAGGAATCACCCCGCTTTGGCATAAGTTCC
TCTCTCCCCATGCTGCCCATCCCATTTCTGCACACCTCTTAATTAGTAAGTTCTCCCTCATATTGAAGGCAGAATCTTCCTCTGAGCGTCTTCTATGCAC
CGGCCCTGGTCCTGCCCTCCGAGTTCCACTGGCTGCATTCTCATCAGAACCCAGCTAAAACTCACGTCTCTCAAATTCCCTAAATAATAAATCCAAAGTT
ATTGAAGATATTGGGWTACTAAAAGTTGGCAGTGAGACTGGCCCCACTCATTTCTTTGTAACCCCTGTCCCTCTTTTTATTATTGAAGCTTGGGATGCAC
TTGGTAAGGCTAGGCAGCTGGAGAGCGTGCAGACTCAGGAGCCAAGACCTGCCTTGCCTTCCCTGGAGTTAATGAATCAGTGTGAATGAAGAGCACAGTC
TTCTTTTAAATGRCAGGGGAACCRTGCACTTATTTACCGGCAATTCTCAGATTCTAATTGTTCCGACTACAATGCGTCCTGTAAACCGGGTAGCTGGGAG
AAACTTCAATGCATCTTTGTAATGGCTTTGTTGTTGTTTATTGAGAGGGACTAATTAACTTTGATTATTGCACTAATATTATGGCACTTTGACAGCCCTT
CAGATTTATGACTCTGGGAAAATAAACAAATGAAATGCAGGTGCTGGAGCAGAAAGAATAAGTTATTACTGAACTTTAATTACTTGGAATGCGTAGCCAG
GAGAGAATTAGTTGATGAATTACAGGATGCTTAAAATCTACATCAAATTGCAAGCAATAAGAAGATAAAAATAAAAAGGAAGGGGCAGGAAGGGTGCTAT
TTTTAAGGCAGGGAAGGATAGGATGCATTTGCAGTGGTCTCCGTGGTGTTTCATTGATTAAACTTTGTGGTCTCTAATGCTGCAGATATGTACATGGTGC
TACTCAAAGCATGGTCCCTGACCTGCAGCATCAGTGTCACTTGAGAGCTTGTTGGAAATGCAAATTCTTGGGCCCCACCCCAGACCTACTAGGTAAGAAT
CTCTGGAGGTAGGGCCCAGCCATCTGTGGTTTGCAGTTACTCCAGGAGATTTTGATATCTGCAGAAGTTGAGAAGCATGGCTCAACAGTTCTCATGCAGC
TTGCTTTTTCTTTTATAAAAGGGCGGGTACACATTTTTATCTTTGCTTATGAAAATCAAATGTTTTCCCAACCCAGTTTACCAAGTAGCTCCCAAATTTT
CAAGCTATTTTAAAAATTGGCTGAAATTTAAAAATTTTGGGCAATTTTAATTTATCCAACATCTATTACGTGCTAGGTGGTAGAGTGGGTGACACAAGAT
AGTCTAGAAGGATTTTGCTAATGAGGTGATACCCCTAAACTGTCATCGATGCCAGCGCCTGGGTAGTGTGGTAAGAGTGATACTCCCATGACTCATGAAA
GATGGTCTCCCCACGTGCTTTAAAGCAGGATGGTTGCAGGAGAAAGTATTGGTGGACTGTGAACAGCCCCCATGGCAAGGGTGCATCTGGAGCTGGAGGA
AGAGCATCCACAGAGTGTAAGTAGTTTGTCCTGGGAATGGAGATGTCAGGCTTGGGTGTGGTGTCGGGGAGAGGGCAGGCAGCTCCTCTATGAGGCCAGA
TCATTCGGGGCCTTGGATTCCAGTCTTAGGAGAATAGACTTTATTCTCTAGGTCCTGGCAGCCATCACTGGCTGAGTCTGAGTGGTGGTGATACAGTCCA
TACTCAGTGACTGAGATAGACAGACATTTGGGCTGAATTAGCGAGGGGAGTGCGGGGTCTGGAGACTCTGTTGGCCTGTTGGCCATGGTCCTGGGCGCAA
AGAGCAGAAAAGGACGAGACGGGGACTGAACAGACTTGCTTAGTTCCTGACATTCAAGGAAGAACTTTAACGTCCATCCACGGAGCCTCAAAGGCTAAAA
ATAATCATCCCTTTCAATAGTTCCTGTTGTGAGGACCATTAACAAATTATAAGAGAAAGCATTCCTCACTTGTAGAAACTCCATGAAAACAGACATGTGT
TTACTTATCTGCAACCCTGTGTTAGGAGGAGGGTGATGAGACACTTTACTGTTTGAATCAGGAAGTGCTGACAGTGAAGGGAGGAGCTCTTCATAATTAT
ACCCGGAGAGCAGGCAAGACAGCCACATGCAAGTGGCCTGGCCTGGCTGGGTTTGGTACAGAGGGGATTAGGGCAGATTCAAACCTCACTGGTCCCCCGT
CCCAGCACTTCTGTGCTGTCTGCAGTTACTAAGCACTTTTCCTGTTTAAGTTGTTGCTGTTTTCATTCCCGCAAAAGCTCAGCCAGCCTCTAGCCCAAAA
TTGTCTCTGTTTATTGGACAGTTGGAAATGTCACTGTGGCCCCACAGACCTTGTTGTCAAGCAGGCTGCTACGCTTTTATTCTAGAGCGTCTTTCATCTG
ATTTCCTCCACCATCTGGAACCTTCTGGATTCTTCCTCTTATGGGTAGTGATGGGCACTTTAGGAGTAGGAATACATGTCAGTGCTAGACCACATCCTTT
CATACCCGGAATTCGCATAGTGACATTTAAAAATAGATAGCAGGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTG
GATCACTTGAGGTTAGGAGTTCGAGACCAGCCTGGCAAACATGGTGAAACTGTGTCTACTAAAAATACAAAAATTAGCCAGTTGTCTTGGCGCATGGCTA
TAATCCCAGCTGCTCAGGAAGCTGAGGCAGGAGAATCCCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGGTGGTGCCACTGCATTCCAGCCTGGG
CGACAGAGCGAGATTCCGTCTCAAAAAAAAAAAAAAAAGTAATCATTTTAGAATTGCTTTCTCTTCGGGATGGTTTACCTCGTGTTTAGTCTGTAAACGC
GGATAACCGAGAGCTGGTCAAATGTTTACATGGGGCTGTGGACCATTTTGTATCATTGGAGGAGAAGCCAGGGCACTTGGCAGGGGTGTTCATGATGATA
ATCAGGTGGCTGGGTGGASTCRCCATTTGTGGCATCCTCAAAGACTTGCCAACATAGACATTTTTGGGGAGACAGAAACACAGAAATAATTCTGCAGTGC
TTTAAAGAATCTGTTAAAAATCAAGTTTCTTTCAGTCATGTATGATCCATTGGGCTTTATATAACTTTTAGCCTTTGCYTTGCAGGGACAGCAAAGATGT
GAGCAAATTTGTGCAAACCTAATAGGGTGAAAAATTGAGGTATGAATTAGTAAAGTCATTTGTCCTTCTGGAAAGAGTTATGGATTAACAGATTACATTT
GGGTATATTGTGGTTGTGAAAAGGTAACATTCTCAGATTGGAAAGGACTTTCTGAGATCATCCAACTTAACTTTCCCCACTTGACAGACAAGAAAACTGA
GGCCCACAGAAGGTAACTTAGGCAATTAATTAATTATAGTTAATAATTAATTCTGCCTGCAGAACAGGAATATGGCCCCCAACGCTTCATGCTTAATTGG
ATGGCTTATTAAATTCTTATTTTTATGGTAGTGATGATGATGATAATAATAATAATAACAGTAGTAGCTAGCATTGTTTTCCAGTGCTAAGCACTTTAAA
TGCATTAATTCAGTTCATCTTTATGACAACACTATGAGATAGCTAATATTATGAATCCTATTTTCAGATGAAAGACTGAGTCTTAGGGAASAAACAGCCG
AGAGATGAAATGCCACAGGGATGTCTAGGTTCAAACAGCAACAGAGGTGCGTACCATAGGGATGTGGAAGCCTTGCTTGTCTTGTTCCTCTTGGTATAAC
CCCAGTGAGTAGCATAGYGCCTGGTCAATTGGAGGGATTTGGTAAATATTTACTGAGTGAGTGAGAGGGTAAAACAGCTGAGCCATGGGAGTTATAACTT
GGGCAGCAGTAATCCTGCCATTGTAGGAGGGGACAGATCGGCTGGTTAGTTTTTGGAAAGCAGACCAGCAGAAGTTGCAAATAACTTGTTGTGTTTTCCT
AAGTACTGAGCTGTGTGAATTGGTTTCATGTTGATGTTACTGAAGTCTCCCCAATTCATCATCTACCTTGTAGCTTGTTGAAGAAAGAGTCCTTATTTAC
AGTCTATTATGTTAAACGTATTTTATTCCAGTTCTTTGAAAATGACCCATCCTGATTTGGAAAATCTCTAACTTGCCTGGTCATTCTGGAGCAGTGGGAG
CCGACTGTGATGCAGAGTGGACTCATAATCCAGCTTGATTTTGAGGGACAGAAACCTGGGCCTTTAGGTAGAATGAACAGSTTAAAAGGCTGCACCTGAG
AGTAGGGGGCATATGGGTAAATCCAGCTGTACCCAAGAGTTGGGGGCATATGTTAGYCCTACTGGGTAAATCCAGCTGCACCCAAGAGTAGGGGGTATAT
GTTAGGGCTAGTGCGTAAACCCAGCTGCACCCGAGATATGGGGTATACATGAGTGCTATTGGGCAAATCCAGCTGCACAGGAGAGTAAGGGGCATATGTT
AGGGCTAGTGGGTAAACCCAGCTGCACCTGAGAGTAGGGGTRTATSTTAGGGCTTGTGGGTAAATCCAGTTGCACCTGGCAGTTGGGGCATATGTTAGGG
CTAGTGGGTAAACCCAGCCRCACCSGAGAGTTGTGGGTATATGTTAGGGCCAGTGGGTAAATCCAGCTCCATCTGAGATATGGGGTATACATGAATACTA
GTGGGTAAATCCAGCTGTACACGAGAGTAGGGGGCATATGTTAGGGCTAGCAGGTAAACCCAGCTGCACCCCAGAGCAGGKGTATACATGAGTGCTAGTG
GGTAAATCCAGCAGACGTCCGGACTGTGCTTGAGGGTGTCATCGAGAGAGAGAAGGTTGATCCGAAGTTAGTAAAGGCTTTAAAAATTAAAAGGCCTGAG
ATGATGGTAGGGTTTTGGAGGTAAGTATAAAAACCTTCTTGTTTTCTACTACTTAAAGCTGAAAACCCAGCTTGGGTTGGCTTTGCTTCTAATATCCTTC
TTCCTTTTTGTTTCRTAAGTAATTGTCCTGAAGCCTGTCGAGATAAATGTATACTGAAAGAGAAAGACACAGAGGAGAGACAGGCATACAGAGAAAGAGA
GACACGCAGACACACGAAGGGGAGGTGGAGACACGGAGGAGGGACAGAAAGACAGAGAGAGACAGAAGGAGAGAGAGAGAGAGAACCTGTCTAGCGGTGT
TTTTATGAGGTTTTTAGTGCTGGGCTTTGCATCGTGGTGACGGTGTGTGTGTGGGGGTGTTGATCACTGTTTTCAGTGTTCTCTGATCATTTCTTGCTTA
GAAAGGAGGAAATTAGAATTGTTGAGCTATGATTTGTTTTAATCAGAAAGAAATTGTCTAACATAAATCTCTTCGTGAGCTCTGGAAAAGCCCCTAAAGC
GGCCAGGAAAAAAATATCAATACTTTGCAAAGGAGGAATGATTGTTCCAATTCGTGGCTTAATTGACTTTAAGCCTTAATGAAACTAAGGCCGGAGCGGG
TGGCACACTCCGTGGCTGGGATCCACAGTGAAATCTACGCTGGGAGAGGAGGAATTTAGGGTGRTAATTTGGTTCTTTGCTATTGACGAAATTTTCTAAT
TGACTGGGGTTACTTAATACCAGATAATATTTTTTTCTTGCTATAAAGAGAGTAAATTTGTTTTTTTCTGAGGAACACAGGAATTTATTTTAAATTACAG
CTTTTTCTATTGGAAGCATTCATTTATGTTGGATTATTGTTCCCTGAGTGAAATTTCACTGATGCTGTATAATTAAATAYAGATTTTTTTAGAGATAGTA
TATATTTTAGATGTATAAGTGGATAAACTGGAGGTATGGAAGGTCTTTATTTAAGGAGAATAAATAGCCCACCCCATCAACATGATGGCCCTTGGAAAGG
ACTCTTTTAGCCTCCGCGAGTTCCTTTTCCGCACCAGGCTCCACTTACGAAGGACTGCAAAAACTTGCTAAYGTCATCAGTCTGAAAGGATTGAGCTGTA
AAATGTGTTATGGGGGCCTAAGCAACGCATCTGGAATTTAGCCTTCCCAAGTTCAAATCCGGTTTATGCCACTTGCGAAAACCATGTGACCTTCACTTGT
TCTTATTGCCTCAGTTTCCTCATCTGTAACTTGGGGATGATGACAGTATTTGGATCACAAGATTGTTGTGAAGATGAACTGAAGTGCTAATGTGAAATGT
TCATGATGGTACCCGAGTACTTGCGGTGGTACCTAGCGTGTGCTTTCCAAGTGCTGGCAAAGAAAAGAAAAGAAWTGCTTGGGGCTCTGCCTACCTGTCT
AGGCTCCTGTCTGGCCATTCTCTTTCTTGTTCCAACCATATCAAACTCACTGCTGTTGCTAAACCTTCCTGTCTCTCTGCATCTTGGCACAGACTATGTC
CTCTGCTTGGAAGGGTCTCAGCTAAGCTTTTCCTCCCCACATCTGCCTCTGTATCCTGTGAGTCTCTGTTCAAGGGTATCTTTCCCACAAAGCTTTCCTG
GGCTTCTCTTTCCTGTCTCCTGCCCTCCCTTCCTTCTTTTGTTCAGCACATCGCTGTCAACCTTCTTCTCTGGGTCAGGTAGAGCACTGAGCACCAGTGA
TATGGCAGTGATAAAGAAAGCAAAGGTTCTCACTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTC
AGGAGATCGAGACCATCCTGGCTAACAAAGTGAAAGCCCGTCTCTACTAAAAATACAAAAATTAGCAGGGCATGGTGGCGGGTACCTGTAGTGCCAGCTG
CTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGCAGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTTCAGCCTGGGTGACAGAGCGAG
AATCTGTCTCAAAAAAAAAAAAAAAAARAAAGAAAGAAAGCAAAGGTTTTTTCCTCCCAAGAACTCATGGTCCAAGTTTTGGTTTTTAAATATGCATCTA
TGACAGCACGGATCACATAGTGCATTGATTGTTTGCCTGTAGGTCTCCTTATTTAGTCAACAAGCATGTTTTGATCCTTTATTCTATACCAGCCGTCCCA
CTGGACTCTCAGCACATATAGGTATGCGAGACGTTGTCCTTGCCCTAAGTGTGGAGACAGACACGTAAATTAATAGTAATAATAATATCTACCACCCACT
AGGGGTCTATGTGTGTATGTGTTGGGGGCGGTGTGGCTGGGGAGGGAAGCAAGGCCTGTATTATGGCCCRAGCTCAAGAATATTCGGGCAAGAGCAGATA
CAATGCCTGTATTTCTCATCACTTTTGGGTGGCATAGGACCAGTTGGTTATGAGCGTGAAAGGTTTTCTTTGACTTTGGTGGTCTAGTTAGTGGTTGAGA
ACATGGATTTTGGAATCAGCCCGGTGGAGGTTGGAATCCTGGCTGCGCCGTTCTGTAGCAGTGTTGTGGATCTCAGACAAGGTGTTCCTGCATATGCCTC
TCTATCTTCCTACAAGAAATGGAGGTATTGCATCCCCGAACCGTAGGATGCTTGTCAGGATTAAATGAGATAACAGTGCCTGGTTAGTGGCACATGCTCA
GTAACACCTGCCAAGTACCACTCACTGAGCCGAAATCTCCTGAATACCACCCCTTCATGCCTTGCACATCCTGGGTTCTAACTCATTGAGGTGCCCCCAC
CTTTCCTTCTTCCCATCAACAACTCTTGTGCCCACGAGGGACTGGCCTCCTCAGTGCCACACAGAGCCTCCCCTGAGTAGATTTGTGTCATTTTCAAACA
AAGCATCCTCGCTGCAGTGTTGGATTTTGTAGGATGGTGACCGTTTACAGAAACCTCTGGTCCGTGAGCCAATTTGGAGAAAATTGAATCATTCTCTGTG
CCTTTCGGCTTGCATCCTAAAAGCCTGCACAAACACTTTGGGCAGGCTTCAGCAACTTCACATCAAGGGCTCAATTGCAGCTCCAATATAAAAACCTCCC
CCGTTGCTCTCTGTGTGTGAAGCTGGATTCCATGCTTGGCACAGACCTCGGTGCTCACGGTAATGCTTCCTTCCACCATATCAGAAGGTCCTCAGCAGCC
GCAGCCACTTAACATGCTCGGTGCTTCTCTGTAGGAGGATTTTKAAAAAGCAGGAACTGTCAGGGTCCCAAATGTTCAGTGGCACTTCAGCCAGAGGTAG
GATAGGGATTTTGAAGTGTTTGGAGAAGTGTTTTCATATTTGAATTTACGGGGATGGGGTGGGCTGGGGTAGGCAAGGGACAGACTGTAGCGATTCGCTT
GGTGTTTTCTCATGATGCCAGAGAAAATGACCTCATTATCATCATGCTCACATTCACCTTTGCCAGGACCCCTGTGTAGAAATAATCATGAACTTAGTGA
CTGACAATCATAAGCGTTTTATGATTTGTGGAGGATTTATATGTGAAGGAAAATGGATGAATTAAAAATATTAAACAGCTTAGCCGGCACCCACATGGAT
GAATCACCGAGATCTATTTTTTCCCCGTTTATACTATAAACATATGGCATGAATTTTCTGCTCTCATTACAGATGCTGAGAGAAGGCAAAGACAAATATT
TATATTACATTCATGTTTTACAGTAAAAACACTGTTCGGTTTGTTTACACAGTTCCACTGTTACAGTTTTTATGGTCGGTAATGCAACCACCGTAAAAGC
AAGTCTGGGTTATATAGCAGATGTGATAAGCCCTCATACTCAGAGAGATGTCTGGGAAAGAATCGTTGATGTCACATGTACAGGATCAACAATGGAATTA
TGTGTTGGGACAGTCTAAGTTATGCTGTAATAACAACCAACCTCAAAATCTCTGGGGCTTGAAACAACAAAGGTTTATTTCTTGCTCAAACTGTATTTTC
ATCATGAGTTGCTTGGAGGGATCTGTGAGATGGGGATCTCACTCAGCCACCGGGGCCCACAGAGCAGCCTGCACTGCTGGATGTTGTGACAGAGGAAGAG
AGGGATGTGCTGACCCTCGCTCTGGCTCAAAAGTGACTCCTGCCATCTCTGCTCACATTCCATTGGCCAAAGCAAGTCTCAGGGCCAAGGAGTGGGCAGT
AGTAGGGTGCTGTGTGTGTGTACAAACCCACCATATGTGCATAGAGGGAGGCCGAGAACTGGACTATCAGAGAATAGCCAAAGATTTCTTTCCACGGTCA
TGTCAAGCCTTTTTGCTGTTATTTAATTGATGTTCTATTTTTAATGCAACATGGAATCAGAAGAATATAGAACAGGCGTCAAAGACCCTCCCGCCTCTGT
AACCGCACTGTTTAAAATTGATGAGACTCTGTCTTCATTCGAAGATGATCTGATAGGAAGGATTCACAGCTTTCCCCAAGAATACACCACAGTGCATACA
AATCCTCGAAGCCGCAGAACTTTTTCAAGTTGAACTGTGAACTGTGATTTTTTTTTTTTTTTAAGTAAGTTTACATGTAGAAGCTCATTGGTAGAGAGCT
TTAGATATATTACTTCCCAGGGTGGTGCATCCTGTCACCATGAAGTAGGCATGAAATGCTGGAGATATGCGTTCATTCAAAGAAAATAAAAAGGCGCAAT
TATGAAAAGCTCTCAAAGTGACTTTTTATTTTATTTTTTATTTTTACATGGAGTCTCGCTCTGTTACCCAGGCTAGAGTACAGTGGCGTGATCTCAGCTC
ACTGCARTCTCCATCTCCCAGGTTCAAGTGATTCTCCCGTCTCAGCCTCCAGAGTAGCTGGGATTACAGGCACCCACCATCACGCCCAGCTAATTTTTGT
ATTTTTAGTAGAGATGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCTTGACCTCAAGTGATCCACCCGCCTCGGCCTCCGAAAGCGTTGGGATTA
CAGGTGTGAGTCAGAGCACCCGGCCTCAAAGTGACTTTAACAGCAACTTAAAGGCGGTGGCTAGCTCTGCCCCATTCAGTATGGTAGCCACTGGCCATGT
GTGGCAGTTGAGTGCTTGAAAGGTAGTTAGTCCAGATTGAAATGAGCTGTTGATATAAAATAACATGACTCCCAGGTTTCAGACAGTATAAAAAAATCTT
AATTAACATTTTTATATTAGTTCCATGCTGAAATAATATTTGAGACATACTAGGTTAAATAAAATATCATTGAAGTTCATTTAATCTGTTTCTTTTTACC
TTTTTTTTTTTTTGACACGGCTCCTGGAAAGGTTAACAATATGTAGGTGACCCTTTATTTTCATCAGACATTGCCGACCTAGAGGGTAACCACTGGAGAG
GAAAAAAGTACAATTTGGTATTTTTGTCACAAATCCTTAATTGCTAGAACTCACAGTTTAACCTGACAGTTGATCAATTGATATCCTTTGACTTGTTGGA
ATTTTATTCTTTACATTCGTCTTTTAAAAAGCTTTATTTTATGCCAGATGCAGTGMCTCATGCCTGTAATGTCAGCACTTTGGGAGGCTGAGGCAGGTGG
ATCACTTGTGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGCGAAACCCTGTCTCTACTCAAAATACAAAAAGTTAGCCGGGYGTGGTGGCACGTGCC
TGTAATCCCAGCTACTGAGGAGGCTGAGGCAGGAGAATTGCTTGAACTTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTG
GGTGACAAAGTGAGACCCTGTCTCAAAAGAAAAATAAATAAAAAGCTTTGTTTTAAAATAAGTTTAGATTCTCATAGAAGTTGCGAAGAATAGTCTATAG
TATTCTTCACAAGGGTTCTGGGTACCCTTAACCCAGCTTCCCCAGTGATAGTCACAGCATAACAATCAAGTCTGGGAAATTGACACTGGCATGATAATAT
TAACTAACTACAGATTTTATCCGAGTTCTGCTAGTGTTTGCATGTACTCATTTGTGTGCGGCTCTCTCTGTGTGTGTGTAGTTCTATGAAAAGTTATAAC
ATATATACATTTGGTTTACCAACATCATAGTCAGGATACAGAACTGTCCCATCTCCCCAAAGAAACACCCTTTACCTTAGTTTTTATTCTTTGAGTTATA
TCTTAACCAGGTTAACTGAGGGTAATTGTCTTAGGCAAGTTAGTACCAAATGATGCTCTTGGTTCCTTGTCTGTCTTTTTGCCCATCCAACCCACCCTTC
ACACATGGCCGAGTTATGCCAAACTTTGCAAGAGGTGCCAGGTGGGCACAAAGAAAAGAGGACTGCACTCAAGGAACTTAGTCTTTGAGGCCAAGCACGG
TGGCTCATGTCTGTAATCCTAGCACTTTGGGAGGCTGACACAGGCAGATCACTTGAGGTCGGGAGTTCTAGACCAACATGGTGAAAACCAGTCTCTACTA
AAAATACAAAAAATTAGCTGGCCGTGGTGGTGYGCACCCGTAGTCCCACCTACTTGGGAGGCTAAGGCAGGAGAATTGCTTGAACCGCGGAGGCAGAGAT
TGCAATGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGTCCACACACAGAGTGAGACTCTGAGACTTCGAGACTCTGTCCCCAAAAAAAGACGCAAAGG
AGCTCAGTCTTTGAAGGGTTACAGAAACAGTTTCACTAGAAGGTGTGACATTGTGTAACAGAAATCGGTTCCTTAACCTGCCAAAGGGAAGAAAATAGTG
CRGAATCTTTTCTCCAGGTTTCAGGACCCATGTCTGTTGTCCTTCCTTTACCTTAACTTCAGCAGGGCAAGAATGGTTCAAGCCACATTAGAAAGCAGTT
ACTTTCTCACCCAATTTTAAAGGAGAAAGGTARATGCGGTGGGTTCTAGGGATTTCAGTGACGTAACAGGTGTTTCCCAGGCATTAAGACCTAGTAAGGT
TTCCATTTCCRTTAGGTATTATGGATGCATTCCAAGAATTTAATTACTATAACATCACTTCATTCATTGTAATTCCTTACTAGAGTTATGAGAACTTGGG
ATTGTGTGGTTTCTTATTCAATCGATTAAAAGSTACTTGCTATAGTTTTCTAACTAGCTATTTATATGAAATTTAGTACTTGTCAATATGTATTAAATCA
ATACAGTTATATTTATCAAAGTGGTGAGAAGAGTTTACATCTGAACATAGAATAGATTGCTTGCCTTGGCCGGGCGYGGGAGCTCACACCTGTAATCCCA
GCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTTTACTAAAAATACAAAAAAT
TAGCCAATGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGACAATGGCGTGAACCCAGGAGGCGGAGATTGCAGTGAGCCGGGA
TTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAATAGTAGATTGTTTGCCTCAGTTGGGAAAAAATAAAG
TTTTAAGGCTCTAGAATTGGAGTGACTCAGCTTTACTTGAAAAATCCCAGAATAGTAGGACCATCATTTAGAAGTTTCGAGACGATAATATTAGGGAAAA
ATAACAGCAAATGTTACTTGATAGACACTAAACTCTGGGGCATATGAGATGACCCAGGCTGGAAAACCACTGGCTTACATAAAGGTATTGACAGACCCAT
GGGTGTTAAGATCCTTCATGGCTACTGGGGAGAAATGACAGGCCTTTTGAAATCGTATCAGTGGTTTTCCCTGGGATCACTGGAAAKAATACCCCTGTTT
GACAAGATATGACACATGCTCTGTTTTAATTCTGCATTTGACTAACAGAAAAGATTGGTGAAGATCAGACTCTGCTTTAAAGTTATTGAAGCAGGGTACA
AGGAAAAGGGGAAGGGAATAGAGGCTGCAGAGGAGAATGGGGGAAGGGGGCAGGAAGGTAAAATTTGGAGGTGCAGGCAGAGTCAAGGTCATGCCTGAGG
CCCAACCTTCCTGTTGAAGCTGGTGTTTGATTCAAGCTGTGGCTGAGAACGTGCAGCTCATCTGGAGGGTAGAGTTGCAAGACATGGGTTCAGGTCTGAG
CCAAGCCAGAAACTGGAGAAAGCGTGGCTTCTCAAGACTAGGAATACCTAGATTCCAGAGGTGGCGTGGGCATGGGGCACATTGTGACAAGTTAACAGCA
AGATCTTCAGAGCTGCAGCTCACCTGTGCCACGATGGTCTCCTAGGAGCCCTTTCCTGCTGTAGTCCCGCCCCGAGGGGTTTCACTTCCCAYTGCCTCTT
GGTAGCCGTGGGCACTTTGGTGCTCTGATGATGTAACATGGAGATTGTCCTTGTCTCCATCGCTGTCTTTACTGGTGTATGCCCATGAGGTATGTCAAAG
TCTGTATGTCTTTGTAATAATGCTGGATCATTTGTCCACCTTCAGAGACARCTGAAGACAGTTTTAAGTGAAACCACACAGAGGGCATATACCATTGGGA
CAAGAGGTCTGAAGTCTATTTTTGAGAAAGAGAAGAGATCAAGTAGTTAACAGCCAGTGGCTATCATAATAATGGCACCTAAACAAATCCTTCTTTTTTA
TTTTATTTAATTAATTAACTTATTTATTTTTGAGTTGGAGTCTTGCTGTGTCTCCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCG
CCTCCCAAGTTCAAGCGATTCTCCTGGCTCAACCTCCTAAGTAGCTGGGATTACRGGCACCTGCCACCACGCTCAGCTAATTTTTGTATGTTTAGTAGAG
ACGAGGTTTCACCATGTTTGTCAGGTTAGACCGGAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGAATGAGCC
ACCACGCCCGGCTCAAATCCTTCTTACTTTTCCTCAAGAACTCACTTCCCACCCAAACCTTTCCTATTGTGGCAGCTGTTATCTTGTCCAGCACATGTGT
CCRCACTTGGTATTAATAGCTCCATCTTAGGAACTATGAAAGTGAGGGGGGTGGTGGTAATTTGCATGAACTGGTTTGGGCCAGTTATGGTCTGTTACAT
CCTTGCTGAAATGGTTGGTGCTAAGATGAGCACTTGGCTTAGGCCAGACCAGTCCCTAGCCTGTGGAGAAGGGGCAATCTCTTATCTGAAGGCCTAGGAG
STGCAGGGATGTTTATATGGGCTGCTAGCGCTTAGTTTCCTGCCACARGGAGACAGTAAGAAAGGTGACGTCAATCTGAGATGAGAGRGAGAGCAAAACA
GTTCTTTTGACCACCTTGACCCCGACCTTGAAATAAGGTGGAACTAATAAMTCCCSCTTTGTGCTGGAGCAAGTTTTGGCTGAGTTTCTGTCACTTGCAA
CCAAATCAGTCCTATCCAGTATACCTAGTGACTCTCTGGTCTCCAAAGGCTRTGCCTGCTGGGTACTGAGTGTCTCCCCGACCGACCCCATGATGGCTAC
AGTGCACATCCCTTCCAGCCAACTCTATTGTGCACACATATTCGTAGGGTGAGTTGGGCCCCAGGTAGAGTGATTGGCTCAGATCCTGCATCCTTTCAGG
GTCTGACTGTAATCACACTGGCATGGCAGGGGGAAAGTGTATTGGATTTCAGAGTCAAAAACCACTTGGTATGAAACCCAGCTCATTTTCTATGTGGATG
TCCAACCTGAGCCAGATAATTAATCTTGGAGATGACGCTGCATACTTCATCAAGTTGTAAAGTTGACTGCTGTGATAATGGAGAATGCTGGACAGGCTGC
TTTTCATGTCATGGGTTCGCTATACTTTAGTTCCCATTATATCATCCTGCCAATCCCCATTTGTTGTTTTTTTGGGACCCAGGGTATCAGTCATCTGATC
ATTGTGTGACTTTCTCAAGGACCTTTACTTGAGTCTTGCACCTCTGGTCCACAATGTCCACATACCAGCTTGATGGTGACTTGTGTCATTCTCCATCCCC
TTGTTAAGAGAAAATCTACTTTATGAGCCCTCTTTCCAACCGCAGTGWTGAGGACTAGACCAGGCAAGATGATGCCGCTGGACCACTGGATCCAGCTGGA
CCGCTAGACCACAGAGCCCCTGGAGCCTCCCAAGGCCAAGCCCGCCAGCCACACACACCTTTGTGAGAATTAAGAAAAGATGCCCCCTCCTCTTGGGGCC
CACAGCTCCTCCACCTGGGCACCCAGCCTGGTGAACAGGGTGCAGGCTGGGATTTAGCCCTACCTTGCTTTTGGACCATTGAGCTACTAAGTTGGAGCAA
CAAGGCTTGRGAATTTTTCTTTGATCATAGGTAGGAAAGGTAAAAAAACATAAATCTGCCAATAGAAAATAGCATCGTAATGAGTTTCTACTATATTTGT
TTGGGCTTTGAAAAATATGCCGCCAAAATATATCAATGTATGGTCCCAACGTTTTAGGAAGTTGCATTTAAAAAATCTTGGATACCTGTTTTGTACATAT
TATATATAGCATCCCGTGTGAATATGTTAATTCCTTTTTATGAGTTTCGGTCTTTTTTCCCTCTCCTATACATGATTGCTGTTTTATAGCTCCAGTTTGG
TGGAATTAACATAGATTTCCCACATGGGGAAGGTTTTGGGTGAGGATTTAGAACAAGGCAGGTTCTTGATCCTCGGAAGAGATTCTTATCTGAGRGGGGA
TTTGAGAATGGCATTGCAGAGTGGGAGGCGCTGCTGTGTGGAAAAATGAACTGGAATAATTATTAGAACAGTTCTCAGAATTTACAGGATATTTGATCAT
AGGAGTAACTTTCCTCAGGAGTGATGGATGGAATGCCTGTACTTGGAATATTTTTAAATTAATCTATTTTCATTACATTGAAAGTRTGACACACAGAGAA
CACTAAAATTGGATGAGGCACTACCTGGAATTATATAAAGAATGACAAAGATGCGGTTATCCATTTATTTTCTAGGCAAGTTAGTTAGCCTCTCTGTGTT
TCTATTTCTTTGTTTATAAAAGAGGGACAAAAATAGGACCTATTACTATCTAGGTGACAGGATCATTCATACCCCAAACCTCAGCATAATGCAATATACT
CATGTAACAAATCTGCATAAGTACCCCCTTAATCTGAAATAAAAGTTGAAATTATTAAAAAAGAAAACGAAGGCCGGGTACGGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGATGCTGACGCGGGTGGATCACATGAGGTCAGGAATTCGAGACCAGTCTGGCCAACATGGCAAAACTCCGTCTCTACTAAAAATTCA
AAAATTAGGCTTGGTGGCACGTGCCTGTARTCCCAAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGTAGGCGGAGGTTGCAGTGAGCCG
AGATCGCACCACTGCACTCCAGCCTAGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGAAAGAAAACAAAAACAAATAGGACCCAT
ATCCCTGGATTGTTGAGGAAATACGTGAACATATGTGGCACACATTATAGTGTCTGGCATACAATAAATACTTTGTAATGTTACTGGTGTYTTCTTACCG
TTATTGTCTCACTGGTGACCGTTTGAAATGTTGAAGCTTTATTRTTACAGATAATGGTGGATATAGTSTCTTCCTTGTTTATTTTTTGACAGAATCTTTT
TTTAAAAAAGTTTTTATTTGTTTGGTGAGAATTTACTTGTTACAGGTCTAGTGCTGTTATAGTTGAATGTTTTGAATTATGTAACTTAAGTGAAACATAA
AGCTATGACTTGAATTTTGTGGTTAGAAATTTTCTCAGTYGATTGACAAGGATGGCGTATTGGCCACCTTTTGCCGCAGTAACAAACAATCCCAGACTCT
CAAGGCTTGCAAAAATAAATGTGTGTTTGTTTGCTCATAACACATGTGGCTGAGGGTTGGCCRTGGCTCCACAGTCACRGGTGGGCTTTCCTGGGCTCAG
CTTCTCACAGCGTCTCCTTGCAGGGCCCAGGCTGTAGGAGATGTCATCAGGGCCTGCAGAGGGCAAAACCTCACAGAGGCTTCTGTTCATACATTGTTGT
ACCTCATGTGTGCGTCATATTGTCATATATCAATGGCAGTAGCCAAGACCAACAGCCAAGACCAATGTATTCTGCCCACAGGAAAGTGAGGCAAAGGCAG
GGAGGGAATGATAATTGTGAACAAAGAATTCACTTGACCAAAGATGGTTTTCTTGATATGGTTGCCACTTACCTTTCAGTAAAATAGCACTTCACAAATT
TGTTTAATGTTTTATCTCAAGCTCCCAGAAGTAGCTAAAACCACGAACATACATGTTGAAAATTTCAAAAGGGAAAAAAGAAAAGAAAGGCACATCTGAG
TCAGGAAAACATTAACTAGTCTTATTTCTGAGAATCAAACCGGTGGTCTTTTCAGTGATCAGTCACCCCATTAACCACACATGAATGGCACAAGTAGGAA
ATGCCTGCTCAGAGTCCCTGGAAGAGGTATCCAGATTTATGGCTCATCCCAGACTTCTCTAATCGAGGCTGTTTTCCCTCTAGATGCCTTAGTCAATCAG
TAATTAATTTGAAATCCAAAGTTTCATTAAGTGTTATTGAGTTCTCGCACACTGACCATTTGTAGTGCTATATTTCTTTTAAAATCACCAAACCATTTTT
CATACTGTCGTTTGCATATTTTAACAGAAAAGATTGTGGTTCTGGTGTGAATGACCCAGTTTTCTGGATATATTTACTTGAAATGTCATAAACTTATTAT
CCTTCTCTTCCACTTCATTGCTTTTCTGCTTTTCTGAAGTATTTTGAAATCATATTTAAAACATCATTATAGCCTCTGAATTCTATCTAAAGCATAACTA
AACTTTACCGGGTGACTGTTTTCAAAACAATACCAAGAAGCTGGTCTTATTTAGATCTAGTCTTATATCATTGAAATATCATTAGAATTCTTATGGAAAA
TATGTTTTGGCTGTTTAGRGGATGCTAGGGGCTGGAAGTGAGAAGGTTTCAACACCATATGGGTATGTGAGTATAGATGCTTACAAGAAGAAGGGTAGAC
TTAGCCAAAACTAATTTGGGATTTTTGTTTGTTTGAATTGTTGGAGGGTGGATGAGAGTGAAGACATATCCTTTGAAACTTAATTAATTTTATTTATTAT
TANNNNNNNNNNNNNNNNNNNNAAGTAGCTAAAACCACGAACATACATGTTGAAAATTTCAAAAGGGAAAAAAGAAAAGAAAGGCACATCTGAGTCAGGA
AAACATTAACTAGTCTTATTTCTGAGAATCAAACCGGTGGTCTTTTCAGTGATCAGTCACCCCATTAACCACACATGAATGGCACAAGTAGGAAATGCCT
GCCTTCTCTTCCACTTCATTGCTTTTCTGCTTTTCTGAAGTATTTTGAAATCATATTTAAAACATCATTATAGCCTCTGAATTCTATCTAAAGCATAACT
AAACTTTACCGGGTGACTATTTTCAAAACAATACCAAGAAGCTGGTCTTATTTAGATCTAGTCTTATATCATTGAAATATCATTAGAATTCTTATGGAAA
ATATGTTTTGGCTGTTTAGAGGATGCTAGGGGCTGGAAGTGAGAAGGTTTCAACACCATATGGGTATGTGAGTATAGATGCTTACAAGAAGAAGGGTAGA
CTTAGCCAAAACTAATTTGGGATTTTTGTTTGTTTGAATTGTTGGAGGGTGGATGAGAGTGAAGACATATCCTTTTGAAACTTAATTTAATTTTTATTTW
TTATTATTATTATTATTTTCAATTTTTTATTTTTATTATTATTATTATTTTCTATTTTTTATTTTTATTTTTTGAGACGGACTCTCGCACTGTCGCCCAG
GCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCCTGCCATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGC
GCCCACCACCGAGCCCGGCTAATTTTTTTGTATTTTTGGTAGAGACGGGGTTTCACTGAAGTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGT
CCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCAACTTAATTTAATTTTTTAAAACAATATATGTCTCTTTGGAGTCAGGGTGTTTGTTACA
GTGATGTTTTGCAGACAGGTTTATTGGAACTGCTTGGTAGGTGATAGGTTTTTCTTTCTGTTTTTTAATTAAAAAATAAGATTGGCCGGGCGTGGTGTCT
CACACCTGTAATCTCTGCAATTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGGAACCATGTTTCT
ACTAAAAATACAAAAATTAGCCTGGCGTGGTGGTGGGCACCTGTATTCCCAGCTACTCGGGATGCTGAGGTGGGAGAATTGCTTGAGCCTGGGAGGCAGA
GGTTGCAGTGAGCTGAGATCATGCTACTGCACTCCAGGCTGGGCGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAGATTTATGTCAAGAATT
CACATTTCTGGCCTCTCTTAAAAATATTGGAAGACATGGCAATAATTATCTGGGACTGAATAGCAGCTGCTTCTTTTTGGGACAGGTGATCACCCCCAAC
CCCAAACCCCTACCCTTAACTCTTCTACTCCTTTGGATGTTATCCCTGCCTGGTTTAACCATCAACCCTCTAACTCCCGATCCTTTTAAACTTCCTCTAC
TCTTTTTATTCTTAGCACTTAGAACCCACTAACGCTCTATGTAACTGTCTTACGTGTTCCATTTCTTGTTTCTAGACTGTCTCCCTCCAGTAGAATGTGC
GTTCTGCTATACAGCAGTGCTGTGTGACGCGATAGCAGGTCCTTTTTAAACATCTGTTGAAGGAGAAAATGAAGGCACACGTGGCCTTGCTGACATCTGA
GTTTGCAACTTCTTTTATGCCTTCTGCTAACTGGGACCCCAGTGGGCTTCCCTGCTACACCCTCTGAGGTTCCCCAGWCCTGCCAAGCTGTTCCATCCCC
AGTTCCTTGGTGCCTGCTGGTACTTCMCCCTGGAGAGCCCAGCCCTTCCACTTGTTCAGATCTCAGTCTCTCATCTGGGAGGGACAGCTTGAGCACTATG
ACCTGTGTGAAGCTTTTCCCAGTGCTGGCAGACTGACTGGAACCTGCTCCTTCATTAAACCTGACAGATGCCTCCACCTGGCAGTTCTACCCTAAGACCA
TGAACTTCTTGAGGGAGGGAGATGTGACTTTTCATCCCTGGGACCCAGCAGCTGGCTCACCTCCTACTGGTTAGTGGGTGATGATTGGATGGCTTCCGAA
TGAACTCAGGTGTCTTAAGTACCGTTGGTCCTGACACCATGGCCACCTTCCAGAAATTTCCACATGTTAAGATTGCAGATGCAGGCTGGACACATTAGTG
ATTTCTAAGTGCTAAGAAAAAAAAAGAGCGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCTAAGGTGGGCGAATCACCCCAGGTCAGGAGTTTGAGA
CCAGCCTGAGCAACATGACGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGACATGGTGCTGGGCATCTGTAATCCCAGCTAGTTGGGAGGCTG
AGGCAGGAGAATTGCTTGAACTCTGGAGACAGAGGTTGGCGTGAGCTGAGATCGCACCACTGCACTCCGGCCTGGGTGACAGAGCAAGACTCTGCCTCAA
AAAAAAAAAAAAAAAAAAGAAAAAAAAAAGATTGAAMATGTGGAATATGAGACAAATGAAAAAGATTGAATTCCGTTCCAACTGGGCTTTTGAATTTATT
TTCGCACTTCCTATTTTTTGAGCCCGGGAGTGCAAGATGTAAGCTAAGAAAAGATAAGATGAAAGTATTGCTCTAACATTCTGGCTTCCTTCTATTAGAG
AAGAATGCAAATCTTTGCCTTATCTCGATGATGGGCCCCACTTAACCCTTTGTTTTACTGAGAGCACTTTTCTGCAGATGATCAAGTGGAATTTACTATG
ATGGCCTGTCAAATCTTGAAATAATCTACCTTTAAGGAAGAAAAGTTTAACTAGATGATTGTACCTTTTAGCCATATCTACAATTAATTTGAATGTATTG
CAAGCTGTTTAAAATATTCCATTAGTGAAGAAGGTAAGCCTAGCTTCTGGTAAATACACTACTAAGTGTTTATAGTACATTTCATATTTTACATGATTTC
CTTTATAATTCTGCTTATCTTTTCATTCTAATTCCCTGAAGGACATATAAAAGAACCCCTAAAGAGAGTAATTACTGCTGTACTCTTTAACCAAGGCTCC
TTTTGCAAAGAGAAATCTGAGCTGCTTTTTAAAGAAGGCCGTTTTTAAATAAAAATGCAAATAAGCTACTTTGTAACYACATTAATTACCCACCTAGCCT
CTTATTACCATGTTTGTATTGTTTGCAAATACTATTTACAGTCGTGTGGAAATTAACATTACTGGTCCTGAGGAAAGATTGTGTTGGGGAGGTTGTGCTT
TGGAACCAATTAGGGCGAACCTTGTCTCCACTGAGACTCTGGGGAAAAGCACAGCCTTGCAATGTCAAATAATAGCATTAGCTCTGACTGTACAGGCAGA
GTGCTGTAATTATATTATTGGCCCTATTTTGCTTCTGCAATGAATTTCATTGCCTGCATTGTAAAATCAGCAGGTAGCAAAGTTTCTGCTAATGATTTAA
TGTACTCTCTGATCATTTTGGACAAAAGTCATGGTAAGATCCACAAGGCAATTTTATCATCCCCACTGACTACTGCCTGGTTTAAGCATTTTAAGTGAAG
ACAAAACATGATTCTCATCTCCTTGTTTCCTGGTGAATTCCTTCCCACACAGAAGAGAGAATTACTTGTCTAATATATAATTTCAGGCATAAGGAGAAGG
TGATATTGCATTGCAAATAATAGCAGTTAGTGGGAGTTGAGAGCCAGCTCTGCACCAGACTCGTATCAGCCACTTGACCTCCATTATTCCTTATTCCTTG
GTACYTCTGCGCCATCTGTGATATCAGATCCTTTTTTCTGCAAGGAAACTGAGGCTCGGCGATACTAAGAAACTCAGCCAGGGTCCGTCAGCTGTCAAGT
GGCATTGCTGGCACCCAGATTGAGGGCCATCTGACTCCAAAGCCACCTGACTCTTTCCCATATACCACAGTTTCTAATACGATATTATACCAAGCTTTAA
TATGAGCACACCTCCTGGATGATGCTGTAAATTAGTTGCCTCCCACCACACCACATSAAGTATAATGGATATAATATGATTTTTCAGAATTCAGCTAATT
ACCTACTGAGCTTTACATTTTGTAACTTTTTTGACTGTCCATCAAAATGTCTTTGGGATTAAAAATTTTTTTCATATGTTTTGAGGTCAATTTGAATCTG
AGTTTAATAAACGTTACCATGAAACATTTCTCCCATCTTTTTAGGAAATATCTGTGAATAAACTCATTTTGTGATAGAAGGCTGTGTGTTTATCCAGTTT
TCATCCTAAGGAGAGGGGGAGAAGGGAAATAATACTTCACGTCTTTATTGCATGCCAAACGTTTATAGACATTATATGATTTCATCCTTTAATAACCCCA
TGAAAAGGATGTCATTGTCTTCACTTGACAAATGAGGGAGATGGCAGTGCAATCAAGACATACTGACAAGGAGAGGAGGTGAGCGACTTGCCCGAGGCCA
CGCTGCTGATACCTTGGCAGAAGCAGAATTTGAAAACAGAGCCCCCATATGTTTTAACTGCTCATTGGAAACTGACTAGGTCACATACTCCTCCTCCTTC
CCTGTACTGGTAGTTTTTCTTTTATTTTTTTTTTAAATTTCTTCCATTTTCTTTCCTTTTTACAGCAAATTTGTAGTTATGGTGGAGCAAAGGGCAGTTT
TCACTCCTCTTCCCTAAAACTGTAGTTTAACTAAAAAGTGGCCACTGTCTCCTGGTAGCRGTTGGTAAGCCATCCAGTCTCTGCAGGCATCTACGCTCCA
GGTCTCCAGTCTGAGGAGTCTSGCTCCTRGGGCAGGTGCCTCTGGGGGTCTCTGCCAGGCTTGTCTGGTCATGCAGCTACTTCCAGACTGATTCCTAGAT
CTTGCATTTTTACATAGGACATCCCCAGCATTCAAAGAAGATCCTGGGAACTGGATTCCTACCAGAGGAATTAGAATGAAACCAACAAAACTAAAAACGA
CACCCTCCCCCATCCCCCGCATCCGATACACATGCAAGGTAATATTTGATGTCAGTAGGAAAAAAATCCAGTGTTATAGGAGACAAACCATAGCAAGCAA
TGGCCTCTCACCCTTCCCTTCACACCCTCCACTCTGTCCACTTGTTTGTTCCTTCAATAAATACTRATGGAGAATGGGCTCTATGCCAGTGTTTCTCTGG
ATGTTGGCTGCAGGGATGAACAAAGGCAACTTCTAGGAGAAATTTCTGTTTTTGATGCTCTCGTGGCTGCTTCCTGTGTCTTAATATTGTGCTTAAACTG
CCACTTCTTCAGCTGTTGATTTCAGGCACTATCTAATGACTTTTGCTGTTACGAGCATGGATTTAGCTCATTTTTACCATCTTCCCTAGTTGTATCACCT
TCCTCCCATTATGTTTGTAACTTCAGATTTTGTATATTTCRCATATGTCAATATGTAAACATTTTATATATATATATATGCATKCACACACATGCATACA
TATATGTAATGGTATATATACATGTAAGTTTCCATTTTTGCTCAAATTGCTCTGGACAGTTCTTTGCTCTGGGAGTTCTTTACTCCCTTTCTCATAAGAA
GAGGCTGTTTGTACCCTGATCAATCCCTCTACCTCTTCTTTTCCCCTTTCACCCGTAACTTCTGCTACTTATACTTCTGCCTTATCATGGTCCATAACAT
TCACCTTCCACTCTGTAGCCATAATTAAATCTCCCATGCATCCCACTTTGGGAGGCTGAGGTGGATGGATCACCAGGTCAGGAGATTGAGACCATCCTGG
CTAACACGGTGAAACCCCGTTTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCACGTGCCTGTAATCCAAGCTACTCGGGAGGCTGAGGCAGGA
GAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCCAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAACAAACAA
ACAAACAAACAAACAAACAAACTAAGAACARCAACGAAAAAACTCCCATGTATTATCTATGGATTGACTGTAAAATATGAGAAGCAATAAATATGTTCAT
CACTAGGGCCATCTAGAAATTTCTAACCCAAGGGTCAACTAATCTTTCCCTGTGTTGTATTTCCTGCTCTGCGGATCCRGCATCATGACCTTTGTACTAC
CCAGGAAAGCCAGTGTTCTCATGGGCTCTTCTCTTTTTTATGCTCTACCAGATGCTAGCACTGTGGCATGCCATTCGCTCACTAGCAGCTTAAAGGGTAC
AGGTTCTAAATCTCCTTAGTGCTACTCACCTGTTATTTCTGAGCCTGCGTAGATGATCTTCTTTTATTCAGACGTCTGTGTCACATATACATGACATCCT
ACCCCCTTCCCATAAAAAAAATCACATTTGTGAATGTCTCTCTTAGGCTGAGTTCCAGACTCCAAGATCCCTCTTCTCTCTTGTCAGAATCCAGCAGCTG
ATGGCATTTATGTCTGTAGATTTCACTGTCAATGAGTCATTGACAGGCTAAGCAGGCTGTTGGATGGAGTGATCAATGGTATGAGGGAAAACACTAATGT
ATGCAAGAAGAGCCATTTCCTAGTAGGAAAAATATTTATGTATGGAGCCACAAAGGTGATCGCTTCAGTAGAAATCACCAAGGACCTGGTAGTCAATGTG
CAACCTAATTTTCTTTCAAAAGCTGTAGGAATGGCAAGGGAGGAAATAAATAATGCATTTCTTTATATCTCCTGTTTTAAGTTACTGAGTGTCGCCAAGA
GATTTCTAAGGCCAGACATTGAGTCAGCTGTAAAACTGGAAGGAGCAATGTTTGCTGACTGTTGCCTCAGCCGCTGACCCTGATCTCCTCTGCACGTAGT
AGGCAGCTTAAAAATTCCTCGCCCGACTTCTGATTTTCACGTGACTCACTGCTTAGTTGTCTGGGTTTGTTTTAATTCCTTTCCCCCTGCTGACAGTTCT
TTAAGTGGATGTCTATAAAGGTTGGGGCATTCGCTCTTACAACAATAGGAAAAGAAAGGAGGAAGGAATAAAAAAGAGAGAAAAGGAATAAAAAAAAGTT
TGGTTTAGATGTCTGATTTCTCTGAGCCTCAGTTTCCCAGCATGTAAAATGTTGTGAGGGCTCACACTGGTCTTGTCCAGGTGCTTAGTAGAGCATCCAT
TACACCATAAAGTATCACAAAAATTTTTAATATCATCATTATTACTGTGCTTTCCCTTGAGTTTTTTTTTTTTTAAATCAGTTAATCCACATACTGGCAG
ATCTGACTTCCTTGTTTTAGGCCCTGGGGAATTTTTGTTATCTGTAGAGCTGGATTAATTTTACAGTGTGGTGCCTTTGCCCAAGGTGAACCTGTCTGTT
TATAGAAAGTGTCACCAAGTTCTGTCTTGGGCCCGTCCACTCGGTTATATGTGCTGGACCCTGGGTGGAAGCACTTTGCACGTGTGCATTCAYGATGGGC
TGTGCTGGAGGGGAAAACAGGCATCACTCCCAAATTCTATTCATGCAATTAAAAATTCCTTTCATTTTTATTTGTGAGAGGGTATGGGTGCACAGCAGAC
GGCAAACAGAAGAAAAGCTTTTGATTGAAAGGTAAACATTTACTTCTGCCTTTTAAATAGACATAGCAAGTCTCTTTACTCTCATGGAAGCAGTTATAAG
GAACATAGAGCTGAAGAGAATATGACCATTTCTGGTCTTTTACTATGCTCGTATTAATCCACCCTGGATAGAAGGGACTGTACTATTTGGAAACACCTAA
ATAAAATGTTTTTGTCTTAAGGTGTTAAAATGTACTCATTAATGTGGCAGTGTATTCCTTTTCTTCTGTGATCGTTGAAGTAGGGAAGGAATTTCAACTA
AGAACCAAAATGATTGTCTGTTAAGACACTTATTTTTTGAGAAGACAAATTAATATAACATTATTATGTGGGGAATGTGGAAAGGCTAAGGTTGTATTGA
AAACTTATTAAGCTTATGAGAATATTGAAAGCATGAGGAGGCATGACCGGAAGGTATTAATGATTTGGGCTTGATTATTCTAAGACTGTATTCTAAGTCT
AAAATGTTGATAACTAAGACCTGAAATGATAAATGTTTGGCAAAACCAAATAAATGAGTAGCAGGTTGAAAAAAGAGGCAAGAGAGAAGTAGATATTTAT
AGTTTTCTAAAACAATTTAGTCCCTTCTGGAAGAGAGTCCTACCTCAGCCATGCCTACCAGGTTGTGTTTGTGGGATTATTTCTGAGTCACCCTTAAGCT
CATCTTTACCCCTCTCCCAGACCCCCAGTCCCCTCACTGGGCATTCCTTGGATTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTGTTTGAG
ACAGTCTCACTTTGTCACCAAGTCTGGAGTGCAGTGGTGTGACCTTGRCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCTTGCCTCAGCCCC
CTGAGTAGCTGGGACTACAGGCACGTGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGATTTTGCTATGTTGCCCAGGCTGGTCACGA
ACTCCTAAACTCAGGCAGTCCACCCGCCTCGGCCTCCCAAAGTGTAATCCTGGATTATAGGTGTGATCCACCACACCCAGCCTTCCTTTTGTTTTTGATT
TTTCCTCTTTAAACTCTACTTGTAACCACCCCTTTCCTTTCCCAAACTTTTACTAGCTTCTTCCATCCTGGACTTGCAATCTGGCTGAAAACCTGCTAAA
TAAGGGAACAATTTTGACATGGCTCCTGKACTCCCCACAAACCTAGTTGATYCCAGACCAGTAATGTCTTGGGGACAGTGTTGTCCCATCTTCCTTTCTA
GGCTGGGCTCAGATTACTGACGTGGAAGAGTTGTTGGTCCTGGTGCAACATGCCATGACCATGAGGCCTCTGGTAGAAAGGAAGGAATGAAGGGTGGTTC
TCCAAACCCTTGGCCCATGCCTCATCCTTCTGTTCCCTTCCTTTTCCAGGTACGTAGCTGGTCAGGTTTCTTAAATTCCGTCGATCTGGCTTTATCCATT
TTAAGCCTTAGGTTGTTGGAACATAGCTAAGTTGGTCACCTTTTCAAGAATTGAATCTCAAAAAAGCCATGTAGACCTCGGTTGTAACCATCACATTCAT
TGACTTGGTTGTTGATCTGTTTGTCAGATCAGTTTTCTGTTTGGGGAACATTTTTGTAAGTGCATGTATTTCAGCTTTTAACATTTTAAAAATAAAATTT
CATTGGGAAAGAAATTTCATTCGACTGGAGTACCAGGAACTTAGAATGAATCCATTTGTCAGCAGTATTTATACCCTGTCTAAAAGAGTGTCCTCCCAGT
TCTCTGTCTCTGTACTGTGTCCCCACTTTAAAAAATAGCTCAACCTCTCATTATATTTGCAATTTTTTGTTTTTTTCATTGCCTGGTGGGTTTTTTTTTT
TTTGTCTTTTTAAATGCTCCATGTAGAAAAGAATTCCTGGAATAGTTCTTGGAACAGCGTAGGTGAATAAATGAGCAATTATTTTGTCCTCAGCACTATA
ACTGATTTGAGAAGGTCAAAACAGAAAATAAAAACATGTTTCAGTAGTACCAGTTCCTGCACAGGCTGTCTGCCAACTATGGAAGTAAAGGGAATAGAAT
TAGGCTGTCTGGATTATAGTGGGAAAACAAAACACAATCACATCCTGCCTCAGCCTATCCTTGAACTGGTGTCTTTAGAAAGGGGAGGTCAAGTAAAGGC
CATAAGGCTGGATGGTGGGGAAGAAAGAGGCCTGGGAACAGGTGAGAAACTGCAGAGCCTGGCGGAGTTCATTTAACCTCACTGTGGTTCTGTTGGACTT
AGTGCAAAATCAAGAGACCCACCTTTGCCTGCCCATCCTGCAATGGTTTGGGGGGCCCCAAGTAGATGACTGGGGAAGATGACTGGGAAACTGCAGCACT
GGTTCATGTTCTGGGACAAATCAATATTAAGCAAGTTTAATGATGGGTAGGTTCATTCAAAAGGGAAATATGTTTCAATGGAGAAGAGAAATTTGTTAGG
TTGTATAATAAATATTTTGAGTGTATTTGGATAGAAGTTTATGACGGAAAAGGCAAAATTCTCTGTGTCTTTATGGGGAGATATTCGATATGTTTTTTCT
TGGCAGAAATAAAACATATTCAATAATATAMTTAGGCAAACTTGTKTTASTTGACAAGAAGACCGTATCTCCGTCTGCAAGATGAAGGCAAGATCAAGAG
ATGTCAGTTAACATTCTTGCGACCACAGGTAGGGAGGAGAACTGGGGAGGAATTTATGGATAGGTGAGAGCATAAAACTAGATGCGGAAGGGATGGGGGA
GCAGGTAAAATAATGAGGCTCAATGTTCAAGAAGGTCTTGGGCAAGCGCGTGCTAGTTATTTTCCTCACTGGTGTGGTCGTGACAGATGAATCACATTTT
ACTCTCCTCCCTTTCTCATAGTATRATTACATAAAGGAGACCTTCCCTGGAAAGAGCCCTGTGCATGGCTTTTGAGAGTGGGCCTGGGCTAACAGTGAGT
GTGGAAGCTTGCTGCCTTGAATTCTTTCCAATTCTGGAGAGTTGATGGGTAACAAGTGTGTATCTATAGTCTGCTTGGACATGGCRGTGTGGCCACTGAC
ACGTTGTCAGCCATCCCCTCAACTCCAGGGACAGGAATGGTGAGAAGGTGGTGAGGGCACAGTCTGCCCGGAGACGGGACAGTTTGTACTACCTGTAGCA
AGAGCATGTCTTTGAGAGCCATAGCAGCTGGCTTCCTATTTGGAGAGAACAAGAATGTGAAAAGCTATTTATTACCAGATGTGGGCAGACCCTCCAGCCT
TTTTTTGTTCTTTTAAACCCTAATCTCTTTTTAAAATTTTTTTTATTTTTAATGTTTATGGGTACATAGTAGGTGCTTATATTTGTGGGGTACATCCGAT
GTTTTGATACAGGCATGCAATGTGAAATAATCACATATGAAGAATGGGGTATCCAACCCCTCAAACATTTATCCTTTGTGTTACAAGCAATCCAGTCACT
CTTTTAGTTATATAAAAATGTACAGTTTAAGTTATTATTGACTATAGTCACCCTGTTGTGTTGTCAAATAGTAGGTCTTATTTATTCCTTGTATTTTTTT
GTACCCATTGACCATCCCCACCTCCTCATCAACCCCCCACTACCCTTCCCAGCTTCTGGTAACCATTTTTGTGCTCTCCATTTCTGTGAGTTCAGTTGTT
TTGATTTTTAGATCCAAGAAACACAATCTTAGATGCATAGTAGGTGCATTCTGTTGCCATCTGCATCATGGGACTGCACAATCGGAGAGGCAGGAAGGCC
CTGAGAAATACCTGATTACACACCTGCGTGCTGGGATGAGAAATATGAGGGGAGGAGAGAAAAGATGAGCCTCATATTGCATAGCAAGTCTGTGATGGAA
GCAAAGTTAGACCCTGTTGATTTTTATGTCTTACCTCCTTGCCATTAGTTAGGTAAATTTAGACCACCATATTTTCTAAGATCAGAGAATAGAGAATTTT
AAATTCTAGATTCTTGCCTTGTGGATGTTGAAAAGAACAATTAAAAGTTATTTGGGATATCCAATCAGTTAATAAATAATTATGAATGAATAAACTGTTT
TGTTGAAGACACTCTTATGGCAGACATGAACATGGGGCTTAAATCAGTTCTGACATCTAGAAGCTCAAATCCAGGAGGCAGAGGAGTTGGATATTAAAGA
ACTCTGTGGTGAGCTGGACAGGATGACATGACAATTATGGAAGTTCAGAGCACATAGCAGTCTTTTCCAGTGATGGGGATGGAATGTGGGGGTCATGGAA
GACTTTGTGGAAGAGTTGCAAGTAGAATTATTACTGTTGAAAAGAGATGGGGAGTTAGGTAGACAAACAGAAAAAATGCCACCAAACAATAAGTTAGGAT
AGAAAAACTCCACGTATCCATATGTCAGTTGGCCCATCTGTTCGTTCATACATCCTTTCATTCTTCTATCCATCCAACCGTCCTTGCATCCATCTATCCA
TCCACACAACCACTTATTCTTCATTCATCTGCCCATCTGCCCACCTACCCATCCACCCTTCCATACATTCATCTAGTCATCCCCATCCATCCACTCATCT
ATCCACCCATCCATCCACCCATGAATCTATCCATCCATCTGCCAATCCACCCACCCTTCCACTCACCCACCCATCCATACACACTTCCATCTGCCTTTCC
AATTATCCACCCTTCCATCCATCCATCTACCCACTCATCTACCCTTTCATACATCCATACACATCCATCTGTTCATTCATCTATCCATCCATGCATCCTT
CCTTCGTTGTTTTCTTCCTTCTATCCATCTATTCATCTACCCACCCCACCCACCTATCCTTCACCCATCTGGCCATCCATCCTTCTACCCACACCTTCCT
TCCTACCTTCCTTCCTTCCTTCCGTCCTTCCTTCCTTCCTTCCTTCCGTCCTCCCTTCCTCCCATCCTCCCTTCCTTCCTCCTGTCTTCCTTTCCTTTCC
TTCCTTCTCTTTCTTTCTTTTGTTCCTTCCTTTCTTTCCTCCCTCCCTTTCTTTCCTCCCTCCCTTCCTCCCTTCCTGTCTCCATTATTAACTTGCTGGT
ATTTTGTTTCACCATTGCATTGTGTTTATCAATAGACGATTAATGGAAGAAGAGAAGAAATCAGGTGAAGTCTTTGTAGGATCTAGAATGTCTAGGCTAA
GGAGTTTGAAATTTTTTATACTATGTTCTATTGGGAACCATTTCAGGGTTTTGAGATATAGTATGATATAATAACAGCTATGCTAAATTCTTTGAAGTTA
TTGGTRGTGGAATATCAATCCAGAATGAAAATAAATAATTTTGGAAATGAGCCTGTCATTGAAATATACTTTATTTCTCGTTAAATGTCCCAGCAAAAGT
ATTTTGGTTGTTAAAATAAAGGAACAACCATTAGAAAGGAGGAGGAGAAGAATTAGAAGGAAAAAAAAGGTAAAGGTAAAGTACCTTGGTATTTTAGGGT
TTCTAAGATTAGGAACTTTAAATGTTGACCCCATTTTGGTCTTTACCTTCAAAAGACGGGAGAAAGACTGAGAGAAGTTTCTAAGCTGATGCTGCTCTAC
TACCTGGAGTAGGAATGAGAAACCATCTATAAATATTACCTTTGGTGTTTCCATCAAAAATTTAGAATTTCACCCTATTCTATTTTTAATTCTGGTTTAA
GACTGAAGGGGTTCTTGGTGAATACTTTTGTAGATACAATTAATAGTTATGAAAATCATTACTGATTACCTCCAGGGTTCAGATATTGGGCTGAATGTCT
TCTCTCACCATCAGAACTACCTTTTGACTAGAGTGTTAATTATTAACATATTTTAGATTAGTCAGACAACTGCAATATTTAAGGAATACGTCCAAGGTCA
CACAACTAAAAGAAGTGACAAAGTACGGTTTCAGACCCTTTTAGTCTTTTCTGTGTTGCAAAATTGAGATAATGATAATAGCTAATGATACCTCTCCCTT
ACTGATAATTGAATGTTTTATGTGAATTAAAAAGTTTAATCTGCATAGTGTTTCATCAAGATAGATTCCTTGTTATCCTCATTTTGGAGATGAAGAGACT
CAGGCATGCAAAGGTGAAGTAATTTTCCCAGGGCCAGAGGGCTAAGGAAAGGGAGAATTGGGATTAATTCTACATTGTCTACTGGTAATACCTATTGCTC
ATTTTTACCAGTTAAAACTATTTAATGAGCATTTGCCCACTTTCTAAAAATATGATGGTCTTAGTTACCCACATGGACCTACTCTATCCCAGGCAGATGC
CACAAATTATTTTGTTTTCTTTTTGTATATATTTATGCTGTTTCCTCATTTTTAAATAGTGGGCTTTGATGACTATTCTTCTACATAAATTATTACATAT
CTGTATCATAGAATCTTAAAAATTATTTGATTCAAATGTATACATAATTTTCATATCCCTGATAGATATTGCCAAATATTTACCAGAAGTGAATCAAGTA
GTTTTTCTACCAACATTATCTAAGAGGGCTTGTCTTATTACATCTTTGTCAGCACTAAGTATTATCTCCCTTACTTTTTTTTTTTTTTGGTAATCTTTGT
TACTTTGTTAGGATTAAAGTAGCTTCTCATTTTAATTTTCACTCCTTTAATTGAGAAGCAGAACGTATTCTTTTTTGGTGACTTGTTTCAGAGTCTCTTT
AGTTTGAAGATACAATAGATGTAGCATCTGCTATATCCGGTAACAGGATAACAGTGCATTGCTGGGATGATGAGGCTGCAGTGGGCTGTGATTGTGCCAC
TGCATTTTCAGCCTGGGTGACAGAGGAAGACCCTATTACAAAAAAAAAAAAAAAAAGGGTCTGTTATCAACCATGCTTTTTTATTTTATTTTATTTTATT
TTCCTGTTTCTGAGTTAGAGTCTCTTTTGCTCAGGCTGGAGTACAGTGGCGTGATCTTGGTTCACTGCAGCATCAACCTCCTGGGCTCAAGCAATCCTCC
TAGCTCAGCCTCCTGAGTACCTGGGATTGCAGGTATTTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTGGCCAG
GCTGGTCTCGGACTCCTGACCTCAGGTCATCCGCCCGCCTTGGCTTCCCAAAATGCTGGTATTACAGGCATGAGCCTCTCCATCTGGCCTCAGCAGTGCT
CTTCTGGCTAGCTTGATCATATGCCAATGTTTTATTCCTTCGTGGAGCTCAGAGTAAGCTTGTTTTACTGGACGTTTTCTATAATAAAGCTAGGGGATGG
CGAATCATTCTAATTACCAAAAAGCTGTCTTTGATAACAATGTAGGAGATAACGAAGGCAGAAATAACATTTGAGTAATTCTTTGCCATTCTGTCTCTGA
ATCTTGAAATAAATACTCTTGAATTTATATGTTCTTGGTCCTTTAGGAGTCATAAAAACATACCGTTACATATGTATATGAAACGGTGAGAAACTGCGTA
TTTATTAAGAGTCACGACCCTTAGGACTAGACAAATCAAATTAAATCTCATAAAAACCTGTTATGGAATATGAATACGTGGCACTATTTTTTCTTTTAGG
GTGTCTTTATTAATTTTGTCATGTTTAATATGTTGCAGTTGCAAACAAAGGCATAAATGCATGCGTTCATTCCTAATTAATTTATGTAATTGGGTTTTAT
AAATTTAGCTGTTTAGGAAGCTGTGCATAACACACTCCATTTACTGTGTGCTGTAGCCAATAAAAGCATAATAGAAAGAAATATAGTTTGAAGCTCACTT
CAATGGTAAATATAGATTAGTTGTAAATGATATCTTTGTAATGTTTATTTTAAATTTTGCAGTGCTGCAGATTTTCTGAACATACCAATTAATGTTCTTA
TTTGAAATAATGACTAGTTAATTACTATAAATTCTAAGTGCTCCATCTCTGACAATTAAAAATTGTCTTACAGCTTTTTATTTATTTATTTATTTTTTTT
AGTTCTTTCCAAATTATATTAAGTGCAGCATCTGGGGAAAGAAGAATGGGAATGGAAGGAGTGTGTTTAAAATGTGGGTGGTTTTGTCAATTCCTATTGG
GAATGCTTGTATTTGAATGTATATACATATGCATATTTATGTGTAATGTCTATTTCATGCTAAATAGGGAGTGATCAAGTTGAAAAATAAGAAATGCTGT
TTGAATTTTTAAAATAGGTTATAAATTATAACATGAAAATCAAATACAATGGGTAAAACCAGTAAATTTTAAATAAGTTTACATTTGTTGTCGTGATGTG
ACTGTGACGTTACCTGAGATCTCAGCAAGGAGCTCTGCAGCCCGAAAAGACCAACTGGAATGATTTGATCAGAAAGGGAATGGGTATTAGGCTGCTCCAC
TGATACTTTATCCACTTCGGGAGAGAGAGCCCTGTTCCTTCTTCATCTAGCTCAAGCCAACTGTCAGAAATGCATGTCAGAGCTACACAATTCTATCCAA
GGCATTAACTGTTGTCAAGTCTGTTTTTTATGAATATGTTTCAATATAAGAAATTGTCTTAGGYCCAAAGTGAAACGTCTTCCTCCTTGACTCATAGCAA
GCTCATGCAGGTATTTGAACATTGTTCTGTATAATATGTGCACCTTTGAGAAATCCCATGATTCTTGCTATTCTTTGTAAATCTAATACCTTCCATCCAG
AGAGAGAGTATACATGTGGAGTCAATTGGGAGTACCTTTTGTATCCTCTAGTCTGAGCCTTACAGGTTAAAGGAGAATGTTGGATTTGCTTTTGAAAGTA
TGGGCTTGCGGAGATTAAAAAAAAAAAAAAGAAACCTTGAATAATCATGTACAAATATAAATACTGTATGTAGAATAAGTGTAATGGATCACATTTATGA
TGAAATATGTATGTCTTTCCAAGGGTAAGACCTTCATAATTCATTTATAAGTTACCTTCTTTCTCTTACATGTAAGTAGCAGAATAGTAATTTTCTTCGT
TCTTTCTGAAGAATTGCCACACAGGGAATGAAAAGAAGAAAGGATAAACTTTTCTTAAACAGCAGAATGTTATTCAGAGATAACTGGAAAAAAGTACGAG
AAAAGCCAAAAAGAAAAAAAAAAATTGTGGGTCCTGGTGATGTTGGAAAAATGACGTGTGAGCTGAAGTTCCAGACGCCGAGCTTCATCTATTTTGTCAT
GTTATGACAGAAATCATTACAAGGGTGATAGGTTTATTTATAAAGACTTGCTTCAATATTCAAAGTACATCTATTCTAGCATTCCTCATTTTGAGCCAGG
CTGTGGATCAAGATGAAAGAAAAATTAAATTGTATATTGAAGAGCTCTTAATTGAGCCATGCTGTATTTAACAGGGAAGCATCGGCTTCAGGCAGTCGAT
ACCACTGAGGATTTTTAATGCCCTGCATCATGAGACTGTCAGTTTGCTTTGGAGAATGCAAACAGGCTAATGACAAAGCCCTGCAAACTTTTGTAGTTGC
TGCTGGTCTCTTTGGAAGGCAAGTGCTAATTTACCCACAGTTGAAACCTGACACACACACGCGCGTGCACACACACAGACACACASTCTCTCTCTCTTTC
TCTGTCTCTCTCTCTTTCTCTGTCTCTCATAAGGAACTAAATCCTGCGTTTTCTCACCAGAGGGCTAATGACACACTGCTTAGTCACCCAAAACCTGTTT
CCTAAGGAGCCACTTTGGGGCTTGTTTAAAGTTTTTAATGTAAGGCATTATATAATATTAGATTTCCCCTGTTTTTCCTTAATCAATGTAAATTCAATTG
CATTTCAGAGGGTGGCCAAGTGGCATTTCATCATCTCTAATATCCATTTAAAAATGTTAGGTCTACCCAGTTATAATTCTCCAAAGTAGCCTATCTGTGG
TTTAATATGTTATCTACATTCTCTAAGGCAGTGTTAATTTCCTTTTGTAGTTAATCTATCCTACTACCAAATTTAGTATATTTATAGTTAAAGATTCTGT
TAAGAGCTAAGTGATTTAAGTACATCTGGGATAAAGTGGCCTTGGCTTTAACTATGAAACAAATTTTCTTTATTTCATTCTCTTCACTGATAAATCCATA
GTAACTGGAGGCATTTTTAGAATTGTGGGCAATTTCAGCCTCTAAAGTTTGATTAAAGATACTTCAGATATTCCTACTGAGAGGCTAGAGGGCTGAAAGG
AATTTATTTTGGGTTCTGGCCCTAGTGCAGCTCAGTGGAAGAGAACAGACATTGTGAGTTTAATTCCCACGCTGCCAATTTCCCACGAGTCTAGGGTGGG
TGTTACTTCTCAAGAAGGCGATGGTAGAACCGCTGGAGACTTCTTATGGCTGTGGCAGGGGACTCACACGTCACAAGGAGTCCAGAGGCATGGCTTTGAA
GAGCTCTTTTCATTCATTCTTCCTTTTGTTCACTTGTACATCAAATACATGCTGTGGGCCTACTGTGTGCTGAGCACTGATCTTGTCAGGTTCTTGGGGA
AGACTTCATTGCTGAGGTGACCTTTGAGCTGAGTGTATGAGTGCAAGAGAGAGCGATCACACCTGGGAACTGCTTAATAAAGTCCCCGGCATCTTGAAGC
CACTTGCAGACCTTGGCAGTTGCTGTTGCTCCTGCTGCTGCTGCTGCTGCTGCATTGTCAAGACTACATTGATGTCTTGGAAATATAGAAAAAAGAGGMT
GCTGGACTGTGTGCTTAGAATCWGTGTGCTAACTCTGTTACCAACACCGTAGAGAAGTGGTTCCAGAAGGAAGAGTTCAGGGTGAGAATGAATAACGGAG
TGGCTTTGCAGTGGGAACCTGGCTTTGCAGCACAGCTAGGATTGGAGAAGATCTTCCCAGCAGGGAGAAGAACTCAAAGAACATGCATGAAGGGAGGAAG
GTTGCACCAGTGGGAGGGACCAGAATATGGTGTGGAAAGAACGAGGTTCAAATCCAGGCTCTGTCATTAACTGCCCCTACCCTCTCTGAGCTGAGTTTGT
TTTGGACACTGGAGATAATGCATGTTAACATCCTGGTAGCTCTATTTATTTGCTACCATGGTACATAATCATGGGAGCTCTATTTATTTGAACATCTTCT
TTTGTTATTATTTGGTGTAYTTGGGAAAGGCATGTGGGAGCAGCAAGCAGGTGAGCATCCTGTTTGGAATGCAGGGCCGGGAACTGCCCTGCCCAGTCCA
GCCTCATTCCAGAGGCTAGCACCTGGCCTCAGCTGTAGAGCTGCTGGGAGCATTTCAGCTCTCTGCTTCTTTGGCAGTCTAGTGCTGTCACAGAAGGAAA
GCTCACTCCATGGAAAAGGGGGGATTGATTTCTTCTCTGAGGGCAGAGGCTGATCARTCTAGGCTGGTAGGAATAGATGTAACCTCAGAGGAAACAATTT
GCATTGGCGAAAGCAAGTCAATGGCCATCCCCAAATTCAAAAGGACAGGGAAGTGTAATCCTACTGTGATCCCTAAAGCATCCAGGCCCCAGGAATGGTG
GTGATTTGCCAGGGGGAAATGGAGGAACAACCCCTTCTTTGACTACCTCTGTAGTTTATATTGGATTCTGCAAAGTCCCATGAGGACTGATAGATGGGCT
GTGTCTGCATTTGAATTTTGTAGCTGAAATGTGGGTGAGTTCACCTAGGTCCCCTTCATGACAAGGTGGTGAGAAACATTTTCTTGTTCTACAAATCTGA
ATTAGGTCCACGAAAGAGGGTATGCAGCATAGAGAGGAACCAAAAAGGACGCAAGATTTAGGATAGATATTGCCCCTTGGGAGGCCTGCCTGGTCTGCCC
TTGATAACTCATGAACAGTCTGGTAATGCTGGAAGGCAAAGTAAAAGCCAACCTCTTGAGAAAGACATGGAACACAGGATGGAACTTGAACTGCTTAAAA
TGGCTTTTCTCAGGCCAGCTGCACTGGAGTGTGCTGCTGTAACAAACACGCCCGGATCTCAGTGGCTTAGCATGGTGAATTCATTTCCCATTCGTGATAT
CTGACCACAGATGGGAGGTAAGGGGCTGTGCTTTAAAGTCATTCATGGATCTGGCTGGGCCCGATGCCTCACACCTGTAATCCCAGCAACTTGGGAGGTG
GGCGGATCACTTTAGGTCAGAAGTTCGAGACCAGCCTGGCCAATATGGTGAAACTCCATGTCTACTAATAACACAGATTAGTCAGGTATGGTGACGTGCA
CCTGTAATCCCAGCTACTCGGGAGACTGAGGCACAAGGATTGCTTGAACCGTGGAGGCAGAGGCTGCAGAGAGCTGAGATCATGCCACTGTACTCTAGCC
TGGGTGACAGAGCGAGACTGTATCTCAAAAAAAAAAAAAAAAAAAAATCTTTCAGGGATCCAGGCTGACCTCAGCACCATCTCTTACATGTGCCTCTGTT
CTTTCCCTAATATAAGGGAGCATGGGGGATTAGTGTCTGGCTTAAGCACTTCCACTCAGAAATCTTGCTTCTCCCCACAATCCATTGGTGAAAGCAAGGC
AATGGTCATGCCCCAATTCGAAAGATAAGTGCAGTCCTACTGTGTGCCCTAAAGAATTGAAGATCAGGATACTTATGAGCAGCGCTCACAACTGCCATAG
TGGCAATGCGAATGGCATCTATTTTTAATGTGACTGAGAAAATAATTGGTCAGATATTGCAGGATTTTTGTGGGGGAGAGGGTGGAAAAGAACTTACAGA
TTAAAAAAAGAACTGGCATAGCACCTAGATTTTAAACAGAAGGAAAAGATGACATTGGGGACCAGAGACAGAAATTTCACTTCTGTGCCATGACAAATAC
CAGGGAGATGTAATTGCAAAATGAAGCTGCAAATGTCTTACCCAGGGAACTAGGTGACAACCTGCTTGGCTTCATGAAGAAGGAATAATATCCAATTAGG
CTAAGTGTATTCGGTGCCTGAGTGACAAGCCCTGGAGACCTGAGGGCTTCTGGGGCCCCCAGGGCGGTTTCAGGAGGCTGTCTCCAGACCTGTCCGGGGT
GTGAGCATGTCACGCTGTGRCCCGCGCCTCCCCTGTACAGCTGCCTCTGCTCTTCTAAGCACTGAAATGAGAGGTGTAACCTGTGTTCCAGAGTCTGCGC
CTCCCAGCCACTGGGGCAGGGGCACCTGGCCCATCAGACTTACCTTGCCTCCCCTGCTGCCCATGCCCTGCTGCCTAGGGCTGGGCTCATGACTGGGTCC
ACATCAGCTCCACATTGCAGACTGACCCCCTGGACCCTCACGTCTCAGGATCCCTATCTCCCTGTCAGTGCTTTGTCACCCAAAGTCACCGCAGCTCCTC
TTGAGTGCTTTCAAGATCAGACCGAGGGGTCCTAGTTCAAGCTAATTCCTACCTGTGCGATCACTAGCCAAGTACTGAACCTCTCTGAACTTCAATTATC
TCATCTGTAAAAGGTGGTTGGTTTGTAATTGTTCCTACCYCTTAGGGCTTTTGTGAGAGTTTAGATGATAAACCACCAAGCAACAGTGGCTGGCATTCTG
TGCACAATCGAWGTCTGCTGCTGTCAGCTCTGTGGTCGCTGTCTGCACTCCCACCCCTGTCATCCTCCAAGTCTGATCTCCTCCCGAAGTCTCTTCCTGG
ACCTCAGCCCTCAGGGATTGCACCTCCCTCTGAATATGCTGTCCCTTCTAATCATGCCATTTAGCCACACTGCCTAGCACTTTCTTTTTTGAATATTCGT
GTCCCAGGTCCCTGAAAAAGTTGCTAAGCCTGCTAAAAGCAAGGCAAGGCCTTTCTTTCTTTGTAACCTTAATGCCCAGCAACGCTCCATTCAGTTTGAC
CCTCAGTTGGCTTCATACTTTGATTTTATGTCTTTATTTGTTTCTTAATGAGCTACTTTATCATTGTGAAAACAGTTAAATATCAATAGTCAATGAATAA
ATATTACCAAAAAAAAAAAAAGGTTTGTCGTTTAAAAATTTGGAGCTGGGCTGGAAACTAGGGATACTACTTGGTATATTTTAGTTCTACTGATATGACA
GTATTTGATACTTAATCATATTCAAGCAGCTTTACAGAGACTACCATGAGAATGGGTTAAATTAAGAGGATTGTCTTTGCTGTTTAGCCAATATGGGCCA
AAGTTCAGTGGTTTGAGACATGGCGGGGTTTGGTAGTAGATGTAGGATATTGCTGGGGAAAGAGTGTTAGAGGATGGAAGATTGCATGATATTTCTGGCT
TTGCTCTTTGACTGTGTGCTGTTTGTAAAATCACTTAAGTCCCATGGGTCATTTTCTTCCCCATATCAAGCACCTGCTATGTATCAGGTGTTGTGCTCAC
GTGGTGTTTTATGCACAGTGTTTCCTCTTTGTTAATCCTCATGATGATTGGTATGGTTTGGCTGTGTCCCCACCCAAATCTCATTTTGAACTGTAATCTC
CATAATCCCTACGTGCCAGGTAGGGACCTGGTAGGAGGTGATTGGCCCGTGGTGGCAGTTTCCCTCATGCTGTTCTCGTGATAGCACGTGAGTTCTCGTG
AGATCTGATAGTTTTATAAATGGAAGTTTCCCCTGGCCTTCATTCTCTTTCCTGCTGCTTTGCGAAGAAGGTGCTTGCTTCTGCTTTGCCTTCTGCCRTG
ATTGTAAGTTTCCTGAGGCCTCCCTAGCCATGCGGAACTGTGAGTCAATAAACCTCTTTCCTTTATACATTACCCAGTCTCGGGTAGTATCTTCATAGCA
GTGCAAAAACGGACTAATACAGGTTGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTAGGAGGCCGAGGCAGATGGATCACTTGAGGTCAAGAGTT
TGAGACCATCCTGGCCAACATGGTGAAACCCTGCCTCTACTAAAAATACAAAACAGCCGGGTATGGTGGTGTGTGCCTGTAATCCCAGCTATTTGGGACC
CTGAGGCAGGAGAATCGCTTGAACCTGGAAGGTGGAGGTTTCAGTGAGCCGAGATCATGCCACTGCACTCTAGCCTGGGTGATTCCATCTCAAAAAAAAA
AAAAGAGAAAGAAAACAGATTAATACAATGATCTGTGAGATATTGGGACTGTTCTTATTCCCATTTCACAGATGAGCCACTAACTGGCTCCTGGCAGGAC
AGTGAATAAGGGGCACAACAGAGACACAAACACATSGCTAACCAATGGTCTCATCCGTCAGCCACACTGCCTGTCTCAGCATGGGCCCTGTGTGGACCAT
TCCATCTCAATTTGTTTCTGATTCTTGTCAATTCAATAAGAACAGCTGAAAAGTAAAATAATAAATATATACATAAAAACAATGGGGGGAGTAATAATGA
TAATAGATACAATTTTTTGGTCTTTATAATCCCCAGAGCCTGGCTTAATTATTTTAAAGTAAATCAACACTTTGAACACTTGCAGGTTAGAAAACCAGTG
GACTGATGGATGCGTTACAGCCATTGTTTCCAAGTGTATTAGTTTCTGCTGGCCGCTGTAACACATTATCACCAGTGTAGCACCTAAACAACACAAATGT
ATTGTCTTTCAGTTCTGTAAGATAGAAGTCCTACAGGGTTCTCCTTGGGCTAAAATGTAGTTGTTGGCATTTCTTTCTGGAGGCTCTGGGGGAAGGTCGT
TCCTTGGCCTTTTCCCATGACGTAGAGGCTGACACATTCCTCTKCTATGGCCTCTTCATTTTTCAAAGCCAGCAAGATTGCATCTCTCTGTCTTTCTTTT
GTGGTCACATTTTACCAGGACTCTTCTCCTGCTTTTTTTTTTCTACCTTTAGGGATCTTTGTGATTTCATTTGGCCCACCTAGATAACCAGGGTCCTCTC
CCTATTTATTTTTATTTTATTTGTGAGACAGAGCTTTGCTTTGTTGCCCAGACTGGAGTGCAGTGGCTTGATCTTGGCTCACTGCAACTTCCGCCTCCAG
GGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTACCTGGGACCACAGGCACATGCCACCATGCCAGCTAATTTTTAGTAGAGATGGGGTTTCACCATG
TTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCTGCCTTGGCCTCCTAAACTGCCGGGATTACAGGTGTGAGCCACCACACCCAGCCCCT
CTCCCTATTTTAATGCGAGGTAATTAACAACCTTAATTTCACCGGTAACCTGAATTCTCCTTTGCCACGCAGTCTACCATATTCACGGGTTTCAGGGATT
AGGACCTGGACATCTTTGGTTGGGAAATGGGCATCATTTTGTCTACCACAACGTGAGAGCCCATTGCCCTGCATCCACAGTCATAAAAGTCTGTTCCCTT
CCTCCCTGATTCTTCCTAACTTCTCCTGCCTGCCTTGCAGGATATGTGGAGTTATCAGTTCCTAGCACCACTGGCCAAAGCGAGGATAGCTGATTGCACT
CCTACTTTCCTGCTGGTGGAAACAGCATGTATATAGGTACAACTCTGGTGTGGGGAAAATGCTAAAGATATAAAGTAGAAATAGCCTTTGTGTGATGTGA
GCAGCAGAACAAAAATCGAGGGTGCCAAATAATCGTATGAAGTGGTGAACTGCCTAAGATGGAATATTGCTGTTCCTAAATCCTGGCTGTGTTGAGACAT
GTGATCCTGCCGATGAGATGAGAGCTGAACCACTCTCTTCTCCCAGATGCTGGGCTTCCGACCTTAATAGAGACCGAGAAACTTAACAGAGGGCTCAGAA
GAGAAATCTATTGAAAGTTACTAGGTGCCAGGTGTCTCGGAAAGTGTTTAACACATGCCTGAGACGTTAAAGGCAAGATTCATGCATTCTTTCAGCAGAC
AGTTTCTTCACTTACCGGGGAAGGGGGTGTAATATATGGGGGTATAGGGATAAATAATTCTGTGTGCTGTGCAGGCCGTGGAGACTCATCTTCTGCACAG
GTCAAGTTCTGAAGTCAGCATATAAGCTGGAAGTGGAGTGAAGTCAAATGACCCTCAAAGATCCTTCCAGACTTCATGCCCTTGGCAACTCAGTTTGGAC
ACTCATATGCTGGTTTCTTCCTTGTATTTATGCAGCAGCCTCCTTTTCCACAAAAAGCAGAGGCCAACGTATCTCACCCCCTCAATTTTTTTACTTTCCC
TCTCCCTCCCTGTGCTTGCCTTTCTTTTCTTTTCTTTTTTCTTTTTAAGACAGGCTCTCACTCTTGTCACCCAGGCTAGAATGCAGTGGTGCAATCACAG
CTCACTGCAGCCTGTAACTCCCAGACTGAAGCGATCCTCCTGCCTCAGCCTCCCGAGTAGCTTGTACTGCAGATGTGTGTCACCATACCTGGCTGATTTA
TACTTAYATTTATGTATGTGCATGTGTGTTTATATATATATATTTGTAGAAATGGGATTTTGCCATGTTTCCCAGGCTGGGCTCAAACTCCTGGGTTTAA
GCAGTCCTCCTCCAGCCTCCCAAAGTGCTGGGATTACAAGCCTGAGCCACCATGCCTGGCCTTTGCTTGCCTTTCTTAATGTCTTTGACAATTCATGTAA
ATGTGTGTATGATGTAACTCTATAGGACTAAGGGTGTGTGAGGATGCCAGGAGGCTGTTGGTTGACAGGAGTCATGATTTGACTATATGAGGTCACAGAA
AATGCTTTTTAAAATTTACCGCCAACCCACAGGAAAACTATTCTCCTTCTTCTAAGGAAAAAAAAAATGTCACGATAAAGCAGCTACATTAATGACAGGC
ACATCAAGGTTTTAACGTGTTCTCTAGATTTATGATGTGTAGCGTGGTCTCCATTCTAGAAAGCAAAGTAGGGAAAGCACGACTTTGGGGCCAGGGCCCT
TTCTGGTTCAGAATGTCCCTGGCCAGTGTGCGCCGTGCAGTGTGGAAGCACGCTTCGGTGCGCRTGTAAGTTTACGTGCTATCTGTAGGGACAGTGATTT
TTATTCATTAGAGTTTTTGAGTCTAATTGTTTTTAAACTGCCACTTTTGTTTGTTAAAGATACAGATGTCTGGCCATAGAGGAAAGCAAGGTGGATTTAT
CGTTGCAATTAGATGCTTCACAATTTGAAAACTTATCACTTAAATTGGTGAAATGTCACTTTTATGCAACTTGATGTTTAGAAGTCCTTGGCGTCCAGGA
CTAAAGTCATGTGCAATTTAACAAGATCTTGGTGAGATAAAGGAAGTTGCGCTTGAGGAAACATTGAAACACACCAGATGGAATTTTCCARTTCCCTCCT
ACATGATAGAGACTAGGTGAAGGGAGATAGACCACAAATTGATTTTGTGTAACTCTTAAATTAAGTGGAGCAGAGTTAAAAAAAAAAAATCACTGGATTT
GAAGTTGGCCTATGTTAGATTACTCCAAGGAAGTTAGTTAATATGTTAATATGAATCTAGATGAACATTGAGTGTTTTRCTCTTCTTGTTAATTTGCGCC
ATCTACTAATCTCTGGACAATGGAGAAAAAGTCGTAGGTTATGAGTTTTTTATTTATGGACATTAAGCAATATCTTTAAAATGTAAAATGAAGCCGACAA
AATGCACAGCCRGATAACAACAACAAATCTAATCTAAAGTGACAGGAAGAGACTCTCCCAGACATTTTTCTCTTTAATGTAACATGACTTTAAATTGATG
CAACCCCACAGTGATTGAAAAACTCTCAGAGCTTGTCTCCTATGATTACATTTCTGATCTGTACAACTTAATTTTTTAACTCGGTGAGTCTCAGTTTTGC
GAATGAACAGTTCTCTTTTGCTTTCTCTCTCATATTATTTGGGAAGACATTATTTGGCAACCAGGCAGATAAAGCTCTGTTACCACGACGAATACTGAGA
AGTCCTAAAACAATAAAGACCCCAAGAACTCACCCTGGAATATGTACCTCCAAATCTCTTCTCTTTTCCTTCTCTCCTTCTCTTTGTTTTTCTTTCTCTT
CCTGTTCTCTTGTTTTATCTTGACTTCTCTCGACTGTGGTGACGGTTTGCATATATCTGCGATTGTACTGAAACTTACCAAACATTGTACGTTTTAAATG
GGCAAAATGTATTTGAACTATATATATCACAATAAAGCTATAATACTCTTTTAAAGTGTCTCCTGAATCATTACCAGTATAATTATTCTGTGAACTGTAT
TTTGATGAATTCAGAATTAATTTAAAATGGATTATCCCCCTGTAGAATGGGAGGTAATGCTGAATGATTGTGAATGATTGTGAATGTTTGTTTATTCGGG
GTACTCCCTCAAATTTCTTATCCAGTGGTGTCTAGAACATGTTGGGATTTTGTGTGATAGTTTCTTGAGTTGGAAATTGCGTTTCTTTGGCCTCCCATGT
GGGTATCAATGAGTTTTACATGGTTTAAAGGCCAGTTATGTGATGGATACTTCTATTACCTTATGTCTTTCTGATTTCATACACTTAAATGTACAGTTTT
TATCTTCCTTCAAAACCTTATTTTTCCRAGCAAGTTTTATTTATTCACTTTCAGTCATTACTGAAGTGAATAACAAACATATAACAGATGCTATTTTGGG
TCATAGCTGTTTTGCTAAGTAATACTTAAAGGCTTTCTGACTATATTTTTAATTTCTCGACAGTCTCCCATGGTTATTTTCTGATCATAACTTGAAAATC
AAAGCTTTCTGTTCAGTTTAACCATCTTTTAAAACCCAGTGGTTTTAGCTTGGGTATTAACCTTTAACATAGCTAGCGAAAATTGAACATTTTTATTTGA
AATATGCTTAATGTTGTCTTGTGTAAGACAAAAAGTTTAGGGACAAGTGAACCATTTACTTTTCTTTTAATGTGGAAAGCAGTTTACAAATGCTGGTATG
ACTAACAAGAATGAAAGGACCAGAATGGCAGTTCTGAGCTAGAATGTGATGAGTAAGTACCACCATAGTTAGCGGCTAGGGAAGGGAGGTTGTTCTACAG
AGAAACATGCCCATCATTTCTTCTGTTACCTGGTATTCACTCTGGCAATTTCTTTTTGGACTCATTCTAAAATCAGGATTAAGGATATCCACTGAGAAGC
TTGCATTTATTACTCTAAGCAAGAAACTTCTATTTAATTTTTTAACCATTTGATTCATATGTATTTAGATTTTAAAATTTCATTTTCTCTTATCCAAATG
TATCATATATCTTTAAGTAGGTGAATCTTGGAGTAGATTTTATTATATATCACATCACAGAGTTAAGCTCGGTTCATCTGGATTTTAAAAATCTCTACAG
CTTTGAGAATGACTTTGAAACACTCTTTACTGTTGGAGCTTAAAGAAAATAAATCTCTAATGTCCTCTGTATTAATTCACCTGCTTGGAAAGTTAGAGAT
TAAAAGGTTTAGTAGGATTTTTATATTTTCTATAATTTCTATTTGTATTGGAGTAAACTGTTCGTTGTATGGAGTGGCTTAGCTTTCATAAAACAGAAAG
ATTCCTATATTGAGAAAAGAGGAAGAAGGAAAAAGTGTAATATAAATACATAAAACTTCCTCTAGCTTTCTTGTGTTATGTGTAAAGGAGTTAGTACGTT
ACTTTAATTGTGTACTTTGAAGAAAGCAATCTCCTATTTCCATTAATGGTGGACTCTGTGGGTAGAGACATGGATATTTTTCCTTTTATAAGAAAGGTCT
TGTCTTTCCTCAGAAGGCATTGTGAGCAAAATAAGGGAAGAAAAAGAGAAGTAGATAAGAAAAACAAATCACAATATTGAAGCAGGACCCGAGTACTATA
GCCTTCCTCATATTTTGGTATCTGGAACCGAGGTTGCTAATTAATGACCCAAGAGCTAAGCCTTGTTTGATGAAATGCAAGATGTAATACACAGATTGCC
TTGGAGTGATGTGTGATTATTACCATCCATTCATGTGTAATCCCGTATTTGGAAGGTTTGTAATTTGTTTTTGACACATTTCTCTCTGATTTTATACACT
CATGCATACAGGTCTCACCTCCCTCCAAAACCTTATTTCCAAAGCAGACTTTGTTTGTTTGGTTTGGGTAATTCATTGGGCCCTATTTGTCTTCCTTATA
CATAATCTATTTTCTTACTGCTGCCTCTGTCTTCCAAACCAAGAATATAAAGAATGAAGCCTGGGGACTGGAACTTAAAACTTCTGCCGAGAAAAGAAAG
TCAAGGCCTGTGGGCTCCTAAAACATCCTGTGGAATTCGCCTCAGATGCCCCTCCATTTGCACTGGTATATGGAGGATGTTTGAAAACCACCAGAACCTA
TTGTGTACTTTGGAACAATGGCATTTTCCTGCTTGATTGTGAAGATGGCCGCTGGAAAAGAAGCCAACTCCCAGGGGGCACGAGGGGCTAAGCTGTCTCC
TGGGAAGTTTGAGGGAGGCCAAGTGTTTTCCAGTTCATTTCCAAYGCGTATTTCTTCAGGGCCAAGGGCCCAGCTGTGCCTCATTAGGGGTGAGAGTTTG
GCTGTGACACGACTTAATAGAAAAAAAAAAAAAAAAAGGAGAAGTCCAACTAGCTGAGTGGCAACAGAACTTGGGACAACCTGTGCCCACAGCCTTTCAT
GTCCTGTAATGAGTGTGCCATTTGCTCACTGGGAGGAGAAAAAAATGACAGTATGCAACAGTCAACTTTTTCCTGAAGAAAGAGAGAAAAAAATACATAT
TTTGCAGCCGAGACATCGGGGTACCTGTTAACTTTAGGCACAGCGCTAGTGTCAGCCCTGGAAAGAGACTCCCTGTGAACAGCACTTTTTACCATTTAAT
CAGCCTGTACTTCTTCGTATTTATAGCCCTGGCGAGGCTGGCCCATTGTTACAAGAGGAAATTGTGATGTTCAGCAGTTTATACCTTGGGAGCTGGAAGC
GTTTCTCCATGGTGAATTTGTAATATTAATTGGCCATGTCAGTTCATGACAAATGTAGTRACATCTATTTCAAGTATTTCAGTTTTATGGTGCTGAAGAA
GTGACACGCGCTCCAGATAAGTAATCTCACAAAAGATCTTCCCGCTCGCTGTGGAGCGCCTCCAGAACATGCTCTCAGAGGAGATGCAAATAGGCTCAGG
GTTCAGGGGGCTGTCCCCTTCCTTTTGCTCAAGGCTCAGAGGGGAGCCAGAGGAATGCAGGGAGGGACGCACTCCCTGTCATTCCCCTTTCAGTCTCAGG
AGATTCTGGTTGAAGCTCTGGCATGGACTTTCCTGCCCAAGAAGTGTCCTTGCGGTGATCATTTATGTGATTTGGGTACCTGCTGCTTGTAGGCTGTGAC
TGTCAGTAGCAGAAATAAATATATTGCCTTTCTCACTGTGTACAGTGGTGCTGTACCAAGGGTGACTCTGCCCATCAAGGGACACTTGTCTGGAGATATT
TGGGTTGTCATATCTTGGAGGAGAATAGGCTGCTATTAGCATCTAGTGGGTAAGAGCAAGGGATGCTGTAGAACTTCCTACAATGCACAGGCGCATCCTA
CAACAGAGAATTGTCTGGCCCCAAAAGTCAATAGTGCTGAGGCTGAGAAACCCTGCACTTGTGTGGACCATGCCCTTTTATGCTTTTCAACCTTGAAGCA
CTAATAGGTCAGAGAAGAATGCCAGGGATGTGTTGATGGGTCTGCAAGAGGTTGATGGGGGATGCTTGAGCTCCTACCAAGTGGAAGGTGGTGTAGGCAA
AGAGAAGGATGCATAGGCACATTGGACGGTGGAAGGCAGGGGCTGCTGAATGATGTGGCAGGAAACATGCAAAGTGCTCAGCGTCCCTGGGCGGTGCAGA
GTCTTGGGAAGCAAGAGGATGGAGCCATCCTTTCAGTTTCCAGCCTGGGTTTCCCAAAGGAGAGGGTGTTTGAGTTCAGTGGCAGAGAGAGTGGGGAAGA
GTGTTGGAGCCCAGCTGAGTGGCCACCTTTGTCAAATGGAGCTGAGAAATGATTTTCACATGGCTGGCGTAATGGCGGAGTTTCCAAAACAGCAGCACAA
CAAAATAGCCATTTACATGTCAAGACTATATTCATAGAATCCATATGTCTAAGGTGGGGAAGTTGTCATTATTCCTGTTTTATAGATRAGGAAACAGAGG
CCCAGATGGAGTAAGTGACTGCTGAAGTACACATGATTTGTCAGTAGAAAGGAAGAGACCAAAGGTGGCATCAACTTTATCTTTCCTTCTTTTTTTTGAG
ACTGGAGTCTTGCTCTGTTGCCCAGGCAGGAATGCAGTGGGGTGATCTCAGCTCATTGCAAGCTCCGTCTCCTGGGTTCACACCATTCTCCTGCCTCAGC
CTCCCAAGTAGCTGGGACTACAGGCACCCGCCACCAAGCCCAGCTAATTTTTTGTAATTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCT
CTATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGTCCGGCCTGTTTTTCCTTCTTTGTTAAG
TGGAACAAGTCATTTTTTTGGTGGTCATTTCCAATATGTAATTCCTGATAACACACGTATATATTATCTCTTTAAAAATTAAAAAAAAAAAAGCCAGCCA
AAAAAAGAAAATGGAAGTGTTCAAGAAACTGCCTTTTTTCATGTAATAGTATTTCTGTGTCACTAAATCCTTCAACAGCATTATTTTTAATAGCTGCCCA
ATGTCCTAATGGATGGGTGAGTCATGATTTACTTAACCAATCCCCTGTTGTTGGACATACAGGTTATTCACAGCTTTTCTCTATTGTAAGTGGAATTGCA
ATGAATGTTTTTGTAGTACACACCAGTGAGTGATTCCTTGGTGCGCTTGGAAGTGCTGGTTCCAAGAATAAGATAAGGCTTTGAGATTAATTGCCAAATT
GCTTTCTTGAAATATTGAGGCTACTATTTTCCAGTATCTTCACTAGGAATAAGTAACGTTTTTCTAAAGCTGAGTAGTAAGAGAAAGGTAGAATCTAATT
TTACTGTGCATTTTCTTGATTATTAGTGAAGCTAAACATTATTTTTTATTGATGTGTTAACAATTTCTTTCTTTTGCAAATGATCTATTMATGTTCTGTG
ACTGATTTCTATCTTGGTGTCTTTACGTTTGTGAATGGTAAGAATTTTTATGTGTTCAGGAACTATTTAAATGTTCAAGACATTAACCTGTGGTTATGTA
TATCACAGGTACAGTCACATCGCTTAACAAGGGAGATACATTCTGAAAAATGTATTGTCGGAATTCTGTCATTGCATGAAGATCATAGAGTGTATTTACA
CGAGCCTAGATGGATAGCCTACTACACATCCAGGCTATATGGTATAGCCTCTTCCTCCAGGGCTATGAACCTGTATAGTATATTACTGTAATGAATAGTG
TAAGCAGTTGTAATACAATGGGACATATTTGTGCATCTAAACACACCTAAACATAGAAAAGGTACAGTGAAAATATGGTATTATAATCTGATGGGATCGG
CATTGTGTACATAGTTCGTTATTGACTGAAATGTTGGTATGAGGTGTATGACTATGTTTTCTCATGACCTCTGCTTTTTTTGTCTTTAAGTTTTTAATTT
TTGTTTTACTTTTGTCTTTTAATTTTAATTCTATTGCAACCAAATCTATCAGCCTGTCTTCTATGATCTCTGCTTTTAATTGTTACSCTTTAAAAATCCT
TCTCCATGGTAACATTATATTGACTCATATGTCTTACTGGTTGAACGTGCCTATGTTTGACTTTGAAATCATTAAATTCATTGAGGATTTGTTTTGCCAT
GAGGAATTGGGTAAGGATCCAGCTGATTTTCTCCAGATGAGTAGTTCATTGTCCCAACACCAGTTATTGCAATAAGTTATTCCTTCCCCAGGAAATATAC
CTGGGCTAATTAAGAAAACTGTGCTTCAATGTAATTATTCCACCTTAATGCATGAAATATTAGGTTAACATGGAAAAAACATGGCATCCCATGTTTTAGT
ATTTTTTCCTTATTTCCAAGCAGCACCTCTCTTTGAATTATATTCTGTTCTSTGTTTTTATAATTTGACTCCCTTCTATTCTACATCTAAATAGTGCATT
GTCTGTTTTCACTCAGGACTTTAAAAATAGTTCTAGTACTAATTGTATTTTTATTCTAATACTGCTATTCCTTTTACTGGTACTTCTGCATCTTAAAAAA
ACAAAACAAAACAACGAAAACTTGGCATGTTGGCTCACTTGGTGAATGAAAGCATATACTGTTCAGTTGTTTATTCTTCAGCAACATCTGAGTATCCTCG
AGAAATGAGTGGAATGAACCGCTAGAGATGAATAGCCTTAAGCCCTCAAAGCTGAGCCCTTTGGGGTAACTTGCTCTAATTCTGCCCTCTCCAGTTTGAG
TTTAGGTTAAATTCAGCTTGCAGATTGCACCAAGCCTGATGCCTCCCAGCCATCAAGGAAAAGGGTACCTAACATTTTGAATCTCCATTAATCTTACAGC
TCAGATCCTGTGTATTAAATCTCAGCATTTTCAGGGATGTATACTCTGGCAGAAAAACTTTAATGATTTTTTTTTTCTGATGCTGCCTAGAAAATATTAG
AAAGAAGACCCTTCTTTCCTTTCCTTTCTTGTCCTGTCCTGTCCTGTCCTGTCCTGTCTTCCCTCCCTCCCTCCCTCCCTCCCTTCCTTCCTTCCTTCTC
TCCTTCTCCTCCTCCTCCTCTCCTTTTCTTTTCTTTTCCTTTCCTTCTTCTTCCTTTCTTCCTTTATTTCTTTCTTCCTGTATTATTTTCTTGTATAGCT
CAGGTCTCACTGCTTTGCTGCCATTCTTGTGGAGAATAATAGGTAACAGAGGTGTGCACCTGGCCTCATTTATTGTCACACTGGATAGGTAATAGACGCC
GGCATGGCTATGCTGTGGTTCCTGCTGATGGGCACACTATTACAGGTGCATGATAAGTGTGTCGTACGCAGGAAGTACRTTTCCCCCAGCCTTCCCTACC
TGCTGAGGGCTGCTCCCAGCSTAAGGATTTCATCCAGATAGATTCATAGCGCTTCCAGTAAATGCACCCCTTGCCTTTCAAAGTTGAAAAAGAAATTACT
TTGGACACAAAGAGGTGTTTCTTTTGACACAGCAGGCATGTGAAAAAATAAGCAAAAAAACAAGAGGGATTTCTGTTACCATTGGCATGTGCTTCTCTTT
TACTTCTTTAGTTCACAATGCCAGTGGTTCAGCTTCCCGTTCTGATCCTCACTGCTCTAATCTCTTCATCTGTGCTTGCAATCACAGCCACGCGGGCTCG
CAATATTACCACGAAATCATTTTATCTGTTGGAATCTCTTTCCTGTTCATTACTCTTTTTTATCCCCAGGTAGACAAACACCCTAAGTTTACCTCTTGCG
AATTGTACGCTTTAAGGTTAAGGAATTCGTAGTTGAATAAGAATGACTTTTCACATAAATTTAATGGAGTTTTATCTTCTGAGCCAAGGCTTTATTTAAG
GAGTCTTGGGAGGTAATCATGTGTTACCTGAGACTCTCCGCCCATAGGATGTAGTTCCTTTCCATTGGAACACATGGGGACCGAGGGAATAAAGAATGTT
TTCATCTCTGAAAATAYCTCTCATTCTTCCAATCAATGCTGCTCTTTTCTTGCATACTGTATACTGGGAAGCATTTGTTTCGATTTGTGGTTAAATGTAT
GTGTCCACTGGACTTCAGTATCCACCCTTTGAAGGACCGCAGGAGAAGTTGTTCAGGTAGAAACATACAAGGGCCGGATGYGGTGGCTCACACCTGTAAT
CCCAGCACTTTGGGAGGCCTAGGCGGGTGGATCACTTGAGGCCTGGAGTTTGAGACCAGCCTGGCYAACATGGTGAAACCCTGTCTCTACTAAAAATACA
AAAATTAGCCAGGTGCGGTGGCGCAAACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACTCGGGAGGCGGAGGTTGCAGTGAG
TCGAGTCGTGTCARTGCACTCCAGCCTGGGTGACAGAGCGAAACTCTGTCTCAAAAAACAAACAAAAAGAAACATACCGGGAGATCTGGTTCTATTGAAC
CCCAGTGCAGCCATGGGTAGAATTTTAGGCTTATTTATATTCCATTTCACCACAAGATGTCACCAGGGCACCACACCAACATGGTCTATGGACCCTCTCT
CTGGCAAATAGAGTTATGGTCATCAAACAGCACCTGCCCAGGGCTATGGGGAGAGGAAGCTGGTTGGCTTTGTCACAAATGCCTTGATGTCTCTTTCCTC
CCCTGGGGCCCATCTCTTCCAGCCTTTGCATAGAGAGAGAAGGCAGGCAACAGGACACAAGAAGATTTTCCCAGAGTCCAGGGTGTTCTCTTACCCCTGA
AATCGTTTCTTCACTGGATGGGAAGGCAGGCACCCAGGGGGAGATGGCATCAGCTGCATAAACAATTTTTCTCCTCAGTAGACATTTACATGAGTCAATA
GGAATCATATTCTCTCTTTTTTTTTTTTTTTTTTTGGAGATGGTCTCACTCTGTTACCCAGGCTGGAATGCAGTGGTGTGATCTCAGCTCACTGCAGCCT
TGACCTCCTGGGTTCAAGAGATCCTCCCACCTCAGCCTCCTGAGCAGCTGGGACCACAGGTGCTTGCCACYATGCCCAACTAACTTTTGTATTTTTTGTA
GAGACAGGGTTTCACCACATTGCCCAGGCAGGTCTCAAACTCCCGGGCTCAAGCGATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGA
GCCACTGTATCTGGCCTAGGAATCATATTCTCTTCACTGAAACATTTCAGATGACTTAAAAATTCACCTTGTAGAACTTTTAAAATTGAAACTTTCTGGT
GAACATCATTAGTTGACAGATRTRTCATTGAAGTTTCATCCTTCTTCATTTCAGAGTCTGCTRGAAGACCCTTCATTTACCACTCTCTCCTTCCTGGAGG
TGTGGAAATACTCTACCTGGGTGAGGCTCTCGTGGCTTTTTGTGCCAAGTGTCCGTAAACTTCAACTTAATTGTTTTAAATCCTTTGTGGTGATTATGCG
GAAGGTCAAATCTAACAGGAAGCTCCATGTCCACTTGATGTGTACTTACTTCTATTTTTGCACCTTGTGTTGTTTGTTATCCTGAATTATGCCAGGGCTG
GTTTGTGCTAAGATACTTGTTATTTGACCTCATAATACCAGCATGTCCCGTTTGTATAACCCTCTCTGTAGCTTCTTCCAGCATGTGATCATACATCTAC
CTAACCTCTCCCATTGGTTGAATTTAATATACTAGTGAATTTTCCATTGCAAAGATGAGGTTACRAATCATAGTGTTCATACTCAGAAGGACTTTATAAA
TATTTTGCCTTTTTGAAGTATATACAAGAAATGAAAAAAAAAACAGGAATAAATAAAAAGAATAAAAAGAGCCAGGACTAGAACCTACAATTCCTGACTC
TTGATCAAATTGCTTTTCTTTTTAACTCTAGTTAAATATTTTCCATTCTTTTTAACTCAAGAAGCCTTTGTTTTTGTTGTCATCGTTTTATGATTAACTT
ATATCTGGTCCTTTAGACATTTAGATTTTTTCTGTTTTATCTCTCTCTCTCTATATGTATATCTRTATATATATTTATCTATATCTRTATAGATATATAT
ATATATATATAAAATAATGAATGAAATGGACTGTTTGCAACCTCAGATGTATTTCTAGGACTTAGAGTGATTAGCTTGAGGCGATGGTAGTTTCTGTTTT
TGGAGTCTCTGTAGGTCTCAGACTCACAGTCTGTACTTCTTGTTTTGGGGGCTAATTAAGTGGACAGTTTCAGTGTTGGTAGCTCATTTAAGCCATAAAC
ATGCAGACCATGTGGAATCCCATTAGTCAAACCTTAGCAGAGTGCCTTGATGAGTACCTCCTTTTCTTTCTGAATTCTATTAGTTGATGCTTTGTTCTTT
CTCCCCAAGAGCCATATCTCAGCTATTTCTTTTCATTTCTTGTGTATAGTTCAACATCTTTCTTTCTTTTTTTTTCTAAACAGGATCTCACTCTGTCACC
CAGGCTGGAGTGCAGTGGCATGACCATGGCTCACTGCAGCCTCGACCTCTGGGGCTCAAGCGATCCTTCTGCAACAGCCTCCCTAGTAGCTGGGACTAYA
GGTGCATGCCACCACACCCAGCTAATTTTTATATTTTTTGTRGAGATGGGGTTTTACCATGTTGCCTAGGCTGGTCTCGATCTCCTGGGCTCTAGCAATC
CTCCCACCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCTACCRTGCCCGGCCTTACGTTTCAGCATCTTTCAATCCATCTAATACGCAGTGCCA
GGGAAGGTTTGTGAAAACATTTGAATCACAGAGTCACAAACAGTGAGAATAKCTGCAGTTATGTTTGTGATGCTCTAATGAACTTACAAAAGGCCAGGCC
TAGTATTTCAGCTGTGTCCATGATGTCTCTGATGGAAATGGACAGGTAACATGATGTACACAAGCATTTGACTGTTGCATCCTTTGATTGGGCCATGTTC
ATGCAGCCAGCCTGGGAAAGCAATTAGTAGTTTTAAGCATGGGAAATCATATAAAAGTAAACTAAAATTGCATTTGAATTAATTGATGAACATGTTTGCT
TGACCATATCCTGCTGTTAGGCGTCTTCAAGTTAACTTAAGTGGTTGATAAAACTTTCCAAAAAGAATACTATCAACTGCTGAGCACCTGTTGTCAGAGT
TGTGGGTAATTCGCAAAGGTTTTCAAATGGAAAAGTTGTTTTCTCCTGCTAGGAAGCATGGTCTCAGATCCACTTCTAAGGTCAGTGTGAAAGGGAAGGC
AAATTCACTTTGAGCAGGGGAGGCATGATCTGGAAGATAAAGCAGCTAGGAGTATAGACTAGGGGGCTGATGGAGGGGAACACCTATCACAATATGTGTT
CTCACACCAATGATATATATTTTCCACACATTTAGATTCTCCATGCCACTCCTTATCTCTTTAGTGCAGAAAACGGAGAGGAGGTTCAGTATTCTTAAGA
AACTCCCATGATTGCTTTGAGGCAATGGATTTAACRGGTATCTTTATCCCTTATTTACGCACTGACTGTGGTACTGAGTCATCCCTGGTGTTTCTGGATT
TTATTGGCAATGCCAAGAGAGCAGGAAGACTGGGACGTGAACTGACAACATTTATGATTCTGGCAGCTTGACATCACCCAACTGTTCTCTTTGTTTGGTT
TTGCTTCAGACTTAGTTTAGTTTTGTTTTTTAAGGGCTGGGGTGGAGGAGAGGGATTTGCTCTTGCAGTTTTCCTTTCAAACCAAACTCTTTCAAAGCCT
TTTGCAAACTCTTTTATGGATTTTACTCACTGGTTGAGCAAGAGTTACTTATGAGATGTGGCTTCGGCATTTTCACAGTGTCCATAAAAAAATGTATATT
ACTATGCATTGCACATTTGCCACTTAGAATTTCTGAATGCAAATTAATCAACTTGCAGCTGTGACTAACAATAAAACACAGGATAATGTACCTACAGAAA
TGAGGGCATTGGAAATCCGCTCTCAGGTGGCCATCGAAAATAGTCAGCCTGAGTGTTGCTACCTGTTTTCCATAATTGTGTAGCTTTGCCTTTCCTTART
TAATCTGTTCAATAAACTCCTCTGCAGAATCCAAATGCTTAAATTCAGTTTCTTTTTGTCTTTATGGTGTTTWTCATTGTTAACGTGGCATCGGAGTAGC
TCGACTTTTGCATCATGATAAATTCATAACCCAAGAGAAGGCAGAAAACATAATTRTTRTCAATTGCCTCTCTCCTGGAATTGCCATTGGCTGAGTGGAA
CAAAATACGAACTTAAGGAGTAGCTGATTCAGAGAAATCCAGGGTAGGAACGGGTCCCATCTTGATTTCAATGTCTTTTTTGAGGAGGCCTTCCCATTGC
ACTTCTCTTCAAGTTTGCCCAGATAGTAAGTTCTACTAGACATGTCAATTTTTTCTGAGGTCTAATCTTGATTTTTTTTTTCCTGCACAATATGGAATTC
AGTGTTTTTATTTAATCATTCAGTAAGTCTTGACTGCCTGCTATGGAGGTTAAGCCCTTTACTAAGTTCCAAGGATGTACCTGTGAATAAGGCAAGTTCC
TTTTTATCATTGTCTTTGCAGTCTATTAGGGGCTACACAATTTAAACAGAGAATATATATAAAATGGTAGAAAGTACAAGTAAGTATACCTTATTTTTTT
AAAAAAAATGAATGTGGTATTTCACCCACAGCCTCAAGAATCACTTTCCTTAAAATTGCCAGAGTAGGAAAACTTACAATTGAAGAATTTCAGGTATTTA
TGGGAAAAATAGTATTAGGGCAATTGCGGTCAAACACATTCGTCTGTTCGTTCAATTACAGCAGTAAGGATGGAAGTCTAAAGAGAGTTTCTACGTGATC
TTATTTATCCTGCATTTATAAATACACAAATTCTTGTACAATTAACTCAGTTTTTCACTCCTTTCTTGCTTGCAACTTGTCAGGTCGTTCCCTCCCCAST
AGTTGTGAACTTCTTTATGCTAGCTTCTTCCATCAGGGGCTCACAACCAGGGACTGTAGAGGTTTGCAGAGGTAAATCTTGGTAGATAAGGATTTTATGA
AAAGGGAGCTCACTGTTGGTGAAAAATCCTTGTTTCTACAGATTTTGGGTCAAGATAAGAAAAATTAACTTTTAAAATCTGAGGAATTTGGAGATTATCT
CCAGGGGCTGAATATATTTTTATGGGAGAAATAAAATGGATAGTTTTAAACTTGAATTTAGTTTTTCCTAATGGAGGCCCTTTTGAAGATCAAATGGGAT
CTGTAAAAACTCTTTGAAAAATGTAGACTGCTTCTTATGTGATTCTTACTGGTCTATTATTTATCAAGAAATTAAAMAGGAATGAATATCTGTAGCTGTT
TTTCTTTTTCTTTCTTTTCTTTTCTTTTCTTTTTTTTTAAGATGGAGTCTCGCTCTGTCACCGGGCTGGAGTGCAGTGGTGCTATTTCGGCTAACTGCAA
TCTCTGCCTCCYGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTTGCTGRGACTACAGGCGTGCGCCACCATGCCCAGCTAATTTGTAATTGTTTG
TTTCTAAAAGGATATTCAGTGCTTCCACTGTCTTTTAGAAGTCTGTAGAAGGAAGGCCAAGAAAGAAATACCCATTATTTTGGCTGAAGATGATCACTTT
AGCTGAAACCAGTTCAGGTTCAAACTCAGACATTGGTGCTATTTTCATATATCTGAAATGTTCTGAAAAGATTACTGACGATCAACATGCTGAACTGACA
TTTCACAGATATGCAGATTTATTCATCTCTGTTCAAGGTATGCCTTTTCCAATCATAATAGCCAYGTAGAGGACATTAAACAAATATTTTATTGTGGTAA
AAACACTTAACATGAGACCTACCCTTTTAACAAATTTTTAAATATATAATTTATTATTATTGTTGACTATAGGTAAAACAGGACATTTTTAACGTGCTGT
GGTGGCCTATTGGACTTTCAGCCTCCCTGGGTGTATTTCGCTGTATATGTGTACCATGTCAGCTTACCCTAGAATTTGAAACATTTTCCTTTGATGATTA
AATTTTTTTTTTTTTTTTTTGAGATGGATTCTTGCTCTTTTGCCCAGGCTGGAGTGCACTATCGCGATCTCGGCTCATTGCAAGCTCCGCCTCCCGGGTT
CATGCCATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACTACACCTGKCTAATTTTTTTGTAGTTTTAGTAGRGATGGGGTTT
CACCGTGTTAGCCAGGATGGTCTAGATCTCCTGACCTGGTGATCCGCCTGTCTTGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGTGCCTGG
CCTGATGATTCAGTTTTTACCCCAAGATGCAGTATGCCTCMGTCTCACTAAAATATGCCAATATGTTCTTCTTCTTGAGGATCAGGGCTGATTTCTTCTA
CTGGGAAAATGTATCCCCTGTGTTTGGCCCCAGAGGCATCAGGGTAACCTGCTCTCTTCCATTCTCAAAGCAGAAACAGTGTTCCTAACATTCTAAGCCT
GGGAATAGGATGGCAGGTCGTGGGACCAGCATTTTAATTACCTAAAGGGAACTTATTGATTTTAGTCCAGAACACGGTGGGGAGGAGTTCATATTCWTTT
TTTTTTTGAGTCTGGATTTTAGAATAAATTCACTGTGTACATAGCTATTCCATCTTTAAAAACCTTTGTGAATGYTAATATACAGCCTTTATAAATTTGA
GGTATAATGTTCAAAATGCTCTAATCCCTAAATTTTCCAGTCTAGGTTATTATACTTTTATGACTATTAATTTTGATGTAGGCCTTTTAAAATCAATTCC
TCCCTGTAATTACAATGCTGCTTTATGGTATTTGTGATATATCATGTGAATATACTTGAGGGTCATGAGAAGTTCATATGTGTGTGTGTAGTGTGGGCCC
CAGACTTTCGCCACACTGCTGGCTAAAGTGGCCATGTTTTTGTACGTCTCTGCAGAGCTTACAAGTTATTCAACAGCCAGATTTCTATTCTGATATGCCC
TTTTAGTTTTCAAAGCATCGAAAAAGGGTAATCTTTAGAACCGAAGTATTTGCAAAACTCCTAGACTTGAATAAGGTATTTTTGAATTTGAAGAGCTAAG
AACCCATCAAATCAAAATGCTAATAATTCTTCCAAGTCAAAAGGTAACTCTCATTTTATTATGCATTGACCACCATTCACTTTCTGTTGGACTGCTTTTG
GAAAAAGAACCACAAGTCTCTATTTTTAAAATAGAGGTACAATGATAAAACAAAACAAAACAAAACAAAAAAACAACAAAAAAAAAACCCACACAGGTCT
CATCAGCCAAGGGATTTAAAAATCAAATTTAACTTCAAAAAACTGAAGTTGATATAGCAGGATCTTGGAGATGCAGTTTCTTCACTTTTCTTTTTTTTCT
AACTGAGGGATTAAGGATATAAACCCAACTTCAAATTTCTTTCTGGGTGGTCTTGAAAACTTAACAGTAGGTCCTGTAAAGAGGTGGGGGARAGGAAAAA
GAAATCCTTTACTCTCATCTGCTGGTTTTAAAATGAGAAAAATACACACACACACGTAATGATGTTCGTGATGTTAATGGAGGGAAATATCATAAATAAT
TAAGAATTTAAAATTATTATAAAATATTTAGTATTATTGTTGTTACTGTTATTAGTAGGAAGGGGCCTTGCCATGCTTCCTTTCTTCAAACAGCTCAGTA
CTTTAAAATCGAGTGTGGCTGTGTTTGTCAGTCGTGGTTTGTGTTCTTTGATTTGTTCTGCATGTTCTTCTTTTGGAGAGGATGTGTCACTTTGCCAATC
TTGGTCCTTGCTGTTGTCTGGTGGAGGGAAACAAGCCTGCCAGGCCGGCTCATCTGACCCCTGGTGGCAGGGAGTGGAGGTGCACTCAGGATGCTCTTGG
GGAATCATAAAGGAGGTTAAAGAAAGGGACAGCAGAACCCTGACAATCCTTGCCCCTAAGCATGGAAAAGCCTCCGGACCGGGTCTGGAGTGCAACAGAG
GCCCCTGACCTTGTCTCTAGCTCTCTGTCTGCATCTTCAGCGTGGCTTCACTGGTTTCTAAGTCTCTGGTGTCTTTTTTCTTTTGCAGCCGGCTTGCAAT
TGCCTCCTTCTAACTCTCAAAAGGATGCATGGGATGGGTTCAGTGTAGTCACTGTTGTGCCTTTTGGACAAGGCTTTCCAGCCAGGCCACCCTGTTTACA
AGGCTGTCCTCACGTCATGGGCGCTCATATTGTCCAGACTAGATGGTCAAGGTGATTGGGGGAAGGAAGTCACAGAGCCACCAATTACTAAGGAACTGCC
CAGAGATCCTGCCTCACTGGGAACCTGTGAGTGGGCTGGTTTCCCCCAGCAGAGGGGCTGTAGCATAGCAGGTACCCACAGGAGCCTGGGCATGGCCTTT
TTCTCTAAAGGGCTGGATAGTCAATATTTTTAGCTTTGTGGGCTTTATGGTCTCTGTTGCAACTTCTCAACTCTCCTGTTACAGCAGGAAAGCAGCCACA
GATAATATATAAATGGACGGATGTGTTCCAATAAAACTTTATTTATAGGAACAGGCAGTGGGCCAGATTCAGCCCGTGGGCCATAGGTTGCCAGCCTCTG
ACTCTGGTGTTCAGATCACAGACTTTGGATGTCTCATATCTGAATCTTTCTAATCTCGTGATAGGGCAAGGTAATTAAAATGTTAATACGTTAGTTTTCT
CACTGTCAATGTGTTCTATGACATCATTTATGCAAAGCATACAAAGCTGAGAATAAAGTCTCAGCAAATGCTAGTTTCCTGGCCTCCTTATACATACTTA
CAAAGGATGGTGGGAGATAGTTTGAGATTTGAGGCCTCTGAAGAATAGGTGTTTTTGTGATGATTTTGGCTTTTCAGTTTGACAGTTGGCTTTGCTTTTT
TGACAGACACMTTAAGAGCTTCAAGGGTCATTTCATGGTTTGTCCTTTCCATGTCAGGGACACCTTTCACGTGGCCATTTTAAGCACAGGAATTGCCTTC
AAGTAGTTTACTCGTACGAACTTGTCTGTAATCATCTTTCCCCATTTGGATGGTGGGTTGCCCATTTTAATTCAAGGTTTGTCTAATGTGTTAGTGCATA
TTCTTGGCTCAAGCAGGATAAGACACTAGTAACCATGAACCTGTATATCAAAAAGCGTGACTAGAGTTTCATAGTTAAACATGTGCTGAAATCCACAGTG
GACACCAGAGAGGGTCATGGAATCTGRGAATGGATGACTTGTCCCATGATGATAATATCTGTGTTCCTACGGCTGGGCCCGGTGGCTCACACCTGTAATC
CCAGCACTTTGGGAGGCCGAGATGGGAGGATCACGAGGTCAGGAGTTGAAGACCACCTTGATCAATATGGTGAAACSCTATCTCTACTAAAAATACAAAA
RTTAGCCGGTGTGGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGA
GATCACGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAATCTGTGTTCTTGCCTGGCTTATTGAGCT
CCATGGTAAATGTTCAGAGGCTGCAGGAATGATTCAAAGTCTGACTGATTTATGTGCATTGGGCATTTTGTTGATRTCATTCAGATTAATGATGGCACTG
AAAATGTGTAAYGGAAATGAGAAGTTTGTATCCTGCCTGCTATACCATGATTCCAATTTAAGAGGGGGTAAAAATATTGCACTTTTTAATCTATTGTTTT
TTGAAAGAGACTGTTTAAAACACGTAATTTTGCTAAGTTATGGCTCATATCGTATTTGTTATTTTGGTTTTGAAAAATTGAGTAGGAAGCAATTGCRTTC
TTAAATGACTTGAACATCAAAGGCAAGTAGTGTCTTGTTTTAGGAGCAGCCAGGCTCCTATCCCTCTGATCCAGCCAAGTGCTTTCACTTGGTCCCACTC
TGGGGAATCACCAGTGGTTCTCACTCTGGGAGAGGCCCCTGGTTGACCTGGAATGACCTAGACCAGCAGTCACAAGCTCCTGCCCATGGACAAAATACAG
CCGGTACCTCTTTGGCTATGGCCTGCAGGCTCAGAAYAGTTYTTACATTTTCAATCATCTGCAAAAAAGAATAAAGAGGAGAATATTATTTCTTGAAGGA
GGAAAATGATATGGAATTCTGATTTCAGTGTCATAAAGTTTTGAATTTCATCAATAAAAAATTTGCAGAAATTTGTTTTTCTCTCCTGTTATGTAAATAC
CTCTGTAATAGCCTCGGTTTTGCCTCTTGGCTCACAAAGCCTAAGTTGTTTACTATTTAGCCCTTTACAAAAAAAGTTTGCCAGCATCTGATGTCCAACA
ACAATTTTCAGTCTTTTTTGTAGCTCCCAAATTCTCTCATTAAACCAGATCCCTTGAGGGAAGCCTGGTTTACAAAATAGATTAAGTGATGTGGCTGTTT
GGAGCAGGAGGCTGTGGTCTGAGTCTTGCTGGCCTCAACCCTCAACTCACTTCCACACCTTACCTCCTGGGGATAAGGCTGCCTTCGTCTAGAAAGTGCC
TCGGTTCCAGCTTGGAAATATCCATGTACAGTCCCTTTTTTGTTATTCCAAAACCCAAAGAGATCTGAAAAGCAAAAACAAATTTATTGTATATTTATAG
CAAATTTATTTGGTGGTGAAATTTGACTTCAGCTTTAGCGTCCCTGTTTCTCSTTTCTAGTGTGAATGTTCATTTTGTTTTGTTTGTTTTTTTGAGGCAA
GGTCTCACTTCATCACCCAGGCTGGAGTGCAGTAGTGTGTTCACAGCTCAGAGAAGCCTCGACCTCCCGGGCTCAGGCGATCTTCCTGCTGTAGCCTCCC
AAGTAGCTGGGACTCCAGGCATGTGCCACCATACCCAGCCAATTTTTGTGTCTTTGTAGAGATGCGGTTTCTCTACCATGTTGGCCAGGCTGAATAATCA
TATTTTCACTGAAGAAATAGAAATGTCATTGTTATAGGATGTTGCCCCAAACCCCGCAAAGGTATTTTGTAATATGCAGTATATGTGCTAAATTACTTTT
TTTGTTGTTGTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTYGCCGTGATCTCTACCTCCCAGGTTCAAGCGA
TTCTCCTGCCGCAGCCTCCCGAGTAGCTGGGATTACAGACATGTGCCACCACACCCGGCTAATTTTGTATTTTTAGTAGAGATGGGGCTTCTCCATTTTG
GTCAGGCTGGTCTCGAACTCCGGACCTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGTACCTGGCCCAAAATACCTTTCTAACAT
GGAGGAATTAGGAATACTGAAGGCATCGGCCCCCAAGGGTTTGATGTGCTCTTGTCCCCAAGGCCTGCAGATTTGCATCACCTCTCCACTTCGTGGACTC
CTCGTACCTGCCTGATTCCAGGATGCTCTAACCTGGCCACGCATCCCCCGTGGATTCTCAGCTGTTGTGTGTTTCCTCCTCAGGTGGCCACTGTGTCTGG
TGCTCACCTACATTTTGGTTCATCCTGACTTTGCCTCAGCCTCCCCATTCTGCATTTCTCCCACGGCTTCTCCCAGCCCTGGCCCAGTGACACTGTAATG
TGGACTGTGGCATCCCCTGAGTCTAAGCTGTTGACCAGCTCTTGATGGACAGATGCTGGCAGAGATGGGGAAGGTGCTGTTCCCTTCCTCCTGGGAAGGG
CAAAGAAAGCAGGGTGGTCCTCCCATCCCCGTGAGGAAGGAAGAGCCTCATTCATGCTGAGACCCTGATGGAGAACTGGGTCCAGGGATAATGTTTTGTG
TTCCTGCTCATGGGACTGGTGTGTTATTGTCAAGGGATCTTACAGGCCTTGCTTCCCAGGCCCCTCTATCCCCTCTGTTCTTGCTTAGGCATTAGTGATT
TGGTTCTTCTAGCTTTTTTTCTTTTTTTGAGACAGGGTCTCGCTTTGTCATACAGGCTGGAGTGCAGCAGCGCGATCTTGGCTCACTGCAACCTCCGCCT
CCTGGGTTCAAGCAATTCTCCTGTCTCAGTCTCCTGAGTAGGTGGGTCTACAGTCACATGCCACCACGTCTGGCTAGTTTTTGTATTTTTTAGTAGAGAT
AGGGTTTCACTTGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCAGTCTCAACCTCCCAAAATGCCGGGATTATAGATGTGAGCCACC
ACACCAGGCTGGCTCTTCTAGTTTTTGAAGCTCACTTTTCTTTTTTCCTCAAGACTCACAGGGAATGGGACCAGGCACCTGTCTTTATACATTCTCAAAG
TCCATGGTGACGATGCCATGCTCCGGTTCTAAGCCAGTTGGACAGACACAGGCAAGGGAAGCTGTCAGTGTGGGTGAGTTGCAGTGTAAGGGTAGTGGGT
GGAATAGCGTCTCCCCAAAATCCACACCCACACAGAATCACAGATGTAACGTTATATGGAAACAGGGTCTTTGCAGATGTAATTAGCTAAGAATCTCAAG
GTTAAATCATTCAGGCTTTAGAGTGGGCCCTAAATCCAATGACGGTTATCCTCATGAGAAGAGGAAAGCAGGGGGCACAGTGGTGGGTGTGCCTGCAATC
CCAGCTACTCGGGAGGCTGCGGAGGGGGCATCACTTGAGCCCAGGAGTTCATTGCCAGCCTGGGCAATATAGCAAGACCCCATCTCTTAAAAAAAAAATA
ACACCAAAAGACAAAACAGAAAAAGGAGGAGAGGACACAGAGGAGAAGGCTCTGTGAAGTCAGAGGCAGAGATTGGAGTGATGCGTCTACAAGCCAAGAG
ATGCCACGGTCATGGGCAGCCCCCAGAAACGAGGAGAGAAACCTGGCACGGTTTCCACAAGGAGTCACCCCTGCCAACACCTTGGTTTCAGACTTCTGGT
CTCCTGAACTGTGAGAGTCAGTTTCTGTTGAGCTTGTGCTGATACGCTAGGGCAGCCCTAGCACACTGCCACATCTGGTTTCCCGGAGGAACTTCACAGG
GTCTTTGTTCTTTATCTACAGTCTCTGGAAGTCTCAGCAGCCTCCTGTGTTCGCAACTGTCATTCCAGAGCAGCCGTCTCGTGTTATGCATTTGCTTACT
CATAAGCAAATATTTCACAAGAACCTGCGAGGGCCAGGCTGGGCCAGGCAGGTATTGCAGGTGCAAGGATCTATATAAGACAGTGCCCTTTAGAAGATCC
CTGTCTCATTGAGAAGCGTTGAGTAAATGGGTCTCTCTGGTCATTCTCTCCAGAACATGAAGCCAAAGGGCYGAGAGGGAGAGACTCCAAGAATGAATTA
GTGTCCAGCAAGGTATCGCTTGTCTCAGGATGACAACTTGCAATTTGGGGATCTCTCAACGTCCTGACCTCCATCTCAGTGGGCATGTTCCTCACCTGGC
TGGCTGCCCCTGCTTACTGATGCAGCCTCCTGTCACACGGTACTCACCTCTATTCACTGTATTCCACCAACACTGGCCTTGGGAGCCAGCAGTACCCCCA
TTGTACAGATGAAAGTCTTGTGACTGTCAACATTAAAATGAGAATGATATTGACCCATGATACTTACCCACCTGTTCAGTGGATTCGGTGTGCCGTCAGC
ATGGTTCCCAGCACATAGTAAGTGCTCCGTAAATGTCAGCATCTATTATTATCATTTGTGTTTTTTTTTCCCCTTCTCTGCCTTCCTTTCTCTCCCTCCT
TGGTCTGCTTCCTCCTGTTGCTATCAGAGCCTGCCTGCCTCATCCTTGTTCCAGCCTTGATGGTGATGATGATTRTGGTTGCTGTTGCTATTTGTTTTTT
TGGTTTGTTTGTTTGTTTTGAGAGGGAGTTTTACTCTTGTCACCCAGGCTGGAGTGCAGTGGCGCCATCTCGGCTCACTGCAGACTCTTCCTCTTGAAGC
TGGGGAAGTTCAAGCAATTCTCCTGCCTTAGGCTCCTGAGTGGCTGGGACTACAGGCATGTGCTACCATGCCTGGCTAATTCTTTGTAGTTTTAGTAGAG
ATGGGGTTTCAGCATGTTGTCCAGGCTGGTCTTGAACTCCTCAGCTCAAATGATCTGCCCACCTCRGCTTCCCAAAGTGTTGGGATTACAGGCGTGAACC
ACCACGCCCCTCACGCGCAGCCACTGTTGCTATTGATGATTATTATGACATCATTGCTCAGATTCACTTGGCTCAGAGAGGGCGGAGTCAGAGTGACCCA
GGTGGTCACTGCTCCCCTTCTTGTCCATCAAATCAGCTGCCTCCAACAGCATTGCCTGGCAGCGTCACGTAGTAGCCCTCTCCCTCACAAGGCTTTTGAG
GCAGACAAATGCCACTGATAAAGCAAAAGCAAATGTTTTGGGTGAATTCCCCATAGCTACACTAGATTTGAGGCTGAGAAATGGAATGCCTGTCATTGTT
GACTGAAAAATACAGCTCTCCTAATAGAGTCTTGGTGCAGGAGCTGTTAGCCTTGCCGCCCTGCAGACTTGAAGAATTGCGACGTCGGCCTAACATAATT
TTGGTAACTTTGTCTGCTTCTGCCTCGGGTAGAAATAATTCAGATTTCACTCTCCATTTTCTTTAATGGGCTAAACAGCCACTTTGTAATACCTGTATTT
TATTAGACATAATTCTGGATATTGTTTCTGCAGCGTTTTTGAAAAGACAAACCTGAGAGAGCCCAGCTATTTAACTTAAGCAATTTTAAAGTTATTTGTA
AAATGATATGCTGTCTTTTTTGACCCAGTTACTTTATAAAGCTACATTCTTTGGCAAACATTAACACAACTTCTCCGTGTGTGGGCTAAATAAATATTCG
GGCAACACTGATTGAGCACTGCCTTGGGTAAATAATTCTCTCTCCACACATTTCCTAGTTYATAATGAGGAGTTTTCTTCGTGGTCTGACCAAATGTAAC
ATTCCATTGAAAATGAGACATAAATCCTTGAGTGAGGGAGACGTGGAACCAGGGTTTGAGGAGGGTTATTAAAAAGGTGAGGGTAGCAGGGTGACCTCCT
GAGTCCCCTGCTCTCCCGAGCCTTCTCTCCTCTCTGGAACCCATGGCTAATAGGGGACAGGAGAGAGCGGAAGCAGAAAGAATAAGAGATATGAAAGCCA
GCCGGGCACAGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTRGCCAACATG
GTGAAACCCTATCTCTACTAAAAATAACAAAATTAGCTGGGTATGGTGGTGTGCGCCTGTAATTCCAGCTACTTGGGAGGCTGAGGCATGAGAATTGCTT
GAACCTGGGAGGTGGAGGTTGCAGTGAACTGAGATCGCACCACTGCACTCCAGCTTGGGCAACAGAGGGAGACTGTCTCAAAAAAAACCAAAAACAAAAA
AAGAGACATGTGAGCCTTCCCTTCCCTCTCCCCATCCTAGCCTCCTCTCACCCAGGTCCATTCTTCCACTGTCATCCCATGATGCTCTCTTGCATTTTAA
AGTTTGGAAGCCCTTATTCCTTTGTTTTGTTTTTGAAATACAAATATCAACATTTTTATTGTTCTATAGTAATACACGTTTCTTCTATAGTACATTAAAT
CACAAGAGGTAATAGTGTATCTACTAACACCTATACTTTTGAGTAGTGTTGAGTGTAAATGATATTTTGAAATATCTGCAGTAACTGATGTGATATGCAA
ACATCTGTGATTTCTTTTAATTTTTATTAATTTTCATTTTTTAAAAAACTTTAGTTTCTGGGGTACTCGTGCAGGGCTGTTAAATAGGTAAATGACATGT
CATGGGGGTTTGGTATACAGATTCTTTTGTCACCCAGGTCAGAAGCATGGTACCCAATAGGTGCTTTTTCGGTCCTCTCCCTCCTTCCACCCTCTACCCT
CCAGTAGGCCCCAGTGTCTATTGTTTCCTTCTTTTTTTGAGACAGAGTCTCACTCTGTCTTCCAGGCTGGAATGCAGTGGCACCATCTTGGCTCACTGCA
ACCTCCACCTCCTGGGTTCAAGCGATTCTTGTGCCTCAGCCTCCGGAGTAGCTGGGACTACAGGTGTGCACCACCATGCCCGGCTAAGTTTTGTATTTTG
CGTAGAGGCAGTGTTTCTCCATGTTGGCCAGGCTGGTCACGAACTCCTGACCTCGAGTGATCTGCCTGCCTCGGCCTCCCAAGGTGCTGAGATCACAGGC
GTGAGCCACCGCACCTGGCCTATTGTTCCCTTCTTTATGTGCATGTGTACTCAATGCTCAGTTTCCACTTACAAATGAGAACATGTGGTAGTTGGTTTTC
TCTTCCCGCATTAATTCATTTAAGATAATGAAGCTCCTGTCCTTGACCCAATCTCCACTCTACCGTTTGATGTCCAGTGTGGACTGCCCCTCTGAAAGCC
CTTCACTGCGGCTCAGCCTGTGGTGGAAGGTGTCCAAGGTGGCTGGAACACCTCCTGCTGGGGGTGTCAGTCTTGGCTCTCCTGTKTTCTGCCTGTGCAA
TGGTGGGTAGGTCCCTTGATACCTCGTAACCTCAGCATCCCTGTGGGTGATAAGGAGATGATAATAGTCTCTTCCCGATGGGGGTTAAATAAAATAATTC
TCGGAGTATGTGAAGCAGTACATGTGAAGTGCTCAGCTTTGTGTCTGGCACATAAGGAAGTGGTCAGTGTTTAATGTTAGGGATCATAGATGCTGATAAA
TTGCCGTTTATGGCATATTTCATGTATTGCCTCATTTAAACCTCCTTGCAATCTGTTATGACTCCTGCTGATGATGGGGAATTTGAGACTGTGAGAGGCT
TGGCAAAAGATCTAAGCTGTGAAGTATCTGGAATAGGATTCCACCTTCAGCCCTGCCTTAATGAAGACCATGGTCTTGCCACATTGCATCTCCCCAAGAT
TTTTATGGTTCTATTTTTAGTCACGTTGGCCTGCGTTGGTAAATTTACCTTTCCTGGTCCTTTTGAGTAACTATCTCTGGAAAGGATTAAGTGCAGTGAT
CAATCAGCAGCAAAGTCCTGGAAGAAACCCATTTGTTAGTCTCTGGGCCTCCCCAGGCCTTATCAGGGCTTAGCCTTCGAGCAGTAGCAACACTTGCACC
TGCAGTTACTAATTCCTGTGGAATGAAGTAGGCGGGCCCGAAATGTACAGCCCTTATCCAGTGAATTCTCATAGGAGCAAAAAAAAGTGTTTTCTTTCCC
CCTTGGAGTTCTGTTTCTTCTTAAAATTAGCTATTTCTCATACACAATAGGGACATATTCATAAAAAAGGGAAAATACTCCAAAGTTGAAAAAAAGATTG
AAAAAGAAAATCCTCCAATATATATCTACTCTTAGCATTTTGGCACATATTCTTACAGTAGTTTCAAATGCCCAGGCCATTTTGTTTTATTTTGTTTTGT
TACAATTGTGGCATATGTACTCGTGATGGATTTGCTTGTTATCTCTAAATTAATTCTCCTCCTGCAATTCAAATATTCCAGAGATATGTATATTTTTAAC
ACATTGTTAATTATCCCATATGGATAATAGTTTCTTTTCTCTCTTAACATTTTAAAAGCATGCCTCCAGGTTGTTCTAGACGGTCCTGAACAGTGCTTTG
AATGGGGACATGTTAGTAAACCAATGAGAGGAACCACGGTTTAGTTCATCATTCTCCTTCTAACTGTATTTTTAGGTTGTCACTAACTCTTTTCAGTCGT
CATTTCCATGGCCACGAACATCTTTGGTTCTAAAGCATTTTTCCCATTTAAAATTATTTCTATGGGATTGATTTGCCAGAAGTAGAATTTCTAGGTCAAA
GGTACAAACGCTTGAGAAGTCCTGATACATATTAACTTGGGCCAGAAATCTACCATGTAATTGAGAGCACCTTGAGCTTGGCTTCAGAGCCAGGATGAGG
ACAGGAATAAGTGGGCCTTTTGATTTGAAATGTTGAGATACGAATGTATTCTAGATGGGCCAAATAACCAGCTTATTTTATTTTAAAGTCGAGTGAATTT
TCTGCCTCACTAATGTGCATGTCTTCAAAGACAAGTAGTGGGAACGGAGTGGGGATTTGTCATCCCATAGAATGCCACCACATGGAATCGGTCCTGAGGC
TTCTGAAAGCAGTTCCAAATTTGAATGTTTCCTAAGTTAGTTCTTGCGGTACAGCGCAGACAATATTCTTCCTCGACAATAGCTGAGACCCAAGTGCCTG
GGCGCTTCCAGGTCATAATTAACCTCTTCAAAATAAGAGCAAAGAAAGGCAGGAAAAGGTCCTCTCCATTCCAGAAAGGAGAACAAAGAGGGGGAATTCT
AACCCTCTTGCCACCTCTGTTCTCGTCCGTTCCATATTAAGAAGCATTCAAAGACTAGGATGCCATTTTGCAAACGTCTCATTCTCCCTGAATGGTAAGG
CTCCACGCTTTAGCACAAGTGGTACAAATCTGCCTTCCCTCATTCTTTTTTGCAGATCATCCCGCTCCCCACCCCTTTCTTTATCATGGCTCATTTGGAG
CATCTGTGCATTTTTTAAAGGCTGGATTTTCTTTCTGTTGCCATTGAAACATTGCATTTGTACAGGAGAACTACTTAATGGCACAGTTTGTTATTACATG
GAATTAAATACAACCTATTTAAATCATGTACCGTGAAACCAAAGAGCTGTGTATGGAAAAAGCCTCATATAACCCAGTTTGCCAGGTCCTAACTCCCTTC
ATACATATACTAACATGCAAAAGACCTCCTACCTTTTTTTTCCCCTTCTGTTTCTCTCTTGGTATAACACTACCCTGTTTTTGAAAGTACTTGTACTGCT
AATATATTCTTTAAAGAAGAGGGGGGAAACCTGTTGGTCCCCTCATAAAACAGTTAACAGGAAGCCCAAGGCATCTTTCAGTGCCATTTTTGGCTGATGT
TTGGAATGGTTCCATCAATCACCGCTGTTCATGTATAGCTGGTTTTTATGTCAGTTAAACCATCTTCCATCAAGTTGGTGAAGCAGAGTCAGGGAACAAG
ATGAATAGCAAAACGTCTTCTGTGGCATGGAAAAGGCTTTGCTTTTAAATGCCCGTGTTGATTTCTTAATATTTTCAACTTCCTCTTCTGAAGCCAGTTC
CCCCCGACCATCAGTCATGAGTCCGTTCTTTTAACCTYGTTCAGGTGGCGTGGGGCGGTGTGTTTGGTGGGGAGTGMTGGGTGCTTGCCTGGAAGTGCGA
GCAATTGATCAGCTGATGAGGGGTATTTATTATCTGTCCCTGACTCCCGAGAGAGGAAATAAATCCTTGGACCCCAGAGTGATTTTCGGAGCCACAAGAA
TGCAAGATGTCCTGTTTCCAGTCAGACCATAGCAGTATCAGTCTGTGCAGTTGGAATCTTGCATGGGGAGGTGTTTTTATTTCACACAAGAAAGAATGGC
ACATCTTTCCTTGAAAGATGTATTTTGTATATCTTAATGTCAGTTATGTTTACGTGTTTGCTGCTCAGAAATCAACAGGATTTCTGCCCTTCCCCAGCCC
CCTTTTTTTCAGCCCTTCAGAGAATATTTGTTGAGTGCAGTGTGTAAAATCATGGCGGTGCCAAGAGGGGGTGTGATGGGTGTGGCCGCCCCCCTGCCAG
CAGGAGGAATCTGTTTTCACTGACATTGTTTGGAATCACCAAGCATGGTGATGATAAAAAGCAGTTAAACTTTGGTCACTTTTATTAATACTTTTAAGTC
CTTAGCGAACAATGCACCCGTTATTACTTGCACCTAGTGGACATGGTTCTCATTGCTGCTGCCCACCTTTCTTTTTTTTGCCATGGGTGCAAAAGATGCC
TCTGGGGATCCCAGAGGACTCAGCATTGGTAAGGATGCAGTCCTAATCCTGAAGGAGGGTACAGCTGACCAGGGAGGTAACACATGAATGCAGCTGATAG
GGCCAGTTGGACCCAGATTTCAACTGCAATCTCTATTTCCTTCGGATCTGTTGCATCTGCTCAAACACTAGTTCTGCAATTTCCCAACACCTGCCCCCTG
CCCCTTATAAAAGCTCATGGTTCCATGTGACTTTCCACTCCTGCGTCTCTGGCCTTGGGGCAGGTCAGTCCGTGGATCACCTCACTGTCCTAGGGATGCT
CTTCTGGTCCACACTGTGCCTACCTTGGATATGGAGTTCCACTTGTTCCCTTACCTTTCACCCACCTGTGCTCCTCACCCAAGCAGGCATTGATGGAGGT
CTCATACTTTACTGAAGATGTGAGGAAAGAGGACACTTATGTAGAACCCAACTGCAGGTGGAGCCTTGGCGATCCATAGCCCTCTGTAAAGTGGGGATTG
AAGCACATATCTTGCAAGGCTTGGGCATTGATTGCAGGGAGTAATGTGTATATGAATCATCAGCTATGCAACATAATGCTGATGCTAAGTACTAACATTG
ATGGAGTGTTGGCATGAGCTGGGCAGAGTGCTCCATCCTCTATGTGTGTATTAGTTCATTCTTGCACTGCTATAAAGAAATACCTGAGACTGGGTAATTT
ATTTAAAAGACACCTTTAATTGGCTCACAGTTCCACAGGCTGTACAGGAAGCATGATGCTAGCATCCTGCTTGGCTTCTGGGGAGGCCTCAGGAAACTTA
CAATCATGGTGGAAGGCAAAGGGGAAGGAAAGCATCTCACATGGTGCAAACAGGAGCAAGAGAGGGAGCAAGGGGGCAGGTGCAAAACACTTTTCAACAA
CCAGATCTCAGGAGAGCCAACTCACCACACAGCATACGTGCTAAACCATGCATGAGAAATCTGTCCGCATGATCTAATCACCTTCCACCAGGCCCCACCT
CCAACGTTAGGGATTACATTTGGACATGAAGGCTGGGTGCGGTGGCACACTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATTGCTTGAGCT
CAGTCGTTTGAGACCATCCTGCACAATACGGTGAAACCTCATCTCTACTAAAATACAAAAATGTAGCCAGGCGTGGCGGCACATACCTGTAGTCACAGCT
ACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGGTGAGATCGCACCACTGTACTCCAGCCTGTGTAACAGAGCGA
GACCCCATTTCAAAAAATAAATAAATAAATTTGACACGAAATTTGGTGGGGACACAGATTCAAACCATATCAATGTGAATTAAATGACATCATTCAGTCC
TCAGGACAACCCTCTGAGGAAGTACTTATGCCCCCCGGCCTTTTTTTTTTTTTTTTTTTTTGAGGCAGAGTCTTGCTCCATCACCAGGCTGGCACGATCT
TGGCTCACTGCAAGCTTCACCTCCTGGGCTCAGGTGATTCTCCTGCCTCAGCCTCCGGAGCAGCTGGGACTACAGGCACGTGCCACCATGCCCAGCTAAT
TTTTTTGTACTTTTAGTAGAGATGGAGTTTCACCAGGCCAGACTGGTCTTGATCTCCTGACCTTGTGATCCTCCCACCTCGACCTCCCAAAGTGCTGAGA
TTACAGGCGTGAGCCACCGTGTCTGGCGTCATGCCCCGTTTTATAGATGACAAGGCATGGAATGGTTAAATGTCTTTCCCAAGCTCATGGAGTGGTGGCG
GTGGAGGTGTTGTGAATGTGAACCCAGGAAGTCCGCCTCCAGAGCTGCAGGCATTAATGCAAAGCTGCACTGCCTCACGAGGTCGCTGATGCACTCTCAT
TCCTTTTCCTCCAGGGACTCCTGCACTTTGCCAGGCGTGGRCCAGAATGCCACTCGTATTGTTTATCTTAATGCTTAGTGATAGTAGCTACCTCCAGTGC
ACGCCGCATTAGCCTCTCCAATGAGTTTCTCCTTTATTTTAAATGTAAATCTAGAGTTCCCTTAATCCCCTTAATTTTTAGTACGTGGCTCTGAGGGCAG
AAACATTTTCAGGAGCAGCCTGGGCTGAGTTTTTAATGTGGCAGCAGCCTCGGCTGGTTTCAGCATGCAGGTGAGAAGGCCGTTCATCTGGAACTTGGGC
TACCCAACAGTGCAAGTGGGGAGATCAGAGCATGGAAAATGTTTTTGTATAAACTTAGGTGGACCAAAATGATCATTTCAACAACATTTCGGACTTGATT
TTTTGTATTTATATGGCCCCTTTCTTCCCAAGAATTGAAAGCCTCAAACTAGAACGTGGCTTTTGAACGGTGAACATTCCACAAACATTTAATACAGAGA
TGGCTGTGGGGTGGGGGCTGGGGGCTGGGGGCCTGGAAGRGGAGAAGGGGCACCAGAAGGAGAAATGGGAGGAAAGGGCGAGTGAGATAGCAAAGAGAAC
TCAGAAAGTAATAAAGCCCTGCAGTARTCAGAGGGCTGAGGCCAGGTCCCCAGTGAGCGGCTGAACACACAGTGATTCAAACCCACTCCAGACCTGTGTT
CTTAATCATTACCTTCACCTGGAGGGACAGACCTGGCCTTGGGCAAGCCACCCCCACTCCCTGGCTCTGTGACCTTGGCAGCTGACTGGCCCTCTCCAAG
ATCAGTTTCCTCATTTGTGTAACAGTAGTAATCTCCAATTTAGGGGGCTGTATGGATATTAAATGAGAAAACACACACAGATCATTTCTTTAGCACAACG
TCTATCTGGCACATTAGCGAGAGCTCCGGAAATACCCATGCCAGGGTCACAAGCTCGGTTCTGGAGCTGGATGGCCGGGGTTTGATTCTTAACTCTGCTC
CTTTCTAGCTGTGTAACTTTAGGCAAATAATGTAACCTCCATCTGCCTTTGTTTTTTCCTCTGTAATAGAAGGAACAACAACGAACAACATTTTTTTTTT
KGCAAGATTAAGTGAGATCTTCCATTTGACATGCCTGGCTAATTGGCAGTGCCCAACAGATAGAAACTATTGGTATTGTAAGGACTGCTTATTGGGTACA
TATGCTGTGCCATGGGAGGTGGAGGTGCTGTCATGCTGAACCCCTATTAACCTCAATAGGAAAGGCACCAGGTTCAAGAGCTGAAGAAGACACTCAGAGC
CAACAGATAGACATGGGGTTTTATTAGGAGGTTACATATAGGGGAGAGAGTCCAGTGATGGCGGGCTGGATAGTACAACTGCCCACCTTACATACAGAAA
TGGTCCAGTGGCAGTAGGCTGGACAGGATATCCACCTCCCTACAGTCCAGTGGTGGCGGTGGGCTGGGCAGGAAAACCATAACCACCTGCAAATGTCATG
TGGTTTATATCACACCTTCACTTAACACCCTCCCCCTAACAACCTCTACCTGGCAATCTTCATTTAACTCCAAACTCAGGACCTCAATCCTCTGTTTGGC
CTGTGTTCCACGGGACAGGCATGGGGCACAGATGTCTGTTATATATAAGGGACAAATCTCTGGGTTGGTCACTCCTGGATTCCCCAGCCCGGACCACACA
TTCAGGTGCATCTCCCACACAGGATCATTCTAAGGGTATGCTTACGTTACCGCTATTGGGGTGTGTTCACCCTGCAGGTGCAGAGATGGCAACCGAGGCA
GCTGAGGATCAGGGAGTGGAATAACTTGCCTAGTTCTGGCTCTTCCCATCTAATGTGGCTGCACTAGATGCTGTTAGGAGGAGGAGGAAGCCTACTTTTG
TTTTTTACCCAGTTTCTGTTCAAAGGTCGTATTTCATGGTGCCTCATCACAGTATGTTCTTATATGCCCTGGCAAACAGAAGGTGCTCAATAAATGCTAG
TTCATCTGGTCCCTTAATGAATACTCTGGCTTCGTCATCTTCCCTAGGCTTTGGTTAATTTGGTGCCCTCTTTTGCCATTTCTGCAACCCTTATTCATTG
CTGTCAACTGCTCGTTACACAGCATTGCCTGTTTCACTCTGTACAGGTGCCAGGCGTCTCTCAGCTTCTCCTCTCTTTCCCATCCAACTGAGCAGCACCA
ATAAATAGATAAGAAACCTGAAGGTCTACATCAAATCAGCTTCTATTGCTGCAAAAYTCTTCTAGCTAACTTCATTCTAAAAGCTGTCTGAAATATATTT
ACTTACACCCGAGAAGATTCAAAAACATTACCGCTGAACCCCGATGCTTTGGGAACACATGGTGTCCTTGGCCACTTCCTTGCTTGTTACCTTGTCCAAC
AGCTGATTGGCATAGTACAGATGTAGACATCAAGTAATTCTATCGTTAAAGGATTAGTCAGCCTCTCCCTACTCCCCACCCACTTATCTCAGTAAGGTTT
AGTCAAGAAGTTGGAAATTAATGGGGAAGGAAGGTTTTGGGTTATGTGTGGATTTCATTTATCCATGCTATCTCTTCCCTCCATTAGCATGGTTAATTAA
GAGTTGTCAATACATCTTTGTTGGAGTATTTGATTATTTTTTCAACAGGGAAGATTAGAATGAAGTCTTCAGATCTGGCAAGTGTCATGGGACTTGTAAA
GTAAATTGCAGGTTAAGCCCTCATTTTGATCTCTGGGATGAGAGCAAGCACCGTTTCATTGACATGTCATCAGCTATGATCTGAGGGAGCACACAGAGGT
GCCCTTTGGGGAAAGAGGGGCATCTTGCACTTGTCTCCCACATTGAAAGGGTTTATTGCACAGTGAGTGTGTGCAAGTGAACAAATAGCAGATGGGTTAG
AATGGACAGAAGCTAGCTCTGAGCACCTCCTGATTTATGCTTTATTTAAAAAAAATCATATGTATGTATATGTGCATACACATACATTGTTTTGTATATA
TTTGTCAGATGGAGGTGTGTGTAAACAAATAACAGAAATGAGTTAAAATTGACAAGTTAGCTTGGTAAACATCTTGATTTATAATTTATTAAAAACTACG
TGGGTATGTATATACATACAGACACACACACTTCTTCACCACCTGAACAAAAATCCCTTTTGAATCATCCTTCTTGCCTTCCAAACAAGTACACTAGCAA
ACACTTTTCCCAGATGGCAAATGACTATGCCCGTTAGGCATTTCTTTTAGCATTTGTGTTGACAATGGCCTTTATTTTTCCTTCTACTTAAGGGCTCTCA
CGTTCTAGAATACATCTTACCAGCGATTAATTATGCCTTGAGATTGCCAGGAGACGTAGACGAGCTTTTATTGTTTTAGCCACTGAATATACCTCTAGAT
AACACAATACATATTTACAGTGACAAGCTTTGTATTATTTATAGGATTATAGCAAATCATCAAAAAACAACCCAAAAAGGGCCACTTAGACCAACATCCT
TATTTCTCCCTCGGCTTCAGCATTGAATTATGCATGCATTACAAATGGCAATAAGGAGTAAAGGTCGGTTTAGAACAACACAGNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTCAAGTGATCCTCCCCACCTCAGCCTCCCAAGTA
GCTGGGACCACAGCCTCCTGAGCACCCGGGTGCATGCCACTGCCACCATGCCTGGCTAATTTTTATATTTTTTGGTAGAGATGGGGTTTCACTCTGTTGC
CCAGGCTGGTCTCGAACTCGCAAGTTCAAGCGATCTGCCTGCCTCATCTTCCCAAAGTGCTCGGATTACAGGTGTGAACCACCACATCTGGCCAACTTCC
CTTTCTAAGAGCCCTCTTGGGGCTCTGATATGCACCTCTCATACCTCAGCCCCAGTCAGGGTTGTTGAAAACCCACTGTCTGCCCAGAGGCTGGGAGCAC
ATCTTGGTCTGCCTGGTATGGAGGGCTGGGAGGAGGATTGCAGGAACTGCTTAAGAGGCCTCACTTTGCAAGAGCAGTTCAGGATGTGTTTCCAGCACAG
TTTCCAACATGTGCCACCCATGGCTTCCCCTTTCATGTTCCTGGCCTTTATGCTAAGTTCTCACATTGTTATTTTTACAAGTCTTTTCCAAGGCCTCTGA
TTTTCTAGACCATTTAATGTTTGCCATAACCCATAAGGGTATAACTGTCTTGGCACATTCAGATCCCCCGTCCCCCTGCTGTCCTTCTAGTCAGTTTCTG
GCACACTATGTTTATGAGCTTACAGAACAGCTCCTAGGTTTTCTTACTTCCAAAACAGTGGGCAAGAACAGCTACCTTTTAGAAGCAGGAAAAAGGAACA
TAATGAATAAACCTAAAGGATTTAAAAACKTGGAAGACACTAAGAAACTATATTGCCGAGAAAGAGAAATGTAAATTCCGCTGGATAAATTAGCGTTTGC
GGTTACTTCTCTCTTTGTTGCTTAAGCAGAGGAGAAACAGAAGTCATAGCAAAGAGAGAGGTAGCTGCAAAAGCTAATTTATCCAAAAGAATTTACATTT
TTCTCTCTTGGCACTATAGGGGGCATGTTTACTCTCCTGATGTCTTTTGGGGAAGGCGAGGCACAAAAGAAGGGCATCTTCTTCCTTCACACACACACCC
CACTTAGGAAAATACGTACACTTGAGATGCCAGAGACACACCCAAGTAGAACACATCCCAAGAACAGTCAATAATAATAATACCCATCATTTATTGAACA
TCCACAATAGCCAGACATTTTTCTAGTTCTTATAAATCCATGTACTCCTCCCAGTAGCTTTATGAGGTCTTATTATTCTCATTTTATTGATGAAGAACTT
AAAGTTCAAAGAAAGGAGTAAATCACGACCAGGCACAGTGGCTCGCGCCTGTAATCTCATAATCTCAGCACTTTGAGAGGCTGAGGTAGGTGGATCACAA
GGTAAGGGGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTATTAAAAATACATAAATTAGTCGGGCATGGTGGCATGTGCCTGTAGTCCCA
GCTGCTCAGGAGGCTGAGGCAGGAGAATCACTCGAACCYGGGAGGCAGAGGTTGCAGTGAGCCTAGACTGCACCATTGTACTCCATCCTGGGCGACAGAG
CAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAGTAACTCATTCAAGGCTACACATTTACTCCATGAAGTGAGCACACTTCAGACTTCCAGTCTT
GTGTGGCCTGTCTACCACACCATGAGACTTCATGTCTCTCCTAAATGAGGAGAACCAAAGCTGGAAATTGTCACYCCCTGTCAGCCCACAGCACTGGTTT
CTAAACCTACTGGCCTCTACCGCTTCACTTCTCACTGTAATCTCTCTGACCCTACCTTCCAGCTTCTCTTGAGAACTTGACTCTTAAATTCATTGGTGAG
AAAGGAAATTTTTGCTCCAATAAACTGGGTAGCTCAGTCCAGGAGAGAAATGTACTGGACTCAGACTTGGAGGACAGAGCTTTGTGACCCTCCTAGGCAA
TGTAATGACCCTCTCCTGGCCTCAATTAACTGAGGCCAGGAGAGGGTCATTAGCAAACTGTCCTTTGCTAAATGGGACTAATGGGAAGAATAGTGTCTGC
CAAATAAGGTGGTTGAAGGATTGGATGAGACTGACATTTCATTTGCATTTAGTGAATACTTGTTGAATGACTGAATGAATGGTTGATGTACAGAAACATG
AACAGAGAGTAGAGCAGAACATTGGTGAATGGTAGTAGATTGCCTCAGACGCCCCCCTTTAGAATCACACAAGCTGTCATCTGTGATTGCATACCTGTAG
AAGTCTCTATCATTTCGTAGTCTATGTAAATGTTGACCAACTGAGTTGTTCAGTGTACAGACTGAACAACCATACAGGGAATCCCTAATCTCCTGCACTG
TGAGTCAAAGAGTCAGACAGGTCTAGATGCATTTGCTTCAGGTGAGGCCAAGGCAGTCTACTCTTAATGGCACATTAGGCTTTGGACTTGAGGCCGTGTC
TTTTACATTTCGCAGCAATCAGAAGGAATGGGGTCGCCCCATGAACTTCTTAACCACATACAGGCTCGTGGCGTGGGGTCTTCATCTGGCTACTAGATTG
TTTAAAGAAGGATTTTTGTGATTCTTCTAGGCTGACACATTGCCTGTCATCTGTTGTTTTTCTAATCTTCTAGTAAACATTTGGAAAGTGAAGGTTTAGG
CATGTATGTTTCTCTTATGTAGGAAGGGGAAATAAGGCCWTGAGATTGCATGAGTTTTCTTTCCAAGTTTGTGCAGATCTGCACAATGATTGAAATATTT
GCAACCTGTAGAGCAGCAGGGTATTTATTTGGCAGCAAACAGTATTGATGGATTCGGGGAATGCCATTTGACAGTTACAGGCTCCCGTGAGGCGGTGCAG
GCTCCTCCGAGCCAGGGATGGAGCTGGGGATTGAGTGACACAAGACTCTTTGGGTATSTCTCAAACAATATAAATCACCAGCAAAATCTCACTCCTACAA
GGAGAACCTGCAGGGAGCTCCGTGGGAGGCACTGCTGTTTACTCTCCTCATTCCCCACTGCAACCACGCAATTAAAACCAAGGAATGGAATCTGATGTCT
ACCGCAGCGGTTTTTTCCATCTCCATTCCTTCTGCATTGGGAGGCTTAAAAAAAAGAAAAATTAGATCCCAGATTCTTTATTCTTTTGGAAGGATTTGAA
ACGATTATCACTCATGCTCTGCTGCTTTGAATGGAAAAGTGATTTGATAACTTTCAAAACTCTTAGCCTTCTAAGACTTAGATTCTGGTACTATCTCATT
TATGTGACGTGGGACAAATAGCCACTCTCTTGCATAGGATTTTCTTTTCTTTCTAGAAACAGGAACTGAGTATGTTTCCAATATTTTTTTATTTCTCCTA
AAAAACATCAGAGACTATATATATAAAATCTCACAAACTTTGTTTCCCAGAAAAACAACTATATTTAAATGCAGCTCATACTGTATGTAAGTATGATGTA
GGAAAATCTGTTAATTGTGTGACAATTATGACTTGCTGAGCTGCTCATTTATTAAAATATTCTCCCTATAATTAAAAATATTTTATTTCCGGAGACATGG
CTCCATTAATTGCACATTTCCTANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTGGGCATGGTGGCAGGTGCCTGTAATCCCACCTACTTGGGAGGCTGAGGCAGGA
GTAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGTGACAAAGCTATACTCCATCTAAAAAAAAAA
ATTAGTTATCTCTGCCCTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGGTCAGGAGTTTGAACCTAGCCTGGGCAACATGGTGAAACCCCGTCTGTASC
AAACATACAAAAATTAGCTGGGTGTGGTGGCGTGCCTGTAATCCCAGCTATTGGGGAGGCTGAGGCAGGAGAATCACTCGAACCCGGGAGGTGGAGGTTG
CAGTGAGYCGAGATCACACCACTGCACTCCAGCTTGGGAAACAGAGTAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAGTTATTGATTAAAATTTAAA
TATAAATTACAAGTAATAATGAAAGTATGAAATTTTTATTGATTCATAAATATTTGGTTTTAATCAAATATGATGTGAAGCTTTAAGTGAAATTATTGAT
ATTCGAAGTTTTTTTTTGAATGTTTAAATCATTTCACATTCACATTTTTTAAGTAAAATGAAACAACTTGACATTTTAGCATAGAATGTTTATATGGTGG
CCAAAAAAGCAGATTGGTATCATGCTTTATGTGTGTTCATTCTAGTCCTGCACGTGTAGAAATGTAAGATTTTAATGTRTGGTAAGGTAGATAGATAGAT
ASATACATACATACATACATACATACATACATACATATAAAATTAGGTAAGAGGATACTTTTAATGTATGGTAAGCTATGATTGCACCACTGCATTCTAG
CCTAGGCGACAGAGCAAGACCCTGTCTCTAAAAATAAATAAATAAATAAATAAATAAATATTTTGTAAAAGGTATCATAGCTGTATAAAAAGAAAAGACT
AAAAAGAAAGCCACTCAAATTCCATTTCTCTTCTGCAGATTTTTTTTTAGTTTTGTATTTCATCTGTGATTGACTGTGTATGTATTTTTGCATATATACC
TGCAAGCATTTGTCCTTTTAACCTTAGGAAAAAAAGTCTGATTGCAACTACGTGTTTGGGAATCAGGGAGACTATGGAAGAACAATCTCAGATCTCAGCG
TGAGGCTCCACTTGCAATATCACAATTTCTAAAACATGTTGTATGTGGGCCCATTTGCCATGTGTGTGTGTGTGTCTGTCTATCTATCTATCTATGTATC
TATATATATATATATATATATATATATATATATATATATATATAGTTATAATGTGGTGGGTTCTCGAATCACAGTTGTAATTCACATTTTTCTCCACCAA
TTCTGATAACTTGCATTAAGAAATTGACTGTGTAAGTTAAATTTTAGATCAATAATGCAAATTGGAAGACCTAGTACAGGCCAAGGCCTCATTATATCTG
AGTAGGGCTTTAAGAAAGCAAGAAAGAATCGCTTGAACCTGGGAAGCGGAGGTTGCAGTGAGTTGAGAGCATGCCATTGCGCTCTGCTCCAGCCTGGGCA
AAAAGAGTGAATGAAACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAGGAAAGAGGGAAATATACATCCTCCTATCCAGGGTGAATTACAAAT
AGTACCAGTTGGTTGTAAGTGGATTTAAAATTACTTTTTACTGCTAATGGGGCATCTGTCTTCATTCAACAAATATATTTCGGTCTCTGTTAGATACAGT
GTATCTCTGTTAGATACAGAGCATTCTGTTAGATACAGAGAATCTCTGGTAGATACAAAGTATTCTGCTATTCTGATCTTCCTGTTAGAAGATCAGATTT
ACAGAAGTCTACATTTGCTCTCAAGGGACCTTCAGTCTGTTTGGAGCAATCTCTTTATTAATTTATTTATTCAGTAAATTTTATTCAGAACCAGCTATAT
GGCAAACCCTAGTCCTTATGCTGAGGTTTCAGAGATGATAATGGGGGCAGATGCAGCCATTCAGTTGACTTCCTGTGGACACCAGAGATGACAGGCCCCT
GTCCCCAGCTTACCATCCAGCATATAAGGCATATATGCCCCTTTCCATGAAGTATAATCTAATGAGAACAGTTGGAGAAGGTCAGGCAAAGGGGACAGGA
CAGGAACTCAGGAGGAGGGGATATTTAGACTTACAGACCTGCCCTACCTAAGGTCCCACAGATGGTCTGTGATGACAGATAGCCCCTGGACTGCTAAGAC
TCGGATCTTTAAATATAGGCCCATCTGGGCTGTGGGGAGGTGACAGCCTGAGAAAAAGTCATTCTTAGATGCCCTTACTCTGTTGATCATAAAAGTAGGA
GCTGAAATTCTCATAGCCTGAGAAGCTATTTGCAGCATTCCCTGAGGGCTTTGAAACACTATCAAACAACAAGGAGAGACAAAACAGTTTTTAGCCCTGC
TCAACTCTCATGGGCTTGCCTTATTTTTTCAGGGCATGCTCTGTCTCCATCCCTTGGCTCTGCTTTCCTTACATTGGTCTTCTTGGGCATCCGTCTTCCA
TTCCATAGTGTAGCAAGCCAGAAGCTGGGGGAAACATGGTGCGTGCCTGTAATCTCAGCTACTCGAGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGA
GATGGAGGTTGCAGTGAGCCAAGATTGCACCTCTGCACTTCAGAGCGAGACTTCCTCTCAAAGAAATAAATACACTGTGTCCTCTCAGCAAGACCAGGAC
AACAGTGATTCTCTTTCCTCAAAGTTCCAATCAGTGCCCAGGGCTTCATGCATATTGGACAGACCTGAGTCATGAGGCCATCTCCGATTGGTCCATCCAG
GGCCATGTGCTCACCCCTTAATTCAGGATGTGGGGTCCGGCTCCCCTGAAGTGCACAGAGAAGAGGGGTTGCCCAAAGGTGAATGGGGAGAAGGGGATAT
AAGTGCAGGACAGGTAAGAACAGCAAATGCTCATTAACACCATGCAGTGATGAAACGCCTCTTAATCAACCCTTGCTGGCTGCAGTTGATTTGTTACTTA
CCGTGAGGTTATCATAGCTTTGCAGAGACTTTGTGATGGGGCTGTCAACAGAGAGAGAGAGAGAGAAAGAAAAGAAAGAAGTGCCACCAGTCCATTTTGT
TCCACTCAAATGTAGATCGTAATTTTTAGGTTTGTAATTACTGATGAGAAGAATGCCTGAGCCAGAACTTCCCAGAGATTTATCTGCCACTTACCTGGAG
TAAGTAGAAAGGATATCAGTTTTCCCCAGTACACCTGCCTCCAATGAAGCCAACTCTCAGGCTCTAGAAGTCTCTGCCTTGGGATGGATTCACCAGTGTG
CTTCTCAGGCTGGCCAGTGTGGAAGCAGCCTTGCTGTATTTCATCCTTTAAAAATACAGCCTGCTTGCCATCTCACGACTTTTCCCTTAATGCAACAAAG
AAATATGTGTTTGGCTGTGAAATCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCTGTGGAGCGCAAAATGTTCATTTATCTCTGGATGGTTTGTTTCTGG
CCACCTGCCCTAAGTGTATCTGAATATTGTAACGGTGATCACTTCTTGAGTCTTGGTCATTACGAAGTGACATTTGGCATGAATTTGCTCATCACCACAG
AGGGCCCCAGGGACCCACTTGGGAGAAGGTGAGTTATAGCCCACAAGATAACATTTCTCCTGGTGACTGTCCTGAAAGCCTACTTTGGGCCACCACATCA
GTGTGTTGGGAGATGAGTTAAGAGGTTTTATTCTTATACATGCGGAAGAATTATGCCTTCTTGAGCCATGCTCAGGAGATGTCAGCCTTTTCCATTGTCT
CCCCGCYCCCACCGCCAGCCCTGCTTAAATTATCCCCTCTTTTTAAACARAATATCCTAATCTTGCAAGTGGCATATCATGTTCCTTCTTTTTTAAGAGA
GAAGGAGAAATTCCTGCAGATCATCAGGGACTGAGGCTAACTGAAACTTTGGAATGGATACAGTGCTACTCTCAGCTGAAAGCACAAATCACTTCCATCA
CGTATATGAGAGACCTCCATGCAGCACTGCAGAGGGGTGATAAGCAAGAGTTGATCGATGACAGAACACCCACCCAATTTCTTGACTCATTCTTCAACGG
GCAGGGTCTATACATGTGGTATGGCTGCAATGTTTGTTGATAACCCCTACATTCACAAAACGGGCGCATGGGAACTTGTTTGCTGCCTTCTGCCATGTGA
GGACACAGCAAGAAAGCACATACAGGAAGTAGAGATGGAGCCCTCATTAGACGCCAGATCTGCTGGTGCCATGATCTTGGACTTCCCAGCCTCTAGAACT
GTAAGAAATCAGTCAGTATCTTTGTTTCTTTCCTTTCTTTTTCTTTTTCTCCTTTCCTTTCTTTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNCCTTTCCTCCCCTCCCCTCCCTTGCCCTTGCCCTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTCAGACAGAA
ATCTCACTCCGTCGTCCAGGTTGGAGTGCAGTGGCACGATCTCAGCTCACTCCAACCTCTGCCTGCCGGGTTCAAGTGATTCTCCTTCTTCAGCCTCCCA
AGTTGCTGGGATTACAGGTGCATGGCACCATGCCTAGCTAATTTTTGTATTTTTGGTAGAAACGGGGTTTCATCATGTAGGCCAGGCTGGTCTTGAACTC
CTGACCCTGAGGCCCACCTTGGCCTCCCAAAATGCTGGAATTACAGGCATAAGCCACCTCACCCAGCCAAGAAATTAATTTCTGTTGAATGTATGTTGTT
ATAGCAGCCTGGATGGACTAAGAATCATGATGAAAAGTTGGGTTGCTTTCATATTTAGAAATATCTTGGAACGGGCAGGCGTGGTGGCACACGCCTGTAA
TCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCATGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAA
AATTAGCCGGGCGTGGTGGTGCATGCCTGTAATCCCAAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAGTCTGGGAGGCGGAGGTTGCAGTCAGC
TGAGATTGTGCTGTTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCATGTCAAAAAAAAAAAAACAACAAAAAACACGAATATCTTTTTTTGTCAGCT
CCATGAGGGCACAAAGTTGTATCAGCTTTTTTTTTTCACAGCTGTGTCTTCATCCTAAAATAGTTTCTAGCACAGAACAGGACTCAGTAAGTTATTTGTC
AAGTAAATAGACTCCTTAATAAATTGTCTATCCTGTATCCAGTACAATGCTTGGCCTAATATACATCCAGTTTCATTTAATCCTCAAAACACATTGATGA
AGTGGGTGTTAATCCCTATTTTACAGATGTGGGAATTGAGGTGTAGAGCTGTTGAAGAACTTGCCCAGGGTTGCAGAGCTCTTTCACAGGGGCAGAGCAT
GGGCTGAACACCAGACCTGTCTCACACTAAAGGTGAAACAATTTCCCCTGCATCAAACTGTCTCTGATATGAAGGGTCTACACACTGTGGTTTGAAGGTC
AGATGTGGCCTGTCATGTTTTTGTACAGCCCGAGAGCTAAGAATGGTTTTTACATTTGTAATTGTTTGGGGGAAAAAACCAATAGAATAATGTTTTATTA
CATGTAAAAATTGTATGAAATTCAAATTTCAGTGTTCATAACTAAATTTTAAAAACTTTTATTGAARTTCCAGAGAGATCTGAAGTAGTTTTATTGGAAC
ACAGCCCTACACACCTTCATTTATAAGCTATCTGTGGCTACTTTTGCACTATGCCAGCAAAGTTGAGTAGTTGGGATGGAGACTRTATGGCCCATAAAGC
CTAAAATACTCTCTGCTCCTTTCCAGAAAGCTTGGCAACCCCTACTATCATCTCCACGTCTGCCTTTGTTCTTCTTATTTGTCCCTTCCCTCTGAAGGCA
GGATAGCATAGGGTGACCATAAGACTCTCTGGAACTAGCCTGCTTGAGTCTAGTCTTGGCTCTGTGCTGACTACCTGTAGGGATGTAGGTGAGCTTTTTT
ATTTTTCTCAACCTCAGATTCCTCATCAAATGGAAGAAATAATGAGTATCCACTACCTTGGGTTGTATGGAATGAACCAAGTTAACTTAGCTAAACTCAT
CGCTTCCAACATCGCCTCCTATGTAATAAGTGCTTGATAAATGCAAGTTCTATTCTTCTATTCTCTCTCTCTCTCTCTCTCTGTCTCCCTCTCTCCCCCT
CTCTCTCATAGTGATATGGTTTGGCTGTGTCCCCATCCAAATCTCAACTTGAATTGCATCTCCCAGAATTCCCATGTGTTGTGGGAGGGACCCAAGGTGA
GGTAACTGAATCATGGGCCCCAGTCTTTCCCATGCTATTCTCATGATAGTGAATAAGTCTCACAAGATCTGATGGGTTTATCAGAGGGTTTTGCTTTTGC
TTCTTCCTCATTTTCTCTTGCCACCAGCATGTAAGAAGTGCCTTTGCCTCCTGCCATGATTCTGAGGCCTCCTCAGCCATGTGGAACTGTAAGTCCAATT
AAATCTCTTTTTCTTCCATGTCTTGGGTATGTCTTTTTCAACAGTGTGAAAATGAACTAATACACATAGACACATACACACATGTACCCACACACACGTA
ATTTTTGTATCTAAGAAAGGGGAGAAATACTTTTTAGTTGTTCTTTCTGCTTCATTTATGTGTGGAGTGCTTAATGTGGTCACACGGATATTAATTGCAT
GTTTTCTTGTTTTATAATTAAGAAATAAAAATGAATCACTCTGACTTTTCGCTTCATTTTCTGCATTTGCACAATTTGGATATTTTATTTTGTAGTCTAT
TAAAATGTGAAAGTCAGTGTAAAGTGTCAGTAGCTTTCATGAGTGTTCTTAAAGGAAGGCCATCTGATTGGAATGCATTGTATCTGTCCTTCCCTCTTGC
TGGGGTCAGCCCAGGACTCGAGGGGAATGAGCCCCTGAGGAAGGCTCAGTCCTTGGCAGCGAAATCCAGGCATGGAAACCAAGCCTGAGACATGAGCTGC
AGGACATCTGACACTGTCTTTTAAGAGACCTGCCTGTGAGGTCCTCATCCTGCTCCCTACACTGCTTCAGATCCACTTGTCCACTTGTAGTGAGGGATAG
TATCTGTTCCACCTGATTGATTGATTGATTGATTGATTGATTGTGAGGCAGGGTCTCACTCTCATTGCCCAGGCTCATCTCTGCCTGCCGGGTTCAAGTG
ATTCTCCTTCTTCAGCCTCCCAGGAGTGCCATGGTGCAATCTCAAGTCACTGCAGCCTTGACTTTCCAGGCTCAAGTGATCCTCCCACCTCAGCCTCCTG
AGTAGCTGGGACTATAGGTGCGTGCCCCCACGCCTGGCTAAGTTTTTGTACTTTTAGTAGAGACAGGGTTTTGCCATGTTGCCCAGGCTCATCTCGAACC
CCTTGACTCAAGCGATCTGCCTGCCTTGTCATCCCAAAGTGCTAGGATTACAGGCGTGAGCCGCCGTGTCTGGCTTGCTCCACGATTTTCCTCTATGAAT
TCCACCTTTCCCATGGTGGGACCAAGGCTGGAAGTACTTCACAAAGGCTCCATTTGAAAAGTGGCTACAAATAAAAGGGAAAATATAGTATTCCTTAAAA
AAAAAGTAGCATTCTATTTTTCCCCATTGGTAAGTAGTACAAATTTGAGAAAGTGTAAATTTGAATTCCTTAATAATCAGATCTCTGCAATGTGTTTTGC
TTTTATCATCCTGGGTTGCCATCTTGGCCAAGTGTAGATTATTCTGCTCAGGGTAGCCATACTGAGATCCTGGTGTGCACAGGAAAAGAGCTAACCTTTG
TGGATGAAATTGTAGAGTCACTACCTGCATTTGCTGTAGCTCTTACAATTATTTTATTCTTGGAAGACATCGAGAGCATGGTCCAAAGCTGCATAGGTTG
CAAGTGGGTAGAGGCAGAATTTCTCTCCAGGCCTGGTGGATTCTAAAGCTGTTTACTCTTCACCCACCATTTCCTAGGTCTGGTTTCTTGGTTAAATACG
TGGAAGAGTGGATGGACAGAAAGACAGATTGATCAGTTCTCCACAGGCTTCCCCAAACTGGCCAGGTAGAAATAAGCTAAGCAAATAAATGACTTCCCCA
TTTTATAATTTTCTGCAAGTCACATAAGCCTTCATGTTGTTTATTTCTTGGTTTTAGATTTTTTTAATTATAAAAGAACATTATTATACATTATTTGAAT
AATTTTTTAAAATTATAGAGCTGTCTAAAGGAGGCATTAAAAAAACCCTTTCTATTCCTTCATCTAATTCTATCCCTCTGAGGCAACCATGATTAGTATT
TTGTACTTCTTGTACATCCTCCTTCATGTTAATATAGATGTACACATATATAAGATTTTGTTCTCATTTTCTGAAATAAGTGGACACATACTCCACCATC
CCCAGGTAGTGTACAGTGTGTGCCCTTTCAGGCTAGTATGTACAGCTTTAAATCATTCCTTTACAGAGCTGTGTAATATTCCACAACCCAGAGGAGCAGC
TTGAAGCCAGCTAAAGTATGTATATCCAAGTGGAATTAAGAGCTTCATGCGTAGTTTCTTGATTTTGATTAAGAATCTTTCTTAATAGATATGTCAGACG
TGACTTTATGCTGCAAGACATAGCATAGGTAGAAATTTTTATGTCACAGGTGGGCCTAATTAACCTTGATTAATGTTCTGCAAACCCGGATAGACTGGAG
ACTCAGAAAGGGACGCAAAAGCTAGYCTGGTTCCCATGTTAGTCCCTGCTCTGTGAGCAGCTGCCACACAGTCATGCTGATGGCTCCTGCAGCAGCCATT
CTGGTTTGACTGTGCTCGTGCTGCCCTGTGACATATTGTTTAACACAGTGAGTTATGACACAGGGAGCGAAATCAAGACTTCAGCCACCGATTTAACAAA
CTGGTGACTCGGAGATCAGCAGTCCGGCATTGCCATCCTCATCAAAAGCTCTATCTTTATCTAAAATTTATTAGCCAACTTCAAACCTGTTTGCCAGCTC
ACTAATGGAAGCCTTTTGAATCAATTTGCTCCTCTAATTTAAACAGCATTTCAATGTATATTGTCGAAGCAGAAAGGAGTTGCAGCTTCTGGCCAGTAGA
ATTAATTATTTATTATCCTTTTCATAAATACTTTCCGAGGCCGACATAACTGAAAATTGCTCGGGCTGTTTGAAAACACACACACACAGTTTTCCAGTGG
CTAATTTGAAAAATGTCACCGTATTAGTTTTCATTTACATCTGTCAGGAAACATATCTATACATAAGGAAGTTTTTTTTTTTTTTTTTTTTTTTTTACTT
TCACCAGGTATTTTTTTGTGGAGTATGCATTTAATTCACATTTACAAATTGGTTTCTGTTTTTAACTAAAGGTACTTTTTCAGCAGAAATGATGTGTATG
ATGTCATATCTAACTTKTGATCTCACTGGTATTTGATGTTAAGCCTCAAAATCATCAAATTTTTTTTACGGCACTGAAAAAAATACATAAATCTGCTTGA
TTGGTTCATAGAAAAAGACCCCTGTGATTAAGGTAATGCTAGTTTTTGCATTTTCTCCTAGCTGTCATTGGTTGGACACAGTGATCCTCGGGTCTCTTGT
GTTTTCACATGTCTTGGGAACAGAAGTGCTGGCAGCTTTGGTTTCAGGCCATCTTTCCAAGGAACGTTGTCTAGCAAAGAAACTTGCAAGGTACAGATAG
TGTCTCCCTCAGGAGCAGAGGACAGGATGGCTTTCTTTCCAGTATAATAAAGACAGTGCCTCCTTCCAGGACAACGGTTTGGCAGATTTGCTTGATAAAG
GTTGGGGTTTSTAAGCTTGGGGCTCYTCAGCCATGACTGAAACGTACYATGAGCACGGCATCTACCGGGCTGTTCCACATCCTCCCTGTGKGACTAGGGG
CCAGGGCAATGGGAATCAGTGCAGAAATAAAGCTCATGCTGTTTGCTSTGCCATGAGTAACGAAGTCCTCTRTATCTGATCCTGGGTCTCCTGTTTTCTG
CTAGCTTCCTCAAAACTTGGTAGCTAACTCATTAACTTACAAGGAAGAGGKTGAACGTGTAGACCCTTCACAGTTTGAAAAATCACCTGATCAATAACTG
AGATTATGAAAAGGTAGGAATGAACCAATTATGGCCCAAAGGCTAACTCCAGCCAGTAGCCTTTTATTTATGACCCGTTAAAAAAAACAAAAATGAACAA
AAAATCCAAAGAAGGCTGTGTGCCAGAGACGATACGTGGCCCGAAGATGAAGGTACTTAACTATCTGGCCCTTCACAGAGAAAATGTGTCAACCCTTTCC
TGTTTGCGTTCAGGTCAAATAGTTGCATTGAAAGGCCTCATCTTACAAATGAATCAATATTTAGTGGTTTGAAAATATGTTGTTTAATTTGGGGCGATTC
AATATCAAATTAAGATTTTTAGGTTTATTTATCGATCTYTAGAATTACATCAACATTAAGCTAATTACTTTAAATTGTGTTTTTAAGTAACCAAGAATAC
ATCTGTGGACGCTGTTCTGTGCCATCTTGAGTCACGTTTTTAAAACAATTACCTTTGATGATTTCGTATGTTATCCCATTCACAGATGGTTTTTTTCGTC
CACCTGAGTTTCAAATCTGTTGTAGTCCTGGAAATTTTGCTTAGGTTGAAGGAATGAGTGCGTGTATCTTGTCAAAGGAAATCACAAGCCCATGTAAACT
CGCTCTTGCTTCCGTCACCTCGTGCTTTGAAACATAACCACAATGTGCTGAGGTTTCACATTGTTACATCCTACAAGCGTGCTTACCTGCATCACCTTGC
TGGGCTGTTTCAGCATTGGAATATCACTGGGAATCTCAAGTTCCCAGGAGCCAACCACAAGAGCTTCACAGCTCAGAATTTTCAAGATGTGGATGTAGGC
AGGGAGCCTATGTAGTAATTCAAGTAAACATCTCTTCTTCTTGTTTTCCTTATAGGATGATAGAAGGTCAGTGCTTGTTCACCCCAGTGAGGTGGAGCCT
CTGAGGTGGGAGGTTTTCTCTCATCCTTGAGTTTATCTTTACTTCCTGGTCATTATGCAAGTTAATTTTTCTAGCAGTGAAAACAGTCACATGGGACTCT
GCCCAGCGAGGGCGTTGGGAGGCCTGGCGGAGAAGCAGTTGTAGCATCGTCCAGCCTTCTCTACCTAACAAGGGAATATGTGAGGTAGGGTAGGACATTT
TGGTAGCAGTCACACAGCCCAAAGAGCATGGTGAATTTAATTAGTCTGCCACACCTGTATGGCCTTAYGTTTTCCGGGATAACTTAACAAGCATTGTGTG
CAGCCAGGTCAGGCAGATGGAGGTTCTAATCCAGGCTGCACACCTCATCAGCCAGGAGACTACAGATAAGTCAGCCAAACTTTTGGAGTAACAAGTAGCT
CATCTGTAAAACGTGGATGTTCCAATTTATGTATAGCCGCATAATACATTACCCCAAAACTTAGAGGCTTAAAACAACAACCATTTTGTTTTATCTTGTG
ATTTCTSTAAGTTRGGGCTCAGTGGAGTGACTCTTCTGCCCCTTGTGGTGTTGACTGGGGTCAGTCAGTGGTGCTATGCTGGAGGATGAATTGGACTGGC
ACTTCAGCTGGTCCAGGATGGTCACCCATGGGTCTGGCACTTTCACGAGGATGACTGGGATGCTTGGCTCAGCTGAGGGACTCTTRCCCAGAGCCCTACA
CATGGCCTTTCCTGCATGGCAGATATAGGGCCATCAGATTTCTTACATGGTGGCTCAGGGCTCCCAGAGGATTCCAAAAGAAAGTAACAGGAAGCTGCCA
GTTTCTTATGGCCTGGCTTAGGGGTTGGCACAGCATGACTGCTGTGGACTAAGCAGTTACAAAACCCACTCAGATTCAAGGGGAGCAGACATACACCTCA
CTTTCTTCTGGTAGAAGTGACAAAGAATTTGCAGCCATCTTTATTCCACCACAGCAGGTAATAATAGCATCTCCCTCATTACCTATAGAATAACTCCAAA
CTTTCTGATGATTAAGTGAGATATCATGTAAAGTACCAAGCACCTTGGATAGGCAATGGGAAATGTTCACAACGTTCCCATTTTTACCTATAACAGCAGT
AGCAATAATGCTAATAGTAATGATACTAGTAATAAAATCAGGATAATGCTGTTTTTAATTCACCACACTGTATGCCATTTGCTTAAAATCAGAAAGGACT
CATCGGTAAGGAGTAGGGTGGTAGTATCATTTTGGTCTGCCTTTCACCCCCACAAGACAACATCCTTAACAGCAGCTATGTTGAAGGTTTAGGAGTGCTT
GTCATTAGGGTCTCATTTCCAAAATCTGGGACATAATAATAGATGGTTACTGATTACAGGGATTTTTGTTTGTTTATTTGTTTGTTTGTTTCTTCTTGAT
AATCTCTTTCATTCATCATTCCTTCATTTCCACTCTTCTAATTCTGGGCATTATATCTTTGTCAGAGATAGAGTCTTTTAGCTGTTTCTTCACCTCCCAA
ATCCTTCTCAAGTCTGTTCTCCGCCTGCTGTGCCTTCCTATAGTGTAGCTCCAATTGCCTTCATCCTTAGAAGACCTTTAATGATATCCTATGCCAAACT
TCCTAGCCTCCACCTGTACCCTGAATTGGCCCTAGCCTAGTTKTCCAAACTTTATCCCCAGGTGGTTGAACTTTCTAAGTTTCCCCAAGCTGATCAGTGT
TTTGGGGTGGTATGGAACTCAGAATAGATCACTTTTTTTATTGACTAACTCTGACCATAAGTATGCTTCTGTGCGAGCCTGACCTCCACGGTACCAGGCA
GAGAACAACATGTATGCAGAGAACTCATTCACTCAATAAACATTTATTAAATCCAAGCCATGGGGATCCATAGGAGGAATTTAGAGCAGAGTTGTCGAAT
GGTCAGATTTGCCTTTCAGAAGACCGTTCTGGCAGCCATGTGAGAAAGGAGGGTGGGGAGACCTGCTGGGAAACAACTCTAGTCACCCAGGCACGAAATG
ATGAGCCCTTGAGCAAAAGTGATTGCAGTGAGTACAGGGAGGAAGAGGAAACATTTTGATAGATACTTGGTAAAATCAACAAGATTTGGCCAACAGCTCT
GAAGGGGATGACAGGCGTGGTGAATGGAGAAGGAAGGACAGAAGGCTAGTTTGGGACTTCTGGCTTGGACAGTGTATTGTGTAGTGGAACCATCGCTGAA
GATAGGAGGAGTCCTTTTCAGTCATACTGAATTCATGACGCCTGTGGGGCACCCAAGTGGAAGTCATCCATTGGCACCTGGATTTAGATCTGGCACTCAG
GAGGGATGGACAGGATAGACATTGACCAGACACAATTATATTGGCATATTTGGACTGGAGAACCCAGCATCTGACTTAAAGAGTCTGCTTCTCTTCAAAA
TTGCTTAGGTGTTTTCAAACTACAAACAAATACACTCCCAAAACCTCAATAGATTCTCCCAGTATACCCTATATTTTGGCCAAACTGGAATCACATCCTG
GTCTCCCCAAACACTGCTTGCTTTTTGTTCCTTTCTTGCTCTTCCTTCTGATTGCAATGAACTCCCCATTTCCAGTCCCCATCCTCCAATCCCTTCATGT
CCAGCTCCTGCTCATCCTTTGAAACCCACTGGATTTTAAGATTCCATCTGACAAGAATGATCACTGTTCCTTCCAGTTCTTCAAGCACTTTTTCTGTTTT
TGATGGGATTTATCACTTGAAAATGCATATTATAGTAATTTCTGAATTCATCCTGATTCTCCTACTGGTTTCTAAACTCTTCAGKTTAGAATTCCTGTTG
RATATCCCTCTGGCCYGAAATTCCTGAATGAGTTAAGCAGGACACCTAGAACTATGCAGAGGTAATACCTTCCTTGACCTGTCCCTTTTCTGGGTCAGTT
TGCCCTTCATGATTTCGGCAGGAGTGTGTCTCCTTCCATTCTGGTGAACACATCCAATGTTCAATGTTGCTCATCAGGGTAAGAGTTCTAAGTCCCTATG
TCTTAGAGACAGGGGTTATCTAGCTTTGTCTTCTGCATTGGCTTCAGGCTTCACATCCTTCCTGGACATGTTCAATGCTGCTTTCGTTTCTTGGGCGAGG
GCCCTAGAATCACCTTAGACACCTTGCTCTAGACATGGCCCCATCGTGGTATTCCCTTTTGAGAAGACAAAGATTTTAAAAATTCTTTCTCCCTTAATGC
CTCATGAATGCCCAAGCAGCACTTCATGGAAGTACACTGAGTCTCTACTGCTTGCAGGGATTAAACATAACATTCTCAACAGTGGTAAGAGAGCCTTTCC
CTTCTCTTTGGCTCGTTTTCAGTTTTTATTAATTTCCTGTGCTTCTGGTTCATGAATCCCAAGTCATGATGTGAATCAGTTCAGTTCAGCAAGCACTGAG
CTCCCACGATATAACAGGTTTTTTTCTTTTCCGAGCTGTGGCCCATGCAGAGTTTACTGAGACTTGGCTCTTGCCTTTATGCTTTAAGGATCCTAAAGAG
AAGATGTAATTATAAGATCTAAAACGTGGAGGGGGGTGGTGAATTCAGCCTGCAGGCATGTGTTTGCTGCCCCCACCCCCACATCCYCTTTTTTTAAAGT
TCGCATAAAAACCTGGATTCTTGGTTTCTCTTAAAAAACTGGAAGGTCTGGCACCTTTGCTCCCACATTTCCCGGGCGCAGCCCTTGACTCACCCTGTAC
GGTGGCCGCCCCAGTTGGATGATGGGGCTTGTGCCCACCGGGTCAGCTCACACCAACCAGCCCCTATTAATTTATACCTGGCCCGCTTTCCAAATTGACA
TTACCTGGCTGGTCCGTACGCATCCCCTGCAGTAACTGGCTTTCTGGAGGTATGTGCTGAGGATCTCTTTGGCTTCTGCATCTCAAAGGATGAGTGATTT
AGCCAGGTGGAGAGGTTGGGGCGGTATCCTGAATGAAAGAATAGCGCAGACAAAAGTAGTGAGTTGAAAACAGAACAGCATGGCAGGCTCCCAGTAATCC
CATGAGTCACGTGTTCTGCCCACATGGAATGGATGGTGGAGAAGGGAGGAGGGAGGAGGTTGGGCCAGATTAAGCAGATTGTCCCCATTGGTCCATTTTT
AAATCTTCCTTTTGGTATTTGTCCCTTAAGGCAACACTTTCAGTCTCAGAAAAAATCCAGTAAAGGGCAAACCAGTTTGGGTGAATTTCTTTGTTTTTGC
AGCATGTCTGGTCCCAAAGTGGGACCTGGAGTCCTTCCGACGAGGAAGTGCAGCCTCTTGTCGAGGAGTGCACTGGGAGGGGAGGCTGGACTTCTGGGCT
CTGCTCTGCCTCTAATCTGCTGCCCAGCATCAGCCTTAGCCCAGACCCCCAAAGTTCCTGGGCTTCATTCTGCTTTGCATTCATCTCAAAGTTAAGCCTT
CTGGCTGGCAGGGGTTTCTGAGACAGACTGACAGTATTAGCGTGCTGCAGTTTCATGATGGCAAGAAGGAGGTTACCAAAGCCGTTTTCATACACCTTAA
CTCATGAGTGGTAGTGAGTGGCCCCAGGTGGGAAGCACAGGTGATTTGGAGCTGGCTAACCTCCTTCCTTTGGCTCTTACTCTCACCAGCTCTTAGACTT
GGGGTAGGTTAGTTAGCTCCTCCCAGCCTCAGTTTCCCTGTTTGTCAAATGGGGTCATAGAGGGTGAGAATCAGAGTTTATGCAGGGCATAGCACTAGTG
TAATGCTGGGCAGAGAGTGAGCATCCAGCAAGTGGTTTTGACAATGATAATAATTATAACCCAAGCGACACATACAATTTAATCAGGCACTGTGTGTCCA
CAGCGATGTCAAGGAACAATGCACAAAGCAGAGTTTTTCCAGTCTCCTGATGTTTGAGCCCTGCGCGAGCCCCACTCTTCTCCCTTTTCTCATAACTGCT
GTGAGCAACCTCAAATCCTTCTGGAAGTAGGTTGGTTATGAATTATGAATAATTAAAGAAATAAACTCTGGCTCTGCAGCTGAAATTGGGATCGCATGGA
GAAAATAGAAAGTCCAGTGTTTGTAGCTGTGATCTCTCAGTTGCTTGCATGAATTGTGCTTTAAGAYTGTAAAATTTTAGCCCATTAAAAATAAAATCTG
TTGCTTTCCACCCACACCTGGCAATTTGGTGAGGGACGGGGGCTAGGATATTTAATGTCTGAAAGTTTTAGGGAGGCTTTTATGAACTGGGCCATCTCTC
CTTGTCCCCATTTTTCTTTGCATCTCCGAACTCTCATTAATTTTTCACAGGCTTGTGATGGATAGTTTTTATTTATTCACGTCTGAGATTCCGTTGTGTG
AAAAGGACTCATTTTATAACATTACATATTCATGGCTTGGGATGGATGGGATAAGGAACTTATTATTAATGTGTCACTGTGGGAAACTTACTCTAGTTCA
TTTGCGAACCTTGTTAAATTCGGTGTGGTCAGCAGACCCGGTGAAGTTTTGGATACATTCTCTTAACAGAGGGCAAAGAGTTTGCTGTTGCTTTTCCTTG
ATTCAGTAAAACAAGTTTAAATCTTATTTAAATCGTTTGAAGTAGCAATTTGAAAGGGGAGGAAAAAAAGGGGGATGGCAGAGATTAAGTAGAGAGAGAA
GCTCCGATTTTCTTGTTGAATAGCCGTGTTTCCTCAGCATTCTGTAGATTTTTGGCCAGGTTTGTGTAAGGGATGAACGACTCTCTATAAAATGATGTMA
GGATCCTTTCTTTCCTGCCCATTGCCATTTCTAGCATTCTCTCCTTGAGGGAAGTTGCAGTTTTCTCCCTCTGTGTATTCATCCTTCTGACCTGTGCTCC
GGATTCCAGGGAGTTCTCAATTTGGAGCTCATACCGACATCACAGAATTCCTTGCCTGGGACAAATAGAGGGAATATTAACATAGCATCTTGTAAATCAA
AGCTGGGCAGGGGGTGGGGGAGGGCACAGTGGGGAACCTGGCCCAATCTGCTTCAGTGTGAGCTTGGTAAGAAGGAAGCATATGTTGCATTTAGTTCTCT
GCAAAGACAGGCGCTGCTCTCTGGCAGGGACAGCGTGTAGGGTTTGCATGATTTGTGGGGCCGTTTCATGTTTGCACGGTTTGGCTTGGCTTGGGACTCT
GCCAGTGGTCACTGCAGTTTAACAAACTCCCCCCGGGTGTGAAGGAAAGCGAGATAAATGCAGGAAAAAGGATACATTTGTGAAATCTGGAAATTTTACA
TAACAGGCATCAGATTTGAAGAATGTCCAAAATATTACGAGTCATAGCACAACCCTTTGCTAACACCATGGAAATTTTTAAACATGGAATTTGTTAATGC
TGACTTGGCCCACCATGGGGTTAAAAAAAGTGAATTTCTTTTTGATAACCAAGGTGATGATCTTATGAAGTTGATGATGGGGTGTGAACGGTGTGAGTGG
GGGACAAAGCAATGAAATATCCCTTAAAATGCATCCTCTGATGATGTTTCCATAATGCCAAACATTTGTTTCTCTCCAGGATCTCATTGGCGGTTTGCTG
GTATTATATTGCCATTTATATTGGAAAGGCAGGCAGTGCGAAAACTGTAGTCTATTAAGAGTTTGTGAGTGTGTGTATGTGTATACAGTGAAATAATATC
TAGTGTAATGTGAAGTGACAGTCAAAATTACAGCTTTTCTCTTGCCGCAAGGGTACTTCTCTGCCAAGTATAGTAATATTGTTGTAGCAGTGTTCAAGGT
TGTCAGCAATTCTGGCTTACTCTGCAGAGAGCCATAATAGTGTGTGGAAGGAAGGAGCTTCCTGTCAGGGGAAATACTATAATTTTGATATATATTTGTT
GGTGCCAAACTGCAATTAAATAGGAGGTGTTGGAAGAAGGTTTTATTTAACCAGCTTGAATTTGTTAATTAATTAGCAAAAACTTATCTTTGGAATGCTT
CAAGAAACAGTTCTATGTTGTTCTCATAACTTAATTTTACACAACTGTCTTTTGTTTGTATCTTACAGAAAACAAAATACCACCCTCCGCCAGAAAAGTG
CAGAATAAAAATTTTCCACTAGCAAAAGAAGGAAAAAATAAAAGATCTTGAATAGTCTCATCAATTACATCTTCTTTTGTGGGTATTTCCTGGTCTTTTC
ATGTTTTGACTTCTATCTCGGTGATCTGACAGACATGTACGATTTGCAACAACATCTATTATATGATTTAATTTATACCTTTATCAGTTTGCAGTTATGC
TTTACGACTCTTCAGGTGACTAAAGAAAAAGAGGGTGTTTTAAAGTGTGTGTGTTTGTGTGTGCGTGTACGTGTATACATGTGTTTTTCTGTGTACATAA
GTGTGTGTGTTTTAAATTGTTTGAAAAACACTAGTCCATCTCTATTGTATTATCTGAGGGATGCTAGCTCGTTACTTGGGATAGTAACAAGTTTCTTGGT
GACAACTCCTCCTCCCATTGTCAAGGAAGACTGAGGATGTCACCAGAGTTCGCTGTCAATGGCTATTCAGATGAAAAATACCTTCTTTTTGAATAAGTAG
AAAAACCATGGGGGATTGAAATAGCAATAATATATTAAAAGCTCCAAGGCAGTTATGTGTGAAGAAATAAAGAACAGAACAGAGAGATTGTGTTGTTTTA
AAAAGGGCTATTTAAGAGTCTTGAAAAGAGTGTGTGTGTGTAGGGGGACACCTCCCTCTCATATTAAGTATTTTGCAAATTAAATGAGTTTCATTCTCCT
ATAAAATATGAGTCTAATCACATTTTATATGATTGTAAAATGTGTCTACTTTTGTCTCTATCTTTCATGGAAAAAAGAAATATTCCCAAAGTATATTATA
AAAAATAATTAATAAGCAACTTTTCATCATTATTTTCTGAGGTTAATTATTACCCTAAGAAATCAATTTCAATTTCTTCAGTTTGAAAGACTCATTTGTG
ATGGGGTGTTTCCAAAAAGAGAGTTAGTTAAATGCTATATGGAAGCCTTCATTCCCTAAAGAAAATGCCTCTGCTGCTGGCAGTGATTTATCCAGAGCTG
TCTCACCCATTTATGCCCCATGCCAGGAGAATGTATGGAAAATGTAATAGAGCTATTAGAATCCAGTGTAGTAGATTGGTAATAGTAAGGAACAACAGTT
GTCTTCACATTGTTAAAATAAAAGTGAGATACCCTTTAATCTTCGCAAAGGGAAATAACTCTTCTGCTAACCCTCCTGCCCAACCTGAGATGAAGTATCA
GGGGATGCAGTATGGATGTATTTTCCTGACGATTGGTCCTKCTGTCCTGGGACCCAGGTGTGAGTGCATAGGGAAAAGGGAGGAGAAATTTAATCCTGTA
ACTATCTCCTTATGGAAAACAGGAAACCACAAATGAATCAAATGAATCCGTTTCCCCTCTTTCTGATCCTCTGCAAAAGTCATCAAAATCACTCTGTTCT
CACCAGGCAACTGGAGTTTCGTCAGCTGAGTCTAGAGTGTTCCAGGCAGTTACAGCTAATCATGGCAGGCTCTACCCAACTGGGGGAACAATTTAGCTGT
TGTGGGATTTCCCTTTAAATTAAATATGTTCTTCAGGTACAGTTTTTTAAAACCAGTTTTTCTCCCCCACTTTTAACCTACTTTATCGTCCATTGCTGGG
CCTAGAATTGCATGTCCATTGGCATGGCTGACGTTATATATAAATATTTGGAATTGTAGTTGTAATGATAGATATTATATATATTTCACATGTTTTAAGA
TTAACATATTAACAGTTTGTGATATTCAACAAAGAATGCAATAACTTCTGCGAAACAGGTAAGAGAAACAACCAGTCACTTGATCTGGATATTGAGACGT
TACCTGTAGGATATGTATTAGGCTGTTCTTGCACTGCTGTAAAGAAATGCTTGAGACTGGGTAATTTATAAGAAAAGAGGTTTAATTGGCTCACAGTTTT
GTAAGTGGTACAGGAAGCATAGCGGCTTCTGCTTCTGGGGAGGCCTCAGGAAACTTACAATCATGGCAGAAGGCAAAGAGAGAGCAGCAGGTGACATGGT
GACAGTGGGAAGTGACAGAGCGTGGGGTGGGGGTGGGAGGTGCCCCACTTTTAACCCTTTTCCTGTTTAGGAAAAAAAAAGCGCAGCTCACTGCCAGCGC
TCATTTAATTTTACATAAACATGCTCTTTGAAGCTGAAGCAAATGTGACCGATTTTCAAAGTGATAATAAAATATAAAAACAGTTCTTGGAATTATTTCT
GAACAGAACTAACATCAGAATCATCTGAATCATCAGAATTGTGTATTTTGGAAAAATCGGATTCATCAAATGAATCTTCAGCCAACAACTGTTCGAGAAT
GATGTTAACATCACATGCAGGAATGCTACATTTTCTCGGATTTGACATTTTCAGTGATGGAGAACTATTATATTTTGTAAATGGAAATACCACTACTAAA
AACAGAAGGCTATAAATAGAATGATATCCTTCGTTTCCAAAGTCGATATGCTAGAGTGATGTGAAAAAAATAATAAAAGCGAGATATTTCATGGCAAAGC
GATCTCAGGGTAAACACTGCACACCAGTAAGTATTCTTGGGGCAAATGGGAAAAGGGTTAAAATGACCAGATCTCCAGAGATCTCACTCACTATGGTGAA
GACAGCGCCAAGCCATGAGGGCTCYGCCCCAGTGATTCAAATACCTCCCATTACGGACATGTTTCAACATGAGATTTGRGCRGGGACAAATATCCAAACT
ATATCAGGATCCCAGCAGACTGGGTGGGTGGAGGTTCAGGGATATCTGGGAAGGACTAAGAATAGCTTTTTCTTTTAGTAGATCAGGAGTTTCCTCTTAC
ACACAAAAAGCTCCAAATTYAAACTAGCTTAAGAGGAAAGGGTCATTACTGGCTGACAAAATGCGAAGTTTTGTGCAAGAGTCAGCAAAGTTTCTCTGTG
ATGGGATATTTAATAAATATTTTGGGGCCTTGTAGTGTTTGTTGCCAACTACTCAACTCTGCCCTCATAGTGCRAAAACAGGCATAAACGAYATGTAAAG
GAGCAGGCATGGCTGCGAGAAACTTTATTTATGGATACTGGAATTTGAATTTCATATACATTTTCATGTGTCACAAAATATTATTCTTTCCCCCCCGCCC
CCAACCATTTAAAAATGTGAAGCATTTTTAGCCTGTGTGCTGTATAAGAACACAGCCGTGTTTGGCCCAGCGGTTATAGTTTGCCAACCCCTGCTTAGAG
TCTAGCTTTATTCAGAGCTTAAATATGTCATCGAGGTCCCCTCTTTATTTAWTCCCTTAGTTTTGATGATCTTTTATGGGTTATATTCTTCAAAGGGAAA
ATTCTCTCCRAATGGGGCTGCCACTGGCAGRCGAGCACTGTCCCATCTTGGCTTGTTCCCCCAGTGACAAGAAGCTGTTTTCCCCACTACCCTTGGCCCA
AAAGCCACAGGGAGAACCAGGATTGGCCTAGTTTTAGGCAGACACCTATCCCTGAATCAGTCATGTCCCCGGATGATGCGGTTCTCTGCAGCCTGGGCAG
TCAAGGCTGGAGATAATTCTCTGCTTCTCCACRGAGTCTGAGAGGCCCCGTTCCCTAATGGWAAAATGAGGTCCAATTTTGCAAAAGGAGGCACCTGGGG
AAACATTCTGGACACACAAATCTATAGCTTCTACCGTCAATCTGCTATGATCCTTTTATGGTTCTGACGTTGCARTTTTATTTTTGCATGTTTCTAGAGA
CATCAGGAGGGGATCTTTTCGGGATGTGGCTTCAGAAAGGAGCCTGTTGGATGGTCTCTTACTAGTGGTCAGCAAAGAACAGTTCTTTTGTAAATTGCAC
TGCATTAAGAGCATTCCTGTTTCCATCTCATTGATACCTGCCTTGCGTTCTGTTACCTGGAAGCACAGGTCAAGGTAGTCTTCTTGTTCCACTGATTTGA
TGGGGGTCAGGATGCTTTCAGAAAGGAAATGAGAAGAGTGGCTTAGAACAGGGAAAATGTGGCCGGGCGCAGTGGCTCACGCCTGTAATCTCAGCACTTT
GGGAGGCCTAGGTGCGCAGATTACGAGGTCAGGCGATTGAGGCCAGGCTGGCCAATATGATGTGAGACCCCATGTCTACTAAAAATACAAAAAATTAGCC
GGGAGTGGTGGTGTTCGCCTGTAGTCCCAGTTACTCAGGAGGCTGAGCCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGTAGTGAGCCGAGATCGT
GCCGTTGCACTCCAGCCTGAGTGACAAGAGCAACACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGGACAGGGAAAATGTCCAGGAAGGATGTGGCTTA
GCTGAAGATCAGCTTCAGCTTGATCCCACGGGAAGCTCTGGAGGGTGAATTCTACAGCAGAGTTGGTCCTGACTGAGACCAGGGCCTGGCTGACCTATGG
CAGTCAGCGATGAGCCAGTGTCTGCTGGGGAAGAGGGCGGCGTGGACATANNNNNNNNNNNNNNNNNNNNTGGGGCAGGAAGGGGTAGCTGTGAGATACT
AGCTAATTCTTACAGCTTCTGGGTTCACCAGCCCGGCAGGAGAATCTGGGTTGAGGAGGCAACATGACAACGTGCCTACCTTCACCAGAGAGACTGCTGT
CAAAAATCACTCCATCCATGCAAGGAGGAACGATGCAGACACAGAAATTCTCTGCTGTGAGGGCCAGCACTGTAGTATTTACTGACCTGCTCCCCACTCC
ACACCTCCAAGTGCAGGTGTACAGACTGACATCAAACCTTTCATCCCGCCCTCGGCCTCATACCTGCTTTCCACTCTGTGACCTATTTACTTCGATGGAG
TCATTTTCAAATAACTTTTGTTTAGTGAAACTCAAGGCTTTTCAGGATGCTGTGCTAATGTCTTCCTTTTTTAATTGAGTAAATATATTATACACAGCTG
GGTAGGTTGTTTCCTTGCTGGCCTTACTGCTACAATTTGAAAACGGATACAGTTTTCTTTAACTCACATAGGATGAATGTGGCATTTATTCCTGGTTTCC
TGTGGCTCTCCTCCTTTAGAAAACGTATTTACATGGACGTTTTTGAAGCACTTCTTAAGACATCGAAAAATTAAAAAAGAAAAAAAAAAAGAAGAAAAAT
CTCTTTTCCCTCCCCCAAACAATGGTTACATAGTGACAACAGTGGGTTGAGCTAAATTCAGCTACGTCAAGGAAGAGCAATAAAAGGAGATGGATTGTTC
TCTAAGCTTCACTTTATTGGATATTGTAATTGACATATAGTTGTCATTTATAATCATCTGTCCATTCCTGTGAGGTGGGAGCAGTAAAGTTAATTGTGGC
AGCTCATTTGCATTAATCTCACCTCTGAAGGGTACAGTAACCCATTAATATCACGTCATGATGAATTATCACAAATAACATTGAACATATTGATTAATGA
TCTCTGAGATTTGTATCTCGTTAAAACATTTTGTTAGCTCTTTAAACTTTTAAGCCAACAACCATTGCGTGTAGGAGGGGTTTAGAGATCATCTGAGAGG
TGGTGGTGGGTGGTGGTGTACTTTGTAGGGTCACTGGTTTAAGGGGTTGGACAACCCGTTCCCATCTGATTTTCCTCTTCTTCGGGAGCCAAGTACTTTT
TGTTGGTAACTTCCGTCTACTTTTTGCAGGATAGTGGTTTCTTCAAAACAGTGGCTTCTTTGATTGTAAGGTGGCTCCGATTCTCAAATGGAATGATTTT
CTTAAGATTTTTAAAAATTACCCCTTCAACACCTTAAGTGCTGGCTTTCTGAACCTCTTGCCCACCTAGGCATGCCTGCTACTTTGAAGTGGCAAGAGTT
ATCTTTGTCTATTACATCAGCATTCCCAAACTTACATGTTAACATAAACATGGAGCTCAGAGGAAATGTGTTGTTTGAGATGAACCATCGTTTCAAATGT
CACTTACTTCTTGTTTTATAAAGTATCATTACTCTTTTCTTGGACACAGTCTCATCTTTGAGGAGTTTGCAGATTTTATCTCCTGTGGACATTTCTACAA
AATCAATCAACAAACTTGAGCAGAGAAATCATCATACTAGCCACACACACTCTGCAGGCATTAATAAAATAATAGTAAATTCTCTTTAACCAAGTCCTTT
GCAGAATTTCCTGGTAGAAGTTTAAATGCAATAGATGCAGTAAAGAAAAGGGTTGGCTTAAGAGTTGACTTACAAAGCTTGGTCCTAACAGCTTTTTCCT
TTATCTGTTTCAAGAGTCATACGATATTTGATCTTTCAAACTTACGTATTTCTTCCATTATGTTTAGTATTAGTTTCGTTTTCTCAAGATACATATTTAA
CAACTAGCAAAATGTTGGAAGCGGTCTCCTCTGCTGTCTATTTAGGGAAAATGGAACTGATCTTTCTGAAATAGGCATGCATGTAATGATGATGTCATTA
ATGCTTGGCTAGCTGGTGGACTTAAACCCAGAGGGCACTTCTGAAAAGGGGCAAAGTGCATCTGCTTCTGCTTTGTTTATAGACTGTCAGCCTTGGATCT
GTCACTCCCTCAGAAGGGAAGGATTGAGGCCAGGCAAGGTGGCTCACATCTATAATCCCAGAACTTTGGGAGGCGAGGTGGGAGGATCACTTGAGGCCAG
GAGTTCGAGACTACCCTGGGCAACACAGTGAGACCCTGTCTCTACTAAAAAAAGAGAAAACAAAATTAACCGGGCTGGGTGGCACCCACCTGTAGTCCTT
TGGAGGACTACTTGGGAGGCTGAGGCAGGAGGATCACTTGAGCCCAGAAGTTCAACATTATAGTGAGCCACTGTACTCCAGCTGGGTAACAGAGTGAGAC
CCTGTCTCTGAAAAATAAAAAYWAAAAAAAAAATTAAGTTAGAAGGGAGGGATTACGACCCTCATGTGTATCAAGAAACAAGCTCCATGAAGCCCCRTAG
GATGGCTCAGCACCAGAACGAGGTCTGACTGTTAAGCAAAGTCAAGTGCATGATGGCTGAACATTGCTGGGGGAAGATTTTGCAATTATGCATTGTTTGT
GCCTTTAGCCAGTAGGTAAGGACAGTGGTACCATTCTGACGGACTCTCGGATGCTTGGTTTTATGGAGGGATCTTAAAACAGTAATCGGCCCATATGTGC
AGCAACCTTTGCACCTAAATAGCTGAGGACAAAGTAGGTTGCTTACTTCAAGAGCCCTTCCCTTTCTCTTCTTTGTCAGGCCTGTAATGTTCCTCACCCA
CTGAGTATTTAATATCTGTGTTTTCACATCAAAGAACAAGCTTTCTGTCTCCCAGGATAGTATCTTGTAAAGCCAGCCTCTTTATTACTTCACCAGTTTT
AAGGCTTTATTACTTGCGACCTAAAGCCTGCTAGTGAATTATGCATGTTAGAACTCACAGCACCGTCTCTGCCCACTCTTTTGCCACCTTTTTGGGGGTC
CAAAAAGTACAAGGCGAGATCGACGTGTGTTCATTCCCATCCATGGTATTAATCCTTATTCATTTAAAAAAATCTGCTAACGGAAATATTTCCATTCAGC
TCATTAATCAATTGTGATTTTCATTCCCTTGTTTTGTAAAAGCTGTTGCAATAAATACTTTTTTCACAAGGCGAAAATCCAAGAGATGGATGCAGCCAGC
GTAATTAATTGCACCCAGTTACAGGAGATCAGCAAGTTTGTGAGATTCACATGCTGCTGTACCATATGGTTGCCCAGTGGGCGAAAAATTTGATTAATGT
TTTGAAGTAGATTTTTTTCAGCAAATATTGCAGCCCCAGATGAGGTGGGGGTTGTCCCCCCCTTTTACTTTCTAGTATTGTTAGACTTAGCTGAAGGAAA
CAATCCTCTGATTTAAAGCTTAATAATACTGTGATTCAGTGAAAACTTAACATGCGATAAAAATTACATTTCTCTCATCTCTTGTGGATACAGAAAAATA
ATACATGATGTCTTCGTTTGTAATTAAGGAAAATGTGATCGTTGGATTCTAAAACTTGATTCTTGATTTTTTTTTTCCCCTAAGAAATGGAACTGTGGTT
TTCACTGATGCACTTTTGGTATGATTTATAAGTAGTATATTTGGGCAGACTCTTCATACTCAAAGCAGTAAAAAATAAAATAAAATAAAATACAATGAAT
CCACAAACAGCTTCTTCTTCATTATGTACCCTATACCTATTAGAGCATCATAAAATATAACTATATGAGTATCATAGAAAAGTTAAAGCTGTCTCTACTC
TGTTATGCTAAGATATATTAGTTTCATAACCACTCAATATATTCATAGTTAATTTATCCTTTATTTTAAAAAAATGTCCTGCAGATTTTAAAATCAATTT
TATAGTTTCTTTTCTGTTTTTAGTTAGAAAGTTCATTTTATCTTAGCAGCTCCTTGTCATACTGGGCACCCATTCTCTTAGGATGCTGCCCTTCTGACTT
TTTTCTCCAATACCTGGGAGGGAATTAGCCATTTGGTAATACAACGGGACAAGCTTATGGTAGGTCTGACCTCAGCATTCAGAAAAACAATGTGAAATTT
GTAATATGTGTCAGAACTGGCAATCAACGCCATAAGGACAATAAAATAAAATACATTTCTCCACTTTAGTAAATGAGGCTTCATGCTTCCTATGGCATAA
CTTTTTTGTTGTTGTTGTTTTTTCTTTTCTTTGAAACGGTTTTAAATTTCTAATTGCCTAAGCAATCTATGACACTCCTTCAATCTTAATGTCTGTTGAA
ATGAACTAGCATCTCAAGCAGTTGGAGCATCATCTTTAACTAGACATCAACCTGGTTTTGAATCCTTTGAGTTTTGGCAAATAGAAAATTCATCCAGGGC
CACAAAAAATATCTATAATTTTGACCCAGTTGTAGTCTAGAGAGATACTTAGTTCAAAAAGAATTGTGTTATCGTCATCAAGCAAAACAACAGTATATGC
TATCATCTCTGAGATGTCACACGATTATTGCTTTTTTTTTCCTTTTAAATTTTTTCTTTGTGTCTAAAGCAGTTTAAGAGCTCTAAGTGTGCTCTGTTTT
CTGATGGCTTAACAAGGGACTGGCTCAATCAAAATAGAGAAGGAAAGGACGGAGACCAGGCCAAAACGGCCATCTCCTCTGATTTTCGATTCATGATATA
AATTTTTAAACAAAAAAGTTACAGTGTTTTTGGTACTTTCACTAGGCTTCTAATTTTTTTTCCTAAACTTAAAAAAATTTTTTTAAGATCAATTATGTAA
TAATTAGCCACAAAGGCACAAGAACTGTTTCAGTAGTGGCCTGTTTTAATGTTCCATTCTGAAGAAACTGGTACAGCCTTTCTTTCCTGAGTTTGAGCTG
AAACTCTCTCTTTCCCTTTTATCAGGTCGCTCAAAACAGATTTTTAGAGTGAAGCAGTTTTAGGGACAACATTTAGGAGAAACATTTCCCTAAGATTCCC
TAACATTTTTTTCTTTAATTTAGCCATTTCTAATGAATATTTTTTAACTGTGCAATTTAAGTAATGATTTTTTTAATGCCTGCTACCTTCAAGACACTTC
GTGTGGTCACCTCCAATTATAGACTAGGTTTTTAAATGAAAAACGGAAACACTTTTAAATTTTTATTTAATATGGCCGGTGAAACATGAACAATATATGA
TCAGTTGGCAGGAGACAGTGTGATGAATTATTTATGAGTTTACTTTTTTTTTTTTTTTTGCTTTAACAGCACATACATATATGAAATTCATTACCAAGTG
ATAGGACGGGTAACCCAGAGGTTCTGATGAGGGCCAGGACCTCATGGTCATAAAAGTAACATTAGACCTATTCCTAGTAATTTGATCTAGGTTGGCCTGA
TTTTTGTTGTGGTGGCAGTGGTGGCTRTGGTTGTCAATTTAATGGAATGTATTTGGAAAGAGCAAGCTTCTTCCCAATGCAGTGTTTTCCCTGCAAAGGA
GAAGAAATATATTTCTTGCCTCTCTTTCCTTAGTCCTGTGTGCTTCCCCTTGATTTCACCAGGACAATTTTATACCMATCCCTTGTATTTTAGAAGAGCC
TGATACATTTGCAAGGWCTCTCTTTATATTCCTGAATTTTGCATCCCTAGACATCATCCTTTTTGAGAGAGAAAATTCCGAGTGTCAGTTTTCCTTTATC
GGAACCTCCTTTTATTTGAACTAACCACAATGGGTCRTAATTTATAGGCCCAGTCAGCGCATCATTGCTCAGATAGAGTCATTTACCTACAAGTATCCAT
CAGTTAGGTGGGGGCTGCTAGATTTTTTAAGTGGAAAAAAATCCAAACAGGTTCAGGAAGAAGAAGAAAAAATCATCCTGGGGGCAGAAGAACAACAACA
AAAAATTTTCCTTGGGGCCTTCCAATTTGAGATTGTTGAGTGTTGCCAAGCAAAACTAACACGCAGTGGGAAGGTTCTGCTTTTCTCACAAATTCTCGGT
TAACACAAGGCGTGCCAACAGCTGGTAGAGCGAGAGTCAGGGTGCCAGGCTGAAATGGAGTGGAAGGCAGCCCTGGCTGGAAGTCTTGCTGGGAACCTGG
AGCGCTGGGAGGTAAAACTTTACTTGGTGCTGGCAGCGTCACTATGCCAGTCTGTTTCTTCCCGAGCTTCAGGCCATGCTGATGTTCAAGTTGAATAAAT
GAGAGCTAATGATTTTTTAAGGCGTTTTTAGTGAATTGCCGTGGGAATGCTAAGTTGGCAAGAATAAAACCTAGGCGAGGAGAGTTGATTTTTGATGACC
CAAAGAAGGCATGTCCTAGAGTGGTTTAGTAGAGCTCGAATAGTCTAAGATTGTTCCACATCAGGAAAAGTGTACAGTTATCAGAATTACTTACTAATGA
AAAAAAGGGGAAAAAAAGATTATTAGGCTGCAGGGTAGTGGGAAGGAACAGGGTAGCAACTCTACAGTGACTTGGTCTGAGAAACCCTGTAACTTGGATC
CAGCCAGGGAAGTACTTTTCCCAACAATCGGTTCCGCTGTCCTGCTGTGACCAGTAACAGGGGAAAAAAATAAAACTCCCCTAAAGGTAAATGATTCACC
TCATGAACGAAGGGAAGAATAAGAGACCTAAGTTTATATACACAGATTCCAATTGTAAAATCAAACCTATTTTGTTTTCTAAATAAACAATATTTGAAAA
TACAACATTGCAGTCTTGTTTTCTTTTATACTGGCTAGGATGGTCTGGTCCTTTAGAGGAGGTCCTGAATAAAATAATATGGGCTGTAGAGAGAAACGCC
GTTTGCTTGATAGGTGTTTTTGTAAAGGTTTTACTGGCCTACAGTGTCAGTACATTGCAAATTTAAGAATGTTCACTGACATTTTTAGTAGCCACTTAAA
AAATTTTTCTAAGCAATGATGTCATTGTATTTTACTTATAATCAGAAGTACATCAGCCCGTGAATTTAGTTAAAGGTTTTTAATGTCACTTTTATTACAT
TTTTACTGTGCATTCATGTGCACACACACACTTTTAAGCATTTTTGATTTATATATCCCTCTGCATATTTTGTGCCTTGTGATGTGTTTAACGAATGACA
GTGTCTTTAGTGCATTGCTRCTTGGGGTTTCTACACTGGAAGTGTAATCCGAGGCCTTGGAATTGGTCAAACAAAACTCACTTGGCAACATTTACTTAGA
GAGCACTCTGCGAGCACTCTGCGAGCGGACATGTCGATATCAGCTCCCTCCTCGTTCCCCCCCCCACCCCCCATCCCATGTTTATTTGTAATTAAAGTTA
AGATGCTTGAGAATGGCTTTACCATTAATCTAGAAACATAGAGTTGTTTCCTGGTGAATGATGTATGACAGTTTTCTTTGTGCTTCCTCTGAATAGAGAG
TAGTTTTTGTGGCATTGTTACAGAGAACAGCTTTCCTGTAGGGCTCACAGGCTCAACTGTTTCAAACTCCTGTTGTTCGGTAAATCTGTCAGAAGGGTCT
GCAAGGGACCGTATTTATGAAGAGAGTGTAGAGTGGTCAGTCTAAAAAGCTCCTTAGTGTAGTACTTTGAATTTTAAATTACACACATAATTCAAAGGTA
ATGTAACTTGCCGTGTCGGACTTTAGTCCATTCCGTTAAATGGAGAAAAATGACTGACGTGAAGAATGACTTATTGATTCTYGGTGGGAAAATGACTTCT
GTAATATGGGAAGTATGGTAAAAGGAATAGCTTAATTATTTAGGGAGCACTTTTCAAAATGTGCTTTTACAGCAGTACAAATTGTACGTATACAAATGGT
ATGACTAGGTTCTTTTTTTAAAAATTCTTTCATAGGAGAAAGTTATGAGAAGGCTTATATTATTTCGTTGCTAAGGCAAAGTTTAATTTTGCTTAAATTC
CTGTAAGACTAACTAAGAAAGGTAGGAGGAGTGATGAGCAGTTTCTTAACCCTTTAAGAAATATGACTTGTTCTAATTGCCTTTTCTTATTTACATTATA
CTTAGGCTGGTGTTAGGATGCCGTGGCTGCCAAGTTTACACARTGCACTTTCTCTCTCTCTTTCTTCTTTTGGTTTATGATGTTTTTCARTAGTGTCATG
GAACTCACTTAATCTGATTTCATCAAGTAAATATATGGGAAGTTGAGATGACATATTTTTATCTGACATTTGAAGAAATATTCATAAAATAGCAGATAAA
ATATTTATTTTGGCCTTTTCATTCTGATCTCTCTTTTGACTCGATGTGTATTCTTTGCTTAAGGACCACAGCCTAATGTTATTTTGACTGCATTTCACAG
TGTTGGCGGCCTTTCAGATAAACAGCATATTTGTGGTTAATTGGCTGAACATGTTCTATAATTATAATTATATTAAAACCTTAATGTTCTTGAACGTTTG
CCCGCGAAGGCCACTCACGTGAACTAAGTTATGTTTCTGTCGTTATAACTGAGCTGGCTGGCGGCTGCCATTCAGCAATCCAGGCAGGACTGGGAACCTG
GGAAAACTGCAGAGGTTTCTTATTATTTCGGTCTGAAACCGCTGTTTGGATAGTTTTAGAAGTTGACCATGAAAATTGCCTTCTGGTTGTAACTTGGATC
CCCAGGTTTCAATCTGTGGGCTACCGTTTCTTGGGATTTTCAGAAAGGATTGGCTTGGCTTTTTATCAAAGTTACACAACGGCTGTAAAAAATAAATAAA
AAAAAAGCAAAATTAGCACTTTATCAAGTTTGGGGCATATTTCCAAGGCCACCAGGGAGCAGGGAARGTCACCAAAAGACCGCTCCTTGAAACCAGGCAA
GAAGCCATCTTTGCAGTGAGCTGAGAGGTCTGATGGCCGCCAGCTGAGGGAGGGAATTCCCCTTTTGTGCCTTCGGGATTGATAGAGAAGCCCAGTGGAC
TTAGCATCTGGGAATCCCAGATTGATCTTTTCTGGATATTGGGTCAACCATAAGATGGTACCTTTCCCTGTGTAACAAAGTCAGATTCTGTGAAACACCT
GTTTTTTGTATGGCTYATGAGATGAGGATGATTTTTACCTTTTTTTTTTTTTTTTTCCCTTGAGACAGTGTCATTCTATTGTCCAGGCTGGAGTGCAGTG
GTGCAATCTCAGCTCATTAACCTCAGGTTTTTTTACAGAAAAAGTTTGCCACCCTCTGATCTACATGATGTCCTTCAGTTTCTGTCTCTCACCAGACTGA
TGGTGCCATGAGGGCAGGGGCAACTCCTATCCTAAGGCGTGGCCCATAGTAAGGGGTATTGGTTAGAAGAATGAAAGATTGAATACRTCAAAGTGATGAG
TACAGAGCTGTCTGTCATTTTCTTATCTTTGGCCTAACAACTGAACACATTTTATGAAATTTGCAAATCTGTTTCCAAACATGTTTGAATGGATTTTTAT
GGTCTTTTAATTAACCCAATAAAAATGGTAACAACACAGCAATTTTAAGAAAATAACAGAGCCAAGTATTTTTTATAGCTATGCATGCAATCCACATTAC
ACCCACATGCAGTATTTCTATGGTCCAAATAAGTATCTGTCGGACTTAGAATATTTAAATTAGGATTTAGTTGAAAGATTATGTTCTATATCTTTTTTTT
TTAAAAAAAAGGAAGAAAAATAAAGCTCTTCCTAAATTTATTTACATGTTGGAGCAATTCTGGCACTGCTAAATAAGGCAGGAAATTCCATTAAGTTTAA
ATGTGCTGCCCTTACCCTAAAGTGTTTGGAGGGCTTCGTAGAAGAGCCAAATAGATTCACACAGATYTTATTTGTAGAGCTGAATGTGCACTTCATTAAA
ATACTTTGTAAGGTATTCAAGGATGGGCTAGGAGGGTGAGGATTCCAAATCAGAATCTTCAAGCCAGTGATCCAGGCCAAAGGTATTCTGCCAGAGTGTG
AGGAAATTTCACAGCCTCATGGAGACACCTCCCCTCCCCACCCTTGTTGAACAGACTCTGGAAAAGTCACCATTTCTTGTTGGTCCTTTGCTCTTGGAGC
ATTCTTGGCCTGACCTGTCAACCACTTTAGCCTCCAAGGTATCTGAGCCTTTCTTTCGCCTCTCTACTTAGATCATATTCTTCCTGGATTTTGGAATCAG
GCTGGGACACAAGCCACCTCCTCCTCCATTCTAGCTGTGTGGCTCCAGGCAAGTGGCCACACCTCTTTGAGCCACTAGTTAACTCAGCTGCCAAACAGGG
ATTATACATTTACCTCTTGGTGTTGCAAGAATTAACAAGGAGGATATTTGTAAATCTCCCTGGGAGCTGGATGGTGCTTAATAAGCAGGCATTAAGGGTT
GATTATCTTTGCACTCTCTCCTGCCAGATTTTGTAACTGAGTCCAGGCATCTTTAGAAACAGAAATGGTCCCTGCTCTTCTGTATCCCCTGGGATAACCT
AGCATCATTTCGCTGGGTTACACATCCTCTCTTCTCTCCTGTATGTCGTCCCTCTTTCTTACGGTGGTTCTAAGCTCTATGGATCACTTGTCTTCTCCTC
TGAGCGGGAACTGGGCAATTGGAGGTTCTTTCCCCTCCCGTGCTGGTGGGAGAATTGTTTAGTAGGTCATAAAGTGGAATCTCCATTYCAGTCTGATCCG
GTCAATTCTGGTAGGACTTCATCCAAGCACAAAGAAACCTTTGTTTTCATTCAAGACTTCCCTAAAAGGTGGCTGGGTGCGGTGCTCAGGCCTGTAATCC
CAGCACTTTGAGAGGCCGAGGCTGGCAGATCACGAGGTCAGGAGTTCCAGACCAGACTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAA
TTAGCCAGGTGTGTTGTCACGTGACTTTAATCCCAGCTGCTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCTGGTAGGCAGAGGTTGCAGTGAGCCG
ATGTCATATCACTGCACTCTAGCCTGGGCGACAGAGTGAGACTCTGTCTCAGAAAAAACAAAAAAAAAAAAAAAAAAAAAAAAAAGGCTTTCCTGAAAGG
TGATTCACAGGCCTCTTCGGATCCCTTCGTGTTTAGCAATTTGGATTTCCACACAGCCTTGCTGTGCCTTCTGCCCATTTGTCCTCTGCTGCTGGTCCCT
GGGTGGGACAGCTCCCCTTTCTCCTTGTCTGGGTTGCTCAGATAGAGCCATAAGGATTCTCCCTGCCTCAAGAGCTGACTTCCTTCCACGAGTTCCTAAC
CACCTGTCCAGTTGATTCTTCTCTGGACCTGCCTTGACATCTCTGTGCCAAGCCCAGTGCCGGGGTTGCAGATGCAGAGGCACTGGTGCATATTTCTTGA
GTTGAAGAGCTTGCAACTGATGAGCCCCTTCCACTCAGAAAAATGTTGTTCCTGGTCTTGCCACTGCCTGGAACCCACCAACACCTCCTCTTTCCAATAT
TGCTGGCTTCTACTTGTTCTATAAGAGCCATGTTCTACAAGTTCTGTATTGTGTGTGAGTCCCTCTCAACAAAACAATTTCCCTAGTCATCTCTTATTTA
TACTCCTTGATGCAGATTTCCATTTTACTCTTACCTCATTCTATCATAATTATCTATTTGTGTGTGTATGTATGTCCCCACTAGGCTGTGAGGTCTGTAA
AAGGATAGTCTAAATACAGCTATCTATTGCAAATCTTATAATGTGACTCCATGATGAGATAGTTGGATATAGCCTTATGTTCCCAGCAGGAAGGAAGAAA
GGAAAGGAGGGAGGGAGGTAAGGGTGAGAGAGAGACAAGAAAGGAAAGGAGGAAGGAAGGACGGGAAGGAGGGAAGAAGAGAGTTTGGTCAACATTTGTT
GATTGTGAATGAACAAACTAATGAACACTAAATGAACAAATGAATGAATGAATGGACAAATGAATGAATGTATGAGTGGGTCAAGAACAAGATTCGGCCC
CAAGGAGATACGCGACTTTCTACTTTGTTTTCTATTTGGATTTCACACAAAGGCTCKAAGGTCTCCTGGTAGGCCATGCTCAGAAGTCTGGGTTGTCCCC
TGCCCAGGACAGGCTCACCCTGGCCTGTGTCCTAGGTATTGTGGGGCCGCTGTAGGAGGATGGTGGTTAAATCTTGGAGGAAATCCAGGAGTCTCATGTC
CCCTTGGCTTCTGTCAGAACCAGTACCTCTCATTTATTTTGAGGTCTTGGCTGAAGATGTATCATCTACAACCCTGCAGATCAGATGTGTTAGAGCAGAG
AGAGTGGCGAGGATTAATCTAGACTGAAATGTGCTAATCAAGCTGTCTCAGATGCCATTTTCTGGATAGGGAGGAACAGCAGTTGGCGAGTTTAAGAGCA
ATATGGAGGAACCACTGGGGATTCTATGCATGATCTTAGGGGAAGTAGCATTATTATCTCCAACACTGGCTGTTTACATTATCAGAATAAGAATGGTTCT
CCAAGGCCAGGTGTGGTGGCTCACGCCTGTAATCCTAGCACTTTTGGAGGATGAGGTGGGTGGATCACCTGAAGTCAGGAGTTCAAGACCAGCCTGGCCA
ACATGGTGAAACCCTGTCTCTACTAAAATACAAAAATTAGCCGGACATGATGGCAAGTGCCTGTAATCTCAGCTACTCAGGAGGCTGAGATGGGAGAATC
GCTTGAACCCAGGAGATGGTGGTTGCAGTGAGCCAAGATCGCACCACTGGACTCCGGCCTGGGTGGCTGAGAAAGACTCAGTCTTAAAAAACAAACAAAC
AAACAAACAAACAAACAAACAAACAAAAACTTGTCTCCAAATGAGCAGACACCAGAATCTCATGGAGGGATTTTTCGAACACGTAGCACAGGGCTTCGCC
CCCAGCATTTTTATTTTCGAACTTCTGGAGTGCAGCCCAAAGATCTGCATTTCTAGCAAGTTCCCAGATGATGTTGATGATGATGCCTGTTTGGGTATCA
CATTAGATGAAGGGCTTTGCTAATTTCAGCTGCAGAGTATTGACTCATGGGGTAGGATTCCTGCCATCTGCAGCTTCTTTGGGTCATCACTAGGGTAGAA
TCTTATTTTCTGAGTATGAAAAGCATCAAAGTTATTTTAGTAAAATGCTTTTGCTGTCATTGCTTTAAAACTAGCTCTTCGAAGTGGGAAAACCAAAAGT
TTTATTGAAGCAATTTGTTGTAAATATGAGTTCTGTATCACATTTGGGAAATTTGTAAAGCCTTACTTTGAATGTCTTTTTCTTCACTCTATCTGTATTG
TTTGGTGCTTTCTATATAAATTTATAAATTGGATGTACCKCCACAGATGTCGGTTTTCTGGTAATAATACTTTTTTACATTAAAAAAAACTCCTGAAATG
AAAATGTAACTTAGTCTTATTATTGTAATCTCCCCTTGCCTTTTTGCATGGATCATTTGTTTGTGAACTGGTTATTTCAGGAAGGGCTCAAAGGTAATTT
CATGGTTTATAGCATTTATATTGGCGCCTTCGATGAGCAAAACATATTGTTTTCTAATACATGAAACCAGGAATTCATATATATATGTATATATATTATT
ATTATTATTTTCATTTTCTAAAATTACATGTAGTACATGTATATCAACTTCAAGACATTGAGAACAACCATGTACAGAAATTATACTCTGTACACAGGGG
AAATATGAAAGTTTTGTAATGCAAAAAAATAAAAAAAAATCAACATTTGCAAGCTTATGAGATGATTTTATTTTTAATGAATCCAAATGGTAGCAGGGAG
CTGCTGTTGTGTTTGTGCATTGTACAGCAATTCATATCTAAAAATAAAGTAACATATGGCTTTGTTATTATTTAGTTTAGGAATTGATGCACCTAAAGGA
GTTTTGAGAGCTCTGGGTCTCGTTCGGTTGTTGTACATGGCAACCAAATAAGAGTAGCTGGAGCAGAGACTTTCTCTTCTTCAGATTATTAAGATTTGAG
CAATTCATTTTTTTTGGATGGTGTTTATTAAAGTMAAGAAATCTTTTGCTTATTTGCTAATGATTCTCTCCCCTTTCTCTTCTTATATTTTTGAAGGCTG
AATTGGTAAAATTATCTGGCCCAATAAAAATATGTCCTGGGTTGGAAAAGAGCACAAGTTTCTTTTTCTAGCCCTGGAGTGAGGTGGCTCTCTGGCCTCT
GGGTTCGTTTGGTRTCCTGGGGAGTCATTGACACCCACACACTCCTAGTCACAAGACCTTTCCCTCCCATCCAGATTGTGTTTATTTTACGGCTCTCGCA
CGGAGCATGCAGCTGTGTAAACCTGAGAATGGTTTCTGCACAGCTTTGATCTTTGCATGGATCAACAGTTGCCCTTAGTCCCTGAACCCTGTTCCATGGC
CCCATATTTCTTGGATTTTTCCATTTTCTAGTAATTATGGCATCATGTAGGGAGCCTTCCAACAGCATCCCCCACAGCTTTGGGTGGAGAATTTGGAAAA
AATGCCTTAAGTCTGCCATTTGTAGAACCATATTAAGTAGTGATTTCCATTTGATGCCAAAAAAATTTGCCATTTAGTTTCTTCCTAAGAGGCAATCTGA
CAATTTCGAGTAGACTGCTGGAGTCTGACAAATTTGAATGTATTATGGACTGAATAAATGTTTATTGAACAAATGCCATTTTTTTAACTCTTAAAATGTT
CAGTTCTTCCACCAAACATAGATGACACAACTGTTGGAGACGGAGCACCGGACTGATGCAGTGTAGCATTATTTTGTAATCTACGAACTGGGAGCCTATG
GAGACCTATGCATGGTGGAATACAAAAGTCATGACCTGTCTTTATATCCTAGTATGGGCAATAAAACCCTCCCTTTAATAGCCTTAAACATGGTACAAGG
AAACTGTGCAGGAGTTCCAGGGAAGGTGCCATTTTTCCATATGGAGTTGATATGGTCTGACTGTGTGTCCCCACCCAAATCTCATCTTGAATTCTAATTG
TAATCCCCATGTGCTAGGGGGAGGGACCTCGTGGGAGGTGATTGAATCATGGAGACCGTTCCCCCGTGCTGTGAGTGAGTTCTCATGAGATCTGATGGTT
TTGTGCGGGGCTTTTCCCCACTTTGCTCTGTACTTGTCTGTTTCTTCTCCTTCTTGCCACCAGGTGAGGAAGGACATATTTGCTTCTCCTTCCATCATGA
ATGTAAGTTTTCTGAGGCCTCTGCAGCCCTGTAGAACTGTGAATCAATTAAACCTCTTTCCTTTATAAACCACCCAGTCTTGGGTATTTCTTCTTAGCAG
CATGAGAAGGGACTAATACAGGGGTGATCACAAACAGCCTGCAGACTGGGCCATCKTTCTTAGGCAGGATCTCGAGCTAGGAGATGAGAAGAGCTCTATA
GGCAAAAAGAATGACTTGGAAGGCCACATATGGCAGAGTAGCTAAGACTTTGGGGTTTCCAGTTTCAGATAGACATGGGTTTGTATCCTGGCTCTGCCCC
TCAATGCCTGTGTGATCCTGGGTAGTTTGCTTAATCCTTATGAGTCCCGGTTTTCTCCTGTAAATTGGGATTAATAATAGTCACAGCTAGCTGGGTGCAG
TGGCTCACACCTGTAATCCCCGCAGTTTGGGAGGCCGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCTTG
CCTCTACTAAAAATATAAAATTTGCCACGCTTAGTGGCACATGCCTGTAATTCCAGCTACTTAGGAGGCTGAGGCAGGAGAATCGCTTAAACCTGGGAGG
CGGAGGTTGTGGTGAGCCAAGATCGCACCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCTGTCTCAAAAAAAAAAAAAAAAATTATGTCCTTCTA
GATTGTGAGGATTAAGCAAGACCATGCATTTACATTGTTTAACACTGTCCCTGAGACATAGTAAGGCCTCAGTAACTGTTAGCTCTCTTATTGCTACCGG
ACAAGTGTTCTTATTTTCCCTTTTCTTCTTCTTCCTTTTCCTGTTCCTTGCCCTTCCTCTTTCGAAGAAAGTTTACGCCAAAAAGGATGAGCTGGGTTGC
AGCCAGCATTCTGGTTTCACAGGAGCCTAGGAGATACATGGAGAATATTCTGAGGCTAGGTTAAATAGTTTGTCTCCAGTGTGGGTGTTAGTCATATTCT
TATCAGTATCTGAAGAACCCAGAAGACTGACTCTCAGAACGGAAAACTCTTGGCTAGAGGATTCCGAAAGCTAGCGTGAAGTGGAGGCTATTACTCAGTG
GGTGCCGTAACATGTCTGTGTCACCTGGCACCTTTTTATTCTCTAATCTCAGGAGTGAGTGCTTCCTCCTGCCGTGCCTGGCCACTTCTCACCTTCAGAG
TCTTTGGTATGCATAAATTCTTCATCACTTCAGTAGAGTGAACCCTGATTACCTACATTTATTAATGAAAACAACCAAGAATAGTTGAGCCCAAAAGTAC
AAATCAATGTGCTGAATCAGTTTATGATGTCTCCCTAATTTCTGCACATCTGTTGAGCTGTGATTTCAAATTCCATTCCATTTCTTTTCTTTTCTTTTCT
TTTTTTTTTTTTTGGAGACAGTGTCTTGCTCTGTCACCCAGCCTGGAGTGCAGTGGCGAGATTGGCAAGATCGTAGCTCACTGCAGCCTCCACTTCCTAA
GCTCAAGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTACAAGGTTGTGCCACCATGCCCGCCTAATTTTTTGTATATTTAGTAGAGATGGGGT
TTTGCCATGTTGCCCAGGCTGTTCTCGAACTCCTGGGCTCAAGTGTTGTGCCCTGTTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTCAGTTACCGCAC
TGGCCTGGAAATCCTATTTCTTGTCAAGCAGGACATCAAAGTTGAGATCTAAGAATTTGGACTAAAATTTGGGGCAGGTTGTTTCCACTACTGTGTATTG
AGAGATGGCAGGGACCATCTTGCCGAGTCCAAGAGATTGTGAAGTCTAAAAGGCTTGGCCGCAGTGTTGGTTCATCTGTAACAGCTGCCTACAAGGGAAT
CTTTGAGAAATACAGATTGCTGCATCTTATAAGAAGGACAGTGCTTAAAACAGAAAGAATTGAGTAGAAATTAAGACATAGCTTGATTTTTTTCCAACAG
AATCATGAAGTCTGTTCAATTTTCTTTTTAAAAAGTAATTTAATCTTCTAGAAGATATCTACGTTTATTCAATAATTTCCTAAGGTAGTCTTCAAAACCT
AGGAGCCTAGGAGATACATGGAGAATATTCTGAGGCTAGGTTAAATAGTTTGTCTCCAATATGGGTGTTAGTCATATTGTCATCCGTATCTGAAGAACCC
AGAAGAGTGACCCTCGGAAAGGAAAATTCTTGGCTAGAGGATTCCGAAAGCTAGCGTGAAGTGGAGGCCGTTACTCAGTGGGTGCCATAACATGTCTGTG
TCACCTGCCACCTTTTTATTCTCTAATCTCAGGAGTGAGTGATTCCTCCTGCCATGCCTGTCCTCCCTCCCTCCCTCCTTCCCTCTCCCCTCTCCCTTCT
CCCCTCTTCTCTTTCCCCTGTCTCCTTCTCTCCCTCCCTTCCCTCTCTTCCTTTCGCATCTGACATCTCCAAATAGTTTTTCATGCAATGGCATTACTAA
TGGCTTGACTTTTTCGGGAAATGATTCATTACTTTATGATTTCAATTCAGTAACCATTTTCAGCTATGCCATAAATTTAAATCCTTTACCATCAAGATAA
CGTTTTTTTCTCCTGTCACTGAAATATTATGATTGGAAACTATTTTTAAAAGTTGACTCTGTTTGGGACAGCTCTTAGGGATTTGTCCTTTATACCAGCA
TATAACTTGTAGGTTGTCAGTGTCTCCAGGGGCCATATGTTCACCACCTAGACTCAACAGTTGCTAATGTTTTGCCATGTTTTGTCAGTTCATCTATCTG
TCCATCTCTTTGTCCATCCATCCAACTACCCACTTACCCATCCATCCATACRTTTATCCATCCATCTACCCACCCATCCRTCCATCCATCCATCCATGCA
TCCATCCATCCATCCATCATCCATCCATGCATGTAAGTTGCAGACATCAACAAACTTTACCCTTAAGGACTTTGGCTGGCATCTCCTAAAACTAAAGGCA
TTGCTGTACGTAATCACAACTATCATCATTATCATGTCTATGAAATTGGTAATAATTTGCTAACATAAAATAATACCTAGTCCATAACAAGATTTACTGA
ATTATTCACAAATTGTCTTTTATAGCTTTTTGTTTTCAATCAGGCTGTAAAGTTCACACATTACATTTGGTATTGTATCTTATTAGTCTGTTTATTAAAG
AGTTTTTTTCAGGGATCAGGGTTAGAGGGAAGGCTCCTTTCTGGATACTGTGTATACTACTAATTTTCTTTATCGGCTACCAAGGTTTTCTTTATTTTTT
TCATACTTTTCTTTCATTGAGGAAACTTATTGTTTTGTACATTTTGTTGTACCTTTATGAATCTGGTTTTGACTTCTGGCCCAGCTAAGAAGCTGGTTTC
CTTTGGTGAAACATGGGAGAAGAGGGAGGAAAAATCTGTTAATTAGAATTGTGGGCGTGCACTCTGTTTATCTCTAACAGAATAGGCTTCCCACGGCTCT
GAGCTGGAAAGGAAGATTCAAGTCTCAGGTTAAAAAACAAACCCTCCAAGACCTCAGGGCTGTTTGCCTGTGATTAGAGTCTAAGAAAGACTGAGAATTG
GAAATCAGGACTGTCTCTGGTCACTGATGGTTCAACTACAGCACAGATGCACTGGGTAACAGACACACCGCCAGGCCTCAGGATTACGTTACCTAGGGTT
AGGACTGAGCCTTTCTTCCACCTTCTTGGGGTTGGAGGGCAGGAATTTAACATATCTTAGATCACAGAGTAAGGCCTCTTCTACCCATAAGTTTGGTTTA
TACATCAAAGTAACATTCTAAAATTAGATGAGGGTGTTTTTTTTTTTTTTCTTTTTGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCGATGGCA
CAATCTCAGCTGATTGTAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCTAGCAGCTGGGACTACAGGCGCCTGCCACCATGCCCG
GCTAACTTTTGTATTTTTAGTAGAGAAGGGGTATCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTTGGCCTCCCAA
AGTGCTGGGGTTACAGATGTGAGCCACTGTGCCCGGCCTTAGATGAGGTTTGTAGATGTGTTTTTCATATTCCCAAAGCCATGAAATTTGACAGGTAAAT
ATATCAGTTATAAAAGTTTTAGSATTAATTATCAACTAACTCCCAGAAGTTGCCTCAGCCTCTCTTTTTCAGCCTTGTCTTGCCCCAGCCCAGAGACAAG
CCACAGCTATAGGTTTTATTTCTGAAGGAGAAAACTCAGTGGACCATTCCACTGCCTCAGGAGATATTGCCTACCTGCAGACATGTTTTGTCTTATCCAC
ACATGATGTAAAAACAAAATAAAAATGCTGAGAGAAATGCCAATTCAGAGGTTTCATATAAAAATATAGCTTTCCCATTAGACTTGAAAATTGGAAGAGG
AGGTAACAATTGGCCAGTGCTGAGTAGAGGGCATGTGGTCTCTACTTTGCCACAATCTCCACCATACCTTATTGTCTCCCTTCTCAGTCGAAGCAGCTTT
ACACACTCCTGCTACTTGCCAAGACACTGTACACATTTAAGTTTGCTACCTGTTACTTGGCATATCTCTTGGTTCCTAAGAGTTTTAGGTATTATGCAAT
TTGCCAGCTCCCTCAGCCCCTTTCCTGGCTCCAAACCTTTGGCTTTGGTTTGATGTTACTGGGTTGCTGCAGGAAATTTCCCTGTGGACCTCACTACTTT
ATCAACTGTAATGGTCTTGTTGAAGACAAGGCTTAGAACATCATCAGACCCAGAGCCTTTCTCAGAGGACCTGGGAGAACTCTCCATATGGATTTTCATT
TGGGAAGATAGATGCTCTTATTGGAACAGCTGGTTTTCCCTTTAAAACAGGGAGTCCAGCAGCTTCTAGGATGCTTAGAATCAGAATTGTTGCTCACTTT
TTAAGGTATAGAGTAKTTGTCTTATTCTTAACTACATTTTATATCTTTGCCCTTTTTTCCCCTACTTTAAATAAAATCTATCTCTAATTTATGTTACTTA
AGCAATGACAAATTCTTTTTCTGATAGACAAAGTAAAGTATAAATAAATAAGACATCCAAGTAATAATCAGAAGTATTTTTTATGTTGGTCTCATTGTGG
TCTTTTTAATCCCAGGCCTGATGCGCTTTAGGTACCAGCCTTGGTTGAAGAGGAGCTTGAACAGCCTACACAGACATGAAACTTGAGCAACTGAGCTCAT
GGACGTTGCTTTTAATCAGGATCCAGAACTAGGGAGTTGAGTGAGCTTGGATTTGAGCTCCACTTTTCAAATTTTCACCACCTGTGCTCTTTCGTTTTTG
TTTTTTGTTTTTGTTTGTTGGTTGGTTTTTTGTTTTTTTGAGATGGTGTTTCGCTCTCGTTGCCCAGTCTGGAGTGCAATGGCACAATCTCGGCTCACTG
CAACCTCCACCTCCCGGTTTCAAGCGATTCTCATGCCTCAGACTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCCAGCTAATTGTGTATTTT
TAGTAGARACGGGATTTCTGCATGTTGGTCAGGCTGGCCTCAAACTCCCGACCTGAGATGATTCACTTGGCCTTGGCCTCCCAAAGTGCTGGGATTACAG
GTGTGAGCCACCGTGCCCGGCCAGACCCGTGCTCTTTCTCCCACCACTGCCCTGTGCCAACCACCACCCCCACTCCTATTCTGGAAAGAGCCAAGCCGTC
AGCTATTGCTTTTGAATCTATACGCAATTCTAGCAGCTTCTTTTAGAGCCCTTTTAAATTAGCATGAAATAGTTTTACTAGCCCTGAGGTTTCAGCCAAG
GAGCTTTAAAGGAGCCAGCCCTTTGTTTACTTATTTTTCCTCTTCTGAACATTTGGAAACATAGCTTCGGTGCTCCTTCTCCAAGAAACCTGAGTCATGA
CCTCCCCAAAGTGTTTCCTTCCCGTGGCCTCTTCTCCCGATCAGCTGTTTGTTATCTGAGGGATTCGTTAATAACCAGGACATCTGATTCTCATCATTAC
TCATCCTCTGCTCACTCTCCTTTCTAATGCATAGGCCTTTAGCCTTTTACTTTCTACCTTTTTGAATGCTATACTTTTTTGTAAAATTTTAATTAGGTTA
ATGCATTGACATTGTTCAACATTCAAACGATGGAAAGGGTGAGTGTGGAGGTTTGGTTTCCCCACTTTTTCCAGCCATGCTGTTGCCTTCTGCAGAGGCT
TCTAGAATTTTCAGATGAATGAGAATCCTTTCAGAAATAGTCTCTGCAAACTCCAGCACACCCATAGTGCTAGGGTGGGTCTTAGTAAAATGTCTGCAGG
GTAAGCACACTGTTTTGCACTCCACACAATTCACTTCACAATATTTCATAGAGACTTTTTCATATTAATATATAAAGAGATATATACGCGTGCTGCTTCA
CGATAATCCATTGCAGAGCTGGTCTGTAATTTATTCAAGCATTCTTTGTTGATGGATGTTAGGGTTGTATCCATTATTTTGCTATTATGAACAACACCAT
AATGGGCAACCTTGTACACATTTCCTGTCAACATGTATCACTGAATGGAAAGGATCTATTCCTAGAAAGGATCCATTCCTAGAAGAGGAATTCTGTACAA
TATGGCCAACTTTCTCTCTGTTGAGGTTGAACCATTTGACACATYTCGCTAGCATTGGGAAAATCCCCATTTTCCTCACTATCCATTTTTCTTCCTCTCT
TTCCTTCCTCTTTTCCCTTCTTCCTCTTTTTTTTCTTTTCTTTCCTTCCCTTTTTCCTTTTCTTTCCTTCTTTCCTTGCCATTTAAAACATACTGATAAC
TTGGCAGCACAGGGCAGTGATTAAACTCAGGCACTCAYCCCACCCTACCTGGGAATCTGAATTCTGTCTTTTCTGCTGCTGTGGATTCTCAGTCCCCAAG
TTGTGTAAATCAAAGCTTCTCCTGCCACACTAGTGTGTATTAGGCCAGGACTTCATAGTGTGATTCAAATCACCAACTGAATTTTTTTTTCCTTTYCTTC
CCCTTTCTGGGGGACTACGTTTTTCATGGAGACCGGGGCCCTCCAGCTGCTGTGATGATCCTCCCTTGCCAGGGAGGTGCTGTTAATAGCAAATGCCAAG
TGAGCTGGTGTTCTGTCCCTCCGGCCTCCTTGCTCACAATAGCCAGGAGGAAAAAGCCATGTAACCTCTGGATGAGTCCCTTGGCCATTTAGAAGTGAAA
TGAACATCCAAGAAGAAGCATAGACAATGTGGAGGAAGAACTCTTCCAAATGATGGCAGGGATATTTGGAATCTTTCCCCCTGAGTTCCCTCTGGAAGTT
AAAGCCCAGATCCCGTGAACTGATTAAAAAGCYSCAGACCATTCCCGTTCCAGTCATCTTGAAACTGAGCAAGACCGTGTCATCCATGGAGCTTGAACAT
AGGAGCACTTTAAAAAAAAAAAGAATGAAAAGCCCCTTTCTTGTTTTGGTAATGATTTAATGACAGAAAGTCACCCACCCACCACTTGGGTACCACGCAG
CCCACATTAAACAATTAGCCCTTGACAGTGGATAGTTCAAGTTAGTTTGAAATGAGAAATTGCCGGTGACCTGAAACCCATCATTATTAACCTTGTGGCA
CAACATTGCCATAACCAGTAGCCAACTCTCATTTTTTCTTTTTCTTTTTTTTGGTTGGAAGAAAGGCTCATTGAGGAAAGTTGGCTCAGTTCTTTTTTGA
GTGAAGTGGTCAGACCACCAAGAATTACTTTCCTTTGATTGGGAACAGGTTCTAATACAGATGTCCTTTACATGGGCAATCCACTTTTCTCATTGATTCC
ACAATCAATTCGAGCTGTGTTTATATATAGACACCTGCCCACAGAGACCATGTGGAGAAGCATTTGCGTCTCGCTGCCTGTCTTCCAAAGGATTTGCCTT
CTAGTAATTCATGTTTTTATAGCTTAACTACATTTATAGTGAACGGGTGGCTTCTTCATCCAAAGAAAGAACAAATGACAAAAAGAAAAATTTTGATGAT
TTGGGAACCGCATTTATGGAATAATAACATTCATGATACCTCTGGATAATGACAATAATTACAGTATACGATTCTAGAAGGGTGAGTCTAGCTGTTCCCA
GTGTGTTTCCATGGGTTGTTATGTGTTACTGGTCAGGCGATCAGGGATTTGCTGAAGATTTTCTTTCCCATGTGGCAGTAGATATTTCAGAACCCTGCAT
CATGGTGTCCACAGAAGTCCCCAGAGTTGTATGAGAGTTCATCTGGGCACCTTTCCCAAAGGCAGGCCCCCTGTGCAGCTTCAACTATTCACTCTATTTA
TAATGTTGTTCCTGGATATTGGGCTTGCTTCCACTTGTGGCCAGGAGAGGATATTTCTTACTCCAGATCAAAGAGTTGAGACATTGCCTTCCCACAATTC
CCAGTGAGCCCAACTCCTTACCACAATTCCCACCCCATGCCTTCCCCAAATTCCTGATGAGCCCTATGCCTTCCCACAATTCCCTGTRAATTTTGCTCCT
TCCCACAACCCCAGTGAGCCCCACTCTGTCCCATAATTCCCTGTAAATCTCACTCCTTCCCACAATCCCCACTGAGTCCCATTCCTTCCCACAATTCCCT
GTAAATCTCACTCCTTCCCACAATCCCCACTGAGCCCCACTCCTTCCCACAATTCCCAGTGAACCCCACTTGTGTAGTGTGTCTGTGAGTAGTCTGCCCA
CTCTCCTTATGACAGGTTTCCAGTATTATCTGTTTCMTAACCCATTTCCAACCTTCTGGGTTTTTTCCTTCAACGTTTTCCTGTGACAGTTCTCCATTAT
ATCTTTGTTAGATAATAGTTAGCAACCCATTAATAACTTCCAACTTTTTGAGCCTCTACCATATCTTGTTTTCACTGGGATTTCTACACCGTGGCTACTT
TGTGGGACCTGACTTATCAAGAACTTAAGCAGCATCTGTTAGAAAAGGTATTTTTTTTATGAAGTAAGTAGGGAACTAACTACCTGTTCACTGCTGCCCG
TTCATTGCTAGCACAATGCCAAGTGTCAAATAAATGYTTCTTGAACAAGTGAATAGAGTACGCTTCTAGGCTTCTGGAAACGGTGAATGTTGCTTTATGT
GGCAAAAAGGGACTTTGGAGATGTGATCAAGTTCAGGATCTTGAAATGGGGAGATGAACCTGAATTACCGAAGTGGGCCCTAAGTACAATTATAAGTGTT
CTTATGAGAGGGAGGCAGAGGGGACTGTGACTACGAAAGAGGAGGAAACAGGGAGAAGAGGTGAAGCAGGTGTGAGGCAACAATCTGGTGGCTTCTAGCC
CCTGAAAGAGGTGAGAAATGGATTATCATTTGGAGGATTCAGAAGGAACCAGCTGTGCTGACACCTTGATTTTTTTAACCCAGTGAGGTTGATTTTGGGC
TTTTGACGTCCAGAATGATAAGAGAATAAATGTGTTGTTTTAAGACCTAAGATCATGGTTATTTGTTAGAGCAGTGATCAGAAACTCATACAAGTATGAA
TGCTAAGAGTAAAGGCACCTGCCTCCCACATACTGGACCCTTAATATTCCTTTTCATGGGAGGTTTTGCAGATTGCTGCCCTCCTTGCTCTCCTTACTCT
TCTCCTTTTACTGAAAAGATATTTACTAGATGTCTAGCATGTTAAAGACTGTACCTTAAAAAAAAATCACACTCTAATTTAGCACAGTTTCAATTGTGGT
TAAGCACCATGCCATTCACACTTCAGAACCAAGCTCAGATCCATGTGTGACACTCTGGAATGTGGCAGCTGATGGAGGAAGGGGGCTGAAGTTGAATCTG
CACTAGTTGAGTTAACCTTCCCATGGTGCCTGCACTAGCAGGGACTGGACTGAGACCCCAGCTTTCCCAGTCAGGCCTTCATTTTTCTCTCATGGTGAGA
GCTTTGGAAATAGGCAGTGCAGTGTGGGAGTCCTTCCCCTAGCATGTTAGTGGCCAGCACCATGCCACACAGCCACCCAGAGCTGCAAGAGAGTCTGCAG
AGGTGATTGCCCCTTGCTAGGTGAGTGTAAACCAAAAATAAATTCTAAGCTCCCCAAGCAACTGAATGGATCCCTGCCTCTGGGCCAAGGGGATTCCGAA
ATAAACCTGAAAAACTAGTTCAGGCAGTGATGGGAAGAGGGGGTTGGATATGACTCATTATACCCTTCTTTTTTTGGAATTCAGTCACAACTGAACAGCA
TTAGCATTAAAACAGATCCTAAGGCTGACAAAACAGACTCTTTATAGCAATAAGATACCAAATTTCAACCCTACTCTAGTATAGGATCACTTTGCAGATA
GCAGGCATGGAAAGAAATCAAATTATTTTACCCCAAAATATATTTCTCTGGTATATTTCGAAATGGCCCTGCAAAGCTGTTTCTTGTCTACATTCTGTAG
AGAACATCCTTCCCTTTCCAGGTCTTTTCCTGATCCAGGAGAGATTCACTAGGAGTCTGGCACCTTTTTAGTTTTGATAAGAGATATTTACCATTTATTC
TCTCTGAGGCCTATTTCCTGGAGGCTTCATCTGCATCATAAGAACCTTGGTCTTTTTGTGGACTTATCTTAACCCAGATAGTCCTTTCTACTGATGCCAG
GTGTTTAGCTAATAACACTTTTAACCAATTGCCAATCAGAAGATCCTTGAATCTACCTGATACGGTTTGGCCGCATCGCCACCCAAAATCAGACAGTCCT
ATCTGTTGATCTCGGGTGTTTAGCTAATAACTCCTTTAACCAATTTCCAATCACAGAATGCTTGAATCCATGTGATATGGTTTGGCTACATCCCCACCCA
AAATCAGTCCTTTCTATTGATCTCAGGTGTTTAGTTAATAACTCTTGTAACCAATTACCAATCTGAAAATCCTTGAATCCACCTGATATGGTTTGGCTGC
ATCCCCACCCCAAATCTCATCTTGAATTGTAATCCCCACAATCCCCACATGTCAAGGGAGAGACCAGGTGGATGTAATTGAATCATATACTCCCGATAGT
GAGTTCTCACGTGATCCGATGGTTATAAATAAGTGTTTGGTAGTTTCTCTGCGTTCATTCTGCTTCCTGCCGCTTTGTGAACCTGGTGCTTTGCTTCCAC
TCTGCCCTGATTATAAGTTTCTTGAGGCCTCCCCAGCCATGCTGAACTGTGAGTAAATTAAACATCTTGCCTTTATAAATTACCCAGTTTCAGGCAGTTC
TTGGTAGCAATGTGAGAATGGGCTAATATACCACGTATGACTTGGAAGCCCTCATCCCCATCACTTTGAGTTGTCCTTCCTTTATGGACCAAACCAATGT
ACTCCTTACATATATTGATAGAAGTGTGCCTGTAACTTTTTTCCCCTAAAGTGTATAAAATCAAGGTGTAACCCAGCCACCTTGGGCACACGTTCCCAGG
ACCCCTTGAGACTGTCTTAGGCTTTGTTCACTCTTGTTTGGGTCGGGAATAAACTTCTTTAAATATTTTAGAGTTTCACTCTTTCAATCAACGTACGTGA
CTACCCAGAATTAAACTGGAATGCTGTTAATAAGAGAAATGAAAGGATGATGGGAGATGTGCACCCAGCAATGTCTGTCTTGTGGTCCTGAAGTCTAACT
CTAATCCTGGCTCCACTATCTGGACCATGACAGGTTGTTTAATTGTTCTAGTTAGAGTGTTCTCCTATGTAAATAGGGATAATAATTGGATGTATGGCAG
GATTTGGGGGAGGATTAAATTAGGTTATATGCGTGAAGTTCGTAGAGCCAGGGTCTGGGCATTAATACGCATTTAGTTACTGTCGCTCCTGTGATCTGCA
CAATTATTGTCATTATTTTCCCTTCCTCCTCCTTCCCCCTCCTTCCCCCTCTCTTTTTCCTTTTCTTTCTATCATCATCCATAGCTCTCTTGCCCCATTG
TTTTAAACCCATCTGTTTTTGTTTCTGGTAACTGTATCCAAAAGTAATACAGAATTTTCCGTAAGAACATTTATTGTGTTTCCTTCTACCCACGAATTKT
CTTATGCTACACACACAACCCACTGAAATTTCACCTCTATTGTATGTGGCTTTTCTAGAAACGTGTGCTTCTGGGCTTTGTCTCACACCTCCTGGCCAGT
GTTTGGCATGTGCTCACACATGCACGCACACACAGCCTGCACTATGTTTGTTGACTGAATGAATTAATATTTCACAGAATAACAAACACATGCTGATTAT
ACTCCTTGGGAAGCTAATTTGTTTTCAGCTCTGAGAGCAAGGCCAAATCACCAGATTGATGCCTTTGGCTGTGTATCTAAAGGACGTGCCATTGCAGCTA
AGTGGACCTGAATGTACAGTAAGACYTAGTGGTCACCAGAATGCATGCCACCCCGGTGCTTCTGCATGCAAAGGGTGCGGGCCATGTGCCAGTCACAGTG
GAAAAGGCATGCTTCGTGTCAGCACATTTGGCATCTCTCTGGGATCGGGGATTTATACCCCAAAACCTTGCTCTAGAGATTTGGCTTCCATTAGCAAGGG
TAAGGCTTGTAAGAAAGGAGTTTTACTCACCTTTGCTTGCTCTCACAGCTGTGTCAGCCCATTTTCATCTCTTTTCAATGTTTTAAGCCCTGAGAGAACC
CAGTTCAATTCCCAGCAAGAAATGAGCCTCTGTAACGCAGCCCCAGACCCACCTTCGAGGGTAGGGGCACCCTTGTTGTCACGATGTACAGGAGCCAGGC
TTGGCATCGGAGTGGATGCTTGGGAAGCCCCAGAGAAATAGACGAGTGAGTGCAAGAGCCAGCTGCCTGCGTGGCTTAGAGGAAGATTTCAAACACCTAG
TGCACTGAAAGTCTGACTTAATTTGTGATTTGTGAATAGTCTCCCAGAAGCTATGGGGTACAGATGTGGGACTTGTGAAAAATACCAGACATCCTGTGGG
TTAAAGAAAAAGAAAGGGGGGCGGTGGGTGAAGTGTGAGCAATTTCTGGCAGCTTTGTGGGCATTTATTATGTCTAGGTGGCACAGTGTGGTTGGACTGG
TTGGTTTCCTATCAGTTGCATTCCCTGTATGTCTTCAGCCAATTTTTTTGGTAATCCAAGGCCTGATGTATATAAACAAATTCCTTTCTTGATCATCTAA
GCAATGAACACTTAACAGAGTCAAGCTTGGAGAATTCAGTTCCTACCACAAGGTCCGGAATGGAGGATTTATAACTGGGAGACAGAAGGTATGCTGAAAG
GTACTCAAACTGTCACTTCCTTCACCCCCAGGAGCACTGAAGCAGACACTGATTCCTCTGCAGTTGTTGGGCTTTTGAGCTACTTCCCTCCTGGGGAGAT
GCGTGTTAACTGTTTMATGACTGGCAATGCCGTAACAGTGAGCAAGCAATGTGACCTTACAAATACATGTGCAGAAATGCAGATGAGTGGGCCTAAAGAA
TCCAGACTCAACTTACTTCTAGTGGTAATGGCTGTAGGAGAGATGGGGAGTAGGAGAAGAAAAGCCAAAGGCAGACTTTAGTCTGGTTTATAATGCTTTA
ATATTTTTTTGAAGGAAGAAAAATGTTCATTACTTAACGTAATAATTATTTTTAAAAAGCAGCCTGGSGGGGGGGTATTCATTTTTCTGTGGCTGCCATA
ACAAAGTTCTTCAAACTTAGTGTCTTGAGACAAGACATTTATTTTCTTAAAGTTCTGGAGGTCAGAGGTCTGACACAGGCCTCCCTGGGCTAAAATCCAG
GTGTCTTCAGAGCTGTGTTCTTTTGGATACTGTAGAGGAGAATACATTTCCTGGCCTTTTCCACGTTACAGAGACTGCCCATGTTCCTCGATCCATGGCT
CCTTTTCGGTCACCTTCCAGCCAGCAACATTGGGCTGACTCCTTCAATGGCCATGTCTCTGGTTCTTTGTCTTTTGCCTCCTCCTCTTACTTTTAAGGAC
CCTTGTCATTTCATTGGTCTCAGCTGGATAGCTATCAAGGGTCACTTTAAGGTCAGCTGACTAGCAAACCTAATTCTATCTGCAACCTTAATTCATATAA
CCTGGCGTAGTCTCGATTTTATTTTAATTTTTTAATTGAATTCAGCTTTACAGTATCTTTTGTAGGGGGTAATTTTAGCTTCTTTCTCCGTTGAAAACTT
CAAGTAAGGAAACACTTAYATTGCTAGTGAGTGGCCAGCTGGAGTTGTAGGTCTAATTCTTTTTTTTTTTTTAAGACGGAGTTGTGCTCTTGTCACCTAG
GCTGGAGTGCAATGGCATGATTTCTGCTCACTGCAACCTCCACCTCCTGKGTTCAAGCAGTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCC
TGCCACCATRCCCAGCTAACTTTTGAATTTTTAGTAGAGATGGGGTTTCACCACGTTGGCTAGGCTGGTGTCGAACTCCTGACCTGAGGTGATCCACCTA
CCTTGGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACTGTGCCTGGCTGGTTGTAGGCCTAATTCTAGCAATCTCAGCAACTGTAGGATTTCTCTG
CATTGGAGGAAGCAAGACTGAAGGTCGTCTGGCTTTATGGACAATGTGCTTAGAAGTTCATGCCATACCTTAGGTCCAGTCTTGTGACTGAACCAACCAG
ACAGGCCTAGGCTCTGCCCTAAGTGGTCAGCCTCCGAGGTGGTAGCACGCAGGGCCTCACTTCCCACTGCCTCTGTCTATGGGCATGTGCTGTGTGCCAT
TCTCTCCCCTTATCAGTGGGTTCCCAGCTGCCTGGTGTACAGGAGGGTTAAGTAGATACCTGTTGAGTGATTGTGAATRTTTTCATTCACGGGGGCAGAT
TTGTGTCCTACTAACACCAGACATGTCCTGTTTTCAGATTACTTCTTTTTCAACATCTGAGTACCTATAACATCTAAAGAATAACAGGAAAATCCACCTG
GGTGGCCAAAGTCAATGTAATGGGCAGAAAGGGCATGTGGTAGACTTGGAAATCAGACATCTTAGACTCCAACACAGGGCTCTTCCACTTGCTAGCCATG
GAACCTCAGACTGGGATCCTTGACTTCCTTATCTATAAAATATGGCTTATAACTCACCCTGTATTATAGATCTGCTGGGAACATGATAGAACGTCTGAAC
AGTGCTGGCTTATAGCAAGTGTTCAGAGATGTGTTTCGTTGTTTTTCTTTTTTCTTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTACA
GTGGTACGATCTTAGCTCACCACAAGCTCTGCCTCCCGTTTAAAGCAATTCTCCTGCCTTGGCCCCTGGAGTAGCTGAGATTACAGGCATGTGCCACCAC
ACCCAGCTAATTTTTGTGTTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGCCTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTTGGCCT
CCCAAGGTGTTGGGATTACGGGCATGAGCCACTGCGTCAGGCCTATTGTTTTTCCTACGTACCGTGATTGCTTGCTTTCTTCTCTGTCGATGTCCCTGCC
ATCTAAATGCTGAGTCCCCTTGTCTACATTTTGAGGCTCTTCTATTATGGAAGAGGGCTAGAGAGGCCATCAGAATTTGGTTTCACTAGCCTTTGATCCT
TCCTGTTTAAGGAGCTCARCATTTAGCTTCACTTCCCTGTCATTCATCAGAATTCATTCTCAGATTGGAATTGTCCAGTCTTAGAGTGATTTTTGTCCCC
AGTGACACTTCCCTTATATCCGTGCTGACACAGGTTCAGGAGACCAGGTCGAGTCGAAATCCTGGCTGTTCCGCTTTCTAACAAGCTGCTTCATCTTTCT
GTGCCTCACACATCTATAAAATGGAGCTGGGCATCTGTCTCCTTCAGTTATGGTGAGAATTAAAATAAAAAACACAAAGCACTTCTAAGAAAGTACAGGA
GAGGCCGGGCACGATGGCTGACGCCTGGAATCCCAGCACTTTGGGAGGCAGAGGCTGGCAGATCACGAGGTCAGGAGATGGAGACCATCCTGGCTAACAC
AGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTAGCCAGGCATGGTGGTGGGCCTGTAGTCTCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGT
GTGAACCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCAGCCCCCTTAGTAGCTGGGACTACAGGCACACCCCACCCTGCAGGGGTTTTTTTTTTTTGTTTT
TTTGTTTTTTTGTTTTTTTTTTTGTATTTTCAGTAGAGACAGGGTTTCTTCATGTTGGCCTGGTTGGTCTCAATGTCCTGACCTTAGGCAAGCCACCCGC
CTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATCACGCCTGGTGAATGGTGTCATTTTGATGTACTGAGCCATCTCAGTTTTTCCAGCAACCT
TCCCTCACCTTTGTGSTCAGCTAGAAGGTCAGTTAACACATGGGATGGGAATTCTTGCCAATGTCCTTCGTAAAAGAAGAACTTCTCCTTCACTCACATG
TCCTGATACTTCCTCAGCATTTCATTCTAGCCTTTCTGTCTCCATCCACCATCTATCAATCATCTATCATCTAGCTATCTATCGATTTCTCTTTTTTGGC
TTTAATTTTGTCACTTTTTCTTCTGTCTGCTATAGAAATAGCAAATTTTCTTATGTAAGAAAACTCTGAACGCGAGGCCAAAGTAGAATTTTCCCTGAAA
CAGCTACCTTTTCCTTGAAATTGTTCTATATCTAAAATCACTAGGTGAGGAGTAATAGAAATGTAGACATGAGAAGTGAAACTGTTTTTTTTCCTTGTAA
AAGCTTCATTGTGCCCTTTAGAGGATAACTCTGTAGTTTGATATGATAAAAATAATTATATGATTATGCTGAGTGAGGTGGCTCAAGCCTGTAATCCCAG
CACTTGGGGAGGCCAAGGCCGGCGGATCACTTGAGGTTAGGAGTTCGAGACCAGCCCGGCCAACATGGTGAGACCCCCATCTCTGCTACAGATATAAAAA
TTGGCTGGGCATGGTGGGGTGCAGCTGTAATCCCAGCTGCTCAGGAGGCTGAGGCAGGCGAATCGCTTGAACCCSGGAAGCAGAGGTTGTAGTGAGCTGA
GATCATGCCACTGTACTCCAGCCTGGGTGACAGAGCAAGACTGTCTCAAAAARGAATAAAAATGAATAAAAATTATGTGATTAGAGAGGGGAAAACAATC
ATTTCTTGTGCGCTAATGCCACTCAGCAGGTGCTTACACTGTCTGGTTCATCCTTACAATGACTCCATGTTATCGCCATTTTCAGATGGGTAACTCAGGT
AGAAATATGATTCCATTAGTTTAAAAAAAAATACATAGAAGATAAGAAAAATCACCAAAAATTCCCAGCCACAGTAGATGTATCTGTATTTAACTACTCT
CCTCGTGTTGAATATTTATCAGGTTTCTCGTTTTCTTTTGTTTTTGTTGTAAGTGGCACTGCAGGCCAGTTGCGGTCACTCAAACCTGTAATCCCAGCAC
TTTGGGAGGCTGAGGTGGGCGGATCACTTGAGGTCAGGAGTTTAAGATTAGCCTGGCCCACATGGTGAAACCCTGTCTCTACTGAAAATAAAAAAAAAAT
CAGGCATGTTAGCATGCACCTGTGGTCCCAGCTACTTGGGAGGCTGGGTCAGGAGAATCGCCTTGAACCTGGGAGGTGGAGGTTGCATTCAGTCGAGACC
ATGCTAGTGTACTCCAGTCTGGGCAACAGAGCCACATCTCCAAAAAGGTGGCACTGCAGCAAACAGCATCCACATGTGTGCACAGAATATTGTTCTGTTG
TGTACCTCAGATGGCTTTGTTAGGTTAGATTCCCTGAAGTGGAATGGCCAGGGAATTTAAAAAGGGTTTTGCTCTTGTCACCTGGGCTGGGGTGCAATGG
CGTGATCTTGGCTCACTGCAACCTCCGACCCCCCTGGGTTCAAGCGATTCTCCTGCCTCAGGCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACTATG
CCTGGGTAATTTTGGTATTTTTAATAGAGATGTGGTTTTGCGGTGTTGGCCAGGCTGTTCTAAAACTCCTGGCCTCAGGTGTTCTGCCCGTCTCGGCCTC
CCAAAGTGCTGGGATTATAGGCCTGAGCCACGGTGCCTGGCCAAGTCTGTTTTTTAAATCTGGAAAATGGGACTTGTTAACTTCTGTATTGTCTTTTCTG
CTGCTTTATCCAACTTTGCAATCTATAAGCTTCTGTTACTGGAAAATGGTGATGGTAAAGTAATTGCTTTCYTATGTTCCATCACAGAGGGTAGACTGCT
AGCTCTAGTATTTTTCAATGCTGCTTTTTAAGTGATAGATGTATACCATTCAGTACCAACCCTGCACCCTGGGACATGCCTCCTTGCTGAAACTACCATT
TATCTTTGTGAATTCATTATTCGTTTTTCCAACAAACTTTTATTGAACATCTAATAAGACCTGGACATTTGGCTGAATGCTGGAAGTGCAAAGATGAAGG
AAAGTTGCTTTTTGGAAGGATATTAGAATCCAAAGGTGAAGCCTGCACAGTAAGTAGGCCAGTGGTGGGATAAGGGATCCATTGGCCCAGGAAATTGGAG
GGACTTGGAGAAGGACCATCTCACCCGTCCAAAGAATGGAGGAGTAAGGGAAGGCTTCTGGAAAGAAGTTGTGTTGAGGCTGTGTTTGGAAAGGTGAATA
GGAGTTAGGCCAGTGAGGAATGGGGTGAACAACTGCAGGAACTTGAGTGATACTTTGGGGTGAATTCTCTCTCTCTCTCTGTCTGTCTCTCTCTGTCTCT
GTTTCTGTCTCTCTCACTCACATTTTAGGTAAAGCAGTGTTTCTTCCCCAGGGGTGATTGTGTTTGTTACAGTGTGATGGAGACTGGATACTGCATCTAG
CAGATAGATGCTGTCAATCATCCTACAATGTGCAGGACCGTGCCCACACAAAGAATGACCCGTCCCCAAATGTCAACAGTATTCAGGCTGAGAAACCATG
TACTAAGGCACAGGACAAGCATCGGGTTGGATAATGGCAGAGAAAAGTACCTTACCTCCTTCCAGAACCTGAGAGTGTGTGACTGTGAGTGTGTGTGTGT
GTGCACACACTTGCGTAAAGTGAGAAAAATCTGGTGTTTTTTCGAAGTCTGCCTCGTTTAGGCTCTGGACTCCTGCTCTCTGTTGACTCTGTCCAGAGAG
TAAGCGACTCAGCAGGTGTGCCTCCCCATGGGCCCCCTTCACGGTGTCCTCACCTTGATTTATTAGAGCATTTTATTCCCCCAACAGTGTTTATGACATC
CAAGGACTTGGTGGAACCATGAGGAAATGAGAGTGGACAGTGAGACTACTATCATTCATTTTCACTCCCCGTAAACATCTTCTGTTTCTGTTTTAGAAGA
CATTGCTAATCCCCTCATGCACTGGCTTTGCGAATTTCTTTTTCAGCCTGGGTTTGAAAGCAAAGTGGTAGTGACTTTTTCCTGATAGCTGCTGAAAAGG
TTCCACAGTATTTGGACCGCTGCCTGCTTCTACCCTGGAGCACAAAAGATCCAGGCGTAGAAATTGGTTCTAACAATATCCTTTTAGAGAACACCAAGGG
GATGTGAGTCACTTTCCCTTTGATTTAAAGGCACTGCGTCCCTCAAATTCAGAGTTAGAGGGTGACATGTAGTTGATCTTTACTTCCCGGGGGCAGAGGA
CCATAATTAAATGGCTGTGGAAACCCAGAAGCAGCCTACAGAAACTCTTAGGAGCCCTCCGTCTGGGAGGAATTTTTTTTTTTTTTTTTTTTGGTATATC
TGTGTTTACAGTTCTAGAAAAGTGTTGGTTTTGAGGGCAATGGAGACAGGAATGAGGAGAAAATGTATAAAGGAGAGGTTGCTGTGAGCCGAGATTGCGT
CACTGCACTTCAGCCTGGGCGACAAGAGCGCAATTCTGTCAAAAATAATATTATTCTGTTGTTTCCTAATTGTTGATTTGTGGTCCATATATTTGGTTCC
TTAACTAAATTGGAGTTCTTAAAACAAATGTTAAGAACACAACATTTAGGCACACAGTACTTGGATTCCAGTAGCTTTGGATAAATTAATAAAATCCTTC
CATTTTCTCAGTTGTAGAATGGGAATAGTACCCACCTTATAGGCTTGCTGTGGGGAGTAAGTGGGATAATAAATGTTAAGTGCTTTTAGCTGTACTGTAC
ATACATAATTTCTGTAAGTACTGGCTATTTTAAAAATTATTTTAACACTATTCTGATATAGGAAGTTAAAAAATAGCACAGAGGGGATCCCTGTGATTTT
TACTCACTTTTCTACAAGCATGACTCCTTATATAACTACAGTACAGGATCCAAACCAGGAAAYATGCCTGGGTACAATGTGAGTGTATAATTCCAGGTAG
GTAAAATAATGGCCCTTATTAGGATGTCTGCGTCCTAATCCGCGGAAACTATGGATATGCTTTGTTACATGGAAGAGGAAAATTAAGATTGCAGATGAAA
TTCAAGTTACTGATCCTGCGAAGTTAAAATCAGGAGATTACCCAGGGTTATCTGGTTGGGCACAGTGTAATTGCCAGGATTCCTAAAAGGGGGAGAGAGA
GTCGGATGAGTCAGGCAGTGAGATGGCAGCATGAGAAGGACACCGCCACACATTGCTGGCTTTGAAAATGGAGGGAGGCGGGCATGAGCCACAGAAAGTA
GGCAGCCTCTAGAAGGTGGAAAAGGCAATGAGATGGATTCTACCGTAGAGCTACCAGAAGGGAACACACCTTGCTGATGTCGTTTTACTATTTTCTTATT
TATTTTTGAGACAGGGTTTTGCTCTCGCCCAAGCTGGAGTGCAGTGGCGCTATCATGGCTCACTGCGATCCTCCCACCTCAACCTCCTAAGTAGCTGGGA
CTACAGTGTGTACCATCACGCCCGGCTAACTTTTTTGTATTTTTAGTAGAGGTGGGGTTTCATCATGTTGCCCAGGCTGGTCTCAAACCCCTGGGCTCAA
GCGGTCCTCCCTCCTTGGCCTCCCAATCTGCTGAGATTACAGGACCCTGCTGATGTCTTAATCTTAGCCCCTTCAGATCCCAGTTGGTCTTCTGACTCCA
GAGCTATAAAAGAATAAATGTGTGTTATTTCAAGCCGTGAATTTCTTATTAATGTGTCACATAGCAATGGAAAAATAAACGTTCTATGCCATTTTTATCA
CATGCGTAGGTTCATTTAACCACCGCCACTACTAAAATACAGGACTGTTCCATCTGCACCGAGGTCTCTCTGTGCTACCCCTTGAAGTCACACTTGCCAC
CCTCCGCCCTTAGCCTTTCTTTCAGCCTGTGAGGAAGCAAAACTTTTACTCTTCAGGCATCACCTCACGCGTCTTTTCTGCCTGGGAGGCACTTTTTCCA
GTTTTCCTGGCGAAATAGTCATCTTTTAAGTTCTCTGACAACCCCTCTCTGAGCATCTAATCCCAATCAGAATTCCCTCCTAATGTAAACTCTCATTATA
TCTTTTAACTTTATTTCTTAGCACTTATCATGCTGTATGGATAATGGTATATTTGGGTGAGAGTATTTGTTTCTCTTTCTCCCTAAGTAGGCTGGAAACT
GCATGAGGGCAAAAACTTAGCTTTACTCAATGTTTTCTCAGCTTCATGTACGTGACTGTATACAGAGTCTGAGCCGAGAAAACCTTCCTTGCATGTACGA
GCAAATGAGAGTATTCAAGGTACAGAACTGAAATTTTCTCTGGGTTTTTAAGTGGAAGAGTACACAAGCATTATAAGCAATTTTACCTGCATTTACTCAA
CAGACTTTTGTTTTTTATCCCCTTCGGTGTAGGTTGTCATACTAAATTGGTTCAGATTCTGTATCTGGGGGTAGTTAGACTTCTGTGAACTCCAAGTAGA
CGGTTGAACATGACTGAACTTGCACAGTGGACACATTGTGCATTTGTTTTTAAGTCCCTAGCTGTTTCCAGAAATAGTTTGGTTAATTCATACTGATAAA
ATAAATCCCCGTAAGAGCATTATTCCCCAAAGTGGGCTTCCTTTGCCAAACCTAATTATCTGGAGAAGGTATTGAAGAAGTCAACTTACCTCTTGGCCAA
ATGCTTTCTAGAATTATTCAACCAAAGACAGCAGGCTGCACCTAGGGGAAGCCAAACATCTGGATGAAGAATGAAATATCCAGATGTTTTCAAGTATCTG
GATGTTTCTAACCATCTGTTTCTCTTGGTTATTGACAAATGATCCAGCTGTTTTGCAGAAGATGGTATACCTTGCCTAACAGAAGAGAGAAGTAACATTC
TTAGAAAACTTTGACATCATCTCATCTGTACTAACACAGGATTTCTGTCTTTAATTGAAGCCATGACTTGATCACAAAAATGAAAATAGCTTCATGTGTT
TCTGAAGCTGTTGTCTTGCTTTGGGCGCCAGACTGCACAGGATTTTAGGTTAATTGTCTTGTTTACAATTAGAGTCTGCATTGTTTGTAGCTTGATTCTA
TTTATAATGTACTCACACCTTAACCAATAGCCTCACAGATGGCATATGAGAATACTCATACTCAGTGCTGCTAAAAACAGCCTGCTGCCTGAACACCAGA
GTGTCTTTTAAAGCGTAGAAAAGTTGGGTACATAAAATTTCTGTTGCAAAAAGGAATGTATAGGCCTTAATTGAAAATGTATCTTTCTGGAACAGGAGTT
TTAGAAGCTGAGTACCACCCACTCCCTTGCTCCACAATTCTCTTTTGTTTAAGGCAACACGTAGGTTCTTAGTTTTTTAAATATATATATATATACGTAT
ATATATACGTATATATATGCGTATATATATACGTATATATGCGTATATATATACGTATATATGCGTATATATATACGTATATATACGTATATATGCGTAT
ATATATACGTATATATACGTATATATATATGTGTGTATATATATATATAAAAATATATTTAAATAATGTTAAGGCTAGAGTAGAATGACATCATGGGAAG
GCTTATTGAAACTTGGAGTGGATTCGTAGTCTGCCACGAGAATCCTTGTCTGATGTTTGTGGGTGTGTAGGACTGAATTTGAAGTCCTTAAATGGATGTC
CTAACAGTGAATAAAGACGTGGGGCTTGAATTTATGTATTATCTTATTACTCTGTCATTTTCTTGAGTGGTACACCAGAGTGCATGGAAAAGTAAATGAT
TGGAAGCCGCGTGGTAGTTAAGGGTGATGATGTAGGAGTGAGAACACAGGCTTGGTGCCTGGCGTCAGCACACACATCACAGGCCCTCCCTGTCAGTGGC
TGTCGTCTGTTAGTGTTTCCAGCACAGCTCTAAAGAGCGACGCTTGGAGGCTGGGGAGAGGGGGATGGAGAGGCATATGATTCTGTTGACATTTAGTGAC
ATGCGCTCTTCCCAACCAAACAGATGCAAATGGATTTTAGTTGTGAGTGGTTGTTTAACACCTGCATAAGTGACAGACCTGCAGAGACAGGTTGTGGATG
GAACGCAAAATTCAAATCAGTGCATGAGAACAGCAGCTAAAGTGGACAGACCCAAATGTTTTGCCTAAATATTTGGCTCCTAGTTGTACAAAAAGCCAAA
TGGTTTCAATTTCATCCTATATAAACCAGATGATTGTGTATTTACTTCTCACTTGCCCTGCCAGGGGGATGGTTGGTGGGGGGAAGACAAGGACAAACAA
TTCGAAAGAGCAAATGAGCCAAAATCCATCTGGATTTTGTTAATGCTGATTATATAGTTTCTTCTGTTGTTTTTAATGTCTTCCAAGCCTTCTGTGTATT
AGCCAGCATTAAGGGGAAAAAATGACATTTTGACTTTGACTCCCTTTGTAATGTAATGCATTGTTATGTATTTCTGAAGTTTTTCTTAAGGAAATAGTAT
ATGATAATAATGACTAGCACTCACTGAGTGTTCGTGATCACCAGGATCAGGCCAAAGGTTTTCACGCTTGTGCCTTTTAAACTCTCAACAACCCAGTGAG
ANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTATGGGAGTGTTTCAATTAAAATTATGTATGGACATGGAAACTTGAACTTTTTATGATTTTCAT
GATCACAACTTACTCTGATCTCTTTCAACCATTTAAAAATATGAAAACCATTCTTAGTTTACAAGCCCTACAAACACTGGCATTGGGTTAGGTTTGGATG
ATGGGCCATTGCACTCCAGCCTGGGTGACAGAATGAGACTCTGTCTCAAAAAGAAGAAAATAAAACAGGCGTTCCTTACCTACAGCCTGCTATGATTTGG
GGTTCTTGTATTTTTTTTTGTTTGTTTGTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTACAGTGGCACGATCTCAGCTCACTACATCTCTGC
CTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGGTGGGACTACAGGCMCCCGCCACCATGCCCGGCTAATTTTTTTATTTTTAGTAGAAA
CGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGTCAGCCTCAGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACT
GYGCCCGGCCGGGGATCTTGTATTAATARTAGGGAGACAGTAAGCAAGCAAGGCTCAGTTAATGATAAATTGTTATCAGGAGACCCAGCAGTTTCTGCTT
TTTCTACCCTCCTCTTTGASCTCTATTTAAACTAATAGGTTACTGGGTTTSAACATGCCATGCAGTGGGAAGAGGCGGGAACCCCACTGAGCTGTCCTCT
AAGTGAATCATGCCCACTATTTGGTTGTGAGGCTGTGGACTTTACTTTTCACGCATGGCATTGAAAGAACAGGGAAGGGTGGATTCCCCATCTCCTCTTC
CTCTTTGGAATCAGGAAAACATGTTTCTATTCTAAATGTTCTTTGATAAATAAGATTGCATGTTCCTGGCTCCTGTAACATATATTTTCTTTTTCCTTTG
TCCGGCATACTTGACTAATTGTAGAGCTTTTTGAGCCTAAAACTGGATAGGAACCCAGTGCATGCACTCTTAAGGACTCAGAGGCCTGCTCAAGGTTAAG
TGCAGTATGGTCTGAATAATAAGCATAGATGCCCCTTTACTGAGCAGCAGCTGGGTGCTGGGCACTGTGCTAGGCATTTTTGGATGCATTTTCCTCCTCC
AACTTCACTTTCCCCTATGAGATTATTTCCTCTGTGTTAGAGACAAGAAAAATCAATTTACAGGTAGTTTAAGTGACTTGTTCAAGGCTACAGTAAGCTT
GAAGTGGCAAGGATGGGATTTGAACGTCTGTCTGCTTGATTCCAAGACCGTGGCCTTTGTCATTCAGGTCATGCTGCTTTCCTCAAGGCAAGGAACTGAG
GTTTTCTGTTGGCAGTGAGGTGGTGGCTTCTTGTTTCCCTGGTCTTAGATACTGCTCAACTCACAGTTGAAATGTAGAAGTGAAAAGTCAGACAGCAGCA
GGTGTTGCTGGGAATGTGGAGAAGTTGGAACCCTCACACACCATTGGTGGGGATGTAAAATGGTACAGCTAACTTGGAAAACAGTCGGCGGTTCCTCCAA
TAGTCAAGAGTTCCCATATGACCTAGCAATTCCACTCCTAGGTACGTATCAAAGAGAAATGAAAACATGGACCAAGACTTGTACATGAATGTTAATAGCT
GCATTGTTCTTAATAGCCAATAGGTGGAAAAAACCCTAATGTCCATCAATGGACAAATGGATAAATATGTTGTGGTAAATGCGTGTAATGGAATATTCCA
TTTTATATTCATAAAAATGGACAAAGTCCTGAGGCATTCTATAATGTGAGTGAACCTGGTAAACATGAGGCTAAGTGAAAGAAGTTAGTTACAAAAGTCC
ACATATGGTGAGATTCCGTTCTGTGATATGTCCAGAACAGAGAAATTTAGAGATAGAAAATAGATGAGTGATGACTCAGGGCTGGGGGAGTTGGGGGTGG
GCGGGATAGGAGGGGTAGAGGGTGAAGGTGATGAAAATGTTTTGCAATTGTCTGTGTTGGTTGCACAACTCTAAATGTACTAAAAATCATTGAATTATAC
AATTTTAAATGGGTGAATCGTATGGTATGTCAATTATATCTCAATAAAGCTGTTAAAAAATCTGAAAGTGTCAATTAATCTTTGCTCCCAGAGAAAACCA
CTCAGGGCCCGAGCTGCTCATGGGCACAAAAACCCATTCCTCAGATTCCTTGGCCATGCTGGAAGCCTGGCTTGTGTGAGAGCCTCAAGTCTCTGTAACA
GCCTGGGAGTGTTGGTCCCGTCACAGGGCTGTGGCAGCCTTTAAAGCTAGAAGGCACTGCTCAGAGGAACTGGTTCCTTTGAATCCTTTTCCGTCACCAT
GCAAATGTTTACAAGCTCTAATCAGGAGAAATGAAAAATCACATGTCTAATTTTAAATATGTTGCCTCTGATCACAGGTGTTGTTAAAACAGCTCTTTTA
TGACTTTATAAATACTCAGATTTATTTTGAAGCAATGTTTCATTATTCCTATACTATGATTAAATATTGAGACTATTGCTTTTCCAATTGTTCTATTGCA
GTATTTAATGAGTGCAATTAAATGGAAAAATTGCCTTTTTAACTGGTGATAGTCCATTAGTGTCTCTGTCTCTTCAGGAAAGAAAAGAAGTGAATTATTA
GAATGACAAATGAGGCAAAGTTACCACCGTGATGGAGAGGTGCGATTTCCCTCCACATAATCTTCAGTTAGTGATCTCTGTAAGAGAATGTTTTTCAAAA
GGCTAATAGAGAAGTAATGAGATCAGAAGGAGGYCAACCCGGCCTTCTCCGTTTGGCAGCTTGATTAATTTATTTCTCCTTCTTGGAGATTGCTGCAAGG
GGCTTTTGTCACCCTGTGTTTTTCATGGGACTGTAACCTGAGTGACTGCTGATATATTAGCCTTGCAGGCAAGGAAGCAAGTCCGTTGCCCTGGAATGGA
AGGCATAGGAGTTAAGGGTTTGTTTGCTTTTGCAACTTGAACACACTCATTGGGAGCTTTGGATAATGACAACAATGATGATGATTTTAAGAGTTAATCA
AATTAAAGGCTATGAAATGATGCCCACTGTGGATCCTGTGCCTGGTGCTCAGCACATACAACATCATTTCATTTTCACAGCCCTTGTGACATGATAGGGC
TCTTTTGCAGATGAGGAAATGCAGGCTCAGAGTTATCTAGCATTGTACCCTTAAGCAGAAGGGGGAGGTAGGAGTGAATCTCTGTCTGCCTCTAAACTCT
TGAGCTCCCCTCCAGAAGTCCAGGGCTCTTAGAAACTTTGTACTCAACCATTAAATTGTTGCCATTGTGCTGAGGAGCAAGGAAACTGGGATCACACAGC
TAGATCACAGTGGGGGAACCTGAATTATGGGGATGCTCACAAAAGGGCAAAACACAACGGTTGCTGTCATTTGATGCTTTATGTTAAGTRTGCATATGCT
CAGTTRCAGAAACCTAAATTGCTAAATTGCAAGGCTGTATATGATATGCCAATTTGGCATATTCTGTCTTTTTATATTCTGCCACCCCTATCATACTTAT
GAAAATGCCAGGTTGTAATCATTCACTGGGAGAAACAAGGGGTTGAACATTGTTATCGCACAAAGGAAGCTGGGCCTAGTAAAGGAATGTAAATACTAAA
ATGCCAGCATCACTGTTACTTACTGTGTTTATACTGGATGTATTACTTAACCTCTCTGGCTTTATTTCTGCCCGCCCTCCCCCCGCCCCCCCCCCGCAAT
GCCTCAATCTGTGGCAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTAGTAAATAAGATAATTTGTTTCTGCCCCCCAAAAGATTAAAATATAGATTTTTTTCAA
AGTCTGTTTTTTTAACACCTACGGTCCCTGAATATGTTCGATTGAGGTTTGTGTCTGTAATTTGGAACGGCTTTTTGTTGCAACTAAAATATTCATTTGC
AGAAATTATCACTGAGGGTGTTAGCTTCTTTATGCTTGCGTTTCTTGCATTTGTTACTAAATAAAATATTTAGAAGTCACGTCGATTTTCAAAATGATAG
TTAAGGATGAAGGTAATATTGGCATATTTATTTTTATCTGTGTAATTTTTGCAACTTATAACCCCTTCAGGTCCAAATGAAACAGGCAACCAGGTAATAA
ACCAATTACGTTCTAATACAGATTACTTCATGACAGTGTCTTATTTTCCAGTTTATATGTAGGTGAGATTCTTTGGAGACCGTCTTCGTAATATAGCTAG
TTTTTGTCCATTCATTTTGCTTTGACTTCCTTGTATAGGTACAAAGGTGTAAGTAGGAGAGTCTACCAGGCAGCACACAGAYGTGGCCCTGTAACCACCC
TTGTGTAAAATCAGAGTAATCCTCCCTATCCTTGCTTATTTCACTGGGTTCATGGGTGATGACTGTAAATGACACAGGAGACAGGGAAAGAGTTTTGTTA
TCCTGATACACACATTCTTAAATGCCTCTAGCTGTGTAGACATTGGTTTGTCCATATTAATAGTATTTYACGAAGTGCCAGTTGTGTGCCTGCTTTGTGG
CATATGCATTGGCATTCATTGCTTTATTTAATTCTTCCAACAACGTGTCAGATGTCTGTTCAAATTATTCCCCCCTTTACAGACACAGAAACTAAGATTT
AGAGAGGTTATGCAATGTGCCAACAGGGAGAAGTTGGAGCTGGAATTTGAACCAGGCTGGCTGACTCCAAAGCTGTGTCCTCAAGCAGTACATCAGAGCC
GAGGAAGGTCAAGTTTGGAACGCCATTTAGCTGCTCTCAGGGAGTCTGATTACTGTTTCTCTGTTGAGGCTCAGCTCAAGCCTTCCCTGGGCCATGAAAG
ACAACTTAGGTTTGGGTGTCCTGTGTTTGTACCTTGTTTTGTGCCCACCTACATCCTGGGTTATGTCTTTCCCCACCCCAAGCCTTTTTTGCCATCTCTT
TTTCCCAGAAAGACTGGAAACTTGCCTAAAGAGACAGAATCCCAGATCCCAGATGGATCTACTATTTTAGAATCTCTGCTTCCGCATTTCTAAAATCCTT
CCCAGAGAATTATTTGACTAGTTAAAGCTTAAGAAACACCCCAGTGGATTATGAGTGCCTTCTAGCCAAGAATGGGTATTTCCTCTGTGCAATCTGAGGG
CCCGGGACACTCCTCCAGCGGAGTAGCCTGTGATTTGTATGGGCTGCATGAATTCCTGCACTAACAAGGTAAAAGAAGGATGTTAAAGAAAACCCGAGAT
CTTTTGGGTACATGCTATAAGGTGAAAGGCTTATTTCCATTTGCTCAAGAACAAACATCCATTTGTCCACCCCAAGTATTTATATAGTTCAATTAAGCGG
GCAGGTAAACTGATTTTTTGGGTGGTTAATGATCTGATGATTTTCCTCTCTGTCATTGTGATTGGATATGATAATCTGAGAGTTGCCCAAATTAGTGCCT
TTACTGTAGTTATAATAATGTCATGATGACTGAGGATCACTGAGTGTGCCTTTTGCTCTGTTAAGTGTGCATTCAGAACTTTACTAACATGGGTTCCACA
GGAAATATTAGCCCCATTTTGCAAATGAAGAGGCTGAGGCTCAGAAATTTAAAATTGCTTCATGTCGCACAGTTCAGTGTAAAGTTGCAATGCAAACTAA
GATGTTTCTGTTGCTTATAATCTTAACTATAATAATCATAAACCATGTTCTGTTGCTCAGAACCCTTGTACTTATAATATAAAACAATCTTTTTAACCAA
GATTCTTCGCTTGGGTATTCTGAGTAGCATGGAAGAGCATTATACTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTAGCTCTGTCACCCAGGCCTG
GAGTGCAGTGGTGTGATCTCGGCACACTGCAACCTTCGCCTCCCAGGTTCAGGCGATTCTCCTGCCTCAGCCTCCTGGGTAGCTGGGACTACGGGAGCAT
ACTACCACACCCAGGTAATTTTTCATTTTTGGTAGAGACGGCGTTTCACCGTGTTGGCCAGGCTTGTCTCAACCCCTGAGCTCAGGTGATCCGCCTGCCT
TGGCCTGCCAAAGTGCTGGGATTACAGACATGAGCCACCAAACCTGGTCAATTTTCTATGGGGTGTGTTACATTTTTTAAAATTTTATTTTACTGTTTAT
ATAGAAAAAGTTGCCTTATCAACCATTATAATCATGGTATTTAGTGAGTGTAATCTGTTCTGATGTAATACTTAGTTTAACTGGTAAAAAATATTTTGAC
AGAATTTAAGATTAGTTCTTTTTGCTTTGTCCGTCAATGTGAAATAATCAGTATATCATATTTATAGAATTCTGCTAAAACATGCATATATACATAAACA
GATATTCATCTTAATTGATGTTAATTGAGATATAGGAGTACTTCATTAAGTCTCCAGAATACATACTTCATAAGCAGGAGGCATATATGTTTGTATATAT
GTATGTACATAGACTTSATACACATGAAATAAAATTTCAAATGGTTCCTCTGTTCMGCAAACGTGACCCAAAGTTTTGGCTTATTTGGCGTTTTGTTTTC
TTGAAGACATACTTGAATTTTAAATAGTTAATCCATTTAAGAAGTTTCATTTAAGGTACTGTTAAAAAGAAAAAACACAGAACAACACAGTGAGAGCAGA
AAAGGTATCATCTCCTCYCCCTCTTCTTCTCTTTTAGAAACCTTGCTGCGTGATCCACTGATGGTAAATATTTCATGTACTTTGCATATCAGCCTGAGTT
CCTTTTGTGAAGTCAGGTAAATGGAATGTAAATCCCCTCGTCCTCCAGACAGTAAAACGGCATTATTTGATGTTACATCGCATAAAGATGCAGATTTGAT
TCCCCCTTTACTCACACTATAAAAACAAAGTTTTTAAAGTGGTTAGCCATACCTGGAAATGTAAATGCATTCGCSTAATGTAATGCCAAAGAAAAATTAA
GACAAATGATACCACATCGCTGCCACAAACTGCGGCTCGTACAAAATTCACTTTAGTTATTATGCTGTGAATACGGGCTCTCACCCTCCTCCGTGAATGC
ACAATTTATGTTGAATGCAACATGAATCATTTTAATAGACCAAGCAAAAAGTCCCCAAAGTCGATTTTCAAATTATGAACCTTGGAACAGAATATAACAA
CAGCGAACAACAAATAGTTCAGACTTTACTCTGAGCTATGAGTGAACCATTAAAGATACAGCAAGCACTTTCGGTGAGGTGTTACACAATTCATAGCCTA
ATGGCAAAAATATCAGAAATGGGGTATTTTTTAATGCTGTTTTTCCAGCCATCATTCTGTTCAATTATTTTCACATTTGTGTAATCAAGATATTCCCAAA
CAGAACATAGAGTTGTGTATTGTTGGGAACTAATTATATGTATTATAAATCCAAGAATTAATTTAAATGACCCAGTTTCCACAGAGAAAAAGCCACATTG
TTTTTAMATAGCTAACTAAACAAAATGCTAACCCATATGGGAGAAATTTCCAAAGAATTAAAACCACCCACCAGGAAAATGGGAAAGTCTCCCCTCCACA
CACACACACACGCRCRCRCGCACACACACACACACACACACACACACACACAAAATCACCAAATCACACCTGAACAAGAGGAAGAAAATTAAACTCATTG
AGGAGATACCATCTTTTTTAAAAAAAAAAAAAAAAGGCAGCAAAATGTGAGATGGGCGTTTATTATGAGATACACGAAGACAGAGACCAGAGGTTCCCCA
AGTAGCCCCTGGACCTGCAGTGTCAGCATCACCTGGTAGCTTGTTAGACATAGAAATTCTTGGGCTTTATTCCACACATAATGAATCAGAAGCTTATGGG
GTGGGGCCTGCAGTCTGACGTTTATTTTTTCTAAAACTTTAAGTTYCAGGGTACATGTGTAAGATGTGCAAGTTTGTTACATAGGTAATCATCTGCCACG
GTGGTTTGCTGCAGAGATCAACTTATCRCCTGGATATGAAGCCCAGCGTCCATTAGCTGTTGTTGCTGATGCTCTTCCCACCACCTGCAAGCCCCAGTGT
GTGTTATCCGCCTCCACCGTGTGTCCATGTGTTCTCATCATGCAGCTCCCACTTATAAACGAGAGCATGCAGTGTTTGGTTTTCAGTTTCTGCATAAGTT
TGCCTAGGATAACGGCTTCCAGCTCCATCCATGTCCCTGCAGAGGACATGATCTCTTTCCTTTTTATGATTATATAATATTCCATGGTATATATGTACCA
TATTTTCTTCATCCTATCATTTATGAGCATTTGGAGTGATTCCGTGTCCTTGCTATTGTGAAATACCATTTGACCCAGCAATCCCATTACTGGGTATGTA
ACCAAAGGAATAGAAATGATTGTATTATAAAGGTACATGCACATGTATGTTGAYTGCAGCAGTTTTCACAGTAGAAAAGACATGGAATTCACCCAATCCG
AATTTTAACAAGTCTTCCATGTGATTCTGAGACAGACTCATGTTCGTGTGGTTCTGGCTCTGCAGAACTGAGGTGGGCCCCAAAACTTGMGTTTCTAAAA
GGTACTAGCTGAGCATGATGACTCACATTTGTAATCCCACCACTTTGTGAGGCCGAGGCSGGTGGATCGCTTGAGGCCAGGAGTTTGAGACCAGCCTTGC
CAACATGGTGAAACTCCATCTCTACTAAAAATATAAAAATTTGCCGGGTGTAGTGGTGCACACCTGTAGTCCCAGCTATTTGGAAGGCTGGGGCAGGAGA
ATCGCTTGAACCTGGGAGGCAGATGTTGCAGTGAGCCGAGATCAGGCCACTGCACTCCAACCTGGGTGACAGAGCCAGAGTCTGTCTCAAAAAACGAAAA
ACAAAAAAAACCAAAAGACTAAATGTATAAAAGGTACCCAGGTGATGTTGATGCTACTTGTCTTGGCCAATGAAATGAAAAGCCTACAGGCCAGGCATGG
TGGCTCATGCCTGTGATCCACAACTTTGGGAGGCTGAGGCAGGCAGATCACCTGAAGTCAAGAATTCAAAACCAGCCTGACCAACATGGTGAAACCCCAT
CCCTACTAAAAATACAAAAATAACACCAAAAAAAAAAAAAAACCACAACAAATTAGCCAGGTGTGGTGATGTGGCCTATAGTCCCAGCTATTTGGGAGGC
TGAGGCAGGAGAATCTCTTGAATCCAGGAGGTGAACGTTGCAGTGAGCCAAGATCTCACCACTGCACTCTAGCCTGAACTTCAGAGAGAGACTATGTCTC
AAAAAAAAAAAAAAAAAAAAAAGCCTACAGTTGACAGGCAGATAACAGAGGGAGCAAAGGAGTCTTGTGGAAGACAATAGGGAGTGTTGAGGACCTGTCA
AACAACACAGTCCCCATCTGTACTTTGGGAGGGAAGGACTTCTTAATTCCAGCTGCCTGTTGCCATGGGGGAACATAGACCCAGAACTGCCATCYTTTCT
AATTTTTTTAAAAATTAAAAGGCTAAAAGTTTTGGCTTATAAAAATGGTATTTCCTGAGTTTTTACAATTATAGTATTAAGATATTCCTAGGTTTTTGTT
TGTTTTCGAGACGAAGTTTCGCTCTCATTTCCCAGGATGGAGTGCAGTGGTGCAATCTCCTCCGCCTCCCAGTTTAAGCCATTCTCCTGCCTCAGCCTCC
TRAGTAGCTGGGATTACAGGCGCCCGCCACCATGCCCGGCTAATTTTTTGTATTTTTTAGTACAGACGGGGTTTCAGCATGTTGGCCAGGCTGGTCTCAA
ACTCCTGACCTCACGTGATCCACCCGCCTTGGCCTCCTAAAGGGTTGGGATTACAGGTGTCAGCTAGTGCACCTGACCCTAGGATAATCTTAATTTTAAG
TAACTGGTAACTCATAAATTTTTAAACACTCTGCAGTTCAAAGAAAACATGTTTGTGGTAGGTAGYCAGTTTATAACCTGTGTAAGACTGTGTTATTAGC
AAATCCCTCAATGTGTTGACCAAGAGTGGGTAGGAATCCTGCAGACAGAATCTTTTGAAGGTGGTTTGTTTTTTTATTCCTTTATAAGTACWGTTGTAGA
TTTACAAAGTAATTGAGTATATAGTACATAAGGTCTTGTGTACCCACCGATCGCAATTGAGCATATAGTACATGCTGTCCTGTGTACCCACTGATCCCTG
GTCCTGCCCCTGGTATGAGGGTATTAACATYTTGCATTAGTGTGGCACATTTGCTACAATTAATAAACCAATATCGATACATTATTAACTAGTCTATAGT
TTACATGAGGGGCTGCTGCTTGTGTTGTACATTCTATAGGTTTGTTCAATGCATAATGACAGGTGTCTGTCATTTCATTATGGAGTGAAACCATTCCAAT
TTCATACAGCGTAGTTTCACGCCTCTAAAAGTCCCCTGAAAGTGTTATTAAAAGTACTATCTGGCCATGTCCTCATTTCCCCAGCAAAGTCCTTCTGAGA
ATTTAGGCGCTTTAGGCTAGAGGATCTCAGTGCTCAGAATGAAATATCCCTGTACTCCAAGATGCCTCCAGCAATTATAATTGAATCTTGAAGCTAGAGT
TTCTTGGCTATCCTATTTCCCTTTTGTTTCCACCATGAAGAAGTGGAGAGCCGTGTGACSTCAGTGGTAGAGCTGATGTAGAAGCGCCCTCTCTGTTCCT
GGCAGTGCCTGTCCTGCTAACCTCGTGTCTCTTGCTGGGGTCTTCATCAGTAAGAGACCTCACAAGATGCTTTATCAGGTCACTTGGCAACCAAGCTGAT
GAGGATAGCAGTTTCTTTTGTTCTTTTAAAACATATATAAAATTATTTTTATCAAACATGACAGATCAAAAGCCTTCTGGAAAGGAGAGATGGTAACTAA
TTTAGGCAGTGTCTTTTGCTTTCACATGGTGTACCCAGTACTATTAATATGAATTTATCACATGGAAACAAACTTTTAAAAAAATTAATTTTGTGAATTA
AATAAAGCAGCATGCAAATTTACTATCGTATTCAGCAACCAAAATTTTATCACTTGCCTGATACTGCCTAGTGAGCAGGTGGAAATGTAGACACCCAAAC
ACCCTTCATGGATTCCCAGCTGCTGAGAGTTTGAATAGTATGTGAAGTCTGTAGAGACAAAATTGTTGTTTTCCCCAGTTGTAAAGTGTGCAATATTATC
CTTGCAAAATTGTCTGTTTATTTTTTTTGCCCTTTTGGGGGACAAAATGTCTTTATGTTAAATTGTTTTATTATTGTTATCTTTATGGAGTTAAGGGCAC
ATAAAATATTCTTACAGAGAGARATTCTGTAGTTTCCACAAGTAACCAGAGAATTGTTCATGGCAGAGAATTATTTTTTCAATGCCTATTTTCTCCTGAA
TTTTCTGACGGAGTTAGAGATAGGAAAATACCATAATCTGCTATAAATTCAGTTGAAAAATAGAAATAGTGAGAAATCCAGGTTGTGCTCTGTCGTAATT
TAAGCCTAATATGTGATTGTCTACATGTTTACAAGTTACCGCCTTTTTATTTCTTCTCTTTTTCTGTTTTCTTCTTCCATTTTTATGTTTTGCTATGCCA
TTCATTCATTCTATTCTTTTCATTTCTTTTTCTTTTTGTAAAAATTGTACAGAGTTTAAARTTAGTCAGGTATGTCTATTAAATTTTTACGTAAAAAGTT
AAAGCAGCCCTCAGCATCAACTTYTTCTTCATTTCTAACTCATTTAGTGAATTCAGTTGGTCTTTATATATGTAGCTTTAAGTAATTGCATGTAAACTGT
TACTTCTTCATTTTCTAGTCTTAGATATTATCTGTAGGTTTTTCAATAAGAAGGAAATTTAGCTTCCTTCTACTTTGGTGCCCCATGATGATGTGCATCT
TTTTTATTTCTGCATCATATCCATATAGTGATATCATGTATAATGATGTTTAAGAAGACAGTTWTTTTTGTTTAAATTGTTATAAATAAGTAAGTGTATG
CACCACTATGCCATGTAGCATATCAAGATTATTTTTCTTTCCTGCACCTTATWTTTTCCCTGGAGTTAATACTCATCTTTTTTTAGAAATTTGCTGAGTT
TGTGATGTACCTATCATTCAACCTCAAACTTTCATGTGATTGTCTAAATCTCAGTTCCTTTTATTAGAAAAAAAAAAAAAAACAACTCCCCTGGAGCCTT
TGTACCTTCTGYAGTTTGGGGTTGTTGTCCTTTTTGCTTGGTGCACAGGAATACTTGGTGATGTTCTTTTTAAAACTGCCCTCACATTGTATCCTGGAAA
GTTCATTTACCTGTACCCGGAGTTGGAACTTCTCTTCCACATCTTTTCCTGTATTGGTTTGGTTATTGTTTTGTGGGAGCATGTCTTGTAGTAGCTTTCT
GAAAAAGGATGATAGAATATGTGTGTGTGTCTGTGTGTGTGTATTTCAGGTTTCAAAATGTTTCTGTTCCATCCTCATTTTATTCATTGTTAGGGATAGA
ATTACAGATTTAAAATCAATTTTGCTTCAGAGTTTTAAATTCTATTTTGTGGCTTTCTGTGTTGTTCTCGGGAAGTACAAACCCTTGTGACCGCTGTTCT
CTTTCATTTCTATCTGCTTCTCTCTTGGGAGTACAATGGGAGGCATATCATCAACCCCTTGCTGCTATCCAAATAGGAGACTGTTCCCTTTCAAGAGAAT
TTTAGGTATTCAGATCCTAGACCTCCCAGATGGCCTCATAAGTATTTTTATCCTCTATTTATCTTTGTCTTTGTGTTACTTTCAGGGATAGTTCTTCTAG
TCTTTCCATGGNNNNNNNNNNNNNNNNNNNNNNNTTTCCATGGATGATGTTACTCTTTTAACTCTCTGATGTTAATGATAAATTGTTTTAATTTTTCTTT
TCTGTTTAGTTTCTATCTTCTCAAAATTGTTTTCATTTGTTTTGGTAATTGTGTTTGATGATAGTCTTTTTTTTTTTTTGAGATGGAGTCTTACTGTGTC
ACCTAGGCTGGAGTGCAGTGGTGTGATCCTGCCTAACTGCAACCTCCACCTCCCAGGTTCAAGTGACTGTCCTGCCTTAGCCTCCCAAGTCGCTGGGACT
ACATGTGCGTGTCACCAAGCCGAACTAATTTATTTTTATTTTTTGTATTTTTAGTAGAGATGAAGTGTTTACCCTGTTGGCCAGGCTGGTCATGAACTCC
TGACCTCAGGTGATCTGCCCATCTCAGCCTCCCAATGTGCTAGGATTACAGGCATGAACCACCACACCTAGCCTCTTGATAAAGTCTTTCCCCAAATGTT
CTGATCTGTGGATGTCTGTTTCTATCTAAGTAGAATTCAAAGTTACTGCTGCCAACTCTTAGCACATGGCCACGGCCAGTTAACTGTGGACTCCTCTGAA
GGATGATCTGGCTGGACTATTTTTTGGGAAAACCACTGTGTTTGAATGTTTGCATGTGTCCTGTTGGCAGAACAAATATCCCACAGAAGGATCTTCTTAT
CTTCTGCTTGGGGAAGGTGTAGCTCTGACTGCTAGAGTTCTAGAGCCAAGTGAGGGGGAGAGTTCTGAGTCTCTGCATTCAGTAGGTAAACATTTACAAA
GTCTGTGTTTTCAGTATCATGCCACTGTTCTCACCTGTTTATGTTCTCTTCTGATAATAAACTTCTGTCATTTTTCTGGAGTTATGAAATGATGGTATCC
TGCTGGGCTGAGTGGGGAGGGATTCTCAAGCTGTACATAGCTGACACACAGGTTTCTAAAAGGTTGTCTTTCACCCCCATTTTCAGAAGTACCAGGTTCC
ACATTTTCTGAGCCTTTGCTGGCTCTCTGATAGGAATTGTGTTACTTCTCAGCTGTCCCCATGGCTAGCTTAAGACTCAGCTCTCTTAAGTCACTTCCTA
GTTGTCCATCTGCTTTCCAGCATCCAACTGTAATTTTTTTTTTTTTTAAGAGAAATGAAGTCTCATTTTGTTTCCCAGGCTGGTCTCACTGTAATTCCTG
GGCTCAAGTTACCTCTCACCTTGGCCTCCCAAACTGCTGGGATTATAGGCATGAATCGCTGTGCCTGGCCTCAACTTTAAATTTTTATATTGAATAATCT
TTGATTTGTATTGTCATGTTGTTTTATAGCAGTTACTGCTGTTTTAGTGTGATTTGGGATGAAAATTTTAAAAAATCAATATGTATAATCCACCATCTTT
GTTCCTTTTATTTTTATGTTACTCATTCTTTTAAGCTTGTCTTAGACGTGAGTATTATGTTTTATTTTGCTGGGAGAACAATTTGGGAAAATTTGAGCAG
CAAACCATAAGTTTCTTGGTGTCTGTGTACTTGGAGCTCTGAATCACTATTGTCACTGAGGGAGTGGACAGGAAGTGATGCTGAGATAAGTCTAGATGGG
ATAGGTGGGCAACATGCAGGAGAAACCTCCTGGGAAAGGTGAGCAAGAGCACACAGGTGAGACATAGCATCGAGTGTGGAAACCTCCATGGGTGGCAGGT
CAGTGTTGCTGAGGGATGTGGACATGTCTGAGGCCAAATAGATGAGTCCCTATTGGGTTTTGCCTCTCCACAATCTAGAGGAATATTTATGGAAGGTTAA
CAGGGCATGGTGGTGCACACCTGTAATTCTAGCACATTGGGAGGCTGAGGTGAGAGGATTGCTTGTCTTACAGGAGTTGAAGACTAGCCTTGGCAACATA
GCAAGACCTCATCTCTACTTGGAAAAAAAAAATTAGCTGGGCATGGTGGTGCTCACCTATAGTACCAGGTACTTCGGAGGCTGAGGCAGCAGAATGGCTT
GAGCCTGGGAGATCAAGGCTACAGTGAGCTGCAATTGTGCCACTGCACTCTAATTTAGGCAGCAGAATGAGACTATGTCTCAAGAAAATGTTCAAGAAGA
AATACAAACTATTGAAAAAGGAAGGCTGAATGCTTTATCAGAAAACTGTATTTAGAGGGGACCTTTCTGGGGTCTTTTAGTCAGGGTACATAAGTGTCAG
CTGCTACGACAAACAACTTGCAACGTCTCATTATCTTCATACAACAAACGCTGATTTGTTCCTTTCATTACATAYCCAGTGTGAGTTGGCTGGAAGGTCC
ACCCTACACAACCACTCGTGAAGGCAGACTTGAAGGGGACTCCACTGTCTTGGAGCTACACTCTAAAACAAATAGCCTCCAAAGTCAAGGACTCTGTAAC
AGGATGAAGCAGCATTTTTTATGGGCAGGTTTGCACGTGGCATTTGTTGCTTCCATCAACATTCCACTGGCGAGAGTGAGTCCCTGGCCCCTATGTAATT
ATGAGGGAGGCTGAGATGTGAGAAGCACATGGGTGTTGGGAGAGCACTAAAGGTCTCTAGCCCAGAAGCATGACTTCCAGCCAAGTGAGACAGGGAAGSC
CAGAAAAATGTGTCACAGAACTTATGGCATCAGAATCTGATTCCCAGGCATGCTTTCCACCATATGCATAGACATTTGCACCCCAGGGATAGCACCATTA
CTCCCAAAAATTGCAGGTTTGAAAGGGTACCTAAAAACAAGCCACCAGATTGTCCCATTCCACTRTCATTCTGCCATCAACACCGAGGTGTCGGAGTAGC
AGKAGAGCCACATATTTCTTAGTGAGGGGACCCAGAATGATCCCTTTTGTGCTAGAGGATCTGAGTTCATTTCATGAAACTGAAGCATCTTCTTGGAGMT
ATAAGCTCACCTTGGGATRGGCCCTTGCAGATGACAATAAAGGTATTTTGGCACATAAAAAAACTGCTCAGCACACCTTGTATTTGTATTTCCTTTGACG
TGAACCATGGCCATCCAGTAGGCCACGCAACATTCCCACTGCCATGTTGGCTTGTTTTTCTTTTGTTTTCTTGTCAACATAAGCCTCATGAGACAACAGC
AGGATGCAAGATTGTACAATGRCACCATGACTCTGYTTTCTGGGTGTCCTCTGTGGGCTCTCAGCAGTGTCCCCGATGTGGAGGGTCTTCTTAYTCTGTG
TGTGTGCCCTCTGCTGTTGAAAGTTGCCTGTCACCCATGATGCTGTGCTGATTGAGCAAACTAATCCATAACCCACCGCCACGTTCCTCGCCTACTTGCT
TCTAGGCACATTAAACGGTCAGTGCACAGGTCCTCATTTTTCTCATGCTTCCATTTCCATATTCTCAATCAATCACTGATGGCCAGCTGTCAACAGGCAY
CATTTTTGGTGGGACCTGAAGATGTATATCCCTTGTTTTCAGATTCCTCGCCTCTCATCATGTAAGGTGATGCTCTGAGCTGGGTCTTAAAGCTTCTGGG
CACAGCCCCCCTTGAGTCTTCATTATGGCAAATCTAGTGCAGGTGCTGAGAGGCGGTAACTCTTTAAAGGGACAGGATATGGAAACGTGGCTTCATGGAC
AGTATTTTAGTATATTTCTGTAAATAGCACATGTGCTAGATAGCAGATTTGTGTATGGATATGCACCCGGCTAGGGACCTCTTTAATGGTCATTCATTTG
GGAGATGACCTTTGGTTCCTAAACTGGTGGACATACCAAGGACTAAAGGAGTGACTTGYTCTCAGTTCTTTGTCATTCAGCTGCTTTAATATTAATATGA
CACCCGTTTTGGGCTTGAAAAGTTTTCCTTCTGCTGAGAAATGATGATGGTGACAATGATGACAATGACGATGACCCTTGGTTGGAGCAATGTAGTCTAA
ATGTGGTTGCATCATCTTCTTTCTTCCTTTGCCTTCCTCCCTTGCTCTTTTTCTGCCCCTCATGCCGGCTCCTTCCTCCCACATCACCCCACATTTTTTT
TTCTTTCTCCTCACCATCAAGAAATGTTCCAGAATGCCATTATTCTTCGTCACCACGGTCAGGTATATCATCCTAAGGGCAGAGGGTGAAGGTGCGTAAT
TAGTGTTTCACCAGACTGAGCATCATCCTCGGTGCAGGGGAGAATGGCTGGTATTTATGAGTGAATGGCAGCGTTTTGACAGGATGATGAATAAATATGC
TGGGCCCAGAGGACTCCAGGTGATAAGCATTTCTTTGTGGTCTGGTAAGTGATAGCACCCATTGCTTAATTTCTCTAAAATCTGCATTTGTCAATTTTGT
ATTTTTTTATTTGAAAGGTATTTGCTTAAATAAATAGGCCATATAAATCTAGCTCCCAATGTCCATTTTCAAATGATTTCCAGCAAGGAAGATGGAATTA
CCACGAGGAACCTGTTCTCTTATGTTTCTGCTTAGATGGCTGGGTCTATACCAGGGTTTATTTAAATGAACACAGGAAATGCCATTCACCTTTACCATGA
ATGGGAATCTTTGCCTGTGACTCTATCGTGTGAATTAGCAGAGCTTGGCTATTATTCCCCTACTTCGGTAGATACTGGCTGTACAGAAGGGAACCCCAGT
TTCAATGAGTACCTATGTGCTGGGCACTTAGCTGGTTTTTACACACATACTTCATTTGAAGGGAAGGAATTGACTGAAAAGAATTCTCCATTCCAACTTC
CCAAGTCAGTTGCCATTTGGCCCTGATAAAGCTGTACTTTCTCACTTGTTCCTTATTTAAAATAGAGAAAAGTGCATCAAGCTCTTGTTAATCTGTCAGG
CCTTCCTAAGATGTCTGAAGAAGTTAGTTTGGTGAACATGGGCTTCAGGGTCAGACTGCTTGTGTTCCATTCTTGATCCTATCACTTCCTTGCTGCGGGA
ACTCTGGAAAGTCACTTAACCTCTCTGAGCAAGCTTCCATTTTTCCAGGTGAAAACGGGAGTTTAGCCTAGTCCCCACTTGATAAGATGGTTGTGGAAAG
TATTGTGCGTCATGGACCTAAAGTACCTAGGAGATTGGCCTGGATGTCGTTTTCTCATAAAGTTGACTATGGCTATTGGTGGTACTAGTATGNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCAGGTGTTGGAGACCAGCCTGAGCCCCATGGCAAAACCCCAAA
AAAAAAAAAAAAAAAAAAAAAAAAAATTTTAGTCGGGTGTAATGGCACACCTGTAGTCCCATCTACTCGGGAGGCTGAGGTGGGAAGTTTGACTGAACCT
GGGAAGTCAAGGCTACAGTGAGCTGTGATCCTGTCTCTACACCTCAGTCTGGGTGGCAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAG
TAAAATAAWGCATGGGAAGTCCCTTATACAGTTTGTGATATGGGTACACACTCAGTGAAATGGCCATTAATACTGCTGTTCTTAACTCTGAAARCAGAGT
GGGCCATTTGAATGCTCACTTTGATATTTTTTAAAGGAAAAATTTGAGGCATTGACACATGCCTTTTGCTTACTYGCTTGGATTGGTTTGATCAACTTTG
TTGCGGTCTAATTTATGTAWAATAAATTGCATCCATTTAAATATACAATTCAATGAGTTTTGACAGATGCACATGCCCATGAAACCAACACGAAAATAAA
AAAAAWAGAACATTTACGTCACCTCAAAAAGATTTCAAATGCCACTTCTGTGGTGTATGACTCTGAGTCCAGACAGCCTCAGCTCCAGGAAAACCCTGGT
CTGTTTTCTGTCACTATTGATGAATTTGCATTTTCTAGAATTTTAGATAAGTGAAGTTTTCTAGTACTTGTTCTGCATCTGGTTTCTTTCATTCCACATA
ATTACCTTGGGATGTACCCATACTGCTGCCTGTATCAGTGGCTTACTCATTGTCATTGGTGAGTAGTACTCCATTGTGTGGAGAAATCACATTGTTTTAA
AAATACCTAATTACCTGCTGATAGACATTTGGGTTCTTCCCAGTTTTTAGCTGTTGTAAATGGATACTAATGTGAACGAAGCCACCGTGAATATTGATGC
ACTAGTCTTTGTGTGGACATATATCTGTTTTATCTTGGGGGATAATACTCTGGAATGGAATGGGCAAGGGTGGTCCGTATAGGGCTATGTATAACTTTTT
AAGAGGTTGGCAAATACTTCCCTAAAGTGGTCATCCCATTTTACATTCTTGCCAACAGTGTTTAAGGATCCACTTCCTCTACATCCTTAATAATACTTGA
TATTATCGGTCTTCTAAATTTTCTGTTTGGGTACATAGTGGTATTTTGTTGTATATTTTTTTTTAATTGTGAAATATGTGACTATGATGAGTAATGATTT
TGAACATGAAAACTATGCTTATTGCTCATATCTATGTTATTTTATTATTTACTTTTTTTGAGATGGAGTCTCGTTCTGTTGCCCAGTCTGGAGAGCAGTG
GTGTGATCTTGGTTTACTGCAACCTCTGCCTACTGGGTTCAAGCGATTTTCCTGCCTCAGTCTCTTGAGTAGCTGGTGTTACAGAAGCCTGCTACCATGC
CTGGCTAATTTTTGTGTTGTTTTATTTTTATTTTATTTTTTTAGCAGAGACAGGGTTTCACCATGTTGACCAGGCTGGTTTCAACTCCTGACCTCAGGTG
ATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACAGCGCCCGGTGGTCATATCTCTTTCTTGGGTTTTTGTGGGGGTTGGGGTA
ATAGGTTTATTGAGATATAATTCATATACCACACAGTTTCATTTTTAGTGTATTGACAGGTGTGCAGTCATCGTCACAATCAAGCCATAGCTTCTTTTAA
ACTTTGTCTTCCTTCTCTTTCTAATTATCTCCTTCCCCCGCCCCCTCCATTCTCTTTCCATCCTTTAAATGTCAGTGTCCCCCACAATTCTGTTGTTGAC
CCTTTCTCCCTCTGGCCAATGCTCCTTCCCCTGTAGATCATACCCATTCCCAAGATTTCAGTCATCAAATCCATTCCAATATGACTCCTGTATCCATATG
TCCAGTTCCAAGTATCTGTCCATGGTGTTGGTCCCAKGTTATTCGCACCTCATATGTCTTTGGCACAGCACTCTTGACAGCTCATAAAGTCACGCTGTTA
CCCCCACAATGTCCCCCCACATATCATTGCTATCCCTCCTCGACACCCACACCTCYTGCATGTTCCTGAGCTTCTTAGGCGTGTTGCATCTTCCTGACCT
TCCCAGTCCGAAGCCCAAGGAGATACTTGATAAATATTCGTCTAATAAATAAATGAACTTGTGTTCTCCATATTCCTTGAAAATATGCTTCACTTTTATC
TTTTTAAGAAATTAATTGCATTACTATCTTATTAAAGGTCAAGAAAAATAATTCATATCACTCACTATTCATGAGACTGCTAAATAGTTGCCCTGGCAAT
TTCTGATTATAATTTTAGAAATATTTCTAACCTCTGGCCTTTTTTCTTATCTCTACTTAAAGCTTTTCTGGAAGGAATTCATTTTCCACTTTCCTTAATG
TTCCTTAAATGTTSTACATATCTTAAAAGTGGATTCCTCATAAAACAATATGGACTATGGTCTTATTCTSTTTAACGGTATGAAAGCTCGCCTGAAAGGC
CAAGAGTAAGATTCTTTTAAAATCATGCCCAAGTTTTAAAGGAATATAAAACTTTCTCTTTAAAAATATACCTTTCTGCTTTCATCCCYTAACCCACAAA
GCTCAAGTCTAGTTTAATTCAAACTTGGAAATAGTTCTTTTATTATTGCTCCCTGCAATGGGAACAGAGCTGAGGCTCCTAAGGTCTAGAGTCAACATGA
AAATACCTTTGCTTCTGGGCCATAGCTGTGTTTCTTCTTAACAAGGCAGAAGCCYAGAAGAGACTTCATGTACTGTGACTGTAATAAAGAGGGTTGTAAG
TAGAGAAGCTGGAATTTGAAAGGTTACGTACAAGTCAAGCTGCCTCTGTAATGTCACTTATATCCAGGAAAGAGTGGCAAAGAACCATCCCAGCAGATAG
CTTGAGGGTGGGAAGGGGGATAGGTTGTTGATAATATGGAATAGGAGGAAAAAGATCATAGAGCCAAAGAGCTCGATACATATACTGATGCGGTGTTTAT
TTTATTTTAGTTTTTTGAGACAGGGTCTCTGTCGCTCAGGCTGGATTGAGTGCAGTGAATCTTGGCTCACTGTAGCTTCTGCCTCTTGAGCTCAGGCAAT
CCTCCTGCCTCAGCCCCACCAGTAGCTGGGACTAGAGGCACATGCCACTACACCCAGTTAATTACTACATTTTCTGTAGAGACGGGCTTTCCCCATGTTG
CCCAGGCTGGTCTCTAACTCCTGAGCTCAAGAGATCCACCCGCCTCTGCCTCCCAAAGTGCTAGGATTACAGGTGTCAGCCACAGTGCCATGCCCTGATG
TGATGCTTAAATTCAGAAATTGGGAAGGAGGGTCAGGTAGCTATAAGCAAAAYACAAGAGAAATATAAGAGAAAGAAAGACTTGTATCTGTTGTTAGTGA
GTTTTTGTGGTGRTGATACATTAATGGAGGCAACAGAGGGTCAGAAATCAGGGAAATCAGGGTGGAAAATAGCCCAGCAGAGGGGAAAAGAGGAAGTCTG
AACGAGGGCCACATTGCAGATAGAGGCYGGTGTACTGGTCTGCTCAGGCTGCCATAACAAAATACCACAGGCTGGATGACTTGAACAACAAAAATACATT
TTCTCATAGTTGTGGAGCCTAGAATTCCAAGGTCAAGGTGCCGGCACAGTTGATGTCTTCTGAGGTCTCCCTCGTCTGCTTGCAGACAGCCGCCTTCCCA
CCGTGTTCTCACGTGACCTAGCCGCTGTGTGCATGCATCCCTGGTTTCTTTTCCTGTGTTCAGATGTCCTCTTCTTTGAAGGACACCACTCAGTATTGCA
ATAGGACCTGCCCTGATAGCCTCATTTTTTACATAATCACCTCTTTATAGGCCGTACCTCCAAATACAGTCACATTCTGAGGTAGTACGGGTTAGGTCTT
CAGCATATGAATTTTGGGGAAACAGAATCCAGCTAACAACAGTTGGGGATGAGGCTATAACGAATACCACTGCCTAATGTTTGCACGGGGATATCATGCT
TTTCAGAGACCATCTGCATCCTTATCTCACTTAATCCTTGCCCCACCCTTTAGAAGAAGCCAGGAGGAGGTCCTAGTCAGCTGATGTGAGATTACATGGC
CCTGACTGTCTTGCCTGGTGCTGCAGGCCACCTTCACAGCCTTGCCATACCTTTTCCCATTTATCCATGGATTGGTATGAGCCCTAATGGTGCACCCTTC
CGACAATCCTTCATCCTTCCCAGACGTTTCATCAGCCAAGTGAAATTTGCAATTGTTTCAGTGATTGAAATTATGCTTGGAGTGCAGGTGTCATGGATGA
AACAGCAATGCCTTGCGGTGACAAATTCAGTGTAGAAATAATTTTAGCAAGCCCAGTGATTGGAAAACAATGACTCAACTTTAAGCTATATTGATTTTGT
ATTTCTGGGCTCAGCTTTTGACTCAGTCTCATTCCCCAGAAATAATCCCTGTTAACATTTCGGTTTGTGTTATGGAAGTGTTTTCTCTTCTATGAATTAG
CTAATGCCCATACCATACATATGCCTGCATTTGTACACTCTTAAGCCAAATAACATCGTACTGTGTATTATTCTCTAGTAGCCTGCTTTTTATTGAACTT
AATGATAAATGGCAAACATTTGACCATGTCACTTAAGTTTCTTACCGTGATCTCCAACAGCTAGGCAATATTCTGTCATATGGGTTTACCATACTTTTCT
CAATCCACAATCTCATCAGAGTCCCAATAGTTGCCTGATATGTCTCCATCAGTTGTGAGGTATGTTTCAAATGATTTATTACTAGAAATTCTTAGCGAGC
TGAAGTTTGTAAATTTTCTCAAGCTACTTTATTGATATATAACACAGATACATAAACTTTGCCCATTCAAAATGTACAATTCAGTGCTTTCAGTATATTC
AGAGAGTTTTGCAGCTGTCACCACAGTCAAGTTTAGAATATTTTCATTTTCCCAAAAAGAAACCCTTGACTGGCATCCTTTTCCCCACTTCCTTTTCTCT
CCACTCCCAACCTCTCTCCCAGCTCCAGGTAACCACTCATCTACTTTCTGTCTCTATATAGATTTGCCTATTCTAGACTTTTCATATAAATAAATCAGAT
ACTGTGTGGCCCTTTGTGTCTYGATCCTTACACTTAGCATCATGTTTTCAAGGGTCATTCATGTTGTAGCATGTATCAGTACTTCTTTTTTTAGGGCTGA
GTAATATTCCATTTACGGATATGCCACATTTCATCTATGCATTCAGTTCAYGGACATGTGGGTTGTTTCCACATTTTGGCTATTGTGCATAATGCTTCCA
GGTACACTTGTCTACACATTTTTGTGTGGATATAGGTTTTCCTTTTTTGGGGTATGCTCCTAAGAGTGCAATTTCTGGATCACGGGGAACTCCTTGTTTA
ACCTTTTGAGGAGCCACCAGATTGTTCTCCACAGCAGCCACACCCATCTACATTCTAACCAGCAGTGTAGGAAGGTTCCGATTTCTCCATATCTTCACCA
GCACTCGCTGTCATTTTTCTTTTTAGTCTTGTCATTTTATTGGGTATGAAGCGGTATTGCATTGTGATTTTGATTTGGATTTTCTTGATGGCTTAGGATA
TTGAACATCTCTTCATATGATTATTGGATGGATGATTTTTTTCAGCGGTTATCAGGTCACACCTGTAATCATGCCCACCTCATTTTCTTACAGTGCAGTG
TGTGCTTTTAGGCACATACCAAGAGCTTACAGAGATCCTTCTGGTTCAGAGGAAAGATTCACATCCCCAACAAACACTGCTCCCCGATTACAATATAGAG
AGGCTAAATTATAGTCCATATCACTTTTCCTTTAAATCCCTTTACTTTTTTGTGCTACAAGAGTTTCAGAATAATAATTCYGCAGAAAAAAGTACTGATT
GTCCAGCAGTTGTGTCAGGTAGAAAACTGGGATGCCCGACTGCATTGGTTTAGCCAGAACTGTGGCCATGAAACCTTGCCTGGCCCCCAGGGATGGGGTG
AGGGGGGATATCATATATGCTTTAGGTGGGGCAGAGGGGTGGTCTGCCCCTGTGCAGGCAGGAATGTTCAGGAAGCAGGCTGCCTCTGTTTCTACTCTAA
ATATTTAACATTCACGGATGGCATGGATCCTGACTAAGCGGAGCAGATGCTGGCTCTATATTGCACATAGCTCCTGAATATCAGCCCTGCTTGGCTATGC
ATGTGTTTTTTGTTAGTTTTTGAGACAGAGTCTCGGTCTCTTGCCCAGGCTGGAATGCAGTGGCACGATGTTGGCTCACTGCAAACCCTGCCTCCCAGGT
TCAAGCGATTCTCCTCTCCCAGCCTCCCGAGTCTCTGGGATTACAGACGTGYATCACCAGGCCCAGCTAATTTTTATATTTTTACTCGAGACGTAGTTTC
RCCATGTTGGCCAGGCTGGTCTCAAACTCGTGACCTTAGGTGATATGCGCCCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCACGCCCA
GCAGTATGTTTGTTTTTCTTCAAACCTAGATCAAGAGTCAAACACTCAAATGTTTGGTGGGAGCAGTTGATGATCCAGAGCTTTGGAGTCAGCGAGACAG
TAGAGAGTGGTGGAGATGGTGGCGCACAAGAGGGTCAGTGCCCCATCTCAAGGAACAGCTGCACCTCRGCCTAYGCGATTGTGAAAATGTGAGCATATGC
AGGCCAGACCTTGGCTTCTCTGTCTTCATTTTTCACAGGAGCCAGAAGTTTGGATGTGCAATGTGAAATCTCACAAATTAAACATGTTACATAACTGTAT
TTTGTTTCCTATCTCTGCTGTAATAAATTTTCTCAWTGTTAGTGACTTAGAACCACACAAAAGTTACACTTTACAGTTTTGGAGGTCAGTGGTCCAAAAT
AGGTCTCAGTGGGCTAAAATCGATGTGTCAGCAGGACACCATTTYTTTCTGTAGGTTCTAGAAGAGAACCCACTTCCTTGCTGTTTCCAGCTTCCAGGGA
CTGCCCAAATCCTTTGGCTCATGGCCCCTTCCTCTATCTTCAAAGCCAGGGATGGCTGCTCAAGTCCTTCTCAAACTGCCCTGTTCCTGGTTCTCTCTCT
TCTKCTTCTGCTTTTAAGGAACCTTGTAACTTCAGGGAGTCTACCCTGATAATCTGSGATAATCTGCCTRTTTGAAGGTCAGCCAATTAGCAATCTTAAT
GCCATCTACAACCTTAATTACCATTTGCTATGTAACATATTTATAGATATCAGGGATTAGTTCATGAACATMTTGGGGTAGAGGGCATTCCACATACAGC
AGTACCTATAATGTATATGCTTCTTAAAGAATGCATGAGTCTTATTTATTTTATGTCCTTGGAGTGTATAGCAGAGTTAGATAGATCTTTCTGGATTGGC
GGTTGATTGAATATTGGCTGTACAAAGAAACTGGTTAGGAGTATAGAGAAAAGATCAATCATAGCACTAGCTTATAGTTTATTTTATTCTTTAATGATTT
TTTAAAAATATTTCTCTCACTTACTTGAAAAGCAGTCTTAGAAATTAACTGGAATGGGTAATTTATTTGTCTTTCTTCTTTTGTAAAATAATGGCAGTTT
GTAACTCAGATTTTTGTATGAGGAATAAATAAAATACTGTCTGTTTTCCTTTGATCTTTCTATTTGTGGTCCAGCCAGCCAGCTAACTATGCATTCCTTT
TTCTGCCTTTTCATCATAACACCTATCTTAGCAACTCTTCATTGCTGCTTTGCAAAGAGGATTTGAGATTGTTTATGTAGGGGCCCGTGTATAATACCTC
AAGAGAAAAAGACACAGATGAGGCTATTGGGATTAAGGGAAAATCAAGTAAATCGAGAGGTAAAGCACTGTGCAGAAATATTGGCCAGAAGCTATGAACA
GTTGCCACAGCTGGGCTGAAGAGTTACCTGTGAGCCTTCCAGGGGTGTAAGCCAAGAGAAAGACAGTTCACCAAATCTATCGATTAATAGAAATCATCCA
GCAGCAGTGCCACTGTAAGATGTTCAATACGTAGCACCTTTCTGTCCCTTCTCCTCTAGCCAGTTGGGACAGGATTAGCAAGCCAAAGACTTTCTGAAAT
AATCCTTAGCTATATTCTTGGTATTCACCAAGGAATTTACCAATATGCAAAGACTTGGGGATAATTAGTATTATCTTTGCCATTACCTGCAGTAATATTA
TGAAGATTAGAGATGTAACTCTGTCCTGAAGAACTGCAGTCTGTGGCTCACCTTGGAGAAGAACTTAAGAACTTATTGAAGTGAGCAGGCTCACCTGCCT
TTGCTCAGAGCCACATCACCTGCAGGCAGGATCTGCAAGGTCAGCAGTTAGCGTCAAGTTGCACAGCCTGGGCTTGGGTGGCGTTCGCTTTACCCTTGCC
CTTGATGTGGTGCCGAGTTGTCAGGATTCTCGTAAAATTCCTGGGTGATGGCTTCTTCTGTTCTCTTTATTTCCTTAACTGAACATCTGTCTAATTGTTC
ACCTCCATCGCTTTAGTGCTTTCCTCATGCTTTCTCTCTTTCCAGACAATAAACTTTATTTTCTTCATAAGAATTCAGTCTACGCAAGGGTATTAGGCAG
CTTGTTTGCACCTTTTAATTGCTGGATGTTTTCCAGAAAGGCTGTTTGCAGTAGTTCCAGTGGGTTCATCTGTGAATCAGGAAAGACAATGCAGCTTTGT
GTTTTGGTTTTTATCAGTTACCTTCTGTTTGTAAACATCTGTTTGGAAACGTTTGCTGGTGCCCACCCCAGCACCCCTCCACCCCTGCCAGAAATAAAGG
GATTAATCTCTTTTTGCTTGGCATAGGGAGAAGACAGTGTCTGCTGATGTGCTTAACTTTTTTTTTTTTTTTTTTTTTGGTCAGGTGCGTAGGTATGTGA
CTGAAACCCATAGACTTTGCACATATTGTCAAATGACTTTCCAGAGGGACTCAGGCACTTTATTTAATTAATGCCAATGAAGCCCGTTAATCCGCTCATT
ACTGCAGTTTAATTTTGATGCTGGTTTTTGATGATGTATTGAAAACTTGTATAAACTGGCAATTACAACTGGAAAACATTTCTAGTTTAGAAGAGACCCT
TATTTTTCATATGCTTAGGAATATCCAGCAAGCCACTTTTAAAGGCTTTTTATCACATTTTATTCTTAAGCTTTCTGAATTCCTTATTATATTTTGCCTG
ATAAATAGTTGGATTTTGTTTTTTGGTTCAATGTAAGAATATTCTTAAACTAGGTAAACTGTTTTAATTGTTTGTCATTATGTTCTCTCATTCTGTTAAA
TTTTGTTTTCTATTTTTCATGTTTTTGGGTTTTTCTAGATGGCCTGTCTTTAACACTTCTTGATATTTTTGATTAAATTTTCATATATCATCAAAAATAG
AGATGACAGCCAGGGGTGGTGGTGCATGCCTATAATCCCAACACTTTTGGAGGCCAAGGTGAGGAGACCACCTGAGGTCAGGAATTCAAGACTACTGGGC
AACATGGTRAAGCTCTSTCTATCCTAAAAATGCAAAAATTAGCCGGGAGTGGTGGTGCATGTCTGTAGTCACAGCTACTTGGGAGGCTGAGGCAGGCGAA
CTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGGAGCCACTGCACTCCAGCCTRGGTCACAGAGGGAGACTCTGTCTCAAAAGAAAAGAAA
AGTAGAGAGGATAGTATAATGAGGTTCCTGTCTGCCAGTCACTCTATAGTAACTATTAGGAAACCCCTTTTTTTCTCTGAAGTCATTGCTCCGGTGTGTG
TGTGTCTGTATATAAAAAAAAGTATGTATACATAYACGTATATGTATGTGTATAGATAAAAATGCATGTATGGTGCTGGGCGCAGTGGCTCACGCYTGTA
ATCCCAGCACTTTGGGAGGCTGAGGCGGGCGAATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGYGAAACCGTGTCTCTACTAAAAGTACA
AAAAATTAGCCTGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGACCSAAGAATTACTTGATGAAACATGGCAGACGACATAGACC
AGCAGCAAACTACCAACACTGTGGAGGACCYCCTGGATCTTAGGCTCAGCCCAGAGGAGCGAATTTGTGTGAAAATGAGAAACGACCGAGAGCTTCGAGG
CAGATTACATACTTATGATCAACATTTAAATATGATCTTGGGAGACGTGGAAGAAACTGTGACTACTATAGAAATTGATGAGGAAACATATGAAGAGACA
TATGAATCAACAAAACAGAATATTCCAGTGTTCTTTCTCCGGGGAGATGGCATTTTCCTGGTTSCCCCTCCACTGAGAGTTGGCTGAAACAAAGAATTTG
TCCTGTATGGAAAACAGGAGACTTTGTACAGTGGCCTCTCTAAATGTGCAAGATATTCAAAAGAGAAACCCGCATACATTTGGATATTAAGAAATAATTC
TGGGGATTCTTCCACTCCTGAAATGAGTTGATTTGCAGATAATTCACAACTTCTTAAGCTAAATGGTATTTTCGTTTTTCTCAAGCTCTTCCAATAAATA
TGACCACCAAGATTTTTTTTTCCTAAAAAAAAAAAAAAAAAAAAAAGAAGAATCGCTTGAACCCGGGAGGTGGAGCAGTGAGCCAAGGTCATGCCACTGC
ACTCCAGCTTGGGCAACAGAGCGAGACTCTGTCTCAAAATAAATAAATAAAAATGCATATATGTATATTTGTGTGAATCATATACACATATATAAAATAT
ATGTATCATATACATATATATCACATTTCTTTTTCTAGTGTGTGTGTACCTTGATTTATGTCTCACATATTCAAAATAACTCAACTTGTTTAAAATAAGA
GCACAACCTATTTAAGTAGTAAAGATTCAAAGCCTTCTTCTAAAATGCTTAACTTTCCTGTGGATTTGTGGACCCGTGGGAAAATCTCAGTCCCCAGGCA
GGAAGGAAGGAGATATGACACATCTCTAGTTTGTTGTAAGTCGCCTACCCTAGACCTCATCTCCAGTGCTCTGAATGTGGAGAGGTAGGTGCAGGGCAGT
GGGATAGAGAGGTGCACTTTGAAAGACTATCACATGGAAACAAAAGTTCCGGCTGGGCACGGTGGCTCACGCCTGTAATCCAAGCACTTTGGGAGGCCAA
GGCGAGTGGATCACGAGGTCAGCAGTTGAAGACCAGCCTGGCCAGCATGGTGAAACCCCGTCTCTACTAAAAATAGAAAAAATTAGCCGGGCATAGTRGC
ATGAGCCTGTAATCCCAGCGACTCGGGAGGCTGARGCAGGAGAATTTCTKGAACCTGGGAGGTGGAGGTTGAAGTGAGCTGAGATGGCACCATTGCACTC
CAGCCTGGCAGACAGAGTGAGACTCCATCTCAAAAAACAAACAAAAAAAAGTTCCAATACACAATATGTTATATGAGATCTTCACCCAATCAAGGATTAA
ATGGCCAATTCCTAAATGATGCCTACCTTTTTATGGCCATGTATACCTTTGCCTCARTACTACTGGCATTTGCTGACATCCATTTATCAAGATACAGGGA
TGGATTTCTAGAAGGCCCAGGCAGGGGTGCTGGCCAGGAGACACCAGGCATAGACCTTCCTTTCTCAGAGCCTTCGTGGCCCCTAGTTTGAATCTTTGAG
TCACTGCAGTAAAGTTCCTGATGTTTGASAGTACTCCTTATGAAGGGAGTCATATGAGTTGCTAGCTGGGTTCTCTGGATGGTGGTGTCATGCCAACATG
GGAGCCACTAGCACAAAGAACATGCTAGGTTCTGTTGAGACCTGACTTTGGGAATAGCATAGGTACTTATCTTTCTCAGCACCACACAAACACACTCCAG
AATGCAAAGGAACCTGCACTGTGCCATCTTGCTTCTCCCTGCATAGCCACTTCTCTTTCCAGTGGTGTTTGTATTTTGGTTCATTCAATCAATGAATGAT
TGATTGAATCAACCACTTGGTCCCTTCAATCTGTAACCTTCCTGCAACACTGTCTTTGTGATGTTATCATAACCTTGATTTTTGAGGGATAGAATTGGGC
ATAATCAGAGAAAACGTGGTCTGGGACACATTTGTGGGCTATTCTATGCTAAACATTTCCATATCATTAATGTTCAACACAGCTTTGTGGTGTTGGAGAT
AGGATTATCATTGTTAGGATGGTTATTATCAATACTAGCTGTGATTATTGATCACTTCCACATGCCAGGCACAGTGCTGGGTGCTACATATTTATTACCT
AATTTATAGCTTGCTGCACTCTTGCTGGGTATGTGTAATTATTCCCATTTCACCCGATCCCTGGGAGTTTGGTGAATTAATCACCCAGCATCCAAATAGC
TAACCGGTAGCAGAGCTGGGATTCAAACTCAGTTAGGCTGACTTCTGTGCCTGTTTTCTTGCCTAAGCGGTGGACGCATTGAGTAGGAGAAGGCCAGTTA
TTCCTCTTTGTCACTGATACAACTGGGGACCTGTTGCCGGAGATGTGGAGCTGTGCATTAGGGCTGGGTAGAACACACATAATGAACCATATGCACGAGA
ACTTTTTCATCTTTCTGCATACACTTGGAACTAGTTCTTTGTTATTGTAAAAGCATCATGCACCAGGTAAAATGTTTAATAACACAGAGAAATCTAATTG
TCAAGTATCTTCTCAACACACATTAATCAACAATTCTCMTATCGAAGGATAACCTCTTGTATTTACAAAAAAAAGAAGAAAAAGTGCTGTCATCAGTAAA
TTCATTCATGTATGTTATACACTTACATACAAAATGTATCTATTTGATTAAATTAGAACTCTGCTAATGAATTACTTTCCTTGATTGCACAGTAATAAAG
TCAATGTTGTAAATATAATAATTATAGCCAAGTGCAGTGGCTTACACCTGTAATCCCGGCACTTTGGGAGGCTGAGGTGGGCAGATCACTTGAGGTCAGG
AGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTATCTGGGTGTGGTGGCACATGCCTGTAATCCCAGCTACTC
AGGAAGCTGAGGACTGAGAATCGCTTGAACCTGGGAAGTGGAGTATGCAGTGAGCCGAGATAGTTCTACTGCACTCCAGCCTGAGCAACAGAGCAAGACT
CCGTGTCAAAAAATAAATAATATATGTGTGTGTGTGTGTATGTACATGAATTATATACAAATGAGGGAAAATATACAAATGAGTTGAATATATACAAATG
AGGGAAAAATTGTTCCTTGTGTCAGGAACAATTACTGTGAATTTTGTGTAGCTTTTCCTGACTTTTTAAAATTCAAATATATTTCATAAAGTTGAAATCA
CACTGTGGTCTTTTTTTTTTTTTTTTTTTTTTTAACCAAACATATAGTGGCCATGTTTCTATGTCAATACATACTGTTTGGCAGTACAGTTGTACTGACT
TGACATTATAGCTTCATAACTTAGTAAATTAATCCCTTATTGCTGGGCACAGATTCTGTTTTCCATTTTTTCAGTCATGAGCAACGTTGCTGGTTTACCT
GGGGCTAAATAAGAAGTTTAAATGCAAATAGATAATTCTTGAGAAAGCTTCTTCCCTGTATATACTCTTTCTGCAGCAGTGTCTGAGTGTCTGTACCTTC
CTATACCTTCACCATATCATGTATTTGTCATTTTATAGTGAGTTGTATTACTTGCTAGGTGAGCTGGTATCTCCTTTGATAACACAAAGAAGGCCTGGGT
TTGCTTGGCAATTTGTTCCAATATTCTTTTCAGTTTTAAATAAGTTTTGAACAAAAAGTTTTAGCATTTTACATAAAAACCTCTAAAGCTCTCAGGCTAA
TTAGTAATGTAGCATATACAAATTAAGTTTTTTTCTGCTGTGCTTAATTCTTATTAACACACTAATCATGAGAGCCCCCAAATTGCTGTAAGGAGCACAT
TTAGAAAACATATAAAGGATCGATAGTTGGTACTTAAGAAATCGTTGAAACACCTTTTCTTTTTTAATCTATCTTAGAGCTGAAAGATAAAAAGACTTAA
AATGAGTTAGAATATGAGTTTTTCAGCATCTTATAGCTTATGAGTTAAAGCAAGATTTAAAAAATACATTTAACATACTAAATATTTCAAAAGCTACAGA
GATACCGTAACATTTAAAAAAATAAATTTTCATTGTGGAAATCAACTGCCACAAAAACACAACCTTTTACGAGACAACGTGATGTRCATGAGAAGCCCTG
ATGTTGAGAAGCTCATAATTCGGTGTGAGAAACACACAAGGCATGATGCCATTCCCATCTGGGATGAACAGGGAAGACTTCCTGGGAGAGGTGACTATGG
ACTTAATTTTGCTTTGACACAGCAAAAACATGAGGAATGAATTTTGTGACTTGGAAGATTGTTAGTTTTCTGTGGAGGGAACAACACTCATCTTGCAAAT
TTGCCTTCACTATTCAATCATTAGAAAATAATTTTAAATGAGCTTAGCAGTTCTCAGAATTTTGGATTTCAGGAAACAAACTTTTTAAAAACAAAACAAA
AAGGAGGATACCAATTTAAGCTTGTCAAAAAGATTTTCCCCCAAAAGAAAAACACATTAAAAACAACGACAAAAATCAACAAAAACTAACACTRTTCCCC
CATCAACAATCAATATTACTTTCTAAAAGCAAGGGCGTTTTGACACCAGATATTGTGAGGACATCCACCTGCTCTAAGGGACAGCCATTTCACTGGTGTT
CTGTCAATTTTTATTTTGAACTAATTTTAGACTCACATAGAAGTTGGAGAAGTAGGCTGGGCACCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAG
GCCGAAGCGGGCTGATCCCTTGAGGCCAGGAGTTCAAGACCAGCCTGGTCAAATAGTGAAATCCTGTCTCTACTAAAAATACAAAAATTAGCCTGGCATG
GCAGCGCACACCTGTAATCCCAGATACTTGGGAGGCTGAGACATGAGAATCACTTGAAGCTGGGAGCTGGAGGCTGCAGTGAGCCAAGCGGAGTGCCACT
GCACTCCAGTCTGGGCGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGTTGCAGAAATAGCAATATTTAACTATACTTGTTACTCA
AATTTCACCACTAAAGCAGTGTCATCTTTTTATTCCAGGATCTAGTCCAGGATGCCACATTATATTTAATTGTTGTATCTCCTTGGTGCCTTTAGTACTT
TTTTTTTTGAGACACGGTCTCACTCTGTCACCCAGGCTGGAGCACAGTGGTACAATCATGGGTTACTGCAACCTCCACCTCCTAGGCTCAAGCGATCCTC
CCACCTCAGTCTCCTGAGTACCTGGGACTATACGCATGCACCACCATGCCTGGCTAATTTTTGCATTTGTTTTATCAAGGCAGGGTTTCATCATGTTGCA
CAGGCTGGTTTTGAGCTCCTGGGCTCAAGAAATCTGCTTACCTCGGCTTCCCAAAGTGCTGGGATTACAGACATGAGCCACTGCACCTGGCTTGGAGCAT
TCAGTCTTTGATAGTTGCTTACTTATTTCCTTCTTTCTGATCTTGAGACCTTGATTTGTCCAGTATTTTCTCATCATTAGCTGAGTGTAAGCATTTTTTG
GCAAGAACATTATAAAAATGATGTGGTRTCTTTCTTAGTATATTATCTCAGGTAGAACATAATGTTGATCTGTCTCATCCCTGGTAATGTTAACCTTGAT
CACTTGGTTAAGGTGATGTCTGCTGAGTTTTTCCAATGTAATGTTATTAATTTTTCCTTTGAAATTCATAATTATTTGAAGGGAGATGTTTTGAGATGAT
GCTGGCAGCCCYGTTTTCCTTAAACTTTCACATGCTGACTTTCTATTGTTGGATCTTGCCTGCAGCAGTGTTTACCATGATGCTTGGCTAGTGGTGACTA
TGTATTTCCCTTACTCTTTTTATAGTCAGTAATTGGAATTCTTCTGAAGAAAGAGCTATCCCTTCTCCCCCATTTCTTTCTTTTCTTTTCTTTTTGTTGA
GACAAAGTTTCACTCTTGTCGCCCAGGCTGGAGTGTAATGGTGCGATATCGGCTCCCTGCAACCTCTGCCTCCCGTGTTCAGGCGATTCTCCCGTCTCAG
CCTCCCAAGGAGCTGGGATTACAGGTCCATGCCACCATGCCCAGCTAATTTTTATATTTTTAGTAGAGATGGGGTTTCACCACTTTGACCAGGCTGGTCT
CAAACTCCTCTTCTCTGGTGATCCTCCCACCTCGGACTCCCAAAAGTGCTGGGATTACAGGTGTGAGCTACAGCGCCTGGCCCCTCCCCCGTTTATTTCT
GATTCAATTACTTTATATTAGCGTAGATTCACAGGTATTTCCTTTTTTTTTTTTTTTTTGATTTATTAATACCTCCATTTATTCTGTTGCTGAAACCATT
CCAGCTTTTTCTGGTTGGCTTCTATGAAGGACGCTATTTTAATGGGGTGATTTTTTTCTTCTCACTACATTCTTGCTCACTCCCCACTTTTTATGTCCGG
TGGCCATAGGCTGGTGAGAACTTGATTTTGAACAGTTGAAGGTCTGCTGTTAGGGACGTGCTAATCTAGGGAATTGTACTGAACTCGTGGGAGCATGTTA
GTATCAGATGTGTGCCTTGTCCGTCTTGCTTGTAGGAAGAACAAGAGACGAGACACAGCAAGGTGATGATGGGTATGTGAAGCAGGATAAAGAAAAAAAC
AGGACAGGCATTACAGGCTTAAGYCTGTAATCCCAGCACTTTGGAAGGCCAATGCGGGTGGATCACCTGATGATAGGAGTTCAAGACCAGCCTCACCAAC
ATGGTGAAACCCTATCCCTATTAAAAATACAAAAATTAACAGGCGTGGTGGCGGGCATCTGTTGTTCCAGGTACTCGGGAGGCTGAGGCAGCAGAATTGC
CTGAACTCGGGAGGTGGAGGTAGCAGTGAGCTGAGATGGCACCACTGCACTCCAGCCTGGGCAATGGAGCAAGACTCTATCTACCMCCCACCCTGCAAAA
AAAGAAAAGAAAGGAAAAAAAATCYTGGTGCTTGTAGGAGAGGCATTTATTTCTTTTAGGACTGGACGGGGCTTGGAGGGTTTCCAGGAAACAGCCTCAA
CCTAAAAATAGTAGACACAGTTCATGAAGAACTTACTATGTGTCCAGTAGATAAATATACCACAAGCATTATCTTCTTTAATCATCTCACAATCTTATGA
AGGAGATACTAATATTTTGCTTGCAAAGATGAGGGAAGTGAGTTTCCGAAGTTGCTAARTGCGTAAAGGAGGTGGTGGTGTCAGAATGTTATCCTGCTCA
GATGGTTGCATGGGACAGTGTCCAGAGGAAGGCCTCTGATTCCTTCCCCAGCATTAGGCAATATTCAAGTCTTCAGTTCCATGTGTAGGGGAGAAGACTT
TCCTTCTGCTCCCTAATGACAGTGGTACCCACACCCGTATTCCACCATAAAATCTTTTTTATTCAGTATTAGGAAAAAAGAAACATCTTTCCGTCCAGTG
GTCACTGTGTGTGTATGTGTTTGTGTGTGTGTGTGTGTATGTGTCTGTGTGTTCACCGTGCTGTGTGAATTGTGGCTTTAAATGTATTCCTGTCAATTCC
ATATATTTTTAAAATGTTGCTTTTAGAGTATGTGCAAGTTTGGGGCATTTTTGAGGGCTTTTTTTTTTGACGGGGTCTTAATATGTCACCCAGGCTGTAG
TGCAGTGGCGCGATGACAGCCCACTCCAGCCCCAAACTCCCAAGCTCCAGTGATTTTCCTTCCTCAGACCCCAAAGTAGCTGGGACCACAGGTGCACACC
ACCACTTCCAGCTGATTATTTAAAAAAAATTTTGTAGTGACAGTGTCTTGCTGTGTTTCCCAGGCTGTTCTTGTACTCCTGGGCTCAACTGATCTTCCCA
GCTTGGCCTCCCAAAGTGCTGGGAATACAGGTGTGAGCCACTGTCCCAGGCCAGTTTTAACTCACAATGATTTCATAAGAAATCCACATCTGAGAGTCCC
AGAAGGTAAGATATTCCCCTTTCTTCTAAATATACTTGACCACCACCATTCAGGTTCTTCTATTAACCCTCCTATATTTGCCAACCCTCAACCTGTTAGA
AACAAGAATTGGGACTCTGGAGTAGATGTTAGCAACATCATGAGCTCAAACCCCTCCAGCTTACAGCGGAGACAGTGAGGTCCTGTAGGATGAGGTTGGA
GAGCAGGAACTTGCCCCGAGGTCATGTGCAGAGTTCGAGGCAGGGCCTGGATGGGAAGCCCAGCATGGAGACCCCAGGCCGTCTCTCCGCCATCTTGTTG
TGATGCTTCCGGAAGAATGCCTGTCACTCTTGCTGACATCCGACTGACCAAGTGGGCAAGAGGAATTCTTCAAAACAATTTAATAAATGCTTACATTTTC
TCTTGGCCCCGTGCCACATCCCCCCACTCAGTCTTGTTTTCAAGGTTGAAGGTTCCTTCAGAGCTAGTGACCTTGCCCTTCCTGGCCTGTGGATGTCGCT
CTCTATCCGTAACCCTCCTTTCCAGCGACCCTGTTTGCAGCAAAGACTATAATTTTATTTTGGGTTTGGATATACTGATTACATTTTAGCTTCTGGTATA
TTTTCTTACCTGTCACAGCCATTAAATTTATTTTAATAGTTACTCTACTCTCCTGATAGCCACTAAAGGGGGAATTGGATATTGTCTATCAATTGGTTGG
TCTCTGAACTAAGGCTGTATCTAATTACAAGGCATTGTATCGGTTSTGATTTATTAACCATTTACTTGGCTTTGGAGAAGGCAGCATTTTTAGTAGTACT
GTTGAGCCTGCATGTAGCTTTTCCAGGAGGGCAGGGTGCCYGGATATCTGATCTTACAGTTATTACTTTGTGTCATATATAATTTTGTTTTCTCCCTGCA
ACAAATAAATCTTTGGGACTCCGGAAGAAAAAAAAATGGGAAAGAAAAAAAAAATTTGTGGTTACAGTATAATAAAAATAAACTGTTTGTCGTGACTGCA
GCTGACATTTATCAGCCTGTTTGTGGGTGATCTTTCTCTCTCTCTATAATACAGAACATAATTTGTCACTTTGTAAATACATTCCAGTCTAAATCCCTGC
CAGCATCTGTTAGTGTTTGAAGGATTAATGTGCTACCCTGTGTATGTCTGCACTTCCAGGGAACAGTGTAGCATCTGATTACAGATCKTGGGAGAGCAGG
AGGGAACAAGGTGTTTTCTGTGCTTTTTCCTACATGCAGTCGTTTTGGCCTTTTTCTGATTTTTCTTGTCTTTATCCCATTCTGTCTAGGTACCTGGAAT
TTCATTCTTTACAAAGATGTTCCTGGTCCCCAACCTTTCTTCTGTCTGTGATAGTCACAGCTGAAGTCATAGTATTTTCTGTGTACTATGGGTTGAGCTG
TGGGTAATTCTTTGGGGCCGGTTAGACTTGGGTTCAAATTCTTTCTCCAACTAGTTTATGAGCTTAAGTTATGTGATTTCCATTTCTTCACTTGCAAAAT
GAAGATGCTAATACCTACTTCTTGAAGATGCTGAGGTTGAGGGAAGAAATAAATGTTAATGCAAAGTGCCCAGTTTAGTGCCTGCCAAGAGTAACTGGTG
GGTCTGTGTCACCTTCTGACATKATCAGTGTGATTGTCTCCAACGCATCYATGGAAGTGAAACCGTTGGAGGAAGCTAATGCCGTGAGCCAGCTGTTGGT
TATGTTTTTGTTTTGTTTTTCTTTTTTACTTGCTGGATAGTGGGTTCTGTTTATTGAGAAATATTTACATCCGTCTAAWTCAGGTGCTTGCTAGGGTTCT
TGGCACACAGAGCATCCCACCAATAAACTGTGGTTCCCAACAAGGCTTGCAACTGAATCTGGGCAACAATGAACATGACTTCAATAATGACAAAAAGATT
CAGATTCCTGCTGGAAGGTCCATATGTGCTGTCCCCAGTAGGATTCTGGAATTCCCTGAATCATAGTGTTGCTTGTAATTCTTTCCACATTATGAAGTGG
CTCTATAGACTGCCTACCACCTTGTATCTACTGCTGTCGTTTAGATTAGGAACAGATTGCCAGATGTGGAAGAAATAGCCTCATTAGTAACTTTTCTGTA
AGCAATCTCCTTATTTCTTKTTTTTTGTTCTTTTGTTTTTTGTGTGTGCTTCTGCGTGCMCCTCCTCTATGGCTCCCCCCACCAAATTTCTGTGTCTTCA
TTTGCAACTCTCTTTTCTCCAGTAAAGAGGAAAGTGTATAGTTCTCCTTTCCTTACAGAAACATTATTTTGTTATTGTTGTTTGGGTTTGGGTTTCTGAA
GTATAAATGCATATGAACTGGACAGAAGGATTATGCCCATGTGCCAGGTGGCCAAGATGGGGCTTGTGATTTGAAGCTTCTTTTCCTAGATTCAGGAAAG
TATCACTGGTTAATCAGGGAATACATCTTTCGGCCCATTGGAAAATGTCTGTTCTTAGCACCCTAAATGCCCAGGTATTAGCATACTTGGGAAATGTCTA
GAAACCCCTATTTCAATTTACTGACCATTTTTGGTAAATTCCTAGAGATGCCAAAATGCATTTCAAAAAGCTTTCATGTTCAAGAAGACTTGTGGAATGA
TAGAAAACATTTAACGCTGTTATGTACGAAGTGAAATACTGTTAAACTTTTAGATTATTTAATAGAAGACACATTTTACAAGGCAAAGTGTTTAGATATG
CTCCCTCCTATGCCTATCCACACATCCTTAACTCTTCACGTTGTTTGAGACTGTTAGGCTGTTTTTTTATTGTATATTTCATCAAATAGTGGGTGATAAA
ACAACAGACACTCTAAGGAATGGCATGACATTCTCCTTTCTTCTCCTGCATTCATTGGAACCTGAATGTAGTATTAATTATAAGACTGTTAGACTTCAGG
GGACTACMCTCTTATTCTAAAATAGTGGTCAACTAACTGTGCCCTTCAGACAGAATTCCTGCCCAGCACCTGGCTTTGTAATTAAAGTTTTACTGGAACA
GAGGAATACCAGTTAATTTATATCTCGTCTGTTGCCACTTTTGCTTTCATGCTATTAAAGCTGAGTATTTGGGAGATACTTGAAAAATCTAAAATGCTTM
CTATCTGGCCCTTTAGAGAAAAGGTTTTCCAATCTCTGTTCTAGAGGATTCGTGGTCATTTGGAAAGAAAAGTATGTTAAGACAAAATGAGCAGGTGGTT
GGATTAGTATTTTCTTTCTACACATATAGAAACTGTTCCTATCATACCTGACTCAGTTTTCAAACTKGCTTAATCCAAAGCCTGGGGGGTGGATGTAGGA
GAGAAGTTGAAATTAGCTGGGGTTTTTTTTTTGTATCACAAAAGTTACATTTTTTTTTTTTTTTTTTTTTTTTAAGACGTAGTCTTGCTCTGTTGCCCAG
GCTGGAGTGCAGTGGTGTGATTTCGGCTCACAGCAAGCTCTGCCTCCCAGGTTTACGCCATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGTACTACAGGT
GCCTGCCACCACGCCCGGCTAATTTTTTATATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCACTTTGGTCTCAATCTMCTGACCTCGTGATTCAAC
TGCCTCGCCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCGAAAAGTTATAATTTTAATGGTCTAAATCAAATTTGTTCAACCTGC
AGCCTGTGGGCACATGTGGCCCAGGACAGCTTTGCAGCCCAACACAAATGTATAAACTTGCTTAAAACATGATGAGATATTTTTTGCCATTTTTTTTCAA
CTCATCAGCTATCATTAGGGTTAGTGTATTAATAYTTTATGCACAGCCCAAGATAATTCTTTGTCCAGTGTCACCCAGGGAAGCCAAAAGATTGGACACC
CTGGGAATAAAACAGAAAAAAGGTGTAAAAGGCTTCGAGTTCATGGACAGAACAACATTTTTGTAAGTAAAGTATTTACGGATGTGGCCCCTTTGTAATC
TCCTGGGCTCAGGGATAATTTCCAGGCTGGGGAGAAGGTTGTGTCATGGAGACAGCAGTACTGTTTTGGAAGGAGAATTGACTTGTCACAATGGACGGAG
AACTACCATCCCATTTGGGCCAACCTCTTTTTTTTTTTTCTTTTTGTTTCGAGATGGAGTCTCGCTCTGTCACCAGGCTGGAGTGCAGYGGTGCAATCTC
AGCTCACTGCAACCTCTGCCTCCCGAGTTCAAGCTATTCTTCTGTCTCAGCCTCCTGAGTAGCTGTGATTACAGGTGCGTGACACCACACCCCGCTAATT
TTTGTATTTTTAGTGGAGACGGGATTTCACCATGTTGGTCAGGCTGGTGTCAAACTCCTGATCTTAGGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTG
GGATTACAGGTGTGAGCCTCTGTGCCCGGCTTCTGCCAGCTTCTCATTATGATTTTTGAGCAGATTTCGCTGCTTTTTCGGCCTTTGTTGTGTTTATAAA
CTAGAAGTAATTATGTCAACTTTGTAAGGGCTCAGTAGCGTAGAATAAGGCCATGTCTGTAATCTCCCCTTCTGTGAACAGAGGTTATGTTCTCAAAAGC
CTTCAATTAACATGAGTGGAATGGATTTTCTAAATTTATATGGAGGAGAAAGTTGTAGGTCCTATATGAGTGATGACAGGTGATACTTAAGTTAACTGGA
ACATATGGCCCTTAGCCACAATTTCCCCACATGCCCTTCTGGGGGATGCTTTGTAGACCTGATATCCCAGAAAGGAGTGTGGACTCATAAAGTCACTGCT
GTCCTTTGGTTTTCCTGATGTACCAAATGTAGTAAGGCCTCTTTTCAATGTGGTAAAAGCTCTGGGCCACCCCATAAGGCTGCAAGCGCTAGAAGCTCTT
CCCATAGAGAACATCTATATCCTCAAACCAAGGAGAAAAAGGAAGCTGCTGTTCATAAATATTGAAGAGGCAGGGAGAGCTTGCACTGAGGCCAGGGTGT
ATTAACATGCATGCCATCGTGAAGTGGCTTCTAATGGACATTTGTAAGGTGGTGTCCCCTCCCTTCCCCTCCCCCCTCTAATGCTGCCTGGGTTGCTCTT
TGCAACACGTGCAGTCTGCAACTTAGCTGGCTTTTAGCAAAATTACCCATCGCGATTCATTTGTCCCATTGGGCCATGGGATAGGTGACTACAGAGCCAG
ATTCGAATGTGGCCCTGTGCCGGTGCCCAAACCAGCAGGCTGCACGTATGCACTGACAGAATGGTACATCCCACCACTGCTCTGTGTCTGTGTGCGACTG
TCAGCTGCTCTCTACTGCTCCTCATAGACTTCCTGTCTGCCTTTTTCTGCATTTCTCAGTCTCCCCATCTCCCCTTCTTATCTAATCCCCTTCCTTCCTC
TCTCAACTCTTCCTTCCTCTATCCTTTTTCTTTCCCTTTTTTTTTTAACTATTCTTCTTTAGAGTTTGTTTTCTCATTGAACTTGTGATGTACACATTAA
AGGAAAACTCATTAATGTGGAAAATTAGGAGCATCATAGCTAATGTATGCTCAGGGCTTACTGTGTGCTAGACATTATTCTGAGTTTACACAGTGATGTC
AGATTTCTCCTCTGTCACAGTAAGTTCCAAAAGATAGTGAAGAATATTGCAGTGAAAACACTGAAACTCACATATTTCATACTCAGGGGTATCTTTTAAG
TGTGAAGCAAGAGAAAAAAACGTGGAAAAAAAAAGACTCAGGAAATGCTTTCCATTTAGCTTTCTTGACTAAGTTAGTGGAAGACTTATTCCAGATTATA
AAGAGAAGAACCAAAATAAAGAGTTTAAGAATGAAGGGGTATGCAGCAACTGGTAGGGTCGAGTCTCCTCAGGCACAACATGCAACCAAGGAGGGGCAGC
TCACTCGGCCTGCGCTGGCCACACAAGTGCACCTGCCACAGTATTGAGGGGCTGGACTGATTTCTCATTAATGTCTGGGCAAAACTCAAAGAGGCAAACA
TTTTCATTACATACTGTTATCCATCCTATTGTGGGACCAATTTCTCCAGAAAGGTCTCTCTCGGTGGGAGGATTAATAAACACCATCAGAAATCCAATTA
AACCCAATTGTTAAAATCCAACAAATACGTTGCTTGTGGATACAGTTGTGTATAGTAATGTGTATGGTGATGGCCTATCATATAGGAATGATAGAGGCAG
CACAGTGCTGTAATGGAAACCATAAGGGCACGCACAATGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCMGAGGCGGGAGGATCACATAAGACCAGG
AGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAACTACAAAAATAGCCAGGTGTCCTGGTGCATGTCTGTAATYCCAGCTACCTG
GGAGGCTGAAGCATCAGAATCGCTTCAGCTTGGGAGCTGGAGCTTGCAGCCAGCCAAGATCACACCACTGCTCTCTATCCTGGGAGACAGAGCAAGACTG
TCTCCAAAAAAAAAAAAAAAAAAAAAAAGGGCATGGATCTAGATGCCAGACAATCTGGGTGCATATCTTTGCTCCAAAAGCAAAGATTGTAAACTGTCTT
TACAATCTGGGGCAAGTTAGCTAATCTCTGCTTCAGTTTGCTCCTTAGCAAGATGGGATGATATTACCACTTACCTCAGAGAGTTGTTAAATGGGTAAAT
TCATATGTAAGTGTTCTTAGAGCAGAGTTCAGTACATAGTAAGTACTGTGTAAGAATTGGCCATCATTAATATTATTCATTGGATAAATATCAAATTCAA
AATACCGTTTACATTGGGAAAGGGAAAAAGGAGAGAAATATATGAGAGACGTATGCTGGGGGTATCTACGATGTTTTCTTTTTGATTTTTTTATGTCATT
TTAAATGTTTCTATTCTTCTGTTCTGTTCTTAAAGTATGCCTGTAATTATTAGGATATAATTAAGGATTCTGTCTTATTTATTTTTTAATCTTCTTACTG
TGTCTATCTTTTGTCTTTCTCCATATTCTGGGAGAAACATCTAAGTTTCCATTCCTTATAACTGATTATTTTTCTTGGGATCAATTCTGGTCTTCACCAT
CTGCCAATGTGAGTTTTAGTTTCTCTATAAACTTTTAAACTTTAAACTTTTTTTCTTTTTTTTTTGGGGGGGGGGGCAATCCATTCTTAACCCCCTTCCA
GTTTTTCTCAGCCTATTCTTGTTTGTTTTTGTTTTCTATTTCTGTTTCATTGAGATGCATACAAAATGGAAGATGGCCAACATTTCTAAAAATTTTGTTT
CCTGACATAGAGAACGTTTAGAGGTCAGGTTGCTCTGAGACTGTGTTGTGATGTCTTTTTTTTTTTTTTTTTTTTACTTGTTTGTCCTTTCTTTTATTAT
CTCTTGCTGTTATCCTCACTTTTTTCTTTGCTGTTCTTCATCCTTTAATTAGCATTCAAACTAATCGTTATTAGAGTGTGTAACATGATCTTTGACATAC
CTAGGTAATTTTACTTAAGTATATGAGTTATGTTGATACGCACAGTTCCTCAGCATGAATGTCATTGTTTTGCAAATTTTAGCTGAAGGTGACATCACTG
TACTAAAATTTTCTTGTGCATCCACTTCCTAGCTATGACTCTCTACAGATGGATATAACTTTTTTAAGATGAAAACCATTTATTTTCAATTTCTAGTTTA
ACTGCCTCACAGTAAAAAAGTGTACTTTTTGTGATGGCAGGAATTTGAAGTATGTTGAAACTGCCTTTGTGATCTGGCTCATGGTTAACTTCAATAACGT
ATGAAAAGAATCCATATTTTTATGTGTAGTGTTCTGTAGCTCTTTTAGTTGGTTTATACTCTTTTAATGGTCTGTTGACCATTTTATCTAAATATTCCAT
TTTGTCTTTTACTTATTTCTATTATAAATGGTTAATCTCTTCTACTAAGATTGTTAAATCCATCTTTTTGTTTATGGCTGTGTTATTTGGCACATGCAAG
TTCATGATTGTTATATATTCTTGCTTAATTATTTTTCCCTTTATGCATCATCCATTTTTATCTTTAGTGTTTAGTGTTTTTTATTTTTATTTTGCCTAAA
ATTTTATTTTTATGTTAATATTTGCTATACTAGCTATTCTGCTTTCAAAATGTTCCTGATGTTTTTCTTTATCTTTATCATTTATCTTTTATCTTTAACA
TTTTTATATTTCTCTCTTTTAATCATGTGTGTTAGGTAGGCAAGGATAGCTGCTAGGACAAAATATTTTCTGATGTTTTAATAGCTTAACACAATGGTAA
TTTATTTCCAGCTTATGTAACAGTGCTTATTGGGCGCTCAGTTGAGGCTGGAAATAGACATGTGAGTGTTTTATGGACTAGGCCTTGAAGAAGTGTACCT
CCCTTAGATTTATATTCCACTGGCCAACTCTAAGTCTCACGGCTATGCCTAATTGTGAAGGAGACTGGGCAATGAATCTAGTTGAGTGCCCTGCAAACTA
AGGCACAGGGATTTTTGTGAACAGCTGGTAGTCTCCATTACAGTTCTCACATCTGGACAACAAGTACCTTTTGCTCCCTTATTCTCACACAGAGAACATA
TTCACTTTTCTTCCAAAGGCAGAGTCTCAAAATCCCATTTAATTCTTTGATTCTGTGCAAATTCTAGGGTCTCCTTCATGCTTAGATATGGTTCCTTATG
GTCCTGTGGGTTTCAGAAAGGCAGCCCATTCATGCCGTCTACCCCCCTGCTGCTCTATATAATAGAAGGTGGAGTAGAGACAGAATATCAGTAGCAAAAT
CTCCATTTTCAAAAGAAAAGAATGAGAAACATGTTGCTCCATGACAGTCAATGATAGAATCACGCTGGGGAGGTAAAGAACCTTGTAGTAAGAGAGCATT
CTTTATCCAGGTCTGAAATCTGCTCTCTGGAGGGAAGTGCCCTGTCCATTATCCTCCATGGTCCCATCTGAACTGGATCTAGAGAAGGGTTACTCTCCTT
AGGGAAATTAGCAGCTGTCAGCCCACTTCCTGCTGGTGCATGGTTGAGGCTCCGTTTTTTTGTTTTTAGCAGTTATAGGCTTTTAAGGTCAGATTAATCT
TTATTTAATTTCTTAATAATCTTATAGGATTCAGATGTATTTGTTTCCCATTAATTCATGAGTAGTGGCCACACCAGTCTTTCCTAGACTTGAATCTCAA
GTTGCTTTATTTTTCTAATTTGTTATCATCATGCCTCTCTTTCAGCACAGTAGCAGCTACTATGAGGCTATTTGGAATAATGAGCTTGGTTTGAAAAGTA
GCATCATTAATCTGATATATGCTACTGGGCTGAATTATTTGAATTCATAATGGGCTATTGTCTCTCAAAGACTTTTGCAGGCTTATTTTATGCTTTTTGG
ACTCCAGAATCAATTGACTTTTTCAACTCTGTAATGTCCTAACTTTCATTTCTGCTTGCACACTGGACAATGCTTTTTTTCAGGAACACATCTCTTTCTT
GTAATATCTTTGTAAAAGCAGCGTGGAGCAGCCAGCACACAATGCCATTTTAGCTCTTCCCTAGAGCTTCAGACTCAATAGGTACTAGATCTACCTTATG
AGTTATGGCAGAGCACAATTTTACCAAAAGTCTTTCAGTGTAAAGACACAGATCCACATGGGTGTCTCTGATTGACAGTTGGCTTTGTCTATTTGGTGAG
TAGGATATCCAAGCTCATTTCATTTAGTGGCTGTATTGTCCCCTAGGAACTTATTATAACTTAACGTTTATCTCATGGAAGGTTGAAGTATGGGGAACCC
AATTCATATGAGAAATAGCCCAGGAGTTACATTCTCTTCTGCTCAGTGACCATTAGTGGAAATGTAAATATCTCACCTCAATGCAGTGTGGGTTAGGAAA
TGTGGCTTTCTGTCTAGTCAACCTCTTTTTCCTATGCTGTGGAAAGAGGAGAAGTATTCTGAGGGACAGCTAGTTCTATCTGCAGTGTATCTTTTTTAAA
CAGCATAGAACTATTTTTTTTTTTTAATTCTAGTCTTGGTTTCTGCCTTTCAATGTGTGAATTTAAGTTCATGTTTCTTTTGATGACTGATAAATTTGAA
ATAATTTCTGTATTTCATTGTGTTTTCTTCACTACCAAGTTTTTCTTATTTTTAAACTTTTCTGAGCATATATATGTATATTTTTTGAGACAGAGTCTCA
GTGTCACCCAGGCTGGAATGCAGTGGCTTGATCTCGGCTCACTGCAAACTCTGCCTCCTGAGTTCAAGCAATCCTCCCACCTCAGCCTCCCAAGTAGCTG
CATTAAATACGTGTGCCACCAGGCCCGGCCAATTTTTGTATTTTTAGTAGAGATGGAATTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCA
AGTGGTCTGCCCGCCTTGGCCTCCCACAGTGTGGGGATTATAGGCGTGAGCCATTATGCCTGGCCACCAGGCATATTTTGGAATTGATAGAATTTCTTTT
TATCTGAGTTACTCCATACATCATTTTTTCTCCCTGTTGCTCATTTGGAAGCTAATGATTCTTTCCTCCCTTTCTTCCTTTCTGTCTTTCTCTGTTTTCC
TCTCTCCCTGTTAGTCTTGAAAGTCTTACGTACATGTTTAAATTTTTTCTTAGAGTATCAAGTTATTTAATGTCTATCATTCTAATCAACAAAGCCAGAC
CATGCATGATTTAATGGATCAGTGAAATCCTTCCCCCCATAAAACAAACTTCACTTGTTAGTGTTGTTTTAGTTGCTTCTTAAATTCATTTTCAGTATAA
TTTATTTGGTCCTGTAGCTACTCCAAATGACGCACAAAATTTGGCTAAACTGATGACTCTTTTTGTGTTTATGGTGTTTTGAGTCCTCAACTTTTTCTGT
CTTGAATTTTTTTTTTTTTTTTTTTTTTTTTAAGGCAGAGTTTCTGTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAAGCTCCG
CCTCCTCGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGAACTACAGGTGCCCGCCACCAGGCCTGGCTAATTTTTTTTGTATTATTAGTA
GAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGWCCTTGTGGTYCGTCTGCCTCGGCCTCCCAAAGTGCTAAGATTACAGGCACGAGT
CTCCGCACCCGGCCCTGTTTTTGCATTTTTAGTAGAGACGGGTTTTCACCAGGTTGGCCAGCCTGGTCTCAAACTGTTGACCTTAGGTGATCTGCCTACC
TCSGCCTCCCAAAGTGCTGGGATAACAGGCGTGAGCMACTGCGCCTGTCTACATTTTCTGTCTTTACTGGTATTATGGYGGGAACCCATAAACCACTGCG
AGGCAGATACCATTTTAAGCAGGAAACCTTATTTTTTTCYGAAGCACATTTAAAAATATTTTCCAGTTTATCTATTAAACATCCTCCTTTGCTTCTGGAG
ATCCTCTGAAAGATTTATCTCTTTCGATTCATCTGTAAAGTAAAAATAACCGTCGTCGTCATTTCTCAAGCGTGACGATACTGTTACACGTTTACTGCAT
ATTSTGCATACCAAGCACATATCCGTCACAYGCAGTGTGGCCAACTTCCGAGAGGCCGGCATTCAGCCAAACAGCCTGAAGAACCAGGAGAAATGCCTGA
GTTTCCAAATGGCTTATGGTAAGTTGTTGCTGCCACTATGAGTAGCCTACTTGCATTTCTAYTTAATGGCTTTTCCCCATATTTGATGGTATGTTAAACA
GTCAATCATTCATTTTCTAAATTAAAGCCTGTCCTGAAAACGTGCTCAGTGCTATTGACTGTGCATCAGGTATTAGAGACACAGATATGAAACTGTACTT
TTTAATTTACGATAAATGTCAGTGTGAATTATTGGTTGTTTTGCTTTTCTTTCATAGTCTCCGTAGGCTTCTTGGGAATGGAAATTGGTATAACCTTTTT
GGAGGACCCTCAGTAAAAAGCTATCAAAATTTAAAATGTGGGTATCTCTTGACCTAGTGAGTCTACTTCCAGGAATTCATCTTAAAGAAAAAAATTATAG
TTTCCTAAGTATTTGTATTGCAGCATTGCTTTCAGTGGCCAACAAAACAAAACAAAACAAAATTGGAAACAACATAAAATAATATTACCGGAGAAACAAT
GAGTAACATGTATAGGATTTTTTTTTTTTTTTTTTGACGGAGTCTTGCTCTGTTGCCCAGGCTCCAGTGCAGTGGYGTGATGTTGGCTCACTGCAACTCC
GCATCCTGGTTTCAAGTGGTTCTTCTGCCTCAGCCTTCCAATTAGCGGGGACTACCAGCGCATGTCACCATGCCTGGCTAATTTTTGTATTTTTGTAGAG
ATGGGGTTTCACCATCATGGCCAGGCTGTTCTCGAACTCCTGACCTCAAGTGATCCACCCGCTTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCC
ACCACGCCCAGCCGCTTCTCGTAGATACTACCCAGGAATTTTCACAGTAACTTCAAGGAAGAGATTGTTCTGTAATTTCTGTTTTTACTGATAAGGAAGC
TCACGCTTAGAGAATGTAAGTAAAAAGTTCACAAAGCTAGTGAAGTATGTGGGGGCGGTTTTTAATGAATGATTGAACATTCTTTAGTGGAACTACAATA
CTATGTTTTTAGGAAAAGTTGCACGATGTTTTTACATGGGTAGAAAATATACTCTGGAAGGATTTGAACCAGGCTGTCCCTGTTCTTATCTTGGGGCAGT
AGGACTTTGGGGCACGTTTTCACTTTATATGTTATCAACTTCTGTATTATTTGTAATACAATGAACCAGTTTTATTTTTGCAACTAACAGTAAGTATAAA
TAGCTGATGACCACTTGGGGTGAACCGAAGTGCCTATGACAAACCACACGCAGGCATCCTCGGGACTATTGAGGCCAGATAATCCTTTGTTATGGGGGCT
GTTCTGTTCGTTGTAAGATATTGAGTAGCATCCCTGACCTCTGCCCCCTGGATGCCAGTTCACTTTCCAACAAGTTGCAACAAGCAGAAATGTCTGTAGA
TATTAGCAGATGTCTGCTAGCAGTTAGAATGGCCTCTGGTTGAGAATCAGAGCAGACTCTGCTCACACTGGGCTATCAGGGTATAGTTCTCTCCCTCCCA
ACAGCTGGAACTGAGACCATCTCCCTCCATTTGAGGATCATTCCGATTTCCCAAGTCCACCGTGTGGAATGTAAAATCCTTTGAACCAGAACAGACAAAT
CTTGTTTTTGTCTTTTTATTGAATTTAACCACTATTGACTTGCGACTTGCGGCAATCACCAGATCCCAGATCTCTGTGTTTGGAGCTACACGTCYTTCTG
AATCGAGGAGGTGGGGCACTGATTTTTCTTTTATCACTGACTTCCCCGAAGTGGGAAGTTCCAGTGCTTAACAAGTTTCATTAAGAACACAGCTATTAAA
TATTCAGAATATACAGACTGTTGCTGTTGAGAATGTAATTATGCAGTAAATTAGCTGATGTCCAGTACGTTGCCTTTTAAGCAGATCTTTGATGTATGCA
GTACTTGCATAAGATATAGGGCATGTTTATTAAGAGTCTTCAACTGTGTATAAAACTAGAGCAGTCAAAAGTAATGGTGTCTGCTGAAGGATTCTTTATC
ATATGAATTTACCTTTAGTCATCTATTATTTATTTCAGCTATTTTATATGCCATTATAATAAATATTATGACAGAGAAAGCTTTTACGCTTCAACTTATT
GTACTCCTCTTTACTTGCCTGCAATCCTTCAGGAAAATGTAACCACGCTTTACCTATAGTTAACGTAAATCATCACTTACATTAGAATGAAAAATTCACT
ATGAAAAAAAGCTCTTACTTCAATAGCAAGGCATAAATGCACAATCATGTTGACTGCCAACCTCCTGTGTCATTCACTGTCCTTCCTTAAACTGTTTTTA
AGCTGCAAAGTGAATATATTGCATAGAGGGAAATAGGAAGGTTTTGGATTATTTTCGCTCTCTTATTAGTTTCTGGCAGGATAAGCATTTTTTATCCGGA
TTGCAAAATATTGCCAATTACTGTCTAAGCATTTTTAATAGTTTTGCTTTCCATGGCACGCAACTCATATACTAAATTAAATAAGCTGTTATCTGGTGCA
ATTTCTCCTTGAATAGACTCAGAATTACCTATAGATATTGACACGGTTATTTTATAAATTGAGTTCCAGCAACACAAGGCAAAAATTTTGGCCTGTATGT
AATGAAGGAAGAGTTGTCATCATTTTCTTATTAGGGATGTTTGTGTATTTTGGCAGGGGGAGGTAGGAAGGGGACCTGATGGAGGGCCCTGGAGTGAAGG
TTGATGCTGGATGGTTGATTTGAAGGTTAGGAATGGCAAACTCAGCCTCTGTTCTTCAAGAATCCCCCTGCGTCCCCCCGCCCTGCCCCCTGCCCAAAAA
AAAGGAAATCCAGGGCTTTGCTAGGGATCATTTTTGGTGTGGTTCTGTATTTTAAAATGTGGAATCATCTCCAAAAGTGTTTGTTTATTAAAAGCAAAGT
GATAAAATGTGTCAAGTCAGTGAAGAGACTCTCAAACTCCCCTTTCCTGCGAATCCTATCAGAAAGAACATTTATGAGGGCATACTTTTCATCTTTAGGC
TTGGCAAAGATGGGTCAAACTCCCCATCAGACTGGCACATGGTGCTGTTTCAGGTTTGACTAAGAGAGAAAAGAATCACTAGTCAATGAAAGCAACTGTG
TCCCCATGCATTTTCCCAGTGAAGATGCGATCACCCCATTGCCACCGTTACCATTGCTTAAATAATATTAGAGGAATTAGTGTTATGAAGTCCCACATAT
GATATTGATGAATTATTAAACCAGTTGAGTTAGATTTCTATTGTAGTTCAGTGAATAATGTCATGTCAATACTGTGCTCAACGCCAGTGTCTCTTGCTGT
TGTAAATGTGACAGCTCCTATTTAAGGTTTTAGAACATAAAATCAGGACTGAGAGTATGTAAAGCGGAAGGGTGAGAGACATCAGCATAATGCAATTAAG
GCCCATTGGATTAGAATTTGCAGGATGCCATTAGCAATAAGCTCTGAGTGTAGATTATTGCCGTGCTTACATTTTCTCCTTCAGCGGTAACACTTCTCTT
GTAAATTCTAACTGGGTAAAATAAATATGATATAAAACAGACACAAATAAGAATATATAGATGATGTTAATTTCTTCAGAGCTTCCCGGTGTTACGTCTT
CAAGAATATGAYGACAGGGGAACAGCCCAGTGTGGCAGTCATGTGACGACATGAGCATTGGAACCAGCCACATCTCAGTTGGCAACACGTATCTGTGTCT
TACTAGCTTGGCCACTGTCACGTCACTCAGCCTCTGTTTTCTMATCTGTAAAATGGGGAAAATTATAGATGCTTCAGAAGATATTTGCTATCACTATTAA
ATGAAAACAAGCATGTCATCAGTGCTTATTATTTTTGTTGCTTTTATGATCAATAAATACATGCAAATTAGAGCTTTTTAAATGAGATTCTGGAAATAAG
TTTTTCCGTATGTGTAAGGGAGGGGTAGATACACTGCCATCCAATCAGCATCAATGGGTACCTTGAAGTGAGATCACAAAATAGCTAATTCCCTGTAAAC
AGCAACCCTTCTCTCTGCAGTTGCACATGAGTAGTCCCCCAGTTAAAAGAGAATTTCCTCCAGATACAATGGAGGCCACGTTCAACACAGCCATCTAGTG
TACCTGGGCTTCTTCCACCTCCAGCCACTGTACCGACGTGTTCCTTTATTTCACCCACATAGTGATGATGCTTCCAACACAGCATAACAAAGAGCTGCTG
CTTTGTGCTGCTAGATTTGCCAAAAGTCTGTGCCAGGGATTCTTTTGTTGGAGGTAAGTGGAGAACGCAAGGCCCACATGCACAAGATGGGAGTATTTTG
AAGCATGCTCCGTAAGACCCAACATGTGGGCAGCAGACCAACTACTTGGGTTCACTATGGCGAGAAATGGGATAGGAGAGCGAACTCACTGATACCCTCC
CAGCTAATTCCTAGGCAATCTGCAATTAACAATGATTGTAAAGTAATAATTTGTGGTTTTGAAAACTAGGTTTGATCACTGGAATTATTCCTGTCCTATG
TTCTAAAGGCCTGTTGCCTTGAGATGTTTTTTCTCCTCCCATTATTGGTAAGCATAATGTAGGCATGAGACGTTGCCTTTGAAGTGTCGGAAGGATGGAG
AGGAGAAAAGAAAACGGAGATTGAATCTGGAAAACGCATTCATCTTTAGAGGCAGTGTTAATGAATACATGAATTTAGTCCTGTAAATGTTTTCTCCCTT
ATTTGGGACTTGGTGTATTGAAGGTGTCTGTTAACTGTGCTACCAATGAGTGCCCCTGTATCCGAGGGAAACTGGAGAAGTGTACTTGGGCTACCGGGTT
ACCAAGAGCAGGACAGCATGAGGCAGTTACAGATCTGATGGTTTTTCTTGGTCTTTGTCTCAGCTGCCATGAGGGCTTCTAAGGGGCAAGGAGGGTTGGG
GGATGAGAGGACAGGTACATAGTGTGGACATAATGGAATATGGAATAGCAATTGAAATCTTGCGTTGGGCTGAATCATGGCTTTGCAGTTATTATCTTGA
TGCGGCTGTGCATGAGCCTTTTGAACCTCAGCTTCTCCATCTGTGAAATAGGTGGATAATGACTGCACCCTGCGAAGATGCTATAGGGATAAATAACTGC
TGTGGGGCAAGGACTGAAATGGTTGTTGTTTTGAGATGGCTTTTATCATTGGGCCAGTGACGACCCATTCAGCCCTATCAGTGAAGAGTGAAGCACTGCA
CTCTTTAAGGATAGGGCTGAATGGTTTATCACCCATTCAGCGGTGACCACCACATCTTATGCATTGTGATGATCACGATGATAAAACAATACATAATCAC
AATATAAGGATCTAGAGTTATGAACTACTGATCAGGTATCATGTTCTGCTCCAACTGCTTTAGATACATTGCCTGACTTCCCGATAGGGCAGGTGCTGTT
ATTACTCCCACTTCACAGAGGAGCAAACTAAATATACAAGAAGCAGTAACTTGCCCAGCCCCAAACCACCCCCTGAAAAAAGAAAACAAGGGAGACCCAC
AGTTATTAATATGCATTATTATTGGAAAACAATGGTCATCACATTTTAGCAGTGGCCTTCAAAATAATGATAATAGCATATATTGAGAGCCCATTGTGTG
GCTTGTACCTTATATTCACTCTATCTAATCTTCACTCTAACCATAGAAGGCAATACTATTATGCTCATTCATAATTAAGGCAATTGAAGCCCAGACCCTT
CCAGTAGCTTTCCTGAAGTCAAGTTGCCAGTGCATTGGACATACTRGGCTGTAGTTCCAGGGCAGCCTGGCTCTGGTGTCTTTGCTGCAATGACAATATC
TCCCCATTTCTCTGTTTAAATACCACACACTCCCCATATGGTTTCTTTGGTTTCAGGCAGTATCGCATCAGAGTCACATATGGCTAATTTATAGTCATAA
AATGATATTAGAGATCACTGTTGCATAACAACAAGAAACCCCTTTGATTCCACACTTACAGACTCTTGAGTCACTAACACAGGTTTCAGTATATATAAAG
AATAGATGAAGAAGACTTAGTGTATTAAGGTGGCAGTGAACTGTGCTACTGATGAGTGCCACTATATTCAAGGGAAATGGGAGACATGCACCTGGGTTGT
TTGATTATGACCTTCTGGCTGAGCCCTGGATGTTGGGAGCAAGTGGGCTTCTGAGCTACATAGAAGTTGCCTGATGCTTCACATGTGGGATGCCACCTGT
GTGGCTCTGTTTTAAAATGATGGGTAGTAGAGTCTGTATACATAATTTAAAATACATTAACATTTCTGTTTTGCCTGAGATAAGCTTGTACTGGTGTGAT
CAGAAGGAAGAATGAGGATTTGGGGAAGGAAAATTTTGAGAGCCATTTTACAGCATTTCAAGATTCAGTGATCTCAGAACCTCTTTTGGTTAAACAAGCA
TGGGARGATGGATGATTGGATGGATGGATGAATGGATAGGTAGGTGGGAAGATAAATGGATAGACATATAGGTAGGAAGGAATGAGGGATATATGGAAGG
CTAGCAGTTTATTTTACGGTGGTGGGATTTTTTTCTTTTCCTTTTTTACTCAGACAGTCTTGTTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCATG
TCTCACGGCAGCCTCGACTTTCCAGGTTCAAGTGATCTTCCTGCCGCAGCCTCCTGTGTAGCAGGTGCATGCTGCTATGCCCAGCCAGTTATATTTTAGA
TGCTTTTTTATATGGCCCATATTCATATGTCTTTGTGACTTTTTTTTATAATGGATGTGAGTGTGAAGTAGGAGTTGGCCTGAAACAAGCCCAGAGAGGT
AGACAGGGACCAAGTCATGGACTGAGTTAGTTGTTGTTGTTCCTCACTTTCTGTTTTTATTTCTCCTCTTTCTGGACACATAGCACGTTGCACCTTCTAG
AAGCTAGGCACAGCCACATGACTTTGTCAAGGGAAATGTGAGCAGAAGCAACACCAGTCACTATTAAGTGGGAAGTCTTTGAGATGCCACGTGTAANNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTC
AGCTGGGCGACAGAGTGAGACTCCATCTAAACACACACACACACACACACACACACACACACACACACAAAAGCACAGGGCTTTGTTAGCAGGCATGACT
TGGATTCTTTAGGATCCTTCCCTCAGTAATCTGGTCTGATGTGGCCTTCAGGGAGGATCTTTGGACATCATTGCCATCCATCTGTCCACTGTGCTGGACT
ATAACCCACCCAGACTACCATTTATTGCCAAGTGGCATCGGGACAAGAGTTTTACACAAGAAACATCTTCTCTGCTAGTTAAATTAATTAGATAATTTGT
CTTCCAGACAGGATGTTAGGAACTTATGAACATGTATCGTTACAAACCTATGAGTAGATGACTAATATTCATCTTTTACAGATAAGGAAACTGAGGCTCA
ACAGTGTTAAATGGTCCAGAATGAGTGTGTTTTCTAGCTGTCACTGCCTGATGTTTACTGCTCAAAGCTTAGGACTTGGATTAGAGCCCAGGACTTGGCA
GCCAAGATAAACCAGSTGCAATTACGCTGAACATCTCAGCCCAGCTCCTGTCCATCCCTGAACAGGACACTTAGGGTAGAGGATGTTCTCAGCAGTGCCA
TTTGCATCCCCCTTCATAGCCTTACAGGTATCATGTTATCCTCCTTAATCTTACTTAAGCATCACAGTCTAGACTAGAATTCCCAAGTCAACCGTTTGTT
TTACGGGACTCTTCTTATTTGAATAGGCAGGTGGCCCTGTGTTCTTGGCTTTTTTGTCCTTTCAAGGAGCTAGGTCTAAGAAGTGATAGTATTTAATCTC
GCACTCCGAAGCGCACCCAGATTTAAAAGTTGGGAGTGGCCCATACACAGAAGGCTAGTGGGAGGGGCAACCCGGAGATTTGTCCTTGCAGAATGATGCC
ATGAAGAACATGGCCAATGGAACACCATTGCTTCAAATCCCGACCTCTCCAGTTCTCCTGGTTTCTTGTTAGGCGGGAACTTGGGCTTCTTTATCAGTGA
CTGGGGTCAGTTCTTGTACTCAACTTCCTATCTCTGTGATCTCTTGTAAGATGCTGCATTGTCAAATGGAGAAAACATTGTCTTTGAGTTGTTAGGAGCC
TTGAGTGAGATGGTATGCAAATGTCCAGCCCGTGGCAGGCCCTAAGTACACAGTAGCCATTATTACCATTATTATTCCTATCACCAGCATGTATTCCACC
TGTTGATAGAGTTTTCTGGGTTTACTAAGCCAGGGTGTTGCCTTTGGGATCGAGGTCCGTCAGAATCCATTGGTATAAACGAGTCTTTCTGCTTTTGTAC
TTTCTATAAAGGAGTTGTCTTTGATTTTTGATGCAGGTTTAATGGAGATATTTCAGAACCTGGATGGCAGCTTTTGAAATTAAGATATTGTCCATTGCAT
CTTTCCATGATCGAGGCGTTGTCGTGCATTCCCCTCCTTACAGCGTTTTAGGATGCAGATTGAGAGGAGATAACGTTAGCCCGAAGCGCCTTTGCAGCCT
CTTTTGCGCGGCTGAAACACAGCACAACCCACCCCCCCGCCCCACCCCCCAGCCTGTAGGTTTAGCAGAATCCCAGCCTCACATCCTCCCCGAACTTGGC
AGTAAAAGCCCTGTTCTTCCATTCATTCCGATGATTTATATTCTCTCTGGGCRTCTTATATTAAACAGGGGAATTCCGACATGTTCCATAACACATTTAC
TGTAACTTGATACCATGAACTACACTTGCTGTTATTTATCATTTCTTTTTATTTTCTCTCATTGCAGCATAAAGCCAAGGTAGAARCAATGACCCTGGAC
CTCGCTCTGCTCCGTAGCGTGCAGCATTTTGCTGAAGCATTCAAGGCCAAGAATGTGTGAGTGTTCCAGTGGAGGGTTATAGATCATAATTTYTTGCTAT
TGTAATATCTTTATCAGATGAACACAATTGGGAGAATGCAAGGCTGTTGTGTTGTCTTGGCGTCCAAACAGGAGGCTCATTTATATTGGCCCTGTTAAGG
TGAACCGTATTTTCTTGACTCACAGTCACCTTCATTATGAGATGTGTCATCAATCTAATAACAGCTTCCCACATACCAAAAGAGAAGACACTATTAAAGC
ACTAGTAAAAGTGGCTAATAAAAGCTTGGCAATAGTAAGATGCATCCTGATTATAAGATTTTTTGTAGTGCATTTCAGAATGGAGTAAGAGTATATTTAA
ATTGCATTCAGGAACAAGTAAACTCAGTTATCCAGTATGGCAGGGAGGTTGACAATCCAAGCACCCAAAAGACCTCTAGTTTCTAAAGCCTTCGATGATT
TGATGTGGTACATGGATGTGGTTCCAAAAAACATGGACTCACATTCCTTTTATTTATTTTTTTTCATCCTTTTCAGTCTTTCAAAATTCCAGTTGGAGAA
AGCCTTAGTTAGGGCCTAGCATATTTTGATCCTATCATATGCTAGCATCCCTTTCTAACAGAGAAGGTTGTAGGAGAAAGGGAGAGAAGCGGAAGGGGGT
GGGGAGACAGAGAGACAGACAGGAGGCCTCAAACCCTGAAACACTGAGCTAAGGAAAGTGATCATGGCAAGCTACACTAATTACAATACTTTGTTTCCAA
GTGTTTATTTTTACTCATATTTAGGGCAGGCAATCCTGGTTTCTCGTTGAACATAGAGGTTTGAATTTCATTAATAAATAACTTCATTTATTTTTTTTCA
GTGACTTGATTCAAACATGAGGATTAAGTTAATAATAGCACAGGTTGTGCGAAGGATAAGATAATTACACAAGAGGCACCAGAACCACTGAATGTGGAGA
GCTCTCATAAATGACAAGCTGCCTTTGGGTTAGGCTCTGTTGGGAACATTAGTTCTGCAGTGTTGCAAGCAGATGAAGGATGTGAGGGAAGGGATCTTAA
ACCAGATATTCAAATGGCCCTGTGGGGAGCTGACACCACACTGCTGTCTAGTGTCCAATTCTCCTTGCATGGCTGTGTCACCCAGGTTGGAACGTAGTGC
ACAATCTCGCCTTAATGCAACGTCCCACTGCGGGCCCAAGTGATTTTCCTGTCCCAGCCTCCTGAGTAGCTGGGACTACAGATGCCTGCCACCATGGCCT
GCTAATTTTTGTATTTTTAGTAGACATAGGGTTTCACCATATTGGTCAGACTGGTCTCAAACTCCTGGCCTCAGGTGATCCACCCGCCTCAGCCTCTGAA
AATGCTGGGATTACACACATGAACCACTGCGCCCAGCCGCTCTACTTTATTAGATTTAAAAAGTTTGCTCTCAGCTGGGTGCAGTGGCTTATGCCTGTAA
TCCCAGCAGTTTGGGAGGCCAAGGCGGGGAGGGTCATGAGGTCAAGAGATCAAGACCATCCTGGCCAACATTGTGAAACCCCATCTCTACTAAAGATACA
AAAAATTAGCTGGGTGTAGTGGTGCACACCTCTAGTCCTAGCTACTTGGGAGGCTGAGGCAGGAAAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGA
GCCAAGATGGCACCACTGCACTCCAGCCTGGCGACAGATTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGTTTGTACTCAGCCTGGCGTGGT
GGCTCACGCCTGTAATCCCAGCACTTTGTGAGGCCGAGGTGGGCGGATCACCTGAAGTCAGGAGTTCGAGACCAGCCTGGGCAACAAGGTAAAACCCCGT
CTCTACTAAAAATGCAAAATTAACTGGGCGGGGAGGCACATGCCTGAAATCCCAACTACTTGGGAGGCTGAGGCAGGAGAATGGCTTGAACCCGGGAGGT
GGAGGTTGCAGTGAGCTGAGACTGAACCAGTGCACTCCAGCCCGGGTGACAAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAATTGACTCAGGCTC
TTGCTGGAGTATGTCAGTGTCCCAAGTCATTGAGGTCTACATTAGAGTCAGTCTTAGTGAGAGTTGCAACATCGCCTAAGCGCAGACCCCAAGCTGGCTT
GTAGGAACAGTGAGATAACATCCCCCAGCCAGCCAGATCTGAGAGAGCCCTCCTGTGTGTGTCCTTTGCAGCGCTTGGCTGTTAGTAGCTTCCACCCTTT
GCCAGAACTATCAAGAGGCACCTCAACAGGCTGCAACACTAGCATTCAAGACATTTGTTCGCTGATTTGCTTCGTCATTCATTTATCCACCGGTTCCTTC
ACTTCACACACATTTCAGGAGCACCTCTAAAGCCCCAGACATTCTTCTGGGCTCTGAGAAGAGAGTGGTGGCCCTGGAAGCCACAGTAACCGCACACAAG
CTGTCACCTCAGTTGTCAGCTATTATGGATGGCTGACTCCTCAAACTCATCTGTCTGTGGTTGTTTGGGAGGGAATGATAATGACAAGAACAGCAGCGGA
GTCAGCAGCTCATTTACTGAGGGCTTATGGGCCATACGTGGAAAATATTTTGCATGTACGTTTTGATTCAATTCTCAAAGCAGTCCTTGGGAGTAGATGC
TATTAATATCTCTACTATACAGATAAGGAAAGTGAGGCTAGAGAGGATATATAATTTATCCAAGGCATGTGGAATGTGGGTAGAGGGGCCGATTTAGCCT
CTTCACGGCTCCAACTTGACCACCGTACTATACTGTGTTTCATTTTAGTTTATTTTTTATTTATTTTTTGAGACAGGGTCTCGCTGTGTTGCCCAGGCTG
AAGTGCAGTGGTGCAATCTCTGTTCATTGCAACCTCTGGCCTTGGGTTCAAGCGATTCTCATGCCTCATCCTCCAGAGTAGCTGGGATTACAGGTGCAGG
TTACCACACACAGCTAATTTTTGTATTTTCTGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTAGTCAACTCCTGACCTCAAGTGATCTCTCCACCTTG
GCCTCCCAAACTGCTGGAATTACAGGCGTGAGCCACCCTGCCCGACCCTTTCATTTTAAATGTGATAGAAACAGACTCAGAGAATGTGAGTGACTTTCGC
AGGGTCACTTAGCAGGTTGGTGACGGGCATGGGGTTTCACTCCAGTCTGCCTCTTGTTCTTTTCCTCATAGCATGTGAGATCTCACAATTCACTGCCGCT
GAATAACTTTGTCCAGTTCCTCTGTCAGAATGTGTTGGAAGTGAGCAGCTTTGCTGAAGAGAGCCAACTGTTACATAATAGGATCATCTTCCACGTCTTA
ACTGGACCATTAGTTTTTAACCATTAAGTAGTTGGGAAATCATCAAGTTCAAGTGCCTTTTGTAATCACCAAGCTCAAAACCTTGGAGGAAACTCTCACC
CATTTTGCCCTAATCCCAGATTTTAGCACAGGACTTTGGAATTTTAGAAAGTACTTCTAGGTTGAGAAACAAGGGTGATTTTCCATATAGAGACCTCTGT
AGCACAACCCTCTTTGTATGTGTCCCATGAGAGTACAGGATTTTACATGGCTTAGAGAAATACTGTGGTGGTGAAAATATGCATAAAAAAGCGAGAGATT
TTACTTTTGAAATGCTGCCAAAGTGAAATCTCTYTTGGATAGGCAGATGACAGTTTAGTACTTGCAGGTCTTTCGATTCTGACAACTGTCAGAAGTGAAT
TTAAGTGCTGGTGACTAGGCTGCCAGAGAAACACATGTAACTCTATTCTTATCACCCCCCATCTTCAGACATTAAAATTTTCTTGTGTGTAAAACATAAT
GACAAATGAAAGAAAGGCTGCCAGTTCAGAACCAATCTCTTTTCACGCTGTTGCATTGAGGAGAGGAAAAAATCCCTTAAATTTGAATTCCATGTGGATG
CTCTTATTTAATATGCCGTTTCAAAGCCTGTATGCGATCAAGCCAGAGTATTATCAGGCTCTGAGTTCCTGTGTGTATTCCCTTGGTCCATGCTCCATCT
CAAGTGTTTCTCCACACTGGGATAGGCAGCATATTGTGTAGTCTTAGAGCAGAAAAGGTAGAAACAGATTCTTAGTACAAACACTGGTGAGAAAAGCAGC
ATATTGTACTGTGGAACCACCCGCCGTCTGCCTTCTGTGGGAGATGGGGATCAGCCTCTTCCTGGATCTCTTCTTTTTATTCGGGTGCTGGGAGGTGAGG
CTGCAAAGGAGGCTGTTGTAGAGGGAGCCCTCCTAACCATGATTATGTAAACAATAGCTGCTAGGCAACTTGTTGTTTGTTTTATGCAAGGCAGTGTGCT
AAGCACTTACATACATGTATTCTGTCTGTAGTTTGTTATAAGAGTCCTGCACACTTAACCATGATTATCCCTACTTTGCAAATTACAAGGTTGCAGTGCA
GAGAGCCTAAGACACTTTCTCAACTTGAGCAAGTAGGAGATCCAGAATTTGAACCCAAATCTCTCTGAATCCAAAACGACTTTTTGTTACTTTGCACACT
TCAGTCATAGGAATTTCAGTGTGGATTTCTGTATTGGTTATGTATTGCCGAGTAAGAAATGACTCTGGCCAGGCACGGTGGCTCACACATGTAATCCCAG
CACCTGGGGAGGCCGCAGTGGGTGGATTGCTTGAGGCCAGGAGTTTGAGAACAGCCTGGCCAACATGGCAAAACCCCGTCTGTACTAAAAATACAAAAAT
TAGCCGGGCATGGTGATGCATACCTGAAGTCCCAGCTACTCAGGAGGCTGAGGCATGAGAATTGCTTGAGCTCTGGGGTGGGCAGAGGTTGCAGTGAGCC
GAGATCATGCCTGGGGGACAGTGAGACTCTGTCTCAAACAAATTACTCCAAAATTTAGTGGCTAAAAAACAACATAAAACAAGAAACATTTCTGTTGTGC
CTCCTCTTTTCCTCCCTCCCTCTTTCTCATAGTTAATTTGTTTGAATCAGGATTCAAATAAGGTCGATGCATTTTTAATCTATAGGTTTTGTCTCCTTTT
TTTTTTTTTCCTTAAAAAAATTTCTTTTAATGCAACAGATTTAAGGGACCAGGGTGTTCTCTAGAGCAGGGGTCCATGACCTCTAGGCCACAAACCAATA
GCGGAGCCGTGGCCTGTTATAAATTGGGTGGCATGGCAGGGAGTGAGTGGTGGGCAAGCATAGGAAGCTGCGTCTGTGCTTAGAGCCGCTCTCTGTCACT
CTCATTAGTGCCTCAGGTCCTCCCCCTGTCAGATCAGCAACAGCATTAGTCTCATAGGACCGTGATCCCTATTGTGAGCCACACATGCAAGGGATCTAGG
CTGCATGCTCCTTACGAAAATCTAATGCCTGATGATCTGTCACTGCCTCCCATCACCTTCAAGATGGGATYGTCTAGTTSTAGGAAAACAAGCTCAGGGC
TCCCACCGATTGTACATTATGGTGAGTTGGATAACTATTTCATTATATATTACAACGTAATAATAATAGAAATAAAGTGCACAATAAATGTCATGTGCTT
GAATCGTCCCAAAGCCACCCCCACTCCTTTGAGTCTATGGAAAAATTGTCTTCCAGAAAACCACTTGCTGGTGCCAAAAAAATTTGGAAACCTCTGCTCT
AGAGATTTCTGCAGTCTGTACTTTGGTGATTGCATCTCTGTGGTGTCTTTTAACATACTCTTCTGTCTCCTGAGTTTCCTGTGAAAGGGTAGATAACTCA
AGAGACTCAATCAACTTCGTGTTTAATGTTTTCGTAAGAATACTTCAGAGGCAGTGGTGTAATCGTCCAAGAGTACACACAGGCCTGATYGCCAAAGCCA
GTTTTCTTCAGGCCCAGCACGTCCTGACCTCCTCACTCCTCTGCCCACTCTCTGTTTACTCACTCCSATTTTCATTCATTGATTCTGTTATTCTCCACTA
AGTTTTCTGGGTGGTCAGCCCAGGAAGCCTCAGCCTGCTTCCAGATAGTTCTCCTCAGAGTTAGCGGTAGCAGCGGTCGTCGGCCAGTGTGTCTCGGGTC
AAATTATTTTGGGCATTACTGGAAAGTTCCAAACCAAAGCCTGTGGTAAGTTCCACCCAAACTGGCTTGTGAGGGATATTTTTGTTTAAACTGCATTCCT
GGAGAGGAGCCAGACTTCCTACTGCCTGGCAGCAGTGGTGTCCATAGGAGTATGAAGAGCTGGGACCCTTTCTAATCACTCAGACCAAATATTGGGGTTT
TCTGAAATGGACTGAGAAATAACAGTATGTTTTTATGAGGCTTTGCACATTTTCCTTCCTAGCAGTAGCTGCTTAGTCTACTGAAAAGTGCATATTTTGA
ACAGGGCCTAGAAGAGTTAACAGCTCCTAGAGAGAGGTGCTCTGTAATACTTTTTCTTCTTCAAAAAATGGTTTATGGCTGGGCGCAATGGTTCATGCCT
ATAATCCCAGCGCTTTTGGGAGGCCAAGGTGAGAGGATTGCTTAAGCCCAGAAACGTGAGACCAGCCTGGGCAACGTAGTGAGACGCTGTCTCTGTATTA
CAAAATTTTTTAAAAAACGGTTTGTAGGTCCTTAAGTCCCTGATAAAATAGAGAACTGAATTGCAATCCTGGAACTTAAAAAGTTGGTGACGACACCTGA
GATATTTATTACTTAGATTGCAGTTACTGGTCAGCTTGTATAATACTGACCAAGGGTTTTGATTCTTCCTGGAATTGATAGGAAATTCATATTAAAATAA
TTACCCAAGTCCAAACATTTTTAGAACTGCATTTTTGATCATGGATTTTTATGTCTCTTCTGAACTTTCTGTCACCGGTATAATTTAAAGAAATTATACT
TAAGCTTTGTCTCACTTAGAAGATAATATAGAACAGTGGTGTTTTTTTAATTAAAAAAAARGTTAAAATRACGGTTTTGTATCCTTGCTTTACTTCTTAA
ACATATGGGAGGAAAAAAAATCTTTAACAAGTTTATTTATTTTCATTTTCTGCTAAATTACTTTCAGAACTTGAATCTACTAATCCCAGATATAATATTC
TTGGATTCATATTCCAAATTTTGCTGTCTCAAATCCATCTAGGGAAGTGGGTGGGCTATAAATTATAAATAAATTCCAAATTTTGTGGGATGAATTACCC
TGAAGACCAACGTGTAAATTACATATTAATCTTTCTTTTTCTCCCTAGCTCGGTTTTAAGAATAATGTTTTAGCCAACATATCTGCATTACTCTTGGCTC
AAYATGAGAAATCCATTTTTGGTTTGCCTAACAGAAGATCATGTTGCTTTGCTTCTCTACACAGTATGAAAACCCAAAGAAAAGAAAAACAGAGGCAGTT
TTTTGCTCTAATGAATGCTCTAAATCTAGCTCTTAATTATGATTTTTTAAGGAAAATTTTGAAAAGTCTACAAGTTAAATTTTTTTTTCTATCCCATACA
TTTTCCATCCTAAGGCATTGAAAAAGCACACTGTGAAATACTTAGTGTATCTAGAAACATCAGGGAAGAATGCTTCCCTCCTAAGCAAAATTTTGCCTTC
TGAAACTTTTTCAGCATTCAGTCTTTTTATATAATACTTAGAAAAATATTTCTGAAATAGATCATACACTCTCTTCCCAAAAACATCAAAGTATGACCGT
AAAGGGCAGAGGTAGGTAAACTTCTTGTAAGGGGCCAGAGAGTGAATATTTGAGAATTTTCAGACTATTAAGATCTCTGTTGCAACTGCTTGCTTTTGCC
GTGGTAGCCTGAAAGCAGCCGTAGATAGTATGGAAATGGATGATCATGGCAGTGTTGCAATAAAACTTTACAAAACAGACAATGGGCCAGATTGGCCAGG
GGCCATAGTATGCTACCCCTGGGCAACAACCTGTATGCCCTGGAGTAGTGTAAAGAACGTGGGTGTTGGGGGTCAACTGACGCTTCCAGCTCTACCACTT
ACTGGCTGTGTGGCTTTGGGCAAACTACTGAAAATCTCTCAGCGTCACTTTCCAAGTGTGTGTAATGTGTATTTTCACAGTGCTTTGCAGGTTGTTGATT
ATTGAAAATAGCCATAATGCATGAAATTACCAGACACATCTCACTTTATGGAGCCTGGGGCTATTGGTAATATGCATTTCTTTCTCATCTTGATCGTAAA
ATGATCTTAGAAAGGTTTCTGAGAATWTATAGAGTTTAAGACAGCAATAAGACAACTAATTAATTAAACAGGAAAAGGGGATGTTGTGCTCAGAGAGGAA
GTGTGGGTCTCATAAGGGCTTTCACAATCGTTTGAGAGGACACGTGTGATGTCTCATGCCTGTTATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGGTTG
CTTGAGTTCCGGAGTTTGAGACCAGCCTCGGTAATTTGGCAAAACCTTGTCTCTACAAAAATTACAGAAATTAGTTGGGTGTGGTGGTGCACACCTGTAG
TCCCAGCTGCTTGGGAGGCTGACGAGTAAGGATCACTTGAGCCAGCATGGTGGAGGCTGCCATGATCATGCTACTGCACTCCAGCCTGGGCARCAGAGCC
AGAACCTGTCTTGTAAAGAAAAGGAAAAAGAGAGAGAAGGGCAGAAAGAAAGAAGGGAAGGAAGAAAGGAAAATTGGGCCCAGGAATGATCTTTACAATG
CCTGACAACCAAGAGAAGAAGGGAAATGAGCTTCACATTGCCTGCAAGCTCTARGGTGACAAGAGCCAAGAGAAATTATTGTTACTGTAGTGATGTTCCA
CTGAGGATCATAAAGTACTTTATTACTCTACTGAGTATGGTTATTGGATATGTGTTCTTCTTTTTCTTTTTCTTTATCTTTTTTGCTATTCTTTTGTTAT
TCTTGATTTATGCTGATGGAAAGCCATGGACCCAAGGATGCTTCACAGTTTTCTTTCGGAGTAAATGCTTAGATTCCATTTTCTTTGACATGACTATGTC
TGTTCCTCTTGATTTTAGGCATCTTTTTCAGATGAGTTGCCATAAAAGCAGCCTGCTCTGGATAAGTGAGGTACAGCAGGACACACTGCAAATACTAGGA
ATCCTTAAGTACAGTGGAACCCCAGAGCACTCTACCTGCTTTCTTTCTCACCTCCTTAAAAACTTTTTTTGCCCWCACCTCATCATTTATTCAGCAGTCA
CAACAGTGCCAAGAACTTGGCTAGAGATTGGAAATAAAGCTTATGCCTTCTCTCATATCTCCTGTACCTTATTTCTTTCTTACAGTAGTTGTGATGCTTA
GCAGTTTTTTGATAACTTTTTATAATGCCAACCTTCAAAAACCTGCCCCTGGTGGAGAGAATAATTATTACATCAATTAGGGGTCACTTAGCATGACATT
TGTCGGAAAAAAAAAAGTTAGTGAGCCTTTTTGCCATATTAAAAGTCATCACTGCCAAGACATAAATGAAAATGTGTTCGAATTAACCACACCAATGTTC
ACAAAATAAACATTTTTGATTTCCCAACAGAATCCTAGGTTTAACTATCACTATCATCTTTCATGAAATCAAAGTCATATATGTAAATTGAACACAACTT
TCCCTTCCATAGAGAGTAAAAACCACGCTTTGGAGGGTAGATACAATTACCCCAGGGTTGTCTTTTCCCACTCCTCACAATCCCACCAGTGCACATGCAA
GGTGATGTCCTTCCTTTAGCTATAGCAAATAATGTTAATTATTGTTGGTGTTAAATAATGATTATGTAAAGCACTAGACTAGACATTCGTCGGCAAAGTT
TTTCTGCAAAGAATCAGATAGTAAATATTTTTGCTCTTATCAGCCAGACAGTCTCTGCGGCAACCATTCAAGCATTGTTGAATACATTGTTGAGTGTTAC
ATGAGACTATTGTAATATAAAAGTAGCCTGGGACAACACATAAATAACTGGGTGTGGCTGTGTCCTAATAAAACTTTATTTACAAAGAACAGGAAGTGGC
TTGGATTTGGTATCTGGCCTGGCAGCTGTGGTTTACTACTCCTTRGACGGTGGCCCAGAGACCCTTTAAATGAAATTCAKTTTACTAGCACCCTTTTTCA
TCATGAGAAATATATTCTGTTTTTCTTARAAAATGGGTTATGTTAGGTCTGGTCAAGGTAAATAAGTGTTGAGAGTCGATGTTGTGTGCATAGTTAATTT
CAATTCTTTGAAGAARCTCCCCCATGATATTTCACGGCTGAGAGAAGAGGAAAGAGTTTAAGTGGAACAGTGTGCTTTGCTGAGCTTTGGAAATATTACC
ATATAGGGAAGCAGGTCAATAAGACAACTAAGTGCTGTTTCAATAACGAAGATACTGAAGCGCTAATTGGAGTATGGAACCATATAATGATGATAATAAT
TGCTAATATTTATCAGCTATTTATCATGTGTCATGTACAGCTAAGCACTTACATACCATCCCATTTTATCCTTATAATGACKCTAAGAGTGGGTTAAAAA
ATGGCAGAAGAATGGCAGTGTTTAATGGTTCAGCCTGGTGCAATGATTAACCACATTTTACAGACTAAGAAATTAAGAACCTCAACCAAGTTCATGCTAG
CTGGTACGCAGTAAGGCTAGAACTTCGTCCAAAATCTCTTCTTCTGTTGAGCTCAGCTTGCATAGTAGCTTGGAGAATCAGAAAGATCTGTCTCATTTGG
GAAATATACCATGTAAAAAACATTGTTTCTAAAGGAGATTTGTCCCATGAGTAAAATAGATGATGGACAGCCACTGCCTAGTGGGACAATTAGAAAGGTC
AGTTCAAGGTTGGAGGAGATGCTTCTTTCAGCCAATTTTCCTTTTTCTCAGGATCACCTCAGGTGATCCGCCCACCTCAACCTCCCAAACTGCTGGGATT
ATAGGCGTGAGCCACCGCTCCTGGCCTTTCAGCCAATTTTCTATCACCAAAGGGAAATCGTTTTGCTGGAATATGTGTAAAGGAGGTTAAAGTCAGAAGA
GATTCTCGTCCGCTCAGTTAAGGTACTCAGACTATTTTCCAACCAATCAAGAGGGTGCTGCTTCATGGAGTTCGTTTAAGCTGAAGCGGCAGCTGKTGAC
TGTCATTTGCATCATCTTTATACATTTACTGTGAATGTCACTGTCCATTTCCACTTTCTTTCTACTTGTCTTCAAATTGATGCTTATCAAGTAGACAGAA
GAAGACCAAGGGGTCGTTTTGCTATTTATACCTCCAAATTGATGGCGTGATCACTCTCAAGTGCAAACCCAGCCCTGACACTGTCCTGTTTGGCAATGTC
CTGCTATCTGACCTGCAAATAGCTACACTTCCTGCTGTGGCCCACCCAGGCCTCTGGGATCTGATCCCTTCTCCCATGTCACCTGTGGCCATGTCTTCCC
CAACCCAGGCTTCTCTGCTCCGCTGCTTATGTTCTGGATCCTGACTCTGAGCCTTTGCTTGTGTGGCTCCTCTCCCACTTGTCCATCATCATGTCAGTTA
TGTAAGCATAGATTCCAAAGTGACAATGAGGGTAGTTAGGATGGCAAGAGGAGAAAAACCAAGCTGGATTCATGGATTGCTTGTGTCACGTCCTCTACAG
AGCCTCCCTTCTACCTGCTCTTACCCGGGCACCACAGTTGATGAGTTATTTTTTGGACCATCAGCAACACACCCAATCATTGTACATGGAATACTTYGGG
GATGCTTTTTTCTATATTGATTTTACTTCATTAAACTGAGCTCCAGAGGAGCAGAAACTTTGGCTAATACATCTTGGTCTTAGCTTGTAATATCTGTGCT
ACAACTTATTAAGATGGTGACGCTGGCAAATTCCTTAATCTTTCTAATTCTTAATTTCATCAGCAAAGATGGGAAAGGATACTAACACCACTCTGGGTTG
TTGAGAGGATTCAATAACTGAATATTTATAAAGCGTAGTACCTGATACTTAATAAAAAAGTGAATTTTAACCTGTGTCATCATTGTCATCGTCTTTATCA
TCCTTTGCAATTATTACATTTACTGCCTTCTAGTACAAGGAAGGGGATGGGTGGCTGGCTGGCTAGGTGGATAGAAGGATGGAAGAGGTAAGTACAAGGA
AGGGGATGAGTGGCTGGCTGGCTAGATGGATAGAAAGATGGAACAGGTAAGTATAAGGAAGGGGATAGGTGGCTGGCTGGCTAGATGGATGGAAGGGGTG
GAAGGGGATGCAAGAGGTAAGTACAAGGAAGGGGATGGGTGGCTGGCTGGCTAGATGGATAGAAGGTTGGAAGACAGGAAGGATGGAACGGAAGAAGAGG
GAAGAACAAAAATGGAAACACATAGTACTGTTAGGTGAACTGAACTTCTAAGGTGCCGATTCTCAGTGATAGAATCTTGAGTTGATACCTCCTTGGGTGG
CATGGAGCCTATACCTTTGTAGATCTTGGGAAACAACTTCTAAAGTAATCATAGTTGTATGTAATCGTAGTTACAACAATAGTTATTTTAGGCACATAAC
CCAAAGGTTTTCTTACAAGGAATCTATGAACCTTAAGAGTGAGGGCTTCTGTTAAGAGTAAGGGCTTCCCTGGAGTGGACATGGATCATGGGACTGAGCC
AGCTTGGCATTGTTGGGTTGAACAGGGAGCGACACCTCTCAGCCCAGTCTATCAAGCCTGCTCTTTGACCTGCAGTGAGACCACCCACGCAGACATCAAT
GCAGCAAATCCCCGGCGTCAGGGTTTCAACATTTGGTTACTCTCAGAGAACTCTCGATTTATATAAGACTTGGAAAAAGGGTTTGAGTTTCTGTGGTTTA
CAATTATATTTCCCAACTTGGCCCATGAATCCAGCTTGGTTTTTCTCCTCTTAGCATCCTAACCACCCTCATTGTCACTTTGGAATCTACACTTACATAA
TTGACATGTTGAGAAGCTGTGCTAAAACCACACTGAAATCACATTTTAATAACATGGGAACCATCTTTTCCCAGTAAATTGTTGAGAAGCTAATTCTTGT
CAGCCTAAAAACTTGAATATACATTTGAATAAATCAGCGGTGCTACACCGTGGCAGCCTGCTGAAAATCCCCAAGGAAGATTATATTTTTAGTTGAGCTA
CTTGTCACTGCACTGTGTTTTTAATATTGTGAGTCCTTTCTTGTCTTCATTTTTGAAGAATCTATTGCATACCTTGTCATTCAGAAAAACATAAACGGGA
CCTCTCAATTAGCGGTAAAGTTCGTCAGTTTAACTTTTAAGCTTAAACTCCTGTTATAGTTCGGTCACTTACTCGTCATCAAAAAGATATTTGAGCTGAT
ATTATGCAATAATTTATAACCAAAAACAGGAGGAAAAGGTCTCTGTTTGTCTCAGAAGTACAAGTTATGCATAAGGTGACAAATTACACAGCTTTGGGAA
ATGGGTCTTAATGGAATGCACCAGGCTAATAGAAAAGCAGTGCCTCGATTTCCCACCTCAGATCTGAAAACTCCTGAGAGACTGACAGGGCGGTTCCCCA
GCTTGGCTGTGTGAGGAATCAGCTGGGAATCGAACACTGCAGTCTGGCTGTCACCCCCAGGATTCTAATGTAATTGTTCTGCATTGTGGATCGATGGATG
GATGGATGAATGGCTGGACAGAAGGAAGACTTGGAAAAAATCTTTGAGTTTCTGTGGTTTACAATTTTATTTCCCAACTTGGCCCATGAATCCAGCTTGG
TTTTTCTCCTCTTACCATCCTAAGGAGGGAGGGAGGGAGGAAAAGGGGGAAGGAAGCAGGTAGAAAGGGAACAGGGAAGGGAGGACTGGAGGAAGGAAAG
CAGGGATCATTCTGGAGTGTACACTGGGCATTTGATTTTAAAGCAAATCCAAGAGATCATTAAATTTGTATCAATGAATACACTGTTACCCCTCAATCAA
CACTACAATTCATATATCAGAATAGCACTTTGTTACTTGTTTCTGAGATAGGGCTGGCTCTGTCACCCAGACTGGTGTGCAGTGGCACGATCACAGCTCA
CTATGGCCTCAGCCACCAGGGTTCAAGTGATCCTTCCACTCAGCCTCCTGAGTAGTTGGGACTACATGCCTGCACCATCATGCCTGGCTAATTTTTATTT
TTGTAGAGACGAGGTCTCCTTGTGTTGTCCAGGCTGGTCTCAAACTTCTGGAATCAAGTGATCCTCCTGCCCCTGCCTCCCAAAATACTGGGATTACAGG
CATGAGCCATGTCCAGCTGCCTTGTTTTTTTCTTTGAAGAGAATGATAGACCTTCCATAGGAAAAATGTTAAATATGTGTGTGCAGAAATAAAGATTTCA
AATATTTTTGCAAGATATTTTTTCTAATACCACTTTTTTCTACATTTTCCATAATTTAGTGAAGATAGTAAATTAACAAAGTGGAAAAGACTGAATATTT
TAAGAAAAGCCAAGTTTAAAAATTTTGAACCTAATATTTCTTAAAGTAGCTAAAATTCAGATATTGAGAATAAATTCAACTTGACATGGCAAAATTCTAA
TAGGCTGAAATAATGTTTTGGTCTAGAACTATGTAGCTTTGTGTAGCCCATCAATTGTCTAAAAAAAGAGTAACCTATTTTGATGAAACTCGCTGTATCT
TGTAACCTGTATCCTGTCTTGGTATTGTGGGAGTATATATGATTTAGGGGAAAGAGTCTGGAGAGACCTTAAGTCTGCTTTAGGGAAAGGGTGAGGAACC
CCACTGAAGGCTACTTAACGCATTTTGAGAATGTCAGTAAAGATTTCTCAGAGCCCAGGGATTTTTTTTTTAATTGAGACATAATTTACATACAATACAA
TTCCTTTTTTCTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGTGATGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTC
AAGTGATTCTCCTGCCTCAGCCTACTGAGTAGCTGGGATTACAGGTGTGCGCCACCACGCTTGGCTAATTTTTGTATTTTTAGTAGACACGGGGTTTCAC
CATGTTGGTTAAGCTGGTCTCAAACTCCTGACCTCTAGATCCGCCTGCCTCTGTAATCCCAAAGTGCTGGGATTACAGGCGTGAGCCCCTATGCCCAGCC
AAAATTCATTATTTTAAGCTGTACAATTGAGTGATTTTTATTACGTTCACAAAGTTACGTTACCATTACCACTTTTGAATTGCAGAACAATTTCATCACT
CCAAAAAGAAATCTCATAACAATTAGCAGTTATTTTCCATCGCTACTTCCTCCAGTCCCAAGGCAATCAGCAGTCTGCTTTCTATCTCYACCTGTTTGCC
TATTCTGGACATTTCATATGAGTGGAGTTAGATAATACATGGCCTTTTGTGACTGGCTTTCACTTAGCATAATGTTCTAGAGGTTCATTTATGTTATTGC
AAAAATCAGTACTTCATTTCTTTTTATGGCTGAAAAAAATTCCATTATGTAGATGTGCCATATTTGTTTATCTGGTTGTCAGTCGGATATTTCTGTTGTT
CCTACTTTTTGGCTACTGTAAAAGATGCTGCTATGAACATTATTGTGATTATTATACCTTATTTGTAAACATCATGGGTGGGGGGTTGCAGTAAACATGT
TGGAAAGTAGGGTTGGAGGTCCGTAGAAATTGGGGGCTTCAGCACTTCCCCCAAGCTCAACACCAACCCCCTTTCTGAGCCCCTCTTGAAGGAGAGTTCC
CTGGGACGTGCCTGGTATTGGTACAATCAGTCAGGAAGCATTTTTCCTGGGGAGAAACTTACAAGTCCACGATCAAAGCCAACAAGAGACAAGGTGTTAC
ATGACTCATTTTYGGTTTAAGAAGTGACAGGCTGATTCTAAGTTGGGTTCAATTATTTTGTTAAAGCGTTTTGCTTATTTGACTTCTCCTGACCTCGGAA
ATAATTCTAACCAATCAGTGCTGGCTCCCATTGGCCCTGGGGTCTGGTTGCTTTACAGCTGGTGACAGGGGGACCACTCCACTACCACATGTGAATTAAT
CCTCAACTCCAGAGCCAAGTGCCATTCTCCAGCAAGGTTGTATTTCTTCATTAGCTATTCCCAGGGCCCAGAAAGTCCCAGAGGATGTCAGAGTACATTA
ATTTTTATCATAACATGGAATCTTTCAGGTCTGAATGGCAGCACACGGCTGTCAGGGGCTTCTGAACTCTATTACAGCTCCATATATCTCTAGGCAAAAC
AGAGGAAAGAGTCGTCATTGGCAAGGGAGATGTACAAAATGCATGAGATGTTTTATTTTTTGAGTGACTTGACCACGTGCTTAAGCACATTCCCCAAACA
ATTTTTTTCTTATTGTTTGTAAGTTGTAAGTTGTAAATTCACCTCTGCCACCACCTATTAAAGCCCACTCCCTGCATTAAAACTGTATAAAGTGTATTTA
AATAAACTCTCTTTGCATGATGTGAATGAAATCGTCATCTGGTACTTAAAACTATTCTATAAAGTTATTAAAAAATTAATGTTCCCTTCCCATGATTTTT
CTGCAGAATTTATGCATCCATGATACTGCAGAAGTTCATAAATAATGGCTTGTATTGCTGCTTTAGTATTGCTTTATGCCTACGAAATATAATGTTAATT
TGTAGCAATGCTAATGTGTTTTCAGGAAGGCTCTTTGTTTATTGCCTTTATTTTCCCCACTTACCAAGTGGGTAAAATGCTTTGAGGGTTGCATTTTATG
TATTCAGGAGGCCCAGGTATTATTTTAATAGAAGCACTATTGACAAATACCAGTCATCCCCCCTGTGCCAGGCCCTGGATGAGGCACTGCTTCGCATGGG
GGCTCCCCAGATTGTCCCACAAGGAAAGCATAGTCAAAGACAAAGTTTTCAGTTGTAAGAGTAAATGTGTTCTGCCTAGGCATTGTCAAGTAATTTACTG
CCAGCTCTAGCCCTTCACTCAAGTTTCCTGGATACTTTTGACTTCTTAGCCATGGATGTGTTTGAAGGCTGCATGGACCTTCACTTACTTGCACTGCAGG
TCAGCCTAATTGCATGAGCTCTGTGGACCACAGAGCAGGGTTTTCCAAAGTTCACCAAGACAAATATTGTATTATCTTAACATATATTCATTTTTTAAAA
CTGAAAATCAGAAGAGCAACTCCACCTAGCAGAAGTCTTTTGCAAAGGGCGAGGCGAGGCTAAAAAGTATAGAAGAGTTCGTTTCCAGTGCAATTTTATA
AACACAGATGGTCCTTAAATTAAGCAAATGGTACCTAAATGACTGTGTTGTGGATAATGGTAACAGAGGGAGGGACTCGGGGGTTTTTTAAAAAGTACTG
ATTGTATGCAGTGTTTTAAACAGATAACTGTGATCTTAGTGTGATGAAAGATGCTGGGAGATTTCACCAGTGGTATCTTATTATTTTTCGGGGATTTTGT
AATTCAACAAAATTCTGTTGTATGCCAAGCATAACCCTAGGTGTGAGAGCACAAGGTGACTTCAGATACCACCTCTATCCTTCAGGGGTTTGGGGCCCAT
TATTATGACTTAATCCATTTTGGGCGTGAGAAGCTGAGGGTCACAGAAAGAACCAATTCCCTCTTTAAATAATGCCACCCCAACCCTCCTCATCTGCCAG
GTCTTTCCCTTCTTCTATTTGTATGAATAATAGTCACTTTCTCTTGTGGAGTTCGCTAAATTCTACTTTGGCCTATCAAATTTCTTTCATATCACAACTA
AATTTCTTAAGGACGGGACTATGGTTCATTTGTCAGACGAACAAATGGGAATTTGCCAAGAGACACTTGGGTTAATTTACGTCTTTTCCATCCAAGGGCA
CTATGTTGAAGTGAGGCTAGTAGGTCATGAGTGTGGTTGAAGTTACTTTTTCTTACTTTCCCGACCAGCCCCCATCCTTACTGCACTTAAAGTTGATTGT
CCATTTTATTAAATGTCCCCAGGAAGCCAGAACACAGGGCAGTAAAGTGCTGAATGCAAAGGGCAGGAGAAAAATGGAAACAACCAGAACTGTAACACCA
AGGAATGAGACCTGCATGTCAGATATCATGCCCATTGCACTAAGTGCCATTGGGGCACAATTATCAAATGGATGCATTTTCCCTAGAAAACCATCTTGGA
GAGCATGTGGATGTACTTCTATTTTACATTTCCCCCTATTTACAATCAATGAGATTGAGATTTTGTTGCTGGGACTGCTGATGATGGGATGGGAAAATAT
AATCAAGGTAATGGACATGAGGCAAAAATTTAAGGAAATGACAAAAACAAGAGTATTTCCATTTTCAGTTAAGTGTATGTACTGATGTTCTGGAATTCAC
TATAAGAAGTTGCAAATGGTGCATGAAATGAAAAATTCCTGGTGGTCTCCAGGGGACACAGCCGGTGCTGTGCTCCACTCTGGGTAACTGTTTTGGATTA
TTTTCTCTATTCCAACTGAAATAAAAAAAAATTAATTAAATGTGGCTAGGTTATCTTGACAGCAGAATCCATTCCCAGTTAATTATTATTTTAATACTTG
ATGGTGTCTGTCAAATTGTCGACATGTGACGGTCCTTTCAAATTTAAAGGAATAGCTGATGGTCACTGGCCACCCAAGCTGATACTGATTTTATATGTTG
ATGTTTCTCATTTTATTTGCTCTTTCCTTGAATATTTATTCAGGACATTCTCTACCAGACATATTGAGTAAGGGCAACAGAAACAATACATAAGTATCTT
ATAAATGTGGAAAACAATGTATATGTGTTTTTTATCTCTCAATGATTGGTGGGTACCATATCCCCAAAGTAGAATGAGCATTTGAGAAAACAGGAAATAT
CCTCTTTTAGGCACCATCTCTGTCAAGGCTGATGCTGGGCTTTTTATATATTTTCTCTAATTCTTGTGGCTGTCAAACAAGGTGGGCATTATCATTCCCT
TTATAGGGGACACAGCTGTGGCTCAGAGGGGTTTATTCACTTTCCTGAGGGCCACACACATAATGAGAGGCAGACACAGGTGACGAAGTGAGTTTTCCCT
GTCACGCCATCTTATCTGTCACATACCTCTCTGACATGCTAAAATTGCACTAAACAAAAGAATTCTCTTATGCACATATCATGCAAAAGATATTCTTTAA
CTGGGGATCATGTTTCTCATTCCATCAATAGAATGACTAACATTTTCTGAGGGTGTCTCACGTGAAAGTAAATCGCTCATGTTTGTTCTTTTTAAAAGAT
GCCCTTCGTATTGTGTATCTTGCAGTCTTGCTTTCTCAAACTTAAGCCAACTATATCGTCATTTTTGCAAAATCACTGCGTCAGTTTACTATTATTTAAT
GTTTATTGCTACCAATTTTAAGAAATCCTTTATAGGACTATTTGTGAAATTGATTTTGTGAGGATGATGATATAATTTCCATTACATTACAGCATATAAA
TATAAATATATATATATATATATATATATATATATATATATATATATATATATATATTTTATTATTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCAGG
CTGGAGTGCAGTGGTGCAATCTCGGCTCACTGTAACCTCCGCCGCCCGGGTTCAAGCGATTCCCCTGCCTTAGCCTCCTGAGTAGCTGGGACTACAGGCA
TGTGCTACCACACCCAGCTAATTTTTTGTATTTTAGTAGAGATGGTTTCACCATGTTGGCGAGGATGGTCTCAGTCTCCTGACCTCGTGATCCGCCTGCC
TTGGCCTTCCAAAGTGCTGGGATATACATTTTTTTTTTTTTTTTGAGAGATGGAGTGTCACTCTGTTGCCGAGGCTGGAGTGTAGTGGCGCARTCTCGGC
TCACTGCAACCTCCTCCTCCGGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGTCGTGTGCCACCACGCCTGGTTAGTTTTT
GTATTTTTAGTAGAGATGGGTTTCACTGTGTTGGCTAAGGTGGTCTCAAACTCATGACCTCAAGTGATCCGCCCGCTTCAGCCTCCCAAAGTGCTGGGAT
TACAGGCGTCAGCCACTGTGCCCGGCCGGATAGAAATAATTTTTATAAACTCCTTGGATGCTACCTAAAATCATCTTGTTTTGCTAGTGGCACATGCTGC
ATTTTGGGCAGCTGTGGCCTTGGTGGATTGCTGAAGTAGATTTGACCTTACCTGGACTGAGGCAGCTGTTGAAGGGAATTGCTGTGTTCAGTGTATACTG
CCATCCATGATTTCATGAAACCAGCTCTAGCTATTTAAGCAGGGGTCAAACTTAGAATTCTACATTATTTTTTTCCCTTTTCTGGGAGGAAAGACAGTTG
AACACCAGCAAAGACTAAGAAGTTTCTTAGAAGACTGTGGGTCCTTGGGCCCTTTCTATTGAATTTCAGAGTATTTCCAAATACTATGAAGTCTTGCAGC
TTAGTTGAGAAATGCCCCAGATGGTGTGACATTCTGCTTCCAGGAGGGATTGGAAAGTATTTCCTTTTACATAACATTCCACTCAGCTCATTCCTTTGCT
GTGTCTGAAATTGAATCCCCCAAAGCCACAATTATCTTAACATTCAGAAGAGTGTTTATTTAATCTGCAAAATCTTGCCTCACTTTTGGGGAGCATGTTA
ACAATTTCACTTACAAATCTTCTGTGTAACTCAACCCCATGGTGGTGTCTACTGCTGCTCCTAGACTCTTTAAAGCACCTTTCTCATCTCAGGTTTGAAA
TGATATGTCTCATTCTTGGGTTCCTTGAGTCGTAATGGGTTTGTCTTGTCTCCACAGCATAAATGACTCTTTCTTGATCAACTAGAACCACATCAACTTC
TTCCCTCCAGCTTCAGTGATATATTGTGAAACATGGCTATTCAACGTCCTGTAGACCAAATGCCATAAGAAAAATAGCATTGATTCAAACGTATCCATCC
AGATACCTAAAAAAGTTTTACTTCTTACCACATCTTGAGTCTGGGCAAACACGCACTTCCTATGGACATTGATTACTGTCTACTGTAGAGATAACATTTG
CACATACAGATTATGGCACATGGTAGAAAGTGTTAAGTAATGTAGGAATGGACATATCCCAAGCAAAATTGGAAGCCAAGTCCCCTGTCCCTGCTCAAGT
TGGTATGACTGGTGTATGGTGCCTTAATGGGTACTTAAAGTCCAGGTGAGAGTGGCAGGAGGCAGCCAAATGCCTAGGTAGATAGGAGCCGGTCCCTGTT
GAAACCCCACTTCCAAGTTGAAGACAGTTTAAAGACTGAAAGCCAAGCTACAAGTTAAATCCTCGGACCAGATTGAGAACTTGTCTTCTTACTTGGTGCA
CTCTTCTGATTGATCCCCACCTTTCACCTATTTTACATATTCCTGCCCTTCCCTAACTGGTTTCCTATGCTGTCATGCCCACCTTTGAGTGTTGCCTTCA
CTTTAACCTTCTGTGCATGCTCACAAAGTAATTAGCATGTAYCCTCCATTCTGAGTTAATATAAGGCCCCAGACCCAGCCACATGGGGCAACTTTACTGC
CTTCAGGTAGGGGAACCACCCCCACCACATTCCCTCTCCACTGAGAGTTTTCCTTTTAGTTAATAAATTCGGCTCCACTCACTCTCCATTGTCTGCATGC
CTAATTCTTCCTGGTTGTGAGACAAGCAGTTGGACCTAGCTGAGCTAAGGAGCAGAAAGACTGTATCACAGGGAACTTGTGTAACAGCTTGATCTCCTGT
CCTACGTAGCTATCTATTGGTAAGAAGTTGAAGGAACTTGTGTCATTCCGTTGTGCCTGTCGTCTTGACCTTGTAAAAGGTCTTGGGTAAGCATGCAAGA
AGTTTTGAAGAGGGAGATACAGCTAATTTGCAGATRAARAGCAAGGGAAGAATTCCTGGAGAAAGGAAGAGTTTCCTGAGTCACCTTTGGGAGGTAGGAA
GGGTTTGACATGTAGGCTGGGCATCTGGGAACGAGTGAGGGATTCTGTGAGCCCCATCTYAGTGGACCACTCAAGGAAGGTGGGTAAGCCCTGGGTATAA
GTGTGTAAGCAGGGAACAGAAAGTACTGTGATTTAAAATATGTTAATTTTTCTACTGTACAGATGAGAGCCAGCTTGGAGATGGGCTGTAGCTCAAGYAT
CTTACCTACCTCTGATTTCTTAATGCCACGTTATAAGGCTGCTGCTTATAGCTCTTGAAGTCACTCCAAAAACAGATGAGTGAGACCCTGTTGCTAAAGT
CCCACTGGGTGTAGATTATTCACAGATGTATACACAGTGGCTCACTCCAGGTAGGATGTGATCAGTGCTTTTAGAAATACAGAAAGTCCTATTGGTTTAA
AAAAAATTTTTTTTTGTAATGAATTGAGTTTTAAAGCTAGCACTGTACAATAAAAGGGTGAATTTCACTATGAATTATGACAAACACAGTCATAGAGCTG
CCATCATCACTGTCAAGATACAGAACAGTGCCATCACCCCCCAAATGTCCTCTGTGCCTTACTGTAGTCATACCTGCTCCTGACACCTAGCCCCTGGGAA
CCATTGATCTTTTTTCTGTCCCTAGTTGTTTGTCTTCTCTGCAATGTTACATAAACAGAAATATTCTGGGTGTCGCTTTTGGAGTTTGGATTCCTTCCCA
TAGCATAATGCATGCAGTATTTGTCTGTTTCTGCTAAATTACCCCCAAGACCTAGCGACTTAAAACAGCAAACATACACTATCTCACTCTGTTAGTTTTC
CATTGCTGTTGTAATAAATTACCACAAACTTATGTGCTTAAAACCCAAAGCTATTATCTGACAGCTCTGTAGGTTAAAGATTTGTCATGGTTCTCATTGG
GCTAAAATTAAGGTGTCGGTATGGCTCTGCTGCTTTCTAGAGACTCCAGGGAGAATATTTTTCCTTGCCTTTTCCAGCTTCTAAAGGTCACCCACAACAT
CTTCAAAACCAGCACTGTTGCATCTCTGACCTTAGCCCTGTAGTCCCATTTCCCTCTAGCCACAATCGGGAAAGGATCTCAGGACTGTTGTGATGACACT
GTGCTTACCTAGATTATCTAGCATGAGCTCCCTGTCTCAAGGTGATAGAGTTTGCATGTTTTTCTCCTGCACATGCCATGTTGAAACATAATCCCTAGTG
TTGGCGGTGGGTGTGCTGGGAGGTATTTGGATCATGGGGGTGGAACCCTCATGCATGACTTACGGCCATCCCTTTGGTGATAAGTGAGTTCACATGATAT
CTGGCACCTTCCTTCCTCTGTTGCTCTTGCCCTCACCATGTTAGCTGCCTACTCCCCTTTTGCCTTCCGCCATGACTGTAAGCCTCCTGAGGCCTCACCG
GAAGCCAAGCACATGCTTCTTGTAGAGTCTGCAGAATCGGAGCCAATTAAATCTCTTTTCATTATAAATTATCCAGCCTCAGTTACTTCTTTATTGCAGT
GCAAGAATAGCTTAACACACAAGGTCTTACCCTTGATCACGGTCTGCAGCATGTCTTTTACCATGTAAGGTAATATGTTCAGTGGCTGTGGGGGTTAGGA
TGTGGACTTCTTTGGGGGACTTTTATTTTTCCCAGTTACTATTTTTGTGACTCAGGAATTTAGGGACAGTTTGGCTGGTTGTTTCTGGCTCAGGGTCTTT
CTTGGGCTGCAATCAAGATGTCAGCTGGGGGCTGGGCATGGTGGCTCACTCCTGTTATCACAGCACTTTGGGAGGTCGAGGTGAGTGGACCATTTGAGGT
TAGGAGTTTGAGACCAACCTGGCCAACATGGTGAAACGCCATACTAAAAGTACAAAAATTAGTTGGGCATGGTGGCACATGCATGTAATCCCAGTTAGTT
GGGGGGCTAAGGCTGGAGAACAGCTTCAAAACAGGAGGCGGAGGTTGTGGTCAACTGAGATCACACCACTGCACTCCAGCCTGGGTGAAAGAGCAAGGCC
CCACCTCAAAAAAAAAAAAAAAAAAAAAAAGTTAGCTGGGGCCAAGGTCATCTCAAGTCTTGACTATGAAAGGACCTAACATCATGCATGGCTGTTGGCA
GAGGTCACTTCCTCATGAGCATTAAACTGAAAGCTATAATTCCTGACTATTGACCAGAGGCGAACCTCAGTTCCCTGCCATGTGGGCCTCTTCATGGGGC
AGTTGATAACACAGCAGTTAGCTTCCATTGGATTGAGTAAGCAAGAGAGCAAGAACAGGAGTGATACAGAAGCCAGCATCTTTTTGTAAACCAATCTCAG
AAGAATTGTCCATGATTTTTTCTATATTCTGTTAGTTAGAAACAAATTCCTAGGTCTCACCCACCCTTGAGGTGAGGGGATTACACAAAAGTATGAAAAC
CAGGAAGCAGGGAGCATTGGGAGTCATTTGGACCCTGCCTAGGACAGTGCGTTTGAGATCCATGTTATTCTATCCATTAGTAGTAGTTTGCTTCTTTTTA
ATGTTGAGTAATATGCCATTGTGTGTTTATATATTGCTAATGGATTTTAAAGAGGGCTAATCAACGTGTTGATTAGAGGGAAATTTTCTTCAGTGAAATA
ATATTTGAGCAAAACCTTGAAGAACAATTAGGAATTTGACAGAGGGAATGGCACGAATAAAGACCCAGACTTAATCAAGTGAGGGGCGTACTCATCCATG
GGGCAGTGGATGATTCACCTGCCTGGAGCTTAAGGAGAAGGGGGTGTAGTTGTGGCTGTTGCTCAGAAGGACCTGAATGTCAGGATGCATTTGTGTTTAA
TTTAGCAGACATTTAGGAACCATTAAAAGTTTTTGAGAATGGGTAGGTAAGATTAGAATAGTATTTTAATAAGTTTAACTAGGCTTTAACCAGTATTCAT
AAAAAGTCAAGTGGGAGAATGTAGAGGTGACAAGACCAGGTGTGGGCTATTGCAGTGACTACACCTAAAAGGAACAGAGCTAGAAACATGGAGTGACATG
AAGTCATTGTCTTAGGTTGGTGATCCTAGCAGCTGAGCCTGGGATGGGGATTCTTGTTCCTATGATCGATTAGGGGACTGTTCCCAGAGGAGAGCGGAGA
GGGAAGCAGGCTTTGGTTTCTACTGGAAATCTGTTTCCGCCCGATTCCATGGGGAGCTCTGGAGAAGGAATTGTATCACCGAGTTGGTCCTCCTTGTCAA
CAGAGCATGTGTGTGGGGGTGATGACTTCCCAGATGTGAGGGTGCCCTCCAGCAATGGACAGTTATCTGGAGGAGTTCATGCTCCAGAGGTAGTGCCTAC
CTCTGTGGAGAAGTAGGGGATGGCACGGTATTTTAGGGGTTCCTAATGAGCCTAGAGATACTGACATTGACCAGTCATGGAGACTAAAGGAGAAGATGGG
ATAGCACATTGTTTTCCTAAGTATTTGTAATCAGGTGACTGGTTTGCAAATATCAGCCATTACAGAAATAAAGGGTATCAGGACGGGGAGGAGATGTGAG
GAGAGAAGATGAAGAGTTTAGATTTAGGCATGTTGACCCTGAATTTGTGGGAAGGTATCCAGGAAGATAAGACTGACAGGTGGGAATGAGATTCTGGAAC
TTGGAAAGAATATAGTGGCTAGAGCTAAGGGTTTGAAGTCTTCATGGCGATTTTGTTCGGAGTCATGGATTTGGAAGAAACTGCTGCAGGGAAGATTTTA
GAGATGGAATGAAAAGAGATTGGTGATGGAACAATGGGCAAAAGAGGAAGGGTTGGAGGAGACAAAAAATGGAGTGGTAGTGGCATTGGGAGGTCCAAGA
GTGGATGGTATCACAGAAGCCAAGACAGGAAAGTGAGCCACAAGTGAGGGAGGAGCAGGATCCTCTGCAACAGGGCAGTCTAGTCTTAGCAGAGAGGAGG
TTGCTGAATTTATTGATTGAGAAGCCACTCCTCGCCAGGCAGTTTTGAGAGGTTCTGGATGGTGATAGAATGGAATTCATTCAGCTGATGATGAGAAGTA
GATTTGGGTCAGGGAAGGAGACTGAATGGAGATGAATATTTCAAAACTATAGACCATAAATGGGAAGAGAGAGACGAGTGCAACCTGCCTAGGTCAAGTG
AATGTCCTTTTTTCTCTTCCCAGCCCTTGTCTTTTTTACCCTCTTTGTTTTCTGCATTTCTTTCCTTCTGTTCTGATTTTTCCTTACCTGATGGTCAGAA
AGATCTGATTGAGCTGACGCGTAGCAAGAATGAGCCAGTGGAGAGGAAAATGTAACCACCTAATGGGTTCTCCTTTCCTGCTAGCTGGACAGAGCTGATT
TATCAAGACGGGGGTACTGCAAATAGAGAAAGAATTTAATCCACACAGAGCCAGCTGTATGGGAAACCAGAGTTGTACTACTCAAATCAATCTCCCCGAG
AATTCAGGGATCGGAGTCTTTAAGGAGAAATGTGGTGGATAGGGAGCCAGTGAGTGATCTGGGAGTGCTGATTGTCTCACGTGTCCATGTGAAGAGACCA
CCAAACAGGGTTTGTGTGAACAACAAGGCTGTTTATTTCACCTGGGTGCAGGTGGGCTGAGTCTGAAAAAGGAGTCAGCAAAGGGTGATGGGATTGTCAT
TAGTTCTTAGAGGTTTTGGCATAGGCGGTAGAGTTAGGAGCAATGTTTTTGGGGCAGCGGGTGGATCTCACAAAGTACATTCTCAAGGGTGGGGAGAATT
ACAAAGAACCTTCTTAAAGGTGGTGGAGATTACAAAGTACGTTGATCAGTTAGGTAGGGACAGAAGCAAATCACAATGGGGGAATGTCATCAGTTAAGGC
TATTTTCACTTCTTTTGTGGATCTTCAGTTGCTTCAGGCCATCTGGATGCATACGAGCAGGTCACTGGGGATATGATGGCTTAGCCTGGGCTCAGAGGCC
TGACACTGATTTGTTGGCTTGAAGATGAAATCACAGGGAATCAAAGGTGCCCTCCTGTGCTGACTCAGTTCCTGGGTGGGGGCCAAAGGACTGGTTGGCA
GGTCTGCATGGGGCCACCGTGTTGTCAGAAATGCAAAAATCTGGCTGGTGCAATGGCTTACCCCTGTAATCCCAGTACTTTGGGAGGCTGAGGTTGTCAG
GCCTCTGAGCCCAAGCTGAGCCGTCATAACCCCTGTGACCTGCACATATACATCCAGATGGCCTGAAGCAACTGAAGAACTACAAAAGAAGTGAAATAGC
CAGTTCTTGCCTTAACTGATGACATTCCATCAGTGTGATTTGTTCCTGCCCCACCCTAACTGATCAGTTGACCTTGTGACATTCCTCTTCCTGAGGCAGT
GAGTCTCAGGAGCTCCCCCACCGAGCACCTTGTGACCCCCGCCCCTGCCTGCAAGACAAAACCCCCTTTAACTGTAATTTTCCACTACCCACCCAAATCC
TGTAAAACTGCCCTACACCTATTTCCCTTTGCTGACCCCTTTTTCAAACTCCGTCTGCCTGCACTCAGGTGATTAAAAAGCTTTATTGCTCACACAAAGC
CTGTTTGGTGGTCTCTTCACATGGACACGTGTAACAGAGGTGGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACGTGGTGAAACCCTG
CATCTACTAAAAATACAAAAATTAGCTGGGCATGGTGCTGTGCACCTGTAATCCCAGCTACTCAGGAGGTTGAGGCACGAGGATCACTTAAACCCAGGAG
GAGGAGATTGCAGTGAGCCAATTGCGCCACTGCACTCCAGCCTGCAATGCAGAGTGAAACTGTCTTAAAACAAACAAACAAACAAAAAGCAAAAATCTGA
AAAGACATCTCAAAAGCCAATCTTAGGTTCTACAACAGTGATGTTATCTGCATGAATAATTGAGAAAGTTGCAAATCTTGTGACCTGAGGAATAACGGCT
GGTAATTATTTAAAACTCAAGCCCCTCTCATCCTAACGTGGTGGCCTTTCATTCATTTTACAGGAACAGTTTAGTTTTGGGGGAAAGCTGTTATTTAAAC
TATAAACGAAATTTCTCCCAAAGTTAGCTTGGCCCATGCCCAGGAATGACCAAAGACAGCTAACCAGTTACCGGAAACGGGTCCCAATCTAGACCCCAAG
AGAGAGTTGTTGGATCTTGGGCAAGAAAGAATTTGGGGTGAGTCTATAAAATTAAAGTAACTTTATAAAGAAAGTAAAAGAATAAAAGAATGGCTANNNN
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NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTATAGATAATAAAATAGA
CTTGAGAGTCCAGAAATGAATCCATGCATATTGTGAATTGATTTTCAGCAAGGATGCCAAGACAATTCAAAATAGTCTTTTCAACAGTGATGCTAGAACC
ACTGGATAGCCCCATGCAAAAGAATGAGATTAGATCACACTTGCATAAACTACACAGCAAAAAATAGCAAAAAAAAAAAAAAAAAAAAAAAAGGGGTCAG
AGACTTAAATGTAAGAGCTAAAACTATACAACTCTTAGAAGCAAACATAGGGGTATATTTTTCTGATTTTGGCTTAGACAATGATTTCTTGGATACAACC
CTGACAGCACAAGTGACAAAAGAAAAAAAGATATCCAGAATGATCCAGAATGAAAAGTGTTTGTGCTGCAAATGATACCATCACGAAAGTGTACAGATGA
CCTACAGAATGGGGGAAATACTTACAAATTAAATATTAAATAAGGGATTTGTATCTAGAATAAAGAMCTTTTACAATTCAATAATGAAAACTCATTTAAA
AAATGAGCATAARATCTAAATAGATATTCCTCCAAATATGATACACAAATTGCCAATGAATACATAAAAGATGTTCAATCTCATTAGGGAAATGCAAATG
AAAGCCACAATGAGATTCCACTTATTGCTAGGATGGCTAAAATAAAAAAGTCAGATAACAAATACTTACAAACACATGGAGAGATGAAAGTTCAAATACA
GTCCTGGCGGAAATGTAAAATTGTATGGCCAAACTGGAAAACAGTTTGGCCATTATTCAAAAAGTTAAACATTGAATTACCATATGACCCAATAATCCCA
CTCCTAGATGTATCTTGAAGAGAAATGAAAACATGCRTTTCCATAGCATCTTACAAATGAATGTACATAGTAGTGATATTCCTAATAGCCAATAAATGGA
AACAATCCAAATATCCATCATTGGTGAATGGATAAACAAAGCGTGGTATATTCATATAATGGAATATTATTTGCCCATTAAAAAGAAATGGATTACTGAT
ATATGCTACAACATGGATGAACCCTGCAAACATCATGCCAAGGGACAGAAGCCAGTCACAAAAGACTACGTATTGTATGGTTCCATTTAGTATATAAAAT
GTCCGGAATAGGCGAATCTATAGGACAGAAAGTACACTGATGGTGTTTTGGGAATAAGAGTGTAGGTRGATAGAGGGTGGCTAGTGATTGCTAAGTTTTT
TTTTTTTTTTTGAGTTAAAAAAGTGCTATAAWATTAGAATGTAGTTATGGTTGTACAATTATTTGAGTATACTAAAACAGCTGTACAGTATACATAGGTA
GATTTTATGGTATGTGCATTATATTTCAGTAAAGTTCTTTAATAAATTAGYTAATGCTTATTGTAGAAAAGTTGGAAAATACCAAAAACCATAAACAGGA
AATAGGAAAAAAAGTAATCCTGACTGTATATCTGGAAATCTTTTCGTGGGGTATGGGGTATGAATCACACATATTAATTTTAATTTCCTGCTTTTTCAAT
TAAATTGAGAAAGTTTGGGAACCTCTGGCTTAATCATTATTTATCCACTTCTCTGTTGTTGGATGTTAGATTGCTTCTAGTTCATATGTAATTTTATAAT
TTTAGTTGACATGTCATTATGGATTCTTGGGCATAAACGTTTATATGAATTTTGAATATTAGGAAATAATCTTGGAAGCTATATTAGTTTTCTAAAGCTA
TTATAACAAATTACCACAGATGGAGTGCCTCAAAACAACAGAATTTTACTCTCTTACAGTTTCAGAGACCAAACATCTGAAATCAAGTGGTTTGCAGCGT
TGGCTCCTTCTGGAGGCTGGAAGGAGCATCTGTTCCATGCCTTTCTCCTAGCTTCCCATGACTGCCAGCCACCCTTGGAATTTCTTGGCTTTTATCTTAG
TCAGTCTAATCTCTGCCTCTGTCTTTCCATCTCCTTCTCTGTGGGTGTTCCTTCTCCCCTTCTGTTTTGTAAGGATAGGCCTGTCATTGGATTTAAGGCC
CACCTTAATCCAAGATGATCTCATTTTAAGATGTGGGACTTAATCACATTTGCGAAGACCCTTTTTCCAAATAAGGTCGCATTCACAGATCCCTACCATT
CAACTCACTATGGAAGCAATGGGATGGGAGGTACCATTCAACTCACAGATTCCTACCATTCAACCCACTATAAAGCAGTGGCATATGAAAAGGATGGGAG
GTTGCTATGGGAATGGTCTGCCCCAGATGCAGGTAAAATGGGGAAGCATTTTATATAGAATGGAAAAACAACAGTAAAGCTGGCTAAAACTTGATCTGCT
TTTTACAGTCATGTGCTGACAATTCTAAACATTATCAATGATAAAATACTTCTCCCTCATGATATTAACTGTGCAATTTTTGCTGCCCCTGCTACATACA
TGCTTTATTGCTTGGAAACAGGATTACTTGGTGAAATAATGTGAATCTTTCAATTCTCATGATACATGTTTTCAACTTAATATCCAGGGTGCAGGAATAT
ATATTCCCACCAACTTTATACAAGATAATACAAATATAATAGTATGAATAAATATGCTAATTTGATAGAAAATATTTTAATATTTACTACTAGTGTAGTT
GGACGTGTTAAATATTGCAATGGTTATTTGTAATCTACCTTTATAAAATTTCTAATGTCTGCCACTGTTTCTGTTAGACTCTTAAGAAGATACGTGTTTG
TCTCATAGATTTGTAAGAACTCTTTATATACTAAAAATATGGGGCTTCTATATGATTGCATATATTCGTCACTTTTGTTCCACTGTTTTAGAGAGCAGAA
GATTTTAATTTCTATAAAGATTTTTATGTTTCCCTTTATTGCATGCCAATGTTTGTTTTTTAAAAACTTGTACGTCTTAGGCTGCGATGTGAAAAGTGTC
TTTTTTTTGATTTGGAAACAGAGTCTTGCTCTGATGCCTGTAGTGGTATGATCATAGCTCATTGCAGCCCTTGGAACTCCTGGGCTCAAGTAATCNNNNN
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NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATACCACCACACCTGGCTAATTTT
TTTTGTGTTTTGACAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTAAAATGGTCCACCTGCCTTGGCCTCCCAAAGTGCTG
GGATTACAGGCGTGAGCCCCCGCGCCTGGCCCTGTGTCAGCCTTTTTAACAGCATAATTTTTCCTTTATTAGTCATAACTACTTTAAGGGCTATTTTGAT
TTACAGACAAAGTGAGACTTGGATGAATTAAGAAAGAATTAATCAGGTGGTTGAACCTGAGTTCCAACTAGGGTGACAACTCTTCGCAGATTGCCTGCTG
CTGTCCTGGTTTTCACACTGAAAGTTCCGTATCCTAATAAGCCTCTCATCCTCAGCAACGGAGGACAGTTGCCCACTCAAAGCCTTGTGACATTCTAGRG
TATCCTATTTCTACATGGTGGGAATCTAGAARACGGAGAAAGAATTTCTCATTCCCGAAGGAGCATGGATTATCCTTGGTTGTAGTGTTTATGTCCACAT
CACGTGGATTCCCRAAGGAGCATGGATTATCCTTGGTTGTAGTGTTTATGTCCACATCACATGGRATATTTTATTTTTCAGGCCTCTTCATGTGCTTGTG
TGCAACGCAGCAACTTTTGCTSTACCCTGGAGTCTCACCAAAGATGGCCTGGAGACCACCTTTCAAGTGAATCATCTGGGGCACTTCTACCTTGTCCAGC
TCCTCCAGGATGTTTTGTGCCGCTCAGCTCCTGCCCGTGTCATTGTGGTCTCCTCAGAGTCCCATCGGTGGGTTTGAATTGCATATTTGTTCACTTATCC
CCTTTCTCATACCAGCTAATATTCCCCCAAGGCTSTCATTCTGAAAATAATTTTCATTAGTCCTGCTTGAGACATGTGGGTGGACTCAGCTTGGCTCACT
TAATTTTTCCAGGTCTTTTTTGTTCGCCTGTGATTGTGGGGGACTGTTTAGAAGGACTTTCTAGAGCAAGGAAGATTGTTTTTACGACTATACTTCAAGC
TCCTCATTGATTTTGCTTAGAGATGGAATAATAATTGATGAAATCTGAATGGCATGACCTTTATTGATTTGTAATTCAACAACTTCAACATCTTACCAAG
AAGAATGTGCAGTTATTCTAGCAGGAGAAACAATGCAATTAGAGCCTGCGAGATGAAATCAAATTGTTTTATAATGAGAAATTAGGGAATTCGAGGCAGA
CATTAGCTGTGTAATTGTGGAAAGGGAAGAACTGTAGTTAGAGCATATTAGAAATCTGGCCGTGCCTCTTTTGGTTAAAATTTCAATTAAAACATCAGAT
GGCACTTTTTTCCTATTGCCATTAGGAGAATATTCAATTGACTGAAAAGGACATTTGAAAATTTCCTCGTATTTTCAGCATATTTGTTTCTAGAGTTGGA
GAAACAACTATTTGTCTAGAGAGAAGTACTCTGAAAAGACAAAGGCCTTGCTGGGTGAGGCTGGATTTAATACATGTTAGGGAGATTTCTCTTTCACGTT
TGCTTGGTGTGTGTTTGGCGGGGGGAACTTACACTCTTAGCAAAGTAGCTAGAAAAAAAAATAACGTGCAAGGGGCCTATTTTTTCCTCCTTCTTCTCCG
TCTTAAGTCCTGAAATGTTTTAGTGACCCAGAATGAAGCTTATTTTTTTAATCATACTTCCATAAAATGTAACCCCTGGGACTTGGAAGAGAGAGACCAG
CCAAGGGTTAGCTTGAACCCTTTATCACTCCCAAACACAGGGGCTTATGGTATAAGTGACACACTGCAGATAGATTTACTTTTGCCATTTTAAATTTATG
ATGGCTGAAATGAAAGGTAAATGCCAGTAATAATCCTCCCCCGTGTTAAAAGACATGAAACATCTAGTAATTAGGTGGTAACAAAATCTGGACAGCCTTA
TCTTTGCAAATCACACCAGGTTTGTGAAGGAAAGTGGAGTGGCCCTGTTAAGGGGCGAGGGAGGCTACTGTGGGGGCAGGCAGCAGAGAGAGCTCCAGAA
ATAAATCTGCCAGCCCCAGTCATCCACCAGATGTGGAGGGCACCACGGGATATGTTTAAATGAGCTGGTATTTAATGGGAGATTATGTCGAATTGTCAGC
TGCTCACTCTCCTTGTAAATCTGTATCTCAAATGGTATTTCGTGTGACGTCTTTGTTCTTTGCTTAACTACGGTGTAATTCATGCCTACTTCAGAGATCC
AAATCTCAGCATCATTTAAAAGATTAGTTTGAAAGGAAGGGACTTGGGCTCTTGAATTAGACCTATGTTAGTTTATAGGGAGGCCTTCCTGAAATGTGTT
GTCAGGCTTGCTCCTGTGTGATGGCTGGCACTGGTTTTATGCTTTCCAATTATTCTTTGCACATCGTTATTTATTATTACTGTTATTATTATTTGACATG
GAGTCTTGATCTGTTACCAGGCTGCAGTGCAGTGGCATGATCTCGGCTCACCACAACTTCAGACTCCCAGGGTTAAGCGATTCTCCTGCCTCAGCCTTCC
AAGTAGCTGGGACCACAGGCGCTTGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCT
CTTGACCTTGTGATCCGCCTGCCTTGGCTTCTCACAGTGCTGTGATTACAGGCGTGAGCCACCACGCCCGGCCTCTTTGCACATTATTTAAGGGTGTTTT
AACAAAATGGCAATTTCCCCAGGCTGGCTTGTGTATTACCTTCGCATTGCATCCCTTGGCTCCCATGAGTGAGCGTGGTGACTTGGTGCGTAGGTGGTAC
GTGAAGACAGTTGCTCACTACCCAAGAACTCAGGGCCCTAAACCATGCTGTAAAATGCAAGTGCTGATATCTAATTACCTCCATCAACCTTGGCAGAATC
TCTTCGTTGGAGTTAAGACCCCCTGTTAGGGGAAAAAAGAAAGTCCTATGTTTGCAGAAAATATTATACTAGACTGCTCCAAGGCAAAATATTTATTAGC
CTTCCTGTGTCTTCACTGTGTTTTAGTTACTTATCTGGAATCTGAGCAACTGAATTGAGTTTCTGCATACCTAAAATACATCATAGTGAAATGAGAAGTT
GACTTCTTTGCTGTGAAAAAATTTCAGATAACAATTAAAGTAGAATGAAAAGAGCAGAGTGCTGGTTGAACAACCCTCAATGGCTGCAGCTGCATGGAGT
GCCAAATTGCCCTCCCCCACCCCACACACAAAATCACACATACACGCACGCACGCACACACACACACACGGAGTTTCTCAGCTTCTGTGTAGACAGAATC
CAGCCTAATTATTTTAGGCGGGAATTTTAAAAATCCTCAATAAAATTGGGCTTGGTAGCACATGCCTGTAATCCTATCTAGTAAGAGGCTGAGGTGGGAG
GATGGCTTGAGCCCAGGAGTTTGAGGTTGCGGTAAGCGTTGATCATGCCACTGCATTCCAGCCTGGGTGACAGAGTGAGACCCCATCTCTAAAATAAAAA
TTAAAAATTGTTTAAAAAAAATGCAGTATAGGCCAGGCACAGTGTCTCACGCCTGTAATCCCAGCACTCAAGAGTTCGAGATCAGCCTAGCCAGCATGGC
GAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGTGCACGCCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATTGCTTGA
ACTTGGGAGGTGGAGATTGCAGTGAGTGGAGATTGCACCAGTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGTTTCAGAAAACAAAAACCCAAAAAG
CAAAACCCCCACAGTATATATAGAAATACAAGATTTGTGRGGGGCGGGGGTCCCCCTACAAAGCAAGTGTTACTGTCCACAGAGCAAATGTCAATATTTT
AATGTACTAGTAAGGGAAAATTCTATTAAGACATAATTGTTTGGCTTTGTCAGTTTGTCAACTTGAAAATAGAGTCAGCAGCATCTRAAGAGTTGTTTTA
CTACCTCTGGAGCTGAGAGGTGAACATAGTCGTTTTTCAGGAAGCCGTTTCTGGCTCAGACAGATMAGAAGCTGGCCCACCCTTGCCACTTCCTGGAGGA
CTGTCAGTGCTAGCTAATGAGACTGTAAAAGTGGACTATCTGCCCAGGAGACAGYGAGGAAGGAAATCAGGGGTCACCCTTAYAGSGAAGGGCTCTTTGC
AGAGAGAGTGCCTGATACGTAGCAGCTGGTACTTCTCCATCTTGAAACTGTCCTTCCTGGTTTTGTCTAATTTGTCATCATGGGATTCTTTTGACTTGTT
TCTAGATTAGGGATCAAGAAGAAATGACTTTCTCCTCTTAGACATTTAATTCACTTAGTGTTCCCTAGTCATGACATACTTCTGTGTTATCCTTAAATAC
TGAAACAGGGACCTTATTCTTAACAGTAGAAAATCACTGTGTATGATGATAGTGTATACCTGTAATACCAGCTACTCAGGAAGCTGAGGCAGGAGGATCC
CTTGAGCTCAGGAGTTGAGATTAGCATGGGCAACAAAGCAAGACCTTGTCTCTAAAAGAATAAGCAGAAACCAAAAGCCCTAAACATGAGGAAATTCCAC
ATGTAAACATTAATGGAAAACATAGAAGAGTTGAACCTAGTGGTAAATTTTACCTTTAGAGCAATGCTTGAAACAAGGGAAACTGTCAAATTCTCATCAT
GGGATTTGTGTTCCTTTGTTTTTTTTATTAAGGACTTGGTCCTTGGATTGGAATTCCAAACCCATGACCAAACTGTAATCATCTAATTCTGTATTGAGTC
CTTACTATGTGTCAGGCACTGTAGTAAGCAACACTCAAGAATCTTACAGTCTACTTTCCAAGAATTCACAGTCTAGTTTTGGAATCAGGTGATCAATTGA
CTTACAGTCTGGTATGGTGATGACAGAGGAGCAATGTACAGATAGAACAGAAGGATGGCACAGTGAGCCTTTTCACCAATCTTGGAAGGCCAGTAATGTC
AGTGAACACTAGGAATGGTGTCATGGCCTGGGTCCTGAAGAGTGGATACTTAATGTCCATGGAGGCATGCATTTTTATCTGCCTTGCATGGCTTCTTTCA
TTCTCTCCCTGACTTCCACCCAAAAAATCACCATGATATCCAGCTGTGGAAGAGTTCATTATGGAGAGCTTCCTGGAAGAAGTAGTCCCTGAACTGGGTT
GGGCTAAACAAATATGCCAAGAAGGGTTTCTGGAAGCAGTTGACAAAAGATGAGTAGAGAGAGGGAGGGGGTGGTGCTATATTTATTCCATACCTTTCAG
ATACTCTCTAAATCCTTGTCCCTGTTGTCTATGCCATGTAGGTAGAGTTTTCAAGTCATGTCCCATACCTTGGATCATTGGATTCTCAACTCAGTAGCAC
CTTTGTGTGACACCTCTTCTGTAATACCTTATTATGTTGAAATAAAGTTAGCAAATAACATAACTTACATGCACAAATATATTTTCAATTCGATATGATA
GCTTTACTGTAATGAAAGAAAAAATAACTGAAACAAAATGGCGTGTGTTTCAACATGTAAATGCTTGGGCCAGGCTACAGGAAAGATGGGGATGTATGTA
TCCGTGGATGAATCACCTTGAATGGACTCTCATAAAAAAGCCCACCATTACCAGGTGTGTGGTATTGCAGACTCCAGCACCACCAACCTTGAGTGAAGCC
TGACTATATTAGTCTGTTCTCATGCTGCTAAGAAAGACATACCCGAGACCGGGTAATTTATAAAGGAAACAGGTTTAATGGGCTCACAGTTACACATGGC
TGGGGAGGCCTCACAATCATGGCGGAAGATGAAGGAAGGGCAAAGGGATGTCTTACATGACATCAGGCAACAGAGTATGTGCAGGGGAATTCTCATTTAT
AAAACCATCAGATTTCGTGAGACTTATTCACTACCATGAGAACAGTATGGGAGAAAGCACCCCCATGATTCACTTATCTCCACCTGGCTCTGCCCTTGAC
ACATGGGGGTTATTACAATTCAGTGTGAGATTTGGGTGGGGACACAGCCGAACCGTATCAGTCACCCTCCAAAAATCACACAAAATCTGAAAGTGCTTTT
ATTCATTCTACATGTAAATAGTTGTTGCACTACCCACCTGGAAATTCAGTGGATGTTTCTAGGCTCAGATAATTATCCACAGGCTTTTCATCTCCATGAG
TGTCCACTGGGGCATTCTTCATTGAGCAATACATCATGTGCATTGCAAGACATCTGCCATCCCTGCTACCATCACCAGCAGTCATCACGACAACCAGAAG
AAGGCCGTCATATATTTTCAAATTGCCTGCTGAGTTCCATTGCCTTAGACAATTAAGCTTGGAAGTCAGACTCTTCCTGTGGTTTGGGTACTAGAAAAAA
GGCAGCCAACAATTCGTTTCAAGGTCTCATTTCTGTATCCTTGATGACGTTTCTGGCCATCAGCTTTGTTGATGACTTTAGAGCAGCTATGTCATTTAAC
ACTAGAAATTGGATGTCACCGAGTCCTGTGGAAGGGATATTTAATTTCCATTAAAACATGAATTTCATTCTGCCCTTGCCATGCTTTTCTTGGTCTTAGC
CCAACCTGAGCTGCTGATATTAAGGAATRATAGGATAATTCCATAATTTTCATTTTACCTTTTGCTTTTTGTTTTCCATAGCAGTTATCTAGAGGATTCC
CATTATGCTTCTTCATTACCCGGTGCCCAGAATGAACTTATAGAAGCAGAATATGAGGGGTCCTTTGACAAACATGAGACTGTTTAGAAAATTGCTTTTG
TTTGCTGTGATCCATTTTGTAAGGGAAGTCACTATAATGTTGTTATTTAAGAGAAAGAGACAAACGGAAAGAAACAAACAGCTGGTGTTTAACGACTCCG
TCAGACCCAATTATAAAGCATCAACTAGTTACGTTGATTTGTGTACATCCATGCCATGGGTATACTTAAAAACATTAGATTTTGCCAGAACTCATCTTGG
CTTTGTTTACATTTTTCTTTTAAACGTATAAGACTATTGATGGTACCTCACCAAGGTTATAACCCCTTTATAATCATTAATTTTTAATCTAGAAAAGAGT
CTTGGAGACAACAAGACTCATCTATAATTTCTTGGATGCTCAAATGAAAATATACAGGACTCAAGCATTAGCTAAAATAATCCAGGAAAGCCCTGTCAAA
GGTTAGGAATGTGATATCTTTCTGTTTCCAAAAGCAGCAGCCCTTTATTCAAGACACTTTTCTGTTTAATTTAATTATCTTTGAACTTCCTGTTGAAGGT
TTTGAAAAATATATGTTAGAGGGTGGGGAGAGAGTTCAGTATGTCAGGACTGCTACATTTATGAGTGTGGGTCTTTATTGAAGTCTCTCTTTGTAGCCAA
TCCTTTTTTTTTTTTTTAATTTTTAAATTTTAAATTCTTACTTTTAGATATGGGGGTCTCACTCTGTTGCCCAGGCTAGAGTTCAGTGGCACAATCATAG
CTCACTGCAACGTTGACCTCCCAGGCTGAAGCGATCCTCCTGCCTCAGCCCCCCAAGTAGCTGGGACCACAGGCATGTGCCAAAATACTCAACTAATTGT
TTATTTTTTGTAGACATGGTGTCTCCCTATGTTGCCTAAGCTGGTCTTGAACTCCTACACTCAAGCAATCCTCCCGCCTCAGCTTCCTAAAGTGCTGGGA
TTAGAGGCATGAGCCACCAGACATGACCTGTGTTTATATTGTTAAATCACCATTGTCAATCTTGAAAGGAGACTTTGTTTTGATGTATGTAAGATTGAGT
TTTTACTCATCTCTACATAGTTTCCTCAGATTGCTTTTTTTTTTTTTTGAGACCGAGTCTAGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTTT
GCTCACTGCAACCTCTGCCTCCCATGTTTCAGTGATTCTCTTGCTTCAGATTCCCGTGTACAGGCATGCCACCACACCTGGCTAATTTTTGTATTTTTAG
TAGAGATGGCATTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCCACTCGTCTAAGACTCCCAAAGTGCTCGGATTACAGATGT
GAGCCACTGCACCCAGCATTCCTTAGATTTCCAATAAAAATAAAAAGCTGTGTGGGAAGTCAGAACTTGGTTGCTTCATGTCATATTTCCTATTTTTAAG
ATTTACAGATATTAACGACTCCTTGGGAAAASTGGACTTCAGTYGCCTCTCTSCAACAAAAAACGACTATTGGGCGATGCTGGCTTATAACAGGTCCAAG
CTCTGCAACATCCTCTTCTCCAACGAGCTGCACCGTCGCCTCTCCCCACRCGGGGTCACGTCGAACGCAGTGCATCCTGGAAATATGATGTACTCCAACA
TTCATCGCAGCTGGTGGGTGTACACACTGCTGTTTACCTTGGCGAGGCCTTTCACCAAGTCCATGGTAAGAGAACAGCTTCTGGCGCCGCAAACACCTTG
GGTCYTAGAGAAACCTGCACACTTGTGTSTCCACCTTTTTACCTCTTGCGGGCATGAGTCTGGTCTCAGTAATMACATTGTCCAGCCCATCATAAAGGGC
TCTTGAACACATTTTCATCAACTTTAGGTTAAGTCTGTTTGGGTAAATGCGTCTTGGAGGGCTGGGTAGAAGATGTGGGTTTCAGTATCATGTTAAGTAT
GGCTGAAAGTCCTTATGGAAATGGTGATTTTTTTGTTTGTTTGGTTTTGTTTTTTTTGGGGTTTTTTATTCAGAAACTTTGAAAATCTATTTTGTTGAAT
GGAGCACTTGAAAACTGCTGTTTTGTGTCAGTAGGTAAACAACAAACATTGGTGACTACTGAATTTTCAGCAGATGTGATTCCTTTGTTTCACAGAAAAW
CTGTATCTKWTGTTCTAAATTTTTTTCTTCTAATGGGTATAATCCTCTGTTGGAGAGTCCTTTGATAGCTAGGAGTGTGTTTTCTTCTTTACTTTCCCAA
AGACAATTTTGGATGAATCATGGTACTGTGGTTACATTTGGAAGTGTTTACAAAGGTGATAAGATGTTTTTATAGTTTGGTGTTCATTTATCGACCATAT
TAAGAACCTTCTTCTATGAAATGSTTTTAGTAGGAAGTAYTTTGAATGAAGAAAGCGTATTTTCCACAATATATTTGGTAGATTATTTTTCAAAACCAAA
GGACTTCAAAAATGTCTTCCTATTAGTGGACACCAGTATTCCAGTTACCCAAACTTAAAATCTACTTGACAGAAATCACCCTTTTCCCAAACACATTTGC
CTTTTAGCGATATCACAGGCCTTCACAGTTGGACCTAGGATATTAATAAAACAAAGCAAAACAACAACAAAAGAAGAACTATTGCAGGCCTATTATCCTC
CAGCTGATCTCACGACCTTGGAAACTGTCTGCTGCCTTCTCTTACACTCATTCCCACCTGCCACCCTTAACCTTCGTATTTGGGGATGACTTTTTTTTTT
TTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTT
CACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCACCACTATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTC
ACCGTTTTAGCCGGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGC
CTGGGGATGACTTTTAAAACCACATCAAAAGTCTTTTGAAGTGCTTAGGAGGAGGTAAGTAAGTATATCTTTTATTCTAATCACCCAAGTGGTTTTTAGG
CAGAGTAAACAGACATATTCCAAGAGTCGAATACTTAGGATCAGTGGCAGTGAAGTGAAAGGACCTACGGAGAATGGTGTTCCATGCCGCAGGGTGGGAT
TGATCTCTAGGAAGTAAATGAATGAAACTTACCTGTAGGTGGATCACAGGGTTTTGAAATCTCCCCATCACTTTGCTCCCGATGACTGCATAAGCGCAGC
CTCTTCATGAAAGTTTCTTTGACCATGGTTATGCCTCATACTTTGTTGTGTCCTTCAGTTTACATGAAAAGAAGGAATATGGATCTGAACTGGGTGCCAG
TGCCATTTAAATGAGGCATTTAGGAATGGGGAGAGGAGAGAGGTGGATTCTTCCTTATTTTCTGCTGGCCCAGTGCCTTCCGCTTTAACAAGCCCAGTCA
ACCATCATTTGTAATCTTTGGGTCTTGAGTCATCTCACTTGTATTTGATCATTGATGTGTTTTAAGGAGCTCGGTTCAGTGGCATCAGAGAGTTCGTTTT
CTCCTTCTTCCATAAGGTCCCTAATCAGAGGAACGGGATGGGAAAGCTTTAGAGATGAGTCTGTGACTATGGAATTTGGTGAGGGGTGATATAACCATCC
TGCCATTTGTTGTAGACTCGAATGGATGAGGAGTCATTGATAGAAAATAGTGGAAACTGTTATTCTGTGGCCTGATCCCATTGCTTAGGGACTCTGTGCC
AGGGCATGTGGGAAAAGAAGGAAGGCAAGTTCTGCTAAAATATAAAGTCAGGGTAAACATTTTTATTTATTGGAGAAGAGTTGATTATTATCTAATATTT
AATATAATATGCTTAATAAAGTCAGACTTGAAAGTTGGCTGGTTGGACCTAACGGGAGTATCTCTAAAAAATACCAGCAAATTAAGTTGGATCGGTGACT
GTATCATGATATCGGAGTGTTAGCTGTTTTGGGAGTACGTGTGCTCAGGACTTGGGCTGAGTGGAAAACCAGAGTATGGGGTTAGAAATGGAGGCAGARG
GACTACCATGTCGGGGAGGATGCACAATGAATTGGACGAAGGTTGCAACTCAGTGAGCACCGTACCTGTAGTGTGTCTTAGTAATAGCAGATGCCCAACC
TCCATGCCTAACTCCTTTGCCTACCCCACCAGTGTGCAGCAGCCTCTGCCGCACCCTACTGCAGTCTCTCCTATTTCCCTGGCAGGAGAGCTCAGAGACT
ACTTGTGAACAGGCCTCAATGCCTATAGCAAGGCAAGGCTTGGGAGAAACAAATGTCCTCTGGGAGCAGCCTTGGGTAAAAGATTAACTGCGCACTGAGC
TTTAGATCCCTGAGTGAGAAAGCTGTGGGAAAATGAGTGTGTAGCTCATGAGAGGGTTTGGAGAAAAGTGGTGACATCGCAAAAATCCCAGGTTTTGTTG
AAGTTGTCTGTGGAGGGGCACTCATAGAAAGGGCACTGGACGTGAGCATTTCCCTTGTAGTTGAGATGGGATTTGACATGACTTCCTGGTGGTGGCAAGA
CAAGAAAGTGGCAACCTGGGACAGTGGACCTCACAGCTCTCCTGCTAATGGTGCTGATGGCTAAGCTCAGCTCTTACCCTTGACCACTGGAACAACTTAG
ACATGTCACCAGCTTTCTGASCCTGTCTCATTACGATGAAAATTGTGATACAGGTTAGTGTAAGGACCGACAATAATGCATATAACATCAATAATGATGG
ATATAGAATTTCTGCAGTTATTATAATCTGGCTCTCCAGTATGGTAGTCGTGGGCCACATGTGGCTATTGAGTTCTAAAAATGTGGCTAATAGAACTGAG
GAAGTGAATTTTCAATTTGATTCCATGTTTGTTAATTCGAACTGAAAAACACCACGTGTGCCAAGTGGCTGCCATACTGGAGAGCGTGGTCAAATGACAT
GCCTAGCTCAGTGCCTTTCGCATGGGAGGTATGCAGTACTTCCTGCCACGATGGCTGTTACTCTTGTCGTTGTGAGCAGTGCCTTGGTCCCGATGATGAT
TCTCCAAAATGTAATCTCTGCTGACAGAACAAGAGTCTGCAAATTGGGAGTCTGGAAAGGGAAGAKAAGGGCTTTGTCCCTGGCCCCAAAGACTCAGGGA
GAGGTTTACTGGCCAGGTAGAAAGGGCGTCCAGGTGAAGGGACCCTGGTTCAGTGATCTCCAACCTGCACGTCTCATTTGTGAGGAAGCCGTAGGGTGTG
GACTTTYCTTGTTTCTGACCTTGAGTGATTAGAAAATAGCAGCTTTTATATGTCACAAATGGACTTTAGATAAGCATGAAGATGACGAAGACTGTGGAAT
ATGTAGCTAAGAGTCTTACTAAAATCCTCTCTAGTGTATTTATATATTTAAGCGTTTGGTAGTACTTTTTTAGCCATCAGCGTTCTCTATATTAGGTTGA
TACAGAAGTTATTGAGGTTTTTGCCATTGAAAGTAATACGTCACTTCATGCAGAGGTGGAATTGGCGCTCTGAGCTTGCTTGTCAAATTCACAGGCATTC
ACTTTTCTTTCATAAACATTTAGGACTCTGTATTTAGGAGAGGAATCACTGTGAATGTAGACCTCGGGTTGGTCATTTTCCTAGTAAGATAGACCAGACT
GACTGGAAAAGTCACCCTCTTGGGCTATCCTGCRTATGTGGCTCGGCATTGCTTCCGTCAGGATAATGCATCAGTTTCTTGGACAAAGGGTGCATTTCTG
CTATTTGAATGCAGACATATTTTTGGATATAAGCCACGCAGTTGCATCCCATTTCTTCCGTAGGTAAAGGCTGGGTTTCTAATTGTGATTGAGAAGCTTA
GCATAGATGCAATGTCCCTATCACCAGATGGCTAGTGTGCTCTGCCTTGTCTGCCTTTTACCTTAGAGAGGGTGCTTCCTTCTGACACGGGTATTGCTGG
AGTACACATTCTGTTGCATGAGGTCAGGGGAGCAAGAAATACAACCCAGACTTGCGCTCGGAAGCCCTGCCTTCATTTCTTCTCTGTAGCTGGCTCCCTT
AAGTATTAAACAGCAGTATTCTAATATCAACGTCCCTTTTTTATTTGCTGTGACTTGCTGTGACTACGGTGATTTTAGTTACAGTAATTAGGTCACTCTT
CATGGAGTCGGGCTATTTTAAGTGCCTCTTTAAGGAATATTGTTGCAGATCAGTAATTTTACAATTGGATGTTCTTGTGCAACTTTATTAAATGTGATCT
GTCTTTTAAATGTTGCCCTTTTACAGTTACACATTTCTAATTGTTGCTGTAAATGCATTATCACTTTGAAATTAATTAATTTTTCCATTTTGGCTGCCTG
CAATATAATAATCACTAATGAGAAACTCACAGGAATCAATTCTCAGCACAGCGGCCCCTACTGGTAAAGCCATGTCTCTGCCTCCCTCTTCTTCTTCAGA
TCCAGAGAACTGGACAAGTGTATTGGGGCGTCCTGGGAGGGAAGTGTTTGTTTCTTCCTCCCTTCAATTTATGGTGAAATAAAAATCACAGATAAACTTG
GAAAGTGAGTTATTTTTAAGTGTCGTTCTAAAAAAGATGCAATATACTTCAAATAGCTGCTTCTAAAATATGTTAAAGGAAACTAACATTTGCTGAGTAC
TTTCTAATAATGAAGTCACATCATACGTGCATTACATGTTTATTTTCTTGACTCTAGAGCATTCTTTTATGCAGTTAAATTACTCTAAAATGTTTTGCAC
CTGCACGCATTAATGTGTATTGTTTGGTAAGAACTTTCGAGTTGGTGAAAAAATGTATTGTATTTTAGTATCTATATTTATATATACATATTAGTCTATG
GGTTTTAATTCACAAAACCAGGTGTTGTATCTGGTGCACATAAGGGATTTTCAAGGCTAATCTTGGGTTTTTGCAGTTGTAACCATGTGTGATGACTTTA
GAATCCTACCACACTTCCAAATAGAGATGCAGATTGACCATTTTCCCAGATACCACGATGCTTTATGTATCAGCATATATTTTCATTAATTTCTCATAAT
TTCTGTTAGAATTAATAATTCCAAGTTCTACAATCTTAGAATTATTATCTTTATTTTGTAATTGAAAAGCACAGAAACCTCATGCAGCGTGTTCAAGAAA
ATGATATACCAGCCTTGTAAACTTTCACTTGCTAATTGCAGCTGCATTTGCTTTGTCCAATGCACGGTAATGCCCCTGGCATCCATATCTAGTTATGCAG
TTATGCTTCCTTTTTAAAATGTTTGACAGCACCTTCACTGAAATGAATGCTGCCACCACCGCCAACCCCACCTTTTTTTTTTCCACATAAGCTTTCATTT
CTGGTAAATACATCCTTGCCAGAGTTCCCAGGTCCAAGCCGGTCCTTTGTGGACCAGTATGCAGATTTGAAGTTGAGCACTGTCACTTGCCTCTTAGGAG
TGTTTTGTGCAACCACATATTTGTGTTGGCAGATAACAGTAGAAAGAATATCATGTGTTAGGGTAGCAAGAGCTTAGCAGATGTTTTAGGGAACTGCATT
TTCAAATCATTTTACATTAAAAAATGGCTTACGTTTATGGAACTTCTGCGACGATCGGGTTACGTTTCCTGTGCCCGTGTAAAGCCAGTCATCGTGCTGA
GTTTTAACGGATGTGCAGCTACCCTGCTAATGGATGGGCCGGCAATGCTGGTCCTGTTGCAAAGTTATAAATTATAACTAGAAAAAGCACAAGATGTCAT
TCTTCTAACCTTCGTGAAAGCCAAACGGGGTAATTCTGCCCTTGAATAACCCGCTGCAGGGTGATTTATAGTTGTACAATTTAAAACGTAATGAAGGAGA
TAATAGATGTTGATTTGTTCCTGAAATTAGTATTTTAGAAAAATACTTCTCCCCCTTTCCATCTTTAAATACCTGCAGCTGACTACACTATAGATACTAT
CAAGGGCAAAGCCCCCTGTTTGAATGTGTATTGGTACATTGGTGTATCACATACAAGGCAGAGGGTGTATAAAACAGGCTTTCTGTTGCGAGGGGGAAAT
ATGGTTTTCAAAGTGGAAATTTCATTGTATTCTTCATGAATCTAAACATTTTGAGACTCCTGAGTGAGGTTTGAATTTTCTGGTTGCCTTTCTCTTGCCA
GTCCAGATATGTTAGAAAACTGGACTCTCAGGACCCCTCTGTGGTTGGACCACACTGGCGCTTTCCTGCAGTTGTCTGTCAACAGAAGGACCTGGTAGCT
GGCTTGTCCTCTTACACCACTGAGGCCACCTTCTTGCAGGAAGAAACATACTTCTTCCTGCCCTGGATTAACATTACCATTGGTTTTAGTAGTCTTACGT
CATTATGTCCAAAGCTTTTAAGTTTACAGTGCTTGCTTAGTCCAGYGACCAATGGATGTAAGTAAGTTGGAAAAGGRCAAAGGATTTAGAATCATGAGGG
TTGTATTCAAACTGCAGCCTCTRCTCCCTTTTAGTTACATAATTTTGAAATCATTTGACATTTCTGAGGTTAATTTTCTACATCAGTTTAGCTGCTTTAG
GCCGCAAGTTATTAACACCCACTTAAAGGTGGCTGAAATAATAGAGGTTTTGCTTCCCATGTATCCAGAGTTGCTGAGGCAGCAAGGGTTGTGTTTGGCT
ACTATATGAGTAGCTCCTTTGTGATAATCTTTACTTTTCCCTCATGCTTACAAGATGGCTTCTGTGGTGCCAGCCATTGCATCCTATTTGATAAGGTCTG
AAGGCACAGATGGGAGGGATGAGGCTCCTCATTGCATGCCTTTTTCCTTTATCAAGAGACAGAGCATTCTGCTTCAGAACTGTCCTCCTGAGTTGACTTC
CCGTCAGATCCCACTGGTTGGGACTGAGTCATCTGTTTGTATCCTAGTTATAAAGGAGACTAGAAAAGTGCATAACTGGCTTTTTGAGCCTCTAGAGTGG
CAGGCGAACTCTGATTTTGAGGAAAAAGGATAGGGTAATGGTGTTGACACAGGCACTGTTGAATACGTATGTACATATTTTAATAGTTTTCTCATTAATC
AAATGGAAATGCTATCGATTTTATAGGRTCGTTGTGAGAAGAAGTGAGAATTGAAATGAAAGGCATCTAGTCTTCCCCGGTCCCCATCCACTTGACCCAC
CATACCTCAAGCCACTTCTGGCTCCATGCTCTTTCTTTCCTTAGGGTTTTGAAACATGTTCTTCAGCCTAGAATACTCCTCCTCCACTCTTAATTTCTAC
CCATCCTGCAAAACTCAGTCTGAACAGCACACGTCAAGGAAGCAGTTTTGGTCTCTCAGATTATATGAAGCTCTCCAATATGTTCTTTCAGAACAGCCAG
TGCCTAGAATACTGCCTGACTCSTAGTAGCACTCCTTATGTGTTGAATGAGTAAATGAAGAGTCCCTGGAATTTCTTCTTCATAACATTGAACACAACTG
CAGTTTGAAAACATAATTTCTGTAGTTTTTTTTTTTTCTTTTTTTTTGAGACGGAGTGTCTCTCCGTTGCCCGGATTGGAGTGTAGTGGCACAATCCCGG
CTCACTGCAACCTCCGCGCCTCCCCAGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAAGCACTGGCCACCAAACCCAGCTAATT
TATATATTTTTAGTAGAAGCGGGGTTTCAACATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTTCCAAAGTGTGG
TGGGATTCCAGGCATGAGCCACTGTGCCTGGCCTGTAGTTTCTTTTTCTTTTTTCTTTTCTTTTCTTTTTTTTGAGATGAAGTCTTGCTCTGTCACCTAG
GCTGGAATGCAGTGGTGCAATCTTGGCTCACTGCAGCCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGTGTCAGCCTCCTGAGTAGCTGAGATTACAGGT
GTGCACCACCACGCACGGCTGATGTTTGTATTTTTAGTAGAGAYGGGATTTCAACATGTTGGCCAAGCTCGTCTCAAACCTGCCTCAGCCTCCCAAAGTG
CTGGGATTACAGATGTGAGCCACTGCACCCAGCCTGTAGTKTSTTATTTAATGTCTGTCCCCCCTTCTCTTGACAGTGGTGTTTTTGCCTTCACACTACT
GTATCCCTGGTCCATACMGTAAATKTTCTGTAAATGTTTGTAAATGAATACATGAAAGATGACCAGGTGCTGAATCAGTGAGAGTCCTTAATGTACTTCT
TATCATTTATCCCTCTGAGGTAGGCAAGGGATTATAGTTTAGAATGTGTAAATACGTAAAAGATAAGGCAAGGAGACCTGCTGAGAGTCACACAGCAAGC
CCCCAAGGTYCCCCAGGCTCATGGTCAAATGACATGTAAGGGACGTATCCAGYGGTGTGGGTATGTTTGGAGGGAATGAATGTAAGGAGAGAGAGGTGAG
GCACAGGAGAGACAGGATGAGCTTTAGAGGTAGACAGCTCTCGGGTCCAGCCCTAGCTCTCTCCCATTCTAACTCTTGGGCAAGGTTCAAAACCTGATTA
AGATTCATGCATAAAACTGAGATGTTAGAACTACCTCATGGGCTTGTCTTGAGAATTAAAGACGTTATGAACTTAAGGCCTCTACAGTGTGCTAGATGCT
TAAGAAATGTTAACTACTATTGTTATTGGCTTGCAGTAGAAATTAAAGATTATGAATGTTCAGCATTCAGAATATACTAGATACTCAATAASCATTATTG
CTGTCATTATTAACATTATTTTCCCCAGCTTTACTGAGGTATGAGTGACAAAAATTTCATATATGCGCATGAGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTGGCTGGGCATGGTGGCTCTTGCCTATAATCCTAACAGTTGAGGAGGCCAAGCTGGGAGGATGACTTGAGCCTGGGAGTTGGAGGCTGCAGTGAGCTAT
GATGGTGCCCCTGCACTCCATCCTGGGTGACATAGTGAGACCCTATCTCTAAAGGAAAAAAAAAATTATATGTATTCGTGGTGTGAAATGTGATGTTTTG
ATATTCATATGCATTGTGAAATGACTACCACAATCAAGCTAATTAACACATCGGTCAACTTACATAGCTATCATTTTTTGTGTGTGGCAAGAACATTGAA
AGTCTAGTCTCAGCAATTTTCAAGTATATAATACGTTATTATTATTACTATCGTTAACTGTATTCACCATGCTGTACAATAGATCTCCAGAATGTATTCA
TTCTGTCTAACTGAAACTTAGGATCCTTTGACCACTATCTCCCCATTTATCACCCCCTCCCACTTCCCCACTACCAGCCCCTCCTGGGAACTGCCCTCTA
CTCTCTGCTTCTGTGAGTTTGACTGCTTTAAATTCCACACAAAAAGTGAGATCATAGAGTATTTGTCTTTCTGCGCCTGGCTTATTTTACGATAAATTGA
TTGCTTCTCTTCCCATTGTTTATAGATACCCATTCTCGTAATGATGGCACTGTGTCTGTCATAGAAGGCCTAATTCTCCCTGTTAACATTGAACATAAAA
ACCTCATATGGGCCAGGCACAGTGGCTCATACCTGAAATCCCAGCACTTTGGGAGGCTGAGGCGGATGAATCACCTGAGGTTGGGAGTTCGAGACCAGCC
TGGTCAACATTGCGAAATTCTGTCTCTACTAAAAAGATACAAAAAAATTGGCTGGCTGGTCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGC
CGAGCCGGGCGAATCACGAGGTCAGGAGATTGAGACCATCCTAGCTAACATGGTGAAACCCTGTCTCTACCAAAAATACAAAAAAATTAGCCAGGCGTGG
TGGTGGGGCSCGGTCGTGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTAAGGCAGGAGAATGGCGTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAG
ATCGCACCACTGCACTCCAGCCTGCGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGGCTGTGTGTGGTGACTCGTGTCTATTGTC
CCASCTACTTGGGAGGCTGAGACATGAAAATCACWTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGACATCGCATCACTGCACTCCAGCCTGGGTGACA
GAGTGAGACTGAAAAACAAAAAAACAAAAAAAAACCCAAAACTATATGTGCAAGCCTCAGGAACCACTAAGACAGATTACACAATGCTCATCAGAACTCA
GCAGGCTTCCACAGTGCAGATTTTAAGCCCTCCAGTTGCCTGTTTTACTGGCACCAAGAACACACCTTAGCTTGGAGGAAACATTGGCCACTTTCTTGTT
AAAAACAAAGAGAGGGAAACTAGATCTGCCTTTGTGAGGCTGGAGCACCTCATCAATGTATTTTTTCTGCCTTGCTTTATAGTGTTTTAAATCCGCCTCG
GCCTTTGTTCCTGAATGAGCACCCGAGAAGGGGAGAAAGTGACTMTCTGGCCTTAGTATGTGTAACAAATTATTTAATGAACATTTAACCAAGATTTGCA
ATTCCCCTAGTTTTATCTTCCCGGTTTCCTTTTCTTCTGTGTGCCCGTTGGCATTTTGGTAATGTGCTGCCTCTTTATAACTCTTTGTAGCTCTTTTATT
ACTTTTCTTTTTTCTTTTAAGTTTGTGGTGCCTTCTTTGATCCTCCCCTCTTTCAGTTTCCTTTTCTCCAATTTCATACTTATTTCCAGTGATTTTTGGC
TGCAACGCAGTTTAGATATTGGAGGCCAGCGTGATTAAACCGAGGCCAAGAGTTTGTATTGCCCCATGACGATGTTTCTGGAATGTTTCTTCTGTGAACA
GTGATTTTTGTATAACTCACTGGACATGTTGATTTTTCCCTGTGAGGTGTAAGGTAATGTTTTCCTAGCAAAAACAAAGAGGGCTGAAACCTGGTGCTCA
GAATCGTTTGGAAACGGAACTCCTCTCCCTCTTCTTTTTACACCAAGATAAAGAAATACTTTGCAAATCAGCTGAGCACATGTTCCCAGCTCCGTGCCGG
GCTCTGTGGTCATGGGTTTCCTTCTTTATGTCTTACTCATCTAATGTAATTTTAGAGTGTGTTCTCTTTAGATAATTGTGTGTCTCTGAGCAAATCACTT
ATCCTCTCTGGTCCTCAGTTTTCTTATCTGTAAAATGAATCAGTTAACCAAGAATAGCCATCCCTTGGGTTAATAGAACAGTTTAACTTGAAAGGAAATA
AAAAAAGGAGACTAACATGGGCCCACAGACATTGTATTTCATAAATTTTGGATGAAAACTGAACCTACCATCATKTATTAAGAGAATGGATATTTTCATG
TCAGAAATTATAGGAAGGATACAGTTATGGGATGAGGAGCAATTCTTTTTTTTTTTTTTTTGAGGTGSAGTCTCAYTCTGTCACCAGGCTAGAGTGCAGT
GGGGCGATCTCGGCTCACTGCAAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGACTCCCGAGTAGCTAGGACTACAGGCGCGTGCCACCAC
ACCCRGCTAATTTTTTGTATTCTTAGTAGAGACGAGGTTTCACGGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCGGCCTC
CCAAAGTGCTGGAATTACAGGCGTGAGCCACCGCACCCGGCCTATGAGGAGCAGTTCTTTCAATGGAATATATTTGACTTCAGGGAGAACTCACTCAAAT
GCTGCTGTTACTGTTTTTCCCTTTGTTGGAAGTGATGGGGTTGTACTTGGAATGACTGGCCTAGAAAACCCTACAGGTACCATTTAAGCTCCATAGTTCT
TCTGTGTGTGTTTCGGATCCCAGGTTCCAAACCTGCTCTAAAACTTGTTGCTGCATCTCACCTAATCGTGTAGTGAGCCAGGTGAGCTCATCTGTGAAAT
GCAGACCTTTCTGGACGTACCACCTCGTGGGGTGAAGGGAAAGAAATGATACAGGTGTACATCAGGGTATAAGCTGTCCTAGAGTCTGGATTCTTTTTAT
CCAGAAGCCATTCTTTCAGCCTGTGCCTTTTTGTAAATACCATACCCCATCTATTTCCACAAAGGATTTGGGGCATTAGSGAGTAAAGGGGGAATATGTT
CTAGAAGAAGGGCGCTCACCTCAGTAAATTGATGGGTGGGCCACAAAAATCATGTCACAAGATCTTGTTGATGTGCATGCATTCATTCATTCAACAAATA
TTATTGAGCATCTAACATAAGCCGGGTGCTTTGCTAGGKACAGAATGCTGTACAAGGTCCCTGTCCTCATGGGGACCGTATGTTGGGAAGACAGATGATA
GGCATGGAAATGAAGAGACAAACCACTCCGACTTCAGCCCAGGAAGGAGCTTTAATTTGAGTAATTGTTTTCACTAATTCATCTTCACAGAAAGAAATAA
TATGATCACCTTCGGTTAGTAAACAAAACAAATAGGCAAACAGGTTTACAGGCTGAGGTGGGCTGGATCACTTGAGGCCGGGAGTTTGAAACCAGCCTAG
CTAACACGGTGAAACCCTTCTCTACTAAAAATACAAAAATATTATCTGGGTGTGGTGGAGCTTTCCTGTAGTCCCAGCTACTCTAGAGGCTGAAGCATGA
GAATCACTTGAACCCAGGAGGTGGAGGTTGCCATGAGCAGAGATCGTGCCACTGTACTCCAGCCTGGGTGATGGAGCAAGGCTCTGTCTTGGGGCGGGGG
GCAGGGCAGGGGAGGGGGGAAAGAAGAGAAACAGCTTTACTTACGTTTTTGATGAGCCTAGCCTTTGCTGTGCTTTGGAAAATGGGCTGTGGAATTTGGC
TGAAATAGTCAAATGCGTAGCTGGCTGTATGTGGACTGATAACTGGGCTTATTTTGCTTCTTTTAGATCTGGAAAGACTAAGCGCAAAATAGAAATGCTA
ATGGTATTGATGTGTTTTTCTTCCTTTGGTGTGATAAAAAGGTATCAGTAGGGATCATTCATAAAACTAGTTAGTAAACTATCAGTTTAATGTACAATGG
TGAAGAAATACATACATCATACTTGAGACCATGTTCCAGAGAGTATTTTGTAACCTGTGACGCTCTTTTCAAGTCTTAGAGAGGAAGTATGGAAAGAGCA
TGCGCTTTTGACTGAGGAGGTCTTGGGTTTAAAGGTCRAATTTTGCCACTTACTTTCTCCATGGCCTTGGTCAACATCCTGAAGTCTCAGGTCCTTGTCT
GCCTTTGCTTTGACACGAGATGTTGCCTGCCTCAGGCGGTTGTTGCAAGGACTAAAATCAGGAAGGCCTGGAAAGACTTGGAAGCATTTCTGTCACATCC
CAGGAACTCCGTAAATGCCAGCAAGTGTTAGATTATTGTGATGATTTTACTACTCCTATTATTGATATTATAATTAATATTATAATTGTTCATTATTACC
TTATAAAAATTACTTATGATATGTTTTTCTTACTATTTGGTGAACATCGAGTATAGTACCAAGTGTATACTTTTTTTTTTTTTTTTTTTTTTTTGAGGTG
GAATCTCCTCTGTCTCCCAGGCTGGAATGCAGTGGCATTTTCTCGGCTCACTGCAGCCTCCGCCTCCCAAGTTCAAGCCATTCTCCARTCTCAGCCTCCT
CAGTRGCTGGGATTACAGGCATGTGCTACTACMCCCGGCAAACTTTTATATTTTTAGTAGAGACAGAGTTTTGCCATGTTCACCAGGCTGGACATGAACT
TCTGACCTCAAGGGATCCACCTACCTTGGCCTCCCAAAGTGCTGGGATGACAGGTGTGAGCCACTGCCAATTATATACTTATTTTAGGTGTATTATGCTG
TGCCCTGTGCTTTTCTTTGTTATACTGGAAGGTCATGATGGCAGGATGTCTTATTTATGCTTCTCTGTACTCTGTCCTGTCCAGTGCCTTTCAGAAGTAA
GGTTTTTAGAAAGGTTTGAGTTATTTCCTGTTTTCTGAACCAGACAGGCAGAGTATTTGATCTTACAAAAATCTGGCTCAGTTCAAGTTAGCTGTGTAGC
TTTGGAACGGACCCTGGACAGATGGATTTTCTAAAATTACAGAGGAAACTAGATCTGTAACTCTGTACATTTACTCCTGTGCCAGTAACAATGGCAATAT
TTTAATACTGWAATAAATTTTTTCTTATGCATTTGCTATAAATTAGTAAATCTGTGTAAAGCTGCTTATTGCATCATCATGTAGAATTTCTACATCCTGC
AGAAGTTTAAGAAAATTGTCTTCCTTTTACAGACAAGGACACTGAAGTTTAGAAGTGCTAAGTAAACTGTCTTAGATCACTTAGCTAGCAAGTGACAGGG
ATGGAATTGAATCTGTATTTATCAGAGGTGAAAGTATATGTGTAATTATTCAACTACACTTAGGTAAATATCCGCATACATGCATGCCTCCCCTTAGACT
CCATTGTTCCAAAAGGTAATGACAACAAAAATTAGTCGGAGGCGGAAGGAAATGCAAAAGTGGACATTTACTCGAGAAAGAATAAAGAAACCATGCAGGA
TTCCATTTCACAAACCTCTACAGCTGTTGCTGGGGAGTCAGTGGAGGGGTACTGGAGGAAGGCAGACTTTGTTCTAAGCTACTTAGCAGCCAAGGAAAGC
AGAAGAAACTATTATTATTATTTATTATTATTATGTGAGTTGGAGTCTCCTTGTGTCATCCAGGCTGAAGTGCAGTGGCATAGTCTCTGCTTTCTACAAC
GTCCACCTCCTGGGTTTAATCGATCCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCCACCACTACATCCAGCTGACTTTTGTATTTTTAG
TGGAGACAGGGTTTCACCATACTGGCCCAGCTGGTCTTGAACTCCTGACCTCAAGTGATCTGCCTGCCTCAGCCTCCCGATGTGTTGGGATTACAGGTGT
GAACCACTGCTTCTGGCCTAGAAACTATTATTAATAGAAGTTCTGGGACAACGGCCCTGCTCTCATTACTTGCCCCCAATCCATGCAATGAAATACTGGC
CTGTGAGTATGTGGTCCCTTCAGCTCATTTTCTGAAGCTGACCAAAGGAGCACAGTAATGCATAACGGGGGAGTAAAATTCCTCAAGACGAGCAAAAAAG
GCAGAAATTAATAAAACTCTATGTATTAGTTATCTATCACTGCATAACAAGTTACCTCAATATTTAGCAGGTTAATACAATGCACATTCATTATTTTATA
GCCTTTGTAGATTAGGAACCAGCCATTGCTTAGCTGGACCATCTGCTTTAGAGTCTCACAGGCTGCATTCAAGGTGTCCACTGGGCTGGGGTCAACTTCT
TACCGACAAAGCTGGTGCCCCAAAAGAATGGGGTCTTATCCTGTTGGGTGTCATGAAGCCAACACACAAAACCGAAAGTAGTGTCAAGYAGTACAGGCTT
TATTCAATGGCCATGGAATTGAGAAGCAGGAGCATGGCTCACAAATTCACAAATCAGCTTCTCCACTAATGAGGGGTGRGGAAGTTAAAATATAGACTTT
GTTGTTGKTGCTGTTTTAATGAAGAGGCTGGACATTAAAATCAAGGGGAGGAATAATCATGTCTTCTCTTGAAATGGGCAGTGAACTTCCCGGAACCAGA
GTGTTGCCTTCCTTTTTATCCTTTTATGGCTGCTTCTGATCATTGTCATGGTGATTGTCAACTGTCTTGGCGCTGGTGAGGGGGCTGTTTAGCATGGAAA
TAGGATTATAATGACACCTGAGGTCTTTTTGAAGTCCTTGGGTCGGCTATCTTGCTTCTAACAAATCTCAGCTGGTCTGGTTACAGAGGGAACTTTTTAT
CACAGGTGTCCTGTTTCTTAAAGATAAGCAGTGTTATTACAGGGTAGAAATTCACCTATGTCAAGTAGGCATTATACCAGGTAACAATCTCAAGACTCAG
CAGGGAAGGATCCACTTGCAAGCCCACGTGSTTGCTGGTAGGACTCAGTTCCTTATGGCCCAGTGGATTGAAGGCTTCCTTTCCTGCCTGGTGTTTGGTT
CCTTGCCACGTAGGGATCTCCATCATGGCTGCTGGCTTTATCGAAGCATGTAAGCCAAGAAGGAAATAGAATCCATTGGTAAAATGAAAGTCACAGTTCT
TTGTAATGTAACCACGGAAGTGACGTCTTACTGCTTTTGCCATATTCTTTTTGTTAGAAGGAAATCACTGAGTCTGATCGTTGTTAAAGGGGAAAGGATT
TCACAGTGGTATGAATCCTGAGAGGCAGGGGTGATCAGGGCCAGCTACCACACTCTACAACTTGAATTTTGTTTTAGATTTCAGTGCCTTTTGGGGACCC
TGCTACATTGTGGTAGATTTACTCACAGGACTTGATGATTTTTCTTGACCTGCCTGAAGCCATAGCATTTATTACGGATAAGTTTGTCTTTTCTTCGTTC
TTTTTCTGTTTGCATCCTTTCGTCATCCTTTTCTTCCCTCTTTCTGGACTGAGAGAGGCACCAAATGCACCCATTTAAAACATATATGCATTTCTGCTTT
CTGATGGGAGGTAAGATTTAGTCATTTAATAAGAAAGCTTATGAAAAGAATAAACAAACTGGTAGATAATGTATCCTAAAGTCAAGTATTTGCTTTCATG
TTGCTTTAGTAGAAGGGGCCCTTGTTAATCGATGGCCCAAATTGTCTTTCTCAAGAAATGTGTATTGCAGAATTTGGATTTGAGTTACAAAAACTAGCCA
GAAAGCGTGAACTTTTTTTTTTTTTAAGCCATAAAGCTTGGTAAGGCTAGCCAATCATTTCAAAGCCTGTGTAGAATATCTAGACTATWTGTAATCCTAG
GATTTGTTGTTGTTTTGTTATGATTTTTTTTAAGCAGGAAGCTWAAAAAAATAACCACCCGTTACTTTGCTGCTTTTAGAAAATAGGTTTGAGATTGATT
TTGAATACTAAAGTATAGTTTTCATGTTATAAAGCCAACCATGTTAAAAATGTATAATAAAGTATCTAATTTAGCAAAATTCAAATTTCCCCTATGAAAT
ATCAAGCTCTTTTTATGCTTCTTCACATGGCACCTTGTGTAGAATTTGAACCACTTTAAACATTGCATCCTTGAGTTGCATATGATGGGATCTCTTGAAT
CATTTACATTTTGAAAAAAGAAAGTGAAATATTCTTTAAGAAGCCAAAGTAMTCCACGAGAATGTATGGTGTTTGTTCAGCTGGATATCTTATTTATTTG
AAGTACTGAGAGAGAAATCTTTTCTGACTGCTCAAAACAGGGAATAATAAACAGTCAGAGTGTCCAAGTAATCTGAGCTAGAAAGTTCCTTCTTTCAGAG
AAAAGTTATAAAAAGTATWTTTGCCGGATCCAAAAAAAATACTGTGTATSAACTMCTGAGACCTGCATAATGTTTTCTTAGTATTCTCACTCTTTAAAAG
AAAAAAGAAAACCTGTAAAATTTGGGAACTTAAACTTTTTTTGATATTTTAATATTTCTAGGCAGGTGAGTGCAATAAGTCTGTTTTTTGATCTTAGAAC
ATAACATTTCTTGTTGGCTATTGTGTGTGCTATGTGTATGATTTGTCTCTTTGTTAATTCTCTATAAATATAAAAGAGCAAGTAATGAAATTACCATGGC
TGAATTCTGAATATTAACCCAGAGCAGATTTCCTCTAAGAAAGATCATAAGAAGATGCTTAAAAGAAAACATTATATTTCAAAAGAATTAGGTTCTGAAA
TATACCCAATAATGAAAACAATACAATTTTCTTCTGCTTTTTGTCCTTCCTGTTCCAAGCACTGGGAAGGAGCTGGCATATTTCTTATGTATGAAAAGTA
GAATAATATATTGGATTCCTTTATCCCTAACCCGGAAGAGTCTTTCTTGGACTGTGGTTTGCTTTCCCGTTATACTTAAGCTTGTTTATTGCATCTTCCG
ATGTCACATTATCTCATTGCCAAGCTAAAGGCTCTGTTGGGTTCTTAGTTGAACCCAGAGTGGAGGCCGATTTCATCCAAAGCCATTTTTTTTAAAATTA
GAAATTAAACTCACCTTTGGCAAGTCCTCCTGACCAGGGATGGGTCCTCATGTTAGTCTGTAATGTGAAGATATGAAATGTATTTGATACAATAGGAGAT
TCACTGTGATTTTCACTGAATGAGTATACATTCTGCAGAACTAGAAGATAAAGATAATAAAACAATTCACATTTCTTAGGACTAATTTATTTTCCACAGT
CCACTACCAACATGGTGGGATGGGGAGGAGCTGAGAAGAGCATATTTGGCTGAGTTTGGTTGCAGAAGGATGCAATGTGAGGTAGCAGAAGGGGCTGTAA
GAACACAGGATTTTGAAGTTGAAGAAACCAGCCTGGAATGAATCCCAGCCCTTCCTTTTAGTGACCTGCTGGCCAGCCACATTACCTCCTTGGGCTTTGG
ATTTTCTTTTTCACTGTAAAATGGGGAAAGTAGCTCCCACATCTTTGGGCTGTTGGTGGGAGGTGTGCAGGACACAGCTGAAACCTTTGGTGTATAGTGG
ATACTAAAGCAATGCTAGTCTTCTTCGTGTGCTACCAGTTAGAATGAATTTTRCTGACATCTTACTGGTTTCTGAGGGTATACAGACACTTATTGTCAAA
GATATTATTGATTATCTGATCCCCAAACATATGGAGTTACATCACAGCAGGTGAGAAATACCCTTCAACTCTTGATTCTAAGGAAAATCCTTGGGGAGCC
GCCATCATTCCTTCCACGAAGGAATGAAATTATAACGTAATGTATTGTTGGAGCCCTTAGTTCAACACTGTCTTTTTTCAGGYCATATTAATGSAATGGT
TAGCATATCAACTTCCTTCTGTTTTTAGTGACTCTAATACATTATATTCACCTTGTTCTCTGCATGTTCTTTCTTTAAGTCATGTTAGATCCCTTTTTTG
GAAGCAGGTCAAATTTGAATTAATAAAATGATTTATGTTGAAGTACAGGCATATCCCACAGAATCTCTTAATACCAGGCCAAAAGTAACTTTATCTTGAT
CTGTAGTTCGGACATATTTCTTGGATTGTCCGCACTCAWAAAAAGAGATTGCGTAACACCCTTTGAACAAATGGATATTTGAGAACCATCCTGTCTTCAG
ATTTAGATTTTTTCAATTTTTTTTTACTGTCATATGATTCACATGCTAGTTACTGATTGCTATCATGCAGTCTGCCAGCAGACCAGATGGCAGATCTTTT
AATTAGATATGTTTGTGTGTGTATGCATGTGTGTGTACATGTAATCACAGTTCATCAAGGACCTAATAAATACTTTTTTCTCTCTCTCTCTTTTTTTTTT
TTTTTTTTTGAGACGGAGTCTTATTCTGTTGCCCAGGCTGGAGTGCAGTGGCGGATCTTGGCTCATTGCAACCTCTGACTCCCAGGTTCAAGGGACTCTC
TTGCCTCAGCCTCCCGAGTAGCTGGGACTGTAGGCATGCACTACCACACCTGGCTAATTATTATGTTTTTAATAGAGACTAGGTTTTACCATGTTGGCCA
GGCTGGTATCGAATTCCTGACCTCCATGTGATCGGCCTGCCTTGGCCTCCCGAAGTGCTGGGATTACAGGCATGAACCACTGTGCCTAGCCTTAATAAAT
ACGTATTTATGTCTTTCGATCTTTTTCTGTTTTTCTACATTCCGTTTCCCCTATGGCTGCTATTGTTTTCCAGTGAGCTATTTATATATATATATACATA
TTTTTGAGAGGGAATCTTACTCTGTTGCCCAGGCTAAAGTACCATGTCAAGATTATGGCTCACTGCAGCCTCATGAGCCTCAACCTTCTTGGCCTAAGTG
ATCCTCCTCTCTCAGCCTCCCGAGTAGTTTGGATTACAGGCACCTGCCTTCATGCCTGGATAATTTTTTGTATTTTTGTGAAGACGGGTTTCATCATGTT
GGCCAGGCTGCAGCTATTTATATCTTATATGTGTATTTGTAAAAAATTTATTCCTCAGCCCTGTGTGGTAGCTCACTTCTGTAATCCTAGCACTTTGGGA
GGCTGAGGTGGGAGGATTACCTAAGGTCAGGAGTTTGATAATAGCCTGGCCAATATGGTGAGACCCTGTCTGTACTAAAAGTACAGAAATTAGTTGGGCA
TGGTAGCGGTGCCTGTAATCCCAGCTGCTTGGGAGGCTGAGGCAGGAAAATCGTTTGAACCCGAGAGGTGGAGGTGGCAGTGAGTGGAGATCACGCCACA
GCACTTCAGCCTGGGCGCATGAGCGAGACTATGTCTCAAAAAAAAAAAAAAAATTTCTTATTCAGTTGATTTAAGATGGTTTATAAAGACAACATGAGCT
AGCGGTAGAAATGCGAATGGACGCTTGTAGACAGTAAGGACTCAATACGTGGGTTTGTTCAAGTTATATTGTGCAGACAGGCATATGCAGTTAGAAAATC
TGTCTAGGGTAGGGAGAGATAAAACCAGCTACTTCAGCCCTGCTATTTTTATCCTGAAGATTTTTTTTTTACTCTGTTTATGAATAAAACATTTTAATCA
GTGCTGTATCAACACTGATCAATTTTTTTCATGGAAGTGTAATACAGGGTGAATTCCATTAAGTCAATTAAATACTTAGATCCAGTTTTTAAACAGTGCG
AAGATAGTTAAGCTCTTCTTTTATTGAAAGCCTTTTTACCAAAACCATTTTTTTTTATTTTATAGTGAAGATTTCATGTATCTGTTTTCTGTACATGCCA
AGTTTTACAGCTTTTTGTATCATGAGTTTTCTTTTGCATCAATTATTTCTACCAAGTCCAACTTGTAGATTGGGCAGATCTGGATTTCACCACACCTGGT
TTTTGTTGTCATTGAGTTTTTGTGATGGGGTGATTTCAGTGAGAAATATATGCCATTAATTTGATGAAAAATCAGTATTTATTTATTAACTAATACCCAA
GAAATTCCCCAGCAAGCCTCTTCCAGTATTCTAGAGTTTCTCGTTTCTTGAGGATTGGTCTCCGGGCATACTCCTAATCTAATTGTTTCCCAAACTTTCA
ATGTTTTGGATGACTTTGGAAGCCTTGATTTCTGTAGGCTGTAGCAGGACAAATTCTGATGGACAGATCAAGATGTTCTATGTTGCTCTAAAACAGCATC
TCTCAAACTTTTTTGGACCACTATCTAAGTTTTTTCTGTTAAAACCCAATACATTTATACTTATGTATATTCGTGTGTGTGTGTGTGTGTGTATTATATG
CATGTGTGTGTATTTGTCTGAAATAAAAGTTTTACAAAATGATACTTTTATCTGAGCAGTGTCCTGCTGTTTTTTTTCCCCTAGGTTGTGTTTTTGTGTT
TTTGTTTGTTTGTTTGTTTCTTTGTTTGTTTTTGAGACAGAATTTCACTTTTGTTGCCCAGGCTGCAGTGCAATGGCACGATCTCTGCTGACCCCAAGCT
CCGCTTCCCAGGATCAAGCGATTCTCCTGCCTCAGCCTCTTGAGTAGCTGGGATTACAGGCATGCGCCACCATACCTGGGGAATTTTTTTTTGTATTTTT
AGCAAGGTTGTTGATCAGGCTGGTCTCGAACTCTCAACGTCAGGTGATCCATCCTCCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCTTGAGCCACCGTG
CCCACCTGTGTTTTTTGTTTTGTTTTTGTGTATGTGCCAATGATGACCCAGTTTCAATACCAACTGTTGCTTTCACCACCCACTATTGGTTTCACCACCC
CGCTAGATCACAGTCTGTTCTTTGGCAGTCACTGCCCCAATACTGTTTGATGTGCTCCCCTCTGATAAATGTTCATTGAGTGCCCCACATGTCAGGTACT
GACTTAAGGCATAGCAAATGCAAAAATGAGCAAGGTGTTCTCTTGGCTCTATGGGTGCCTACCTTAGAAGGATGGAGATGGGAAGAATGTGAAAGGGAGG
TGAGATGAGCAGCACTGGGATGTGTGGCTTTTCTGTCTTGAGGATAGATAGAAGAGGAGTCAGATAAAGTTGCAGAACAGAGATGACGTCTTTACTGAGA
CTTGAATGATGTGTCGGAGGCAAACATGTTGACACAAACGAGAGAATTTTAGGTTCTCTTTGTAGCTGTGGCTGGGCTGGGACAAGGACGATGGACAAAG
TTATGGGGGTGCTAAAAACCTCAGTAATGAAGATAAATGATATTCTAATCTAATATTTTAAAAAATCGAGGCTAGGYGTGGTGGCTCATGCCTGTGATYC
CAGCATTTTGGGAGGCCAAGGTGGACGGATCACCAGAGTTCAGGAGTTYGAGACCAGCCTGGCCAAAATGGTGAAATGCCATCTCTACTAAAAACMCAAA
AATTAGCTGGGTGTGTGGTAGTGTGTGCCTGTAGTCCCAGCTACTCTGGATGCTGAGGCACGAGAATTGCTTGAACCTGGGAGTAGGAGGCTGCAGTAAG
CTGAGATCATGCCACTGCACTCCAGCCTGGGTTAACASAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAWTCAAAATTGATGCAAAAAAT
ATGATAACATTTCAAAATTTAAATCAAGACAAATTCAATATTATAGCAAAGGTTCAAGTAATGAACATGAATTTGTAATGATGCCTGGGGGAGGTGAAGG
TTAAAAAAAAAAAAAAGGCCACCAAGGACCTCATGTTAAAGTTGATGATGACGGAAGTGAGCAGTGATGATGAGATTTAAAAAACTAACTTTTATTTTTA
CATTATTTTAACTAGTATTTGTGTTAACATTATTTTAATCTCCTGTGCACTTAAGGGAGCTGGCATAGGCCGGCAGTGGCTATAGGCCAGGACCTGTGCT
ATGTAGCTTATCTATTTCTCATGCTGATTCTACTTTTGTTACTACCGAAGGAGCTTAGAGGGAATCAGTGACGTGGACAAGGCTATGTAACTAAAGGGGG
TGGAGGAGGATTCAAGCCCCTTGCAACGGACTGAAGTGCCCAAGCTCTAAATCCCTGCCACCCACAGCCTCTGTTGGCCCCAGGTTGTGTCTGARATTCA
RAGGTTGTTTTTATAGCAGCAACACAGTAAGTTGGGAAGAGGGACACATTTTTAACATAGACACCAAAAGAGAGGCTGGAARAGTTGACCACTTARAAAT
GTCACGAGTGTCTGTGAATAGTGTTGGGGGCTGAGAGGCAAGAGAAGAAAATAGTCCTAATGTTGTACAAGTAGCAATGGAAACAAACTTGTTAAAAAAA
ATTTAATTTTGTTTATGCATGTGTGCATAAACAAAGCAATAGAAAATATTTGATATTTAAGATTGAGCACTTAACAAAATACTTTGTCTCTTTTTGGTTT
GCTGTCTTAAGCAATAGCCTTAAATTCTTGTCCCAGGGATACCTGATAGAGCTAATATAGAACAATATTTTAACATAATTTGAAGTATTTTTTTCTTCTG
ATGGGTATGTAGTTCATTTTTATAAAAAAATTTAAAAATTCTGAATCTGTGGTGTTTCTGAAACATCCTGATATATTTTTTGTTGATGACTCTTAACAAA
GGATGTAAGACAGATTCTAAGAAGAGAAAAGGTAGAATATCCACATGTCTCAGTTTCATAATATGTGTAAAAATTATCATGCCCATTCATTATTTAAAGT
GCTGTGGCTTTTTAGTGAATACCAACATTAACAAACCATGTTAACAYGATTTAAAATATGTAATGAAATTTGCAATGCATCAGATGATGGAACTATCAAA
TTAGTTCACGTGGCGTTGGCTGATCACCCTTATGAAGAGTTACTTGCATTGTTTGAAGAGGGAAGATGCACATCCCCTTGTGGGCTGGCAGCATTTTTGC
TAACACTGCCTTAAATGATGCTACTGGCAGGATGGTTAATTTGATGTTGAAATGTCACACAATATGTGCCCACCCTACGATTTGAATCTTCTGTGCCGTT
AAGGGAATTGGCAGTGTTCAGACAGAATGGTAACATTCTCTCTGATCGTGTCTGTGTCTGCACCCTTTTTTGTTTTGTTTCTGTTGTCTTCATTAATAGA
CCTTTCAGGAACCTTCCTGGGATCTCAGATAACAGTTCTTCTGGAACAGGATTATCCAGAGGTAGCAAAAGCTCTCCTGCAAATATTCCATTGCACGACT
TTAAATAAAGCAGCAAGAAGTCTTTTCATTCAGTTCAGATTTGCTACTTGTTCTCTTGGTTCCTTCAAAGTAATGACTAAGTACAGGTCTTTAGATAGAG
AGCTGCACCAACCAGGTATTGCTTCGTGTCTTCCACGTACGTCCTGAGAAAGCGAAGGTGAATTTCACCAATTGGTAGGTGGAAATAGAAAAACTGTTGA
TTCTTTTTTTCATTCACCAATCTTTTTTTTCCCCAAATGCTAAGCTTTATTTGGGGAAATCTTAACAGCCGTTTTTATAAGACTCTGCATTTACAACATT
TGTGGGGGCTGCAGAGGACGCACATGAAAATAACATGAACTGGCCATGTACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGG
ATCACCTGAGGTCAGGAGTTCGAGACCAGCTTGGCCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAAATTATAGCTGGGCGTGGTGGCGGGCGC
CTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCCTGATCCCGGGAGGCGGAGCTTTCAGTGAGCCAAGATCGCCCTACTGCACTCCAGCCT
GAGCGTGAGACTCTGACTCAAAAAAAAAAAAAAAAAAATTAGCTGGGCGTAGTGGCAGGTGCCTGTAATCACAGCTATCCRGAGGCTGAGGCACCAGAAC
TGCCTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGTGACAAAAAAAAAACTTTACCTGGGCTTAGTAAGTT
GCCTGACTTCTCATCCTGGAGTTCGKATCCCCTTGTTTCTAGAAGAGAAATCCCTCAGATGTGAAGGTGTGTTCCATGATTTTGYCGAACTTGCCCTACA
TACTGTTTTATTATATATTCTGCCCACTTCTATTCCCTGCCAATTAATTAATTGTTTCATTGGTATAGTTTTTTTTTTTTTTTTTTTGATACAGGGTCTT
ACTGTGTTATTCAGGCTAGAGTACAGTGGCGTGATCACAGCTCACTGCAGTCTTGACCTCCCAGGCTCAAGCAATCCTCTGGCCTCAGCCTCCCAAGTAG
CTGGGACTATTGGCAATGCCACCATGTTCGGCTAATGTTTTTRATTTTTTATAGAGACAAGGTTTCCCTATGTTGCCCAGGCTGGTCTGGAACTCCTGTG
CTCAAGCCATCCTCCCACCTCAGTCTCACAAAGTGCTGGGATTACAGGTACAAGCCACCATGTCAGGCCATTGGTATACCATTGTTTTTCTTAAACATTT
ATTTATTTTCTTATATTTACAGCATATGTGGTCATTTAAAATTATTTTATAGCATATAAAASTAAAAAGAATATAAATTAATTTTTTAGCATTAATATTA
GGGAAGATAATCTGACATTTAAAAATACATGTCTATATGTGTATACATACATAGAAGTATATATATAAATACMAGTACTAGTGTCTGCTAATAGGTGGCG
CCACTTTTTATCTGTGTGTGTTGGGGGTGGAATKAGCATGTAGAGGTTGGCAAAGGGGACAGGAGACTGTGGGATGATTAGTATATTCTTATTTGGCCTG
GGAGGGAAAAAAARTCTTTCATTTCCAACAATATTCWTTCTCTGTGTCACCTCAGCATTTAATTTACTTCCGTCACAAAACTACTTGAAGTTGTCCCAGG
CTAGTTGGTCCTATTAATTACAACCTAGAGGGATTCTATTARTAAACTAATGGATTACAGTACCTAAATGGAAGCCAGCAGATGACTTTGGAAGGACTGA
TCCGCAAGGGCCTTCTGTGTGAAGATTAAATGAAGCTTCCTTTAGCCTTCTCAGGTGGCCACAGTTTCCCATAACCTTAGAGATTATCTAGGCCAAGGCT
ATTAATTTAGAGATTAAGAAGCCAAACCCAGAAAGGTTGAAAGACTGTCGTAAGTTCACACTGAAAGAGAGTGGTGTAATGCCCTTTTCACCAGGCTCCA
AGAAATTTGCCTATTTTATGTTTTAACGGACATGGTATCCCCAGCATTTTTAATAAATGCCCTTTTCTTGCATAAGTAACTGGATATTTCCGAGTGGCCT
ACAAGTGGAGCGTGATTTCATCTTTCATCAAGAGAAGCAGCTTTTCCTCCTCTTGTATCCGTTTTCTTCCTTTTCTAACTATCAAGGTCATGCGGTATST
GCCATTTTGCATATTCTTGCTTTGCTTCATGTTTTCCTTAAACTCTGTGCACATGAATATTTGTGGTATATGGCTTAATTGTAAGCGATCAGGCATCAAT
GGCTTTTTATGAGGCAAAATCTACTTTCTRCATTTGCGTGTGCCATTATTATAGATTGCTGATGTTTGCCAATGGATATTCTTGGAAGTCGTCTTCTGGT
TTAAATGCAGTTAAGTATTTAAAAATAATACCAGTGACATGTTTGCATTTACATTCAGCCTGAAGGCCTACTTGATGCTGCAACTGAAAAATTGTTAGAC
TAGATTTTATTTTATTTTAATTCTTTTTGAGACAGGGTCTTAGTCTGTCACCCAGGCTGCTGGAGTGCAGTGGTGCAATCATGGCTCACTGCAGTCTTGA
CCACCCTGGCTCAGGTGATCCTCCCACCTCAGCCTCCCGGGTAGTTAGGGCTACAGGCACACGCCAGCACACCCAGCTAATTTTTTGTATTATTTATAGA
GTTGGGTTTTTCACCATGTTGTTCAGGCTAGTGTTGAACTCCTGGGCTCAAGCAATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAG
CCACTGTACCTGGACTCCACTATGCCTTCCCCTCCCCTTYCCTCCCTTCCCCACCCTAAAGAGTCTCGCTCTTTTCCCCAGGCTGGAGTGCAGTGGCACT
ATCTGGGCTCACTGCAACCTGTGCCTCCCGGATTCAAGAGATTCTTGTGCCTCAGCCTTCCAAGTAGCTGGTTTTGCAGGCATGCACCACCACACCCAGC
TAGTTTTTCTATTTTTAGTAGAGRCGGAGTTTCACCAWGTTGGCCAGGTTGTTCTCARACTACTGACCTCTCCTCGGCCTTGCAAAGTGCTGGGATTATA
GGTACCCCGCCTGGCTGATACTTTCCTTAGTTGTTTTCAGTGTAATAACCTGTCTTCAGTCTACTYTWTGTCCTTTTCTCTCCTTTCCTCCCTGAATACT
CAAGCTTCCAGTGCACAGATTTCTCCAACCCTGAATGTGACTGATACCAACACCATACTAGCTCTTCCACAGATGCCTGTTTGTTTTGCAGAACACTGGC
CTGAATGACTCAGACTTGGAGCTTGAAAGAGGGAGAACTGATGTGGCCTGTGGCAGACGTGTCCAATGACCTGCTGTGTCCTTGCTTTTGAAGAACTAAA
GAGTAGACTTGACCACTTTTTAAACATGACATTCGATCCACGTGGCATAGCAAGGATGGGATCCACAAGATGGAGTGATCTTTACGCCATCCTCCTGACC
ATAAATACTAAAYGAATACTCTATTTCAGTTGAGTTTTTAGTTTGCTCTGTTACGTGAGGACACATCACTTGCACCTCAGTGTGAGTTTGAAAGTGTTTT
CTCTGGAGAATAATTCTGAAGAAATAGGCCCTCCAGATATCRGTAGTGACAGGGSTATCAGTAATGTTGATTACTAAGTTCTTGCCACAGGTAGAAGCCA
TGCTACTGCACAAGTTTCATACTTGAAGAGTGGACATCTGACACAGTGTTGGTGGTTGTTGAAGTGTATGACTWTTACTGTGTTGCTTTGGAAGCTTGAT
GCCATAACAAAAGTGCAGAATTCCATGTTTGATAACTTTCTGACTTGATGAAAATGAATTGTGGATACAGATTTCACTATCCATGAATTGTGGCCTTAAC
TTTCTCATGTACTTACTTTAAATCAGAGAGCCCACCTGTCCAATTCTAGCTTCTCCTGGGCATYCTGTATTTGACACAGCCCCTCCCAGCATTCTGAGTC
AYCGTCTGCTGCTCTTGCACTGTCCGTTTTCCAAATGAGGAACTCATCGGTAAGGCCAGAAAGGAAAGGGAGAAAAAACAAACAAACAAACAAACAAAAA
ATAGGAAAAAAAGAAAGAGCGTATTTATAGATGGTAGAGAATTCTGGGCATGAGAAACCCAGCCAAACAAGTRGAATGTGTGCATAGGTGGGACTGCTGA
TCTTGTTTTATGAAAGAAATAAAGGCAAGTCAAACAGATCCTTTCGCAAGGATCCCCATGTGTGTATGTCTAACCCAGTGACAGGTAAGGCAGCCAGGAG
CTGCTGTTATTTCAGTGCAAAGCTGTTTTCACAATCACAGACATGCACAGCTCARAAACCCTCACAGGTCACGCCTGAATACCTTCAATGTGCCCCATGT
AAAAATACACTGCAAGTCGATTGGACATGCCCTATGAATTATACCTTATTTATGATCGTCGAGCCCTCCCTTTTCCCGTCATGCTTTAGAATTATGGGCT
GGAGCAGTTTTTAATACTCTATTTATTTTAGGGGAGGAAAATGTTTTTCTTTAACCACAACATTCATGCAATACCAACTGCTGGCAGTTTCCCCAGCATT
TAAGGAAATATTGTTGTAAGACTTTTATGTTCTGTACTTCAATCAGCTAGAGCCAGCAGTATCCCAATGGAAGGACCCTCAACAGACCATTTTCAGCATT
TTGCTACAATTAAACTCCTCTGGTTTTAGCCCTCAGGCAATTTAGTACCTTTTTACATATGCACATTATGAACTTTTGACCAGGGTCTAGCAGTCATATA
TTAGAATGCTGCTCTTGAAGGCAGGCTTAACAAGTTCCTCTGAGTATTACAGTTGGAGTCAGTTGTGGAAAAGGTAATTTAAGCAACTTGCAGCGAGGCC
ATTCAGAATCTCAGCGATGATCCTAAATATCTTTCTCTCTTGCTCACGCTCTTTTTTTTTTTTCTTGTTTCCTCTGGAAGCTGGTAGCAGGAGCTTTCAA
AGTCTGTGATTGATCTTTTATTCAGTAGCTAACGAGGGCTGTGATTCTATTAGCGCACTACAAGGCAAGAGAACAGTGATTTAATGAAGTGTCTAGTGAG
CCGGCCATAGATTTATCCTGTTGTCGCTAATTTGCAGCGCACTTGCCAGCATAAAGGAAACTGCACTCACACTGCTATTAAGCAGGTATTTCCTTAGTAA
ATTGTTGTAAGGTCAGGTACAGTTATCTGAGCAAAAGCAATGCCTTACCTCTTCAGTGTCTGCAAATGACAGCCGCCGTGCTGAGCGCTCACTGAAGTGG
AACCGGGAGATCAGAGGTCCGTCTCCAAGTCGCCCTTAGCGGAGGCAGGAGCAGATGAACTGCCAAGTAGGAGTAATAGAGTCATAATTGGTGATTAGAA
CTGGAAAGGTGCAATAACATCTTAATACAAACTGGCGTATGTTATAGTTACTGTCAGTTGTTGTAAACTCGTCCTGCCGCCTGGACTAGTTACGCTTCCC
TTGATTAGCTCTGAGAAACRAGGCAGCGGGCACTGGGGCAGCCACATAGACAACATCYAAATTTTTGTTGCTTTCCTGGGTCTTGCCCTGTCCTTACTGT
TTCCCTTGGGCACGCTGTTCACCCCTTAGGACATACTACAGTAACCTTTTCCCACCACCGTGGGAGGACTGTGATTTTGTAAATGTCYTCTGATCTCTCC
TCTTTGCAGGCGCAGTGACATTTATGCACACTGGCTTTGAGGCTCATTGATCTTTTGTTTTATTTGCCTTTGCTGAGGCAGGGGCAGGTCTTTGTTTCAT
GTCAGATCCGTATCCCACTGCAATTCTGTGTTACTGTAGGAGATTTGGGGTTGGCATGCCAGAGTGAAAACGCGAAAGAAAATAAACAGGCAGCACTGAG
GAATTATACACTTGAGCTTGGCATTTTTCTTAACGCAGGGCTATTTTAGGTGCACTGCGCATGTTGGAGGTGCCCTTGCAGGTATAGGTAGGCATTGTCC
ATCCRTGGTAAAAAGCAATAGAAGAAATTCTTACCCGATGCTTAATGAATTGCCAGGCTGGTTAAAAAGGATAACCCTTGAAACCTAGGGTGTCCAACTG
CTAATTTATATAGACTGGAGATATTTCCATGCCTCGCAGCAAAATTTTTCTTTAAATTCACAGAAGCAGCAGCTATCCAGCATTGTCCARTTGTGCTGAG
TAGCTGTCATTATTGATAAACATGTAACTGGTCATTTGTATTGTTTTGAGTAGGATATGGCTTATCAGGATGCATAGTAGAGAAAAATGAGATGAGGTAA
TGAGATCACATACACTGAAGCATCTTACGAATCTGGCACATAGTAGGTTCTCAATAAATCTTTTTTGATTCTGTGACTGTTAGAATCTGTTGGCTGATAC
TCTGTCATCTGGCTCTCACTCTGCTCCATAAAACTTGGGTAATTCTAATGCTTACTTCATCCCAGGGCTGATGTGTGTTAGGTTAGGGTTTATGATCAAG
TAAAGAGTTTAAAGAAGTGTTTTATGAGGGAGTTYTGTTTGCAAATGATCACCTGGTAATTTAAGAGGGTGAGCTAAACTTCCTCMTTTTCTAGTATGGA
CCTTTGGGGCTCAGGATGAGGATGTTCAMTTTGTACTGCTGGTGGAGCTGCCTTTCCATTAAGTGAGTCTTTCTCCAAGGGAACAGAAGTCTTAGGTTGT
TGATCTGGCKGTCAGAACCTAGGACAGGCAAGGCAGTGGGCTGTTGTAGAGKAGATGAAGCTGATCAGAGCACACCCACACCAGTGACAACCGGTCAGGA
CCTGGGAAGGGCTCTGACCCATTCATCTGAGAGATGTGGCATGAGGAACACTGAGACCTAATGCTTATTGCTTAATATTGTGGACAAGGGACTCTGTGGG
TTGTCTAGTACTAAGCAGAATGGAAGGGAAGGATGGAAGGAAGAGAGGGAGAGACGGAGGGAGATGGAGGATGACAGGGAGATGGAGGGAGGCAAAAAGA
AAAAGGGAGAAGKAWAGAGAGGARAGAGGGGAAGGGAGGAAGGAAAGAAGAGAGAGAAGGAGGAAGAGAGGRAAGKAGGCACAGAGGTAGAGAGGCAGGG
AGATAATGGAGATCCTGGCCAAAAGTTAATGCTCCGTTTCTAGTAGTCCACAGAAAGCACCTTGACCAAGTGACTGAATACAAATCGTATCACAAACTAC
TAGGATTTCTTGGGTGCTTACCATGTGCCATATTTCCTTGAATCTTCATGACGATCCTTCAAGGGATCCTTGTTTTCTAAAGGGTAAAGGTGCAGGTTAG
AGGCTATGTCAGAAGCAAGTCAGGATTTGAAGGCAGATCTGTCTGCTTTTGCCCCTCTGTAAATCCAGAGCTGCTGCCTCATTTCTTACRTTGCCCCCAC
CCRTGCAGCAATTCTTCCTGGGAGGCCTCATTGTTCATATTCATAAAGGGCCCCATTCAGTCTCCTTTTTGGAGAAATGGCCACTGCAACTCTCTGTTCT
GACCTGGGGGGAAATGTTAGACCCTCAATAAGGAGAATCAGAGAAAGAAGAAATAAAACATATTACTCCATTCCCATACTTCTGTGAAGAAATACCCGAG
ACTGGGTAATTTATAAAGARAAAGAGATTTACTGAACTCAGTCGTTTCACCTGGCTGGGGAGGCCTCAAAATTATGGCAGAAGGCAAAGGAGGAGCAAAG
GCACATCTTACATGGCAGCAGACMAGAAAGCGTGTGCAGGGGAACTGCCCTTTATAAAATCACCAGATCTCATGAGATTTATTCACTATCAAGGGAACAG
CACAGGCAGATCCCATGGCTTTGACTCAGTTACCTCCCACTGGGTCCCTACCATGACACATGGGARTTCTGGGAACTACAGTTCAAGATGAGATTTGGGT
GGGGACACAGACAAATTGTATCATAGAATCATAAAAATTGCTATTTCTAAGGCAGATGAATAATCCTGGTTGGAAATCATACTGATTTAGACTTAAAACC
ATTCAGCCTTCTTTACCATTTCTGAATGTGGCCCTGAGGGAGGATTTGTCTTTTGCTATTTTCTTTTTTTAAGAGATGGGGTCTTGTTGTGTTGCCCAGG
CCACTCTCCAACTCCTAAGCTCAAGCAGTCCGCCTGCATCGGCCTCCCGAAGTGCTGGGATTACAGGTGTGAGCCACCACACCCAGCCTGGGGGAGGGTT
TGTTAAAGAACTGTCTGTTTTATCACATGACCACAAGTTAAAATGTTGGGCAATGTCCCTGAATGATAYCTTTTCATTAGTRACTCACATGGACCCATAA
TCTCTGAATTTAACATGCTTTTCAGGAATGTGTTCATATTTTCCACCTATAAAACCTGTTTTAGTAATTTACTCCCTTGTAAATGTTCCTTGGTATGTAA
ATTTAGCATATTTCCTTTTAATTGCCCAGGTAAATAATACCCACCATCAGAGGGCACCAGTAGTGTAATCACCTTATTTTTTAAAATGTATTCTGTGTTT
CATGATTTTTTCTGAATAACTGATCTTTACAGTCTGAATTGCATTCTGTTGGGCTTGACTTATTTTTAAATTAAAAGAGACTAACACATTAAACACTAAG
AGGTCACATAGGATATTCCATTTATATAAAATATGCAGAGTAGGCAAATTCATAAAGACAGAATACGCATCGGTGGTTTCTGGGGCGGCGGGGAGTAKGG
AAAGCCTGTTAATGAGTACAWGTTTCTTTAGTTTTTTTTGGTTTTTTGTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGG
CACCATCTCTGCTCACTGCAAGCTCCGCCTCCCAGGTTAATGCCATTCTCCTGCCTCAGCCTTCCTAGTAGCTGGGACTATAGGTGCCCGCCACCATGCT
TGGCTAATTTTTTGTGTTTTTAGTAGAGACGGGGTTTCATCGTGTTACCCAGGATGGTCTCGATCTCCTGACCTTTTGATCAGCCTGCCTTGGCCTCCCA
AAGTGCTGGGATTACAGGCGTGAGCCATTGCACCCGGCTATTGGGTACAAGTTTCCTTTGGGGTGGTGAAACTGTTTTGGAACTAGAGGTGATAGCTCTA
CAACACTGTCAATGTACTAAATGACACTAAATTGTACACTTTGAAATAATTTATGTTATGTGAATTTCATCTCAGCAAAAAGAGGCTAACACATAAGGAG
ACATATTTTGATACATGTGGCATATTAAGCTGCTGYTGTTGTTTTTTAAATATTCCAGCTGCGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGA
GGCTGAGGTGGGTGGATCACTTGAGGTCAGGAGTTCGAGATCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTRTAAACTCCGTCTCTACTATAAAT
ACAAAAATTAGCCAGGCTTGGCGCTGGGTTTCTGTAATCCCAGCTACTTAGGAGGCTGAGACAGGAGAATCACTTGAACCCGAGAGGCAGAGGTTGCAGT
GAGCCGATATCTCACCTCTGCACTCCAGCGTGGGCAACAGAGCGAGACTCCGTCTCAAAAAAAAAAGCACAAAAAATTTTTTTCTTCCATCTGTATCACA
CAGTTGCAACGTTGTAGCATGGGCAGGAAATAATTGGGTTGTATGTAATGCCCAGTAAAGTAAACAGATCTTAGAGAGGGACACCGATCCCTACCCTGCA
TGGGGTTATTCACAGAGCCATGGGGACACTAAACGTACCTTATCTCTTGACCATGCYATTGATTAGTTATGTGTTTGCCTGTGTTATTAATAATGTATAC
ATTGAAAAATCTATGTGCATTATAGTCTTTGATCTTGTCATGAATTTCAAAGCCAAAGATTCCATTTTCCTTCTTTTTAAAAAAAATTTTTCAAAGAGGT
AGGCTGGAAGTAAATTTAAAAATTTTCCCCTTTCTGGCAGAGGGCTTTTTTCTGATCACCACCCATGTTAATTAGATATGCATGTATGTGTATGTATGAT
GTATATACCCATATACACWCAGTCTRTATATACWTGTATGCGCACATACACATATTTTAAGGARAGAATTATAAAATGATCAATTCAAGCTTACTATATG
CTAGAGGTGAGGAATATTTGAATACAAGTCTTATCTAGTAGATTAAAACAGAAATTAAAGACTGTAGACTAAGGCAGGATCAAAGGACCTCTTTTCATTG
TTCTTTTATTGTTTATTGACTTCAAAAAAGACTTTTTAGTTTAAACTGACTGTAATGTCTCTTGAATGGTCTTTTGTAAAATGACTTTGAAAACTCGGGG
ATAATGTCTTCATTAAGTGGAGAAAAATCTTGGGGAAAATATAACTGTAACTTGGCTTTCATTAGAGTAGAAAGAGATAAAGCTTTGCTTAATTAATGTC
TGTTTTCCCTCTGTTCAGAAGTATAAGGAAAAAGGGGACTGAAATTAGTGCTGATAAAAGCTTGAATTAGACATTATAGCACTGAAACTTCTTTTTCTTC
CTTACTTAGAATTTGGAAGAACATACTTCATACAAAGCTATGAAGCATATTGGAAGATTTTAGGTGCCCTGTCTTCCTGGATATAAAATGACTCCAAACT
CAGTGATACTGATCACCCTGGCTTCTTTTCCACCTTTCTCACTTCATTGTCTTTTTGTGTGTTTCTGACATCTGTTGACAAATGGGCAATCTTGGGGATG
GGGGGTTCCACTGGTATATTTTCTTTACTGTTTAAGAAAGCTCAAAATTCTCTCTGCTCTTTTCCAAGCCACCAATCAAAACTGACATTTTCTAAGTGTC
CTCATTGCCCTCTGGGAATGTTCATGGCCTCTGGGAGTCCAAGAACTACCTTTACACTGGATCTTCACTGCTTTTACTATTGTGTGGCTTTCTACCAGTT
CTCTGCTCAGCTTCTCTTTTCTGGAGACCTGATATGCTTTGTTAGCTTAGCATGCTGTTCTAGGCTGCCTTTCTTTTTTTTTTTTTTTTTTAAACTTCAT
GGTGAGCAGAACACTGTACTCCAGACTGTGAGGCCCCACCTGTGCAGCCTGCTGGCTTCTCATACCAGCTTCCTTCTCACCTTAACCCCACGTATTGTTG
CAACGGCAAAAAAGAGAATTGCACAGAGGAACACCACCTATCAGAGTTCACACTGAGTTTGCAGATTCATCCTTTTGCTTCCAGCCATCCCATGGAATGC
TGTTCTTGGAAGGGTCATCTCATGGTCCATTGTCGGCCCTCTTAGAAGAGATTTCAGGCCTTCCCTTGTAGCTTGATAGTTACAGGGAGTGCTAGGGTAA
GTGGAAAAAGCACATGACTTGGAATAAAGACTTAGTACACATCCCATGTCTGATTTATACTAACTAGTTCATGGACCTAGCCTACGTTACTGCACCTGTT
TGAGCCTCAGTTTTCCTGTCTGCAAAGGAGGGATGATGGTACTTACCTCAAAGAATTGTAGTTGGATCAAATGAGTTGGAGTGGGATACAGCAACAATCT
ATATTCTGATTTCAGCAACACTGTGCAGTGTAATTCCATATTATATTAYACCACATCTTCTGTGGGTCTTTCTTTGGGGGAAGCTAACATTTTAAAAGGT
TTCCCTTTGTAACCTGTAACCCCCTCTACCCCAAAAGTATATTCAAGAGCGAAACTTTTGGTATGACGATGTCTTACATCAGTAGTTCTGAATGACTTGA
CTTAGCTATCTTTCTTGAGTCTCTCAAAAGACAGATGGATGGATAGATTGATTTTGTTGTAACACCTGTTCAGTTTTGCTGGCCTTACTCGTTTTCAAAT
ACTCAAATGCCATTGAGTCAGATTTCAGAGGCAAATGGTGATACCTCAGGTTTGAAGTTGCAAGAAGTCACCACATGCTTRTTATGGAAATCGTCAGGGA
TATTTATTCCCTCTCCTGAGAAGCATAATTGAGCCTCCAAACCACCCATCAAGATATCCACCTGTAAAATATTTAAGAACTGGTACTATGAAGACATTTC
CCTTATGCAATTTGTTTTCCATCTAAGAGCAGAACAAGGAAAATATAGCTGACTATAAGTTACAAAGGCASACTCTTAAGCTACAAAATACATCTCTTCA
CAGGAGCACTTGGAGAAGGGCTGAAGGCAAACCAAAAGTGAGCAACAAGGAGACTAGTGTTCTGAAACAGAGATGACAGGCTCCGCAGTGAGGGTGATGA
TGGTGTTACGAATTACCCATTCAGTTTAAACTAGACATTCCCTGGAAGCATGTCATGGGGTGTGCAGAAGGGCTTTTGGATAAAAGGGGTCTAGTTAAGA
GATGTTAAAAAAACAAACTTGAAAAGCATAGCAGGCTGCCAGGACATGTCTGAGTACCGCGCAGATAGTGGGGAATAGTCTATGGATTCTGCTTACACCA
TGGACARCCAGGCTGGGCCATGGGTTGTGTTTTTTTTCCTCTCATTTTATAGAAATGTTACCAGGCATATTTTCCCTGTTTCCCTAAGAAGAGCTTCCTC
TCAGTGCTAGCCAGCCACAGGGCCAAGTGACACCTAGAGGTGATCCTTTGGTTATTTGCTAAACAGATCTAAGACAAACCGATATCTGTAACCTGGGATT
AGATAGAGCCAATAAGATGTAACTGAAATTCTCAGGGATTCTAAGACATCTACATTGTATGTTGGTACGTTATTGAAGGTGATGCTAGCTGCTATAACAA
ATAAGCACGCCTGTGCACAGTTGCTCAAAGATAGTAGAAGTTTATTTCTTGTTTATRTAAGATCCATAATGACTCTTGCCAATTAGCAGGCTGCTCTCTT
CCAAGTGGTAACCCAGGGACTCAAGCTCTTTTCATCTTGTGGCTCAGCCRTCTGACACATGTGGCTTCCAGCACTGCCCTGCTGTTGTCTGCACAAAGCT
GGTGGAAGAAGTAGGAATTTGCAGGACCATGTGTGGAGCATTTTAAGGATGAGGCCTGGGAGTGGCACAAATCTTTGAACTCCAGGAGGCTAGGAAACAG
AGCATAACCTTGTGCCCAGGAAGATGCGGGGCATAGTACATCTTTGCCTCACCTGATGTATTGTTTGTTTAAAATCACTTTGGATTCTCATTTACCTTTT
CCCCCTCAAGATCTTTGTTTTTGACTTTGGAGATAACCAGAAATAACTAAGCATGCTTCSTTCCCTCTACGATTTCATCCTCATGGGGAAGCAAGACCCC
ACTCTTTTATTTTCATGTATGTATATATGTATGTATGCATGTATGTATGTATGTTTGAGACAGAATCTTGCTCTGTCGCCCAGGCTGGAGTGCAATGGCA
CCATCTTGACTTACTGAAACCTCCTCCTCCTGGATTCAAGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACGCCACCACACCTGGC
TAATTTTTGTATTTTTAGTAGAGATGGGGGTTTCACCATGTGGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATYGACCTACCTCGGCCTCCCAAA
GTGCTGGGATTACAGTCATGAGTCACCATGCCCGACCAGCAAGACCCCACTGCTATTGTCCAGTGTGGTAGGTACCTTTGCCTACCTTCTACTCTACAGG
CTGGAACAGGTGATATTGTGCCTACTTCACAGCCTTCCTAGCAACTGAGGATGGCTGTATGACAGATTCTAGCCATCAAGTAAAATCAGAAACCAACAGC
ACGTTTCCTTGAATACCTTTTGCTTTCTATAAAATGGTGTGGCATTGCTGGTATTTTCACTCTTCCTTCCTACCCTGGATGCTGATTTGATGCTTCCAGC
CTTAGCGGTYTTCTTGCTTCTAGGACTGAACAGGGAAGAGGGAAAAGTCAAAAGAATGACAGAAGGTCCTCACGTTGCAGAACACTGACCAATGTTGGCA
ACTACAAGACAATCAGGCGTGATTCTTCATCCAGGATCTGCTTTTCCCTGTCCTGCCAATTCTTGAGCTGCTAATAAACATTCTGATGCAAACATGGAAT
ACAGATTTCAGAGGGATTCTGGGTAGCCCTCGGAGATGAGGATGCTTTGCGAATGTAACAGGCATCTCTCACCTCATTTGTCTGGTGGAATGTTTACAAA
TGCTAATTAAGTTTTGCTTCAAATGGGGAACAGTCCTGTGCAGTGTTTCTAGGAAGTTACCAGCTTCATCATAGGAAGACGTTCTCCATCGTTTGGATCT
TTTTCACCAGCACCTTTTGRTTGTGGTGGTTTGGGATGTGATGATCTCAGAACTTTACATCCTCCATGAAATCTCTGCAGCGATAGTTGAATGTCTTGCC
TTTTCTATTATTGCCCTTTTTCTTCTGTGACTTTGTACTGAGACACATTTATATTAGGGTAATGGCCTCATGCTATTTGAAAATCTTTATTTGGGCCACA
TTGGTTGGAAGATAAAAATATATAAGCAATAGTCCCTGAACATCATTTGGCCTGAACTAGGCTAGAGTTTCTCTTAATCAAAATAATAACGATGATTTTT
CCATGCCAAGGAGTGGTGTCRTATCATGAAGTAGATTTATGTACACATTAAATAAACTTTTACATTTTAATGTACCAATTTGCAATTTTTTTTTCTATTC
ACCAAAATATTCCAGATAACGGTTATCAGTTTTTGATTCTACACATACTTCAAATACTATTAATGCAAAATCCTTCTTTAGAAATGTTACCTAATTCCAA
TGTTTCACTTTATTCAGCGAAGACATTCCTTTGATTATTCTGGTTAGGTGTTATGATGCCAATTTGCCCACACATTTTTTCTTAGGCGCCTATGCTTGCA
GTAGACAGAGAGTTGAGGAAAGCTCAAGGTTAAAACAGGAAAAAGTAACACAGTAAATACCTATTTTTGTGCATAATTCAAATTAAAACCCCAACCACCT
AGAAGCACCAATACAAGGAACTGGCTGCATATTGCATTCCTGTGACCTGCTGTCTTAATGATGGAATGACTAACGAGGATCAGAGGGAATGTGGTCAGCC
TCTTATCTCATAAGCCAAATGCTGCATATTCCAAGCCTGTCAATTCTGAAAGCCCTTGTTCATTTTTAAATAATGAAAAACTTTGGGGCCTTGTTCATTG
TTTCTAAAGGAAGACATTTAGAAAATTTAGAATATAAATTTCTGTTAGTAGAAACTAATTTCTCTTGCTTTTCTCTAAAGTATACTTGATTTGAAATATG
TGCCCTGAAGTTTTGCTATGTTGAAAAAAATGATGAGCCGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAGGCCAAGGCGGGTGGATCACC
TGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGTTGAAACCGTTTCTCTACTGAAAATACAAAAATTAGCCAGGAATGGTGGTACACAGCTGTAGTC
CCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAAGTGGAGGTTGCAGTGAGCCGAGATCTTGCCATTGTTCTCCAGCCTGGGCGACA
AGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAARAATTATGTCATTTCGTTGTCACAGCGTCAGCAGAATAAATCTTAGATCAAGATGGGATT
ACTGCGCCACTCCCTTCTTCCCAGTCTGTGGTTTAGCACGGGAAAAAGCAAACTAGGGCCCTTGGGCCAAATCTGATCTGCAGCCTGTTTTTGTGCCGCC
TGCAGGAGAACATTTTTAAATTGCTGAAAAAATATGAAAGGAAAAATATTTCAAGGTGTGTGAAAACTACATGAAGTTTAAACTTGAGTGTCCTTAAGTA
AAGTTTTATAGGAACACAGTGTTGCTTATCTTTTATGTAATGTTTGTTTGCTTTGAGACCGAGTCTCACTCTGTCACCCAGGCTAGAGTGCAGTGGTGCG
TTCTCTGCTCACTGCGGCCTGCATCTCCCACGTTCAAGCGATTGTCCTGCCTCAGCCTCCCAAGTGGCTTGGAGTATAGACACGTGGCACCACGCCTGGG
TAATTTTTGTAGTTTTAGTGGAGACAGGATTTCACCATGTTGGCCAGGCTAGTCTTGAACTCCTGACCTCAASTGATAGACCCACCTCAGCCTCCCAAAG
TGCTAGGATTACAGACATGAGCCGACCTTTTTATGTATTGTTGATACAGTATGACAAGGGAAGAGTTAACTGATTGCAGCAGGTTAGAGCACAGCATGAA
GAGCTGACAATATTGACCGACTGGCCCTCTCAGACAAAGTTTGCCAACACCCAGGTGAGCAGATAYACTTATCTGTGAGCAGACGTGATTCAGGGGAGAT
TGTTGTCCCTCCTTTCCTAAGAAAATGTGGAAAGATGAGAATGTTGCCACCAGTGCTGATATGGAGCGTTTTTTTTGGAATTGTCTTAAACAAGTCCCAA
CCTTGACTTTGCCTGTGTACCCTACTCTTTACTCCCAGGTCTTTGCAAGGTAAGCTGTCAGGTGTTAGCTGAAGATACGGCAGCCCACCAGTGGTCCCCT
GAATGCCAACAAGAGTCACCTCTAAGATGATCCAGCTGTTGCATGGTGTAGCATGCCTAGTCCTTGCAGCACACACGCTGCCATTCTTCTTCGCCGTTGT
TACCGTATTAATTTAGGGATGATGAGAAAGTGGCCTCCCTTTCCCTGTTAATTCCTTGGAGGAACTTCTGTTCGAAATGAATAGTCTTGAAATATGTCAT
AAAGTTACCTATCAGGACCACTTTTACAGAGATTTAAATGTGATAATAAGAATAAAAGAAAATGAAGTGACATTGAGGACGTCTTCTTTTATAACAGCTC
TAGGTCTTGCCTGTTAAGCACGCTGTAAAATGACTGTTACACGTTTATGGATTGAAATGGTTCTGCTGAAATTTTAAGTGTTAACATTGTTCAAATTTTC
ATTACTAACACCTCTCACATTGTTAGAAAACAGTTTYATGTTTGACATTTTGATCATACTAACCTGGGACATTTTATGCTAAAGTTCTCATTTCATGCCT
TAGGAATCCCCTGCTTATTTTGATTTCAGCACCTTTCTGTAGGACGCCAATAGCTTATGTTTGCACATCTTACCCCGATGCACTCTCTAAACCGATCATC
ACAGAAGATATTTTGTAGTGATGAAGAAAGCTTAAATGTCTCATTTGTCAGATTGGTTTAGGTAGAAAATAAGGATTTCCACCCCYTCATCGTGGTTCCC
TTTTAGATTTTCTTGTTTGCTTTTCTTTAAAGCTGCTGTTACTCAAACGACAGTCCGTAAACTGCACTTTATTTTTTATAACAGCTTTATTGAGAGATAA
TTTACATGCTATACAATTCATGCATTTAAAGTGTACAATTCAATGGCTCAGTCTATTCAGAGTTGTGCAACCATTGCCACAGTCAGTTTTCTTACCTGAA
GGAGAAAGCCTGCACCCCATATTTTTTACCTCCCATTCTCCACTTCAACTCTTCCCCAGCCTCTGCGAACCGCTAGTCTGCTCTTCATCTCCATGCGTTT
GTATATTCTGGACATTTCTCATTAATGGGCTCACACGATATGTGGTTCTTTGTGAGTGGTCCTTTCACTTTGCATGCATCATGTTTTCAAGATACTGCAC
CTAATTTTTCAGTTCCTTGTTTTTTCTTACAAATACATTTTTCAAAATGAGTAAACATATGTACAAAAATATTTAATTTATTTAGGCACGCCAGGTTTAT
GAGATTCATCTTTGTAGCCACCAAGAGCCACTAACAGTGCTAACATAGCCAGGCATTCTAAATGTGTTTGTCAGGTGCATAAATCTGTGACTGATAAAAC
CACTGCTCATTACTTGGTTCTTAAACTCTCCCTCAATATAGCTGTAGGGACATGCAAAACAAAGGCTGGCTCATTAATAGGATATGTCTAGAGTTCTGCT
TTAGAAATCATAATGTGGACATCATTGATTTCTCTGATGCTGGAAGCTGCTGCTGCTTCTTCATCTTTATCTTCTCCTCCCTGTGTATTGAGAGCAGGGA
CCTCCTTGTGCTGTTTTGGGCTCTCCTTGTTCACCCAGATTGGCTGCATCAGCACCTTCTTAAAATATTAGTGTTGCTGAGATAGGAGCTTTTGGTAGAT
GGATAAACTGGGATTTGTAAATATTTTGCTTAGTTTTTTTCCCAGAGTTTTGCAGAAGAGAATAAGGTGTTGGTTTGTTATAAGGTGGTCCTTTATAAAG
TTTAGACCTATTTTAATAAGGCTGACTTGGGTTGAAGATAACTAGAGCCATGACTTYCATCTTGATGGACAATGAGTACTCACTCTACTTTTTTAKTTTA
TATTTTTATTTTAGTTCATTTCATTTAAGACAGCGTCTGTTACCCAGGCTGGAGTGCAGTGACATGATCTCRGCTCACTGCAACCTACACCTTCTGGGTT
CAAGTGATTCTGATGTCTCAGCCTCCCCAGTAGCTGGGATTACAGGCATGTGCCACCACACCGGCTAATTTTATGCATTTTTAGTAGAGACGCGTTTCAC
CATGTTAGCCAGGCTGGTCTTGAACTCCTGAATTCAAATGATCTGCCCACCTCAACCTCCCAAAATGCTGCGATTACATTTTAAAACTCTACCTTTTAAA
AATTAGAACCTGGACAAAGAGGTATTAAAGAATGTGTCTCTTATTAATTTATTATGGTAATGAGAAGAGTTTGGATTTGGACCTACCTAGGTTTTTCTTT
CCTCCAGCTCCGCCACCCCAACTCCTTACTCATGCTTCCTCTGTAAAATGATCACTCCCCAGTTTGACAGGAATTGCCCCTGGAATCCCATCTGGTGTTC
TAATTGTTACCAAATYCAGGCAAATCTTGCCTGTGATACAGGTGGTGAAGCTACTGGATAGAACTGGAGCATCTAACTGGTGTGAGATGGTATCTCATTG
TGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTGTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGATCAT
ATCCTTCGCCCACTTGGGTSGATGAAGCTGGAAACCATCATTCTCAGCAAACTGTYGCAAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGGTG
GGAATTGAACAATGAGAACAGTTGGACACAGGAAGGGGAACATCACACACCGGGGCCTGTTGTGGGGTGCGGGGAGGGGAGAGGGATAGCATTAGGAGAT
ATACCTAATGTAAATGACGAGTTAATGGGTGCAGCACACCAACACAGCACATGTCTACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAAC
TGAAAATATAATAAAAAATACATATTAAAAAAAAAAGAACTGGAGCATCGACTTTCGTTTTCATTTCAAGACCCGTCCCCCATGAYCACAGAGGATGAAA
AGTCTGCTTAAATTATAAGCTAGCTAATTGCTTCTTCAGTTGAAGACCTAAATGAGTTTTAAAGTGAAATGCATATCTCTAAGGGCTAAGTAGCCAACAC
AATAGGCAATTGAGATAGGAAAGACTAATTTAGAAAAGGTTGTTTTGTTCGTTTTTCTTTTTCCTTCCCTCCCTTCCTGATTTCCCATCTTCTTCCTCCC
TCTTCTCTCCCCTCTCCCCCTTCTCCTTTCCGTCCTTCCTCCTTCAGTTCCCTCTTTCCTCTTTTTCRCCCTTTTATTTAACATTATAAATACGATGGGA
TTGTGTCTGCGCTTTTGTTGGTAATTAAATAAATTATTTATACATTTAACACAATCTTGAATTACCAGGTGATCATCTTAGGCACTCAAAAGCATAAGAG
CCCTTGAAAGCAATATCTAAGCATAGATATTCCATAGCACGTCTTACAATCTAAATATTGCTTTTAGTGTAATCGAAGCAGCAAGAGTAGTCACAGCAGT
TGATGGACTATTTTTCAAATTGATTTCAAAAATGTATTTAAGGGGATGATCTTCTAGTCTAGATTACCTATTGATTTTTAATATGAAAAGCTCATTATGT
AAGCAGTAACCGCATATAAAAACCTAGCAAACCTTTGCATAAATCCTTTAATTGAATTTCCAGAGCCTGTGGTTCTACTTTTTTTTTAATTAAATCTATT
TCTTTTTTTAAGTGTTACTGTGTAATTTGCATGCTGTGAAGAGGCCCTGTCCCAGATAAAGTGCCATTGATCCTTATTAAACCTCACCTCTGGGCTTGCT
TAAAACTAACTGGAAAAATTAAAGTGTTCATGCCGCAATGCACTTATAGCTTGTGTGATAGGATTATGGAAAAAATAATAAAACTAATTTCCAGGGGAGA
ATTTCTAATGTGAGATTTTATTTTTTTTCAATTTGATAATTAATAGTGAAATCATATCATATATATAAATCATATTTTAGCCTATAAACTGAAATGGCAA
TTAGGAAAGATAATATATACTTGATGTAAAACCATGTTACGTGCGGATAATCTTTTAGCACTTTAATTTTTTAATTGTAGAAGGAGAGAATTATGAATTC
AAGTCAAACACATTAAATGGTGGGTTTCATCCAAAAAATCTGATTCTTTTACTATGTACTGTATTAGTGGATTTATAATATTAGTGGGAGGAAGTATAAA
AGATATGGAAAAAGATATTCTGGTTATGTTCGTGCTAAAATGTGTGTATTAGAATTACCAGGGGAAAGAAAAATATAAAAGCTGCAATAGGTTTTTCTAT
TTTTTAATACCTAACATTTGTTATTTTAAAAGCAATAAAATCCCCTAAAGAAATATTCGTAATCAATAAGAACACAAAATATGGAATATATTAACTGAGT
TATAAAAATGTTTGTAGTATAGCACAGAATGAAAAACACAGCAAGKTATGTACGGTTTAAAGTGTAATCAATTTTGAGGTTGTATACAAGGATATACATG
ATAAATACAAGTAGTAGCATTTTTAGTAAAGGCTGTTACAAAATACTGTATTTATGGCCTATTCCATTCTTTTTATAGCTCATTAATGTAGAAAACAAAC
ACAGTGTATCCATCTTCTCAGACGGTTTAAAATTCCCTTAAATGATGTTTTTAAATGTAAATAACTGAGCTCATTTGATCTGGTTCTTCCTTAAGCCAAT
GTTAGCATGAATGGCCATATTTACCACCCCGGGGTTCCTTTTCAGACTCCGGAAAGAAAAAGCGATGATAATGACGTATTTCCCTCCCTTCCACAAAACA
GGGCCAGGTGTAACACACTAAGAACAAATGGCTTGGCAGCCTACTCTCCTCTCTCGAAGCTCCATGCCCACCTTGCTGTTGCACCCCCCACCCCAAGGAA
AGCCTTCCCACCTTTGGAAGCTGCATTAATTCTTCCAGGCCACAAGGGGGCCGTTGAGTTASTGGTTCACTGCACTGGCTGGCAGGAAAGAGTTTTAATG
CAGGCTCCAAAGGTGCTTAATTTCCTGTGGTCCTTATGAATATGCATACAGTATGTGCTCAGCAATCTAGCAGTTCAAACTAGACAGCTGGTTCTGGTGG
TGAGGGTTTTTTAAATTTATTTTTTATTTATTTATTTTTTCTCTCCCCTTTCCTTGGACAAGCCCTTTCTGAATAAGCTGAATCTGTAGTATAATTTCAT
TAACTCATTTCCAGTATTTAATTTGGTTTTGATATTTCCATCATGGCCCCTTTTCTCCTTTGATTTTGTCATTCTGTAGAAGTTGATAATCTGTATTATG
ATCAACAAGGCATATTGCCATGACTGTAGGAATCACCAATTTAGATATCCAGGCTTCCTAAAATATAAGTAAGTCAGATTTAGCATTACTGTTTTCCTGA
ATGTAGGAGTATTTGGAAAAGGAAAAAAAAATAAACATACATCTTGGAAAGCAGAGAAAGGTGTTTTGTTTTCTTTCTGTTTGGATTAACATATTCTCCA
TCACTGTGTAACTTCATCCAATACGTATTGAATACCTACTATGTGTCTGGCACCACTTCAGACAGTAAGGATATGGATATGAATTTGTATCAGTCAAGCY
TTCCAGGATCTTATTATCTAGAGAGAAAGATTAAAACATATGCAAATAATTTTGATAGAAGCAAAGACCTAACTCAGCCTGAGAGGAGGTTGGGTTTAGA
GAATGCTTTCATTGTAATGTTTTAAAGCTTTTTATTTATAACTATAGTTTATTTGGACTTTATGATTTACCAAGTAACTTTAGATGCAAATATGGTAGTA
CTGTGAAGATTATGGTTTTTGAATGAAGTCACTTTGTGGCATGATGGTATAGAATAAGATATTTTCATAGTGAAAATGGAGATAAGACATGTCCCATTCC
CTAGAATAGACTGTCACTGCTCTCGTTGCCTCCAAGGAGGAAACTGTTATAGGAATGATTGACATGGAGGTTCATCTGTAGAATATGGACAGCCCTCTAC
AAATTGGGAACAAGGGCCAGGACACGAAATATAGTGACAGCCTCTGGCCTGGGAGTCTAGACAGTGGTGAAAGGCAGGATTCATGGAGTTTTCCAAGATA
AGATTCAAGACCCAAACTATGAATGAAAGCCAGGCTGAGGCTGGCACCAAGTAGAGGCCTCCAATAATGTTGACCCAGCGGGGCTGCATTGTTCACTGCC
CCCTCCTGGGAAGGAGGAACCAATGACAATGGAGCATCTAAGAGACAAGAGAAAGGGAGTGTAAAGGTGAGGATTCCATGGCTTTACACTCCAGAAACTC
AGGCTAGCTTGTTCTCACTGAAGCAGTCATACCTTCTCGAAGGCAACTAGGTGGATTACAGAATTGTGCTGGGTCCTATGGAGTGTCAGAAATAGTGAAG
CTTCTGGAGCTTCACTGTCCAATATGGTAGCCACGTGTGACTATTAAAATRTAAATTAATTAAAATTAAAAGTTCARTTGCTCTGAAATAGCAGCCACAT
TTCAAATCTTCWGTAGCCAGATGTGGTTATTGGCTACCWTATTGGGTAGCACCGATATAGAACATTTCTACCATAGTAGAATGCTCTTTTGGATASATCT
GCTTTAAAGCATTAGTCCCCAAAGTGTGAAGGATGAACCAMTTGGGTTCCGAGAGRAAACATTATAACTTCTGTTTATCCATTAAACTCTTTCATTTATT
ATTAAACATCTCAACACATTTATTGGGTGGCAGGTACTGTTTTAAGTGTTTTGCATATATTTACATGTACTGTCCTTTCAAATATTCTTTGAAATAGGAC
TATTGTTGTCCATATTTCACAGATGAGGAAAGAGATGTGCTAAGAAAAGAGGTGGCAGAGTAGGGATTCCAGCTCAGTAGCCACTTTCAGGGTCCCRTAC
TTTTCAATGTAAGCATATTGGCTCTCAATTTAAAAATGTTATTTTTTACAGATAGTACACAGATGCACTGACACAGGTACCCTCTCCAGTCYTCTGATGG
TCAGGAATTGTGTGCAGTATGCAGTACATTCCAAAGTCAGGCTGGCCATTTCCCCAGGGAGAGGGTCCATGTTGGAACCTTTGCTCCTTGTGGACTTTAG
CTTTGAAATGTATTGTAGTTTTGCATGTGTGCTTAGTTGGATGGATTGAGACATCAGATTATGTGGTCTGAACTAAAGCAACCGTCACAGAATGAACAAG
AGACTTACAAACATTTGTGCAAAAAGATCAGTGTTTGGATATAGTTCTTAGAATAGCAAATAGTAAGAAAAGAGCAGGATTGGTACTTCACCTACTCCTA
ATAAAAGCCCTTCATCTTGTGCAAAGTAAACACAATCACAGTTTGATCAGAAGTGGTCAATGGAAAAACAAAAATCTAAATTAGCAAAGAGAAATTTGAA
ATTGCATGCATTATTTTTAAAGATGAACATTGCTTTAACCTATACCATTCCTGGAGGTAGTAGCTAATAGAATGATCCAAGTTTATAATTTGTAAATAAG
TAGACATCTTTTGAGGCGTATGCCCTTAATTTTTCTAACTGATGAAAGCGTACTTCCATCAACTCARGACAGTTCAAAGCAGCTTGGAGCCTCTTGGATT
TTAAAAAGACTCTGTGGCCTCTGTCTCTCTTGGTTTTCAGTGCTCAGCTGAGGTCTACTCTGTTTATCCTCTGCCTACTAGAAGGATATCCTTTCAATAG
AGGTGAAAATCCTGAAATAAAAGGTTTCATAAATGGGGAAAAAAGTCATTGATTGAAAGAGTCATGGCATAGATGCTGAASTTTTGATGGGAACTTTGCA
GGATGTTCGTTTGTTTATCATTAGCCCTGGGAGAGTCATCCCTCRCCTCCCACCACCCCTTAATTTAAAGGGATTTAAAATATTTTCAAGTACATCCTGA
TATCAGCACGTGGTACACTGAGCCTAGTTGATGGAATTGTGAAAAAAAAAAAGAATGTTTTCCCAACAATTTGGCTGTATTTGCCAGAACTGTTTCAAGA
ATGCTATGACTTTTGCTCAGGGCAAGGGAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCGCGCCTGCATGTGTACTGTGGA
TGTGATAAGAGCTGTGTTTGTGAAAACTGTGAAGACATAACACATATCTATGAACCTTTTCTATTAATCTTCTTGGGGCTGGAGCTTTAAAATAAAATAA
ATAACTTTTCTGCAGAGASAGAACCTTTCCTTACCCAAAGATTTCGTAACTTTCTCACATCCTTGGTTAAGGCTGAGCTGCCTAGCTGTCTGCATTTCTG
ATAGGTTTTGCTTTCATACACATTTCAAGGACTTAAGAAATCTGTTTCTAAAGAATAACTTAGAATGTGCTTGTTATGGTCCCACCTATTCTGGGGAATA
GGTGGATATTATACATTTATTTAGGTGGAATGGTGGGTCAGATGGCTTCATGTCTTTTTACATCACAGTTCCACAGCCCTCATTAGTGAAGCAGAGGTTG
AAGGAGGTCACTTGCTTTTTATCCCAATGTCAAATAACTCCATAATTTTTTTTATTATTTTTTGAGACAGAGTCTTGCTCTKTTGGCCAGGCTAGAGTGC
AGTGGCGCGATCTTGGCTCACTGCAACCTCTGTCGATTCTCCTTCMTCGGCCTCCGTAGTAGTCAGGACTACAGGCATGCACCACCATAGCTGGCTAATT
TTTGTATTTTTAGTTAGACACCRGGTTTCACCATGTTAGCCATGCTGGCCTCGAACTCCTCACTTCAGGTGATCTGACTGCCTTGGCCTCCGAAARTGCT
GGGATGACAGGCGTGAGCTGCCTTGCCTAGCCAAATAACTCCATTATTTAAGAAAAATTAACCAGTATTTATTGAATACTTACTGGGCCCTGTGCTAAGT
GCTTTSCATGTGATTTCTAATTTCCTGACCATTCTATGAAGTGGCTACTATAATTATCCTGATTTCCCAGGCAGAGAAACTGAGGCTTAGAGAGTTGAAG
TAATCAACTGGGTGTTAAAAAGCTGGTAAGTGGCACAGCACTTATTGGCGCTAAGACTGTTTCTCAGGACCTTGTTGTACGAGAGTCAACGATAAGACGC
AGAACGTATGTTTCATTTTTCTTGGGAAGGATCTATCTCACTCATCTGCCTTCCTGTGTCTAGCAAGAGGGCCAGGCACATAAAATACACATGGTACAAT
CTGTTAAAAGGCATGAAAAAGAAACAGTCATTCATATCTGTTCGTAGAAGTGGGCGTCAAGATTTTGGGGCACTGAGATCTATGCATGTTGTGGGCCCAC
TTTAAGAAAAGGAGTCAAACATTTAGTGTGGAATACTGGAAGGGGTCCCTAGACATGAAGGGCCTYTTCAACCTACCTTTTGTTGGCTTCAAGGTTATGC
CATATTTTGCAAAGTCAAGTTGGAGATGGCTCTCGATATKCATGAGTGTGTTAGACTGCTTTTCTTCTATTTTTTAAAAATGCACCCAAATGTAAAAGAC
ACTTTTACSTTTTTGATTTGATGTTGAAGGTCATTTGAAAAATACTCTGTCTTTATTCTTTGAAATGGATTTACTCTCAAGAAAGTTGCATGTCACTTTA
CTTGGAAGAGACGGGTCTCAGKGAGGTGTGCCTCCGCTTTCATGAAAAGTCTCCCGTCTGCAGAAGCATTGGCTGACATGGAAGATTTTTTTTTTTTTTA
ATACTTTTCTTTTTGCCGGCATCTGCGTAGAATTTTTTTTTTTTTTTTTGGTAGTTTCTTAATGGTCTTTAGCAAAGGAAGTAAGTGACRCTGATCGGTG
AAGGCAGACAGTAAGATTTATAATGTATTTGTGCTAGCTGATTGCCAACAGAACCGGCCTTTCCCAGTGGTGCTGTACGCAGACTCGGAAAATCAATAGG
GATTAACCTTTGACCCCCTTCACATACTTATACTGTGGGCTGCATCGCTTACCAATATTTCATCTGTTTCACTTAGCTGCTGTTACTTACTCAATAATGT
GTGGCCAATCTCAMAAGATACTAATTCWTTTTTTCAAATGCAGCATCGCTTGAAGCTGTGATAAAATATCACACCTTTGGAAATCAAGGCTCTTCTKGTT
TATTTATTTAACTCACATTAATTAGCCTTAATTTWAAAAAAATGAGAAGAGCCAGCATCATGATGCAAGCATTGACTTTGCTCACAAAAACATCTTGTGG
TCAACAGTGGGGCTTAGGGGGCAGGTTTTGTGGCTGTGACAGAACACGTGGCCCCTAGTGTGTCTGTTGAAAGATGGGCCCCTTTCAGGAAAATKGCTTA
CCTTACTTTTTAGACATAATTTTTGTTTTCTGTTAAAGGGTCAGTTATAGATAAGTATGCTCCCTTGCAATGAAATGAACCCACTTTATCAAYTTTGAAG
GAATCAAAATTAACTTGAATACATTGTCTTTTTGCATATGTATGTAGTGCTTTGTATAAACATATGAATTTGTAGGAGCTGCTCTTAATGATTATTACTG
CATAGGCTGGAATAGAAGCAAAATTTGCAGTAATACTTTTGTACCTTTCTCTTTAGGCCTTGGCATRTATTAAAGTACTATACATTTGTCTTAAAAATTG
AAATTGTAGATTATTTTCATCTAAGACCCTTTTGTTCACAGATTTTTTTTTCCAAGTATACCTATTCCCCAGAGTTTACTTACAGTTTGCTATTGATCCA
GCAGCTGGTATTTGAATTGGTCGATATACTCTGTAACTTGTTTAAGATACCCTACCTGAGCTATTAGTTTAAATAATGTATTCATAAATTGATTAATCAT
TACAGTAAGACTTATTAGCTGCATTTATATCTGCGTGTTATCCACAATTGACTTATAGTCTAATAATCACGTATACTTAAGCAGAAGTTGGGTTTTACGT
TACAATTTAATAATTATCAAGGTGGCAAACGGTAGTATTTGTGTGTAGAAGTTGAGTGGATGTGGGGCTTTAAAGGCAGGAGTCTCTAAGCAGGTTGCTA
ATTTTACTTTTCCTAGATAAAATAATTCTCTCTCCCAAAATGAAATACAGGAAGTGGACCAAATTGTGTCAGCCTGAAAGAAGTGATTGAGTTTGCGGAA
GCTGTCCTGAAGTCGAGGTTCTGGAAGATGGGTGGGGTGGGGGGAAGCGAATGTGAAGTGCCATTGCATTTGTCTCCATTTCTGTCCCAGTTACATCAAG
GCTGGGAGGAGGTCTTTCCACTGGTTTTCCGGGCTGTTTGTGTACTACACAGCCTGTGTACCTGGCAAGRCACGCTCTGCTCTGCCCTGMCTTCYGATGA
GCTGACTAACACCTTATAGATGARGTTCCCTTAGAACCAAAGATGCCCCATGAAACTCCCTAGGATGAATGTTGGAAGTCCTTCCAACTGGGATTCCCAG
CCGGAAAGGAAACAGTTCATCTGACTACAGGGTTTAGGTTTACATGTACTTTAAAAAAAAAAATTAATAAAGTTTATTTTTACAGTAATTTTAAGTTCAC
AGCAAAACTGAGTGGGAAGTGTAGAGTTTCATATACTCCCTGTCCTCACACATGCACAGCCTCCTCYAGCTATGCACATTTTCAATGAAACTACATGTTC
ATTGAAAATGATCTTTTGGGTGGTTGATGTTCGATTTTGGCTCTGTGTTGGGCCTGCCCAGTGAGGTCCTTTTGACTCCCTAAGGRACCCTGTTTTGGGT
TTCTTTTGAGGTTGAAGATATTTCAGACTCTTTCCCCCTCAACTTCCATAGGAACCAAACTCTCTTTMTTCCTCCCGTTTGGTTGGAAAGTTATTTTGCC
TCACTGCGTGATTTTTCTACTGCACCAAYTCCCCTTTCAAACGTTATTCCACAACATACTAAATTAATGTATACTGTGTTCTTTGGGTAATGGGGAGGGG
AGCCTGTCTCACAGCACGCATTTGTTCAGCTCTGTGTTGAAAGAGCACTGCCCGCCGCGTGAAGGACATCTGCTCACAAGTGAGCAATTGTGCTTCTGAT
TTGGGGCAGCACCTTTGCTTGAACGCTGGCTCCAGATGAAAGAACAGATTGCCGCGGAGCCGCTTTTCCAAGGATCCCTCTCCCCAGCATGGGGCTTCAT
AYATTATTGAGAGCAAACCTACTTTCCACCGCCACTCCTGGATGCACTTATTTTGCGAGCCTTATTCAGAATGTCAGCATGGATCACTTGGCRACAAAGG
CCTAAAGGGCAAGCCAGGAAGCTTCCATGGATACGTTATTTATGGTGTTTAATTATTATTGTACAGATTTATTAAATGACTCTGTTACCTAGGAGTCCAT
GTAGTTGCTGAAAAGAGTTTGCTAACTTTGAATCGTAGATGTTTTATCTGAAAACAAAATTTCCTTGTGAATGCTGTTACCATATTCCTGGTGTCTATGT
GAGGGGGTGTGTGGTGGTATGCCGGTAAGTGTTGAACAACCTGCTCTGTTGGCGGGARCTAGGGGAAACAAACCCTGTTTTGTAGTATTTGCTGATTACT
GTGGTGTAAATACTCACACCTTGGCTGATTTCAAGTTGCAGCTTGGAACTTGGAGTTRGAAAGAGATGYGTAGTCCCATACCATTTTATGTATGTAAAGT
ATTTGCACTATGCCGACTAATAGACATAAATAACCTCATGAGCATAGATAATAGTCACATCTACTAAGATTATTCAGAAGTATTGAGCTTTGAGTATGTT
TTACCTTTTTAATATAGCTTATTGAATCATACATTTATCTACTTTAATACTTAATAATGAGTGTGCCCAACAACTAGGTCTTAAAGTTCCTGATAGTTTA
GCAGTGTGCTCTCTTAAGCCAGTCGGACCTGGTTGTTGTACACTACTGGGTGTGTTTAATTGACTTCCAGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTG
TTTTGAAACAGTCTCACTCTGTCGCCCAGGCTGGAGTGTAGTGGTGTGATCTCTGCTCACTGCAGCCTCTGCCTCCTGGGTTTAAGGAATTCTCTGCCTT
AGCCTCCCGCGTAGCTGGGATTACAGGTGCATGCCACCATGCCCAGCTGATTTTTGTATTTTCAGTTGAGATAAGSGTTTACTGTCTTGGCCAGGCTGGT
CTTGAACTCCTGACTTCGTGATCCACTCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCCCCCGACCATTGTCTGTCAGGTTTAAA
TTGCACCTTGGGTTCGGGTGAAGTTGATGATCTATTCCTAATGCAGGCTCATTCCTAACAGGGCATCCCTGCACAATTTTCCGCTGGGGTGTGATGAGCT
GCTTCGCATCCTGCTAAGTGTCCTCGACAGCGAGCAGACACATGTACCCTGCTTGGTACATGCCAGATGATTCTGTTGTAGTGATATTAAGGACAACAGT
ATTTTGCCAGAAGCTATAACGAGATGATTCTATAACAACAGCATGGTGACATCAGACTATGTTTTGCAATTTTCTTTAATATTTATGCTGGATAAATAAT
TTATCTTTTTTCTCAGTTTTTTTTCCCTTTTCTTTTTTTTTCTCCCCATCTTGAACATGTTGCTGTAGACAGGTGCTAGGTTTCCCTGAATGACTAAAGC
AGAGATTTGGTTATTTTCYTCCCAGAAAAAGTAGATGCATCAGCAGAGTTGAGCCCCTGGGCATTATTTCCCCAATTCCGTATCCCATCTACTAATACAA
ACTAATGAGATCTATTAAGGATGAGTCCACAAGTTTGAAGGGAGTCTCTTAYTAATGTTCCGTCTTTGCATGGTGTTACAACAGCGGGACCATTTTACAC
TGAGGGTTTGCGAGAGGCATGGCTCCCCTGTTATGTATTTGGGACTTACTGCAGATGCTTCCTCTGGTTCAGGGTGTTGAGGCTTCGTGCTGTTAATATT
GGAAGGTGGGTCRTTTGTACTGGGCATCTGTCCTGTATCTTGGAGATGTTTAGTAACATCCCTGRCCTCTAGCCATTAGATACCATCTCTCCCAGTAGGG
ATAATAAAAACATGTCTCCAGATGTTGGCAAATGTCTGGCCTTCTGGGGAGTAAAATGGCCCCTGGTTGGAAACTAGTGTTCCAGAGCTACATTCTTAGC
TGCTTACTGCATCATTGTTTTTAGCCCTCCTTTTCTCTGGCTTCCAGGAACCACCAATCCCCCAACACTAGGATAGGGCATAAGGCAACCTTATGTCACC
AAATTAATGTCCGCCTAGGCAAGCTGGACTGCAGAAAGAAAAGCAGTATTTCTACCCTAGGATCATTATCCCACCTTCCCCAAGCTTCGAAAGAGGTACA
GGAGTCCTCAGAAATGGGGCTTCTAAAATAAGTGGAACTGGGACCTCTTCTCTCTCAGGCTGTTACTTGTTGTGGTTCCAGCCTATTTTCTGAGCTGTGG
AGCAGGGAGRGATCTCACAGGAAACTTGGTAATGTAGATTTTGGAGGACTTGAAAGGTTCCTGCTACCTTTGGCTGGGGATGGAGGGAACATGGAAGATG
GGTCTTTGTTTAGAGGAAGCTCTTYATCCTGGTACSCTRGAAGTTGGCATAGTCTTAGCAGTTAGTCCAGATGTGAATTTCAGGATTATTCTGTGARTCT
TCCAAGTCCTGTCTCAGCAGTGAAATAGGCTCAGTGTAGCTTATGTCTAGGTGGCTGAGTTCATTTTCTAGTCTAGGTAAAGGGCACCTCCTGTAATTGA
ATTGTGTAAAACCTGCACAGTGGTACACCTGAGCCCTTTTTTAGGACCCAAGAGTGCTGAGATTGGCTCTTCCTGAGATTCCCTCTTTAAGGATAAGACT
TTCTGATTTTTCAACTGGATTTACCATTGTGGCATCTGCACATGAGCAGACTGACTGCTTTTTGGCCCTACCTGGAGCCTGRGTCCTCAGGTAGCTGACC
CGAGAGACCGTGGAGCTGCTTGTGATATACAATGTCAGTGCTCTGAGCTCATTAGGCGTCATCTGAGACAGTGGCTGTAGGGGAGGGGAGGTAGGCTCTG
AGTCAAGCAGACCTGGAATTTTCTTYATGGGCCATTAGGAACTGTGTGACGCTGGGGCATCTGACTTCACCTTTCTGAGTCTTAGTTTCCTTACCTGTTG
AATAGGTCTAATGATATCATTATGGCAGATCAGTGGGACGATTGAGTCAAATAACATGCCCAATGCCTGTTTCTCAGAGTAGGCTTTCAGTGGGCCACAT
CTGTTGTCACTATTATTTTGTTCTTTCTGCCATTTGGGATGTGCTTTCTGATAATGGCACTAGGCTGCCTTGTTGCCTCCTGCATGTAGAACACAGAACT
TCGCAGTCTCTGCAGAGTATCTAAATCCTGCTCTGGGCCAGCCCTTTCAGAAACACTTCAGGAGATCAATAGTTATCTGCTTACCTTTCTAGCTGAGATG
AGATTTTATGCTTGTTACTAGCAGATCAATAGTGAAAGCAGGTTCTGTTAAGTTTTTTATAGGAGTCATTAATCTCCCTCAGCCTCAGTTTCCCTATCTG
TGAAGTGAGTCTAACCAGGATGATAATGAAGAGTTAGGTCAAGTGAGRTTGGCAGCCAGACACCCACCACCAGCTGTAACATAAGAACAGATGTTCTCTC
CAGACCCCCAGGTCAGCTGAGGTCGCTCTGCTTGGAATAATGAACTGCCACATTGAGGATTTTTTTCCTCTCTTTACTTGGCCAAATATCCGAGTGTGGA
AGCTCTCACTGTGAACCTGCTAACATACATTTCAGTGTCTACAAAATGTCTTTTGAGAGAAAACAGCAGGGACATTYGTGAGCTCTTTTTTTTTTCTAAC
CACTTTCCCAGTGAGACTTCAGTTTTCATTCTCCCCTTAGCAGCTTTCAAATATGTACGTAACACAAATGTTACATGTTTGAGMATTTAAACTGAATTTG
GACAGGGCTTCTATTTCCAGAACCTTCTAACTCTATTTCTTTGTGACCTGATAGTCTTGCTCTCCAGGGTAAAAGAAGAGGATGGAAATGGCTGTGGGGC
GCCTGAGGTGGGCCCTGGCATGATGGCAAGTTGCCGTTCTGGGTTCACTGGGATGGCTCAAGGGGAGTTTGGAAACCCTCCTAACATGTCATCTGAAATC
TGGGACCACAGTTCCGGCTGGAACACTTGTCACTAAAGCTGCTGATAAGCAAAGGGTGTATCACTGGTATGGGTAACWGTTGTGGGAGGAGGAGGGGTCT
GACAGATAGCCGGATGATTTTAATGTTTATATTCCACTGGGGTAAGCTCTAACAAAGACCCATCATTTCCCAGATAACCAATTCTTTTAAAAGAACATCT
GTTGAAACTGGCAATTTACATTCTTCTTAAAATACGGAGCGACATAATTAACCCTCTGGGGAGACTAATATTAGTTTATTAGAGACAATTTCTAGTTCTG
TTTATTTTTAACACTAAAYGATTTGTTCAGATTGGGGAAAAAAWTTTTTTTTTTTTTTTTGGTTGTGGTGGCGTTGGCTTTTACTTGGGGTTGACCTTTC
CTTATCAAGGACRTACAAGGTGAATAGCTGGGTGATAATATATGGTCCCATGATCATCAACCAAGCACCAACGGAAGCCTTTTGGAAGTGCACAGTATTG
TTTAACACACAAATAACTCAGCGTTTAGTAACTTTCAGGTACAATCAGTCTATTTTAAAGGGACCTCATGTGTTATTCATGTATGTGCACATGTGTTTAT
GCAGTTACCTTTGTCTTCATTGATTTGGACTCCTTTGGTGCTCGTAATTGGTGAAATTCTCTTGTGATCATTGTTGTAGTTCCCGCAAATCTATTTACGG
TTTTCACAAGGAGGTCACGAACATGCGTTGTTTTCAATGCTGGGCTAGTTTCAGACTTCTGGCTTGTTGTGGGAYGGAGGAGAAAGAAGACAGGGCATTT
TGATGTGGCCCAGAGACCAAATGAAACAAACGATCCTCTGATTGCTCAGATGTCCTCTTTGACTTGGAAAGCACCCACGTGAATGTTGAACCATTTGGCC
CTCAGTTCTCCGTCCTGCAGCAAACTGCATTGACTCCTGTTTTCTACACAGTGGTCTTCAGCTACACCTTACCAAGCACCCCTTACCCAGCAAACGTGGC
TTCTCTTCCCCAGGCAGAGCAGTYCGTTACTTAGACTAGGAAATGGCTCCGAGAAGCTCACCCATCACCATTTGCTCTACTGCAAAACAGGACTCATTAG
CAGGAGCTCATAAAATGAAACTGGCAGTGAGCTCATATGGAAGARGCATCACGGGCAACTCGGCTTGGCTCACCAGCCCCTGAGCTGCCCCCGAGTGACC
GCTCCAGCCTTCTTTCCTTCCACCTCTCCCTCTTGGCCAACTTCATGCTTCAGCCAAAGTGAACTGAGCTCACCAGGCTGAGTCATCTGTGCCAGCTGTG
CCCTCTCCCCGAGGCTGCCTGCCATGCTCGTGCTTTCTTGTCTATTGGCAAAAGGCTCTCCATCCTTCAAAATCCAGCTCTTGGCCTCATATCTTCCACA
AAGCCTTCCCAGACCTTTACTCACCTGGGCCATTAATCACCTTCCCTCTCAGTYAGCTSCTACACCATGAGTGCTTTTGTATSGTGACTGTCTGGTTACA
AGGTCATCTTTTCCCCTGGATGAGACGCCCCTTGGGGAAAGGACCAAGTTTTATTYCCTGTTTAACCTTGGCCTGACAACCTAATAGGTGCTCAGTGAAC
AGTTCTTGAATTTAATTCTCTCCCTTTCCCCACACTGATGKGTATTTAAGCTCCAGTGGTACTCGATGTGTTGTTTTCTTTGTTCTTTTTTTTGAGACAG
GGTTTTGCTGTCACCCAGGCTGGAGTGCAGTGGCAGAGTCTCTGTGCACTGCAGCCTCCGCCTYCCAGGTTCAAGTGATCCTCCTACCTCAGCCTCCTGA
GTAGCTGGGACTACAGTTGTGCGCTACCACACCTGGCTACCGTGTCTTGTTTTCAATGCAGTATATAAGAGGGTGCATTGTGTACCTGTGGGAGTGATTA
CAGAATCCCATCAAAATGGGAATCACTGACTGAAAACTGGAGTTTATTTGTAAGCTGGGAGATGGGAGCTGAATTTGAAACCCCAGGAGAAAATAGCATA
TAAAGTCATTTTAAATAACTATCATTTGCAGAGGAGGGGGGCACAGATGCCTCCAGTGGCCCAAGACTCCCCTTTACACATTGCCGTTCCCTTGCCTTCT
ACTCCTCTTTTCATTACCCTTATCAAGATTCTGCAGCCCAGGGTGCTGCTTGTTGATGGACATCTTCACCTGACTTTCTCCCTGGTCCAGGTGCATTTTA
AGCATGGAAGGTGACACTTGCCATTCTCAATGGACAAAGGGAGTGGGGAGTGTGGGGGTGTGCTTTGGRGTTAGTCTCTGGGTTTTCGAAACTTAGCATT
CTCAGATTCCCAGCCAACTGGTTTCACATGACAAGTAAATGAGCAACCTGGAAGATGAGTGGCGTTTCCACACACAGGGAAGCAGATAGTTCCATTASGT
GACAGTGTGTGCACAGTTTATGGAGGATGAAGCGGAAAACCTGAGCCACAAKGCAGTAKAGGTTGGACGAGACACTCATTCCGAAGGSGGGTGTGTATGT
GCAAACTGTATAATTTTTTTCTTCTTTTCTATCTGCTAGCAAAGTGGRTAAGTTGACCCATGACATSGTCCACTGGAGGGACCACATTTGTGACTCTAGC
AATTAAGCYTCCCTTCTCATCTGTGGATAAAACTGACCTCCCAGTGTGCTGGAGTCAAACATATTCAGCATCCAATCCACATTGGACTGTTTGCATGTAA
CGTACAGAACACTCATTCATCTACATCTAGGACCATAACAGCGAGCAGGAGACAGTCCCTGACCCTGGGGACTAAGCCCAGGACCTGCCACTAGGAGATA
TTCATGGAATCACTGTTTCTCCTCCTTTTCAAAGAAGACTGAATTTATGATGAAACTTTCTTCGTATATTGGCTTTGAGAAATTCTGTTTTGGTGCTTAT
GTGCTCTGGATAATTCTCAATGACTTTCAAAGTTATGATTCAGGGAGTAATTGGTTCTGAGAGAATATGCATAATCACATCAAGGTGTGTTTGTTTTCCA
CCATTTGTAGCCTTTTGACAAATTTCTGGGGGCCTCATGCCTGCTAGGCCGAATACTTGTGTCCCTTGAGCCTGGAGACGGCAAGTACCCAGTGTGCATG
CATGCACTCCCAAAGTCCTTTATTCACGACAGACATCACTAATCAATCAGTCATGCTTAGCATACTACTCCAAGTAGTCATTACTAATCATCTCTAGTCA
GCATGGGAGATACTCTTTACCATCCCGGTAAAGTGACGTTTTGATGAAAACAGCATGGATCTTCCTGCAGAGAACAGACTAGCCCCCTGTACAGCACACA
ACTCGGGGAATTTTAGGTYTGGTGATTTACTGCTGTTGGAGCCTGGCCTTCTTCCTGGGAGAAGGCTSGAAAAACTTCAWGTCAGTTACTTAATGGAATA
ATACATGTTTCCTGCTTCCATTGTCTTCCTGGACCTGACACTCACTCTTTAACCATAAGCAGAAGACACATACAMAAATGTCCTATGTTAAGAATCTTTA
TTTAAGACAGGTGGCTAGCATTATTTGGGTCCAGAAGCTTCCCTGGAAAGAAAGGATTCACTGCAAGATCGACAGGCTTACCCAGTTCATTTAGGCGTGG
CTCGATTAATGCACACAAAGCTTTGGGAACATATCAGTCACATCAAGCTAGGTCCACCTGTGTGAGTAAGTAACGTGTTTATTTATGATTTTCTTTAACA
GCACAGAAGAGCAATTGCATTTGGTCATTCTAGTATCAACTGAGTTCTTTATAAAATATCTTTGGGGTGTTTAAGGAGAATTATTCTTTTTACAAGTTCT
GATTAATGACACCGCAAAAATGAGAATAATGAGCTAATATGTATCTAGTAATTGCTATGCACTTATATGTATAGAAGCGTATAATCCACAGCACTCCTTC
TGAATACGTTACGTAAATGGAACCCTCGCAACAGTCTTATCCCCATTGTAGAGATGAGAAAACTGAGGCATACAGAAGGGATGGAACTAGGCCAAGAGCA
TAGAGGTGGAATTGTTGTGTGAGCCTGTAGAGTCCGTGTTCTTACCCACTGCATGATGTCTGATCATCGTCAATTTTCTTTCCATTTGGACAGATGAATG
GTAACACTTCCCTACTAGGTAGAGCAATGATTCCAGAAGTTTATAATAATTGGAAAGTGTATTAGTCGATTCTCACACTGCTATAAAGACATTCCTGAGA
CTGGGCAATTTATAAAGAAGGAAGGTTTAGTTGGCTCGTGGTTCTGCAGACTGTATAGGCTTCTGCCTCTCGGGAGGCCTCAGGAAACTTACAGTTATGG
CAGAAGGTGAAGGGGAAGCAGGTAATGTCTTCACATGGCTGGCASTGGAGGAAGAGAGAAAGTAGGGAGGTGSTAGATGCTTTTAAACAAACAGATCTCA
GGAGAACTCTTTCACAAGACAGCACTAGGGGGATGGTGATTAGAAAGCACCTCATGATCCCGTCTASTTCCTGCAGAGAACAGAYTAGCCCCCTATGCAG
CACACACCTTTGTGAGGTCCCTYCTCCAACACAGGGATTACAATTCAACCTGAGACGTGGGTGGGGACACAGAGCCAAACCACACTGGAAGGTAAAAAAG
TTGGCAACCAGAGGCTTAGAGGAGGTTCAAATCTCAAAGTGATGTCTTTCCTTTTGCATTTTGGATGGTTTAATAAATAAGATTGATACAAACACAAAGC
ATTAAGCAAACAAAAGGAAATAAAAACGGCAACAAATAAAACTTCTGTGCTTTTTGAAATTYTGTTTTTGGCAGGCAACATTCCAAAGATCTTTTTCATT
TAAAGTCCAGGAGTCTTCTGTGTGAACCCCACACAGGTACCTTGGAAAGACTGCATCTCCTGGATTTTGCATGGTTCTGGCTTAATGGACAACATATCAG
TCATTTTTTGAGGAAAATAAATTTAAGGCTTGGTYATCGGTCCTTGAGTCAGCACATTGAGCGTTTTGTCAATTAGCTCCTCCCCCMATCTKTATGGTAT
GGCTTTTCCTGTAATTACAGTCAAGATCCTATAGCCGGAGGAAGGCCTGTCAATTGAGTAAGAGGCTGATGTTCATCGCACAGTGACAGCCCATTCGGAG
GGTTTTAGGCCTGTCCTTAGAGAGGCTTGTTATTTCCTCTTTCGGTACTTTGTTGCAACCTAGTTCACCGCCATCAGATGAATGGAGGTTTCTTATGCTG
TGGCGAAACCCAGGGGGTCAAGCCCCTCGGACATGACGTACTGCAAAGTGAGGATGTTTCATTGATTTGTATTTTTAAAATTAAAAATAATTATTTAAGC
TGCATCTGTGTGCTTATAAGAAAAGATATAGAAAGATTAGTAGTAGACTGTTGTGTTCTTTTTTTTTTTTTTTTTTTTTTTGAGATAGACTCTTGCCTGT
CGCCCAGGCTGCAGTGCGGTGGCATGATCTCGGCTCACTGCAACTTTTGCCTCCTAGATTCAAGCGATTGTCCTGCCTCAGCCTTCTGAGTAGCTGGGAT
TACAGGCGCCCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTATATACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCTTGACCTCAGGT
GATCTGCCCTCCTTGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCACCTGGCCAGTAGTAGACTTTTGATAGGGTTTTTTTTTCTCAAGGT
GTAGGTTTGGCTAGGAAGTCATAGAAAATGCTCTTTTTTTTTTTTTGGAGATGGAGTCTCACTTTGTCACCTAGGCTGGAGTGCAGTGGTGTGATCTCAG
CTCACTGCAACCTCCATCTCCTGGGTTCAAGTGACTCTCTTGCCTCAACCTCCCGAGTAGCTGGGACTACAGGCCAACGCCACGGCACCTGGCTAATTTT
TGTATTTTTAGTAGAGCCGGGGTTTCACCATGTTGGCCAGGGTGGTCTTGAACTCCTGACCTCAAATGATTCCCTGCCTCCACCTCCCAAAGTGCTGGGA
TTATAGGTGTGGGCCACTGTGCCCGGCCAGGAAGATGGTCATGTTTTACTTTGAAGCAATCTGTGCTTGGTTTATTTTTTTCAGTGAGTGTGGATTACGT
TTATAATTTTCAGTTACTAGTTAGGTAAAGAATCAAAATTAATAAACACATTTATAGTTCTCAGAGATTCCTTGAGAGAGGAACATCTTTAAATGGATAA
CCACAGTCTTCTAAACACCTGAAAGGGTGTCTTTTGCTGAAYTATGGAGTTTTAGTTTTGCTTTAGAATTTTTGGATGATTAGACTTGTACTTCTTTTAG
GCTATTTTTCCACCTGGTACTATTTGGCTTTACTGAMTGCCCTCATTCCCCATACACCACCTTGTTTTGTTCAGATTCCCCTAARTCTTCATTCTCGTCC
CACCTCCCCATCACTCCTGACTACTTGAAACACGACTTCTGTCCTCAGAAGGCAGCAGTGTTCCCTCCTCCCGTTCATTTTTCATTTTCCCGTTGCTTAA
AAAAATCAAGCATATGTTTGCAGTCATCACTGATGTTCTGCCTCCTCTTCTAAAGTTATAGATGAGTGCCAAGTTGGCAGAGCATGTAGAAAGATCACTG
CAGATGTCCTTGTCGTGTTGACCTTATTGGAGAATTTCCTATCTGTGATGACCTGTAAATGGAATTTAAGGGAGGAATCAMACGTGTTAGCACGGGGTTG
GCATTGCGTGGCTGTTTTCAATTAACTTGACCACTATSATAACATCAAAGGTGTGTGTACCATTCTATGACCATTGAATCTCCATGGACATGTTTTGGGA
AATGGATTTGTCCCATTACACTGCTTTCTTTAGTGCATAAGATCTTGAAGGGAGGGATGCATTCTATGCACCCCAAGTTTCTGGTTTACTCGTGGTTTCA
GGWGTCCCTTTAGACAACATCACTGACAACTCACTATGTAAAACCAAACAAATTATTAGCTTTCTTACTGTGTGTTTGCATTTGCTGTGCCCAGGGAAAT
GGGAAGTGCATTGAGGAAGAGGCCCCAAGACAWGGAGAAGTCACTCCAACTTTCCGGRAACMCCTTTTGCTGTGCCATGTGCATGGAAGGAGAGGAATGA
ATGACTGTTGAAGCCAGATGGCCTTGCTCATTGATTCTCTCCTTTCCCGCCCTCTCAAGCCATCCAGAAGGAGAATGAAATGCTCAAATCAAGGGAGTTA
ACTATGGCMAAGATGTTAGTAATGGGAAACTTTGGAGGAAGGCAAAGTCAGAAATTATTCTGCAGGGAGATTTGGGGATGTTGGATGCTAAGGCCCAAGC
CGTCTATTGTATGCCTTTTGCTTTGGCATAAAACAACAGATGACCTTCTGTTAGGTGTATSTCTGCTCATGCTTGAGAGTGGTGGTGTTTGGAAAGACTC
AATAGCATATGCACATGAGGAAGTTGACCAAATGATTCCACAGCRCATACTCATTTTTTGCTCTGATTCTAGCTTTTCCTCCAATTTTATTCAGAATTTG
TTCTTTTCTTACCTCACACCATATAGAAAAATCAACTCAAAGTGGATTGGAGACTTAAACATAAGATCTGACAGTGTAAAATTAGTAGAAGAAAACAAGG
AGGAAAGCTCCATGACACTGGTCTGCACAATGAGTGTTTTTGTATATGAACCGAAAAACAGGTAGCAAAARCAAAAATAGACAACTGGGATTACAACAAT
CTAAAAAAYTTCTKTACAGAAAGGAAGCAATGAACAGAGTGAAGCAGCATCCTACAGAAAGAGAGAGAATATTTGCAAACCACACATGTGATAAGGGATT
AATATTCAAAATGTACACACAGCGTAAATGCAAGAAAAGAATCTGATGTAAAAATGGCCCTTCCAACATCTAGCATTATTGTGTGTTGAATAAATACTTG
TTCGATTAGGTCTAATCACTCTTCATGATTGGATTTCCAAAATGTGGACTCTCAGCAGKACATTACAGGGACAGTGGTTGGGTCTGGAGATGTCACCCTT
AGCTGTTTTTCACAATGAGAGGTTGTTTTATCATAAATAAATCAATAAATGGCAGATTATACACCGGAGTTACTGAGAAATATAAAAAAAAAAAAAGCCC
ACATTTTAAAGGGAATTTGGTATTTTTAACAAAGCATCAGGGGGCCGGGAGCAGTAGCTCACGCCTGTAATGCCAGCACTTTGGGAGGCCGAGGYGGGCG
GATCACAAGATCGGGAGATCGAGACCATYCTGGCTAACATGGTGAAATGCTGTCTCTACTAAAAATACAAAAAGAAATTAGCTGTGCGTGGTGGCGGGCG
CCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACACGGGAGGTGGAGCTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCC
TGGGCAACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAGAAAAGAAAAAAAAGCATCAGGGTTGTCACCATGAAGCAGGAGGAGAAAAATAATGC
TGTTAGACTTCTTAAAGCGTATTTTGTGGTTTATTTTATTGCTCTGTAAATTGCAGGCTGTAATTCATGGGGCTCAGGCCAGTGATTTCACAGTTGATAG
ACCAGGCACATCTCTTCCCACCCCTTCCCCACCTAGGGGCAAGGTTTTCAGGAAGAGCCCCTTTTCTAAACCACACATGGCCTGCTCACAAATCTTATGA
TAAAACTCTACCCACTGAGAAGCACAAGGTGTGAGGCTATTGATGAGGAGTTGAAGGTGACAGAGACTGAGAAAGGGCTGCACACCTTTGGCCTAAAGGG
TAATGAGCAACACACAAGGATTGGGAGATGTTCATGGCAAGAAAAATTCASAAGGGACATTGTTGTTTCACTAATTCTGTAAAGGAGAGCAGCGGCATTT
ACTTAKGCCGATTCCCCATTCTCTCTTTCTGTTTTTAAACAGAGACAGATCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATGGCATGATCATA
GTTCACTATAATCTCGAACTCCTGGTTTCAAGTARTCTTCCTGCCTTGGSCTCCCAAAATGCTAGGAATACAGGCAGGAGCCACTGTTACTGGTCTGTTT
TTTTCCTTAAATACATAGGCAACTTCCTCGATTGTCTCTCCTTTATTGGCATTGAGAGATAAGCACAATAATGATTGTTAAGATGGAATATTATGAAGGC
TCAAGGAATACTTCTGAAGGCTTTTTGTCTATGAAGTACACGAGGTTTCTTAATAGTTTGGCCTCTGGCAAAAATGGTTTTATTGTAGTTTCATCCTTGT
TGAGTCAATAATTAACTGAGTTTGATTAAAGCTGAATTTTCCTAAGTATGAAAACCATGTGGGYCCTTCTCTTTCCTCGTGATGCACGGTGATAGTGCGT
ATCTAACACTTGAAGGTGTCCACGCTGGCCCTAGCTCAGTGAGATGGCTTTGCTTTGSGGGGGTGAGGGGGCGGAGGTGGTGGAAAGGCAGCAAGCTACG
ATGTTCTTATGTGTGTGGCCTTGCTTCTGGTGGTGGGGTGGCACACATGCTCTGTAGTCTTTCTGGATGGGTTTGGCCCACGGGAGACCCCCTGGCTGTC
CACCAGCCCCTTTGTGATAGTCTCATAGTCTTATTTGTCTTTTGGCTTGTATCCCACCTGTTCACTTTTTACCATAGCTAACCTTTCTMAGTGGTCAGGT
GGGACTCATGGAGATTTTCCGTTCTTTGGMRACTAGCAGCGACTGCAGATTACTCATCAGCTGTCTCCTTGAGTCCACAATGCCGGGCGGTGGAYGGGCT
TCCTGCCTCCTGGCCCAGGGCCCCTTTGCCGGCTCTTAGTGTAGAGCACTAGTTGTACCATCTGGTAGTTGTTTGTGCCTGCGACTCTCTTCCCTATTAG
GCTTTGACTCCTTAAGGATAAGAACCATGTCTTATTTTTTTTAATCTGTAGCTCCAGTATCCAGCCCAGGACTTGACACCAGCCTCTGTCAAATACATCC
GTGGAACGCATTTGTAAGAAATCGAGGCCAAGGCACTGGAAGTCCCATTGTCTCTGGATGCTGAGACCTTGAATTTCATGCCATGGACCCCTCCCTTACA
TTCCGTCTTTAATGTGCTATAAATAGACATTCCTGGCCTTGCCTAAATAGGATTAAGTAGTACCAAATGGTCCTTACCGTTCTGAGGCCTCACTGAGACT
CATTTTGAATCTTTAAAGAAAGCAGTAGAGGGATGGAGAAGAAGTGGGTCAAAACCTGGTTTCTGCCTGTGGGAAAATACAAAACAACACAACAGCAAAG
CAGACTAGCATGGTTCAAAGCACACATTGAGGTTTTTGGTGTGCCATTCTAATGCATGAGCTCATTTTGAGCCAAGGATAGCTTTTTGGTGTAGAATTTT
GCCAGTCCTACGGTCAATGCAGTACTAATTGTGTGTGTGACTTTGTGCAGTGGGGAAAGGTGGGGCTTTAAAATAAAACAGAAGGTATGAATTGCTTGGC
ATTTGCTGTGGTTCCTAAGTCTCCATTCCGCTTGCCAAGATTAAATTGAATTATTCCCGCTGCCATTCAGTTTTACTCTGCACAAAATACAGCCAACATT
TTTGCATTTCTTTCTYCCTTCCTCCTTTTCTTCTTTCTTTCYTTCCTTCCTTCCTTTYTCCCTTCATCTATCTTTGTTCCGCTTTTGTTTGTTTTTTTTT
AGATCGCTGCATGCTGCCGCGTTGGGTTAACCATGGTAGCATTTTACCATGAGAAGCCATAGCAAGATGTGCCAGGTGCATGCTGCTGGAACACCTGGCT
GAGGCTCCAACAGCATTTTCCTATGACTGAGGGTAGGGTAGGTAGATGACTCATTACAATTTATAAAATGGGGGGCTTAGCTTGGGTATCATCGTGGTTA
TTCCAAGCAGTCTTCCAGCTGGACTAGCTTTTCGGGAACACGTGTGTGTTTGTGCTGGAAGCCCCAGTAATATCATTTAATTCGAAAGCTTTTTTCTATG
ATGAATTATTCAGGCAGTGTTTACCAAAATTGTCATTGATCAGTACAGACCCAGAGAGCATGTACAACAGCGCCTGTGCTGGGCCTGCTAGGAGTCGATA
TTTTCTGGCTCAAAGAAGTTCCAAAAGAATTCAAAGCCAGTGTGTCTCTTTCTCTGGAMGGCCAAGTGATGCAGGTACCACGCTTAGGTCTGCTGGTGTT
TAGCTTGACTTAAAACCCAGCCAGGGAAATATGTTTCACTTTGCTGGGGTGCAGGTGGAGGAGGCTATTATTCTTAGGCATTTAACAGTGAAGAATGTTG
GGCAGGGCAGAGGGTCAGCTGAATGGCAGGGATTCCAGGTCTCAGTTAATGCCCACAAATTTCTGAACTTTGAACATAAATACCCTCACTGCAATACATG
TTTTTCTTTCTCTCTCTTTCTTTCTTTCTCTTTTTTTTTYTTTTTTTTTTTTTGAAAAACTTTTTTGGAGCAGCACCTGCATGTTGTAAAAACACAAAAT
AAAAAAAAAATAAATAAAAGCAGACCCCTTGGTTCAGATATCTTTGTTTGTGTAAATGTTTTGGCATTCTTTRTGAAAATCTTCAGATTTTCAAGAGCTT
AAGATGACCTCCTCTAGCCGGCTGCAGCAGTGTCTAGGTATCTGTGAATGTGTAAGAAATTGAGACAGCCTGCAAAATAGCTCACCCAGCTTTTCTTTAA
AGTTCCAACCTTTTTGCTGSCTCTCTTTCAAACTGTACTGCTCACTTTGGGCTGTACGTTAGAACCACCTGAGAAGTTCTTTTTCTTTCTTTTTTTTTTT
TGAGRTGGAGTCTTCCTCTGTCACCCAGGCTGGAGTGCAGTGGTGGGATCTTGGCTCACTGCAACCTCTGTCTCCTGGCTTCAYGCCATTCTCCTGCCTC
AGCCTTCCGAGTAACTAGGATTACAGGCATCCGCCACCATGCTTGGGTAATTTTTGTACTTTTATTAGAGACAGAGTTTCACCATGTTGGCCAGGCTGGT
CTCGAACTCCTGACCTGAAGTGATCCACCCACGTCAGCCTCCCAAACTGCTGGAATCTGAGAAGTTACGTGAAACTAGCGATGCCCTGGGCTAATGAAAT
CAGGCTCCATGGTGGGGAAGGATGTTGCGGTGGGGTTGGGGTGGCAATGAAAGGTGAAAACCACTGTGGTCCCACCTGCCCATCGTCAGATTTCGGTTCC
TCTCAGAGTYAACGTAGAAGGTTTCTGGGGGCATGGACCTGAGTCTTATCCCCTTTGCAAAAGTAAGAATTGTATCGTAGCCTGACTCAGGGTTTTAGCC
AACTTCTCTGGATGCTAATGCTATTCTCTTCTTTATACTTGTCTTCCYTCCCAGGCACACATCCACTGGAGCTTTGCAGGGCCTATCTGCCCTTAGCCCT
CCAATATCCTTTTCATTTTCTTTAATAGTTTTATTGATATATAATGTGCCTACCATATAATTCATCTGCTTAAGGTGTACAATTCAATGGCTTTTAGTGT
ATTCAGAGTTTGCATCCACCATCACAATCAGTTTTAGAACATTTTCATTAACCCAAGAAAATGACCCCTTAGTCATCACCCCAAATACCTCCTCTCTCCA
GTTCCTGGCAACCACTAACCAATCTACTTGCTGTTTCTATGGATTTACCTATTCTGCGTACCTCATATAAATAGAGTGATATGTTAGTCGTCTCTTGTGT
CTGGTTTCTTCCTCTTAGCATCATGTTTTGAAAGTTTATCCCTGCGACAGCATCTACCAGTTCATCATTTCTTTTTGTGGCTAAGTAATACGCCATTGTA
TGGATATACCACATTTTGTGTATCCATTCATTAGTTCATGGATTTTGTGTCTATTATGAATAATGCTGCCATGAGCATCTGTGTTGTCCACAAGTTTCAG
CATGGACTTCTGTTTTCATTCCAATATCGTTTGATGACATGTCTTGGCAGTGATGTCTATGACACTGGGCAAGTGTCTTAAAATGTTGTGCATCAGAAAA
AAGTCATCATTGCCAAGGCCAGCAGATCTCGAAAAGGGGGCTGGGACACGTTGGTGATTTTTTTCATGCTCTACTTACAGTATGACTCGTAACTGTTAAT
GGCTGAGCTCCTCCTTAGGTGAAGAAGGAAGGCAATGGCGTTTTCTATTCTGGGCCTCCCTGCTTCCAGCGATAGCAAGGAGCGAAATGAGATGCTGTCT
AAGAAAGGAAGGTGCTGCGATCTTTGATTACTACACAGCYTCGGCAGTGTTTGTATGATTAATGAGTCCATGTTTCAGACGTTCCCATTTAATGTATTTG
AGCCTTCTAACAACATTGCCTTTCATATGTTGCTGACTGTTTTTGAGATTTATGAGGCCTAACTCGCAAGCGATGTGTGTCTGGATTAAGAGAACCTGAG
AATCTCTATTTATGTCTGACCCCAGGAAATTCCCTTTAAGCTGCTTGTCAGAGGTGCATGCTGAGAGCATGATGGGAAGATGGAGTCTTCCATCCACTGG
TAAAATCTGGAATCTGCTCTCATTTCATTTTCACTGAACTGAAAATAAGGTAACAGACCCTCAGGTCTACCTATAAGTACCTTCCAACTGTTCCACTTTT
GTAAATTTAGTTCARATAATACATATGCTGAAATTCCTATATCCCCCCCATACTCCAGATCTTCAKTGTGGAATTTAAATATAATTCCTTATTGTAAAAA
AAAAAAAWTTTTTTTTGATCAAGGTGATTTTGATAAACTAAATGCATCTTTAATTTTACTCACAGCAAAGCGATTCTTTATTTTCTCTCTAAAAGCATAA
TTGATGTGCCATGATCTTTGTCTTTGCATTTTTAAAACTGAAAGAACATTTCCACACCATTAGAAATAAGATTTCTTCTTAAAAATATTCACAAGGTGCA
AACACTTACATGTGTATATGCATGATTTCACCACCAGGGGGCATTGTGGTTTGACTGTCCAGTTAAAGAGCCTGTGTTCTATCAGTTTACCCAGAAACTA
GAAGGCCTGCGAGTATTTCTGATTCCTTCCAAGAAGGATTCATATCTGGAAGAGAACAGATGTCGACTCTTTTTCCTCTCTAGCAAACAGTAGTGTTGTC
AAATTTGCTAAACTTAGCCAGTTGAAGATTAACATGCAATATATAATATGCATGCGACTAAGTGTACAATAAATAGTAAATCACATTTTTATGCTTTCTC
TGAACTTGGAAGCTGCAAGTTATGTTTTTTTTATTCCCTGGGTGTGATGAAATAAATAACATTCAAATACATCTTAAAGATGTCAGTCAGGGGGAAAAAA
GTGCTTGGCAACTGTGTTTGATAGATTTCTTTTATGATTAATTCTCCTATTAAGTTTTAATGACTTCAAAGATACAAAGCTAGAAACTACAAAACTAGGC
ATGGTTAATAAATAACTGAAATACCAGGTGTATAGAAATGCATCTGTGGAAAAATGAAATCATRTATTCTCTAGGATATATTAGGAAATGGCTCTTTGGC
AAGTCTAGAGGGTAAAGTATCCCTGAAGGGGGAAAAGGTTTAAAAACAGTAAACTAAAGAAGATTGTTTTTCTGAAAGAAATTCCCAGGAGAAAGGTACT
TTCTGAGATTCACATATGTAGATTACATTGTTATGAACCAACATTTATAAGCAAGCTTGATCTCTCAGAATGCGTTTGTCTATCTCAGATTTTCAAGAAT
CCTCRTACAAATTGTCCAGGGTTTCCACCTCGCAGTTTTCTTCCAGGGTTGCTATGGCATGGAAAGTACATTGCTATTTTGTTATGTAAATGCTCAACAG
ACTGGCTCATTCCAGAAGTGGGCGTCGTGATGCCAGTGTCTTCGTAATACTATCTTTCTTTCCCCTTTAGCACCCAGAACTTATGAAATATGACTCGGTT
TATCCTGAACACATSTCTGTGCATCAGGGAGGATGGGAGAATTAATTCCAGTTTCTCAATTGCAAAAGTGAGGCTGGTCATGGGGCTTGGAACCACGCCA
CGGACGCATGAAGCCTCCCCGTTTACATGCCAAATCCAGAGCTTAKGCATCCRTGCTCAGGGCTCTCTGTGGTAGGCAACAGCTGGATTATTTACTTTCT
AGAATATCTCGAGTTCTTAATCTGAGCAGTTTCGAAACCAARCCCACATTAATTAATATAAATAATGACTGGGAAACGTTGCAGGACTCCCCGGAAAAGA
ATGTATAARTTGATGTGTTTTTGTATATGCTTATGTATATGCCTTTGTGCACGAAAGGAGATAAATGGTGTATTTCACACAGTTCCTTCTCCTCCTCTAA
GGGATATTATTGTTCCTGAATTTTTCTGAGCCGCCGAAGCACAATAGGGTTTAGAGCGTTCACACCAGGCAGCCCCCACTCTTCAGAACTTCAAATCTAA
AGATCTTTTAAATACACAGAACTTACTTTTGAAAGCTGTGGCCCATCCCAAATGAATTCTAATCCTCAGCCTCTAGAATGCCTGGAGTGAGAAAACAGAA
TATTGTTCTTTTCTGTTTATATTATTTCATACTGAGTTAAYACACTTGCCAAGACTCCGAGGCAGCTTCTGGCTTGACAATGCCTTCTTTAACTAGCCTA
GTTTCTAGAATAAAGTTCGGGTCCACCAGGCCCTCTGAGTGGGGCTCAGGACACTCTGAGATGGAAGAGACTGGAGAAAGCCAATCTGTTTCTCCCTGAA
AATCATCTTACTTTTTTAACGCTTCGTACCTAGATTTGGCCTGGGCAGCCCAGGGAGACTGTTCRAGCACTGGATACCTAGACTCTGCTGGGCTCTAGAG
AAGTGCTGGGCTACAGCGCCCAGTGCCCTACCTCTTGGGGCCAGCCAGCCTCACCAAAAAATCASGCTTCTGGCTTGCTCCAAACTCAGGAAGTTGCTGG
GAAGTCTGGCTAGCAACACCCTCATTCCCAGTCCTGGCCATGCCTCTCTGCTCTCCCTAGCACAGGGAGCATGCAGGCTTAAGGCTGGAAGAAACCCCAA
GCATTTGGCCAGGAAGAGGCAACTAGTTCCAGCTGGCCCACATACTACACTTTAAAAATTACCCAGATGATSTGATTCTGTAGAGAGAGAGTGGGTGGAG
AGGACTCCAGGGCCATGGAGGAAGATTCGGCCTTTCTCTCCCTAATCATGAGCAATGTGATTTGGAGAGAGAAGGACCCGGTTGGCTCTGCAAACCGCAT
TTCCTTGGCTGAACGCCAGAGGAGAGAAATGATCCGGCAAGAAGACACACCATTCCCCGTCAGCCCCTWCCCGWCCCTTGCACCCCTGGATCTTCTGCTG
AGTATCGGATTGGTCTGCGTCCAAGAGCTCCTCGCTTGGCCAGCAGGGGCTGCCTGGAGAAGGGGAGGACAGGCTTCGAGTTTTTTGGGTAGKGACTTCT
GTGGACGTGAAAAGACTGCACCAGAAATCGGAGGCAGCCCTCCAAACATAACTTGGCCTCTTCGTTCTCCCTGTGGACACACAGGCTGTGTTCTCCTGGC
CAAGAGTCCAAGCGTGTTTTTGGCGCGTGCTGACACTCTATATCGCTTTTGCTTCGGAAACGAATCTGGTCAGTGACTTAGCCACTCTATAAAAATGAAG
AGCAGAGCTCGAGTGCTTATAACACGTCATTTTTACCCAAGACAGAGAAGAAAAACGAAAGAGAGCCTGAGCATTCCTTTGACTCCCTCCACCCCCGGAA
GGTATATTCAGAGTCTCCAAGACTGCCTCCGCCTACTCACATGTTTATGGCCCGGTGAGACCGCATCCTCCCTTTCTCTATCTGTCCCTTTTCTGGATGC
AGGGACACAGAATCCCCTAAGTGGGAAGAGCTTTGGAGTGGAGGCTGTTCAAAGTTCTGTGGTGATTAATTATTACCTACCCAAGGTCTGGTCATTGCTA
TACTTGAGTTCTTTTCAGGCTCAAGATCTCTACCTTTTTGTGTTTTTTTTTTTTTTGTACAGAGTCTTGCTCTGTYGTCCAGGCTGTAGTGCAGTGGAAC
AATCTCTGTATGCTCCCTGCAACCTCTGGCTCCAGGTTTAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAACTACAGGCACCTACCACCACGCC
TGGCTAATTTTTTGTATTTTTAGTAGAGACGGGATTTCACCATGTTGGCCATATTGGTCTTGAACTCCTGACCTCAAGTGATCCTCCCRCCTCAGCTGCC
CAGGGTGCTGGGATCACAGGCGTGAGCCACCGTGCRCGACCTCAGGGTCCCTTCTAACCTGTGCTGTTGTCATAAACCCTGGAGGAGAAGCAAGATCTTT
CTAGCAGGAGCAACATCATCCCAAATAAAGTGATAGACTTTGATAGTGTTCTTCTATTCATTCAACCAACAGAGAACAAATGAAAAGAATCAGGAGTCTA
TTGAGGAGACAGAACATGAGTGATTTCTGTGTGCTGACTATATTTAAAGACAAGATTAGCAGTAATATATAAACGTAAATAAGAATTTTTTTCCCCAGCC
AAGAACCATAGATTGGACTTCACATTCAAAATGTAAATTGTGCCTAGGAAACATCAATGCTTATTTTAAGCAACTGACCCTTGGGATAAAAATAAAAAGT
CAAAAGGAAACAAACAATGTTGCTGAGAAGTGATAGAATATTCTAGTTTATATCTCAGTCATWTTACAGCTCTGGCATTTCTGGGKAACACTTTAGAATA
CTTCCACTCCGGTTGGTCCATAAAAAGCTGCCTGTGTTTTTATGTTTTGAAAATACACGCAGAGAGACCCACTGCATGTCCTATTAGGCATCTTATCCTT
GAGTAAGCAGGCATGCAACATCAGTGTCACACACATATCACCCCCATACTCGACATTCTTTGAGAAATGCCTTGGTCCCGTCTCCAGCCAGATCAGCATT
GCACCTCTTGGCATGCGTTCTTACCTGTTGAGGATTTGCTTGAATTATAATATGGTAGAGGAGGAAACACAGTCTTACTGTGCCGTGTGCTGAGCGCAGA
GCCATTCTCAGCATCCTGCCTTGATTAATAAGGCGTGAAAGATCCTCCGAATTCGCACCTGTTCAGACAAGCTTGTCCAACCCATGGCCCCCGGGTCGCA
TGTGGCCCAGGACAGCTTTGAATGTGGCCCCATACGTATTTGTAAACTTTCTTAGAACATCAGGATTTTTATGCACGGACCTTTTATGCATGGACTGTGG
TGTTTTTTGATTTTTGGTTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGACGGAGTCTTGCTCTGTCACTCAGGCTGGAGTGTAGTGGCATGATCTTAGCT
CACTGCATCCTCTGCCTCCCAGGTTCAAGCAATTCTCCGTGTCTCAATCTCCCTAGTAGTTGAGATTAGAGGTGCCCACCACCAAGCTTTGCTAATTTTT
GTATTTTTTTAGTAGAGACAGGGTTTCGCCATGTTGGCCGGGCTGGTCTTGAACTCCTGATCTCAGGTGATCCTCCTGCCTCAGCCACCCAAAGTGCTGG
GATTATAGGCGTGAGCCACTGCGCCCGGCCTTTTTTTTTTTTTTTTTAACGCTCATCAGCTATTGTTAGTGTTAGTGTAGTTTATGCGTGGCCGAAGACA
ATTCTTCCTCCACTGTGGCCCAGGGAAGCTAAAAGATTGGACACCTGTAAACAAAAACAACACAGCCATCTAGCTGCAAGACGTAGCTAATTGCTCTGCA
GAACAGGGTTGGCCAGCCTGGCCTTGATGTCGGAGTGTTCTCTARACCTCACACCCAGTCCCTATTCTTAGGTTTTATTTCTCAAACCAGGTTTTGCCTG
AGAAATTACAGCAAATGATTCAKAGCACAATGATGTTGCTCATTTTTGATAAGTAGTTGAAAGCTGATGGTGCCCTCCATTTCAAAGCAACAGAAGAAAC
GCTGGTGGTCATGGAGAAAGAGTTGGGAAGCAGAGCGTGAATGCCGGGATCTGCAGATCTGAGCACTATGCCTGCAGCCGATGTCTCTCCACAGGGCTGA
TCTGGTGGCTGGGGTGCCCCTGGTCAGAAGGGGTGATTACTGTTTCCTCTCTCTCCTTGGTCTCTGTCAAACCTACCAACTCTTTTCAGGAATGCAGATA
TTTAATTATCTTCTGCTGTTACATCTGCATCATGTATTGGCTGGCTGTTCAAAAGTATCCTCTCTAGGCAAATAACGAGATTTCGCCAGCAGGATCTCCC
GTTAAAGGCGTGCATGTGTGGCTTTGTAGACACGTATGTGTGTGTGMGTGCACACCTGCCTGCCCTTGCACAGTGGGCACTGTTTCCAGTGTGCAGTGAG
GCCCTCCCTTCGTGTAGAACAGGACAGGACAATGACAAAGTTATTCAATTAATAATTGAAGCTTGCCGGGCATGGTGGTTCACGCCTGTAATCCCAGCCC
TTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTCAGAAATTCAAGACCAGCCTGGCCAACATGGCAAAACCCTGTCTCTACTAAAAAATACAAAAGTTA
GCCGAGCGTGATGGCCAGCACCTGTAGTCCTAGCTACTTAGGTAGCTGAGGCAGGAACTCGCTTGAACCCGGGAGGCGGAGGCTGCAGTGAGCTGAGTTT
GCACCACTGCATTCCAGCATTGGTGACAGAGCGAGACTCAGTCTCAAAAAAAAAAAATAATATAATAATAATAATAATCGCACCTCAATACTCCGTAGCC
ATTTTACCGCATGTGACTATTAGCTGTGCTTTTGCGGTTATCTACGTCTGTTGTGTCTATACGGTGGAGTATTTGCAGACGCTCTGCCAGTGTGCAATGC
TTCCCAGCCCTGCATTCAGGGATACCAACTTGGGTGCTGAAAAGCAGCGATGGCAGGACTATTTACACCACGGAAACAGGCAAAAACTACTGATCAAGCC
TTCACTGTTTTGTTTATATTGTCTTGACTTAGAAAGTGATTGCAATGTTAATAATGCAGATTAAATTGAAGCGTACAGTGCCTATAAACCATTACATTAT
GAATAGTATAAAAAATTGAGGAAGCCGTGTGGCTCACAAATTCAGCACTTTGGGAGGCCGAGGCAGGAGGATCACTTGAGCCTGGGAGTTGGAAACCAGC
CCAGGCAACATAGTGAGACCTCATCTCTTTAAAAAAAAAAAAAAAAGAAAGAAAAATTAGCTGGCATGGTGGCACATGCCTGTAGTCCCAGCTTCTGGGG
ATGCTGCAGCGAGCCATGATTGTGCCACTGCTCTCTGGCCTGGGCAACAAAGAGAGATYCTGTCTCCAAGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTC
TCTCTCGGAAATATTCCTTCAGTGTATTAGTAAAGAAGTTACTTAKGAGTCACTTATGCCCTTGAAGAGTGAGTGATGTATCAAAATATGTCTGTCTTTA
TTGTTTCACTTTCATCCTTCTTTTTTTGGAGATGGAGTCTTGCTCTGTTGACCATGCTAGAGGTGGCGCGATCTCCACTCACCGCAAGCTCCGCCTCCTG
AGTTCAACTGATTCTCCTGCCTCCGCTTCCCAAGTACCTGGGATTATAGACACCCACCACCATGYACAGCTAATTTTTGTATTTTTAGTAGAGATGGAGT
TTCACCCTTTTGATTGGTTGGCCAGTATGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGCCTCACCTCCCAAAGTGCTGGGATTACAGTCGTGAGCC
ACCGTGCCGGCCACTTTCATCTTTCTGATTAACTGAAAAGTATCAAGCAATGCTTACATGTAACTGCACTTTCTCATCAACTGCAACCATAATTTAGCTA
TGGATACAAGAGTTGGGCACAAATCCATGAAAGCATTGAGTGAGAATCAATTGGCTCTGTGGGATTTACAATAAAGAATGTTGTTTATTTTTATTTGTAA
ATTGTGTGCTACAGATCCTTCGTATCAGTAAAATGTATGATAAACATATGTGTGTATATTCACACACACCCTTTCATTTTGGCAGGAGTGTTTGTTAAAC
ATTTACCACAGCAGTGGATTCACTTCCATCAGCTGCTAACTTTCAAGGATGTTTGAGGATGCATGACCTGTGCAATGCACCTGCTTCGGTGCCTGGCACA
GAGTCGCAAAGCCACAAAGATGGTGCTTGTTGGTTGTATGTGTTGTTTCCATCTGATAYCACCATTGAGGGGAGCAAGATGACATGTGCCTACCCCACGT
GTCCAGCAGCAAAGCCACCTGGCATAGTGGGCTGCTCAGCGTGCCTGGTTCATACTGCGTATTTATAGTCCCAGGGTGTTTTCAGAGAGTAAAAGTCCTT
TATGATTAGCAAATTGCAGGTCCTCCCCTTTCTGATATTTACAGCCCTTGCAACCGCCTGTACAAAAATCGGGAAAAGGCAGAAGMSGGCTGTCATTAAT
GTAAAAGCAGCTGGTTACCTCCCCCTCCCCAGCGCACACATCACCTCCTAGTACAATTAGTCACCATGTCTTTTCCCTTCCGTCAAGCCTTTTAGCGGAG
TTCACAGGGATGCCTTCGGTCCAGACACTATGACCGTTGACGAAGGATTTGAAATATTTTGAGAACTCTGAAATAATGCACACCAGAAACGTCCAGCTGA
AAACAAAAAGGGAACAAGATGACATTTTGCAATCCCATGCACGTTGCAGGCRCGTTGAATGTGAAGGTCAGTAGTACTTCAGAGGGCAGGCCTGTTGCCC
CCAAGCCTGTTGCCTAAGAAATGCCCAGGCCCTTTGAACAAAATGGATTCGAGTGATTACAGCACGTCCTCACTTACATCTCCCAATATATTTCTTGTTA
TTCTCGTTGAGTACTGCATTCAGACAGAGGTTGCCAATAAAGTTTATTGTAGGAGCTAAGTGTCAATATCTGTAGTACCCCCCGCCTAGGGTGCTGCTAA
TAAAATGCCACAGATAGTCTGGGAGAGGCATGAAAATTTGATGGCAAATTGATTTCAGGTTCATCTTGAAATTTGTCCTCAGCTGGACTCGATACTTCTG
GCAGACATGGGATGGCTTTTGTCAGAAGGGTCTGCTGGAATGAGACAGAGATGTCTTGATCTGAATATTAAATACAACATGCTGTTTATGACATTATCCG
TTTACTGCTAAAATACCCAGCTACTTCTGTTTACACATTCTTCTGCGTTGAATGGGTAAGATAGCATCTCATAGATCCACTTTACATATGAAAAGAAGTT
GTATCAAACTTGCTGGGCATCAGAAATAAAGGGTTTTAGAGACACTGGCTTCAAACACAAGTTATTCCATCCAAGATTCTAAACTTARCAATGCAACTTG
CACTTAATTTTAAAACGCTGGAAAAATAATGATAAAGATTGTGTGATCAAGTATAGCAGCCCTGTGGTGTTTCCTCAGAATGGTGTATTACAGAAAAGGA
AAAAGCCATATACATGGAGAARAAACTCCCGATATTTAATATTATCAATTGCTGGTTCCTGTAAATTTGCATTTATGGATCACATTATAAAAGCAATTAC
TCTTATGGATTGTTCATGCAGAAATGCAYTATGATGATAMTATACTTTTAAAAGTATATTTATTTCCAGAATTCAATTTGTAAGAGGTTTGAGGGAAAAA
TAATACTGAGTTTTGAGTGTTTCTGATTTTAAAAATGTGTTCAGTAGAATTAAACGTGTTCACCAAAACCCATTTTATCMCTTTAAATTATTGGGCAATT
AATTGTATTTACTTAGCATTGAATGCATGATTAGAAATGGAATTTTTAAAAAAGCAATACTCAAGTGGAGTGAGTTCATTTGTTCATTCAGCAAATAGGA
CTTGAGTCCCCTACTATGTGCGGAGCCTTAAAGGATGAGAAAGATTTCTGGGTGGGACTTCAATGAGACTCATTTCGCAGGTTTTCATGTTATTATGTAT
ATGTGGTAAATAATTAATTTTTTCACAAGTACTTGCACTAGTGATGCTAAAATAAGCTTGACTGGCTTGTAAATCAATGAAGGTTACTGTTGCATTGCTT
TGAAATTGAATTTAAAAACAGAAACAGAGCAGTCCCTTTGCTTCCGAATGCAGCCCTCCCATTGGAATCACTTTGGAAGAATCTGGATCTGCGTGTTACC
CAGTCTTACTTTKCAGGCAGTCCCAGGCAGGAAGGCCCATTAGTGAAAAGAGCCCTGCATATGCTGTGGGTCATCACAGCTGCTGCTTTGCACATTTAGG
AGATATTTGTGGACCTTTCATTAGGACAATTTTTATGGCCCGAGATTAAAAGTTAAAGTTAAGTAGTAAACGTAATGAACATGTGCCTTTGGAGATTCCA
ACTGGTTTGTATTTTCATTCTCTCCGTTGGTCATGGCCCATTGAATTTTGATGATAGCATTAAAACAAATGCCTCAAATCATTTTTGGAAGGAGACAGGA
TATGAATTGACAAATTAATAAAATAAATTATACTTCAAAGATGCTAAATTATCTCTTCTATGTAAGTAGGAGGCTCTCTTTTCAGATGTGGAATTTGTAG
GAGCTTGAATATTCTCAAGAGAGGGTATGGGCAACATTTGATAAAAGATGTAATTATTGGGTCGTAGGAAATAATGATTGAGATAGGGTATCCACTGCCC
TGGTGGGGGAATCAGTGAGGCTAGGAATCACTGGAAAATGACATTCCTTGAGACTCCTTCAATGGGTAGAGTTTGCTTTAGCTTTTCAWGTATCTTACTG
TATGATGGTTGCTTTTGGGTTGAATTCCACCTTGGGTTCAATTCAACATGAAAGTTAACCTTTTGGTGAAGGAATGATCCASGGGAAATAGTAAAATATT
AGCCTGTCCTCCAATACAAATTGCCTGTGAGTCCCACTGATACTTACAAATATACAGAGGTGGTGTAAAAGGATTCTGTGTCAAAACTATTAATATTTGA
GAAATACAATACTTATCAGAGCCTTTGTATGTAAATGTCTCATATACCCCTCTAAGAASGGGAGCGAATAGTATTTTCCAAACTTACGTCACCACTTACC
ATCCACCTGCATACTTTACACRTCTTGGAATCAACCTTACAGGGAACACTTGGTCGAAAAACAGTGTTTTCTAAATTTATATTACAGTTCCCACTCCCCC
CSCCCCCACTTGTATCACTTTGTATGACAGTCTTCTTGGGAACATCCATTGGGAAACTCTTCCCTTGCAGGTGTCTGTTACAAGTCCTGGTTCACACAGT
GTTGCGAAAGAATAGTTGTATGTCACAATTTTCTTTATATAGTATTTATTGAGAAACCTATTCTGTTAATAGAATGACTCAAAATCAGCCAACCCCATAA
ATACTGCTCAAGCATTTAGAAAGACTTTCTCTATAGAGGCTTCAGACGTCAGAAAAAAACTTAGAGAGTGACTTTCAGATACAGCAACCTAGTCTATGTT
ATAGAACATTCTAAAAAGAGCAGATTTTAATATCTTTCCTCCCACACTTGCTTTGACTCCCTCCTTTAGTAATTAGATAATTATGTATAATAAGCACATT
AATTATGTGCAACAGCTGCCRTTGAGTGTGTGCATGTACAACTGCTTGAAAACAGCTTGTGAGTTCACTATTAGGTCCATGAAATTTTTCTCCTTGGCAG
GTTTTCACTATTARTTTGCTTGACAAAGGATAGATACATTTTCCATGTGTGGAGGTAAAAGCAGTGCAGTGAGCTAAAAAGTTARCAAAGGTGAAGTGGT
CCTAATCTGCGGCCCTGGTACACTTAGATAGGCATCATTGCCTTTCCTCTGAGCTCTTGGTGCTGATAACAGCTTCCTTGACCGATAAGTGTACCAGATT
TCCTTACCTGTCCCAGGGCAAGATAGCAAGAGTTTCTTGATGCATTTAAAAAATGCATTTAGTGTTGGCAAAAGGCTKGCAATTTATTATTAAGTGGAAT
AAGCAGTTTAAAAACAGTATGTACAGGGTGGTTTTCTGGCTATATAAACACACAGGCATWGAAAATAGATATACATAAATAATGTTACTATAATTTGTCT
GCCTCCCTTCTCTCAGAAAAGACCAATGAATTATCTATTATGTGCCACTCACTATTTGAGTGCTGGGAATACAGCCCCATAAAGTGAAGTTTCATATATC
AGGTAGCAAGATGGCCATGGTCTGTGTTTTGAGAATCACAGGCGTTTTTGAGGCTCATGGCTATAATCCCAGCACTTGGGGAGGCCGAGGCAGGTGGATC
ACCTGAAGTCAGGACATCAAGACCAGCCTGGCCAGTGTGGCAAAACCCCACCTCTACTAAAAATACAAAAAAAAATTAGCTGAACCTGGTGGTTCAYGCC
TGTAATTGCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTACAGTGAACCGAGATCGTGTCACTGCACTCCAGMCTA
GGCGACAGAGCGAGACCCTGTCTCAGAAACAGAAAATAAAACAAACAAAAAAATASTATTCCATAGCTGACTATTTTCTGAAATGATTTTGTTACTTTTC
TAATGAGAAAAAAATAGATCTCGTGTGTGGAGGGAATTGAAGATGTAATTTCAGACTCTGCGTACAGCTAAGCTCATCGTAGTTACTTAACTAACACTTA
AGGAATTAAATGGCATATCTGTGTTTGAGAGGCACACTGAGATGAGACACCAGCTCTTTTTATTTATTTCTAATGGTTTGCTTGGTGTACTGGTCATTTC
CCCGGAAGTGTGCAAGAAGAGGTAGGTGACTTGCATGTTGTCTATGAACGTTTTTAGAAACGTCTGGTGGAACCATCCGGGCATCACATAGCTATCTCTG
TGCAGAGCCAGGCCGGATGCCTAGGTGAGATGGAAAGCTTCCGTCAGCTTTCTTGCCGGCCTCTCCTCGCAGCCGCTCCCTTCCACACCTGCCTTTTCAC
CTGCCAGACTGCGCGTTGCCCGTTGCCCTAGGTCTGCGTGTTCAGCACTTCTGCAACAGTTTCTTCTGCAAAGGTAACTTAGCGGAGGGTACAGGGTCTT
CTTCCAATAAGTCAGCACCTTCAGTTAAAAAAAGCAATAACATTCTCCAATCTTGGCAGTCTGGCAAGGTAGAAAGACACCTGAAGGTGAACATCTTTGG
CCCATGTGAAATTTTGTTACGTGTTGTTAGGTTTCATTTGTCTCTCAGTCAATCAGTCAATCARTCAGTCTCTCTCCTTCCATCCCCCCTTGTCCCCCTT
TTCTCTTCTCTCCCCTTCCCTGCTCCCTCTACTTTAAGGTTTTCTCACAGATTAAGAGAGTAGCATGTGCTCATCCCAATTATTGAAACCGTGCAAATGA
ATAGCAAGAAAAATAGTTCTTGGCGTGCCCCTTTCTTTCCGCAGTGCCCAGGCCAGAAGTACCTGCTGCCCAAGACCACAGCTGACAGCGCCCCGGGAGT
CCTTCACACTCTTCTCTGAGCTCTTCCATCCTTAAACAGACATCTATGCCAAATGCAGGGAGGGTTTGCTGTTGGCTTTTACAAGAACACTGTCCTGTTA
TGCCTGCTGCTCTTTGCTTGGTTTTCCCTGGACGGTCACAAACATACCTCCAGGTCAACAGTTAAAGAGAGAACCCACTTCTTCTAATAGTTGTGTAATA
TTCCATACTACAGATATTCTGTTATTTATGGTAGCTAGATTTCTATTCATTTTTAATTCCCATGCTCAGAGCTTTCCAGACATTTGGAAACATTTTAGAA
AATTGACATCATCTCTTCAAATATCTGAACTCAGATTTCCTCTGTGATGTTGGAATCTTTAAAATATCATGCATACTTGGCCTGTTTCTACAATTTTGTT
CCCCAGCCATCGTTCTCCATTTTGCACGTGTATTGTCTCCTCCTATTCCTCTGTACCCTTCACACGTGCCTGCAGGGTATATACTTTTGCACAGGCAAAA
GTCCAGCTGAAATGATCCTTACTTAGCATAATTTAAACGCGAGGGTTTCCTAATGCTCCTTCCATTTAAATAATTCAAAAATCCGTGGCAAGGTACCTGA
AAACTACTAAGAGAAGAGAGGTGTTAATGGACACATCATTGAGGCTGAAGCCAAACTGTGTGATTCTGTCTGCAGTTGAGAACTGTAAGAAAAAGATCAA
GATTAACATTATTATTATTGGTGTTACCTCATGTCTGTACCTTTTTGGACACKTGGGTCTGTTTCCCGAGAAATCATTTTTCCTCCTCCTTGAAAATAGT
GAATTTCAAGTGGTTTTAATTTTAACTGCATTATTTGTTTGCTTTATATAGTTTTTAAAGTTTTATGAAAAAGTCTTCCATGTGTTTTTTATTTATGAAA
TCGGGGCAGCCATCCTTCAAATATGAAGCAGGTATCTGAGAATACTAAAATCTTACAGTGCATTTTATAGGAGTGTGAATGATTTTTCTGCAATTGACAT
ATCAAGGAGCTTATCATCTATTATTAAGTTACCTTTTCCTGAAACAAAATATTTGTCAGATGTAACTTGGTACCCAAATGCCTTTTCTTGCTAAACTAGG
AACTGTCACACACACCCACCCACCCACCCCTTTATTCTTGGTTCTCTCCTATATTTTGACATTTGAAGCATCCACAGAAAAGTAATAGAATGAGCAATTG
AAAATCACCAGAACTGAAATTATTTCCAGCTATGTTTAAATATGAATGTCTTGTTCGACGCTTCGCATATGTATTTATGGCTGTGTGATATCATTATGGC
ATCCTAATGAATGTCTACTGAATTATGTGGGATTCAACAGGGGATACAAATGGATTTGAATTCTGTAACTGTCATATTGTGGTCCGGAGAGGGTGGAAAC
TGAAGTATCCCTCTGCGTCGCCACATCTGTCAAAAGTCCTCAGCGCTCCCCGCAATCCATGTCTGGTGGAAGCGCGAGGTGGTGAGGATGGAAAGGGCAT
GCGTTGACTTCATGTTGGGACGGGTCTTAAACTAAACACATGTCACGTTATGGAGCTGTTTACCTTGGCTTTGAGGTTTATTTCCTTCTGGATTAAGAGT
GATGTCGTTTTATATAACAAGAAGTGAAAAAAAAAAAGAATGATGTTACACAACCTATTTTTTTTTTTTTTTTTTTTTTTTACTCTGAATGTGTAACTTT
AAATGAAGAACCAGGACACCTCATCCTTTAGTCTTTTCTTTACTAGTGAGTGGCAGATATGTGTGGACCACAGAGATGGACTGAAAAGAGAAGTAACAGT
CCTTGGTTTGTATTCCAGCCCCCACCTTCCTATGTCTTTGRGCTTGGTAATTAGATGCTTGGAGCTTCAGTTTCCCCATCTGTTGGATCAGAACGGCAGT
ATGTGCTCTCCAGTATTTTCATAAGAGTCACATGAAATATGTACCTACAGAGTCTATCACTGTGCTTTTTAAGTTGGGGCTTAATATGTGGTAGTTGTTG
CTGTTTTTGTTRTTATTATTATTAATGTTATTTTTTGTTTGTTTGTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGAAGTGCAGTGGCGTGATC
TCAACTCACCKCAGCCTCCGCCTCCTGGGATCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTATAGGCACCTGGCTAATTTTTGTATTTT
ATATTAGAGATGGGATTTCACCATGTTGGCCAGGTTGGTCGTGAACTCCTGACCTCAAGTGATCTGTCCGCCTCGGCCTCCCAAATTGCTGGGATTACAG
ACGTGAGTGACCACGCCTGGCCCATAAATGTTATCTTTATATAACATACTCACAGCTCCCTTAGGAGTACTTTTGTCCATTTCTACACAATGGAAACTTA
YAATTTTAGCCTTAGCAACATGTATTTACTGGGCATCTAGATTTCATTTATTTAAGAACTTTTTATTGAATGCCGATTGTTCAGCAGCCACCATGCAAGG
TCCTGGGGAACCAGTGGGCAGCCACACAGAGAAGGTCCCAATGGCACCAGAACAAGGCCAGCTTCCTAGGAGGTGTCTGGCTTCAAGACAGGGATTTCCT
TTAGCTGGGTGGTAGAGAAATGGATTGCCTGTGATTTCACTGTGCATAAAATGACCTTTCAGCCCTTAACCTGCGACATCCACATGTGTTCTTTGGTACT
CACGGGTGTTATGGTTCATAGCTGTGGTCTTCTGAAGTATAGGAAAAGGCAGCTTACAGAAAAAAACTTGCTTGTTTACTGTCTTCTGAGCTGATTTCTC
ACCTACTGGCAAGTGGATAGGTCTASTTTTTGTTTAGCTGTTTTTCTAATTTAATCTTRTACATGAGACAGCTATAGATGGATGTATAGTCTTTGAAGTG
GGGCCAGTTGGCTCCGTCTATTAGCTGTGTGGCTTTTGTGCAGGTGACTTGTGGCCCCCGGCCTCAGGGATCTCATCTCTAAAACGAGGCTCTTGATGTT
ACCTGCCTTACCCAGCTGTGAAGATTAAAAGGGTTTTGTGTGTTAAAGGACTTGCGGAGTGCCTAGAACCCAATGAGGGCCACAGAGCTTGCTCCGATTG
CTTTCCTGAAGGCAGTAAGCATGTTGCTCTGGTAATAGTCATCTTCACGGCCATCATTTTGATCACATTTTGGCTTAGTTTCTTCCTCTACCCTCTTCCC
ACGTCAGACCTTTCCATGGAAGGTAAAACATGTTAACAGTCTAATGTGTTTCCTTCTAATTTTTTTCTTCATTTATATTATACATCTATGAAATATATAT
ATATATATTACATATGGATATATAGACATACACAGATGCATATTTAGGGTGTGCTATGGTTAGAAAGTTTGCATCCCCCCAAAATTCACAGGTTAAAATC
CTAATCCTCAAGGTCGTGACGGTACTACAAAGCAGGACCTTTAGGACATGATAAGGTCCTGGGGGCGGAGGGTACTAATCCCCATGAATGGGTTTAGTGC
CTTTATAAAACAGACCCAAGAGAGACCGTTATCCATTTTACCATGTGAGGAGCCCACAAGCAGGTGCCATCTATGAGCCAGAGTGGACCCTTACCCAACA
CCACATCTACTGGCCCCTTTATCTTGAACTTCCAGCCCCCAGAACTGTGAGAAATAAATTTGTTACTCATAAGCCACCTAAGTTATACTATTTTGGGATC
GCAGCGTGAATGGACTAAAGGTTTTTGAGATTCTTTTTTCAGTAGTTTCACCTAATAAAACATGGAATCATTCTACGCATGCTGTTCTGTATTGTAGTAT
GGTTTTCCACACTGAGAACATACTGTGACCATGCAGTCATTTCCCAGATGGAACTTATTGAGGGACATTCACTTAGTTTCGAAAGGTTTCTCCCTCCACT
CCCATCCCGGCCACAGATAGTGATGCAATAACATCCTTGTTCGCATGTCCAGTCTGAAGCTTTTATTCCTATGGGATGAGTTCCCAGGCATAGGATTGCC
AGGCTGGACTCTAAATTTTGAAAATGGATTTTTATCATTCTGATGGATTACGGTGAAGAGAGCCAAAGTCTTGATAGAAACACTCAACGCAGTGAATTTT
TTAGATGTAAAAGTGGATGGTACTTAAGGATACGCACATTAGAAGGAGTAATTTGACCAGCCCATCACAGTATTAATTGATTTTCATGTCTCGAAGACTT
CTGATTTCGTTTTCGAGGCTGGAAAGGCAGGTGGAAAGCCCATCAGTTTTACACACATATTTTGCAGACAAGTATTAGAAAGTAACTAGCCTGCTTTTAC
TAATGGTTCTGTGGAAGAAACACAGCTTGAATAAATGTCGTCTTGGATGCTCAGCACAGATTGGCAGTGGATGTCAGGATTGTCTGGTGGGAAGGCTGCT
GGGACTCACTCTAGACTGGGAGTGGGGTGGGGTGGGGCAGGGCAGGACGGCCCTGGCTGATTAATAATGTTTGTTATGAAGTCTAGGGTACGTGGGGAGA
GCTTCATGAATCCCTGCATTGGCCACCCCTGTACCACGGCCAATGATTCACCCTCCCTAAATCCCAGGGCCAGATATTAGAACATCTGTGATGAGGACTG
ATTTTCTGTTCGTGGCCTCTGGAAGTCCAGTTTTTCTGAGCTCAGGGGAGCCTTGGTTGTATCTTATAGGCAAGAGACGAATTTACATTTTGCCATGGTG
TTAACAAGCAAAAGAAGACAAAAGAGCTCAAAATAGACAGTGGCGTGCTGGGGTCAGGGGTGCTGGTCACCAGGGCGAGCAGTTATGGGTGAAGGGCTGA
ATTTGCAGGGTCAAGGAGATTGCCTCCAGGCCCCTTCTGGAAACACACTCCCTGAGCCTTGTAGAATTGAGTTGATTCTGTTTAACTGCCCAGTGAAGAA
ATGACTTCCTTGCTTTAAAACATTTGACAGCTGTCTTATATAACTTAATTCTTCATTCCAGTGGCTTTTGGAGCAGCCTCAAAAGTCATTTTATCTTCTT
GGCTCTTTGATATTATTTGTAGTAATTTATTTAAAGTAATTAGAGACGGGATCTTGCTGTGTTGCCCAGGCTGGTCTCTAACTCCTGGCCTCAAGTGATC
CTCCCACCTCAGCCTCCCAAAGTGCTGGAAATAAGGTATGAGCCACCAAGCCTAGCCTTGATATTATTTTTTAATGGGGGTGTGTGGGTGGGTGGTGATG
GGGATATTCCAGCAGAATATCAGAAACAGAGATGAGGAAGGCAGAGAGAGCTCAAAGACAAGGCTCAAGTTCATATTCCAACGCCAGTACCTGCCACCTG
TGTGAAGCTGGGCTAATTATGTGTTTAGGTTTCCTCCTTCGTTAAATAGAGTTCTACTTATATTACAGGGTTGTCATGCAAGTTGATGAATTAAATACGC
TAATATATATAAATTCTGAGTAAGTATTAACCAAAGAAATGGAACATCAATATTGGTTCCCAGTCTAGTTCACAGGTGTTATCAAGATGGTTACCTTTCT
AAGTGTCTTTTTATTTCACTAGTTCCAAAAGAGTATCTCTCAAAATATTAGGTAGTATTTAGTCAACACTTTAACACATAACTTGTTTTTTTTTTTGGCA
TAAGAAGCCCATGTGAAAACACAGTTGACCCTAAGCCTATGAAAAATGACTTGTGTGTGGGACTGGGGTGGCTCATAGGAGAAGGAGGATATTCGTCTGG
ATTTTTACTGGTATGTATATATTTTTGGGTACTGGAGATGGGGACAGTGAGTATTTGAAGCTCACAGCAGGCCCATTTTGCAAGTTTTCAGGAAACTGAA
ATTCAGAGAGATTAAGTATTTTGCCATGAATCACTTTGTAGTAAGTGGGAGAGCTGTTGCAAACCCACGTCTGTCTACATCCACAGCCTGTGCTCTTTTC
ATATACAAGGGAATATGGAGGAGAAGGGAAGTGATGGAAGGCTTTAAAAAAAAAAAAAAAAAACTTCAGAAGCTGATTTGAGATTTATTCATCTTTGGTG
TACTTTCTTTACTAAGGCAGGTTGTAGACTCATGAAACCTAGAAGGAGTTGAAAAATAAGGGTTAGGATTAAAAAAAAAAACTAGTGAAATCAAGACACC
ATTTTGCTTAATTGAAGGCTTGCGGAACATTAAAGCACAACAAAAACCTAATTCTTTGAGTGTTTCTGAGGCCAAGCCTTTTCCCACAAGGCACTGTGTA
CACGGTTCTGGAAGCTCTCCTCTGTTTGCACAGTAGTCACTCATCCTGCTCTCGGGCTCTGCCTGCAGTCTCTTCCTCTGTCTCCGATGTCACTCTTCTC
TGTCTTCTTCAGAAGCTGTCATATGACCTCCAGATTTCTCTTTGACTCCCTGTATTACCATTAGAAGACATCTACACTGGGAAATTGCTCAGTTCCTGTT
TTTGATTAATATTTTATCAGCCGCAAGAGGAAATGGTATTCTATAGCAACACTAATAAGTAATTGAGCAGATGAGATGCTCTTGCTAGCTTTGGTAAAAA
GTCGGGGCAAGGTTACAACAGAGGAGCTCTGATGAGACTTGGGATGRTAAAGTCAAGTCGAATATCTGGTAGGGTTAAAAATCTAACAGTGGGCCAGGCG
CAGTGGCTCACGCCTGTAATCACGGCACTTTGGGAGGCCAAGGCAGGTGGATCACTCGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTAAAATC
CCGTCTCCACTAAAAATACAAAAATTAGCCAGGCATGGTGGCATGTGCCTGTAATCCCAGCTACCTGGGAGGCTGAGGCAGGAGAATTGTTTGAAGCTGG
GAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCCCTCCAGTCTGGGTGACAGAGTGAAACCCATCCCCCAAAAAAATAAATAAATAAAAATTAAA
AAAYCTAACACTGGTACGAGAAGAAATTATGCTCTAAATCCTTCTTTGAGCAGTGGCTTACAGACCTAAATTTATCAAAGGTGGTGGCAGTAATAGTAAT
AATTACCATCTTCATTTAAAGGCACGTATCTAAACCAAAGGACCTAAATAAAATATTAATTTTTCATAGTGTTTAATATGTGCCAGTATATATAAATTCA
AGGTAAGGTAGACAGCTGTAAACTGGATSCCCTGCTGTACCCAGCAAATGCTGAGAGCCCTGCTTCCCCTCTTGTATTCAAATGGCTCTATAAGAGAGGA
AGTAGTACAGCTATCAGTAACAATGCCATCCGGTAATTACCGAATCATAAATGTTTGGGGAGCTGAAGGTCACGGGCTTAGTAGCAATTCTAGTCTGATG
TTTGATTCCTTGTGAATTTTAAATGCTTGTACTCTCTATCTGGGTGATGGTGTTTTAGTTGCCAGTGGACAGTCTGATGGAGGTGGGGGAAGAGTTATTC
TTCCATATTTATTTTTCTCCACCTTGGGTGAAAAAACTTCGCTTTTCGTAATGTGGTACAGTGTGTGCTTCTGTAAATGGAAATGGTTTCAGCACATCAC
AGTCATGCTTCCCTGTTGAAAGATGCTCCGTTTTCCCGCATACATGATGTCCAGCACAACGTCTGATTTATGAGAGCATGACCCTGGGGGCCTCTGGAAC
AGCTGCTCACACACTCCCTTTAGGAGGCCCAGGCTCTCAGGGGAGGCCCATAGTGCAGCTAGGAGCTAGAGTTTTAGGATGAAGAAATTACAGGTAAGAA
CACAGCCCCATTTTAAGAAATACCAGTGATTTCTGTTTTTCCTTGTTCTTCTTTCCCTCAGTATTTTATTAACATGTGCTACTATACAAATACACAATTC
ACTTAGGACTCTGTTTCGTGTGGATCACATGGGAGCTTTCATTAAATTGTGGTGATTCCAATGTGAGTGGTTATCAAGTCAACATCAAATAACATGAAGT
GTGTTTTAGTCGGCAAACATCACTTTGTAATTCTCTGATGTGTTTGGGTTGATTCCCTTCTTTCTGCTCTTTTTCTCTTTATAAAGTAAACATTTTTATT
GCAAAGGTACTGCTATTGTTAGTTTCTAAAGGCACTTGTCATGGTGTGACTAATATTAGAAGCAGACACAGCCATGATGAGCAATACTCTTTTTTTGTTT
ATTTTTGWTGTTACTGCTGTAAGCCACTTTCTTCTCCCTCTCCRTTAAAATGCAACTTAATTGGTAAAGTTTAGTTGACTAGAGATTTCATTTATTTATT
TATTTATTTATTTATTTATTTATTTGTTTRTTTGTTTGTTTGAGATGAGTCTTGCTCTTTTGCCCAAGCTGGAGTGCAGTGGCATGATCTCGGCTCACTG
CAGCCTCTGCCTCCCGTGTCCAAGTGATTCTTCTACCTCAGCCTCCCGAGTAGCTGGGATTACAGTTGTGCACCACCAGGCTCTGCTAATTTTTATATTT
TTAGTAAAGACGGGGTTTCACCATGTTGGCCAAACTGGTCTCAAACTCCTGACCTCGTGATCCACCCGCCTCAGCCTCCCAAAGTACTTGGATTAAAGGT
GTGAGCCACCGCGCCCAGCCTGTATTTATCTTTTTAAGTAACAAAGTATTAGCATTGTGATAAATAATATTTAATATATAGTAAGGGAGGTCAAAGTATG
AACTATTTTGATTTTTTATGGGTTTTTTTTTTTTTTTTTAAAGAATGCGTTGATTTTGTTTTTCTTTCTTTTTTTTTTTTTTTTTTGAGGCAGGCCTTAG
GTCTGGCACCCAGGCTGGAGTGCAGTGACGTGATCAAGGCTCACTGCAGCTTCCAMCTCCTGGGCTCAAGCAATCTTCGTGTTTCAGCCTCCTGAGTAGC
TGGAATTACGGGCTCATGCCACCACACTTGGCTACTTGTTTAATTTTTTGCAGACATAGGGCCTCACTATGTTGCCCAAACTGGCCTCAAATTCCTAGCT
TCAAGCGGTCCTCCTGCCTTGGTCTCTCCAAGTGCTGGGATTATAGGCATGAGCCACTATGCCCAGCCAAATTTTGTTTTTCTTTTCTTTTTTTTTTTTT
TTTTTGAAATGGAGTCTTGCCCTGTCCCCCAGGCTGGTGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCTGCCTCCTAGGCTYATGCCATTCTCCTC
CCTCAGCCTCCTGAGTAGCTGGGACTGCAGGCGCCAGCCACCACGCCYGGCTAATTTTTTATATTTTTAGTMGAGACGGGGTTTCACCATGCTAACCAGG
ATGGTCTCGATCTCCTGACCTCGTGATCCACCAGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATTAGCCACCACACCCGGCCCARATTTTCTTATA
AAGTCAAATGGGAGATACTTGTTTGCARGAAATAGTTCTTTTGGTTCTTACTTTTCCATAAGGATTGAGTCTCAAAATGTCTGGTAGCATCCACTGCATT
TTGTAGGGGACAATAACAAAGAAGATGCCAGCAATATCTTCTATCTTTTCCAACATTATTCACCTCTCCCACCCAAGGACAATGGTGGGCTGGACAGAGC
ATTCAATGACCGAGAATCTACCATAAGCTACTAGGGCCACATCTTCCCCTTTCTTCTCCCCCAGGTTTGTCCCATTTGTACTGACTCTGACCCAGGTTGT
CATGACTTGAGACTCACTAGAAGTTTCAGAAARATGCASACTGCTTTAAAAAAAAAAAAAAAGGGCAAGGGGAGGTGTGAGAAGAAAGTATAATTCTTTT
TCTTCTAACKGGAGATATAAAAATCATATAAGCATGATTTATSATTTGATTGGAACATTGTATTTTATGGTTGCAGAGCACAYGTATCATCCTATCTGCT
TCTGACACCCAGTAAGCAGCTCTGGCTTTTATAATTTTGATGAAAGARGTTTCCCAACAGTATTTCGGTGTGCATGCTCACACACCAGCCCTGGTCRTCA
GTGAACAGATTCTTCCAGGTCTTCATTGTRGCGGAAGAAAGTGAGATCAGAGATCCCGAGGAAGGGCTTCAGTTTCACCAGTAGTGGAGCTAGGGAGTAG
SGGGGCAGAAGCCGCAGGAAGTCAGTGCAGGACGCCGGAGGCCACTCCTAATTGCTTCATGTGTTGTTGCCGTGCTGATGACCTTGGAGGCGCTGCTGGT
CCTGGATCCTTGCGACCTTTTCTTCCAAGAGGAAATGTGGTGCTGAGCCCCCCTTCCACTGGCTGTGACAAAGAAGGACCCCTCATGTGGGGGCCTAATT
CTAGTGAATCCCCAAAGGTACATGTTGAAATAGGGAAAAGGCCCAGGTGAGGCTGTCTATGTAATAGAGAAGATCCATTGCAAAATGAAAATATGGGGTT
CTAGCCAGGGGCAGGGAACTTAATCTCCCTTTTCCATGGGCCCAACACCTGAATCTAGGGCAAACAGSTGTCCCCCAGATTGGATCCTCTGCTCTAGGAC
ACATTCTTGTCCTAGAGCRGGTTGGGCAAGAGGCTTTTCTCTCAGTCACCAGCCCCAAACCCTGTGGTCTTGCCAGCCCAGGACGTGTCAAGACTGCAGC
CTTTGCTGACYTGTGACCATCTCCAAGTCCATGCCCAGGCCCCTACTAGGAGTTGAGGGCAACAGGGGCAGTGGGTCTCTCCTGCTTAGGAAATTTGGGT
TGAGGGTGGCAGTGATCTTGAGGGGGGTCTGGGAGGGAGGAGCCAGCCTGGCCTGGTCTGGCCTGGCCCAGTGTGCCAGCKAGGGCAGGTGCAATGGCTC
AYGCCTATAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTA
CTAACAATACAAAATTAGCTGGGTGTGGTGATGCACACCTGTAATCCCTGCTACACAGGAAGCTGAGGCAGGAGAATCRCTTGAACCCAGGAGGTGAGGT
TGTGGTGAGCCGAGATCATGCCATTGCACTCCARCCTGGGCAAAAAGAGCGGGGTAAAAAAACAACAAAAAAATGATGTAGGAATGAACAGATGAACAAC
CCCACACAACCTAAGGACRACTTTGAATCAATTCTTCTAAGCTGGTAGCAGAAGCCACCTTTCCATTTGACTTSTATCTCGCTCTTTTTTTCTTTCTTTT
TTTTTTTTTTGGAGACAGAGTCTCACTCTGTTGCCTAGACTAGAGTGCAGTGGTATGATCTCAGCTCACTGCCACCTCTGCCTCCTGTAATCAAGAGATT
TTCCTGCCTTGGGCCCCTGAGTAGCTGGGACTATAGGCATCCACCATCACACCTGGCTAATTTTTGTATTTTTTGTAGAGGTGGAGTTTCGCCATGTTGG
CCAGGCTGGTCTTGAATTCCTGACTTCAAGTGATGAGACTGCCTCAGCCASCCAAAGTGCTGGGATTACAGGCATGAGCCATCGCGCCCAGCCAGACTTG
TATCTCTTAATGAGTTTAACTACATTTAACCATGTATGTGTCAGTCCTACTATGCACCTTACAGCTCACTAACCCTGTTTAATAATGTATGTTGYTACAT
TTAATCTTTATGGTAGCCTCATGAACAGGYTCTTATTTAGTTCAGTGGTTCTTGATCAGGAGTGATATTGCCTGCCAGGGAATGCATGTCAATGTCTGGA
GACATCTGGGGTTGTCAGTTCAGGAGGGTAGAGGATAGGGGGGAAAAGGTGCTACTGGCATCTAGTGGGCAAAGGCCAGGGATAGTGCTAAGGATCCTGC
AGTGCAAAGGASCATGCCCACCACAAAATATCAGCAGTGCCGAGGTTGGGAAGCTCTGTGCCATTGTGCAAAGATTCAAGGTGGCTATGTCACAGGACTG
GTACATGTCCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTAATCTCGGCTCACTGCAAGTTCT
GCCTCCTGGGTTCGTGCCATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCCACCACACCTGGCTAATTTTTTTTTTTTTTTTTTT
TTTGCATTTTTAGTCGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGGTCTGCTGATCTCGTAATCCGCCCACCTCGGCCTCACAAAGTGCTGGG
ATTACAGACATGAGCCACCACACCCGCCCTACATGGGTATTCTAACCCAGTCTAGTGATAGTCCAACCTCCTGTACTATGAGTAATTAGCAAAGAATTAA
CAGCAGAAGATCGCTCTCACCAAAGCCCATCCAGAAAGTGGCTCGTATTCAAGGTGCTAATTAGGGTGTTTTGTTGCCAGTAAAAACATGAGTCAGATTT
CATGATTGATTCATGATGACTTTAAAATTAATGCTGCTGTTATCATACAAAGTAGTGGTAAGTGGAGGTAAGAGAATGTTTTTGCTTTGGGGTACTAAGT
CATCGTTATAATAAACACACAGTAAACCCATTTATCTCAGGCTTAATGCTTTCTTGTTTCTTCTAAGCACTTCTTAGGTGCCTCTGGGCTTTTTAACATT
CTTTGGCAGTTGTAATTTATTAATTGATTTTTAAATTTGGCCGGTGAAAATGAACTTTARGTAGGGGTTTGAGGAAAATGAAAAGGCCTATTKGTTTTTC
AGTGGCTGGTTCTTCGTGTTCAGCATTAAGGATTGGTAGAAATCAGGCAACCTCTATGTAACCTCAGCCATCTTGGATTCCCAGCTTACTCACATCATAG
ATGGAGAGTCAGTTGTTTAGAAAAAAACTTTCTTTTTTTTTTCTTTCCTTTTKCTTTTCTTTTCTTTCTTTCTTTCTTTTTTTTTTTTAGGGAGGGTCTG
GCTGTATTGCCCAGGCCGGAGTACAGTGGCACGATCTTGGCTTACTATAGCCTTGACCTCTCTGGCTCMAGTGATCCTCCCACCTCAGCCTCCTGAGTCA
CTGGGACTACAGGTGCACACTACCATGCCCAGCTAAGTTTGTTCATTTTTTGTAGATACAGGGTCTGACTGTATTGCCCAGGCTGGTCTTGAACTCCTGG
CCTCAAAGGATCCTCCCACCTCAGCCTCCCAAAATGCCGAGATTATGGGTATGAGCTACTGTACCCGACCAAGAACTTTCTATTATATAGATTTTAATTA
AAAACAGTCCTGTTGAGTGGCCTCTTTATCAAATGCATTCTCACATAACCTCATAGAAGTGAGCCCTCTTACTGAATTATGTGGCTGGGGTTCTTGGGTA
TGTTTTGTTCTATTTTCTGGTTGGTGGTTTTCTTTCTGTCGGGTCCCGTGGGCTCTTTYTGGACCTCTTCTCAGAATGTTTTTCGTTTTTTTTATTTTTT
GAGATGGAGTCTTGCACTGTGTCCTGGGCTGGAATGCAATGGCAAGATCCCTGCTCACTGCAACCTCCGCCTCTCGAGTTCAAGCGATTCTTCTGCCTCA
GCCTCCTGAGTAGCTGGGATTACAGGTGCATGCCATCACACCTGGCAATTTTTTTTTTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGGCAGGATGG
TCTCGATCTCCTGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCATGCCCAGCCCTCAGAGTGTTTTAAAAT
GCATACTATTAAATACCTAGGATTATAAAGGGAGCCAGCTATACTTACATATAGTTCTCTCTGTGACCCTGTAGAATGCACTGAAGCAAAAATAACAGGT
AATGCTAATCATAAAGTTTTACAAATCTCCTGAAGAGTCTTGTTGGTTTCYGTGTTGATGAAGCAGGAAATTTCCCTGACCCCTTTGCAGGCAGGAAGTG
GAGTGCGGATGCTGGAACTAGCTGGCTGCTTTGGTGCCAGTAGAGGTGAACTGCACTCWCTTGAACCCCCTGCACTCCACCCCTTCTGGGAGGAAGCATG
CAGGTGAGCAGGTGCAGGAGCCAGGGTAAATGCTTTTGGGCACTGGCAGGAATGAACTCTGTACTGGCCCTGGGATAGCATCTGGCAGGGGATGCCCGTG
ACCCCTGAAACCCTAAAAGGAGTGTTACAGTCAGTGCTCTTTTAGTTTTGCCATCCACGGACGGCTTAAGTGTTAACAGTTSAGTGGAGGGTCAGCGTGA
CAGCCTTTTGCACCCACATCTGGGTTCTTGTCCAGTGTCCAGGAGGAAYGAGGTCTCATGAGCAAATTTTAAGGATGGCARATGTGGGGGATTTTATTGC
TGATGAAAGTGGCTTTCACTGGGAAGATAAGCTAAAAAGAAGACAAAGCAGGAAGGTAATTTTCCCCTGGAGCTATGCCATCAAGCTGTTCTTCTGAAGT
CCAGCCGCTTCTCTCCAACTGTGGTCTCTAATTTCCAGCTGCTTCTCCTCTTTTCTTCAATGTGCCAGCGGAGCCTGGGGTTTTTATGGGTACAGGATTG
GGGGCAGGCCGGGCCATGGGTGGTTGTGGAAAAGGCAATATTTGAGTGGAAAAACAGGGATATATGTTCTCACTTTGGGCCACAGTTCCAGGCTTGAGGA
TGGGGCCCTCACCACGGACCTGCCCTCTTCTGCCCAGAATTTCCCTGCCTCCTGTCCCTATCATTGATACCTGCAATTCTTTGTACATATGAAATTTAAT
ATGGTGAGATTGGCATCTAGCTGCTGCTAGAGATAGTGCTCATARTAATTTTTAACATTGATTGAGTGTRGATAATAATCCAGGAGCTGTGCTAAACGTT
TTACAACACATTATCTCACTTAATTTCACAACTCCATAAAGTAGTTTTCACTTAGTTGAGGGATGAAAAAAGTTAGGCTCTGAGAATTGATATTACTCTG
CAAATATGGAATTGGAATTTCAAAGCAATCTATGGTCTTTATCACTTCTCCATTAACTGTCCTTGTTTTATTAATGCTGATTACTTTTTGATTTGGTTTG
GTTCTTTGGAGTTGTTTGCATTTCRTGAGTCTTGGCATCTTTTTGGTAGAGAACCTTGCTAGGTTCTCACAATGTAGAAATTAARCAGAAAACAGAGGTC
TCAATTTGCCTTTTCAGCGTGAATGCAGACTCTTACATTCAGTGCTGGGAGTCTTTCTTGAGGGACAGTGAGAGCGAGGAAGGGTTTCCATTCTCCGAGA
TGGATGGTTGCATTAGTATTTATTTCCTTTTTGTTTTTCCTTAGGATGAGAAAGAAGGCAGTGGAGCCCTTTTCCTTAGGTTAGAATGGTTCTGTTGGTT
GAATTGTGCACCCTGTTTGGTTGAAACAATTGGACAGTAAGGATGTGACTATTATTGTTGCTCTCTAATACTTTATTATGTCATACCAAAAATTATCTTT
TGTATTTTGCTACCAGTTCTTTTAGTTTCTCTTACATGTATGAAGTTGGATAGTTAGAATGAGATGAAAATAAATGGGCTGGGCGTGGTGGCTCATGACT
GTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGAATCACTTGAGGTCAGGAGTTCGAGACTAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAA
ATACAAAATTTTTTTTGTATTTTGGGATTCGGTTTAGGTGATGTGTGTCTGTAATCCCAGCTACTTGGGAGRCTGAGACAGGAGAATCACTTGAACTCCA
GAGGCAGAGGTTGTAGTGAGCCAAACTTGCACAACTGAACTCCAGCCTGGGCGACAGAGGAAGACTCTGTCTCAAAATAAACAAACAAATAAATAAATAA
AAATTGTTTAAACCTGCCAACTACAATAWCTTTTTCAGTCTCTTTCTCCCTTTCCCACCTTCCCAAAAGGGTGGGAAATTTTTAAAGTAAAGTAATAAAC
AAATAAGTTTTGGGTTGGGCRGGAGATTAGTTAGAGACAGGATCTGTAGGTCAGAAGTGGTATTTGGGGGAGTAGGGAGTTTTKTTTTTTTTTCTTTTTC
CCTTATGCATTTGGGAGTGGAAGAGCTGTCAGATTCTGAATTTAGTTAGATTTATAATGCTAGAGACATTCAGCAGTCTGCCTTTYCCTTTCTGTTATAA
AATCATGTTTTTATTGAATTACATTTTAATATTGGTATCACTTTAAAATGAAAATGAGTACTTGCAAAMTGTATTTTTGAAGGAGTTKGGTGGTGGTGGG
GGGATGCCATTTTGGCAACAGATGACTTCGGTTCAAGTCCTCTCTCTGTCTCTTACTTGCTTTGTGGCTTTAGACCAGCCACCCACTCAGAGCCTTGAAA
TCCTCATCTTTGAAATGACCATAGTAAGTTCCTGCCTAGGCTCTCCCCTGAAGCTGAAATGCATGAACATGCTTTGTAATTTTTTTTAAGGATTGATACT
AGCTAGGGTGTTGATAAGAAACAGCAGGCATAGTTACTGGGTGATTGAGAAGAGTTTAACAAAAGACTRTATTAGTCTGTTTTCATGCTWCTGATAAAGR
CAYACCCAATACTAGGTCATTTACAAAAGAAAAAGGTTTATTGGACTTACAGTTCCTTGTGGCTGGGGAGGCGACACAGTGATGGCAGAAGGTGAAAGGC
ACATCTCACATGGCAGCAGGCAAGAAAGAACTTGTGTAGGGAAACTCTCCCTTATGATACCRTCAGATTYCTTGAGACTTATTTGCTATTGTGAGAACAC
CTTGGGAAAGACCTGCYTCCATGATTCARTTACCTCCCACCTGGTCCCTCCTGCAACATGTGGGAATTCAAGAAGAGATTTGGGTGGGTACACAGCCAAA
CCATATCAAAAACCATTTAYAAAACTCTAAGCAGCCTTAAAGGAAACCACCAAGGGACCAAGGCCTGATGAAGCAAGAGTAGGAGGGAACAGATGCTTGG
ATAGGGCAGGTGAGTCACAGGCTGATGGGAGCTGCCACCGTCAGTAGAGGTCCTGATGACCTGGGAGGGTGGGAGCCAGACAGATGGGAGTATCCTAGCC
TCAGTTCCTTTCCATCCTCAGAACTCCTCCCAGTGCCTCTCAATGGCTAAACCAACCAAAGGTTGGAGCTCAAGGAAGCTCCTGAGGCTATCTTTACAGG
TCAGCCAGTTGGGAACAGAGTTGACGGAGAGGGGACAGGAGGTGACTAGATTTGGAAGGAAAATTAGAAAACTTTTGGCCGGGCATGGTGGCTCATGCCT
GTAATCCCAGCACTTTYGGGTCAGTTGAGTCTAACATAGGGGTGTCCAAACTTTTGGCTTCCCTGGGCCACATTGGAAGAAAAAGAATTGTCTTTGGCTG
CACATAATATACAATTGTTGATGAGCTAAAAAAAAAAAAATYCCCRAAAAATCTCATAATGTTTTAAGAAAGTTTATGAATTTGTGTTGGGCCASATTCA
AAGTTGTCCTGGGCCGCATGTGGCCCACCAGCYATGGTTTGGACAAGCYTAGTCTACAGGTTCTTCAAGAGGGGCTTGAGCATTTGAAAGACTTCTAGTG
GGAGAGATCACAAGGKACAASTAGAAAATCCTGGGCTGGCCTGAGAGGCAGACCTGTGATTATTTTGCTCTTTGAAAGTTGTCCTTCTGCACCCATTTTC
CCCAGACCTAACCTCGATTTGTGCTCCAGGTCTGAGCAGAAATGTTATTCCCTCCARAAAGCCTTCCCYKGATGTTGAGGGATGAAGTTGTAGSCCCCTC
CCGAATGCRTCCTCAGAACTCGCTGGTTCTCGTCCTCGCCCTCAGCATACTTGCTCATTGTTTGTTTCCATCTCTATCATCTCTGTGAGCCCTTTGAGGA
TGGATGTGTGTCCATSTTGTTAACAGTTGGMTCCCCAGTAACCAGTACAGTGCCAGATACAGAGTAGTAACCCTACATTSTAGCGTAGGCAAATATTCTA
GTATTTGCCAAAACTAGAGGATGAATGAGTGATGGGTAAGAGAGTTCTCAGAAAAATGGATATAAACAATATTGTAAATCATATTTGGAARATAAATAYT
AGAATCATTGAATCCCTGAGTTATAGAAAAATTTATTAATAGCGCTATCTGGCTACTTTTTAAAGTGTGGACATCCTCGATGTATTAGCTATGCATCTGT
GGATAGGAGGCTTACCCACTCTGAGTCTTGTCAAATACCAAACACAGGAAAACAATATCTTCCTGAGAATGTTGTGAAGAATATATCATCCAGTCAGAGT
GAATCAGCTTGCCCAGTGCTTGGCATATAGCTGCTCAAGAAATATTAGGCATTCTTTGTTATTATAAATCCCCTTTGTATTTTAAAAYCCTCATGTATCA
CTGAAACAACCAACTGAAAACCATTGAGAGGCTCATGGTGAAAGAAGACAGACAGTGTAATTTCCCTGGAAACTCAATTTTGATTCAGACGTCCACAGCA
TCTCATTTCTGCCTTTAAAAAATTTCAAGAGTGRCATTTTGGCATGAYTGGACTCACAGGTGGAGAAGGTATGACAAACATTCTGGAAATCTTGGAAGGT
GAAATATAGGGAAGATGGCCCCTATGGAGGTTCATTGTCCCCCACCTTATTCTAAATAATGACTTTCTTAAAACTACATGTTTTGGGGGAATGTCCTGCA
ATATTGCTTTACATCTTTTTATTTTTTTATTTTATTTTATTTTTTTTGAGACAGAGTCTCTGTCTCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCAC
TGCAACCTCCACCTCCCGGGTTYAAGCGATTCCMCTGCCCTGATCAGCTTCCTGAGTAGCTGGGACTACAGGTGCGCGCTATCATGCCTGGCTAATTTTT
TGTATTTTAGTAGAGACTGGGTTCCACCATGGTGGCCGGGATGGTCTCGATGTCCTTACCTCATGATCTGTTCGTCTCAGCCTCCCAAAGTGCTGGGATG
ACAGGCATGAGCCACCGCACGCAGCGTATTGCTTTATATTTTAAGACTATACACTGATATCCCCGAGCMCCCAAGTTCCTGTCCGCTGGTAGAATTCACA
AAGCTGGTTTTATGTCTCCTTCTCTTCCTCTTCCAGTGTTGTCTTTTCCCTGCATTGAGATAGCATTGCATGGAGATCCTTGTACTCYTCGAACAGAGGC
TGCAGATGGACACAGGATCTGCTCAGGGAGATAAGATCACCTGCTAATTCTGCTTTCTCCATCAGAGTCTGAATGATCAGTGATGGGGACCAGAGCTAGG
TTAGGTCTCTGGAAACGCCCTCTGTCTGAGTCCGGGAGATGGATGATATGGGTAATGACTTGCTGCTTTATCTTCTCTCCATCTCCTTACAGCAGCTCCA
ACTACTGACTTTTATTGTGTGGCAGCTAATTGTAGGATTCTATTTCTGTAAAGAGAAGGCAAGAGAGGAATGCAGTGTCCACCATCCCTGCAGCCCTTTG
GCGCCTTCCCCCTCCCATTACCTTGAAGTAGAGGGAAAGGGGACGACAGAAGAACCCTTAGAAGTAAGACTTTTTCTGTCTCTGATGCCACGGACCTTTG
AAATATTTTTTTGAAAAGAAGGCCTCCCTTGGCTGATACCTTCTGACTGTTAGTGAATAAAGGAAGTTTAAACAATCTCTTCCCTGTAATCATTAATCTC
GTCTTCTTTGTTACAATGTATGTTGTGGTCTTTGTTACAATGTATGTTCACGAATTCCTAGAACACTGTTCCCGTTGGCCATGGGATCAGGGGAAGAGAG
AAGGAAGAGAGAACCAGACACAAGTTGGAGGGAATCCATCTCCAGTGCTGCTCAGAGGTATGACCTAGAGCAAGGGGTTTAGGCTTTCTTGGACTCATTT
TCCTCGGTGGTGAAGTGGGGATAATTTATTGACAGTGGACCGTGAGGTTCTGCGCACAAAATTCGTTGCATAGCACCTGATACACACAAAGCTTTCAGGC
AAGGTTAGTTTCGGGTATTTCCAGCCTTAGTCTTGGCTGTGGGAGCCATAATGGAGTTGTTCAGAAGTTTACAGCTAGTGTTTATAAATTGCTTGCCATG
GGGCCTTGTATACAGTAAGCATTCATTAAGTGTTCCCTCCTATTATATCCTTAGGTTTAAGATACAGGCACCACAACATAAACCACCCCCAGAGTACACA
TGCATGGGTGTAATTTGGTGCCATTCTCCTCCCTTTTGCCCCCACCAAAATGAAGTTTTTAGTGTAAATGTCATGTAGATTTTAACCAAAGGTTGATTGG
AGGGTCTGAGTTTCTCAGCTAAATGAAGGCATGAGGACTGTATCCCTCCTGAAGGGTGTGATCAGTTCCATGAGAAAGAAGCTGCGAGCTGTGGGGCATC
CAAGATAATGTAATCTGCCCCGGGGTCCTGTGAGGGACTGGCCGACAAGGCAGGCTGAATGCAGCCTTGCCCACTGAGCTGGGTTCTCTCTGCTTTAGGT
CCTCTCTGGAGGTGAAGAGGGAAGTCCGCTGATTGTTTTTCTCTTGGTGCAACTTCGCACCACCCTTACATATCCCAGTGTATATGGTAGCCAAGGACAG
TACTGTTTGAGCCTCCCCCATTAAGTGTCAACATTGAATCAATGCAATCCCATGCAAASAAAGCTGAGCATGGGATTGTGCCGGTTTAGCCAGCTAAAGT
GTGGTCTCTGATGCTGATCATGACTATGAAAAGGGAAAATGGAGGAGAATGATGACGAAGGAGGAGGAGGAGGAAAAGGTGACTTGCCTCTAGCTGATGT
GGATTATTTCTCTTTTTTAATTTCCATGTCTGYGTAGCTTCATCATAGATCTCARCTTAAGGACAATGAAAGTCGTTTATTGAGTACTTAGTATGTGCTG
GTTGCAGAGCCAAGTCTTTTTTTTTTTTTTTTTTTTCCTCCTTTTTTGAGAGAGAGAGTCTCACTCTGTCACCCAGACTGGATTGCAGTGGCACAATCTC
AACTGACTGCAACSTGCACCTCTCAGGTTCAAGCAATTATCAGGCCTCAACGTCCTGAGAAGCTGGGACTACAGGCATGTACCACCACACTCAGCTAATA
TTTGTATTTTTAGTAGAGGCGGGGTTTTGCCATGTTGTCCAGGCTGGTCTTGAACACCTGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTG
GGATTACAGGGGTGACCCACCACACCCAGCCAGAGTCAAGTATTTCAAGTATTAGAGTTGTCTGCCTGCCTCCCTGTCTCCCTGCCTTCCTTCCATCTGT
TTGTTATCTGACTTAATCTTTGAAATAACCCAATGATACATGATATGCATTTTCTAGGTAGATAGATGAAGGGTTAGGAAGATGTAACTTGTCCTAAATC
ACGTGTCTTCTAAGCGGTGGAACTGATTTTCTCACTGACTATAGATGTTGAGCCCATTAMTGTGATACCTACTGCCTTTTAATTTTAAAAGTTCTCATTG
TTTTATCGTTTTCATCATTATCATATGATTTACCTCTTCTCTTGTGTCTTATAATCCGATTGGTCATGCTGACATACTAAACCATATTGTTTGCCACTGG
GAACCAATTCATCTGTGAAAAGTCATACAGATAGGCTCGAAGAAAGAGCTTGGTTGTGATGTTGTTGTTGTGACAACTGTCTCGGGGGCTGGAGTTAGAG
CCAGGGTCCCAGCTGCCACAGTTCATGTAGGGGTAGACCAGTGCTTCCTTTTGGGTGATGAGGAAGCTGGATTTGGCAGCTGGTTTTGTCTGGATTTGAA
AGGGAGGTAATCAGGGGTGTGCTGGGAGGGCCAGAACGATCCACCCACGTGTTGGTGCCACCCGGCARTGGAAAAGCCTCTGGCCTCGGCCTTCTCCGGA
AGGTTGTCCGCGGTGCCAGTGAGAGCTGCTTTTCACCTTACAGCAGCCCCGGCCTATCTCTCAGGAGGCCTGCTGATAATCAGTAAATGAAATTCACCTT
TCCCCGATTCTTGAAAACGGAAAAGATGAGGGTTGAATTATAGGGCAAATCATGAACACTGTCTTTTTTCCAGCATGGTATTTTGAGCGGCACAGAAGGG
GGTAATTATTTTATTTGGAAGAACAAATTTAAGTTTGGCAGTTACCTGAAAGAAAATTTAGTGATTGCCAGTCCATTCTCTAGCCTTCTGAAGAAGATAG
ATTGTAATCTTTAATTAAGCTATCACTCACACCMAAAAAAAAAAAAAAAAAAAAAAAAAAGYGGGGCAAGGGGTTGGAGAATGTTCATATCACATTATTT
TGGATGTCTGGGGTTGCACCTGGAAGCTCAGATAGCAATATCTAGGCACGGCTGCCAGYGCTCTATACATTSACGTTTGTTTAATATTTTAATTTCCCCA
TGAGTCTTAAACCTCTGCGTGGTGTGCAAGTTGAGGCCTGGTGTATGCACTTCGGCCACGGGCTTTCCCAYTGTAATGAAGATGGAATGACTCCATGGAT
GACCTTTCCGTGCCTTTGTCTGTAGCCTGCCCTCCTCTTTAACTGAACACCTTCCAGACGAGCATGCTCTGAACTCCTGAACTGSTCATTCTGTTCTCTG
AGAGAATTGCTCAAGCTGCAGTTTATCATTATATGCCTCCAAAGACTTTGTGTTTCCTRTGTTTGACATCGAGATAGAATTTTTCATAACCCTTTACTAG
TAATAAATTTGATTGTTAAGGGACCRGGTTAATCTTATTTCTAATACCAGCATCTGATTTTAAAACCCTGATTTAGGAGCATTTTCTTTCTGCTACCTTC
CTAAAACGCATGGGTGGAAATGTATAAAATATGTCACCTGATATTGGAGGATTGTTTATTTCTGTTCATTTGGTCCTGAATAGTACCTATGAGATGCATT
TGAAAACTTACCTTGTTTATATGTTTCTTCTGTTGCAATTTCTTCCATTACCTGGAATAGCTGCTTTGGACGGCAAACCAAGCAATGCCCTTTCACAGST
GTGGGATGAATGGGGAAAGAAGTCTTGGTAAGGAAGCAATTCAGAGAACATGGAAGCATCTCATGGCAGCAGTCACAATTTTGTGTTGCGTAATATTTCA
GGAACTTGCAACCCTGATAACTTGTGCCTGCCTGTCTGTAGGCCTTTAATGATGTTTTATTGAATTTTGGTTTTCCMCTAGACTTTGCAGTGCATGACAC
ATAGTAATTGCTCAATAAATATGTGTTCAACTGAACTATGGTGGTTAGGTTAGTAATTAGATGCACAGACAAAATCACAGGAATCTGCGTGAGCCTTGTC
CTACTGGTAAAGGAGTCTTGTGAGGATTAATTGAAATAACTCGCAAAAATATCCAGCTCTCTGTTTCCCTGCTAGGGGCTCTTGTCATAGGAGCCATTGT
TGTAGCCTTAGAAAACATACRGCATTATTTTAGGGGGAGAGGTTAGAGTAGAATTTTAAAGAGTGCATTTCTCTTCCAGTAAGCAATTCTGCATCGATAA
AAAGTGGAGAAAGAATAAGTGAAAAAATATTTAGTTAATTCTTGTTGACAGAAGTAGGACTTCAGGTCCACATATATTTCATTGTAGAGTGCACACATGC
ATTTTTAAGAATTTCCCGATTCTCTTCCACGTGTGGACAGATTGGCACATATGTGTGTGTGCAAATTGTACTTGCAGTGGCTGCCTGGGAAATGAAATTT
CTGCACCTTGCCAGARCATGTTTTCCCTCTAAAGAGAGGCAGCTSATAATTAGTAATGCTAATGTCGGGGTGAGATGCAATAGATAATCTAACACCAGCA
ATGATGCCCAGAGCATTTATCTTTGATGCTGGGAATGCGTTCATTTTCTTTATCTTGCCATTACTGTACCTCTATTGGGAAATTTACTCTCTCTTCATAG
ATAGGATCMGATHCAGTACATATTYAKAAAACCACACTTACATTTAAATACAGGCCTTTCCCATTTCACAGTGTTTCTAGCTCCCCTTTCCAATACATCT
CTCTCTCTCTTTCTCTCTCTCTCTCTCWCWCTCTCAMACACACAACACACACACACACACACCGSCAAATCAGACACCAAYATAAACTGTAGAGTTAACA
TTCTTTTTCCACCCTCACACTTTTTTTAGCTCCGATCTGTGTTCAATTTCTGCCTGAGAGAGTGAWATATTCATATATTTAGGTATAGTTAGAAAAAGCA
AAATGGTAACAATAGAATCTTGATGGGATTGATCTCCTGCAGCAAGGAGCAACAGAAAAAAAAAAAAAKGGAATCAAGAACCCAGGTGCTTTTTATAGGT
TAATTGTGCAGGGTTATCATGTATCTCTTTAAAATCACCATCTTGATTCTGAGCTTTGGTTCTACACATTAGAATTGTTGCCTGGGCCTGGATTTTTCCC
CTTGCATGTTGCGTGTGGTAGTCCAGCACATTTGCTGATTGCAAATATACTTGTCTCTTCTCATGGGCATTACTAGTACTCAGGAAATCATTGATGTGGG
GTAAAATGAGAAAAGGATTAGTTTTATTTTGGACAGATAAACAACATGTCATTTTACCAATTGCTCATTAATGCTGATATTTCCCGTGGGTCTCTGACTC
TGAAATCTGCATGGAGTGGTTACACCCTGGGCTTGTTAGCTCCTACCTGAGCTCTGAGTTTCTGTGGATTTCTATAGGCTCCTGCAAATTTTATCTAGTG
GATATTTTGTTAAAAAAAAAAAATGGGGTCTCATTCTGTTGCCCCGGCTGCAGWGCAGTGACATGATCATAACTCATGGTGACCTCAAATTCAYGAGCCC
AAGCGATCTTCCCACCTCAGCCTGAGTAGATGGGACTACAGGCATGTGTCACCATGCCAGGCTAATGTTTAAAAATTTTTCTTAGAGGTAGAGCCTCACT
TTGCTGCCTARGCTGATCTARAACTCCTGGCTTCAAGTGATCCTCCTGCCTTGAGCTCCCGAAGCGCTGGGACCAATAGAGATTTCTCTGAGAATTAGGT
CCCCCACTATTAATAAGGTCATTGTCAGCTGARTTGGGGAGGTGGCGTGGGTAGATACAATTAATTTAGATTTTTTAAAAGGCTTTTGAGAATATTCGGA
GAACCTAATATATTTTGAGACCTGACATTTATTTTAAACGTGAAAAGCAATTTACAAAATTGCACATACTCTATAAATACACTTCTGTTATAAAAATAGA
CACGTACGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTYTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCT
AAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCACCTGTAGKCCCARCTACTTGGGAGGCTGAGGCAGGAGA
ATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGAGCCCGCCACTGYACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAGACACGTACACAGACAAATGTTCTGACAGAAATACACTGAGATATCTACAGTGCTTGTCTCTGGATAGGATAGGGTATAA
TTTAATTGTTTATAGTTAAGTTAATGAACTTGGCCAGACAGACCTGGGATCAAATCCCGCCTCTATCATGAATTGGCTGTGAGGTGTGACATTGAAAAAG
TGATTTAGCCTTTGTTCCCCTCCAGGTCCTTATCTGTAAGGTGGCAGTTACAATAATACCCACCTCCCAGGGTTATATGTCAATGGGTTAGGCACAGACC
TAGGAACTCAGCAAATGGACTACTATGAAGTATTAGCTTTTTACTGTTTCTGGTTTTCTGATTTTTGTCTCCTGTTGTGAACATACGTTGCTTTTGTAAT
ATGAAAAATAAAAAATAAAAGTTAAATTTGTTTTGTTTGTAAGAATCAGTTGAGGACAGATGGGACTATTTGCATGGATTGGTGTCATGTTTGAAGTCAG
TTACCAGAGGGTTTCTTTCAACAGAGTATMCCMAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTAAATTGCACAGACCCCAGCTTAGGACCTGGACTTAA
TCTTCATGATGTTTGTAAAGTAATACTTCTTGGAGAAACCTCCCAAATTTCTATCGACACTAGACATCTCAGGATTTGAAATGTTAAGCTAACRAATTGT
TCATCAGGTGTATCTCCAGCCCTYCGTAAACACTGCCGGATGGATGAACCTACGTAATGATCTCCTGGTGCCATTTTCCTGACTGTAGATACTTGGGTAA
GGAGGAGACTTTGACTCTAGATGACATGATGTACCCTGTGTTCTGCAAGCTGGAGAACATCATGTARAATCTGAAAATTAGGAGAGAGAGGCAATCAGAA
RAAGACAGAGTGGTGTTGCAGGGACCTGCAGTCAGCCTAGTCCCCCAGTTTGCGTTTGAATTTGGTCCCAGATTTTTTTTGTTTTTGTTTTTTAGTAGTT
AAAGCTGAGAGCAAACCACATTGCTTACTATTGTCAGGGAATGAAAACTATGCAACAGAAGCCGATGTGCAGAGGTGACCGTGTTCGCTGGAATTGAACT
TAAGCAGGTTCCTACCGCACAGATCCACACAGGAGGGATTGCGTAATGCACCCAGCAGAGTTGTGCTCAACTGTGATTTTATAAAAGACACAGAAACACA
TATTAAATAGACAATTCTTCTATCAGCCCTCTAAACTGGCATAACCTTGAATCATAATTCAATGAATGCATTTCTGTGAGAAGTGAAGGTAATAAGCTCC
AAGTGCTTTCGTTTCCTTTCTTTCTTTCTTAATGCAGGGAAAATTGAGATGGGATTCTCAGTTAAAACCCAAACGACGGGCCTGGGGGTTGTCACAATGT
GATCCCTGAGGATGTTAGCCCCAATGTCTTTCTGTAGCCAGAACCAATAGAAAAATGAGAGGAGGAGAGTAGAAGCAGAATAGCAAACAATTTTTCCTTT
CATGGTCTACCTGTGTGACTGTGTATATGTCCAGAAGGGGATGTGGTTGGGGAAGGGCATAGTACACATATTTGAGCAGAGTACATGTGTTTCATTTCTT
GCTCATACGACATGTCCAGTGTGGGCTGGCATGTTCTTCTGCACAGTCCCTGAGGGACCCGGACTTATAGAGTCTGTGATCTCACAGCTGCTACATCTGG
CACAGATGGCCTTCTTGATCTCCAGTTAGGGCGAGTCACAACAGCAATTAAATGGTTTGGTCTGAAGTGTCACGAGTCGTTTCCTCTTGGCTGCCTACTG
GCTAGGCCAGTCACGTGGCCCTGAAGAGGGTGGGAATGTCTCATCCCCCTGTGGGCTTAGAAGAAAACCAGAGGTCTGTGCACACTATGGATTTTTACTA
CAATGATGCCCTTTYACATACAGCGAGAARGATTAAGAGGTACTGWATTGKTGGTTRATAAAGTCAAACTTGTGAACAGAGCAAAAGGGCATTGCTTGGT
CATTGCAGCTTCCACCCATGCACCTTACACAGAAGTTTGGGCCCTAACATGGAAACTTTTCAACACTGGCCAAATTCTGTTTGAAGCACTGTATTGAGCA
TACCATATGCTGAAAGACTTGGAATGCAAAAACCTAAGGCCAAGGGCACTTCTCAATATTAAACCCYCAGTTGTAAKGGAGGCATCAAGACTATAAGAYC
CAAGACCTTAACTTTTGTGCTCCTTGTCTTGTGGAGGGAACATCCATCCTCAAAACAGAAACCTGTGAGATCCCTTGAATATACTGACAATACACTGATG
AGAATTGAATGCCCCATAAATTGCATCTCCCGCAGGGCCTGATAGGTGCCCTGTCTTCCTGCTTATGACTCTGAAACCCTGTTTATTTGTATCAAGGACG
GTTGGTACTTTAATCATCAATAAACTAACATCTCAACAGCCTGCCATAAATTTCTTGTCAAAAAAAGAGGTTATGATTAGAATACTGTGATTAAAGAGAA
TTTGTAGATAGACTTACATCCCTCAGTTTCAAAGCTTCTAGTAGTAGGGCTTAGAGGTTCCTAGAGTAGGAAAAGCCTAGCCAAGCAGAAACCCATGTTT
TTGACTTTCAGGATATTTGTGAATTAATTTACTTGCATATATTGGCCAAGATCTAGCATAATCTCTTAATATTCARTGAATAAAAAATTGAGTTTTGAGA
GCAAATATTTTGGTAGGAAATAGAGAACTGACACTAATATTCTCTCTGACTATAATTGTAAAACAGTAGATGTCTTTCACCAAGCGCTAACATTATATTA
ATTATTAATAAAATCCAACTCCTTAATAATACWATCATAGTTACCATTTATTGAGAGCACTCTTCTGAACATTTTGCATTCTTTATTTAATCTTMCCTAC
AACCTTATTAAGTAGACATTATCTTCATCTTATTAAGTAGTCAGTTCCTCATTTGCAGATGAGGAAACTGGCTGACTGAGTTAAATGAATGCCAAAGTCA
CAGAGCTGCTGAGTGGCAGAGTTGTAATTCCCATGCAGAACTGTGTGGCATCAAAGCCATTTTTWAACTCATTGCAATGCACAGTGGGTTAAAATGAGAT
GATTGAAAATGAGATGTGGCTGGGCATGGTGGCTCACACCTCTAATTCCAGCACTTTGAGAGGATAACTTGAGTCCGGGAGTTTGAGACCAGCCTGGGCA
ACAGAGCCAGACCATCYATCTCTACAAAAAATTTAAAAATTAGCTGGGTATGGTTGTGCACTCCTGTGGTTCCAGCTACTCAGGAGACTGCGGTAGGGGG
ATCACTTCAGCCCAGAAGTTCAAGGCTGCAGTGAGCTGTGATCGYTCCACTGCACTCTAGCATGCGTGACAGAGTGAGACTATCTCAAAAAAGAAAAAAT
GAGATTATGGCCAGGGGTGGTGGCTCCTGCCTATAATCCTAGCCCTTTGGGAGGCCAAGGTGGGAACATCATTTGAGCCCAGGAGTTAAAGACCAGCCTG
GGCACATAGTGAGACASCAGCTTTACAAAAGAGAGAGAGAGAAAGAAAGAGAGAGAGATTATTTCTAGAATAAGCAAACCAAACGTGAATTAAGTTTTCA
TTCTCATTTTAGTGATTCTCTAAGTACATACCCACATTCTGATTCCCTCAGCACTTTAGGACTGACTGATTAGCAGTAACTGCCCTCCCACTGGTACCAC
TGTGGCCAGGGAGTGACTGCAAGGGTCAAAACTTTTGTTGGGGAGCTGTTTGGACTAAGTGAATGTCCAGCCCCAACTCAGGGATGTTGTATTGGTTCTA
ATCTCTGCTTCTGAGGAAATGGTTACCTGCAGGGCGATTGTGGCCTGCTCCTCGTGGGATATATTGAGATGGTTCCTTTTAATCCATTTCTTTTAAAAAA
AAAATTCTTTTTAAAGAGATGGGATTTCATTATGTTGCCCAGGTTGGCCTCAAAGTCCTGGGATGAAGAGCTTCTCCTGTCTTAGTCTCCTGAGTAGCTG
GGACGACAGGTGCCTGCAACCATGTCTGGCTTAAATCCATCCTTAAACAAGTTCAATGTTTTATTTCCTTCAGATAAAATGAGAGTGGAGAGACCACAGT
GATGCCCAGGAATAGTCATGGTTGGCGATTAAATAGCCATTGAGTCTCTATTCTGAAACAGGCACCGTGTTCATTTGCTATGGCTAACATGACAAAATAC
CACCCACTGGGGATATTAAACATTAGAAACTTACTGTCTCACAGTTCTGGAGGCTGGAAATTCAAGACAAAGTTGCTGGCAGGGTCTCTCTGAGGCCTCT
CTCCTTGGCTTGCAGACGGCCGCCTTCTTGCTCTGTCCTCACGTGGCCTTCCGTCTGTTTCTTGGTGCACATCCCTGGTGTCTCTTCCTCCTCTTATAAG
GACACCAGTCCTCTTGGATTAGGGCACCACGCTTATGACATCATTTAACTTAGTTACCCTTTCAAAGGCTTTGTCTTGAAATACAGTCACATGGAGGGTT
AGAACTTCAGGATATAAATTTGAGGGGGACGCAGTTTAGTCTGTAACATGCTCTATGCTGGGCACAAGGAATGTTATGGTGGATAAGGGGAAAATGGTCC
CTACCCTCTGTCAGTTTTTTATGGAAGAAGAAAGACGGTCTTTAAAGAAATTYACATAATTAATCACAAAAAGCTAATACTATGACAAAGAATGTAAGTT
ACTAATACAGCTTAGAACAGATGACTCTAACCTTGTGTAGGAGCTAGAGAAGGCTTCTCTGAGGAGGTGAGGTTGGAACTGAAGCATGAAAGGGAACAGA
AGGGGGTCAGGCAGGAGAAGGCTTGGGACCAGGAGGTAGAGAAAACAGTAGTGTGATCAGAACTTTAAGGCCCGGTTCTGTATACAACAGGTTTCGGGAC
TTGAAAGGCAGCCCACATTGAGTGTAACTAGAAAGTGAGGGCAAGAGATTGTTCAAAAGAATACTGGACCCAGAGTTTCATCACTTTGTTAATTACATCT
CATATTGTGGGATTGCAATTACCTTGCCCAAGAAAAGATTATTTACGATTCCATTGTTTATATTGTTTGTTGAAATAATTAATTCTCAAAACTTCTGGAT
ACCTGAGACTCAGCTAGGAACTTATTTTTAAAATATAAATTCCTAGTCCCACTCCCTAAAGATTCTGAGTTAGTACATTCAGGATGGGGTCTAGGAATCA
GTGTGTTTAAGAAGTGCATCAGGTTCTTCTGGTACTGATTGTCCATGAACCACACTTTGAGAAAGCTCCATCTAAAGAGATAAGTTACTGACGTGTGTTA
CCAGAGAGAGCCTAGAAAACCTGGGCACAACAGTAGTTGTTAAGAACTACCAGACCTGGGCCAGGCCCGGTGGCTCATGCCCGTAATCTTAGCACTTTGG
GAGGCTGAGGCGGGTGGATCACTTGAGCCCAGGGGTTTCAGATCAGTCTGGGCAACATGGTGAAACCCTACCTCTACAAAAAATAGAAAAAATTAGCTGG
GCATGGTAGTGCATGCCTGTGGTCCCAGCTACTTGGGAGGCTGAGGTTCGAGGGTTGCTTGAGCCTGGGAGGTCAAAGCTGCAGTGAGCCAAGATCATGC
CACTGCACTCCAGCCTGGGAGAGTGTGAGACCTTGTCTCAGAAAAAAAAAAAAAAAAACAACTACCCAAGGCCTGTTGGAATGTCTGCCAGTTTCAACCC
ACGGGGATAGGGTGAGATGAACATTGATTGAGCCTTTACATYGGAGACACTATAACAAATGCTTTGYGTACATCAGCTCTTTCAAATTAATACAATTCTA
CTAGAGGGGRCACTATTAGTATCCCCAATTTACAGATGAAAAAAATGAGGGACAGAGAGGTTAGATGTGTATCTAAGGTCACATAGCTCACAAACGACAC
AGCATGCACCCAAATGCCAGGTTTCAATGACCCTGTGGTGAAGTGTGATTGCTGGCATTTGCCTAGTGTTGACTGTGCTCTAGACACTGTATTAGTTACA
AGTGATTCTACTTCTCATTCATTAGGCCATCCAGAAAGCCTTGTGCTTTAGTCTGTCCTGGCTACTATAACAAAATATCATAAACTAGGTGGCTTATAAA
CACCTGAAATCTATTTCTCATAGTTCTTGAGGCTGGGAAGTCCAAGATCAAGCTGCTGGCAGATTGAGTGTTTGGCAACGGCCCACTTTCTGGTTCCTAG
ATGTTCACCTCCTTGCTATGTCCTCATATCGKGGGAGGGGCAAAGGGTCTCTCTATCTGGCCTCTTTTAAGCCCTTAACCCATTCATGAAGGCTTTGCCT
CAATGACCTAATCACCTCCCAAAGGCCCTACCTCCTAATATATTATATTGGTGATTAAATTTCAACATATGGCTGGGCGTGGTGGCTCACACCTGTAATC
CCAGCACTTTGGGAGGCTGAGATGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATGTGGTGAAACCCCGTCTTTTCTAAAAACATTT
TAAAAATTAGCCGGGTGTGGTGGTGAATGCCTGTAATCTCAGGTACTCCAGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTG
AGCTGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAATTCAACWTACSAATTTTGCGAG
GACGCAAACATTTAATCCGTAGTACTGATGTGGATATGATTTGAGCTAAGACTCTGCTGTTGATTCTCTTCAAAAACTTGGCAGTAGCCCTTGGATCCCA
TTAATTGCATTCAACAGKCATGTATTTTATTAATTTTTGTTCCTAAAGAAAAAAAAAAATCCAGATTGCTTAGAAAATAAATGTGACTCACGCAGAGCAG
AATCCGAATTTTCTAAGTGATGAACATGTTAACATATTATTTTAATCTAAAGACATCCTATCCCTGAATTTAGGGGGAGACATTTTTTTAAGTAAGGTTT
ATTTTTAAAATTGTTTTGCAAACATTTTAACAGTACATCACTGCCTCATTGGATGAATCATATTTTTAACTTTCACTTCCCATCAATTTAAACATCATCT
CTCAAGGAACTGATGGGCCGGTTGACTCTAAATGATTTTGCCTTTCATGCAGTATTGTTCCATCCGCCTGCCACAGAAGTGATTCCAGGTCATTCCAATT
TATTTAATTAATTTTGGAGATGAAATTATTTTGCCCAATAACTAGAATGCTAATGGGACTTAGTGTAATGGTTTAGTTCAGGTTTGTTGGTTTGAAAATA
AACGCCTTCATTTCAATATTTGCCTTTTGGCTGCAGCCCGTTAACTGGTCACATGCTGTAACCTCATTAACATCAAGGCTTAATTGTAAGTTAATGTGCA
CCTAGTTTTTGTAAAGAAGGTTTCTATCTTAACTGCCAAGTTTTGCCCCCCAAATATAGCCCCAAACTGGCATTTCCAACAGATGGATGGGTTGGTGTAA
TATAATTCATGCTTTTAAACATCATACTTTTATCGGTGCCTTGATAATAAATATTTGAACTTATTTTTAGAAGTTAGAATAAAGTGAGGAAAATAAATCT
CAGCTCTCTAGAGTGTCACTGTGGTATTGAGATTTGTGGAGGTGTACTACATCCGTAATTGGGAGAGATTGCCGGTCGTAAAGGAGGGACAATAGAACCT
CTGTAGAATCAAAGGCAGAATTAAAATCTGCATGTTAATAGCTTTCCTGCCAGCCACGAATAGATTCATTCTTCACGTCTCARATATATAAAGCTTATTT
CAAAATAAATTCTGGGGAGCGTTCAACCTGATTGAATCTGCTGTAAGCTCTGTTAATATATTTGTTCGAGTCACTTGCACTCAAAAGGTTTTTAGACAGA
ATATCACTTTTTTATATTATTCATGGTAATGTAATTCCCCCCTTTAATCTCTTCAGGGTTTCCCATTCAGTCATGATATGCGGTTCARAGAAAGTTGGAT
CGACCATTAATCATGCTATCTCGACTTCTGTGTGTCTCCTTTTTGTCCATCTCTTAAATCAGTCACTTGGCAGCAGCAAGACATGTGGCCACTCCAGACC
AWTTGATCGAARAGCTCTTGTTAGGAGATTAGGCTGCTAATCTGCAAGCGAGCTAATGGAAATCATTCTGGGCAAGGAAACAAAACTGAACAACATTAGC
AAAATCACTACATATTATAGGAATCAAGTACATTCTGAACGGCTTAATCCTACAGTTTAGATATGAASCCTAAGGGTAAGATGAACGTCTTAGATGATCT
GAGATATCCAAATACCTGTAACAAACATTTGTATGGTGTATGTAGGGCAGGAACCCCATCAGAATTGGGGAATCTTTAAAGGATTTTTTATTTAGCCAGA
TAAAATAAACAAGGACAGAGTTGACTGAGAAAAAAGAAAGAAAAAAAAGAAAAGTCAGGAGAGGAGGACTGAAAATTCCCATCCCACCCCCGCAACAATG
AAGGGAAATGCCTAGGTTGAAAACACGCAATACACATTCAATAAATGTTCATGGTTGAATGAAGTTACCTGGTAGGGATTTAATCTTTATTTCAAAAAGA
GTGGCTGTGAATCTTTAAAAATTTCTTTGGTTCTTTAACATTCTCTTCTTCACTAAACCCAAATTAATAATTCCTTACTATTGKCATTAAAAGTTCTCAC
TGGATCATTCCATTTATACTCAGARKAACAAAGCAAACCCAATTATTTGAGAGACACTGAAATGAATTTTGAGTCTAGAACAGCATCTGCAAACTTTGCA
AAGGTTCACATGATAAATATTTTCTGCTTTGTGGCCTACAAGGTACCTATCACAACTACTAAGCTATCATGCATTAGTGAAAGCACATAGATAATCTATA
ARCCAATGGGCATGGTTGTGTGACAATAAAACTTTATTTAGAAAAACAGGTGGTAGACTGGATTTAGCTTGTGGGTTGTAGTTTGCTGGCCTCTGGTCAA
GAGCACTTGTTTGTCTGGGAGACATAATTTCAAAAATCATTTTCTTTTTTGATTTTCATGGTTTTAGAACATGATATTTTCTACTATGGATGAATGCTCC
TCTTTTGAATTTTCATTTTTGTCTGACATAACTCAAAGTGCTTGCTTTGGGAGTTCTTGTTAACCCTGACAAWTCTTGTCAAATATCTTACTCCTGGGCT
GTGCTGGGGATGGCAGCAGAGTGGGGTGGTTGGATGGRAAGGCGGGAAAGAGCTAGCTTGGAGATGATACGCTTTTCCAYCCTTGAATAACTTGGGAAAA
AGTCAGGAGTGTGGAATGAAGAATTGGAATATAAAGGCTGAGGGCGGACCTAATTTTTTTTTTAAGGATTAAGAAAAAAGGAGTAAGAGAGATGGTATGA
CTTATCACTTGGCTGGGGACTCAGCATTAATTGATAAATCCACTGTAAGGAATGCATGACACTGTCTTTTGAAGAAAGACATTGCATGTTAGGATTCTGA
GTAACAGTCAATATATTCAGTGAAACAAATACCTAATATATTCCATGAAACAAGTATCGTGAATATATTCCATGAAACAAATATCATGAATATATTGTGT
GAAACAAATATCGTGAATATATTCCATGAAACAGATATCCAGTATATTCCATGAAACAAATATCATGAATTTATTCCATGAAACAAATATCGTGAATATA
TTCCATGAAACAAAATACTGTGAAATCATACCASTGATTTTTGAAGAAACCTAATGAAAACAGCATGCTCCTATATCTTTTTTCTGGGTGATCTTTAGAT
ATCTCGTCTTCCAAACTTTTGTGTAGCATTGTCTGAATTTTCCCAAGAAAGGAGGATGTTGATCTCCTATTTATTTATATTTATTTAAATTTTTAACCTT
TACATTGACCCAGTGTTGTAAGGAAATGGGAGAATATTGCCCTGATGTCTGGGAAATTGGGACTCCCATCCTACAATTCAAGTGTTGGAATGTTGCAGGG
AGGCTGGGCTAAGGTGTTCTGTTCCTGTCTCTGGTTCAAAGGAAAGGAATAGCCTAGACCTAAAGGATTCTGTCTGGTAGCTGKTTGCTCTTCGCGCCTG
TGCTTTGAATGGTGAATACCCTCGGCGGGAGGCAGGCACCTGATGCCACTGCCCCCGCCCCACCTGCCCCCGCCCCGTTTCTCAGATCACACAGGCAGGC
TGAGGAGYGCTTAACACCCCAGCCTCCCATGAAGCATCCTGAAAAAGCAGACTTTGTCTTCCTCCATCAGCTTTGTTTGTCCTCTGCCGAGACTCCAGGG
ACATGATTGCTCTTCATTTTACGCTCGAGATCAAAATAAACAGAAACCACTTTCAGCTTTCCCGTTCCAGGGTTAAGTGCCCAAGCAGGTGTTGTTTCTG
TTATGTGGTTTGCAGTGAGCAAAACCACCCCCTCTTAMCTGTGGCAGCAAAGGCAGGGAGACTTTGAGACCTGGGGAGGGCTCTCTGCTGTGTTAACAGA
ACTGGCTCTTGGTTGGGGGGTGGGGGGCACCCATTCTTGGCTTCTTATAACACTTCCTTTCTCATGCATTACCTGGGGCTCCCTCTGGAAAGAAAATGGT
GGAGAGGTTACTGGCCTGATGACCCAGGGACCCAGGCAGTCCTTACAGGGACCCAGAATTTCACAWGCAAATGTGACCTCCAATTAAAGCTGGACTTGAT
TAACCCCATTTCCCCTCAAAAGATGATACTTGTAATGCCGTTCCGATGAGGCCGTCTCACTCCGTAAACTGTCATCTGATTTACACAAAGCCATCTGCTT
CCATACGGGGTGTTTTATTTGGGATCCAGGAGGGGAGAAGGCGCATCTGCCCCCTCCATAGCATCTGAATCTTAATGAATAAAAGCACTGACACTTCTTT
AAAAGGGAATAGCGTGATGCTATTTACAGTTTATACAGTTTTGTAATCCAGCTCCATGCTGGATATTTACCGTCAGTCATTTGAGGAAGTTCACTTCTCT
GCTGGTTTTCTGAGTGAGGGAGCGATGAGTAGAGGAGCAGCTGGAGGGTCCAGGAGCCCCCTGAACTGAGTATCCGGTGGGAGGTCAGATTTCCGCATTC
AGAACGAGAGCTCATACGGCATCCACGCGTGTCTTTCTCAYGCATATCCCCAGCCCGAGTAGAAGAGGACTTCTGCATCTCTGTTAGTTCTTTCTCCTCC
TAAGAAAAAGCAGATTTTAAGTAACTTATCATTTGTTCATTTAATTACTCATTCTTTATTCCTTCTTCATTCATTTTCCTTTTCTCCTTCCTTTCTCCCT
CTGTTCTCTCTGTTTTAACAGGTTTTATTCTTATTGTGGTATGGTAAGGCCAAGATGAGGAAATGACTGCTATTGCAAAGATGGTTTGTTACTCACAGAT
CCATGGGGACTCCACATGCCACAGGGAGTTACCTGGGAAAGCCCCAGGGTTGGGCAGGAGGCAGAGGGAGAGGGGGAGAACTGTCAAGAGTTTTGAGCTG
GAAGCTATTATCCTCAGCAAACTAACACAGGAACAGAAAACCAAATACCGCATGGTGTCACTTGTAAGTGGGAGCTGAACAATGAGAACACATGGACACA
GGGAGGGAAACAACACACACTGGGGCTTGTGAGGAGTGGGGTTGGGGGAGGGAGAGCATCAGGAAGAATAGCTAATGGATGTTGGGCTTAATACCTAGGC
GATGGGTTGATAGGTGCAGCAAACCACCATGGCACAGRTTTACCTATGTAACAAACCTGCACATCCTGCACATGTACCCTGGAACTTAAATTTTTTTAAA
AAATGTTTTTATTGTGATTTTCACAGGAAAGAAGGGGCCAGGCAGGGTAAGCAGGCTTAGGATTGGCTGGCTTGGGTCATTTCCATGGGCTCTGGGACAC
AGGGGTTGTCTTTAGGTGTCTGACCCATGGCTATGGGGTGATTAGGGTAGGTGGGTGTGGCCTGGAGTTCGAGCCCAATAAAGCCAGTGGTGAGGGTGTG
GCTGTGAATTGGTTGGTTTGCATTTGAACTGTGGTTACCAGTGAGCTGTCTACTATCTCTAAGAATCCGCTAGAGCCCTGTAAAGAAAGCCTACAAGGGA
GCAGGTTTTAGGCAATAATAAGTGAGCAGTATGGCGCCCTAATAGAAGGAGGGATGCCTGTGGCCAATATACACGGCTCAAAGTTGACCATGATAGAGAA
SYTTTCCCTAGAAGGTCTGTGAGGGAGGAGGCCTGGGAGAGACAGCAGGGTGACCAGAGTAAGTGAAGTCACCGAGGTGCCAATGAGTGTGGCCCTGCAG
GTCCTGCAGACCCCCCTGGTGGCAGTATTGGTGGTCACAGCTGGCAAAGGGAAGTGTGGCTGCCCGGAGAGCTTGGCTGAGGTTGGAACGTGGGAGTTTA
AGAGAGCAAACTCCMACAGCTTGGTGCAGAGAGAAAAGTGTAGAAAGGTCGGGTGTCATACAGCAGAGGGCTGTGATGCTCTACTGAGGAGTGGAAGTGT
TTTTCTGAGGGCATCAAACACGCCGTCAAGCAGGGAGGCAACAAATCTGAGTYGTTCCACAGATACTTTGAGTGCAGTACAAGTTGGTAATGGGTAACAG
GCTAAACCATGTGGCACCCCTTCCCTCTTATCAGCTTCTTGCTACCATGCAGAAAAGTGCTGAAGGTGGCCTGCCYTAAGGCAGTAGCACTAGAGCAGGG
ATGGGGAGGACTTGSTGGCCAGATGCATGTGGACATGATGGAAAGGGAAGAGAAGAACTGTCAAGATTTTCACTATCAGTGGTATAAGCCCCGTAGTAAT
ATGCCTAGTGTTCCATTATTGGAACACTAAGTATGTGGGAATTATTTATATCCTACCGCTCAAAGCCATCACCAAGGTCTGATCGTGAAAATTCAAAAAA
TTGCAACCTGAGGCATAAATGGGTTTTAAGCTCCATACAGTAAAACYTAGCATATGAAAACAGTTCTGGCTGATGGGTTGGTAGAARKGATAGATATAGA
TACATAYATACACATATATGCACAGTAATAGATATAGGTAAAGACCTTGATATATGTACATATATTGTATGATACATATCCATGCATATACGTGGGTGTA
CACACACAGGTACACACAAATATATATGTGCCTTTGGACAARAAAAAATCCCCAGGACAGTCTCATTTGGCTTTTAAAATGCTGCAGTTGAATAGGACCG
TAGAGGTGGCCTAAGGCAGCCTTCCATTCAGGGCACGCAGATTTGGTTCCTCAGCTCCCTTCTTCTCTATTTCTGAGTCACGTGGGCTGCACCTATCTGT
CAGAAGCCCACTGCCCACCCAGAGCCCCTGACTCTGAATGGTGGCCCAGTGCTTTCTGAAGACAGAGGTGGGACCTGGTGCTGGAGACAATCCATTCCTT
TCACAAAGACTGTAAGCCTTACCCAAGCATTAATTTTGCTGCATAGRCGGCCTGTTCTCCCACAAAGCACTGAGTAAGAAGAAAAGGGGCCCGGATAAAC
CAGCAGGGCCTGGCAGACAACTTCTGGCTCCCTTGCCATTTAAGGTCCCGAGGAATGTGGAGACATTGGTGGGGGCCAGGGTGGGTTTGGAAGGACGGAT
TTTTTCCTCTTTGTCTCTATCTCTCTTTCTCTCTGTCTTTTTCTCTTTCTCTCATAGTTAATGCTATGATTTTGTAAAAAAAAAAAAAAAAAAAAAAATT
CTAGTTTCTCAGAATCCTCATTGGAGGCATGTGTATATTTCTAAATTTAAATGTATTCTCCTATACTGTCCGGGGAAAGGAAGCATTTTTCAACCAAACT
GAAAGGGAAAGGTACTCTTTTTTATTCTAATACTCACATTTCCCAAAACATATCCTTAATATTGTACATTTGGCACAGTTATTGTTGAATACTTGGAAGG
CGATGTGTATAGCATACAGAGCTGCAGCTTTGGACTTTGTGGCTTTAGGTAAATTACTTATTCTCTTTGCACCTCAGTGTATTCTTCTGACTAATGGGGA
CAGTAGCAACATCGATGTCTCGGGGCTTCTGTGAGTATTCATCAAGGTAATATATGCAGGCCAGTACCACATTCCCCACTAAAGGAGTGCCACTTTTTTT
TTTTTTTTTTACTACTTGCATTATTGTTGTTGTTGTTGCTGTACGTCTGAAGGGCTTTAGTCCTCTTATGAGCAAGGCAAAAGGGACAATGTTCACCCTT
TGGACTGGAAGTAAGAAGCCCCTGCAGTTCCAAATGACTCCACATTTGGAATGATTTCACAAGGAGTGCAAAAGAAGCCTCTTGTTTGACTTTGCCCACA
AATGCCAGAGGAGGACTCTTCTGAGCCATGCCAATAAGAAAAATGAGAATGCCAGCTTAAATAAATGTTATCACAATCTCTGCAGAATCGTGATGTCTCC
GATTCTTAAAAGTGTCTACTGCAGGGTATTTATTATTCTGTGATAATAATAAATCGCTGCTTATGAAATGCAAGGAATCGAGTGTCATGGAGGGGAGGAA
GGGAAGTAACAGGGAGAAGAACTGTGAGAGATGGAGGTCCAGCCAGGCCCGGGCTATTAATCATCGCCCTCCATTATTTCCTGAAGATTCATTCATTGTT
CCATAGGTACCTAGAGGGTCAATTAGAGACCACAGACAGGCTTTTTCAAAGACGCAAGAGGGTCAATTAGGCCCTCCTTATAATTTTCTGCTTTAACAGC
AAATGCCAGCCTATCGTGCATCAGATGCAAGGGAGTTTGGAAATAAACAGGGTACTTTCCCTCCTCCTCTAAAAAAAAAAAAAAAGAAAAAATCCAACAC
AGAGACATGGAGACAGTCGGCGATTGGGAACGCTTGGCTTGCTGGCTGTCAGGATCTGGTTCAAGGAAGGCAAAGGGAATTTTATCACCAACTGGGACTT
GAGAGGAGCAGAGTTCTTCTGGTCTCAGAGCACGGGGAACGGTCAGGGAATTTGTATGATGGAGCACCCTGTTCCCATATCTGAGATGATTCATTTATCT
TGAGTGCCATCTTAACTACAATTAGAGTACAATTATAAAGTATCTACAATGGAAATGGGTCTTGAAATCAATCGCAGCTGGACCGGCGTGCGGTGAGTTG
CCGTGCCCACCACGACTGCTGTCTGTGTTTAGGACAGAGTTCAACCAAACGTACCGGTGTGTGATTTTGCACAACACTGCTTTGTATTTGTTTTCCCTGA
GACCGGCAAACACATTTTTTATTTATTTTATTTTTATTTTTCGAGATGGACTTTCGCTTTTTTGCCCAGCCTGGAGTGAAGTGGCATGATCTCGGCTCAC
TGCAAACTACCCCCGCCCCCGGGTTCAAGCAATTSTCGCACCTCAGCCTCCCAAGTAACTGGGATTACAGGTGCCCACCACCAAGCCCGGCTAAKTTTTS
TATTTTMAATAGAGATGAGGTTTTGCCATATTGGTCAGGCTGGTCTTGAACTCTTGACCTCAGGTGATTCACCCACCTCAGCCTCCCAAAGTGCAGGGAT
TAAGGCGTGAGCCACCGAGCCCAGCCGGCAAACTTAYTTTAAAACACATTGCAATAAAATAAAAAGAAAAGGGATTGTSCTAAGTGAGAAGCAGAGATGA
AAATGTGGAAGGATGATTGTGAGAAGTCCACATTGCTCCATTTGGACTTCCTTTTTGTAGTGGGCTATTAGATTTTGCCTCTGCTTGTTTCTGAATACCC
AAGCTTGCTAACAMAGGGAAAGACCAATTATCATGATTATTATTATTTACCTTAAGACCTGATTCTACCTATCTATGATCACATAGACATTTGGAAGCAA
AGAGAAATGCTTTTCATGTGGGAAAAACCAATACCAACTTCAGTGATATTATTTCTCCGCCCCCCGCACCGGGCTCTTGGGAATATCTCTTAGCCCTCAA
TTGTCACATTCATTCAGCAGATGTTAGCACGTGCAGGCACCATTCTAGGTGTTGGGGATACATCCAAAAACAAGCAGGAAAACCCCATTCTCTTCATTTC
TGGAATGCCGGAGCACTGGGCCCATGGAGCCCGTTTCACTTACACGTTTTTGTCGTCTTTGAGTTTCCAAGAAGGGAGTGGCACTATAGCTGAAGAGGAT
GACCCTCTATCACAGCCTTTGCTAAAACCACTGAAAACTGTCTTATTTTTCATTTTGCCCGGAAATGCGACACATAAGTGCATTCCTCTAGGGAAGGATT
TTTTTTTTTTTTTTTTTTTTTGAGACAGGAGTCTCACTCTGTTGTCCAAGCTGGAGTGCAGTGGCGCGATGTCAGCTCACTGCAACCTCCGCCTCCTGGG
TTCAAACAATTCTCCTACSTCAGCCTCCTGAGTAGCTGGGATTATAGTCACCTACCACCATACCCAGCTAATTTTTGTATTTTTTAGTAGAAACAGTGTT
TCACCAGGTTGGCCAGGCTGCTCTCGAACTCCTGACCTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCAGAGCAGGAATTTCATTGGATTTSTACA
CTGCTGCTTTTTCAGAGCCTGGAACAGTGCCAAGCACATAGTCGGCCCTCAGTGAGCATTTGTTGACTAACTTAGGTCACAGATGTGGGGCTGTGATTCT
GAAGGCCCCGGCTCATTCTTGGCTTTCAGAGAGGTTTGCTTTCACTCCTGGGCAGCAGCTGCCCTGGCTGCTGCCACCACCGCCTTCCCGGAGGTCAGCT
TTATTTTCAGTGTTTTTGCCCTTCCGATCCCTGGGTAAGAAGTAAGAAAATTTCTAGTGCCTGGAGTCTCCATCCTCGTTTCCCAGTCATATCCTAGAAG
CTGCAAATTGCTGGCTTGTGGATGTCTTTGGTTTGGCCTGCTGAAGTTTGTTTTGGATTTTTTAATGAAATAAATTAGCTGTGAACATTTAAAACTTGGG
AGACATCCCATCAAAATTGGGATTTCCTGCTTATCTCGACAAAGCAGATCTGGCATCCTTTGCCTGCATTTTACATTTGGCTACAGTTGGCTGGACTTGA
GCAGCGGCTGCCCCTCTTTAGCTGGGGCATGTGCCCTGTGGTTTGCCATAGTACCCATCAGGCCTGCTTCACTCATTGTAGAAATGGCCTGGCCTCCTAG
GCATTGGAGATTTCTGTTATGCTCATTCATGAGCTTGCCTGCTTACACCTAGCTGTTGTGTTGGTTCTCATAGGTCTCCCTGATTCCAGCCTCCAATTCA
CTGAGCTGGCCTCTGCCAGTGTCACTTCTCCCCAGTCTTGGCTTTGATCAAGCTTGGAAAGGCCTGGCCTTTGTGTTGTCACATTCTTCTGCCTAGAGTA
TGCCTTTTCCTTCACCAAACCAAGTGGCTCTTTCGGAAGACTTGCCTGAATCCTAGACCCCTTCTCTCTACAACMTTCAGTCTGAGTTGGGTACCTTGCA
TCCTCCTTTGTTCCCATACTAACCCCTACAACCATGGTCATTTTGTGGTTATCTGTTTAATTCTCTGCTGGCTATTCCAGGCTGTCASCTCCCTGACTAC
AAGGACTTTGTTGCTCACAATCATATCCACGGCATCCACACAAGATCTGGCCGCTACGTGGAAGGACACATAGTTCCGTCTGGCTTGGAGCCTAGCTTGG
GAGAGGGACAGTAGTGGGGAAGGGTGAGCTTGGAGATAGAGCTGACCTTCCCAGGTGCTTCAGCAGTTACAGCAAGATTCTAGATCTTACCCTGACAGTC
ACAGAAAGCACTGGGAGCGTTTATGAATGTTGTGGTATCTCACATAATAAGGGGACCATGCATGTATTTTAGAAAGAGCCCTYTGGCTTCAGGGAAGAAC
GATGGATTTGTGAGGGTCAGGACTGGTAGCAGGTGGGCTCCTAGAATAGTCCCGGCAAGAGATCATGGAGGCCAGAGCCAGGGATGGATATAGACTAAGA
CATGCCTGTAGACTGAGTGTCGAGGAGCAAGTAGATCAAATTCTAGCATGAGACTGGGAGAAAGAGATGTTCTCCAGCCAATGGATTTATGAAATGAATG
AACTTTTTCCCTTTCCTCCCAAGCATTGCCTGGATCACCTTGTTAATATGGTTTCTTATTAAACGTGCTGGAAAAAAGAGGCTCTAAGTGCGTATGCTTT
TAAAGCAACACTATTAGCAAATGGCCACTGGCTTCATTTTTCCTGTGCATATATTTTTGTGTATTCCGGGAGGATTTTCTTTTCTTTTTCTTTTTAATCC
TCCTCCTCAAGGGAAACATTCTTCTCACAATAGCTTCCTGGTAGAAAGTTCTAACTAATGACTTTRATCGTGTGMATGTATTGCAGAAATGGACAGGRCA
RTTCTCAGCCCATTCATCTTACAGACCTCAAGTGAACAGGCACAAAACAACAGGCTCCACCCTCCTTCYCCCCTCTATCTCATACTTTACCTCAATTTAT
GACTTGGCTTACAATCCGTTGCAGAAAGCCTAGCTCCCCAGCTTCTCCTGAATCTACGTTTTTCTATTTTGTCTGAACTAGCCAAGGTCTCTGGWGTTTG
CTGTTATMTTGCTTCAGAGAAATTAGTGACATTGAAAGGCTGTTGTCTTTTTTAKTGTACTTTTGGTTGTTAGGAGAAATTTACAAGGCCATTTTTTTCT
CCCGTCTCTGCAGTTCAGGAGATTATATTAGAAAATATTCTATACAAAAAATATGCATAGTAGGGCTTTTCTCCAGCTAGTAGCTCAGAATAAGTCAKTA
YTACTGAAACAGGTACCTTTTGTGGAATTGATTCTGAAATCTGTTTGGATCTGAAATCTTTCTTTCTTGCCTTTGAGTAAGAYACGGCAGAGAAAAACAA
TTACACTAGCTGCTGGTCTGTATTTACTGGTTAGAATAGAATATTATTACCATCAAGAATAACATTAGTGGCCAGGTGCGGTGGCTCAYGCCTGTAATCC
CAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAAACCAGCCTGGCCAACATGGTGAAACCCCCGTCTCTACTAAAAATACAA
AAATTAGCCGGGTGTGGCGGTGCATGMCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCCCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGC
TGAGATCACGCCATTRTACTCCAGTCTAGGCAACAAGAGTGAAACTCTGTCTCAAAAAAATTAATRATAATAATGTTACAATAATAATAATGTTAGTGAT
ACATATCATTTTGAAACCAGTTCTTAAGCAATTAAAAAAAAGCAGCTATGGTGATTGAGTTTTTGTGTTATGAATTTTATACTCTGAAGGCATGGTCATT
GTGAATGCCAAAGAAATGAACAGGAGAAAATTTTATTTGAAAGCTGGGATTGTTGCATGCTGCAGAATTTTTTTTTCTTTTGCTATTGCTGTGTAACAAA
TGACCACACACTTAGCAGTTCACATTCACATCTTGTTTATTAACTACAATTCTCTAGATCAGAAGCCTAGACACAATGTGACTGGCTTCTCTGCTCAGGG
TCTCTTGGGKACAAAATAAAGGTGTCCGCTGGAGGAACATCCTTTCCTGCATGCTCTGTGGAAGAATCCACTGCCAAGCTCATTCAGGATGCTGGCAGGA
TTCAGATCCTTGAAGTTGTAAGACTAGGGCCCCTGTTTCCTACTGACTTCTGCTGGTGGCTGCCCTCAGYTCCSAGAGGCAACCCACATTCCTTGACTTT
TGGCCCCCTGCATCTCAAAGCCAGCAACAGAAACTCTCTTGTGCATGGAGTCCCCTCCTGCTTTGAATCTCTCTGACTTTCCTTGACTTTGATGTYTAGG
TYTGGATTTCAAGGGYTCAGAAACTCTCTCATGCATGTAGTTCCCTCCTGCTTTGAATCTCTCTGACTTTCMTTGATTTTGATGTCTAGGTCTGGATTTC
AAGGGCTCACGTGATGAGGATAGTTTCTTTATCTTAAGGGCAACTGATGTGGAGTCTTAATTAACACTGGCAAAATCCCTTCATGACAGTACCTAGAGTA
TGAATTGACTCAGTAACTGGAAGAATGCATGCGTACACCATGGACCGGGAATCCGGGAGGCCAATTTAGAATTTTATGTATCAAAGCCCCATTTTTTTTT
GAATAACAGAAAAAAAAAAGAGACCTGATATTTGGAGAGACTTTTTCAAAAGCAGAAAGTTTAATATAAAAGAAAGGGGGTAATTGAAGAAGATATAAAC
TGCAAAGAAAGGATGTTAGGTAGAGCGCCTTATAGGGAATCAGAGGTTTTATTACAGGCAGACACGGCTTCACCTGTGAGCCGAGCAAGTGATTTTGCCT
GCAGAGAAGAACGCAGGGTTCCTTCTATGGCTCAGGATCTTCAGTTACCAGCAGTGGAAGTGAATTGAAAATAGTTGGTCTCTTGAGTGACCTGATGCAA
CTCATTATCTTCTCTGTGCCTTAACGTCTCTATCTAATTTCCCATTAAAAGTAACAGGAAAAAGCGCAATGACTTTTGCACCAACCTAACAATGGGTTGA
CATTCAGGATTGCTATAATGATGAAGCAATGGCAAATGGAGTCTTTGTTTTTAGCCCCGTGGAGGCATATGCTGGGCACTCAACAAACATCACTTCCCCT
GCCCTTTTCTCAGATAGAGTTATCCAAACAAATTGGATGCTCAACTCTGGATTTGATCCAAGCTCTCTGGAAATCTCTAGCTTCTCAAACTGTTTCGTGG
TGGAGTGCCTTTTGGGCACAGGAGAAGGAAATAAGAGCCTCGCGAGGTTTGGGAATGCTGCCTSTAGCTYTYACACTGCATGCAGAATTCCTACTCTGAG
AGCTCACTTTATCTCAAAAACCCATGCATATTCTGCATCTACTCTGAATTCCGCAGTGTTGTGTGTTACTATACGATCTAGTGTTTTCGTTGCTTACAAG
TTAGATTCACACTCCAGGAATGTATCTGTTCCCACATCCCCTGATGCTGAGCATACCAGAGTTAAGGGAGGCAAGCAAGGCCCYTAACCTCCYAGGTTCA
TGGAGGTACCCATTCTGCACTTGTTGACCTTGAGCTTGAGGACTCCATAAATGTCTGCCCTTGGCATTGCACGTGCCTCCCTCTGGGCTGACCCTGCTGG
GCCTGTCACTTACTCCCATTGGAGAGGCCTGTTTCCATACATAGCTCTTTGTCAGTTGCTCACACTCGGTCAATACTTGCCTTCCTTTGAGGCCATCTGC
ACTCACTGACAATCTGATYGCTCCCCTGAATGGAGGTGAAAGCATGCAAGCTMGGAGTTAAGATCTTTAACTCAGGGAAGACCCTGTCTATGGAAGTGCT
GAGCTCTTCAGTGTCATCACAGAAAAGCATGAGCSCCTCCCTGGTACGGAGTCATCACATCCCATAGCTGAGCGACGTCGGAGCTCCACGATGGGGAGGT
GACACATAGTCAGTTAATTACATAAAGAGAACTTGAGCAAACTCTTACTCTGCCATATGCTGTGCAGATCCCTCTGAAAAGCTTTACAGATGTTCTTTTT
TTTTTTTAATCCCTCCCCCTATCTTTCTTTCTTTGCACCCACGATGCTCTGCACTTCAAGCTAAATATAATGTATCTGATTTTACAGCATACATACTAAT
CAGGTTTGAAAGTTGTCTTGTGAGGCTTTAAAAAGCTAGCCAAGAGCAGTGCGATTTCTCCAAAAGGATGTCTGCAATCAAGATGATTACATGGGAAAAT
AAATCATAATTTATATTGCTGAAAATGTCATTTGCAAAACACTTTGACAATACTTTCCTTTCAGTCTATTTTCCTGTGTATGGGGTAAGTGTTGCCCTTC
TGCAACTTTMCTTTTATTTTATTTATTTMTTTCTTTTCAATACKCTGAATATCACTGGAGCAGCTGCAGATTCAGGGCAGTATGGGGTGGTTCAGGAACA
GAACTGACAGGTATTGAAGCCAAAAAYTGAACAATAACAACGTAGGAGGGAGAATCCAAAGATAGTATGTGTTCAGGATACGGGCACTCRTGTGGGTGAA
CACACACACACACACACACACACGCTTTTTTTTTTTTTTCTTTTTTTTTTTCTCCTATTGCAATAGAACGTAAAGGTAGATTTTTAGAACCAAATGCCTT
TTAGGAAGCTACCTCTCTTCCACCCTGCTGCCTTTGTGTTGAATAAACTATATTAAATTATCCAGGAGGAATGATTAGTGATCTGATTCATTAATATCCC
TTGTTATTAAGAACTGTCTGTATTTGTGTCCTGGTTGGCAGATATTAAGTCCACAGATDCCAATAATTAATATCTWTGGTTGATTGTAAAAATGGCCACC
AATTCTTCCCTGTCCCCTGCAYATGTACATCCTTGCACTGTGAAATTGTAGATCTCGCCCTCCAAAGGTGAAGTTCGTTTGTCCACTCCTTGAACCAGGA
TGGCATGAAACTTGATTTGACCAATGAGGCATTTGGAAACACGGCACAAGCAAAGGCTTGAAACGTGCTTTTATGTTGGTGCTTGCCCACTTGCTGTGCT
ACGAACCCTTTTACTTYTGGGTGCGAACAARCCCAGGCTAGCCTTCTGGGCGATGAGAGACACAAGACCATGTTTCCATATTGCCCCAGCCAAGAGCCAA
CCTACAGACGCAACTGCCTTGCTGACAGCAGACACCTGCCCAGCTGAGCCCAGCCCAAATTGCTGACTCATGCAATCTTGAGCTAAAAATAAGTAGCTGT
TGTTTATAGCCACTAATATTTGTGATGGTTCATTGCACAGCAAAATTGAATGGAGACAATACTTTTGAAATTGACTCTTCGGGAGCTGTTGTAAAGAAGT
AAAATGTGTAGTGTTTGCCCTTTTCCTCAGCTGTAGGCCTGGTATGCAGAAGTATTCAGTTATTTGGTGAGTGAACCCTCGCTGATGCCCTGGCTAGTGT
TTTCTGTCTCAGGAAGCATGAACATTTCATCCAGGGTTATATGCTACAGGGATATTCAAGAAATTGAAGATCCTTGAAAATCTAGTCTCCCTCACAAGGA
TCAGGTGGCAGGATCTAATGGGAGGGGTAGAGAGTGAGTGTTAACACACAGAGAACCCAGGAGACCTTTCTCAGAGGTCTCATATSAAGAAAAGATCATT
TCTCCTAAGCAATCAATTTCTTTTTAAATCTGAACCTCATATCTGAGAATATTCCCTTCTTTTATCTGGCCACTCGGGAGCTCAAAAATAAATTTCTGGC
ACCCTTCTTCCTGGCTCCAGTAAAGTCATACAACCATATGGTACCTCTCTGGCAACTAATTTCACCTATTTCCTTATTTGTTTAAAAATTTTAACTTAAA
TTTTTTCCCCTCAAGATCTATTTACGGATCATCAGTTTTATTTTTTCTTTTCTTTCCTCTTTTTCTTTTGCTCCCTTTTCTCCCCACTCTTGACTCTTCT
CTAGTTTTTATATGCAGTTTGTATTTATCCATGCCATCTGAAATCCTCCTTCCTTTTTAACAAGGCAAGTAGAAAACGAAAACAACATCAAAGGATACAC
TACMCAATTGTTGGAGCCCTAGGAMCCGAGAGAAGAGTACAAGCAGGTTCTTGAACTGTTCTCTCCCCAGCAACTATAACTGGAAGGAACCTCAGTTTGT
CCATTCATTCATTCATCAGAGCAGCATAGCAGAGTAGAAGGAACTCTGACTTTGGCATTGGTGCCTCTAAGTTTGAAGTCTAACTCCATCACTGTGTTTC
TTTCCTCTTGCTGATAGCTGATTTGTTATAAACAAATTACCAAAAACGTACTGGCTTTAAASAACACATGCTTATCATGTTGCAGTTCTGGGGAGTCACA
AGTTCAAAATCASTCTCACCTGGTCAAGATGTCAGTAGGGCTTGTTCCTTCTGGAGGCTCTAGGGGAGAATCTGTTTCCTTGCGTTTTTCATCTTCTASA
GGCCTCCTGCATTCCTTGGCTCTTGGCCCCTTCCTCTGGCTTCAAACCAGCAGTTTAATATCATCACATCTCCTTTACTGATTCCTCTTCCGTTGTCCCA
TCACATTCTCCTCATCTGGCCCTCTGGCCACTCTCTTATAAGGACCCTTTTGATTTCATTGGGAATACCCAGATAATCTTGGATAATCACTCCATCTCAG
GGTCCTTAATCACATCTTCAGAGTCCCCTTTGCCATGGCTGATGACAGAGTCACAAATTTGGGGAATTAGTGTGTAGACTTCTCTTGTAGGGAGTCATTA
TTACTCTACCACAACCACTAATTCTGGACTTCACGTTCCCTCATCCATAGAGCAGGGATAACAATATCCTCCAGGCTATCCGCGGAAGTAGAGAATATAA
GCTTTATCCAGGGGGCCACTCAGTGATGGGAGTCTTCCTTATGAAGCTGTCCCAGCTCCATCTCTCAGGACTGAAATGTGGGTAAGACCATCACATTTTT
CATCCCCCGCCCCCCGSCCCCAACATTGACTGGGCAGATATTCATACAATGGCGATTGTTTTGTCTGCCTGGATGGCTTTAACATAATACCATAGACTGG
GCAGGTTAAACAGCAGACCTCTATTCCTCACAGTCTAGAGGCTGGGAAGTCCAAGGTGAAGCCATGGGCACATTCTGTGSCTGCCTGAGGSTCTCTTTCT
GGTTCCCAGATGGATGCCTTTGTGTGTCCTCTCATGGCAGAGAGAGGAAGGGGTCTGGAACCTTTCTCTTATAAGGATACTAATCCCATCGTACCCCGTC
CCCCATGATCTCAWTTGAAATTAGTCACCTCCCAAAGCCCCACCTCCAAGTACTGTCMCACTGGGGCATAGGGCTTCAGCATATGAATTTGGGGGAGCTG
GGGAGAGGAACACATACATTTAGTCCATAACAACTATCTCACTTACCTCTCTACTAAGTGATTCAGAAAATAGCAAGTATAGTAGTGGGAGAACATGGTA
TCAGAACCAGGAGAGGGTCCTCTGGCTTTCTGAGTTCTGCCAAAAACCAAGTTTTGYTGCCTTGGGCCTGTGGCTTYTCCTCCYTGATTGTCGCTGGCCT
TGCTGTAAATTGTGAGGCATCCATGTGAGGCACAGGATGGTTCCAAGGACCAACTGAGGCTGTCTGTGCTGAGGCTGGGAGGGTGTAAGTGCTCAGAGGC
AGCCGGAAGCTGTGGTTTTTACCTCCCAAGACTGTGCAGAGCTTCCTTCTTCTGTAGGGAGAAGTCTCTCAGGACAGGGCTCACAACAGTGCAGTCAGGA
GATTGGAAATTTTAGTGACACCAAAGTGGGCTTTACTTCCTCCTCCTAGAATTCCTGCCAGAAAGGTGGAGATGTGCAATAAACTGAGCACCGATAGAGT
ACCAAGAACATGCTTTTTGCACATTGTTTGATTCATCAATCAGAGTGGGGCATGGCTGTCATCAGTTCAGAGTTGAAAGAATTGAAGATCAAAGGGGTCA
CGTCTCTGTGAATAGTATTAGTAATAGCAGCAGTATCGATAGCAATCATAGTAATTAAAATGGAAGCAACCACCAGTGTAATCATAGCAGAAACTCACAT
GTGTGTGCTTTCTATGTGCCAGGCATGAGGCTGAAGTCATACATTCATTATTTGTTAATCCCACCCTAAGTGATAGKTGTATTCATCATTCTCAGTATCA
GAAGAAGAAACTGAGGTTCAGAATGACCCAGTAAAGATCACAAGCCCAACCCTGGTGAAGGGCGTGATTGGCAGAAGCCCAATTTAAGCCCCCATCATGT
CCTGACGCTTTCCCAAAGCTGAGCTGCCTGCCAGGGTCTTTGCTCTTCCACTGCCAAGAAGTAAGGTTTTGGTTGGGCGCGGTGGCTCACGCCTGTAATC
CCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGTTAACACCGTAAAACCCCGTCTCTACTAAAAATACAAAA
AAAAAAAAAATTAGCCCGGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTCCGGAGGCTGAGACAGGAGAATGTCATGAACCCGGGAGGCGGAGCTTGC
AGTGAGCAGAGATTGCAGCACTGCACTCCAGCCTGGGCGACAGAAGGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAAGTGAGTTTTTTTTG
TGTATTCTGAAAGGTTCCCAAGCTCGCCGCAGCCTGCTATTGTATTTAAAGGGTGCCCTTTGCTGCGTAACTAGGGCAAAGAAGAACCAACTGGCTGTTC
CCCACTGGCTGTGGAGAGTTCCAGCTCATCCACCCTGCCTCTGTGGCTGAGTCGGGGAGAAAAGGACAAAGTTTTTCTCCCGCAACTGGGCCACCAAACC
AGCAGAGCCTCCAGCCRGGGTGGTCTCGAGGAGGCCCATTACCGGCTGGAGTGACAGAGTGTGTCAAGCCTGCAGCTCGTCCCGTGTCTAATGGAACAGA
AACAAGCACCYTGCTGCCCTTGTTTTCCAGTGGCTCACCGGGGCTYTGCGAGGTTTATTAATCTTAGCGTATAATGGAAAATGTGTTGCCATGTGAAATC
TAGAGCCTCTGTTCACTACTCCGCGAATTGAAGGCGGCAGGAGTCTTTGTCTCATTTACACACAGTGCCTGCGAGAGACTCTTAGGGCAGAAGAACGCCG
TCGTAAAAATCCGTGCGGAATTTGAAAGTGTGCATTAATGCATGTGACCAGATGGTTCTAAAATATGCCACTTTCACCAAAAATCATCCTCTGAAAAACT
CTTCTGAACAACATCGGCTGTGCATAGTAACTGCCTTGAGTGGGGCCATTTTAGAAAATATATGAGGTACGGGATGAAGATGAGGGAGGAAAATGGTTCC
TACTTATCATTACTTTGTCCCTCCAAAAGCCTGCATGCGGGAAGAAAAATCCACCCAGTGCAAGAACCGTGGCAGTACTCAGACCATTTAGAATCACTTT
GAGTTATTACCAAGAAATTGCTAACCACTGCTTTCCAAGTTATATATTAAATTTTTCTTTTTTTTAAAAAAAAGCTTCCAACTTTTTTTTTTTTTTTTTT
TGAGTTGGAGTCGCACTCTTTCACCCAGGCTGGAGTGCAGTGGCCCGATCCTGGGTCACTGCAACCTCCGCCTCCTGGATTCAAGCGAGTTTCCTGCCTT
AGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCCGCCACACCCAGCTGATTTTTGTATTTTAGTAGAGGTGGGGTTTCGCCATGTTGGCCAGGCTGGTG
TCGATTTCCTGACCTTGAGTGATCTACCTGCCTCGGCCTCCCAAAGTGCTGGGATTGCAGGCATGAGCCACAGCGTCCAGCCCCAACTTCTTAAAAGCCA
GAAACAACTGGCTGTTAGCTGTCACAATATTAATACTAGTGTGTGCAAGTAAGTTTGTTTTCTGCTTCTGTCTTACACGTTTTACGGGCTATCAGTAGAT
GCATCTAATAATCCTAACACTGTCATCCTTATACTTGAGGTCTTATTGTCCACTTCTACCTTAGCTATGTWAACAGATGAGTAACCTACTCTGGATTTAC
CCAGATAGTGCTGTTAGGCACCACACACGATGAGATTGGAGGCACCTGGGTGTCAGCCTCTTGGGCTGGCTCATTACAGGCCACTCTGTCTGAGGAACAC
TCAGGTTTGCAAACCGKTTCTTAAAATWACAGGATACCTAGGGACCTGTTGGGGTGGGWGGGAAGAACCCTATGGGCAGAAATGTGACTTTCTGTAGCAA
AGATGTACTGTTTCCCACTGAGAAGAWTCAAAAATAGAAAAGTGCTTCCTTGTCTYTCTATATTGTTATTAAAACAAGTAGATGCATTTTCRTTGAATCA
AGGCAGTTTTCCTTTATAAAATGTCCTATTTCATATCACTGTTCAAACTTGACATCCACATTTGAGTTGGTTTAAAATATCACTGTTTTGTTGACATTCA
CCTGTATTATACATTTCAGTTGGTCAAGTCATTTAATTTATCATAAACCATTTAAGGAGCAGTTGGAGAAAAGGGGGAAAAAGTTAAATGTTAATGATTC
TTTTCGTAACTGCAATTTTATCGGCTCCTTTTTGTACATATATGATTATGAAGCAATTTGYRTGAAATTTACACCTTTTCAAATTTTGAAAATTGCCTTG
TTGAAAAAGAATCGCTGTACTTCTCAATACTACACTGATTAATCACAGTTATAGAGTAGACATAACATTTTTATTAAACTCTCAGTGAGCAGGAAAATTA
GCACTTCCTGCAATAACGATACTAATTTCATTASTGAACGTTTTCATTTATAAAGTGCTTCTTCCTTATCTTGAACCTTTTATCCTCTTCTTATTGACCA
AAGAGAGGGCATATCTTTGGGAGCTGCTAATAAACCATATTCGTAATATGATGTGACCTCATCGACAGGCTGCTGCTTCTAGCTCATCATCTTCCTTGAT
CATAAATACCCATCGGTACCTCTTGTCACATGGTGCTCTTAGAGCTTCCTCTTTGAATTTCACATGTGATAAGAGATGGTTTCCATCCTGAAGAGCTTGC
AGTGGGATGGTTATCGGAAAGATTAAAACTCTAAAACTAACAGGTGGATATAAATATAAAGAAAATACAGTATTTTGTTGATTTATGTTCATATAACTTC
TTTATTGGTAAAAGGGAGACAGGTGAGAATACAGGAAATCCTTGTGGCCTTGTTTGCCTTTTTTAGAAATTTAACTTTGCAAACAAACTCAGGGGAAACT
AGTGAGGTGGAAATAAAGAATGCTAGACTACGGGTCTGGGGCCCAAGTGTTTTATTAATATAAAAACTTGCGTATAAATGTCCAGTTTCACCACCAAATC
CTTTCTGAAACATTGGTAGTAGATGAACTAATGCAACAATTTATTTTTCTTTGAGACAGGATCTGGAGTGTGGTGGTGCAATCATAACTCACTGCAGCCT
CGGTCTCCTGGGCTGAAGCGATCCTCATGCCTTAGTCTCCCGAGTAGCTGGGATTACAGGCATACACCACCATGCCTGCCTAATTTTTTTTAATTTTTCT
TTTATAGAGATGCAGTATCGCTTGTTGCTCAGGCTGGTCTCATATGCCTGGACTCAAGTGATCCTCCCGCCTCTGCCTCTCAAAGTACAGGGATTATAGG
TGTGAGCCACGAAGCCCAGCTGCTGCAGTTACTCAACCAGCTTCCTACTAGAAGCCAGGCGTTTCTCAAGCTTCTGAAGACACAAAGGTGAACCCCAGAC
AAGCCAGGTTTACAGAGTGTGCATTTCAGTGGGGGAGCCAGCCAAAAAATCAGTAAACACCAAGATAAAATATATTCCAGTGGCGATACATTTTCAGAAA
CAAACAAACATGGCACTGGGCTGGAAATGAATGGCAGGGGAGAAGGCGGGCGGGGCAAGCTTTGGAAAGCACGGGCAGGTAAGGACAGGGTTTCAAAGGT
GAGAAGGAGCTGGCAGTGTGAATAGCCAGGGGAAAAGTGTTKTGGGTAGAAGGAACAGAAAGTGAAACGGTGCCCTGGCAAGGCAAAGATTATTCATKGC
TGAAGAGACTATGTTGCCCAGATGACTTGTTCATGTAATCTGTGATTTTTAAATTTAGAATTGAGGTTTGAAGGGAAGTATTGCTCCTTTCTTTATCTGC
AATGGGAAAGCTTACTGTAGTTACTTACAGTAGAAGAGAAATGTACATTTCTGAAAATCCACTGAGGAAGAAAGGGGCAGTGATGATTCTAAATGTTAAT
AATGCAGACAGCCTTTGCTTTATGTATCAATTTTTGTAAATGTGTTGCTTAAATAGATTTTTATGAGCCAGTAATGGTTTAGAAAGGTAAATGACTTGCC
CAAGGTCATACACCCAGTACACTTGGGAGCCAAAATTCATCATAGATGACTTTGTGAAATGTCCCATTAAATGTGTATATATATATATAGTGTGCATTAC
AGCTTAACAGACACACATTCATTTGACACATTATGTTTTAACTTTATTAATAAGTTTTTGTGGGCATAGGTCTTGTTTTGCCAACTTGACATGTGGATTT
TAAAGGGCAAGTGCCTTAGAATACAAACTGTCCTATAAAGAATACCATATTATCGAAAGGATGTTCAAACTCATCAGTTAGAGGCGTTGCAGTTGGCTGG
GTGCAGTGGCTCACACCTGTTATCTCCGCACTTAAGGAGTCCAAGGCAGGTGGATTACTTGAGGTCAGAAGCTCCAGACCAGCCTGGCCAACATGGTGAA
ACCCCTTCTCTACTAAAAATAGAAAATTAGCCAGGCGTGGTGGTATGTGACTGCAATCCCAGCTACTCGGGAGGGTGAAGCAGGAGAATCGCTGGAACCC
GGGAGACAGGTTGTAGTGAGCTGAGATGTCGCCACTATACTCTAGCCTGGGCAACAGAGCTAGATTCCATCTCAAAAAAAGGCATTGCTGTTAATACAAC
AATGATAAGTTATTTCACACTCACCAGATTGGCAAAACGTTAAGTACTAAGGTCATAACAAGCACTGGAAGGATGTGGAGAAATAGGGAATTTTATGCAT
TACTGAACTGAAACAGCCATTTTGGAAAATATTTTGGTATTACGTAATAAAGTAGTACTTAGCAACTTATGCAATTTGGTTCCTATAAAGATGCCTTAGA
GAAACTGTTGAGAACTAGGAAAAGCTCAGGAATGTTTCTGGTGCATAATTTGTGATAGCAAGAACCTGAAAGTCCTCCAAAAGCCGTCTACAATGAAATG
GGGAAATTAATGGTGGCACATTCCTGCATAGGAGATAGCAGTGATAATGGGTGGATACCAGAACGTGCATCAACACAGAAGAATCTCAGCAACATAATTC
AGGATTAAAACAGCGTTTACAGCTGGGCACAGTGGCCCACACCTGTAATGCCAGCACTTTGGAAGGCCACAGTCGGCAGATGGCTTGAGCCCAGGAGTTT
GATTCCAACCCGGGCAACATACTGAGACCCCATCTCTACTAAAAATACAAAAATTAGCCAGTGTGGTATCATGTGTCTGTGGTCTCAGGGGTCTCAGGTA
CTTGGGAGACTGAGGAGGGAGGACCTCTTGAGCCGGGAAGGTCGAGGCTGCAGTGAGCCATGATTGTACCACTGCACTCCAGCCTGGGCTACAGAGTAAG
ACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGCATTTACATAGGAGAATATATACAGTATGATTCAATTTATAGAAAGCTTAAAGTATAGGCAAAGC
TAAACATTCAGGATATTTGATAAAACTATAAAGAAAACCAAGGGAATGAAGAATGCAAAATATGAGCTAGTGTTTTCCCAGGTGTGAGGGACGGGGCATG
GTTGGGAGGAAAACAGAATGGTGCCATGGCGAGAGATACACAGGGGAGGTATTGGAAAGTTCTGTTTCTTAAAATGAGTGACAGGTACCTAGGTAGTCAT
TCTATATGTTATTAAAGTGTACACACATTGCTTATGTGAAGTCTTGTTATATGTGGCACATATCACATAATCTGAAAGAATCTGCTTCCTGTAGTAAAAA
TTAAAAAAATTATAGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACGAGGTCAGGAGAGAGACCACCCT
GGCTAACATGATGAAACCCCGTCTGTACCAAAAATACAAAAAATTAGCCAGGCATGGTGGCGGGGTGCCTGTAGTCCCAGCTGCTCAGGAGGCTGAGGCA
GGAGAATGGCGTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGCAACACAGCGTGACTCCATCTCAAAACAA
ACAAACAAAACAAAACAAAAAAGGTTTAAGAAATGTTCTAGTACCTTGAAACCAAAATAGGTRTCAGATACTTGGCTGTTTTGTTTTTTCTTCTWAGCCA
TTTTGACCTGTGAGATTTTATGTGATGAAAACATAAGAATGTGGTATTACACCCTGTGAKTTGAATTTTCCATACTCCATTCCATTCTATATGTCAGATG
CATCTTCCTAAAACACACCTTTGTCACATCACTCCTCTGCTCAAAAACATTCAGTGGCTCCCTGGGCCCTCTGGGACTAAGTTTATAATGCTCAGCTTGT
CATTCCTTTGCCCAGTGTACTCTCTGTCTCACTAATTTGTTCATTATTTTAATGCATTTTCTTGAATACACTTCTGTAGACAGCCATAAGATGGGTAGCA
GGAATGCTGCACTGAACCATAATCCAAAGCTTTCATCAGGTTCACTTGCTTCCTGTCCTTGCCACACCATCTGCTCATTCTCGATCTCCACTTGAACACA
CTTCACATTCTCCACTTGTGTATCATTCACTATTCTTGCTACATAAATTAACACAAATTTTGCAGCTTAAAACAGCACACATTTATTATTTCATGGTTTC
TGTGGATCAGGAATCTGAGTATCAGACTTAGCTGGGTCCTCTGCCTAGGGTTTCACAAAGTTGCAATCATATATTGGCCAGGGTGTGTTCTAATTTGGTA
GCTTGACTGGGGAAGAATTGGCTTCCCAAATCACCCAGATTACTAGCAGACTTTATTTCCTTGTAGCTTTTTGACTCGGCCTGGCTTCTTGCTGACTGTT
GGCTGTTGGCTGGAGGTACCCCTCAGCTCCTAGAGGCATCAACAGTTCCTGAATATCTGGGCTTTTCCCACAAAGCAGCTTCCTTCATCAAGCCAGCAAC
AAGAGTYTCTGGGGCAAGTTGGTCAACAAGATGGTGTCTTACATGCCCAATGTAATCATGGAAGCCATGTATACCTCATCACATTTGCCAGATTTCTGCT
GATTAATACCAAGTCAGAAGTCCTGCACACATTCAAAGGGAGGACACTGCACAATGGTGTGAATACCAGGTGGTAGGGATTATGTGGGGCCACCTTACAG
TCTATCAGCCACAACTTGAAGTATCTTCTCTCCTCTTTGCTGCCAAATAATGTCTCTGAAGACTGTAAGACCTGAATCCTATCTAAAGTTGTCGGTGGTT
GCTTCCTTCCTGAAAGCAACAAGAAGCCCATGAATGTCTTATGGCCTGAAGATCTGCCTTCAAAGACTACTACCTGTGTTGTCACAAATGGCAAGATTTC
ATCCTTTTTATGGCTGAATAATATTTCACTGTATATGTGAACCACATTTTTAAAAATGCATTTCTGAACCTGAAGGACATTATGTTAAGTCAAATAAGCC
AGACACAGACAGACAAAGACATATGATCTGACTAACAATGTGGAATCTGAAAAAACCAAGCTCATAGAATAGAAACAGAGAGTGAGAATGGTGGTTGCTG
GGGCTAGGGGGTCAGTGAAGTGGGGAGGTGTTGATCTAAGGGTTCAAACTTCTCGTTAATAATAAACCAGTTCTGGAGATCTAATGTACAGCATGAGTGG
TGATGGATGTGTTAATTAATTCGATTGTGATAATCATTACACAATGTATATAGTAATCAAATCATTACTTTATAGACCCTGAATATATTCAATATTTATT
TTTCAATTATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATAT
ATATTTAAAGCTGTCATGGAAAGCCTTAAAGTTAAAATACGAAGATTTTTGAGAAAAACTTTGCATATTTTAATTGCTGTCTGGAATCCTCCTTCAGMTG
GRATGAGAAATCATCTCTGGGTTAGTTCTGTCCCTGRAGGTGAGGGCCAGACAACACATCAAAACTGACTTTTTATTTTTTTTCAAAGTTGTTAAGACTA
TCTAAGATTCAGATCTCCCTAAWACTGTTCCTAGTTAGTATTTAGAACGTATTTGTTTAGAGGATACTAGCCTGAAATAGCCCTATCTCCAGGTTGTCTG
ATGCGATGAGGATGTGGTGTTAATCTTACACCTACCCATTAGTCTATAAAACTCCTGAGGGATGCTCAGGAAACCAAAAAGGATGTCTGCATGGAGGACA
AGAAGGCACAAATCGTYTGATTTCACCCCATCCTAAGATCTTGTGACTYMAGCTTTGTTTTGGACTGGGGCATTGGATCTCCCACATGCCCTCTCTTAAG
TCGTGCATTTGACGCATATTTAATAAGCACCTACTGTGTGCCATTAGAGACCATGATACAGTTTTGAAAGCCTAGCCTGAATAATGGATGACACCCTCCT
AAAGCCACGATTTGGTCTTGATTATTTTTAGCACTATGAAGAAAAATTTCATTAAATCACAACTCTATTTACTTTTAACCCAACATGGTGAAGTTATCAA
CATATAATGCCTGTCTATACTTTCAGATGGAAAATGCCTAGATAAATACTGCATGGGACATTTTTAAACATGTAAAAAAATCAATTTTCGTAAGGTTACA
TCTTTTTACCTCTTTATATAAAACATGCTATATTAAAAGAGAGATTAAATTTTACCCTGTGGAGTAAAATGCAAACACAAAATTATTTTTTTCATTTTTC
AGAGCATGTACTGGATTATCATTTATTTATGAGGCTTTTTTTAATCTAGAATATATGGAAATCTTTTCTTGAAGCACAATATAATATTGAATTGGGAATG
TTGTCTGACAGTTTCCCTCTTACCGTTGCATAGAATGACTCTCCTGTATGAATTTTTAAAAGAAACTTCAATATGCTATGCATTTGAAAGGGAAGAAGTA
ATCACCATAATCTTGAGGTATCTTTTAAATAGGCTTCCTGCGCAGTTCTTCTATGTTTCACCAACTTTTCTACAACAAATAATGCATCTGTGATTTTTCA
GAACTCACAAAATGTCCAGCTTTCTTTCTTTTATTCAAAATTTATACTTCATAATTGAAGTTCACCTCCCAAAAGACATAGCTTGGTTTAGCATAGAGCT
ATGATGTGKKTTCTCTTTGTTCCTTTTGCACACTTTCCTTGTCTGGAGGCGTTGGGCTTGGATCCTTCATTCTTCATGAGGCTGATGTTTTTCCATTTCG
GTTTCCTTAAGTGGTGAAGCTGCACAACCATGAAAGCAGTGACCACATAAAAATGCTGCTTTGAGGCCTGGTACCTCATGCCTATAATCCTAGCACATTG
GATGGCCCAGGCAGGAGCATCACTTGAGGCCAGAAGTTTGTGACCAGCCTGGGCACTATAGTGAGACCCTGTCTCTACTCACATAAAAATATTAGCTGGG
CATGATGGCTCATAGGTGTAGTCCCAGCTACTCAAGAGGCTAAAGGGGGATATTTCTTAAGCCCAGAAGATTCAGACTGCAATGAGCTATGATTGTGCCA
CTGCACTTCAGCCTAGGCAACACAACAAGACCCTGTCCCTTAAAATAAATGCTGCCTTGGGTATCTTAATCCTTTCTCAAGATTCCTTCTAAGGCTAACA
TTTCTTTGCCATCCCCACACTACCATCTGCTCACTTTTATATATCTTGACCATTTTATTTTTCATCCCATCTTCACTCCATGTAATTAGTTAGCTATTGC
TGCAGAACAAATCACCCCAAAATTCAGTGATTAGTTTATAGGTAGCCCCATTTCACCCATCTCATTCTATAGCTCAGGTTGAAAGTTGAGTCATGAATTG
GGGAACATTCTTCTCTTGGTGTAAATTAGTCACCAGTGTCTCATAGGGTTGGGCTGAAACTTAACACATCCCATCACTTTGATTGGCTAAAGTCAGTTAC
ATAACCAAGCCCAGCTTCAGAAGGGAAATTGTATGCCTTACAAGGAGGTGAGAGGATGGAAAATGAATATTTGCTGAACAGACTTTYTGTCCAGTTTGTT
GTATTTGGTGGTGGTGCAGGGCAAATATATGTTTAAAACCTTGTTCAGATTTTTAGCTTTCTTCAGAACAGAGCTTTTAAAACTGAGCATTTGTCCCCTA
AATTCCAGCACTGCGGCCATGAGTAAAGGGTGCCCTGACCACGAGCAAATCATTTAGCTGGCTCACCTTTCATGCAACCTTGAATTCACCAGGAAGGAAG
TTCATGCAGCCCTGGGTATGATGCCCTAATTTTGAGCCAAGCCAGCTAGAGTTCAAGTCCAAACCATTCCACTTCCTAGCTTTGGGACGATGAACAATTT
ACTTATGCTTTCTGGGCTTTGGTTCCTAAATTATTTAAATGGGGATGATTACATACATTCATCATTTTCACCTTCTCAAAGACCTTCTGGACAATTCCCC
AATTCATAGCTCTGGGAGACAGTGTGTTGACACTCTATTTGACCACATCTTCCTAGCAGTCTTGCGGAAGGTGCCACTTTGCGAACGATCTGTTGCTAGG
TAATGTCAATGACATGACTTTCAGTTTAGCACATGTACAGATGACCTTGTTTGGGCTTGTGCCGTTGGTAATTCAGTTTCAGGATTTCCGTTTGACAGAA
TATATTCAAGGGTGGTTTCTTGCTATCAGTTGTACCCTTGTGGCCACAGTTTTTCCAGATAACCAAGACTCACTAATATTTTCACAAGAACATTTGTCAC
CTAGGTCCAGATTTCAGAGGAAAAAAGTATACCGCCATTGTTCTTGTATAAACTTTATAAAATATTTGGGGAACATCACTAGCCACCTGCTTCCGAAAGT
ACTTAGATACTGTGTCATCTTAATACAAGACACTATGCACTAATTAAGCTGTTGTTGATGCTTTTTTGCCTTTTTGACAATTAAAAATAATCTCATACCA
CTGGATTAGTCTCTTGCCTTTCAATTTTATGTTTATATACAAATATATGTGCATACCAAATTTTATATATATATATATATATATATATATATATTTTTTT
TTTTTTTTTTTTTTTTTGGTCGGAGTCTCACCCTTTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACG
CCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGCACTATAGGCGCCCACCACCATGCCTGGCTAATTTTATGTATTTTTAATAGAGACAGGGTTTCACCA
TGTTATCAGGATGGTCTCAATCTCCTGGCCTCGTGATTCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGGCTGGCGAAAA
TTATATATTATACACACAAACATACACACACGCACACACCAAATTTAAAAAGACAGATACATAGGCAGTTGTTATGCAGTGTTTGAAATAAATTTATTKC
CAGCTATGGGTCATTTGGAAAAAGATCAATATGATGCATCAACATAACAAGTAAATGGAAATGAATACAACCGCATGGTTTTCTGAAAGCACGGTTTCCT
GCGCGGCTTCCAGAATTGCATCCCTGACATTTGGAACATGTGTTACATGCTACAGAACATCTGTCTGTGAACAGGTTAATGGGAAAGGTGCATCTCTACA
AACAAATATTACCTGTAATGCTGTTGTAGCTTTGTTGATTGTTGATATTACTTATGAACTTTCTTGCTTTTCAGAAACCACCACCACAAAAGAGGCAGTA
ACATTAGTATTACATTATACATCTTMGGCATTTTTTTCCTTTGCCCTTTTCGTAGGTTTTTGTTTGTTTGTTTTTTCTTGTCAGCCACTTCATCATGTTT
GGTCTCTCGTCTTTGGCTGTGTTTTTCTGTTTCTAGTTATTGTGGGTGTTAAAAATCACTTTAATGATTCAGCAATAATTAGGAAGTCCCTATTTGTGGG
TGTTACTTTACTAACTACCAGGGATGAAAAGGCAGGTTTTGCTTTGTTATTACGTCACAGTTTCGTCAAGGAGATAAGTACTTAAATTGCAGTAGAGTGT
GACAGCATATGTCGACGGTGTGAGTGATATGGAATAAGAGTGAGACAGGGAGGCAGGGCAGGCTCCAAAGGCGAAGAGATGTCTGAGCCAAATTGAAGGG
TAAACTGAGTTCACCAGGCAAACTGAGGAAGGGTACTCAGGCTGAAGGATCATGGGAGGGGAGGAGCGTGAGTTCCTCTTAAGTGARTATAAACCAGGGG
GTAGGAAACAACATGAGATGAGGCTGGCGAGAGAGAAGGATGCYAGGTGAGGTGCTGTGGTGCGCCAGAGACTGCGGAAGTGGCTTTCTAATTAAGAAAC
AGAAGCCAGGAAACTCCTGTACTTCAAGGTTTTGGAGTGGGAAAGTTGAGGAAATGTAAGAGATCATCTCTGTCTCTATCACATTACCGACGGAGAAGTG
GGATAAGAACTAYGTGTGTTTTCACTTCTTCTTTCTTTAGAGAAAACAAATATCATCTGCCTTGCTAGGTAGTTGTGAGAAATGAGGAGATAATATCTTT
AAATCTCCTACGGTGATACCTGGAACATGATGGTGCTTGGGAAATGTCTCTTCTTCTGAAATGAGGCTGCCTSGAAGACTCACTGGAACCCAAGCAAAGT
GTCTCTGCATTTCACTCCGAGCCATCGACTTCTGTTCTGAATGTTAAAATGCAGGTGGCTGTGAGGGAGTCTTCTGAGTCATGCCAGCGTTTAAGGCGCT
TGCTCTTCTTTGTGCACATTCCTGCTTTTCTCAAAGCCTATTGAAAGCAAGGGCCATGTTTGCTGTTTTCTTTGACAGAGGAAATTTTTTTTTTTTTTTT
GAGACCGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCCACCTCCCAAGTTCAAGTGATTCTCCTGCCTCA
GCCTCTTGAGTAGGTGGGACTATAGGTGTGTGCCAGCATGCCCGGCTAGCTTTTGTATTTTTAGTAGAGATGGGGTCTCACTATGTTGCCCAGGCTGACC
TCAAACTCCTGCAGTACAGTATTGCACCTTCCTCGGCCTCCCAAAGTATTGGAATATCCGGTGTGAGCCACTGCACCTGGCCTCCAACAGAGGATTTCAG
TCAATGCTGAGCACCAATTACAGATTGATTGCCTCTGTGATTCCAGGTAAATAACCTTGTTGTGGAGCTGAGTCTTTCATCAAAAACAAGGACTCCTGGC
AGATGCCCAGAGGCATTTATAAGCAGTCCCATCACGAACAAATTGCCAAATGCAAGGCCTGAGCAAAAGACACAGAAAGGATTTCTTTATCGTAAGCACA
CTTCTCTACATTACCTTTATAATCCAMCAACTYTGSTATTAGTAAATTATAGAAMCAACTTTTGTAACACTATCTTGTTTSCAGAGTATATGAAAAATTT
GAAGTTAAAATTCAGCTCCACGAATACTGCAGTGGTGAGAAAATGGCGACAAAGATTAGTCTTCTGTGAGAAGTCTGCTAATTATTCTTCATTTAATAAT
GCCATGTATGATGGCCTTCATTAGAATGAATTCTTCTCAACACCTATGCCTCTTTCACCTCAGACATGCCTTCTAATTTTCTTTGGTAGTGTCTGCCCAC
CCAGGTGGTAATTTCTGGTCATAAGTCTAATTTAGTAGCCAGCTAAAGGATATCTGTGAACCCTTCGCAAAGAGTAATCTATTGAAAAGGAACAACAAAA
AAGTATATCTGTGAACTTATKAAATGACTTTAATCATATGAAAATCAGCCATCAGCCTTATTAGAGTGGTTGATTTTTTTTTTRATCTAAGAGCTTTCTT
GGTTATTTTCTGTTCTTAATCATTGTTGTATATCCTTAATGYGCAGGACATGACACCGTATAACAAGTGTTTTAAAAATATTTACAATTCTGATCTTATA
AAGGAAAAAGTTACATATGGTCCTTTGAACTAATTGCTAAAATGACACTACATTAATTAGATAATTAAGGGTCTTGAGCATGTGGCTATTGTATTCATTG
GGCTGGAAGCCAACCTTTTCTATAGCTGAGAAAATGGGTTAGCATAATTCAAAATTCAATTGCTGTACCCTTTTTCATATGAATAGATAATACAGAATGA
GCCTTAAATCTGGGTTGGAAAAACTAACAGGAACTGGTTTTATTTTAATTGAGTTTTAAAGCACTTCTAGGCCATCTCATTGTCTTTATAGTTTAACCCT
TTGAAGTTGTGACTGCCAACGTGCTAGTCTTGTCGTCTTACACGTTAATGGTAATGATCTTTTTAGATTTAYTGTGAACCTCTAGGAATGTTTTTTTTAA
CCAGTAAATGCACTGAAACATGGAATCAAAGTCTCTTTCCCGTGGGCCCCTTTTCATTGGGAATAAATGCTACCCATAGATTGAAGTAGTTTATACCAGT
ACATTTTTTAGGTGCCTTAACTTACCAAGGTTATTTGTCAGGAAAATTATCTCTTGTAACACCAGGTTCCCTACCTTTAGATGACAGGACTTAATACAAA
AGTTTTCCCCATACCAACTAGTAGTGTAAGTTGATTTCATATCCTTTTATTTCATAAAGTTTTGCTTATCGGGTTTGTCATCCTCTATTTGMAATTAAAA
TGTGTGGTCTCGAGATGACCTTAAAGTATCTGACCCCCAAATCTAATCACTCCTAGCATCTGTGAAAATTGACAAATATGTCAGGTATAACTTGGGGCAT
CAAAACATTGTTTTAAATATTTCGTTTGTAGACAAGGCAAAGATCATTTTCAGGTTAGTCCTCTGAGAAGGAACGCTGGGTGCAGAAGCATCTTTGGTTT
CTCTGCTCTATAATCGGCACTCATTATCTATGGGTTTATACGAGCAGAAAATGTACAGTTATATGTTCAGCACAAGTGAATTATTGATTGGATTTACGGC
CAGAAGAATGTTCCTAAGTGGTCAATACATGGCCAAAGTGTGTCAGGTGAAGGTAAAAATCAAGTAAGATCTATACTTTTGATAGCAATTGCTGTTGGAT
TATGTTACGCTTGTCATCTGAGGTTACTGTTGAATATAGATAAAAATGTTAATTGTATTAATTTAGACAAGAATGTGGCTTCAATGAGTATTTCTTACAA
AGTGGGAGTATCAATTTTTCTTAAATGTAGAGATTTAGTTTTTCAAAAATTATATTTTTTATATGACCTGACGTTGATTGGCTTGCCTACATTCTCTTTT
GGTGTATGATGACAGTTTAAAAATTCGGATGCATTTTGCACAGAATTAAGACGTTATGTGCAATCCTTGTGTTTCTAATTATATGTTGATCAATGACACC
TTTACAAAACTGTCATCAGTCTATTGGTGGTTGATTGGTCCAACCTTAGCCCGATACCTCTATCTCCGCTTAGTCATTCCTGGTGGGTGACTGATGACCC
CTGCTTAACAGTAAACTTGTTATGCATAGGGTTGTTAGAAAAGTCTTCATCAATTTGAGCCAAACTGTGGCTCCCAGCTACTTCCATCAGGGGTCCTTAT
TCCACCCTTTGATTGCAAAATGCCCTGAAGACCTGGTATGTCTTATGTCAGTTACAAGAGGCCCTTCTAGTGATGTACCGGGAACCTCCTATGGGAACCA
GAGCTCTGCTAATTTTGGGGACAAGAAATGATGAAAAGAAGTGCCTTGTTCTTGGGGCATCACAGTCTCATGACAGAGTGCATGTTGTCAAATGCGCGTT
TAATCTTCTTAAGCTCAACTTCATGCAAGAGACCTAGGAATTCACAGAGTGAAGATGATTTCTCCATTCCCTTCTCCGAGCAGAGCTSTTGAAGAAGATG
GGAGTTAGGAGAAGTGAATCTTTTGTTTTCGAAGCCTTTGTCCTTGTGAGTCTCTTAATTGGGGTGTCTTGTAATGCAAAGTCTTTAAAGATGTGTGYTC
CTGAAACTCAGGAGGCTGCTCTATCCCATGGTTCAACCAAAGAACCAGGGCCAAAGCAGTGCTGAAGGAACAACTGATTCTCTTGGCCCTCCTTAGAGTG
AGGGTACAACTGGCTCCAAAGGAAATGTTGGCACTTCCAGAGTAATTCTGACAGTACTCAGATTTGCTTCATGTACCCATTCTAGAACCTTACCTACTCA
AGTGTAAGATGAGATGCCACTGTGGTATCTTCAAAGGAATTTAGAATCATGTCTTAATGGCTCCATTAAGAAGAATTCTTTTTCTSTTTTCTCTGAAAAG
CATCCCAGGTCATAAAATGTAATGTGGGATTGTAGGTTTTGTGGGAAGATGCACTTGGCAGCAATTCCTTGAGAGGAGGCCTTGAAATGTCAGGGTCCCC
CATTCATCTTCCCAAGCTGGGATTGACCCAGTGATAACATAATGATAATGCAGCTGCTTTCAATGTCAAGCCATCAGGCAGCGGGTTGGGGGGGTTGCTT
GGCCCAGGAACCCGTGCCCTGATGTGGAGTTGGTAATCTAGAGGGTTTTGAGTTAAGTGCTTTTGACATGGAAAATCAGGAGCCAAGGGCGAAGCTGCCT
TTTAAATGCTCTTTCTGAAAGAGTCCACTGCAGATGTAATTGAGCCTCTCAGGTGAAGAGCTTTATTCGAGCAAAGCTGGTTAGTGTTGCATACCTGTTT
GGGGGAATATTTTAGGCATCCTCACAAAACTGCTATGTGACATTGCTGAAGGTCCCCAGCCTCCTTGCTCCCAAACACTTCAAGAAGGAAAATGCTGTTG
CAGAAATGTTGTCTAAGCTTTACCATTCAGTGTGGCCCAGATCAACCTGTCCCTTCTTTTTGTGATCACAGTGTGTAATTATAAAGTTATTTGTGTGTTT
GGTTTATGTCTTCCACACTGGACTGTAAGATCCATGAGATCTAGGACCACGTCTGTCTTGATCATTTCTCCTTCTCTAAGACTAACACAAGGCCTGGCAT
AATCATTGTCATCACCATCACCATAGCTAGTATTTATTGCCATATACAGTTATGTAAAACATTGTAAGAAGTGCTTTACATCAGTTATTCCCAACCATGG
AGTCATGAGTCAAAGATGGTCAAATTGGCCAAGATGAAGGTGTTTGCATTTTGGAGACCAAGCACTTGAATCCATAACCCCAAGATGTGACTTTCCAGGC
TTGGGATTTCGCAACACGTCGCTTAATCTCTTAGCTTACATTTTGTCATGAGTAAAACTGAAACAGTAATTCCCATGTGCTGAGTTTGCTGTGAGGATTA
AAGACAAGGACTGTTCTAAGCCCGGCATATAACGGGAGCCCATTATAAGTGAACTGAGGTGTTATTTTAATATATACCTTTTAAAGTTTGAGTGTTAGGC
ATGCTGTTGAGTGAAAGAAGACAGACTGTTACCAGAGGACATATTCTGTTCTATGATACCACTTGTGTAAACGTGAAAAGCAGGCAGGAATTTTCCATGT
GAGAGAAGTCAGAATAGCAGTTAGCTTACCAGGGGGTGGTGATCTTAAAGGGGCAGGAAGGAGCCTTGTGGTATGCTGGAAATTTTCCATTCATCTGGTG
ATGTGATCACTTGGCCGTGTGCACGTGTAAAAGTTCAAGCTATATGCTTAATATTTGTGCACGTCGGTGCGTGTAAGCAATATCTCAAAACATTTGAGAG
AATTTCCCATTCATTGACAGAATTTTTCTCCCGCCTCGGTCAAAGCACACAGTGGGTTTTCCCAACAACTGAGGTGCCTGAGGGTTGGGTGCCAAAGAGG
CAGAAAGGCCGAGATGACCGCTTGACCTAATTCCCTATTCAGCTGAGGCCTCCACCCCTGGCCTGTTCAAAGGCAGTTACGGATCTTTTACTCAAAACCT
GAACCTAAAAAGAAATTCTTTAGCCATGTCCGTGTGAACTAAATTCAGCGTCAGATGTACAAGGCTGTGGTTCTGACCACCCCCGGGCTATTTCTGACCA
CAGGACAGCTTAAATGGTGTGGCCCATAAAATGTAATCTGCAAACTCAGGCTGAATGTTGATCTATTTAGGGCCAAGAGAAGACCAGGCCTTGGCAGCAG
TTCTCCCTGAGGTAGGATCTTAGGTCGAATGGAGACCATCACCCTGGCTGCCAGCCCCAGGAGGCTGGAAATTCGTTAGCATTCTTTATCTTTGGGGATC
GGCCACTTACTTGTGGGGTTGACTCTTACAGCCTTTGACCACCTCCCAAAAGCTGGATTCACTGATGGGCCCCCAACTCAACTTTCACTGGCCAAAGTAC
TTGGGGTTAATTTAGCAAACCCCAGGATCCCCAGAGGGTCCCTCGGTATTGTGGTTTTCTCCTCGCTTCCACCTTATAGTGGCTCCACCAGGACCTCTTG
ACTCAGCCAGCACTCCTTCTCAAGTCACTTCGCAGCACAATCCGTTTGTTGTTGCTGTTGTTTTTTCTTTTGTTTTGTTTTGGGTTTTTTTTTTTGTTTT
TTTTTGTTTTTTTTGTTTTTTTGCCTAATTTGTGCTTGGCTTCTCCACAGAGGCCTGGTTCTGGTCCCTTCCCCTGCAACCCCAAGGCAGGGGGCAGATT
CCCGTATCATGGTGCTCCTTGGCCTGATTCTGTGGSCTTTATATTAGAACTCACCTTCTGGAATCTTTTATTGTCTTGTTCTCTCTTCCAAGCTGCGCAT
CTTCCTTCCCTTCAGAGGTTTGGTGATCAGCGTGGTGGCTCGTTTCTATAATCCCAGCAGTTTTGGAGGCCGAGACTCGGGGATCCCTTGAGCCCAGGAG
GTTAGAGACCAGCCTGGGCAATATAGCAAGATGTCATCTCTACCAAAAAACAACAACAACAAACAAACAGACAAACAAAATTAGGCCAGGTGTGATGGCT
TATACCTGTAATCCCAACACTTTGGGAGGCTGAGGTGGGAGGATTGTTTGAGCCCCGGAGTTCAAGACTAGCCTGGGCAACATAGCGAGACCCTGTTTCT
TAAGAAAAAAGAAACATTTAATTAAAAATTCAGAATTGGAAGTTGCATTGAGCCAAGATCATGCCACTGCATTTCAGCCTGGGTGACAGAGCAAGATTCT
GCCTTTAAAAAGAAAGAGGTTTGGTGCCAGGACGCCATGAAATAATTACTCTAGGTAACCTGAGGCTAGACAAACCTCTCCATGTCTCAGTTTCCTTCCT
GGCAAAATGGGGAGGTAAGGCCAGATTTCTTCTCCTTTAGTTTTGTTTTTCTACTTGAATTCTATTTGTCATCCTCTGTACCTACCACCTGCCAGTTGCT
GTATTAGATGCTGTTTTACTCATTGTCTAATTGAATTCTCCAACAACCTTGCAATACGCTTGTTATCTCCATTTTAGAAACGAGAAAATGGTGACTCAGA
TTAAGAAACTTGCTCAATGTAACCAAGTCACAATTTTAATATTAAAAATAATGAGCATTTATTAAGTGCCTGTTGAATGTGTAGGATTTTGCTAAATCTT
TCACATAATCTCATTTCATCTTTATCATAGCCCTTATGGTGAAAATGCCATTATTCTTTGACATAGAGGAATTTTGATTCAGGAAGGTTAAGTAATGTGC
CCAGTATCATCTATGTATAATTGATGGGTCTATAATTTCAGACTCAGGTTTGTTTAAGTCCAAAAATCATGCCATTATGACTGTGTACCATGTTGCATGC
CTTCATATCCCCAATGGAAAAATCCCTTCTCCCACTTTTCTTAACCCTACAAGATATGCCAAGATTCTATAGCATCTGAATTTGAAAACCTCTACTAATT
CATGAGGCAATCTATTTGATAATGGCATGATTTAGTTAGTGTTCCTTTTTTAGAGATAAAGCCTCACYCTGTTGCCCAGGCTGGAGTGCAGTGGCGTGAT
CACAGCCCACTGTAGCCTTGACCTCCCAGGCTCAACCTATCCTYTTACCTCAGCCTCTTGAGTGGCTGGAACCACAAGCAGATGCCACCATGCCTGGCTA
ACTTTTTTTTTTTTTTTTTTTTTTTGTAGAAACAGAGTCTCTCTATGTTGCCCAGGCTTGTCTTGTACTGGGCTCAAGCAATCCTCCCATCTTGGCCTCC
CACAGTATTGGGATTACAGGTGTGAGCCACTGCGTGAGGCCCAGTTAGTATTCTTTACATTTTTAAAATAAAATTTCAGAGAAAGCAACCAAAGGGAGCA
TAACTCTGATAAGAATAATAAAAAGAAACAATTCAGCAACTCTCTTACAGATTTTTATCATCATCCCATTCATAATTGATTCCARACGTGCATGAATCTT
TCAAGATAAGTGTCTTATTGATTAYCCTGAAAACAAGCGATCACTTGGTGTCCTGAGATTCGCTCACTGCCCTCCCCTGATTACCGTAAACAGAGATGTT
GATGAGAAGAAATGTCACTTTCTTTGGTGTTGGATCCATAGGACATTTTGAGGAATTGGGTGTGGGGAGTGGAGGGAGTGAAGTGACCCAGATAGGGAGG
TGCTTGATGGCTTGACTGTGGCCTTCACCTTGCTTTTTGTGGAGCTGGATATAGACATTTGTTGGCCAGCTAATACTGTCTTGATCTGTTATATGATCCT
TAGGCCAGGACTTTTTCCTGGTAATTGTGCAAAATGTCCCAGTGAATGCCAATTCCTTGCTGTCAGGAAACATTAAGTTTCCTAAGTGACATCCTTTTTC
TGCATGTTTACTTATGGTTATGTAAATCAAGCGGGCCTCCCCATTGGAAATGATGGCAGTGGTTACAAGGGACTTCACCTGGTCTTTTGTAGTTGTGGCA
AATAGATAAGATACAAATGTGACCTGCAATTCAGTTCAGCATTATGAAGCTGTATCTGCTCCCTGGGTGGTGGTCACAGCCCTGCTTTGTGGCCCTAACC
CTTGCCTTCCTGCTGGCGGGCCTTGCACAGGTGCAGAGAGGGGGTTAGTATTGGCAAGCTAATTGGATAAATGGTGAAGTTTCCCCTGGGTGGCTCCATT
GCTCCAGGTGAAGCTCTTGAAATACTCTGTAGATGACAATAGCCTCAAACTTGAACAGGTTCTTGCAGTTGGCAAACAGAAGGAGACCAGACTCATAGGT
TTTGGGTGCGGATAATGGATAATCTGGCTATTGCATTTAATTCCCAGCCTGATTTATTGAGGCTGCCTTTGGTGAAATATTGATTTATATCTTGGGGGGC
CAGGATGGGGCTACTCTGTACTCAGATGAGGCTTGCTCTCAGGAAGTTCTTGTTCAGCAGCAAAAATCTGCCCTGTTTGGGCTCTGAAAGTTATTTTTGT
AGTGGCCTCACAAGTTTCTTGTAGCAGGTCATGAAGAGGAATGAAATACTATAATCACAGAGCTTGCAGAAGCTGCCTGGAGGACCAGTTAGTCTATTTT
TTGTACATGAGGAYACTGAGGCTCAGAGAAAGTGAGGTCATTGAGTCACTTGAGTTCTTGTTGAGTGTTCTTTCCTGCTGAGGTGTCCTAGGTGCCTCTT
AATGCCTTTAACATCTGCTAAGAGTATGTCACTTATTGACGTAGCATCACTTTATTGAGCAGCTACTATGTACCAAACACTTAGCATATGCTTTTTGGCA
TTAGGAGCTGAACCCAGAGTGGTCTCTGTGGAGAGGTGCAGGTTTACCCAGGGTGGTGGTAGTGGTGATGGGGTGGTAGTGATAGTGTTGATAGAAGAAG
AGGAGGAGGAGGAACTTCTCAGGAAGAAGTGGCAGTTCCCTCCTTTGTTTCTTATCTCTACTGTTTAGCAGCCACTCTCCAAAGCCTCTTGCTGGGAAYG
TGGCCATCATAGAAGTAAATGAGACATCTCTTTCATCTGCACCAACCTCCTTATTAAGACCTTATCAGTTACCTGTAGATTCTCCCACTGTTGTACTTGT
TTCTCCCTCAACCAATTGTATTTTAGCTCTCAAGTTTTGGCAGGGTTGAGTCTAGTATTTCTGTTGGGATCCGGGGAGCATATGGAGTGTTGTTTGTTAT
TTTTTAGAGTTTCTTATTGCGGTAAGTGCTCAGGAGGGAACAGAGGGAGAAGGATAGAGGAAAAGCAAAGCAAAACAAAATAGAAAAGCACAAATGAAGA
ATATTTAGTCCATTCTGTATTAGTCCTCCTTGATGGGGGGACACATGCCAGCCAGGTTACCTGATTCATCTAGTTGTGATTTTATTGACAGTCATTTCTA
CCTTGTTGGTATCCGCAGAGGTTGTCTTGAAGGGGGCTGATGCCTTCTTTCACTAGCTTTATGTGGCTGGCAGTTCTGTCCTGCCACTCTTTTCCTCATC
ATCTCAGCCTCCCTGCCCATGGCACTCAAGAGTCSACCTTGGCAGAACCTGCAACTCTTCAGCGCCTCCCTAATGAACTCCTTGCAAGGGCCCTTGGTTA
AGTTACAGTAGAGAAGTGGTTGCTTAAGCAAGTAGTTTCCGGTAAAGGCATAAAGATAGCCCATAATTGGGTGATAAAATACCTGGATTGCATCTAAAAA
TAAAGACTTGTGAAGGTAAAACTGTAGCTTACAGTGTGCGACTGTTTACCTTCTTTTGGTTTCTTCTCATTTAATAGGTTGGTCATCTCTCTGCTGGSTT
TTTCCCCCTTTTTTCTCCCTTCTGTAGAATAACATGTGGACCATTAACTATGATGCTACTTCTTAGCTGCAAGGGGGGAAAAATGGAAAACTCCAGGGGA
AGAGGGTCTTTACTTAGGGAGTTGGCATTTGTTGGAATTTCCCAAGAACATTTCATGATTAGTGACAGGTTATCTTCTASTTTACCTGAAGGCTATGGTC
ACTCAACAAATTTTGTGTTGCTTCTTACGTGTCACGCACTGTGATAAGTCCTAGGATTATAGAAGTCAATAAGCTATGATGCCTATCCTTAAGGAGAGAA
ACACATATAGGATAGGAAMATAGCTTGCCATGTCTGATAGATATTAGGCATTCAGTCTCTCTCTCTCTCTCTCTCTCTCTGTTTATTATAGATAGAAATA
AAAAAATTATAAATAGAAATTTATTTCTCRTGGTTCTAGAGGCTGGAAAATTCAAGATCAAGATGCAGACAGGCTTGGTGTCTGGTGAGGGCTGCTTTCT
ATCCTTCAAAAAGGCACCACGTTGCTGTGTCCTTATTTGGTGGAAGCAAGTGTGTTGAATATTCTAAGAGGAATCTGAAAGTGTTATAGTATTAAGGAAG
ACAGATCCAAGATGGTGGCAATGGTCAAGAAGGGTGCGGGAAGAACCCTTCAACTCTAATATTATTTGAGCTGCTCACTGATAAATAAATAGGATTTTCC
CAGTTGGGGAAGAGGGAAAGGTTTTTAGGGAGCAGATTAGACAAGAAACATTGAAAACACAAAGTGTATTTCTTGATACTTGTTAACACTAGGTGTTGAG
GAGACATAACCAAGTTCTCCTGCAGTTTGTGTGTTAAGGCAGATGGAAATGTCTTGTAACTCAGTAAAACAGTTTAGAAATTTAAAGCCTTTGGAGAGAG
TAAGTATTGAGAAGGCACATCTCTACGTTGTTGAYGTGAAGGAGTTGCAAGGTCGGGTAGATGGGATCAGTGCCAGGTCTAATGGGCTTCATTTGCAAGA
CCTAATTTCTAGCAGATCATGGTGTAAGCCTCAAATGGGAGGTGTGCCTGGGATGGTTGCAGAGGAGTTGTTAAGAGCTCAGACTCCAGCGTTTAGACAA
CACCAGCTGCTACAAAGGACACTGTGCATTTCTAAATCTGAGTTTCTGCACACGTATGGAGGAGTAATATGGCACCTCCTCATTTGGTTGAGATGCTCTG
GGGTACACGTACAAGGCGCTCAACTCACGGTGGCTCCACCAGTATGAAAATGTGTTATCTGCCCTAGTCTGAAGTACAGAAGTCAGGTGGTGAGAGGTGA
CATGCCATGATGTGGTTCTGCTTCTCTGAGATTGTCTGTCAGCTTTTCCCTCAGTTTCACCCCCCTTTCTCCCTTTTTCAAGATGGTTTTAGCACTTCCA
GACATTATAACCAGATAGCCTATTGCTAGAGAACAAAGCACCTTCTCTTCCTATATGTACCTCTTGGGAACAAGGGAACCTTTCCCCAAAGCCCCTCAAC
ACACTTAGGCTGACATCTCCTTGACCAGAACTGTATCAAATTTACATAGCCTCAAATGAAGCATCTGGGAMCACCAGGATTGGGTGTTTAGGCCATGGAA
GAGTAACAGCCCAGTACACAACTGTCTCCAGTGGCCAGCACGTAGACCTTCCCTCACACTTTCCACTCTCTGCATCCCCTCTTCCCTCTCATGTATCTCT
ATTACATGGAGCCTCACTTTATAGTCCTCATTAAGAGACTGTGGGGTGGTAGACAGATAACAATGTTAACATCAGGCAAATGGGTTTTGGATTTAGGTTA
CCATCATTTATCTTCTCTGTAACCTTAGACGAGTTGCTTGAGTTCTCTGAGTCTCAGCTGACCAAGCTCTAAAATGAGCATAACCATATCAGTTTGTGTT
TCCTGTTACAGGGAGAAAAGACTGAGATAACTAAAGTACCTGATTGASTAACTGCTCTCTGAAGGTGGAGGCTGGACTGCTTCACTGGACAGGGTGGCCT
GGGGTTATTCTAGTGCAGTGGTAGCTGGTGACAAAACTSAAAGAAGATGTAACTAGAGAAAAGGTACTCAGTGCAGCCTCTGTGAGCTACCACCACTGCC
TCTAGTTTTCCAGAAAACCACCMCTGACCACTCTCTGTACAGATGCGCTCAAGCGACCATAACCACCAGTGTTCCTAACAATGCGCCTATTGACTTCTTA
TTTCAATAGATATCCAGATTKATTATCCCTCAAGGTAAGCATCGATTTTACCTTTGTCTCAGTCAATATTTACCTCTGAGGTCAATACGTGTGGATATTC
ACCTCAGCTGCAGTCAATATCCATTTCGTATTACAATATATGATGTGCRTATGTGAAAATAAAGAACAGCATGGTACAAAAAAGGTCTGCTAGGCAAAGA
AGCTTTTTGCAAAGCGGATGTGTTTTTGTTTTATTTTTTGTTTGTTTGTTTTTACTGTGTCACTTTTTAGAGGTCAGATTCTATTTCACTAAATAGGACA
TATGTGTCTTCTGCCAAGATGTGGAATTTTGGCAAGGCTAGCATGATAACAAATAAACATTCAAGCAGTCACTTAATGATATTGAATTGAACACMATTTC
TCAGAAGTTCCTGTATTAAATTACAACCATAAGAACATACACAAGCATGCAGATTGTAAGTGTGATGAGAATGGAAACATTCCATAGGACGCAGAGTTAT
TCCTCAAGCCCCTGGACTCGCAGAGAATCAGGTGTATGAAGCAAGAGGAAGAAGACAAGAATCAGGAGGCAAAGAGAAGGAGGAAGAAGCCTCAGTGGGG
TTGCTTCTTTTTATTTCTTAGAGCCAGAGCTGGAAGACAAGGCCTGGCATATTTTGGCAGGCCTGGATCAGAGCCTAGGTGTGTAAATTAGGAATTGCAT
TTSGCTGCTGCTAACAAGGACCCAAACATGGTGGTAAATTCTTCCACATAAAACAACAGAAAATAAGTTGTTTTCTGGCCCTGGGCTGGGGTGGCCACTC
CACCGTCATCGATGATCCGGGCTCCTTTTCTCTTTCTGCTTTGTGACATTGCTTCTATCTTCATGATAACTCGCTGCCCAGAATGACCAGGCAGCATGAA
AACGAAAAGGTGGAGAGGGAACTAACTTCTTCCCTTTTGAAGAGCTTTCTAAGAAGCCCCACCCAACACTACTGCTTCTCTCCCAGTGGTGGTGATTTAG
TTGCTTGAGCACAGATAGCTGCCAGGGAGGCTGGAAAGTACAGCCTTCAGTCCTAGCACCAATGTGTCTAGGCAAATACAAAAGCTCTTTAGCCAAGGAA
GAAATGACAACGAATATTTGGGACCCACTGGGAGTTTGTGCCAAACCAGGTGTCATTGCCCTCCCCACCCTACCTTGCTCCCCTGGRGTGTATCCTGATT
CTTTTGAGGAWCACTTGATCCTGATTTTTTTTTTATGTGTAWAGATGGGATTTCATTATATTGCCCAGACTGGTCTTAAACTCCTGGCCTCAAGCAATCC
AGCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCTTGAACCACCATCCCTGGCCTTGATACTGATATTTTATTGTCCTAACTGACAGTTTTGTCTGC
CCAGCATTTTCCCCCRTCACCCTTGTACTATCCCATTTTCCTTTGCCATGCACCTGTCTTCCTCTTCAGGATTGATCACAAAATCAAAACCATTCCTACC
AGCCAGAGGTGGGCACATGACCCAGGTCAGACCAGTCACAGTTCCTGATTCCCGGCCACAGTGCTTGATGGGGGAATGAGCATATATCAAACCAGGACAG
TCCAAGTCCTTCCGGGGACTTTGCTGCCACAGTTGACAGGGGGAGGTATTTGCATAACTTCACCACACACAGCTAAGCTGGTGATCCTGCTGCTTGGCAG
CATCTTCCCAGCGTACAACAGAGGAAAACTGCCTGTTGTAGTTAAAAAAAAAAAGAGAGAGAGAGAGAGAGACTGATACMCAAAGAGAATCAGAAAGGAG
TAGAGATGAAACAAAGATAGAGCTAGCATGATTGCAAGCTGAGGACATACGAGGAGTCCCTGGGTCAGCTGGGCCATACATTTGTAAGCTGTAGACAAAC
AAAAATGATCTTTGGGTTCCTTCTTTAGCAATTGGAGTTGGAGGAGGATGACCTTAGTTTGCGTCTTTGTCCCACTATCATTATATCCAACTTGTGTAAT
TAGAAACACTATTTAAGTCTCAGTTTCGTCTCCTGTCAATTGGGAAAATATCGTGAGGCGGAGATGTGAGATGTGATCACGTTTATAAAGTCTGCGGCAA
GAGGATGATAAAGTCACTTCTCAACTCCTTCTCAACTCCTCCTCCTGGCTTATTAATGCCCATCCTTTAACCTGTCCTCTGCTTTATCTCTTGGAATCCT
TAGGGCCTTTTTAACCCCATATACGAAGCAAACCTATGTGTATGTGTTTGTGTGTGCATCAATTCATATGGTCCTCTGCAGCCTTGCAAAGTCGATTCCT
GACATTTCCGTAGACTGTTTTTTTTGTTTTCAGCAATACTCTCCAGCAGCAAAACCCAATCCGYTCATATTCTTGCATTTGCTGCAGCAAAACCTGACCT
CTCTTTGTGTTACCTGAGTCTTGACGAAGAAGACTGAGGAAAGGCCCCCCCCCCCCCCCRCCAAATTGTCCCGTTGTCTCTTGGCTGGTCTTGCCAGCTG
GCACACAGCTTCCTCTGACCACCCTGCTAGGTACAAATCCCACATGAAAAGTCTCAATCACCTGGCTCAAACTCATAGTTTTCAGGTGGCATAAGCCATG
GCATTTTCACCTCCTTTCCTGGTTGTTTCCAGAAAGGGATGATAGCCCCAGTGCAGTGGCTCTGTATTTCTCAGGGCAGCGTGGGACCTCAGGGTTTGTC
ATGGACCACACCTTTCTCCTTTGTCCCTTTTTATAACTCATAGGCTACCTCCAACTTGACRCTTATTTAAGTTTTTATTTATTTTATTTAGCATTCAGAA
AACTCTATAGCCTCAGTCTCTCGGGATGTAAATTAAAGCAATTTCATTTTCATAGTTTCTCTGTTTCAAATCCCTCATTGTTTATTTAAATAGCAGCCTA
TGCATATTGCAAGTAAAGAATTATAATTAAGAGAACCAGAAGGGCCTGTCTCTCAGGAAAGCAGTGATTTCCTTTCACAATAACCCTATCCTTACTGTTG
AAGACTTGYGGAAAAGGGACATGGCCCAGGGAACCAGAGTGGTTTGGGAAAGCACTTTGTCAAGAGGCTKGGGGACCCCAGGGTGGAAGYTGCCATGCGC
ATGAGGYTGTGTTAGCAGAGGCAGTGGCAGAAGAAGACATTGCAAACCTGCAAAAGCAACCTCTGAGGATGGGTAGACATATACTTCATTGCAGGCAGCT
GCTGCTGAAATAGATTTGGAGTCAGATGTCATATTCCTGCCAGCAGGTTTAGCAGTCGTGGGACTAGGGAAGTGGCAATGGCAGGAGCAACTGGAAATGT
CTTTTTTTTTTYCTCCTTTTTCCTGAATATGGAACCAAAGCCTGTGTTTTTCTTGCTCACATGTGAGTCTTCTCCTTGCTTCAACCCTCCCCGCTGACAG
CCACAAGACTCTGCCTCCCTGCAGCCTGTGGAACRTAATATTCGTTGGGATCATACATTGACCAAAGATCCGCCATGTCTTTGCAACTAACATACTCACT
CATGACTTCACGTGGCTATGTACAAGACCACATCTCTCAATGGTGAGGTCCTCAATCTCTCCCTCCCCACCACAGTTAGCTATCAGAGATATACGGTGTC
CTTAAGATAGGGCAGGCAGGGCCACCTGCCCCCCAGCTGACCAGTGTGGATGTCTTGATGATGAGCCATACTCAGAGTGGCCCTAGGATGGCTCCTCAGA
TAGCTGCTGGCAGAAACCTGCACTCAGTACATCTATACATGGTGTAATGATTGACTCAAGATAMTTAGCATAGCCRTCATCTCAAACCTTTATTATTTGT
GATGAGAAGATTCAAAACCCGCTTTTTGAACTGTTCTGAAATATGCAATACCTTGTTGTTAACTGTATTCACCTTTCTGTGCAACAGGGCACCAGAATTT
ATTTTTGCTATCTAAAATATCAATTAAAAATACAATAAAACTAAAAAGAAACCTGAACTCAGGAGAGTGGAAAAGAACTTCAACATTCAAAGGGGATAAG
ACATATACTCAGAGTGGGAAAAATACTAAATGGTAGGAAGATGAGAAGTTTTTTACTCTTTGTTGTTTCTGCTCATTTTTTATATTCAAAATTTCTAATC
ATGTGTGACTATATATGTATTATACATGGTAGGACTTATTTTTTTAATGTGAAAGAATATAAAACAAAATACGATATTATCTTTTGAGTGATATCAACAA
AACAAAACATGATATCCAAAGTCACCCTGTATGGTTGGATACTTTGGGTTTGCCATCTTTTCTTTTGTTCATTTGTTTCATGCAATAGAAACGTTTTGAG
ATCCTGTCTGGCTGGGTTCTGCTAGGCCTGGGTCTACAGCAGTTTGCTGTCAAGGTCTTGGCCCTTCAAGAGCATGTAGTGTGGTGGGGAAGGTGTACAT
CAGTGAAGAGGTAATCCAGGTCACGGTGGGATGACACAGGCTGCTGTGGCAACCCACAGCAGGAATAGCCAGTCCTGCCCCAGCAGGGCGTATCAGGGGT
GCTAAGGTGACTTCCAAGATTGAGGTTGGCGAGWTCGTGACAGGTGTGCAAGATGGGGTGTTCCAAGACTGGGGACAGGACAGGTGTGCAAGGACCAGCC
AGCTGAGGTAGAGGAAACCTAGACCTATGGAACATGCTGATTTCAAGGTCCATTTGTGGGGAGAACACGGACTGTGTCATTGGAAGCCAGCAGGGAGAAT
CAGTTGAGAGGTAAGCCGGGCCTAGTAGAAAGTAAGCGAAGCCCTTTCATTAAGTGAACGAAGGGTGCATGGTGAGTACACAGCCATGAAAATAAAATGA
TATAAATCAGCACGGTTTCAGCTGCCCTCCCATCTTTCTACTGTGATCTCAGCAGTGATGGGGCTGGCTTTGAGGGTTGGAGATCACACACACACAATCA
GCCAGCTCTCCAAAGCAAGCCCCACACTCTCTTGATGCTATCCTCAATAAACATGCGGTCTAAACAGTAACCATGTTCTAGCTATGCAGATGCAGTTTAA
AGACAAATCCTTTGAGCCTCCAGCATGCGATCCCCTCCCAATCTCATTGCTGCTCCCCTACCCTCTTCTGCGTAGAAGCGCTGGAGCCAGGTGCTTACGA
CCTGGGTGCTAGTATCTTTGTGAAAACTGCTCCTGACCTATTGCTTTGTTTATTTTAGCCGGTGCCTTTGTAGAGGGAAAACAGCTTAGCAAGCATTTAG
TAGGTAGATCCAAAGTCCCCAGGAGCTGTTGGGAAGTCCATAGGTGCTGTTTCCATTGCTTTTTCATTCCTTCATATATTAATCAAGGAGTCAGTCAATC
AATTAAACGGATACTATTAGCACCTACTGTGTGCCGGGCACTGTACTTGGGGCCATATGCACTGCTGATTCATTCATTTGGATTCTACGGTGGCTCTTTA
CCCATTGCCATCATTTTGTAGGCAGTGAGTGCCCGCATCAGTGGGCGTTTTATGTTGCACCATTTTCTGAGCAATGTCTTTSGTCCACCATTAAGCATTT
GTGGCCGCCCACCCCACAATATGCTTTGCTTTCTGCTTTCAGAAACAATACTGGTGACCTGTTTTAAGAAAAGCTGAAAAGCCAGGACTTAGATTTTTCT
GGAAACCTTCAAATTAACCTCATTAAGTTTAAAATTGTTTTTTTCTCGTTCATCTCTCTTGCTTTTATGCTTTCCAAACCCCTAAATTGTGGTGCCTCAG
TGATCTTCTATAACATAAGTTGATAGTCAATAATTGCTTAATGGGAATCATAAATATGAGTTTATTTATATGTGTRTATATATATATATATAAAATATAT
TTCCATGAATATACTGAATGCTAAGCCCTCCCCACTTTTTTTTTCTTTTTTAAATTCAGAAATTTCTAGTTGTGTTTATTCCCCTCGTCAGCATACTTTA
TCATATCARAGCCTTTTCAGACACTGTAAAACTACTGAGTTATGTTTGGGTCATGTTTTGCGGTATGCCCTTTAATAGTGTAGCTTTAGAAATGCAATTT
TCAGCCTCTGCTTATTAGAATATGATAAAGTATTCCTGGTCTATGTCCAGCTCCACTAATCTCCAGACTGCGCTTCATGAATTAAGCATGAAGATTTTAG
TCAATGTGCTTTCAAAGACCAATGTTTAGGGAATCATGGATTTTCTACAAGCTGAGGGAGAAATCTATAATAGGAGGAACTGATTTTCAAACATCATATT
CTCAAGAAGAAATGACCACTTCTGGCCCAGAAACAGAAAATATTTCACTATCAGAATTTTCTAGAACCAGTTAAAACCACATTGTGCTGTTAGGTTTAAT
AAACGGATTGTGTTTTAAGATGTGTAAGACTGTCTGTCACGTGGGAGGATTTCAAATGACTGCTTATTTTGGAAAGCTCATGTAGACTGGGTTAAAATCG
AGAGGGGAATGCAAATTGAATTTATAAGGTATTATTAACTTCTTCCTCTTTCCCCCCGCCCTGGCCCCTGTGCATTTTGGTTCATTTTGCTCTGATACAA
TTCAGCAAATAGCCAGATATTTCTTGCCATGGCGAGAGCTTAGTTGGGGGAGAGATTTTGACCAGGCAGGCTCTCAGGTCGGTGCCATCGGTGACGCCAA
CACACCTCCTGGCTTGGTGTGTTTTGTGGCATTTGGCAGGCAAACGTTTTGAAAAGAAATCTCCTTTCAAAAATCACAGCACTGGTTGAAGCAGGAGCAT
CTCTCCCYTTAAATGCAAAAGGAGTTAATATGCCAGTGACTACAGTGTGCCTGGAAAGGTCACTGGAGGCATTTTTGTCTGGGGCAGCCCCTGGAGTCTT
GGCTTTTGTGCTTGGTGAGACCTTATCTGGCCTCTTCATTGTCCCCTTCATACAAATAGATAGCTTTTAGTGAGCAGCTACTCTGCCTGGCACTGTTCTA
AACACATGACACCAATAGCTCACTCAGATTSCCGCCTCTCAACAGGGAAACTGAAGCACAGGAAGTTTCAGTGATGCACTTAGGCAACCAGTAAGTGGCA
GGGTCGGCATTGAGGTCAAGACTGGTTGGACCCCTAAGTTTGAACAATCAAACTGGACTTTGGGGCTCACAGTTTGTTTCATGTCAGGAAGGTGTCCGAT
CAGAACCTGAATGCCAGCTCAAGCTGCTCTCAGCTAAACTCCAGGGGTTGCTGATGGAGACTTCATCCCCTCCTCCAGTCCCGGGATCAAGACAGAAATG
TAAATCACCTCCAAGAATGGGTCTGCGTCTTGCACATTTTCCTTTTGAGAAAGAGGAAAATTCTCAGCTGGTCTAGCTTTGTCTGTGAACCTCCGGGATC
TCTCAGGGGCTTTAAATTAATTAATCAATCCACAGACATTGAACTGAATCTCCACCTTGGGCTTGAGACTCTGCAAAGTGCATTAAATGGGAAGGAAACC
AAAGGGCCTGCTGCCCTGCCCCCGCCATAGCCCAAGKCTGTGGCCATGGCTGGGGAATTGGCCTGTCAGTTCAATCAGGCAGCCCCTCTGACTGGTGTTT
TTCACTAAGCTGGCCCCATGGATGGCCCTGGTCATGTGTAGACATGGCCTCAGGAGGGCCACATTCCTCTCATTTCCAGGCCTCCCCACTTAATTGTTCC
TGACACAGTTTGGGGAGAAATGCAGCAAAACCCAGGCCTGCCAATCAACATTTGCTCCCGAGTCTCAGAGCGGCCCCTGAAGAGACAGGTTGGACCAAGG
GACATCCACAGATGCCTTGTGTTTAGGAAGTGGGGTGTGGGCAACAGAGGGAGAATTGTTACCCCCGGGAGACTGGGGGTGCTGAAGAAGAGTCTCAGTC
TCTGCACTCTGGGTCTTGCCAAAACCTCTGGGATTGGGTGTGGTGTCCATGTTGAGGAAGGGACAGTGAGCTCTCTAAATGACAGTGGGTCAACCACCGC
ATTTCTAGGACTCAAAGATGCCGTGGGGGTGTATTAGTCTGTTTCCTTGCTGTTGATAAACACATACCTGAGGCTGCATAATTTATGCAGGAAAGAGGCT
TAGTGGACTCACAGCTCCACATGGCTGGGGAGGCCTCACAACCATGGTGGAAGGCAAGGAGGAGCAAAGTCATATCTTACATGGTTGGCAGCAGGCAAAG
AGTGAGCTTGTGCAGGGAAACTCCCCCTTATAAAACCATCCGATCTCGTGAGACTTGTTCACTATSACGAGTAAAGCACAGGAAAGACTTGCCCTCATGA
TTCAGTTACGTTCCACCGGGGCCCTCCCACAACACATGGGAATTGTGGGAGCGACAGTTCAAGATGAGATTTGGRTAGGGACACAGCCAAACCATATCAC
AGGGTCACCTGTAGGTTACCGTAAATAAGAGAAACAGACCAAGTAGAGACTCAGCATAGCTGGAGGGGGGGCCCCAGATGACGGAAACAGCCCCCCAGCT
CCAGCCATTTGTTACTGGGTTGTTTCCAACAGAATCAAGGACTCGGATTTTTATGTGAAGTCATCTCCATTTTAAGTATTCTTTTCTTTCCCCCCAACCC
TCCGTGGGTTAAAGCATCCATGTTTACAGAATGAAAGATGAGGGCAGGATACCACTTCTCCTAGGGATCATCATCATTTTGTGGGGCTATAGTCCAGAGA
GGTGAAGGACCCATCTTGTGACTGCACAGCTACCCTGTGGCATGACTGAGACTATAATCTTCTGGATTCTTCAGGAAACCCTGGTAGCTGATGAAACTGC
CCTAGAACGACAGCAAGACAATAGGGCCATGAAAGCATAAGCCCTGAAGTCTGGACACTGAGAGAATTCTAGGCTTGACTTCTCTGTACAGCCATCTTGG
GAGTGCTCAACCCTTTGAATCGGATGTCTAGAATGGAYTCAGATGTCACTGTGCAGGTGACTCACGCCTAGAATCCTCTGCCTATCGTGACAGGGAGAAG
CCTGTGTGACCCTGTGGCCATCTCAGTCTCTGCAGGGCATCTGTAGCTTTGGAGGTACCTGGGCAAGAGACTGCCTTTCCTACTAGAGCTTCTGCCATCC
CTCTGTCACTATTTAAAGCATTGCCTGCACCCTCAACCTCGTTCAGTTTCCACATAATACCTGGGGCAGGGATGTAAATACCCTGATTTTATGTGTCAGG
CCTTCAGGACTCAGGGTGTATAAGTGACATGGCTCCTCGCACAGCAGGGATGGAGAGGCAAACCCAGGTTGGCCTCTCTGCCACTCATATAGAACTCCTT
TATCACCAAGATTCCTTTCTTCTTCAGTGCCACCTGCCTTATTTTACTCACCCAGAAGGAAGCCGGGTCCCTCTTTGCCCCTTTGGGTGTTTGTGAAAAG
CAAGTTGYAAACWCTGAATTCTATAAACTGTTGGAGACAGRTTCTGGAGAGACACTCAGGCTTAGCTCTAGAAAGAAACGGGTAAGACAGAGGAGGTTCA
GGGCAACTGTGTTGCCTTCCTTGACTGGTGCATGGGAATTCCCCAGCAGAGAGAAAAAAAAAAAAAGAAAGGAAAAAAACCAGAAAGGAGAATAGAATCT
ATTATCTCCAAGCCATTATTCACACACACATACCCCACCGCCATTTTCCAAATTGTAAGGTCTTTTTATATAAGCACTTTCCGTTAAAGGGGAAGAAATA
GCTTTACCCGTGGTGTAAAATATATACTTTCTAATGTAAATCAAGAAGCTATGAATACCATAATAAGAATGTGGTAGTATATTAATTGATGGAAATTGTA
GAGTGGAATATTCATAATCAGCAGAAGTCTTTTCTCTGGAAGGAACAAAGGATTAAGTTAGGGAGACAGTAATGGTATTGTTAGCAGGCTATTTCAATGA
TTTTCTCTGCRGAAGAGTAGGGAAAGGTGACATTCCAACTGGGAATATTMGACTCTGCAGATCCCTACTCGGAGTTTTTCAGCCCTGTTTTAAGTGCCGA
GCTGGGTTTTGCCTCATGATCCAATTGTTTTATTAGCGAAATCATCATCTRTTTCATTTTGCTTTGGTAATAGTGCAGTGTCTGTCTAACAATAAATTAT
AGAGTCAGGCAAACAATGGTTTCGTATTAGGGATATAATGAAATATCTTATTAAAATGCAGACTTCCTTAGGTTCCTGAAATTAGAGTCTTATTTTAAAA
TGATTCTGTTGGGCTTATTACACGCTTTTGAACTAATCACACTAGTAGAATCTCTCTTTAGTCAGAGCATAGAGGACTGTGAGAGTTACCTCTTACTTCA
GTATTTTCCCATTCGTATTTTATTCTCCTGTTCTCTTCTGGATAGATCTGGATAGATTTTTTTTAGACAGAGTCTCGATCTGACAGCCAGACTGGAGTGC
AGTGGTGTAATCTCGGCTTACTGCAACCTTCACCTCCTAGGTTCCAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTAAAGGCACGTGCCACC
ACTCCTGGCTAATTTTTTATATTTTTAGTGGAGACGGGGTTTCACTATATTGGCCAGGCTGATCTCGAACTCCTGCCCTTGTGATCCACCCACCTCGGCC
TCTCAAAGTGCTGGGATTACAGGTGCTAGCCACCACACCCGGCCTCTTCTCGATAGATCTTATTTGGCTGACAACGAAAGCTGTTGTGCTGGTAGCATCA
TCCCTTTGCATGCAAAAGATAAACTGAAATCTRAAGTAGCCATATCCTTCCGGCCAGGTTTTTCAAGTGGTTACTCTGTTCTGATCATTGTCATGACAGG
AATAGTGAAAATAACAATAAATCATTTTTCTTTAACGATCCATTTACTGTATGCTGGGCACTGCACAAAATGGTTTACATGGTTTATCTTGTAGCGTTCC
ATTTAAGTCTGCTAAGAGTAGATGCTATCATTCTCTCCATTTTACAGATAAGAAAATTGAGGCTTAGAGAAATTGAGTAATTTTTGCCAATCCTGAGACT
TGAATCTCCGCTCTGTCTTCTGCATACACTTTTTACTTGTCATTGCTGATTAGCTTTCTCTTTCCATCTCCCTGATCAGAACCATTCTGCGTTCTTAGAT
TCAACAAAATGTAATACTCCACCTTGCCAGTATCTAGCGTGTTTTCAGAAATTGTGAACGGGGTGGAGGTGGAGTACTAACTGCAATCAGATGTTTTATT
TGTTTATTTATTTTTCCTTCTTGCGTTGCTCTTAAGCCCCCACTCTTGGGCAAGGCTCTGTGCTATGCTGTTTTATGCACATCATCTTCTAACAGCTTCT
CTGCCACACCTGGAGAAGTGCCAATATCATTTTCATGGCACAGATAAGGCATTGGATGCTCATAGTTTAAGTCATCAGGTGGTGACTGGAGGAGCCAGAA
GGTCCCTTTGGGCCTGTCCTCTCACCAGCATCAACTGCACCAAAAAGATCTCATTCTGATTATCAGGGATGAACCCCCCCACTGGGTGATCAGGCAAACT
ACATGCATTTTAAAAAACTATATCCTGCTGGGTGCAGTGCCTCATGCCTGCAATCCCAGCATTTTGGGAGGTTGAGGAGGACGGATTACTTGAGGCCAGG
AGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCACCTAAAAATAAAAAATTAGCTGGGCGTGGTGGCAGCCACCTGTAGTCCCAGCTACTCA
GGAGACTGAGGCAGGAGAATCGCTTGAACCCAGGAGGAGGAGGTTGCAGTGAACTAAGATTGTGCCACTGCACTCCAACCTGGGCAACAGAGTGAGACAC
TCTCAAAATAAGTAAATAAATATAAAATAAAATAAAAAATATGTCCTGTAATGAAATTGAAAGAGAACACTTTGTTTCTTATCTAGTTGGAACAAGTGGG
GTGGGGACAGACAAGTGACTGACCACTCTCCATCTGACTCAGTGTCAGTAGACTCTCTCAAAAATTAGAAGCTGGCTGACATAGTGGCTCACACCTGTAA
TCCCAGCACTTCAGGAGGCTGACGTGGGAGGATTGCTTGAGCCTAGGAGTTCAAGATCAGCCTGGGTAACATAGGGAAACCCTTCTACTACAAGACATAG
AAGAAAATTAGTTGGCCATGGTGGCACACACCTATAGTCCCAGCTACTAAGGAGGCTGAGGCGGTAGGATCGCTTGATCCCGGGAGGTGGAGGCTGCAGT
GAGCTGTGATCACGCCACTGAATTCTAGCCTGGGTGACCGAGACCTTGTCTAAAAAATAAATAAATAAATAAAATTAGAATCTGAATTTTGAAGACACAA
ATTCAGATGCATGTGGATGGGCCCAAAATACTTTGTTTACATGTACTCCAAATGTAACTCCTGGGGCACCCTTCCTTATTTTCTCTACCACACCAATGCC
TTCATGGTCTTACATCTTGTCCTCTTAACCCTGACTTCTCTAGCCCTCATGAATGCTTTAGTGTGGCAGATGTTACTGTACATGGGCCCTCGTTTATTCA
GCAAATATTCATGGAGCCCTTGTACCAAGCACGGTGCTGAGTGATGCTGTGAGGGTGAGCAAAAGAGAATTGTCATCTGTTAAATCCCAGAGGTCCGTCT
GTGACAAAACTTTCACCATTCTTTTGTAAAAATTAGAAAAATACAAAATAGTGAGTTTTTCATGAGCTACGTTGTATCAATTTTAAAGTATTTCTTTTAG
GATTCTATTATTTACCCTTTTTCTTCAATGTTAAATACCATTTCCTTTAATAAAGATTTAAAAAAGATTCCTTCCTTCCTTCCCCCCTCCCTCCTTCCCT
TCCCCCCTCCCTCCTTCCCTTCCTCCCTCCCTCCTTCCCTTCCTCCCTCCCTCCCTCCCTGTCTTCTTCCCTCCCTCCCTCCCTTCTTTCCTTCCTTTCT
TTCCTTCCTCCCTCCCTCACTCCCTCCTTCCCTTTTTCCCTCCCTCTCTCCCTTCCTCCCTTCTTTTCTTTCCTTTTTAAATGCTGATTTTGTTTTCTTT
TTAAAGCCCTCAGTTGGCAAACTTAAAAGTTGTTAAGTCTGTGTTAGCCTGGCTAGCTTTTTTTTTCTCTACTAGACCTTCAAAGTCTAGGAATGCCTGA
TGTATCTGTATCCTGTGAGTTTGCCACTTCATGATATTTGATATGTCATTGTTTCCCCATAATTTTTTCATTGTTAGCGTTGTCTCTCCAGCCTCCTGCT
TCCTCTTCCTCTGTCTCCCTCATGGTGTGTCTTGCTCAGGCATGTCTTATATAATCAATATTTAGTGATTTGACTTCTTAAGTCCTTAAAAAAAAAAAAA
TCCAGGTGCAAAACACAAAGACAGGGCTCATGTCAAGGGAGGGAACCTCGCTCTTCTACTCTCAGTGAAAGAAAGGCAAGACCACTCCAGCCTATTTTTT
TTTTCTTTCCCTTGGCCCTTGTCAAAAGGGTAGCCAGTTTTCTGTTACCATTGTGCTAACTGAAGAATGGAAAATATGCCCAGAGTTTAAAAAAAATCAA
CCAATGCCTGCCCTTTCTAGAGCAACCTAATTAACAACCCAAATGTTAAAATTTCTTTATTTAGAAACTCAGCTATCCAGAATTACAACTCCGCCTCTCG
TGCTTGGAGGCATAGTTCTTTGTCATATTCCTGAGTGTCTACAGATGATGAAAATAGCCAGTTATCTTTGCCCTTCATGGAAAGGATAGGAAGAAGCTCT
GATGAAGCAATGTTGGGGCACTCATGGTTAAATTGAACCTTTCCCCTGGTTAAGTGGAGTGTGTGTGTGTGTTGTTCTTTTTTTCCAGCACCATATTTGG
CCCTATAATTAATATGCAAGTTCAAATACCTCTTGCATGGAGCAAGAAGCTGAAACATGCGCATTTGTAATAGACTCAGCATCTGAATTGAATGGGCAGC
TTTGGCTGGAGTAGTACTGCAGCTTCTCGAATGCCTATTGTCAAAATATATACTAGTTAGGAGACACATTCTGCTACGAGGGATGCCCTCCCAAATTAAA
GACACTGTTCAGTTTACGCTTAACATTTATGGCTATCAAACTACTAGTCCACAACCAATCATCATGGTTTCGTTAACACAGTCAAAATTTACCACTGGGC
TATTATTAAAACTTAATATAATTAATGTAAAAACACATACTTCTTTTCAACAAAAACTGGCTCTCTTTGTAGTCTCTTTTTTAATTTGGTGCAATCACTT
AAAAAGTTTAGCASATTTAAAATTTTACATCATTTTAAAATTGTTTCTCTTTTATAAGAAGGATGCTATTTACTATTAATGTAGAAGTACAAAGGAAACG
GTTACTTTGGATTTATTCTTTTGGAAAATTAGAATGTGGGCTACATGCTTTTCAGAAGTTGATGACCAAGAGAAGAAAGAAAGAAAAAAAAAAGGGTGCT
TGATGCCCTGCTCCTGCTATGTCCGGGAATTTCTTGTACCCTTCATATGAGCCCCTCTGAACAAAAGCAAATCCTGTTGACCTGTCAGCTTAAAAAGACA
AGAAATATGCCACATTCCGCAGGAATAAGGAGAAAAGAATGGTGCGAAAATCAGTGACACGAAGTTGAATATGTGAACACATCCAGACAAATGTGAAGCC
AGCCCGATTAGGACGACTGAAAGGGCATTTCCCCAGAATTGCAGTTTTTTTTTTTTTTTTTTTTTTTTAAATAGGGGACGCTATTGTCATTCAGAAAGCC
ACAGGCTGTTCTGAAAACAGGCAAAAATCAATAGCCCACTTGTTGAGGATAAGTGAATTAGCCTGTGTTGAATGTAACTGAGTACCTGAACACTTGAGTG
GGCAGGGATTGTTGGGGAGAAAAGACAATTGTCTTTTATGTCCACAGCGGTTCACATCGCTGATTAATTATGTCCAATGATCATTTTTGTGCAGGACTAA
TGGGCAGACTCTGTTTTTGTTTTTGTCTGTCTGCCCACAACCTGGTGAACTGAATAGAGTTCCCCACTTCTCAGAACAATGCAAATGGTGGCCAAGGGGC
TGTGGAAGAGTTGCCAGAAATGGAATGATTCAGATTGGATGAAAAGTTGATTTTATTAATTAGTTAAAATACAAAATGAGAAAACAGAAAACACAATAAA
TACACAGTTAATAAAATACTTCATATTTTATTATAAAAACATTAATTACTTTAATAAAGCGGTTTATATTTTCAAATACAATATTTAATAAACTATATTA
AAAATATATACAAAATAGTTGTAAGAATCGGGGCTCCTGTGAGTACGTAAATGAAATACGCTTACATCATTTACTTCTCTTCCCTTTTGTTTGTGAGTCC
AGAGACGATGGAAGAGTTTGGAAAGTTGTCAGCTTATCTTTGCATATATTTGTCCAATGATAATTAAGCACAAATTGTTTCAAAAATCTTTCAAAAATTG
TTATAAAGATTTTTATTGGTGCTAAGGGCTGTAATTTAGCAAAGTCTTACACCTGAAACCAACCAAAGGGTCTTAGAGTGTGAACTGTTGTCTTAGACCC
GGAGAAGTCTCCAAAGAATGACCATCCGAGGCATTCAGCTGGCGTAAGAGGAGTGACTCATTTGTTCTTCTTTTTTTTTTTTTTTTTGGCTGTCTACAGA
GAAGGAGGATATAGGGGCCCTTAAGAGAAAAACTGGAGTAGGGTGTGTGTGTGTTTGTTTTGGTCAAGGGCAGAGTGTGCTGTGTCAGGGTGTTTCATTG
CATTTTCATATTTGTCATTTCTCTTTGGAGCGTGTCTTTTGGTGCCACGGAAAAGGGCTGGATTTTCTATCRGGTACAATAGGTACCTGCAGGGCTTAGG
GTACAAGAGCTTGTCGGGGACCTGCACACATGTTTGAGACCTGTAAAAATATTGCTGGCTCTGAATTATGGAAAGAAAATCGCAAAGTTAAAATCTATCA
AAGTATAATTAAATACCTACAAAACATAATATTATGTCACTAGTCAACCGCAACACAAATCTTATATCATTAGATTTCAGTGATATTGAATGTGGGAGAT
GGAACCATTTTAGTGCATTTGATATGATGTGATGTGGCTTTCTCCAAGCCTGAGAGTGCCTGAAACCCAGAGAGGTCGTACGTTGACCATGCCACGGGGC
CCTTCCTGGTAAATCTAAGCAGAAATACACCATGCATGAGACAGAACAAAGAAAAGAACTGTGAAAATACACTCAGGACCAGGATGCTGATACAGTCATG
AGGTTCAGCTTAAAAGGCCAGTTTCTCTACTGCAGAATAATGAGGTCTATCCTGTTTTGCTTTCTTTCAAAGCCCTTACCATTTATGAAACCAGATTGCA
AGTCTGTTTGAATCCCCCAAATGCCTGTGCTACATAACTGTCTCCTTACTCTGTGCTCTTGCCCCAGGCAGAGTGGAAGTTGCCTTATAAAGCTGCGACT
TGGCCACAGTGTTTTCCCTTTCAGCAGGGAAACCGGAGTTCTCCSTGCTGTTGGGAGGTTCAAGAGCCACTCTGTGCAGAAATGCCCAGAAAGAGTTAAG
TGAGGTAAGTTCGTCAGACTTCTGCAGACCCATACTGTGGAAGGGTCAAGTGCAGGGTCACCAACCCGTTCCATCTTCCTGTCAGTTGGCGTCCACCCTT
GGTTTCAAAGGGAACAGGCATTACTGACATGACSGGACCTTTACAGTTCCCAGCTGCTCATTTGGAGTACTGCGGACCCAGGACAACTAAAGCCGGGGTC
GCCTGCCCTCCAGGGGTTCCTGGGTTGAAGTATCTGTTCCCTCCCTTTATTTTTTCTAGCCTTTATAGAAATGACAAAGGGTCAGGTGGTCTTAAATTCC
AAATCTGGGCACATGAATGGTCTGACCTCGGAAACTTMCTATATGCTCGAAACGATTTAACTAGCAGCAATAAAATCTCTACTCTTTTTATGACAAATAA
TCTAGCATGTCTGGGGAGCATATTTGATTCTTCATATTTGGGACCCTTTTTTAAAGGCTGAGTTTTATTAAAATGATAGAAAAATTAGTTATTAAACAGT
ATGTCAAATACCTTTCTGTCCCACCAGATTTATTTTTAAAGACAAACATTACAGAGGGGCAGGGGAAGGTTATATTTGAAATCTTTCTATCCTTTCTCTA
AAATATATTTGGTGAAAACTAGGAAGTGTTGATAGATATCATTGTTTCCTGACAGGTTTTTGGTGTTTGCATCTTGAAAGTAAAACTGCCAAGTTATTTT
TTTGTTCTGGTTTTTGTTTTTTAAGCTTTTCTTTGATAACCTCATTTTCAAGGGGAGGCTTAGCACTGATGTATTTTATTTTCTTGCTCAGAGAGGAAAC
ACTGAAATAGCTATATGCTTCCCCACCAGGAGAGTGGAAGAATCTTGCTTTTAAAGCGATAGTCCTATTTTCTAAGTAAAAGTCCAGGCATGTGACTTAA
AAAAGAAAAAAAAAAATGTTTTCTGGTCAAGTCACATGCCTCTGAGGTTTKTTTTTTTCTTTCTTTCTTTTCTTTTTTTTTCTTTTTCCCAGACTCCTCA
TACCCCTCYTAGGAGACAGTGATTCCCTGGCTTCACCAGGCAGGCTCTTGGGGGCTTCCTGGTCCCTGTCACTCTTAAAATGCAGCCTGTCTTTGGACAT
CTACTCCAAGTTTGCATTCTGCCTTGCCTTGTCAGTCTGGGCTATCAAAAATATAGTTTCGTTTGGAAAACAAAGGGGTGAGGTGGGTCCAAAGTACAGG
AAGCTATACCATGCAAATGAAAATATTTTTTCCAAAGCCATCTGCTAATCCCTGTGATTTAAAAATGTGCGTGTTTTTAGTTTCTGTCTAATTTCAACCT
TTTCTTGCTTTAGTGATTAATTACCAGGTTTCTCTATTAAGAGCTTGTGCGTGTGTAGGGGGTAGCATAGAATAAACAGGCTCAGAGCCCCCACCCCCAC
CCCCCTTTAAGTAACAGTGACGCAAACGACCTTTATTTAGCAGAAGGTAGCTCTGCGAATCCGCTGAATGTCCGATTGCGATCTCGCTGGAAAGACTGCT
GCTTCAGCAAGGTTTCTTTGCTGGTCTGTGGCAAGGTCCCTGCTTCATTTTCAAGGTGTCCTCACTTGGTGCCTTTGAAGGGTTTTTAATGGATTCGCTT
GATATACCTTCCAAATGGAGTACTTTGTGCGTTAATTCAGTTTGTGATAAAGATCCCTTTTACCCTCCTTTTCATAATTCTTCCCAGAGATATGAAGTAC
ACTAGAAGGTTAGATGTGGCATTTAATTTTTCCACAAAACCTATCCATAGAGGGGGAAAAAAAGATTCAATTTCATTACTATTCATGTGTAAGAATATTG
AAGGTGGTATACTAAAGGAGATAACTATTTCTTCTTCTATCAAAGGAAGAACAAATCTGTCTTTGAACGAGGAGCTCAATTCTTATTTAAAAGATAAAAG
GTCACCTACAATACTCATTCCTTTAAAGCTATAGTGTTGGGGTGGGAAGGAAGCTGTCTTACCTGGACATATTAATTTTAAATTTTGCTTGAAAAAATTG
CTCAGTGCATTTATTGACTAGTCTCTCTGTGTGAGTTCTGAAAGTCTGTTTATATCTGTTGCCCCTTCTCCTAAAGTGAACCCAGATATGTGGGTATGGG
GTGCTAGTTTTTATATTAGGTCTGAGATGTGGAAAACAGAAATCTAACTTAGGGATGTATCATAATCAAACCGTCGGGGCTAATGGCATGGCTCTGATAT
TATAAAATCTGGAGGTTTGGAATGCAGCAAACTCTGGGGGCATTATCATTATTATTATTAATAGTTTGTATTTACAAATGTGGCATTAAGTAGAACAACG
TATTCTTGCAATTAATGACAGGAAGCCTACAATTTCTCATTAAGCACAGGACAGTGAGAACGAACAGAATTTCAGAGACATGTTTCTTAACATTAAAAAC
AACAAAAACAACAACAACAACAAAAAACCAAGTAGGAAGCAGGCAGAGTTGCAATATGAAGAACAATTTCAATCATATGTTGTTTAATTGAGTTTAACAA
GTAAATGTATATCCCAGTGTGTGTGGTCACCAAAGCATAATGACAAGTTGTTCATCATTTAATTAGAGATTTGCTTATTGAAACGACTGAAATAGGTAGT
TGAAATTTTGCCCTTGGACAAGGGAGTAATTTGTGATTTGCTACGTTCATTTCGTGAGACTTTTGGTGAAAGACATCTCCTTCTCATATGTTTAGGCAAG
CGTTGATGACATCAACCTAGCCTTTTATTTTAAATCCCCTGTCAACGCAATTAGATAATACAAAAATAACAAAACTATAGGAGGTTGAGGATGGGGCTGG
GGGCCAAGGAGATTACTTGGTTTGAAATGAATAAATTGTCTATCGTAAGGGAATTCTTTGGTGCATTTTATTGTGTGAAATGAGCCTGGTCATATGACTG
CCCTGCCTCCCTGGAGGCCTCCCTGCCCTCCTCCTTCCCACAGACACTTATGGGAGGTACTGGCCARCTCTGTATGGCCAGTACTGCCCTAAGCAAGACC
AAGAAGCTTAGTCTCAATTTCAGAGAGTTATTTTGGCAACATATTTGGGAAAATGATAGTTAGATGCTGCGTTAGCCAGCCTCTGCATGATTTTTTACGC
ARAACAAACAGTTCCAAATATCAGTGCTTTCAGCAACTCATATATTTCTCACTTATGGTGCATGTCGCTGATGGTTGGCTGCTGCTCTGATCTCACTCCA
GTATCAGCTTCAGTCAAGGAACGTATTGTTGTCAAGGAAAGGAAAAAGAACAGTGGTGAGACCAAAGGATCTTAAAGTTTCTACTTTGGAAGGGGCGTGG
CATTGCTTCTCTCATTCCATTGGCTGAAGCAAATCATGTATACAAGCCAGAAGCCAATGAGCTATAGGAAGGGTAGCAAAGAACAGAACAGCCATACAGC
CTAGCCCACAGATGGGGTCAAGAAGATTCAATAGGCATTGGCTGAAGACTTAAGACTTCTCAAGCAAGTTGGATCCTGGTGTGCACCTGGCATATCCTTT
AGGATTCTTTAGTGTTGGTAGATTGAGATGGAAATGAGGAAACTTGTATTACCTACTCCTTTGGGCCAGAATTTGCTTACAGCACAGTGAGGAGGTATTC
TTTGGAGAGCACTGTTTCCCAAGAGTGATTCTAACAAAGAGGTGTAAATGGACAAGAATGAAAAGCAATTGCAAGGGCCYTTGAAGGTTTGTGAAGGATG
GCAAAGTGACTTGGATGTTGATTTCTAAAGGAGGTRAAACTTGAAGGTAGACAAGCTCTTTGTGTCCATACATTTGATGGGTCATCCTATGAAGGAGGGC
CCATCTCTTACGGCAGGCAGCGTGGCGTAGGCCTCAGAGTCAGGCATCTGGGGCCCAGCCTTTTCTCTGCAGGTGCGGGTGGCTCTTGGCACATGATGTA
GGTTTTTGTTTTTGTTTTGTTTTGTAGACAGAGCTCAATCTTTTGCCTAGGCCATAGTGCAGTGTACAATCAGATTTCATTGCAGCCTGGAACTCATGGG
CTCAAGCATTCCTCCCACATCAGCCTGCCAAGTAGGACTACAGTTGTGCACTACCACACCTGGCTATTTTTAATTTTAGTTTCTGTAGAGACAGAGACTT
GCTGTGTTGCCCAGGCTGGTCTCAAACTCCTGGCCTCTCAAGCCATCCTCCAGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCCCACC
CAGCCCATGTTAATTTTTTCACCTACAAAATGAAGGCTACAATATTTACTTTGCAGGATTGCTGTAAGGATTAGAACCACCGTCTCTAAGGCATTCAGCA
TAGTCCCTTAGGGTAAMATGAGTGCTCAAGAAATAGTAAATTTTARTATGTGTCTCATTTTTTTCCAGATGCTCTGGGGTCACTACCAACCTTGCCTTTC
ACCCTACCTGTGGATCTATGACCCTGTCCTTCTCAGAACACCACTCAGTACTTCTGGGTTCCCCAAGAGGTGCCTCTTGAGAGTTTGTAGGAAACTGTGC
TTTAGTAACTCATGGTTTCTGCCCTCAGCTTCTCTTGCATGGGGCCTTCCTGCTTGCTCCTCTGCTCACAATGACAAGTGAGGACTCCCCTCCATGCCTT
TTGATGCTGGTGCCCATCACCCCGATCACATGAACGTCTATGCCCAGGTCCCATTTCCTGACATTCCCAACATCTCTACCTTCTCCGGGCCTAGGGCAGG
GATCACTSTTTCAGAAACATGAGCGTATGGAAGCCCCAGTGTGTTCCTTGAAGTCCCGATGCGTGATTTGTCCCCATGCTGTGTCGCACTTGGTCATCTG
GACCCTGGGGTTGCCTGAGTGTCCCTGTTACAAGGCCCCTCCTGAAACCAGATTGGTGTCTATGAGGGTCATCTGGGAAACCTACCTCTGGCAGAATCGC
TGTCCTGCCAGTTTCCTCTCCCCCTTACAAGGGACATTTATGCTTTCTCCCTCTACAAAACCTGCATGCAAATTATCTGATGGAATTGACCCATAGTGGG
TGTTCTCCACTGGTTCAACACACCTGAATTCCGGATTCAAGATGCAATCACCACTACTGTTGTTGTGTAAGTATTGCTAGAGATGGCTGCAGAATACCTG
GGAAAGCTAGCTAAGCAGTGACTGGAGGAAGGCCCCAGCTCTTTGGAACGAACTTTCCAGCCGAGAATGCTTTCCAAAATGGGAACAAGATCCCAACCCC
TTATCAGAAACTTTGGGGGCCGGATGTGTTTCAGAATTCAGAAGTTTTCAAATTTTAAGAAGAGAATACACTGCGTATTCTGTGTATTACAGGGGTCAGC
AAATTCACAGCCCATAGGCCAAATCTGGCCTGTTTTTGTAAATAAAGTTTTATTGCTATACAGCTGTACCTGTTGGTTTACGTACTGCGATGGCTGCTTT
CAGCTACGTTGGCAGAGCTCAGTAGTCATGACAGTAACCATATGCCCACAAAGCCTAAAATATTTACTATCTGGCTCTTTGCAGAAAATGCGCTGAACCT
TGCRTGTTGTGTCACCCCTGGAGGTAGCACCTTGTAATTAAGCACATGAATATCTCACATCAGAATGAATGAATATTCACACTCAGTGGGACAAACAACT
TCTGTCAGCTGTAGACTGCTTTTGCCATCAAATGGTTATTGAAAGAACTATCTGTGTTGACAGCCTTTTGGGTTTCATACAGTCCTTTCCAGCTTGGGCA
GTATAGATAAATAGAYGCACAAAGCAGAGGGAATCAAGTAGAATAACATGGTTTATTTGTGTGTGTATTGTTCTGTTTTTGGTAAAATCATGCTTATCAT
ATCTTCARTGCATCATTTATTCTGAGTCCACATTGCTGCCTTTGAGCCGGGGCCCTGAGGTATCTCCTATACTCTGGCTGGGGTGAGGGCGGCAGGTCCT
CTGGGCCAGCCCAGATCCACCCTGTTCACGGTGTGTGTCCTGCTGGGCTCACTTCTGAAGCTGACCTTGGGGAGCAGATTGAACACCTGTTGATGCCATT
CTCTTAATTTCAGGGGAATGTGTGGGTCTTTGAGCTAGAGAGACATAGGTGTATGGCAGATGAGGGACCACCCCCTCCACCTTAGTCCAGTTACAGGGCC
TCGCCTTTTTGATACTAACGCTACATGAAGAGGGACGGGGCCAACAGCAGGCTCTTCCTTGACGTGTTTTATGTACACTCCAGAAATATTGACAGAGTTG
TCTTTTTGTTTTGGTTTTTAAATGTTTTTTTAAGTTAACTTCTGGAATGCATGTGCAGAACGTGCAGGCTTGTTACATAGGTATACATGTGCCATGGTGG
TTTGCTGCAGCCATCAAGCCATCTTTTAAATCCATTCTTAGATTTTCCTTTTCCATAGCTCTTTGTGATGCTTGCTTTAATCAGTTGATACATGTTTAAT
CACGTTTTGCTCTGGGCTGTGTTATATACAGCTCCCTCCCTAATCTTGCTAGAAGGTAGGGCTAATGCATTGTCAATTCAGAAATAGGGGGTGTTCCTGA
GTCTGGGGACACTCTAGTGAAATTCTATGKGTAAAATAATTTGTACAAGTTTATATTTTTAGCTAAATTAAAATACTCACATTCCCATTATTTTTTAGAG
GTTGTAAGCTAAGTAATAACATTCTAGAAACTCTCTGTTTTTTGAAAGGKCATCACCACTGTTGAAGGCGCTAATGGGAGATCCTAAGTTTCAGGCTCTG
CTACAGACGTCAGGTCCCCTAGGAGTTGGGCTGCCTTTGCTCTCCTCTCCGCGACTCGGTACCTGGTGTATAGTTGGCTAAAAAGAAGTTGTTGGGGCTG
GGTGCAGCACCTCACACCTGTAATTTCAACACGTAGGGAGGCTGAGGCAGGAGGATCTCCTGAAGCCCAGAATTCAAGACCAGGCTGGGCAGCATAGCAC
KACCCATCTCTACTATAAATTTAAAAATTAACTGGGTGTGGTGGTGCACATCTCTAGTCTCAGCTGCTTGGGACTACTAGAAAGGTAAGGCAAGAGAATC
CCCTGAGCCCAGGAGTTGGAGGTTGCTGCAGCTATGTTCGCACCACTGTATTCCAGTCTGGGCAACAGAGCAAGACCCCATTTCCAAAAAATAAATGAAA
TAAATAAATACATAATAAATAAACAGTAGTGGTTGAAAGAAAGGGAAGGAAGAAATGCTGTTTTAGGAAATCAATAGGATAATTTTTTTTTTTTTTTGAR
GCGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAGTCTCSGCTCACTGTAAGCTCCGCCTCCCGAGTTCACGCCATTCTCCTGCCTCAGCC
TCCCGAGTAGTTGGGACTACAGGCGCCCGCCACCACACTCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTCTC
GATCTCCTGACCTCGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACTACTGTGCCTGGCCAGGATAATCTTTAAGAAGAAGA
TAACATTAGCTATTCTTCTCACTTCCTACGTAGAATTCCMTACCCTGTGTCTTTGGCCTGGAAAGGGTATTGGTAGCAATTGTCTTCGGCTTTCCCTGCC
ATGTGTATGCATTCCCACGGCCACACAAGCACACACACACTTTTGTGGTTTTTTTTTTAATTATATAAGCAAGTAGGATGTTTGTCTTAGTTTTTTTGGG
CTGCTATAACAAAATGCCATGGACTGAATAATATATAAACAACGGAAATGTATTTCTCACAATTCCGGAGGCTGAGAAGTCCAAGAGGAAGGCACTGGCA
GATTCAGTGTCCGGTGAGGATTTGTTTTTGATCTCATAGGTGTCCATCTTGCTATTTTCTCAACTAGCAGAGGCAACTCTCTGGGGTATCTTTTAAAAGG
GCACTAATGGCCAGGMGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGTCTCGGTGGATCACTTGAGGTCAGGAGGTCGAGA
CCAGCCTGGCTGACATGGTGAAACCCTGTCTCTACTAAAACTAAAAACTTAGCCAGGCTCGGTGGCTTGTGCTTGTAATCCCAGCCACTTGGAAGGGTGA
GGCAGAATTGCTTGAACCTGGGAGGCAGTGGTTGCAGTGAGCTGAGATGGTGCCACTGCACTCCTGTCTGGGAGACAGAGGGAGGAGACTCCATCAACAC
TAATAATAATAAAGTAAATAAAAGGGCACTAACCCTACTCAGGAAGCCTTCACTCTMATGACATAATTACCTCCCAAAGTCCGCACTTCCTAATGTTACC
ACTCTGGAGGTTAGAATTTCAACATATAAATTTTGGGGGGASACATTCAGAYCACAATAATGTTTTATAATGTTCMTTTTGCTTTAACAAGAGACACATG
TCAGATAGTAGACATGATCTGAGAAGACACAAAACCCAGCGTGGTGATTTTGGCAGCCTTGCCATGCATCTCTAACATGCACRTGGCCAGAAAAATAGCT
TGGACATTCTGTTCAACCCTCCACATSAACTGGTCAGTTTAGTCTTTAAAAGGTGATAGGCCTGTTGTSGTGGCTCACGCCTGTAATCCCAGCACTTTGG
GAGGCTGAGGCAGGTGGATCACTTGAGCCCCGGAGTTGAAGACCAGCCTGGGCAACACGGTGAAACTAAGAATAGAAAATATTAGGTGGGCGTGGTGGCG
TGCACCTGTGGCCTCAGCTACTTAGGAGGCTGAGGTGGAAGGATCACTTGAGCCCAGGAGGCAGAGGTTGCAGTGAGCCGACATTGCACCACTGCACCCC
AGCCTGGGCCACACAGAGAAACCTTGTATCCAAAAAAAAAAAAAAAAAGTGACCACACTGTGGCTTTGCTGCTTTGCCTAAGTATTTCGTGAAATTGATC
GTTCATTCACAATGCTCAGTGCAGTGACTTTGCCGAGCACAAGTGGTGGACTTAAGAAGCCACATAAAGAAGCACCCACGTCTTTCTCTGAGGACGTGCT
TGTGTGTGTTCTGAGGAAAGCAGGTGATGATCCCTGAGGTGTATCCCCCAATCCCAAACTAGAAGTGAGTCCCCCTGCTCCTCAAGCTTGCATGGCGCTC
AGGTATTCCAGTGGGCCCCGCTGCATTCTTCCCAGTCCCAGGAAATCTTTGTGCATGGCTGTCTTTTCTGTGCCATCTTGGGCATCTCACGCATTGGCCC
TATMCACATGTTGCCTCCAGCATCCCAGGAACTCCGTTAATGTTTATTTGAATGATGGAATGAAGGTGTCTTGCTATATTTTGACATTTCTGTCAAAATA
TGAATCTRTCTTTGCCTAGCATCTTTTCATGTGCACATTGCCCATCTTTATAACAAAGTGTGAGTGGGAAAGGACTTTTAATCTTCATTATATTATCATT
CATATGAATAATGTTAACAATTAGTGTTTATTGAGCACCTGCTATGAGCCAGATGTAGTGTTCAGTGCTATTCATGTGTTCTTGAATTAAATTTTCATGG
CAAGCCTAAGAGGCCATGACTGTCCACATTTTGCCTCTGAGAGACGCAAGGCTTGGAGGCAGGAAATSACTCACTGAAGGCCACAGCACAAAGTGGGGAC
TTGAGTCCCGATCTCACTGATTCTAAAGTCCTTGCTCTCCAACCTCTGTCCATCTGAAATGGAAAAGCACTGACGCAGTTCTCACTCTGGAGCTTGTTTT
ATTTTGCTTGGGCTGCTGTAGAAATACCACAGGTCAGGTGGCTTAAACAACAGGAATGTAGTTCCTCACAGTTCTGGAGGTTGGGAGTCCTAGATCAAGG
TGTCAGCAGGGTTGGTTTCTCTCTGTACCATTGTCCCTGGCTTGGAGATGAYCATCTTCTCTGTCTTCACATGGTCTTCCCTCTGTGTGCGTTTGCATCC
TTATGGCCTCTTCTTGTGAGGGCACTGGTCATATTGGATTAGGGTCCACCATATAATGACTTTATTTTACCTGAACTGTCTCTTAAAAGGCTCTGTCTCC
AAACACAGTCACATTGTGAGGTACTGGGGGTTTGGGCTTCCACATACAAAGTCTGGGACACAGTACGYTCTCATAAGAGACCTCTTCTCAACAGGATCCA
TGTTTGATCCGGGGGAATAAAGCTAGAGTTGCTTTCTTCCTTGTAATATGTATAATGACTCATGAGAGAATTCYCCACTGTCTTCCCCACCTGAGACCTG
AGAGGAGGAGAAGGAAGCTTGGAGTCGCTGCCCTGTGGCCTGAATTGGTCAGTGACCAATCACTCAGACCCAGCTGACAGGCTATACGCGGACACCTTGG
ATGTGCCCAGCATGGATCTTCTCCAAGTAGGAGGCCTTGGAGTCAGAGAAAGGTGCAACTCCCACTGCTGCTGCAAGAACAAAGACTTTAAGATACTGAA
ATTTCTGGGCAAAGTTTCCTCAACTCTTCATTTAAGTGTTAGGCCAGGTGGGGTGGCTCATGTCTGTAATTCCAGCACTTTGGGAGGCTGAGGTGGGAGG
ATCACTGGAGGTCGGGAATTTGAAACCAGCCTGGCCAACGTGGCAAAACCCCATTTCTACTAAAAAAAAAATATATATATATATATATATATATATATAT
ATATATATATATATATATATATATATATATATATATATATATGTAGCCATGCATGGGGGCCTGCCCTTGTAGTCCCAGCTACTTGGGAGGCTGAGACATG
AGAATCGCTTGAACCTGGGAGTCGGAGGTTGCAGTAAGCTGAGATCGCCACTGCACTCCAGCCTGGGCAACAGTAGCAAGACGCCATCTCAAAAAAAAAA
AAAAAAAAGTGTAATGCAAGTAGAAAAGGGCACACACTCCAGGTGTATATCTCAACAAATTTGTACACACTGCATGCACATGGGTGACCCGCACCCACAT
GTTATACACAGAATAATTACAGGACCCTGCCAACCTCCTCCTATCCCCTTTCAGCTCCTGCTGTGATGCCACTTCTAATCTCAATTTTATTATACAATTT
GTTAAATACAGAAGTAAATGGAGGCAATAGTGATAGTAAAAAGAACCATGTGAACTGGGCGTGGTGGCTCATGTCTGTAAAGCCAGCACTTCGGGAGTCC
AAGGTAGGAGGGTCACTTGAGCCCAGSAATTGGAGACCAGCCTGGGCAACATCATGAGACCCCATCTGTATCCAAATAAAAGCAACAAAAAAATGAGACA
TGGGGGTGCATGTCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAGCAAAGGAGGTTGAACCATGATTGCACCGTTGTACTCCATC
TAGCCTGGGCGACAGAGTGAGAACCTGTCTCCAAAATAAATAAATAAATAAATAAAAATAAAAGTAACAGAACCATAGGCCTTATCTTTATCTGAGTTCC
TGTAGCATGTGCACTACTCCTGATTAACCAAGTGAAAGAGAAAATGAGACTAATCTCTAACCTCAGCTTCCTTTTCTGCCAAATGGAAGATCATCTCTAA
TTAATAATGAGTTAGAATACCTAGGACAGTATTTGGCACACAGTTGATGAGGATGGTGTACCTAGTAGCTAATGGTGAGTAGGATGAATAATAATACTAT
ACCTTTTGGTTTCTGAAATGAGAAATCTAAGGAACTGGCTTAACCAAGAAGCAGCAAGCTGTTTTAATTGTGCTGTTAGGAGGGCTGTTTGTTAAGGTAC
AGAAGAGGATTGGCCCATGGCTTTCTGCTAAGAACCTGCTGAATGTCTGTATAGAATCCCTGCATTGTGCCTCCTATCAATCAGGTGCTTAGGTTTGACA
AGTTTCCTCCAACAGACTCGTGTAGAAGTTTCTGTATCAACTGGAAAAAACCATGGTGCTTGGGACATTCAAGGCCGAAACTTGGTCCCTGGATGGGAGA
AGATAGCTGTATCATTGGCAGAGGTGCCTTGGTCATGTACCCTCTCCAGACTAGACACTAGATAGTGGGTAGGGTGGGACAGTTTTATGTCCTCTGCCAC
CTTATCTGGGACTCTTGTCCCCTGAGAAGTTTGAAAATTTGGCACATTTTAGTATTTGTCAGTGTACTTCCTGCTTCTTGATGCACTTGTACTGCACAAG
AATTGATTTTCAGGAAATATGGTTTTTTTTTCCTTTTTGCACAGCGATGGGTTAGCAAAATGCATATTTGCATAGAAATAATCTTTAGTGAGCTCTGCTG
GCAAGTGTGTCAAATTTATAAATATCACTACTATAAAGACATACTTTTGGATATGGATTTCTTCCTCAGTTTATTTCTTCTTTSATTTTTTCATGTCCAG
GTCACTACGTATTGCGTATATTTGGTTGGAATTTTATTTTTGAGCAATTCATTTACCCAGATTGTGTTTCTGGAGATTAAAGCATCTCACTGTATTTTTA
TTTTTTTCTACATTGCAATTTCAAAATAATCCAACTCAAAGGCTGTTGAAAGGCTCCTTCTGTTTAAGGTAAAGCCTGTGGCAGCCTTTAACTTCCTTTC
TCTTCTCCTGCTGCCACCTTGGTCCACAATTTATCTTTGAAAATGCTGGGTTTTAATGGGCAGGGTATAGTGCAGAAACCAGATGGTTTTAACTCACACC
TGTGAAAATGCTGGGGATCTGCGAAACATTAAAGTTAATGGCCAGAATAAGGCTGCCAAGCTCGGTGGAATTGTACTTAACTGGCATATCATTCTGGTTA
ACTGAACTTTCCATTAACTCACAGATCTATCTTTTCATGCCCCCTTCTAACCCCCTACTCACCACCCACCCAGTTCCTCCTAGTGGGCAGTTTGCTGCTG
CTGTCTTACCTCCTCATCCTCACCCCTTTCACCTCTCCCCTGGTAACTGATTTATTTTTCCCTCTTGGAGKTGCTTATTCTTTTCTTCTTCCAGTTGCAT
CTCTCCCTCTACTTAGATACACATTTCCATTTTACTTCTATTTGGTAGTCTCAGAACTTGGCTTTTATTGGCCAGTATATTCAATGATTCACTTGCACCT
TTAACCTTGTGTTGTTCTAATCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGTCTAGGCTGGAGTGCAGTGGCAC
CATCTCGGCTCACCACGAGCTCTGCGTCGTGGGTTCATGCCATTCTCCTGCCTCAGCCTGCGGAGTAGCTGGGACTACAGGCACTCACCACCATGCCTGG
CTAATTTTTTGTATTTTTTAGTAAAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCTACCTTAGCCTCCCAAA
GTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCTTCTTGTTTTAATCTTTTAGACAACTGGACACAGGTTTGTCTTTGAAATTGTCCTGGTTTTTC
TTGATGTTTTAGTGCTCCTGGATGTCCAATGTCATTCTTGGGCTAGTTGAARGAAAGTTTTGGCTACCCAGTTGTTAGCTGCTGAAGTTTAACTGTGCAT
TCTAAGCACACCAGTATTTTATTACATCATACCTGGGCAGCAGATARTTTTAGTAAAACCTTGAAAAGATATGACTATTGGGAAGAAATTTGGGATTCTA
TCCTTTTTCTCTCCATTCTTCTCTCCTGCACCAAGTTTCTAAGCTCGTGATTAAATAAATTCTGACCCTACTCTGATAAAAGTGAACCCTTGTGGCTGGT
CGCAGTGGCTCATGCTTGTAATCCCAGCACTTTGGGACGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTAAAA
CCCCACCTCTACTAAAAATACAAAATTAGTCAGGCGTGGTAGTGTACACCCATAATCCCAGGTACACAGGAGGCTGAGACATAAGAATCGCTTGAACCCA
GGAGACGGGGGTTGCAGGGAGCTGAGATCGTGCCACTGTACTCCAGCCTGGGTGACAAGAGTGAAACTCCATCTTAAAAAAAAAAAAAGTGAACCCTTGT
AGTTTCTTCCTCTGTTTGACAGAYGGACCCTAAGACGGCCCCAGTGATACCCCACCTCCTGGTGTCCAAGGCCTGATGTGATCACCCTTCCCCCACCTTG
AATGTAGGTGGGACATGGGACTTACTTCTGACCAATAGAATATGAAAAAGATAATAGGATGTAACTGTTTAGATTCGGTTACACTATATGGCAAAGCAAA
GGGATTTTGGAAATACCATTAAGGTCTTACATGAGACAGATTTTGAGTTAATGAGCAGGGGGATCCTCCTGGGTGGGCCTGACTTAGTAAGGGGAAAATC
CCTTAAAGAGGAGCTAAAATAAGAGAGTCTCTCTCTCCATTGCTGGCTTTGAAAAAGTAAGCTGCCTTGCAGTAAGGAACTGCATTTGGCTTCTAGGAGC
TGAGAGTGCCCTAAGGAAGCCAGCAAGAAAATGAGGACATTAGTCCTATAACCACAAGGAAATGAGTTCTGCTAGCAACCTAAGGGAGCTTGAAGGTGAT
TGACCATCCCCAGTCAAGCCTCTGATGAGACCGCAGCCCCACTAGGCAACTAGATTTCAGCATGGTAAGACCCTGGATGGAGAACCCAGCTCAGCCATGC
CCAGACTCCTATCCTATGGAAGCTTTAAGATAATAAATGTATGTGGCTTTAAGCTGTTAAGCTTTTGGTAATTTGTTAGATGGCAACAGAAAATGTGTAC
ACCCTGGATAGTAGACAGAGACTGCATCTTTCTTTGGCATTTGGCTGCACAGCAAGTTCTAAGTTACTCACCAGGTTTCAGAGGAGAGATGGGAATTTGA
TGATCTTATAAGAAACCTGTACTCTTTGGCCAGACACGGTGGCTCATGCCTGTCATTCCAGCACTTTGGGAGACCAAGGCGGGCAGATCACCTGAGGTCA
TGAGTTCGAGACCAGCCTGGGCAACATGCTGAAACCCCATCTCTACTAAAAATACAAAAATCAGCCAGGCATGGTGGCGCATGCTTGTAGTCCCAGCGAC
TTGAGAGGCTGAGGGATGAGAATCACTTGAACCCGAGAGGCAGGGGTTRCAGTGAGTGCGGTGGCAGCTGGGACATTAACCAAGTTGTGAAAGGAGCCAT
GATGTTATTAGCTGAGTYATGTCACTGCACCTCCAGCCTGGGCAACAGAGTCAGACTCTGTCTCAAAAAAAAAAAAAAGTGTACTTTTTGAGGAAAGTTC
TATTTTTCATTATTTTCCACTATGAATGAAGAAGAAAATAATATACATACATTACTKGGATTCATACGGACATTATTTAGACACACTTCCACCTACAGAG
TCACATATTGTATAGAATAAAATATCATCAGGAGCAGCTCATGTGACCAGAATGTGRCAAAGTCTTTGCTCTACAGGTCAAGTTGGGACTTACTGAGGAG
AAATGAGGGGACTKCAAAGTCCAGGTTGCACCATCCACTTTATAGATGAGGAAAGTAAGAACCCACAGCATCTTGCACGTAGAATTCAATATATGTCCTG
CTTCTTGAATCACATTGACCTAACAGGTCATATGATTTCCATTTGTTTGCACAACAACTCAAGGGCAAAAGTGAAATTGGAATTTTTGCTTTTGAATTTC
TGAAACCTTGTTTTATTTATTTATTTTCTAATCTTTTTTTTTTTTTTTTCGTGGAATCATGTTCCCTTCGGAAAACTCCCTGGGTGCCCCAGCATTATGT
GGTAAAGGACATGTATTTCCAACTGGCAGGGGCTCTGCAAAGTTTCTCTGCCTCCTTTGCTMACCAAACCCTAAATAATTGTCTGGATGTTCCTTTTATT
GTCACCTCTGAAACAAGACGAAGATTTGGACGGTTTGCTTTAGAGTGCATTAACTTCTTTATCACATTAATACTGACTCATATCTTATTTCCCACTTGCA
ATAAGAAAACCATTCAAATCTTKCCCTCACAGGACAATATCTTTAATAGCTTCTGTGTGTTTCCTATTTTTGGCTGTTTCTGTATAAACAGACTAATCTA
ATAGCATACTGAACCCATCTAACTTGGCAGAAATTCAGAAAATCACTCATTTCTATGGCAAGCTGAGATGCTGAGAAGGGGGAAAAAACCCTCACTTTTA
TTGCAGCAAGATTTTTCTCAAAGTTGCCTTTCATGAACATAATATGTCTATCATTTGGAATTCTCCAGCACCCTGGCTGGAAATTATTTATTGCAGAACG
ACACAATGGTGAACGAGAAGGTATTATTCCCTGTACGATTTCTGGCTTGAATTTGTTTGCCTAAAGGAGCAGATATCGTATGAACATGATTTTGAATGCT
GGCATGGTGATGAAAGGTGATGTTCACCTGGAGTCTGTACACACAAAACCCTGTTCATTTTACCTAAAGGGTAAGAACATCATGGCCCCCTTCATATCCT
GGTTAATGTCCCCGCTGACCCTGAGTTCTGCCTCCATCACTGGAACAAGAGCCTGTCTTTGGGAAGAGGTGTSTTCCCTGGCACTCGTTTGATTTGTAGC
CGCCACACATGGCAGGTCCCAAGCTGTCTGAAGTCTTGGCTGCCATTCCTAAGCTACTAAAACTTTGCTGGAGAACATCACCAATCACGCTGAGGGATCC
TTTGACAACTCAGCTTCATGAGGACAGCTGCAGTTCTGCGTTTAGGCTGGGGTCACCGGGGTCGCTGCCCCAGCCCCACTCTTTAGCCTCAGTCCCTCTG
TGGTTCCCCTGACTGAGCTCCTCACTAAAGGGGAGGAATCCCTGGAGCCTCCCCATCCAAGGCCAGCGTGTTCCATTTGAGGGTAACTGGATCCCTGAAA
TTCACCCCCACACAATCCACAACCTACTACTAGAATGCCATATGCTTTTCTATATGCTGTTGTTTAATTTCAGTTGGTACATATTTTATTTTTTGAAACA
GACTTCGTTAGAACATCTTTAGATTTAAAGAAAAATCAAGACTGTAGTACCAAGTTCCCATGTGTGTAACAGCCAGTTTATCCTATTATTTTAACGTCTT
ATGTTATTTGGTACATTTATTAAGATTAAATTATTGATACTGAAATATTAGGTTGTGCAAAAGCAATTGTGGTTTTTGCCATTAAAAGTAATAGTAATAA
TAATACTCGGTTGGTGCAAAAGTAAATGTGTTTTTTGCTATTAAAAGTAATGCGGTTTTACTTCTGCAGTTTTTTTGCCATTTGCCAATTACTTTTGCAG
TTTTTGCCAGTACTTAAAAGTAATGGCAAAAACTGCAAAAGTAATTGGCAAATGGCAATTGCGGTTTTTGCCGTTACTTAAAATTGCATTACTTAAAAGT
TTTTAAGTAATGCAATTACTTAAAACTTAAGTTTTTAAGTAAGTTTAAGTAAAATTTGCATTACTTAAAAGTAATCGCAGTTTTTGCCATTACTTAAAAG
TAATGGCACCAACCTAATATTGTTATTACTTTTTACCAACCTAATATTGTTATTAACTAAAGTCCATCGTTTATCATATTGCCTTAGGTTTTTAAAAAAT
TTTTTACCTAATGACTTTTTTGTGTTCCAGGAGCCCATCCAGGATACCACTTTTATTTATTTTTTTTTTCTTTTTGAGATGGAGTCTGGCTCTTTTGCCC
AGGATGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCCGCCTCGCAGGTTTAAGTGATTCTCCTGCCTCAGCCTCCTGAGCAGGTGGGACCACAG
GCATGCGCCACCACGCTCAGCTAATTTTTGCAGGATACCACATTTTATTTAATTGTCAGGTCTCCTTAGCATCTTCTTGGCTGTGACAGTTTCTCAGAAT
TGTCTTTGTGATGACCTTGACAGCTTTGAGGAGTGCTGGTTGGGTATTCTGTAGGATGCYCCTGTGTTGGGATTTTTATGATGTTTTTCTCATGAGTTTA
CTGGAGTTAATGAATTTCAGGGAGGAAGACCCCAGAGGTCTGTTTTCATCACATCGTATCAAGCATTCCACCTTCATCATGACTCTTCACTGTTGATGGT
GACTCTGATTCACCTGGTCAAGGTAGTGTTCRTTAGGTTTCTCCACTGCACACTTAGTCTTTCCCTCTACTTTCCACACTGCTGCCTTTGGAGGAGTGTT
GCTGTGCCCAGCTCAYGCTTGTGGAGTGGGGATTTAATGTTCTCACTCTTCGAGGGTAGAGTATCTGCATAAACTACTTGGAATTCTACATGGAATATTT
GTGTCTTCTCCCCCATTTATTTATTTAATCATTTATTTATATCACGGTACACTCATGGACATTTATTTTATGCTTTATGTTATAATCCTATACTACTTTR
TTTATTTTGTTGCTTAAATTTTTCCAGATGGAACAATTTGGTCTTCAAAAGTTGCTGCTGTTGGCTCCTGTGTTCTTGTGATGTACACACATCATGGTGT
GGTGTGTTTTTATCTTTGGTTTTGTTTTCACTTCTTTTTTGCTTTTTGTGCCTCCTCTTCCCTCTTCCCCCCACCTCATACATACACAAAGGGCAGCATG
CTACTATAATTTCTGGAATCTCAGCCATATTCTTCTTTTTTTTGTTTTAAATAAAAATCATACTAGAGCAGTAGGCAGTGTGGGTGAGTTCTCCCACTTT
ACATTTTACTTTGCATAATTTAGGCCCCTTTCAGGCCACTYTTCCCCCTGTGCCCCAGGTGTGTTTGCTACCATACCTCCCCAGGGGATAGCCCTCCAAA
CYTGATTGGCCAMCTAGTCTGGTCTTAAAGTCCCAAAGGGAGGCCATCACAAACTACTCAGTATGGAGAAGACCTGAATCCTAATTTTGGCTTAACCCCA
AACTTGGGCGATTCAGTTTTACCTGTGTCCTCTCTATACCATAGTTTATGACAAGGGGTTTTCTGTGGCTGGTCTCCAAGGCCTCTTCCAATCTTGACAT
TCTRTGATCCTGTAAGTCTTTGAATAATGGCCCAGGATGCCAACAAGAAGTCACCAATGAGAGTTCAGGTGTTCTGTTGGAAATCTTTGTAAAATCACAG
AGAAAAGGAGAAGAAAAAGAATAAAGAGGAAAAACTGGACACATAAATAGGAAGACAAAGAATGAATGTGGACTGGGGAGAGAAGAGTCATTGACAGGGA
CAAGAAATAAATAACTTTGATGCAAATCCTGGGAAGACTCTGGAACAACATGGAGGCACCTATGTTAACTCTATTTCATTTTGGAAAAGTTGASTAGACA
AAAGGTGCAGAGTAGAGTATGCAGTGATTTCAGGGTGTTGGGCTCTGACAAGATGATGCCGACTTAGACAGTGTTAGTCAACATCAAATGTCTGGATCAA
GAGAGGCAAGAATCCCGTGGATTTGGCGTTGGCCAGAACTTGTCTGGAATCTTGTTTTCTGCCTTSAGTGTCACCTGTTGAGAGCTCTGTTGACAAACTG
GCATTTGTCCTTGGGAGAGTAGCCTCAGGACCAGGGGTGAAGAGTTCAGTAAACTGTGTTTAACCCAAGGAAAGATACAGGGTGTGTCAGATTTTGTAAG
GATTTTCAAGGAGCAGTAGATAGTGGCCCTACAGTGGAATGAACCTTCACACCGAGGATCTGCTTCCTTTGTTGGAGGTGGGAAAGCAAAAGCTGGATGC
TTGGAATTGTCATGGCTGCCGTCTGAGTGATGCTACCTTGAGTGGACGGTTTGGCCAACTAAGGAGTAAGGCCTCTCCCTCATGTCACATTGAGTGGTGC
TAATGTTTCCTGAAGTTTCCCTTTCTTTTCAGTTCAGTGTTTCAGAATCTCAGCCTTCCAGCAGAATCCCCTTTGTTTGCTCTAAATATACATTCCCAAG
CCCCGTGTGGCCATTCTGATTTACTAGGTCTGGGGTTGGGGGATTGTGGGTGCCGAGAATCAGTATTTCTATCAAGCTCCCAAGGGGACCTGATATATAC
ATGGAGCTGAAAAGTACCCACCTAACAGACTTGCCAGCTCCTTAAGGATAAGAACTATATTTTCTTCCTTTTTTTGTATGCCTCCCCATGCAAGGATAAT
TACACAGAATAAGCACTGAGATGCCTGTTGATGGATTTATTCCAGCAATTTTWTTTTTTTAGCTCTCTTTGTCTGGAACTTTGCAAAATAAACACCATGG
TCACTCCGTGCTTTGTGAGTGACGTGCTAGAATGGAATTTCACTGTTTTAAATTCAGGGTTAATTTCTTGCTTTCAAATGAATTATGAAAGGAAGAGGAG
AGACCTTTGGAAAAGTCTGAATGTTGATGCCGACGACTAGCCAGGCGCTTCCCTTCCAGCTGGTTTCGTGAGGGATTAAGAGGCCACTGTTGTGAATCTC
CCATTAGTGATGGTCCCAGGCCCCCTCCTCATTGTGCATTTATCTTACAAGAGGCATATTTAGGAGATGTTTCCGTTCTATTTTATCTGCAGAATTACTT
TCCATTCTCAGGTCTTTTATATAAGTATTCCCTTGAACCCGTTCCAAAAACTGGATTTTTAACCCAATAGACCATAACTGCAGTGTTTTATTGTGCTTAC
ATATTTCAAAATGTGAATGTAAGTAGATTTAGCAAAGTTAAAATAAAATGAAAACTTTTCAAAGGGCACCACTGCTCGCATTCCCATGTTGGAGTTTTCC
CTTTGGGGTTCTTATGCCATTTTAAAGACTCTGAAAACAGGAAGACTTTTTCTCTTGGGTATTTTWWTTTTTTTTTCCTCTGCAAGGGATGGGGTCATAA
GACATTGGTGAGGTTAGGCCTTCCTTTGTCTCCCAGGAGCACACTTGATAGCAATGTAGGGTGAATTCCAAATCTGTGAGTTAGTGCCATATATAGCAGT
GTTGTCAGTAAGATTTCTCACTGGCATCTCTGCTTCCCCTCTTGACTCTCTTGAAATCCCTTCTTCAGGCAGAAGTTGGAGTCATTTCTCTAAAATAGAA
ATCTGATCTTGCCACCACCCTACTTGCCACTCCCTGCTTAATCCCTTCACTGGCTCACCATATCCCTTAGGATAAAATAACAAAATCCTTTCCAGGGCCT
GCAAGACCCCTGCCAACCTCTGCAGCTTACTTTGTACCACTTTCCCCAGAAACCTGCTACCTACCCTGCTCCTTGCCACAGGGCCTTTGCACAGGCTCTT
GTCTCTGGCTAGAGTAGTCTTCCCATCCTGCTTTAGCTAATCAACTCTTTCTCATCATTTAGGCTTCAAATGGATCATCACTTTCTCTGGGGTGCAGGGG
TCTTTCATATAAGTATTTCTTTGAACTCATTCCAAAAAAGTGGATTTTTAGAAATAGAAAAAACTAATTTAGAAATAGAAAATTAATTGAGTTTTAGTTT
TTAGAAAATTATCTAAGAAGTAGATTTTTAGAAATAGAAAATTAACGTAGATCACAGAAAATTATCCAAASTCAGTTAATTTTCCCTTTTCCAGCAACTG
TATTTGTCCTCCCCACTTCTCTTCCCTGCCTTCTTTTTTTCTCCTTAGCACTTACAATGTCTCACTCATGTAGACTCGAAGCTTCACAAGGGCAGGGATT
TTAGTCTATTTCATTGAAAATCTGTCACCAGTCACTGGCCCAGAGAGAGTCCTCAAAAATAATTGTTGAATGAATGAATGAATGAATGAATGATGATGGC
GTGATGATTGTGTATTCCTCATCTGGCTGTAAGTTTCACAAGGCCAGGCACTGGGGTCCTATTTTGCTCACTGTTGCTGTGTGGGAAAGAGTTAGTACAG
CAGACTGTCGCAAGCTTGGCTCTTGGCTGCATCTGGGAACTTGGAATTTAGGAGGGCTGTCACCATTCCCAGATCAGATAAAGATGGCTCACTCTGTCTA
GACTGCTTGTACCAAAAATAGGGCTCATGTGGAATACCTGCTTTCCTTTGTGGAGGCTGGAATTTTGTTATATGCTACAGAGAGGGTGCCTACGTGGCCA
ACTTCCAATAAAAACTGTGGACACTGAGTCCCTAATACATTTCTCTGGTAGACAATACTTCATATATATTTTCACAGCTCATTTCTGGGGGACTAATTAA
ATGCATCCTGTGTGACCCCACTGGAAGAGGACATTTGGAATCTTGTACCTGGTTTTCTCCAGACTTCGCCTCATTCASCATTTCCCTGTGCTCATTTTGC
CTTGCATCCTTTTGCTGTGATAAATCTCAGCCATGAGTGTGACCGTATGCTGAGTCTTATGAGTCTTCCTTGCAAACCACCAAACCTGGGTTGGCGTTTC
AGTGCCTGACACAGTTGTATTCCTAAGACATAGTTGGGACCAGACCTCAAGAAAATAGCCAACAAATACTGGSTGAATGAACGAAAGASGCCATAYGCAG
TCAGCCCCCCTCTCTCTGGGTTCTACATATGTAGATTTAACTAATGACAGATTAAAAGCATTCGAACAAACGGAGGGTGGTATCTGTACTGAAAATGTAC
CAACTGCTTTTTTTTGTCATTATTCCTTAAACAATCCAACATAACCACTATTTATATCGTGTTTATATTGTATTAGGTATTATAAGTAATCTAGAGATGA
TTTAAAGTGTACAGGAGCRTCACATACATTATATGCAAATACTATACAATTTTATGTTAGGGACTTGAGCATTTGTGGATTTTGGTATTTGGGGGGGTTC
CTTGAACCAGTCCCCTTTGGATACTGAGGGACAACTGTACAAATCACATTTAGGAGTGGATGCAGGTCAGTCGTGACATCTCATCCACCCCTTCCTCACC
CAAGATTCTCCGTGGCTTGTGTCAAGGCCTCACCACATCAGAATATTTCTGCTCATGGTTGCTGAGACAGAGCTGGACAGGTCCAGCATCCATTCCCCAA
AACAGAACTCAAACTGACGATCATCAAGATATTCCAGCTATGGCAAACTGCGGAAGAATTAGGACAGATGTATGACTTATTTCATATAAAGCTAAATCAG
TTTAATTTATATGATTGTCCTTTATTCTGAGATTATGTTCAACAGATATTTTCAGTGTTAAAATATTCTTTTTTTTTTTTTTTTTTGAGACAGGGTCTGG
CTCTGTCACCCAGGGTCTAGCACAGTGGCACGATTTTGGCTCACTGCAGCTTCCTCCTCCCAGGCTCAAGAGATATTCTTGCCTCAGCCCTCCAAGTAGG
GCTACACGTGTGTGCCACCGTGCCTGGCTATTTTTTGTAGGGACAGGGTTTCAACATGTTGCCAAGGCTAGTCTCTAACTCCTGGGCTCAAGCAATCTGC
TCACCTGGGTCTCCCAAAGTGTTGGGATTATAGGTGTGAACCACCATACCCAGCCAAAATATTCTTTTCAAAGTGATWAGAAGTAGGAGAAGCTTGCTCT
CTTTTTATTGGCACTTCTGTCTTACATGCACTTTTTGATTKAAATTATTCTGKCTTCTATGAAATGACAGTGATTGGAGGTGGTTTATTTTTTTTTAAGT
CTGCTTACTCGGAAAAATAAAACAAAGTTGACAACCTGATTTCAGACCTCCCAATTTTTTSTTAAAAAAAATAAAAGTCTTCTTGGTCCATGAAATCCAG
AAACTGGAGACCAAACTAGCAAATTCGCAAGGAGCTGCTTGATAGAAAAACACTTGAGATCAAGAGTCAGAAATAGCTGGGTTGAATTCCAGTTCTCTCA
TATTAAGTGACAAGTTGCAGAATGCCCCTGTCTTTCTGAGCTGTTTTTATATCTGTACAATGGGGTTAATACTACTAGTATTTGMTTCCAGGGATTGTTT
TGGAGGGGAGTGAGGAATAAATGATATAATTCACTAAAACACGTAGAATAGTATTTGACACAGAGTAGGTCAGCATGCCCAAAGTATCAGAGTCATTATT
GAGTTATTCCGCTACCTCCGTATTTGAGTCCTTTCTTTTGGGCTTTCCTACTTAACGTCGCAGATGTTATTTTTTTGAAGAGGGTGTAGGCCAAGAAAGG
GGTGGGAGAAACGAGCAAGGTGTTGATAGAACCCCTTAGTGTCCTCCTCATACCACAGACACTCTCTTCCCCCACTTACTTGGCCAWTTTTTTTTTTTTT
TTTTTTTTTTTTTGGKGGAGTCTCGTTCTGTCTCCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCCCTGCAACCTCTGCCTCCCATATTCAAGGGATT
CTCCTGCCTCAGCCTCTCGAATAGCTGGGATTACAGGTGTGCGCCACCACGCCCAGCTGATTTTGTATTTTTAGTAGAGTTGGGATTTCTCCATGTTGGT
CAGACTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCCCACAGTGCTGGGGTTGCAGCTGTGAGCCACTGCGCCCGGCCTACTTGGC
CAAATTCTTGCCTGATCGCCTCTCCACCCCTGCTACGTGTAATAGAAAGGTAGGGCCATGTTGGAGAGGGATCCAACATTTATTATCCCCATTTTACAGA
TGAAGAASTTAAGGTGGCCAGGCATGGTGGCTCATGCCTGTAATCCTAGCACTTYGGGACACTGAGGTGGGTGGATCACTTGAGGTCAGGAGTTTGAGAG
CAATCTGGCCAACATGGTGAAACCCTGTCTCTACTACAAATAAAAAATTAGCCGGGTGTGGTGGCGTGTGCCTGTAATCCCAGTTACTCSGGAGGCTGAG
GCAGGAGAATCGCTTGAGCCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGYGCCACTGCGCTCCATGCTAGGTGACAGAGCAAGATTCCATCTCAAAA
CAAAACAAAACAAAAAAACAAGAAGTTAAGGATTGCAGAGCATAAGTATCTTCTATGGGGCTACCCAACTAGGTCGGGACAGGGCAGGGATTTGAACCTA
GGAGCTCTTGGATTGCAATTTTTCATTCACCCCTCCCTCTCCACCCTTCCTGTCTTCAAGCCTGAGCAGGTGATACTGCATTTTGTACCGTATGACTTTW
AAACAGAACCACGAGTTCAGAACTTTGGTTAGGTCCTGCCCGTGTTCTCTAGCTAACGCATGGCAACGCTGGTTTCCAACCTTTCACTGTGCGGGTTTCT
GATGAGTACGCTGGCAGGCCTCTGGCTTCAGAGATGCCACTACAAAGGTCTCCTCCTTTTCATAAACATTGCTGCAAGGCCCGCTTCTCAAGAAAGCAAC
TTGTGCTACCTCCTGCGTGCTTTTATGCTTCGCTGTGAAGTGCAAAGTTGGGCTGGCAGGCCTGGCTTTCTTCTCCGACTTATGTATGATTCATCAAGAG
GACTCCAGGCTGTGGTGTGCGGTGCAACCCGGGCTGTGTTCCCGAGTGCATCAAACGGGGATTGGGACCTGKTTTCCTTCCCACTCACATGTAGGTCACC
TACGGGAGCARGGGAGGAACCATCTGAGGTGTTTTTTTTTTTTTTTTTAGATTTCTCATTGCTGAGAACAGTTCCAGCTCTGCYGACCAAAGGCTGAGTG
TCCYTTTATTAGTCTGAGCCCCTAGAGARACCAAAGAGGCAACCCTCGAGCCAACTGACAGCCAGCTGTGGGGTTGGACCCTGTTTTTCATACAGTGAGC
ACTCTTGAACCCAGAGAAGGTGCAGGTTGGAGATGCAGCTATATGACTCTGTACCAGAGAGAGACCTTTTTGTACATTTGGAATAAAAATTTTTAGCATT
AGAGATTCGCTTTTTTGTGTCTAAATACAAATGTCCAGGAGAATAGGAATGCCATAGTGGTGAGCTAAGAGCAGGCAGTTAGTTAAGTGTATGACAAGTA
TCTCATTATAAATGGATGCTGAAATGTCCAAGTGTGGAAATGATAYGCTTCAGCTCTTATTTTTAAGTCATCCTTATCTCTTTCACTTATTCCCTCATTC
AGGCACCAAAAATGCTGTTTGACTGGGAGAGCAAGTGGAGCTGTTCAAAGTTSTAGGGACAGCCGGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTT
GGGAGGGCGAGGCGGGCAGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGG
CATGGTGGCGGGCGCCTGTAATCCCAGCTATTCAGGAAGTTGAGGCAGGAGAATCATTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCGCC
ACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTGTTWAAAAAAAAAAAAAAAAAAGTTCTAAATCAGTGGATTCTGCCGATAAACATCATCTGGAC
GGAATGAAGCTGAGGGCCAATAGTTTAGAGGCTCAGCACCCGACTGGAGAGAGAGAGAGAGAGAGAGAGAGAGWGWGWATGTGTGTGTGTGTGTGTGTGT
GTGTGTGCGCGTGCATGTGTATACGCTGGTGTTTAGGTGGGCTTGAGAAAAGTGCTGACTTTGTGAACGAGGAGGAGGGAAAGGGTCCAGAGCAGTAAAG
AGCCTGTAAATAAATTCATACCAGCTTCAGCCCCATGCTTTCGTTTGGGATTCCTCATCCAACCCTGACGGCTTCCCTGCGGGACATATTTCCCCCTCTT
ACAGATAGGAAACCTTGCCCAATGTGATTACGCCAGGAAGTCAGATTTCAAATCTAAATGTGCCTAATGCCAAAACTGTACCTCTTGCCACTCAACATCT
GCAGTCAAAGGCTTCCTGACTCAGGATTTGCTGGGGTCTGGCTCTGGGCTATTAGAATTAGATGCGTGAGACCCTTTCAATCTAAACCTTAAGTATTTTG
CCTGTTGGACAGATGCCTGGTTGTCCCTTTAATCCATCGCCCAAAAAGCCTGAGGAAGGATGGCAGGTGGACTTGGATCTAGGCCACTCCCTTAGATCCT
GATTAGGGGACCTCTGCGACTGCTCATCTGGGAGGAACTAGGGGAGCGCTAATGTGTTGTCCTTGACTGGGCAAGAAGGGAAGGAGAATTGTGAAACATG
CACAATTAGAAGTCGTGCACCTGGGTTCATATCCTGGCTGGGCCACTTACTTTCTGGCGGGTGGGGARGGCAGACAAGTTGCTCATCCTCTCTGCGCCTC
AGTTTCTTCATCTACAAAATGAAGATGTTGGTTATTTCTTTATTCAAGGGTTGTTGARAGGATGAAGTGCTAAAAATGCTTGACCAGCATTCACACAGGC
ACTAAGACGGTGAGTACTCACTACTTAKCGCTGTCAACATCATCTCCGTCCACATCAATGTCGTCATCGTCCTTATGAAAAGCCCKGGGCATCATTTTGC
CCTTGAGCTGGATGTCCATGTTGGAAAAACAGCTAGTGRAAGGCGTGCCCAAATCTCAGAAGTTGGCGTTTCCTTGCAGATATCATTGGTGGCCATTGGA
GGGGAAAAAGATGCTTTGGAAACCAGGACACAGAGAAAAGTGCCTCGTATTATACAGAGCCAAGAGAGGTCACTGTGGAAGTACAGAGGAAGCCTTGGCC
TAATTGCACGGTTAATACAATTCCGTAACTCATCCTGCCAACACGAAGGTAGATGGACGGTCCTTATGCTCGCTGCGGAACACTGCCTGTGTTTTCCTAG
GAGAGACATCTGCACTCTAGTAGTGATTAAAATGCCTTTGACAGGCTCTTGCTATTAAGAGTTTCTGGCTCCAGTTTAATAAAAGGTAGTATATTATAAT
GGAAACCAGGTTATTATTGATAAGGACTAGACATATTAGAGACCAGGTTAAAGCTTTGATAGTCCCAAATGCAAGGGGAGGGAGCTAAGGGTTATTGCAA
ACCTACTGTGTGTCAATTGCTCTACCAGACACCTCAGAGACATCACAGCCAAAGACCCCCACCTTTGAATAAACCAAGTTTGGCCTCTCTGATATATTAA
TATATTTAATCATCAGACTTTCAGTGTTAAAGGAGATTACAGTAGAGGCATCCAGTTGATTGGGGAATAGTTGTTGCAAATGATAAGCTCTTTTGAATAA
ACTGATACTGACTTAATGAGGTTCTGCTGTGTACTATCTTTTTTTTCCTAATAGAAAATAGAGTAGCTGCCCTCCCCATCCGCCATTCTCAGTCCTTTTG
CTTACTAGTAATGACCCTCTTTTCTCTCACTCCATGGGAACTTTTAAAACTGATAATTAATGGATTTTTAGCCTCAAGTTTCTGGAATTCTAAGAGGGCC
TGAAAGGTAAGTGCTCACTTACTGAGGTGTGTGAACAAAAACAGGCAACCTAGCTCAGCAAGTAAGAATGGAGTGGCATCTCCCCACCTGCTCTGGAGTC
ATGTGTTTGCTTCTGGAAGGGAGGCAAGAGGCATTCAACCTCCTGTTAATTTGGTTGCTCCTTCAGATACGCTCTTCATGGTACAGCCCTGASCTGCATC
ATTTAAAGACCAATTGTTAAGGACCAATCTGAGGGCCTGTGCATTAGTTAAAACTCCTTATCTGGTCATAGAGGGTGGTGTGGTTTGGACGCGTTCCCCT
TGTCTGTGCAATTCCCAACAGAGGCAAGTGCGCATTTGAGACAGGTTGAGGGTTCAAGCTGTCCAATCCCTGCTCATCTGCAGCACACCAAGGAATGTGG
ACTAATGAAAAATAAACTGCATGCATGCARTGCCCATCACACTGCCTGCATTTTCTAATCTTCACAATAACTCTGTGTTGAGAAATATTCCTGTCTGTAA
TCCCGGCACTTTGGGAGGCTGAAGCGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGSCAACATGGTGAACTCCCCCCAACCAACGACCCTT
CCCATATCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGGGGACCTATAATCCCAGCTACTTGGAGGCTGATGCAGCAGAGTCTGTTGAACCCAG
GAGGCAGAGGTTGCAGTGAGCCAAGACAGTGCCACTGTGTTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCAAAAAAAAAAAAAAATTGTTTCTGGC
CCCACGTTACAGATGAGGCTTTTAAAGATACCCAGCCAATGGTCCACAGTGATGTAACTCATCAGTGGTCCACCTGACATTGGAAATTCGGTTGCTTTGG
AACCTTCTACTACATCCCCTTTCCTTACTCACTGACATCATTCCCAGATCAAAGAAAGATAAAAGAAGGAAGGGCTGGAGACGTTGTTTTCCTGTATGCT
CCTTGATGAAGGGCTCAGAGCTAAGCGCGGAGTAGGTGCTTAAGCCCTTCCATTTGAAAGGAGCTTTAAACACCTTTGGTGGCAGCTAAGAGTGTCAAAA
TGGAGGGATGTGTAGGGGACCTAGGGCCTGGGTAACATTGTCCCAGSCCAGGGCCTATTGTGTTGTGTGTGTCTCCACTTTCCAGCCTTTGGGAACGCAG
AGGGGGACCTCTGTAATTGGTACCAGCATCCCTTCCTTGCAGGGTCCGTCCTTCCTCTGAGTTGGGGGAAGGGGTCTCCATGGTTTCTTCTACCAGGTAG
ACCCAGAATCACTTTCAACTTGCTCACCTGTCTGTGCAGTGTTTGAGTTCTTCCCTGGGAAGCTTGCTCACATCATCCACTTCTCTCTGGGTTCTCCGTA
CCGCTTTCCCCAATCCAAGCTAAGCTCTTCTCTTAGTTATTCTAATAACTGCCCAATATCAGGCACTACCCTCAACACTGTTTCCCATGGCAATTATTTT
ACATGACAGTTTAAAAAACAGGAATGCTCGATTTGTATTCCCATTTTGCAGACAAGCCAACGAAGGCTTGGAGGGGTTGAATGGCCCAAGTTTCCTAAGT
GGCCAGGGGCAGAGTCAGGATCTGAACCCAAGACATAGGCCCAGGAGTCTGTGTTTGTTCTTTAAACCTCTCTATTCAGTTGCCCAGCTCTTTTCATTCC
CTGTCCTTTCCCCCTCTGGCTGGGTCTGCCTTTCCAACCGCTACCACCTTCCACCACCATTTTTTTTTTGTTKCCTCTGCAAGCAACATCTGAAAGGCCC
AGACCCAGCTTGTTGGCCTTGGGCTCTGATAAGATCTGTCTGCACTCCTTTTGTCTGGCCTGTACCTGCCTTTTCTGAATGACCCTGTTAATTGCAATTG
ACTCTCATAGAATGTGGATAGCAGTGCCASTTGACACCAGACTAATGCTTCTGACTTTTCCATGGTGCCCCAGCAGCAGGCTGGAGGGAAGGGCGGGGGC
GGTCAGAGGAGAGATAGAGCACTTCAGATTCCAMTCGAATACATTAGAGCATTAGAGCTTTTCTCTTCCTCAGGGTGCTCTCTCTCTCTGGGTTGGGAGG
AGATGTGGCATTTCTAGGAATTCACAGTAAAATCAGAAATAATTAGGAGATTTCACAGTTGTAGCTCCTGTGAAGATTCAGGAATTTTTTTTTTCTTCTA
TTTGCAAGCTTTAGTCCTAGGCATGGAAAAAGAACTTTGAAGAAAACCTGAGAGATATSAGTGTAAAACAAGAGAATGATTCCCTCTGGGGTGCTGGTAG
TGGGGGCTTAATTTCCTAAAGGCTTACTGGGTATCAGGGCTGCTTTCCTTTATAATCTTTTACCCGTCTTATGGGGGATGAACAGAAACACACTTTAGTG
CTAGAAAAGCTGGGCCYAAAAGACCAGTCTCCTGTCCCATACTTGGACATTTATTGTTCTTTTTGGGCAAGGTGAAAACTTGAAACCAAAAGTCTGTTGA
GTTTGGAAGACTTGACTCCCAGGATGTACAAAGTACTTCTGCATGTGCGCAAAGTCCTGTAGGCCCAGGCATCAATGACACATGCAGTGTGGGCCCAGGC
ATCGATGACACACGCAGGGAAGCAACCCAAGCTGGGTCAGTCCTTACAAGGAGACCGGCACCTGGGCTCACACCTTGCCGTATATGACTTCATGGGAACC
TCATAACAGACCTGTGGGCTCAGAATTATTCTCTCACTTTGCAGATGAGGAAATGGAAGTGCACAGAAGGAAAGTAAGAGTGTTTGAGATCCTGTAGTGG
GTTCATTGCTGAGAATAAACCCGGAGTTGCCTCTGGGAGGACCTGGTGGTGGGTGGGATGGAGAGAGAGGCCTCCCCTCAGACTCCAGGGGCACAGATTG
GATTTTTTTTTTTTCCAGACAGAGTTTCACTCTTGTTGCACAGGCTGGGGTGCAATGGTATGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCGAG
TGATTTTCCTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGTGCCCGCCACCACGCCCAGCTAATTTTTTGTCTTTTTTAGTAGAGACAGGGTTTCACC
ATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCCCAGCCTCCCACAGTGTTGGGATCACAGGTGTGAGCCACCATGCTAGGCC
CAGATTGGCTTCTGTGTGAGGATGAAGAGTAATAGGAAGATAGAGTGGTGATCTAATGTCAACTGTGGAGGGAGTGGGAGGCAGGTGTTCGCAGGGCACA
GCTGGTTTCCTTTTTGAATCCCACCCAGTGCTGGGGGCAAGTTTCATAAGCCTGTGACCACCCAGATAGGAAAGTACACAGCAACACCAGGCAGATTCAT
TTTCTTTAAATGAGGGGTTCAAAATAGAAACACAAAGCATTGAGTATTGAGAAGAAATGGATCTTCAGGTTTGGAGGGAGGCCGATAGAGAGTGTCTGGA
GTTGCCAACGTCCTCTCCTTGGGTCATGGGTGTGTGTGTGTGTGTTTTCTTCTTGKTGKTGGGTTTTTTTTTTTTTTTTTTTTTTTTTTTGGCTTTTGCG
CCTATGGTGACTTTTAGCGAATGGATACTATTGAAGGAATGTTTCACTTCCAAATCCAGATCTCTGACTTCCCTTGAAAATTTGGAGTGCCACTCAAGTC
GGCCGCTCTGAGCTAGAATCCTGGTGTTCARAATTGGCAGGAAGGGCACAGGGGCAAGGTATAGGCTCACGTCTCCACATTCTGCACCTCCCAGGCTCCT
GCCATTGATGTGAGCGGGTTCCTGTACTGYATGAAGCAGGGGTTTGCATCCGAAACAACCACCCGTGCTGAATATGTAGGTGATACGTTGATCTGTACAG
CAAACCACCATGGCACACATTTACCTATGTAACAAACCTACACATCCTGCACATTGTACCCTGGAACTTAAAAGTTGGTGAAARAAAGAAGGGGCCGGGC
ATGGTGGCTCACGCCTGTAATCCTAACATTTTGGGAGGTCGAGGCAGGCARATTGCYTGAGCTCAGGAGTTGAATACCAGCCTGGGCAACACGGTGAAAC
CCCGACTCTACTAAAATACAAAAAATTAGCCGGGCGTGGCAGTGTGTGCCTGTAATCCCAGCTATTCGGGAGGGTGAGGCAGGGGAATTGCTTGAACCTG
GGAAGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGTCTGGGTGACAGCGCGAGATTCTGTCTTCAAAAAAAAAAAAAAAGAAGAAGAAA
AGAAAGGAAGGACAGATGGAAGGAAGGAAAAGGGAAGGGAAAGGAAAGGAACCAGCTGCAAAAATTGTCCTAACTGAGCATTACTGTAACATAGAACAGC
TGAAACACTCCTCAAAGCTGAGAGGAGGGTTTGGGAGAGAAGCAGGCTGTGGTTGTGAACAGGTGCCTCCTCCAAAAAAATTCTCTTCCTTGGATTTCAA
AATGACCCCCGTTGACAACAAAGCCTTTCACGCTGTGTTTATTTTTTTTCAGGTCTAAGTTTCCCCCAGGAGATTTTTTTTTTCTAAAGGAAAAGGCAGA
GAAGCCCCCAGACCGGAGCCACAATCAAATGCAAATATGACAATAGGACCCATCCTGGAGAGAAAAAGCCTTCTTTTTAATTAGAAGCCTGGAAGGACAT
ACCCTTTAATTGCTGCACTTGTAGTGTCAGGGTTATCAATATCCGTGGCTCTTTCATTAATAAACTGGCGAGTCAGAAAGCAGCAGGAGTGGGAACCTCT
CCCCACCCAATCCCCTCTCACGCCCCAAGCTCTATTTAATCAACTGCAGACTCAATCAAATGGGGAAAAGAACATGTAAATCAGCTCATTCATTCTGCTG
GCCCTAAATAGGTAGAAGGAAGGGAAACATGAAAGGGAGCCTTCATCTGTTTTCCTGCAGATGCCCGGCTYGTGGTTAACCCAAGCAAGAGGTAGTTAAA
CGGCCCCGCAGATTGCCAGTGACTCCGGGAATGCCTARGTTTATGTATGGATTAACACAGTGATAGACCCTGAGTAGCAAAAGACGAAGACTAATTACCT
GACAGARCTCCCCTCCACTCGCCTGGGTCATTGAAATTAATTTCTGCTTTCAAGCTTGGCAGAAAGCAGCTGCAGAATTTCAGTTCAATACTTAAATTAA
CGGGGAGCCGAAATTATTTCTGTGCACAGGCAGTATTAGAGGAGTGGCTTACCAAATAGATCTTGATCGCAGACACGGAAAAAAGGATTATTCCTCCCCT
TTTATCAAGAGCCGTAAGTCCTTGGAAAATGCAAAGAGGGGGAAAAAGAAGAAAAACAGCAACGARKTTATTGGAGAGTTAAMACTTAAAKACTCCAGTA
CATTGAGTGTGACATGCCTGTGTAGGAGACTGTCTGTCCCCCAAATAATTGACAATTTCTCTCCATCTAACAAGAAAATATATGGCACTTTTATATATAC
TTGAATTGGAATCCCTAATCCAGAGATAATTTGTGAATATCCATTCTATAGCATCCCATGTTGTCAAGAAGGTGTTGACTTACTGCAAGGTTAAGGAAAT
GGGTGGAGAATGTAGGGAGGAGGTGGAGGATAAAGGATAGGACTAGGAATCAGAGTTGGGATTTGAACCCAGGGCTTCTGTCTCCAGATTCCTTGTTCTG
TCCCTTTATGCTGACTTTCCTTTTTTGCTCAAAGTCTCTCTCCTTGCTTCTTTCTCTTTGGGCTCCCTGCTTTTATTTCGGCCCTGATGGAATCTGTCGA
CTTTACTGAGCTCCATGTATGTGCACCAGGTCAGATTCAATGCTGCCTAGGTCCACAGTCCTCAGTTATTTGTTCCTGTGATTTTCGCGCCACCAGGAGC
CACTTGTTGGATGAGATTTCCGGGCAAGTTGAGTCTCCATGTTTTTGTCGTGGGCTACTGCCAGCTGAGATATGGATGAAGACTCCCTTTCATGTTTCCC
TTCTTTGGTGTCCATGGCAGTTCCCACCTCGACCGCTATGGTATTTCTTTTGCTTCTGCTGAGGCTGTGTGTGGGTGCACATCAGGATACCTCAGTGGGG
AACTCAGGGCGTGAGGCACACTCATGACAGATGCAGGAAAAACATCTCTTTTCTAACTGTCCAGCTCTTTAGGATTAGGCAATACTTTAATAATCAACCA
AATTCTGGAATCCTACTGCCAAATTATGGCACTCATCCTACTTGGTGTAAAATCCTGGGATGATAGCTTATAATAGTAATAATAAGACCTGCTTCCCGGT
GATTMTCTAAGGATTAAATCAGTTCATGGAGATGAAATACTTAAACTGTGCCTGGCACAAAGTAAATGTTAGTGCTACTATTATCCCTGCTGCTGTTAAC
CCCAACTAGATAAGCCAAGATAAGGTGCTCTCCATTGTTTACCTGAACAGGCAGAAAAGCTCTATGCAGCTATCCAGACCCAAGAGGATCCGACAGCTCT
GGAACTTGTAATATTTGCAGCATGTCTTGCCCTCTTAATGTCTAAGAAGTCAAAAAAGGACACGTATGCCTAGAAAACRTGAATAATTATCATCTATCAA
ATTTTTACCATGTGCCAAGCATAGTCATATTTGGCTAACGAAAACAACAAAATCAACCGTGACAAGGTTTTATTAGTAATGAAACTGAGGCTTCTGGAGG
ATCTGTAACTGTTGCAAATTTCCAGTGGCTAGTTCAGGGACAGTGCCGGGGCTTGAACCCCTGTCTCTGTGTCTCCCAGCTCATAAGGTGTGCTACCAAG
TCACCCATGWGTAGCAATTAGGCGACTTCTAACATGTCCAGCTTTAAACCTGTGACCTCAAGGCAAATGACTTCCACATCTCATTAGCACTCCCCAGAGC
CTTCCAGCCCCCTGTAGGAGAGGGAGGTTAATCAGCCACGCGCTGAATCTGCTTATAAGGCTGTTTCATGTATGATTTTTATATCTTGGCTCCTAATAAT
GGCCCCGTTGTAAATGATTGTCTCACTATGATATACGGGTTCCTTACCTTCTAGGAACTGATTTAAAAGGAAGCCCTAGACTTCTTGTGCCTGTAGAGTT
TATTCATATCACTCTTTGCTTGCTCAGCAGTTGAAATGGGATGGAGGAAAGCCCCCTAACTCCAAAAAAAAAAAAAAAACTTTCTTCCCAGCCTGAGACA
GTTGCCATAATTAGTAACCTGCAGCTCCCTTGATATCTTGATGATACTTTATTAAAACAAACAAACAACAAAAAACACAGCTGGGTGCGGTGGCTCACGC
CTGTAATCCCAGCGCTTTGGGAGGCCAAGATGGGCAGATCACGTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGAGAAAACCTGTGTCTTCTAA
AAGTACAAAATTAGCCAGACATGGTGGTGCATGCCTGTAATCCCAGCTACTCAGAAGGCTGAGGCGGGAGAATCATTTGAACCTGGGAGGTGGAGGTTGT
GGTRAGCTGAGATCACGCCATTGCACTCCAGCCTGGGCAACGAGCGAAACTCTGTCTCAAAAATGAATGAATGAATGAATGAATGAATGAAATACTACTT
CTCCCTGTCCTCCCCACCCTAAGCATCTGATCAGACAGGTAGTGCTGGTGGACAGATGGACAGACACCTACCCCATATGTCACCTCCCTCCTCTATGCAA
ACAAAAATTTTAATTATTTCTAGAATGACTTAGGAGAGCAAGTCATGTGGGATATATAGCGTCAGGGAGCGTATTTTCAAACCAAAAACCTGGGCCCTTA
TTTTTTTTTTCTTTTTGAGACAGAGTTTTGCTCTTATTGCTCAGGCTGCTGTACAGTGGGGCAAACTCAGCTCACTGCAACCTCCGCCTACCAGGTTCAA
ATGATTTTCCTGCCTCAGCCTCCCAAGTACCTGGGATTACAGGAGCCTGCCACCACGCCTGGCTAATTTTTTGTACTTTTAGTAGAGATGRGGTTGCACC
ATGTTTACCAGGCTGGTCTGGAACTCCTGAACTCAAGTGATCTGCCCGCCTTTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCAGCC
AAACCTCGGCACTTTTATCCAACAAATATTTATTTCGTGACTATTATGAGTCAGGCTTAAGAATACAYTAGTAGGTACAGCAGGAGAGCATGTAGAAGAG
GATAGATGTAGAAAATCGGGACGGCATGTTAGGAATATAGATAGGAATTACTAAGGAAAATTGTATTTTTGTGGAATTCTTTGAACTCGTTACTATTAGT
AAACGGTGAGTTTTGGTTCTACTCTTCAATGAGTTTAAGATGAAGGAAATCATTAAATAGTGCTTTCTTTTCTTCAAAAGTTGGGTTGCATTGCATAGTT
AAAGTTCTTTAAATTCTTCTCTAAACCCCAAGGCTAAGCAATATACAATCTAGTTACAATGGTCTGCTTGCTGTTACCAGAATCTRTCAAGCTCTTTCCT
ATCTAAGGGTTTTTTCCATGTACTGGTTTCTCTCCTGCGTGGTCTTGTTCTACCCTTGAGGAGGGTACCACTTCCTCATTGCTTAGTTGTCAGTATAAAT
GCTCCTTTCTCAGAGAGGCCCATCCTGACCATCTGTGTTTTTTTCCTATCAATGCTTTAACAAATGACCACCCATGGGTGGCTTACATACCATGAATGTC
TTCTCTTACCATTCTGGAGGTCAAAAGTCCAAAATGGGTCTGTCTTAGTCCTTTTGTGTTGCTATAAAGGAATGCCTGAGCTGGGTCATTTACAAAGGAA
GGAAATTTATTTGTCTCATGTTTCTGCAGGATGTCCAAGAAGCATGGTGCCAATGTATTTCTGATGAGGGCGTCAGGCAGCTTCTACTCATGGTGGAAAG
TGAAGGGGAGCCAGCATGTTCAGAGAACATAYAGGGAGAAAGGGAGCAAGAGAGGGGAGGGGAGGTGCCAGAGMCTTTAAAAGAACCAACTCTCTGGGAA
CAAATAGAGGGAGAACATTAATCTAGCCATGAGGGATCCACCCCCGTAACCTAGACTCCTGTCATCAGCCACGGCCTCCAACATTGGAGATCAAATTTCA
ACATGAGATTTGGAAGCAACAGACATCCAAACTATAGCAGGGTCTCCTTGGGCCAAAATCAAGGTGTTGGCAGGGCTGGGCTCTGGGGGCTTCTGGGGAG
AATTTGTTCTGACTTTTTCGATTTCTGGAGGCCACCTGTGTTCCTTGGCTGGTGGCCACATCTTCCATCCTTAAAACCAGCAGTGCAGCGTCTTCAATTC
TGTCCCTGGCTCTGCTCCTTCTCTCCCCCTCCTCTCCCCCTTTGTCATCTTTTTAGGTTTATTTGTGACCTTTTAGATCCTTTGTGACTGCATTGGTCTT
CCTTGGGTAACTGCGCATACTCTCCTCATGTCAAGAACTTACATCCCTCTACAAAGTCCCATCTGCCATGCCAAATAACACCTTTGCAGGTTTCAGGGTA
GAGCATGGATGCCTTTTGATTTTGATTTGGTTGTTTTTGGTAGAGATGATATCTTGCTCTRTTGCCAGGCTGATCTCGGACTCCTGGGCTCCATCAATCC
TCTTGCTTCCCAAAGTRCTGGGATTATAGGTGTGAGCCAGTACACTTGGCCTTTTGGCACCATTATTCTGCCTGCCATCCTGTCCTAACTAAAGAAAGTA
AGGTCCCTCCATCCTCCATCTTAGCCCTTCTTTCCTTAGCCTCCTAACACTCAACGCAATTTATATATTTTAATTTTTTTTTTGAGACAAAGTTTCACTC
TGTCACCCAGGCTGGGGTGCAGTGGCGTGATCTTAGCTCACTGCATCCCCTGTCTCCCGGATTCAAGCAATTCTCTGGCCTCAGCCTCTCTGGTAGCTGG
AATTACACGTATGTACCACTACTCCCGGCTAATTTTTGTCTTTTTAGTAGAGACTAGGTTTCACCATGTTGGCCAAGCTGATCTCAAACTCCTGACCTCA
GGTGATCCGCCCTACTGGGCCTCCCGTAGTGATAGGATTACAGGCCATTGTGCCTGGCGTATATATTTTAAATTTTATTTTTCAGTTTACTTGGTTTTGC
CTCCTTCTAGAACTAGAACATAAGCTCTCTGAAGTCAGGGACCATGCCTAGAATCGCCTTCCTTTTATYTCCCATCAGCCGAAACTAACTCTGCTRTGTC
RCGCTGTGTTAGGCTGTGTTGGCTGTGAGTAAGAGAAGTCTCACCCAACTAGCTGAAGCGAGGTGGGTTGGAGGGGGGATGCCTTGTGGAAGTGACAACT
CTAGGCACGTAACTGGCTCAGACTCTGCTGGGCCCAGATATACAGATGTCATCAAGAGTCTTTCTCTTCCTTTTGAGCCCAGCTCTCCCTTTGTGACCCA
GCAACTTCCTTCCCCGATGATGGCCAAGCCTTGAGGATGTGAAACTGCCCARTGCCCCAATCTGGARTCCACCATCCTGGGTCTAGCTGGGGACATCCTT
GAATCAGCCTCTGGGAATCACTGAACCAACATGAGTCACTTGCTACTGTGAGATCTCARAACACATGGATCAGGACAGAGGGCAGGGCTGTTTCCCCAAG
GAAATCCAAATGCTTTACAGGAAGGGGAGTGGATGCTGGCCCGGCCCAGGCGAGGATGAGGAGTAACTGAGCTGCAGACCATTGTTTAGCCCTCCTTCCA
CCTGGGAGACTGGCTGCTGGTTCTCATTGCTTCTGTGGGTCTCCAGGTTTCTATCATTACACAGATTAGCACAYGGTTCCATGATCATGGACCCGTTCAG
TACACAATGAAATCATTTGCAAAGCACCTTGGGGTCTGTTAGAGAAGGGAATGGATGTCTGAGGTATGCTAAGCCTAATCTCCATCTTCTCAAAGCTCCA
CTGCCACTGTCCCGTAAGGGTGGGCAGATTCCTCCCCATTCTATAAAATAAYAGCTACCATTTCCTGAGGGCATACTGAGTGCTGACAGGCACATCAACA
TCAGACCATCACCTTCTTATACCTCARAATAGTCTGCAGGGTGACTCAGAAGCTCCTGGCTGGTAAGTGGCAGATCCAGAGATGAAACCCAGATCTAACT
GGACCCAAGACAGAAATTTCTAGAACAGAAGCCACAAACGTGTTAGCTAAGTCTGGTTATGTCAAGTGGAATATTTCTGGCTTTGGGGGATCCCAGCTCT
TTTTTTCTCTCTCACTCTGAGTATTTAGAGGCTTTTATTGCTATTTTTCTAAAAGGCAACATTAGTAATCAACTTTGCCAAAAATTTCATATGAAYGGTG
GGCTTTTCTTTCTCATTTGCTTTCGCTTAGTATTTTCCATTATTCATTTGGCTTCTTGAACCCTCCCTATCTGTACCCCACACTTACTCTTATTCACYCA
GAACAGGTGTGTGCCACCTTGGAGAAGATGAAGCCAGAGAGAAAATCAGTCAGACAGGAATTATGTTGAAAGGTGAMTGAATACATTACCACCTCCCAGG
AGTTGAATGAAAAACGGCTATTTCTTTAGGACGTCAAACCACCTTTTTCCTCTCTAATTCATGCATATCCCTATACAAAGACCCAAGGTGGTGAGGGGCT
GGTTTTTAGATAGTCTGGAGGCCCTCTGAGAATGCGAGGCCCTTGTTGTAAGGAAACGCTGGTGGGTGCTCACTCCTTCATCAGGAGCCAGCCGGCTCCC
CTGCACTTACTGCTTTGGGGAAGAGTTTTTGTCAAGATCATTTTTGCAGATGGTTGTAAGGTAAACAGTCACTGGTCCCTAGGATATCTTGCTAATGAGA
CACCAAAGATACACATGGACAATGGCCAGACCATATTTTGTCACAGAATGCCGACCCACAAGCTCTGGAGCAGTCAACTCAGAATGGTCAGGACTTGGTC
AGTAATGCCCATTTTTGCTAAATTTTGTCCCCACTTCCAACGCAGGAYCAACCAGAGAAAGCCACATATGCTCCCCAAACCAATCATACAGGATGTCCTG
GTCTAGGGAGCCCACCTCCGGCTTCCCCATGTCCACAGCCTCCAATCGGAGCATACTGGAAGTCATCCACTTTCTTTTTTGTTTAACCATAAAGCTTTCT
TTCTCTCCACCTCCTTTGAGCCTCTGCCAAACACAACTGATGGTGGCTGACTGCCTGGCTGCAGGAAGTTCTGAATAAGTGACCTCTATTTGTTATTATT
TGGGTYCCCTTTGTTTATTTTTACACTAGCTTTGCACTAGGTTAATTTTTTCCCACATGGCTTTTCCTGTTTGTTTCTTTGATTGTTTTTAATTAATAAT
TAGTTTGCTTATTTATTTGTTTATTTTTTGAGAGGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGCAGTGTGATCTTGGCTCACTGCAAACTCCACC
TCCCAGGTTCAAGGGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGAGATTACAGGCSCCCACCACCAAGCCCAGCTAATTTTTTTGGTTTTTTTTGTATT
TTAGTAGAGACGGGATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCTGGACCTCAAATGATCCAACCGCCTCGGACTTCCAAAGTGCTGGGATTACAG
GCGTGAGCCACCGTGACTGACCTGTTTTTAATTTTTTTAGAGACAGAGTTTCACACTGTTTACCAGATTGGAGTGCAGTGGTGCAATCCTAGCTTACTGC
AGCCTGTAGGTCCCGGGCTCAAGCGATCTTCCCACCTCTGCCACTTGAATAGSTGGGACTACAGGTGGGTACCACCATACCCAGCTGTTGAAAAAAAAAT
GGTGGGGTATTACTCTGTTGCCCAGGCTGGTGTTGAACTCCTGGCCTCAAGCRATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGC
TACTKCCCCAGGCTCTTCCCCCGTTTGTTAATACATACCATGACCTTGGCCTTTCCCACCTCTTAGGTTTTGCTTACTTTCCCTTCTGTCCTTTACTTAT
GACTCTGCCCCCTTTTGACCTCTGCTAAAATTATTTGTTACTGTTGTTATGTTATTATTTCATGTGTTAAGTCTACAGTGTATAACTTGGGTTTACTTAT
CTCATTTAACCCTTAGGAAAACCTTACACTTAAATACTCAAAGCCTTGATTTTGCAGGTCTGATTGATGGGCATACAGAGGAATTAAATGACCTTGTCTT
CCACATATGGTATAAGGCACAGTAGTGGAAGCAGGATCCAAATCTGTGTCTGTGTTTGGATCAACAGCCCTGGCCACCATCTTGATTCATTTCTCTTATC
TGTAATTCTATGGAGGGAGGTTCCATTGTATATTTTTTTCTTTCAATTACAGTATTATTTGTATATTGGAAGCCTATTGTACTTTATCTGTGTAACTGTC
GTAGCAGCTAGAGGCTAGTAGGACTGGCTGAAATGTCAGAGGAAGGAGGGAAGAAAAGGGAGAAAAGCAGGACAAATGAACGCAGATTAAGGAAAATAAA
AAAGAGTGTTTGGCTAACTTGCATAAAAAGGATCTCATTTTTCTTTGTAACACATTACTACATACAGTGACCATAGTGTTTCTCTAATTTCTTCAGGACK
TACTTTGAAGATGAAGAAGTATGTGTATCCGCTTTTTGTCTTTCAGAATAACATACTGCTGTCTGTAAAAATACAGATAATTTCTCTCTTAAATTCCATA
AGCTGGAGACACTGCCCCTGTTTCAAATGAATACAGATTCATTTTGTCACCTGTGTGAAATTGGTGTCCRTGTGCCTTGCTTCCTAGGCTGTCCACCATG
ACATCAGCCTGCCCRTGCAATGCTTGAGATTTGCCCTGTGACTCAACCCAAATCTAAAGCCCGAGTCGTATGAATCCAGGACACCTGCCTGCAAATGCAT
TTTTCATGTATAGGTTATTCACTCTGGTCTTTGAGATTATGTAATTAGCATATGTTGTCATAGTGATGTATTTATTATAATGGAGGTGTTCTCAGGAAAC
CAGATTTAATACTTTTAAATCAGAGGCCAACATGGACTTTTAGGAATTCCATTCACAGTAAATTTTATGCGTGGTGAAAGGTTATGGAATGGGTTTCCAT
GCCATGTCTCCCCCTGTCCCACAAATCTCAGCTGGCCTGCAAAGGTTCCACTGTGGATTTTTGCCAGCCAGCCACGCTGATGTAGACAGAATATTTCGGA
TTTATATTATTGCTTACTTGGCACATCTTCCATTGGAAATGGAATAGAGAAAAGGTGGCTTGGCTGTTTGGTTTATGTCCTAAAACCTTATCGKAATGTG
ATTCTCCTTAACAGAGGGATTCGTAAGCTTARGAMTGATARAGAWTTGGCTTTTCTGCTGTTGGATTGATAGCTCCTTGACTGCTGAAGCCATTGCCCAT
CTGTTCAACTGKTGKATTCACGAGGAGGTTAGACCCCTGACCCAAGGCCCAGGTACCTGGCTTTCCTCAGTTGGGATCAGAAGGCCACAAAGTTTTCTTA
TATTTTAAGCATCAAAGTAGCACCACTGTACAGCATCTTTACTTAATCTGCCCTCTTTCACGTGTGTGCATCCCTGGCATGCTTAAACAAGAAAGGCAAA
TGAGAGAGAGCGAGTGAGTGYGAGCGAGAGAGCCCTGAGGTGCCAGAAGGCTGTGGTTCCTTTGTGTCTACAGAAAAGATATAACGATTGAATTAGACTC
TTAAATATCTGTGGATGTCAGGTTGAATACAAGCAGCTATTCAGTGTTTTACTCTGGCAGGAGAACAAGTCCCCTGGAGGTCAGAAGCCATGCAGGTCCC
TGGAAGTGTGAGCAGATTGTTAAAATGGTATCAAAGATGGGCTGGCATGAGGCCAGAGTCTATCCTTGATGCTCACCTGAGGTCTAGGGCTAAACTCTTG
CCTTTACCTGTTCCATGCTTAGCCGTTCCTGCTTTTTGCCTAGAACCTCAGTGCTATTGCTCACACAGACCCAGYTCATGTCCCCAGGCCATGACCACTG
CCTCCCCTTCTCCCACCTGTGCAGGTGTTAAGCATCAGTACATAACTGAGGAGTAGGAGGGCAGCAGCCCAAATCTTTGATGAAGAACCTCTTTCGTATC
AACTTATGCTTTGGAACGAGACACTGTTGGATGGGAATCTGGCTTCTAACAAACTGATTGGTTGGACTCATGCCTTATTCTTTCGGAGCCTTAGTTTTGT
CATGTGTAGAATGGGGAGTATTGCTAGCTATTCCCATAGGGAGTGAGAGAGAGTGTAAGTAAAATGCAATGGCAGGCACAGGGATGGTTGCCATTATCAG
TTACATTATTATGAGGATTATTTTCTACCTAGATCAGGTATAAGGTGGATGTATTATTGGCATTCCTAGGACTGTTTTAAAGGAAGTACCTATGAGGCCT
CATGATAAGCCAGATGTCCAGAAGCCAGCTTGAGACCAGGGCTCCTGGTCACTTAAAAGATGTTTGGGGCTGGGCGTGGTGGCTCACACCTGTAATCCCA
GCACTTTGGGAGGCTGAGGTGGGCAGATCACGAGGTCAAGAGATCGAGACCATCCTGGCCAATATGGTGAAACCTGTCACTACTAAAAATCCAAAAATTA
GCTGGGCGTGGTGGTGAGCACCTGTAATCCCAGCTACTCGGGAGCCTGAGGCAGGAGAATCACTTGAACCCGGGAGGTGGAGGTTGCAGCGAGTCAAGGT
CACGCCAGTGTACTCCAGCCTSGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAARAAARARAAAAAGAAAAAGAAAAAGGTGTTTGGAAGCCATGTC
CCATGAATTCCAAATACAATTGAGGACTCTATAAAGGACTATAAAAAAAGTTGTAATAAATTATGCAGACCCCTCAGCAGTTGACTCACCTCTCTGGTGC
TCCAGGTATTTCTCAGCGTGTTCGGGGTCTCCCTGTGTTACCTGGACAGCTCCTGCCATCATTAGCACACAGCCAAGATTCCTCGACCACCCATGACTCT
GGATTTATCATCCTCAAGAATTGGGGGCTGTGGAAAAGATGCCAAATTTGTTCTTTTCAGATTTAGGTTCTTCTGTGATAAAAATAGACTTGGTAAAGAA
GCAGATATTTCTTTAATACGTGTATATATTAGACTGTGAATTTATTCATCTTCCTTATTCATCAYATAAGTAAATTATATGATTGGAYCCAGGCATAAAA
CGTGATTTGACTCCCCCTTGCCCATCACAGTTCTGGAGTTCACATATCATTTGTTACTTTGAAAAATGAACTTTTGTTATTTGATTATGGTGATAAATAA
TATACATGGTAGAAGGAGAAGAAAATGAAGAAAAATTTAGAAACTTGGACAGAGGAAAATGAAAATGTTCTATTAATTCCACTAGCATGAGATAATCACT
CTTAATATTTTGKTGCATGTTCTTTTCTTTCTTCTGARKGATAGCATTTTTTTCAACAAATTGGGCTCGTAATATATAGGCACATAGATATATAATTAAA
AAAACAAGAATTTCTCATGTCATTAAACATTGCTTGAAAAAACATACTAGTAATTTCCTAAGATTAYACCATGTAAATGAATTGTATTTTATGTAACCAT
TCCCTAGTGTTGGATAGCTAGGCCATTTATAATTTGGACACTATTTTAAAAAATAACTCRGGCTTATTTWACTATTTATTTTTGCCTTACACTTTTTGTA
MAAGTAATCAGAGCAGTAATAATAGATGACTCCCCAAAATCCTTTTGCCTCTAATGATTAGTCTAAGCCCATAATGCTGTGTTCCTTGCCAGTGATTGGT
TTAGAAATAGGTATGTGACCCAGTTCTGACCAATGGATATGGAGGGTGCTTATGAGGAAGGTTTCCTACTCCTAAAAGAGATACACAGGAAGAGAGAMCT
TCTGCTTCCTCTGGACACTGGCGCAGCCTGGACTAGCAGTTGSCAGCTTGGGTTTGGACAACCTCCGACCTTAGTTGAAAATGACCCTGTGTAGGACAGA
GGAGCAAGTGGAAAGAACCTGGGTGCATTGTGGCATTTTAGAGCCACTGATTCAGCTGTCCTATGGGCCTCCTAACCCGAACCTCCACTGGTCATGAAAT
AAGCTGTTAGTTTGGTGCAAAAGGAATTGCAGTTTTTGCCATTGAAAGTGATGGCCAAAACCACAGTAACTTTTAGCACCAACTTAATATTTTGAGTTGG
GTTTGAATCACGTTGTCTATTACATGCAGCAGGACACATCTCTAATCACGCGAGAGGTCTGAGCAAACGTCTTCACATTTCACACTGCAGATATTCTTAC
AAAAGGCAAAGCAGAGATCCAGAGAAATTAAGATCTGCTCAAGGTCGTATCCAGCTTTGGGAACCCCAACTATTGCAGAAATTTCTGAAGTCGTCATATT
GCTACTTAAAGCAAAATGCCTTCTCCTAAATCCAGGTAGAGAGAAACTCTCAAAGGCCAGGGTCTGGACTCAAGATGAGCACAGGATTTAGAATCAGAAA
GTGTGAGTTCAAATTGCCTTCGGCTCTTCACCTGGGTGGGCGATTTGAATAGAGCTCACAGCCCTGAAAACCCTGGTTTTCAGAYTCTTTATTGGTAAAT
GAAGTCAGCTTAGTGATATGAGAATTATGAAACATAAATCCCTTTGTAAAAATATAAAATAATCTTACAATCATCATCGTCATCCTCATCATCGTGTTCC
TTCACACCAGCGGTATTTATGGTATTTATCAACTAACTGCTGTGTACTATGCTCTATTGAAAATGTTAGCAATATAGTAATGAACAAAACAGATGTTATC
TCTACCCTTATGGTTTTTATATTTTAATAAAAGTGGCAGAAAAGAAATAGGTAAAACAATAAACTGAGCTCTTTGGAGAAGAGGCCCACGTTCTTTTCAG
ATTCTGATTTCTCCGTGATATAAATAGTTTTTTAGGTGATCACTTGTTTTTAATGTACCTACCTATCTAWACCTTTCTCTCTCTCTCTCTCTCTCTGTGT
GTATGTGTGTGTGTGTATAAAATTACATATCCAGTATGAAACCTAAAAATAAGATTTTGGGGCCTGTGAATTTTTTTAACCTTTCTTAACCTACATCCTA
ATTATTTGATTTGACATTGTGATGAAACATACTGTTGTTTTGAATTTTGGAAATAGACCAGTGATTCTTCAGTAGGGTCGTAAGGTCCCGTCAATGCAGC
AGTCAAATTTTTTCTTGGTGGGGGGGATGCATATGTGTATGTGTGTGCATGAGTATCTTGATAATTTAGAAAGATTAATTAAACATTGATCATCTATGTG
ACCACATTTAAAATGAGCACCACCACATCCAAATGTCTGAGTTTACATTTTGTGTCGGTACTTGCTTTGGCAGAACTCTGTGCCTTTCCCCAAGTCTTCT
GTGACCTTCTCACCTGGCCTGCATCCTGGTCCTTATCAACCGTATTTTACAGTTAAGGAAACTCGGCTCAAACTAGCTTCGGGGACTCGCTGTGGCCATA
GGTGCCCTAGGCTGCAGTCTGAGAGTGAAACTGAGGTCTCACTCCCTTCATASTCTGCTCTCCGTCTCTGCCTCATCTGGCTTCTCAGGGTGGTGGGGCG
TGGGCACTAATTTGATTTGATCACTTAGAGACAACAGCTTACAAAATGCTACCGAGCAGTGCCTGTCCTTTCTGAGAACTTGATATAATAACGTTGGCTT
GATCTCCTCAGCCTGTGTCTTGAGGGAACAAGTAAATTAAACAAGTAATTAGATCCATAATGTTTTTAGAAGTTAGAAGATTTAAATATATGAATCTCAT
CTGAGTGTGCAGCCTTTTGTCTGCTGTGTTTCCTGCCAAAAGATCTCTTGACAGGAAATAAACATTAAAATAATCTTTAATCCCTTGTTTGGTCTATTAC
CATTAACAATTGATGCACTTTAATTTTGTGGGGTTTTAACTACAAAATGGAACGGCTAAGTAGTGATAATTGGGTTTGGAATTATACGGTCATTTATATC
AACAGAGATGCAAGGGGCTGGGAGGGAGGGTGATTAATTATTTACTATTTCCTGGCTGTGGTTCCTATTATAGAATTTTCTGATATGTTCTTCTGTGAAC
AATTATCACCAAATGAAAGTAAACAAATCTGTGATTTGAAGCCTTATTTAGAAGTTAGTCTATATTTAGGTGATGTGGGCTTGATTTTCACAGACCCTGT
GGGCTGTCTGTGTGTGTTCCTTTTCTCAGTACCCCAGCTCTGTATTCGAGCGTGGTTATCTTTGTGCATCTTAAAATCCACAATGCACAGCCTGGGGAGA
AGCCTTGGTTTTGCCAGGGGGAAAAAAAGAAAAACACAACATTGAGTGAGGTCTAGGGTGAATGCCAAAGGTCTGTTTTGAAATGGGGGTGTGGGTTATT
CTTCTCTCTTTCTGATTTGCTTCAGTACAGTATGGGATGGGGAAGAATCAAAATTATTATGTCAACATGAGGATGAAAGTTATGCTCTGTTGTTTCTCAT
AACATTTGTGTGTGTGTGGGTGGGTGGGTGTGTGTGAAAGGTAGGATCACCTCTCTGTGCCTCAGTCTCCCCATCATCCTTCGGTGGTAGAWCAATGCTA
TCTGATGAGGCCTTTTTTGGGATCACCCACTCCAACATGCATGTCCTTTCTCTGTCCCCTCCTGGTGCCTGTATTAGTCTGTTCTCACATTGATGTAAAG
GACTACCTGAGGCTGGCTAATGTATAAAGAAAAGAGGTTTAATTGGCTCATGGTTCCGCAGGCCATACAGGAAGCCCAGTTAGGGAGGCSTAAGGAAACT
TAAAATCATGGCAGAAGATGAAAGGGAARCAGGCATGTTCTGCATGGCTGGAGTAGGAGGCAAGGAGCGAAGGAGGAGGTACTACCCACTTTTAAACAAC
CAGATCTGGTGAGAACTCACTCACTGTCATGAGAACAGCAAGGGGGAAATCAGCCCTCTGATCCAACCACCTCCCACCGGGCCCCTCCTCCAACATTGGG
GATTGCAGTTTGATGTGAAATTTTGGCTGGGACACAAATCCCAACCATATCGGCACCCACTGAGCACATCCTCGTGGATCTTCCTGGCTCTCCTTACAAG
GGGTTCCTTCCAAACCCAAGCGCCACAATCCTTAGGCAGATTGCTCTGACACAGAAGACTGGTGAGTTCTAGACTTGATGTGTTTCATGGGAAACAGGAA
GACATTTAGGGGAGGCTGTAGATACACAGCCGCTCTGTTTAGGGAAGGCTGTCGATACACCGCTGCTCTGACCATCATGGCGTCTGGTCCATGCTCAGAT
TCTGGAGTGTTAGGGTCTTCGGGCACATGGTGGATGAGCGTTTTGCTTCGTGTACTCATTTATTTCTGAAAATAATGCAGCCCCTTGTAGGGCTTTCTGG
CTAATTGAGTGGTGCCATCATTCATGCARTTGCRCAATTCACACACCAGGCTGCCACTTTGGCCCCTGCGTCACCTTCACCACCACCCAATGTGTCCTGC
TCATCACTGAGGTTTGTCATTTTTACTYTGAGWCTGTCCATTGTCATCATCTCCACCATCACCCCTTTTGTTYTCATTGCCACCCTTGCCTGGGGTGAGT
GAAGACGCTCTTCTCTGGCTTCCACCCTTCCAAATGCCCTTAACCCACAGATGGGAAGAAAATGAGGTGGGGGGAAGGGGACTTTCTTGCTTCCTCATAG
TTCTCCCCCATCCTGTAAAGGAGCCTRTGCTTCCCGACTCCCAGGGCCCTGCAGCATGTCAAGAACAATATTGGACAAGCTTGTCAGTGAGGGTCCAGGT
GGTTCCCTGCCACTACGATGCATGCTGGGGTCAGTAAAAGGAGAACACAGAAGAATCAGCAGACCCAGAGTCTAACCCCTCCTCTAGTTAAAGACGTGAC
CCTGGCCGGGACTGAAGCCAGAGGCCCACAGCCTACTGGACCTTTGTTTCTTGCAGTCAGGTTCTGATGACAGATTTTAGTCCCCTCTTGAATTTCCTTG
GATGTGATGGAAGTGATTCTCAGTGGACAAGAGGTCACATTGCCTTTTCTAGCTTGGAAGGTGGCGCAAATAACTGCTTGAGGCTCCCTCTCTTGGGCCA
AGCTTGACTCTGGATTTTCATTGKTGTCCTTTTTTATTAAAACAGGTTTTGKTTTTTTGTGTGTGTGTTATTTTGTTTTTTGTTTTTTTGTTTTTCGGGG
GCTGGAGTAGTGTGCARAGCCTGGCGGTGATTGTTCTCATTARAAAGTATAGTGTAATACTCAATAAATTACTTTTGTTCTCACCTTGGGAAGTGGACTM
AGAGGCCAAGTGACTTTGATTTTTCACTTTATCCTGGAGTTTCTCAACCTTGGCACTATTGACATTTTARGCCAGGAGATTCTTKGTTGGGGGGGATTTC
CTGTGAGTTACAAGACATTAAGCAACATCACTGGCCTCTACCCACTAGATGCCAGTAGCATCTTCTATTTCCTCAAGTCTCAAAATACCAAAAACATTTG
TAGATACTGCCAGATACCCCTGGGGAACAAAATCACCCCTGGATGAGAACCCCTGCTTTATCCTCTTACAGTTTTGGTTCTTTCCATGAGAAAGTATTTT
TAATAGCAAAGTAATGAACAAGAAAGTATTAATAAGACCCAAATAATAATATAAACTACTMCTTTACTAATGGTCATTATGTGCCATGCCCTGCTCTAAA
CACTTGCCATGTAGTCACTAATTTAATCCTCACAAGAATTCTGTAATGTAGTGTAGTTTCCCAGGGCTTCCTTGAAAACGTGCCATAGACTAGATAGCTT
GAAACAACAGAGATTTATTCTCTCACAGTTTTGGAGGCCAGACACCTGACATCGAGGTGTTGGCAGAGTTGGTTCCTCCCGGGGCTCTCAGTGAAAGCCT
GCTCCGTGCCTCTCCTCCAGCCTCTGGTGGCTGCCATTAATCCTTGACATTCGTCGGCTTGTGGCAGCAGAACCCCAGTCTCCGCCTCCGCCTTCACATG
GCCATCTTCACTCTCTGTCTTTGCTCCCTTTTCCTATAGGGACTCAAGTCATTGGATTTAGGGCTCACTGGAATCCAGGATGACCTCATTTTACCTTAAC
AAGTTGCATCTGTGAAGATTCCATTTCTAAATAAGATCACATGCTAGGGCTGGGCACGGTGGCTCATGCCTGTAATCCCAGAATTTTGGGAGGCCGAGGC
AGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAAAATGGCAAAACCCCTTCTCTATTAAAAATACAAAAATTAGCCAGGTATGGTGGTGC
GTGCCTGTAGTCCTAGCTACTTGGGAGGCTGAGGCAGAAGAATCCCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCA
GCCTGGGCAATAGAGTGAGAATCCGTCTCAAAAAAAAACAAACAAACAAACAAAAAAAAAACAAAACACATGCTGGTGCACACATAAATTTGGAAGAAAT
GCTCTTTAACCCAGTATGAGCACGTGGTATTCTTATCCTCATTTTACAGATGAGGAAATTGAGGCACAGACAGATTCAATAACTACGTGACTCACAGAGA
TAACCGTGTAGCAGAATCAGGAATTCAGCCCAGTTTTTTCAGTTGCACAGCCTGAGCTCCTAACCATCGCGCCTGGGGTTCTCAAAGGCTCGTCCCCAAG
CGACAACATCAGGGTCATCTGGGAACTTGTTAGATGTGCTCACCCTCAGGCTCGCCCCACCCCGCCAGACTTCCTGAACCAGAAACTCTGGGAGTAGGGC
TCAGCAATCTAGTTTTAGCCCTCCAGGGGATTCTGTGGTGCCTAAAGTTTGAGAACTTCTGATCAAAAATGCCAGATAAGAAAAAAAAACCTTTCGAGAC
ATCATTTGAATCAATTATCAAATGTTTCCAAAGTGCRCTTGCTTTGCAAACCACTGTACTACTCATCTCTGCCTCCATCGGAGCGAGTTCAGGAGAGTTG
TGTTTACTTTTCTAAAGGAGCCTTTTCCTTCCCATTTTACCAGTGCCCAAAAGTCTTAGAAAAATGACAATGTTCATATATTTGCCCACATGAAGATAGA
AAGTGTCATGTCAAAGATAAAGGGAGAACAGCATTTTCTTTTTTTACAAGTCACTCTTACTTAAACACACAGCATGACTCTCCTTACACATTTATTTCRG
AAGAGCAAAGTCCGGGTCCCCAGGCTCAACTATCAGCCGCCTTCTCATCCCAASGGCTGTCACCACCAGAAATTTAACATGCTGTTAGTGCATGCAAAAA
AAAGCCCAGTAATTGTAGSGCTCATCAGTACATTGTTAATTGATCCTCATTTCCTATTATTTTACCTCAAAGCMAACACATCATTCACCATAGTGACACC
AGAGTTGTTTATCTTCTCTGTGCAAGTGTGTGCTCTTTTTAGCAAGCTTTTTGGATCCTCTGTTTCAGAGGGCCTTTCCCATCTGTTTACTATTGTGGAC
TGTGCTGCTTTTTTTGTTTTTAATTACAGGTTATATAAAATATTGTCAGCAGGAGGGAGGTTATTATTACCTTAAAGAATAAGTGGTAGATGCGGACTGG
CCACTGTGAGCCCATCACTAAAATGCACTTCCGTACACTAAAGGTCCCTCTTCCCTGGCAGACAGTGGTTCATTTTATTTGAGGAGGTATGTTGTGGGCT
TGGGGAAACAGAAGGAAATTGGAGACATTGATATGCTTCCTGAGAGGTGGAAGGGGCCACTTAACACAGCTTTCATTTTTCAGTTGCCARTGGGAGAGGA
GCTGGGGTGGGCATATAATGAGTAACATTCAAAGCTCCTTCTGTCTTTTTTTCAGAGAATTCACAAAACAACTCAGGGCCTCCTGGTCCTGCAAAAGTGT
TTACTGTTTATTTGTGTTGTTTCTGCTTGTTTTGCTTGCCACCAGCTCCCTACTCACTTGGGGGAAAATAACCCATCAAAGGAATAGAAGCTCAGGATAA
ACGTTTCAGACCTTTCAGTAAGATAGTAAAATTTCTTTCATTCCCAGACCTCTCTCCAAAAGAGGCAGCCATCATTAAAAGTTTGTTATGGATTCTTCCA
GAAACGTTCTATGCATTTAGCATCAGTTGCAGATATGGATAGCCTTTTCAAAAAATGCATGCAACTGAGACTATTGGCTATGTTTTGTTTATTACCTACT
TTTTCCATTTAATAGTATCTTGGAGATTATTTGGTACCAGCACATGTAGCTCAACCTCCTAATACTGCATGACGGATAATATGCCATCACATGGTGTCAT
TTAATATATTCATTCCTATTTATAGACATTGAAGTTAGATCCATGTCTTACTATYACACATGACTTAGTAATGAATGTTCCTGCATGTATATTTGGTCTG
CTTGAGCAAGGATATTGGGAGGGAGGATTTCCAGCAGCAGAAGTGGTGGAACAAAGGCACTGTGTACACCTTTGAAACAATTAACTTCACCAAAATTACT
AAACTGTCCTCTAGAATGGTTAAACCAATTTCCTCTCTWCCATTCACACGTGAGAATGCCTGTGGCCCCCCAGAAATTATCTCCAGCAGCAGCAACAGAG
AGGACTGGAATGCCATTGACAGGTCCCACAAGTCAGCAATCAGCACGCCATTTTTTAAAATTWATGTTGCTATTGTATCGTAAGGTTCTTCTGAAGCGAC
CACTTCATAACACTGTGTAGTCCAATCCCTAAGCTGGGCAATTTTTTTTTCCCCTTTCAAWACATCACATTGATTTTCTGTATGACTTTATCTGCTTAAT
ACAAAGTGGGATTGAACAGTTATTTGTCTGGATTTGATCATTCCTTATTAAACATTTATGATTTAGCTTTCACCGCGGCATCTTCTTGTAAGGTGTTTCT
TATTTTTATCATTTTCCGTAAAGGTAGGATTGTGTTGACAGCCCTGTAATAAATGTCTCTTGGAAGAGATGTGTTGCTGARAGGTGGGGARGGGGTGGGG
GCTCTGTGCATGGAATGGGGGGAAAAGCTTCAGGGAAGGGCAGTGCAAATTGTTTCTGGACTGATGCCATCTYYTAATAATAGTAGTTAATAGACTGGGT
ACAATGGCTGACGCCCGTAATCCCAGYGCTTTGAGAGGCCGAGGCCGGTGTATCGCCTGAGTCCAGGAGTTAGAGACCAGCCTGGGCAAACAGCCTGARG
CAAAACCTCATCTCTACAAAAAATACAAAAAATCAGCTGGGCGTGGTGATATGCATCTGTGGTCTGAGCTACTCAGGAGGATAAGGTGGGAGGATCATTT
GAGCCCGGTAGATGGAGGTTGCAATGAACCGAGATTGTGCCACTGCACTCCAGCCTGGATGATAGAGCGAGACCATGTCTCAAAATAATGATAATAATTG
TAGTAGTAGTAGTGGTGGTGGTGGTGGTGGTAGTAGTASTAGTGAATGCCCTGACTTTGGGGTTTGCAGTAAGCTAGGATTAAGTGCTTCACAGTGAGGC
ACAGTGGGGAGCTACTCTGAGGATGAAWTGCCTARTAAATAARKGAGGTTTGTATAACCGAGGCCAGATCTTAGAACCTCCTGCTATCTGTACATAGAAG
AATGTTTTAGTCAGAGGCAAGGCAAGGTCACCAGGATTCACTGAGAGTGTTGGTCAGCATTTCATCTGCATATACAGGACTGGAAAATAAGAGAGCGYAA
TGAGACATCTAGTTTTTTTCTCTTTCGTTTGTTCTGTTTCCCACTGAGAGAATTTTCTAGCTTTATGTGGAGAAAACAGTATTGGAAATTATTACTCAGT
TCAAGAAAACCTCACTGAGCACCTACCATGTAGGTGCTCATCCCGATACCACTATCAGGMCCTTTGGACCAGTTGCAAGGATGCAGGATGAGGAAGGCAA
TGTGAGAAAACAGAAGGAGCACCAGGCAGTCGTGGGCTTGATTTTTATTTTACTATTTTTTAAAAAACATAAAACAACATACATTCATCATTTTGCTTTC
TTTGGATGAAGAATTGAGCCTGGTTCAGCATCTCTTGCAGGCTGTAATTGAGGGTGGTCATTGACTGGGGCTGGATTCGGGAAGGATCCACTTCCAAGCT
GCACAGTTGTTGGCAAGATGTAGTGTTTTGGTGGTTCCTGGGCTCTGGGACTCAGCTTTTTGGCTGTTGGTTGTTGGCTGTTGCCACATGGGCCTCTGCA
AAAGGCAGCTTGTAACGTGGCAGCTGACTTTTGTCCAAGTGAGAAGGTGAGAGTGCAAGAATTGGTGAGAGAGACCGCAGCCAGGGTGTTTTTTTAACTT
AATCTTGGAAGTCACATCCTATCGCTTTGGTTTTTTGACTGAGATTATTCAGTACTGCAATAGTCTCCCTTTAAAGTGGACAATTCATTGGCTTATCGTA
TAGTCACAAACTTGTGCAGACATCACCACTATCTAATTTCAGAACATTTTTATCACCCCTAAAAGAAACCCTGTACCCTTCAGCCAGCATTCCCTATTTT
ATACCCCCGATCTCTTGACAACTACTCATTGACTTTGTTTCTATGACTTTACCTATTTCGGGTAATTGATATAAATGGAATCATACAATACGTGGCCAAC
TGACTTCTTTCATTTAATGTTTTCAAGGTTTGTGTTATTTCRTGTATTAATATTATGTTGGTGCAATCACTTTTGAACCAATCTAACTAATACTTCATCC
CCTTGTATGGCCAAATAATATTCTATTCTATCAATATATTATACTTTGTTTATCCATTCACAGTTCATGTCATTCCCACTTTCTGGCTATTATGAATAAT
ACTGCGATATGAACATCTGGTTACTTCTGGCTCTTATGGGTAACACTTCTATAAGCGTTGCCACAGGTTGCTTCTGATTTCTATTATGAGTAATGCTGCT
ATGAACATTCATATACAAGTTTTAGGGCAGACTTCTATTTTCATTCCAATATCTCTTTATGGCATGTCTTAGCAGTGATGTCTATGACATCCAGGATGTG
TCTTGACATGTCTGACATCATTTAAATAAAAATAAAGTAGGGAAAGAAAACAGATAGTGATTGTGTGTGTGATCAGTGATGGCTTTTGAGGAGGTGACAT
TTGAACTACACCCTGAATGAAGAGAGCCATGCAAAGACCTCAGCAAAGAAAATCTCAAGCACAGGTGCAGCAAGTGCAAAGGCCCTGGGGTGGAAACACA
CTCGATGTGTTCAAGGGAGAGTAAGTGGTGAATGGGTTTGGAGCCAACARGGATAATAGACAACGCTATCAAGARGGGGSCCAACCACACATGTGCAGCC
ACTGTATGACGTCTGGATTTTCCTTGASTTATGGTGATCACTATTGGGAGGTGGTAAGCAAACAGGTGACATAATTTGAATCATGGKTTTAAAAGACGCC
ATGGTTGCCATGAGGAGGACAATGCGTAGGAGGCAGGAGTGAAAGCTAAAGGATATGCTGGGAGGTGACCCTGGAGTTAAAGARAGCAACTAAGGTGACC
AGGTGACAATAATGGAGATAGAGAAAACAGGATGGATTCAGGAAACATGACCACACTGAGCATATTCAAATGTAATTGTCAGTTTTCGTGTCTCCCTCCC
ACKGGACCACAAGCCCCTAACTCTTCATGTACACACCCTGACTCCCAGTGTGGGCTGGCCACCCAGGAGGCACCCAGTYTATGTGTGCTGCGTGAGTGAT
GTGGAATGACTGCCCACGTAGGAAGTGGCAGGTTGGAGAAAAAGCAGTCACAGCTCCTGGCTGCTGTGGCTGCTTTGAGCTTCTTCCTCGATCAGGCTGG
ATCATTACCAGCCTGTACCCTCAAAGGATGCCCTTAGTCCTGTCCCCTCTCACTAGCAGGGATTCCAAGCTTGTAAATAAAGTCTCCCACTTAAAATGTG
AGCAGAGTGAAGAGCTGGCAGTGTCAAAACTCTGTGTCCAGATGTTTTATGATTTTCCCTTTTCCAGATGAGCCCGGTGTATCCGTATCAGTGTGTCTAG
GAAGACCAAGCATGCCGAACGGCCAGCAGAGTAGAAACTCTGTGTGCCCATCCATTATGTACTCCCTGAATTAGGCTCCTTGAGGCTCAATTATTAAAGT
GGGATTTTTCTTAATTATTAACAGTTAAAAATAGGAAAATAGATTTCAAGGGGAAAAAATTTGCAGGCAACAAGAGTCCAATTCTAAATGTGTGCATGTG
CGTAAAACGGAATTTGCCAAACATGAATAGGCACTTACAATGTGACTGGAATTGGCTCTGTCATGTGTCAGCCTAATAGCCTAAACCCTGGTTCAATACA
ATGAACTTGGGAAGGTTTGCTTAATGAAAGAACTGACGTTTTCTGTGCAGCGGCTGCATTCATCAGCCTGCATCCTGTTCATTACACTACAAAGGGCTGC
CAATGGGAATTGGTAGGATCATCTATTAGGTAAATGCGATGGGGACAAAAGATAGCAGAGCCCGGGGCTTTGTGGAATTTTCTGTGGTGGTCCGGGTTCC
TGGAGTAGGGAGCTGTGATGACGGGCAACAGATTTCCAAGTTGGCACGCGGGCTTCTGGAGTCACGGGCTGAATTCCGGCACTGCCACATCTTGCCACGC
ACATCCTAAGGGAGTGTAGAGAAGAGAGTTTTCAGTTATGCATGACACTGCCTTACCCATTGTGGATTCAGTAGGGATATTCATAACTGTGAATTTGAAT
ATAACTATTAAATAATTGAATTATTATTATTGAGTTACTGAATATAACTATTGAGTTTTCCCTCTCCATCTGGGCACATGGGAAGGCCGTACTTTCCTGA
CATGTGATTTGCTGTGGCGAGTGGAATCTGGGGGCAAGAGACGTGTGTCTCCTTGAGGCAGAAACTTTAACAGATTCCAGCCTGCTGCATCATAATCTCC
TTTCCCTCTACCACGCTGACTGGCAGTATTCCAGATTCCGATTGCCCTGTCAGGGTGGGTCCTAGTGGTAGGACAAAAGCAAGAATCCTGAGCTGACCCA
AGACACACATGGAAACATTAATTGTGCTTCTCTGATGTGGCTTTAAGATACTTGCTCTGTCGCCCAGGCTGTAGTGTAGTGATTCCATCTCAGCTCACTG
CAACCTCCACCTCCTGGGTTCGAGTGATTCTCCTACCTCAGACTCTCAAGTAGCTGGGATTACAGGCATGCACCACCATGCCCGGCTAATTTTTGTATTT
TTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACTTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGCTCTGGGATTACAG
ACGTGAGCCGCTGCGCCTGGCCAAGATACTGAGATGTGGGGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAACACTCTGGGAGGCTAAGGCTGGAGGA
TTGCTTGAAGCCAGGAGTTTGAGAATAGCCTGGTTAACATAGTGAGAGCCCCATGTTTCTAAAAATTTAAAAAAATTAGCCGAGTGTGGTGGTGTGCCAC
AGTAGTCCCAGCTACTCAGGAGGCTAAGGCAGGGGGATTGTTGGAGCCCGGGAGGTCAAGGCTGTATAGTAAACTGTGATCCTGCCACTGCACTCTAGCC
TGGGTGACAGAGCAAGACACTGTCTCTTTAAAAATAAATAAATAAATTAAAAAGACACTGAGATTTGGGGGTTACTTGTAACTGTGTCATAACCTGGCTC
CTTACTGCCATCGGCATGCCTAGAGGGATCCCAGTTTTACACATCAGAACAACCCAAGCCCCAGTGTGTCACGCCATTACATGCTTACAGCCTATTTTTA
CAAAGTTTGAATATTGTAATTTGCCTTTAAAAAATTGTTTTAAAGATCTGCCTAGGTCARCAAATTTTATTTACTCTCTAGAACCATTTGATTGGGGTAC
TGCCTTAAGAAATAAAGCAGATTCCTTCAGTCGCATGTGGGCCTGGAGTCACTGGAAAATGCAGACAAAACAAGATCTGCTGATTGGCAAGGTCATCTTG
GGAAGGGCCATCGTGCAGTAAAGAGCAGGTCCATTAATTCAGGGGGGATTTACATCAGTTCCATCTGCCTCTTTCCTAATGGGACTGTTTGGTTGTGTTC
TTTCCTGGAGAGATTAGTGATTGAAAGGAGGAGATCTAGAAAGAAGAGATAAAAGTTTACATTTAATTTTCATGCCATGCAGCGTTCTACGAAGGCTTCC
TAAGGAGGCTCCATACTAAATTCAGACATAAGTCAGAAGGCAGCTTCTCCCAAGACACTGTTGATGTCCAGGGGGTGACAGTTCCATCACAAAAGGGGGT
TAAAAGGGTTTAGGGGAAGTTTAGTTGTCTTCCTTTTATCTCTAACTCTAAAACCCAACTGCTGGCTGAATTAAAAGTCTCTTACATAATGRTCAGAGGA
GTTTTGAGTATCGGATCTTTGTGTACTTGYTTTTTAAATTCAGTCACGTCTTAAATAGTACTTTTCACTCTCCTCCTCTCCACACCACTTTATGTGTTTG
CTAGTAGCTTCCATGAAACTCTATGGGTGAACATGTCTGCAACTCTTTGGCATTTAAATTTTAGGTTTCTGCCCCTCGTAGCAGACTATCTTTCTAGAAG
CAGAGCTGTAAGTCTCTTTTAACACCATTTTCAAGCTTGGACAGGCTGACATTTTTATTGAATGGGTTATCTCAATATATATCTACTTTTTTGCATCCTA
CTTTTTTTAGAAAATTAAAAATGATATGATGGGTGTGGTGGCTCACGCCTGTATTCCCAACACTTTGGGAGGCCGAGGCGGGTGGATCACAAGGTCAGGA
GTTCAAGACCATCCTGGTTAACACGGTGAAACCCTGTCTCTACTAAAAAGTACAAAAAATTAGCCAGGCGTGGTGGCAGGCACCTGTAGTCCCAGCTACT
CGGGAGACTGAGGCAGGAGAATGGCATGAACCTGGGAGGCAGAGGTAGCAGTGAGCCAAGATCGTGCCACTGCATCCCAGCCTGGGCGACAGAGTGAGAC
TCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGATAATGATGAAAATAATAGAATATTGATGAGAACACCCATTACTCTGCTCATTGTTCAAATGAACTCAT
TTGAGAGCTCTCTCCTTTGTTTCTGTCTTTCTCTCGCATCAGCTTGCATCTGTTTGCCTATGCTATAAGGCATCAGTGGTTACCAGGCAGTGTTGCATTT
TTTCCATCCCATACCTCTGTGTGTGTTCCTTATCTGTTTCTAGGATGTGCCCTCTGCCCCGTCACATCACAYTCTGTGCTGCTCTCAGCCAAAGCTCTTC
TTAAATACACTAGCCATCAAAACCATACAACTTGGCTGGGTGCGGTGGCTCACACCTGTAATCTTAGCATTTTGAGAGGCCGAGGCGGGTGGATCACTTG
AGGTCAGGAATTCAAGACCAGCCTGGCCACCATGGTGAAGCCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGCTGTGGTGGCACATGCCTGTAATCC
CAGCTACTCGGGAGGCTGGGACAGRAGAACCACTGGAACCTGGGAAGCGGAGGTTGCAGTCAGCCGAGATCTATGCCATTGCACTCCAGCCTGTGTGACA
GAGCAAGACTTTGTCTCAAACAAACAAACAAAAAACATACAACTTAACTCTCATACCCCCACGCCTGTCTTTTCTCCTGTTCGACTTGACTCCTCTTGGG
AATTCCGTAAGTACTTTGAGGGCAAGGACCACAAGATAAATGTCGTAAGGTAACCAGGAATGACATTCCAAGATTCCATTCTTTCCTTTGTATATCCACT
CATCATTCATTATATTCTTACTCTGGGCTAGGCCCTGGGAACAGTTGAGTAAGAACAAGCAGGAACAAACAATTAGAACATTTAGTGTGGCAAGGGGCGT
GACAAAGTTACCAAGAGAGGTAGGTGAGAGACAGGAGTTGTTATCTGCGGGGAACAGGTGAAGGAGTGACAGCAGGGGGTGAGGATAAGAAGGAGGAAGC
TTTACCCCTGAGAAGAGCAGGCATCAGATGGGCTTTGGAATCTACATGGGTGTTTGTAGGTAGACCAYCCTGGAAGTTGAGTGATGGGGAATAAARGGAA
GAAAGTGCATTCTGAACAGAGGGAATAGCAGGTACAGCAGCTCAGACATGGGCACCTTCAGAGCGTGTCTGAGTCTTCCTGATGAGACACGTGGTGTTCA
CTTGATAACTCCCTGGCAGGTTCTCTTCATCGGGCCTCCACATAGGGTATGCGAACCTCTTCATGTTTTTAAAAGGGAGAGATTTAATAAAGGCAATTTG
GKACTTAAAAATTGTTAGAAGAGCTAAAAGAGTAGTTTTGAGGTTGACCTTCAGAACGGCTTCCTGAATAATACAGAAGTGACCCTCCAGGAAGGCCCTT
CCACTGAAGCTACAACTGGAGCTAAGCAGATGGATAAGCCAAAACCACCTCCGTTGCTGTGGCCCCATCTCCACCACAAGGAAGCTGRAGAAGGGACCCC
AGAACCGGAAGACAAAAAACTTCCTTCACACACTCCCTTGCTAAGAGGAGAAGCCCCAAAGAAGCTGGATATGGCCCTTCCCTCACATTTGCTGTCCCAA
GTGTCCCATGGCAGTGCCTAAGCAATTGGTGGGATGGATTTGTGTCTATAAACAAAGTTGCAAGGGAGTCTGGAAAGGGAGTTTTAACTCCAACTTCTTC
AACTAGAATGGTAGGATCCAGGGGCAGCATTGCTCCCCAGGGGATGTTTTTACAATGTCTGGGATATTTTTTAGTTGTCAGAACTGGAAGCAGGAAGAAG
TGCTACTGTCATCTAATGGGTCAAGGCCAGTGATGGTGCTGACTATCCTACAATCCATAGGACAGTACCTACCACAAAGAGTTACCTACCCCCAAAATGT
CAACGTGCCCAGGTTGAGAAACGTGACCTAGCTGGAAGGTGAACAGGAACTAAATGAGTCAGTTTCAGATATCCAACACAAATACGTCACTTGTTTCTGT
TCCAAAAGTATTATAATTTTTGTTTGAGCTAAAAACTAGTTACAGTTCATTGGATAATTGCCTTTCATCCCTTCAATATGTGTTCCCTTGAAATTTGCAT
CCATGCATCCCACATGGCACCCCTATTGATTATTTCAGTGACTCAGAAGACTTCATTATTCAAAATAATCTCTAATAAGATGTTTAGGGAGAAGGAAAAA
TAAAGTTTCTCTCCACGTTACGTTTTTTTCTTGCACATGTACTGCTTTTTCATAAGCACAATCTTATTAATAGAACAAGTCCTCTCAAAATGGTTGCCTT
TTCTCCCTTCATCCTCCCCCACCAGTAATGTAGAGCTGTTATTTGGCTCGTTTTTCTTTTTCCTCCAGAGGCAGGAAGAGGGAATGAATGGTGGCCAAGA
ATTTTAAATTCCTGTTCCCGGCCGCCCCCGGAAGCTCCATCTTTGTTGTGAGGGCTTCTCTGCGTCAGTAGAGGCCAGCTGAGCTCTTATTCACCCCTTA
TTCTCTGGTTCCCTTTCACCAGCAGGTCCAGCTCTAACCACAGCTGGAGTTTAGGAAGGCCAGGCAGCGTGTGTTGAATGCCAGCCACTCTTCTACCCAG
GGTCATATCCTTGGATGTTTTTCTGTGCATCTGTCTTTYCCGACCCTCCCGTGATTCTGGAAGGAAACACCTTTCCAAGCTCCCCAGTGACCCTGGTTCA
TCCCGGAAATATGCAGGAAAAGCATTATGAGCATTGCAGTGCCACATGCTGCATTGGTGTGTTACGTTATGAGAACTATTAGGGCTGATCTCTGAGAAAC
TTACCAGTGGTGTGTGATCGGAAATCATGTCACCCTCTGAATGTGGGTTATGGGATAAATGGCTAGGTACACAGGCTTCAGAGTCCAGCCAGCCCCAGGT
TTGGATTACAGATGGTTGCTGTACTAGATGAATAATGTCCCCCCAAATTCGTGTCTATCTGGAACCTCAGAATGTGACCTCATTTGGAAATAAGGCCTTT
TTAATTAAAAAAAAWTTTTTATTTAAAAAACAGAGATAGAGTCTTGCCATCTTGCCCAGGCTAGTCTCAAACTGTTGGGCTGAAGCAGTTCTCCTGCTTT
GACCTCCTAAAGTGCTGGGATTACAGACATGAGCCACTCCACCTACCCAGAAATAAGGTCTTTATAGATGTAACTGAAATAAAGATAGAGATGTGAATGT
GATCGTACTGGTTTAGGGTGGGCCCTACATCCAATAAGAATGTCCTTAGCAGAGACAGAACAGAGACACCGAGAGAGGAAGGTGATGCCAAGACAGAAGT
AAAGATTGGAGTGGTGCCATCTACCAGCCAAGGAATGCCAAGGCTGTGGCTACACCAGAAGCTGGAACAGAGCCTGCAAGCATTTCTCCTGCAGAACCCC
CAGAAGGGACTCAGCCTGCAGACACTCAGATTTCAAACCTCTGGCTTCCTGAACTGTGAAAGAATRAATTGCTGTTGGGCCAGGTACAGTGGCTCATGCC
TGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACTTCAACCCAGGAGTTCGAGACCAGCCTGGGCAACAAGGCGAGACCCCGTCTCTACAAAA
AATACCAAAAAATGAGCYGGGTGTGGTGGGGCATGCCTGTAGTCCCAGCTACTTGGGAGGCTGGGATGGAAGCATCATTTGAGCCTGGGAGGTGGAGGTT
GCCGTCAGCTGAGATTGTGCCACTGCACTCCGGCCTGGGTGATAGCATGAGACTGTGTCTCAAAAATTAAAAAATAAAACATAAATAAATTTCTATTGTT
TTAAGACAATTTGCCTGTGGCCCTAGGAAACCAGTATAGAYAACTTGTGATGGTTTAGCTTATTTAGTACAACAACCCTGCCCCTTCTAGTTTTTATGAT
AACCTCATTAATTGCCGGTACTCTCAGAGCCCTGATTTTCTTACCTATAAAGTAGAGATTCCCTATCTCATTTGGAGGTGATTTTAAGGCACAAATGAGA
CAGTGTATGTAAAGCATTTGGCATAGTGCCTGATTCAGAGTAAGTGACCAATAAATAGCTACCCTTACTATTTAGAATGCTATTATTTAGAACATAAGTA
TATTTAAGAAAGCACCATCAGTATTCAATTTGCCTTGCTAATAAAAAGGGATCAAGATATGGATTGTAAAGTAGAAAAATACATGTCAATTAAATGGATT
TACATCTTAAAAAGTGGTGAGGTAGACACACAGGCACTACTCACTTCATTCCTTCTCATCTCAACCCGTTAGGATTTGGCCTTCAACTGGGTAGTGGAAA
AAATATGATCCTTGGCAGTCTACTACGCAAAAGCAGGAACATCATCTGCTTTTGGGTAGTTAAGAGTTAAGTATCACTTTGAGCTACAGGATCATGATTA
AAAAGCATTCTGTTATCTTACTTCACAACTCTCCACTTTTGTAAAAGTTTAGGATACCGGCAGGGCAGCAAATACCTTTAAATGATTTTATTTAAATGTC
AGATTTAATTAAATCCATGACCAGAAGACAAACCCAAAGGAAATTTTCAGGGAGCTTTAGAATTTTCCTTTTCCATGTTCAAGGTGATAACCGTAGCATA
AAACTGTCCCAACCACATGCAAATGCAAGCAGGGGCATTCATCATGAAAATACAGCTCTCAAGGCGGAAGTGCTTGTTAACTTTGCACTCTATAGCCAAG
TGCGATGATCAGAAAATACATACATTGAAGACACCAGAAAATAGTGTATGGATTGGTGATTTTGACTAARACTGGAATGTGGGTGTGTGCACTCCTCATG
TTCCGGTTTCTGTGATCATTCAGGCATGCACAGGTATCCTGATGGGTARCCAGGTCATTAGGMCCARAGTCGGCAGTGTAGCATGGCAAGAGAAGTCATT
GCATCTCCAAACTGTGCCTAAATTGCCTGTAATGGGTTCTTTGCAACTTGCAGAACCAGATCTTACCATTTGCAAGGAGAATAGCTGAAAAGATACTTAA
ATAAAAGTGATCGGATGAAATTTTAAAAACGGGAATGACCAAAAAGATTCCCAGAGGACCGTTACTGGTCTGCAGCCCCCCATTTTAGGGTCTGGCATTT
GTACTGATTATGGCCTGACAGCTCTTGAGTTTCCAATGATAACAGCCATCTGACTTGATCGGAGTTCTATGGATTTTCACTAAAATAGAATCATCGCCTT
GGTGATGGATAGAAAAAGTAAAGCAATACATCCTGATAAATGCTGTGCCTTCCTCCTTCGTCTCYCTGGCGGTGACCTTGTGCAATCCATAAGAGGGCAA
GGCTGAGAGCCCCGGCCACCGCCGCCGTGTGTCAGAACTTGGAAATTTAAGTAGCTTTGAAACCCGTCAATGGGGTGAAGGGGGAATGGCCTGAGAAAGC
AATGGATCATGCTTAGAGGGCTCAGAGGGAAATAGGGTACGCTGAAGGTCAACGTGCAGACATGTCCTGAAGGAACAGCTCAAGTCCTCATTCTCATTCA
CGGGAGGCTGCGGCCCTGTGAGGTGAGATCAGTAGAAGAGTACAATAAAACAGGAATTTTCAGAGCATGTAATTTCTTCTTGGAAGTGAAAGGCACTGGA
GAATGGTGCAGAATAAGYACTAGCCTTAGAGAGAGGATGCCCTGCCCCAGTCTCTTTCTCTGAGTAGCAGAGAGCTGGCTGTGCTAGGAAACTCTTCGCC
TCTCTAACACCACGTTTATTCTCCAGCCCAGTTATCTTAGCCAACTGTGAACATTTTGAACACTGTTGATCATCGGTAATGACACCAGCACCATAACACG
AAACCCCTCTAAAACAGGGCTTCCAGGAAACTCACAGACTAGTTACATCCCCAAGCCTTGCATACTTGATTGGAAAGAGAAGCTTCTGGATGGTTGAAGG
GGAAAGGAGTTAGACGTTGGCAGGCACCCATTAGTGTTGGTTACGACTTGCTAAAAGAAAATATTAAGATAAAAATTAGATCATAAATTTGGAGCCACCA
TTACGAAGCCTAAAGTGCAAATTGCCAAACAAGTCAAGAGACTCATTAGCATTTTATGTAAATCAGTTATTACTGTTCTCCACTTCCTTAATTATCCATG
TTATTTCAATACAACCCTTTCTTTGATGTCCCAATTCTATATTTAAATAGTGCAAGATTTCTATCGTATCCTCCCGCAGAGGTTTGTGCCATGCAAAAAA
CATGCCAAGAGCAGCTATTTTAGAGACTACAGGGAAATGTTTAATTGGTTCATCCCATTTGAGTTATGAGGGTGTATTACTGAGCACATAAAATCAGAAA
CATGGAAAGTACTAGCTTGGAGAAGTTTACTAAAACCTGCAAGAGACCGCTTGAAATTTTGCCCCCAAGACTTTTTGGATTCTCGATGGGAACCGACTCA
AAGAGAAATTTCGCAAACTTCATGGAATTTTGCTAAGTGATTGATTTATAATTGAAATATTTGGAAATAAAATCCAACAGCTCTCTTTCCTTTGGCTCAG
AGACTTATTGTTTTGGTTGGATGAAGAGAACACTTGTGACAGAGGGAGGAACATAGGGTGCATAAGAGAGATGTGGGGAAGCACTCCCCATCCAACTCGT
TCCAACCAGTTCATCTTTTTTTTTTTTTTTTCTTTTTTCGAGAAAGAGTTTTGCTCTTTTCCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGC
AACCTCTCCCTTCCAAGTTCAAGCAATTGTCCTGCCTCAGCCTCCTGAGTAGCTGGAACTACAGGCGTCCGCCACCATGCCCAGCTAATTTTTGTATTTT
TAGTAGAGATGGGGTTTCACCATGTTAGCCAGGCTGGTCTCAAACTCCTGACGTCAGGTGATCCACCCTCCTCAGCCTCCCAAAGTGCTGAGATTACAGG
CTTGAGCCACAGCACCCAGCCAGAACTTCATAGTTTACTCTTATTATTTTCTCCTAACCACTAGGTTCCACACTTCTGGCCACCTGCCTTTATCTCCTGC
CCCATAACCTAACCTGTTTTAAAATACTTATTAAACAAAGAAAAATAAACAAGAACAAATGGAGAATCTTTCACTATGACTGCAACTGAAAAGAGGAGTA
ATGGAAGGACATGTACTCTTCCCATATATTTTTAAACAATTACTGKATCTGATTTTTCATTTTTCATTTTTTTTTTTTCTGGAAGAAAGAGCAGATCTGG
ATAAAGTCAGTATACAATGTGGTCTTTGGTGMCAGACCCAAGTTCAAGACCAAGGTGTATGCATGGGTTTGTTCAAGTTGTCTACCCTTATTATCCCCTC
AGTGAAACATGATTAACCATGCTTACCTTGAAGAGTTATCTTAAATATTTGTGTTAATATTATATATGTACATTACATGGTAAGTGCTAAGTAAATGGTA
CATGTGAGTCTTTGCTCTAGGCAAGGCGCTGTGCTGAATGTTTACATAGATGATCGGATCCTCATATTGGATCCTCAAAACGTTCATCAAAATGGGTAGG
ATTATTTTTATGTATATTTAACAGGTAAGGAAAATGGGGTTTCTGGAGGTGAGTGACTCACTCAAGATCACGTGGAATCAAGCAGAGAAGCTGGGGTTTT
AATTCAGAAGTTCTTTAAGCTACAGCTGTAATTGAGACAAGAACCGTACACTGTAGTAAGATTAATGTAAAGATTTAAAAAACTGTTCATATCGTTCATC
TACATAAATAAATAATATTTACAGAAACTCATCTCTGCAGACTAAAGTACTTTAAATATTTAATCTAATTTATTGGTTATTTATTTAACAAATACTTTTA
TGGGCCTTGCCATGTTCCAGGCACGGTTGTAAGCACTTACAACTAGTGACTCATTTAACCATTTCACAAATATTTATTTTGAGAGCAAGCACGGGGGTTT
ATGTGATGGCTCCACAGAGCAGTGAAAAGACTCCCGCCCTACTGCTCSCAACCTCARATGTCCCTGGSCACWAGCCCATCTGTATGKCTTTAAAAAAAAT
AAATTAAATTTTTAAAAACATGACTTTCTGGCCAGGCGCAGTGGCTCATGCCTATAACCCTGCACTTAGAGAGGGCAAGACAGAAGGATYGCTTGAGGCC
AGGAGTTTGAGACCAGCCTGGGCAACATAGCGAGACCTTGTCTGTACTAAAAAATTATTAAAAGAAAATATATATATTTTTTTAAATCATGACTTTTCTG
ATCATACCTGTGGCATACTCATTATAGAAAATTTGGAAAATGTAAGAAGTCATAAAGAAGTGGGAAAAAATTTAAATCCTTCTCTGTCCCACCACAAACC
ATTTAAATCAATCCAAGATTTTAGTGGAAAGGGAAAGCATATGATCTAGTACAAAGAATTTTTTTTAGCTTCTTCTCCGCTGCTTGTTTAAGAATCTCAG
AGTAATCCAGACGTTACTACTCCATAAGCAAATCTGGGACAGTAATCAGACAACCAGACAACCAGACTGAGAGCCCCCAAGGGTTCAAATTCCTGAGCGC
CGTGTCTTCTCTATAGCTTGCTGTCTTGTTCTATTTGGATATAAAGCTACCATCAAGCAGAAGAAGCGGGATGCTCTCTACAGAGTCCGAAACAAAACAC
AGAAAATTAACCTGCTACCATCCTCTAAAGAAGCGAGGGTCTCAGACTTTGTCCCCTTTTGTTCCTGCATTGCCCTCCATTCAGATCTTGTCACTTAGGC
CTTGGTAGCATGAGCTATTAACAGCCCTCCATATTTACTATTTTTTTTTTTTTTTTTAACTCTGGGASTTCCTGTTGCAGAAATTGGATCACTTACCTAA
AAAGCTCCCCACCCCCACCTTTGGTGACTGGTGGGTTTCATCACCAGGAAAGCACATTGTTCCAACTCAAAGTCTACAGTCTAAAATCATCATCATGTAT
TTTCATCAGGATGAAATATCGGGCACTCTGCTCAGTGCAAGGTTTTATTAATGATGTGCTGTCAGGGGCTGGATGTTCTGCATATTTGCATATTAAACAG
CTGAGTGAAGAAACATTGCTTTTATTGCTGCAGGGAATAAATCAGTTTAAAGCAAGTTCTCATCATTTATACTCGTTTCAGCTAAGTCTTCTTTTATTGA
AATAAATTGTTGAAGTGCTTTGCTCATTCTTTGAATACTGATGAACTTTACCTTGATAGGACCTCAGGAAAAATAATATTTTCTTAAAGGTGCAGTATTG
TTCCATTTTTGAGTATTACTTTAATACATTATTGATAAGTTAATTTAGAAGTATCAAGTGAAAGGGGAAGAAAAACAGTTTTGAATAAAAACGGWGTTTC
CTCTGGACTATTTTGCCAAATGCATTTTTATTGGTAGAACGTAAGCAAATTTAAAAAAGCAACAAAAGCAGTTTTTATGAATACCTAGCGTACTTTTTTT
TTTTAATGAACCATGAGCTGTTTTTGCATTCAAATTCTCGTAGGCATTATATTGCATCTACACATAAGGACACAGTGTTTACAGACCCCAAAGCTTGCTG
TCCCCTGGGCAGGTGCATGAGGGGGTCCCAGGCAATCAGGCTCTTCTCAAACCTGAATTATACCCGGCCTCARGGTATARGGGTCAGGCAGCTGTTTGAC
AGGATTCTTGCAAATGTTTTTGGTTTCTCTGTCTACTCATTACGTACACTCTGCCAGAGGTTGAAAACTCAATGTTGAGATYACATACATCCTGAAAACA
CTGKTTAAATAAAATTTTGGCCTGCATCCTGTTTTTGAAAACTTGCAATGGCTTGCCAACGTTTTCAAGTTGAGAAGTTTCACAAAAAAAATTCGGATTT
CCAGCTTCTTTCAAAAACACAGGTCAAACATCCTGAGCCTGTTCTGTGGTCAGTTACTCATTAGCAGCCTCTGCTCTAGGAGGAATAGTTATGGGTCCTT
TCAGACATGCAACCCCCMAAACTCCATGTTGTTTACAGTGTGGGACACCTGACTTTCACCTTTTATGATACCTGCCTGGGGCATGCATGTGGTGACTTTT
TCCATCTCTGGTCTCTATCTTATCTCTTGTGATGAACTCAGGTCTATAAAGCATTTGGGCACTGCCTGGCACATAGGATATGTCCAGAAAACACTAGCTG
GTATTAAAACAGAGGAAACATGGGAACTGAGGGTGGTCAGTGACATCACATTGTATTTCCTTTATGGTGTCCTTCTGAGTACAGAACCAAACATTTCTTA
GGCGTACAATTTCCTGCCTCCAAATTAATGTTATTTCTAAAAAGTAGCCCGTTCCACTCCTACAAATCTTTGCCCAAATATGTCCTTTTCAGGGATGACA
TCCTTAGCCACTGTTTAAAATAGCAAATTTCTTTCCAAACTCTGCCGTCCCTGAATCTCTACCCTGCTTTATTTTTCTCCTTAGCAGACATCATTTCTCT
GTTTAATCTGTCTACTTGCTAATTGTCTCACTGCCCTCCCCCTCCCCACTGGAGAGTGAATGAAGGCTTAAGGTTTTGYCTGCCTTGGTCTCTCCTGGGT
CCTGAGTACCAGTGGCCTTACGTGGCATTTGGTAGATTACATGCTTAATGAAAAGTGAGTGAATGGGCTGGGTGTGGTGGGTCACACCTGTAATCCTGGC
TACTCAGGAGGCTGAGACAGGAGGATCGCTTGAGCCCAGGAGGTCRAGGCTGCAGTAGGGTATGAGCGGGCCACTGCACTTCAGCCTGGGCAACAGAGCG
AGACCTTCTGTCTAAAAATATTTATCTATATTGAGTGAATAAATGAATGAATGGATTATTTTAGTTTGGCCTCAATCTTTATAGAAACTCAATTCAACAA
ACATTTGAGCACCTGTTTGTTCAGGGCCACGTGCTGGTTGCAACCTGGAAGGAAAAGCTGGGCAAGGCGGAGATCCAGTGCTCAGGAAGCTGAGTCCATG
CCAAGATGTGATAATTGTATAAAGAACTACAATAGGCATAGGTACAGATCTGTAAAATATGAAAACAGGAAAACACATGGAGTCTTGGAGGGTAGGGAAG
TCTTGATGAGTAAGATTGGGTCTGAGATAAACCTAAAAGAGGGTCAAGATTTTGACRGAGGGCTGGAAGGGAGGAACGATAGGAAACTGACCTTTTTTCA
GATCTCTTCTTGTGCGTGGCCTGGGGTTAAGTGCTTTACATGCATCCCCTCATTGACTTCTCAGAGCAGCTCCATAAAGAGTCCCTGTGCTTCCCAGTTT
ACTCTGGAGACGACTGAGGCTCACAGAGGTTAAGCCACCTACCCAGGCTGGCACCGCACACTTTGTTCAGAGTGGGCCTGGCATACGGCATCAGTTCAGC
CTGGCCCTAGACCCTTTTCCTCCCACAACCATATTGCCCCCAGTGGAGAGACAGGAAAGCAGGGAAGGGGGCAATTGCCAAGCCTGTTTCTAGAATCTCA
AGGATGCCATTTGGTGAAGCTGAGGCTGGTGCAGTTACTCTGTGGAGACACCAGCGTCTTGGACCTAGGGATGGATTCAGGGAGGATTGTGTCCCCCAGT
GACCTGCTTTGTGAAAGGTAGAGAATAGATTACAGGTGCCCGAGATCCTAGAACCCGTTTCTTACCATGATGGCGTTGAGGTAGAGGTAGAAAGATGGGT
GAGGTGGCTGGGTGCAGTGGGTTGCGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCTTGGCC
ATCACAGTAAAACCCYGTCTCTGCTAAAAATACAAAAATTAGCCAGGCATGGTGGTGTGGGCCTGTAATCCCAGCTACTTGTGAGGCTGAGGCAGGAGAG
TCACTTGATCCCGGGGGGCAGAGGTTGCAGTGAGCCAAAATTGCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAACATAAGTAA
ATAAATAAAAAATAAATATAATACAGACACAGGCTTTTCTCCCCACCTCTTTTAATTCTTGAAAGGAACAGTAACAAGCTCCTATTCCTGTTTCCTTGCC
AGGAGAAGTATTGTTTTCATATAAATCATTTGTGACAGAAGCTCCTTATTTTTAAGTGGAAAATGCACATTTAATAACATGAGAATAATGTCCAAACATC
TTCTCATTGATGGCTGCCAAGAGAACAGCAGCACTCTTGCTGCCTGCAGAAAGAGACACTCAGAGTCAACTGTTTTAGGGGCCATGCTGTCATTGCTGCC
GCATTTGCTTAGGTGGGCTCTGAGCAGCAGCTTCCCAGACACTCCGTAACCAATGGCAGCTGAGTGCTTTTGTGCCTTGCAAATCCTCTAGTCAGAGCAG
ACCTGGCTTAGGACCCCAGCCCTACCACTAACTGACTCCATGCGCTCCTATCGGTTCTTTATTTTACCTCTGCAAGCCTCAGTTTTCTCATCTGTAAAGT
AGGGATAACATTAGCTTCAGCCCTCACAGGCTTAGAGTGAAGTTTAAATAAGAAAAGGTATCTAGGCTGGGCGTGGCGGCTCACGCCTGTAATCCCAGCA
CTGAGGGAGGCTGAGGCTGGTGGATAGCTTGAGCCCAGGAGTTCGAGACCAGCCTGAGCAGCATAACGAGACCCGTCTCTGCAGAAAATACAAAAATTAG
CCAGGTGTGGTGGCATGCATCTGCAGTCCTGGCTACTCAGAAGGCTGAGGTGGGAGGATTGCGTGAGCCCAGGAGTTCAAGACCAGCCTGAACGACRTAA
AAAGACCTATCTCTACAAAAATTAGCTGGGCATGGTGTCACGTGCCTGTAGTCCTAGCTACTCGGGAGGCTGAGGTGGGAGGATCGCTTGAGCCCCGGGA
GGTAGAGGCATGATCATGCCACTTCACTGCGGCCTGAGCTACAGGGACTCTGTCTCAAAGGAAAGAAAACAAACAAACAAAAAGCCATGTAGAGCTGGGC
TATCCAATACTTGAAGGTAGCCAGTGGACACGTGGGGCCATTTCAAGCTAAATTAAATTTTAAATAAAATTAAAGATTCAATCTCTCACTCACACATTAC
AAGTGCKAAACATCCGGACACATCTAGTGGCTCCCACTGTGGGTAGCACATACAGAAAGAACGTTTCCGTGACAGTAGAGTGTCCCATTGCACAGTTTGG
GTATGGAGCACTTAGCCCAGTGTTGGGCACAGTACCTGCTGTGATGGTTAAAGCTTAGTTTTATTGGCCAGGCATGGTGGCTCATGCCTGTAATCCTAGC
ACTTTGGGAGGATGAAGTGGGAGGAAAGTTTGAGCCTAGGAGTTTGAGACCAGCCTGGGTAACATAGTGAGACCCTCTGTCTACAAAAAACTAAAAAAAT
TTAGGCCATACTTAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGCATTGCCTGAGGTCGAGAGTTCGAGACCACCCTGGCTAA
CATGGTGAAACCCCATCTGTAATAAAAATGCAAAAGATAGTTGAGCGTGGTGGCGCATGCCTGTAGTCCCAGCTACTTTGGAGGCTGAGGCAGGAGAATC
ACTTGAACCCGAGAGGCGGAGATTGCATTGAGCCGAGATCATGCCACAGCCTGGGCAACAGAGCAAGACTGTCTCATAAATAAATAAATAAATAAGCTGG
ACGTGGTGGCATGTGCCTATGGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATGGCTTGAGCCCAGAGGTAGAGGCTGCAGTGAGCTATGATCTTGCC
ACTATACATCAGTCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAACCAAAACAAAGGTCAATTTTTTTTCCACATTCATCTATAAAACAATAAAGGAAA
CATCCTAGACACTTGAATCAGAGCCCTTTTAATTATGACTTCAAAAAACAGGGCTCGTGCCACCCAAGATTTCCTCCATATACAAAAAAAAAAAAAAGGA
AAAAGGGAAGAAGCAAAGGGGCAATACAGGGCTCTGCCCATTAGAATCTCTAGGGACAGACCGAGGTTTGAGAGTTCCTGCTCCTGATCTCAGGGGAATC
CTGAATTACAGGTGTTAACCTGATTAKCCCCAGCCCAGCTCTTCGTTAATTACCTGAAGTGAATGGGACAGTTTCCAATACTCAGCACAAAGGCGTGCGC
AGTGACTCTGTGGCGTACTATCTATTTGGCCTTGGAAAGTTACTCTCTAAGTCAGGGCTTCTTTTCTTCAACTTTGGTGTGAGACTCCGCTGGAGAGCTG
GTTAGAAAAACACAAGTCTCGGGCCCCACCCCSCAGAGCCCCTCATTCTCTAGTTCTGGGTTGGGGCCCAGGAGTCTGCTTTTCTAGCAAGCGCCCAGAT
GTCACTGATGCTTACAGCTCTCAGACCACAGTTGGAGCAGTGATTTTTAAAAGTCTTTTCATTTGTAAAGAGTTGTTCTCCATGCTCCAAATGACTGTGA
CGACTGAGAAAATGCATGTATGTAAAGTCTGCAGCTGGTGACATTGTAGACACTCAGCAAATGGCCTTTGGTGTTACTRTTATTTTATTTTTACTAATTA
TTTTTTACACCTACAAATCAGGATCTGCTACAATCGCTTGATATTTGAAAATTGGGCCTAACCCACTATGCCACTCTTCTGTCATGAAATAACAATCTTC
TATTTAAACTAGTAAACTTAATAGTTTAAAATACTTGGTAGTTTAATAGTTTAAGTAGAGCCACTGAAAGATGGCTCACACCTTTCAGCTCAGTTTTTTT
GTACCAGTGAGGATGAATGTTTCTGCATGTGGGTAGTTGGCACCAGTCTTCAATGAATTATTTTTCCTTTAGCCGGGTCTGGTGGTGGCGTGTACCTGTA
ATCCCAGCTACACAGAAGGCTGAGGCAGGAGGATACCACGAGCCCAGGAGTTGGAGGCTGCAACGACTTACGATCATGCCATGGCACTCCAGCCTGGGTG
ATAGAGCGAGACCCTGTCTCTGAAGATACAAGAAGGCCACATGTGGTGGTTCACCCCTGTAATCCCAGCAGTCTGTGAGACTGAGGCAGAARGATTGCTT
GAGAAGTTTGAGATTGGCCTGGGMAATATAGCAAGATCCCAACCCTATTAAAAAATTAAAAATGAAAATAAAATTTTAAAGAAAGGTATTTCTCCCCTTC
ACGGTAATTTGGAGCCARTACTTCTTGCACCATTCATTTGTCCACAGCATGGGACAAAGGATAATGCCTTAATGCCTGCTGCAAATAGAACAGTGGTGCT
TAGCAGCTTTAGATAATGCATTGTAGGTGTTTTGCAAAAACATACTTTCGTGACTAAACATCATAAGCTCCAAGTGAGTGATTTCCCCGCGTAAATGAAT
GWTTCTGTGAGGATAACACTTCTAAGATGTGAGATTTCAATAAATGAATCTGTAGGCTGCTGTGATGGATACCTTTGGTGGGGTAGGAAGGATCGTCATT
TAGAACCTGGGTTCTGACTCCAGATGACTTGTTTTGTTCTATCCCAGAAATATTCCTAAAATCGATTTCCAGTTTCCAAAAGAGCAGGTAAGGAAAACAC
TGAGTGTTACTTGGTCTTTAAAATTTTTTTTAAATTCATTTTTATTTTTAAAAAATAGAGACAAGGAGGTGGGCGCGGTGGCTCACACTTGTAATCTTAG
CACTTTGGGAGGCTGAGGTGGGTGGATTGCCTGAGCTCAGGAGGGCGGGTGGATTGCCTGAGCTCAGGAGTTGGAGACCAGCCTGGGCAACAAGGCGAAA
CCCCATCTCTACTAAAAACATTAAAAAAAAATTTAGGCGTGGTGGTGTGTGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCACTAGTATCACTTGAAC
CGGGGAGGTGGAGGTTGCAGTGAGCCGAGGTTGTGCCACTGCACTCCAGCCTGGCTGACAGAGGGAGACTCTATCTCAAAAAAAAATAATAAAAATAATA
AAAAAAAAATTACATGAAAAATAGAGACAAAGTCTCGCTTTGTTGCCTAGGSTGGTCTTGAACTCCTGGGTTCACGTGATCCTCCTGCCTCGGCTTCCCA
AAGTGCTGGGATTACAGGCACGAGCTGCCRCGCCTCACCTCTTGTTTTCAATACCATTGATAAGTTGTGGTCTTCAGGGACTTGTGGGCATTTTCAAGTT
AAATATCCAACAKTCGTGATTTAGGGCATGAAGAGCTCACTCATCAAGATGTATGTAATTCAGATTTTCTGAGTGTTTAATTCGGCGTCTTTGGTCACAA
GGAACAGAGKTTTACTTGTGCCACCTCTTCTAAGAAAAAGGTTTACTGTAAGAGATAATGTTGGCAAGCTGAGGAAAGGAGGCAGTTTTGGGTAACTGTC
TCTTGCGATCCCCTCCTGCACAACTGTGGCGTTCTCTTTTTCTGACTAGCTGATTCTGCTGCTGCTGGATTTATTCATTCTTCTCCCTCACARTTTTGGC
TCGCACATGCTTCCTTTTTAGCTCATGRCCGTGCARTTCAACTCAACCTCATGGCATCTTTTTATCAGCTGTCCCTGCTGCAACAGGCTTAGAGTTGGTT
TCCCAATTCCCTAGCGCAGAAATCCACTGGCATGAGTCATCTTTCCCATTGGTAGATTGCAGAGCAAACTTCTGGACAGATTTGCCCTTGGCTCATGTAT
GATTGGACCTGCGGTCTGTCCAGGTGTACTCAGAGTGGGGAAGGGGAGCGGTGGCAGGTAATACAAAACCCACCTAAGTAGAAGGACCTATGAACCATGA
GGGTTTTCCTTAGCAGGGAGTGCCAGTGGGTAGGGATGACTGGTTTTGCAGTTTAGGGCCAAGTGAGTTGGAATGACAGCTGTGGCGTGTTGAGTCAGAT
CAAGTCCAGAATTCCTCTCCACCCCACCCATTTGCAGTTCCCTCAGATTTATTACGGGACCTGGATGTGATGCAAGCATGCCCGCTGGCTCAGGCTGTGC
CTCACAGCTGCAACATCCCTGGGGTGGAGAAGCCATGTGGGACCTCACAGAACACTCCACCGTCCCTGCTAATGGCTGAGAAAGGACTCTGCCCTCATGG
ATGGGGTTGGGGGACCTGTTATCTTCTTCCAGGTTAATCTTGGTTTCAGCTGCTTTAAACTCTACTTTTTAGTGGGACGCATCATACTGAACTATGGAAG
CACCATAGTTGTCACCTAGTTGAGCTTCTCTTTGTTCCCATATGTTTCAGTGAAGCAGTTATAGCTTCAGAAAAGAGGGAGCCAGGAAATACACTTGTAA
TTCATCACTCCTTTTATAGTCAGAGCATAGGAACACTCATAGTATGTATCAGAAACTAGTGAACACATGTTGTTTTACAGCTCTGTCTGCAAAATTGCAT
CGTGGGCCTCTTTGGGGAGTGTTCTCAATGTGATTTTTATTCTGGGGTGTCCTTTGGCCACAATCCTCAGGATTATTTTTTCTCTGTGCTGTTCACTGTA
ACATCGTCCACCCTCTGAGATCTTGCTTTTCAGTCTACTGGTATCTCCACTTCTCTCTGCAGCGTGATGTCTAGTCAGAGTTTCCATTCTGTTTTTATGA
CCCTGGGAGGACTGGGASAGATCTGTGAGGTCATCTTGTCCACCCTCAGCCAGGGCAGGAGTATTCCCTAATGGTAGAGTCAAGTGTTTGGTTTGGTCTT
GTTTCTAATGACTCAAGTGATGAGGCCTGGGGACGTCCCTTGGGAAGCTATTCTGCAGCCTAATAACTTTCATTCTGTGATTTTTTTTTGTATGTGTCTA
ATATTCAGAGTCTGACACAATAAGGCCATAAAGAGCTAAGTCTGTCTATGGTAGATCTTCACCTGGGAATGTTCTCCTAATAGTCACTTTTGTTATAAAT
CTTCACCTAGCATGGGAGTTAAGTGCATTTTAAAACTAGACCTGGGGACTATGTRTCCTAAAATGCAAAAATAGCCCCCAAAATGAAAATTAATGTTGAG
AATCTAGTCAATCTGCCAGCAGTACGTACATAACTGTTCTGTGTATATTTCACATGGCCATATATGTTTTGCTTGTGTGGTGCTAAATGCAAAGGCAGAG
AAGCTTCTGCTATTGAATGCTTAGCACAGAACTCCTGTCCTCCCTCTTTGAAATTATTCCGACAGTTGCCCCTCATTTGGCTTGCCAAGGAGTAAGATCT
TGGCTTGTGTGTTTCTCCCATGTGTGGTGTATCTGTAATCTCGGTCACTGTTGAGAGCCTGGTGGGAGGCTGATTATTGTTGAGGGAAAGATCTGAGAGC
AGGGCCAAGAAAGGGAAAGAGAGAGAGAGGAAAAAAAACAAAAAAGAAAAAGAAAAAAGAGAGGTGGGTAGGGAGGGAGGAGAGACATGGAYCCACGGGG
AATGGGAAGAGAAATAGAAATAGGGAATTTGAAATGGAAATAAAACAAAAGGGCAGGAAAGGAAGAAATAAAGAGAATGAGATAAAAGGAAAAGAAAGTG
CAAGTAGATTTGGGATCTATAGATTGGGGAAAGACATTCATACAGTCAGGACCAGATGTTCACTGGAAGTTTTTTCCTTCTGGATCCTTCTTTGGCTATA
GGAATCTGGTTCTCAAAGTGTGGCTCCCAGGCCAGCAACACCAGCATCACTCAGAAATCTGTTAGAAGGCCAGGCGCGGTGGCTCAGGCCTGTAATCCCA
GGACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCCAGACCATCCTGGCTAAGTCGGTGAAACCCCGCCTCTACTAAAAATACAAAAAAT
TAGCCAGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTAGTCGGGAGGCCGAGGCAGGAGAATGGTGTCAACCCGGGAGGTGGAGTTTGCAGTTAGCAGAG
ATGGTGCCACTGTACTCCAGCCTGGGGGACAGAGCGAGACTCCCTGTCAAAAAAAAAAAAGAAATCTGTTAGAAATGCATATTTTCTGTTTTCACCCCAG
AAATCCTGAATAAGAAACACTAAAGGGGAGTGGGCCCAGCTATTTGTGTTTTTGGARGAACTCCTGTTTTAATTTGTTTTTTCGGAAGTCCTCCAGTTTG
AGAACCAATGATAAGGACATTTTTCCGGGAATCCAGTTGTTTTAGGAAAGGCCCAGTAGGCATTTATGTTTATAAGCAACTCCACCCTGCACTCCATATG
CCTTCTGTAGCTATCTAACAGAGACAGAGTTGACTTGCAGAAACTGTTTTCTCTGGCCAGGAGACAGGCTTCGTTTTCGAAACTCACCCAGGAAGGCAGT
GTTCTTCTTTTCAAAAGGCATTTTTCTGTTGACTGTGCAYGAAGCCACATAGTAATAAACAGTTTCCATATCCAAGCAGCTAAGGCTTGTGCCTTGCAAG
TTAAGTGGAACATCASGATCTATATCTCAGTTTTCCTTATGTTTCCCCAGTTGGCACATCATGGCCAACAAGAGAGTAGGGATCATTAAGGAGTTTATTT
TCATCTTTATTTTATCATTTAAAACACATTTTTTTTTCCAATGAGAGTACTGATGACATAAAAGGTTATACATTGAATAACCACCCAAATTAGCAGTGTT
TCATATTTACACTGTTCAACACAGTTCTCTTGTSTCTGTTCATGATATAACAGTAAATCCAAGTTGCTTTAAGTAGATATTGGAAATATGAACCCAATAT
GTTCTTAACATCTCYATGTCGTAATTCTAATTTAAAATCAAAATCTCATCAAATTACATTTTAGATTAAAGSATTGTACCTATCGAAAGAAGAGAATCGA
AAATGCGAAAGTCCTTCATTTTCAGTGTGGCCTGAGATTGTTGAAGGATTTGTTCTATTGCATGCTGATAAATATTTATCACGGTTAAGTGAACAATCAT
TTGGAGACAGACACCATTTTATGATGCAGCTTCTCAGGGCGTCCTAATTGTGACTCTGCCTTGCCATTCTATGTTTTATCGGAATACGCAGACATATACT
TTATGAGGTTGGGTAATGAAGAGAGAGAGACCCCAATAAACATATTTTCTAAGAGTAATGGTTATCTATAGCTCAGGAACCCTTGGTTAGCACAGCCTCT
ATTACACAGTACTAGGCAAGCAGTTCATAGCTCAATTAGATCTAACTTGCTTCATTTTTAGGCATTATGTTATTCTAAATTAACACTGTATTTCATATTC
TCCAGGTCTGACTATTAACCAGATTTTGGAACCTTTAGGGCTTATTATTTAGTAATCCCTGAAGCTCTCAAGTAGGCGTTTTTAAATTCATGCATTAGAA
CAGATTAAAAATTAGCTAGAAACGCATGTTAAATGGCCCACTCCCTTTCTTTTGCTAATTGTGCTAGAAATGAAAAAGAAAATGCAAGTGAGGTCAGATC
TAGTGTGGTACAAATGAACTTGCTACTTGGTTTGCTGCCAATTGCTGCCGAAACAGGAGTTATTTAAATTAGTAAATAATTTTTGAAATCTTCTTAGAAT
GTCACAGGCCACAATTCAAATTCACAGACCAGGAATGGTTATTATTTCTATATATCTTAAAGTTTTCTGCAATAGAAATGCATTTCAAATATAAGCTAGA
AAAAAAAAATGTGAGGCCTTATTGTGTAGATAAAAGTGACAAGATGTCCAAATGTTTTGAAACGCAGTGATTTATTTAAGTTGTAGAAAGCTTGGTTTTA
TTTCTTGTTGCATCGTCTTTATCCTTAGATCTTAATCAGAAATAGGAAAATTTTCTGAGAGAAAATTCACGAGATCATTCATGATGAGTCACTATATCAG
TTACTTTAAAAAAAAAAAAAAAGATCCTGACAAATCCTACTTTTTCAGGTCCTGATGCACTAAGTCTCATTCACTTCTTTCTATTTTTCCTCTCTCTATT
GCATATTAACCCACCATATTGAGAGAATAGAAACTTTTGCCTTCATTATATCACCTTTACACCCCAGGACAGGTGCCCTCCTCAGCGGAGACAACTGTCC
CCCTCCATCCTGCAGGAGTTTTGCAGCCATCCTTCCAGCCACTGCTTCTCTACCGGGGCAAATYTTCCCCCAAGGGATAATTGATAATGTCTGAGGCATT
TTTAATTGTCACAACTTGGGGAAGGGGCAAGGGATTGAGGGAGAGTGCTCCTGGCATCTGGTGGGTAGGGGTTAGTGATAGGGTTCGGCTGTGTCCCCAC
CCAAATCTCATCTTGAGTTGTAGTTCTCATAATCCCCACGTGTCATGGGAGGGACCCAGTGGGAGGTGATTGAATCATGTGTGCAGTTACCCCCATGATG
TTTTCATGGTAGGGAGTGAGTTCTCACAAGATTTGATGGTTTTATACGATGCTTTTCCTCCTTTGCTTGGCACCTCTCCTTCCTGCTGCCGTTTGAAGAA
AGACATGTTTGCTTTCCCTTCCACCATGATTGTAAGTTTCCTGAGACCTCCACAGCCATGCCAAATTGTGAGTCAGTTAAATCTCTTTGCTGTATAAATT
ACCCAGGCTTGCATATGTCTTTATTAGTGGCATGAGAACAGACTAATACAGTCAGGGATGCTGCAGAACATCTCCAAACACACAGGACTCCCACCCTCTA
CTTCCACCCCACCAACAAAGAATGATTCAGCCCAAAATGGCAGTAGTGACCTTGTTGAGAAATGCTGTTCAAGCCATACGTCACCATTGGAAGGTTGCCA
AACTGTGCTTTGCACACACATGCTGTCTGCACGCCTTGTATTTTTCTCTTTGCTTAGTCCTGCTCATGCTCTCTAAACACCCCAGACATCATATCTCTTT
AAGAAACTCTGGCTGAGTCCCATAATGTTCTGGGGCAACTTCTGTCTTCCCTTTTCCCTCTGGCAAAGAATCCTTGACCAAACTTTAGCTCAGCTCCTCA
GAGCCCACTTCTCAACTAGACCTTGACCTTGCTCCTCTCTCCTTGCTGGATCTTCATAGTCCAGTCTTTGTAAGAGTCATTCTAAGTCAGTCTAGAGAGA
ATCCCTTCACCCTTCATGTCTGATCACCCTTGCCTGCCTTCAGCAAAAATCCTGCTAACTTGGTTAAGTTGGAATACTCCTACCCTTGTGGTTCCTTGTA
GTAATTTGCATCCACTGACCCTCCCACTCCCCTGCTACTCTGTTCCTTGACTATAAATCTCCAGCTGTCTTTATTATATTTGGAGTTGAGCCCTATCTCT
CTCCCCTATTGCAACAGCCTTGACCCCTGTTGAAATAATCCTGCATAAAGTCTTCCTTACCATTTTAACAAATGTCAAGGTAACTTTGTTTTTTGTTTTT
TTTGTGTGTTTTTTTGGAGACAGGGTCTCACTCTGTTGCCCAGGCTGCAGTGCAGTGATGCAATCTTGGCTCACTGCAACCTCTGCCTCGCAGGCTCAAA
TGATTCTCCTACCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCRCCCCCATGCCCAGCCAATTTTTGTATTTTTAGTAGAGATGCGGTTTCACCAT
GTTGACCAGGCTGGTCTCGATCTCCTGACCTCAGGTGATCCATCCATTTTGGGCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGAGCCCGGCCAG
GATAACTTTTTAACAACCCCCCCTCCACACTGCCAACTTTTTGAGGACCATGTGTTGTGTAGGGCCGGATATAGTGCACATGGTGAACACATAAATAATG
TTTGTTGGCCAGGCGTGGTGGCTCATGCCTGTAACCCCAGCACTCTGGAAGGCTGAGTCAGAACGATTGCTTGAGCTGAATTGTTCAAGACTGCCCTGGG
CAGCACAGTGAGACCCCGTATCTACAAAAAATAAACAAACTTAGCCAGGTGCGGAGGCATTCACCTGTATTCCTAGCTACTCAGGAAGCTGAGATGGGAG
GATTGCTTGGGCCCTGGACGTCAAGGCTGCAGTGGGCCATGATCGTGACACTGTACTGCAGCCTGGGCGACAGAATGAGACCCTGTCTGAAAATTAAAAA
AAGAAGAAGAAATGTTTATTGAATGAAGACATGAAAGCATTTGGTGGAAATAGGGCACACACATGAATATATTCACAGTTGCAAACTCAGAAGGATACTC
CCAACCTGGTTCTTTGTCTTGTCCCTCCATCTGGGTGCTTTCCAGTCACAGCCTGGATGCATGTATGAATAAACTTCTACCATTAAGTCCCTGAATTATT
TAAGCACTGCCAGTGATTCTATATAAACCGTTCAGTAAAATGAATGGCATATGCGTATGTTTCAAGAGCTCCAGCAGCCTACCCAGGATGGCTTGATGTT
GTCTCTTAGCACCGTATCAATACCTGGGGGTTTTCAAATATTGCAGGTGGCCGAAGCCTTTGTGTTGAGGTTTCTGTAGTGTTTATCCATTTGTGAAACC
AGGCCTCAATCTATATGTCCAACGCCATTCGTAGACCCCCTTTGATAATCTCCACTAAGCAGACATACTCGATACATCTTCACTAATGAGTTCTGACTTC
ATAAAATGTATTAATGACTTCTTTTTGAAAGTAAGAGTGCTTTGAATACCAGTCRTTATTGCTTTAGAAGTTCATAAAAGCAAAAGCACAGTATTTCCCC
CAGTGTTTGTGCGATAAGAGAATAGATGTAGGTCCAGCGCCTAGAATTTTAGCTATGCTTCTCTTGTTTGTGATTCCAGGTTTCAGACTGCCTGGTAGAA
GGAGGTCACTTCTGATTGTCAGTGACTTTGGTGAGTTCTTACCTTGTAAAAGATTTACAATTATTTCATTTTCAACATAGCTTTATCTTATGACAAAGGT
GACAGAAAGGAAATCTCCTAAGTTGGCCTACAGGGTGCTTTAGAAAACATCTGGCTGGGCATGGTGGTTCACACCTGTAATCTCCACACTTYGGGAGGCT
GAAGTAGGCTGAAGTGGGAGGATGGTTAGAGCCTAGGAGTTCGAGACCAGTCTGGGCAACAAMGTGAGATCCTGTCTCTACAAAAAATAAAAAAAATTAT
CTGGGTATAGTGGTGTGCACCTGAAGTCCCAGCTAACTGGGAGTCTGAGGCAAGGAAATTGTTTGAGCCTAGGAGGTTGAGAGTGCAGTGAGCCGTGTTG
CTGCCACTGTACTCCAGCCTGGGCAACAGGACAAGACCGTGTCTCCAAAAGGAAAAAAATAAWAAAGCACTGTCTCTCTCTACCCTTGCAGTATCCCTGT
AGGAGAGAGTTACTATTAGCTCCCAGTTTATAGGTGAGTGATATGGTTTGGATGTGTCCCCACCCAAATCTCAACTTGAATTGTATCTGCCAGAATTCCC
RCATGTTGTGGGAGGGACCCAGGGGGAGGTAATTGAATCATGGGGCCCAGCCTTTCCCATGCTATTCTCATAATAGTGAATAAGTCTCATGAGATCTGAT
GGGTGTATCAGGAGTTTCCGCTTTTGCTTCTTCCTCATTTTCTCTTGCCACTGCCATGTAAGAAGTGCCTTTTGCCTACCACCATGTTTCTGARGCCTCC
CCAGCCATGTGGAACTGTAAGTCCAGTTAAACCTCTTTTTCTTCCCAGTCTCAGGTATGTCTTTATCAGCAGYGTGAAAACGGACTAATACAGTGAGGAA
ATCCATGTGTTAGGAAGGGAGTGTGGTTGTACTTCAACCTGGAACTGTCTAACTCYTAAGGTTTTATTAATATCTAGTCCATTTCTCTCAATCTAATAGT
AAATGGAAGAGAAGCAMCAACTTTTGTTTTCCAATTCCTTTTGAACATTTGAAAGGTTTTCTGAAAGGACTTAAAGAAACCATAGCTTCCTTACCAGTTC
CCAAAGCTTCAGTCCTTACCAAAGTGTACATTGCCTTTAAGGAGATTTGTTTCCATCAATCCCTCCCATTTACAAGGAATTACAGAAGAGTGATGCCCCC
TTCAAAGTGGCTCACACCTGGCTGACATCTGTTCATTAAGAATGCCTGCCTTTGGGTTCTAAGACGTCCAAGGAGCTCTTATGGGTAACACCTGTAGATT
TATAGACGTTCCTCTCTGACTGTAAGGGCCATATGCCTGAATCTCTCACCCCCATGTTTATAAAACTTAACAATTGTGGAAGCAATGAATTGAAGGACTA
GGGTCACCAGTGGAGTCCCATAAATAGGTTGTTTATGATCCCTGTGAAACAAGAAGACCCTYTTAATTTCATGCTTCTTAAACTGGGGTATGAGTGGCCC
CAGGTTTCCCTGTTGGGGGTACTGATACCAGAGTTCATTTGAAGTCATTGGAAACCAAGGCATATTTTCTTAAAGAGACAACTGTTTTTGGTGAATAGGC
CATGTTGTTTATAGTWAAAACAAACATGAATATTCTGTAATAGAAGATATCGTTTGCATGGTGTTTTAAAGCTAAAACTTGAGTTATTAAACACCCTTCT
CTCCCTGGGGATGCCTTTTGCTATGGGGTTGCATCCACGGAAGAGTTTGAAAGCCCAACCATATGGACATCATATTATTCATTTTTATTTGCCATCCAGA
GCTTGCCAGCAACCTTTTAGATCTCTTTCCTTGGAAGGTTCAGCAAGATGCTTGTAAATGTATGTTGCTTTGTTGCAGACAATGTATATTTAAAAAGCAA
TTATTTGCCCATCTCTTGTTCAACTCAGATATTGACTGCCTTTCTGTATTTCTGGCTGGGCATTGTTTATCTCCACCTCATGGTTTTTACTATGGTTCTA
GAGGTCTAGCCTACAAAGAGAATGCTTCCCGTCCCCACCACTACCCACAGGACCCTCTGCATATCTCAGAGGAATTTCTCAGTGTTCCAGTTAATTTTCT
CTCTGTTTCCTTTATTACTTCTAAGTTCCATTGCAAAAATATGCTGCCTGCTCTGTCAGCCACCCTATATGCCTATTTAGTCCCAGTTTTCCAGCTTCTA
TTTTTTTCCACATAATCCCTAACCATGATAATACAAATATAATAGAAATAATTATGTTTGTTTAAAATATACACAGAACCAAATAGTCATAGAGTAGTAT
TTCAGGTGGGGGGCCCTCCTCTAGGGCAGTGGAGACAATGTCACCTGTCGGGAACATTTGGCAATGTCTGGAGACATTGTTGGTTGTGGTGCGGTGACAT
AACTATTGGCATCGAGTGGATGGAGGGCAGGTGTGCTACTAATCGCCCTCTATTGCACAGGGTGGCCCTTACCACAGAGAACTATGCAGCTCTAAACATG
CGCAGCCCCAAGGCTGAGAATTGTTGATCTAGGGGAAGATGTGATTTCATTCTTCATGCTTGTAAATTATTATTTAAGCTGTGAATACCCTCTCTTTTCC
CACTGAAGTTGTGGTTGTAAGATTCTCAGAGTTGAGCAGACTCGGCAACATTACAGAAAAAAAATCAAGATGTAAAAAGGATTTAGACGTCTGGACGTGG
TGGCTCATACCTGTAATCCCAGCACTTTAGGAGGCCGAGGCAGGTGGATCGGTTGAGGTCAGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGT
TTCTACTAAAAATATAAAAATTACCTAGGCGTGGTAGTGTGTGCATATAATCCCAGCTACTCTGTAGGCTGAGGCAGGAGGCAGAGGTTGCGGTGAGCTG
AGATCGCACTACTTCATTCCAGCCTGGGCAACAGAGAGAAACTGTGTCTCAAAAAATAAAATAAAATAAAATGGATTTAGAAATGGTACAGTCAGAGGTT
AGGGGTCGGGTCAAAGCGATCCCCCCAGAGACCTGTGGAAAGTGTGGTTCTGTCTACAAGCTGCGACCATGGTCTTTACTGCTTCTGCAAATACTTGACA
AAAAGGGCCACACTCTTAGCTGGACTTTTCCTCCCTTTCCTGAAACAATGCCCTTCCCATTGTCAAGGCAGAAGCAGCCTCCACTGAGAAGCGTCAGACA
CCACGTCAGTCTTGCTTTCCATTGCTTTGCTCCAGTATCCATTTGAAATTCAGTGCAAACCCATAAATTCCACTTTGCCTCTGGTAGCAGCCTGCATGGT
GTGTATATTGAACACTAGAAACACAGTAAATCCAGCCCATTTATTCACATTAACCAGCAAAGGCATTCTGCATGCCCATGTAAATACTGGAAATTACTGA
CATGGCCTTCTAGACCATGAAAAGACAGAAGCATATGGCAGAATTCATATGTGAACAGATTGCTTTTTCTCATAAGAACGCTTTATTGGAATATCAACTA
TTACAGCTTTTTGAAGTTACTCTTCCTGCTCTTGATTTAAGTCCTGAATCACCCCACTACTCTTTTTTTTTTTCCGCTGCATTCTGCTATGTATCTTTAC
ATCTGCTTCCTGCACTTTCTAAATGGCCTACTTAAACCTTGAGGTAGGTCCTTCAGTTTCCCATAAATTAATAACACATCTATGAATATTTCCCAGCCAG
TCTTAGAAGCCCCAGTCTATTCCAATACCAGGATTGTAAACACAGGGAATAGATGAAGCAAGCTGCTTCTTTCAAATGCTCTTCCAATATGAAGCAAAAT
ATTATTGATCTAGACTGCCTGCTACTTTCATTTACCATGTTACTRCTCGTGGGATTACAGGCACAAAGGTTTCATAAATTTCAAATGAAATATGAACATT
TGKTGTCAAAGTACTGTTAAGGTATGAAAACCCTGCTAGTATTAGTTCCCTTTTGTTATTATTCTATTATTATTATTATTATTGTGTTTACATCCACAGG
CAATCACATATTTTAGGTTGTGGGGAGCAAAGCAGCTTCCCCCCACTTTTTCTCTCACTCCAATTTGAATCCTCCCATATGTCCCTCCCTCATTTTTTAA
GCAGGAAACAATGAATGAGTTTTTGCTCCTCTTGCCCTATTTGCCGTGTCTCTTTTCTGTGATTCGGGAGCACATTGATACCCTTCTTTTGGAGCAGAGA
AGCTTGTCTTTCATGATAGAAGTAGGTCATGGGGGCGGTTAGYTGACTTCATCAGAGAGTAGCATGCAGATCCCACCTGTGAGGCTATGGTCTGCCAAGG
AGAGTTCAGCGGGCTGGATCAGAGAGAGCAGAGCCATGCTGGCAAGTCGGAGTCTTTGTGGAAAGCAGCCAAGGTCACAGCTGGAAATAAAACTGTGTAT
TCCAAATCAGAGGGGCAATGCAGGAATGGATCAAAGGAATGAAGGATCAAGTTGTCAGCCAAGAGAACCAAGAGCCAGACACAGGGAACCTGTGACAAAA
ACGAAAACCAATAAAAACATATATTGAGCATTGACCAGGTGCCCAATATTTTAATGTCCCATGGGTGTGCATCAGGTACGCTGTGGAAGGACAGATGTCA
TTCCTTAAAGGGGCTGSACTGAATTAGACCAGGGGTTCTCAAAGTGGGGTCCCTGGACCGGCAGCATCACCATCACCTGGAAACTTGTTAGAGATGCAGA
TCTTGGGCCCCGCCCCAGACCTCCTGAATGTGAATCTCTGGTGGGGAGGGAGACGAAGTGGGAGCCTGTAGGCTGCAGTCTGTGTTAAGCTTTCTGGGTG
ATTCTGATACACGGTCAAGTTTGAGATGTAGCAGGAGAAGCAGGAAACATAGGAGAGAAGCCACTAGGGGTGGGAATCAGAAATACGGTGTCCCTGCCTA
CCTAGGGGCTACATTCCTCCGGGCAAGTCTTTTTAACTCTCTCTGCCTGGCAACTTCCTTAACAAAGAGTGATACTAATACCTGCCTTCCTGTCTTTGCC
ACATCACGGGATTTTCTACAGCTCATATTGGTTACAGTGATAGCAGCTGAGATTTAGGCTGCACCTGAGTACCAGGCAGGGTCCTAAGTGACTTCAGACT
CTATAGACAGTCCCTGACTTATAATGGTTTGACTTAGATTTTTTCACCTTTGGGATGCTGAGAAAACCATACACATCCAGTAGAAACCGAACTTTACATT
TTGAGTTTCGATTTTTTTTTTTCACCTGGGCTAGTAATACGTGGTAGGATACTCTCTCACAATGYTAGGCCACAGCAGCGAGCTGCAGCTYCCAGTGATC
ACAAGGGCAAAGAATCGATATTCTACCAGGCACGGTGTTGCCTGATAACCTTGCCCAGCTGTAGGCTAATGTAAGTGTTCTTTTTTATATTTTCTTTAAT
TTTTTTAAATTTCCACCTGTTTTGGGGGGGGTACAGGTGGTATTTGGTTACATGAGTAAGTTCTTTACTGGTGATTGGCGAGACTTTGGTGCACCCATCA
CTCGAGCAGTATACACTGCATCCAGTTTGTACTCCTTTATGCCTCACCCTTTTACCACTCTTTCCCTCTCAGTCCCCAAAGTCCATTGTATCATTCTTAT
GCCTTTACATCCTCATAGCTTAGCTCCCACTTATAAGTGAAAACACACAGTGCTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAATGGTCTCCAG
TCCCATCCAGGTTGCTGAAAATGCCATCAGTTCATTCCTTTTCATGGCTGAGTAGTATTCCATTGTATATTTATACCGTAGTTTCTTTATCCACTTGTTG
GTAGATGGCCATTTGGGCTAATTTCACATTTTTGCAATTGTGAATTGTTGTGCTGTAAACATGCGTGTGCAAGTATGTCTTTCATATAAGGACTTCTTTT
CCTCTGGGAAGATACCCATTAGTGGGATTGCTGGATCAAATGGTAGTTCTACTTTTAGTTCTTCAAGAACTCTCCACACTGTTTTCCATAGTGGTTGTAC
TAGTTTACATTCCCACCAGCAGTGTAGAAGTGTTSCCTGTTCACCGCATTCACGCCAATATCTATTATTTTTTGCATTTTTGGTAATGGCCATTCTTGCA
GGAGTAAGATGGTATCGCAAATGCAACAAAAACAAATAGGTGGGACTTAATTAAACTAATCAGCTTTTGCCCAGCAAAAGGAACAGTCAGCAGAGTAAAC
AGACAACCCGCAGAGTGGGAGAAAATCTATACAAATCTATACGTCTATACAAGGACTAATATCCAGGATCTACATGGAACTCAAATTAGMAAGAAAAAAG
CTAACAATCCCATCAAAAAGTGGGCTAAGGACATGAATAGACAGTTCTCAAAAGAAGATACACAAATGACCACCATACGTGAAAAAATGCTCAACATCAC
TAATGATCAGGGAAAGGCTAATTTAAGTGTTCTGAACACATTTAAGGTAGGCTCGGCTAAGCTATCATGTTGAGTAGGTTAGGTGTGTTAAATGCATTTT
CATCTTATGGTATTTTCAACTCGGTATAGGGTTTAATCCCATCCTAAGTTGAGGAGCATCTGTATCTGTTTTGGTCCTGACAATACCCCATGAAGGAGGT
GCAATTACCCCTGGCTTAGGGTTGAGAAAACTAAGAGGTTTAGTAATGTGCTTGAGGCCATGCTACCTGTAAGCAAGAATCACTCCAGGTTTTTCTTGTT
TCAAAACTCCTGTTAACAACTGAGTTGCTATACTGTTTTAGTAGGTCAAGATATACTATGTGTTTCAAAGGGCTTATAAATTATAAATGCTACTTAAAAT
GATGTAAAGTGGTATTATTGTTGTCATCATGTATATATTTTCAACTCTCTCATTGGCATCTTGAGGTTTCTCTTCTATGAAATTCTTTGCCCTAGGATGG
TCCCCTTTGTCAAAGAGAGACACATTCTGAACAAGGTCAGACAACACAGATGGAGTTTGGATTCGGGCACTGGTGACAGTGAAGACTCAGATGAGGTTCT
TGAGTACTTTCAATTAGGTTTACCACTGACCCCATCAGTGTGCAGACGAAGGGAGATGAGAGATACAGATGGTTAATGGGATTTTTGKRGTATCTTCCAG
CCTTTGTGAGCACAGAGGTTTCGCTACATTTTGAAAATTAAAATTCATTTCATTCGCATTACAGATTTTAAATCCTAGCTCCTTTTTAAGCTTTTAATTC
CAACTTGCATTTCTTATTATTCTGTTTACAAACCTGACAAATTTTAGCAGTCGTTTTGAGGAGATCTAGAATAATGTTTCATCTCATTTTTGAATTTAGG
TACAGACCTTAAAAATATTATGCTACATTTCTAATATTAATATCTTGCTTTCTTATTTAGGAACTTTTCCTGACAAACTTCCCAAGAATGTAATTTTGTT
ATATCCATATGATAAACCTTAAGTATTCTTAAGCCAGGTGCAGTGGAATTCCCCTGTAGTCCCATCTACTAAGGAGACTGAGGCAGGAGGATTGCTTGAG
GCCTGGAGATCAAGGCTGCAATGAGCTATGACTATACCTGTGACTAGCCACTGCACTCCAGCTGGGCAACATGGTGAGACCCTGTCTCTAAAAACAAACA
AACCTTAAGTTTTCTTAATGTTCTGACACTTTTATAAATGTAGTATTTCAACTTATGGTCACCATTCTGTAATGATTATCATTTGTACATTTAAAATAGA
AACTGTTAGGCCAATGTGTTATTCTAGAATAGGACTTGACAGACTTTTTTTWAAATAAAATGCCAGATAGTGTTTCTAGCTTTGCAGTTCAGATGGTGTG
TGTTACAACTGTTCAGCTCTAACTTTGTATGAAAGTAGCCATAGGCAATACACAAATCAATGCACCATCTGTGTTCCAGTAAAACTTTATTTATAAAAAC
AGGTCACGGGCCACATTTGGCCCATCAGCCATAGTTTCCCAACCTCTGCTTTGGAAGGCCTAACTCAGTTAAACATTACAAGTTCATGCAGCACGGTGTG
ATGGCTCACGCCTGTGATCCTAGCACTTTTGGAGGCTYATGTGGGTGGATCGCTTGAGCTGAGGAGTTTGAGACTGGGCAACATGGTGAAGCCGTGTTTC
TACAAAAAATACAAAAAAAAAAAAAAATTAGCCAGGCGTGGTAGCTTGTGACTGTACTCCCAGCTACTTGGGAGGCTGAAGTGGGAAGATATCCTGAGCC
CAGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTGTACTCCCACATGGGTGACAGAGTGAGACCCTGTCTCAAGAAACCGAAAAACGAAAGAAAA
ACAAGTTCATGAGATACCACATACGTGAATATATGCTAACACAGCAGCATTATTTTTTGGTTAATCAATGATTATCAATGCTTCTGTGATTTTAAAAAGG
AGAGTCAGCTATTCCCTCTTCTGCCCGCTGATATCTACAGCCTCTACCAGATGGTACCTCACTTAATTGAGGTTTGCCTTTTTTCAGGCTCTTCTAATGA
TCTTCTGGCCAACTCTAAATCACCTTTAAACTTCATGGAATTTATGCATTCTTGTTAATTTATATCCATGTAATATCAGGGTATTTCTCTTTGTAGCTGC
ATCTTCTAAGATAATGGTTTTTCATGGAGACTGGCATTGTCCCGTCCCTATGAGGGGGACATTTGGGAATGGCATTTTTAGTACTCACAAGGTAACTGGG
GCACTCTTGGTCTTGGGGAGGGGAGGTGGCTGGGGACGCAGAGGGTCCTGCRGTGGGTGGATACTTACAACATAGAAATGTCCTGGCTCTTGATGCTGGC
TACACCCTCAGTAAGAGATACTGTCCTAGGGTCATTTTTTTCAACCCACACTAGTTACGTGGACTGTCTTAGTCAGTCCAGGCTGCTATAACAGAATACC
GTTGACTGGGTGGCTTGATTTTTTTTTTTTTCTCCCAGTTCTGGAGGCTGGAAGTCAGATRTCAGGGCACCAGCATGGTTGGTTTCTGGTGAGTGCTCTT
TTCTGCATTTGTGGACAGCTGCCTTCTTGCTGTGTCCTCACTTAGTAGACAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGACCATCTCTCTTGT
GTGTCTTTCATTCATGAGAACTCCACCTTTGTGACCTTATTACTTCTGAGAGGCCCTACCTCCAAACACCATCTTATTGGGTGTTCTAGTTTAACATATG
CATTTGGAAGAGAGAGGAACATATTCAGTCCATAGCATGAACCAACCACGTGCACAGAGGTGTGCCCCAATTTACTGTCAGTGCAGCCTTCACAGGCAGG
AAACCCACCAGGTCCAAGGAAGGGGCACTCAGCTGTTACCTCCTGTCATAGGACCATTCCTCACTGTGCCATCATATTATACTTCCATATCGTGTGTCTT
GTGGCATTCCTGGGCCTRCAGTGAGCCTGTGGCCACCTCATAGTCTTGTTGGCCACAGCCTCTAGAACCAGGGATTGGAGGAACAGCCATCGCTAGCATG
GTGCTTGGCACTGAGCGGGTGCTTAGTGAATATTTATTGAATGATTTCCAACTAATGGAAGAAAGCTGAATAGCACAACACCCAGAGGATTGAGGTTTAT
TGAAAACCAACCCAAAGGGCTATGGTGAAAATCATCTCAAAAGGCAGAGGGCAAGAAATTGATATTTATTGAGGGCTCTCAGTGGGTGTTGTAGGGGGAA
GGAAGTACAATGTCCTGGAGCTAGGCTGCCTAGGTTTGAATCCAGGGTCTGCCAGATGTAGATGTGTGATCTTGGGCACGTTTTTCAACCTCTCTGTGCT
TAATCTTCTCCTCTTTAAAGGTGGGCTAGTGATAGTTACCTCACAAGGTAGCTGTGAGAATGAAATAATGATACATAAAGCACTTATAACAGGACCTGGC
ATGCAGTGAGTATCAGTGGGTATTTGCTGTGGTTATTTAGTTATCTACTTTACATGTACATGTAAAGAACTAGGGATATCTGTATTAAGACAGGGTCTTG
TTATGTTTCCTGGGCTGATCTCAAACTCCTAAGCTTAAGTGATCCTCTTGCCTTGGCCTCCCATAGTGCTGGCGTTTCAGGCTTGAGTCACTGTTCCTGG
CCTACTTACCTTCTTTTTGATCTTCTGAAGTCACCCCCTCCATCTGACAGGAGGTTGAAGGTCCGATGGCCACATAGGTGGCAGTGCTGGAATTTGAACC
CAGGCCTTCCTCCCTTACCTCTCTCTACCTCTATCTCTTCTATCTACCTGTCTCTACTCCCTCTCCCTACTTTTCTCTTTTTCCCAGCCTCCCCCCGATA
TACTCAACATATATCTCCCTCTCCCTCCACCCACCTGCCTCCCCCACACTCCTTCTTTCCCTCTCCTCTGCAGGGAGAGCTTGGAAACCAAGAGTCTATG
AGCTCGAAGGGAGCATGCAAAGGTGCCAGGCAGGCCCTCAAAGCTGGGAAGCTGCAGTAGGGGTTCTTTGGGACCCAGTTAAGCAGTGGGCCCTTGCTCT
GAGATGCAGTCTGCTGAGCTGCCATCTGGGGACACATCTTGAGTTTCTCTCCATGATGGCGCAGCTCTCAGCGTAAAGCAGTCTATGGAGTGAGAAGGGA
AAAGGCCCCAGTAATAAAAGGCAAAGGAAGCCCTGGTGAAGTGACTCATACCTGTAATCCCAGAACACTGGGAGGCCGAGATGGGAGGATCATTTGAGCC
CAGGAGTTGGAGACTAGCCTGGGCTACATAAAATTATATATATATATATATATATATATATATATATATATAAAATAATGCAGAAGTTTTATATATATAT
AAAGTTTTATATTTATATCTATAAAGTTATATATATATATATATATATATTTATTTATTTTCAAGACATGGTGGCATGCAACTGCAGTGTCAGCTACTCC
GGAGGCCGAGGCAGGAGAGTCACTTAAGACTGGGAGCTCGAGGCGGCAGTGAGCAGTGATGACTCCACTATACTCCAGCCTGGGTGACAGAGTGAGACTT
TGTCTCAAAAATAAAATATAAAATAAAATAAAAAGGAAGAAATAGCCAGTAGTGCTTTCTTGTAGACAGAGAAGCTGGTGAAATGATGTAACCAGGCTGG
GCATGGTAGCTCACGCCTGTAATTCCCAGTACTTTGTGAGGCTGAGGTGGGCAGATCCCATGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGATAA
AACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCACAGTGGCTCATGTCTGTAATCCCAAATGCTTGCTCGGGAGGCTGAGGCAGGAGAATCACTT
GAATCTGGKAGGTGGAGGTTGTAGTGAGCTGAGATTGCACCACTGTACTTCAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAGAACAAAAAAA
AAAAAAGAAATGATGTAACTGGTAGGGAGAAAGCCAAAGGTTAGAAAGAGAACATGAATTGAGAATGGAAAGATCGCAGAGGAAGCAGATTTGTCTGCAC
ACCTCTTGCATGTGTATTTGGAGAAGCTCTGTGTGCTGCGGGTCGAGGGAAACACATAACTGGAACAACTGTCCTTTTCCACCATTGTTAAATCCTGCTT
TGCTCACTGCAGGAGAGGGGGATTATATAGGAGCTTCTGGAAACAGATGCCTTGGGAGCTCTCCTCCTTTTCCAGAACTCCCACACTTGCTCTTGTAGAT
CATCATAGGATAACTCTCCGCTCCCTTTCCTAAGAAAATTGATCTAAAAAGTAATTATGGAATCTTGCAGTGCTTGTTGGGATCAGAGAAGGCTCCTCCG
ATGATGGGATGTTAGGTAGAGGGCTGCAGGGACCTTGCTTTTAGTCAGGAGGCAAATCAAGAGCCAAGAGAGGGAGGGGTGGTCGTGAGTTTTTATGATG
TTCCTTCTCTTCTCCGCTCCTTCCTGACAAGAGTCTGTCTCTTTTCTCTGTGTGTCATAACTACCCACATTCACCCCGGCAGCCCATCTACCTTGTTTCT
CTCATAAGTCAGCTTCTCTCCCATCTTTCCTGTGAAAATTTCTAACAAAATGGGAGTTAAGGCCGGGCATGGTGGCTCCTACTTGTCATTCCAGCATTTT
GGGAGGCTGAGGTGGGAGGATTGCATGAGCTCAGGAGTTCAAGACCAGTGTGGGTAACATAGAGACTCTGTCTCTACACATTTTTTTTTTTAATTAGCTG
GGGATGGTGGCTTGCACCTGTAGCTCCAGCTACTCAGAGGGAGGCTGAAGCAGGAGGATCCCTTGAGTCCAGGAGTTTGAGGCTGTAGTGAGCCCTGGTC
TCACCACTACACTTCATCCTGGGCAACAGAGTGAGATGCTGTTTTGTTTTTGTTTTTTTTTGTTTGTTTGTTTGGTTTTTTTTGGAAAAAGAAAGAATCA
CCATAAAAAAGATGGGTAACTCRGAAATTTCAAATGCTTGAATTTCTTGGGTTGGGAAGAATATCCCAAAATGTGTTTCCAACTACCTCACTGATTTTGA
CTTCACAGGGAGAATATTTTGATTTTTATGCTCTGAGTTGCTGGTACTGCTGTGGGCACAGAACTGGGTATGACAGAACATTTTTCTGAACTATGACTCT
GATCTTCTCAATCTCTCAGTGGGAAAGAGTTTTGGAACTTATTATTTTTAAAAACTTGGTAAAAGATTTATACCATAATATTTATCATTTTAACCATTTC
TCAGTGCACAATTCAGTGGCATAAAAGGGCATTCCTGTTGTGCAACCATCACCCCTATCCATCTCCAAGTGAACTTGATTCTTAAATCTCCCAGCCATCT
GTTTCAATTCACTAGATGTTGTTCCACCCAGCACGTCATGGTGGAAAGGGGCAGGCTGTGATTTTTTTTTTTTTTAACCTCCAGCAGCTGTGTTCCCTGT
GGCAACTATGTAACCTCTCTGAGCCTCAACATCTGTCTATAAAATGGAAACAGTGCAACCTACCTTAGCATTTGATGATCTCAACTTGGATCCCATAGCG
GGTATCTCCAAAATTTCCTCATCTTGACTACGTTCTGGTGAAACTTAAGATGTCAGCACATGACCTACCTCCCTTCCCTTCTCATTCATCTGCATTTTCA
CAATGCTTGGTTTTATCTTTTATACATATAATGCACAATACATGTAGTGCCAACAAGAATTATAGTTTCTGTAAGTAGTGTATGATTGCCCACGGATCTT
CAGTAACTCATTAGGCACTGACGGGCTGACATGAGCAACAACGAGACTTAGTATCTGTTGCAGCTCTCCATACAGTTTACGAAACTCTAATCCATAAAAG
CCGTTTGAAATTTCCATTAGGAGATTTGCACAAGTGGTTAAAATTAGTCATGCATTCTTGGTCTAAACTGCAGGAAGGGTATCTTTACTGTGAAAATGAT
TATGACATGTTAAAACTGTGTAATAGTAAGCAGACAGTTTTCCGAGCTGCTGGGTGAATTCTGGAAATGCTCTATTATTTTCTCCCTGTTGACTCCTTTC
TTTCAGGCAAGACAGCCAGCATGTTGACTTGGAAAACAACTGAGGCTGAGCAGTTTCAGAGCATTGACATTACGTGGCTTCTTTTGTGGGCCACCCCAAC
TCTTTTATTTTTTTTAATTGCTGCTTCTTCCTCTAAAATACAACTTGTTTTTTTTTTTTTTAAAGAGGAGGAAGCCTTAAAAACCAGCGACAGTCTTGGT
TTTCTTAACCTGTCCGCCATTTAACATTTCTAGAAGTGCAACATTGCTTCTAAGGTAAGGGCAAGGACCATGACTTTTGCATGCTGAAAATGAGCTGCCT
GGTTTATTGAGTTAGTTATTCCTTTTTAGTGCCGCAGTGTTTTCAGTGTTAGAGAAAAGGCTGTGATTTTCTTTGATATTAAAAAGCCAACCACTTATAT
TTTCCAAAGCCATTTGCATTCAGTCTGACGGCCGCTAAAAATGTATGTGGATTTTTCATCTGAGAGGTTTTCTCTATGCATATTGTTTACATTTATCAAA
TGTTGTCCTGCCCAGTACTTTATATTCATTGTTGCTTCCGGACCTAGCTGACAACATGGTCTATATGAAAAACAACACAAAACAACACATAAGAGAGTCA
AAGGGACTTCTTTGGGGAGAATATAAAAACAAGCCAAGGCGAAAGTGGCTGTAAAAATGCGTTGTGTTCCCAAGTGGAGGCTCCTTCTTTGTTCTGTCAT
CAGTTTGTCAGTTGTCAATCAAACCTCCCTTCGCCTCACACGTTTGCTAATGTAAGAAGTGCTGGCTCTGCTCTTAGCCTGCAGTGGTGCAGCTTAAAAA
TTCTGGGAGGGTTTCATGCAGTAAATACTTAAARTAACAGAAAAGGACTGGGGAAAAGCTGATGTTGTAGCTGTATGATCACCCATGTAAAACTGTTTAT
TTAGTTATTTATTTATTTATTTGCTTTTTTACTTCCTTTTCTATGCCTTTGGTGACTTTGTGTAATGCTGTATGTACCATCAGAGCACATACTGCTTTTG
TGCACACATACATTGAAAACAAAATGAAAAAACAAGAATAAAACAAAAACCCTATTCCTATTCCTACAATTCTGGTACTTTGCCACAAGGTGGTGGTAGT
GTATCTTGAGTAAGGAATATGACCTGCTAGATATAAGCATCTGTTTATTTACACACTAAGGAATGTTTGAGTGTGGAACGTGGTTTAGATGCTGTGCGTA
CAGCAGTGACTCAGATAGGTGTGTATTCTCAAGAAGCTTTCATTCTAATGACACATACTTTGTCTCCAGTCAGAGTTATGGCAGGTTTTTTTTTTTTTTT
TTTTTTTGACTAAATTCACCCATATTTGATGGCAAGTGTGATCACAGCATGTTTATAAAAATCATTCTTAATTAAGGCATTTCCATCTTATCAAGCCCCC
TATTTAATAAGGATATCAAAAAAGAAAACAGTTTTCGTGCATATGTGTAGCTTTTTAGATTCACTTTTTCCTTATTTGACCCATATAAACTTTGTCTGTC
TGTGTCTGTCAGTCTCACACACATCCTTCAACACATCTCTTATTTCTTTCCAGAGCCAGGCTAAAGCACCCTTGCCATCTTCTCTCTCTGCTGTTAAATT
AGATGCCTTCTCCAGGAATCTCTCTGGGGGCATCCTGAGCCTTCCCGATTCCATTTCAGATTTCTTTCTGTAATCAAGAGCTCCATCTCTGTTGCTTTCC
TGGGGCTCTTCCTCTCCTCTTTTTGAAGCTTTTCATTTCCCTTTATATTCTTTCATTCGTCAACTACAAAGAAGCTGCAGGCAGGAACAAGAGAGCTCAG
CACACTTGGTGCAGTCTCTCTGGCTTGGTAATTGGTCCCAAGAAAATAGTTTTTTTCCAATTATGGCAACATTGAAAACTTATCCAGGAGAGGAWAGGCT
CTTTCAGCTGCTCTTTCTCGATCCTTGCAGTTTCCCTTTTGACCTGTGGGTACACATGGTACTGACGCRATTGGCACCTCAGATGGTTCTTCCTGACAGC
TACCCTTGCAMCTGACTCAGGATACAAACTACCTTTTTTTTTGGAGACAGATCTCACTTTATCACCCAGTCTGGAGTGTAATTGACGCAATCCTGGCTGG
CTGCAGCCTTGACCTTCTGGGCCCAAGCAGTGTTCCCGCCTCGGCCTCCCAAAGTATTAGGATTACAGGCATCAGCCGTCATGCCTGGCACAAACTGCCT
TTGGAAGTGAATCAGTCAGTTGCCTAGTAGGCCTAAGGAGACCATGATCCATGTAAACCATGGAATATTTTAAGCAGAAAAGAACGTATTCCCCTTCAAG
GACAAAGTGCTGGAATAATTGACATCCAGGTTATCACAGAGCCTTCCTATAGTGTTGATTCTGATCACTCAAATAATCTTAGTGTTAAAGGGTTTATTTT
TATTTTTCTACCTTCTTTTACCACCCCTTACTCCCATCAGAGCACCATCAGTCTTTTGGGAATAAAATAATTCCTCAGATATATTAAAAAGCTATAGAAG
CAGAAGTTAACGTACATGCAAAAATCTCTACATTTCTCAACAATTGTGTAACCACTAAATATAGGGAAAGAAGTGTGCAAGGTATAAGACATTGGCCATG
CGTCCTTGTCTGTGCCACCTCACCAGGAGCATTGCTCCTTTTTATGCACAAGCATCAGAGGTTCTGGACATCTTCTTGGGCTAGTTGGTATAGCTTCCTT
CTCAGCTCATTCTGCAAGGTTTGCTTTGGAAAAGTCTGTGCATCTGAGCTCTCTCTTGCCATATCAGGAACCGAAGTCAGAAATAAAGGCTACAGATGCT
CAAAATCTGCAGTATTCAATCTTTTTAAGGCCCAGCATGGTGTCTCATGCCTGTAATCCCAGGGCTTTGGGAGACTAAGGCGGGTGGATCACTTGAGGTC
AGGCATTCAGGACTAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCTGGTGTGGTGGTGCACACCTGTAGTCCCAGCTA
GTTGGGAGGCTGAGGCAGGAGAACTGCACTCTAGCCTGTGCTAGAGAGCGAGACTCTGTCTCAAAAATATAAATAAATAAATAAATAAATAAATAAATAA
ATAAATAAATAAAGTATCTGTCCCCAAGTCACAATGCTATTCGGTTGGTGCAAAAGCAATCGTGGTTTTTGCCATTACTTTTAATGGAATAGTAAATAAC
ACTTGATCTTTGGTCTTCTGACCTGAAATCCCATGGCTAGGATTGTCAGATAGAATACAGGACACCTGGCCTGTTACAGTGGCTCACACTTATAATCCCA
GCACCTTGGGAGGCAGAGGCAGGAATATCACCTGAGCCCAGGAATTTGAGGCTGCAGTGAGCTATGACTGCACCATTGCATTCCAGCCAGAGTGGTAGAG
CAAGACCCTGTGTCTTAAAACAACAAAAACAAAAACAGGACACCTGGTTAAATGTGAATTTCAGGTAAATAACATATTTTTTAAAAATGTATCCCATGCA
GTATTTGGAGCATATACTCTAAAAATTTTCTTTGGGATATACTTCTAAGAAATGATTTGTTGTTTATGTGAAACTCAAATTTTACTCGGCATCCTGTGTT
TTTATTTGCTAGACGTAGCACCTACCTGTGACATCTTTTTGTTTCTGCCCTGCTGTGTCACAGGGTCTTGGTATCTTTCCTCCTGTGATTCTGACACTAC
CTTGGGAAATGACTCTGTATCAAGCGTTTACCATCTGCTGAAAGCTTTGCATACTCTGTTGCTTATCATGACAACTGCCCTGAAAGTTGGGTGTAMTTGT
TACCCCTTTCCAGATTAAAAAACCTAGGGGTCAGAGAGGTTAAGTAACTTGCTCAAGACCTCACAGTGAACTGTGGTGGACCACTGGGATTAGAACCCAG
TGAGTTCAGTGGCTTTGCCTCCAAGTGCGTTTATTATTGTCCGCACTCCAAAATGGCTTTAAAAAATTAAAAAGATACATGACGTTGAAATCAGTGACAG
AGGCATAAGGCTCCTTGAGGGAAGAAACCAGGTGTTGGCCATAAAAAAATTATTTTTCACAGCGCYCAGCAAAGGGCTTGTATGCAAAGGACCCTCAGTA
TAAGCTGGTTGTTGACTGATGTGTTTCAAGAGTAAGTCAGAAAAATAAAAAGAAGGCAGGGAAAGAGTTCAAAACTCAGTGTCACTTGCACATCCATTTT
GCCCTAGAAGTGTTTTAAATTTTATCAGGCTCATAAACTATGTTTCGAAACGTGAAAATAAATTGGCCCCCTGACCCCTTATGAAGTGACATCATTCATC
TGAAAGGTTTATCGCCCTGCGTGTCATTTTGAAGTTCCCTACTCTCCTCCTCGTTCTCTAAATCCATGAAAAAATAGAAATGGGAGGAAGAACTGGAGAG
AGGGGTTCTGTGTGTGTGGAATGTGGCTCTGGAAAGCCCCCAGCCCTCCTGTTAACACAATGCTTTTATCCCGTAATCTCTGCCTGCGGGAGACAAAATA
ACAGTTCATCTGGAAAACAAGATTAACTCATTTAACTTACGTAGTGATCACAGAGAGAAGCTTGTTGGAGTTGTCTGGCTGAAGGAAAGCCCGCGATTCT
CGGCCATTCCGGTTCACAGGGCCTGGGTAGCGGGCCCAGCCTGTTGCAAGTAATCGGGCTCTGTCAGATCAGCCTTGGTGAGATTGGGATATTACCAGGG
TATTCTGTTCATCTCTGACACAGGCCCTCTCAATCTGATAGACGGTGTGCCTCTTCTCTTCATTAGAACATCTTCCTGAACACTTGCCTGTCTGCACTGC
CCTGCTAAGGGGTTTTCAGGTGAGCGTGCTGTGGGTACCTTCACATTTCAGGCCTTTTAACAGGGAATGAAAACCAACTGCCCTGTGATTCCAAGTCTGC
TGATGCATGTGAAATTGGCTTTGTGTTGGGGCCTCTTCTTCCAAAGCAACAGTAAGCATTTTTTTTTTTTTTGTGATAATCTCTCTCTGTCACCCACGCT
GGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCCGTCTTCTGGGTTCAAGTGATTCTCCTGCCTGAGCCTCCCGAGTAACTGGGATTACAGGCACC
CGCCACCCGACGCCCAGCTAATTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTGCCCAGGATGGTCTTGAACCCCTGATCTCAGGTGTTCCACC
CTCCTTGTCCTCCCAAAGTGTTGGGATTACAGGCGTCAGCCACCGCCCCCGGCCGATAGTTGCCTTTCTTACCAGCCTGGGCCAGGAGCAGTTGTTTATT
TTCTGCTATTTCGTGTGTTTCTTTTTGCTGGCAGTGACATACTCCTACAGGGATGTCTGCCTCATGTTGACCTGCTTGTGTTTACCACCTAGAGGCCTAA
GAACAGGCTTTCCCCGTTCAAATCACCCAGTGGCGTGCACACTTGGGGCACCTGGGGACTGGTTTCCTGAATGGCATTGAGAGTCATTACTTTCCACACA
CAGTTAACTGCAGGGAGATTTGTCTCTGAAAGTAGTCTTCAAGAAATGCGGCAGCTGCTTCTAGCCGCTCCATCCTTCCTTTTCCCAGTGCGCACTAACC
CTCCAGAGCCTTCCGCATCTGCTATGCAGCATTGGCCACRCCAGTGGGATGCAAGAATTTATCCCTTCTGTTGATGCAATTAAAGCTAATGGATCTCATA
TATATATATATATATATATATATTTATATAAATATATTTTATATTTAAAAATATTTATATTTTATATATTTTTATATATTTATGCAAGTATATATCTAAA
TATATAAAATAKATATAAATATATACATATATGTGTATATATAGATTTTGTTTTTTGAGACAGGGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGCG
TGATCATGGCTCACYGTAGCCTCAACCTCCTGGGCTCAACTGATTCTCTCATCTTAGCCTCCTGAGTGGCTGGGACCGCAGGTTCATGCTACCGTGCCCA
GCTAATTGTTTAATTYTTTGTAGAGATAGGATCTCTCCCTTTGTGGCCCAGGCTGATCTCAAACTCCTGAGCTCAAGCGATCCTACTCACTCGGCCTCCC
AAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCAAAGCCTAAGGGACCTTAGAATTTTTTCTCCTTTCTTTTCACATTTTGTTTTGTGCTTGCTTATT
TATTGAAATCTGGACCACAAATAACTTACATGTTTGTCAAGGCCAGATTTCAGGACCTAACCAACACCCGACAGGCATCTTAGAAAGTGGAGGGTGTAAG
TTATAAAGAGAGATTACTTCCAACACGTTTCTTTAAAGCCTGCTGGCTAAATTAGGTGGGRCCTTMTTTGTGTCCTCTCTGTTCTTGCTAGTCTGGCCTT
TGTATAATAGGGAAGCAGATATATCTGGAAGCCTCTAAGTGTGCATCATGGAAATTGTTTGAAATGTTCAAAGTGATGTGGATGTATATATACGTTAAAA
AATATCACTTTCCCTTTTGAAGACATTTACTATTTCTATGGTTTGTTTAGCAACAGCCTGGCTGAATAGTTCTTCAAAAAATAGGAACATGATGCTCATA
TCTGGCCACTGTATATGCTTTGGAGGGAACTTGAAGACTAGGTGGCTGCAGCCACTCAGAATCTTGTTGAATATTTAACATTTTTTTGTGAATGTATCAA
CTAAGAAGACTATCAATTTTAGAGCATACAGCTGTTCTAGAATAATAGTTTGAAAGGCCAGCCGCAAAGATTGTGGTGATTAAAGTGTGAGCAGATGACG
GAATGATAAACCTTAACGCTTAAAAATGTGTTTTTATAGTGCCATTCCTATATAACATCGTCTGATAAATGTATTTGAGACGAACAGGCCAAATGAAAGA
ACCTTCCATAAGGGGAYGCAGCACAGTTTGAATATAAGTGTTCCCTCCAATTCCCATGTTAGTGCTTTACTATGAGTATTGACCAGTGTTAAAGAGTGAG
CGCACAGGAGCCTTCTCAAAGCCTCCTGCACACACTCTCCCACTGTAAATGCACGAGTATTGATCACAATTATTCCGTAAACACATCTTACAAATTCCCT
CAGTGCACGCGCCATCTAAATTAATCCAAATTCAGAACAAASCTCTCTTGGAAAAGGAAAGAGCATCTCTTTCAGGAGCTTCCCTCTTGGACATTAAATC
TTCCATAATCTGTGCTAGTTCGGCAAAGAAGCCCCAACGTCCTCCCAATCATAGGGCGCCTGAGCTCTTGGTCTCCTATATCTTATATTCATTATAGATG
TCTTATATCCATTCCTGTATCCTTTGTGATGTCTTGAGTGAGAAAATGCTCTGACCAATAAGCCAATGTTCAATTGACTTCGAAATGTTATGTGGGATAG
GCTCATTCAGGGTGGTACGGCTGTAGACAAAATGCTATATGCATTGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGG
GCAGATCATGAGGTCAAGAGATCGAAACCATCCTGGCCAACCTGGTGAAACTCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATAGTGTTGTGTGC
CTGTAGGCCTAGTTACTTGGGAGGCTGAGGCGGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTCAGCCGAGATTATACCACTGCACTCCAGCCT
GGTGACAGAGTGAGACTCCATCTTAAAAAAAAAAAAAAGTCTTATATTGATTAAAAGAGACTTAAGACACATAGTACCAGATGGATTGTGTGATGCTCAT
TTTGATTTGGATTTAGGGGAACCTGCTCTCAAAGACATTTTTCTGAGACAAATAGGAAAATTTGAATATGGAGTAGCTAATAGATAGTATTAAGAGAGTA
GCCTTCATTTTTTAAAGTATAATAATATTTTAATTGAGTTTATGTTAGAGATGCATACCGAAAAATCTACAAGTGAAATGATATGATAACTAAGACTTGC
TTTAAAATAATGCGGAAAAAACTGTTAGAGTAATAGCGTAAATAATTCAAGATTGGAAAATGTTCATGTTAAATTATTGTTGGCCGACTGTGGGTTCATT
TAATTAGGTTCTCTGTTTTGGGGTATGTTGAAAATTTTTCATAAKAAAATATTATTCAGAGGTCTCAAGAGGCAGGCTGCCAAGAATAGCAGTTAGAAAT
AGCTAGTATCAGGCCTGGTGTAGTGGCTCATGCCTGTAATCCCAGTGCTTTGACAGGCTGAGGGAGGAGAAYTGCTTGAGCCCAGGAGATCGAGACCAGC
CAGGGTAACATAGGGAGACCCTCATCTCTACACCGAATTTAAAAACTTAGCTGGGCATGGTGGTGCCTACCTGTGGTCCCAGCTGCTTGGGAGGTTGAGG
CAGGAGGATTGCCTGAGCCTGGTAGAGGTGGAGGCTGCAGTGAGCTGTGATTGTGCCACTGCACTTYAGCCTGGGTGACAAAGTGAGACTCTGTCTCAAA
AAAAAAAAAAAAAAAAAAAAAAAAAGCTAGTAGCACACCCCAAAACTTCTAGACAGGGCATGGTGTGAGCTGGARTAGACAACTAGTTCATGGTAACAGG
ACCAGCAGAGCTCCGTCTTGATGCTGTTATTATTTGGTATCTGTTAGGAGCTGAATTATGTGTCCCCAAAATTCATGTGATGAAGCCCTAATTCACAGTA
CCTCATAATGTTACTCTATTTGGAGATACARCCTTTTAAAGGATGGTTAAGTTAAAATGAGGTTGCTTGGATGGTCCCTAATTCAGTTTAATTTGGGTCC
TTATAAAAAGAGGAAATTTGGATGCACAGAGACACCAGGAATTCATATGCATGGAGGAAAGACCACAGTGGCAAAAGACACATTGAGGAGGTGGCTGTCT
GCAAGCCAAGGCAAGGGGCCTCCGGAGAAGCCAAACCTGCTGACACCTTGACCTTGAATGTGCAGCCTTCAGAACTGTGAGAAAATCAATTTCTGTTGTT
TAAGCCACCTAGTCTGTCRCATTTTCTTATGGCAACCCCTGTAGATAATACAGTCCCATTCTCTGGGGAAACAGATACCTCCGCCAGGGTCCTGATCTGA
ATATGATTTGGGGTGATGGAACAGAAACACCCGAGGASTGTCGTTGGGGAACAGGAAACCTGTCTGTAGTCCTGGCTCTGTCTCCAATTGGCTACGAGGG
CTTGTGTGTACTCTAGTTCTCTTTCCGTGACACTGCATTTGGGGGGAAGGTAAGGGAACTGGGGAAAAGAAGGCAAAATGATGACTTAAAGAGACTGATG
AACCCAAAGCTCTCTTGTGAAGCCCCTTCTAGAATAAGTCCGTCTCACGTTACAGTGCTTAGGAAGTGTTAGATGTACTGTCATTTCTTCAACATATATG
TCCTATATTAGTCTATTCTCACACTGCWAGTGAAGACATACCTGAGATGGGGTAATTTGTAAAAGAAAGAAGTTTAACGGACTCATAGTTGCACATGGCT
GGGGAGGCCACACGATCATGGCGGAAGGCAAAGGAGGAGCAAAGGGGCGTCTTACATGGTGGCAGGCAAGAGAGCCTTTGCAAGGGAACTGCCCTTTATA
AAACCATCAGATCTCGTGAGACTTATTCACTGTCACGAGAACAGCATGGGAAAGACCTGCCCCCATGATTCAGTTACCTCCCACCGAGTCCCTCCCATGA
TACGTGGGGATGATGGGAGATACAATTCAAGATGAGATTTTGGTGGGGACACAGACACACCATATCATGTCTTGGCAGCCATCTATATTCAAGACACTAT
TCTAGGTATGACATAAAGGATGGCAAAAAGTCAGTTACTTAAAAGTGTGGAAGCAGAGTGTCCCAGGCGGAGGAAACGGTAAATGAGACCTCTGGTAGTA
AGAAGCAGTGTAGCATGTTTGAGACACTGAAGTCCAATGGAACTTGGGCGGAATAAATGAAGGGAAGATTCAAGGTGAAGGCTGAGAGGTGTGCATGGGT
CTGATCACACAGAGCCTTGTAAACCAAGGTGAGGACTTAAGATTTTATTCTAGCTGCAGTGAGGAACCAGTGAGTGGTTTTAAGCCAGAGAGAGATTGAT
AAGACATGGAATGATATGGTGTGATATATGAAATGACATGTTTGAAATGATAGATGACGTGATTGTGATATAATATSATGCGGCTGAGGACAACACTATA
ACTGCTCGGTAGAGAATGGATTGTCATGGCCTGGGTGTGGTGGCTCATAATCCCAGCACTTTGAGAGCTCCAGGTGGGATGATTGCTTGAGCCCAGGAAT
TTGAGACCAACCTGGGCCACATAGTGAGACCCCATCTCTATTAAGAAAAAAGAGAATGGATTGTGATGAATTAGGATTGGAAACACAGAGATCAGTTAGA
AGATTTATCAGTGAGAAAAGAGTTCAGTTGCAAGTTAAAGAAAACACAAGTAAAGCTAACTGTAACACACAGAGCTTTGTCTTTTCTTGCTGAATAAGAA
GCTGAGAGGGAGGCAATTGCTGTCACTGGTCCAGCCGGCTCAGCAACTGCACATTTGTCAAAGTTCTTCATCCCCAGCTTTGTGATTCTCTAGGTTATTC
ATTCTTCTGGGATCGTAGATGGCCACCACAGGTTCACTGTGGAAAGAGGGGTAGGAATTTTTACCAGCTGGGTCTGACTCCACCCCACCCCCACCCCTAC
CCACCGTTTTTTGTTTTTGTTTTTTAAGATGAAGCCTCACTCTGTTGTCCAGGCTGGAGTGCAGTGGTGTGATCTTGACTCATTGCAACCTCCGCCTCTT
GGGTTCAAGCGATTCTCCTGCCTCAGCCGAGTAGCTGGGATTACAGGCACATGCCACCACACCCAGCTTTTTGTATTTTTAATAGAGACAGGATTTCACT
ATGTTGGCCAGGCTGGTCTCGAACTCCTGACTTCAGGTGGTCTATCCACCTTGGCCTCCCCAAATTCTGGGATTACAGGCATGAGCCACCGTGCCCAGCC
GTGTCTGACCATTTTATCAGGAAAAGCAAAAGCTTTTCTAGAATCTATCAACTCCCTTCTGCATGTGTCTATTTGGCATGGGCTGTGTCACATGACCCCT
GAGCTGCAAGGAATGCTGGGATACGATGGAAGCCTGCCAGAGGTAGAGCCTTGGGAAGGGCTGATAGGGCCTCTAACCTAAATGTCCACCACCAGAGGTA
TTACAGAGGTTTGAGCAAGAAATTATGGTGGTCCCAGGGATGATGCATTCTGATAATCATTATCATCAAGAGGAATGTCTAAAGGAAAGGGGAAAAAAAA
AATCAGACAGTCACATTGAAATGAGGTCCTTAAGATAGGCCCTAATCCAATATGCACATAAAGGGGAATTTTGGGCACAGAGACAGAGGCAGAGATAGAG
GGAAGATGATGTGAAGAAAAACATAGGGCCGTGTAGAGGCAGAGGCAGAGATTGAAATTGTGCTATCATGAACGGGGGAATGTCTGGGACTGCCAGAAGC
TCCTGAAGGCAGGAAGCATCCTCCCCTCCAGCCTTTGGAGGGAATGTGGCCCTGTTGACACCTTGATTTCAGACTTCTGGGTTCCGCAACTGCAAAAGAG
TACATTGCTGTTCTAAGCCACCCAGTGTGCAGTAGCTTTCTGCAGCAACCCTAGGGATGAATGCTCCTGCCAAATGCTGCCTGCCCTTCAAGATGAGTGT
TATTTGGCAGAGGAAGATGATGCACTGCTTATTTTAGGGGATGCCCTCACTTTTGGGTCCCTATGTCACCTGTGTGTACTCCATGCCRGTGTCTTCCCAG
CCCCTGCCAGGCAAGTTCGTGTGGTTCTGTGATAACCCTCATCTCTATAGGTTCTGTGATAACGCTCCTCTCACTGTGCTGCTCCTTGGGTGACATCACA
CCCAAGGAGAATCATGGGACCACCTCCAGAGAGATTTTCTTAGAGGTGTGGAACAGAAAAAAAAGCGTCTCTATTCGAATTGCAGGATCTTCCTTATAGT
CCTGGAGAAACGTGGCCCAGCATTGTCTTGGTCCATAGCCTGAGCTTACCCTCCCTACGCAACCACAGCTGTGTGCAGCTTCAGCCAGGTTTGCTTTACC
TGATCTCACTGGCTTCATGTTTATTATCTTATTTTCAGTTTCAAAAGGGCATATCCTGCCCCCTTTCCCAAGATCAGAGGATAAGGAATGTCTTGATGTT
CTCAGTCGTAAAATTAGGCTAATAACACCTCCCATGGTTGTCTGTGAGGACAACAGAAAGTAATGTTTTCTCTGAAAAGTTTAAAAGGGTAAATGGCTTC
ATCACATGGTGATGACAGTGATTATTCCAAGAGATGGCTGTAAGCTCCCTGAGAACAGAGGTGCTCTGTGTAAATCTAGTCTGTCTCCCCAGGCTTAGTG
GTTGACCTAGACTATACCAAGAGTAAGTGTGTTTTTTAAATTTAATTTAAATCAATTCATTAAGCATTGCTAAATTGGAAAACCATGGAATATAGAGATC
CAGTAGTTAAGAGCCTACTGGGAGAGACAGCATAATAATTACAATAAGTGCAGAACTTGMAATAATGTAATTGAAATAATGTAATACAATCCTGCTTAAT
ATTACACTGTATATATTCATTGACTTATAGACTGAGCTCCTTATCTTGTTCATTGCYATGGCTTTAGCACCTTTTGAACAGTGGTGCTTGGCTTTTGGTA
GGTGGTCAACAAATGTGTATTAAGTATATGAACTGTTGGAAGGGTCTGCTGTGAAGGATGTGATTTGCTCTCTTTGATGGTGGACAAAGAAGGTTTCCTG
GTGGAAGAGATTAATGAGTTGGGTTTTGATGAATGAATAGGAGTTTCCCCAGACACACGGAGGAGACAGAATGGAATGAAAGAGGGGTTTTCCAAGAAGA
GGCACTGAAGGGCAAGACTTCATTGCTTCTTTGATACTCCAATGCCGGCTTCCTTTGGGTTGGACTCTGATGGATCTAATCGAGGATTAGGATGGAGGTA
GGTGGGAACATATTTAGAAGGATGCCCTGTGGTTTTTCTCCTTCCTGCTATTTATATTTCYCTCTCTGTCTTTCCCACCTGTTTGGTGATGAGGAAGGAG
CTGTGTACTGGTTTGAAACCTATTCACGACATAGTGGACCCAACACCAAGTGTCTTATTGTAAATGGATCCACTTTTACTACAGTTACTTTAATGGCATC
TAAATGATAAATGTTAATAAGCATTTTTGCTTGGGAAAGCACAATGGTATTAGCCTGCCAGACTGCAAACGTTATTTGCTTTATGGAAGGGGATTTCAAA
CAAGGGGTTCTGGTGGTTGTATTTTTGCCTCAACGGTTATTTATAGAGAAAGTATGGGCCATTGCATGTTTATAGTATCTCTTTTTTATGGCTGCCCAAG
TTATTATTTTTTATTGGTTTGGGTACTTAATTTGCACATTTGTAAACAATTATGTAGTTACACAGCTGTTGTACCACAGAGACCATATGCATTTCCATGT
TAAGAGAAAAGTCCGTGAGGGATTCTCACTGGATACCATCATAAAAGAATTATTGTGGTGCCAAAAAAATTTAAAAAAACGACTAGCTCAGAAGTTATCA
TTGTGTTTTTATAGTATTTGGAGTTAAATAAATTTAATGTTTTTTTGCTCACTTGAGTTGGAGCCAAACTTTATAACTGAATAGGAGGGTTCTCTTTCCC
ATATTTGAGTAGAACACATGATGTTCAATAAAAATGAATTTGCCAGTCAGAAAAATTTATCTTTTAGAAAATTAATACACTGAGCCAAGCATGGGTGGTC
CATGCCTCTAATCCTAGGTACTCTGGAGGGTGACGGTGGGAGGATCCCTTGAGCCCAGGATTTTGAGGCTACCCTGAGCTATGATCACACCACAGCACTC
CAGCCTGGCCAACATAGTGAGACACTACCTAGATAGCTTAGGAGAGTTCCAATGTTTCTGAAGGATGTTTTTTTAAAAGAARTATTCATTTAGGTGACAC
ATATTTATTGAGACACTAATATATGCCAGGAATTATTCTATTGGTKCCTTTGGAGGAGACATGAATAAAGGCATGGATGTGACTGAGGAGGTAAAGGTGA
AGAATTGGGGAGGGGTGGATGGGGCTGACTCATGACCTAAAGAACATGGCATCTGGRGCTCTYTTGAAATAATCTGCACTAACCACTCATTCACATTTTT
TTGAGTCTGTAAGATCCCAGGCACTCTTGGTAGCAGGGGGGTTAGGTGGGTGAAGGGACAAGTAGAACTTAGTTCCAACAGAGCTAAAGGGTATTGGTGA
AGACTATGAGCCCCTCATGACGCACAACTGGTTTCAAATCCAAGCCCATCATGTATCATCTGTGTGATTGTGGGTGATCTCTTTCTTCCCAAAGCCTGTT
TTCTTGCCTGAACCTGATCAACAGAAACAGTCAGTGCAGGTAATGTGTTTAGCACACAGCCTGGCATACGAACTTCCACACAAAACGGGTGACCATGGCT
GAAGGGTTATTCTGGGGAGCCTTCCCTGTGGAAGCCCCATTAACCATCCCTGCTCATTCCTCCCGTGAGACCACCATTTGCTAAATCTTCTRTCAGGTGA
TGTGGGATCCAAGAAGAAACAATAATCAGAAGCTTGCCTTACAGGCATGCACAATTTCGGGTGGACTGTCACATGTGCACTGAAAAAGTCGAGAAATGTT
ATGATGGCCCTGGAAGGAGGAGTGTCTAGATGAAATGCGAATAAATAGGAGACAAGTGTGTCGTTAATTAAGAAGGAGAAGGGGGACTTTAAGGTTACCT
TAAAAGAAAAGAGACCCCTCAATGCTTTGGAAGAGCCTTTTTAATAAGCTAGTCAGGTAAGTTAGATTGCTCTGTCTTACACTGGTTTAGTAATTTTCAT
ATATACTTATTTCCTCTGAAATGTATTAGTAACATTTGTAATTTACCAAATGGAAAATATCACTTAACTTTAAGCTTCATCAAGTTAAGAATGAATTTGT
AACCAGGGGTATTATGTTTTCTCTTATTATAACAAACACCAATCAAAAACAAACAAATACATGACGGGAAAGAAAGAAAACCCAGCATTTATTGGCAGTA
TTTTTCTGCAAAATATTATTTGTTTCCCTTTGCAGTTTTATTCATTTTAAGCACGTTTTCACCAAAGTGTTCTATTCTAAGCTAGTCTCAATTCAATTTA
AAGTGGAAGGTTTTTTTCAGTTTAGATAATTTACATATAAAAGCGTTACTGTACATTTTATGAAATGACTGTTTTCAGAAAACAACGATTTCAATTTAAT
CGTATTGTTATTCTGCAAGTTGAAATGCCTCACTCTTGCTTCTTGGTCTTACTGACAATATTCCTTCTTGCCCTAATTTTAAATGGTGAGTGTTTGAAAA
TTGATGTGCTTCTTTTAGACCCTACCAGTAAGACTTAAGGCCCACTGTGATTCGTCTGATAGACTTGAAGATTATGTGCGCGTGTGTGAAACAAGGGAAT
CTTAATCATCTGAACCTGACGGTTATATAGATCTTTCTGAATTATTTTTCTTTCTTTTCACAAGAAAGAATTATTTTTCTTTCTTTTCACAAGAAATTTT
GCTTGCCAATGGTCAGATCTGTTAACACGAAAACTAAAAACTTATACATCATTTTATATTTTGAAATTCCCAATTTGCAATGTTATTTTTTTTTCTTCTT
TTTTTTTTTATGACACTTTTCTTCYGGAAAAAATCCTTAGGACCCAGTTACTCTCTTTCAGGATTTTATATCATAATGTGTCTGTGAGAGACAGAGCCAG
ATGTTCAGGATTTCAGACCACCATATTTGTCCTAGGAAACCTGCCAGCATTTCACATTCTTGACCCTTGAATTGAATATGAGGCTCTGACTATATAACAG
AAAACACCCGAGTTTTATGATTCTGCAAGCGTGGTTTACACTATAAATTTCCACCGGTCTCTGCTTGTCTCTTCTAGAATTTAGGGTTATTCTCAAACTC
TATTATACAAGCAGTGCCCAAGTGCCTTCCTCCAAAAGTACATTAGATACTTTCTTGGGGAGAGAAGAAATTAGACAGGAGCTACAAAGATGGATTAAAA
TTAATTTGGTCCTAACTAAAAGATAAGTTCCTCCCCCATCCTCAGGATGAAACCAAGAGCACTTCTCCATCATCAGGGGAGCCAAGTGGACGCTAATCAC
CACCGTGCCTGGAGAGTTGCCTTTCAGCTGGTGAATTTACTATTGCCAACTCCTGCATTCTTATTAGTCTATAAGATTGAGGTCGTTTATTGGTGATCAC
TTGTAGATATATATTTATATAAATCTCTTAGCCCAGAATCTCCATAAACTGTTTTTCATGATGTGGATACCACGTGGGATATGTCCCACAATTGGCAAGT
GCCATAAATATATTATAGGCCATTATACTTTCTACAGTATCTTTAATTGATATGCCCCATGTCTAAGAAAAAAAGTAGYTTTTCATGATGAAGGTGATGA
ACTACTTCTTTCCATTATTCTATTTCCCCCTTTTCTTCTTCAGGCTTTAAAGATATCATAATACCATTTACATTTACTGTTTAATTTTTAGGTCTGTATT
TAAAAATCTGTGTAGTGACAACAATTATTCTTATTGTATGAACATATTGTCGGCTGGAGAGTATTCAGCTGTCAGACAMAGTGTTCTCTAAAGTGTTCAG
CCATCAGACAGAAACTCTATTGCTGGTGGCGGGGTTGTGGGCTGGGGGAACCAGAGTATTTGCTCTTCTTTAGAAGTCATCAATGGTAAGCCTAGGGCAG
CCTGAACCACTTGTGTTAGAAATATTTTTTATAAAGCAGGACATGTGCTTTGAAATTTGATTCSTCCGTCACTGGCTGTGTGACCTTAAAGAAATAAATT
GACCTGCCTGAGCCTCTCGGAAATATTGGCTGGCCAGTAGCATCCTCACAGAGTTTTTCTGGGAATCGAATGAGAGATTACATACACAGGGCCAGGTACA
TAGCAGGTGCTCCGAAGATACCCCCGACTTCCTTTCCTACGAATAAAGAGGCCCAACTTTTTGTCCATATGAAGAGGTTGGCAGAGCAAACGCACACGTG
CGTAGGAGCTGGAATTGTCGATAATGTCACAATCTCAGGAAACCCAACTTTGTAAATGTGACTTTCCTTTGCTACTTTTTGCCTATTAAGCAGCCATGTA
TGTAAAGTATTAAATTAGCATCCAGGCACTTTCTTTTTTTCTAGAAGGTGGTATTTTGCATATTAATACTTGCTTAAATCAAGAAGCTAAGACTTTGTAT
TATATTTTGCTTTACGTGCCTTGATTAAGGTCATGAYCCTGACATTCCAGTCCCAAAGGAGACCAAGGAAATGACCAGCACGTGGCTCACTCCCTGTCTG
TCCAGTAGAGGACACCAAGGCACGATGACCGCAGCTCCTGTAGTAGTTATGGTCACTGACTCYGGGTTCAGACGGACTTGGGGTTCAGTCCTAGCTCTGG
CGCTTACCAGTTTTCTCAAGTGACTTTGRGCATCTTTACTCAAGGCTCTTGGTCTCAGTTTTCTCATCTGTAAAATGGAGATCGCAGTATCTAACTCATG
GGTGTGTTTAAGGATTCAGTGATGGAGAAAATAGCTGAAAAGTGACCGTATGAAATRAGCAGCAGTTGTCAAGTACTTGGCATAGTTCCTGTCACATAGG
AAGCATCCAGTAAGTAGTGGTATCTGTTGTGATTATGATCATATTTTATTTCATGGAGTTCAGTAAGAGTACAAAGCGAGGAGTTTTTCTGCCCCTCCAG
TAGCTGTAGAATTTGTGTGATGACTATGTGAGCTTATCCCCTGGTAGGTATAATGGAAAGACTAACAAGAGTAGAAGAGGGATGTAACTGGAGCATGATT
TAAAGGAACTGTAGTTTGTCTCTGTTTTTTTTTTTTTTTTTTTTTTTCCTCTAAATAAACAAAGGAATAGAAGATCCTGTGAAGAGCTGGGTGTGGTGGC
TCATGGCTGTAATCTCASCACTTTAGGAGGCCAAGGCAGGAGGATTGCTTGAGCCCAGTAGTTCAAGATCAGTCTGGGCAACATAATGAAAACCTAATGT
CTACAAAAAGTATAAAAATTAGCCAGGCGCAGTGGCTCACGCCTGTAGCCCCACCTACTTGGGAGGCTGAGGCAGGAAGATTGCTTGAGCCCAGGAGTTA
GAGGCTGCAGTGAGCCATGATCACACTGGAGCACTCCAGCCTGGGTGACAGAGCAAGATTTTGTCTCAAAAAAGAAAATGATGTGAGGAAGCCAGGAATG
ATGAGTACCTGGATTAAACTACCTTAAGGCTGATTGAGTAAAAGTGAAAGATCATCCCGTCAACTGCTGGCCTGCCRCTTGTGTTCGTTAATAGAACATT
TCCCTCTGATTGTCAGGCTTTCTTAGCAGCTACAGAATACTTATTTTCTTCTTTATATTATAAGTTTATGCCACTGCAACATTTTAGAATCACCTGGGAA
GCTTTTGAAAACTCCCAGCATCATGAAGCATGGTCTCTTGCCTTGGRGTCAGTGTCTGTCAAYRTGGCTTTTGCTAAAGAGCCTTCCCCTATGAGAAGTG
AGGCAGGAGAAGGCGGAGTGACCACAAGATGCCCTGATGGTGCCAAGCTATTATTATAAATGAACTGAAGCCACAACAGAAGTCTGCTACCTTGTTCTTA
TCTGCATGTTTCTCTCTTTCCAGCCTCATCTTCTACTACCTTCTTCTACTCCCACACTTCTTCTACCTTGATTCCCAGCCTTCTTTTCTCTTTTCTTTTC
TTTTCTTTTCTTTTCTTTTCCTTTTCTTTTCTTTTCTTTTCTTTTTTCTTTTCTTTTCTTTTCTACCTCTCGGGATTCTGAGAGCATCCTGTAATGTTGG
AAAGCTTTCTGCTAATCCGGGCATTGGAGTGCTCTCTGGGTTCACTCCTGACAGTTCTTTATTGCTTTCCCACCTCTGCCAAGGTCAAAAATGGAACTTG
CTTCTTGTTCTCGTATCACTCAGACTAAGCAGTTGATGTAACAGATAACCCCCAAATTTCAGTGATTTCACATTTAATCTGTAAAAAATGAGGATTTGTT
TRTAGCCCCAAAGACAGTCTAGTTTGGATTATTTGAGGACCTAGACTTCACCTGCACAGTGGTTTCACCATCCATCCCCCCATGGCCTCCATGGTACCCT
CTGATTCAGGCTCAGCAGGAGCGGGAGAGGATGCATAGGACTACATGTTTTCTGGGCCAGGACTGGAAGCAGCATATCTCAGATCCAACCTCTTTMCCTT
GGCAAAAATTCAGGATGTGCAGGACGAGGAGGAAAATGGGAGTAGTGACTATTTAGCCAGTCTTTGCCACATCCCGGTTCATATCTCACTCCGTCATTTA
TAACCTGTAATTAAATCTTTAGTGAGTACCTGTCACAGGTTGAGCAGTCTTCTAGGGCCTCTGGTTACCAGCAATGAAAAAAGCCCCATTTGGTAAAATA
CAGTAGTTGGATTCATTATCTCTGTGATTAACTTGCATAAAAAAGAGACAGTTTTCATTGATGTGACCTTTAGCAACAACTCCTAAAATATTTTTTTTCC
TTCATTCCTGCTTTTCCTTGTTCCAGAAGAAGTTAAGGTAAATGGCTTTTAGCACATTGCACCCCCAGCTTTTAGCACATTGCATTATCATTATAATAAA
TGTTTACGGTTACTGATATTATTWTAGTTCTTTATCGACATTATTACAGTCCATTATTTACAGTCCTTATGTTATTTAGGAGGGGAATTTGGGGACATTG
ACCCACTTATGTGTAGTCCCCTAGTGAAATGACAAGAATCCCCAGAGCTGGGAAAACATTTCCATGCAATTMCCTCTCAGTTTACATCAAAATCAKCTCG
TCACCCTTGAGATTGAAGCTCGCACTCTGTAAGCTCTGAATAAATATTAACCATCTCCTGAACCYTGAAGGAGACATTTTCTGGGGAGCAGTGATTTGAT
GATTTGATGAAGTTGTGTGTGTGTGTGTAGTTTTTCAGACATATCTCCATCTGATTCTTACCTCTAAGAGTTCCTCAAGGGCAATTGTGTTGCTTTGTTT
TTCCTTGCATCTCTGGAGGCTGAGCACCTAGTAGTGATTCCAGGTACGTAGCAGGTATTTTACAGGTGCTTGTTGCATTAATGCACTTTATTGGTGATAT
GGTTTGGCTGTGTCCCCACCCAAATCTCATCTTGAATTGTAGCTCCCATAATTCCCATATGTTGTGGGAGGGACCGGGTGGGASAATATTGAATCATGGG
GGTGGTTCCCCCATACTGTTCTTGGGGTAGTGAATGAATCTCATGAGATCTGATGGTTTTATAAGGGGGAAACACCTTTCACTTGGCTCTCATTTTCTCT
TGCCTACTGCCATGTATGATGTGCCTTTCGCTTTGCACTATGATTGTGAGGTCTCCCCAGCCACGTGAAATTGTGAGTCCATTCAACTTCTTTTTCTTTA
TAAATTACCCAGTCTCAGGTATGTCTTTTTTTTTCCTTTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTT
GCCTAGGCTGGAGTGCAGTGGTGCAATCTGGGCTCCCTGCAAACTCCACTTCCCGGATTTAAGCGATTCTCCTGCCTCAGCCTCCCAGGTAGCTGGGATT
ATAGGCATCTGCCACCATGCACGGCTAATTTTGTATTTTTAGTAGAAATGGGGTTTCACCATGTTGGTCACGGTGGTCTCAAAATCCTGACCTCAGGCGA
TCTACCCGCCTCAGCCTCCCAAAGTCAGGTGTGTCTTTATCAGCAGCATTAAAACAAAGTAATAAAATTGGTTTCTTAGGGTTGGATGGCTTAAAACAAC
AGAAATRTATCATCTCACAGTTCTGAAAGTGAGAAGTCCAAAATCAAGGTGTCAGCACAGCCACGTTCTTTCTGAAGGCTCCAGGGATGATCTACTCCAT
GCCTTTGTCTTAGCTTTTGGCATTGCGGGCGGTGCTTGGTGTTCCTTGGCTTGTAGGTGCATCACTCCAATCTGCCTTTGTCGCTGCATGTCATTCACAT
TGGGTCTCTCTGTCTCTACTCCTTTTCTTCTCTTTTTTCTCCTTTCCTTTTCTTTCCTCTTCCCTTTTCCTTTCTTTTCTTCTCCTCCTCCTTCTCCTTC
TCCTCCTTCTCCTTCTTCTTCTCTTTGTTCTCCTTCTAGTTCTCCTCCTTTCTTCTTTCTTACTTTTACTCCTCCCTGCTTCCCTTCCCTCCCTCCCTCT
TCCTCCCTCNNNNNNNNNNNNNNNNNNNNCCCTCTTCCTCCCTCCCTCCCTCCCTCCCTCCCTCTCTCCCTCCCTCTCTCCCTCTCTCTTTTTCTCTTTC
TCTCTTTCTCTTTCTGTGTCTCTCTTTTCTCTCTCTCTCTCTTTCCTTCCTTCCTTCCTTCTTTTCTTCCTTCCTTCCTTTTTTCTTCTTTTTTTTGGAA
ACAGTCTTGCTCTGTCACCCAGGTTACAGTGCAGTGGCATGATCACGGTTCACTGCAGCCTCAACCTCCTGGGGTCAAGTGATCTTCCCCACCTCAGCCT
CCCGGGTAGCTGGGACCACAGGTATGCACCACCACACGTGGCGTATTTTTAAATTATTTGTGGAGACGGGGCGGGGAGGTCTCCCTGTGTTGGCCAGGCT
GGTTTCAAGCTCCTGGCCTCAAGGGATTCTCCTCCCTCAGCCTTCCAAAGTGTTAAGATTACAGGCATGAACCACTGCACCCAGCCTATCTTAATTCAAT
ACACAGTAGTGCTTTTTGTTCCCCCATGGGATAGTAGGTAAATTAATGGAGGAAGGGAGTCAACTAAACAATTTATTTGAGCAATTAATGGAGGAAGGGA
GTCAACTAAACARTTTATTAGGGCTTTATKTAAAGCCCTAGGGTTAGTTGGTTGGTTGGTTTTGTTTTGTTTTGTTCCTTTTTTTTTTTGCCAGGGGATG
CTGTGGTTGAATTTCCCTCTGTGGTGAGAGTTGCATGGGGCAATGAGGAGGTAGTCCAGAATAGTTCTATGGAAATAGGAGGCTTTCAGTTTCTTCATCT
GTACAATGAGAGTTGAGGGGAGCTGAGTCGGGAGTTGAAATGGTCACTGGGTATCATTTCCGTGGGTGGCTCTAACCTGTTAGGGCTGTCTGCACAGTGC
TGAGCTTTTGTGTTTTTGGTCATCCCAATGTGCTTTTCCTTTTTCCTGAGAGCAGCCCTCTACATCTTCCGTGGTGTAAGTTGCCTTATTCCAGCACGTG
GCATCGCCAGTCCCAGTGCCCTTGGCAGACCATGCAGAATGCATCCATGGAATATGAAAAATGAGGCCCAGTGGGGCACAGTGGCTCACACCTATAATGC
CAGCACTTTGGGAGGCCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAGAAATACAAA
AATTAGCTGGGTTTGGTGACAAACGCATGTAATCCCAGCTGCTAGGGAGGCTGAGGCAGGAGAATCACTTCAACCCGGAAGGCGGAGGTTKCAGTGAGCT
GAGATCCAGCCTGGGTGACAGAGCAAGACTYCATCTCAAAGCRAAACAAAACAAATGAGGGTCCTCATCAGCGTGCCTTTGACACTGTCCTCTGGTCCTG
GTGATCTGAATACATCACCRCAGAACTGCCAGGGTACGTGTTTCCTAGCCCATAGCGAGTCCCAGTGAAAGCAGAGATGAGAAAGAAAGGAGGGACACAA
GGTCTGGGTCCTGAGTTCCAGTCCGTGGGGGCCCTGGTGCTACTGCTGTAGTTCATGAAACATTCCCTTCGATTCTTTGAACTCTCTCATACCTTTCCCT
TAAATTCTTCTTTTTCSCTTATGTCAAGCTTCTTTCAGTAACAACWGAAAGGCTAATAGTAGTGCTGTGTGGGGAGGACTTTGGACTTGGGGATTGGACT
CCATGGGAGAGGTCAGCTCCTTGTCTCCCTGGTGGTGAGACAGGGAATGGTAGAGTGTGTCCTACCTRTGTGCCTGCCTTGCTCTACATCAGTGCTTCTT
GGATATTTTGGTATCAGGACTCTAAACTCTTAGTAGTTATCCAGGACCCAAAATAGCATTTGTTTATCTGGGTCATTTTTACTGATATTTATCATACTAG
AAATTAAAATAGAAATAGTCAAATTCTTTATTAATTCGTTTATAAGTAAGAAACCTATTACAAGTGAACATAGATAACTCCCTTCCTCTTTCCTCTCTCC
CTCCTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGAAAGGGTCTCACTGTGTCACCCAAGCTGGAGTGCAGTGGCCCAGTCACAGGTTACTGCAGCC
TTAACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGTGACTACGGACACATGCCACTACACCTAGTTGATTTTTGTATTTTTTGT
AGAGATGGGGTCCCACTGTGTTGCCCAAGCTGGTCTCAAACTGAACTCCTGAGCTCAAGCGATTCTCCCGCCTTGGCCTCCCAAAGTGCTAGGATGATGA
TAGGCAGGAGCCACCACACCTGGCCATGGATAACATTTCTATAAAATATAACCATATTTTCAAACAAAGAGAAAAGTGGCGTTGTGCTACATTTCTTCTC
CAGTGCTTGGTTCCCTAGAAGACAGCCAGATTCTCACTTCTTTTCCTGCATTCAGTCTCTTGTGATATCACATGGCATGTGGCCTCTGAAAAACTCCGCT
GTCTAGTTGTAAAAGAATACAAGTAAGTAGTCAAGTGACACCTTAGCATTCTGATGAAAAGAGCTTTGACCTCACAGAGCTTCTGGAAGGGTCTCAGAGA
CATCCSTGAGGGTCCCTTGACTGCACTTTGACAACCACAGGTCTACATGATCTGTATAGCCTTTTCCAGTTTTCACATCCTATGATTCCAAGAGGGAAAA
CAATCTTCCTTGTAAAGAGAGTTAAGTGACATTGTGTCCTTGTCTACACTCAGCTGCTAATATGCTATGGGACCTCAGGTATGTCACTTAAACCTTGTGT
TGGAGTTTCCTCCTTGTTACATGGAGGTCACAAGAATAACAAACTATGCATAGATCACCTAATTTAGTCATTCCAACKGTGTGGAGAGATAGAGGATTAG
GATGGACTTTATTTCCTAAGTGAGAAACGTTGGCTTTAGTAAAAGTGTAGTGGTTTGTAGGGTCATCCCCCTAAAGATATCCCGCCCCACCAAAGATATC
CCTAAAGACATCCTGCTGGTTTCAGTGGCTCATGCCTGCAWTCCCAGCACTTTGGGAGGCTGAGGCAGGYGGATCACTTGAGCTCAGGAATTYGAGACCA
GCCTGGCCAACATGGTGAAACCTTATCCGTAAAAAAAATAAAAAATTAGCCAGACATCGTGGTGCATGCCTSTTGTCCCAGCTATTTGGGAGGCTGAGGT
GGGAGGATTGCTTAAGCCTGGGAGATTGAGGCTGTAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGGCAGCAGAGCAAGACCCTGCCTCAAAAAA
AAAAAGTAAAAATAAAAATAAAATAAATATATATATGCATGCACATCCTAATTCCTGTAACACGTGGATATGCCCTTACTTGGAAAAAGTGCCTTTGTAG
AATGCAAGCATCCTTATGGAAGAAGGTCAGAGGGAGATTTGAGAAAGACAGAAGAGGAGGAGTCCATGCAAAGATAAAGGCAGAGGGTGAAGTTGTGCAT
CCACAAGCTCAGATATGCCTGGAGCCATCAGGTGCTGGAAGAGATACTGGAAGATCTCTTCCAGGGCCTCTGGAGGAAGCACAGTCCTGCTAACTCTTAA
TTTGGGACTTCTGGCTTCCGGAACTGCAAAAGAACAAGTTTCTGTTGTGTGTAGGCACCCAGTTTGTGGTAATTTGTTACAGCAGACATAGCAAACTAAT
GCAAATGGGCTTTGCTTGAAGTCCCTCAGCTGCTAAGGGTCAGAAACAGGATTTGAACCTACAGTTTTGAGGCCTGAACCTGCTATGCAGTGCTTTCTTC
CTGATAGTGAAACCACTGTGGTCCCAAACCCACAGGGCTCTATTTAGATTTAAACAAGACTATGAATGTAAACAGACACAGTGCAATGCCAGATCCAGAG
CAATCGAAGGTCATAGTTTCCTCATCCCTCGAAGCTGCCACCTTGCAACATCATCCTTGTGTTACTTCCAGTTGTTTCTTATGATAAGTAACAGTGACTT
TGATATATCCATTTTTTAGTTGTGTACATGGTGGTGATGGTGTTTTACTCCTTGCTATAAACGCTTAAGGATTCCTTAGCTTTAGGGAATGAAACTACTT
GGGCAAGAATATAAAATTTTGTTCTATTTTATTTTAAAGCTCTGGTTACATATGGTCAAGTTGCTTCCCAAAAAGCGTCTCTGTCAGGATGATCTTATGA
ACGACSTTAGTACCTCAATTTTACTGTCCCATCCTTTTTTCCTCCTTCCTTGCCTCCTTCCCTCTCTGCCTCCTTCCTTTTCTTCCCATTTCCTTCCTTC
CAGCATTATCATATAAGCCACGTGCTGGGATGTACCAGGCACACTAGCTCTATAGGTAAGATATTTCCTAGGACTCATCATTCACATGAGTCCAGGAGAA
ATACATCTTTTGTTTGTTTGTTTGTTTTTTGAGACAGAGTCTTGCTCAGGCTGGAGTGCGATGGCACCATCTGAGCTCACTGCAGCCTCAACCGCCTGGT
CTCAAATGATCCACCCAACCTAGCCTCCTAAGTAGCTGGGACCACAGGTGCATGCCACCACGCCCGGCAATTTTTTTTTTTTTTTTTTTTTAAGTAGAGA
CAGGGTCTTGCTGTGTTGCCCGGGATGGTCTTGAACTCCTGGGCTCAAGCGATACTCCCTCCTTATCCTCCCAAAGTGCTGGGATTACAGGTATAAACCA
CCAACCCAGCCTCAGGAGAAATAAATCTTTTAGGAAAAAAAAGTGACACAGTTTTCTCTTGTGGCTTATCACTTGGAATGTGGAGAGTCATTTCCATTAG
GGAACCACCAGGAATCTTGGCAACTTAGCAGCCACAGGAGATGCAGAAACTGAGTAGTGATTTAAAAATTCAGATCACTTTGTTTGTTCCCCTAGAATAA
TACATTATTATCATTAACAAAGTAACTCAACTTACAGTATCAAATCAACTGCAGAGCCATTGATATTGATGTTACCGTACTATCCAACACATTATGTTTA
GTGTTGATTTAAGAAAATGTTGATTTTATTTGATGTCATGGGTGGGAAATTGCTTGCTTTTGTTTTTTGAGTGAATCTGGTTTAACTGGGCTGTGTAAGC
CAAGGAGTTCTAACTCTTCTTGGGCAACTGAGACCGTGGCTAATATTTCATTATCTGTATTAATTAAAGACAGGGCCTGGTACTTGACATGGCAGTGTGA
TGTGTCCAAGGTTAGACCCGAGGTAAGAATTTAGAGCACAGAGGCACGCTCACATGAAGCTGCCAATTCCTCTGCTTTTTCAGGTAGAGGCTGAATGATT
TCCGCACCTTTTTATAGATTGCATGACTTCAAAGATGCACACTAATACTACGGCTCCTTGGGAAATCTTTCTGCACTGATCCCTTTGAATCTTCAGTGTT
TCAACATAGACTTGTTACAAAGAGAAGGAATATAAGCCTCTGTTCTTTCTTGTTTCCCTTTGTTAATTCCTTTTTCCTTTCRTTCCTTCTTATCTATCCC
TTTCTTACCTTCTTTATTTCCTCGTTTATTTGGGCTTTTTCGGTTGTGAAGATCAGTACCTTGAAATTCAGAATAGATGGCATGAAGCACTTCAGCTTTG
CATTCAAGTACTCATGTGTATGATCAAGCATCGTCATGATCATTATTGACTGGAAAGCCTGTAAGAAGAAGCGGATAAGGCCAGGGTGCAGACTGGGCAG
TAGTTCCCTGTCATGAATCCACTCTGCAGTTGTTTTATAACATGCAACAAAAACTAAAGTCTAATAGCACTCCCCAATGCCAATTTTTTTTCTTTCTCTT
TTTTTTTTTTTTTTTTGAGAGACAGGGTCTTGCTTTATAGCCCAAGCTGGAGTGCAGTGGTGCCTTCACAGCTCTTTGCAGCCTTGAACTCTGGGCTCAA
TTGATCCTCCTGCCTCAGCCATCTGAGTAGTTGGGACAACAGGTATGCACTACCATGCCCAGTGAATTTAAAAAAACAAACAAACAAAACACTTTTTGTA
GAGAAAGGGTCTTGCTATGTTGGTGAGGCTAGTCTCAAACTCATGCCCTCAAATGATCCTCCTGCCGTGGTCTCCAAAAGTGCTGGGATTACAGGTGTGA
GCCCCCAACCCCAAAACTTGAATCTGGGCCACCTTTACTGACTTACTTATTACTATGTAGAATATGGTACAGGTGACGCTGCAGACTCTTGAAGTTAGGT
CATAAAAGATGATCCTGCTTCCGTCTGGTTGTGTCTCTCACTCATGGGATGCTTACCCTCAAAATTTGGCCACCATGCCATGAGGAAACTCAATCTAGCG
TAGGTAGGAAGACCGTGAGAGGCCCAAATAGAGAGGAATTGAGGCCGCCAGTCATAGTCAGCTTCAGTCATCAGATAGGAAGCCAACAACTGAGCCCTCA
GATGATTCCAGTTTCCAAACACTGTGAAGCAGAGGCTGACTGTCCCCTTTGTGCCATATTCAAATTGCTGACCCACAGAATTCATGAATAGCGCATGTGG
TAGATTTACACTTCAAAGTCTTTGGGTAATTTGATAAAGATGTGGTAACTGGGCTATGCTCTAATCAATAATCTTAGCTAAGATTTATCAGAAATTAAAA
CTGTATACTTAACTAACCACCTAGATAGGTGCAGGCATATATGAATTCACCGAAATTTGACTCAACTCCYTTGGTTAATTTAAATAAAATAAAAGTAAAT
AAGGGGAAATTGCATACTCCTATCTGGACTGTTTTCTTATGGTTTTGGAATCTCTGGCAGGTAGAAGTAATTATTTCTGTAACTCTYAGGCAGGGCTTAG
GAATTATCTCCCTTAGGTTTGACTTCTTTCTTTCTTGAGAATAAGCGCTGTGTTTCGCAAGAGTAAAGAAGTGGCATTTATTCTGTTGTCACAGCATTAC
TGAGCTCGAGTGGATGGCTCTTTATTTCCTTCTCGTCTTTTCTTTTCTAGTCTTTGTCAGGACCCATTCCTTTACCCCTCTTTGCTTTTACGGTTTTCAC
ATTTTAATAATGTAAAACCATGTTCCCCAAACTTCCGCCTTTTTTGTCCCATTTGCTCCGCTGTTACATCATTTGTTTTTAATTACGTTCATATTTACTT
ATGTTTTTATGCACAGCTATTTATAAAGAAGATTCTATAATACTAAAGTAAATAGAAGAGCAATATCATTTGCCATAAATACAAAGGATCCCTGAAAATA
AATATACTGCCAGCCTGGGCAACATAGGGAGATCACTGTTTCTACAAAAAATAATAAATTAGCTGAGTGTGATGTTGTGTGTCTGTAGTCTCAGCTTCCC
AGAAGGTCAAGGCAGGAGGATTGCTGGAGCCCAGGAGGTTGAGGCTGCAGTGAGCTACAATCATACCACTGCACTCCAGCCTARGCAACAGAGTGAGACC
TTGTCTCAAAAAATAACTGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTCTGGGAGGACGAGGTGGGCGGATCACGAGGTCAGGAGATCGAGA
CCAGCCTGGCCAACATGATGAAACCCTATCTCTACTGAAAATACAAAAAAAAAAAAAATTAGCCGGGTATGGTGGTGTGTGCCTGTAGTTCCAGCTACTC
GGTAGCCTGAGGCAGGAGAATGGTTTGAACTTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGAAT
CCGTCTCAAAAAATAAGTAAATAAAATAACTAACTAGGCTAGGCACAGTGGGTCATGCCTGCCATCCCAGCACTTTGGGAGTCCAAGGCAAGAGGATCAC
TTGAGCCCAGGATTTCGAGACCAACCTGGACAACGTACAGAGACCTCATCTCTACAAAAAATAAAACAGCTAGGCATAGAGGCACACCTGTGGTCCCAGG
TAGTTGGGAGGCTGAGGCGGGAGGATCCTCTGCACCCAGGTAGCCGAGGCTCCAGTGAGTCATGATCATGCCACTGCACTGTAGCCTGGGTGATAAAGTA
AGATCCTGTCTGGAAAAAAAAAAACACAAAAAACTAAATAAGTCGTCCATCCGTCCATCTATTCATACACACACGTAAAATGAAAACTAAAGCAAAAGAG
TAGTATTAAATTCTAGTTAGAGACTTAGGATTTCCAGTGACTGAAATTGGAATGTTAGGTGTTAAAGACACACATCAAAATGAGACTCTTGGTTTTTTTT
ATAAGTGCAAGGATTGCAAGATACCTGAAAAGGGAGTATTTTTCCCCCACATGCATCTCAGGAGGGTAGCCTCAGATATAAGCTTAGGAGTCCTGAATTT
ATCATCAATATTTATATCGCTGTTTGGCCCCTAACACCTTCCCTATGATAGCCCTAATTGGAATATAGTAAATGTTTGTTGCATGAATCAACCTATTTAA
CCTGTGCGTCCTTAAATCTTACGGTCTGCGGGTTGACATTTCTAGTGAAGGGAGACATTTCTTTACCTACCTGGGACCTCAGACCTTGGACCTCACTGAA
CTTGAGAGCAGAGCTGGTTTATGTGTAACTGAACCTGATGGTTAGTTTCCTGTTTCAACTTGATTAGGTCCCAGTCACAGGGTGCCCACATGTTTGGTCA
AACATCACTCTGGGGTGTCTGTGAGTGTGTTTCTGGGTGAGGTGAACATTTAAATCAGTCACCTGATTACAGCAGATTGTTCTCAAGTGCCTGAGCTTCG
TCTCATCAGCTGAAGGTCTGAATAGAGCAAATAGACTGACCCTACTTCAAAGAGAACTCCTTCTGCCTGATGACTCAGGTGGGGACTTCAGTCCTTTTTT
TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATAGGGTCTGGCTCTGTTGGCTAGGCTGGAGTGCAGTGACGCAATCTCAGCTCACTACAAC
CTCAGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTTCCCGAGTAGCTGGGATTACAGGCACCCACCATCATGCCCAGCTAACTTTTGTGTTGTTA
GTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGATGATCCACCTGCCTTGACGTCGCAAAGTGCTGGGATTACAGGGG
TGAGCCACCACGTCTGGCCTGACATCAGTCTTTTCCTGCCTTCAGACTTGAACTGAAGCATCAGCATTTCTTGTGTTTTGATCTTGCTGGAGTTGGACTG
AAACTACACATCAGTTCTCCTGGCTCTCCACCTTGCCTATAGCGGATCTTGAGACTTTTTCTTATTTTATCTATCTATCAATCCATTGGTCATCAGGTTC
TCCAGAGAATCAGAACCAATAAGAGATGTCATACACACCACACACAAACACACACACACACACACACACACACACACACTAATATGGTTCTGATTCTCTG
GAGAACCCTGACTAATACAGAGGCAAGATCCTGTTTTGACGTGCTTGAACTCGAGGACTTATGCCGATGTTAACTCTGAGTGTTCCTGTTTTATACTCAG
CCATACAGATGCTCAGAGCATACCTGCACAAGTCAACTTTTTGTGTCTGCAGGCATGGGCCTGCCCTGTACATGAGGAGACAGCAGACAGTTCCTCTCCC
TGCTGCTGGCCTCTTCATCTTCTCCTGGCGTCACCACGGCCACCGTGATGCCTGGCTCAAGTACTAGTTCTATGTCAATGATGGTACCAATGGACTCTAA
CTTTAGAATGTTGTTGACTGAAGGCCCCTGCCCCCTGCCTTGCTTTAGGTGGAGGATCTGGTCAAGGCTTTGTGAATCAGGGGATGCTCCACACCTTTCT
GCTCTCTGCAACAGGGCCAGGGATCTGAGTCCCTTCTTGTCTATCCAGAAACCGTATACCCAGTGTTCTCTTTCTCTCACCTCCGAATAGGTGGGCCTTC
CCAATTTACCTGTGAGAAAACTAGTGTGCCACCTCAAGCGATTCTGGCCTCTGTTGACTGTCTGAACCCTGTGTTTTGTTGAGTGGTGCAGACTAGAGAT
GAAGACAGGGATTCGGCTTCGCTTGCTTTATCAAGGGAATGTTCTTGGGACAAATGTGTGACAGGTGAGGAAAACAACATAGGAAAGGAGACAGAAGTGA
AGAGAAGATGTGGTCTCAAATGAAGTCTGGCTTCAGGTTTATCCTTGGGGGGCTCTGGAATAAAAATCACACCTCAAACTTGACCCGCTTGAGGCCAGAA
GGCCGGGCTGTGGTACCTTCGTGTCGGACAGTCATAGGCTATCCTCATGGGGACCTGTATGTTGCCAGGTGTCTTGGGCAAGGTGGACAAGGATGCCAGC
AAAGTGAAATTTTCCAGAGAAGGTCACAAAAGCTAGGAAATGGCACAGCAGCTGCTAAAAGGGGATCTGACCAGGCCACCAACAGCTTCTGCTTCTTCCC
AAAGTCACCTTTGCTCTCTCCTGACCACCGTTGGTGTCTCAAAGTCTCACATGTGACAACACACATATCATCAAATTCATGAGTATCCATGGCACACAAT
GTTTTCCTTTTCTTCTCTTCTCTTTCTTTCTTGTTTTGTTTTGTTGTTTTATTTTGTTTTGTTTTACTGAGATAGGATCTGTCTCTTTCCCCCAGGCTAC
AGTGCAGTTGCGTGATATTAGCTCACTGCAGCCTCAAACTTCTAGGCTGAAGTGATCCTCCCACCTCAACGTCCTGAGTAGGGAGGGCACTACAGGCGCA
TGCCTCCACATCTGACTAATTACTAAATTTTTAAAAATTTTTTTAGACACTGAGTCTCACCGTCTTGCCCTGGCTGGTCTCAAACTCCTGGGCTCATACA
ATTCCCCTGCCTCAGAATCCCAAAGTGCTGGGATTATAGGCATGAGGCAATGTGCCCGGCCCACAATGGTTTTCATATAGCTATTGTGTATTGCGTTATT
GCCTTAGTCACAGAAGCCCATAAAAAACAGATTCCAATAAAGAGACTAGGTTTGCAGAGTGATGAGTGGGGCCCTTGAAATAATTACATTTAGTGGGTTA
TATGTCTATTTTTTTGGTCGTTCCTTGCTCATCTGTCTTTATTTTTGTTTATTTATTTATTCATTTATTTGAGATGGAGTCTCACTCTGTCACCCAGGCT
GGAGTGCAGTGGTATGATCTCGGCTCACTACAGCTTCCACCTCCCATGTTCAAGCTATTTTCCTGCCTCAGCCTTCTGAGTAGCTGGAATTACAAGCGCC
CGCCACCATACTTCGCTAATTTTTGTATGTATATGTGTATATATATGTATATAATATATATATTTTTTAGTACAGATGCGGTTTCATCATGTTGATCAGG
CTGGTCTCGAACTTCTGACCTCAGAATGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACAATGCCCAGCCTTATATATGTA
TTTATTAAGTTTGGGGGGAACAGGTGGTGTTTGGTTACATGAATAAGTTCTTTAGTGATGATTTCTGAGATTTTGATGTACCCATCACCCGGGCAGTGTA
TACTGTAGCCAATATGTAGTCTTTTATTCCTCACCCTACTCCCACCCTTCTCCCTGAGTTCCCAAAGTCCATTGTATCATTCTTCTGCCTTTGCATCCTC
ATAGTTTAGCTCCCAGTCTACAGGGTTATATTAAAAGAGGAAAAGGGGTATAAGAATCTAGGTATCATGGATGATGTCCTGGTCCTTTGCTGAGTCCCAT
TTTTTTCTTCCTCACCTGATTTCCCCCATCTGGCAGAAACTTTTACAGAGTGTTTGCAGAAGAGAAGCCTGTAAACTCTGGAGTGTGTCCTGGGTGGTTT
GTCCTTGGGCCACTTTATTCCCTCACCGATCCCTTCCAAAGGCCATGAGTTCCCAGTCAGTCATTTCCCTATATCAGTATTTATTGTTTTAATCAATTTT
CCCCATCCCAAGAGAAAGGCACCAACATGAGTCCATGTGTTTTAACATAGCAGGGGTTTCCCTGTCAGAGCCCGGTGGACTTCTGTGGCCATAAGCAAGT
CAAGGTGGGCTCCTAAGTGGCAGCTGCCCACTTCCAGAAAGCTAGAGGTTCTAATTATGTCTTCCTGAAAAACAGTTCAATTAGGTAAAGTGACATTTTT
TAAGCCCTTGTGTGTGTCCGACTCATAAAAGTTCAGAAGGTTGTTACTGAGAGGAGACTGCAGTCATTTTAAGATTTCAGTAGCTGCTGGAGTTGAGTAG
ATAATTTTTCCCCTTTCTAATATTATATATTAGGTGTGCTCTTGTGTCTGGGTGAAACAGAGCAATCACAATGATTGTTTTTTCAGTATGGTAATAATTA
GGCATAAAATCAATATTTATGTGTAATGTGCCATTTGAAGATTCTCCCTGTGTATGATGCTGGGTTTTACAAAGGAAAATCTGGATTCAGGTGGCCAATG
AAGTGTCACGATATAAAAAGAGAATTTTGAAATAATGAGAATTCCACTCCTTTGGGAGTATTGGCATATGTTAAAATACAAATATATCTGTATTTTTCTC
ACTTTTATTAGAAGAGTGCAAGTTTGTTCAAAACAACTGCTGGATTATCTAGTCCCTGAACAGCCATTTATATTTTTGTTACGCTTGTGGTTTTTAAATC
ATCCTCATTTCCTTGATCGCATTTGCTTCTCCTGGCTRGAATGTGTAGGAGACGGGTCGGGGAGACTGTGCCCATTTGACAGRTGTGAATGCGRACAGAG
GCTGCAGCTGGTTAGACCAGGGCTGTGCAACCCTAGAGCCATTGCCTYGACCACAAAGCCACAGTCTCCTAGTCCTAATATTAAGAGGTAGGAGGTAGAT
AGAGATTGTCCCTTAAGCCACATTCCATTCTTCATATTTTTGTACCCATTAGAGTAGTGCTGATCATTTGCCTTCATTGCTGGGGTCCCCTAAATGCAAC
TTCTCATGCTGCCAATTTAGTCCTGGCCCTAGGAAGACGTAGGTGATAGGATAGAATTCAACAACTAGAAGCCATGGTTTCCTGGTTGGATAGACTTCCT
CTGCCACCAGAATAAAGGAATAGAGGGTTCCTCACTGTGCCCCATAGCTGCAAAGTCACAGGAAGCTTGCAGCAGGCCAGTGGTAACCTCTGAGTGACTT
CTGAGTTCCCAGAGCTAGGACCATGACTTTTCCCCTGGATTCTTAAGTACCCGGCTAAAATTGTGTTTGCCGAATGAAAGTGTGATCCTGGAGGCCATGT
TGTTTGTGGTTCATGGAAGGGTGCTTGTTCAGCTTGGTCAAAGCAAGATGGTCATACTGGGTTTTGGTGCCCAGACGTTCCCAACACTCGCAGCAGAGGG
CATTAGGATCATGTTTAGCCAACAATTTTGGAGGCACCCAACAGTGATTGGATGTCATGTGCTTTCAGAAGGCACACTACACATCTTCGGTTCCTCCAAG
CTCTAGGAAAGGGTTGTGGAATTGGGTTGGGTGACAACAGGTCGGTAAGAAGAGGGCTGGGCTGAGTGTAAAGAAATTCCTTGGCTGGGCATGGTGGCTC
ACGCCTGTAATCCAGCACTTTGGGAGGCTGAGGCAGATAAATCACCTGAGGTTAGGAGTTCAAGACCAGCCTGGCTAACACGGATAAACCTCGTCTCTAC
TGAAAACACAAAAATTAGCTTGGCTTCSTGGTGCATGCCTGTAATCCCAGCTACTGCAGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGG
TTGCAGTGAGCCGAGATCGTACCATTGCACTCCAGCCTGGGCAACAGGGAGAGATTCCATCTCAAAAAACAAACAAACAAACAAACAAAAACCCCAGATA
TTCCTTATTATGGAAGAAGAAGCAGGAAATATGTTTTTGAATAATCTGGGTCAGAGAATTGTGCATTTATTATTGCTAGGATGCATATACACATTGAACT
CAGTCAACTTACTCTCTCTAAATTATCTCACCGGTGGAGACATTGCCTCAGGAGTYGAGCCCTGTGGTGTGCCTCCTGCTGTCACCACATTTGACCACCT
AACTGACCCCACTGTGGTCACCTTTGCCACCTGCCCTGCTTTGGTCCCTTCTCTGCATTCGCCCCATGCCATGTAGCACTGCTGAGTTTGAAAATAATTG
CATCTCCTGAAAACTCCATTTCTTAGAGAGTGAGCTCCAGCACCATCAGCCTGAAGTTGAAGAAATGGGACTCAGGAAGGCTGGAGTCTTCAGGCGTTCT
TACAATGCTGATGCGACTCAGACGGCTGCCTGCACTGTCCTCTGTGCTTCTAAGTGAAATTACCCGTCGGGGGGCTCCTGAGAGTTAAATCAAGCAGCCT
CTCTTGAAGCACAGTAAATGCTGACGTGATTTGTGAAGATGGCTCTGCTAATAGGGTTGGCAGCGTCCTTTGGCTTGGACCTTTGGACCCCGGCTGGCTG
CGGAAGGGAGGGAAGGCAGCCTTGGAAAACTGATTTCCGTTGCCCTCTGACCATGAGAAGATCCCTGTTTAGGAGCTAGAATTCAGAGTTCCACGTGTAG
AGGGGGATTCCACAGTGTGTGGTGTGCAGAGAGCACTCGTCTTTCAGGCATGGGGCGCCGTTTCATTTCTCCTAGTGCTGGAAGGGGACTTGGTGAAATT
GATTTGGCAAAAAGGTTAATGTGTTGTTATGGCTGCCAGTTGGCCGATTGAAGCGCTAGTAATTGGGGCAAGGGAAGCATTCAATTTGACACACCAAATG
CAGGTCCACCCTGGTGGATATCTTGGTTGCAGCACTCTGTGTGTGTACGTGTGTGCATGAGCGTGTCTTAGAGATGCTTTTGCTCCTCTTATAACTCCTA
TGATAAAAAGAGTTGCCATTATCATCCTTTGTCTACTCACCAGCCCCCACCAGAAACCCTCACAGAAAAAATAAGAGTTTATTTTTTCACTATGTCACAT
TGTTGGAGAACTGTGCAAATACAAGCCCTTCTCTTACAGGCCATGGGTCTCCTAAGTGGGATACACCACGATGATCCACTGGGGCAGTGGCCAGCAAAGT
CCCTGTCCAGCCAGCCACTCGTTTTTATCAATAAATTTTTACTGAAACACAGTCATGCCTGTTAGGTTAGGAACTGCCTAGCGCCACTTCACACTGCAGT
AGGAGAGTGAGTAGTTGTGACAGAGACCATTTATCCCACAAAGCCTAGAATCTTTATTATAATCCTGTAACAGAAAGCATTTACTGACTCCTTAGCATTG
CCATGTTTAGCAAATAAAATTGCAGGATGCTGGTCAGGCGCGGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCCAAGGTGGGCAGATTACTTGAG
GTCAGGAGATCGAGATCAGCCGGGCCAACCTGGTGAGATCCCATCTCTACTAATAATACAAAAAATAGCTGGCGTGGTGGCGCATGTCTGTAATTACAGT
TACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGAAGTGACCCAAGATCACCACTGCACCCCAGCCTGGGCGACAGAGTGAG
ACTGTGTCTCAAAAACAAAATATCTGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGGTCAGG
AGTTCAAGACCAGGCTGGCCAACATGGCAAAACCCTGTCTATACTAAAAATACAGAAATCAGTGGGGCATGGGGCGGGTGCTCTGTAGTCTCAGCTACTC
AGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAGACGGAGGTTGCAGTGAGTTGAGACTGTGCCACTACACTCCAGCCTGGGCGGCAGAGTGAGACG
CTGTCTCAAATAAATACATACATACAACATAAAGTAAGATGTTAAAGTAAATTTTAATTTTAGATAAACAATGGATAATTTTTTAGCAAAAGGATGTTCC
ACATTTAACTGGACATTATCTCTGTCTCTCTCCCTCCTTMCCTGCCTCCTATCCTCTCTTCCCACCCCCTACGATGTCTATGTATAGTTTCAACCTGGCA
ACCCTGTGACCTCAGCACTAGGATATGGATAGAAAACATAGTAGCCCCTATTTACCTTTATCTTTTATCTCAACCCATTTAAATGTCTWTTCCTTGCAAT
GTTTTGTAATATTACATGTAGATTGTACATCGTTTGTCGATAAATCAGTGTACAAATACTAGGGRTGAGTGTGCTCAAAACTTATTTTTACTGATAATAG
TCCATGATCAAGGCRGTTTGGAGACCACTCAGGACAGGGAAAACGCAGACTCATGTGACCCATCAGGGCTTCAGGGTGTCCTCTGGTGAAGGGCAGCAGC
AGGACAGAGCCCCACTTCTAGCTCTGGCTCAGGTTAAGTGTTTCAGCGCCCTGGCTTCTGTGTCTTCATGTGCAAATGGAGATAATAGTCAGCACCTATG
CAGGTTACTGTGAAAACAGGTTGGAAGTATTTATCTACAGCGTGGACCAGAGCCTCTGGTATGTACTAGGTGCCCTAGAAATGTTCTTTCCTCTGACTCA
AATGACAAATCAGTTTCTAGGGAAAGGAACGCACAGCGATCCCCAGCGCATCACGAGAAATCTCTCTCCAGCTTTGCCCTGGCTGCGCTGGTGACTCACT
CGGGGCTAAAACTGTTTATGTCTGCGGAGTCAGAGCGTTCTGCCCTGCGGTTTCAGTTCACATGGGGTTGGGCGACACAGTTTTGTTTTCACTTTGGTTT
ATCGTGTGAGTTTCCATCCATCAACTCTTTTGTATCTGATGTTCTTGGGAAACTTTGCGGGAATTCACTTGAAATTGTCCAGTGAACAGCCATTGCGAGT
CTCATGGTCAGAGCCGGGGGCTTCCCAGTGTAGGGTCTGGTCAAGGAAAGGGCCACTTCCTGGGCCTCCCAAAAAGAGGAAGGAGAAGGCCCTGGCTTGT
GGAAGAGTAAGAGGGGCCTCGTTAATGTCTMCCAAGCACAGTACCCCAACTCCCCACATACAGTCCCAACCCTTACTGCAGCCGGGAGGTTAGGTGTCTG
CCGTGCTCATGAACAGGAAGTGAACCCGATCAGCCCCCGAAGGAAACATCCGTCTCTCTCCTTGGAGGAGACACTTGAGTGTCTTTCTCTGTGTGCTGCA
GCCGTTATTGATATCAGTTCCCAGGCAAGGTTCATGCTGGCAGAGGAGGCCACTCTTTCTGCACTGGAGAGCAAAAGCCATCTTATCTCTCTGAGTGCAA
GGTGACAGTGAGGAGATTGGCCCTGTGTATCCCTCAGAGACCAGTATTCCCTCATTTGCCAATCTAGAAAGAAGACTGTGTTTGCTGTCATTTGTTTCTT
AACTCATTGATTCTCAAACAGAATCTTCCCAGGGATCTGCTTCATGCTGTATTTTGTACTGTGTCCTGAGATGATGAGGATTCGGTGTCTACCCTCAAGA
AGCATCATTTAGAGAAGAAATTAGAAAAGTAAGTGAGGCAGAACAGGATCTGGAGGCAGGGAATCTAAGGCTGATTCACGTTGACTTTGTATAATTAAAT
CAAAAGGAAAACACCAACTTTCCACAACTAAGTTATAAAAGGACCAGAGGCTACTCCCTCTGCAACCCCTCCCCACTTTTCTGAGTTGCAGATGGAAAAT
TGAAAGTACCCCTGATTGGTTGCTTTCCACGACCATTCAGCCGTTTGCATAGGAGCTGTAACTTTGTAACTTCGCTTCACCCTCTGATTGGTTGCTTTTC
ACAACCWATCAGACATTTGCATAGGAGTGTAACTTCTTTCCACAACCAATCTGACTGATTGTGGGCCATTACTTCATTTCCATGAGGTGTACACCAAGTG
GCCAATGGGAGACCTCTATAGGGTATTTAAACCCCAGAAAATTCTTTAACCAGGCTCTTGAGCCTCTATGCTTGGGCTGCTCCCACCGTTTGGAGTGTAC
TTTCCTTTTCAGTAAATCTCTACTTTTGTTGTTTCATTCTTTCCTTGCTTTGTTTATGCGTTTTGTCCAATTCTTTATTCAAAACGCCAAGAACCTGGAC
GCCCTCCTCCAGTAACATAATGAATGTCTGGATGTGGTATGAAGAGTATTGGGGTACACCACAGCAGCGTGTGCTCTGAGAACACAGTAAACAGGCATTT
GATACAGATCAGAAGGTCCGTAAAGGTGGTATTTGAACTAAGTTTTGAGAGCTGGGTAAGAGTTTGTGAAAAGACAGGGCTTAAGGAAGGATATAGTAAG
CTGAAGGCACAGGACTTTAGAAACACATAGGCTATAACTGCAAGGTGTGTCTCAGAAGGTACATGTGACGTTTCATTTTTATTTGTTTGCTTTTTTATAG
TGACTGCATGATCATTATATGCAGAAGACGCTTGAAGGGGCCAGATTAGGAAGGGCCCATGGTCCACACTGCTTTTTTTTTTTTTTTTTTTTTTTTTTTG
AAACGGAGTATCTGTCTCTCACCCAGGCTGGAGTGCAGTGGCACAGTCTTGGCTCATTGCAACATCTGCCTCCTGGGTTCAAGCAATTTTCTTGCCTCAG
CCTCCCGAGTAGCTGGGATTACAGGCACCTGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTAGTCT
TGAATTCTTGACCTTAAGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGTATTTCTATTACCAGCCTGCACTGCA
TTTCTATTACCCGAAAACAGTGTGGAAAATATTAATTACAAGGGAGATTAAAAAGTAAAACTGGTTGGTTGGCCTGAAGACCCACATGGTGACTTCACTA
AAGTCATTGGGTAAGCAAAGAAGAGCAACACTCTAGTTTTCCTCCAAGCTTCAACGTTTTCTGTTTCCTCCTATGTCAGGTCTTAATTTCCCTACCTGAT
TCAGGCTGCGCTAAGCTGACTTCATCATGACTCCTGGCTTCCCCAGTCCCTGCTTCCCAGCACATACCATTTATTCAGTGTTGGCCAGTGACGCCTGCCA
CTGCATTTTATTGATGAAGAAATGGAGATCTCAAGAGGTAAAAAAAACTGACTATAGGAGCCAAGACTAGTTTAGAGTGGAGTTTGAATATGAACATGCC
TCTGTCTGTGAAAGCCAGTGTCCCTTCAGCCAGGATCTTTCCTGGAAGAACTCAGTATTAAGGCACTTGATTAGTTCTTCCTGTTGGTGGACTGATTGAT
TACATTTGAATCTTTCAGCAAGCTTTTGGCTGAGCTGGGCATCTTCCCCGCCTTCCTCCACCTCTGCCTTCAAAAGCCTGAATTTCCAAGGCTTTCTGCC
ATGAGTACTTAGCTTTGAAAAACATGAGCATATTTTTCATTCTTCTTGCCGGCCTCTCCCTGTGTCATGCCTGTTATTCTTTTCTCCCTCAACATTGACC
TAGGTCAGAAGGACCCTATTTTAATGTTTAGCGTTTGGGGGTCACTCCATAGAGAGGGGTTTGTGGAAATCCTTTTTTTTTTTTTTTTTTTTTTTGCTTC
TTTCTGTGGATCTGTTTGGAAATGTAACATTTTAAAGCCCYTCTTGGCTGGAGGATTTTTTATGGTAAACATAAAACGTTCATTGAAACATTAAACATTT
TACAGCTGTTTTTCAGCACATAAATTTTCATAGACATCCACCCCCTCACTGCCACACCCCCTCATAGATTTCYTCTTTTCCTCCTCCTTCTCCTCCTCCC
TCTTCCTCCTCTTTTTCCCCCMCCTTCAAATAGTTCCAAGACCAGAGTTGAGGGTGGGTGGGTAGAGGGCTAGTTTACAGATAAAATGGTTGGTGTAGAT
CATCTAGTTTGGAAAAAGCACATTGTATTTTAATACTAGGAACGTGTGCATGCCAGAAACCTGCCAAGGAAAACACTCCCGCTGCTCCTTCCAGCCCTGA
CTCCAGCTGCTATGAACTGGAACCCTGCACCACGTCTCAGAAGGCTACTGGGAAGGGCCATAATCTGTATCCATCCACAAGGAGAGGTGGAGGGGGGCTA
CTCTAAGAAGCCAAAATGCTCAGGAAAGCCAGAGCTAAGATGGTGCAAACCAGCATGTGATTTGTCCAAGGACATCGTTTTGATATGATGAACCATGGGT
GGTTTGGGCATTTGTCAAAGCAGGGTCAGCAGAAAGCTGACGTAGTTGGGTCTAAAGTACAACAGGACTGAGCATGGTGGCTCACACCTGTAATTCTAGT
GCATTGGGAGGCCAAGGCAGGAGGATTGCTTGAGGCCAGGTGTTCAAGACCAGCCTTGGCAATATAGCAAGACATTGCCTGTACAAAAAATTTAAAAATT
AGCTGGGAATGATGGTGCATGCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGCAGGAGGATCAACTGAGCCCAGGAGTTTAAGGCTGCAGTGAGCCATGA
TCATGCCACTACACTCCAGTACACTCCAGGACTTTAGGCCTGCTAAAGTGCATTGTAGTAATACTAGATATCAGCACCCTTGCCATGGCCTCATGAGCAG
TGAAATGAACTTTCTTGCTCCTGGATTTTTGGCTCTTGGCCTTGTAATTTTTTTTTTTCATGGGATATTAGTCAACATGATGTGAGCAGAGTCTTGAGAT
GTGCTTGCATGATTGGCTTTGTACTCCTGCATTTTTCCCATAGCCAATGCCTTTTCTTCAGCTTGGGCTGCAGAATGAGATAGATGAAACAGACCTGAAT
CTGACTTATACCCTGGAGCCATTTTCAGCAAACCCAGTCAATATCAGGCCAACCTCAACCAATTCTTAGACTAGTGAGTGAGGAAAATAAATATTTGATC
TTGTGAACCCTTGAAATTTTGAGGTTGTTTGTTATGCGGCAGTATTTTGGCAGTAGCTGATGAATACACCACTCCCCATCCCTAGTGGCTTCCTATACCA
TTTAGAATAAAAATACACGCTCTTTTCCAGGGTCTACATGTCCTGAAGACCTGAACTCCTGCCTGCCTCTCAGTTTATTTCCTACCTCAAGTAGCTGTGC
CCAATGTCCTCCCAATATCCTGCAACCACTCTAGTCTTCTTTCTTTTCCTGGGACCCACAGAGCCTATATCTGCTTCAAGGCTTTTGTACATGTTGTTTC
TTTTGCCTGGGAAGAGTGGTGGGGGGCACTTTCTTGCCCATTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTTGTCATGCAGGCTGGAGTGCAGTA
GCACGATCTCGGCTCATTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCTAGCCTCAGCCTCCCAAATTGCTGAGAGTACAGGCATCTGCGACCACAC
CTGTCTAATTTCTTATCTTTCTAACACAGTTTAAATATCACTTTCTCAGAGGCCTACCCTGACCATCCTACTTAAGTAACAATAATAAAATAAAAATACC
CATCATTTATGAAGTGCTCATTATGTGCCAGCGTTCTTAGCATCTCCCAACAACCCTAGGAGACAGGCATTACAATGAGCCTTCGTAATGTTCAGATGAG
GAAACTGAGGCTAAGAGAGCCTTGGCAAGCTGAGTTACTTAGCTAGCAAATGGTGGAGTCGAATTCAAACCCTGCCTCTCCTCACCCACTCTGTTTCTTT
TCTTTTGAGCACTTACCACTTTCTGAATATGTATACAATTGTTTCCTCGATTACTGTCTGCCTCTTCTTCCCTAGAGCGTCAGCCCATGAGCTTATCCAG
CCTACAGAGGAGATGCTGCAGCTTGGCAGAGCATGGATTGCTCAACATACCAGAGTTTAGTCCTACCTCTGTCTCCAAGCTGCTCCATGATCAAGGATAA
ACTATAATCTTTCTCTCTGCCTCAGTTTTTCCACCTGTCAGTGGAGGGGCATGCTCTTGGATGCCTGAGTTTTTCTTAGACTCAGCATCCTGCAGCCGMA
ATAACCATGCTTCTTAGTGGTCCTCTTGCGTAGCAGCCTAAGAAACTCCAAGTCCATCTGCGCCGAAGAGTATTGAACTTGGCCAGAGCACTTGGGATCT
GCAGAAGTGTCCCCTGTCTGTTAGTTTTTTCACAGACTCTGCTCTTTCTCTCCCAGACCGGACCCTCCACTCCTCTATCTCGCATTTATCCATTGCACCC
CGTGTCATTGCCGAATTCCTGAGCTACAAAGGTGAACAGGCACCAAAGCTAGGGCAGTGTCCACTCAATACATATCTGATGAATGAATGAATGAACCTTG
TCTACCACAGATAGCTCACCACAAATAAACATTTTAATCTACTATAAAATAGCTCAAAAGACTCTATGCAAATAATTACTGTTACCCAGTGGTGGAAGTG
CTTCACTTTTTATGGAAAGTCTTTCACTCATTTCTATCTGCAGTATTTACTGGGCATTTTTCCACGCCAAGCCCTGGGGATACAGAGTTAAATAAAATAG
AAGCTTAATCCAGGCATGCTGGCTGTAAAGTTCACCTTTCGGCTCCTTTCTGCCATTCTTATTAGGGTCTTGCCCCATCTTGGCAGCAAGCCTGCTTTAC
CATTGGAGACCTCAGCTCTGATTACAATACGTCCGTGATCAACATGCCCTAACTGGTTAGCAGATGGCAGCTGCATGAAGTCACTGGGCCCAGATAGGAA
TCAACAAGGGAGATTAGGTAAAGTGCTTATTTGAGGTGCTGTCAGGGCCCGTGGCAAAGGGTTCCCTCATTCCCTCTGCAGTTATTTTTCATGCACACTC
GGATTACACTGCTCGGTGATATTACATCTGCATGCGTCTTGCCCTCTGACACGGCAAACACAGATGCTGCCCRAATCCTTGTAAAGCCATATATCTTAAG
TAGGAAGGAGCATCTTTGCAGGGGAGGTGAATTGATTTGCAAAGCAGCCTGACACATGGTCTCTTATTTCTCCTTGCAATCAAATAATTCATCTTTATGC
CCGTAGGGCCGTGGTGAAATTTGAACCTGACCAAATCAACGACTGCAAGGTTTATTTGTAGCAGTGGGATCAGAGAAATTAGCCAAGTGTATTCTAAAAT
TATCAATTGCTGATCACATGGTCTGGATGTGTTTTAGTGCTTAGGGGTTGGTGGACCGAGGCTATGGTGGCATAGTCCTCCATGACCAAGGGCTGTCTGC
ATGGGTACGCAGATAAAACATGCACTGCCATGGGGTGACCTGTGTGCCATGCATCACACACAGACTACTGTTTAACCACCTACATCATAGGTAGATCCTG
CATTTTACAAATGAGGAAACAGAGCTCGAGAGAAGTTCAATCCTCTTCCCTACAGAGAGGAAAGGGGAAAAAAATGGACTTTCAAGACAGCTGAAATTCA
AAACAAAACAATGTTTTAAAATTGAATACAGCCTTTTGCATTAAAATTACCATTTTAATAATAGTTTAAAAGAGAGAAAGAGAGAGACCCAAAATAGTCA
AACTGAGGTTTTGGGTTCTGGTGATAGAATATTAAATCATAATGAAGCATTTAATGTTTTGTTGTTGTTACAATTGTTGTTTTACCCTAGGGCTATGCAA
AGTAGTTTAAGGATGTATTTATTTCAGTGGGGAAAAAAAGTGGAGGATATACATTTGGAGGATAAGGAAGCATGAATTAGGGTGGAGGAAGTGTTTTCTG
GTCTAGCTAAGGAGGAAAAATTATAGACCTCAAAATAGGTGTCATTTAATATATATCTGTGAAAATGGGCCAAATAGATTGCCTCCGTTAAAGCCGTATT
GGATGTTCAAATCTCGAGTTACCTGAAATGCAACTGTACTTCCTATATTTAACCAGGCTTTTTATAAACTGTTCCTCTTAACACCTCAAGCTGACAACCA
CATCCTGGGTGGTTATTTAATACCAAGTTTGACTTTCTTCACTTTGAGGGTCCTCAAAATAGAAGGTCAGAGAGTAGACTTTTAAAAGTCTTGCACTGTT
TACAAGTCAGATGCTTTTTGGCAGAGTGACTCTCAGCTCCCYCCAACAATCCCTTCTTGTCGTTCAGTAGTAGATAGACTCTATCAGGGAAAAATAGGAG
AAATAAAATAAGACAGCATATGGAAGGCATTGCTGAAAGTCTTTTTCACACCTTAAAAACAAGGAAGAAGAGAAATGAAAATAAAATAGTGAGCAACACC
TCGGTGAAAGTAGAGGTGTTTGTACAGTTCAGCTGCTGCCTTATTCAAAAACAGGAAGAAAAACCCACTGCCCAGGTCAGCTGGTGGGTGATCTCCACTG
AACTCCTATTCAGAGGCTCAGTTTCTCTGCAGGACAGAAATGAGAGGCACAAAATTTCATAGCTGTCTTGCCCCTYCTGTGGTCTGTAAGAATGGGACCA
GGACTCCTAGTTGTGAACCCGAAAGGATTTCCATTAGGATCAGGAAGTGTGAGTTGGCTTAGAAAAAGTAAAGAAAGAACAGTGCTGTTTCATTTATTTA
TCATGTGTAAGTAAACTGGGATTTATTTTATTTTATTTTTTATTTTTTGTTTCAGTTTCGGGGGGTACATGTGTAGGTCTGTTACATGGATATCTTGCAA
GATACTGAGATTTGGGCTTCAATTGAACCCATCACCCAAATTAGTAAACATAGTACTCAATAGGTAGTTTTTCAATCCTTTTCTCCTTCCCTCCCTAGTC
CCCCCTTTTGAAGTCCCCAGAGTCTATTGTTCCTGTCTTCATGCCCATGTGTACGCAGTGTTGAGCTTCGACTTGTAAGTAAGAACATGCGGTATTTGGT
TTTCTGTTTCTGCATTTATTCGCTCAGGATAATGGCTTCAAGCTGTATCCACGTTGCTGCAAAGAACATGATTTTCTTCTTTTTTATGGCTGTGTAGTAT
TTCGTGGTGTATACGTACCACATTTTCTTTAACTAATCCACCATTGATGGGCACTTAGGATGATTCCATGTCTTTGCTGTTGTGGGTAGTGCTGCCAAGA
ACGTGAGTGCAGGTGTCTTTTTAGTAGAGTGATTTATTTTCCTTTGAATGTATACCCACTAATAAGATTGCTAGGTCAAATGGTAATTCTATTTTTAGAC
CTTTGAGAAATCTCCAATTTATTTTTCATAGGGACAAGGTTGCAGAGAAAAGAGAAGAGTGCTGTTTCAAACAGTTGAAACCATTCCTACTTCCAAAAAG
AATTTGACTCAAAAGGGAATAGTACACTACATATAAAAGACAGATGTATTTAATTTGTGTTTCGAACTACATATCAGAAATTAGTTAGAAGAAGATATGA
GATAAATATACCTGGAAACTTTATGAATTATTTCTGACATCTAGCATTAAATTTAGCTGGGTTTCCTGGGAGTCAAAAGCAAAGAGTTTTCAACCAAAAA
AAAGAAACAGAGGTGTATAGTAACACACCTCTGTCCTGCAACATAACTGTAAGAATTTATCAGATTATATATATATATATTTATCAGATTATATATATAT
TTATCAGATTTTATATATATATATATATATATATATATGCATATGTTTGTATATAAATATACATGTAAAGACCCAAAACTCATATAAAAAGACAAGGTGA
TACAGCATTTTAAAACAGTTTACTAAAAATAACAAAACATTCTTCCATCAGTCATGCATGCCTTATATTTATGTAGATACAAAAATAGAGTTTGATATTA
AACAATACTCCAAGAAAGCCATTTCTGCAGAGTTAAAAAATACGTAGGTTCAGTTCCTTACCAACACGTAGACATGTTGTGATGAAAGAAGGAAAGGAAG
GAAGGAAGGAGGAAGGGAAGAAGGAGGGAGGGAGGGAAAGAGAGAGAGAGAAAAGGAAGAGAAAGGATTTTCTAGAAAAAGAAAGGAAGGAGGGAGGGAA
GGTAAGAAAGAAATTAATTCCCATTTTAGAGTAAGACTGGAGGCAGAGTGGTCACCCAGATGAAAATGAATAACCCAACTGTGTCTTTCTTCTGGTGCCT
CCACGTGGAAGTGGGCTGCCACAATACTTCTAAAGAGAATTGGCATTTTTCTTTAAATAAGGAGGAGGATGAGGAGAGAGACGACACAAAATTCACTCAC
AGAAGTGAACATAAATTCTAACATTGGTAAAACTTTGTCTTTGTTTTAAATAATCAGTCAGTTGTCTCAATCCATAAAAGAGTATCTCTTGTACAATGTC
TGCTTTTGAGTGATTCACTTCGATGCGTACTGAAAATATACCTTTAAGTAGTTGAGTGACTTGAAATATTGGTAAATGTTCTTTAATATTTTGTCTGTCA
GTGTTAGAGACTATCAGGTTAAAACAAAGATATTCTTTCTTTCCTTTTTGTTTTTGACGGAGTCTCACACTCTGTTGCCCAGGCTAGAGTACAGTGATGC
GATCTCAGCTTACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTTCTGCCTCAGCCTTCTGAGTAGCTGGGATTACAGGCACACACCACCACACCTGG
CTAATTTTTGTATTTTTAGTAGACACGGGATTTCGCCCTGTTGGCCAGGCTAGTTTCTAACTCCTGACCTCAGGCTTCCCAAAGTGCTGAGATTACAGGT
GTGAGCCACCATGCCTGGCCAAGAATATTCTTTCTAATATGATTTAGCTAACAGGTTCAGCAGATTTTTAAACTCACTTTCAAATCATGATAAAATTCTT
TAAGATAAACATTTGTCTTCTGTTTTCCCCTGAGAGTGGTTTAGCATTTATGGAGCCCTGCTTTGTGCTAATGAGTTTATATGCCCTGTCTTCTTTAATC
TTCACCACAACTTTATGTAATAAGTAGTGTCCAATAAATTTAATCACATAATTACTTAAATGGCCTGGCGAGCCGCCTTACCTAGCTGGCCAGGAATTCC
AGGAGTCAGGCTTCCTGATCTAAATCTGTCCTGGTCCCRTCTTGGCTGGGTGCCACCAGCAGCAACGGCACACTCCAGCTTAAATATCAGTGGGGATAAT
TCTAGGCCGTTTGTCTGCCTGGTTCTTCCAGGATAGAGGCAGTGATTTCAGTAATCTCTTAGGGCTGGGCACGGTAGCTCACGCCTATAATCCCAGCACT
TTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGATGGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAATAATACAAAAACAAAA
TTAGCCGGGCGTGGGGGCAGGCGCCTGTAATCCCAGCTACTCTGGAGGCTGAGACAGGATAATGGTGTGAATCCGGGAGGCGGAGCTTGCAGTGAGCCGA
GATTACACCACTACCCTCCAGCCTGGGCGACAGACTCCAGCCTGAGCGACAGAGTGAGACTCCGTCTCAAAAAAAAAGAAAAAAGAAAGAAAGAACCTCT
TAGGCAACTCTCATTTCATTATCCAGGTACAAAGACAATGAGTAAGAAGAGTATTGGGGTTGGGAGGACCAGTCACCCCTGTGTCTTAAGATACTTCTCA
GTTTTCTTTGTTGCAGCAAATATTACTGCAGAGTTTTAGTGCATTATAGCCTTCTTAAATAAAACTTGCCCAGGTGCAGTGGCTCATGCCTGTAATCCCA
TCACATTGGGAGGCCAAGGCAGGTAGTTTGCTTGAGCCCAGGAGTTTGCGACCAGCCTGGCTAACATCATGAAATCCCATCTCTACAAAACATAAACAGA
AATTAGCTGGGCATTGTGGTATGTACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATTGCTTGAGCCTGGGAAGTCAAGGCTGCAGTGAGCA
AAGATCACACCACTGCAGTCAAGCCTGGGTGACAGGGCAAGACCCTATATCAAAAAAAAAAAAAAAAAAAAAAAAATATATATATATATATATATATATA
TATATGTATATGTATATGTATATATAAATTTAAGGAAGCATAGAATTGAAGAGGCTATTCCAAGGTCACATGACTTTTAAGTGGCAGAAACAGGGGGAAT
TCTGTCTAACACAATCCAATTTATCCATCTCAAGAAAAGAGATATGCCAAAGAGAATGATTATTAAATTATCATTAATGTGAACTCTTGTAATTACTCTC
ATAATTTTCTTTAGGCTTATCCCATTGGGCATTGCTAAGTATTATTAGATTGTGATTATAAATGGATTCCGCCAGGCATTTCTCTTTTGCTCTGTGGCAG
CTCTTTCTCTAGAGAACTTGGTCCCTGGGGATGCCATCTTCTCTGTCTTCACTCGGTGAGGATGGACTTTAGGATGCCTCACTTCTCTTCCTGAGATTCT
TGCTTCCTTCTTCCTTAAGGGCCACTGATGAGCAATCAGTGAGTTTCAGGAAGAAGGCATTCAGGCTGATTTCAGACAGCCTAAGGTCAGTGTGCAAGTT
AGTATGTACCTGTGTCTTATTATTGAACTGGTGAATGAATGAATGACTAGGTCATTATGAATTTGTAGATCAGGGTTTTGAAGAGTTTGGCACCGGATTT
GAAAGCCAATGTTCTCTTAGTACCTACCGCTTTCTTTTCCTCACCTTCCTGGATTTCCTGCTCTTAAGGTTTTTTGTTTTTGTTTTTCTCTCCAAATAAA
TGGTATTTATTAAATAAAAATTCATTTTCTCATTTATCAACCAGTTGCAGTCTTTGGATGTTTTAATTATATAAAAAAAGCATGGAAACTGGGCATTTTA
ATTAGCAAGTACAGCCTTGACACAAATAAAGGCATGGCTTTGGTTATGCAGTGCATTTATTTGRTTTTCTTGAAATAAGAAAAAAAGATWTCTTCTCCAT
CACCAGAGTTGCTGAGTTTGACAGTGTGAATGAGATGACCTCTAAGGCCTCTACTTATAGATCTGCACGGTTGGGCCTGGGAGCTGTACTACCTCAGCTG
GTGGGTGATAACTTACTCACAGTCTGTGCTGTGTCCTGCACTGTCCATTATCTGCAGGGGTGGTACTGCTGTCCCCAGGGAAGAGAATGCTGTCCACAAA
GAGCCAGCCATTTATACTMTTAAAAGAATACACAGGAGTTGAACAATGAGAACACGTGGACAACGGGAGGGGGGAACATCACACACCGGGGCCTGTCTGG
GGGTAGGGGGAAAGGGGAGGGAGAGCATTAGGACACATATCTAATGCATGCGGGGCTTAAAACCTAGATGACGGGTTGATAGGTGCAGCAAACCACCATG
GCACATGTACACCTATGTAACAAGGCTGCATGTTCTGCACATGTATCCCAGAACTTAAAGTGAAAGGAAAAAAAAAAGTTTCATCAAAAAAAAAAAAGAA
AAAGAAAACACCGGAAAAAAGAGACTCTCTTCCTTGAAGGATTTAATTCCAGGAATTGGAGAATGTCTTGTACATTTCGAGAAGGCAATATAGAAAATGC
AGTGGGTAGCCCAGGACTCCTGGTCCAGGTAAAGCAGGCCTTGTTGCTATTCCCCTGGACCATGATATTACATGYTGGGATGATGGGGTCTTGTGATACT
GATTAATTTAAGGCTGCATGATGATGAGGGAGGAACAAAGATGTTCTTGAGTCAGTACCTGCCAGAGTGGCTGTATCCTGGTGTTGTAATATCAAATAAT
TCTACATTATTTAGTAAATAGCCCTGCCCGAAGCCTCTCAGTGCCACACACCCACTGGGATTCCTGTGTGATTTGTCACCTGGAGGAACATCACCTGCCT
TGGTTGGGGAGAGGAAGCCTCAGGACCCTGCACCAGGGCCATGTGACAAATACCCATTTTGATAGTTCAGTACCCGCTATTAAATATGCCGAATATTATT
CCTGAAAAGGGGCATGGGGATAATTACAAAAACATACCTGGTTCCACTCTCACTTTCGCCATTTAATAGCTTTGGGTCTACAAGTAACCACCCCAGATTT
TTCTCCTCCTCTATGCACCAGTCATATCAAGAATTACTGTAACTTCATWGGATTTTTGTCAGGACGCTATGATGAGAAGAACATATGCCAAGGAGACAGT
TTTCTGGCAAATCAGAGGCCTGTAAGAAATGATGGCTTTTTGCTTGTATGACCAAGTCTCTTGGAGACAAGGCCTCATGTATGAACTCTGAGGCATGAGA
AGGCTCAGAATTCACCCCATCTTCAGTCTTTTATTTGAAAAAGGGAAGAATGATGGAAAGGGGAGGAGAGAGTATATAAAACACGAACGGGGATCCTAGA
GACTTGAATTTCTAGTATGTACTGCCTCTGGCTAATAGGGATCTTTGACACATACGCTTTTTCTCCCTTTCCAGCTGGCCCTGTTGCTTAAAGTGGCAGA
AGTAGATGTCATGTTGGCAGACAGTTTTGTTCACTGTCAAAACTGGGTTTATCTAATGTGTATTTGAAACAAACAAAAAAAAATCAATAAAATGAGCAGC
TTTGGGAGCCAGGGTGAAGGCGGTTGAGATAGGACAGAACTCCAGAGGACTCTTAAACATTATTCAGGAAGCTCTGAAGCTCCCTCAGTCTGGGATTCCA
GAAAAAGATTGATTAGGCAATAGTTTACCTTAGACCATGAGGAGATGGACTTTAGCCAGAACACACTGAAAAACACGAGAAAAGTTGGAAGAAGGAATTA
TTTTTAGTGTTCTGAGAATGCTTTATTGATATTCCTATGAGAGTTTCATTGGTTACTGACGCTGTGTACTGATTGGGTAAATTCTAGCATTTTTACACTC
CTTTGTTTCACCCTGTTTGTTCATTCATTCTTCCGTTAAACTACAATTAAGCAACTACCATATCTAATTTTAAGGTGGTGGACAAAGAATCAAACCTAAG
TTGGGGAATGTGGCCTCTGGTGATTCTCAGTTCTTGGTAGCCATGTCTCAGCATAGTCTTCTCGGACACCTAATACTACTGACCTGTATAATCGATAGGG
TATTGCAGACATCAGAGTATGTGACTTACGAGGCTAGACCATAAAAATATTGAGGCTTCTGCCTTACTGATGTGGATCATTCACTCTAGGAAAAGCCAGC
TGCCATGTTGGGAGGATACTCAAGCATACCCGTGTAGAAGAACTGAGCCTCCTGCCAACAGCCATGTGAGTGAACCACGTTCGAAGTTGATTCTGCAGCC
CTAGTTAAGCCTTGAGGTGATTGCAGCCTTTGCTGCAATCTTGACTGGAACTTTATTTGAGCCCCTATCTAGAACCACCGAGCTAAGCTGCTCACAAGTT
TCTGCACCACAGAAATTCTTGTGCGAGATAATAAAAGTTAATTATTGTTTCAGCCCACTTAGTTTTGGGATAATTTGTTATACAACAGTGGATAACTGCC
CATTCAAAGAGTCTAAACCATTAACTGTTCAGCATTAGGTAAGAAAACCAGTTAATTGTTACTTTCTTACCACCTACCCCAGCACCCCAGCACCCCAGCA
TGACCACCATTTAGAGGGAGCTGCGCTTTTGCAAAGGTACATAGGACACTGTCTGTTGCTTCTGTACCTCTTGCCTCATCAGTTAGTGGTGTGATGTGTT
TGCCTGACAAATACCATCTAGGACCCTGGCTGCATGAGCTTGTTGAGACAGCTAAATTTTACAGGTAGTTGGGGTTTCACCATTTAACCCAGTTAACTCT
TCTATAAGTGCCGTATTAAAGCAGGTGGTGTATTTTGAAAGACGTATGTAAAAACATTTGTATTTATTTATATGAATGAATACATTTTATTTATTTATAT
AAATACATTATATTTATTCACATAAACACATTTTATTTATATAAATAAATCCATTTTTATTTATTTATATAAGTAAATAAATTTTCCTATAAATAATCTT
TCTGATTGACAGATAGCGACCTTCCTGCTATGTCCTTACATGACAGAGGAAGAGATCATCTTTCTTCAGCCTCTTCTGACAAGTCCACCAGTCTCATTCA
TGAGGGTTCCACTCTCATGACTKAAGTACCTCCTAAAGGCTCCCCCTCCTAATAATATCACCTTGGAGATTAGGGTTTCCAAATATGAGTTTGGGGGGAC
ACATTGATTCCACAACACTGACCTTCTATCAGATCAGCCAGGATGCTCTTTTTCAAACTTCTGTCAATCTTTCCCCACCTTCACAATGTGCCCCTATTAT
TATTAATATTTAAAATATTGAAGATCTAATTAATGTTGAAATTTTTCTTTAAATCAATTCATAGATTCATTAACTTTGTTTTAAAAGGAAATGTTCTATT
TCCATCGTAAAGGGAAGATCAATATGATTTGCCACATATAGATGAAGATAAACCTATATACAAAGAAAATAGAACTATAGTAATTCCATGTAGCTATTAT
TACCAGAGAATACTCTAAGCCCAATGCTTGTGTTCTCTTTGGGCAAATGGAAGATGAGCCACTTGTAGAGAGGTATTAAAAACCAAAGCAAGATCTTTTG
CAAGTAGATTAATTGGGCAAGACAAAGGGAATAATAACTATGTCACCAAAATTATTTAATGCAGGGTCCAGGAGCCACCTTAATCATCCATAAATTGGTT
AGGCATGTTTATTACCACAGATTGGAAGCAGGCTTCCCCCAAGTGTGTTTCCCTTTGTAATGCCAGTGTCGTAACGCCACTATCTATACTTTTCAACACA
ATTCCAAGTGCTACCTCTGCATGGCAGAAACTGTCAACCGTGGATGGTTTCTTTTTAGCTTGTCCTTCCCGTTCTACAGCATGGAGGTTAAGAGCTCTGG
CTTTGGTTCCAATCGTGTCCCCTTTCCTCCCTGTGTGTTATTGATTGACCTCTCTGAGCCCATTGATAAATGGAGTTAAAAATTTATACTCACTGGGGTG
GTGAGAAGGTTAAGGGCAATGATGTATACAAGACATTAGCATTTGCTATAAGGAGGATGTATCTCAGTTGCCATATTTGTATCACTAACCATTTGAAGAT
TTTGTGTTCAAGATTTGGAAGAGAATCTTCTTCCCAAGCCAGCATTTTATATTTTGCATTAAAAAAAACCACAAAAGACAAAAAAAAAAAAAACAAAAAA
CCTTCACAGACAAAACCCAGGGCATATTTTAGGTGTGTTTAATTCGAAGCTCCTGATGTCTAGCAGGAACCTGGAACTTCCCTTTCTATTTTTGTGGGTC
AATATATTCCCACTTTTGATTTAAGGTAGTACAAGTTGTATATGGGTGCCAGTTAGGGATTCCTGGCTGATCTGTGCAATTTTTTCAGTGAAGTTATATG
TGGTGCTTAGTGGTGACTATGGGAAGATTACACGGAGAAGTGTTAGAACAGGGTAATCAACTGGGAACCCATTTCAGGTGAATGCCAAGATGTTTTGAAG
GTGGGCATGGCAGGGAAATAACAGGATGCCATGCTTGGTGAGAAATGAATTCGTAAGTGTGCACTGTCTGCCATAAAGAGCCAGGCAAGGCACAGAAAAT
ATTCTTCTGTTTCTTTTTCTATTSTACCCTCTCTCTGCTTTTTCTTCTCTCACTGCTGCTGAAGCAGTGAGAGCCTGTTGAGTTAAAATAAGCCAGTGAG
GATTTTGGTGGTGTTTGCCCTTGAAGCCTCTTGACATACAGTGTCATCAAGGAGCAGTGGGTGAGCCTGCCCATATCTCGGGCACAAACCTAGGTACTCA
TTGAATCCTTTAAACTAACCCTCTAAAGAATTCTCAATCTGTGGATGAGAAATGGCAACACAGGGATGTTAAACTGCATGCCTACAATCATCCATTTGGA
AGAAGCAGGGCTGGAATTTGAACATGAGACTGTATGCTCCCTGTTGTAGTTTCCTATGGCTGCTGTAAAAAGTTAGCACAAATGCAGAGGCTTAAGACAG
CACAAATGTCTTATCTTACAGTTCTGAAGGTTTCGCTCCAGAGTGAGTTTTATGGAGTGAAAATCAAAATGTTGGCAGGCCTTAGGGGAGAGTCCATTCC
TTTCATCTTCCAGTCTCTAGAGGCTGCTGGCATTTTTCAGCTCACGGCCACAGCACTCTAATCTCTGCTTTCACTATCCCTTCTTTTTTCTGTGACTCTG
ACCTTCTTGCTTCCCTCTTACAATGACCCTTTTAATTGCATTAGGCCCACCAGGCTCATCCAGGATGTATTTGTCTGTGTTCACACTAGTGATAAAGACA
TACCCAAAACTGGGTAATTTATCAACAAAAAGAGATTTGATGGACTCACAGTTCCATGTGGCTAGGGTGGGTGCACAGTCATGGCGGAAGGCAAAAGGCA
CATCTCACACGGCAGCAGACGAGAGAGAGTGACAGCCAGGTGAAGGAGTTTCCCGTTATAAAAACATTAGATCTCATGAGACTTATTCACTACCATGAGA
ACAATATGGGAGAAATCGATCCTGTGATTCAATTATCTCCCACCAGGGTCCCTCCCACAACATGTGGGAATTATGGGAGCTACAATTCAATATGAGATTT
GGATGGGGACACAGCCAAACCATATCACAGGATAGTTCCCCATATSAAGGTCCTTAACTTAATCACACTTGCATTTGATTTTATCATGCAAGGTAGCATA
CTCACAGGTGGGATTAGGACTTAGACACCTTCAGCAAGAAACATTACTCAGGCCAACACACTCCTCAAACCTAAGCTTATTCCCAATCACACAGTCAGGA
GAGGATGCCCACAATGCACTTGGGGTTTTGTGTCTGTGTCTCCCCTCCAAGAACAGGTACTTGCCCTTGTCTTTGGAGCTCACAGCCAAGTCCTACAGTC
AGCATCAGACGGCTTGTCTCAAGCTGCTGATTTCCGGGAGCAAAGCTGCTGTGGGACATGAGACTCTTTGAGGCAGAATACCTCTCATGCCTGGAGAGCA
TTACAGGCTGCATTASTCTGTTTTCACTCTGCTGATAAAGACATACCCAAGACTGTGCAATTTACAAAAGAAAGAGGTTTAATGAACTCACATTTCCCCA
TGTCTGGGGAGGCCTCACAATCATAATGGAAGGGGAAAGGCGCATCTCACGTGGTGGCAGAGAACAGAAGAGAGCTTGTGCAGGGAAACTCCGCTTTATA
ATACCATCAGATCTCATGAGACTTATTCACTATCATGAGCATAGCACAGGAAAGACCCTCCCCCATGATTCAGTTATCTCCTACCAGGCCCCTCCTACAA
CACGTAAGAATTATGGGAGCTACAATTCAAGATGCGATTTGGGTGGGGACAGAGCCAAACCATATTACAGGCTAATGACTGAGCGGGGGCTGTTTCTTGT
TGTGTTCTTATAAGAACTATTGCATTTTCTTTTTCTTCCAAATATAGTTAATGGCCTCATCTTTTCTGGACTAGGTTTGTAGTAGACCATAAGCAAAAGA
GTTCAGAAAGCACGGCCTCCAAGAAGTCGGATCTGCTTGTCTTTATCAATCTGTTTGGATTTTCCTGGCCCATTTACTCACAAATTTAAAAGACATGATG
AGTTTTCAGGGAGAACTCTTTAGCATTTACATTTTAATTTAGTTTTGTTTACCTGTTTAGTGCCCTCTCGGTTCCCAGACCATCAAACTCACCATTGTCA
CCGGGGAGAAATTTGTGTTGGCTGAAATCTGTAGTGGTTGGTCTGCTGCTTTTCTTTCTCTGCTCATCTACCCTGATAGTTTCCCTGTGGTTTGTGGTGG
GCTCACAGCTCTTGACCTCAGGACTCTCGCTGGTCTAGAGGAGATTGGTTTGTGGGGGCGTCTGACATGTTTGGGTTCTTTGTGACATCTGGGCCACCCG
GTTGAGTCTGACAAGAAACACTTAATACCTCCTTGGCTTTGAAGCTCTCCTTTGTGGCACTACAAGGTCCTCTTTGAAATCCCACATTCTTTTTTGGATT
TAGGTATTAACCCCTTGCTGTGAGGAGAAAGATAATTGTCAACACACTTAGGAGAGAAATCATGCAGTAAAGCTGACCCGACATAGACTAACTTAAAACT
AACTAGTTCATTAGTGCTAACTTAGTTCATTAGTGCTTTATCTCCTTGTGTGTGTGAGTGTGTGAGGGGATCAATTATATACATAAGACAAAGACCACCT
AGGAAATGTTTGAGAAACTGTGCAGTGAGGATGAATCAACAAGTAAATATCATGAGAATTTCTTAGATTGAAGAAATATTACTCCTATTTGGTGTCAACT
CTGTGCTGGCCTTTTCACTSAAGTTCTCTGATGTAACTGCCCACAGTAATCCTGTAAGGTATGGCTAATCATTTCCATTTTATAGATTAGGAAACCAAGG
TCMAAAGTGGTGAATTGATTTGACCAAAATCACAGACCCAGGAATTTCCTCAGCCAAGAGCCTACAGCAGCTGTGTCTTAAGACTGTGCCCTTTCATCCA
CCCTCTTGGTACTCAAAGCTTGGTCCATGAACCAGCAGCTTCAGCATCTGCTGAGAGCTTGCTGGAGATACAGAATCTCAGGCCTGACTGACCCGAGGCC
TGCTGAGTCTGAATTTTAACCAGAGTCTCTTGGTGACTCGTGTGTACTTTAGAAGGGGAACTGCTCACCGCCCCCACTTCCCACTGAGTCGAATAGACAT
TAAGTGAGCCTTCCTTATGTGCTCAGCCTGTGGTGAGGCTGCAAAGACAATACGACCCAGCCCCTGTAATGCAAAATTCAGAGCATAGGGCAGCACACTG
CTGCCATGAGTCGAGGTGACACAGTACTAACAGTGGGCACAGGGGGCTCGGGGCACAGAGGAGGGGTGCTTCCCAGGGAGACTGCCCGTTGGAGCTTACT
CCTAAGCTAATTGGGAGGCAGGAATCCACTGTGGCTGAGAACAGCAGCTCTGAATTTGCACTGTCTGGTTTCAAGTCCAAATTCTACTACATCCCAGCTG
TGTATTGTGGGGCAAGTTACTTAACCTCTCTGGCCTCAGTATCTGTATCTGTAATATGGGGAATCATAAAAGCACCTACTTGTTAAGGCATATTAAATGC
AACGCTACTTTGAAGGACTCATAGTAGTTAACACCCAGTTTGGTAAGTGTTATTATTGAAGGCTGAGAACAGAACGACAAACAACAATCACAACAAAAGG
CTGGGGAAGATTTTCCTGGTGGGGGGACCAGATGAGCAATAGATCTCCATATGCAGAGGGGTAACTGAGTACGACTCTGGGACTTACACTAGAACATTCA
TATTGCAATAAAGCAGATTTTTCCTGAGCACCTACTCTGTGCCAAAGCACTATTGTAGGCTGTGGAGATAGGGAGCTGAAGTACTGAAAGCGTTACAGTC
AAGGGCCAGAAAACCATTGTTCAAGCAATTGGCGTATGGCTTGATCTGTGTTTATTACAAAGCGATACTTTTCCTTCTAAGTACTGCTTTACCTGCATCC
TGCAAATTTTGGTATGTTGTATTTTCATTCTCATTAATTCAAAATATGTTCCAATTTCCCATGTGATTTCTTCTTCGACCCTCACATGTTTATTACAGCA
TTTACTTGTTTCTGTTCATCCAGAACTCATTGAATACCTGCTATCTACCAGGCAGTGGCCTGGTCACATCTTCTGACCTCAAGTAGTTTATAGTCCAAAA
AGACATTGGCTCTTTGGGATAGAGGCACTTTTTGGGGGAGAGAAACATGAATGCAAYTTTTTACATAGAGTATGAAACTCTGTTCCAAATCTCTCAAACT
CAGGTTCTTTGATTCTTAAGGTATTTTTCACTGCCGAGTTGCTGTCATTGAAACAAAATCTGTCCTGGTCACCACTGTATGCCCAGCACSTAGTACAGTG
CCCTGAACATATTAGGTACTCATTAAATACTTGTTCCACGAAGTTGTTATTTGGTATTCACGAGTTTTGTCTCAATTCCTTTTGATTCTTCTTTTCACCC
ATCTCATGTTGACTTAATTTCTCCAGCATTCAGTTAAGACCTAGCCGAAGCATAATTGTCAGCATAGTAGAGCTGGCTCTCCTCTTTCTAATTGCCCWGC
AGAGTTTTTGGGGAGTCTGTATGCAATTGTGTACACCCCAATGCCCCAAAACCCTCTTCTATTTCCTTTAGCACTCTTGAGCTGAAGAAGCCCCACTCTC
CCTCTGCCCCACATCTATTGTGGGCTGGGATACATGTTGGGCCTCTGCCCAGATCATGCTTGGAGTGGCACCAGCTGGGTAGGACATGTGAAATATTTGC
TCAGAGAGATCCAGAAGTGTTGATCTGAGTAGGATCAGCTGGTGCTCCAGGATAAAAATCGTGTCACCACTTTTGCCGAAAAGTCACTGTGTTTCTCCTG
TACTCAGCAGGTTACAGGGTGCCATATTGTTTTCAGTCTTCCGGCTCTACCCTGTTTTGAAGTGCGGCCGGGTGTTGTTAAACGGCTCCGCCTTCCTGCC
AGAATTTCTCCGTGGGGAGGAGCTGCCACCCAGTCCAGTGAGTATGGCCTTTTGGTCAGCATTGCAGAACCTGGCAAGTCCTAATTCCCTGTGAGCTTGA
CACAGGAGGCCGCCTCCTCCTCCAGGCTTACTTGGAAGCATTCTGTCCTCTTGTTGGAAGGGAAATTGGTATGGTAGGGAGGTGCTTCTTCTGGGAGTGG
GTTTGTAAAATCAAGACTGTTTTCATCCAAACCAGTTACCTGTTTGTCTAGAACCTGTGTTCTCTGCTTTCTGCCTCTTGTGTTGACATTTCTCCTTTGG
CCTTCATCTGTTACTCGCTCACATGTGCCGTGCCCCGGGTGGGTTTGGAAGCCATGCTGCTATGGTTTGATTCCTGGCTTTCCAACATTACCTTTGATAA
CCAAGACAAGTGGCAGTCTAAGCCTCAGTTTCCTCATCTGCAAAATGGGTGCAATTCTAGTACCTCCTTCCTAAGGCTGTGAGGATTCAATGAGGTACTG
CTTGCAAAGTTTCTAGCACAGTGTCTTGAACACGGTAAACAACTTACCTAGGTCTGATCTCATTTGATATTGTTGCTCATAGCAAAGGTTTGTTGAGTTT
ACTACGGATATAACACTTGTTCTTTTTTAAAATAACTTTTAAAAACGCAAGTGTTGAATTATCTGCATTGTGCCTTTAGGGCATACACATCTGCTTACAA
TATTTTTTGAGCTTTCAGAAAACTTAAGATATGGTTGAGGGATGCAGGAAGGAACAGGACAAGAACCCAGATCCCTGCCCAACAGGACAGTGGAAGGGAA
GTCTCAGCATCTCGAAATGAGTGCCTGGAGAGGATGGGTGGCGGCTGTGCGGGGATGTGGTAGGGTGATGGTCCTTGAAGGATGCTGCAGATCACAGTGG
CCCCACAGTGTGGGGATTGGGGTGGGATATGTGACAACAAAGGCATCCCTGGCAGAGGATCCAGCACGAGCAAAGGCAGAAAGTCCAGGAAGTGTCAGGA
ATGAGAAGAGCCCAGTAGAGGATGGGCTTAGGGACAGTGATGAGACCTTCTGGTAGAGGCGTTGAACACTAGGGTGAGGGCTTTGCTCTGACTTCAGGAA
GCAGGTGAGAGGCCCTGAAATTTCCACGTAAGATTCGGGGCCGGGCACGGTGGCTCATACTTATAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGACC
ACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAGTACAAAAATTAGCCAGGTGTGATAGCGGGCGCCTGTA
ACCCTGGCTACTCGGGAGGCTGAGGTGGGAGAATTGCTTGAACCCGGGAGGCAGACGTTGCAGTGAGCCGAGATTGTGCCACTGCACTGCAGCTTGGGAA
ACAGAGTGAGACTCTGTCTAAAAAAAAAGAAGAGTTGGATCACAGCAAAGGTGAGCTTTAATGAGTTCACTCTGGCAGTTGTGCCGAGGAGGGACTGGCA
TGGAGAGAAAACAGAGGCAAAAATCACAACCTCTGTCAGAGAACTCATCGCACTATTTCTGTCCTGCCCTGGGATGGTGGAGCCTAAGGGAACAGAGAGG
ACAGAGTGGGTGGCACAGGCATTGCGGAGGCAGAAATTTACGTGGCTTCCATGCCCATTGGTGTGAGGAGTGAGGGGTGATCAGGGATCCCAGTGGCTTG
AAAGTATAACAAAAGTATGACTAGATCCAGGAAATACAGCTGGAGAGACCCAAGTCTGCACAGAAAAGGTTTACAGAGCCCAGGCACACAGATGACATGA
GCAGTTCCAAAGGAGTGGGACGGGGTGAATGATTTGTGGTCAGAGGTGTGGTCACACATACCGTCCCCTGATAGTCGGTGGGAACTGGGTCAGGTTCCAT
TTGCCAGGGGCAGGACATACTGCGTGCCTTGGCCTTTTCTGGGCTACTCAAAAAAGGATTCCACCAGGTAAACTTGAATCACCTAGCGCTGGTAGAAAGC
CTTGCTCTTCGTCATCTCTCCTGTGTATCGCTAGCCTTATTAAAATGTGCAGAGGAGACCGGGCATGGTAGCACACTTGTAATCTCAGCACTTGGAGAGG
CTGAGGTGGGAGAATTGCTTGAGGCTATGGCTTCAAAACCAGCCTGGGCAACACAGCAAGACCCCACGTCTTAAAAAAATTTAGCCGGCTGTCGTGTCTC
CTCCGTGTAGTCCCAGCTATTCAGGCAGCTGAGGCAGGAGGGCTGCTTGAGCTCAGGAGGTGGAGGCTGAAGTGAGCTGTGATTGTGCTGTTGCACTCCA
GCCTGGGCGACAGAGGGACAGCTTGTCTCCTTGTCTCTAAAAAAGAAAAACATGCTCAGAGGCCTTGTGAGTTAGCTCTCTCCAAAGTTTTTAAGACAAG
GAATTCAGTTAATCAAGTTTGTTAGACTTGTTTGAAAAAAGGGCCTGAACAGGCTCAGAGCAAGGGCAGATCAAGCTCTTCCACAGATTTTAATGTTCAG
GTTTTGTGACCTTTACTTTTTTTATTTTGGCAAAATGTACACAACTTAGTATTTATCATTTTAATTTATAAGTGTAAAATTCATAGTCATTAAATATATT
CACAATGTTGTGTAACCATCAGCATTACCTATACCTAAAATATTTTCATCACATCTTTTAAAAAATAACTGCCCCTTCCTCACWTCCCCAAGCTTGTGGT
CTCTGGTAACCCCTACTTTACTTTCTGCATCTATGAAATTGTTTTCAAGGTCAATCCATATTGTAGCATATATCAAAATTTCTTTCTTTCTTCCTCTCCT
TCCCTCCCTCCCTCCCTCCCTCCTTCTCTCTCTCCTTTCCTCCCTTCCTTCCTTCCTTCTTTCCTTCCTTCCTTCCATTTTTGACAGGGTCTCACTCTGT
TGCCCAGGCTGGGGTGCAGTGGCACAATCAAAGCTCACTGCAGCCTTGACTTCCTGGGCTTCAGTGATCCTCCCACCTCAGCCTCCCAAGGAGCTAGAGG
TGCATGCCACCATGCCTGGCTTTTTAAATTTATTTTTATTATTATTTTTTTATTTTTAGTAGAGACAGATTTTGCCGTGTTGCCCTGGCTGATCTTGAAC
TCCTGTGCTCCGGTCATCCACCCGCCTGGGCTTCCCAAAGCGCTGAGATGACTGCGCCACCACACCTGCCACAAAATTTCTTTGTTATGGCTGAATAATG
TTTCTGTGTGAGTGTGTGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTKTTTGAATAATACTCCTATGAACATTGTACCAATATCTATTCAGATCTC
TGCTTTCGATTCTTCTGCATRTATACCTAGGAGTGAAATTGCTGCGTCGTTTCGTATCTGTGTGCTTAACCTTTTGAGAAACTGCCAAACTGTCTTCAAC
AGCAGCCGCATCATTTTACATTCCCACCAGCAGTGCATCAGGATTCTAGTTGCTCCACATCTACCCAATACTTATTTTACTTAAAAAAATAGAATAGCCA
TCTGAGTGAAGTGTTACCTCCCTGCAGTGTTGATTCCCATTTCCCTAATGATGTTAAGCGTACTTTCACGTGCCTACTGGCCGTTTGTGTATCTTCTTTG
GAGAAAGTAACATCCATTTTTGATACTCACATGGCTTTTTGGTTCTATTTTTGCTTTCTTTTGGCTAATGATAACCTTCCAGCACCACGAGTTTGGACTG
TGCTAATGTCTTCTAGTACTGTTTAGAAGTTGAGGTAAAAAGAAAACGGTAATTGAAAGAGACAGTTGTTGTTTACATTGGGGAGGTTGGTATTCCACCC
CCTGTGCTTTTTCATTAGCTGTATTGTATTCTTATTATGTGTTTTACCGGGTAATTGTAATTCTTGGCTTTGGATTTTGTCCCTTTTTTAGGCTGCGGGG
CGGGGGGTCGGTTATTTTATAAGCAAAGAAGTACAGCCAGTATGATTTTGAAGCAACTAGGCCCCAGTAGAAAAAAGTTGGAGAGTGAAATCTCAAGCAA
GCCAAAAAGTGATAGATGAGTTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTTGCCTGGCTTGGTGCAGTGGCTCATGCCTGTACTCCCAGCACTTTG
GGAGGCTGAGGTGGGCGGATCATCTGAGGTGAGGAGTTTGAGACCACACTGGCCAACATGTTGAAACCCGCTCTCTACTAAAAATACAACAATTAGCCAG
GTGTGGTGGCGCACGCCTGTAATCCCAGCTACTCACCAGGCTGAGAGTGGAAAATCACTTGAACTTGGGAGGCAAAGGTTGCAGTGAGCGGAGACTGCGC
CGCTGCACTCCAGCCTGGGTGACACAGTGAGACTTCATCTCGAGGAAAAAAAAAAAAAAAGGCTTTGGAGCTTCCTAATTTCTAAATAGATTTCCTTTAT
AATTTTCAGAGGTTGTGAAATTAACTCTGTAGATTGGGGAGTGTAGTTTGTCACTCTAATTGCCCAGCGTTTTAATTATCGGCGTGTTTTATGCTTTTGT
GAAATGCTCATTTCACAGCTTGCTGGTGGGTCTTTTTGTGGAACGAGAAAGTGAATATTCACACCAGAAATGAGGTACTGACCCTGAAGGGCTTTCCAGT
CAAAGAGAAAGGAGAGCATGACCCGCCAATGCCGTTGTTTGTAAGCAGGAAGCTGACGCTGCGCCATGGTGTAGGGGAGGAGGACGGTTTCCATTCTGTT
TTGAGCATCAGAATAAAACCAAGCACCAGAAGGTGTGGTTCAAAGATGCTTTCCTTTTTCAGTCTCTGGTCAATTTGTTGTTATTTTTCTTCAAGAGAGT
TGTTGGGGTTGGGTAGGCGCAGGGGCCACAAGGCCATCTTTATAAGGCTCTGGCATTTGATAGTGAGGTATTTTGGTATTCCAAATAATTGGTGGAAGGA
TGGAAAGGTTAAATGGAAATTATGTAAGGGCTGCAAAGAGATTCATATATGACTATTTCATGAGTGCTTACTATAYACCAGGCGCTGTTACAGCCCGTGT
AATGCCACCTGGGAGTTGGGGGGAGTCACCATCGTCCATCCGTCTGTSCATCCATCCATCCATCCTGCCTCCCTCCATCCTTTCTCTTTTTCACAATGTC
TCTTGCTCCGCCCCCTCTCTTCCCCTCCTTCCTTCCTATCCAGTGCTTGTAACCTGTCAAGCACATGTTGTAGCCATTGGGGACATCGTGGTAAACAAAG
CAAAGTCCTTGCTTGCATTCTGTGACAGATGGAGATAAAATGGGTAATTAACAAATGTAATCCCTCCCACCCACCCCCCACATTATTTATTTATTTATTT
ATTTATTTATTTATTTATTTATTTTTACCATRTCTGTTACTCCATCAGTCAGGATCCAGTTAGGAGACAGAAACTATATCATAATTTTAACAGGGAAGAT
TTAATATTAAGAATTATTAGCTACAACAGGGTTTTGGCTACTAAAGGGTAAAGAGAATCAGGCCGAGCACAGTGACTCATGCCTGTCTGTAATCCCAGCA
CTTTGGAAGGCCAAGGTGGAAGGATCGCCTGAGTCCAGGAGTTCGAGATCAGTGTGGACAACATAGGGAGGTCCTGTCTCTACAAAAAATAAAAAATAAA
ATAAAAAAATAAAAATAAAAATAAATAAAAAGTAGTTGGGCGTGTGTKGTGGAGCATGTGGGGGTCCCAGCTACTTGGCAGGCTGAASCAGGAGGATCGC
TTGAGCTCAAGAGGTTGAGGCTGCTGTGAGCTATGATCTCACCTCTGTACTACAGCCTGGGTGACAGAGTGAGACCGTGTCTTTAAGTAAAATAAAATAA
AAAAGAGTAGGTCGGGCATGGTGGGTCATGCATGTAATCCCAGCACTTTGGGAATACGAGGTGGGCCAATCACTGAGGTCAGGAGTTCGAGACCAGCCTG
GCCAACATGGTGAAACCCYGTCTCTACTAAAAATACAAAAGTKAGTCGGGGTTGGTGGTGTGCTCCTGTAGTTCCAGCTACTTGGGAGGCTGAGGCAGGA
GAATCACTTGAATCCGGGAGCCAGCGGTTGCAGTGAGCTTAGATTGCACCACTGTACTCCAGCCTGGGCCATAGAGTGAGACTCTGTCTCAAACAAAAAA
AAAATTTAACTCTAAAGAATCCAAGAATACAGATTTGGGAGCAGCCAGTACCAATGGGGGATGGGGCAGTACACCCAGGAAAGAGCAAATCTGGGGTCCC
CACGGGCCAGGACTGGGATCTGGACTGGGCCATGGCCCATTGGATGGCAGAAAGGTTCTCACTGAAGCCCCCATAAAGGTGGGACTCACTGGGAAACCGC
TCTCTGTGGTGCCAGGGAAGGACGTCTGTGGGAGGTGCCTACCAAGGAAGTCTCTGGAAATCAGCCTGCAGGGGTGGAGTGCCGGGAAACTCCCGCCCCC
TCCCCCCCTCCCCGAAGTGAACCGCCCACAGGGAGATGCCCCTATGGGAGCTTCGCACCAGAACCCGTCTGCGCCAGTGTCCCTGCAGCGCCCTCTACTG
GCGAAGCTGGACATGGCGTCCGCTGGCAAAGGGGAAACTCTTCTTTCCTCCCAAGCCGAGCAATGCTAAATGTGCCTGGTACTGAGACGTCATCTGTGGA
CGGTTGGCACCGATGCTAATCAGTGCTATGGGAAAATAGGCAGAGCGAGGAGCGTAAGAATTATTATGTGTGCTGTTTGATAGAGACTGTACAAGGAAGA
CCTCTCTAAAAAGGTGACATTTGGAGCAGAGACATGAAGGAAGGGATTGCTGGAGGCAGAACATTCTAGGCAGAAGGAACCGCACGTGCAAAGGCCCTCA
GGTCAGCCGGCATGGCATGCAAGTAAGCCACCTGCAACACAGCAGGTGTGGATGAAGGGAAGAGAATTAGCATTTGGCCAGAGCACGCATTTTAAGGGAT
GGAGATCCATTTGGATAGTCTTGAACACAGAACTGACCGGAACTGACTTACTCTTTGAAAAGATCGCTCTGGCTGCTGTGTTGAGTGGATTGGTAAGGGA
CAGGTGGTGAAGACTGAAACAGGGTATCCAGTTAGGAAGCTACCACAGTGATCCAACCCCCAGCTTCTGTTGAGGTTGAAGAACMTGCATGCCCAACCTA
AATATATGTTCAAAGGTGGTTATTACTGTTTGAGGTGATGAAAGAGTTTTGGAGATAGAAGTGATGGTTGTTCAACATCATGAGTGTAATTAATGCCACG
GAATTGTATCCTTAAAAATGCTTAAAATGCGCTGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGATGGGCGGATCACTTGAGGT
CAGGAGTTCGAGACCAGCCTGGCCAGCATGGTGAAACCCCGTTTCTACTAGAAATACAAAAATTGGGCGGGCATTGTGGTGGGTGTCTGTAATCCCAGCT
ATTTGGAAGGCTGAAGCAGGAGAATTGCTTGAGCCTAGGAGGTGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTTCAGCTTGGGCAACAGAGTAA
GACTCTGTCTCACAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAGAGTTGGATCACAGCAAAGGTGAGCTTTAACGAGTTCAGTCTAGCT
CTCTCACAAAAAAAAAGTTAAAATGACAAATTTTGTGTTACATACATTGTACTACAATAAAAACCATTTTTTTGAAAAGAATAGTACAAAAATGATACTT
CCCTCTCAGTGTATTTTACCAAGGGATTATTAGTGTATATGTGTGTTCTTACTGGAAATGTTAATTGGACTTGTAATTCTTTTTTTAACTTGTATTTTGG
GTTCAGGGGTACATGTGCAGGTTTGTTATATAGGTAACTTCATGTCACAAAGGTTTGTTGAACAGATTATTTCATCACGCAGGTAATAAGCCTTGTATCC
AATAGTTATTTTTCTGATCCTCTCCTTCCTCTCTCCCTCTACCCTCAGGCAGGCCCCAGTGTCTGTTGTTCTTTCTTTGTGTCCTTGAGTTTTCATCATT
TAGCTTCCACTTGTAAGTGAGGCCATGCAGTATTTGATTTTCTCTTCCTGCATTAGTTTGCTGAGGATAATGGCTTCTAGCCCCGTCCGTGTTCTCGCAG
AAGACATGATCGCATTCTTTTATATGGCTGCATAGTATTCCATGGTGTATATTCACTACTTTTTTTTTAATCCAATCTGTCATTTGTGGACATTTAGGTT
GATTCCAGTAGACGTGTAATTCTTCTTGGAAATGTTAATCTTGATCATTTGGTTAATGTGATGACTTCTGGGTTCTGCAGTGTGAAGTTATTATCTTCCC
TTTTGTAGGTAACAAATACTTTGGAAGAGATTAAACAAACAAATAAAAAAGTGGTGATTGTTATTACCAGCATGGCTACTACTAGCTAATTCCAGGCTTC
AAGCCACTGGGGCATAGGCATATGTTTAGCTCATTCCACAGGAGGGGAACAGAGGCTCAAAGAACCTAGGTAAGTTGGCCAGGCGCGGTGGCTCACACCT
GTAATCTCAGCGCTTTGTGGGGCTTAGGCAGGAGGATTGCTTGAGCTCAGAAGTTTGAGACCAGCCTGGACAACATAGCGTGAACTTGTATCTACTTAAA
GTAAAAATCAAAAAAATAATGGGGTGCAGTGGTACATGGCTGTAGTCCCAATTACTCAGGAGGTGGAGGTGGGAGGATTGCTTGGGCCCAGGAGGCTGAG
GCTGCAGAAAGCTGTCATCATGCCGCTGTGCTCCAGCCTGGGCATCAAGGTCTGTTTTGCAGACCTTGTCTCCAAAGCAAAACAAACAAACAAAAGAAAC
AAACAAACAAACAAAAAGAAATTAGGTAACTTGCTCAGTGGCTAGTGAGTGGCTAGATTGTAAGCTTCATGAGGGCAGGGGACTTTGACGATTTTGTCGG
TATCCTAAGCCCCTAGAACAGTGCCTAAACATTTGTTGGGCAGTTAATATATATTTGTTCTATTAATAAGTAGAGCCCGAGTTTGTGTTCTCCGATTCCA
CACCCCATGTTCCTTCTACTACAACTTCTGGCTCTGGCTTCTGGACTGTCAGTCATTAGCACTCCCTATCCCTAAGATTTCAGGAATGTTCAGCTGTTGC
CTAGCTTGGAATGGACCATCCTCTGGTCCCACCCATGGGTAAGTCATTGGCTGCAGAGCGCAGACATTTGGCTCCCTTCGGGACATTCCTCCCTCATTTA
AAACAATGAGGCGGGCAGCAGGGTACTTTGTCCCTTGTGTTAGCTGAAGTTGGAGGATGCTGTGTTGATGGGAAAACGCTGTTACTATTCTTAGACTAGT
GGGGCTCTCACTTATTCATAGCTCCGCACTCGTGGGTGGAATGAGAAGTTATAATAGAGTGCAGGTGCCTCTCATTGTTTTCCGCTACTCACTGGATAGT
GTTTATTAAAAACGAAATCACAGTGGTGTGTCTGGAGTTGAAGTCTGAACAAATAACCCAAAATGAGGAGTCCCTGGAAGGTGGGCAGGAGGCGACAAAC
AAAGAGAAGCAAAAACAAGTTTGAGCTAATTGGGATCAGGCAGTACTTTGCATGTGAGTTCTGAACAGGGAGCTTGGCTGCAAAACGATTATTGTATTTA
ACTTCTGTTGGCATCATTCGCATACTTGTATGGGAGATCCAGAATTGGAATTTAACACAGTTTTCCCAGGCCCTTCATGGAATTTGAAAACATGACTCTG
AAAGCATGTGGCTGAAATGAGACTCTTTCACACTGTTTAAAGATGCATGTGCATATGTTGGTGTCCACACATCAACTTAATTTTTTCATGTTCCTTGAAG
GAAGCCCTTCTAGGTCCTTCTGAAAGAAGGGCTGGAGATTTTTATTAAACATTACTTCTAGGCTGGGTGCAGTGACTCATCCCTGCAATCCCAGTACTTT
GGGAGGCCAAGGCAGGCAGATCATGAGGTCAGGAGATGGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTCAAAATACAAAAATTAGCTGGG
CGTGGTAGCAGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAAAAAGGAGAATCGCTTGAATCAGGGAGTCGGAGTTTTCAGTGAGCCGAGATCGCGCC
ACTGCACTCCAGTCTGGTGACAGAGCGAGACAATGTCTCAAAAAAAAAGAAAGAGTTCTGAATGATGATAGGTGTTGGAATCCACGTTGGTGTGTCTCAT
GTCATTTTTTCGGGCAGTTTCTTGACAGACCCATTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCGTGCGCACACGCATGAGCCTGTACG
TGTCCCCCTCCCCCCCCACACATATGCACATAAGATAGCATAAGGTAGTTCCCTGGCACATGGCGTTGTTCTTAACCATGAGGTGCTCCCAGGCTCCGGG
CAGTTCCTTGAAAGACTCATTGTCTGTGTGGGGGGAGGGGAGGCTGTACATGTCCCCACCCAACACACACACATACACACACATGGGCACATATGATAGC
ATAAGGCAATTCCTGGCACATGGCATTGTTCTGAACTGTGAGGTGCTCCCAGGAGATCTTGTGCTTCCTATCACATGCCCATTCTGCAAGTCCATCCCCT
TATTGAGCAGATGTTTACCGCAGAGCACTAAGACAGATGGAACGTCACCGTTGCCCATAGCACTCATGGACAGCATGGGGTCCCCTGTAGCAGATATTTG
TGGTGTATGCTCGAAGAGGGGCTGCAGGTAGAACTAGAAAGGTAGGTAAGTTGGGCAGATGGCGAGAGACATCACAGCCCTCACTCCTGAGGGTGGGGAG
CCATCTCAGGCTCAGGAGAAGAAGAGTGACAGAGTCACCAACTCACTCCATCAAATGTGGCTGTATTTTTAGAAGTGTCTGGTTCCTGAAATACCTCAAT
TCCTTTTGCCTGCCTRGCTCCTCTCCTCTCTTCTGCCTGTTCATTGAACTGAAAGATTATCAGGACTGTATTCAGCCCGGCCAATAATATCACAAAACAA
AAATATCTTGTGGGTTTGAAATTTATGAGTGTTTTGACTGTTCACAGCAATGCCTTTGAGAATCACAGTGTGTCATCCCCTCCCCACCCCCACGAACATG
TAGTTTTTGGGCAACTTTTCGATGAGTAAAACAGGGCCTGACTTTTACCCCAAAGTGATGTTCTTTTGTGGCTTGTCTACTCCAAGAACTGAGATACCCA
GACTCATTTCTCATCTCTTGTTGAAACAGAGAAGTCACTGTAGCGCCCTCCGGGGGGTGGGGTATCAAGGGAGAGTATGGGCTTTGAAACTGCTCATCCC
GTCTACAACCTTGGAGGGCATGGTGTTTCACTCCCCCACCTCTCCCCACAACTTCACCCTGCTCCAATGAGGATGAAAATGTCTTTCTTATAGATGGGAC
AGGAGCCTTAGTAATATGGTGCGAGCAATGGTTCACATAGGGGACAGGTGTTCATTCARTGGTGGGTATTATTATAATAATCATTAGCATCATTGCTAGT
GACTTTATTTTTCCTTTAGCCAATGGAGCAGTGGCTTTTGGCCCACTACTTTCGACTGAATCTATGAGTGAATGTGATCCTCCGTTTTAACCCTGTCTTA
TTGGATGTTGGTAAACAGTATATCATGAGCCCCTGTAAGAGCTTGAATCCTTCAAAGACAAGGTCAGTCAGTGGCCATCACTACTCTAAACGTAAGACCC
TGTGATGACTGACACTTACTAGGTTTCTCATTTATTTATTTTTCTCTGCAGGACACAGCTGTGTGTTCCAAAGATGGTCTTAAACCTATAGGAGTATAAC
ACCATGGCTAGTTCAGAAAACCTTATTCCAACTTCCAAACTTAGAAGATACTGGGAAGTAAAAGGGAGAGAAGGGAATGCATGGCTTGGGCTAAAAAAAT
GATTCTGCATTCATCTCAGAAGGATGTTTTCCAGTCTTTCTCTAGAAACAACTTTTGTGTCTAAGGATTGTGGGTGAACAACAGCAGCACAGGCTACATT
GGCTTGGCTCGGTGGTTGGGATGGTTTGGCTCTTACTGGGCAGTAAGCACAGTGGCTGGGATAGGACCTTGGCATCTCGTGCGAAGCCCCTCTGCCTKGA
GTCCTGCCTCTGTGACACTTGCTTACTGTGTGACCTGGGTCRACTCATACCTACTGTTCGTCAGTTTTCTCATCTGTAAAATGGGGATTCCAGTGGTTAT
TATGAGAATTAAATATGACGATACATAAATAGCACCTGGAAAAGTGTTTAGGAAACCTTGACATGATGACCTGTTTAGCAGCAGCAGTGTGTGCCATACT
TACCTTTATGGAATGAACAGATTTGGAGTGAGGATGGATGTTTAGCTCACTTTATTAGTCTGGTCTCACACTGCTATAAAAAACTGCCCGAGATTGGGAA
ATTTATAAAGAAAAGAGGTTTAATTGACTCACAATTCTGCATGGTCGGGGAAGCCTCAGAAAACTTACGATCATGGTGGAAAGGAAGCTAGTGCACCTTA
CATGGCGGCAGGCAAGAGGGGCAGGGAGGGAGAGAGAAAGAGGGAGGGAGGAAACCACCACATATAAAACCATCAGATCGCGTAAGAACTCGCTATGTCA
AGAATAGAATGGGGGAACCACCCCCATCATCCAGTCACCTCCTACCAGGTCTCTCCCCTAACATGTGGGGATTACAGCTTGTATTACAATTCGAGATGAG
ATTTGGGTGGGGACACAGCCAAACCATACCACTCATGGCATCTCGTTTTTACAGAGTATATGTGTTTTCAGATTTTGCATGACATTTTAGGATAAATGTG
ATGAAAATGAGGAAAATTRGGAATGAAGTTTAGGTCAGAAAAGTTTCAGTGATTATTTTTTCAGAATCATTGTTTCTTGGTTTCTAGGGTCCAACATGCC
ATTGTTCAATGGCTGTATTTCAGAGGCTGTATTTTTTTTCCCATCTCTTCCTTCCTACTTAGAAGACAGTGACATTTCCTCTGTGCCTCTCAGGTGTCAA
TGCCATCCAACAGGAATTTGTACAAAGAAAGGGAGGACTTTCTGATGATGTTGTCCAGGACAGTGGCCCCATGTAGCTACTGAGCACTTGAAACGTGACT
AGTATGACCAGGGGCTGGACTTTTAGTTTAATTTTTTGTAATTTAAATAATTTAAGTAGCTGATGTGTCTAGTGGCTGTCGTATTGGAAAGCACAGAGTA
GACATTGCAAATACAGACGTAGAAAGACACCGTGCCTGCTGCTAAGAGGCCCCTGGTCCTACTGAGTGGTCAGCTGTTTACACTGACAGTCCCAGCGTGG
TATAATAAGCATTAACACAGAGACATGTACAGGGTGCTGAGAAAGCTAATTTTTGCAATAGTCAAAAAAGACCTCAGGGCAGACTCCCCAGCACAGAGTT
CCAAGCCTTTACCTAAAAAGGTAATCATTTTATAAGTACCTATTATGTGCCAGATACTAGGATAGGCACTTTGCATAGAAACTCACATTTCGACTGGGCC
TGGTGGCTCACGYCTGTAATCCCAGCACTTTGGGAGGCCGGGGCAGGCAGATCATGAGGTCAAGAGATCAAGAGCATCCCGGCCAGCATGGTGAAACCCT
GYCTGTACAAAAAATATAAAAATGAGCTGGGTGTGGTGGCACATACCTGTAGTTCCAACTGCTCAGAATGCTAAGGTAGGAGAATCGCTTGAACCCAGGA
GGYGGAAGTTGTAGTGAGCCAAGATCGCATCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCAKCTGAAAAAAAAAAAAAAAAAAAGACATTTACA
TTTTATCTTTACTGTAGCTATGGCTGCCTATCCCAAGGATGGGAAGTCTGAAGTTCAAACTGGTGATGATCCCCACCCCAAGTCACACAGTTAGCTTTAT
AGTTAAATCAGGGTGTGCCTGATTTCCTAGCCATACCAGGCAGCCTATTTCTTGAATAACCTCCCATCCCCTGTGTCTCCTTTGTGGAGCTCTTGGCAAT
ACTCTGGTGATTGGTAACCACTGATACGCCGCCAGCAGTCCACGCTTGGGTGGAAGGCAGGTTTCACGTAACTGATTTACCACTTGGTAAAGGAACGAGG
TGACAGCAAGACCACAAACTAATAAATATGCCGGTATTGACATAATGTCGGACCTCAGTATGATTGATGCATGTGTTGTTGACTGGGATGTCACATGTTC
AGGCTGTAATCCTGGTCTCAGTATGACTGTGAGGACGGGGCCAAGTCATTTCACAATTTGGGTGAGTGTTCCAAGCTTCTCAGAAGAGCGACGCAATAGA
AATTCAAGGTATGAAATTCAAGGTGTGGTCTCAGAGTCATTTTATCTTACAGCTTCTCTGCTGTGTTTTCTCAGTATGTGAAATGGGAACATSACTTACC
ATCTACTCACCTCCTGTTTGAGTTCAAGGGAAGGTTTGCAGATTGGCCTGAAGGAAGACTTCTCTTGAAAAACTCAWACCAAAGAGCACACCGCCGTCCC
CAACCCTGAGCCATTTCTGTCCTTTTCATGGAAAGGGAACTGTGTTCGCCAGCTCGTAAAGCCCCGGCGTCTCCTCCTAGAAGAAACACCCACATTGACC
CAGCAGTGTTCATTTTCCCATAAGGTGGTGCTGGATAGGGATAGGATGTCGCCCCTTGTTCACCCCTTGGCAATAATCTGTTTGATTCACTCCAAATGCT
GCTTCTGATCTCCATCTATTTCAGGGGATGACCAGTCTGAATAAAACCAATGAGCTTAATCTACTTGTGGAATGTTATAGCCGGAAGGGATTCATAGAGA
TCACTCTATCRCCTAAAATTCTCTCTTCTACATATCTCASTGTTGGAAAACATAAATGTGACTCCAACTTGTCTTTTTTGTTGTTTGTTTTTGAGACAGG
GTCTTTGTTTCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCAGTACAACATCTGCCTCCCTGGCTCAAGGGATCCTCCCATCTCAGCCTCCTGAGTA
GCTGGGACTRCAGGTGCATGCCACCACACCTGGCTAACTTTTATTTATTTTTAGTAGAGAGGCAGTTTTGCTGTGTTGCCCAGACTGGTCTTGRACTCTT
GAGCTCAAGAAATCCTTCCACCTCAGCTTGACATTACAGGTAAGAGCCACCGTGTCCGGCCCCCCTTTCTTCTTTTTTAAAGTGGGGTATTAAGGCTCAG
AAAAGAGTGTTTCTGCCACTGCAGAGGATTGCTGACATTATTAGTTGCTCACTCTGTCCAAGGCATTGTGCTCAGCTCTTTGTACAGATTGTTTAACCCT
CACAAGTCTATGAATAGAGTATATTACCCACTTCATTTTAAGTAGGAAATTGAAGCTCAGGGAATCGTAGCAGAGGGCCCCAGTTCACACTGCTGATCAR
TGATGCGACTGGGATCACCACAGCCCATCTGGTTCAGAAGCTTGTTCTCCTAACCAGGATGTGAGAGACATTCTTGTCCTAGGCAGCACGTTGGTGGCAG
AGGTGGGATCTAGACTGAGGCTCTCATTCTGTACCCTCTCTGGCCCCARGGAAGGAAAGGGGAAGGAGAAGGGCCTTTGGGACTGGGTGGATGTAACACT
TTCTGCCACCTCTACTCTTCCTGCTATAGATTAAAACAGAAGCTCTGAATTGCAGCCACWAATCAATAATGAAAAGCTACCAGACCAAGCCCTTTCTTGT
TTAGTGTTGTGTCTTCTGTGTCAACATCTCTGGAACATAGTCAATGGCAGTACCCAGTAGAAGCCATATGGATACTTTTTCTCAAGTSTTGAAATAAATT
AATGGTGTGGCCATGGTTCTCGTACTTCAGGTCCCTGTGAGCCCCTGGGGTCCTACACAACTTGGGGTAATGCTATGGTCACCTGCATCCCCTCCTCTCC
AGYCCTCACCTGGTTTTCTCTTCTCCTTCCAAGAAAAAACACCYATACCATTCTTAACATCTCTGGAAGCTGGGGGTCAGGAGAGGGRGATCCATAAAGT
TCTTGTCTTCCCCGAYTCAAGAAGCTTAAGGGTACATTCACTCACTCATGAATTGACTGGTTTATTCATTCACTGGTTGATTAATTCATTCATTCACTGG
TTAATTAATTAATTCATGTCATCCTTTGGATGTCTTGCAGAGCTGAGTGCTGAAATAAAATGATAAACAAGTCAAAAACAAAAAGGCCTCTGACTTAACA
GGACTTCCGTGATKCGGGGGAAGAAGACAATAGGCAAGTAAGCAAGTAAATATACAAGATAAATAGAAACTGTGATGAGGGARTTAAAGAAATTAAACTG
GTCCTTGTGGAAGCAACTTCGGGGGAGGAGGAAAGACAGGGAAGACCATTTTAAGGAGGTGATGTTTGAACTTAAGAATCAAAAACAGTGCAAGYGCTGC
ATGGGGGAGAACAGTCTAGGCAAGGTGAACGGAAGTGCAGGGTCCCTGAGGCAGAAARGAGCTCAGCCTCTTTGTTAGCTAGAACAAGAAAGGGGCCCGT
ATGGCTAGCATAGGATGGGATAGGGGATCGTGGTGGATACCAGCTAGGATTTCACTGTAAAAGAAGAAAGGAAGCCACTGAAGGGCATTAAGCAGGGCAG
TGATGTTTTTTAAAGATCTGTCTGGCTGCCTTGGGGAGCATGGGTTCAGAGAGCAGCAGCAGAAGTGTGCAGGATGACTTGGACTGTCACCTTGGGGCCA
GCCTGCAGACTGGTGTGGCCGAAGGAGTGCCGTGACTCCTCTGCCACCTCTCCACATTTGGAAGATTGTTTTGCAGCTGCAACCTCAAAACAGAAGCCTC
CTAATTACSAGGTAGCTTTCTAGAGCCAAACAAATGCTGTTGTTTCTGACAGGTAAATCAAGACAGGGAAATGATGACACATTCACCACAACTGAAGTGT
TGATGGGGTGTGTTGTGACCCCTGGCTTGTTCCAAAGCCTATGTGGGTGGGAATTCTTTAATGTCTGCCTGGAACTGGGCACTCAGCTATAAATAGAGCT
ATTTTGGAAATTCTGCACCTCAATTTCTAAAAAGTTGGAAGGACAGGAAAGGGGAGCTGTGTTTGAGATCTCAGAAATCTGCACCCCACCTTGCTRTCCA
CCACTGGTATTCCGTCAGTCTTACTACCCCCTCCCACCTCTAGCCCACCCTCTACCATCCTCACCAGGAAGGAGGCTGCATTCATTTCAAGAACTGCTTT
TCTTTTATCAGCTGGCATTACTAGGTATAGACATTATGACCCTTTAATGGGCGATGGGTTAATACCTGTTGCTTTTGTGTGCTTCCTATTTAAAACATGT
TTATCTATCCCCCACCCCCACTTTATCCAAAAGTTATTCAGTGTTTTACAAAGACATGMATATTGGGCCGGGCTTGGTGGCTCATGCCTCTAATCCTACC
TGAAGCAAGAGAATCGCCTGAACTTGGGAGGTAGAGGATGCAGTGAGCTGAGATGGCRCCCCTGCACTCCAGTCTGGGCAACAGAGCGAGGCTCCATCTC
AAATAAAATTAGTCAGTCAAAGACATGAATATTTTCTTCTAAGTAGAAGTAATGATGACGATGATGGTAGCAGTTATGAGCAGGTAACATGCATTGAACA
CTTATTTGCTCCATGYAATGTTCACAGGTCTTTACATGTAAAAACAACCCTGTAAAATAAATAACATTATTCTCTTCATTCTCCAAGTAAGCTGAGGCAG
AGGATTCCAGCRCAAGCAATTTGGTTCCAAAACCTGCCCTTTTAACCTCTACCAGATTTTGGTGAACTCTCTGTCTTTGGAAGGGTAGGTGGCGGCTGCG
GGGAGAAATAGATGAAGCTGTTACATTTGGCAGCAAATGTAAATCACCACCTTCACTGGCTTTAATTTCCCCCTCCAGCCTTCTCGCCTTGCCATCACCT
TCACCCTGTCCTTCCTCTTCAGGCCACCTATCCCTTCCGATTGACCCCACTGGACTTCTCTGCTCCTGGCTTCTGTCTTCCCTCTAGTGACCGCTGTCTT
TACCTTCAGCTGCACGAGCTTTTTCAAGAACCTTCTTGCTCCCTCTCCATCCTCTCTGTTTTCCTACTTTTCTTTGGCCACTGTTTTTGCCACAGCTTCT
AGGATTTCTCTTTCCCACAATCTAGGAGAAAGGTAGAGCTCTCTTATGCTGGGRCAACGCTACCAACATTGGTATTCCACAGCATTCCAACGATTCTAAA
TACTCTCCCAGAGTAGGGMGGAAAAATCATCCAAACTACTTGGTAATTGAATTCAAGAGTGATGGACCAAAAATTATTAATGCATTCCCTTCCSTCCACC
AGCCAAAGAGGATTCCATCTTTATTCTCCTCCCAAATGCAGGCTCCATTAACCTTTTACCTTTCTTTCTTTCCGGTCTTTCTTTTCTATATCTTTTTTTT
TTTTTTTTTGCATTTTTCCAATTGTGATCATACTATATATGCAATTTGAGGTATTTCAGACAACATTATTACATCATTACAGAAGTCTCATATGCTGTAT
TTTATAAATATGTGATGCAATCAATCATTGATAAGATGTACTGTTATTTTATGTTTCACTAAGAGTGCGAAGAACATTGTTAATTATACAATGATCCAAA
AATGTCTTCTCTCTCAGAATGTATTGTTTTATATCTATTAGAAAGGCTCTTTTGACTTAGGCATAGATTTCTCATACATCAGGCCATTTCTATGCCTGCC
TGTGAACACAGGGATTTTGAATTACAATACTGAATCCTAGTGTGATCTTTCTGAAGTCATTTTAATTATCACTTAAACTCAATATGGAAAGCATCAGCAA
TGCACCTATATGCACAAAAATGAGCAGCTATGATCAAGTTATCAGGAAAAACCAAAACAAAACAAAAGCACATCTCCATCATTTATAATGGCCCATCATT
TATAATGGCTGCCTGATAATTGGAGATACATGCACCAGACTTGACTTAACTGTTCTCTTAGTCATCAGACATTTAGATTTCAACATGCTCCTGTTAAGCT
CTCCTTACAGTGTGTGTGGCACTGTGCAGTTGAATGAAACATGCCATGGCCAGTGGAAACAGGCTTGGGCTGATGGAGAGGGCCTACAGGGCCAGGCCTT
GAAGGGGAGGGAAATTGTTAGCTACACGACCAAGAGACAGAAGAGAGGAAGGAGTTTGTACCCACAACTCAGCTTTATTTTATGTAAGCTCTTTCTGYAA
AGGGAAAGTAGCTCTTTGTACCAAAGCAAGGGCCTCTGAATGAGAGCTGGGAGAGGCCAGAATGGGCCTGTAAGAGGTTGATGTGTATGAGACCTGAAGC
CCTATGCCTTTGGGAAGGAGAGGAAGGACTAATATTTGTGTGGTACAAAGGATGTGCCTGGCATACCCCATATCTTTTACAAAGACATAAATGTCTTSTG
AATAAAAGTATGATGATGATGATCATGGTGATGAAGATGAGGGTGATGATGTTGATGATGATGATGGTGATGGTGATGATGGTAGTATGATAATGCTGAT
GGTGGTGATGGTGATAGGAGGGTGATGGTGATGATGATGGTGATAAGATGCTGATGGTGGTGATGATGATGGTGATATGACGCTGATGATGGTGATGACG
ATGATAATGGTGATGATGATGGTGATGACAATGGTGATAATGATGTCGATAATGATGGTGATGCTGGTGCTGTTGGTGATGGTGATGCTGGTGATGATGA
TAATGATAGTGGTGATAATGTTGGTGATGGTGGGATGATGTTGATGTTGATGATAATGATGATGATAGTGATGATGATATCAACAGATACCATGTACTGA
GCACTTACTTTGTACCATGCAATGCTTATGGTTTTTTAAATGCATTTACACCAAATTCTTATAACAACCCTATAAGTCAGTGCCATTGCTTTTCCCATGT
AACGTGCACATCATTCAATCACTCAACCCTTGTCATAGGTAGATACTATTATCCTCCTTTTATAGATGAGGAAACCTTGGCTTAGAAGGGATAAGCTCAA
GTTCACAGGCAGAAAAGAGACAGCCAGTCAAGCCCTGACTCCTTTTGTGACCCTGATGAGATTACAGGTCCTCAGTCTCCTCATTGTATCTGAAGACTAA
AGAATCAGAAATTTGTGACTCCACTTAGTTTTTCTCCACCCMGGAGCCCTCAGGCCGCTGGTGAGTGAAGTTCTTACCCATTAGGGATTATTAATATACT
AGATAAGAGTACAGTCTCTGGAGCTAGGCTTGTGACTTTGAACAAATTATTTTATCTCTCTGAGCTCAGTCYCCTCATCTACAAAGGGGGAATTGATAAT
AGGAATTGTCGCAAAGAGCTGTTTTAAAGATTAAATGAGATAATAGATATAAAGCACTTAGAAGAGAGTTTGGCATTTGCTAGGCTCACAGTCAGTGTCA
GTGGTTCCCAATGTTACTGTTTTAGCTGCCCCCAGTCAGGTGGTTGATGAGTTGGGGAGCCTGGTGGGCAGTCTGGAAGAGAGCACAGTGACTGCAAGGT
CAGCTCCTGAYCTTCATAATAAGGACTCACATGTGTCGGTCCCAAGGATCCCCAAGGGATACTCATGGTTGAAGGTGTCTATGTGTTCTCCTTGGTGTCC
AGCGAATGCCTCTTGACAATCTGTGGTCATACTCACAACCTATGACCACATACGAGGAAGCGAGGTGTCCCTTTTGCAGTTGTTCAGAAGGTCCCGTGGG
CAGGAGCAGCCAGAGGAACATGAAACCAGCTCGTAGGTGGTACTTGTGGCAACAGCAGTTACAGCCAAGGAGAAGTTAAATTCTAAAGACTTGGGCAGTC
TCCAGGGAATATACTAACTGAGAAATAACATCCATAAAAATAATTCAATACTAGTATGTAAAACTAAAAACAATAACCAAGTGTGACTGGCTGTCTAAGA
ATTAAGCAAAGTAAGATGAAGTGTCTTTTGCTAGCAGGCGCTCTCAGCAAAGGAGATAAGGCTGCAGTAATTCTCTTCCCACCTTCGATGGGCAGGTGCA
ACCTTTGGCTGCAGAAATTCTCACTTCCCAGCAGCAGCTTTGAGCACCCTGCTCTTAATGTTTCTTGGGCAGCAGCAGCTAGGGAAGAAACTCAGTTAAG
GCTGTTTGAGGACCCAAGGTGGTCTCACTCTGCAACACACATCGGCAGCCAGTGGTGTGCTGGTAAATGATTAACAACTGGCTCTCTGAAAAACAAACAA
ACACATTGTGCACCTATACATGTACACACACAGCTTATTATTTATTATTTCTCTGAAATATGGGTAGCATATAATTTACAAATAAGAAGAAGAATAGTAT
ACACAGTACTGTTTCTTATAAATTCGAGATAGTCAGTTTTTACCAAATGCTTCTGATTTTTGCTGCGCTATTATATCCATTACAAAACCATTGTTGCAGT
ATAAAATTGCAGTATGTAGCTGTGACATGAATATTGGTTGATATTTTCATTTTTATTAAGAAGTAAGGCAAAAACAAAATAAGACATATGTCAGAACTTC
ACTTATCCTTCTTTGCTGAATTGKATAATGGTTTTAAAATACYAAAAAATATTTCTTCAATTTTTTTCTGCTACTCATAATGTAGCATCTGTAGAGCGAC
ACACTTTTGAATTTGAGTTAATATTTCYTTTTTATTTTATTTTATTTTTTGAGATGGAGTCTCATTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCT
CTGCTCACCGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCATGGCTTAGCCTCCTGAGTAGCTGGGAATACAGGCACCCACCACCACGCCTGGCTAAT
TGTTTTTGAATTTTTAGTAGAGGCGAGATTTTCCCGTGTTGGCCAGGCTGGTTTTGAACTCCTGACCTCCGGTGATCTGCCTGTCTCCGCCTCCCAAAGT
GCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCTGAATTAATATTTTCTACCCCACTTTCTTAAGTCGAGACAATCAATAAAGCAATAAATGACACCT
GGATTTGTAGCGAATGTCTATTTCCATGGTGTAAATAGTGGTACCCTGAGCAATTTTAAGTTATAAATATGAGATCACTGAAAGTGGAGTTGGGGAACAC
GTTATTATATAGTATTTTCACCACACACAGGATACAGTMAATGACTTCAAGAGCATAGGTAACAGTAAAATGTAGTAAAASAATTTAGAAGTCATGAGTT
TTGAGTACTTAGTACTTTTTAGTATGATTTATTTAATAGTAACCTTATATAATGTTTTTCTTTTAATTGTTTTATTGAGATGTATTTCATACACTTTMCA
ATAAGCCCATTTGAAGTGTAACATTCAACTTTTTTTAGTATATTCGCATGGTTATGTAATTTTCATCAAAATCTAATTTTAGAGTATCTTTTTGTCCCCC
TAAAAGTAACTCTGTGCCCATAGTTGGCAGTTTGTCATATCACTCAATCACTGTTTCCTTTAAAGAGCTTATCATTAAAGACAGCAGGCAGTTACACAAC
ATCTTCTACATGCCAAGAATGTTTCTAATACATGCTTTATGGATTTTTAAATTGTGGTAAGATTTACATAATGTAAAATTTACCACTTTGGGGCTGGGCG
TGGTGACTCACGCCTGTAATCCCAACACTTTGGGAGGCTGAGGTGGGTGGATCACTTGGGGTGAAGAGTTAGAGATGAGCCTGGGCAACATGATGAAACC
CTGTCTCTACTAAAAATACACAAATTAGCCAGGTGTGGTGCTGGGTGCCTGTAATCCCAGGTATTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGG
GAGGCGGAGGTTGCAGTGAGCCAAGATTGCACCACTGGACTCCAGCCTGGGCGACAGAGTGAGACTGTGTCTCAAAAACAAAAATAAAACAAACAAAACA
AAAAAAGTTCACCACTTTGACCATTTTAAAGTGTAAAATTCAGTGACTTTTAATACGTTCACAATATCGTGCCACAATCAGCAGCCATTTCAGAACATTT
TTACCATCCCCCGCTAAAGAAACACCATATCCATTAAGTGGTCATTCCCCATTTCCTCCTTCCCCCAGCCCCTCATAACCACATCTACTTTGTGTCTCTA
TASATTTGACTATTCTGGATATCTCATATAAATGGAATCACACAATATGTGGCCTTTTGTGTCTGGCTTCTTGSTTTTAGCATGCTTTCAAGGTTCATCC
ATGTTGTAGAATGTATCAGTACTTCATTCTTTTTATGGTTGAGTGATATTCTGTTACATGGATATACCACTTTTTGTTTATCCATTTGCCAGTGGGTGGT
CATTGTGTTTCTACTTGTTGGCTGTTACGAATTATGCTGCTATGATCATACATGTACTGTTTTTATGTTTTCTGCAAACTCCTGTTTTCCATTCTTGGGC
ATATTTTGGGGAGTGGCATTGCTGGGTAATATGGCAATTTTATATTTAACTTTCAGAGGAGCCACCAAATTGTTTTCCACGGAGGCTGCACCATTTTATA
TTTCCACTTGCAGTATATGAAGGTTCCAATTTCTCCACATCCTTGMCAACACTTTATTTTCTGTTTTCTTTGAAGGTATGAAATTGTATCGTGGTTTTGA
TTTGCATTTCCCTCATGATTAATGATGTTGAGTATTTTTATGTGGTTATTGGTTATTTGTATCTTTTTTAAAATAGAAATGTTGATTCAAGTCCTTTGCC
CAGTTTTTAACTGGGTCATCTGGCTTTTGTTGTTGAGTTGTAAAAGTTGTTTATATATTTTGGATACTAGACCCTTATCGTATAAATCCTTTGCAAACAT
TTTCTCTCAATCTATGGGTAGGCTTTTTTACTCTTTTTATAGTGTCTTTTGATGAACAAAGATTTTAAATCTTGATGAAGTCCMCTTTATCTATTTTGGA
TGTTGTTGCTTCTGTTTTTGGTGTTGTATCTAAGAATCCATTGCCAAATCCAAGGACATAAACATTTACTCCTGTGGTGTTATGATATATATAGGGTTCC
TGGCTCATAACTCTCATAGCCCTTGTTGCAGTCTATTGTTACAATATTGCSTGTGTTAGGCATCAGGAAACAGAATCTCTTTGTCTCCTGTCCTTCTTTC
ACCTGCCCCAAGGCAGGACTCTAATCTTYCCCACCTTTTTGATTGTGAGTCTTCAGACCCTCCCCAGAGAGTCAGTCCTGCCTTATGCCCTGGGGAAAGG
AATGCTGACCTCATGAAGCTCYCATAAAAACCCAAGAGGGCTGGGTTTGGGAGCTTCCAGATAGCTGAAGACAAGGAGGTTCCTGGAGCGTGGCTGCCTA
GGAAGGGCTGGAAAGCTCCATGCCCCTACCCCATACCTCGCCCTATGTGTCTTTTCATCTCTGTCCTTAGTACTGTCCTTTATAATAAAGCAGTAAGTGG
TAGCAAGTGTTTTCCTGAGTTCTGTCATCTGCTCCAGCAAATTAATCAAACCCAAAGAGGGGGTTATGGGAACTTCCACCTGAAGCCCCTCAGCCAGACA
TTCTGAAGTCTCTGACTTGCTATTGGTGTCTGGGGGTATGGGGGGCAGTCTTGGGGACTGAGCCTCCAACCTCCAACTAACTCCACGTAGACAGTGTCAG
GATTGAATTGGAGGACTCCCAGCTGCTGTCCCCTGCTTAGTATGTGGGGAAAGTTGAGTTGTAAAAGTTGTTTATATATTTTGGAAACTAGACCCTTATC
ATATAAATGATTTGCAAACATTTTCTCTCATTCTGTGGGTAGTCTTTTTATTCTTTTGATATCATCTCGTGATGCACAAAAGTTTTAACAACAAAAGTTT
GGGTGTTGTATCTAAGAATCCATTGTCAAATCCAAGGTCATGAACGTTTACCTCTGTGGTGTCACCCCTCCTCTCGCATTTGGTGAGAGGAGTCTTCTGT
GTTGATTGTCATGGTGGTGTGAGAGCAGAAGGGAAACATGGTTTCAGAAAAGAGTTTTTCCCTGAAACCACYCCTCTATTTTCTTCTCAGACTTTTATAG
TTTTAGCACTTATGTTAAGACTTTTGATCCATTTTACGTCAATTTTTCTATATAGTTTAAGGTAGGCATTCAACTTTGTTCTTTTGAATGTGAATATCCA
TTTGTCCCAGAAGCATTGATTAAAAAAGATAATTCTTTCTCTATTAAATGGTCTTTGCACCCTTATCAGAGATCAATTGGCCATAAATGTAAGTATTTCT
TTCTGGACTCTGAATTATATCCCATTGATCTGTATGCCTRTCCTTATGCCATTGCCACAYTGTTTTGGTTACTGTACTCTGTGTAAGTTTTGAAATTTGG
AATTGTGAATTCTCCAACTTTGTTCTTCATTTTCAAGATTGTTTTGGGTATTCTGGGTCCCTTGTATTTCCATTTGAATTTTAAGATCAATATAATTTAA
ATTTTAATCATGGCAGTGTTCAATAACTGGCTTGCATATTTTTTGAACAGTCATCAGCTCTTGTGAGCCACGGTTGGCCAGCTCCCAAACACCATGACAT
ACAACTTGCAGGAAAAGCTCATTTTCCAGTTTTTCCCCCTCCAGCTGTAGGGGATATATTTTYGTTAATTCCTGTGACCATATGGCAGCATGGTTAGGAT
CTTGGGCTTCYAAATCAGACAGTTGTAAACTTAAACTCCAATTCTGCCACTTATTGTGTCACTTTGGACAAGTTACTTCACCTCTCCAAGCCTCAGTTTC
CCTGACTATAAAATGCTAACAATAGTTGTTCTTTCCTTATTGGACACTCAAGAGGATTAAATATTATTCATGTAAGGCTCTTAGTATAACACCTTGCACA
TAGGAAGCATTTAATACCTAAAATCGAGTACTGTTATTGTTTCAGGATTATTATTTTTTTTAAATTTATTTTATTTTTTTGGGACAGGGTCTTGCTCTGT
TGCCCGGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTGCTTCCTGGGTTCAGGTGATTGTCCTGCCTCAGCCTCCCTAGTAGCTGGGATTA
CAGGCGCACGCCAGCACGCCTGACTGATTTCTGTATTTTCAGTAGAGATGGGGTTTCATCATGTTGGCCAGGCTGCTCTCAAACTCCTGACATCAAGTGA
TTTGCCCGCCCCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCCAGCTCAGCATTATTATTTTTAGTCTACACACAGTGAACTTAAAT
CTCCTCTAGAAAAGTCAGAAGGTCTACSTACAACTTTAAGAGTTCAGCCAAAAGAGACCAGTATCTACTACCGTGGACAACCCTATTTAACATGGAGGAG
ATAAGCAGAAACTGAAAAGAGGAGCCTGTTTTCTCTCTGGCAGATTAATTTTCTTTCTTTCTTCACCCATGCCTTGGACATGAAACACAAGTACAAAGGT
TCAGAGAAAATCAAAACAAGACTGTGGTTTACAAATAAGTAGTACTAGTAACATCTCACTGTTGGCTGGGCACAGTGACTCATGCCTGTAACCCTAGCAC
TTTGGGAGGCAGAAGTGGGAGGATCACTTAAGCCTAGGGTTGAAGACCAGCCTGGGCAACATGGTGAAACCTCATTTCTACAAAAAATACAAAAATTAGC
CGGGCGTTTTGGTGCTTGCTTGTGGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATCACCTGAGCCCAGGAGATGGAGGTTGCAGTGAGCCAAGATTA
CACCATTGCACTCCACCCTGGGTGACAGATCCAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGTGAAAAAAAGGAAAATCTTCGTTGTTCTTCAT
CAGAAGCCTCCACACAGGGCCCCTGAAGGAAGGGCAGGGAAGAAGGGGGTTGGAGGTCAGTGGGAGGAATAACTCTGTGACTCAGTGCTTTCCTGACTAC
CATCTGGATGTGGGCTGTATCTGCGTAAGGTGCCGGGACAGGGCGGCCTCATGAACTCATGGGAAGCAAACACACACCCTCCCTCCGATCCACCAGGCAC
TCGGGTTTCCTGTGTGTCTGGTGATGTGCTGGGTGTTGTGGATCTGGACTSAACGGCAGTCTCAGGTTTATGTATTAGGAAGCATTCAGCAGGCAGGAGC
AGCCGATCTGAGACTGGCATGGGCAGTGGAGACATCATTCATCTCCTGAAACRTAATTTGGAGGAGACTGTTCCAGGGCTGGCTGAGTGACTCCTTGATG
TCAGCACTTTGCCCTGTCGTGGTCTTGGCCTTTCTCTTGTGTTCCCCAGATGGGTTTCACTGCTCTAAGGATCATACCTTCGCAGGCCATCTGAAGTTAG
TGAATCTGAGGCATACAGAAGGGCTGGGTGCGGTGGCTCATACCTGTAATCCCAGCACTTTGGGATAATGAGATGGGTGGATCACCTGAGGTCAGAAGTT
CGAGACCAGCCTGGCCAACATGATGAAACCCCGTCTCTACTAAAAATGCAAAAAATTAGCTGGGATTTGGTGGCGCCTGCCTATAATTGCAGCTACTTGG
AAGGCTGAGGCGGGAGAATCACTTGAACCRGAGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTGCAGCCTGGGCGACAGTGAAACTTTTG
TCTCAAAAACAACAACAACAACAACAACAAACAAACAAGAAACAAAAAATACATARAAGAGGCCTTCTCTTCACAAGTTTTTCTTATTGTTTTTTGTTTT
TTTAAGGGAGGAAATTTCTTTCAGAAGTCAGTACTGGACATTCCCTTATTTCACCTTGAGCTACACATCCCATAGTCAGCTTAGCCCTGTCCCTGGTGCG
GGGGAGCAGGACKGTTGCCTGTATCCCTTAGTCATTGCCGCAGGCTTGCTGCATCACAAACCACCATTAGACCTCAGTGGCCCGCAGCAATAAACATTCG
ATTCTCGCCATCTCTGGGTTTGAGGTGACCTTGGCTAAGCTCCCCTGCATTGCTCTGCTCATCTTTCTCACGAGTCTGGCAATGGGGCTGGGAATGGGCT
GATCTAGGCTGGACTTGGCTGGAGTAACCCAGCCCCACCTTGGATCTCTCTCCTCTACTTCCCACATGTATCCTTTTCATGGTTAAAGGTAGAAACAGAA
AAAAACAGGCAGAAACATAAAAAGCTCGGAGATGGCTTCCTATTGCTTCTTCATTCTGGGCCAGAGCAAATCATATGGTCGTRCTCCAGGGTGAGGAAGT
ATGTCCCACTTACAGACTGAAAAGGTGCTGCAAGTCTGCACGGCAGAGGGCATGGATAAGGGGTTCGTAAAAACTTAGGGCCATTTAATACAAATTTGTC
ACATCACACTGGCTTGGATTGATTTTGATTCATTGCTCTGTCGCCCAAACAGAATTATAATTATTTTAGTAAGGAAAGAGGAAGGATACCTTTGGGGCAG
ACAATGGATAGAGCTTACTATACAAGTCTATAGAGGCATCTCACCTGTAGAAATCTTAAGATGAGGGTTAGCCAAAGCAAAGAGTGGTTCAGGGTGGGAA
AGCCAAGGAAGGCCAGGATCCTCACCAAGATTGCCAGCAGGGAGCTCTGATTGTCCACAGCTCTGCTCTCTGCTCACCCCGGGGATTTAGCAGTAACAGA
ATCCACACTAGAAGGACAGAGTGCTGTACAGACAGAAGGAAAGACGCASACCCAAACCTTGATAACCATGGCAATGCAATAGGAAATCTCTTTATTTCGT
TGGTGCTCAAGTGATACCATTAAGTCCCTTAAGATGCGGAATTTCCTTGCCCCCGCTGCCCCCTTTCTTTCTTTYATCTTATCTATATATCTGTATCTAT
ATCTAATCTATTTTTTGAGAAAGGCTCTCACTCTGTTGCTCAGGCTGGAGTGAAGTGATGCAATCTCAGGTCACTGCAACTGCTGYCTCATGGGATCAAG
TGATCTTCACACCTCAGCCTCCCAAGTAACTGGGACCACAATGCCCAGCTAATTTTTATATTTTTTTGTAGAGACGGTGTTTTGCCATGTTGCACTGGCT
GGTCTGGAACTCCTGGGCTCAGGAGATCTGCCTGCCTCAGCCTCCCAGAGTGCTGGGATTCCAGGCGTGAGTCACCATGCCAGGCCCCTGCCTCTGTTTA
AATGCTCAAACTTGGTATGGAACTGCACAGACTATACGGCTGCYCTCCACTCAAGAATACAAATTGAACATTGACTTTCCTCATTTTTTATCCARTTTTG
CTTTCCAGAGACCCAGATATGGCTTCATTTTTTAAATGAAATTTTGCAGGTCATTAGCTCATAATGATTAAATGATTCTGGTTATTAGCATAAAACACAG
CTGTAGTACATAAGAGGTAACCTTTATTGTTTAAATATTATTCAATGTGCCTACATAGCACMCAGCAAAAAAAACTTTTTTTCAGACTATTCAGCCATTA
TGGAAATAACTTATAATTACATTCAGAAATGTTGCAAATGCAACTCATCCTTGCAGTGGGATAAACATTGCCTAGAAGGGTTTGAAGAGGAATCCAGGTT
AGAAACAATGAAAATTTTTGGCTGGGCAAGGTGGCTCACGTCTGTAATCCCAGCACGTTGGGAGGCCGAGGCAGGAGAATCATTTGAGGGCAGGAGTTCA
AGACCTCCTCATCTCTACAAAAAATAAAATATTTGAAAAAAAAAAGTGAAATTTTTGATATAGAAGAGGATGTAGGGCAGGTAGGGCTCAGAARGACCCA
TGCCATATAGCAAAGTTCTTAGTAACACAGGCTTTGGGTTACAGCAGGCTAGATTCAAATCYTGCTGTGGTCAGAATGTCTGTGTCACCCCAGCATTCAT
TTGTTAGGAGATGGGGTCTTTTGGGAGATGATTTGGACATGAAGACAGAGCCTGCATAATTGCATGAGTGCCCTTATAAAAGTGACCCCAGAAGCTGCCT
TGCTTCTTCCACCATGTGAGAAAACAGCAAGAAGAATATCCATGAATCTATGAGGAGGCGGGACTCTGGCCAGACATTGAATTTGCTGCTTCCTTGATCT
TGGACTTCCCAGCTTCCAGAACCATGAGMAATAAATTTCTTTTTTTCAAAGCTCCCCAGGAGTCTCTCTCGGTCTGTTCTGGCTCAGGAAGCTKCCTTAT
TTGTAACAAACAAATAAACAAAAAACAAAATAAATAAAAGCTACCCAGCTTAGATTATTTTGTCATAAAAGCCCCAAAAGACTATGACAAATCCTTCYAT
CTATGTGTCCTTAGGCAAAATACCCAAACTCTCTGAATACCAATTTTCTCATCCAAAAAAATGGGTGAATAATATCTAAGAGGTAATAACCCTAATACCT
CTTAGTGTTGCTGTGAGAATTAACTAAAGTACCATCTTCATGTGGTCAGCACAATGGCTGACACATAGCAAGAYCTTGGTAAGTTATAGCTGTTGCTGTC
ATTCCTGCAGCTGTTATCTTTGTCATTACGCTTACTGTTATTATTAGCTCTGCTATCAGAGTGATGCTGTGGCTGGAGAAGATGGAGACCCATGTGTTCA
GGCTGTGAGCATAGGCAGATCCTTTCTAATGCAGAAGGTGYAGACACAGGGCACAGAACTGCCAACTGTGGCTGCTGACACCTGTCTGACTTTGACTGGG
TTAGTGACAAAGAAATGACTTKCCTTTTGTATGTTAGCCCTGTGCCTGGCATACTGCAAATATCTATGGTTGATAAATTAATGTTATCATCATCACGTAA
GCATCTTGGGAAGTCTGTAAGTAATGGGAGTTGGAGGCTTAACASTGATCTTTGAGCTGGCGATTTTTCCAGCCAACTCATTTTGGACGTTGGTGCTTAA
GCATATCCTGTTTTCGAGGGTGGTGTTGGTGGTGGAGGAGGTGATGGTGATGATATTGATAATGACAGCAAGAATGTCTTACATTTATAGAGTGTTCAAA
AGGTGCCAGATATTGTGCTAAGTGCTTTGCGGGCATTATGTTATTCACACTTCACAGATATTCTCTTTCTACATGTAAGGAAAAAAAGGCATAAATACTT
TATATAATTTACTCAGGATTTTAAGTAGAGGGTAGATTTTAAGTCCAGGCAGTCCAACCCCCTGAAAGCTGACTCTTTAACACCATATGCTTCTGTCTTC
CTGGCTGTTTTGTGAATGAGTAGGATGGAAAGGAGATCCTTGAATTGGGAAGGCTACCCATGGACTACAACTAGTACTTGTCTTCAACCTCCATCTAGAT
GGAGTGCTCACAAGATCCTCTACATCAAACCTGGCTTCTTAGTCCACTGCTGAGTCTTCCCAATTCTGAAAAAAAGGATTCAGGGTATAATTTCTCACAC
AGATTTCTGGGACAGTGCTTTCTTGGAGCACCACGCCTCACTAATGGAACACTCATGTATAATTCTGGCTTTTGAATTTTTATTTTTTTATTAACATACA
CAGTCAGCATTGGGTGTGGCTCTGGGGATTCATTCTAGTGGGCAAGTCTCATATTTCTCAACCTCAGGTTTTTCATCTGTAAATGGGGACAATACTGACA
TCTASCTAATGTCCTTGAGGATGGAATGAGATATTGAGTATAAAGTATCTAGTAGAGTGGCTAGCGTATAGTGAGTACCCAATAAATGCAATAGATGTTG
GCTTTTATTACTGTCAAGTGGAAACAAAAGTATAAGGTTTAAGTAAGCGAACGAAATGGAAGATAATTGAGGAAGAAAATCAGATGATGTCTAAGATAAG
GCAAAGAACATTTTGTGAATGTTTAAATATCCTAAGACCCACTAAGGAAGTTTGTGGCAATATTTGCTCAAAGACAGTATATATAATAAATACTTTAGAC
TGGYTAAGAGAATGGCTCTGAATGTCTACCTAGCTATCACATTTAGAAACGCCCCTTGCCTTCCTTCCAGGACTTTCTTCCTTAATCAGGATTGACTTAA
CTGTTAACTCCTAGAACTGTCGTTGATTGCTTGSTGAAGTAACAATTAGTATAGACATTCAGCAACTGGCCTCCCATACTGTGATTCACTGACCCAGACT
TTGACATCTTGGGCTCAGCCATACCCTGGAGCCTCCAAATCCTCTGCTGGATCCTTTAAGTCCAGACATCTGACAGGGGAAGAAAAAGTACAAGTTTCCA
AGGAGTTATTATAGGTCAAGCCTGGAAGCAGTGAGGTCACTTCCACCTGCTTCCCATTGGCCAGAATTCAGTCACATGATCACAACCAACTGCAAGGGAT
TCTGGGAAATGTAGTCTGGTGATGCCTCGAGGAGGCAAGAGAARTGTTTTCAGTGAACACATTGCCTTCTCAGGCTTGCTTTCTATTGTAGATTGCTTAC
AATATTGCTTTTAAATTGCATGGTCTTGTACAAATGATACGAGTTTTATTTTGCCTTTTGGAAGGAGTTATTGTCCATATTTGTTAGAGATATATCTGTT
TATCAGCATCATTGCAAAGTATTAGAAAGGGCCCTGCCTGGGCTAGGAGCCAGAAGCATTCTTCAGTTCCCAACGGCCATCCAGCCACTCATTGCTGTGT
GAGCTSTGGCTGGTCAGTAAGAACCTTTGATCCCATGTTTCTTTATCTTCTTCTTTTTTTTTTTTTTTTTAGCCATAGTCTCACTCTGTCACCTAGGCTG
GAGTGCAGTGGTGCGATCTCGGCTCACTGCAAATTCTGCCTGCTAAGATCAACTGATTCTCCTGCCTCAGCCTTCCAAGTAGCTGGGATTATAGGCATGA
GCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGTGCCGGGGTTTCACCATGTTGGCCAGTCTGGTCTGGAACACCTGATCTCAAGTGATCCACCCAC
CTCAGCCTCCTAAAGTGTTGGGGTTGCAGGCGTGAGCCACTGTGCTGGGCCCCAACTTTCTTTATCAATAGAAGTGGGGAAATCGTACCTGCCCTGTCTG
CCTCATTGGATGTGGAAGAAATGACATAATCCATGAGAGTGGCTTCTGAATGAAGAGAACCTGCTAAAGGGAAGACATGATCTCAAGTCAGCCACCTCTG
ACCCAAATAAGAACACATAATTACAAGACTGTATTGTATAATCATGCAGGACACAAGGTATGCAATTTTAAGGGTCAAAGTGGTAAAAAAAAAAAAAAAA
AAAGGAAAATCAAATATAAAAAGGCAGCCCCGACAGGTACGAGCTTGTAGTCATTTCCCCAAATGCCTAAAGTAGACCCATTCCCATTGCTCTAATTTGT
AGAGATGTTCTCGAGGCAGCCTGGAGTCAAGACAAGAGTGCCAGCCAGGATTGAGGCACTGTTCCAACTCCAGTCTGGCTGCTTTTTCAACCTGGGGCTT
TAGTCATGTCAATATTCCTGAGCTTCCATGTGCTTATTTGAAAAATAGGAAGATTYGTCCAGTCTCAAGGAACTATGATAAGTAGCAAACAATATCCCAG
AAAAATCTCCAGTCAAAAATCCACTGGAGGCCAGGTGCGTTAGCTCATGCCTGTAATCCCARCACTTTGGGAGGTCGAGGCAGGAGGATCTCTTGAGGCT
AGGAGCTCGAGAACAGTCTGGGCAACATAGCAAGTCTCTGTCTCTACAAAAAATACAAAAATTAGCTGCGCGTGGTGGCGCGTGCCTGTAGTCCTAGCTA
CTCAAGAGGCTGACATGGGAGGATTGATTGAGCCCAAGAGGTCAAGACGGTAGTGAKTCRTGGTCACACCACTGCCCTCAACCCTGGGTGACAGGGTGAG
ACCCTGTCTCTAAAAACAAAAGCAAAGTCTACTAAAAATTCACTGGAGCTATGAGAAATCTTAGCCCATGGAATCCAGTCTTCTCCTTTTGTTTCTGGGG
AAGCTGAGGTTCAGAGAGATGGGGTAGCTTGCTCATGTTATATAGGGAGCAAAGGACAGAGCTTGGACCAGAGCGCAGAGGTCATGATACCAAAGCCACG
GCACCTTTGCCACAACGTGAGCAAGAAAGGATAGCCTTGTTATTTTTAATCCAAACTGAAGTTATGCTTTGGGCTTCCAGAATCTGGGTCAAAAAGAGTA
GAAGTCAGGCTCAGATTGACGCTTTTCAAGAGAGAGAAAAAAAAAGAAAAAAATCTTGCCTTTCCCTAGCTAGAGGTCAGATGTCAAAAAAGCTAATAAC
ACAACCCAAGGATGTCATCGACAAATGAAAAAACTGGTGCGATGCGGGAACAAAAGCTATTTTATCATTAATATGCCGCTTTTTTGTTATGTACTCATGC
CCCAGAAATTATTGTACAGCCTGTACTTGAGTCCTTAGACAGAAAGCATCTTATCATTCACAAGCTTAGCTATGCAATATATTCCTCCCTCCCCCCAAGG
TAGTTGTTGTTGGGTTTGTTTTTTTTTTTTTAAGAGATTTACAGTGATCTTTCCATATAGGTTTTTCTCGAAACATATATATTTTTAATTTCTCACCATC
TCAGGGGTAAATAAATATATTAAAATAAGCTATGGGATGTACAGCAGAGTATAACAATGATAAATGATGTTGTGTGTAATTTTTCTACTATTAACATAAA
GTAATATAAACTGAAGGACACTGGTCTATTGAGAGACTTAGAAGCTAATGTTCCATATCAGATGCGGCCAATGTCAGGACTGAATACAGATTAGGCAGTG
TCCTTTTCTCCCCAGGGGAATTAAAGTTTGAGACACCACTTGCTGCCAGTGGTTTTATGGCATTTTGTTGGGGCCGGTGGTGCCTTTCTTGGTCTATTAA
TTCAGGAGCCGTAAACAACAATGTGAGCAAAATGCTTTTCCGGTGGGATGCATTTCATTTATATGTGCTTGTATCGTCTATACCTTGTCAATCCATTTTG
TCACAATAAGTGTTTTTAAATTGTGTAGATTACCTCCACTTCATTATGGTTCCTGGCATTTGTGTCTTATGCAAGGCTATTATGTGAAGTTAGGAAATAT
TTAAAACTCTGCCTTTCTAAAGAAACAGGGACACGGTGCAGAAAAGTTCATCTGGAGTTAGGCTTGTGTCTTGCYGTCTCTTTAACGGAGAGTTCATGGG
CWGGGTACAGTCTGTGAGAAGGAATGAAAACCCCAGGGTAGATGCTAACAAAAATCACTTTTAAAAAATGTATGGTGTCCATCTGGGTTAGCAAACACAT
GCTCACACGTCTGTGCTTGCTGGATTTTTAAGAACTTACCAGCATTTAAGRTTTTCTTATGAAACTGATTTTWCTCACCAGGGATAGAGTCTCAAAGTTG
GAGGTATTTTATGTTGTTTTAAATAATATCGTCATCACATGTCATTTTAGACCCCAAAAGTCCACTCCGAATCTCTGCKTATGGAATTGAGGAGGGGTGA
GGCTGTCAGAAGCCGAGGGACTTGGCCAAGGTCACATGGCTTTGGACGGCCCCCCTGAACCTTGGAGCTCATGTTCTGTGGCACTTTGCATACTGACCTT
TCTGCTCTTTTATGCTGCCTGCTCTCTAATATTGTCCAAAAACCTTCTCTAAAGAAAGTACACAAATGGAGAGAGGGGGAATTGGRCATGCCATTGGGAG
AACAAATTTATTTAGATATCTTTGGCTGTGTTGACAGAAGCTGCCCAATTAWACCCAATATACAAATTTTAAATGCATATTAGTCAAAGTTCCAGTTATG
TAGCTTTAGAAAAATTTCTATGTGAATGACTACTTTTCCCTGAAATACGTCCTCCATCTCAGGCACTAGTTAGGAACTTCCCCCGCGTCTGGCATTGCAG
GTCTGAGGTTCCGATGAACTCTTTTTTCTCTCCTTCCCCATTAAAATGGGCAGAAGGGAAGGAACACTTGGGTTTCATCAAGCACATTGTTATCCTTCGG
GTTGGCTCTGAGATGATACGTTTGTCACGGTTCATAAATTTTATCTTTGCACTAAAAACAGGGTTAGAATATCTTCAATGCAATTATAAAAATGTATTAA
AACTGAGAAGGAGAAAAAATATGGCGGTAGATGCGATTTTAATGATTGTGTAAATGTTCATTGTTCCATGGCAAAAAAAAAAAGTCGAGCTTTTCAGCCA
CAGTATTTCAGACAAATGCCAGGGCCTGTTTTTCTGTAAATGTGTACCGTGTGCTTTTAACACAAAGACAAATATGTTGCTTTAAAATTCCGCTTGGAAT
AGAGTGACCAGCTGTCGTTATATAATATCTGCAGGCTATGATTGTGTAGGTGCCTGTAGTCACTGGCTATGAAAATGGCCCCAAATAAAGTGGTATCCAC
ACTTCTTCTTTCTCCTACGAATTTGGAGGTCTAGGAACGGGGGTAAGCCTATATGGTCAKAATTAGCCTGCAAACGTGAATTAATATGCAGAATCTGTCC
CCACTGTGATAGAATTTGCCATTCGCTTCCTTTGCTAAATGGCTTGCAGTGGCAGCTGACGGCCAAAGGGGAAGCTGAGAACAGCAAAGATTCAACTGAA
AACATTTTAGGGGGTTCCTGACTTCAGGCCTCTTTTCAGAATGAGGGAATTRTCTAAAATCCCAAATGCATTCTTAGCTAAGGTCAGTGTGTCTGGGTCT
GTGTCAGGCATGTAGCAGCCACAGCAAACTTCTCTTGAGATAGCATCTCCTCCCCAGCACTCACTTGACAGATTGTGGTCAGTCAACACTCAGTCTGATA
GTTTAGAAAGCTTTTGCAAGGCATTCCCCAATATAACCATTAAGCATCAAACTCTCAAATGGAAGTTTCGAAAAACAGAAAAAAGTGAGCATAAATGCAA
ACTATCACCCCATGTAATAGTTTATTTATTTCATGCTCCACTTTTCTGGGCAGTTTTGTTGTCATTCTCTCTCTACCTCTTTTTTTTTTTTTAAAGACAG
AGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAGCCTCCACCTCTGCCTCCCAGGTTCAAGTGATACTCATCTCAAGT
GGTTTCTACCTCATTAAAACAAACAAACAAACASCACTCACCATTTTTGTGGTGGGCATGGTGGCTCATGCCTGTAATCCCAGCTCTTTGGGAGGCCAAC
GCAGGTAGATCCCCTGAGGTTGGGAGTTTGAGACCACCCTGGCCAACATGGTGAAATCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGC
ATGTGCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAAGGTCACTTGAACCCAGGAGGTAGAGGTTGCAGTAAGCTGATATCATGTCACCGCACTCC
AACCTGGGTGACAAGGCTAGACCCTATCTCAAAAATAAACAAACCCTTGCTATTTTAGCTTCCGATGAGGATATTTATCCTTCTAGCATTTGAATGCAGC
CAAAGTCCTTACTGGGCAAATTTTTGAGCTCTCACCCCACATTAACAATTTCTCTCCTTAACTTTGTTTCTGAATGAAGTTATCCACAGAGTTTTAAAGT
GAGTGGTGAGTTGTGGATACCTCTTCCGAGCAGGTGCACCCCCATCCTGCCATTGTCCCTCTCCTTAGTGTATATGGATTGATGACATTTCAGTTTCAGA
CAAAGGGACATTTCATTTTTTTTAGGAGATTAAAGCTGTGTAAGATATACAATTTAAACTGAATGTTGATATTTTATAGATTGTTGAGTCCGATTGTCCT
GATCTAAAATTAACTGGTTTTGTGATTTGGTGTAAATCGCTTAACCTCTTTCAATGTTTTTTCAGCAAAATGGGGTAAGAACAGAATCTGCCTTGCAGAG
AATTAACCGAGATGATGTGTGGAAAGGGCCTATCCCAGAGGCTGGTGTACCATGGTGGCTTCTYCTGGCTCTGCTGGTTATTATTATTAGCATTATTGTC
ATTGTGAAAGTGACAAGGAATGTGCCTGTGCGTGAATCTCACTCTTAGATCAGACGTGCTTTTGAAATATCCAGATATATACAACACAAAGAGCGAAGTT
TGTTTTATATTTTGTTTGTTTAGGTTTTTTTTTTTTTTTTTTTTGGCTGGTGTTTACTGAATGCGTGCAAGGCTTTCTGTCACAGGCTCTGTGTTAAGAT
ATTTAACGGGTGTTTCATTTTCCCAGCAATGCTATAGGACACAGAAAGGAACATAAATTGTTACAGAGAGAAAGAGGGTAGGTCTGTGAATRGAATTGAA
CAGGTAGGTTGAACAAGATAAATGCCGAGGAAGCAAGTGTATTTAAATAAACAGTAGTTTATGGAAGGCTTTGGAAATCCACTATATTAATCTGGAATTT
TATGAAATTTTACCAGAACTTAAATTATTAATAGTTGAGGACAAAGACCAACCATTTTCCCCAAAACTTAGTCACTAGTTTTGTCCTTAACAACTAATTA
ATAAATATTTGTGAATATAGTGAGTGACTAAAGTAATGCATTAATGGTTGAATGGCTGGCCACCGTGCCTCATGCCTGTAATCCCAGCACTTTGAGAGGC
CAAGGCAGGCAGATTACTTGAGGTCAGGAGTTCAAGATCAGCCTGGGCAATATGGTGAAGCCCCGTCTCTACTAAAAATAGAGAAGTTAGCCAGGTGTGG
TGGTGGGCGCCTGTAATCCCAGCTACATGGGAGGCCGAAGCAGGAGAATTGCTTGAACCCAGGAGGGAGAGGTTGCAGTGAGACAAGATGATGCCATTGC
ACTCCAGCCTGGGTCACAGAGCAAGACTTCATCTGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAGAAAAATGAACGAGTGAGTGGCAAGAAAG
ATGAAATGATTTTCATCACCAGGCCTGCCATGGAATTCATGGTGCCTTGTACTGTGGCCAGTAGGTGCAAGAGTATCTAGTAGGTGCTTTATTTTTAAAA
AATGTCTTGGAATCAGTCATAGTTTAATATCAATTATATATAAATTAGTCTTGCAGGATCCAACAGTTCTGATTTATTCCACTCACACAACAAGTCAGTT
CTTAACACAAACCACATAGGTTCTTCCTTAAATAAAAAGCTGTGGCTATGAAGAAGTGAGAGTTTTTTTTTTTTTCCTCTCCAAACCACCACGTGCTCTT
GTGTGTTATTGTAGTGGCTTCGCAGAGTATTTATTTGGCCAGAAAGTCTATAGTCAAATTGCTCTTCATTCTCAAGTGTAGTATTTATTTCTCCAGCTCA
TGCAGAATTCTGTTTTATATGGAGGTTTTAAATTTGTGCAGAAAAGTATTACGTGGGTTTCAAAGGTACTCTTTTTTCTTTTTTGAGACAGGGTCTCGCT
GTGTTGCCCATGCTGGAGTGCAGTGGTGCGATCACAGCTTTCTGCAGCATTGACCTTGTGGGCTCAAGCAATCCTCCTGCCTCAGCCTCCCAAGTAGCTT
AGAACCACAGGCATATACCACCATACCTGGACATGTTTTTAACTTTAATTTTTATTTTTGTAGAGATGAGGTCTCCCTATGTTGCCCAGGTTGCTCTCAA
ACTCCTAGGCTCAAGCAGTCTTCCCACCCTGGCCTCCCAAAGTGCAGGCATTTTAGGCATGACCCATCGTGTCCAGCCTAAATGGCATTCTTGGAAGTAA
AACCACAGGGGATCTGTTGGAAGTGGCATGATGGAGGAATTTTAAAAGAATTGAACAAATAAAATRGTCAGAGCTCAAAAATTGAGTACTGCTTYGTTTC
TCCCAAATAACCATCACCAGACAAACAGGTGTGTGTGTGGGTGGGGGAGGTGGCCTGGTGGTACTTCATGATCTTGGAAGAAGGAAGGCGCCCCTCCTTC
TTAGCTGATTGATGATGAGATAGAAAGATAGAAACAGCCCCATCACTATGAGATGGAAACMCTTCTTTCCTTCAKCTGACTTCCCTCTCCTTCATTCCCA
ACCAAGTTTGACCCCGCCGCAGTGGAGATTGTGGCAGATGGGTCAGATAGCATGTGTCCTGTCGCTGTCACAASTTTTTAATAAGGGCTGGGGGTCCTCT
TGAAGAGCCCAGGAACTGCAGTCCCTCCTCTATGCCTTCCCCTGAACACAGTGCRCCCTCACTAATAAATTCTGAGGGCTGACACTGCCTGAGCCGGCTG
GTCTTTGCCCTCAATTTCATTGAGATGGGCCATTGAAAACTCATTACAAGCTGTTTAGACTCTGACTTTGACTTTTGCTCGGCAGCGAACAAAATTAACA
GCTCTTGGAGGTAGGAAAAAAGGCGCTCAGCCAAATTAAAAAAAAAAAAAAGAAAGAAAGAATTGAAATGATGAGAAAAGACTTTTAATATTAACTCCAT
TAGTCATGCAAACAAGCGCACATGCGAAGCGCATATGTTCTGCGTGTGGCTCTCATTTGGAGCCTGATGAGAACTGTGGTTTCTCCCACTGGAGGGAAAT
TCATACCCAGGTCTTACACGTAGCTCAAAATGTTTTACATGTCAAGCAATGAGCCTTTGAGTGTAGCAGAATTGCTTCATAAATTTAACTATCACTTTCA
AATTTCTGTTTTTTTTCTAATTTAGTGCTTGATAGTTTTTTATGTGATAATTTTAAAATGCTGTTTGTAGCAAAAGTTACCTTGATAGTTCAGGTGTGCA
GAGAAAATTCACAGCCATCAATAGAAAAGAAAAAAAAATCCTGTTTATACCTTAGGCATTCTGTGATCCTTASGATGTAGCCATGACAGTATTACGGGTT
TTAAAAGCCACCCAAGTAATCTAAATTTCCTCCAAACTAACAATTCCTGAAAGATTGAAATATTGCTACCAATGTGTACGGATGGTTTCCATTGATATTT
GGGAAGTTTCCATTTGTATTTGGGAAGCTTTGCATGAGCAAAATGCCCCTTTCTCCTGATATTTGCAACCCATCTTAAAAATAAAAGTACTTTTCTGCAT
GTGGTCTTGTACATGAAATTAAGAATATCACTACCAAAATATCAAAATTTAAGGACTAGATTGTGAAATGTTTAAGGTAGGCAAAGAATATTTAACCAAG
AAAGGAAAAGTGTATTTGAGAGAGACCTGATGAGTTCACCACTGCCTCTGGAGAATCAAATCCAAAACAGCATATATATGTATATTTTTTAGAGACGGAG
TCTCACCCTGTCGCCCAGGCTCGAGTGCAGTGGCGCCATCTCAGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTCCTGTCTCAG
CCTCCGGAGTAGCTGGGACTACAGGCACCCGCCACCTCGCCTGGCTAATTTTTTTTTTTGTATTGTTTGTATTTTTCATGTTTTTCGTAGAGTCAGGGTT
TCACAGTGTTATGCAGGATGGTCTCGATCTCCTGACATCGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTGACGCTCCCG
GCCTACAGCATAGATTTGAGGCATCTTGAAGGTAGATGCAGAAGAGTGGGATCTACTTTGGATTTTTAGATTAATCACTGTTAAGACTTAAACAGCTTCT
TATTTGGGTGAAACATGGGAGTGTCAAAAATAAGTCACTGTCACTCTTTGCCAACTTCCTTTAACTCTTTATACGGCTATATCTCCATAGATATCCAGTT
TTTGTTTTGTTTTTGTTTCTGTTTTCAGTTCCTCTCCAAACTGTCAAGGACAGTGCCAAGATCTGCGAATATAGAAAGATTAAGAGTTTTTTTCTGCCTT
GTTGGGTCTTCTTTCTAGCATGCCAGSAACATTTTTCTCATCTTTTGAACATTAGGGAMTAACACCCAATGCCACCCTATAATCTCGAGACAGAAGTGGA
GGATCCTCTTAAGACAAGAAATCTTTCAAAGCCAAATAATGAATTAATCCAAAGCCACTTGAGGCTCTAGATAGATCTTAGCAGTCAAAGCAATAAATAT
ATAATCCCATAAATCTAAACTTTGTGGTATATTCATTAGGCTGTCTGTTTTCTTTTCTTTCAAATGTTTCACTTAATTCCCTGATATAATAAGGCTTCCA
AATTCTTGGTGTTTTTCTACAACCAAGACCTTGAACTTTTKCCTCTCAGGATTTCTTTCATGAGAACCCATTTTCTGGCCATTTGGATATCATTGATGAG
GGAATTGAAGCATTTCCCTATTCTTTAGAGTTTCATTAAAGTTTGACTATATTCCAGTAACAATTGTTGCATAACAAACCACCCCCAAATTTAGTGGCTT
AAAACAACAACATTTATTTTGTTCAGGAATCTGTAGTTTCAGCAGGGCTCTSAGGAACAGCTTGTCTCTGCTCCAGCATCAGCTGAAGCAGCTTGAAAGC
CAGGGTCTGAGATCATCTGAAGGTTGTTCACTCATGAGTCTGAGGAWTGATGCTGACTGGTGGGTGGGACCCTTGCTGGAGGGTCTATTGGCTGGAACAC
CTACACATTGTCTCCATGTACCCTGAGCTTCCTCACAATATGGCGGCTGGGTTCCAAGGGTGAGCGTCCCAAGAGAAAGAACCAAGCAGATGCTGCATTG
CCTTTTATGGCCTTCCATAGAAGTTACATAGCCCTAGGTTTTCCTGCATTCTATTTTTTAGGCTGTCAGACCCACCCCAACCAGGTTTGCAGTGAGAGGA
AATAGACCCCACCTCTTCTGGAAGAGAATGTGGGACTGGACATACTGCCATGGCCACTTTTGAAAGATACAGTCTGCCACATAAGCAAACAGTTCGTGTC
CTGCAGTGGGATATTGGGAAAAGAATGGTATTTGGCAAGGGGTCAGGAAACCTGCTTTTGAATCCTACCTCTGCCTCTTACTAGCCACATGACTGGGTCT
TAGCATGCTCATCTATGAAATGGGGGACACTAATGCTGACCCCACATTTGTGCTGAGGATTATGCAAATAAAATCTGTAATTTGTGCAAGCATCCACCAA
GTGCCTGGTGCAGACTGGATGCTCAATAAGTCTTTGGTGGGTCCATGTATTGAATTGGAATCTGCACATTATGGCCATTATTTAGGTTTMTTGTGTCCTA
ATCTATGTCACTGAGTACATCCTTGCTGTTTTTCATGAATTTTCCACTGAGTCGCAACATGCCACTGGCCAGTGAAGGTCAGGCAGGAAACAGATTAACA
ACATSTCATACCACAATGTCAAAATACTTAAAAGTGTTTACAGATGCCAGTGACACCCAGTGAATCTAAAACAAGAGGACCAGAGCAGAAGTAAAACTAT
TCTTGTTCTTCTAAGCTTGAACACAGGCCTTGATGTTTTATGATTGTTTTAAGGTCCATTAATCGCTGAATCATGAGGCCATGTAAAAAAATGACAGCTA
TAACATCAAGGGCCCGGGTTTATTTTAAATGTTTTTGCTTCTACATGGATTCTAATTAACGACAGTGGCTAAAACCTGATTCAAATGTGGCAAATGTGGA
GTGCCATGGGATGAAGCCAGTCAATTTCATCTAGGAGCATTTTATGGCTTATGGAAAGAAATATTCTCTTAGATTGAAGGGCGCCAGCCTGTAATGGGCA
TCAGCTGATTCTCAGAAARAAGAAACAACGTACTGTTACATAATTGGGGCTTCTCCAAAGTGGCCTGACCAAACTGTAGAGCTGCTTGTTTGTCTGATAC
GGTAGCCATTAGCCACATGTGGCTATTTAAACTGAAATGAATTAAAGTTGTATAACATTTGTAAAAATCACTTCTTCGGTTTCATTAACTAGCCTCATTT
CAAGTGCTCAGTAGCTACATGTACCTAACACATTGGACAGCACGGTTACAGAACGTTTTCATTTCATCGGACAGTTTAACTGCTTTGGAGACTGGTTCTC
CTTTTTCTTTTTCCATGTTCACTCCAGAATTAAAGTCAACCAGTTCAAATGTCCCATCTTTCCCCACAGACATTTGTGCTCAAAGGCATCCCCTTCCCCA
TTTGGAGACTCTCCTAGGGCCTAGGCCCAAGCAACCAGGACTCCCTGTAGTCAACCCCACTCCTCAATTTTTGGCACCCATGTTATTCCACCTCAAGATC
ATGTCCTCTTTTAACCYCTCTGAATATGCTCCTCCTGTGATACCCATAGGGACCCTGAACCTCTAGTCCTCAAGAGCAGTCATTCACCCCTTTGGACTAT
GGATCCCTTTGCAACCCAGGAACAACTACTGTATGGCCACTTCAAACCTGTATATGCTGCAAGTATTTTATACTAGGTAGGGTAAATAATAGGTCTTAGA
TATAGGTGCAAATAATTTTCAAATATGGGTAAATGCTATTGGGATGTGTAAAGTAGAAATCCATTTTAAAGCGTTATTGAATCCATACTAACCTGATCAT
TACATATTTACTAATTGATGATTACTAAAAATGTGGACCTTTGTGAATTTCCGATGTCAYAGAAGGGTGTTCTTAACTGGAAAAGTCAGTAGCCAACATT
CTGGGAAGTAGAGGCCTCTTCCTCACTGCTTCATTGGTTTAAAATAAACTCCAACAGAAAAACATGCCATCATCTTTAATTTCCTGCATCAGCTAAGCAT
TTATTTCATGTAGTCCTCACACTAGATTGAGTGGTTCCATATTAATATCCTACGTCAAAGATGAGTAAATTGAGATGCGKAGGTTCTAATTTGCCCAGTG
TCGTGGTGTGTGATCTTGACCACTAGCCTAAACTGCTATTTTATGTCCACCCATCAACCTCTACGGCTGCCCCTCATTTGAACACACAAAATATAGTTGT
GYGGCTTGGTGGAGCCATCTAAATTCCGTTAGGCCATTTGCCAATGCTGCTATTAGGGGCGAAATGTCATGCGCTTGATCTAAATGTACTTAGGAGAATT
CTCAGGACCTGATGAATTATTATTCGGAATTTTATGGCCTCACAGGTTGCAGGCTTCATACCAACTGCAGCTAATGAGCTATGGGCCCCGAGAAACACTG
AGGACACACGGCGTTCTGCACACAGAGTGGGCTGTTTCTGTCTGTTCTCCCCCTGCACCCTTCTCAGATGCAATCTCAAGTCATAGGAGAACTTGTGCAA
ATGTTTCTCCTGGATGGTTTCCTTTAGAGCATGTGTCCTATAACTTGAAATGGTTGTCTGAGCAGAATGTTTTTAGAAGTTAGATTTTTTTAGGGGGGAA
ACAGGAACCAAAGCAAAGCCAATAGAGATCTTGAAAAAAAAAAAAAAAAGAAAAAACCACCGTGGTATTCTAGGAAGAAAAAAGCATTTTTCGAATGAAA
ACTTTTTATKATATTTGATATATTCTGCTTCCCTTCCCTAGTATGTATTAATGAGATGAAATCACTTCTTAATTTTCAGGTTAATATTAAAGTTGAAGCC
CATCCCTCTACCCTGAGGACTCTGCCAGCCTCTGGCAGTATTCCTTTCCAACTTCCACTTGCCCCAAATAGGTAGAAGTTAGCCTTTATTTTTGGTGTCA
TGTCTTCTTTCCCTCCTCCTATCAGTTTTTCAGAAACTSCAGAAATTTAACCTAGTACACAGGGGCCCCCCACCCCTGTTTCCAGATGCCTTCTAGAAAG
AGGACTGGGAGTGTGAATGAGGCCATGTGGGCTTTGTTTGACCCTGTGGTTGTCATGACAATTTCTCAAAGCTTAGCTGGGACAGGAAGAAGGAAGGGGA
GGATAGCGGTGTGTTCAGTGTGTGAGCTCCTAAAAGCTCTTGGGTCACTGTTCCCAGGGGATGATGACCCTCTATGGCAGATCAGTTGCATGTGCATATG
AGCTTTCCCTCCTCCCGTGGGTTAGCATGTTCCACACTCACCTTCTCAAAGCAAAGTCTCCCTTAGGGGACCCTTGGTATCCTGTTCATCTGGCAAATCT
CAGCACCAATAGAAACACCAAGAACATGGATTCATCAAAGGAAAAATGTTGAAGTTTCCATTTTTATGCTTCCTGGTAATCCTTCAGCCCTTGATGGAAA
TTTCCARACCTAAACCAGTGAATTAAGAGTATGGGGAAGAGGAGCCCTCATACAGTTCTGTTAAATGGTCCTTTAATATTCTTCTTCAGAGTGACGGGTA
CCCCTTGCCTATACATTTTCAAAACTACACTGAAAATTTCAAAACATTTCTATCAGAACACAGTCTTATTCTCAGCTGATCTGCAATTTCCACCTGGATC
TGTTAAATGGCAGCTTAGCTATGAAATATCATGTTCTGCCCAATCACCTACCCTGCCTCATATGATCAGCCGGTATATTTATGTGGACACRTGCAGCCAC
ACTTGTTTTTAACATTTGAGAATGACAGCGTATTGGCAGTTCATATAAGCTATCAAATATTACATGTCAACTCAGAAAACATCCCTAGGAAGTATTATGG
GAACCCCCTGTATCACTTGAGATTCTTGGATCCATATTTGCTGTTAACAAAATAAATTAATAGTCAACAACTGATTAAAGCATTTCCCTGCTACCATGAT
TGCCTTGACAAATTCTGCAGTGCTGGAGTATTTTACCTCCCATTATTTCTTCCGCTGAACAGGACGTTTGGTTCTAATTGTTAAGCCTGCCTAATGCTGA
TTGAAGCGGGCCATAGTATCAAGGGTGGAAGAAGGTGGGAATATAAACTAGATTTGCTCCCTTCTGTAGGAATAACTCTATGAAGACTTTCTTTTTGGAG
ACAAATCATCTTATGCAGGGGGGAAAAAAAACTCCCTAAAAAAGACAAATGACAGCGCAAGATCCAAAAAGACAAGTGCTCAGTCATTTTGTCATAATGC
CAGAAGAGACAGTAATGCTGTGTGGACTATGCATTCAGACATTTAGAAAATATTGCAGGCAGAGCTGGGGATTCCGTGGCCAGAGCATATTTGGTGAACC
GAGGACGCATCAAAGAGCTTCTCTGGTGTTCAGTAACTTGCACTGTATTTCAGAGGTTTATAAAGGGAAGGGACAGGAAAGCAGTGTGCCAGTAAGACAA
CTCCTCTTCTCGTCTGGATTTTAGAGGAATGCAGTGAACAAATGATGAAAAAGTCTGAAGGGACTTTGGTAATTCAGTATCCGAAAAACAATCAGTGTTT
TGTGACATTCTTAGTTGTGATCTACCTTATGTTGTATACACATGGTCACTCACATACATAGGTRTATTATTCTGCAATTGCTGAGTAATTGATGATCSTT
CATTCTCTCTGTGATTCATAGGCTCTCTGGGTTGGATAAATCACTTCGGGGAATTATATCTACTAGTATATTTATGTCACTAGAATTCCTTTGAGAAGCT
ATCACTGTGTACATTTACTGTATCTATTAACTTTCTTCATCTCCCTCTTCCTCCCTTTCTTCCTTTCCTTTCCCTTTCCTTTCTCCTCTCCTGTCCTTTC
TCTCTCCCTCCCTCTTTCTTTTCTTTCTTTTTCCTTTTTCTCTCTCTCTTTCCCCCTTTTTGTATTTCTAGGAGAAACGGGGTTTCACCATGTTGGCCAG
GCTGGTCTCAAGCTCCTGACCTCAGGTGATCCACCTGCCTCAGTCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATCATGCCCAGCCCCCTTGTCCTC
TTCTTATAAGGCTACTAATCCCCTCATGAGGGGACCCATCCTCAAGACTTCATCTAAACCTAACAACCTCTCCAGGGTCCCACACCCAGATACCATCCCA
CTGATGGTCAGGGCTTTGACATATGAATGAGGGGTAGAGGGACACAAACATTCAGTCCCTAACACTTGGTCAAGTTACTTAAGCTTGGTAAGCCTCTCTC
TTCTTACTGAGTCATGAGSATAATAAGATATACCTGTTAGGGTTCTTTTGAGGAATAAATGGAATTTTTAAAGAATTGTGCCAGACATGTAATAATTACT
TGATAAACTATAGCTATTATAACACCATCAAAGCTGTGGTTCTTACCCTCATCATTGTTTACCCTCTCACACAGTAAGATCTTTCTGAAAAGGATCAAGT
CTCATTCTCTTTTGAACCCCAAAGTCCCCAGCCACCACAGAGACCAAATACAGTAGGTACCAATGCATGGCAATGCATAGGAACTAGGTGTCCTAACTTG
GCACTGTATCTGCCAATTTTTTAAAAGACAAGATGACATCCCAAAGATTGGGGCATATTTAGGATAATGCCCCATTCTGTGAGGGTGGACATTATAGAGG
ACATCAGCAGCCAGCCACAGGCCATCTCTTGGTGCCATTGGGTTTTGAGACCCTCAGGGTGACACCGATTTAACATGACAGGTCTTATGTTCTTGGGTAA
TGTCAAACAACTTCTTGAAAATATTTGTTAAAAAAAACCCAAAAACAGAAACATATCTGACTGGGCATGGTGGCTCCTGCCTGTAATCCTGACACTTTGG
GAGGCCGAGGTGGACGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACTCCTTCTCTACTAAAAATAAAAAAAAAAAATTGC
CAGGCCTAGGCGCAGGCACCTGTAATCCCAGCTGCTCGGGAGGCTGACGCGCGAGAATCACTTGAACCCAGGAGGCGAAGGTTGCAGTGAGCCAAGATAG
TGCCACTGCACTGCAGCCTGGGTGACAGAATGAGACTCCATCCTCCCACCCCCTAAAAAAAAAATCTATCCAAAGGCCTTGACTAATGCAGAATCAGCAC
TAATTTACAAGCCCCATAAACTAAAGACCCCATGTTTGTGTTATAAGTTTTCAAACTTTTTAAATATTTTCCCCTGTCTTATTTTCTATCATTTCACATC
TTCTTAAACACATATATTTTTAAAAGAGGTTTTGACTCACTGGTGAATTTGTCTTAAAATGGAAAAATAAAATCAAATATAAGAATTTTGTTATGAATCT
TTGGGGAAACACAATTAGGGAATCTACCTTAATAGGTAAACCCATGTAATTTCTTATTTCCGTCTAGTTATAGGAAAATACTGAGATACTTGTGAGATGT
TTTCTTTTTTTTTTTTTCCAACTTGTATACACGTTGTTCTATAAGTGGTTGATTGTTTTTYAGGAAAAAAAAATTCAGCATCTCAAATGTACCTTTAATA
TTGCTTCTGATTTTTGTTGTTTTGCTATCATAGCGTTACCTACCTCACAGAGATGTTTTAGGTCATAAGTRTTTTTCATTTAATTTTTTTTCCCCTTMAT
TTCCTTTTTTTCCCTCCTAAGCTATAAATATACAGCCTTAAAAAAAACACTCAGAAATTTAAGTCCAAGAAGCCTGCTTTTCTTGATACCTTTCAAGTGC
TAGATTAATAACATTTTTGTCAGGTGGTTACCAGAATGGAGGATACTTGAGCTGAGTTTTGCTAGAGTCCAAGATCATCTATTCTAATTTCTGGGGACAC
ATATTTTGTCCTGGTTAGAGAGATATATAATGATGCCTATCTGATTCTGTGGTGGTCTGGCTTTGATGTATGTATATGTGGGCRGGAATGTGTGTGCGTG
TGTGTGTGCATGTGTGAGCTYCTGTGTGTGTGTTCATCACGTATCCATTGTGTCTCCAAGGTCTTATCAACAGCAACAAAAGGCCTCCTTTGAGATCAAT
CACATTCATTCGATGTTTGTTTTCTACTACCTGATACTTACTGCTTTCTCTTTGTCGCCGTTAATTTTGTTTGTCATATGTCAGACCAGGATGAGTGGGG
CACATACAGATTCAGCTCATTTTATTTTTTTTCTCCCTTCCTTCGTCACCACCTTTGCTAATTTCAGGCGGTCAGCACATTTAGCAAGCATGTAGCTGCT
TGCCTGAGCAAGCCATTAATCTATATTAGAAAATGTAGAGGCCCCAGTGTTAACCTTCCTGAAGCTTGTCTCCCCACCCCCAATTCTATAGGTTCTATTA
TATCTCCGCTGGTTTAAGGCAACTGCTGTTTCTTTTAGGAGTTTTCTTTTCTTTCCTTGCTGAATATCTGCACTTAGCAATACTGCCCAGGCACATGGGC
TGTGGCTCAAGTTTTCAGTGCAGGACAGTGTGTCATTGCAGGAGAAGACAGAACCCGGCCAGATCCTCCCGCTGCCGGCAAGCGGAGTCAGTTACTGGGA
AGCCATAATAATTCTKTCTTCTAGAGAATTTTGGCAAAAATGTGCCTCCATCTTACATCAACAATTTTTCATCTTTCTGGAATTTTTATTTCCCCTTCCC
CTCTTGTTCCTTTTTATCCTCCTGGTGAAGTATCTCCTTTTCCCTAAAAAACTGGAAAAAATGCACTTTTCTATATTAATTCAAATCATATTCAAAAAAT
ACTATATGTTAAAAAATACGATGTTTCTGTAATCCTTACATCCCCTAATAAAACCACTGTGTGATGAAACTACCAAGAAGCCTCTCTTGAAAAAAAAAAA
ATTAAGTGAACCTCTACTTTAGAATGTTGGCTTTTCATATATGTACAAAACAAAAGAGGTTGCAGTGATGGCGTGGATAAAGGCACCTGTGTACTTTTCC
AACCTATCCAATTTCAAGATGTATCCTTTGTGGATTACATTGGTTCTTTTCTATGGAATCATGCACCTTAGACCTGGGAGAAACCAGCGTGACATCCAGG
GTCAAGGTTTTCCAATCAGGTATTTTGGGGGAAAAAGTTCTGCCTTCATGTAACAACTAATGTGACATGGCAGTGTATAAGACATTACAGCCAAGGCCTT
CTGGTTGAAGTTGGGGAACTGTGGGCGTTGTCCCCACTAGTCCTGTCATCTGCCCTTGCAAAACCACCCTTGGGCTCTCTCGCGTGCGGTCTGTGCACCA
GCTACCTTTGTGCTCCCCACATTCTTCCACCTGGCCTGGAAGCTGACCATAGTTGGCTCTCTTGCCCTTTCTTCTTCTGGTTGGATTTAGCAATTTAATT
TTCAGGCTTGCTCCCTGCAGGGTGTCACTTCACCACCTTCCTCTGTAGAAGGTTTCGTCCAGGCCGGGCACAGTGGCTCACGCCTGTAATCCCAACACTT
CGGGAGGCCGAGGTGGGCAGATTGTCTGAGGTCAGGAGTTTGAAACCAGCCTGGCCAACATAGTGAAAACCCATCTCTACTAAAAATACAAAAATTAACC
AGGCATGGTGGCACACACCTGTAATCCCAGCTACTTGGGAGGTTGAGACAGGAGATTTCCTTAAGCCTCGGAGATGGAGGTTGCAGTGAGCCAAGATTGT
GCCACTGCACTCCAGCCTGGCTGAGAGAATGAAACTCTGTCTCGAGAAAAAAAAAAAAAAAGAAGGTTTCATACATTTTAGCTGACAAGGGCAGGAGCTG
TTCCTGCTGTTACTAACTGGAGTACATTGCATGAAACCTTGCTGTTTCCTTAAACCCTGCACCGACCTTTACAAACAGTGCCTTTACTAAACACTTTTTA
CGTTACCCGTTTTGAGTGTACCATCTGCCTCTTGCCAGGACCCTGACCAAGAATTTGAAATCTCAGACCATGATGACCTCCTTGCCCAATGCGTAAGCTG
TCCTCCAAAACACACATTTATGGGGGCAGAGGGAGTCTCTCTGGAAGGAAACTTCGTCTGAGCCATGGCTCCTTTTGCTTCCCCTGGGTTTTAATCCTTC
CTTCCCTTCCTGTTCTTTTAAGGAAATCTGAAAAGGAGCAAAAGAGCTTTAGAACTGCAATGCATCTGTCTGAGGCCAAGGACAGTTGTACGCAGACCTC
TCTGCCAGTGTTTCAGTGACCCTCCTCTTGCTGCTTGGCTGCCTATGAGTCCATGCTGACATCTGGCTCTGTCTGCCCAAATATAAACTTGAGAGTGACT
TCCAAGATATATACAGGGCTCAGAGGTTCTCTCCCCAACCCATTCACTGGCCCTGCTCTCTCTCGATGTTCCCAAGTCTCCTGGGTGACCTTGTGTGTCC
TTCCTGGGATATTGCTCAATCACCCTAGAACTGTAAGGCCAAGTGGTCATAGCCAGAACATGGCAGAAACATTCCTGCTTCTATTCTGCTTTTCTAGCAT
GGAATCCCCTCTGCCTTAATGTGAATAAATACTCCCCAAAATGAAGGCAGAATCCAGTATCTGTTGTTTAAACTAAATCCCTAACTGGACCCCCTCTGAT
AAACCCTCTGATAAAGAATTGATGTAAAATTTGGGACGCTGGATAGGACCAGGAAGCCAGAGAAAGAGGGCACCCTTTTCTTTTCTAGCATTTGAGTTCC
CAAAGAAGTAAAACTCTGTGAATGTTCACTTCATTTTTTCCTGATATATCGAGGACTCCAGATGTAACCTCATTGATAGTCTTGGTGTGTTCTTCAGTAT
TTGTGCTTTTAATAGATATTGCAAGTGTGTTTAATGTGAAAATAGAAATGGAGGGCTTTTAAAAGAGCTTACTCAAAATCCTGCCAATTACTGAAATCTA
CCAGACAAGAAGGAGCCACTCYTTTTTTTTTTTTTTTTTTTTTTTTTTTTGATACAATGAGGGGAAATGTTTCTTCCACAAAAGCCTGGCCGTTTGTCTT
TAAAAATTTTCATCTTTTGGGTACTGAGTTGTAATAGTAAATACAGATGTAGCTGTGTCACATTAAAAGCACAACCAAATTGTAGTACAATGTTCAGGAC
ACTTTTATGTCACTTTAAAATGTAGAGTATCATCTAAAAATGAGCAATTGCTGTGAAGAAACTGGGGTTGGCTCTGATTTTGTGGCTCAGTTTTTTTTGG
TTTCTTGAGAAGATCATCTTTAAGTCAAAAGTTATGCAATGCCAAGTACTCATCTGTGTAATCTATTTCAGTTTCCAAAATTTTTCATCACCTGGTTACA
AACATCTGAAGGCAAGAAATAGCCAAGATTCCATTGCAAGTCCCAGAGTAAGTTATTATTAGACAGAAACAAACAAGTAAATACCTTGGGCCTGAGCTAT
TGCCCAAACCAGTCCTGACTTGGCTTGGGTTCTGACCAACTGTTTTTGATCCCACAGTCTGAAGTACGTTTGTGGAAATACAAAGGTCAAACCTTCCCCT
AACCCTCTGTAATCCCTGGTGGAGCTAAGGAATGAAAAGTTGCTTAAACATTTTCCTGTTGCCAGTTTTTCTTAAACATTAGTGCTATTCTTTTTTTTTT
TTTTTTTTTTTTTTTTTTTTCCTTCTTCAACCCTGACTCTGATTCACAAAGAATAGGGAAGCTTAGCCAACTGCAGTTTCAAAGTATTGCTTCTTAAGCC
TGGGCCAAGTGTGTAGACTTGATAGAATTCTGATTAATGCATCTTATTACATTAATTTTAGAAGAAACCAGAAGGCATTTCTCCTATTCCTAGTGCAGGC
CAGCCTGCCAGAAGCATTTGCCTCCTTAAAGAGCTAATATCTTCAGCTACCAACAATCATAAAACTGAAAGATCTATCGGAAGAGTTGGCTTCTCTGGAT
GTGCATAAGGCACACTGCAAAATAGATGTACAGCTTGGCTGAACTTTGCTTCAAATTTGCCAATCAAAATTCACGAACCCATGCCAAGTTGGCTACAAAA
CCTCTCGCTTGGAGCCAGCACTAATTATGTCAACAAGTAGTTCAAGTTTAGCCCCTGTTAAGTCCTGTACTCCTGGGTATTGGGGATGAGTCTTTGTGTG
GTGGCAAACGGGCCCTGTCTTCGCTTGGCTTCCTCCTAAAATTCCCAGGACCTCTTCGGGTCCCAGCCCTTTCTSTTCCCCTGAGATTGCGCCTCCTCAC
CCTCTGTCTTGGATGGAAAGAGTTCCAAGGCAGTCCAGTCACCCCAGTGAAAAGTTTTCTGATGAGGTCAAGCCTTCTTATTGTCATAGGTCATTTTCTT
TAGAAATGAGAAACCATCTCATTGGGCTTTCCAGGAAGGAGACTCTGAGTGCAAGTTTGTTGTGAAGAACACGTGCCTTGGAATTAACACCTATGGAAGG
GAAGAAAACGAAGATGGAGTGGGCAGAGGGAGAAGCTGACTGAGATGSAGTCCAGCAAGGGTCTCAGTCAACCTTATGAAGCTAAAAGGGCCCATCAGAG
CTAATCCCTATTGGGCTAATGTGGCCAGGCTTTTATAAACCTGCCTTGACTCGTGATTGGGTGGGCTGCCCCAGGAAGGATGTGCCCTTGCAGAAGGTAG
TCTCTGTGTTCAGGTACTCCCTGGAAAGGCTAATGGCTGAAGGCTACAGGTTACCCTGGAAGGGAGACCTGGGCTGCACATCAGAGCCCATCTACTTTCC
AGTGTGGACAAGTTCCAGCTCCTGCCCCAGCCCTGCCACACCATCACCCTCTCCAGCACACACAGCCCTTCTCTGTTGATTAGGGTTGGTTGAGCTGTTC
TACCACCTTCATTGACTCAGGCCTTGAAGTGCAGTAGAAAGCCCTAGGACAAGGCAGGCCCAGTTTTGAGGCTGGGTGCAGAGGCTCATGCCTGTAATCC
CAGCACTTCGGGAGGCCACGGCAAGAGGATCACTTGAAGCCAGGAGTTTGAGATCAGTCTGGCCAACACAGCGAGACCCAATCTCTCCAAAAAGTTTAAA
AATCGGCTGGGCATGGTGGTACATGCCTGTAGTCCTAGCTACTCAGGAGACTGAGGCAGGAGGATCACTTGAGCCTGGTAGGTCGAGGCTGCAGTGAACT
AAGATGCCACAGGACTATAGCCTGGGCAGTTTTGAGTGCTGCCTCTACCATGTAACTAGCTTGCCAGTCAAGTCATTAACTATTCGGGGCMTTAGTTTCG
TCTTTYCTGAATTGGAGCCAGTATACGTAATTCCAAAGGTTGCTTTTAAGCGTAAGTGAGAATATTGGCAGAAATTCGTTAGCACTGAGAGAGGGAATGT
AAAGTGGAGGTTAAGTGTACGGCTTAAGAGCAGAGTCAGGAAACCTAGACTTGCACCCTGATTTCTGAGTTGAATGTTCCAGGGTAAGCCACTTAATCTC
TCTAATCCTCATTGTGCTTAGCTCTAGAATGGAGGCTTGTTGAGAAAATTAAATGGAAACGATAACGGCGAAGCACTTAGCACATGAGCAGGCCCATAGT
ACTCAGGTGTTCATTCCACAGAAAAGCGTTCACTCTTCTGCACTCTTTCTCAGTCAGTTGGCCACTGCTGTTCAGTTCACTTCTTTTGGATCTTCTCAGC
CCCATCAGGTTCCCAGGTGAAATGAGCCCCGGCTCAGCAGGCCAGTTGTCTTCAGTGACCCCCAGTGAGGCAGCAGGTGGGACTTGATTCTGGAGGCAAG
ACTCAACTCCATAGACAGGGCTTACACACCGGACCAAATTGAGGACTAGCTAAAACAGGGATAGGGTGGGTGCACCTTTCCATGAGCTGTGTCCGCCAGT
GTGTCATGTCAGTTTACAATTTCCATGGCAACACCTAGAAGTTACTGCCCCTTTCCATGACAATGACCCAACAACCTGGAAGTTACCACCCTTTTTCTAG
AAATTTCTGCATAATCCACCACTTAATTTGCATATAATTAAAAATGGGTGTAAATGTGATGGCAGAACTGCCTCGGAATTGCCACTGTGGGTACTCTGCA
TGTGGGGTAGCCCTGTTTTGCAAGGAGCAGCACCTCTGCTCCTGTTGTACACTGTCCCTTCAATAAAAGTTGCTAACACCACCACCTTGCCCTTGAATTC
TTTCCTGGGCAAAGCCAAGAACCCTGTTGGCCTAAGCCGCARTTCTGGGGTTCGCCTGCCCTGCATCACCAGCACAGTGGAAGGCCACAAGCTCACAGCA
TTTTCATCCGTAAACAAAGCTTGGCAATATCTCTGATGGTTAAGAGCTTACGTGTTTGCGCCAGTGAGACTTGCACTCAGTCTTCTTTGAGTGAGACTTG
AACTCGATTCTGAGTCTCCTCCTTCCTAGATGGACTCATTATTTACTTATTTATGTATTCACTCATCTATTCATTAATTTATACTCTTAGTTTGATATCA
ACATCTGTAAAATGGGGATGGTAATGTGGTGATATGGAGGAAAATAAAATAACTCTGGCATTGTTCTTACTATTTACCTCTGTACTGTCATCGTTATCAT
TCCTTTGATAACCGTGAGCACCTGTCATGGGCCTGGCACTCTAGTAGGCTCTCAGGATGCACAATGACCCTGTCCCTGCTTGCTGGAGACATAAGAGAAG
CCCCCAGCCACTGACATCTGGGTGTTGTAAGAAAGCAAGAACAGTCATGGACACTGCTAAGTTTTGATGCCAAAGAGCCAAATTTGCAGTACCAGAATGT
CCTTTCCATGTGTGACCCAAAGTTTTGGCTACTGAAGACGTTGCATGCCCTCCAACAGTGGAAGTGGTGCCCTGAATACGCCAGAAATAATCGTGGAGTC
AACGAAGATCTGGGAGTATTGTTTGGAGACATCTCAGTATTCCTAATTCATTTTCCCATCCTTAAATAAAAATCTTTCTTACTGATGATCTGAGAACTTC
TTGTAAGCCCCATTTCCATGAGTAGAGTTGGCCATTGCCCACTAAGAAAATTTAGGTGGTTTTTATTGGGATTAGTGGATGAACTTAGGATTAGTGTGGC
CCTTCCTTGAGATATAATGACAACCTTSSTGAAAGCAAGACCACAGGGCCTATCTTCAGGGAAGTGCCTTGCATTTTAATACCAACCATGCCACGTGTAT
GTGTTTCCTGGGCCTGCCATAACAAATTATCGCAAACTGGGTAGATTGAGAATCATTCATTGTTTCATGGTTTTGGTGGCCGGAAGTCCAAAATCAAGGC
GTTTGTGGGGTTCGTTCCTTCTGGAAGCTATGAGGGAGAAACCATGCCATGCCTGTCTCCTGGTTTCTGGTGACTGCTGGCAATTCTTGATGTCCCTTGG
CTTGGAAACACCACATTCTAATCTCTACTTCCTCCCTTACATCACCTTCTCCTCTGGCTTTGTGTCCTTTCTGTCTCTTACAAGGACACCAGTCRTTGGA
CTTAGGACCCACCTAATTGAGTATGATCTCATCTCATTCCTTATCTTAATTACATTTGCAAAGACCCTGTTTCCAAATAAAGTCACATTCGTTGGTTCTG
AGTGAACATGTTTCTAGGGGGACACTATTGAACCCACTGCACTGCATCAAACGTATGGGTGTGCTTTCTCTTGGCCTTTCTCCTATTTGCCTTCTCTGTG
TTGGGAATTGTGGCTTCACACCCATCTACTTATCCCTGCATGTTGAGCATCGTCTGTTACCTGAAGAGCAGAAGGATGATAAAAGTGAGGAAACTGAGGC
ACAGGCTTGCCCCAGGTTACACAGCTAGTTATGATGGAGGGTGGGTCGGAAGCCAAGCGCCCCCCAGCCCCCACCCCACAACAGGTGTATGTGGCCTCTG
GTTTATCCTTCTTTCCCCCTGCTCACCACATGGCTTCTCATTTTGAAAACCCRGTGGCTAATAAAGTAGATGAGTTTCAGGATTGCAAAATATTGTGATC
CTGGCCTTTGTCCATTGTGTAATCTTCACAGTGACCAGAGTGTTTGCAGTTCCTASGAAGTTCACCCATTCCCAACAGTGTCCCAGGGTCAAGCTCAGAT
GACCTGTGGTATTTTTATACCCATATATGTGTCAATGTTTATAACTTTTAAAGTTGTTTTCAGGAAGCACTGAGGCATGTGGTCRTTCACAGGTGACAAA
GACAGAGGCTCAGGGAACTCAGTTGGTTGCTGAGCTTTAAACCCAAGTCTATTTCTGAGGCTGGACTGAGTCTTTGAGAAAATGCAAAGTAACCTAGCAT
AGTGTCAGACACAAAATAGTCAGCAAATACCATCGTAGATTCAGGCTTCTGAGTCCAAAGCTAACAATTCTCATCTCCAATTCCCATCTTCAAATATTAA
AATAAACTTTTTTTTTAAGAGACAGAATCTCACTGTGTTGCTCAGGCTAGAGTGCTGTGGCATCTTAGCTCACAGCAGCCTCGACCTACCAGGCTCAAGC
GATCCTTCTGCCTCAGTCTCCTGAGTAGGTAGGACTATAGGCATGCACCACCATGCCCAGCTATTTTTAAAATTTCCTGTAGAGATGGGGTCTCAGTGCA
TTGGCCAGACTGACCTAAACTCCTGGCTACAAGTGATCCTCTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCAGCCTTAA
ATAAACTCTTTAGTGTCAAAAAATCTACGTGAGGCCAGGTGTGGTGGCTTACCCCTGTAATCACAGCACTTTAGGAGGCCAAGGTGGGTGGGTCATCTGA
GGTCAGGAGTTCAAGCCCAGCCTGGCTGACATGACGAAACGCCATCTCTACTAAAAACACAAAAATTAGCCAGGTGTGGTGGCATGTGCCTGTAATCTTA
GCTACTCAAGAGGCTGAGGCAGGAGAATGGCTTGAACCCAGGAGGCAGGGGTTGCAGTCAGCTGAGACTGCGCCAGTGTACTCCAGCCTGAGAGACAGAG
CGAGACTCTGTCTCAAAGAAAAACAAAAACAAAAACAAACAAAAATCTACTTGAACCAATAAAAATTCCCATCCCCACCTAGAATTCTAAATATTTTATA
AATAAAGTCTTCAGAGCCTAGATATTCACTAGAACCCAGTGGTCACGTGTTCCTAATGGGTGGAATATTATTTTGAATCTTTCCATGATGAGAGTTACAT
TGATGGGTGAAAGCTTTTTATGCAACATCATCATTGTTGAATAAACAGACGCTTAGCATATTTAGGTTGGAATGCAAGGGAACTAAAGGTAGGGGAGATT
CTTAAGGAAGTCTACTTTCTCTTCAAGAATGCTATCAAATTGAAAGGTAATTCCTAAASAAGAGTCATTTGTAAATTAGGGAGGAAGAGCTAAAAAAGAT
TCCTAGCAAGAAACATCATAAAGGGGCTTGATAAAGCCAAAAAACTAAAAGAAAAAAAAAAAGGAATTAGAAACAGAGAAAAGAGGCTTCGTGTTGTTTG
TAAATTTGTGAATAAATCTGTTAAAGAAATATTGGATTCATATTCAACTTGGAAAACAGGGAAAGGCCTTTTATTGCATGCTTTGAAGTTTGAATACACT
TTCAGTAGCTCTTCGTTATCTCAAATTAAATCTTAAATTGAGCTTGTGGTTCTGTGAATTAATACTCCRGCCTTTCAGCCCTGCTGCTGAGGTCATTCAA
ATCTAATGGTGGAAACGGTCACAGGGTCAGGCCTTGGATGGTGCTGTATAGAAATGCCTTAATGATGCTGGCAGATGTTTGCATTCTGCAGCTGGGGCGG
CTGGCGGGTTGGGGGCTGCAGGAAGAGAGGAGTTGATGATCACATTATTGTGTCAGCCGCCTGTGTGAATAAGGAAGGACAGACTCCCACCCCATCCCAT
CATTCCAGGTTCAATAAGAGGYAGGTGCTTCCTAAAGCAGAAAAATGTAAGGGAAGTCATCATCGCTTATCATCACCTGAATGTTCACCATGGTGACCCA
CATCTCAGGATGCTGCAAAACGAGAGAGGTCACCTGTCTGTGTAATCGCATATAGCATTCTAAAGATGTTCCATTCATTCAGCAAATGTTTAATAAAGGC
TTCATCTGAAGTTTAATGGACATTGTTTGATAAAACAGACCCAGTCACTGGTGTCAGGGAGTTTATATAAAAGTATACACGTATCTGTGCAAATGTGTGC
ATTTAAGGCCCGCCGAGCCTGAGCTGATATGCATGTCTTAACTTTGCTGTTTCTCTAAGGGGATGGAAGGATTGGCTACCCTGAGCTTTCTAGACTTGTT
ATTTTTTTTTTTTTTAAGACAGAATCTTGTTCTGTCTCCGAGCTAGAGTACAATGGTATGATCATAGCTCACTACAACCTCCAATGCCTGGGTTTAAGTG
ATCCTGCCACCTCAGCCTCCCAAGTAGCTAGGACTRCAGGCGAGAGCCACCATACTGGGCTAATTTTTGTTTTTTATTGAGATGGGGTCTTCCTATGTTG
CCCAGCCTGGTCTCAAACTTCTGGCCTCAAAGCAATCCTCCTGCCTTGATAGACGTGTTCATTGTAGGTTTCTAGCCTCTGAATCCAAATTTTATTTTTC
TAGTACTTTATTTTATTTTACTTTTTATTGATTGAAACCTTGAAATAAAGTTTTTAAAAATCTATTTGATTTTAAACGATCTTTAGAAATATATGAAGGT
TAAAAATAACTCTCATTTTGCTTTTTATAAACAGTCCACTCCTACATGTAGACACATTTAGATGCTTCATTTTGCCTGTAGAAAGTTTTTCTAACAATAA
ACTGACCAATGATGATGAAATTTTTATTGACTCAAATGTGTGATTGGTTGATTTACTGTATTCAGTCCAAGCTCCTCCCAAAGGTTAGCTCATTGACTCT
ACAACTCTGTTTTCCTCATTCATTCATTCCTCTAATCAATATGTATTGCTCACTTGGTACATGTCAGATACTTTCCTAGGTGCTGGGGAGAAACAAGCAA
AGTACTTCAGGGCCTGTATTAGTTTGTTTTTCACGCTGCTGATAAAGACACACCCGAGACTGGGAAGAAAAAGAGGTTTAATTGGACTTACAGTTCYGCA
CGGCTGGGGAGGCCTCAGAATCATGGCAGGAGGTGAAAGGCACTTCTTACACGGCAGCGGCAAGAGAAAATGAGGAAGAAGCGAACGTGAGAACCCCTGG
TAAACCCATCAGATCTTGTGACACTTATTCACTATCACGAGGATAGCGCAGGAAAGACCGGCCCACRTGATTGAGTTACCTCGCCCTGGGTCCCTCCCAC
AACATGTGGGAATTCTGGGAGATAYAATTCAAGTTGAGATTTGGGTGGAGACACACCCAAAGCATATCAGGGTCCTAGGCAACTTTGTGTGAGAACAGAA
CAGAGAGGAAGCGACACACCTTTCCTTTGGGAGCAATTTTTGGGTTGCTTTTGTTTTTATTTGTTGTTTTCATTCCTGGTAGTAATAGTAACAGTAGAAA
ATGGCAGCGTTATAGCYATAAACAAAGTGCTCTGTGGTTTCTCTCTCACCATCCCCTAAACCCTACAAGGCTAGGGGAAAATGGTAATACTCATGAACAA
CTCCACTTCATAAATGAGGATGCCGGCACTCGGGGAGGTCAAGTGAGTTTCATAAGGTCATAGAGCAACCAAGTGGCAGGGCTGACTCCCACCCAGGTGT
GTTCCATGGGCAGCGTCTTCTTACTGCACTGTCCTGACTTGCTCTAGTGAGATMTAAGAGAGGCACAATCTGCTTTCCTTTTGATGGTGTGCAGCAGCAT
GATGGCCGCGCGAATTTCCAAGAAGAGGATGTTGGTCGCTGATGGCATCTTCAAAGCYGAACGGAATCAGTTTCTTACTCCGGAGCTGGCTAAAGACGCT
TCTCTGAAGCTCAGGTTCAAGTTACACCCATCACGACAGTAACAAATATCTTAGCCAACAGAACAAAAAATGTTCCTGGTGAGAACAGCCAGGGATTCTG
GAATTGACTGCTGTAGTTCAGAAGAGATTTGGCTTCCCACAGGGCATTGTAGAGCTTTATGCTGAAAAGGTGGCCCCAGAGGTCTGTGTGCCATTGCCCA
GGTCGAGTCTGCAGTACAAACTCCTAGGAGGGCTTACTGTGCGGAGGGCCTGCGATGGTGGGCTGTGGTTCATCATGAATAGGGGGGCCATAGGCTGCCA
AGCTGTGGTTTCTRGGAGACTCTGAGGACAGAGGGTCAAATCCATGAGTTTGTGGATGGCCTGATGATCCCCAGCGGAGACCAYGTTAACTAGTACATTG
ATGCTGTTGTGTGCCATGTGCTGCTCAGATAGGGTTTTCTGGGCATCAAGGTGAAGGTCATGCTGCCCTGGGACCCCGCTGGTAAGACTGGCCCTAAGAA
GCCTCTGCCTGACCACGTGAGCATCATGGAACCCAAAGATGAGGTAGTGCCCACCACTCCCATCTCAGAACAGAAGGGTGGGAAGCCAGAGCCACCTGCT
ATGCCCCAGCCAGTCCCCATAGCATAACGGGCTGTCCTTGGCAGTTGTATTCGGAGTCTGGATGTTGCTTTGTAAAGACATTTAATAAAATATTGTACAA
AGACAACCGGGAATGCCTGTAATCCCAGCACTGTGGGAGTCAAGACAGGCCGATCACTTGAGGTCAAGAGTTCAAGACCAGTCTGGCCAACATGGTGAAA
CCCTGTCTCTACTAAAAATACAAAGATTAGCCTGGCGTGCCCTGTAATCACAGCTACTTGGGAGGCTGAGGCAGGTGAATCGCTTGAACCCGGGAGGTGG
AGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGCAAAAAGAGTAAAACTCAGTCTCAAAACAACAGCAACAGAAATGTATTCTCTCACA
GTTCTGGAGGCCAGACATTCAGAATCAAGGCAGGGCTATACTTACTTTGGAGGCTCTAGCTAAGAATCTGTTCCTTGCATCTTTCGTTTCTGGTGGCTGC
TCGTGATTGTGGGCTGTGACCATATCACTCCAATCCCTGCCTCTGCAGCCACATGGCCTTCTCCTCTTCTCCTGTGTTCCTTTCCTGTCTGCCTCAAATC
TCCCTCTACCTTTCTGCTATGAAGACACTTGTTTTTGGATTTAGGGTCTTCCTGGCTGATCTCATGTCAAGATCCGTAACTTAATTACATCTGCAAAGAC
CTGATTCCCAATAAGCTTGCCTTCACAAGTTGCAGGGATTTGGATATGGAACTGCCTTTTTGGAGGCCACCATTCAACCCACAATAAGAGCACAGTGGTG
AGGTTTGAGGGGTGGTATGAGGTCACAGTCACAGCCACCCCTCTCACCAGCTGTGTGACAATTCTGGATTTCCTTAGCTGTCCTCTGCCTCCATCTCCCT
TTCYCTGTAAGTGGAAGTGGTATTCATTGATCACACACTACATGCCGGACACCAAGCTATTACATTTTTTGAATATGTTTCTTCYTTGCCTCTTGAGGAC
TAACCAGCCGGGTTTAGATTATTTCCTCCCCGTGTCGCTTTCCTGCCCCCACATGTTAWAGATGGTGCAAGGGAACCAGAGAGCTTTGATCCCTGGTTTC
TCTGGTCACAAACCTGCTCTCCTCTCCAGAACTCCAGGCTGCCTTTCTGTGGGGGCTAAATCAAATTTAGCTGTTCCCCCAACTGCAAAGTACATAGGCA
TCAAGTGAAAGGGTAAATGCATGAAAACCTGAATGGCTGATCCTCTAAGACAGTGAGAGCAGATGTTAATTGCTCACTGTCCAAGTGCTGGGCTCTGTGA
TAAGAGCTTCACGCAGATGACATCAAAGCACCATGTGTGGGGGAAGCACGATGATCTTGACCATTTTACAGATGAGGAAGGTAAGGCTCGGTGTCATCAA
CTCACAGAGGAAGTGGAGCTGGAGTCTCTGTGGCTCCAGGGTCAGGTGTGTAGTCTCGAAGGCTGTTTTCTGTTCTGCAAGTTTCTCCTTAACACATTTC
CARCCCCATTTTCTGGCAGGGAGACCCCAGGACTGAAAGGAGCTGGAAGAGTGAGGTCTAAGAGAAAAAGGGGCTGGGTGTGGTAGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGCCAAGGTGGGTGGGTCACCTGAGGTCAGGACTTCGAGACCAGCCTGGCCAACATGGTGAAACCSCATCTCTACTAAAAATAAA
AAWAAAAAAAAAATTAGCCAGGCATGGTGGTGCATGTCTGTTATCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATCACTTGAAYCTGGGAGGCAGCGGT
TGCAGTGAGCCGAGATGGCGCCACTGCACTCTAGCCTGGGCGGCAAGCAAGACACCATTTCAGAGAAAAACAACAACAACAAAACATATGGCCAGCAGCC
AGTGTTGTTATYTCAGGATGGGAACCAGGCACTGCACCTCCTCATTAGGAGTCAGAGTAAGGGGGCTAAGCTGGTTGACATGACTGGGGACAGAGTTGCT
GTTGAAATTGTCAGGTTATGAAGGGAAATTAGCTGCTGGGTGTCAAGAGGTGCACATTGCTGCAGGCATTGGCAACTGGGAGCCCTGGTGTGTCTATTAG
CTCCTCAGGCTGTGAGGCCTTAATGACACCCCTGCCAACATTACAGGAGGCAGCAAGTGACAGTAGGAATGAGAGAGGCCAGCTAATCTAATCTGTACGC
CCCACAGGAGTTGGGGGCTGAGGACTTCAAGACCTGGCTTCTGCTCCCTGTCACAGTGGCAAAGACAATGACAATAAAAGCACAGCCTCCAGAGAGAAGA
GCCTTCGATGGACCTGGGTGTTAAACCAGGGGCCAGGCAAAAACTGGGGGATGCAGAATAGGAGGTTGGGCTGGAGGTGAGTGAGAAGAACGGATACGGT
TAGGACCAACATTTAGGCAATATGACCGTGTACAGGATTCTACCACCATCGTCACCATCAGTGTTACTGTTCCCTGCCATCTGCCTATGGGGTGTCTACC
ATCTAAAGTTCAGCACTGCACTGGGCATTTTTAAATTATCATTAGTATATAATTATATATAATAATAATTTAATTTATAACTATATCATTTATTAAGGTC
CTACTATATACCAAATTCTATYGGACACATGTCCTAATAATAAACGTGATATMATCTATCATTATTTACAAAACTTCACACTCTGACCTTTATTAATTAT
GTGTGTGCCAATTATGTGCAGGGAACTGTATTAATCGTAGTTAGCAATATCGTCTCTAGTCCTCCAACCCTATAAAGTGGGCACAATTATTATTTCTCTA
TTGCAATTGCCATTTAGCCTCAGCTGGATTGGAAACTATGTAATGGAGACTCTCAGGCCACTGTCTTTTGAGCAGCATTTTCTGCATTGCATTCTTGTAT
GTAATCCTAAAATGTAGATGTAGTTTTCCCCCTTTTAGAGATAAGGTAATCAAAACTTATAGAGGTTAAAGGGACTTGCCAAAGCGACACAGCCATGAAT
GGCAAAGCTAGGATTTAAACCCTTGGACTTCTTCTCCTTGCCATTCCACCCCATCATAAATTCTAAACATCATAAGCAGAACCATCATAAGTCAGGGTCC
ATCTGGAAGATGGATGGATGGATGGATGGATGGATGGATGGATGGAGAGAGAGAGAGACAGATAGGCAGACAGATAGCTAGACAGATGGACAGATAGAGA
TTTTTAGGAACTGGCGAATTGGCTCACACAATTATGGAAGCCCAGAAGTCCCAAGAAGTGTAGCCAGCAATCTGGAGATCCAGAAGGGCCCATGGTAGAA
ACCTCATCCAAAGGCAGAAGACAAGCATCCCAGGTTGAAGACAGTCAGGCAAAGAGAGAAAATTATTTCTTACTCAGACTTTTGTTTTATTCGGGCCTTC
AACAGATTAGATGAGATCCACCCCTACAGGGCAGGGCAATCAGTTTTACTCAGTCTACTGATTCAAAGGTTAGTCTCATGTAGAATCACCCTCACAGACA
CACACTCAGAAATAATGGTTAGTCAGATATCTGGGCACTGTGTGGCCCAGTCAAGTTGACACCTACAATTTTTTTTTTGCCTTCTTTTTATTTTTGGTGT
TGTCATCCTGTGTCCAAGGCACATATAGTCAATCATCACACCTTTCCCTTAGCCTGTACTAGGTTCTGTGCCAAGGATTTTAGAAAGTCATGTCTCATTC
AGTTCCCCTAACAGGTCTAGGAGTCATTATCYTCCCCAACCTAAGGAAACTGAGACCCAGAGRTTCAGAGTATCCCAAGATCCTACAGGAATTGCAGATT
GTAGCCAAAATTGGAACTCCTAATTCCAGAGCTCCTCCCTCCTGCTAGCATTTTTCTTTGAGTAGTTTTATTAATGAGAAAAGCTGTTGAGCACCAGAGC
AACCCCGCCTCTTCTAAATACCATCTGACATATACATTCAGCAGAGGAAAAATGATGTGAGGTCTGGGGCTTGCTTTAAAATACTTTGGGGCCAGACACA
GTGGCTCACACCTGTAAGCCCAGTGCTTTGGGAGTCTGAAGTGGTAGGATCACTAGAGGTCAGGAGTTCAAGACCAGCCTGGGTAACATAGTAACATAGG
GAGACCCTCATCTCTATAAAAAATTTACATGAAAAAAAATAAACAAAATACTTCTGCAACAGCAGCAGCAAGAGCTGCCGCAATGAAAGAAGAAAGAAAA
GGAGGGACAGGATGAAGGAAAGAAGCAGTRTTAACATTCTAGTAATATTTGCATCTGAATGATATTTATATGGGGTTATTGTCCTCCCTTTGTGTATGTT
TAAAATTTTCATAATAAGCATATTTATATATATATACACATAAAACATATATGTACATATTATCATAATGCCTACCTGCTCTTGAGAAAGTAGTGCCGTA
TGGCTGGGGGTTTCKCTCACTGGTTTCTATGGCTCTCCCCTCCCCCACTTTTTCTAAGAAGTGGTAGTACCTATCTGACTATTTTCTTGGCTGCCTGAAG
AGGCCTCAAAATTAGAGTAAACAAATTACCCATTACCAGGGAAGCCTCCTTCCTCCCAGCAGATTCCCAGCATCTTCTTTCACCTCTAGGAGATATTTTC
CAAGGTCACTAAATTAAGCCTTCAGACAATCGAAAAATTGAATCTCAGTACCTCTATTTTCCTAACAAAATTTCTGCAGCACCGATTGGGGCTGACAGGT
ACGGCCGTGCAGCTTTCTGGGCTGTTCAGGTCGATTTGGCCAAGCAGGACGGCATCAGCTTGTATTGGAGGGAACATCTGAGCAGCTCAGGGCCCCCTGG
GAGTCAGAGCGTTCCCTCCCTCCTTGCCACTGTAAATGACTATTTCTGTCGTTTGCAGAGTGTCCTTTTCTTTCTCCTACAGCCCCATCCTTACCCTCTA
TAGCCATCAGGTCAGGTGCGTCTTCTTCATTTATTTATCAAAAGGGCCATAGCAATCATTGCAAACATGTTTAGGAGGATTTGGAAACCATGTTCTTTTA
AAGGGCACTAATGATGCAGCAGTAATCACAGTGCTAGTGGAAGGGGAGGGCAGAATGTGATGTTTTGGGAGTGAATTCTGTAAGAGAAGAAGGGACTGCG
TTCCTAGCCCTCCAGAGCTTGCAGCTATCACAGCCTGGCTGGTGGAGGGGCTTGCAGAGCTGAGAACCACTCAGAATTTGGGGGCTGAAGACCCTGGCTG
TCTGAGCACCATCTCTGTGACTTTCGAGGTCATGTTTTCCCTCCAGCCCTCATTTCCCCCTTTATAAGCTGTGTCTTAGCTAGTGCTTTCAGCAAAGAAT
ATCTTTAGGCTCCTGGAGGATTGATATCCCCTGAAGTAGCCCCTGACCAGCCTCCAAGATGTATCCTAAAAGCTCCTATGGAAGTTTACATTTCACTCAA
AATATCTGTGTTCATGTAAATGTAAAAATGATGTCTTAAGATGCTTAGCAGTGAATAAAATGGGTGCTCTAGGGAGATGCAGTGAGTTTATCCTGTGGCT
TTGAGTATACACTGGTACCCTACGTGGGAGACCCCGGTGCCCATGCCCGGGTGCACAAAGCCAGCATCAGTGACCTGCACACCAGGAGGCAGGCTGCATG
ATGATTGGGTGCAAGTCCTTAGGTGGGTCACTCAGTCTTTCTTTTCTTGAGTTTTTTCATCTGTGAAAGAGTGATCATAATACTATTTCCATTGAGAAGA
AGAAATAATTTATGTAAAGCACAAAGCATAATCCCTGGTATTCAATAAGTACTCAGTAAATACTAGTGAAAATAATGATTATAACTATGACCTCCAGAAG
CTTTTRCTGAGCATCTATCTGTAGCACTGCATGTCAAGCCAAGCTAGAGTACAGTCTCTTAGGAGACAYAGGGGAGGAAAACATCCTTGGCAGGTTCGCA
TATTGGTGATCTCGTCGTAATTTTCTCAAATACCCTTCCTCTTTCCTCACTTTTGGTGATAACTACCTGTGTTGCTCTTGTCACTTTTGCCTGGATCCAC
TAACTCACCACCTAGGTATCTGCAACAGTTATCCATTGCTGCCTAACAAATTACCCCAAAATGTAAGCACTTAGAATCTCATTGTCTTTGTGGGTCAGGA
ATTAGGGAGTGGCTTAGCTGGGTGATTCTAGCTCAGGGTCTTTTCTGAAGTTGCCAGCAAGCTGTTGGCTGGGGCTGCAGTCTCAGAATCCTTGACTGAA
GGGGAGGTTTCGTGTCCAAGGGGCTCACTGATGTGGCTTTTAGCAGGAGGCCTCAGTTCTTCACCATGGGGGCCTCTCTGTACAGCTTCAGGAGCAGCCT
CACAATATGTCATCTGGTCTCCCACAGAGTGATGATCTCAGAGAGAGTGTGAGGAAGATGTGGCATGGCCTTTTAAGCCCCATTCTTAGACATCATGCAC
TGTCAAGCACCGTAACTTTAGCTACATTCTATTGATTAGAAGAATACTAGTAAAGACCATAGTTAGGAGAGGGGAACCTGGCTCCACCATTGSAAGGGAG
GTCTATCAAAGAACTTGTGGGCATATTCTAAGACCACCACACTCTGCCACTCCACACACCCTGACTCTCCTAACACCTGCTCGCTTCACTGGTTCGGCTA
TTGGCAGTGGCATGGAGTGTGGGAAAATGCGTCCCTCTCTCCTTCCTGGATTAGAAAAGTCATCATCCTGCTAGTGTGAATCCATGTCCTGTGGTGGCCC
TCTCAGGAGGGATTGTGATTAAAGAATGGACAACCCAAGGGAATCATGTGTCATGGTGGAGCATACAGGCCAGCAGGTGAGTTGGGGAGGCGCCTTTACA
GAGGAAACCTTGAGCTTCTTCTGTGATATTCATTACAGAACTTCCCCCAAAGACAGATGACATCCATTTATAATTATTTCACCAGTGACTTTTGAGCTCA
TGCAGTTCTATTTATTTTTCTCTCTGAAAGTAAGAAACTTTCTTTAAAGGATTTCTGCCATTTGGACAATGTGCTATGTCCCCATTGGTGTTAATCAGTT
GGTGGGATATAGAAAAGCAAAGTGGCCAGGCTCAGCCTTTTCTCTCGATCTTTTTTTTTTTTTTTTTCCTTTCTTAAGAAAGGGTCTTGCTCTTTTGCCC
AGGCTGCAGTGCAGTGGTACAATCAGAGATCMCTGCAGCCTCCAACTCCTAGGCTCAAGCGATCCTCCAGCCTCTGCCTGCCAAGTATCTGGGACTACAA
GCATGCACTCCTGTGCTTGGTTAATTTTGACTATTTTTTTGTAGAGATGGGGCTTGCTTGCTTTTTTCTCCAGTCTGGTCTTGAACTCCTGGCTTCAAGC
AGTCCTCTCACCTCATTCTCTCAAAGCACTGGGATGACAAGCTCTTTCTTTATACCAGTCCTCAACTTGCACTCTTTCCTGCATACAGCTTGTTTCTCTA
ATGTGGCTGTTCTCATGTTTACTTAATGGCCCAGCCATCTCCTCCTCCTCCTCCTCCTCCTYCTCCTGCTTTCTATTCTCCTTCCTCATCATTGTCCTCT
TCTGCGAGTTCAGAAAATTGGGTTACAATACCTACAACGTGCAGTGAGGACACTCTTTTATCATAACCCCAGTAGGCTTATGGTGCTTGTATCTGATTTT
TCATAGTCTTTCGCTTGTTAATTTACTGCACATATGTTCCTTTCTCTTGTGCATTACTGATGTGTTTAAGAATCTTGAATATCTATATGGTGCTTAGAGA
TTTCACAGCAGTTGATTGAATGCTGTTACCTCAGCATCCTCTGTGAAACTGGGTATGACTACACCCATTTTGCTGATGAGGAAACTGAGGCATAAGAGGA
TCCGATAAATTACCCAGAGTCACACAGCTCACAAGCAAGTGCAGGCTTCCAGCCAAGGTTTGCTGGCTCATGCGTTTCATGCCTTCTCTATGGTACCATA
CAGGCACTTTGTCTCCCAGTGGAATATAAGTTCTTTGAGGCCAAGGACTGTGTCTTAYTCTGTGTTGCATCCCTTTGGCTTCAGCCTCATTGTCTTGAGT
TTATTAAGCATTTGGAACATTTCAGCTGAATGASTGAATGAGTGAATGAGTGAAGCCATCAGTCAAATCAGAACACTGCTCACACATGCATCCCAAGTCC
AGCTGTCGAACGTCTGGAACTGAGCAGTATGGAGCCTGTTAAGACCAGTGATGCTGTGGCCTGAATAACAACAGGATAGGAACATTCCCTTCTTCTCATA
AATCTTGTAAATTTGCATTGTTTGTGCYGAACAGGGCCCGTGTGTTCTGATAGCAAACATGGAGAGGCCCAAAAGGCTGATCTGGGACCATGTCCCCATT
GAACACTGCTCTGTGCTGAGTCTGCAGAATATTTAAATAAGGGGTTAATTTATAAAGTGAGCTACGGGAAAGTTTCCAGGATTGTCRTGCGTGTGTCTCA
TAAATCGGCACAAATTGAATCTAGGTTTCTAGGTTTCTGTGCCCCTCAGCTCCTAAGTAAACCAAAATTTATTGAGAGGTGTATAGGTTGCCATCCAAAG
AAACATAGTAAGTGAGAAAAGTGTATCCTCAGGAGGTCTGTAAACAAGGTCTGAAGGCTGGCAGAAAGGACCAGGGTCTGCAATGTAGAATCCCCATTGC
CGATGATCAGAAAGTACAGCGTAGTTTGTTGCAGATGAAGACAGGGTTCCAGGAATTCTTGATCTTTCTTGAACATTCCACTGACTTCTTAACAGAATAA
AGATTTTGTATATTGCAGAGATAATTTATAGATACAGGTACAAAGGGGATACAGACAAAGAGAAAGGCTAACTTCAGGATGTTGCGTATGTCAAATCATT
ACATTAGTTTACCCAGAACCAAAAAAATTATGCAATATATAAATATGAAGCTTTAGTTTTTCATGATTGTTCGTAATGACATTATTATGATAATGACTGT
TTGTAATAATCATGCGTACCACCTTAGTCTGAGCAATCATATTAGCAGTTCGTAATTATTGAAGGGCTGTCAGGAACCAGACACTGTGCTGAGTGTTCTA
CAAACTGTATTTCCAGTCTTCTTTTTTGTTCAATTTCCACTCAAATTTTTAAAGGGGTTTGGAGGGCGTTAGTGTGCCCATTTTACAGAGGTGGAGGAGG
AAGCTCCAAAAATGAAGCCCAAGGATCTTAAGGTAATATATGGGCTTGAATCCAGTGTATCTTGCTCCGAMAGCCTTGCTTTTGTCATTATCCAACATTA
GCTGTCTTTATTATAGTGGCCTTCTTACCACCTACAAAACAAGTGCCAGCATTCTAGTAAAATTTATTCACCTTCCGAGATTATTTACTATTTTAGTCTG
TAGCTTTTATCCCTTTAACTACACCATTCAAAGCGTTGTGCAAAATATTCTAGTAGTAAATAGAGGCTTTAAATCCACACGTTGATAATGGTCAAATCCT
CTTAAAGGGGCCAGCAACAAAAATGACTTTAAAGGGGAAATATTCCTTCAATGTTACAAGCGCCCATGAGCATGTTAGTAGAGCAGTTGTGTGTTGAAGA
AAGAGAAGGTGGAGTGATACTGAATACCCCGTAAAATCACACAATCAGCACTTAAGAATGTTCACACAGTTGTTCACAAACATATTGATATCAGACCTTA
TAGCAGTCCTATTGGCTAGATCAGTTATTATGAATGTGTTTTATAGAGTAGGAAACAGAGATGCGACGTGACTTGCCTAAGAACACACAGCAGTTCTGAA
ACTCACCCTGTGCTAATCTGACCTCGTGAAGAAATTGAGCAAACTAGGCTCCAGGGAGAAACGAAAACAAYAACAACAAAAAATGTATTGCCAAAAAATT
GCTAGCAGACATCTAGAAAAATGTCTTCAACTTCTTTTGGTAGGAAAAGAGGAAAAATTCAAATCTGAATTYAACATATTTATTTTTTTGTTTCTGACTT
TTTACGTAAACAGAGCTCTGAGTTGTATCCTCAGATATATTTGAGACTAACAACAAGGAAATATAAAATTATGTTACTACCTAAGCTGCCACTTCTTCAA
AGCCTCGTTATTCTTGTTCCCTTCAATGTATTTCAACTCCAAAATACATAGTGACATGAAAATTGTGTATTCACATTGTTCTATTGATTTCGTTGAGAAA
GTGACCTTGTATGCACACATGAGAATTTAGAGATCTATATATACYGCCTGGCCTCTTCTTTGTAAGGGTATAACAGCAGTGGTTAACATGCATTTTTTTT
TTTTAACAGTTAGATTTACTCTTCCTTTGCACAGACTAATAGCACACTGAGGTAGGATCCAGGGACGGCTCCTTGGCAAGTTGTACTGCTGTGGCCTRGG
GAGGGACAACTGGCAGGGCCACACAAGGAGGTAAAACCTTATGCTCCATTTGCAAAGCYAGTGGCCCCAGCAGAGATAGGAGGCCCTCTCTGTGATTTCG
GCAGTGGTTTCCCTGGGATTGAGGTCTCCTGAAACTTATTCCCGCAAGGACATACTACTGTGGACCCACCTGAAGGGTGGCATCCACTCTTCTAGTAGGA
TCTCACATTGGTATTTTCASACACTTCTGCCCCTTGCCATGTTTAGTAAGTCATCTATGTTGTTTGGGAGGAAAGAGAATGAGCATTCCTCAGTTCCTGC
ACTGCACCAGGCCTTGCCAATACAGTACCTCATTTAATTMTTGCTACCATCCTTGAGGTGGCTGGCATTAGGCCATTTGCGGGGTGTAGAAAATGACATG
CAGAAATACTGTAGCAGCTCACTTAATATCAGGCAGATGGTAAGTGGCAGAGATGAGGCTGGACCCCAGGATTTCTGACCTAATTTCTGATCTCTTTAAT
TATTCTATACACCAAAAGCCCCTGTGGTTTGGATTCCTAATCACGGGACTGAGATGAAACAGAATCTCTTAGCATAGGGGGCCAAGCAGTAGATGGGCTT
TTGCGAAGAAGTTTTTTCTTTTTTCAGAGTCAGAGGTTGGCAGCAAAATATGAGAGATGGAAGGTCAAGTGCAGCAGAAGAGAGAAACAGGGAGAGTGGA
GGTTGTTCTCTAGAACATAGAAGCCGCTTCTTCATCCCACACAATGGAAACCAGAGCCCAGATTATATTAACGAGAAGTTCCAGAATTGCAGATGGCCCT
TTGCTGCTTAGGGAGGGGGGAGAAGAAGAAGGAGAAAAAGAAGAAAAAGAAAAAGAGCAGGTGGAAACTTAAAAAAATGTTTAGCTGCATGTAGATGGCT
TTTATTATAACTGCTAGGCTGAACCAGAAGACTTGAGCTATGTAAAAATGTCACTTGCTCTTATCACGGTTCATAGAGATTACCTTTCAACGCGAGTTTC
ATTTTCATTTCTTCCAACACTTAGAGAAGTGAACGAGGCAGTGACTCCTTTATTCCCTAACCCTCACCCAGCAACTTGCTTTTTCCTCTGTGTTTTGTGT
CATTCTGTGTGATATTGCATCAAGGCAATTCACGGCAGTGGTTGAACCAAAAGCAATTTAAGTCAAAAATGGACAAATATGGATGTCACTTATAAGGCTT
GTTCAAAGGCCTTTGACATCACTCAAAGCCTGAACACTTCTCAGGAGTGGGATACTTTTTTTTATTATTATTTTTTATTTTCTAGCAGTGCAAGATTGAA
GATTTAATACAGACCTCTTAGGCGTCTGCGTGGTTCTTACCTAGAAACTGTTTATTGGTGAACCAAATATTTTGTATCTTATACCAAGAAAGAGGGGCTG
ACAAAGATTGAGTGATTAGAAATYCAAGTGAATTTCTATTTATTATTTTGACTTGGTAATTTGTAATAACAATAGCCACCATCTATCTATACTTCCTAGA
TTTGGGCATGGTGTTAGGAGTCTTATATTTATTATTTTACTTAATTTTCATAGTCATCCTGTGTAGAAATATCAATAAATATAAAGGTAAGTATTATTGT
CCCCATTTTACAGATGAGAAAATGGAGTCCCAGGGACCTACCTGCTCAAGGGCASAGAAAGCTTGAATGAGTAAATTTACTTTGTGTTGTTCCAAAGGTT
TCTCCAAAGGTCTTTGCACCTCCCAAGGCTATTCTCATTTTGAGAAAGACTGGCACAGTTAGAGGCCAGGAACCCATCTTGGCTGTGTGCCTTCTGCTTT
GTCTCTGGGGTTGTGGGGAAGGCTGGTAGCTTGAGAGCCTCCTCCTTCAACTCTGTCAGGCTGCATGCACATTGGAAGGTAGCTTTTCAGGTTGTGGTGG
GTGGTGGTGAAGCAGAGGGATGCAAAGCAGGGTACGTGGAGGGCTGTGCCTTGGTCATTCCCAGGAAGCAAAGCGAGCGTCAAAAAAAGACAGGGTAGTT
GGGCCATGGCGTTGCAGAGTGACAGTGAACCAGGAACCAGAAGAGCTGACTTCAGAGGAGGCTTTAGGCGCTCCTGCATGTTGATTCTTAGAGAACTAAA
GACACAGTTGCATCTTAAAATGTTGAGACTTACACGTATACACAATAAGAATATTTTCTTTGGCTGCAAATGTACTATAAAAGAGTGAAAAAGCCAATCC
CAAAAGATTACATTGGTAGGATTCCATTTACATAATGTTCTTGAAATTAGAAAATTATAAAAATAGAAAACAGATGGCTGGGCACGGTGGCTCACTCCTG
TAATCCCAGCACTTTGGGAGGCCAAGGCAGATGGGTCACCTGAGGTCTGGAGTTCCAGACCAGCCTGACCAATATWGTGAAACCCCATCTCTACTAAAAA
TACAAAAAGTTAGCCGGGCGTGGTAGCACACACCTGTAATCCCAGCAACTCGGGAGGCTGAGACAGGAGAATTGCTTGAACCCGGGAGTCAGAGGTTGCA
GTGAGCCCAGATCGTGCCCCTGTACTCCAGCCTGGGCAACAGAGTGGTACTCCATCTCAAAAGAGAAGAAAAGAGAAGAAAAGGAAAGACAACAGATAAG
TGATTGCCAGGGACTGGAGAGGAGTGGGGGGTGAGTGGGAACCAGAGTGGATWTAAAACAGCAACTGGAGGATCCTGRTATAGATGGAAATGTTCTGCAT
CTTGACTGTCTCAATGTCAATTTCCTGGTTGTGAAATCGTACTAGAGTTTTGTGAGATATCACCTATGGGGGAAACTGGATCAAGGGTGCATGAGATTGC
TGTATTATTTCTTGACTGCATGTGAATCTACACTTATCTCAAAAATAAAAACTTTCATTAAAATCAAATAACTGCTTAATATTTTGGGGGAAAAATTCAA
CAAGTAAATTCAAATCACCCACGAGCCCACCACCCAGAGAGAGTCACCTGCTCTATTTTGATATATTTTCTCTTCCTCCCTTCCAGTCTCTCTCTTCTGT
TCCTAGATATAAAATGGAGAGGTTTTAAAATGTAATTACATCTAACTATCCCCTGGCTTGGTAATATCCAACCTTTTCATGTCCTCAGAGAGGTCCAAAG
GCTTTGCTGAAACTTGTTGGTTTGGCATTGATTTTGACAAAAGACAGCAACAAGATCCCCTTTCTAGGAACCCATGTGGATTACTATGGATTCAGAATGG
ATGCATTTTATGTACAGGGCTGTGACTTTTTCTTTCCCCTTCCTCATGCTAATAGGTGTTAATACTTTGCAATAAATATTACTTATGTCTATGAAATGAA
CTGCATCCCAGCCTGTCAGCACATATTTATTTTCTCATTTTAGTTTCTCCAGGTTCTCACTGTTATGGAGGGTGGGGAGGGGGTAGAATAAGGTTAGGCT
GGAGGGCATATCTGATTTGGAAAATACATCCCTGGTGATGTTCCTACCAAGTCACAGGCTTGGTTGGTGATGCTAAATTGGGACTGAGGAATGGGTTAGG
AGAAGGCTTGAAGAACCCACCTCCTAAAACCGTCTCATCATCGTCTAGAGATATTTCTCCAAGTGCTTTTGTTTCCAGTGACCTCCCAACCCCAGGAACT
AGCGAAGCCTTCAGGCAGGTAAGCGCACAAATCCTGCATTTTCTAGTTAACCATATATTATTAGCTAGTGACTTGAGCAAGTTGCTTCATTTTCCTGATC
CTCCATTCCCTTTTCTGAGCCACAGTTTCTTCGTCTTTGAGTAGAGTTAACAAATTACTGGGTGTTTGAAAGATCAAATGAGTTAGCACATGAGAACATG
CTTTGCACAAACAAAGTTGTATGCAAAATAAGTTATCATTATGGCATGGGAGAAACTGTTTGTGGACATTGCCTCCCAGTTGACCCTCAGTGTGTACTTG
TGGAATAATTTTTTAATATAAAATAATTACCATCACTAATCCTAACTGTGCACATTCTTGACTCTGTGACACTGAGCAAAATCCTGAACCTCTCTRTGCC
TTGATTTCTTTCACGTCTTGTTCTAGTTTTGAAGAGCGATTCTTGTGTGAATTCAGGGAGAGGAGGCATGAGGCATGGTAAGGCCACCGTACGTCTGTGG
TTGACAAATTCAGTAGGCCCACAGTCAATGCAAAAGTCCTCTTGCCTCTGCAGCACAGTTACAATGAAGAGGAGCGATGGCATGGCATGATCCCACTACT
TAGGGAGGCTAATTATGTAGTGTCTACAGAGCCAGTGGTTTATTTTGCATTGTTTATGTCAGCATTAAGCAGTATTCTTACACAGTTTGTAAGTCTTAAA
ACTCAGTATCKACTCTAGTAGTTGCTCCAAATGTGATGTCSTCATAAATCACCGAGGGATCTTGTTAAATTTGGAYTCTGATTCAGTAGGTCTAGGTGGG
GCCCGAGCTTCTTTGTTTCCTTTTCTTATTTAATTTTTGTGGGTACCTAGTAGGTGTGTATGTACATATATATGTATATATATATGTGGTTTTTTCAAAA
AAATTGTGGGCACTTAGTAGGTATATATTTTTGTGGTCTGTGTTTCTTATAAATTGGTGATCCCCCAGGGGATGCCTGCCTTGTTGGTCCAGGTAACACA
CTTGGAGTAGCAAACATCTAGACGTAGTTCTCAATAGTAGGACTATTGCCAGTGGAGGGGGCATTTTGGAAATTTGGAAAGGCATTTTGGTGGCCTTTGG
CACTTAGCAGGTGGGGTCCACGGGTCCATCCTGTGATGCCATAGGCAGTCCAATATAASAAAGAACTGCCCTCGTCCCGGTAACATACACCTGTGCCCCC
AGACATTCATTTCGGTAAAAAACTTGTTTCCATTGATCTGACCCCAGAATTCCCTGTGCTTATACAGATACACAACGTGCACTGGGTCTTCCAGAAATGC
AGGGGCCTTCTAMATCAAGGGAAGATTGTGTGGTGTTTTGTTCCAGTCTTTTACCAAGGTCTCAATACCATCTTGAAACATCATGCAGCACTGCTCATAA
TATTTGAGTCACCATAATGTGATCTGTCTACATATGTAGCTGTTTGTATTCATGGTGATTAAATAGTTGGGTGCTAGACATGCCCTTAGCGAGCAGCTCA
TGAGAGCAGATTTTGCCWGTTTCTTCCAAAATCTGGATTCAGTGACATCGTGTTGGTAGCTTGAAACTGACCGTGGTGAGAATATTTACACCATGGAAAK
TGGCAAATGCTACTAATAAGGATGATTGTTTTAGTTTTCATTTTGTAATTTTCAGAGTTGGTTTACCAATATGATGTCTGTATTAAAATATATGTAATGC
TGCTTTCAAAATGTTAAGTATTATGAGAATACATTAACAAAACTCTGGYGAATTTTTTGTCTTATGTTTCTTGAATCCAAACCTATAAGTAGGTGCAAAC
ATTAGACGATTTCATTTTGGGCTTCTGATACACTCCTGTCCGAGAAGTTACCTTTGAAAATGTGTACTATTTTATTGTCAATTATGTTTTCTTTAAAAAA
AATTTATGACAKATTACTTTTGCTAATTATGTGTGTGGGTAGATTATGTTATTCATGAATTTTATTTCAGGACCTTGGTAAGGGGTTAYACAATATTTCT
TTTGAAACGAGGGTCTCGATTATTGGGCTTGAGTATCCTGATCTAATTAATGCACTGGRCAGAGCTGGCAGACGTGTGGGACACCCAGCTATTCTCTGGA
AGGGAAGGGGGATATAAGAGACACACTATAAAGGTGAATGGTAATCGGCATCTCCCCTTCAAGGGGACCAGGAGGATCTGAGCTGACTGGGTGCCTTTGT
GGAAGTGTGTTTTGAACTGAGATTAGAGAGATCAGCAATGTATCTCTTAAAGTAATCCAGGAGGAGTTCATTTTCAACCGATTCAGCAGTGGAACACTTG
AAGAGGAGGAAGTCAAAATTCAAAATGGGTTGGGTGCAGTGGCTCTCTCCTGTAATCTCAGCSCTTTTAGAAGCTGAGGCAGGAGGATTGCTTGAGGCCA
AGAATTTGAGACCAGTCTGGGCAACATAGGCAGACCCCATCTCTAAAAAAAAAAAAAAAAAAATTAAATTAGCTGGGCTTGGTGGTGCAYACCTGTAGGC
TGAGCTGCTCGGGAGGCCAAGATGGGAGAATTGCTTGAGGCTGGATGTGTGTGGCTATGGTGAGCTAGGATCACGCTACTTTACTTCAACCTGGGTGAAA
AAGTGACACCCTGTTTCAAAAAAGAAAAAGAAAACAAAAAGTTGGAAATGAGTGGGAAAGGATCTAAGATGATTGGAAACAGTGTACATAGAATACAAGA
GGAGTTGGGCATGCTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCAAGGYGGATGGATTGCTGGAGCTCAGGAGTTTGAGAACATCCAGGGAAAC
ATAGTGTGACCCCATTTCTACAAGAAGTAAAAAAAATCAWCTCACACCTGTAGCCGCAGCTACTCAGGAGGCTGAGGCAGTAGATTCATTTGAGCCCAGG
AGGCGGAGGTTGCAGTCAACCAAGATYACGCCACTGCACACCAGCCGGGGGTGACAGAGTGAGACCCTATCTCAAATAAAAATAAAAATAGAATACAAGG
GGGGATAAAGATAGACTTAAAATACGCTCTCTAGAAAAAAGTAAGAAATATGGAAAKAAATCTAATTTAGAAAAATGCACGCACCCACAGRCACGCTTCA
CAGGACTGGCAGGTGGAGAGGATGTTTGTTAACAGGGCTGGCTATTTTACTTTAAGTGCTGCAAACATTGCACTAATGTTTGGGTCTTTGCTTTTGGCAA
TCACTTCTCTTGTTAATTTTTTTTTGGCACCATAGAAATGTTTCCATAAATAGTGCATTCAATGGAGTGTGTTACTTTATTACTGTCAGCCACTGTCCTA
GGAGAGGAAAATTCAATAAACACAAAAGCAAAGATTAGAACGTTGAAAGCTTCCAATTCCAGATCCTTCATGAGCTTGTACCTCTAAAGAATGCGATTTT
TCTATTTCTCCACCTGCAAAATTCTTACTTTTTGGGCTGGTAAAGCCACCTAGGTCAGTGCCATGTCCAACCCAATCTGGAAAACGATTATTGTGGTGCC
TGTTTTGTTGACTTAACAAAGCCARTCGCCCATTCCTATGCTGCTAAGATGCGAATGCCCAGCTCAGGGGATGAGATTACTGTCAGCTTTGCCTAAGCTT
TGGGCATTAGCACCCTCCATATGCAACAAACCCACAAATGAAATGTTTTGACTCTTTGACACAGAATGGTTGGAAATCACTTCCTTGGCCAGAGCAGGGG
TCCGGTGTAAAGGAGGAAATAAAAATAAAAAAGCATAAATGAATGAGGAAGTGAGCAAATCACACTCATCGAGGAGCAAAATAATTCATTCCCTCTCCGT
GGCTCAGCATGGATGCAAATAATGTATCATTAAGTAAGTCCCCAAAACAAAGACAGCCAGCATAACTGTTGCATCAAATATTTAGCCAGAGCCAAAAGCA
ATTTATTATGTTTTTTAAAATAAGTTTGATTTACTAACCTTCAGCACAATCCCTATTTTTAGAGGTTGGCTCATATTTTTAATTTGTTTTCTCTGAAGCG
CTGCATCCTTGGTAGCGTTTCAGCTGTCCACTCGGTTCCTAATGGCAGAGCAACACCGAAAAGCGTAATTACATTTCCTAATTATGTGTAATTAGGCAAA
ACCCAGATGATGTATTCAACATGCTCTGAGAATAGCCAGGGGTTAAAGACTGCTGGAATTTGGTAACATTTTTATAAATAAGCTGGTGCGTTATTTAACG
TGGAGGTCTAAGGTGACGCTGGGTGCCTTGTAGACCGATACTGTGGTTGAAATCTATCGTATTTGTTTATTTAGCCAAGTAAAACTGTAAGTGATTCCCC
ACCTCCATACCTTCCCCTCTTTTGGAAACCAGAGTTTAGTTGTGCTATTCTTAGCCCAAGAGAGGCCCTCTAAACCCAGAACCATAAAGTTCTGCTTACT
GACAGCCTAAGTGATATTTATTTTTTCAAAGCTTAATCCTTTTGAAACATGGAGAAATAAATACATCCTCTTATCTACCATATGCCTGGGATGGGAAATA
AATTCTTATTTTCCTGCCGTGTGGTACCAGTGGGTTACGATGAATAATTTGGGCAGTCTCACTGAAGATAATAGGGAAGCCTTCTCTATTACCAGTGATA
ATTATGAATCTCATAATGGAAAACATCCCGAGCCCGAACATCAATCAGGGAAGATAAACAATGGGAAATGATAGGTGTACAAAAGGGAAAATGGCAACAG
CACATGTGGAGGGAAAGACCGCAGAATTCTGGCRGGGTTATAAATCATACAGTCAAATAATTTCCGTGCAATTAATATCCTCAAATTAAAACATACGTTT
TTAAAGAAAGATTTTGCAGACTTTTAAGCTGGGCAACTGTCTGCCTTACAAGATGCGTCTGGAAACCCCAGYGCCATCCTCCTTTTTTAGTCTTGTATAT
TTATGTATCCCCGGCCAGAGTTGGCTGGGGCACAGTCTAACAGTGTCACCGTGTAAGCTGACCCAGTGACCTTGCTCTAGCTCACCAGGGACTGAGCATA
CACCAAAGTGGCCAGAGCTAGTGGTTGCTGACTCTCAGGATCTTTGGCCCTGACAGAACAACAAAGACTGGCCTATTGAGGCAGGAAGTCTTAACTTCCT
TGGCCAGCCTGAAAGGCTGTCTCCAACCATGCGGACACAGCGCAGTGAAGCGGTTGGAAAAGCTACAGACAAATGGAAAACCTTCATTCCAAAGGGTCGT
TGTCTCCTCYTATTTAATAGCCCTGCATTCATGCACTTTTTTTTATCTTGCTGTCTTTTTTTTTTTTTTTAATCAAATACCAAAGTACTTCTATGGACTG
GTCTTAAAAAAAAAAAAGAATCCATTCATAACTGTGAAAAAATACTGCCTATTAGTCTGCTATTGTGGCTCAAAATGAAACTTAAGACTACATGGCTAAT
TTATTTACTGCATCATGGGTGAAGACCAACAAGGTTTCCAGCCTTTCCTCCTATCTGTCTGCATGTAGAAATTCACAGACCACGGCCATTCTGACATGAA
TATCAAATGAGAAGTTTTCCATTCCAAACCCTTTTTAGGAGCGGCCTGGAAACTGGAGTCAACTGTCAAATATGTCCTTATGGCCACAAAGTATGCTCAT
GGATTCTCTTTTACAGGCTTAGCATAATATTTTATAAAACATATTTTTAAAGAAAGTGTAATTTTCCCCCAAAAGCAAGGGTTTTCCAATGCCATATAAT
TTACTAAGTGTGGCTTTGCTGCGTAATAGTCCATAATTTATAGTCAGCCTCCACAAGGCAAAAAATAACTCCAAGCTATGATTAAGTAAGTAATGGACAA
GGTAACTAATATTTCCGGAAGAATGGCCTTCCAGACACTCATTTTAAGTGACAAAATGGTTGAAGGTTGAGATATGTACTAATCCTGTACTAATTTAATG
GAATCAAGAAATGACATTATAAGCTGGCTTATGTGGGCACTTAAGACATGGAGCTGAGAGTGAATATGAGAGTGAATATTCTGCACGTCCATTTTAATGA
CCTTGTGCCTCATTTTCCCCATTTAAGGTAGATGGGTTTATGYCTAATTGTGCCACCAGTTTTTCCCATAAAATAATTCATTTGGAAGGGGTGGCCTAAT
CCAGTCTGAACCAATTCTAAGATGGTAGCRTGGATGCGGGAGGCACTGCACAGGATGGAAAGCATGGAGTTTGGAATCTGGCACAAGTGGATTTGAATTC
AGACTTAGTCATCAGGAGCTGTGGGACCTTGGGAAAGGTTGGTTGGTTGGTTTGTTCCAGTTTTTAAATTTTGAAATAAATGTTGGCTTACAGAAAAGCC
ATAAAAAATACTGCAAAGATTTCCCATGTACTCTTCACTCAGCTTCCCCTAATACTAACATGATACATTTTTCAGCACTGAGAAGTTAACCTTGTTATGA
TGCTATTAACTACACTCAGACTATAACTGACCAACAGACTTTATTTGGATTTGACGGTGTGTCCTCTTCCTTCTTTTACAACCAGATACCACCTGGCATT
TATTATCATATCTCTCCAGTCCCCTCTGGTCTGGGACAGTTTCTCATGCATTATTTTTTTTAATGGCCTTGAAATTTTTGAAGAGTTCCGGTCAGTTATT
TTGTAGAATGCCCGTAATTTGGGTTTGTCTGATGTGTTCTCTTGATTAGAATGACGTGGTGCATTTTTGGGAGGAATATACATAAGTGATGTGCCATTCT
TCGGCCATCAAGTCAGAGGATGTGTAATGTGAAAATATCTTATTACTAGTGATGTTAGCCTTGACCTCTCGGTTAACGTGGTATCTGCCAGATTTCTCCA
CTGTAAAGGATCATTTTTTTCCTTTGTAATTAATAAATATATTGGGGGAGGTACTTTGGGACTACTTCTCWAATTTTCATCCATTAATTTTAGCATCCCT
CTGGGGATCTTGCCTGCAATGATTAATACTGTGGTATTCTCATGACTGATATTGTCTTTCTGTCATGCCTTCTATTTTTTGGTGGGAATTCTTCTACATG
GAAGGCTGTTTCTTCTTCTCCATTTATATTGGTATGGATACGTGAATATTTAGTTTATTCTGTAGGTCATAATACGACAGTATTGTGATATATTTTGGTG
CTCAAATTGTTCCGGSTTTGGCCCATAGGAGGTCTTTCGGGCAGGTTCCTGCACCCTTTTGACATGCCCCGTTCTTTTTTGAGCACTTTCTTATTTTTTG
GCACTGTAAGAGGCTTTACACTGTCATCTTGGACTTCCCTGCCTCAGTCTTGGAATTAACTCATTCTCCATGGAGGCTTGGTTCGTTTTATTATAGAATC
ATATTTAGAACTAAGATCTAGGTGCTAGTTGCGCTCATTACTGCTGGAGTGTCATTGCTTCTAGAACTTCTCAACAGAGTTTAGAAATATGTGTATTATA
CAAACCCATGCACATACACCTATCTCCATTTATTCCTGTATCTCTGTGTATATTATAATTTTAGTATATTTATATTTCTTTCTGGACACATTCCATTATT
TGTTCATATATTTATAACATATCAGTATCTATTATAAATTATATATATGTACACTTTAATGTGTGTTTGTACCTAATTCCAATCCAACACAACAACTGGG
TTTTTTCAAACTTGTTTCTTTGTTTTTTTCTTTTTGTGGAGAGCAGGGTCTTGCTATGTTGCCCAGCTCAGTCTCAAAGTCCTGGGCTCAAGCGATTCTC
CCGCCTCAGCTTCCCTAAGTGTTGGGATTACAGACTTGAGCCACTGCATCTAGCCACAACTGAGTTCATTATTCTGAGCTTTCTTTGGGATGTTATTTAA
CTCTCAGTTTCTTCTTCTATAAGATGGAAATAATAACAACTAAAGGCTAGGATTTGGGGAAGGTATGGTAAATTGTAAAAATGGTAGCTTGTTTAAAAAA
AAAAAGAAGAAGAAAAAGGAAAACAGTATTTCCCTCACCGCATCAACACCTGTCCTGTATGACTGGCATTGCCCAGTGGAATCTTAGCAGCAGAGGCATG
ACAAGCGGTCAGATACTGGGACTTTCTGTTTCGTTGCTTACAACCCTGTGACCACTGCACGAACAACCCTGAGCTGACCTGCTGGAGCATGGTGGCCACA
TAAAGGGAGAGTGGTTGCCCCAGCTGATAGCCTGTCGGTGCCTGGCATATGAGTGAGGTCCCTCTAGAGTCATCTAGCTACTAGCCAAGCTACCACCTGA
CCCCAGACACACCAGAGAAAGAGCACAGCCCATTCGCGGACTCAGAAACTAAATATAAGAAAAATGGTCACTGTTGTTACTCACTGGGTTTTGCAGGGGT
TTAATATCCAGCAAATGCCAATGAATTAGAGTTGACATACGGAAAACAAGTAAGAGTAACTTTGTACACCGTGGGCTCCCAATCAGTGCTGCTTTTCGTT
GTTGATGTTGTTGTTAATGTTGAAAAAAATCTTCAAGTCATRTTTGCCCCCACAGACCTTCCCAGACAGTCTAACTAAATGCACTGTATTTGCTAACTGT
TGGAACTTGGCTTTTGGACTAGACCAGCACCTCGAGAAAGAACCACTGTTAAAATGTAAGGCTCTGAGTGTTTATCAGCTCACACCAAGGAAGAGAGAGC
TCAGGAGCGACTGGGCATGAGGTGGAGTGAGCACTGTGAATGCTGGGGAATGGAAAGTCCTTTATSTGGTGTTGCCTAAGGGTACGGGGAACCTGGCCTG
GTGTTGGGAGGAAACAGGGTGCAGAGTGGGAAGGGCAGGAGTATCTAAGTGGCCAAATTTAGCCTAATTAACAGATTTGCCTAGGGCTGACCCTGAAGCA
RAAAGCAAAGCCTAGATCAGTCTGCTCTCCTCCTACCAACAGGGTAATGATGAGGTTGAACCACCAGTTCTCAATGCCATACATGAGATTCCCAAAATAG
ACGGGAGTTACACAGAGACCTTTTTTTTTTTAACCTCCTCTGAGATTTTTTTTAACCTCCTCTGAGATTCTGTATTTCCTTAATGASCCGAAAAATCTAT
TTAGCCCAGTTTTTATCCTTGCAGATAAGTTAGTACGCTTCTTTTTCTGCTGGTTGTGATCATATTTCTATTTAGGGGTAAAGGTGCTGAAAATCATTTG
CTGCGATGACTCGCAAAGACATAGTTACCATGAGCAGCAGTAGGATGGGTGGCCACCAGACTGCCATGGGCATGATCACTGTTGACAATCTTGCCACAGC
TCCCCAGGGTCTACTTGGTGTCCCACGGAGGACAGTCTATACAGTAACTCAACATTAACTGTGTACCCCTCCTAGTTTGGCCACTGTTCTGCCCAAACAT
ACAAGAGTCAATGTAAGTCTCTGGGAGCACTCACCTTTGGGCRTGTTGCTACAGAGTCACTCATTCCTAGAAATTGCGAAGTCACGAAGTTGTCAAAAAA
CACAACGACAGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGGGGGATCACGAGGTCGGGAGATCGAGACTATCCT
GGCTAACACGGTGAAACCCCATCTCTATTAAAAATACAAAAAAAAATTAGCCAGGCCTGGTGGCGGGCGCCTGTAGTCCCAGCTACTGGGGAGGCTGAGG
CAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCGGAGATCGTGACACTGCACTCCGGCCTGGGTGACAGAGCCTGAATCCCTCTCAAAAA
AAAAAAAAAAARAAAGAAAACAACYACAACCACATTTTGAGATAGGCCTTCCTTGGCAAACTTTGATTTCGTTTCTGTATTTGAGGACAAAACACAGTAT
GGTTGTTTCCCTCCCTAGACTAGATTTCTAATCTTGATGCAGTGAGCAAAGGGCGAGGTTTATATTGTTCTTACCTGAGCCAAAGGACCCATAAAAAATA
GAGTGATAGGCTGGGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGTCAGATCACCTAAGGTTGGGAGTTCGCGACCA
GCCTGACCAACATGCAGAAACCCTGTCTCTACTTAAAATACAAAATTAGCCGGGTGTGATGGCACAGGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGC
AGGAGAATAGCTTGAACCTGGGAGATGGAGGTTGTGGTGAGCCGAGACAATGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAATTCCTTCTTAAAAA
AAAAAAATAGAGTGATAGAGTGAGAATTTGGCTTTTAGTCTACAGAAGTTTTCACTACCAGTTTCTGTGTGTGTGAGTGTGTGTGAGTGTGTGTGTGTAA
AATACCAAAGAGAAAACAATAAAAAAATAGAGAAAATAATAATAACTAGCCAATGTGTCATCACTCCAGACAACAGCCAYGGTCAGTATTTGGTTAACCC
ATTCAGATTTTCCCCTATGAATGAGTTTTTTCGCCTCCATAATATTAGTTATAATACATTGATACTACATCCCGAGTGTTTCACTTAACATTATAGCACA
AGTGTCTTCCCCTGTTGTAACATAGTGATTATTAATGTCAAATATCAGCTAGATAAAAGCTGTCAAGTGATAGAAAGTCCTTATAGCTCATAAACTCTTC
AATAACTGGGAATTTATACCGTTTATAGTTTTTTTACTGCTAAGAATAATGTTGCAATGAAACGTTTGTATATAATGCTGTTTAGTCCCCTCTCCCCCAT
TGTTTACGATTCCTTGGAGTTCCACTGCTACTTCATATTTACCATCACCATCCTTGTTCACCATTGTTGAAGCTTTATGTAATGACGAGCCTCATCCAGG
ACCTACTTGTGTCTCTGTGCCAGTCACTGCCTGTGAACCAGGGGTGTGTGGACTCAGGGCTCAATTCAAAAAAGAACCCAATCTTATTGGGACAAACAGA
TATTGATACCCCTGGTCTTTGAGCCCCACTGTCTTTTCACACTAATGAGTTCTTAGTGTCTATTTTTGGTGATTGAGTAGAACTTGGTGCCATATTGGCT
CAACATGGAAGATTTCTGTGATCACTTATTGATCAGTCATGAATAAGGAATCGGGATGGCAGTCGGGAGTGTGCCAACACCTCTCTCAGTATTCTGGGTC
TCTCTGCATGTAGTGTTTCTTTTGCAGCTCCTAGAGATAAATTTTTTAATGTATTACATGTGAGTTATTTGAAAGAGGGTAGGTGTGGACAGTGAGGCCA
GGTGACTTAATTTCCAGAAGCTTGCCTGTGGTATTTACCTTGATGAGTTCATTAACAATATGGCTTTCACCCTCAAACTTGCTCATTCAGAAATTAGACT
TTGTGAGCCCACTAAGAGTAGGTCTTTCTGTTAGGTACAGACTCTACAATAACCAAATTCACAGAAACTGATGTGTAAACCCAGGGTCATAAACAATAAT
TTTCAACMGGAGCTATAATTATCACATAGTTTGAAATGCTCTTGTTAATCTGAGTAGGAAGAGAGGATGAGAATTTTCTTATAGGTGGAACTACAGAAAA
AGAGTTTACTTATAGGCAGAAGTACGGGTACTGAGCCAAGTGACATTGTAAGTTATTTAATTGGCAAATGATTAAAGCAAAGGTCATTGCCTATATGACT
CAAATGCTTGGTTGCCTCAGAAGATAATGAGCCTGATACTTTCACAGTGAAGCTGTATTGCACGTTTGTGTTTGTTTATTTTCCATCTTTCCCACTAGAC
GGTGAGGGACTTTATCTGTCTCATTCACCACTTTGTCCAACCTAGGACAGTGTCCGACACATAGAGATGCTCAATAAATCTTGGCTGAGTCAATACGTTT
CAAAATACAAGGTGACTCCAAATATAAAACAATTTTTTATTTTCAAATGAAGTGGACCTCCCCTAAATTTTGTGCCCAGTTTATAAACTTTAGGGGCTGT
AGATGAACTGTTCAAAAGTTTTATTGTAGGATTTCACTTGCTAATGCATTTTCACAAGTAATGTATTTATTTTAAAAGACTGGAGTTTTTATATATCCTT
ACATTTATGAAATAATTTCATTTAAACCCTTCATGCCCATCTTCAGCATCATTGCTAAAGCCTCTTGGTTTCTGTACCTGTAATCTTCATTCATTCCTCA
GCTGTTTGAAACACAGCACTTTTGGGATCCTTGTATAATACTGGCCCCACAATCAAGAGTGACTTGAACTGGGACATGTTTGTATTTCTTCAAGATGACT
TTTCATTCTCTCATCTCATTCATTTTGAGGTCATTTTGTTGTTGAAATGTTAGAGTTCAACCTTAAATACTTAAGAGCATGGCACTGTSTAGAGAAAGGG
AGATGAGCTTCTGTGGTAGCCAGAGGTCAAGATGGCCTCTAGTGACCCTCACTTCCTGGGTTTTACATTGCAGTATATTTCTCTTCTACTCTGAACAGGA
TTGTCCTGTGTAACCTACAGGGGGAAGTGRTAGCGCATGACCTCTGAAGCTAGGTGACAAAATACATTTGGACTTCTGCTTTGCTTCTCTTGGATCACTC
CTTGTGGCAGAAGCTAGACACCATGTTGCGAGGATACTCAAACAGCACCATGGGGAGATCCGCATAGCAAGGAATCAGGCTTCCAACAGTCAGACCAGAT
TGCCAGCCAACATGAGCGAGCCTTGTTGGAAGCAGTTCCTCCAACCCCCTTTAAACTTTTGGATGACCACAGATGAAATGACCATCTTGACTTAGGAGAC
ACCCAAGTCAAATCAGCTAGCTAAGCTGCTCCTGAATTCTTGACCCAGAAAATCTATGTGAGGGAGTAAATATTTATTAATTTTTAAGATGCTTCATTTT
GGAGTAATTTGCTACACACCAATATTAATACAGAGCCCATATGCGCTGCCTACAGGATAAATAATGTAATAGCTTAATAACAATTAAAATGGAAGAAAAT
GTAGGAGTTCCTCAATGGTTCCACCTGTTTCTTGAGGTTAAAAATGTACACATTTGTGGGCAGAAACTTTTATACAGTAATAAATTCTTTGTTCCCTCTG
CATATAGCACTTTCTCAAAAAGTAGTTTGGTGACAGGCTTCTTTCTTCTCATCATTAAATGACATACTGGAGATCAGTCAGATGAACWGCAATTTATATC
TTGCCCCCACCCAGTGTTGATTTGCCCGRGGTCATACAGATAATTAGTAATGTCTTATCTCAGTTTTCTTATCTGCAAAATGAGAATACCTGATGGGGTT
AGTGTGGGAGTTTAATGTCTGTAAGGTGTTTAATTTGTTGCATAACAATATGTTGTACTATACGTTATAACAATATGTTAATATGTTGCCATGTATAGCC
ATGGCAAATGCATAGTAAATAGCAGGTATAATTATTATTATTTTTTTCTTTTTTGTTTTTTCTGAGACAGTCTTGATCTGTCATCCAGGCTGGAGTGCAG
TGGCGTGATCTCGGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCAATTCTTCTGCCTCAGCCTGCTGGGATTACAGGCGCATGCCACGAAGCCCGACT
GATTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCACGTTAACCAGGCTGGTATTGTTTTCATTATTGTGGTTATCATTATTTATTTAGTTATTGATCAT
CAAAATCCAGAAATCCAGTTTCAGCAAACATTCCATAACCCGGTGTGCTAAAACCCCCTCACTGCTCTCCATTACTCATGAATCTTCTTGACCATGAGGC
AGAATCTTTGTATTTTCTTCTCATCAAGGATTTTATCTGAAAAACCTGTAGTACTTCGCCTTTCCCTGGGTGGAGAAGAGGGGCGGATAAATACTTCTAA
AGTAATGTAGTATGCACTCTCCTGCGTGGTGGGGGTGTAGTGGGCTTCCTGTTATGAAACCCAGCTTGTAAGCATGTATCTACATCCCAGGGAGGTTTTC
ACTGAACCAAGAGATGCCATAAGCAGTCCTTGTTGTAATAATTTAATAGCGAAGCCCTCAGCAATAGATCTTCAGGTAAAATGGATGCTGACTGTCTRTC
TGTCATATGAAGATTCAGACATTGATGTAATTTAAAATACTTGTAGTATCATGGATACAAACATATGCCTTTTTATTTCTGAAGGAATTTCCAGAATGTT
CGATTAAAAAATGAACAGAGGAAATGAAAAATAAAATTGTCTGTTGTACCACCACCTGAAGATAACCACTACTATCATTTTGCTATATTTCTTTCTATAT
TTTTCTCAGCATTTACACGATTGTTTTTACATAGTAGTGACTTTGCCGAACAGTTATTTCATTTCGCATCTTGATATTTTTTCTCAATTAAAATAATAAT
TGTGAACATTGTTCTTTCTACTCTAACTACTCAGGTTGCTTATAATGAGCTTGTATTATAATAAAACTTCATTTTATTTTAGATAAAATGAAAAGATGTT
ACTATGCAGGTAACTTTATTTATTATTTGCATGCAGTTTATCAAATAGAATTCCTTGGTTCAGCAAAATGAMACCTTTAAGTCTTTTAGCACCAAATGTT
TGAAATTATCATGAAACACATTCTAATTTGGCAGTGAGTTCAGGAGATGAAGACTGTCCTTTAGTTAACATCAATAGCTTTCTAAAATATGTAGCCAGTT
AATATTTTACTTTTGCCTATGCATCCCTCAAATTGTAACACCCCTGGAACATAAAAATTCCTCTATTGAGATTAACACCTAACGATACCTGTATTTGCTA
ATTTGTTTCTTTTTTTTCTTTGAAGCAGCATGTTGCTTTGTCACCCAGACTGGAGTGCAGTGGCGCGATCTCAGCTGACTGCAACCTCCGCCTCCCGGGT
TCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGTTGGGATTACAGGCACATGCCACCACTCCCGGCTACTTTTTGTATTTTTAGTAAAGATGGGGTTTC
ACCACTTTTGGCCAGGCTGGTGTTGAACCCCCGACCTCAGGTGATCTGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTAGAGGCCTGAGCCACCGYGCCA
GCTCTATTTGCTGATTTTTGAACAGCAGCTTTTTTTTTTTTTTTTAACAAAACTTTAAAATGGGTTATGTGTTTTATTTTCTTAGTGAAGTAATGGCTTC
TCAAATTTACACTCCATTATTTTATTTAAAAAAATCAGTATGATTCATCATAAATAAGTCAGGACTATGATTGACAGTCTACCTAGAAAGATTAGGAAAG
TGGGGACCACCCCCCAATTATWACCTTTGTTYTTACAAGTGTGTTTAAATCTCTTTCTGTTAATTTACAATTTGAAAGGTGGGTGAGGAGAAGAGTTTGA
AAAATAGATTACTGTCTTCATTAATACAGGTTTGACCTACAAAGTCTTCACGTACTTAATGATTAAAAACCAAAGTACTAAATAATAAATTATAAGAATT
TATAGGAGTCATCTTCTTGAAATTAGCTTACTGAATGTTCTTATCATAATAAATCTGAGTGGGTGTCTAATTTAGTGTTAGCTGACTAAAATTGTATGTT
GCGGGGAGGAAAAAAAAACACTTTTGTTTGAAGACAAATGCAGTGAGTTTAATCACAGGTGATCTGAAAGGCACCACCTATCTTTTGCTATGTTCACTTT
GCAGAAACTTTGGCGAAACTGGCTGAATGAAGATCGATTCCAATTTGTAAATGTGGCAGACAATAAAATTTCCCCAAGCACTTTGATGATGTTTGTGTTA
ATACTTCCTGCTCAGAGCTGTAGCCCATCAGATTCTAGAGCTAACCAAAGAGGGAAGACAACCTGTCTTCTCCCAGTTTCCAGCCTGTATAGACTTAATC
ATTTTCAAGGTTTAAGGTTGTTTTTGTTTATTGGTTGGGGTGGAGAGAGACGCACCACCTCTCCTAACTTCTGTGTTTGCTTCCCTCATGCTGTGTGGAT
CAGAAAAGATAGCCTGTTCATTCATCACTTATTTCCTGACTTCCACCTTGGGTCTGTCAGATTCTGTGTGAAGCCCAGGGGATCCAGGGAAAATTGAGGC
CCAGTCCTTACTCTCATGTAACTCGAAGTCTTTTACAGAAGACAGACTTGGGAACAAATCAATCAAAATGAGTTTTGTACGGAAAAAGTCGGTGCACGCA
CAAGGTACCCAAGAAGGAGGTGACTAACTTTATCTAACTTTACTTGCAGGGCAAGGCAAATAATTAGGGAAAGTTTCCTTCAGACAGGGGAAGACAAATA
TGAGTATCCAGGGAGGATGTTTCTGGCAGAGGGATCAGCATAGGAAAGGAGTTCAGGGATGAAAAGAGTCAGTCTGGTCCCTAGAAATAATTTTTTTGGT
GCATAAAGGGCCAGAACAGAATGACAGAGGAAAATGATAAGGATTTAGGCAGGGACTGCGTTGGAAAGGGCCTTGCAACAGGCCTGGACGTTGTTTGTAG
GCAAGTAGGGGCACCGAAAGCTTTAAAGCAGGGAGTAACAGGCTTGTAGTGACTTTTATCGAAGTAGAAGTTGAATAGATCTAGCCTGGCACAGTGGCYC
ACGCCTGTAATCGCAGCACTTTGGTTGGCTGAGGCGGGTGGATAGCTTGAGGTCAAGAGTTCGAGACCAGCCTGGCCAACATCACAAAACCTCATTTCTG
CTAAAAATACAAAAATCAGCTGGTTGTGGTGGTACACYCCTGTAATAGCAGCTACTCAGGAGTCTGAGGCAGGAGAATCYCTTGARCCCAGGAGGCAGAG
ATTGCAGTGAGCCCAGATCATGCCACTGCACTCCAGCGTGGGTGACAGAGCAAGACTCTGTCTCAGAAAGAGGAAAGAAATGGAATAGATCTCTTTCAGT
ACAATGGGAAGGGGCATATAATTCAGTACTTTAAAAAAATGTACTATCTTATGAAATAGAAATATACATGTACATAGATTTAACACACATATTCACGAAC
ATACACATTTACATATACAGTCATCATTGCTTAGAGAGGAGGTTGTGTTCTGAGAAATGCTTCGTTAGGCCATTTTGTCATTGTGCCACCATCATAGAGT
ATACCTATACAATCCTAGATGGTATAACCTGCCATACTCCTAGGCTAGGTAGAGCATATTGCTCCCTGGCAGCAAACATGTACAGCATGTTTCTGTCCTG
AATACTGTAGGCAATTTTAATACAATGCTAAGTATTTGCATWTACAAACATAGAAAAGGTACAGTTAAAATATGGTATTACAATCTTCTGGGATCACCAT
TGCATATGTGGTTCATTGTTGATCAAAATGTCATTATGCAGTGTGTGACAGTGCTTAAATAATTTATCTCACATATGCAAAGAGTTTTGGCTAAGGGAAA
AGAAAAATGTGAACCTCCTAATAGAAAAATGGGCAAAGATAATGAACAAGAAATTCACTGAAAAGAATTGGCAAACATGAAAAAATTCTCAACTTTATTT
TTAATCATAAAAATGGAAATTGAACAATGAGATACTGTTTTTCACCATGACATTGGCAAAAGTTAAGAAGGCAGATAACTTCCATGTTGGTGAGCATGTA
AGTATAAAAAGGTATAAAAAAGAAGAGTTGTCCTGAATCTGGTCTGGAATAGAACCTTTTTTTCCATGATGCATGATGTAATTCACAGCCTCATTCCTGA
TAAATTGCTTAAGCAATTTTCTGATAAACTTTAATGCGATTAAGACTTGTTCTGAGAAATCAGTCACCCATCTACCCAAGCTGACTGTCGGTCAAGAGTC
TAGTGACCTTAAACCAAATGTTATTTTCCTTTTGTATCTAGCCTAACATTGACTATCTTGTCATTTCATTTTCCTATAAAATGCCTCCACCAAGGCTGAA
TCTTTGAATTGATCACTASAGGCCTTTTCCCTAGTAGTAACATTATAATAAAACTTTGACTCATGCTCATAACTCGATTTTCCAAAAAGTTTTCCTTTAC
AGGAGAAAAGAACAGCTGCTGTTTATAGGAGCATACATTGTTTTTGGTTATTTTGAAGAACAAGTTGGCATTTTTGACCGAAATTAAACACATGCCTTTT
GATCAAGCAATTCCATTCTGTACCAGAAAATACAGAAATATTTGAATGAATGTGCCAGGACACCCAATTAGAAGAATGAATGCTTTTTTAGCATTATTTT
GTGTGCATACATATTTATTTAGTTATTTGACCTATTACATTCTAAATTGATATTAATAAAGAGGTATTTGAGTTACAGTTTTTCCAAAGTTTTAAATACT
CTATAGCAAAAAAAGGAAAAATGAAAGAAATTAAAAAGATACCTCTATATACATACATTGTGTGTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTATAAATTGGCTGTGCATGATATAAGTTTTTATTTCAATCGTTTTAGGGGTAAAGTGGTTTTTGATTACATGGAGAAGTTCTTTAGTGGCGATTTATC
AGATTTCAGTGTACCCATCTGAGCAGCATATGCTGTACCCAATATGTAGTCATATATATATATGTGTGTGTGTGTGTGTGGATGTATATATATGTGTGTG
TATGTATATATATGTATGTATCTGTATATGTATAATGGCTGKMCATGATATAATTTTGAGTTGGAAAAAGCAAATTGAAGAATAATACATGTATTATCAT
GTCTTTAAAAAAAAACTATACACATAGCTGAATGTTTTTGTGTGTATTTTCATAAAATGATTTGGGGTTGAGGTGATAAACATTAATTATAAATAGTGGT
AGATAACTTCTATCACCAGCACGGAGTGTGGCTTAGGAGCTGAGAAGGCTTTGAGGAGGGAATTTTCTTTCTTTTTTCTTTACCTGTCATGTTTGAATTG
TGTTCCATCAACATGTCCTTTTTATTTTTTTGAGATAGTGTCTTACTTCATCACCCATTCTGTAGTGCAGGGCACAATCACAGCTCACTGCAGCCTCAAA
CTTCTAGGCTTAAGTGATTCTCCCATCTCAGCCTCCTCAGTTGCTGGGACCACTGGCATGTGTCACCACATCTGGCTAATTTTTTGAACTTTTTTGTAGT
TGGGGTCTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAAGTTACCCTCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCA
CCACGGCTGGCCAATATCTACTAGTTTTGAAATTAAAAAAAAAAAAAAAAAAAAATATATATATATATATATATATATATATATGAAAAAAAGGACAAAC
GATTTCAGTTGCACAACTATAATCGATGAAGTGGCTCCTTGATGTTCTCGGGGCAATCTGAGACACTGGGGAGAACCCTCCACCTTTGCAGAGAAGCAGG
ATGAAGGGGCCTAAAATGAGTTCAACTGATTTCAACTTTGTTTCCCAGCATAAAGCTTGGGCTGAGCTGCCTGAAAGGGAAGTGGAGAAGGCAGGAATGG
AATTGATTTTTCCCCCCTGCTGAATTCCCCTTCTCCCTACTCCCTTCCTGCAATTTCTAATAAATTAGAAGAGCTCTGCCTTCCAGAAAAGAGCAGAGGT
ACCTTGCAGTACTTTTGGGAATCTTACCAGGAAGAACTGGGTCTACTATTGCAAAGGAAAAGCTTTTTTTACAGTGTTAAAAATTAATTAAAAATGGAAT
GTGTTATAGCTCGATTTTTATCATTAGCACCCATTCCAGAGGGCATGTTGCTGTTAGTAAAACTTCAGATTTTTCCTGTCATTATGGATTTGGTTTTAGG
GAAAATACCTTCATGTTCAGCATTTTATGTGTCAGTCCCTAAAACTCATGATCTTCTGTGATTCTCTTGGTTTAAGAGCAGGGCGAGTAATGTACTCAAA
AATTTCTCCATAGCCTTCTGGGTTAGAGGATATAACAGCTGGCAAACAGAACACTAATAGCTATTGATGGTTATTTTCAAAGGATGGACATCGATAGTTA
AGTTTTAAGGAAGAAAATGAAGAGGAAATTTAATGTGATTTAACAGTGATTTTTTTTTAAAGACATTATTTGCATCTCCTATTTTCACTTACTTATAAAC
AGGTGGTTTCCAAGTAGACATATTTTTTGCTTGCTTGAATGAGAAAGCATAATGAACTTTGTGATTTGGTGACATATCCAGATAGCTATAGCAAATAGCT
ATAATGCCTTAGATAAATAGCATTTTCACGAGTAAACTTTTTAGTTCTCAAAAGAAAAATTGTAACAATTTTCTAGCCGCATATTAGCATTATGCACAAA
CACATAAACTTTTGGCTGGAATTGTGGAATATGAAGTAGCTCCCATCCTTATTCCATCGCCCATATGCTAAAATGTAGATTGTATTAGTTGAGAAATTTT
ACCAAATATTTACTTATACTGTGCTATTATTTATACTATTTGTCAATTCCACTATAGTAGATGCTTAATAAATATTTGTGAATCAGTAAATGGATGGATG
AATGAATAGTGGCCTACTTCTGTGAAGGTAATTGAAGAATTCCCACACTTGGCCCCCTTTGGATATAACGTCTGTTCTGAGCACCTCCCATTCACTATCT
TGATGCCTCACATAAGACCTAGTATATAGTAGGCAGTCAATGAAGATCACAATGAATTGGCTAGACTTTGATTTATTCATTTATGCAAATTGCCTGACAT
TCAAAGAAAAAAGAAGGAAAAAATGGACCTCTTATCATGTGCCAGACATTGTTCTAAGAGGGAAAGATACTGTGAAAAAGAAAAGTCCCTATCCTGGTGG
ATCTTAGATTATCGTGGAGAAGGTAAGGCAACAAACACAAAATAAATACTTCATATAAGTTCAGGTAATGATAATGCGTGAAAAAGAAGTGTTCTTCCTG
TTAGCAGTGCCAACATCCGCTTTAGTGCTCTGCTGCACTGCAAAATGTGTGGATGTTCTTGAGTATGTCTGGGAACTAGCTAAAATTAGGGAGTTAAAAT
GATCCAGCTTAGCTCAGGCTATAGGGAGGATTTCTCTCCCAGGTGTTTGTTTTGTTTTGTTTTTGAGAWAGGGTCTCACTCTGTCACCCAGGCTAGAGTG
CAGTGGCCTCAACCTCCCAGGCCCAGGTGATCCTCCCACTTCAGCCCCCTGAGTAGCTGGGACTACAGGCGCATGCCGTAACTCGCAACTAATTTTTTGT
ATTTTTTTTTGTAGAGATGGGGTTTTGCCATGTTTCCTAGGCTTGTCTCGAACTCCTGGGCTCAAGCAATGTGCTTGCCTTGGCCTCCCAAAGTGTTGGG
ATTATAGGTGTGAGCCACTGTGCACAGCCTCAGAGGTCCTGTCTGCCTGCCTGCCTTTCCTCCCTCTCTCTCTTTCTTCCTCTCTTTGCTTCTTTCCTTT
TTTCCTTCTCTGTTGAAGGCCTGAATAAAATAAAAGACTGAGTAAGAAAGAATTGACTCCCTCTGCCTGACTTCAAGCTGGGACGTAAGTCTTCTCCCAG
TCCATGCATCCATCCATCCACCTATCCACCTATTAACTTATTCACACTGGCTTTAAAATTATTTTTGGCTCCAGCTTATTATTTTAAAATGTAAAATGAT
TTACAGAAGTTGACAGAGAGTATAATTAAATCCCATGAGTCTACCATCCAGATTCAGTAATTATTACATGTGGCCATTGTTGTTTTATCTCTCTCCACCC
ACTTCCCCCATGCCTGAAAATTTACCAAAGTAAACGCAAGACATTATATATTGTTATTCATAGACATTTTGAGTAACTAAAAGTAAGGTCTCTTTAAAAA
ATGATAATTACAGTATCATCATCACACCCAAAAACATCACAAATTATTTAATATCATGAAGTGAAGGCCCATTTTTCCAATCATTCTCTAAATATTATAA
ATGTCATCTTTCATTAGTTTGTTTGAATTCCAGGTAAAAACCTTTAACTCATTTCCTTCTTTTGATTTTTCAAAAGTTGGTTGAATAGTTTCTGTCTTAA
AAAGTCCAGAAATTGTTGAAATAGGTAAAGCACAAAAGAAATTAAATACACCATGTTTCCAGGCCTCTAATGTTTTCTATTCAAGGTTGTAATATCCAGT
GCAAGGCTAAAATTGCTTTCTGGTGATAAACATTTGAGAAAGATTTGGTTGTTGGTGATACTGATGGTTGTAGTAGGAGTCTCTGGAGAAATTGAACTAA
TACTATATGTGTGTGTGTATCTATGTATAGATATAGATACACACATGTATCTATTATATATATAGAGAGAGATATATGCATATCTATACACACCTACGGG
TGTGTCTGTATCTATACACACACCTATGGGTGTGTCTATCTATATCTATACACACCTATGGGTGTGTCTGTCTGTATCTATACACACCGATGGGTGTGTC
TGTCTGTATCTTTACACACCTATGGGTGTGTCTGTCTGTATCTATACACACCTATGGGTGTGTCTGTCTGTACCTATACACACCTATGGGTGTGTSTTTC
TGTATCTATACACACCTATGGGTGTGTCTTTCTATATCTATACATTATATGTACTAAATAATATATATAAACACTATAGTATATAGAGTATACATATACA
CACTATAGTGTATGTACTATACACTGTGTACTAATACAGTGTATAATGTATATATATAGTATTCAATATAGATCTATAAACACACAAGTGCATACACACA
CACATTTTTCTGTATATATGTATAAAGATATATATAAAGATTTTTAAATAAGGAATTGACTCATGAAATTACAGAGACTGAGACATCGAAACCCAGGACA
ACCAATGGTACAGTTCATGTCTGAGTCTGAGCAGCTGAGAAGCAGGAGATAAAAAGGCATCAGTTCCATTCCATATCCAAGTCTGAGTCCAAGGGCAGGA
GAAGCTGATGTCTCAGCTTGAAGTCAGGCATAGAGAGGCARTTCTTTCTCACTCAGCCTTTTATTTTATTCAGGCCTTCAACAGATTGTATGAAGCCACC
CACAYTGGGAAGGGCAGTCTGCTTTACTCATAGTACTAATCGAAACGTTAATGTCCTCCAGAAACGCCTTCATGGACACACTAGAGATAATGTTTAACAT
AATATCTGGGTATCCTGTGGCCCAGTCAAGTGGACACATACAATTAGACATCATGGTGGTTATGCCAAGTTTTTTTTTTTTTTTTTTGAGATGGAGTCTT
GCTCTGTTGCCAGGGTGGAGTGCAGTGGTGCAACCTTGGCTCACCACAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGG
TGGGATTACAGGCGCCACCACCAAGCCTGGCTAATTTTTGTATTTTTAATAGAGATGGGGTTTCACCATGTTGGCCAGACTGGTCTCAAACTCCTGACCT
CAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCACTCCCAGCCAGCCAAGTAAGTTTTAACTTGGAAACAATGAGC
AGACACTCGCAGTACATTCTCTACTTAGTATATTTCTTTTTCAGAGTCATCTCAAAAATCTCTAGGCCAAGTGTTCTTAACTATGGACCTTGATGAATGG
ACCCTGAGTATCTTAGAATCTTCTGAAATAATATGCAGCATTATATTCCATTTGTACCTGGGAAGAGGGTACTTGTCTTTCATCAGAGAGTCAYCAATGG
ACCACTGGTCYCTGCTGATTTAGTGTCACAGCTCAAAACCATCAGTAGTCCTCGTGATCTTTCGGCATTGTGGCTCCCTTTGTGAGAAGGGCCTAAGAGT
GAATCTCCCAACCATAAGMTGTATTCAGGCAGGCACGAAGTCTCTTATTTACTCAGTGTTTCTGGAGCCCAGCATAGTGCCTCGCACACAGCAAGTGCYC
AGTGGGTATCTGTTGAACCGGCAAAACAAACAAATGAATAAATTAATGGGTGGTCACTGTACTAGTTTTCTATTGCTTCATAAACAAACTATCACAGGCA
TAGTGAGTTGGAATGATGGCTCTCAAAAAACTATGTCCACATCCTATAAATGCTRTTGTACAATATATGGTCTTTTGTGATTGGCCTCCTCCACTTAGCR
TCGTGTTTTTGAGGTTCAGCCACAGTTGTAGCATGTCCATCTCTCTTTGTGTGGCTGAATATCATTGCATTGTATGGATATACCAAATATTTTTCTCCTT
TCATCTGTTGATGGGCATTTGTGTTGTTTTTACCCTTTGACTATTGCAAATAAAGCTGCTCTGAACATTTCTGTGTAAGTTTTTGTTGGAACACCTATTT
CCAGTTCTTAGGGATATGTATTTATATCAAGCCAAACTACCTACCTAACCACCTACCTGGGAGTGGAATTACGGGGTCATACAGTAAATCTATGGTTAAT
TCATCAGGAATTATTTTATAAATTTTTGATGTTGGATATCTGAAGATAATACAGAATGGAGCCCTTTTTTACTTTACAGATTTTTTTTTTTTTTGAGACA
GAATCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAGTCATGGTTCACTGCAGCCTCGATCTCCTGGGGCTCAAGCCATCCTCCCACCTCAGCCTC
CTGAGTAGATGGGACCACAGGCRCATGCCACCACACCCAGCTAAGTTTTGTATTTTTTTGTAGAGGCAAGGTTTCTCCATGTTGCCAAGGCTGATCTTAC
ACTCCTGGGATCAGGAGATCCGCCTGCCTTGGCCTCCCAAAATGCTGGGATTATAGGCATGAGCCACTGCACCCAGCCCTGGATTTGGCTTTTTGAAACA
GGGCTGCACATAACCTCCATGATGTGATTCTGGCTGTGTCTGTTGAGGTCCCATTGGGCCCAGCTCTGAGATTCCCTGTTAGCACAGGGTCTGACACATC
ACAGATGAACAATGGATCTTTGGTAATTAAAAACAGAGCTGTGTGGCTATTTTTCTCCAACTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGTC
TCACTCTATTGCCCAGGCTGGAGTGCAGTGGTGTGAACTCGGCTCACTGCAACATCCACCTCCCGGGTTCAAGCGATTCTCCTGCTTCAGCCCCCCGAGT
AGCTGGGACCACAGGCGTGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGTTGGGGTTTTACCATGTTGGCCAGGCTGGTCTTGAACTCCTG
ACCTCAAGTGATCCACCCATCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCTTTCAAATTCCATTTTTTAAAGTTAATGCT
TTAATATGTTAAACACCCTTATTAACATATTACATATGTTAATATGTAAAATAAACTCCGTACATTTTAAAGTGCTAAAGGTTGTATGTTTGTGCGATGG
ATATGTTTAAGAGAATGATTTAGGATGCGATCAGTTTTTTTTCCTTGACTTACTCTCTTCCTTTATTTTTTTCCCTTCTTCACTTTCTCTGTTATTCCTT
GCCAATCTCATAAATAATGTAAGACAACTTGCAAGACTTATTAAATGACTGATTTCCTTAAAAGAAGTACGTCAGGTGAAGGGCAGATAGAGGTCAACAC
CATAGATAAATCTTTACACTCCAGTGGACTTTGATTCACATCATGGCTCTTTCTCTTCCTTGCTGAGGCTTTTGACAATTTCAAATGCTCCCTGAACCTC
AGTTTCCTTTGCCACAAAATAGCAATACAAATTTATAATTCCTTAGATTGCTGTGAGAATGAATTGAGGCAAGGTAGGTAAAGTGCAAGGAATTKTGTGT
GGCCGGCCAGGTGCAGTGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGACACCAGCCTGGC
CAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCATGCTTGGTGGCAAGTGCCTGTAATCCCAGCTACTCAGGAGACGGAGGCAGGAGA
ATCACTTGAACTCGGAAGGCAGAGTTTGCAGTGAGCCAGATTGCACCACCGCACTCCAGCCTGGGCGATGAGTGAAACTCCGTCTCAAARAATAAACAAG
AATTGTGTCTGGCCTTTGTGATAGTTACTCAACAAATCATATCTGTGATTGTTTTGRTTTTAACAATAATGGTTTTTAAAAACCGTAGGTGATCACATAC
TACGCAGAAAGGGAAGCAGTTACAGYATTCACAGCATCCGTGAGTCATAGACTCACTGCATTGCTCCAAGGTGCAGATTCTAGTTGGAAATGTTAAGTTT
TTTAGAGCAATGAAAAAATTGATCTCTTTCTCTTCCATAACATAGATTTCCCATCTAGCTCCTGGGCTAACTTTTGTTTAGTAGTTGTATTATGAAAACA
CCGAAGAATCCTTCTGCCAGTCTCCATAGCAGTGATATAAATCAGAGCCCGCAGTTTCATGAATGCCTCGCTGTGCCACCAGGATTTTCTTGGAGGGAGC
CACGGTCAGATTTCAAGTGGTCATTTCACTCTTTCTCCCTCTGGGGGMCTGAGACATGATTAACTTGCAATAATTGTGACTCCCTCATTAAAGGAGAGCT
GTAGCAAGGGAAGAAATCATTGAGACTGATCAAGACATCCCGTGCTATTTTTTTTTTCTTGCATATCAGCTGTGTGGGTACCTCTTGTTCCTCTGTCCTT
CAGGTTAGTAAAACGAAGAACAGTTGCTGAAGCTATGAGCTATCGATAAAAGCTAATGTACCACACGAAATTGGAAGGGGAACAAAATCACTTAAGTGTT
CAGGGCCACCAAGGCACTGGTGCATCCCCTGTGAGCCTRTTTGGCTCCTGGCGGTGTTTTTGTTGCCCTGGCTTGCAACGTAGCCTGATTGTTCTAAGTA
AATGGCAGAGCACGCAAATCAAGGACATTGGCAATAAACCAGGAATGCACTGTTTCCAGCCACGGGCTATCCAGGGAATTGGGGACAGTCTGTAATGTAT
CTTGAGCTAGGACCATATCCAAATTACTGGCCTTTCCAGTTTTTCTTWAAATAGTAGGGTCAGTAGGTGACCACACTCAGAAGCCAAGCCTGCAGCATCA
GGGCTGAGGAGCAAACTCTTTCTTTGGTCTGAAGCTTCAAATATGAACCCTTGCCACCAGCTGCATAAATATGATAGCCAAAGGGTTTCAAATTTGTGAT
TTGTCATAAACGCTCCTATTGCAGGCTGRGTCTAGTCCTTCTTGACTTTGTGGAAGGAGAAGGCTTGAGGAAGTATTCACAATTGGAGAAGGGCGCCTTC
TGTTATGTTCTTAGCTCACTAAAAGTGGTTAATGATGAGAAGGGGTGGGTCAATGACAAGAAAAGTGGAGAAGATGAGACAGACAAAACTGCAACTCATC
TTCATGGCACACTGGTGAGTGGGGGAGTGCAAGAAGTTTAGGTGCAAAGGAAAATGGAGTGAACATCTTGGCTTGGTTAACAGAAGAAAAGAATACCAAC
GCCGTCTATTTTCATATCCCTTTCTATTTTATGTACATATTTATCAATATACTTTTTGTTCCAGAAATAAATGGGAACTTAGGCACAATCTTTTACACAT
CTTACCTCAACTGGTGACTCTTCATAATCTAGAGCTATTATAGTTTCCAATTGACAGATGGGGAATCTGAGACTCAGAGAAGTTAAATGATTTTGTGTGT
GTGTGTGTGTGTGTGTGTATGTGTGTGTGTTTTGTTTTTTTGTGTGTGTGTTTTTGTTTTTTTTTAAGACGGAGCTTTGCTCTTTCACCCAGGCTGGAGT
GCCTTGGTGCAATCTCAGTTCACTGCAACTACAACATCCCAGGTTCAAGAGAGTCTCCCACCTCAGCCTCACGAGTAGCTGGGATTTCAGGTGCCTGCCA
CCATGCCTGGCTAATTAAGTSAGTTTCTTAAAGTCCTACAACTGGTGAGCTGTGAGCTGTAAATTGYGGAACTAATTTTTATACTGCCAATCTGAGGCCT
TTTCTGACCTCATCGCTGCCACTGTAAAATGARTTCTAGCCCCAGACCATGACATGCCTACTAGCTTAGCTCTAACCAAAAAGATTTATTATCCCAAGAG
TTGTGAAAATGTGGAAGAACTAGAACTGTCATTCACTGCTGGTGGGAATGTAAAATGGTACAATGAATTTGGAAACAGTTGTCCAGTGCCTTAAAAAGTT
AAACACACACATATGTGGCTCAGCAGTTCCCTTCCTAAGAACCTACTGGAAAGAAAATAAATGCTTATACAAAGTCTTGTTCATGAATGTTCATAGCAGC
ATCATCCATGATAGCCAAACGCCGGAAATACCCAAATGTCCATTAGCTGGGGAATGGAGAAACAAATGTAGTCTATCGACACAATGGAATACTACTCAGC
AATGAAAAGGAACTAACTCTGGATACCTTTAATAACATAGATGAACTTCAAAAACATTACGCTAAGTGAAGGAAGCCGGTCATAAAAGACCACATAGTAT
ATGATGACATTTATATGAAATTTCTAGAAAAGATGAAACTCTATAGACAGCAAACAGAATGATGGTTGCCTGGGGCTGGGAGTGAGTGGAGGGGATTACC
TGGAAAGGGTGGGGCAATTTTGGGGGGTCAAGARAATGTTCTAGGACAAGACTGTGGTGATGGCTGCACAACTGGATAAATATACTAACTAWCATCAAAC
TGTATATTTACAATGGTTAAATCATATGGTATGTGAATTTCACATTAATAAAGTCATAAAAAATGAATTCCAGGACCATTAAATCAGGTGACTGAGCCAA
TAGTTACAGGAACATAGAAAGATTTTCACCCATTCTGTATAATTAGACAAATTCTGTTACTATCTGTCCAACAGTTTAGCAAGAGTCACTCTGAGATTGA
AGAGAGGAAGGGAAYGTTGGAACCAATGCTGATGAGCCATTCATAGGCTCTGGCTCACTATATATGTCTAAAATTCACATGCCCCTAACCCTCAAATAAT
GACCATTAATAATCTGGCAGGAGAGGAAAGACCTGCAGCTCTTCTAGTCCTTATGCTATCTCATTGTCTCATGGATTTTTAATATGTCTTTGCATCCCTT
AGAAATTTGCACTTTTCCCCCCTTTTTCCATTAAAACACACCTGCGTGCAAACGTCCATACACACCCATGTACACACAGACACACACACACATGCATGCG
ATCTGTAAAAAGTCACAAAGGCCAAAGTTTTAAAGGAAGAAAATAAAAATCACCTGTAGTCCTATCATTCAGAGATAACCACTGTATGTTTATTTACATT
AGTTTTGATTACATTAGTTTAGAATGAAATTTTAAATACACTAGTATATGTAATTAAAATTGTATATACGTTTTAGTCAACCATCAGCTGACTTATTCAT
GTTCTGTGGACTCTRTGGTGGGTGGGGTCCAAGCCTCCCTGAAGCAGATCTCTATCCTGTCACCCTGCTGGAAATGAAACACTTAGGGGTTAGAAGGGGA
TCAAGGAAAGTCCGAGAGTTGGTTSTGATTATCTTCAGTCAGAAAGTGCCTACTTTTCCAAGCATCCAGACTGCAACCTGTYTTTCCTACTCAAAATGGT
TTTTATGGATTCTATTCTTATTTGGCAATTGCCTGGACTACAGTCACCAACACAAGTTTATACGCAAGAAGTGCACACAGCCCTCCCTCCCAGCTCATCC
GGTAACAATTTAGATGAAGGATGTAAAATAGGATTCATTTCATGACCCAAGTCTGGTCAATTGAAACAGCCGATTGAAGTGCTGTGTTGAAAAGGATTTT
GACACTGCGCATGGGCTCGTTGGGAAAGGGTGTCATGATGGGTTACTGATTCTGCGGTATTTTTGTGGACGTGGGGAGTGGTGGCCTACTTACAGTGCAT
CGCCCACTCTGATTTAGATGAGCAAGAGCTGCTGAGTTGTAGATTTCTAGTTTCTAAACAACAATAAGTCTTGCYCSCAGATAGCCTCTTAGCAGAGYCA
AAAGCCAGCAGAGAGAAGACTCAGCATTTGCTTTGGAGTAAGTTTGTGTGTGTATGTTTATCTCCCTTTTACTCATGGGCTCTTTTTTCCCAAATAACTG
AGGGGCCAGCACATTTGGAGAACATGGGATTTATCATTGACGTCAGTGCCTTGGGAGTCTATGTTTATGTGAGCTTAAAGGTTTTGGAAGCTGAATGACA
CAGATCAAAGTCTCTCCACTGATCTGTCTTCCAGTCCTCCAGGGGACTTCTTCCATCAACTACAAATCATTGATCAAAGTATTGGTCTGTCACCTGTCCA
TGTGTAAGGCCAGGCCTAAGTGCTCTGACAGGGCATGACTCAATCCTCAAACAGGAAGSGGGAAATTGCTTTCCRTCTCCTAACCCTAAGATCCTGGATG
GCAGGTAATCTGCTTCCTCAAGATTCTGTTGATACACATTCAGGACTCTGGTTTCTGTTTTGCTTGATGACAATGACCCAGTTTCTTTGACTAAATAAAT
GTATAGACACACATTACTTCTTTTCATTCTARGAATCATAAGTTTTTCAAACTTTAGAATCACAAGGTCCATTAAAGGACATCTCCCCTGACCTTCCCAT
TTTGTAGATGGGAAGACTAAGGTCCAAGCTTGAATGACCTGCCATCATGGGGATAACCGGAATTGATACAATGTCTTGATTCAAGATTCAGAGCTCATTT
TTTCTGTGTCAGATTAAAAAAAAAACAAAAAACCCTYACTGATCTTTTAAATATGTAATTCTTCCTCCTCTTCTCCCCTTGTCTCTCTTCTCACCCCTAC
CAATGTAATCAGTTCTTTTTTTCTTTTTTGGAGACGGAATCTCACTCTGTTGCCCAGGCTGGAGTGCGGTGGTGCGATCTTGCCTCACGGCAACCTCTGC
CTCCTGGGTTCAAGCAATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGTGCATGCCACCATGCCCAGCTAAATTTTTGTATTTTAGTAGAGA
CGGGTTTTCACCGTGTTGCCCAGGGTTGTCTCGAACTCCTGAGCTTAGGCAGTCTGCCCACCTCAGCTTCCCAAAGTGCTAGGATTRTAGGCATGAGCCA
CCATGCCCGGCCTAATCTAATCARTTCCTTTAAATCTGAAACTGTCYGCCTGATTCTGGTTTACCACAACCACCAGAGTCTTAAGTGTCCCAATAGCCAG
GGTCTCATAGACTCTGCTTATGGTTAATTCTTCTGGGGAAATTAATTTCTCGAGGTAAAACAAGTTTTTAAATTATCCCCTATAGCTCATAGAAGCAATT
CAGTAAATACTTGTTGAATATCAAATGAATGAACAAATGGCATTCTACATTGAATATAGTAATTCCCAACTTTCGTGAAGGTTGTTTTTTTTTTTTTTTT
AATGAGGCAATCAGGGGTAAAAACCCCCGCTGCTGTCCTAAGACAGAAAGAGGGGGGATTTTTCCCCCCATGGCTTCGTCCTTATTCTTATAACCTGTAT
GCACTGCTGAACCTGCTGAATAACCATGTCACAGTGGCAGGAGAGGGACTGGGTGAACTTGAGYCTCGATGCCTGGATTAAAGCCTTGTAATGATGTTTG
CAAAGCACCAGGGTGATAACTGAATGGTTGGCACAGGCTTCGATGAAGCTTGTGTCCACCACAGTTTCCAGTGCTTCTGCACCTGGGTGGTCAGAAATGA
GTCCTGTGAGACACAGGTGACAAGATCTCCAAGGAGCCAGTTCACGCTTGGATGACTCTGGAGCTGTGGTGACAATCTAAATCCTAAATTGAGGCTTACT
AGGAAATGCACTAGGTRACAGGCTCTAGAGAAATGGCTATTACCAGGTTGCTCAGGCTGGAGTGCAGTAGTGCAATCTCAGCTCACTGCAACCTCTGCCT
TCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTTCCAAGCAGCTGGGACTACAGGCAGGCACCACCATACCCACCTAATTTTTTGTATCTTTTTTAGTAGA
GAGGGGTTTCACCATATTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCCGCCCACCTTGGCCTCCCAAAGCGCTGGGATTACAGGTGTGAGCC
CCCAGGCCCTACCCTGGGCCCCTCCTTTCTGGCCCCTCAACCTRTTTTCTTCCAGCCATGCCCTAGGGAGAGCTTGGCTGTGGCCTTGCAGACCCTCTCA
GATGCCACTCAACAAGGGCCAACTGGAGAGAAATCTCTAGTCTAGGGCACAAAATTTCTGTCAACCCTTCTAACCAGTGTTTGAAGTACGTAAGACGTTC
ATTTCCACTTCTAATGAGGAATTAGAGGAACGGAWTTATAAAGGAATTCTGGTTATAATTGCAKGTACTTTTAGAGACGATGTCTAACAGTGCAACCCAT
AGAACCAGGCTGCCTGGATTCAAATCCCAGCTCTGCTATTACTGAGATCTCTATGAGAGCTCAGAAAAGTTTACTTAATTTCTCCAAGTCTCAGTTTTCT
CATAAGAAAGATGGGCATAAGGAAATAATGTAGGGAAAACACTTGTTGCAGACTGAGGACTCAACAAAGTTATAATTAAAGCTATTACTAACGTCATTAT
TATGAAAATAGCCATCTTTTTTTAAAGAAGGGAGTTAAAGGAAAGAAATGCCAGGCTGAGAGATGAGACAGTGAATTACAGTGGGGGATAAAGGGGCTGT
GGTGTCACACAGGCCTGGCATCTGTGGCCTTGAACAAGTGCATTAATCACTCTAAGCCTCAATTTCTTTGTTTTAAAAATAATTAACTAAAATACCTTAG
GGCACATGGTAGGAATTCAGTAAATGCTCACTGTCTTTCTCATCCTTTTGCTTACCTCACATTTGCTTGCAGCCAGTGCTCAAAACCATAGACAGGCAGT
GTCCCCAACCACTCCCTGCGTTTCTCTTTCTTTGCCTTCCGAAGCTGCCATCTTRGTGGTTTTTGAAGCATCAACACTTACTTCACATGCAGAGGCCCCT
TTTATTTATTTATTTTTAATTTTTTTGAGACAGGGTCTCGCTCTCTTGCTCAGGCTGGAGTGTAGTGGTGTGATCTCAGCTCAGTGCAGGCTTGGCCTCC
AGGGCTCAAGCAGTCCTCCCATGTTGACCTCCTTTGTATCTGGGACCACAGGTATATTTCMCCATGCCTGGCTAATCTTTGTGTTTCTGTAAAGATGAGG
TCTTGCTATGCTGCCCAGGCTGGTCTGGAGCTCCTGGCCTCAAGCAGTCCTCCTGCTTTGGCCTCCTGAAGTACTGAGATTACGGGTGTAAGTCACCACA
CSCAGCCCAGAGGCCTTCTTTAAATGCTAGTCCTTTTTCTCTTCCTCCATCTGGGTCTTGGTTCCATGCGTATTCAGTTTGTGAAAAATTTGAGTCGTGC
ACTTATTATGTATGTGCTTTTCTGCATGTAATTATGCTTGATAAAAAAAGTTTAAAAATTTGTTTTAGATAGAGGTTTGAATGTCACTAATTACCAACGT
GTAGCTCCTAATTGGAATTAAGAAGGGACTAGCTCCTATTATCAGAGATCTGGTCATCACCCTTCAAGTTGACTATCTCCTTATGCTGATTTTTTTTTTC
TTTTAAATAGCAGCACAAATATTTACCATCTAGCAGATGTGGTAAGAATGTAAGTTGTTCAGCCATTTACAGCTTAGTCTTTGGGAGATATCCATTCATT
TTAAATACTTGGAGGGCCAGGCACAGTGGCTTATACCTTGTAATCCCAGCACTTTTGGAGGCTGAGGTGGGAGGATTAATTGGGGCTAGGAGTTGGAGGC
TAGCCTGGGGAACATACTGACACCTCATCTCTATAAAATATTTTTTAAAACTCAGCTGGGCATGATGTTGCATGCCTGTCATCCCAGCTACTTGGGAGAC
TGAGGAGGACGATTGCTTGAGGCCGGAAGTTCAAGGCTGCAGAGAGCTGTTATTGTACCACTGTACTCCAGCCTGGGCAACAGAGAGACCCTGCCTCAAA
AAGTAAATAAAATAGTAAAATAAAACGAGATATTTGGAAGGCTATGTTTTTTTGCCAGGCCATGTGCTTAGTCCCTGGGAGTATAGCGAGGGGCAATCAC
AGGTCAGGTCCTAGTGTCTCTGAAGACTTCATTCTAGTGGCCATTGAAAATGTGTAACTACCCACAGTAATCAAGTTAAAGAAAGGTTCTGGCTGAGCAC
GGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGGGGTGGGCGGATCACAAGGTCAGGAGTTTGAAACCAGCCTGACCAACCCTGTCTCTACTAA
AATTATTTAAAAAAAAAATAGCTGGGYATGGTGGCACACGTCTGTAATCCCAGCTACTCGAGTGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGA
AGGTTGCAGTGAGCTGAGATGGCGCCGCTGCACTCTAGCATGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAGCTTCCATTTGAGCCGCC
AGGAAAGGAGGCCCTGAGTTGGGGAGTTGAATAGAGAGCTGCATCCTGAACAGACATGATCTTGGGTGAGTGAGAGGCTAGGAGCGGAGGGAAAGCAGAC
GCAGTTGCTAAAGCTGTCAAGTCCCGCTCCCTTGGAATGCAGTCCTGGTTCTGCTACCTCCAACTGGGTCGATTTCAAAAAATTATGGACTTGTCTGAGC
CTGATGTGGTGCCTGGCCAGGGCTCACTGCAGCGCCTGGTATACAGGAAGAACTTGATGTTATTCATGGCAAAAGATGTCTGGATGGTCTCCACTACAGA
TTCTGATGGCAAGTGACTTAAAGACATGTTGGCAATGGGTAGTGGACAAAAATTGAAACACCTTCAACTGTGTCTGTGACCAGAAGATTTTTTTCTTTTT
TTTTTTTTTTTTTTTTTTGGCTGACTGTCATGACTTAGTAAGGCCATCACAGGTTGCCAGAACATCTACTCAACTGTTCCAAGCATAACCTCCTACACAG
GCCTKCTACATAGGAGTATATTTGGCCAAGACTCACCACTAGAAGTGATTTCCACTGGACTTTCCTACAGCAAGTGGTAAATGATCCCTCAGATAGGCCC
AAGAGCTCCCCTTCAAGCATAGAGACACAACCCTGTGAAAACATGCATTGGAACCAGGAAGGCCTGCCCCCATGACTTCACGTTGCATACATGCCTTTGA
GGACTTGGCCTCTTAAAGGAATCTTTCAATATCCTATGCTTCTGAGAAAGTTACTATTTCATTTGCAGCAGGACAACTCAACAAGCTAGCTCTTCCTGCC
CAGCAGACTCGGTGGATTCTGAAGAGGGTCTCGGGCTGACTCTCTACTTCATGGGTTTGAATTCAGGAATGTTGCAAGATTGCATGAGATTAAGCCGCTG
AAACCTTTCTGAGGAAGAGCCAGCTCAAATTTCAGTGTTGGATGTTCACCGCTTCTTTAGGGTTCTACCACTCCCAGTAAATCAAGTAATAGGTTTCTGT
TAAAAACCCCAGTGTGCTGATCTCAGTGGCRGCCATCTTGCTTTGTAAGCCTTCTCTAGCTTTATGATGCTCCCAGTATATAAGACATTTCCAGTGTCTA
GTCCAAATTAGTATTTCTCTAATTCTCGAGTGTCTGATCTGCCTGGCTAGAATGATTAAAACAAAAAAAYAGCAAATCAGTTTGACAGTCCACTTCATTA
AGTGGAGGACAGTGTTTTGATTGCTATTTAATCTGTTTTTCCTTCTGTCTGTTCTTGGCTATATGGAATTCACTTTGCCTCTSTTCCCGACTCTTCATAT
CCCTTATCTCAAGGTGAGTATCGTCAGAATCCCGGTACATTTCACCAGCCACCTTTTATAGAAGCTTAGAAAGATGGAGGCAAACCCATAAACAAGACTT
GGTTTTTCTAAGCCACAGTGGCAATTTCCTAGTCGATTACAACTGTGTCTACCCTTTCAACTGGCCTGTCAGTGTAGGCTCTGCATGTCCTGGATAATCC
TACAATTGGTGACACGGTTATTGACTTACAGGTTTCTAGGGCATCTCATTCGTTTTTTAAAAGAATGTTTCTTCCACACTTTTATTGCTTAGTAGAAACT
TGTTCTAATTCTTTCTCCTGATACCATTTAGCCTATTAGTACCTGGGAATAATCACCCTCCCTTATCTAGTCCTACAGATTTGTTTTGTTTTGAGTTATA
CCCACTTTAGGTCTCCCACCCTCTCTTATTTTTATAAACAGGCTCCATGGTACTATATACACTGCAGATGGACAGCTGCCAACCTGCTCTTTTTGTGCTG
AGGAACTCTRGATATTTCAACTAGTTTACATGACTTTCTTACCTAYGCTACCTTATAATCCTTTTATAAATTTTGCTTTACGTTTTAACAACGGAAAACA
CTTAAGGTTTTTTTCCTTTCTTTTTTTTTTAATTCTTCCGCCAGCTATCTTTAAAAGCAGTTCTAAAACTTCTTATTTTAATATTGTACCCATTGTACTT
TAGTCTAAGTGATGGCTGCTTATGGCCATGCCCTTTCTTCTGCACTTTGGGTGTTTTGTCTGGAATTTTCTCTCCTTTCCTTTTGTGAAAAAGGATGAAT
TTTCCRAGACTCTGTTATGACAGAAACTCACCAGTTCTCTGTTGTTAATCAACAAATAGATTGTGAATGCTTGACTCTTCTCTTTTTTTTTTTTTAAAGG
AGTTTCAAGGGTAAGATCTGCTGTCTTGTGAATGTCAAAGAAGTTTCTCATTCGCCCCTTTCTTCTCTCTCCCASTGTCTTTAATTTGTTAATGCTTTCG
ACTTAYTTTGCTTTGGATAATTTTCAAAGTACTGCTTTCTCTAGAGATCTCTAAAAGGCAGAAGTTCTGGCTATTAAAGATTTGCCATTCTCAGAACAGC
CCAGTTAGGGTACCCTCAGGTTATTTATAACTGGATTTTATCTCAGAAAATTAACTAAAAGAAGATTAACCAAAAATCTAAAGGAAAATGCCTTAAACAC
CTCATCTATTATGCTGTGCTCAAACAGATATTTTCATCTTAACAGCTTGGCAAACCCAGTGGAACGCTCTTTCTAGTTTGGGGCATAAAATAAGATAACA
CTCTGAATTCCTACAGGAAATCTTGTAACTCTACTTAAAATTAAGGCATAAAGYAGGAAAATGTGTTTCCTCTGTATAGTCTTATTACTTTGCCTGTTAA
GTTAACTGGTTCCTATTTCTGCTGGTTYGAAGAGGTCCAGGACATTTAAATAGCTCTTCTAGAAACAAATTCTTTTCCTTACAAGCCCTGCCAGGTCAGT
GGGTTCAGTAAGGAAGAAGGTTTTGTATTTTGACAATTCCTTCATCTGTTAATTTAGTCAGACGAGGAAGGAAACGAGAAAAGTTATTCCTATTTCATCC
ATCTAAGACTTTATATCCCATTTCAGGCTGATTAAAAGGCAAAATCKTCACAGTAGGACACCAAACCCTCTGTATGCCCTGCCTGCCTCCCCCCCTCTGA
CCCGCCTGCCTCCCCVCTGTGAGCTTTTTCCACCTACTGGCCTCTTGTTCTTCTTCAGCTGTTCCTCAGACATGCCAGGTGTGTTCCTGTCTCAGACGCT
TTGCCTTTGCTGCTCCTTCTGCCTGGAGTATTCTTCCAYGTAGCACCAYGAGCTGTTCTTCTCCAAAAGGCTTTGCTCAACTGACACTTTCTCAGTGAAG
CTGTTTCTCACCACTCACTATAAAATGGCAGCCTGCCTCTCTGAGCCTTGCACCCTCTCTTCCTTTTCCTGCTTTGTATTCCTTGTGGCACTTATTATAT
CACATAGATACAGACATAGATGTGGACATAGATAGAGACATAGACATACATGAGTTTTGTGTTTATTCTCCTATTCTCTAGAAGAATGTAAGTTTGTAAG
TACTGAGATTTTTGTCTCTTTTGCTCACTATTGTACTTCAGGGCCTAGAGGAAGGCTTAGCACGTGGAAGACAATATTTATTGGAGGAATGAATCTAGAA
ATATCCTTGGATGTATAATGTCCAACTCACTCTACCACACAGCAACATAGGTAGTTTTATATACATTTTATAGCTAAGCCCAGCAGCCCAAAAAGCTAAA
TGACTTCAGCGCCCACAGATACTCCTGGATGAGAGGGGATTGGAAWCCAGGTCTGTTCAATTGCAAATCCCCTCTTGTGCCTTTTACAGGTCAGATGATT
TTGTTTTTATAGGCTCTAGCAGGTCCCTTCTCTTTGCGTCACCAGAGAGGAAGATCCCCTAAGACAAAGCATTCCCTGTAGTTTTTAGCATAACTAGTAC
TGGCTSAGTAAGTATCCACTGGGGTTSGGAATACAACTGCCCTGCCTCTTGAGCAGCCATGCCTGCTTCCGAGGTGGTGCTGMATGCTATTCAGGAGGAC
AGACCATGGATGGRAATCCTGAGCCASAACTCCTTAGCCTCATGACRTTGGGCAGATGACTGAGCTTGTCTGAGTTACAATAAAYAAAAATACCATGCTG
AATGATGGCCTAGCATGACATTGGGAAGTACAGACTTTGCAGGCAGGCCCCTGGGTTCAATTCCTGCCCCTGTCATTGAGTAAAGTAATTATCATAACTT
TGGAACAAATTGACCTCTCTAAGCCTCAGTTTATTCTTCAGCTAAATGAGGATGATTGATAATCAAAACTATTTTATAGGGCTTGGGGGAGCATCAAATG
AAATAACACATATAAAAGGCTTGGTTTAATCTCTGAAGCACATTGGCACTTAATAAATGTTAACTATAATTATATTAACACCTATTTTACAGGGTTGCTA
TGAGGATATCATGAGATAATATGTATGAAGAACCTAGCACACTGTTTGGTGCATGTGAGGGTTCTGTAAATGTTACCCATTTTATTCCTTAATTTCCTTT
ATAGACCCCTTTCCCTGCAACACCCAGTAGTCTGGCTTCTATCCTGACAATGTTAGTGAAGTTGCTTGCTTGAAATTTACCAGGCCAGGCTTATGGCTGT
AATCCCAGAAACTCAAGAAGCTGAGGCAGGAGAATCCCTATGRTCTCTTGAGTCCAGGAGTTTGAGACCAGCCTGGGCAAGATAGCAAAATACTATCTCT
ACAAAAAAATGAAAAAAAAAAAAARAAAAAAGCCTGTCATAGTGGTACATGCCTATAGTCTTAGCTATTCAGGAGGCTGAGGTGGGAGGATCGCTTGAGC
CCAGGAATTTGAGGTTGCAGTGAGCTATCATTGTGTCACTACACTTCACCCTGGATCTGGAAGGAAGGGAGGAAAGGAGGAAGGGAGGGAAGGAGGAATT
TACTAGAARCAAATTAACTTCTGTAATCCTAAGTACTTGTTAAGGCAGAAAAACGCAGATAAGAAAATCGAAGTTGAGGGCAAGGAGCTCATCTTTCACG
GTCATAGACCTCAGTTGCAACATCTGGAAAAAGAGCTGGTTGGGCATGCCGGGCAGGCTTTTGTGACAATGTAAGAGSAAGTGAAGATTGCATCTCAGTA
TGAGACACCGTAAGAGCTTGATAAATGGTGGACCCTCTGATGTTGACAACATGATGTCAAAGATGGTGTTTGCTGTTGTTTCAAATGTCTTATTTCAAAT
TCCCAATTAGTTTCTTCATGCCATAAGGRCAAAATCCACATCTCATACTTTTTCAGGATCTGCTCTCACTTCCCCAAACATGTAATACCACCCTGGTCTT
MAAGTCCACTCTCAAAAAAAAAAAAAAATTTGGCCTTTGGCCTCGTGACCACCAAATCTGATTTCCATCCAAGARGCAACATTGTTTGTGCTTAGAAGGA
ATTCCTGGCTGGGCATGATGGTTCACGCCTGTAATCCCAGCGCTTTGGGAGGCCGAGGCAGGCGGATCACCTAAGGTCGGGAGTTCGAGACCAGTCTGAT
CAACATGGAGAAACCCTGTCKTTACTAAAAATACAAAATTAGCCAGGCATGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAG
TCGCTTGAACTTGGGAGGCAGAGGTTGCCGTGAGCTGAGATCATGTCATTGTACTCCAGCCTGGGCAACAACAGCAAAACTCTGTCTCAAAAAAAAAAAA
GAAGAAGAAGAAGTAATTCCTAACAGTCTGGAATCTCTAGGGTCTCTGGTATTATCCTTTAGTTTAAGCCTCACATTTTTCTAAACATTTTGAAATCTGG
TGTAATGGCGTTAGATGACCAAGAATTTATAGTCAAAAGTAGATAAAGTAAAAGAGTGAAAACAGAGACATGATACGAGTTGATGATACCGTATGCAACT
TGTCAAACACTTAMATTTGTGAATAAGAAAACTGGGGTCTATTTGGTGGTTTATTTCAGAGATGTTGGATCAAATCAGACATCAGAAAAGACAMCAGTAC
CAAACGAAGATATCTTTGCTGTATTTGCAGTTTTCTCTCTTATTAACATGAAAACACCTTACATAGATGGAAACATCTAAAGGCTATTTTTTATTTTATT
TTCCATTACTTCACTCTAATGCTTTCACCCGTACCTGTGGAAATTAGACTGTCACCTGCTTTTAGCATCCTGTTTTCTTTCGTGTTTGTAATGAAGCCCT
CCGGGAATTATGCGATTACAAAAATGAGTTACAAATCCTCATTCGGTATACGAAAGTATATAGCTGCTTTCCTTCTCTGTTTAAATAGTCTACAAAACAA
GAAATAATTAGTCAAGCACTATCGGTAATTAAGCACATAAGATGAACATTAAACAAACTGCAATCTTGCATCATTTTGAAGGTAGATAGGCAGGTTTTTG
CATTTGGAATCCAGCCAAAATGCCCATCTTCATTCCCTTTGCTCCTTATTTATTATTGGTGAGGGAATTCACTTGCCGAACTTGCTGATGTACTCTTGCT
GGCGGTCCATCTGAGAGTTCACATAAGTGTGAGTGACTATTTTTTGACAACACTACCTTTGGGAGAAGATGGTTTCAAAGAACTWACTGTATCAAATGGA
AAGACAATGTGTTTTCCCAACATGGGAGTATGTTTCTAAGTTGGGATCAGTTCACGATTCAGAGAAATGCTCTGCCTTCTTGTCTATGATATCAGATCAG
GTCAGACGTAGGTATAAGACCCTGACTCCTGTTTTCCAAGCACTTTTTTTTTTCATTATGAGTCTATCTTTCGGTCCCCTAAAGCTTCTGGTAATTTTTT
TTCTTTTTTTTTTTTTTTTTGAGACAAAGTCTCGCCCTGTTGCCAGGCTGGAGTGTGGTGGCAGGATCACGGCTCACTGCAACCTTTGCCTCCTGGGCGC
AAGTGATCCTCCTACCTCAGCCTCCCAAGGGAGCTGGGACCACAGGGGCACACCACCATGCCTGCCTAATTTTTGTTGTTGTTGTATTTTTTGGTACAGA
TGGGATTTTGCCATGTTGCCCAGGCTGGTCTCAAAACTCCTGGGCTCAAGCGATTCACGTGCCTCAGCCTCCCAAAGTGCTAGGGTTACAGGCATGAGCC
ACTGTGCCTGGCCCTGGTAAAATTTTGTCTACRTAGTTACTGCTGCCCAGGCAAAATCTGAAAAATGTTAGTCTAATTTAGTTAAGTTTTTCTTGCAGAC
CAGAACTTCTAGGAAACTAATATACAGGTTTTCTCCAAAATATATTTTCAAGGAAAATCAGAGAATAAAAGTTTCCAATGCATTTAGACTAGAAAATTAA
ATAYTCAACAAACAATTTCGGAGGGCCAACTATTTGCCAGGATCCTTGCTGGAATAGTCTCTAACCTCAAGGCAATTGCTGTCTAGCTTTAAGATCAAGA
GTAATTGTGACTTGATGTAAGGTATCTGTGTTGCTTTGTATTACATTCTTCTTAGCTCCATTGTGTTAAATACAGATAGACAATATTTGTACATGATAGG
TTGGCTCACCATTAATCACTTAAGAAGTAATAGAATGATCAATGATTTTCTTTCTGGCTTGTCTACGCCAAAATGGTTCTTCTGCTCAGTTGGTTTCTAT
AGTGATTTTATGGATATAGGCATTTTCTTCTCGAATTAGAAGAACTGACAGTCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGTAGGCCGA
GGTAGGTGGATCACTTGAGGTCAGGAGTTTGAGATAATCCTGGCCAACATGGTGAAACCTCATCTTTACTACTAAAAATACAAAAATTAGGTGGGTGTGG
TGGCGCATGCCTGTAATCCCAGCTACTCTGAAGGCTGAGGCAGGATAATTGCTTGAGCCCGGGAGACGGAGGTTGCAGCGAGCCGAGATCACACCACTAC
ATTCCAGCCTGGGTGACAGAGCAAGAGTCCATTTACAAAACAAAAACAAAGAACTGACAATAAATAGTTTTCTCCGTTTTGTGACTTATTTTTAATTATT
AAGAATAAGTGTCATAAAGCCAATACTTTCTAACATGTGTATAGTATGTTATAGTTTTCAAAGTCTTTGACAATTATACCTAGGGAGCCAGGACAGTATT
TGTATCATCATTTCATTGTTCCTGGAAAACAGGTTCAGAGAAGTTAAGCGACTTGCCCAAAATAGCACAGCAATCTGACAGAGCCAGGATTATCTTCCAT
CCTCTATTTTATTACCTGTGCCTCCCATTAAATCATCCTAAGCTCCACTACAGCTGGAGAAGGTTCTGTTAACACACCATACATCTTTTTTTTTTTTTTA
ATTGAGATGGGGTCTCACTCTGTCACCCAGGCTGGCGTGCATTGGTGGGATCTCAGCTCACTGCACCCTCCTTCTCCCAGGTTCAAGTGATCCTCTCTCC
TCGCCTCCCGAGTAGCGTAGCTGGGATTACAGGTATGTGCTACCGTGCCCAGCTAACTTTTGTATTTTTAGTAGAGACAGGGGTTTCACCTTGCTGGCCA
GGCTGGCCTTGTATTTCTGACCTCAAGTGATCCACCCGCTTCAGCCTCTTAAAATTCTGGGATTACAGGCATGAGCCACCGCACCCGGTTATACATCTTA
AATATAAAGTTTTTACAATGCCACCATTTAAAAAAAAAAAAAAAGGGCATTAATGCATTTAGCAAAGACTTCCTGAGTGTCTGCTTGGTCGAGTGACACA
AACTGGAACAGAGCATAGCCTGTCTTCCAGGAACCGGCACCAGCRATGTCGTAGGCTGAGGGAGAAGCCACAGAACTGTGAGTGACATGTTTCTTTGGCT
GCTCCCGACACAAGGAACTGCAACTAAATTGAAGGCTTGAGGACAGGAAGCACCTTAGYGGTTCGCCTTTCATTTGAGTGGGCCCAGGGTCCAGAAAAGG
GTAGATATTCAGGAAGAATTGATCACCTTTTGGATGCCACCACACATGCCTAGGCACAAAATAACTCAGAAAACAGTGATAAAAGTTGTGATTGTGGTTG
TTGTGGAAATTAAAGTAGCCTCCCCTCTTAAGCTTTGTGAACTTCAGCAAGCTCCTGAACCCATCTGGACCCTCTCTCTCATCAGTAACGCAGTAACGTA
GAGATGAAACCCTAAATGCCATCCGGTGACATCCTGGATTAGACCCTGAATCAGAAAAAGGACTGTAGTGGGAAACTCGTGAAATCCTAAATACAGTCTG
TCATTTACTTAATAGTAACATWCCATTTTCATAAGCATACCATGGGCTGGGCATGGTGGCTTATGCCCGAAATCCCAGCATTGCGGGAGGCTGAGGCAAG
CTGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCGAACATGGCAAAACCCCATCTCTACTAAAAATACAAAAATTACCTGAGTGTGGTGGTGCCCA
CCTGTAATCCCAGCTACTCAGGAGGCTGAAGCAGGAGAATTGCTTGAATCCAGGAGATGGAGGTTGCAGTGAGTTGAGATCATGCTACTGTACTCCAGCC
TGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAGAAAAAAAAAGTAATGCAATAAGCGTACCATGGTCATGTGAGATGTTGACATTAGGGGAAAG
ACAATAAACAGCGTGGAGGAACTCTGTGTACTCTGTTTGTAAGTTTCCTGTAATACTAATATTCTAAACTAAAAAGATAATTTAAAGGGAAAGAAAACCT
CTTTATGATAGTAACATCAGTTGGTATAACCATTTTGGAAGACTTGATTTACATAGGATCAAATATAAGTATATCTGATCCCCTAGAAATTTCACTTCTG
GCCAGGCGTGGTGGCTCATGCCTGTAATTCCAGCACTTTGGGAGGCCGAGGCAGGCAGATTGCTTGAGCCCGGGAGTTCAAGACCAGCTGGGCCAACATG
GTGAAACCCTGTCTCTACAAAAATATTAGTCAGGCATAGTGGCGTATGCCTGTAGTCCTAGTTACTCGGGAGGCTGAAGCAGGAGGATCACCTGAGCCCA
GGGAGGTCAAGGCTACAGTGAGCTGTGATTAGGTCCCTGCACTCCAGCTTGGGTGACAGAGTGAGACCCTGTCTCCAAAAAAAAAAAAAAAAAAAACAAA
AGACCATTTTTAAGACTATGACTGGTCAAAATGTGCTCATACATTTGCCAAAAGACAAGTACAAGAGTGTGTTTAGCAGCATTATTCATTATAACACACT
GAATCATTATTCATGATTACTCAAGACATCTGGTAAACCACCCAGATATCTATCAGTGGTGGAATGGATAAATAAGTTGTAATAAATCCACACAAGAGGA
GACTACTCACCAACAAGAATGAATGACTTAGAACTAAATTCAACAATGTGGATTTATCTTACAGAGATGATGTTGAGAGAAAGGAGGAAGATACAGAGGA
ATGTATCCTATGTGATTATAGTTACAATGAGTTCACTAAAAAGCAAACTATTCCTATTAGAAGTCAGGGTAGAGGATGGATGGGAGCATGAAGTGTCCTC
CGTCATGTTGCTAATGTTCTGTTGCTTGTTCAAGCTACTGGGTGTGTTCAGTTTATGAAAATTCATTTARTGACACATGTATGTTTTGTGAATTTTTTTG
CATGTATATTTTACTCTAACAAAAAGTTCATGGACAAATACAAAATCATATCTGACAGTTGTTGAGAGAATTAAAGGAAATAATAATAATATAAAGCACA
ATCAATGCATTCCATTTATTCTTCTGCTTTTCCCATCAATTCATGTTACCCAGTCATTAATGCATACCCTCTGAGACCCCACCAAGCCATCTAGCCCTCA
GCTGTGTCACTGGGCAGTTGTTTCTTCCACTGTGCAGTGTTTCGTTCTTAACCAACATGGCACCCCAGGTTCAGTGGTGAGAGTGTCACTGGCAACTTCT
GAAATAACATCTCTGTTAGTTTGTGGAGTGGGCTAAATGGCCAGCCCTTCTACGAGCTCCCTCATGGTTGCGGGGGACTACCAATCACTCTCTACTTTTT
TTTTTTTTTTTTAATAGGTCTTGTCATTTGTAAATGCAGAAGGAACACTGAAAAAAAAAATACTCTTGCCTTCTTCCATCTGTATTTTCTTTACTAAATT
ATCCAGTCTTATAAATATTTGAATAACATTTGGTCAGTATAAAATCTTTCCTGTCAGCTCAGTACAAGAACACTTTTTGGCTCCTGAGACCACAACAGTC
AGATAAATTAATATTGATTTGTTAGAAAATAGTTTTCACTCTGTCTAAACATCTTATTCTGGGCTCTTGAACCAAAATTATGAATTTAAAAGCAGCAAAA
TAGTTCTTCACAGTTTTCCCAGTGAAACTAATTATGGGCAGATTGTGAGAAATGTGTTGGATGTGATTTCCAACATAGAGTTCTGCTAACCAAAATTCAG
AGAAACTAGAGCCTCAGTCTCTGATTTATTTGAGCAAGTTGCAATTTGGTAGACTGGAGAATTTATGTAAATAGTTTTTGCAGTTTCCATAGGGATAACT
CAATACATTAATATCTCACGAATGGCAGAAGATGAAGGGGGAAAGTTTTTTTTTTAACTGATAGTTTGATTTACCTAATAGAAGGATCGGATTCTTCCCC
CTTCTTACTTAAGTCTATATATTAAAGAACAGCTGGCTTACCTGCTGTATAAATATGCAGTGTGTAGAATTTGACTCAGTTTAGAGTTGAGTTTTAATCA
CATCCACGTACAGGGATGGGGATGGAATTTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTGTTGCCCAGGCTGGAGTGCAGTAGCACCATCTTGGCT
TGCTGCAACCTCTGCCTCCCAAGTTCAAGCAATTCTCCCACCTCAGCATCCTGAGTAGCTGGGATTACAGGTGCTCGCCACCACACCAGGCTAATTTTTG
TATATTTAGTAGAGACGGGGTGTCACCATGTTGGCCAGGCAGGTCTTGAAGTCCTGACCTTAAGTGATCCACCCTCCTCGGCCTCCCAAAGTGCTCRGAT
TACAGGCATGAACCACTGCGCCTGACTGTACTTTTTTTTTTTTAAAGTATACCCATACCCATTGTACACATTTGGTATTTTTTCTTTAAAAAAAAAAAGC
ATTTACTTTTTGCCTCATGAATCTCTGAGTACATTTTGTGCATTCTGTATTCTACTKTATTTACTCAATATTAATTATATGAGAAATAAATCCTAAATGT
AATTTTGAATGGTGGCTTCACAAAAGAACATTTCCTCTTCTTTTGGACATTTGCTCCCAATTTTAAATAACACATCATTGAACATCTCTGTACAAAATTC
CGTATCTGATCTTCAGAGAAGTTTTAAGATAGATGTCTAGAATTTCATCTCACATCTAAACTGTTTTAAGACACTTGGTACACATTGATATGTATTGTCC
AATTGCTTTCCAGAAACTATATAAAATATTACAAAGAAAAACATATATATATATATATGTAAAATATATATATGAAGGGAGAAATAAATGTAAATGAAAA
GAAAAACATATAGAGAAAGAATATGTCTAAAAGAAACTGCAGAGGCAGCTATAATTAAAGCACAAGGAAAGGCTATGAAATTCTGGTTCCACCTGCAACA
GCTGTATGGTAAAAAGCTTATTCAGAGTCCTTCCTTCTTGGAAAGCTTTGTTAGAGTCTTATGGGATTGTGATGCACAGATACAGGGGCAAGGCTACTTT
TTCCTCGAACTAGTTCACCAAAGCTTCTATCCTATGAAAGTGAATATAAAATTCTTAAAGTTTATAGGGTCTGCTGGGTTTAAGGAGGAGAAATTTGAGT
TTTCGTATTGTCAGTCTCAAACCTTTTCTGAAATTGGAAGTGATGAAGTGACAGTCTGGCTATATGTGTGTGTGTGTGGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATACCTAGTCTAGGGCTAGGTTTGGGAACTATTTTCTCCCGTAAGTTAAACTGAACTAGACTGT
ATGTCAAAAAAGAGTCTCAATGTCAACTTAATCCATTGTCATGACTGTAAAATGCTATTTCATTATACCAGCAATTCCCCTGTGGATTTCTCCTGACTCT
CTATGCAGCCCAACTCTATTTTAATCTGTTGTAGCTTTTCTTTCCCCTCTCTCCCAACTCCCCACGTTTTGGAATTATTCAGTGCATTCGCTTCCAAGGC
ACCTGTTTGATATTTACACAAATTATGAAAGTAAGGTGGGAAGGCAATGAAGGCAACAAAGTATATAAAACACACACACACACACACACACACACACACA
CACACACACACACACACACAAGAAATGACTACAGACACCTCAACACCCTTCCAAAACACTTGAATCATTTTCTTCGGGAGTTGAACAAGTGGCTGAAAAT
GCCAAAATCCATCAGCCAATGTGTAAGTACAAAAGGGTCAGATAAGATATATGTGGATTCCATAAAATAGTGCATTTGAATTCCCCCAGGTCTTTTAAAG
ATAGTGGTTTTCCAGATGTGACAAAACAAAAGAAGATTTCCAAATCAAAATTCCCATTTGCCTTTCGGGATGTTGAATTTTCTCCACATTTGTGCAATTA
AGAGTTTTGCTGAGTGAGCTTAGGACTCTGTCTCTTTAAGTGTTTAACAGTAATTGGTTCATGTCCTGGTGTTCATTGAAAATCCTAGACATTTCATGTA
AAATCTTCTTAATGAGGGGATGAATTTTTCATTCACATTAGAAAGCTCACTCTGACAAACAATTTCTAAATAAAACTTTGGCGACATGACATCCCACATT
GGACTTGTCAGAGAGGACAGGTGCATTAGAATATAACTGTATGGCGATCCTTCAAGCTGTCAGCCATGAATATTTTATTTCTTAATGAATCATCTTTGTG
AAATCAACTTTCTTGTTGTAGTGTCAGTGCCATTTACAACAAAAAGCTGGCTCCTTTTAAAAGGTGAGCTCCTTAAAGATGCTGATTCCTGCATAAAATG
TTTAACCCTACCCAAGGTGTTGGGCAACTGGGGGCTTTGTGCTTTGCTTCTCCCTTCTGAAAGTGACTTGAGAACCCACTTTGGGCTAGTGTGATTACAG
TGAGGAGAAAGCTTTCCTTGATTTGTTGTTTCCTTCTCAGAACTGAAATCCCAGGTACCTGCCCAGAGGCAGCTCCCTTGGCCCTTGGGTCCCTGTTGTT
CCAGGTGTTACTCCTATTCTTTTTGTAGTTGTCTAGGGATTTAGTTTCTCACATCCTGAGGTCCACTAGGTGCTATTAGCTGGTGCTAACTGACAGCTCT
AGGCAGAAAGCCTTTCTCAGGATCCCAGCTTCCCTGTCTTCCAGAACTCAAAGACGGCTTTTGTTTGTTAGTTTTGAGGATGGAGACAGCTRTCATTCTA
ATGAGGACTTAAATGTGTCCCTGCTGACCGAGCCAGAACTTATTTTTATGTTGCCACTAGGAGTCTTCTGAGATGCTCTTGTGGCTGGATGTAGAATCGC
TTTGCTCATCTCTAGACACAGACTAGACAACGAAATACATTCCCCTAAAATAGCCCAGGGTTAGTTCTATGACCTTTGTCACTGTTGGTACAGTTCTAAG
AGGATATTGATTTTTTTTTTCTTTTTAATTCATAGTCTCAACTATGTCTCAAGACTGCCCAGCAGTATTTCTGTTTACTCGATCTAATTTCTCTTCCATT
CCTCACAGTGGCAATTTCAAGCTTCTCCTTTTTCCCCAAGCCCCATAATCTCCCCCTGATGCCCTTAGAAAGCTTCCCTGGTCAGTCCTCCTCACCACCT
CCAGCTCCCCCTAGAAACTGACCATTTATCCCATCCCGGCTGACTTCTTCCCTTTTACAAGAAGATGTCTCTCTTTGAATTCAACTCAGAGGTCAGCTTC
ACTGCCTGCCCTGTGGAGTCGACTCTGTGTCCCACCCTTCAGGAATACGGCTTAATAATAAGATGATAAGGATTCGTACCAGGGATTGGCAAATGACAGT
CATTTTCTGTTTCCTTAAGTAAAATTTTATTAAAATACAGCTCCACTCATTCATTTATATATTGTTCATATCTAATTATTTTCACACTGCAATGGTGCAT
AGTCAAATGCTTTCTATCTGGCTTTTTAAGAAGATCTTTGTCCCTCCCCCACCCCCCGCCCCGATTTATACTATGGATCAGCAGCCTAAACCCTGCAAAC
TGGGTCCCCCATCTAAGAGTCTGCAGTGAAACGCGAGCCGACTTGATGTGTCTCAGAGTGATCATTCTTGCCCTTGGCGGTTGATGCTAGACTGTTGCAG
CTTCAAATATAATGTATTTTAGTGCTATACGACAGCCATAAGTATTGGCCTGTGTCCACTGGTCTCCACTAGGAGAAAACCGAGCCAAGCTTGAAAGTAC
TAAGCGTGCCCAGGGGAAATGGAATAAGCTAGAAATTTGTTGTTTCCTTTTCACTAGGTTTAAGTGAGAATATTTGTGAGCAAACTCTCAGTGTGGGCAG
GTGACAATTTCTGCAGGTATTTTCCCCCCATTTTAACTTGTGCGATATAGTTCCCTATTTTGTTTTGTTCCGCCTCGATCACAACAGCTGCCACCCGAGG
TTTAAAGATACTGTTGTCCTCATCTTCAGAACAAGGGTTACGTTTGCTGTATCTGGAGAAAGTCCATAGTTTATGATGAATTTTCTATTAATGTAAACTC
CCACTGTTTATAAGTCACCCAAATTGTTKGTATTAAATTAGATGTGTACCATCTTATGTCTCTTCTTTCAGAAAATGAATCTCTGTTTTTTTTTCTCTTT
CTCCTAAATGTTAGGAATTTTCTGAAGTTTGAAACCAAGTGGCACAAAAACATTGCATTTATTACATAATTGCTCCTAGGGAAATACACATACACACACA
TGTACACACATACACATACACACATTTTTTCCTAAACAACATCAATGTCATAACAGTTTTGAAGCACRTATACACACTGACACATAGATTTTGTAAATGA
GGCACATCTATTCTTGAAATGYAATTGCTTAAAAATGGAAGTTCTGAAAATAAATAAAAAGAAACATCAATAAATAAAAGCCCCATTTTCATATTCTTAT
TTGACCTCTTGCCTCTCCATCATTCTTAAATTTGACCTCCATCATKCTTAAATTTGACCTCCATCATTCTTAAATTTGACCTCCATCATTCTTAATCCTC
ATGTTCTTAATGGACATCCCTCCCACCCTATCTKGGCCTTCTGAGACTGTTCCCCCAGCCCCAGTCAGGAGGGCTTGTCCACAAGTTGCTGTCTGAACTG
GGCAAGCCTCCTGGCTTCCCTGAAATGGTGCTGATGTCTTCACTTCCTGCCACCTTGGCAACCTTTGTAGTTSCTCTCTTTTTGCCAGGGGAACAAATTA
AGAGAGAGAAGAGTGATAGTGTCTACATGTGGTCTGCTCACTCAGCCAGTATTTTCCACAGCCAGTCTTTCCCTAGACCAGCATCTGAGCGTGCCTTGTC
TATGGGCCACCTATACTATTATTTACTGATGACTTCCTCATTCACTTTCTGTTTTTTATCTAAATGCCAGCCTTAGCCTTGTTCAAGGTAACAGTATACA
GGAAATCATGGGTTTCGAGCATGTTTTGTCAATATTTAGTAAAATGCGTTCATAGCTATTATTATAAAGACTTTAGGTACATTCCTGCACCACTTAATAA
CTGAATCAATCTCCTTTCATCAGGGGGAACAAACCTGTCTTTGGCTCACACTGTTTGAGGATATAAAAGGAAGCATACAGTGGGCCTCATTCTGACAAAT
TTTTAGTAAATCACAGGTTGCCTTTCCTAAATCCCTCAATATGATGGCTAGTCTGTTTCATAGTGAATAAAAAGTGATCCTGGATGAATGAATAAAGTGA
AATTCAGATAATTTTTCTCAAAACTGAAATTGTTTAMATCTTCCTTTAGTTCTCTTTTTTCTGCCTGCCCCTTCTTTCATATACCCTGTTTTTCACCTCT
TTTGTCTCAGTCCCATCTGATATTTGAATAACAATATGTAATTTCAGGTTTAGGATTGTTGATCTGTAAATCTCAGCCTAGTGCTTTCAACTCCTGGCTT
TCTCCTAAGTTCACCCTCCTCCCTTCCCTCCTTTCTGTAAGGACTCTAAACGATTGCGCTTCATTAAGTTATTTTTATAATGAGTTCCTGTTACCAGGGA
ATACAGAGTTAAAAAGGTGATCTCACTAAAAGTAATTAGCATAAGACCTGCTGGACCTGTAGAAGTGACTGGATGGTAATCAATAGCAATATGATTACAC
CCATGCAGCAATTATAAATTATTTAAAACACTACCCCTAGGTTACTGACTAGTTGCCTTTAAATTAAATTCTCTGTCGATAATTGATGCAAAGAATTAAT
GTGAGAACACCTTCAGTTACTGCAACTTTTTCAAGGTGGCATAAAATATTGAACTATTGCCCGTCATTAGCAGCTAAGCTGTCTGTTTGCTCTAACATCC
TTCTTTTCTAAATTGGTCAAGAAAGAGTCTCAGATCTTGAAAGATGACAAATGATTTCGAATCCACTGCTGGGTATTCTTCTAAGAGCACTGAAATGTCC
CAGTGAGAAATTTCATATATGAAGGCAAAGGAAAAAAAAATTAAACTTTAAATAATGACCAGTTATACTTCATCAACTCTAACAAATGAAGGAGCAGAGT
TGGTTTTCYGGAGTTTGCTTCAGTTCTTTGATATGGTCAGTGTAGGTCGGGGAGGTCTTCCCTAGCTTGAGAAATCATAACCTAGGATATTTAAGCTGTC
AGTAATAGTGTTTTAAAACTCCAGGCCTATAATAAAGTAAAAAGTGTGTCTGATAAAATGGGTTTTTTTCCTTGCTTAGTGAATGTCTTCTGTTTCTCKC
TAAACATTGTCACTTGCCAAASCATGTTTTCTGTTTCATACTAATTTTCTACTGGCAGTGAGACCAGCGGAATCTAAGAAATTGCATACGAAATTCAAGG
ATTGGAAAGAAGAAGAGGAAGTCAACCATTAGCAACCCTAGCTCCTCTTTAATCTCAAGAGGCAAGAGGTACTCGATGAACCACATGCTAAAATAAAAAA
AAATGAACCACATGCTAAAATCAAATGGCTTCTGCACCTGTGTGCGTTCCTGGACTCTGGGGTCACAGGATGGCTGATGWGATGCCTTCGAGAAATTAAT
ACTCTAATGAGGGAAACATCCTTTCATGTTGGTGCAAGAGACGTTCTAGGCCTGGTTCTACCTCTAGTTGGAACGGTGGTCATGGACAGGTCACCCCCGC
TGTCCAGAACACATGTCAAGAAGTGGGAGCTGGACGACAACATTCTTGTTCAGAGCGTTCTTCCTCCACATTTTATCCAAAGCAGCTCCACTTTTACCTG
TGTTATCTACTGAGATTCTGCGTGTGTGAAACACAAGGTCACCTGCCAAAAGCAAAACAATTAGGCCAGCATTGGGCTAGGTGAGGATCCATTGTCTTTT
GGGCAGGTGATTGTGATACWATAGGAGCCGGTGTCCTGTTGATGGCATCCCACAACTTTCTAACCTCTGTTGTAGAGTTTTGTTAGCCACGATTTGGACC
AACCTGCAGTTAGGCCAAGGGCTGCTGATCCAATTGGATTAAGGAACTCTGCTGTTTGAGCATGTTGGCTTCATTCATTGGTATCTCCTACGCCAAGTCC
TAGGCTTGGTTACAAAGGGCAATGAAGGGTCTTTTCTGTCCTTAAGCACTCACAGGTAGCTTAACAGTAATGCCTTGGATTCCTTCCTTCAAGAGCGAYA
GCAGGAAGCCCAGCTTCTCTGGTAGCAGAGCAGGGGTCCTCAAAGCAGACCGTGAGGTCAGAGGAGCACTGGAGTCAGGAGTTTCCATCTCCACCCTGCT
GAGTAAACTGTAGTTACCCACACAGAAAAGGAGGCTCTCCAGGCTGACAGGGTCACAAAGACACACGACTATGAGATGGAATGACTATAGCTAGAAAAAA
AAAAAAGTGGGGATGCCCCTCTTGACCATCTTATGCCTGAAATAAGGGAAGACATTCTTCTTTTTTATCTGCCAACCTCCCAGTGCCACAGTAAGCACAG
AGTCAGGCCTCGAAAAATACCAGTCCTTTCGCCTGTCCCCTCTCACATGGTTTGAATCCAAGAGGCTGTCATACCAGGCTCCCCCATTCAGTATATTTTC
TTTATGTTTAAATAGTTTGGATTGACTTCTCTTTTCTTTTATTTTTCTGTTGCTACTTAGGAAACCATCTCCAGGCTAGAACAAGTGCCTGAAATAGAGA
AGGGTGAGGTCACTGCCTAAGACACTTCCTCCTCCACCCACTCCTCTCTCAGACTCAGCTCCTTCCACTTCTGCCCACATGGCTGCCATTTTAATTTTTG
CTTAAATGTTGCAGCCAATATTTCATGTATTGTTGTTTTCTTCCTTGCCTGGGAGACTCTTTTGTCTGAGGTTCCCTGGTATTTTCCAGGGGCCCTTCTA
GCACTTCTGTGAACTCATTAGCTTCCCCTTGTTCCAGAAAATGTCTGTCATACATTACGTGCCTTTCTCTGTCTTTCCCTGCCCCTCTCACCTTCATCGA
TCACACTTTTGCTTCACAGAGGTAAGAGGAAATCAMACTCACACAGTATCTTTTGTTTTCTAGCAAGCTAGAACACAAGATTTTCTAGATGCATCTTTTG
AGTTGATATGCAATATTTTCCTTGACAGATTTGTTACCAGCTGAGCAGATATTGTGTCTGTGATGTATTTGAGTACCAGGTATCCCTGATTACCATAGAG
TAATGTCTTTTATTGAGGCTTTTATTATTATTATTATTATTATTATTATTATTATTATTAGAGACAGGGTCTTGCTTTCTTGCCCAGGAAGGAGTGCAAT
AGTGTAGTCATGGCTCACTGCAGCCTTGACCTCCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCCTGAATAGCTGGAGCTACAGGCAAGTGTACTGTGG
CAATTGTTAATGTTCACTTTTATTTCCATAGTTAGCCTTGATCGTTTAGTTTTAAAGAGTTATACAACACATACACACACATCTAATTGTTGTGTTATTG
GGTTAATGGGAATATTTTAGACTCAAGCCTGGTTCTTTGCTTCTCTCCAGCACAGCAAAGGATACACCTCCAAGTATAATATTGAACTTCAAAGTTAGTA
ATGTTCAGTGATGCTTAAGCATGTAGATCATAAAGTCCTAGACTATTTTTTGTCTAAATTATTGTTTGTAGTCAGCCTCTCTACTGGTTGGAAACACAGG
CTTGAGTTTGGCTTTCTGCTCTACCTAGTTCATTGCTGCAGCTGTAATCCAGCCTGATTCTAATTTTCAACTGGAGATGGTTGTCTTCTTTTTTATTCCA
TGAAACAAATTGATTAATGTGTCGAGGGAGCAAGGTGGTACTTATACCTACCCAGCCTGCTTGTGTGTGTCTCAAGGTGGAGAGAGGCTGTGGAAACAAT
AGAGAGAATAGCATGGAAGGCCACGTTGCAATTAAACAAGATTGGGAAAGAAGACGGGACTAAAATCATGCCTTGAAGATGTTTATCATATGAAGTTGAC
CTTGAGACCCCAAGACCGGCTTCAGTTTTCCACAATGCGGCTATTATGAGAAAAACAGTGACTAACTGAGCACTGTGCATAACTCAGTTCTCGGAATTTT
CAATCAGAAATTATCTGATGACGGGACTAATTCTTATTACGATAGTTCCAATGGATCCACCCAGGATCCACCTCCACAASTAGGTGTACAGAAGCTGGAG
ATCCCATCATGCCGCCGGGCACCGGTTTACGAGAACTCTATGTCTTATCTTGGTAGTACGATTAGGAAAACAAACACAATGGTTTCTGCCTTCAATGTTT
CCATGGTGAGGGCAGTTATTAGGCATATGCTAAAGTGTAATATCCGCTTTTTCAAACCACATTTCAAAGTTGATAGCATCAACGGCTTTAAAATCACTTT
TAAAGAATCTGGGCTTACCCAGTTAACAGAAATAGAACCTGCCTGTTTATCAGTGGGTTTGCCTCACTTTTCTGTGGGTTTCTTTTCTTTTCYTAATTAT
GCATTAAGAAAATAACTTAAGTTTCTGTGCATACAACATCTTCCTTTCTCATTCCCAGTACCCTAGAAACACAGCCGTTCACTGAAGAGGATTTGAGTGT
TGTCTCCTCTGTGGGGTCAMAACATCATGCTTCTTTCTGTTCTGCCCCATGGCAGTGGTGACGATGGCCTAGCTTCCATCCCGTAGCTTCTTGTGTTTTT
CTATTCCACCAGTCTATCAACCCTGTATTTGTTGTCAAATTTACACTGTCCACAGGCAAAGATCYATTCTCCTTTAGAATTTAATAGGAGGGTTTGGAAA
TGATGCCATGGAAACCCTGAGCAGCTTGGCAATGCTGACCCCAAATGAGAAATAACTATCATTGGTGTTTTCCTTCTACTACTATTATCTTGCCCATTGA
TCTTCAAAAAGTTCATTGGTCAAATTGATTGAGGAACGCAAGACTTAAATGTAATATGGCTCTGGCAAATTCTGAGATGCTAACAAAAACAAGTTTTCTT
AAGAACAATGTCAACTGACTCACAGTATCCGACTATATAAAGTCGAGTGCTCTCATGCCAGGAAGCTGATACAGTTCATGAAACCTCAGTCATTCTTTCG
TATTACTCCTGTCTTCTCTTTGGAAAACAATCTCATGAATTTGGTCTTGACGCTGACTTAACATCCCAGGAAACAGATACTCAATTCCACTGTCTTTTTT
GAGAAATGAACAGTTCTCAAACTTTGTTTAAATTTCCTTTTCACAGATGAGTAATAACCAAAGATATTTCTGAAAGGGCTCTGAAAACATGCAGGCAATT
GATCTTTAAAAATAAGATAGAAATAGTAGGTTTTATAAAAGAAGGAAATAGAAATACTTCAGAAGAAATAAAGTGTGCTGAATCATGTTTTAAACATAAT
TATATCCGGAATGCACTTACCCATTTGAAAAAAAAAAAAAGTCACCAAGTTGTTTCCAATTGTTTTTGTARRTTTGCTTAGTCATTTTCAGAGACAAAAA
TTTGGGAAAAGGATTGTAGAATSACTGGCTTCCCAAAACCACTTGGTGTTTACAAAGTTATCAAAAACGGGCTGGGACCACTGATGGTAATAACAAAACC
TGGGGCCCTGAATCGTGTATTCTACATCCGTTAGCACACTGAAGCCACACCGCAAACTTGTGAGGCCAGCGTTGCTTCCCCTACCCCTTCCGTCAAAAAC
CGTCTGAGGCTGATCATTAACTTGCATAAGGTCACATAGCTAATGAGAAGCAAACGCATCATAATGACCTGGGACATATGACACTGAAGCCTACTCTCTT
TCCACAAAGCTTGATGTACTCAGATAGTAATTAGTAAACATTTTCATAAATAATCTTAACCTTTTCAAGCATTTTTGTCGATTGGATTGTAGCACTCAAA
AGTAAGGTCTGTTTTACTAATATAAAATTGGGCCTGTGGAATAATTCTCTTCACAGAAGTGTGTGTGTGTGTGAGAGAGAGAGAAAATGTATATGCATAC
ATATACATATATTATTGAGACATAATTTACATAATTTATGTTCTATAAAATTAGCATATTTTAAATATACAGTTCTCTGGATTTTGAAAAATGTATACGT
GTACATAATCATGGATCCACCACCCCAGTTAAGATATAGAACATTCCAGGGCCAGGTTCAGTGGATCATGCTTGTAATCGCAGCATGTTGGGAGGCTGAG
GAGGGTGGACCACTTGAGGCCAGGAGTTTGAGATCAGTYTGGGCAACAGGGTGAAACCCCGCCTCCACTAAAAATACAAAAAAAAGAAAAAAAAAAAGAA
AAAAATAGCTGGCCATTGTGACATATRCCTGTAACCGTAGCTACTCTGGTGGCTGAGGCTTGAGTATCGCCTGGGAGGCAGAGGTTGCAGTGAGCCAAGA
TGGCACTGCTGCACTCTAGCCTGGGTGACAGTGAGACTGTCTTTAAAAAAAAAAAAAAAAAAAAAAAAAAAACCCAAAAAAACAAAAACAAGAACATTCC
CATCACGTCGGTAAGTATCTCATTCTCCTTTCCAATAAATCCTTTTATTCCCAGAAACAAGCATTCTTGTTTCAATCATTGTAACTTTGTTTTACCTGTT
CTAGAACTTCATTTAATRGAAATCATACCTACTGCTTTGTATGTGTCGTCTTCTGCTTAATGATTCACATAATGTTTTTGTGATTCATCCATGTTGATGG
GTGTATTAGGGGTTCTCTTTTTCAATGCTGGATAGTATCCTGTGGTGAAAATACACCACAATTCGCTTATCTGTGCACCTGTTGATGAGCATTGGGTTGT
TTATATTTGTTGGCTATTATGAATAAAGCTACCACGAATATTCATAAATCCTGTATACATGTTTTTATGCCCTTATGTTTTTATGTATTTTTGATAAATA
CCTAGGTGTGAAATTATTGACTCTTAGTGTTTAACTTGTAAGAATGCTGCCAAACAGTTGTCTAAAGTAATTGTATCATTTTAACCCCYCGCTAGAAGTG
TGTAAGAGTTTATGTTGCTTCACAKCCTCATCAGCACTTTGTAATTTCAGTCTTTTTAATTATAGCCTTTTTGTGGGTGAGAAACGCTATCTCTTGCTAG
TTTTATTTTGCATTTTCCTAGTGACTAATGCMTCTTTTTATGAACTCATTGGCCGTTCATATATTTTCTTTCTGTGAACTGCTTGTTTATGTATTGGCCA
TTTTCTAAAAATTAGATAGTCTTTTTAATATTGAATTATAGGAATTCTATATATATTTTGGATACATTCTTTTTTTTTCATATGTACTGTGAATTTTCTC
CTTTGTCTTGTCTATTTATTCCTTAATGGTATCTTTTGAAAAGCAGAAGTTATAAATACTGATAGTGTCCAATTTATCTTTTTCATTTGTTTAGTGCTTT
CTTGTTCTAAGAACCTTTACCAATCACCAGGTCACAAAAATATTTTCCTATGTTTTCTTCTAGACASTCCATAACTTCAATCTTTACATTCAGATCTATG
TTCCATCTCAAATTAATTTTTGTATATGGTGTGAGGTAATGGTAGAGGTTTATTTTTCTCTCCATAAGACTCTCCAATTGTTCTAGCACTATTTGTTCAA
AGACTAATCCTCGCGCTATTCAATTTCCTTGGCATCTTTGTCAAAAATCAGTTGACTATATATGTGTGGGTGTATTTCTAGACTGTTRTACTCCATTGAT
CTAATTTTTTTTCTTATACTTACYGCTCGATTGCCTGGAAGCTAGGTAATAATAAGGATTCAAACTTTGTTCTTTATTTCAAGATTGTTTGGGTTAGTTT
AGATACTTTCCTTTTACATATATATTTCCTGATCAGCTTCTCCATTTCTTTTAAAAAGCCTTGCTGGGAGTTTATTTGCTTTGGTATTGAATCTGTTGAT
CAATTTGAGGAGGATCAAAATCCTGAAAGTGTTGAGCGTTACCATCCATGAGCATGCATCTCTCCATTTATTTAAGGCTTSTTTATTTATAAACATTTCA
GTGATATTTGATGATTTTGAATGTGGAGGTCTTATACTTTTTTGTTAAATTAACTCTTACACATTTGATTTTTTTATGCTATTGTAAATGGCATTATAAA
ATTTCTTTTTTCCAACTGTTTGTTTCTAATATATAGAAATACAGTTGATTCTAGCAAACTGCTCTCATATCCTGTGATCTTAAAATTTATTTATTCACCT
TTTCCTTTTTGTTAAATAGATTCTGTAGAATTCTCTACATCTCTGAAYATAGTTTTACTTCTTCTCCAATTTTTATGGCTTTTGTTTCTTTTTCTTGTTT
TAATGCACTGGCTATAGCCTGTAGGACAGTGTTGAACAGAGGTTTTGAGACAGACATMATTGCTTTATTCAGGACTTCTCTATTATATGTGATSCTAGTT
GTATGTTTTCTGTACCTATACTTCATTAGATTAAGGAGTTTGAATTTATTTCTAGTTTGCTGAGAGTTCTTTTATAAATGTGTTCATATATATATGTTTT
ATATTTTTCTTATTCTTACTATCTGCATATTAGAGGGAGTTTAGCTCATTGGTTAAAAGGATTTGTTCCGGAAACCTAACTCCAAATCTTTGAACTTCCT
AGAAACCTGGCCTGTTTATTTACCCCGTATGTCACTTTCCTTTATCTGTAACTGGAAAATGTGTACGAAGAGCTTAATACAATGACTGATACACAGTGAG
TTCTCCATAAATGTTAGTTATTATTTTAATATTACAGCATCTGTGGAAACAGTGGGTTTATATTTCAGCGTCCTGAGAAACACTCATCCTGAACAAYGGG
AACATTGGCCRCATCYGCCATTGTCAATTTTAAATAAAAGATATGATGACTAGTTGGTGAGTTGATCTTGTAAGACTTTTACAGATACCCAGAACGGCTC
TACTTCTTCATATTCCACTTTTTAGTTTTAAAAGTTTAAGKAGATCTCTGTGATCCCTGAAGAATTGTGTGCAAAGCAGCATTAAGACGAAAATCTTTTA
TATTTGTGTTGTAGCTTGGAAAACTAGCGCGTGGTCTGTTTTGTTCCACTGGCTCCTAAGGTTCAGGTATTAACATAAATACAGCCCATTAACACTTGTT
CCTCTCTGTCAGGACATAAATTAAGTCTGCAGGTGTTCCATGAAGCTGTACCCTTGGTACTAATTAAGCCTTGATAATTAGGTTTGTTAAATTCAGGACT
TTAAGCTTATATTCCCTCCTTGGGCTACCAAAACGGAGATGTGCAATATACAAGCCCTCCTGACTTTTTTTTTTTTTTTTTTTTTTCCTGCAGAGAGCGT
TGCTGCTCCTTCTCTATTTTATTTCTTTATTACTGTTTTTTTAAATGAAGGAGTCAGTAACAAACCGTTCATCATTTTGCCAGAGTAGGGTGTAAACCTT
CATGCAGACCTGTACATTTGTTTATGACGAGATTAAAGTCTTTTCTCCTCCTGTTTTGTGTCAGCTCAGACACTGAAGGGGAAAGTTTCCAGCCTGGTTT
CTCCATACACTGAACATGTTGAAATCTATGCCTTAAGCCCAAATGARCTGTCACTCAAGTATGCACGCTCATATTATTAAAAACTGTGCATGTAATTTGC
TGGGCACCCAAATAATTTGTTTTTTATTTTTCCTTAAAAATGAGACTTTCTGTTAGGAAAGTGATTCATGAAACAGTGAAGATCCTGCCTCACAACTTTC
AAGAAACCSACAGAGGTCCCTATTCACATAAGAATTTTCTAAGCAGAGGTTCCAATTTGGATATTTCGTGGCCTTCAGGTTATTTGTAACCAGTACACAA
ACCACAAAGTCATAATCAGATAGATTTTCTTTCCAGCCTGTCTTTCCTCTTTGGTTGCTTTGTAAATCTATTACTCATCAGATCATATGTTTGGCAAATG
CCACTTTTCATTTTGAATCAATGGAATCATAAAAAACAATTCTACTAGTACCACTTTCAAGAATATTCATAGTGGTCATGCTAACGTAATAACCTCTCTT
TTTTATTTGAAGGATATTAAATAAAATTGTACTTTTAATCAGAGCCTTTTTTTGAAAAAAAAAAAAAAGAAAAAGATAGTTGATATTGTGGGAGATGGCT
ACAATACAGATTCATCCCATATTCTCTTTAATGTTCTATTCCCAAGAAGAGCACTAATTAATCTCTCTAGAAGGGTACCACAGTTTCCATGAGCGTTCAT
ATTTTGAAGTTTCCAAGAACATGTTCTACAGAATGGACCACTGCTCTCTTTTCAGACCCAACCCTTGTATCAGAGTTTGCACACATCTAGAAGTTCCGGT
TCTCCCAGTCATTACCTTTCTCCTTCAAGCTGGGATTCAGAGTCCATTTTCATAGGGCAAAATGCAGAGTTCGGGTTCCTTCCTATCCATGAGARTAGGT
GCTGAAGGAGATAAAGGAATGAAGACATAGACTTTGAAAGCAATAGTCTGGCAATCATCCAAAGGTTTGTGGGAGGACAAAAGATCACAAAGTATGTGTT
TGTGAAAATAAGACTATGTCATGAAAGCTTTAGAATATCCAACACATTATAGAATATTTTCACGGAAATATTTCGGATGGAATTTTGGCTTTAATTCTTT
CTCTTTTTTTCCTGTTCTTTTCCCTCTCCCCACAACCACTTCTSTTTCATTTTCTGTTTTGCTCCTTCTTTTCATAAGTAGCTGGTAGTCAGTGTTCTCT
TTTTCTTCCTGTGAGACAGGATCTCCCTCTGTTGCCCAGGCTCGAGTACATTGGTAGGATCTTGGTTCACTGCAGCCTGTGCTTCCCAGACTCAAGTCAT
CCTCCCACCTCAGCCTCCTGAGTAACTAGGACCACAGGCATGGGCCACCACGCTGGGTTAGTTTTTGTATTTTTTTGTAGTAACACGGTTTTTTCATGTT
GCCCAGGCTGGTCTTGAACTCCTGTGCTTAAGCGATCCACCTGCCATGGTCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTAGCGAGGTA
GTCAGTGTTCTAAACACTGGTGTACAATCCAAGTCTGTCGCTGCCCAGGATAGAGGAGGGATGACGTGAATTCACACGGGCCTCTCCTACAAATCTGAGT
GTACATCAAGTGAGGGGCGTCCCTCCGCACCTCACTGTTGGGCTGATCAATCCCATTCCCACTCCATTATGTGTGTATTTCTAAGTGGCAGATTTGCCTT
AGGAAATGGAAGAAGGGSATGAAATAGTGACCAACACAAATTACTGGGTTGGCGGGAGTTGAGAGCTGGCAAAATCGTCTTGGAGAAGGAAATGGTGCAG
ATTTCAGAGCTGGCAGACAGCATCTACATCCACCTCTGCAGGAAGCAAGGGAAACATTTTTCTTCTGGAGAATCGGGCAGCCTGCAGCTGATCCGGTGGT
GTCTGAAACCATCCTGTGTGCTGTAGTGTCAACAACTTAGCCTGGTTACTTTGCCACCAAACCCCACCAAATGCCTTTGTATCTTTTTCAGAACTGCATC
TCTGCAGCATAATTGATATTACAGGAATGAAAAGTGTTCTGAGGCATATTATTCCCAGGGTAAAGAGTCACCGCTGATTAATTACCTCAAGGACAAGGGG
ACGGTGACTTTTTCTCTTGTATCCAGCAGCGCCACGCGGGGCGGGCGGGAGASGCAAGGCTAAGAGGTGGATGAAAGGCTAGGGTTAAGGCATTTCACAA
TGTCAGGCATCTTGTTAGACTGCGGCTTTCCAGGCCTTCCCCCGTGACTGCTGCGGGGGCCTAGGCCAAAGATATGCCCGAGTAGAAAATCTGACACCAG
CTTCCCAGTTTTCTCTTCTGCTCTCTTTGGCTGCAASGCTTTTACCATGGSYAAACCATTAGGCCGGCTCTGCAGGGAGGGCAAGACCACAGCAGCTCAG
TATTTCCTGCTCAGGGAAAAAGGCCAGGTCTTTTGTTGGTGGAAATSCACTTTTCCATCCACTGTCTTCTAAGAATGAAAGTAAATCTGTTGTGCTTTCC
TCTGCCCTGTCCTCAGGCTTAGCCTTAGTGGGCCTGGTTTTTGCCCCCCTCCAGTTTTAGCTTCCCATCTAAAATACAAGGGAAAAGACAGCAAGGACAG
GACACTTCCTCCTAGTGTCTTGTAAAGCTGCAAGGGAGTCGCGGCTGAGTCGAGGATCCACATTCCTGGATGAGTCCTTTTGTTACCAGCGGAGGGTGTC
CGGGTTCTTGGCATTTTGAAGAAATAGTTGGACAAAATGCACAAACAAAGCAAGAGAAGAATGAAGCAACAAAAGCTGAGGTTTATTGAAAGCAAAACTA
CACTCCATAGAGTGGGAACGGCCCAAGCAGCCACTCAGGGGCCCTGGATAGAGAATCTTCTGGAGTCTAAATACTCCCTAGAGGTTTCCCATTGGCCACT
TGGGGTACACCCCTTATAAATGAAGTGGTGGCCTGCAATCAGTCTTATTGGTTGCAGAAAGCAACCRATCAGAGGCTGAAGTGAAGTTACAAATATCACA
CTCCTATGCAAACATCTGATTGGTTTTGGAAAGCAACCAATCAGAGGCTAAAGTGAAATTACAGAGTTGCTCTTTTATGCAAACGAAGACTCCGCCTCCA
GTCAGTATGATTGGTTGTGGGCAGCAACCCATCAGAGGCTGAAGTGAAGTTACAAAGTTACACTCCTATGCAAACGTCTGATTGGTTGCAAAAAGCAAAA
CCACTCAGAGGTACTTTCAATTTCCCATCTGCCCTGCAGAAAAGGTAAGGGGTTGCAAAAGAGTAGCCCCTCCTCCTTTTGTTACTTAGGCGTGGAAAGT
TAAGGGTTTCCTTTCAGTTTGGTTCTAAGAAGTCAGAGTGAAATGGCTTTAGATTCCCTGCCTGCAGATTCTATTCCCCAGCCTCACTTTGAGAAGCACC
TGGACACTTCGCTCTAGGCACGTGTCTTCTTCAAGCTGCCATCCATTATGCATAGTACAGGAGCTCAGAAAAGTCACCCGTGGGTTCCTTTCTAGCTCAA
TCATGCTGAGAGTCCAGTCCATTTATAACATAATTCATAAAGGAACATTCTATTTAGTTCTCAGAACTCTGTGGCAGGGGACTGTTGTTATTCCTCCTTT
ACAGAGGTGGGTCTGAAGGTACAGAGTGGATAAGTCATTTTCTCCGGGCCAGCCACACAGCGAATGAATGGAGAYTCCTTGTGTGTAGTAAATGGCTGCA
GCCCTATAAGCTATAATCATATATCATCAACACCTTTACCCTGTTATTAACGTGTCTGAAATTAGGGAACACCACGTACAAAAGGGATCAGGGTCCACCT
TTCTGAAGAAAACTGCAGAGCTTTTGCAGTTATTAAACTAGCAACAGATGTAAAGTCCAACTGTTAGAGTTTTTCTTTAAAGCAGAAGTTAGCARTTACA
GGTGCTTGTGATGTCATCACTTAGATGATCTTATAAATGCCTTTTTTTTTTTTTTTTTTTTTTTTAGTCGGAGTCTCACTCTGTCGCCAGGCTGGAGTGC
ACTGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCGTCCTGAGTAGCTGGGACAAGAGGAGCACACCACT
GCGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCAGCATGTTGGCCAGGATGGTCTTCTTCTCTTGACCTTGTGATCTGCCTGCCCCAGCCT
CCCAAAGTGCTGGGATTACAGGCATGAGCCACCGGCCTGGCCATAAATGTCTTTTCTGGGTGGGGCATGGTCACTGGAAATGTAAACCCTCCCTTCCCCA
GGTCAGCCTGCCTCCCAGGTGTTGGTGCTATGATTACAGTGACCACATAATTTATCATCCACACTGGCACCTTTTTGAGAGAGGATGGGGAGCAGGTAAT
TATGCTGGGACAATAGGCGTATGTCAAGATATCTGGTCACCCTATCTATGATCTGTCACACTTAGTACTTTCTAAAATTCTCGGGCCTTTGCACCTTCTT
TTTATCAACGCTTAGTTCTATGTTACTGAATATTTCTTAATTAAGTGCAGGAAAGAAAATAACCAYTTTTTCTCCTTTTAAAGAAGCACACACACCTTTC
TTTTATTGGTATTACATTCCTTTTCCCTGTTGGTGCCCCTGTTGGTTTTCCAAATTGTCTTCCCATCCTTGTCCTACCTCCCAATAGAGTACCTCATCCT
ATAGTGTTATTATAACTACAGAAAATATATTTTCATTCCTTCCACTTCATGCTTTCAGCTAGAAATGTGAGTCTCTGAGACTTGTATTCTTGGGGTCACT
TAAAACATAYTGCATAATGAGGCCTTCAATGACTCTGATTTGGAACTGACCCTCTATGAGGGGTTATACCCCTGGACACCAAGCTGCTGGCCTGAGCATG
AGGTTGATGGCCAATCTCAGGAGAGGAGGAGGAAGAGGAGGAGGCGGAGAAGAAAATTGCGTGCTAATTTCAGTTGTATATTGAGCCCACACATATTTAC
TTCCAATATGAAGCAAATCTAAGAAAAATTCTGCTTTAAAGAAAGAAATGTAAATCAAGTGACTGTTGATGGACGCTTGGAAGAATTCTTATTTATTTAT
TTTTTTGGACAGGCTTTCACTCTGTCAGCCAGGCTGGAGTGCAAGTGGCCCAATCATGGCTTACTGCAGACTCAACCTCCTGGGTGCAAGTAATCCTCCC
ACCTCAGCCTCCTGTGTAGTGGAGACCATAGGCATGTTCCACCACACCTAGTTAATTTTTTATTTTTTGTAGAAATGGGGTCTCACCATATTGACCAGGC
CGGACTCAAACTCCGAGATGCACGTGAATCTCCAGCTGTGGCCCCTTCCAAAGTGCTGGGATTAGATGCATGAGCCACCTGGCCCAGCCAGAATCCTTCC
ATTAATAAAAGGATGGACCATGAACTCCCTTTTATGATATGAGCCGATCAAATGTGAGCAGAATAGTATCCTATTTATACAATGTAGTTTAAAACCAACT
TCTTAGAACCATGAGCTAAGGGGGAATCTGGATTTCAAATGCTAGTTGCATCAAACACGTTTCCACCCCCTCAAAACGTGGCCCAAAGTCATTAGTGTCG
GAGCACCCAGCCATCCTTGGCTCCTTCCCACCTATGTTGATTAATTAAAGGACCCAAGAGCTAAAAGGGAGAAGTAGCTGCATGCTTGCCACTTAGTAAT
ATTTTGATAAGTATTTTTGGGATGAATGCAATGACGCATGAATGAATGAATGAATGAATAACATAGGCTACAGTATTTTGTCTTCTTGGTTAGGGACCTT
GAGTAAACTGAGGAGTCTGAGGGGAATGCCATGGAAGTCTGTAAACCCAAAATCCTCAGCGAAACCTCAGCCATCTAGGGACATCTGGGGCAGCAGAGAG
CCACTGGTGTGGTGAGTTATCTCCCTGGGCCTTGAGATAGCCATGCTGTTTTGTCTCCACAAGGAAGAAGTAGGAGGCATAGCCCAAGGCAGCTTGAGAG
GAAAGCCTCTTGGCCTTGAATAAGATGACTTTGTTACTGGGCAAAGAAAGCCCGGCTGGAAGTGCTCTTTGATATGCAAATATAGCCTGATAAGGATTTC
CTCTCCTTCCTACTTTCCCTCCCCAACCCTCCCCCAAGCTAAAATTCTCTTCCCAGGAGCCCTGTCATCAGCAGGGAGTTTTCTGTCTTTGTCCCCATCT
CTTCACTTGTGCTGTGCAAAATCAGGCCACGATTGCAGGGTAGTCCACGGCTTCCAAAGAGAACTGCATAAATATACATCTTTCAGGGGAAGAGGGAGAA
CCTGGAGAAGTCAGGAGAGCAAAACCATGCCAGTCAGCTTCAGTGATGATAAAGGTTACTGTTGGATGAAAGTTTGCATTTTGTTGTGGTGTGGGAAGGA
CCTTATCCTGTCAGCTCTATGGATGTGCCCAGTTTAAGCTCTGAAAGTTCCTTTAACTTGAAATTGTTTTTGATCATGTGACAAGGTCTTCTGACCCTTT
ATCACCCACAGTGTTTTATTCATTTGCTCTAAACCAGCAGTAGGTGAAGTTAGGAATAATATGTCAAGCTTCCTAACTCCATGGTGCTCTCATTGTTGTG
TGTGTGTGTCTGTGAATAAACACGGAAATAATTACGCAAATAAGCTATTGGCAGGTGGTGATAACGTAACCGCCCAATGGGTTCATTCTGCCTGATGCCC
AGATAAAGCCGATTTATCTAGACAGGGGAATTGCAATAGGGAAAGAGTTTAATGTTGGTAGAGCCAGCTAAACGGGAGACTGGAGCTTTATTGTTACTCA
AATCAGCTTTCCTGAAAATTCAGAGACTGGGGTTTTTTTAAGGATAGTTTTGTGGACAAGAGAATGGGTACTGCTGATGGGCTGTGGATGCAATCATAGG
GGTGTGTAAAACCCTTGTGCCCTGAATCCGCTTCTGGGTGGGGGGCAGGGCACAGGACCAGTTGAATGGGGATGGGGCTACCAGTCCTCAAAAATGCAAA
AGCCGGAAAAGACATTTCAGAAGGCCAACCTTAGGTTCTACAAAGTGATGTTATCTGCAGGAATAATTGGGGAAATTGCAAATCTTGTAACCTCTGGAAT
AATGGCTGCTAATCGTTTATGTCCACTCTTTAGCAGAATTCAGGCTCCTGTCCTCCTCCTAACTTGGTGGTCTTTTGCTAGCTTTACAAAGGCAGTTTAG
TTTGGGGGTAGGGCCATTATCATTTAAATTAAGTACTAAATATCCCCCCAAAGTTAGCTTGGCCCAAGCCCAGGAATGACTAAGGGCGGTCTGAAGGTTA
AAGGCAAGATGGGGCTAGGTTAGATCAGATCTCTTTCACGGTCATAATTTTCTTACTCTTACAATTTTTGCAAAGGCAGTTTTAATAACTGCTATTTAGC
AAAGACAGTTGGGTAAGTTACTAGAGGGAGTATTACCTTAGATGGGGCCAGGAGGGTTTCTCTGAGGAGATCCCATTTCAACAGATCTAGAAATGTAATG
GAGCCAGTCCTAGGGAAACAGGACTACCAGGAATCCTCACCAGCCCSGCAAAGACGAGGGAGCAGCAAGTTCCAAAGCCCRTGGCATGTCAAGGGTCGAT
GAATTCACCAACTGCAAGGGGCTTTGGTGACCCCAGTGAACAGATGAGAAAGGGGAGGAGGCTGGGATCAGTGCACAGCTTTGCAGGCTTTGGGAAGGAA
TTTCGAGTTTATCTCATTTGTCCAGGTATTTGGATGAAGCCCTGGCATACTAACCCTATGAAAGTTTATAGTTCCCAAATTGCAGGATAACAAGGCTCTG
TAATCTTCATTTCCTCAAAGTTTTACACCAGGATTCTATGGCCAAGTGTGTGGCAGTGTCACAACTTAAGAGCCAGTGTAATTGCCCAACGGGTTCTCCT
TGCCCGCTGCCTAAGCAAAGCCGATTTATCAAGACAGGGGGATTGCCATAAAGAAAGAGTTTAGGTCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCA
TTTTGGGAGGCCAAGGAGGGTGGTTCAACTGAGGTCAGGAGTTTGAGACCATCCTGGCCAAGGTGGTGAAACCCCATCCCTACTAAAGATACTAATATTA
GCCAGGCGTAGTGGTAGGCGCCTGTAATCCTAGCTAGTCGGGAGGCAGAGGCAGGAGAACTGCTTGAACCTGGGAGGCAGAGGCTGCAGTGAGTCGAGAT
CACACCACTGCACTCCAGCCTGGGCGACAGAGTGAAACTCTGTCTCGGAAAAAAAAAAAAAGAGTTTAATTCATGCAGAGCTGGCTGTGTGGGAGACCAG
AGTTTTATTATTACTCAAATAAGTCTCCCCCAAAACTCAGGGATAGAGATTTTTAAGGAGAATTTAGTGAGAAGGGGGTCAGGGAATGGGGAGTATTGAT
TGGTCAGGTTTRAGATGGAATCAGGGAGTTGAAGCTGGCCTCTTGCACTGAGTCAGTTCCTGGGTGGGAGCCACAAGACCATATGAGTCAATTTATTGAC
CTGGGTGGTGCCAGCTGATCCATCAATTGCAGGGTCTGCAAAGTATCTAAAGTACTGATGTTCGGTTTTACCATAGTGACATTATCCCCTGGAGCAATTT
GGGGAGGTTCAGAATCTTGCRGCCTCCGGCAGCATGACTCCTAAACCCTAATTTCTAATCTTGTGGCTAATTTGTTAGTCCTGCAAAGGCAGTCTAGTCC
CCAGGCAGGAAGGTTGTTTATTTTGGGAAAGGGCTGTTATCATCTTTTGTTTCAAAGTTAAACCGTAAACTAAGTTCCTCTCAAAGTTAGTTAGTCCTAC
AACCAAATCAACTTTGAACAAGACAGCCTGGAGGTTAGAAGCAAGATAGAGTCAGTTACATCAGATCTCCATCACCTTCATAATTTTCTCCGTTATAATT
TTTGCAAAGGCTGTTTTAATAACAGCCAGTCGTTCATGTTTCCTTGTGCCACGTGATTATTTTGTACAGTCAACATTAAGAGACAGGCACTTGTAAATGT
TGAGATGCCAAGGGGGAAAGAATTTTAGAATCCAGATCCGCTTTGGTAAGAGTGGCCTTCGAGCCTCATGTATTCTCTGTTCAGCTGTTAAGATTGTTAT
TAAACTTTATGGACCATAAACCCCACAGAAACAAGGAGGTTGAACAACCATGCTATTACACAAGTGTCAAAACAGGAGCTGTATTTCATGTCCTGAAAAG
TGTGCACGGTTGGCCTCCTCTAGGTCCCACGTGCCTTCTGGATGGTTTTAACCCTCAGCCTCTYTTTGGCCTGTGAGTGAAACCCATCATTTGACACAGA
GGCTTTCTGGAAATGATGCTCCTCTTAGATGAAAGTTCCCTTTCAGAAATCTTTCATTCCCTGACCTCTGTGTCCATCCCACTAATATATTTCTTACCAG
GAGTACATAGTTTGTTCTTTAAGCAAAACCATATGCATCGTATTTTAAATGGAACAGGGAGGTTGTTCCATGCRTCAACTTAGTCCAAAWGTAGAGGGTC
AGGAAAACAATGATATGAGARAAGGGCCGGTTACTGTCTGGGAATCCATAAATACTGCTTGGCAAATGGCACATTGCATGCTTATTCCTTAGGCATCCGT
TTAGCAAAATAAGATGTCAAGCTAATTGTAATGATATTTCTGGGGTTTCATCTTCTCTCCCTGGTACATAAAAGAATGCAATTCCACCTATATTTTGATT
TAAGATCAAATTTTTGCAAAGTATAATTACATTTGATGTAATTGCCCATGCAACCCAGATGTCATATATTTATGTTATTATTATCATTTTTCATGTGTAG
ATGTGGTGATCGTTTGTGCTTTGTTAAATATTCCTCGTCTGTCCTTCTGGGGATGATGCTTTTTCTCCCTTTTTGGTCAGGCATAGATAGGTGACTTGCT
TTAGCCAAAGAAGCATGAACTGTCACTTCAAGGGGGAGATTTACAAGCCAGTGCAGGTGGATTCCCTGCTTTCTCCTGACATCATGATCATGGACTCACA
TGACAAAATGGATCCTCCATCTTCCAGCATCTCTGATTGAGACTAACAAGGGCCCTGACAGCCTTTTCTGGACTTGTAGTATGTGCAAGAATTAAGCTTT
TTCTGTATCAAGTCACCGTGTTATGGGGGTTGTTCCTCACTGCAGSAGAACCTTGTTCATCCGTATTAGAACAGTGTGGTGTTTCATGTTAGCAGAGTGT
ATCAGGATCTTTTGTTTTTTTTTTTTTTTAAATTAAGGATGCTGTATGAGTCTTTTCTCATACTACTGAGAAAGACATACCCAAGACTGAGTAATTTATA
AAGGAAAGAGGTTTAATGGACTCACAATTCCACATGGCGGTGGAGGTGTCACCATTATGGCAGAAGGCAAACAAGGAGCAAAGTCACATCTTACATGGTG
GCAGGCAAGAGAACTTGTGCAGGGGAACTCCCCTTTATAAAACCATCAGATCTCGTGGGACTTACTCACTATCACAGAAACAACATGGCAAAGACCCATC
CCCATGATTCAGTTACCTCTCACCGGGTCCCTCCCATGACGTGGGAATTATGGGAGCTATAATTCAAGATGAGATTTGGGTGGGGACACAGCCAAACCAT
ATCAGATGCAAAGTTATGCATATGTTGATCAGCTCAATTTAGCCTTTCCATCATGTTTACATATTTCAAAATAATGTGTTGTGCACAATATATATGTGCA
ATTTTTGTCAATTAAAAATAAATTAAAAAAATTAAAAAATGGCTTTCCCACAGCCTGTCGACTTCCATCCCCATGTGTGGCTCTCCCCAGGGCCTCCCTT
CTTGTTCTCCCCAGTTGCAGACCTCAGACAGGAGTCTGCTTGTCTTCCTAGGCCCTTGTCAGAGTGGAAGGTGGCYCTCCACCACACCAGCCCACTTTCC
AGTTATCAAAAAGGATCTTTGATTTAATATTTCCAGAGCAATTTTGGTGATTTCCATTCAAATCTGTTTTTTGTCATAACTACCTTGCTTGCCTATGGGA
CATGTTCCCATTTCAGTGCATACTTGACCTTTACCATAAATCACATATTTGTAAACTGTACCCTCCTGCTGTTTTAYTRGGCATGGAGAAGCAGTCTTTT
CTTTTTCTTGATGGCCTGGGTTGACCAGATCCTGACTTTTGTGGAGACATTAAAGTGCTAGAAATGATAATGGTGAAAGATTCAGAAGTTGAAGGAGATA
TAAGGAGAGAAATGGACAATTCTTTTGGTAATTGAATGAAATAAGACTCTTAGGAAAATTCTCCCCAGTGGCAATGTTGTAAGAAACACCAGGCCGGGCA
CAGTGGCTCACACCTGTAATCCCARCACTTTGGGAAGCTGAGACAGGCAGATCACTTGAAGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTTAAACC
CCATCTCTACTRAAAGTACAAAAATTAGCCAGACGTGATGGTGCGTACCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGG
GAAGCGGAGGTTGCAGGGAGCTGAGATCACGCTGATGCATTCCAGCSTGGGTGACAGAGCAGGACTCCATCTCAAAAAGAAAAACTCAACGAAACACCCC
AGCTTCTATCATTCTCAAGCTTAGTGTGTGCAAGACTCATGGATGCTGCTTGTTATAAAGGAAGATAAATTATGAACAGGCAGACTGGTCTGTGAACCTT
ACCCAGAAAAATACACAGTAGTCCAGTATATTGGCCTCCAGGGCAAAGCTACCTAGGTTCTGAGTCCAATTATGGCCTTCATGAGTCTTGTTTCTTTGGA
CAGGTTTTCCAGTGTCTNTGCGCCTCAACTTCCTCATGTATAAAGTGGAGATGATGCCATTACAGGTTGCTGCTTTATGGCACATAATTAATACTAGCTC
TTATTTATAGGAACTGAACAAAGCCCCAGTTGTTTTGAAGCATGTCCTATCATTAACACAGGTAATCAGGATATATTCATTGAAGTCTCACTGTGTGCCA
GGCACTATGCTATGCACCTTAYGTGTGTTATTTTATTTCATCCTTCCAGCTCTGGGAGGTGATGACTGTCATCTGCATTTTGCACATGACAAATCTGAGG
GTCAGAGAACTTGCCCAGGGTCACACAATTAGTAGATGGCAGCTCAAGGGGTTTTTGCCTGCGTCTTCACCCAAAGCCACTAACACGGGATCTGTCAATT
GCATTGCTGGTGATCAAGAAATGCCAGCTCCTCCRCTCTTCCCTGAGTGCCTTGTTGGAGACAAAACCAGCAGGATTATATCCCCAGCACTGTAATTTAG
TGTGGCAGTCAGGGGAAAACACCTTGTAGAATTTCATTTCTTATCATTTAATGTCCCCTTTAATTCTCATTTAAGTTCCCCTCTGTAAAAGGCAGTCCCT
TCAGCTCTCATAAAACTTTATGGTCTTTACTTGTGATTAGGCAATGGTAAAATTGATTCTCTAAAACCAACTTCTAGTCAAGTTATGTAATTAGCCAATA
AGGGAGGCTGAGAGAGGAAGATATACAAGGTTCTCCCTCAAGAGGTCAGACGTATTATCATTGGTTAGATGCCGTATCTTTAAAACACCATCAGCTTGGA
AAACACTATCCATTAGCAAGAGATCAGAGCAAGAGAAACCTCGAAGGGTCGAACGGTCCRTTCTGAGGGCTCCACAAAGAACTCGGCATCCCAGAAGGAT
GATTAGCCTTCCATCTCTCGAGTTGTCTCAGAGCACAACAGGTCTGAGTGTTTTTTTCTTTAATGAATTAACCCTTTGGATTTCAGCCCTAGCTTTTGCT
TCCCACATCTGACATCCTGCCCTACCTCCTGCCAGAAAAGATTTTGATTTCGATCATGGCAGTTGCTGTCGCTGAGGTAATATGAGGAGATCCGAGACCT
CATCCTTGCAGGGAGTGGGCTTGAGATAATTCTCGTTACAAGTTTGCCTAGTGCTTCACATAAGCAGAGGCCCCAAGACATCAGCAAGCCCGTTTTTTGC
CTCTTCCTGGTTCATGGTTAGACTGCATTTTTGAGCCTCTGCCTGTTAGGTGCAGCCATGTGCCTGAGTCTTGGCCAATGGACTGTTGGAAGACGAGACG
TTGGCCCCTTCTCAACCTGACCTGTAAAAACCTGTCTTGCAAAACCCTCACGGCTCTTTCCCCTGCAGTCTTGATGTGAACAAGCATGATGATGTTGGAA
GCCATACGCAAGCTGGATAGAGCCAGGGTCCCTGAGTTCACCACCCAGAGCAAAGTCACTTGTCGATCAGAAATACAGAACTAGTTTTGGACTTGATGTG
AGAAATCTTTTACTGTATCATAGTAGCAAGCATTACCCCAACCAATACCTGTGCTCATACTGCTACAGTTTTTTTTTTTTCTTTTTAGTGACTGGGTCTT
GCTATGTTGCCCAGACTTGGGTGCAATGGTGCCATCATAGCTCACTGCAGCCTCCAACTCCTAGGCTGAAGCCATCCTCCCACCGTAGCCTCCTGAATAG
CTGGGACTAAAGTGTGCACCACAATGCCCAGCTAASTTTTGTATTTTTTGTAGATACGGGGTCTTGCTATGTTGTCCAGGCTGGTCTCAAAGTCCTGGCC
TCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCTTGGATTATAGACATGATCCACTGCACGTGGCCCATACTGCTATTCCAGACAAGAAATTGTACCA
GGAAATTCACTGATATTATTGGTCCATCTGAGGATCATCAGAGATGAAAATGAGATTTGACAACTGCATTTGGAAATGGAGTATGACAGTATCATTCTGA
TGTAGGGAGGATATCACCTCACAGGAGTCTTTCCTGGCTATCCTGTCCAAAGTCACTACTCACAATTTCTCTATCCCATAACTCTATYTTATTTCTCTGT
CTAGCACTTATCACTATCTGATATTTTCTGTCTATCCATCCGTCTATTCATTCATTCATTGCTAATTTATTAGTATTGCCTTCCCATGAACTATTAGCTG
CCAGAGAGCAGGGACCTCATCTGTCCTGTCCACTCATGTCTTCAGCACTTAGAACAGTACCTGGCATATAGGATGAGCTTCAGAAATATTTGCCGGTGAG
TGAATGAGGGAGTGAATGAATGAGGGATTTGCAGCTTGAACGCTGTACTTTGAAACAGTTCCAGATTCATGAAATTTCTTTTTAATGCAGAAGATTTCTT
ATGTGATTAACTGAATGGGAATTGATGCTTTGTGGAATGAAATGGATTGAGTACAGAGTGTGGGATCAAGAACTTTTAGGCACTGTGAGTATAAGAGGGA
AACCAGGCCGGGAGCAGCGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCGGAGGCGGGCAGATCACGAGGTCAGGAGATCCAGACTATCCTGGCTAA
CACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAACTGGGCATGCTGGCAGGCGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAAT
GGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCAGGATCGCGCCACTGCACTCCCGCCCGGGTGACAGAGCGAGACTCCGCCTCAGAAAAAAAAAAAA
AAAAAAAAAAAGGAACCAGATGGCCCTGCCCTTGAGCAGGCTGTGGTCTGGCCTGGTGGAGAGACAGAGAATCAGTTAATTCCAGGGTCATGTATTAGGT
AGTAAGATAGTGGTTCACACCAAAAACATAGAAAATGATCACTTAGCCTGATCCAGAAGTTCAGGAAAGGGCTCTGAGCAGGAGATGGAAGACCTCTTGG
CTGGTTAAATGGAGATCAAGTGGCAGCTTGGACTCCTGCTGCAATTAAAAAATTACTCTCCAGTTTTCTTCATGTGCCTCCCCATTCACTCCACCACCAC
TCACCCCAAATCAGATCATGATTCATTTGGGTTGTACCGATTAAGAGGGTTCCCTTTACATGACCATTCCAGTCATGAAACAGAGAATCTGGTCACCTGT
CCTTTATCTTGGCTGGTCCAATTCCATAAGAAGTAAATGCTGTGTGTCTGCAATTCAAAAGACCCCTTTCACGGGAGGCTGGGAGATTTTTCYATCTAAA
TAGCTTAATTGTTACTCTACAGGGCAATCATAAATGTAAATCGACTTAATATGACTTGATTGTTAGTAATGACTGTGCCTCTAATGACGCTGGCCAATGA
GCCTACACAGAATGTCGCATGCAGATCAATGAGCCAAATGTTAGCAGGGGACTGGGCATTTGAAGATTTAAAAAAATGAAAAATTGCACTGTGACATTGC
TGGTTCCTATTAGCAAAATAACAGACAGTGTTATCAGTCATTGACTCAGAAGATAGTTTCTTACCGTTTGGGGAAAGTGCTTGTCTATTCCTCTCCAAAG
CCATTTWAAAAAAAAAATTGCACCRGTTCTCATCCCATCATCTGCCTTGATCAAACATTTGCTTATTGGAATCACTTCGAAAAGGAACTTGGTATCGTTC
ACATGTGTTTATAACTCTCAAATCTTCTTCTTCCAATTTTTAATCTTSATCACCACAGCTTTATAACAGGAAGAACGCTCAAAGAAGAAAAATAGAAGAA
GCCTGAATTTTAATTTGCTATTTCTTCACACACAAAACACCCCAAGCTCAATCAATGCCCAGAAATGAAGGCCAATAGATGATAGTGGGGCCTCAGATTT
CCCACCTATTGTTTTGAACTCTAATTAGGGAAAGGGAATTTGGAACCATTGTCTTCTCTGAGTGTGCAGACACGATGTTATCATTGTGTTTACAGAGGTG
GTCAGATTCCCAKCACAGTGTACTCCCGCACAGATAACCGTCCCATCTTGATAAAACAATGCTCTCAGCCGAATCCTAAACACGCTGCACAAGGAAGACC
TTATGCTGACAGTAGGGAGGAAGCGACATGTTAACAAACAAGTTTGCCGGCCAGGAAGTTTTAATCAGCCCTTTCTACTGCAGGGGGTATGATGGATGGA
GACCCTGTTTCAGAGGGGTTTCCTTTAGATAAAACAATAATACCATGCTTTCAAGAAGCTCGTTCGACAGCTGTAAAGCTATGATTAATCCCCCAAAAGT
CAAACATGGGAAGACTGGCAAGATGAGATTATTCACTGGGTATAATTAGCCACAATTATCGCTAAAGAGAATTTGGGGAGATTCTGCTCTAAAGGGAAAA
GCTTTGTAAAGGAGAATTACCAGTAGAGTGACCTTATAATTTACCATCCAATGGATTTTGAATACTTYTGAGAGAGAAATGAGATACTGATAATAATTAT
ACCAAGACAACAGACATAAATTGGGATTGGCCTAGACGAGCAAAGATGAATGGTCATTCTGTCTGTTAGTAAAATTCCATCCCAGGCACAATATCTCAGA
CTTGAAACAAAATAAAAGTGATTCTTTCTAGGATAAACTCTAAACTAAGTGTCTGATAAATTCTGGGAAAGTTTATCCAATTGTTACAACCCAGGGTCAG
GAAAACTGTTTTCAATTTTCTGCTGTATGAAGTTGCCAGTGTTAAACCCTTTYGATAGCAAGTAGAAGAAATGTTCATTCAAACAGGCTTAATTAACTGA
AAGATATAGGTGTGGTAAGGGGATCAGGTAAAGCTTGACCCAGGGGCTAAACTTTAAGGACCTGGTTCCCCTCTTTTCATCCCTTGGTTTTATTTTTCTC
AGCATTGGCACCATTTTGTGACAAGCTCACTCCTTGGGTCTTATGACAAATGTTGACTCTTCTAAACCACATCTTTCCAGATTCAATATAGTAGGAGAAG
ACCAGACTTGCTCTTTTCCTGGAATTTAGTCTGACGTGGCTGGGACAACATGCCCACTCTCAACYAATTTTTGTAGCCATGGAGATTTGGAAGTCTGGCA
AGTCTTGGGTCACATGATCTACCTTACAGCTGTTACTRCAGACCTCCCAAAGCTCACGAACTGAGAGTCAGGAGGCGTGGTTCCCCTAACTCAAATCAGA
ATTTCGTTATCAAAAGAAGAGAGGGATGGTTCTGTGGTGTCCCACACTCAAATAAACATCCTTTAAATACCTCTAGATGCTTATAATTCCTGTTGCAGCC
TTAGTCAGTGGGAGCCACTGASCTGCATTCGTGTAGGAACTGAGCAAGGTTCATCTAGTCTCGGTAGCTASCTACCCCGAGAGCTGGCTGATTTTTTTTT
YCTTAAATTTAATTCAAGACTTCATGAAGTCAACAAAATGGTCTGTTGGAAATTATTCCTAACCCCCAACCACTGTCACTGCCACAATCAAACATATTTT
CATTCTTTTGCAGCTGCAGCCCTTCTACTTGAACTTTCCCACTCATTGCCCTTATAACTTGCCATTTAATATCTCTTGCTTTCCTACATGGCTGTGACTA
CTCGTGGGCAGGGACTGTATCTCCTGTTTTTGGTAGTGCCTCCAGAACCAAACACCATATGTCATAAGGTCTATTAATAAATATCTGCTAGTTTTTAAAG
TTTGAGAAAAACCCGTATTGTGGAATGAAAATGATACTGACAAGGGAATACATCTAGATCAGAAATACTGATATCSTAAGTGAGATCTTGTTTTTTAAAA
CAAAAAAAAGTTTAAGAAATTGTCATATAGGCTGGGCGTGGTGGCTCACACACATAATCTTAGCACTTTGGGAAGTTGAGKCAGGAGGGCCACTTGAGGC
CAGGAGTTTGAAACCAGACTGGGCAACACAGTGAGACCCCACCTCTACAAAATATTTTAAAATTAGCCAGGCGTGGTGGTGCATGCTTGTAGTCCCAGCT
ACTCAGGAGGCTGAGGTGGGAGGATAGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCTGTGATTGCACCAGCCTGGG
TGACAAAGTGAGACCTTGTCTCAAAGATAAAAGAAAGAAAGAAAGCCCTATCAAAATTTTAAAAAATAAAACATAAGAAAAAAATAAATGGATACATGAT
ATTTGTACTTCTAAGAGGCATCTTCTATACATTTCCTGTTTCTCTCTTCCTTTTCCTAAGGAGTCCTTGTTGATTTGTGGCCATGAAACCTCTCTCCTTT
CCAGGCTGGCTTCTTACCTAGGTCGTGTCCTATCCCTTTATTTTCTGGCAGGGCTGGACTGTCACTTGGTTGTTCTCGGTTTCAGGACCCACGTCTTTTG
TCTCTGTAATGAATGTGTTCAGAGGTCTCTGCACAGAGAAGCTGGCTGTTAGGAAAACTATTTCTTCTTTCCGAGACAGGCTGCAAAATGCTTGTTACTA
TTTTGTGTATTCCTGGCAGGATTTGTATTCTTAGTTTTATTACTAATGATAATAACAGTTAATGTTGAAATCAGCTTCATCCTGAAAGCACTGCATCCAT
TATCTTATTCTAGTCTCAGGCCCTGGAGGAATTTTCTCTCACTATACCCATTTCAGAAATTCCAGAATTAATGCTCGGAGGAGTCAAGTTACTTGTCTAA
GCTCTATATTACAGAACTTAAATTGGCTTCTCTCTTTCCTTTGCGGGGTCTCACATGATCCGTCGTTCCAAATATGAGCACTTTCTCTTGTCTTTTCTGA
GCTACCTATTCCAAGAACACAGAGGAGTTGTTATTGTGGTTACTTGTGGTAAGAAGASTACCTTYCTGATTGGACCCAGGGCAGAAAAAAGAACTTTCAG
GTGGAAATACAGTCGTGGTGTCAGGTAGTGTGTAACTTCGTTAAGTTCAGTCATAGCAGCCGCTGCCAAGGGGGGCTGTTCCTGTTCCTCATTTCCAATT
GAAATTAATAACTCACTTGAGATCCTACTAAACAACACACGGAACAATGACCGCAATAACCAACATACTTTGAGTAACTATTACATGCATGGGCTCTGTG
CTATTCTCTTATGTGTATTCATTTATTTAATTCCCTTAACAGTTCTTTCTGGCAGAGACACCCCCCCACTCTTAGCCCACTTTTATAGATGGCTAAGCAG
AGGCTCAGAGAAGTCAGACAACTCACCCAGGATCAAGCAGAGGGCAAGTGGTAGATTCTAGAATTTGCATCCAGGCAGTTGAGTCTAGAATTGTCTTTGT
GTATTTTGCTCCATGGTCTAGCACAGGATCMCCATTGGTAGATCATCACTTAGAATGCCATCACTACCTTCTAACAGCAATCAGTCCCCTTAAGTGGCTT
TCTTCTCTTTTTTTTCTTTTATCTTTKTGTTTTTTTTTTTTTTTTGAGGGAGTCTTGCTCTGTCTGCCAGATGGAGCACAATGGCGCGATCTCAGCTCAC
TACAACCTCCGCCTCCCGGGATCAAGCGATTCTCCTGCCTCATGCTCCCGAATAGCTGGGATTACAGGCACACACCACCACACCTGGCTAATTTTTGTAT
TTTTAGGAGAGAGGKGTTTTACCATATTGGCCCAGCTGGTCTCGAACTCGTGACCTCATGATCCACTCGCCTTGGCCTCCCAGAGTGCTGGGATTACAGG
CATGAGCCACTGCACCTGACTAAGTGGCTTTATTTTCTTATGTGGGGATCCTGGAGACACAGTGTGTGCCAAAGCGTCTGCAGACCAGTCTGTACAGTTG
ATTATAGATATATTAATGACCACTTCTGAGCTAAAAAATGATCTAGAATAATAGACTACCAAACACATAAGCTTATTTACGGTTTGCCTCCTTCTCATGC
TTTTGGAAGGGAAGCACTGAGGGTCATTGTATCAGTCAGCGTAGACTAGGTTTGCCGCAGTAACAAACGACCCCACCATGCCATAGCTTGCAAAAACAAA
GACTGAGTTCTTGTCTACACTGTAGKGCCGTCAAGAGCTGGCTCTGCTTGCTCTTGGTCTTCTCCATGCCAGGATCCAGAGTAAAAGCACAGCTTCTCTC
TAGGACTCCAGGGGAAAGAGAAAAGACAAGTTCTTAAAGTTTCTTCCAGGACGTGACACCTGACATTTCACTGGCCAAACACAGTGACCTGGTCACTCTG
GGGCAGGGATGTGTAATCTCCCCATAGCTGGAGAAGTAAATAATAATGCACAATAACATTGTCTCCCATGGGTGCAGATGTGATGCTTTCCTCCTTGTGA
CTGTTTTCTGTCTTGCTGTCCCAAGTCCTAAGGTCCCAGCCACCTATGGTTCTTTGGACCTGTGATTTTCGCTGACCCCGAATGACTGGAGGAACTGCTG
CCTGCATCCCCAACCCAGCCCTCCTTRTCAGTCACGTAGAAAGCAGTTATTGTTTCCAAGTTCCCTGCCCTTGTTAAATGTCAGCTTTGAGTGAAAATGT
TCCTAATTTTACTCAGAGTGCAAAGAACAYCCAGGTCAGGTACCTGACCTGCTTGATTCATGTCTTGGAAACACTCCTTTGTCTTTCAGAGAAAGTAAAG
AGTGATGGAGACAGAGAGAGAAAGTGTGACCTACTTTTTATTATCAGCACCATTTCATCTGCAAAACACGACTTTTCTCTTCTTRTTACGCTGAGCATGA
AAATAAAATGTTTTCCAAAAGACCTGGCTTTGGCTGTTGTGAGGAAGGCCAGGGACTTGTTCAAAACTCTGATGAGCTCGATGAGCAAATGATTCCAATT
TTTAAAAACTGTAATTGACTTTCAAACTGCTCTCACTGTCCACACATAATATGTGGTACTTTTCTGCAAATACCAGCAGCAAGGTAGGACAAAACCAGCT
CCCACACTGGCTGTTTGCTTGATATTAAGCTTTGCCAGTCCAATATAGGTCACATTTCCAACCAGATTTTGTGCTTATCTCTACATTACACCTTGTAGCA
AGGGGGAAAAAAAGAGCTTCTTGACATCTTTTTGAAGAATGGCGCTCTTTAAAAAAACATAAGGGAACTTTTTTTTTCAAACACTGTAAYGAGGGTATTC
AAGTCTGCAGGCAAAACAGAGCTGTTTGAAAAGACATTAGCCTCGAAACCGCACTGTGCCAGAATAGATACAGCTACGTCAAAATGCCGCATTTATTTTG
CCATTACTTTTCACTGACTAAAACCATTTGCTAATGAAAGTTCTAGCTGCCATAATTTCAGCACCTGCTGATGGAAAGGTGGACTCACTGGTCATGGGGA
GTACAGTAAAATTAGGAGAGTAGATAGAATCCTGAAGCATTTGAGCTGCAAAATCATAGTAACAACAGCTCTTAATATCCTATAATTGAAAAAGAGATTG
CCATTTTCAAAGACCTTTCACAGTCATTCTCTTAATCAAGTCTCATAATAAAGATGTCATTGGGACTKAGCAGCTTACTCACATTCTCATTTCACTGATG
AGGAAACTGGAGCTCAGGGAGGTTACATGGATTCTGGATGACCTACAGGTCATGGAGGTAAGAGAGGAATGGGTTCCTGGCAACTCCTTCTGAGTACTAA
CTGTTAAAGTAAGCAGAGTGTGTGTCTAAACTTCTCATGGGCTACTGTGAGGAGTAAGGGGTAACTGCAAGTTAGAAGGCATGATGCCCAAGATTGTCCT
TACTCTGACACCCACTGCAAGTTTGAGGTGGTCCTCAAACCCATCCTCATGGCTGATATTTGCTAGAAGGACTTGTGGCACTTAGCAGAAGCTRTTGTAT
TTACAGTTACAGTTTATTACAGGGAAAGGATACAGGTTAAAATTAGATCGGGGAAGAGACAAATGGGGCAAAGTCCAAGACAAGTACCAGATGTGAAGCT
TCTATTGTCCTCTACCCATGACATCAGGACAGAATACTTTTCTACTATCTATGTGTGGCAGTATGCATGGAATATTGTCAGACAGAGAAACTCACCTGAG
CCTCTGTGTTCAGAGTATTTATTGGGTCTTCGTTGCGTAGGTGTGATTGGGTGATTGCCCACATATTTGATCTCAGCCTCCAAGTCAACTGATAACTGTG
GTACAGTGTCCCTACCCTAAGCAATATTGTTGGTCCTTTAAGAATGGTTCATCTGCAACCTAAGGTTACATGGGTGTAGTTAGGCCCCACCCTAAATCAC
ATTAAGAGTCTCCAGAGTATGATCAGAGGTGCCCAAGCAAACAAAGACTCTTTTTTTCAGGAATATATTCTGCATATATTTCAGTGATTTTTTTTTTTTT
TTGAGACAGTCTCTCATTCTGTCGCTCAGGCTGGAGTGCAGTGGCRTGACCTTGGCTCACTGCAATTTCTACCTCCCGGGTTCAAGCRATTCTCGTGCCT
CAGCCTCCTGAGTCACTGGGATTACAGGCATGCACAACAACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGCCCAGGCTGC
TCTCGAGCTCCTGACCTTAGGTGATCCCCTCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACGACCACCAGCCTCAGTGAATGTTTTTT
AATTTGGAAAGGATTTTMTAAGAAAGGATTCCAACTTTCCCATTTACAGAGAAGGAAGCTGAGGCTCACAGGTTTCACTCAAACCATAAAGCTCAGGAGT
AACTAAAGGAACTGGAGCTTGGGGGTCCCAGTCCTGGGCACCATTGCTAAGTAATGTGGCCTATTTTCAATAAGGGCTTATTAATCATACTAAAAATAAG
AACTTAAAACTAAATTTTTATTTGCCTAGAAATCTAACATCTTTAGATAAAAATATTCCATATTCAGGAGGCATAATTCTTTCTCTTTTCTTTTTTTCTT
TTTTTTTTTTTTGAGACAGAGTTTTGCTCTTATTGCCCAGGCTGGAGTGCAATGGCGCAATGTTGGTCCACCTCAACCTCTGCCTCTTGGGTTCAAGTGA
TTCTCCTGCCTCAGCCTTGCGAGTAGCTGGGATTGCAGGGATGTGCCACCATGCCAGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTG
GTCAGGCTGGTCTCAAACTGCCAACCTCAGGTGATCTGCGTAACTCGGCCTCCCAAAGCACTGGGATTACAGGCTTGAGCCACTGTGCCCGGCCATCTTT
CTTTTTCTTCCTCTCCTTCTACCTTGCCCACCATGGCTTAATTTCACCAGAATATCATCATTATCAACATCATTATTTCTAGTTCAGATCATTCTAAAAA
TAGAGCAGTCATTTTCTTCTATATAAGTCCCAGGTCCAGCCTGCTATTTTTTGAGCCTACCTTTCCTAATATCTAGTTTATATTTTGTTTTGTTCTTTCT
TGGGATTGGGAGTCAGAATATCAACTTTTTCAGAAAAGAGCTTTGGAAATTCTACATACATAATATATATAAATTTTCCATTCATAGTGTGTTAGCAGCT
TTTTCTACAAATCTCTTGGCGGGTGGGGGGATATTTCACTCTTCTATGAATCAAATAATATATGGCTTTTTCCTATTGGAAAAAATTAGTCGTGTGAACT
TTATTCTTCAAGAAAAAGTAGTTTTTATCTGCCTTGGAAATGTCAAAAGGATTCACRAGTTTCACAAGTGATGATCTGGGTTGATTGCTAGGAACTGTTT
TTAGTTAGTTTTTTTTTTTTTTTTTTTTTTTCAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGTTCACTGCAACCTCCG
CCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGCAGCTGGGAGTACAGGTGCCCGCCACCACGCCTGGCTAATTTTTTGTTTTATTTTGTTT
TGTTTTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAAGGATGGTTTTGATATCCTGATTTCGTGATTCCACCCACCTTGGCCTCCCAAAGTGCTGG
GATTACAGACATGAGCCGCTGTGCCCGGCTGCTAGGAACTATTAATCCATAGACAAGGCTCTGGTTAGAGAAGCAGAAAGAAGGCTGGGTAGACCGGGGA
AGGTAGCTGGGAGGTCTCTGAAGCTTGGTCTTGAAGCTGTGAATTCATAGACGTCTTGGAAAAGAACTTTATAATGTGGTTAGACAAGTTTTATAAGATT
TTAGGATTAGGAAGGCTTTTTTAGGGGGTGGGGTTGCTTTTAAACTTTGTTTGAAAAATGGAGCTTGCTGCCATCATATCATCATCAAAAATGGAACTTG
TCTATCCACAAATATTTATTTAAAAGTCAGACTAATGGCAGAATGGAAAGAATCCCAGCTTTGGAGTTAAAATATCTCACTTAAAACTTGTCTTCGCTGC
AGGCTACTTGGTTGTACTTGAGTAATTTACTCAAGATTCTCTTCAGCCCAGTTTCCTTATCTGTAAAATCCTTCCACTGTTGTTAGGAGGATARGAAAGC
CAGTATTGGTAAAAACATATATCAGAGTCCTTTTGACTGTTTAGAAAGTGTTAATTTACTCCACGATTATCCATTCAACATTTATTAGTTGGCTTCTGTG
TGGGWGAGTAACCATTAATACCTTGAMTAAGTTTATAATCTGGTCATTCTGTAGAGCTTCCTATATGATGTCTTCTGTTTAAGTATTTCTGTAATACCTT
ATAGACATCTCTTTTAGACTACTAGTGATTGTTGGTGTCAACATATGTGTGAAAATGCATATATCCTTTATTAGGCTCTAGCACACAGTGTGCTCTCAAT
GTTTGTCTTTTCAAATAAACATACTTGGCCAGGCCTGGAGGTTCATGCTTGTAATTCCAGCACTTTGGGGGGCCAAGGCGGGAGGATCAGTTGAGCTCAG
GCGTTCAAGACCAGCCTGGGCAACATGGCAAAACCCTGTCTCTACAAAAAATAAAAAAGTTAGCCAGGCATGGTGGTGTGTGCCTGTAGTCCCAGTTACT
GGGGAGGCTGAGATGGGATGATTGGTTGAGCCTGGGAGGTCGAGGCTGCAGTGAGCAATGATATTGCCACTGCACTCCAGACTGCATGAGAACGTAAAAC
CCTGACTTAAAACAAAAACAAAAAGAAAACGTGCTCATTGGCTAAGCCTGGTAGAAGCCACATGACCAAGGCTGATCATTGCTGCCACTGGGTGGCAGCA
TACTGGGATTGAGGAAAATAACCCCTCAACTGCCCGGATGATAAACACAGAGTTCTAAAATGGCAACAAAGGGAGATCCACCCTTCTCAGTTATTGTTTG
AAAGGACAGCTCTCAGGCAAAATATGTCCACGAAGTTCCATGGAATAATTACCTTCCTTGGTGTTAAAAAATGCCCTCACATTTCAAACATGTCCTGCTT
TAAGTTCCCAGCGTCTTAACCAGGAACTCGCTTATGTGTGTTGTTTTCTGCTTCTTTCCACTAGGGAGCTATTGCTGTAAAACAGAAGGGGTAGTATTAC
AGGGAGGAGATGCACATTTTAAAATATATTTCTGCTTCGTCAAACTGTACAGAACTCTTTTCCTCAATGAGAACCAGGTTTTTGCATGTATCTTTTGCCA
AGATTTGAGAAGGGAAGTCTCCACCTTCCAGAGCTTTGGTCATATTTTGTTTCTCTCTAAGGGTGAAGATGCTGTTTGTTCTTGCAGGGTGAGGCTTTGG
CCAATAAGAAAGCAGTGCTCAGAGGTAAAGAGCCTCGCTGAAGCCCTAGTTCTAGCCTACCAGGATTTGGTCATTTCTTGGTTTTTCATTTGATCCCACC
CTTGCCTMCCTTCAGAATGAAGGTAGAATGTGGGACTGTTTCAGACCATGAATGCGATTGGGCAGAAAGACTGTGAACCAAGAGGGCAGGGAGAAGGGAA
GGGATGTGGGGAGAGCTAAGTGTAAATTGTAGAGTCTATGAACAATTCTGGAGACAGACAGGACAGGTAAGGAGAAACTGCTGCTCTTGGTAGAGGTTTA
CAGCCAATTGTAGAACCCTAAGAAAATACAGCACTTTGGGAGTGGATGGACCCAAAATGGGTGGATCATTTGAGCCCAGGAGTTTGAGACCAGCCTGGGT
AACATGGCAAAACCTTACCTCTCAAAAATTTACAAGCTTAGCCAGGCATGGTGGTGCCCACTTGTGGTTTYAGCTACCTGGGAGGCTAAAGTGGGAGGAT
ATCCTGAGCCCAGGAGGTGGAGATTGCAGTGAGCCATGCTCGTGCCATTGCATTTCAGCGTGGGTGACAGTGAGACCCTATCTCAAAAAAAAAAAAAAAA
GTTCCTAAGAAAATAAAGCCTGGCCCATGCAATTTGAAYGTAACTGTCTATAATTTCTCTTGGTTACTGAAATTCTGAGTTTGTGTCTATGGTTTCTCCA
TCCTTGTCTTTGAGGAGGAGCAGGATGGCGAAGTCGCAGCCATTTAAAAACTTGTTTTCAGTCATTTTGCAGAAAGCAGACGTACACTTCTTTGCTGTTG
GTCTGTGATGCGGGAGTGGTTTGTCAGTTCTTTCATTCAACAAGTGCTGATCTTTGGGCAGCATACACTGGTATGACCTTTATCATTTGTTCAGGTGTTG
TGGAGAAAGTTGTTTGCTTTTGAAAGACTTGATGGAGAAAAGTCTTTCTACATTTCTAGAAAGACCATGGGTGTGAGTATTGAGAGCTGAGTGCCAGTTT
GTTTTTTTGTTTTTGTTTTCGTTTTTTGAGAAGGGGTCTCACTCTGTCACCCAGGCTGGAGTACATTGGTGCGATGAAGGCTTACTGCAGCCTCTACTTC
CTGGGCTCAAGTGATCCTCCCACCTCAGCTTCCTAAGTAGCTGGGAGCACAGGCACCAGCAATGACACCTGCCTAATTTTGTATTKTCTGTAGAGATGGG
GTTTTGGCATGTTTCCCAGGCTGGTTTTAAACTCTTGAGCTCAAGCCATCCACCCGCCTTGGCCTCCCAAATTGCTGGAATTATAGGCATGAGCCACCAT
GCCCTGCCCAGGCACCATTCTTGACTGCGAGAAAGTCACTGTGATGGTTTCTCCAGCCTGAGTTTTCTCCTGTATRAAATGGACCTTGTTTTGAGGAGAG
AATGAGGTATGTGGTACTCGTGAGCAGGATTTTCAATGCCTGGCTGGTTGTTACTTATCCATTTAGTCCGAGCTTCAGGGAAAGAACATGACACCGGCST
CCAGCAGAGCCTGCTCTTGGTCYACTGTTTATCCTGGTGACCTTAGGCAAGTCATTTAATTTCCTTGAGTTTTGGTGTAAGTATTGATGGAGCAGACCAT
CAATAACTGTTCTTATGTCTRTTATTACCATGTGTCTGTCTACATGTTTGTTTGTAAATTCTCTGTGGGTAAAAGTTCTCTTTTCATCCCCTTGCCTCAG
CACGGAGCCCAGAGCCAGACTGCAGGTAGGCACTCAATAGATATTTGATAAATGGATGTTAGTCATTTGATTTCTGAAGTTGCGTAGGTACCAGCACTAC
AACCCTATGTAGTTCACATAACTATTTGCAGTTGTATTTTCCTTTAAATCTAAATTGGAGAGAAGGAAGGTAATTAAGGCATAATTATCAGACTTAATCA
AGCACTTATTTATTGAGCTTACTTGGTGCCTGGGCTTGTATCTTTTGTTTCTGATTTTTAGTTTCGTTTCATTGCTCCAGCGTGGGGGAATTTGCCTGTG
TATCCTTGAATAAATGTCTTTCTTTGGAAGGCAGATTAAGTAGGGATTTCTCTTACTGTTTATTTTTGTTTCTAACTGAAGTTCAATGAATTATTCTTTT
ACCCAGACACTTACATATTCCTAGCCATTCCTTTTGCTTAAGTTTGCAGAGATTTGTGCTTAAAACTGAATAAACAATCTCAGGGTTTGTGTGTGTGTGT
GGATGTGTGTGTGCGTGTTATATGAAGTCTTGCTAGAATGCATAAACAAACAAAAAAAATATCATACTCTCAGATCCTGGATACTGTGGTCRCCTGGACT
TCAAAAGCCTTTTGYCCGTATGTATTTACATAATGTATTCTCCATGTTTGGTTTTCATTAAACCCATGAGTTTAATAATAAAGTGTTTGGAACTATGCTT
TTCCCTACCACTTTTCTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTC
CGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCTACCACGCCCGGCTAATTTTTTGTATTTTTAGTA
GAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGC
CACCGCGCCCGGCCCCACTTTTCTTGTTGTGAATATTTTTTCCCCTTCTGAAGTGAATACTGATTTTTCGTTACAGATATTTGATGCTTTGGGGGCCTGT
TAAAATAGTTGTAAATACACTTTCTAAATAGATGAAATGTAAGAAATTCTGAGAAGGGGTTTCTTTGACTTACTGGAAAAAAAAATAATAGGAAAGAAAA
TGTGATCAGTTGGTATATTTGGCTCTCTTTCATCAACACTTTTATGGACCTGCATTGCAGTGTTTCTGTGATGTGTATAAAACACAGTTTCAGTGATCGT
GCAAGCCTCAGTTTTAGAAGATAAAAAGATATGAACTTGAACCCAAGCTTCTCTGTCAAGAGAATTATAATGTGTTTTGACTGTAGGCTTCCTTCGAGTT
AAATTTACAGTATTTTCCCCTAACAATAACAACAACCAGAAGTGCCCCTTTAAGTTGAGATGCTTGTTAAACTTTACATGTATGCATGCATATAAATGTA
CATTTCTGTATATATAATATACGTTCACATATAGTTACATTAGATTTTTAAAGAATTTCCTTTTTGCCTTCAAATCATTGCACAGAACATCCAAGTAGAC
ATCATGTCAAAATAATCAAAATGTATTTAACGCTCTCTCAAGAAATCCATTTAAGAATAAGAACACGGTTTGGGGGTGATTTTCAGACCGTAAATTGAAG
TGTAAATATTCGAATTATYTTCATAAACTCTTCAGTTCTGTTGGGCTTTTATGTTATCATACAGTGATTTTTTTTTTTGTATTTAAGTTTTCTAGCAGTT
CTCTTTTTTAAGAGCCTCAAGTGTCCAATAAAAAGCAAATACTTGAATTTTCAGTTTCTATATAGTGCATATTTTTTCTCCTGCTTGCCTTATTTTTATA
ACAGTGATTTATAAAGACATTACTAAAGAATAGGAAAGAAGGATTTTGAAGAGGAACTGCTATATAACACTGCTTAAAAATCTATTTCCAATGCTAAGGA
GAGGAAAAAAAAATACTGGCACCGTATCCGAGTGGGATCTGGGATCCGAGTGAGATGGCCATACCTTCAGTCATTCTCCTCCCCAAATATTTATTGAGCC
TGGTGGACAAGGAGGGCGGGATAAGATTGCCAGGCCCTGCTTCTATTTCTGGGGTTGGGATGGCGACTAAAGACCCGCGTGGACTGCATGCTGCAGCCAG
CTCAGGAAAGATTTCAGGAAGAGCGTTTAGGAAGGCAGCTTTGAAAAGAAAATGGAAAGATGAGGTTGCAGAGGGTCAGTCCAWGGTGACCAGAATCTGA
CCTGGGGCAATGCCATAAATCCAAGAAAGACTGGGTTTCAGGTGCAGGAAATGCGATTGTGCACGGACCCTTGCCTTTTTACCMAGTATCTAGCCCATCC
TTCTTTCTTAGAAGCAGAATTTTCTAAGAGGTACACGGTAGTTCAGGATAAAAATTCCCTGTGCTAACTGCCCTTGCAGCTAGCTCTCTGTGACCGTGTG
ACCATGTGACCCAGTTCTAGCGAATGGGGTGGCAGGGAAGTCCCACATGGACTTCTTGGGCGTGTCCTTAGGGGAAGCATAGCTTCTTGCCTTCTTCACA
CTCCTCCTTCCCTTCCTGCCGTCTGGGATGTGGGGTCTGGCAGAGAAACAATATTGTGAATGGAAATGGGAGGAACTTGGGTCCTGAAAATTACACCATA
CCCCAGAGCCTGGGGTGGATTATTTCAGGACCTTTCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTTCTCTC
TTTCTTTTTTTATTTTTTTTTTCAGACAGGGTCTCCTCCACACCCAGACTGGAGTGCAGTGGCACATTCATGGCTCACTGCAGCCTCAACCTCCTGGGCT
CAGGCGATCCTCACACCTTAGCCTCCTGAGTAGCTGGGACTACAGGTGTGCACCACCACACCCAGCTAGCTAATTTTTTTTTTTTTTTTTTTTTCTGTAG
AGACGGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTAGCCTCAAGTGATCCGCCAGCCTCAGCCTCCCAAAGTGCTGGGATCACAGGCATAGG
CTGCTGCACCAGGCAAGGACTTTTTTTTTTTTTTTTTAAACAAACTTCACTCAGTTTGAAGGCACCATTATTTGGGTTTCCTGTTAATTGCAGTTAATCC
TATTGAGTAAATGTATCAAGGACAAAGAGCAGAATGAAAAAATGAGTGAGTAAAGTTGAGCAGAAGAACTCACTGAAAAGTCCTGGCAAGGTTCCACGGC
ACCTGTGATGCTTCCATCACACATATTTGCTGAGTACCCGCTGTTCATAGGTCAGTCRCTATGCAAGGCACTGAGGTGACAAAGACAAGSAGAATGACAG
TTAAATGTAACATGGGCTTTGTGGTCAATTAGTTCTGGGTTCGTTCCCAGGTCCTATCACTAACTAGTACCCTTATGAACCTGGACATGTCACTAGCAGC
CTCAGTTTCCTCATCCATAAGATGGGGATAGCAATATCTATCTCCTACACCTGATGTGAGTATCACATGAGAAATGCACATGAAATGTTTTACTTAGTGA
TGAGCATATGGTAAATAAGAATTTAATAGATTTTAGTGAAAGCAAAATAAAAGGTCCTATCATTGTCCTTAAGGAGCTTACGAAAACAGAGCTATACGCA
CATCCGTAGACAGTTACCACACTCAGGAATAGTGGAAAACTGACAAGACCCTGGAGATGCTGTGTGGGGAGGGATAATGGGAACGCAGGTCAGCATGCTC
TAGGAATGGTAAGAGARACTCCCAATCTGAACGGTAGTCAAAGAAGGTCTTCTTCTCTTTGGAGACTGAAAGGCTGAGAGGGTACCTGCCCTGCTAAGGA
AATGAACAGGACGGAAGAATGATGGAGGGAGAATGGGAAGTCCTCAGCACATAAAAGTTTGAGCTGGAAATGAAATATACAACTCTGCATAGTCAGCRGA
TTTTGCTGGGCTGGGCCAGTTCAGCTCAGCAAGGATTGCTGGGCATGTGCTTGAAGGAGAAAGGTGAGGATACAAAGGCAATGAGTACATGATCCTTGAC
CTTGAGAAACCTATAGTCTAATAGAGGAGGCACATATAAAAGTAATTAGGTAAAATATAGTGCAGAATATGCAGTCATGGAGTCATCTACAGATCTGCCT
GGAATACAGAGGGACAAGTGTTTAGTATTTTCCAACTGTTCACAGAGGACAAGACACTTGGGCAGAAGTTTGAAGGCAATTCCAGGTTAGCAGTACCCAC
TTGATATGGTTTAGCTGTGTCTCCACCCAAGTCTCATCTTGAACTTTAGCTCCCATAATCCCCACGCCACATGGGAGGGATTTGAATCGTGGGAGGTAAT
TGGATCATGGGGGTGGGTCTTTCCCATGCTGTTGTTATGATAGTGAATAAGTCCCATGAGATCTGATGGTTTTATAAAGGGCAGTTCCCCTGCACAAACT
CTCTTGCCTGCTGCCATTTAAGACATGTGTTTGCTCCACATTGGCCTTCTGCCGTGATTGTGAGACTTTCCCAGCCATGTGGAACTGTGAGTCCGTTAAA
CCTCTTTCCTTTATAAATTACTCAGTCTCAGGTWTGTCTTTATTAGCAGCATGAGAACAAACTAATACACCACTTGAATTGCTGGTACGTCTGAGGGGCT
TGACTCCCAGTCCTTCGAACATGGAGGGGTAGCYCTTTTTCTAAGCTCCTCATAAAGTATTGTATCCAATTCTTCAGAAGGGATGAAGGTATCTGGTCCT
GTCCGCAAACAGAGAAGTGCTTCTTRTACTGACCAGGCAGTGACCTAACGCAGTCCTTGAGACAATTCCAGGTGCCCCTCAGGCCGTTTTTCCACCCTGG
TGTTTTTCTTTGTATAGACAGCCTATGCCTGGATAAGAACATGCTGCGTCAGASAGTTCTTTTTCACTTTGCCCCTCAAAATGTGCACACCGACAGCCAC
AGATAGATCCCAGATGTCTTTTTCCTGMTCTTGCAAACCTTGAAGTGGGCCCTGCCGGCAGGCACACCTGCCAAGGAAAATGCTGTCCTCGAAATGTTCC
TGGCACCGTTTTCAAGAGGTGCCGACCAAGCGCTGGAATTGCTGACCTCCCTGAAAGAGAAGCCTGCAGCTGCGGCCTCTGGGGTGAATTCCCCCCATGG
GAGGACCTGGTGGAGTTAAAACAGACKATATCCACATCACAGAGAGCTGGCCCATTGCTCAGGGCCTGGGAAGTGGTAGGGAGGGACCTTCCCAGAAGAG
AGATGACTCAGGCTGGTCCCAAGCCCCTCCTGTAGAACAAACAGACAAGGTGAGGAGCAAGGAGGCATTTGGAGGTCATCTGGCCCAGCACCCTTGTCTG
GAAGACAGATTTAAGTTCCATAAAGTCACTTAGGAGGAGAACATAGTCCAGGTTGAACCTTGCTGCCTGCCCTCTGGTTGAAACATCAGTGTTGAATCAA
TAGACCACGTCCTGTCCATACCTTGGGAATTAGACTCACCCAGACTCTGAGTTAAGAGTTTCTATGAGACAGAGGGCTGGACTGGGGGAGCAAGGCTTGC
AAATCGAAAGCATCAGTTGCTACCCCTGAGCACCATCTCCCATAGGAGACTCTTTGAACACTTTTTTAAAAGGCAAGATGTTGGCCTGGCGTGGTGGCTC
ACGCCTGTAATCCCAGCACTTTGGCAGGCCAAGGCGGGTGGATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGACCAACTTGGCAAAACCCAGTGTCTA
CTAAAAATACAAAAATTAGCTGRGCATGGTGTYACATGCATGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAACTGCTCGAACCCAGGAGGCTGAG
GTTATGTTGAGCCAAGATTGTGCCACTGTACTCTGGCCTGGGCAACAGAGGGAGACTCCGTCTCAAGAAACAAACAAACAAAAAAAGTCAAGATGTTGAC
ATAACAGTTCTGAAGACCAAGGTGGTGGAATAGGTTAGGTTAGGATACGTCGGAGGAGCCAGTGTGAACTGCTCCTTTAAGACATGAATTAGYCCATTTT
CATGCTGCTGATAAAGACATACCCGAGACTGGGCAATTTACAAAAGAAAGAAGTTTATTGGACTTACAGTTCCATGTGGCTGGGGAGGCCTCACAATTAC
GGGGGCAGACAAGAGAGGAGAGCTTGTGTAGGGAAACTCCTGTTTTTTAAAACTATCTGATCTCGTGAGACTTATTCACTATCACGAGAACAGCATGGGA
AAATCCTGCACCCRTAATTCAATTACCTCCCACCAGCTTCCTCCCACGACATTTGGGAATTGTGGGAGTTACAAGTTGCAATTCAACATGAGATTTGGGT
GGGGACACAGCTAAACCATATCAAAACATAACTATAGCTGGGTGAAGTGGCTCGCACCTGTAATCCCAGTGCTTTGGGAGGCCAAGGTGGGAGAATTACT
TGAGGCCAGGAGTTTGGGGCTAGCCGAGGCAACACATAGAGACACCGTCTCTCAAAAAAATTTAAAGAAACTTAGCCGGGGCCGGGCACGGTGGCTCATG
CTGGTAATCCCAGCACTTTCGGAGGCCTAGGTGGGCAGATCACAAGGTCAGGAGATGGAGACCATCCTGGCTAACRTGGTGAAACCCCGTCTCTACTAAA
AATASAAAAAGAAATTAGCCTGACATGGTGGCACATCCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGATC
TTGCAGTGAGCCGAGATCGCACCACTGCACTCTAGCCTGGGCGACAGAGCAAGTCTCCGTCTCAAAAAAAAAAAAAAGAAGAAACTTAGCCAGGTGTGGT
GGTGCATACCTGTAGTCCTAGCTACTTGGAAGGCTAAAGCAGGAGGATCACTTGAGTCCAGGAGGTCAAGGCTGCAGTGAACTGTGATCACGCCACTGCA
CTGCAGCCTGGGCAACAGTGCGAAACCCTGTATCAAAAAAAAAAAAAAAAAAAAAAAGAAACACAACTTACCAAACCAAGAAACTTACAGAGAACATGAT
TAGAAGCTAGCATCTGTTTTTACCCTACCCTCTTCCCCTATGACCCACCACCACGCAGGCCTTGCTAATGTGGGGTCTTTGTGGAGGATCTTCAGGATCT
TCAGTGCCAGAACCCAGCATTTAAACTCTTATTTGACAGTGGGGCCACAGCAGATTTAAAAGGACAATGACATGATAAAAAATGTGTTCCTGAGAGATTT
AAATGCAGGCCTATAGAGAGCAGATGTTAAAAGAGAAGAAGCAGACTGGGCATGGTGGCTCGCATCTATAATCGCAGCACTTTGGGAGGCCAAGGCGGGT
GCATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGAGCAACATGGTGAAACCCCATCTCTACAAAGAATACAAACATTAGACACTTTTCAAAAGAAGACA
TTTATGCAGCCAACAGACACATGAAAAAATGCTCATCATCACTGGCCCTCAGAGACATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAG
AATGGTGATCATTAAAAAGTCAGGAAAAAACAGGTCCTGGAGAGGATGTAGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACCAGTTCAA
CCATTGTGGAAGACATTGTGGCGATTCCTCAAGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGATTATA
TATCATGCTGCTATAAAGACACATGCACATGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAACCAACTCAGATGTTCATCAATGATAGA
CTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTACACAGCCATAAAAAAAGGATGAGTTCATGTCTCTTGTAGGGACATGGATGAAGCTGGA
AACCATCATTCTCAGCAAACTATCACAAGGACAAAAAAACCAAACACTGCATGTTCTCACTAATAGGTGGGAATTGAACAATGAGAACACTTGGACACAG
GAAGGGGAACATCACACACCGGGGCCTGTCGTGGGGTGGGGGGAGGGGAGAAGGATAGCATTAGGAGATATATCTAATGTAAATGACGAGTTAATGGGTG
CAGCACACCGACATGGCACATGTATACTTATGTAACAAAGCTGCACATTGTGCACATGTACCCTAGAACTTAAAGTATAAAAAAAAAAATTAGCTGGGCG
TGATGGCACCTGCCTGTACCCCAGCTACTTGGGAGGCTGAAGTGGGAGGATCACTTCAGCTCAGGTGGTAGAGGCTGCAGTGAGCTCACATCACACCACT
GCACTTCGGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAATAAAATAAAATAAAATAAGCAGCAGCAGCAGCAGCTAGGTTCCAAAAAAAAAGTTGGAA
GGGTGTGATGGGATTTTAGTTGCTGGATGCTGAAGTTCTGCCAACACAGTGGGTTTGGAGAGTAGGAGTGAAAGAGTGGAGACTGGCCATAAGTTGGGAG
GGTAAGTAAYTGGTTGTGATTGAAAGGAAAGAAGGAGGTAATGATGAGTTTTGGTCTGGGAACCGGAGAATGGTGGTCCATGGACAGAAATAGAGAAGGC
AAGATGAGAAGATGCAATAGGCAAAGGCAGTGAGTTTAATGGTTGACTTTTGGTATTTGCTGTGTATGCCCTCTGTACCTTTGACCTGGGCCTTCAACCC
TTGGACAGAGCTTAAGATGGCTGCGTCCCAAGTGGTCCATCCCAAGCGAGTTTTCCCTGGACTTATCTGGAATGACTCTGAACCTTTTGAAGACCCCAAA
ACTAACCCAAGCTTTGCATGATCTCCCCAGGATGGGTAAGACTTCTTACTCTCTAGAGCTCTTTTCTCTGTAGGCTTAGCTACTCAGTGAATAAATAGGT
ACATAAGTGCTTGCTAGCAAGCAGCTGAGGCAACCTATTAAAACTCATGCCAGTGGTAAAGTTAAGCTGCTTTCTGGTAAGAATTTCASAATTCCAGGAC
GTCTCAAATTTCTGGCTGGTACACCYTGGGYAAGGTCCACAGGCTGGATGGGTTTTGGAACATGTCTTGATTGTACTTTTTCCTCTTGGTTTGGAAAGCA
ACRTACCCTAGGTAAGGAGAGATTTCTGACAACAGCTCAGCAATCACAGTTTCCAGAAAATGGCTCCAGTGGATCAACTATGAGTTAAGTAAAAAAAAAG
TCAGTGCTACCGTTTGAAGTATGTCTAGAGTATGGTTTTAATCCATCGCTGTCAGGCTCACATAAAATTCCAGGCTTCTGTAACTCTTTAACTTGAAGTA
TTACAGGGTGTCACCTGCTAAATGGAAGCCAAGAGAAGCAAGGAGTTTTTCATGGTTAAATCTTGTAAAGATGCTTTTTAAAGCATATTAATCCATTAGT
AATCCATTTGGATTTGGGAATACGGTCATATACTGTTTGGTACAATATGTACTAAACCTGGTCCTGGAAAATTAAGTGGAAATATAGGTTTAAACTACTG
GAACTTCAAAATAGCTTCTCAGTAATTCCTTCTCAGCAATCATTCCAATTCCTAGATTTAAAAAAATGTTGATATATCAAATTTCCATCAAGAGGAACAT
ACATATGGATTTTTGGAGAGGGGAGCAGAGCAGAAGAGAAAACTTTCAACTTTTAATAGTATTTCAAATTTACCTGAAAGTGACCCAAATAATACAAGCA
ACTGTTTACCCTGATTCTCCAATACACCTGCATCTTTAATTATGCTAATTTGATACAGGTGTCAGATTATGCATTAACAAAGACATCCTTTTTCTTTGAG
TATGTGTTTTCTATGGTTATGTAAATTATGGAGGTGCTAAACATACCTTTAGAGAACTTTGTATTTGTATTAACTTTTTTTTTTTTTTTTTTTTTTTAAT
AGCGATGGGGTTTCACTGTGTTGCCCAGGCTGGTCTCAAACTCCTGAGTTCAAGTGATCTGCCTTGCTTGGCTTCCCAAAGTGCTGCGATTACAGGCATC
TGCCACCGTGCCCAGCTATAGAGCTTCATTTATTTATTTATTTATTTATTTATTTATTTATTTATGAGACAAGGTCTCACTCTGTCTCCCAGGCTGGAGT
GTAGTGGCATGACCTCGGCTTACTGCAACCTCCGCCTCCTGGGTTGAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACATGCCA
CCATGCCTGGCTAACTTTTGTTTCTTTTTAAATAGAGGTCTGTTTTTACTATGTTGGCCAGGCTGGTCTGGAACTCCTGAGGTCAAGCAATCTACCTGCT
TCTCTCTCCCAAAGTGTTGGGATTACAGGTGTGTGCCACCATGTGTGGCTATAGAACTTTTTAATGTGCCAAGGTCTGTGTTCAGTGTTTTCTTATTCCT
CATCTGACTTAGTTCTCAAAGTCCTTGCCTAAGGTATTGCTGTCCTCACCGTCCTATGGGGAGATAGGTCACTTTCCCAAGTCTGGGCAGCCAGCAGCAG
GGCTAAGATCACCACTCAGACCCTGTGWTTTTATTTTTCATCTCCTCACATCTGGCGCTGAATGTCAGGACCTTCCTGGCCTCTGGGAAAGACACAGGAT
GGCTGTTTTGAGAGGAGTGTGAAATACATGAAGGCAGGACTTCCACACACCTGGACGTGAACTAGAGGTGAGGTGGGGAAAGACAGGAAGTAGATCAGTG
TTGCCCAGACCCTACCTTTTCCAACTAGGGTGTGGACCATCCTTCAGAGCTTGGCCTCCAAGTTGGAACCCGTGTATACCACTGACAGTGTTTCCTGGGA
TGGTGATATTTATCAAGTGCAGAGGCCCAGACACAGAGAGCTTGAGGACCTTTGTGTGAGACAGTGAAACCCTCAAAGGCAAGGGCTCTGTTTCATGAGT
TTTCTATCTCCTGCTGCTGTCTCGGTGGGCCTGTTTGAGTTGACCTGTCCCGTCGGTATTAGCAACTGGCAACAGTGGGTTTTTGTTAAATACGGCAAAT
ATTAAGAGTCGTCTCTGGGCATTTTAGTTTATTCATTCATTTGTTCATTTATTCCACAGGGATTTATTRTGCATTTACTGTGTACTAACTAATGGGGAGA
TAGCAATGAAGGCAGACTAAGTGTCTTTGTTCTAGTGCAGCCATATAGTCAGTGAATGAATGAGTGAGCAAGATACAGGAGAGAAGTGAGGTATGGCCCA
TTATACCAGATAAAGTGATAGAGAGGGGCTGGCGAGGAGAGCAGTCTAATTTCAGGAAAGTCAGAAAAGTCTTTAAGGAAACTGAAGGCTGAGCTGCCAG
GGCCAGCCACRTGGGTACTGGAGAGTGGGAGGCCCAGTCASGGGGAATGCTGGCTTAGCACAACTGAAAAATACAAAGGTAGAATATGAAGTGTAATGAC
ATGGTTTAGATTGAAATCTGATGTGGATGGAAAGGTTTTGTGGCCTTTCAGCCCAAGGTTTGAAAAAGAAATGGAATTTCTAAATGGAGTGGGYAGCCAC
AGGAGGGCTTTAGACAGGACMGTGGCCCCGCTGGATTTTCTGCCCATTGACTTGGGCTCGAAGTCACGTCCATGTTGCTATTACAGATGCCTCCCAGAAC
AGTTTATATAATCRTCAACGTATATTCATGGAGCATCTTCTGTCTGCTAGACACAGAATTGGGTGTTGGGCTTTAAAGATGGATGAAAGGCAGTACCTGG
TCTAGAGAGGCTGCTACCTGGATGGTGTGTTTGCCATCCTCAGTARTGTGTGTCCCTTACAGATGATGCCCARTGACTCTACAATTGCTGGGATACTTTT
TAGAATTTTCTTTTTGTGCATTACTTTTGATTCTTGGTTCTTTCTTTGGCATTAGCTCACCAGTGGCAAATATGTATCCTTTAAGGGTGGACTTAATTTT
TTGAGAAATGGCCAAAAGTTTGTTTCAAGTCTAGTCTGATGAATAAAGCAGGAGATTTATTTTTGGCAAAAGTGGCAAATAAAGAGGGCTGATTTTTGTA
TATGGCTACTGAAATGGCTTAGAATGCCATTTTATCACATGGTCAAATTATTCAATGATCAAATATCGAATTATTAAAAATTATCAAAAGGAAGTTCCCT
GAAACATGAAAGTGTTTGGGCTTTGTAGGTACCCAAGTCTACTGGGAAAAATCCCCATTTCTGGGTAACCCAGCCCCTTTTAATGACAACTTCAGTTCTC
CAAATTCCACTTCCCCTTTTAGCCTGCCTCCCTTCCGTCATCCTTCATCAAGGTGACATAGGTCTGGCGATCTTTTTGGCATAGACGTGTGGACGTTGTT
TTTGACATTTGTACATGCTTTTGCTCAAGTTGAAGGCCSAAGTTTACCCAATTCRACTGCCCCCACCCAGATAGAATATTCATGGTTAGACCATAAACTA
CATAACTGGAAATTTTAAATCTATTTTTATATGCATACAAAAACTGCAGGCCTGAAGCTTCTAAAAATAAACGTTACTTTCATCCCATTATASAAAAATG
CATTTGAGGTGGTCATCATTTTATTTGGGCCAGGGTCTTCCGAGACTTGGGACAATAATATATTTTTTCTACTTTAGGCAAATGTATGCAGATTCTTAAA
GCATGAATGCTGTATTACACACATTATAAATTCGAGTAACAGAAATGTTTGTGTGTAGAAATAGAATACGGAGTATATATTTTGTATWAAATAACCTCTG
TGGTATTTGTTTACCCTGATTTTTTGATTTATGAGTCGTCATTGCTCGCTATAGAAGAAGAAAAATAAATATGCAAAACAGTGGTAGATTTTTAATGGGG
TTACTTCCCATCTTAGCTCAGTGTTTCTCTACCAAAGCTGACCTTGAAATTGCTTTTTAGATACAAGTCAAAATATGCAAATTCCAGAATCAGGAGGAGT
ATCCGGTGTTAGGAGTTCTTTCGAAGTCACATTTTTACATCATTTCCATCGACATCCCGTGTTCCATCTGCTTCTTAATCCATTAGTACCTGAGTGGGGG
TATATAGGTTTTCTCAAATGCTCTAATCTCCACAGAAGTTAAAATATCCCTAAACAGGCATGTGCAYATATGTCTTTCTTTCTTTTCTTAGGTTAACTTT
TTTTTTTTTTTTTCCTTTTGAATGACCACAAAGCATATCTACCCAGCGGGGTTACTTTTTTTTTCCYTTTCAGTATTCATGACGTCAAGTCCCTGTTTGT
TATCTTATTGTCCTCTTATCCTGGTCCTTAGAGTCTTTCAAGAGAAGAGGTTGATCCCGGTGTAATGTACAGCTTCATTCTAATAAGTTGTATCGATCAT
GTATTTTCAGTCACTCTTCATGTCTATGCTGTCCATTTGCTTGGATCCCAAGGAATTTTCTTCTGCCCCCCCACCCCATCCCACTCATATTTCATAAGGG
TCTTCTGGAACCTGCATGGTGTTGGGATGTATATATCACTTTTCCCTTGTTATGACCAGAAAGACTCACAGCCATGAATTTCACTGAAGTTTATGATTGG
TCCCTGATTGCCTCACATCTTGCAAAGAATCCTCTTCTAGAAAGCGTTCTTGCAGTTAGATTAACAAGCAGATATACTGAACTGGTGCATGAATGAATAG
GAAATATCCCAGTTGCAAAGGATAAATCTATCATGTAGTGGAGAGCGTGTTCAGGCAAAACATTTGGTTCTGCGGTCGCTTGGAGGATTGGGCCCGTGCT
ATAATTAATGCCACTAGCAGTAAAAGGACATTAGGGATGTCGCGCATGTTGATTATTTCTTCATTTTGTTTATCCAAGTTTCCCCGCCTTGGAAGCTCCG
TGGCCATTGCCAAAGAAAGCCCTGGAGACAGAGCGTTAGCCGTTGCTCCTCGTAAGCGCATCATTACCTTCCTCCGAACAAAGTCCTTTTTTTTTTTTTG
TCAGTAGAGGGTGAAAACATTATTGGATTCAGGAGTTCATAGTAGTCCTGTATGAAGCTGGGGACGGGGGGATAGAGTTATGAAATGGACCATTTCAAAT
GGCATTATCTTCCCACAGTGAGGTACACCTTTCATAAATCATAGGAGAGTGCTCAGAAAATAGAGCATTTGTTATTCCTGCAGTACATTGTATTTGCATC
CCCCCTACTCACAGGAAAGAAGAAATTCTCAGGTTTCCTTTCCCAGGTTTGAAAAGGCAGTTAATCGCCTTACAATGAAATTATATTTTTAAAAAAGGTA
TCATAATCAAATAAAAGAAGTACTTCATGTAAGTCAAGGATTGTGCTTTTACTACTATTTTTTCTTTTTTTGTAATCATGGTGGTTCTTTTTGCCCACTT
ATTTAGGCCTTAATTTAATTACGGCGCTGATTAAGTTCTTTGGTTTTATTTTTTACTGTAAACATTGTGCTGTATTCCGTAGGAAAATGTAGATGAATGT
GGGTCATTGGGAAATAAAGTGGGTGGAAGTATTGGCGAGCATTTCTTTCCCACTCTCTACCTCGCCTGGTCTAGCCGCTGATAGGTAGTTACTCTTTAGT
ATGCCCAAGTTCAAATTACGTATGACTGTGATTCTAACACGGAAGCGCCCTCCTTTTCTAGTAGCTTGGATGTGATTGGTATGGAGAAGCAGAGTGGGTG
CGTCTTTGTGTGTTCTTGACATAGTTAAAGAGTTTGGTATAGTCAATTCCCTTTAAAGTAGTAGGCTTCTTAAATAATTCTAGTTGTTCCTCGTGCTGCC
AAGCCATCTTGAAGAATTTTTCTTCATTTGTAAGGGGTTAAAAGTCATCAAGCTGATTGAAAAGTCAAGAACCTCTAGCGCAGCCTACCCCTTGCATATT
TGATACTCTCTTTTGCACTCTCGGGAGCAGTTTTGAGGACACACTGTAAAAATGTATGACAGCAGTTTGAAGATAAGTCTGTTGCCCCAAATAATCATAA
GAAGAAGACAGAAGAAAAATTGATTCCCGTAGCTCTCTGGGCAGTGGGATGGGGGTAAAGCAAGGAATTAATAAAAACCCACCAGAATACATTATTTCAG
ACAATCAAGGAGAGCGTTACATTTTAAAGGTACTTCATCTCAGAAAGTTTGAGACATACTTTTCACACGTGGCATGAAGAGAAAATGGAATGGAATGAGC
ACTAATGAGGACCTTGAACTTAACTAACTGAACTTGATGGTCATCGCAAGACATAGGGGAGAAATATTTTGAGACATCATTGTGCAGGCAAACATGAGCA
AGAAATTGAGAAATCCGTTCATGCACTTCTCTCTGGTTTCCCGGAAGGGATGAATTCCAAATCCCGTGGCTCAGGTCCTAGGTCAAAGACAGCTCTTTAG
AAAGAGATGTTCTTTGCTTCTTTGCTGACTGCCCATCCCCTCCTCTCTCTCAAGGAAATAAGATATTCATTTGCAAGTAAATAATGCAGCAGTCTTGGAT
TTGTATCAGATCAACTTTGAATGAAAGCCTGCCTTTCTGCGTTTATTTTTGCTTATCTCTCCTGCTTCTGCTTCCTGTTTTGTTAAATAAGGGCAATGAC
GGCAACTATTTTAAATTGCTATAAAGTTTTAGCTAGACAGCGAATCAAGGTGGCAACACATGGTGGGTTCTTAAATAATAGTTGTCATTTGAGTGCTTTC
TATATGATGTACATTTCATTTTGCACTTTACAAATAACCTCTTCCTTTTTCTGTTTAATCTTAAAAAAGATCCCGGGAGGCAGGCGTTATTGTGCCCATT
TCCTGGATAAGGAGAATGAGGTACGCTAAACGAGTAAAAAGCAACCCGAGATCCAAACCCTTTGGCATTCAAGATTACACTCTTATTCACTAACTGTTCA
TCTCCTCCGACTGCATCGCCACTCCCCCAGGCCAGATAACCCATCCAGACCTGGAGAACTCCTAGAGGGAGAAACAGGGAGGACCCAGGCACATAAACTT
GCAGAGCAGCTGAGTTATCAGATCTTCCAAGCCATGGGGTTATCGAGCTTTATCAGAGCAGCCTTGCTCTTGCAGTTTCTGACACATCACCATTGATCAG
TCCTGGGAAACAAACAAAATAGAGGGCGATGGCTCCACTCTGTGTGGCCCCGTCAATGGCCTGGACGCAGCTGAAAAAATCCAGAAGAGTGTAGGACACT
GGAAAAGTAGCAGGGTGTGCGATTGCAGGGATGGGACCAGCAGTAAAAGGTAGCCCTGCCAAGACCATTAAGCTTCCTGCAACTCCTTCTGGATCCCACA
ATTTGAAGGGGAAATCTTTCCCACCGCACATCACTGTTTGGTGGACTAAATGGCTCCCCGATGTCCCGAAAGAGCACAGCTTCTGGAAGTGTGGTATGTG
GTCCCTGAGATGAAGCAGCAGCCACAGGAACCCATCATTCCTGCTACCCAAGGCCTCCATTGCCTGGTTTTCTGTTGTCAGAAGAGTTCATTTTCAGGTC
CTTCACCAGATATTTTAGAAGCTCATCAAGGAAAGGACGTTTGAAGAAAAACAAATAAACAAAAACACAAAATCAAGGACGTATTGATTTCTGAGAATTC
CTCCTGGGTTTTGTTTGTTTGTTTGTTTGGGGGTTTTTTGCTGTGGTATTGTCTGAGCCTATGATAAGATTGTTGTTGATTGATTTTTGTCTTTCAAGAC
TCAGCACAACACATCCCATCCTTCTGGATAATCTCTTCTACCCTCCCTTTCCAGATAAAAGTTGACTCTCATAATTGTAACTCTCCCCTACTTTATCAGC
ATCTACATCTTTCAGCCTCTACCACATTGAATTGGAATTATATGTCTGTTTTATGTACCATGCTGTGAACTCCTTGAAGATAGGAGCTGTCTTATCTTCA
AGGTGCTCAAGACACGTTTGTTGCATCAGTTGAATGGAGTCAAATTATAAACAGGTGATGGGGGCAAATATCACAATATGATACTCTGAACATCTTCTCT
GACAAAAACTGGTCCTCAAGATACAACAACATTTATATTTGATTTGTCTTGCTGTATCGAATCAAGCTGTGGTCTTGAGTTTCGTACACATCTATGTAAG
CACTCTGAATTGAGTGACTCTTTCCCAAAGATCATACTGGGATCTTTGGAATGAATGGCGGGTCACCCATCCAATTGCTTTTGCGGAGATTCGAGCATGT
GGGGAATGCAAGTCACAATATCCTGCAAAAGCCAACTTGAGACCTCCTAGGACTGCACTGCTGCTTATGACACTGATCCTTAGCCCATCTAAGTAAGTGA
GCATGGCCCTGTAAGTGAAATTGGAGAGGTTCCTTGACATTCCCACATAGCTGCTTCCCTGGTAATTCACCTGGGTCCAGAACACAGAAGGGAGATTCTA
ATTGAAAAACTTTTCCTAAAGGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTCAGAGGCCGAGGCAGGGAGATCACTTGAGATCAGGAGTTC
AAGACCAGCCTGAGCAACATGGTGAAACCCCATCTCTACAAAAAATATAGAACATTAGCTGGGCATGGTGGCGTACACCTGTAGTCGCAGGTACTTGGGA
GGCTGAGGTAAGGGGATTGCTGGAGCCTGGGATATCAAGGCTACAGTGAGCCGAGACCGCACCTCTGGAGTCCACCCTGGGTGACAGAGTGACACCCTGT
GTCAAAAAAAGAAAAAGAAAAAGAAAGAAAAAGCTTTGCCTGTATATGTAGAACAAATGAAAACCAAATAACAGTGGCACCAGTTCTTCTTTCAGTTTCC
ATGGAATATCAAGCACGATTTGAGTTGAGCAATTTGATTTGATTGATCTTCTTAAATGTATAATCTCAAACTTTACAATAAGAAGGCTACTTGTCTTTAT
AATTGTGAAATCCACCCTTAGTTTTAATGCATCTAAAGTCTCTGTATCAAAAAGATCAAAATCAGGTTTGAAAGTCTGTACTGTAACTAAAAAAGTTTTG
GGGTTTGTTTTGTTTTGACCAATTTTTGTAAATCTCTTCTGTTACTGTTTATATACCCGGCCACTTCTGCCAAAATATGCTGGCCTTTTAGTCTTTTGGT
TTTTTCTCTCTTTTKGTTTGTTGGCTTATGTTCGCTGCTTGRTCTGACTACTGGTTTTATTTCTAAGGATTTTTTTTTAAGTTGGCATCTTTTTTTCTTT
GACTTTCCTTGTATGCCCCCCTTTCTCCCCTGCATTGTCTTGCTTCATTCATTTCTTTCCAGGTTCCTGCAAATTGTTTTTATTTAGGGCTCATCTGGTA
TGTGTATTATGTTCTTGGTAGACAGAAGCTGTCTTTAGTTCGTATGGGTTGAGCATGGAGGGAACTTCATCTCRTAGTCACTGGATAAGGAGCCAGTCCT
GGCTCTTCCTTTAACTGCCCTTGTGACCTTGAACATGTCAGTTCATCTCACCACGTAGTCATTTTCTCATCCGTCTCTTCAGGCTAATAATCACCTGTCC
TGCCTTCCTCACAGGCTTGCCGGGCAACCCAAAAGAGCCGCTGATCTGCATAGCACTTCGCAATGAAGCTGTGCTCTAGAAACATACCACGATCTACTGG
ACTTTCTTAAATAAGGTGGTTGTTCAGGAAATTCCTCYARTTAATTTTACTTTAATTCCCCCTACAAGAATGCCGAGACACCTCTGCCTATTTTCTCTTT
CTGTGTTTGTTGTTTCTTTTGTTTTTGTTTTCGAGACTGAGTCTTGCTCTGTCGCCCAGGATGGAGTACAGCAGTGCAATCTCGGCTCACTGCAGCCTCC
AACTCCCGGCTCCAGTGATTCTCCTGYCTCAGTCTCCCAAGTAGCTGGGATTACAGGGATGCGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGA
GACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTSAGTTGATCTGCTCACGTCGGCCTCCCAGAGTGCTAGGATTAAAGGTGTGAGC
CACCGTGCCTGGCCTCTTTCTGTTTCAAAGAAATAGTCAAGAAGTTTCTAGATGCACACAAAATGACCAAACCAGTCTTTCCGCTTATTTACACAATGAA
GAAACATCASAGTTCACCCTGGAAGACAGAGTTTCTTTCTGTCTTCATCCTAGGGCACAGGAGAGATGCAGTGATGGCATGTCTCCACTCTGCAGACATG
TTGCAGGCCTGGAAAACTGTGTGGTGCGTCTGTTTTTCAGAGCGTTGAGAGTCATGCGGGCCATATGGATGCAGTGGTCCACAGAATTGGCAGTGAGCCC
CCGGGGGAGCTCAGTGCAAGACAAGATTCTGGCGTAAGAACTGCGGTAGCAAGGACAAGAGGGCGTCACGGTGTAAGAATGGCCGTGGCAAGGACAAGAG
GACATCACACGATGACCTTCTCAGAGTCAGTAGGATAGTTTCCCTTCCTGGAAGATTGAGATGAAATAAAGCTTTAGGAGTTGGTATCGCACGCAGGCAT
TAAATGGATTGTGAASAGGGACTTTGTTCCCSCTCAGTCTTGTCTCTGCCTCCGTAAAGGAGTAAGTTAAAAAAGAAAGTTTCTTTTTTTAAAAAAAAGC
CTTACTGCTCAATAAATCCCTGTGGAAAAAAAAAAAAGAGGGGGAAAAAGGAATGCACATTAGTCTTCCATTAAAAATAGATCAAAAAAGTACCCAAAAG
AGAAAACCCCATAACAATGAAATAAATTAGGATAATCCAACTGGAGGCCTGCAAATGAGTTTGCTAAATGTTATATTTTCTCAAGCCACTTAGATTTTTA
ACTCCCTGTTTCTGCCTGAAGCAATAAAGGCAGGAACGCTGTCATTAGCTTCAAACACCATTTTTTAAGCCCCTAGCTGCATTTGTTATTTTTCTCTTCC
CCCCCTTAGCTGTATCCCTGCATTTATTACAGCGCAGGTGCATCTTGCTTTTGAGTGCTAACTGAGATGAAAGGAGTGAGRAAACGCTCTCTTCTTCTTG
CAGGGGAGGGCTGGCAAATTCAGYGAATGCAGAGTCGGCTGGGAGCCTTTCGGCTGGAAAGCTCTTCCTCTGATGAGCTGTCTGTTACAGATTTTCAGGG
ATGGCCCTTGATAAGGCAGGGGTGTCTGTCCACGCCACACTGTGGTCAGATAACCCCCGATCGTAATAAGCCGGAGGATAATCGCTTGCATTGTTCAATA
AAGCAATTGCTTTGTCCCCTCACTTAGCCCCTTCAGAAAAGCCARAAAGAATGTGCCACCTAGATGCTATTTATAACCATTTTCACCTCTTGCCTCCAGG
GGCTAAATTGGAAACCTAATTTTAGATGCATAAAAGCCAAAATATGTATAGGAGAAGCTCCAAAATAAAATATCCCAGAGTGGCTTGTAAGCATCCTTCC
AACAGGTTCAGGTTGATTTACCTTGCTGTGGATATTTAATTATGTCATTGAAAAAAACACCAGTAATTAAATCATTATTTCTTAGATGTGAGGTCCAAGG
ACATTCTAGAGGAAGTCAAAGGCAGAGGGAGGAAGGRTGGGACGATGGAGGCCTGAAGGGCTGGTGGAGAGGAAAGAAGGCAGCCTGTGCCGTCAGAGAG
AGTTCAACTCCATCCGTGCAGCTGCTAGCATCTTGCCTTACTCAGCCTCTGTGAACCTTAAGTTGCTCAGAATGAGACAGGTAACACCTGCCTCCGTGGT
TTGTCAGGACATTTAGAAATGCAGACTTGCTCAAGACCTGGATCTCAGGTGGTAGGTTGGTCCACAGACAGTGGCACCACTMGCTATTATTTATTTGTTG
TCACTGTTTGGGACCCCTGTTGCTGTCTCACCAAAGAACTTCTTGTCTCCCTTTTAGAAGTTTCCAGAGCGTCTTCCTGATGTTGCATAGAGCACTCACA
CCTAACAGATCTCAGAACTTGTATCTTTTCTGGGTGGCTAGACTGAAAAATCCATTTTCTTATGAGTGAGCCAGAGGTCTGTCTCTTGCGGCATTTCTGC
TTTTGAGAACCTCCCGTTTCCTGAAAGGCACCAGACCCCAAGACAGCTCTGCTGCCTGATTGGTAGATGCCCATGACAGCTCTGCTTCATGCCTGCTGCC
TCCTCATCCCTCTGGATGCCTTGTGGTCCTGCTTGTCTGAAGAGCATAAACTTGGGGGTTCCCACTCGAAAAGAGGTTCCAGCAGTTCCAGCCCCTATGT
CAGGGGAGCCACTTTTGGGGCTGGTGGTAGGCAGAACTTTGGCCCTCGACATCTCCTCTGTTGGCATTACTCCTATGGTGGTGTTACGTAACATGACAAA
AGGGACCTTGCAGATGTAATTAAGGTAACTAATCAGCTGACTTTAGAATAGGAAGGTTATCCTGGGTGATTAGCATGGATCAGAGTTCTCACAGGAGCCC
TTCAAAGCAGAAGGGGAAGGTGGACAAGAGAATCGGAGAGATGTGGCRGAGGGTAGGCAGAGAGATTGCAAGCAGGGAAGGATTTCACGTACTGCCACTG
GCTTTGAAGATGGAGGGGGCACATGGCTAGAAATATGGGCGGCCCTCAGAAGCTAAGAACTAGCTCTTTCTGACAGCCAGAAGGAAATAGGGACCTTCCA
CCTACAATAGCATGGAAAACGGGGACCTCAGTTCTGCAACTGCATGGAGCTGAATTCTGCCAATAACCTGAATAGGTTTGGCAGCAGATTCTTTCCTGGA
GCCTCCAAAGAAGAGCCCAGGCTGGCTGACACCTTGTGAGTGGCCTTGTGAGACCTGAAACAGGAAACCCACCTGAGCCACTCTTTGCCTGGGACTTCCA
ACCCACAGCAACTGTGCCGTCGTGACTAGATACGTTTTTTTAAGGGGATGATAATTTGCTGTGGCAGCAATAGAAAATCTGATACACTGTCATGGGGCCT
TCCACAGGGTGGGGCTCAACCAGCCCTCAGCTCATCTAGCATGTTTCCTCCTACAACCTGGACTTTTTCCTGTTGTCCCCTCCCGTGACACTCAGCTCCC
TGCATTCAATAGAATTGCTTTTGTGGGATGATGAGTGTGTTCAGAGTCATACTCAGCCTAATTATTGCTTTTGACCAACCCCAACACATAATGCTGTATG
TCATGCTGTACTACTTTTAATTTCACAGATGAACACATTTCTGTTCTTTTAATCCACCTCTCCAAGGCTCGTGTTAACTCCATCTGGACAAAGCCTTGAG
GTATACGTGTGGCTTCTTTTGAGCATCGTGCCATAGCTGTCCCTGATCTACCTTGCGGGGCAAWCACAACAAGTAAAAGGTTTTCCTCTTGAAGGATTGA
ACGCCTCAATGCGTGCATCCTACATTGTCTAGTGGGAGAAATCTCCGTTGTAGATTCTGACATGTCACTCCACATCTTTGTAACTTTTTATGGCTCTCAG
CCCTACTTTCTTAATAGTAGCAGCAGTATTTATCTACTGTTTATTGTATTCCAGGTAAAGGATATGYGAAGCACTTTTCATGCATTATTTAACCTAGCTA
TAATACTCCCATTTGACAGATGAGAGGACTGAGGCTTGTAGACTTTCCAAGGCTGTGCAGCTCTAGGTCTAGTCTGCCATTTGAATTTGGGCGATGATAC
CAGAGACCAAGTTCTCAACTATGATATACTGCACATGTTTTTGTTTTTGTATTTTGGTTCAAAAAGAGAGTATGATCTCACTTTTCCCTTCTTGATAGGT
TGTAGATTCCATGTCTAATCCATSCTTTTCCAATATTCCCTCCTAATCTTTCAGTTGAATTAYGGTCTTTAGCTCAAATGCRTGACATGATGTGTGTGCC
TTTGGAGTGGGGCGGTATTAGTCAGTCGATGGTTATTTCCTTGAGGARAAAGGAAAGGAGAAGTTGAGTACTTTTCAGTGTTTGTTACTACAAAAGCATG
GTGGCATGCCATTGTTCTGAGAGGAAGGGGSTTTTTTGCCTTGTCAGCTCCTGATGAAAAAGATGTTGGGTTGGAAAGCTAAGTTACAGCAGGTGAACTT
GAATTTGAGGAAAGACAAAGCAAACCCTGGCTATTAAAGGAACACACACACACACATACACACACACACACACACACMCGTTTCTGGTATTAGGAAATGG
AGATTTCTAACATAATAAAAAAGATTGAACTTAAAAATGACTTCCATTAAATAGGGTAAGAATTTTGAGGTGGAATCCTTTTTCCTTGGGTCAGTACTTT
CTGCAAGCTTCTAAGTAATGGTTTCTCTTAGACACTCACGGTGATAAAATTGGGAGTTTTCAAATGAAATCTGGAATGATCTACTGGCATCATGCCTAGG
ACTTTGGAAAACTTGAAGGTTGGCACCTTTGGGGAAAACCAGACTTTTGAAGCAGGGGCTCTGATTGTCTCTTCTTATTATAGTGCAAGGTGTTTGGCAG
AGGTGTGGTAGCTGAAGGCCCAAGGATAACATTGTCCAGATTTTCAGTCTTTGGAGCCATAAACATCCAGTTCTTTCCAGCCCCGCTCAACCGCCTCTCT
TAATTCACCACCCTGTTAGCTTCATCTCAGGCCAGACATTGTAGGTGGCAGCAATTGTAGGACAATGAGAAGAGGCCAGATGAGGACAGAATTTTTATTT
TCCATTGCCAGTAACAAACACAGCCCTAACTTGCTTAGACCAAAGATGGGGATTGAYTGGCAACTGGGAAGCCTAAGGGTGGATCTGGCRTGGCTGGATC
TAAGTGATTAAATGGCGCGGTCATAATTCTATTTCTCTGCATCTCTCAGCTGTACTTCCATCTCTGTAAACTTCATTTGCAGACATGGCCAGCATGCGCC
CATAGCCTTAATGCTCAGGGAATATTGGTGGGAGAGAAAGCTCCTTTCCTATAGCTTCAGCAAGAGTCCCACGGCTGACTCTCATTGGCCCTCAGTGGGT
CACATGTAAATCATTGAGCCAATCACCGTCTTTCTGTCTGGACCTGGAATAAAGACCACCTTAGAGCATGGGAGCGGGATCCCCTTGATCCACACCATAT
AGACTGTGAGGTATGAAGTACCTCACAGTAAAGAAGTCATGTTATTGCTGGAAAAGGGGACATGGGTATTAAAAAGACAAAAACAACAGGGCTTCATCAC
AGCAGCTATACTGCTCCATCAATACCCATCCCAGGAGACAGTGGCAGTCTTGATGTCAATCTTGTTTTAGGATCATTGCCAGTGGAATTCAGGACTGCGG
TTCTACCCGGTAYCGGGGAACCAGGTGAGGGGGTTAAGAGGCCTGGGCCCATGGAAGGGGTGAGAGAGAGCCACATACTTACAGTTGTGAAGGGGGCCAG
CCAGGATGGTGGCTTGCAGGAAAGGTCTGAGCAGAGTAAGAGGCAGTTCCTGGCACCAGCATGCCAAAGGCAGATAGCAACACTCTTCAATGGATGTGGG
TGAGAGGACAGTGGAATCCAGCAGGGGCCATTGTTTCCTTCCATAATATTTTTAAACTGYAGCAAAGTGATCTTTTTGAGACCCAAATGTGAGTATGCCA
TTCTAATCTTCCCACCCTCAGATAAACCACAGCAATGATTTTATACTGTCTGTAGGGTAAAGACAGACCCCTAATCATAACCTACAATCCCTCGACCCAG
TGACCTAGCCCCCGTGTACCTTCCCTGTCTCATTTCTCACTGTTATCATTGTAACCCTCTACCCTCTCTTTTGGCTTCCTGCAGTTKCCCTCCTGCAGCA
GGGCTTTTGCACATGCTGGTTTCTCCCTTACTTTGCCTCTACTCAGTCTTTATATTTCAACTCAGTGGTCACTGTCTCTAGGAAGCCTTCCATGACTGCA
TTAAATCCTTCTATAAGTTTTCATAGTTCTGTGCATTTCCTCTTGGCAGCAATGCACTGAGCTGCAGTTTTACATTTTTGTTTTTTTGTTTTTTGRGTTT
TTTTTTTTTTTTGAGACAAAAGTCTCGCTCTGTCCCCCACGCTGGAGTACAGTGGCACGATCTTAGCTCACTGCAACCTCCACCTCCCAGGTTCAGGCGA
TTCTCCTGCCTCTGCCTCCTGAGTAGCTGGGATTACAGGCATGTACCAGCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCTGCCATGT
TGGCCAGCCTGGTCTTGAACTCTTGGCCTCAAGTGATCTGTCCACCTCTGCTTCCCAAAGTGCTGGGTTTACAGGTATGAGCCACCACACCTGGCCTGTT
TTTGTGTTTGTTTATTAATTCCTATTTTTCCCACCTGACAGTACGCTCCGTAGGGCATGTGTTTGTTTCGGTTCCCCAACGTATCCCTACTGCCCAGCAG
AAGGCTTAGCTGTTAACAAGTGTTTATTGAATGAGTAAGTGAATGAGTACGTGAATAAATCTGCGCTTTAGAGGCACTTGCTCAGGCTTGTGGAATAATT
CTACAGAGAGAAACAGGAATCAAAGGGAAACCTGAAGCTGGCTCAGAAGATGGATGGGCCAGCAAAGGCTTCAGCAAAACCACACAATGCTCATGAAAAA
TCACGCATTTCTCTGATTTGTGGTTATTGCTTCCCTGGATTTTTTTTTTTTCCAGTTGTTGTTGTTCATGGTGGTGGTGGACAATCTGACCATATACCAA
CCAAATTGACTGTTAAATTCAATCATCAGTGACCACTCCTGATAATCTGACCTCCTAAGTTAGAGCCCCTGGGAAGTTCAGCCGTGGTTCTGACCAGGCA
GGATAACTATCTAAGTGTTCCCCTTTGGACCTAGACTGAGCCAAAGWTTCTCCTTGGTCTATATAGGATAATAGATTTCTAAAACAAACCAATAGCTCAG
GCACAATTATAGTGGGGGGTGGGGGGCATGTTTAACCTACTTTAGAGAACAAACTCTTTTTAAGGGCTTTGCACACTAATTGTATGCAAATGGATGCTGC
TAATTGCAAACACAAAATTCAAACCTAGTCAAATTTGAAACCTGTTCATCAACAGTCCCTTTAGGACCTCTGCCCCACTCTATGTATGCAGTTTAAATTG
CTGATTTATGGCTACATAATGTCTTCCTAACCCCCAGTTTACTGTTGGCTTCCTTCAGAGTCATTGCCCCAGGGGACTCATTGACGGCAGAGAGTGTGTC
CCCTCCACTGTTGCCTCAATGCCCAGCTCAGCCCAGTGGGTACCGTACTTCAAAACCTCTTATTGAGGTCCACCTCTGTGCCAAGCATTTCGGTAGGCAG
TGACAGAAGAGAGTGCATGCATGAATGGATAAACTCTTTCCTGGAATGCCTGCTCTCATCACCTGGTTTCAAAGTCGAGCCAGACGTTCTGTCTCAGCTC
AGATTCTACCTACCCTGAGGTTCGCAGCTGGGCATGATCGAGCCACTCTCCACTCTCCTGTAGCATTTTTGGGCTTTGAGTTTATTTGACACTTTTCACT
TGCTGCCTTATATTGCGTTTATTTTTATTAATTACTTCAGTAGTCATTTACAAAATGCTGCTGAATCCAAGTCCCTGTGCAAGATGCTGCAGGAGACAAA
AAGATGAACAACACGTGGTCTTTGCTTTCATAGGTTATTTCTCCTCTTCCATAGCAACACATGTCAAGGCAAGGACCATATCTTATTCAGTTCCTAGTCA
TCTTTTCTTTCTTTTSCTTTTTCTTTTTTAAATTGTTAAGATCTGCCATAAAAATGTCTGTCAGAGTAGGCATGATTGCATATTCTTTAGATGGATGGGT
GGATGGATGGATGGATGGTTGGATGGTTGGGTGGATGTATGGTTGGATGATTGGATGGATGATGGTTGAGTGAGTGGGTGGATGGATAGGTGGAAGGATG
AATGGATGCATGGCTGAGTGGATAGAAGGTGGATGGATGGAGGGATGGATGGTTGGATGGTTGGATAATTGGATGGATGCATGGATGTTTGGGTGGATGA
ACAGATGAATGGATGCATGGATGAATGAGTAGTTGGATGGATGGATAAATGATGCATGGATAGATGAATGGTGAAACTTTTATATTTTACTAAAAATCTG
CATTGATAGCCTAGTGGCTTGCTAAAAATAAGGGAGCTGCCCAAATGCCCCATTTCCTTTATATACTTGTGGAGCAGCAGCGAAGGCCAAGCCAGTGCCA
GGGGCTGGAAACAGACACATAAATAAGAACAAATAAGATACAGACCTGACCTCAATGATTTTTTGATATAGAAGCATAGGCACATAAATAAATTCCTGTA
ATGGGAGTCTAGGGTGAGGGGTGGTGGGTGCCATAATAAAAATTATATAAAGTGCTATGGGGAAGCAAAGCTACATGACCAATTTGTTCTATTTATTTAT
TTGTTATTATTATGTTTTTTGAGACAGAGTCTCGTTCTGTCACTCAGGCTGGAGTGCGGTGGCATGATTGTAGCTCACTCCAGTSTTGAGCTCCTGGACT
CAAGAGATCCTCCTGCCTCAGTTTCCTGAGTAGCTGAGACCACAGGCACGGGACACCATGCCAGTCTAATTTTTAAATTTTTTGTAGGGACAGGGCCTCA
CTGTGTTGCCCAGGCTYATCTCAAACTCCTGGCTTCAAGTGATCCTTCTGCATTGTCCCCCACAAAGTATTGGGAATGTATTCTTTCCTGATCAGGAAAC
TCCGCAGAGAGAAAGTGACAGTTGAAGACTATATTGAATTTTGGCCCACAGGAAAAGGAAACTTTGCTGTTAGGGTCAGCTGGAGGAGAGACTGCAGGGG
TCAGAGATCAGGGCCATATGCTAGAGCTGCARTGTGGGTGCTCAAATGATGTTCAGTGCATCTTCACAGATGGACCTCCACATGTCCCTCATGCCCTAAA
ATAGATATTCTCCACASCTGCACATACAACAACGTCAGTGAAATCCGTTGAGAGGAGCATTGAGGAGATGAGTCAGGTGTGCCGCAGCACTCAGGTCAGA
CTTGAGGCAAGTGAGAGGTGTGAGTTATTCAGAGTCCCAGAGAGCTTGGGCCAAAAGAGATTCTRTTTTTACTGGAGCATGTGAGGGTGGATCACAACTA
GGATGGCGCGAAGTTCACCTCGTGTAAGCACACCAGGCTGCAGGGATAATAACTGCACTTTTTAAAACCAGCAAATCATTCATATTTACTTTATGAAACC
TCTTTTAACTTTATTTTTTATATTTTTTTTATTTTCTTGTTTCTTTTTATTTTTAAAATTTATTTTTGTTTTTTTTGTTTTGAGACAGGGCCTTGCTCTA
TTGCCCAGGCTGGATGGAGTGCAGTGGCCCAATCATGGCAGCCTCAGCCTCCTAAACTCAAGCAGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTA
CGGTTGTACATCACCACCTCTGGCTAATTTATTTTTTGTAAAGATGAGGTCTCACTATGTTTCCCAGGCTGGTCTCTAATTCCTGGCCTCAAGCGATCTC
CCATCCCCCCTCAGCCTCCCAAAGTGCTGAGATTACATGCATGAGCCACCATGCCTGGCCTCTGGCCTTCTTTTCACTTTAGAAAAAAACAAAAAACAAA
AAACAAAAAAAAACACAMAAAAAACTTTTTTTTTTAGAACTGTTTTAGTTKGGGAGCCAAAATTGAGCAGAAAGTACAGAGAGTTCCCGTATACCTCCGG
CAGAGCCCTGGCTCACTATCTACATCCCCACTAGATCCATGTATTTGTTTAGGTTTTGGGGGTTTGTTGTTGTTTTGAGATGGAGTCTTGCTCTGTCACC
CAGGCTGGAGTGCAGTGGCACCACCTCAGCTCACTGTAGCCTTGACCTCGAGGGCTCAAGCAATTCTGCTGCCTCAGCCTCCTGAGTAGCTGGGATTATA
GGCACATGCCACCATACCCAGCTCATTTTTTTTTAATATATATTTTTAGTGAAGGCGGAGTTTCACCATGTTGGCCAGGCTGGTCTCTAACTCCTGACCT
CAAGTGATCCGCCCATCTCGGCCTCCCCAAGTGCTGGGATTACAGGCATGAGCCACCACTCTAGGCCTGTATTTGTTTTAATTGATTAATCTACAATGAC
ACATCATCATCACCTAAAGTCTATAGGTTCATTAGGTTCACAGTTGGTGATATATATTCTGTGGGTTTTCACAGACATGGAATGACATGTATCTATCATA
CATCATATATTGTATCATATCATATCATGTCATATCATATCATATCATACCGAATAATTTCATTGCCCTAAAATACCTCTGTTTTCACTTTTTAATCTCT
TWGTGCACACATCAAAAATTCCTTTTGTGTTTTTGAGTTTCAAAAGTGTGCCACAAACAAGAAATTTGGGATCTGCTGAGCCCAGCCTCAGACCTGTAGG
GGAAACAAAGAGGGCAACAGGAGGTCACGAAGGCATGCTGTGCCCACTTTTGGAAATTGTGAAGGAGAGTGTCTCAAACATGTAGGCTTGAGCCACTCAA
ARTTCTGGGAAATAGGATGTTTTGTAAAGAAAGTTTGCTACTGTCACTTCTGAGTAGTTGCAGTCCCTCCCAGTACGTGGGTATCTTCGGTGAGAACAAA
TTTCCTGGCAGCTTGAGGACTCCGTGTGTTATTCACATGCTTTATTTAATAGACTTGCCTCATGTGACTTTCTATATCATCCTTTGTGTCTAAGTGATTT
GCACTGGGAAGATAGTAAACGCTCCCACTTTATATGCAGAAGGTTGAAAACACCATGARTGTTGCAATCTGAGGTATCTGCCCTTAAAGAAGCAATATTT
ACTGAAATGCAGGGCACACGACTTTTCCAGCAAACCACACCGCCGTCCTTTTGTGTGACGAAATAATTATTTTGAGATACCGACATGCGTGACGACCAGA
TAATTATCTGAGAAAACTTAGCATCTAATGATGCTGTTTTGAGATCACAAGAAAGAATTATATTAGCTTGAGCTGAATTGTTCTTTTCCCCCTGTCTCTC
TTTAGTTGTAAAAACACCCACAAATGTGAATGCTTCAGGCCTGAACTTGTCAACAGCCAGTGGCTCATTGTAGACATAGGGATGTCGCCTGTGTTTGGGG
CTGAGACACCAGAACAGGTGTTCTGTGGGAACTGAGAATGTCTACTGCTGCACACCTTTAATCTCGGGTCTTCTTTCTGGTGAAATACCCGTGATTCATA
ACTCAGTCACGTTACTGAGGTATGTCTCTTCGGATAGATTCTATCTCTAAAAACTACAGATTCTATCTCTAAAAACTTAAGTCAAGGGATTTTSAAGCAG
TTGTTTGATTTATGTATGTGAACCTCTCCCTTAGGAGAAGAACTTTTCTTTGGCAAACACCATAGGAACGGAGACCTTAACAAAAGAATTAGGACTCTCT
TGTCCTGTTTTAATCTCAAAGCTGTCCCTGCGCTGGTGCGGCTGGCCCACTTGTGCCTTTGTGAATTTGCAGAGAAGAGGCTGGGCGTGGGGGGACACAT
GACTAATCCGCCCTTTCTTTTGTTTGTGCAACAACTCAATTCACTGTCACCACATCAGCACATTTGCTGCAAATCTCAGTGCCCTCTCACTTTCGTTTTA
TTTAATGCGTTTCTACATTTTCCCAAGGCCACATGAGCTGTTTTCTGGCGCGTGGTATGCCTGCCTCAAATAACTAACATTGCCTGGGTCTTGGAATCTG
AGCCTTCATATTCTCCGATATATTATTTGGTCCTATTGTTCCTTAACTTGCTCATCATTCACACGGCGAAGGAAATTCCATTTGGTCCTTTTAAGACCGC
CAGACTAGCTGACTTAAACACTCAGCTCCAGCTACTTCTGAATATTTCGGTTCTTTATTGAAATGGTCCTTTTAATGTCATCTTTAATTTAATCAAATAG
TGTCATCAAAATAACATTTACTCTATTACTGAAAATTCACTGCATTATTAACTAGTGTAACTAGACAAAAAAGATGGTACAAACCCCCATGGAAATATAT
ACTTACTGTAAAAATGGATAGAGTTCATGGATGTTCTATATTTAATTTGCACTTTCAAAGTACTCTCTATGGAGAGGTTTTATGGTTCTGAAATAATTTA
AAAACACACTTTACTACAATCCATAGCAGGTAGTTTTGCCAATTTGGGAAGTTATGKTGCCTTGCAGTTTCCAAAGTAAGCTGAACAGTGTTTTYTAACA
GTGCTGCCCCTCTCTCCCACTAGAAATGCGAGTCCATCCTTTTACCAAGTGTGGTACGACAAAGGTTTCTCTGGTTTTCTTTTGGTATTCTCAGACAACT
GAAATATAAATTACATGGTATGTGCAGGTATCACCAGGATGCAATTAGTTTGATGAAATATACCAAGTCGTCAATGCCACTTTGGATAGTTTAATCTGAA
AATAGGACATGGTTGKGGTAGTGGGCACAGGGGAAGGAAGGTTATGTAATTTTAAAATTCTTCCTTTGATTCAAAAGAAAAAAACATGTTTGTTGCATTC
AACTCCAAAGGGTGAGCATAGCTTAGTGGGGAGAGATTTGGACTAAAAAATAAGAGTTCTGGGTTCAAGATCTGAGGTAAATTATTTGCTAGGCCTTAGT
TTCCCATCTGTGAAAAAAGGGAGTTCTATAACAGCAAGACATTTAATATTAAAATAATGTAATGTTTTTAAAAATGCTTGTCTACCCACTTTTTCTTGAG
ATTAGTAAGACCATCTTCCAATTAGAATGTTTATCCGAACTTACCGCTAGGTATTTCCTTGTAGAGTATGAAAGTAAAATATCAATGGGCCATCTCTACG
TCAAGGTTCTCGTTCTTCTCATTACTGAGAAATTATGTTCCTGGAATAATATTGTACAGACTTAGAAATAAGGGCATTGAACTTAATTCATTTATTTTTC
AAAAGGCATGTATTTTTTACCTGTTGCTATATCTGCTGCCAGCCAAGTGCTGTGCTTGGCCCTGAGAAAGCAAAGAGAGATAGAGATGTCCATGTTTTGG
AACTTGACGTCCATTAGGGGACATAAACATTTGAAAAGATAACACTAACAAGCTAATTCAGGTATGATAATAAAAACCTTCACAGGGTTAGCCATCCATC
TATCTGTCCATCCATCTATTCACTCATGCATTCATCCACSTGTTCATCCATTCATCTGTCCATTCATCCATCTATCCATCCATCTACTTCTAGGTTGTGA
GAACCCGTAGTATTGACTCTCAGTGTGATAGGAAGGCCAGTGTCTTGGTGAAAGATCAAAGAGCTCATCAAAATTTGTCGGATAGACTGCAGGCTCAGAC
ACTGATGAGACCCCCCTGCAACTACCACATCAAAAGGCCTAGGAGCCTTTCCATGACCAAATGCCCATATTGATGAATCCGAGACAAGTGAGGGAAAGAT
GTCCTCTGTCGGTGTTCTGAACCCTGTGGAAATCATACGGGGAACTATAAAAGATCCTGATGCCTGGTTTTCTTCTGGAGAGTCTGATTTAATTGGATAA
GGATACAGCCTGGGCATCAAGAGTTTCTAGATGACCTAAGTAATTCTCATTTGCAACCAAGGTTGAGAATAAAGGGTGTGTATAAGGTGAGAGACTTCTG
GTTAACTAAAGGAAATACCAATGACATTTGTGCTTTAGGTCTACCAGTTAGTGGGTATTGGTGCATGGTGGGACAGACTAAATGGCTACAGGTCAGGGTC
ATTGTCAAAGAGTGAGGGATAAGGGGTTGTGCTGTGGCTCAGAGGCAGAGTAGACTGAGGAAGAACAGCTAATTCCAGAAAGCCATGTTGTGGTGTAAAA
GATAGTACCTGACTTGTAATGTCTGACACCAAAAATGACCTTAATTTGGGTCATAGGACAAAGACCTCCCCACCTCCAGCTATGAAAGACAGAAAATGAT
AGGACTAGGCTTCATATTTTCTAGCGTAACGTTTGGCTTGTGGTATATTCAAAACTAAGTCCGTGTTTGTTGCTGCTGAGTGACTGGGCTGATACTACCT
GTCCTTCAGCCATCTAGACTTGCTCTCTACCATCCTCAATACTTCATATGAAAGGAGACTGTCACTTCATGAAAATCATTTATTTGCTTTAGCTTAAATC
TACTGGAGATTACAACTGCCTCATTTTGTCACCTTCTTACCCCAGAAGGAAATATCTCCACAAGAGAGCAGGTATTTATTGAGTTATGACTGTCAGGCAT
GGAACAGATCCATTGGTCAGAAATAAGGAAATTGTCTCTACCTTCAAGGTTCTCACAGTCTGGAGGGAACAGAGAGCCATCAGGGACAATAGGTCCCTGT
GCCATCAGCTACTGGGATGTATGACTTYCCAGTAGAGGTACACAGCACTTGTTCCAAAAGGAGCCTATGTAGCTTTGGGAGTTCTCTATTTAGTCACCTT
ATTTTTTTTGTCTTCTTGTTAAACTAGCATCCTGTTTTACTGAATCTCTGCCTCAGTTGCTTTATTTACTGTATACATACATAGCTCTTTTGAAGACTTG
ATGTCAAAAGTAAAGAAGTTCAGAACCTACGGGGCTTGCTTTGGGTCCCAAATTATCTTAGCTTTCTGGAAAGAGAAGAATCTATAATGTATTCTCCRTG
GAGTATCTTTACTCACTTGTGATGAGATGTCTGTAAAAGTAATCAGCTCCATACATCTGGGCATGATGACCCTCAGGCCCTTGAGACTCAGGTGTTCTCA
GCTCATGGTGCAAGTTCCCCTGAAAGAAAGACTCAAGCCAAGCATTCAATGGTTATGTTCCAGATCATAGTCTCCTAAAAGCCAGGGGTCCTTTATGCAG
GGATGGTGACATCAGAAGTTAAAAGGTCTATGCAGATTAACGAGGAAAAATGAGGGAAATTACTGTAAGGTTTTTAAAACATGATAGTTATATATGAACT
GATGATTATATAATTGAACGTGCCTAAATTGATGTAGTTCTCTGTAAAACTAGTTGGTGTAAGGAAACTTGGTCTTTGACCATCAAGGAGGTTGCAGTTT
GTGGCATGGCACAAAGATAACACTCAGCAGATATATAGCTATGGGATACATGGATGGATGGATGGATGGGTGGATGGATGGATGGATGGATGGATAGGTA
GATGGATGGATGCGTGGGTGTGTGGAATGGTGGGTGGTAGGTGGGTACATAGATGGATGTATGGATGGGTGGGTTGGTGGGTGCATGGATGGGTGAGTAA
GGGGGGATAAATGAAAGGCTTGTTCTTCTGAAGGGACTCTTTACAAAGAGTCTTTGATCTTCCAGCTTCACGTGCAAGAGAATCCCCAAGGTGAGCTTGT
TAAAATAAGCATATTCTGGGTATCACTTCCTGATTTTCTGGTTCAGTAAGTCTGAGGAGGAACTTGGGGAACTTTATCTTTTAAACAAGTACCTCAGGTT
ATCATAGTAGTCTTGCTGTCCTGAATCTTAATGCATCTCTATTTCTGCTACATCTTCCATGAAGTTGATTTTGCAGAAATCATTCTGTGGTTCCACATTG
ACTGCATCCAAGACCTATTGCCTTCAGATTTACATCAAGCACAATTTGGCAGGTATTAGGGATGGACCCAGCAGCCAAGTCTTTGTTGCCTTAAACAGAT
CCCTTGTCTCTTGTCAGGACCTCCTTCCAGGCTGCTCCTGAGCAAGTCTGGATGTGACTTCTACCTATGATCCAGTGGGTTGGGCCATAAAGGAGCTTTG
GAAAGGGACAGTCTTAGGGTGAAAAAGAGGGAGAGGCTTGCCATCTGAACAGGAATCTCTCCCAGAGGAGAGAAGAGAAGCCTAGGCTTTAATGAGGACA
GCCACCCTGTGGATGACTTTCTGTGTGATGTTATGTGGAGGTGGCTTCTTTTTTCTCTATCCCATTAGCTGAATTCTGTGCCAGAAGGAAGAGATTTGGA
GTCAGCAAGGCATCCTTTTTTTTTTTTTTTTTTTTTTTTAAAAAAAAAAAAAAAGAAGGAATGTGATTGTGAAGGAAGCAAGAAAAGGCCCAAAGGCTCT
GGACAAGGGCTAGGAGGCTGAGGAGTTTTACACATTCATAATTTCCTTGTAGGCCAAGCTTACTCTCAGGGATGACAGTCATTTTCTAAGAAAGTGAGAT
TGCTTCACATTGCATTTAAAGGCTTAAATAATGTATTCTGTCAGACAATTCTCTGAAATGGTTTTCCAAGTGAATGCATCAGAAAGTGCCYAGAAAGAAT
GCCTGGCACAGGAAGAGGAGGGCATTCAGAAAATGTGAGCTGCTTGCATCAGAATCTAACTTGAGATGTATCATTCCTACGGTAAGGTGCACACACATTA
AATGTACAGTTCAATGAACTCATACTTATTTATACAACTGTGTAAACACCACTCAGATCAAGACAGAGAACATTTCTAACACCTCAGAAGGCTCATCTGT
TCCCCTTTCTAAGCAAGAAGTACCATCAGCATTAAGAGGTAACCACTATTCTGATTTCTATCAGCATAGTTTTCTGTTCCTGAATTCATATAAATAGTCA
CCCAGTACGCATTCTTTGCTGTCTTGCTTCTTTTACTCCTCATTAGGTTGTGGGATTTGCCCACGRTATTTCATTCTTTATTGTCATTCTTCTTTCTCTG
CCACTGCCATCCTACCAACAGTTTGTATTATGAAAAATTGCAGACGTACACAAAAGTTGAAAGAATTGTACTGTAAGTACTCTGATATGCACCACCTAGA
TTCTACAATTAACATTTCCCTCTATTTGCATCTCTATCCATTTACCATTCCTCTTGTCTATCCATCAGTCTATCTTGATTCATTTCAAAATAAGTTGTAG
GTCAGGTGCAGTGGCTCACACCTGTAATACCAGCATTTTGAGAGGCAGAGGTGAGAGGATTCCTTGAGTCCGGGAGTTGAAGACCAGTCTGGGCAACATA
GTGAGGCCTTATCTCTTCAAAAATAAAAAAAATTAGCTGCCCATGGTGGTGTATGCCTGTGGTCCCAGCTACTTGGGCAGCTGAGGCAGGAGAATTGCTG
GAGTACAGGAGATTGAAGCTGCAGTGAACTGTGACTACACTGCTGCACTCAACTTGGGCGACAGAGTAATACCCCGTCTCAGAAACAAAAACAAATAAAC
AAACAAAAAGCTAAATAAGTTGCAGACAGCAGTCGCTTCACTCCTAAACACTTAAGCAGGTGTGTCATCCTTGAATTACTGAATTAGAGTTCAGTATTTG
CTTATGCTAGTTATGTTAGTGGTATGCTTTTTAAAAATAATTAAGGTGATGTCATGATAAGGCTATTAAGAGCCAACATGCATTGAGTATGGACTTTCTG
CCAGACATTGCACTATGCACTTAACACAYAGACACATATTGTTTTTTCCATTTTAAGATACAGAAAGTGGGCCTTAAAGGTGCTACTGACTTGCTGATAT
GCTTTGGCTGTGTCCCCACCCAAATCTTAACTTGAATCGTRTCTCCCAGARTTCCCACGTGTTGTGGGAGGGACCCAGGGAGAGGTAATTGAATCATGGG
GGCTGGTGTTTCCCATGTTATTCTTATGAAAGTGAATAAGTTTCATAAGATCCAATGAATTTATCAGGGGTTTCTGCARTTTTTCTCTTGCCACCACCAT
GTAAGAAGTGCCTTTCACCTCCACCATGATTCTGAGACCTCCCCAGCCATGTAGAACTGTAAGCCTGATTAAACCTCTTTTTCTTCCCGGTCTCAGGTTA
TGTCTTTATCAGCAGTGTGAAAATGGACTAATACAGTGAATTGGTACCAGTAGAGTGGGGCATTGCTGAAAASATATCTGAAAATGTSGAAGTGACTTTG
GAACTGGGTAACAGGAAGAAGTTAGAACCGTTGGGAGGTCTCAGAAGAAGACAGGAAAATGTGGGAAAGTTTGGAGCTTCCTAGAGACTTGTTGAATGGC
TTTGCCCAAAATGCTGATAGCAATATGGACAATAATGTCCAGGCTGAGGTGGTCTCAGATGGAGATGAGGAGCTCGTTGGGAATTGGAGCACAGGTGACT
CTTGTTATGTTTTAACAAAGAGACTGGCAGCATTTTGCCCCTGCGCTAGAGATTTGTGGAACTTTGAACTTGAGAAAGATGATTTAGGGTATCTGGCCGA
AGAAATTTCTCATCAGCAAAACATTCAAGAGGTGACTTGGGTGCTGTTAAAGGCATTCAGTTTTATAAAAGAAGCAGAGCATCAAGGTTTGGAAAATTTG
CAGTCTGATTGTGCGACAGAAAAGAARAACCCATTTTCTGGGGAGAAATTCAAGCTGGCTGCAGAAATTTGKGTAAGTGGCAAGGAACCTAATGTTAATS
TCGAAGACCATGAGGAAAATGTCTCCAGGCCATGTCAGAGACTTTCACAGCAGCCCCTCCTATCAGAGGCCTGAAGTCCCAGGAGGAAAAAATGATTTCA
TGGGCCCAGCCCTGGGTCCCTGTGCTGTGTGTAGCCTAGGGACTTGGTGCCCTGTGTCCCAGCCACTCCAGTCATGGCTGAAAGGGGCCAATGTATAGCT
CAGGCTGTGGCTTCAGAGGGTGGAAGCCCCAAGCCTTGGCAGCCTCCATGTGGTGTTGAGTGTGTGGGGGCACAGAAGTCAAGAATTGGGGTTTGGGAAC
CTCCGCCTAGTTTTCAGAAAATATATGGAAACACCTGGATGCCCCAGCAAAAGTTTGCTGCATGGGTGGAGCCCTCATGGAGAACCTCTGCTAGGGCAGT
GCTGAAGGGAAATGTAGGGCTGGAGCCTCCAGGCAGAGTCCATACTGGGGCACTGCCCAGTGGATCTGTGAGAAGAGGGAAAGTGAACTAAGCTCTTTAA
ACCTCATATGTTTCCATCAGTAACATGGGAACAATAGTAACAATTCCACAGAGATAGTATTGATGGTTGAACAAGATGTTTAAATCACTAGTAAAATTTG
GCCAGACACGGTGGCTCATGCCTATAATCCTAGCACGTTGGGAGGCTGAGGTGGGTGGAGCACCTGAGGTGAGGAGTTCGAGACCAGCCTGGTCAACATG
GTGAAACCCYATCTGTACTGTAAATACAAAAAATTAGCTGGGCATGGTGGCAGGCACTTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACT
TGAACCCGGAAAGTAGCGGTTGCAGTGAGCCGAGATGGCACCATTGCACTCCAGCCTGGGTAACGAGCAAAACTCCATCTTAAAAAAAAAAAAAAATGCC
CGCCTTATTCAGATACACAGTCTAATGCTTTCCACTAGAAGATTCTGGCACTGTTAGCATCTCTRGCATAAACTATGTTACTCAACCCAGTTCTGTCGTC
GTCATTTTTTTGTGTTGGCTTTGCCCTTCCCGCATTGTGACTTGATCCCATTTAAGCAGYAACCTCTGCACACACAATCTTTTCTCTGTCCTTCACTCAG
TGATGTTATAATATCTAGAGGCTTATTGATTATTTGTTTGATTCTATTGTGGGCACAGGAGCAGTTCTTAGATTAACACTATTAGATTTTCCCAAGCAGT
ATTGCCGTGGTTTATACAATTGGACGAAATGGGTGATCTAATTTGGACTCAATTTGCTCCAAAGTAGAGTTGGAGGAAGGAGATGCTGTGATTTGGTTCT
GCACCTGAGAACAAGAATGGAAAAAGTTATCTCCAGGTGCTATCTGTGTGCCTCATCAATTTTGGATACACTGTGTGACCAGCTCTGAGGATTCCAAGCT
TTTTTGCGTGGCTTCTTACCTATCAGCTAAAGAACCTAGCTTTACTTATCCAACTTAGATATTAAATCCCATGATATAATTTATTTTTCCGTGTGAAATA
TCTCAGGAACAAAAAAGTCAGGTTGAGTTTTCTAAAGGCACTGGTTTAAGAGGCTATAGGTTAAGAGGAGATAACAGACATGCTCAGAAACAAATCATTT
CCTGATAGCTGTTTCAGATGGAACCAAATGGAAAACAGTGCTTCTTTCCGTTTACTGTACACCCCCTATCCTGGCATCTAAACATATTTGTAATCATACT
GTCTATAGAAGTTTTGGTTCTGCTTTTGACCTTAACACTAAAATACCCTTCCATAATATTATAGGCTTTTCATGTACATCGTTTTTAAGATGGCTATAAA
TTCCACTTAGTGGCTATGACTGTAGTTTTTTTTTTAACTCTTCCCCTAATAGTGAAAATTTAGATTGTTTCTAAATTTTCCTTACTATAAGTAAGGCTAA
AAAGTAACATGTGAATGTTTTGAATCAATAAATATAGTATGTATTAATAATATTGAGCTATTTCTTAAGATTACATTTTCAGAAGTAAGATCACTGAGTC
AAAGGGTGCACACTGTTTAAAGGAGCTTAAATATATTGCAAAACTCTTTTCATGGTCTGCTGATATCACTGAAAATGGAGGTCTGGATTCAAATCACATG
TGCCAACTGTTCTACTTTGGCAGAATTACCTACTGCTTTGGGCCTCGGGTACTAAATTTGTGAAATGGGAAAAATAATAGTTCCCACCTCATAGAGTTGC
AGTGGAGATTGAATGAGTTTGTAGATAAAAAGCGTCTGCGTTGTGTCTGGTACATGGTAAGGGGTTCGTAAATACTGAGTTATTTCTTATTAACATTTAT
TATTGTCTCCACTGGAAGAAGAGCCTGTAGAATATGCAGACTATTCAAATGCTTCCTTTGGTCCATTGTTGTCCTTTCTTTTCTCTTCTAGAACTTTCCC
CATAGTCATGCATCTGTCCCTGGGTTATCTGATATGTGTTTCAGCCTGTTTTCCCAAGTTTACCTGCCTCTCTGAGAAGCCCATCAGCCCTGAGAGATAC
CTGGAAGGAAAGAGGAAAATGCGTGATTCAAATCATGTTGCAAGTGGATGAATCTAGCCCCAAACAACTGGGAGGCAACTACTCCTGCCTGCCGAGGCCT
TTTTTTTTTTTTTTTTTTTTTTTTTTGAGACTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCATGGCTCACTGCAGCCTCCCGGGCTCAAGCT
TTCCACCCMCCTCAGCCTCCTGAGTTGCTGGGACCACAAGTATGCACCAACATGCCTGGTTAATTTTTGTGGTTTTTTTTTTTTTTTTTTTTTTCCTGCT
GAGATGGGGATTTCACCATGTTCTCCAGGCTGGTTTCAAACTCCTGAGTCCAGGTGATCCACCCATCTTGGCCTCCCAGAGTGCTGGGATTACAGGTGTG
AGCCAYTATGCCCAATACCCCCTATGTAGACTTTTAAAGAAATACAGGAAACAGCCAAGACTGGTGTSATTCAGATTTAGCTTGGGAGAGTCTAGTGGGT
GTTAGGTTCCCACAGGATGAAGGATCACCATGAACGGTCAGGACCTGACTTAGGAGGACTCAGAAGCTGGAGACTGCAGAGGATGGCACAGAGTTCCAAA
TCTTTGGGGTGTGTAAGAGTAGGAGAGGCAGGATGGGAGAGGATGGGAGTGATGCCACATAAATCAACTCTGTTGCAGCCTCCGGGGCCACATCAGTAGC
TGCAGGAGGAGGAGGGAACAGGGAGACAGGGAGCCTTTCTTCCTTTCCTCACCCCCAGTTCTGTGTTTATACTTCTCATTTAGCCCATACCCCACTATAT
TAAAAGAAGATGTATAAGTGTATGTGTTTAATCTACCATTCCTTGTGGCACAGTGCRTGGTCTGCATGGCACAGTGTGTGGTCTGTATGGCACAGTGCAT
GGTCCGCATGGCACAGCGCRTGGTCCGCGTGGCACAGCGCGTGGTCCGCGTGGCACAGCGCGTGGTCCGCGTGGCACAGCGCGTGGTCTGCGTGGCACAG
TGCGTGGTCTGCATGGCACAGCACATGGACATGATTCATACATGCAAGTGAATGAGTGAATGGGCGATTTCCAGACTATCCAGAAACTGTGCCCCATAGT
CCTACCCGTAGGAATCCAACAGGGAACTGTCACCACCGACCCGAGGCAGGAACCATGTGCTCTGAGCCCTGGCCATTTTGTGTAGATGGAGATAAATTGT
CATTGCTAATTGCCAGAGACCAGGTCCTGGTGGTAGCCAAACTGTTCCCTAGGGAGTTCTCACCAACCTTGCAAAATGAGATGGCAATCTTCATCGTGGA
TGCAATTATGTTTCATTGTTAACCATCACAAGCAACGGGACATTATGATGACTGTTATAAGTTGGTTTCACATGTAAACTTTGACCTCAGAGCAATGGGG
CAGGCTTTTCCCAAGGACCCTGTTGAGAGGTTCATGATGGTGACAAAAAGCACAAGCCCCAGCTGCCAAGGAGGCTGATATCGGGAGAGGCAGAATGTGT
CTTTTCTTTCTTCTTCCTCTTCTTCTTCTTCTTTTTGAAACCATGCTCATTGKTTTTAGGAATCATTAGCATGGTGAAGATTAAAGCTATTGGAGATAGC
ACAGATTGTTTCATTTTATTATGTTCAATTGGATTGGATCCGAGCCATTTGCAAAGTGCAGTATTACCATAAGAAGGGACTTGGAATGTTTGTCACATAA
TACTTCTTCATGGAGAAGGCAGTTTCTTAAAGAAAAAAAAAAAAGACAACTTGAAATAGCACAGCTTTTTTCCACTTTCAAATGTATAACAAAATAGAAC
TTTATATTTCCAGATGGACTGCCTGGAACCCGGGGAGTGGCTCAGCTACCAGGCYCCAGTGGCCSTTGTCTTGTTATTTCCTCCATTAGAGACCTGGCRT
ATAATTGTGGGAGGGAGAAGCCAGTGGAGCAGTCAGGGGACTCCCTGGCTGTTTCTGTGTCTGGTCTTATGGGTCTGGGCAYTGAATTCAGTCACAAACC
CTAGCATGCTCCTTTGCTACCTCAGGGGACAAAGTCAAGAAAATAACACTAGGATTGCCACCCTGCTCTCTCTCTCTCTCTCTTTTTTTTTTTTTTCTTT
TTGAGGAAGGGTCTCTCTCTGTCACCTGGCTGGAATACAATGGTGCTATCTTGGCCCACTGCACCCTCCAYCTCCCTGGTTCAAGGGATTCTCGTGCCTC
AGCCTCCCGAGTAGCTGGGATTACAGGGGCACATGCCACCATGCCCAGCTAATTTTGTATTTCTAGTACAGACAGGGTTTCACCGTGTTGGCCAGGCTGG
TCTSAAACTCCTGACCTCAAGTGATCCAACCGCCTCAGCCTCCCAAAGTGCTGGGATGACAGGTGTGAGCCACCACACCCAGCCACTCTCTTTCAACTAG
AACAGTTCCTCTCTTCTTTGTTGCATATTTTTGTATTTCATGCAAGGTGCTGTTTATGAACAAGGGAGTTTCCTGCAGCTTTAATAAAGAAGAGAAAAGA
AAAGAAAGAAAGGAAAATTCGCATGTTGAAAACATTGTACTAATCAAAAAAGCCAGTCACAAAGGACCCTATGTTATATGATTTCATTTACATGAAATAC
CCCAAAGAGGCAAATCTGCAGAAACAGAAAGTAGAGTGGTTGCCAGGGGCTGGGGATGGGGYGTGGATGGAGGCATTTGGGATTAACAGCTAAAGATAGC
AGGATTCCTTCTAAAGCAATAAAAATGTTGTAAAGTTGATTGTGGAAATTCTTTCACAACTCTTTGATTGTACTAAAACTTTGAACACTTTAAATGGGTG
AATTGTATGGTATATGAATCATATCTCAACAAAGCTGTTAAAAAATTGTATGAAAACTGTGATGGGATTCAAGTAGTSTAAYGCTCAAATTTCCCAAGTG
CCCTCATTTAAGTCTGGACCACGACAGGAACCCAGATGTGGCCTGAGTAGCACATCGTGGAATGGGCCTGTCACCTCTACCCCACACATCCTCCTGCTGT
TAATGCCCCCTTTGAAAGCCATTAGCTCTTTTGATAACCACAGCACGGTGTTGGCTCTCAGTTAGAGACTCAGATTTATCCCTGCCCGAATCATTTTCTT
TGATTCTCTGCCCTTCCCCACTACAGTGTAAACTCCATTTGGACTYTCTCTAGTTCACTGTGAATGGTTTTTGAATAACATCAATTAGCATAACCTCATG
CCCAGCATCGTCCTTATTGTTGAGAGCACAGCAGTGACAAAGGTGCAACTCTTGCTCTTGAGCGATCACAGTTTATTTGGGGAACCTGGTACTACCTAAT
AAAACCAGGGGAGACTCGACCCAAGGCATTGTGTTTGAGCTAGGCTTTGAACAATGTATAGACCCTCACCAAGTATGGAAGTGGAAGAGTAAGACATTCM
AGGTAGAAGGAACAGTATGAGGAAAGTCAGAGAGCTAACAAAGATTATAGTGTAATGCCAGAATCATGAGAAATTTGCTGAGAATTCATTTGAGGCCATA
ATTTAAAAAGATAGGAGGAGCCATGTGTAGAACTTTCACAGAACAGTGTGTACCTCCCCTCCTTCTTCCTTATTAGTCGTGATTCTTGGGGGGCAACTAA
ACCCAGCTTTTGGCAAAAGGGAGTATGTTGGTTCATGTACCAGGAAGTCTTGGAGTGATGGCTTCAGGCACGGCTGGATCCAGGGGCTCAAAAATATAAT
CAGATGATTTGTTYGCTTCTGTCTTTTGCTATGGTGGTCTCTGTTTTGCTTACTTCTGCAGCAGATTTTCTCTACCTGGTGGGAGAAACAGCTGCCAGAA
AATCCAGATTCCCATTCTCATGCTAGCTTCATAACAGCAGGAGAGCTCCTCACTCTGTTTCCCAGGGTGTRTATATATATGTATACATATGTATATGTAT
ATCAATATATATATCAGGTAAGATTCTAGTCCAGTGTGAGCCATATGCTTTATTCCTGAGCAATCGCTGTGGTCAAGAGATAGACTTTTTAGGGCCGGGC
ACGGTGGCCTACACCTGTAATCCCAGCACTTTGAGAGGCTGAGGCGGGAAGATCACTTGTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGSTGA
AATCCCATCTCTACTAAAAATACAAAAATTAGGTGGCAGGCACTTGTAATCCCAGCTACTCAGAAGGCTGAGGCGGGAGAATCTGTTGAGTCCGGGAGGC
GGAGGTTGCAGTGAGCCAAGGTCACGCCACTGCTCTCCAGTCTGGGTGACAGACTCTGTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAGAGAGAGATAGG
CTGTTTAACAGGTGTCGTAGGTCATGTATCTACAGCCATGGAAAGAGAATGGAGCACTCTAATGGATCCCTGACGGGTCAAATGGAGCAAAGTGTGCTTC
CCAGAAGAGCATAAGAAAAAGGAAGGGTACTGGGTGGACCAAATCTATTGTTACAATATCCCTTATATTCCTTAGGGTTCCTTTTTTTCAAGTTAAAGCA
TTGRGTCATGTCTCTGATAAATCGCCCCCCCACCCCGATCCCCACCCTCTGCCGCCCYGGCCTTCTTTTTGTRCTGTTGGGTTCCAAACTTTACCTGAGG
ATTTTCACATGCACATCTGTTAAATGCCATTTAAAGAGAACACTAACAAGAGAAAGCTAGTTCATTTYTCTTCCTGGGACCTCAGTTTCCTCATCAGCAG
AATCGGGATATTAGTGCAGACCTTGCAGGCTCTTTATGAGGATCCATCGGGAGCCTCAGGCGCACACTCGGGGAGCATTGGAGCTCTTCCCAGGCCGAGG
TAGGAGTTTGTCCACCTGCTGTTTACTCCGAAACTTCTTGCTCCACCTGTCACTTTAGAAGACCCTGATCTGCCGGAAGGTCTCCCCGTATACCCAGCAG
CCCAGACCTCTCAGGAAAGAGCAGGCTGTCGTCCTGCATTGGAGGAGGAAGCTTGGGGCAGGTGGCAGAGCAACTTCATTTCCAGATGAAACTGGGCTCC
CTGGCCATCAGCTGCCGTGCTTGGAGGGGCGTTCAGACAAAGAGCCAAATTTAAATTCATGTAATGTTGCTGTTTGTAACATTGAATACTTAAGACATCT
GCTCAGAGTCTCGCATTATAAATGAATGGAAAGGATCCAGGAGGGCTTTATTGGATGGGAGCCGTGAAGTSAGCGCCRTGTATTTCAAAGCAGGATCTTA
ATCAGACATTATTTATATCTATAATATTTTACAAATTAAAAGCAGTAGAAATAGTCACTGGAAGGAAGTCAGCAAGCAGGGGTGAAAAAAAAAAAAAAKA
AAAGAACCTGAAGCCGCCAAGAGAGGCTCACTGACCATCTCTGGGGGAGGAAGGGTGAAGAGTAGCAAATTTACCGTCATCAGCAGGTGTSTAAATGTTC
CATTTAMATTGAATGGCACATGTCATAAAGTACATACCGCTGCACATCCCACCCTCTGTTTCTGTTTCAACTGCAGAGCCTATTTTTCTTTCCCTTCCAG
CTCAGCTGCCTTCTCCTCCCTGACYTCAGGTCACCCAAGACTCCCACTTTATGATTTCCTTTTACTTTTAGTTCATTATTCTCTGTGATTCAGTGGAAAC
ATAAAAAATGGTTTTTAATTTTAATTAATGGCAAACTTAGAACAGACCCATTTAATAAATCTGTCCTCTGAACTTAACACGTCTCCCCGCCTTGTAAGGG
CTGCCTGTCATTTTATTAGCGCTGGAGCCTCCCGACCGAAGGGCTGAGTAATTGACAAAAACTGCAGGTAAGGCAAGAGRCCYGTAATTGATTCATAAGA
TCCCTTCCTCCGATCGCATTGAAGAGTTAATTATTTTTCCTGCAGTTGGGACTCAGCTGTTGTTTCCACTGGGATTAAACAGCTGTCAGCATTGTTAATG
ACATCAAATTCATGCATTAAAATCCTCTCATTCCCTTCCCGTATAAGGTGGGGTTGCGGAAATCTCTGCCACGTCCGCCTTTATGAAGGAGTGAAATCCT
AAGAAAGATAAAGGCCCTTATTACAAAACCACAGACCGGAGCTTGTGTTGATGGAATCTCGTAATGAGTAATTAAGCCGCTTTGCAGAAGTCCGGGCTGT
CATCCTGGCGTTTGGGTACTTATGTTCCCTAGTGGAGACAGCCGGGTAGACTGGGGAAGGTGATAAAAGGGAGAAAAATAGAACTGTTCTAGAACGATCT
CCACTTTTAACAGCACAATACAGAGAACAGAGCTACTCAATAATTAGCCAACCAAGTATGAATTCTCATATGTTCTTAAAGTATCTGCTGATTTCTTCAA
ACATCTCTAACAACATGTCTGATGAATACGAAGCCTCCCTTTATTTATTTATTTTCTTTTTGCTTTCTTTTTTTGGGGGCAGGGGGCACAGTTTTTCTTT
CTGTCTCAGTCTCTCAAACTGTAGGAGGACCAACTTCAGGGTTTTATTTTGTTTGCTTTGCTTTGCCTTGTCTGGTTTTTCAAAGTGCTCTTTTAACAAA
TGAAAGTTTAAAGCTTGAGTTCAATTTGAGTAATTTGTTCCCAGAGAARAAGTAAATGAAAAGTATTTCTGGGTATTTTTAATGACACAAGTTTCTGTGC
TGATATGCGGGCAGGGGTTCRGGAGTGGGGGCACCAGGGCTCATGAGCCGAGAGCCCCTGCTTCCCTTGGAAAACGGAAATTTCTATCTCCAACTAGGGA
AAAATTTGCATGTGTAGAATTTTGGTTTTTTSTTCGGCGTGTTTATTTAATTTAACATTACCTATCCTACGATTATTTCAAGGTGATTTTATTACTAGTC
AGCTTTCTTTTCCCTAGCACAAAACTCATGCAACATTTATGTTGAATGTTTAAAATTCTTTTCTAAATGGTTTCACCTTTCTGAAAAAATCTTGCATTCA
AAAAGTGTAAAGGACTCTCCTCATTTCTGCGCTTGAAAGTGCAGTGTGATTTCACAAATCAAACAATATCAGGAAAATTCAATCTCGTTAATACTTTTGG
AGGGAAAAGAAGGCAAGCGTACTCTTCAGAGAACGGATTCTTTTGGATTTGTGTTAGAGAAAAACTGTSTCTAATGACCGCACAGCACAAAGCAAAGCAG
TTAAATGAATAACCGCCTTCCAGTACAGATAATAAAGCAGGAGAATTTTGTGTGTCACATCAATAAACATCTTAATTGAACAGCACGTGGGTTCTTCCCT
AGTACCTGCCTTGCTATACACTAGCCTTGGAAAGAGTCTTGGTAAATTGTTCAGCCTCAAGTTCCACAACAAAATGGGATTCTGTTTTCTAGAACCTGGC
CTAGTTATGATGTGATGAATCCGTCTCTGTTAAGGTTATCAACTTTAATAAACCATGTATTATTTCCTTAAATATTGTGCAATGTGCAGGGAATTATTGC
AGTTTTGTTTTTTATTTAGCACAAACCTAAATATTACACGTAGCAAATGTCACCCGATGCAACTGTCTGTCCTGAAGAGGAGGAYAGATTATTCTGTGGC
TACCTAATGGTGTTTACAGAGTTGCCACTTTGCCAAACCCCAAGASCCACACTTGGTCTCTGGTGTTGGGTCCGCCAGCTCTCCACCCTTCAGAATGGGA
TGTTTAGGGCGTAATCTTCTGAGACCCACAACCTAAGCCGGGAAGCAGAGGCAATTTATTACCCCAGCTTCCTGTCCACTGGAGGCCCGGGGAGACCKTG
AAATGCTCAGCTGCAAGTCAGGGTCCACCGATGCAGCCTCGGAATTTAATGAGGCCTCTCCGGACCCAAAGGGAGATGGACATTTCTAGGCTTGTGGAAG
GGACTCCCCAGCCCCTCTTCTCTCCTGGTGAGACCGTTGTTGGATGTGAAAAGGCCTTCACTATTGTCAAGGCTGGGCCCCTGCTTTTGCCTTGTTACTC
TGCATTTTAACTSTGGACCAGAATTGATTGCCACCAATAAAAGATACTCCAGTCCTTAAAAAGTCAACATTGTTATGTTTTACTTAGTTATGACTTAGTG
AACACCTATACGAATTAGCCTCATCTGGTTCAAGGGTTCTCAGATGGGACCACTTTTGCACCCAGGGAAGGTGTGGCAATGTCTAGAGACATTTTTGATT
GTCATAACTTAGGATGAGGTAATAGTGTGCTCCTGATTTCTGGGGGTAGAGGCCGGGGATAGTGGTTAACATCCTACATGAACAGGGCAGACCCTTGCAA
CAAAATCTTACGTGGTCCTGGATGAAAATAACACTGGAGGTAAGAAACCTTGGCCTAGAGGGTTCCCCAACCTTTTTTTTTTTTTCAKTATGGCCCCCTC
CCCCAGGAGCCTTTTGAGATACGACTTTCCTAATGGTCTTTGCCCATGAAATCTGAATACCACAGATGTGCTGAATGCCTGTTCGTGTACCATATACACA
TGGTATATGCCTCGTAAATGAAAGGGTGAACAGTGTTTATTCCCCAACTGTCGTCCCTCAAAACCAATGTTAACACCCCTGGATGTATTGTCACCCCTGT
TGGGAATACACCGCTCAGAGAAGGGTTTTGTCCATAGGCAACACAGAGCCAATTGAGGCCTTTGGGCAAGCGGAGGTCAWGATGGAATTCAGCCTTTCAG
ACAATTCTGCCAGGCCCTTGGAGGGTGGGAGGAAACAGGCAAGACCTCTGGCTCCTAGAACCRTAAGGACCCTTGCCATTAGGASCAAACCTCTTCCAGC
TTTCTCAGCAGCCACATGTCACCCCCTCTTCCACCCTTTGCCCTGCCACCCTCCATCCCCTGATACCCTCCTGCCTTTTAGTTGCCGGTGCTTGGAAACC
TTTGCAAAGTCTTTTTATGGAGATGCCATGTCCTTTCAATGGTGCGTTTAGCCAGCGCCCCGCTCTGGGCTCCAGCAACATTAGGGCATTGTTATTCCAT
CCGAATGACAATTTCAAGCTCACGTCTTTGTTGTCCATCCTCGTATATCCTGCACCGTTCCTGGCACAGAGTAGGCACTGGATAATTATTTCTTGGATGA
AAGAATGAACAAATGAATGAATGAATGAAAGTTTTTTTCCTTGCAAATCTCCCTGCACACTTTAATCTTACCAGCATCTTGTGAAACACTCCTACTTCTT
TCTGATCTTTATTTCTTACGTAGTTTTGAAATGAGAACCGATGAAGCTGCTTTTGCTCATGGTACCTCAGGTCCTCGCTCACTCCCAGCACTCAGGGCTG
TGTGGTCAGAGTCTCAGATTCGGAGCATGTGATGTGCGTGGGCCTGTGACTAACAGCCACATGGCACGCAATGGTGGCAGCCTGGGAGGCTGACTGAGCA
AGTAATTTCTGCTTAAGCAAGAACGTGAGGGGTGATGTAGTTGCATGCACTTTGCCATCATAGCTTGATCTAGGTCTCAGCCTGGGATCTTGCAGCTGCG
AAAAGCATGGCGTTGCGTTTCCAAGCCTGAACATCCACACCCGCGAAGATAAGACCATCTCTTGGATTAATGTGACGCTGAAATAAAATAATCCAAAGAG
AAAATGCCTGAGACCCACCAGGAGCTCACCAGATACTACTTCTATCTTCCCCACTCTAGGTCTTTTTACTGCAACTACCGTTTAAAATACTTTTTCCATG
AGGCAGATCTTAGTGCTGACAGTGTCAGTGTCTTTAATGCCTGGTTCAGTTGCAAACATGGAGGGCAGAGGTTTGATAGCATCCAAAGTATGCACGCCGC
ACTCCACCTCCCATGCCCTTTTCTTTTTCTCAGGGCCATCAGAAAGGAAGTAACTGGCTTAGATTTGACACCTCTTTTTTTGKTCGTTTTATGTTTTTGA
ATCTAGCATGTATAAGCTCATCAGAGAGCTTTCCCCTGGCCTGGGACAATCAGGTTTCAACTGAGGCTCACGCACACGTCAACACAGGAACCTTTTTGAT
GCCTCCAGGCAATTTCCTACAAGCTCTAATATCTTCCTCTTTACTCCCATATGTGGTATCTCTGGTACCCTATATATCATTCACTCAASTGTTTGTTTTG
AACCACTTATTTTGGCAAGACTTCTTCAGACAGGAGAGCCCTGAGAGCTCTTCAAAGGCTGGGCCTGATGGTGTTTGTCAGAGAGGTTYGAGCTCTTAAA
TTTAAATGGCCTCCCACAGGGAAGCAGAAGTCCTTTTGGATCCTCCAGAGGACTGAGATCCTCCAGATGCTGTTCATTTGCCTTATTCGTTATGACCATA
GAAGTTTGTGGGGTGGCACTCTTTATTCTGTCCTCGCCCCGCAAGCAAAGCACACACCACAAGCTATAAGGAGATGAGCTCAGTAGGCCTGTCCTTTACT
TTATTTTCCCTATTAGAATCCCACCATAGACGCCCTCTCTGCATGTGTCCTTGTCTGGGGGAGTCGCTTAATTTCCTTTTTCTTTGAGGGGCTATAAAAT
TTTTGTTGTTACAAAAATGAAAGGGGAGAGGAGATAGAAGAAGGAAAACAGTGAAAGCTCAGCCTCGAAAGAAGTGCTTAAAGGAAAGGAGGTTCTGACA
GAGGGCTCGGATCATCAGCAGGGGCAGGGGGTGCAGGGGGTGCCTGCAAGTCTGTGACCGTCCTGAAGGACCCCCTTCCTAGGATCCCAAACATGCACTC
CCATCCCAGCCTCACACCAAGCTCCCATCTGGGAAGCAGCAGACACACATAAAAGCAAGGAAACTTCAAGGACGCTTTTTGTTTTCCCCTACTTTTAAAA
AATTGAGGTGAAATTCACATAATATAAGATTAACCATTTCAAAGTAGACAGTTCAATAGCAGTACATTCACAATGGTGTGTAAATACYGCATCTATHTAT
TTCCAAAATATTTGTATCTCCCCACAATAAAAGTCTGTACCAATTAAGCAGCTACTACCCATTCCTCTTCCCTACCATTCTACCTTCTGTCTCAGTAGGT
TTGCYTATTTGGGATATTTTATTTAAGTGSGATCATACAATAGCATCATGTGTTCAAGGTTGACCCACATTGTGGCATGTATCAGTACTTCATTCCCTTT
TATCACTGAATAGTATTCCACTGTATATTGATACCACAGTTGGTTGACCCATTCATCCATCCATGGGCATTTGGGTTATTTCCACCTTTTTGCTCTTGTG
AATCCATGCTGCTGTGAATAATTGCATATGAGTATTTGGGTTCCTGTTTTTAATTATGTTGGGTATATACCTAGGAGTGGAAGTGCTGGGTCACGCAGTA
ATTCTTTTTAACTTTTTGGGGAAATATCAAACCGTTTTCCACAGTGGCTGCACCATGTTGCATTCCCACCAGCGAAGTGCAGGGGTTCCAGTTTCTCACA
CTGTCACCAACTCTGTCAGTCTATTCTGGCACTGCTATAAAGAAATGCCTGAGACTGGGTAATGGCTGAAGAAAAGAGGTTTAATTGGCTCATGATTCTG
CAGGCTGCACAGGAAGCATAGAAGCTTCTGCTACTGGGGGCGCCTCAGGAAACTTRTAATCATGGCAGAAGGTAAAGGGGAAGCAGGCACATCTTACATC
GCCAGAGCAGGAGCAACAGAGAGCGACTGGGGAGGCGCTACACACTTTTCAACCACCGAATCGCATGAGAACTCTCTCACTGGGACAACACCAAGGAGAT
ACTGCTAAATCATTTATGAAGGGTTCATCCTCATGACTCAGTCACCTCCCACCAGGCCCCACCTCCAACACTGGGGATTACAATTCAACATGAGATTTCG
GCGGGGACACAGATCYAAACCTTATCACCAGCGCTTGTTATTTCCTCAGGTACATTTTGATGTCCCTCCCCACTTTACTCTCCCCTACACCTTGAAGCAG
GTGCAATCATTTTAGGCTATGAGGACCAGCATCGACCTTCATCAGCATCTGCTCTCCTTTACGGCCAGGTCTCCTTCGTCCTCCCTGCTCAGAATTTCAG
TCTTTTTTTTTTTTTTTCCCTATACAGACACAGGAAGTATATATTTTCCTCTCGAATATCACTTGGGTCTTATCTTGTTTTATGCTACATGCATGTGGCT
TCCCCCGTTACAAAAAGAATTCACATTATTAGAGAACATTTGGAAAACATACAGAAGTAAAACAAGCCATCCCCATTCCCACCTCCCAGAGATAACGCCT
GTGTTTTAGTTCATCTCCTTCTAACCTTTATAGTTTTTTTTCTATCATATTAGTTAGGCATTGGTTTGGCTCCAAGTGAAAACTGCTTCTGTTATTAACA
TCAGCAGCAGCAACAAGAAGAGAGAAGTTTATGTCTGTCTCGGAATACGTAYGTGACAGGCTCCCCCATCGAGGTGCTCAGATATGGTGGCCACTGCATG
ATTTTGCTCAGGACTGAATTAGAGGCAGGTGAAAGGCCCTCACTCCCTGGAATCAGCTAGCGATGGCTAAGGCTCCTGTGAGGGTTTCTACAGAGGTTCC
ACCCAGAGAGGAGAGTCAAATGGGAGTTTCTACCGATGCTCTTGAAAGGATCTTGTTACTCAGATGTCTCTAAGACAATGATCAGTACCCATCTCTCAGA
GCCTGTGYAGCCGTCCATGCTTGAGGCATGAGATGCTGAAGATAAAGGTCCCCAGTGGTCCAGGTTTTTCCTTCTCAGCTTGGAAAGCAGCAGGAAAACT
GCACTGCATTTATCCAAAGGGTGTGATTGGTAAGTGTGGGTACTGATATAGAATAAATCAACGTGGCTGGGTGCAGTGGCTCACGTCTATAATCCCATTA
CTTTGGGAGGCCAAGGTGGGTGGATCACAAGGTCAGGAGATTGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAG
CTGGGTGTGTTGGTGGGCACCTGTACTTCCAGGTGCTTGGGAAGCTGAGGCAGGAGAATCACTTGAACTCAGAAGGCCAAGGTTGTAGTAAGCTGAGATT
GCACCACTGCACTGCAGCCTTGGCAACAGAGCGAGACTCCMTCTCAAATCAATCAACCAGTCAATGTGTGCCCCCTTTTCCTCCAACTCCCACCCCAAAT
CCTTGCTGAATCATACCTATCCTTCACCTTTATAAGCATCTAGTTTTTAAATCTTTGCTGTGAAGTTGGCTGTGTGAGCTCCATTTGACAGATGGAAAAA
CTAAGGTAGTTTGCCAAAGATGGCTCTTTGCCTTCAGGATTTCCATGTCTTTATTTTGAGTAAACACTTGCACTGCTAATTTTATTCCAACAATGTCCTT
GGAATGGTTTTAGTTCTCTTGGCTGTAACCAAGTCTACACGATACCACTTGAATTGACAACATCACAGTCAAACCTCAATTTTCACAATTAATTGTGCCG
CAGTTAATTAAATTGACTGCCTGGCAATCCAGTCTCAATTAAAATACTAATAGTTTATTTATTTATTTTGTCTTTTACGAAGYGTTTTCTTTTACCATCT
CTCAGGATCCTATGTAGGTATCCTGATGGTAAGAATGATAATACCATGACTGATTATTCCATAGTTGCAGGAACCCCACATGGCATTTCAAATCACAATC
AGAACTTTGACCTTGAAAGGGGACCCGGATCAGCTCCATTCTCCCAAGGAGACTTTAGCTACTACCTTTCTTACTTTTTGAATAAGTATTTTGCAGGGCT
TATTTTCATCATCTGGAAAGGAGGAATAGATAGGGTTATCTTGAAAGTCCTCTCTTGGAAGGGATTATGGTTCTGTAATSCTGTAGGACTGGACTCAGTG
GGTAAATGTAGAGGTGATGGTATCTCCGTTTTTATTGTCTTCAGAAATGTTGAGATCGAGTGATATAAAGTCACAGGGTTGGCCCCACAGTTTAGTTCTT
GGCTTATGTAGAAATCTGTGCTAAGAAGCGCTGTGTTGCGTCATCATGGGGCATTTTTGTATGTCATGCAGTCATACTTTGCAGACCCCTGGGAGCCTCA
TTCGAGTTCTTCCTGTGGAGTCCCATGCCTTGGTGTTGAACCAGTGTCCTAGCTGGGAGGACCGTTGTACTGCAGCRCTTTCCTAAACTCTGCATGTGGT
CTCCATGATGTCCTGGCTGTGTTAGCATCAGAAATGGCTTTGCCCACATCTCCCAACTCTGCCCTCTTATTAGGATTTCTCTGCGCTGGCTGATGCCTGA
GCCATCTAATGATCTTTACGGGAATAACCAAAAATGCTGGGTGGGGGGGGAAAACGCCAGCAGATCTCTTTAGGGCAGAGTAGGGAGGGACACGGACAAT
GTGGGCAGCTGTCCATGCAGCACGTATCACATCCAGGATGATGTTTATATGAAGCATCATTTTTTTTTTTTTTTAGGTGGAGTCTTGCTCTGTCATCCAG
GCTGGCATGCAGTGGCACAATCTGGGCTCACTGCAACCTCCACTTTCCGGGTTCAGGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAGTAAAGGC
ACATGCCACCATGCCCAGCTAATTTTTGTATTTTTGTTAGAGATGGGGTGGCCAGGCTGGTCTTGAACTGCTGACTTCGAGTGATCCACCGGCCTTGGCC
TCACAAAGTGCTGGGATTACAGGTGTGAGACATTGTGCCCAGCTTGGAGCATCTTAATTTAAGCCCTCTACATCCCTGCACGGTAGATACAACCAGCTCC
GTTTCCAAGGACGAGGAGCAACAGAGTGAGGTCATTTCCCTGAGTTACACTGAAGATGGTCTAATTTCAAAGTCCTTCCTGTGTCCACTTTGCCAGGTGC
CCCCCGAAAAGCAAGAAGACTCCTTCAAGCATCCTGAAGATTTGGATGCTACAACTGTATGTCCTGCTGGAGAGACCCTCCCAGAACATTGAAGGCTCCA
GTGTTTTGACTGGCAGAATCTCAGTTTCAACATCTGTCTCTAAGGGCTCTGGACCTATGCTGGGTGAAACGTGTTGTCTGTAGGATTTGGCCCATCTGAG
CCTCACTGGGGATGGGCTAAACTCCGTGGGGTTTGTATTCCTTCTCCTTCATTGCTCAGAGGAAAAGAAGAAAAAAAATAAAAAGAAACGACCCCAAACA
GCCTCTTTCGTGCACACACGCCTAAGAAATAGGAACATGAATTTGCATTCCTTCCAACTGGTGTGTTTCCAAAATACAGACAGGCAAGTTTGAATCACTT
TGACTTTGAAAGCGTGATTTTGAGCAATTATCTGGGGAAAAAAATACCTCCTCTTCACTAAATAAGTCTGTCAAAAAGAGTCATAGTACAGCGTGCCATT
GCCAGAATACACGTGTGTGCTGGTAAGCTGGCCCCAACCAATTAAATAGTGAAATGTCGACTGCATTCAGGCCCTTCCTGGTCTGCAGACAGACTTGTGT
TAGTTCATTTTCATAGTGGTGTGTATGTATCTTTAGACTTTAACTGACAGATTCCCACAGTGAGTAGAGTAGGGAGTTATCAATTACATGGTTAGCTAGG
CGCTGCTATTGTATGCTCTATGGCTTCTTGACAGGAGCAGGCAGAGAAGGAGGGAAGGACTAATATTTCTGGTGCAGGAGGACTGTTAATATTTTAGACC
GGGCTCCTCAAACATGTATGCTTATTTAGTGAGGAGAAAATGTGCATTTGAATCCTGCAAACCCTCGAGAAGTTTGCATTAATAAATAGTGATTACCAGA
ATATTCTCTTCTAAAATATATTTTATTTATCAAATGAATACCCTTCTGAGCCCCTCTTTATCCTTCCTGTGATGGCTAAACTAATTTCATCAAATTTTGA
TTTCTGTGTGGTGATGTTGTGAACAGTGCCTGAAATAATAAAATTACCCTGAGCAGATTGCATATAAAACTGTTTGCAATGGGAGAAGCAGTCTTTGGGG
CTGTGGTTTCCTTTGGCTGCAGTGTAATATATTCCTTTGTTTCTTTTGTGAAGTATTTATTGTGGGTCTCCTGTAGTCTGAGTTTCTTGTGGAAGTGGGC
TTGTGTTTTGCTTTTGTAGACTGACACTGAGAATAGCATCCAAACATCTTTTTCCCACCAAGGCATCAAACTCCATCRTTAGGAATTCCTTCATAGAATC
AAAGAATCAGAAAGAGCTGAAACATAGACCACGGACACTCAAATTGTTTATCCTGAAATGAATGGGAAAACCTAAGCTGAAGAAAGGAAGTGTCTGGCCA
AGAAGCTGGCGGGAGAGTAGAATCAGGAACCAGGGCCTCCTCGTATCTGGTCTCACGCTTCTTCCGTGGTGTTCTTTCTTAAGTTGAGCATTGCATTCTC
CTTGGATAGGATGGATATTTTCCTGGGAAGGATGATACATGATGTATTTATCCATAAAACTGAACAGGTGTTATGTGTGCCTTTTCTAATAGGAAAGACC
ATCATGCTATGAAAAGAGAGGAAGGGGAGAAGAAATGGGGTACGTTAAGATCTCAGAATGAGTTGTGGGGCTAAATGTTCAGCCTGTCTCCCTTTTCTCC
TTGCCACACCACTAGATTATATTTTCTAGACTCTCCTGGTGTTAGATTTGGCCTTGTGACTTCCAGCCAATGGAATCGGCTGCAGGATGAAACTAGTCTT
GATCCCTGAATGACTGCGTGGAGCACATCTCCTTCTGGTCAATAAGGCATTTCAGGAGTGAGAGATAAACTTCTATTGTGTTAAACCCCTGTGACTTTGA
GACATATCTCCTACAGCAGGTGGAGTTAGCTTAACTAATGCAGAACGATAGGACTGGTGAAGCAGTCCATCTGTTATGAGAGCTATTCTTTTTTTTTTTT
TTTTTTTTTTTGTGAGATGGAGTCTTGCTCTGTTACCCAGGCTGGAGTGCAGTGGTGCAGTCTCAGCTGACTGCAAGCTCCGCATCCCAGGTTCACGCTA
TTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCCGGCTATTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTC
TTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGCATTACAGGCATGAGCCATCGCGCCCGGCCAGAGG
GCTATTCTTTGTCTTTTATTTGCTTTGAGTCTGGTATAACCATGTGGCACATACCCCTGTACATGTTTGCCAAGACTGCTATATGGTAGAGCTTGGAATT
CTTAGGAGCTTTATCAGGTAATTGCAAGTCCCCCACCTCYAASAAAGCACTCTCTAGGTCAAGAATCAGCAAATGTTTTCTATAGAGGCCCGTAAAATTA
ATATTTTATACTTTGTGGGTCATATAGTCTCTGTTTCAATTACCCAACTCTGCTGTTGTAGTGCAAAAGCAGCTGTAGACAGTAAGTGAATGGATGGGTG
TGGCCGTGTGCCAATAAAACTTTATTTACAAAAACAGGCAGCAGGCCAGAATTAGCCCTGTGGGATGACTCACATGAGCAGAGAGTTCTGGCATCAACTT
TGTTCGGAGAGATACTGACATACTTCTACTCAAGTAAGTCAATGTTTCTGTCTCAACTGGTTGATTGGAACAACATACAAACTGACCCTTAGGAACCTTC
TACCAAAAATATCCTGTGAATCTTCATACTTTTGTAATAGCGTTTAGTTAGAAGTGGTCAGACTTTCTTCGTCCTCTTTTCGTGATTTCCTCTGTGGTGT
CTGTGGATCGATACCGGCAGCTCAGGTAAGGAACGTGTGCAGGGGATGTAACAGAAAGGAGAAAGACGAGGAAGAAGGGTGCATGGAGCGTGCAGGGGAA
GAACTGATTCTTTTTTCAGTTAATCGGCTCATCAAGGTTCTGGTGTTGAAGTCTGATTTCATTTGCCATGTTAAGAGGATATGGACAGATACTGGGCAAA
AGGAAAAAAAAAATATTGGATCCTTGCCCAGCTCCAAGTGTTGCTGAGTCCCTTGCCCCCTCCACCCCGCTCTGTCAGGAGCCAAGCTCTGGCCGCCCAG
TTTTTGGACTTTGTAACTGTTTCCGAACGGATCAGATTCCATCTGAATTGCAGATGGCTTTAGCCCCAGCAGCAGAGGCTGCCATGACATCGGCATGCGA
TTTCTTCCAGGACTTAACTCTGGAGAGAGCTCCATTTCCTGTTGATCATGAGGGTTTTACAGGCACAAACGCTGTCTTCTGTCACTCTGTCACAGTGCAT
TATGTCAGAATAGAGGAAGCAGTTCAGCCCGTAAATCTGTGCCACCGGCACGCAGGGTGTTGTGTTGTCTCCAATGTGCCTTGTCAACACCACAGGGCTA
ATAGCAGTGTCAGGGTCCCCGTGCCATGAATCACTTCACATCTCTGGCTAGTACAGATCTCTCCCTGTCACTAGTGGAAGTCGCCTGCACTACATTCAGA
ATAGGGGCCAGGCGTGGTGGCTCACGCTGTAATCCCAGAACGTTGGGAGGCCAAGGTGGGAGGATCACTTGAAGTCAGGAGTTTCAGACCAGCCTGACAA
ACATGGTGAAACCCAGTCTCTACTAAAAATACAAAAATTAGCTGTGCATAGTGGTGCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAAT
TGCTTGAATCCAAGAGATGGAGGTTGCAGTGAGCCAAGGTCGTGCCACTGCACTCCAGCCTGGGCAAAAGAGTGAGACTCCATCTGAAAAAGAAAAAAGA
ATAGGCACAGACAATTTACCTGGATCCTCACATTGCAATGCTGACCACTCCGGAAGGAGTGTAGAAGTTGCAGCTCATGCCTGCATTCCAAATGGCTGCC
TTCTGCAGTCCCGTCAGCCAGGATCCCTCTCATACAAACACCTTGACTGGCCGAGAAATGCAGATGCTGTGTCAAAAGTTCATGGCTCAGAGCCAACAAT
GCACTGTGCTGACCTCCAATTTTCCTTGAGGAGGGGCATCCCAGGGTCAGAATTTTATGCAATGCAAGCTTGTCCACGATGGCATGGGAGCGTGTGGGAA
TGTCAAGATGAACCGGGGCTCCGGGAGACATTTATGGAGTCAGGAGCACACATACATTCCTGGTTCTGTCAGCATTTCCCTAGGCGAGATGAGTCACACA
TTTATATTTTTACATATGCAGCGCGCTTGCAATTTTCCACTGGGGAAGATAGAAAAACTTATTGAAAATAGTTAATCAGTTTTACAAAGATGCCATAGGT
AGAGGTGCTTCCAGACCTATAGTTTTGAAAGTCACCTAGAGGATACCAGTCTGACTCAGAGCTTTATGAAGGCATATTCCTAATATCCTCCCTGTGCTCC
ACGAAGAACAATTGGTTTGGACATGAACTGGTTTCCATTTTTAGACTCCAGGCCCACAGTATTCTAAGTAGGTTGGGGCTGTGCTGATTGTACCACTCTT
TGGATTTTAGTGGATTTTCTTTTTAGGATTTCATGTAAGTAACCTGTGCAGAGAGTGAGGATAAATAAGAACAAGAATGACAAACCGATAGGCTACTTGA
CATCATTCCTTAATTCCAGGTCACTGGCGGACATCACTCATTCATCAGTACTCTGTTTTTCTCCCAAGAATGGATCTGACTCTTGAATTCTCTTTAATAG
AGTGTTCTGGGAGGCTGTTACCAATTGACCAGGGTTGATGCACATGTTGAAACATCTTTGCCATTTCTTGATAGCTTCAGAAGAGATTTTAAAGTACTAT
TATTTTGATGTTGTTAGCTTTCAAAGATTAATTCCACAGAGATTTTTGGGCATCTTTTTGATAATACACATTATGCTTGACTTGGGAGTTTCAGGATGCG
CAAGAGACTCCTTTTGACTGCAAGGACTCAGTAAAACAAAGTATTTCAAGGTCATGCTACAAAAAGTCCCACCAAGAGCATGGTCAGGAGGTACAGTGCA
CTTACCCACACGGATCAGAGAGGGATCAGAGGAGGCTGGCTGGGGAAATGATCCTAGGGCTTTCTTAAAGGACACAGCGCCATGGTTATTTAAGTACAGC
TTTTAAGGAGAACTAACTTGCCACTTTGATAGCAGTATAGGACTCCAATATTTCTCATTTGTAATTTTCAGAAGCACACGGGAGGTCTTTGAAAYTTAAT
GTCTCCCTGCATCACAAACCAAAAGACGAGTCAGTTTATAAGTAGGCTGTGCTTATTAACTCAGTCCTGGCTTTATTGATTGCTTTAGGTTCCATGATCT
TTGGCATGTGAGTGGTTTTGCTTTGTTTTGACAATGATCTTTTTGTACCTTGTATCGGGTAGGTTGGAATGTGTTTGAAAATTTAAGAATATTTTCCTAG
CAAAGGCAGGATTTTTCAAGTTTGTTCATGCTGGAGCTCCTGCCACGTATTTTGTCCTTTTTTCTTTTTTCTAGCAACTCTCGAGAGGATGAGACAAATG
GATTGTGAAACTGGAAGGAGGGTTTCTCATTTTTTAATCCATTGTTTTAGTGAGAGTTTAAAGCTTTCCTATAAAATATGTGGGTTGAGAAAAATTGGAA
AAGACCTCTTCAAGGACTTTCCTCTATGCTCCCTCATGTTTCAAGTGGCTTTTTTGCATGATGGTGCATATGTCTTTGTTTCTGTACAGGGCCCTCCATG
TTCAGAGGCAGAGTAACGTGAATTCATTTYGCGCTAATGAGAGTTGCGATATGTCGGCCCAAACTCTCTGTGTCCTTTTCTTCTTGGGCTGATGAACTTG
TCAACTTTTAAAAAATGTGCTCTCCAAAAATTTCCAGCAGGACTTTCCCACCTTGCTGTTTAAACAGTGAATCAGCCCTGTGGGCTTTGCTGCTTACAAC
ATGATTCCGGTGAAACCACAGGTCTCGTCATGTCCCTTCTGTATCCATGGTAGTCCCAGTGGGAAAGAGGTAACAAACCCAAATTGAGTAATTTCAAGAA
ATTTTAATAACAAAGGGGCTATTTTATAAAGGGGGGGTGGTCAAGGTGTAGGGAAACATAAAAGAGAGCGAATTTCTGGTCTGGTGCTGTGGGTCACGCC
TGTAATACCAGCAGTTTGGGAGGCCGAGGCTGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGTCTGGCCAACATGGTGAAACCCCGTCTCTACTAAA
AATACAAAAACTTAGCTGGGCATGGTGACAGGCATCTGTAATCTCAGCTMCTCGGGAGGCTGAGGCTGGAGAATCACTTGAACCCGGGAGGCAGAGGTTG
CAGTGAGCCAAGATCACGCTATTGCACTCCAGCCCAGGCAACAAGAGCAAAACTCTGTCTCAAAAAAATTAAAAAAAAAAAAAAAGAAAGAAAATTAATT
TCTCAGAGGTAGTAATAGGGGTGGCTGTCACCATCCTTGGCCAAGGAGAGGGAGCAGATACTGGAGACAGTTGAAGGTGCCAGGATGGAGAAGACTCCTT
GGAAGGAGCTGTAACCTTTGGTTGAGGAATTCAGCCTACCACTGGTAATACTCCCTCTCCCCAGGAGAGGTCCCAGCGGAATAAACATCCCCGCCCCTTC
AACTCTTTGCCATTGTTCAAGCCCTGCTAGAAACCAGATGGCAAAAGGAAGTTACTGATGTGTTCATATTGGTCAACTTTTTCAGGCACGAAGACCAGTA
CAGAAGGATGGAAAGTGCATTTGGGTAGGGAAATGGGAGATTCCTGCATAGCTGTCAAGTTAGTTTCTTCCCAGAGAGAAAGACCGGTGGCTGTAGTCTG
TGCCCCACTCCCAGCCTGTCCTTTCTCAGCCGTGGCTTGTGTGCATCCCTGGGGCCRGCATGTTGCTGCGAGCCCCAATCGATCAGTGGAGAAACGAGCT
CTGGTGGGCAGTCAGGCAAAGCAGATACACGTGCTTCTTTTCAGCTTTGTTGGAAGGTTTCATTTTGCTTCASGAACTAGGCAGGAGAATTCCTGAGTTC
CTGTACAACCTGAGTTCTCTGTTAAAACAAGGAGGAAGTAATCATCCTGAGTTCGATGATTCAGAGTAAGCCATTTAACTTGTAGAGCTTTGGGACTAAC
AATGATCCCTTTTTGGAGTCCTTAATTACTAAAATTATCAGCATATTTAGAGTTCTGAAGWTGCTGAACCCTTATTGTATCTCCCCAGGGTTAGTGAGTA
ATTGGGAATAGTGTTCCATCTTGGATGCCCCCATCCACTAACCAGCTTTCCTCTTCGGGTGGTTCTAAGAATTCTAATTCAATTAGAAGGCCTTCTTTTT
AGTTTGATTAGTTCAATATCAAGAGCTAAATACATTAGCTTATATATATGTCTGATGAACTCATCTTTGCTTCCTTGGATCCCCAAGATAGAATGGCCCT
AATGCAGTCAAACCACCCTGCAGAATCTTAACAGCACCACAAATATTGCATCCAGGCATCCTGCCCATGCTGGCTTGCAGGCTGGGGATCCCTGTCCATA
GCGCCCATGGCTCCACCACCAGTCAAAGGTAGTGGGGCCAGCAGTGGACTCCTGTGTGGTTCAGCTCTCAAAAATGTGAACTGAAAGACACAGAAAAAGA
CTTGTGTTTGGGGATAAATACTGAGACTGAGCAGTCTTGTGGATTCAGGAATTGGGCATCCAGTTGGGACCCTTTGCAAGAAGGGTGTTAGGGAGCAGAG
AGCATGAGTAAGCCGGAAGCAGAGCAGGAGAGAGAATGGAGCAGGTGTGCAAAGAGGGCGGTGAGATGCTGAGAGTAATGGGGCTGGCCCAGGAGGAAGT
GAGAGGAAGCAAAGTGAGACAGAGGTGGTGTGTGAGCGTGTGTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATTGAGAGAGAGAGAGAC
RGATGGAGGGAAAGAGAGGCGGGGGATTCCAGGTACAGTGGCTCATGTCTGTAATTCTAGCACTTTGGGAGGCCGGGGCGAGCAAATTGCTTGAACTCAS
GAGTTCGAGGCTAGCCTGGGCAACACGGCAAAGSCCTCATCTCTACAAAAAATACAAAAATTAGCTGGGCTTGGTGACAGACGCTTGTAGTCTCAGCTAC
TCGGGAGGCTGAAGTGGGAGGATCTTTAGAGCCCAGGAAGTYTAGGCTGCAGTGAGCCATGACCTTGCCACTGCACACCAGCCTGGGTGACAGAGGGAGA
CCTTGTCTCACCAAAAAAAAAAAAAAAAGAGAGAGAGGTTGAGCTCAACTGATCAGCATCTCAGATTAAGGGCCTCCATTCCCCCCATGCTTTGTAATTG
CTGCCTGTTTTCCATGAAGCCTGACTGTGCATTGGTTCTAAGTCATGGGCTCTGCAAGATCCTCCTTGTGCCTTGAGAAGGGCCCTGTCCGCAGCCTGAG
GAGCCTCAACTGTTCTCTGCACGACCTAGTTCTGGGCTAGGGAATGGCTGTCTAGCTTCAGTGGATTTCCAGRGTCCGGAGCTACTAAAGGTCAACAGCT
GTGTTAYTGCAAACTCTGTGGCCTGCATTCTATCAATGCCAAAATGCACATCACACTGACAACAGCTCTTTGTTTACACCGGGGAGCCCCCAAAGCCCCA
GGGTAATTCCATCACCACCCAAGTTKTAAGATGGTAGAGCGAACAGGCCAGAATGTGATAAAGTAAAATGAAAGAAGAAAAAGGAGGAAGGAAAAAGAGA
GAGGGAGAAGCASATAGAGGAAAGAAGGAAGAAGGAAGGAGGAAGGAGGGAGGGAGGGAGACAGGGAAGGAAGGAAGTCTGGCAAGAGGGCACAGTCAGA
CCTGCCAGGATCCCTCTGCTGTCTTAATCAAGCTTTGCCTCAGTCTTTCTGGACTGAATTTGTCTCTGTGTTCACTTGGCATTTTTTAAAAGGAGACAAA
ACAGGTGATGAACACAGCATGAGTGATTTTTCCCTTAAGAGAGAGGTGTCATGCTGAGAAAGAAGAACCGACCTCCAGGGGAGCTTGTCTTCAGACCAAA
ACCCTGGCAAGGACAGCCTGTTTGGATCTTGGTCATTTTGTTAGATTTATAAAGTGCCTTTGAACAGAGCAGGACACTCTGGGGACAAGTCAAAGCATGG
CAGCCTTCAGCTTCCCAAAGAAGAGTTGTGGAGAAGGAAAAGTGAAGGAAAGTACCTTACTAAGTCATTGATGGCACATTCAGCCCTTGTCAAAGTCAAA
GAAGAAATYTGGAGAAATTCTCACCACTGTGCTTAGGAGTCACCCTGAACTATTTCTTGGATGAAATTACCACCCTCCCACTTTTGGCAATGAGACAGCA
AGCTTGGAATTTGGAGTCCATGTTAAATCCAGGTCCCAGCCAGGCACAGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCTGAGATGGGAGGATCA
CTTGAGCCCAGGAGTTTGAGGCCAGCCTGGTCAACACAAGGAGACTTCATCTCTATAAATAATAAAAAAATTAAAAATTAGCTGGGTGTGGTGGTGCACA
CCTGTAGTCCCAGCTACTCAGGAGGCTGAGATGGGAAGATGGCTTGAGCCTGGGAATTTGAGGCTATAGTGAGCCATGATTGCACCACTGCACTCCAGAC
TGGGAGACACAGCAAGACCTTGTCTCAAAAAAAAAAAAAAAGCCAGATTCTCCACCTACCAGTGGTGGGGCCCCTTGGGTAACTTGTTTTCACTCCCTCA
GAACCTCAGTTTCCTTTCCTATACAACGCAAGCCATAAGGTTAACCCCTCCTCGTGGTGATGTTAAGATGAAACAGGAAGGTGAGGGGCTTAACACATTT
CCGTGTTCCCATAAGCTTTCAGGAGATCTTGGTAGTTTTCATCTCGGTCTTCATTACCATCATCACTGCTTCAGACTCCTGTCCATGTGGGGCCCTGTGG
TCTTGCGATCACCTCCATAAATGTTCCTTTGTTCCCGCCTAACACAATACCAGCCACAAAATAATTCTCAACACATATTCATTAGTGGATGCAGGGGCGA
AATGAAACTCAGGGGGTTGGGAAACTCACCTGAAGGATCTTCTCCCTCTCCCCACTTTCAGGCTCTCCTTTCACACGCATGCATTAATTCGTTCATTCTT
GGAATCTACCCACCTGTGATGTGCTAGTTACTAAAGATGCAGCAATGARTGAAAGGTAATCCTGTCCTTGAGGCATTCACAGGTAAAGAAGCCTGCTTGG
GACATTGGGCCGTGAGCTCCAACAATGTCACTATTCTTCTAGGCTTTGTGGACCTTTGGTCACCCCTTCTGTAAGACCAACTCCCTTATCTGCCTGTACA
GTGTTCTGCGAATCCCGGTCTCTACTAAAAATACGAAAAAAATTAGCCAGGTGTGGTGGTGGGTGCCTGCAATCCCAGCTACTCTGGAGGCTGAGGCAGG
RGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAACCCAGATTGCGCCTCTGCACTCCAGCCTGGGCAAAAGAGTGACACTCTATCTCAAAAAAACA
AAACAAAACAAAAACAATTTGGCTCCAGTGAGCTCATTTTACGTTGTATGTACCAGTATGCAAGTGTTGTATGSATGTGAGCGTCTGCGTAGGTTTTTAT
TTTTCTCTCTCAGAATGAAAGGTTTGATTCGTACCAGCTCCCCATCCCTTCCCACGATCCCATCTTAATGTCTGTTGTGGAAGTTGGCCCACAGAAGCCT
CAAGGCTAACCAACAAGAAAGATCACTTCATATGCATTAGCTGGAAGGTAACAAGAGGAAATCGCCTGCCAGGGTCCCTGACTCCCGGAGGAAAGTGTCC
TCTGAGCCCTCCTTGAGGGACATAAATAGCCCCAAAAGTCACTGAATGCTAAGTTGGCTTTCTCCCCAAACCTTCTAAGTAGGCAATCAGGATTTAACGA
CCCGCAAATTTCCAATTTTTTAGTTTATGAAAAAATATATCTACATATAATTTTTGCCTCCATTAGAGTCTCATCTTTAAAAAAAAAAATTATTCAGTGA
CTTCCTCCCTCTCTTTCCAATGAGGAAAACTGGACTATTTATGCTGCATTTTAGGCTTTTTTTCATATATAATTTTTCATATAAATGCACATTTTCCCCT
TCTTTCGGGGAGGAAATTTAACTTTTGTGGAAATGTGATGTGTGTTTAAATTACCAATTTCATAGGCAATATGTCTGATAATTGCAGAGAGATACTGAGT
TAACTTGTAGCAATGAGTTTCTGTGACAAAGGGAAATCAGTTTGTTTGCAGTAAGCCGAGGATAACGGCGCCGAAACTTTACTATTTGGGGGTGGGGGGA
GGTTGGGGAAGGGAGGCCCTGAAATTGCTTTTTATAATTAAAAAGGGAATCTCAGATGTTTTATATCTTGAATATTTACAATAAAACCTTTAAGTGCTTG
TCAAGAGGGTAATGTGTCATTAACTGGGGACTCTGCCTCGCCTCTCCTCTCGGACATGACAGTGCGGCTGGATAAGAGAAGAGTAATTATAGTTCAGCAG
GGCTGCCAGGTGTGATAAATGACTAATCAGCACGCAGGAGCCTCAGTCCTCAAAGGAGGACTATTACAGTGTTATCAGCTGCGGGCCTGGGTGTACGGAG
CCCCGAACAGGGATGGGGACAGGACCTTGCGCTGTGCGGCTTGGCATGCTGCTCCAGAGTGAGCCCATGGCTGTCTCTTAGTTTTGTCACCGGCGGCTTT
ATGTGGCTGCCACGGGGGGACAGGAAACACACAGGGGCTCCAGCAATCTGCCTGGTGCTAATATTTATATAACACACTCGCCAGACTCCATGGCCTGAGT
CCGGGGGTGGCTTTTCGGGGTGCAGCTTGGATGGCATCAGAACCTGCAAGAAGCCAAGACGCCTGTTCTCCACGGCGGAGCCCGCTGGTCGGTCACTCCT
GTTCCTTTCGTGTCCGTTGGGTGCAGGCATTATTTCCAGTGTATGTGACCGCTTCCCCCGTGGGAACAGTGTGGCATTGTTCCCTGGGCAAGCCAACAGC
TCAGCCCTGTCCTAGAGAACCCTGGAGCTACGACGAGGGTACCCTGGACCCCTGTCCTAAATGTTCTTTGACTCTGCTTAGCCACTGAGGATGTTTGCAT
TTGATTCATTTGCTTATTATGATCAAGAAACGTTACCTGTCAACATTGGATAAACCATCCGAGGGAAATTAATCAAAACCCCCTTCAGACAAACTGCATC
ACATCGATTCTCTCCTTATAGGCCTTCTTGTTTTGTGTTCTCTGTGTGTGTTTTTTTTCCCCTAGCGTGCTGAAGGGTGGCATTGGAGTACCATTTAAAG
AATAATTTTTAAGAAATGAACATCAGGACATAGACGTCTGAATATGAGGAAGTGCCTCATGTGAAAAAGGACGTAATGTGCTTTAAAGAAAGAAGAAGGA
GATAGGACGACACTTTTGATACAAAGGTTATTTTTATAATACTTGCATTTTTATCGGTTCACGTATTTTAACAGGGAGCCCTGACTGAAGTCACAAAAAT
TATGACTCCGGCACCGAGGTACTTATCTGACAAATGCAATGCGAATGGTCTTGTTCTTATCAATGAGATCAGATTTCAGAAATGAATGCGAAGACCGAGG
CGTTGCTTTGTGCACAGATAACCTTGCAGGCGCAAACTCCCAAACCAGAATAAAAGAATTCTCTATGAAATAATGGGCCAGGAAGCCCAATCGCGTCACA
CTGTAATAGACAGTGGGGGGTGGAATCAAAAGGGGGAAAAAACTCATTTCATCTCAGTTAATGGCAGGGAAACGAAGGCAGAGAAGGACTTTCTTTGGAG
CGGAGCTGGTACGACAAAGAGCAGGGTTTCGCCGTGTCATGCACCATTTGCCGTTGCACTAGGGCTCTTTTCAGGAGCTGTGAAGCCATTATTATAATGT
GAAAAAGGTGGAAAGAAATACTCCCTTCTGGACACTGGAAGGGCAAATGAGGTGCAAGCCTTTTTTTTTTCTTTCTTTTCTTCTTCTTCTTCTTCTTTTT
TTTTTTTTTTTTTTTGKTTTTCCTCCCAGCCTCTCTCCTTTCCCATTATGCACAATGCGCTGAGAAAGGATTCCCAGTCCCCCTGGTAAAAAGTCTGRAG
GATGCCGAGGAGTTCACTGTGCCCTTAGATAATAACAGTTTGTCTTGGCTCTGATCACYCCTTTTTGTGACTTAGCTGGCTGGGAAGTAGCAAAAGTATC
TTCCAAGCTCAGCTTCTCTCTGCTTGCATTCTTTCCMAATACGTGATTCCAAAGCCCATGCCCAATCCTTGCACTGAAGCTTTTAGCAGGAAAGGTGAAC
AGAGGCATCTGGATGCATCGCGGCCAGTCTGCCCCTTGCCCAATTCCCTCCCCTCTCCTGCGTACAGGTCATCCCTGAGAAGTGTGCCTGTGGACTGCGT
TCTTTGGGGTAGGACATGGAATGGGAAGATGAAAAGAAAGCCTTCCTTTTTCTGTCCTCAGCCGTAAGAAAGAATGGTTTCTTCACAGTGCCGATTGGTA
AAACCAAGTTCTTTGTAAATTATGGAACCCAAGCTGGAACTTGGAGAGCATTCTTCTAACTGAAGATAAATATGGTTGCCACTGTCTTTATAAAAAAAAA
AGAAAAAGAAAAAGAAAGAGAGAAAGAGAAAAAACTGCAAAACCGCAAACTGGCTTGTTCTTATGTGGTTGATGGGGACAGCAAGATTACATATATAGCC
AGCATTTGATTCTCAGGACTGGTAAAGTGTGAAGAACAGCAGTGACATTCTAGTCTTCAATAAATCACTATAAAAATGTTTATGAACCCTGCAATTTACT
GTCTTTTATATGCAAATTGAAAGGGGCATCATTGCAAGTGTAAAGGAGACCCGAGGTGGCCTGAAGGAAGTGTAAAATGTTGCAGTAGGTTTTGGAGATT
GTGTGATCTTAAATGGGATCATTTCCAAACGATTTTGCGTTTATACCTCTGTGACAGTTCGATTAATTTATTAATGAGATTGCTGTAAGTTGCAGGGAAG
TAGAGGCCAGCTTGGAGTTAAAGGGTGGCTTTGAATGAAATACATTTTCATTTCACTGAAAGAAGAGGGAAACTGGTGATTCCAAATCCAGATCCAAAAA
GTTATTTTGGCAAAATGAAATCAGAACGTGGCCCCTTCCATGAAAGTCAGCTCAGGCGTAGAATGTTCTTTTTTTTAATTTTTTTTTTAACGAAACTCAC
ATCTTCTTTAAATAAAATCTCCATTTAGAAATTTTTGAAGACTTGTGGATAGAAGAAGTAACCTTGAAAAGGGCAGAGCTGAGCCAGACMMCTTTTCAGC
TGGGTGCTCCCTGGAAGATGGATCTTGCCTTGTGGATGTTTTTCTACCGTGACAGAAGATAGAAAGGATGAAATAGAAAGAGTGTGAGTGAATTCTGCAC
CCACCMCCRCCCCCCAGCTTCCCCACCTGTAAAATGATTTGCTCAAAGTTTGCAAAGAATGGAGGCATATTCAAAGTGCTCAGCACTGGGCCGGACCCAT
GGGTATGMATTCATAATGATCAGCTTCATTCTCTCCCTTTCCCTCTCTCTCCACACCTTTCCATTCCTCCTAACTAATGTGGGAGAGAAGAGAAAATTAC
AGTGAGAGATGGTGGTCAGTTTACAACAGTATTTAGATGAGAATTAAGATTATGTCCATTCAGGGAGACTCTAGTGTGCTCTACATCCCCCCAAAATGTG
GGGACAATATGGCAAATATGGCCAGGTACAGTGACAGAAAGTAAACAGCCCATGAAAACAGGTTGCTCTGCAATTCTCCCAACTGTTCCCTTCCCGCTTC
CCACCTGCCTCGTATGGAAAACACCCAAAGTAGGCACTGTTTATAGAGCCATCGCTTGCAGAACATCTCCCCGGCCTCCGACATATGTGCCATAAATGCT
GCAGAGCTGCGTCCACAGTCCCTGCTCCGGAGAAGAGCATTTTGCTTGTTTTCAAACACAAGCATCCTCTCCCGCGCCTGGGAGGGCGAGGTGCGGATCT
TTTCGCCTTGGCAGTCCCTCGCTCAAATGTGCGTCTCTGGCAAGTCCTGTCTGCTGATAGTTGATAGTGCTGCCACAGAGCGGCTGTCAGATTCCAAAGG
CATCATACCATCTGCTTTTCCAATCTTCTGCTCTTCAATGTAGACATATGTTCGAGTGGTTCGTGTGTGTGCGTGGTGAGGGGGGTGCTATTTTCCGGGG
GAAGAGGAGGAGGAGAGGATGCTTAACTCCAAGAGTCCTCAAAGCAAACTGAAATAAAATTTTAAGTGATGCCAAAATAAGCAGTCCCAGCAAGACATGT
TATAATATAAGGTCCTTTCCTTAAAACCATACCTATATCAGCTTTGGAAATAACGTACCTCTTAACTGCATGGAAAATCTAGAAGATTCGTGGCTTGGGT
CTGTTTCTATTCTTACCACGGTGACACGCAAAAGAATTTTTTAAAAAATAGGTTTGTTGTTATTTCTGTATATCTGTATGGGCCTGACCTCCCTTTTCTC
TGGGCTTTCTACTCCAGATTTTTATTTTATTTTTACACTTTCATTGCCCTTTGCTCTTTCTGGCTTTCACCTAAACAATAGCATGTATATACAACAGTAC
CTATAAAATTGACGCTCGTGTCACTGATCATGCCAAGAAACCTAATGTATGGTGAATTTGCACTAGTATTTATTTCCTCCCTCCCTGTCTCTCCCCTCTC
CTCCCCTCCCTTCCTTTCCCTCCTACCCCTCTTTCTTTGTATTATTCCCCTAGAAGGAAATATTCAAGCTGGCTTTAGAGAGGATAGCAATTGTAAGGTC
AACCAAGTATGGGATGGGGACCGGAATAGATTTTCTCTGCAGATTTCACGCTGCCTTCCCGGGAATTTCTGAATGTTTTGCAGCCTAATGTTTAGCTTCC
AACATTCTTTCTTTTTTTTTTAGACAGAGTTTCACCCTTATTGCCTAGGCTGGAGTACAATGGCGCGATCTCAGCTCACAGCAATCTCTGCCTCCTGGGT
TCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGAWTACAGGCATGCGCCACCATACCTAGCTAATTTTGTGTTTTTAGTAAAGACAGGGTTTCT
CCCTGTTGTTCAGGSTGGTCTTGAACTCCTGACCTCAGGTGATCCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATCGCGCCCG
GCCTAGCCTCCAACATTCTTTAAGAAAACTGCACCATGAGTAAAATGGGGACGTTTTTCTCTTCTGCTGGGACCCAGGACATGTTGGACTGCACATCAGT
TCATTCTCTCTGATCTAAGGTGTTGGCTGCTCTTCTCCCTTCTCCACTGGGCTCTGAGCTTCTTGAGTGAAGGGTCTGTGGGTTTTCACGCTTTGTACTC
GGGCCCAGAGCAGAGCCTACTGCCTTCACAGAAGATGCTCCACATGTGTTTGTAGAAGGAACTTGGAAGACAGTCAGTTTTAAAGATTTTTTCACTGAGG
GACTAAGAGAAATAGAAACAGAGGGGATTGGCCACACCTGAAGTCATTCTGTGTTCAAATCTTGGCTCTACCACCTATGATCTGGGAGCTSTTAGAGGAG
TTAATCGATGTAGTTAAGACTCAATTTCTTAGTATATACAATAGGTGTAATAGTAAAAATTAGATGACTTTGATGTGTGTAGGTAAGCGGCTAGCACAGT
GCTCAGCATGCATGAAGGACTCTTTCATTATCGTTATTAACTGATGTTTTTAACTTATACATTGAAAKGTGGAAACAAGCSTTGCTTCTATTGAATGACT
TCTTGAAAGTGCCAGTCTGATCCTTGACCTTCAGGTGCATCTCTAAATTCTTTCATGTCAGGGTCTCTGAAATCTGAACACATCTCAAAGTTCCCTTATG
CCTGGCAGGGGCGGTGTCCGACTTTGTTATTGCCTATGCATGTATAAATGTCCCAAATGCCAGCAACCAAACTTGCAGGATGGGTGTTGACAGATTCCAG
GAAAGTCCCAGATGTAACAGCGGAATATTCCACCTTCTAGGAACCAAATGGCTGTGAAGTGGAGAGACAGGCAGAGCTAGAAATATTCCGGACGTGGAAA
TCAAAAGTAGGTTTGCGCAACACAACTGCAGAGCCAGCTCAAGAACCCAGCGCCAGTGGCTGATGCTTCTTCTTTTTTTTTTTTTTTAATGGATTCTTCT
AAGGATGGCTGCATCAGCCAGGGGCAGCRGGTCATACCTGTAATCCCAGCACTTTGGGAGGCCAATGCAGGCGGATCATCTGAGGTCGGGAGTTCGAGAC
CAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCAGGCGTAGTGGCACATGCCTGTAATCCCAGCTACTCGAGAGGCTGAG
GCAGGAGAATCGCTTCAACCCAGAAGGCGGAAGTTGCGGTGAGCCGAGATTGCACCATTGCACTCCAGCCTGGGCAGCAGGAGCGAAACTCCTTCTCAAG
AAAGAAGGAATAGCTGCATCACTTATGCTCTTGATGGTACAGAAAATGATCYGCATGGAGGAAATCTAGACATCAGCGATTCAGAGTCAAAATGTTATTC
AGGGGAGAGAGACCCTTCATGTGAAGAAATTTTAGGAATACTTTAATTATTTTTTCACTTACATTTTATAGTATTTATTGTATGCACCAGAGTGATTGGT
GATAAAAATGGAGGCCTACTTAAGTCTAAGAGAGTTCTTGTGAAAGTGGGAGGGGGATGAGGGTTGGAAAATTGCCTGTTAGGTGCCATGTTCACTATTC
AGATGATGGATACACTAAAAGTGCAGACTTCACCACTACGCCATATATGCGTGTAAGAAATTGGCACTTGTACCCTTGAAATACATAAAACTTTATAAAA
AATTAAAAAGAGTTACTGTAATGATTATAAAATGAAAATTCTACGTCATGAGAAAGCATTGTGCCATATTTTCACCGGGAGCATTTTTTTTTCCTTAGGG
GAAATGAAAAATAATGGCATCTATGATCTTAGATTTAGTAAAACGCAGTATCTTCTTCCCCAGCTGAAATAGCGAAAGGGTCTCTTCAGGCTCCTGGGAT
AAAAACCAGGATSCTTCATGTGTCTGAGCAGGCYTCCCACCATTTGACTGCTGCTCCTTTGTCCAGACACATTTAACACCATCTCCCTGCACCCCTTCAC
TGGGCTCCGAAGCTGCGTTCACACGGCACGTCATTGGCAGCTCATCTCAGAAGGTTCCAGCTTTGCCTGGCAAATTCTCCTCCTTCCTTTAGATCCCATC
TCTGGTAGACAGAGTAATGAGYCCCGAAGATGTCCAGGCCCTACTCCTAATTCCATGGAACCTATAAATATGGGAGGTTACATGGCAGWTGGGGAATTAA
GGTTGCAGATGGAGTTAAGGTTGCTATTCACTCATCTTCAGATTGAAAGATCATCCTGGATTATCTGGGTAGGCCCMGTCGAATCAGAGATGGGGAAAAG
AGAGGCAGATGGGTCATAATCAGAGAGGTGGCTGAGTAAAGAGGACTTGGCCTGATGTTACCAGCTTTAAAGAGGGAGGAAGCGTCCAGGAGCCAAGGAA
TTCAGGCAGCGTCTAGAAGCCAGAAGAGGCAAGGAAAGAGATTCTSTCCCAGAACTTCCAGAAAGGCACRAAGCCCTGCTGACCTTTGATTTTAGCACAG
TGATACCCATTGTGGCCTTCTGACCTTCAGAAAATAAATTTGTTTTAAGCCACTAATTTGGGGGTAATTTGTTACAGCAGCCAGAGGAAGCTAAGGCACC
CTATAATATACCCTCTAAAAGCCCCTTTCTTGGGAAGTTCTCCAGCCTTCCCCATTGACTCTCAGAGGACCCTGGACCTCTCTTCCATGGCATTGCCATG
GTTTGTCATGTTGCACTTATTTGTGTGATGATTTAATTAATACTCATCTGCCCCACTGGACGTGGGCAGGAATAGTGTGTGGTTCAACTATGAGATTCCT
AGGGCCTACCACCGCCTGGGGTCCAAGAAGAGCTCAGCGAGTATTTGCAGAGTGAGTGAATGCAGGAAGGAGTCAATAAATACATTAATTAATTAATCTG
CAGGAGAAAGAAGGGCAAGGTACTATGAACTTTAATTAAACACATATCCCACATCCAGGTGCCAGTCAGGGAGCTGCGATTTAATTTGCTGCTGAATGCA
CTTTTGAATAAAGGGCCTAGAAGATGCAGTCTCGAGGAACSGAGGCCGGTTAGAGACAGGCTGGCAGCTTTGCCTYCTCTCCCAAGACAAAGGCCTCCCC
GCCCCCCTAAATCCAGCACACAATCAGCTGCTCTCCCTCCCCCTATTCTCAGCAGGAGAGTCAGGATGCATATTTCTTTAAGGGATGCTGTTGAGTTTCT
TCTGGTGGAGCGAAGGATTTGTAGCAAAACCCAGCATGTAACTCGAGTGTTCTGTGAAGCCAGATATTGGTGCCAAGCTAAATTTGTGCGTGCAGCTTCT
GTTTAAGGCAATTATATAGTGTGTAATACCCAGTAGMGAAATTAAGTCGAAGTACATTTTGCCCATAGAGATTATCCTCTCAGTTGGATTTATTTTAAAC
AAGTTTTGCCCCTTATACATTAAGGTGCATGCAATAAATCACTTATGTAATAAACTACTCTATATTATGTGGGAAAAAAAAAAGGAGCTGGTGGCAGGGG
GAGAGAYTTCAAATTGAGCYAGACCTCAGGCATGAAGGGAGGGGAGAGAGGGGGAAATGTGGAGGAAGGGGGCGTTTGTGCAGTGGGAAGTTGGAGAAAG
TACAAATGAAAGCCTCTCTGCAGTGAACCTCATGACTGCTTTAGAGAGGTGCTTATGTAATAACTGCAGTGGTGTCGCTTTAGAAAAAGTTACAGAGCTT
GTCTTTCTAGAGCAACCTCTTGGCTTATCTTAATTACCAGCAGTCCATAGTGAGACTGGAGGGAAGAAAAAAAGATGTAAGCTTTTATTAAATAGAAGAA
AATCAGGGGCAGAGGACAGAGGGTGTGATTAGGGGTCTGGGGTAACCACAAATCTGGGCAACTGGAATTTATTGTAATGGTAAATTACACTAATAATAAT
CTGGGGATGAAAACAGGGCAGGCAGTGAAACCTGAATCTCAGCTGGACGATGAATGAGTTTTAATGTAAGTGTATCGACGTGCTGTACTCCTAACACATT
ATTTGTTATCTGAAATTTAGATTTCCTTGGGTGTCCTGCCTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTCTTGCCCAGGCTGGAG
TGCAATGGCGTGATCTCAGCTCACTGCAGCCTCCACCTTCCAAGTTCRAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATAACAGGTGCACACC
ACCATGCCCGGCTAGTTTTTGTATTTTTAGTAGAGACAGGGTTTTGACATGTTGCCAGGCTGCTCTCGAACTCCTGACCTCAGGTGATYCACCTGCCTTG
GCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCYGGCCCCTGCCTTTTTATTTTGCTAAACCTGATGACCCTTGCCATAGCAGAACTAAAG
TGATGATGATGATTACAGCAGATCARTTATTTTGAGCTCTGASTTTGCATGAGGCCCTTTATTAAGTGCTTCACTTGTGTGATCTGATTTAATCTTCACA
AGCAAACTGGGACAGAGGGACTGTGCCTATTCCCATTTCACAGAGGTGAAAACTGACACTTAGTTTTCACCCGGGTTCTCCCTGTCTATAAGGGGAAAAG
ACAGGGTTCACACCAAGGCCTGTCTGGATCCAAAACCCATGCTCATAATCACTAAGTTATACTMCCTCTTCGAGATGCTGATTTGGAAAATAACTCCATG
ATGAAACATGTCAAGGGAGACTGCCTGTACTCCGTAATGCAGAAATGCATTAGAGCTCAAAAATCTATGCTGTTTAGGAAAGAAAAATGATATCGCTCAG
AAAATCATTTAAAAACTTCCTGGTGAATGCACCCAGCTCGCCAATGCATGCCAGCCACAGGGCCTCAYAGCACATTTCAGGAGCAAGACAATTCAGACCC
CACTCTTCCCCCTGAAAAACCTCCTTCCAGAACCCTCTTTTGCAGTGAGCAGAGATAAGCCTCTCCAATTTACATGTTTGTCATTCTCTAACTTTGAGAG
CCCAATAAAACTAAGTGCTTAGTGAGAATCAGACATGGATAAGCTGCTTGTAATTTATGATTTAATGCAGCATAGTATAAAAATAGGCAATGAAACTGAA
AGGCAATCAAAGTCTATTGTCACAAGGAATGGGAGGAACGGGGACGTGATCTAACATTTGCTGAGATCCTGCTGTATACCGGGAACAGAACATATATGGT
TTCATTTCATCCTCCCATTATCACCGTGAGGCCTCTTCCGCTTATCTATTGCTGAGTAACAAGGTGTACCCCTCAATTTACTGGCGTAAAACGACAACAG
TTTTATTACATCTCATGATTTTCTGGGTCAGGACTCTGGATAGGGTTTGGCTGGTTGAGTCTCCTCTTGCAGTGGCTGTTGATGGAGGTCATTTAGTGGA
ATCCAGTTGGCAGGAGAGCTGGCCTTGGAGGGTCTAGGATGGCTTTTGTCACATGTCCAGGGCTTTGTCAGGTTAGCAGGGCAGGGAGGGCTCAGCTGGT
CTCAGCTCGTGGCTGCTCCAGCACCGTGGTCTCAGGGTGATTGGATTCTTGTAGGGCAGCTGTTTCAGCTACACAGCAGAAGTGGCACGGCCTTTTCTGA
CTTAGTCTCAGAAGGCAGAGGGTGTCACTTCCACTGCATCTTTGGGGAAGGCAGTCACCACTGTATAGTCCTGAGCTCACTGGGATTAAGGGGAAGGGAC
ACAGACTCCACYTCTCGATGAGAGGAGAAGCGAATTGATGGGCAGATTTTATCACTGTCCTGGGGCCTTTGCTCTTTGCCCTTCCCTTTGCCAAGAAAGT
TCCCTGTACTCTGCAATGCTGAGTACTTCTCATCCTTCAGGTCTACTGCAAGTGTCACYTGGCCAACACACCATGCCTTCCCAGTCTCTGGTGTTACTST
CTGCATACTGTAGACCATCATCTTGTTTGCATACTTGTCTGTTATCTCTTTATCATCCKTCTACCCACATCAGGCAATTCCAAGAGAGAAGACCACTGGT
TTTGTTTGATCTAGTCCCTGTTGAGTCCCTGTGCACCTTCAGAACCACATCTAGCAATAGAAGGCGCTGCACGGGGAATTCTGGAATGAATAAAAACGCT
TGGCAGTACCGCATGGCGAGCCAKTACCCGTGAATGCTACTTCCTCCAAAGAGAATTCCTGGGATAACAGAGAATCCATTCATGGCTGCCAGGAGGACTT
GGATATTTCTCATTTTCCATTGGCCCTGGAGTGGAGGAACAGAGCCGAAAAGTACGTGGGGGGCAGGCAAAGCTGCGGTCAGAGGCAGACCCTGTTGGTG
TTGGCCGTGTCAASCAGCTTTGCTGGTTTCTATTATAGCCCTGGTGTGGCAAAGGACACTGTGTGACTGTGAGCTCAGGTCAGCATTGCGATCCCTTCAG
GCCTCTGGCTTGCAGGTTCCTGTTCAACCCTCTTAAATATGCTTTTGAAGCCCGTACGTTCGGTCCACGCCAACTCCTGTTTATACTGGTGCGAAGTGAT
GCCTGCTCAGATTCTGGGCGTTTCACGGGAAGGTATTAAATGTGTTTTGAAAATACTTGAAAGTCCAGCTGTGTATGCTTTATTTTATATTTAGCCTTAA
ATTAGAGACTCCATATACCTCAAGTAATAAAAAGGCACAGCAGGCACTTGGGTTTTCCCTCAGCTTGCTGGGGCCGTGCACCTATGTGAGATTTTATTAT
TTGTAATTTTGGGGGGGTTAATTTCACAGCTTAATTCTGGCCTTTATGCATTTAGAGCTCCCCTCTTGTGTTTCAGAAAGGAGGAGTTGTTGTTTTCTTT
TCACTTGAGTTTAATAAATGAAAAAGGGGAAGGGAGAGGGAARGAAGAGGAAAAAGCACAAATGTGCTTGTTTTTGGATCAGCCCCTGTACTGGGCACAT
GGATGCAGTCAGTCCTCAGTGTACCCCAGGAAAGAGGAAACTGAGTCTCCATGTGGCTTTCTGTCTGGCCTTTCTCTTTTGCTTGCCTTGTGCTTTGAAT
GCAGGCCTGMTGTTTGCCTGTGGACCTCAGGATTTGTAAGGCCATCTCCACCCACCTACAGCTAAGTTTCCCAAGAGCCGATCTCCAGCCGAAGTCCAAG
GTTCCTTGATGACCCCTGGGAGGAGATGCAACACACAGTTTCCTAGAATCATTTACTCCCCAGGCTAAGCACAGTCACAGAAATGAGGTAGCTGTAGCCA
AGGATGATGGCATAGCACATTCGTTTCTTAGGCGTGCCACGTACTAGGTGGCTTCASTCAGCAGAACTGTAYTTTCCCACAGTTTTGGAGGCTCAAATTT
GCAAGTCGAGGTTTCGGCAAGGCCATCCTCTCTCTGAAAACTCTATGGGGGCGTCCTCTTTGCCTCTTCCCGGCCTGTAGGTATTTCCTGGCAACCTTTG
GTGTTTGGGGCATGTTGTCACCTCATTGCCATCTCTGCCTCTGTCTTCTCACCACCATCTTCCTTGTCCATGTCTCTCTRTGTCTTCARTGTTCTTCTTA
TARGGACACCAGTCCTTGGATTTAGAGYCCACCCTAATTCACTGTAATCACATCTTACCTAAGTCCATCTGCAAAGACCCTATTTCCAAATAAGGTCACA
TTCTGAGGCCCTGGGTGGACATGCATTTTAGGGACCCTTTCAGGCCACCATATATGGATTCCAGAGTGACCAGTAGAACATAGCTCAGGCCAAGAGAGAA
ACTCAACCTTGGTGAAGTTGCATGAGAACAGAAGGCAGCCCTGGTCCCTGGGAGAAACCCATCCATACTCTGGTTACCCACTGGCCATTCCTGGGGACAG
GCGGCAGGTGTTTAGTCCCCTCTCTGCAACCATTTGCGGTCACCTCTTATGTGCTAGGCCTGGTGCTCAGCGCTGAGTGAACCCATATCAACAAGGCATG
GTCACTGCGCTAGGGAAGTCCCTGGTCCAGTGGGGTGAGGGTGGCAGTGGCTGGCAACAAAGACAATGAGCGCTGAGATTGAACTACAGAAAGCAGAAGA
TGGGGTGACAAGTTTGGCCTGCGGCAGGAAAGACTTCCCAGTCTTTAAGGATAAGTGGCATTTGATGAGTTGCACAAAGAGGAGACCTGTCCTGGGAATG
GAGGAGAAGATGTGAAGCGCGGGAAGTCCAGGGACACACAGCCGTGCAGAGACCCGGGGGCCTCAGCAGGTTAGAGTGTCTGCATGGCACCGGCAGAGGA
TGAAGACAGGGCTGGGGAGGGGCATGGGGTTAGCCTAACAAGGGCATCAGGTGCCAGGTTAGAGTTTCGGTTTCTAAGCTGTAGATAACAAAAATTTCTT
GAATGCTTTTAGCCCCTGATCTGAGTTACGCTTTTTTTTTTTCCTTCCATTTTCCATCCAACAGACATTTGTGAGGCACTGTATTTGTTTTCAATTGCTG
CTGTAACCAATGATTACAAATGTACCGTCTTAAAAACCTAAATGTATTATCTGACAGTCCCATAAGGCAGGAGTCCAACACAGGTCTCACTCGGCTAAGA
TCCAGGTGTAGGTGGGGCTGGGCTTTTTCTGGAGGCCCTAGAGGGCAGCTTGTACCCTTGCGTCTTCCGTTTCTTAGAGGTTGCCCATCTTCATGGACTC
AGGGTCCCTTTCCTCCATCTTCAAAGCCAACAGCACCTGGCTGAGTCTTTCTCATGCTGGCATCCTTCTGGCTCTCTCTTCAGATTCCCTCTTCCACTTT
AAGGACCTTTGTGATAGTTTTGCACCCACTGGATGACCCAGAATCATCTTCCTCTTTTAAGATCAGCTGATTAGCAACGTCAGTTCCACCCACAATCYTC
ATTTCCCTTTGTYGCGTAACCTAACATATTCACAGGTTCTGGTGAGTGGGATGGGGGTATCTCTAGGGGACCATTATCCAGCCTTCCACAGGCACTTTGT
CACAGGCCAGGCGCTATGCCAAGCAGAGAGGTCACAATAGCAAATGACACAGACAAGATCCTTGCACTTCCAAAACTTATGTTCCAGTGAGGGTGAAGGG
CGTTGAAGAAGTCAACGAGAAAGTCAAGTTTTTACAGTAAGTGTAAGTTGTGTGGGTGAAATAAAAAAGGTTCTTTGCTGGAGAATAACAAAGGGAGGGA
CTTACATAAATAGAGTAATCAGGGGAGGGCCCCTGAGAAACTCTAAAACATGAGGAAAGGGCTCATGATGTGAAGAACTGGAAAGGTGTTCCAGGCAAAA
GGAATGGCAAACACAGTGGCCCTGAGACACTCAGAGAAATCACTCAGGCTGCCTTCGAAAGGATGTATTGGAGAAGATGAGGCCAGGGGATTGTTAGTAA
CTGTTGCAAGGATCCGGGAGAAAGATGATGAAGGCCTTGTAGGGCAAGCTGGATAAGAGCACCCAAAATATCCATAACCGAATCCCCACTACATAGGCAT
GCTACTTTATATGGCAAAAGGGAATTTGCAGAAGCTAAGCACTTTAAAATTATTATCTCCTTAAACCTCACTGCAGAGTTATAAGGAAAGCACTGTTATC
AGATGAAGAAGTAGATTTCATCAAGTGACTCACCCGGTATCATATAGCTGCTTAGCGGCAAAACCAGGATGTGAATGGAGAGCTCTTTCTCGGATACCAA
AGCTATTTAATATTTATCATTGACTAATAATGGTAGAGAAAGTAATCATCATAACCTCTGCCCTTTATTAGTCACTCATGGTGTCACAAGCCCTTTACAA
AGCACTTTGCATGCAAATGATTCCTCATAACAACCTTGGGAGGTAGTTACTTTCATTGTATTAGCTATCTCTTGCTGTGTAAGAAATTACCACAAATTTA
GTATATTTGTTATCTCATAGCTCCATAGGTTAAAAGTCCTGGTTCAGGCTGGGACTTCTGCTCAGGGTCTCWTGAGGCTGAAATCAAAGCGTCAGCCAGG
GATGGGGTCTTATCAGAGGCCCTTGGTTAYTAACAGAATTCATTTTCTTGTAACTGTAGGACTGAGGTGCTTGTTTTCTTGCTGGCTGTTGACTGAGGGC
CCCTTGCAGCCCCTAGAGGCTATTCTCAGGCTCTCAGGCCCTATCCACAGATGACCTCACAACATGACTGTTGGCTTCTTCAAGACTGAAGGAGGCTCCC
CCATGCTCTGAGTCACTCTCTTCAGYGAGGGCCCAGCCCCTTTTAAGGGCCTAGCGATTAGATCAGTCCCACTTAGGATTGAATCCCTTTTGATTAATGC
AAAACCAACTGCGTTCAGGCCTCCATGACATCTGCGAAATTCCTCCCCCTTTGCTTGGTAGCCTAACTCACTCAGGGGGGCAAATTATCCCATCATATTC
ACAGTTGCCGCCCACACTCAAGAGAGGGGATTCTATAGGAAATGGAAGTCTTGGGGGCCATCTTGAATCCTGACTACCATAGTCTGTGAAATCCCYATTT
CACAGATGTTGAAACTGAGACTTAGAAGCATTATGCACCATGCCAAAGGCCATGGAAGGACAGAGCTTGGGCATGCYCCCGACACCAGGTCATACTGATG
TCACTCTCCCTACTCCCTTCACTCCCTCCAGCACCTGGCCTTCACCTGAAGGTGCTGACCTTGCTGTTTGTTGGTTTCAGCAAACAAAGGGAGATCACAG
CACCTGTCCCAGGCCTTGTCTTCCAGCCCCACAAACGTGCACCTGCAGCCGGAGACCAGGGGGCCCCGATCAGGTGGCAGGGCCTTTAATTGGAGCCACG
TKTGTATAATGAGCAGCGCACACACACAAAGGCGAGCTAAAAATGTCTCCACCCTTCTAAATATGGGATGCCTTGGCCAGGTATTGAGTCAGCTCTGTGA
CGCCAGTGCARTTATCCCGATTCAGCATCAGATTTATTCACCATTAAACATGTTCTAACTTGATTGCAAACAAGCCTTGTATTATTTAGAGGGATCCACG
GAGCTGGCAGAGGGGGCAGAGGTGTCCGCAGGCCTCCTGCCCTTCCAGGCTTAATGGATGATCATCTTCCCTGCTAAAAAGGCCCATTCACTAGGTGAGT
GATGTGGAACTGTTTAATGAAAGCAGGAAGATGATGTGAATGCCAGTTCACTTGAGTGTTACAAACGGTTTGGGCACTATAGCCTTAAAGTTTCTCCTGC
TCTTTGCAGATGAATGAAGGGGCGCTTTCTGGAATCTTTGTGGCTGGGGCTGCTGCTCTGCACTGCTGTGGCTCTTTTYCACAAATGCTTATGGAGCTCT
AACTGGGGGCAAGGAACTGTGCTACGGTTGGGAAGAGAGGAGTGGGCAAAAGGAGACACTGGGGCTTCTGTGACTTTAGAGGCCCATCATCAAATTTTCT
TTTTTTTTTTTAGATGGACTTTCGCTGTGTCACCTAGGCTGGAGTGTAGTGGTGCGATCTCGGCTCACAGTAACCTCTGCCTCCTGGGTTCAAGCGATTC
TCCTGCCTCAGCCCATAGGCACATGCCACCACACCTGACTAATGTTTGTATTTTTGGTAAAGACAAGGTTTCCCCATGTTGGCCAGCCTTGTCTTGAACT
CCTGACCTCAGGTGATCCACCCACCTCAGCTTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCTCCTGGCACCCATCAAATTTTCAAAGGAAGAAA
TGGAATGGTGCAACCATGGTACATGGGAAGGAGGAGGGGGACACACAAGACTGTRCCTATCATGGGGGCTTCGACCTCATSTGGGAAGGTGGTTGGAGAG
AGTGAGTCCTGACCTGAGCTTTGGAACTTATCAAGTTGAGAGAGAAATTTGATAATTTGTCTATTAACGTGTGACCTTGGGCAAGTCATTGACCTTCTCT
GAACCTCAGTATCCTAGGACTTCAGAAGCGAAAGGAAGAATAATGGGTCTTGAGTATGCCTAGAATTGAGCAAGCTGCTATSCTTGCAAAGGCCTTGGCC
AGCTGCTCACCCACCATGTCCCTCTGTTCCCACTCCACCTTACTCATGCCTAGACTTCTTGCTTTTTAAAAATAATCCACCCATGAAACAAGTGTTTATT
TACAAGGCTGGCTTCCCCAGGAGGCTTTCACAAATGCTTACCGAGCATCTGCTGTGTGCCAGACAAGAGTGAGGAGCTGGGGACTCAGAGAGGAGCAGAC
GAGGGAGACACTCACATTAGAGAGTGGCGTGTGCTGAGGGAAGGTGCCTCAGGCGACAGATGGGACCAGGGCCTTTAACTCAGTGGCAGCTTCAGAGACA
GATCTGGAACCCCAGGACTCAAAGGACCTATGTTTGCTAATCAAGTGAACACGGAGGACCTGCCACTGGGCAGGGCATCCCTGACCAATCCACAGGTGAT
GGCGGGACAGCTCCAGGCCCTGGGGATCCCCCAGGGAATAAGCCAGATTAAAGCCCCTGCCCTGTGAGGTGTGGCAAAGAAACAGACAATTCATGAAATA
AATATATGATAAATAACATATGAGAAGGCAGGGAGTGGTATGAAACAAATCAGGGAAGGAGGAGACGGAGAAGTTGGAGAAGACAGTGGATTGTTTCTCT
GGGTGGTCAAGGAAGGCTTCCAGGCAGAGGAGGTTTGGCCATGGGTACCAAGGGGTAGAGATGGGAACCTTCCAGGKACATGGACCCGATGCTGCCAGCA
GAGGGGAAACCATGGCCCTAAGGGCAGAGCACACTGGGGCGGGGGTGGGGGTTCAGTGACAGTCTGGTGGCCTGTGTGGTGAGGAGTGCGGGAGATGGGA
ACAGAGAGCGAGAGGGCAGACGGGGTCATGTTGTGTGGGACCTCGGAGGTCCTGCCATGGCTTTGGTTTCTACTTGGAGAGAAATAGGGAGGTTTGGGCA
GGCTCTGAGTAGAGGAGTAGCACGATCTGGCTTACGATGATTTCTAACATCTCACCATCTTTACTTCTGTATATAAATATATGATAAGTATACCTTTATA
TATGTGACATGTATCTTTAYATATGATATGTATGGTTACATATCTACTCACTCACACATCCACACACACACACACACACACACACACACACACACACCTT
TTTTGGAACCATTGAAAAGTTGCAGACATCATCACGGCTCACCCTGAAATTCCTTAGCAGGCATCTTCTGAGAATAAGGACATTCTTCTATGCAACCATT
TCACATCCACACTAAGAAAATTAACACTATTACGTAGTATTATCTAATATGCCCTCTACATTCAAATTTTCATGTCTCCAATCCTGCCCCCTTTGGAACT
TCTGTTGGTGTTCGATCTGGAATCTGAGAATTCCCTTGCATTTGGTTTTCATCCCCCATAGTCTTCCTTTTTTTATTTTTTATTTTATTTATTTATTTAT
TTATTTATTTATTTATTTATTTATTTATTTATTTTTTGAGACAGGGTCTTAATCTGTCCCCCAGGCTGGAGTGCAGTGACATGGTGATGGCTCACCACAG
CCTCAGCCTCCCTGGGCTCAGTCGATCCTCCCACTTCAGCCTCCCAAGTAACTGGGACTACTGTSATGTGCCACCATAGCCAGCTATTTTTTTTGCATTT
TTTAGAGATGAGTTTTTGCCGTGTTGCCGAGGCTGGTCTCAAACTCCTGGGSTCAAGCTATTCACCTGCTTTGGCCTCCCAAAGTGCTGGGATTACAGGC
ATGAGCCACCATGCCCGGCCCCCTTTTTTAAAAAACAAAAAAACAAAAAACTCTTTTGTGTTTTAGAAATGGGGTCTCACTMTGTTCTTCAGGCTAGTCT
TGAACTCATGGCCTCCAGTGATCCTCCCGCCTCAGCCTCCTGAGTCACTGGAATTTCAGGCATGAGCCACTGTGCCTGGCCTCTGTCAACTTCCTTATCT
AGAACTATCTTTTTCCTCTATTGTTTTGTCCCTCACTTCTGAATAGTTCAGGGATCCCTCTGGCTACTGTGTTGAGAATAAAGTGTCAAAGCCAACAGTG
GAAGCGTGGACACTGGGTAGGAGGCTTTTGCAGTGCTCTCGGCCCGCGCTGTCCAATAGAACTTTCTGCAGTGATGGATGTCTTCTATCTCTGCCCTGTC
CAGTATAAAAGCCACAAGCCACATCTGGCTGTGTGGCACTTGGCATGCAACTAGTATGACATCTTAATTTTTYTTTTTGAGATGGAGCCTCGCTCTGTCA
CCTAGGCTAGAGTGCAGTGGTGCAATCTCGACTCACTGCAACCTACACTTCCTGGATTCAAGTAATTCTCCTACCTCAGCCTCCCGAGTAGCTGAGATTA
CAGGTGTCTGCCACCACGCCCAGCTAATTTTTGCATTTTTAGTAGAGATGGGGTTTCACCACATTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAAAGT
GATTTGCCCACCTTAGCCTCCTAAAGTACTGGGATTACAGACAAGAGCCACTGCGCAGACGGACATATGAATTTTTAATTTGATATCATTGTGATCARTT
TGAAGAKCCACATATGGCTGAGGGCTACTCTAWTGAGTGGTGCAGCTCCAAGGCAGAGAGATGGCTGTGATTAACCAATGAATGAGGGAACAAATATCCA
GGCAGAATGAATAGTCTATGGAAAGGGCTGGAAGTTCCACAAAGCAGGACGTATACGTGCCCTTTTTTCCTCCCCTGGTGGCCAGCCAGCCCCTGAAACA
CAGCAGGTATTCGGTGCAGCCTTCTGTTTTCTTCCAGATCCTTTGACTCCTGCCCCACCAACATGGCCCGTGGCAGACTGGGCTGCTGTTTGTAAGCCTG
GCTGAAGAAAGGCATCACAAAGAAAATGCCACCAGCAGGCTGGGTGTGGTGGCTCATGCCTGTATTCCCAGCCCTTTGGGAGGCCGAGGCGGGTGGATCG
CCTGAGGTCAGGAAGAACCTGGGAGATTGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCATGTCAGCCTGAGCAACAGAGCAAGACTCCGTTTCACAA
AAAAAGGAAATGCTACCAGTGAGCAGGAAGTTGGTGGTCCTCCAGAATTGCCCTGTTGAGGGTATCTCCCTGCCCTGGTCTGAAAGCTGCCACTTGCCGC
CCACCGCACAGCCCCAGGGCTTTAGCTCACTGTGCAGGAAGAGGCCTTCCTCTGTGCATCSTCCCACAGGGTCGAGAGTGAATGCCTTGCCTTTAAAAAT
AAAATGCATACGCCTGTCCTCATGCGCTCTGATCTGCCAGCAGGCTGTGCTGGGGAGTGGTGAGTAGTACAGGGATGTGTCTGACCCCAGGAGAACTGCC
CCGATCCCTATCTTGTCTCTGCTCAGTTCTGRTAACTCTTTTATCTTCCCTGGAGTTATTTTTTTCCCTTCTTTSTTTCTCTTTTTCTGTGTGCTCTTCT
AAGAGTAAAACGCATGTCCCCCCATGAAGTCACTCAAAGCTCAGGCGTGTGCAACAGGGACAGCAAAAGCACACACAATGATGGCCAGAGACACTGCTYA
GTGTACTGTCTTCCACCGGGACAGCCCACTCACCAAGGGTTAGGTCCTGTGCTGMCTGGGTCCCGKGTCTCCTCGGAGGTCGGTTTGCATCACGTGGATA
CACTAATCTACCCAAGTTGACTTGGAGAACCAATCTGAAATCAGATGGGAGCTCCMGGAAGCAAAGCAATTGCAGGTTCATTTGTTACTTTTATTGTCTC
ATTTCTTCTTATTTTTTTAGCCCAATTGCCTCCTACATGGGGAAGGTTGGGGTCCTCTTTATTCTACTTTTCATTCTCGCTCTGCCGCCCTCCCAGGTGT
TTGTAATCACATATTTTTCATTTGGTTTCCGGGTCCAGCGACAAGAACACCAGAAACACCTCCTCCCCAGAGAGGAAGAGAGGATGCTCCGCCGCCTGTA
AGGATTTTTTGCTCTCCTCCTTTTGTCAGTTGGCATGCGATATGCTTCTCAGGCAGTAATTTAGAGACTGTCAATTCCTGAGAGCCGCTGGGGAACTGAG
CAATCGYCTGCATTTCGTCGCTTTARCCCGAGCTGGGTCTTTGAGCTGGCAGAGACCAAGATCTTTTTCTGGGAAGGGATGGTCCTATTTAAGGAAGGCC
CTGGATTTTGTCAAGTTTGAAAGGTTTTCAACATCTTCCCGAGATGGTGGTCATGGGAGTAGTGGTTAGGGTGGTTATGACGCATGGGACGGGAGAATAC
CATGCCCACCCGGTGATTTATACCAAAAGATGCTTTCCTGGGGTGGTTCTGCTGGCAGTCGGGCAGTGACATGTTATTAATGTTTTCCTGTTTTCTATTG
TCCCCGAATGGAAAAACACTGTGGAACCTTTAAATTTTCTCAAGCTGTCTATGTTTTCCTGGATCGTCCCTCAATTTTCCGTGGTATGAAAAATGTAAAT
GTTGCTACATTCAGTTCAGGGAAATCCAGCCGTTGCTCCAGATCCTTCTAAGATTTTTCAATTCCAGAGATGTTTTCACCTGGAAGATTCCCCAGATTTG
GCAAAAACAACCCAACTCCTAGCCACTGCTTTTTGAGCAGCTACTCAGTGCCTWAGACTTTGAATAGTTTATTAATCATGTGTCACTGCAGCAAAGGGGA
CATTTCGGYCCTGATTTCAGAGATGAAAGAACCAAGGCATAGAAATTGAGTCACTTTCTGGAGTGTACACAACTAGTAAGTGGATTCGAGTTAGTTTTGC
TCTATTCCAAGGCTACTTACTATGCTATTTTTGGTTTCCTACTTTTGTTCAACTTATATTTATCTGATTATCTGATTCTCTTTTACAAGCACTTAGTGAG
CATCAGCTGTTTCAATGAGCATTTATTTACTGATACCTGTGGTGGCACCCAGGAAGGACTAGGAATGCTCTGTGATATGTAGGAGAAGGATGTATCCACT
GGGCAAAGGTACCTGCGAGGGATCAAAGATGGAAAGGCAGAAATCCAAGGACTACGTGTGACATGAAAGGGGCCTTTCTCCTGCTGTCATCCTGAACCTC
TGTCTTTCAAATTTGGATGTGTCGGGGGCCACAGGACACTACTGTGCATTTGCCTGTGATTTGCCATTGGGTTGGAGTACTTCTCCTGAGTTTCTGCAGT
GTTCTAGGTATGGTCTTAGGCCCTGGARWAAGACAGTGTAGGAAACACAGAAGGTGCCTGATTTCCTGGGCCTAGCTAAGGGGAAAAAGCGAGACAATGG
GGTCAGAKGAAGCTCAGCTGAACAGATGAAGTTGAGATGAACAGAATTCCAGTGCCACCATGATTTCCAGCCGTGTGACCTTCCACATGCTTTTTGATTT
TTCTTGAACTMACTTTTCCTTTGTTTGCAAAATAGTAACAATATTTTCCTTCCAAGTGATGGTGAGGATTTMAGAGTTAACCTGAGTGTCTGCTGCATAG
TAGGTGCTCAATAAACTATAACSTCTTTATTTCTTTTCCTTCCAATGAGAAGTCACTTCCTGGAGGGAAGCCACCTCCAGGAACAGTCCTGGTTCAACTC
ATGAGGAGGGTCACTGGTTGGGTTCCATATTCATATCTGCAACCAGAGTTGGAAGCACACCACTGTGGGATTAGTCATGTCCCTAGTCCCTGTCTCCGTA
TATTTTCTCCTTCTCTTATTAGTTTATCTTTTCCAAAATGGGCTGTTTCGTCTCTGATCCTGATTTATTTTTRTTTTAATTAAATAATTTATTTTTCTGA
GACAGACTGTCGCTCTGTCGCCAAGGTGGAGTGCAGCGGTGTGATCTTGGCTCACTGCAACCCCCGCCTCCCGGGTTCATGTGATTGTCCTGCCTCAGAC
TCCCGAGTAGCTGGTACTAAGGCATGTGCCACCACTCACAGCTAATTTTAGTATTTTTAGTAGAGACAGGATTTCGCCATGTTGGCCAGGATGATCTTGA
TTTCTTGACCTCGTGATCTGCCCGCCTCAGCCTCCCAGAGCGCTGGGATTACAGACGTAAGTCACCACGCCTGGCCTGATCCTGACTTAGTTACGGTTAC
CTCTCTTTGTATCTCTATATGTTCTCAAATTCCAACCTGTCTTTGTAATCCTCTATTTAAGCTATCGATTACCTCCAAAAGGCCCTGAATGTTTCAGAAA
GAAAGGATCTACTGGCAGCTTCTGAAGGCTTCTGTAATACCTTGTACCCCAATGAGTACAATGAAATCATTAGGGGTTCTTTCCTCTCCTTTGGAATGAA
ACTGCTGCTTAACTTTTCTCCCACTGATGAGATGCGGTGATGCTGTCACAGTTGGGTGGTTGCTCCTCCTGCAGTCTTCTTCCCATTGCATGTTCACTCT
CTTCCCCACTTGCCCACGAGCAGCAACTCCTGTTTCTTGTTTTTTTCCTTTTCTTTTTCTTTTCTTTTGAGACAGAGTCTCGCTCCGTCGCCTGGGCTRG
AGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCATGCCTCAGACTCCTGAGTAGCTGGTATTATAGGCGCACG
CCACCATGCCCACCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTTGCCATGTTGCTCAGGCTGGTCTCAAACTCCTGACATCAGGTGATCCACCTGCA
TCGGCTTCCCAAAGTGCTGGGATTACATGCATGAGCCATCGCGCCTGGCTAGGAACTCCTGTTTCTGTTTTTATCCTCTTCCCAAGTCTGCAGGCCCCGC
CTGGCCCACCCAGTCCTTCTTAGAAGATGATGACCTCAACTACTGCTTTTTAAAGAAGACTGACGTCGTGTTAACTGAGTTTCGATAACGCCCCTCTGTG
TATTTTCTCATCGTCTTATTATGTTTTCCAAAATAGGACCTGGGGTCGAACTCCTGACCTCAGGTGATCCGACCACCTCGACCTCGAGAAGTGCTGGCAT
TATGGATGTGAGCCACTGCCCCTGCCCTAGATGGTATCACCTTCAAAGCTTAATTAGGAAGAATAATATGAGCACTGAGTGTAACTCCAGGTCGGGTATA
TTATGTCCCTCTGTGTTCTCTAGCTAGTTATCTATCCATCCATCTCTTGCCTTGTCCACAGAAGTTACAGGTAGGCTGCCGGGCGCAGTGGCTCACGCCT
GTAATCACAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTCAGAAGTTGGAGACCATCCTGGCTAACACAGTGAAACCCCATATCTCCTAAAAAT
ACAAAAAATTAGCCAGGCATGGTGGTGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATAGCGTGAACCCGGGAGGCGGAGCTTGCAG
TGAACCGTGATCGCTTCACTGCACTCCAGCCTGGGCAACAGAGCGAGAATCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAARGAAAGAAAGA
AATTACAGGTAGGCTAGAGCACGGATGAGCAAACTGTTTTTATAAAGGACCAGAGAGTATATATTTCAGGCTTTGCAGGCCCTATGACGTCTGTCACAAT
TCACTTCTGCCTTTCTACTGCAAAAACAGCCATGGACAATTCATAAATTAATGTGCATGGCCGTGTTCTGATAAAAGTTTATTTATAGACACTGAAATTT
GAATTCCATATGTCATGAAATTATATTTTTTTGATTTTTTTTTTCATAAAACCAGTCTAAAAAAGCCATGGGTTATTTTGTCATGGCACGTTTTGATATG
AATATTTCCACCCCCATTATTTGCATAACAAAKTACAGATTATCCAGAACAGGTGGGCTGTACATAAACAGGCTGGTGGGCTGGATTTGTCCTGTGGACT
GTASTTTGCTGACATCCAGGCTAGATCCTTAATATACAATGAAGTAGTAAAACACATGTAAAAGTAAAAAGCAGGCGWAATAGAATAAAATASACATTTG
CACACCACAGTATCCAAAAAGGTTATGTACTGGGGCTAAAGATTTGGCTTGGAGTTTCCTGGTAGTCAAGGCAAAAAAGGGAAACAAAACTAGTTACAGA
GTTTCTCGGACCTATGAGCAAAAGGATKTCCATTTCTAATCGGAGGCAGAGGTATCATGGCCTTCAAGAATCTTCCGGTTAAACACGGTACTGAAATTTG
ATTTTATTGTCTATCGTTGAGTCCCTAGTTATTTTGCCTTTACCAAGGCTAGTTGCAGAGTATTTGTTCTAGTATGTAAAATCAGCAATCAGCCATTTTC
TGGTCATTGTAATGGTGTAAATTATATCTGACAGTTGTTAATTAAATACCTACTCATGCTTTGGAGCCAAAGCCAAATAGTGCTCTGTAAACATTATGAT
TTGTCAGTAATCAATGTGATTTGTATAATTTGTGAGCAATCAGATACTTTATCCAAAAGCRGATTATTGACCTCTGTGCCCATCTTGGGAGAAATTGCCA
CTTGGTCTGTGTCTACACAGACCCAAGAGGAGAAGGGATTTGACAATGGTCTGATTAATTGAATCAGTGGTTTGGGGGAGTGGGCTGTCTGTATTGATCC
AATTAAATAGATAATTGTCAGAATCGAGGTCATGTCTATAAGACACCACCATTTCAAAGCCAAAGAGATTGTTTCAAACATATCATGCTCACCCCAATCA
ATGTGGGCCGCCTCCTCCACATGAAATCAACCAGAAAGTGATTGATTCTGCAGAGCCATAAACCAGGGTCTTTCCTATTTTCGGCAAGTGGTTCTGTGCT
AAATACAGTGCTTTGAAATTTTTGTTCCCCATAGACCCAAGGATGATGATTCATTATGCAAATAATGGGGATAGAAATATACAAATTGAATGTTAGGGCT
GGGCGTGGTGGCTCACCCATGTAATCCCAACACTTTGGGAGGATAAGGTGGGCGGATCGCTTGAGCTCAGGAGTTGGAGACAAGCCTGGGCAACATGGCA
AAACCCCATCTCTACAAAAAATTTTAAAAATTTAGCCGGGCAGGCATGGTGGCTCATGCCTGTAGTTTCAGCTATTCCGGAAGCTGAGGTAAGGAGGATC
GCTTGAACCTAGGAGGCAGAGGTTGCTGTGAGGCAAGATCACACCACTGCCTTCTAGCCTGGGCAGCAGAGTGCGACCTTGTCTCAAAAAAAAAAAAAAA
AAAAAAAAAAAAAGAAAAAGAAAAAAAAAGTTGGAATGACATCAGACTCAAAATGTGTCACTTCGCAGTGGGGATGCAATTCTGAGAAATGCATGGTTAG
GTGGTTTCATCATTGTGGAACATCATGGAGTGCACGTACACAAACCTAGATGGTGCCGTCTACTACACACACACTTAGGCTGTATGGTCTAGCCTCTTGG
TCTTAGCCTACAAAGCTATGCAACGTGTGATTGGGCTGCGTACTGTAGGCAGTTGTAACAGTGGTATGTGTATATCTCAACATATCTAAACATAGAAATA
GTACAGTAAAAATATGATATTATAATCTTTGGGACMGCCATCATATATGYAGTCTGTCATTGACTGAAAGTTGTCATGTAGCCCATGACTGTCGTCTCTT
TTAGGGGAAAAAACAAAAGCAGAAAGCAAGCAAGCTGGTATCCTGCGTATCTGTGAGCTCAGGAAGCAGCTGCATGTGCATACTGGATAAGCAAGGGAGA
CTCCAACCCCGGGCTCTCTAAGGGTGTAATTGTTGCAGGCACACTGAGGGGCAGACCTCTGGGTCTTGGTTAGTGGTCCAGAGAGGGAAGAGAGCAAAGG
TAGAAGGCTTGAGTTTAATTTCTGCATCAGACTCAAAACCCAGCTAATCTTTTCTAGCTGGTCATTTCAACCTAGCTGGTGATTTCAGGCTAGTTAAGCA
ACCCCTCGGATCCTCAATGTTCTTTTCCCTCTAATGGGGGTAAATATACTTAATTCACTGGGTGACTGCATCCATACCAAGCACACAGCCGTGATCAGTT
AGCCTCTCACTTCTCTACTAATCCCCACTGTGGGGAAGAGCTCATCAYTAACATGCCTTATCTGACATGTGGCAATAACTTCTGCCTTTCTTATGTCATC
TGCATGGTTGCAGTGGATAGTCACTGGACAATTGATGAACAMCTACTACATGCTARATCTCTCCCTGGGGAGAGTGCTTGTCTTTGAAACAGTCAAAGGA
GGAAGGAAGAAAAGAGAGGCAGAACAATTATAATAAAGCAACTTAACCCATTGAGAGACATAAGGATGCTGCAAGGCGCAGTGCTGGATGGAGAGGACAG
TGCCTGGGGCAGTCATGGAAGACTTCTTAGGGAGGTGACTTTTTAAGGGGTTTTGTGATCAAAACTATGGAGTCTTAAGTCCAACCAGTGGTTATGAATT
CCGGCTCTGCCACTTGCTATAATAGCTGTATCACCATGAGCGATAACTTAACCTCTTTGTGSCTCAGTTTCTTCATATATAAAATGGGGATCATGATAGT
CTCTGTCCCAGGGGAGTTAGGAGGATTAAATGCAACAGTAATCCAACCACAGTATGAAAAGACAGGCTAGCACATACAACACAATCTATAAATGTTTGCT
ATTATTGTCATCCTTTTTATTAGTATATCATGGTACAAGTTTGCTGGGTAGAAAGATGGCGATGGGGAAGGGGACATTTCAGGCCAATGTGATAATAAAA
TCAACAGACAAAAGAAGGGAGAGTGTGGTGAGTAGGATAAAGCTCTGTACAGATGCAAGGGGAAGGGTGTTGATGTCAACACGCATGCAGCTTCCCACAC
GTCGTGTGGATTCTTTTCTGTGCTCTCCATTACGGAATCTCCCTGAAAATAAGTGGTCACTTTGAGGTTTGATGGTTTAATTCTACCACAAAAGTATAAA
AAGCAGGCAGCCTGCTGTTTATAGATTTTTTTTTAAGTGAGGGAGTATGTTAATGAGCTTAGATTGTCAGGGAGCTAAGGGGATTCTTGACATCAAATTG
TGGGTAGCTAAATAGGTCACCCCAAGTTATTCAGCATGGGTGGAAGACCAAGAGGATACACAAGCTTCAAAAAGTTTTCAGGGAGAGCAAGAGATGTTCA
TTTACCTCATTCAAAATGGAATCTTTAATGCTAGTCCAGTGCTTGGCCAGTACAAGGCCATTATATATTTGTTGAATGAATGAATTCGTGAATATGTTTA
TAAAGACAAGGAAACGCCATTCTGCAAATCTACRTGCAGTAAAATAGTTTTTCAGTCACTTTGCCTTCATTTGTTTGACATTCTTGGAATATTTGGGCTC
TACAAGGTGCTAGGGTAAGGCACGCAGGATGCAAGRTTAGCGAGATATTGTCTCTACTCTCAAGAAACTCGCTTTCTTTGGGAATCATCACCTGTTTTTG
TGTCAYGGACCCCTTGGGCATTTGGTGCCCTTTGCASAATAATGGTTTTGAATACATAAAACGCACGGGATCACAGAGGAAACCAATCATATTAAAATAC
AGTTGTCAAAATATTAACTCATGGGATCTAGTAACAAATGTTCTTCCTTCTTAACCCATTAAAGAACACAGCTCATGGTCGGTCCATTAACTACTAATTA
TCAAAACAGTGGGTGAAAACGATGTTTGGAAATAGCTGCGACTCTCGCGTGATASGAAAATATCTGTGATTTCGATTGCGACAAACACACAGATGCTTCT
CACACGATCGCAGTGCATTGCCTAAATGACAGTAATGCTAAACTCCAGTCAGATGTTAGTGAAAAATAAAGATGTAACATTTTGGCCATCTGTGTACACC
CCCTCTTTCTAGGGTTCCAGCCACAGACCCTCAGATTAAGGAGTCTGCACTAGCTTGTAGCTTGTTCAATCACACATACACACAAAAAGTGCCAGTTATA
AAGGAGCAGGAGGTTTTCTGGAGCCAGGATGAGCTGGGACCAACACCAGCAACTGTATCACCCAGTTCACTGAGAGTTAAAATCACCCATGTGACGTTCT
CTCTGCAGGCACATAGTAAGTGCTGGATAAATGATAGGGATTGATATTGACCAGCTTTGACACATGAATAGGAGAGGGTTAGGCAAAGACAAAGAGAGAT
GGGGATGCCAAGTACCCTCTGGGCAGAGGAAACCATGAGTGCAGAGGCACGTAGGCCTGAAACAGGCCAGAAAGCACCAAGCAATTTGCTTTTGCTGGTG
AAGGAGGTATAAAAGGTAGAGTTGCAAAGACTGGGGATGGAGCTTTAGGCTGGGATCAGCGCCCAATGGGCTGGGATGACAAGTGCTTGGGGCACATTGG
CAGCTGCGAAAAGCTCGCTCTGATGCCTGTGTGGGGACAGATTTTGGGGGCAAGAGGACTCTCCAGCAATCTGTGGCAAAAAAAAAAAAAAAAAAAAAAG
TCCCGCTTGTTATCAAGCCTACTGGCTTATCTGTTATTTCTTGGACATGCCCCAGTCGCTAGTAAATAAAGCTGTCTACTTTACATTTTGTCTCTGTGCC
CTTTTACAGCCTTTTCTCGGAGGAGCTGAGTCCCATTATATTCCGAAAGCATATGTTCCCGATGATTGCTCATTCTCTTTCCAATAATATCTTTGCAGGA
CAAAGAGGAATGGGGAAGGGAACATACTTTTAGGATGTCAGTCCCAGTTTTAATTACAAGTGTTCCTGGTTGTGGCATTCATGTAATTGGGGGCTGATTT
ATGCCAAATGATATGCACTGATGTAAGGGGCTGGAGCCCAAGAGGGAGGGGAGGCCAAGAAGAGGCAGTGGCCCCCCACCAAGCCCGGAACTGAGGTGGC
ACATGTCAGCGGCTTTGCTCAGAAGCACCCAGGGATGATGGAAAAGGCAACCGAAAGGGCTCAGCTTCTGCAGATAGAGTCTGTGCTTTGCRCTTTCTGG
CTTTGTGACCTTTCTGCAGGTTACTTCTCTCCCCTGAGCATCAGTTTACTCAGCTGAAAAATGCATCTGCTAATAATACCTATGGCATAGGGTTTGGGGA
GGATTAAATAAGATAATGTAAATAGAGTTTAGCRTGGTACTGTGTATATAGCCAGCACTCACTGCTGTTGGCTTATTGAAAAAAMAAAAATAATACCTAC
AATAACCACAATATAGCAACAGCAATCATGTTCAAGTCTGTATTTGGTTTAAGGAGGGGGAATGTGACCCGGGGGCTCTGTCATTAGATATATGCACACA
CTTGACCTAATGGAAAGCTTGAAAGCAATTGGATGGGAAAACAGTCCATCTTGTTGGAAGGCTGTCAAGCTGTGTAATAMAAGAATTACTGTTCTCCCTT
TGCATTTATGCATTGCATGTCTCTGTTGAATTCAGAGTGCTTTATAGACCTCTGATCAGCTTCCAGCATCCTCTTGGTATGAGTTCTAGGGGGAGATGAG
GAATGTGCCTAATTCCCTTGAGTGATTTACTTGGTGTTACCCTGGAGTTGTGAGGACAAAAGGATGGGGCTGACTGAGACTGGGGATGTTCATCACAAAG
TGTTCAGGTTACATCCAGGCTGATTACTGGCCAGGAGACTAGGCATTCATAGTGGGGCGTCCTTTAAGGTCTGAAGAGGACAGTGACCATCCACCACAGG
CAAACATGTGTGTGTTAAAAAGGAATGRCGTTTTGGTCTGTGCTACAACTGGGATGAACCTCAAACATTACGCTGGACGTGGTGGCTTACACCTGTAATC
CCAGCACTTTGGGAGGCTGAGGCAGGTAGATCACCTGAGGTCTCAGAAGTTCGAGACCAGCCTGGCTGGTGGTGATACCCCATCTCTACTAAAATATGGT
GATACCCCATCTCTACTAAAAATACAAAAAAAAAAAAAAATTAGCCAGACATGGTGGTGCAGGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAG
AATCACTTAAAGTCAGGAGGCAGAGGTTGCAGTGAGACAAGATTGTGCCACTGCACTCCAGCCTGGATGACAGCAAGACTCCATCTCAAAAAACAAACAA
ACAAAAAAAACATTATATTAAGTGAAAGAAACCAGATGCAAAAGATGACCTAACATGTGAATCTGTGTATACAAAGTACCTAGAATAGGCACCTCCAAAG
AGACAGAAAGCAAGCTAGTGATTGCAGGGGGCTGGGAAAGAGGGGACTAGAGAATGACTGCTAAAGCATTCAAGGTTTCTTTTGGGGTTGGTTAAATGGT
CTAGAATTAGATCGTGTTGATGGTTGTACAACCTTGTAAATATACTAAAAACCACTGAACTGTACACTTTAAGTGGGTGAATTTTATTTTATGTCTTATT
TATTTATTCTTTTAGGGACAGGGCCTTACGCTGCTGCGTAGGTTGTGGTGCAGTGGCACAGTCACAGCTCACTGCAGCCTCAAACTCCTAAGGTGAASAG
ACCCTCCCACCTTAGCCTCCTCAGTAGCTGAGACTACAGGTGCGTGCTACCGTGCCCAGCTGATTTTTAAATTTTTTTTTCTTTGTTTTGAGACGGAGTT
TTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCTATCTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGT
AGCTGGGACTACAGGCACCCACCACCATGCCTGGCTAATTTTTTGTATTTTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTTCATCTC
CTGACCTCGCGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCAYGCCTGGCCCTGATTTTTAAATTTTTCATGGAGACAG
GGTCTCACCTTGTTTTCCAAGCTGATCTCAAAATCCTGGCCTCAAGCAATCCTCTCCTCTGCCTCAGAAAGTGCTGGGATTACAGGCGTGAGCCACCACA
CCTGGCCGCTGGAAATACATTTCTAAAGAGGAATGGGAGTCAGGCTGGTGAAGAAACACGTGAGTGTGGGATGAGGATGGGGACACAGAGTGATGTGAGG
CCTACACAACAGGAGTTCAATCCTAGGACCTGAGCTGATGTAAATGAAGCACCGCCAGGCCCAGTTGGGGAGGACCTTGTGTTCCTGCTGGAGAGTGAGA
GTCCCTCCCTCCCCATTCCACTCCCAAGAGCAGTGAAGAGYCAGGAAGGTGGGCTTGTTTTGTTTTGTTWTGTTTTGTTTTGCTTGTTGAGCAAGGGAAT
GCGGTTCCCCTGTGTCGGACTTGTTTCAGAAAGACAATGTCACTGAGGCTGGGGCAGGGAGATTAGSTGAGAGGCTCTTGCAGTTATCTGGGAAGGAGCT
GTCCATAAAGGCCTGAGTTAAGACAGTAGCCCTTTGGGTTCGATTTAGTGGTGGCTCCCCAAAAGATATGTTCACTGGAACCTAGACATTTGAGAAAAAG
GGTCTTTGCAGATAAGTTCAGTTGAGGATCTCAAAACGAGGTCATCTTGGGTGGACCCTAAATCCAATGACAGGTGTTTTCAGCAGAGACAGAAGTGAAG
AAGGCACAGAAGAGAAGGCGGTGTGAAGGTAGAGACTGAGATCGGAGTGATTCCCCCACAAGCCAGGGAGCACTGAGGGCTGCTGGCACCCCCAGATACC
AGGAGAGGGGCACAAATAGGTTCTCCTCAGAGCCCCCAGAAGGAACTAAGCCTTCTCACACCTAGACTTTAGACTTCTGGCCTCCAGAATACTAAGAAAA
TAAATTTCTATTGTTTTAAGCTACCACACAGATGCAGGAAACTAATATACCCTTTAATGATTTTCTCCATGGCCTTTCTGATAATCCTTTCATCCTTCAT
CTCCCCTGTYGCCSTTTTCTTTGCTTTGCTTGCTTGCTTGTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGTCGCCTAGGCTGGAGTGCAACGGC
ACAATCTTGGTTCACTGCAGCCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCACCCTCCCGAGTAGCTGGGATAATAGGTGCCTATCACCACGCCG
AGCTAATGTTTTTGGATTTTTAGTAGAGATGGGTTTTMGCCATGTTGTGCAGGCTGGTCTCAAATTCCTGGTCCCAGGCGATCTGCCTGTCTTGGCCTCC
CAAAATGCTGGGATTACAGGCATGAGTCCCCATGCCCAGCCCCTGTTGCCCTTTTCAAAACACTAAGTGCATCATGTTAACCTTCCACTCGCTTCTTTAA
GTTTCCTCACTCCTTTTAGGTGAACAACCCAAACCCTCATATGCCCTAGAGGCCCTTTTCAGCCCTGTTGACACTTCCCTTCTCTGTGCTTTAGTCACCC
TACCCTCGGTCAACTCCTAACTCCTGCCTGCCACAGGGCCTTTGCACATCCTCTGCCGGGGAGGCTCTCCCTTCACCTTCATTAGGTTATCAGATCTCAG
CTCACACATCACATCTTCTGAGATACCTTCCAGACTCCCCTGGCCACGGTCACTTCCTTTGCTGTGGACTCTCTGGGAACTGTGTCCCCTTCCTTCTCAC
ATCAGCTTGCAGTTCTGTACTTGTTCATGTGATCATTGATCAGGGTCCATTTTCTGCTCCAGACAATGATCTCTATCTAGAAAGAATCATGCCTGCTTTT
CTGCACTCTCCTGCCTCTAGGGGAGAGAACACAGAGCCTGGCATGTGGTAGACTCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCCCTCTGTCGCC
TAGGCTGCAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCACACCATTTTCCTGCCTCAGCSTCCCAAGTAGCTGGGAGTACA
GGCGACTGCCACCACGCCCGGCTAATTTTTTTTTTTTTTTTTTTGGTATTTTTAATAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCC
TGACCTTGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCTGGGCGGCACGTGGTAGACTCTTAATGAATTTTT
GCTGAATACTGAGTAAATAAAGAAAAGTTAACACAGTGGAGTCCAGGTACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCAAGGCAGGAGRA
TCACGTGAGCCCAGCAGTTCAAGACCAGCCTTGGCAACATGGTGAGACCCCATCTCTACAAAAAATAAAATAATTAGCTGGGCATGGTGGTACATGCCTG
TAGTCCCAGCTACTCAGGAGGCTGAAGTGGGATAATCAGCTGAGCTGGGGAGGTTGAGGCTGCAGTGGGCTGTGATCATGCCACTGCACTTCAGCCTGGG
TGACAGAGAAAGACTCCATCTCAAAAAAAAAAAAAAAGGTAGAGATGGTGGAGTGGTGACATTTGGTAGATAATATAGCTCTGCAGAAMTTTTCATTGCA
AAATGAAAATTCTTCATTGTTATTATAATTACTTCAAGGAGCAAGGCCATTTTGTGTAAGCTATCCTGGGCCTCCCTGCCTCCCATTTTACACCCTGTTT
ATTGATASTAAGAAGAGCCTCCAACTGAATAAGAACTAATGACTTCTGCCTGCCATCATTTTGGAATGTCCAATTCCCCRTTCTGGAGAGCCTTTGATTA
TAACATCAGCCTGTCATTTGGACCTCTGACCTGAATTATATGAATCTGAAAAATCTCTTCCTTTCCTATCGTGARTTCGGTCATTGTTATAAGCCAAGCT
TTGCAAAGGTGGAACACCTTGGAGATACTTATCTCCTCCTTACTCTMCCCAAGTAATGACTCATCCTTTTATACAGAATGTCTCTTTTTTGATTTAGATG
TCTTTTTTTGATATAGATGTCTCTTGATATAGAAGCATTTCTCGGGATGGTTTTTGTGGTTGCCTAGTGTCTTCTAAAGACCCCTGAACATAGCATAGAA
ACAGCACGTGTCTTAGGCTTGGAATGAGATAATGTCTCAGTGTTTGAGTAGAATTAGGGAGTTTGCTTTATTTTCCTTTGTTTTTCTTTTTTGTTGTTGT
TTGTTTGTTTTTGAGACGGAGTGTCGCTCTGTCGCCTAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCCAGCTCTGCCTCCTGGGTTCACGCCAT
TCTCCTGCTCTGCCTCCCGAGTAGCTGAGACTACAGGCACCTGCCACGACGCCTGGCTAATTTTTGTATTTTCAGCAGAGACGGGGTTTCACCGTGTTAS
CCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCRCGCCCGRCTGCTTTATTT
TCCTTTGTGTTCCTAATACCTGGCCCAGTGTCTGGCAAATGGAAAGTTCCCCTGGATGTAGTTGGGTGACACTATGAGTGTATCGTTAGGCATGTTCAAA
ATATAGCTAAATTCAGTCCAGACATTCTACCTATGTTTTCACAGAAACATGAGGCAGTGTACAGCGCTTATCTGTGGCATTTGATTAGGACATTTTACTG
AAGAGTTGATAAAAAAGCACAAATTGTAGGCTGCAAATCTATCATTTTTCTTTCCTCCTTCTTCCTCTCCCTCCCTCCCATCCTTTCTTGCTTTCTTCCC
TCCTCTCTCCTTCCTTCCCTCCCTTTCCAGCTTAACTAAAATTTTCTGATACTTTTTTCCTGAATTAGGGTATGTTTTGGGGGGAAAAAACGCTTCAGTG
CGTGTTTCTTTCGACATTACACATAAGCCCCCATGGAAAGCAAATTGAATAAATTTACTCTCTAAACTTCTTTCCACAAGAGTAGGTTTATAATTTATTT
TCTTTACATTATCTGGATAATTACATTTGGTTTGCTTACATAGATGGAGGCGAATGGTTTTCCRATCTTCAAACCAACCTATATCACAAAAGCATTCTGA
AAACTGGGAAGAGATCACTTCACAGTTTCCTGAACCACTAGAAAAAAAAAATGTTCATAAATTTATAGCCGCTGACATTGAAGTTGGAGAAAAGAGCATA
TCTAGYACCTATGCTATGTGGAGAACACTCTCCATGTCTTTGAAAAATAAGCACAATACAAATTATATTTGAGGATGACCTGCCAAAGGGTTGATTATCC
TGGAAACATGTTTTCTCAATGGTCCATTTGGGCAAACAGGCCAGCTGAGGTATCTCAGGATAGCAACAGGATAAGCAGAATCGATTGATGAAGGAGGGAG
CCTACCTCTGGAGGCCCCAGGCTGGGACTTTGGGTACAGATGCACAGGAGACCTTTGCCCCACCCCGTCACGGCTGGGCCTACTCAGTTCCACGTCTTTG
AGKTTTCACGCGGAAACTGGATGTTTCTTACATCCTCAGCTGCAGGCATGGGGAAGAGACGCACATCAGCCATTAAGAAAAAGGTATGCAGTCTACATGC
CTSTTAATTTCCTCCACATACACAGTAAACCCATCATGTCCATCAGCACCATTGTCAAAACATSTGTGCACCAGTAAAGGGTTCTGATGTGTGATAAATT
TATTTAGCTATTACTCATCTGAAGTTATACTATTTTAGGATCTTGGGGCAGTGAGGAYTTTGGAAATGGAACAGGATGCTCCTTTAAGTTAGGGTAAAAT
GAAGTCTATAAAAACTGTTTTTCTATATCCTCCTCCTACCCCACAAAGAAAGTTAGGGTAATATATTCTTATATAAAATTGACATTTTTAACTTTAATGA
GAAATTGCTTGTCCTTTAAACTTTAGGCATTGATGCGCTTAATTATGCTTTTCAACAAGATTTTGCATTTTTAATATTTCCTTTTAGAGCTTCCAGGAAT
CTCAATTATTAATTGTACCSTGGATTTATTGGTCTTTGGACTCTCCCGCTAGTATAAAGACTGTAGATTCATCAAACATTGTTTACTGTCTTCAAACTTC
AACAGTGTTTTAACTATCAAATAGAAAATCGAAAGGAAGCATAAACGCAYATGGTCACTTTACTGGTATAATAGGGGCCAAGAGCCGTTGTGTTTTATAA
TTTCTTGATGATCCTGGTGGTAGGTAAGCCAACCGCTATGAACTCTGATGAGCTCTGGTTTACCCCATAGTCCAAATAAAGAATGGTTTCTGACATTGTA
TGACCAAAAAAAATAGCATCTGCCCAAAAGATGCTATTTATAAAACTGTTACAAATGGAGCTTATTGTTCACCAGAATTTTATGAATAAGTAATGAAGTC
TAATTTTCCGTTATCATAGCCATTGGTTAAAAATGCATGTCTGTTAGGACATTGTAATTATTTTGTATTACTTAGGAAAACTTTTATGATTCTACTCTTT
TAATTTTTTTAATAATTACTTTATGACTTCTTCATTAGGGWTTCTCTCCTCCAGTGCGTACGCAGATCTTCTGAAAAGGAATCTGACAAATTTAGTTGCT
GCATTTTTCTAAATTGCTTTCAAGACTACCCAGCACTTCAGATACTTTTCATGGCCCTTTTTTCCCAAAGTGTTCTCCAGGATGCCTTTTGATCTGCACG
GGCAATCCCATTAGCAGTGATGGCTTAAGGTTCCCACAGAAACTCTGCCACAGAGGCACTGACACCAGACCAGGCGTGATCCCTAACAGCTTGCTGTACC
GACTCATATGAGGGCTGTCTTGGTCCGTCTCATTTAAGGTTTGGCTTCTCCAAAGATTAGACACCCTTGTTTTCGTTCAACCTTTGTTTGGCTTTGAAGC
ATCATGCACTTGGGTCTTGAAATCTTGGGCTCACCGCTGCTTGTACCAGTATCTTCTACCCTCCGGTTGTTTGTGGCCATTATCAAACAAACACCATGCC
AACTAGGTGTAAATGCAGACTGATATTCTGAAGAATCCAGGAAGGGCTGGGCATGGTGCCTCATTCCTGTAATTCTAGCACTTTGGGAGGCTGAGGCAGG
AGGATCGCTTGAGCCCAGGAGCTTAAGACCAGCTTAGGGAACATAGTGAGACCCCTGTCTCTACAAAAAGTAAAAAATAAAATAAATTGGCTGGGTATGG
TGGCACATGCCTGTAGTCCCACCCACTCGAGAGGCTGTGATGGGAGAATCACCCGAGGCTGGGGAGGTTGAGGCCGCAGTGAGCCGAGATCGAGTCACTG
CACTCCAGCCTGGACAACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAATCCAGTAGGAAACTATATAAACACTAGGGTTGCTTTAAAATGTCAAG
GCCAACTCTTATGATATGCGGAAGCCTTCGCCCCCTTCTTGAGGGTGTTTAGGGATTAGATGAGTGTCCCATCTGGGTTTCCCATCCCTGCAGAGCCCAC
GTGTGGGGTGCTGAGRGGTACGTGGTGGGTGACTCCCTGGGGAGCACTGTTTGGTACTGATCACTGTCCCATCCTGGCACTGCAGTCCTGGGACAGTCTA
CACAGCTCCTGCCTCCTTCTTTTCTTCAGGATTATCTCGAGTTGGTTTGCAAAGTGAAACGCATTAGACATCTTCAAGTGGGCTGAAGAAAGGGACTCAA
TTTTTGTGGGTCCATGTTAATGTAATTCTTATGAATTTGAGATAAAGTGGTCATTAAAGCCTAGAAGGAAGGGAAAAGCTACACCCCCCTGTGGATGTGT
ATGCTAAACTTGATTGATCTGGGCATATGTGGAATTTTTACCTTTGTTTTGTCTTTATTTATTTTTAAAATTGAGGTAAATTTACTTAATTTAAAATTTA
TCATTTAATACCATCTTTTTTGAATGGTTAAATAGTGGATGTATTTTTTCTAGTTTTTTTGTTTTGCTTAATAGGCTCTCTCTCTGTCTCTTTCTTTCTA
TATATATATATAATATATAGAAAGATATRTAATCTATATATTGATATCTATATAATATATATAATCTATATATGATATATATATCTTATTATATATTATA
TATATAGATAGATATCTATATACAGATATCTRTATACAGATATCTATATATATAGATATCTATATATATAGATATCTGTATACAGATATCTGTATATATA
TATAGAAAGAGAGGGAACTGAACGGGATGCTTTTTATTTTGGGCTGTTATTAGGTAGACTCTCCTGGGACATTCTACACAGCTCCTGCCTCCTTCTGTAT
GTAAYATATATATTATATATATATAAAATATATATTAKGTATAGATAATTTATATATAAATATGTGTATATATATATTTGTTAGGGTAAAACAAAGTCTA
TAAAAACTGTTTTCCTTTGTCATTGCCCCCACCAAATATTTATATATATGTRTATACACATATGTATATATGTATGTATAGAGAGTCTATTATATATATT
ACATATACATAATATATACATAATATATAATAGACTCTATAATATAGACTCTAATATGTAGTCTATATATTATATTATAATGTATGTAATATATAATATA
TTCTATGTAATATATAATATATTCTATGTAATATATATTAATATGTAGGGAATATGTTACATATTATGTTGAGAGTGTATATRTTATATATGGGTTTCTA
TATATTATAATAAACCCATATATAATATACATAATAGACTATACACATATACAGCTAATATATATACACAATAGTCTAGTATATATTATACATGTAATAT
ACTTTCCATACATACATATATAATTTGGGGGGCAAAAACATATATATAATGAATATAATTATATAATTCATATAATATATGTAATAGAGCGTGTATATTA
TTTACATATGTATATATATATATATACACACACACACACACATTTCAACTTTCTTGAACTCCTGAACCAGCCTTAGATTGCCTAGTACCAGGGTTCTTCT
TTTTTTAAAAAATTTATATTTTATTTTAAGTTCAGGGGTCCATGTGCAGGTTTGTTATATAGGTAAACTGGCGTGATGGGGGTTTGTTGTACAGATGATT
TCATCACCCAGGTATTAAGCMTAGTGCCCATTAGTTATTTTTCCTGCTCTTCTCCCTCCTGCCACCCTCCACCCTTTGGTAGGCCCCAGTGTCTTTTGTT
CCCCTCTTTGTGTCTATGTGCTCTCATCATTTAGTTCCCACTTATAAGTGAGAACATATGGTATTTGCATTTTCTGTTATTGAATTAATTTGCTAAGGAT
AATGGCCTCCAGCTCCATCCATGTTCCTGCAAAGGACATGATCTCATTATTTTTTAAGGCTGCATAGTATTCCACGGTGTAGATGTAATATATATATAAT
ATATATATAAAATATATATTATGTATAGATAATTTATATATAAATATGTGTATATATATATTTGTTAGGGTAAAACAAAGTCTATAAAAACTGTTTTCCT
TTGTTATTGCCCCCACCAAATATTTATATATATATACACACCTATGTATATATGTATGTATAGAGAGTCTATTATATATATTACATATACATAATATATA
CATAATATATAATAGACTCTATAATATAGACTCTAATAATTATTTTTTAAGGCTGCATAGTATTCCATGGTGTAGATGTACCACATTTTCTTTATCCAGA
ATAAACTATTTTTTATACTGGTTTTAGGCTCACAGCAAAATCGAGTGGAAGGTACAGGGATTTTCCAGATTTCCCCTGGCCCTCACTACCACATGCGTAG
CCACCCCTTTATCAACATCATGTTAACTATTTTAAAGTGGACAGTTGAGTGGCTTTAAGGGCATTCATATTGTTGTGCTAACATCATGACCATCCATCTC
CAGAATGATTTTCATCGTGCAAAACTGAAACGCTGTACCCACAGAACACTGGCTCCTCATCACCTCCCCAAGCCCAGCCCCTGGCARCCACCATTCTCCC
CTACTTTGTCTATGAATTCGACTACTCTTGGTACCTYATATAAGTGGAATCACACAGTGTGTGATGTGTTCTTTTGTGGCTGACTTMTTTATGATACTGG
ATTCTCAGCATCATGGGAGTTAGGACTGTCTGTCGCACCATCAAACAGGCATAGCTGGCTGGCTAGACCATGTCACAGGGATGTTGGAACTGGGTGGCAC
TGACTGGCCCAGCCAAGGGGTCAYGCAGGGGACTCCTGATTCATTCCTGGGGAAAGTAGTTATGTCAGGAAGCACAGGCTATGGCTCACGGCTGTGGCTG
TGCCCACGTGGTCTGTGTGGGCTGGTGGTAATGGGCCAGGGAACTGAATGGGATGCCTTTTATTATGCACTCTTGACATTTTTTATATTAATCTGTTTTC
TTCTCCATCTATAACATTTCCCACATGCTACACTGAAGGGATATTTTAAGCATTAATTCTCCTAAAAAGCCTCATGCCCAATGTAAAAATAGTTCACTGT
CTCAGAAAAAGGCACTCTCTATAAATGAAAAGCACCATTATTAGTAATGTCAATAACTTTCCTGACATCCATTTGGGCATTGTATATGTTTTGATAGGAT
TACATAAATAATGAAATTGTATGCAAAGCATCAGAATGCAAAAGGTGTTTTCTCCAAGGTGTAYACACTGCCTGGGCCTTGTACTCTGGCCCTCAATTTT
CTTAAACAGCTGCATCTTTTGGGGGCTCTGTTAAGACATGCTACTGTCTTTAGTATTTTGCCCCCTCACCGAATGATCAGGAGACTGGCTTCCCCAATGC
CCTGGGCTTAATTCCCAGATATTTATTCTGTTGTGGAGTGATTATCTGTTCCTGGATTGTCTCAAAGGCATTAATCTTTTTGGTATCCAACATCTTGAAT
GCTTCTGTGTCATTTTCCTTTCTTTTTTTTTTTCAAAGCACTTAATTATTTAAAAACAAAAATMCTTCTCTGATCAGAGCATACCTGCCGTGCTCAAAGC
ACTTGCTTACTTGGAATGCCATAAATTACATGAAGGAATTATTCATTGTATCACGAAACATACCTTCCAGTCTCCCGAGTAGTSTATTAGGCTAAGTATG
GTCTTTTAAATTATTACTTTAAAAATAAAAGATAATGGAATTATAGCATTAARTACATTTTGCAAATGATCTTCTAGTAGGATTATTGAAAGACAGTAAA
GGCAAGTATAAATCAGAAGCAAAATCATTGTCCTCTAATTCATTAATGGTTAATAATATTGCTGACTCTTTTAACTTGTCAACATTTCCTACATTCAACA
TTGTACTCTAATATCCAGTAAAGTGAAACAAACAAACAAATAAATACACTTTTTTCAAGAAAAAATAAATATCTGTGATCTCATCRTTTGACCGTCAGTA
TTTTCATTTTTGCATGTGCCACTTTAATTTCCCTAGGCAACACTAGCTAGTGGCCCACAATAAGACGTAGAAAACAAGACCACGTACCTTCCAGAATCAT
TGGCCCTGGCTCTACTCCTGGAAACCCAGTCCATCTCTAATCCCTTTGATTTCCAATGGGAGGCAAATCCAGGGGAGTTCTAGACTGTCKAGAATATTGT
ACCAAGAACAAAAGGCCAACCCCATTAGACAGTGGCCAAGGGAGGTGAACTAAAGTTGGTGCTGTGAACAGGGCTAATGGTTTGTGATTTACCCATAAGT
GGAAGGTRTACTCCGGCTGCTCCTTTAATATTTTATGATTAGCAGTAGAGGTGTGTCTGGGGGAAAGAGTCAGCTTATTTTATTTATTTATTAATTTTTT
GAGATGGAGTCTCACTCTATCATCCAGGCTGGAGTGTGGTAGGTGGGATCTTGGCTCACTGCAACCTCGTCTCCCGGGTTCAAGTGATTCTCCTGCCTCA
GCCTCCCAAGTAGCTGGGAGTACAAGTGTGCACCACCATGCCTGGCTAATGTTTGTATTTTTAGTAGGGACGGGGTTTCGCCATGTTGGCCAGGCTGGTG
TCAAACTCCTGAYCTCAGGTGTWCCAAGAACAAAAGGCCAACCCCATTAGACGGTGGCCAAGTTGGTGCTGTGAACAGGGATCCTGCCTCTGCCTCCCAA
AGTGATGGGATTACAGGCGTGAGCCACTACACCCAGCCAAGAATTCAGCTTCTTAAAGGAGCTGCCTCAGACTGTCTCAAGATCTTAGAAGGCCATGCCT
ACATTGCCACCAGCATCCCTTGGCTTTTTGCTTGGCTTAAGAATCTRTCTTTTCCGTTCCTCCTTCCAGCATACTCAGCACAGTCCACCTCTGTGGTCTC
TCTGTGGTTTTCTTTCTGTTTTCCTGCTCTCTCCATTTCTCATTCACCACACCCTGGGCTATCTTTCACTCTCTATGAAATACCTTGGATTTAGGAATTG
GAGATTTCCTTGGGTCAGGTTTCACCCTCTTCAAGTAGCGTCTCAAACAGTATACCCACTACAGCTTTCTCCCCASTCTGTCAACCATGCCATGGGGCCT
ACTTTTTGCCCTGACTCCCACCAGATAATGCCCATCAGATGGCACCTCTTTTGGCTGAAAAATCGAAAACTCATCACTCTTCCTGCATTCATTAGACAGT
ACCCTTTATGTTCAACTTTGTAATTTAAGTCCCATTCTTGCCTCATAGAATTATTGCCCGTTGACCTCCATATAAGTATCTGCATTTGCTGCATCATTCA
TGACATGTGAGGCCTTTGACAAACCCTCCTATGGTGCAGCTTCCTCCGAGCAGSTCCTAAGGAAGTGCCAGAGTCAGGGCTTTCCTCTGCCTGAATTATC
GGAGCTCTTGGCTTAATGTGGGAGAAGAGATGAATGATCTGTCCTTCTATGAAAGGCTTACCAACTCCATTCAATTCACAGTGGCTCTCTGAAGCTCTGT
TTTTGGAAGGACTGTGAGGCTGTACCTGCACTTGATTGAACGAGTGCTGGGATTGATTAGTGATGTCTGCAGTGAGCGAAGGATTGGGAAGAGTAAACAG
GCATGCTGCATATCTGTCATCATGGCTCTGAGTGTATCCTGTTTCAGAAGAGATGAACTGTGCTGTAGAGATGTTAGCATCAGGTATTTTAGACACATGA
AGAGAGGATCAGATTCAGTGGAAGTGCCAAAGGGATTCTTTCAGATGGGCAATAAGTGGTTCTGAAGATACGTATTTCTCAGTGTGTTATCTTGGCTCCA
TTTAGCCACACAAAAGGAATATGGGTATAGTGATGGGTCTCTCATGGCTCACGTATTAACTGTATTTGTTGTTACTGCTTCTCAGGCACTCTGTTAAGAA
TGCAGGGCTCTTCCTCAGACTCAGSGCGGGGCCTGGGCTTTACAGCAATGGTTTTCAGTTTGTAATCTCTCTCAAGGAAGGGAGAGGAGCACAAAGCTGC
CTTGACTGCCAGCACCATCAGAAAAGTGACAGCAGTCTTGGCCCTGTAATTGCCAACAGTAATTCATTTGTTCGTTCTCTCTCTCTCGCTCCTGCTCCTG
ACTCTGGGGGATGCTTCTTTTCCTACCCTGCCTGGAAAGTGCTGGGGCATGGGTGAAACCAGAATGGTTTTGATTCTCAAGTCTTTTTGTAGAGAGGAAG
AATGGATATTCCTAGGGTCAGTTGATTGAGGGTGTGTTGGGGGAATGTGATTATCGATGATGCTGTATGCTGGGTACTAGACTGGGGGTTCGTTACATCA
AGTTGTGGGGTCTGTGGAAAGGAAGTTGTCATAGGAGTCTAGGACTCAGCAGCTGTCACCTTCCCAAAGTCACACTGCTGATGAGTGACAGAGACCACAT
TTAAATCTGTGTGTTTACAAGGTCTACAACTGCAYCCTGCTACCTCCCAGAAGCTGAGGCAGGATGGGCAGGTTGCCACACCCTCCCAACCTCCTGCAAC
CTTAGTTGTTAGTGAAAGGTTATTAAATAGGCCTCACAATCGCAAGCCAGGTAAATATGTCATTGGAGAGGTTGGTTTTGTTTGCATTTCTGGTGAAGTT
GAGTTGTTTTTATCCCCTACAAGGTCATCTAGACATTTTTATCCCCAAGGTCAGGAGATCTTTCTGCCAGAGGTCAGCATTCCATCCAGCTCCTGCCTGC
TCTCTGGGTGGCCGACTGTGCCAGTAGAAATGCCAGCTGCAGCCAAAGGACAGGCTTTCCATCCGAGAAAAGCACTCACACTCGCATTTCTTTTCTGGTT
CTGTTCCTCCCCTACATAACCAGAAAAAGCTCGTTAACACATGATGGCAACCAGGCTCCAATATCTGCCAGTTCCCCTGTACAGATTCCTCTTTAGCATT
CTCTCGGCTTCCCTCCTCAACAATTAATTCAGATGAGCMGTTGGGAGAGTGCAGGATCCAGTTCAAAAGGATCTGTCCCCCCGTGAACCCCAGGACAGGG
TGAGAGGCCACCTGCACACTTTTTTTTTGTCASCTCACACCCTGTTGGCCCTTTGCAAATATTTGTCTTTCCTCATGCACGTGKTTATTCCCAGAAAGAT
CCAGTGAATTGTCTCCTGAAGAWAAAATACATAAAAGGGCGTTTCAAAGTATAAACAGTGATTTTAATGAAAAATAAGAAGAAAATGCTTATGATACAAC
ATTAGGTGGAAAACGAAGGAAGAAAAATTCTGTGAGTCTAATTATGGAAAAAATTACTAAGATATGTTTTAACATGCCCTAGACATGCACAGAAAAAAAA
GACTGGAAGGAAATTTATTGAGATGTTATTGTTTATGAGTGTTCTAATTATGATTTTTAACAATATATTATCAGAGTTTTCTGACAAAGAATTAACTTTT
TATTTTTTTTGAGACAGAGTTTCTCTCTTGTCACACAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTGCAATGTCTGCCTCCCAGATTCAAGCAATT
TTCCTGCCTCAGGCTCCCAAGTAGCTGGGATTRCAGGCACCCACCACCACACCCAACTAATTTTTGTGTTTTTAGTAGAGACAGGGTTTCACCATATTGG
CCAGACTGCTCTTGAATTCCTAACTTCAGGTGACCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACTGTGCCCAGCCTAGRAAT
AACTTTTAAATCAGAAAAATACATTTTTTAAAAAGATGTAAAGCATACATAGAGGATAACTTACAAATCTGCATTTCATGACCACATATATCTATTGAGT
TGCCCCTAGGATCATTTTTTTCAAAGCTAATGTCTGCCACAAATGGGAGTTTTAATAGGTTATAATTCATATGACTTAGTGTTAAACCTCTACGTTGGKA
TTCTTAAATTTAACATGGATAAACTGAACTTGATTTCCTGCATTAAAAAAAATTAAAGAAATGAAAGTTCTGACTGTTTTATTGTAGCTGGGGAATTCTT
TTTGCAGGTGAYGCTCATGTTACGGTTTTGAACCCAGGACTTTGCGTTGCAGTTTTGTTCAGGGGTTGCAGAATACCGATCTGACTTTGCAGGAATGACT
GTCTTGGTGCATAAGCCATTAACCTCTCTGCGCCCTTGGATTGCCTCCTCTCCTGCCAGCAGAAGCCAAGTCACCTCATCTGTAAGGGAGTTTCATTGAG
GACTAAGTGGGACCAGGCCGAAAACGACCCCCTTCCCCCATAGGAAGTCACAGAACAGCCAAGCCCTGGAACAGGAGGAGCAGCTTCCTCCTGGGCACAG
CTGTGCAGAACCAGAGGCGACGCATTTGCCCATCGTAAAGGCTGATTAGAAACAGTTGGGTCCCAAGCAGAATCCTTTTGCCCATGACTGTGTCCATGGT
CGAGGTGTCCATTGTCACTGTTGCCAGATGCCAGCACTGGCGAGGGTTTTGCCTTCCTACCGTAGGCTTCTTGACCCGGCACCTCGGAAAGTAACTCCTG
TCCATTGTTCCTTGTGCCATCTTTCTTAAGAAAACATGAGGAGGAGCAGGGTGATGCTAGATGGAAGCAGGAGAGCCTGGGGTCTTAGTTTCAGTGGCTC
TGACTTCAGTTTTCTCACCTCGAAATCTCCCTTCTCTGAACCTTTTTGCGTGCTCTTCTGTCTGTCTGATATTCATCATCTGACTCATCTCTACCAGTCA
GGAGTTGCTTCTTCCAGGAAGCCACATTCCATGGACTGATACGCTGGGCTCCATGCCATCCTGGGGTTCTCTTGAGTACATCTGGAGGGGTGTAGTGTGT
TGTAAATGCATACGATCATGCTGGTACATTTCATCAAAGGTGGCAGTTACACTACCAGTTGTGTGCCCTTGGGCAATTAGCATCACCCTGCTGTGCCTCA
GTGTTTCCATCTATAAACTGGGTATAATAATCATTCCTACCCCATAGGTTGCTGTGAAGATTGGCTCACATCAGTMATGTACTTGGAATGGATCCTGGCA
TAAAAAGAGCCCTTGGAAAATGATAGCGTTCATCCTTGGTATGACCTCCAAGTTCTTTGAACCTCAAAGAGCCAAGTCCCACATCTCAGGTACATTTCAG
TTCATTCTTTCTGAGTTGATTTTTTTTTTTTTTTTTGAGACAAGGTCTCATTCTGTTGCCCAGACTGGAGTGCGGTGGTGCGATCTCAGCTCACTGCCAC
CTCTGCCTCCCAGGCCCAAGCGATCCTSCTGCCTCAGCCTCATGAGCAGCTGGGACCACAGGATGCACCACCATGGCCAGATAATTGTTTTGCATCTTTG
GTAGAGACAAGSCTTCACTATGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGTGATCTACCTACCTTGGCCCCACAAAGTGCTGGGCTTACAGGTA
TSAGCCACTGGGCCTGGCCTGAGTTGATAATTTTTRTCATTTMTTTCTYACTTTTCTCAGGAAAATCATGACTGTAAAACAGATCAGTTTTGCTTTAGTT
CCCACCCTCATCATCAACCCCTCCCCAGCTACCCTGCAAAAGAGTCACAGATCATTGGGATAACTAGAACCACAGAGATCCCCCTAGACTTGTCAGCCAG
GGAACCTGACACTCTTAGACCTTCTTCTGAGTGCTTTGTCCTTGTCCGGAGAGCTCGGGGAGGAGCAAGGTTGTACTGGGATTTTTTTCCGATCACAGAA
AGTAACTTAGCTAGCTGTTGCCCAGCCAATTTGCCCAAGGGAGAGGTTGCTCCTGGGTTGCAGGACGCATCCATGGATGGAGCATGGGTTTTGGGCTGTG
GGGGGACAATGAGGTGGTTCCTGAAATCCCTAGTTACTAGCAGACAAGTGCATCAGACAAGTGCATTTCACCGTTCTGAGCTTCAGTCTCTTATCCAAGC
AGAAACATGGCCAGAATGCAATGTCCTAATACATGTAATTCATTACGTGTGTTGTCATGTAATGTAACACACCTATTGGCAGTCTCTGACACAATACAGA
TATTGACCCCATGGTCTTGCCCCAACTTAAATAAAAATAAAAACGAATGCAAAAGAGGAATCTTCTTTGCACTCGTGTGATGTCTGTTAATTCTTGGCTT
TCTTCCTTCATAAGGTTAATCATCTCCCTGTCACCCCTCCCGCTTGTCCCCCAGCCTCTGTGTGTCACCTTCTCTCTGAGCTCACCCTCTCTAGGAAGCC
TTCCTTGCTGGAATGCCCATTCCCTGATATAAGGATTCCACCCACCACGCCCCTTGCRGTTCCTTGCCGGTGTCCTGTCCTGGGCAGACATAAGCCCTGT
GGGTTCCAGTTTCTCATTAGGAACCTGGATGATGGAGCAGGGATCATGCTCATTAAGTCCGCAGAACTCATCAGCTGCTTAGCAGGGGGCCAAGGAGGGC
TGAGCCTATGACGGGTGAATAAGTCTGGTTGGCCTCTGGGAGTACGGGATCAGAATTCCAAGTGACTGGGGTCAGTAGCAGGCCACCAAGAGCCATCCCA
CCTCAGAAAGACAGAAGCCATCACTGCAAATGGCAAGGGCATGAGGCAGTTTGAAACTGGCAAAACTGGASCTTTCATGGAATCCAGGGCTTGAGCTTTA
ATGCTTTACACTTTTGTTTTTTCATTCCATACGCTTTTGCTTTAGCTTCCTGGCAAAATTCAGACAAACCTAGAAGGGATAATAACTTACATTCAACCTC
TGCTTGCTCTGTCCTTTCTCACACGTGTTTAGAGAAACTGGAGGAGCCCGGGAACTGCTTTCTCCTCTCTAAGAGTCTTGGTGGTTTCTTGTGTGGAAAT
GAATGGGAAGTTCACCCTGGTTCTGCAAAATGGKTGCGAAATGTAAAATGTATATACCTTCTATCCTACTCTTTATGTTCCACAAATTTTGGAGGGAAAC
TGATTAACTCTCTAGCTACCATGTTCCAGGTGCCTGCACCTGCTTGCTCTTGGTTAACCTGCACCCACGTTCCCCCGCCTGTCTCTGAAGTATTCACAGG
TGGAGGCTCAGATGCACACAGTGATTGAGTGCCCTAGCTGGGGTTGGAAACTCTGTCCATGAACTCCAAAGCCCACGCTCTCTTACACCCTCCCAAAAGC
TGAGGCTTCCTCACTGTCTTTTGCATTATGTCATGGGTGGAAACATGCACCTTCCCTGACCTTTTGGCTTGGAACATGGAAGTTCATTGACTTTGTTGCC
TAGCAGGGCCTGGAGCTGGGTTTCTTGCCTGATCAATGTATATCATTTTGCCAAGAGACAGAGTCTGTGCTGGAGAGATTGATTCCCTGGTTATTTATCT
TCCTCTGCCCAGTGTAAATTGGTCAGCCTGATCCTATTCGCATGATAAAAATCATAATGTCTCAAATTACTTACTCAATAAAATGTGGGTTTGTCTATTA
TTAGTGATTATTAGGGTTATAATGCAGCRTGGAAATTTGGAGCAAATTAACTATACATGCAAGCTGTTGGGCTCAAGTGCAGTTAATCATACGCATACAG
TGCCAGTGGGCAGAAGGTTTTGCAAGAATAGCTTCAGGAAGACTTTGTGGGAAGACAGATGAATACTCAGGGTTTTTTTTTTTTTTTTTTTTCTTCTAAY
TTGTCCTCCTTGATCAGGATTTCTCAAATGCACATTTGTCTAATATACTGTTGAACCRTGCAAGTACCAAAACAAAACAAGAAACCCAGAATTATAGCTC
AAATTTAATTAAAATAGCTTTTATTGCTTCTATTCATGTGTCCCTGGATTTTAAGTGATGCRTCAGAATTTCATGATGAGCAAATGCCTRTGGATGCCCT
CATTTCTCATCCTTCTTGACTGTCTGCTAAGATTCACTCTTGGTCTTGTCTTTGAGCTTTTCTGTTCAGTGATGTAATGGGACAGGCTCTCCTGTCATCA
AGAGTTCCCATCATACCTGGGCACTGCCATTTCCTCTGTGGTAGATGCTTCCTGGACACGTGGGCAGGTGAGAGGTGCTGACTTTGCCTACTTGCAGCTG
AAGAGAAGAGAGATGTAGCTTTGAATGGCCACATGAGTGTTTTTTTAAATGAAAAAAAAATCTATGTATAACTTGTTTCCTGTGAGGGTGCCAGGAAACT
TTACAATGARCTTCGTGAATTAAACCTCTACCAGATGAATAGAGGTGGTGGCATGGTAGCAGAAATTAGGRTTAAAAAAATGGTTTTTGATTTATGAAAA
ATTTTTCTGCAGGAAATTTTGATTTGTTCTTTGTGGATTCTGAGGATAAAATTAAGACCAACATTGAGGATGAGAGACAGAACTGAACTCAACTTAAAAT
AGCTTCAGGGAGGAAAAGCAAGTGCATTAGATAAGTAAGTGGGAAGTCCAGGGGTAGACGTGAGTTCAGGCATAGCTGGATCCAGGATCCGACAGCTTGC
ATGTGTAGTTAATTTGTTCCAAATTTCCATMCTGCATTATAACCCTAATGTTTGCTAATAACACACAAACCCACATTTTATTAAGTAAGTARTTTGAGAC
ATGATGATTTTTGTCATGTAAATAGGATCAGGCTGACCAGTATAGACTGGGCAGAGGAAGATTCATAACCAGGGAATTAATCTCTGGATCCAGGCTGAAA
TGATATTATCAGACACCTTTCTTTCTCTGGTCCTCAGTTTTGATCTCTTCTCTGCTAGCTTTATTCTAAGACAGGCTTAGATGGGATGTAGAGAGCAAAC
TCTGGAAGTGGAGTACCTCTGGCCTCCAAGGCCAGTAGTTGTAGCAAAAGTCCAGGGCTGCCGCTCATTCACTCTGCTCGGACCTTTCTGGTCACTTGTC
TTCTGTGGTTTGGTCCTTGTGGCCAGGGACAATGAAACTCTCATTGATTAGGCCTGAGTTATGTGCTCTCTCCTAGAGCCAGGAAGAGGCTTCGGCCCTG
CCCAGACCCGGTGGCCTGAGAGTCACAGTGAGGCGCAGCTCCCAAAGGGAGACTGAAATATAAGCAAAAGAAAAGGAACACGTACTGGGAATCCCAAACA
GCAAATGTTCACTGTGTTCAGGGAGGAGTCTTCAGGCCCACAGTGTAGGCATTCAACAAACGCTCTTCAGGGAGAAGGAAAGTTACCATCAAAATCCGTC
GTTGAAAGTATTGAAGTTCCAGCTGGYGGTCTGATAYAGCTTAGATGTTGTCCCTGCCCAAAGCTCATGTCAAAAGGTAATCTGCAGCGTTGGAGGTGGG
GCATGGTGGGAGGTGATTGGGTCATGGGGGTGGATTTCTCATGAATGGTTTACCACCATCCTCTTGGTACTGTCCTCAMGATAGTGAGTGAGTTGTTGGG
GGAGCTGGTCATTTAAAAATGTGTGGCACAGCCCCCCACCCTGTCTCTTGCTCCTGCCCTGGCCACATGACGTGCCTGCTCCGCCTTCTCCTTCTGCCAT
GATTGTAAGCTTCTTGAGACTTCCCCCAGAAGCCAGGCAGCTGCCAGTATCATGTTTCCTGTACAGCCTGTGGAACTATGAGCCAATTAAACCTCTTTTC
TTTATAAATTACCCAGTCTCAGGTAATTCTTTATAGCAATGCAAGAATGGCCTAATACATGGTCTCTSAGCAGGATTATTGTAGAGGGGACTGATGTTGA
AGAATGGAAAAGAAGGCAGTGTCAGAGAATGCTGAAGAGTGTGGATCTTAAAGTCCAACCTCAAGGCCCAGCGCTGCCACTTAACAGCTCTGTGACCCTG
TAAAGTCACTCAGCCTCATTGAGTCCCCCATCCTCCCCTGTGYAGAATGAGGCTAATGCTAGTGCTCATTTCATAGAGTTGCTACAATAATCAATGAGAT
AATGTGCATAAAGATTTACATACATAATAACTGCTCAATAAAGGGTAGATGTTAAAATTAGCATCAGCGAGCTCTAGAAGATGCTAAGTTCTCTGGAAAG
ATCAGCTCTGCTCCTGTCAATCTCTCCAAATGTTAGATTTTGCCTCAAATTTTAGGCATTCGTTCATTCATTTATTCTTTCGTAAATTCTATCGCATTAA
CCTTTACAAGTGTTAAATTAAATCTTTTCCCCAAATTATGCATTAGAACCAAGTTCTTATGTGGTGGATGTACCTCATTTCAGCAAGAGCTTTCTAAGGG
TACAGAATTAAATATGCAGCCTCTGGGATTCAGTGATAGCTCATGGGACATTTGACCTACATGGAAATGCAGGCTGGAGTTGCATTTTAATTGGCAAGGA
TCAGCCCAGTTGTCCAGCTTGTAGCTTGGAGTGTGGCCTGGCTCCCACTCCAGAGAGATGTACATCATGATCTGCGTGGGTGAGAGGATACTCTCAGGAA
ATGGGCAAAGTTGCCAGCTGACCTCTCCAGAAAGAGAGACTATGTTGTTAGTTTCCCTTACTTGGATGAGAAATTTCTCCATTCCTAGTCTCATTTTCCC
AATAGAACACGGAGGCAGAATTTAAAGCCTCAAAACAATCTGATGCACATCAGCTATCAATGAAAAGGACCAGCTTGGAGGCAGAGGCACCTGAGTTTTG
CATCTTGGCTCAATCACTTACTAACTGCATTGTGGGTTAACACAGTGTGTGTGTGTGCACTTACTAACTGTGCAACTGTGGGCAAGTGATGTAATCTCTC
TGGAGCTCGTYTTTCCTTTTTTCTTTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCA
GTGGCRCAATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCACACCACCA
TGGCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGCTTTCACCATGTTGGCCAGGCTGGCCTCGAGCTCCTGACCTCAGATGATCTGTCTGCCTTGCCC
TCCCAAAGTGCTAGAATTACAGGCATAAGCCACTGCACCCGGCCACAGTTTTCTTTTCTATATTGTAGGGATAATAATCCTCCCTTGCAGGACTGTGCTC
AGCACATGTTCATTGCTCAAGAGAAGTAGCCACTGTTATTATTATTGTCAGTATGTATCCAAGTGTTTAGTTCATTTTCTCTGCATTTGTCTAACTCCCT
TTTTTCCCTTGAACTGTAAAGCTCTCAGCCCAGGGATATAGTAGCACCAGCACATAGTAGATGATCAAGAAAAATTAGTCATTCTCTCTGGTTCTTCCTT
TCCTGTATCCTGTTGTCTTTATCAGTTCAGGCTGCTGTGACAAAAGTATCACAGACTGGATGGCCTTAACCACAATTGTTTTACATGGTTCTGGAGACTG
GGAAGTCTAAGATTAAGGCAGTGGAAGGTTCACTGTCTGGTGAAGGCTGGGCTCCTGATTCATAGATGTCTGCCCTTCTTGTGCATCTTCACATGGTGGG
AAGAGGGTGAGAGAGCTCACCGGGGAGTGTTTCTCCCAGTTCCTCCCCAGTACACAGAAAAACAAAGCTTTCTGTCTCACCAGGAGGACTCCACGGTGAG
CATAGCTTGGCTCMGCCCAGCAGGAGATTTTGAACCGACTCTGGTAGATTCTTCCTGCAGCCATTCAGCTCCCACCTCTTTCTCTCAAAAAGAAATCCAG
GGCTGGGTGTGTGTGGGCAACTTCACCCTGCTCTCTTTGTCCCCCAGGCCTGCACTACAACAAATGTCTCTTTGTGTCCAACTCTTCTTCCATTTCTAGT
CCTTCTTTTCTCTTCTTCTCGTACTTCCCATATTCCTAATACGATTGGTTACTCAAATTCTTAAACAACTCACAACTCATTATCTCCCTTCCATGTAAAA
GTAACCCCCAGCCTGAGCTACCTGACCCCGTGGTTTAAACAATAAAGCAACTGACCTTTTATCAGAAATTTGCAAAGCCATTTAATTTACATATGTCCTT
GGCATCCACAAATATTGCTTCTCCTTTCAACCAGCATGCCACCCTTCCAGCCATTCACATATGTATTCATTCATTCATTCATTTATTCTTTCATTCAGTC
AATAAATATTTATTGAGTAGTAAGCACATGCAAGGCATTGAGGGTGGGGAGGGAAARAGACACAAATTGTCCTTACCCTCATGGATTCACCATSTATTTA
AMGGCCACAAATACTTGTGTGAGAAGCAAGTCTTAATAGTCTGAAGTRTTTTCTTAGATTCCCTTGAGCCGCAATGCTGAAAAGCTTATGGTGGTTTTGC
TAATGAATTTGACAAGGCCAGAAATAGACCAGATGAAGATTGATCCATTGGTTAATTGATTAATTGATTGATCGACTGAGGAATGTCAGCCTGGTCTACC
AAGGTTTATGAAAGCCTGGCATATAGAAATGATGTCGTTAATGCACAAATACCTGCATCCTGTCTTGAACTCCCTCTAGGGGCCACCATGTGTATCAGTG
TCCTGTGGCTGCTGTAACAGATTACTACAAATTTTGTGGCATAAAATAACACAAATCGATTCCCTTACAGTTCTGGATGTCAGAACTGGGTGACTTTCTC
CTGAGACTGTCCTGATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCTTGTCAGTTTGTTTTGGGTGATGCAGATGGAAGGTAACGTCACAGGGCAGCTG
TATTCCAGGTACTTGGTGACTCTTGGTTGCGATCTGATGACTGGCTCACAGTAGGACCATGACGTGAGCAGATTTGTAGTCCTGCATRAATGAAGGAAAG
AAAGAAATCTGACAACTCATTGATTCAGATTCACAGACTCTGCATTTTGAACCAGAATACACCCGAGCAATTACCTAGCACAAAATCTCCTGTCTGCAGA
GGAGTTGCAGGAAGGAGAATTCACTATATCCTCTCCTGAAAATATCCCTTGTGGTCAAGGTGGCTATAGACTGGCATCCCTCTGCTCCCTAAGATGCCAG
GGACTCACGTCTTCTAGGATATCAGGGGAAGATACAGGGCAATGGGCCTCAGATCACAGACACGGAAAATCATTTTCTATTTCATGGAGCATGGAGAAGC
TTCCTTCAAAAAGCTAGCCTTCGACTTTCTATTTTTTGAACTGAAGGGCAGGCCAGGAGGGAGCTGACCTGTGTAGAGCTTGGAGGTTGTGTTTTCAGCT
GAGAAAAGTGATCCTGAACCTCTCCATCCTTGCAAAGCTCAGATGGAAGCCCAGGGGCCCCAGCCCTCCAGCCCCACACACATGCCGGTGCACCTGGACT
GCCACTCTACCTGTTTACAAATTACCCCCATTTTCTGCTTGGTTCAGCAGCAACTGATTACCGTCCCCCGTGATGTAATTAGGGCTTCAGAGTTCACGTG
TGTCTATTATGAGCTCTCCTGTGCTTTGTCTTGGTGCTTCGTTTCTGTAGCAGTAATCATATATATATATAAAAATTTGGTATCAATTGTTTGGCTAAAT
TATGCACAGTGGGCCATCCTAACCTGCCATTAACATAACGTATGCTAAAGAATGTGTTGTGTTTTTTTSTTTTCTCTGATAATTATACTCTAAAGCATCA
ATTGCTTATTTGAGTAAATTAAACTTTGAGTTGTTCTTATTTCTTCAAACTTTCAAATTGTCTTGCCTGCAGCAGATGCAGACCCAGCACTCCGGCTGCT
GCCAGTGGAGGCAGGAGCCTCGTTACCACCTTTCTGAGAAATTCAAGTGCCACACAGTGGTCACCAGCATTGTAGCTGCCCTGATGTTCCGGGCTCAGCT
GCAATATAGCACATCTCTACCACCATCCCCAGAGTGACCTCCAGAACTGTAAGGGACCCCCGCCTTTGGTACAGAGATGGGAGTTAAACACAGGTGTCCA
CTGGAGTCATGATTCCTCTATTCCCTGGACAAATATGCAATGAGAATCCCTGAGGGACAGGCACTGTGCTAGATACCCGAGATACAAAAGCGACAAGGTT
TCTATCCTCTGACAGTTTATACTTTAGTGCAGTGGTCAGCAGACTGTTTCTGCAAACAGCTAGATAGCAAATATTTTAGACTTTGTGACCCATACAGTCA
CCATCACAACTATTCAGTTCTGCCAGTGTAACTCAAAAGCAGCCATGGCTGTTACATAATGAGTGGCTGTGGCTGTGTGCCAATTAAACTTTATTTACAA
AAACAAGAGGAGGGCCAGATTTTGCCTTTGTCAAGGAAGTAAGCATAATAGTGCAAGCAGCACGTGCCCGCTCTTTCACACTGGGGCAAACACAGGGGAT
TTATTCGGCACAATTGAGTAATGTGGATGAGGCTGCTCAGGGCTGGCAGTTGTAGGACGCAAAACCTTGAGGGGCATCGATATTCTGGTACAGCTGTCAC
CCATTTGCAGCACAGCTGGGACACTCCACAGAGAATGATCAGGAAGGCCAAGCCCAGATGGCATTGTTGAGGGGCTTTCTCTTAAGACTGCATCTGAGTG
GCAGGGCGCAGTAGCTGACCCTTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCATGATGGC
GAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCTGGCGTGGTGGCCGGCGCCTGTAATCCCAGCCACTTGGGAGGCTGAGGCAGAGAATTGCTTGAA
CCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATCATCCCACCGCACACCAGCCTGGSCGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAGTT
ACTTCTGAGTTAAAATATGAAGAGTGAGCAGTACCCAGCCATGCAGAAGGACATGGAGTGGTAAAAGCATGTGGTTCCATTAAGGGAAAGACTCCAGGGC
AAGAAAAAAACATGTCATGCTTGTACCTGAGGGAAGGCCAGTGTGATTGCAGAGTATGGGGCACCCTGGAGGTCTGGAATGGGAGGAGTTTAAACAGGTC
ATTAGAGCTTCAAGATGAAGCATAGGCCAGTGACTTGGTTGCTGCTGCTGCGTAACCGTGTGGCAACTGAGTGGCTCACGGCAATCAGTATTTACTTCTC
ACGTGTGTGTGGGGTTCAGCAGAACTAGGCTGGGCTTGGCTGCCCTGCCCTACTGGTCCTGCTGGTTTTGGTGGGGCTTCCCCCTGTGTCTGTGGGTCAG
CTTGTTTTGCTCCTGCATCTTTGCATCAGCTGGGCTTTCTGCCCTAGGCTGGACATGGGTGGGGCACTTTAGCTGGGGTGGTTCTCCTCCACATGTSTCT
CATCTTCCTGGGACCAGCAGGGCTAGACCAGACATGACTTTCTTATGGCAAGGGCAGAAATGCAAGACAGCAACTCAAAACACATAAGGACTTTCAAGTC
TAGACCCAGAACTGGCATACCCATTCCTCTGTCACACACTGATGCCCCAAATAAATCACATGGCTGAGCTCACGGTTAGAGAGGGAGGATACTGCAGTCC
CAAAGCCCGGGGCATGGATCCAGAGAGGAGGGTGAAGAATGGGCCCCTGACCCAAGACTGCACTTGTATTTGAGTTGCATAAGAAGCTGCTGAKGAATTT
TAAGAACAGGAGTGACATGACTTCCGTTACAATTGAAAAAATCAATCTGGCGAAATGAATGGGGCTACATAGGTTGGGGGAAGGAGGTAAGAGAGGAAGT
GAGGAGAATAGGGTGGGTCGAACCTGTTGAAGGCCCAGAGCTTGCTTCTCTTCTGCCGCCTTTAGGAAACGAGATGAATTGTTAAACTTCTTGCACTGAG
CTTTACCAGGTGAGCTGACAGTTATCCTCTGCATTCATCAATATAAGCCCCATAAAAGGCAAAGTGGTTGAGGAGAAAYGAGAAATTACAGCCCAGATTA
GCAGCCTTGAGTGCTCCTTGTGAACACAAGACACTSACCCAAATCACACGTCACGGCTCTTCGCCCATTAACGCTTATAGCAGGATTATTCCCAAGGAAG
CTGTAGCCATTATATTTGCTGCCATCACAACAGTAAAATAAACAGGTGTGAYTGCAGCCCTACTCCTCGGGTTGTTTCATGCTGATCAGTTGTTAATATA
TGTGTGACTTGAAGTTGGAGCCTGTTGGGAGAAAAAGTTGTCTTTAGAGGAGTAAAGTGTTGCCTTGCTGTGGGAAGGGGAAACTTTTTCTTGGGAAGTG
GACTCACCAATAATTTTTGCATCATGCGCAGGAGACCCTACTAAAACSTAAGTGTGCAATGCTTTAAATCAGTAAGTTTGTTTTTCATTAACATAAAATC
CAAAACAGGTGCTGTGATCAGCAAGCCGCTGTCCTCCAAGTGGTAATTCAGGAACCCAGGCTCCTTCCATTCTGTGGCTTCACCTTGACCAACGAAGACC
TTTTGAGGTTGCCACATTCTCCAGGCCACTAACACTTATGTCATTGGCTACAACTCAGTCACATGACCATGGCTGCCTGCAAGGGAGGCTGGGAAATATA
GTTTGCTGTGTGCTGGGTGGGTGGGAGGGAGCGTCMACATTAGTGAACAGCCAGGCAGTCGCTGCCTCAMATTTCTTTAGKGTTATCCTTTCATKCCAGC
AATTGAATTTGATTTGCACTGTTTCACTTCTCTACAAGGGTGTAAAAAGTAGAGGTTCCTCTTGAAAGAATTTCCTCCCCATCTAATTAGGAATAAATAG
TAACTTCTCTTAGAAGCAAAGTTAATTCAAAGACCTGTGCTAACATTCTTAAATATCTGCTAGCTGTAATGAAGAAATCAATGTACTTTATGTTCTTAGC
TCCCACAGTTTAGCCTAAATATTTGCCCTGGCATGCTTATACTGGTCCAAGCAAGCATTAGGTCATAGCCTGTTCCTCTTCCTTATTTGAAGGTGTTTTT
ACCTTTCTCAGCATTCCACAAGTTACTTCGTCCTTCCTTTGTTCTCCTCTGCCTTTGCCTCTTTTTTCTTTTTTTATTTTAATTTTTTTTTTTTAATTAT
ASTTTAAGTTTTAGGGTACATGTGCACGTTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGCGCTGCACCCACTAACTCGTCATCTAGCA
TTAGGTATATCTCCCAATGCTATCCCTCCCCCTTCCCCCCACCCCACCACAGTCCCCAGAGTGTGATATTCCCCTTCCTGTGTCCATGTGATCTCATTGT
TCAGTTGTCACCTATGAGTGAGAATATGCGTTGTTTGGTGTTTTGTTCTTGCGATAGTTTACTGACAGTGATGATTTCCAATTTCATCCATGTCCCTACA
AAGGACATGAACTCATCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCAGCCATCCCGTTACTGGGTGTATACCCAAAGGACTATAAATC
TTTCTGCTATAAAGACACATGCACACRTATGTTTATTGCGGCATTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAGTGRTAGACTGG
ATTAAGAAAATGTGGCCTTTGCCTCTTTTAAAAAGTTCTAAGTTGCTAGCCAGTCGGRACAAATACAGAATGTGAGGTCCCTTTCCAGCCAATGGAAACC
GGACACAGCAGTAGAGTACACGYGTCAGGTTATAAATGAGCCTGTCTCCTTTGTCCGGTGTTCTCTCATGGCAAAACTGCTGGCGAGTGTACCCTTTCTG
CAGAAAGTAAAAATGGCCTTGCTGAGGAAATTAAATTCCTGTTCGAGTGCTATTTCTTTATGGCACTGAGGAGCAAGYATTTCTAACAATCATATTGCTT
AAGAAGTGGATGGCARGAAGATAATTACTAATATGTCTGCAATTGATCTGAAATTGACACAGTTGATCTAWCTGATTCATGGGGACCCTGGGAGTATGTT
TGTGTATTTGGGGGTTGGGATGGGGGGGTGGGTGGAGGGTCAGAGAGGTGGCAAAAGCRGGTGGGAACAGGGTTACAGAGCAAAGTAATTAGATGCCCTT
TAGATGCTCTTAGTTAAAGACCATGCAAAAAGGATGAAATCTTTTGATCATGTTCTTYACAATATTAGAGGTAAAACATGAACTCAACGCTTTTAGGAAR
AAACAACTGGATTGCGTTTTCTATTTTATTGACAGAAACTAGATGGGGAGGCCAGGGTGTGTTTTATTATTGCACACATACGTAATTACAAAGTCTTTGC
TTTTTTCCCCTACATAAATTTATTTTGAGATTTAATTTCCACCAATTAGAACCCGAATGAAGCCGTTTTAATGTGATTCCTGCATCCCAGCAACGTGGCC
CTGCTTCTTAGTGCGCACGTAAAGAAACAATCCTGGAGTGAATTTTAAGTACCTAAAGTTGTGTTAGACTGCAAATGAATATCCAATTCAATTTGTAGGA
AACTTTAGATTAATTAGGTTTATAATTTGCACAGTAAGGTAATGTAAATGTGTTGCTACGGCTTGACTTTTTGCTTAATCCTCTGAGTGGATATTTAATC
TTTTTAATATTAGAATTAAAGCAACTTGGAAGATATGAATATTAATCTAATTATATTCCGATCACTTTAATTTCTTTAATGTTTTAAATAACAAAACAAC
TTTACAAATTGGTTTAGGTTGGGGAACGCTTTTAGAGGATTTTGCATCTCATCAGTAAGTGCAATTTAGAGGATGCAGGCTTGGGAAGCTGTACCTTAAG
TTTATAGTTATGCAAATGAAAACCATTAATCCTGGAGCCTCTGACTTGCAAGGTGTGCTTCAGAAATTTGCAGCTTCTATTTAGGYAGGAAGAGTTTGCC
AGCCCGAAAACTCCAGTAAGCAAACAGCTTTATAGYACCCCAGCCATAGAAAGTGAGAGCTTTCGAAGAATCTGTGGTTAGAACTAAGAGGATTTTTCTT
TCTCCTTTTTCTGCTGTTATTATCTCAAGGAGAGAGGGAAAAAAAAAATCAGAGCAGGACATGAACAGTGCTTGCAAATTTTATTACCTCATTATAATTG
ATACCTGCTCTCTGAGCCAATAAAAGAAGCTATATTCAGCACTGGCTGTATAAGATCTTTAATGTTTTAGGCTGTCAATGTTGGCTGTGGTTAGGCTGAC
ATAATTRTGAGCTGCATGTACCAATATATAGCTCTTTACCCACAAAAGCATGCTGCAACGGGGAATCTTTCAGAGATAATAAAAGGATTCATCAAGTGTC
TATACGATAGCTACTTAAATCGCTATTGTTTTAGTTAGGCCCGCAAAACATATCCCCCAGCTATCCCGGTTTCTTATCTTTCTTACTTGATATTTCAGGA
ATTTCAAGCTTTTGTACAGCTTGTTCAGTTGCATCCTAGAGGAGGAAAATGCTTTTGGCGTGATTTCCATTTCAAGATGACAACAGGGAGAAGTCTTTCC
AAAATGCGCGTGTTGCAATTTCAGATTTAATCAGGGGAATACATTAATTTCTGGAACTAATTACAGATTTTAAAAGAGTGATGGGTCTGGTACAGTGGCT
CACACCTGTAATCTCCACACTTGGGGCGGTCAAGGTGGGAAGATCCCTTGAGTCCAGGAGTTCAGGACCATCCTGGGCAACATAGTGAGACCTTGTCTCT
ATGAAAAAATGAAAAATAATTAGCCAGGCGTGGTGTCGTGTGTCTGTAAGTCCTAGCTACTCAGGAAGGTGAGGCGAGAGGATTGTTTGAGCCCAGGAGG
TGGAGGCTGCTGTGAACTGTGATCACACCACCGCACTCCAGCCTGGATGAAAGAGTATGACCTTTGTCTCAAAACAAACAAAGAAAAATCATAAAAGGGA
GGCAGAAAATTAACTGAAGAAATTGTGTTATAAAAGGCAGTGTTTTAAGTTCTAGAATTAAAAGCAATTGCAGCAAATACCAAGTGAGATTTTCTGTATT
TTGAGAGTTTGTGTGTGCAATGGTTTTCCACTGACTAATCAGGCTGATAAAACAACCTGAAAATGGCTTTCCCATGGAGTTTATATATTTCGTCAGAGAC
CTAAAATGGTATAAATGTTCAATAATAGCCAGTGAATATAAAACTAAATAATCCATATGAGACAAAACAGGTAGAAGAAAAAAACATTCCTCCTCAGATA
TGCACCTTTTAATTGAATAAAGCAAACAGTAACAGTGATTACCAGGACACTTGCTGTTTTCTGTTATTTTGGTTTATATTGCTTAATTAGCCAGCCTTTC
TAATTAACATTACATTTTGCTGAGTTCACATTGTGATAAAGAWGAATATCAATTCTTTTCTACTCATCTCATTGAGAGATAGAGTTGAATTCATCTTCCC
TTGTATCTAGGCTGCACTTATTCGTTTGCTTGACCAATGGAATGTGGCTGAGTGGCCGTGTAAAATGCCTGACTACCCTGAGACTGCCATGTTGAAGGAA
GCCCAGCTAGCCATGTGGAGAGGCCTTGTGGAGCGGGAAATGGCCAACCTCCATCCATTGGAAGTCATCCCATTTGAGGCCCTAGATACTGAAAATCAGA
AAGAAGTTACTTCCCATTCCCCACCTCAAGGCCCTGTCCAAACTGAAGATTCATGGGCAGAATAAACAATTGCTATTTTTTAAAGGTGTATGTTTGGGGT
TGTTTCCTACAGAGCAATGAATAACCAGAGCAAACACCCAAGGGCAATAAATTATGAATAGTGAATTTAATTTTTCTATGTGACCTATGGAATCAGCCTA
TTTTATGGCAGTACAAAGTATATGTAGCAACCAAACAGTTTCTTCTTTCCTAAAACTCAAAGTGAGTCAGACTTCTTAGGCTTGTAGATGTTGAGGACTA
AGCTTTGCTCTTTATMTTCTCTTTATGGATTTCCCTTTGGAAGCAGGGATAAGAAGAGRGAAGGTCTCCCAGATGTAAATTTCTCATAAATATTTGAGCT
CCATTTCAGTAATTCYTTCATTCTCTGATCTGTTGCCTAATCTTCTATTTAGCAAGTACTTTCCATGAAATAGAAGGCTTTAATTGATAGAATTACTAAT
TTGAATAGCTTAGCACAGCTCAGCTTGTAAAAAAAAAGGAAAACCACTATCCCCATTAAATTCTCATCTTGTAAAACCAGCCATCAGCACCTCCCTGTCT
TTTTACTAAAGTTTCCCTTCTTTGGTCTTTAGTGCTAAGTAATAGGCTGTCACTAGACCAAAAAAAAAAAAAAAAAAATTCAGCATTTCTTTTCATTGGA
GGTTACCCCAGAACACTTAAACTTTGGAGAGGAAAATAGAACCCCTGAAGAAAAGTGAATTCTCATGACAATTTGTACATTCTTTGAAGAATGACTGTAA
TACATGGAGGAGTTACCTTGGACCCATGTGCAGAGTAGTGTCGTGAATGAGGCCTGTGCCTTGTCCTGTGGTTTAAGGATAGGTAAATGTATCTGGGGCA
GAGGGTTGCCTGGGACAAAGGCATTATAAGCTTATTCATTTAACTTGAGTACAGGGTTTCTCAAGCTTTGGCACTGCCAACATGTGGGGTTGGATAATTT
TTTGTTGGGATCTGCCCTGTGCATTGTAGGATGTTTAGCAGCATCCCTGGCCTCTACCCACTAGATGCCAGTAGCATCCCTTCCCCCTCTTGTCACAAAC
ACAAATGTCTCCAAACATTGCCAATCCCCCTCCATTAAGGGTCATGTCTCTTGGCTGGGATAAGTCTTCTCTACCGTATCCCTTTAACTCAAGAAGTTTT
TCTTGCTAAGTTTATGTGATCTTGAAAATACGGTGAGATTGAACTTGATTTTCTTTAAAGGACAAATATCTGCTTCTTCCAAATTGTCATAGGAATAGTT
CAAAGCTAAAGAGCCTTTCAGGCAGGCTGGGCACTTCAAACCTACAAAACATAGTGCTAAAATTAAGGAGTGTATAGTCGTGTGTTTATAGGGACAGGAT
ATTTATTATCTATCACTTTTGAAAATGTCATTGGCATTATCGTTCACTTTTACAAATACGAAGGAAAAATATGAAGGAGTTCTAGAAAACACCAGAAGTG
ATTTTGCCGCCATGGGCCTGAATTGAAGAGCTTAACCCACTAATCTGTTATGACTGCTTGGGGAGTGCTAGCGCAGGTTCTCTAACACACTGAGAGTCGT
TTGGAGGGTAGTGTGAAGTGGCGTTATAGTTCTCCTTTTAATGGTTGAGACAAGAATTGCCTGGACCTCTTTTAGGATACATCACCAGTCTTCCAATGGC
AAACKTATGTTTATTCCAGCTGATTCTCCCCAGCATGGGGGCATGAATTGCAGTGGAAATCAGTGGACTAGAATTTGGATGCAATTGCCCCCAAATTATC
GAAGAGAAAAGAAGACCACTGTAATTCACCGGCCATAGCATTTTTACCAACTGTTTTTGCTAAGCATTAGTTTCKTGTGATAGGTTCAATTCTCAGGCTC
CTTCTCRTYAGAGTCTTTCTGTAAAGACCATTATTATTKCTGTTATATTTCCTGTGGCTGAGCTGAGCCGCACTTGGAGATTTGATCCATTTTAACTCTC
TCATTGCCTTCAGAGAGTTGGTGATTTTGGGGGGGGCACCAGTKTGAGTCCTTTGATCCTTGAATGACAATTTGGATTTGTCTCAAGGTCCTGMTAAATG
GGAACTGGAGGAACTGGCCTACTATGGTATTACAGGCTAGCACATGGTTTGCATTCTGAGGGAGCTCAGAATAGGCAAGGTAGAAGACATAGGTGGTCAA
GAATTTAGAAAGACCCGGACTCGAATCCCAGCTCTGATCCATCTCAGCTCTGCCATATTGCCAAGTTCCGCTGAGRCTCCATTTACTCACCTGTTGTATC
ATCTGAATTATTTYCATATCCATAATGTGCAAGGATATCCTTCCATGTTATTAGAAATACAGATACACCATCATTATCASTGGCCAAATCATTCAAATCG
CTGTTTGCTTCTTCTCGGGCTCTTATTCAAGCTCACGATGCTATTCTCATAGTGATTGCGAATCTCACTGCATAAAGGTGATTTTGAAAACATCACTTTT
CCTCCACACTAATGTGTGAGCTTAGCCAGAGTAGGAGATATATCTTACTTAAAAAAAAAAAMAAMAAACAAACAACAAAAAAAAACTCCTTCTTCATTTG
TTATAGTTCCAGGATAGAGTGTGTACCTGKATAGAGAGAGTCAGGCAGATAYAGGTGTGCCCTCCTTCCAAGATGTGTGATGGTGGGCAACTTTCTTTGC
ATCTCTGAGCCTCTATTTTCTCTATATAAAATGAGAGAGAAAAAAATAATTCCTAGATCTAGAGTTGGTGTGAGGCTAAAATAAGCTGCTTTTAGTATCA
CATTTGGCAAGTAGTAAACTCTGGATAAATATRCTTTTGAATTGTGTGATTATTGTTGTTACCATTTATTRAAAGGGAATGATGAATGTAGTGAGAGAAG
GAAGGAAGAGAGAGAGGGAAGAAGGGGAAAAAGAGGGATGGAAAGGAGGAAGGAAGGAAAGGAGGGAGGAGGCAAGTATAWTAGTCATGATATAKGGAAT
TGAAAAGACATTCACRTTTTGTGGTGAATGAAAATAACTTGACCTTTATGAAGCTGGCCTAATCCCTGGAAGGAAAAAATTTCCTTGGATATGTGATTTA
TATAATCAATCAACTAGTCCTTATTTTGGTAGAGCTAAACTTCTGTCTTTGGGTTTACTCACCGTATCTGTGTGCATCCTGGCARTGTTTACGATATACT
TCTACTAAAATATTATTTTATTCTATACTAACAAAGGGATTTGTTGTGTRTGTAAAATTCAAATTTCAATGAAGATTGTGTATTTTTATTTGCTAACTCT
GGAAAATGTGTTTACAGAAGAACCAGAGAAGGACTTACTCCTCTCCGTACACTTTGGACATGTCAAAATCTAGAAATAGAGATCAGTAAAGGTAACACAT
AGCACCTTAAATCTGATTTAAAAGGAAAACAATGAYTATTATASAGATTTATGGCTTCTTGTCAATAATACTCTGATTTCTGGAGATTGTTATCAGTCAT
AAGCTTTATAGGAAATATCTCCTWTTGAMAATGACATTTTAAATTAATGTGAAATTGTGTTTTAATTTAATTCACAGGGAGTCATAAACAGGTGGGAGAA
TTATGKAACAATAATTGTGTTTGCAAGAAATGGATTTCATCCTAAAACTCCATGAATATGCTATTACAGTTTGTTGTCATCCTGAAATGCTCTGTTTAAC
CATAAAATACAGCGTAAAAGACACCCTCATGTTGAAGTCCTTAATCTAGTGTGTAATTGCTTAAGTGAGCACATTAACTATATCGTCAACTACCTGTTCT
CAAACACTTTAACAATCAGCTCACCAATATGGGTGTGATCTTGACATTGAGATGTAGAGCTTGACACCTGCATATAAAGTAGAAACTCAACAGTGTTTGA
GAATTTGCCATTGCATCTCAGTCTTTTTTATTTATATGTTTTTTCTTTTTTTGAGATGGAGTCTTGCCCTGTTGCCCTGGCTGGAGTGCAATGGCGCGAT
CTCGGCTCACTGCAGCCTCCGCCTTCCGGGTTCAAGTGATGCTCCTGCCTCAGCCTGCCTCCCAAGTAGCTGGGATTATAGGCGCATGCCACCATGCCCG
GCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGCATCTCAATCGTTTTACTAAGAAATTTGGAGGCCTTGAGAAATGGGTAA
ACTTGAAACATTTAAAAAAGTTGTTCTGCTAATTATCCTACCACGTGTGTCAGAGACAACATTACCCTCTTATTACTTAAAAGTAATTTGGACTGGTTCG
CACACACAAAAATAGCTTTATTAACAACTTGAGTAATTTATCAAGTTCAGATTCTTTTTTTCCTCCAGAAATGCTGCTTTTGGTACACTGAGAGGTCATT
CATTTAAAGTTTGTCCTTGGCAATTCCTTATTGAATAGATTCCATTTTATTTTATTTACATTTTGTACAAAGCTGATAAATAACTGAAACCAAATTAGCT
CAAACTGGTTATATTTCTGGGTACAAACCAGGTGTATAGTTAATCCATTGTTGTTTCTGTGTCRACCACCATTGTCCTCACCTATACTTGGGCAGTGGGG
GTGGGGAGGAGAACATAAAAACCCACCAAGCCTCATTTTTCTTGCTAATTTATTTCCTTGAACTTGGTGAGATTCTATCTGCAGTGTTTCCAAAAATAGT
TTTGGAAATTGCAAAAATACTACAATGCTGTTGTGCCGGCCACACTGTGAGTGCTGACTGTCATGCATTTTATAGCCCATSTCCCTCTCCAGTGAGGCTT
TTGGCCACTGGCCGTTAATTGGTAAGGTTCTTGAAAACTGAAGTGATGGTATCAGCATGGATGCCCGTGCTTTCTGATGCCACTGAAGATGGATAGAAGC
TTCAAGTTATGCTTTGTGCAGACTGAATTTTTCCAATTTGTGCTTAGTAGCATCTTATTATATTAGACCAGCACTGACTGGTGATGAATAGCAAGATTGC
TCCCTTCTAAGGGCTTGGCAAACCAAGAAGAATGCAGTGACATATGTCTTATGTCTTCAAAAGCAACTGGACACTTGAAGAGTATTTTCTAGTCTCATTT
TGTAAACCCAATTACGAGCGGAGCTACAATTTTTATCTTTGTTTAATGTAACCAATGAGGCCATTGTCACTGTATGGAGAATAGCTTTAGTCCATATTCT
CTGTTTTTTAAGACTCTCAGTCTCCTTGCAGGTGCCTTTGGAGAGTTAGGTGTTTGCTGTGATTTGAGGGATAGTGGCCAATAATTTTATTGAAATGAAT
ATTGGTTAATTAAAGCTTATTGTATGCCATGGGCCATTCTAAGAACTTCCATCCACCCAAAAGCACTATGAAATAGATGTTGTTATTTCACTGATGGAAA
AACAAGCACAGAGAGGCTAAGGAATATGCTGAAGCTTGCACAGCTAGTAAATGGCAGAACATTCAGACTGGAATTCAGACTTATACACTCACATTCATAC
CACACAGCCTCTCGAAGGGACGTGCCCCTTGAACGCAAGAGAGGTACATTGGGTGGCCATGGTGCTCACAGTCTCTCAATCCTTTATGTTGAGGGAGAAA
TGATAACCAGATCTCATTTTGTGTGCCAACCCGAAAGCCTGACTTGACTGCCTMAAATGTTARGAAGGACTCTAAAGCCCTATCTGGATTCCAAATTTAT
GGTTGGTGCAGACTGGATTTTTACAATTTGTGCTTAGTAGTATCTTATTATATTAGCCCGGCACTGACTGGTGATGAATTACAAGATTACTCCCGTCTAA
GGGCTTGGCAAACCAAGAAGAATGCAGTTCCACGATCCACTTGGAATGTGTGCAGTGAGTGTGGGAGGACTGGTATAAGTAGCAAAGCACTTGGCACTCT
GGGTGTAAAGCATTCAGATCTCTTGCAAAATGCAAATTTTACCTGCGGGGATACCCATTCAACAATTAGAAGCTGCTGATTTCTGGACGAGAGTTAGTTT
ATTTAGAAAGTAACACTCAGAGACACTGGGACAGAGAACAGATCCATTTTAAGGCTGTGTGAGCACTGATCCATGACAGTATTGGTTCAGGGGCAAAGAA
TGGGAGGAAAGAAAAAGACAAGTTATAGCTGCACTGAAAACAAACTGGGCATGTCCTAATTTTGCTCAGGGCTACTTCTCTTAGAGTCGTTAAGGTTTTG
AGCATATTAACAGCAATACTGATCATAGCTAATATGCCTCTATGTCAGGCTCTGTACTGGGTTCTTTGAGTATACTCACCACCTCCTGACAAGGTTTTGG
CAGCCTTACTTGGTAGACACTATGATTCCCATTACATACATGGAATGTACAGTAACTGAGGATCACTGTGATATTGGGAAAGTGGGACTTCAGACGCTAG
CCTCCCCTTGTAGTGCCTGCATTCTTTTCACAGCCCCTCCCCACCTTAGAATCATTTTCTTCAAGGGAGAGTATGGTTTGTGATGCCCTTATCAGCAAAA
CTTCAGCTAGAAGATGCAAGGGTGAAATACACCTCCCCACCCCACGTGATCTCATAGCACAGAATGACTGGCCACCCCAGACTGAAGGTTAGGGAGACTG
GGGGCCCCAGACTCAAGGTTGGGGAGACTGGGGAGAGGGAAAGCGAGGAAGAAGCGTAAGTGTATCTTACAGTTTAAAACCATAATGGGACATATCATTT
TCTTAGTTCTCCATTTATTAATAAAATGCCCAATACCTTCTGGCATGTGCTTTGAACTGCTTTTAATTATCTTCAGTTGGATGGAGAAAAGGTAATGGGG
ACCTCATAATAGTCGTGGAGGGACAACTGGGATTTATTTCCATAGGGAAGGCAGAGACTGTTTGCCAGGGAACCAAGGCCTTTCAAAGTTGAGGACACTT
CCCGGTGCCGTGCGGTGTAAATCACAGTGCAAACTATGCGATTATCCCCTGCAGAGGAATCGASTGTGACTTTATGGGATTCTTCACCAAGCACTTAGGA
ATAATCTGATATAAAACAGCAGGGGTGGAGAGTAATGACAACTTCAAATTAGTTTAATGAATGTTTACATTTAAAAAAAAAAGGCTTTTCTGCAAACCTG
AAAATAAGAAGTGACAGCTTCCTTTCCTATTTCCCTTGCAAGAGGTACCTCCTGGTTTTCAGCCTGAGGAGGAAGGTGGCTTTATTTAACTCCTTCAGCC
CCGGAACATCACAGGGCCCTTCTTTGTGCATTCTGGGTTCTAACAGCCMCTTGAACAGTGCTTGAGAGTATTTCCATTATAAATGTCGAATCGGCATTGA
AGGAACATCTGTTTTAAGTCAACTTAGACTCAATCCAGGAAAAAAAATAAATTTCTGGCTGTCCACCTGCTCAAAAGGTCAATTACCCACCCAAATCAGC
CAGAGATGGCTGATGGGCTACAGATGCCGAGGATATTTTTAGCAGGATTTTGGCAGGTACCCTGCTTGTTGAATGCAGCAAAGAAGAGGGAGGTTGATAA
ACCATTATACTGTTTGAAAGTTGGTGCCGCGCCAAATCTCCCACCAAATCTGGATGGTGCTTTTGAGCTATTTCCCCACTTCTGCTGAAGAAGGATTCAT
TTCAGTAGAAGGAGTGGGATAGGAAATGTTCACATTGCTTGCAGTATGTGAAATAGACCTCGAGGTATTTTGGATAAAAAAGCAACATTCGTGTTTTAKA
TATGGTTACCCAGCCCAAGCCGCCTCTGCTCTTTATAGCCGTGTTTTTGAAGTGTTCTTATTTTTTGTTCCGAAATCGGAATATTTCCTGSCGTGCGTAT
CTTGGCCCCATCACATCACAACAGGCTGAATGCTGTCCACAGGTTGCCAGTCTGGATATGGAATATTAGTCAAAACGATATAAACTAACTTGGTCTCTGC
TATAGGAGGGACAAAATAACTACAAAACAAAAGCAAGAAATAAAACAAAACCAAACAAAAGCCTGCAGTGTTTGGGCCCCTTTCAGGGATATCTGGAAAA
CCAAATGGAGAATTCCAGGAGCGGATTTGGAAACAAGGTTGGGTCTACTTTGGCCTTTAAGCCATCACTAGAAACACTGACTCTTGCGCGCTAGAGTGAT
GTTTTTCCTTCTCTTTTGGATTGACGTGCCAGCACCTCAAGAAACCTCTGTGAAAAATCCACAGGTCTTCAAGAACCAGAAGAAAACAGAATAAAAATAG
CTCAAAATAAAAATGAAAATGAAAATAGAGCAAACATCCATTTCTGTGGGACCTAAAGAGTTGGGAAACCTAAACAACCAGATGATGATAGCTGTTGCTG
CTCTTCCTGAAATCAATTTTAAAGTAGGAATTGTCAAAGATAATGAGACTAGTATGGAGCAAAAACTGGCAATTTTCAGTTAACCAGAATGTTGCATGAA
TTAGAACCCCAGATTTTCCTGGAGATGACTCTAGCCAGGCCATTTGAGGACAAGTTGCCAAATATTTGTATTTTAGAAGCCTCAGAAGTGTGCACAATTT
TCTAGTTCTCAACAAGGCACTACAGCAACATGTCTAGTGTTTATGTAAATGATCTTTATAAATCCTCTAGCTGATAGAGAGTTTTCTTCCATCACAGGCA
AAATGTGGGTTTAGATGCAATTTGTAATATTGTTGTACAAGAGTGGGGTCCTTTCACTGACATATACGAAGTGTTGTAATACAAGGCAAAGAAAATACAA
ACCCATCCTTAGTCATTTAGAAAGACAACCTGGTTGAGAATTTAAGATGATGGTTTAGGGCATAGCTTGTGGAATTCGATGGGTTGCACTGTAAGTTTCA
GTTTCCTTATCTGTAAAAGTAGGAATAATATCTAGACCTAAAGGTTATTTTGAAGATTAAATGAGATAATGCGTGAAAAGTGCTGACTCAGCACCTGCAG
AACCCATGCGTCGTCATCATCACGTTTGTTGAGGGATTTGAGGCGTGTCTAGGAACGCAGATGTGGAGACACCTGGAGCATCTTCAGGAGCTGTTTCTGC
GGATTCTCATGTGGCTTATCAAGCACAGGAAATAGTTTTCCTGGAAAGACATGGAGCAAAGCAGTTATTTAGCCGTCCATCCGGCACTGCCAACCTCTTC
GTGTTCCTGCAAGGATTAAATGAGAGATGGTGACAGTAGAGAGTCAGCCCTGAGGGAGGAGTGTACAATTCATGGGCTACTATTCCATGTGTGTGGGTCA
GGAGACGCTTAAGGCATTCACAGCACTGGGTGTGAGGAAGGATGCAAATAAGCTTAACTTATTTATGAATTATCTGCCCTGGAATGGCATTCTAATGTTG
TGTTGGAAGAGAGACAAGAATGTGCTGGGAGGATACTCAGTTTATAACGGACGTTCTGATGGCCAGTGCAAATGGCGCCAGGAATCTGTGTTTATAGAGA
TGGAGCATGGATGCCCCTGAGCACCTGTGTGTGTGCGAAGGGTGAATGGGTTGCTGGGAGTTCGTCGGTTGTTTAGGGAAGCACTTACGTGTATGCCTGT
GTGTGTCTCTAGGACTCACTCTCCACTTCCCACCTTACTTATTATTAGTGTTCTTGTTTCTCTTCGCTATGGGGAAATGCAGATAAACCGTAAAAACTTG
ATAGAGTGAACAAAGGCTTCGGAAGCTTCCTTAGTTCTTATAATTGCTCAATGGGTTCTTCTTGCCTGCTGCACAGGTAAAACCCAGTTCACTGAGATGA
CATTATGGCAGGAAAGAAAGAGTTTAATTAACACAAGTCCAGCCAAGCAAAAGGACAGGAGTTTATTATTACCCAAATCAGCCTCCCCGAAAATTTGGAG
GCTAGTGTTCTTCCAGGATAGTTTAGCAGGAAGGGAGCTAGGGAATGGAAAATGCTGATTGGTTGGGGATGAAATCATTGAAGTGTGGAAAATGGTCCTC
GTGCACTGGGTCAGCCTCAGTTCCAGTTGAATCACAAGTCCCAGGCCTAGGTGGGGTCAGTGGGTCATCAAAATGCAAAAGTCTGAAAACCATTCCAAAA
AAACCAGTCTTAGGTTCTACAATAGTGATGTTATCTACAGGAATAATTGGGGAAGTTCCAAATCTTGTGACCTCCTATGCCTACATCTTAGCTGAATTCA
GACCCCTCTCCTAATCCTAACCTTGTGGCCTTTTAGGAGCTTTACAAAGGTGGTTTCATTTCGGGAAAGGCTGTTATCATTCTTGCTTTAAGATTAAAGT
ATAAACTAAATTCTTCCCAGTGTTACTTTGCCCTATGCCCAGGGATGAGTGAGGACTGCCAGCCCGTGGGGCTAGAAGCAAGATGGAGTCAGCTATGCTG
TCATATTCCTCTTATGGTCACAATTTCACAAAGGTGGCTTCATTCTCATGACCATTGCTCCCAGGCATTGTTCTTGAATACCTTAGAAAGTTTCATTAGC
TCATGTCTCTCCTCTTTGTACCACCTTCCAACATTTCCCTACTGCCTTGGACATTAAAGTCCAAATCCAGTCTGTTCATCATGATCTGTGGAGCCTTTGA
TAATCGCAGCCTCCAGCTTCTCCTTCACACCTGTCTCCTGTCTCCTGCTTTTTCTTTTTGTGCACTGCCCAAGAACCTTTTCATCTACTAATCTTTGAGT
TTGCCGTCCTCTCTTCCTAAATCACTCCCCTCCCTCCACTGTTCCACGTGGGACGTTCCTTCCAGAGAGGCCTCCCTTAAGCCCACCTTCCATACCTCCT
CTGGTTATCCTCAGTCATGAGGCCCTGCTTCCTCCCGCACACTGAGCACAGGCAGTACCTGCTTTACTCATGTACTTGTTTATTATCTGTGTCACCCAGT
GGGACATAGTAGACTCCATCAGGGCTGGGAAGGAATCTGCCTTCGTCACCATTTTGACATCATTATCAAGTGCGCAATTAGGCTCACAGTTGAGCTCAAC
ATAGGATCTGTGGAAGGAAAGAAGGACAGAAGGAAGGAAGGGGGAAGGGAAGAAGGGAGGAAGGGAGGGAAGGAAGGAGGGAATAATTTCCAGGAAGCCT
CATTGGATTTCTTTCCCCCTTATTTCTGAAAGCTCACCTCTTTACAGCTGGCAAGGCCAGCAGAACTGAACAATAGAGCCGGATTAAGCAAGCATTCAGG
TGCCCACTTAATTCAATCGGCGAATTTGCATTTCTCAGGCTCTGTGCCATGAGAGCCTGCCGCCTCAAGGGACCACCTGCCTTCTACCAGAAGGACTTTG
CTCCTTGGAGAATTTCCCTCTGGCAATGGTCCAGGTCAAACGAGGTACCATACAAATGTGGCTTGTCACCATTTTCCAGTTTAACTTTCTCAAGCCTTGG
CTGCCTCGATTTCATTCCAGACTACAGTAGCAGCTGAAAAGGTAGCTACCATTGCAGTCGAAGACACTGGCAGATGGGACTGGCTTGTTGGCAGAGATGG
CAGAGATGGCAGAGATATGAACTATCTCTGAAAGGGCATTCTGCATGCCACAGTTAAGTGCTCTGTTGAAGGACGGCTCTGGAAGGGAGCATCCGCGAAA
TGAATAAGAAGGTGGTTATTAGTGAGGTCTCCCTGAAAGGAGCATAGCTGGATGCAATCCTTGGAGGCCCTGTCTAGGGCCTGTCTGGGGCTCCAGCTTT
CATAGGGCCGGCCATCCCCTTTGCTCTGGGTGAGATCTGTCTTTGCTTCTGGTGATTCTGATATTCACTATCGAGAACGATTGCTTTAAAACACATCAGA
TCAAAGTTTTCTAAAATCAGAGTAAAAGCTAAAACCTTTGCAAGGTCCTGCATGACTTGAGTCCCTGTTCCTCCCTTGACATCAAAATGGCTGTTGTCTG
CTCTCGCTCTCTCTCTTTCTCTCTCTCTGCTTCAGCTGTCCTGACCTCCTTGACCTTTCTTAAAAACTTTATGAAAACTCCACGTTTGGGCTTCCCTCCA
CCTGAGATGCTCTTCTCGGCTCCTGTGAGGGCTACCCCTTTACCCTTTATAGTGTCTGCCCGGACATCTCCTCACTAGAGACCTTCCCTGACCACTGCCA
CATGGAATAGTACTAATACTTCATGCTCATCCTCTGCCTGCCCTGGGTTTTTAATTTGTGCGTGTGGGTGGGGTGGGGGGCGGGGGGGGGCACTTATCAC
CACCTGCATATTATGCTTTTGTGCATTTCAGGTTGGTCTTTCCCGCAAGAAGGTAAACTCATCTGCAGCTGTATTCGCTGTGCCTATGGTAGTGCCTGGC
AAATGCACAGAAGTGGGTATTASTGAGGACTTTGTGGTTCGAATGGAATGAGTGTGCTGCTGACAGTGTTGCGAGTCATCTGCAAATGAAAAGTCCTTCC
TTCTCTTCCCTTCTGGAACCTTCCAAAGAGGCTAGCCTCCTGAGAGGGCGTCTCCTGGGAATGCCTGTGATCCAGGCAAGGCACCTAAATCAGCCAATAA
ATAATTAGTTTTGAGAAAAAAGCCTGCACAAAAGCAGAACTCACAGATTTTCTCATTGATCTTCCTGCCTTTGCCTTGGCCATGGTCAGTCTTTGGGGCT
ATTAGCTGCATGTACAAGTGCACAGGGGATGGGAGGGGGGCTCCGGAAGATCCCTAACCCATTGTGGACACACCATTTATGTTAGTGGAATCTGGTAAGA
GTGATTGAGGAGAGAGCATTGGGTGAATGACCCTGTAATCCTTATAAAAATAGTAGCAACGGTAACTAATGATGTTTATGAACTGCCTAAGAATGCCATG
ACTGTGTCAAGCACTTCCCATAACTAGCTCATGTAAAGCCTGTAACCATCTTGGGGGTGAGGACAATTATGTCCCATTGTGTTATGTGTCTGTGTTTGCA
GGAGTTGTTCAGTGGTAAGGTGCAGTCAGGACTTAAACCCGTGTTCCTGAGAGTAGCTCTGTGCTGCCTGACACACTCCTTCCTCCTGAATGCACAATCA
TATGTTCACGTGCCACATGGTTTTCAGAAAGCACTGCACGTGTAGGAAGCTCAAGACAGAGACGTGGCTGGTCACGGTGGCTCATGCCTGTAATCTCAAC
GCTTTGGGAGGCTGAAGCAGGAGGATCACTTGAGCCTRGGAGTTCGAGACCTGGGCAACATGGTGAGACCCCCATCTCTACAAACAACAACAACAAMAAA
AAAAATTAGCCAGGCGTGGGGGTGCATGCCTGTGCTCCCAGCCACTCAGGAGGCTGAGGTGGGAGGATGGCTCGAGCCCAGGAGGCCAAGGCTGCAGTGA
GATATGACCTCACCACTGCCCTGCAGCCTGAGCTATAGAGCCAGAACTTGTCTCAAAAAAACCCAATAATAATAATAATAATAATAATAATAATAATAAT
AATAATAATAATAAAGAAAGCGAGAGAGGAGGTAGGGAATGAATGCCGAAAGTGGTTCCTTGGGTCTGATGCCCACGCTTAACCGATTCCCAGCCAAACA
TTTCACAGTTGTCTTACGCACAGGCGTAAGATATGCATCTATCTTGGTGTGCACCTGAGAAGTAGTTATGTCTAAGTTTCCGACTTGACTTGGTAGAGTC
ATTTGATCAGTAAAGCGCAGAGCAGATGAACTACCTGGAAAGAAAGTGCCGGAACTCCCCACGTGTGACATCTCACTTCGGGGAAAGGTGGGCCCTGCGC
TGCGCTTGGCGAAGGTAAATGCACCTGGGTATCCTCTTGACCTGGAATGGTGGAAAATAAAGAAAACTTCAGCATGTAGCAAGTAGTTGTGAGTACGATT
AATGCTGTTTAGAGTTGCCAGTTCTCTTACGCACTCAGCGAAGGCCGTGTGGCTTCGCATTAATCACCACCAAGCCAACATGAGCTTCCAGCAAAAGAGC
CCAGTGATTGGGAACAAATTCAAAACAGCTTTATTTCATTGACAGACAGGACCTTTTTGTTAAACTGTGGTTTAAAGACCTTTACATCTCTGTCTTGTTC
ACACGTTACTGTAGTCATTTACGTAAACTTAGGAACTAAGAACCGACTTATTTATCACAACCTATTGGCAGGAAAAGGGTCACATAAAAAAGAATCTTTA
TTGGTAGGTTTTTTTTTTTTTTTAAAGCTAATAAACAGTGCTAGTGGAAAGTATGCTGTTATCAACCATTATTGAAGTAAGTGGGTTTCTGGACTGAAAA
AAAATAAAGAAAACATCTAAATGTCAGTGTGCAAATAGAAAGTAGCAGTCAATTAAATGAGGCAGTGTGTGGTCACCATAGATGGCCAATGTCTGTGTTA
TTAGGGAAAGAAGAGAAGCCGGGAAGGAGGAGGAGGTTTCTGGGGTTAACCTGTGTTTTGCTAACTGGTGTTAGTTAGTCTCAGATAAGAGCTCTATGTA
AACCAACTTTGGCCCAAATTGACTCATTGAAAAACACCTTGTTTCAAATTTTTTCCCCCTCTATGACCAAAAAGTTACCCAAACCTTTGTGTCACATATT
TAAGGATGTTCAAGGCAACCAATTAGTATTCAAGCATTTAGAATTATTTTGAAACATCTTCTGTGAAAAACAATTTATTTCCTATTCCWAAATAAATGCA
GAATATTCCTAATATAGTTTGATAGTTCCTCCTCAAGACTTATCATTCAAAGATTGGGCAAATTGACTTGAAAGAGAAAAGTTAAGCTATTTCCCTAATA
CCAAGGCAATGCAGGTCAGCTGCAGTGCCTAATGTTTATAAAACTTGTAAATGTTGAAACCCACACTTGGTCTGAGAGAACATCATGCTCCAGTTTGTTC
TTAGGAATGTGTTTCTGATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTCCAGAAACCAACTGGGAAGGGCCCTAAGCTGAGATTAC
TGTTGAGAAGTAAATTGTGCTTTTAAAGTGTCCTCCAGCAAAATGGTCTCCTGGCTGTCTTTGGAAATGACGTATCAGTCCAGATGCCCTTTTTCTTGAT
GGATTGCTAGGATTTTTACTCACCACCGATGGAAAATTCTCATAGTCTGGAAGGGTGGAGCGTCTGCCTTCTATCATGATTGTACACAGATGAGCAAAGC
TCCTTGGCAATGAGTGAGGCAGACGGGCAGTCAGGTTCGGACTGGTGCAGCAGGTAGGCTGCTGCTAGGGAGGAAGGAAGAGGCACAGAAGTTCAGGGCG
TGAGAGGGTATGCGAGAGATGTCAACAATCCAGGAGCTGGCTTGCTTCTTCCTTTAGTCAGTGGTGCAAGCTTCAAGTGGATAATTCAAATGAATCAATG
GAAAGGCCTCTTTTAACATTTGATTTGTTTCTTCAAAGAACACAGATGAAGTTTTTCTCATCTCTTTAGATTAGTGATTCTATATTGGTGAGGGAGTGGA
AGAGAAATGTGGGTGTGTTGACTATATTCTCCACAGAAACTTTTTGAAGTAGCATCSTCACTCAGCACAGAACATTTTGACAATACACTTCCAGGGCAGG
TGGTTTCTTACTATGTCCCTCCCTACCCCCACATACTTTGGGACTCAGAATGTAGGGAGTGTACTCTCGAGGGATGCRGCCCATACGTGAATGCATGGAG
GCAGCATATAAGGTTGCAAAGCACTGACCTTCTCTTTTTATGATTCCCATTTATTCCATAGACTGTGAAGTCTGCCTGTACATTTCCAGGCTAGCAGTTT
TTAATCAAATGTATGATCACTTTCTTCTGATGAACACAGTTAAGGGGCTTTGTTGTTCAGGTGAGTCTCACATTGTACTCCTCTCCTAAGAGCATTTATT
ATTACTTGCTACATACATTTTTGACAACCTGACAATGACTTTTTTGTCTTAATTTGGAGAAAACATACTCTGAGCTTTTGAAGTTGGTGTACTTGTTAAA
GGAAGCCAGAAAAGCTTTTCAACCATTTGAGAGGGTGTGAAATACAGAAGGGGTTGTGCGTTTCTTCCCCCCTCATCTCTTAGAGCCCTGTTACCCAAGA
GAGTTCACCAATTACCCAAACCAAGTTTCATTTTGTTTTCTCTCTAGTTTGAAAACTGTTTTTATTGCTTCAACTCTCCTTGTCTAGGAGAGCTGTTTCA
GGTTTTTAGAGTCCTAAGAAAGGCTTCACTGGCTCTCTGCCAGCCTCCTGTCCCATTACACGCTCAGGCTTGTAGTCAGTTACTCTCTGCTGGTTTTGCT
AAACCACTCTTGGGTCTTTCTTGGCCTCCTGCCCCGCATTCCCCTTCACGTTGTAAACGTAGCTTTTTAAGTTGGTCCCTTGATTGCTTCAAGTAATTGA
TCTGTTGGCCTAAAAATGAGTGGCTCTGATTCAGAGGTAGGAGTTAAACCAGATTCTGCCTAGGGACAAGTGTGTTGGGAGCTCTGCTTCTCTGGAGACA
ATGGTCAGCAGTGTTGCAACCAACTCCATGTCTGGTGCACCAGATGGTCTCATTGGGTGGTAGGGTGGCCAAACCTTGTGTGAGCTGGCTCACTTGTTCA
TTCATTCATTCGTTTACTCGTTCTTTTTTGTATTAGCTTAAAAATGCTTATACGCCGGCCATGGTGGCTCATGCCTGTAATCCTAGCACTTTGGAAGGCA
GAGGCGGGAGGATTGCTTGAGTCTAGGAGTTTGAGACCAGCTTGGCCAAAACAGTGAGACTCCATCTCTACAAAAAAAGAAAAATAAATTAGTTAGGCAT
GGTAGAGTGTGCCTGTAGTCCTAGCTACTCAGGAAGCTGAGATGGGAGGATTGCTTGAGCCTAGGGGGTTGAGGCTGCAGTGAGCTATGATCATACCACT
GCAATCTAGCCTGAGTAACAGAATGAGACTGTCCCCCCAACCCCCCAAAAACAGAAAACAGTATTCCTATCATATGCATTCTCAACTCTGCAGAGGTCCT
GGGTCACATTTCCTGCAAAGTTGCACTGCCTCCCATAGGCATGAGACCTCCACATGGACAGAATTTCATGAGTGTTCACCTTGGTGTTGCTACTTTGCAA
CATAGACTTGAAGATTCAGAGAGGAGATGTGGTAAGAGTTTATTTCTGGACAGAGAAAAGCTACACCATTCATCTAGATCTCATTAATCTGTATTCATTT
TGACATGCTTTTCTGCAGTTGACGTTTTTATTTATTAAGCGCTTTACAAGATATTCAGTATCATTATCGAAGCTATAATTATTAATGATCAAAGTTAGCA
GTACTTGTTTTAGCTGTCATCTTCATCATCACCATCACCATCACCATCGTCATCATCAGGGCCACAACAGCCTCTTCTTTTCTCTTAAATCTTCCAGCAA
TTCTTCAACTTTGCCTGTATATTTATCATACAACATAATCCTAGTATTTAGTAAATGCTTRGTCTTTGATTTCTTATTTTCAAATGCATGTCTTTAGAAC
CAGAATGTGTGTAGCTGTTTTCTGGCCTGAATTTGGGCTGAGATGATGAGAAGTTTAGTTGCCACTTTCAGCTWAGTGGAAGTGTTTTCCCCATTTGGAC
TCCGGGTCATTGACAAACGTCATCACTGTTTTTAGTTGAAATGTGCTTCCATGTGGCTGTTCATCAGCACACCCATATCTAGACGTGTGCTAGCCTCAGT
GAGAGTTGCAGAATCTGTGTATTCATTTCCTTTATCTAGAAATCCTCATTATGGTACATAAAAGAGCTTTCTATCGCTTTTTTACATTATAGTAGTTATT
CGTTATTATTATTATTATTATTATTATTATTATTATTATTATTATTTCTGAGACACCGTTTTACTCTCTCTTTGCCCAGGCTGGAGTGAAATGGCACGAT
CGCAGCTCACTGCGACCTCCACCTCTTGGGTTCAAGTGGTTCTTCTGCCTCAGCTTCCTGAGTAGCTGGGATTACAGGTGCACGCCGCCATGCCCGGCTA
CTTTTTGTATTTTTAGTGGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCAACTCGGCCTCCCAAAGTG
CTGGGGTTTCAAGCATGAGCCACCGCGCCTGGCTTTGTTATTATAGAGTTATATGGATTTATCATTTTAGGTGGAGATTTGAGTTTATGTCTCCTACAGA
CAGCCGTAGACTTTGTTTCATTTTAAGATCAGTGTTGCAGACGCTGCTGAGTGTCTCCAAATGTCTGTTCTCCCTTTATTACCTACTAATAAAATACCTA
ATTTTCAACAGCCTGGGAAGAGACTATATTTCCCTGCTTGCCTTTGCAGCTAGAGTGATCCTTTGATGAAGTTCTAGTAAATGGGACGTTAGCAGAACTG
TCGTATCTCAGGGCTTCCGTAGGGTTTATAACTGATCCACTGAGAGATAAGTTGAGAGCTTGAGAGTCAACCTTTAGAAAAGTTCGTAACTATTTGTCAA
AATTAAGCTTATGTCTGTTCCAGGTAGTAATTTTAAAATGGGCTTATATTTTGTATGTCCTTTTTAATTTCCTTTTTCTAGCAATTCTCAATGTTTTTTT
AAAATCTCTTCTGGAGGAGGGTACCCTTCACAAAGTTATTTGCCAAAGGTCTGAGAAAAAAAAAAGCCTTTCACCATGGTTAGTTCGAGAAGCACAGCAA
TACAGTACTTCTGCTACGAGTGTATACAGGCTGAGGATGGGTGCTTTGTGGCCCTTTTCTTTTACCGGCTGACTAGAATGTTGACGTTAAAGCAGTTAGA
GTYCGAGCAGGCAACTCCGACCCCAAGTTGGAGCTGTGTGTTGAAGATAGAAGAGCAAATATGTRGAAGGAACCTGGATTTCTATTTTTTTWAAAAATAT
AATAAATCATCCAGCCCCAAATGTCAGGAACCTGGGTTTCTAATGATGGTTGGCTGTCACCCCCATTTCCCACACTTTAAATGAGAGAAGTAAACATCTG
ACTTCCTAAAACCACCGTTCTCACTCAAAGCCGAATCTCATCCTGACTGAAATGTCACTAGTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGTC
ATATTTTCTCCATTTGGAGAGGCTGGCTGACCCATCAATGGGCAGTGTGGGGGAATGGAGAGACCTGGGATTTTGGGGACAACAGTGACCATGAGGGGAT
CTCTACACTCCTACTTGGAAATGGAGTAGCATTCTACACTTAAGTATCTCCCTTTATAAGCTAGGAATACTAAGAACCTAAGAGTCTCCATGAGGATTAG
ATGAGGTAATGTTTGTAAAGAATCTGAGATATAGTAAGTTGATCAGCAWATGTTATTTATCCTCTTCTTCCCTCTACAAAGATAACTAAGCTGAGATAGC
CTAACTCCCCCAGCTCAGAAAATAGCAAGTTATTTGCAAAATCAAATGCTGATGTAACCATTTCCATTCTGAACTCAGAAAATGGAGATAAATCTCTTGC
AAGGCTTTTGATTTTAGTTTTTAGATACAGAACCTTTAAAAAAAAAGAAAAATAAACGTTTTGCCAMAGTGTAGTATATACAACAGATGTGAGGGAAGGA
CATTGTTTTAAGTGGGAAACGTCAGCTCTCTCAACTTCTACACATTCGACTATTCCCTACTCCTCAGTGACCCCAAAGACCCCAGAGAAACTCAGTATGA
AAAATCACTATGGAAGTGCAATAGTTATTACTTTGTTTGGAATTCACTACAACACTGTTTCTCAAAATATAATTCCTGAGTCACTTGGAAGATTACAACC
AACTGAATTAGAATCTCTGGAAGGCATCCTAAGAGTCTGCATTTGTATGAAGCTTCCCAGGTGGTTCTGCTCAGCCCTAAGTTTGAAAACTACTGGCAGA
ATAGTAGCAGAGTTACTTATTCTACATTCGTTTTTTAACCCATTGTAAAAATCATACATGTATGTTCAAGACACCGGCAGATCACAGGAAGGGAAAAAAA
ATCACTTATGCTTCCACCACCTTAACCTAGAAACCTTTAGGACTTTTCAGTACTTCCTTTCTGTCTTTTTCCCCTATACCTAAGTTTTTATTTACAATAT
AGTTGTAGCCATATGATTGTTGCTTTCATTGTTGCTTACATGTGTTAAATAATTTTGTCTCTGTATAATAACAACCTCTGGCGATTTTTCCTTTCTCTCT
CTCTCTTTTTTTTTTCTTTTSTTTAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTTTAGTGGCATGATCTTGGCTCACTGCACCCTCCGCCTTCTGG
GATCAAGTGATTCTCCTGCCTTAGCCTCCTGAGTAGCTGGGACTATAGGTGTACATCACCACACCTGGCTACTTTTTGTATTTTTAGTAGAGATGGGGTC
TCATCTGGTGATTTTTCAAGTAAGGTAATGGAAGCAAGAGAGGTTTACATACATGGTGTACATATACCTCGGCAGCCTGTTTCCTTCCCTTATAACTATC
TCAAAAAAMCATATTAAGTTATTTTTCAGAATTATGTTTTTTCCTGTTGCTTTTGACTGTAAAGGGCAGACTTAAATTTAGTTAACATCTGCTCTAAYGT
TGGATCATGTGTGGAGTCCCCAGTTTTCAACATTAAAAATAAAGTATTTGTTGAAGTGGGGTTTTTTTCTTCTTACAGTATATGTAGAACCATTTTCTTG
AAAATGTTTCTTAGAAATTTGTTACTTAGAAGATTTGAGCCAATGATACATTGCCGAGATTTGTAAGAGTAAGACCAGCCTACGCTGAGTATTATTTTCT
CAAAGGAATATTATGAGGCACATCCCATCTTCATATCAGGGAACAAACTGTCACATTTTAGTGAAATCTGTGGGTTATGTGTGACCACACACAGTGTCGT
GTTTGCTCCCTTTACAGAAATCTAAGTAAAAGAATCACTTTTTCCTAGTATCTGGATGACTTGATTTCTTACTATCTTGGGCCTTCTTGGAAACCCTGAA
ATGTAGCCTTTTCATCTTAATTCACAAAGTGTTCATTCTCACCCTTTTCCTTCATGAGAATTTTCTGAAGCTATTGTGAATCTATGGAAGACTCAAGGTA
GTATCTTTTTCACAGCATTCAAAAAAATGCTGCTGGCTCCTTGRCTTGTCCGGTGCATCCTCCGTGCCAGCCCCCGCTGTCCTAGAACCATCTAAGCTAA
CTCTCCGATGAGCTCTGGCCTCTGGACCTCAGCCTATCCAGGCCCCTTCATGACCCAGTCACAGTGATTCTATCTGTACCTACCACAGCTAGGTAGGCGG
TATGGGAAGACCACAAACTTGAGAGTCAGACGGATCGAACTTCGTCTTTAGYCCCCCACTTAGGTGTTATGTGACTGTGGTCGGGTTATTGGTAACATCT
TCTTGCTCAGCTTCCTGACCTGCAGAATGGGAATAAGAATACCTAGCACATAGGGTTATAATGRAGATGAAACTGCTTAACGCATGTGAATAACAACAAT
GGCTAACATGTATCAGACGCTTGTCTTAGTGTTTATTGTTTTATGCGTATTGTCCTGTTTCATCCTCATGCTTACCCTGAGAGAAAGGTGGTATTATTAT
TCTTATTTTGCAGGTGAGGCTTAAAGAGGTCAATTATTAGGTTGAACTGTATGAAATGACTGTTTTTATAGGGAAAAACAGTAGCCGATCATCAATTCCC
TAAGGTTCCACGTAATAATTTGTCCAGGTCTCATAGCAAAAAGGTGGCCGGATGAGGATTTGAACCCACTGCTCTCCAACCCCTAAGCCCGTGCTTTGTA
GAATTAATCGGAGCTCTAAAGTACTTGACCCTGGGCCTGACACCAATCAGGAGCTTAAAACCCATTAGTTTCTTTTTTGTTTTATTTTTGCCCACTATTA
AAATGTGCCAAAGTAATAAGATCAAACAGGGCCCCTGCGTTTTGACAAACATCCGAATTCTGAATTTCAGCGTGGAACAGGGCATGGAAAGCAAACACAA
TGGGGAAAATTGCCGTGGCCGGTCCCGACAATGTGTGGATTAAAAAACCACACGCATGCACAGAGACCTGATGTGAATGGTATTTCTGAGTGGAAGCTAA
GTAGGAGCTGAAAATGGCCTTTTAAAATACAGAACATAAGGATGCAATTCACAGAGATGGTCTAAACTGTAAACATGCAGCTGTGGGGTTTGTGAGGCTC
ATTGCTTACATACCGACAGCATACAAATTGTCAAGTACTTAAAGTTCCATTGTTGCTGAAAGGGCCTCCACCCAATGTCCTTAAATGGTCCCCCYTTTTT
TTTTTTTTTTCAAACCACAGGATTTACATCTCTCGTAGCATCTAATGAAATACCAGCAAGAATTGTGTGTTGGTGTAAGAAATAATAATCTTTCCAAATC
CTTTTGTTTTGTTATCATTTGCTAATAGAGATCTTTGAAAGAAAATTCAAAGATTGAAGTTTGTATTCTCCTAAACTCCTGCAAAGAAGTCCTGTGCAAG
GATCGTTCACTAGTGTTCTGCATCGTTCTTCTTACTCAACTCTCCCGAGAGGCATTGTGGACGCCTGTGGGGTTGGTTTTTGGCACCCATCCCTGACCCC
TTCTTCTCCAGGAAACTCTGTTCCTACCTGCTCCTCTTGTGGCTACCTTGGGAGGTGCCATTTTTATCAAGGTTAGTGTGTGGTTAAGCACCTTGCCACA
AGCTCAGGGGAAAAAAAGGTCCCCTCCCCAGATTTTTTTTAGAACTGGAAGTTTCCATTTCCTGGCACTGCTGAAAGCTCTAGGACATAAAACTTGGGAG
CCGATGGCCTTCAGGCTGCCCATAATGTGAAGAGAGGTCATTTCAGACATTCAGATAAAGTCTGTGGCTCCAGTATTTTTCTAGGTCTTGCTCCCTCCCT
GACCTTTTCACAGTTTGGTGACACAACTCTTCCTTGAATTCCATAGGTTGACAAATTCCCCTGAGTTTGGGTTAGGGTTTTGTTACTTGCAAGGCAGGCA
TCACAGGGCTGCTCCTGGCCATGCATAGCTTTGGAATCACTTCTCTGATTCTCATGGCTCGGGAAGGAGAAAGTGTCCTGTGTGTGGAGATGGCAGGGTG
GCTGGAGTTGAGAGGAGAGTCCCTTGAATGCCACGCAACATTTCTCTCTGTAGGTGTCCTCTGCACACTGTCCAAACTCCATTTTTAACCTTGACTGCAT
AGTACCATGTACATTCATTAAGCATCCCTCGCCATAGGAGAATCTGAGTTCCTGGGAGCATTTAACACAGTTCCTGGCCTTGAGTAAAAACTTCATAAGC
ACTTGTTGAATTGAACTGAATTTGTTGTCTGTGTTTAAAGGACTTGATGGATAAAGGGAGATTTAACAGTTTATAGCCAGATTGGACTCAACCATGATGA
TTTCTGGTCCATCTTTTAGAATGGCTTCACTTCTCTTGGCCTTTATTTCTCCAAGTGGTGATAATGAGACCTATCCCTAACGGTTAAAGTGACATGGTCC
ATTTAAAGTGCTTAAACCAATTGCCAGGCACATAATAGGTGCTCAATAAATACTTCCTTTATTTCCCTGTTAGGCCTCTCCCAACCAGAGATCAAAGATG
ATTGGCCCTGAAGTTATTTTTCCCCCCAAATTTGATAGAAATCAGTAGAGATGCTAAAATATAATACATTTGACCTGCATTGATCAAGGTAGGCTAACTG
CTATAACAACTTTACAATTAGTGCCTTAACATAATATAAAATGACTTCTTGTTCATGTAACATCCAAGGTAGCTGTACCTAGTTGCAATGCTCTCTTCCA
AGTAGATATTTAGGGACACGGGCTCCTTCTATCTTCTGTCACCACCACCTTTATTTTTAGCATCCGCGGTCTTAGCAACAGTAGAAGGAAAGAATGGAGA
TAAGACAGTGGGTATTTAATCACCTTAGCCCATAAGTGACTCACGTCACTTCTGACTACCATATCCAATTTTTGCCTCTCTTTTTTTCTTGGGTTCCCCC
CGACAAAAAAAAATATGACAGAAGTATCACCCATCCAGCCAGCCAGCCATCAATCCGGTATCCATTCATCCATCCATCCATCTAGGCATCCCAGGTGACT
CATTCCTGTGACCTTGGGAGACAGTCTTTCTTCCTAGAGGTTGTTTGCCCCAACCCCCTGTTACATTCTTGAACCATATGTTTCCCATTGTTTGCACTTC
CCCTAGTCACCTGGTGCTTTAATTTTTGCCTGTAACCTTCTGAAACTTTCCTTAAATGTTCGGCTTTGACCTGTCATTCACTAAGTCTTTCACCATCCTT
CACTCATCTTACCTCCTTCTTCTGTGGCATTTCATAAATTTAATGATTGTAATTGTGATTACAACATAATTGTTTGTGTCTACCCCAGGCTTTGCAACAG
GGAACTATATCATTATTTTGCAGACACAACAAATTCTGCAAGCATGTATCTTTGGAATAAAGGAGAGAGGGTTGGACACAAATGTGATTACAACATATGC
TTCTCTGGGCATAGCTTTGCCCCATTGCACGAATATAGAAAATTTGGCAGGCTGAAAATAAGCGGAAAGATCCTCAAGCTGTTCCTTCCACCCCCTGGGA
TGCTGATTAAGTTAAGATTTCAGATTTTATTTATTCTACGGGTATTTGTTGAATATTTATTTCTTAMGATRCCACGCACTGCTTTAGGCACTGGGAATAT
AGCAGGATATACAAAACAGAAAAATCATGGCCCTCATGGATTATTGGTTGTGAGTAATAGGAACCTTTCAATCTAACTTAGGAAAAAASGTTAGGGAGCC
AAGGAGGAAGAGTGGGTGTGATGATGCATCAGGATACCAGAGAATCCCGTGGAATCCCACAGTGACACAGCCAAGCCTTGGGAGGGGTGACACTAGCGAT
AGAGACAGAAACCCACACAGGAGTCCTTTTCTCTGTCTCTCATCTCTGCTTTTCTYTGTACATCTGGTTCAATTATTCTCTTGCCACGAATCAGCTATTT
GTATTCCTCTGTGCACGTCGCAGAAGATCAGGAATTTGCACATTATAGTCACAACCATACCTAGAACCAAATTGCCTAACACTGAATCCCAAATCCAAAT
TCCTGGGAGATAGAATTCAATTCTTCTCTTGCCACAMATCAGCTGTTTATACTCCTCTTTGCACGTTGCAGAAGATCAGGAATTTGCACATTATAGCCAC
AACCATACCCAGAACCAGATTGTCTAACACTGAATCTCGAATCCAMATTCCTGGATTTGGATGGACTCAATCTGGACCCAGTATCTACATTTGGTCCAGT
CATCTGTATCCGGCATCGGGGTCTTGTTGAAAAACCATGGCTTAGCCGGGTACAGTGGCTCATACCTGTAATCCCAGCCACTTGGGAGGCTGAAGTGGGA
GGATCGCTTGAAGCCAGGAGTTTGAGACCAGCCCGGGCAACACAGGGAGGCAACATCTCTAAAAGAATTTTTTAAGGAATAAAAAGGAAAAGCATGGCTT
TTATTCTAAGAGCAAAGGCATTTTGTATATTTGGCAGGTATCCCAACAGATGCATCACCCAGTCTCTTAAATTAAGATAATAATTTATTTGGCAAGTGAA
TTCTTCTAGTGTAGTTAGATAGTGATGAAAAGATTTTTATACCTCCAAACACACACACGCACATGCACACCCACCAGGCTCTTCTTTACTTCTCACTCAT
AGATTTGAAAACAACTATTATATTATAGAAGTTTTTTGGTATAGCTGCCAGGGGTCATTGTTTCCATCCCCTGTGTGGAGATAAGAAAATCGAGATCCAG
TGGAGTGTGGGGTGCTGAGAGAACAAGTCTATGTTTTCTTGAGACAAAGTCTTGATCTGTTGCCCAGGCTCGAGTGCAGTGGCAGCATCTTGRCTCACTG
CAACTTCTGCCTCCCRTGTTCAAGTGATTCTCCTGTCTCAGCCTCCTAGGGAGCTGGGATTACAGGTGTGCACCACTATGCCCAGCTAATTTTTATATTT
TCAGTAGAGATGGGGTTTTGCCGTGTTGGCCAGGCTGGTCTTGAATTCTTGACCTCAGGTGATCCATCCACTTTGGCCTCCCAAAGCGCTGGGATTACAG
GCATGAGCCTAACTATCCTCATTAAGCCATCTGCTTTCTGCAGTCATTTTCATGGCGATGTGTTATAACAGGACAGACCTTGTACTTTGGAATCAAACAT
TCTCAACTCTGCTATCTGCTCTTTGTGGGGCCCTGAACAAAAATMTTTACTCTCTTTGAGCCTTCGCTTCCTCATTGGTCAAGACTTTTCTCACTGCATT
ATATTTGAGTGAGACCCGTATCAATGGATTGAAATTCTCAGAAACCCAAGACCAGGAATAGCCCAGTGACAGGAATTTAGACCATGCCAAGTGTGAACCA
TGGCTTGCGGGGGCTCCTGTCTCACGCTGGATGCTCCTGCCTGGCTGCCTCTGGTCTCCAGCAGAAGACCTGTCGTGCTTGAGTGACAAAGCAGATTGCT
TCCTCCCACCTCTGTGGGTTAGGACCCCTTTTTCTATCCTAGTTTCACTCTGATGGGCGAGTTCACTCACAGTGAAACCGTAGCAAAACCTCAAGGTTTG
GCTTAACTGCAAAGGGGTGGTTGATATCAGATTCATACGCCAGAACCAGAAGACCACTCGTGAGAAATTCTGTAAGCACAGGAGTGTGGTTTRTGTCAAA
ATCAATCTGATGGAGTGAAGCCATTCCTTGCCAAGCGAAAATACAGCATCATCAACTACATCCTTGAGCCTAGAACCTCTTCACTCAGCACCAGCTAGTG
GGTAAAGCCCGGGAGAGGTTGTAACAAATCTGATTCCCTGACACTCACCTGAAACAAGATTCAGCAAAATTAAAAGCAATATTAATATATGTCGCCTTGG
GAAACAGAGGCAGAGGAGAACAGGAAAGAGTCAGATGGACTTTGATTTGAGACCCGTTTCTGCTTCTTCCCAGGGTGTGACCTCAGYGGAGTTCCAGAGC
ATCCATCTCCTTTGTAAGACACAGATAATACCAACTGCATGGATTTGTTATGASAGTTACATCAGGGGAGGGTCATGAGGTCACCTTCCCATGGCCAGGA
GAAGCAGGTACTCAGGAATGGCTACTTCTCTGGCCACTTTATAGACCTATGGAGATGTTGAAAGTAGCCCAAAGGAACTGTGTGCCTCGCATCTTGGTCC
ATCTTCATGGGTTGATCATTGTGGTTCATATCACTGTTTCATGAAACACAGCCCGCCAGAAAGTCCCGAGTGTTTTGATTTCATCCTATACCTATAGTTA
CAGGCCATTTAAGATCCACAGTCTGCTCTTTTAGCTTCTGCCAGCACATTTGGACATCTGTGCAGTTCCCAGGGCAGGTGAAGAGTTGTTCATGTGATGC
AAACTTTTGAGAAGGGACGTGTAGGGAAGATGGGAGGGAGGTGATATTTATTGAGTATTTTCTTTTTGCTTTCAGCTTTATACCTTGTGTGTGCTTACAG
AGGTCATGAATTGTCCGCTGTTGTATGTGTAATCCGTGGCAGATGTGCATAATAAGTTCAGGAGGGGCTCGGTTTTGGGAGGCCGGGGATACTAGAAGAT
AACCCTAAAATGTGGAAATCTACATCAGAGAGTGGTGTGARTGGTTCCCAAAATGCCTACCTGGCACTCCTACCAAAGACACAGCAGAGAACTTGGGGCC
TCTTGTTTCAGCCATTTTCATCTTCACTGTAAATCTAGACAAGATAATGAATGAAGAACCTGACACATTTAAGGAACTCCATAGTTGGGAGCCCAGTGTG
AGTCATTATGGCGAGTCCCTAACACTGCGGTTCCCCTACTTGAGGGCGCAGGTAGGGGCACTTTGCTGCCTCCTTTGACAATAAGCATTGCCATTGCCAT
GTGATTTGCTTTGCCTAATGAAATGTGAGTGACACTTCCAGATGGAAATATTAAGAGCCAGTGTGTGGTTCACCCTGACCCCTTCCTATGCCCCAGCAAT
TAAGGAAGCAATGTTCAGATGAAACCCATGTCTTCCTCCTGGGTCCCTGAGTGACCACAGTCAACAGAGCTTCCCTGTTGGCCATTACTAATGTCAAGAA
CAAAGCTGTGTAAAGTCACTAAGATTTTGGAGGTATCGGCTGTTGCAGTAGAACCTAGCCTATCTCACCTGACACAAACGTTTTCTTTCTCACAAAACCT
CACACCAGTGTTGTTTTATTCATCTGCTTATGCACGCGTATGGCTGCAACATCCTTCCAAAATGCATTACAGGCTCTAATGCACGATAAGACAGTTAGGT
TCGAAGGAAAACAAAGACAATTGCACGGCACAGAGGGAATATACTGCTACGGTAAACCGATCACTAACAYCCGGCCCTGAATTTGCTTCAAAGTTTTCAC
TAAGGCACAAAGGGAGCCGTGTGGAGCTCCGGAGTTCCCATCTGAGGTCTTGTCTAACTCCTTGGCAACTTTTATGTATTTGTATAGGAGACTCTTTTGC
CAGATGGTTGAAATGTTCATCCTCCTATTTTGTTTTAATGCAAACTGACATTTCTTCATCTTCCTGCGGTGGGTTTCTTTTATGAGGTCGTGCTTTGCAT
TTTCATAGAAAGAATTTCTGACTCCCGATCGGAGCCCACCCTTGTAGTTTCTGTGGGGGCTGTTTTGGTTAACCACTCGCATCAGTTTTAAGTCTCCACA
GGCAGAACCAGACCATCGTGAACTTCTTGATTTACATGGTGGTGGAGAGTGGCTGAGAAACCAGGGAGAAACAGGAAGGAGCTGATTGAGGAGACCAAAG
GAGGGTGGGGCCGCAGCTCTCAGGCACTCTTGGTGTTCAGAAGGCCAGCTTGAAGAAAGATGTGCATATTTGCAAATGCATTTCTTGTTCCTAGTGAAGA
GGTGAGGAAGGACACTGACTGTGCTAGAGCTGTACAAAGAGAAGTAGAACTCTAAATAGAGAAAATATGTAAAGATCAATAAATCACACCAAAAATAAGT
CATAAGAACAACAAATAATACCAGGAATAAATAATGTAAAATATAAATAATTCCTAAAATGGTGATAACAGCTTATGACAAGTAATTTCTTTTTTTTGAG
ATGGAGTCTCGCTCTGTTGCCCAGGGTAGAGTGCAGTGGTACAGTCTCGGCTCACTGCAACCTCTGCAACCCAGGTTCAGTCGATTCTCCTGCCTCCTGA
GTAGCTGGGACTACAGGTGCATGCCACCACGCCCGGCTACTTTTTGTATTTTCAGTAAAGATGGGGTTTCACCATATTGGTCAGACTGGTCTTGGACTCC
TGGCCTCGTGATGCACCCGCATCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCTGGAGGACAAGTAATTTCTAAGTATTATTTCTTT
TAATCCTCRCAGTGACTCCTTGTTAGGGWTTGCTGCATTTTATACAAAGAAGAAAGGAGTCTGTGGAAGTGACATAAAGTAGGACATGTATTCATTTACT
GATTCAACCTTTCATTTGTACATATATGTATATTTTACAGACACGGTCACCCTGTCTAGGTATTAACAGTTATTACAAAGATGATATAATTTTGCAATCA
AAATACAGACACAGTTGTCTGTCTCCCAGGCTGGAGTGCAGTGGCACAATTATAGCTCACCACAGCCTTGAACTACTAGGCTTAAGCAATCCTCCCGCCT
CAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGTCGCCACACTCAATTATACACTTAAATATACATATATATATACAATATACATATGTAAATATATCT
GCATATACATGTTTAGGGACAAAAACACGGGAGTACCATTTCTGTCTTTGTCTCTCTCTCTCTTTCTCTCACTTGACTCTGTTGGGAGCTATATTAGTTG
TTTTCTCTTTCCAAACCACCTTCTGGAGGTCTCTTAGATTTTCCCAATGATGAAGGAGCTACTGTCTAGGTTATTACAGTAGTAATAGTGGCCAAGAAAA
TGATATGAGGTTGAAGTGGACAGATGATGCTTTTCACTCTTCTGGGAGGTTCCCACTGGGTGGTCTGCTTTGCTGAGCTTTGAAAAAGAGCTTTTCTTCT
TCCCAGTTCACTGGGCCGATGTGGGCACAGCCTCAGGTTTTGGTTTTTTTCTCCTTTGCTCCTTCACCACCTAGAAAACTAATTTCCTATAAAGAAAATT
TCTCTGGAAATGCAACTTTCTCAATAGGTTGAGTCTACTCAAAGACTGACAGGTAAAAGTGGTCCACATAGAAAAACCTGTTTCTCTATTTTGTTTTCAA
AATTATATCATCTTTATAATAACTGTTAGTACCTAGAAAAATGCATACATTTTATTCCTTACCAAAACCAGTTACCCTATAGTCAAAAGGCATTCAGAAG
TATTAGCAGAAATGTAGTCAGTAGCCAGGCATAGTGGCTCACACCTGTAATCCCAGCACTTGCGGAAGCTGAGACTGGAGGATCACTTGAGGCCAGGAGT
TCAAGTCCAGCCTGGGCAACACAGTGAGACCTCATCACTACAAAAAATAAAAACAAAAAAATTAGCCAGGCTTGGTGGTACATGCCTGTAGTCCCAGCTA
CTCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGGATCGCTTGCATCCAGGAGGTTGAGGCTGCAGTGAGCCATGACTGTGSCACTGCACTTC
AACGTGGGCAACAGTGTGAGACCCCATCTCCAAAAAAAARAGCAGTATAGTCAGTAAGAAAGAAAACAAACTAACAGTCAATATTGTGGCTGCTCTCAAT
GTTCTTTAAACGGATCACATTGCCACTTTTTTCTCTTTGTAAAAATGAAAATTCCCAGCACATATTACATGCTCAATAAATGTTAATTGAGCATTTTCTG
TCTGAGAAGTTCAGGCAACTTTTCATCCTTCCAATTGTTAAGTTCTAGTTTCTTATTACAAATTATTACTGTTATTATTTTAATTTGATTGATATGCAAA
AGTCAAATTTGTGCAAAGAAAATGCAAGCTTTGAGATGAGAAAGCGTGTCTTCTGGTATGTTTCTTGATACATTTTGAGGGTATTGAGCTCTAATTTACT
TAAGATGACCTTTTGAAAATAGATTAACTTATCAAAACTTGTGGTGGAAGCAAGACTTTGTCAGTACAGTACTATCCAAATTCTAAAGTAATGAATGCTT
CTCTCCCTCTGGAGTTAGAGACCTGACTCTGGGGTGTGGATAAAGAATTTGTGTCCTGGCCAGGTGCAGTGGCTCATGCCTGTAATTCCAACACTTTGGG
AGGCCAAGGTGGGAAAATCACTAGAGTCCAGGAGTTTGAGACCTGCTTGGGCAACATAGGGAGACTCTGTCTCTACAAAAAATAAAAAGAAATTAGCCAG
GCATGGTGCTGCATGCCTGTAGTCCTAGCTATGTAGGAGGCTAAGGCAGGAGGACTGCTTCACGCTGGGAGGTGAAGGATGCAGTGAACTGTGATTGTGC
CACTGCGCTCCAGCCTGGGTGACAGAGTGAGACCCTGTCCCAAAACAAAATAAAACAAAGAGTTTATGTGTTCAGTAAGAGCTGCAGTCACATCTCTAGT
ACAGACTCTGCAGAGCACTAGGAAGCCCCGTGTCTGAATGGGATATGGTGAGAGAGGCAGCCTAGGGAATGGAGATACCTGGGGGTCCCCATCTGCTCCT
GATGGACAGCTCAGATGACCCCAAGACCCTCTACCAGGCACTGATGGAGTAAGGATGGAGATGGGAATTGCATTTTAGAGGTAAGAAGCCAAGTGGCATG
ATGAGGAGAGTATTCATGAAATTTATGGAACAGTCTGGGGGAAATGCCATGATTTCAAGCCCTTCACCTAAATCTTCAAAAGTGGCATGGATCAGTGCCT
CTCTTCCCCAGCCAGGAGCGTGTGAAGCATGGGGACCTCCGGAATGTTCTCAGAAAATGCTTGGTTCTTCCTGTGTTGAGCAGGGAAGAAGCTGAAGCTA
GCATGGGCAGGGGAGAAGAAAGCCAGTTACATATCAAAGAATGCTTATCTCCGTAGACACCACTGTGTTTGAGAGTCACATTGGGTGGTTTGTAGGCAGC
TTTTCATTTTCACAGCCAGTCAGGCAAGGCTTGGAATAACTTGTCTAAGAATCCTCATCTTAACCCTGTGCTAGAACAACAAGCTTGGAAGGAGCCAGCC
AACAGGAGAAAGCCAGAGCAAGACTCTGTGCTGGACAAGAAGTCCTGAGCACTGGGGAGTTGACTTCATATTGGAGGCAGAGAAGAATTACCTGCCGATG
GCTGTTGGCCCATGGCAACACCCTAGATCSTTGCATTTGTGGTCCTGCTGAAAGAGGAGACTTAAGTTATAGAGTTATTGGTACTTGCAACACTTTCTCT
GGAATTTGGCCATTTCTCTGCTCTTTTAGTTTAGTACGTTCTCTTGGTTGCGAGGAAATCACTGAAGCCACCTCACGTAATGTGAGCATGTATGCTCAAG
GGGACCAGGAAATGCTGAAAGTTCAGGCCTCGGAAAGGACAGGATGTGGAAGGATGTTCTGGACTCAAGGAGGCCTAGGGACCCTTGGCAGGAGGCATTC
ATGGGTCTGTAGTCCAAGGCTCCACTACCATCTCCTTGGCTTCTCTCTTCCATTCTAGCTTCTTCTGCTTATTCATCACTTTTGCTTCCTATGAAATTGG
TGCATCCTGGTCTTGGCCTCTTTGAGCCCTCTGTATAGTGTGAGCTCATCTGGTACTCTTGACTCTCTCAGGCTCCTGAAGGAGAACCATCAGATAGAAG
CATCTCATCTCCCCAGGCCATGCCACTGGGCCTCAGCCAGGCTTGAACTAGCTAGGCTCAGTCCACGGGGTGGCCTTCAAGCAGCCTAGACTTGGATCCC
TAAGCACAGCCTGTGGATGGGACGTTTTAAGGTAAAGGGAGGACGCAGAGCATTGCAGCCCGTTGGTTGTTTTCTCCAGCACAGCCATGCAAAATCCATG
TAGCGGCAGGAATTTTGCAGCTGGAGTTGCTCCCCTGAGACTCTGATCAGATAAAGACAGGGTTTGCTGAACACCGTAGGTCTGGCCCTGAGCCGTGGGC
AGCCTGATGAGCACAGGTGAATGGTGCAAGGGATAACCTCACAGTCATCAGCAAGTCTTATCTGGGCCGCTGCAAATATGACGGAGTCAGAAAAATGACA
ACATAAAGAAATGCGATGTTTTCTATGGGGGTTTCTTTTTGAAACTAAAAGAGGTTTTCTAGACTCACTCCATGGAGACCACTTTACTTTCCATTTTTCT
CAGATGATAACATCTGCAGGGGGGCTCCTTCTGTGGGTACATCATTTGTCAAATATGTGGTCCATATTGAGAACCGCATAATACTTATTAATTACCACAG
TTGCTACTTACCGTGGGCTGCTAAGACTGCTTTAGATATACTGCAGATATTCAAAGAGAATTCATCGTCCACCCAACGGCAAAGTCCATAGAAGCCCAGG
ATGCATTCTGACCCTCATCCTTTAAAGCTTACTGAACATATTGATCACCTCTTTTCCAAAGGATACTTCCTATTGGAGTGTACTTTTAAAATCTATTTTT
TTTGTCTTAATGTTTAGTGTAATGAGGGAGTATAGGATGAACTCAATGTACCTTGAACATAGCTGTTGTCAGGAATGAAGCCAATTTCATTTTGCCTGAA
TTAGGGCCCTTTGGTGTCTTTTCTGTATGCAGTTAATACAGTTCGTGTGCTGTACCAAGGGTGCGAATGTGACTTTTCATCAGGAAGGCCGCATATGGTG
GGCACAGGGCCTAGCTCTGCCGTTTTATAGCTGCATAACTGGTTTCTTGACCTTTTATGAGTCTCTACTCATGTTTTATATGGAGACATTAGTCATCTCA
CAAGATTTTTGTAATGATTAGAATATTTGTAAAGTTCCTGGCAAAGGTTTGATTATAAATTAGCGTCATCATGAACGTTCAAGGTGGGGACCTTTTTTTT
TTTTTTTTGAGGCAGAGTCTAGCTCTGTCGCCCAGGCTGGAATGCAGTGGCATGATCTCGGCTCACTGCAACCTCCTCCTCCTGGGTTCAAGCGATTCTT
CTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACACGCCACCACGCCTGGCTAATTTTTGTATTTTTAATACAGACAGGGTTTCTCCATATTGGTCA
GGGTGGTCTCGAACTCCTGACCTCATGATCTGCCCGCCTCAAAGTCCCAACGTGCTGGGATTACAGGCATGAGCCACCACGCCCTGCTAAGGTGGCAATC
TTTATACATAAAAAACAGGAATGACTTCTTCGAATTGGTGCACTAGAGAAATGTTTTCCAGTCGCCTAAGCGTTTAAGCATGGTAAACAGATTACCATAT
TAGTTGCCCAGACCTTGCAAAACTTCATAGTGTTTGTTTGTTTCCCTTGGGAGGCTGTTCTGAGAAGGAACCTTTTCATTCCTCGGAGTTCTGATGTGTT
CATTGGCCCCTGTTGTCATGCTGGATATGGGGGCGGTTCAAGGGGGGCTTGGGTGCCTGAGAAAAAGAGTGAAAAACCCAACTGCGAAAACCCAAGAGAA
ACCGAAAGAGTGAACACTGGAAAAAAAAAAAAGGGGGGGCCGGCGAGCTTCAGGACCTAAGCGGTTAAGGAACTGGCTTTGACAGGAAGTGGGCAGGAGG
CTGTTTTCAGTATGCTCATGGGAACCCAGCTGGAAAGTGCTGTGGTGAGTGTGTGTGGAAAAAAGGGGCTTTAATCAAGCTATAAATATCTGTTTCTTTG
AAGTTTTATGACCAACAATTAATGTTACTGGAAGGCCCATAAAAAGGGYTGTTTCTTGACTTGGTGGGTCTGAGTGGGCCAGGGTCGGGTTAAGATGCTA
GCCTCGTGGGGTGCCATCCTGACAGATTCTACTGTGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGATATAATGTGTTGCATTGGTGTCTA
AAGCCATGCTCAGTATATAGTTATATATTTCATTCATTCATCCGTTCATTCAGTTATCTCACGTTTCTGGAGGGCCCTCTATGTGCAATASCTAGTGATA
CAGCAGTGAACAAAGGAAATCCCTGCCCTCAGGGAGCTTTCATKCTACTTGGGGAAAGAGACGTGAAAGAAATCAAGACATGCAAGCAAGGATAAGTGCT
GTAAAGATAATTCATTCCTGTTTAGAGGGCTGAGGACAGGAAGACGATGCTGTATGGCTCTAGACAGGGTTCTGTGATGAGTGGCCTGTGGACAGATTCC
TGTCCGAAGAGGTGCAGGGTGCAAGGGAGGAGGGGACGGCAAGTATCAAGGTCCCGAGTGAGGCACATGCTCGGCGGGGCCCAGGCATGCCACCAAGGCC
AGGAGGAGAGACTGAGGAGGCTTGGCCATGCCCTGCCTTGTTGGTTTTTAGAAAGACTCTGTTTTGGTTATTTTGTTTTTCTTTTTTTGAGACATCTGGA
GTGCAGCGGCATGATCTCAGCTCACTGCAACCTTTGCCTCCTGGGTTCAAACAATTGTCCTGCCTCAGCCTCCCAAGAAGTTGGGACTACAGGCATTCAT
GCCACCGCACCCAGCTCAAATTTTTGTATTTTTTGTAGATACCATGTTGGCCAGCCTGGTCTCAACCTCCTGACCTCAGGTGATCCACCCACATCGGCCT
CCCAAAGTACTGGGATTATAGGCACAAGCCACCGCTCCAGGCCTAGAAAGACTGGATTTTACCCTGATTGAGCGAGGGAGGCTCTCGAGGTTTTATTTGG
TTCTGCCCAGTGACCAGCCACCATAACCACATCCTTCCCCCAGACTTTTTCCTCTTCCTATAAAACAAAACAAACAATGTGAACAACAAAAGCAAAAACA
AAAAACTAAGTAGTAGTTGGGGCATTTTTATTTTAATGCTGCTTTTTTTTTTCTCACCTTTTGCTATATGCTGATCCCAGTGCATGAAATTTTTTTGTAA
TCTCATTCCTGTGTTGAAGCTCTTTCACTGCTTTCGTGAGCACAGATGAATTTGAAGGCTGCCAGGCAGTAGCAACATATACCAGCTTCCCCACTGGGTG
TTCATTCTACCCAATTTTTGTTCATGTGGACTTCAGGAATCTGGGATTTATGATCTTCGGATTTGGCTCTTGGCTTGAGGCTTAGCCTGTGCAGTCATCT
TGGAGAGAGGGTTTACTAAGCAAAGAACACCCCAGAACAATCTGGGGGAACTGTGCCCTTTGCAAGAGAGCAGTTTTAAAGTACCCTCGGGCAATTTAGA
AGCTCCTACTGACTCAAGGATATTCTTACCTCTTCGTTAAAGCAGCTCGCCTAAGGACTTTGCTAGATAAAAGTTGGTTTTCTCAAGAGGGTTTCTGCAC
ACACCCGACCGCATCTTTTTCTTTTCTTTTCTTTGTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTAGCTCTGTCACCAGGCTGGAGAGCAGTGGTATT
ATCTGGGCTCACTGCAACCTCCACTTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACCACAGGTGCATGCCACCACGCCCAGC
TAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATGTTGGCCAAGATGGTCTCGATCTCTTGACCTCGTGATCTTTTCTCGCCTCGGCCTCCCAAAG
TGCTGGGATTACAGGTGTGAGCCACCGCACCGGGCCTCACGTTTTTCTTTTAAAGAAATGTGTAATTCAGATCAGTCTTGCTTTCAGGTAGTCTGAATTA
GGGGAGTTTGCCTGTGTGCAAGAGAAGGCTTCCTACTTCATTTTCTTGTGTGCAGGGAGCCATTTATGACTAATAGGATTCATTACATGTGTGTTTAGCC
CACCGATTATTAAGGCTTTAACAATATTAAAACCTAAAGAGATAACAGAGGGGAAGCCTTTGGGAGCTAGGAATCAATCRTGCTGGGTGGCTTGAAAACA
GGGCAGTAAAATGGCAGCCGCCTAGCCTGTGGTCTTTAATATTAATAAAGCCAGAGGCGATATCACTTAGTTGTTCCAACATGATTGGTTCCTCATGGAT
GTGCACCCTTGCTCATCACCATCTCACCACCAGGCTGACCCTATACATCTTCCAGGAGCCCAGCTCTTTCCCCTGGAAATGGTTCTCTGAGTTTCAGCTG
CAGTTCAGGGAAAAGGCCAGCAGCCACGTTCCTTGTTTTGTGTAATTGGTCTTTAGCCTGATCTGATTCATCTGGCGAAACCCCTTTTTCCAGTAAAAGT
CGTTGGCGAGGAGTGAATTGTGATGGAAACAGAGACAGATGTATGTACCTTTCATGGACATAATTTCCCCAAGACTGAACACAAAAATGAGGGTTTTTGG
AGATCTCTCTGGAATTAATGTAAACGTTRTTGAAAACATATTATTCTATGGCTCCTTCATAAACCCTAGGCCATCCCGAGGCTGTCTCACTCAGGCCCCT
CAGCCCTCATAACCCCCCAGCTCCATAGGAGTGGAGTTTGGATTTCAACTAGATAAGGCCCATTTTCATGGATGGACATGTGAGTTTTCATCTATAATAT
AGAATGCTATTTTCTAGTTAGGTTGGAGCAAAAGTAATCGCGGTTTTCACCATTATATTCAATAGCAAAAACCGCAATTACTTTTGCACCACTACTTTTT
ACCTAGCAGTTCAACAGCTGTAAAGAAAGATGCTGAGCTGTTGGTTACGTAACTGTGGTACAGCCATTTCATAGACAAGTCTACATCAATGAAAAGAATG
ACACTTCTAAAGGAAAAAAAATGGGCAAAAATTATGTGTTTACATCTATCAGAAAAACAAAACAAATGTCACGGTGTGGTTGGGAGGAGGTGGGGAGAGA
GGCAGATTTTGGAGGCGAAAGATACACAGAAACACTAAATACCTGTCTATTAATRCTGACAGTAGTTGCGTTTAGGGGATGAGACTCTAAATTTGTTTAT
TTAAATTTTCTCATTTTAAAAAATGAGTCCTTTCAATTATGAGATCAAAAAGAAATGTTCAGTGGCTTATTGTGACCCAACATTTTTCTGTTTGATTTAG
ATAGAGCTTTTATTTGCCTAAAAATTGTGCTTGCAATATATATGATGATTTTTTTTTCTTTTATTAAATGAAAAAGAGTCATTTAACAGTCACAGTGGCT
CAGCCACCACCCGCAGCAGGCAGTGGGCCCACTTCACCTTCCCAGCAGGCCTCCAGTGCCCGGTGCAGGGTGGCCCATTGGCACCCACAACAAACATCAC
GACATTACTTTTACCGCACACTTCCTGTCGAGGCACAGGCAGTGCTTCAGCCTTTTTGGTAACTTGAATGAACATCAAAAGGATAATCAGATATTAGTTA
AACTTGTTCCTCTTCTCCAATCATTGATACTTTTCTCTCTTGCTTCCCCTCCCCCTGCCCTTCGACACAGAGTGACAGGCCTGAAGTAAAAAGGGWAAAG
GGGAACCGAGTGACTCAGCCCAGAGTGGGCCTCACCGCAGCTTCCTGGCCACTTTCTCGCTCTCTCCTTCCAAGAGAGAAAGGGGAGGAAGCCCAGAGCC
TTCTATCACTTAGTACCGTGTCATATACCACTTCCACAAATGCTAGGGAATGAACGAATACATGTATGAATGAATGAATGTCCATGGGGTCACTCAGAAG
TAGTGGCATAATTTAGCCAGATAAAGTGCCCACCTAGCACTCATCCCACCTCCTCACTCCTCTATCCTGTGAATGCAGAAATACAATTCCTCATTTACAA
ACARCTGTGCATGTAGGGTTGCTTGCAAAAGTTCGTCGTGTGCCGATATTTCATTACCACTTTTGCCAGCGCTCTCGTCTGCATTTCCTGAGGTTTTTCT
TTTTTTTTTTTTTTTCTTTTTTTCTTTGATACGGGGTCTCGCTCTGTCTCCCAGGCTGGAGTGCAATGGCACGATCTCGGCTCGCTGCAAACTCCAACTG
GTTCAAGCAATTCCCCTGCCTTAGCCTCCCAGGTAGTTGGGATTACAGGCGCCCGCCACCATGTCCAGCTAATTTTTTTGTATTTTTAGTGGAGACTGGG
TTTCACCATGTTGGCCAAACTGGTCCAGAACTCCTGACCTCAGGCAGTCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATGACGGGTGTGAGCCACCGCA
CCAGGCCATTTCCTCAGTTTTAAAAAGCAAATAASAAACAACAACAAACTGCATCAGAGTAACCGTTTCAAAAACCCATCTCAGGTCTGTTTTTTCTTTT
TTTTTTAAGTTAGCATTTTCTAGAAGTTTTGGTATAAAATATGTACAAGGATACATATATAAACTTAGTGACCATCTGAAGATAAACCTGGAATGAGGAA
TAACAACCTCTCATTTAAAGGAGTTTTAAAGAGACAAGAGGGAGGAAACGAGAAGAGAATGACAGTGTTTCTTTCATTAAAAGGAGCCCAATATTTATTG
AGCCAACAGGTTTACACTGTGTCTACCCCAGAGTGTCATCAGCCCAAACCAGATCAGCGTCGTGGGCGATTTTTTTCACTTTACTGCTGAGGGGATTTGC
CAATCGCCTGGTCAGCTTCTGAATTCTTCGGGCACACAGGAGGGGCGACATGGTTCTGGCTTATTTCTAAGTCCCTTTGAGGTGATTTCTGGTCCACAAA
TTGAGGCAAAATAATCCTCACAATTTCTTGGATATTCTCTGCCCCAGCCCCGTTCTATTGCAAAGGAGSCTTCTCTAAAAGGCTTCCCAATGCCTTAGAA
TCTACTTAAGGGTATTTTTGCTGGAGAAAGAGCTGCTGTCTTTGTCCACCTGTCGTTTTCCTTTCTACCCCAACAGGGCTTTCTCCCTCTGGCTGTTTTA
TTTAGCGGGAGAAGACAGAAGAGATGGAAAAATGGACCCTGCATTTATAGCTGTTCCTTCAAGGAGCTCAAACTGCTTTCAGGCATTTCCTTATTACCTC
ATTAATCCTCATAATGGTCCCTTGGCAGAATTATTCTTATTTTCAGAATGGAGAAATTGAGGCACGGACAAAATAAATGGCAGGTGGAAGGTCAGAGAGC
CAGGCAGCAGAAGAGGTGGGGGCAGCAGGATGGCTTCTGGTTTCTGCCCTGGTCCATCAGTCAGAATGTCCTCTTCAGATGAGGAGATGCAGGGTGAGGC
GCGGGGGAGCTGACATTGCATAAATAATAAAACAAATGGAGCCACATTTAGTTATCACTCATCTAGCGGAAGTCGATCTTCTTGGGACATGAGTAGGCTC
TAACCTGGCAGGTTTTTCAACATGGAACCATTATTTGTCACATGTGTTCTGTGTGCCAGGGACTGAGTTCTTCTCAACGGAGTTTACATGTGAGAGGAGC
AAGGGACAAACCTCACAAATAGGAATACAGACCTCAGAAAGCCGACTTCACCCTTGCATACTCCTCCAGGTTGCCCTCGCCTCCCGCCTGGATCACTGCT
CAATTCTCTCTCTCTCTTTTTTTTTTTTTTTTTTTTTTAAGACAGAGTCTTGCTCTGTTGTTTAGGCATGATCTAGCTCACTGCAACCTCTGCCTCCCAG
GTTCAAGTGATGTTTCCCACCTCAGCCTCCCTAGTAGCTGGGACTACAGGCATGCGCTGCCACACCCGGATAATTTTTTTTTTTTTTTTTTTATTGGTAT
TTTTGGTAAAGATGGGGTTTCACCATGTTGTCAAGGCTGGTCTAAAACTCCTGACCTCAACTGATCCGCCTGCCTCGGTCTCCCAAAGTGCTGGGATTAC
AGGCATGAGCCACAGAGCCTGACCACAGTCCTTTCTTTTAAGGGCCTCCTGGCACCCAGCCATGTTGGGACCCTTTCAGTTCTTTCTCCACGGAGAACCA
GAATCTCCTTTGAAAATATGTTAGATCACCTCTTTCTCCTGCTCCGAACTTTCTGAAGGCGTCCCCTGTTACTCGGAGTGCAAGCCATGCTCTCGAGCTG
GCCATGGCATCCTGCGTCCTCTCCCTTCCCCCATTGGCTCTGTTCTTCCTGCCAGTGCTCTTCCCCCTGCTCACTGGGTTCCAGCTGTGCGGGCCTCCCT
GCTGTTCAATGGAATGAGACCCATGCCCCTCCTGGTTATCCCACTCAGAGTGCCCTTCAACAGCTACAGGGCTGGCCCATCCTTTCTCTGTTACCTTCGG
AGGAAGCCTTCTCTAGATACCATCTTTAAAACAGCAATCTTCCTTCTCCATCCCCAGCAGCACCTCTGACCCCCTTCACCTSCTTTATTTTTCTCCATAT
TATCATTGCCATCAATCCAAGCACAATTTCCAGTTACTTACCCATTTTGCTTTCTCCCCGCTCTTTGAGAATGCTGGCTCCAACAGGGCAGGTATTTCAC
CTGTTTTGTTTATGCCTGCATCCCCATCACTAGGAACCTCATAGGTGCTTAGCAAATTTTTGATCTTAATACAGAAATTGACTCTCACAGAATAAGAAGA
AGGAGCTTGAAGCCGAGGTTTGTGCCCAGAAGATCTCACTAGATTCTTTATACTCTGGGGAGAAGAAAGGATCAGGGTCGGGTGGGGACATCTGTGGGCA
TATTGGGGAGGGGGCCAGGAAGAAGCCAGGAAGGGGGCATGCTGTCATTCGTGGGTTTTGCAACTTTCTGTGGCATAGAAGGCATAGAAGGATCTCTTCA
TTTAAAAGGTCAGGTTGGATTTTTTTTTTTTAACTTCAACACCAGTTAACTTACTTGCTTCCATCATACCCTGTAGGTACTCGTTATGGACAGGAATACA
TGTAGGGTGAAGGCTGCTCTGGGTCAGTGGATTCACAGAGAAGTCAGAATTCTCTTTTATAAAGAGCCTGCTTTTCTCAATAATTGCATAATGACGTCTT
TGATTCCCAGGCCCTCATGCCTAGCTGTTTCCTTAGGCATTTATTCAAGATCCGAGATGCCATTCGCAATCCAGCAGGATGCATATTTGTATCTGGCTCC
AAAACTTTTTTTTTTTTTTTTTGGCCCACATCACTGCAGCCCATGGCAGAAGAGTCTAGCAATTAGCAGGAACTGAAAGTGATAATTTATTGCAACCAAC
GCTGTGATCTAATAGTCACACATTACAAAAGCAAAATCCATATTTTGTTCGCAGTGGCACCGCAGCGCTATCATATGCTCCACATGCTTTCTAATGTCTT
TTGTTTGTATTAGGAAAAAACATAACCCTCTCCTACTGAGAACCAGAGAGAGCCCCTCAGGTTCTGAGAATGACGACATTCAACATCGTACTCCAAAGGG
GGTTAGGTTTGTGTGCTAGGGGTGAACGCTGTGCAATTTAATTCTGTTTCCAAAAGATCTTTGGAGGATAAAGGATACTTTCTGTCTTTTATTTAGGGAA
GGCGATCATGTTGGCACAGGGCATAAGAGAGTAGCGGGGCTGAGAGTGGGAACTGAGGAGATTCAAGCCTTTTGCCCGTCGATCGCAGTTCAGATCTGTT
GATTTTGACCATTGCATCTTGCCTCACATCTGAACTTCAGGTGAAGTTTCAAACCACCAGGCAACATGCATTACAGGCAAAATGATAAGTCAGGTCCTGC
CGGGTGACTAAGGCAGTGTGGCAATGCTTCAAGCCTTTAAAACCATATCCCAGTGGCCCCAAAGCATTAATATGTCTGGAACATTGCCTGTCCAATATCT
AGAGAGGCGCCTGCAGAATTTGATTCCTAGGTACATCAAGTTTTTGAGCTGGAAGAAACTTGAGACGCTCTTTAGTCCAGCAAATTTCAAACCTGTCTGC
TCATCAGAATCACCTGGGAGCTTGAAAACACACAGATGCCTGGGCCTCACCATCCAGAGAGACATTCATTTGATTGCAGATTGAATCCAGAAGCTCTAAG
CAGAGGCACAGTCACATTTGGGGACTCCTTTTATTTAGTAGAGGAGGAAACTGAGTCTCAGTGTCTGAGACAGACAGTGGGGATTGAACACAGACACCTG
ACTCCCAGTGGGTGGTATTTTCTCCTAGAGTGCATTTCTGCTTCTTAACCAGCAGAAGAAAGCCCATTAACTAACCCCTCAGGGGTCACCATGGGCAAAG
GAGTGCATATTAAGAACTGTCTGGAAAGAAAAGAAGGTCATTGGAATCTTCTTCACCCCTTCCCTGGTACTGATGGTTGCATTTCAATGGATTTCTCCAA
AAGCAATTATCACAGTGTTCCTGTGTGTTGAGCAAACTTCCCTTGTAATCACCTTAGCGTTTTCTTTTGTTAAAGAGTAAGAAGAATGGTTTCATAGTGA
ATTTTTCCTAAAATGTGCAGGGTGTAGAAGAAGGAATTGCACACAATACATGTCTACTAGGCAGGTCAACATAAATGAGTAGAGGCAGGTAATAACCCAG
ATACACTTTGTTGGAAAGTGGAATGCATAGAAATGGTCTTCATTTCTGCAAAGAAAAATGTACATTCTCCTTTTTTTCCTTGCAATATGTTGCCTTCTCT
GTATATCTTTTAAAATTTCTACTTCTGATAGAGTAAAGGGTATAGTTTTGTCCGTTTTGTGTTGCTATAACAAAATACCTGAGACTGGGTAATTCATAAA
GAAAAGAAGTTTGTTTGATTCACAGTTCTCATGCCTGGAAAGTTCAAGATTAAGCATCTGGGGAGGGCCTCAGGCTGCTTTCACTCCTGGCAGAAGGCAA
AGAGAAGCCAGTGTGTGCAGAGATCACATGGGCAGAGAGGAAGCAAGAGAGAAGGGAAGTGCCAGGCTCTTTTAAACAACCAGCTCCCGTGGGAAATCAC
AGAGGGAGAACTCACTCACTACCATGAGGATGGCATGAAGCCCTTCATGAGGGATCCGTCCCCATGACCCAGACACCTCCCGGTAGGCTCCATCTCCTGA
CATCTTCACACAAGAGATCAAATGTCAACATGAGATTTGGTGGGGACAGGCAAACCAGATCCAAACCATAGTGACTATGATATATCTTTCACATTTCTCT
TTACAAAAAGAAAAACAATGTAAGGTCCCGTGACAATTAGCCTTACTGCCGGGGAGACCATAAGGAGTGGTGGAGACTGTGGTAAACTGCAGCGCGCACA
CTCTGTTAACAGAGGAGGTCACTTTCCATTCTAGCTGACTGTTGTCATATGAGGATACACAACTATGCTGGCCAGTTTCTTTAATTTTTTTTCTCTTCTA
ACAGAATCTAGAAATGTAGATTGTGTGTGCGTGTGTGTGTGTGTGTTTGTGAGAGAGAGAGAGAGAGAGAGAGAGAAATCTTTAGGAGTTTTAAATATTG
GCAACTAATTCAATTTATTTCTGTTTTTAACATATTGCACCAAATACATGGGTATGGGCCGAAAATAACATGAACTTTTTGCAGTGTACAAATCTCTAAT
TTGAGACTTCTAATGAAAAGATATTTGGTTACAGTATGAGAGACAAGGGACTAAAATAAGGTTGTGGATCATTCAGGGTTAAATCAGAGCAACAGCATGA
GTAGGAGATATATAGAAACAGATTTATTGCAAGGAGTTGGCTTATGCAATAGTAGGGTTGCCTAGGCAAGTCTGAAATCCATACAGTGGGCAGTCGAGAG
AGGCAGACAGGAACTCTTGGCATATGCTAAAGCTGCTATCCACAGGCAGAATTTCTTCTTCTCCAGGAAAAGAAACAGTTCTTCTCTTAAAATCTTCCAA
ATGATTGACTCCGTCACACTCAGACCATCTAAGATTATCTCCCTTCCTAAAAGGCAGCTGAATAAGGGCTTCAATCACATCTACAAAATACTGTCCCAGC
AACACCTTGATTCATGTTTGACTGGATAACTGGAAACTATAGCCTAGCCAGGGTGGCAAACAAAATGGACCATCCCAGGGTAGATGTTAAAAAAAAGATA
CCCACCAAAGATAAATAAGATCAAGATTAGAATGTCTTCTTTTGATAGGATGTCTGATTTTTCTGAATTTTTGTTCCTAAAACATAAGATTATTTTTAAA
AGCCTGAGAAACGAGACATTAGTGATCCGATTCAGAAAAGAAGCCCTGGGTTTAAGCCAATACGAGATGGGTTTGTATCTTTAAGTGGCCTTTATTACCA
CAGTAATAAACAGCAAACGGGCCCAAATCTTACAGGCTTGTGTTGGCTTTGACCAATGAAGTAGAACAAGACCTCTGAATACCCCGTTAGTTCCAGGCTG
TGCTTTGATGGCTCTGCACAGACAGCTCTTTTCCTATACAAGTCACCAGCCTCACCCGTGTCTCTTAACAAATGTTGTTGACAGGCCGCGTTGCAATTTT
TCTGCATGTTCTGACAGTTTAATTCAGTACCTCCTAGCTAAGCACTCAGCCTAAGGGGGTGCTTCAGCACCTTGGCGTCACCAGGCTGCAATTAAAATAA
TTCAGGGACTGGGGCTGGGCTTGCAGAAATAGGCCTTCTTCCCTTTGGAACATACAATGCATTTTCCAGTCTCCCCGTGGAGCACACGAGATCCTTTTAG
AGCAGAGGGCAGTGGAATGTATTAACAAGATGTCCACTGGCAAGAACTAGCTCCATTTGTATGTTGCACCCAACGGGGTTTTCTCCATAGGGGTTAGGCG
TAACGTCTTTGGTAAACTTGGCACCTGTAGAAAGGTCTTGTGGTGGGCAGGGGGGTGTGAATGGGGGAATGAGAACTAGGGAACCCAGGACCCAGGACCC
AGGACGAGAGTTCAGCAAAGACCATTTACAGAAGCTATCCTTCCAAAACGGCCACTCAGAAATGGTGTCTTTTATTTTGCATTCTGTACAGGAAGGACAA
ATGGAGAAAAGTCTCCAGAAATTGGCCTCGTTTGAAAGGACCTCATGCAAAGAGAGATCTTTGGAGACATTTCAGAAAGGTTTTTATTCAAACATATTCG
CAGCTTGTATGACAGTGGAATGTTTTGAAATGAGCTTGATTCTGTTTACCCATCCTTCTTAATCCAACAACTCTGCTGGTCTCTCTGCTGACACAAGATC
GTTCGCAGGTTATAGAAGGATTTAACACGTCAGGTAAGGTGGAATTTGGTAAATTCCCCAAATTTACAAATAGATGAAAGTTGGGTAAATTCCCCAAAAT
TACTTGATGACAAAGATCATTTGGGAGAGATTCTTTCAAAAATGCCTACTCCCTATTCCCATATCCCAGCCTAAGGGAATGAGTTTAAGTGGGTCTACAG
TGGGTCCTGGGAATTTGCTTCTTATCTAGCATCCCTGGTGAATCTTTTCATTCAAGCCAATGCAGGAAGTAGTCCTCTGAAATACATGTCCACAGAACAC
GCCGTGCTTTCCAGAAGACGCAACAGACAGAAACTTTCCAAAGGGAATTACCTGGGATCATTTCTCATCCTCTCTCTCTTTCTCTGTATTACTTAGCCTT
AAAAAAAAAAAAAAAAGGACTAATACTTCCTGCTTTCACATCTACTTTCCAGATAGTTTTTTCTAGAGGTAGGAGGTACATAAGAGAAACGTGTTTTATG
GCTGTGGTTTTCAAGAAGTACAGCGTTTTGGAGAGAGTGGAAGGCTTTCATGCATGAAACACTCAGGGAGGTAGGAGATCCATGAGATCCAAGCTAAACA
ATTCTGGAAGAGTTACCTGAAGTTGACACTTAATTCAAGCTGCATCATCTTCCTCCTCCCAGCAGATGAAGACCAAAGGTGGAGGGTGGTGGGGGTGGGG
GGCAGGGAGTAGGGGGGAGGGGGGGAGGGGGTGTGGGGAGGGTGGGGCGGGGGTGGGCAGGTTCAGGGACTGAGGCCGGAAGCAAAACAATGTACTGGAG
TGCTTATAGTTTTTGAGGAATCAGTGAGAAATGTCATCTGAATGTCTCTTCTCAATCTTTCTGAAAGATAACTTGCCTATAAACATAAAATTAAAAGCCT
GCTGTCTGCTTAGTTCAGGTATTGGGTCAGCGTCTTGTGACTATGGACAAGAGGTGTTTGACTCTAGGACTCASCTACCTCATCTGTTAAATGGGCAAAC
TGGGAGGGTGTTTATCTGCATGCAACATCTCCTTCCATTTGAAAACTTTTATGAATGTATGGAATATTATTGAGCTGGTGTGTGCTAATACACTGCTAGG
AGCCATTGGAGATTTGAAATGTGAGAGAATGCCTGCTGTCTGTCGCATTTACCAAACATCATGCTTTTCAAGATTGTTAAAAGTTGCTGAAACCCTTCTT
TGAAGGAAATCATACTTTGAAGCTCAATATATAGCAAACGGGTAGAAGAGTTGCTAAGAGTTTGAAAATGATCTCATTAAACAAGAAACATATATACAGT
GCCTACCTAGGAAAGAGCCAGGCATATAATAGCCACTGCATAAAGATGTCAAGTCTTTTGGACACAATCCTAATATCTCGGAGGTTCTGAAGCTAAAGGG
TACATGTTTAAATTTTATTTGTTTCATTAAACACCTAAAGACTCTTTCTAGCTCACTCCTGCCAAAGGCAGAACTTGAGAGTGGCATTCTTTTCTGGTCT
TTGAAGACGACAGGTGAAGGGCAGAATGTCCTGTGTACTTGGGCACGCACATGCAACCCTGGCTGGTGGCTCCTCCTCTCTGTCCTCTTCCTCCCTCTCT
TCCTTCTCTTCCTTTTCTTCCTCATCCTCCTTTTCCTCCTCCTCTTCTCCTTTCTCCTCATCCTCTTCTTCCCTCTTCTTTGTGTCCTTGTTTCCATTTG
CTTCTTGCTTTGGGCAAGTTCTCACCATAACCCTCTGGCAAAGGCAAATATTCACCTAAGTGGTTAAGTCTCTGGGCATATTTGTTGATCTCTGCTGAGT
CTCTCAGCCCGTTTTCATCCCTCCTCTGCCTCTCCCTAGCCATTAGCCAAGGCCTTGACCTATTGACTGCAGTGTTGCCGAAGCAGCTGGACTCCGTGTT
TGAAAGGTTTTCTGAAGAGGCATCTATTAATTTATGTATTTAATTTCTGTATGAAGTGACTGTTCTCCTCCCAGCACAGGTATTAAAGTACCTTTAGGGG
AATCCAGCAGCTGAAATCCTCAGTAAGGAAAAATGCTTAGAGTGTCACAAAGCAAACGCATTAGTGGGAAATGTTTAGGGGCTCAAGCACAACCACAAGG
ATTCACTCCTTCCTTGGATTTTGTGCCTCTTCCCCTGTTCCTGAGGCCCCCACTGGGAACCCTTAGCTGGAGAACACCCGTTTCATTATGGAACATGGAG
AAAAGGGTGATTGTCAGCTCCAATTTATTCCATAMTATCTGATTCAATCTGTAGTTTGACTTTGCTAAAGGAATTAATTTTTAAGATCTTAACAAATCCA
GTAACATTTAAAATGACCTATCCAGTCCATGCATATTAGCTATTCATAAAGGGTTTTAAACATTATTATTAATCCTAGATATGTTACTTAAACTATTAAG
TCCGTTCAAGGCATTCAGTTTCTGAGTCCTCAAGGATGGTAAGGAGAGCTGCAAATGGGCTCCCTTCTCAAGCAAAGGCATCTTATGCCATCATGCACGT
TTCTACACATCTGCCTGTAGATACACTCTGTAGGACAAACCAGGTGGCTCTGTCCTTCAGGCAAAGAGCTCCTTAATTGAAAATGATGTGTGAAATTTCA
AGAGAGAAGTCTAGGAATGGGGAGATTTATGTACTATAGTCAGTAACCAATCCTGAGCAAAGGTAGGCACAGCTATGTGGTGGTGCCCTTTTTTGGGGGG
GGGGGGGCGGGTGGTGGGGGTACTTACTAAGGACCTTGCCTAAGATAATCAACAATTTTTCTTTTTCAGCCCTGGGAGGCTCTAAAGCTGGAATCAAAAA
GATTCACAACCCCACAAATAGGTGAACTACTCTAAAGCAATGGTTTTCAAACCTTGAAATATCCTAACATTGAAAAAAAATGTGGTAACATAGGGTTGCC
TGTGTCTTATTTTGGTCTGTAAGGACATTAATAATGTTTTGGTAAAACCTCAGTTATCATCTGCTATTACTGTTATTTCATAAGACACATCATTTTCCTT
CAAAATTACAATGAAAACTCATAAGCATACATCAAAGTTGAAAGAATTTTACAGCGAACCACCATTAACATTTTGCTATAATGGCTTTATCATATATCCA
TTCATCCGTCTATCATATTTGTAAAACAAAYAATATTTTAATGCCAAACATATACAAAGGATAGATCAGTAATTTCCGAGAAATATTAGTTGACAACTTG
ACATCAAATTATGTACGGTTAAGTATTGATACAAAAATACGCACGAATATTAAGTGTTGAGGCAGATAGATGCACATATGTATGTCACCATGTACCTTTG
TGTCTCCTTGCATTTAAAAATGCAGGTCATGATGTGTAATCCCCGTTCCTCTGTTGATCAGTGAACACAAATGCTGGGCCCCAGCATGAGTCCTTTTCAG
AGAGTCATTTGGAGACCTACAGAAAAAAATGCCAAGAATGCACGCTGGGAATTCATTAAGAGATTTCAGGACGTTGAAATACTGTGYGTACTTGCAATCC
CCACTTGASCAAAGSTGTCCAAACCTCGACAGACAGCGGCCAGAGAAGGCCCCATCATAGACTCTGCGCCTGGCTAATTACTCAGGAGCAAAGCAGGTCG
TTAGGGGTCAGGGGGAGGGTGCACCTGTCCGCCACCCCAATTTCCTCATGATACTGGAAGGCAGTCTCCGGTCAGCACGGGGCTGGGTCTAGAGTTTTCA
GTTYACAAAAGTGGAAAATGTGATATGACAGACTGGAWCCAGCACAGGGACGCAGCCCCTCACCTGCTGGGGGTCTTTGGGTGGGTCCTGTAGCCCCAGA
GCCTCTCGATGASCTATGAACAGGAACAGAACCAGCACCCCGAGTGGTGACAGTGACAAAAGGGTCCTCAGTAACAGCAGTCTGCTATTGTTTTGAATCA
TTCAAAGGAATTTTTTTATTTTGATAGTGAAAACAATTTCTTTTAGATGTAGAAAGGGTAGAAAATACAGATAAGCGAAAATAACAAAAGCAGAACGGTC
ATCATCTCAAAACTCAGAGAAAAGGGCACCAACTCCATATTCGTACCCATGTACGTATTCATACCCATATCTATACACCTTCCCTTATCCCTGTCCCTGT
CTACACCCACACCCATACCTAAACCAATATCCACATTTATATCTATACCTATACCCATATCAATATCTATATTTAAATCTGTGTATTTAGATATTTCTAG
AAATGCATATATAGCTATTTTTGCTTTTATAAAAAAAGTCACAGAAACAATTATATTGTACACAGTCCTATATAATCTGCTTTCTTTTGTTTATAGAATA
CTGTGAATGTCTTTTTGTTTTKTTTTTTTTTGTTTGCGAGACAGGGTCTCACTCTGTCACTCAGGCTGGAGTGCAGTAGTGCAATCTTGGCTCACTGCAA
CCTCCATCTCCTGGATGCCAGCAATCCTCCCACCTCATCCTCCCAAATACCTGAGACTACAGGCAGTCACCACCACACCCAGCTAAATTTCTTTTGTGTT
GCTATTTTTATTAGAAACGGGGTTTCACCTTTTTACACAAGCTGGCCTTGAACTCCTGGACTCAAGCGATCTGCCCTTCTTGGCCTCCCGAAGTGTTGGA
ATTATAGGCATGAGCCACTGCACTGGGCCAGGAATATCTTTCTATGACAGTAAATATTATTTTACATCATTTTCAGTGATACCATAGTATCCCATTATAT
GCTTTTCAGTAATAAGTTCGAAGCCAAGTTCCTGGATCAGCAGCATCAGAATCACCTGGGAATTTGTTAGAAATGGAAATTCTTAGGCCACTCCCCAGAC
CTACTGCGTCTGGGGGCAGGGCCCAGCCGTCTATATTTCAGCAAGCCTTCCAAGAGACTTCAGTGCCTGCTAAAGTTTGATGCCTACTGCCTTAAATAAA
CTTCTTCATCCCTTGTCAAACTTCCTAGGGGAGCACATTTTGAATTTTTGACCTGAGACCTCAAAACTTTTACCTGTGCTCACTCAGTTCAGGTGAAAGA
ATCTTTGGCATTCAGAAGCTTGTGTTCACACTCACCTACTTCTCATGGCATGATTCCTCTTACCTCTAAATTCTACTGACTTAATCAAGATTGAGGGATT
CTGGGATGAATCTGGGGACACTTTTTGGTCCCTGAAATAAAATACGCAAACTTTGGAGTATGAGTGCGTATTTGGGGAAAGTATACCTATCAGATTTTCA
AGAACTTCATGACCCTAAAATGACTCTTTCTTAAAATAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGAGAACGGTCTGGTTCTGTCACCCAGG
TTGGAATGCAGTGTCAGGATCATAGCTCCACTGTGTGACCTCAAACTCTTGGGCTCAAGCAACTCTCCTGCCTCAAGCAACTCTCCAGCCTCAGCCTCCG
AGTAACTGAGACTACAGGTTGTGTGCCACCATACCCAGATAATTTTTTTTTAACTTTTTTTCTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGTTCT
TATGCCGAGGCTGGAGTGAAGTGGCACCATCTCTGCTCACTACAACATCTGCCCCCYGGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGG
ATTCTGGGTGCCCCCCGCAACCATGTCCCACGAATTTTTGTATTGTTAGTAGAGTTGGGGTTTCACCATGGTGGCCAGGCTGGTCTCGATCTCCTGACCT
CAGGTGATGCACCCACCTTGGTCTCCCAAAGTGCTGGGATTACAGGCATGGGCCACCGCTCCCAGCCTTTAACTTTTTGTAGAGGCAGAATCTTACTATG
TTGCCCAGGTTGGTCTTCAACTCCTGAGCTCAAGTGATCCGCCCTTCTCCGCCTCCCAAAGTGCTGGGATGACAGGCACGAATCACCGCGCCCAGCCCAA
AATGACTTTTTATTTGTTATTTTTGATCTCATCCTTGCTGTTCTGTTTTGCCCAGGTTGGTCTTCAACTCCTGAGCTCAAGTGATCCGCCCTTCTCGGCC
TCCCAAAGTGCTGGGATGACAGGCACGAGTCACCGCGCCCAGCCCAAAATGACTTTTTATTTGTTATTTTTGTTCTCATCCTTGCTGTTCTGTTTTTCCC
AGTTATATCAATAACAAAGAAAAGAAAAGAAATCTACTCAGGGTCTGTTGGGCATACTGCCCAAGCACAGTGTGAAATGACTGCCTTTTCACTTTTTATC
TTTTGGATAGCCCAAAGACCAGCCTGACTTAGCAGCCTGATTTTTCTTTGCTGGAGGCAGATCACACTCTGCAGATCTCCACTGAAACCCCACCCTCACC
CTTCGTAATAGGCGACATGCACATTTTCATGTCACATTTAAAAATGAAATTTTTCTTGAAAATGTTCACATCCTTCCCCCAGAAATTCTAGATTTATAAA
TTTCTCCCAAGGAAATCATTAGGTGCTACCTGAAAGTTTATGTATCAGGTAATGATCACAAAATTATAATCACAAATTAAAATAGCCATAATGTCTAATA
ATTCGACATTAGTGACAGAGATGATACTACAGTTATAGGATGAAGTGTCATAACTGGGGATTTTGGAAAATGATTAGGGACATGGTGAAGTCGTCATAGA
ATAAAATTAAGTGAAAAGAGTCAGGTTGAGTGTAGAATATATTTATTCCTATTCAGCATATGTATTACAAAATATCTGGGATAAATGAGAACTGCATGCT
GACATTTACATTTTCTCCTTGATTGTCTTATCTATTATCAGGATTTTCTACAATGAACATTTGTTGGTTTATAATTGGGGGGAAACCTAAATTCATAAAA
TAGGCACTCTGTTGGTGGCAAGGAAGCCCACTAGTCCACTGTCTAAGTGTTAAATGGATTTTAGCTTCATAATTCTGGCTTTGACTAGACCCTCTTACAA
GCAAGACTATATCCTCTGCAAAAGCATCAGCGGGGTCCTGCAGTGCCTTCTTGACACACACATCAGTGTATACCCAGAGCTCTTGTTTCTAAATAGCTGA
GCTGCGTATTAAGTATGGCTAACCACACATCCATGCATTTTTCTGGTGTCTACCTGACCACCCCTCCAGGGGAGAGATAAACTCAAAGGGGAGAAAAAGG
TATGGGAGCGAAAGATTGCAAGGTGCAGGTATGTTTGCAGATGAAGGGATTGTCCAGGCTGAGCTGTGCAGTCCTGGATGAACCACCATCTGGGCACTTC
ATATGCCATTCATACTTAAGGGTGATTGGCTATTTTCATCATCAAGAAAAACATTGCTTTAAAATTTTCCATAGTTATTCGGGCATGGTGGCTCAAGCCT
GTAATCCTAGCACTTTGAGAGGCTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTGAGACCAGCCCGGGCAACACAGTGAGACCCCACCTCTACAAAAA
ATAAAAAATTAGTTAGGTGTAGTGGCGTGTGCCTGTAATCCTAGCTACTTGGGAGGCTGTGGCCTGAGGACTGCTTGAGTCCTGGAGGTCGAGACTGCAG
TGAGCCATGATCATGCCGCTGCACTCCAGCATACGTGACAGAGCAAGACCTTGTCTCAAAAAATTTAAAAAAAAAAGTTTTTTTTTTTTAATCGCCATAA
TCTTGTGTGAAATACTTGGTCATCTGAGCAACATTATCCTTCTTCTCCCCATCAGCCTGGCATGAGCTTGGCAGATGCAAGCTCAGATCATCACCTGTGT
GAGTGTGTTGTCTTTGTGTCCGTGAGCATGTGTGTGTGCCCTGGGTTCCTCTCCCAGGTACTCCAGAGCTCTTGACAATAAATGAGAACAATATAGAGGC
AGGGGGCACTTTTCATCTCAGGCCAGTTCCAGGACTCTGTGTAAACTGTACTAAGCCGAAACGTATTCCTTTGTCCCTTTTGCCGCTGTCCTCCTAATCC
ACATCTGGGCAGTGTGCACTGTGGCTGGGAGTTGACACAGATCCTTGTCTCCCAGACCCCCAGTTTCTATCGAGCTACTGTAACTTTAAAAAGATTTAAC
AAAGACTMCCTCCACTAGCTAAGCTGAAATAAGAATGTCTCCGGAGTTTAATGGATCAAGTAGCGGTGATAGGTTTTATGGCTCTTTTTTACTTTAGGGC
ATAGGGAAGAGAGAGCCGGGCAGGTTGGTTTTAAATTCAAGGATTTATGTTGTTAATCCTCCGGGCTAATTATAATTTATGGGATCTTGGCAAATTAATA
TGCAGTTGCTATTCAAAAGTGGAGAGCAATGTAAGGCAGGCATAAACAAGCCTTGTTCATTTTTAATTTATTTCCACCAATGGAGAATATTAAATAAAAT
GAACACTGGGGTATTTCGCTCCAAGTTTGGTGTTCATTATTTATCTCTAAATTATGATATTCATAGAACAACTCCTTGCTTTTTCACSAAGAATCTAGAA
TCTAGAATTATCTGAGCGTTCGCATCAGATAACTAGGAAGAAATCAGAGTCATTTTCTCTCTAAGGCAGGCTCGATGATACCTGCACAGAAGCAGAGGTT
TCCCAAGCATGCATGTTACTGCAGTACAAGATTTGGCATTCTGCATGTTGGGGTTGTTTAGAAACAGAAACTTTGGAGTAGTATGTGAGCTTAAAATGTC
AGTTGCATGGAAATGAAAGTGCCAACCCTCCAAATCAAGAGTCCAGCCCGTTATGTCGCAAGGGCTTTGGGAAATCTCAATTTATTGCTAGCCTGGTAGA
TATTGAGCAGGGTGTGATCCTGTTATTGGGCTTTCAGACTTTMGCTTAGCAACCTCATTGCACCCAGGACCCCCATTTAATCAGCGACTCCTATGGCTGT
TTGGGGGCTCTCTTTCAAATAATTCTTCTCACCCATGAACATCTGTCAGAAAACTTTCACTGATTGGCAACCACCAGGCAGGTAGGTTTGACTCATGTGA
TAATTGGTTGCACCACTAGAAATGAGAATGCCCCTCCTACTTCCCCGCCACCTCTTCTCCTCTTACCTTTTTCTCCCCGACATGCCCCTGCCAACCTCCC
CCCATCATTCCAGCTGGGAGAGGCCATCAAATGTAGCTTGGAGAGCTATAGAAACCTTGAGCTCTGAGCCCAAGGAGCAAGTTGGAGTCCTGCCTCCAGC
TGTGTAGCTCAGATAACAGCTGGAGCAGAGAACATGCTGTTCTCTCTGCTAGAATATCTGACCCAATTCTGACTAGTAAAGAGAGTTAATAGTTTGTACC
TCAAGTCATTCTTGTCCCTGTGTGAAGGAAGAGAAGCAGTCATTTCCCTCCACCTCCAACACACACTCCGTCCCCACTCTGTCTCTCTTGGCTGTTTTTC
TCTTCATTGTTGTTAAACTCACGTTCATTTCTCTTGTAGTCAGGGAAATGAAGAGCCACTTTCAACAATTCTGAAGAAGAAATATGGGATGTTTTGCTTC
GGGATGGAGGCTGGAGCAGGAGTTTCTGGAGTCTGCCAGTACCCAGTTTGAATCCCAGCTCTGCCTTTTATCAGCTGGGTGTTGGGCAAGTTAGCTGACT
TTTGTGAGTTTTCTCATCATTAAAATGAGAACACTGTTATTGGTCTTTCGGGATTGTTTTGAGAAATGAGATATCGAGACATGCCTGGCACAAGGCCTTA
ATTCTTCTTCATGGTMAAGAAATGGCAGATTTTCCCCCTTCCATTCCCACCCTTGCACATAGTAGGTTCTCAGCAAGTATTTGTAGATGTAATCGACCAG
CAGAGATCATTTGTACCCTTAACACCCACAGAGAGTCACAGATGCTTTCACTGAAGGAGGGTGTCCCAAGACTCAATGGCAGGGAATAAAAATGCCAAGT
CATGTAAGTATTCCACAAAGTTAGAGGGGAGGAGTAAGTATCTCTTATTCGTGCATCTTTATGGTATGACCAAGGGCTCATGATTTGTAAGCAGTTCAGG
CACTGAGACCCGGGACACAGGTGACACTGTATCTGCAGATTCCTTTTTCTCATTGTTTCTCTGTCATGTTTAATTTTTGGTTTTGAAAACAGCAGAAAAT
CCAACCAGTGTGTTCACAGGACTTCTGGCTTTGCAGCAATTCCTTTTTCTGGGGTCTTTTGCCTAATCGTTTACTGGTTTGGAGACACTGTTTTCTGTAT
TGTTTAGGACTGAAAATGTAGACCTAACTGAAATCAAGCACKCGAGTATCCTAATTATTTTAAATTCATAATGAATAGTCATCATGGTTTCACTTTTTTT
ATGTACTCTTTTGAAAGAGTACGATGGGGGAATAAAAGCCAGAAAGTTAAAAAATAAAAATAGAAAAGAGCTGCAATTGTCAAGAGACCAAAAAGTCTTG
TAAAAAGGGCAGTAGGTAATTCTGGAGGCAAATCAGCATGGGTAATGTCTAGGCAAACAGGATAGAAAAAGATCAGGAGGTCACAGTGACAAAAGTATTT
AGGCTCATCATATTAGAATTTCATCCAAAGAACAATTGATTATGATTTATAGACCACACCATCCCATGAGCCCAGATGTGTGTCCACTGGGCCTGGCAGG
GGACAAATTTATGTAACAGACTCCATCCTGAATTCCAGTCCTCAAGCTTTGAGGGTAATAAACTCAAGCTTTGCAACTGGGTCAAGATCAGGCCTGTCTC
CTTCTTGATGATGAGTTGTCTCATAGGACCCTGTTAAGCACCATCCCCAAACTCCATTCTTTTTGGTGAATATCCCAACAAACTCCCCAGCCATACCTCA
ATGTCCAGACTTGCCTGATCCCCAGGGCTGGACACAGAACAGGCTCATTCTGAGAATCTTCTCTCTCTCCCTCCTTCCCATTTTGCTCCTCCTACCAACA
TGAGAAGCTAGGGGGTCTCATCTTTAAATAATTAATTCTTCTTTCTTTGTAAGTATTATACATGCCAAACAGACTCTTGGTTTGTGTCTACTGACCCAAC
AAAAGGGCTGTCCACTTGACGGACAGGCAACAGATCATCTTGATAAGTACATGAGGCACTCAGATGTCAAGTCACCAAACCTTCATTCTGAATATTTTTG
AGGCTCATGACAGACCAAAAGAGCCAGAGAGTTGGGGAACATAATTTCCTTTGCTCATACCCTGGACCAAGAACTGTTGCCAGGAATATCCATCCATCTG
GGGGCTTCCAGCTTCCCCAGATGCCTGCGTGCCTTTTGACCCTTCTCCTTCCCCCACCCTGCGAGTTCTTCAACAAATACTCTTCTAAACCAACATCCCC
GGCAAACGGGAGCAAGACACCAGCTTTTCACTGATGCAGATATTTCTGATCTTTTCATCTCGGTTTTATTTCTCACTCTCCCACTGCATAAAAGATTAAG
AAAGCACTCGCATGAATGTTTGCACATCATTTAAATATTCATTTTCATTAATTTATTCATAGTCGTAAAGTTTATTGCCTAGAATATAGAGTCGTAGAAT
TTTAGAGCTGGAAGACAGGAGAGAAATCATCTAGTTTCGCCGCCTCGTTTTACAGATGAGGAAACTGAGGTGAAGACAGCTCAGGAGACCGTCCAAGGTC
AGATTCTGAAGTGAGCCAAGTGAGACCCAAACTCAAGTCTTGGACAGTCTAGCCTCTGTGCAGCGCAGCTCAGCACAGCTGAAAACCACTTTTGCTCTCT
GCTGGCATAGATGGCTGTGCTTTGGTTCATTTTCTTGCTCATCTTCATGATCTAGCAAGTTCTTGTTGAGTGCCAGCCCAGTGCYAGGTGCTGAAGAACA
ATGGTGAACGGCACAGTCATGGTACCAGAACTCGGTCTGGTGGAACAGAGAGATTAAGCAATCAGAAAAACATATGTGTGTGTAATTACACGTTGTGATA
AGGGTTTTGTGGGGAATATACAAGCTCAATGTGGAGACTAGTGGTGGGAGGGCAGAGGCATTTTCCCAGGAAGTGGAGAAAGGGAAGGGGAAGCAAAAGC
CATCCCAGGGTGCGTTAGGGAGCAGGTACTGCTGTGGATGACGGGTGAAGAATTCACCTGGGAAACTTGGGGAGACCATGTGGAACATGCCGTCTCTGAG
TTATGCCCCATCAGGGGGCAAAGAAACTGGAGTACTTACCCACCAGATCCTCATCTGTCGTTGGTTGAGGACTGCTCTCAGGACATTCACATCCAGGCAC
TTCTGGTCCACACCTTGGTACAATATTTGCAATATTAGGGACATGCTAATACAATTATTCATTGTATATGTTAATTCAAATTAAATGGAATGTCCTATAT
TTTATAGGGCAAACTTAGGCTTACGCCTGGGTGGAATGAGCAATCCCTGTCGCCAAAGAAGGTCCCCAGCATAGCAGTTGGCTGGAGAAGGAAGGGCTGA
CCATAAGTTGCACTAAACTGCTCTCAGCAGGGTGACCTGGAAGATCTTGGAGTGTAGATGTCAATTAAGGCAAGTCCTGAGGGCTCGGATGGAGCCAACT
TTTCACCCGAGGAGGGGAAGAGGGAGGGTTAAGGAGGGCAAAGGAGAGATTTCCAGGCAAAGTGCACATTAAACACCAGATGCGAAGAGCTAGACCCCCT
TAATGACAATTTGCTTTCTGTAATCTTGAACCAGGGTCTCTCAGTGTGTGGAAGGAATGTTTGAATCGGAGTAGCAGGGCTGAGTGGCAGTCCTAAGGCC
CAGCCACAACGTGTTCTTGACAAGCCATGTCTATGTCTGGCGATGTGCTCGCATGGCACATGATCCTGTTTGACTTCCTGACAGCCCCAGGTGCTGGCCT
AAGGCCTTCCAAATGAGGAAGGAAGGCTGGAAGAAGTTAAGTCATTTGCTAGTAAGGGTTAGAGCCAGGATTTGAACCCAGATGACTACAGAGTTCATGC
TTTTAATTGCTGCTTGTTAAGTGCATCTATTATGGGTTGAATTGCATCCCCCCAGAAGATATGTTGAAGTCCCATCCTGTTACCTGTGAATGTAACCTCA
TTTGGAAGTAGGGTCTTTGCAGATGTCATCAAATTAATGTGAGATCTGGCTGGATTAAGATGGAGCCTCAATCCAGTGACTGGTGTCTTTATTAGAGAAA
AGAGAGGGAGATTTGGAGAGACACACGTGTGTGCACACACATATCTACGTATCTACATGTATGCACATACCTACATGCATGCACATACCTACATGCACAC
ACGTGTGCACACACACAAGCAGAAGGCCATGTGAAGATGGAGGCAGATACTGGAGCGATGCTGCCATAAGCCAGGGAACAGCAAGCATTGCCATCCACCA
CCAGGAGCTGGAAGTGGCAAGGATATGTTCTGCCCTAGAGCCTTCGGAGGGAGCGCAGCGCCAGAGACACCTTGAATTCAGACTCTTTGAGTTCCTGAAT
AAAGAGAGAATAAACTTGTATTGTTTCAAGCCACCTAGTTTGTGGCACTTTGTTATGGCAGCCCCAGGAAAGGAACACAGCATCCCCTGTCAACAAACCA
AGGGGAGCTAAAGATATACCCTTTAGCCAAGTAAACCAGCTGCCCCGAGCAGGAGCACAGCTTCCAGATCACTCATCAAGGGGCCGTGGGTGACAGGGCT
GGCCTGCTGCTGCCTTTAATGGGCGTAGATGTTGTTGTTCATGTTTCCCAGCCCATTGGTGATGACACAGAGGCAGGAGCCGGGGCTGCAGACTAAATTA
TATACATCTCAAGGGCAGTTAGACAACTAGCTCGCCCACAGGAACATTGCAATAAGCACAGTATCTGCTTTCCCAGCAAAGCCAAGTGCAAGTTCCTGCC
TGCTCTGATGACCTCTTGTGCCTCCAGTGTGGGAAGGGACCAGGTCCCTCAATGCTGCCGCCTCCCACCCTGTGCTGCCACGTGGATTTAACTCCTTCGT
GTTCCCCATGTTCTTAGTCAGTATGGTTGTTGTGCCATGGATTCAAATGGGGTTGCTTGATTTGATTTGCCCTTTACTTGGCTGGAATTCTCTCTAACAA
TCAATGGAAACACAGCTCATAGGGATGCATGTAGCCTGTCTCATATGTGAAAAAGAAACTTTCAATGTATACTTCATCTCATTCCAACAAGAATTGGAAA
CAGCAACATCAGGACTTATATGGTGCAGGGTGGTCAGTAAGTAGGAAAGAAACTCGGGGCATGGAAGTGAACAGGAAGCCCAGAGTGAAGCCAGGACCCA
AAACCCACAGGTGCTGCTCTTGTTATAAGCCAGCCACACATTTGTCTTTGAGCCTTTTAGCAGCTGCCACAAACTGGGAGAAACCATCAGTTATGCAGTT
TACAATATCTCTAAACTCAAAACAAGCCAGTAATTCAGAAAAAGCCCAGTTCTTCTCACAAAGAAAGATCTAAGTGTGATATGAGAGTATATGCATGGAG
AATATTTTCTGAGCTGGTGATGAGCTGCAGGGGGCCTCTCCCAGCCCCCGCACTGGTTGCACTTTTAAATAAGAGAAAAAAACAGTGATAGGACTGACCT
GCGTGTAGAAGTTTCAAGTTACAAGAAAAACACTTCACAGGATCCAAATCCTTAAAGTCCTGAAGGAAACAGAGAGCATATACACCAGCTTTCGCCACCC
AATTCGGATGTGTTAGAATGAAGAGTCTCTTATTTTTTAATGAATTTTTCTCTATTTAAAAGTACAGGGATACCTCAGAGATATTGCAGATCCCGTTCCA
GACCACCACAATAAAGCAAATATCTCAATAAGGCAAGTCACATGAATTTTGGAGTTTCCCAGTGCATACAAAAGTTGCTTACACGATATAATAGACTCTT
AAGTGTACAATAGCATTGTAAGAAAACAATGTACATACCTTAATTTTAAAATATTTCATTACTAAAAAATGCTAATGATCATCTGAGCCTTCAGCAAGTT
GTCATCTTTTTGCTGGTGGAGGGTCTTGCCTTGATGTTGATGGCTGCTGATGGATCAAGTTGGCGGTTGCTGAAGGTTGGGGTGGCTGTGGCAATTTCTT
AAAATAAGACAAGGATAAAGCTTGCTGCATGGATTGACTCTTCCTTTTACAAAAGGATTCTCTGTAGCATGCACTGCCGTTTGACATCATTTTACTCACA
GCAGAATTTATCTCAAAAGTGGAATCAGTTCTCTCAAACTCGCCACTGCTTTATCAGTTAAGTTTATGGAATATTCTAAATCCTCTGTTGTCATTTCAAC
AACATTCATGACGTTGTTCATGACAATGTTCAGTGTTCGCCTTCAGGAAGAGCAAGTTCCATTGCAAGAAATCACTTTCTTTGCTCATCTCTAAGAAGCA
AGTGCTCATCCATTCAAGTTTTCTCATGAGATTGCAGCAATTTAGTCACATCATCAGGCTCTACTTCTAACTCGAGTTCTCTTGCTATTTCTACCACATA
TGAGTCTTGAAGGGGCTCAAGACTTACTTCCTCCACTAACTTTTGAACCCCTCAGAGTCACCCAAGAAGGTGGAATAAACTTCTTCCAAACTCTTGTTAT
TATTAATTTTTGATCCTTTGCCATGAATCACGAATGTTCTTAATGGCATCTAGAATGCTGAATCCTTTCTAGAAGATTTTCAATTTACTTAGCCCAGATC
CATCAGAAGAATACAGTATCTGTGGCACCTGTAGGCTTCTAAAATGTATTTCTTTAATAATAATACTTGATAGTTGAAATTACTCTTTGATACATAGGCT
GCAGACTGGGCATTGTATTAGCAGGCATGGAAACTACATTAATCTTGTACATCTCCATCAGAGCTCTTAGGTACGAGGTACATTGTCAACAAGTGGAATA
TTTTTATTTTTTTTATTGTTATTGTTTTGAGACAGCCTGGTCTGGAATGCACTGGCATGACTGCAGCTCAAATTATCCTCCTACTCCAGCCTTCCCAGTA
GCTGGGACTACAGGCACATGCCACTAGGCTGGGCTATTTTTGTATTTTTAGTAGAGACACAATTTCACCGTGTTGCCCAGGCTGGTCTTGAACTTGTGGT
GAATCAATCTGCCCAAATCAGCCTCCCACAGTGCCACAATTACAGGTGTGAGCCACCACACTGGACCAAGCAGAATATTTTTAAAGGAATACAAATTTTT
TCCCAACAGTAGGTCTCGACAGTGGGCATAAATTATTCAGTAAATCATGCCATAAATAGACGTGGTCTCATCCAGGGTTTGTTATTCCATTTATAGAGCA
CAGGGAGAGTAGGTTTAGCATAATTCTTAAGGACCCTAGGATTTTGGGAATGGTAAATGAGCTTGGCTTCAACTTGAAGTCACCAGCAGGGAAGAGAGTC
AGCCTGTGCTTCGCAGCTTTGAAGCCAGGCATTGCCTTCTCCTCCCTAGCTCTCAAAGTCCTAGACAGCATCTTCTTCCAACAGAAAGCTGTTTTGTCTA
CATTGAAAATCTGTTAGTGTAGCCACCTTAGTGGTCTTATCTAGATCTTCTGGAAAACTTGCTGCAGCTTCTGCATCAGCACTTGCTGCTTCATGTTGCA
CTTTTTTGTTATGGAGACGGCTTTCTTCCTTAAACCTCATGAACCGACCTCTGCTAGCTTCCAAGTTTTCTTCTGCAGCTTCCTCACCCCTCTCAGCCTT
CACACAATTATAGAGAGTGAGGGCCTTGCTCTGGATTAGATTTTGGCTTCAGGGAATGTTGTGGCTGGTTTGATCCTGTATCCAAACCACTCAAACATTC
TTCATATGGGTGATAACGCTGTTTTGGTTTCTATCATTTGTGTGTTCACTAGAATAGCACTTTTAATTTCCTTCAAGAACTTTTTCTTTGCATTCACAAC
TTGCCTGTTTGGCACGAGATCTGGCTTTCAGCCTATGTCAGTTTTCGACATGGCTTTCTCGTTAAGCTTAATCACTTCTAGCTTTTGATTTAAAGTGAGA
GACATGCAACTCTGACTTTCTCTTGGGCACTGAAAAGCCATTGAAGGGTTGTAAGTTTGCCTAATTTCAATACTGTTGTGTCTCAGGTAATAGGGAGGCC
CAAGGAGGGGGAAAGAGAAGGAGAACAGCAGGTTGCTGGAGCCAGTGTGGTATTCATAAATATAACATTTATCAATTAAGTTTGCCATCTGATATGGGTG
CAGTTTGTGGTGCCCCAAAAAATGACAATGGGGACATCAAAGATCACTGATCACAGATCACCAAAACTGATATAATAATAATTTAAAAGCTTGAAATATT
GTAAGAATTATCAAAATGTGATACAGAGACATGAAGTGAGCAGGTACCATTGGAAAAATGGTGCCGATAGTCTTCCTTAATGCAAAGTTGCCAGAAACCT
TCGATTTGTAAAAAACACAGTATTTGCAAAGTGCAATAAAAGGAAATGCAATAAAATGAGGTATGCCGATAATACATACAGCTCAGTGAAGAATATCTTA
AAAATATTTAAAAAGAAGGAAGAAAATCACTCATAATTCTGCTGCCCATGGCAACCACAATTAACCCATGCCTGCCTTCCAGTCTTTTTACCACGTGTTG
TGTTGTGTGGTGTTTGTCCCACATAGAGATCATTGCCATACGSCCATTTGGCACATTGCTTATTTTTCCCTGTCTTTATACATTTCATCATGTTGTTCTA
AATGCTTCTTAACTGCAATTCTTAGTGGTTGTGATAGTCCACAGAGGGGAAGCATTGCTGTTTATTTATCCATTTCTATGTTGTTGGTCATTTATATGGT
TTTAAATACTTTTGGTGTCATAAGGAGTGTTGTGATAAACATCTCTGTGCATAAAGCAGTTTCTATAGTTCCCATTATGTCTTTAGGATAGATTCCCAGA
AATGGAATTACTAGGTCAAAGGTTGGGCACATTTTTTAAAGGTTTGTGAGACATATTGCCAAATTGCTCTCCAAAAGGTTTGTAGCAATTTAAATGATCA
GAAGCAGCACTGAAGTCCAGTTTCGTCTAACCAGTATTGAGTGCTCATTAAAAAAAAAAAAAATCATTACTAATATGATAAACAAACAAATGGTGTGTTA
TTGTTGGGTTGAAAGAAGCAAATTTGGAGAATCCAGAGAAACACAGCGGAAATTCAATTTATGGGCTACATTAACCCAGCATTTTGGATTGGAGGGTTTC
TAAAGAGGTTTCGTTATATTAATGGRTGACAAGTGGATACTTAAGAAAAAGTGTATTTTGGAGAAAGTTGCAATAATACCTACTAGAGATTGTGTCCTCC
CTCAAAATCGGAGTGCCATCCGCGCTCCATGAGTCTGACACTTTGTAGGTGCTTTATAAATATGGATTGAAGCAAATGAGTGACGTTCATATGATGTTTT
GCAGTTTTTTCAAAGTGGGTTTTACATTGAGAATCTCATTTTTCCAACAAGGCAACTAAGGCATGGATTCAATAATGTGCCAGCGGCACACACATAGCAA
ATGGTCCAGCCACGAAGAGAACGGGACTGTCCAGCCGGGAGGACAGTATGCTTTTCACCTCCCTCTGTACCCTTCTCTGAGAACTGTTTGGTTTGAATCA
TGATGGCAGTGGCTGGCTTCTCCACGATGCTGTTGTGCTGAACCCTATTAACCTCATAGGGAAGACACTAGGATCAAGAGGCCAGAGAAGAGACCCAGAG
CCAGCAAACAAGACATAGGGTTTTATTAGGGGTTTACCTACAAAGGAGAGAGTTTAGTGGCAGTGGGCTGGGCAGGAGAACTGCCTTATGTACAGAAATG
GTTCAGGGGCCGTGGAATGGACAAGACTCCACTTTCCTACAGTCCAGTGTCAGTGGCTGGACAACATAACCACACAGCCCAGTGGCCGTGGCCTGGGCAG
GGAAACCGCAACTGCCTGCAGGAAGAGTGCAGTTTATTTAGATAACATTTTCACTTAACAYCCTGCCRTTAATGACCTCCACCTGGCAACCTTTATTTAA
TCCAAAACTCAGGGACTGGATTTTCCATACGGCCTGTGAGGCCAGGGGGCTCAGTTGTTCCTCATAGACAGGGAATGTATCTCCTGATTGGCCACTCCCA
GATTCCCTAGCTAGGAACAGACATTCAGGTACATATACCCTTCAGAGAGTCATTCTCAAGGTATGCTCAAGCTATTGCTGTCAGGCGCATTTACCCTACA
GAGCTGAACTACCATTTCCTCAAAAGTAGGTACAGATGGGGTAACAGTGGGCAATGTGGCCCTTTCTGCACTTCCACAGTACCCGAAGTTTAGGCGCCCC
TCCTGCCAAGAGCCCCCATTAGCAGCAAAATATATCTCACATGGTGCCCAGAGCAAAGGACCCTGTGCTAGTTTTTTGTGGCTGCTGTAATAACGGCAAA
CTGAGTGACGTAAAACAGCAGAGATACATTTGCTCACGGTGTTGGAGCCCAGACGTCTGAAATTGACACTGCTTCTGGGGACACTAGAGGAGACTTTGTT
CTTCGCCCTTCCCGGCTTCAGGTCGCGGTAAGCATTCCTTAACTGGTGGTCACATTACTCTATCTGTGCCTCCATGGTCACTTGGACTTCCCTTCTGTCT
GTCTGAAATTTCCCTCTGCGTTTATTTTTTGTTGTTGTTTGTTTCTGAGACACAGTCTCACTCTGTTGCCCCGGCTGGAGTGCAGTGGCATGATCTTGGC
TCACTGCATCCTCCATCTCCCAGGCTTAAGTAATTCTCCTGCCGCAGCCTCCTGAGTAGATGGGATTACAGGCGTGCGCCACCATGCCCGGTCAATTTTT
GTATTTTTAGTAGAGACGAGGTTTCACCATGTTGGCCAGGCTGGTTTCGAACTCGTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGA
TTACAGGCGTGAGTCACCATGCCTGGCTATCTGCGTTTCTTCTGTAAGGATACTTGTCTTTAAATGTAGGACCCACTTGGAATATCCAGAACTATCGTAT
CAAAAAATGTTTACTCACACCTGCGTATACCCTGTTTCCAAATAGAGTCACAGTTACAGGTTCCGGGGAGTTGACATGGGTATCCTCTGGGGCAGGGGGC
ACTTTTCTGCCTACCACAGATACTGAGGTGCATTGCTAATTACATGAGTACAGCATTTGTGAAAACTCGCTCATGATATCTTCTCCATAGTCGCAGTCAG
TACCAGCTGCTGTGGAAAAAATTTTACGCATTGTGTTTACAACAGAATATATAACATGGCTTAGAGACAAAGTGTTTTACTTATGGCCAGTAGATGGAAT
TCTAAGGTCCGATGTCGGTTTGCCATGACTTGGGCATTGGTTTCTGTTCGGCTCTGTTTACGGGGCTGTGGGATGGGTACATAGACACTCGTCTACTTGA
ACTTCCAGGGACTCGGGAGGCCTGCAGTTGAATAACAAGAGACCGTGCTGGTGAGAGGTGGAGTTTGCAGTAGGATTTCAAAGACTCCATGGAGTCCAAA
AGGTGGGAGGTGTGTTTTGGGGCATGCGCCAAGGGAAGCTGGGCTTTGGGAAGAGAAAAGAATCCGAACTGGTGGCTTCCCACAATTGCTGGGAGTCTGA
GATAGATTCAATTGGGAAAACTAGGTTAGTGCCAGATAAGGTCCATTACTCTTTAAAAGTGGCCACTCATCCCTAATAATAAATAAACCAAACATTGGGA
TATTAAAACAATTYGTTCTCAGCATCAGAAAAGAGGTCGTGTGTGTGTTTGTGTTTTTTTAATATCCCATCCAGCCCCCAGCCCCAGTAACCCTAAGATT
GAACAAAACCCTACTTACGTGCTWCGGATTTAATATAGCGTCAGGCTCCTCTAGGTACAATAAAATACCAAGTTAAGAGYATTAATTCCTTACAACCCTG
ATGGGTCCCAGCTGTGCACACGCATGTAGGGTGTGAGGGTGTGTGCTCAGCGGGCACAGGTGCTGACGGGGCTGTTCCACCTCGGAGCGCGTGGGCCGGG
AACACAGCTGTTTCTCAAATCATCCGCCACTTGCTTCTAAACCTCTGTGAAGTTGTACCGCCTCTGGGCACAATTAAAAGCTGTATACTACATTTCATCA
GGTAGTGTTAGAAATTTAGGCTGAGCCAAAAAAGAAAAGGGAGGAGGTGGGAGGGAGGAAGCAACGAGTCCCTTGTTCAGGCGGYATTAACCCCCTTACC
CTGGCTATTGGAACAATAGCGCTTCTAAAAGCCGCACAAAATCCTCCAATATTAAGAACGGAGAAAAGGAGTGTGGAAAAGGTGTGGGCAAGCACGGCAT
CTCTTCTTTCTTTTTCTTCTTTTTCTGTTTCTTTCCTTCTCTTGCTATTTCCTTTCTTTCTTTTTCCTTCCCTTCCTTCCTTCCTTCTCTCTATCCTTCC
TTTTTGTCCCTTCCTTCCCCTCATTCTTTCTTTCCCTCTCTCTTTCTCCGTCTTTCTTTCCTCCCTCCCATACTCTCTACTTTTCTTCTTCCCTTCCCTT
TGTTTTCACGCTAATTCCTTAATTTGTTTTTGGGTCTGCTCGCAGGAAATAACCGTAAGCTAGGATAACTGAGGTAAAATTTGTACAGCTAAGCTGAATG
GTGAAAGGCCCAGATTTAGTTCTCATTGTAGGAAAAAGGGCCAGAATACCTTGCCCATTTTTGCCTTGGGAAGTGAGCTCAATGAAATACATCTTCATAT
GCCCRTTTTACAGAAGCAGCAACTGAGGGCTGTTGTACTGAGGCTTGCAATGGCCACCTCAACTTTTAGGTCTCTGAGGCAGCAATGGGACCCTTGCCGG
GGCCTCGCCATCCACATGGTCATTGCCTCAAAATTTGGGATTCCAGTTGCCCTTTTCCTTCTTCTCTCTTGAACAATGTGAACGCAAKGTGAGGATGGGC
CTTCTCCGCCTTCAAAAGTTGCTGCCTTCCAAGGGGAAAAGGTCTGGTCTTGTAATTTCTGGTCTGTGCGTGCTGTATAAGGAAGAAGGTTTGGGTAGGG
AAGCAACAGASTACCCACTAGTGAGAGGGAGGACACCGCTGGTCTGTGCTCAACAGCCAGGCCAGCACCACATGAATAAAGCATGATGGCAATTGCCTGA
CTCTGTCCTCGGTGGGGACAGGAGAGCTGAGCATAAGGATCTAAGTTTAGACGCCCTCCTAGGATTACCAACGTAGGCRTGATCAGGCCCATAAAATACT
GCACATCTTGGCATCTTACCTATAAAAATAATGCAGATACATTCGTAACTCCCCAGGTTTTCGGGAGTGGAAATGAGGGCAGYTGGGGAGTGAATCTGTC
GTTTGTTGAGRCTCTTTTTCCTGCTTGCCAGACACTGATCTAGGCTCATTCATACACCAGTTCATTCATCCTCATAACAGTTCTGTGCCTGAGTAGATTC
TTGTCCTTATGTAAGGATTAAGGACGTTGAGACCCAGARGGGTCTCATCTAACAGGCAGTAGTAGAGCCAGCAGTCAAAATAGTTTGACCCCAAGGCTCC
AGGCTTTTTCCCTATTTCTTTCTCACCCACAGCCAATTGCAATCTGGACCCTTTACCTGTCAGCTGTAGGAACATGAAATAATGTGAGTGGGGTGAAATA
ATGCCATTTAAAAGCAGGCACATTATAAAGAATTATGTCAACCTGATTTCTTGAATCCCAGGACAATTCATATCCCCGTGCCATCCGATTAGTGAATCAA
GAGAAACTGATTGATATACAGCAACAATAGTTAAGAAACAGGCAGCATCGATGGAGGTTTGATTAAACCGATACCCTGGGTCTCCTGCTGTATCAAATCA
TGGGCGAATTGGTACCATTAGGATAAATTACTACAAGAGGCACTGCAAAGCCAAGCTAAATAAACTCTGCCTTCTCGAGCCCCTGATTGTCTTATTAAAT
AATTTCTTTGCCTCTTAAGTGTGGACTCGGAGCACTCGTGCTCTGAAAGCCCTCCTGATTAACTATAGCCTTGGCCTCAAGTTGATTTTATAAACTTCGG
ATGGTGCCCCAGAGGGTGAAGCTTCCTGTTGTCAATTCTGCCCGTTGCTATAGATACCAAACTCCACAATCAGTAATTAGAGCGTGCCCCCTGCCCCAGA
ACTGGTCAAACGGTGCAGAGCGCTCGGCAAATGGTCTTAAAAGCRTCCGCGCTTGCATGGAAATGCATTTCCAATGGTGACGGGGTTTGTTTTATTCATG
GACTTTTTGAAAAAAAAATCACTGGTTTATTGGAAACCATAGAGAAGTATAAGTAATTATTATGCTTTTTAAAATACAACCGAGGTTCCTCATCATGATA
CGTTAAGGGAAAGGAAGACAGGGCAGGAGGGTGGTGTGGCACAAAGGCGGCTCTGTCTGACCTGTCACGTTAGGACTGAGTTCATTCTTGTTCAGATTCA
GCATCTTTTGTTACACCCGAAGTGCATTCCATGGCCCTGTCCCAGCCATAGAAAGAAATGCCTTTATTTTTAAGCGAGACTTCTTGTGGAATGATGAATA
TGTTCAGGGAGGCTGTTGGTGGCAAGAAAAGAAGGGTGATGGGTTGGGCTTATATTGTTTAGTGGAGCAAAAGAGATGTGAAACATTTGTGTCTTAAAGT
GTTTTGGTCARGAGAAACTAAATTGGTTAGAAAGTGTGCAATTTTGCAAGCTTTATAAAAATATAAACCAATGAGTCTGGACTCTGTTCCCTAAAGGGGA
TGAGGAATGAAAATGAAGGTTTGCAAAGACATCTTGCCAGACCCTTACATATTTTAATTTAAGGTGGTATTACTGTCCTCATTTTCARGCTGAAGAACCA
AGCTCTGAGAGAGTTAATGATTTTCTCCAGATCATTCACATTCATTTCTGTTACACAGCTGGGATTATAATCCATGCCTGTCTGACTCTGAAACCTATTT
TCCCATTTTTTTTTTTTTTTAGGGATAAATTTCTCCCAAACTATATGCAGATCCTGCTAGAGACTGCCCATCCCTCTATCCATTTCTCAGTTTGAAAAGA
AATCCTGGAATTCAGAATGATGAATATTCATTTTAACATCATCTTAAAATGTCCTTATAGATGTATATTACAGCTGTAGTCTGCCAGGCCAAGAATTCGA
TTGGCATTTCCAGAGTACTGTTGATTGTATTTTAGAATCTTCCAAACCTCCGTAATTGTCTTGTTGATTTCAAACACCCTGAGAACATTTCCTAAATGCT
CATAGCGTCCAATAGCATGGGAAAGTAAATGGTTTATGAGGAGAATTTGGGATGTGCAAAATAAGCCTTTGAAGAGAGTGCATTATCTGAAGCCTGACAT
TGTAACAGCTTCTTAATTACGCTTTCTTTCATGTGGCATTTTTATGGGATCCAGTACGCCCAGGCTCAAATGATAGACATTTCAACTCCTACATCCAAGT
GTAGGGAGTCCCAACTTTTTGAATCCATCCGTGTGGCAAATGTAGCTGGACCCTTGGGATGAAGACCCTTCCTGCATCCTCCCAAGGAGACAAGTTCTGG
RCCATAACTCTAGAGCAACCCCAACCCCCAGGCCATGGACCAAGTGTCAACAATGTTGACATTGTGAATCCCTGATCTGGAGGAACATAGCTTTGGGGCA
GTGCCAGGATTTAATATGGGTTCTTTGGACTTCAGAGCCCCTTGTGCTAAATTGAAACATTATGGTGTTGCTTTGAGCAAACAATTAGCATTTTTGCCAT
AGCTTTTTACTTCTCCATGTTGAAATTATCAAAGATTATCGTCGAAGGCGTGGTTTCTTTACTATCTGTCTTCTCCAGGAGACTGTCATCTCTGTGAGTG
CAGGAATCCGGCTGGTGGTGTTTTTACTCTAACACCTCTTTCAGTACATACATACAGTAGGTGCTTAGTAGATGTTTACTGAATGAATGGATAAACATGT
ACAAAATTATGATMCCTTGTGTTAAATATGGTAGGGAAGCAACATAATGTGCCCTGGAGTTTCACAGAAGAAGGGGCTTTCTTCCAGCTTGGGGATGGAG
GTGAGCTGTCATTCTGGATGATGTGATGGGGAAAGAGGATGTGAGCTGAGGCTTGGAACCAAGCAGAGCTTGGGCTTTGGGGTGCTGGGAGGACAGAATG
CTGGAAACAGAGGTAAGAAGGGTAAGCACCTAGTCAACATGAGTGATTTAGCTTTGGGAGCTGATCAAGTGATATGATTTGGCTCTGTGTCCCAACTCAA
ATGTCATCTCGAATTGTAATCCCCACGTGTCAAAGGAGGGACCAGGTGGAGGTAATTTGATCATGGGGGTGGTTTTCCCCATGCTGTTCTCATGCTAGTG
AGTGAGTTGTCATGAGATCTGATGGCTTTGTAAGTGTTTGGTAGTTCGTTCTGTGTTCATTCTCCCTCCTGCCGCCTTGTGAAGAAGGTTCTTGCTTCCC
CTTCGTCTTCTGCCATGGTGGTAAGTTTCCTGAGGCCTCCCCAGTCATGTGAAACGGTGAGTCAATTAAACCTCTTTCCTTTATAAACTACCCAGTCTCA
GGTATTTCTGTGTAGCAGTGTAAGAACAGACTAATACAGCAAGGGAGCAGTGATGGAGCACAGGCTGGAAAACTGAGTTGAGGGGTCAGTGGTGGACCCT
GAAGGTTAGACTAAGAAATTTAGACTCCAGCCTACATAAATGTAGACTCCATGCAGAATGACTGGATGTCCTATAGGACATGCAAAGCCACAGGGAATTT
TGGAACAGGAAATTGTGCTCAAAGCTGAATTTTGAGGAGGTAAATACAGCCTCTGTGTGTAAGACAGAGAAAAGGAGAGAGTGGGAAGTAATTTATGTAT
CACAGTTGCCTAGAGAAGACAGAAAATAGGTGCCTGGCTTATGTGGCCACTGCTTTTTTTTTAAACTTATTTCTTTAATTTTATTTTTTTTTAAATTAGG
ATTAAAAAATGTACATATACACATAAAATATTTATTTTTGAATAGGTAATACTTTTATATGGTTCAAAAATCAAAAGTAGAAGATAAAAACAAGGTGTAT
ATGTATATATATTTATATACCTATGTGCATATATAAAATCCTTGTATACATATACACACACACACCTATGTTTTTCTTTATGTGTGTTAAAATCTCCCTC
TACCCCTTTCCTTTAGCACCTAATTCCTCTTCTGAACCGATGTTATTTCCTGGTGCATCCTTCTAGACATTATTATGCATTTACAAGGCAATATGTTTGT
ATATTCTTCTGCCCTCCCCTTCACTTTGCTATACACACCTTGCTCTTTTTGCTTGACAATATATCTTAGAGATGGTTCTAAATCAGCATATAAATTATTT
CTTCATTTTTTAACAACTGCTGAGTATTACACTGTGTGGATGTTTCATAATTCATTGAACCAATTCCCTATTGATAGACATTTGGGTTGTTCCCAGCCTT
TTGCTATTGCAAATTGTGCCGCAACGTGTAACCTTGCACCGACATCGCTTCCCACGTGCATGCATGTATTTGCAGGATTGAGTCTTAGAAATMGCAGCAT
CGGCTGAGAGAGTATGCACTCCGGTCGTTTTCATAGATATTGCCAAATTGCCCTCTACGGAGGTTGTTCTGATTTACATTCCCACTAAGCAACATACGAC
AGTTAGGGTGGCATTTCCTGACTCCATGCTTTGTAGCTGGGTGGAGGGGTGGACTGAGAGTACATGTGGATGGGAAGGTGCAAGTGAATGCTCTCAAAAT
GTGCTTTAAGGAGAAATATTTTGTTGGGACACAGAAGTTAGACTGCAAGAAGGAGAAGATTGGATTCAGGGCAGGAAATCAGTACAACTTGCAGTAGTCC
ACRTGACAGTTACGCAAAGGCCTGGTCTGATAGAGGAACAAGAGAGAGAGAAAGTGCATGGCAAAGACCCATCATTGATGAGTGACTGGATGTGAGGAAT
GGAGCAGGGGAGATGCTGATGATTTGGTTACCCSCTTCTCCATCCCCCACCACCCACTGATGTTATTATCCAGTAAGGACCAGGAGAGAAGAAGAGATTT
AAGAAGAAGACAATGGCTGTGGTTTGATGAAGATAAAACGCCCTGCCAGAATCATTTGAGCAAAAGCTTAATGTTGTTTGTGGCAATGTCACTTACTCCT
GATCCCATTGGAGAAATCTTTCCTATCACTTCCAATCCACGTGTGTTCAGACAAACACTAATTTTGTTAGTACAACGTCCCCTAATAGCTAAGAGTTAAA
AAAAAAATAGGTCTTAGAAGTGTGAAAAACAAAAAACAAAAAACAAAAAAAAAAACACTAAACCCCAAATTTGTCCTTTTAACACTTTCAGCAACCCTGT
AAAGTCATTATCATCCCCCTGTTACAGGTAAGAAAATTAAGGCTCAGAGAGGTTAAATAACTTGGCCAAGGTCACACAGCTATTAAGGAATGGTACCATG
TCTTGGACCCAGGTTAACTTTAAATCCTGAGCTTTATAACGGTTTGATTTCAGTAGCAAATGCAGTGGCACAGAAGGGTCTGGGCATTTATTTCCAAAGA
ATGATTTCACTCAACTGAGGAATTCTAATGTTTTAACAGCATCCTACTTATTTCTAAAGTGTTGGGGTGAATTTGCCAAGGTTTGAAAAGTGCATTTGTA
AGCCAGTAGGATTCAATCTGAAGTCAGGGATAACAGAGCCGGGGGCGGAGGCTAGGTCTCCTTACATATTTTGTTCACAATGGGACTAGAACACTCTGCA
GAGTATGAAGGTTGTGATTCAGTTGCCCAAGCAGTAAGGCCTGACTGGTGTCACGATCCCACAACCCGCACAAAGGCGCCATTGTTGCCCAGTGTGAAGG
GAGCTGAGGCATCACCAAAGGGGGCCAAGCGTCCCTTCTCTGGGTTAGAAATGTTGTTTTCCATTTGCTGGTAAACAACAGTCCAAGTTCATTGTCCTGA
CACAGAACTCTGTTTCTTCTTTTATGCTGAGAGTTTGCAAGTATGGATCTTGATAGGAATGCTTGCAAACAACGGTAGTTATAAAATGTTGCCTCCTGTA
TCTCAGTAGGCACTGTTCAAGCATTTGAACTTCATCAAGTATCAAGACAAGTCTAAGAGAAGGTGGGGAGAGACCATCAGGRCCTAGGATTGSAAAACCT
CCAACGCAAAATAGAGATGTAGTTTTAGCGTGCTGCCCAATATTAAAAGATTGTATAAATGAGGGGGGCACACTTCCTGATATGTTCGTTATGCACATAG
TCACACACCTCTCAGTGCCTTAAAATTTGTTATGATGCAGTCTATCTCGTATGGAACGATCTTGATGTATCTATCAAACACGGGAGAAAAACCACTTAAA
ATGTGTAAAAAGTTTATTAATAAAGGAGTACATGATTGTGTTTTAAAAGCTACATACATTAGGTTTAAGCTGCAGAAAATGGCGGTTTATTCCGAAAGAC
TGCTGTATTTATGCTTAAATAATTAGGATTACCTCTACCTGGTATATTTGCAGGGACAAGCAAAGCATACACTGAAAATAAATTCTCAAATGAAATTCAT
TTCACATTAGTTGCATCCCAACATTCCTTTATGGACTGCATTCCATGCCTGGCACTGTGCCTATGATTTATTAAAATCTAAAGCCATTAATAAATAAATT
ATTCAATCCATGCATTGAATTATCTAGCTCWTTCAAAGACAGTCACAGTCCATCCCTCAAAGAGCTCATGGACCAGTCGAAGGAGGGTGACAGCCTGGGT
CAAATTGGTGCTGAGCACACAGGCAGGGGTCAGGCTCCCTGGAGTGAAGTGTAAGCGTCGCTGTTCACTGGCTGAGTCATCTTTGGTAGGTCCCTTTACC
ACTTTGCCACTTTAAGTCTCCGTTTCCTCATCTGTAAAATAGAGGTAATAAAAACAGCTAATATTTACAGAGAGCTTACTCCTTGTTAGCAGTTTTCATT
AATTAATGGGTGTATTTATTGGAATAACCGTGTAAGGTTGCCATTTTTATTTCCATCTGTGTGTTACAGATGAGATGTGTAATAGAAAGGGAATTTGCCC
AAGCTCACAGTCACAGGCTGGTGGAGTTGGGATTTCAAACCCAGAGTGTCTGATTCCTGAACCTGTGCTCTTGTCTCTTCCTTCAGTACCACATACAACA
GAGGGGACAAAATAATTTCTATATAAAGTGCTTAGCATAGTGCCTGCCACTTAGACCTCAAAATATATTGTTTTCATTGGATAATTAAATATAAAATAAC
ATACAGCATGATGRTTAATACAACTAATAAATAGTGCATTAGTATTATAGGCACAAAAGACAGTATGAAGTACAGCACAGATCATGAGGAGGGTAGGGTC
AGTTCTACRTAAAAACAGGGTTAGTAAAGGCCTCAGAGAGAAGATGTCCTTTGAGCTGAGTCTTGAGACTCCAGAGATCAGGACTCAAGGACTGTGGAAC
CTGTACATTCACRTCCTGGTAATCTTACATTGCTCAGAAGACTCCAGGGACATTGAGGTTGCCCCCATGGAGTTGAAACTCCTATGCTGATCACTTAGGA
AGCCAAGAACAAATTAACCCAGGGCAACAAGAAACAATGACTAATTAGACCCTAATGAAGTGCTGCGGTACTGGCGTCCTTCCAGATTTGACTTGTAATC
GMCACAATGTATTACAGATGCAGAGTCTTCATCTTGTTGGGCTGTGATCAAGTACATATGCTCCCCAGCAGTTCTTTGAGATTTCCATGTTCTCCGCACA
GTGCGGAGCTACTGCRGGTGTGTGAGCCAAGGGGGCCCTGTGACCCTTGAAATAGAAAAGGGGGAAATGGCTGCATGCCARCCGAAGAGACCACTGCATT
GTTGGCCATAARTGAAACTAGTGAGATGTGTGGGATATCATAAAAAGAACATTGACATAATCCTTTTTTGGATGAAGTTATATCACAACCAGAACACACA
ATGACCAGCAGGCTTCTCTTTTTTTGTTTGATTTCACTCCTGAAAAGTGGGCTTTCTGTGAGAGTTGGACAGACTCCATGCTGCCCCTGCCTCCCGGGCC
TTCCTTCCCAAGCAGGGATGAGCTCTCCTCTGCATGTAACAAGCAAGGTGATTCAGCAAGAAGACTGCTGGTCTCTCCCTTCCTCCAGGGCCATTTGTGA
GAGTGAGACACAAAATATTAGAAGCAAAAGAAGAAGCTGTACTCCCAAGAGGCATGGATCCTTGAGTGAGTTATGTGCTTGGAAAAAATTAGTTTGCACA
TGAGGACACAAAGAGAGCCTGAAAAGCAGGAGGCTTTGAGGTCTTTTTTTCCCTCCTGATTCGGAGGGAAAAAAAATGTTGTTTGTGTTCATTTATGGAA
ATTAGATCTATCACATACTCTTAKGCAATTTATGAAATGTTAAGCAATACCCCTGAATGTCCTAGTCCCAGGAAAGTTGAGAGTTGAGTGCAAGACGGGG
ACACCCAGGAGCCAGTAAATCAACTCTTGAATGATGGTGTATTAAGTGATAACCTTGTCATAGTTAAAGTCACACTGGAAGGATATATATTGAGGCTTTA
TCTCTGCCATGGTGTCAGCATCAGTGAATTAACACAGGGTGTCTTAACTTTTCAAAAACAGGRCATGGGTGATCAAGCAGCAGTATATCTCTTTACTCCT
TGTATTAGTCCATTTTCACACTGCTTGATAAAAACATACCSTAGCCTGGGAAGAAAAATCGGTTTAATGGACTTACAGTTCCATATTGCTGGGGAAGCCT
TACAATCATGGTGGAAGGCAAGGAGGAGCAAGTCACGTCTTACACGGATGGCAGCAGGCAAAGAGAGTGAGCTTGTTCAGGGAAACCCCTGTTTTTAAAA
CCATCAGATCTCACGAGACTTATTCACTATCATGAGAATAGTACAGGAAAGACCCACCCCCATGATTCAGTTGTCTCCCTCCAGGTCCCTTCCATAACAC
ATGGGAATTATGGGAGATACAAGATGAGATTTGGGTGGGGACACAGAGTCAAACCGTATCACTCTCCCACCCAACACTTGCAGAAACACACACACACACA
CACACACACACACCCCTTCCTACGTCCTACATCCCTGTACTTGGAAAGCAATCATATTTAAATCATTGCTGCTGGAACTTTAGTTGACTTTATAAGTTAC
ATTTTACATAAAAAGGCAGCAGTGGTGAAGCTGGAAGAGGGCACCTAGRCTTTGATTTCAGGCAAGATTTTGTTAGGTCCCAGTATTGGRACTTCCGGTT
GGTGGATTTTGCTCAAGAATAGTTTTCTCTTTGTCTAACGCTTCATGAGAGACAACCTAAATAAAGCCACAGCCAGTGTTACAGAAATAGTGTTTCGTGA
TTAAAATAATGGTACTTATTTGGGAGAGTTACTTGCCACGTTTCAGATGATTKGGAGGTAGTCTTTTCAGGAATATTCTGAGTTTGTTTCTTGATCTCGA
TAGCAGCAACCTTTCCATTTGCTCTCTGTCTGGTTTCTCTGTGTCTCTCTTTTTCCCTCAAACATCGCTTTTCTTTTTTTAAAACAAGAATAAATCCCTT
AGGACCTTGCTAAGTTATTACTTATATTGTCGCTTAAAAAAAACTTTGGAAAGAGGCTCTGGCATACTTTAAAAAAGTTAAGCACACTCAAGCCTCTTTA
ATTCTAAATTCAGTTTTGAATATGCTTGTACTGATGTCAATGACTTTTCAAAAGAGAGTGTCCCAATTATTTAGGTGGCCAAGAGAAACAGCTTTAATTC
TTTATCACATAAATATGCTTCAAACCACGATTTAAACCAGATGGATGGAGCACTGGATTAGTGGTGGGGCTTCTTGGCTGATCTGAGTTTCGCCTCCTCG
ATCTTGCCTGGGTCTGTTCTGTCACTTGGATCTTACCAGTCCTGGCAGGCACACAGCTCTGTGAGATTTTCCTTCTGGCTTTGCATGAAGCTTTTGAAAA
GAAAACACATACATGCAAGTGACCTTTCTAGGGTTGTTTCTAGTTTCTTCGTCTTACATAAAGCCCCTGCTAATTTAGCATGGTGTGTGCCCGAGTTTAT
TTTCTTTTTAACAACTTTATTTATGTAATTAAGCGAGTGAAGTCATACATTTTATTGATCTAATGAAACGCATTTCATGGTTCCTCCTGCCCTTCATCTT
CTGACCTTCCCCTTCAGATCACAGCCCTTTACTTTCGTCAATGAGACGCCACTTAACAATTTTCCACCTTGCCAAATTTGAGGTCCCCCTCAACATTAAC
GGGGAACCCAATATCAGTTCCTTAAATGGGAGCAAAGATTGATGTCAATATAAACTAGGACACACATTCATATTGCAGAAAGGGTAAGAAATCCTTACAC
AGAACGAGTACGGTCTCTAACAGTAAAGTACAGAACAGGTGGTTCTCATTTTAGTATATTTAAACTTCAGGTCCTTAAATGTTCTTTTCTTTTTCCTTCA
TTCTGTTTCTTTATTATTTTAATGGAGTGCAAGGTGCAGTCTTTTTGAAGATGTAGAATGTGGCCTTATAAAAGCTAAGTGCTACTTTATATTTCTRCTG
TCCTTGCCSGTGGCCTGCACTGGGGAGTTGTATATTGTATCAGTAATTTTAAAAGCCAGCAAGTGTTCTACCAGCTGAAGAAGTTTTCCTAATGGTGGCT
GGTCAAACGTATTACTTAACTAGGCGTATAGAATTGAGGGGAAATGCAGGATGTAATGAAATGACATTGGTCAATCCTCAGTAAATGTTTTTTTCAAAGG
CTTGGCACAAAAAATGTGCAAAATCTTGGAGGTAGATTTTTTTGGGGGCATTTGTCAGGGAAGAGATTAATATAATACTCAGTGAATTCAGGCAAGTCCT
CAAGAAGAAAAATTTAAGGAGCAAATATGTGAGCCAGGATCTCATGCTGGACTATCTAAGCAAGCATGTAGGAAGAGTTTGTTTCTTCCTGCTRTGGCCA
TAGAGGTTTGGTTGTCACTATGAAGAATGGGCCTGTGTTTTTTTTTAAAAATATGCTGATCTGGGTGAGGTCACATTTTGCTATTCTCAGTGGAGGGAAT
AATTGGGATTATCTTATGATTTTTTTTTCTCTTTAATTTTCTTACAAAGGAAAAAGAAAGAATCCAATTTGTTATAAATAACTGCTGAGGGCAGTACATG
TTGCAGGTAGTCACTATCTGGGACTGGTGGCACAGGCAGTAAAGGATTCACCAAGACAGTTGTAGGTAAAGAAAGGTGGATTTATTGGAGAAGATAAGAA
AGTACACTGTAAGGTTGCAACAGGCAGCCCAGCATGGAAGGGGCTGTCTGCAAAGAGGCAGGGGCTGGAGGGACTGAAGTTATACAGGGTCCTGTTGGAG
GGAGCTATGTGCAGAATGAGGTCGAGGTCATTGTGCCTGCGGATTGTTTGTTGTTCTTCCCTACCCGGGGCCCACTCCTACCTGGGGCCTCTTCCTCATT
GCTGCTTACTTATTAGAACTCCACAGTAGATTTTTTATAAATGCAGACACATACAGACACCCACACCCACACATACAGACACACACAGAAACATATACAC
ATTTAGGTCGCGATTTCTTCACAAGGACATTCTTATAGACATGTCATGAAGGGACTTGGGGCTCAGAGAAATGAAGTAACTCAGCTAAGTCTGTACAGTA
CTTAGCCAGGGGATTTAGAAATCCACCCAGGGATGGCTCCAGTTGCMTGTTTCTTTTCATTTGACACGGGATGGCCTAATGGGTCCCCACCAGGGGTGGC
TTGGAAAGGAGAAAGCAACTGCATTCCCACTGGAAGGTGTTCTGTAGCAAAGTGGAGTGAATGCCACCAATAATGAGTTCCAAACAGGGTATGTGTTTGC
AGACAGGAGCTACATACATTTGAAAATTAGGATGATTTGAAATTGAAATGAGGGCTTATGCTGTTCATTGGATTAATTTTTCTCTCTTATAAATAAAAAA
TATATACAAATAATACATAAACATTGTTTTTCACTGTGGCTTGAATTTTCTAACAATTTTTTTCTTCTTCTCAGGAAATGTTTTCTTCTTATACCTCCAA
AATAACCACTGTTGACAGTGTATTGTTAACCTTGCTAGAAAAAAATATTTATTTTTGATCCATACACGTAAATATGCATACTCATAAATATGCATTCATA
TTTTGTGTATGAGTACACTTGTTAATTTACATGTATGTCTTGATTTATATACATTGTTCTATACCTTTCCTTTTCCCATAATTTTATGGATTACATTTAT
TTTCATTTCTGTATATTTAGTTAATTCTTTTAAAAGGCTGCCTGTTATCCCATTGTCTGTCTTCACCATCATTTACTTAYGTAATAAATCTGTTAAATAA
TTTTAATATAAATCTATTCATCTATCCATCTATTAAAAGAGATTTAAGTTATTTCTAATCTTTGCRTATTATAAGTTGCATTTCAGCTTATACCTTGACT
TTCTTTGACATATACATCAATAGGTAGAGTATATTCCTAGAAATTCAATTGTGGACCAATGAGATGTACTTCAAATTTTTAACAGATATTTCAGTATTGA
CCTCCCAAAATGTATTCACACACCCACCAAATCTAAGTGTCTGTGTAACACACAGATGCTGATTTGGAGTATTACCATTTTAAAAAAATAATATAGCTAT
CAGTCGTGTAAAAAAAATCCTCACCATTATTTCTTAATTTTACATTGTAATTGTGAGTGATGTTGGGTAGATTTTTGTACTTTTATTGACCATTCACATT
TCTTCTTTTCTGAACTGCCTTTCCATATTCTCGGTCCAGCTTTCTATAAGATTGCTCTCATTTACTGGTGAKAGCTCTGTGTAAATTAAGGAAACCATCA
CCACCTTCGAATGGCTGACTATTGTAAATATTTTAATGTTTGTCGTTTGTTTGCAACCTTGTAATTTTTTCCTGTGCAGCAATTTTAACTTTCTATATTC
AAATATACTCTGAATGCACAGTGARTTTGGCAGAATACCATTTAAGTCTTGTATTTTCCAAAGYTAGTCAACRTCCAACTGCCAATGTTGCCTGAACAGG
AAATATTTATACCTGAAAGCGTCCAGGTGAGAGTCAGGAAAGCCATGAAGGTGCAACTGGCATACTGATGTCACTTCTTCTTTTTTTTTTTTTTTAAGAC
GGAGTCTTGCTCTTTTGCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACATTTGACTCCCTGGTTCAAGCGATTCTCCTGCCTCCGCCTCC
CAAGTAGCTGGGATTACAGGCATGCACCATCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTTACCATGTTGGCCAGGATGGTCTTGATC
TCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTACCATGCCTGGCCCTGATGTCACTTCTTAGGCTAATTTC
TGTGAAATTGTGATTGGGAGGAAAAAGTGAACAGGAACTTAAAGCCAGCAGAGGAAAGCTACCTGCCCTTSACTGGTGGTCAGTGCATGGATTCCAGAGA
CAGGGTGGGCACCAGTTCCTCACCGGGTCCTTTCTAGTTGCATGACCTGGGGCAGGTGACTTTATGTGGCTAAGCCTCAGCTTCCTGACATATGGCAGGA
GTAATAATATCCCTTGAAGCCAACAAAATTCAATAGGCACATGCCATGTACATGCCTGTGTTATGCCGGGAACTTCTTAACATTTCCAGAATATGTGTAA
TCATATTTGTTACATGCAATATGAAATTATGTGTAAACTGTCCAACCTGCAGGAGGCAGTAGATCAATCAATTACATGTGATTAATCCTCCCCCTATCTT
ACAGAGAATAGGAGAGAAAATAGAGCTCCAAGGTGGAGGAAAAGACAACTGAGAGGAGGCTATTGTGATGTTTTATTACCATAAACTGCCAAGGGTTAGY
CGTAGCCCTCCATCTGCCAGCTAATTCCGGTTTCATTAATATGAATATTCTCACGCTTCCAGAAGGAAATTCTTGGAATGTTATGGATCTCTGTAGCAGG
CACATGCAACGTCCAGTGCTTCCCTGCTGGTAATGTGGCGGTTTTATTATGCATGCCATACCCATGCTCTCTATTTCCTCGATAGRCCTTATAGAAATCA
CCATGCTTCCTTTTAGAAGAAAATGATGGTATCACATGGAGAACGAGCTGAGGAGCTTGACAATCTTGGCAAGGCTTATCAAAAGAAAATTCATGTGTTA
GCCTTAAGTTAACACTACTTTTATTAAATTCAGTTTTTATCACAGCTGATAACTTGGAGATGTAAGCATTTAGAGACAGAATTCACTTATGAATGTTCTA
AAATGTCAGAAAGTTTAGGATTCTCTTCAGGTAGTTTCCTTTCTCTCACTTGGAGTGACATGTTGGACCCGTGGCATTGTCCCGAGGCAACGTTGTGGAA
TTTTTAGAGAGTGTTTGTCTGTTAGCTGTTTGTTTTGAACATGTTCACCTTTGGCTCTGACCTGCCATCATGGAAAAAAAGTGTCAATGTGTTGGGAAAG
AAATGGGCTGCTTCTCTTTTCTCCTCCCTCCTCCGTCTCCTTCCCCCGACCCTCCTCCATCCCCTTCCTGCCCCCACTCCTCCTGCTCTCCAGCCTGGCC
TCTGTCCCCTCTGTGTTCCTCCCCTTCTTCCTTGTATCCTTAATGACTTCCAGGTGTGCCTGCTGGGTCAGGCTTCTGGCCCCGTCCTGGGGAGGCTGGG
TCTGTGCCTCCACAAACACAAGACCAAAGTTAGGGGGTGGGGGACTCCAGAAGTACAACATCAGAGGAAGAAAAAAAAAACTTTGAAGTTTTGAGGATGA
AATTGGTAAAAATAATTCTAGATGAAGATAGACCCGTTTACATTCCAAGGAAGGGAAATGTTTTACCCAAACTGTTTCCATGGACCCTGTGGGTTCTTGT
TAATRCTGTTCAACCTTGTGATTGAAAGCCCAAGCCCTGTGATCCACAGCAGGGGCCACAGCCAGAAATAATTCCCCGAGAATACTGCGTGTGCCTTCAA
ATGGTCCTTGATCRTTTTTCTTGGATGCCCCACTTTCCAAAGGCCAGAAATTGTTTCAGGGAGTCATTCCAGTTGGGGAAGGTTTTATGTTCTAAGAGCA
AGGTGCTGTACTCATAGGAAAATGTGTAATTCGTCATGATCCTTTTGTGTGGAGAGGATGGCGGTGGTCCACTTCTCAACTTGGGAGTCCCTTAGTGACT
CATGATGTATCCTTCAGTACGCTGCCCAGTGCCTTCCCCATTTGACTTAGATTTTCTGCCACAGTTTAAGTATCACCTCCTCTATGAAGTCTTGCCAGAC
ACATTCCTCGTCTCTTTCCTGTTGGAACAACTGCCTCACTCCTGTGGCCCCACTGTGCCATAGACAGGTTAGAGAACATGGGCCCTGGCATCAGACCTGG
CAGGCAGTCTTGATTAGGCCCSTTATTAGGGTGCTCTGGGCAAGTAAGTTTACCTGTGCCAGGGATGCACCTTTTTAACCCAACACTTAGAGGGGTCCTC
CATGTACAGCCATGATCACAACTCTCTAACGTGGTCACTTGCTTGCACACACTTGTTTAGATGTCTCTGCCCTGCTGTTAATTAGACTGTGAGCCTCCAG
AGGGTGAGACTGACATCTCATTTCTCTTTKCAGTCACAGCAGAGATGCAGGCCCACAGTAGGGACTCACCAGATGTGGCAGGGTGAGGGAATTGTCCATA
GATGCCTTAAAGATATGCTATCCACAGGAGCAGAGAGCACAGCAGGCTGGATGCCAAGGAGAATTCGACCAGGGTAAGGCTTACAGGCAATCCATTCAGT
GCAGAGTCTTCCCCCATCCACACATATAACTCCCTTTAGTATTGATGACCTTTCTCTCCTGAAATATTACAGAAACTGCCCTGAACGAAGATAGATGGTC
CCCCCTCAGCGTTCACACATGGTTCCGTCTCATCCACCAGCTTCCCCGGCCCCATTCCCTCTGTCTCAGGAAAGTAATAATAGTAACTCATAATAATAGT
TCAAAATAATAATAATCATACCTGGGATTTATATTTCAGCGTGCCTCCTAAGAGGGCAAATAAACCATTTTACACAATGCAGAGAGAAGGACAGATTTTC
TTTGTGCTGCTGCTGATCACGTTAAGCCAGGAGAGATTTACAGTCAAATTCCAGCTACAGAAGCAAAGTGTTGGTGCCCCGTTGGCATGTGGGGATCCAC
TTTAATGTTGTTCTCTTGGTTTTGCTTAAACTGCCAAGTGAATTACTGTAACACACTTTGCCTGCAGTTAATTTGACATCTAGTGCCAGAGAGCTGCTTT
ATATTTTTCAAGGCAAGCCAGGGTGAAATTTTTGCAAAAAGATTTGTCCATCATTTTTACTGATGTCCAAACACGATGTCTTTAGCTTCTTTGGAATCGA
GCTGTGGAAGTCACGTGGGCTTTTTCTTTTTTCTTTTCTTTTTCTTTCTTTCTTTCTTTTCTTTTTTTAAGGATCACAGAAGAAAAGCAGGCCGATCTTG
TTGAAATGTTTTTAAAATCTCCAAATAATAAAATAGGTTTAGGGTGTTTGCTTATGAAAGCTGACTTTCACCAGAATGATTTATATGCATCATGGGCAGA
GGGGCAGTCCAATAAAAGAGGCAGAAAGGGCTCTTGAAAAATGTCCCTGGGCACTTGCCCGAATGACTTTAGTGACAGTATCTACTAAAACTGATAYTAA
TTCTGTTACGTGTTATGGCGCATACCCAAGACCCTCCCCATAAACTATTTGAAAGAAGCAAAGTTGTAATTCTCCAAATACGGACTTGTACATTTCTGAT
CATTTTAGCACCAACATTGGTTCAAACTCTGGCAGCCGACCACAGTTCCAGCTGAGCTTTGCTGCGCTGTCAGCACCATGGGGCCTGATAAAGCATTTTT
GGATTTTTCCTACTCACAGTGCCCCCATGGTCTCAATGCTGTTGAGAACATTAAGCTCCTTACCTGTGTTTTGTGGTTGTTGTTATTGTTTTTCTTTCTG
GTAAAGGACTTTATCTGCAGTCCTAACAAATTGACTTACGTTAACATTCTAACTCGTGGCTAAACCAAAAATAAACTTGCAGACCCTGCCCTGAAATGCA
CGCTCTGAGCAGTCTATTGGATGCGGTGGTGTGGCCGATTTCTTGGACTTGCTACATTCTTAGGCAAGTGACATCTCCCTTCATTTGTACAGAGGGAGTT
AGAATTGAATCGAACTTCCACCGCAGCATCCGCCAGCTCTTATAATCACTTGCCCTTTGCTGATGGTGAGTTTTTAGCTGCTTTCTCTCCTACCATACAG
CACTGACACCTGAGAAGTCCAGTCCTTTTGGAGTTCAGTAGATTCCTTGTCTCTGGAAAATCAGCAGAAAACAATGCAGCCTCCTCTTGATCTCCCCTGA
ACTTTGCAAACCTCTCTCAGCATTGACCGCATGAAGGGTGGGTGCCCTGAGGCAGGCAAGCCACCAGGTGGTAATTAAGAAGCAAGAAGCGCTGCTCCCA
ATTCTCTAGATCTGGATTTAGAGGCCAGTTGGCTTCAGAAAACATCTCATTCACACAAAATGGGACATGGTCTTTTGTCTGTTAAACATAAGCTTTCAAG
GTGAGTTGTGCAGAGGCAAGTCTGCTTGTTTCATCAAGCTGACGTTTATACTTCTGAGTAAGTAGGGGGATCCGGAGAGTCTTCTTGTCACTCAAACAGT
TTCCGTACGTCAGTTTCACACCTCTGTTCTGCATGTCTCTGTTGGGAAGGATGCTGATGTCTGGGATTTGAAATAGAGATGGTTGGACCTCTGACTTTCA
ACAGGAGGAAATCAAAATTAAAGGAAGAATATAGGCGTACGCTTAGAAAGGACCTGTGAAAGGAAGATAAATCTTGGGCCCCCAAATCACTAAGCTAAAG
GGAAAAGTCAAGCTGGGAACTGCTTAGGGCCAACCTGCCTCCCATTCTACTCGAAGTCACCCCTCTGTTCACTGAGATAAATACATATCGGATTGCCTCC
TTTGGAGAGGCTATTCAGAAACTCAAAAGAATGCAAACATTTGTCTCTTATCTACCTATGACCTGGAAGCCCCCTCCTCATTTCAAGTCTTCCTACCTTT
GCTCTGAGTTGTCCCACCTTTCCAGACCGAACGAGTGTTCATCTTGCATATGTTGATTGATGKCTCATGTCTCCCTAGAATGTGTACAACCAAACTGTGC
TCTGACCACTTTGGGCATGTGTCATCAGGCCCTCCTGAGGCTGTGTCACAGGTGCACATCCTCAACCTTGGCAAAATAAACTTTCTAAATTAGCTGAGAC
CTGGCTCAGATTTTCAGGGTTCACAGACCTGTCAACATGAACTGTCAGTGGTGATAGCACCCGTTTTCAAGTCTCATTTTAATCGGAAGGAAGTTTTACC
AGCTCTTTGGCTTTGTAGAAGGTCGAGTTCTCCAAATTTAAGAGATTCAAAAATGTCCTCCAAAGAAGTTTGGGGTGAAAACACATGACAGTTTCTTGTT
CATATTTGGCCAGAAGGAAGCAGTGTCCATTAGGTTGACTCTCCAGTGCTTCTTGGTGTTGTGATAAGCCCGTCTAGCAYGGAGGGCCAGAAGGAAGCAG
TGTCCATTAGGATGACTCTCCATTGCTTCTTGGTGTTGTGATAAGCCCGTCTAGCACGGAGGGCCAGAAGGAAGCAGTGTCCATTAGGATGACTCTTCAG
TGCTTCTTGGCGTTGTGATTAGCCCGTCTAACAGGGCGGGCCAGAAGGAAGCAGTGTCCGTTAGTATGACTCTCCAGTGCTTCTTGGCTATTGTGATAAG
CCCGTCTAGCAGGGAGGAGATGTCTACACGGTGTTCTCCAAACTGCTCAGAAAAGAGCAGTAAGGACAGGATGGGGCCCAGTTAAGAGGTATATATCTTA
CCTTCTCTTTTTCTCCTTCTTCTCCATCTCCTGCCCTTACTTCTTCCTGCCTGTCATTTATTTATTCTTTTCACAGATATTTAGTGAGTCCTTGCTCTGT
GTCAGGCCACAGTGTAGATATTCCAGGGATGGAGGTGACCAAGCAGACATGGCCATAGTGACAGGCTAAGGAAGCACAAATCACAAATACAGAAGATAAT
TCCTGGTAGTGACGGGTGCCTCCAAGCATATAAAACAGGGTAGTGAGATGGGAAGTTAGAGTAGAAATGGCTCAATTTTGTGCTGGAACTGGCTGCACCA
GCAGGAGCCAATGATTACCCATCTCCCATGTTTAGTGACATCATGTTGATAGCTTGATTTCAGCCATAGTGAGAATATTTTCACCACGGAAATTGGCACA
TGCTACACATCAGGGCTCCCTCCTCCCCACCAAAGCTGATCATTAAACATTTTCTAGAACATACCTGGAAGGCATCTGGGAAGAGGTAACATTGATCTTA
ATTGTTATTAGAGAGAATTTTCAATTTCAGTTGTAGCATGAAAAATCACAGAGTCCATTTATTTCTCCTCTTYGAGTCAGTATATCTCAAAACATTTTTT
CAACGTTAATAGAAATATAAGAAGTGCCTGGATCAGTTTTTGKTTTTGTTTTGTTTCTTTTTGAGATAGGGTCTCATTCCGTTCCCTAGGCGGGACTGCA
GTGGCACCATTATGGTTTACTGCAGCCTTGACCTCCCAGGCCCAACTGATCCTCCTGCCTCAGTCTCCCAAGTAGCTGGGACTACAGGGACACACCATCA
TGCTGAGCTAATTTTTATATATATTTTTTTACAGAGACAAGTTCTCGCCTTATTGCCCAGGCTGATCTTGAACTCCTGGGCTCAAGCCACCAGCCTGCCT
CAGCCTCCCAAAGAGCAGAGATTACAGGCGTGAGCTACCACACCCAGCCATTTATCTGTTTTTTAAATAGCATTTTGGAGATGACAGAAAAAAAAATAAA
GGAAAGAGAACGCTCATAGAAGTTTAAGGTTCAGAAGTATTTGGCTTTGAAAAAAAAGTTTAAGGGACTGTTTGTCATGGGGTCTGGTCTTCCAAATTTA
ATGCCTCATTCCAGGTAGCTGCAGATTTTATAGTTTCTCTCAAAGAATGTCAATCCTATTGTCTTTCCCTGCTTCCCCCTCCTGGATGAAGTCTTTCTCT
ACACTCTTTTTTGGGAAGTTCCCAAATCTGTCAGTATATATTACAAAAACTGTTACCGCCTAACACATTAAATGTATTTAAATTATTTGTTCTATTAAAA
TGTCAGTGTMTTTCTTGAATTTTAACTGTGCCTGAAGATCARTCATTGTAACAGCTGCAGGGAAGGCTTTATGACTTACCTGAACGGTGGTGTATTCTGT
GGCTCGGCTAAGTGGATTCTTCGACTTTAATAGATTTTACTAGCTAGGACAAACCATTTGAGTGGCTTCTGTTGGAGTTTTATTCTTGATACATACCAAT
GATTTACTCAGATCCGTTAGAAAAAATAGTTTTAGGGATGATAAAAATTATGATAATAATATTGACAATAAATAGAGTATTCGCCAATATGTATAGAGTG
CCCATTATGTTTCACACCCTATGTCTTGTGTGTGGTGACTCATTTGAACCTTATAGCAGCCCTGAGGGATAGGTGCCGGTTTGTCTCTATGCGCCCATGG
GAAACTGGGGCACAGAGGTGTTAAGTAAGTGACCCAAGAACACACAGCTGGTAGGAGTTTTAGCCAATATTCCAGTCTCGATCTGCTGATATGAAGCCGA
TGCAGCTAGCCACCATGTTATACCCACCCATAGTCATGAAAATAAGATGAGCTTAATTTTTTTCTTTTGAGACTGGGTCTTGCTATGTTACCCTGGGTGG
AGTGCAGTGGCACAGTCATAGCTCACTGCAATCTTGAACTCCTGGGCTCCAGTGATTTTCAGCTTACTGAGTAGCTGTGACTACAGGCACAGGCCTCCAT
ACCCAGCTAAGTTTATTATTTTTTGGTAGAGATGGAGTATTGCTATGTTGCCCAGGCTTGTCTTGAACTCCTGGCCTCAAAGCGATCCTCCTGTCTCAGC
CTCCCAAAGTGTGGAGATTACAGGCATGAGCCACTGCACACAGCCAAGGTCAGCTTTTTCACTYCAGCACACCAGGATTTTCATCCCAGCTCTCCAATCC
CCCAGCTGTGTGGGCCTGGTCAACCTGTTTAGCCTGTCAAGACTTCAGTCCCTTCAACTGATAGATGGGAGAAATTAATAGCACCTGCCTGAGAAGGCCA
GCTTTTTGGGGGACCCAGGAGTTACGAATGCCCAGCACTTCTCAGGTGATAGCTGCTGCTTATCTCCTTGTACAGAGAGAACTGGAACATTCTGAAGATG
AAATGGGATAATAATGTCCATGAAAAGACCTGGCTTCACGCTTGCCTCCTGCTAGTTCCTTTTCTACTCTATTTCAGCTTCCTGTTTGTAACATGATTTA
AGCACTAAGCTATTGAATTTTGGAGTGCATTAAAAAAAATATCGAGTGGAAAAAGGAATATTTCTTAGGGAGGAAAAACCCKACTTTTGACTTTATAATA
TTAAGTTCGTTCATATCTCTCTTAGATTCTTATATAAATTTTATTGACCTAATGTTCTGTACAGTAGTCCTTAWTTACAGTTTTGGTTTCCAAGGTTTCA
GTTATACATTGTCAMCTGTGGTACAAATATATTACTTACAATAYGATATTTTGAGAGAGAGAGACCACATTTATGTAACTTTTATTACAATTTATTGTTA
TAATTGTTCTATTATTGTTGCTCATCTCTTACTGTGCCTAATTTATAAGTATACTTTATTGTAGGTATGTATGTATAGGAAGAAATGAAATATATGTAGG
GTTTGGAACCATCTGAGGCTTTAGGCATCTACTGGGGGWCTTGGAGTATATCCCCTGTGCAGAAGCGGAGGCTACTGTAYATACATTTGCCTGTAAGTGA
GCGCGTTCTTGGATTTTGTTGAATGGTGCCACTGATTATGGGTCAGAGCTTGTTGAAAGGGTATTAATCCATTATTTACTAAAACTAATTAAATTTTCAT
GTCATTTCTTTACTTATTGTTTTTATTCTCTATCAGTGTAATTTATTACAGCAACCAATTAAAGAACAATTTTATGGTTCTATCAGTGATGCCAAAAAAG
CATTTGCTCAAATTCAGAAGTCGTGATAAAGCCAACCAACCAACGAAACAGCAATACTTGTAACTAAAATTGGGAGAAAGGAAAACACTTTCAGTAGAGT
CAAGGATTTTTTTGTTAATTATTTTTATTTTTAGAGATGGTCTCACTATGTTGCCCAGGCTGGTCTCGATCTCCTAGGCTCAAGCAGTCCTCCCATCTCA
ACCTCCCAAAGTGTTGAGATTACAGTTATGAGCCACCGCATCCAGCCCACAAGTATTATTCCAAACTGTAAAATCGTGAAATGTTTTGCATTAGAATCAG
AAACTAGACAAGAATATTCATGATAGCTGTCAATTGTCACATTATTTTAGAAGTTTTAACAAATACAGTAAGACAAAAAAAGTCTTAAGTAATGGGATGA
AACCAAAATGTTCTTTGTTTTAAACTTCTGTAATTATAATCCTAGAGAAGCTAAAATATTCAGTAAAAATTACTAGCAATGAAATAATTTGAAGAGTTGG
CTAGATGTAAGGTAAATATACACAAATTAGCTGGTATATACTAGTTATAATTTAAGATGGAGATAGAAAAAAACCCCATTCAAAATATTAACACAACTAT
CAGATATTTAAGAATAAATGTATAAGAGTGATCAAATACCTGTATTAAAATTATATAATTTATTGAAAGGAATTTTTTGAAAGTCACCCATAAAATGATA
TAATTTTACCATAAAATATCAGCTAAAAAGGGGGCAGTCAGCAAAAGCTCAGCTGTGAATTAAGATTATTTTCTAACCCTTAGTTCTTTGATAACATAAA
TACCGGTAGAACTTGGAATATTTCAAGTAAAGTAACATGCTGTGTTTTATCTGTATTCCTGGTAACTTGCATTTTTCAAGGAAGGAAGTGTATGATATGA
AGTAGGCTTATAATTTAGTCAGATGAGCTCTTGGATTATGTTACCTTGAATATAATGCAGAGGAGAAAACAAAAAGAGTCTTTTGCATTTTTATTTCTTA
TCAATAGGTCCCTTTTTCTTGGAATGTCAGCCTGACCCTGAAGGTATTCTCCTACCAGCAGAGCCTTCTTTGATGCCCCGTCTTCAACCTGCCATGTTTT
CCCATCTSTGAGGCTTCTATTTTAGAGACTTTTCCTCCAGAACTGGCTTATATCATCCTGTGTTGCTGCATCCGATCACAGGTCTGTGGCTGACCTGGGC
AGCGTAGTAGAAGGGTCTTGAGATTTGGAGTCGTAACGAGTTTTCAAAACTCATAACTATATTACAGTTTGCGCAAGTCATTTAACCTATCTGAACCTTC
ATTTCCTCTCCCACACAGGATAAAATAAGGATAATAACAGCCATTTTAGAGTTCGTATTAATATTTAAGTGGGAGAATGCAGCCAGTACCCTGAGAATTA
AGGTTCATTCACTCAGCAAGTGCTTACTAAGCATCTGGTTTATATTATGGGAAGTTTTGAGAATTAGGTGGTCAGAAAGGTGTGGTCCTCGCCTTCAAGG
AGCTTACATTCTAGGAAGCGAAGACTACTGAACAAGAGATTTTAGTGCTAGGATTGGAGACCCCAGCAGAAGTAGCAAATACTGTGTGAGGTTTAAGGAG
GTTGGAGGCACCTTCGCTTGTACTTCTACATGTGTCCCTTCATGTCTAGTTCACTGATTTTTTAATTGAAATTTTAATTGAAGACTCACATGTAGTTGTA
AGAAATAATATACAATGATTCCTCATATTCTTAGCTCAGTTTCCCCCAGTGATAGCTTTTGCAAAACAATTGTGCAATATCACAGTGTTGACACTTACAG
AATCTATGGATCTTATTCAGATTTCTCATTTTACCTGTACTCAAGTGTGTATATGTGTGTCTGTGTCTACATATGTAGTTTTATACAGTGTCATCAAATG
TGTAGCTTCCTTTATACACAACTACATCAAGACAGTGAACAGTGCATCACCACAAAATTCCCTTGCGTTGCCTTGCAAACCACACCCACCTTCCTTCTGC
GCCTGCCTCATCCCTGACCCCTGGCAACCACTAAACTGTTCTCCACTTTTAAAATGTTGTTTTTTCAAAATTATTATATAAGCAGAATAGCATAGTATGT
AATCTTTTGGGGACTGACTTTTTTCACTCGGTACAATTCCGTGGAGATTCTTCCCAGTTGTTGCACGTGTCGGTAGCTTGTTTAATTTCATTGCTCAGTA
GTATTCCATGGTATTGTACATATAAGTGATCGTATGTTTAATCACTCTCCCGCTGAAGGAAATCTAGTCTTGGCTATTGAAAGTAATGCTATTATAAACA
TTTGTACACAAGTGTTTGTGTAAATAGAAGTTTTCTTTTCTCTGGGATAAATGCCCATGAATGCAATTGGTGGGTTGTAGGGTAATGACATGATTAGTTT
GTATAAGAAACTGTCAAGCTGTTTCCATGCTATTTTACATTTCCACCAGCATTTGGTGATCTAGTTTCACTATATCTTCACCAGCATTTGGTGGTGTTGC
AGTTTTTTATTTTAGCCATTCTGGTAAACATGTAGTGATATTTCACTGTGGTTTTAATTAAATTGCCCTGATAGCTAATAATTTTAAACATATTTTCATT
TGTTTGTCATCTATATATCCTCTTCGGTGAAATGTCTATTAATGTTTTTTTCTCATTTTCTATTTGAATTGTTGTATTATTGTTGCATTTTGAAAATTCT
TTATATATTCTAGTTATTGGTTCTTTGTTGGATATGTGGTTTGCAAATATCTTCTCTCAATCTACAGCTTGTCTTTTCATCATCTTTACATGGACATTTG
CAAAATAAAAGTATTTAGTTTTAATGAGGTCCAATTTATCAATTTTTCCTTTCATCAACTGAGCTTTTGTTGCCAAATCTAATAATTCTTTGGGTAACCA
TATATCCCAAATAATTTCTAATATTTTTTTCCTAAAAGTCATATATTTTTGCATTTTGCATGTATGCCCATGATAAATTTTGAGTTAATTTTTGTATAAG
ATGTGAGGTTAAGGTCAAGTCTAATAAATTTTGCCTAGGAACATCTCATTGTTTTAGCACCATTTGCTGAAAATGATCTTCCTCCAGAGAATTTTTTTAC
CTTTATTCAAAATGAATTGAGCATGTTTGTGTRGGTATCTTTCTGGCTTCTTTATTCCACTGATCTATGTGTCTGTCTCTCTGACAATTATACGCTGTCT
TCATTACTATAGCTATGTAGTAAGCCTCATGYCAGGTAGAGTGATTCTTCTCACTGTATTCTTTTTTATTAAGATTATTTTAGCTTCCTAAGACCTGTGC
TTTTTCATATAAATTGTACAATATGGTTGTCTATGTCTACCAGAAGCCTTGCTGCAGTTTTAATGGGGTTTAAATCTATAGGTCTAACATTAAACCTATA
GATCAATTCGGGAGAATTGACATCTTTACTATGTTGAGTCTTCCAGTTTGTGGACATGGTATGTAATTCTATTTATTTAGTATAAACCCACTGGAGTGTG
TACCTAAGCATTTCATTTTCTTTGGAGCGATTGTAAATGGCATTGTGTTTTTAATTCCAACTTCTACATATATCTAGAAATATGATTGAGTTTTGTGTGT
TGATCTTGATCCTATGASCTTGCTGATTGCATTTATTATAAAGTTCCAGGAGTTTTTTATTTTTGTTTGTATTTGTTAGTTTTTTTGAGATTTCTTGGGA
TTTTCTATCTAGCCTGTCATGTCATATGCAAATAGAGAATTTTATTTCTTCYTTTRTAATATGTGTGCCCTTTTTTTATTGCCTTATTGTAGTGGCTAGA
ACTTCCTGTGCTATGTTGAACAAGAGTAGTGAGAACATCCTTGCCTTGCTCCTGATCTTAGGGAGGGGGAAGTTATTTACCATTTCACCACTAAATTTGA
TGCTAGCTGTAAATTTTTTGTAGATGTTCTTTATCAAGTTGAAGTGATTCTTCTCAATTCCTAAATTACTAAGAAACTTTTGAAAATGATAATGGGTGTG
TACTTTTTATCAACTGCTTTTTGTATGCCAATCTATATGATCATAWGATTTTCCTTTAGCTTTTTGRTATGGTGGACTATATTGATTTTAAATATTGAAC
CAGCCTTGAAGACCTGGAATAAATCCCACTTGSTCATGGCATATATGTTTTTTTATACATTGTTGGATACAGTTTGCTAACATTTTGTGGATAGCTCACC
AACTTTTATTCAGAAAACATCCGTCTCAGTTTAGTGCCCAACAAGGAAAGCATACTGTTTGTTGGGTGGGTTCCATTTTTGTGGTTAGGAGAAGAATATA
GCTCCCTTCCTAGGGACGGTCTCAAATGAGTCCCCATCAGCCACCAGGGAGCTCAGCTTTAGTTGCATAAGAACCAATGAGCATTTAGTTTCATGTCTCA
TAAATAATCTGCCTGCTTATATTTTCATCTGTACTTCTCTCAGCTGGCATTCTGCCACAGACTACATTTAGGACCGCAGCCAGTGGGTTACAGCAGGAGA
CCAGACTCCAAGTTCTGGCCTCACGTTGCTTGGTATACATCACTCAGTTCTGTTGGCATGGATGCTCCTCCTATACCCCATCAGCCATCTTGCAGWATGG
GTTTGGTGGATCACACAGGGATTCAGATAAGAGGGTTCAGATCCTTCTATCCATCAACCCACCCATCCACATCACTGAAAAAGGGACTCTCAGATGCCGA
TGACCAGTAAGACCACATCTGTGGGCACAAAAGAGCCCATTTATGTTTTTTATGGGAACCTAAGAAGGAAATGCTTTTCTGGTCAAATACGTTCTTCTCT
GATTAGGCCTCTCATTTTAAGGCAGTTGAGAAGACTCACAGATGTGATTCACTGGCAATGGCTCTGGTTCACCAAGCTTAGCTCTGCTCAGTCTACCTTT
AGCAGAAGATTAAAAATGAAAACTCTTCTTGTTAGAGGTAGAAGAGATCCTTTCCCAAACCATAGATTCATGGAACTGTCAAAGAGCAGCACTGAACTTT
GTACTCAATGCCTTAATTTTTCCAGTTGAGGATAATTCACACTAAACAWGGGATTTCACCTCTCTGACTCATGCATCAGGAACTTGGAGATAAAGCCCTG
TTAATAATTCATAATTATATAGCATAGCATAGGGCAGTTTCAGATGCTTCAACTACCAGGTAGGTAGAATAAAGGAATGAAGTTGCTGTGTATASGATGA
TAAATGGTGCTAAATCTATGTCCCCAATATAGGGAAGACAGGAGAAAGTGCCAAAGATAGTGTGCATGCCTCATCTCTAAGGGGCAGCCATTATTGACGT
CCAGCTGARTGTTGCCACGTGGAAATTAGCTATAAACTTGCCAGAACCTCCARTTTTTCTGGAGAGATTAGATTAGAAATTCATATATTTTTAAATATTA
AATCATCCCTTTTTCTTGAGATGGTGTCACGTCGTTGCCCAGGCCACCGTTTATGTTGTCCAGGCCACCCTGGAACTCCTGGACTCAAGTGACTTTACCC
CTTTGGCCTCCTGGGTAGCCGGGACTACAGGCGTGTGTCACTGCATCCAGCTTAAGTTATCCGATTTGTAAATGGTGGCAATGAAATCATTGCGTAGGCC
AGTTGGAGTGAGCCAAATAAAATACATCTGCAGTCCAGATTCAACCTGCAGGCCATCATTCTGCTGTCATTGGTGTAGAAGACTTTTTCAGCCTAGTTTA
TTCTAGGCTCTTTTCATTTCTCCCTGATTTGAGGCTTTGTAGGACGTTGCACAGGAATTATTTCCCTTTTAAACGTTAGTTTTCATTTTACCAGTGCAAC
TCTGCTATTGGCACATCTATGAAATACGTAAAGCTATCATTTTAATACTAAAGAGGAAACACAAATTTGACTCATTTCCCCAGAAAATTCCCCTCCTGCT
TTCCATATGTTATATAGTTAACTGTAAAAGTGGCACCACCTCTTAAACAGCCAGCTATTCTGATCATTTGAAATCTGGAACATTCTTTCCTACGGTGGTT
GACTTTTCACTGCCTTTGAGGTTCTTTCCAAGTAAAGGCGTTATYCTTTGTGGTGTGCTCCTGGAGGTCACTAACAAAACGTCTCCAGCAGGTGTTGTGT
GGATTCCCCCAAATCYGTAGGCTCTTATTTCCTAGACATGAAGAGTATGTGCGCCTTCTTTTTGGTTACCCTGGACCAGACATTCCTCAGCACTGGCTTG
CATTGGCAGGAGGTGGCAGAGGGAGAGGACAGTAACCAATAYCGCTCCTTCTACATGATCAGTGTTCAGGTTGAAGACAAACAGGGCTCCAATTATGTTG
TGATTTAGAAGGYGACARAGCTGAGACCTCACCCTCTGCTTATGGGCTGCATGCCTTTCTCAGTGAAATAACGCAGAATGCAGAGGCCATGCCTGCAGAT
CAGGGGTGCTAGAGGATAGGCAAGAAGTAAAGTGGCCACCCTATCTCGTGTTGAGAGCATGCTAGTCTCYGAACGGCCTGCCAGGGTGCCTGACAGCCAG
AGCCACCTAATGGGCCTATTTGATCCTGGAGTTGCTGTAATGGCAAGAAAAACCATGGCCTCCAGCCCCAGTGTTGAAGTTTTGACGCTAATGTGATGAT
AATTCTCTTTTCTTTGASTGGGGACTTGCCTTTGTTTATCTTTTTTTGTTGTTTTAGCCATGAAATATCACATGTAAATAGCCGAGGATATCTGGGCTCT
GAGTCTTTAAAAGGCAACAGAAAGGTCTCTGTTACGAAGGGGGAACTAGTTTTCATTGTCACTGTATTAAGCAGAAGTTGGGAATCATAGAAGACCTTGA
TGTTACCATATCCCTTGTTAAATTTCCTCTAATACTATTGAGAAGTTTATCCTCTACTTTTTCCTGTAGAGTAAAAGATATCGATTTTGTTTCTGTCGGC
ACTGCCTTGGAACTTGCTTGCATCCCTCCCCCACGCGAGGCGAGGCCCTGAGGAGCGGGATTCGCTGACCCATGCTGGCAGAACGGGTGATGGATGAGGC
AGAGAAGGGTACAGGCTGGCTGGACCATGCGATGGGGAATGCAGGYGGAACAGGCTTCCTCCTGAATCAGGAGTGGAAGAGGAGTCTGGGGTGAAGCCAA
GGGGAAGACAGTTAAGCTTTAAAAAACCAACTGCCCAGCCGGGCGCAGTGTCTCATGCCTGTAATCCCAGCACTTTGGGACGATGAGGCGGGCGGATCAC
GAGGTCAAGAGATCCAGATCATTCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAAATACAAAAATTAGCTGGGCGTGGTGGCGTGTTCCTGTAGTC
TCAGCTACTCGGGAGGTTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCTTGGCGACAG
AGTGAGTCTCCATCTCAAAGAAAAAAAAMAAAAAACAAAAACCTGCCCTGCCCAGCCATGCCCAAACAGAGTGGCCAGCAGTCAGCTTAGTGTGGGCAGA
GCTCAGGGAATTATTCTGCAGTGCAGCTAACATCTAGCACCTTCTTTGTGTCAGGTGGGCCAGCACTGGGGTGGAGGCCGAGACAGCTTGTGAGCTCACT
CCCTGGGAGATAGAACGGAGTACCCAGTTGCACTGAGGGAAGAGCAGGGATAGAAGTGGGCTCCGGGTCTAGGAGACGGTGGAAAGAGAGGACTGCTCCT
AGCGTGAGAGTGTCAGGGAAGCTTGCTGGGGGAAAYACAAGGAAGGAAGAGAATGCAGGCAGCTCAAAAGAGCCSGGCAAGGAGACCTGCAGAGCGAGCG
GAGGCCTGGTTTCTGTGAAGCACAGGGCAGGAAAATCCAAACTCACTTGAGTACACGCTCAGGGTCATGGGCTTGCTATATTTTTCATTCAACCGCCAAG
AAATCTTGAGAGGCAGCTTTATCATCTCCATGTGAGGAGGAGGAGATTCAGGCCCAGCGTAGTGGCTTGCGAAAAGATTCCAGCACTAAAGTTTGACCCC
AGTCCTACCTGACTTCCTTTCTCCAGCTGTGAGACTCCCCTGTACAATTTTTCTGGAGGGTCTAGAGTCACATGAGTCACGCCAAGCCGCCCTTTCAGTG
CGAAGGAATCCAAGCAGAGCCCTCCTCTGCTGTGGGTACTTACTTAGGGAACTGTGGAGGTGTCCTCAGGTAGCCACTGGTGTGTGGGGTCATACCAAGT
CATTTGGTTTACATCGGGAATGCCTTTTGTCGTTATGTCTAGACCCCTGGAGAACAGCCCACGGCAATGCACTTSTGGAAATTCGGACTGTGRATTACAC
TGAGTAACAATCCTAATAATACCTGCACACAATCAGTTGCCTGTCCAAAAAGCAATAAAGAACCTCTAGATTTTGTGGTCACCATATTAATCATAAATTG
GGGATCATAGAAGGCCTTAATCTCATTGTACATACTTTTCTATTCCTCCCAGTACCATTTAAAGGTTAGTGAAAGCAACCTTTAGTATCATCTGTTTTTT
GGGGGGGKTTTTTTGTTGTTGTTGTTTAGCTGTTTATGGGTAGGAGAATGCGTGCTCTTTTAGGGACATCTCTTCAAATAAGAACAGGTTGTAACCTACA
CTCAAAAGAGATGCTCTTGGCAAGGTATGGCCCCTAAGGTTTGAAAGCGTTTTCCAGGCCTGCTGTCAGGCCAGGCTGGACTGTCCACAATTTCTTGTCC
TGCCTCCCGTGATGCTAGCCATGGATGCACCCCAGAAGCATTTAGAATTTGGGAGAAAAAGGAGCAAGGCATACTGCCCAAATCCAAAACAACTTTGGCT
CCCTTTGGCCTCCATTCTAACATGCTGAGTGGATGCATCATGGATAGTCTTTTAAAAACAAGTTCTCATCTATTCAATGTCAGAGCCCTAAATGGTATGA
AAAATAGGCAACTTGGGTCATGCCACTACAGATCGACACCCACTAAATCCTTTTAATTTAGTCTAGTGCAACAAGKATTTGTGTAAGTGTCCTCTGCCCT
GGACACCRGTGAGGTCACCGTGGGAATGGCTGGGCAGGAACAAAGCCTTTTGTTTCCAGCTGAGTTTCCTTTTCTGAAGATTGCCTGTCCTAGACACCAG
TTCTCTGTTCTCTGTGACTCTGATTCCTGTCTCCTCTTCTTTCACTCTCATCCATTTTCAATACTGGCCCCTCATTTCACTTCCTCAGCTAAATCTACCT
CTCAAAGATAGACATGGACATATAAATAATTTTTTAAAATCCTCTTTTGCAAAAAAAAAAAAAAAAAGAGGTGAATTTAGTTGAAAGGATATAGCCAYWC
TTTTCTGAAGTGATGGGGATATTCGATGGCAATTTTGTGTTTTCTTCACTTGGAAAAACTAAAAAGTTTGCAACATTTAAAAAAAATACAACCCTTAYGC
TGATGGATGTACACTGTAAAACAACCACGTTTGGTAAACTGTTAATCACTTTCATAGTGTATGTGGATGGAGCCAGTTAAACCAGTTTTCATGTCTTTTG
GGTCCTTTTGAGTCTGAAGATAACCATTTTTTAGGTCCTCATGAACCTCTGAGCATGAACCATGAAATTCCTATTACACCTGTGCTTTTATAAACTTGAT
CCAAGGTTTAGGCTCTCAGTGCCTGTTTCCTGTTTAATACATATCATGGTTTTGGAAAAAATGAAAGAAAGAAAGAAGAGGAAGAGCTGTCATTCCTCTG
ACAAGTATTTTCAGTGGAATTAGGGTCATGATGTCATGCTTATTTCAAAAGATAGCTTCATCTGTGCCTTCACCCAGACTTAGGGTTCTAGATTCTTCTA
GATTCTACAGCAGGCACTGGCAAGCTTTTGCTTAAGAAGGCAAGCCGGGAATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCA
GATCATGAAGTCAAGAGATGGAAACCATTCTGGCCAACATGGTGAAACCCCATCTCTCCTAAAAATACAAAAATTAGCTGGGCATGGTGGCGTGTGCCTG
TAGTTCCAGCTACTCGGGAGGCCGAGGCAGGAGAATCACTTGAACCAGGGAGGAAGAGGTTGCAGTGAGCTGAGATCACGCCATTGCACTCCAGCCTGGC
GACAGAGGGAGACTCTGTTTCAACAACAACAACAAAAAAGGTGGGGGGGTGGGCAGAGAGTAAAATATTTTAGACTTTGAAGTCTAAGAGACAAAATTGA
GGTTATTATGTAGGTATTCATATAGCATTTAAAATGTAATCATTTTAAAATGTAGAAATCACTTTTAGATCGTAGACCATAAAAAAACAGCAGGAAAAAC
TACATGGTTGGCTGGATTTGGCCAAGTTGACATAGAGAGCCAATCCCTCATCTCCAGCAGGGCTTTTACTCAATGATACAGTGYGCATGAATTGCTTGGG
GGATTGTGTACAAAGTGCAGATTTGGTTATAGGAGGTCAGGGAGGGGCCTCAATTCTACATTCCTAAGAAGCTCCTAACAGGCTGATAATCCATGGATCG
CATTTTGAATAGAAAGGATTATGCAAAAAGCCAGAGTTTTTTTTTCCCTTGYCTTATACCAGTGGTGCCTAGCATGGTGTCAGGTTTATAGAGGACTAAT
ACATATAAGAAGGAGAAAGGGAGGGAGGARGAATTCCAGTTGTTTTTTTTTTAATCTAGGTACAAGTCTCTCTGTTGATTTCTAAACATCGAATGAAGAT
GAAGGAAATACTTAAAGCACCTAAGCACTCATAACTCACTTAGTCATTTCACTATTAAAAGAGAAAAATAGTTAGTTTACAATTTCCAGGAAATCAGACA
GGTCACCACCACCTCTTCAACGACTGGAATTTGCRCAGTCTCACTACTCATAGGCCCATCTGTTACTACTAACAGTGCTAATGTGATTGTCTGTAGGTCT
AGCAATTGGAGGTTGTTCGTTTCTTTGAGACAAGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTACAATTTCAGCTCACTGCAACCTTTGCATCC
TGGGCTCAAGCAATCCTCCCACGTCAACCTCCAGAATAGCTAAGACCCAGGTGCGCACCAACACACTTGGCTAATTTTTGTGCATTTTGTAGAGATGGGG
TTTTGCCATGCTGCTCAAGCTATTCTCGAACTCCTGACCTCAAGTGATTCACCCGCCTCAGCCTCCCAAAGTGCTGGGATAACAGGCGTGAGCCACCGCT
CCCAGCAACAATTGCAGTTTTTAAAGGCAGAAAATATTACACAGGTGGGTTCAAATTTGCCACACCAAGTAGAAGGTGTTGGAAGGAAAATTAGGAATTC
TTAAGCTTCAGAAGATTAGTAGTCAGAGTTAAAAACCAGACAATTAACAAGTTAAAAAAAAATTGTGAAGCACACACAGCTGTTATCTTCCAGAAACACT
GCTTACAGAGGTAATTGCTCACAGATTTTAGGGTTTACAGCAGGTATCACAGGATTTCAAATTTAARAGGGGGGTGGGGGCCTGTGTTCAAAGTCTTAAG
AATATCCAAGGGATGTATGATGTATGCATAATTACCTGAAATTGAAACTACTGTAGTTTAAACACTTGCTGAAAGAAGACCTTTTATTTCATCTTCTCTA
CAGGCTGAAGGAAAGAAAAAACAAAACTAACAACTAACAGAAAAACTTTTCATGTCGAATATGTAGATTTACAATATGTGAATTATCATCAGAAGAATGA
GGTTCTTTGATGATTGTTGCAGATACCCTGAAGAACTGGCCCTTGTTGTAGAAGAATGGCACAGGGCACATGGTAAAATGGCCCTGGCCATTCCTTTAGA
CATTTTGTTTGTACTTATATTAACTTGAGAGAAAGTATTAGGAAAAACAGAGTAATTCTGTAGAAATATTCCTGATGATACACTAGGCAAAGCAGGGAGA
AGAGAAAAAGTGAGCAAGAAATTGTGACTATGAATTCCAAACCAGTTTGGCTGGATGAGCCAAAAAGACAAAACAAGAGCATTCAAGAGTCTGTCAGGAA
GTGGTGGCCTTTAGTTCATTTTAGTAGCAAGAAAACTGATCTTTTTCTGATTTTAAGAACTATACCATCTCTATTCTGGGCTTCACTCTTAGCTCTCACA
GTTAGAAAACAGTGAGCCTTGGTCAAGTCTCATAAACTGTGTCTCAGTTTTTTCATTTATACAATGGCCAAAAAAAAAAAAAAGAAAGAAASCACAAAAC
CATACCTTCTTTGCAGGGTTGTGTAAAGGAAGGTTGAACTAGAATAGGTTGAAGTCAATCACATCTCTAAGGCATTTGGCATGTAGTGGAACCTCAGTAA
TCAGTAGTTTTTATTATTTGGTGCACGATGAAACTGGCTATCTGGAGATGTTTTAAAATACAGGTTTTATTATTATTTAGGTATGCTAAGACCAGCAGAT
CAGGAGACAATGACCACTGAAAAGACAGTTTGTGAGAGTTGTGATGATTGTGATCTGTGTCCTTTACAGTTTGCAAGGGAAGGGGACATGCTATGTCAGA
GTGGAGGGACATGGGGAGGCACCAGGACTGGTCAAGAGGCAGAGGGAGAGGGTCAAACCGTGGGTTCTGTGGGGAGGAMTGAACGAGGCAGGGTAAGTAG
ACTAGGGTTTGAGTAAGTTCAGCAGGCTCTGGGGAAGAGGGGCTGTCCCTATTTTTCTGGTACCTGGCCCTGGGTGATTAGAAAGGGTGGATGGTGGCCT
GGGGCATGAGAAATAAAGGAGGTGGTGGGGTGTAAGTTCTGGATTGGTTGGGTTGCATTCAAAAGGGGTGCCCCCAAGTGAGTTGTTTGCTGCCTCTAGG
AATTTATTGACCCTGGGAGGGGAGATCCCAGATGTCAAAGCATGGGAGGACAGAAAAGAAACAGCATGGTTCCCACAAGAGAGAAGTAGACAGAGACCTC
TGGAAGTTTAAAAATATATATGTTGGGATTTCATAGATGAGGTGAGCAAAAAATTGGCCGGGAAGAACTATTAAGGAGGAGATGATCAGAAACATTTTCA
AAATACCTGGAACAAACAAAGAACCACATTTCAAGAAAAAGACAGAGAAACAAGACTAGCAAATAGAGTTTTCAGGTGGAAAAATCACACGTTGGACAGG
AGACTGAAGGTAAGGGAAACCAAGTCAGGCTTTAACACCATTCTGAATTGCAGCTGCAGGATCACTTGCTTTAGATGGAATCACCCAGCGGATGGCGTTT
AACTCTGCTTTAAACCCCTTCATGGCTTCCCACCACACTTACAAATACATCTCCTTATCCTGTCAGCAGGGGCTTGCTTAATCTGACCCTTTCCACATAT
GCTGGATCACTTCACGCCTCCCTGTTCTTTCAATTCCTTGAACACACCAAGTTCCTGCATTCCCGCCTCAGGGCCTTCACCTTCAGCCTCTCTGTCCCCA
CCTGCTATCCTCCCCAGCTTTGCACACCTGATTGCTTTTTGTAAGTCAGATCTCAGATTAATTGTCGCCTTTACAGACAGATTTTTCTTAACTCTCCAGT
CTAAAGAAGCCACCTCCTCCAGTTCTCAGCACTGTGCTTCTCACTCTCGTTTATTTTGTTGTTTATTCATTTGCTTGTCATCTGTATTTTCCCACTAGAA
CTCAAGTTTGTGACAACAAGGACCTAGGTCATTTTCACTGCTGTAGTCCCAGTTCCTACAACAGTGCCCAGGACACACCAGGAACGTGACATTTATTGAA
TAGATGAAAGAACAGTGTAAAAACCACATTGCTCTTCACTCTGCCTGCAGCCAACTCAAGAACAATTTCCTAAAGCAGCTCTGAAAATTACGAAAGAAAT
AGTGCATGGATTCCAGCCCCAGTAGGCTTCTGGGCTTGGTGTTTCTTTAATTTCATGTAAATTTCTCTAAGTAAATATGCCTTAAAAGTGAATAAAATTT
TATTTCGCTTTAACAAGAGAATATAAAAGTTAAAAAGGTCACTGTAGTAATAGACTAATCTCAATTACCAGGGCAGCCTCTGAAACCCTCACTCCCACCT
AATCTCATTCGGTGCATACGCAGCTCACCGTGTGATTTCCAACACAGCTAAATGAAATTATAAAGCAGTGTTAAATTTATTAATCATTTAATTAGCTAAA
TGTTCCTGCAAGTACTGGCTAGATGAATGGCATGTCATTTTCTAATGCAATTTGCCTCTCAGGCAGCCAGGGTCAGAAAGGGAAGCTCCTGGCATCTCGA
ATGAGCTCTTTATATCACACCTTCTACTGGGAGACGGTTGTTATACCACTGATTATATTTGAGACTTGTACACAAGACCAGGGCACTCAGATGCTGGAAT
TGGAAAATGCTCTCTTTCTTACCTGGGTTACAAAGAGGAGGCTCAGGGTAGCTGATGAGTCCCCCAGAGATTGTCTCTCCCCGTGTCCCCTTGCAGGACA
AATCTTTTCATATTTAACAAGCCACTGAGCAGAACAGGGGGAAAGATAGCAGGCAGTATTAAACGCATGCTCAATCTAGTTTTATTTCTTCAAATTTACT
CAGTCGAGAAAAATTTGTGGAGTGCGAATTCTCCTCATGCTAGGTGACTTTCTAATCCTTCTAGTTGAGTCAGGATTTATTTCTCCATTCTCGCCTTCTA
GCCTGGGCTTGTCAGCTTGGGGTGTATGCCGCACCTCCTCTTTGAAGAGGATCTTCATTTGGAGGGGTGATCTGACTCCCAACCCTMCCCAGGTGAAAGC
ACCGGGATTCATACCTAGGGGGCTTTGGGATTTGGGGCTGACTTTGACCCGTCATTATTTCTGACTGCAAAATTCCTGACAAATGTCTGCTGCTGGGTGC
TCTGTGAATCTGTTCCCATTTGCAGTGAGAGTGCTGGCATCAAGCACATTGTCTAAATTCACTCGGCAAGAAGCCGTTGGAGTGGGTGCCACGTGAGGCC
GAGAACATCCAAATGAACACTGGTCTGTTTGTTCAAGATGGGAGCTGTCAGTTGTGAGAGCTCCTATGGGAAGAGTGTTTTGATGTATAGACATCCCTGG
TCCACAGAGCCACCAAGCAAGGCAGACTATTTCGTGAGAAAGAAGGAAGATAGACTCCATGCAACACAGTGGGTGTGGCACCAAGCGGGAGGTGGAGGGT
TGCTACCTAGTCCCGGCTCCACCTACTGTCACCTGCATTCCCCTAGACAAATCACAGCACCTCAGGATCCTTGATCTCATCATCTGTAAAACAGAGATCA
GATGAACCCTCGATATTAATATCAATAAGAGCCGATCATAGGACTGCTCTAAGGATTAAATACAATGATGTAACCTACTTGAAAGTGTCATATAAATTCT
GAGGTGAAGTGGAGGCATTATGGATGCATTTTATTTTGTTTTATTTTATTTCAYTTATTCTTTTTTTGAAGAGGTATGGGTCAAGCAGATCTGCAGCCCA
CACTCGGCTCACTGATCACGTCCCATACAATCTTGGCAGATACTTAGCTGAATTCCATCGATTTAGTGATAAAATGGGAACAGTAGTAATGGTGCAGATT
AGAGAAAAAAATGTGATTTGTGCATTCATWTGTCTGTGTGTACATATATGTATATGTTCTGTGTATATGTAGACATGTATAGATGCATGTGTGTACGTAT
ACACGCACACATACATAAATTGTGTACATACACATATACATATACACATACAATACATATATTCTGATACACATATGTACATATATGTGTATACATGCTA
TATATAATGTAGCACGTTTCCTGGCACCTTGTTTGGTTCAATAATGTTGCTGGGATTATACTACAATTTCCATTACTCTGACTATGGCAACACTGCTGAT
ATAGGAGATCACTTTTCCGCACAAACACCTCTAGGTATTGTTTAACACAGACCTCATGAAATAGGTTTGCCATGGATTAGATAAGGCAATTCTGGACTCA
CTTCCAGGATAGAAGGCAAAGACAAGTACCAATATATTTGGTAAAAATATGACATGACATTTGAGTGCACACAGGCAAGTGAAGGTGGTTTCAAATCCTC
CCTCTGTCTTTTCCCAGCTAAATGACCTTGTGCTGGCTCCTCACCTCCTAAGCCTCAGCTTATCTCTAGGATGGACGTCATTGTACTCCCTTCATCCCAC
CTAAGGTTGTTGTTAAGGATGAAATGAAAAGTCCACAGCATAAGCTTGACACATAAAATAAGCACCCGATGAATACTGACTAAAGAGAGAGGAGGAGTAG
GGGAGAGAAGGAGAGAAGAGAGGAAATGAAAATGTTTCTGAATAAGTTATGTCTAAGTTTTTTCACTTTTTATTTTTTATTGTTTTCAGGACAGGGTCTT
GTTCCATTGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGTAGCTGCTGTCTCCCGGATTCAAGCGATTCCCCTGCCTCAGCTTCCCGAGTAG
CTGGGATTACACCCACSACCATGCCCGGCTAGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCGTGACCTCA
AGCAGTCCACCCGCCTTGGCCTGCCAAAGTGCTGGGATTACAGACATGAGCCACCTCACGTGGTTGAGATTTTTTCACTTTAAGAAATGCTTTTTCTGTC
ACCTCCCTGGACTGTCTTGGATTTGTTTCTTTGAGGGGAAATATGAGGCTTTAATTTTCCCTCCCAGGCCTTGGAAAGGCCAAGAGAAGCCTGGAGATAG
GAATCCACCTACACAGAGTGTCTCAGTAAATTGGCAGTGGCCAGGACCAGAACCAGGACACCTGTCTCCCAGATCTGTCCTTTTCTTGGATAGCTTGAAG
TTACGGGTAGTTATTGAATTGGTCACTGGCTACCCCCTGAATCATTACCTGATTTTTTACTGAGTGTTCCTACCTGTGAGTAAAGGGTGCCTGGTTTTGC
ACAAGTGTTTTCTTGGCCCAAGAGATATTTTTATATTTGCCTTTGGGTTGATGAGATGCTGGTATGTATCATTCGTTCAGCCATTCTTTCAGTAAGTCAT
CACGGAAGTCTGCCTCTGTGACAGATTCTGGGGCTCTAAGGMGGAATTTACTTCTTCAAAGTACAGTTTCCTGCCTTGCAAGTTTGGAGTTAAGGCCACG
CAGACCAGAGTTACGTGCACAGGTTGTAATACTCTCTCTTGTCCCTGGTTGCCTGATTCAAGTTAGGGGCTTCTTCTGGATTCCGTAGGTAGGATGCTGA
CTCTCAGCTGTCCTGATGCCACTGGTGTTCCTCTAGTAGGCAACATTGATGGTAAACATAGAAAGTCATGGAAGGCCTCAGTTACCTCTAGCCCTGAAGA
CACAGGGATACCCTTGGGGCGGAGACCTTAGGGACAGGACAATAAAGATCAGGCCTTGGGAGATGCAAACAGTTTGCCCTTGGACCATGTCTTCTGCTTT
CATCCTTATGCTCTCAACAGATCATGCCAAGGTCCTGTGTTCACCGCSTTCCTGAGTCCCCATTCAGAGGCTCAAGAATTGAGACAAAAGGGCATCCTGC
AAATTTGCTGCCCTGGAAGCTGTGCTGGGGGAGCCAGTAGAGACTTCAGGTGGATCTGGAGGTCCTTCCCCAACCTTCTGCAAACCATGTCTTCCCAGAG
AGCTTCTAAGCCAAAGCAAAGGTGTTGCTCTCTGCCTCYTGTTGCTCTGTAATTCATCTCAGCAACCATCTTTCCCATCTCTGGGAAGAGAATGTTGTCC
CCCAGAAAAAGTCCTTATGGATAGATTTAGTTATTGCTTATGGTTTAGAGAAAGCGCCTTTCAACAGTCACATGCAAGTATTCTTTCAGGCATTTATCCA
AACACACAGGATGAGGCCTCTTTGTCAAACCAGTGTTTGTTGACAAGCGACATTTGTGTGCAGGAGATGGCTCATTGTGTGTGTTTACTTGGAGCTGTTA
TATATGCTGGGGGAGACACTGTGTATACAAACCTAGGAGGGAGAGATTGGGAGGAGGGAAGAAAGTGAGGAATAGGCTTAGTGAGAAAGAGACCAGAGAA
AGAGAAAAGAAATAAACATTAGCAGGGTGGTTAAACATCCAAGCATTGAAAACTGCGTGGTGGAGCTATGTACTAACTGGGGGGTCTTGAGGAAGCCCAT
TAGTCTCCCTGAGCCTCAGTTTAGTAGAAGTAGGAATCGTCATTAAGGCGCCTCATTTATGAAGTTACTCTGAGCTCTATAAGAGATAAGCATACAGAAA
ACTTTGGACAGTGCCTTGCACACAGTCAGTAATCAATGCATATTCATCATGATGTTAGAGAAAGGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCAC
TTTGGGAGGCCGAAGGGGGTGGATCACCTGAAGCCAGGAGTTCAAGACTAGCCTGCCCAAAATGGAGAAACGCCATCTCTACTAAACATACAAAATTAGC
CTGGCATAGTGGTGCATGCCTGTAATCCCAGCCACTTTTGAGGCTGAGGCAGGAGAATCACTGGAACTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGT
GCCATTGCACTCTGGCCTGGACAACGAGCAAAACTCCACCTCAAAAAAAAAAAAAGAGAGAGAGAGAATAAGGTCAGAGGGGGAAAAGAGAGAAAGTGAA
AGCAACAGTAAGGAAGAGAATTGGAAAAAAAAAAAAAAAAAAGGAACTGATCTGGCTGTATCTGTCGAGTTGCTTCTGCCGTTTCTAGCCCAGCCCACGG
TTTTCCCTCTGCAGGGTGTCTGTGGGCATGGTTTGCAAATAAACAGTGAGAAGTATAAGCTAAACATAGACTTTAGGCATATACATAATAGGCAGGCGTG
ATCGCGTTCACCCATTCAGTTTGCCATATAAAAGCTTTTCCTCGGTGCCACTTTATGGCCCAGAAACAAGGCTACAAAAACTTTAATACTGCTTTTTATT
TTATAGAAAAATATAAATCAATACTTTCATGTCTGTTTGACGTGTTTGGGAGCTACAGCAATTGAGGCTTGCCAGTGTCTGGATGCCCCACCACTACCAC
GCCACTTAGCTCAGAGTTTGTTTTTTTCCTTCCACCATGTGAAATGTTGCTGGTTAACCAGTTAAAACGGGGAGATGGCCATGATTGCTTTTAGATTGCC
ACTTCCACATTGAGTGAATTTTATAATAAGAAGCCATTTTTTCCCCGACAGGCTGCCCTTGTGCCCGCCTCTCTGACTTTGAGGTCCTCATTATTGTGGG
TTTAAATGAAGGATGTTCATTCAGGCAGGGATGGGGGGATGGGGGGAGGCCACCAGGCATCAGCGCTGTTATCAGGACCTTCTATCAGGCCAAGTGACAG
GCGTCCAGAGCAAGAATGCAGAGCTCATGGTGGAGACCTCCGGCTGACACCAAAGGTGACTCCCCTCACTCTAACCTTGAAAGGGAAAGTTCCCACTTTA
TTAAAATGAATTTCGAAAGGGCCGCTCTGACAGCTGCATAATTAAATACTGGAGTGTCAGCGATAATTTATTCCACTCGCATGTGGTGGTCAGATCCTTT
TCACTAGAGGGTCAGCAAACTCAGTGACAGAGGCAAGGAGACAAGGGATTCAGGGCCCTTTGTCATTTATGTAGCACCAGCCCTGAAATCGGAGACTCAT
AAAACCTACAAATACACACACAAACACAAACCAGGCAAACCCACACACCACRGAGAAGAGGCAAAGTGTGCATAAAGATACCCTGTTGTTATTCACCCAG
TACAACTCTCTAATTCATGTATAAACAGTAAGTGTAAAATGTTCCACACCCTTATGTATAGACTTTTAACCTCTATTTGAGGGTCTCTGGGAGGACCATA
GTTGTTTCTGAAGTATCACTTATCCTACGTTCCATGTAAGATCTCTTTCCTAGGGTAAACTTGATATGGAAGGTCTTCACAGATTAAAACGAAGGAAAAA
AAAAAAAAAAACTAGATAAATCTCCCTGGACATGAACTTTTGTAGAAGTAGTTACAAYGCTAGTGACCTCATATACTCATGGTAACGGCTTCCGGCATCC
AATGACCTTGCCATTGCGGAGGTCAATTTCATGTGTGTGTGCACACATGGGTGCGTATATGTTACAGAGGGAAACTTGCCTGTTTGAAGCAGGTGTCGTG
GAAACAACATGGGCTTTAGAGCCAGACATGGAATCCTTTCTTATGATTAATGCAGCTAAATTTCCCACTGCAGCCGGTAGCATATTGCTTCATAAATGTC
TATAAAAAAATACGAAAAAYAGAATCAGAGCAAATTCAGCATAGACCTCCTTGGGATGTTTWTTCTTTGTTTATGTTGGTGTTTTGTTTTGTGTTGTTTC
AGCTGGGGTGCAGTTGTATTCTGTTCCCTCTTTGCTAGTTCAGAGGCAGTGAAAGCGTGCTTCTCAGGACTCATTGTCCAGAAGATTCTGCCTACAGCTG
GTTTTACGCAGAGAASTAGCACACAAACCCAGTCCATSATTTCTTATTTGACTCTGTCCTGTTTACTCTGTCAGGGTGAAAAGCACAGGCCAAGCTCGGC
TAGTCAAAGCATTACTTTGTCACAGGCAGGCTTGGCTTCTCCGAGTCAGCCTGAACAAATTACATCCCTCACTCGGTCGCCGAACCGGGAACAGGGTTAT
AACTCAGTCTAAGCACCCGTCCCTCTTCTATTACCTTCATAACCAAGGTCATACTAATCAACTCAATTACCAGCCCTCTCAGACATTTTCATAATGTTTT
CTGGTAGTTGCTCTCCTGTGAAAATCTTTCGGTCTAAGCAARTTAATGTCATTTTYATAACTATCTGCATTTCAGGTACAGTGATCTCCTTTAAAAAGGC
TGCGTCCCAGCAGCATAGACCARCTTTACCTCCCAGCGTAGTCTTCAGACAAGTTRGGGTATTGCCGAAGTCCATTCTTGACTTTTTTTAATAGTGCAAA
CAAATCATCTTGTTTTTAGGAAAACATGAAATTATAAAGAAATTGACTTCAATCACTTCTGGAGGCAGAGCACTGAGTTGCCTCCCCACCTCATTCCCCT
CACTCCCAACTCAGCAACCTGGGTGTTTCAGCCAGGGCTTTTCCAGGCCTTAATTTCTCTGACACAGGAGGATGGAATTACATTATTTCCACCACAAAGA
TTGTGTTTTAAATCCTTCTTAGTTTGCAGCTTTTCTTCCCTTTTGCCTCCTCTTTAGTTCATTCCAATGATAAATCCTCCCTCCTTTGTCACAGAGCCAC
TGTGTACTTTCATAGACCATCCTATTTTTCAACGAGAGTTCAGAACCACACCATACGGGCARTAGTCCGCATTTTCAACATTTCCTAACAGCACAATTGT
TAGGTAGCTAACAATTGAATTGACTRTGTCAGGTAGACTTATTTTTCGAGTTGTGCTGGTTAACTGCAATCCAAGTTTAGGAAGCAAACTACCAATTTCA
TTTAATAGAATGAGCTAACCAAGGCACATGGTGACTACTGTCCCTCAAGACCGCTGAACTACCACTTCCAGCACCTGCTCAGATTATTCATTACAATGAA
GCTCTTTAACACTGTGTTTGCATTCTTTAGTATATATCTTGTTAATAGTAGGCCCTGAATAAAGACCAGTTGAACAAATAAACTATTTTTCCATGTATTA
ATTCTTTAGTGAACTTGCTTATTTGTTCAGAAGAGACATTAAGCTAAGTATACAACACTCGGTAAATTTCAACTTCATCATATATATAATAATTATTTTT
TTTTGAGACAGAGCCTTGCTGTGTCATCCAGGCTGGAGTGCATGGCCTGATCTCTACTCTCTGCAACCTCCACCTCCCAGGTTCAAACAATTCTCATGCG
TCAGCCTCCTGAGTAGCTGTGATTACAGGTGTGTGCTACCACGGCCGGCTAATTTTTTTGTATTTTATTAGAGACGGGGTTTTGCCATGTTGGCCAAGCT
GATCTGGAACTCATGTGCTCRAGCAATCCACCCACCTCGGCCTCCCAAAATGCTGGGATAACAGGCATGAACCACCATGCCCGGCCATCAGAAATATTTT
ATTTCACTATTTTAAAAAATTAGCAARGAAGCAAATATGACAAAATGCTAACAATTCCAAAATGCTAATAACTTCTGAGTGGTGAGTATAAGTGTGATTA
TTATATTATTCTTAGTATTTGGTTTTTTTCTGTAGTGTGTAGTTTCCCTCCATGACACTGAGGGCTCAGRTGGCTCTGACCTTGGAGACAGGGAGACATT
TAGTGAAGGAATGGGAGGTAAGGAGCTGGCATCTCTGGTGTGTCCATCATGCACTGACCTGCACTAGATGTTTTGCTTCCAGAGTCTCCTGGAATGCTCC
ATGGCCTCCACGCATCGTAATTCCCATCAGCTTAAGGCAGCGAAGCGAATGCCCACAGTGCCCAAGTCACTTGCCCAAGGTTATCCAAGTCAAATAAGAC
AGAGATGAGATTCAAATTCAGGCCACAATGACTTCAAAAACCCTTGTATCCTTGTTTTGTTTCGTTTCCCTGCAAACATTGTTTTAGTTGAGATGAAATT
CACGTAATATACAGTTAACCATTTTAAAGTGTACACTTCAGTGGCATTTAGTGAACTCAGTGTTATGCCACCGTCACCTCTTTTTAGTTTCAAAACTTTG
TCATCACCCCAGAAAAGCATACACATAAAGTCATCACTGCCCCATTCCCTTCTTCCAACTTCTCTGCTTTTGGTCTCTGTGGATTTGCCTATTCTGGGTA
TACCACATAAAAGGAATCAAAGAATATGTGACCTTTTGTGTCTAGCTCCGTTCACTTAGCATGCTGTTTCCAAGGCTTGTCTAAGTTGTGGCATGTGTCA
GTACTTTATTCTTTTTTATGGCTGCATAGTATTCCACTGCATGGATATACCACATCTTGTTTATCTGTTCATCCATTGATGGACATTTGGGTTGTTTCCG
CCTTCTAGGTATAATGACTTGTGTTGCCATAAACATTTGTATACAAGTTTCTGTGTGGACATGTTCTCACTTTTCTTGGGTATATACTTAGGGGTGGAAT
TGCTGGGTCATATGATCAGTCTAGGTTTAACTTTTTGAYGAACTGACAAACTGCTATCCACAGTGGCTGCCTGTACCATTTTACAGAAAATCTCTGCTTT
TAATACTTCTGGATGTGTTCTAAGGCACTAGGCTTTTCATTAAGTTCATTTCTGCAGAAAGAGTTAAGGAGTGTTCTCAGGTAACTATAATCAACCCCCA
GGGACTTACTCAAGTTGTGCATGTGCAACTGAAATATCTGGCAGGCATCCAGTCCCTGTTATTTCAGTCTCTCCCCGCCTCCCTGCCCACACCTCTGAAG
CTCCATATTACCCAGGAAGGGACAATGGGGGGCCTAGAAATGTGGAGGGAGGCAAGAGAGTGATAATTATGCCATCTACACTTGTCGACTAGAATTTCCA
GGTACTTTCACCTCTAGGCTCTTACCTGGCTTTTGTGAAGCCCCTCAGGGAAGAGGAGGAAAGCTGGGCAAGGGGGAGGGGTAAACCAAGTCCCAGSAAA
GTCATTCCAGTTTCCCAAGATCCCGGAGCTTGTTTGTATCCAGCTGAGATCCAGTTGAGACCAGAATTCACTCTCTCCACACCTCCATCAGCTGTGGCCT
CGAGTTCCTTAACATTTTTTAAAACAAAAAACTTTTGCATGGGAAAAATCCCTTTAGAAAGTTAAAGGTTTTCCTTATACAAACTATCTCACTTTGAAAA
CTGGCCCACTGTAAAAATCTTGATTCCGGAGCTTCCTTAAAAATCTTTTCACCCCTTTAAAGTGAAAGTTATGGAGAATCTATTAGATACAAATTAATAC
GGGCAAGGCGTGTGCTAGCTGTTTTATAAACATGATCCCACTTAATCCTCCACTTCACAATTCTGAAAAGTCAACAAATTTGGCCCATGGTAGAGAGGAG
GAAACCAAGACTTGAAACATTAAATAACRTGTCCAAAGTCTCCCATTTCAGAGACAGGGGCATTTGGCTCCAGGTTTTTCTGACTCTAGACAGTAGTTTG
TTTTTAGCACATCAAATKTCTGAGACTTGTGATGTGTYAGAAAGCACAAAGGACTTTGATCACAAGATCAAGCCCCAGAGGGCCATGACTGCATAAACCA
CAACAACTGCGTGGCTGCCTGTCACGTCTTCATCTGCAAGTTGGAGGAACTTGGAGAAATGCAGTGCTTCCCTGCAGCTGCAGAGGGTCTCACTGAGCAC
TATTCTTGGAATTCTTAAAAGCTGGGCCTGTAAGCCTTTTTTGCATTTCCTTTCAGCCACCTCCTGGCTGTCCTTTTAAAGCCAGGGTAAAGTCCCCAGC
ACCCAGAATCAAGGATGGGGAAGAGGAATTTTGAGAATGTGCTTCCTGCTTCACACAAATAGCTAAAGACAGAAATGATGGCACAAGCCCTAACCAACAA
CTAGGAAGGTAGGTTGTCCAAGACAAATTGCAGTTTAGAATGGACCTGCCAAATGGGTGGGTGGGCAGGATGGCTGGGATCGCCAGTGCCCAACCTTGCC
ACAGCCTCCTTTTGTCACTCTAGGGACTACCCTTTTCCTCCCCAGACGTTTTTCCTGACTCTAAATAGTGGGAAAAGTCTGGTTTGAGATTGCTGTATTG
CAGGGAAGTTCTTACAGCGGGCTTGATGGGCCCAGAAATCAAGATGGAAAAAAACAACCCTCTATGTTGATGGCCATGCACAGTGGCTCAGCAGAACTGG
CTCTGTTGACCAGGCTTGGGTGCTCTCCTGCAGGGCATTGCAATCTTTAGGACACCTTCATTACCCCTCCTAAAAGGAGATTTTATAATGAGCGCCAACC
AGCTCAAACAAGTTAGGATCTCCTAACATGTCTGGTGAAAATACAGGAGTATTTTTCATCATCTCTGGAAAAGTTGCTATCATGTCCTTCAATAACCCAG
TCTAACCATGTTTTTCCAGTGGAAATGATTCCCGGTAGAATGTCCTATGTTCCTTTTGCACATTTCTCMTTACAAACATCATCTCATTTAATCCTCACCA
CAAAACTGATAGTGTCATCTCCAATTTATAGTTGAGGAAATAGAGGATCAGAGAAGCTACGTGATCTATGCAAGGTCCCCCAGCTAGGAAGTAGCAAAGA
TGGAATTTGACCCAGGTCTGACTCCAGAAGCACTTTCCTCTTTTGCCTCCTAATACATTTTCTTATAGGGAGCATCCTGCAATACAACTGTTAAGACCAC
TTAATGTTATCTTTGRATTAAAAATGGTACCACTCTCATAAATCAATGAGTTTCATACCCTAAATTATGCCAGATTAAGAAAATGAAATCTGACTGTAAA
TTACTTCTCTAGGAGCAAATGATTGCTTGATTCTATTGTAGAAAATAAAAATTTTTTACYTAAACCACACAAATTAAAAAATGGAACTCACTTTCACAGT
CAAGAGTTACTTCTATTTTTTTTTACAGTAAATGCGCTCTTTAAGATGTTGCAAGCTCAATTCATGATTTTTTTTTCTTTTTCTGTATGTTTCTAAATTT
AGAAGTTACATTTACAAGGAGGTAATTTGCAAGGTCATCCTTTTTTAAAGAAATTTAAGCAGGAGATGAGGTCTTTCCAGGTTTGAGGGTGATAGCTCGT
GATTCTTCATCAACTTTGGCCAAACCTTCGTGGATTCCTGTGTGCTGATTATTAGTGCCTTGCCTACAAATTTTTAATACATTGACTTATCTAAATATTC
CTSCATGCACACTCCCCAATCTAAGAAAAATGTGAGATGTTGGGAAATGTTTCCAAGAATAGACCAAAGGATTAGTCAGCCTAGAGAAGTGAACTTTAAG
AGGAACTATGTTTATTCAGTGGTGATTATTTGCTGACCCAGTGCTAGGCACGTGAGAGTGAGAGGGATGGAATGCTTGCAGGAGTTGCCTTGGATATCAC
ACACTGACTTGGGAGACACACATAGCGACAGAWAATTACAACATAGGGACACCCGGGGAAAATGTAGACGAGGTTTAGGGGTTGCTCAGAGGAGGAATTA
ACTCTATAAGGAAGTATTCTGATAATGGCTTTCAATTATAGGACATATCTAATAACATGATTACATACTCTCTTAATAGTGTAGCACTATAGTTGTTATT
TATTTCCCACACTGAACAAATATAATTATCATATACACCCTTTCCATTATTAGCTCTCTCCATTTTTAATGAAAACAGTGGTTGGTGGTTTATAAGAAGT
TTTTTGTCGGTGTGATCTTTCACATCAGTTTGCTACCCAGAATTTAAACATTCCTTTTTTGCTGCTGTTTTAATTTGAAATAAGAATGGTAGCCCCCAGG
TCCCCTAACAGTGGGTGCTGATTTCACAGTGGGCTTACAAATGCTCTTCAAGAGTATCTCAGTGTTGAGTCCAGCCACCCAAGGGAGACTGGTTCTTCAC
TGTGCATCATGGCCTTTTAATGCCATTTTGCTTTTTTATCATCCAATCAGCAGATGTTCTTTCTTCATTCACGTTGAAAGCACTTCGCTATGGAAACGAG
TAAAGTTCATTGTCTTATTTTTTGTTTGTTTTGTTTTCTGATGTCCTGACAGCAGAATCAATCTTCGGAATCCTTTTCAATAAAAAAAAAAATTACCAAA
ACAAATATGATCACAGAAGCTTTTAAAATCTGAAATCCCAGGAAGCTAATTAGTGCATCCTTTTAAGATGGCTTCCTGCATTTCGATATACGCATAAGCT
TGGGTTTCAGATGCAGTTGGCAGTTTGCCATGAGTCAGACAGGTCATCCTGACTCTCAGGAACACGGAGCTCCTGCAGAAGCCTGTGGAGCGAGGGCAAG
TTGGGATCCTCCCCTGTGTTAGCACGTGACTGTCCTCTGTCACCATGTAGCAGGTGGAGGCCAGGAACTACATTTTCTTGGGTTCCTGGTGGTTAGTTGT
ACGCCCCATGAACTTCTCTCATTTCCTTAATTATATCCAAAATAATGCCCTTGTTTTATTTCCCCACTTGGCACTGAGCCTTAGGGAGCAGGAACTGTGT
ATATCCCACAGCTTTGCATGGCACTTGGCACGTAGGAATGTATTAAATGCAGCTGCTTTCGTGCAGGAAGCGCGGACTTCAGATTTGGTCAAAGATCCAT
GATTTCAGAGCAGGCAGCCCTTTTAAACCTGTATCTGAGTCACTTCAATGCCTTGTGTTTCTGCTCTGGGCTGCAAACTCAAGAGCAGCAACCACTTATC
TTGGTACCTGTAGTCCCGAGCCCTGTGTCTGGCTCAGAGTAGGCCCTACATAAATGTTTGCTCCTCCTCACTGAGTGGCTGCATGAATTGCATCCAGCAT
GTCTACTCTGGGAAAGAACCTGTGGAGCCTCTTTAGGAGTGTGTTTTTGCCCTCCCTCGGAATCTGGTGATCTCACTACCAATGGCAAAGACAAACTGTG
AGGTGTTTTTTTGTTTGTGTGCACGCGCACGTATGTGTGTGTGTAAAAAGGCCATGGAAATATAAAATTGTAACCTAAATGCCTTCACGGCCAGTTATGG
TGGCTCACGCCTGTAATTCCAGCACTCTGGGAGGCCAAGATGAGAGGATCACTTGAGCCTAGAAGTTTGAGACCAGTCAGGGCAATATAGACTACCTGCA
AAAAGAAAAAAAAAAAAATGCCAKGTGTAGTGGTGTGCGCCTGTAGTCCCAGCTACTCAGGGGGCTGAGGCAGGAAGATTGCTTGAGCCTGGGACGTCAA
GGCTGCAGTGAACCATGATGGTGCCACTGCACTCCAGGCTGTGTGACAGAGCAAGACCCCATCTCTAARTAAGTAAATAAATGCCTCTGTGAATCCATYT
CATTGCATTGGAAAGACCTCCAGGATTCTCTSCAGAAGAATCTTTCCCAACATAAAATCCATTGTTAATCACATTTGACACACATGTGTGCCCATGTCTC
TGGGCCTGTGTCCATAGGCATCTACGTCACTGCAGAGTGAACCCTTTCGGTTCACATCACCTGCTCCCCTCCTGGGCCTCCTGAGGGGTGTGAGAGTGGC
ACATTCCACAGGAAGGGAACCCTGCATGTCCATGTGCCATGTGCCATGTGCCATCTTAGAGACGTAAAAACACTTTGTATGTTTGSGGTACAACTCAGTA
ACCCATTGGTGCAGATATGTGATTCTTAGGATGGCCCACATGGGTCTCTTTCACACACCCACGTGCATGACCCAAGTGAGCAAACAGGCAGAGACTGGGA
CCAGAAGCTCACTGTGGTTCTAAGCAAGCAGTTGAACTGGTGGCTTCTGATGGCCTGAGAAGCAGTTTCCCTTGATAAGTCTTCAGCCACACAAAAAGAG
ACTGTAGCTCACAACACTCACAGTCAAAGCCACTGGAAATAACTATTTCCTATCAAATAAAGCCTTTCTCTTGAAAAATTTGAAGAAAAAAAAAAAACCC
ACCTAGTGAAACCTTAGAATCAACCTGAAGGTTCAACAGCAGGTGAATGATTCCATAAATCATAGTATATTCACTTAATGGAATACTAGGTAGCCACTAA
AATAAAATGACAGTTGGAAAAAATACTTATGATAAAAGGTTTAATGACAAAGTGGGGTTCAAAATGAGAGATACTCTCTGACTAGAACTATATTAAAAGA
AAGATGGATGGGGGAGAGGACGGTGGGTGATATATTATCTACATAGATACTTTTTTTCACTTTTCAAAGTGTTTAATGTGTTGCACAGCCTTTAGAATTT
GAAAATGTCTAACTTAAAATGCCTCCCTAGTGAAATCTGTGGCAGCTTATAAACTGGCAGGATACTGTATTTTCAAGATACGCAATTGTAAGTGGTGCTC
ACATACAGTCAGAATGTTTATTTGACCTTGATCTTGTGAGGGCTTGGTTCCCATGGCTTTGTAGAGTGAAAGGTCCTGAGAGGCAGGTTAGTGACGATAC
CGGGACACGTATTGTAGACAGGTTGATAAAGCAAGCTTCCCTCAGCCCAGTTTTCAGTGGCAAATGCCTCTTGGCCACCAATGCTGTACACTTTGTTTCT
GTTTCCTTACCTGTCAGGCAGTTACTGAAAAATTATCTTTTCCCCCAAATACAATAATTAGTGCCTTGGCCAGACAAGTTACAGCAAATCCTTCAAGATT
AAGAAGGGACTAGCCGGGTGTGGTGGCTCACGCCTGTAATCCCAGCTCTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTYGAGATTAGC
TTGACCAACATAGTGAAACCCCGTCTCTACTAAAAATAMAAAAATTAGCCAGGCGTGGTGGCGCATGCCTATAATCCCAGCTACTCTGGGCCTGAGGCAG
GAAAATCACTTGAACCTGGGAGACAGAGGTTTCAGTGAGCCGAGATCGCACCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAACA
AAAATTAAGAGGGACTGATGTCCAGTGAATTTCTATGTCCGCCCTAAGCACTGAGGTGAAATGAAGCCTAGATGGTTCTTTTAGAATATGAGTGAGCAGT
ACTCATGGTTAATTTTAGAAGCTAATAAGTATATATTTGATAACTTTAACAGAAATATTAATACTAATTAAGAGTAAAAAGATGATGAATAAAGTAGCTT
CACTTATTGAGCCTTTACTAGATGCCATCTTGCATAAATGGTTGTCATTTTGCAAAATGTATTCCATCTAATATTAGCAGTAACCCTGAGGACTTGGTAT
TCTTACCTGGATGTGTCTTATATCAACATGCACGCGTTCTCTCCCTCAGCATACCGTGTCTTATTAACTTCTAACCTCCCTCTCATTATCCCACCAATCT
CTGCCAGTACAACCACATCAACTGTGCAGATCACTTCTCTAGTGTTTGGGATTTGGGGCAACCTACTGGGTCTAGCTATGACCCCATAAAAGTTGAACAA
CTCTGCCTTAATGGCGCTAATTTTTAATATGCCTCATTCTAGTTGCTTGAATTGAACGAAGGCATTTGAAAATTGCTGAAGTGCTTSTCAGTGATGAAAT
GTTACAGATCAGTTTGAAATCCAACTTTATTCAACATAAGAAAGCCTATATACTCTGGAGCTTAAAGACWGACCTTTTCACTTACTGTAAGGTATCTAAG
ACTTCTGGGTGTGGGTTTTAAATATATTTTGGATGAGCTTTGTTCATGTTTACACATGGCCACCAGGTCGGCCACAAAGCTRTGGCTCTGGTCAGTCTGA
CTCTCTTTAGCAGGAATCACGTGACAATCTGTGTCTGTGATTAGCTCCGTGGATATTACTAGGTAGATTTCTCACTTGTCCTTGTTTTGATCTTCATTCC
TGGGTGAAAGAATCCCAGGGAGTGGAAAATGTAGGTAGTTCATAGGGCTCCTGACCTTCCATGGACTGTGTCTAACTCAGCTGTGATGAGGACGTGCTCT
GATTCTGATGAAGGATGTTAGCATTAGAGGCAGGCCTGTGTGCCTGTTCTGTGTCCTGGCACCGATGTTTAACAAAAAAGATCCTTTCAGAGTTACTCAT
ACGACTTACACATTCCCATGGGAGCTCCAACTCTGTTTGGTCCCAATGTGCCCTTTTTGTCTCACTCCTTCCTCCCACAYATCCTGCTCCCCACTCCCCT
AATTACTCATGATTSCACTAACAGCCACATCCTTTCACACCTCTGAGCTTTTGGTCATGCTGTAATCTCTACCTGAGTTCCATTCCTGCCTCCACCCTTG
CCTGTCAAATTCCTTAGCTTCATGCCTTTGAATTTTAGCAGAAATGTTACCTGCTCTATGAAACTGGATTTTCCCTTTGTCTCCATTCCCTAAGCTGCAC
ATTAGAGCASCTGTTACAGTTTGAAGTGACCCCTATATGGATTGTTTGCACACCTGTGTTGCAAATGTATTAGTTAGGATAGGCTGAGCTACAGTAAGAA
ATAGCCCCCAAAATGCATTATAGCTGAAACCCCCAAAGGGGGRTTTCTAACACAGAAAGCAACATAAGTGGGTAGTCCTGGCCAATGGCAGCTACGTTCC
ACAAAGTGACTCAGGGATCCAGGCTGCAGMCACTTAGTGGTTCCATTCTCCCTGCTGATATCTGCATCCAGTCATCTGGTATTTCTTACCAGCCTTAACC
TCATTCTATTGGTAAGCACTAGTCACATGGCTATCTCCCACTGAAAAGTAGGATGTCAAATATCCTCTAGCCCTTTGCTCAGGAAGAAGAGCAAATGGAT
TTTTGTTAAGAAGCTGGCAGTCTGTCACAGGAGCTACTTGAGGATACACACAGTTTTCTCCCCATTAGCATCTSCAGTCTCTGGTATAAACTTGAGTCTT
CTCTTTGGTCCCTGATAAATATACATAGAATGTATGGATGTGAGAAAGTTAAACTGATGTCTGTGTGTCTTCATGTCATTAAACTTTGAATCTAYGGACA
TGTCTTTTTCTTTCTGGCATAGTTTGGAGGTCTTCATTTTRTGATWGAATACAAAACACCGAGGGCTTTAAGGAGGCATAGTGGTATGTTCAGCTGTATT
TTCTCATAATATAGAGTCATAGGAAACCTGAGCCTTGGCATTTGTAAGGCRAAAAGACCCCTGGAAAAGAGTAATATAGTAATTCATCTTTATTTGAAAA
GTATATCATCATCCATTTATTTCCCCACTGGCATAATCCAGGCCGACTTTGGCTCCCCTTCCTGTGAAATGCACCCTTTCCCTCTCATCAGTTTCCACCC
CTCCTGCTGAAAATGGAGTACAATGAATAGATGTATAATAAAATCTTTTAATTGTCTTAGCATATGTTGCTTTTATTAGGTGGGCATAATTGCATTCATG
GGATCACCTACAAAGTCCTTTCGAATATAAAATTGAAATGGCTTCACACTCAGTGCACAAGTCCTTCTGAGGCACTGTTTTCCCCTTCGCTGCCTCCGGT
TCCCCTTTTGCTGTGAAGTTCACATTGAAGTGTGAAAAGAGAGACGTGGCAACTGACACATGCTGGATCTTATCAGCCGCGAGTGCCGTTGTGGCCGACT
GAAAAGCGACTGTCATTTCTACACCATTTATTCCTCGCCTGGCCTCATTGCTCGCTTCGTTTCGGAGGAAATTTTCCCTGTTAAAGTACTGTACTTGTCA
TTTATTTCCCTTTTTTCCACTCTCCCTCCGTGGCTGGGTTTGGATATGCATTTATCCAAAAGGCAAGGCTTTTACACACTTCCGCTAACCTCTTATGGTC
AGGCTCATAAAAGCAACCCAACAAAGCTTTTATGGGGTCATTACAGATCCCTCAAATCCCTCTCCTTCCAGCTTTCAATAATTCTCTTGTCTCTAATCAA
TTCACCGGCTCTTTTATTTGAAAATGGGTGATGGAGTGGGGGAAAAAAGTGGGAGCATCAGCTGAAAACCCACTTTATTTGGACTAAGGTTTCTCAATGT
GTGTTCAGTTCTGGCTCATGCTTGGCACTTACATTTGAGCCATATTCAGTAGTCCCAGCCTTACTTGTTCTTTTACAAAAAGGGTCAGCAGACTTTCTGA
AAAGGGACAGATAGTAAATATTTTAGGCTTTGTGGACCATAGGGCCTGTGTCAAAAGTACTMAWTGTTACCATTTTCCTTACTTTGTTCAGGCTGCTATA
ACAGATACCATAAACTAGGTAGCTTATAAATAACAGAAATGTAATTCTTAAMGTTCTGGAGCCTGGGAAGTCCAAGAGCAAAGCAACGGCAGATTCAGCT
TCTGTTGAGGGCTCGTTCCCTGGCTCATAGATGRTGACTTCTYGCTGTGTCAACTTAGTGGGAGGGGATAAAGCAGCTCTCTGGGGCTTCTTTTAGAAAG
GCACAAATCCACTCTTGTGATCTAATCACCTTTCAAAGGCCCTATCTTCTAATATTATCACATTGGAGATTCCTTTTCAACGCTTGAATTTTTTGAGGAT
GCAAACCTTCAGACCATAGCACTATCATAGTGCAAAACAACCATGGACAATACACAAATGAACAAGTGACTATTTGCTAATAGTTTTATTTACAAAAAAC
AAAAAACAGTGGGCAGGATTTGACCCATGGGCTGCAGTTTGCTGATCCCTGTTTTATTAATTAGTTAATATTATTGATTGAGATAGGGTCTCACTGTGTC
ACCCAGGCTGGAGTGCAGTGGTGCGGTCACAGSTCACTACAGCTTCAACCTCCTGGGATCAAGCAGTCTTCTTGCCTTAGCCACCCGAGTAGCTGGATGA
CAGGTGAGCACCACCATGCCYRGCTAATTTTCTAAATTTTTTGTAGAGACAAGGTCTCACTGTGTTGTCCAGGCTGGTCTCAAACTCCTGAGCTCAAGTG
ATCCTCCCGCCTCGACCTCTCAAAGTGCTAGAATTACAGTTGAGAGCCACCACACCCAGCCTGATTCCTGTTTTACATATTAAAAATTTCATCTCTCCAA
TCTTCGAAGAATCCGTAGTCCATTTTTAAGTAGCTCTTGTCTTCCAAAGGTATGSGATGTGCMTACCTAATGCTCTTCCTGGATGGGAGAATATTACCAA
AAACGTTTGGTCGACTAATTTTATGACAGTTTCCAACTACAATTTTTTTCCTCTTTGCTTTCTTTTGAATAATAGAAACAATTTTTTTTGTTTAATATAT
CTTGAAGTACTTCACTTAAGAAATAACTTCATGGTGGCACAGAGAGCTGTTTAGTTAGAAGACTGAGTATTATATTTCCCATTGACTATGCAGGACCTTC
TAGGGAAATGTGAGTTTATCATACTCCTGCAAGGTAAATGCAGCAGTGAGAAGAATCAGTCTACTGTGCTAAACCTGGCCCTGCCTCAGCAATATTCTGT
GAGCCTGGAGGTCAAGAGTTAGGGGACCAAGGTCCTGCTAAGGACACATGGGGGAACTACCAGAAACTCATCATCTCATTTAAACTCACAAAACCTGGAA
GGGACATAATTAAAAGTCCTGTCTTCCAAAAGTGTAGCATTAAACTCAGAGATGTAAAACAACGTGTCTAAATGCCAGGTAAGCAATGCTTACTTGACTT
GGACCAGGGTGGTGAATGAACATAAAAACCGATTACAACATTTTTCCATTTTTATGTTTCCTCTGAAACCAGCCATGAGAGGTACTSTTAGCAAATCACG
CCTTATTCCTAGGCAGACTTCTTGGGTACACTTTCCACCCTCCCCAGCAGTAATGCCTGACCAACTAATGGAATCCTAACTAWTGCAGTATGTGACGCCT
GGCAGCTCCAGTCCGAACCAAGGGAAAACCTGCAAACATGCAATCCTTCATGCTTTTGTTTTTGTTTTTCCTTCAGCCTAGCTAAAATGAAGGCAACATT
CAGAATGATGTTAGAATCTAGGTGTGGAAAGCAATGTAGCTTCTGGCTGGTTCCTTGAGTGACCATGTGGAGCAGAGCTTCCCTTCCATTGTATTTGAGC
CACTGGAAATCTATTACCTGATCTTTCTTTACCAGATCCTTCTTTAGTTGGGTATGGCCAGGCTCAGTGAATCCAGTAGATGTTTGAATGGGAAAGGACT
GAAAGATCTCAACCTTGAATCCCTTAACTCCTTGGGATGTGTAATGGAGATGTATAAGCTGTTTTTAAACATTTCAGCAGCTGTCATGGAACTTAACCAA
ATGAGTCTAAGTACCCTATGAACACATTTGATTTAGGTTGGAATTACAGCATAGATGTGAAGTGACTTGTCCAAGGACACACAGGTGATGAAGTTTACAT
ACAAGACTTAAGTCCATGTTACTGGATTCCTAGACCAGGTTTTTTTTTTCCCCTTATCCCATAGAAGATGGTTGTTGTCTTGAGGTTTCCACTGAGTTGC
TTTTTGAGAGATTCTATTGTGCACTTTTGCCCAGTTCAACAAGAAAGAATCTTTGCTATGTTAGAAGAGACTCTGGGGAATCCAGAGTCTTGGTCACGGG
TACATCAAAACGAYGCTGGTGCCTAACTTCTAGTTCCAGACAAAGAAGGAGAGAGAGAGAGRTCAGTAATTTATAGGCTGACATTTTCCTTGGGTCCTTA
TAATACTTGTTTATTACAGATAATTTGCTTAAGTGTGCACAAGGTGGAAGGTCACGCAAGGAAGCTTTTTATTAGTTGTGTACTGAATGGATCAATAGTG
ATTTGAATACTATAAATCTATCCGTTAACAGGTTTATTTCTTCATCAGATATTAATTCCAGAGGGTTTCACCCATTATAAAATGGACATAAAGCCTGGGG
TGGTGATGGTGCTGCCTCTGTAACCAGGCTCAGCTGTGTGTCTTCGTGAGCCTCCTTGTGGACCCTCAAATGTGGGAAGGAGATAGGGGCAGGAGGAATT
GGGGAAATAGGAACCTTAGAAACCCTGAAGAAGTGGAAAGAGAAAAGGAAGGTCAGTCATTCATTCAATTGCTTAATTTGCTTCTTTCTTTTTCTCTTCT
TCTTTCTCTCTCTTCTCTCTCTCTTTCTCCCTCCCTCCCTCCATTTCTTCATTCCTTTCTTGTCTCCCTGTCTATCTGTCTGTGTATATCTATTCATCTA
TCCATCCATCCATCCATTCATCAATCCATTTATCCACTCTGAATAGAAACCTAATATAGATATACAAAATGAAAAACTAGGAAAATGCAAGAAACCTTGA
CAAAATTGCTACTGTTTCTAATTCCAATACTTAATAATAACCACTGCTACATACAAGGACATTTGTGTCTGGTCTTTTTCCCTATTCCAGGCACATGCAT
TTTAATACAGTTGAGATCATATTGTATGTCTGATTTTTTAGCGTATTAGATTTTTTACATTATTAAGTTAATACATGCTCATTTAAATAAGTCAAACAAT
ATGAATATATAAGAAGAAAACGCTCGTAATTTATGCTCTACCTCTTCCCTTTGCTAAGTGGCAATTTTGGACCTTCTGTGACCGTGCAAACATGCAGATT
ATACATGCACTATAGGAGTGGAATGTATGTGAYTTAATAGCGTAATATTTTGTCCATTATTTTAAAACTTGCTTTATTTGGTCAAGACATACGGAACACG
TATAGATCAAACAAAAATTTTTAAAAATGCTTGCATACTGCTCTGTGCTGTGGAGTAGCCCTAATTAAATCAATCATTCCTCTGTTTATGGGCATTCCAT
TTCTTTTCAATTTTGATATTATTGTTGTTTTAGCCCTTATGAATACTACAGCAATATATGTTATTATATACTGCTGGTTTTAATTTTGTAGGACAGATGG
GATTTCTGAGTCAAAGGTCAGGTGACATAATTTTGTATCCTGTGGTTTTACTTAACACTATGCAGAACGATTTCCTCGTATTGTTGAAAACTCTTGGTAG
GGGTTTTTTTTTTAATTGGCTGGAAGCACTTCATCATATAGTTGTACCAAARTTTGCTTAACATCCCCCTTATTACTCAGCCTTTGGGTGGTATCCAGTT
CTTTGCTTTGATAAATAATGCTGAGATGAACATCTTTCTGCATGGCTCTTTTTCCTTCTTTTGACATACTTGGAGTTCTAGAAGTGGAATTACTGGGTCG
GAGGTCACAAATGGAGAGGTCTTTTAAATCTCAGCCTGCAAACAATCCCACTGCAGGTTTAGGCTGCATGTTTCATCCATTTGCAGCTGTAGCATTTTAC
AAACCACAGCATAAACCCTAGGAATAATTCTGTTCCCCACTGGGATAGAGCATTGTTATTAATATAATTTTACAAACATCATTCGTTTGAAAGCTTTATC
CAGCCTCACCACAGCTCATTAGTGAACCTTCTGACAATCCCGGGGCAGTTTGTGGATTCTGCAGCAGACAGGTTATCGTGTGCTGAAGGGTACCGCAAGG
GGAACCTTCCAACATCCCCACCCTACCCAAAGGATGATTCCTGCTCACACCAGCCAGCTGGAGACATTAGAGCATTACTTCTCGGTGGCAAGGGAGGGAC
TCTTGTTCTTTCTGGTGGTTCGTTTTCATCTTCAGGTCATGCCCTGTGTCACCTGACTCAGGCACCATTAGCATCTGGGGCTGTACACGTCTTTGTACTG
CACACTGTAGGGTATCCAGGATTCCTGGCCCTGCCCSATGATATACCAGCGCCATGTTGTCATCAAAACRACCGGAAATGCCTTTTGTGTCTCCCTACTT
CCCTTTTTAACATGTCAGCCCTTGGTCTCGATATTCACATCTATATTTTTCCTTATCCCGTTAATATATGTTATCTAAATATGTGCCATCTTTGTTTATG
GGCTTTTGGTGTAAGAACTCTCTGAGAATGCAGTGATTCTTCACTGGGATTGGAAGGGATCAGAAGGAGGGAAAGTAATTAGCGGGGCCTGTTATAATGG
GGTTGGTGGGGTTATTTGTGCTTTTAAAGTAGAATATCAGGGTGTTTAAAAGCCAAGATTCTGGAGTCAGAAGGCCTGGGTTCAAATCCTGACCCCTCCT
CTTGCAAGCTTGTGACACCGGGCAAGTTATTAACCTCTTTATGCCTTTATTTTACTATAAATATGGGATAATTATAGTTTTTACTGCATAGTTTTGTTAT
GAGGAGTAAATGAGTCACTATTTCTGAGACACTTCGTGCCTGGCASAGAACGAGCACTGTGTGTGTGTTACAGAAATATATGTGGGTGGGTGTGTTTCTG
TTTTCCGTAATTCCAGCTAGGCAAAGACATATTTAACAAAARCCTTCTGGGCTGATGAGCATCCTCAGAAAGTAGGCTGAGGGAGCTCTTTTAAGGCAGC
AGGACTAAGAAGGTAAAGACATGTACTAGGCGGGTCAGCATAGTGGTGGCCCTCGTCTGACACACATATTTCAGGAGGGGTCACCCCTSCCGTCTTCCAT
GTTGGGGTGCTCTTCTCTGGCAACCCACTATGGGTACTCCACTGCTGGCCTTCATGCAGGTGGAACCACACCGGGAAGACCCAAGCCGAGGGGAGAAGGC
GTGAGCAGAGCAGGTGGCAGGCACCATGAGGCAGGGCTAGCCTTGCCCACTGTCTGTGGCTGACCAGCTAGACTCTTTTCCTTTTCTTGCAAACCTAATG
TAGGTACAAGGTCAAGGCTCCCTGTGAGGCTTGCATAGCACCTTCAACCTTCTAGTCTTTGTCCTCCCAGAAGGAAAAAAATGAGAGGAGGGAGGGACAC
AAGAAAAGAAGATGCATTTTGTCAGCCACCGTGCTATGAAATGCTAGCGCAGATGACGTTCAGAACTGCCCTGTGAGCAGACATAAAAGCTTAGGCTCAA
AGAGATTAAATGTCTTATTTCTGCTTTTGGAAGATACACATTTTATTTTTTTCTGTGTCTCTGAATTGGCATCCAACCATAATCATTGTGCTAATTTACT
GTATTCTTACTCTCCCTCTCCAGTGCTGTGAGTAAATCAGTGTGTTCCTTATACTTAATAACATACTAAGTGGCAATAATAATTATTATAACAAATGTAT
CAAATAACTATGTGTGAACTCTGCATGTTTCAGCCCATTTAATACCCATTACCTACGGAGGTGGTTTCTACTATTGCACCCACTCTACAGATGAGAAAAT
GGAGGCACAAAAAGTTAAATCATCTGCCCTAGGTCCCAGAGCTGGAATTTGAACCAAAGGTTCTGTGCCTCCCAAATTTGTATTCTTATCTCTGCATCAC
ACTAACACTGTCACTCAGTCCTTTTCTCACTGCTCTGGTCTCTATACTTAGAGCTTCGAGACCTGCCACTCAGATGACTCCAGAAGAAAACACGCTTTGG
TGTCGTGCTTGCCTTTGCCCTTGTCACTTTCTCAACTCTCCTCACCTCTGTGACTGCATCTTTATAACTCTCCTTTATTAGTGCTTTTGCTGGAGGAGGC
AAGCATGAACATTGTCAAAAGGACTCAAAATGGGGAAAAGTGGCAGCAATTGCCAGCACAATCACTGAAAAATCTTCTGAATGGATTGTAAATTAAACCC
TCCCCCAAATGCTCAGAACTGTTGAATTGACTAATTCAAATTCATTGAGTCAGATGCAGTTAGTGTAACAGTCTATAGTAACAGTGTAGACTATTAGTTT
GTAGAGTCCACACAGAAGAGTCCAATTTTCTTTGCACAAAGAGCCTACCATTCATTTATTCAACAAATGCTTTTGAACACCCATCACTGTGACAGACAGT
GGCAATGCATGTAGGAACAAAGTGTGTCCATGGGGGCAGAGACCTGGAATAATCAGTCACCATGTAAGGAAATTCACCAGACCACCAATTTCCACGCCTT
GTATGTTTCTGTTGTCTTTGCTGCAGACTGACCAAAAGCACAAGACAAACTCTTGTCCACTTGGATTTTAGCATCTTTCCCTGACCCTGCCTCTGACTCT
GGTGTTGTGCACCCACTCTGCAACTCTCCAAGCTCCAGCCCTGTAGTGCCAGCCTGTACCTGCCTCTCCTGAGGGTCAATATGGCATCCAGCCTTGGTGA
AGTCTCCCACCCCGTGGTGATTCATATCTGACCCTGAGAATTTTCCACCTTTCCCAGAAGAGTGGGAGTCTAGGAAGACAAATAGCCAAGATAGGAGTTT
GAAGAGGAGGCACCAATGGCAATTTGGGTTGTTAATTCCTCCAGCTAATTTAGTTCTGATTTCCCCATGCTCTTGGCAGTGAGACAGTTGGCTCCAGAGG
AAGGTGATAAAAAGGAATCAGTCAAGGAACAATCAAGAACGTGTTACTTTTTTGGATAATCATTGGCTGTAGGGATTCTCCTTTACATTTTAAAGAGGGA
TGAGGTTGAGTCTGTCCCTAGCACTGACAATGAAACATTTATGCTGTTTATAAAAATCAGGAAACACACAAATAATTTGMTTAACGCTCACCTTCTGGTC
CTTTTGTGATTTGAGAGGTCTTGAGATAAGAAAAACTGTGGATGAATTTTACTGAACTATTGAATTGAGAATGGCTGAGGGGGAGAGGCCCCTTCCCTCT
GTGAAATATAGGGAAAAGTTGTTTTTCTTTTCTCCTAGTTTCAGAATACTTGGACTTACAGTCCCAAATAGCATCATTTCCTGGTGAAGCCCCCTGAACC
AGACAGGAAACTGCCTCTCTTCAATAAGAGCAGAGGCAGTCTCAATAAAAAACAAAATTTCAACCCATCCTCCGCTTTGGTGGCAGGCAGTTCATCTTCT
CACCTCTACTTATTTACAGTTTGAGGGGAAAAAAGAGGTAATACTTGAAAGTGTATTTGACCATATTTTCTAACTGGGAGACAATTTTTTTCTTTAACAA
TTACTTTTGGACATATTACTTGTTAGTTAAAGGAGATGTGACACCTCCTGCCCCCCTGGCCAGCCAAGATCCATTTGTCATCCAGGTAGCCTCAGAACGG
ATTGAGAGCTCGCCGCACAGATCTCATGTCAAAGACAGGCGCGTCTGTCTTTCACGGCTTGGGTTGTCAGGATGCAGGGAGGGCCTTTTGTCAAACACCT
GCCGATGAGCGTTTGGCAGAGCCTGTGCTAAGACATCATAGATTTCCTTCTGTGTTGTCTTGAGAGCAGAGAAGGTGGCAGGTTAAAGGGAATCAGGAAA
GAAATGAGAGTGAGGATAAACGAGAGGGTGTGGTTCTCAGGGTAGAATGCATCGGACACTGCCTAGTGTGAGAAGGGACTCATCTGTTTTCTAGGAAGTA
CTATAAAAAAGATAAATTTAGTGCTCAGATATCTGAGGCCTGATATTAGGAAAAATACGGTAAGGCATACATTTAGAACAGATGCCATGTCTGTGTGTGT
GTGTGTGTGCATGCGTGTGTGTGTGTGTGTATTATTAATATGTCTGCTGGCCTTGAGAAGGTACATTCAGAGAATTTTCTGAAGTCTTTTTCACATGGCC
TGTATTGTCAAAAAATGATGTTGGGTGTTTTCTGCCTGTGGCTGTGGGCCTCTGTGTTCACACAGATGGTCATATGTTCCTAAAGGATACATCCAGGACT
GTGCTGACTTATTTGGGGTGGCTGAGAAGAGACATGAGCCAGATGATAACAGGAATAATTCAGTGTGTGCTTCCCATGGCTGCTGTAACAAACTGCACAG
CCTAGAGGGCTTCAAACAACAGGAATATTATCTCACAGTCCTAGAAGCCAGACGTCTGAGACCACAGTGTGGACAGGGCCATGCTCCTTCTCTAGAGAAC
TCTCCTTGCTCCTCTCGCTTCCGGTGGTTCAGTGGCAACGCTTGGTGTTTCCTGGCTTGCAGCTGCAACTATCTGACCTCTGCGTCTGTCCTCCCACGGC
CTTCTCCCTGTGTGTTTCTGGATCTCTTCTCCTTTGTTATCAGGACASTGGTCACATTGGATTAAGGGCCTACCCTATTCCAGTCTGACTGCATCTTAAC
TGTTTAACTCTGTATTCCAATCTAATTACATGTCTATTTCCAAGTAACGTCACATTCTGAGGCAATGGCGGTTGGGACTTGAACATATATTCTTCGGGAC
ATGATTCAACCTATAACAAGTAATACTAGTAATCATCTCACTCCTGTAAACAGTACAGTTGCCATACCTCAAGTATCTAGTATACTTGGGACATTAGTCT
GGGAATTTTTCTCCAATCCTCACGCTAGCATTTCTAGTAATGAGGAAACTGGGGGTCAGGGAAGCTTAGTCCACATTTCTCACCTTTTCTCCTTTTCTCC
CATCCCCCAGCCAGTTTTTCAACATATTGGTTTTTCACCACATGCTCACTGCAGTGAATGTTCACTCCCAAGCCCAAAAGTAGACATGTGGAGTGACAGG
TGTCACTATATCATAATATGAAGAATTTCAAAAGCCAGAAGTGCTTGAGAAAATATAAATTGTGCAGTAAAAGAAAACACCCTAAATGTGCAGAGCAGGA
AGTAGAATGACTCTTTGGGTATTGTGTTTGTTAGGGGGGTCATTAGAAAATCATAGACACTGAGCCGAACCCCCTGGGTTCAAATCCCAGCTCCACCACT
TACGAATTGAATGACTTTGAGAAAGTTACTTAAATGCTGCGTACTTCATTTTCCTCCCCTGTAAAACGGGTTAATATCAGCACTTATCACATAGTTTTTG
AGAAAGCTAAACGTGCTTATCTATAGTGGTTATTATTACTAGAAAGAATRTCGTGGTGCCCCCAAACATGGATTTAACAAGCATTGATCAAATACCTCCT
ATGCCCCTACGAACCAGGTACTAGAAATCCACTCCTTTCACTTGCTTTTGTTCTGTTGTGTTTTTGAGACAGAGTATCGCTCTGTCACCCAGGCTGGAGT
GCAGCGGCGTGATCTCTGCTGACTGCATTCTCCATTTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCCCCTCCAC
ASCSCACACCGCCACCACGCCCAGCTGATTTTTAGTGGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCGGCCT
GCCTCAGCCTCCCACAGTGATGGGATTACAGGCATGCGCCACCATGCSTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCRGG
CTGGTCTCGAACTCCTGGGCTCAAGCAATGCACTGGCCTTGGCCTCCCACATTGCTGGGATTACAGGCGTGAGCCACCATGCCTGGCCCCCTTTCACTTG
TATTTTTTGAGAAGAGAAAGAAAGAATTATGAATGAATTCTTCTGAGCTGTGAGTCCTTCCTGTGCACCAGGCATGGATGGCAAGGCACGATTGATAATG
TTCCCTCTTATCTCGAAATGTCCACTCTCTCTCCCATGCACRGGGAGTCAAGCTGTGCTCTTCAAACACAAATTCCTTCTCCCACTTCCTGGGTAGTTAT
GCTCTTTTCTTCCCTGAGGTTGCTAATTGTGGGCAGTACAGTGTAGAGTCACTTTGATTTTTCTCATCTCCTTCCTGGAATGTGCCACAGAAGAAAACCC
ACGAAGTCTTGAGCTAAACGAAGCAGAGATGGGAGAAGGGACAAGGTGGGAGGCGGTAGTGGTGCTGCATGGGATAAAAATGGAAACACACACTTTTGCC
CTCTGTACCCAAAAGGAAATGTCGGTGGAGGCAGGCGTTCAAGCTGGCCTCGTGTTTGTGGTTTTAGACACAGCTTTGAGTCGTGACCGGTGTGGCCAAG
ACCTATTTCCCTTGCAAATGCTCTCTCTCTTTTTTCRGTAACTGTGTTACTAAAGTTCTCTTAGATACTTTACATTTCCTTTCACGGATTTCCAAAATTT
CTTTCTTTGAGAATGTCAGGACCAGTAGGAGGTTCAGCACGCRTTGCCAGAGAAATCACAGATGACTAATTGGAATGCCTCAGAATCATTCTCCTTTTGT
TTCACCTAATTTCCACACTTACGAAGTCAAACTCTCAGTTAAATGTTTATCTAGCAATTCATTTCTTCTGAGCCATCTGTTGCTAGGCAGGATCTGCAGA
CCTCTTGGTTGCATGTGCTGGGTTGGGTCCTCCAAGTCTCTTAGCACAAAGTCCTGATGTTTAAATCCTGCAAGCGAATTGCCACCTTTATTTCCAAGTT
CTCCTCGAAATCCACATTCTTCCCTACAGACAACGGTGGGGTTCAGTGTTTGCTTTTCCTGGGGCTGCTCGGTTCTCTCACCTTGCATTTCTGTGGCGCC
AAGGTAAGCTGAAGGCATTAGTATTCACACTTGTGTGTGAGCAGCTGAGCTAACATGCACCAGAGGGAAAATATTACTTCTCATAAATGCTCAATAATTA
TAGTCTTTATTGCATGCAAATCTATATTGTGACACATAGTGGAAAGCTTTTGGATTCTGTGTGGAAGAGTTGACAGAGATTTGCAGGTGAAAAAGAAAAG
AAAAAAAATACAGATACGTGTATATATAGAGAAAGACAAAAACTTGTSTGCTAGAAACCTASGGAGAGAGATGGTATTGCCCCTGGGACATTGGACTTTC
TGTTTCCAGCATGGTCTGTCGTCTTCCATAATGGCATTTAATTTTGGAAAAATTGCCTGAGCATTTGGAACAGGCATCTATTAGGAAAGCCTATTTCTTT
TTTTTTTCTTTTTGTTTTTTCTGAGACAGGATCTCACTTTGTCACCCAGGCTGGAGTACAGTGTCACCATTGTGGCTCACTGCAGCCTCGACTTCCCAGG
CTTAGGTGATCCTCCTGTCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGCACCACCACTCCCAGCTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTTTTGTAGAGACAGGGTCTCACTGTGTTGGCCAGGCCGGTCTCAAACTCCTAGCTTCAAGCGATCCTCCTACCTTG
GCCTCTCAAAGTGCTAGGATTACCTGCATGAGCCACTGTGCCCAGCCTAGGAAAGCATATTTTTGAGGAATAATTATTTCTAGTAATTTCTGTTCTAATC
TAAGGGGTTTGAGGTTATCTTTTGACAATAGATGTTAGCTAGGAGAGATAAGAAATGGAGCAAGGGAGGGGTTTCATCCCGCCGTGTTCATTTGCTTGGC
TGTCCTGAAATTGCGAATACRCAGTTGTTACCTGCTCCCGKTGGRAGGGRGGGGATATTTATTTGGCATCTTGCAATTGATAGGAGCTGAGTGATTTTAG
TAGGTAGTTTAACTCCTTAAAAACTTCCAGTGGTTTCATATTCTACCTAGTTTTAGGTGACAGCTGGTATGGGGTGGGGAAGSRGGGGGGGATAAAGATA
TTAATTTGGAAGCATTTGATTGCTCCATTATTTTATCATCTTCCCATGGAAATGTTTTCATAACGYSTTGTTTTTTAATTATTATTATTATTTTTTGAGA
CAGAGTCTCACTGAGTCGCCCAGGGCGGCGGTGTGATCTCGGCTCACTGCAACCTCAGTCTCCCAGGTTAAAGCAATTCTTCTGCCTCAGCCTCCCGAGT
AGCTGGGATTTTAGGTGTGCAACACCACGCCTGGCTAACTTTTGTATTTTTAGTAAAGACAGGGTTTCACCGTGTTGGCCAGGCTGGTCTCGAACTCCTG
ACCTCAAGTGATCTGCCTGCCTCAGCCTCTCACAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCTCATATCCTTTTTTATGGAAAAAAAAAAT
CGGGAATTAGCGTGTAGCTATTAGGCGTAGATTCCTGCCTAAGGTCTGGATATGAATTCCAAAGACCACTGGACTTTGGAATATTCRTARGTCTCTGAAA
ATTCAGACCCACAGAGGCCTTACCCCGCTACAGAGAGGCCCCARGAGAGAGGCCTCACACCCTCTGGCTCCACTGAAATTCACTTCACGTTTCCAACTTG
GATTAAACTGGCACGAMAGTTCAGTCAAATGTCAAGTCCATTTTGTCAAGGGAGGGAACTCATTCAGAAGATGAACTAGTTGGTGTTACTTAGATGATTA
ACTACTTGGCATTAGGTAGAAGAGGGCTCTGCCAACTACAGTTCATGGACCAAATCCTGCCTGCTGTTTGTTTTTGTAAATAAAGTTTTATTGGAACACA
GCCAGGTGCATTTGTTTACCTATTGTCTATGGCTGCTTTTGCACTACAGTAGCAAAGTTGAGTACTTATAAATGTAGAGCCTGCAAAGTCTAAAATATTT
ACTATCTGCCCTTTTGCAGGTAAATTTGAGGACTCTTGAGTTAGACAGCTAATTAGTTGGTGTTACCTAAATTTTGTGAATTGTGGCTAAATCTCTCATT
TGTCTACACATTCAAATAAAATCATGTATCAAAGGTGATGTGTGTATAATAAGATGCTGGGAAGATGAGCAAAGCATGACTTCTTTTTTTTGTTGTTTGT
TTGTTTTTAAGAGACGGGGTCTCGCTCTGTTGCAGTGTCGCCCAGGCTGGAGTGCAGTGGCACAACCTTGGCTCAGTGCAGCCTCCGCCTCTCGGGTTCA
AGCGATTCTTCTGCCTCAGCTTCCCGAGTAGCTGGGACTACAGGCACCTGCCACCACACCTGGCTAATTTTTTTKGTATTTTAGCAGAGACAGGGTTTCA
CCGTGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGCARTCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGATCACAGGCGTGAGCCASCGCGCCCAG
CCCATGACTTCTCTTYATGGGAGAGAAAGGCCACCGAGATAGTAAGTGGACATCAGGACATGGATTCTATTAAATCTAACACCTTTATCTTTGCATTTCC
ATACATTTTGCTTATTTCAAAGTAGCTACAACTGCACAAAGAATGGGCTGTCCTCTCCTGCTACTTTATAAAAGCCAAGTTTTTGCTTCTAGCTGGTCGA
AGGTCCTGTGGGAGCTCACGTTTTTCTCAATYACTGATGAYCATTTGAGACATAATTTGGAGAAGGTTTCTATCAAATCCTAGYTGGACTGCAGTGAAAT
GTTTTCAAACTAGAGAAGCACCAAATAGGCCATGATAAAGAATAAATACCACCTACCCCAACCTGGCAAATGTGTGCTCACCCAAAAGTAGTGGAGCCTC
AAGCTCAGGGAGATGTGACTGGAAAATCCACTGAATAAATGTCTATTTAAAAAAATCATAGCGTCTAGGGGATATACACTTCTAAGCCCATTCTTCAATG
GAGAATTACTTATGCGCATAAGTAGTTTAAACAAAATTAGTGGAAAAACAGGGAGTTTMAGGGAGCAAGAGATCAGGTCTTCTGGGCTCACCACACATCA
GGTGATTTAAGCTAAAAATGGCTTAAAATACCGCAATCACTTGAAACGCCTTACATAAACTGACCAGGAATCTGGGGCATTCGCGTTAGAGACAATTTTC
TTCTCCTCAAGATAAGGGATGGGGAATTAGTCATAGGGTATYTCCAGATAATGTAGTTAACACCTCGTGTAATATTAGGTGGGCAGGGAGCTCTGCTCTC
AGGACCAAAATTGYTCCTGCCAGCTCTAATAGGGAATGTGTGTATTTTTAAAGTCTGGGTAAGCACTGTGAGTCATTTCCACAATACGCCTCCCTTTGGC
GTGAAATGGGGCAGAAAGTGCCCCAAACAGCTGTTATTTTCGCAGTGATTCATTCATTCATTCATTCATTCATTCATTHATTCATCCACCCATCCATTCA
TTCATTCACTCATCACATGGCAACTCATCACCCCTGTATACCAGACCCAGTGCCAAATACTGGGGAGATGTGTGTGAACAAAATCTCATTTTCAAGGAGC
TTATTGCCTGCTGCACATTTTAGCCTCATCTCGTTAGTGCAAGAAATAATTTAACAACTGAAAAAGATGTGAGGTTGTACCTGGTAAGGTCTCTATTGST
CAAGGAAAGGTTTAGCATGGAGAGATTTCTCTTAAGGTGCCTAGGTATTCAGAAGCACCCCTAAAACTGATTTGTGTGGCCCTATGCTTACAAGTGGAGC
CTTTCCCTCATTTTTGCTTTATTTCTTTTGCCTCTCACTTTTTATTTCCTTTGTGGAGTCCAGCCCCTTTGCTTATTCTCAGCACAAAAGAGGCAGTAGA
GTGAGAAGAACGTGAACTTCAGAGCCCACSCATCCCKTTTCACATTTGAATCGCAACTCTGTCATTCACCAGCTGTGCATCCTTGGGAAAGTCACTTAGC
CTCTCTGAGCTCTAATTTCCTCACAGGGCCGCAGGACTGAGGTTAAGGACCTGCTGTCACTGGTACAGTGGTTGAAGAAAAGGTGAATGAAGGAAGGGCC
TCRTTTTACTCCTTGTCTCACATTCCTTTCTGCTACTTCTCTTTGGCTCACCAAAAGGAGACAGAAGTTTGTGTCCATGGCTGTGAACTGCCAAAGAGTT
GCCAATTCTCTACGATCTTTGACCTCTGTGATCCCAGGGGCAAGGCCAGCACTTTCCATTCCATTAGACTTCATTCTCTTGTGGGTGCTTTCTGCTGGAA
TCTCCCAATACAGAACAGAAAGCACAGGTTATGGAATCAGATAGACCAAAGTTCATCTCCAAATTTGATTCCCTCTGCATACAAGTTGCTTACCCTTGGG
GGCCCTGTAAAATGACCATAATAGTAAGCACCTCTGAGGCTCACTGGAAGAACTCTTTGTTGTCTGCACAGAAGATCTCAGCACTAAGCCTGGAACAGAG
GAGACTTCAGTCGATGTAGGGCATCTCCCCAAACTGCTTTTATTCTTTATGCCTCACTGAAACTTGAATCAAAAAGCGGCTGGAGGAAAAAGAGCTTTGC
CACCGGGCAGTACTGCTGGGTCTTGCGTCACAGAGATGCCTTCTGCTCCCTTCTTCAGGGAGACCTCAGRGTATGAAAGTGCTGCTTACCCAGCAGATGA
GATTTAGTCCAGTCATCCATCTGCGTGGTCTCTGTGGATAAAGTAAGCGTTTCATTCAACTTTTAAAAATATTGCAAATTGACCCTCGCACATCTTTTCT
TACTGCCGGTCACCTAGCCAGCAAAGACCCCAGGTGAGATCCCACTGGTTTGGAGGAAGGAGAGGAAAGTCCCCACTTGGGCAAAAACAATTTAGGATAC
CTGAAGATTGCAAAGCCCAGCTCCTCACAAAGRGGGTGGCAGCTGGGGAGAAGCTGAATCAGTAGACAGACAAGATTGTGGTTTAACGAGTTCAGGGACA
AGAGAAGGCCCCAGTAACCTACAGAAGCAACTAGCTCCTTGCCTTCTGTACAACATGGCCTTTGGAGTCACAGGACGTGAGTTTGGATCCCAGCTCTGCC
ACTTAGTAATTGTGTAGATTTGCACATGTTGCTGGACCTCTCTTTGTCTCAGTTTTCTGTAAACTGGGGAAAATCTTAGTAAATCTAGCTAAYGTGGTTG
TTATGAAGATTCTGTGTGTGTGTGTCTGTGTGTGTGTATGTGTACAAAGAAAGTTTAGAGCAGCGTGTGGCACGTAATGCATATTATGTAAGTGTAGCTC
YAATGTGAGTTGTTACTTGTAGAGAACAGCTATGTCAAAACCACACCAAAAACGATTTGGAAAGGAAATAATTTGACTGGTCATTKTGTTTATCCATCAA
CTGAGTTGGATTGATATATTTTTCCTTTGGCCTTCAAAGGAAATTTGAGCATTCATTCATTCATCCTTTTAGAGAAATATTCTCTAAGCACCTACCGTGY
GCCAAGCTTTGGGTTGGATACCTGGAACCCCTCTCAGTGAGATCACAGTCTAACAGCACACACCCAACTATGAAATATAGATGGACTGTGAAGATGAAGA
AAGGTTCTGGTTATGAACTCACAGAGGAAGTGACGGCTGAACTTTGTAAGGACACAAGTGGTTTAACAAGTTTCCTGGCCCATATGAGATCTCGGCTCCG
ACGTTACAGGCAGCAGTGTGGGGCCTCACCTTACCTTTTCCCACTTCCATCCTTCTCCACCCCCGTTCAGTTCCCAGGCTCCCCTTGTGTGAACTGGCTC
ATTTCTCACTGCCTTTCTGTTCTACAGCCCCCGCTCTGCTGAGTCAGGAGGTGCTACTTTCTCCATCTGCTTTCCATCGTCCAAAATTTTTGTTGATGTT
TCTTGATCACTGAGTTAAATAATTTTTCCCCGTATTATACATTCAGTAGAGTTTCTGGAGAGAGTGCATACAAAAACGCCTAACTGAATCTACCACGTCT
AAGCAGATGCTCCCAGAGTCTATGCTTTTTTCCCCCATGCCATACTCCCCAAACTAAAGGATGAGAAAGAACCATGCAGGCAGAATGAGATGAGTAGATG
CTACTGCTAATGCTGTCAGTTCTACTACTACCGCCACTGCTGTCTTCTGCTGAGTATGGATTATATGCCTGTTCCATATGAGAACATTATGCATATGGTG
TGATTTGGTCATTCCGGATGGCTAAAGTGTGAGCATACCCGTATCTCAGATTTACAGAGRWGAAAACAGAGGCTCAGACTGGTTATGTATATTTCTCTAA
GTCCCCCAGCTATTGTTTGTTGTAGGTTGGGTACCCCAGGAAGTAGATTCTGCAACTGAGATTGGCATGTAGGAAGATTACTGGGGAGTGTTCTAGGATC
CACACCTGTAGGGGAACRTAGCAAGCAGGATGGGGTGGAGGGAGGATTGAGCTGTGCTGTGGGAGATGCGAATGCTCCAGTCAATCCCAAGGAAACTCTG
AAGCTGGATTATTCTTCAGAGATGCAAGGAGGTCAGGAAGTCATTGATGTGSGCTCCCTCCTGGAGTGCGTGTTGCTTTGGTAGGGAGCTCGCTTTGGCT
GTGGGCAGTTCCTGAGGAGGGACTCAYAGGACAGCCTAGCATCTGAGGAAATGAGTGCCTCCTGGCCCAGAATGGGGGATCTCAGCAGCACACTACAATA
TCCACTACAGTTTCYTGGGCTTGCTCTGAAGCCATGCCTCTCTAACTTCAGGGTATATTCATGTAAGTGAGGTGCAGGGATGGGGGAAAGGGAGAAGGTA
AAGCTACAAAGGTAAGCCAGCTTGTCTAGACCGGGAGCTAGCTCCTTGTGAAGGAATGGCAATGATAATGGTTAAGTCAGATTCAAGAAGTGTGTTTTGG
GGAAACACTCCAGGTAGTGGTACATAGAATCCTAGCACAAGATCAGTGACTGGGTGAGTTTGACATTGTAGATGCAAATGTGTSAGGAATTATAGTTGAA
AGGGGAAAGAACATTTCAGTTTTTCATTTCCTGCGTCACTGTTTTTCTTATTTGGAGATGCTGTTCCTCTCAMGTGGGAAAAATTTGGTTATCTCAGGTG
GTAAAGATGCCTTTGTTTAAAATATTCTTCTSTTAGTGGGGACAWTAATACTACTAATTTCTAGTACTGACGCTTCTCATGCAATTTAATCAGTAGGAAC
CTGTTTGCATGTTCATTTGAGGAAGTACCAAAGCCAAAAGTAGCTTCGAGGTTTGGCACCTCTGATAAAGTTACAGAAGTGCAGTGTGAGCAAAAATCAT
CCTCTTCTCTGTTCTTCACCTGTTGGTGAACAGTGAGAGACCAAGGTGAGAGACTCGGAAATTACACATGTACATTGTATATTACATGTATACAACATAC
ATTGTGTATTACACATATACAAATTACTTGTCATAACGTGCAGATTTCACAATGAGAGACCAAGTTGAAAAATGCTTAAAATTCACAAGTCTATATCATT
CTGTCCTCCAGGTACCCCAAGCTGGTTTGGGTTTATACCAGTTTGAACCGAGGGACCTTCAGCTGAGGAACATGTGCTCTGTGTGCTGGAAGCTCCTGGA
GGCCCCAGGGTTATCTCTGCTCACTTAGGTTTGTGATGTTGGGCAAAAGGAGAAAATGCTGAGTCTRTTCGGACCCAACTTCCATTAATGCCTGAGAAAT
AATTTAAATCGCAAGATTTCCAATCCCATAAGCAGCCCTAGCCTCTCTTCTCCTGATACTCCACATACCCAGTCTCCATTCCTTCTTCCCCCACCCTCCA
GTTCTCATCCTGTACACTACCTCCAGACCCCCAGGGATTCAGATCCTGTCTCCCCCAATGAGAGACTTTTTTTTTTAGGGGGAGCCAAATTATTTGTTAC
AACATGTAGATTTCACTTGTTGTAGAGATGTTCTATTTTCAAGGATACAGAGCTCAAAGGGAGCACAATTCCCTGGAGAGCTAGGGAAATAATGAAGTCT
AAGGTCTGGCAGATCTGGATCTGAATCCTGGCAATGCATTTCGGGAGTTCGGTGTCACCCTGAGCATCTTTCAATTCCTTGAACTTCAGTCTCCTCATCT
CTGAAATGGGGTTATTATCTACCTGCAGAGGTGCTGCAGTATTAACTGAGGCAACGTTGCAMCGTTTCTAGAATGATATTTAGGGCTCATATTGACCCAG
TAGGAAGTATAGTTACCTTGGGCCAGGGGAGCTACCTGAGTGGAGTCAACTTTTAGGTTATAGGGACCAAGTTGAAACATGCTTAAAATTCACAAGTCTG
TACCATTCTGTCCTTCAGGTACCCTAAGCTGGTTTGGGTTTATACATTCCCACAGTGCCTACCACATCCCAATGGCTTTATGACCTTGAGGTCCTGATCT
GTTTTATCATAGCTCTTGATCTTCCTCAAAAATTCTTACAGCTGTATTCCACAGGTCATCACCAAGGGACTGCTAGAACTGGATCATAGCAGCTTCCAAG
AGCTGAGTGTGTACATTTCCTCCCAACTCTGCATTCAGTTTAAATTGCTTGTGGTGAGAGTATTCATACCATGGGAATTGGCAGACACTGTGAATCAAAC
CCACCCCCTGCACTGCCCCCCTCCAGTGAGCGAGTTCTTGAACACTTACTGGTACACCACTGTCACCAACCCTGCTTTTTRTAGACATGTCCTTTAAGCA
AAGCAATTCATGGGAAAGTAAATTTAATTATCAGACCATTTCATTAGATTCCTCACTGCCACAAACAGGTGGTTGTGGTGATAATCTGGGCTTTTTTGAT
CGCTTTAGAAAGGCAGTTCTGTAATGACATGAAAAACATATTGCTTGGTAATTTATTTATTTGTTCCCAATGTTTGCTACGGATTGTGGTGAAAACACAA
ACACCCAGGACAAAGGGCAAGGTTCATCCCACCATGACGATGGGAGGCAGTTTCATCCCACCATGATGATGGGAAGTCCTTATATCAGGACTCCAGGGAT
CTTGTGTCCTGATATAAGGCTCTCACTTTCCAATCAGCAGGAAGTTATGCTTCCCAGCCTCTAGGAAAGCATAGGAGTTAAGGAGAACTGAAATCTGGGG
CAGTTATAAATCTTCCCTTATGTGTACAACAGTTTAAATCARTTGGTCATCTACCAAAATCTGAGGAACAAGAGCAGCTTTAGAAAATGGGCTGGGCATG
GTGGCTCATGCCTATAATCCCAGCACTTGGGGAGGCCAAGACAGGTGGATCACCTGAGGACAGGAGTTGGAGACCAGCCTGGCCAACATGGTGAAACCCC
GTCTCTACTAAAAAAAAAAACAAAAACCACAAAAATTAGCTGGGCATGGTGGCATGTGCCTGCAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCG
CTTGAACCTGGGAGGCGGAGGTTGATGTAAGCCGAGATTGCGCCACTGTACTCCAGCCTGAGTGAGAGASAGACTGTCTCAAAAAAAGAGAAAAGTAAAG
AAAAGAAAAGAGTAAGATTAAAAACAAGTAAAGAAAATAAATCCTCCCGCTTTTTTTGCTCCTTCATGGGTATGGCTGCATCCTCTGCTCACTGGTTTGA
GTTATTATTTTCCCATGGGCAATTAAAGCCCTGGCCTCCACTGCAGTTTTCACATCAAACCTAAGAGTCTCAGGTGCCCCTTGGTGGAGCAACCTMACTA
GAGACATTAATCATACTACGGGATAATTGACAAATGCATTGTGAGTGTCTGATTTCTGTGGCTCAGGATGCTTAGTAGCAGTGGGGTCAAGGGCACAGAT
GACACAGGTCCAAATTTCCCCACCCCTACGTAGTAGCTGTGTGACCTGGGGCAGGTTGCTTAACTTTTCTGGACTTTTGATTCCACATTGGTTAGATGGA
AATACCATATTATTATAAATATTGTAAATAGTACCCATCAAACACTTAATGTGAACCAGAAACCCTCATAAAATGTTTGCTAGTCTTTGTTGTTGAAAGG
TCACTATGATGATGGCTCAAAATCCTGACCTGAAGGTGTGCTATGTTCCTGCTTCACTTGTGCTGTGGACATGTTCCTATTTATCATAGTGCAGTTGTTG
AGACTGGGTGTCTAGAGCCATGTGATTTGGTTCAGCTCCTAACTCTGTCACTTGCTCTTTGACCTAGGCAGAAAACTTTGCCTCTTTGGGCTTCAGTCCC
CGGTGTTTTTATTTTATTTTATTTTTCAAGATGGAGTCTCATTCTGTCACCCAAGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCTGCCTC
CTGGCTTCAAGCCATCCTCCCGCCTCAGCCTCCCAAGTAAGTGGGACTACAGGTGTGCGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGA
GGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTTGSCCTCCCAAAGTGTTGAGATCACAGGTGTGAGCCATGG
TGCCAGGCCTCTCCTGTCTTTAACTGGGGATAATGTGTGCAGAATTCCCCCTAAAGGATCTATCATGCGTAAGGTGGACCCTCACAGAAAGCGTCAAAGA
CACACGAATCTCTTAGCAGGAGGCCGCCAGGTGGCACAAAATCAAAACTGCATCATTGAGAATTATGTTATGAAGTCATTTACTGACTTGAGCCTCAGTT
TTCCTATTAATACAATGAGACTGTAGTAACTTCATAGGGCTCTTGCAAGAGTTCAGCTAAAATTCTCCACCTTGCCACCTAGAACATGTCACAGAAGGTA
TCCTGGCCCCTGTATGGGATTCATACATGAAGAGGACTGCCTTGTAAAGTCATTTGATTAGGGATCCAGAGGGTGTACTGGTAGAGGACAGATTTTCAAC
CCCTTGACAGTTCGAAGGTCAGCTACACAACTGGCTTGTGTTCCTCGCTGACACCTCCCTGAGTAGCAATGTGCATTTGTGTGCCTTCCCTTTGCCAGGC
ATTTCTAAGAGGATGAATCCTAACAGGTATGGCAGCCAGAGGGCAGGGGCAGGGAGAAGAATAAGATGTTCCTTGGTGTACCCCATTGTCATGAGTTCAT
CATTTCTGTTAACTGTGGGGGCAGAGAGTTCCAATTGCAACTGGCTTGTTGTGAGACTGCCCCGGTGGTTGCTGCCAGATGATCCACAAATGCCAAGCTC
CTCACCTGAGCCCTGCCAGCCTTCAGGACCTCCTTTGCACGAAGAGCAATTTGCAGAAGAGAACACTGCAGGGGAGGCACCATAGACCCCTTCTGGTCTG
TACTGTTCAAAATCACATGACATCCGCCAGAGGCCTGGTGGGAAGCCAGGGTTTTAGGCACTAGAAATGGAGCTCAGAAAGGAGGAGAAAGGTCCCTGCT
GGTCTGTGGAGAGGGCCTTGGCCACCAGAGGGATCAAATGGCCCAGGCAGGAAATAAGTATCCCGCTCTCAGATCTGAGGCCAGATTTTCAAGTGTATGC
ATGATTCTGGGGTGCTACAAAGGGTATAGAGTATGGAGTTAGAACATTACACGTCAACAAGAATATGGGTTTTGAACCCAGACCTCAGTTTGAATCTGAG
TTCCAGCACTGCCCCGTTGCTTGGCCGTGAGTTACTTCACCTCCWTTAGCCTCTGTCTCCCCTCCACTACAATAACACCTGCCTGGTGGGGAGTGAGGAT
ATTGTGCGAATCAGAAGTAATAACAGGTCGTTGGCACCTAAGAGACTCTCAGTAACCAGCAGTCATCACCACCGTCGTCGTCTTTTTTTTTGGCCATTAC
AGTTGGGATTAGACTAACCCTCCCTAAGCAGCTATTRAGCCTCACACTCCCTGGACAAAGACATGAAAAACTCTGGATGATTTGGAAGGGAGATCTAGAA
ATGGTGAAAGGACTGSCAAGTGCCTCTGTGCTGATAYTGTACCTGGGCTCAGTGGTCTGGCTAAAGGAGAGGTGCTGGGGCCAGGTGACAGGCGAGTCTC
TATACGGCAGGCCCAAAAAATGGAGGTGCAGGCTTCATCTATACTTTGATGTGTATGCTTCCTTCTTTAAACTTGTGATAATCAGAGTTATAGCTGCTTT
AAACTTGTAAAAATCAGAGTTATAGCTGCTTTTGAACTAGTACTTGTTGTGTGCCCAGGAAATGGCCAAATGTTATCACTCATCCTTCCAAGAAMCACAT
GAAGGTTATATTATTATGTCGACTTTCCAGATGAGGAGACTGAGGCTCAGTGGYTTGTCATAGGTGTCAAAGACAGGAGTCCARTGTAAGGACTTCTGGC
TTCAGCACAGGGGATTTTCCTACCATCCCATATTGCCACCCCATCTGCAAAAATACCTGGATCTATCTTCCTCCTGCTGATTCTCAGCTCCCTCCAGGAC
TGAAGAGATGATATTGATTCTCACTTGATAGAGGTTAGAAAGGGCCTCTCCCTTCCCTAGCTGAATAGAGAGGGTTTCCTTTTTCTTTTCTTTTYTTTTT
TTTTTTTTAAATGGGAAACTTACAGGGAATAAGATCTGTTTCTTCATTTGCTTTGCAAGAGAGTTGGATTTGTACACGATGCCTGAGCTGGCTCGGTTTT
CTAAAGACCTAACTTTGCAGCATTCTTCAAGGGCTCCAGAGAGTCCCTTGTGCCATCAAATTAAGTTTGGAAACTTCAATAAAAAAGTCCCGAAGGAAAC
TGTCAATTAATGCATTTACACTGAAGCATCATATTTGGGAAAAACATCTTCAAACGCAAACGCTGTTTTCCAACCATTAAAAAGTTTATGCGCTGCTTGG
TTTCCATGGATACCTGAGGTAATAGCCTCCTTCCTCTCATTGAAGAGTGAATGTTGCTCAGTTACTTTTTTCCTGTTTTTTTTTCACTTTTGTCTTCCTG
ACTTTTTTCTTCCATCCCTATTTATGAAAACAAAAAGATAACTAAATTGAAACSTTGACAATGTAATTTGTCAGAGGAAGGCAGCCTGTTTTATAAGCTC
AGGTGATTTCATTTTTGTTCACCTGTTTATTTCATGACACTTGCAGGAAAAAGARGAATTTTCATTTGATCAAATCATTTCCATGATCCATCAAACACAC
AAGTTAAAAAGGGAAATGCTCTCAGTCTTTAATAACAGTCTTAATCGTGTGTAGAGCAGAGATTGACAAACTATGGCCTGCCGGCTAAATCTGGCCCAGT
GCCTTTTTTTTWATAAATAAAGTTTTATTGGAATACAGACACGTTCATTTGGGTAGACGTTGTCGATGGCCGCTTTCACAACAATAGCAGAGTTGAGTGA
TCGTGCCAGACATTATATGGGCCACAGAGCCTAAATTACTTAATCTCTGGCCCTTTGCAGAAGTAGTTTACTGACCTATTATATACAGGAAAGAATGAGG
GCTTGGGTGGCACTTAGTAGTGTTGTCACTTTTGTCATTGGCCTTGACCTGACTCAGTCTCCGTATTGTTGAGATGGGAATGACGGGACCCTCAGTAGTG
TTTTGGGATATAAGGCACACGGTAAAGGAACAACAAATAGGAATTACATTCCGTCGAGATTCTTTTGCTAGAAAGATCCAAAGAAACCTACCTTGTGATT
CTAGATGTTTTTTAGGAAACCCAAAGAAAGTATGAAAAAGCCCAAGCCAAGTCCTTCCACTGTTGTTCCCGGGCCTGTGTGTGCTGTGTGTCTTTSCTGG
GAGAAGGTCAGAGCTGGAGTGGGGCACTCGATTCCGGCAAGAGAAGGCAAACAAAAGAAGCCACAACAGTCTAGGAAGAAATCTTTAATTTCTATTCAGC
TTTAAAGAGTTTGAGAGMGTTTTTTCCCCTCTGTTAACAAACGASTTCAAGTACATGCCTTCATATTATAAAAGTACCTGAAATTGCCTAGAATAGCAGC
ATGCATAGCTTGTTAGTATTTACATATATTTACATAGGGAAACAAGAGAAAGATCTACAGTTATTTACAGTCTACATAGGGGAAGAGAAAGGCAGCCTAA
TTGTATTTCCTAAAATACAGTAGATGAGTAGTCAGCACATGCATATTTAGATAATATTTGCATGATAGAATGCAAACTTTRAAAAAGACATACCTTTGTA
ACTTTCTATGCTAAGGTGTTGCATAATCAAGGTTAATTTTTGTTTGTTTCTAGTCTATKGGCATCAAGTGCTTTAAAATGCTCACTAACACCGAGGCAGA
ATTATTTACCCGGGCAATTAAAGCAACAGCACACACGATCATTTCCTACTAACTAGCAACACGCTGCTGGTGAATGAAATATCTATTGTTTCTCATTACC
CATCGACCACTGTGAAGAGATCTCTCTGTGTAAAGGCAGTGCCTAAGCTATCACCATTAATTATGGAAGTAATATAAATGAGACACTCTCCACAGTATGT
TCTAAATGAAATATTAACAAGGCCAGCGTCTTGGAACCTGAGAAATGGTCTGTTCCAGTGAGCTCTGTATGGAAATCCACACACCTAACTCAGACATGCC
CGATTTGAAATAGCGGGGCTGGACATTGGGGGCCTACCTGTGAGATCTGAATTATTGCAAAGTACATCCTCTTAATTTGTTTCTGGAAGGCAGAGTTAAG
AGTTAATTCCTTCCCATGATGTGGCCCCAGCGGAGACCTTGTGTTTTTTTTTTTTTTTTYCTTCAGTGCTTTTTCAGGACTATGTTATAGAATACTTATG
GGGCATACGTGTAAATGAACTGTCAACCTTAAAATCTAAACAAAMAGCTTGTTTGTGGTTYGTCCTGAAATCCTCCCTGCTCACAAAACAGCCAGCTACT
TGGTTTTCTAAAAGACGTAATTTTGCAGGCAGACTTCRTAGAGCCATTCTGTGCAGAASAAGGGAAGGGAGAAGCTGTTTGTTTTACCTGTAGTATGAAG
ATATTCTTTGCGCTGTTAGAACTGAGCTCATTAATTCTGCCTGGCAATAATTTCAAAGGTTTATTTTGGTGTAGATGGCGAATACAGATGCATACATTTA
TACGCAGTAYACGAGCTAGCTATAACCATAACAGAGGTTAAAGAAGTAGAGTAAAAATGTAAAATGTTTCAAATAAACACACACTAAATATCTTCTTTTA
TATCTTATAAACACCCAGCAGTCCTTTAGCACGGGCATCAAGGTGGCCCAGYTGGAAAATTTCAGTGACATGCCATCAGATTTGTTCCATGTAGAAGGAC
GACACTATCAGTTAGATGCTTATTTTGTTGGCAAATTTCTATGGCACTTCTGCTTGGCYAYTTCAAACCAACCATGGAAGAATAGATACCCCAATGCGAT
GTTTCATCCCTATTCATAAAGAAACTGTACTTTGAGCAATGTAGGTATCCCAGGCAGCATCAGAGGGAATGCCCAGGGAATTCTTCCATGGATATAAGAC
ATCATCAACAATACCTTCTCTTAGTTCTAATGAGACAGCCTCTCAGGTCCGGTCAGTTCTAGAACGCTTTGGGCAGGCACAAATGGAAGATGGAACAAGT
GTGCATGTAATGACCCACATGGATTGCCTTGAAGCCGTTTCTTTTTCCTTCCCTCGTTAGGAGTACCCTCACCCTAACCCCAGCAAAGCATGTCTAGGGT
CTCACAATAAYAGCAGGTCTCAGAAAGATAAAATAATTCTGAATGTTACAACTCGTCCCATTTAAGGCTAGACATAAATCTATCACAGATCCTTTGGAAC
ATCGATGGCAAGAATTCTGGAACACGAAGGAGGTATGAAAAGGGCTTCACTCGTTTCATGGAAAAGCTCAGAACAGTTTGTCGACTTGGAAACACAGGCC
CTGASAGYGTACCMAGGTCACCCTGCCCTTCAATCCTGCTGATAGCCCAAGTTAACATCCTCCCATGCCTTGGCCTTCCCAGAACAAACATGGCTTTGGA
CGCCTTTGGGTGGTTGGGACTGGCTGCCTATTTTTYTCTAAAACTTAAGTTTTAGGAAAGAATTCTTTCCAGCTTTCCATCCTGAACCTGCTGGTCTCCA
GGCTCGTTCCTGCAAATATTTCACAGAGGAGTAAGAGCCACATTCTTGCTGGCTTTCCARTTCATTCTCCTCTCTTCGAGTCCACCTCTTAAAACTTCTT
AGTGCTCTTGCAAGAAACTCATGTCTTTTGTCAGGGAGAATGGCATGGCCTTTGTATGACACTTCCTTCTAGCCAGACTCGGATTTGGGGGCATCATATT
TGGGATGGCTGCACCGYAAACAGGAAAGGCCACAGGACAGYTCACAGGTTCTCTCTGAACAGAAGCCTGTGAGCACGTGCCTGTCATTTAAAAGCTGCAT
GGCACTCTTCCCCCTGCATGCGTTTCTCTCAAGGTGTCCCTTGTAATTTGTGGTTGTGGTCTGTGCTTGAACCTGTTGCATTTATGGTGATGGACTGGCA
CTTTACTCTCTCTGAGCCACGGCCATCAAGCCCCTGTCATAGACACTGTCCCYAGTGTCACCTGGGGAATGACACTCTTCACCTGTCATGGGAGAGGCAA
CTGAAAAGGAGCCTGAGGTTTTTCTACCTTTGTGAACCTGTTGCTAGCAAAGAAATATTTTTCCTTGTGGCAAAAGATCAACATCTAAACACATTGTCCA
CGTCTAATTTGTTAGGGAGGGCRTGTTCTCTTCTGGAGGGCTAAGAGTTGGCATGGGATCTAAATGGATTCTCCAGAACACTTTCTCACACTTCTAAAGC
CTGAAAACAAATATTTGCTTTCCTGATCATCTTCATTGTTTCTTTTTGGGAAATTGAGTGCATTCCTCTTCTATAATAAAGGTTAAGAATAGCCTGTGAG
TTAGCAAAACTCCCAAAGGTTTATGAAGAAAGTTACATTTCAATACCTACAGGAAGTATTTGCATGTGTCTAAGGCTGGATTGTTGAAGGCCTTTGTGGG
AGTCAGTTGTCAGGAATTTGTAGGAATGACTGTGTTAGGAATCATTGGAGGAGAGGGAGTCAGAGGGATGGATCAGTATTTTCTCTGCAAACCTGATGAA
ACACTCCAGAGCCCGCACCTACAYGCGTGGGAACTGATAAGATGGGGGTTGTGTCCACTTCACTTGTATGGGATGTCGGTGCTTTGAAAAAATTCTATCA
TCAAAGAGTAGGTTTCTTAGTTCTGCAAATCTGGCACCTGGAGATGGCATTTTGAATCGGACGACCTTTTTAGTAAGGGTCACTTGCTGTTGGATCATCG
AAGGGGGTGCTGAGTCTTCATTTTTGTTCATCCAAATGGATATCATTTCAATTTAGCTCCATGAGTAAATCAATGGAAAAAAAAATCTCCTTTTAACATT
TCTCGGGTGAACACACGACAGCCCCCACATTTCATTTTAGGCCATGTTAGGGCATCACCTCATGGCCAGACATGGCCTGGCTGAGAAGGCGGCAGAGCAG
GCAGAGAGGCATAGGAAGCCGGAGCCCCGTGGAAGACATAGATGAGGAAATGGGCCACGTGCAAATATTTGTGTCACATATTTGGGGAGCAGGTTTCATG
TACCAACGGACACGGAGTCTGAAGTCACTCACTCTACGTAATTATCTGTATGGCTTTGGACGAGTTGCTTTTGATCTCTGATATCAGGTAGGCTTCTCTC
TAAATAAATGGAAATACTAACTGTCCCTGGCTCATAGARCTCTGTGAGGGTTAGGCAACAATGCTTACAAAGCTCTCCATGCAGAGMCTGGCAAATCGTA
ACCTCTCAATAAATGCTAGTCATTGATGTCACTTGAATAGTACTCGTTGGCTACAACTCACTGAAAAAGCCGGGCAGTTTGCAGGGCTGAGGACTTTGGA
GTAGACATCTCTGTTCTCGTCTGCTGCTTCCCATCATTTTGGTGGAAGTTGGTGTGTTSGTTGGTTAGCACTTATTCCAAATTGAATTGTATAATTTCAT
TATAGAAGTATCACGGTGGAAGAAGAGGGTGACTTACTGGTGTGGTCACCTAGCCAGGGAGGCCTATGAGCCTCATTCCTGTATAGGCTGCATTACTTTA
TGAACAAATGCAATTTGTGGCAAATGTGTCCCCTAAAAGATTGCTCTTGGATAGTGAGTAGGGAACAAGTGGCCTTTTGGAGCAGTTTGCTTTCATTTGT
GTTTCCAATGAGAGATTGAAGCTGTAATTGTTTGTGAGGAATGGCTGTATCCCAAGCACCGAGGTATCTGGAGATGACCTCTGCACTGTTCTGGGAGAGT
GGTTATAGCCTCTCCTGGGGGAGTGTTACTGGGAGACAGGGAAAGACAGGGCGTGTRGACGGCCATCTATTCCACCTGTGACATGAGGGCTCACCCCCTC
ATCTCCACCGCAGCAGCTCTCTGATAAATGTAGCTCTCTGATAAATGATTCTGTTCCTAGTGGTGTATTCACAGAGTCAGTGGATAAGGTGGCTGGCTTT
GCATTTGAGAAGTATTTGCTTTGTCCAACAGACACCAGATGAGTAACAATGGAAGTAGGCAGGGTTTGAAGAGGTATGTGTCTTTCCTTTTAGCCAAACC
TGCTCACTTCAGATCACCACTTTGTCCTGGGACGTTAGTCATGGGAACACTGCCGTCTTCAAAAGGGCTGTTCTCCTTCCCTGCTCTTGGTGTTCCAAGC
CTAATCTAACTTCCAGGGTTCATTCCTTTCATAACTCTACTTTTTGCATAAGTGGATTAATTCAGCATTTGCTGTGCAATGTCCCTGTAAGAAAGCAATC
TTAGAACATCTACTCTCTCACAATCATTGAATATATAGATATGCCATGATATTGTGTCTATTTTTTATATATCTCATAGTTAAGTCTACTTTAAGACAGG
AATCTCCTCTTTCTTTTAAATGAGCATGCATTTTAAAATAGAAAAACCTGAAAGCAAAACACGGTGTAACATGTGTCCCTGTGAGTATTATATTAGAGTA
CTAACCAATGCATTACAAATATCAATATGTGGGTGCTTTTTTTTTTCTTTACCATATATTGTTTATCAGAAACCTCTGTACCCTTTCCTTTAAAGGAGTC
AATATKCATTTGTATTCTGTGCTGACAACTATAAATTGATGGCTAGCAGTTATCAAATGAATGTTGATGAAAAGCAGCTACTTAACATTTTCATCCCAAC
ACCGAGTTTTGGAAGGAYGGATAATTTAGATCTGAGGGCCTCAACTATAAATAAACAGCAACTGCTTTCTAAATCCCACCTTTCTGTAGTTGAAGATTGT
GCTGCAAATCTGACAGATGATTTTTGAAAGAGAATGATGAATCCTTATTACCAAGATACTCTTAATCCCAAACAAGAGTCCTGGGTAATTTTACATATAC
TCTCAAGATTGATTGCACAGTTCTCCTCTGGCAGCTCACAAATGTTTGACTAGATCGGAAATGGCATTCGGGCATGATTAAAAAGATTCTWCTGGGCTTC
CCAGAAATTCTCAGTCCTGTGTCGTCAACAACCTAACTCATTGCCATTGCTGCGGGATAGACACCTCCCCCGTTTCCCATGATTAGCAACCATATACAAC
CTACAGGCTTCTGATAAATGATTGATTCTCAAAAAAAAAAAAATCGTTTAGGGGAACCCATAGCTCCAGCCAGTGTTTGTATGTCAAGGTATTATTATTT
ATCACAATGGATCAGTAAGCATTGATGACAACTGGCAAGGTATTGCTTCAGATATTTTATAACGGAGTTGTTAACATTATTTCCTTTAGATGGCTCYTTC
ATCTTTTCTGCATTATGAACTGATGCCCCAAAAGGTGGTATGAATGAAAGTCATSTGATGGTGATTAAAGTGCTCTTTAAATTTTTTTTTTTAATCAGTT
TAAGAATGCTTTCTCTTTTATTGGCAGTACCTGCTTGTTTACTATTGAGATTTCACTAATGTGCCTCAGTCTTATTCTGATGATATGTAGGCCGAAAAGC
TGGTGAGCCAAAAATGAGAACCTGTTACTAAACTGTCATCACATCTGATCATATTAAGATGTCACTCAGAGGTTGCCATTGGTACGGCTGAAAATTCTCC
AAGAGACCAAAGGTGTGGTGTGTRTGGGACCAACAAGATATTGTTACTGCTTAATTGTCCAGCAAGGGAGGAAAGTAGAGTGAGTACCCATGAGCACCAA
GCATGAATCTGAGAAGGAGAATTTGCCAAAGGTGGACGATTGATTTTTGGAGTAGAGAAGGTCGTCTTTGCTTTCGGGTGCCCCTCCTGTGTACTGTGTT
CTACAAAGCCAGAGCCACTTGTGATGGAATTTAGATGGTAAATCACCCCAAGCCTAGTGGCAAAGGAATCAAAGCCATCTCCTGATAAAAAGTTAGGCTT
TTCAAAAAGGTATGGCTCTCAGCATTGTAGCCAAATGTAGGTTGGCATGAAATGAAGCCAGTTGTAATTGCCTTTAGATTCCGTGGAAGGAAAAGGTAGG
TCCCCAGCTCCTGCAACAATGGCATTCTGAATCAATGGGACTGCAGAATTTCTTAGCAAAAATACCATTCCAGTAATGCAAGAGTGCAACGTGGTATCAT
TACAGTAGGTCATAGTGGCAAAATATTTTATCAGGTTAGGAAGAATTCTGCTTTTTGCTTTCCCAAACGGACTGCTTTGGTCTTTCCTCACGCTTGGCAG
AACAGTGAAAGGCCAGTCTGTCATGACGTTTGAATGCTGAATAGTATAACCATTGTGGCATAGAGGGCGGGAGGCTGGACTTGAAATGGGTGAGCTGGAT
TCTCCCACCACTCGGGAGTTAATGGCAAGTCACTTGGCCACTCTGGTCGTTTTGGCAGCTGCAAGGTAAAATGAAAATATATGACAGATATCTGGAAGTT
GATACAAAACACCATCTCCACCAGAACTCTAAGATTCCAGGCCAAAATAATACTTGGCTTGAGTTAGCTGGATGAGCATCTCAATTCTCCAATTTGTCTT
TAGAGGCACTTCTGCTTCCCTTTTCCCCACATGGGATGCAGAAGAGCCAGATAAACCCCTTGAAGTTGTTTAGATAAATGTGCCAGGTGCTAAGCTCAGG
GTTATTAGGAATAATAATTCAGTGAAAGGAAATTTGGATGACATGAACTCATTTCCATTAKACTTGAGCCACACAAATCAATGGGAAAAGAAACAGYTGA
ATCCAGSATAATATCTGGCTATTTGGAGTGGGCATGATAATGGAGGGAGATTGGGGAGGTAACAAACCAGCTACTATTAAGTTCAAGTCATGTCAGTTAT
TCAAATTCAGGACCAGTGGAACTTGTCCAGTATCATCAAGCAGCCAGTTATTATCAAAACCCAAGTCTTTGTCTCACTCACGGTCCACACCCCGCCCAGA
GTCGTATCACTTGACTGCATTTGACCATTCAGTTTTCAGACCAACTCCATTGTTACTAGATATCCTGACACTGAAGAAGCTAAAACCAAACARCAATGAC
AACAACAAACCCAAGTCTGCCTTATGGCASATTCTTCACRTCGTAACACCTTCCTTGGGACCCTATTTCTCAGTATGGACCTGACTCTCCCAGGGATCCT
AGAATGCAAGCATAGTGATTGCAAACCAGACCATTTGAGGGAAACTCCTCYAGTAAGCACCCTGCATGGTCACAATGTAAACCCTGCAGGGGCAGAAAAA
TGATAAGCTTTGGGTCGGGTCGGAAAGCCATTTCCCCCACAATCAAAGTTCCTTAGTGTTTTCCTTGTGGGGGCGAGCTTATCTTCAGTTACCTTTTCCG
GTCCTCTCTTGCAACCCCTCTCCCTCTCATCAGCTGAAAATTAGTGGATGCAGCTAGGGCTCTGAAACACATAAATAATCATAAGATGCCAGATAAACTG
TATTGGTTTTAAATTAGAGACGTGCCGACCATGTCTCCCTCTGAACAGCAGCCTATTATTTTTAATTATGGCTTGCAAAGCAAAGTGATTTCTTGCCCTC
TTTATAGCATCCCTGACAGTATTCTGTCAGTTTGGATGATATGATGCCTCATCACTGCACACGTCCCTAGCCACAGCCSCAACTGTTACTCAAAAGGTGA
ATGAAAGTGATCAGCTGCACTCTTTGCAACTTACATTTTGAAGTGGGCTGGGAGGAAATGTACCCCCTTACCTGTGGTCCCATTGTAAATCTGGGTCAAA
TATGACATTTAGAAAAAGGTTTTCATGGGATCTGGATGAATTAATGTGTTATGTGTTTGTGCTAAGTATGAATGTATGGTGAGGAGTGTGTGTGTGTGTG
TGTGTGTGCATTAAATGTTTTAACACAACATTGCCAACCCTTCCCCTAGCAGCACCGTGGGCAAAGCATAAAGGGATGATCTGGCAGCAGCCCCACTTGG
GTTTTCTACCTGATGGACCACAATTAAGAGTGGTTGGTTTGTCAGACAGAAGGTTCTACAAACGATTTGGTATCGAATTACATTATACATGGAGAAGTYG
AGGGGTTGGATGAATTTGTTCTTGCACGTTCAGAAGGATACCATCTTTTTCTCTGTGTGGAAGAGGCGCCTGCCACGACGTATTGATATGTGTATTTATT
TTCCAAGCCTGTCCCTGTATGAGGTGTCAAAAGTTACACCAGCTTTACAAGCGGAGTTTATGAACTCGTTTTTCCAGGATAGTCACATTATACTTTTTAC
AGTCATGTGCTTTCAGCCCAGTACCCTTTGCTATGCCAAGATCCAGCTGAAACTGAACCAGGTGGGGGAGGCCTGCTAATGCCCAGGCAGTCRAAATGAC
GCCATCTCATCACTCCTTYTCTTAAAATTTTTTTTTGTCTTTCTYCTTGGATTTCCAGCAACAGGGAGCTGCCACCACCGTGTACTGTGCTGCTGTCCCA
GAACTGGAGGGTCTGGGAGGGATGTACTTCAACAACTGCTGCCGCTGCATGCCCTCACCAGAAGCTCAGAGCGAAGAGACGGCCCGGACCCTGTGGGCGC
TCAGCGAGAGGCTGATCCAAGAACGGCTTGGCAGCCAGTCYGGCTAAGTGGAGCTCAGAGCGGATGGGCACACACACCCGCCCTGTGTGTGTCCCCTCAC
GCAAGTGCCAGGGCTGGGYCCCTTCCAAATGTCCCTCCAACACAGATCCGCAAGAGTAAAGGAAATAAGAGCAKTCACAACAGAGTGAAAAATCTTAAGT
ACCAATGGGAAGCAGGGAATTCCTGGGGTAAAGTATCACTTTTCTGGGGCTGGGCTAGGCATAGGTCTCTTTGCTTTCTGGTGSTGGCCTGTTTGAAAGT
AAAAACCTGSTTGGYGTGTAGGTTCCGTATCTCCCTGGAGAAGCACCAGCAATTCTCTTTCTTTTACTGTTATAGAATAGCCTGAGGTCCCCTCGTCCCA
TCCAGCTACCACCACGRCCACCACTGCAGCCRGGGGCTGGCCTTCTCCTACTTAGGGAAGAAAAAGCAAGTGTTCACTGCTCCTTGCTGCATTGATCCAG
GAGATAATTGTTTCATTCATCCTGACCAAGACTGAGCCAGCTTRGCAACTGCTGGGGAGACAAATCTCAGAACCTTGTCCCAGCCAGTGAGGATGACAGT
GACACCCAGAGGGAGTAGAATACGCAGAACTACCAGGTGGCAAAGTACTTGTCATAGACTCCTTTGCTAATGCTATRCAAAAAATTCTTTAGAGATTATA
ACAAATTTTTCAAATCATTCCTTAGATACCTTGAAAGGCAGGAAGGGAAGCGTATATACTTAAGAATACACAGGATATTTTGGGGGGCAGAGAATAAAAC
GTTAGTTAATCCCTTTGTCTGTCAATCACAGTCTCAGTTCTCTTGCTTTCACATTGTACTTAAACCTCCTGCTGTGCCTCGCATCCTAYGCTTAATAAAA
GAACATGCTTGAATATCATCACCTGAAGTTTGTATTGTTTCTTTAAATGTTTGTTTCAGTTTGTTTTTGTTTTTCATTTTTTAGAAAAGAAATCTAGAGG
AAAAATAAAGCGCTTCTAATAAAGCGCTTCTCGTAGATGCCAGGAAAACACGATTCTTGTTTCTTCTCTGAGTGAGTTTGTGTTTTGTTTTTGTGCTTTG
TGGCTGTCCGTGGGCCAAGTTGTCTCACGCGATTAGCATGCCAGCATATTTTCTGTTAAAGAAAGAAAGAAAAAAGAAAAATGACTATTGTTTCATTTCA
CCTTAAGATGTTTTGTTATTACTTACTTACAGTGAGTTATTTTAGTCCTCAATGGTCTGCTCCCCTGCAATTAGCAAGTACTTAGTGATTGATTAGCGGG
TATCTCTATGTTTGAGAATGGGAGCTGTGCAGAAGCTCTTATCTGCGCATCCCATCTCATGGACACCATGCTTTCCAGCCCGTTCCAGCAAGCACATGAG
AAAGTCCACTCTGGCAAGACGGAGAAAATGCTTCTGCTGAAATACCAGGAAGGTGTGGAGGCTGGGTGTCATTGTTCCCCCTCCTGATCATGGCAGCTTC
AGGCCAGACAATGTCTTGAACTTCTGTGCCTCTGCATCTGTGGTGCAGAGCAGTCGAACAAACAAACACCATTGCCCTCCAGTGGCCCATAGCCTTGCCA
CATCCTCCCATCTGGCTATAGTCTTCCTTACGTAATCCTTATTATCACAGGACCTTTGAAACTATGAATCAGATAATGTCACTTTTCAGACATTATTGTC
ATTTGCAAAAGCAGCCGTCAGAACTCCACTCTCAGAATCTACACCTGGAGGGGATCACCCCTCCCATATGACCTCTGACTTTGGCCATGTGACTGGCCTT
GGCCAATTTGGAAAGTGCTTTGCACTGGGGCTTGCCTTTCCTTGTTGATCTTTGGAACCCTGCAACTTCCATCATAGGGAACGGCTCCTGGGCTAGCCTG
CTGGATGATGAGAGACACGTAGTCACTCCCAGAACCGGCATCCAGCAGTTACTTAGTTAGACATGTAAGTGAGGCCATCCCAGACTATCCAGCCCCAGCT
GTGCCAATTCAGAGGAGAAGAAACTGCACATTTCACTCACAGCACTGCAAAAAGATAGTAAAAGTTTATTTTAAGCCACTAAGTTTCAGGATTACATGTT
ACTCAGCAAAAGCTAACTGATACAGCTTCTCAGCTCACTAAGGTTAATTTTTTTCTACCCTACTTCTCTTATAATTTGGTCTCCAGCTACCTCTCTAATC
TCAACTTCCAGCACTTTATCCACTAGAAGCCACTCTAGTCTTCCTCTGTTCCTCGAACATGCCAAGCACACTCCCAACTCAAGGGGTGCATATTTGCTGT
TTCCTCTGCTGAAATGCTTTCCTTCCAGAAACCAGCATGCCTTTCTTCCTCACTGATTTTTAGTCTCTGCTCACGTTATCCCTGTCTTCATGGTGTCACC
CCATTCTTATTCCCCTTCCCCTCTATTTTTTCTCCACAACACTTAATATTATTGTACACATTATGTGTCTATTTTTTCTGTCTACCCACTATAAGAAACT
CCATGAAATTTGTCTGTTTTCTTCACAACTTGGCCACAGTACCTTGAACTGCTCCTGTCACACAGCAAACTTACTGACTTAATAAATAACCACTGAAAGA
ATGATTCTGGGTGACTAGGCTTTATGTTCAGGAAAATAATTTCCATCATTGTGACAATGATCCCGAGCCACACACTGTGCTAAGCAGGCTACATTACCAC
TGTCGCCCGGGCTGCAGTGCAATGGCATGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCACGCGATTCTCCTGCCTCAGCCTACCAAATAGCTGG
GATTACAGGTACACACCACCACACCTGGCTAATTTTTCATATTTTAAGTAGAGACGGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTT
GTGATCTGCCCTCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAAT
CTCACTCTGTTGCCCAGTCTAGAGTGCAGTGGCGTGATTTTGGCTCACTGCAACCTCCCTCCCCGGTTCAAGCGATTCTCCTGCCCCATCCTTCAGAGTA
GCTGGGATTACAGGTGCCCACAACCACACCTGGCTAATCTTTGTATTTTCAGTCGAGATGGGTTTGACCATGTTGGCCAGGCTGGTCTCGAACTCCTGAC
CTCAGGTGATCCACCCACCTCAGCCCCCCAAAGTGCTGGGATTACAGGTGTGAGCTACCATGCTTGGCTATTACATCTGATTTCTAATATGACTACAGTC
TTGCCAGTTCACCCCTTCTCCCCATTTTACTGATGAAAAAGCTGAGGCCAAGAAGTGTCAATCTGCTGTTGTCCATACAGCTCATAAATTGATAGAGCTG
CAGTTCACACCCAGGAGTGTTTGATTTCAAGGTCATGCAGATTGCCTGCACCAGTGCCACTGCTCCTTCCATAAGTTGACTATATCCATTCTGGTAGGAT
GCACCATCTTTTTTCCTTTTAAACAGAGATGGGGTCTTGCTATGTTGACCAGGCTAGTCTGGAACTCCTGGCCTTAAGCAATCCTCCCATTACAGGCATG
AACCACTGTGCCTGGCCATGGATGCACCATCTTAAAATCTTAGGCTGATCAGAGAGGTGACTTTATGGGTCTGACTCTAGTTATGCTTCAAGCATTTGGT
GGAAATGAAAGTAAAGCCAGGAGAAAGAAGATATTGGCGTATCATCAGCCAAGGTGCTGTGCAAAATGTCAAAGAGAACCAAGAGAGGACATGCTGGCCT
CCTGCCTCCTGGCCGTGTCTAGGGCCTCTATGCTGACTTCCTCCTCTGTGGATCCTGCAGGGTTCACATCTGCAGGCTGACAAGATGAGGCCTGGGGGAG
CTTTCTAAGGGTAGCTGAGGATTCTCCCAAATCAAGATTTCCAAGTCATATAGACCAAGGCTTCATACATTCATTCATTTAACAAACATACCAAGTGCTA
CATCCTGGAAATTCAAGGTTTAAAGTAAACCCCTCCACAGCCTCTGCTATAAAGGAATTTACATCTTGGGTCTGTAGGAGTCCTCACAAAGCACAACGTC
CTACTCCACTTTATCAGAAGTTATCTAGGTTACTTGAAGATGAACTGAGGCCCCGTAACAGTAGCGATTGCCCCCTCATGCCCATTTCTCCCTGAACCCA
CTCAGTCAGACACTGTCAGTCCCCATGGGCCATTTTCTCTTGCCAGACACATCAATCTTATTTCCTTGGCTATTTCTGTGATAAATTCTTGACAGGTGAG
CAAGTGCATGGCATAATTCCTATTATTCCTATTTTAGCTTATTCTATGGCCAACCCTATTTCTCCCCATTTGTCATATGTGCACATCTGTATATGTATAT
GTCATGCACATCTGTATATGTATGTCGTGCACGTGTATATGTATATATGTCGTGCACATCTGTATATGTATACGTGTCATGTGCACATCTATATGTGTAT
ATGTACATGTATGCATGCACAAATATGTGTGCCATACATGTAAAACACAGGCATTATAGATGTATAACACATATATGTGGCACATGTGCATATGCACATA
TATGTATTGCATATATATGTGTATATTCACATATATGTATACAGATGATCCCTAACTCATGATGGTTTGACTTATGATTTTTGAACTTTACGATGATGTA
AAAGTGATATTCAGTAGAAACTGTGCTTAGAGTACCCATATGACTATTGTTTCTTCCTTTCAGTATAGCATTCAATAAATTACATGAGACATTCAACCCT
CTAATAAATCAGGCTAAGTGTTAAATGGTTGTGTTAAATGCCTTTGTCCAACTCTAGGTAAACTTAAGTTTTCTGAACACATTAAAGGTAGGCTGGGCTA
TGCTATGATGTTCAATACATTAGGTGTATTAAATGCATTTTTGACTTATATTTTCAACTTACTATGGGTTTAGACGGTAACCCCATAGTAAGTTGAGGAG
CCTCTGTGTACATATATGTGTGTATTTGTAGTATATGATTTATGTAATAATGATCCTACTCTATCTGCTACTTTTTTTTTTTTTTTTGAGATGGAGTCTC
GCTCTGTCACCCAGGCTGGAGTGCAGCGGCACGATCTTTGCTCACTGCCACAGCCACCTCCGGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCTGAATAG
CTGGAATTACAGGCACCCGCCACCATGCCTGGCTAATTTTTGTGTTTTTAGTAGAGATAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGCC
CTAAAGTGATCCAACTGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCCATCGCACCCGGTGTCATCTGCTACTTCTAATTTCAGATGCTATT
TACTGAGCATACTCTGTGCCAGTTGATGGGTTAGGCAAATCACTTTATGCTCATAGGATGAAAGTGAGTTTTAGAGAGAAAGTAACCTCTCCACAGTCTC
ATAGCTGGTAGACAGCAGAGTCAGGATGTGAAGCCAGCTCCATCTGCCTTGAAGCCCATGGGCCTTCCACTACACACTACTTTTATGTGTGGCCTATAGA
CTAGAAGCATATATACATTACATTCATACAATGGGTGAATTATCTGCAAGGGAAGACCAGTTGATTTCCTATTTAAGAATGAGCTCTGGCTCTTCTCCTG
ATACCGAAATGTCCAGTATAAACCTTACAAATCATTTTTGTACATGCCATTTATCCAGCAATATTGGCTTCAGCCTTGCCTACATTTCTCAATAGGCCCT
CTCTCCTGTTCTGACTGTAAGTTGGTCTGCACCTTCTCATGGACTCAACATCCCGAGTTCTTCGCGCTCATCTGATGCTACAGAATCCACCCAAACAGGA
AGAGTAGGCCAGTTTCTCTGCAGTCGTTTTCTTCCAAGTCCCTCTCTCTCCCTAAGTTTCTTTCAACTCCAAAGGTGGCCAGTTTCCACTTTCACACCTG
ATTAAGGGAGACCTTGCTGCAACTTATCAATAGGAAACAAGAAATTGAAGCATTCCCCAGCAATGACTGAAGGCTGTGGCTTGTGGTTTTGCTTTTTAAA
ATGGGGTTATGAGTGGTTTTGTTTTGAACTCCAGTGAAGGAGGCCTGATGACGTTCATCAAGGTCAACACTAGGCCAGAAAGACTTGGCTTGCAATATCA
CTGCCCATTCTGTTCACCAGCAGGCACCATTTTTAGAAGCTTATGTAAAAAAAAAAAAAAAAAAAAAAAAAAAAATCTAAAATAGCAATACCCTGTCTAT
TAACTCTTTGTGTCTTTCAATATATCCAAGCTAGTTTAGCTGAGGTCACTTTAGAATACTAAGTAATATCACAAATTATTATTCATATAATCACTGAACA
AACAGCTCTGAGTTGTATCTATAGATGTTATGTTATTGCCTTTCAAGGATTCATGGTATTTGGCTTCATGCCCCCCCTTTTTTTCCCTTCCCCCCTCAAA
GTCATCTTATTTCTCAAAGTTTTCCATTATTTTAATGGCTACCTCATATATCACATAGGTGATGGGCCATTATTTGGAAACCCATTCCCCTACTGTGGGA
CATTTAGGTTATTTCTAGTTTCTGTTAGAACTAATGGTTCAATTAGCATCTTTATGCATACAGCTTTTTCCTTCTATTAATTGATCTCCTCAGCATACCT
TTGTAGAGCGTAGAACTGGAGTTCCTTGATCCAACAGCTCCTACTGGCCTTTGCCACAGAGAGCCACAATGCTATCTGGAAGGGTTACACAGGCAGAACC
AGCATATTACTGTTTGTTTACAACCTTATCAACACAGGGTGTTCCCACTGATAACATTTTAAACTGATTTTCACATTGTCACAACCTGTAACTATTTATA
TATGGTATTCCCAAGCAG


SNP Information

Context             (SEQ ID NO:56978):
AGTTTCTTGCCTAAATTTGTGATCTCCCTTTGGCTTCATAAATAACGGTACATTTCATGAAGAGCTGGTCTCAGTCTACACAAGCCTAACTGAATGGGGT
R
CATAGGAAGGGTTGCATTGTGTGACAAGGTTTAAATCTAATTGTTTTAAGTCTTTGAGTTATTTGCTCACCAGGCTGTGCTTGATGGTTTTACTTTTTGT
Celera SNP ID:            hCV2373111
SNP Position Genomic:     31043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56979):
AGGGAGGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCGAAGTGGGTGGATCCTGAGGTCAAGAGATCGAGACCATTCTGGCCAA
Y
ATGGTGAAACTCCGTCTCTACTAAAAATATAAAAATGAGCTGGGTGTGGTGGCACGTGCCTGTGGTCCCTGCTACTCGGGAGGGTAAGGCGGGAGAATCA
Celera SNP ID:            hCV2373112
SNP Position Genomic:     16516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:56980):
ATGAGCGTTTTGCTTCGTGTACTCATTTATTTCTGAAAATAATGCAGCCCCTTGTAGGGCTTTCTGGCTAATTGAGTGGTGCCATCATTCATGCAATTGC
R
CAATTCACACACCAGGCTGCCACTTTGGCCCCTGCGTCACCTTCACCACCACCCAATGTGTCCTGCTCATCACTGAGGTTTGTCATTTTTACTCTGAGTC
Celera SNP ID:            hCV2842910
SNP Position Genomic:     564534
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4|G,1)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56981):
GGTGGATGAGCGTTTTGCTTCGTGTACTCATTTATTTCTGAAAATAATGCAGCCCCTTGTAGGGCTTTCTGGCTAATTGAGTGGTGCCATCATTCATGCA
R
TTGCACAATTCACACACCAGGCTGCCACTTTGGCCCCTGCGTCACCTTCACCACCACCCAATGTGTCCTGCTCATCACTGAGGTTTGTCATTTTTACTCT
Celera SNP ID:            hCV2842911
SNP Position Genomic:     564529
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56982):
AGGGTGCTTATGAGGAAGGTTTCCTACTCCTAAAAGAGATACACAGGAAGAGAGACCTTCTGCTTCCTCTGGACACTGGCGCAGCCTGGACTAGCAGTTG
S
CAGCTTGGGTTTGGACAACCTCCGACCTTAGTTGAAAATGACCCTGTGTAGGACAGAGGAGCAAGTGGAAAGAACCTGGGTGCATTGTGGCATTTTAGAG
Celera SNP ID:            hCV2842912
SNP Position Genomic:     561043
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,1)   cau(G,4)      total(G,4|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56983):
TCCCTAGTGTTGGATAGCTAGGCCATTTATAATTTGGACACTATTTTAAAAAATAACTCAGGCTTATTTTACTATTTATTTTTGCCTTACACTTTTTGTA
M
AAGTAATCAGAGCAGTAATAATAGATGACTCCCCAAAATCCTTTTGCCTCTAATGATTAGTCTAAGCCCATAATGCTGTGTTCCTTGCCAGTGATTGGTT
Celera SNP ID:            hCV2842913
SNP Position Genomic:     560801
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(C,1)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56984):
GAGAATCACTTGAACCCGAGAGGCAGGGGTTACAGTGAGTGCGGTGGCAGCTGGGACATTAACCAAGTTGTGAAAGGAGCCATGATGTTATTAGCTGAGT
Y
ATGTCACTGCACCTCCAGCCTGGGCAACAGAGTCAGACTCTGTCTCAAAAAAAAAAAAAAGTGTACTTTTTGAGGAAAGTTCTATTTTTCATTATTTTCC
Celera SNP ID:            hCV2852390
SNP Position Genomic:     531118
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56985):
AAGATTACACCATGTAAATGAATTGTATTTTATGTAACCATTCCCTAGTGTTGGATAGCTAGGCCATTTATAATTTGGACACTATTTTAAAAAATAACTC
R
GGCTTATTTTACTATTTATTTTTGCCTTACACTTTTTGTAAAAGTAATCAGAGCAGTAATAATAGATGACTCCCCAAAATCCTTTTGCCTCTAATGATTA
Celera SNP ID:            hCV2842914
SNP Position Genomic:     560760
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,2)   afr(A,3)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56986):
AAAATACAAAAATCAGCCAGGCATGGTGGCGCATGCTTGTAGTCCCAGCGACTTGAGAGGCTGAGGGATGAGAATCACTTGAACCCGAGAGGCAGGGGTT
R
CAGTGAGTGCGGTGGCAGCTGGGACATTAACCAAGTTGTGAAAGGAGCCATGATGTTATTAGCTGAGTCATGTCACTGCACCTCCAGCCTGGGCAACAGA
Celera SNP ID:            hCV2852391
SNP Position Genomic:     531049
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4|G,1)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56987):
TCGTAATATATAGGCACATAGATATATAATTAAAAAAACAAGAATTTCTCATGTCATTAAACATTGCTTGAAAAAACATACTAGTAATTTCCTAAGATTA
Y
ACCATGTAAATGAATTGTATTTTATGTAACCATTCCCTAGTGTTGGATAGCTAGGCCATTTATAATTTGGACACTATTTTAAAAAATAACTCAGGCTTAT
Celera SNP ID:            hCV2842915
SNP Position Genomic:     560667
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,1)   afr(C,3)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56988):
CAGTTCCTCCTAGTGGGCAGTTTGCTGCTGCTGTCTTACCTCCTCATCCTCACCCCTTTCACCTCTCCCCTGGTAACTGATTTATTTTTCCCTCTTGGAG
K
TGCTTATTCTTTTCTTCTTCCAGTTGCATCTCTCCCTCTACTTAGATACACATTTCCATTTTACTTCTATTTGGTAGTCTCAGAACTTGGCTTTTATTGG
Celera SNP ID:            hCV2852392
SNP Position Genomic:     528871
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,1)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56989):
ACTTGGTAAAGAAGCAGATATTTCTTTAATACGTGTATATATTAGACTGTGAATTTATTCATCTTCCTTATTCATCATATAAGTAAATTATATGATTGGA
Y
CCAGGCATAAAACGTGATTTGACTCCCCCTTGCCCATCACAGTTCTGGAGTTCACATATCATTTGTTACTTTGAAAAATGAACTTTTGTTATTTGATTAT
Celera SNP ID:            hCV2842916
SNP Position Genomic:     560288
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5)   afr(C,5)   his(T,1)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56990):
ATAGTGATAGTAAAAAGAACCATGTGAACTGGGCGTGGTGGCTCATGTCTGTAAAGCCAGCACTTCGGGAGTCCAAGGTAGGAGGGTCACTTGAGCCCAG
S
AATTGGAGACCAGCCTGGGCAACATCATGAGACCCCATCTGTATCCAAATAAAAGCAACAAAAAAATGAGACATGGGGGTGCATGTCTGTGGTCCCAGCT
Celera SNP ID:            hCV2852393
SNP Position Genomic:     527127
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(C,2|G,1)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56991):
AGGTTCTTCTGTGATAAAAATAGACTTGGTAAAGAAGCAGATATTTCTTTAATACGTGTATATATTAGACTGTGAATTTATTCATCTTCCTTATTCATCA
Y
ATAAGTAAATTATATGATTGGACCCAGGCATAAAACGTGATTTGACTCCCCCTTGCCCATCACAGTTCTGGAGTTCACATATCATTTGTTACTTTGAAAA
Celera SNP ID:            hCV2842917
SNP Position Genomic:     560265
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(T,2)   his(T,2)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56992):
GGTGCAGCACCTCACACCTGTAATTTCAACACGTAGGGAGGCTGAGGCAGGAGGATCTCCTGAAGCCCAGAATTCAAGACCAGGCTGGGCAGCATAGCAC
K
ACCCATCTCTACTATAAATTTAAAAATTAACTGGGTGTGGTGGTGCACATCTCTAGTCTCAGCTGCTTGGGACTACTAGAAAGGTAAGGCAAGAGAATCC
Celera SNP ID:            hCV2852395
SNP Position Genomic:     522901
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,1)   cau(T,2)   his(T,2)      total(G,1|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56993):
AGCTCCCTCCCTAATCTTGCTAGAAGGTAGGGCTAATGCATTGTCAATTCAGAAATAGGGGGTGTTCCTGAGTCTGGGGACACTCTAGTGAAATTCTATG
K
GTAAAATAATTTGTACAAGTTTATATTTTTAGCTAAATTAAAATACTCACATTCCCATTATTTTTTAGAGGTTGTAAGCTAAGTAATAACATTCTAGAAA
Celera SNP ID:            hCV2852396
SNP Position Genomic:     522530
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(T,3)   his(T,3)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56994):
TAAATAGATGCACAAAGCAGAGGGAATCAAGTAGAATAACATGGTTTATTTGTGTGTGTATTGTTCTGTTTTTGGTAAAATCATGCTTATCATATCTTCA
R
TGCATCATTTATTCTGAGTCCACATTGCTGCCTTTGAGCCGGGGCCCTGAGGTATCTCCTATACTCTGGCTGGGGTGAGGGCGGCAGGTCCTCTGGGCCA
Celera SNP ID:            hCV2852397
SNP Position Genomic:     521808
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56995):
CTGCTTTTGCCATCAAATGGTTATTGAAAGAACTATCTGTGTTGACAGCCTTTTGGGTTTCATACAGTCCTTTCCAGCTTGGGCAGTATAGATAAATAGA
Y
GCACAAAGCAGAGGGAATCAAGTAGAATAACATGGTTTATTTGTGTGTGTATTGTTCTGTTTTTGGTAAAATCATGCTTATCATATCTTCAATGCATCAT
Celera SNP ID:            hCV2852398
SNP Position Genomic:     521716
SNP Source:               Celera
Population(Allele,Count): cau(T,7)   afr(C,1)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56996):
CTACGTTGGCAGAGCTCAGTAGTCATGACAGTAACCATATGCCCACAAAGCCTAAAATATTTACTATCTGGCTCTTTGCAGAAAATGCGCTGAACCTTGC
R
TGTTGTGTCACCCCTGGAGGTAGCACCTTGTAATTAAGCACATGAATATCTCACATCAGAATGAATGAATATTCACACTCAGTGGGACAAACAACTTCTG
Celera SNP ID:            hCV2852399
SNP Position Genomic:     521504
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,5)   his(G,5)      total(G,10|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56997):
GTCTCCCGTCTGCAGAAGCATTGGCTGACATGGAAGATTTTTTTTTTTTTTAATACTTTTCTTTTTGCCGGCATCTGCGTAGAATTTTTTTTTTTTTTTT
T
GGTAGTTTCTTAATGGTCTTTAGCAAAGGAAGTAAGTGACACTGATCGGTGAAGGCAGACAGTAAGATTTATAATGTATTTGTGCTAGCTGATTGCCAAC
Celera SNP ID:            hCV11668502
SNP Position Genomic:     391049
SNP Source:               Celera
Population(Allele,Count): chn(T,7)   cau(-,1|T,7)   his(T,7)   total(T,21|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:56998):
GTATGTTGGTACGTTATTGAAGGTGATGCTAGCTGCTATAACAAATAAGCACGCCTGTGCACAGTTGCTCAAAGATAGTAGAAGTTTATTTCTTGTTTAT
R
TAAGATCCATAATGACTCTTGCCAATTAGCAGGCTGCTCTCTTCCAAGTGGTAACCCAGGGACTCAAGCTCTTTTCATCTTGTGGCTCAGCCGTCTGACA
Celera SNP ID:            hCV11668506
SNP Position Genomic:     377657
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,1|G,6)   cau(G,6)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:56999):
CCCAGCCTGGGGGAGGGTTTGTTAAAGAACTGTCTGTTTTATCACATGACCACAAGTTAAAATGTTGGGCAATGTCCCTGAATGATACCTTTTCATTAGT
R
ACTCACATGGACCCATAATCTCTGAATTTAACATGCTTTTCAGGAATGTGTTCATATTTTCCACCTATAAAACCTGTTTTAGTAATTTACTCCCTTGTAA
Celera SNP ID:            hCV11668507
SNP Position Genomic:     373182
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,1)   cau(A,7)   afr(A,7)      total(G,1|A,14) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57000):
GATCTCATGAGATTTATTCACTATCAAGGGAACAGCACAGGCAGATCCCATGGCTTTGACTCAGTTACCTCCCACTGGGTCCCTACCATGACACATGGGA
R
TTCTGGGAACTACAGTTCAAGATGAGATTTGGGTGGGGACACAGACAAATTGTATCATAGAATCATAAAAATTGCTATTTCTAAGGCAGATGAATAATCC
Celera SNP ID:            hCV11668509
SNP Position Genomic:     372766
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,1)   cau(G,7)   afr(G,7)   his(G,7)      total(G,21|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57001):
AAGAGACCAATTTAAAACATTCTAATGAGCATCATCTCATAATTTGGTAATCTCATGTAAAATGCTTATAATAGGGGTGTGTGTATGTTATATATATTTT
W
AAAATAAATTTGTAATCATGTATACAGTAGTCCCCCCTTATCCGTGGTGTTTCAGTTTTTTTTTTTTTGAGTCAGAGTATTACTCTGTTGCCCAGGCTGG
Celera SNP ID:            hCV2813490
SNP Position Genomic:     27972
SNP Source:               Celera
Population(Allele,Count): chn(T,8)   cau(A,1|T,8)   his(T,8)   total(A,1|T,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57002):
GAGACCATCCTGGCTAACAAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGCAGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGA
R
GCTGAGGCAGGAGAATGGCGTGAACCCGGGAAGTGGAGCTTGCAGTGAGCTGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGCGACAGAGCGAGA
Celera SNP ID:            hCV2813491
SNP Position Genomic:     26828
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   his(G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57003):
ACTGAGCAGGAAGGGCCAGGTGTTTTACGACTCTTTGGAGTTAGCAGCTTGTTGGCTCTGATTTGGTAAAAGCAACGGAAATGCCTTCAGCACGGTGAAC
R
TTACATGCAAATGTTGGGAAGTGTTAGGAAAGGGAATTTTTTTAGGCGAGGGAATTTCGCATTGAGGAAGGTCCCTGCTTCGTTTTTAGACACAGCCTAT
Celera SNP ID:            hCV2813492
SNP Position Genomic:     25621
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,9)   his(A,3)   total(G,9|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57004):
AGATCAAGAGGCCCGGAACCCCGCAGTCCTGAATGCTAACCAGTAGAGACAAGGGAGGAATTCATTTCTGTTTGTGTTCAACATAGACTGAGCAGGAAGG
R
CCAGGTGTTTTACGACTCTTTGGAGTTAGCAGCTTGTTGGCTCTGATTTGGTAAAAGCAACGGAAATGCCTTCAGCACGGTGAACGTTACATGCAAATGT
Celera SNP ID:            hCV2813493
SNP Position Genomic:     25535
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,8)   his(G,8)   total(G,16|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57005):
AGAAAGTGAGAGCTTTCGAAGAATCTGTGGTTAGAACTAAGAGGATTTTTCTTTCTCCTTTTTCTGCTGTTATTATCTCAAGGAGAGAGGGAAAAAAAAA
A
TCAGAGCAGGACATGAACAGTGCTTGCAAATTTTATTACCTCATTATAATTGATACCTGCTCTCTGAGCCAATAAAAGAAGCTATATTCAGCACTGGCTG
Celera SNP ID:            hCV11667568
SNP Position Genomic:     961448
SNP Source:               Celera
Population(Allele,Count): cau(-,3|A,3)   his(A,3)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57006):
AGCTGGTGACAAAACTCAAAGAAGATGTAACTAGAGAAAAGGTACTCAGTGCAGCCTCTGTGAGCTACCACCACTGCCTCTAGTTTTCCAGAAAACCACC
M
CTGACCACTCTCTGTACAGATGCGCTCAAGCGACCATAACCACCAGTGTTCCTAACAATGCGCCTATTGACTTCTTATTTCAATAGATATCCAGATTTAT
Celera SNP ID:            hCV15950159
SNP Position Genomic:     499523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57007):
CACCTTCCGCAGGAATGGCCTTTAACACTGTCACCTCACCCCATTCCCCTCCACTCTTGGGAAGCATACGTCTAGGTGAGTGGTGAAGATTTTTATTCTG
M
ATTTTTGAAATAATATCGTACTGCAAGTTCCAGGCAATCAAAAACTCACAAATCACTTGCACTCTGCAGCAGTGGTATCAGGTCTGAAGAAAGGAAGAGG
Celera SNP ID:            hCV2813497
SNP Position Genomic:     23801
SNP Source:               Celera
Population(Allele,Count): cau(A,6|C,1)   his(A,6)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57008):
GGAGGCACAGGAGGTAAAAATACATTGTTCAAGGGTCAATTATTGTGTTGTACAAGGTGTGAAATCTACCAGGTTGCCATCCGAGTGGAGAATTTTTTTA
S
TGTACTTGCCTATGAAGGTAAAGAAGCAAATGGAAATTTTTTTTTAAGAATTGAAAGGATTTTATTTCAAATCAACTCTCATACCTCATCCTGGGCTCCA
Celera SNP ID:            hCV2813498
SNP Position Genomic:     22805
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,3)   cau(C,2|G,3)   his(C,2)      total(G,6|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57009):
AAATAGTCACATCATGGAGAATGGGGTATCCATCCCCTCAAGAATTTATCCTTTGAGTGATAAACAATTCAGTTATACCCTTTTAGATATTTTACAATGT
R
CAATTAAGTTATTATTAACTATAATCAACTTGTTGTGCTATCAAATAGTAGGTCTTATTCTTTCTTTCTATCTTTTTTGTACCCATTAACCATCTGCACT
Celera SNP ID:            hCV2813499
SNP Position Genomic:     22546
SNP Source:               Celera
Population(Allele,Count): chn(A,5)   cau(A,5)   afr(A,5)   his(G,1)   total(G,1|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57010):
CCCCTGTTTCAAATGAATACAGATTCATTTTGTCACCTGTGTGAAATTGGTGTCCGTGTGCCTTGCTTCCTAGGCTGTCCACCATGACATCAGCCTGCCC
R
TGCAATGCTTGAGATTTGCCCTGTGACTCAACCCAAATCTAAAGCCCGAGTCGTATGAATCCAGGACACCTGCCTGCAAATGCATTTTTCATGTATAGGT
Celera SNP ID:            hCV2842921
SNP Position Genomic:     557915
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5|G,2)   afr(A,5)      total(G,2|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57011):
AATACAGATAATTTCTCTCTTAAATTCCATAAGCTGGAGACACTGCCCCTGTTTCAAATGAATACAGATTCATTTTGTCACCTGTGTGAAATTGGTGTCC
R
TGTGCCTTGCTTCCTAGGCTGTCCACCATGACATCAGCCTGCCCATGCAATGCTTGAGATTTGCCCTGTGACTCAACCCAAATCTAAAGCCCGAGTCGTA
Celera SNP ID:            hCV2842922
SNP Position Genomic:     557870
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,5)   afr(G,5)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57012):
GGGTATTACTCTGTTGCCCAGGCTGGTGTTGAACTCCTGGCCTCAAGCGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCTACT
K
CCCCAGGCTCTTCCCCCGTTTGTTAATACATACCATGACCTTGGCCTTTCCCACCTCTTAGGTTTTGCTTACTTTCCCTTCTGTCCTTTACTTATGACTC
Celera SNP ID:            hCV2842923
SNP Position Genomic:     557005
SNP Source:               Celera
Population(Allele,Count): cau(G,6|T,2)   his(G,6)   total(G,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57013):
ACACTGTTTACCAGATTGGAGTGCAGTGGTGCAATCCTAGCTTACTGCAGCCTGTAGGTCCCGGGCTCAAGCGATCTTCCCACCTCTGCCACTTGAATAG
S
TGGGACTACAGGTGGGTACCACCATACCCAGCTGTTGAAAAAAAAATGGTGGGGTATTACTCTGTTGCCCAGGCTGGTGTTGAACTCCTGGCCTCAAGCG
Celera SNP ID:            hCV2842924
SNP Position Genomic:     556853
SNP Source:               Celera
Population(Allele,Count): cau(C,7|G,2)   his(C,7)   total(G,2|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57014):
ATGCCGACCCACAAGCTCTGGAGCAGTCAACTCAGAATGGTCAGGACTTGGTCAGTAATGCCCATTTTTGCTAAATTTTGTCCCCACTTCCAACGCAGGA
Y
CAACCAGAGAAAGCCACATATGCTCCCCAAACCAATCATACAGGATGTCCTGGTCTAGGGAGCCCACCTCCGGCTTCCCCATGTCCACAGCCTCCAATCG
Celera SNP ID:            hCV2842925
SNP Position Genomic:     556048
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   afr(T,2)   his(C,5)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57015):
CCCACACTTACTCTTATTCACCCAGAACAGGTGTGTGCCACCTTGGAGAAGATGAAGCCAGAGAGAAAATCAGTCAGACAGGAATTATGTTGAAAGGTGA
M
TGAATACATTACCACCTCCCAGGAGTTGAATGAAAAACGGCTATTTCTTTAGGACGTCAAACCACCTTTTTCCTCTCTAATTCATGCATATCCCTATACA
Celera SNP ID:            hCV2842926
SNP Position Genomic:     555577
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|C,6)   afr(C,6)   his(C,6)      total(A,2|C,18) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57016):
CACTCAGTGATGGGAGTCTTCCTTATGAAGCTGTCCCAGCTCCATCTCTCAGGACTGAAATGTGGGTAAGACCATCACATTTTTCATCCCCCGCCCCCCG
S
CCCCAACATTGACTGGGCAGATATTCATACAATGGCGATTGTTTTGTCTGCCTGGATGGCTTTAACATAATACCATAGACTGGGCAGGTTAAACAGCAGA
Celera SNP ID:            hCV16290700
SNP Position Genomic:     473517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57017):
TGGATGTCTGAGGTATGCTAAGCCTAATCTCCATCTTCTCAAAGCTCCACTGCCACTGTCCCGTAAGGGTGGGCAGATTCCTCCCCATTCTATAAAATAA
Y
AGCTACCATTTCCTGAGGGCATACTGAGTGCTGACAGGCACATCAACATCAGACCATCACCTTCTTATACCTCAAAATAGTCTGCAGGGTGACTCAGAAG
Celera SNP ID:            hCV2842928
SNP Position Genomic:     555052
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,4|T,1)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57018):
GCAGACCATTGTTTAGCCCTCCTTCCACCTGGGAGACTGGCTGCTGGTTCTCATTGCTTCTGTGGGTCTCCAGGTTTCTATCATTACACAGATTAGCACA
Y
GGTTCCATGATCATGGACCCGTTCAGTACACAATGAAATCATTTGCAAAGCACCTTGGGGTCTGTTAGAGAAGGGAATGGATGTCTGAGGTATGCTAAGC
Celera SNP ID:            hCV2842929
SNP Position Genomic:     554874
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5|T,1)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57019):
ATTTGGAAACACGGCACAAGCAAAGGCTTGAAACGTGCTTTTATGTTGGTGCTTGCCCACTTGCTGTGCTACGAACCCTTTTACTTCTGGGTGCGAACAA
R
CCCAGGCTAGCCTTCTGGGCGATGAGAGACACAAGACCATGTTTCCATATTGCCCCAGCCAAGAGCCAACCTACAGACGCAACTGCCTTGCTGACAGCAG
Celera SNP ID:            hCV16290704
SNP Position Genomic:     471631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57020):
TTGACCAATGAGGCATTTGGAAACACGGCACAAGCAAAGGCTTGAAACGTGCTTTTATGTTGGTGCTTGCCCACTTGCTGTGCTACGAACCCTTTTACTT
Y
TGGGTGCGAACAAGCCCAGGCTAGCCTTCTGGGCGATGAGAGACACAAGACCATGTTTCCATATTGCCCCAGCCAAGAGCCAACCTACAGACGCAACTGC
Celera SNP ID:            hCV16290705
SNP Position Genomic:     471617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57021):
TAGTGATCTGATTCATTAATATCCCTTGTTATTAAGAACTGTCTGTATTTGTGTCCTGGTTGGCAGATATTAAGTCCACAGATACCAATAATTAATATCT
W
TGGTTGATTGTAAAAATGGCCACCAATTCTTCCCTGTCCCCTGCATATGTACATCCTTGCACTGTGAAATTGTAGATCTCGCCCTCCAAAGGTGAAGTTC
Celera SNP ID:            hCV16290706
SNP Position Genomic:     471376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57022):
GGAGTAGGAGGCTGCAGTAAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTTAACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAA
W
TCAAAATTGATGCAAAAAATATGATAACATTTCAAAATTTAAATCAAGACAAATTCAATATTATAGCAAAGGTTCAAGTAATGAACATGAATTTGTAATG
Celera SNP ID:            hCV11668514
SNP Position Genomic:     363280
SNP Source:               Celera
Population(Allele,Count): cau(A,9)   afr(T,1)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57023):
CAGCTACTCTGGATGCTGAGGCACGAGAATTGCTTGAACCTGGGAGTAGGAGGCTGCAGTAAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTTAACA
S
AGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAATCAAAATTGATGCAAAAAATATGATAACATTTCAAAATTTAAATCAAGACAAATTCAA
Celera SNP ID:            hCV11668516
SNP Position Genomic:     363238
SNP Source:               Celera
Population(Allele,Count): cau(G,9)   afr(C,1)   his(G,9)   total(G,18|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57024):
GTTTCTTGTAGCAGGTCATGAAGAGGAATGAAATACTATAATCACAGAGCTTGCAGAAGCTGCCTGGAGGACCAGTTAGTCTATTTTTTGTACATGAGGA
Y
ACTGAGGCTCAGAGAAAGTGAGGTCATTGAGTCACTTGAGTTCTTGTTGAGTGTTCTTTCCTGCTGAGGTGTCCTAGGTGCCTCTTAATGCCTTTAACAT
Celera SNP ID:            hCV15950160
SNP Position Genomic:     496214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57025):
CCTCCGAGTTCCACTGGCTGCATTCTCATCAGAACCCAGCTAAAACTCACGTCTCTCAAATTCCCTAAATAATAAATCCAAAGTTATTGAAGATATTGGG
W
TACTAAAAGTTGGCAGTGAGACTGGCCCCACTCATTTCTTTGTAACCCCTGTCCCTCTTTTTATTATTGAAGCTTGGGATGCACTTGGTAAGGCTAGGCA
Celera SNP ID:            hCV15775480
SNP Position Genomic:     82616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57026):
AGGCAAACATGTTGACACAAACGAGAGAATTTTAGGTTCTCTTTGTAGCTGTGGCTGGGCTGGGACAAGGACGATGGACAAAGTTATGGGGGTGCTAAAA
A
CCTCAGTAATGAAGATAAATGATATTCTAATCTAATATTTTAAAAAATCGAGGCTAGGTGTGGTGGCTCATGCCTGTGATTCCAGCATTTTGGGAGGCCA
Celera SNP ID:            hCV11668517
SNP Position Genomic:     362918
SNP Source:               Celera
Population(Allele,Count): cau(A,2)   afr(-,1)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57027):
ATTGACAGACCCATGGGTGTTAAGATCCTTCATGGCTACTGGGGAGAAATGACAGGCCTTTTGAAATCGTATCAGTGGTTTTCCCTGGGATCACTGGAAA
K
AATACCCCTGTTTGACAAGATATGACACATGCTCTGTTTTAATTCTGCATTTGACTAACAGAAAAGATTGGTGAAGATCAGACTCTGCTTTAAAGTTATT
Celera SNP ID:            hCV15775481
SNP Position Genomic:     95187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57028):
AAAACCTCATTTCTGCTAAAAATACAAAAATCAGCTGGTTGTGGTGGTACACCCCTGTAATAGCAGCTACTCAGGAGTCTGAGGCAGGAGAATCCCTTGA
R
CCCAGGAGGCAGAGATTGCAGTGAGCCCAGATCATGCCACTGCACTCCAGCGTGGGTGACAGAGCAAGACTCTGTCTCAGAAAGAGGAAAGAAATGGAAT
Celera SNP ID:            hCV2773301
SNP Position Genomic:     763986
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4)   afr(G,2)   his(A,4)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57029):
CATCACAAAACCTCATTTCTGCTAAAAATACAAAAATCAGCTGGTTGTGGTGGTACACCCCTGTAATAGCAGCTACTCAGGAGTCTGAGGCAGGAGAATC
Y
CTTGAACCCAGGAGGCAGAGATTGCAGTGAGCCCAGATCATGCCACTGCACTCCAGCGTGGGTGACAGAGCAAGACTCTGTCTCAGAAAGAGGAAAGAAA
Celera SNP ID:            hCV2773302
SNP Position Genomic:     763980
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|T,3)   afr(C,3)   his(T,3)      total(C,6|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57030):
GTGGATAGCTTGAGGTCAAGAGTTCGAGACCAGCCTGGCCAACATCACAAAACCTCATTTCTGCTAAAAATACAAAAATCAGCTGGTTGTGGTGGTACAC
Y
CCTGTAATAGCAGCTACTCAGGAGTCTGAGGCAGGAGAATCCCTTGAACCCAGGAGGCAGAGATTGCAGTGAGCCCAGATCATGCCACTGCACTCCAGCG
Celera SNP ID:            hCV2773303
SNP Position Genomic:     763938
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5|T,1)   afr(C,5)   his(C,5)      total(C,15|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57031):
AGGCAAGTAGGGGCACCGAAAGCTTTAAAGCAGGGAGTAACAGGCTTGTAGTGACTTTTATCGAAGTAGAAGTTGAATAGATCTAGCCTGGCACAGTGGC
Y
CACGCCTGTAATCGCAGCACTTTGGTTGGCTGAGGCGGGTGGATAGCTTGAGGTCAAGAGTTCGAGACCAGCCTGGCCAACATCACAAAACCTCATTTCT
Celera SNP ID:            hCV2773304
SNP Position Genomic:     763799
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   afr(C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57032):
GTTGGAATGTTGCAGGGAGGCTGGGCTAAGGTGTTCTGTTCCTGTCTCTGGTTCAAAGGAAAGGAATAGCCTAGACCTAAAGGATTCTGTCTGGTAGCTG
K
TTGCTCTTCGCGCCTGTGCTTTGAATGGTGAATACCCTCGGCGGGAGGCAGGCACCTGATGCCACTGCCCCCGCCCCACCTGCCCCCGCCCCGTTTCTCA
Celera SNP ID:            hCV15912200
SNP Position Genomic:     459184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57033):
AAATCAGTATGATTCATCATAAATAAGTCAGGACTATGATTGACAGTCTACCTAGAAAGATTAGGAAAGTGGGGACCACCCCCCAATTATTACCTTTGTT
Y
TTACAAGTGTGTTTAAATCTCTTTCTGTTAATTTACAATTTGAAAGGTGGGTGAGGAGAAGAGTTTGAAAAATAGATTACTGTCTTCATTAATACAGGTT
Celera SNP ID:            hCV2773305
SNP Position Genomic:     762532
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,6)   afr(C,6)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57034):
GTGCTTGCTTTGGGAGTTCTTGTTAACCCTGACAATTCTTGTCAAATATCTTACTCCTGGGCTGTGCTGGGGATGGCAGCAGAGTGGGGTGGTTGGATGG
R
AAGGCGGGAAAGAGCTAGCTTGGAGATGATACGCTTTTCCATCCTTGAATAACTTGGGAAAAAGTCAGGAGTGTGGAATGAAGAATTGGAATATAAAGGC
Celera SNP ID:            hCV15912201
SNP Position Genomic:     458338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57035):
TTATTTAAAAAAATCAGTATGATTCATCATAAATAAGTCAGGACTATGATTGACAGTCTACCTAGAAAGATTAGGAAAGTGGGGACCACCCCCCAATTAT
W
ACCTTTGTTCTTACAAGTGTGTTTAAATCTCTTTCTGTTAATTTACAATTTGAAAGGTGGGTGAGGAGAAGAGTTTGAAAAATAGATTACTGTCTTCATT
Celera SNP ID:            hCV2773306
SNP Position Genomic:     762522
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(T,6)   afr(T,6)   total(A,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57036):
CTGTCCTTACTGTTTCCCTTGGGCACGCTGTTCACCCCTTAGGACATACTACAGTAACCTTTTCCCACCACCGTGGGAGGACTGTGATTTTGTAAATGTC
Y
TCTGATCTCTCCTCTTTGCAGGCGCAGTGACATTTATGCACACTGGCTTTGAGGCTCATTGATCTTTTGTTTTATTTGCCTTTGCTGAGGCAGGGGCAGG
Celera SNP ID:            hCV15912202
SNP Position Genomic:     370588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57037):
TTCACTGAACCAAGAGATGCCATAAGCAGTCCTTGTTGTAATAATTTAATAGCGAAGCCCTCAGCAATAGATCTTCAGGTAAAATGGATGCTGACTGTCT
R
TCTGTCATATGAAGATTCAGACATTGATGTAATTTAAAATACTTGTAGTATCATGGATACAAACATATGCCTTTTTATTTCTGAAGGAATTTCCAGAATG
Celera SNP ID:            hCV2773308
SNP Position Genomic:     761298
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   afr(G,1)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57038):
GGTGACAGGCTTCTTTCTTCTCATCATTAAATGACATACTGGAGATCAGTCAGATGAACTGCAATTTATATCTTGCCCCCACCCAGTGTTGATTTGCCCG
R
GGTCATACAGATAATTAGTAATGTCTTATCTCAGTTTTCTTATCTGCAAAATGAGAATACCTGATGGGGTTAGTGTGGGAGTTTAATGTCTGTAAGGTGT
Celera SNP ID:            hCV2773309
SNP Position Genomic:     760429
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(G,5)   his(A,1)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57039):
AATCTGGAGTCCACCATCCTGGGTCTAGCTGGGGACATCCTTGAATCAGCCTCTGGGAATCACTGAACCAACATGAGTCACTTGCTACTGTGAGATCTCA
R
AACACATGGATCAGGACAGAGGGCAGGGCTGTTTCCCCAAGGAAATCCAAATGCTTTACAGGAAGGGGAGTGGATGCTGGCCCGGCCCAGGCGAGGATGA
Celera SNP ID:            hCV2842930
SNP Position Genomic:     554659
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,2)   his(G,2)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57040):
TAAATTTTATTTTTCAGTTTACTTGGTTTTGCCTCCTTCTAGAACTAGAACATAAGCTCTCTGAAGTCAGGGACCATGCCTAGAATCGCCTTCCTTTTAT
Y
TCCCATCAGCCGAAACTAACTCTGCTGTGTCACGCTGTGTTAGGCTGTGTTGGCTGTGAGTAAGAGAAGTCTCACCCAACTAGCTGAAGCGAGGTGGGTT
Celera SNP ID:            hCV2842931
SNP Position Genomic:     554269
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,3)   afr(C,2)   his(C,2)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57041):
TGATTTTGATTTGGTTGTTTTTGGTAGAGATGATATCTTGCTCTATTGCCAGGCTGATCTCGGACTCCTGGGCTCCATCAATCCTCTTGCTTCCCAAAGT
R
CTGGGATTATAGGTGTGAGCCAGTACACTTGGCCTTTTGGCACCATTATTCTGCCTGCCATCCTGTCCTAACTAAAGAAAGTAAGGTCCCTCCATCCTCC
Celera SNP ID:            hCV2842932
SNP Position Genomic:     553717
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57042):
ATCTGCCATGCCAAATAACACCTTTGCAGGTTTCAGGGTAGAGCATGGATGCCTTTTGATTTTGATTTGGTTGTTTTTGGTAGAGATGATATCTTGCTCT
R
TTGCCAGGCTGATCTCGGACTCCTGGGCTCCATCAATCCTCTTGCTTCCCAAAGTGCTGGGATTATAGGTGTGAGCCAGTACACTTGGCCTTTTGGCACC
Celera SNP ID:            hCV2842933
SNP Position Genomic:     553661
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57043):
CCAGGTTCAAATGATTTTCCTGCCTCAGCCTCCCAAGTACCTGGGATTACAGGAGCCTGCCACCACGCCTGGCTAATTTTTTGTACTTTTAGTAGAGATG
R
GGTTGCACCATGTTTACCAGGCTGGTCTGGAACTCCTGAACTCAAGTGATCTGCCCGCCTTTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTG
Celera SNP ID:            hCV2842935
SNP Position Genomic:     552091
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57044):
TACCCTGGAACTTAAAAGTTGGTGAAAGAAAGAAGGGGCCGGGCATGGTGGCTCACGCCTGTAATCCTAACATTTTGGGAGGTCGAGGCAGGCAGATTGC
Y
TGAGCTCAGGAGTTGAATACCAGCCTGGGCAACACGGTGAAACCCCGACTCTACTAAAATACAAAAAATTAGCCGGGCGTGGCAGTGTGTGCCTGTAATC
Celera SNP ID:            hCV16014275
SNP Position Genomic:     548157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57045):
CCCAAGAGGATCCGACAGCTCTGGAACTTGTAATATTTGCAGCATGTCTTGCCCTCTTAATGTCTAAGAAGTCAAAAAAGGACACGTATGCCTAGAAAAC
R
TGAATAATTATCATCTATCAAATTTTTACCATGTGCCAAGCATAGTCATATTTGGCTAACGAAAACAACAAAATCAACCGTGACAAGGTTTTATTAGTAA
Celera SNP ID:            hCV2842936
SNP Position Genomic:     550679
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3)   afr(G,1)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57046):
CTGGAATCCTACTGCCAAATTATGGCACTCATCCTACTTGGTGTAAAATCCTGGGATGATAGCTTATAATAGTAATAATAAGACCTGCTTCCCGGTGATT
M
TCTAAGGATTAAATCAGTTCATGGAGATGAAATACTTAAACTGTGCCTGGCACAAAGTAAATGTTAGTGCTACTATTATCCCTGCTGCTGTTAACCCCAA
Celera SNP ID:            hCV2842937
SNP Position Genomic:     550405
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,2)   cau(A,2|C,2)   afr(A,2)      total(A,4|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57047):
GGTGAAAGCATGCAAGCTAGGAGTTAAGATCTTTAACTCAGGGAAGACCCTGTCTATGGAAGTGCTGAGCTCTTCAGTGTCATCACAGAAAAGCATGAGC
S
CCTCCCTGGTACGGAGTCATCACATCCCATAGCTGAGCGACGTCGGAGCTCCACGATGGGGAGGTGACACATAGTCAGTTAATTACATAAAGAGAACTTG
Celera SNP ID:            hCV16290710
SNP Position Genomic:     470435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57048):
AACATGTAAATCAGCTCATTCATTCTGCTGGCCCTAAATAGGTAGAAGGAAGGGAAACATGAAAGGGAGCCTTCATCTGTTTTCCTGCAGATGCCCGGCT
Y
GTGGTTAACCCAAGCAAGAGGTAGTTAAACGGCCCCGCAGATTGCCAGTGACTCCGGGAATGCCTAGGTTTATGTATGGATTAACACAGTGATAGACCCT
Celera SNP ID:            hCV2842938
SNP Position Genomic:     549071
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,4|T,2)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57049):
CTTACAAGTTAGATTCACACTCCAGGAATGTATCTGTTCCCACATCCCCTGATGCTGAGCATACCAGAGTTAAGGGAGGCAAGCAAGGCCCCTAACCTCC
Y
AGGTTCATGGAGGTACCCATTCTGCACTTGTTGACCTTGAGCTTGAGGACTCCATAAATGTCTGCCCTTGGCATTGCACGTGCCTCCCTCTGGGCTGACC
Celera SNP ID:            hCV16290711
SNP Position Genomic:     470093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57050):
TACGTTGATCTGTACAGCAAACCACCATGGCACACATTTACCTATGTAACAAACCTACACATCCTGCACATTGTACCCTGGAACTTAAAAGTTGGTGAAA
R
AAAGAAGGGGCCGGGCATGGTGGCTCACGCCTGTAATCCTAACATTTTGGGAGGTCGAGGCAGGCAGATTGCCTGAGCTCAGGAGTTGAATACCAGCCTG
Celera SNP ID:            hCV16014279
SNP Position Genomic:     548084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57051):
TTTTCGTTGCTTACAAGTTAGATTCACACTCCAGGAATGTATCTGTTCCCACATCCCCTGATGCTGAGCATACCAGAGTTAAGGGAGGCAAGCAAGGCCC
Y
TAACCTCCCAGGTTCATGGAGGTACCCATTCTGCACTTGTTGACCTTGAGCTTGAGGACTCCATAAATGTCTGCCCTTGGCATTGCACGTGCCTCCCTCT
Celera SNP ID:            hCV16290712
SNP Position Genomic:     470084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57052):
CATTTTCCCCAGACCTAACCTCGATTTGTGCTCCAGGTCTGAGCAGAAATGTTATTCCCTCCAGAAAGCCTTCCCTGGATGTTGAGGGATGAAGTTGTAG
S
CCCCTCCCGAATGCGTCCTCAGAACTCGCTGGTTCTCGTCCTCGCCCTCAGCATACTTGCTCATTGTTTGTTTCCATCTCTATCATCTCTGTGAGCCCTT
Celera SNP ID:            hCV15950170
SNP Position Genomic:     441394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57053):
GGGGTTGGGGGAGGGAGAGCATCAGGAAGAATAGCTAATGGATGTTGGGCTTAATACCTAGGCGATGGGTTGATAGGTGCAGCAAACCACCATGGCACAG
R
TTTACCTATGTAACAAACCTGCACATCCTGCACATGTACCCTGGAACTTAAATTTTTTTAAAAAATGTTTTTATTGTGATTTTCACAGGAAAGAAGGGGC
Celera SNP ID:            hCV15775491
SNP Position Genomic:     460838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57054):
AAGGATTATTCCTCCCCTTTTATCAAGAGCCGTAAGTCCTTGGAAAATGCAAAGAGGGGGAAAAAGAAGAAAAACAGCAACGAGTTTATTGGAGAGTTAA
M
ACTTAAATACTCCAGTACATTGAGTGTGACATGCCTGTGTAGGAGACTGTCTGTCCCCCAAATAATTGACAATTTCTCTCCATCTAACAAGAAAATATAT
Celera SNP ID:            hCV16290719
SNP Position Genomic:     549483
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57055):
AGCCTCAAACTAGAACGTGGCTTTTGAACGGTGAACATTCCACAAACATTTAATACAGAGATGGCTGTGGGGTGGGGGCTGGGGGCTGGGGGCCTGGAAG
R
GGAGAAGGGGCACCAGAAGGAGAAATGGGAGGAAAGGGCGAGTGAGATAGCAAAGAGAACTCAGAAAGTAATAAAGCCCTGCAGTAATCAGAGGGCTGAG
Celera SNP ID:            hCV6359
SNP Position Genomic:     157240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57056):
TTTGTTCCCTCTGCATATAGCACTTTCTCAAAAAGTAGTTTGGTGACAGGCTTCTTTCTTCTCATCATTAAATGACATACTGGAGATCAGTCAGATGAAC
W
GCAATTTATATCTTGCCCCCACCCAGTGTTGATTTGCCCGGGGTCATACAGATAATTAGTAATGTCTTATCTCAGTTTTCTTATCTGCAAAATGAGAATA
Celera SNP ID:            hCV2773310
SNP Position Genomic:     760388
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   afr(T,5)   his(A,1)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57057):
AGATGGCCTCTAGTGACCCTCACTTCCTGGGTTTTACATTGCAGTATATTTCTCTTCTACTCTGAACAGGATTGTCCTGTGTAACCTACAGGGGGAAGTG
R
TAGCGCATGACCTCTGAAGCTAGGTGACAAAATACATTTGGACTTCTGCTTTGCTTCTCTTGGATCACTCCTTGTGGCAGAAGCTAGACACCATGTTGCG
Celera SNP ID:            hCV2773312
SNP Position Genomic:     759730
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|G,1)   afr(A,4)   his(A,4)   total(G,1|A,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57058):
TCTCTGTGAGCCCTTTGAGGATGGATGTGTGTCCATCTTGTTAACAGTTGGCTCCCCAGTAACCAGTACAGTGCCAGATACAGAGTAGTAACCCTACATT
S
TAGCGTAGGCAAATATTCTAGTATTTGCCAAAACTAGAGGATGAATGAGTGATGGGTAAGAGAGTTCTCAGAAAAATGGATATAAACAATATTGTAAATC
Celera SNP ID:            hCV15775498
SNP Position Genomic:     441580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57059):
CCCACTAAGAGTAGGTCTTTCTGTTAGGTACAGACTCTACAATAACCAAATTCACAGAAACTGATGTGTAAACCCAGGGTCATAAACAATAATTTTCAAC
M
GGAGCTATAATTATCACATAGTTTGAAATGCTCTTGTTAATCTGAGTAGGAAGAGAGGATGAGAATTTTCTTATAGGTGGAACTACAGAAAAAGAGTTTA
Celera SNP ID:            hCV2773314
SNP Position Genomic:     758708
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   his(C,1)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57060):
TGTGTGAGTGTGTGTGTGTAAAATACCAAAGAGAAAACAATAAAAAAATAGAGAAAATAATAATAACTAGCCAATGTGTCATCACTCCAGACAACAGCCA
Y
GGTCAGTATTTGGTTAACCCATTCAGATTTTCCCCTATGAATGAGTTTTTTCGCCTCCATAATATTAGTTATAATACATTGATACTACATCCCGAGTGTT
Celera SNP ID:            hCV2773315
SNP Position Genomic:     757680
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57061):
CTGCGCCACCACACCTGCCACAAAATTTCTTTGTTATGGCTGAATAATGTTTCTGTGTGAGTGTGTGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTGT
K
TTTGAATAATACTCCTATGAACATTGTACCAATATCTATTCAGATCTCTGCTTTCGATTCTTCTGCATATATACCTAGGAGTGAAATTGCTGCGTCGTTT
Celera SNP ID:            hCV16211967
SNP Position Genomic:     674952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|GT,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57062):
AGTAACTCAACATTAACTGTGTACCCCTCCTAGTTTGGCCACTGTTCTGCCCAAACATACAAGAGTCAATGTAAGTCTCTGGGAGCACTCACCTTTGGGC
R
TGTTGCTACAGAGTCACTCATTCCTAGAAATTGCGAAGTCACGAAGTTGTCAAAAAACACAACGACAGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCA
Celera SNP ID:            hCV2773317
SNP Position Genomic:     756643
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(A,1)   his(G,5)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57063):
AACCGTGGAGGCAGAGGCTGCAGAGAGCTGAGATCATGCCACTGTACTCTAGCCTGGGTGACAGAGCGAGACTGTATCTCAAAAAAAAAAAAAAAAAAAA
A
TCTTTCAGGGATCCAGGCTGACCTCAGCACCATCTCTTACATGTGCCTCTGTTCTTTCCCTAATATAAGGGAGCATGGGGGATTAGTGTCTGGCTTAAGC
Celera SNP ID:            hCV15773899
SNP Position Genomic:     120647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|AA,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57064):
GATTCCCAAAATAGACGGGAGTTACACAGAGACCTTTTTTTTTTTAACCTCCTCTGAGATTTTTTTTAACCTCCTCTGAGATTCTGTATTTCCTTAATGA
S
CCGAAAAATCTATTTAGCCCAGTTTTTATCCTTGCAGATAAGTTAGTACGCTTCTTTTTCTGCTGGTTGTGATCATATTTCTATTTAGGGGTAAAGGTGC
Celera SNP ID:            hCV2773318
SNP Position Genomic:     756287
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(C,1)   his(G,5)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57065):
GTGTTGGGAGGAAACAGGGTGCAGAGTGGGAAGGGCAGGAGTATCTAAGTGGCCAAATTTAGCCTAATTAACAGATTTGCCTAGGGCTGACCCTGAAGCA
R
AAAGCAAAGCCTAGATCAGTCTGCTCTCCTCCTACCAACAGGGTAATGATGAGGTTGAACCACCAGTTCTCAATGCCATACATGAGATTCCCAAAATAGA
Celera SNP ID:            hCV2773319
SNP Position Genomic:     756101
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   afr(G,6)   his(A,1|G,6)   total(G,18|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57066):
TGCCGATAAACATCATCTGGACGGAATGAAGCTGAGGGCCAATAGTTTAGAGGCTCAGCACCCGACTGGAGAGAGAGAGAGAGAGAGAGAGAGAGTGTGT
A
TGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCGTGCATGTGTATACGCTGGTGTTTAGGTGGGCTTGAGAAAAGTGCTGACTTTGTGAACGAGGAGGAGGG
Celera SNP ID:            hCV2842941
SNP Position Genomic:     542279
SNP Source:               Celera
Population(Allele,Count): cau(-,5|A,1)   his(-,5)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57067):
CACCACTGCTCGCATTCCCATGTTGGAGTTTTCCCTTTGGGGTTCTTATGCCATTTTAAAGACTCTGAAAACAGGAAGACTTTTTCTCTTGGGTATTTTT
W
TTTTTTTTTCCTCTGCAAGGGATGGGGTCATAAGACATTGGTGAGGTTAGGCCTTCCTTTGTCTCCCAGGAGCACACTTGATAGCAATGTAGGGTGAATT
Celera SNP ID:            hCV16014280
SNP Position Genomic:     536667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57068):
CTGCCGATAAACATCATCTGGACGGAATGAAGCTGAGGGCCAATAGTTTAGAGGCTCAGCACCCGACTGGAGAGAGAGAGAGAGAGAGAGAGAGAGTGTG
W
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCGTGCATGTGTATACGCTGGTGTTTAGGTGGGCTTGAGAAAAGTGCTGACTTTGTGAACGAGGAGGAGG
Celera SNP ID:            hCV2842942
SNP Position Genomic:     542278
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,4)   his(T,4)   total(A,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57069):
TTCTGCCGATAAACATCATCTGGACGGAATGAAGCTGAGGGCCAATAGTTTAGAGGCTCAGCACCCGACTGGAGAGAGAGAGAGAGAGAGAGAGAGAGTG
W
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCGTGCATGTGTATACGCTGGTGTTTAGGTGGGCTTGAGAAAAGTGCTGACTTTGTGAACGAGGAGGA
Celera SNP ID:            hCV2842943
SNP Position Genomic:     542276
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,4)   his(T,4)   total(A,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57070):
GATTCTGCCGATAAACATCATCTGGACGGAATGAAGCTGAGGGCCAATAGTTTAGAGGCTCAGCACCCGACTGGAGAGAGAGAGAGAGAGAGAGAGAGAG
W
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCGTGCATGTGTATACGCTGGTGTTTAGGTGGGCTTGAGAAAAGTGCTGACTTTGTGAACGAGGAG
Celera SNP ID:            hCV2842944
SNP Position Genomic:     542274
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,4)   his(T,4)   total(A,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57071):
TGAGGCAGGAGAATCATTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTGTT
W
AAAAAAAAAAAAAAAAAAGTTCTAAATCAGTGGATTCTGCCGATAAACATCATCTGGACGGAATGAAGCTGAGGGCCAATAGTTTAGAGGCTCAGCACCC
Celera SNP ID:            hCV2842945
SNP Position Genomic:     542141
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4|T,1)      total(A,4|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57072):
GGAATGCCATAGTGGTGAGCTAAGAGCAGGCAGTTAGTTAAGTGTATGACAAGTATCTCATTATAAATGGATGCTGAAATGTCCAAGTGTGGAAATGATA
Y
GCTTCAGCTCTTATTTTTAAGTCATCCTTATCTCTTTCACTTATTCCCTCATTCAGGCACCAAAAATGCTGTTTGACTGGGAGAGCAAGTGGAGCTGTTC
Celera SNP ID:            hCV2842946
SNP Position Genomic:     541746
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57073):
GTGTTTTTTTTTTTTTTTTTAGATTTCTCATTGCTGAGAACAGTTCCAGCTCTGCTGACCAAAGGCTGAGTGTCCTTTTATTAGTCTGAGCCCCTAGAGA
R
ACCAAAGAGGCAACCCTCGAGCCAACTGACAGCCAGCTGTGGGGTTGGACCCTGTTTTTCATACAGTGAGCACTCTTGAACCCAGAGAAGGTGCAGGTTG
Celera SNP ID:            hCV2842947
SNP Position Genomic:     541429
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4|G,1)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57074):
ATCGCAGACACGGAAAAAAGGATTATTCCTCCCCTTTTATCAAGAGCCGTAAGTCCTTGGAAAATGCAAAGAGGGGGAAAAAGAAGAAAAACAGCAACGA
R
TTTATTGGAGAGTTAACACTTAAATACTCCAGTACATTGAGTGTGACATGCCTGTGTAGGAGACTGTCTGTCCCCCAAATAATTGACAATTTCTCTCCAT
Celera SNP ID:            hCV16290720
SNP Position Genomic:     549466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57075):
CCACTTCCTGGAGGACTGTCAGTGCTAGCTAATGAGACTGTAAAAGTGGACTATCTGCCCAGGAGACAGTGAGGAAGGAAATCAGGGGTCACCCTTACAG
S
GAAGGGCTCTTTGCAGAGAGAGTGCCTGATACGTAGCAGCTGGTACTTCTCCATCTTGAAACTGTCCTTCCTGGTTTTGTCTAATTTGTCATCATGGGAT
Celera SNP ID:            hCV11668532
SNP Position Genomic:     336086
SNP Source:               Celera
Population(Allele,Count): cau(G,8)   afr(C,1)   his(G,8)   total(G,16|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57076):
CTGCGGGGGCCTAGGCCAAAGATATGCCCGAGTAGAAAATCTGACACCAGCTTCCCAGTTTTCTCTTCTGCTCTCTTTGGCTGCAACGCTTTTACCATGG
S
TAAACCATTAGGCCGGCTCTGCAGGGAGGGCAAGACCACAGCAGCTCAGTATTTCCTGCTCAGGGAAAAAGGCCAGGTCTTTTGTTGGTGGAAATCCACT
Celera SNP ID:            hCV11438505
SNP Position Genomic:     810051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57077):
TCCCAGGGTAAAGAGTCACCGCTGATTAATTACCTCAAGGACAAGGGGACGGTGACTTTTTCTCTTGTATCCAGCAGCGCCACGCGGGGCGGGCGGGAGA
S
GCAAGGCTAAGAGGTGGATGAAAGGCTAGGGTTAAGGCATTTCACAATGTCAGGCATCTTGTTAGACTGCGGCTTTCCAGGCCTTCCCCCGTGACTGCTG
Celera SNP ID:            hCV11438506
SNP Position Genomic:     809853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57078):
CTTCCATTTGAAAGGAGCTTTAAACACCTTTGGTGGCAGCTAAGAGTGTCAAAATGGAGGGATGTGTAGGGGACCTAGGGCCTGGGTAACATTGTCCCAG
S
CCAGGGCCTATTGTGTTGTGTGTGTCTCCACTTTCCAGCCTTTGGGAACGCAGAGGGGGACCTCTGTAATTGGTACCAGCATCCCTTCCTTGCAGGGTCC
Celera SNP ID:            hCV16290727
SNP Position Genomic:     545247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57079):
CGTCCCTCCGCACCTCACTGTTGGGCTGATCAATCCCATTCCCACTCCATTATGTGTGTATTTCTAAGTGGCAGATTTGCCTTAGGAAATGGAAGAAGGG
S
ATGAAATAGTGACCAACACAAATTACTGGGTTGGCGGGAGTTGAGAGCTGGCAAAATCGTCTTGGAGAAGGAAATGGTGCAGATTTCAGAGCTGGCAGAC
Celera SNP ID:            hCV11438508
SNP Position Genomic:     809418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57080):
CTGGAGTCATGTGTTTGCTTCTGGAAGGGAGGCAAGAGGCATTCAACCTCCTGTTAATTTGGTTGCTCCTTCAGATACGCTCTTCATGGTACAGCCCTGA
S
CTGCATCATTTAAAGACCAATTGTTAAGGACCAATCTGAGGGCCTGTGCATTAGTTAAAACTCCTTATCTGGTCATAGAGGGTGGTGTGGTTTGGACGCG
Celera SNP ID:            hCV16290728
SNP Position Genomic:     544293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57081):
ATATGATGACTAGTTGGTGAGTTGATCTTGTAAGACTTTTACAGATACCCAGAACGGCTCTACTTCTTCATATTCCACTTTTTAGTTTTAAAAGTTTAAG
K
AGATCTCTGTGATCCCTGAAGAATTGTGTGCAAAGCAGCATTAAGACGAAAATCTTTTATATTTGTGTTGTAGCTTGGAAAACTAGCGCGTGGTCTGTTT
Celera SNP ID:            hCV11438509
SNP Position Genomic:     807141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57082):
ATCATCTCCGTCCACATCAATGTCGTCATCGTCCTTATGAAAAGCCCTGGGCATCATTTTGCCCTTGAGCTGGATGTCCATGTTGGAAAAACAGCTAGTG
R
AAGGCGTGCCCAAATCTCAGAAGTTGGCGTTTCCTTGCAGATATCATTGGTGGCCATTGGAGGGGAAAAAGATGCTTTGGAAACCAGGACACAGAGAAAA
Celera SNP ID:            hCV16290729
SNP Position Genomic:     543239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57083):
TTGCCACTTCCTGGAGGACTGTCAGTGCTAGCTAATGAGACTGTAAAAGTGGACTATCTGCCCAGGAGACAGTGAGGAAGGAAATCAGGGGTCACCCTTA
Y
AGGGAAGGGCTCTTTGCAGAGAGAGTGCCTGATACGTAGCAGCTGGTACTTCTCCATCTTGAAACTGTCCTTCCTGGTTTTGTCTAATTTGTCATCATGG
Celera SNP ID:            hCV11668538
SNP Position Genomic:     336083
SNP Source:               Celera
Population(Allele,Count): cau(C,8)   afr(T,1)   his(C,8)   total(C,16|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57084):
CTCAGACAGATAAGAAGCTGGCCCACCCTTGCCACTTCCTGGAGGACTGTCAGTGCTAGCTAATGAGACTGTAAAAGTGGACTATCTGCCCAGGAGACAG
Y
GAGGAAGGAAATCAGGGGTCACCCTTACAGGGAAGGGCTCTTTGCAGAGAGAGTGCCTGATACGTAGCAGCTGGTACTTCTCCATCTTGAAACTGTCCTT
Celera SNP ID:            hCV11668539
SNP Position Genomic:     336055
SNP Source:               Celera
Population(Allele,Count): cau(T,9)   afr(C,1)   his(T,9)   total(C,1|T,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57085):
CTGTGGAACTATGAGCCAATTAAACCTCTTTTCTTTATAAATTACCCAGTCTCAGGTAATTCTTTATAGCAATGCAAGAATGGCCTAATACATGGTCTCT
S
AGCAGGATTATTGTAGAGGGGACTGATGTTGAAGAATGGAAAAGAAGGCAGTGTCAGAGAATGCTGAAGAGTGTGGATCTTAAAGTCCAACCTCAAGGCC
Celera SNP ID:            hCV11667594
SNP Position Genomic:     952168
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,2|G,4)   his(C,2)      total(G,4|C,4) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57086):
GAGTGTTTATCAGCTCACACCAAGGAAGAGAGAGCTCAGGAGCGACTGGGCATGAGGTGGAGTGAGCACTGTGAATGCTGGGGAATGGAAAGTCCTTTAT
S
TGGTGTTGCCTAAGGGTACGGGGAACCTGGCCTGGTGTTGGGAGGAAACAGGGTGCAGAGTGGGAAGGGCAGGAGTATCTAAGTGGCCAAATTTAGCCTA
Celera SNP ID:            hCV2773320
SNP Position Genomic:     755966
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,5)   afr(G,5)   his(G,5)   total(G,15|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57087):
ATGGAAAGGATCTATTCCTAGAAAGGATCCATTCCTAGAAGAGGAATTCTGTACAATATGGCCAACTTTCTCTCTGTTGAGGTTGAACCATTTGACACAT
Y
TCGCTAGCATTGGGAAAATCCCCATTTTCCTCACTATCCATTTTTCTTCCTCTCTTTCCTTCCTCTTTTCCCTTCTTCCTCTTTTTTTTCTTTTCTTTCC
Celera SNP ID:            hCV16107727
SNP Position Genomic:     212345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57088):
GAAAACAAGTAAGAGTAACTTTGTACACCGTGGGCTCCCAATCAGTGCTGCTTTTCGTTGTTGATGTTGTTGTTAATGTTGAAAAAAATCTTCAAGTCAT
R
TTTGCCCCCACAGACCTTCCCAGACAGTCTAACTAAATGCACTGTATTTGCTAACTGTTGGAACTTGGCTTTTGGACTAGACCAGCACCTCGAGAAAGAA
Celera SNP ID:            hCV2773321
SNP Position Genomic:     755742
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   afr(A,1)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57089):
TTTTCAAAACAATACCAAGAAGCTGGTCTTATTTAGATCTAGTCTTATATCATTGAAATATCATTAGAATTCTTATGGAAAATATGTTTTGGCTGTTTAG
R
GGATGCTAGGGGCTGGAAGTGAGAAGGTTTCAACACCATATGGGTATGTGAGTATAGATGCTTACAAGAAGAAGGGTAGACTTAGCCAAAACTAATTTGG
Celera SNP ID:            hCV11514270
SNP Position Genomic:     100419
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57090):
TTCTCCATTTATATTGGTATGGATACGTGAATATTTAGTTTATTCTGTAGGTCATAATACGACAGTATTGTGATATATTTTGGTGCTCAAATTGTTCCGG
S
TTTGGCCCATAGGAGGTCTTTCGGGCAGGTTCCTGCACCCTTTTGACATGCCCCGTTCTTTTTTGAGCACTTTCTTATTTTTTGGCACTGTAAGAGGCTT
Celera SNP ID:            hCV2773323
SNP Position Genomic:     754416
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,1)   his(C,3)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57091):
GGTTAACGTGGTATCTGCCAGATTTCTCCACTGTAAAGGATCATTTTTTTCCTTTGTAATTAATAAATATATTGGGGGAGGTACTTTGGGACTACTTCTC
W
AATTTTCATCCATTAATTTTAGCATCCCTCTGGGGATCTTGCCTGCAATGATTAATACTGTGGTATTCTCATGACTGATATTGTCTTTCTGTCATGCCTT
Celera SNP ID:            hCV2773324
SNP Position Genomic:     754171
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,1)   his(A,2)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57092):
AGATGGGTTTATGCCTAATTGTGCCACCAGTTTTTCCCATAAAATAATTCATTTGGAAGGGGTGGCCTAATCCAGTCTGAACCAATTCTAAGATGGTAGC
R
TGGATGCGGGAGGCACTGCACAGGATGGAAAGCATGGAGTTTGGAATCTGGCACAAGTGGATTTGAATTCAGACTTAGTCATCAGGAGCTGTGGGACCTT
Celera SNP ID:            hCV2773325
SNP Position Genomic:     753430
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,3)   afr(G,3)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57093):
AAGACATGGAGCTGAGAGTGAATATGAGAGTGAATATTCTGCACGTCCATTTTAATGACCTTGTGCCTCATTTTCCCCATTTAAGGTAGATGGGTTTATG
Y
CTAATTGTGCCACCAGTTTTTCCCATAAAATAATTCATTTGGAAGGGGTGGCCTAATCCAGTCTGAACCAATTCTAAGATGGTAGCGTGGATGCGGGAGG
Celera SNP ID:            hCV2773326
SNP Position Genomic:     753343
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,1)   afr(C,3)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57094):
TGAAAGGCTGTCTCCAACCATGCGGACACAGCGCAGTGAAGCGGTTGGAAAAGCTACAGACAAATGGAAAACCTTCATTCCAAAGGGTCGTTGTCTCCTC
Y
TATTTAATAGCCCTGCATTCATGCACTTTTTTTTATCTTGCTGTCTTTTTTTTTTTTTTTAATCAAATACCAAAGTACTTCTATGGACTGGTCTTAAAAA
Celera SNP ID:            hCV2773328
SNP Position Genomic:     752510
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,2)   afr(C,6)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57095):
TTACTTTTTGGGCTGGTAAAGCCACCTAGGTCAGTGCCATGTCCAACCCAATCTGGAAAACGATTATTGTGGTGCCTGTTTTGTTGACTTAACAAAGCCA
R
TCGCCCATTCCTATGCTGCTAAGATGCGAATGCCCAGCTCAGGGGATGAGATTACTGTCAGCTTTGCCTAAGCTTTGGGCATTAGCACCCTCCATATGCA
Celera SNP ID:            hCV2773329
SNP Position Genomic:     750825
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57096):
CGACTTCTGATTTTCACGTGACTCACTGCTTAGTTGTCTGGGTTTGTTTTAATTCCTTTCCCCCTGCTGACAGTTCTTTAAGTGGATGTCTATAAAGGTT
G
GGGCATTCGCTCTTACAACAATAGGAAAAGAAAGGAGGAAGGAATAAAAAAGAGAGAAAAGGAATAAAAAAAAGTTTGGTTTAGATGTCTGATTTCTCTG
Celera SNP ID:            hCV11514278
SNP Position Genomic:     107724
SNP Source:               Celera
Population(Allele,Count): chn(-,4)   cau(-,4)   afr(G,1)   total(G,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57097):
AATTCCAGTTCTCTCATATTAAGTGACAAGTTGCAGAATGCCCCTGTCTTTCTGAGCTGTTTTTATATCTGTACAATGGGGTTAATACTACTAGTATTTG
M
TTCCAGGGATTGTTTTGGAGGGGAGTGAGGAATAAATGATATAATTCACTAAAACACGTAGAATAGTATTTGACACAGAGTAGGTCAGCATGCCCAAAGT
Celera SNP ID:            hCV2842950
SNP Position Genomic:     539685
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,5)   cau(A,5|C,3)   afr(C,3)   his(C,3)      total(A,10|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57098):
CTGAACCACACTTGTTATCTTTCATTTTATGATGAGAACCACCTTAAGAGGTGTGAGGTGACATCTCACTGTGGTTTCAATTTGCATTTTCCTGAGAATT
W
GTGACAGTGAGCCCCTTTTCATACACTTGGCTATTTGTATGTTTTCTTTGGAGAATTGTCTATTTGGTTCCTTTGCTTGTTTTTAAAATCTGTGGTTTTT
Celera SNP ID:            hCV349210
SNP Position Genomic:     65933
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|T,3)   total(A,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57099):
CAAACCACCAAACCTGGGTTGGCGTTTCAGTGCCTGACACAGTTGTATTCCTAAGACATAGTTGGGACCAGACCTCAAGAAAATAGCCAACAAATACTGG
S
TGAATGAACGAAAGAGGCCATATGCAGTCAGCCCCCCTCTCTCTGGGTTCTACATATGTAGATTTAACTAATGACAGATTAAAAGCATTCGAACAAACGG
Celera SNP ID:            hCV2842952
SNP Position Genomic:     538273
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(C,4|G,2)   afr(C,4)   his(C,4)   total(G,4|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57100):
CTCATTTCTGGGGGACTAATTAAATGCATCCTGTGTGACCCCACTGGAAGAGGACATTTGGAATCTTGTACCTGGTTTTCTCCAGACTTCGCCTCATTCA
S
CATTTCCCTGTGCTCATTTTGCCTTGCATCCTTTTGCTGTGATAAATCTCAGCCATGAGTGTGACCGTATGCTGAGTCTTATGAGTCTTCCTTGCAAACC
Celera SNP ID:            hCV2842953
SNP Position Genomic:     538078
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(C,3|G,2)   afr(C,3)   his(C,3)   total(G,4|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57101):
AGAAATAGAAAATTAATTGAGTTTTAGTTTTTAGAAAATTATCTAAGAAGTAGATTTTTAGAAATAGAAAATTAACGTAGATCACAGAAAATTATCCAAA
S
TCAGTTAATTTTCCCTTTTCCAGCAACTGTATTTGTCCTCCCCACTTCTCTTCCCTGCCTTCTTTTTTTCTCCTTAGCACTTACAATGTCTCACTCATGT
Celera SNP ID:            hCV2842954
SNP Position Genomic:     537371
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,2)   cau(C,2|G,2)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57102):
AACTATATTTTCTTCCTTTTTTTGTATGCCTCCCCATGCAAGGATAATTACACAGAATAAGCACTGAGATGCCTGTTGATGGATTTATTCCAGCAATTTT
W
TTTTTTTAGCTCTCTTTGTCTGGAACTTTGCAAAATAAACACCATGGTCACTCCGTGCTTTGTGAGTGACGTGCTAGAATGGAATTTCACTGTTTTAAAT
Celera SNP ID:            hCV2842956
SNP Position Genomic:     536053
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57103):
AGACAGTGTTAGTCAACATCAAATGTCTGGATCAAGAGAGGCAAGAATCCCGTGGATTTGGCGTTGGCCAGAACTTGTCTGGAATCTTGTTTTCTGCCTT
S
AGTGTCACCTGTTGAGAGCTCTGTTGACAAACTGGCATTTGTCCTTGGGAGAGTAGCCTCAGGACCAGGGGTGAAGAGTTCAGTAAACTGTGTTTAACCC
Celera SNP ID:            hCV2842957
SNP Position Genomic:     535366
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(C,1)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57104):
TTTGTTTTAAATAAAAATCATACTAGAGCAGTAGGCAGTGTGGGTGAGTTCTCCCACTTTACATTTTACTTTGCATAATTTAGGCCCCTTTCAGGCCACT
Y
TTCCCCCTGTGCCCCAGGTGTGTTTGCTACCATACCTCCCCAGGGGATAGCCCTCCAAACCTGATTGGCCACCTAGTCTGGTCTTAAAGTCCCAAAGGGA
Celera SNP ID:            hCV2842958
SNP Position Genomic:     534641
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4)   afr(T,1)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57105):
ATGTTAGTTATTATTTTAATATTACAGCATCTGTGGAAACAGTGGGTTTATATTTCAGCGTCCTGAGAAACACTCATCCTGAACAACGGGAACATTGGCC
R
CATCCGCCATTGTCAATTTTAAATAAAAGATATGATGACTAGTTGGTGAGTTGATCTTGTAAGACTTTTACAGATACCCAGAACGGCTCTACTTCTTCAT
Celera SNP ID:            hCV11438510
SNP Position Genomic:     807011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57106):
TGTGTCTTCTCCCCCATTTATTTATTTAATCATTTATTTATATCACGGTACACTCATGGACATTTATTTTATGCTTTATGTTATAATCCTATACTACTTT
R
TTTATTTTGTTGCTTAAATTTTTCCAGATGGAACAATTTGGTCTTCAAAAGTTGCTGCTGTTGGCTCCTGTGTTCTTGTGATGTACACACATCATGGTGT
Celera SNP ID:            hCV2842959
SNP Position Genomic:     534300
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   afr(A,5)   his(G,1)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57107):
AAAATAGAGTCAGCAGCATCTAAAGAGTTGTTTTACTACCTCTGGAGCTGAGAGGTGAACATAGTCGTTTTTCAGGAAGCCGTTTCTGGCTCAGACAGAT
M
AGAAGCTGGCCCACCCTTGCCACTTCCTGGAGGACTGTCAGTGCTAGCTAATGAGACTGTAAAAGTGGACTATCTGCCCAGGAGACAGTGAGGAAGGAAA
Celera SNP ID:            hCV11668540
SNP Position Genomic:     335966
SNP Source:               Celera
Population(Allele,Count): cau(A,8)   afr(C,1)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57108):
AATGTCAATATTTTAATGTACTAGTAAGGGAAAATTCTATTAAGACATAATTGTTTGGCTTTGTCAGTTTGTCAACTTGAAAATAGAGTCAGCAGCATCT
R
AAGAGTTGTTTTACTACCTCTGGAGCTGAGAGGTGAACATAGTCGTTTTTCAGGAAGCCGTTTCTGGCTCAGACAGATAAGAAGCTGGCCCACCCTTGCC
Celera SNP ID:            hCV11668543
SNP Position Genomic:     335887
SNP Source:               Celera
Population(Allele,Count): cau(A,8)   afr(G,1)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57109):
CGGGTGGGGAGGGCAGACAAGTTGCTCATCCTCTCTGCGCCTCAGTTTCTTCATCTACAAAATGAAGATGTTGGTTATTTCTTTATTCAAGGGTTGTTGA
R
AGGATGAAGTGCTAAAAATGCTTGACCAGCATTCACACAGGCACTAAGACGGTGAGTACTCACTACTTAGCGCTGTCAACATCATCTCCGTCCACATCAA
Celera SNP ID:            hCV16290736
SNP Position Genomic:     543058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57110):
CTGCAGCTGTCGCAGTTGGAACATGTGACGAAAGCCAGTTGATGTGACAACTGCTGGGTGGGAGGGACAGGCTTGGGGGCGGGGCTGGGAGGGCTCCTTC
Y
CTTCCTGACCCAGGGATGGTCTTTACTTCTCCCTGGCACCTGTAGACCTGTCTTTCTTGTGTTTCAGATTTGCCATACGGATGGGAACAAGAAACTGATG
Celera SNP ID:            hCV11517904
SNP Position Genomic:     16071
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5|T,2)   his(C,5)      total(C,10|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57111):
AGTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGTTTCAGAAAACAAAAACCCAAAAAGCAAAACCCCCACAGTATATATAGAAATACAAGATTTGTG
R
GGGGCGGGGGTCCCCCTACAAAGCAAGTGTTACTGTCCACAGAGCAAATGTCAATATTTTAATGTACTAGTAAGGGAAAATTCTATTAAGACATAATTGT
Celera SNP ID:            hCV11668544
SNP Position Genomic:     335740
SNP Source:               Celera
Population(Allele,Count): cau(A,8)   afr(G,1)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57112):
TGGGCAAGAAGGGAAGGAGAATTGTGAAACATGCACAATTAGAAGTCGTGCACCTGGGTTCATATCCTGGCTGGGCCACTTACTTTCTGGCGGGTGGGGA
R
GGCAGACAAGTTGCTCATCCTCTCTGCGCCTCAGTTTCTTCATCTACAAAATGAAGATGTTGGTTATTTCTTTATTCAAGGGTTGTTGAGAGGATGAAGT
Celera SNP ID:            hCV16290737
SNP Position Genomic:     542968
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57113):
TTGGGCGATTCAGTTTTACCTGTGTCCTCTCTATACCATAGTTTATGACAAGGGGTTTTCTGTGGCTGGTCTCCAAGGCCTCTTCCAATCTTGACATTCT
R
TGATCCTGTAAGTCTTTGAATAATGGCCCAGGATGCCAACAAGAAGTCACCAATGAGAGTTCAGGTGTTCTGTTGGAAATCTTTGTAAAATCACAGAGAA
Celera SNP ID:            hCV16290738
SNP Position Genomic:     534904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57114):
TGTGTATCTGTAATCTTAGCAGAAGTGACTACTTTTAACATCGCTGGAACTTTTAACATCGCTAGATTTATTCTTCTATTTTCCCCGCACACGCATCCTT
A
AAAAAAAAAAGTAGGGAGGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCGAAGTGGGTGGATCCTGAGGTCAAGAGATCGAGAC
Celera SNP ID:            hCV11517909
SNP Position Genomic:     16403
SNP Source:               Celera
Population(Allele,Count): cau(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57115):
GAATACAAGGGGGGATAAAGATAGACTTAAAATACGCTCTCTAGAAAAAAGTAAGAAATATGGAAAGAAATCTAATTTAGAAAAATGCACGCACCCACAG
R
CACGCTTCACAGGACTGGCAGGTGGAGAGGATGTTTGTTAACAGGGCTGGCTATTTTACTTTAAGTGCTGCAAACATTGCACTAATGTTTGGGTCTTTGC
Celera SNP ID:            hCV2773331
SNP Position Genomic:     750391
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   afr(A,1)   his(G,7)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57116):
GAGTGAGACCCTATCTCAAATAAAAATAAAAATAGAATACAAGGGGGGATAAAGATAGACTTAAAATACGCTCTCTAGAAAAAAGTAAGAAATATGGAAA
K
AAATCTAATTTAGAAAAATGCACGCACCCACAGGCACGCTTCACAGGACTGGCAGGTGGAGAGGATGTTTGTTAACAGGGCTGGCTATTTTACTTTAAGT
Celera SNP ID:            hCV2773332
SNP Position Genomic:     750357
SNP Source:               Celera
Population(Allele,Count): cau(G,5|T,3)   afr(G,5)   his(T,3)   total(G,10|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57117):
GTAAAAAAAATCATCTCACACCTGTAGCCGCAGCTACTCAGGAGGCTGAGGCAGTAGATTCATTTGAGCCCAGGAGGCGGAGGTTGCAGTCAACCAAGAT
Y
ACGCCACTGCACACCAGCCGGGGGTGACAGAGTGAGACCCTATCTCAAATAAAAATAAAAATAGAATACAAGGGGGGATAAAGATAGACTTAAAATACGC
Celera SNP ID:            hCV2773333
SNP Position Genomic:     750227
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,3)   afr(C,5)   his(T,3)   total(C,10|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57118):
AAACAAACAGCTTGTTTGTGGTTCGTCCTGAAATCCTCCCTGCTCACAAAACAGCCAGCTACTTGGTTTTCTAAAAGACGTAATTTTGCAGGCAGACTTC
R
TAGAGCCATTCTGTGCAGAAGAAGGGAAGGGAGAAGCTGTTTGTTTTACCTGTAGTATGAAGATATTCTTTGCGCTGTTAGAACTGAGCTCATTAATTCT
Celera SNP ID:            hCV2945878
SNP Position Genomic:     1111138
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,3|G,4)   afr(G,4)   his(G,4)      total(G,12|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57119):
TTTGGGAGGTCAAGGCGGATGGATTGCTGGAGCTCAGGAGTTTGAGAACATCCAGGGAAACATAGTGTGACCCCATTTCTACAAGAAGTAAAAAAAATCA
W
CTCACACCTGTAGCCGCAGCTACTCAGGAGGCTGAGGCAGTAGATTCATTTGAGCCCAGGAGGCGGAGGTTGCAGTCAACCAAGATCACGCCACTGCACA
Celera SNP ID:            hCV2773334
SNP Position Genomic:     750140
SNP Source:               Celera
Population(Allele,Count): cau(A,7|T,5)   afr(A,7)   his(A,7)   total(A,21|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57120):
GGAAAGGATCTAAGATGATTGGAAACAGTGTACATAGAATACAAGAGGAGTTGGGCATGCTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCAAGG
Y
GGATGGATTGCTGGAGCTCAGGAGTTTGAGAACATCCAGGGAAACATAGTGTGACCCCATTTCTACAAGAAGTAAAAAAAATCATCTCACACCTGTAGCC
Celera SNP ID:            hCV2773335
SNP Position Genomic:     750055
SNP Source:               Celera
Population(Allele,Count): cau(C,7|T,2)   afr(C,7|T,2)   total(C,14|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57121):
GAATGGAAGGAGTGTGTTTAAAATGTGGGTGGTTTTGTCAATTCCTATTGGGAATGCTTGTATTTGAATGTATATACATATGCATATTTATGTGTAATGT
C
TATTTCATGCTAAATAGGGAGTGATCAAGTTGAAAAATAAGAAATGCTGTTTGAATTTTTAAAATAGGTTATAAATTATAACATGAAAATCAAATACAAT
Celera SNP ID:            hCV11514282
SNP Position Genomic:     116450
SNP Source:               Celera
Population(Allele,Count): cau(-,4)   afr(-,4)   his(-,4|C,1)   total(C,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57122):
GCTTGAGGCCAAGAATTTGAGACCAGTCTGGGCAACATAGGCAGACCCCATCTCTAAAAAAAAAAAAAAAAAAATTAAATTAGCTGGGCTTGGTGGTGCA
Y
ACCTGTAGGCTGAGCTGCTCGGGAGGCCAAGATGGGAGAATTGCTTGAGGCTGGATGTGTGTGGCTATGGTGAGCTAGGATCACGCTACTTTACTTCAAC
Celera SNP ID:            hCV2773336
SNP Position Genomic:     749790
SNP Source:               Celera
Population(Allele,Count): cau(C,8)   afr(C,8|T,1)   total(C,16|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57123):
CTGGGTGGGTGGAGGTTCAGGGATATCTGGGAAGGACTAAGAATAGCTTTTTCTTTTAGTAGATCAGGAGTTTCCTCTTACACACAAAAAGCTCCAAATT
Y
AAACTAGCTTAAGAGGAAAGGGTCATTACTGGCTGACAAAATGCGAAGTTTTGTGCAAGAGTCAGCAAAGTTTCTCTGTGATGGGATATTTAATAAATAT
Celera SNP ID:            hCV8031260
SNP Position Genomic:     188920
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,6)   his(T,6)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57124):
ATTTTATTTCAGGACCTTGGTAAGGGGTTATACAATATTTCTTTTGAAACGAGGGTCTCGATTATTGGGCTTGAGTATCCTGATCTAATTAATGCACTGG
R
CAGAGCTGGCAGACGTGTGGGACACCCAGCTATTCTCTGGAAGGGAAGGGGGATATAAGAGACACACTATAAAGGTGAATGGTAATCGGCATCTCCCCTT
Celera SNP ID:            hCV2773339
SNP Position Genomic:     749359
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(A,3|G,3)   his(G,3)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57125):
ATGCTGGAAGGCAAAGTAAAAGCCAACCTCTTGAGAAAGACATGGAACACAGGATGGAACTTGAACTGCTTAAAATGGCTTTTCTCAGGCCAGCTGCACT
G
GAGTGTGCTGCTGTAACAAACACGCCCGGATCTCAGTGGCTTAGCATGGTGAATTCATTTCCCATTCGTGATATCTGACCACAGATGGGAGGTAAGGGGC
Celera SNP ID:            hCV11514287
SNP Position Genomic:     120226
SNP Source:               Celera
Population(Allele,Count): cau(-,2|G,2)   total(G,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57126):
AAGAACATCATGGCCCCCTTCATATCCTGGTTAATGTCCCCGCTGACCCTGAGTTCTGCCTCCATCACTGGAACAAGAGCCTGTCTTTGGGAAGAGGTGT
S
TTCCCTGGCACTCGTTTGATTTGTAGCCGCCACACATGGCAGGTCCCAAGCTGTCTGAAGTCTTGGCTGCCATTCCTAAGCTACTAAAACTTTGCTGGAG
Celera SNP ID:            hCV2842960
SNP Position Genomic:     532473
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(C,2|G,3)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57127):
GATTTGGACGGTTTGCTTTAGAGTGCATTAACTTCTTTATCACATTAATACTGACTCATATCTTATTTCCCACTTGCAATAAGAAAACCATTCAAATCTT
K
CCCTCACAGGACAATATCTTTAATAGCTTCTGTGTGTTTCCTATTTTTGGCTGTTTCTGTATAAACAGACTAATCTAATAGCATACTGAACCCATCTAAC
Celera SNP ID:            hCV2842961
SNP Position Genomic:     531923
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,1)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57128):
TTTAGTGAGCTCTGCTGGCAAGTGTGTCAAATTTATAAATATCACTACTATAAAGACATACTTTTGGATATGGATTTCTTCCTCAGTTTATTTCTTCTTT
S
ATTTTTTCATGTCCAGGTCACTACGTATTGCGTATATTTGGTTGGAATTTTATTTTTGAGCAATTCATTTACCCAGATTGTGTTTCTGGAGATTAAAGCA
Celera SNP ID:            hCV2842962
SNP Position Genomic:     528284
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57129):
CAGTAAGTATTCTTGGGGCAAATGGGAAAAGGGTTAAAATGACCAGATCTCCAGAGATCTCACTCACTATGGTGAAGACAGCGCCAAGCCATGAGGGCTC
Y
GCCCCAGTGATTCAAATACCTCCCATTACGGACATGTTTCAACATGAGATTTGAGCGGGGACAAATATCCAAACTATATCAGGATCCCAGCAGACTGGGT
Celera SNP ID:            hCV8031266
SNP Position Genomic:     188725
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,2)   his(T,2)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57130):
TACCTGAACTGTCTCTTAAAAGGCTCTGTCTCCAAACACAGTCACATTGTGAGGTACTGGGGGTTTGGGCTTCCACATACAAAGTCTGGGACACAGTACG
Y
TCTCATAAGAGACCTCTTCTCAACAGGATCCATGTTTGATCCGGGGGAATAAAGCTAGAGTTGCTTTCTTCCTTGTAATATGTATAATGACTCATGAGAG
Celera SNP ID:            hCV2842964
SNP Position Genomic:     526068
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3|T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57131):
AGGAATGTAGTTCCTCACAGTTCTGGAGGTTGGGAGTCCTAGATCAAGGTGTCAGCAGGGTTGGTTTCTCTCTGTACCATTGTCCCTGGCTTGGAGATGA
Y
CATCTTCTCTGTCTTCACATGGTCTTCCCTCTGTGTGCGTTTGCATCCTTATGGCCTCTTCTTGTGAGGGCACTGGTCATATTGGATTAGGGTCCACCAT
Celera SNP ID:            hCV2842965
SNP Position Genomic:     525852
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57132):
ATGTTGCCTCCAGCATCCCAGGAACTCCGTTAATGTTTATTTGAATGATGGAATGAAGGTGTCTTGCTATATTTTGACATTTCTGTCAAAATATGAATCT
R
TCTTTGCCTAGCATCTTTTCATGTGCACATTGCCCATCTTTATAACAAAGTGTGAGTGGGAAAGGACTTTTAATCTTCATTATATTATCATTCATATGAA
Celera SNP ID:            hCV2842966
SNP Position Genomic:     525308
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   his(A,4)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57133):
TATTCCAGTGGGCCCCGCTGCATTCTTCCCAGTCCCAGGAAATCTTTGTGCATGGCTGTCTTTTCTGTGCCATCTTGGGCATCTCACGCATTGGCCCTAT
M
CACATGTTGCCTCCAGCATCCCAGGAACTCCGTTAATGTTTATTTGAATGATGGAATGAAGGTGTCTTGCTATATTTTGACATTTCTGTCAAAATATGAA
Celera SNP ID:            hCV2842967
SNP Position Genomic:     525204
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,4)   his(C,4)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57134):
TTTAACAAGAGACACATGTCAGATAGTAGACATGATCTGAGAAGACACAAAACCCAGCGTGGTGATTTTGGCAGCCTTGCCATGCATCTCTAACATGCAC
R
TGGCCAGAAAAATAGCTTGGACATTCTGTTCAACCCTCCACATCAACTGGTCAGTTTAGTCTTTAAAAGGTGATAGGCCTGTTGTGGTGGCTCACGCCTG
Celera SNP ID:            hCV2842968
SNP Position Genomic:     524483
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,3)   afr(A,2)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57135):
AAAGTCCGCACTTCCTAATGTTACCACTCTGGAGGTTAGAATTTCAACATATAAATTTTGGGGGGACACATTCAGACCACAATAATGTTTTATAATGTTC
M
TTTTGCTTTAACAAGAGACACATGTCAGATAGTAGACATGATCTGAGAAGACACAAAACCCAGCGTGGTGATTTTGGCAGCCTTGCCATGCATCTCTAAC
Celera SNP ID:            hCV2842969
SNP Position Genomic:     524376
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|C,1)      total(A,2|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57136):
TATTTGTTAAAAGGCTTTTTGCCTAACTTGTGAAAGTTTTTTTTCCTCAACTAATTAAGGGTATCAACGCATTGGTTGTATGTTGAAAATGTTGAAAATG
T
TTTTTTTTTTTTTCCAAGTTTTCTTTCTTTTTTTTTTTTTATACTGGGTCTTGCTCTTCTTATCCAGGGCTGAGGTGCAGTGACACAGTCACAGCTCGCT
Celera SNP ID:            hCV11517910
SNP Position Genomic:     19037
SNP Source:               Celera
Population(Allele,Count): chn(-,7)   cau(-,7|T,2)   total(T,2|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57137):
GCATAATTTAGGCCCCTTTCAGGCCACTCTTCCCCCTGTGCCCCAGGTGTGTTTGCTACCATACCTCCCCAGGGGATAGCCCTCCAAACCTGATTGGCCA
M
CTAGTCTGGTCTTAAAGTCCCAAAGGGAGGCCATCACAAACTACTCAGTATGGAGAAGACCTGAATCCTAATTTTGGCTTAACCCCAAACTTGGGCGATT
Celera SNP ID:            hCV16290745
SNP Position Genomic:     534713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57138):
TAGAGGATGGATGGGAGCATGAAGTGTCCTCCGTCATGTTGCTAATGTTCTGTTGCTTGTTCAAGCTACTGGGTGTGTTCAGTTTATGAAAATTCATTTA
R
TGACACATGTATGTTTTGTGAATTTTTTTGCATGTATATTTTACTCTAACAAAAAGTTCATGGACAAATACAAAATCATATCTGACAGTTGTTGAGAGAA
Celera SNP ID:            hCV11438526
SNP Position Genomic:     792170
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57139):
CATTTTACTTTGCATAATTTAGGCCCCTTTCAGGCCACTCTTCCCCCTGTGCCCCAGGTGTGTTTGCTACCATACCTCCCCAGGGGATAGCCCTCCAAAC
Y
TGATTGGCCACCTAGTCTGGTCTTAAAGTCCCAAAGGGAGGCCATCACAAACTACTCAGTATGGAGAAGACCTGAATCCTAATTTTGGCTTAACCCCAAA
Celera SNP ID:            hCV16290746
SNP Position Genomic:     534702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57140):
TGCAACTTGTCAAACACTTACATTTGTGAATAAGAAAACTGGGGTCTATTTGGTGGTTTATTTCAGAGATGTTGGATCAAATCAGACATCAGAAAAGACA
M
CAGTACCAAACGAAGATATCTTTGCTGTATTTGCAGTTTTCTCTCTTATTAACATGAAAACACCTTACATAGATGGAAACATCTAAAGGCTATTTTTTAT
Celera SNP ID:            hCV11438527
SNP Position Genomic:     787594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57141):
TAGGTGAGTGGTGAAGATTTTTATTCTGAATTTTTGAAATAATATCGTACTGCAAGTTCCAGGCAATCAAAAACTCACAAATCACTTGCACTCTGCAGCA
G
TGGTATCAGGTCTGAAGAAAGGAAGAGGCTGCAGATAGGCACATGGCTTTGCTAAGTTAGCTTTTATATCCTGCGTGGCTGCCTTAGAAAGTGTCCTTGC
Celera SNP ID:            hCV11517915
SNP Position Genomic:     23873
SNP Source:               Celera
Population(Allele,Count): cau(-,1|G,6)   his(G,6)   total(G,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57142):
CAATAAAAACATAGATATCTAATTTGCCTTACAAAGGCCGATTTGCAAATCTAGTATTTCCAGTGGTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTTTTT
A
AATGCCCCATATGACGCTGCTTTGTTGGAATTGCCATTGGTGAGGATCTCACTGATAAAGAAGGGGACATCCCTCCCTTGATAGACTTTAGGGTTGCACT
Celera SNP ID:            hCV11517916
SNP Position Genomic:     24418
SNP Source:               Celera
Population(Allele,Count): cau(-,4|A,2)   his(-,4)   total(A,2|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57143):
ACAGCTTAGATGAAATTTAGGCAAATGGAACGCCCCAGGCCCCAGGAAGACTGTGGCAGCACATTGTATGTAACTGTTGGGGATGTTGCCTGAAACCCCC
S
CCTTTTTTTTAGGCAGCTGCAAGGATTAGAATGTTGCCTCCTCAGAAACTAACACTCTTCTCTCCTTGACCTTTGTTTAACCAGCTTTCTGAACCTGAAG
Celera SNP ID:            hCV11517919
SNP Position Genomic:     25231
SNP Source:               Celera
Population(Allele,Count): cau(C,8)   his(G,1)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57144):
TAAAAACAGAAACAGAGCAGTCCCTTTGCTTCCGAATGCAGCCCTCCCATTGGAATCACTTTGGAAGAATCTGGATCTGCGTGTTACCCAGTCTTACTTT
K
CAGGCAGTCCCAGGCAGGAAGGCCCATTAGTGAAAAGAGCCCTGCATATGCTGTGGGTCATCACAGCTGCTGCTTTGCACATTTAGGAGATATTTGTGGA
Celera SNP ID:            hCV16237400
SNP Position Genomic:     420513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57145):
TTCTTTAAAAAAAATTTATGACATATTACTTTTGCTAATTATGTGTGTGGGTAGATTATGTTATTCATGAATTTTATTTCAGGACCTTGGTAAGGGGTTA
Y
ACAATATTTCTTTTGAAACGAGGGTCTCGATTATTGGGCTTGAGTATCCTGATCTAATTAATGCACTGGACAGAGCTGGCAGACGTGTGGGACACCCAGC
Celera SNP ID:            hCV2773340
SNP Position Genomic:     749289
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3|T,3)   his(C,3)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57146):
TTTTCAGAGTTGGTTTACCAATATGATGTCTGTATTAAAATATATGTAATGCTGCTTTCAAAATGTTAAGTATTATGAGAATACATTAACAAAACTCTGG
Y
GAATTTTTTGTCTTATGTTTCTTGAATCCAAACCTATAAGTAGGTGCAAACATTAGACGATTTCATTTTGGGCTTCTGATACACTCCTGTCCGAGAAGTT
Celera SNP ID:            hCV2773342
SNP Position Genomic:     749049
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,2)   cau(C,4|T,2)   his(C,4)      total(C,8|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57147):
ATGAGAGCAGATTTTGCCTGTTTCTTCCAAAATCTGGATTCAGTGACATCGTGTTGGTAGCTTGAAACTGACCGTGGTGAGAATATTTACACCATGGAAA
K
TGGCAAATGCTACTAATAAGGATGATTGTTTTAGTTTTCATTTTGTAATTTTCAGAGTTGGTTTACCAATATGATGTCTGTATTAAAATATATGTAATGC
Celera SNP ID:            hCV2773343
SNP Position Genomic:     748900
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,3|T,3)   his(T,3)      total(G,3|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57148):
CGGTAAAAAACTTGTTTCCATTGATCTGACCCCAGAATTCCCTGTGCTTATACAGATACACAACGTGCACTGGGTCTTCCAGAAATGCAGGGGCCTTCTA
M
ATCAAGGGAAGATTGTGTGGTGTTTTGTTCCAGTCTTTTACCAAGGTCTCAATACCATCTTGAAACATCATGCAGCACTGCTCATAATATTTGAGTCACC
Celera SNP ID:            hCV2773344
SNP Position Genomic:     748613
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5|C,4)      total(A,5|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57149):
GGGCATTTTGGAAATTTGGAAAGGCATTTTGGTGGCCTTTGGCACTTAGCAGGTGGGGTCCACGGGTCCATCCTGTGATGCCATAGGCAGTCCAATATAA
S
AAAGAACTGCCCTCGTCCCGGTAACATACACCTGTGCCCCCAGACATTCATTTCGGTAAAAAACTTGTTTCCATTGATCTGACCCCAGAATTCCCTGTGC
Celera SNP ID:            hCV2773345
SNP Position Genomic:     748459
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,8)   cau(C,5|G,8)   afr(G,8)      total(G,24|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57150):
AGAATCTAATTTTACTGTGCATTTTCTTGATTATTAGTGAAGCTAAACATTATTTTTTATTGATGTGTTAACAATTTCTTTCTTTTGCAAATGATCTATT
M
ATGTTCTGTGACTGATTTCTATCTTGGTGTCTTTACGTTTGTGAATGGTAAGAATTTTTATGTGTTCAGGAACTATTTAAATGTTCAAGACATTAACCTG
Celera SNP ID:            hCV11514292
SNP Position Genomic:     132290
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,1)   cau(C,5)      total(A,1|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57151):
TATTTTGCATTGTTTATGTCAGCATTAAGCAGTATTCTTACACAGTTTGTAAGTCTTAAAACTCAGTATCTACTCTAGTAGTTGCTCCAAATGTGATGTC
S
TCATAAATCACCGAGGGATCTTGTTAAATTTGGATTCTGATTCAGTAGGTCTAGGTGGGGCCCGAGCTTCTTTGTTTCCTTTTCTTATTTAATTTTTGTG
Celera SNP ID:            hCV2773348
SNP Position Genomic:     748041
SNP Source:               Celera
Population(Allele,Count): chn(C,8)   cau(C,8)   afr(G,2)   total(G,2|C,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57152):
ACTTGTGGAATAATTTTTTAATATAAAATAATTACCATCACTAATCCTAACTGTGCACATTCTTGACTCTGTGACACTGAGCAAAATCCTGAACCTCTCT
R
TGCCTTGATTTCTTTCACGTCTTGTTCTAGTTTTGAAGAGCGATTCTTGTGTGAATTCAGGGAGAGGAGGCATGAGGCATGGTAAGGCCACCGTACGTCT
Celera SNP ID:            hCV2773349
SNP Position Genomic:     747696
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57153):
GGAAGCCTTCACTCTAATGACATAATTACCTCCCAAAGTCCGCACTTCCTAATGTTACCACTCTGGAGGTTAGAATTTCAACATATAAATTTTGGGGGGA
S
ACATTCAGACCACAATAATGTTTTATAATGTTCCTTTTGCTTTAACAAGAGACACATGTCAGATAGTAGACATGATCTGAGAAGACACAAAACCCAGCGT
Celera SNP ID:            hCV2842970
SNP Position Genomic:     524342
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57154):
TGGTGCCCATCACCCCGATCACATGAACGTCTATGCCCAGGTCCCATTTCCTGACATTCCCAACATCTCTACCTTCTCCGGGCCTAGGGCAGGGATCACT
S
TTTCAGAAACATGAGCGTATGGAAGCCCCAGTGTGTTCCTTGAAGTCCCGATGCGTGATTTGTCCCCATGCTGTGTCGCACTTGGTCATCTGGACCCTGG
Celera SNP ID:            hCV2842972
SNP Position Genomic:     520708
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57155):
AAAGAGGTGTAAATGGACAAGAATGAAAAGCAATTGCAAGGGCCCTTGAAGGTTTGTGAAGGATGGCAAAGTGACTTGGATGTTGATTTCTAAAGGAGGT
R
AAACTTGAAGGTAGACAAGCTCTTTGTGTCCATACATTTGATGGGTCATCCTATGAAGGAGGGCCCATCTCTTACGGCAGGCAGCGTGGCGTAGGCCTCA
Celera SNP ID:            hCV2842975
SNP Position Genomic:     519736
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,3)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57156):
CAGCACAGTGAGGAGGTATTCTTTGGAGAGCACTGTTTCCCAAGAGTGATTCTAACAAAGAGGTGTAAATGGACAAGAATGAAAAGCAATTGCAAGGGCC
Y
TTGAAGGTTTGTGAAGGATGGCAAAGTGACTTGGATGTTGATTTCTAAAGGAGGTAAAACTTGAAGGTAGACAAGCTCTTTGTGTCCATACATTTGATGG
Celera SNP ID:            hCV2842976
SNP Position Genomic:     519680
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,5)   cau(C,5|T,3)      total(C,10|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57157):
ACTCTACTTAAAATTAAGGCATAAAGTAGGAAAATGTGTTTCCTCTGTATAGTCTTATTACTTTGCCTGTTAAGTTAACTGGTTCCTATTTCTGCTGGTT
Y
GAAGAGGTCCAGGACATTTAAATAGCTCTTCTAGAAACAAATTCTTTTCCTTACAAGCCCTGCCAGGTCAGTGGGTTCAGTAAGGAAGAAGGTTTTGTAT
Celera SNP ID:            hCV11438531
SNP Position Genomic:     784428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57158):
ACCCAGTGGAACGCTCTTTCTAGTTTGGGGCATAAAATAAGATAACACTCTGAATTCCTACAGGAAATCTTGTAACTCTACTTAAAATTAAGGCATAAAG
Y
AGGAAAATGTGTTTCCTCTGTATAGTCTTATTACTTTGCCTGTTAAGTTAACTGGTTCCTATTTCTGCTGGTTCGAAGAGGTCCAGGACATTTAAATAGC
Celera SNP ID:            hCV11438532
SNP Position Genomic:     784354
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57159):
GCTTAGATGAAATTTAGGCAAATGGAACGCCCCAGGCCCCAGGAAGACTGTGGCAGCACATTGTATGTAACTGTTGGGGATGTTGCCTGAAACCCCCCCC
Y
TTTTTTTAGGCAGCTGCAAGGATTAGAATGTTGCCTCCTCAGAAACTAACACTCTTCTCTCCTTGACCTTTGTTTAACCAGCTTTCTGAACCTGAAGAAC
Celera SNP ID:            hCV11517920
SNP Position Genomic:     25234
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,7)   his(T,7)   total(C,2|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57160):
TCTGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTAGAGGCCTGAGCCACCGCGCCAGCTCTATTTGCTGATTTTTGAACAGCAGCTTTTTTTTTTTTTTT
T
AACAAAACTTTAAAATGGGTTATGTGTTTTATTTTCTTAGTGAAGTAATGGCTTCTCAAATTTACACTCCATTATTTTATTTAAAAAAATCAGTATGATT
Celera SNP ID:            hCV11667905
SNP Position Genomic:     762345
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(-,3|T,3)   afr(T,3)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57161):
GGTCAAGGTAGTGTTCATTAGGTTTCTCCACTGCACACTTAGTCTTTCCCTCTACTTTCCACACTGCTGCCTTTGGAGGAGTGTTGCTGTGCCCAGCTCA
Y
GCTTGTGGAGTGGGGATTTAATGTTCTCACTCTTCGAGGGTAGAGTATCTGCATAAACTACTTGGAATTCTACATGGAATATTTGTGTCTTCTCCCCCAT
Celera SNP ID:            hCV16290753
SNP Position Genomic:     534116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57162):
GTCTCCTTAGCATCTTCTTGGCTGTGACAGTTTCTCAGAATTGTCTTTGTGATGACCTTGACAGCTTTGAGGAGTGCTGGTTGGGTATTCTGTAGGATGC
Y
CCTGTGTTGGGATTTTTATGATGTTTTTCTCATGAGTTTACTGGAGTTAATGAATTTCAGGGAGGAAGACCCCAGAGGTCTGTTTTCATCACATCGTATC
Celera SNP ID:            hCV16290754
SNP Position Genomic:     533860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57163):
TTTTTTTTTTTTTTGGCTGACTGTCATGACTTAGTAAGGCCATCACAGGTTGCCAGAACATCTACTCAACTGTTCCAAGCATAACCTCCTACACAGGCCT
K
CTACATAGGAGTATATTTGGCCAAGACTCACCACTAGAAGTGATTTCCACTGGACTTTCCTACAGCAAGTGGTAAATGATCCCTCAGATAGGCCCAAGAG
Celera SNP ID:            hCV11438535
SNP Position Genomic:     782205
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|G,-|T,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57164):
GAGATCGTGCCACTGTACTCCAGCCTGGGTGACAAGAGTGAAACTCCATCTTAAAAAAAAAAAAAGTGAACCCTTGTAGTTTCTTCCTCTGTTTGACAGA
Y
GGACCCTAAGACGGCCCCAGTGATACCCCACCTCCTGGTGTCCAAGGCCTGATGTGATCACCCTTCCCCCACCTTGAATGTAGGTGGGACATGGGACTTA
Celera SNP ID:            hCV16290755
SNP Position Genomic:     530024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57165):
GTTTCACCACTTTTGGCCAGGCTGGTGTTGAACCCCCGACCTCAGGTGATCTGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTAGAGGCCTGAGCCACCG
Y
GCCAGCTCTATTTGCTGATTTTTGAACAGCAGCTTTTTTTTTTTTTTTTAACAAAACTTTAAAATGGGTTATGTGTTTTATTTTCTTAGTGAAGTAATGG
Celera SNP ID:            hCV11667908
SNP Position Genomic:     762296
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4|T,2)   afr(C,4)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57166):
GAAAAGGAAAGACAACAGATAAGTGATTGCCAGGGACTGGAGAGGAGTGGGGGGTGAGTGGGAACCAGAGTGGATATAAAACAGCAACTGGAGGATCCTG
R
TATAGATGGAAATGTTCTGCATCTTGACTGTCTCAATGTCAATTTCCTGGTTGTGAAATCGTACTAGAGTTTTGTGAGATATCACCTATGGGGGAAACTG
Celera SNP ID:            hCV2773350
SNP Position Genomic:     746378
SNP Source:               Celera
Population(Allele,Count): cau(A,1)   his(G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57167):
CATCTCAAAAGAGAAGAAAAGAGAAGAAAAGGAAAGACAACAGATAAGTGATTGCCAGGGACTGGAGAGGAGTGGGGGGTGAGTGGGAACCAGAGTGGAT
W
TAAAACAGCAACTGGAGGATCCTGGTATAGATGGAAATGTTCTGCATCTTGACTGTCTCAATGTCAATTTCCTGGTTGTGAAATCGTACTAGAGTTTTGT
Celera SNP ID:            hCV2773351
SNP Position Genomic:     746353
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,1)   his(A,2)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57168):
CATCCTGTGTAGAAATATCAATAAATATAAAGGTAAGTATTATTGTCCCCATTTTACAGATGAGAAAATGGAGTCCCAGGGACCTACCTGCTCAAGGGCA
S
AGAAAGCTTGAATGAGTAAATTTACTTTGTGTTGTTCCAAAGGTTTCTCCAAAGGTCTTTGCACCTCCCAAGGCTATTCTCATTTTGAGAAAGACTGGCA
Celera SNP ID:            hCV2773352
SNP Position Genomic:     745355
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,2)   afr(C,2)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57169):
TGTTTAGTAAGTCATCTATGTTGTTTGGGAGGAAAGAGAATGAGCATTCCTCAGTTCCTGCACTGCACCAGGCCTTGCCAATACAGTACCTCATTTAATT
M
TTGCTACCATCCTTGAGGTGGCTGGCATTAGGCCATTTGCGGGGTGTAGAAAATGACATGCAGAAATACTGTAGCAGCTCACTTAATATCAGGCAGATGG
Celera SNP ID:            hCV2773353
SNP Position Genomic:     744040
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(A,1)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57170):
TGAGGTCTCCTGAAACTTATTCCCGCAAGGACATACTACTGTGGACCCACCTGAAGGGTGGCATCCACTCTTCTAGTAGGATCTCACATTGGTATTTTCA
S
ACACTTCTGCCCCTTGCCATGTTTAGTAAGTCATCTATGTTGTTTGGGAGGAAAGAGAATGAGCATTCCTCAGTTCCTGCACTGCACCAGGCCTTGCCAA
Celera SNP ID:            hCV2773354
SNP Position Genomic:     743920
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,2)   afr(G,2)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57171):
CCAGGGACGGCTCCTTGGCAAGTTGTACTGCTGTGGCCTAGGGAGGGACAACTGGCAGGGCCACACAAGGAGGTAAAACCTTATGCTCCATTTGCAAAGC
Y
AGTGGCCCCAGCAGAGATAGGAGGCCCTCTCTGTGATTTCGGCAGTGGTTTCCCTGGGATTGAGGTCTCCTGAAACTTATTCCCGCAAGGACATACTACT
Celera SNP ID:            hCV2773355
SNP Position Genomic:     743759
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,4)   afr(C,4)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57172):
TTTTTTTAACAGTTAGATTTACTCTTCCTTTGCACAGACTAATAGCACACTGAGGTAGGATCCAGGGACGGCTCCTTGGCAAGTTGTACTGCTGTGGCCT
R
GGGAGGGACAACTGGCAGGGCCACACAAGGAGGTAAAACCTTATGCTCCATTTGCAAAGCCAGTGGCCCCAGCAGAGATAGGAGGCCCTCTCTGTGATTT
Celera SNP ID:            hCV2773356
SNP Position Genomic:     743698
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   afr(A,5|G,1)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57173):
AGTGTGCCCATTTTACAGAGGTGGAGGAGGAAGCTCCAAAAATGAAGCCCAAGGATCTTAAGGTAATATATGGGCTTGAATCCAGTGTATCTTGCTCCGA
M
AGCCTTGCTTTTGTCATTATCCAACATTAGCTGTCTTTATTATAGTGGCCTTCTTACCACCTACAAAACAAGTGCCAGCATTCTAGTAAAATTTATTCAC
Celera SNP ID:            hCV2773359
SNP Position Genomic:     742571
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,1)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57174):
ACATTGTACCCTGGAACTTAAAAGTTGGTGAAAGAAAGAAGGGGCCGGGCATGGTGGCTCACGCCTGTAATCCTAACATTTTGGGAGGTCGAGGCAGGCA
R
ATTGCCTGAGCTCAGGAGTTGAATACCAGCCTGGGCAACACGGTGAAACCCCGACTCTACTAAAATACAAAAAATTAGCCGGGCGTGGCAGTGTGTGCCT
Celera SNP ID:            hCV16234876
SNP Position Genomic:     548151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57175):
AGGGAGTAAATATTTATTAATTTTTAAGATGCTTCATTTTGGAGTAATTTGCTACACACCAATATTAATACAGAGCCCATATGCGCTGCCTACAGGATAA
A
TAATGTAATAGCTTAATAACAATTAAAATGGAAGAAAATGTAGGAGTTCCTCAATGGTTCCACCTGTTTCTTGAGGTTAAAAATGTACACATTTGTGGGC
Celera SNP ID:            hCV11667912
SNP Position Genomic:     760161
SNP Source:               Celera
Population(Allele,Count): cau(-,7|A,1)   afr(-,7)   his(-,7)   total(A,1|-,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57176):
TTTTAGACAACTGGACACAGGTTTGTCTTTGAAATTGTCCTGGTTTTTCTTGATGTTTTAGTGCTCCTGGATGTCCAATGTCATTCTTGGGCTAGTTGAA
R
GAAAGTTTTGGCTACCCAGTTGTTAGCTGCTGAAGTTTAACTGTGCATTCTAAGCACACCAGTATTTTATTACATCATACCTGGGCAGCAGATAATTTTA
Celera SNP ID:            hCV16290762
SNP Position Genomic:     529452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57177):
AATCACTTGAACCCGGGAGGTGGAGGTTGCAGCGAGTCAAGGTCACGCCAGTGTACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAA
R
AAAAAGAAAAAGAAAAAGAAAAAGGTGTTTGGAAGCCATGTCCCATGAATTCCAAATACAATTGAGGACTCTATAAAGGACTATAAAAAAAGTTGTAATA
Celera SNP ID:            hCV16290763
SNP Position Genomic:     559858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57178):
TTCAAGATGACTTTTCATTCTCTCATCTCATTCATTTTGAGGTCATTTTGTTGTTGAAATGTTAGAGTTCAACCTTAAATACTTAAGAGCATGGCACTGT
S
TAGAGAAAGGGAGATGAGCTTCTGTGGTAGCCAGAGGTCAAGATGGCCTCTAGTGACCCTCACTTCCTGGGTTTTACATTGCAGTATATTTCTCTTCTAC
Celera SNP ID:            hCV11667916
SNP Position Genomic:     759589
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(G,1)   afr(C,4)   his(C,4)   total(G,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57179):
AGGGATTCGTAAGCTTAGGACTGATAGAGATTTGGCTTTTCTGCTGTTGGATTGATAGCTCCTTGACTGCTGAAGCCATTGCCCATCTGTTCAACTGTTG
K
ATTCACGAGGAGGTTAGACCCCTGACCCAAGGCCCAGGTACCTGGCTTTCCTCAGTTGGGATCAGAAGGCCACAAAGTTTTCTTATATTTTAAGCATCAA
Celera SNP ID:            hCV16290764
SNP Position Genomic:     558515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57180):
TATGGAGCCTGTTAAGACCAGTGATGCTGTGGCCTGAATAACAACAGGATAGGAACATTCCCTTCTTCTCATAAATCTTGTAAATTTGCATTGTTTGTGC
Y
GAACAGGGCCCGTGTGTTCTGATAGCAAACATGGAGAGGCCCAAAAGGCTGATCTGGGACCATGTCCCCATTGAACACTGCTCTGTGCTGAGTCTGCAGA
Celera SNP ID:            hCV2773360
SNP Position Genomic:     741628
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|T,2)   his(T,2)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57181):
TCATGCACTGTCAAGCACCGTAACTTTAGCTACATTCTATTGATTAGAAGAATACTAGTAAAGACCATAGTTAGGAGAGGGGAACCTGGCTCCACCATTG
S
AAGGGAGGTCTATCAAAGAACTTGTGGGCATATTCTAAGACCACCACACTCTGCCACTCCACACACCCTGACTCTCCTAACACCTGCTCGCTTCACTGGT
Celera SNP ID:            hCV2773361
SNP Position Genomic:     739893
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,3)   his(C,3)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57182):
AAAATAATGATTATAACTATGACCTCCAGAAGCTTTTGCTGAGCATCTATCTGTAGCACTGCATGTCAAGCCAAGCTAGAGTACAGTCTCTTAGGAGACA
Y
AGGGGAGGAAAACATCCTTGGCAGGTTCGCATATTGGTGATCTCGTCGTAATTTTCTCAAATACCCTTCCTCTTTCCTCACTTTTGGTGATAACTACCTG
Celera SNP ID:            hCV2773362
SNP Position Genomic:     739269
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57183):
TAATTTATGTAAAGCACAAAGCATAATCCCTGGTATTCAATAAGTACTCAGTAAATACTAGTGAAAATAATGATTATAACTATGACCTCCAGAAGCTTTT
R
CTGAGCATCTATCTGTAGCACTGCATGTCAAGCCAAGCTAGAGTACAGTCTCTTAGGAGACACAGGGGAGGAAAACATCCTTGGCAGGTTCGCATATTGG
Celera SNP ID:            hCV2773363
SNP Position Genomic:     739206
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57184):
GTTCTGTGCCAAGGATTTTAGAAAGTCATGTCTCATTCAGTTCCCCTAACAGGTCTAGGAGTCATTATCCTCCCCAACCTAAGGAAACTGAGACCCAGAG
R
TTCAGAGTATCCCAAGATCCTACAGGAATTGCAGATTGTAGCCAAAATTGGAACTCCTAATTCCAGAGCTCCTCCCTCCTGCTAGCATTTTTCTTTGAGT
Celera SNP ID:            hCV2773364
SNP Position Genomic:     737163
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57185):
ATCATCACACCTTTCCCTTAGCCTGTACTAGGTTCTGTGCCAAGGATTTTAGAAAGTCATGTCTCATTCAGTTCCCCTAACAGGTCTAGGAGTCATTATC
Y
TCCCCAACCTAAGGAAACTGAGACCCAGAGGTTCAGAGTATCCCAAGATCCTACAGGAATTGCAGATTGTAGCCAAAATTGGAACTCCTAATTCCAGAGC
Celera SNP ID:            hCV2773365
SNP Position Genomic:     737132
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5|T,1)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57186):
TTATATATAATAATAATTTAATTTATAACTATATCATTTATTAAGGTCCTACTATATACCAAATTCTATTGGACACATGTCCTAATAATAAACGTGATAT
M
ATCTATCATTATTTACAAAACTTCACACTCTGACCTTTATTAATTATGTGTGTGCCAATTATGTGCAGGGAACTGTATTAATCGTAGTTAGCAATATCGT
Celera SNP ID:            hCV2773366
SNP Position Genomic:     736053
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6|C,3)   afr(A,6)   total(A,18|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57187):
TGGGCATTTTTAAATTATCATTAGTATATAATTATATATAATAATAATTTAATTTATAACTATATCATTTATTAAGGTCCTACTATATACCAAATTCTAT
Y
GGACACATGTCCTAATAATAAACGTGATATAATCTATCATTATTTACAAAACTTCACACTCTGACCTTTATTAATTATGTGTGTGCCAATTATGTGCAGG
Celera SNP ID:            hCV2773367
SNP Position Genomic:     736022
SNP Source:               Celera
Population(Allele,Count): chn(T,8)   cau(T,8)   afr(C,1)   total(C,1|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57188):
GAGATGGCGCCACTGCACTCTAGCCTGGGCGGCAAGCAAGACACCATTTCAGAGAAAAACAACAACAACAAAACATATGGCCAGCAGCCAGTGTTGTTAT
Y
TCAGGATGGGAACCAGGCACTGCACCTCCTCATTAGGAGTCAGAGTAAGGGGGCTAAGCTGGTTGACATGACTGGGGACAGAGTTGCTGTTGAAATTGTC
Celera SNP ID:            hCV2773368
SNP Position Genomic:     735312
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,3)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57189):
CTCTACTAAAAATAAAAAAAAAAAAAAAATTAGCCAGGCATGGTGGTGCATGTCTGTTATCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATCACTTGAA
Y
CTGGGAGGCAGCGGTTGCAGTGAGCCGAGATGGCGCCACTGCACTCTAGCCTGGGCGGCAAGCAAGACACCATTTCAGAGAAAAACAACAACAACAAAAC
Celera SNP ID:            hCV2773369
SNP Position Genomic:     735185
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,2)   his(C,5)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57190):
GCGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCCCTCCAGTCTGGGTGACAGAGTGAAACCCATCCCCCAAAAAAATAAATAAATAAAAATTAAAAAA
Y
CTAACACTGGTACGAGAAGAAATTATGCTCTAAATCCTTCTTTGAGCAGTGGCTTACAGACCTAAATTTATCAAAGGTGGTGGCAGTAATAGTAATAATT
Celera SNP ID:            hCV45318
SNP Position Genomic:     430704
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   his(T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57191):
GTAATATTTAAGTATTAATACCTCTGTTTAAGGTTCATTTTGAACGCCTTGGTGACCCTATGTTTTTTTCTTTGTTTTTTGTTTTGTTTTTTTTTTTTTT
K
TTTTTTTTTTTTGTTTTTTTGAGATGAAGTCTTCCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCATTCTTGGCTCACTGCAACCTTCGCCTCCCAGGTT
Celera SNP ID:            hCV11937354
SNP Position Genomic:     29816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57192):
ATTAATACCTCTGTTTAAGGTTCATTTTGAACGCCTTGGTGACCCTATGTTTTTTTCTTTGTTTTTTGTTTTGTTTTTTTTTTTTTTGTTTTTTTTTTTT
K
TTTTTTTGAGATGAAGTCTTCCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCATTCTTGGCTCACTGCAACCTTCGCCTCCCAGGTTGAAGCAATTCTTC
Celera SNP ID:            hCV11937355
SNP Position Genomic:     29829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57193):
GACTTCATAATAAATAAGATGCTGACAGTTGAAACCCCCTTGACCGTTGCCTGTTTGGTATGACACAGACCTTCTTGGACTTTTGTAGCCTATACATGAG
Y
AGATATGAATCCTCAGCCTTCTCCAAAATAAGGTTGGGGTCACTAGGAGGCCTTCTTGGAAAGATGTCTTAAATTAAGGCACCAGTAGATGGATCAAAAA
Celera SNP ID:            hCV11937356
SNP Position Genomic:     30819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57194):
AAAAAAAATGTTTTCTGGTCAAGTCACATGCCTCTGAGGTTTTTTTTTTTCTTTCTTTCTTTTCTTTTTTTTTCTTTTTCCCAGACTCCTCATACCCCTC
Y
TAGGAGACAGTGATTCCCTGGCTTCACCAGGCAGGCTCTTGGGGGCTTCCTGGTCCCTGTCACTCTTAAAATGCAGCCTGTCTTTGGACATCTACTCCAA
Celera SNP ID:            hCV2842995
SNP Position Genomic:     517009
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5)   afr(T,2)   his(T,2)   total(C,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57195):
GGCGGAGCTTGCAGTGAGCGGAGATCGTGACACTGCACTCCGGCCTGGGTGACAGAGCCTGAATCCCTCTCAAAAAAAAAAAAAAAAGAAAGAAAACAAC
Y
ACAACCACATTTTGAGATAGGCCTTCCTTGGCAAACTTTGATTTCGTTTCTGTATTTGAGGACAAAACACAGTATGGTTGTTTCCCTCCCTAGACTAGAT
Celera SNP ID:            hCV11667920
SNP Position Genomic:     757025
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,7)   his(C,7)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57196):
CGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCGGAGATCGTGACACTGCACTCCGGCCTGGGTGACAGAGCCTGAATCCCTCTCAAAAAAAAAAAAAAAA
R
AAAGAAAACAACCACAACCACATTTTGAGATAGGCCTTCCTTGGCAAACTTTGATTTCGTTTCTGTATTTGAGGACAAAACACAGTATGGTTGTTTCCCT
Celera SNP ID:            hCV11667921
SNP Position Genomic:     757012
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,4)   his(A,2)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57197):
CGGGGAGGACGCGCACTCCAGCGCAGCGCGTGCGGTGCAAAGTGAAAGTAACTGTTAAGGAGCTTCAGGGAAAAGGGTCCAGGGTTCCCAGTAGGGGCCG
S
CCCCCTTGGTGGGCCTCGGGTCCAGCGGGGGTCACCTGGTGGCTTCCCGGCGCGCCCTCTGCTGTTCAGGATGCAGCACTGCGCGGCGCGGCGAGGGCAA
Celera SNP ID:            hCV25654161
SNP Position Genomic:     6399
SNP Source:               Applera
Population(Allele,Count): afr(G,36)   cau(C,1|G,35)   total(C,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:57198):
CAGAGGGATTCGTAAGCTTAGGACTGATAGAGATTTGGCTTTTCTGCTGTTGGATTGATAGCTCCTTGACTGCTGAAGCCATTGCCCATCTGTTCAACTG
K
TGTATTCACGAGGAGGTTAGACCCCTGACCCAAGGCCCAGGTACCTGGCTTTCCTCAGTTGGGATCAGAAGGCCACAAAGTTTTCTTATATTTTAAGCAT
Celera SNP ID:            hCV16290771
SNP Position Genomic:     558512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57199):
GGAATAGAGAAAAGGTGGCTTGGCTGTTTGGTTTATGTCCTAAAACCTTATCGTAATGTGATTCTCCTTAACAGAGGGATTCGTAAGCTTAGGACTGATA
R
AGATTTGGCTTTTCTGCTGTTGGATTGATAGCTCCTTGACTGCTGAAGCCATTGCCCATCTGTTCAACTGTTGTATTCACGAGGAGGTTAGACCCCTGAC
Celera SNP ID:            hCV16290772
SNP Position Genomic:     558441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57200):
GGAAATGGAATAGAGAAAAGGTGGCTTGGCTGTTTGGTTTATGTCCTAAAACCTTATCGTAATGTGATTCTCCTTAACAGAGGGATTCGTAAGCTTAGGA
M
TGATAGAGATTTGGCTTTTCTGCTGTTGGATTGATAGCTCCTTGACTGCTGAAGCCATTGCCCATCTGTTCAACTGTTGTATTCACGAGGAGGTTAGACC
Celera SNP ID:            hCV16290773
SNP Position Genomic:     558435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57201):
GAGTTGACATACGGAAAACAAGTAAGAGTAACTTTGTACACCGTGGGCTCCCAATCAGTGCTGCTTTTCGTTGTTGATGTTGTTGTTAATGTTGAAAAAA
A
TCTTCAAGTCATGTTTGCCCCCACAGACCTTCCCAGACAGTCTAACTAAATGCACTGTATTTGCTAACTGTTGGAACTTGGCTTTTGGACTAGACCAGCA
Celera SNP ID:            hCV11667928
SNP Position Genomic:     755729
SNP Source:               Celera
Population(Allele,Count): cau(-,3|A,4)   afr(-,3)   total(A,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57202):
TTCCCAGTAGGGGCCGGCCCCCTTGGTGGGCCTCGGGTCCAGCGGGGGTCACCTGGTGGCTTCCCGGCGCGCCCTCTGCTGTTCAGGATGCAGCACTGCG
Y
GGCGCGGCGAGGGCAAAGCGGCCTCATCCCCGCCAAAAAATAAAGATGTTTTAAAAAGCGCACATGCTCAGCTCCCTCCTGCAGGCTCTGGGTTGCAGGG
Celera SNP ID:            hCV25654168
SNP Position Genomic:     6483
SNP Source:               Applera
Population(Allele,Count): afr(C,35|T,1)   cau(C,36)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:57203):
CTACTTCCTTCTTATATCTGGCTATCTGGGAGAGAAAAAATTTAATACAATTGATTACTTTTTAGAAGAGTTAATTTTTACTTATTACTGTGGATTTTTT
K
TTTTTTAACAGTCACACCGAGGAGAAGACTCAGTGGGAACATCCAAAAACTGGAAAAAGAAAACGAGTGGCAGGAGGTTTGTATGTTGTTGTCTAAGGAT
Celera SNP ID:            hCV25654169
SNP Position Genomic:     14772
SNP Source:               Applera
Population(Allele,Count): afr(G,23|T,7)   cau(G,30|T,6)   total(G,53|T,13)
SNP Type:                 INTRON


Context             (SEQ ID NO:57204):
TCATATGGTCCTCTGCAGCCTTGCAAAGTCGATTCCTGACATTTCCGTAGACTGTTTTTTTTGTTTTCAGCAATACTCTCCAGCAGCAAAACCCAATCCG
Y
TCATATTCTTGCATTTGCTGCAGCAAAACCTGACCTCTCTTTGTGTTACCTGAGTCTTGACGAAGAAGACTGAGGAAAGGCCCCCCCCCCCCCCCACCAA
Celera SNP ID:            hCV296750
SNP Position Genomic:     501964
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   afr(T,1)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57205):
TGGTAGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGGTCACCTGAGGTCAGGACTTCGAGACCAGCCTGGCCAACATGGTGAAACC
S
CATCTCTACTAAAAATAAAAAAAAAAAAAAAATTAGCCAGGCATGGTGGTGCATGTCTGTTATCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATCACTT
Celera SNP ID:            hCV2773372
SNP Position Genomic:     735081
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,3)   afr(C,3)   his(C,3)   total(G,3|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57206):
CACAGAGGAAGTGGAGCTGGAGTCTCTGTGGCTCCAGGGTCAGGTGTGTAGTCTCGAAGGCTGTTTTCTGTTCTGCAAGTTTCTCCTTAACACATTTCCA
R
CCCCATTTTCTGGCAGGGAGACCCCAGGACTGAAAGGAGCTGGAAGAGTGAGGTCTAAGAGAAAAAGGGGCTGGGTGTGGTAGCTCATGCCTGTAATCCC
Celera SNP ID:            hCV2773373
SNP Position Genomic:     734903
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(A,1)   his(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57207):
TCTGTATTTCTCAGGGCAGCGTGGGACCTCAGGGTTTGTCATGGACCACACCTTTCTCCTTTGTCCCTTTTTATAACTCATAGGCTACCTCCAACTTGAC
R
CTTATTTAAGTTTTTATTTATTTTATTTAGCATTCAGAAAACTCTATAGCCTCAGTCTCTCGGGATGTAAATTAAAGCAATTTCATTTTCATAGTTTCTC
Celera SNP ID:            hCV296753
SNP Position Genomic:     502361
SNP Source:               Celera
Population(Allele,Count): cau(A,2)   afr(G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57208):
ATTACATTTTTTGAATATGTTTCTTCTTTGCCTCTTGAGGACTAACCAGCCGGGTTTAGATTATTTCCTCCCCGTGTCGCTTTCCTGCCCCCACATGTTA
W
AGATGGTGCAAGGGAACCAGAGAGCTTTGATCCCTGGTTTCTCTGGTCACAAACCTGCTCTCCTCTCCAGAACTCCAGGCTGCCTTTCTGTGGGGGCTAA
Celera SNP ID:            hCV2773374
SNP Position Genomic:     734459
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(A,3)   afr(T,3)   his(T,3)   total(A,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57209):
CTGCCTCCATCTCCCTTTCTCTGTAAGTGGAAGTGGTATTCATTGATCACACACTACATGCCGGACACCAAGCTATTACATTTTTTGAATATGTTTCTTC
Y
TTGCCTCTTGAGGACTAACCAGCCGGGTTTAGATTATTTCCTCCCCGTGTCGCTTTCCTGCCCCCACATGTTAAAGATGGTGCAAGGGAACCAGAGAGCT
Celera SNP ID:            hCV2773375
SNP Position Genomic:     734385
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(T,3)   afr(C,2)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57210):
TTTGAGGGGTGGTATGAGGTCACAGTCACAGCCACCCCTCTCACCAGCTGTGTGACAATTCTGGATTTCCTTAGCTGTCCTCTGCCTCCATCTCCCTTTC
Y
CTGTAAGTGGAAGTGGTATTCATTGATCACACACTACATGCCGGACACCAAGCTATTACATTTTTTGAATATGTTTCTTCTTTGCCTCTTGAGGACTAAC
Celera SNP ID:            hCV2773376
SNP Position Genomic:     734304
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(T,3)   afr(C,2)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57211):
GGGGCCATAGGCTGCCAAGCTGTGGTTTCTAGGAGACTCTGAGGACAGAGGGTCAAATCCATGAGTTTGTGGATGGCCTGATGATCCCCAGCGGAGACCA
Y
GTTAACTAGTACATTGATGCTGTTGTGTGCCATGTGCTGCTCAGATAGGGTTTTCTGGGCATCAAGGTGAAGGTCATGCTGCCCTGGGACCCCGCTGGTA
Celera SNP ID:            hCV2773377
SNP Position Genomic:     733184
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,2)   his(T,2)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57212):
GCTACAAAACCTGGCATTTTACTTCTCTCATTTTCCCCAAATGATCTAGGTGTCTTTTGCTCACTGGTGATAAGGGGTGACATTGGTATCACAGGTAAAA
R
TGAGTAAATTTGAGATTATTGTCGTCTTGCTTTAAAGGTTGGAGATACAGCTTCAAAAACCTTTTACTACCCACACACCCAAGGGGAGTCAAATGGATTT
Celera SNP ID:            hCV11937360
SNP Position Genomic:     63787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57213):
GTACAAACTCCTAGGAGGGCTTACTGTGCGGAGGGCCTGCGATGGTGGGCTGTGGTTCATCATGAATAGGGGGGCCATAGGCTGCCAAGCTGTGGTTTCT
R
GGAGACTCTGAGGACAGAGGGTCAAATCCATGAGTTTGTGGATGGCCTGATGATCCCCAGCGGAGACCACGTTAACTAGTACATTGATGCTGTTGTGTGC
Celera SNP ID:            hCV2773378
SNP Position Genomic:     733114
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,3)   his(G,3)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57214):
CATTCAGCCCTCGGGTTACCATTGGTAGCACATCTAGGAGCAAGTTTTAATTTTTTAGTCATAGTGACTGTGCTGGATTTGGTAGGTCGTACGAATTGGG
K
AAGAGGCATAGGACACCAAGGATTTTGCAAAAAGCAGGCAACTAACATTTGTTTTCCACCTACTATGATTATGTTAGGCTCTCAATATATGTTTACCACT
Celera SNP ID:            hCV11937361
SNP Position Genomic:     64229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57215):
GAGAGGCACAATCTGCTTTCCTTTTGATGGTGTGCAGCAGCATGATGGCCGCGCGAATTTCCAAGAAGAGGATGTTGGTCGCTGATGGCATCTTCAAAGC
Y
GAACGGAATCAGTTTCTTACTCCGGAGCTGGCTAAAGACGCTTCTCTGAAGCTCAGGTTCAAGTTACACCCATCACGACAGTAACAAATATCTTAGCCAA
Celera SNP ID:            hCV2773379
SNP Position Genomic:     732758
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,2)   his(T,2)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57216):
CTGGGACTACAGGTGGGTACCACCATACCCAGCTGTTGAAAAAAAAATGGTGGGGTATTACTCTGTTGCCCAGGCTGGTGTTGAACTCCTGGCCTCAAGC
R
ATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCTACTGCCCCAGGCTCTTCCCCCGTTTGTTAATACATACCATGACCTTGGCCTT
Celera SNP ID:            hCV8897703
SNP Position Genomic:     556953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57217):
AAAAGAGTGTTTGGCTAACTTGCATAAAAAGGATCTCATTTTTCTTTGTAACACATTACTACATACAGTGACCATAGTGTTTCTCTAATTTCTTCAGGAC
K
TACTTTGAAGATGAAGAAGTATGTGTATCCGCTTTTTGTCTTTCAGAATAACATACTGCTGTCTGTAAAAATACAGATAATTTCTCTCTTAAATTCCATA
Celera SNP ID:            hCV8897704
SNP Position Genomic:     557700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57218):
CACCACTGTACAGCATCTTTACTTAATCTGCCCTCTTTCACGTGTGTGCATCCCTGGCATGCTTAAACAAGAAAGGCAAATGAGAGAGAGCGAGTGAGTG
Y
GAGCGAGAGAGCCCTGAGGTGCCAGAAGGCTGTGGTTCCTTTGTGTCTACAGAAAAGATATAACGATTGAATTAGACTCTTAAATATCTGTGGATGTCAG
Celera SNP ID:            hCV8897705
SNP Position Genomic:     558721
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57219):
TGTTTACCTGTTTATGATAAAGGATATTACAAAGAGTACAGATGAAGCGGTACATAGGGCCAGGCATGCGGAGGGGATGTGGAGCTTCCATACCCCCTCC
Y
GGCATGCCCCTCTCCAGGCACCACATGCTCAGCAATCTGGAAGCTCTCCAAACCCTATCGTTTAGGTTTTTGTTGTTGTTGTTTTGAGATAGGGTCTCGC
Celera SNP ID:            hCV349263
SNP Position Genomic:     56663
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(T,2)   afr(C,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57220):
ATATAATTCAAGTTGAGATTTCGGTGGGGCGCAGCCAAACCATATCAGACACAAACATTCAATTCACAGCATTCTACCCCAGCCCTCCAAAATTCATGTT
Y
TTCTGACATGCTAAATACATTTATTACATCCAAATATCCCCAAAATCTTAACTCATTCCGGCATCAGCTGTAAAGTCTATGTCTTTTTAATTTTTTTAAA
Celera SNP ID:            hCV11937366
SNP Position Genomic:     80879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57221):
GCAGAAAGGTGCCTATCATGTCTTCAGTGTCAGTGCCCTGGTATGGAGCTAGCTGGCCTTCCACAGGTTCTGGAGTTAATGCTGGAGAGAAGTAGGGGTG
K
CAGAGCCTACCCTGTGTTCCTAGGGGGGTTCATCTGGAGCTAGTCCCTGACCCTTAGGTGGAAGATGCAGCTATGCCCAAGGTTCTGAAGACCCTGTAAA
Celera SNP ID:            hCV11937367
SNP Position Genomic:     81564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57222):
TTAAGGAAACTCGGCTCAAACTAGCTTCGGGGACTCGCTGTGGCCATAGGTGCCCTAGGCTGCAGTCTGAGAGTGAAACTGAGGTCTCACTCCCTTCATA
S
TCTGCTCTCCGTCTCTGCCTCATCTGGCTTCTCAGGGTGGTGGGGCGTGGGCACTAATTTGATTTGATCACTTAGAGACAACAGCTTACAAAATGCTACC
Celera SNP ID:            hCV8897708
SNP Position Genomic:     562653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57223):
ATGTTTACATGGGGCTGTGGACCATTTTGTATCATTGGAGGAGAAGCCAGGGCACTTGGCAGGGGTGTTCATGATGATAATCAGGTGGCTGGGTGGAGTC
R
CCATTTGTGGCATCCTCAAAGACTTGCCAACATAGACATTTTTGGGGAGACAGAAACACAGAAATAATTCTGCAGTGCTTTAAAGAATCTGTTAAAAATC
Celera SNP ID:            hCV11937368
SNP Position Genomic:     85422
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57224):
TTGATGTAAAGGACTACCTGAGGCTGGCTAATGTATAAAGAAAAGAGGTTTAATTGGCTCATGGTTCCGCAGGCCATACAGGAAGCCCAGTTAGGGAGGC
S
TAAGGAAACTTAAAATCATGGCAGAAGATGAAAGGGAAGCAGGCATGTTCTGCATGGCTGGAGTAGGAGGCAAGGAGCGAAGGAGGAGGTACTACCCACT
Celera SNP ID:            hCV8897709
SNP Position Genomic:     563890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57225):
CACCGCTCCCGACGGCCTCTAGATATTTTGAGTGATTCAGCAAACCTCCTAAAGTTGACCCCGTAGCTGGGGTCACAGTCCTCTTTCTCCTTCTTCCCCC
Y
ACTTCCTTCTTATATCTGGCTATCTGGGAGAGAAAAAATTTAATACAATTGATTACTTTTTAGAAGAGTTAATTTTTACTTATTACTGTGGATTTTTTGT
Celera SNP ID:            hCV25654170
SNP Position Genomic:     14673
SNP Source:               Applera
Population(Allele,Count): afr(C,22|T,8)   cau(C,29|T,3)   total(C,51|T,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:57226):
ATTGGAAATGGAATAGAGAAAAGGTGGCTTGGCTGTTTGGTTTATGTCCTAAAACCTTATCGTAATGTGATTCTCCTTAACAGAGGGATTCGTAAGCTTA
R
GACTGATAGAGATTTGGCTTTTCTGCTGTTGGATTGATAGCTCCTTGACTGCTGAAGCCATTGCCCATCTGTTCAACTGTTGTATTCACGAGGAGGTTAG
Celera SNP ID:            hCV16290780
SNP Position Genomic:     558432
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57227):
TTTCGGATTTATATTATTGCTTACTTGGCACATCTTCCATTGGAAATGGAATAGAGAAAAGGTGGCTTGGCTGTTTGGTTTATGTCCTAAAACCTTATCG
K
AATGTGATTCTCCTTAACAGAGGGATTCGTAAGCTTAGGACTGATAGAGATTTGGCTTTTCTGCTGTTGGATTGATAGCTCCTTGACTGCTGAAGCCATT
Celera SNP ID:            hCV16290781
SNP Position Genomic:     558394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57228):
TCCACCTCCTTTGAGCCTCTGCCAAACACAACTGATGGTGGCTGACTGCCTGGCTGCAGGAAGTTCTGAATAAGTGACCTCTATTTGTTATTATTTGGGT
Y
CCCTTTGTTTATTTTTACACTAGCTTTGCACTAGGTTAATTTTTTCCCACATGGCTTTTCCTGTTTGTTTCTTTGATTGTTTTTAATTAATAATTAGTTT
Celera SNP ID:            hCV16290782
SNP Position Genomic:     556306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57229):
TTATTTTCAAATGCATGTCTTTAGAACCAGAATGTGTGTAGCTGTTTTCTGGCCTGAATTTGGGCTGAGATGATGAGAAGTTTAGTTGCCACTTTCAGCT
W
AGTGGAAGTGTTTTCCCCATTTGGACTCCGGGTCATTGACAAACGTCATCACTGTTTTTAGTTGAAATGTGCTTCCATGTGGCTGTTCATCAGCACACCC
Celera SNP ID:            hCV2396071
SNP Position Genomic:     980374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57230):
TTTATACTCCTCTTTGCACGTTGCAGAAGATCAGGAATTTGCACATTATAGCCACAACCATACCCAGAACCAGATTGTCTAACACTGAATCTCGAATCCA
M
ATTCCTGGATTTGGATGGACTCAATCTGGACCCAGTATCTACATTTGGTCCAGTCATCTGTATCCGGCATCGGGGTCTTGTTGAAAAACCATGGCTTAGC
Celera SNP ID:            hCV2396072
SNP Position Genomic:     988046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57231):
AGATCCAGTGGAGTGTGGGGTGCTGAGAGAACAAGTCTATGTTTTCTTGAGACAAAGTCTTGATCTGTTGCCCAGGCTCGAGTGCAGTGGCAGCATCTTG
R
CTCACTGCAACTTCTGCCTCCCGTGTTCAAGTGATTCTCCTGTCTCAGCCTCCTAGGGAGCTGGGATTACAGGTGTGCACCACTATGCCCAGCTAATTTT
Celera SNP ID:            hCV2396073
SNP Position Genomic:     988693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57232):
CAAATGGAAAACCTTCATTCCAAAGGGTCGTTGTCTCCTCCTATTTAATAGCCCTGCATTCATGCACTTTTTTTTATCTTGCTGTCTTTTTTTTTTTTTT
T
AATCAAATACCAAAGTACTTCTATGGACTGGTCTTAAAAAAAAAAAAGAATCCATTCATAACTGTGAAAAAATACTGCCTATTAGTCTGCTATTGTGGCT
Celera SNP ID:            hCV11667937
SNP Position Genomic:     752570
SNP Source:               Celera
Population(Allele,Count): cau(-,2|T,6)   afr(T,6)   total(T,12|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57233):
CCTACTTGGACCCAAGACTGGCGTTTACTGTGGATGATAATCCGACCAAGCCAACCACCCGGCAAAGATACGACGGCAGCACCACTGCCATGGAAATTCT
S
CAGGGCCGGGATTTCACTGGCAAAGTGGTTGTGGTCACTGGAGCTAATTCAGGAATAGGTAGGCTCTTCACTTAGTTATTTATCTTTGGGACTGCTATAA
Celera SNP ID:            hCV25654177
SNP Position Genomic:     21457
SNP Source:               Applera
Population(Allele,Count): afr(C,31|G,1)   cau(C,36)   total(C,67|G,1)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): afr(C,27|G,1)   cau(C,32)   total(C,59|G,1)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:57234):
AATATAGTTTGCTGTGTGCTGGGTGGGTGGGAGGGAGCGTCCACATTAGTGAACAGCCAGGCAGTCGCTGCCTCAAATTTCTTTAGGGTTATCCTTTCAT
K
CCAGCAATTGAATTTGATTTGCACTGTTTCACTTCTCTACAAGGGTGTAAAAAGTAGAGGTTCCTCTTGAAAGAATTTCCTCCCCATCTAATTAGGAATA
Celera SNP ID:            hCV15917507
SNP Position Genomic:     959095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57235):
TTCATTGCTGTGGGTTCACTGCTTTCTCTTTTGGGCAGCCATATAAATAAAAGAACCACCTACTTGGACCCAAGACTGGCGTTTACTGTGGATGATAATC
Y
GACCAAGCCAACCACCCGGCAAAGATACGACGGCAGCACCACTGCCATGGAAATTCTCCAGGGCCGGGATTTCACTGGCAAAGTGGTTGTGGTCACTGGA
Celera SNP ID:            hCV25654178
SNP Position Genomic:     21399
SNP Source:               Applera
Population(Allele,Count): afr(C,30)   cau(C,30|T,2)   total(C,60|T,2)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:57236):
TAAGCATATTTATATATATATACACATAAAACATATATGTACATATTATCATAATGCCTACCTGCTCTTGAGAAAGTAGTGCCGTATGGCTGGGGGTTTC
K
CTCACTGGTTTCTATGGCTCTCCCCTCCCCCACTTTTTCTAAGAAGTGGTAGTACCTATCTGACTATTTTCTTGGCTGCCTGAAGAGGCCTCAAAATTAG
Celera SNP ID:            hCV11438568
SNP Position Genomic:     737815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57237):
CACAGGGCAGCTGTATTCCAGGTACTTGGTGACTCTTGGTTGCGATCTGATGACTGGCTCACAGTAGGACCATGACGTGAGCAGATTTGTAGTCCTGCAT
R
AATGAAGGAAAGAAAGAAATCTGACAACTCATTGATTCAGATTCACAGACTCTGCATTTTGAACCAGAATACACCCGAGCAATTACCTAGCACAAAATCT
Celera SNP ID:            hCV15917508
SNP Position Genomic:     955288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57238):
TCAAGAGTCTTTCTCTTCCTTTTGAGCCCAGCTCTCCCTTTGTGACCCAGCAACTTCCTTCCCCGATGATGGCCAAGCCTTGAGGATGTGAAACTGCCCA
R
TGCCCCAATCTGGAGTCCACCATCCTGGGTCTAGCTGGGGACATCCTTGAATCAGCCTCTGGGAATCACTGAACCAACATGAGTCACTTGCTACTGTGAG
Celera SNP ID:            hCV16290789
SNP Position Genomic:     554552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57239):
TGAAAAAAAATAAACAAAATACTTCTGCAACAGCAGCAGCAAGAGCTGCCGCAATGAAAGAAGAAAGAAAAGGAGGGACAGGATGAAGGAAAGAAGCAGT
R
TTAACATTCTAGTAATATTTGCATCTGAATGATATTTATATGGGGTTATTGTCCTCCCTTTGTGTATGTTTAAAATTTTCATAATAAGCATATTTATATA
Celera SNP ID:            hCV11438569
SNP Position Genomic:     737630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57240):
AGTCATGTCCCTAGTCCCTGTCTCCGTATATTTTCTCCTTCTCTTATTAGTTTATCTTTTCCAAAATGGGCTGTTTCGTCTCTGATCCTGATTTATTTTT
R
TTTTAATTAAATAATTTATTTTTCTGAGACAGACTGTCGCTCTGTCGCCAAGGTGGAGTGCAGCGGTGTGATCTTGGCTCACTGCAACCCCCGCCTCCCG
Celera SNP ID:            hCV15917509
SNP Position Genomic:     923173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57241):
CTGAAGGAAAGGATTCGATGACTATCTTTTTTTGGCACAAATGTGATCCTTCTGGAGGCCAGAAGATAGATTCAGTGGGCCCCAGTTCTTTCAGGTTTAA
K
GAATAAGCATTTTGGTCTATGAAAAATGGGGTTTTCCTAAAGTATAAGATTGTCTTATATTTATAAATGCCTGTGTTCATTGCTGTGGGTTCACTGCTTT
Celera SNP ID:            hCV25654179
SNP Position Genomic:     21223
SNP Source:               Applera
Population(Allele,Count): afr(G,21|T,1)   cau(G,23|T,1)   total(G,44|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:57242):
AAGGTCATAGAGCAACCAAGTGGCAGGGCTGACTCCCACCCAGGTGTGTTCCATGGGCAGCGTCTTCTTACTGCACTGTCCTGACTTGCTCTAGTGAGAT
M
TAAGAGAGGCACAATCTGCTTTCCTTTTGATGGTGTGCAGCAGCATGATGGCCGCGCGAATTTCCAAGAAGAGGATGTTGGTCGCTGATGGCATCTTCAA
Celera SNP ID:            hCV2773380
SNP Position Genomic:     732654
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   his(C,1)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57243):
TTATTCACTATCACGAGGATAGCGCAGGAAAGACCGGCCCACATGATTGAGTTACCTCGCCCTGGGTCCCTCCCACAACATGTGGGAATTCTGGGAGATA
Y
AATTCAAGTTGAGATTTGGGTGGAGACACACCCAAAGCATATCAGGGTCCTAGGCAACTTTGTGTGAGAACAGAACAGAGAGGAAGCGACACACCTTTCC
Celera SNP ID:            hCV2773381
SNP Position Genomic:     732225
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,6)   afr(C,1)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57244):
GCAAAGTACTTCAGGGCCTGTATTAGTTTGTTTTTCACGCTGCTGATAAAGACACACCCGAGACTGGGAAGAAAAAGAGGTTTAATTGGACTTACAGTTC
Y
GCACGGCTGGGGAGGCCTCAGAATCATGGCAGGAGGTGAAAGGCACTTCTTACACGGCAGCGGCAAGAGAAAATGAGGAAGAAGCGAACGTGAGAACCCC
Celera SNP ID:            hCV2773382
SNP Position Genomic:     731997
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57245):
GAAGAGAGGAGTTGATGATCACATTATTGTGTCAGCCGCCTGTGTGAATAAGGAAGGACAGACTCCCACCCCATCCCATCATTCCAGGTTCAATAAGAGG
Y
AGGTGCTTCCTAAAGCAGAAAAATGTAAGGGAAGTCATCATCGCTTATCATCACCTGAATGTTCACCATGGTGACCCACATCTCAGGATGCTGCAAAACG
Celera SNP ID:            hCV2773383
SNP Position Genomic:     730822
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|T,6)   his(T,6)      total(C,2|T,12) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57246):
TTTTATTGCATGCTTTGAAGTTTGAATACACTTTCAGTAGCTCTTCGTTATCTCAAATTAAATCTTAAATTGAGCTTGTGGTTCTGTGAATTAATACTCC
R
GCCTTTCAGCCCTGCTGCTGAGGTCATTCAAATCTAATGGTGGAAACGGTCACAGGGTCAGGCCTTGGATGGTGCTGTATAGAAATGCCTTAATGATGCT
Celera SNP ID:            hCV2773384
SNP Position Genomic:     730569
SNP Source:               Celera
Population(Allele,Count): cau(A,6|G,2)   afr(G,2)   his(A,6)   total(G,4|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57247):
TATTTAGGTTGGAATGCAAGGGAACTAAAGGTAGGGGAGATTCTTAAGGAAGTCTACTTTCTCTTCAAGAATGCTATCAAATTGAAAGGTAATTCCTAAA
S
AAGAGTCATTTGTAAATTAGGGAGGAAGAGCTAAAAAAGATTCCTAGCAAGAAACATCATAAAGGGGCTTGATAAAGCCAAAAAACTAAAAGAAAAAAAA
Celera SNP ID:            hCV2773385
SNP Position Genomic:     730259
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(G,1)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57248):
CCAAGCGCCCCCCAGCCCCCACCCCACAACAGGTGTATGTGGCCTCTGGTTTATCCTTCTTTCCCCCTGCTCACCACATGGCTTCTCATTTTGAAAACCC
R
GTGGCTAATAAAGTAGATGAGTTTCAGGATTGCAAAATATTGTGATCCTGGCCTTTGTCCATTGTGTAATCTTCACAGTGACCAGAGTGTTTGCAGTTCC
Celera SNP ID:            hCV2773386
SNP Position Genomic:     728853
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   his(A,2)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57249):
GCCACAGGACTATAGCCTGGGCAGTTTTGAGTGCTGCCTCTACCATGTAACTAGCTTGCCAGTCAAGTCATTAACTATTCGGGGCCTTAGTTTCGTCTTT
Y
CTGAATTGGAGCCAGTATACGTAATTCCAAAGGTTGCTTTTAAGCGTAAGTGAGAATATTGGCAGAAATTCGTTAGCACTGAGAGAGGGAATGTAAAGTG
Celera SNP ID:            hCV2773387
SNP Position Genomic:     726206
SNP Source:               Celera
Population(Allele,Count): cau(T,10)   his(C,1)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57250):
GCAGTGAACTAAGATGCCACAGGACTATAGCCTGGGCAGTTTTGAGTGCTGCCTCTACCATGTAACTAGCTTGCCAGTCAAGTCATTAACTATTCGGGGC
M
TTAGTTTCGTCTTTTCTGAATTGGAGCCAGTATACGTAATTCCAAAGGTTGCTTTTAAGCGTAAGTGAGAATATTGGCAGAAATTCGTTAGCACTGAGAG
Celera SNP ID:            hCV2773388
SNP Position Genomic:     726191
SNP Source:               Celera
Population(Allele,Count): cau(C,9)   his(A,1)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57251):
GAAAAGAGGTTTAATTGGCTCATGGTTCCGCAGGCCATACAGGAAGCCCAGTTAGGGAGGCCTAAGGAAACTTAAAATCATGGCAGAAGATGAAAGGGAA
R
CAGGCATGTTCTGCATGGCTGGAGTAGGAGGCAAGGAGCGAAGGAGGAGGTACTACCCACTTTTAAACAACCAGATCTGGTGAGAACTCACTCACTGTCA
Celera SNP ID:            hCV8897710
SNP Position Genomic:     563929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57252):
AGTGCAAGTTTGTTGTGAAGAACACGTGCCTTGGAATTAACACCTATGGAAGGGAAGAAAACGAAGATGGAGTGGGCAGAGGGAGAAGCTGACTGAGATG
S
AGTCCAGCAAGGGTCTCAGTCAACCTTATGAAGCTAAAAGGGCCCATCAGAGCTAATCCCTATTGGGCTAATGTGGCCAGGCTTTTATAAACCTGCCTTG
Celera SNP ID:            hCV2773389
SNP Position Genomic:     725448
SNP Source:               Celera
Population(Allele,Count): chn(C,7)   cau(C,7|G,1)   afr(C,7)   his(C,7)   total(G,1|C,28) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57253):
AATTGCACAATTCACACACCAGGCTGCCACTTTGGCCCCTGCGTCACCTTCACCACCACCCAATGTGTCCTGCTCATCACTGAGGTTTGTCATTTTTACT
Y
TGAGTCTGTCCATTGTCATCATCTCCACCATCACCCCTTTTGTTTTCATTGCCACCCTTGCCTGGGGTGAGTGAAGACGCTCTTCTCTGGCTTCCACCCT
Celera SNP ID:            hCV8897712
SNP Position Genomic:     564628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57254):
AGAAGTGGTGGAACAAAGGCACTGTGTACACCTTTGAAACAATTAACTTCACCAAAATTACTAAACTGTCCTCTAGAATGGTTAAACCAATTTCCTCTCT
W
CCATTCACACGTGAGAATGCCTGTGGCCCCCCAGAAATTATCTCCAGCAGCAGCAACAGAGAGGACTGGAATGCCATTGACAGGTCCCACAAGTCAGCAA
Celera SNP ID:            hCV8897713
SNP Position Genomic:     568639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57255):
CACGCCCGGCTCAAATCCTTCTTACTTTTCCTCAAGAACTCACTTCCCACCCAAACCTTTCCTATTGTGGCAGCTGTTATCTTGTCCAGCACATGTGTCC
R
CACTTGGTATTAATAGCTCCATCTTAGGAACTATGAAAGTGAGGGGGGTGGTGGTAATTTGCATGAACTGGTTTGGGCCAGTTATGGTCTGTTACATCCT
Celera SNP ID:            hCV11937372
SNP Position Genomic:     96403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57256):
TGGTAGTAGTAGTAGTGAATGCCCTGACTTTGGGGTTTGCAGTAAGCTAGGATTAAGTGCTTCACAGTGAGGCACAGTGGGGAGCTACTCTGAGGATGAA
W
TGCCTAGTAAATAAGTGAGGTTTGTATAACCGAGGCCAGATCTTAGAACCTCCTGCTATCTGTACATAGAAGAATGTTTTAGTCAGAGGCAAGGCAAGGT
Celera SNP ID:            hCV8897714
SNP Position Genomic:     569628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57257):
AGACAGTAAGAAAGGTGACGTCAATCTGAGATGAGAGAGAGAGCAAAACAGTTCTTTTGACCACCTTGACCCCGACCTTGAAATAAGGTGGAACTAATAA
M
TCCCGCTTTGTGCTGGAGCAAGTTTTGGCTGAGTTTCTGTCACTTGCAACCAAATCAGTCCTATCCAGTATACCTAGTGACTCTCTGGTCTCCAAAGGCT
Celera SNP ID:            hCV11937373
SNP Position Genomic:     96751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57258):
TGAATGCCCTGACTTTGGGGTTTGCAGTAAGCTAGGATTAAGTGCTTCACAGTGAGGCACAGTGGGGAGCTACTCTGAGGATGAATTGCCTAGTAAATAA
R
TGAGGTTTGTATAACCGAGGCCAGATCTTAGAACCTCCTGCTATCTGTACATAGAAGAATGTTTTAGTCAGAGGCAAGGCAAGGTCACCAGGATTCACTG
Celera SNP ID:            hCV8897715
SNP Position Genomic:     569643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57259):
GAATGCCCTGACTTTGGGGTTTGCAGTAAGCTAGGATTAAGTGCTTCACAGTGAGGCACAGTGGGGAGCTACTCTGAGGATGAATTGCCTAGTAAATAAG
K
GAGGTTTGTATAACCGAGGCCAGATCTTAGAACCTCCTGCTATCTGTACATAGAAGAATGTTTTAGTCAGAGGCAAGGCAAGGTCACCAGGATTCACTGA
Celera SNP ID:            hCV8897716
SNP Position Genomic:     569644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57260):
AAGAATGTTTTAGTCAGAGGCAAGGCAAGGTCACCAGGATTCACTGAGAGTGTTGGTCAGCATTTCATCTGCATATACAGGACTGGAAAATAAGAGAGCG
Y
AATGAGACATCTAGTTTTTTTCTCTTTCGTTTGTTCTGTTTCCCACTGAGAGAATTTTCTAGCTTTATGTGGAGAAAACAGTATTGGAAATTATTACTCA
Celera SNP ID:            hCV8897717
SNP Position Genomic:     569798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57261):
GTAAGAAAGGTGACGTCAATCTGAGATGAGAGAGAGAGCAAAACAGTTCTTTTGACCACCTTGACCCCGACCTTGAAATAAGGTGGAACTAATAAATCCC
S
CTTTGTGCTGGAGCAAGTTTTGGCTGAGTTTCTGTCACTTGCAACCAAATCAGTCCTATCCAGTATACCTAGTGACTCTCTGGTCTCCAAAGGCTATGCC
Celera SNP ID:            hCV11937377
SNP Position Genomic:     96756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57262):
ATTATAGTGTCTGGCATACAATAAATACTTTGTAATGTTACTGGTGTTTTCTTACCGTTATTGTCTCACTGGTGACCGTTTGAAATGTTGAAGCTTTATT
R
TTACAGATAATGGTGGATATAGTCTCTTCCTTGTTTATTTTTTGACAGAATCTTTTTTTAAAAAAGTTTTTATTTGTTTGGTGAGAATTTACTTGTTACA
Celera SNP ID:            hCV11937378
SNP Position Genomic:     99044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57263):
AAAGGGGGTTAAAAGGGTTTAGGGGAAGTTTAGTTGTCTTCCTTTTATCTCTAACTCTAAAACCCAACTGCTGGCTGAATTAAAAGTCTCTTACATAATG
R
TCAGAGGAGTTTTGAGTATCGGATCTTTGTGTACTTGCTTTTTAAATTCAGTCACGTCTTAAATAGTACTTTTCACTCTCCTCCTCTCCACACCACTTTA
Celera SNP ID:            hCV8897719
SNP Position Genomic:     574492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57264):
CTCTCTAGAAAAAAGTAAGAAATATGGAAAGAAATCTAATTTAGAAAAATGCACGCACCCACAGGCACGCTTCACAGGACTGGCAGGTGGAGAGGATGTT
T
GTTAACAGGGCTGGCTATTTTACTTTAAGTGCTGCAAACATTGCACTAATGTTTGGGTCTTTGCTTTTGGCAATCACTTCTCTTGTTAATTTTTTTTTGG
Celera SNP ID:            hCV11667941
SNP Position Genomic:     750427
SNP Source:               Celera
Population(Allele,Count): cau(-,8|T,1)   afr(-,8)   his(-,8)   total(T,1|-,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57265):
CTCCTTCTAGAACTAGAACATAAGCTCTCTGAAGTCAGGGACCATGCCTAGAATCGCCTTCCTTTTATCTCCCATCAGCCGAAACTAACTCTGCTGTGTC
R
CGCTGTGTTAGGCTGTGTTGGCTGTGAGTAAGAGAAGTCTCACCCAACTAGCTGAAGCGAGGTGGGTTGGAGGGGGGATGCCTTGTGGAAGTGACAACTC
Celera SNP ID:            hCV16290790
SNP Position Genomic:     554301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57266):
TTTGCCTCCTTCTAGAACTAGAACATAAGCTCTCTGAAGTCAGGGACCATGCCTAGAATCGCCTTCCTTTTATCTCCCATCAGCCGAAACTAACTCTGCT
R
TGTCACGCTGTGTTAGGCTGTGTTGGCTGTGAGTAAGAGAAGTCTCACCCAACTAGCTGAAGCGAGGTGGGTTGGAGGGGGGATGCCTTGTGGAAGTGAC
Celera SNP ID:            hCV16290791
SNP Position Genomic:     554296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57267):
CAGGCAGCTTCTACTCATGGTGGAAAGTGAAGGGGAGCCAGCATGTTCAGAGAACATATAGGGAGAAAGGGAGCAAGAGAGGGGAGGGGAGGTGCCAGAG
M
CTTTAAAAGAACCAACTCTCTGGGAACAAATAGAGGGAGAACATTAATCTAGCCATGAGGGATCCACCCCCGTAACCTAGACTCCTGTCATCAGCCACGG
Celera SNP ID:            hCV16290797
SNP Position Genomic:     553074
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57268):
CTCCGAGCTAGAGTACAATGGTATGATCATAGCTCACTACAACCTCCAATGCCTGGGTTTAAGTGATCCTGCCACCTCAGCCTCCCAAGTAGCTAGGACT
R
CAGGCGAGAGCCACCATACTGGGCTAATTTTTGTTTTTTATTGAGATGGGGTCTTCCTATGTTGCCCAGCCTGGTCTCAAACTTCTGGCCTCAAAGCAAT
Celera SNP ID:            hCV11438577
SNP Position Genomic:     731336
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57269):
TTGCATTGCATAGTTAAAGTTCTTTAAATTCTTCTCTAAACCCCAAGGCTAAGCAATATACAATCTAGTTACAATGGTCTGCTTGCTGTTACCAGAATCT
R
TCAAGCTCTTTCCTATCTAAGGGTTTTTTCCATGTACTGGTTTCTCTCCTGCGTGGTCTTGTTCTACCCTTGAGGAGGGTACCACTTCCTCATTGCTTAG
Celera SNP ID:            hCV16290798
SNP Position Genomic:     552586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57270):
TTAGTTATTTATCTTTGGGACTGCTATAATGAGATCCACTTAGATCTAGCTATAATGGAATTTTGTTTAGTGGTTCTCTGATTTAAACATGACTTTTATC
Y
TTTTCAGATATCGTTTCATTAACATCACTACCTCTTTTTAAATCCTAATGTTGTCATGGAAGCCTGTGTAGGGGCTGACCTTGAAGTCTCTGAAAGCTGA
Celera SNP ID:            hCV25654187
SNP Position Genomic:     21629
SNP Source:               Applera
Population(Allele,Count): afr(C,29|T,1)   cau(C,36)   total(C,65|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:57271):
TACAAAATTAGCCAGACATGGTGGTGCATGCCTGTAATCCCAGCTACTCAGAAGGCTGAGGCGGGAGAATCATTTGAACCTGGGAGGTGGAGGTTGTGGT
R
AGCTGAGATCACGCCATTGCACTCCAGCCTGGGCAACGAGCGAAACTCTGTCTCAAAAATGAATGAATGAATGAATGAATGAATGAAATACTACTTCTCC
Celera SNP ID:            hCV16290799
SNP Position Genomic:     551604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57272):
GAAGCAGTGTCACGCATTTTAGAAGAATGGGTAAGCGCTTGACTGTTGTTGTTTTTTTTAATTGTCAAATACACATGCCGGGCTAACCATATGGAGATTT
Y
AGTGGAGTGTGTAAAGTTTATTGCTCTTGGAATCATGTCTTTATTTTTAAAGTCATCTTCACTTTGTTTGTCTTATGAATGAAAGCATGAGCAAGTCCAT
Celera SNP ID:            hCV25654188
SNP Position Genomic:     70717
SNP Source:               Applera
Population(Allele,Count): afr(C,37|T,1)   cau(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:57273):
ATGGATTATCCTTGGTTGTAGTGTTTATGTCCACATCACATGGGATATTTTATTTTTCAGGCCTCTTCATGTGCTTGTGTGCAACGCAGCAACTTTTGCT
S
TACCCTGGAGTCTCACCAAAGATGGCCTGGAGACCACCTTTCAAGTGAATCATCTGGGGCACTTCTACCTTGTCCAGCTCCTCCAGGATGTTTTGTGCCG
Celera SNP ID:            hCV25654189
SNP Position Genomic:     332522
SNP Source:               Applera
Population(Allele,Count): afr(C,33|G,1)   cau(C,34)   total(C,67|G,1)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:57274):
CCACAGGACACTACTGTGCATTTGCCTGTGATTTGCCATTGGGTTGGAGTACTTCTCCTGAGTTTCTGCAGTGTTCTAGGTATGGTCTTAGGCCCTGGAA
W
AAGACAGTGTAGGAAACACAGAAGGTGCCTGATTTCCTGGGCCTAGCTAAGGGGAAAAAGCGAGACAATGGGGTCAGAGGAAGCTCAGCTGAACAGATGA
Celera SNP ID:            hCV15917519
SNP Position Genomic:     922629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57275):
GGGTATTGGGGATGAGTCTTTGTGTGGTGGCAAACGGGCCCTGTCTTCGCTTGGCTTCCTCCTAAAATTCCCAGGACCTCTTCGGGTCCCAGCCCTTTCT
S
TTCCCCTGAGATTGCGCCTCCTCACCCTCTGTCTTGGATGGAAAGAGTTCCAAGGCAGTCCAGTCACCCCAGTGAAAAGTTTTCTGATGAGGTCAAGCCT
Celera SNP ID:            hCV2773390
SNP Position Genomic:     725175
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(C,1|G,6)   afr(G,6)   his(G,6)   total(G,24|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57276):
CAAGTGTGTTTAATGTGAAAATAGAAATGGAGGGCTTTTAAAAGAGCTTACTCAAAATCCTGCCAATTACTGAAATCTACCAGACAAGAAGGAGCCACTC
Y
TTTTTTTTTTTTTTTTTTTTTTTTTTTTGATACAATGAGGGGAAATGTTTCTTCCACAAAAGCCTGGCCGTTTGTCTTTAAAAATTTTCATCTTTTGGGT
Celera SNP ID:            hCV2773392
SNP Position Genomic:     723922
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57277):
CAGTGCAGGACAGTGTGTCATTGCAGGAGAAGACAGAACCCGGCCAGATCCTCCCGCTGCCGGCAAGCGGAGTCAGTTACTGGGAAGCCATAATAATTCT
K
TCTTCTAGAGAATTTTGGCAAAAATGTGCCTCCATCTTACATCAACAATTTTTCATCTTTCTGGAATTTTTATTTCCCCTTCCCCTCTTGTTCCTTTTTA
Celera SNP ID:            hCV2773393
SNP Position Genomic:     721616
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(G,2)   cau(T,5)   afr(G,2)      total(G,4|T,5) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57278):
AGATATATAATGATGCCTATCTGATTCTGTGGTGGTCTGGCTTTGATGTATGTATATGTGGGCAGGAATGTGTGTGCGTGTGTGTGTGCATGTGTGAGCT
Y
CTGTGTGTGTGTTCATCACGTATCCATTGTGTCTCCAAGGTCTTATCAACAGCAACAAAAGGCCTCCTTTGAGATCAATCACATTCATTCGATGTTTGTT
Celera SNP ID:            hCV2773394
SNP Position Genomic:     721021
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,7)   cau(C,7|T,1)      total(C,14|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57279):
CTAATTTCTGGGGACACATATTTTGTCCTGGTTAGAGAGATATATAATGATGCCTATCTGATTCTGTGGTGGTCTGGCTTTGATGTATGTATATGTGGGC
R
GGAATGTGTGTGCGTGTGTGTGTGCATGTGTGAGCTCCTGTGTGTGTGTTCATCACGTATCCATTGTGTCTCCAAGGTCTTATCAACAGCAACAAAAGGC
Celera SNP ID:            hCV2773395
SNP Position Genomic:     720984
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,8)   cau(A,8|G,1)      total(G,1|A,16) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57280):
CGTCTAGTTATAGGAAAATACTGAGATACTTGTGAGATGTTTTCTTTTTTTTTTTTTCCAACTTGTATACACGTTGTTCTATAAGTGGTTGATTGTTTTT
Y
AGGAAAAAAAAATTCAGCATCTCAAATGTACCTTTAATATTGCTTCTGATTTTTGTTGTTTTGCTATCATAGCGTTACCTACCTCACAGAGATGTTTTAG
Celera SNP ID:            hCV2773396
SNP Position Genomic:     720561
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57281):
ACATATGAATGAGGGGTAGAGGGACACAAACATTCAGTCCCTAACACTTGGTCAAGTTACTTAAGCTTGGTAAGCCTCTCTCTTCTTACTGAGTCATGAG
S
ATAATAAGATATACCTGTTAGGGTTCTTTTGAGGAATAAATGGAATTTTTAAAGAATTGTGCCAGACATGTAATAATTACTTGATAAACTATAGCTATTA
Celera SNP ID:            hCV2773397
SNP Position Genomic:     719319
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   his(C,1)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57282):
TTTTGTGACATTCTTAGTTGTGATCTACCTTATGTTGTATACACATGGTCACTCACATACATAGGTATATTATTCTGCAATTGCTGAGTAATTGATGATC
S
TTCATTCTCTCTGTGATTCATAGGCTCTCTGGGTTGGATAAATCACTTCGGGGAATTATATCTACTAGTATATTTATGTCACTAGAATTCCTTTGAGAAG
Celera SNP ID:            hCV2773398
SNP Position Genomic:     718698
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4|G,2)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57283):
TTCCTTTTATCTCTAACTCTAAAACCCAACTGCTGGCTGAATTAAAAGTCTCTTACATAATGGTCAGAGGAGTTTTGAGTATCGGATCTTTGTGTACTTG
Y
TTTTTAAATTCAGTCACGTCTTAAATAGTACTTTTCACTCTCCTCCTCTCCACACCACTTTATGTGTTTGCTAGTAGCTTCCATGAAACTCTATGGGTGA
Celera SNP ID:            hCV8897720
SNP Position Genomic:     574530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57284):
CTTTGGTAATTCAGTATCCGAAAAACAATCAGTGTTTTGTGACATTCTTAGTTGTGATCTACCTTATGTTGTATACACATGGTCACTCACATACATAGGT
R
TATTATTCTGCAATTGCTGAGTAATTGATGATCCTTCATTCTCTCTGTGATTCATAGGCTCTCTGGGTTGGATAAATCACTTCGGGGAATTATATCTACT
Celera SNP ID:            hCV2773399
SNP Position Genomic:     718664
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,2)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57285):
ATCAGTGGTTACCAGGCAGTGTTGCATTTTTTCCATCCCATACCTCTGTGTGTGTTCCTTATCTGTTTCTAGGATGTGCCCTCTGCCCCGTCACATCACA
Y
TCTGTGCTGCTCTCAGCCAAAGCTCTTCTTAAATACACTAGCCATCAAAACCATACAACTTGGCTGGGTGCGGTGGCTCACACCTGTAATCTTAGCATTT
Celera SNP ID:            hCV8897721
SNP Position Genomic:     575372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57286):
ATATGAAAACAGGAAAACACATGGAGTCTTGGAGGGTAGGGAAGTCTTGATGAGTAAGATTGGGTCTGAGATAAACCTAAAAGAGGGTCAAGATTTTGAC
R
GAGGGCTGGAAGGGAGGAACGATAGGAAACTGACCTTTTTTCAGATCTCTTCTTGTGCGTGGCCTGGGGTTAAGTGCTTTACATGCATCCCCTCATTGAC
Celera SNP ID:            hCV8897722
SNP Position Genomic:     586157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57287):
TTTGTAAGAGCCTTTTTCTGGGCCCCACTTCCAGAGGGTTTTTCTTTTTTTTTTTTCTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAG
Y
GGCGCGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACG
Celera SNP ID:            hCV11937382
SNP Position Genomic:     7451
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57288):
GAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCC
R
TCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGTGCCATGTATATTTTGATTACAAAAAATTTCATGCGGTGTTACTTTCTTTTTATTGGTAGAGGGTCTT
Celera SNP ID:            hCV11937383
SNP Position Genomic:     55254
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57289):
AACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGA
R
TGGCGTGAACCCGGGAGGCGGAGCTTGAAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAGAGAAAAAAAA
Celera SNP ID:            hCV11937384
SNP Position Genomic:     58462
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57290):
GAAACTGTTTTCTCTGGCCAGGAGACAGGCTTCGTTTTCGAAACTCACCCAGGAAGGCAGTGTTCTTCTTTTCAAAAGGCATTTTTCTGTTGACTGTGCA
Y
GAAGCCACATAGTAATAAACAGTTTCCATATCCAAGCAGCTAAGGCTTGTGCCTTGCAAGTTAAGTGGAACATCACGATCTATATCTCAGTTTTCCTTAT
Celera SNP ID:            hCV8897728
SNP Position Genomic:     594340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57291):
AAAACTTAACAATTGTGGAAGCAATGAATTGAAGGACTAGGGTCACCAGTGGAGTCCCATAAATAGGTTGTTTATGATCCCTGTGAAACAAGAAGACCCT
Y
TTAATTTCATGCTTCTTAAACTGGGGTATGAGTGGCCCCAGGTTTCCCTGTTGGGGGTACTGATACCAGAGTTCATTTGAAGTCATTGGAAACCAAGGCA
Celera SNP ID:            hCV8897729
SNP Position Genomic:     600162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57292):
GCCACAGGACACTACTGTGCATTTGCCTGTGATTTGCCATTGGGTTGGAGTACTTCTCCTGAGTTTCTGCAGTGTTCTAGGTATGGTCTTAGGCCCTGGA
R
TAAGACAGTGTAGGAAACACAGAAGGTGCCTGATTTCCTGGGCCTAGCTAAGGGGAAAAAGCGAGACAATGGGGTCAGAGGAAGCTCAGCTGAACAGATG
Celera SNP ID:            hCV15917520
SNP Position Genomic:     922628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57293):
CCTTTTAGAAGCTGAGGCAGGAGGATTGCTTGAGGCCAAGAATTTGAGACCAGTCTGGGCAACATAGGCAGACCCCATCTCTAAAAAAAAAAAAAAAAAA
A
TTAAATTAGCTGGGCTTGGTGGTGCACACCTGTAGGCTGAGCTGCTCGGGAGGCCAAGATGGGAGAATTGCTTGAGGCTGGATGTGTGTGGCTATGGTGA
Celera SNP ID:            hCV11667953
SNP Position Genomic:     749763
SNP Source:               Celera
Population(Allele,Count): cau(-,6|A,3)   afr(-,6|A,3)   total(A,6|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57294):
TCAGTTGGCATGCGATATGCTTCTCAGGCAGTAATTTAGAGACTGTCAATTCCTGAGAGCCGCTGGGGAACTGAGCAATCGTCTGCATTTCGTCGCTTTA
R
CCCGAGCTGGGTCTTTGAGCTGGCAGAGACCAAGATCTTTTTCTGGGAAGGGATGGTCCTATTTAAGGAAGGCCCTGGATTTTGTCAAGTTTGAAAGGTT
Celera SNP ID:            hCV15917521
SNP Position Genomic:     921526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57295):
GGAGTTCATTTTCAACCGATTCAGCAGTGGAACACTTGAAGAGGAGGAAGTCAAAATTCAAAATGGGTTGGGTGCAGTGGCTCTCTCCTGTAATCTCAGC
S
CTTTTAGAAGCTGAGGCAGGAGGATTGCTTGAGGCCAAGAATTTGAGACCAGTCTGGGCAACATAGGCAGACCCCATCTCTAAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV11667954
SNP Position Genomic:     749663
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,3)   afr(C,5)   total(G,3|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57296):
AAAATATTTGTATCTCCCCACAATAAAAGTCTGTACCAATTAAGCAGCTACTACCCATTCCTCTTCCCTACCATTCTACCTTCTGTCTCAGTAGGTTTGC
Y
TATTTGGGATATTTTATTTAAGTGGGATCATACAATAGCATCATGTGTTCAAGGTTGACCCACATTGTGGCATGTATCAGTACTTCATTCCCTTTTATCA
Celera SNP ID:            hCV8902100
SNP Position Genomic:     885505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57297):
ATATTGCTTCTGATTTTTGTTGTTTTGCTATCATAGCGTTACCTACCTCACAGAGATGTTTTAGGTCATAAGTATTTTTCATTTAATTTTTTTTCCCCTT
M
ATTTCCTTTTTTTCCCTCCTAAGCTATAAATATACAGCCTTAAAAAAAACACTCAGAAATTTAAGTCCAAGAAGCCTGCTTTTCTTGATACCTTTCAAGT
Celera SNP ID:            hCV11438584
SNP Position Genomic:     720698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57298):
AAATTCAGCATCTCAAATGTACCTTTAATATTGCTTCTGATTTTTGTTGTTTTGCTATCATAGCGTTACCTACCTCACAGAGATGTTTTAGGTCATAAGT
R
TTTTTCATTTAATTTTTTTTCCCCTTAATTTCCTTTTTTTCCCTCCTAAGCTATAAATATACAGCCTTAAAAAAAACACTCAGAAATTTAAGTCCAAGAA
Celera SNP ID:            hCV11438585
SNP Position Genomic:     720671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57299):
ATGGATTATCCTTGGTTGTAGTGTTTATGTCCACATCACGTGGATTCCCGAAGGAGCATGGATTATCCTTGGTTGTAGTGTTTATGTCCACATCACATGG
R
ATATTTTATTTTTCAGGCCTCTTCATGTGCTTGTGTGCAACGCAGCAACTTTTGCTCTACCCTGGAGTCTCACCAAAGATGGCCTGGAGACCACCTTTCA
Celera SNP ID:            hCV25654196
SNP Position Genomic:     332465
SNP Source:               Applera
Population(Allele,Count): afr(A,25|G,9)   cau(A,2|G,36)   total(A,27|G,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:57300):
GAGGAGAGTCAAATGGGAGTTTCTACCGATGCTCTTGAAAGGATCTTGTTACTCAGATGTCTCTAAGACAATGATCAGTACCCATCTCTCAGAGCCTGTG
Y
AGCCGTCCATGCTTGAGGCATGAGATGCTGAAGATAAAGGTCCCCAGTGGTCCAGGTTTTTCCTTCTCAGCTTGGAAAGCAGCAGGAAAACTGCACTGCA
Celera SNP ID:            hCV8902105
SNP Position Genomic:     887108
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57301):
CATGGTGGGAATCTAGAAGACGGAGAAAGAATTTCTCATTCCCGAAGGAGCATGGATTATCCTTGGTTGTAGTGTTTATGTCCACATCACGTGGATTCCC
R
AAGGAGCATGGATTATCCTTGGTTGTAGTGTTTATGTCCACATCACATGGGATATTTTATTTTTCAGGCCTCTTCATGTGCTTGTGTGCAACGCAGCAAC
Celera SNP ID:            hCV25654197
SNP Position Genomic:     332414
SNP Source:               Applera
Population(Allele,Count): afr(A,9|G,25)   cau(G,36)   total(A,9|G,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:57302):
GAAGCTGAGGCAGGAGAATCACTTGAACTCAGAAGGCCAAGGTTGTAGTAAGCTGAGATTGCACCACTGCACTGCAGCCTTGGCAACAGAGCGAGACTCC
M
TCTCAAATCAATCAACCAGTCAATGTGTGCCCCCTTTTCCTCCAACTCCCACCCCAAATCCTTGCTGAATCATACCTATCCTTCACCTTTATAAGCATCT
Celera SNP ID:            hCV8902106
SNP Position Genomic:     887541
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57303):
TGGAGTACAGTGGCGCGATCTGAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAATAGCTGGGATTACAGGTGCA
Y
GCTACCATGCCCGGCTGATTTTTGTATTTTTAGTAGAGGTGGGGTTTTGCTGTATTGGCCAGGCCAGTCTCAAACTCCTGACCTCAAGAAATCCGCCCAC
Celera SNP ID:            hCV11517976
SNP Position Genomic:     51030
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,1)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57304):
TCCTAATAAGCCTCTCATCCTCAGCAACGGAGGACAGTTGCCCACTCAAAGCCTTGTGACATTCTAGGGTATCCTATTTCTACATGGTGGGAATCTAGAA
R
ACGGAGAAAGAATTTCTCATTCCCGAAGGAGCATGGATTATCCTTGGTTGTAGTGTTTATGTCCACATCACGTGGATTCCCGAAGGAGCATGGATTATCC
Celera SNP ID:            hCV25654198
SNP Position Genomic:     332332
SNP Source:               Applera
Population(Allele,Count): afr(A,6|G,24)   cau(G,36)   total(A,6|G,60)
SNP Type:                 INTRON


Context             (SEQ ID NO:57305):
CTGAGTTTCTTGTGGAAGTGGGCTTGTGTTTTGCTTTTGTAGACTGACACTGAGAATAGCATCCAAACATCTTTTTCCCACCAAGGCATCAAACTCCATC
R
TTAGGAATTCCTTCATAGAATCAAAGAATCAGAAAGAGCTGAAACATAGACCACGGACACTCAAATTGTTTATCCTGAAATGAATGGGAAAACCTAAGCT
Celera SNP ID:            hCV8902107
SNP Position Genomic:     890578
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57306):
AACACACACAAGCCACTGTTAGATTTTACAAAACTTTAAAAAGTAATTATCTTAAAGATATCTAAGATAGTGATCTGGTTACATAGATTATCAGAGATAC
T
TTTTTTTTTGATTATCAGAGATACTTTTAAAAAAGCAACTACAAGGTAAGGATTATCCGTTAATTTAGTGTTTTTCTATTAAACTCAATTTGCTTTAAAG
Celera SNP ID:            hCV11517978
SNP Position Genomic:     53513
SNP Source:               Celera
Population(Allele,Count): cau(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57307):
TTTATGCATTTAGAGCTCCCCTCTTGTGTTTCAGAAAGGAGGAGTTGTTGTTTTCTTTTCACTTGAGTTTAATAAATGAAAAAGGGGAAGGGAGAGGGAA
R
GAAGAGGAAAAAGCACAAATGTGCTTGTTTTTGGATCAGCCCCTGTACTGGGCACATGGATGCAGTCAGTCCTCAGTGTACCCCAGGAAAGAGGAAACTG
Celera SNP ID:            hCV16083642
SNP Position Genomic:     912443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57308):
CCCAACCTCTGCTTTGGAAGGCCTAACTCAGTTAAACATTACAAGTTCATGCAGCACGGTGTGATGGCTCACGCCTGTGATCCTAGCACTTTTGGAGGCT
Y
ATGTGGGTGGATCGCTTGAGCTGAGGAGTTTGAGACTGGGCAACATGGTGAAGCCGTGTTTCTACAAAAAATACAAAAAAAAAAAAAAATTAGCCAGGCG
Celera SNP ID:            hCV8897730
SNP Position Genomic:     606738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57309):
GAGGGGGACATTTGGGAATGGCATTTTTAGTACTCACAAGGTAACTGGGGCACTCTTGGTCTTGGGGAGGGGAGGTGGCTGGGGACGCAGAGGGTCCTGC
R
GTGGGTGGATACTTACAACATAGAAATGTCCTGGCTCTTGATGCTGGCTACACCCTCAGTAAGAGATACTGTCCTAGGGTCATTTTTTTCAACCCACACT
Celera SNP ID:            hCV8897731
SNP Position Genomic:     607452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57310):
GGACTGTCTTAGTCAGTCCAGGCTGCTATAACAGAATACCGTTGACTGGGTGGCTTGATTTTTTTTTTTTTCTCCCAGTTCTGGAGGCTGGAAGTCAGAT
R
TCAGGGCACCAGCATGGTTGGTTTCTGGTGAGTGCTCTTTTCTGCATTTGTGGACAGCTGCCTTCTTGCTGTGTCCTCACTTAGTAGACAGAGAGAGAGA
Celera SNP ID:            hCV8897732
SNP Position Genomic:     607661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57311):
GCAACAGAGTGAGATGCTGTTTTGTTTTTGTTTTTTTTTGTTTGTTTGTTTGGTTTTTTTTGGAAAAAGAAAGAATCACCATAAAAAAGATGGGTAACTC
R
GAAATTTCAAATGCTTGAATTTCTTGGGTTGGGAAGAATATCCCAAAATGTGTTTCCAACTACCTCACTGATTTTGACTTCACAGGGAGAATATTTTGAT
Celera SNP ID:            hCV8897733
SNP Position Genomic:     611123
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,1)   cau(G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57312):
CCAACACCCGACAGGCATCTTAGAAAGTGGAGGGTGTAAGTTATAAAGAGAGATTACTTCCAACACGTTTCTTTAAAGCCTGCTGGCTAAATTAGGTGGG
R
CCTTCTTTGTGTCCTCTCTGTTCTTGCTAGTCTGGCCTTTGTATAATAGGGAAGCAGATATATCTGGAAGCCTCTAAGTGTGCATCATGGAAATTGTTTG
Celera SNP ID:            hCV8897734
SNP Position Genomic:     618561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57313):
ACCCGACAGGCATCTTAGAAAGTGGAGGGTGTAAGTTATAAAGAGAGATTACTTCCAACACGTTTCTTTAAAGCCTGCTGGCTAAATTAGGTGGGACCTT
M
TTTGTGTCCTCTCTGTTCTTGCTAGTCTGGCCTTTGTATAATAGGGAAGCAGATATATCTGGAAGCCTCTAAGTGTGCATCATGGAAATTGTTTGAAATG
Celera SNP ID:            hCV8897735
SNP Position Genomic:     618566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57314):
CTACCTGTGGTCCCAGCTGCTTGGGAGGTTGAGGCAGGAGGATTGCCTGAGCCTGGTAGAGGTGGAGGCTGCAGTGAGCTGTGATTGTGCCACTGCACTT
Y
AGCCTGGGTGACAAAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCTAGTAGCACACCCCAAAACTTCTAGACAGGGCATGGTGTG
Celera SNP ID:            hCV8897736
SNP Position Genomic:     620667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57315):
GTGACAAAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCTAGTAGCACACCCCAAAACTTCTAGACAGGGCATGGTGTGAGCTGGA
R
TAGACAACTAGTTCATGGTAACAGGACCAGCAGAGCTCCGTCTTGATGCTGTTATTATTTGGTATCTGTTAGGAGCTGAATTATGTGTCCCCAAAATTCA
Celera SNP ID:            hCV8897737
SNP Position Genomic:     620775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57316):
TATTTGGTATCTGTTAGGAGCTGAATTATGTGTCCCCAAAATTCATGTGATGAAGCCCTAATTCACAGTACCTCATAATGTTACTCTATTTGGAGATACA
R
CCTTTTAAAGGATGGTTAAGTTAAAATGAGGTTGCTTGGATGGTCCCTAATTCAGTTTAATTTGGGTCCTTATAAAAAGAGGAAATTTGGATGCACAGAG
Celera SNP ID:            hCV8897738
SNP Position Genomic:     620931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57317):
CCTCCGGAGAAGCCAAACCTGCTGACACCTTGACCTTGAATGTGCAGCCTTCAGAACTGTGAGAAAATCAATTTCTGTTGTTTAAGCCACCTAGTCTGTC
R
CATTTTCTTATGGCAACCCCTGTAGATAATACAGTCCCATTCTCTGGGGAAACAGATACCTCCGCCAGGGTCCTGATCTGAATATGATTTGGGGTGATGG
Celera SNP ID:            hCV8897739
SNP Position Genomic:     621219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57318):
CAACGCTTTGGGAGGCTGAAGCAGGAGGATCACTTGAGCCTAGGAGTTCGAGACCTGGGCAACATGGTGAGACCCCCATCTCTACAAACAACAACAACAA
M
AAAAAAAATTAGCCAGGCGTGGGGGTGCATGCCTGTGCTCCCAGCCACTCAGGAGGCTGAGGTGGGAGGATGGCTCGAGCCCAGGAGGCCAAGGCTGCAG
Celera SNP ID:            hCV300508
SNP Position Genomic:     976097
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(C,1)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57319):
TCATTTTGGGCTTCTGATACACTCCTGTCCGAGAAGTTACCTTTGAAAATGTGTACTATTTTATTGTCAATTATGTTTTCTTTAAAAAAAATTTATGACA
K
ATTACTTTTGCTAATTATGTGTGTGGGTAGATTATGTTATTCATGAATTTTATTTCAGGACCTTGGTAAGGGGTTATACAATATTTCTTTTGAAACGAGG
Celera SNP ID:            hCV11667961
SNP Position Genomic:     749212
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(G,3|T,3)   his(G,3)   total(G,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57320):
CAGGGACAGCAAAAGCACACACAATGATGGCCAGAGACACTGCTCAGTGTACTGTCTTCCACCGGGACAGCCCACTCACCAAGGGTTAGGTCCTGTGCTG
M
CTGGGTCCCGGGTCTCCTCGGAGGTCGGTTTGCATCACGTGGATACACTAATCTACCCAAGTTGACTTGGAGAACCAATCTGAAATCAGATGGGAGCTCC
Celera SNP ID:            hCV15917531
SNP Position Genomic:     921055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57321):
AAGACTTTAGTCTTTTCAAGAGGCAAAGTAATATACCACTTTTCGCTTTTTTAATGGTGAGAGCCAAGGTCAATCTGAATTTTTCTTTTTCTTTCTTCCT
T
TTTTTTTTTTTTTTTTTTTTTAAAAAAAAAAAGGTGCTTGAATTAGAAAGGTAGCACATTGTCCACATGGACAGTGCAGGATGGGGCTGGCTTTTTCATT
Celera SNP ID:            hCV11517980
SNP Position Genomic:     54038
SNP Source:               Celera
Population(Allele,Count): cau(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57322):
ATCTGCCAGCAGGCTGTGCTGGGGAGTGGTGAGTAGTACAGGGATGTGTCTGACCCCAGGAGAACTGCCCCGATCCCTATCTTGTCTCTGCTCAGTTCTG
R
TAACTCTTTTATCTTCCCTGGAGTTATTTTTTTCCCTTCTTTCTTTCTCTTTTTCTGTGTGCTCTTCTAAGAGTAAAACGCATGTCCCCCCATGAAGTCA
Celera SNP ID:            hCV15917532
SNP Position Genomic:     920832
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57323):
TGTGGCACATACCCCTGTACATGTTTGCCAAGACTGCTATATGGTAGAGCTTGGAATTCTTAGGAGCTTTATCAGGTAATTGCAAGTCCCCCACCTCCAA
S
AAAGCACTCTCTAGGTCAAGAATCAGCAAATGTTTTCTATAGAGGCCCGTAAAATTAATATTTTATACTTTGTGGGTCATATAGTCTCTGTTTCAATTAC
Celera SNP ID:            hCV8902111
SNP Position Genomic:     891743
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(G,2)   cau(C,2|G,2)   his(C,2)      total(G,4|C,4) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57324):
TTGATCTTGGACTTCCCAGCTTCCAGAACCATGAGCAATAAATTTCTTTTTTTCAAAGCTCCCCAGGAGTCTCTCTCGGTCTGTTCTGGCTCAGGAAGCT
K
CCTTATTTGTAACAAACAAATAAACAAAAAACAAAATAAATAAAAGCTACCCAGCTTAGATTATTTTGTCATAAAAGCCCCAAAAGACTATGACAAATCC
Celera SNP ID:            hCV11438593
SNP Position Genomic:     701794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57325):
AAGTTAGTTTCTTCCCAGAGAGAAAGACCGGTGGCTGTAGTCTGTGCCCCACTCCCAGCCTGTCCTTTCTCAGCCGTGGCTTGTGTGCATCCCTGGGGCC
R
GCATGTTGCTGCGAGCCCCAATCGATCAGTGGAGAAACGAGCTCTGGTGGGCAGTCAGGCAAAGCAGATACACGTGCTTCTTTTCAGCTTTGTTGGAAGG
Celera SNP ID:            hCV8902112
SNP Position Genomic:     896257
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57326):
AAGAAGAATATCCATGAATCTATGAGGAGGCGGGACTCTGGCCAGACATTGAATTTGCTGCTTCCTTGATCTTGGACTTCCCAGCTTCCAGAACCATGAG
M
AATAAATTTCTTTTTTTCAAAGCTCCCCAGGAGTCTCTCTCGGTCTGTTCTGGCTCAGGAAGCTGCCTTATTTGTAACAAACAAATAAACAAAAAACAAA
Celera SNP ID:            hCV11438594
SNP Position Genomic:     701729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57327):
TTCACTGAGGGACTAAGAGAAATAGAAACAGAGGGGATTGGCCACACCTGAAGTCATTCTGTGTTCAAATCTTGGCTCTACCACCTATGATCTGGGAGCT
S
TTAGAGGAGTTAATCGATGTAGTTAAGACTCAATTTCTTAGTATATACAATAGGTGTAATAGTAAAAATTAGATGACTTTGATGTGTGTAGGTAAGCGGC
Celera SNP ID:            hCV8902113
SNP Position Genomic:     905991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57328):
CATAGCTCACTGCAGCCTCCAACTTCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCTTGAGTAACTGGGACTGCAGGTGCATGGCACTGTGCTCCACAA
T
TTTTTTTTTTTTTTTAGAGATGGGATCTCACTGTGTTGTCCAGGCTGGTCTCAAACCCTTGGGTTTAAGTGATCCTCTTGCCTCAGCTTCCCAATGTGCT
Celera SNP ID:            hCV11517984
SNP Position Genomic:     57404
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(-,2)   his(-,2)   total(T,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57329):
AGAAGAGGATGTAGGGCAGGTAGGGCTCAGAAGGACCCATGCCATATAGCAAAGTTCTTAGTAACACAGGCTTTGGGTTACAGCAGGCTAGATTCAAATC
Y
TGCTGTGGTCAGAATGTCTGTGTCACCCCAGCATTCATTTGTTAGGAGATGGGGTCTTTTGGGAGATGATTTGGACATGAAGACAGAGCCTGCATAATTG
Celera SNP ID:            hCV11438597
SNP Position Genomic:     701462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57330):
GAGTTCAAGACCTCCTCATCTCTACAAAAAATAAAATATTTGAAAAAAAAAAGTGAAATTTTTGATATAGAAGAGGATGTAGGGCAGGTAGGGCTCAGAA
R
GACCCATGCCATATAGCAAAGTTCTTAGTAACACAGGCTTTGGGTTACAGCAGGCTAGATTCAAATCCTGCTGTGGTCAGAATGTCTGTGTCACCCCAGC
Celera SNP ID:            hCV11438598
SNP Position Genomic:     701394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57331):
TTTTTTTTTTTTGCCAAGCACCCTGCCTTTTTGCTTGTCTGTTTCGTCTTTATCTCTCCTTCCAGTAAAGTTCTTGGCCCAGAGGTTCTGCTGCCACTCA
R
TGACATTTGTGAAATGCAAGGGAGCTTGCACCATGGGTTCAAGCTCCTGCAGATCCCTGAGCCTGCTACCCTTGTGCTTCTCTGTCCACGCAAAGCCAAG
Celera SNP ID:            hCV11517986
SNP Position Genomic:     60955
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57332):
TTTAGTAAAACGCAGTATCTTCTTCCCCAGCTGAAATAGCGAAAGGGTCTCTTCAGGCTCCTGGGATAAAAACCAGGATCCTTCATGTGTCTGAGCAGGC
Y
TCCCACCATTTGACTGCTGCTCCTTTGTCCAGACACATTTAACACCATCTCCCTGCACCCCTTCACTGGGCTCCGAAGCTGCGTTCACACGGCACGTCAT
Celera SNP ID:            hCV8902119
SNP Position Genomic:     907534
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57333):
TCTAGAATAAGTCCGTCTCACGTTACAGTGCTTAGGAAGTGTTAGATGTACTGTCATTTCTTCAACATATATGTCCTATATTAGTCTATTCTCACACTGC
W
AGTGAAGACATACCTGAGATGGGGTAATTTGTAAAAGAAAGAAGTTTAACGGACTCATAGTTGCACATGGCTGGGGAGGCCACACGATCATGGCGGAAGG
Celera SNP ID:            hCV8897740
SNP Position Genomic:     621628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57334):
TTTAATTTTTGTGGGTACCTAGTAGGTGTGTATGTACATATATATGTATATATATATGTGGTTTTTTCAAAAAAATTGTGGGCACTTAGTAGGTATATAT
T
TTTGTGGTCTGTGTTTCTTATAAATTGGTGATCCCCCAGGGGATGCCTGCCTTGTTGGTCCAGGTAACACACTTGGAGTAGCAAACATCTAGACGTAGTT
Celera SNP ID:            hCV11667972
SNP Position Genomic:     748229
SNP Source:               Celera
Population(Allele,Count): chn(-,9)   cau(-,9|T,3)   afr(-,9)   total(T,3|-,27) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57335):
CACGGCACGTCATTGGCAGCTCATCTCAGAAGGTTCCAGCTTTGCCTGGCAAATTCTCCTCCTTCCTTTAGATCCCATCTCTGGTAGACAGAGTAATGAG
Y
CCCGAAGATGTCCAGGCCCTACTCCTAATTCCATGGAACCTATAAATATGGGAGGTTACATGGCAGATGGGGAATTAAGGTTGCAGATGGAGTTAAGGTT
Celera SNP ID:            hCV8902120
SNP Position Genomic:     907722
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57336):
TTAGATCCCATCTCTGGTAGACAGAGTAATGAGCCCCGAAGATGTCCAGGCCCTACTCCTAATTCCATGGAACCTATAAATATGGGAGGTTACATGGCAG
W
TGGGGAATTAAGGTTGCAGATGGAGTTAAGGTTGCTATTCACTCATCTTCAGATTGAAAGATCATCCTGGATTATCTGGGTAGGCCCAGTCGAATCAGAG
Celera SNP ID:            hCV8902121
SNP Position Genomic:     907789
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57337):
TACAGATACACACTCACATATATATTTCTGTTTGCGGCTCACACAGACATAAATATATATATATATATACAAACGTACATTTCTGCTTGTAGCTTGCACA
Y
ATATATATACACACACACACATACATGTAGACACACACATTTATACATATACATGTCAACACATACACATACATATTTCTGCTTATGGCTCAGGATACTT
Celera SNP ID:            hCV11517992
SNP Position Genomic:     68876
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57338):
CACTCACATATATATTTCTGTTTGCGGCTCACACAGACATAAATATATATATATATATACAAACGTACATTTCTGCTTGTAGCTTGCACATATATATATA
Y
ACACACACACATACATGTAGACACACACATTTATACATATACATGTCAACACATACACATACATATTTCTGCTTATGGCTCAGGATACTTCTTTTTTTGG
Celera SNP ID:            hCV11517993
SNP Position Genomic:     68886
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57339):
TCTTACACAGTTTGTAAGTCTTAAAACTCAGTATCTACTCTAGTAGTTGCTCCAAATGTGATGTCCTCATAAATCACCGAGGGATCTTGTTAAATTTGGA
Y
TCTGATTCAGTAGGTCTAGGTGGGGCCCGAGCTTCTTTGTTTCCTTTTCTTATTTAATTTTTGTGGGTACCTAGTAGGTGTGTATGTACATATATATGTA
Celera SNP ID:            hCV11667979
SNP Position Genomic:     748076
SNP Source:               Celera
Population(Allele,Count): chn(T,6)   cau(C,3|T,6)   afr(C,3)   total(C,6|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57340):
GTTACATGGCAGATGGGGAATTAAGGTTGCAGATGGAGTTAAGGTTGCTATTCACTCATCTTCAGATTGAAAGATCATCCTGGATTATCTGGGTAGGCCC
M
GTCGAATCAGAGATGGGGAAAAGAGAGGCAGATGGGTCATAATCAGAGAGGTGGCTGAGTAAAGAGGACTTGGCCTGATGTTACCAGCTTTAAAGAGGGA
Celera SNP ID:            hCV8902126
SNP Position Genomic:     907877
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57341):
CACATATCCCACATCCAGGTGCCAGTCAGGGAGCTGCGATTTAATTTGCTGCTGAATGCACTTTTGAATAAAGGGCCTAGAAGATGCAGTCTCGAGGAAC
S
GAGGCCGGTTAGAGACAGGCTGGCAGCTTTGCCTCCTCTCCCAAGACAAAGGCCTCCCCGCCCCCCTAAATCCAGCACACAATCAGCTGCTCTCCCTCCC
Celera SNP ID:            hCV8902127
SNP Position Genomic:     908641
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57342):
TGCCCCTTATACATTAAGGTGCATGCAATAAATCACTTATGTAATAAACTACTCTATATTATGTGGGAAAAAAAAAAGGAGCTGGTGGCAGGGGGAGAGA
Y
TTCAAATTGAGCCAGACCTCAGGCATGAAGGGAGGGGAGAGAGGGGGAAATGTGGAGGAAGGGGGCGTTTGTGCAGTGGGAAGTTGGAGAAAGTACAAAT
Celera SNP ID:            hCV8902128
SNP Position Genomic:     909107
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57343):
TGGAAAGTTACTCTCTAAGTCAGGGCTTCTTTTCTTCAACTTTGGTGTGAGACTCCGCTGGAGAGCTGGTTAGAAAAACACAAGTCTCGGGCCCCACCCC
S
CAGAGCCCCTCATTCTCTAGTTCTGGGTTGGGGCCCAGGAGTCTGCTTTTCTAGCAAGCGCCCAGATGTCACTGATGCTTACAGCTCTCAGACCACAGTT
Celera SNP ID:            hCV9665423
SNP Position Genomic:     589333
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|G,2)      total(G,2|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57344):
TCCATGCTCCAAATGACTGTGACGACTGAGAAAATGCATGTATGTAAAGTCTGCAGCTGGTGACATTGTAGACACTCAGCAAATGGCCTTTGGTGTTACT
R
TTATTTTATTTTTACTAATTATTTTTTACACCTACAAATCAGGATCTGCTACAATCGCTTGATATTTGAAAATTGGGCCTAACCCACTATGCCACTCTTC
Celera SNP ID:            hCV9665424
SNP Position Genomic:     589579
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|G,7)   afr(G,7)      total(G,14|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57345):
AGTGGGGCACTCGATTCCGGCAAGAGAAGGCAAACAAAAGAAGCCACAACAGTCTAGGAAGAAATCTTTAATTTCTATTCAGCTTTAAAGAGTTTGAGAG
M
GTTTTTTCCCCTCTGTTAACAAACGAGTTCAAGTACATGCCTTCATATTATAAAAGTACCTGAAATTGCCTAGAATAGCAGCATGCATAGCTTGTTAGTA
Celera SNP ID:            hCV8447178
SNP Position Genomic:     1110118
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(A,2|C,7)   cau(A,2|C,7)      total(A,4|C,14) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57346):
GTCTGCGTGGTTCTTACCTAGAAACTGTTTATTGGTGAACCAAATATTTTGTATCTTATACCAAGAAAGAGGGGCTGACAAAGATTGAGTGATTAGAAAT
Y
CAAGTGAATTTCTATTTATTATTTTGACTTGGTAATTTGTAATAACAATAGCCACCATCTATCTATACTTCCTAGATTTGGGCATGGTGTTAGGAGTCTT
Celera SNP ID:            hCV11667987
SNP Position Genomic:     745124
SNP Source:               Celera
Population(Allele,Count): cau(C,1)   afr(T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57347):
TTAAGGTGCATGCAATAAATCACTTATGTAATAAACTACTCTATATTATGTGGGAAAAAAAAAAGGAGCTGGTGGCAGGGGGAGAGACTTCAAATTGAGC
Y
AGACCTCAGGCATGAAGGGAGGGGAGAGAGGGGGAAATGTGGAGGAAGGGGGCGTTTGTGCAGTGGGAAGTTGGAGAAAGTACAAATGAAAGCCTCTCTG
Celera SNP ID:            hCV8902132
SNP Position Genomic:     909120
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57348):
AAGGCAGAGGGTGTCACTTCCACTGCATCTTTGGGGAAGGCAGTCACCACTGTATAGTCCTGAGCTCACTGGGATTAAGGGGAAGGGACACAGACTCCAC
Y
TCTCGATGAGAGGAGAAGCGAATTGATGGGCAGATTTTATCACTGTCCTGGGGCCTTTGCTCTTTGCCCTTCCCTTTGCCAAGAAAGTTCCCTGTACTCT
Celera SNP ID:            hCV8902133
SNP Position Genomic:     911312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57349):
CCTGGGGCCTTTGCTCTTTGCCCTTCCCTTTGCCAAGAAAGTTCCCTGTACTCTGCAATGCTGAGTACTTCTCATCCTTCAGGTCTACTGCAAGTGTCAC
Y
TGGCCAACACACCATGCCTTCCCAGTCTCTGGTGTTACTGTCTGCATACTGTAGACCATCATCTTGTTTGCATACTTGTCTGTTATCTCTTTATCATCCG
Celera SNP ID:            hCV8902134
SNP Position Genomic:     911459
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57350):
CTGGCCAACACACCATGCCTTCCCAGTCTCTGGTGTTACTGTCTGCATACTGTAGACCATCATCTTGTTTGCATACTTGTCTGTTATCTCTTTATCATCC
K
TCTACCCACATCAGGCAATTCCAAGAGAGAAGACCACTGGTTTTGTTTGATCTAGTCCCTGTTGAGTCCCTGTGCACCTTCAGAACCACATCTAGCAATA
Celera SNP ID:            hCV8902137
SNP Position Genomic:     911559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57351):
TATTCACAGTTGCCGCCCACACTCAAGAGAGGGGATTCTATAGGAAATGGAAGTCTTGGGGGCCATCTTGAATCCTGACTACCATAGTCTGTGAAATCCC
Y
ATTTCACAGATGTTGAAACTGAGACTTAGAAGCATTATGCACCATGCCAAAGGCCATGGAAGGACAGAGCTTGGGCATGCTCCCGACACCAGGTCATACT
Celera SNP ID:            hCV8902138
SNP Position Genomic:     915996
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57352):
CCATAGTCTGTGAAATCCCCATTTCACAGATGTTGAAACTGAGACTTAGAAGCATTATGCACCATGCCAAAGGCCATGGAAGGACAGAGCTTGGGCATGC
Y
CCCGACACCAGGTCATACTGATGTCACTCTCCCTACTCCCTTCACTCCCTCCAGCACCTGGCCTTCACCTGAAGGTGCTGACCTTGCTGTTTGTTGGTTT
Celera SNP ID:            hCV8902139
SNP Position Genomic:     916077
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57353):
GTTTTGTTTGTAAGAATCAGTTGAGGACAGATGGGACTATTTGCATGGATTGGTGTCATGTTTGAAGTCAGTTACCAGAGGGTTTCTTTCAACAGAGTAT
M
CCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTAAATTGCACAGACCCCAGCTTAGGACCTGGACTTAATCTTCATGATGTTTGTAAAGTAATACTTCT
Celera SNP ID:            hCV16270800
SNP Position Genomic:     449630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57354):
AGAGAATAAAACGTTAGTTAATCCCTTTGTCTGTCAATCACAGTCTCAGTTCTCTTGCTTTCACATTGTACTTAAACCTCCTGCTGTGCCTCGCATCCTA
Y
GCTTAATAAAAGAACATGCTTGAATATCATCACCTGAAGTTTGTATTGTTTCTTTAAATGTTTGTTTCAGTTTGTTTTTGTTTTTCATTTTTTAGAAAAG
Celera SNP ID:            hCV2395472
SNP Position Genomic:     1120089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:57355):
ACACCCGCCCTGTGTGTGTCCCCTCACGCAAGTGCCAGGGCTGGGCCCCTTCCAAATGTCCCTCCAACACAGATCCGCAAGAGTAAAGGAAATAAGAGCA
K
TCACAACAGAGTGAAAAATCTTAAGTACCAATGGGAAGCAGGGAATTCCTGGGGTAAAGTATCACTTTTCTGGGGCTGGGCTAGGCATAGGTCTCTTTGC
Celera SNP ID:            hCV2395473
SNP Position Genomic:     1119374
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:57356):
CAGTACCCTTTGCTATGCCAAGATCCAGCTGAAACTGAACCAGGTGGGGGAGGCCTGCTAATGCCCAGGCAGTCGAAATGACGCCATCTCATCACTCCTT
Y
TCTTAAAATTTTTTTTTGTCTTTCTTCTTGGATTTCCAGCAACAGGGAGCTGCCACCACCGTGTACTGTGCTGCTGTCCCAGAACTGGAGGGTCTGGGAG
Celera SNP ID:            hCV2395474
SNP Position Genomic:     1119019
SNP Source:               Applera
Population(Allele,Count): afr(C,3|T,23)   cau(C,4|T,14)   total(C,7|T,37)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57357):
ATGTTATAGGCAGTTCTGAAGGAAAGGATTCGATGACTATCTTTTTTTGGCACAAATGTGATCCTTCTGGAGGCCAGAAGATAGATTCAGTGGGCCCCAG
W
TCTTTCAGGTTTAAGGAATAAGCATTTTGGTCTATGAAAAATGGGGTTTTCCTAAAGTATAAGATTGTCTTATATTTATAAATGCCTGTGTTCATTGCTG
Celera SNP ID:            hCV15871197
SNP Position Genomic:     21208
SNP Source:               Applera
Population(Allele,Count): afr(T,12)   cau(A,1|T,17)   total(A,1|T,29)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57358):
GGGTTTTCTACCTGATGGACCACAATTAAGAGTGGTTGGTTTGTCAGACAGAAGGTTCTACAAACGATTTGGTATCGAATTACATTATACATGGAGAAGT
Y
GAGGGGTTGGATGAATTTGTTCTTGCACGTTCAGAAGGATACCATCTTTTTCTCTGTGTGGAAGAGGCGCCTGCCACGACGTATTGATATGTGTATTTAT
Celera SNP ID:            hCV2395475
SNP Position Genomic:     1118699
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57359):
AGCAAAGTGATTTCTTGCCCTCTTTATAGCATCCCTGACAGTATTCTGTCAGTTTGGATGATATGATGCCTCATCACTGCACACGTCCCTAGCCACAGCC
S
CAACTGTTACTCAAAAGGTGAATGAAAGTGATCAGCTGCACTCTTTGCAACTTACATTTTGAAGTGGGCTGGGAGGAAATGTACCCCCTTACCTGTGGTC
Celera SNP ID:            hCV2395476
SNP Position Genomic:     1118279
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57360):
ACCTTGTATGCACACATGAGAATTTAGAGATCTATATATACCGCCTGGCCTCTTCTTTGTAAGGGTATAACAGCAGTGGTTAACATGCATTTTTTTTTTT
T
AACAGTTAGATTTACTCTTCCTTTGCACAGACTAATAGCACACTGAGGTAGGATCCAGGGACGGCTCCTTGGCAAGTTGTACTGCTGTGGCCTAGGGAGG
Celera SNP ID:            hCV11667995
SNP Position Genomic:     743604
SNP Source:               Celera
Population(Allele,Count): cau(-,2|T,3)   afr(T,3)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57361):
GTTACTAAACTGTCATCACATCTGATCATATTAAGATGTCACTCAGAGGTTGCCATTGGTACGGCTGAAAATTCTCCAAGAGACCAAAGGTGTGGTGTGT
R
TGGGACCAACAAGATATTGTTACTGCTTAATTGTCCAGCAAGGGAGGAAAGTAGAGTGAGTACCCATGAGCACCAAGCATGAATCTGAGAAGGAGAATTT
Celera SNP ID:            hCV2395477
SNP Position Genomic:     1116324
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57362):
AACAACAAAAAATGTATTGCCAAAAAATTGCTAGCAGACATCTAGAAAAATGTCTTCAACTTCTTTTGGTAGGAAAAGAGGAAAAATTCAAATCTGAATT
Y
AACATATTTATTTTTTTGTTTCTGACTTTTTACGTAAACAGAGCTCTGAGTTGTATCCTCAGATATATTTGAGACTAACAACAAGGAAATATAAAATTAT
Celera SNP ID:            hCV11667996
SNP Position Genomic:     743272
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,1)   afr(C,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57363):
TTTTATAACGGAGTTGTTAACATTATTTCCTTTAGATGGCTCCTTCATCTTTTCTGCATTATGAACTGATGCCCCAAAAGGTGGTATGAATGAAAGTCAT
S
TGATGGTGATTAAAGTGCTCTTTAAATTTTTTTTTTTAATCAGTTTAAGAATGCTTTCTCTTTTATTGGCAGTACCTGCTTGTTTACTATTGAGATTTCA
Celera SNP ID:            hCV2395478
SNP Position Genomic:     1116055
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57364):
CAAATTTTCAAAGGAAGAAATGGAATGGTGCAACCATGGTACATGGGAAGGAGGAGGGGGACACACAAGACTGTACCTATCATGGGGGCTTCGACCTCAT
S
TGGGAAGGTGGTTGGAGAGAGTGAGTCCTGACCTGAGCTTTGGAACTTATCAAGTTGAGAGAGAAATTTGATAATTTGTCTATTAACGTGTGACCTTGGG
Celera SNP ID:            hCV8902143
SNP Position Genomic:     917281
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57365):
ATTTATCACAATGGATCAGTAAGCATTGATGACAACTGGCAAGGTATTGCTTCAGATATTTTATAACGGAGTTGTTAACATTATTTCCTTTAGATGGCTC
Y
TTCATCTTTTCTGCATTATGAACTGATGCCCCAAAAGGTGGTATGAATGAAAGTCATCTGATGGTGATTAAAGTGCTCTTTAAATTTTTTTTTTTAATCA
Celera SNP ID:            hCV2395479
SNP Position Genomic:     1115997
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57366):
CAAGTCATTGACCTTCTCTGAACCTCAGTATCCTAGGACTTCAGAAGCGAAAGGAAGAATAATGGGTCTTGAGTATGCCTAGAATTGAGCAAGCTGCTAT
S
CTTGCAAAGGCCTTGGCCAGCTGCTCACCCACCATGTCCCTCTGTTCCCACTCCACCTTACTCATGCCTAGACTTCTTGCTTTTTAAAAATAATCCACCC
Celera SNP ID:            hCV8902144
SNP Position Genomic:     917482
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57367):
GTTTTGTTTTGTTTTGCTTGTTGAGCAAGGGAATGCGGTTCCCCTGTGTCGGACTTGTTTCAGAAAGACAATGTCACTGAGGCTGGGGCAGGGAGATTAG
S
TGAGAGGCTCTTGCAGTTATCTGGGAAGGAGCTGTCCATAAAGGCCTGAGTTAAGACAGTAGCCCTTTGGGTTCGATTTAGTGGTGGCTCCCCAAAAGAT
Celera SNP ID:            hCV8902145
SNP Position Genomic:     932667
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57368):
TGTGGACTGTAGTTTGCTGACATCCAGGCTAGATCCTTAATATACAATGAAGTAGTAAAACACATGTAAAAGTAAAAAGCAGGCGAAATAGAATAAAATA
S
ACATTTGCACACCACAGTATCCAAAAAGGTTATGTACTGGGGCTAAAGATTTGGCTTGGAGTTTCCTGGTAGTCAAGGCAAAAAAGGGAAACAAAACTAG
Celera SNP ID:            hCV16102106
SNP Position Genomic:     925393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57369):
ATAGCCTTAAAGTTTCTCCTGCTCTTTGCAGATGAATGAAGGGGCGCTTTCTGGAATCTTTGTGGCTGGGGCTGCTGCTCTGCACTGCTGTGGCTCTTTT
Y
CACAAATGCTTATGGAGCTCTAACTGGGGGCAAGGAACTGTGCTACGGTTGGGAAGAGAGGAGTGGGCAAAAGGAGACACTGGGGCTTCTGTGACTTTAG
Celera SNP ID:            hCV16102107
SNP Position Genomic:     916779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57370):
AAATCAGCCATCAGCCTTATTAGAGTGGTTGATTTTTTTTTTAATCTAAGAGCTTTCTTGGTTATTTTCTGTTCTTAATCATTGTTGTATATCCTTAATG
Y
GCAGGACATGACACCGTATAACAAGTGTTTTAAAAATATTTACAATTCTGATCTTATAAAGGAAAAAGTTACATATGGTCCTTTGAACTAATTGCTAAAA
Celera SNP ID:            hCV248300
SNP Position Genomic:     488742
SNP Source:               Celera
Population(Allele,Count): cau(C,8|T,3)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57371):
CCATCTCATTGTCTTTATAGTTTAACCCTTTGAAGTTGTGACTGCCAACGTGCTAGTCTTGTCGTCTTACACGTTAATGGTAATGATCTTTTTAGATTTA
Y
TGTGAACCTCTAGGAATGTTTTTTTTAACCAGTAAATGCACTGAAACATGGAATCAAAGTCTCTTTCCCGTGGGCCCCTTTTCATTGGGAATAAATGCTA
Celera SNP ID:            hCV248301
SNP Position Genomic:     489172
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,6)   afr(T,6)   his(T,6)   total(C,3|T,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57372):
GAATGACTGTGTTAGGAATCATTGGAGGAGAGGGAGTCAGAGGGATGGATCAGTATTTTCTCTGCAAACCTGATGAAACACTCCAGAGCCCGCACCTACA
Y
GCGTGGGAACTGATAAGATGGGGGTTGTGTCCACTTCACTTGTATGGGATGTCGGTGCTTTGAAAAAATTCTATCATCAAAGAGTAGGTTTCTTAGTTCT
Celera SNP ID:            hCV2395480
SNP Position Genomic:     1113324
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57373):
ACTCATGTCTTTTGTCAGGGAGAATGGCATGGCCTTTGTATGACACTTCCTTCTAGCCAGACTCGGATTTGGGGGCATCATATTTGGGATGGCTGCACCG
Y
AAACAGGAAAGGCCACAGGACAGCTCACAGGTTCTCTCTGAACAGAAGCCTGTGAGCACGTGCCTGTCATTTAAAAGCTGCATGGCACTCTTCCCCCTGC
Celera SNP ID:            hCV2395481
SNP Position Genomic:     1112517
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57374):
GAATTCTTTCCAGCTTTCCATCCTGAACCTGCTGGTCTCCAGGCTCGTTCCTGCAAATATTTCACAGAGGAGTAAGAGCCACATTCTTGCTGGCTTTCCA
R
TTCATTCTCCTCTCTTCGAGTCCACCTCTTAAAACTTCTTAGTGCTCTTGCAAGAAACTCATGTCTTTTGTCAGGGAGAATGGCATGGCCTTTGTATGAC
Celera SNP ID:            hCV2395482
SNP Position Genomic:     1112360
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57375):
TGCATGATAGAATGCAAACTTTGAAAAAGACATACCTTTGTAACTTTCTATGCTAAGGTGTTGCATAATCAAGGTTAATTTTTGTTTGTTTCTAGTCTAT
K
GGCATCAAGTGCTTTAAAATGCTCACTAACACCGAGGCAGAATTATTTACCCGGGCAATTAAAGCAACAGCACACACGATCATTTCCTACTAACTAGCAA
Celera SNP ID:            hCV2395483
SNP Position Genomic:     1110459
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57376):
GGAAGAGAAAGGCAGCCTAATTGTATTTCCTAAAATACAGTAGATGAGTAGTCAGCACATGCATATTTAGATAATATTTGCATGATAGAATGCAAACTTT
R
AAAAAGACATACCTTTGTAACTTTCTATGCTAAGGTGTTGCATAATCAAGGTTAATTTTTGTTTGTTTCTAGTCTATGGGCATCAAGTGCTTTAAAATGC
Celera SNP ID:            hCV2395484
SNP Position Genomic:     1110381
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57377):
AAAGGCATTAATCTTTTTGGTATCCAACATCTTGAATGCTTCTGTGTCATTTTCCTTTCTTTTTTTTTTTCAAAGCACTTAATTATTTAAAAACAAAAAT
M
CTTCTCTGATCAGAGCATACCTGCCGTGCTCAAAGCACTTGCTTACTTGGAATGCCATAAATTACATGAAGGAATTATTCATTGTATCACGAAACATACC
Celera SNP ID:            hCV8902150
SNP Position Genomic:     942164
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57378):
TTGACAATGTAATTTGTCAGAGGAAGGCAGCCTGTTTTATAAGCTCAGGTGATTTCATTTTTGTTCACCTGTTTATTTCATGACACTTGCAGGAAAAAGA
R
GAATTTTCATTTGATCAAATCATTTCCATGATCCATCAAACACACAAGTTAAAAAGGGAAATGCTCTCAGTCTTTAATAACAGTCTTAATCGTGTGTAGA
Celera SNP ID:            hCV2395486
SNP Position Genomic:     1109355
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57379):
ATGAGCAGTTGGGAGAGTGCAGGATCCAGTTCAAAAGGATCTGTCCCCCCGTGAACCCCAGGACAGGGTGAGAGGCCACCTGCACACTTTTTTTTTGTCA
S
CTCACACCCTGTTGGCCCTTTGCAAATATTTGTCTTTCCTCATGCACGTGGTTATTCCCAGAAAGATCCAGTGAATTGTCTCCTGAAGATAAAATACATA
Celera SNP ID:            hCV8902151
SNP Position Genomic:     945633
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57380):
CCTTCCAAGAACCACATGAAGGTTATATTATTATGTCGACTTTCCAGATGAGGAGACTGAGGCTCAGTGGCTTGTCATAGGTGTCAAAGACAGGAGTCCA
R
TGTAAGGACTTCTGGCTTCAGCACAGGGGATTTTCCTACCATCCCATATTGCCACCCCATCTGCAAAAATACCTGGATCTATCTTCCTCCTGCTGATTCT
Celera SNP ID:            hCV2395487
SNP Position Genomic:     1108584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57381):
TGAACCCCAGGACAGGGTGAGAGGCCACCTGCACACTTTTTTTTTGTCAGCTCACACCCTGTTGGCCCTTTGCAAATATTTGTCTTTCCTCATGCACGTG
K
TTATTCCCAGAAAGATCCAGTGAATTGTCTCCTGAAGATAAAATACATAAAAGGGCGTTTCAAAGTATAAACAGTGATTTTAATGAAAAATAAGAAGAAA
Celera SNP ID:            hCV8902152
SNP Position Genomic:     945684
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57382):
CCCAGGAAATGGCCAAATGTTATCACTCATCCTTCCAAGAACCACATGAAGGTTATATTATTATGTCGACTTTCCAGATGAGGAGACTGAGGCTCAGTGG
Y
TTGTCATAGGTGTCAAAGACAGGAGTCCAGTGTAAGGACTTCTGGCTTCAGCACAGGGGATTTTCCTACCATCCCATATTGCCACCCCATCTGCAAAAAT
Celera SNP ID:            hCV2395488
SNP Position Genomic:     1108554
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57383):
TTTGAGTTATTATTTTCCCATGGGCAATTAAAGCCCTGGCCTCCACTGCAGTTTTCACATCAAACCTAAGAGTCTCAGGTGCCCCTTGGTGGAGCAACCT
M
ACTAGAGACATTAATCATACTACGGGATAATTGACAAATGCATTGTGAGTGTCTGATTTCTGTGGCTCAGGATGCTTAGTAGCAGTGGGGTCAAGGGCAC
Celera SNP ID:            hCV2395489
SNP Position Genomic:     1105996
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57384):
TGTTAAGATATTTAACGGGTGTTTCATTTTCCCAGCAATGCTATAGGACACAGAAAGGAACATAAATTGTTACAGAGAGAAAGAGGGTAGGTCTGTGAAT
R
GAATTGAACAGGTAGGTTGAACAAGATAAATGCCGAGGAAGCAAGTGTATTTAAATAAACAGTAGTTTATGGAAGGCTTTGGAAATCCACTATATTAATC
Celera SNP ID:            hCV8443999
SNP Position Genomic:     709792
SNP Source:               Celera
Population(Allele,Count): chn(G,5)   cau(G,5)   afr(A,1)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57385):
TTTTTTGTCAGCTCACACCCTGTTGGCCCTTTGCAAATATTTGTCTTTCCTCATGCACGTGGTTATTCCCAGAAAGATCCAGTGAATTGTCTCCTGAAGA
W
AAAATACATAAAAGGGCGTTTCAAAGTATAAACAGTGATTTTAATGAAAAATAAGAAGAAAATGCTTATGATACAACATTAGGTGGAAAACGAAGGAAGA
Celera SNP ID:            hCV8902156
SNP Position Genomic:     945723
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57386):
AACATGGATAAACTGAACTTGATTTCCTGCATTAAAAAAAATTAAAGAAATGAAAGTTCTGACTGTTTTATTGTAGCTGGGGAATTCTTTTTGCAGGTGA
Y
GCTCATGTTACGGTTTTGAACCCAGGACTTTGCGTTGCAGTTTTGTTCAGGGGTTGCAGAATACCGATCTGACTTTGCAGGAATGACTGTCTTGGTGCAT
Celera SNP ID:            hCV8902157
SNP Position Genomic:     946612
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57387):
AGGCCCAAGCGATCCTCCTGCCTCAGCCTCATGAGCAGCTGGGACCACAGGATGCACCACCATGGCCAGATAATTGTTTTGCATCTTTGGTAGAGACAAG
S
CTTCACTATGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGTGATCTACCTACCTTGGCCCCACAAAGTGCTGGGCTTACAGGTATCAGCCACTGGG
Celera SNP ID:            hCV8902158
SNP Position Genomic:     947912
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57388):
CTTGGTAATGTAGATTTTGGAGGACTTGAAAGGTTCCTGCTACCTTTGGCTGGGGATGGAGGGAACATGGAAGATGGGTCTTTGTTTAGAGGAAGCTCTT
Y
ATCCTGGTACGCTGGAAGTTGGCATAGTCTTAGCAGTTAGTCCAGATGTGAATTTCAGGATTATTCTGTGAGTCTTCCAAGTCCTGTCTCAGCAGTGAAA
Celera SNP ID:            hCV16291002
SNP Position Genomic:     395825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57389):
AGAAATGGGGCTTCTAAAATAAGTGGAACTGGGACCTCTTCTCTCTCAGGCTGTTACTTGTTGTGGTTCCAGCCTATTTTCTGAGCTGTGGAGCAGGGAG
R
GATCTCACAGGAAACTTGGTAATGTAGATTTTGGAGGACTTGAAAGGTTCCTGCTACCTTTGGCTGGGGATGGAGGGAACATGGAAGATGGGTCTTTGTT
Celera SNP ID:            hCV16291003
SNP Position Genomic:     395710
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57390):
AGAGGCATGGCTCCCCTGTTATGTATTTGGGACTTACTGCAGATGCTTCCTCTGGTTCAGGGTGTTGAGGCTTCGTGCTGTTAATATTGGAAGGTGGGTC
R
TTTGTACTGGGCATCTGTCCTGTATCTTGGAGATGTTTAGTAACATCCCTGACCTCTAGCCATTAGATACCATCTCTCCCAGTAGGGATAATAAAAACAT
Celera SNP ID:            hCV16291004
SNP Position Genomic:     395213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57391):
AGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGATGTAAGCCGAGATTGCGCCACTGTACTCCAGCCTGAGTGAGAGA
S
AGACTGTCTCAAAAAAAGAGAAAAGTAAAGAAAAGAAAAGAGTAAGATTAAAAACAAGTAAAGAAAATAAATCCTCCCGCTTTTTTTGCTCCTTCATGGG
Celera SNP ID:            hCV2395490
SNP Position Genomic:     1105770
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57392):
GAGCATCTTTCAATTCCTTGAACTTCAGTCTCCTCATCTCTGAAATGGGGTTATTATCTACCTGCAGAGGTGCTGCAGTATTAACTGAGGCAACGTTGCA
M
CGTTTCTAGAATGATATTTAGGGCTCATATTGACCCAGTAGGAAGTATAGTTACCTTGGGCCAGGGGAGCTACCTGAGTGGAGTCAACTTTTAGGTTATA
Celera SNP ID:            hCV2395491
SNP Position Genomic:     1104462
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57393):
TGCGTCACTGTTTTTCTTATTTGGAGATGCTGTTCCTCTCAAGTGGGAAAAATTTGGTTATCTCAGGTGGTAAAGATGCCTTTGTTTAAAATATTCTTCT
S
TTAGTGGGGACAATAATACTACTAATTTCTAGTACTGACGCTTCTCATGCAATTTAATCAGTAGGAACCTGTTTGCATGTTCATTTGAGGAAGTACCAAA
Celera SNP ID:            hCV2395492
SNP Position Genomic:     1103432
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57394):
TGTTGTAGGTTGGGTACCCCAGGAAGTAGATTCTGCAACTGAGATTGGCATGTAGGAAGATTACTGGGGAGTGTTCTAGGATCCACACCTGTAGGGGAAC
R
TAGCAAGCAGGATGGGGTGGAGGGAGGATTGAGCTGTGCTGTGGGAGATGCGAATGCTCCAGTCAATCCCAAGGAAACTCTGAAGCTGGATTATTCTTCA
Celera SNP ID:            hCV2395493
SNP Position Genomic:     1102718
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57395):
ACTGAGTTGGATTGATATATTTTTCCTTTGGCCTTCAAAGGAAATTTGAGCATTCATTCATTCATCCTTTTAGAGAAATATTCTCTAAGCACCTACCGTG
Y
GCCAAGCTTTGGGTTGGATACCTGGAACCCCTCTCAGTGAGATCACAGTCTAACAGCACACACCCAACTATGAAATATAGATGGACTGTGAAGATGAAGA
Celera SNP ID:            hCV2395494
SNP Position Genomic:     1101800
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57396):
CAGTGCTTTCTGAAGACAGAGGTGGGACCTGGTGCTGGAGACAATCCATTCCTTTCACAAAGACTGTAAGCCTTACCCAAGCATTAATTTTGCTGCATAG
R
CGGCCTGTTCTCCCACAAAGCACTGAGTAAGAAGAAAAGGGGCCCGGATAAACCAGCAGGGCCTGGCAGACAACTTCTGGCTCCCTTGCCATTTAAGGTC
Celera SNP ID:            hCV16270826
SNP Position Genomic:     462547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57397):
TTATGAAGATTCTGTGTGTGTGTGTCTGTGTGTGTGTATGTGTACAAAGAAAGTTTAGAGCAGCGTGTGGCACGTAATGCATATTATGTAAGTGTAGCTC
Y
AATGTGAGTTGTTACTTGTAGAGAACAGCTATGTCAAAACCACACCAAAAACGATTTGGAAAGGAAATAATTTGACTGGTCATTTTGTTTATCCATCAAC
Celera SNP ID:            hCV2395496
SNP Position Genomic:     1101601
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57398):
CACCCCTTCCCTCTTATCAGCTTCTTGCTACCATGCAGAAAAGTGCTGAAGGTGGCCTGCCCTAAGGCAGTAGCACTAGAGCAGGGATGGGGAGGACTTG
S
TGGCCAGATGCATGTGGACATGATGGAAAGGGAAGAGAAGAACTGTCAAGATTTTCACTATCAGTGGTATAAGCCCCGTAGTAATATGCCTAGTGTTCCA
Celera SNP ID:            hCV16270827
SNP Position Genomic:     461815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57399):
GCTCTGCCACTTAGTAATTGTGTAGATTTGCACATGTTGCTGGACCTCTCTTTGTCTCAGTTTTCTGTAAACTGGGGAAAATCTTAGTAAATCTAGCTAA
Y
GTGGTTGTTATGAAGATTCTGTGTGTGTGTGTCTGTGTGTGTGTATGTGTACAAAGAAAGTTTAGAGCAGCGTGTGGCACGTAATGCATATTATGTAAGT
Celera SNP ID:            hCV2395497
SNP Position Genomic:     1101493
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57400):
TAGAGACAAGGCTTCACTATGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGTGATCTACCTACCTTGGCCCCACAAAGTGCTGGGCTTACAGGTAT
S
AGCCACTGGGCCTGGCCTGAGTTGATAATTTTTGTCATTTCTTTCTCACTTTTCTCAGGAAAATCATGACTGTAAAACAGATCAGTTTTGCTTTAGTTCC
Celera SNP ID:            hCV8902162
SNP Position Genomic:     948002
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57401):
GGTGAGATCCCACTGGTTTGGAGGAAGGAGAGGAAAGTCCCCACTTGGGCAAAAACAATTTAGGATACCTGAAGATTGCAAAGCCCAGCTCCTCACAAAG
R
GGGTGGCAGCTGGGGAGAAGCTGAATCAGTAGACAGACAAGATTGTGGTTTAACGAGTTCAGGGACAAGAGAAGGCCCCAGTAACCTACAGAAGCAACTA
Celera SNP ID:            hCV2395498
SNP Position Genomic:     1101233
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57402):
TCTCGAACTCCTGAGCTCAGGTGATCTACCTACCTTGGCCCCACAAAGTGCTGGGCTTACAGGTATCAGCCACTGGGCCTGGCCTGAGTTGATAATTTTT
R
TCATTTCTTTCTCACTTTTCTCAGGAAAATCATGACTGTAAAACAGATCAGTTTTGCTTTAGTTCCCACCCTCATCATCAACCCCTCCCCAGCTACCCTG
Celera SNP ID:            hCV8902163
SNP Position Genomic:     948036
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57403):
CAAAAAGCGGCTGGAGGAAAAAGAGCTTTGCCACCGGGCAGTACTGCTGGGTCTTGCGTCACAGAGATGCCTTCTGCTCCCTTCTTCAGGGAGACCTCAG
R
GTATGAAAGTGCTGCTTACCCAGCAGATGAGATTTAGTCCAGTCATCCATCTGCGTGGTCTCTGTGGATAAAGTAAGCGTTTCATTCAACTTTTAAAAAT
Celera SNP ID:            hCV2395499
SNP Position Genomic:     1100970
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57404):
CTCCTGAGCTCAGGTGATCTACCTACCTTGGCCCCACAAAGTGCTGGGCTTACAGGTATCAGCCACTGGGCCTGGCCTGAGTTGATAATTTTTGTCATTT
M
TTTCTCACTTTTCTCAGGAAAATCATGACTGTAAAACAGATCAGTTTTGCTTTAGTTCCCACCCTCATCATCAACCCCTCCCCAGCTACCCTGCAAAAGA
Celera SNP ID:            hCV8902164
SNP Position Genomic:     948043
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57405):
AGCTCAGGTGATCTACCTACCTTGGCCCCACAAAGTGCTGGGCTTACAGGTATCAGCCACTGGGCCTGGCCTGAGTTGATAATTTTTGTCATTTCTTTCT
Y
ACTTTTCTCAGGAAAATCATGACTGTAAAACAGATCAGTTTTGCTTTAGTTCCCACCCTCATCATCAACCCCTCCCCAGCTACCCTGCAAAAGAGTCACA
Celera SNP ID:            hCV8902168
SNP Position Genomic:     948049
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57406):
GAAACTGGAGGAGCCCGGGAACTGCTTTCTCCTCTCTAAGAGTCTTGGTGGTTTCTTGTGTGGAAATGAATGGGAAGTTCACCCTGGTTCTGCAAAATGG
K
TGCGAAATGTAAAATGTATATACCTTCTATCCTACTCTTTATGTTCCACAAATTTTGGAGGGAAACTGATTAACTCTCTAGCTACCATGTTCCAGGTGCC
Celera SNP ID:            hCV8902169
SNP Position Genomic:     949434
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57407):
TGCAAATGATACCATCACGAAAGTGTACAGATGACCTACAGAATGGGGGAAATACTTACAAATTAAATATTAAATAAGGGATTTGTATCTAGAATAAAGA
M
CTTTTACAATTCAATAATGAAAACTCATTTAAAAAATGAGCATAAGATCTAAATAGATATTCCTCCAAATATGATACACAAATTGCCAATGAATACATAA
Celera SNP ID:            hCV11511357
SNP Position Genomic:     326767
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(C,1)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57408):
CTGGGTTTAAGGAATTCTCTGCCTTAGCCTCCCGCGTAGCTGGGATTACAGGTGCATGCCACCATGCCCAGCTGATTTTTGTATTTTCAGTTGAGATAAG
S
GTTTACTGTCTTGGCCAGGCTGGTCTTGAACTCCTGACTTCGTGATCCACTCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCCCC
Celera SNP ID:            hCV16291010
SNP Position Genomic:     394376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57409):
CAAACCCTGTTTTGTAGTATTTGCTGATTACTGTGGTGTAAATACTCACACCTTGGCTGATTTCAAGTTGCAGCTTGGAACTTGGAGTTAGAAAGAGATG
Y
GTAGTCCCATACCATTTTATGTATGTAAAGTATTTGCACTATGCCGACTAATAGACATAAATAACCTCATGAGCATAGATAATAGTCACATCTACTAAGA
Celera SNP ID:            hCV16291011
SNP Position Genomic:     393869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57410):
AATTTCCTTGTGAATGCTGTTACCATATTCCTGGTGTCTATGTGAGGGGGTGTGTGGTGGTATGCCGGTAAGTGTTGAACAACCTGCTCTGTTGGCGGGA
R
CTAGGGGAAACAAACCCTGTTTTGTAGTATTTGCTGATTACTGTGGTGTAAATACTCACACCTTGGCTGATTTCAAGTTGCAGCTTGGAACTTGGAGTTA
Celera SNP ID:            hCV16291012
SNP Position Genomic:     393758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57411):
CCTCAAGTGATCCGCCCACCTTGGCCTCCCAAAGCGCTGGGATTACAGGTGTGAGCCCCCAGGCCCTACCCTGGGCCCCTCCTTTCTGGCCCCTCAACCT
R
TTTTCTTCCAGCCATGCCCTAGGGAGAGCTTGGCTGTGGCCTTGCAGACCCTCTCAGATGCCACTCAACAAGGGCCAACTGGAGAGAAATCTCTAGTCTA
Celera SNP ID:            hCV16288879
SNP Position Genomic:     779344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57412):
TATACACTTGAGCTTGGCATTTTTCTTAACGCAGGGCTATTTTAGGTGCACTGCGCATGTTGGAGGTGCCCTTGCAGGTATAGGTAGGCATTGTCCATCC
R
TGGTAAAAAGCAATAGAAGAAATTCTTACCCGATGCTTAATGAATTGCCAGGCTGGTTAAAAAGGATAACCCTTGAAACCTAGGGTGTCCAACTGCTAAT
Celera SNP ID:            hCV1592000
SNP Position Genomic:     370905
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,6)   afr(A,1|G,6)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57413):
GTTTTCCGGGCTGTTTGTGTACTACACAGCCTGTGTACCTGGCAAGGCACGCTCTGCTCTGCCCTGCCTTCTGATGAGCTGACTAACACCTTATAGATGA
R
GTTCCCTTAGAACCAAAGATGCCCCATGAAACTCCCTAGGATGAATGTTGGAAGTCCTTCCAACTGGGATTCCCAGCCGGAAAGGAAACAGTTCATCTGA
Celera SNP ID:            hCV16291019
SNP Position Genomic:     392624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57414):
GTGTCCAACTGCTAATTTATATAGACTGGAGATATTTCCATGCCTCGCAGCAAAATTTTTCTTTAAATTCACAGAAGCAGCAGCTATCCAGCATTGTCCA
R
TTGTGCTGAGTAGCTGTCATTATTGATAAACATGTAACTGGTCATTTGTATTGTTTTGAGTAGGATATGGCTTATCAGGATGCATAGTAGAGAAAAATGA
Celera SNP ID:            hCV1592001
SNP Position Genomic:     371090
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(A,1)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57415):
GTGAGCCACCACACCCAGCCTGGGGGAGGGTTTGTTAAAGAACTGTCTGTTTTATCACATGACCACAAGTTAAAATGTTGGGCAATGTCCCTGAATGATA
Y
CTTTTCATTAGTAACTCACATGGACCCATAATCTCTGAATTTAACATGCTTTTCAGGAATGTGTTCATATTTTCCACCTATAAAACCTGTTTTAGTAATT
Celera SNP ID:            hCV1592002
SNP Position Genomic:     373169
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,3)   cau(C,5)   afr(T,3)      total(C,5|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57416):
TTTTTGTACTTTTATTGACCATTCACATTTCTTCTTTTCTGAACTGCCTTTCCATATTCTCGGTCCAGCTTTCTATAAGATTGCTCTCATTTACTGGTGA
K
AGCTCTGTGTAAATTAAGGAAACCATCACCACCTTCGAATGGCTGACTATTGTAAATATTTTAATGTTTGTCGTTTGTTTGCAACCTTGTAATTTTTTCC
Celera SNP ID:            hCV8446557
SNP Position Genomic:     1043372
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(G,3)   his(G,3)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57417):
GGCCTTACTCGTTTTCAAATACTCAAATGCCATTGAGTCAGATTTCAGAGGCAAATGGTGATACCTCAGGTTTGAAGTTGCAAGAAGTCACCACATGCTT
R
TTATGGAAATCGTCAGGGATATTTATTCCCTCTCCTGAGAAGCATAATTGAGCCTCCAAACCACCCATCAAGATATCCACCTGTAAAATATTTAAGAACT
Celera SNP ID:            hCV1592003
SNP Position Genomic:     376781
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,4)   afr(A,1)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57418):
ATTTAAGAACTGGTACTATGAAGACATTTCCCTTATGCAATTTGTTTTCCATCTAAGAGCAGAACAAGGAAAATATAGCTGACTATAAGTTACAAAGGCA
S
ACTCTTAAGCTACAAAATACATCTCTTCACAGGAGCACTTGGAGAAGGGCTGAAGGCAAACCAAAAGTGAGCAACAAGGAGACTAGTGTTCTGAAACAGA
Celera SNP ID:            hCV1592004
SNP Position Genomic:     376971
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,4)   afr(C,1)      total(G,4|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57419):
TTACACGTTTATGGATTGAAATGGTTCTGCTGAAATTTTAAGTGTTAACATTGTTCAAATTTTCATTACTAACACCTCTCACATTGTTAGAAAACAGTTT
Y
ATGTTTGACATTTTGATCATACTAACCTGGGACATTTTATGCTAAAGTTCTCATTTCATGCCTTAGGAATCCCCTGCTTATTTTGATTTCAGCACCTTTC
Celera SNP ID:            hCV1592005
SNP Position Genomic:     381837
SNP Source:               Celera
Population(Allele,Count): chn(T,8)   cau(T,8)   afr(C,1|T,8)   total(C,1|T,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57420):
TGTTTATGTAAGATCCATAATGACTCTTGCCAATTAGCAGGCTGCTCTCTTCCAAGTGGTAACCCAGGGACTCAAGCTCTTTTCATCTTGTGGCTCAGCC
R
TCTGACACATGTGGCTTCCAGCACTGCCCTGCTGTTGTCTGCACAAAGCTGGTGGAAGAAGTAGGAATTTGCAGGACCATGTGTGGAGCATTTTAAGGAT
Celera SNP ID:            hCV15776878
SNP Position Genomic:     377750
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57421):
TCTAAACCGATCATCACAGAAGATATTTTGTAGTGATGAAGAAAGCTTAAATGTCTCATTTGTCAGATTGGTTTAGGTAGAAAATAAGGATTTCCACCCC
Y
TCATCGTGGTTCCCTTTTAGATTTTCTTGTTTGCTTTTCTTTAAAGCTGCTGTTACTCAAACGACAGTCCGTAAACTGCACTTTATTTTTTATAACAGCT
Celera SNP ID:            hCV1592006
SNP Position Genomic:     382086
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,2)   afr(C,4)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57422):
AAGGGAAGGATGGAAGGAAGAGAGGGAGAGACGGAGGGAGATGGAGGATGACAGGGAGATGGAGGGAGGCAAAAAGAAAAAGGGAGAAGGAAAGAGAGGA
R
AGAGGGGAAGGGAGGAAGGAAAGAAGAGAGAGAAGGAGGAAGAGAGGGAAGGAGGCACAGAGGTAGAGAGGCAGGGAGATAATGGAGATCCTGGCCAAAA
Celera SNP ID:            hCV15776879
SNP Position Genomic:     371924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57423):
GTGGATTACAGAATTGTGCTGGGTCCTATGGAGTGTCAGAAATAGTGAAGCTTCTGGAGCTTCACTGTCCAATATGGTAGCCACGTGTGACTATTAAAAT
R
TAAATTAATTAAAATTAAAAGTTCAATTGCTCTGAAATAGCAGCCACATTTCAAATCTTCAGTAGCCAGATGTGGTTATTGGCTACCATATTGGGTAGCA
Celera SNP ID:            hCV1592007
SNP Position Genomic:     387751
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57424):
GACTATTAAAATGTAAATTAATTAAAATTAAAAGTTCAATTGCTCTGAAATAGCAGCCACATTTCAAATCTTCAGTAGCCAGATGTGGTTATTGGCTACC
W
TATTGGGTAGCACCGATATAGAACATTTCTACCATAGTAGAATGCTCTTTTGGATACATCTGCTTTAAAGCATTAGTCCCCAAAGTGTGAAGGATGAACC
Celera SNP ID:            hCV1592008
SNP Position Genomic:     387839
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(A,2)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57425):
AGTACAAGTTGGTAATGGGTAACAGGCTAAACCATGTGGCACCCCTTCCCTCTTATCAGCTTCTTGCTACCATGCAGAAAAGTGCTGAAGGTGGCCTGCC
Y
TAAGGCAGTAGCACTAGAGCAGGGATGGGGAGGACTTGGTGGCCAGATGCATGTGGACATGATGGAAAGGGAAGAGAAGAACTGTCAAGATTTTCACTAT
Celera SNP ID:            hCV16270833
SNP Position Genomic:     461776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57426):
GTCCCGTACTTTTCAATGTAAGCATATTGGCTCTCAATTTAAAAATGTTATTTTTTACAGATAGTACACAGATGCACTGACACAGGTACCCTCTCCAGTC
Y
TCTGATGGTCAGGAATTGTGTGCAGTATGCAGTACATTCCAAAGTCAGGCTGGCCATTTCCCCAGGGAGAGGGTCCATGTTGGAACCTTTGCTCCTTGTG
Celera SNP ID:            hCV1592009
SNP Position Genomic:     388292
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4|T,1)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57427):
TGCCTATAAACATAAAATTAAAAGCCTGCTGTCTGCTTAGTTCAGGTATTGGGTCAGCGTCTTGTGACTATGGACAAGAGGTGTTTGACTCTAGGACTCA
S
CTACCTCATCTGTTAAATGGGCAAACTGGGAGGGTGTTTATCTGCATGCAACATCTCCTTCCATTTGAAAACTTTTATGAATGTATGGAATATTATTGAG
Celera SNP ID:            hCV2853002
SNP Position Genomic:     1009774
SNP Source:               Celera
Population(Allele,Count): cau(G,1)   afr(C,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57428):
TGCTTTTATAAAAAAAGTCACAGAAACAATTATATTGTACACAGTCCTATATAATCTGCTTTCTTTTGTTTATAGAATACTGTGAATGTCTTTTTGTTTT
K
TTTTTTTTTGTTTGCGAGACAGGGTCTCACTCTGTCACTCAGGCTGGAGTGCAGTAGTGCAATCTTGGCTCACTGCAACCTCCATCTCCTGGATGCCAGC
Celera SNP ID:            hCV2853003
SNP Position Genomic:     1013122
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(G,2|T,5)   his(T,5)   total(G,4|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57429):
ACTTGTTTCCTGTGAGGGTGCCAGGAAACTTTACAATGAACTTCGTGAATTAAACCTCTACCAGATGAATAGAGGTGGTGGCATGGTAGCAGAAATTAGG
R
TTAAAAAAATGGTTTTTGATTTATGAAAAATTTTTCTGCAGGAAATTTTGATTTGTTCTTTGTGGATTCTGAGGATAAAATTAAGACCAACATTGAGGAT
Celera SNP ID:            hCV8902170
SNP Position Genomic:     950771
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57430):
TGGAAGGGATATTTAATTTCCATTAAAACATGAATTTCATTCTGCCCTTGCCATGCTTTTCTTGGTCTTAGCCCAACCTGAGCTGCTGATATTAAGGAAT
R
ATAGGATAATTCCATAATTTTCATTTTACCTTTTGCTTTTTGTTTTCCATAGCAGTTATCTAGAGGATTCCCATTATGCTTCTTCATTACCCGGTGCCCA
Celera SNP ID:            hCV386943
SNP Position Genomic:     338529
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4)   afr(A,4|G,1)   his(A,4)   total(G,1|A,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57431):
TGAAGTTGTTTAGATAAATGTGCCAGGTGCTAAGCTCAGGGTTATTAGGAATAATAATTCAGTGAAAGGAAATTTGGATGACATGAACTCATTTCCATTA
K
ACTTGAGCCACACAAATCAATGGGAAAAGAAACAGCTGAATCCAGGATAATATCTGGCTATTTGGAGTGGGCATGATAATGGAGGGAGATTGGGGAGGTA
Celera SNP ID:            hCV2851400
SNP Position Genomic:     1117361
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(G,4)   cau(G,4|T,1)   his(G,4)      total(G,12|T,1) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57432):
GGCAGTGTGCACTGTGGCTGGGAGTTGACACAGATCCTTGTCTCCCAGACCCCCAGTTTCTATCGAGCTACTGTAACTTTAAAAAGATTTAACAAAGACT
M
CCTCCACTAGCTAAGCTGAAATAAGAATGTCTCCGGAGTTTAATGGATCAAGTAGCGGTGATAGGTTTTATGGCTCTTTTTTACTTTAGGGCATAGGGAA
Celera SNP ID:            hCV2853004
SNP Position Genomic:     1016808
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57433):
ACAGCTTCTGGCGCCGCAAACACCTTGGGTCCTAGAGAAACCTGCACACTTGTGTCTCCACCTTTTTACCTCTTGCGGGCATGAGTCTGGTCTCAGTAAT
M
ACATTGTCCAGCCCATCATAAAGGGCTCTTGAACACATTTTCATCAACTTTAGGTTAAGTCTGTTTGGGTAAATGCGTCTTGGAGGGCTGGGTAGAAGAT
Celera SNP ID:            hCV386944
SNP Position Genomic:     340474
SNP Source:               Applera
Population(Allele,Count): afr(A,24|C,14)   cau(A,35|C,3)   total(A,59|C,17)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6)   his(C,1)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57434):
TTACATATACTCTCAAGATTGATTGCACAGTTCTCCTCTGGCAGCTCACAAATGTTTGACTAGATCGGAAATGGCATTCGGGCATGATTAAAAAGATTCT
W
CTGGGCTTCCCAGAAATTCTCAGTCCTGTGTCGTCAACAACCTAACTCATTGCCATTGCTGCGGGATAGACACCTCCCCCGTTTCCCATGATTAGCAACC
Celera SNP ID:            hCV2851401
SNP Position Genomic:     1115691
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|T,2)      total(A,3|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57435):
TGGAGCACTTGAAAACTGCTGTTTTGTGTCAGTAGGTAAACAACAAACATTGGTGACTACTGAATTTTCAGCAGATGTGATTCCTTTGTTTCACAGAAAA
W
CTGTATCTTTTGTTCTAAATTTTTTTCTTCTAATGGGTATAATCCTCTGTTGGAGAGTCCTTTGATAGCTAGGAGTGTGTTTTCTTCTTTACTTTCCCAA
Celera SNP ID:            hCV386945
SNP Position Genomic:     340800
SNP Source:               Celera
Population(Allele,Count): chn(A,5)   cau(A,5)   afr(T,1)   his(A,5)   total(A,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57436):
CAATGCATTACAAATATCAATATGTGGGTGCTTTTTTTTTTCTTTACCATATATTGTTTATCAGAAACCTCTGTACCCTTTCCTTTAAAGGAGTCAATAT
K
CATTTGTATTCTGTGCTGACAACTATAAATTGATGGCTAGCAGTTATCAAATGAATGTTGATGAAAAGCAGCTACTTAACATTTTCATCCCAACACCGAG
Celera SNP ID:            hCV2851402
SNP Position Genomic:     1115306
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(G,1|T,4)      total(G,1|T,4) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57437):
TGAAAACTGCTGTTTTGTGTCAGTAGGTAAACAACAAACATTGGTGACTACTGAATTTTCAGCAGATGTGATTCCTTTGTTTCACAGAAAAACTGTATCT
K
TTGTTCTAAATTTTTTTCTTCTAATGGGTATAATCCTCTGTTGGAGAGTCCTTTGATAGCTAGGAGTGTGTTTTCTTCTTTACTTTCCCAAAGACAATTT
Celera SNP ID:            hCV386946
SNP Position Genomic:     340809
SNP Source:               Celera
Population(Allele,Count): chn(T,4)   cau(T,4)   afr(G,1)   his(T,4)   total(G,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57438):
CACTGAAAAAGCCGGGCAGTTTGCAGGGCTGAGGACTTTGGAGTAGACATCTCTGTTCTCGTCTGCTGCTTCCCATCATTTTGGTGGAAGTTGGTGTGTT
S
GTTGGTTAGCACTTATTCCAAATTGAATTGTATAATTTCATTATAGAAGTATCACGGTGGAAGAAGAGGGTGACTTACTGGTGTGGTCACCTAGCCAGGG
Celera SNP ID:            hCV2851403
SNP Position Genomic:     1114159
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,2|G,2)   his(C,2)      total(G,2|C,4) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57439):
GGCTGTTGGTGGCAAGAAAAGAAGGGTGATGGGTTGGGCTTATATTGTTTAGTGGAGCAAAAGAGATGTGAAACATTTGTGTCTTAAAGTGTTTTGGTCA
R
GAGAAACTAAATTGGTTAGAAAGTGTGCAATTTTGCAAGCTTTATAAAAATATAAACCAATGAGTCTGGACTCTGTTCCCTAAAGGGGATGAGGAATGAA
Celera SNP ID:            hCV2853007
SNP Position Genomic:     1032211
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   his(A,4)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57440):
GGATCTTAAAGTCCAACCTCAAGGCCCAGCGCTGCCACTTAACAGCTCTGTGACCCTGTAAAGTCACTCAGCCTCATTGAGTCCCCCATCCTCCCCTGTG
Y
AGAATGAGGCTAATGCTAGTGCTCATTTCATAGAGTTGCTACAATAATCAATGAGATAATGTGCATAAAGATTTACATACATAATAACTGCTCAATAAAG
Celera SNP ID:            hCV8902174
SNP Position Genomic:     952343
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57441):
GAAAACTGCTGTTTTGTGTCAGTAGGTAAACAACAAACATTGGTGACTACTGAATTTTCAGCAGATGTGATTCCTTTGTTTCACAGAAAAACTGTATCTT
W
TGTTCTAAATTTTTTTCTTCTAATGGGTATAATCCTCTGTTGGAGAGTCCTTTGATAGCTAGGAGTGTGTTTTCTTCTTTACTTTCCCAAAGACAATTTT
Celera SNP ID:            hCV386947
SNP Position Genomic:     340810
SNP Source:               Celera
Population(Allele,Count): chn(T,4)   cau(T,4)   afr(A,1)   his(T,4)   total(A,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57442):
GGTAGGCTTCTCTCTAAATAAATGGAAATACTAACTGTCCCTGGCTCATAGAGCTCTGTGAGGGTTAGGCAACAATGCTTACAAAGCTCTCCATGCAGAG
M
CTGGCAAATCGTAACCTCTCAATAAATGCTAGTCATTGATGTCACTTGAATAGTACTCGTTGGCTACAACTCACTGAAAAAGCCGGGCAGTTTGCAGGGC
Celera SNP ID:            hCV2851404
SNP Position Genomic:     1113987
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,2|C,4)   his(C,4)      total(A,2|C,8) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57443):
TCCCTAAAGGGGATGAGGAATGAAAATGAAGGTTTGCAAAGACATCTTGCCAGACCCTTACATATTTTAATTTAAGGTGGTATTACTGTCCTCATTTTCA
R
GCTGAAGAACCAAGCTCTGAGAGAGTTAATGATTTTCTCCAGATCATTCACATTCATTTCTGTTACACAGCTGGGATTATAATCCATGCCTGTCTGACTC
Celera SNP ID:            hCV2853008
SNP Position Genomic:     1032388
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,4)   his(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57444):
AAGTATATGTAGCAACCAAACAGTTTCTTCTTTCCTAAAACTCAAAGTGAGTCAGACTTCTTAGGCTTGTAGATGTTGAGGACTAAGCTTTGCTCTTTAT
M
TTCTCTTTATGGATTTCCCTTTGGAAGCAGGGATAAGAAGAGGGAAGGTCTCCCAGATGTAAATTTCTCATAAATATTTGAGCTCCATTTCAGTAATTCT
Celera SNP ID:            hCV8902175
SNP Position Genomic:     963316
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57445):
TACTGTGGTTACATTTGGAAGTGTTTACAAAGGTGATAAGATGTTTTTATAGTTTGGTGTTCATTTATCGACCATATTAAGAACCTTCTTCTATGAAATG
S
TTTTAGTAGGAAGTATTTTGAATGAAGAAAGCGTATTTTCCACAATATATTTGGTAGATTATTTTTCAAAACCAAAGGACTTCAAAAATGTCTTCCTATT
Celera SNP ID:            hCV386948
SNP Position Genomic:     341024
SNP Source:               Celera
Population(Allele,Count): chn(G,7)   cau(G,7)   afr(C,1|G,7)   his(G,7)   total(G,28|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57446):
TAATTATCTGTATGGCTTTGGACGAGTTGCTTTTGATCTCTGATATCAGGTAGGCTTCTCTCTAAATAAATGGAAATACTAACTGTCCCTGGCTCATAGA
R
CTCTGTGAGGGTTAGGCAACAATGCTTACAAAGCTCTCCATGCAGAGCCTGGCAAATCGTAACCTCTCAATAAATGCTAGTCATTGATGTCACTTGAATA
Celera SNP ID:            hCV2851405
SNP Position Genomic:     1113939
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,2|G,4)   his(G,4)      total(G,8|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57447):
GTAGGGAGTCCCAACTTTTTGAATCCATCCGTGTGGCAAATGTAGCTGGACCCTTGGGATGAAGACCCTTCCTGCATCCTCCCAAGGAGACAAGTTCTGG
R
CCATAACTCTAGAGCAACCCCAACCCCCAGGCCATGGACCAAGTGTCAACAATGTTGACATTGTGAATCCCTGATCTGGAGGAACATAGCTTTGGGGCAG
Celera SNP ID:            hCV2853009
SNP Position Genomic:     1033101
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,2)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57448):
AAAGTGAGTCAGACTTCTTAGGCTTGTAGATGTTGAGGACTAAGCTTTGCTCTTTATCTTCTCTTTATGGATTTCCCTTTGGAAGCAGGGATAAGAAGAG
R
GAAGGTCTCCCAGATGTAAATTTCTCATAAATATTTGAGCTCCATTTCAGTAATTCTTTCATTCTCTGATCTGTTGCCTAATCTTCTATTTAGCAAGTAC
Celera SNP ID:            hCV8902176
SNP Position Genomic:     963359
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57449):
GGAAGTGTTTACAAAGGTGATAAGATGTTTTTATAGTTTGGTGTTCATTTATCGACCATATTAAGAACCTTCTTCTATGAAATGGTTTTAGTAGGAAGTA
Y
TTTGAATGAAGAAAGCGTATTTTCCACAATATATTTGGTAGATTATTTTTCAAAACCAAAGGACTTCAAAAATGTCTTCCTATTAGTGGACACCAGTATT
Celera SNP ID:            hCV386949
SNP Position Genomic:     341040
SNP Source:               Celera
Population(Allele,Count): chn(T,6)   cau(C,2|T,6)   afr(T,6)   his(C,2)   total(C,4|T,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57450):
TCTACCTTTGTGAACCTGTTGCTAGCAAAGAAATATTTTTCCTTGTGGCAAAAGATCAACATCTAAACACATTGTCCACGTCTAATTTGTTAGGGAGGGC
R
TGTTCTCTTCTGGAGGGCTAAGAGTTGGCATGGGATCTAAATGGATTCTCCAGAACACTTTCTCACACTTCTAAAGCCTGAAAACAAATATTTGCTTTCC
Celera SNP ID:            hCV2851406
SNP Position Genomic:     1112923
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,7|G,2)   afr(A,7)      total(G,2|A,14) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57451):
ACAGAGCCTCCCTTCTACCTGCTCTTACCCGGGCACCACAGTTGATGAGTTATTTTTTGGACCATCAGCAACACACCCAATCATTGTACATGGAATACTT
Y
GGGGATGCTTTTTTCTATATTGATTTTACTTCATTAAACTGAGCTCCAGAGGAGCAGAAACTTTGGCTAATACATCTTGGTCTTAGCTTGTAATATCTGT
Celera SNP ID:            hCV11510706
SNP Position Genomic:     305697
SNP Source:               Celera
Population(Allele,Count): cau(C,7|T,1)   his(C,7)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57452):
GTTGTGGTCTGTGCTTGAACCTGTTGCATTTATGGTGATGGACTGGCACTTTACTCTCTCTGAGCCACGGCCATCAAGCCCCTGTCATAGACACTGTCCC
Y
AGTGTCACCTGGGGAATGACACTCTTCACCTGTCATGGGAGAGGCAACTGAAAAGGAGCCTGAGGTTTTTCTACCTTTGTGAACCTGTTGCTAGCAAAGA
Celera SNP ID:            hCV2851407
SNP Position Genomic:     1112753
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,4|T,4)   afr(T,4)      total(C,4|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57453):
CCTGCCCTTCCCTAACTGGTTTCCTATGCTGTCATGCCCACCTTTGAGTGTTGCCTTCACTTTAACCTTCTGTGCATGCTCACAAAGTAATTAGCATGTA
Y
CCTCCATTCTGAGTTAATATAAGGCCCCAGACCCAGCCACATGGGGCAACTTTACTGCCTTCAGGTAGGGGAACCACCCCCACCACATTCCCTCTCCACT
Celera SNP ID:            hCV11510707
SNP Position Genomic:     315442
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57454):
CTCATCTCTTTAGATTAGTGATTCTATATTGGTGAGGGAGTGGAAGAGAAATGTGGGTGTGTTGACTATATTCTCCACAGAAACTTTTTGAAGTAGCATC
S
TCACTCAGCACAGAACATTTTGACAATACACTTCCAGGGCAGGTGGTTTCTTACTATGTCCCTCCCTACCCCCACATACTTTGGGACTCAGAATGTAGGG
Celera SNP ID:            hCV8902178
SNP Position Genomic:     978357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57455):
TGGCATGGCCTTTGTATGACACTTCCTTCTAGCCAGACTCGGATTTGGGGGCATCATATTTGGGATGGCTGCACCGCAAACAGGAAAGGCCACAGGACAG
Y
TCACAGGTTCTCTCTGAACAGAAGCCTGTGAGCACGTGCCTGTCATTTAAAAGCTGCATGGCACTCTTCCCCCTGCATGCGTTTCTCTCAAGGTGTCCCT
Celera SNP ID:            hCV2851408
SNP Position Genomic:     1112541
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   afr(C,7|T,1)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57456):
CCCCCCATGGCTTCGTCCTTATTCTTATAACCTGTATGCACTGCTGAACCTGCTGAATAACCATGTCACAGTGGCAGGAGAGGGACTGGGTGAACTTGAG
Y
CTCGATGCCTGGATTAAAGCCTTGTAATGATGTTTGCAAAGCACCAGGGTGATAACTGAATGGTTGGCACAGGCTTCGATGAAGCTTGTGTCCACCACAG
Celera SNP ID:            hCV16288880
SNP Position Genomic:     778764
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57457):
TGACAATACACTTCCAGGGCAGGTGGTTTCTTACTATGTCCCTCCCTACCCCCACATACTTTGGGACTCAGAATGTAGGGAGTGTACTCTCGAGGGATGC
R
GCCCATACGTGAATGCATGGAGGCAGCATATAAGGTTGCAAAGCACTGACCTTCTCTTTTTATGATTCCCATTTATTCCATAGACTGTGAAGTCTGCCTG
Celera SNP ID:            hCV8902179
SNP Position Genomic:     978478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57458):
CTGCTGATAGCCCAAGTTAACATCCTCCCATGCCTTGGCCTTCCCAGAACAAACATGGCTTTGGACGCCTTTGGGTGGTTGGGACTGGCTGCCTATTTTT
Y
TCTAAAACTTAAGTTTTAGGAAAGAATTCTTTCCAGCTTTCCATCCTGAACCTGCTGGTCTCCAGGCTCGTTCCTGCAAATATTTCACAGAGGAGTAAGA
Celera SNP ID:            hCV2851409
SNP Position Genomic:     1112236
SNP Source:               Celera
Population(Allele,Count): afr(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57459):
GACCCTCAATAAGGAGAATCAGAGAAAGAAGAAATAAAACATATTACTCCATTCCCATACTTCTGTGAAGAAATACCCGAGACTGGGTAATTTATAAAGA
R
AAAGAGATTTACTGAACTCAGTCGTTTCACCTGGCTGGGGAGGCCTCAAAATTATGGCAGAAGGCAAAGGAGGAGCAAAGGCACATCTTACATGGCAGCA
Celera SNP ID:            hCV8897000
SNP Position Genomic:     372520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57460):
CACCTCCCGGTTTCAAGCGATTCTCATGCCTCAGACTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCCAGCTAATTGTGTATTTTTAGTAGA
R
ACGGGATTTCTGCATGTTGGTCAGGCTGGCCTCAAACTCCCGACCTGAGATGATTCACTTGGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGC
Celera SNP ID:            hCV11936005
SNP Position Genomic:     211208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57461):
GAGATTTACTGAACTCAGTCGTTTCACCTGGCTGGGGAGGCCTCAAAATTATGGCAGAAGGCAAAGGAGGAGCAAAGGCACATCTTACATGGCAGCAGAC
M
AGAAAGCGTGTGCAGGGGAACTGCCCTTTATAAAATCACCAGATCTCATGAGATTTATTCACTATCAAGGGAACAGCACAGGCAGATCCCATGGCTTTGA
Celera SNP ID:            hCV8897001
SNP Position Genomic:     372624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57462):
TTAACTGATTGCAGCAGGTTAGAGCACAGCATGAAGAGCTGACAATATTGACCGACTGGCCCTCTCAGACAAAGTTTGCCAACACCCAGGTGAGCAGATA
Y
ACTTATCTGTGAGCAGACGTGATTCAGGGGAGATTGTTGTCCCTCCTTTCCTAAGAAAATGTGGAAAGATGAGAATGTTGCCACCAGTGCTGATATGGAG
Celera SNP ID:            hCV8897002
SNP Position Genomic:     381166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57463):
ATATGTCCCACAATTGGCAAGTGCCATAAATATATTATAGGCCATTATACTTTCTACAGTATCTTTAATTGATATGCCCCATGTCTAAGAAAAAAAGTAG
Y
TTTTCATGATGAAGGTGATGAACTACTTCTTTCCATTATTCTATTTCCCCCTTTTCTTCTTCAGGCTTTAAAGATATCATAATACCATTTACATTTACTG
Celera SNP ID:            hCV9665474
SNP Position Genomic:     628679
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,4)   his(T,4)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57464):
ATCAAGGCTGGGAGGAGGTCTTTCCACTGGTTTTCCGGGCTGTTTGTGTACTACACAGCCTGTGTACCTGGCAAGGCACGCTCTGCTCTGCCCTGCCTTC
Y
GATGAGCTGACTAACACCTTATAGATGAGGTTCCCTTAGAACCAAAGATGCCCCATGAAACTCCCTAGGATGAATGTTGGAAGTCCTTCCAACTGGGATT
Celera SNP ID:            hCV16291020
SNP Position Genomic:     392595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57465):
CCCCAACTCCTTACTCATGCTTCCTCTGTAAAATGATCACTCCCCAGTTTGACAGGAATTGCCCCTGGAATCCCATCTGGTGTTCTAATTGTTACCAAAT
Y
CAGGCAAATCTTGCCTGTGATACAGGTGGTGAAGCTACTGGATAGAACTGGAGCATCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCAT
Celera SNP ID:            hCV8897003
SNP Position Genomic:     383716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57466):
TTGTCTCCATTTCTGTCCCAGTTACATCAAGGCTGGGAGGAGGTCTTTCCACTGGTTTTCCGGGCTGTTTGTGTACTACACAGCCTGTGTACCTGGCAAG
R
CACGCTCTGCTCTGCCCTGCCTTCTGATGAGCTGACTAACACCTTATAGATGAGGTTCCCTTAGAACCAAAGATGCCCCATGAAACTCCCTAGGATGAAT
Celera SNP ID:            hCV16291021
SNP Position Genomic:     392570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57467):
CATGTACCCTAGAACTGAAAATATAATAAAAAATACATATTAAAAAAAAAAGAACTGGAGCATCGACTTTCGTTTTCATTTCAAGACCCGTCCCCCATGA
Y
CACAGAGGATGAAAAGTCTGCTTAAATTATAAGCTAGCTAATTGCTTCTTCAGTTGAAGACCTAAATGAGTTTTAAAGTGAAATGCATATCTCTAAGGGC
Celera SNP ID:            hCV8897004
SNP Position Genomic:     384286
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57468):
TGGGGCAGCACCTTTGCTTGAACGCTGGCTCCAGATGAAAGAACAGATTGCCGCGGAGCCGCTTTTCCAAGGATCCCTCTCCCCAGCATGGGGCTTCATA
Y
ATTATTGAGAGCAAACCTACTTTCCACCGCCACTCCTGGATGCACTTATTTTGCGAGCCTTATTCAGAATGTCAGCATGGATCACTTGGCAACAAAGGCC
Celera SNP ID:            hCV8897005
SNP Position Genomic:     393402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57469):
GGTTGTCTCGAACTCCTGAGCTTAGGCAGTCTGCCCACCTCAGCTTCCCAAAGTGCTAGGATTATAGGCATGAGCCACCATGCCCGGCCTAATCTAATCA
R
TTCCTTTAAATCTGAAACTGTCCGCCTGATTCTGGTTTACCACAACCACCAGAGTCTTAAGTGTCCCAATAGCCAGGGTCTCATAGACTCTGCTTATGGT
Celera SNP ID:            hCV16288887
SNP Position Genomic:     778324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57470):
AGTGAGCTGAGATGGCACCACTGCACTCCAGCCTGGGCAATGGAGCAAGACTCTATCTACCCCCCACCCTGCAAAAAAAGAAAAGAAAGGAAAAAAAATC
Y
TGGTGCTTGTAGGAGAGGCATTTATTTCTTTTAGGACTGGACGGGGCTTGGAGGGTTTCCAGGAAACAGCCTCAACCTAAAAATAGTAGACACAGTTCAT
Celera SNP ID:            hCV460318
SNP Position Genomic:     269725
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57471):
GGCTCCGAGAAGCTCACCCATCACCATTTGCTCTACTGCAAAACAGGACTCATTAGCAGGAGCTCATAAAATGAAACTGGCAGTGAGCTCATATGGAAGA
R
GCATCACGGGCAACTCGGCTTGGCTCACCAGCCCCTGAGCTGCCCCCGAGTGACCGCTCCAGCCTTCTTTCCTTCCACCTCTCCCTCTTGGCCAACTTCA
Celera SNP ID:            hCV8897006
SNP Position Genomic:     398545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57472):
ACCTGCCATCATGGGGATAACCGGAATTGATACAATGTCTTGATTCAAGATTCAGAGCTCATTTTTTCTGTGTCAGATTAAAAAAAAAACAAAAAACCCT
Y
ACTGATCTTTTAAATATGTAATTCTTCCTCCTCTTCTCCCCTTGTCTCTCTTCTCACCCCTACCAATGTAATCAGTTCTTTTTTTCTTTTTTGGAGACGG
Celera SNP ID:            hCV16288888
SNP Position Genomic:     777937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57473):
ACCACAAGCATTATCTTCTTTAATCATCTCACAATCTTATGAAGGAGATACTAATATTTTGCTTGCAAAGATGAGGGAAGTGAGTTTCCGAAGTTGCTAA
R
TGCGTAAAGGAGGTGGTGGTGTCAGAATGTTATCCTGCTCAGATGGTTGCATGGGACAGTGTCCAGAGGAAGGCCTCTGATTCCTTCCCCAGCATTAGGC
Celera SNP ID:            hCV460319
SNP Position Genomic:     269959
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57474):
TAAGTCTCCATTCCGCTTGCCAAGATTAAATTGAATTATTCCCGCTGCCATTCAGTTTTACTCTGCACAAAATACAGCCAACATTTTTGCATTTCTTTCT
Y
CCTTCCTCCTTTTCTTCTTTCTTTCCTTCCTTCCTTCCTTTCTCCCTTCATCTATCTTTGTTCCGCTTTTGTTTGTTTTTTTTTAGATCGCTGCATGCTG
Celera SNP ID:            hCV8897007
SNP Position Genomic:     408016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57475):
GAGATTCACATATGTAGATTACATTGTTATGAACCAACATTTATAAGCAAGCTTGATCTCTCAGAATGCGTTTGTCTATCTCAGATTTTCAAGAATCCTC
R
TACAAATTGTCCAGGGTTTCCACCTCGCAGTTTTCTTCCAGGGTTGCTATGGCATGGAAAGTACATTGCTATTTTGTTATGTAAATGCTCAACAGACTGG
Celera SNP ID:            hCV8897008
SNP Position Genomic:     412105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57476):
GCAGAATGGAAGGGAAGGATGGAAGGAAGAGAGGGAGAGACGGAGGGAGATGGAGGATGACAGGGAGATGGAGGGAGGCAAAAAGAAAAAGGGAGAAGGA
W
AGAGAGGAAAGAGGGGAAGGGAGGAAGGAAAGAAGAGAGAGAAGGAGGAAGAGAGGGAAGGAGGCACAGAGGTAGAGAGGCAGGGAGATAATGGAGATCC
Celera SNP ID:            hCV15776880
SNP Position Genomic:     371915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57477):
TTCCAGTTTCTCAATTGCAAAAGTGAGGCTGGTCATGGGGCTTGGAACCACGCCACGGACGCATGAAGCCTCCCCGTTTACATGCCAAATCCAGAGCTTA
K
GCATCCATGCTCAGGGCTCTCTGTGGTAGGCAACAGCTGGATTATTTACTTTCTAGAATATCTCGAGTTCTTAATCTGAGCAGTTTCGAAACCAAGCCCA
Celera SNP ID:            hCV8897009
SNP Position Genomic:     412446
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57478):
ATGGCTTACCTTACTTTTTAGACATAATTTTTGTTTTCTGTTAAAGGGTCAGTTATAGATAAGTATGCTCCCTTGCAATGAAATGAACCCACTTTATCAA
Y
TTTGAAGGAATCAAAATTAACTTGAATACATTGTCTTTTTGCATATGTATGTAGTGCTTTGTATAAACATATGAATTTGTAGGAGCTGCTCTTAATGATT
Celera SNP ID:            hCV16291028
SNP Position Genomic:     391693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57479):
TTATACTGTGGGCTGCATCGCTTACCAATATTTCATCTGTTTCACTTAGCTGCTGTTACTTACTCAATAATGTGTGGCCAATCTCACAAGATACTAATTC
W
TTTTTTCAAATGCAGCATCGCTTGAAGCTGTGATAAAATATCACACCTTTGGAAATCAAGGCTCTTCTTGTTTATTTATTTAACTCACATTAATTAGCCT
Celera SNP ID:            hCV16291029
SNP Position Genomic:     391328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57480):
TGGGGCACTGAGATCTATGCATGTTGTGGGCCCACTTTAAGAAAAGGAGTCAAACATTTAGTGTGGAATACTGGAAGGGGTCCCTAGACATGAAGGGCCT
Y
TTCAACCTACCTTTTGTTGGCTTCAAGGTTATGCCATATTTTGCAAAGTCAAGTTGGAGATGGCTCTCGATATGCATGAGTGTGTTAGACTGCTTTTCTT
Celera SNP ID:            hCV1592011
SNP Position Genomic:     390666
SNP Source:               Celera
Population(Allele,Count): chn(C,11)   cau(C,11)   afr(T,1)   total(C,22|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57481):
TCTTTTTTTTTTCTAACCACTTTCCCAGTGAGACTTCAGTTTTCATTCTCCCCTTAGCAGCTTTCAAATATGTACGTAACACAAATGTTACATGTTTGAG
M
ATTTAAACTGAATTTGGACAGGGCTTCTATTTCCAGAACCTTCTAACTCTATTTCTTTGTGACCTGATAGTCTTGCTCTCCAGGGTAAAAGAAGAGGATG
Celera SNP ID:            hCV1592013
SNP Position Genomic:     397184
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(A,4|C,4)   afr(C,4)   total(A,4|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57482):
CTCCTAACATGTCATCTGAAATCTGGGACCACAGTTCCGGCTGGAACACTTGTCACTAAAGCTGCTGATAAGCAAAGGGTGTATCACTGGTATGGGTAAC
W
GTTGTGGGAGGAGGAGGGGTCTGACAGATAGCCGGATGATTTTAATGTTTATATTCCACTGGGGTAAGCTCTAACAAAGACCCATCATTTCCCAGATAAC
Celera SNP ID:            hCV1592014
SNP Position Genomic:     397478
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,5)   afr(T,5)   his(A,1)      total(A,1|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57483):
ATAATTAACCCTCTGGGGAGACTAATATTAGTTTATTAGAGACAATTTCTAGTTCTGTTTATTTTTAACACTAAACGATTTGTTCAGATTGGGGAAAAAA
W
TTTTTTTTTTTTTTTTGGTTGTGGTGGCGTTGGCTTTTACTTGGGGTTGACCTTTCCTTATCAAGGACATACAAGGTGAATAGCTGGGTGATAATATATG
Celera SNP ID:            hCV1592015
SNP Position Genomic:     397744
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   his(T,1)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57484):
GGCTCTCCATCCTTCAAAATCCAGCTCTTGGCCTCATATCTTCCACAAAGCCTTCCCAGACCTTTACTCACCTGGGCCATTAATCACCTTCCCTCTCAGT
Y
AGCTCCTACACCATGAGTGCTTTTGTATGGTGACTGTCTGGTTACAAGGTCATCTTTTCCCCTGGATGAGACGCCCCTTGGGGAAAGGACCAAGTTTTAT
Celera SNP ID:            hCV1592017
SNP Position Genomic:     398854
SNP Source:               Celera
Population(Allele,Count): cau(C,8)   afr(C,8)   his(T,1)   total(C,16|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57485):
TCCATCCTTCAAAATCCAGCTCTTGGCCTCATATCTTCCACAAAGCCTTCCCAGACCTTTACTCACCTGGGCCATTAATCACCTTCCCTCTCAGTCAGCT
S
CTACACCATGAGTGCTTTTGTATGGTGACTGTCTGGTTACAAGGTCATCTTTTCCCCTGGATGAGACGCCCCTTGGGGAAAGGACCAAGTTTTATTCCCT
Celera SNP ID:            hCV1592018
SNP Position Genomic:     398859
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,8)   afr(C,8)   his(G,1)      total(G,1|C,16) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57486):
CTGTATCATGATATCGGAGTGTTAGCTGTTTTGGGAGTACGTGTGCTCAGGACTTGGGCTGAGTGGAAAACCAGAGTATGGGGTTAGAAATGGAGGCAGA
R
GGACTACCATGTCGGGGAGGATGCACAATGAATTGGACGAAGGTTGCAACTCAGTGAGCACCGTACCTGTAGTGTGTCTTAGTAATAGCAGATGCCCAAC
Celera SNP ID:            hCV386950
SNP Position Genomic:     342799
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   afr(A,1)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57487):
GGCCTCATATCTTCCACAAAGCCTTCCCAGACCTTTACTCACCTGGGCCATTAATCACCTTCCCTCTCAGTCAGCTCCTACACCATGAGTGCTTTTGTAT
S
GTGACTGTCTGGTTACAAGGTCATCTTTTCCCCTGGATGAGACGCCCCTTGGGGAAAGGACCAAGTTTTATTCCCTGTTTAACCTTGGCCTGACAACCTA
Celera SNP ID:            hCV1592019
SNP Position Genomic:     398883
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,8)   afr(G,8)   his(C,1)      total(G,16|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57488):
GGTGGTGTTTTTACTCTAACACCTCTTTCAGTACATACATACAGTAGGTGCTTAGTAGATGTTTACTGAATGAATGGATAAACATGTACAAAATTATGAT
M
CCTTGTGTTAAATATGGTAGGGAAGCAACATAATGTGCCCTGGAGTTTCACAGAAGAAGGGGCTTTCTTCCAGCTTGGGGATGGAGGTGAGCTGTCATTC
Celera SNP ID:            hCV2853010
SNP Position Genomic:     1033514
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57489):
AAGCAGGAGGCTTTGAGGTCTTTTTTTCCCTCCTGATTCGGAGGGAAAAAAAATGTTGTTTGTGTTCATTTATGGAAATTAGATCTATCACATACTCTTA
K
GCAATTTATGAAATGTTAAGCAATACCCCTGAATGTCCTAGTCCCAGGAAAGTTGAGAGTTGAGTGCAAGACGGGGACACCCAGGAGCCAGTAAATCAAC
Celera SNP ID:            hCV2853011
SNP Position Genomic:     1038924
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,5)   afr(T,5)   his(T,5)   total(G,1|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57490):
ACAGTGGACCTCACAGCTCTCCTGCTAATGGTGCTGATGGCTAAGCTCAGCTCTTACCCTTGACCACTGGAACAACTTAGACATGTCACCAGCTTTCTGA
S
CCTGTCTCATTACGATGAAAATTGTGATACAGGTTAGTGTAAGGACCGACAATAATGCATATAACATCAATAATGATGGATATAGAATTTCTGCAGTTAT
Celera SNP ID:            hCV386951
SNP Position Genomic:     343421
SNP Source:               Celera
Population(Allele,Count): cau(C,1)   his(G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57491):
ACATACTTCTTCCTGCCCTGGATTAACATTACCATTGGTTTTAGTAGTCTTACGTCATTATGTCCAAAGCTTTTAAGTTTACAGTGCTTGCTTAGTCCAG
Y
GACCAATGGATGTAAGTAAGTTGGAAAAGGGCAAAGGATTTAGAATCATGAGGGTTGTATTCAAACTGCAGCCTCTACTCCCTTTTAGTTACATAATTTT
Celera SNP ID:            hCV386952
SNP Position Genomic:     347146
SNP Source:               Celera
Population(Allele,Count): cau(T,4)   afr(C,2)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57492):
GCCACAACAGCCTCTTCTTTTCTCTTAAATCTTCCAGCAATTCTTCAACTTTGCCTGTATATTTATCATACAACATAATCCTAGTATTTAGTAAATGCTT
R
GTCTTTGATTTCTTATTTTCAAATGCATGTCTTTAGAACCAGAATGTGTGTAGCTGTTTTCTGGCCTGAATTTGGGCTGAGATGATGAGAAGTTTAGTTG
Celera SNP ID:            hCV8902180
SNP Position Genomic:     980261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57493):
CCATTGGTTTTAGTAGTCTTACGTCATTATGTCCAAAGCTTTTAAGTTTACAGTGCTTGCTTAGTCCAGTGACCAATGGATGTAAGTAAGTTGGAAAAGG
R
CAAAGGATTTAGAATCATGAGGGTTGTATTCAAACTGCAGCCTCTACTCCCTTTTAGTTACATAATTTTGAAATCATTTGACATTTCTGAGGTTAATTTT
Celera SNP ID:            hCV386953
SNP Position Genomic:     347177
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(A,1|G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57494):
ATTCTGGAACACGAAGGAGGTATGAAAAGGGCTTCACTCGTTTCATGGAAAAGCTCAGAACAGTTTGTCGACTTGGAAACACAGGCCCTGACAGCGTACC
M
AGGTCACCCTGCCCTTCAATCCTGCTGATAGCCCAAGTTAACATCCTCCCATGCCTTGGCCTTCCCAGAACAAACATGGCTTTGGACGCCTTTGGGTGGT
Celera SNP ID:            hCV2851410
SNP Position Genomic:     1112114
SNP Source:               Celera
Population(Allele,Count): cau(A,4|C,1)   afr(A,4)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57495):
GCAAGAATTCTGGAACACGAAGGAGGTATGAAAAGGGCTTCACTCGTTTCATGGAAAAGCTCAGAACAGTTTGTCGACTTGGAAACACAGGCCCTGACAG
Y
GTACCAAGGTCACCCTGCCCTTCAATCCTGCTGATAGCCCAAGTTAACATCCTCCCATGCCTTGGCCTTCCCAGAACAAACATGGCTTTGGACGCCTTTG
Celera SNP ID:            hCV2851411
SNP Position Genomic:     1112108
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,1)   afr(C,4)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57496):
TTTACAGTGCTTGCTTAGTCCAGTGACCAATGGATGTAAGTAAGTTGGAAAAGGGCAAAGGATTTAGAATCATGAGGGTTGTATTCAAACTGCAGCCTCT
R
CTCCCTTTTAGTTACATAATTTTGAAATCATTTGACATTTCTGAGGTTAATTTTCTACATCAGTTTAGCTGCTTTAGGCCGCAAGTTATTAACACCCACT
Celera SNP ID:            hCV386954
SNP Position Genomic:     347223
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(G,4)   his(G,4)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57497):
TGAGAGAACAAGTCTATGTTTTCTTGAGACAAAGTCTTGATCTGTTGCCCAGGCTCGAGTGCAGTGGCAGCATCTTGGCTCACTGCAACTTCTGCCTCCC
R
TGTTCAAGTGATTCTCCTGTCTCAGCCTCCTAGGGAGCTGGGATTACAGGTGTGCACCACTATGCCCAGCTAATTTTTATATTTTCAGTAGAGATGGGGT
Celera SNP ID:            hCV8902181
SNP Position Genomic:     988716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57498):
ATTTTTTCCTGTGCAGCAATTTTAACTTTCTATATTCAAATATACTCTGAATGCACAGTGAATTTGGCAGAATACCATTTAAGTCTTGTATTTTCCAAAG
Y
TAGTCAACGTCCAACTGCCAATGTTGCCTGAACAGGAAATATTTATACCTGAAAGCGTCCAGGTGAGAGTCAGGAAAGCCATGAAGGTGCAACTGGCATA
Celera SNP ID:            hCV2853016
SNP Position Genomic:     1043564
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,1)   his(C,3)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57499):
ATGGCAAGAATTCTGGAACACGAAGGAGGTATGAAAAGGGCTTCACTCGTTTCATGGAAAAGCTCAGAACAGTTTGTCGACTTGGAAACACAGGCCCTGA
S
AGCGTACCAAGGTCACCCTGCCCTTCAATCCTGCTGATAGCCCAAGTTAACATCCTCCCATGCCTTGGCCTTCCCAGAACAAACATGGCTTTGGACGCCT
Celera SNP ID:            hCV2851412
SNP Position Genomic:     1112105
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,4)   afr(C,4|G,1)      total(G,1|C,8) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57500):
GGATAGGGTAATGGTGTTGACACAGGCACTGTTGAATACGTATGTACATATTTTAATAGTTTTCTCATTAATCAAATGGAAATGCTATCGATTTTATAGG
R
TCGTTGTGAGAAGAAGTGAGAATTGAAATGAAAGGCATCTAGTCTTCCCCGGTCCCCATCCACTTGACCCACCATACCTCAAGCCACTTCTGGCTCCATG
Celera SNP ID:            hCV386955
SNP Position Genomic:     347828
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,3)   afr(G,3)   his(A,4|G,3)   total(G,9|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57501):
AAGGCCCAGATTTAGTTCTCATTGTAGGAAAAAGGGCCAGAATACCTTGCCCATTTTTGCCTTGGGAAGTGAGCTCAATGAAATACATCTTCATATGCCC
R
TTTTACAGAAGCAGCAACTGAGGGCTGTTGTACTGAGGCTTGCAATGGCCACCTCAACTTTTAGGTCTCTGAGGCAGCAATGGGACCCTTGCCGGGGCCT
Celera SNP ID:            hCV8902182
SNP Position Genomic:     1030305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57502):
TGTGCAGCAATTTTAACTTTCTATATTCAAATATACTCTGAATGCACAGTGAATTTGGCAGAATACCATTTAAGTCTTGTATTTTCCAAAGCTAGTCAAC
R
TCCAACTGCCAATGTTGCCTGAACAGGAAATATTTATACCTGAAAGCGTCCAGGTGAGAGTCAGGAAAGCCATGAAGGTGCAACTGGCATACTGATGTCA
Celera SNP ID:            hCV2853017
SNP Position Genomic:     1043573
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,3)   his(G,3)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57503):
TGACCCACATGGATTGCCTTGAAGCCGTTTCTTTTTCCTTCCCTCGTTAGGAGTACCCTCACCCTAACCCCAGCAAAGCATGTCTAGGGTCTCACAATAA
Y
AGCAGGTCTCAGAAAGATAAAATAATTCTGAATGTTACAACTCGTCCCATTTAAGGCTAGACATAAATCTATCACAGATCCTTTGGAACATCGATGGCAA
Celera SNP ID:            hCV2851413
SNP Position Genomic:     1111911
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(T,2)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57504):
CTCCCAGGTTCAAGCGATTCTCCTGTGTCAGCCTCCTGAGTAGCTGAGATTACAGGTGTGCACCACCACGCACGGCTGATGTTTGTATTTTTAGTAGAGA
Y
GGGATTTCAACATGTTGGCCAAGCTCGTCTCAAACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACTGCACCCAGCCTGTAGTTTCT
Celera SNP ID:            hCV386956
SNP Position Genomic:     348744
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(T,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57505):
TTCAAAAGTTGCTGCCTTCCAAGGGGAAAAGGTCTGGTCTTGTAATTTCTGGTCTGTGCGTGCTGTATAAGGAAGAAGGTTTGGGTAGGGAAGCAACAGA
S
TACCCACTAGTGAGAGGGAGGACACCGCTGGTCTGTGCTCAACAGCCAGGCCAGCACCACATGAATAAAGCATGATGGCAATTGCCTGACTCTGTCCTCG
Celera SNP ID:            hCV8902183
SNP Position Genomic:     1030611
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57506):
CTGTTTGTAACATGATTTAAGCACTAAGCTATTGAATTTTGGAGTGCATTAAAAAAAATATCGAGTGGAAAAAGGAATATTTCTTAGGGAGGAAAAACCC
K
ACTTTTGACTTTATAATATTAAGTTCGTTCATATCTCTCTTAGATTCTTATATAAATTTTATTGACCTAATGTTCTGTACAGTAGTCCTTATTTACAGTT
Celera SNP ID:            hCV2853018
SNP Position Genomic:     1052082
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,6)   afr(T,6)   his(T,6)   total(G,1|T,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57507):
CTTCAGTGCTTTTTCAGGACTATGTTATAGAATACTTATGGGGCATACGTGTAAATGAACTGTCAACCTTAAAATCTAAACAAACAGCTTGTTTGTGGTT
Y
GTCCTGAAATCCTCCCTGCTCACAAAACAGCCAGCTACTTGGTTTTCTAAAAGACGTAATTTTGCAGGCAGACTTCGTAGAGCCATTCTGTGCAGAAGAA
Celera SNP ID:            hCV2851414
SNP Position Genomic:     1111061
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5)   afr(C,5)   his(T,1)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57508):
AGACGGGATTTCAACATGTTGGCCAAGCTCGTCTCAAACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACTGCACCCAGCCTGTAGT
K
TCTTATTTAATGTCTGTCCCCCCTTCTCTTGACAGTGGTGTTTTTGCCTTCACACTACTGTATCCCTGGTCCATACCGTAAATGTTCTGTAAATGTTTGT
Celera SNP ID:            hCV386957
SNP Position Genomic:     348841
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   afr(G,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57509):
TACAGAGAATAGGAGAGAAAATAGAGCTCCAAGGTGGAGGAAAAGACAACTGAGAGGAGGCTATTGTGATGTTTTATTACCATAAACTGCCAAGGGTTAG
Y
CGTAGCCCTCCATCTGCCAGCTAATTCCGGTTTCATTAATATGAATATTCTCACGCTTCCAGAAGGAAATTCTTGGAATGTTATGGATCTCTGTAGCAGG
Celera SNP ID:            hCV8902184
SNP Position Genomic:     1044500
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57510):
AAAAACCCTACTTTTGACTTTATAATATTAAGTTCGTTCATATCTCTCTTAGATTCTTATATAAATTTTATTGACCTAATGTTCTGTACAGTAGTCCTTA
W
TTACAGTTTTGGTTTCCAAGGTTTCAGTTATACATTGTCAACTGTGGTACAAATATATTACTTACAATACGATATTTTGAGAGAGAGAGACCACATTTAT
Celera SNP ID:            hCV2853019
SNP Position Genomic:     1052174
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,6)   afr(T,6)   his(T,6)   total(A,1|T,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57511):
TTTTTTTTTTTTTTTTCTTCAGTGCTTTTTCAGGACTATGTTATAGAATACTTATGGGGCATACGTGTAAATGAACTGTCAACCTTAAAATCTAAACAAA
M
AGCTTGTTTGTGGTTCGTCCTGAAATCCTCCCTGCTCACAAAACAGCCAGCTACTTGGTTTTCTAAAAGACGTAATTTTGCAGGCAGACTTCGTAGAGCC
Celera SNP ID:            hCV2851415
SNP Position Genomic:     1111045
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(C,4)   his(A,1)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57512):
ACGGGATTTCAACATGTTGGCCAAGCTCGTCTCAAACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACTGCACCCAGCCTGTAGTTT
S
TTATTTAATGTCTGTCCCCCCTTCTCTTGACAGTGGTGTTTTTGCCTTCACACTACTGTATCCCTGGTCCATACCGTAAATGTTCTGTAAATGTTTGTAA
Celera SNP ID:            hCV386958
SNP Position Genomic:     348843
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   afr(G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57513):
GATCTCTGTAGCAGGCACATGCAACGTCCAGTGCTTCCCTGCTGGTAATGTGGCGGTTTTATTATGCATGCCATACCCATGCTCTCTATTTCCTCGATAG
R
CCTTATAGAAATCACCATGCTTCCTTTTAGAAGAAAATGATGGTATCACATGGAGAACGAGCTGAGGAGCTTGACAATCTTGGCAAGGCTTATCAAAAGA
Celera SNP ID:            hCV8902185
SNP Position Genomic:     1044686
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57514):
TGATTCTAGATGTTTTTTAGGAAACCCAAAGAAAGTATGAAAAAGCCCAAGCCAAGTCCTTCCACTGTTGTTCCCGGGCCTGTGTGTGCTGTGTGTCTTT
S
CTGGGAGAAGGTCAGAGCTGGAGTGGGGCACTCGATTCCGGCAAGAGAAGGCAAACAAAAGAAGCCACAACAGTCTAGGAAGAAATCTTTAATTTCTATT
Celera SNP ID:            hCV2851416
SNP Position Genomic:     1109996
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(G,7)   cau(C,1|G,7)      total(G,14|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57515):
AGCCACTGCACCCAGCCTGTAGTTTCTTATTTAATGTCTGTCCCCCCTTCTCTTGACAGTGGTGTTTTTGCCTTCACACTACTGTATCCCTGGTCCATAC
M
GTAAATGTTCTGTAAATGTTTGTAAATGAATACATGAAAGATGACCAGGTGCTGAATCAGTGAGAGTCCTTAATGTACTTCTTATCATTTATCCCTCTGA
Celera SNP ID:            hCV386959
SNP Position Genomic:     348918
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4)   afr(A,2)   his(C,4)   total(A,2|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57516):
GAAGCACACACAGCTGTTATCTTCCAGAAACACTGCTTACAGAGGTAATTGCTCACAGATTTTAGGGTTTACAGCAGGTATCACAGGATTTCAAATTTAA
R
AGGGGGGTGGGGGCCTGTGTTCAAAGTCTTAAGAATATCCAAGGGATGTATGATGTATGCATAATTACCTGAAATTGAAACTACTGTAGTTTAAACACTT
Celera SNP ID:            hCV8902186
SNP Position Genomic:     1064167
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57517):
GGAAATGCTCTCAGTCTTTAATAACAGTCTTAATCGTGTGTAGAGCAGAGATTGACAAACTATGGCCTGCCGGCTAAATCTGGCCCAGTGCCTTTTTTTT
W
ATAAATAAAGTTTTATTGGAATACAGACACGTTCATTTGGGTAGACGTTGTCGATGGCCGCTTTCACAACAATAGCAGAGTTGAGTGATCGTGCCAGACA
Celera SNP ID:            hCV2851417
SNP Position Genomic:     1109512
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,3|T,1)      total(A,3|T,1) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57518):
AACATGATCCCACTTAATCCTCCACTTCACAATTCTGAAAAGTCAACAAATTTGGCCCATGGTAGAGAGGAGGAAACCAAGACTTGAAACATTAAATAAC
R
TGTCCAAAGTCTCCCATTTCAGAGACAGGGGCATTTGGCTCCAGGTTTTTCTGACTCTAGACAGTAGTTTGTTTTTAGCACATCAAATGTCTGAGACTTG
Celera SNP ID:            hCV8902187
SNP Position Genomic:     1076629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57519):
TTACTGTAAGGTATCTAAGACTTCTGGGTGTGGGTTTTAAATATATTTTGGATGAGCTTTGTTCATGTTTACACATGGCCACCAGGTCGGCCACAAAGCT
R
TGGCTCTGGTCAGTCTGACTCTCTTTAGCAGGAATCACGTGACAATCTGTGTCTGTGATTAGCTCCGTGGATATTACTAGGTAGATTTCTCACTTGTCCT
Celera SNP ID:            hCV8902188
SNP Position Genomic:     1082882
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57520):
TACTCTCCTGATAGCCACTAAAGGGGGAATTGGATATTGTCTATCAATTGGTTGGTCTCTGAACTAAGGCTGTATCTAATTACAAGGCATTGTATCGGTT
S
TGATTTATTAACCATTTACTTGGCTTTGGAGAAGGCAGCATTTTTAGTAGTACTGTTGAGCCTGCATGTAGCTTTTCCAGGAGGGCAGGGTGCCTGGATA
Celera SNP ID:            hCV460320
SNP Position Genomic:     271446
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57521):
GAGCCTCACACTCCCTGGACAAAGACATGAAAAACTCTGGATGATTTGGAAGGGAGATCTAGAAATGGTGAAAGGACTGGCAAGTGCCTCTGTGCTGATA
Y
TGTACCTGGGCTCAGTGGTCTGGCTAAAGGAGAGGTGCTGGGGCCAGGTGACAGGCGAGTCTCTATACGGCAGGCCCAAAAAATGGAGGTGCAGGCTTCA
Celera SNP ID:            hCV2851419
SNP Position Genomic:     1108237
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,3|T,6)   his(T,6)      total(C,3|T,12) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57522):
CGGTTGTGATTTATTAACCATTTACTTGGCTTTGGAGAAGGCAGCATTTTTAGTAGTACTGTTGAGCCTGCATGTAGCTTTTCCAGGAGGGCAGGGTGCC
Y
GGATATCTGATCTTACAGTTATTACTTTGTGTCATATATAATTTTGTTTTCTCCCTGCAACAAATAAATCTTTGGGACTCCGGAAGAAAAAAAAATGGGA
Celera SNP ID:            hCV460321
SNP Position Genomic:     271541
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57523):
TTCTCAATTGCAAAAGTGAGGCTGGTCATGGGGCTTGGAACCACGCCACGGACGCATGAAGCCTCCCCGTTTACATGCCAAATCCAGAGCTTAGGCATCC
R
TGCTCAGGGCTCTCTGTGGTAGGCAACAGCTGGATTATTTACTTTCTAGAATATCTCGAGTTCTTAATCTGAGCAGTTTCGAAACCAAGCCCACATTAAT
Celera SNP ID:            hCV8897010
SNP Position Genomic:     412453
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57524):
GAGAAGGACCCGGTTGGCTCTGCAAACCGCATTTCCTTGGCTGAACGCCAGAGGAGAGAAATGATCCGGCAAGAAGACACACCATTCCCCGTCAGCCCCT
W
CCCGACCCTTGCACCCCTGGATCTTCTGCTGAGTATCGGATTGGTCTGCGTCCAAGAGCTCCTCGCTTGGCCAGCAGGGGCTGCCTGGAGAAGGGGAGGA
Celera SNP ID:            hCV8897011
SNP Position Genomic:     413669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57525):
TTCTGCTGAGTATCGGATTGGTCTGCGTCCAAGAGCTCCTCGCTTGGCCAGCAGGGGCTGCCTGGAGAAGGGGAGGACAGGCTTCGAGTTTTTTGGGTAG
K
GACTTCTGTGGACGTGAAAAGACTGCACCAGAAATCGGAGGCAGCCCTCCAAACATAACTTGGCCTCTTCGTTCTCCCTGTGGACACACAGGCTGTGTTC
Celera SNP ID:            hCV8897012
SNP Position Genomic:     413793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57526):
AAAAATAATGATAAAGATTGTGTGATCAAGTATAGCAGCCCTGTGGTGTTTCCTCAGAATGGTGTATTACAGAAAAGGAAAAAGCCATATACATGGAGAA
R
AAACTCCCGATATTTAATATTATCAATTGCTGGTTCCTGTAAATTTGCATTTATGGATCACATTATAAAAGCAATTACTCTTATGGATTGTTCATGCAGA
Celera SNP ID:            hCV8897013
SNP Position Genomic:     419822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57527):
TGAAGATGCTGAGGTTGAGGGAAGAAATAAATGTTAATGCAAAGTGCCCAGTTTAGTGCCTGCCAAGAGTAACTGGTGGGTCTGTGTCACCTTCTGACAT
K
ATCAGTGTGATTGTCTCCAACGCATCCATGGAAGTGAAACCGTTGGAGGAAGCTAATGCCGTGAGCCAGCTGTTGGTTATGTTTTTGTTTTGTTTTTCTT
Celera SNP ID:            hCV460325
SNP Position Genomic:     272323
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   afr(G,7|T,1)   total(G,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57528):
CCCCCTTCACATACTTATACTGTGGGCTGCATCGCTTACCAATATTTCATCTGTTTCACTTAGCTGCTGTTACTTACTCAATAATGTGTGGCCAATCTCA
M
AAGATACTAATTCTTTTTTTCAAATGCAGCATCGCTTGAAGCTGTGATAAAATATCACACCTTTGGAAATCAAGGCTCTTCTTGTTTATTTATTTAACTC
Celera SNP ID:            hCV16291030
SNP Position Genomic:     391314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57529):
GTAAGAGGTTTGAGGGAAAAATAATACTGAGTTTTGAGTGTTTCTGATTTTAAAAATGTGTTCAGTAGAATTAAACGTGTTCACCAAAACCCATTTTATC
M
CTTTAAATTATTGGGCAATTAATTGTATTTACTTAGCATTGAATGCATGATTAGAAATGGAATTTTTAAAAAAGCAATACTCAAGTGGAGTGAGTTCATT
Celera SNP ID:            hCV8897014
SNP Position Genomic:     420080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57530):
TAAATGTTAATGCAAAGTGCCCAGTTTAGTGCCTGCCAAGAGTAACTGGTGGGTCTGTGTCACCTTCTGACATGATCAGTGTGATTGTCTCCAACGCATC
Y
ATGGAAGTGAAACCGTTGGAGGAAGCTAATGCCGTGAGCCAGCTGTTGGTTATGTTTTTGTTTTGTTTTTCTTTTTTACTTGCTGGATAGTGGGTTCTGT
Celera SNP ID:            hCV460326
SNP Position Genomic:     272350
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   afr(C,6|T,1)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57531):
AGTGGTGGCCTACTTACAGTGCATCGCCCACTCTGATTTAGATGAGCAAGAGCTGCTGAGTTGTAGATTTCTAGTTTCTAAACAACAATAAGTCTTGCCC
S
CAGATAGCCTCTTAGCAGAGCCAAAAGCCAGCAGAGAGAAGACTCAGCATTTGCTTTGGAGTAAGTTTGTGTGTGTATGTTTATCTCCCTTTTACTCATG
Celera SNP ID:            hCV16288895
SNP Position Genomic:     777177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57532):
TATCCACTGCCCTGGTGGGGGAATCAGTGAGGCTAGGAATCACTGGAAAATGACATTCCTTGAGACTCCTTCAATGGGTAGAGTTTGCTTTAGCTTTTCA
W
GTATCTTACTGTATGATGGTTGCTTTTGGGTTGAATTCCACCTTGGGTTCAATTCAACATGAAAGTTAACCTTTTGGTGAAGGAATGATCCACGGGAAAT
Celera SNP ID:            hCV8897015
SNP Position Genomic:     421089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57533):
ATGCCGTGAGCCAGCTGTTGGTTATGTTTTTGTTTTGTTTTTCTTTTTTACTTGCTGGATAGTGGGTTCTGTTTATTGAGAAATATTTACATCCGTCTAA
W
TCAGGTGCTTGCTAGGGTTCTTGGCACACAGAGCATCCCACCAATAAACTGTGGTTCCCAACAAGGCTTGCAACTGAATCTGGGCAACAATGAACATGAC
Celera SNP ID:            hCV460327
SNP Position Genomic:     272479
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   afr(A,6|T,1)   total(A,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57534):
GGAGTGGTGGCCTACTTACAGTGCATCGCCCACTCTGATTTAGATGAGCAAGAGCTGCTGAGTTGTAGATTTCTAGTTTCTAAACAACAATAAGTCTTGC
Y
CCCAGATAGCCTCTTAGCAGAGCCAAAAGCCAGCAGAGAGAAGACTCAGCATTTGCTTTGGAGTAAGTTTGTGTGTGTATGTTTATCTCCCTTTTACTCA
Celera SNP ID:            hCV16288896
SNP Position Genomic:     777175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57535):
TTGTCAGTTCAGGAGGGTAGAGGATAGGGGGGAAAAGGTGCTACTGGCATCTAGTGGGCAAAGGCCAGGGATAGTGCTAAGGATCCTGCAGTGCAAAGGA
S
CATGCCCACCACAAAATATCAGCAGTGCCGAGGTTGGGAAGCTCTGTGCCATTGTGCAAAGATTCAAGGTGGCTATGTCACAGGACTGGTACATGTCCTT
Celera SNP ID:            hCV8897016
SNP Position Genomic:     435512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57536):
CCTTGTATCTACTGCTGTCGTTTAGATTAGGAACAGATTGCCAGATGTGGAAGAAATAGCCTCATTAGTAACTTTTCTGTAAGCAATCTCCTTATTTCTT
K
TTTTTTGTTCTTTTGTTTTTTGTGTGTGCTTCTGCGTGCACCTCCTCTATGGCTCCCCCCACCAAATTTCTGTGTCTTCATTTGCAACTCTCTTTTCTCC
Celera SNP ID:            hCV460328
SNP Position Genomic:     272820
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(T,1)   his(G,4)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57537):
TAGTTTAGAATGAAATTTTAAATACACTAGTATATGTAATTAAAATTGTATATACGTTTTAGTCAACCATCAGCTGACTTATTCATGTTCTGTGGACTCT
R
TGGTGGGTGGGGTCCAAGCCTCCCTGAAGCAGATCTCTATCCTGTCACCCTGCTGGAAATGAAACACTTAGGGGTTAGAAGGGGATCAAGGAAAGTCCGA
Celera SNP ID:            hCV16288897
SNP Position Genomic:     776615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57538):
TGGATTTGGCAGCTGGTTTTGTCTGGATTTGAAAGGGAGGTAATCAGGGGTGTGCTGGGAGGGCCAGAACGATCCACCCACGTGTTGGTGCCACCCGGCA
R
TGGAAAAGCCTCTGGCCTCGGCCTTCTCCGGAAGGTTGTCCGCGGTGCCAGTGAGAGCTGCTTTTCACCTTACAGCAGCCCCGGCCTATCTCTCAGGAGG
Celera SNP ID:            hCV8897017
SNP Position Genomic:     445468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57539):
TCATTATATGCCTCCAAAGACTTTGTGTTTCCTGTGTTTGACATCGAGATAGAATTTTTCATAACCCTTTACTAGTAATAAATTTGATTGTTAAGGGACC
R
GGTTAATCTTATTTCTAATACCAGCATCTGATTTTAAAACCCTGATTTAGGAGCATTTTCTTTCTGCTACCTTCCTAAAACGCATGGGTGGAAATGTATA
Celera SNP ID:            hCV8897018
SNP Position Genomic:     446326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57540):
GATATCCAGTATATTCCATGAAACAAATATCATGAATTTATTCCATGAAACAAATATCGTGAATATATTCCATGAAACAAAATACTGTGAAATCATACCA
S
TGATTTTTGAAGAAACCTAATGAAAACAGCATGCTCCTATATCTTTTTTCTGGGTGATCTTTAGATATCTCGTCTTCCAAACTTTTGTGTAGCATTGTCT
Celera SNP ID:            hCV8897019
SNP Position Genomic:     458834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57541):
AAGCAGAATGGAAGGGAAGGATGGAAGGAAGAGAGGGAGAGACGGAGGGAGATGGAGGATGACAGGGAGATGGAGGGAGGCAAAAAGAAAAAGGGAGAAG
K
AAAGAGAGGAAAGAGGGGAAGGGAGGAAGGAAAGAAGAGAGAGAAGGAGGAAGAGAGGGAAGGAGGCACAGAGGTAGAGAGGCAGGGAGATAATGGAGAT
Celera SNP ID:            hCV15776890
SNP Position Genomic:     371913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57542):
AAGGGGTCCCTAGACATGAAGGGCCTCTTCAACCTACCTTTTGTTGGCTTCAAGGTTATGCCATATTTTGCAAAGTCAAGTTGGAGATGGCTCTCGATAT
K
CATGAGTGTGTTAGACTGCTTTTCTTCTATTTTTTAAAAATGCACCCAAATGTAAAAGACACTTTTACCTTTTTGATTTGATGTTGAAGGTCATTTGAAA
Celera SNP ID:            hCV16291037
SNP Position Genomic:     390740
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57543):
CGATGTGTTGTTTTCTTTGTTCTTTTTTTTGAGACAGGGTTTTGCTGTCACCCAGGCTGGAGTGCAGTGGCAGAGTCTCTGTGCACTGCAGCCTCCGCCT
Y
CCAGGTTCAAGTGATCCTCCTACCTCAGCCTCCTGAGTAGCTGGGACTACAGTTGTGCGCTACCACACCTGGCTACCGTGTCTTGTTTTCAATGCAGTAT
Celera SNP ID:            hCV1592020
SNP Position Genomic:     399164
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|T,5)   his(C,2)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57544):
GACAGGCGTGAGCTGCCTTGCCTAGCCAAATAACTCCATTATTTAAGAAAAATTAACCAGTATTTATTGAATACTTACTGGGCCCTGTGCTAAGTGCTTT
S
CATGTGATTTCTAATTTCCTGACCATTCTATGAAGTGGCTACTATAATTATCCTGATTTCCCAGGCAGAGAAACTGAGGCTTAGAGAGTTGAAGTAATCA
Celera SNP ID:            hCV16291038
SNP Position Genomic:     390206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57545):
AAAGTCATATCTTACATGGTTGGCAGCAGGCAAAGAGTGAGCTTGTGCAGGGAAACTCCCCCTTATAAAACCATCCGATCTCGTGAGACTTGTTCACTAT
S
ACGAGTAAAGCACAGGAAAGACTTGCCCTCATGATTCAGTTACGTTCCACCGGGGCCCTCCCACAACACATGGGAATTGTGGGAGCGACAGTTCAAGATG
Celera SNP ID:            hCV1592021
SNP Position Genomic:     507766
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(G,1)   his(C,3)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57546):
TTTTTTTTATTATTTTTTGAGACAGAGTCTTGCTCTTTTGGCCAGGCTAGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCTGTCGATTCTCCTTC
M
TCGGCCTCCGTAGTAGTCAGGACTACAGGCATGCACCACCATAGCTGGCTAATTTTTGTATTTTTAGTTAGACACCAGGTTTCACCATGTTAGCCATGCT
Celera SNP ID:            hCV16291039
SNP Position Genomic:     389946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57547):
CCTCTTCATTGTCCCCTTCATACAAATAGATAGCTTTTAGTGAGCAGCTACTCTGCCTGGCACTGTTCTAAACACATGACACCAATAGCTCACTCAGATT
S
CCGCCTCTCAACAGGGAAACTGAAGCACAGGAAGTTTCAGTGATGCACTTAGGCAACCAGTAAGTGGCAGGGTCGGCATTGAGGTCAAGACTGGTTGGAC
Celera SNP ID:            hCV1592022
SNP Position Genomic:     506531
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4)   afr(G,1)   his(C,4)   total(G,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57548):
AAACCCCTAAATTGTGGTGCCTCAGTGATCTTCTATAACATAAGTTGATAGTCAATAATTGCTTAATGGGAATCATAAATATGAGTTTATTTATATGTGT
R
TATATATATATATATAAAATATATTTCCATGAATATACTGAATGCTAAGCCCTCCCCACTTTTTTTTTCTTTTTTAAATTCAGAAATTTCTAGTTGTGTT
Celera SNP ID:            hCV1592023
SNP Position Genomic:     505376
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   afr(G,1)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57549):
ATTCTACGGTGGCTCTTTACCCATTGCCATCATTTTGTAGGCAGTGAGTGCCCGCATCAGTGGGCGTTTTATGTTGCACCATTTTCTGAGCAATGTCTTT
S
GTCCACCATTAAGCATTTGTGGCCGCCCACCCCACAATATGCTTTGCTTTCTGCTTTCAGAAACAATACTGGTGACCTGTTTTAAGAAAAGCTGAAAAGC
Celera SNP ID:            hCV1592024
SNP Position Genomic:     505082
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   afr(C,1)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57550):
CCAAAGCCTGTGTTTTTCTTGCTCACATGTGAGTCTTCTCCTTGCTTCAACCCTCCCCGCTGACAGCCACAAGACTCTGCCTCCCTGCAGCCTGTGGAAC
R
TAATATTCGTTGGGATCATACATTGACCAAAGATCCGCCATGTCTTTGCAACTAACATACTCACTCATGACTTCACGTGGCTATGTACAAGACCACATCT
Celera SNP ID:            hCV1592025
SNP Position Genomic:     503035
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   afr(G,1)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57551):
AGATTTGGAGTCAGATGTCATATTCCTGCCAGCAGGTTTAGCAGTCGTGGGACTAGGGAAGTGGCAATGGCAGGAGCAACTGGAAATGTCTTTTTTTTTT
Y
CTCCTTTTTCCTGAATATGGAACCAAAGCCTGTGTTTTTCTTGCTCACATGTGAGTCTTCTCCTTGCTTCAACCCTCCCCGCTGACAGCCACAAGACTCT
Celera SNP ID:            hCV1592028
SNP Position Genomic:     502912
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   afr(T,1)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57552):
ATCTCTCTTAGATTCTTATATAAATTTTATTGACCTAATGTTCTGTACAGTAGTCCTTATTTACAGTTTTGGTTTCCAAGGTTTCAGTTATACATTGTCA
M
CTGTGGTACAAATATATTACTTACAATACGATATTTTGAGAGAGAGAGACCACATTTATGTAACTTTTATTACAATTTATTGTTATAATTGTTCTATTAT
Celera SNP ID:            hCV2853020
SNP Position Genomic:     1052215
SNP Source:               Celera
Population(Allele,Count): cau(A,6|C,1)   afr(A,6)   his(A,6)   total(A,18|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57553):
TCCTTTCACAATAACCCTATCCTTACTGTTGAAGACTTGTGGAAAAGGGACATGGCCCAGGGAACCAGAGTGGTTTGGGAAAGCACTTTGTCAAGAGGCT
K
GGGGACCCCAGGGTGGAAGCTGCCATGCGCATGAGGCTGTGTTAGCAGAGGCAGTGGCAGAAGAAGACATTGCAAACCTGCAAAAGCAACCTCTGAGGAT
Celera SNP ID:            hCV1592029
SNP Position Genomic:     502670
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,2|T,2)   afr(T,2)      total(G,2|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57554):
TTGACCTAATGTTCTGTACAGTAGTCCTTATTTACAGTTTTGGTTTCCAAGGTTTCAGTTATACATTGTCAACTGTGGTACAAATATATTACTTACAATA
Y
GATATTTTGAGAGAGAGAGACCACATTTATGTAACTTTTATTACAATTTATTGTTATAATTGTTCTATTATTGTTGCTCATCTCTTACTGTGCCTAATTT
Celera SNP ID:            hCV2853021
SNP Position Genomic:     1052244
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,1)   afr(C,6)   his(C,6)   total(C,18|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57555):
GCACCCAGCCTGTAGTTTCTTATTTAATGTCTGTCCCCCCTTCTCTTGACAGTGGTGTTTTTGCCTTCACACTACTGTATCCCTGGTCCATACCGTAAAT
K
TTCTGTAAATGTTTGTAAATGAATACATGAAAGATGACCAGGTGCTGAATCAGTGAGAGTCCTTAATGTACTTCTTATCATTTATCCCTCTGAGGTAGGC
Celera SNP ID:            hCV386960
SNP Position Genomic:     348925
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(G,4)   afr(T,2)   his(G,4)   total(G,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57556):
TAATTTATAAGTATACTTTATTGTAGGTATGTATGTATAGGAAGAAATGAAATATATGTAGGGTTTGGAACCATCTGAGGCTTTAGGCATCTACTGGGGG
W
CTTGGAGTATATCCCCTGTGCAGAAGCGGAGGCTACTGTACATACATTTGCCTGTAAGTGAGCGCGTTCTTGGATTTTGTTGAATGGTGCCACTGATTAT
Celera SNP ID:            hCV2853022
SNP Position Genomic:     1052439
SNP Source:               Celera
Population(Allele,Count): cau(A,3|T,3)   afr(A,3)   his(T,3)   total(A,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57557):
TCCCTCTGAGGTAGGCAAGGGATTATAGTTTAGAATGTGTAAATACGTAAAAGATAAGGCAAGGAGACCTGCTGAGAGTCACACAGCAAGCCCCCAAGGT
Y
CCCCAGGCTCATGGTCAAATGACATGTAAGGGACGTATCCAGCGGTGTGGGTATGTTTGGAGGGAATGAATGTAAGGAGAGAGAGGTGAGGCACAGGAGA
Celera SNP ID:            hCV386961
SNP Position Genomic:     349110
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(C,6)   afr(T,2)   his(C,6)   total(C,18|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57558):
AAGAAATGAAATATATGTAGGGTTTGGAACCATCTGAGGCTTTAGGCATCTACTGGGGGTCTTGGAGTATATCCCCTGTGCAGAAGCGGAGGCTACTGTA
Y
ATACATTTGCCTGTAAGTGAGCGCGTTCTTGGATTTTGTTGAATGGTGCCACTGATTATGGGTCAGAGCTTGTTGAAAGGGTATTAATCCATTATTTACT
Celera SNP ID:            hCV2853023
SNP Position Genomic:     1052480
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,4)   afr(T,4)   his(C,3)   total(C,6|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57559):
TACGTAAAAGATAAGGCAAGGAGACCTGCTGAGAGTCACACAGCAAGCCCCCAAGGTCCCCCAGGCTCATGGTCAAATGACATGTAAGGGACGTATCCAG
Y
GGTGTGGGTATGTTTGGAGGGAATGAATGTAAGGAGAGAGAGGTGAGGCACAGGAGAGACAGGATGAGCTTTAGAGGTAGACAGCTCTCGGGTCCAGCCC
Celera SNP ID:            hCV386962
SNP Position Genomic:     349153
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(C,6)   afr(T,2)   his(C,6)   total(C,18|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57560):
GTCCCTTTTTCTTGGAATGTCAGCCTGACCCTGAAGGTATTCTCCTACCAGCAGAGCCTTCTTTGATGCCCCGTCTTCAACCTGCCATGTTTTCCCATCT
S
TGAGGCTTCTATTTTAGAGACTTTTCCTCCAGAACTGGCTTATATCATCCTGTGTTGCTGCATCCGATCACAGGTCTGTGGCTGACCTGGGCAGCGTAGT
Celera SNP ID:            hCV2853024
SNP Position Genomic:     1053808
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,6)   afr(G,6)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57561):
AACCCTCCCTAAGCAGCTATTGAGCCTCACACTCCCTGGACAAAGACATGAAAAACTCTGGATGATTTGGAAGGGAGATCTAGAAATGGTGAAAGGACTG
S
CAAGTGCCTCTGTGCTGATATTGTACCTGGGCTCAGTGGTCTGGCTAAAGGAGAGGTGCTGGGGCCAGGTGACAGGCGAGTCTCTATACGGCAGGCCCAA
Celera SNP ID:            hCV2851420
SNP Position Genomic:     1108216
SNP Source:               Celera
Population(Allele,Count): cau(G,10)   afr(G,10)   his(C,1)   total(G,20|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57562):
CTAGATGCTTAAGAAATGTTAACTACTATTGTTATTGGCTTGCAGTAGAAATTAAAGATTATGAATGTTCAGCATTCAGAATATACTAGATACTCAATAA
S
CATTATTGCTGTCATTATTAACATTATTTTCCCCAGCTTTACTGAGGTATGAGTGACAAAAATTTCATATATGCGCATGAGTGTGTGTGTGTGTGTGTGT
Celera SNP ID:            hCV386963
SNP Position Genomic:     349492
SNP Source:               Celera
Population(Allele,Count): chn(C,7)   cau(C,7|G,4)   afr(G,4)   his(G,4)   total(G,12|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57563):
CCTAAGAGACTCTCAGTAACCAGCAGTCATCACCACCGTCGTCGTCTTTTTTTTTGGCCATTACAGTTGGGATTAGACTAACCCTCCCTAAGCAGCTATT
R
AGCCTCACACTCCCTGGACAAAGACATGAAAAACTCTGGATGATTTGGAAGGGAGATCTAGAAATGGTGAAAGGACTGGCAAGTGCCTCTGTGCTGATAT
Celera SNP ID:            hCV2851421
SNP Position Genomic:     1108137
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,3|G,6)   afr(G,6)   his(A,3)      total(G,12|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57564):
CGAATCACGAGGTCAGGAGATTGAGACCATCCTAGCTAACATGGTGAAACCCTGTCTCTACCAAAAATACAAAAAAATTAGCCAGGCGTGGTGGTGGGGC
S
CGGTCGTGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTAAGGCAGGAGAATGGCGTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCACCAC
Celera SNP ID:            hCV386964
SNP Position Genomic:     350610
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,9)   afr(G,9)   total(G,18|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57565):
CATTACACGTCAACAAGAATATGGGTTTTGAACCCAGACCTCAGTTTGAATCTGAGTTCCAGCACTGCCCCGTTGCTTGGCCGTGAGTTACTTCACCTCC
W
TTAGCCTCTGTCTCCCCTCCACTACAATAACACCTGCCTGGTGGGGAGTGAGGATATTGTGCGAATCAGAAGTAATAACAGGTCGTTGGCACCTAAGAGA
Celera SNP ID:            hCV2851422
SNP Position Genomic:     1107945
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,1|T,6)   afr(T,6)   his(T,6)      total(A,1|T,18) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57566):
GCACCACTGCACTCCAGCCTGCGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGGCTGTGTGTGGTGACTCGTGTCTATTGTCCCA
S
CTACTTGGGAGGCTGAGACATGAAAATCACATGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGACATCGCATCACTGCACTCCAGCCTGGGTGACAGAGT
Celera SNP ID:            hCV386965
SNP Position Genomic:     350804
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(C,1)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57567):
CCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTTG
S
CCTCCCAAAGTGTTGAGATCACAGGTGTGAGCCATGGTGCCAGGCCTCTCCTGTCTTTAACTGGGGATAATGTGTGCAGAATTCCCCCTAAAGGATCTAT
Celera SNP ID:            hCV2851423
SNP Position Genomic:     1106763
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57568):
CGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGGCTGTGTGTGGTGACTCGTGTCTATTGTCCCAGCTACTTGGGAGGCTGAGACATGAAAATCAC
W
TGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGACATCGCATCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTGAAAAACAAAAAAACAAAAAAAAAC
Celera SNP ID:            hCV386966
SNP Position Genomic:     350835
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(T,1)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57569):
AAGTTATGCTTCCCAGCCTCTAGGAAAGCATAGGAGTTAAGGAGAACTGAAATCTGGGGCAGTTATAAATCTTCCCTTATGTGTACAACAGTTTAAATCA
R
TTGGTCATCTACCAAAATCTGAGGAACAAGAGCAGCTTTAGAAAATGGGCTGGGCATGGTGGCTCATGCCTATAATCCCAGCACTTGGGGAGGCCAAGAC
Celera SNP ID:            hCV2851424
SNP Position Genomic:     1105442
SNP Source:               Celera
Population(Allele,Count): cau(A,7|G,2)   his(A,7)   total(G,2|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57570):
GCACCTCATCAATGTATTTTTTCTGCCTTGCTTTATAGTGTTTTAAATCCGCCTCGGCCTTTGTTCCTGAATGAGCACCCGAGAAGGGGAGAAAGTGACT
M
TCTGGCCTTAGTATGTGTAACAAATTATTTAATGAACATTTAACCAAGATTTGCAATTCCCCTAGTTTTATCTTCCCGGTTTCCTTTTCTTCTGTGTGCC
Celera SNP ID:            hCV386967
SNP Position Genomic:     351245
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   his(C,1)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57571):
GCAGACACTGTGAATCAAACCCACCCCCTGCACTGCCCCCCTCCAGTGAGCGAGTTCTTGAACACTTACTGGTACACCACTGTCACCAACCCTGCTTTTT
R
TAGACATGTCCTTTAAGCAAAGCAATTCATGGGAAAGTAAATTTAATTATCAGACCATTTCATTAGATTCCTCACTGCCACAAACAGGTGGTTGTGGTGA
Celera SNP ID:            hCV2851425
SNP Position Genomic:     1104981
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   his(A,1)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57572):
AGAACAGTTTAACTTGAAAGGAAATAAAAAAAGGAGACTAACATGGGCCCACAGACATTGTATTTCATAAATTTTGGATGAAAACTGAACCTACCATCAT
K
TATTAAGAGAATGGATATTTTCATGTCAGAAATTATAGGAAGGATACAGTTATGGGATGAGGAGCAATTCTTTTTTTTTTTTTTTTGAGGTGGAGTCTCA
Celera SNP ID:            hCV386968
SNP Position Genomic:     352075
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   afr(G,1|T,2)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57573):
TTCTTATTTGGAGATGCTGTTCCTCTCAAGTGGGAAAAATTTGGTTATCTCAGGTGGTAAAGATGCCTTTGTTTAAAATATTCTTCTGTTAGTGGGGACA
W
TAATACTACTAATTTCTAGTACTGACGCTTCTCATGCAATTTAATCAGTAGGAACCTGTTTGCATGTTCATTTGAGGAAGTACCAAAGCCAAAAGTAGCT
Celera SNP ID:            hCV2851426
SNP Position Genomic:     1103445
SNP Source:               Celera
Population(Allele,Count): cau(A,1)   his(T,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57574):
CCCTGGACCTCGCTCTGCTCCGTAGCGTGCAGCATTTTGCTGAAGCATTCAAGGCCAAGAATGTGTGAGTGTTCCAGTGGAGGGTTATAGATCATAATTT
Y
TTGCTATTGTAATATCTTTATCAGATGAACACAATTGGGAGAATGCAAGGCTGTTGTGTTGTCTTGGCGTCCAAACAGGAGGCTCATTTATATTGGCCCT
Celera SNP ID:            hCV57887
SNP Position Genomic:     294093
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   his(T,1)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57575):
ATTGTGAGCCACACATGCAAGGGATCTAGGCTGCATGCTCCTTACGAAAATCTAATGCCTGATGATCTGTCACTGCCTCCCATCACCTTCAAGATGGGAT
Y
GTCTAGTTCTAGGAAAACAAGCTCAGGGCTCCCACCGATTGTACATTATGGTGAGTTGGATAACTATTTCATTATATATTACAACGTAATAATAATAGAA
Celera SNP ID:            hCV97730
SNP Position Genomic:     299471
SNP Source:               Celera
Population(Allele,Count): cau(T,7)   afr(C,1)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57576):
CCATAACACATTTACTGTAACTTGATACCATGAACTACACTTGCTGTTATTTATCATTTCTTTTTATTTTCTCTCATTGCAGCATAAAGCCAAGGTAGAA
R
CAATGACCCTGGACCTCGCTCTGCTCCGTAGCGTGCAGCATTTTGCTGAAGCATTCAAGGCCAAGAATGTGTGAGTGTTCCAGTGGAGGGTTATAGATCA
Celera SNP ID:            hCV57888
SNP Position Genomic:     293986
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   his(G,1)   total(G,1|A,6) 
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:57577):
TGCAAATGTGTGAGGAATTATAGTTGAAAGGGGAAAGAACATTTCAGTTTTTCATTTCCTGCGTCACTGTTTTTCTTATTTGGAGATGCTGTTCCTCTCA
M
GTGGGAAAAATTTGGTTATCTCAGGTGGTAAAGATGCCTTTGTTTAAAATATTCTTCTGTTAGTGGGGACAATAATACTACTAATTTCTAGTACTGACGC
Celera SNP ID:            hCV2851427
SNP Position Genomic:     1103373
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,1)   his(C,1)      total(A,1|C,1) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57578):
CACACATGCAAGGGATCTAGGCTGCATGCTCCTTACGAAAATCTAATGCCTGATGATCTGTCACTGCCTCCCATCACCTTCAAGATGGGATTGTCTAGTT
S
TAGGAAAACAAGCTCAGGGCTCCCACCGATTGTACATTATGGTGAGTTGGATAACTATTTCATTATATATTACAACGTAATAATAATAGAAATAAAGTGC
Celera SNP ID:            hCV97731
SNP Position Genomic:     299480
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   afr(G,1)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57579):
AAATTAGTTATCTCTGCCCTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGGTCAGGAGTTTGAACCTAGCCTGGGCAACATGGTGAAACCCCGTCTGTA
S
CAAACATACAAAAATTAGCTGGGTGTGGTGGCGTGCCTGTAATCCCAGCTATTGGGGAGGCTGAGGCAGGAGAATCACTCGAACCCGGGAGGTGGAGGTT
Celera SNP ID:            hCV11511382
SNP Position Genomic:     168099
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(C,1|G,2)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57580):
CAAGAAGTGTGTTTTGGGGAAACACTCCAGGTAGTGGTACATAGAATCCTAGCACAAGATCAGTGACTGGGTGAGTTTGACATTGTAGATGCAAATGTGT
S
AGGAATTATAGTTGAAAGGGGAAAGAACATTTCAGTTTTTCATTTCCTGCGTCACTGTTTTTCTTATTTGGAGATGCTGTTCCTCTCAAGTGGGAAAAAT
Celera SNP ID:            hCV2851428
SNP Position Genomic:     1103284
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,1|G,2)   his(G,2)      total(G,4|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57581):
CCTGTAGGTTTAGCAGAATCCCAGCCTCACATCCTCCCCGAACTTGGCAGTAAAAGCCCTGTTCTTCCATTCATTCCGATGATTTATATTCTCTCTGGGC
R
TCTTATATTAAACAGGGGAATTCCGACATGTTCCATAACACATTTACTGTAACTTGATACCATGAACTACACTTGCTGTTATTTATCATTTCTTTTTATT
Celera SNP ID:            hCV57889
SNP Position Genomic:     293853
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,4)   his(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57582):
CAAAAATTAGCTGGGTGTGGTGGCGTGCCTGTAATCCCAGCTATTGGGGAGGCTGAGGCAGGAGAATCACTCGAACCCGGGAGGTGGAGGTTGCAGTGAG
Y
CGAGATCACACCACTGCACTCCAGCTTGGGAAACAGAGTAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAGTTATTGATTAAAATTTAAATATAAATT
Celera SNP ID:            hCV11511383
SNP Position Genomic:     168208
SNP Source:               Celera
Population(Allele,Count): chn(C,4|T,1)   cau(C,4)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57583):
AGGAGGGACTCATAGGACAGCCTAGCATCTGAGGAAATGAGTGCCTCCTGGCCCAGAATGGGGGATCTCAGCAGCACACTACAATATCCACTACAGTTTC
Y
TGGGCTTGCTCTGAAGCCATGCCTCTCTAACTTCAGGGTATATTCATGTAAGTGAGGTGCAGGGATGGGGGAAAGGGAGAAGGTAAAGCTACAAAGGTAA
Celera SNP ID:            hCV2851429
SNP Position Genomic:     1103015
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   his(C,1)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57584):
AATGGTGAATACCCTCGGCGGGAGGCAGGCACCTGATGCCACTGCCCCCGCCCCACCTGCCCCCGCCCCGTTTCTCAGATCACACAGGCAGGCTGAGGAG
Y
GCTTAACACCCCAGCCTCCCATGAAGCATCCTGAAAAAGCAGACTTTGTCTTCCTCCATCAGCTTTGTTTGTCCTCTGCCGAGACTCCAGGGACATGATT
Celera SNP ID:            hCV8897020
SNP Position Genomic:     459308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57585):
TGGGAGATGAGTTAAGAGGTTTTATTCTTATACATGCGGAAGAATTATGCCTTCTTGAGCCATGCTCAGGAGATGTCAGCCTTTTCCATTGTCTCCCCGC
Y
CCCACCGCCAGCCCTGCTTAAATTATCCCCTCTTTTTAAACAGAATATCCTAATCTTGCAAGTGGCATATCATGTTCCTTCTTTTTTAAGAGAGAAGGAG
Celera SNP ID:            hCV11511385
SNP Position Genomic:     171707
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57586):
AAACAGAAACCACTTTCAGCTTTCCCGTTCCAGGGTTAAGTGCCCAAGCAGGTGTTGTTTCTGTTATGTGGTTTGCAGTGAGCAAAACCACCCCCTCTTA
M
CTGTGGCAGCAAAGGCAGGGAGACTTTGAGACCTGGGGAGGGCTCTCTGCTGTGTTAACAGAACTGGCTCTTGGTTGGGGGGTGGGGGGCACCCATTCTT
Celera SNP ID:            hCV8897021
SNP Position Genomic:     459538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57587):
ATTATGCCTTCTTGAGCCATGCTCAGGAGATGTCAGCCTTTTCCATTGTCTCCCCGCCCCCACCGCCAGCCCTGCTTAAATTATCCCCTCTTTTTAAACA
R
AATATCCTAATCTTGCAAGTGGCATATCATGTTCCTTCTTTTTTAAGAGAGAAGGAGAAATTCCTGCAGATCATCAGGGACTGAGGCTAACTGAAACTTT
Celera SNP ID:            hCV11511386
SNP Position Genomic:     171750
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57588):
GTTGTCACATTCTTCTGCCTAGAGTATGCCTTTTCCTTCACCAAACCAAGTGGCTCTTTCGGAAGACTTGCCTGAATCCTAGACCCCTTCTCTCTACAAC
M
TTCAGTCTGAGTTGGGTACCTTGCATCCTCCTTTGTTCCCATACTAACCCCTACAACCATGGTCATTTTGTGGTTATCTGTTTAATTCTCTGCTGGCTAT
Celera SNP ID:            hCV8897022
SNP Position Genomic:     466475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57589):
GATCTTACCCTGACAGTCACAGAAAGCACTGGGAGCGTTTATGAATGTTGTGGTATCTCACATAATAAGGGGACCATGCATGTATTTTAGAAAGAGCCCT
Y
TGGCTTCAGGGAAGAACGATGGATTTGTGAGGGTCAGGACTGGTAGCAGGTGGGCTCCTAGAATAGTCCCGGCAAGAGATCATGGAGGCCAGAGCCAGGG
Celera SNP ID:            hCV8897023
SNP Position Genomic:     466883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57590):
CCGGGAGGATTTTCTTTTCTTTTTCTTTTTAATCCTCCTCCTCAAGGGAAACATTCTTCTCACAATAGCTTCCTGGTAGAAAGTTCTAACTAATGACTTT
R
ATCGTGTGAATGTATTGCAGAAATGGACAGGACAATTCTCAGCCCATTCATCTTACAGACCTCAAGTGAACAGGCACAAAACAACAGGCTCCACCCTCCT
Celera SNP ID:            hCV8897024
SNP Position Genomic:     467366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57591):
TTTTCTTTTCTTTTTCTTTTTAATCCTCCTCCTCAAGGGAAACATTCTTCTCACAATAGCTTCCTGGTAGAAAGTTCTAACTAATGACTTTAATCGTGTG
M
ATGTATTGCAGAAATGGACAGGACAATTCTCAGCCCATTCATCTTACAGACCTCAAGTGAACAGGCACAAAACAACAGGCTCCACCCTCCTTCCCCCCTC
Celera SNP ID:            hCV8897025
SNP Position Genomic:     467375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57592):
TCCTCCTCCTCAAGGGAAACATTCTTCTCACAATAGCTTCCTGGTAGAAAGTTCTAACTAATGACTTTAATCGTGTGAATGTATTGCAGAAATGGACAGG
R
CAATTCTCAGCCCATTCATCTTACAGACCTCAAGTGAACAGGCACAAAACAACAGGCTCCACCCTCCTTCCCCCCTCTATCTCATACTTTACCTCAATTT
Celera SNP ID:            hCV8897029
SNP Position Genomic:     467398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57593):
TGTGAAAACTGTGAAGACATAACACATATCTATGAACCTTTTCTATTAATCTTCTTGGGGCTGGAGCTTTAAAATAAAATAAATAACTTTTCTGCAGAGA
S
AGAACCTTTCCTTACCCAAAGATTTCGTAACTTTCTCACATCCTTGGTTAAGGCTGAGCTGCCTAGCTGTCTGCATTTCTGATAGGTTTTGCTTTCATAC
Celera SNP ID:            hCV16291046
SNP Position Genomic:     389519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57594):
GAAGGATATCCTTTCAATAGAGGTGAAAATCCTGAAATAAAAGGTTTCATAAATGGGGAAAAAAGTCATTGATTGAAAGAGTCATGGCATAGATGCTGAA
S
TTTTGATGGGAACTTTGCAGGATGTTCGTTTGTTTATCATTAGCCCTGGGAGAGTCATCCCTCGCCTCCCACCACCCCTTAATTTAAAGGGATTTAAAAT
Celera SNP ID:            hCV16291047
SNP Position Genomic:     389081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57595):
GCAAGTAAAGAATTATAATTAAGAGAACCAGAAGGGCCTGTCTCTCAGGAAAGCAGTGATTTCCTTTCACAATAACCCTATCCTTACTGTTGAAGACTTG
Y
GGAAAAGGGACATGGCCCAGGGAACCAGAGTGGTTTGGGAAAGCACTTTGTCAAGAGGCTTGGGGACCCCAGGGTGGAAGCTGCCATGCGCATGAGGCTG
Celera SNP ID:            hCV1592030
SNP Position Genomic:     502609
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,2)   afr(T,2)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57596):
CACATTTCAAATCTTCAGTAGCCAGATGTGGTTATTGGCTACCATATTGGGTAGCACCGATATAGAACATTTCTACCATAGTAGAATGCTCTTTTGGATA
S
ATCTGCTTTAAAGCATTAGTCCCCAAAGTGTGAAGGATGAACCACTTGGGTTCCGAGAGGAAACATTATAACTTCTGTTTATCCATTAAACTCTTTCATT
Celera SNP ID:            hCV16291048
SNP Position Genomic:     387896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57597):
CCAAAGTGCTGGGATTATAGGCTTGAACCACCATCCCTGGCCTTGATACTGATATTTTATTGTCCTAACTGACAGTTTTGTCTGCCCAGCATTTTCCCCC
R
TCACCCTTGTACTATCCCATTTTCCTTTGCCATGCACCTGTCTTCCTCTTCAGGATTGATCACAAAATCAAAACCATTCCTACCAGCCAGAGGTGGGCAC
Celera SNP ID:            hCV1592031
SNP Position Genomic:     501016
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(A,3|G,3)   his(G,3)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57598):
CAAACCAGGTGTCATTGCCCTCCCCACCCTACCTTGCTCCCCTGGAGTGTATCCTGATTCTTTTGAGGATCACTTGATCCTGATTTTTTTTTTATGTGTA
W
AGATGGGATTTCATTATATTGCCCAGACTGGTCTTAAACTCCTGGCCTCAAGCAATCCAGCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCTTGAA
Celera SNP ID:            hCV1592032
SNP Position Genomic:     500842
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(A,3|T,3)   total(A,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57599):
CGAATATTTGGGACCCACTGGGAGTTTGTGCCAAACCAGGTGTCATTGCCCTCCCCACCCTACCTTGCTCCCCTGGAGTGTATCCTGATTCTTTTGAGGA
W
CACTTGATCCTGATTTTTTTTTTATGTGTATAGATGGGATTTCATTATATTGCCCAGACTGGTCTTAAACTCCTGGCCTCAAGCAATCCAGCCACCTCGG
Celera SNP ID:            hCV1592034
SNP Position Genomic:     500811
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,4)   cau(A,2|T,4)      total(A,2|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57600):
CTTTAGCCAAGGAAGAAATGACAACGAATATTTGGGACCCACTGGGAGTTTGTGCCAAACCAGGTGTCATTGCCCTCCCCACCCTACCTTGCTCCCCTGG
R
GTGTATCCTGATTCTTTTGAGGATCACTTGATCCTGATTTTTTTTTTATGTGTATAGATGGGATTTCATTATATTGCCCAGACTGGTCTTAAACTCCTGG
Celera SNP ID:            hCV1592035
SNP Position Genomic:     500787
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57601):
CAGTTGTAACAGTGGTATGTGTATATCTCAACATATCTAAACATAGAAATAGTACAGTAAAAATATGATATTATAATCTTTGGGACCGCCATCATATATG
Y
AGTCTGTCATTGACTGAAAGTTGTCATGTAGCCCATGACTGTCGTCTCTTTTAGGGGAAAAAACAAAAGCAGAAAGCAAGCAAGCTGGTATCCTGCGTAT
Celera SNP ID:            hCV15894400
SNP Position Genomic:     926950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57602):
TGAGTCTCAGCTGACCAAGCTCTAAAATGAGCATAACCATATCAGTTTGTGTTTCCTGTTACAGGGAGAAAAGACTGAGATAACTAAAGTACCTGATTGA
S
TAACTGCTCTCTGAAGGTGGAGGCTGGACTGCTTCACTGGACAGGGTGGCCTGGGGTTATTCTAGTGCAGTGGTAGCTGGTGACAAAACTCAAAGAAGAT
Celera SNP ID:            hCV1592036
SNP Position Genomic:     499348
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(C,1)   his(G,5)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57603):
CAAGGGAACCTTTCCCCAAAGCCCCTCAACACACTTAGGCTGACATCTCCTTGACCAGAACTGTATCAAATTTACATAGCCTCAAATGAAGCATCTGGGA
M
CACCAGGATTGGGTGTTTAGGCCATGGAAGAGTAACAGCCCAGTACACAACTGTCTCCAGTGGCCAGCACGTAGACCTTCCCTCACACTTTCCACTCTCT
Celera SNP ID:            hCV1592037
SNP Position Genomic:     498971
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   afr(A,1|C,6)   his(C,6)   total(A,1|C,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57604):
TAAGGCAGATGGAAATGTCTTGTAACTCAGTAAAACAGTTTAGAAATTTAAAGCCTTTGGAGAGAGTAAGTATTGAGAAGGCACATCTCTACGTTGTTGA
Y
GTGAAGGAGTTGCAAGGTCGGGTAGATGGGATCAGTGCCAGGTCTAATGGGCTTCATTTGCAAGACCTAATTTCTAGCAGATCATGGTGTAAGCCTCAAA
Celera SNP ID:            hCV1592038
SNP Position Genomic:     498335
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   afr(T,1)   his(C,7)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57605):
GTCTCCCATTTCAGAGACAGGGGCATTTGGCTCCAGGTTTTTCTGACTCTAGACAGTAGTTTGTTTTTAGCACATCAAATGTCTGAGACTTGTGATGTGT
Y
AGAAAGCACAAAGGACTTTGATCACAAGATCAAGCCCCAGAGGGCCATGACTGCATAAACCACAACAACTGCGTGGCTGCCTGTCACGTCTTCATCTGCA
Celera SNP ID:            hCV2853030
SNP Position Genomic:     1076738
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,1)   cau(T,6)   his(T,6)      total(C,1|T,12) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57606):
TGCTTCTTACGTGTCACGCACTGTGATAAGTCCTAGGATTATAGAAGTCAATAAGCTATGATGCCTATCCTTAAGGAGAGAAACACATATAGGATAGGAA
M
ATAGCTTGCCATGTCTGATAGATATTAGGCATTCAGTCTCTCTCTCTCTCTCTCTCTCTCTGTTTATTATAGATAGAAATAAAAAAATTATAAATAGAAA
Celera SNP ID:            hCV1592039
SNP Position Genomic:     497719
SNP Source:               Celera
Population(Allele,Count): cau(A,5|C,2)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57607):
CCATCATTTATTAAGAGAATGGATATTTTCATGTCAGAAATTATAGGAAGGATACAGTTATGGGATGAGGAGCAATTCTTTTTTTTTTTTTTTTGAGGTG
S
AGTCTCACTCTGTCACCAGGCTAGAGTGCAGTGGGGCGATCTCGGCTCACTGCAAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGACTCCC
Celera SNP ID:            hCV386970
SNP Position Genomic:     352168
SNP Source:               Celera
Population(Allele,Count): afr(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57608):
TATTAAGAGAATGGATATTTTCATGTCAGAAATTATAGGAAGGATACAGTTATGGGATGAGGAGCAATTCTTTTTTTTTTTTTTTTGAGGTGGAGTCTCA
Y
TCTGTCACCAGGCTAGAGTGCAGTGGGGCGATCTCGGCTCACTGCAAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGACTCCCGAGTAGCT
Celera SNP ID:            hCV386971
SNP Position Genomic:     352176
SNP Source:               Celera
Population(Allele,Count): afr(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57609):
CGATCTCGGCTCACTGCAAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGACTCCCGAGTAGCTAGGACTACAGGCGCGTGCCACCACACCC
R
GCTAATTTTTTGTATTCTTAGTAGAGACGAGGTTTCACGGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAA
Celera SNP ID:            hCV386972
SNP Position Genomic:     352305
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   afr(A,1|G,3)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57610):
AGGAGGTCAGGAAGTCATTGATGTGGGCTCCCTCCTGGAGTGCGTGTTGCTTTGGTAGGGAGCTCGCTTTGGCTGTGGGCAGTTCCTGAGGAGGGACTCA
Y
AGGACAGCCTAGCATCTGAGGAAATGAGTGCCTCCTGGCCCAGAATGGGGGATCTCAGCAGCACACTACAATATCCACTACAGTTTCTTGGGCTTGCTCT
Celera SNP ID:            hCV2851430
SNP Position Genomic:     1102927
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(T,2)   his(C,1)      total(C,1|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57611):
CCACCAGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATTAGCCACCACACCCGGCCCAAATTTTCTTATAAAGTCAAATGGGAGATACTTGTTTGCA
R
GAAATAGTTCTTTTGGTTCTTACTTTTCCATAAGGATTGAGTCTCAAAATGTCTGGTAGCATCCACTGCATTTTGTAGGGGACAATAACAAAGAAGATGC
Celera SNP ID:            hCV15868600
SNP Position Genomic:     433128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57612):
CTGCGTACTGTAGGCAGTTGTAACAGTGGTATGTGTATATCTCAACATATCTAAACATAGAAATAGTACAGTAAAAATATGATATTATAATCTTTGGGAC
M
GCCATCATATATGTAGTCTGTCATTGACTGAAAGTTGTCATGTAGCCCATGACTGTCGTCTCTTTTAGGGGAAAAAACAAAAGCAGAAAGCAAGCAAGCT
Celera SNP ID:            hCV15894407
SNP Position Genomic:     926936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57613):
CTGTGCTGTGGGAGATGCGAATGCTCCAGTCAATCCCAAGGAAACTCTGAAGCTGGATTATTCTTCAGAGATGCAAGGAGGTCAGGAAGTCATTGATGTG
S
GCTCCCTCCTGGAGTGCGTGTTGCTTTGGTAGGGAGCTCGCTTTGGCTGTGGGCAGTTCCTGAGGAGGGACTCATAGGACAGCCTAGCATCTGAGGAAAT
Celera SNP ID:            hCV2851431
SNP Position Genomic:     1102852
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(G,3)   his(C,1)      total(G,3|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57614):
TGCAGTTTGCTGATCCCTGTTTTATTAATTAGTTAATATTATTGATTGAGATAGGGTCTCACTGTGTCACCCAGGCTGGAGTGCAGTGGTGCGGTCACAG
S
TCACTACAGCTTCAACCTCCTGGGATCAAGCAGTCTTCTTGCCTTAGCCACCCGAGTAGCTGGATGACAGGTGAGCACCACCATGCCTGGCTAATTTTCT
Celera SNP ID:            hCV2853035
SNP Position Genomic:     1085833
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,2)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57615):
ATGCTAACCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCAGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATTAGCCACCACACCCGGCCCA
R
ATTTTCTTATAAAGTCAAATGGGAGATACTTGTTTGCAAGAAATAGTTCTTTTGGTTCTTACTTTTCCATAAGGATTGAGTCTCAAAATGTCTGGTAGCA
Celera SNP ID:            hCV15868601
SNP Position Genomic:     433089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57616):
TTGGAGCCAAAGCCAAATAGTGCTCTGTAAACATTATGATTTGTCAGTAATCAATGTGATTTGTATAATTTGTGAGCAATCAGATACTTTATCCAAAAGC
R
GATTATTGACCTCTGTGCCCATCTTGGGAGAAATTGCCACTTGGTCTGTGTCTACACAGACCCAAGAGGAGAAGGGATTTGACAATGGTCTGATTAATTG
Celera SNP ID:            hCV15894408
SNP Position Genomic:     925861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57617):
GTGCGGTCACAGCTCACTACAGCTTCAACCTCCTGGGATCAAGCAGTCTTCTTGCCTTAGCCACCCGAGTAGCTGGATGACAGGTGAGCACCACCATGCC
Y
GGCTAATTTTCTAAATTTTTTGTAGAGACAAGGTCTCACTGTGTTGTCCAGGCTGGTCTCAAACTCCTGAGCTCAAGTGATCCTCCCGCCTCGACCTCTC
Celera SNP ID:            hCV2853036
SNP Position Genomic:     1085921
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57618):
GGGCTGGATTTGTCCTGTGGACTGTAGTTTGCTGACATCCAGGCTAGATCCTTAATATACAATGAAGTAGTAAAACACATGTAAAAGTAAAAAGCAGGCG
W
AATAGAATAAAATACACATTTGCACACCACAGTATCCAAAAAGGTTATGTACTGGGGCTAAAGATTTGGCTTGGAGTTTCCTGGTAGTCAAGGCAAAAAA
Celera SNP ID:            hCV15894409
SNP Position Genomic:     925378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57619):
ACTTTTTATTTCCTTTGTGGAGTCCAGCCCCTTTGCTTATTCTCAGCACAAAAGAGGCAGTAGAGTGAGAAGAACGTGAACTTCAGAGCCCACGCATCCC
K
TTTCACATTTGAATCGCAACTCTGTCATTCACCAGCTGTGCATCCTTGGGAAAGTCACTTAGCCTCTCTGAGCTCTAATTTCCTCACAGGGCCGCAGGAC
Celera SNP ID:            hCV2851433
SNP Position Genomic:     1100237
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(G,1|T,2)      total(G,1|T,2) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57620):
TGCGGTCACAGCTCACTACAGCTTCAACCTCCTGGGATCAAGCAGTCTTCTTGCCTTAGCCACCCGAGTAGCTGGATGACAGGTGAGCACCACCATGCCT
R
GCTAATTTTCTAAATTTTTTGTAGAGACAAGGTCTCACTGTGTTGTCCAGGCTGGTCTCAAACTCCTGAGCTCAAGTGATCCTCCCGCCTCGACCTCTCA
Celera SNP ID:            hCV2853037
SNP Position Genomic:     1085922
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57621):
GCCTCTCACTTTTTATTTCCTTTGTGGAGTCCAGCCCCTTTGCTTATTCTCAGCACAAAAGAGGCAGTAGAGTGAGAAGAACGTGAACTTCAGAGCCCAC
S
CATCCCTTTTCACATTTGAATCGCAACTCTGTCATTCACCAGCTGTGCATCCTTGGGAAAGTCACTTAGCCTCTCTGAGCTCTAATTTCCTCACAGGGCC
Celera SNP ID:            hCV2851434
SNP Position Genomic:     1100230
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,1|G,2)      total(G,2|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57622):
GATTCCTGTTTTACATATTAAAAATTTCATCTCTCCAATCTTCGAAGAATCCGTAGTCCATTTTTAAGTAGCTCTTGTCTTCCAAAGGTATGGGATGTGC
M
TACCTAATGCTCTTCCTGGATGGGAGAATATTACCAAAAACGTTTGGTCGACTAATTTTATGACAGTTTCCAACTACAATTTTTTTCCTCTTTGCTTTCT
Celera SNP ID:            hCV2853039
SNP Position Genomic:     1086163
SNP Source:               Celera
Population(Allele,Count): cau(A,5|C,4)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57623):
ATGGCCGCTGGAAAAGAAGCCAACTCCCAGGGGGCACGAGGGGCTAAGCTGTCTCCTGGGAAGTTTGAGGGAGGCCAAGTGTTTTCCAGTTCATTTCCAA
Y
GCGTATTTCTTCAGGGCCAAGGGCCCAGCTGTGCCTCATTAGGGGTGAGAGTTTGGCTGTGACACGACTTAATAGAAAAAAAAAAAAAAAAAGGAGAAGT
Celera SNP ID:            hCV8709886
SNP Position Genomic:     129645
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57624):
TGCTTCTAGCTGGTCGAAGGTCCTGTGGGAGCTCACGTTTTTCTCAATCACTGATGACCATTTGAGACATAATTTGGAGAAGGTTTCTATCAAATCCTAG
Y
TGGACTGCAGTGAAATGTTTTCAAACTAGAGAAGCACCAAATAGGCCATGATAAAGAATAAATACCACCTACCCCAACCTGGCAAATGTGTGCTCACCCA
Celera SNP ID:            hCV2851438
SNP Position Genomic:     1099084
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,1|T,2)   his(T,2)      total(C,1|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57625):
TCTTCTCCCTCTCCGTTAAAATGCAACTTAATTGGTAAAGTTTAGTTGACTAGAGATTTCATTTATTTATTTATTTATTTATTTATTTATTTATTTGTTT
R
TTTGTTTGTTTGAGATGAGTCTTGCTCTTTTGCCCAAGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAGCCTCTGCCTCCCGTGTCCAAGTGATTC
Celera SNP ID:            hCV15868608
SNP Position Genomic:     432030
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57626):
GGCTGGAGTACAGTGGCACGATCTCAGCTCACTACATCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGGTGGGACTACAGGC
M
CCCGCCACCATGCCCGGCTAATTTTTTTATTTTTAGTAGAAACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGTCAG
Celera SNP ID:            hCV11511394
SNP Position Genomic:     230658
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57627):
TCTCCCGTCTCTGCAGTTCAGGAGATTATATTAGAAAATATTCTATACAAAAAATATGCATAGTAGGGCTTTTCTCCAGCTAGTAGCTCAGAATAAGTCA
K
TACTACTGAAACAGGTACCTTTTGTGGAATTGATTCTGAAATCTGTTTGGATCTGAAATCTTTCTTTCTTGCCTTTGAGTAAGATACGGCAGAGAAAAAC
Celera SNP ID:            hCV8897030
SNP Position Genomic:     467798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57628):
TGGACTATTTTGCCAAATGCATTTTTATTGGTAGAACGTAAGCAAATTTAAAAAAGCAACAAAAGCAGTTTTTATGAATACCTAGCGTACTTTTTTTTTT
T
AATGAACCATGAGCTGTTTTTGCATTCAAATTCTCGTAGGCATTATATTGCATCTACACATAAGGACACAGTGTTTACAGACCCCAAAGCTTGCTGTCCC
Celera SNP ID:            hCV11668200
SNP Position Genomic:     584504
SNP Source:               Celera
Population(Allele,Count): cau(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57629):
CCCGTCTCTGCAGTTCAGGAGATTATATTAGAAAATATTCTATACAAAAAATATGCATAGTAGGGCTTTTCTCCAGCTAGTAGCTCAGAATAAGTCAGTA
Y
TACTGAAACAGGTACCTTTTGTGGAATTGATTCTGAAATCTGTTTGGATCTGAAATCTTTCTTTCTTGCCTTTGAGTAAGATACGGCAGAGAAAAACAAT
Celera SNP ID:            hCV8897031
SNP Position Genomic:     467801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57630):
TTTTGTTCCTGCATTGCCCTCCATTCAGATCTTGTCACTTAGGCCTTGGTAGCATGAGCTATTAACAGCCCTCCATATTTACTATTTTTTTTTTTTTTTT
T
AACTCTGGGAGTTCCTGTTGCAGAAATTGGATCACTTACCTAAAAAGCTCCCCACCCCCACCTTTGGTGACTGGTGGGTTTCATCACCAGGAAAGCACAT
Celera SNP ID:            hCV11668201
SNP Position Genomic:     583857
SNP Source:               Celera
Population(Allele,Count): cau(-,2|T,1)   total(T,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57631):
GACTGCAACTGAAAAGAGGAGTAATGGAAGGACATGTACTCTTCCCATATATTTTTAAACAATTACTGTATCTGATTTTTCATTTTTCATTTTTTTTTTT
T
CTGGAAGAAAGAGCAGATCTGGATAAAGTCAGTATACAATGTGGTCTTTGGTGACAGACCCAAGTTCAAGACCAAGGTGTATGCATGGGTTTGTTCAAGT
Celera SNP ID:            hCV11668203
SNP Position Genomic:     582278
SNP Source:               Celera
Population(Allele,Count): cau(-,3|T,2)   afr(T,2)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57632):
GCTCAGAATAAGTCAGTACTACTGAAACAGGTACCTTTTGTGGAATTGATTCTGAAATCTGTTTGGATCTGAAATCTTTCTTTCTTGCCTTTGAGTAAGA
Y
ACGGCAGAGAAAAACAATTACACTAGCTGCTGGTCTGTATTTACTGGTTAGAATAGAATATTATTACCATCAAGAATAACATTAGTGGCCAGGTGCGGTG
Celera SNP ID:            hCV8897035
SNP Position Genomic:     467883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57633):
ACTTAGCAGTTCACATTCACATCTTGTTTATTAACTACAATTCTCTAGATCAGAAGCCTAGACACAATGTGACTGGCTTCTCTGCTCAGGGTCTCTTGGG
K
ACAAAATAAAGGTGTCCGCTGGAGGAACATCCTTTCCTGCATGCTCTGTGGAAGAATCCACTGCCAAGCTCATTCAGGATGCTGGCAGGATTCAGATCCT
Celera SNP ID:            hCV8897036
SNP Position Genomic:     468610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57634):
TGGCAACCTTTGGTGTTTGGGGCATGTTGTCACCTCATTGCCATCTCTGCCTCTGTCTTCTCACCACCATCTTCCTTGTCCATGTCTCTCTATGTCTTCA
R
TGTTCTTCTTATAAGGACACCAGTCCTTGGATTTAGAGTCCACCCTAATTCACTGTAATCACATCTTACCTAAGTCCATCTGCAAAGACCCTATTTCCAA
Celera SNP ID:            hCV15779459
SNP Position Genomic:     913089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57635):
CACTTGTGACAGAGGGAGGAACATAGGGTGCATAAGAGAGATGTGGGGAAGCACTCCCCATCCAACTCGTTCCAACCAGTTCATCTTTTTTTTTTTTTTT
T
CTTTTTTCGAGAAAGAGTTTTGCTCTTTTCCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCTCCCTTCCAAGTTCAAGCAATTGTC
Celera SNP ID:            hCV11668206
SNP Position Genomic:     581731
SNP Source:               Celera
Population(Allele,Count): cau(-,4|T,3)   total(T,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57636):
ACTGCCAAGCTCATTCAGGATGCTGGCAGGATTCAGATCCTTGAAGTTGTAAGACTAGGGCCCCTGTTTCCTACTGACTTCTGCTGGTGGCTGCCCTCAG
Y
TCCCAGAGGCAACCCACATTCCTTGACTTTTGGCCCCCTGCATCTCAAAGCCAGCAACAGAAACTCTCTTGTGCATGGAGTCCCCTCCTGCTTTGAATCT
Celera SNP ID:            hCV8897037
SNP Position Genomic:     468770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57637):
CACTAGGGGGATGGTGATTAGAAAGCACCTCATGATCCCGTCTACTTCCTGCAGAGAACAGACTAGCCCCCTATGCAGCACACACCTTTGTGAGGTCCCT
Y
CTCCAACACAGGGATTACAATTCAACCTGAGACGTGGGTGGGGACACAGAGCCAAACCACACTGGAAGGTAAAAAAGTTGGCAACCAGAGGCTTAGAGGA
Celera SNP ID:            hCV16291056
SNP Position Genomic:     401923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57638):
CTTCAAGTCAGTTACTTAATGGAATAATACATGTTTCCTGCTTCCATTGTCTTCCTGGACCTGACACTCACTCTTTAACCATAAGCAGAAGACACATACA
M
AAATGTCCTATGTTAAGAATCTTTATTTAAGACAGGTGGCTAGCATTATTTGGGTCCAGAAGCTTCCCTGGAAAGAAAGGATTCACTGCAAGATCGACAG
Celera SNP ID:            hCV16291057
SNP Position Genomic:     400875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57639):
AAAATGGAAAACTCCAGGGGAAGAGGGTCTTTACTTAGGGAGTTGGCATTTGTTGGAATTTCCCAAGAACATTTCATGATTAGTGACAGGTTATCTTCTA
S
TTTACCTGAAGGCTATGGTCACTCAACAAATTTTGTGTTGCTTCTTACGTGTCACGCACTGTGATAAGTCCTAGGATTATAGAAGTCAATAAGCTATGAT
Celera SNP ID:            hCV1592040
SNP Position Genomic:     497580
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57640):
AAATAAAGACTTGTGAAGGTAAAACTGTAGCTTACAGTGTGCGACTGTTTACCTTCTTTTGGTTTCTTCTCATTTAATAGGTTGGTCATCTCTCTGCTGG
S
TTTTTCCCCCTTTTTTCTCCCTTCTGTAGAATAACATGTGGACCATTAACTATGATGCTACTTCTTAGCTGCAAGGGGGGAAAAATGGAAAACTCCAGGG
Celera SNP ID:            hCV1592041
SNP Position Genomic:     497398
SNP Source:               Celera
Population(Allele,Count): cau(C,9|G,1)   afr(C,9)   total(G,1|C,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57641):
AGAGGAGGAGGAGGAACTTCTCAGGAAGAAGTGGCAGTTCCCTCCTTTGTTTCTTATCTCTACTGTTTAGCAGCCACTCTCCAAAGCCTCTTGCTGGGAA
Y
GTGGCCATCATAGAAGTAAATGAGACATCTCTTTCATCTGCACCAACCTCCTTATTAAGACCTTATCAGTTACCTGTAGATTCTCCCACTGTTGTACTTG
Celera SNP ID:            hCV1592042
SNP Position Genomic:     496599
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   afr(C,1)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57642):
GAAACAATTCAGCAACTCTCTTACAGATTTTTATCATCATCCCATTCATAATTGATTCCAAACGTGCATGAATCTTTCAAGATAAGTGTCTTATTGATTA
Y
CCTGAAAACAAGCGATCACTTGGTGTCCTGAGATTCGCTCACTGCCCTCCCCTGATTACCGTAAACAGAGATGTTGATGAGAAGAAATGTCACTTTCTTT
Celera SNP ID:            hCV1592043
SNP Position Genomic:     495125
SNP Source:               Celera
Population(Allele,Count): cau(T,8)   afr(C,1)   his(T,8)   total(C,1|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57643):
CCTTTTTTAGAGATAAAGCCTCACCCTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCACAGCCCACTGTAGCCTTGACCTCCCAGGCTCAACCTATCCT
Y
TTACCTCAGCCTCTTGAGTGGCTGGAACCACAAGCAGATGCCACCATGCCTGGCTAACTTTTTTTTTTTTTTTTTTTTTTTGTAGAAACAGAGTCTCTCT
Celera SNP ID:            hCV1592044
SNP Position Genomic:     494744
SNP Source:               Celera
Population(Allele,Count): chn(C,10|T,1)   cau(C,10)   afr(C,10)   total(C,30|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57644):
TATAGCATCTGAATTTGAAAACCTCTACTAATTCATGAGGCAATCTATTTGATAATGGCATGATTTAGTTAGTGTTCCTTTTTTAGAGATAAAGCCTCAC
Y
CTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCACAGCCCACTGTAGCCTTGACCTCCCAGGCTCAACCTATCCTCTTACCTCAGCCTCTTGAGTGGCTG
Celera SNP ID:            hCV1592045
SNP Position Genomic:     494668
SNP Source:               Celera
Population(Allele,Count): chn(C,7)   cau(C,7)   afr(T,2)   total(C,14|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57645):
AACCTTACCTACTCAAGTGTAAGATGAGATGCCACTGTGGTATCTTCAAAGGAATTTAGAATCATGTCTTAATGGCTCCATTAAGAAGAATTCTTTTTCT
S
TTTTCTCTGAAAAGCATCCCAGGTCATAAAATGTAATGTGGGATTGTAGGTTTTGTGGGAAGATGCACTTGGCAGCAATTCCTTGAGAGGAGGCCTTGAA
Celera SNP ID:            hCV1592046
SNP Position Genomic:     491086
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57646):
TCAAATGCGCGTTTAATCTTCTTAAGCTCAACTTCATGCAAGAGACCTAGGAATTCACAGAGTGAAGATGATTTCTCCATTCCCTTCTCCGAGCAGAGCT
S
TTGAAGAAGATGGGAGTTAGGAGAAGTGAATCTTTTGTTTTCGAAGCCTTTGTCCTTGTGAGTCTCTTAATTGGGGTGTCTTGTAATGCAAAGTCTTTAA
Celera SNP ID:            hCV1592047
SNP Position Genomic:     490688
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,6)   cau(C,6|G,1)      total(G,1|C,12) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57647):
ATAAGTCTAATTTAGTAGCCAGCTAAAGGATATCTGTGAACCCTTCGCAAAGAGTAATCTATTGAAAAGGAACAACAAAAAAGTATATCTGTGAACTTAT
K
AAATGACTTTAATCATATGAAAATCAGCCATCAGCCTTATTAGAGTGGTTGATTTTTTTTTTAATCTAAGAGCTTTCTTGGTTATTTTCTGTTCTTAATC
Celera SNP ID:            hCV1592048
SNP Position Genomic:     488621
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57648):
TGCTTACTTGACTTGGACCAGGGTGGTGAATGAACATAAAAACCGATTACAACATTTTTCCATTTTTATGTTTCCTCTGAAACCAGCCATGAGAGGTACT
S
TTAGCAAATCACGCCTTATTCCTAGGCAGACTTCTTGGGTACACTTTCCACCCTCCCCAGCAGTAATGCCTGACCAACTAATGGAATCCTAACTAATGCA
Celera SNP ID:            hCV2853040
SNP Position Genomic:     1086787
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(C,1|G,3)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57649):
GAACAAATTGCCAAATGCAAGGCCTGAGCAAAAGACACAGAAAGGATTTCTTTATCGTAAGCACACTTCTCTACATTACCTTTATAATCCAACAACTCTG
S
TATTAGTAAATTATAGAAACAACTTTTGTAACACTATCTTGTTTGCAGAGTATATGAAAAATTTGAAGTTAAAATTCAGCTCCACGAATACTGCAGTGGT
Celera SNP ID:            hCV1592049
SNP Position Genomic:     488236
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,3)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57650):
TACTGTTAGCAAATCACGCCTTATTCCTAGGCAGACTTCTTGGGTACACTTTCCACCCTCCCCAGCAGTAATGCCTGACCAACTAATGGAATCCTAACTA
W
TGCAGTATGTGACGCCTGGCAGCTCCAGTCCGAACCAAGGGAAAACCTGCAAACATGCAATCCTTCATGCTTTTGTTTTTGTTTTTCCTTCAGCCTAGCT
Celera SNP ID:            hCV2853041
SNP Position Genomic:     1086883
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57651):
CTATTGTGCACTTTTGCCCAGTTCAACAAGAAAGAATCTTTGCTATGTTAGAAGAGACTCTGGGGAATCCAGAGTCTTGGTCACGGGTACATCAAAACGA
Y
GCTGGTGCCTAACTTCTAGTTCCAGACAAAGAAGGAGAGAGAGAGAGATCAGTAATTTATAGGCTGACATTTTCCTTGGGTCCTTATAATACTTGTTTAT
Celera SNP ID:            hCV2853042
SNP Position Genomic:     1087614
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,4)   his(C,4)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57652):
TAGAAGAGACTCTGGGGAATCCAGAGTCTTGGTCACGGGTACATCAAAACGACGCTGGTGCCTAACTTCTAGTTCCAGACAAAGAAGGAGAGAGAGAGAG
R
TCAGTAATTTATAGGCTGACATTTTCCTTGGGTCCTTATAATACTTGTTTATTACAGATAATTTGCTTAAGTGTGCACAAGGTGGAAGGTCACGCAAGGA
Celera SNP ID:            hCV2853043
SNP Position Genomic:     1087662
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57653):
ATTTCCACCCCCATTATTTGCATAACAAATTACAGATTATCCAGAACAGGTGGGCTGTACATAAACAGGCTGGTGGGCTGGATTTGTCCTGTGGACTGTA
S
TTTGCTGACATCCAGGCTAGATCCTTAATATACAATGAAGTAGTAAAACACATGTAAAAGTAAAAAGCAGGCGAAATAGAATAAAATACACATTTGCACA
Celera SNP ID:            hCV15894416
SNP Position Genomic:     925304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57654):
CTCTTCCCCACTTGCCCACGAGCAGCAACTCCTGTTTCTTGTTTTTTTCCTTTTCTTTTTCTTTTCTTTTGAGACAGAGTCTCGCTCCGTCGCCTGGGCT
R
GAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCATGCCTCAGACTCCTGAGTAGCTGGTATTATAGGCGCAC
Celera SNP ID:            hCV15894417
SNP Position Genomic:     923899
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57655):
ATCCAGTGTTATAGGAGACAAACCATAGCAAGCAATGGCCTCTCACCCTTCCCTTCACACCCTCCACTCTGTCCACTTGTTTGTTCCTTCAATAAATACT
R
ATGGAGAATGGGCTCTATGCCAGTGTTTCTCTGGATGTTGGCTGCAGGGATGAACAAAGGCAACTTCTAGGAGAAATTTCTGTTTTTGATGCTCTCGTGG
Celera SNP ID:            hCV8709890
SNP Position Genomic:     105866
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57656):
TTTTGCTCTCCTCCTTTTGTCAGTTGGCATGCGATATGCTTCTCAGGCAGTAATTTAGAGACTGTCAATTCCTGAGAGCCGCTGGGGAACTGAGCAATCG
Y
CTGCATTTCGTCGCTTTAGCCCGAGCTGGGTCTTTGAGCTGGCAGAGACCAAGATCTTTTTCTGGGAAGGGATGGTCCTATTTAAGGAAGGCCCTGGATT
Celera SNP ID:            hCV15894418
SNP Position Genomic:     921507
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57657):
GTATGGGGTGGGGAAGGGGGGGGGGATAAAGATATTAATTTGGAAGCATTTGATTGCTCCATTATTTTATCATCTTCCCATGGAAATGTTTTCATAACGC
S
TTGTTTTTTAATTATTATTATTATTTTTTGAGACAGAGTCTCACTGAGTCGCCCAGGGCGGCGGTGTGATCTCGGCTCACTGCAACCTCAGTCTCCCAGG
Celera SNP ID:            hCV2851442
SNP Position Genomic:     1097467
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,2|G,3)      total(G,3|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57658):
TTACAGCAAATTTGTAGTTATGGTGGAGCAAAGGGCAGTTTTCACTCCTCTTCCCTAAAACTGTAGTTTAACTAAAAAGTGGCCACTGTCTCCTGGTAGC
R
GTTGGTAAGCCATCCAGTCTCTGCAGGCATCTACGCTCCAGGTCTCCAGTCTGAGGAGTCTGGCTCCTGGGGCAGGTGCCTCTGGGGGTCTCTGCCAGGC
Celera SNP ID:            hCV8709891
SNP Position Genomic:     105460
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57659):
GAGCTGAGTGATTTTAGTAGGTAGTTTAACTCCTTAAAAACTTCCAGTGGTTTCATATTCTACCTAGTTTTAGGTGACAGCTGGTATGGGGTGGGGAAGG
R
GGGGGGGATAAAGATATTAATTTGGAAGCATTTGATTGCTCCATTATTTTATCATCTTCCCATGGAAATGTTTTCATAACGCCTTGTTTTTTAATTATTA
Celera SNP ID:            hCV2851443
SNP Position Genomic:     1097384
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57660):
TCCCGCTTTGTGCTGGAGCAAGTTTTGGCTGAGTTTCTGTCACTTGCAACCAAATCAGTCCTATCCAGTATACCTAGTGACTCTCTGGTCTCCAAAGGCT
R
TGCCTGCTGGGTACTGAGTGTCTCCCCGACCGACCCCATGATGGCTACAGTGCACATCCCTTCCAGCCAACTCTATTGTGCACACATATTCGTAGGGTGA
Celera SNP ID:            hCV8709892
SNP Position Genomic:     96852
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57661):
GGAGCTGAGTGATTTTAGTAGGTAGTTTAACTCCTTAAAAACTTCCAGTGGTTTCATATTCTACCTAGTTTTAGGTGACAGCTGGTATGGGGTGGGGAAG
S
GGGGGGGGATAAAGATATTAATTTGGAAGCATTTGATTGCTCCATTATTTTATCATCTTCCCATGGAAATGTTTTCATAACGCCTTGTTTTTTAATTATT
Celera SNP ID:            hCV2851444
SNP Position Genomic:     1097383
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,1)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57662):
TTTGACAATAGATGTTAGCTAGGAGAGATAAGAAATGGAGCAAGGGAGGGGTTTCATCCCGCCGTGTTCATTTGCTTGGCTGTCCTGAAATTGCGAATAC
R
CAGTTGTTACCTGCTCCCGGTGGGAGGGGGGGGATATTTATTTGGCATCTTGCAATTGATAGGAGCTGAGTGATTTTAGTAGGTAGTTTAACTCCTTAAA
Celera SNP ID:            hCV2851445
SNP Position Genomic:     1097221
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,1|G,2)   his(G,2)      total(G,4|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57663):
TGGAAGAGTTGACAGAGATTTGCAGGTGAAAAAGAAAAGAAAAAAAATACAGATACGTGTATATATAGAGAAAGACAAAAACTTGTCTGCTAGAAACCTA
S
GGAGAGAGATGGTATTGCCCCTGGGACATTGGACTTTCTGTTTCCAGCATGGTCTGTCGTCTTCCATAATGGCATTTAATTTTGGAAAAATTGCCTGAGC
Celera SNP ID:            hCV2851447
SNP Position Genomic:     1096562
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,7|G,3)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57664):
CAGTCACAGAAATGAGGTAGCTGTAGCCAAGGATGATGGCATAGCACATTCGTTTCTTAGGCGTGCCACGTACTAGGTGGCTTCAGTCAGCAGAACTGTA
Y
TTTCCCACAGTTTTGGAGGCTCAAATTTGCAAGTCGAGGTTTCGGCAAGGCCATCCTCTCTCTGAAAACTCTATGGGGGCGTCCTCTTTGCCTCTTCCCG
Celera SNP ID:            hCV15779460
SNP Position Genomic:     912872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57665):
TTTTGGATTCTGTGTGGAAGAGTTGACAGAGATTTGCAGGTGAAAAAGAAAAGAAAAAAAATACAGATACGTGTATATATAGAGAAAGACAAAAACTTGT
S
TGCTAGAAACCTAGGGAGAGAGATGGTATTGCCCCTGGGACATTGGACTTTCTGTTTCCAGCATGGTCTGTCGTCTTCCATAATGGCATTTAATTTTGGA
Celera SNP ID:            hCV2851448
SNP Position Genomic:     1096548
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,2|G,7)      total(G,7|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57666):
AGGCTAGGTAGAGCATATTGCTCCCTGGCAGCAAACATGTACAGCATGTTTCTGTCCTGAATACTGTAGGCAATTTTAATACAATGCTAAGTATTTGCAT
W
TACAAACATAGAAAAGGTACAGTTAAAATATGGTATTACAATCTTCTGGGATCACCATTGCATATGTGGTTCATTGTTGATCAAAATGTCATTATGCAGT
Celera SNP ID:            hCV2354242
SNP Position Genomic:     764442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57667):
ATGGGAGTTAGGAGAAGTGAATCTTTTGTTTTCGAAGCCTTTGTCCTTGTGAGTCTCTTAATTGGGGTGTCTTGTAATGCAAAGTCTTTAAAGATGTGTG
Y
TCCTGAAACTCAGGAGGCTGCTCTATCCCATGGTTCAACCAAAGAACCAGGGCCAAAGCAGTGCTGAAGGAACAACTGATTCTCTTGGCCCTCCTTAGAG
Celera SNP ID:            hCV8897041
SNP Position Genomic:     490798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57668):
CCTTGCTGAAATGGTTGGTGCTAAGATGAGCACTTGGCTTAGGCCAGACCAGTCCCTAGCCTGTGGAGAAGGGGCAATCTCTTATCTGAAGGCCTAGGAG
S
TGCAGGGATGTTTATATGGGCTGCTAGCGCTTAGTTTCCTGCCACAGGGAGACAGTAAGAAAGGTGACGTCAATCTGAGATGAGAGAGAGAGCAAAACAG
Celera SNP ID:            hCV8709899
SNP Position Genomic:     96601
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57669):
CACCTTTCCTTTGGGAGCAATTTTTGGGTTGCTTTTGTTTTTATTTGTTGTTTTCATTCCTGGTAGTAATAGTAACAGTAGAAAATGGCAGCGTTATAGC
Y
ATAAACAAAGTGCTCTGTGGTTTCTCTCTCACCATCCCCTAAACCCTACAAGGCTAGGGGAAAATGGTAATACTCATGAACAACTCCACTTCATAAATGA
Celera SNP ID:            hCV2354244
SNP Position Genomic:     732417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57670):
AGTGGCCCTAGGATGGCTCCTCAGATAGCTGCTGGCAGAAACCTGCACTCAGTACATCTATACATGGTGTAATGATTGACTCAAGATAATTAGCATAGCC
R
TCATCTCAAACCTTTATTATTTGTGATGAGAAGATTCAAAACCCGCTTTTTGAACTGTTCTGAAATATGCAATACCTTGTTGTTAACTGTATTCACCTTT
Celera SNP ID:            hCV8897042
SNP Position Genomic:     503376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57671):
AAAATGAGGAAGAAGCGAACGTGAGAACCCCTGGTAAACCCATCAGATCTTGTGACACTTATTCACTATCACGAGGATAGCGCAGGAAAGACCGGCCCAC
R
TGATTGAGTTACCTCGCCCTGGGTCCCTCCCACAACATGTGGGAATTCTGGGAGATATAATTCAAGTTGAGATTTGGGTGGAGACACACCCAAAGCATAT
Celera SNP ID:            hCV2354245
SNP Position Genomic:     732167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57672):
ACACAGGCTGCTGTGGCAACCCACAGCAGGAATAGCCAGTCCTGCCCCAGCAGGGCGTATCAGGGGTGCTAAGGTGACTTCCAAGATTGAGGTTGGCGAG
W
TCGTGACAGGTGTGCAAGATGGGGTGTTCCAAGACTGGGGACAGGACAGGTGTGCAAGGACCAGCCAGCTGAGGTAGAGGAAACCTAGACCTATGGAACA
Celera SNP ID:            hCV8897043
SNP Position Genomic:     504134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57673):
GGACAATTCATTGGCTTATCGTATAGTCACAAACTTGTGCAGACATCACCACTATCTAATTTCAGAACATTTTTATCACCCCTAAAAGAAACCCTGTACC
C
TTCAGCCAGCATTCCCTATTTTATACCCCCGATCTCTTGACAACTACTCATTGACTTTGTTTCTATGACTTTACCTATTTCGGGTAATTGATATAAATGG
Celera SNP ID:            hCV11668216
SNP Position Genomic:     570578
SNP Source:               Celera
Population(Allele,Count): cau(-,3|C,4)   his(C,4)   total(C,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57674):
TAGCCCCCTGTACAGCACACAACTCGGGGAATTTTAGGTCTGGTGATTTACTGCTGTTGGAGCCTGGCCTTCTTCCTGGGAGAAGGCTGGAAAAACTTCA
W
GTCAGTTACTTAATGGAATAATACATGTTTCCTGCTTCCATTGTCTTCCTGGACCTGACACTCACTCTTTAACCATAAGCAGAAGACACATACAAAAATG
Celera SNP ID:            hCV16291064
SNP Position Genomic:     400780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57675):
CAGAGAACAGACTAGCCCCCTGTACAGCACACAACTCGGGGAATTTTAGGTCTGGTGATTTACTGCTGTTGGAGCCTGGCCTTCTTCCTGGGAGAAGGCT
S
GAAAAACTTCAAGTCAGTTACTTAATGGAATAATACATGTTTCCTGCTTCCATTGTCTTCCTGGACCTGACACTCACTCTTTAACCATAAGCAGAAGACA
Celera SNP ID:            hCV16291065
SNP Position Genomic:     400768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57676):
ACCATCCCGGTAAAGTGACGTTTTGATGAAAACAGCATGGATCTTCCTGCAGAGAACAGACTAGCCCCCTGTACAGCACACAACTCGGGGAATTTTAGGT
Y
TGGTGATTTACTGCTGTTGGAGCCTGGCCTTCTTCCTGGGAGAAGGCTGGAAAAACTTCAAGTCAGTTACTTAATGGAATAATACATGTTTCCTGCTTCC
Celera SNP ID:            hCV16291066
SNP Position Genomic:     400719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57677):
TTGTGAGAAATGAGGAGATAATATCTTTAAATCTCCTACGGTGATACCTGGAACATGATGGTGCTTGGGAAATGTCTCTTCTTCTGAAATGAGGCTGCCT
S
GAAGACTCACTGGAACCCAAGCAAAGTGTCTCTGCATTTCACTCCGAGCCATCGACTTCTGTTCTGAATGTTAAAATGCAGGTGGCTGTGAGGGAGTCTT
Celera SNP ID:            hCV1592050
SNP Position Genomic:     487473
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|G,4)   afr(C,3|G,4)      total(G,8|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57678):
GAAGGATCATGGGAGGGGAGGAGCGTGAGTTCCTCTTAAGTGAATATAAACCAGGGGGTAGGAAACAACATGAGATGAGGCTGGCGAGAGAGAAGGATGC
Y
AGGTGAGGTGCTGTGGTGCGCCAGAGACTGCGGAAGTGGCTTTCTAATTAAGAAACAGAAGCCAGGAAACTCCTGTACTTCAAGGTTTTGGAGTGGGAAA
Celera SNP ID:            hCV1592051
SNP Position Genomic:     487144
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,8)   cau(C,8|T,5)   afr(C,8)      total(C,24|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57679):
GTAGCTTTGTTGATTGTTGATATTACTTATGAACTTTCTTGCTTTTCAGAAACCACCACCACAAAAGAGGCAGTAACATTAGTATTACATTATACATCTT
M
GGCATTTTTTTCCTTTGCCCTTTTCGTAGGTTTTTGTTTGTTTGTTTTTTCTTGTCAGCCACTTCATCATGTTTGGTCTCTCGTCTTTGGCTGTGTTTTT
Celera SNP ID:            hCV1592052
SNP Position Genomic:     486626
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|C,4)      total(A,2|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57680):
AATTATATATTATACACACAAACATACACACACGCACACACCAAATTTAAAAAGACAGATACATAGGCAGTTGTTATGCAGTGTTTGAAATAAATTTATT
K
CCAGCTATGGGTCATTTGGAAAAAGATCAATATGATGCATCAACATAACAAGTAAATGGAAATGAATACAACCGCATGGTTTTCTGAAAGCACGGTTTCC
Celera SNP ID:            hCV1592053
SNP Position Genomic:     486299
SNP Source:               Celera
Population(Allele,Count): cau(G,4|T,1)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57681):
GGTGAGAAGGAGCTGGCAGTGTGAATAGCCAGGGGAAAAGTGTTTTGGGTAGAAGGAACAGAAAGTGAAACGGTGCCCTGGCAAGGCAAAGATTATTCAT
K
GCTGAAGAGACTATGTTGCCCAGATGACTTGTTCATGTAATCTGTGATTTTTAAATTTAGAATTGAGGTTTGAAGGGAAGTATTGCTCCTTTCTTTATCT
Celera SNP ID:            hCV1592055
SNP Position Genomic:     478598
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57682):
GAAGGCGGGCGGGGCAAGCTTTGGAAAGCACGGGCAGGTAAGGACAGGGTTTCAAAGGTGAGAAGGAGCTGGCAGTGTGAATAGCCAGGGGAAAAGTGTT
K
TGGGTAGAAGGAACAGAAAGTGAAACGGTGCCCTGGCAAGGCAAAGATTATTCATTGCTGAAGAGACTATGTTGCCCAGATGACTTGTTCATGTAATCTG
Celera SNP ID:            hCV1592056
SNP Position Genomic:     478542
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57683):
ACTGATTAATCACAGTTATAGAGTAGACATAACATTTTTATTAAACTCTCAGTGAGCAGGAAAATTAGCACTTCCTGCAATAACGATACTAATTTCATTA
S
TGAACGTTTTCATTTATAAAGTGCTTCTTCCTTATCTTGAACCTTTTATCCTCTTCTTATTGACCAAAGAGAGGGCATATCTTTGGGAGCTGCTAATAAA
Celera SNP ID:            hCV1592057
SNP Position Genomic:     477334
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(C,1|G,6)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57684):
GTTGGAGAAAAGGGGGAAAAAGTTAAATGTTAATGATTCTTTTCGTAACTGCAATTTTATCGGCTCCTTTTTGTACATATATGATTATGAAGCAATTTGT
R
TGAAATTTACACCTTTTCAAATTTTGAAAATTGCCTTGTTGAAAAAGAATCGCTGTACTTCTCAATACTACACTGATTAATCACAGTTATAGAGTAGACA
Celera SNP ID:            hCV1592058
SNP Position Genomic:     477162
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57685):
AGTTGGAGAAAAGGGGGAAAAAGTTAAATGTTAATGATTCTTTTCGTAACTGCAATTTTATCGGCTCCTTTTTGTACATATATGATTATGAAGCAATTTG
Y
GTGAAATTTACACCTTTTCAAATTTTGAAAATTGCCTTGTTGAAAAAGAATCGCTGTACTTCTCAATACTACACTGATTAATCACAGTTATAGAGTAGAC
Celera SNP ID:            hCV1592059
SNP Position Genomic:     477161
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57686):
ATGTGTCTGACCCCAGGAGAACTGCCCCGATCCCTATCTTGTCTCTGCTCAGTTCTGGTAACTCTTTTATCTTCCCTGGAGTTATTTTTTTCCCTTCTTT
S
TTTCTCTTTTTCTGTGTGCTCTTCTAAGAGTAAAACGCATGTCCCCCCATGAAGTCACTCAAAGCTCAGGCGTGTGCAACAGGGACAGCAAAAGCACACA
Celera SNP ID:            hCV15894425
SNP Position Genomic:     920875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57687):
GATTACAGACAAGAGCCACTGCGCAGACGGACATATGAATTTTTAATTTGATATCATTGTGATCAATTTGAAGATCCACATATGGCTGAGGGCTACTCTA
W
TGAGTGGTGCAGCTCCAAGGCAGAGAGATGGCTGTGATTAACCAATGAATGAGGGAACAAATATCCAGGCAGAATGAATAGTCTATGGAAAGGGCTGGAA
Celera SNP ID:            hCV15894426
SNP Position Genomic:     920033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57688):
GCGGCGTGATCTCTGCTGACTGCATTCTCCATTTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCCCCTCCACACC
S
CACACCGCCACCACGCCCAGCTGATTTTTAGTGGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCGGCCTGCCT
Celera SNP ID:            hCV2851450
SNP Position Genomic:     1095004
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|G,5)   his(G,5)      total(G,10|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57689):
CAGCGGCGTGATCTCTGCTGACTGCATTCTCCATTTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCCCCTCCACA
S
CGCACACCGCCACCACGCCCAGCTGATTTTTAGTGGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCGGCCTGC
Celera SNP ID:            hCV2851451
SNP Position Genomic:     1095002
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5|G,2)   his(C,5)      total(G,2|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57690):
TTTTAAGGCAGCAGGACTAAGAAGGTAAAGACATGTACTAGGCGGGTCAGCATAGTGGTGGCCCTCGTCTGACACACATATTTCAGGAGGGGTCACCCCT
S
CCGTCTTCCATGTTGGGGTGCTCTTCTCTGGCAACCCACTATGGGTACTCCACTGCTGGCCTTCATGCAGGTGGAACCACACCGGGAAGACCCAAGCCGA
Celera SNP ID:            hCV2851452
SNP Position Genomic:     1090489
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,1|G,5)      total(G,5|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57691):
GGCACAGAACGAGCACTGTGTGTGTGTTACAGAAATATATGTGGGTGGGTGTGTTTCTGTTTTCCGTAATTCCAGCTAGGCAAAGACATATTTAACAAAA
R
CCTTCTGGGCTGATGAGCATCCTCAGAAAGTAGGCTGAGGGAGCTCTTTTAAGGCAGCAGGACTAAGAAGGTAAAGACATGTACTAGGCGGGTCAGCATA
Celera SNP ID:            hCV2851453
SNP Position Genomic:     1090342
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57692):
AGCATCTGGGGCTGTACACGTCTTTGTACTGCACACTGTAGGGTATCCAGGATTCCTGGCCCTGCCCCATGATATACCAGCGCCATGTTGTCATCAAAAC
R
ACCGGAAATGCCTTTTGTGTCTCCCTACTTCCCTTTTTAACATGTCAGCCCTTGGTCTCGATATTCACATCTATATTTTTCCTTATCCCGTTAATATATG
Celera SNP ID:            hCV2851454
SNP Position Genomic:     1089770
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(A,3|G,2)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57693):
TCATGCCCTGTGTCACCTGACTCAGGCACCATTAGCATCTGGGGCTGTACACGTCTTTGTACTGCACACTGTAGGGTATCCAGGATTCCTGGCCCTGCCC
S
ATGATATACCAGCGCCATGTTGTCATCAAAACGACCGGAAATGCCTTTTGTGTCTCCCTACTTCCCTTTTTAACATGTCAGCCCTTGGTCTCGATATTCA
Celera SNP ID:            hCV2851455
SNP Position Genomic:     1089737
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3|G,2)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57694):
TTAACACTATGCAGAACGATTTCCTCGTATTGTTGAAAACTCTTGGTAGGGGTTTTTTTTTTAATTGGCTGGAAGCACTTCATCATATAGTTGTACCAAA
R
TTTGCTTAACATCCCCCTTATTACTCAGCCTTTGGGTGGTATCCAGTTCTTTGCTTTGATAAATAATGCTGAGATGAACATCTTTCTGCATGGCTCTTTT
Celera SNP ID:            hCV2851456
SNP Position Genomic:     1089052
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   afr(A,1|G,7)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57695):
ATGCTCTACCTCTTCCCTTTGCTAAGTGGCAATTTTGGACCTTCTGTGACCGTGCAAACATGCAGATTATACATGCACTATAGGAGTGGAATGTATGTGA
Y
TTAATAGCGTAATATTTTGTCCATTATTTTAAAACTTGCTTTATTTGGTCAAGACATACGGAACACGTATAGATCAAACAAAAATTTTTAAAAATGCTTG
Celera SNP ID:            hCV2851457
SNP Position Genomic:     1088633
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5|T,1)   afr(C,5)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57696):
TCCCCAGGCTAAGCACAGTCACAGAAATGAGGTAGCTGTAGCCAAGGATGATGGCATAGCACATTCGTTTCTTAGGCGTGCCACGTACTAGGTGGCTTCA
S
TCAGCAGAACTGTATTTTCCCACAGTTTTGGAGGCTCAAATTTGCAAGTCGAGGTTTCGGCAAGGCCATCCTCTCTCTGAAAACTCTATGGGGGCGTCCT
Celera SNP ID:            hCV15779470
SNP Position Genomic:     912857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57697):
AATTCTTAAAGTTCTGGAGCCTGGGAAGTCCAAGAGCAAAGCAACGGCAGATTCAGCTTCTGTTGAGGGCTCGTTCCCTGGCTCATAGATGATGACTTCT
Y
GCTGTGTCAACTTAGTGGGAGGGGATAAAGCAGCTCTCTGGGGCTTCTTTTAGAAAGGCACAAATCCACTCTTGTGATCTAATCACCTTTCAAAGGCCCT
Celera SNP ID:            hCV2851458
SNP Position Genomic:     1085443
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57698):
AACAGCACACGTCAAGGAAGCAGTTTTGGTCTCTCAGATTATATGAAGCTCTCCAATATGTTCTTTCAGAACAGCCAGTGCCTAGAATACTGCCTGACTC
S
TAGTAGCACTCCTTATGTGTTGAATGAGTAAATGAAGAGTCCCTGGAATTTCTTCTTCATAACATTGAACACAACTGCAGTTTGAAAACATAATTTCTGT
Celera SNP ID:            hCV9661521
SNP Position Genomic:     348123
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,6)   afr(G,6)   his(G,6)   total(G,18|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57699):
AATGGCATCTATGATCTTAGATTTAGTAAAACGCAGTATCTTCTTCCCCAGCTGAAATAGCGAAAGGGTCTCTTCAGGCTCCTGGGATAAAAACCAGGAT
S
CTTCATGTGTCTGAGCAGGCTTCCCACCATTTGACTGCTGCTCCTTTGTCCAGACACATTTAACACCATCTCCCTGCACCCCTTCACTGGGCTCCGAAGC
Celera SNP ID:            hCV15779471
SNP Position Genomic:     907513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57700):
CAGAAATGTAATTCTTAAAGTTCTGGAGCCTGGGAAGTCCAAGAGCAAAGCAACGGCAGATTCAGCTTCTGTTGAGGGCTCGTTCCCTGGCTCATAGATG
R
TGACTTCTTGCTGTGTCAACTTAGTGGGAGGGGATAAAGCAGCTCTCTGGGGCTTCTTTTAGAAAGGCACAAATCCACTCTTGTGATCTAATCACCTTTC
Celera SNP ID:            hCV2851459
SNP Position Genomic:     1085434
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57701):
CCCTGGAAGATGGATCTTGCCTTGTGGATGTTTTTCTACCGTGACAGAAGATAGAAAGGATGAAATAGAAAGAGTGTGAGTGAATTCTGCACCCACCCCC
R
CCCCCCAGCTTCCCCACCTGTAAAATGATTTGCTCAAAGTTTGCAAAGAATGGAGGCATATTCAAAGTGCTCAGCACTGGGCCGGACCCATGGGTATGAA
Celera SNP ID:            hCV15779472
SNP Position Genomic:     903809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57702):
TATGAGCACGGCATCTACCGGGCTGTTCCACATCCTCCCTGTGGGACTAGGGGCCAGGGCAATGGGAATCAGTGCAGAAATAAAGCTCATGCTGTTTGCT
S
TGCCATGAGTAACGAAGTCCTCTGTATCTGATCCTGGGTCTCCTGTTTTCTGCTAGCTTCCTCAAAACTTGGTAGCTAACTCATTAACTTACAAGGAAGA
Celera SNP ID:            hCV25963222
SNP Position Genomic:     178048
SNP Source:               Applera
Population(Allele,Count): afr(C,38)   cau(C,39|G,1)   total(C,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:57703):
ATTCTCAGATTCCCAGCCAACTGGTTTCACATGACAAGTAAATGAGCAACCTGGAAGATGAGTGGCGTTTCCACACACAGGGAAGCAGATAGTTCCATTA
S
GTGACAGTGTGTGCACAGTTTATGGAGGATGAAGCGGAAAACCTGAGCCACAAGGCAGTAGAGGTTGGACGAGACACTCATTCCGAAGGCGGGTGTGTAT
Celera SNP ID:            hCV16291074
SNP Position Genomic:     399798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57704):
CCTGACTTTCTCCCTGGTCCAGGTGCATTTTAAGCATGGAAGGTGACACTTGCCATTCTCAATGGACAAAGGGAGTGGGGAGTGTGGGGGTGTGCTTTGG
R
GTTAGTCTCTGGGTTTTCGAAACTTAGCATTCTCAGATTCCCAGCCAACTGGTTTCACATGACAAGTAAATGAGCAACCTGGAAGATGAGTGGCGTTTCC
Celera SNP ID:            hCV16291075
SNP Position Genomic:     399669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57705):
ACTGCATTGACTCCTGTTTTCTACACAGTGGTCTTCAGCTACACCTTACCAAGCACCCCTTACCCAGCAAACGTGGCTTCTCTTCCCCAGGCAGAGCAGT
Y
CGTTACTTAGACTAGGAAATGGCTCCGAGAAGCTCACCCATCACCATTTGCTCTACTGCAAAACAGGACTCATTAGCAGGAGCTCATAAAATGAAACTGG
Celera SNP ID:            hCV16291076
SNP Position Genomic:     398424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57706):
CTGTAGCAAAGATGTACTGTTTCCCACTGAGAAGAATCAAAAATAGAAAAGTGCTTCCTTGTCTCTCTATATTGTTATTAAAACAAGTAGATGCATTTTC
R
TTGAATCAAGGCAGTTTTCCTTTATAAAATGTCCTATTTCATATCACTGTTCAAACTTGACATCCACATTTGAGTTGGTTTAAAATATCACTGTTTTGTT
Celera SNP ID:            hCV1592060
SNP Position Genomic:     476892
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   his(G,1)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57707):
AGTTCCAGCTCATCCACCCTGCCTCTGTGGCTGAGTCGGGGAGAAAAGGACAAAGTTTTTCTCCCGCAACTGGGCCACCAAACCAGCAGAGCCTCCAGCC
R
GGGTGGTCTCGAGGAGGCCCATTACCGGCTGGAGTGACAGAGTGTGTCAAGCCTGCAGCTCGTCCCGTGTCTAATGGAACAGAAACAAGCACCCTGCTGC
Celera SNP ID:            hCV1592061
SNP Position Genomic:     475417
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57708):
TGTAATCATAGCAGAAACTCACATGTGTGTGCTTTCTATGTGCCAGGCATGAGGCTGAAGTCATACATTCATTATTTGTTAATCCCACCCTAAGTGATAG
K
TGTATTCATCATTCTCAGTATCAGAAGAAGAAACTGAGGTTCAGAATGACCCAGTAAAGATCACAAGCCCAACCCTGGTGAAGGGCGTGATTGGCAGAAG
Celera SNP ID:            hCV1592062
SNP Position Genomic:     474677
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,1)   his(G,3)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57709):
AGTGAAAAATCTTAAGTACCAATGGGAAGCAGGGAATTCCTGGGGTAAAGTATCACTTTTCTGGGGCTGGGCTAGGCATAGGTCTCTTTGCTTTCTGGTG
S
TGGCCTGTTTGAAAGTAAAAACCTGGTTGGCGTGTAGGTTCCGTATCTCCCTGGAGAAGCACCAGCAATTCTCTTTCTTTTACTGTTATAGAATAGCCTG
Celera SNP ID:            hCV16183625
SNP Position Genomic:     1119484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:57710):
CAAGTTCAAAATCAGTCTCACCTGGTCAAGATGTCAGTAGGGCTTGTTCCTTCTGGAGGCTCTAGGGGAGAATCTGTTTCCTTGCGTTTTTCATCTTCTA
S
AGGCCTCCTGCATTCCTTGGCTCTTGGCCCCTTCCTCTGGCTTCAAACCAGCAGTTTAATATCATCACATCTCCTTTACTGATTCCTCTTCCGTTGTCCC
Celera SNP ID:            hCV1592063
SNP Position Genomic:     472999
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57711):
CACCGAGGTATCTGGAGATGACCTCTGCACTGTTCTGGGAGAGTGGTTATAGCCTCTCCTGGGGGAGTGTTACTGGGAGACAGGGAAAGACAGGGCGTGT
R
GACGGCCATCTATTCCACCTGTGACATGAGGGCTCACCCCCTCATCTCCACCGCAGCAGCTCTCTGATAAATGTAGCTCTCTGATAAATGATTCTGTTCC
Celera SNP ID:            hCV11667285
SNP Position Genomic:     1114557
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(A,3|G,2)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57712):
GATAGCTGATTTGTTATAAACAAATTACCAAAAACGTACTGGCTTTAAACAACACATGCTTATCATGTTGCAGTTCTGGGGAGTCACAAGTTCAAAATCA
S
TCTCACCTGGTCAAGATGTCAGTAGGGCTTGTTCCTTCTGGAGGCTCTAGGGGAGAATCTGTTTCCTTGCGTTTTTCATCTTCTAGAGGCCTCCTGCATT
Celera SNP ID:            hCV1592064
SNP Position Genomic:     472913
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|G,1)      total(G,1|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57713):
TTTATTGTGTGAAATGAGCCTGGTCATATGACTGCCCTGCCTCCCTGGAGGCCTCCCTGCCCTCCTCCTTCCCACAGACACTTATGGGAGGTACTGGCCA
R
CTCTGTATGGCCAGTACTGCCCTAAGCAAGACCAAGAAGCTTAGTCTCAATTTCAGAGAGTTATTTTGGCAACATATTTGGGAAAATGATAGTTAGATGC
Celera SNP ID:            hCV2852400
SNP Position Genomic:     518967
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(A,3|G,3)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57714):
TGCCTCTAAGTTTGAAGTCTAACTCCATCACTGTGTTTCTTTCCTCTTGCTGATAGCTGATTTGTTATAAACAAATTACCAAAAACGTACTGGCTTTAAA
S
AACACATGCTTATCATGTTGCAGTTCTGGGGAGTCACAAGTTCAAAATCAGTCTCACCTGGTCAAGATGTCAGTAGGGCTTGTTCCTTCTGGAGGCTCTA
Celera SNP ID:            hCV1592065
SNP Position Genomic:     472862
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57715):
TCCCTCCCTTTATTTTTTCTAGCCTTTATAGAAATGACAAAGGGTCAGGTGGTCTTAAATTCCAAATCTGGGCACATGAATGGTCTGACCTCGGAAACTT
M
CTATATGCTCGAAACGATTTAACTAGCAGCAATAAAATCTCTACTCTTTTTATGACAAATAATCTAGCATGTCTGGGGAGCATATTTGATTCTTCATATT
Celera SNP ID:            hCV2852401
SNP Position Genomic:     516338
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,1)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57716):
TCTCCCTCACAAGGATCAGGTGGCAGGATCTAATGGGAGGGGTAGAGAGTGAGTGTTAACACACAGAGAACCCAGGAGACCTTTCTCAGAGGTCTCATAT
S
AAGAAAAGATCATTTCTCCTAAGCAATCAATTTCTTTTTAAATCTGAACCTCATATCTGAGAATATTCCCTTCTTTTATCTGGCCACTCGGGAGCTCAAA
Celera SNP ID:            hCV1592066
SNP Position Genomic:     472186
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57717):
ACTGTGGAAGGGTCAAGTGCAGGGTCACCAACCCGTTCCATCTTCCTGTCAGTTGGCGTCCACCCTTGGTTTCAAAGGGAACAGGCATTACTGACATGAC
S
GGACCTTTACAGTTCCCAGCTGCTCATTTGGAGTACTGCGGACCCAGGACAACTAAAGCCGGGGTCGCCTGCCCTCCAGGGGTTCCTGGGTTGAAGTATC
Celera SNP ID:            hCV2852402
SNP Position Genomic:     516134
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57718):
ATTTGTGTCCTGGTTGGCAGATATTAAGTCCACAGATACCAATAATTAATATCTATGGTTGATTGTAAAAATGGCCACCAATTCTTCCCTGTCCCCTGCA
Y
ATGTACATCCTTGCACTGTGAAATTGTAGATCTCGCCCTCCAAAGGTGAAGTTCGTTTGTCCACTCCTTGAACCAGGATGGCATGAAACTTGATTTGACC
Celera SNP ID:            hCV1592067
SNP Position Genomic:     471422
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(C,1|T,3)   his(T,3)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57719):
CTTACTCTGTGCTCTTGCCCCAGGCAGAGTGGAAGTTGCCTTATAAAGCTGCGACTTGGCCACAGTGTTTTCCCTTTCAGCAGGGAAACCGGAGTTCTCC
S
TGCTGTTGGGAGGTTCAAGAGCCACTCTGTGCAGAAATGCCCAGAAAGAGTTAAGTGAGGTAAGTTCGTCAGACTTCTGCAGACCCATACTGTGGAAGGG
Celera SNP ID:            hCV2852403
SNP Position Genomic:     515945
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|G,3)   his(G,3)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57720):
TATCCAGGAGGAATGATTAGTGATCTGATTCATTAATATCCCTTGTTATTAAGAACTGTCTGTATTTGTGTCCTGGTTGGCAGATATTAAGTCCACAGAT
D
CCAATAATTAATATCTATGGTTGATTGTAAAAATGGCCACCAATTCTTCCCTGTCCCCTGCATATGTACATCCTTGCACTGTGAAATTGTAGATCTCGCC
Celera SNP ID:            hCV1592068
SNP Position Genomic:     471359
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,3)   cau(A,3|G,1)   his(A,3)      total(G,1|A,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57721):
GACTCTGCAGATCCCTACTCGGAGTTTTTCAGCCCTGTTTTAAGTGCCGAGCTGGGTTTTGCCTCATGATCCAATTGTTTTATTAGCGAAATCATCATCT
R
TTTCATTTTGCTTTGGTAATAGTGCAGTGTCTGTCTAACAATAAATTATAGAGTCAGGCAAACAATGGTTTCGTATTAGGGATATAATGAAATATCTTAT
Celera SNP ID:            hCV2852404
SNP Position Genomic:     509551
SNP Source:               Celera
Population(Allele,Count): chn(G,7)   cau(G,7)   afr(A,1|G,7)   total(G,21|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57722):
GTTCAGGAACAGAACTGACAGGTATTGAAGCCAAAAATTGAACAATAACAACGTAGGAGGGAGAATCCAAAGATAGTATGTGTTCAGGATACGGGCACTC
R
TGTGGGTGAACACACACACACACACACACACACGCTTTTTTTTTTTTTTCTTTTTTTTTTTCTCCTATTGCAATAGAACGTAAAGGTAGATTTTTAGAAC
Celera SNP ID:            hCV1592069
SNP Position Genomic:     471090
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,4)   his(G,4)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57723):
TCCTTTCTTCTTCAGTGCCACCTGCCTTATTTTACTCACCCAGAAGGAAGCCGGGTCCCTCTTTGCCCCTTTGGGTGTTTGTGAAAAGCAAGTTGTAAAC
W
CTGAATTCTATAAACTGTTGGAGACAGATTCTGGAGAGACACTCAGGCTTAGCTCTAGAAAGAAACGGGTAAGACAGAGGAGGTTCAGGGCAACTGTGTT
Celera SNP ID:            hCV2852407
SNP Position Genomic:     508913
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5|T,1)   afr(A,5)      total(A,10|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57724):
CAAAAGTACTAAATGTTACCATTTTCCTTACTTTGTTCAGGCTGCTATAACAGATACCATAAACTAGGTAGCTTATAAATAACAGAAATGTAATTCTTAA
M
GTTCTGGAGCCTGGGAAGTCCAAGAGCAAAGCAACGGCAGATTCAGCTTCTGTTGAGGGCTCGTTCCCTGGCTCATAGATGATGACTTCTTGCTGTGTCA
Celera SNP ID:            hCV2851460
SNP Position Genomic:     1085352
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,6)   his(C,6)   total(A,2|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57725):
AAGATTCCTTTCTTCTTCAGTGCCACCTGCCTTATTTTACTCACCCAGAAGGAAGCCGGGTCCCTCTTTGCCCCTTTGGGTGTTTGTGAAAAGCAAGTTG
Y
AAACACTGAATTCTATAAACTGTTGGAGACAGATTCTGGAGAGACACTCAGGCTTAGCTCTAGAAAGAAACGGGTAAGACAGAGGAGGTTCAGGGCAACT
Celera SNP ID:            hCV2852408
SNP Position Genomic:     508908
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|T,5)   afr(T,5)      total(C,1|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57726):
TCAGGCACTTTATATCCCTCATCCAGGAGGATGCAAAAACCTGGTGTTTTTCTTTTTTTTTTTTTTGCATTTTCCAGACGAGCCAAGGGATGGCTCAGAA
R
GGTGAAGGAACTCACCCGAATTGCACAGCTGGTGAGCTCAGAGTCAGGCTCCTTGCTTGGTCCATCTGGCTTCCAAACTCCAAGTCTGTCTGCTCCACCC
Celera SNP ID:            hCV25933143
SNP Position Genomic:     74843
SNP Source:               Applera
Population(Allele,Count): afr(A,4|G,34)   cau(A,4|G,36)   total(A,8|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:57727):
CTTGTTCTTTTACAAAAAGGGTCAGCAGACTTTCTGAAAAGGGACAGATAGTAAATATTTTAGGCTTTGTGGACCATAGGGCCTGTGTCAAAAGTACTAA
W
TGTTACCATTTTCCTTACTTTGTTCAGGCTGCTATAACAGATACCATAAACTAGGTAGCTTATAAATAACAGAAATGTAATTCTTAAAGTTCTGGAGCCT
Celera SNP ID:            hCV2851461
SNP Position Genomic:     1085264
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,5)   his(T,5)   total(A,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57728):
TACTTGTTCTTTTACAAAAAGGGTCAGCAGACTTTCTGAAAAGGGACAGATAGTAAATATTTTAGGCTTTGTGGACCATAGGGCCTGTGTCAAAAGTACT
M
AATGTTACCATTTTCCTTACTTTGTTCAGGCTGCTATAACAGATACCATAAACTAGGTAGCTTATAAATAACAGAAATGTAATTCTTAAAGTTCTGGAGC
Celera SNP ID:            hCV2851462
SNP Position Genomic:     1085262
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,5)   his(C,5)   total(A,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57729):
ACAAAACACCGAGGGCTTTAAGGAGGCATAGTGGTATGTTCAGCTGTATTTTCTCATAATATAGAGTCATAGGAAACCTGAGCCTTGGCATTTGTAAGGC
R
AAAAGACCCCTGGAAAAGAGTAATATAGTAATTCATCTTTATTTGAAAAGTATATCATCATCCATTTATTTCCCCACTGGCATAATCCAGGCCGACTTTG
Celera SNP ID:            hCV2851463
SNP Position Genomic:     1084251
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|G,6)   his(G,6)      total(G,12|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57730):
AAGTTAAACTGATGTCTGTGTGTCTTCATGTCATTAAACTTTGAATCTACGGACATGTCTTTTTCTTTCTGGCATAGTTTGGAGGTCTTCATTTTGTGAT
W
GAATACAAAACACCGAGGGCTTTAAGGAGGCATAGTGGTATGTTCAGCTGTATTTTCTCATAATATAGAGTCATAGGAAACCTGAGCCTTGGCATTTGTA
Celera SNP ID:            hCV2851464
SNP Position Genomic:     1084146
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|T,5)   his(T,5)      total(A,1|T,10) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57731):
TGAGAAAGTTAAACTGATGTCTGTGTGTCTTCATGTCATTAAACTTTGAATCTACGGACATGTCTTTTTCTTTCTGGCATAGTTTGGAGGTCTTCATTTT
R
TGATTGAATACAAAACACCGAGGGCTTTAAGGAGGCATAGTGGTATGTTCAGCTGTATTTTCTCATAATATAGAGTCATAGGAAACCTGAGCCTTGGCAT
Celera SNP ID:            hCV2851465
SNP Position Genomic:     1084141
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,5)   his(G,5)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57732):
CCCCCAAAGGGGGATTTCTAACACAGAAAGCAACATAAGTGGGTAGTCCTGGCCAATGGCAGCTACGTTCCACAAAGTGACTCAGGGATCCAGGCTGCAG
M
CACTTAGTGGTTCCATTCTCCCTGCTGATATCTGCATCCAGTCATCTGGTATTTCTTACCAGCCTTAACCTCATTCTATTGGTAAGCACTAGTCACATGG
Celera SNP ID:            hCV2851466
SNP Position Genomic:     1083730
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5|C,2)      total(A,5|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57733):
TGTTTGCACACCTGTGTTGCAAATGTATTAGTTAGGATAGGCTGAGCTACAGTAAGAAATAGCCCCCAAAATGCATTATAGCTGAAACCCCCAAAGGGGG
R
TTTCTAACACAGAAAGCAACATAAGTGGGTAGTCCTGGCCAATGGCAGCTACGTTCCACAAAGTGACTCAGGGATCCAGGCTGCAGCCACTTAGTGGTTC
Celera SNP ID:            hCV2851467
SNP Position Genomic:     1083643
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57734):
TTCCTTAGCTTCATGCCTTTGAATTTTAGCAGAAATGTTACCTGCTCTATGAAACTGGATTTTCCCTTTGTCTCCATTCCCTAAGCTGCACATTAGAGCA
S
CTGTTACAGTTTGAAGTGACCCCTATATGGATTGTTTGCACACCTGTGTTGCAAATGTATTAGTTAGGATAGGCTGAGCTACAGTAAGAAATAGCCCCCA
Celera SNP ID:            hCV2851468
SNP Position Genomic:     1083510
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57735):
CCCATGGGAGCTCCAACTCTGTTTGGTCCCAATGTGCCCTTTTTGTCTCACTCCTTCCTCCCACACATCCTGCTCCCCACTCCCCTAATTACTCATGATT
S
CACTAACAGCCACATCCTTTCACACCTCTGAGCTTTTGGTCATGCTGTAATCTCTACCTGAGTTCCATTCCTGCCTCCACCCTTGCCTGTCAAATTCCTT
Celera SNP ID:            hCV2851469
SNP Position Genomic:     1083315
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|G,4)   his(G,4)      total(G,8|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57736):
TAAATATTTTAATGTTTGTCGTTTGTTTGCAACCTTGTAATTTTTTCCTGTGCAGCAATTTTAACTTTCTATATTCAAATATACTCTGAATGCACAGTGA
R
TTTGGCAGAATACCATTTAAGTCTTGTATTTTCCAAAGCTAGTCAACGTCCAACTGCCAATGTTGCCTGAACAGGAAATATTTATACCTGAAAGCGTCCA
Celera SNP ID:            hCV15779482
SNP Position Genomic:     1043525
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57737):
GTTTGGGGCATGTTGTCACCTCATTGCCATCTCTGCCTCTGTCTTCTCACCACCATCTTCCTTGTCCATGTCTCTCTATGTCTTCAATGTTCTTCTTATA
R
GGACACCAGTCCTTGGATTTAGAGTCCACCCTAATTCACTGTAATCACATCTTACCTAAGTCCATCTGCAAAGACCCTATTTCCAAATAAGGTCACATTC
Celera SNP ID:            hCV15779483
SNP Position Genomic:     913103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57738):
TTATCTTTGGGACTGCTATAATGAGATCCACTTAGATCTAGCTATAATGGAATTTTGTTTAGTGGTTCTCTGATTTAAACATGACTTTTATCCTTTTCAG
M
TATCGTTTCATTAACATCACTACCTCTTTTTAAATCCTAATGTTGTCATGGAAGCCTGTGTAGGGGCTGACCTTGAAGTCTCTGAAAGCTGAACACTCAG
Celera SNP ID:            hCV2813500
SNP Position Genomic:     21637
SNP Source:               Applera
Population(Allele,Count): afr(A,12|C,10)   cau(A,25|C,3)   total(A,37|C,13)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,2)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57739):
GGCAGCACCACTGCCATGGAAATTCTCCAGGGCCGGGATTTCACTGGCAAAGTGGTTGTGGTCACTGGAGCTAATTCAGGAATAGGTAGGCTCTTCACTT
M
GTTATTTATCTTTGGGACTGCTATAATGAGATCCACTTAGATCTAGCTATAATGGAATTTTGTTTAGTGGTTCTCTGATTTAAACATGACTTTTATCCTT
Celera SNP ID:            hCV2813501
SNP Position Genomic:     21531
SNP Source:               Applera
Population(Allele,Count): afr(A,30)   cau(A,30|C,6)   total(A,60|C,6)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): afr(A,24|C,2)   cau(A,26|C,6)   total(A,50|C,8)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57740):
TCAGTGGGCCCCAGTTCTTTCAGGTTTAAGGAATAAGCATTTTGGTCTATGAAAAATGGGGTTTTCCTAAAGTATAAGATTGTCTTATATTTATAAATGC
Y
TGTGTTCATTGCTGTGGGTTCACTGCTTTCTCTTTTGGGCAGCCATATAAATAAAAGAACCACCTACTTGGACCCAAGACTGGCGTTTACTGTGGATGAT
Celera SNP ID:            hCV2813502
SNP Position Genomic:     21294
SNP Source:               Applera
Population(Allele,Count): afr(C,30)   cau(C,23|T,3)   total(C,53|T,3)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57741):
GCATTAATATCACCTGGGAATTCAATAAAAATGTACATTCCCAGGCCCCCACCCCAGACCTACTGAATCAGCACTGGGGTGGGGCTTGCAATCTGCGCTC
K
AATAGTCATCCAGGGGATCCTGATGTTCCCTAGCTTGAGAGCCTCCCGTCTAGAGCAGGGGCTGTCTCCTTTGCCTGTAAAGGGCTAGATAATATGTTTT
Celera SNP ID:            hCV2813503
SNP Position Genomic:     19611
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,3)   his(T,3)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57742):
TGTAGTTCCCGCAAATCTATTTACGGTTTTCACAAGGAGGTCACGAACATGCGTTGTTTTCAATGCTGGGCTAGTTTCAGACTTCTGGCTTGTTGTGGGA
Y
GGAGGAGAAAGAAGACAGGGCATTTTGATGTGGCCCAGAGACCAAATGAAACAAACGATCCTCTGATTGCTCAGATGTCCTCTTTGACTTGGAAAGCACC
Celera SNP ID:            hCV16291083
SNP Position Genomic:     398175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57743):
ACTAAACGATTTGTTCAGATTGGGGAAAAAAATTTTTTTTTTTTTTTTGGTTGTGGTGGCGTTGGCTTTTACTTGGGGTTGACCTTTCCTTATCAAGGAC
R
TACAAGGTGAATAGCTGGGTGATAATATATGGTCCCATGATCATCAACCAAGCACCAACGGAAGCCTTTTGGAAGTGCACAGTATTGTTTAACACACAAA
Celera SNP ID:            hCV16291084
SNP Position Genomic:     397813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57744):
AAAAAATATGAGAAGGTTCCTGCCCTTAAGAGGTTTAGGATCCAGCTGAAGAATCAACATGTGCACATGAAAAAAAATGGCCGTGCCCTCTAATGTCATA
K
GAGGTCAGCGTATGAATGACGTTGGGTGCCTGCCCTGCATATACATATGTTCTTTGAGCTCATTCAAGGGAGAATTCCCATGGATTGGCACAACCAGTAT
Celera SNP ID:            hCV2813507
SNP Position Genomic:     15785
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,2)   cau(G,2|T,5)   his(T,5)      total(G,4|T,10) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57745):
TTGAACCCGGGAGGTGGAGGTTGCAGCGAGTCAAGGTCACGCCAGTGTACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAA
R
AAAAAGAAAAAGAAAAAGGTGTTTGGAAGCCATGTCCCATGAATTCCAAATACAATTGAGGACTCTATAAAGGACTATAAAAAAAGTTGTAATAAATTAT
Celera SNP ID:            hCV11668237
SNP Position Genomic:     559864
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,2)   his(G,2)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57746):
GCCCCTGAGACCAGTGCTAGGATTATTTCCATTTTGCAGATGAGGGGATGGAGATTAAGGAGTGGGGTCACTTGACCAAAGGTGCACAGCGCACAGCTAG
R
TGCCCTATGGGAAGGTCTTACTGCATCTCTTAACTACCTCTTGGGACCAGTTAGGAACCAGTGCTTAATGAAACACTTTGAAGTTACATCTGTGGAAAGA
Celera SNP ID:            hCV2813508
SNP Position Genomic:     13937
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   his(A,3)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57747):
CATTCTTCTTAAAATACGGAGCGACATAATTAACCCTCTGGGGAGACTAATATTAGTTTATTAGAGACAATTTCTAGTTCTGTTTATTTTTAACACTAAA
Y
GATTTGTTCAGATTGGGGAAAAAAATTTTTTTTTTTTTTTTGGTTGTGGTGGCGTTGGCTTTTACTTGGGGTTGACCTTTCCTTATCAAGGACATACAAG
Celera SNP ID:            hCV16291085
SNP Position Genomic:     397719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57748):
ACTTGAACCCGGGAGGTGGAGGTTGCAGCGAGTCAAGGTCACGCCAGTGTACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAA
R
AGAAAAAGAAAAAGAAAAAGGTGTTTGGAAGCCATGTCCCATGAATTCCAAATACAATTGAGGACTCTATAAAGGACTATAAAAAAAGTTGTAATAAATT
Celera SNP ID:            hCV11668238
SNP Position Genomic:     559862
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57749):
TATTGACCTATGTTTTTAATTATAACTTTGGGTGGTGGTCTGAAATGAAATGTTAAGTTTGACGCAAAAATAGGACTAGTTTGTGTAACTGATTTGTTCA
R
AATAACAGCTTACATTTCTCAGAGCTTTTTGTATGCCAAGTGCTATGCGAAACCCTGGATGTACAATATTCTTATAGTAGCCCCTGAGACCAGTGCTAGG
Celera SNP ID:            hCV2813509
SNP Position Genomic:     13757
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57750):
TGCTTTAAACTTGTAAAAATCAGAGTTATAGCTGCTTTTGAACTAGTACTTGTTGTGTGCCCAGGAAATGGCCAAATGTTATCACTCATCCTTCCAAGAA
M
CACATGAAGGTTATATTATTATGTCGACTTTCCAGATGAGGAGACTGAGGCTCAGTGGCTTGTCATAGGTGTCAAAGACAGGAGTCCAGTGTAAGGACTT
Celera SNP ID:            hCV11667291
SNP Position Genomic:     1108495
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|C,4)   his(C,4)      total(A,2|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57751):
TTATTTCTTTTCAATACTCTGAATATCACTGGAGCAGCTGCAGATTCAGGGCAGTATGGGGTGGTTCAGGAACAGAACTGACAGGTATTGAAGCCAAAAA
Y
TGAACAATAACAACGTAGGAGGGAGAATCCAAAGATAGTATGTGTTCAGGATACGGGCACTCGTGTGGGTGAACACACACACACACACACACACACGCTT
Celera SNP ID:            hCV1592070
SNP Position Genomic:     471027
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,4)   his(T,4)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57752):
TTGACAATACTTTCCTTTCAGTCTATTTTCCTGTGTATGGGGTAAGTGTTGCCCTTCTGCAACTTTCCTTTTATTTTATTTATTTATTTCTTTTCAATAC
K
CTGAATATCACTGGAGCAGCTGCAGATTCAGGGCAGTATGGGGTGGTTCAGGAACAGAACTGACAGGTATTGAAGCCAAAAATTGAACAATAACAACGTA
Celera SNP ID:            hCV1592071
SNP Position Genomic:     470944
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,4)   his(T,4)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57753):
CATTTGCAAAACACTTTGACAATACTTTCCTTTCAGTCTATTTTCCTGTGTATGGGGTAAGTGTTGCCCTTCTGCAACTTTCCTTTTATTTTATTTATTT
M
TTTCTTTTCAATACTCTGAATATCACTGGAGCAGCTGCAGATTCAGGGCAGTATGGGGTGGTTCAGGAACAGAACTGACAGGTATTGAAGCCAAAAATTG
Celera SNP ID:            hCV1592072
SNP Position Genomic:     470929
SNP Source:               Celera
Population(Allele,Count): cau(A,4|C,1)   his(A,4)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57754):
TTTATATTGCTGAAAATGTCATTTGCAAAACACTTTGACAATACTTTCCTTTCAGTCTATTTTCCTGTGTATGGGGTAAGTGTTGCCCTTCTGCAACTTT
M
CTTTTATTTTATTTATTTATTTCTTTTCAATACTCTGAATATCACTGGAGCAGCTGCAGATTCAGGGCAGTATGGGGTGGTTCAGGAACAGAACTGACAG
Celera SNP ID:            hCV1592073
SNP Position Genomic:     470910
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,2)   his(C,2)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57755):
TTGGAGAGGCCTGTTTCCATACATAGCTCTTTGTCAGTTGCTCACACTCGGTCAATACTTGCCTTCCTTTGAGGCCATCTGCACTCACTGACAATCTGAT
Y
GCTCCCCTGAATGGAGGTGAAAGCATGCAAGCTAGGAGTTAAGATCTTTAACTCAGGGAAGACCCTGTCTATGGAAGTGCTGAGCTCTTCAGTGTCATCA
Celera SNP ID:            hCV1592075
SNP Position Genomic:     470319
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,2)   cau(T,1)   his(C,2)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57756):
TTATATGCCTGTTCCATATGAGAACATTATGCATATGGTGTGATTTGGTCATTCCGGATGGCTAAAGTGTGAGCATACCCGTATCTCAGATTTACAGAGG
W
GAAAACAGAGGCTCAGACTGGTTATGTATATTTCTCTAAGTCCCCCAGCTATTGTTTGTTGTAGGTTGGGTACCCCAGGAAGTAGATTCTGCAACTGAGA
Celera SNP ID:            hCV11667297
SNP Position Genomic:     1102561
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   his(T,2)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57757):
TCTCTGGAAATCTCTAGCTTCTCAAACTGTTTCGTGGTGGAGTGCCTTTTGGGCACAGGAGAAGGAAATAAGAGCCTCGCGAGGTTTGGGAATGCTGCCT
S
TAGCTCTCACACTGCATGCAGAATTCCTACTCTGAGAGCTCACTTTATCTCAAAAACCCATGCATATTCTGCATCTACTCTGAATTCCGCAGTGTTGTGT
Celera SNP ID:            hCV1592076
SNP Position Genomic:     469864
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(C,6|G,2)   total(G,2|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57758):
ATTATATGCCTGTTCCATATGAGAACATTATGCATATGGTGTGATTTGGTCATTCCGGATGGCTAAAGTGTGAGCATACCCGTATCTCAGATTTACAGAG
R
AGAAAACAGAGGCTCAGACTGGTTATGTATATTTCTCTAAGTCCCCCAGCTATTGTTTGTTGTAGGTTGGGTACCCCAGGAAGTAGATTCTGCAACTGAG
Celera SNP ID:            hCV11667298
SNP Position Genomic:     1102560
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   his(A,2)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57759):
TCTGACTTTCCTTGACTTTGATGTCTAGGTCTGGATTTCAAGGGCTCAGAAACTCTCTCATGCATGTAGTTCCCTCCTGCTTTGAATCTCTCTGACTTTC
M
TTGATTTTGATGTCTAGGTCTGGATTTCAAGGGCTCACGTGATGAGGATAGTTTCTTTATCTTAAGGGCAACTGATGTGGAGTCTTAATTAACACTGGCA
Celera SNP ID:            hCV1592077
SNP Position Genomic:     468972
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57760):
CCAAGCTCATTCAGGATGCTGGCAGGATTCAGATCCTTGAAGTTGTAAGACTAGGGCCCCTGTTTCCTACTGACTTCTGCTGGTGGCTGCCCTCAGCTCC
S
AGAGGCAACCCACATTCCTTGACTTTTGGCCCCCTGCATCTCAAAGCCAGCAACAGAAACTCTCTTGTGCATGGAGTCCCCTCCTGCTTTGAATCTCTCT
Celera SNP ID:            hCV1592078
SNP Position Genomic:     468774
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57761):
TCCCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATCACGCCATTATACTCCAGTCTAGGCAACAAGAGTGAAACTCTGTCTCAAAAAAATTAAT
R
ATAATAATGTTACAATAATAATAATGTTAGTGATACATATCATTTTGAAACCAGTTCTTAAGCAATTAAAAAAAAGCAGCTATGGTGATTGAGTTTTTGT
Celera SNP ID:            hCV1592079
SNP Position Genomic:     468266
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5|G,2)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57762):
AAGTGCTGGGATTACAGGCATGAGCCACCATGCCCGGCCCCCTTTTTTAAAAAACAAAAAAACAAAAAACTCTTTTGTGTTTTAGAAATGGGGTCTCACT
M
TGTTCTTCAGGCTAGTCTTGAACTCATGGCCTCCAGTGATCCTCCCGCCTCAGCCTCCTGAGTCACTGGAATTTCAGGCATGAGCCACTGTGCCTGGCCT
Celera SNP ID:            hCV15894444
SNP Position Genomic:     919282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57763):
GATCCTTTCAGAGTTACTCATACGACTTACACATTCCCATGGGAGCTCCAACTCTGTTTGGTCCCAATGTGCCCTTTTTGTCTCACTCCTTCCTCCCACA
Y
ATCCTGCTCCCCACTCCCCTAATTACTCATGATTGCACTAACAGCCACATCCTTTCACACCTCTGAGCTTTTGGTCATGCTGTAATCTCTACCTGAGTTC
Celera SNP ID:            hCV2851470
SNP Position Genomic:     1083280
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,4)   his(T,4)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57764):
AAATTGCTGAAGTGCTTCTCAGTGATGAAATGTTACAGATCAGTTTGAAATCCAACTTTATTCAACATAAGAAAGCCTATATACTCTGGAGCTTAAAGAC
W
GACCTTTTCACTTACTGTAAGGTATCTAAGACTTCTGGGTGTGGGTTTTAAATATATTTTGGATGAGCTTTGTTCATGTTTACACATGGCCACCAGGTCG
Celera SNP ID:            hCV2851471
SNP Position Genomic:     1082770
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,3)   cau(A,3|T,2)   his(A,3)      total(A,9|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57765):
TAAAAGTTGAACAACTCTGCCTTAATGGCGCTAATTTTTAATATGCCTCATTCTAGTTGCTTGAATTGAACGAAGGCATTTGAAAATTGCTGAAGTGCTT
S
TCAGTGATGAAATGTTACAGATCAGTTTGAAATCCAACTTTATTCAACATAAGAAAGCCTATATACTCTGGAGCTTAAAGACTGACCTTTTCACTTACTG
Celera SNP ID:            hCV2851472
SNP Position Genomic:     1082687
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(C,2)   cau(C,2|G,2)   his(G,2)      total(G,4|C,4) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57766):
ATCCCAGCTCTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGATTAGCTTGACCAACATAGTGAAACCCCGTCTCTACTAAAAATA
M
AAAAATTAGCCAGGCGTGGTGGCGCATGCCTATAATCCCAGCTACTCTGGGCCTGAGGCAGGAAAATCACTTGAACCTGGGAGACAGAGGTTTCAGTGAG
Celera SNP ID:            hCV2851473
SNP Position Genomic:     1081939
SNP Source:               Celera
Population(Allele,Count): cau(A,5|C,3)   his(A,5)   total(A,10|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57767):
CTTCAAGATTAAGAAGGGACTAGCCGGGTGTGGTGGCTCACGCCTGTAATCCCAGCTCTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTT
Y
GAGATTAGCTTGACCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGCATGCCTATAATCCCAGCTACTCTGGGC
Celera SNP ID:            hCV2851474
SNP Position Genomic:     1081891
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,5)   his(T,5)   total(C,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57768):
GTCATATGCTGTGTCAGGCACTTTATATCCCTCATCCAGGAGGATGCAAAAACCTGGTGTTTTTCTTTTTTTTTTTTTTGCATTTTCCAGACGAGCCAAG
R
GATGGCTCAGAAGGGTGAAGGAACTCACCCGAATTGCACAGCTGGTGAGCTCAGAGTCAGGCTCCTTGCTTGGTCCATCTGGCTTCCAAACTCCAAGTCT
Celera SNP ID:            hCV25933156
SNP Position Genomic:     74830
SNP Source:               Applera
Population(Allele,Count): afr(A,1|G,37)   cau(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:57769):
CTTATTACCTGGTGACACGTGTTTCTAGTTATTGACCTATGTTTTTAATTATAACTTTGGGTGGTGGTCTGAAATGAAATGTTAAGTTTGACGCAAAAAT
M
GGACTAGTTTGTGTAACTGATTTGTTCAGAATAACAGCTTACATTTCTCAGAGCTTTTTGTATGCCAAGTGCTATGCGAAACCCTGGATGTACAATATTC
Celera SNP ID:            hCV2813510
SNP Position Genomic:     13728
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,1)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57770):
TTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCACGCCAGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTG
K
TCAGGCTGGTCGCGAACTCCTGACCTCAGGTAATCCGCCTGCCTTGCCCTCCTGAAGTACTGGGATTACAGACATGAGCCACCGCGCCCGGCCACAGAGC
Celera SNP ID:            hCV2813511
SNP Position Genomic:     12983
SNP Source:               Celera
Population(Allele,Count): cau(G,4|T,5)   total(G,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57771):
GTGAAGTCTAGATCTCCCTGCTAACTTACACTGTGCTCAAAACACACACACACACACACACACACACACACACACACACACACACACTGGCTGTCCTCAC
Y
GTCAACTCTAGATCTCCCTGCTAACTTACACTGTGCTCAAAAAACACACGCACGCACGCACGCATGCACGCACATACACACACACACACACACCCATAGG
Celera SNP ID:            hCV2813517
SNP Position Genomic:     10646
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(C,2)   his(T,2)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57772):
AATTATGTAGTGTCTACAGAGCCAGTGGTTTATTTTGCATTGTTTATGTCAGCATTAAGCAGTATTCTTACACAGTTTGTAAGTCTTAAAACTCAGTATC
K
ACTCTAGTAGTTGCTCCAAATGTGATGTCCTCATAAATCACCGAGGGATCTTGTTAAATTTGGATTCTGATTCAGTAGGTCTAGGTGGGGCCCGAGCTTC
Celera SNP ID:            hCV8444239
SNP Position Genomic:     748011
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(G,4|T,6)   afr(T,6)   total(G,8|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57773):
CCTTGTTTGCCCTTCCCCGTGCCTCTTATGAAGCTCAGGCCTTTTGGCAGTCAGAGGCCTCAATGGTGCCTGTGTCCACAGGGCTGGCTGTCCTCACCGT
S
AAGTCTAGATCTCCCTGCTAACTTACACTGTGCTCAAAACACACACACACACACACACACACACACACACACACACACACACACTGGCTGTCCTCACTGT
Celera SNP ID:            hCV2813519
SNP Position Genomic:     10548
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(C,3|G,3)   his(G,3)   total(G,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57774):
GGATCACCTGAGGTCAGGAGTTCAAAACCAGCCTGGCCAACATGGTGAAACCCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGCGGTGCATG
M
CTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCCCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATCACGCCATTATACTCCAGTCT
Celera SNP ID:            hCV1592080
SNP Position Genomic:     468127
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57775):
CGTGTGAATGTATTGCAGAAATGGACAGGACAATTCTCAGCCCATTCATCTTACAGACCTCAAGTGAACAGGCACAAAACAACAGGCTCCACCCTCCTTC
Y
CCCCTCTATCTCATACTTTACCTCAATTTATGACTTGGCTTACAATCCGTTGCAGAAAGCCTAGCTCCCCAGCTTCTCCTGAATCTACGTTTTTCTATTT
Celera SNP ID:            hCV1592081
SNP Position Genomic:     467469
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,4|T,4)   his(C,4)      total(C,8|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57776):
TGGGTACCTTGCATCCTCCTTTGTTCCCATACTAACCCCTACAACCATGGTCATTTTGTGGTTATCTGTTTAATTCTCTGCTGGCTATTCCAGGCTGTCA
S
CTCCCTGACTACAAGGACTTTGTTGCTCACAATCATATCCACGGCATCCACACAAGATCTGGCCGCTACGTGGAAGGACACATAGTTCCGTCTGGCTTGG
Celera SNP ID:            hCV1592082
SNP Position Genomic:     466588
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,4|G,3)   afr(C,4)   his(C,4)      total(G,3|C,12) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57777):
GTGTTTCACCAGGTTGGCCAGGCTGCTCTCGAACTCCTGACCTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCAGAGCAGGAATTTCATTGGATTT
S
TACACTGCTGCTTTTTCAGAGCCTGGAACAGTGCCAAGCACATAGTCGGCCCTCAGTGAGCATTTGTTGACTAACTTAGGTCACAGATGTGGGGCTGTGA
Celera SNP ID:            hCV1592083
SNP Position Genomic:     465596
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,3)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57778):
TTTGAGACAGGAGTCTCACTCTGTTGTCCAAGCTGGAGTGCAGTGGCGCGATGTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAACAATTCTCCTAC
S
TCAGCCTCCTGAGTAGCTGGGATTATAGTCACCTACCACCATACCCAGCTAATTTTTGTATTTTTTAGTAGAAACAGTGTTTCACCAGGTTGGCCAGGCT
Celera SNP ID:            hCV1592084
SNP Position Genomic:     465419
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57779):
TGATTGTGAGAAGTCCACATTGCTCCATTTGGACTTCCTTTTTGTAGTGGGCTATTAGATTTTGCCTCTGCTTGTTTCTGAATACCCAAGCTTGCTAACA
M
AGGGAAAGACCAATTATCATGATTATTATTATTTACCTTAAGACCTGATTCTACCTATCTATGATCACATAGACATTTGGAAGCAAAGAGAAATGCTTTT
Celera SNP ID:            hCV1592086
SNP Position Genomic:     464814
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,4)   afr(C,4)   his(C,4)   total(A,2|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57780):
CAGCCTCCCAAAGTGCAGGGATTAAGGCGTGAGCCACCGAGCCCAGCCGGCAAACTTACTTTAAAACACATTGCAATAAAATAAAAAGAAAAGGGATTGT
S
CTAAGTGAGAAGCAGAGATGAAAATGTGGAAGGATGATTGTGAGAAGTCCACATTGCTCCATTTGGACTTCCTTTTTGTAGTGGGCTATTAGATTTTGCC
Celera SNP ID:            hCV1592087
SNP Position Genomic:     464679
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,2)   afr(C,5)   his(C,5)   total(G,2|C,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57781):
GCACGATCTGGCTTACGATGATTTCTAACATCTCACCATCTTTACTTCTGTATATAAATATATGATAAGTATACCTTTATATATGTGACATGTATCTTTA
Y
ATATGATATGTATGGTTACATATCTACTCACTCACACATCCACACACACACACACACACACACACACACACACACACCTTTTTTGGAACCATTGAAAAGT
Celera SNP ID:            hCV15894451
SNP Position Genomic:     918520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57782):
AGGCTGGTCTTGAACTCTTGACCTCAGGTGATTCACCCACCTCAGCCTCCCAAAGTGCAGGGATTAAGGCGTGAGCCACCGAGCCCAGCCGGCAAACTTA
Y
TTTAAAACACATTGCAATAAAATAAAAAGAAAAGGGATTGTCCTAAGTGAGAAGCAGAGATGAAAATGTGGAAGGATGATTGTGAGAAGTCCACATTGCT
Celera SNP ID:            hCV1592088
SNP Position Genomic:     464637
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,3)   afr(T,3)   his(C,3)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57783):
GAGAAGACAGTGGATTGTTTCTCTGGGTGGTCAAGGAAGGCTTCCAGGCAGAGGAGGTTTGGCCATGGGTACCAAGGGGTAGAGATGGGAACCTTCCAGG
K
ACATGGACCCGATGCTGCCAGCAGAGGGGAAACCATGGCCCTAAGGGCAGAGCACACTGGGGCGGGGGTGGGGGTTCAGTGACAGTCTGGTGGCCTGTGT
Celera SNP ID:            hCV15894452
SNP Position Genomic:     918177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57784):
CTACCCCCGCCCCCGGGTTCAAGCAATTGTCGCACCTCAGCCTCCCAAGTAACTGGGATTACAGGTGCCCACCACCAAGCCCGGCTAATTTTTCTATTTT
M
AATAGAGATGAGGTTTTGCCATATTGGTCAGGCTGGTCTTGAACTCTTGACCTCAGGTGATTCACCCACCTCAGCCTCCCAAAGTGCAGGGATTAAGGCG
Celera SNP ID:            hCV1592089
SNP Position Genomic:     464507
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,3)   his(C,3)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57785):
TCAGGCTCTCAGGCCCTATCCACAGATGACCTCACAACATGACTGTTGGCTTCTTCAAGACTGAAGGAGGCTCCCCCATGCTCTGAGTCACTCTCTTCAG
Y
GAGGGCCCAGCCCCTTTTAAGGGCCTAGCGATTAGATCAGTCCCACTTAGGATTGAATCCCTTTTGATTAATGCAAAACCAACTGCGTTCAGGCCTCCAT
Celera SNP ID:            hCV15894453
SNP Position Genomic:     915726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57786):
CAATAAAAATAAAAAGCTGTGTGGGAAGTCAGAACTTGGTTGCTTCATGTCATATTTCCTATTTTTAAGATTTACAGATATTAACGACTCCTTGGGAAAA
S
TGGACTTCAGTCGCCTCTCTCCAACAAAAAACGACTATTGGGCGATGCTGGCTTATAACAGGTCCAAGCTCTGCAACATCCTCTTCTCCAACGAGCTGCA
Celera SNP ID:            hCV25761700
SNP Position Genomic:     340132
SNP Source:               Applera
Population(Allele,Count): afr(C,36|G,2)   cau(C,38)   total(C,74|G,2)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:57787):
CTGACCCAGTGCTAGGCACGTGAGAGTGAGAGGGATGGAATGCTTGCAGGAGTTGCCTTGGATATCACACACTGACTTGGGAGACACACATAGCGACAGA
W
AATTACAACATAGGGACACCCGGGGAAAATGTAGACGAGGTTTAGGGGTTGCTCAGAGGAGGAATTAACTCTATAAGGAAGTATTCTGATAATGGCTTTC
Celera SNP ID:            hCV2851480
SNP Position Genomic:     1078633
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(A,4|T,3)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57788):
TCAACTTGCACTCTTTCCTGCATACAGCTTGTTTCTCTAATGTGGCTGTTCTCATGTTTACTTAATGGCCCAGCCATCTCCTCCTCCTCCTCCTCCTCCT
Y
CTCCTGCTTTCTATTCTCCTTCCTCATCATTGTCCTCTTCTGCGAGTTCAGAAAATTGGGTTACAATACCTACAACGTGCAGTGAGGACACTCTTTTATC
Celera SNP ID:            hCV15788606
SNP Position Genomic:     740862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|CCT,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57789):
TTCTTCATCAACTTTGGCCAAACCTTCGTGGATTCCTGTGTGCTGATTATTAGTGCCTTGCCTACAAATTTTTAATACATTGACTTATCTAAATATTCCT
S
CATGCACACTCCCCAATCTAAGAAAAATGTGAGATGTTGGGAAATGTTTCCAAGAATAGACCAAAGGATTAGTCAGCCTAGAGAAGTGAACTTTAAGAGG
Celera SNP ID:            hCV2851481
SNP Position Genomic:     1078403
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,6)   afr(G,6)   total(G,12|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57790):
GTCTGACTCCAGAAGCACTTTCCTCTTTTGCCTCCTAATACATTTTCTTATAGGGAGCATCCTGCAATACAACTGTTAAGACCACTTAATGTTATCTTTG
R
ATTAAAAATGGTACCACTCTCATAAATCAATGAGTTTCATACCCTAAATTATGCCAGATTAAGAAAATGAAATCTGACTGTAAATTACTTCTCTAGGAGC
Celera SNP ID:            hCV2851483
SNP Position Genomic:     1077916
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   afr(A,1|G,7)   his(G,7)   total(G,21|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57791):
AAAAGTTGCTATCATGTCCTTCAATAACCCAGTCTAACCATGTTTTTCCAGTGGAAATGATTCCCGGTAGAATGTCCTATGTTCCTTTTGCACATTTCTC
M
TTACAAACATCATCTCATTTAATCCTCACCACAAAACTGATAGTGTCATCTCCAATTTATAGTTGAGGAAATAGAGGATCAGAGAAGCTACGTGATCTAT
Celera SNP ID:            hCV2851484
SNP Position Genomic:     1077669
SNP Source:               Celera
Population(Allele,Count): chn(C,7)   cau(C,7)   afr(C,7)   his(A,1|C,7)   total(A,1|C,28) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57792):
TCCAGGTACTTTCACCTCTAGGCTCTTACCTGGCTTTTGTGAAGCCCCTCAGGGAAGAGGAGGAAAGCTGGGCAAGGGGGAGGGGTAAACCAAGTCCCAG
S
AAAGTCATTCCAGTTTCCCAAGATCCCGGAGCTTGTTTGTATCCAGCTGAGATCCAGTTGAGACCAGAATTCACTCTCTCCACACCTCCATCAGCTGTGG
Celera SNP ID:            hCV2851485
SNP Position Genomic:     1076197
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,6)   afr(G,6)   his(C,5|G,6)   total(G,18|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57793):
GTATACAAGTTTCTGTGTGGACATGTTCTCACTTTTCTTGGGTATATACTTAGGGGTGGAATTGCTGGGTCATATGATCAGTCTAGGTTTAACTTTTTGA
Y
GAACTGACAAACTGCTATCCACAGTGGCTGCCTGTACCATTTTACAGAAAATCTCTGCTTTTAATACTTCTGGATGTGTTCTAAGGCACTAGGCTTTTCA
Celera SNP ID:            hCV2851486
SNP Position Genomic:     1075739
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   afr(T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57794):
AACTTCTGAGTGGTGAGTATAAGTGTGATTATTATATTATTCTTAGTATTTGGTTTTTTTCTGTAGTGTGTAGTTTCCCTCCATGACACTGAGGGCTCAG
R
TGGCTCTGACCTTGGAGACAGGGAGACATTTAGTGAAGGAATGGGAGGTAAGGAGCTGGCATCTCTGGTGTGTCCATCATGCACTGACCTGCACTAGATG
Celera SNP ID:            hCV2851487
SNP Position Genomic:     1074870
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,1)   afr(A,2)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57795):
TCCACCCACCTCGGCCTCCCAAAATGCTGGGATAACAGGCATGAACCACCATGCCCGGCCATCAGAAATATTTTATTTCACTATTTTAAAAAATTAGCAA
R
GAAGCAAATATGACAAAATGCTAACAATTCCAAAATGCTAATAACTTCTGAGTGGTGAGTATAAGTGTGATTATTATATTATTCTTAGTATTTGGTTTTT
Celera SNP ID:            hCV2851488
SNP Position Genomic:     1074727
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   afr(A,4)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57796):
GATTACAGGTGTGTGCTACCACGGCCGGCTAATTTTTTTGTATTTTATTAGAGACGGGGTTTTGCCATGTTGGCCAAGCTGATCTGGAACTCATGTGCTC
R
AGCAATCCACCCACCTCGGCCTCCCAAAATGCTGGGATAACAGGCATGAACCACCATGCCCGGCCATCAGAAATATTTTATTTCACTATTTTAAAAAATT
Celera SNP ID:            hCV2851489
SNP Position Genomic:     1074621
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,4)   afr(G,4)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57797):
TGACTCACTGTGTTGATGTTATGTTTTCTAACATTGACTTTCCTTTAAACCATAGGGTTCGAAACCGCCAAGTCTTTTGCCCTCCATGGTGCACATGTGA
Y
CTTGGCCTGCAGGAACATGGCAAGGGCGAGTGAAGCAGTGTCACGCATTTTAGAAGAATGGGTAAGCGCTTGACTGTTGTTGTTTTTTTTAATTGTCAAA
Celera SNP ID:            hCV15971168
SNP Position Genomic:     70585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:57798):
GACCTTGTGTCCGTCCCCGCTGGCCCTCAGTTCTCTGGATCAGGGTTGAAAGGCTGAAATTCTTTGGGTGTTAGCTTAGGATGCCTCTGATCCATCCTAA
S
CCGACATTCCCTTGATCTCTCCTGATCTGTGAGCATCCTGGCCCTTCTTTTCTTTTCAGTTTTAATTTTTGCGCTGGCTCCAACCCCTTTTCATTCCTGA
Celera SNP ID:            hCV2813520
SNP Position Genomic:     9921
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57799):
TTCAGTGGAGTGTGTAAAGTTTATTGCTCTTGGAATCATGTCTTTATTTTTAAAGTCATCTTCACTTTGTTTGTCTTATGAATGAAAGCATGAGCAAGTC
M
ATTATTATTCACGCATTTGTTTGTAGTTCATTGTCAGTGTCATCTGCTTTATTAGTCAGGGGTTTGAGAATGTTTCTTCCTTTAACTCATTTATTAAGAA
Celera SNP ID:            hCV15971169
SNP Position Genomic:     70815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57800):
GCGTCTCCTCCTTTGCCACTCAGCCCCAGAGGTGCTTCTGCTTCCCTGCAGGCTTGCCCTGGAGCCTGGCGCTAGGGCCCTGGGGCTCCCTTGCTCCTGC
K
TGCCCCCTGCGCCTGCCTTCCTGCTGCCTGGCCTTTCTCCCATCTGCTTTCTTCCTGAGTGGCCCCTGGCCAGGGGACTCGGGTGCATACATGGTTTCCA
Celera SNP ID:            hCV2813523
SNP Position Genomic:     9431
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57801):
GAAAGGCTCCTTCTCATCCTTCAGAGCTGAGCTTACATGTCACTGCCCAAGAGACCTTCTTAACTGTGGGTGTCCCCTCGACCTTGTACTAGTCACCTTG
Y
TTCTCTGCTTCTTCGTGCTTAGCCTTGGCTGTGTACTCCTCCTTGTTGGCCCTGTCTCCCTTGCCCAGGTTGCAGATGTCATGGGGCAGCTTGTTCATCT
Celera SNP ID:            hCV2813524
SNP Position Genomic:     9040
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4|T,4)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57802):
AGTCTAGGTAGAGGGAACAGTGAGAGGAGAGACCCCCTGCATGGCCTGTCCAGGGGCCTGTGATCTTTGTGAGGGTCCAGGAATGTGAAGGTTAAGGCAG
S
GAAGGGAGGACCCATTTCAAGGATTTCTGTGCCTTGCCGAGAAGCTTGGGCTCTGTTGGCAGAGCCAGAGAGTGGCATTCATTCAGCTTGTGAATTCTGG
Celera SNP ID:            hCV2813525
SNP Position Genomic:     8713
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(C,4|G,3)   total(G,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57803):
GGGTCAGTTCAGGCACTGTGCGTAAAGCACATAGCACCGTGTCTAGTAGGTACTCTCTGTTCCTTAACTGTCGTTCCTTGATTGCTCTTAAGATACGACA
R
TGCCTCTTATATCGGCACCTTAGAATCACCTAGGAAATGTCCTAAATACACGTTTTGGGTCTCCATAGAGAACCTACTGTAGCCGACTCTCAACTTTGGG
Celera SNP ID:            hCV2813527
SNP Position Genomic:     7155
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57804):
AAAATGGGTTGATATGAGGGTCAGTTCAGGCACTGTGCGTAAAGCACATAGCACCGTGTCTAGTAGGTACTCTCTGTTCCTTAACTGTCGTTCCTTGATT
R
CTCTTAAGATACGACAGTGCCTCTTATATCGGCACCTTAGAATCACCTAGGAAATGTCCTAAATACACGTTTTGGGTCTCCATAGAGAACCTACTGTAGC
Celera SNP ID:            hCV2813528
SNP Position Genomic:     7138
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57805):
TTTTCACCTGTAAAATGGGTTGATATGAGGGTCAGTTCAGGCACTGTGCGTAAAGCACATAGCACCGTGTCTAGTAGGTACTCTCTGTTCCTTAACTGTC
K
TTCCTTGATTGCTCTTAAGATACGACAGTGCCTCTTATATCGGCACCTTAGAATCACCTAGGAAATGTCCTAAATACACGTTTTGGGTCTCCATAGAGAA
Celera SNP ID:            hCV2813529
SNP Position Genomic:     7127
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57806):
CTGCAAACTACCCCCGCCCCCGGGTTCAAGCAATTGTCGCACCTCAGCCTCCCAAGTAACTGGGATTACAGGTGCCCACCACCAAGCCCGGCTAATTTTT
S
TATTTTCAATAGAGATGAGGTTTTGCCATATTGGTCAGGCTGGTCTTGAACTCTTGACCTCAGGTGATTCACCCACCTCAGCCTCCCAAAGTGCAGGGAT
Celera SNP ID:            hCV1592090
SNP Position Genomic:     464500
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,2)   his(C,3)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57807):
TATTTTTCGAGATGGACTTTCGCTTTTTTGCCCAGCCTGGAGTGAAGTGGCATGATCTCGGCTCACTGCAAACTACCCCCGCCCCCGGGTTCAAGCAATT
S
TCGCACCTCAGCCTCCCAAGTAACTGGGATTACAGGTGCCCACCACCAAGCCCGGCTAATTTTTCTATTTTCAATAGAGATGAGGTTTTGCCATATTGGT
Celera SNP ID:            hCV1592091
SNP Position Genomic:     464435
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|G,2)   his(G,2)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57808):
CCTGGTGGCAGTATTGGTGGTCACAGCTGGCAAAGGGAAGTGTGGCTGCCCGGAGAGCTTGGCTGAGGTTGGAACGTGGGAGTTTAAGAGAGCAAACTCC
M
ACAGCTTGGTGCAGAGAGAAAAGTGTAGAAAGGTCGGGTGTCATACAGCAGAGGGCTGTGATGCTCTACTGAGGAGTGGAAGTGTTTTTCTGAGGGCATC
Celera SNP ID:            hCV1592092
SNP Position Genomic:     461515
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,6)   afr(C,6)   his(C,6)   total(A,1|C,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57809):
CAGGTTTTAGGCAATAATAAGTGAGCAGTATGGCGCCCTAATAGAAGGAGGGATGCCTGTGGCCAATATACACGGCTCAAAGTTGACCATGATAGAGAAG
Y
TTTCCCTAGAAGGTCTGTGAGGGAGGAGGCCTGGGAGAGACAGCAGGGTGACCAGAGTAAGTGAAGTCACCGAGGTGCCAATGAGTGTGGCCCTGCAGGT
Celera SNP ID:            hCV1592093
SNP Position Genomic:     461302
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,3)   afr(C,3)   his(C,3)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57810):
GCAGGTTTTAGGCAATAATAAGTGAGCAGTATGGCGCCCTAATAGAAGGAGGGATGCCTGTGGCCAATATACACGGCTCAAAGTTGACCATGATAGAGAA
S
CTTTCCCTAGAAGGTCTGTGAGGGAGGAGGCCTGGGAGAGACAGCAGGGTGACCAGAGTAAGTGAAGTCACCGAGGTGCCAATGAGTGTGGCCCTGCAGG
Celera SNP ID:            hCV1592094
SNP Position Genomic:     461301
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,5)   afr(G,5)   his(C,1)      total(G,10|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57811):
CAAATATCTTACTCCTGGGCTGTGCTGGGGATGGCAGCAGAGTGGGGTGGTTGGATGGGAAGGCGGGAAAGAGCTAGCTTGGAGATGATACGCTTTTCCA
Y
CCTTGAATAACTTGGGAAAAAGTCAGGAGTGTGGAATGAAGAATTGGAATATAAAGGCTGAGGGCGGACCTAATTTTTTTTTTAAGGATTAAGAAAAAAG
Celera SNP ID:            hCV1592095
SNP Position Genomic:     458380
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57812):
AGGTTCACATGATAAATATTTTCTGCTTTGTGGCCTACAAGGTACCTATCACAACTACTAAGCTATCATGCATTAGTGAAAGCACATAGATAATCTATAA
R
CCAATGGGCATGGTTGTGTGACAATAAAACTTTATTTAGAAAAACAGGTGGTAGACTGGATTTAGCTTGTGGGTTGTAGTTTGCTGGCCTCTGGTCAAGA
Celera SNP ID:            hCV1592096
SNP Position Genomic:     458002
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,6|G,1)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57813):
GAGGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAATTCAACATAC
S
AATTTTGCGAGGACGCAAACATTTAATCCGTAGTACTGATGTGGATATGATTTGAGCTAAGACTCTGCTGTTGATTCTCTTCAAAAACTTGGCAGTAGCC
Celera SNP ID:            hCV1592098
SNP Position Genomic:     455789
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,4)   his(G,4)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57814):
TTTTCAACGAGAGTTCAGAACCACACCATACGGGCAGTAGTCCGCATTTTCAACATTTCCTAACAGCACAATTGTTAGGTAGCTAACAATTGAATTGACT
R
TGTCAGGTAGACTTATTTTTCGAGTTGTGCTGGTTAACTGCAATCCAAGTTTAGGAAGCAAACTACCAATTTCATTTAATAGAATGAGCTAACCAAGGCA
Celera SNP ID:            hCV2851490
SNP Position Genomic:     1074026
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(A,2|G,3)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57815):
TTCCAATGATAAATCCTCCCTCCTTTGTCACAGAGCCACTGTGTACTTTCATAGACCATCCTATTTTTCAACGAGAGTTCAGAACCACACCATACGGGCA
R
TAGTCCGCATTTTCAACATTTCCTAACAGCACAATTGTTAGGTAGCTAACAATTGAATTGACTATGTCAGGTAGACTTATTTTTCGAGTTGTGCTGGTTA
Celera SNP ID:            hCV2851491
SNP Position Genomic:     1073962
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(A,3|G,2)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57816):
TATAACTATCTGCATTTCAGGTACAGTGATCTCCTTTAAAAAGGCTGCGTCCCAGCAGCATAGACCAGCTTTACCTCCCAGCGTAGTCTTCAGACAAGTT
R
GGGTATTGCCGAAGTCCATTCTTGACTTTTTTTAATAGTGCAAACAAATCATCTTGTTTTTAGGAAAACATGAAATTATAAAGAAATTGACTTCAATCAC
Celera SNP ID:            hCV2851492
SNP Position Genomic:     1073556
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,4)   afr(G,4)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57817):
GCCAAATTGAAGGGTAAACTGAGTTCACCAGGCAAACTGAGGAAGGGTACTCAGGCTGAAGGATCATGGGAGGGGAGGAGCGTGAGTTCCTCTTAAGTGA
R
TATAAACCAGGGGGTAGGAAACAACATGAGATGAGGCTGGCGAGAGAGAAGGATGCCAGGTGAGGTGCTGTGGTGCGCCAGAGACTGCGGAAGTGGCTTT
Celera SNP ID:            hCV15879087
SNP Position Genomic:     487087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57818):
AATCTTTCGGTCTAAGCAAATTAATGTCATTTTTATAACTATCTGCATTTCAGGTACAGTGATCTCCTTTAAAAAGGCTGCGTCCCAGCAGCATAGACCA
R
CTTTACCTCCCAGCGTAGTCTTCAGACAAGTTGGGGTATTGCCGAAGTCCATTCTTGACTTTTTTTAATAGTGCAAACAAATCATCTTGTTTTTAGGAAA
Celera SNP ID:            hCV2851493
SNP Position Genomic:     1073523
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,5)   afr(G,5)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57819):
GGCCCCCTGCATCTCAAAGCCAGCAACAGAAACTCTCTTGTGCATGGAGTCCCCTCCTGCTTTGAATCTCTCTGACTTTCCTTGACTTTGATGTCTAGGT
Y
TGGATTTCAAGGGCTCAGAAACTCTCTCATGCATGTAGTTCCCTCCTGCTTTGAATCTCTCTGACTTTCCTTGATTTTGATGTCTAGGTCTGGATTTCAA
Celera SNP ID:            hCV15879088
SNP Position Genomic:     468902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57820):
AATCAACTCAATTACCAGCCCTCTCAGACATTTTCATAATGTTTTCTGGTAGTTGCTCTCCTGTGAAAATCTTTCGGTCTAAGCAAATTAATGTCATTTT
Y
ATAACTATCTGCATTTCAGGTACAGTGATCTCCTTTAAAAAGGCTGCGTCCCAGCAGCATAGACCAGCTTTACCTCCCAGCGTAGTCTTCAGACAAGTTG
Celera SNP ID:            hCV2851494
SNP Position Genomic:     1073456
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,5)   afr(T,5)   total(C,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57821):
ACTTTTGGCCCCCTGCATCTCAAAGCCAGCAACAGAAACTCTCTTGTGCATGGAGTCCCCTCCTGCTTTGAATCTCTCTGACTTTCCTTGACTTTGATGT
Y
TAGGTCTGGATTTCAAGGGCTCAGAAACTCTCTCATGCATGTAGTTCCCTCCTGCTTTGAATCTCTCTGACTTTCCTTGATTTTGATGTCTAGGTCTGGA
Celera SNP ID:            hCV15879089
SNP Position Genomic:     468896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57822):
ACCAAGGTCATACTAATCAACTCAATTACCAGCCCTCTCAGACATTTTCATAATGTTTTCTGGTAGTTGCTCTCCTGTGAAAATCTTTCGGTCTAAGCAA
R
TTAATGTCATTTTTATAACTATCTGCATTTCAGGTACAGTGATCTCCTTTAAAAAGGCTGCGTCCCAGCAGCATAGACCAGCTTTACCTCCCAGCGTAGT
Celera SNP ID:            hCV2851495
SNP Position Genomic:     1073442
SNP Source:               Celera
Population(Allele,Count): cau(A,7)   afr(G,1)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57823):
GTTCAGAGGCAGTGAAAGCGTGCTTCTCAGGACTCATTGTCCAGAAGATTCTGCCTACAGCTGGTTTTACGCAGAGAAGTAGCACACAAACCCAGTCCAT
S
ATTTCTTATTTGACTCTGTCCTGTTTACTCTGTCAGGGTGAAAAGCACAGGCCAAGCTCGGCTAGTCAAAGCATTACTTTGTCACAGGCAGGCTTGGCTT
Celera SNP ID:            hCV2851496
SNP Position Genomic:     1073138
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,4)   his(G,4)   total(G,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57824):
GTATTCTGTTCCCTCTTTGCTAGTTCAGAGGCAGTGAAAGCGTGCTTCTCAGGACTCATTGTCCAGAAGATTCTGCCTACAGCTGGTTTTACGCAGAGAA
S
TAGCACACAAACCCAGTCCATGATTTCTTATTTGACTCTGTCCTGTTTACTCTGTCAGGGTGAAAAGCACAGGCCAAGCTCGGCTAGTCAAAGCATTACT
Celera SNP ID:            hCV2851497
SNP Position Genomic:     1073116
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,4)   his(G,4)   total(G,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57825):
TTCCCACTGCAGCCGGTAGCATATTGCTTCATAAATGTCTATAAAAAAATACGAAAAATAGAATCAGAGCAAATTCAGCATAGACCTCCTTGGGATGTTT
W
TTCTTTGTTTATGTTGGTGTTTTGTTTTGTGTTGTTTCAGCTGGGGTGCAGTTGTATTCTGTTCCCTCTTTGCTAGTTCAGAGGCAGTGAAAGCGTGCTT
Celera SNP ID:            hCV2851498
SNP Position Genomic:     1072962
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,3|T,3)   his(A,3)      total(A,6|T,3) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57826):
AATATATGGCTTTTTCCTATTGGAAAAAATTAGTCGTGTGAACTTTATTCTTCAAGAAAAAGTAGTTTTTATCTGCCTTGGAAATGTCAAAAGGATTCAC
R
AGTTTCACAAGTGATGATCTGGGTTGATTGCTAGGAACTGTTTTTAGTTAGTTTTTTTTTTTTTTTTTTTTTTTCAGACGGAGTCTTGCTCTGTTGCCCA
Celera SNP ID:            hCV15778855
SNP Position Genomic:     831157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57827):
AGCCAGACATGGAATCCTTTCTTATGATTAATGCAGCTAAATTTCCCACTGCAGCCGGTAGCATATTGCTTCATAAATGTCTATAAAAAAATACGAAAAA
Y
AGAATCAGAGCAAATTCAGCATAGACCTCCTTGGGATGTTTATTCTTTGTTTATGTTGGTGTTTTGTTTTGTGTTGTTTCAGCTGGGGTGCAGTTGTATT
Celera SNP ID:            hCV2851499
SNP Position Genomic:     1072920
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,3|T,3)   his(T,3)      total(C,3|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57828):
CCTAAGGTCCCAGCCACCTATGGTTCTTTGGACCTGTGATTTTCGCTGACCCCGAATGACTGGAGGAACTGCTGCCTGCATCCCCAACCCAGCCCTCCTT
R
TCAGTCACGTAGAAAGCAGTTATTGTTTCCAAGTTCCCTGCCCTTGTTAAATGTCAGCTTTGAGTGAAAATGTTCCTAATTTTACTCAGAGTGCAAAGAA
Celera SNP ID:            hCV15778856
SNP Position Genomic:     827927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57829):
GTCGGGCCCCGACGCGCGCGGGTCTCGTTTGGAGCGGGAGTGAGTTCCTGAGCGAGTGGACCCGGCAGCGGGCGATAGGGGGGCCAGGTGCCTCCACAGT
Y
AGCCATGGCAGCGCTGCGCTACGCGGGGCTGGACGACACGGACAGTGAGGACGAGCTGCCTCCGGGCTGGGAGGAGAGAACCACCAAGGACGGCTGGGTT
Celera SNP ID:            hCV2813530
SNP Position Genomic:     6120
SNP Source:               Applera
Population(Allele,Count): afr(C,29|T,7)   cau(C,28|T,8)   total(C,57|T,15)
SNP Type:                 UTR 5

SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3|T,1)   total(C,6|T,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:57830):
CCATGAGTAACGAAGTCCTCTGTATCTGATCCTGGGTCTCCTGTTTTCTGCTAGCTTCCTCAAAACTTGGTAGCTAACTCATTAACTTACAAGGAAGAGG
K
TGAACGTGTAGACCCTTCACAGTTTGAAAAATCACCTGATCAATAACTGAGATTATGAAAAGGTAGGAATGAACCAATTATGGCCCAAAGGCTAACTCCA
Celera SNP ID:            hCV25962604
SNP Position Genomic:     178151
SNP Source:               Applera
Population(Allele,Count): afr(G,15|T,3)   cau(G,35|T,3)   total(G,50|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:57831):
AAATATGTGTATATATATATTTGTTAGGGTAAAACAAAGTCTATAAAAACTGTTTTCCTTTGTTATTGCCCCCACCAAATATTTATATATATATACACAC
C
TATGTATATATGTATGTATAGAGAGTCTATTATATATATTACATATACATAATATATACATAATATATAATAGACTCTATAATATAGACTCTAATAATTA
Celera SNP ID:            hCV11667608
SNP Position Genomic:     940742
SNP Source:               Celera
Population(Allele,Count): chn(-,9|C,1)   cau(-,9)   afr(-,9)   total(C,1|-,27) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57832):
TTTGGGCTGTTATTAGGTAGACTCTCCTGGGACATTCTACACAGCTCCTGCCTCCTTCTGTATGTAATATATATATTATATATATATAAAATATATATTA
K
GTATAGATAATTTATATATAAATATGTGTATATATATATTTGTTAGGGTAAAACAAAGTCTATAAAAACTGTTTTCCTTTGTCATTGCCCCCACCAAATA
Celera SNP ID:            hCV11667609
SNP Position Genomic:     939538
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,2)   his(G,1)      total(G,1|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57833):
CCTGAGTAGATGGGACTACAGGCATGTGTCACCATGCCAGGCTAATGTTTAAAAATTTTTCTTAGAGGTAGAGCCTCACTTTGCTGCCTAGGCTGATCTA
R
AACTCCTGGCTTCAAGTGATCCTCCTGCCTTGAGCTCCCGAAGCGCTGGGACCAATAGAGATTTCTCTGAGAATTAGGTCCCCCACTATTAATAAGGTCA
Celera SNP ID:            hCV15879093
SNP Position Genomic:     448521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57834):
TGCAGACTGTATAGGCTTCTGCCTCTCGGGAGGCCTCAGGAAACTTACAGTTATGGCAGAAGGTGAAGGGGAAGCAGGTAATGTCTTCACATGGCTGGCA
S
TGGAGGAAGAGAGAAAGTAGGGAGGTGGTAGATGCTTTTAAACAAACAGATCTCAGGAGAACTCTTTCACAAGACAGCACTAGGGGGATGGTGATTAGAA
Celera SNP ID:            hCV15879094
SNP Position Genomic:     401745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57835):
TCTTATTTATCCTGCATTTATAAATACACAAATTCTTGTACAATTAACTCAGTTTTTCACTCCTTTCTTGCTTGCAACTTGTCAGGTCGTTCCCTCCCCA
S
TAGTTGTGAACTTCTTTATGCTAGCTTCTTCCATCAGGGGCTCACAACCAGGGACTGTAGAGGTTTGCAGAGGTAAATCTTGGTAGATAAGGATTTTATG
Celera SNP ID:            hCV16082355
SNP Position Genomic:     139799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57836):
ACGAGACACTCATTCCGAAGGCGGGTGTGTATGTGCAAACTGTATAATTTTTTTCTTCTTTTCTATCTGCTAGCAAAGTGGGTAAGTTGACCCATGACAT
S
GTCCACTGGAGGGACCACATTTGTGACTCTAGCAATTAAGCCTCCCTTCTCATCTGTGGATAAAACTGACCTCCCAGTGTGCTGGAGTCAAACATATTCA
Celera SNP ID:            hCV15879095
SNP Position Genomic:     399967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57837):
ACAAGGCAGTAGAGGTTGGACGAGACACTCATTCCGAAGGCGGGTGTGTATGTGCAAACTGTATAATTTTTTTCTTCTTTTCTATCTGCTAGCAAAGTGG
R
TAAGTTGACCCATGACATGGTCCACTGGAGGGACCACATTTGTGACTCTAGCAATTAAGCCTCCCTTCTCATCTGTGGATAAAACTGACCTCCCAGTGTG
Celera SNP ID:            hCV15879099
SNP Position Genomic:     399948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57838):
GTCTCAGTTTCATAATATGTGTAAAAATTATCATGCCCATTCATTATTTAAAGTGCTGTGGCTTTTTAGTGAATACCAACATTAACAAACCATGTTAACA
Y
GATTTAAAATATGTAATGAAATTTGCAATGCATCAGATGATGGAACTATCAAATTAGTTCACGTGGCGTTGGCTGATCACCCTTATGAAGAGTTACTTGC
Celera SNP ID:            hCV322878
SNP Position Genomic:     364447
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(C,1)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57839):
GAAAGAGAGGGAACTGAACGGGATGCTTTTTATTTTGGGCTGTTATTAGGTAGACTCTCCTGGGACATTCTACACAGCTCCTGCCTCCTTCTGTATGTAA
Y
ATATATATTATATATATATAAAATATATATTATGTATAGATAATTTATATATAAATATGTGTATATATATATTTGTTAGGGTAAAACAAAGTCTATAAAA
Celera SNP ID:            hCV11667610
SNP Position Genomic:     939505
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,3)   his(C,1)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57840):
ATCTATATATAGATATCTATATAATATATATAATCTATATATGATATATATATCTTATTATATATTATATATATAGATAGATATCTATATACAGATATCT
R
TATACAGATATCTATATATATAGATATCTATATATATAGATATCTGTATACAGATATCTGTATATATATATAGAAAGAGAGGGAACTGAACGGGATGCTT
Celera SNP ID:            hCV11667611
SNP Position Genomic:     939332
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   his(A,1)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57841):
TATTTTTTCTAGTTTTTTTGTTTTGCTTAATAGGCTCTCTCTCTGTCTCTTTCTTTCTATATATATATATAATATATAGAAAGATATATAATCTATATAT
T
GATATCTATATAATATATATAATCTATATATGATATATATATCTTATTATATATTATATATATAGATAGATATCTATATACAGATATCTGTATACAGATA
Celera SNP ID:            hCV11667614
SNP Position Genomic:     939242
SNP Source:               Celera
Population(Allele,Count): cau(-,5)   his(T,1)   total(T,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57842):
TAAATAGTGGATGTATTTTTTCTAGTTTTTTTGTTTTGCTTAATAGGCTCTCTCTCTGTCTCTTTCTTTCTATATATATATATAATATATAGAAAGATAT
R
TAATCTATATATAGATATCTATATAATATATATAATCTATATATGATATATATATCTTATTATATATTATATATATAGATAGATATCTATATACAGATAT
Celera SNP ID:            hCV11667615
SNP Position Genomic:     939229
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5)   his(G,1)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57843):
CCTGGGACAGTCTACACAGCTCCTGCCTCCTTCTTTTCTTCAGGATTATCTCGAGTTGGTTTGCAAAGTGAAACGCATTAGACATCTTCAAGTGGGCTGA
A
GAAAGGGACTCAATTTTTGTGGGTCCATGTTAATGTAATTCTTATGAATTTGAGATAAAGTGGTCATTAAAGCCTAGAAGGAAGGGAAAAGCTACACCCC
Celera SNP ID:            hCV11667616
SNP Position Genomic:     938887
SNP Source:               Celera
Population(Allele,Count): chn(-,2)   cau(-,2|A,3)   total(A,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57844):
CACTGCAGTCCTGGGACAGTCTACACAGCTCCTGCCTCCTTCTTTTCTTCAGGATTATCTCGAGTTGGTTTGCAAAGTGAAACGCATTAGACATCTTCAA
G
TGGGCTGAAGAAAGGGACTCAATTTTTGTGGGTCCATGTTAATGTAATTCTTATGAATTTGAGATAAAGTGGTCATTAAAGCCTAGAAGGAAGGGAAAAG
Celera SNP ID:            hCV11667619
SNP Position Genomic:     938878
SNP Source:               Celera
Population(Allele,Count): chn(-,2)   cau(-,2|G,3)   total(G,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57845):
CAGTATTTTGTCCTATTCATGCAATATAATTTATATAACCTAATTGATAAAACATTTTGGTTGATTGCAGTCTGTCGTAGATAATGCCGTACTGAATATT
M
CTCCCACATATTTGCAAGTCTATTTGTAGGATAAATTTCTGGTTGTGGCTGGGTCAAAGAGCATGTCCACTTCAAATTTGATAGCTATGTCCCAACTGCC
Celera SNP ID:            hCV16082365
SNP Position Genomic:     58734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57846):
ACAAGTCACAGGGCTTATCTCCATTGTTCTGAACGATCTGTAGCTAAACAAAAAGATAAAAGCTATTAATATTATTAATAGTTGTAGATTACCGGGAAGA
R
CGCATCCTAAATCAGCCATTAGATTTGTTCCTCATTTCTTTGCTTTACAAATTGTTTTTCTGTATAGTATTGGATTTTCAATAAATAAAGTATGATATAA
Celera SNP ID:            hCV16082366
SNP Position Genomic:     78023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57847):
GCAAGTGTGATCATTCAGGTAATCAAAGTAACTACAGAAACAGAGGTATGGATTAGCTAGTCATTGCAGATGTGGCATTGAGCATATAAGCGTGGTGTAC
W
TCTTAGAACTTCATCTGGAAATGCCTGTGGGGGAGTTGGATTTCAAGATCATCGTCAATGTCATGTCACTGTAATTTCATTTACATTAATCAGATTAGTT
Celera SNP ID:            hCV9602355
SNP Position Genomic:     59613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57848):
TCCCATCCTGGCACTGCAGTCCTGGGACAGTCTACACAGCTCCTGCCTCCTTCTTTTCTTCAGGATTATCTCGAGTTGGTTTGCAAAGTGAAACGCATTA
G
ACATCTTCAAGTGGGCTGAAGAAAGGGACTCAATTTTTGTGGGTCCATGTTAATGTAATTCTTATGAATTTGAGATAAAGTGGTCATTAAAGCCTAGAAG
Celera SNP ID:            hCV11667620
SNP Position Genomic:     938867
SNP Source:               Celera
Population(Allele,Count): chn(-,2)   cau(-,2|G,3)   total(G,3|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57849):
ATGCGGAAGCCTTCGCCCCCTTCTTGAGGGTGTTTAGGGATTAGATGAGTGTCCCATCTGGGTTTCCCATCCCTGCAGAGCCCACGTGTGGGGTGCTGAG
R
GGTACGTGGTGGGTGACTCCCTGGGGAGCACTGTTTGGTACTGATCACTGTCCCATCCTGGCACTGCAGTCCTGGGACAGTCTACACAGCTCCTGCCTCC
Celera SNP ID:            hCV11667621
SNP Position Genomic:     938716
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4|G,1)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57850):
CCGAGGCTGGGGAGGTTGAGGCCGCAGTGAGCCGAGATCGAGTCACTGCACTCCAGCCTGGACAACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAA
A
TCCAGTAGGAAACTATATAAACACTAGGGTTGCTTTAAAATGTCAAGGCCAACTCTTATGATATGCGGAAGCCTTCGCCCCCTTCTTGAGGGTGTTTAGG
Celera SNP ID:            hCV11667624
SNP Position Genomic:     938553
SNP Source:               Celera
Population(Allele,Count): cau(-,3|A,2)   afr(A,2)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57851):
TACAAGGGCCGGATGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGTGGATCACTTGAGGCCTGGAGTTTGAGACCAGCCTGGC
Y
AACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGTGCGGTGGCGCAAACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAA
Celera SNP ID:            hCV11514300
SNP Position Genomic:     135066
SNP Source:               Celera
Population(Allele,Count): chn(C,3|T,1)   cau(C,3)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57852):
CGAATGGTTTTCCAATCTTCAAACCAACCTATATCACAAAAGCATTCTGAAAACTGGGAAGAGATCACTTCACAGTTTCCTGAACCACTAGAAAAAAAAA
A
TGTTCATAAATTTATAGCCGCTGACATTGAAGTTGGAGAAAAGAGCATATCTAGTACCTATGCTATGTGGAGAACACTCTCCATGTCTTTGAAAAATAAG
Celera SNP ID:            hCV11667628
SNP Position Genomic:     936351
SNP Source:               Celera
Population(Allele,Count): cau(-,1|A,2)   afr(A,2)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57853):
GGGTTTTACCATGTTGCCTAGGCTGGTCTCGATCTCCTGGGCTCTAGCAATCCTCCCACCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCTACC
R
TGCCCGGCCTTACGTTTCAGCATCTTTCAATCCATCTAATACGCAGTGCCAGGGAAGGTTTGTGAAAACATTTGAATCACAGAGTCACAAACAGTGAGAA
Celera SNP ID:            hCV11514307
SNP Position Genomic:     137549
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(A,2|G,4)   his(G,4)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57854):
AAATCAGGATGCTCAGGAAATACCTTGTTTGGAATAGGAATAGGCTCCTCCCTTTTTTTCTCACTTGCCTTGATTGCTCTGTATTAAAATTCATAAAGGC
Y
CATGAATTATCAATTAGATAGCATTTGGTTTGTTATTTTTAGTTTCTTCCTATAGCAGGCATGTATGCATGTGTTAAAAATGGAAGTAGCGTCGACATTA
Celera SNP ID:            hCV9602360
SNP Position Genomic:     58026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57855):
AAACAAAAAGGAGGATACCAATTTAAGCTTGTCAAAAAGATTTTCCCCCAAAAGAAAAACACATTAAAAACAACGACAAAAATCAACAAAAACTAACACT
R
TTCCCCCATCAACAATCAATATTACTTTCTAAAAGCAAGGGCGTTTTGACACCAGATATTGTGAGGACATCCACCTGCTCTAAGGGACAGCCATTTCACT
Celera SNP ID:            hCV134318
SNP Position Genomic:     267294
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   afr(A,1)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57856):
TTCAAAAGCTACAGAGATACCGTAACATTTAAAAAAATAAATTTTCATTGTGGAAATCAACTGCCACAAAAACACAACCTTTTACGAGACAACGTGATGT
R
CATGAGAAGCCCTGATGTTGAGAAGCTCATAATTCGGTGTGAGAAACACACAAGGCATGATGCCATTCCCATCTGGGATGAACAGGGAAGACTTCCTGGG
Celera SNP ID:            hCV134319
SNP Position Genomic:     266886
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,7)   afr(G,7)   his(G,7)   total(G,21|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57857):
GGTCTTCTAATTCTCTGTGATGAAGTTCAAACTGAAGACTGTTACTAGTGTCGTGTTTGTTTCTTTTTCTCTCTCTTTTGTTTTGTTTGTATAAAATGCC
R
GGGATGAAGGGATCCACTTAATAAAAAGGCCCATTGTGTTCAGGGAGCAGCCTGTTCTGCCAAATCACACAAGGGCATGTGTTTTCATGACATTATTGCT
Celera SNP ID:            hCV9602367
SNP Position Genomic:     29562
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57858):
GTGGGCTTTTCTTTCTCATTTGCTTTCGCTTAGTATTTTCCATTATTCATTTGGCTTCTTGAACCCTCCCTATCTGTACCCCACACTTACTCTTATTCAC
Y
CAGAACAGGTGTGTGCCACCTTGGAGAAGATGAAGCCAGAGAGAAAATCAGTCAGACAGGAATTATGTTGAAAGGTGACTGAATACATTACCACCTCCCA
Celera SNP ID:            hCV11668291
SNP Position Genomic:     555498
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,5)   his(T,5)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57859):
GCTCTTTTTTTCTCTCTCACTCTGAGTATTTAGAGGCTTTTATTGCTATTTTTCTAAAAGGCAACATTAGTAATCAACTTTGCCAAAAATTTCATATGAA
Y
GGTGGGCTTTTCTTTCTCATTTGCTTTCGCTTAGTATTTTCCATTATTCATTTGGCTTCTTGAACCCTCCCTATCTGTACCCCACACTTACTCTTATTCA
Celera SNP ID:            hCV11668292
SNP Position Genomic:     555396
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5|T,3)   his(C,5)      total(C,10|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57860):
GAAAAGATTACTGACGATCAACATGCTGAACTGACATTTCACAGATATGCAGATTTATTCATCTCTGTTCAAGGTATGCCTTTTCCAATCATAATAGCCA
Y
GTAGAGGACATTAAACAAATATTTTATTGTGGTAAAAACACTTAACATGAGACCTACCCTTTTAACAAATTTTTAAATATATAATTTATTATTATTGTTG
Celera SNP ID:            hCV11514311
SNP Position Genomic:     140665
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57861):
CACTTTCTGTTGGACTGCTTTTGGAAAAAGAACCACAAGTCTCTATTTTTAAAATAGAGGTACAATGATAAAACAAAACAAAACAAAACAAAAAAACAAC
A
AAAAAAAAACCCACACAGGTCTCATCAGCCAAGGGATTTAAAAATCAAATTTAACTTCAAAAAACTGAAGTTGATATAGCAGGATCTTGGAGATGCAGTT
Celera SNP ID:            hCV11514315
SNP Position Genomic:     142178
SNP Source:               Celera
Population(Allele,Count): cau(-,4|A,2)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57862):
TGTCCAAGAAGCATGGTGCCAATGTATTTCTGATGAGGGCGTCAGGCAGCTTCTACTCATGGTGGAAAGTGAAGGGGAGCCAGCATGTTCAGAGAACATA
Y
AGGGAGAAAGGGAGCAAGAGAGGGGAGGGGAGGTGCCAGAGCCTTTAAAAGAACCAACTCTCTGGGAACAAATAGAGGGAGAACATTAATCTAGCCATGA
Celera SNP ID:            hCV11668298
SNP Position Genomic:     553032
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|T,1)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57863):
CACAAATGTGATCCTTCTGGAGGCCAGAAGATAGATTCAGTGGGCCCCAGTTCTTTCAGGTTTAAGGAATAAGCATTTTGGTCTATGAAAAATGGGGTTT
K
CCTAAAGTATAAGATTGTCTTATATTTATAAATGCCTGTGTTCATTGCTGTGGGTTCACTGCTTTCTCTTTTGGGCAGCCATATAAATAAAAGAACCACC
Celera SNP ID:            hCV9602371
SNP Position Genomic:     21258
SNP Source:               Applera
Population(Allele,Count): afr(G,17|T,9)   cau(G,24)   total(G,41|T,9)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57864):
CCACCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTTGCCATGTTGCTCAGGCTGGTCTCAAACTCCTGACATCAGGTGATCCACCTGCATCGGCTTCC
C
AAAGTGCTGGGATTACATGCATGAGCCATCGCGCCTGGCTAGGAACTCCTGTTTCTGTTTTTATCCTCTTCCCAAGTCTGCAGGCCCCGCCTGGCCCACC
Celera SNP ID:            hCV11667640
SNP Position Genomic:     924110
SNP Source:               Celera
Population(Allele,Count): cau(-,2)   afr(C,1)   total(C,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57865):
AAAGCACACACAATGATGGCCAGAGACACTGCTCAGTGTACTGTCTTCCACCGGGACAGCCCACTCACCAAGGGTTAGGTCCTGTGCTGACTGGGTCCCG
K
GTCTCCTCGGAGGTCGGTTTGCATCACGTGGATACACTAATCTACCCAAGTTGACTTGGAGAACCAATCTGAAATCAGATGGGAGCTCCCGGAAGCAAAG
Celera SNP ID:            hCV11667641
SNP Position Genomic:     921066
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57866):
TGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCGTCTC
A
AAAAAAAAAAAAAAAAAAAAAATCTGTGTTCTTGCCTGGCTTATTGAGCTCCATGGTAAATGTTCAGAGGCTGCAGGAATGATTCAAAGTCTGACTGATT
Celera SNP ID:            hCV11514321
SNP Position Genomic:     144450
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(-,8)   afr(A,2)   total(A,4|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57867):
CATTAAATAACATGTCCAAAGTCTCCCATTTCAGAGACAGGGGCATTTGGCTCCAGGTTTTTCTGACTCTAGACAGTAGTTTGTTTTTAGCACATCAAAT
K
TCTGAGACTTGTGATGTGTTAGAAAGCACAAAGGACTTTGATCACAAGATCAAGCCCCAGAGGGCCATGACTGCATAAACCACAACAACTGCGTGGCTGC
Celera SNP ID:            hCV16202127
SNP Position Genomic:     1076718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|GT,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57868):
ACAAGGGAATATGTGAGGTAGGGTAGGACATTTTGGTAGCAGTCACACAGCCCAAAGAGCATGGTGAATTTAATTAGTCTGCCACACCTGTATGGCCTTA
Y
GTTTTCCGGGATAACTTAACAAGCATTGTGTGCAGCCAGGTCAGGCAGATGGAGGTTCTAATCCAGGCTGCACACCTCATCAGCCAGGAGACTACAGATA
Celera SNP ID:            hCV8031302
SNP Position Genomic:     179368
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57869):
AATCCCAGCTGCTAGGGAGGCTGAGGCAGGAGAATCACTTCAACCCGGAAGGCGGAGGTTTCAGTGAGCTGAGATCCAGCCTGGGTGACAGAGCAAGACT
Y
CATCTCAAAGCGAAACAAAACAAATGAGGGTCCTCATCAGCGTGCCTTTGACACTGTCCTCTGGTCCTGGTGATCTGAATACATCACCACAGAACTGCCA
Celera SNP ID:            hCV8901934
SNP Position Genomic:     634831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57870):
AGAGCAAGACTCCATCTCAAAGCGAAACAAAACAAATGAGGGTCCTCATCAGCGTGCCTTTGACACTGTCCTCTGGTCCTGGTGATCTGAATACATCACC
R
CAGAACTGCCAGGGTACGTGTTTCCTAGCCCATAGCGAGTCCCAGTGAAAGCAGAGATGAGAAAGAAAGGAGGGACACAAGGTCTGGGTCCTGAGTTCCA
Celera SNP ID:            hCV8901935
SNP Position Genomic:     634920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57871):
TGCTGGATTATCTAGTCCCTGAACAGCCATTTATATTTTTGTTACGCTTGTGGTTTTTAAATCATCCTCATTTCCTTGATCGCATTTGCTTCTCCTGGCT
R
GAATGTGTAGGAGACGGGTCGGGGAGACTGTGCCCATTTGACAGGTGTGAATGCGAACAGAGGCTGCAGCTGGTTAGACCAGGGCTGTGCAACCCTAGAG
Celera SNP ID:            hCV8901936
SNP Position Genomic:     646138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57872):
GCTTGTGGTTTTTAAATCATCCTCATTTCCTTGATCGCATTTGCTTCTCCTGGCTAGAATGTGTAGGAGACGGGTCGGGGAGACTGTGCCCATTTGACAG
R
TGTGAATGCGAACAGAGGCTGCAGCTGGTTAGACCAGGGCTGTGCAACCCTAGAGCCATTGCCTTGACCACAAAGCCACAGTCTCCTAGTCCTAATATTA
Celera SNP ID:            hCV8901937
SNP Position Genomic:     646183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57873):
TTAAATCATCCTCATTTCCTTGATCGCATTTGCTTCTCCTGGCTAGAATGTGTAGGAGACGGGTCGGGGAGACTGTGCCCATTTGACAGGTGTGAATGCG
R
ACAGAGGCTGCAGCTGGTTAGACCAGGGCTGTGCAACCCTAGAGCCATTGCCTTGACCACAAAGCCACAGTCTCCTAGTCCTAATATTAAGAGGTAGGAG
Celera SNP ID:            hCV8901938
SNP Position Genomic:     646194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57874):
GGAGACGGGTCGGGGAGACTGTGCCCATTTGACAGGTGTGAATGCGAACAGAGGCTGCAGCTGGTTAGACCAGGGCTGTGCAACCCTAGAGCCATTGCCT
Y
GACCACAAAGCCACAGTCTCCTAGTCCTAATATTAAGAGGTAGGAGGTAGATAGAGATTGTCCCTTAAGCCACATTCCATTCTTCATATTTTTGTACCCA
Celera SNP ID:            hCV8901939
SNP Position Genomic:     646248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57875):
GACTTAATCTTCATGATGTTTGTAAAGTAATACTTCTTGGAGAAACCTCCCAAATTTCTATCGACACTAGACATCTCAGGATTTGAAATGTTAAGCTAAC
R
AATTGTTCATCAGGTGTATCTCCAGCCCTCCGTAAACACTGCCGGATGGATGAACCTACGTAATGATCTCCTGGTGCCATTTTCCTGACTGTAGATACTT
Celera SNP ID:            hCV15773960
SNP Position Genomic:     449794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|AG,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57876):
TTCCCTTGCATTTGGTTTTCATCCCCCATAGTCTTCCTTTTTTTATTTTTTATTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTT
A
TTTTTTGAGACAGGGTCTTAATCTGTCCCCCAGGCTGGAGTGCAGTGACATGGTGATGGCTCACCACAGCCTCAGCCTCCCTGGGCTCAGTCGATCCTCC
Celera SNP ID:            hCV11667652
SNP Position Genomic:     918931
SNP Source:               Celera
Population(Allele,Count): cau(-,2|A,4)   afr(-,2)   his(A,4)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57877):
TGCTGTTTAGGAAAGAAAAATGATATCGCTCAGAAAATCATTTAAAAACTTCCTGGTGAATGCACCCAGCTCGCCAATGCATGCCAGCCACAGGGCCTCA
Y
AGCACATTTCAGGAGCAAGACAATTCAGACCCCACTCTTCCCCCTGAAAAACCTCCTTCCAGAACCCTCTTTTGCAGTGAGCAGAGATAAGCCTCTCCAA
Celera SNP ID:            hCV11667653
SNP Position Genomic:     910468
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   afr(T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57878):
GCTCCCTGGAAGATGGATCTTGCCTTGTGGATGTTTTTCTACCGTGACAGAAGATAGAAAGGATGAAATAGAAAGAGTGTGAGTGAATTCTGCACCCACC
M
CCCCCCCCCAGCTTCCCCACCTGTAAAATGATTTGCTCAAAGTTTGCAAAGAATGGAGGCATATTCAAAGTGCTCAGCACTGGGCCGGACCCATGGGTAT
Celera SNP ID:            hCV11667654
SNP Position Genomic:     903806
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(A,3|C,3)   his(C,3)   total(A,3|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57879):
CCAGATCCAAAAAGTTATTTTGGCAAAATGAAATCAGAACGTGGCCCCTTCCATGAAAGTCAGCTCAGGCGTAGAATGTTCTTTTTTTTAATTTTTTTTT
T
AACGAAACTCACATCTTCTTTAAATAAAATCTCCATTTAGAAATTTTTGAAGACTTGTGGATAGAAGAAGTAACCTTGAAAAGGGCAGAGCTGAGCCAGA
Celera SNP ID:            hCV11667655
SNP Position Genomic:     903588
SNP Source:               Celera
Population(Allele,Count): cau(-,5)   his(T,1)   total(T,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57880):
AGTTTGTCTTGGCTCTGATCACCCCTTTTTGTGACTTAGCTGGCTGGGAAGTAGCAAAAGTATCTTCCAAGCTCAGCTTCTCTCTGCTTGCATTCTTTCC
M
AATACGTGATTCCAAAGCCCATGCCCAATCCTTGCACTGAAGCTTTTAGCAGGAAAGGTGAACAGAGGCATCTGGATGCATCGCGGCCAGTCTGCCCCTT
Celera SNP ID:            hCV11667656
SNP Position Genomic:     902637
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,2)   afr(A,2)   his(C,2)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57881):
GTGTTCTTGCCTGGCTTATTGAGCTCCATGGTAAATGTTCAGAGGCTGCAGGAATGATTCAAAGTCTGACTGATTTATGTGCATTGGGCATTTTGTTGAT
R
TCATTCAGATTAATGATGGCACTGAAAATGTGTAATGGAAATGAGAAGTTTGTATCCTGCCTGCTATACCATGATTCCAATTTAAGAGGGGGTAAAAATA
Celera SNP ID:            hCV11514330
SNP Position Genomic:     144576
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(A,3|G,2)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57882):
AGAAATACTCCCTTCTGGACACTGGAAGGGCAAATGAGGTGCAAGCCTTTTTTTTTTCTTTCTTTTCTTCTTCTTCTTCTTCTTTTTTTTTTTTTTTTTT
T
TGTTTTTCCTCCCAGCCTCTCTCCTTTCCCATTATGCACAATGCGCTGAGAAAGGATTCCCAGTCCCCCTGGTAAAAAGTCTGAAGGATGCCGAGGAGTT
Celera SNP ID:            hCV11667657
SNP Position Genomic:     902414
SNP Source:               Celera
Population(Allele,Count): cau(T,4)   afr(-,1)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57883):
GTTCAGAGGCTGCAGGAATGATTCAAAGTCTGACTGATTTATGTGCATTGGGCATTTTGTTGATGTCATTCAGATTAATGATGGCACTGAAAATGTGTAA
Y
GGAAATGAGAAGTTTGTATCCTGCCTGCTATACCATGATTCCAATTTAAGAGGGGGTAAAAATATTGCACTTTTTAATCTATTGTTTTTTGAAAGAGACT
Celera SNP ID:            hCV11514331
SNP Position Genomic:     144612
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57884):
AGAGCCCAGGAAGTCTAGGCTGCAGTGAGCCATGACCTTGCCACTGCACACCAGCCTGGGTGACAGAGGGAGACCTTGTCTCACCAAAAAAAAAAAAAAA
A
GAGAGAGAGGTTGAGCTCAACTGATCAGCATCTCAGATTAAGGGCCTCCATTCCCCCCATGCTTTGTAATTGCTGCCTGTTTTCCATGAAGCCTGACTGT
Celera SNP ID:            hCV11667658
SNP Position Genomic:     897628
SNP Source:               Celera
Population(Allele,Count): cau(-,3)   afr(A,1)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57885):
TACAGTGGCTCATGTCTGTAATTCTAGCACTTTGGGAGGCCGGGGCGAGCAAATTGCTTGAACTCAGGAGTTCGAGGCTAGCCTGGGCAACACGGCAAAG
S
CCTCATCTCTACAAAAAATACAAAAATTAGCTGGGCTTGGTGACAGACGCTTGTAGTCTCAGCTACTCGGGAGGCTGAAGTGGGAGGATCTTTAGAGCCC
Celera SNP ID:            hCV11667659
SNP Position Genomic:     897434
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   afr(C,6)   his(G,1)   total(G,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57886):
GTCACTCCATAGAGAGGGGTTTGTGGAAATCCTTTTTTTTTTTTTTTTTTTTTTTGCTTCTTTCTGTGGATCTGTTTGGAAATGTAACATTTTAAAGCCC
Y
TCTTGGCTGGAGGATTTTTTATGGTAAACATAAAACGTTCATTGAAACATTAAACATTTTACAGCTGTTTTTCAGCACATAAATTTTCATAGACATCCAC
Celera SNP ID:            hCV8901940
SNP Position Genomic:     653041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57887):
AAAACGTTCATTGAAACATTAAACATTTTACAGCTGTTTTTCAGCACATAAATTTTCATAGACATCCACCCCCTCACTGCCACACCCCCTCATAGATTTC
Y
TCTTTTCCTCCTCCTTCTCCTCCTCCCTCTTCCTCCTCTTTTTCCCCCCCCTTCAAATAGTTCCAAGACCAGAGTTGAGGGTGGGTGGGTAGAGGGCTAG
Celera SNP ID:            hCV8901941
SNP Position Genomic:     653173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57888):
GTTGACCTGGAATGACCTAGACCAGCAGTCACAAGCTCCTGCCCATGGACAAAATACAGCCGGTACCTCTTTGGCTATGGCCTGCAGGCTCAGAATAGTT
Y
TTACATTTTCAATCATCTGCAAAAAAGAATAAAGAGGAGAATATTATTTCTTGAAGGAGGAAAATGATATGGAATTCTGATTTCAGTGTCATAAAGTTTT
Celera SNP ID:            hCV11514335
SNP Position Genomic:     145042
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57889):
AAACTATAATCTTTCTCTCTGCCTCAGTTTTTCCACCTGTCAGTGGAGGGGCATGCTCTTGGATGCCTGAGTTTTTCTTAGACTCAGCATCCTGCAGCCG
M
AATAACCATGCTTCTTAGTGGTCCTCTTGCGTAGCAGCCTAAGAAACTCCAAGTCCATCTGCGCCGAAGAGTATTGAACTTGGCCAGAGCACTTGGGATC
Celera SNP ID:            hCV8901942
SNP Position Genomic:     655399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57890):
TAATTATATAAAAAAAGCATGGAAACTGGGCATTTTAATTAGCAAGTACAGCCTTGACACAAATAAAGGCATGGCTTTGGTTATGCAGTGCATTTATTTG
R
TTTTCTTGAAATAAGAAAAAAAGATTTCTTCTCCATCACCAGAGTTGCTGAGTTTGACAGTGTGAATGAGATGACCTCTAAGGCCTCTACTTATAGATCT
Celera SNP ID:            hCV8901943
SNP Position Genomic:     662164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57891):
TGGGCATTTTAATTAGCAAGTACAGCCTTGACACAAATAAAGGCATGGCTTTGGTTATGCAGTGCATTTATTTGGTTTTCTTGAAATAAGAAAAAAAGAT
W
TCTTCTCCATCACCAGAGTTGCTGAGTTTGACAGTGTGAATGAGATGACCTCTAAGGCCTCTACTTATAGATCTGCACGGTTGGGCCTGGGAGCTGTACT
Celera SNP ID:            hCV8901944
SNP Position Genomic:     662190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57892):
ACAGTCTGTGCTGTGTCCTGCACTGTCCATTATCTGCAGGGGTGGTACTGCTGTCCCCAGGGAAGAGAATGCTGTCCACAAAGAGCCAGCCATTTATACT
M
TTAAAAGAATACACAGGAGTTGAACAATGAGAACACGTGGACAACGGGAGGGGGGAACATCACACACCGGGGCCTGTCTGGGGGTAGGGGGAAAGGGGAG
Celera SNP ID:            hCV8901945
SNP Position Genomic:     662419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57893):
TTTCGAGAAGGCAATATAGAAAATGCAGTGGGTAGCCCAGGACTCCTGGTCCAGGTAAAGCAGGCCTTGTTGCTATTCCCCTGGACCATGATATTACATG
Y
TGGGATGATGGGGTCTTGTGATACTGATTAATTTAAGGCTGCATGATGATGAGGGAGGAACAAAGATGTTCTTGAGTCAGTACCTGCCAGAGTGGCTGTA
Celera SNP ID:            hCV8901946
SNP Position Genomic:     662875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57894):
GTCTCAAGCTGCTGATTTCCGGGAGCAAAGCTGCTGTGGGACATGAGACTCTTTGAGGCAGAATACCTCTCATGCCTGGAGAGCATTACAGGCTGCATTA
S
TCTGTTTTCACTCTGCTGATAAAGACATACCCAAGACTGTGCAATTTACAAAAGAAAGAGGTTTAATGAACTCACATTTCCCCATGTCTGGGGAGGCCTC
Celera SNP ID:            hCV8901947
SNP Position Genomic:     668216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57895):
GGCCTGGTCACATCTTCTGACCTCAAGTAGTTTATAGTCCAAAAAGACATTGGCTCTTTGGGATAGAGGCACTTTTTGGGGGAGAGAAACATGAATGCAA
Y
TTTTTACATAGAGTATGAAACTCTGTTCCAAATCTCTCAAACTCAGGTTCTTTGATTCTTAAGGTATTTTTCACTGCCGAGTTGCTGTCATTGAAACAAA
Celera SNP ID:            hCV8901948
SNP Position Genomic:     670957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57896):
TCTCTCAAACTCAGGTTCTTTGATTCTTAAGGTATTTTTCACTGCCGAGTTGCTGTCATTGAAACAAAATCTGTCCTGGTCACCACTGTATGCCCAGCAC
S
TAGTACAGTGCCCTGAACATATTAGGTACTCATTAAATACTTGTTCCACGAAGTTGTTATTTGGTATTCACGAGTTTTGTCTCAATTCCTTTTGATTCTT
Celera SNP ID:            hCV8901949
SNP Position Genomic:     671090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57897):
CTGGGACAAGGACGATGGACAAAGTTATGGGGGTGCTAAAAACCTCAGTAATGAAGATAAATGATATTCTAATCTAATATTTTAAAAAATCGAGGCTAGG
Y
GTGGTGGCTCATGCCTGTGATTCCAGCATTTTGGGAGGCCAAGGTGGACGGATCACCAGAGTTCAGGAGTTTGAGACCAGCCTGGCCAAAATGGTGAAAT
Celera SNP ID:            hCV9663505
SNP Position Genomic:     362977
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   afr(C,1)   his(T,5)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57898):
AGTTATGGGGGTGCTAAAAACCTCAGTAATGAAGATAAATGATATTCTAATCTAATATTTTAAAAAATCGAGGCTAGGTGTGGTGGCTCATGCCTGTGAT
Y
CCAGCATTTTGGGAGGCCAAGGTGGACGGATCACCAGAGTTCAGGAGTTTGAGACCAGCCTGGCCAAAATGGTGAAATGCCATCTCTACTAAAAACACAA
Celera SNP ID:            hCV9663506
SNP Position Genomic:     362999
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   afr(C,1)   his(T,5)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57899):
CAGCCTGGGCAACACAGCGTGACTCCATCTCAAAACAAACAAACAAAACAAAACAAAAAAGGTTTAAGAAATGTTCTAGTACCTTGAAACCAAAATAGGT
R
TCAGATACTTGGCTGTTTTGTTTTTTCTTCTTAGCCATTTTGACCTGTGAGATTTTATGTGATGAAAACATAAGAATGTGGTATTACACCCTGTGATTTG
Celera SNP ID:            hCV9664162
SNP Position Genomic:     480963
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,2)   cau(A,2|G,3)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57900):
GGTATCAGATACTTGGCTGTTTTGTTTTTTCTTCTTAGCCATTTTGACCTGTGAGATTTTATGTGATGAAAACATAAGAATGTGGTATTACACCCTGTGA
K
TTGAATTTTCCATACTCCATTCCATTCTATATGTCAGATGCATCTTCCTAAAACACACCTTTGTCACATCACTCCTCTGCTCAAAAACATTCAGTGGCTC
Celera SNP ID:            hCV9664163
SNP Position Genomic:     481060
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,4)   cau(G,1|T,4)      total(G,1|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57901):
CAGATGGAGGGAAAGAGAGGCGGGGGATTCCAGGTACAGTGGCTCATGTCTGTAATTCTAGCACTTTGGGAGGCCGGGGCGAGCAAATTGCTTGAACTCA
S
GAGTTCGAGGCTAGCCTGGGCAACACGGCAAAGCCCTCATCTCTACAAAAAATACAAAAATTAGCTGGGCTTGGTGACAGACGCTTGTAGTCTCAGCTAC
Celera SNP ID:            hCV11667660
SNP Position Genomic:     897400
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   his(C,1)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57902):
GAGAGGAAGCAAAGTGAGACAGAGGTGGTGTGTGAGCGTGTGTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATTGAGAGAGAGAGAGAC
R
GATGGAGGGAAAGAGAGGCGGGGGATTCCAGGTACAGTGGCTCATGTCTGTAATTCTAGCACTTTGGGAGGCCGGGGCGAGCAAATTGCTTGAACTCAGG
Celera SNP ID:            hCV11667661
SNP Position Genomic:     897301
SNP Source:               Celera
Population(Allele,Count): cau(A,8)   his(G,1)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57903):
CGGGAGGCAGAGGTTGCAGTGAGCCAAGATCACGCTATTGCACTCCAGCCCAGGCAACAAGAGCAAAACTCTGTCTCAAAAAAATTAAAAAAAAAAAAAA
A
GAAAGAAAATTAATTTCTCAGAGGTAGTAATAGGGGTGGCTGTCACCATCCTTGGCCAAGGAGAGGGAGCAGATACTGGAGACAGTTGAAGGTGCCAGGA
Celera SNP ID:            hCV11667662
SNP Position Genomic:     895785
SNP Source:               Celera
Population(Allele,Count): cau(-,4)   his(A,1)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57904):
ATTGCTTGAATCCAAGAGATGGAGGTTGCAGTGAGCCAAGGTCGTGCCACTGCACTCCAGCCTGGGCAAAAGAGTGAGACTCCATCTGAAAAAGAAAAAA
G
AATAGGCACAGACAATTTACCTGGATCCTCACATTGCAATGCTGACCACTCCGGAAGGAGTGTAGAAGTTGCAGCTCATGCCTGCATTCCAAATGGCTGC
Celera SNP ID:            hCV11667663
SNP Position Genomic:     893199
SNP Source:               Celera
Population(Allele,Count): cau(-,8)   afr(-,8)   his(-,8|G,1)   total(G,1|-,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57905):
CCATGTGGCACATACCCCTGTACATGTTTGCCAAGACTGCTATATGGTAGAGCTTGGAATTCTTAGGAGCTTTATCAGGTAATTGCAAGTCCCCCACCTC
Y
AAGAAAGCACTCTCTAGGTCAAGAATCAGCAAATGTTTTCTATAGAGGCCCGTAAAATTAATATTTTATACTTTGTGGGTCATATAGTCTCTGTTTCAAT
Celera SNP ID:            hCV11667664
SNP Position Genomic:     891740
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3|T,1)   his(C,3)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57906):
GAGGCAGGAGGATCACTTGAGCCCAGAAGTTCAACATTATAGTGAGCCACTGTACTCCAGCTGGGTAACAGAGTGAGACCCTGTCTCTGAAAAATAAAAA
Y
AAAAAAAAAAATTAAGTTAGAAGGGAGGGATTACGACCCTCATGTGTATCAAGAAACAAGCTCCATGAAGCCCCGTAGGATGGCTCAGCACCAGAACGAG
Celera SNP ID:            hCV11514342
SNP Position Genomic:     192922
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   his(C,1)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57907):
AGGCAGGAGGATCACTTGAGCCCAGAAGTTCAACATTATAGTGAGCCACTGTACTCCAGCTGGGTAACAGAGTGAGACCCTGTCTCTGAAAAATAAAAAT
W
AAAAAAAAAATTAAGTTAGAAGGGAGGGATTACGACCCTCATGTGTATCAAGAAACAAGCTCCATGAAGCCCCGTAGGATGGCTCAGCACCAGAACGAGG
Celera SNP ID:            hCV11514343
SNP Position Genomic:     192923
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   his(T,1)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57908):
TGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGAATAATACTCCTATGAACATTGTACCAATATCTATTCAGATCTCTGCTTTCGATTCTTCTGCAT
R
TATACCTAGGAGTGAAATTGCTGCGTCGTTTCGTATCTGTGTGCTTAACCTTTTGAGAAACTGCCAAACTGTCTTCAACAGCAGCCGCATCATTTTACAT
Celera SNP ID:            hCV8901950
SNP Position Genomic:     675021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57909):
GTGGATTGGTAAGGGACAGGTGGTGAAGACTGAAACAGGGTATCCAGTTAGGAAGCTACCACAGTGATCCAACCCCCAGCTTCTGTTGAGGTTGAAGAAC
M
TGCATGCCCAACCTAAATATATGTTCAAAGGTGGTTATTACTGTTTGAGGTGATGAAAGAGTTTTGGAGATAGAAGTGATGGTTGTTCAACATCATGAGT
Celera SNP ID:            hCV8901951
SNP Position Genomic:     678785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57910):
AGCCCTTTCTTGTTTAGTGTTGTGTCTTCTGTGTCAACATCTCTGGAACATAGTCAATGGCAGTACCCAGTAGAAGCCATATGGATACTTTTTCTCAAGT
S
TTGAAATAAATTAATGGTGTGGCCATGGTTCTCGTACTTCAGGTCCCTGTGAGCCCCTGGGGTCCTACACAACTTGGGGTAATGCTATGGTCACCTGCAT
Celera SNP ID:            hCV8901952
SNP Position Genomic:     687488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57911):
CCTGGGGTCCTACACAACTTGGGGTAATGCTATGGTCACCTGCATCCCCTCCTCTCCAGCCCTCACCTGGTTTTCTCTTCTCCTTCCAAGAAAAAACACC
Y
ATACCATTCTTAACATCTCTGGAAGCTGGGGGTCAGGAGAGGGAGATCCATAAAGTTCTTGTCTTCCCCGACTCAAGAAGCTTAAGGGTACATTCACTCA
Celera SNP ID:            hCV8901953
SNP Position Genomic:     687644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57912):
TGGTACCCTGAGCAATTTTAAGTTATAAATATGAGATCACTGAAAGTGGAGTTGGGGAACACGTTATTATATAGTATTTTCACCACACACAGGATACAGT
M
AATGACTTCAAGAGCATAGGTAACAGTAAAATGTAGTAAAACAATTTAGAAGTCATGAGTTTTGAGTACTTAGTACTTTTTAGTATGATTTATTTAATAG
Celera SNP ID:            hCV8901954
SNP Position Genomic:     693839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57913):
TGGGATTACAGGTGTGAGCCACCGTGCCCAGCTCAGCATTATTATTTTTAGTCTACACACAGTGAACTTAAATCTCCTCTAGAAAAGTCAGAAGGTCTAC
S
TACAACTTTAAGAGTTCAGCCAAAAGAGACCAGTATCTACTACCGTGGACAACCCTATTTAACATGGAGGAGATAAGCAGAAACTGAAAAGAGGAGCCTG
Celera SNP ID:            hCV8901955
SNP Position Genomic:     697928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57914):
GGCTATTATGTGAAGTTAGGAAATATTTAAAACTCTGCCTTTCTAAAGAAACAGGGACACGGTGCAGAAAAGTTCATCTGGAGTTAGGCTTGTGTCTTGC
Y
GTCTCTTTAACGGAGAGTTCATGGGCAGGGTACAGTCTGTGAGAAGGAATGAAAACCCCAGGGTAGATGCTAACAAAAATCACTTTTAAAAAATGTATGG
Celera SNP ID:            hCV8901956
SNP Position Genomic:     706675
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57915):
TGGTGTCCATCTGGGTTAGCAAACACATGCTCACACGTCTGTGCTTGCTGGATTTTTAAGAACTTACCAGCATTTAAGATTTTCTTATGAAACTGATTTT
W
CTCACCAGGGATAGAGTCTCAAAGTTGGAGGTATTTTATGTTGTTTTAAATAATATCGTCATCACATGTCATTTTAGACCCCAAAAGTCCACTCCGAATC
Celera SNP ID:            hCV8901957
SNP Position Genomic:     706873
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57916):
AGTTCCTCTCCAAACTGTCAAGGACAGTGCCAAGATCTGCGAATATAGAAAGATTAAGAGTTTTTTTCTGCCTTGTTGGGTCTTCTTTCTAGCATGCCAG
S
AACATTTTTCTCATCTTTTGAACATTAGGGAATAACACCCAATGCCACCCTATAATCTCGAGACAGAAGTGGAGGATCCTCTTAAGACAAGAAATCTTTC
Celera SNP ID:            hCV8901958
SNP Position Genomic:     713327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57917):
AGATCTGCGAATATAGAAAGATTAAGAGTTTTTTTCTGCCTTGTTGGGTCTTCTTTCTAGCATGCCAGCAACATTTTTCTCATCTTTTGAACATTAGGGA
M
TAACACCCAATGCCACCCTATAATCTCGAGACAGAAGTGGAGGATCCTCTTAAGACAAGAAATCTTTCAAAGCCAAATAATGAATTAATCCAAAGCCACT
Celera SNP ID:            hCV8901959
SNP Position Genomic:     713359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57918):
CTTCGCAAAGGGAAATAACTCTTCTGCTAACCCTCCTGCCCAACCTGAGATGAAGTATCAGGGGATGCAGTATGGATGTATTTTCCTGACGATTGGTCCT
K
CTGTCCTGGGACCCAGGTGTGAGTGCATAGGGAAAAGGGAGGAGAAATTTAATCCTGTAACTATCTCCTTATGGAAAACAGGAAACCACAAATGAATCAA
Celera SNP ID:            hCV323875
SNP Position Genomic:     187341
SNP Source:               Celera
Population(Allele,Count): cau(G,4|T,1)   his(G,4)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57919):
TCTAATATTTTAAAAAATCGAGGCTAGGTGTGGTGGCTCATGCCTGTGATTCCAGCATTTTGGGAGGCCAAGGTGGACGGATCACCAGAGTTCAGGAGTT
Y
GAGACCAGCCTGGCCAAAATGGTGAAATGCCATCTCTACTAAAAACACAAAAATTAGCTGGGTGTGTGGTAGTGTGTGCCTGTAGTCCCAGCTACTCTGG
Celera SNP ID:            hCV9663514
SNP Position Genomic:     363049
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   afr(C,1)   his(T,5)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57920):
ATTTATGTTATTATTATCATTTTTCATGTGTAGATGTGGTGATCGTTTGTGCTTTGTTAAATATTCCTCGTCTGTCCTTCTGGGGATGATGCTTTTTCTC
C
CTTTTTGGTCAGGCATAGATAGGTGACTTGCTTTAGCCAAAGAAGCATGAACTGTCACTTCAAGGGGGAGATTTACAAGCCAGTGCAGGTGGATTCCCTG
Celera SNP ID:            hCV15788687
SNP Position Genomic:     817568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|CC,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57921):
GGGCATTAATGCATTTAGCAAAGACTTCCTGAGTGTCTGCTTGGTCGAGTGACACAAACTGGAACAGAGCATAGCCTGTCTTCCAGGAACCGGCACCAGC
R
ATGTCGTAGGCTGAGGGAGAAGCCACAGAACTGTGAGTGACATGTTTCTTTGGCTGCTCCCGACACAAGGAACTGCAACTAAATTGAAGGCTTGAGGACA
Celera SNP ID:            hCV1445010
SNP Position Genomic:     790345
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(A,1|G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57922):
CTGCTTGAACCTGGGAGGCAGAGGCTGCAGTGAGTCGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGTGAAACTCTGTCTCGGAAAAAAAAAAA
A
AGAGTTTAATTCATGCAGAGCTGGCTGTGTGGGAGACCAGAGTTTTATTATTACTCAAATAAGTCTCCCCCAAAACTCAGGGATAGAGATTTTTAAGGAG
Celera SNP ID:            hCV15788688
SNP Position Genomic:     815960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|AA,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57923):
AGGGAGAAGCCACAGAACTGTGAGTGACATGTTTCTTTGGCTGCTCCCGACACAAGGAACTGCAACTAAATTGAAGGCTTGAGGACAGGAAGCACCTTAG
Y
GGTTCGCCTTTCATTTGAGTGGGCCCAGGGTCCAGAAAAGGGTAGATATTCAGGAAGAATTGATCACCTTTTGGATGCCACCACACATGCCTAGGCACAA
Celera SNP ID:            hCV1445011
SNP Position Genomic:     790459
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5|T,1)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57924):
AAATATTTATTTTGAGAGCAAGCACGGGGGTTTATGTGATGGCTCCACAGAGCAGTGAAAAGACTCCCGCCCTACTGCTCGCAACCTCAGATGTCCCTGG
S
CACTAGCCCATCTGTATGTCTTTAAAAAAAATAAATTAAATTTTTAAAAACATGACTTTCTGGCCAGGCGCAGTGGCTCATGCCTATAACCCTGCACTTA
Celera SNP ID:            hCV16290806
SNP Position Genomic:     583068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57925):
TCCGGTGACATCCTGGATTAGACCCTGAATCAGAAAAAGGACTGTAGTGGGAAACTCGTGAAATCCTAAATACAGTCTGTCATTTACTTAATAGTAACAT
W
CCATTTTCATAAGCATACCATGGGCTGGGCATGGTGGCTTATGCCCGAAATCCCAGCATTGCGGGAGGCTGAGGCAAGCTGATCACTTGAGGTCAGGAGT
Celera SNP ID:            hCV1445012
SNP Position Genomic:     790822
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57926):
AACCATTTCACAAATATTTATTTTGAGAGCAAGCACGGGGGTTTATGTGATGGCTCCACAGAGCAGTGAAAAGACTCCCGCCCTACTGCTCGCAACCTCA
R
ATGTCCCTGGGCACTAGCCCATCTGTATGTCTTTAAAAAAAATAAATTAAATTTTTAAAAACATGACTTTCTGGCCAGGCGCAGTGGCTCATGCCTATAA
Celera SNP ID:            hCV16290807
SNP Position Genomic:     583057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57927):
GACTCATTTAACCATTTCACAAATATTTATTTTGAGAGCAAGCACGGGGGTTTATGTGATGGCTCCACAGAGCAGTGAAAAGACTCCCGCCCTACTGCTC
S
CAACCTCAGATGTCCCTGGGCACTAGCCCATCTGTATGTCTTTAAAAAAAATAAATTAAATTTTTAAAAACATGACTTTCTGGCCAGGCGCAGTGGCTCA
Celera SNP ID:            hCV16290808
SNP Position Genomic:     583048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57928):
TTTGTATATTTAGTAGAGACGGGGTGTCACCATGTTGGCCAGGCAGGTCTTGAAGTCCTGACCTTAAGTGATCCACCCTCCTCGGCCTCCCAAAGTGCTC
R
GATTACAGGCATGAACCACTGCGCCTGACTGTACTTTTTTTTTTTTAAAGTATACCCATACCCATTGTACACATTTGGTATTTTTTCTTTAAAAAAAAAA
Celera SNP ID:            hCV1445016
SNP Position Genomic:     793597
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,7)   afr(G,7)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57929):
GAACAAGGGTTACGTTTGCTGTATCTGGAGAAAGTCCATAGTTTATGATGAATTTTCTATTAATGTAAACTCCCACTGTTTATAAGTCACCCAAATTGTT
K
GTATTAAATTAGATGTGTACCATCTTATGTCTCTTCTTTCAGAAAATGAATCTCTGTTTTTTTTTCTCTTTCTCCTAAATGTTAGGAATTTTCTGAAGTT
Celera SNP ID:            hCV1445017
SNP Position Genomic:     797329
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57930):
AATTGCTCCTAGGGAAATACACATACACACACATGTACACACATACACATACACACATTTTTTCCTAAACAACATCAATGTCATAACAGTTTTGAAGCAC
R
TATACACACTGACACATAGATTTTGTAAATGAGGCACATCTATTCTTGAAATGCAATTGCTTAAAAATGGAAGTTCTGAAAATAAATAAAAAGAAACATC
Celera SNP ID:            hCV1445019
SNP Position Genomic:     797568
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57931):
CAATAGAAACACCAAGAACATGGATTCATCAAAGGAAAAATGTTGAAGTTTCCATTTTTATGCTTCCTGGTAATCCTTCAGCCCTTGATGGAAATTTCCA
R
ACCTAAACCAGTGAATTAAGAGTATGGGGAAGAGGAGCCCTCATACAGTTCTGTTAAATGGTCCTTTAATATTCTTCTTCAGAGTGACGGGTACCCCTTG
Celera SNP ID:            hCV2773400
SNP Position Genomic:     717507
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   his(A,1|G,5)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57932):
CCACAATACGCCTCCCTTTGGCGTGAAATGGGGCAGAAAGTGCCCCAAACAGCTGTTATTTTCGCAGTGATTCATTCATTCATTCATTCATTCATTCATT
H
ATTCATCCACCCATCCATTCATTCATTCACTCATCACATGGCAACTCATCACCCCTGTATACCAGACCCAGTGCCAAATACTGGGGAGATGTGTGTGAAC
Celera SNP ID:            hCV16202150
SNP Position Genomic:     1099779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|CATT,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57933):
GGGCCTAGGCCCAAGCAACCAGGACTCCCTGTAGTCAACCCCACTCCTCAATTTTTGGCACCCATGTTATTCCACCTCAAGATCATGTCCTCTTTTAACC
Y
CTCTGAATATGCTCCTCCTGTGATACCCATAGGGACCCTGAACCTCTAGTCCTCAAGAGCAGTCATTCACCCCTTTGGACTATGGATCCCTTTGCAACCC
Celera SNP ID:            hCV2773401
SNP Position Genomic:     715617
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,5)   afr(C,3)   his(C,3)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57934):
ATGTCACTGAGTACATCCTTGCTGTTTTTCATGAATTTTCCACTGAGTCGCAACATGCCACTGGCCAGTGAAGGTCAGGCAGGAAACAGATTAACAACAT
S
TCATACCACAATGTCAAAATACTTAAAAGTGTTTACAGATGCCAGTGACACCCAGTGAATCTAAAACAAGAGGACCAGAGCAGAAGTAAAACTATTCTTG
Celera SNP ID:            hCV2773402
SNP Position Genomic:     714705
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,1)   afr(C,4)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57935):
GCATCCACCAAGTGCCTGGTGCAGACTGGATGCTCAATAAGTCTTTGGTGGGTCCATGTATTGAATTGGAATCTGCACATTATGGCCATTATTTAGGTTT
M
TTGTGTCCTAATCTATGTCACTGAGTACATCCTTGCTGTTTTTCATGAATTTTCCACTGAGTCGCAACATGCCACTGGCCAGTGAAGGTCAGGCAGGAAA
Celera SNP ID:            hCV2773403
SNP Position Genomic:     714590
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(A,4)   afr(A,4)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57936):
TTGTCTTCTCCTCTGAGCGGGAACTGGGCAATTGGAGGTTCTTTCCCCTCCCGTGCTGGTGGGAGAATTGTTTAGTAGGTCATAAAGTGGAATCTCCATT
Y
CAGTCTGATCCGGTCAATTCTGGTAGGACTTCATCCAAGCACAAAGAAACCTTTGTTTTCATTCAAGACTTCCCTAAAAGGTGGCTGGGTGCGGTGCTCA
Celera SNP ID:            hCV11514351
SNP Position Genomic:     201088
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57937):
ATCGTGTCCAGCCTAAATGGCATTCTTGGAAGTAAAACCACAGGGGATCTGTTGGAAGTGGCATGATGGAGGAATTTTAAAAGAATTGAACAAATAAAAT
R
GTCAGAGCTCAAAAATTGAGTACTGCTTCGTTTCTCCCAAATAACCATCACCAGACAAACAGGTGTGTGTGTGGGTGGGGGAGGTGGCCTGGTGGTACTT
Celera SNP ID:            hCV2773404
SNP Position Genomic:     711266
SNP Source:               Celera
Population(Allele,Count): cau(A,1)   his(G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57938):
CTGTCTGTTTTCTTTTCTTTCAAATGTTTCACTTAATTCCCTGATATAATAAGGCTTCCAAATTCTTGGTGTTTTTCTACAACCAAGACCTTGAACTTTT
K
CCTCTCAGGATTTCTTTCATGAGAACCCATTTTCTGGCCATTTGGATATCATTGATGAGGGAATTGAAGCATTTCCCTATTCTTTAGAGTTTCATTAAAG
Celera SNP ID:            hCV8901960
SNP Position Genomic:     713641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57939):
TTCCAGTAACAATTGTTGCATAACAAACCACCCCCAAATTTAGTGGCTTAAAACAACAACATTTATTTTGTTCAGGAATCTGTAGTTTCAGCAGGGCTCT
S
AGGAACAGCTTGTCTCTGCTCCAGCATCAGCTGAAGCAGCTTGAAAGCCAGGGTCTGAGATCATCTGAAGGTTGTTCACTCATGAGTCTGAGGAATGATG
Celera SNP ID:            hCV8901961
SNP Position Genomic:     713852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57940):
GTCTCAAGGAACTATGATAAGTAGCAAACAATATCCCAGAAAAATCTCCAGTCAAAAATCCACTGGAGGCCAGGTGCGTTAGCTCATGCCTGTAATCCCA
R
CACTTTGGGAGGTCGAGGCAGGAGGATCTCTTGAGGCTAGGAGCTCGAGAACAGTCTGGGCAACATAGCAAGTCTCTGTCTCTACAAAAAATACAAAAAT
Celera SNP ID:            hCV2773407
SNP Position Genomic:     705162
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(A,4|G,2)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57941):
GCTCTCAGGAACAGCTTGTCTCTGCTCCAGCATCAGCTGAAGCAGCTTGAAAGCCAGGGTCTGAGATCATCTGAAGGTTGTTCACTCATGAGTCTGAGGA
W
TGATGCTGACTGGTGGGTGGGACCCTTGCTGGAGGGTCTATTGGCTGGAACACCTACACATTGTCTCCATGTACCCTGAGCTTCCTCACAATATGGCGGC
Celera SNP ID:            hCV8901962
SNP Position Genomic:     713947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57942):
GTTTTGAGTACTTAGTACTTTTTAGTATGATTTATTTAATAGTAACCTTATATAATGTTTTTCTTTTAATTGTTTTATTGAGATGTATTTCATACACTTT
M
CAATAAGCCCATTTGAAGTGTAACATTCAACTTTTTTTAGTATATTCGCATGGTTATGTAATTTTCATCAAAATCTAATTTTAGAGTATCTTTTTGTCCC
Celera SNP ID:            hCV2773408
SNP Position Genomic:     693998
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(A,1)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57943):
ACTCAACAGTTGCTAATGTTTTGCCATGTTTTGTCAGTTCATCTATCTGTCCATCTCTTTGTCCATCCATCCAACTACCCACTTACCCATCCATCCATAC
R
TTTATCCATCCATCTACCCACCCATCCGTCCATCCATCCATCCATGCATCCATCCATCCATCCATCATCCATCCATGCATGTAAGTTGCAGACATCAACA
Celera SNP ID:            hCV11514356
SNP Position Genomic:     208452
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,2)   his(A,2)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57944):
AGTCAATTTCATCTAGGAGCATTTTATGGCTTATGGAAAGAAATATTCTCTTAGATTGAAGGGCGCCAGCCTGTAATGGGCATCAGCTGATTCTCAGAAA
R
AAGAAACAACGTACTGTTACATAATTGGGGCTTCTCCAAAGTGGCCTGACCAAACTGTAGAGCTGCTTGTTTGTCTGATACGGTAGCCATTAGCCACATG
Celera SNP ID:            hCV8901963
SNP Position Genomic:     715119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57945):
AAAGTGGAGTTGGGGAACACGTTATTATATAGTATTTTCACCACACACAGGATACAGTCAATGACTTCAAGAGCATAGGTAACAGTAAAATGTAGTAAAA
S
AATTTAGAAGTCATGAGTTTTGAGTACTTAGTACTTTTTAGTATGATTTATTTAATAGTAACCTTATATAATGTTTTTCTTTTAATTGTTTTATTGAGAT
Celera SNP ID:            hCV2773409
SNP Position Genomic:     693881
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,2)   afr(C,4)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57946):
TCCATTTTAAAGCGTTATTGAATCCATACTAACCTGATCATTACATATTTACTAATTGATGATTACTAAAAATGTGGACCTTTGTGAATTTCCGATGTCA
Y
AGAAGGGTGTTCTTAACTGGAAAAGTCAGTAGCCAACATTCTGGGAAGTAGAGGCCTCTTCCTCACTGCTTCATTGGTTTAAAATAAACTCCAACAGAAA
Celera SNP ID:            hCV8901964
SNP Position Genomic:     715960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57947):
CGTGGTGTGTGATCTTGACCACTAGCCTAAACTGCTATTTTATGTCCACCCATCAACCTCTACGGCTGCCCCTCATTTGAACACACAAAATATAGTTGTG
Y
GGCTTGGTGGAGCCATCTAAATTCCGTTAGGCCATTTGCCAATGCTGCTATTAGGGGCGAAATGTCATGCGCTTGATCTAAATGTACTTAGGAGAATTCT
Celera SNP ID:            hCV8901965
SNP Position Genomic:     716302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57948):
CACCTGGATCTGTTAAATGGCAGCTTAGCTATGAAATATCATGTTCTGCCCAATCACCTACCCTGCCTCATATGATCAGCCGGTATATTTATGTGGACAC
R
TGCAGCCACACTTGTTTTTAACATTTGAGAATGACAGCGTATTGGCAGTTCATATAAGCTATCAAATATTACATGTCAACTCAGAAAACATCCCTAGGAA
Celera SNP ID:            hCV8901966
SNP Position Genomic:     717791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57949):
CTGTTGTACACTGTCCCTTCAATAAAAGTTGCTAACACCACCACCTTGCCCTTGAATTCTTTCCTGGGCAAAGCCAAGAACCCTGTTGGCCTAAGCCGCA
R
TTCTGGGGTTCGCCTGCCCTGCATCACCAGCACAGTGGAAGGCCACAAGCTCACAGCATTTTCATCCGTAAACAAAGCTTGGCAATATCTCTGATGGTTA
Celera SNP ID:            hCV8901967
SNP Position Genomic:     727142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57950):
GGCTAATAAAGTAGATGAGTTTCAGGATTGCAAAATATTGTGATCCTGGCCTTTGTCCATTGTGTAATCTTCACAGTGACCAGAGTGTTTGCAGTTCCTA
S
GAAGTTCACCCATTCCCAACAGTGTCCCAGGGTCAAGCTCAGATGACCTGTGGTATTTTTATACCCATATATGTGTCAATGTTTATAACTTTTAAAGTTG
Celera SNP ID:            hCV8901968
SNP Position Genomic:     728956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57951):
AGGGTCAAGCTCAGATGACCTGTGGTATTTTTATACCCATATATGTGTCAATGTTTATAACTTTTAAAGTTGTTTTCAGGAAGCACTGAGGCATGTGGTC
R
TTCACAGGTGACAAAGACAGAGGCTCAGGGAACTCAGTTGGTTGCTGAGCTTTAAACCCAAGTCTATTTCTGAGGCTGGACTGAGTCTTTGAGAAAATGC
Celera SNP ID:            hCV8901969
SNP Position Genomic:     729085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57952):
ACATTTTTTCCTAAACAACATCAATGTCATAACAGTTTTGAAGCACATATACACACTGACACATAGATTTTGTAAATGAGGCACATCTATTCTTGAAATG
Y
AATTGCTTAAAAATGGAAGTTCTGAAAATAAATAAAAAGAAACATCAATAAATAAAAGCCCCATTTTCATATTCTTATTTGACCTCTTGCCTCTCCATCA
Celera SNP ID:            hCV1445020
SNP Position Genomic:     797622
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57953):
TTAAACAATTACTGTATCTGATTTTTCATTTTTCATTTTTTTTTTTTCTGGAAGAAAGAGCAGATCTGGATAAAGTCAGTATACAATGTGGTCTTTGGTG
M
CAGACCCAAGTTCAAGACCAAGGTGTATGCATGGGTTTGTTCAAGTTGTCTACCCTTATTATCCCCTCAGTGAAACATGATTAACCATGCTTACCTTGAA
Celera SNP ID:            hCV16290815
SNP Position Genomic:     582332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57954):
GAAAATAAATAAAAAGAAACATCAATAAATAAAAGCCCCATTTTCATATTCTTATTTGACCTCTTGCCTCTCCATCATTCTTAAATTTGACCTCCATCAT
K
CTTAAATTTGACCTCCATCATTCTTAAATTTGACCTCCATCATTCTTAATCCTCATGTTCTTAATGGACATCCCTCCCACCCTATCTGGGCCTTCTGAGA
Celera SNP ID:            hCV1445021
SNP Position Genomic:     797746
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57955):
TGCTGTCCTGGTTTTCACACTGAAAGTTCCGTATCCTAATAAGCCTCTCATCCTCAGCAACGGAGGACAGTTGCCCACTCAAAGCCTTGTGACATTCTAG
R
GTATCCTATTTCTACATGGTGGGAATCTAGAAGACGGAGAAAGAATTTCTCATTCCCGAAGGAGCATGGATTATCCTTGGTTGTAGTGTTTATGTCCACA
Celera SNP ID:            hCV25654206
SNP Position Genomic:     332299
SNP Source:               Applera
Population(Allele,Count): afr(A,2|G,8)   cau(G,4)   total(A,2|G,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:57956):
TAAGACTGGAATGTGGGTGTGTGCACTCCTCATGTTCCGGTTTCTGTGATCATTCAGGCATGCACAGGTATCCTGATGGGTAGCCAGGTCATTAGGCCCA
R
AGTCGGCAGTGTAGCATGGCAAGAGAAGTCATTGCATCTCCAAACTGTGCCTAAATTGCCTGTAATGGGTTCTTTGCAACTTGCAGAACCAGATCTTACC
Celera SNP ID:            hCV16290816
SNP Position Genomic:     579967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57957):
GACCTCCATCATTCTTAAATTTGACCTCCATCATTCTTAAATTTGACCTCCATCATTCTTAATCCTCATGTTCTTAATGGACATCCCTCCCACCCTATCT
K
GGCCTTCTGAGACTGTTCCCCCAGCCCCAGTCAGGAGGGCTTGTCCACAAGTTGCTGTCTGAACTGGGCAAGCCTCCTGGCTTCCCTGAAATGGTGCTGA
Celera SNP ID:            hCV1445022
SNP Position Genomic:     797834
SNP Source:               Celera
Population(Allele,Count): cau(G,5|T,1)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57958):
CCGTGTCATTGTGGTCTCCTCAGAGTCCCATCGGTGGGTTTGAATTGCATATTTGTTCACTTATCCCCTTTCTCATACCAGCTAATATTCCCCCAAGGCT
S
TCATTCTGAAAATAATTTTCATTAGTCCTGCTTGAGACATGTGGGTGGACTCAGCTTGGCTCACTTAATTTTTCCAGGTCTTTTTTGTTCGCCTGTGATT
Celera SNP ID:            hCV25654207
SNP Position Genomic:     332735
SNP Source:               Applera
Population(Allele,Count): afr(C,22|G,8)   cau(C,32)   total(C,54|G,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:57959):
TGACTAAGACTGGAATGTGGGTGTGTGCACTCCTCATGTTCCGGTTTCTGTGATCATTCAGGCATGCACAGGTATCCTGATGGGTAGCCAGGTCATTAGG
M
CCAGAGTCGGCAGTGTAGCATGGCAAGAGAAGTCATTGCATCTCCAAACTGTGCCTAAATTGCCTGTAATGGGTTCTTTGCAACTTGCAGAACCAGATCT
Celera SNP ID:            hCV16290817
SNP Position Genomic:     579963
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57960):
GCTTGTCCACAAGTTGCTGTCTGAACTGGGCAAGCCTCCTGGCTTCCCTGAAATGGTGCTGATGTCTTCACTTCCTGCCACCTTGGCAACCTTTGTAGTT
S
CTCTCTTTTTGCCAGGGGAACAAATTAAGAGAGAGAAGAGTGATAGTGTCTACATGTGGTCTGCTCACTCAGCCAGTATTTTCCACAGCCAGTCTTTCCC
Celera SNP ID:            hCV1445023
SNP Position Genomic:     797973
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   his(C,1)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57961):
CAATATGATGGCTAGTCTGTTTCATAGTGAATAAAAAGTGATCCTGGATGAATGAATAAAGTGAAATTCAGATAATTTTTCTCAAAACTGAAATTGTTTA
M
ATCTTCCTTTAGTTCTCTTTTTTCTGCCTGCCCCTTCTTTCATATACCCTGTTTTTCACCTCTTTTGTCTCAGTCCCATCTGATATTTGAATAACAATAT
Celera SNP ID:            hCV1445024
SNP Position Genomic:     798537
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(A,2|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57962):
TCTCCAACAAAAAACGACTATTGGGCGATGCTGGCTTATAACAGGTCCAAGCTCTGCAACATCCTCTTCTCCAACGAGCTGCACCGTCGCCTCTCCCCAC
R
CGGGGTCACGTCGAACGCAGTGCATCCTGGAAATATGATGTACTCCAACATTCATCGCAGCTGGTGGGTGTACACACTGCTGTTTACCTTGGCGAGGCCT
Celera SNP ID:            hCV25654208
SNP Position Genomic:     340250
SNP Source:               Applera
Population(Allele,Count): afr(A,4|G,34)   cau(G,38)   total(A,4|G,72)   
SNP Type:                 MIS-SENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): afr(A,4|G,34)   cau(G,40)   total(A,4|G,74)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:57963):
AATTTCATATATGAAGGCAAAGGAAAAAAAAATTAAACTTTAAATAATGACCAGTTATACTTCATCAACTCTAACAAATGAAGGAGCAGAGTTGGTTTTC
Y
GGAGTTTGCTTCAGTTCTTTGATATGGTCAGTGTAGGTCGGGGAGGTCTTCCCTAGCTTGAGAAATCATAACCTAGGATATTTAAGCTGTCAGTAATAGT
Celera SNP ID:            hCV1445025
SNP Position Genomic:     799309
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57964):
TCGCAGCTGGTGGGTGTACACACTGCTGTTTACCTTGGCGAGGCCTTTCACCAAGTCCATGGTAAGAGAACAGCTTCTGGCGCCGCAAACACCTTGGGTC
Y
TAGAGAAACCTGCACACTTGTGTCTCCACCTTTTTACCTCTTGCGGGCATGAGTCTGGTCTCAGTAATAACATTGTCCAGCCCATCATAAAGGGCTCTTG
Celera SNP ID:            hCV25654209
SNP Position Genomic:     340405
SNP Source:               Applera
Population(Allele,Count): afr(C,36|T,2)   cau(C,38)   total(C,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:57965):
TCAGTAATAGTGTTTTAAAACTCCAGGCCTATAATAAAGTAAAAAGTGTGTCTGATAAAATGGGTTTTTTTCCTTGCTTAGTGAATGTCTTCTGTTTCTC
K
CTAAACATTGTCACTTGCCAAACCATGTTTTCTGTTTCATACTAATTTTCTACTGGCAGTGAGACCAGCGGAATCTAAGAAATTGCATACGAAATTCAAG
Celera SNP ID:            hCV1445026
SNP Position Genomic:     799499
SNP Source:               Celera
Population(Allele,Count): cau(G,7|T,2)   his(G,7)   total(G,14|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57966):
CAGGCCTATAATAAAGTAAAAAGTGTGTCTGATAAAATGGGTTTTTTTCCTTGCTTAGTGAATGTCTTCTGTTTCTCGCTAAACATTGTCACTTGCCAAA
S
CATGTTTTCTGTTTCATACTAATTTTCTACTGGCAGTGAGACCAGCGGAATCTAAGAAATTGCATACGAAATTCAAGGATTGGAAAGAAGAAGAGGAAGT
Celera SNP ID:            hCV1445027
SNP Position Genomic:     799522
SNP Source:               Celera
Population(Allele,Count): cau(C,8)   his(G,1)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57967):
ACCACATGCTAAAATAAAAAAAAATGAACCACATGCTAAAATCAAATGGCTTCTGCACCTGTGTGCGTTCCTGGACTCTGGGGTCACAGGATGGCTGATG
W
GATGCCTTCGAGAAATTAATACTCTAATGAGGGAAACATCCTTTCATGTTGGTGCAAGAGACGTTCTAGGCCTGGTTCTACCTCTAGTTGGAACGGTGGT
Celera SNP ID:            hCV1445028
SNP Position Genomic:     799780
SNP Source:               Celera
Population(Allele,Count): cau(A,10)   his(T,1)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57968):
GCGTGTGTGAAACACAAGGTCACCTGCCAAAAGCAAAACAATTAGGCCAGCATTGGGCTAGGTGAGGATCCATTGTCTTTTGGGCAGGTGATTGTGATAC
W
ATAGGAGCCGGTGTCCTGTTGATGGCATCCCACAACTTTCTAACCTCTGTTGTAGAGTTTTGTTAGCCACGATTTGGACCAACCTGCAGTTAGGCCAAGG
Celera SNP ID:            hCV1445029
SNP Position Genomic:     800120
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57969):
TTGAACCATTTGACACATTTCGCTAGCATTGGGAAAATCCCCATTTTCCTCACTATCCATTTTTCTTCCTCTCTTTCCTTCCTCTTTTCCCTTCTTCCTC
T
TTTTTTTCTTTTCTTTCCTTCCCTTTTTCCTTTTCTTTCCTTCTTTCCTTGCCATTTAAAACATACTGATAACTTGGCAGCACAGGGCAGTGATTAAACT
Celera SNP ID:            hCV11514362
SNP Position Genomic:     212427
SNP Source:               Celera
Population(Allele,Count): cau(-,5)   his(T,1)   total(T,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57970):
GAAATTCTTTCACAACTCTTTGATTGTACTAAAACTTTGAACACTTTAAATGGGTGAATTGTATGGTATATGAATCATATCTCAACAAAGCTGTTAAAAA
A
TTGTATGAAAACTGTGATGGGATTCAAGTAGTCTAACGCTCAAATTTCCCAAGTGCCCTCATTTAAGTCTGGACCACGACAGGAACCCAGATGTGGCCTG
Celera SNP ID:            hCV11667689
SNP Position Genomic:     877445
SNP Source:               Celera
Population(Allele,Count): chn(-,5)   cau(-,5|A,2)   total(A,2|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57971):
GTTTGCTGGCTCATGCGTTTCATGCCTTCTCTATGGTACCATACAGGCACTTTGTCTCCCAGTGGAATATAAGTTCTTTGAGGCCAAGGACTGTGTCTTA
Y
TCTGTGTTGCATCCCTTTGGCTTCAGCCTCATTGTCTTGAGTTTATTAAGCATTTGGAACATTTCAGCTGAATGAGTGAATGAGTGAATGAGTGAAGCCA
Celera SNP ID:            hCV8901970
SNP Position Genomic:     741358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57972):
TTTGAGGCCAAGGACTGTGTCTTATTCTGTGTTGCATCCCTTTGGCTTCAGCCTCATTGTCTTGAGTTTATTAAGCATTTGGAACATTTCAGCTGAATGA
S
TGAATGAGTGAATGAGTGAAGCCATCAGTCAAATCAGAACACTGCTCACACATGCATCCCAAGTCCAGCTGTCGAACGTCTGGAACTGAGCAGTATGGAG
Celera SNP ID:            hCV8901971
SNP Position Genomic:     741434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57973):
ACCATGTCCCCATTGAACACTGCTCTGTGCTGAGTCTGCAGAATATTTAAATAAGGGGTTAATTTATAAAGTGAGCTACGGGAAAGTTTCCAGGATTGTC
R
TGCGTGTGTCTCATAAATCGGCACAAATTGAATCTAGGTTTCTAGGTTTCTGTGCCCCTCAGCTCCTAAGTAAACCAAAATTTATTGAGAGGTGTATAGG
Celera SNP ID:            hCV8901972
SNP Position Genomic:     741787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57974):
ACTTGCCTAAGAACACACAGCAGTTCTGAAACTCACCCTGTGCTAATCTGACCTCGTGAAGAAATTGAGCAAACTAGGCTCCAGGGAGAAACGAAAACAA
Y
AACAACAAAAAATGTATTGCCAAAAAATTGCTAGCAGACATCTAGAAAAATGTCTTCAACTTCTTTTGGTAGGAAAAGAGGAAAAATTCAAATCTGAATT
Celera SNP ID:            hCV8901973
SNP Position Genomic:     743171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57975):
TACATAGTGACATGAAAATTGTGTATTCACATTGTTCTATTGATTTCGTTGAGAAAGTGACCTTGTATGCACACATGAGAATTTAGAGATCTATATATAC
Y
GCCTGGCCTCTTCTTTGTAAGGGTATAACAGCAGTGGTTAACATGCATTTTTTTTTTTTAACAGTTAGATTTACTCTTCCTTTGCACAGACTAATAGCAC
Celera SNP ID:            hCV8901974
SNP Position Genomic:     743545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57976):
CAGCTCTGAGAGCAAGGCCAAATCACCAGATTGATGCCTTTGGCTGTGTATCTAAAGGACGTGCCATTGCAGCTAAGTGGACCTGAATGTACAGTAAGAC
Y
TAGTGGTCACCAGAATGCATGCCACCCCGGTGCTTCTGCATGCAAAGGGTGCGGGCCATGTGCCAGTCACAGTGGAAAAGGCATGCTTCGTGTCAGCACA
Celera SNP ID:            hCV11514368
SNP Position Genomic:     218026
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   his(T,2)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57977):
CCGAACATCAATCAGGGAAGATAAACAATGGGAAATGATAGGTGTACAAAAGGGAAAATGGCAACAGCACATGTGGAGGGAAAGACCGCAGAATTCTGGC
R
GGGTTATAAATCATACAGTCAAATAATTTCCGTGCAATTAATATCCTCAAATTAAAACATACGTTTTTAAAGAAAGATTTTGCAGACTTTTAAGCTGGGC
Celera SNP ID:            hCV8901975
SNP Position Genomic:     752034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57978):
CTTCCTTCACCCCCAGGAGCACTGAAGCAGACACTGATTCCTCTGCAGTTGTTGGGCTTTTGAGCTACTTCCCTCCTGGGGAGATGCGTGTTAACTGTTT
M
ATGACTGGCAATGCCGTAACAGTGAGCAAGCAATGTGACCTTACAAATACATGTGCAGAAATGCAGATGAGTGGGCCTAAAGAATCCAGACTCAACTTAC
Celera SNP ID:            hCV11514369
SNP Position Genomic:     219016
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,4)   afr(A,3)   total(A,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57979):
TTTTATTTTAGATAAAATGAAAAGATGTTACTATGCAGGTAACTTTATTTATTATTTGCATGCAGTTTATCAAATAGAATTCCTTGGTTCAGCAAAATGA
M
ACCTTTAAGTCTTTTAGCACCAAATGTTTGAAATTATCATGAAACACATTCTAATTTGGCAGTGAGTTCAGGAGATGAAGACTGTCCTTTAGTTAACATC
Celera SNP ID:            hCV8901976
SNP Position Genomic:     761772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57980):
TGTTATTTTCCTTTTGTATCTAGCCTAACATTGACTATCTTGTCATTTCATTTTCCTATAAAATGCCTCCACCAAGGCTGAATCTTTGAATTGATCACTA
S
AGGCCTTTTCCCTAGTAGTAACATTATAATAAAACTTTGACTCATGCTCATAACTCGATTTTCCAAAAAGTTTTCCTTTACAGGAGAAAAGAACAGCTGC
Celera SNP ID:            hCV8901977
SNP Position Genomic:     765119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57981):
GGGTCCAAGCCTCCCTGAAGCAGATCTCTATCCTGTCACCCTGCTGGAAATGAAACACTTAGGGGTTAGAAGGGGATCAAGGAAAGTCCGAGAGTTGGTT
S
TGATTATCTTCAGTCAGAAAGTGCCTACTTTTCCAAGCATCCAGACTGCAACCTGTCTTTCCTACTCAAAATGGTTTTTATGGATTCTATTCTTATTTGG
Celera SNP ID:            hCV8901978
SNP Position Genomic:     776725
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57982):
CTTAGGGGTTAGAAGGGGATCAAGGAAAGTCCGAGAGTTGGTTGTGATTATCTTCAGTCAGAAAGTGCCTACTTTTCCAAGCATCCAGACTGCAACCTGT
Y
TTTCCTACTCAAAATGGTTTTTATGGATTCTATTCTTATTTGGCAATTGCCTGGACTACAGTCACCAACACAAGTTTATACGCAAGAAGTGCACACAGCC
Celera SNP ID:            hCV8901979
SNP Position Genomic:     776782
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57983):
GTGCTGGCCTTTTCACTCAAGTTCTCTGATGTAACTGCCCACAGTAATCCTGTAAGGTATGGCTAATCATTTCCATTTTATAGATTAGGAAACCAAGGTC
M
AAAGTGGTGAATTGATTTGACCAAAATCACAGACCCAGGAATTTCCTCAGCCAAGAGCCTACAGCAGCTGTGTCTTAAGACTGTGCCCTTTCATCCACCC
Celera SNP ID:            hCV11438600
SNP Position Genomic:     669603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57984):
GTGCAGTGAGGATGAATCAACAAGTAAATATCATGAGAATTTCTTAGATTGAAGAAATATTACTCCTATTTGGTGTCAACTCTGTGCTGGCCTTTTCACT
S
AAGTTCTCTGATGTAACTGCCCACAGTAATCCTGTAAGGTATGGCTAATCATTTCCATTTTATAGATTAGGAAACCAAGGTCCAAAGTGGTGAATTGATT
Celera SNP ID:            hCV11438601
SNP Position Genomic:     669520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57985):
TTGGCTTCTCCACAGAGGCCTGGTTCTGGTCCCTTCCCCTGCAACCCCAAGGCAGGGGGCAGATTCCCGTATCATGGTGCTCCTTGGCCTGATTCTGTGG
S
CTTTATATTAGAACTCACCTTCTGGAATCTTTTATTGTCTTGTTCTCTCTTCCAAGCTGCGCATCTTCCTTCCCTTCAGAGGTTTGGTGATCAGCGTGGT
Celera SNP ID:            hCV9664196
SNP Position Genomic:     493436
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4)   his(G,1)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57986):
TGGATTGGTGATTTTGACTAAGACTGGAATGTGGGTGTGTGCACTCCTCATGTTCCGGTTTCTGTGATCATTCAGGCATGCACAGGTATCCTGATGGGTA
R
CCAGGTCATTAGGCCCAGAGTCGGCAGTGTAGCATGGCAAGAGAAGTCATTGCATCTCCAAACTGTGCCTAAATTGCCTGTAATGGGTTCTTTGCAACTT
Celera SNP ID:            hCV16290824
SNP Position Genomic:     579949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57987):
ACCCTGGACAGATGGATTTTCTAAAATTACAGAGGAAACTAGATCTGTAACTCTGTACATTTACTCCTGTGCCAGTAACAATGGCAATATTTTAATACTG
W
AATAAATTTTTTCTTATGCATTTGCTATAAATTAGTAAATCTGTGTAAAGCTGCTTATTGCATCATCATGTAGAATTTCTACATCCTGCAGAAGTTTAAG
Celera SNP ID:            hCV8896808
SNP Position Genomic:     354911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57988):
GTCAGCTGGTGGGTGATCTCCACTGAACTCCTATTCAGAGGCTCAGTTTCTCTGCAGGACAGAAATGAGAGGCACAAAATTTCATAGCTGTCTTGCCCCT
Y
CTGTGGTCTGTAAGAATGGGACCAGGACTCCTAGTTGTGAACCCGAAAGGATTTCCATTAGGATCAGGAAGTGTGAGTTGGCTTAGAAAAAGTAAAGAAA
Celera SNP ID:            hCV11438604
SNP Position Genomic:     657776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57989):
CCTAGGCTTGGTTACAAAGGGCAATGAAGGGTCTTTTCTGTCCTTAAGCACTCACAGGTAGCTTAACAGTAATGCCTTGGATTCCTTCCTTCAAGAGCGA
Y
AGCAGGAAGCCCAGCTTCTCTGGTAGCAGAGCAGGGGTCCTCAAAGCAGACCGTGAGGTCAGAGGAGCACTGGAGTCAGGAGTTTCCATCTCCACCCTGC
Celera SNP ID:            hCV1445030
SNP Position Genomic:     800399
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,1)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57990):
GTGCTTGTTAACTTTGCACTCTATAGCCAAGTGCGATGATCAGAAAATACATACATTGAAGACACCAGAAAATAGTGTATGGATTGGTGATTTTGACTAA
R
ACTGGAATGTGGGTGTGTGCACTCCTCATGTTCCGGTTTCTGTGATCATTCAGGCATGCACAGGTATCCTGATGGGTAGCCAGGTCATTAGGCCCAGAGT
Celera SNP ID:            hCV16290825
SNP Position Genomic:     579870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57991):
AGAAAATGTCTGTCATACATTACGTGCCTTTCTCTGTCTTTCCCTGCCCCTCTCACCTTCATCGATCACACTTTTGCTTCACAGAGGTAAGAGGAAATCA
M
ACTCACACAGTATCTTTTGTTTTCTAGCAAGCTAGAACACAAGATTTTCTAGATGCATCTTTTGAGTTGATATGCAATATTTTCCTTGACAGATTTGTTA
Celera SNP ID:            hCV1445031
SNP Position Genomic:     801236
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,2)   afr(C,2)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57992):
GCTGTTTACCTTGGCGAGGCCTTTCACCAAGTCCATGGTAAGAGAACAGCTTCTGGCGCCGCAAACACCTTGGGTCCTAGAGAAACCTGCACACTTGTGT
S
TCCACCTTTTTACCTCTTGCGGGCATGAGTCTGGTCTCAGTAATAACATTGTCCAGCCCATCATAAAGGGCTCTTGAACACATTTTCATCAACTTTAGGT
Celera SNP ID:            hCV25654216
SNP Position Genomic:     340429
SNP Source:               Applera
Population(Allele,Count): afr(C,35|G,1)   cau(C,36)   total(C,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:57993):
CAGGAAGGCCCTTCCACTGAAGCTACAACTGGAGCTAAGCAGATGGATAAGCCAAAACCACCTCCGTTGCTGTGGCCCCATCTCCACCACAAGGAAGCTG
R
AGAAGGGACCCCAGAACCGGAAGACAAAAAACTTCCTTCACACACTCCCTTGCTAAGAGGAGAAGCCCCAAAGAAGCTGGATATGGCCCTTCCCTCACAT
Celera SNP ID:            hCV16290826
SNP Position Genomic:     576588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:57994):
TAACTCAGTTCTCGGAATTTTCAATCAGAAATTATCTGATGACGGGACTAATTCTTATTACGATAGTTCCAATGGATCCACCCAGGATCCACCTCCACAA
S
TAGGTGTACAGAAGCTGGAGATCCCATCATGCCGCCGGGCACCGGTTTACGAGAACTCTATGTCTTATCTTGGTAGTACGATTAGGAAAACAAACACAAT
Celera SNP ID:            hCV1445033
SNP Position Genomic:     802380
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,3)   afr(G,3)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:57995):
TGGGAAGTCAGAACTTGGTTGCTTCATGTCATATTTCCTATTTTTAAGATTTACAGATATTAACGACTCCTTGGGAAAACTGGACTTCAGTCGCCTCTCT
S
CAACAAAAAACGACTATTGGGCGATGCTGGCTTATAACAGGTCCAAGCTCTGCAACATCCTCTTCTCCAACGAGCTGCACCGTCGCCTCTCCCCACGCGG
Celera SNP ID:            hCV25654217
SNP Position Genomic:     340153
SNP Source:               Applera
Population(Allele,Count): afr(C,33|G,5)   cau(C,36|G,2)   total(C,69|G,7)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:57996):
AGTTTCTGTGCATACAACATCTTCCTTTCTCATTCCCAGTACCCTAGAAACACAGCCGTTCACTGAAGAGGATTTGAGTGTTGTCTCCTCTGTGGGGTCA
M
AACATCATGCTTCTTTCTGTTCTGCCCCATGGCAGTGGTGACGATGGCCTAGCTTCCATCCCGTAGCTTCTTGTGTTTTTCTATTCCACCAGTCTATCAA
Celera SNP ID:            hCV1445034
SNP Position Genomic:     802820
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4|C,4)   afr(A,4)   his(A,4|C,4)      total(A,12|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57997):
AAAGCTGTGTGGGAAGTCAGAACTTGGTTGCTTCATGTCATATTTCCTATTTTTAAGATTTACAGATATTAACGACTCCTTGGGAAAACTGGACTTCAGT
Y
GCCTCTCTCCAACAAAAAACGACTATTGGGCGATGCTGGCTTATAACAGGTCCAAGCTCTGCAACATCCTCTTCTCCAACGAGCTGCACCGTCGCCTCTC
Celera SNP ID:            hCV25654218
SNP Position Genomic:     340144
SNP Source:               Applera
Population(Allele,Count): afr(C,36|T,2)   cau(C,38)   total(C,74|T,2)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:57998):
TGGCCTAGCTTCCATCCCGTAGCTTCTTGTGTTTTTCTATTCCACCAGTCTATCAACCCTGTATTTGTTGTCAAATTTACACTGTCCACAGGCAAAGATC
Y
ATTCTCCTTTAGAATTTAATAGGAGGGTTTGGAAATGATGCCATGGAAACCCTGAGCAGCTTGGCAATGCTGACCCCAAATGAGAAATAACTATCATTGG
Celera SNP ID:            hCV1445035
SNP Position Genomic:     802965
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,6)   afr(T,6)   his(C,1|T,6)      total(C,1|T,18) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:57999):
GAACATTCCAGGGCCAGGTTCAGTGGATCATGCTTGTAATCGCAGCATGTTGGGAGGCTGAGGAGGGTGGACCACTTGAGGCCAGGAGTTTGAGATCAGT
Y
TGGGCAACAGGGTGAAACCCCGCCTCCACTAAAAATACAAAAAAAAGAAAAAAAAAAAGAAAAAAATAGCTGGCCATTGTGACATATGCCTGTAACCGTA
Celera SNP ID:            hCV1445036
SNP Position Genomic:     804439
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,2)   afr(C,4)   his(C,4|T,2)   total(C,12|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58000):
TTTGAGATCAGTCTGGGCAACAGGGTGAAACCCCGCCTCCACTAAAAATACAAAAAAAAGAAAAAAAAAAAGAAAAAAATAGCTGGCCATTGTGACATAT
R
CCTGTAACCGTAGCTACTCTGGTGGCTGAGGCTTGAGTATCGCCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATGGCACTGCTGCACTCTAGCCTGGGTG
Celera SNP ID:            hCV1445037
SNP Position Genomic:     804527
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,5)   afr(G,5)   his(A,2|G,5)   total(G,15|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58001):
TCTCATTCTCCTTTCCAATAAATCCTTTTATTCCCAGAAACAAGCATTCTTGTTTCAATCATTGTAACTTTGTTTTACCTGTTCTAGAACTTCATTTAAT
R
GAAATCATACCTACTGCTTTGTATGTGTCGTCTTCTGCTTAATGATTCACATAATGTTTTTGTGATTCATCCATGTTGATGGGTGTATTAGGGGTTCTCT
Celera SNP ID:            hCV1445038
SNP Position Genomic:     804818
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,4)   afr(A,4)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58002):
GCAGTCTGATTGTGCGACAGAAAAGAAAAACCCATTTTCTGGGGAGAAATTCAAGCTGGCTGCAGAAATTTGTGTAAGTGGCAAGGAACCTAATGTTAAT
S
TCGAAGACCATGAGGAAAATGTCTCCAGGCCATGTCAGAGACTTTCACAGCAGCCCCTCCTATCAGAGGCCTGAAGTCCCAGGAGGAAAAAATGATTTCA
Celera SNP ID:            hCV11667697
SNP Position Genomic:     872100
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(G,1)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58003):
AAGCAGAGCATCAAGGTTTGGAAAATTTGCAGTCTGATTGTGCGACAGAAAAGAAAAACCCATTTTCTGGGGAGAAATTCAAGCTGGCTGCAGAAATTTG
K
GTAAGTGGCAAGGAACCTAATGTTAATCTCGAAGACCATGAGGAAAATGTCTCCAGGCCATGTCAGAGACTTTCACAGCAGCCCCTCCTATCAGAGGCCT
Celera SNP ID:            hCV11667698
SNP Position Genomic:     872072
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   afr(T,1)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58004):
GTGAGGACACATCACTTGCACCTCAGTGTGAGTTTGAAAGTGTTTTCTCTGGAGAATAATTCTGAAGAAATAGGCCCTCCAGATATCAGTAGTGACAGGG
S
TATCAGTAATGTTGATTACTAAGTTCTTGCCACAGGTAGAAGCCATGCTACTGCACAAGTTTCATACTTGAAGAGTGGACATCTGACACAGTGTTGGTGG
Celera SNP ID:            hCV16132688
SNP Position Genomic:     368555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58005):
AAGAGGTGACTTGGGTGCTGTTAAAGGCATTCAGTTTTATAAAAGAAGCAGAGCATCAAGGTTTGGAAAATTTGCAGTCTGATTGTGCGACAGAAAAGAA
R
AACCCATTTTCTGGGGAGAAATTCAAGCTGGCTGCAGAAATTTGTGTAAGTGGCAAGGAACCTAATGTTAATCTCGAAGACCATGAGGAAAATGTCTCCA
Celera SNP ID:            hCV11667699
SNP Position Genomic:     872027
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   afr(A,1)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58006):
TTATTTTAATTTTTTAATTGAATTCAGCTTTACAGTATCTTTTGTAGGGGGTAATTTTAGCTTCTTTCTCCGTTGAAAACTTCAAGTAAGGAAACACTTA
Y
ATTGCTAGTGAGTGGCCAGCTGGAGTTGTAGGTCTAATTCTTTTTTTTTTTTTAAGACGGAGTTGTGCTCTTGTCACCTAGGCTGGAGTGCAATGGCATG
Celera SNP ID:            hCV11514372
SNP Position Genomic:     219819
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   afr(C,1)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58007):
ATTCAGAGGTTGTTTTTATAGCAGCAACACAGTAAGTTGGGAAGAGGGACACATTTTTAACATAGACACCAAAAGAGAGGCTGGAAGAGTTGACCACTTA
R
AAATGTCACGAGTGTCTGTGAATAGTGTTGGGGGCTGAGAGGCAAGAGAAGAAAATAGTCCTAATGTTGTACAAGTAGCAATGGAAACAAACTTGTTAAA
Celera SNP ID:            hCV16132689
SNP Position Genomic:     363896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58008):
ACCCTTCTAACCAGTGTTTGAAGTACGTAAGACGTTCATTTCCACTTCTAATGAGGAATTAGAGGAACGGAATTATAAAGGAATTCTGGTTATAATTGCA
K
GTACTTTTAGAGACGATGTCTAACAGTGCAACCCATAGAACCAGGCTGCCTGGATTCAAATCCCAGCTCTGCTATTACTGAGATCTCTATGAGAGCTCAG
Celera SNP ID:            hCV8901980
SNP Position Genomic:     779564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58009):
GGTCTAATTCTTTTTTTTTTTTTAAGACGGAGTTGTGCTCTTGTCACCTAGGCTGGAGTGCAATGGCATGATTTCTGCTCACTGCAACCTCCACCTCCTG
K
GTTCAAGCAGTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACCATACCCAGCTAACTTTTGAATTTTTAGTAGAGATGGGGTTTCA
Celera SNP ID:            hCV11514373
SNP Position Genomic:     219950
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(T,2)   afr(G,2)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58010):
CAATGGCATGATTTCTGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAGTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACCAT
R
CCCAGCTAACTTTTGAATTTTTAGTAGAGATGGGGTTTCACCACGTTGGCTAGGCTGGTGTCGAACTCCTGACCTGAGGTGATCCACCTACCTTGGCCTC
Celera SNP ID:            hCV11514378
SNP Position Genomic:     220010
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(G,2)   afr(A,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58011):
ATGGGCATGTGCTGTGTGCCATTCTCTCCCCTTATCAGTGGGTTCCCAGCTGCCTGGTGTACAGGAGGGTTAAGTAGATACCTGTTGAGTGATTGTGAAT
R
TTTTCATTCACGGGGGCAGATTTGTGTCCTACTAACACCAGACATGTCCTGTTTTCAGATTACTTCTTTTTCAACATCTGAGTACCTATAACATCTAAAG
Celera SNP ID:            hCV11514379
SNP Position Genomic:     220479
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58012):
GCCACTGCACTCCAGCCTGGATGATAGAGCGAGACCATGTCTCAAAATAATGATAATAATTGTAGTAGTAGTAGTGGTGGTGGTGGTGGTGGTAGTAGTA
S
TAGTGAATGCCCTGACTTTGGGGTTTGCAGTAAGCTAGGATTAAGTGCTTCACAGTGAGGCACAGTGGGGAGCTACTCTGAGGATGAATTGCCTAGTAAA
Celera SNP ID:            hCV16290833
SNP Position Genomic:     569539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58013):
TTTTGATAAATACCTAGGTGTGAAATTATTGACTCTTAGTGTTTAACTTGTAAGAATGCTGCCAAACAGTTGTCTAAAGTAATTGTATCATTTTAACCCC
Y
CGCTAGAAGTGTGTAAGAGTTTATGTTGCTTCACATCCTCATCAGCACTTTGTAATTTCAGTCTTTTTAATTATAGCCTTTTTGTGGGTGAGAAACGCTA
Celera SNP ID:            hCV1445040
SNP Position Genomic:     805189
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,6)   his(T,6)   total(C,3|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58014):
TCCTCTTACAGTTTTGGTTCTTTCCATGAGAAAGTATTTTTAATAGCAAAGTAATGAACAAGAAAGTATTAATAAGACCCAAATAATAATATAAACTACT
M
CTTTACTAATGGTCATTATGTGCCATGCCCTGCTCTAAACACTTGCCATGTAGTCACTAATTTAATCCTCACAAGAATTCTGTAATGTAGTGTAGTTTCC
Celera SNP ID:            hCV16290834
SNP Position Genomic:     565761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58015):
TAGTGTTTAACTTGTAAGAATGCTGCCAAACAGTTGTCTAAAGTAATTGTATCATTTTAACCCCTCGCTAGAAGTGTGTAAGAGTTTATGTTGCTTCACA
K
CCTCATCAGCACTTTGTAATTTCAGTCTTTTTAATTATAGCCTTTTTGTGGGTGAGAAACGCTATCTCTTGCTAGTTTTATTTTGCATTTTCCTAGTGAC
Celera SNP ID:            hCV1445041
SNP Position Genomic:     805225
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,6)   his(T,6)   total(G,3|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58016):
GAAATACAAAAATTAGCTGGGTTTGGTGACAAACGCATGTAATCCCAGCTGCTAGGGAGGCTGAGGCAGGAGAATCACTTCAACCCGGAAGGCGGAGGTT
K
CAGTGAGCTGAGATCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAGCGAAACAAAACAAATGAGGGTCCTCATCAGCGTGCCTTTGACACTGTCCT
Celera SNP ID:            hCV11438615
SNP Position Genomic:     634791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58017):
GTTTCTCATAACATTTGTGTGTGTGTGGGTGGGTGGGTGTGTGTGAAAGGTAGGATCACCTCTCTGTGCCTCAGTCTCCCCATCATCCTTCGGTGGTAGA
W
CAATGCTATCTGATGAGGCCTTTTTTGGGATCACCCACTCCAACATGCATGTCCTTTCTCTGTCCCCTCCTGGTGCCTGTATTAGTCTGTTCTCACATTG
Celera SNP ID:            hCV16290835
SNP Position Genomic:     563692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58018):
CAGCACTTTGTAATTTCAGTCTTTTTAATTATAGCCTTTTTGTGGGTGAGAAACGCTATCTCTTGCTAGTTTTATTTTGCATTTTCCTAGTGACTAATGC
M
TCTTTTTATGAACTCATTGGCCGTTCATATATTTTCTTTCTGTGAACTGCTTGTTTATGTATTGGCCATTTTCTAAAAATTAGATAGTCTTTTTAATATT
Celera SNP ID:            hCV1445042
SNP Position Genomic:     805332
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,6)   his(C,6)   total(A,2|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58019):
GTCCAATTTATCTTTTTCATTTGTTTAGTGCTTTCTTGTTCTAAGAACCTTTACCAATCACCAGGTCACAAAAATATTTTCCTATGTTTTCTTCTAGACA
S
TCCATAACTTCAATCTTTACATTCAGATCTATGTTCCATCTCAAATTAATTTTTGTATATGGTGTGAGGTAATGGTAGAGGTTTATTTTTCTCTCCATAA
Celera SNP ID:            hCV1445043
SNP Position Genomic:     805667
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(C,6)   afr(C,6)   his(C,6|G,1)   total(G,1|C,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58020):
ACTATTTGTTCAAAGACTAATCCTCGCGCTATTCAATTTCCTTGGCATCTTTGTCAAAAATCAGTTGACTATATATGTGTGGGTGTATTTCTAGACTGTT
R
TACTCCATTGATCTAATTTTTTTTCTTATACTTACTGCTCGATTGCCTGGAAGCTAGGTAATAATAAGGATTCAAACTTTGTTCTTTATTTCAAGATTGT
Celera SNP ID:            hCV1445044
SNP Position Genomic:     805888
SNP Source:               Celera
Population(Allele,Count): chn(G,5)   cau(A,3|G,5)   afr(A,3|G,5)   his(G,5)   total(G,20|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58021):
TTTCCTTGGCATCTTTGTCAAAAATCAGTTGACTATATATGTGTGGGTGTATTTCTAGACTGTTGTACTCCATTGATCTAATTTTTTTTCTTATACTTAC
Y
GCTCGATTGCCTGGAAGCTAGGTAATAATAAGGATTCAAACTTTGTTCTTTATTTCAAGATTGTTTGGGTTAGTTTAGATACTTTCCTTTTACATATATA
Celera SNP ID:            hCV1445045
SNP Position Genomic:     805924
SNP Source:               Celera
Population(Allele,Count): chn(T,4)   cau(C,3)   afr(C,3|T,4)   his(T,4)   total(C,6|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58022):
AGGTTGTGTCTGAGATTCAGAGGTTGTTTTTATAGCAGCAACACAGTAAGTTGGGAAGAGGGACACATTTTTAACATAGACACCAAAAGAGAGGCTGGAA
R
AGTTGACCACTTAGAAATGTCACGAGTGTCTGTGAATAGTGTTGGGGGCTGAGAGGCAAGAGAAGAAAATAGTCCTAATGTTGTACAAGTAGCAATGGAA
Celera SNP ID:            hCV16132690
SNP Position Genomic:     363882
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58023):
TCTTTGGAGAAGAGGCCCACGTTCTTTTCAGATTCTGATTTCTCCGTGATATAAATAGTTTTTTAGGTGATCACTTGTTTTTAATGTACCTACCTATCTA
W
ACCTTTCTCTCTCTCTCTCTCTCTCTGTGTGTATGTGTGTGTGTGTATAAAATTACATATCCAGTATGAAACCTAAAAATAAGATTTTGGGGCCTGTGAA
Celera SNP ID:            hCV16290839
SNP Position Genomic:     562070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58024):
TTGGTATTGAATCTGTTGATCAATTTGAGGAGGATCAAAATCCTGAAAGTGTTGAGCGTTACCATCCATGAGCATGCATCTCTCCATTTATTTAAGGCTT
S
TTTATTTATAAACATTTCAGTGATATTTGATGATTTTGAATGTGGAGGTCTTATACTTTTTTGTTAAATTAACTCTTACACATTTGATTTTTTTATGCTA
Celera SNP ID:            hCV1445046
SNP Position Genomic:     806181
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5|G,3)   afr(C,5|G,3)   total(G,6|C,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58025):
AAGATATCCCTAAAGACATCCTGCTGGTTTCAGTGGCTCATGCCTGCAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACTTGAGCTCAGGAATT
Y
GAGACCAGCCTGGCCAACATGGTGAAACCTTATCCGTAAAAAAAATAAAAAATTAGCCAGACATCGTGGTGCATGCCTGTTGTCCCAGCTATTTGGGAGG
Celera SNP ID:            hCV11438619
SNP Position Genomic:     636593
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58026):
CTTCTTCTCCAATTTTTATGGCTTTTGTTTCTTTTTCTTGTTTTAATGCACTGGCTATAGCCTGTAGGACAGTGTTGAACAGAGGTTTTGAGACAGACAT
M
ATTGCTTTATTCAGGACTTCTCTATTATATGTGATCCTAGTTGTATGTTTTCTGTACCTATACTTCATTAGATTAAGGAGTTTGAATTTATTTCTAGTTT
Celera SNP ID:            hCV1445048
SNP Position Genomic:     806558
SNP Source:               Celera
Population(Allele,Count): chn(C,7)   cau(A,4|C,7)   afr(A,4)   his(C,7)   total(A,8|C,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58027):
CTTGTTTTAATGCACTGGCTATAGCCTGTAGGACAGTGTTGAACAGAGGTTTTGAGACAGACATCATTGCTTTATTCAGGACTTCTCTATTATATGTGAT
S
CTAGTTGTATGTTTTCTGTACCTATACTTCATTAGATTAAGGAGTTTGAATTTATTTCTAGTTTGCTGAGAGTTCTTTTATAAATGTGTTCATATATATA
Celera SNP ID:            hCV1445049
SNP Position Genomic:     806594
SNP Source:               Celera
Population(Allele,Count): chn(C,7)   cau(C,7|G,4)   afr(G,4)   his(C,7)   total(G,8|C,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58028):
CTTGTCTACATTTTGAGGCTCTTCTATTATGGAAGAGGGCTAGAGAGGCCATCAGAATTTGGTTTCACTAGCCTTTGATCCTTCCTGTTTAAGGAGCTCA
R
CATTTAGCTTCACTTCCCTGTCATTCATCAGAATTCATTCTCAGATTGGAATTGTCCAGTCTTAGAGTGATTTTTGTCCCCAGTGACACTTCCCTTATAT
Celera SNP ID:            hCV11514380
SNP Position Genomic:     221319
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(A,3|G,5)   his(A,3)   total(G,5|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58029):
TGGAGGAGGATTCAAGCCCCTTGCAACGGACTGAAGTGCCCAAGCTCTAAATCCCTGCCACCCACAGCCTCTGTTGGCCCCAGGTTGTGTCTGAGATTCA
R
AGGTTGTTTTTATAGCAGCAACACAGTAAGTTGGGAAGAGGGACACATTTTTAACATAGACACCAAAAGAGAGGCTGGAAGAGTTGACCACTTAGAAATG
Celera SNP ID:            hCV16132697
SNP Position Genomic:     363801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58030):
AGGGGGTGGAGGAGGATTCAAGCCCCTTGCAACGGACTGAAGTGCCCAAGCTCTAAATCCCTGCCACCCACAGCCTCTGTTGGCCCCAGGTTGTGTCTGA
R
ATTCAGAGGTTGTTTTTATAGCAGCAACACAGTAAGTTGGGAAGAGGGACACATTTTTAACATAGACACCAAAAGAGAGGCTGGAAGAGTTGACCACTTA
Celera SNP ID:            hCV16132698
SNP Position Genomic:     363795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58031):
ATTTTACTCACCCAGAAGGAAGCCGGGTCCCTCTTTGCCCCTTTGGGTGTTTGTGAAAAGCAAGTTGTAAACACTGAATTCTATAAACTGTTGGAGACAG
R
TTCTGGAGAGACACTCAGGCTTAGCTCTAGAAAGAAACGGGTAAGACAGAGGAGGTTCAGGGCAACTGTGTTGCCTTCCTTGACTGGTGCATGGGAATTC
Celera SNP ID:            hCV15969286
SNP Position Genomic:     508941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58032):
TGTCGGGCCATTTGTTTTTTAACGAATTGCCCTTTCATCTTATATGCATGACTATTGGATATGTATCGATTACTAATTGATTGCTTGCCTCATGTGCTAT
M
ATTTAATTTTCAAAATGTCCCTTAGAAGTTAATTTATAAAGTGTCTATTACTTTAAGTACCTGTTCAATCCTGTGATCAAGAGGAAATTCACAGAGAAAG
Celera SNP ID:            hCV349321
SNP Position Genomic:     32926
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(A,5)   afr(A,5)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58033):
TAGAAACTTGGACAGAGGAAAATGAAAATGTTCTATTAATTCCACTAGCATGAGATAATCACTCTTAATATTTTGTTGCATGTTCTTTTCTTTCTTCTGA
R
TGATAGCATTTTTTTCAACAAATTGGGCTCGTAATATATAGGCACATAGATATATAATTAAAAAAACAAGAATTTCTCATGTCATTAAACATTGCTTGAA
Celera SNP ID:            hCV16290840
SNP Position Genomic:     560538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58034):
ACCCTCTGATTCAGGCTCAGCAGGAGCGGGAGAGGATGCATAGGACTACATGTTTTCTGGGCCAGGACTGGAAGCAGCATATCTCAGATCCAACCTCTTT
M
CCTTGGCAAAAATTCAGGATGTGCAGGACGAGGAGGAAAATGGGAGTAGTGACTATTTAGCCAGTCTTTGCCACATCCCGGTTCATATCTCACTCCGTCA
Celera SNP ID:            hCV11438620
SNP Position Genomic:     631496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58035):
AAGGAGAAGAAAATGAAGAAAAATTTAGAAACTTGGACAGAGGAAAATGAAAATGTTCTATTAATTCCACTAGCATGAGATAATCACTCTTAATATTTTG
K
TGCATGTTCTTTTCTTTCTTCTGAGTGATAGCATTTTTTTCAACAAATTGGGCTCGTAATATATAGGCACATAGATATATAATTAAAAAAACAAGAATTT
Celera SNP ID:            hCV16290841
SNP Position Genomic:     560513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58036):
TTCTTGTTCTCGTATCACTCAGACTAAGCAGTTGATGTAACAGATAACCCCCAAATTTCAGTGATTTCACATTTAATCTGTAAAAAATGAGGATTTGTTT
R
TAGCCCCAAAGACAGTCTAGTTTGGATTATTTGAGGACCTAGACTTCACCTGCACAGTGGTTTCACCATCCATCCCCCCATGGCCTCCATGGTACCCTCT
Celera SNP ID:            hCV11438621
SNP Position Genomic:     631302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58037):
CCTGTAGATAATACAGTCCCATTCTCTGGGGAAACAGATACCTCCGCCAGGGTCCTGATCTGAATATGATTTGGGGTGATGGAACAGAAACACCCGAGGA
S
TGTCGTTGGGGAACAGGAAACCTGTCTGTAGTCCTGGCTCTGTCTCCAATTGGCTACGAGGGCTTGTGTGTACTCTAGTTCTCTTTCCGTGACACTGCAT
Celera SNP ID:            hCV11438623
SNP Position Genomic:     621338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58038):
TGAGTTCTCCATAAATGTTAGTTATTATTTTAATATTACAGCATCTGTGGAAACAGTGGGTTTATATTTCAGCGTCCTGAGAAACACTCATCCTGAACAA
Y
GGGAACATTGGCCACATCCGCCATTGTCAATTTTAAATAAAAGATATGATGACTAGTTGGTGAGTTGATCTTGTAAGACTTTTACAGATACCCAGAACGG
Celera SNP ID:            hCV1445050
SNP Position Genomic:     806997
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,6|T,1)   his(C,6)      total(C,12|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58039):
AGTTATTATTTTAATATTACAGCATCTGTGGAAACAGTGGGTTTATATTTCAGCGTCCTGAGAAACACTCATCCTGAACAACGGGAACATTGGCCACATC
Y
GCCATTGTCAATTTTAAATAAAAGATATGATGACTAGTTGGTGAGTTGATCTTGTAAGACTTTTACAGATACCCAGAACGGCTCTACTTCTTCATATTCC
Celera SNP ID:            hCV1445051
SNP Position Genomic:     807016
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   his(C,6|T,1)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58040):
AGGCATTTTTCTGTTGACTGTGCATGAAGCCACATAGTAATAAACAGTTTCCATATCCAAGCAGCTAAGGCTTGTGCCTTGCAAGTTAAGTGGAACATCA
S
GATCTATATCTCAGTTTTCCTTATGTTTCCCCAGTTGGCACATCATGGCCAACAAGAGAGTAGGGATCATTAAGGAGTTTATTTTCATCTTTATTTTATC
Celera SNP ID:            hCV16290845
SNP Position Genomic:     594416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58041):
CTTTTTCTGACTAGCTGATTCTGCTGCTGCTGGATTTATTCATTCTTCTCCCTCACAATTTTGGCTCGCACATGCTTCCTTTTTAGCTCATGACCGTGCA
R
TTCAACTCAACCTCATGGCATCTTTTTATCAGCTGTCCCTGCTGCAACAGGCTTAGAGTTGGTTTCCCAATTCCCTAGCGCAGAAATCCACTGGCATGAG
Celera SNP ID:            hCV16290846
SNP Position Genomic:     591536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58042):
CCTCCTGTTTTGTGTCAGCTCAGACACTGAAGGGGAAAGTTTCCAGCCTGGTTTCTCCATACACTGAACATGTTGAAATCTATGCCTTAAGCCCAAATGA
R
CTGTCACTCAAGTATGCACGCTCATATTATTAAAAACTGTGCATGTAATTTGCTGGGCACCCAAATAATTTGTTTTTTATTTTTCCTTAAAAATGAGACT
Celera SNP ID:            hCV1445053
SNP Position Genomic:     807747
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58043):
TCTTCTCAGGCTTCCAACCACTATGTTTGGAAATGAAATATGCCTTGAAGGAAAAAAGCTGCCAAATGCTGGCCTTGCAGTTTTTGCAGATCTTGGCCCC
M
AAAATTCTTAGTCATAGTGCCCTTCTGATGCCTTCAAACAGATATGGGTGTGTATGCACGTGTGTTATTTTGTCCATCTTTTCTAATTGTTCTCAGTAGG
Celera SNP ID:            hCV3285443
SNP Position Genomic:     69944
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(A,4|C,3)   total(A,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58044):
GGCGTTCTCTTTTTCTGACTAGCTGATTCTGCTGCTGCTGGATTTATTCATTCTTCTCCCTCACAATTTTGGCTCGCACATGCTTCCTTTTTAGCTCATG
R
CCGTGCAATTCAACTCAACCTCATGGCATCTTTTTATCAGCTGTCCCTGCTGCAACAGGCTTAGAGTTGGTTTCCCAATTCCCTAGCGCAGAAATCCACT
Celera SNP ID:            hCV16290847
SNP Position Genomic:     591528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58045):
CAAATAATTTGTTTTTTATTTTTCCTTAAAAATGAGACTTTCTGTTAGGAAAGTGATTCATGAAACAGTGAAGATCCTGCCTCACAACTTTCAAGAAACC
S
ACAGAGGTCCCTATTCACATAAGAATTTTCTAAGCAGAGGTTCCAATTTGGATATTTCGTGGCCTTCAGGTTATTTGTAACCAGTACACAAACCACAAAG
Celera SNP ID:            hCV1445054
SNP Position Genomic:     807909
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,2)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58046):
AGATGGTTCTATGTTGTCAGGGGCTGCCCTGTTCATGGTAAGATGTTTTGTAATGCCTGGTGTTTACCCACTAGATGCCAGTAGGACTCTACCCCACAAC
Y
GTGGCCACTGAAAATGTCTCCAGACATTTGCTTCTGTCCCCTGGGGATCAAAATCACCCCTGGTTGAGAACTTGGGGTAATTTAAGTGGTGCTCCGGTAA
Celera SNP ID:            hCV3285444
SNP Position Genomic:     70371
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(C,8|T,3)   afr(T,3)   total(C,8|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58047):
CCAAGTCTTTTGCCCTCCATGGTGCACATGTGATCTTGGCCTGCAGGAACATGGCAAGGGCGAGTGAAGCAGTGTCACGCATTTTAGAAGAATGGGTAAG
Y
GCTTGACTGTTGTTGTTTTTTTTAATTGTCAAATACACATGCCGGGCTAACCATATGGAGATTTCAGTGGAGTGTGTAAAGTTTATTGCTCTTGGAATCA
Celera SNP ID:            hCV3285445
SNP Position Genomic:     70652
SNP Source:               Applera
Population(Allele,Count): afr(C,31|T,7)   cau(C,28|T,12)   total(C,59|T,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,9)   afr(T,1)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58048):
TCCGGTTCTCCCAGTCATTACCTTTCTCCTTCAAGCTGGGATTCAGAGTCCATTTTCATAGGGCAAAATGCAGAGTTCGGGTTCCTTCCTATCCATGAGA
R
TAGGTGCTGAAGGAGATAAAGGAATGAAGACATAGACTTTGAAAGCAATAGTCTGGCAATCATCCAAAGGTTTGTGGGAGGACAAAAGATCACAAAGTAT
Celera SNP ID:            hCV1445056
SNP Position Genomic:     808595
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   afr(A,4)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58049):
AGGAACATGGCAAGGGCGAGTGAAGCAGTGTCACGCATTTTAGAAGAATGGGTAAGCGCTTGACTGTTGTTGTTTTTTTTAATTGTCAAATACACATGCC
R
GGCTAACCATATGGAGATTTCAGTGGAGTGTGTAAAGTTTATTGCTCTTGGAATCATGTCTTTATTTTTAAAGTCATCTTCACTTTGTTTGTCTTATGAA
Celera SNP ID:            hCV3285446
SNP Position Genomic:     70696
SNP Source:               Applera
Population(Allele,Count): afr(G,38)   cau(A,8|G,30)   total(A,8|G,68)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|G,8)   afr(G,8)      total(G,16|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58050):
ACATTATAGAATATTTTCACGGAAATATTTCGGATGGAATTTTGGCTTTAATTCTTTCTCTTTTTTTCCTGTTCTTTTCCCTCTCCCCACAACCACTTCT
S
TTTCATTTTCTGTTTTGCTCCTTCTTTTCATAAGTAGCTGGTAGTCAGTGTTCTCTTTTTCTTCCTGTGAGACAGGATCTCCCTCTGTTGCCCAGGCTCG
Celera SNP ID:            hCV1445057
SNP Position Genomic:     808844
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,4)   afr(G,4)   total(G,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58051):
TCCTTTAACTCATTTATTAAGAAAAATAAAACGTGGTGAACGCCCATGATTGCAACTAGGAGACTGTTATGCTTATGGTTGTTAAGATTAGAAAGAAGGA
R
GCTTTAACCCTATCTCTGATTTCTTACTTTTCTCTGTCTATGTAGAAGTTGATGTTGATACGTGTCTACATAAATATTTACTAAGGGCTTGCATTAGTCT
Celera SNP ID:            hCV3285447
SNP Position Genomic:     70993
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,8|G,1)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58052):
TTCCCCCGTGACTGCTGCGGGGGCCTAGGCCAAAGATATGCCCGAGTAGAAAATCTGACACCAGCTTCCCAGTTTTCTCTTCTGCTCTCTTTGGCTGCAA
S
GCTTTTACCATGGCTAAACCATTAGGCCGGCTCTGCAGGGAGGGCAAGACCACAGCAGCTCAGTATTTCCTGCTCAGGGAAAAAGGCCAGGTCTTTTGTT
Celera SNP ID:            hCV1445058
SNP Position Genomic:     810037
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58053):
TTCCCTTTGGTGGCCATTTAGGTTGTTTGCATTGTTTTGCTATTTGTTATTCCAAGCAATGGTGTTTCACAGTTCTCTCTTTCTTGCATCAGTCTTTCTT
R
CGATATCATCTGATATTGGGCCTAAACTATGCTGCTGTGAGCATTCTTTATTTACGTATTTGTGAGTAAATGCCTGGGGCAGAATCTTAGCACTGGACTC
Celera SNP ID:            hCV3285448
SNP Position Genomic:     72738
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,1)   his(A,5)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58054):
TGCGGGGGCCTAGGCCAAAGATATGCCCGAGTAGAAAATCTGACACCAGCTTCCCAGTTTTCTCTTCTGCTCTCTTTGGCTGCAACGCTTTTACCATGGC
Y
AAACCATTAGGCCGGCTCTGCAGGGAGGGCAAGACCACAGCAGCTCAGTATTTCCTGCTCAGGGAAAAAGGCCAGGTCTTTTGTTGGTGGAAATCCACTT
Celera SNP ID:            hCV1445059
SNP Position Genomic:     810052
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58055):
CGAGTCATTTTCTTTTTTCTTTTTTTTCTTTTTCTTTTTTATTTTTTTTTTGAGACTGAGTTTCACTCTGTCACCAGGCTGGAGTGCAGTGGCACAATCT
Y
GACTCACTGCAACTTTCACCTCCTGCGTTCAAGCAATTCTTCTGCCTCAGCCTCCCGAGTAGCCGGGACTACAGGCACGCGTCACCATGCCCAGCTAATT
Celera SNP ID:            hCV3285449
SNP Position Genomic:     72984
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   his(T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58056):
GTCTAATTTATGTAAAATAAATTGCATCCATTTAAATATACAATTCAATGAGTTTTGACAGATGCACATGCCCATGAAACCAACACGAAAATAAAAAAAA
W
AGAACATTTACGTCACCTCAAAAAGATTTCAAATGCCACTTCTGTGGTGTATGACTCTGAGTCCAGACAGCCTCAGCTCCAGGAAAACCCTGGTCTGTTT
Celera SNP ID:            hCV504486
SNP Position Genomic:     253106
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58057):
TTTGATATTTTTTAAAGGAAAAATTTGAGGCATTGACACATGCCTTTTGCTTACTTGCTTGGATTGGTTTGATCAACTTTGTTGCGGTCTAATTTATGTA
W
AATAAATTGCATCCATTTAAATATACAATTCAATGAGTTTTGACAGATGCACATGCCCATGAAACCAACACGAAAATAAAAAAAATAGAACATTTACGTC
Celera SNP ID:            hCV504487
SNP Position Genomic:     253020
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58058):
AAAAAAGTAAAATAAAGCATGGGAAGTCCCTTATACAGTTTGTGATATGGGTACACACTCAGTGAAATGGCCATTAATACTGCTGTTCTTAACTCTGAAA
R
CAGAGTGGGCCATTTGAATGCTCACTTTGATATTTTTTAAAGGAAAAATTTGAGGCATTGACACATGCCTTTTGCTTACTTGCTTGGATTGGTTTGATCA
Celera SNP ID:            hCV504489
SNP Position Genomic:     252894
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58059):
AAAAAAACAAACTTGAAAAGCATAGCAGGCTGCCAGGACATGTCTGAGTACCGCGCAGATAGTGGGGAATAGTCTATGGATTCTGCTTACACCATGGACA
R
CCAGGCTGGGCCATGGGTTGTGTTTTTTTTCCTCTCATTTTATAGAAATGTTACCAGGCATATTTTCCCTGTTTCCCTAAGAAGAGCTTCCTCTCAGTGC
Celera SNP ID:            hCV9663563
SNP Position Genomic:     377307
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   afr(G,2)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58060):
TAACTGTCTCTTGCGATCCCCTCCTGCACAACTGTGGCGTTCTCTTTTTCTGACTAGCTGATTCTGCTGCTGCTGGATTTATTCATTCTTCTCCCTCACA
R
TTTTGGCTCGCACATGCTTCCTTTTTAGCTCATGACCGTGCAATTCAACTCAACCTCATGGCATCTTTTTATCAGCTGTCCCTGCTGCAACAGGCTTAGA
Celera SNP ID:            hCV16290851
SNP Position Genomic:     591493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58061):
TGGCTGACAGAGGGAGACTCTATCTCAAAAAAAAATAATAAAAATAATAAAAAAAAAATTACATGAAAAATAGAGACAAAGTCTCGCTTTGTTGCCTAGG
S
TGGTCTTGAACTCCTGGGTTCACGTGATCCTCCTGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGCACGAGCTGCCACGCCTCACCTCTTGTTTTCAAT
Celera SNP ID:            hCV16290852
SNP Position Genomic:     591052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58062):
CAGGGCTCTGCCCATTAGAATCTCTAGGGACAGACCGAGGTTTGAGAGTTCCTGCTCCTGATCTCAGGGGAATCCTGAATTACAGGTGTTAACCTGATTA
K
CCCCAGCCCAGCTCTTCGTTAATTACCTGAAGTGAATGGGACAGTTTCCAATACTCAGCACAAAGGCGTGCGCAGTGACTCTGTGGCGTACTATCTATTT
Celera SNP ID:            hCV16290853
SNP Position Genomic:     589127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58063):
ATGGCTAAACCATTAGGCCGGCTCTGCAGGGAGGGCAAGACCACAGCAGCTCAGTATTTCCTGCTCAGGGAAAAAGGCCAGGTCTTTTGTTGGTGGAAAT
S
CACTTTTCCATCCACTGTCTTCTAAGAATGAAAGTAAATCTGTTGTGCTTTCCTCTGCCCTGTCCTCAGGCTTAGCCTTAGTGGGCCTGGTTTTTGCCCC
Celera SNP ID:            hCV1445060
SNP Position Genomic:     810147
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,2)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58064):
GGCACAATCTCGACTCACTGCAACTTTCACCTCCTGCGTTCAAGCAATTCTTCTGCCTCAGCCTCCCGAGTAGCCGGGACTACAGGCACGCGTCACCATG
Y
CCAGCTAATTTTTGTATTTTTAATACAGACGGAGTTTCACCATGTTGGCTGGGATAGTCTCGACCTCCTGATCTCATGATCTACACACCTAGGCCTCCCA
Celera SNP ID:            hCV3285450
SNP Position Genomic:     73074
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58065):
CTAAATACTCCCTAGAGGTTTCCCATTGGCCACTTGGGGTACACCCCTTATAAATGAAGTGGTGGCCTGCAATCAGTCTTATTGGTTGCAGAAAGCAACC
R
ATCAGAGGCTGAAGTGAAGTTACAAATATCACACTCCTATGCAAACATCTGATTGGTTTTGGAAAGCAACCAATCAGAGGCTAAAGTGAAATTACAGAGT
Celera SNP ID:            hCV1445061
SNP Position Genomic:     810667
SNP Source:               Celera
Population(Allele,Count): cau(A,6|G,4)   his(A,6)   total(G,4|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58066):
TTCTGCCTCAGCCTCCCGAGTAGCCGGGACTACAGGCACGCGTCACCATGCCCAGCTAATTTTTGTATTTTTAATACAGACGGAGTTTCACCATGTTGGC
Y
GGGATAGTCTCGACCTCCTGATCTCATGATCTACACACCTAGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGACCTCCCGAGTCAT
Celera SNP ID:            hCV3285451
SNP Position Genomic:     73124
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58067):
TTATAACTACAGAAAATATATTTTCATTCCTTCCACTTCATGCTTTCAGCTAGAAATGTGAGTCTCTGAGACTTGTATTCTTGGGGTCACTTAAAACATA
Y
TGCATAATGAGGCCTTCAATGACTCTGATTTGGAACTGACCCTCTATGAGGGGTTATACCCCTGGACACCAAGCTGCTGGCCTGAGCATGAGGTTGATGG
Celera SNP ID:            hCV1445062
SNP Position Genomic:     812510
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58068):
ACCATGCCCAGCTAATTTTTGTATTTTTAATACAGACGGAGTTTCACCATGTTGGCTGGGATAGTCTCGACCTCCTGATCTCATGATCTACACACCTAGG
M
CTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGACCTCCCGAGTCATTTCTTATCTTGTTGCTCCAATTTCCATTCCCACTGACAGTGTAG
Celera SNP ID:            hCV3285452
SNP Position Genomic:     73168
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58069):
TACTCAAATAAGTCTCCCCCAAAACTCAGGGATAGAGATTTTTAAGGAGAATTTAGTGAGAAGGGGGTCAGGGAATGGGGAGTATTGATTGGTCAGGTTT
R
AGATGGAATCAGGGAGTTGAAGCTGGCCTCTTGCACTGAGTCAGTTCCTGGGTGGGAGCCACAAGACCATATGAGTCAATTTATTGACCTGGGTGGTGCC
Celera SNP ID:            hCV1445063
SNP Position Genomic:     816112
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,2)   his(A,3)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58070):
GCTTGCAGTGTTCTTGGGACTAGCAGGAGGGCGTGTCAAAATTGTAAAACTCTGCCTATTTGATGTAATATTTGAAACTAGAAAGGTAAAATTCCAGGGA
Y
GCTAGTGACACTATGGTAACCTGATTGTACAGTGACATTCATGTTTAAACCAGTCTTGGAAGATAATGCTGTAGCACAACTGTTTTTGCATCATTAAATT
Celera SNP ID:            hCV3285453
SNP Position Genomic:     73386
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,2)   afr(C,5)   his(C,5)   total(C,15|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58071):
AGTGGGTTGCGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCTTGGCCATCACAGTAAAACCC
Y
GTCTCTGCTAAAAATACAAAAATTAGCCAGGCATGGTGGTGTGGGCCTGTAATCCCAGCTACTTGTGAGGCTGAGGCAGGAGAGTCACTTGATCCCGGGG
Celera SNP ID:            hCV16290857
SNP Position Genomic:     586816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58072):
CATCAATTGCAGGGTCTGCAAAGTATCTAAAGTACTGATGTTCGGTTTTACCATAGTGACATTATCCCCTGGAGCAATTTGGGGAGGTTCAGAATCTTGC
R
GCCTCCGGCAGCATGACTCCTAAACCCTAATTTCTAATCTTGTGGCTAATTTGTTAGTCCTGCAAAGGCAGTCTAGTCCCCAGGCAGGAAGGTTGTTTAT
Celera SNP ID:            hCV1445064
SNP Position Genomic:     816321
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,5)   afr(A,3)   his(G,5)      total(G,10|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58073):
CCCAAGATGATGATTATGGAAACTCAAATTTTGCACCAGAAGCTGTAGTTACCATTTCATTCCATTGCACCATTCATACCCTGCAGAGAGGATGTGAAGT
Y
GTAAGGCCTTCTTGCTCTGGTGACATCTGTTAGGCTTCGTCTCTATATCATCCCCCAACTCCTTGACCCTTGATATTTGCTGGTCTACTTCCCTTCAGGT
Celera SNP ID:            hCV3285454
SNP Position Genomic:     74121
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58074):
CCTTAGCAGACATCATTTCTCTGTTTAATCTGTCTACTTGCTAATTGTCTCACTGCCCTCCCCCTCCCCACTGGAGAGTGAATGAAGGCTTAAGGTTTTG
Y
CTGCCTTGGTCTCTCCTGGGTCCTGAGTACCAGTGGCCTTACGTGGCATTTGGTAGATTACATGCTTAATGAAAAGTGAGTGAATGGGCTGGGTGTGGTG
Celera SNP ID:            hCV16290858
SNP Position Genomic:     585579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58075):
CCATCCCACTAATATATTTCTTACCAGGAGTACATAGTTTGTTCTTTAAGCAAAACCATATGCATCGTATTTTAAATGGAACAGGGAGGTTGTTCCATGC
R
TCAACTTAGTCCAAATGTAGAGGGTCAGGAAAACAATGATATGAGAAAAGGGCCGGTTACTGTCTGGGAATCCATAAATACTGCTTGGCAAATGGCACAT
Celera SNP ID:            hCV1445065
SNP Position Genomic:     817174
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   afr(A,2)   his(G,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58076):
TTTCTTTTTTTTTTTTTTGCATTTTCCAGACGAGCCAAGGGATGGCTCAGAAGGGTGAAGGAACTCACCCGAATTGCACAGCTGGTGAGCTCAGAGTCAG
K
CTCCTTGCTTGGTCCATCTGGCTTCCAAACTCCAAGTCTGTCTGCTCCACCCCATGGCCCATCTTTTTACCATGTTTAGTATCAATGTTCATACTTTGCA
Celera SNP ID:            hCV3285455
SNP Position Genomic:     74891
SNP Source:               Celera
Population(Allele,Count): cau(G,4|T,4)   his(G,4)   total(G,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58077):
ATTCTTGCAAATGTTTTTGGTTTCTCTGTCTACTCATTACGTACACTCTGCCAGAGGTTGAAAACTCAATGTTGAGATCACATACATCCTGAAAACACTG
K
TTAAATAAAATTTTGGCCTGCATCCTGTTTTTGAAAACTTGCAATGGCTTGCCAACGTTTTCAAGTTGAGAAGTTTCACAAAAAAAATTCGGATTTCCAG
Celera SNP ID:            hCV16290859
SNP Position Genomic:     584804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58078):
AAGCAAAACCATATGCATCGTATTTTAAATGGAACAGGGAGGTTGTTCCATGCGTCAACTTAGTCCAAATGTAGAGGGTCAGGAAAACAATGATATGAGA
R
AAGGGCCGGTTACTGTCTGGGAATCCATAAATACTGCTTGGCAAATGGCACATTGCATGCTTATTCCTTAGGCATCCGTTTAGCAAAATAAGATGTCAAG
Celera SNP ID:            hCV1445066
SNP Position Genomic:     817221
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   afr(G,1)   his(A,3)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58079):
TGGTGCCCTCACCTCTTAAGACAAGCACCTATCGTTTTCCTGTGTATTCCAAGAGGCCAGTGTGGCTGGTGGAATAAGATGTTTTCCTGTTTTCAAGATG
S
AGTGGACTCTCTTTTATTTAGCAGCAGTGTCTATGTGTTAGGAATCCATGTGAGTTCTCTAAGTCTGGGACAACGATAGGTGTGTCTGAGTCCTGCATTA
Celera SNP ID:            hCV3285456
SNP Position Genomic:     75619
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(C,2|G,3)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58080):
AAGGCTACAGTGAGCTGTGATCCTGTCTCTACACCTCAGTCTGGGTGGCAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGTAAAATAA
W
GCATGGGAAGTCCCTTATACAGTTTGTGATATGGGTACACACTCAGTGAAATGGCCATTAATACTGCTGTTCTTAACTCTGAAAGCAGAGTGGGCCATTT
Celera SNP ID:            hCV504490
SNP Position Genomic:     252809
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58081):
TAACTACCTTGCTTGCCTATGGGACATGTTCCCATTTCAGTGCATACTTGACCTTTACCATAAATCACATATTTGTAAACTGTACCCTCCTGCTGTTTTA
Y
TGGGCATGGAGAAGCAGTCTTTTCTTTTTCTTGATGGCCTGGGTTGACCAGATCCTGACTTTTGTGGAGACATTAAAGTGCTAGAAATGATAATGGTGAA
Celera SNP ID:            hCV1445068
SNP Position Genomic:     818777
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,2|T,5)   afr(T,5)      total(C,2|T,10) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58082):
CAGTATCTATTGGAGTTGGGCTTCTGTTGCTTTATTTCTCGGGGTCTGGCATATCCCACTCCCTGTCTTGAGATCTCAGGACCTCTGAGGGGCATTGCAT
K
TAAAGAACAAGAGCTTATTAGGTATCAAAACATACTTCATGAACAGCTACAGCAAGACCTCGACATTCCAGTGTAGAGCTCTTGAAAGACCCCAGTGGGG
Celera SNP ID:            hCV3285458
SNP Position Genomic:     75844
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(G,4|T,1)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58083):
TTGGTAATTGAATGAAATAAGACTCTTAGGAAAATTCTCCCCAGTGGCAATGTTGTAAGAAACACCAGGCCGGGCACAGTGGCTCACACCTGTAATCCCA
R
CACTTTGGGAAGCTGAGACAGGCAGATCACTTGAAGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTTAAACCCCATCTCTACTAAAAGTACAAAAAT
Celera SNP ID:            hCV1445069
SNP Position Genomic:     819025
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,3)   afr(G,3)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58084):
TGGTCAGAGAGGGCTGGTATGGGAAGAGGGGCAGGTGGCTCTCCCTTAGAGTTACTATTTGACTCACCCCTGACTTCCCAGAATGTGTCTTGAGTCTATT
M
CCCTCTCATATGGGAGGGGTGACCCAAGTATGTTTGTGGCAACCAAAATGTCTCCAGGCATTGCCAGATGTCTCTTGGGGGTGCAAATCGTCCCCAGTTC
Celera SNP ID:            hCV3285459
SNP Position Genomic:     76440
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   his(A,1)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58085):
TTAAAAGTCCTGGTTCAGGCTGGGACTTCTGCTCAGGGTCTCATGAGGCTGAAATCAAAGCGTCAGCCAGGGATGGGGTCTTATCAGAGGCCCTTGGTTA
Y
TAACAGAATTCATTTTCTTGTAACTGTAGGACTGAGGTGCTTGTTTTCTTGCTGGCTGTTGACTGAGGGCCCCTTGCAGCCCCTAGAGGCTATTCTCAGG
Celera SNP ID:            hCV2852844
SNP Position Genomic:     915530
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58086):
ACCTGTCCCAGGCCTTGTCTTCCAGCCCCACAAACGTGCACCTGCAGCCGGAGACCAGGGGGCCCCGATCAGGTGGCAGGGCCTTTAATTGGAGCCACGT
K
TGTATAATGAGCAGCGCACACACACAAAGGCGAGCTAAAAATGTCTCCACCCTTCTAAATATGGGATGCCTTGGCCAGGTATTGAGTCAGCTCTGTGACG
Celera SNP ID:            hCV2852845
SNP Position Genomic:     916302
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(G,4|T,1)      total(G,4|T,1) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58087):
GAGCAGCGCACACACACAAAGGCGAGCTAAAAATGTCTCCACCCTTCTAAATATGGGATGCCTTGGCCAGGTATTGAGTCAGCTCTGTGACGCCAGTGCA
R
TTATCCCGATTCAGCATCAGATTTATTCACCATTAAACATGTTCTAACTTGATTGCAAACAAGCCTTGTATTATTTAGAGGGATCCACGGAGCTGGCAGA
Celera SNP ID:            hCV2852846
SNP Position Genomic:     916411
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58088):
GCTGGAGTGCAGTGACATGGTGATGGCTCACCACAGCCTCAGCCTCCCTGGGCTCAGTCGATCCTCCCACTTCAGCCTCCCAAGTAACTGGGACTACTGT
S
ATGTGCCACCATAGCCAGCTATTTTTTTTGCATTTTTTAGAGATGAGTTTTTGCCGTGTTGCCGAGGCTGGTCTCAAACTCCTGGGCTCAAGCTATTCAC
Celera SNP ID:            hCV2852847
SNP Position Genomic:     919065
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,5)   afr(G,5)   his(G,5)   total(G,15|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58089):
CTGGGACTACTGTGATGTGCCACCATAGCCAGCTATTTTTTTTGCATTTTTTAGAGATGAGTTTTTGCCGTGTTGCCGAGGCTGGTCTCAAACTCCTGGG
S
TCAAGCTATTCACCTGCTTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCGGCCCCCTTTTTTAAAAAACAAAAAAACAAAAAACT
Celera SNP ID:            hCV2852848
SNP Position Genomic:     919152
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   afr(C,7)   his(G,1)   total(G,1|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58090):
GATGGATGTCTTCTATCTCTGCCCTGTCCAGTATAAAAGCCACAAGCCACATCTGGCTGTGTGGCACTTGGCATGCAACTAGTATGACATCTTAATTTTT
Y
TTTTTGAGATGGAGCCTCGCTCTGTCACCTAGGCTAGAGTGCAGTGGTGCAATCTCGACTCACTGCAACCTACACTTCCTGGATTCAAGTAATTCTCCTA
Celera SNP ID:            hCV2852849
SNP Position Genomic:     919673
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,4|T,2)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58091):
CAGTGTTTACAGACCCCAAAGCTTGCTGTCCCCTGGGCAGGTGCATGAGGGGGTCCCAGGCAATCAGGCTCTTCTCAAACCTGAATTATACCCGGCCTCA
R
GGTATAGGGGTCAGGCAGCTGTTTGACAGGATTCTTGCAAATGTTTTTGGTTTCTCTGTCTACTCATTACGTACACTCTGCCAGAGGTTGAAAACTCAAT
Celera SNP ID:            hCV16290863
SNP Position Genomic:     584673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58092):
ACCTGTAATCCCAACACTTTGGGAAGCTGAGACAGGCAGATCACTTGAAGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTTAAACCCCATCTCTACT
R
AAAGTACAAAAATTAGCCAGACGTGATGGTGCGTACCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAAGCGGAGGTT
Celera SNP ID:            hCV1445070
SNP Position Genomic:     819112
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,3)   afr(G,3)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58093):
CATTGCCCTCCATTCAGATCTTGTCACTTAGGCCTTGGTAGCATGAGCTATTAACAGCCCTCCATATTTACTATTTTTTTTTTTTTTTTTAACTCTGGGA
S
TTCCTGTTGCAGAAATTGGATCACTTACCTAAAAAGCTCCCCACCCCCACCTTTGGTGACTGGTGGGTTTCATCACCAGGAAAGCACATTGTTCCAACTC
Celera SNP ID:            hCV11438644
SNP Position Genomic:     583868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58094):
GTATTGTTCCATTTTTGAGTATTACTTTAATACATTATTGATAAGTTAATTTAGAAGTATCAAGTGAAAGGGGAAGAAAAACAGTTTTGAATAAAAACGG
W
GTTTCCTCTGGACTATTTTGCCAAATGCATTTTTATTGGTAGAACGTAAGCAAATTTAAAAAAGCAACAAAAGCAGTTTTTATGAATACCTAGCGTACTT
Celera SNP ID:            hCV16290864
SNP Position Genomic:     584395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58095):
ACCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAAGCGGAGGTTGCAGGGAGCTGAGATCACGCTGATGCATTCCAGC
S
TGGGTGACAGAGCAGGACTCCATCTCAAAAAGAAAAACTCAACGAAACACCCCAGCTTCTATCATTCTCAAGCTTAGTGTGTGCAAGACTCATGGATGCT
Celera SNP ID:            hCV1445071
SNP Position Genomic:     819247
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,5)   afr(C,3)   his(G,5)   total(G,10|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58096):
TTTCAATAGAGTTGATATCGGGTCTATTTATTTTGTGGGAGTGAAGGGATAGGGATAGTACTGACAGCATTATGTGATTGCAGCCTCATTGATAAGCATC
R
GAAATAATGACTTTAACATTATTTTCAGATAGGGAGCACTCAGTACCAACCATTATATTAGGCTCATGGGCTCAACATTTTGCTGTGCTTTTCATAGATA
Celera SNP ID:            hCV3285461
SNP Position Genomic:     77411
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58097):
ATTTATTTTGAGAGCAAGCACGGGGGTTTATGTGATGGCTCCACAGAGCAGTGAAAAGACTCCCGCCCTACTGCTCGCAACCTCAGATGTCCCTGGGCAC
W
AGCCCATCTGTATGTCTTTAAAAAAAATAAATTAAATTTTTAAAAACATGACTTTCTGGCCAGGCGCAGTGGCTCATGCCTATAACCCTGCACTTAGAGA
Celera SNP ID:            hCV16290865
SNP Position Genomic:     583072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58098):
GGCCACCATGGTGAAGCCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGCTGTGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGGGACAG
R
AGAACCACTGGAACCTGGGAAGCGGAGGTTGCAGTCAGCCGAGATCTATGCCATTGCACTCCAGCCTGTGTGACAGAGCAAGACTTTGTCTCAAACAAAC
Celera SNP ID:            hCV11438645
SNP Position Genomic:     575625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58099):
ATTGATAAGCATCGGAAATAATGACTTTAACATTATTTTCAGATAGGGAGCACTCAGTACCAACCATTATATTAGGCTCATGGGCTCAACATTTTGCTGT
R
CTTTTCATAGATACTGACACTTGTGTTTTCATTTTGTTGTTGTTGTTGTTTTCCCTGCCGGGAAACTGCCGCATCCTGTGTTTTCATGGCATGATATTAA
Celera SNP ID:            hCV3285462
SNP Position Genomic:     77498
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58100):
GATGGCAGCTCAAGGGGTTTTTGCCTGCGTCTTCACCCAAAGCCACTAACACGGGATCTGTCAATTGCATTGCTGGTGATCAAGAAATGCCAGCTCCTCC
R
CTCTTCCCTGAGTGCCTTGTTGGAGACAAAACCAGCAGGATTATATCCCCAGCACTGTAATTTAGTGTGGCAGTCAGGGGAAAACACCTTGTAGAATTTC
Celera SNP ID:            hCV1445073
SNP Position Genomic:     819935
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58101):
TGACTTTAACATTATTTTCAGATAGGGAGCACTCAGTACCAACCATTATATTAGGCTCATGGGCTCAACATTTTGCTGTGCTTTTCATAGATACTGACAC
Y
TGTGTTTTCATTTTGTTGTTGTTGTTGTTTTCCCTGCCGGGAAACTGCCGCATCCTGTGTTTTCATGGCATGATATTAAGGAACGATGGGTAGGATGCTG
Celera SNP ID:            hCV3285463
SNP Position Genomic:     77519
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58102):
ATTGGTTAGATGCCGTATCTTTAAAACACCATCAGCTTGGAAAACACTATCCATTAGCAAGAGATCAGAGCAAGAGAAACCTCGAAGGGTCGAACGGTCC
R
TTCTGAGGGCTCCACAAAGAACTCGGCATCCCAGAAGGATGATTAGCCTTCCATCTCTCGAGTTGTCTCAGAGCACAACAGGTCTGAGTGTTTTTTTCTT
Celera SNP ID:            hCV1445074
SNP Position Genomic:     820360
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,3)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58103):
CATTTTGTTGTTGTTGTTGTTTTCCCTGCCGGGAAACTGCCGCATCCTGTGTTTTCATGGCATGATATTAAGGAACGATGGGTAGGATGCTGAGGAGTAA
R
TTGCTCGCACTTTTAAAGACTTCTGCAAAACTCCACCTACTTTTAGGCTCCTTAAAATTCAGTGACTTTATGAGCTGGTATAGCTTCACTGTTTGTGGGA
Celera SNP ID:            hCV3285464
SNP Position Genomic:     77628
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,1)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58104):
CATAGCTCACTGCAGCCTCCAACTCCTAGGCTGAAGCCATCCTCCCACCGTAGCCTCCTGAATAGCTGGGACTAAAGTGTGCACCACAATGCCCAGCTAA
S
TTTTGTATTTTTTGTAGATACGGGGTCTTGCTATGTTGTCCAGGCTGGTCTCAAAGTCCTGGCCTCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCT
Celera SNP ID:            hCV1445075
SNP Position Genomic:     821236
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58105):
AACCATACACATCCAGTAGAAACCGAACTTTACATTTTGAGTTTCGATTTTTTTTTTTCACCTGGGCTAGTAATACGTGGTAGGATACTCTCTCACAATG
Y
TAGGCCACAGCAGCGAGCTGCAGCTCCCAGTGATCACAAGGGCAAAGAATCGATATTCTACCAGGCACGGTGTTGCCTGATAACCTTGCCCAGCTGTAGG
Celera SNP ID:            hCV16290869
SNP Position Genomic:     603965
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58106):
AGTATCATTCTGATGTAGGGAGGATATCACCTCACAGGAGTCTTTCCTGGCTATCCTGTCCAAAGTCACTACTCACAATTTCTCTATCCCATAACTCTAT
Y
TTATTTCTCTGTCTAGCACTTATCACTATCTGATATTTTCTGTCTATCCATCCGTCTATTCATTCATTCATTGCTAATTTATTAGTATTGCCTTCCCATG
Celera SNP ID:            hCV1445076
SNP Position Genomic:     821588
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58107):
TTCTGTATAGTATTGGATTTTCAATAAATAAAGTATGATATAAACAAGTCTGCAAACCAGCAAGAACTATATAAGCCACTTGCTCAAGTCAATAAGCGCA
Y
GCTCACAAAGGAACGTAAAGTTCTGAAGTTCTTCTTTGGGGCGTTTGCAAAATGTCCTATTATTGTCACCTGCAGGTGGGGGGTTGGATATTCCTATTTG
Celera SNP ID:            hCV3285466
SNP Position Genomic:     78181
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,7)   afr(T,7)   total(C,3|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58108):
TCACCTGTCCTTTATCTTGGCTGGTCCAATTCCATAAGAAGTAAATGCTGTGTGTCTGCAATTCAAAAGACCCCTTTCACGGGAGGCTGGGAGATTTTTC
Y
ATCTAAATAGCTTAATTGTTACTCTACAGGGCAATCATAAATGTAAATCGACTTAATATGACTTGATTGTTAGTAATGACTGTGCCTCTAATGACGCTGG
Celera SNP ID:            hCV1445077
SNP Position Genomic:     822793
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3)   afr(T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58109):
CACAGCTGGGAGATAACGGGGTGGATCCAAGATTTGCAGCTGGTGTGTGGGTGATGCCGGAAGATTGGCCTTTTTCAAGGACTTAGACAAGTATTGTACT
S
ATACATTATTTGCATTTATTTGTATGAATACTTCTGGGTTCCTAATATGAGGGTACCTAAAAAGTACATCCGCTGCGCTTCTTGTAATCTGAGGGAGTTG
Celera SNP ID:            hCV3285467
SNP Position Genomic:     78501
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   afr(G,2)   total(G,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58110):
TTGTTCTTTGATCATTGTCTTTGTGTCTTCTCCTTTTTTTTTTTTTTCCTGGCCACCGCTCGCAGTCTTGAACCGAATCTTTCAAACTTTATATCCATGT
R
ACCTTTGTATAATGAGGGCTGTGATTAACTGCAGAGTTTTAAAGAGTGAAAGTCAAGCATAGGTGGCTGGCTCTGAACCATCACTCCCAATAATGTGAAA
Celera SNP ID:            hCV3285468
SNP Position Genomic:     79009
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58111):
CTATTAGCAAAATAACAGACAGTGTTATCAGTCATTGACTCAGAAGATAGTTTCTTACCGTTTGGGGAAAGTGCTTGTCTATTCCTCTCCAAAGCCATTT
W
AAAAAAAAAATTGCACCAGTTCTCATCCCATCATCTGCCTTGATCAAACATTTGCTTATTGGAATCACTTCGAAAAGGAACTTGGTATCGTTCACATGTG
Celera SNP ID:            hCV1445079
SNP Position Genomic:     823107
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58112):
GACTGGGAAGAAAAAGAGGTTTAACTGGACTTACAGTTCCACATGGCTGGGGAGGCTTCAGAATCATGGTAGGAGGCGAAAGGCACTTCTTATATGGTGT
M
AGCAAGAGAAAAATGAGGAAGAAGCAAAAGCAGAAACTGCCTGATAAACCCATCAGATCTCTTGAGACTTATTCACTATCATGAGAATAGGATGGGAAAG
Celera SNP ID:            hCV3285469
SNP Position Genomic:     80613
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58113):
AGTGATTTGCCCACCTTAGCCTCCTAAAGTACTGGGATTACAGACAAGAGCCACTGCGCAGACGGACATATGAATTTTTAATTTGATATCATTGTGATCA
R
TTTGAAGATCCACATATGGCTGAGGGCTACTCTAATGAGTGGTGCAGCTCCAAGGCAGAGAGATGGCTGTGATTAACCAATGAATGAGGGAACAAATATC
Celera SNP ID:            hCV2852850
SNP Position Genomic:     919998
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,2)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58114):
CCCACCTTAGCCTCCTAAAGTACTGGGATTACAGACAAGAGCCACTGCGCAGACGGACATATGAATTTTTAATTTGATATCATTGTGATCAATTTGAAGA
K
CCACATATGGCTGAGGGCTACTCTAATGAGTGGTGCAGCTCCAAGGCAGAGAGATGGCTGTGATTAACCAATGAATGAGGGAACAAATATCCAGGCAGAA
Celera SNP ID:            hCV2852851
SNP Position Genomic:     920007
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,3|T,5)      total(G,3|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58115):
GGTATCTCCCTGCCCTGGTCTGAAAGCTGCCACTTGCCGCCCACCGCACAGCCCCAGGGCTTTAGCTCACTGTGCAGGAAGAGGCCTTCCTCTGTGCATC
S
TCCCACAGGGTCGAGAGTGAATGCCTTGCCTTTAAAAATAAAATGCATACGCCTGTCCTCATGCGCTCTGATCTGCCAGCAGGCTGTGCTGGGGAGTGGT
Celera SNP ID:            hCV2852852
SNP Position Genomic:     920661
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(C,5|G,3)   his(C,5)   total(G,6|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58116):
CTAAGAGTAAAACGCATGTCCCCCCATGAAGTCACTCAAAGCTCAGGCGTGTGCAACAGGGACAGCAAAAGCACACACAATGATGGCCAGAGACACTGCT
Y
AGTGTACTGTCTTCCACCGGGACAGCCCACTCACCAAGGGTTAGGTCCTGTGCTGACTGGGTCCCGGGTCTCCTCGGAGGTCGGTTTGCATCACGTGGAT
Celera SNP ID:            hCV2852853
SNP Position Genomic:     920999
SNP Source:               Celera
Population(Allele,Count): chn(C,8)   cau(C,8|T,1)   total(C,16|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58117):
CTGGGTCCCGGGTCTCCTCGGAGGTCGGTTTGCATCACGTGGATACACTAATCTACCCAAGTTGACTTGGAGAACCAATCTGAAATCAGATGGGAGCTCC
M
GGAAGCAAAGCAATTGCAGGTTCATTTGTTACTTTTATTGTCTCATTTCTTCTTATTTTTTTAGCCCAATTGCCTCCTACATGGGGAAGGTTGGGGTCCT
Celera SNP ID:            hCV2852855
SNP Position Genomic:     921156
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58118):
GTATGGTCTTAGGCCCTGGAATAAGACAGTGTAGGAAACACAGAAGGTGCCTGATTTCCTGGGCCTAGCTAAGGGGAAAAAGCGAGACAATGGGGTCAGA
K
GAAGCTCAGCTGAACAGATGAAGTTGAGATGAACAGAATTCCAGTGCCACCATGATTTCCAGCCGTGTGACCTTCCACATGCTTTTTGATTTTTCTTGAA
Celera SNP ID:            hCV2852856
SNP Position Genomic:     922708
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,6|T,2)   his(T,2)      total(G,6|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58119):
AGCTCAGCTGAACAGATGAAGTTGAGATGAACAGAATTCCAGTGCCACCATGATTTCCAGCCGTGTGACCTTCCACATGCTTTTTGATTTTTCTTGAACT
M
ACTTTTCCTTTGTTTGCAAAATAGTAACAATATTTTCCTTCCAAGTGATGGTGAGGATTTAAGAGTTAACCTGAGTGTCTGCTGCATAGTAGGTGCTCAA
Celera SNP ID:            hCV2852857
SNP Position Genomic:     922811
SNP Source:               Celera
Population(Allele,Count): cau(A,4|C,5)   his(C,5)   total(A,4|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58120):
CGTGTGACCTTCCACATGCTTTTTGATTTTTCTTGAACTCACTTTTCCTTTGTTTGCAAAATAGTAACAATATTTTCCTTCCAAGTGATGGTGAGGATTT
M
AGAGTTAACCTGAGTGTCTGCTGCATAGTAGGTGCTCAATAAACTATAACGTCTTTATTTCTTTTCCTTCCAATGAGAAGTCACTTCCTGGAGGGAAGCC
Celera SNP ID:            hCV2852858
SNP Position Genomic:     922872
SNP Source:               Celera
Population(Allele,Count): cau(A,8)   his(C,1)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58121):
GTTTGCAAAATAGTAACAATATTTTCCTTCCAAGTGATGGTGAGGATTTAAGAGTTAACCTGAGTGTCTGCTGCATAGTAGGTGCTCAATAAACTATAAC
S
TCTTTATTTCTTTTCCTTCCAATGAGAAGTCACTTCCTGGAGGGAAGCCACCTCCAGGAACAGTCCTGGTTCAACTCATGAGGAGGGTCACTGGTTGGGT
Celera SNP ID:            hCV2852859
SNP Position Genomic:     922923
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,6)   his(C,1)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58122):
CTCTGAGCTCTAATTTCCTCACAGGGCCGCAGGACTGAGGTTAAGGACCTGCTGTCACTGGTACAGTGGTTGAAGAAAAGGTGAATGAAGGAAGGGCCTC
R
TTTTACTCCTTGTCTCACATTCCTTTCTGCTACTTCTCTTTGGCTCACCAAAAGGAGACAGAAGTTTGTGTCCATGGCTGTGAACTGCCAAAGAGTTGCC
Celera SNP ID:            hCV2395500
SNP Position Genomic:     1100403
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58123):
GAATGGGCTGTCCTCTCCTGCTACTTTATAAAAGCCAAGTTTTTGCTTCTAGCTGGTCGAAGGTCCTGTGGGAGCTCACGTTTTTCTCAATCACTGATGA
Y
CATTTGAGACATAATTTGGAGAAGGTTTCTATCAAATCCTAGTTGGACTGCAGTGAAATGTTTTCAAACTAGAGAAGCACCAAATAGGCCATGATAAAGA
Celera SNP ID:            hCV2395501
SNP Position Genomic:     1099041
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58124):
CTGCACAAAGAATGGGCTGTCCTCTCCTGCTACTTTATAAAAGCCAAGTTTTTGCTTCTAGCTGGTCGAAGGTCCTGTGGGAGCTCACGTTTTTCTCAAT
Y
ACTGATGACCATTTGAGACATAATTTGGAGAAGGTTTCTATCAAATCCTAGTTGGACTGCAGTGAAATGTTTTCAAACTAGAGAAGCACCAAATAGGCCA
Celera SNP ID:            hCV2395502
SNP Position Genomic:     1099032
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58125):
TGGTCTCGAACTCCTGAGCTCAGGCAGTCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGATCACAGGCGTGAGCCACCGCGCCCAGCCCATGACTTCTCTT
Y
ATGGGAGAGAAAGGCCACCGAGATAGTAAGTGGACATCAGGACATGGATTCTATTAAATCTAACACCTTTATCTTTGCATTTCCATACATTTTGCTTATT
Celera SNP ID:            hCV2395503
SNP Position Genomic:     1098816
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58126):
ACATATATTGAGCATTGACCAGGTGCCCAATATTTTAATGTCCCATGGGTGTGCATCAGGTACGCTGTGGAAGGACAGATGTCATTCCTTAAAGGGGCTG
S
ACTGAATTAGACCAGGGGTTCTCAAAGTGGGGTCCCTGGACCGGCAGCATCACCATCACCTGGAAACTTGTTAGAGATGCAGATCTTGGGCCCCGCCCCA
Celera SNP ID:            hCV16290870
SNP Position Genomic:     603317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58127):
CAGGGTTTCACCGTGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGCAGTCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGATCACAGGCGTGAGCCA
S
CGCGCCCAGCCCATGACTTCTCTTCATGGGAGAGAAAGGCCACCGAGATAGTAAGTGGACATCAGGACATGGATTCTATTAAATCTAACACCTTTATCTT
Celera SNP ID:            hCV2395504
SNP Position Genomic:     1098791
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58128):
CTTTTCTGACTGCTCAAAACAGGGAATAATAAACAGTCAGAGTGTCCAAGTAATCTGAGCTAGAAAGTTCCTTCTTTCAGAGAAAAGTTATAAAAAGTAT
W
TTTGCCGGATCCAAAAAAAATACTGTGTATCAACTACTGAGACCTGCATAATGTTTTCTTAGTATTCTCACTCTTTAAAAGAAAAAAGAAAACCTGTAAA
Celera SNP ID:            hCV8896854
SNP Position Genomic:     358119
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58129):
GGGGTACTGATACCAGAGTTCATTTGAAGTCATTGGAAACCAAGGCATATTTTCTTAAAGAGACAACTGTTTTTGGTGAATAGGCCATGTTGTTTATAGT
W
AAAACAAACATGAATATTCTGTAATAGAAGATATCGTTTGCATGGTGTTTTAAAGCTAAAACTTGAGTTATTAAACACCCTTCTCTCCCTGGGGATGCCT
Celera SNP ID:            hCV16290871
SNP Position Genomic:     600316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58130):
AGGCACCTGCCACCACACCTGGCTAATTTTTTTTGTATTTTAGCAGAGACAGGGTTTCACCGTGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGCA
R
TCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGATCACAGGCGTGAGCCACCGCGCCCAGCCCATGACTTCTCTTCATGGGAGAGAAAGGCCACCGAGATAG
Celera SNP ID:            hCV2395505
SNP Position Genomic:     1098742
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58131):
TCAGAGTGTCCAAGTAATCTGAGCTAGAAAGTTCCTTCTTTCAGAGAAAAGTTATAAAAAGTATATTTGCCGGATCCAAAAAAAATACTGTGTATCAACT
M
CTGAGACCTGCATAATGTTTTCTTAGTATTCTCACTCTTTAAAAGAAAAAAGAAAACCTGTAAAATTTGGGAACTTAAACTTTTTTTGATATTTTAATAT
Celera SNP ID:            hCV8896855
SNP Position Genomic:     358155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58132):
AGTGCAGCCTCCGCCTCTCGGGTTCAAGCGATTCTTCTGCCTCAGCTTCCCGAGTAGCTGGGACTACAGGCACCTGCCACCACACCTGGCTAATTTTTTT
K
GTATTTTAGCAGAGACAGGGTTTCACCGTGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGCAGTCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGAT
Celera SNP ID:            hCV2395506
SNP Position Genomic:     1098675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58133):
ACAGTGTTATCAGTCATTGACTCAGAAGATAGTTTCTTACCGTTTGGGGAAAGTGCTTGTCTATTCCTCTCCAAAGCCATTTTAAAAAAAAAATTGCACC
R
GTTCTCATCCCATCATCTGCCTTGATCAAACATTTGCTTATTGGAATCACTTCGAAAAGGAACTTGGTATCGTTCACATGTGTTTATAACTCTCAAATCT
Celera SNP ID:            hCV1445080
SNP Position Genomic:     823125
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(A,3|G,2)   his(A,3)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58134):
GCCTTACCCCGCTACAGAGAGGCCCCAAGAGAGAGGCCTCACACCCTCTGGCTCCACTGAAATTCACTTCACGTTTCCAACTTGGATTAAACTGGCACGA
M
AGTTCAGTCAAATGTCAAGTCCATTTTGTCAAGGGAGGGAACTCATTCAGAAGATGAACTAGTTGGTGTTACTTAGATGATTAACTACTTGGCATTAGGT
Celera SNP ID:            hCV2395507
SNP Position Genomic:     1098017
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58135):
ATATGGTGTCAGCAAGAGAAAAATGAGGAAGAAGCAAAAGCAGAAACTGCCTGATAAACCCATCAGATCTCTTGAGACTTATTCACTATCATGAGAATAG
S
ATGGGAAAGACCGGCCCCCATGATTCAATTACCTCCCCCCGGGTCCCTCCCACAACATGTGGGAATCCTGGGAGATATAATTCAAGTTGAGATTTCGGTG
Celera SNP ID:            hCV3285470
SNP Position Genomic:     80704
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58136):
TGATCAAACATTTGCTTATTGGAATCACTTCGAAAAGGAACTTGGTATCGTTCACATGTGTTTATAACTCTCAAATCTTCTTCTTCCAATTTTTAATCTT
S
ATCACCACAGCTTTATAACAGGAAGAACGCTCAAAGAAGAAAAATAGAAGAAGCCTGAATTTTAATTTGCTATTTCTTCACACACAAAACACCCCAAGCT
Celera SNP ID:            hCV1445081
SNP Position Genomic:     823248
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(C,2|G,2)   his(C,2)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58137):
GGTATGGGGTGGGGAAGGGGGGGGGGATAAAGATATTAATTTGGAAGCATTTGATTGCTCCATTATTTTATCATCTTCCCATGGAAATGTTTTCATAACG
Y
CTTGTTTTTTAATTATTATTATTATTTTTTGAGACAGAGTCTCACTGAGTCGCCCAGGGCGGCGGTGTGATCTCGGCTCACTGCAACCTCAGTCTCCCAG
Celera SNP ID:            hCV2395508
SNP Position Genomic:     1097466
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58138):
AGATCAGGCCACTGCACTCCAATCTGGGTGACAGAGCAAGACTCTGTCTCAAAAATAATAGTAATAATAATAATAATAATAATAATAATAATAATAATAA
K
AAGAATCTGACTAAGGTTATTAACCATTAAGGTATGCTGTGCTAAGGAGCAGGGGGCCCCTTCCATCCGTAGAGGGCAGAAAGGTGCCTATCATGTCTTC
Celera SNP ID:            hCV3285471
SNP Position Genomic:     81388
SNP Source:               Celera
Population(Allele,Count): cau(G,4|T,3)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58139):
GGGAGTGTGGTTGTACTTCAACCTGGAACTGTCTAACTCCTAAGGTTTTATTAATATCTAGTCCATTTCTCTCAATCTAATAGTAAATGGAAGAGAAGCA
M
CAACTTTTGTTTTCCAATTCCTTTTGAACATTTGAAAGGTTTTCTGAAAGGACTTAAAGAAACCATAGCTTCCTTACCAGTTCCCAAAGCTTCAGTCCTT
Celera SNP ID:            hCV16290875
SNP Position Genomic:     599717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58140):
TTTGAACTCTAATTAGGGAAAGGGAATTTGGAACCATTGTCTTCTCTGAGTGTGCAGACACGATGTTATCATTGTGTTTACAGAGGTGGTCAGATTCCCA
K
CACAGTGTACTCCCGCACAGATAACCGTCCCATCTTGATAAAACAATGCTCTCAGCCGAATCCTAAACACGCTGCACAAGGAAGACCTTATGCTGACAGT
Celera SNP ID:            hCV1445082
SNP Position Genomic:     823513
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   his(G,1)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58141):
GAGATAAGAAATGGAGCAAGGGAGGGGTTTCATCCCGCCGTGTTCATTTGCTTGGCTGTCCTGAAATTGCGAATACGCAGTTGTTACCTGCTCCCGGTGG
R
AGGGGGGGGATATTTATTTGGCATCTTGCAATTGATAGGAGCTGAGTGATTTTAGTAGGTAGTTTAACTCCTTAAAAACTTCCAGTGGTTTCATATTCTA
Celera SNP ID:            hCV2395509
SNP Position Genomic:     1097245
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58142):
TGGCTGATTCATGTCATGAGAGATCCTGAGTCAGAACCACCCAGCAGCTAAGCCACTTCTGAATCCTTGACCCACAAAATATGGTAAGATACCAAATGGT
K
ACTGTTTTAAGCCACTATGCTCTGGGGGAATTTGTGATGTAGCGGTAGATAACTATCACAGGATCCATGGCCTCAAGGGGAGAAGGATCCTTAAGAGAGA
Celera SNP ID:            hCV3285472
SNP Position Genomic:     82125
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,5)   his(T,5)   total(G,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58143):
TATGTCTTTATCAGCAGCGTGAAAACGGACTAATACAGTGAGGAAATCCATGTGTTAGGAAGGGAGTGTGGTTGTACTTCAACCTGGAACTGTCTAACTC
Y
TAAGGTTTTATTAATATCTAGTCCATTTCTCTCAATCTAATAGTAAATGGAAGAGAAGCAACAACTTTTGTTTTCCAATTCCTTTTGAACATTTGAAAGG
Celera SNP ID:            hCV16290876
SNP Position Genomic:     599656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58144):
CTGATAAATTCTGGGAAAGTTTATCCAATTGTTACAACCCAGGGTCAGGAAAACTGTTTTCAATTTTCTGCTGTATGAAGTTGCCAGTGTTAAACCCTTT
Y
GATAGCAAGTAGAAGAAATGTTCATTCAAACAGGCTTAATTAACTGAAAGATATAGGTGTGGTAAGGGGATCAGGTAAAGCTTGACCCAGGGGCTAAACT
Celera SNP ID:            hCV1445083
SNP Position Genomic:     824253
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,1)   afr(C,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58145):
GGCAGCTGGAGAGCGTGCAGACTCAGGAGCCAAGACCTGCCTTGCCTTCCCTGGAGTTAATGAATCAGTGTGAATGAAGAGCACAGTCTTCTTTTAAATG
R
CAGGGGAACCGTGCACTTATTTACCGGCAATTCTCAGATTCTAATTGTTCCGACTACAATGCGTCCTGTAAACCGGGTAGCTGGGAGAAACTTCAATGCA
Celera SNP ID:            hCV3285473
SNP Position Genomic:     82813
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(G,5)   his(G,5)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58146):
CCAGGACAGGTGCCCTCCTCAGCGGAGACAACTGTCCCCCTCCATCCTGCAGGAGTTTTGCAGCCATCCTTCCAGCCACTGCTTCTCTACCGGGGCAAAT
Y
TTCCCCCAAGGGATAATTGATAATGTCTGAGGCATTTTTAATTGTCACAACTTGGGGAAGGGGCAAGGGATTGAGGGAGAGTGCTCCTGGCATCTGGTGG
Celera SNP ID:            hCV16290877
SNP Position Genomic:     596064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58147):
AACCACATCTTTCCAGATTCAATATAGTAGGAGAAGACCAGACTTGCTCTTTTCCTGGAATTTAGTCTGACGTGGCTGGGACAACATGCCCACTCTCAAC
Y
AATTTTTGTAGCCATGGAGATTTGGAAGTCTGGCAAGTCTTGGGTCACATGATCTACCTTACAGCTGTTACTGCAGACCTCCCAAAGCTCACGAACTGAG
Celera SNP ID:            hCV1445084
SNP Position Genomic:     824565
SNP Source:               Celera
Population(Allele,Count): cau(T,7)   afr(C,1)   his(T,7)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58148):
TTTATTGTGGGACATTTAGAGAATCTCAGACTAGCAGGTGTTAGATTAAACAGAGGAGAAACGGTCCTTGTGGTGATAAAACTTCCCTACGCAAGGACAA
R
TAGAGAAACAACTGTAGATGAAGCAGCCAGTCTCAGGCTGGGGCAGCACGCCCTGCGATAGGTTAAGGTTTATTTTAGACAAATATTTAAAATGCAGCTA
Celera SNP ID:            hCV8042104
SNP Position Genomic:     79407
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,4)   his(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58149):
AGCGTGCAGACTCAGGAGCCAAGACCTGCCTTGCCTTCCCTGGAGTTAATGAATCAGTGTGAATGAAGAGCACAGTCTTCTTTTAAATGGCAGGGGAACC
R
TGCACTTATTTACCGGCAATTCTCAGATTCTAATTGTTCCGACTACAATGCGTCCTGTAAACCGGGTAGCTGGGAGAAACTTCAATGCATCTTTGTAATG
Celera SNP ID:            hCV3285474
SNP Position Genomic:     82824
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,6)   cau(G,6)   his(A,1)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58150):
ATCCGTCGTTCCAAATATGAGCACTTTCTCTTGTCTTTTCTGAGCTACCTATTCCAAGAACACAGAGGAGTTGTTATTGTGGTTACTTGTGGTAAGAAGA
S
TACCTTTCTGATTGGACCCAGGGCAGAAAAAAGAACTTTCAGGTGGAAATACAGTCGTGGTGTCAGGTAGTGTGTAACTTCGTTAAGTTCAGTCATAGCA
Celera SNP ID:            hCV1445085
SNP Position Genomic:     826358
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,3)   his(C,3)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58151):
CAAATGTTTACATGGGGCTGTGGACCATTTTGTATCATTGGAGGAGAAGCCAGGGCACTTGGCAGGGGTGTTCATGATGATAATCAGGTGGCTGGGTGGA
S
TCACCATTTGTGGCATCCTCAAAGACTTGCCAACATAGACATTTTTGGGGAGACAGAAACACAGAAATAATTCTGCAGTGCTTTAAAGAATCTGTTAAAA
Celera SNP ID:            hCV3285475
SNP Position Genomic:     85419
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,4)   his(G,4)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58152):
GTTCCAAATATGAGCACTTTCTCTTGTCTTTTCTGAGCTACCTATTCCAAGAACACAGAGGAGTTGTTATTGTGGTTACTTGTGGTAAGAAGAGTACCTT
Y
CTGATTGGACCCAGGGCAGAAAAAAGAACTTTCAGGTGGAAATACAGTCGTGGTGTCAGGTAGTGTGTAACTTCGTTAAGTTCAGTCATAGCAGCCGCTG
Celera SNP ID:            hCV1445086
SNP Position Genomic:     826365
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,3)   his(T,3)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58153):
CACAGAAATAATTCTGCAGTGCTTTAAAGAATCTGTTAAAAATCAAGTTTCTTTCAGTCATGTATGATCCATTGGGCTTTATATAACTTTTAGCCTTTGC
Y
TTGCAGGGACAGCAAAGATGTGAGCAAATTTGTGCAAACCTAATAGGGTGAAAAATTGAGGTATGAATTAGTAAAGTCATTTGTCCTTCTGGAAAGAGTT
Celera SNP ID:            hCV3285476
SNP Position Genomic:     85579
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,3)   his(T,3)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58154):
CCCGGGATCAAGCGATTCTCCTGCCTCATGCTCCCGAATAGCTGGGATTACAGGCACACACCACCACACCTGGCTAATTTTTGTATTTTTAGGAGAGAGG
K
GTTTTACCATATTGGCCCAGCTGGTCTCGAACTCGTGACCTCATGATCCACTCGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCCACTGCAC
Celera SNP ID:            hCV1445087
SNP Position Genomic:     827115
SNP Source:               Celera
Population(Allele,Count): cau(G,4|T,1)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58155):
GCACTTTAAATGCATTAATTCAGTTCATCTTTATGACAACACTATGAGATAGCTAATATTATGAATCCTATTTTCAGATGAAAGACTGAGTCTTAGGGAA
S
AAACAGCCGAGAGATGAAATGCCACAGGGATGTCTAGGTTCAAACAGCAACAGAGGTGCGTACCATAGGGATGTGGAAGCCTTGCTTGTCTTGTTCCTCT
Celera SNP ID:            hCV3285477
SNP Position Genomic:     86091
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,4)   afr(G,1)      total(G,1|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58156):
ATTGTATCAGTCAGCGTAGACTAGGTTTGCCGCAGTAACAAACGACCCCACCATGCCATAGCTTGCAAAAACAAAGACTGAGTTCTTGTCTACACTGTAG
K
GCCGTCAAGAGCTGGCTCTGCTTGCTCTTGGTCTTCTCCATGCCAGGATCCAGAGTAAAAGCACAGCTTCTCTCTAGGACTCCAGGGGAAAGAGAAAAGA
Celera SNP ID:            hCV1445088
SNP Position Genomic:     827526
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   his(T,1)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58157):
GGGATGTCTAGGTTCAAACAGCAACAGAGGTGCGTACCATAGGGATGTGGAAGCCTTGCTTGTCTTGTTCCTCTTGGTATAACCCCAGTGAGTAGCATAG
Y
GCCTGGTCAATTGGAGGGATTTGGTAAATATTTACTGAGTGAGTGAGAGGGTAAAACAGCTGAGCCATGGGAGTTATAACTTGGGCAGCAGTAATCCTGC
Celera SNP ID:            hCV3285478
SNP Position Genomic:     86218
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,3)   afr(T,2)      total(C,3|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58158):
GCTCTTAATATCCTATAATTGAAAAAGAGATTGCCATTTTCAAAGACCTTTCACAGTCATTCTCTTAATCAAGTCTCATAATAAAGATGTCATTGGGACT
K
AGCAGCTTACTCACATTCTCATTTCACTGATGAGGAAACTGGAGCTCAGGGAGGTTACATGGATTCTGGATGACCTACAGGTCATGGAGGTAAGAGAGGA
Celera SNP ID:            hCV1445089
SNP Position Genomic:     828968
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(G,3)   cau(T,6)   afr(G,3)   his(G,3)      total(G,9|T,6) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58159):
TCATTCTGGAGCAGTGGGAGCCGACTGTGATGCAGAGTGGACTCATAATCCAGCTTGATTTTGAGGGACAGAAACCTGGGCCTTTAGGTAGAATGAACAG
S
TTAAAAGGCTGCACCTGAGAGTAGGGGGCATATGGGTAAATCCAGCTGTACCCAAGAGTTGGGGGCATATGTTAGCCCTACTGGGTAAATCCAGCTGCAC
Celera SNP ID:            hCV3285479
SNP Position Genomic:     86681
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(G,2)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58160):
TACTGGGGCTAAAGATTTGGCTTGGAGTTTCCTGGTAGTCAAGGCAAAAAAGGGAAACAAAACTAGTTACAGAGTTTCTCGGACCTATGAGCAAAAGGAT
K
TCCATTTCTAATCGGAGGCAGAGGTATCATGGCCTTCAAGAATCTTCCGGTTAAACACGGTACTGAAATTTGATTTTATTGTCTATCGTTGAGTCCCTAG
Celera SNP ID:            hCV2852860
SNP Position Genomic:     925528
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,2|T,1)      total(G,2|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58161):
ACTTAATTCACTGGGTGACTGCATCCATACCAAGCACACAGCCGTGATCAGTTAGCCTCTCACTTCTCTACTAATCCCCACTGTGGGGAAGAGCTCATCA
Y
TAACATGCCTTATCTGACATGTGGCAATAACTTCTGCCTTTCTTATGTCATCTGCATGGTTGCAGTGGATAGTCACTGGACAATTGATGAACAACTACTA
Celera SNP ID:            hCV2852861
SNP Position Genomic:     927448
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58162):
TCATCATTAACATGCCTTATCTGACATGTGGCAATAACTTCTGCCTTTCTTATGTCATCTGCATGGTTGCAGTGGATAGTCACTGGACAATTGATGAACA
M
CTACTACATGCTAGATCTCTCCCTGGGGAGAGTGCTTGTCTTTGAAACAGTCAAAGGAGGAAGGAAGAAAAGAGAGGCAGAACAATTATAATAAAGCAAC
Celera SNP ID:            hCV2852862
SNP Position Genomic:     927542
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5|C,2)      total(A,5|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58163):
CCTTATCTGACATGTGGCAATAACTTCTGCCTTTCTTATGTCATCTGCATGGTTGCAGTGGATAGTCACTGGACAATTGATGAACAACTACTACATGCTA
R
ATCTCTCCCTGGGGAGAGTGCTTGTCTTTGAAACAGTCAAAGGAGGAAGGAAGAAAAGAGAGGCAGAACAATTATAATAAAGCAACTTAACCCATTGAGA
Celera SNP ID:            hCV2852863
SNP Position Genomic:     927556
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58164):
AAACTATGGAGTCTTAAGTCCAACCAGTGGTTATGAATTCCGGCTCTGCCACTTGCTATAATAGCTGTATCACCATGAGCGATAACTTAACCTCTTTGTG
S
CTCAGTTTCTTCATATATAAAATGGGGATCATGATAGTCTCTGTCCCAGGGGAGTTAGGAGGATTAAATGCAACAGTAATCCAACCACAGTATGAAAAGA
Celera SNP ID:            hCV2852864
SNP Position Genomic:     927862
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,3)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58165):
GTCCAGTGCTTGGCCAGTACAAGGCCATTATATATTTGTTGAATGAATGAATTCGTGAATATGTTTATAAAGACAAGGAAACGCCATTCTGCAAATCTAC
R
TGCAGTAAAATAGTTTTTCAGTCACTTTGCCTTCATTTGTTTGACATTCTTGGAATATTTGGGCTCTACAAGGTGCTAGGGTAAGGCACGCAGGATGCAA
Celera SNP ID:            hCV2852865
SNP Position Genomic:     928634
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58166):
TGAGGTGGCACATGTCAGCGGCTTTGCTCAGAAGCACCCAGGGATGATGGAAAAGGCAACCGAAAGGGCTCAGCTTCTGCAGATAGAGTCTGTGCTTTGC
R
CTTTCTGGCTTTGTGACCTTTCTGCAGGTTACTTCTCTCCCCTGAGCATCAGTTTACTCAGCTGAAAAATGCATCTGCTAATAATACCTATGGCATAGGG
Celera SNP ID:            hCV2852866
SNP Position Genomic:     930292
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,3)   his(G,3)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58167):
CTGAGCATCAGTTTACTCAGCTGAAAAATGCATCTGCTAATAATACCTATGGCATAGGGTTTGGGGAGGATTAAATAAGATAATGTAAATAGAGTTTAGC
R
TGGTACTGTGTATATAGCCAGCACTCACTGCTGTTGGCTTATTGAAAAAACAAAAATAATACCTACAATAACCACAATATAGCAACAGCAATCATGTTCA
Celera SNP ID:            hCV2852867
SNP Position Genomic:     930434
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,5)   his(A,3)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58168):
GCATAGGGTTTGGGGAGGATTAAATAAGATAATGTAAATAGAGTTTAGCGTGGTACTGTGTATATAGCCAGCACTCACTGCTGTTGGCTTATTGAAAAAA
M
AAAAATAATACCTACAATAACCACAATATAGCAACAGCAATCATGTTCAAGTCTGTATTTGGTTTAAGGAGGGGGAATGTGACCCGGGGGCTCTGTCATT
Celera SNP ID:            hCV2852868
SNP Position Genomic:     930485
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,4)   his(A,2)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58169):
GTCATTAGATATATGCACACACTTGACCTAATGGAAAGCTTGAAAGCAATTGGATGGGAAAACAGTCCATCTTGTTGGAAGGCTGTCAAGCTGTGTAATA
M
AAGAATTACTGTTCTCCCTTTGCATTTATGCATTGCATGTCTCTGTTGAATTCAGAGTGCTTTATAGACCTCTGATCAGCTTCCAGCATCCTCTTGGTAT
Celera SNP ID:            hCV2852869
SNP Position Genomic:     930680
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|C,2)   his(C,2)      total(A,3|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58170):
AGGAGAGATAAGAAATGGAGCAAGGGAGGGGTTTCATCCCGCCGTGTTCATTTGCTTGGCTGTCCTGAAATTGCGAATACGCAGTTGTTACCTGCTCCCG
K
TGGGAGGGGGGGGATATTTATTTGGCATCTTGCAATTGATAGGAGCTGAGTGATTTTAGTAGGTAGTTTAACTCCTTAAAAACTTCCAGTGGTTTCATAT
Celera SNP ID:            hCV2395510
SNP Position Genomic:     1097241
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58171):
TTTCCTCCCCTGTAAAACGGGTTAATATCAGCACTTATCACATAGTTTTTGAGAAAGCTAAACGTGCTTATCTATAGTGGTTATTATTACTAGAAAGAAT
R
TCGTGGTGCCCCCAAACATGGATTTAACAAGCATTGATCAAATACCTCCTATGCCCCTACGAACCAGGTACTAGAAATCCACTCCTTTCACTTGCTTTTG
Celera SNP ID:            hCV2395511
SNP Position Genomic:     1094750
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58172):
GCAACTTGGGTCATGCCACTACAGATCGACACCCACTAAATCCTTTTAATTTAGTCTAGTGCAACAAGTATTTGTGTAAGTGTCCTCTGCCCTGGACACC
R
GTGAGGTCACCGTGGGAATGGCTGGGCAGGAACAAAGCCTTTTGTTTCCAGCTGAGTTTCCTTTTCTGAAGATTGCCTGTCCTAGACACCAGTTCTCTGT
Celera SNP ID:            hCV2395512
SNP Position Genomic:     1061708
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58173):
ACCTCTCCTCGGCCTTGCAAAGTGCTGGGATTATAGGTACCCCGCCTGGCTGATACTTTCCTTAGTTGTTTTCAGTGTAATAACCTGTCTTCAGTCTACT
Y
TTTGTCCTTTTCTCTCCTTTCCTCCCTGAATACTCAAGCTTCCAGTGCACAGATTTCTCCAACCCTGAATGTGACTGATACCAACACCATACTAGCTCTT
Celera SNP ID:            hCV16290881
SNP Position Genomic:     368066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58174):
TTTTGCATCCCTAGACATCATCCTTTTTGAGAGAGAAAATTCCGAGTGTCAGTTTTCCTTTATCGGAACCTCCTTTTATTTGAACTAACCACAATGGGTC
R
TAATTTATAGGCCCAGTCAGCGCATCATTGCTCAGATAGAGTCATTTACCTACAAGTATCCATCAGTTAGGTGGGGGCTGCTAGATTTTTTAAGTGGAAA
Celera SNP ID:            hCV272252
SNP Position Genomic:     196237
SNP Source:               Celera
Population(Allele,Count): cau(A,7|G,1)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58175):
TTCCAAGTAGCTGGTTTTGCAGGCATGCACCACCACACCCAGCTAGTTTTTCTATTTTTAGTAGAGGCGGAGTTTCACCAAGTTGGCCAGGTTGTTCTCA
R
ACTACTGACCTCTCCTCGGCCTTGCAAAGTGCTGGGATTATAGGTACCCCGCCTGGCTGATACTTTCCTTAGTTGTTTTCAGTGTAATAACCTGTCTTCA
Celera SNP ID:            hCV16290882
SNP Position Genomic:     367958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58176):
TGCCTCTCTTTCCTTAGTCCTGTGTGCTTCCCCTTGATTTCACCAGGACAATTTTATACCAATCCCTTGTATTTTAGAAGAGCCTGATACATTTGCAAGG
W
CTCTCTTTATATTCCTGAATTTTGCATCCCTAGACATCATCCTTTTTGAGAGAGAAAATTCCGAGTGTCAGTTTTCCTTTATCGGAACCTCCTTTTATTT
Celera SNP ID:            hCV272253
SNP Position Genomic:     196117
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58177):
GAGATTCTTGTGCCTCAGCCTTCCAAGTAGCTGGTTTTGCAGGCATGCACCACCACACCCAGCTAGTTTTTCTATTTTTAGTAGAGGCGGAGTTTCACCA
W
GTTGGCCAGGTTGTTCTCAAACTACTGACCTCTCCTCGGCCTTGCAAAGTGCTGGGATTATAGGTACCCCGCCTGGCTGATACTTTCCTTAGTTGTTTTC
Celera SNP ID:            hCV16290883
SNP Position Genomic:     367938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58178):
TTGTCCTTACTCTGACACCCACTGCAAGTTTGAGGTGGTCCTCAAACCCATCCTCATGGCTGATATTTGCTAGAAGGACTTGTGGCACTTAGCAGAAGCT
R
TTGTATTTACAGTTACAGTTTATTACAGGGAAAGGATACAGGTTAAAATTAGATCGGGGAAGAGACAAATGGGGCAAAGTCCAAGACAAGTACCAGATGT
Celera SNP ID:            hCV1445090
SNP Position Genomic:     829294
SNP Source:               Celera
Population(Allele,Count): chn(A,7)   cau(A,7)   afr(G,1)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58179):
ATGCAGTGTTTTCCCTGCAAAGGAGAAGAAATATATTTCTTGCCTCTCTTTCCTTAGTCCTGTGTGCTTCCCCTTGATTTCACCAGGACAATTTTATACC
M
ATCCCTTGTATTTTAGAAGAGCCTGATACATTTGCAAGGTCTCTCTTTATATTCCTGAATTTTGCATCCCTAGACATCATCCTTTTTGAGAGAGAAAATT
Celera SNP ID:            hCV272254
SNP Position Genomic:     196077
SNP Source:               Celera
Population(Allele,Count): cau(A,7|C,1)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58180):
TGGGCCTTTAGGTAGAATGAACAGCTTAAAAGGCTGCACCTGAGAGTAGGGGGCATATGGGTAAATCCAGCTGTACCCAAGAGTTGGGGGCATATGTTAG
Y
CCTACTGGGTAAATCCAGCTGCACCCAAGAGTAGGGGGTATATGTTAGGGCTAGTGCGTAAACCCAGCTGCACCCGAGATATGGGGTATACATGAGTGCT
Celera SNP ID:            hCV3285480
SNP Position Genomic:     86757
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5|T,1)   afr(C,5)   his(C,5)      total(C,15|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58181):
ATGAGGGCCAGGACCTCATGGTCATAAAAGTAACATTAGACCTATTCCTAGTAATTTGATCTAGGTTGGCCTGATTTTTGTTGTGGTGGCAGTGGTGGCT
R
TGGTTGTCAATTTAATGGAATGTATTTGGAAAGAGCAAGCTTCTTCCCAATGCAGTGTTTTCCCTGCAAAGGAGAAGAAATATATTTCTTGCCTCTCTTT
Celera SNP ID:            hCV272255
SNP Position Genomic:     195927
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58182):
GGTATACATGAGTGCTATTGGGCAAATCCAGCTGCACAGGAGAGTAAGGGGCATATGTTAGGGCTAGTGGGTAAACCCAGCTGCACCTGAGAGTAGGGGT
R
TATGTTAGGGCTTGTGGGTAAATCCAGTTGCACCTGGCAGTTGGGGCATATGTTAGGGCTAGTGGGTAAACCCAGCCGCACCGGAGAGTTGTGGGTATAT
Celera SNP ID:            hCV3285481
SNP Position Genomic:     86942
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,6|G,2)   afr(G,2)   his(A,6)      total(G,4|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58183):
GACTCTTTTTTTCAGGAATATATTCTGCATATATTTCAGTGATTTTTTTTTTTTTTTGAGACAGTCTCTCATTCTGTCGCTCAGGCTGGAGTGCAGTGGC
R
TGACCTTGGCTCACTGCAATTTCTACCTCCCGGGTTCAAGCAATTCTCGTGCCTCAGCCTCCTGAGTCACTGGGATTACAGGCATGCACAACAACACCCA
Celera SNP ID:            hCV1445092
SNP Position Genomic:     829846
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(A,4)   afr(G,2)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58184):
TACATGAGTGCTATTGGGCAAATCCAGCTGCACAGGAGAGTAAGGGGCATATGTTAGGGCTAGTGGGTAAACCCAGCTGCACCTGAGAGTAGGGGTATAT
S
TTAGGGCTTGTGGGTAAATCCAGTTGCACCTGGCAGTTGGGGCATATGTTAGGGCTAGTGGGTAAACCCAGCCGCACCGGAGAGTTGTGGGTATATGTTA
Celera SNP ID:            hCV3285482
SNP Position Genomic:     86946
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   afr(C,1)   his(G,7)   total(G,14|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58185):
TTTTTTTTTTTTTTTGAGACAGTCTCTCATTCTGTCGCTCAGGCTGGAGTGCAGTGGCATGACCTTGGCTCACTGCAATTTCTACCTCCCGGGTTCAAGC
R
ATTCTCGTGCCTCAGCCTCCTGAGTCACTGGGATTACAGGCATGCACAACAACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGT
Celera SNP ID:            hCV1445093
SNP Position Genomic:     829888
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(A,4)   afr(G,2)   his(A,4)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58186):
AGCTGCACCTGAGAGTAGGGGTATATGTTAGGGCTTGTGGGTAAATCCAGTTGCACCTGGCAGTTGGGGCATATGTTAGGGCTAGTGGGTAAACCCAGCC
R
CACCGGAGAGTTGTGGGTATATGTTAGGGCCAGTGGGTAAATCCAGCTCCATCTGAGATATGGGGTATACATGAATACTAGTGGGTAAATCCAGCTGTAC
Celera SNP ID:            hCV3285483
SNP Position Genomic:     87020
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,5)   afr(G,5)   his(G,5)   total(G,15|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58187):
CCTCCCGGATTCAAGAGATTCTTGTGCCTCAGCCTTCCAAGTAGCTGGTTTTGCAGGCATGCACCACCACACCCAGCTAGTTTTTCTATTTTTAGTAGAG
R
CGGAGTTTCACCAAGTTGGCCAGGTTGTTCTCAAACTACTGACCTCTCCTCGGCCTTGCAAAGTGCTGGGATTATAGGTACCCCGCCTGGCTGATACTTT
Celera SNP ID:            hCV16290887
SNP Position Genomic:     367924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58188):
ATTGGTAAAAACATATATCAGAGTCCTTTTGACTGTTTAGAAAGTGTTAATTTACTCCACGATTATCCATTCAACATTTATTAGTTGGCTTCTGTGTGGG
W
GAGTAACCATTAATACCTTGAATAAGTTTATAATCTGGTCATTCTGTAGAGCTTCCTATATGATGTCTTCTGTTTAAGTATTTCTGTAATACCTTATAGA
Celera SNP ID:            hCV1445094
SNP Position Genomic:     832105
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58189):
CACCTGAGAGTAGGGGTATATGTTAGGGCTTGTGGGTAAATCCAGTTGCACCTGGCAGTTGGGGCATATGTTAGGGCTAGTGGGTAAACCCAGCCGCACC
S
GAGAGTTGTGGGTATATGTTAGGGCCAGTGGGTAAATCCAGCTCCATCTGAGATATGGGGTATACATGAATACTAGTGGGTAAATCCAGCTGTACACGAG
Celera SNP ID:            hCV3285484
SNP Position Genomic:     87025
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|G,5)   afr(G,5)   his(G,5)      total(G,15|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58190):
TGTTTTCCTTAAACTCTGTGCACATGAATATTTGTGGTATATGGCTTAATTGTAAGCGATCAGGCATCAATGGCTTTTTATGAGGCAAAATCTACTTTCT
R
CATTTGCGTGTGCCATTATTATAGATTGCTGATGTTTGCCAATGGATATTCTTGGAAGTCGTCTTCTGGTTTAAATGCAGTTAAGTATTTAAAAATAATA
Celera SNP ID:            hCV16290888
SNP Position Genomic:     367230
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58191):
GTCCTTTTGACTGTTTAGAAAGTGTTAATTTACTCCACGATTATCCATTCAACATTTATTAGTTGGCTTCTGTGTGGGAGAGTAACCATTAATACCTTGA
M
TAAGTTTATAATCTGGTCATTCTGTAGAGCTTCCTATATGATGTCTTCTGTTTAAGTATTTCTGTAATACCTTATAGACATCTCTTTTAGACTACTAGTG
Celera SNP ID:            hCV1445095
SNP Position Genomic:     832127
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58192):
TGGGGTATACATGAATACTAGTGGGTAAATCCAGCTGTACACGAGAGTAGGGGGCATATGTTAGGGCTAGCAGGTAAACCCAGCTGCACCCCAGAGCAGG
K
GTATACATGAGTGCTAGTGGGTAAATCCAGCAGACGTCCGGACTGTGCTTGAGGGTGTCATCGAGAGAGAGAAGGTTGATCCGAAGTTAGTAAAGGCTTT
Celera SNP ID:            hCV3285485
SNP Position Genomic:     87181
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,6)   afr(T,6)   his(T,6)   total(G,3|T,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58193):
GAAAGCAGTGCTCAGAGGTAAAGAGCCTCGCTGAAGCCCTAGTTCTAGCCTACCAGGATTTGGTCATTTCTTGGTTTTTCATTTGATCCCACCCTTGCCT
M
CCTTCAGAATGAAGGTAGAATGTGGGACTGTTTCAGACCATGAATGCGATTGGGCAGAAAGACTGTGAACCAAGAGGGCAGGGAGAAGGGAAGGGATGTG
Celera SNP ID:            hCV1445096
SNP Position Genomic:     833308
SNP Source:               Celera
Population(Allele,Count): chn(A,7)   cau(A,7)   afr(A,7|C,1)   his(A,7)   total(A,28|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58194):
TTGGAGGTAAGTATAAAAACCTTCTTGTTTTCTACTACTTAAAGCTGAAAACCCAGCTTGGGTTGGCTTTGCTTCTAATATCCTTCTTCCTTTTTGTTTC
R
TAAGTAATTGTCCTGAAGCCTGTCGAGATAAATGTATACTGAAAGAGAAAGACACAGAGGAGAGACAGGCATACAGAGAAAGAGAGACACGCAGACACAC
Celera SNP ID:            hCV3285486
SNP Position Genomic:     87415
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6|G,4)   total(G,4|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58195):
TGAGCCCAGGAGTTTGAGACCAGCCTGGGTAACATGGCAAAACCTTACCTCTCAAAAATTTACAAGCTTAGCCAGGCATGGTGGTGCCCACTTGTGGTTT
Y
AGCTACCTGGGAGGCTAAAGTGGGAGGATATCCTGAGCCCAGGAGGTGGAGATTGCAGTGAGCCATGCTCGTGCCATTGCATTTCAGCGTGGGTGACAGT
Celera SNP ID:            hCV1445097
SNP Position Genomic:     833671
SNP Source:               Celera
Population(Allele,Count): chn(C,11)   cau(C,11)   afr(C,11)   his(T,1)   total(C,33|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58196):
CCCCATCAACATGATGGCCCTTGGAAAGGACTCTTTTAGCCTCCGCGAGTTCCTTTTCCGCACCAGGCTCCACTTACGAAGGACTGCAAAAACTTGCTAA
Y
GTCATCAGTCTGAAAGGATTGAGCTGTAAAATGTGTTATGGGGGCCTAAGCAACGCATCTGGAATTTAGCCTTCCCAAGTTCAAATCCGGTTTATGCCAC
Celera SNP ID:            hCV3285487
SNP Position Genomic:     88372
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,4)   afr(C,4)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58197):
CTCGTGCCATTGCATTTCAGCGTGGGTGACAGTGAGACCCTATCTCAAAAAAAAAAAAAAAAGTTCCTAAGAAAATAAAGCCTGGCCCATGCAATTTGAA
Y
GTAACTGTCTATAATTTCTCTTGGTTACTGAAATTCTGAGTTTGTGTCTATGGTTTCTCCATCCTTGTCTTTGAGGAGGAGCAGGATGGCGAAGTCGCAG
Celera SNP ID:            hCV1445098
SNP Position Genomic:     833839
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,5)   his(C,3)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58198):
ATGAACCTGGGAGGCAGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTTCAGCCTGGGTGACAGAGCGAGAATCTGTCTCAAAAAAAAAAAAAAAAA
R
AAAGAAAGAAAGCAAAGGTTTTTTCCTCCCAAGAACTCATGGTCCAAGTTTTGGTTTTTAAATATGCATCTATGACAGCACGGATCACATAGTGCATTGA
Celera SNP ID:            hCV3285488
SNP Position Genomic:     89328
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(G,5)   his(A,3)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58199):
TGGAATTATAGGCATGAGCCACCATGCCCTGCCCAGGCACCATTCTTGACTGCGAGAAAGTCACTGTGATGGTTTCTCCAGCCTGAGTTTTCTCCTGTAT
R
AAATGGACCTTGTTTTGAGGAGAGAATGAGGTATGTGGTACTCGTGAGCAGGATTTTCAATGCCTGGCTGGTTGTTACTTATCCATTTAGTCCGAGCTTC
Celera SNP ID:            hCV1445099
SNP Position Genomic:     834576
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6)   afr(G,2)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58200):
TTAATAGTAATAATAATATCTACCACCCACTAGGGGTCTATGTGTGTATGTGTTGGGGGCGGTGTGGCTGGGGAGGGAAGCAAGGCCTGTATTATGGCCC
R
AGCTCAAGAATATTCGGGCAAGAGCAGATACAATGCCTGTATTTCTCATCACTTTTGGGTGGCATAGGACCAGTTGGTTATGAGCGTGAAAGGTTTTCTT
Celera SNP ID:            hCV3285489
SNP Position Genomic:     89670
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58201):
ATTTATTTATTCTTTTAGGGACAGGGCCTTACGCTGCTGCGTAGGTTGTGGTGCAGTGGCACAGTCACAGCTCACTGCAGCCTCAAACTCCTAAGGTGAA
S
AGACCCTCCCACCTTAGCCTCCTCAGTAGCTGAGACTACAGGTGCGTGCTACCGTGCCCAGCTGATTTTTAAATTTTTTTTTCTTTGTTTTGAGACGGAG
Celera SNP ID:            hCV2852870
SNP Position Genomic:     931798
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,4)   his(G,4)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58202):
CTTCAGCCTGGGTGACAGAGAAAGACTCCATCTCAAAAAAAAAAAAAAAGGTAGAGATGGTGGAGTGGTGACATTTGGTAGATAATATAGCTCTGCAGAA
M
TTTTCATTGCAAAATGAAAATTCTTCATTGTTATTATAATTACTTCAAGGAGCAAGGCCATTTTGTGTAAGCTATCCTGGGCCTCCCTGCCTCCCATTTT
Celera SNP ID:            hCV2852871
SNP Position Genomic:     934789
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|C,2)      total(A,1|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58203):
AATTCTTCATTGTTATTATAATTACTTCAAGGAGCAAGGCCATTTTGTGTAAGCTATCCTGGGCCTCCCTGCCTCCCATTTTACACCCTGTTTATTGATA
S
TAAGAAGAGCCTCCAACTGAATAAGAACTAATGACTTCTGCCTGCCATCATTTTGGAATGTCCAATTCCCCGTTCTGGAGAGCCTTTGATTATAACATCA
Celera SNP ID:            hCV2852872
SNP Position Genomic:     934908
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|G,1)      total(G,1|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58204):
TGAAAAATCTCTTCCTTTCCTATCGTGAATTCGGTCATTGTTATAAGCCAAGCTTTGCAAAGGTGGAACACCTTGGAGATACTTATCTCCTCCTTACTCT
M
CCCAAGTAATGACTCATCCTTTTATACAGAATGTCTCTTTTTTGATTTAGATGTCTTTTTTTGATATAGATGTCTCTTGATATAGAAGCATTTCTCGGGA
Celera SNP ID:            hCV2852873
SNP Position Genomic:     935147
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58205):
TTCTCCTGCTCTGCCTCCCGAGTAGCTGAGACTACAGGCACCTGCCACGACGCCTGGCTAATTTTTGTATTTTCAGCAGAGACGGGGTTTCACCGTGTTA
S
CCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGACTGCTTTATTT
Celera SNP ID:            hCV2852874
SNP Position Genomic:     935600
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|G,2)   his(G,2)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58206):
TCACCGTGTTACCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCG
R
CTGCTTTATTTTCCTTTGTGTTCCTAATACCTGGCCCAGTGTCTGGCAAATGGAAAGTTCCCCTGGATGTAGTTGGGTGACACTATGAGTGTATCGTTAG
Celera SNP ID:            hCV2852875
SNP Position Genomic:     935689
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,2)   his(G,2)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58207):
TTTTCACGCGGAAACTGGATGTTTCTTACATCCTCAGCTGCAGGCATGGGGAAGAGACGCACATCAGCCATTAAGAAAAAGGTATGCAGTCTACATGCCT
S
TTAATTTCCTCCACATACACAGTAAACCCATCATGTCCATCAGCACCATTGTCAAAACATCTGTGCACCAGTAAAGGGTTCTGATGTGTGATAAATTTAT
Celera SNP ID:            hCV2852877
SNP Position Genomic:     936803
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,2)   cau(G,2)   afr(C,2)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58208):
CATCAGCCATTAAGAAAAAGGTATGCAGTCTACATGCCTCTTAATTTCCTCCACATACACAGTAAACCCATCATGTCCATCAGCACCATTGTCAAAACAT
S
TGTGCACCAGTAAAGGGTTCTGATGTGTGATAAATTTATTTAGCTATTACTCATCTGAAGTTATACTATTTTAGGATCTTGGGGCAGTGAGGACTTTGGA
Celera SNP ID:            hCV2852878
SNP Position Genomic:     936864
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,3)   cau(C,3|G,2)   afr(C,3)      total(G,2|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58209):
TAGTATAAAGACTGTAGATTCATCAAACATTGTTTACTGTCTTCAAACTTCAACAGTGTTTTAACTATCAAATAGAAAATCGAAAGGAAGCATAAACGCA
Y
ATGGTCACTTTACTGGTATAATAGGGGCCAAGAGCCGTTGTGTTTTATAATTTCTTGATGATCCTGGTGGTAGGTAAGCCAACCGCTATGAACTCTGATG
Celera SNP ID:            hCV2852879
SNP Position Genomic:     937350
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,1)   cau(T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58210):
TTTATATTTTTAGCTAAATTAAAATACTCACATTCCCATTATTTTTTAGAGGTTGTAAGCTAAGTAATAACATTCTAGAAACTCTCTGTTTTTTGAAAGG
K
CATCACCACTGTTGAAGGCGCTAATGGGAGATCCTAAGTTTCAGGCTCTGCTACAGACGTCAGGTCCCCTAGGAGTTGGGCTGCCTTTGCTCTCCTCTCC
Celera SNP ID:            hCV8896871
SNP Position Genomic:     522650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58211):
AGAGTGTGCTGTGTCAGGGTGTTTCATTGCATTTTCATATTTGTCATTTCTCTTTGGAGCGTGTCTTTTGGTGCCACGGAAAAGGGCTGGATTTTCTATC
R
GGTACAATAGGTACCTGCAGGGCTTAGGGTACAAGAGCTTGTCGGGGACCTGCACACATGTTTGAGACCTGTAAAAATATTGCTGGCTCTGAATTATGGA
Celera SNP ID:            hCV8896872
SNP Position Genomic:     515272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58212):
GACCTCGGTGCTCACGGTAATGCTTCCTTCCACCATATCAGAAGGTCCTCAGCAGCCGCAGCCACTTAACATGCTCGGTGCTTCTCTGTAGGAGGATTTT
K
AAAAAGCAGGAACTGTCAGGGTCCCAAATGTTCAGTGGCACTTCAGCCAGAGGTAGGATAGGGATTTTGAAGTGTTTGGAGAAGTGTTTTCATATTTGAA
Celera SNP ID:            hCV3285490
SNP Position Genomic:     90544
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,8)   afr(T,8)   total(G,1|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58213):
AAGCTCTCAAAGTGACTTTTTATTTTATTTTTTATTTTTACATGGAGTCTCGCTCTGTTACCCAGGCTAGAGTACAGTGGCGTGATCTCAGCTCACTGCA
R
TCTCCATCTCCCAGGTTCAAGTGATTCTCCCGTCTCAGCCTCCAGAGTAGCTGGGATTACAGGCACCCACCATCACGCCCAGCTAATTTTTGTATTTTTA
Celera SNP ID:            hCV3285491
SNP Position Genomic:     92107
SNP Source:               Celera
Population(Allele,Count): chn(A,5)   cau(A,5|G,2)   afr(A,5)   total(G,2|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58214):
CTACAAGTGGAGCGTGATTTCATCTTTCATCAAGAGAAGCAGCTTTTCCTCCTCTTGTATCCGTTTTCTTCCTTTTCTAACTATCAAGGTCATGCGGTAT
S
TGCCATTTTGCATATTCTTGCTTTGCTTCATGTTTTCCTTAAACTCTGTGCACATGAATATTTGTGGTATATGGCTTAATTGTAAGCGATCAGGCATCAA
Celera SNP ID:            hCV16290895
SNP Position Genomic:     367099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58215):
GTTTAACCTGACAGTTGATCAATTGATATCCTTTGACTTGTTGGAATTTTATTCTTTACATTCGTCTTTTAAAAAGCTTTATTTTATGCCAGATGCAGTG
M
CTCATGCCTGTAATGTCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGTGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGCGAAACCCTGTCT
Celera SNP ID:            hCV3285492
SNP Position Genomic:     92856
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(A,2|C,3)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58216):
CTGTGTCACCTCAGCATTTAATTTACTTCCGTCACAAAACTACTTGAAGTTGTCCCAGGCTAGTTGGTCCTATTAATTACAACCTAGAGGGATTCTATTA
R
TAAACTAATGGATTACAGTACCTAAATGGAAGCCAGCAGATGACTTTGGAAGGACTGATCCGCAAGGGCCTTCTGTGTGAAGATTAAATGAAGCTTCCTT
Celera SNP ID:            hCV16290896
SNP Position Genomic:     366642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58217):
AGGCTGAGGCAGGTGGATCACTTGTGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGCGAAACCCTGTCTCTACTCAAAATACAAAAAGTTAGCCGGG
Y
GTGGTGGCACGTGCCTGTAATCCCAGCTACTGAGGAGGCTGAGGCAGGAGAATTGCTTGAACTTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCA
Celera SNP ID:            hCV3285493
SNP Position Genomic:     92985
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,6)   his(C,6)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58218):
CATGTAGAGGTTGGCAAAGGGGACAGGAGACTGTGGGATGATTAGTATATTCTTATTTGGCCTGGGAGGGAAAAAAAATCTTTCATTTCCAACAATATTC
W
TTCTCTGTGTCACCTCAGCATTTAATTTACTTCCGTCACAAAACTACTTGAAGTTGTCCCAGGCTAGTTGGTCCTATTAATTACAACCTAGAGGGATTCT
Celera SNP ID:            hCV16290897
SNP Position Genomic:     366537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58219):
GGCTGACACAGGCAGATCACTTGAGGTCGGGAGTTCTAGACCAACATGGTGAAAACCAGTCTCTACTAAAAATACAAAAAATTAGCTGGCCGTGGTGGTG
Y
GCACCCGTAGTCCCACCTACTTGGGAGGCTAAGGCAGGAGAATTGCTTGAACCGCGGAGGCAGAGATTGCAATGAGCCGAGATCGCGCCACTGCACTCCA
Celera SNP ID:            hCV3285494
SNP Position Genomic:     93833
SNP Source:               Celera
Population(Allele,Count): chn(T,6)   cau(C,3|T,6)   his(T,6)   total(C,3|T,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58220):
GCTCAGTCTTTGAAGGGTTACAGAAACAGTTTCACTAGAAGGTGTGACATTGTGTAACAGAAATCGGTTCCTTAACCTGCCAAAGGGAAGAAAATAGTGC
R
GAATCTTTTCTCCAGGTTTCAGGACCCATGTCTGTTGTCCTTCCTTTACCTTAACTTCAGCAGGGCAAGAATGGTTCAAGCCACATTAGAAAGCAGTTAC
Celera SNP ID:            hCV3285495
SNP Position Genomic:     94102
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(A,1|G,3)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58221):
TAAAGGCTTACTGGGTATCAGGGCTGCTTTCCTTTATAATCTTTTACCCGTCTTATGGGGGATGAACAGAAACACACTTTAGTGCTAGAAAAGCTGGGCC
Y
AAAAGACCAGTCTCCTGTCCCATACTTGGACATTTATTGTTCTTTTTGGGCAAGGTGAAAACTTGAAACCAAAAGTCTGTTGAGTTTGGAAGACTTGACT
Celera SNP ID:            hCV11438679
SNP Position Genomic:     546517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58222):
TCTGTTGTCCTTCCTTTACCTTAACTTCAGCAGGGCAAGAATGGTTCAAGCCACATTAGAAAGCAGTTACTTTCTCACCCAATTTTAAAGGAGAAAGGTA
R
ATGCGGTGGGTTCTAGGGATTTCAGTGACGTAACAGGTGTTTCCCAGGCATTAAGACCTAGTAAGGTTTCCATTTCCATTAGGTATTATGGATGCATTCC
Celera SNP ID:            hCV3285496
SNP Position Genomic:     94233
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(A,2|G,2)   afr(A,2)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58223):
CCAATTTTAAAGGAGAAAGGTAGATGCGGTGGGTTCTAGGGATTTCAGTGACGTAACAGGTGTTTCCCAGGCATTAAGACCTAGTAAGGTTTCCATTTCC
R
TTAGGTATTATGGATGCATTCCAAGAATTTAATTACTATAACATCACTTCATTCATTGTAATTCCTTACTAGAGTTATGAGAACTTGGGATTGTGTGGTT
Celera SNP ID:            hCV3285497
SNP Position Genomic:     94311
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   afr(A,4)   his(A,4)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58224):
CAAGAATTTAATTACTATAACATCACTTCATTCATTGTAATTCCTTACTAGAGTTATGAGAACTTGGGATTGTGTGGTTTCTTATTCAATCGATTAAAAG
S
TACTTGCTATAGTTTTCTAACTAGCTATTTATATGAAATTTAGTACTTGTCAATATGTATTAAATCAATACAGTTATATTTATCAAAGTGGTGAGAAGAG
Celera SNP ID:            hCV3285498
SNP Position Genomic:     94433
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   afr(C,1)   his(G,6)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58225):
TACTTGTCAATATGTATTAAATCAATACAGTTATATTTATCAAAGTGGTGAGAAGAGTTTACATCTGAACATAGAATAGATTGCTTGCCTTGGCCGGGCG
Y
GGGAGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCG
Celera SNP ID:            hCV3285499
SNP Position Genomic:     94577
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,3)   afr(C,5)   his(C,5)   total(C,15|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58226):
GGGATTACCTGGAAAGGGTGGGGCAATTTTGGGGGGTCAAGAAAATGTTCTAGGACAAGACTGTGGTGATGGCTGCACAACTGGATAAATATACTAACTA
W
CATCAAACTGTATATTTACAATGGTTAAATCATATGGTATGTGAATTTCACATTAATAAAGTCATAAAAAATGAATTCCAGGACCATTAAATCAGGTGAC
Celera SNP ID:            hCV16288904
SNP Position Genomic:     775892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58227):
GTCCTACAACTGGTGAGCTGTGAGCTGTAAATTGTGGAACTAATTTTTATACTGCCAATCTGAGGCCTTTTCTGACCTCATCGCTGCCACTGTAAAATGA
R
TTCTAGCCCCAGACCATGACATGCCTACTAGCTTAGCTCTAACCAAAAAGATTTATTATCCCAAGAGTTGTGAAAATGTGGAAGAACTAGAACTGTCATT
Celera SNP ID:            hCV16288905
SNP Position Genomic:     775233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58228):
GCTATCGATAAAAGCTAATGTACCACACGAAATTGGAAGGGGAACAAAATCACTTAAGTGTTCAGGGCCACCAAGGCACTGGTGCATCCCCTGTGAGCCT
R
TTTGGCTCCTGGCGGTGTTTTTGTTGCCCTGGCTTGCAACGTAGCCTGATTGTTCTAAGTAAATGGCAGAGCACGCAAATCAAGGACATTGGCAATAAAC
Celera SNP ID:            hCV16288906
SNP Position Genomic:     774039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58229):
CAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGTGCCATGTATATTTTGATTACAAAAAATTTCATGCGGTGTTACTTTCTTTTTATTGGT
R
GAGGGTCTTTATGTTTTATTTTTTTGAGACAGAATCTGCTCCATCACTCAGGCTGGAGGGCAGTGGCAGGATCGTAGCTCACTGTAACCTCGAATTCCTA
Celera SNP ID:            hCV348726
SNP Position Genomic:     55345
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58230):
TTGTAGCTCCTGTGAAGATTCAGGAATTTTTTTTTTCTTCTATTTGCAAGCTTTAGTCCTAGGCATGGAAAAAGAACTTTGAAGAAAACCTGAGAGATAT
S
AGTGTAAAACAAGAGAATGATTCCCTCTGGGGTGCTGGTAGTGGGGGCTTAATTTCCTAAAGGCTTACTGGGTATCAGGGCTGCTTTCCTTTATAATCTT
Celera SNP ID:            hCV11438680
SNP Position Genomic:     546359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58231):
TTTAGTGTCACAGCTCAAAACCATCAGTAGTCCTCGTGATCTTTCGGCATTGTGGCTCCCTTTGTGAGAAGGGCCTAAGAGTGAATCTCCCAACCATAAG
M
TGTATTCAGGCAGGCACGAAGTCTCTTATTTACTCAGTGTTTCTGGAGCCCAGCATAGTGCCTCGCACACAGCAAGTGCTCAGTGGGTATCTGTTGAACC
Celera SNP ID:            hCV16288913
SNP Position Genomic:     771019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58232):
AGCAGGAGATAAAAAGGCATCAGTTCCATTCCATATCCAAGTCTGAGTCCAAGGGCAGGAGAAGCTGATGTCTCAGCTTGAAGTCAGGCATAGAGAGGCA
R
TTCTTTCTCACTCAGCCTTTTATTTTATTCAGGCCTTCAACAGATTGTATGAAGCCACCCACACTGGGAAGGGCAGTCTGCTTTACTCATAGTACTAATC
Celera SNP ID:            hCV16288914
SNP Position Genomic:     770141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58233):
TTGCATACTGACCTTTCTGCTCTTTTATGCTGCCTGCTCTCTAATATTGTCCAAAAACCTTCTCTAAAGAAAGTACACAAATGGAGAGAGGGGGAATTGG
R
CATGCCATTGGGAGAACAAATTTATTTAGATATCTTTGGCTGTGTTGACAGAAGCTGCCCAATTATACCCAATATACAAATTTTAAATGCATATTAGTCA
Celera SNP ID:            hCV16288915
SNP Position Genomic:     707186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58234):
ATATATAAATATGTGTATATATATATTTGTTAGGGTAAAACAAAGTCTATAAAAACTGTTTTCCTTTGTCATTGCCCCCACCAAATATTTATATATATGT
R
TATACACATATGTATATATGTATGTATAGAGAGTCTATTATATATATTACATATACATAATATATACATAATATATAATAGACTCTATAATATAGACTCT
Celera SNP ID:            hCV2852896
SNP Position Genomic:     939652
SNP Source:               Celera
Population(Allele,Count): cau(A,1)   his(G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58235):
TATGTAATATATAATATATTCTATGTAATATATAATATATTCTATGTAATATATATTAATATGTAGGGAATATGTTACATATTATGTTGAGAGTGTATAT
R
TTATATATGGGTTTCTATATATTATAATAAACCCATATATAATATACATAATAGACTATACACATATACAGCTAATATATATACACAATAGTCTAGTATA
Celera SNP ID:            hCV2852897
SNP Position Genomic:     939883
SNP Source:               Celera
Population(Allele,Count): his(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58236):
ACCACCATTCTCCCCTACTTTGTCTATGAATTCGACTACTCTTGGTACCTCATATAAGTGGAATCACACAGTGTGTGATGTGTTCTTTTGTGGCTGACTT
M
TTTATGATACTGGATTCTCAGCATCATGGGAGTTAGGACTGTCTGTCGCACCATCAAACAGGCATAGCTGGCTGGCTAGACCATGTCACAGGGATGTTGG
Celera SNP ID:            hCV2852898
SNP Position Genomic:     941287
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5|C,1)   afr(A,5)   his(A,5)      total(A,15|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58237):
GACTGTCTGTCGCACCATCAAACAGGCATAGCTGGCTGGCTAGACCATGTCACAGGGATGTTGGAACTGGGTGGCACTGACTGGCCCAGCCAAGGGGTCA
Y
GCAGGGGACTCCTGATTCATTCCTGGGGAAAGTAGTTATGTCAGGAAGCACAGGCTATGGCTCACGGCTGTGGCTGTGCCCACGTGGTCTGTGTGGGCTG
Celera SNP ID:            hCV2852899
SNP Position Genomic:     941424
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|T,2)   afr(C,3)   his(C,3|T,2)      total(C,9|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58238):
TTTGCTCAGGAAGAAGAGCAAATGGATTTTTGTTAAGAAGCTGGCAGTCTGTCACAGGAGCTACTTGAGGATACACACAGTTTTCTCCCCATTAGCATCT
S
CAGTCTCTGGTATAAACTTGAGTCTTCTCTTTGGTCCCTGATAAATATACATAGAATGTATGGATGTGAGAAAGTTAAACTGATGTCTGTGTGTCTTCAT
Celera SNP ID:            hCV8902213
SNP Position Genomic:     1083974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58239):
TTTATTTTACTATAAATATGGGATAATTATAGTTTTTACTGCATAGTTTTGTTATGAGGAGTAAATGAGTCACTATTTCTGAGACACTTCGTGCCTGGCA
S
AGAACGAGCACTGTGTGTGTGTTACAGAAATATATGTGGGTGGGTGTGTTTCTGTTTTCCGTAATTCCAGCTAGGCAAAGACATATTTAACAAAAGCCTT
Celera SNP ID:            hCV8902214
SNP Position Genomic:     1090246
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58240):
TTTCCTGGCTTGCAGCTGCAACTATCTGACCTCTGCGTCTGTCCTCCCACGGCCTTCTCCCTGTGTGTTTCTGGATCTCTTCTCCTTTGTTATCAGGACA
S
TGGTCACATTGGATTAAGGGCCTACCCTATTCCAGTCTGACTGCATCTTAACTGTTTAACTCTGTATTCCAATCTAATTACATGTCTATTTCCAAGTAAC
Celera SNP ID:            hCV8902215
SNP Position Genomic:     1093948
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58241):
GCGCATTTGAGACAGGTTGAGGGTTCAAGCTGTCCAATCCCTGCTCATCTGCAGCACACCAAGGAATGTGGACTAATGAAAAATAAACTGCATGCATGCA
R
TGCCCATCACACTGCCTGCATTTTCTAATCTTCACAATAACTCTGTGTTGAGAAATATTCCTGTCTGTAATCCCGGCACTTTGGGAGGCTGAAGCGGGCA
Celera SNP ID:            hCV11438697
SNP Position Genomic:     544530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58242):
TTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCGGCCTGCCTCAGCCTCCCACAGTGATGGGATTACAGGCATGCGCCACCATGC
S
TGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGGGCTCAAGCAATGCACTGGCCTTGGCCTCCC
Celera SNP ID:            hCV8902216
SNP Position Genomic:     1095148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58243):
GGGAGCAGGGGAGGAACCATCTGAGGTGTTTTTTTTTTTTTTTTTAGATTTCTCATTGCTGAGAACAGTTCCAGCTCTGCTGACCAAAGGCTGAGTGTCC
Y
TTTATTAGTCTGAGCCCCTAGAGAAACCAAAGAGGCAACCCTCGAGCCAACTGACAGCCAGCTGTGGGGTTGGACCCTGTTTTTCATACAGTGAGCACTC
Celera SNP ID:            hCV11438698
SNP Position Genomic:     541404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58244):
CCTGCCTCAGCCTCCCACAGTGATGGGATTACAGGCATGCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCC
R
GGCTGGTCTCGAACTCCTGGGCTCAAGCAATGCACTGGCCTTGGCCTCCCACATTGCTGGGATTACAGGCGTGAGCCACCATGCCTGGCCCCCTTTCACT
Celera SNP ID:            hCV8902217
SNP Position Genomic:     1095198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58245):
TCTCTAACATGCACATGGCCAGAAAAATAGCTTGGACATTCTGTTCAACCCTCCACATCAACTGGTCAGTTTAGTCTTTAAAAGGTGATAGGCCTGTTGT
S
GTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGCCCCGGAGTTGAAGACCAGCCTGGGCAACACGGTGAAACTAA
Celera SNP ID:            hCV15894132
SNP Position Genomic:     524569
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58246):
TCTGAGCTGTGAGTCCTTCCTGTGCACCAGGCATGGATGGCAAGGCACGATTGATAATGTTCCCTCTTATCTCGAAATGTCCACTCTCTCTCCCATGCAC
R
GGGAGTCAAGCTGTGCTCTTCAAACACAAATTCCTTCTCCCACTTCCTGGGTAGTTATGCTCTTTTCTTCCCTGAGGTTGCTAATTGTGGGCAGTACAGT
Celera SNP ID:            hCV8902218
SNP Position Genomic:     1095442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58247):
TGTGTTACTAAAGTTCTCTTAGATACTTTACATTTCCTTTCACGGATTTCCAAAATTTCTTTCTTTGAGAATGTCAGGACCAGTAGGAGGTTCAGCACGC
R
TTGCCAGAGAAATCACAGATGACTAATTGGAATGCCTCAGAATCATTCTCCTTTTGTTTCACCTAATTTCCACACTTACGAAGTCAAACTCTCAGTTAAA
Celera SNP ID:            hCV8902219
SNP Position Genomic:     1095943
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58248):
CAGGGATAGAGTCTCAAAGTTGGAGGTATTTTATGTTGTTTTAAATAATATCGTCATCACATGTCATTTTAGACCCCAAAAGTCCACTCCGAATCTCTGC
K
TATGGAATTGAGGAGGGGTGAGGCTGTCAGAAGCCGAGGGACTTGGCCAAGGTCACATGGCTTTGGACGGCCCCCCTGAACCTTGGAGCTCATGTTCTGT
Celera SNP ID:            hCV16288922
SNP Position Genomic:     706979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58249):
AATTAGCTGCGCGTGGTGGCGCGTGCCTGTAGTCCTAGCTACTCAAGAGGCTGACATGGGAGGATTGATTGAGCCCAAGAGGTCAAGACGGTAGTGATTC
R
TGGTCACACCACTGCCCTCAACCCTGGGTGACAGGGTGAGACCCTGTCTCTAAAAACAAAAGCAAAGTCTACTAAAAATTCACTGGAGCTATGAGAAATC
Celera SNP ID:            hCV16288923
SNP Position Genomic:     705360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58250):
AAAAATTAGCTGCGCGTGGTGGCGCGTGCCTGTAGTCCTAGCTACTCAAGAGGCTGACATGGGAGGATTGATTGAGCCCAAGAGGTCAAGACGGTAGTGA
K
TCGTGGTCACACCACTGCCCTCAACCCTGGGTGACAGGGTGAGACCCTGTCTCTAAAAACAAAAGCAAAGTCTACTAAAAATTCACTGGAGCTATGAGAA
Celera SNP ID:            hCV16288924
SNP Position Genomic:     705357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58251):
ACACAAAACCCAGCGTGGTGATTTTGGCAGCCTTGCCATGCATCTCTAACATGCACATGGCCAGAAAAATAGCTTGGACATTCTGTTCAACCCTCCACAT
S
AACTGGTCAGTTTAGTCTTTAAAAGGTGATAGGCCTGTTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGAG
Celera SNP ID:            hCV15894139
SNP Position Genomic:     524527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58252):
CAGAGCATTTATCTTTGATGCTGGGAATGCGTTCATTTTCTTTATCTTGCCATTACTGTACCTCTATTGGGAAATTTACTCTCTCTTCATAGATAGGATC
M
GATTCAGTACATATTTATAAAACCACACTTACATTTAAATACAGGCCTTTCCCATTTCACAGTGTTTCTAGCTCCCCTTTCCAATACATCTCTCTCTCTC
Celera SNP ID:            hCV9663917
SNP Position Genomic:     447509
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58253):
AAACAAACAAACAAAACAAAACAAAAAAGGTTTAAGAAATGTTCTAGTACCTTGAAACCAAAATAGGTATCAGATACTTGGCTGTTTTGTTTTTTCTTCT
W
AGCCATTTTGACCTGTGAGATTTTATGTGATGAAAACATAAGAATGTGGTATTACACCCTGTGATTTGAATTTTCCATACTCCATTCCATTCTATATGTC
Celera SNP ID:            hCV15911759
SNP Position Genomic:     480995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58254):
CCGGGAAGAGCGCATCCTAAATCAGCCATTAGATTTGTTCCTCATTTCTTTGCTTTACAAATTGTTTTTCTGTATAGTATTGGATTTTCAATAAATAAAG
K
ATGATATAAACAAGTCTGCAAACCAGCAAGAACTATATAAGCCACTTGCTCAAGTCAATAAGCGCATGCTCACAAAGGAACGTAAAGTTCTGAAGTTCTT
Celera SNP ID:            hCV8709900
SNP Position Genomic:     78114
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58255):
AATTTCTTTCAGAAGTCAGTACTGGACATTCCCTTATTTCACCTTGAGCTACACATCCCATAGTCAGCTTAGCCCTGTCCCTGGTGCGGGGGAGCAGGAC
K
GTTGCCTGTATCCCTTAGTCATTGCCGCAGGCTTGCTGCATCACAAACCACCATTAGACCTCAGTGGCCCGCAGCAATAAACATTCGATTCTCGCCATCT
Celera SNP ID:            hCV15894140
SNP Position Genomic:     699513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58256):
AAGAACATTTTGTGAATGTTTAAATATCCTAAGACCCACTAAGGAAGTTTGTGGCAATATTTGCTCAAAGACAGTATATATAATAAATACTTTAGACTGG
Y
TAAGAGAATGGCTCTGAATGTCTACCTAGCTATCACATTTAGAAACGCCCCTTGCCTTCCTTCCAGGACTTTCTTCCTTAATCAGGATTGACTTAACTGT
Celera SNP ID:            hCV16288930
SNP Position Genomic:     703504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58257):
CAGCATTGGGTGTGGCTCTGGGGATTCATTCTAGTGGGCAAGTCTCATATTTCTCAACCTCAGGTTTTTCATCTGTAAATGGGGACAATACTGACATCTA
S
CTAATGTCCTTGAGGATGGAATGAGATATTGAGTATAAAGTATCTAGTAGAGTGGCTAGCGTATAGTGAGTACCCAATAAATGCAATAGATGTTGGCTTT
Celera SNP ID:            hCV16288931
SNP Position Genomic:     703205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58258):
CCTGGCATACTGCAAATATCTATGGTTGATAAATTAATGTTATCATCATCACGTAAGCATCTTGGGAAGTCTGTAAGTAATGGGAGTTGGAGGCTTAACA
S
TGATCTTTGAGCTGGCGATTTTTCCAGCCAACTCATTTTGGACGTTGGTGCTTAAGCATATCCTGTTTTCGAGGGTGGTGTTGGTGGTGGAGGAGGTGAT
Celera SNP ID:            hCV16288932
SNP Position Genomic:     702445
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58259):
AGATCGCGCCACTGCACTGCAGCCTGGGCGACAGTGAAACTTTTGTCTCAAAAACAACAACAACAACAACAACAAACAAACAAGAAACAAAAAATACATA
R
AAGAGGCCTTCTCTTCACAAGTTTTTCTTATTGTTTTTTGTTTTTTTAAGGGAGGAAATTTCTTTCAGAAGTCAGTACTGGACATTCCCTTATTTCACCT
Celera SNP ID:            hCV15894147
SNP Position Genomic:     699356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58260):
TCTTGGGCTGGCTCATTACAGGCCACTCTGTCTGAGGAACACTCAGGTTTGCAAACCGTTTCTTAAAATTACAGGATACCTAGGGACCTGTTGGGGTGGG
W
GGGAAGAACCCTATGGGCAGAAATGTGACTTTCTGTAGCAAAGATGTACTGTTTCCCACTGAGAAGAATCAAAAATAGAAAAGTGCTTCCTTGTCTCTCT
Celera SNP ID:            hCV15911760
SNP Position Genomic:     476759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58261):
CCCGTCTCTACTAAAAATGCAAAAAATTAGCTGGGATTTGGTGGCGCCTGCCTATAATTGCAGCTACTTGGAAGGCTGAGGCGGGAGAATCACTTGAACC
R
GAGAGGCAGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTGCAGCCTGGGCGACAGTGAAACTTTTGTCTCAAAAACAACAACAACAACAACAACAA
Celera SNP ID:            hCV15894148
SNP Position Genomic:     699230
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58262):
GAACCTTTCTCTTATAAGGATACTAATCCCATCGTACCCCGTCCCCCATGATCTCATTTGAAATTAGTCACCTCCCAAAGCCCCACCTCCAAGTACTGTC
M
CACTGGGGCATAGGGCTTCAGCATATGAATTTGGGGGAGCTGGGGAGAGGAACACATACATTTAGTCCATAACAACTATCTCACTTACCTCTCTACTAAG
Celera SNP ID:            hCV15911761
SNP Position Genomic:     473858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58263):
ACGGCAGTCTCAGGTTTATGTATTAGGAAGCATTCAGCAGGCAGGAGCAGCCGATCTGAGACTGGCATGGGCAGTGGAGACATCATTCATCTCCTGAAAC
R
TAATTTGGAGGAGACTGTTCCAGGGCTGGCTGAGTGACTCCTTGATGTCAGCACTTTGCCCTGTCGTGGTCTTGGCCTTTCTCTTGTGTTCCCCAGATGG
Celera SNP ID:            hCV15894149
SNP Position Genomic:     698853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58264):
ACCTGTAGTCCCAGCTGCTTGGGAGGCTGACGAGTAAGGATCACTTGAGCCAGCATGGTGGAGGCTGCCATGATCATGCTACTGCACTCCAGCCTGGGCA
R
CAGAGCCAGAACCTGTCTTGTAAAGAAAAGGAAAAAGAGAGAGAAGGGCAGAAAGAAAGAAGGGAAGGAAGAAAGGAAAATTGGGCCCAGGAATGATCTT
Celera SNP ID:            hCV11935111
SNP Position Genomic:     302593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58265):
AGGGAAGGAAGAAAGGAAAATTGGGCCCAGGAATGATCTTTACAATGCCTGACAACCAAGAGAAGAAGGGAAATGAGCTTCACATTGCCTGCAAGCTCTA
R
GGTGACAAGAGCCAAGAGAAATTATTGTTACTGTAGTGATGTTCCACTGAGGATCATAAAGTACTTTATTACTCTACTGAGTATGGTTATTGGATATGTG
Celera SNP ID:            hCV11935112
SNP Position Genomic:     302754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58266):
GATGCTGGGAATGCGTTCATTTTCTTTATCTTGCCATTACTGTACCTCTATTGGGAAATTTACTCTCTCTTCATAGATAGGATCCGATTCAGTACATATT
Y
ATAAAACCACACTTACATTTAAATACAGGCCTTTCCCATTTCACAGTGTTTCTAGCTCCCCTTTCCAATACATCTCTCTCTCTCTTTCTCTCTCTCTCTC
Celera SNP ID:            hCV9663926
SNP Position Genomic:     447525
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58267):
TTATTAGCTCTGCTATCAGAGTGATGCTGTGGCTGGAGAAGATGGAGACCCATGTGTTCAGGCTGTGAGCATAGGCAGATCCTTTCTAATGCAGAAGGTG
Y
AGACACAGGGCACAGAACTGCCAACTGTGGCTGCTGACACCTGTCTGACTTTGACTGGGTTAGTGACAAAGAAATGACTTTCCTTTTGTATGTTAGCCCT
Celera SNP ID:            hCV16288939
SNP Position Genomic:     702241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58268):
TAACATAATACCATAGACTGGGCAGGTTAAACAGCAGACCTCTATTCCTCACAGTCTAGAGGCTGGGAAGTCCAAGGTGAAGCCATGGGCACATTCTGTG
S
CTGCCTGAGGCTCTCTTTCTGGTTCCCAGATGGATGCCTTTGTGTGTCCTCTCATGGCAGAGAGAGGAAGGGGTCTGGAACCTTTCTCTTATAAGGATAC
Celera SNP ID:            hCV15911768
SNP Position Genomic:     473680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58269):
TTATCCATGCCATCTGAAATCCTCCTTCCTTTTTAACAAGGCAAGTAGAAAACGAAAACAACATCAAAGGATACACTACACAATTGTTGGAGCCCTAGGA
M
CCGAGAGAAGAGTACAAGCAGGTTCTTGAACTGTTCTCTCCCCAGCAACTATAACTGGAAGGAACCTCAGTTTGTCCATTCATTCATTCATCAGAGCAGC
Celera SNP ID:            hCV15911769
SNP Position Genomic:     472625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58270):
GTAGCCTCAACCTCCTGGGCTCAACTGATTCTCTCATCTTAGCCTCCTGAGTGGCTGGGACCGCAGGTTCATGCTACCGTGCCCAGCTAATTGTTTAATT
Y
TTTGTAGAGATAGGATCTCTCCCTTTGTGGCCCAGGCTGATCTCAAACTCCTGAGCTCAAGCGATCCTACTCACTCGGCCTCCCAAAGTGCTGGGATTAC
Celera SNP ID:            hCV2390629
SNP Position Genomic:     618216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58271):
ATGAACTCATGGGAAGCAAACACACACCCTCCCTCCGATCCACCAGGCACTCGGGTTTCCTGTGTGTCTGGTGATGTGCTGGGTGTTGTGGATCTGGACT
S
AACGGCAGTCTCAGGTTTATGTATTAGGAAGCATTCAGCAGGCAGGAGCAGCCGATCTGAGACTGGCATGGGCAGTGGAGACATCATTCATCTCCTGAAA
Celera SNP ID:            hCV15894156
SNP Position Genomic:     698751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58272):
CAAGGACATAAACATTTACTCCTGTGGTGTTATGATATATATAGGGTTCCTGGCTCATAACTCTCATAGCCCTTGTTGCAGTCTATTGTTACAATATTGC
S
TGTGTTAGGCATCAGGAAACAGAATCTCTTTGTCTCCTGTCCTTCTTTCACCTGCCCCAAGGCAGGACTCTAATCTTTCCCACCTTTTTGATTGTGAGTC
Celera SNP ID:            hCV15894157
SNP Position Genomic:     695751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58273):
GTTTTTATATGCAGTTTGTATTTATCCATGCCATCTGAAATCCTCCTTCCTTTTTAACAAGGCAAGTAGAAAACGAAAACAACATCAAAGGATACACTAC
M
CAATTGTTGGAGCCCTAGGAACCGAGAGAAGAGTACAAGCAGGTTCTTGAACTGTTCTCTCCCCAGCAACTATAACTGGAAGGAACCTCAGTTTGTCCAT
Celera SNP ID:            hCV15911770
SNP Position Genomic:     472604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58274):
AAATCCTTTGCAAACATTTTCTCTCAATCTATGGGTAGGCTTTTTTACTCTTTTTATAGTGTCTTTTGATGAACAAAGATTTTAAATCTTGATGAAGTCC
M
CTTTATCTATTTTGGATGTTGTTGCTTCTGTTTTTGGTGTTGTATCTAAGAATCCATTGCCAAATCCAAGGACATAAACATTTACTCCTGTGGTGTTATG
Celera SNP ID:            hCV15894158
SNP Position Genomic:     695584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58275):
TAGCCTAGTTTTCCAAACTTTATCCCCAGGTGGTTGAACTTTCTAAGTTTCCCCAAGCTGATCAGTGTTTTGGGGTGGTATGGAACTCAGAATAGATCAC
T
TTTTTTATTGACTAACTCTGACCATAAGTATGCTTCTGTGCGAGCCTGACCTCCACGGTACCAGGCAGAGAACAACATGTATGCAGAGAACTCATTCACT
Celera SNP ID:            hCV11512085
SNP Position Genomic:     180833
SNP Source:               Celera
Population(Allele,Count): chn(-,1)   cau(T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58276):
CAGTCCTCAGTGTACCCCAGGAAAGAGGAAACTGAGTCTCCATGTGGCTTTCTGTCTGGCCTTTCTCTTTTGCTTGCCTTGTGCTTTGAATGCAGGCCTG
M
TGTTTGCCTGTGGACCTCAGGATTTGTAAGGCCATCTCCACCCACCTACAGCTAAGTTTCCCAAGAGCCGATCTCCAGCCGAAGTCCAAGGTTCCTTGAT
Celera SNP ID:            hCV16128406
SNP Position Genomic:     912610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58277):
AGGTAAGCGGCTAGCACAGTGCTCAGCATGCATGAAGGACTCTTTCATTATCGTTATTAACTGATGTTTTTAACTTATACATTGAAATGTGGAAACAAGC
S
TTGCTTCTATTGAATGACTTCTTGAAAGTGCCAGTCTGATCCTTGACCTTCAGGTGCATCTCTAAATTCTTTCATGTCAGGGTCTCTGAAATCTGAACAC
Celera SNP ID:            hCV16128407
SNP Position Genomic:     906181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58278):
CTTACAATCCGTTGCAGAAAGCCTAGCTCCCCAGCTTCTCCTGAATCTACGTTTTTCTATTTTGTCTGAACTAGCCAAGGTCTCTGGAGTTTGCTGTTAT
M
TTGCTTCAGAGAAATTAGTGACATTGAAAGGCTGTTGTCTTTTTTAGTGTACTTTTGGTTGTTAGGAGAAATTTACAAGGCCATTTTTTTCTCCCGTCTC
Celera SNP ID:            hCV15911777
SNP Position Genomic:     467608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58279):
GCTCACTGCAAACTACCCCCGCCCCCGGGTTCAAGCAATTGTCGCACCTCAGCCTCCCAAGTAACTGGGATTACAGGTGCCCACCACCAAGCCCGGCTAA
K
TTTTCTATTTTCAATAGAGATGAGGTTTTGCCATATTGGTCAGGCTGGTCTTGAACTCTTGACCTCAGGTGATTCACCCACCTCAGCCTCCCAAAGTGCA
Celera SNP ID:            hCV15911778
SNP Position Genomic:     464495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58280):
ATAAATATATACATATATGTGTATATATAGATTTTGTTTTTTGAGACAGGGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGCGTGATCATGGCTCAC
Y
GTAGCCTCAACCTCCTGGGCTCAACTGATTCTCTCATCTTAGCCTCCTGAGTGGCTGGGACCGCAGGTTCATGCTACCGTGCCCAGCTAATTGTTTAATT
Celera SNP ID:            hCV2390630
SNP Position Genomic:     618115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58281):
ATATATATATATTTATATAAATATATTTTATATTTAAAAATATTTATATTTTATATATTTTTATATATTTATGCAAGTATATATCTAAATATATAAAATA
K
ATATAAATATATACATATATGTGTATATATAGATTTTGTTTTTTGAGACAGGGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGCGTGATCATGGCTC
Celera SNP ID:            hCV2390631
SNP Position Genomic:     618012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58282):
CAAGAAATGCGGCAGCTGCTTCTAGCCGCTCCATCCTTCCTTTTCCCAGTGCGCACTAACCCTCCAGAGCCTTCCGCATCTGCTATGCAGCATTGGCCAC
R
CCAGTGGGATGCAAGAATTTATCCCTTCTGTTGATGCAATTAAAGCTAATGGATCTCATATATATATATATATATATATATATTTATATAAATATATTTT
Celera SNP ID:            hCV2390632
SNP Position Genomic:     617840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58283):
GTTGCTGTACTAGATGAATAATGTCCCCCCAAATTCGTGTCTATCTGGAACCTCAGAATGTGACCTCATTTGGAAATAAGGCCTTTTTAATTAAAAAAAA
W
TTTTTATTTAAAAAACAGAGATAGAGTCTTGCCATCTTGCCCAGGCTAGTCTCAAACTGTTGGGCTGAAGCAGTTCTCCTGCTTTGACCTCCTAAAGTGC
Celera SNP ID:            hCV2390633
SNP Position Genomic:     578115
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58284):
CACAGCTGGAGTTTAGGAAGGCCAGGCAGCGTGTGTTGAATGCCAGCCACTCTTCTACCCAGGGTCATATCCTTGGATGTTTTTCTGTGCATCTGTCTTT
Y
CCGACCCTCCCGTGATTCTGGAAGGAAACACCTTTCCAAGCTCCCCAGTGACCCTGGTTCATCCCGGAAATATGCAGGAAAAGCATTATGAGCATTGCAG
Celera SNP ID:            hCV2390634
SNP Position Genomic:     577739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58285):
CTCACATGTAGGTCACCTACGGGAGCAGGGGAGGAACCATCTGAGGTGTTTTTTTTTTTTTTTTTAGATTTCTCATTGCTGAGAACAGTTCCAGCTCTGC
Y
GACCAAAGGCTGAGTGTCCTTTTATTAGTCTGAGCCCCTAGAGAAACCAAAGAGGCAACCCTCGAGCCAACTGACAGCCAGCTGTGGGGTTGGACCCTGT
Celera SNP ID:            hCV2390635
SNP Position Genomic:     541384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58286):
GAGTTTGAGAGCAATCTGGCCAACATGGTGAAACCCTGTCTCTACTACAAATAAAAAATTAGCCGGGTGTGGTGGCGTGTGCCTGTAATCCCAGTTACTC
S
GGAGGCTGAGGCAGGAGAATCGCTTGAGCCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCGCTCCATGCTAGGTGACAGAGCAAGATTC
Celera SNP ID:            hCV2390637
SNP Position Genomic:     540590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58287):
GCCATGTTGGAGAGGGATCCAACATTTATTATCCCCATTTTACAGATGAAGAAGTTAAGGTGGCCAGGCATGGTGGCTCATGCCTGTAATCCTAGCACTT
Y
GGGACACTGAGGTGGGTGGATCACTTGAGGTCAGGAGTTTGAGAGCAATCTGGCCAACATGGTGAAACCCTGTCTCTACTACAAATAAAAAATTAGCCGG
Celera SNP ID:            hCV2390638
SNP Position Genomic:     540455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58288):
TTGCCTGATCGCCTCTCCACCCCTGCTACGTGTAATAGAAAGGTAGGGCCATGTTGGAGAGGGATCCAACATTTATTATCCCCATTTTACAGATGAAGAA
S
TTAAGGTGGCCAGGCATGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGACACTGAGGTGGGTGGATCACTTGAGGTCAGGAGTTTGAGAGCAATCTGG
Celera SNP ID:            hCV2390639
SNP Position Genomic:     540408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58289):
TTAACTTTCAGAGGAGCCACCAAATTGTTTTCCACGGAGGCTGCACCATTTTATATTTCCACTTGCAGTATATGAAGGTTCCAATTTCTCCACATCCTTG
M
CAACACTTTATTTTCTGTTTTCTTTGAAGGTATGAAATTGTATCGTGGTTTTGATTTGCATTTCCCTCATGATTAATGATGTTGAGTATTTTTATGTGGT
Celera SNP ID:            hCV15894165
SNP Position Genomic:     695246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58290):
AGCCTTCATCTGTTTTCCTGCAGATGCCCGGCTCGTGGTTAACCCAAGCAAGAGGTAGTTAAACGGCCCCGCAGATTGCCAGTGACTCCGGGAATGCCTA
R
GTTTATGTATGGATTAACACAGTGATAGACCCTGAGTAGCAAAAGACGAAGACTAATTACCTGACAGAGCTCCCCTCCACTCGCCTGGGTCATTGAAATT
Celera SNP ID:            hCV15894166
SNP Position Genomic:     549138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58291):
ACACCAGACTAATGCTTCTGACTTTTCCATGGTGCCCCAGCAGCAGGCTGGAGGGAAGGGCGGGGGCGGTCAGAGGAGAGATAGAGCACTTCAGATTCCA
M
TCGAATACATTAGAGCATTAGAGCTTTTCTCTTCCTCAGGGTGCTCTCTCTCTCTGGGTTGGGAGGAGATGTGGCATTTCTAGGAATTCACAGTAAAATC
Celera SNP ID:            hCV15894167
SNP Position Genomic:     546134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58292):
AAAATTCAAAAAATTGCAACCTGAGGCATAAATGGGTTTTAAGCTCCATACAGTAAAACCTAGCATATGAAAACAGTTCTGGCTGATGGGTTGGTAGAAG
K
GATAGATATAGATACATATATACACATATATGCACAGTAATAGATATAGGTAAAGACCTTGATATATGTACATATATTGTATGATACATATCCATGCATA
Celera SNP ID:            hCV15911785
SNP Position Genomic:     462088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58293):
CCGCACCCGGCCCTGTTTTTGCATTTTTAGTAGAGACGGGTTTTCACCAGGTTGGCCAGCCTGGTCTCAAACTGTTGACCTTAGGTGATCTGCCTACCTC
S
GCCTCCCAAAGTGCTGGGATAACAGGCGTGAGCCACTGCGCCTGTCTACATTTTCTGTCTTTACTGGTATTATGGTGGGAACCCATAAACCACTGCGAGG
Celera SNP ID:            hCV89628
SNP Position Genomic:     282003
SNP Source:               Celera
Population(Allele,Count): chn(G,7)   cau(C,1|G,7)   afr(G,7)   total(G,21|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58294):
CTCAGGATGAGGATGTTCAATTTGTACTGCTGGTGGAGCTGCCTTTCCATTAAGTGAGTCTTTCTCCAAGGGAACAGAAGTCTTAGGTTGTTGATCTGGC
K
GTCAGAACCTAGGACAGGCAAGGCAGTGGGCTGTTGTAGAGGAGATGAAGCTGATCAGAGCACACCCACACCAGTGACAACCGGTCAGGACCTGGGAAGG
Celera SNP ID:            hCV15911786
SNP Position Genomic:     371610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58295):
TGCGCCTGTCTACATTTTCTGTCTTTACTGGTATTATGGTGGGAACCCATAAACCACTGCGAGGCAGATACCATTTTAAGCAGGAAACCTTATTTTTTTC
Y
GAAGCACATTTAAAAATATTTTCCAGTTTATCTATTAAACATCCTCCTTTGCTTCTGGAGATCCTCTGAAAGATTTATCTCTTTCGATTCATCTGTAAAG
Celera SNP ID:            hCV89629
SNP Position Genomic:     282140
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(C,6|T,2)   afr(C,6)   total(C,18|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58296):
CTTTGATGTGTGTAGGTAAGCGGCTAGCACAGTGCTCAGCATGCATGAAGGACTCTTTCATTATCGTTATTAACTGATGTTTTTAACTTATACATTGAAA
K
GTGGAAACAAGCCTTGCTTCTATTGAATGACTTCTTGAAAGTGCCAGTCTGATCCTTGACCTTCAGGTGCATCTCTAAATTCTTTCATGTCAGGGTCTCT
Celera SNP ID:            hCV16128417
SNP Position Genomic:     906168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58297):
CCTTACTGTTGAAGACTTGTGGAAAAGGGACATGGCCCAGGGAACCAGAGTGGTTTGGGAAAGCACTTTGTCAAGAGGCTTGGGGACCCCAGGGTGGAAG
Y
TGCCATGCGCATGAGGCTGTGTTAGCAGAGGCAGTGGCAGAAGAAGACATTGCAAACCTGCAAAAGCAACCTCTGAGGATGGGTAGACATATACTTCATT
Celera SNP ID:            hCV15911787
SNP Position Genomic:     502690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58298):
GCTTATTGCCTGCTGCACATTTTAGCCTCATCTCGTTAGTGCAAGAAATAATTTAACAACTGAAAAAGATGTGAGGTTGTACCTGGTAAGGTCTCTATTG
S
TCAAGGAAAGGTTTAGCATGGAGAGATTTCTCTTAAGGTGCCTAGGTATTCAGAAGCACCCCTAAAACTGATTTGTGTGGCCCTATGCTTACAAGTGGAG
Celera SNP ID:            hCV11667302
SNP Position Genomic:     1099999
SNP Source:               Celera
Population(Allele,Count): chn(G,5)   cau(C,3|G,5)   total(G,10|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58299):
TCCACTGTTTATCCTGGTGACCTTAGGCAAGTCATTTAATTTCCTTGAGTTTTGGTGTAAGTATTGATGGAGCAGACCATCAATAACTGTTCTTATGTCT
R
TTATTACCATGTGTCTGTCTACATGTTTGTTTGTAAATTCTCTGTGGGTAAAAGTTCTCTTTTCATCCCCTTGCCTCAGCACGGAGCCCAGAGCCAGACT
Celera SNP ID:            hCV16128418
SNP Position Genomic:     834821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58300):
CTGTGAGTCATTTCCACAATACGCCTCCCTTTGGCGTGAAATGGGGCAGAAAGTGCCCCAAACAGCTGTTATTTTCGCAGTGATTCATTCATTCATTCAT
T
CATTCATTCATTCATTCATCCACCCATCCATTCATTCATTCACTCATCACATGGCAACTCATCACCCCTGTATACCAGACCCAGTGCCAAATACTGGGGA
Celera SNP ID:            hCV11667303
SNP Position Genomic:     1099766
SNP Source:               Celera
Population(Allele,Count): chn(-,3)   cau(-,3|T,8)   total(T,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58301):
GTCTGGATATGAATTCCAAAGACCACTGGACTTTGGAATATTCGTAGGTCTCTGAAAATTCAGACCCACAGAGGCCTTACCCCGCTACAGAGAGGCCCCA
R
GAGAGAGGCCTCACACCCTCTGGCTCCACTGAAATTCACTTCACGTTTCCAACTTGGATTAAACTGGCACGACAGTTCAGTCAAATGTCAAGTCCATTTT
Celera SNP ID:            hCV11667304
SNP Position Genomic:     1097944
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,4|G,2)      total(G,2|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58302):
ACCTTGTAGCAAGGGGGAAAAAAAGAGCTTCTTGACATCTTTTTGAAGAATGGCGCTCTTTAAAAAAACATAAGGGAACTTTTTTTTTCAAACACTGTAA
Y
GAGGGTATTCAAGTCTGCAGGCAAAACAGAGCTGTTTGAAAAGACATTAGCCTCGAAACCGCACTGTGCCAGAATAGATACAGCTACGTCAAAATGCCGC
Celera SNP ID:            hCV16128419
SNP Position Genomic:     828590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58303):
AAAAAAAAAATCGGGAATTAGCGTGTAGCTATTAGGCGTAGATTCCTGCCTAAGGTCTGGATATGAATTCCAAAGACCACTGGACTTTGGAATATTCGTA
R
GTCTCTGAAAATTCAGACCCACAGAGGCCTTACCCCGCTACAGAGAGGCCCCAAGAGAGAGGCCTCACACCCTCTGGCTCCACTGAAATTCACTTCACGT
Celera SNP ID:            hCV11667305
SNP Position Genomic:     1097890
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58304):
TGGAAAAAAAAAATCGGGAATTAGCGTGTAGCTATTAGGCGTAGATTCCTGCCTAAGGTCTGGATATGAATTCCAAAGACCACTGGACTTTGGAATATTC
R
TAGGTCTCTGAAAATTCAGACCCACAGAGGCCTTACCCCGCTACAGAGAGGCCCCAAGAGAGAGGCCTCACACCCTCTGGCTCCACTGAAATTCACTTCA
Celera SNP ID:            hCV11667306
SNP Position Genomic:     1097887
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58305):
CCTCCCGAGTAGCTGGGACTACAGGCATGCACCACCACTCCCAGCTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TTTTGTAGAGACAGGGTCTCACTGTGTTGGCCAGGCCGGTCTCAAACTCCTAGCTTCAAGCGATCCTCCTACCTTGGCCTCTCAAAGTGCTAGGATTACC
Celera SNP ID:            hCV11667309
SNP Position Genomic:     1096924
SNP Source:               Celera
Population(Allele,Count): cau(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58306):
AATAACTCTGTGTTGAGAAATATTCCTGTCTGTAATCCCGGCACTTTGGGAGGCTGAAGCGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGG
S
CAACATGGTGAACTCCCCCCAACCAACGACCCTTCCCATATCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGGGGACCTATAATCCCAGCTACT
Celera SNP ID:            hCV15894174
SNP Position Genomic:     544666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58307):
AGCATTCACACAGGCACTAAGACGGTGAGTACTCACTACTTAGCGCTGTCAACATCATCTCCGTCCACATCAATGTCGTCATCGTCCTTATGAAAAGCCC
K
GGGCATCATTTTGCCCTTGAGCTGGATGTCCATGTTGGAAAAACAGCTAGTGGAAGGCGTGCCCAAATCTCAGAAGTTGGCGTTTCCTTGCAGATATCAT
Celera SNP ID:            hCV15894175
SNP Position Genomic:     543186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58308):
ACAAATCTTGTTTTTGTCTTTTTATTGAATTTAACCACTATTGACTTGCGACTTGCGGCAATCACCAGATCCCAGATCTCTGTGTTTGGAGCTACACGTC
Y
TTCTGAATCGAGGAGGTGGGGCACTGATTTTTCTTTTATCACTGACTTCCCCGAAGTGGGAAGTTCCAGTGCTTAACAAGTTTCATTAAGAACACAGCTA
Celera SNP ID:            hCV89630
SNP Position Genomic:     284095
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58309):
TTGGTTATTTCTTTATTCAAGGGTTGTTGAGAGGATGAAGTGCTAAAAATGCTTGACCAGCATTCACACAGGCACTAAGACGGTGAGTACTCACTACTTA
K
CGCTGTCAACATCATCTCCGTCCACATCAATGTCGTCATCGTCCTTATGAAAAGCCCTGGGCATCATTTTGCCCTTGAGCTGGATGTCCATGTTGGAAAA
Celera SNP ID:            hCV15894176
SNP Position Genomic:     543128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58310):
CTGGGTAAAATAAATATGATATAAAACAGACACAAATAAGAATATATAGATGATGTTAATTTCTTCAGAGCTTCCCGGTGTTACGTCTTCAAGAATATGA
Y
GACAGGGGAACAGCCCAGTGTGGCAGTCATGTGACGACATGAGCATTGGAACCAGCCACATCTCAGTTGGCAACACGTATCTGTGTCTTACTAGCTTGGC
Celera SNP ID:            hCV89631
SNP Position Genomic:     286012
SNP Source:               Celera
Population(Allele,Count): cau(T,1)   afr(C,2)   his(C,2)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58311):
GTGACGACATGAGCATTGGAACCAGCCACATCTCAGTTGGCAACACGTATCTGTGTCTTACTAGCTTGGCCACTGTCACGTCACTCAGCCTCTGTTTTCT
M
ATCTGTAAAATGGGGAAAATTATAGATGCTTCAGAAGATATTTGCTATCACTATTAAATGAAAACAAGCATGTCATCAGTGCTTATTATTTTTGTTGCTT
Celera SNP ID:            hCV89632
SNP Position Genomic:     286143
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(A,1)   his(C,4)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58312):
GGTGATCCTGCTGCTTGGCAGCATCTTCCCAGCGTACAACAGAGGAAAACTGCCTGTTGTAGTTAAAAAAAAAAAGAGAGAGAGAGAGAGAGACTGATAC
M
CAAAGAGAATCAGAAAGGAGTAGAGATGAAACAAAGATAGAGCTAGCATGATTGCAAGCTGAGGACATACGAGGAGTCCCTGGGTCAGCTGGGCCATACA
Celera SNP ID:            hCV15911794
SNP Position Genomic:     501380
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58313):
TAATACAAAAGTTTTCCCCATACCAACTAGTAGTGTAAGTTGATTTCATATCCTTTTATTTCATAAAGTTTTGCTTATCGGGTTTGTCATCCTCTATTTG
M
AATTAAAATGTGTGGTCTCGAGATGACCTTAAAGTATCTGACCCCCAAATCTAATCACTCCTAGCATCTGTGAAAATTGACAAATATGTCAGGTATAACT
Celera SNP ID:            hCV15911795
SNP Position Genomic:     489492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58314):
CTTGGCCAAATATCCGAGTGTGGAAGCTCTCACTGTGAACCTGCTAACATACATTTCAGTGTCTACAAAATGTCTTTTGAGAGAAAACAGCAGGGACATT
Y
GTGAGCTCTTTTTTTTTTCTAACCACTTTCCCAGTGAGACTTCAGTTTTCATTCTCCCCTTAGCAGCTTTCAAATATGTACGTAACACAAATGTTACATG
Celera SNP ID:            hCV16291105
SNP Position Genomic:     397077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58315):
AGCCTCCCGAGTAGCTGGGACTACAGGCATGCACCACCACTCCCAGCTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TGTTTTGTAGAGACAGGGTCTCACTGTGTTGGCCAGGCCGGTCTCAAACTCCTAGCTTCAAGCGATCCTCCTACCTTGGCCTCTCAAAGTGCTAGGATTA
Celera SNP ID:            hCV11667310
SNP Position Genomic:     1096922
SNP Source:               Celera
Population(Allele,Count): cau(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58316):
ATTTCTTTATCGTAAGCACACTTCTCTACATTACCTTTATAATCCAACAACTCTGCTATTAGTAAATTATAGAAACAACTTTTGTAACACTATCTTGTTT
S
CAGAGTATATGAAAAATTTGAAGTTAAAATTCAGCTCCACGAATACTGCAGTGGTGAGAAAATGGCGACAAAGATTAGTCTTCTGTGAGAAGTCTGCTAA
Celera SNP ID:            hCV15911796
SNP Position Genomic:     488281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58317):
TTAAGTTTTTTATAGGAGTCATTAATCTCCCTCAGCCTCAGTTTCCCTATCTGTGAAGTGAGTCTAACCAGGATGATAATGAAGAGTTAGGTCAAGTGAG
R
TTGGCAGCCAGACACCCACCACCAGCTGTAACATAAGAACAGATGTTCTCTCCAGACCCCCAGGTCAGCTGAGGTCGCTCTGCTTGGAATAATGAACTGC
Celera SNP ID:            hCV16291106
SNP Position Genomic:     396848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58318):
TATACAATGTCAGTGCTCTGAGCTCATTAGGCGTCATCTGAGACAGTGGCTGTAGGGGAGGGGAGGTAGGCTCTGAGTCAAGCAGACCTGGAATTTTCTT
Y
ATGGGCCATTAGGAACTGTGTGACGCTGGGGCATCTGACTTCACCTTTCTGAGTCTTAGTTTCCTTACCTGTTGAATAGGTCTAATGATATCATTATGGC
Celera SNP ID:            hCV16291107
SNP Position Genomic:     396326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58319):
GTTCAAGCTGGCCTCGTGTTTGTGGTTTTAGACACAGCTTTGAGTCGTGACCGGTGTGGCCAAGACCTATTTCCCTTGCAAATGCTCTCTCTCTTTTTTC
R
GTAACTGTGTTACTAAAGTTCTCTTAGATACTTTACATTTCCTTTCACGGATTTCCAAAATTTCTTTCTTTGAGAATGTCAGGACCAGTAGGAGGTTCAG
Celera SNP ID:            hCV11667312
SNP Position Genomic:     1095837
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58320):
TGGCTGGAGGTACCCCTCAGCTCCTAGAGGCATCAACAGTTCCTGAATATCTGGGCTTTTCCCACAAAGCAGCTTCCTTCATCAAGCCAGCAACAAGAGT
Y
TCTGGGGCAAGTTGGTCAACAAGATGGTGTCTTACATGCCCAATGTAATCATGGAAGCCATGTATACCTCATCACATTTGCCAGATTTCTGCTGATTAAT
Celera SNP ID:            hCV16142862
SNP Position Genomic:     481807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58321):
CCTTTACATTTTAAAGAGGGATGAGGTTGAGTCTGTCCCTAGCACTGACAATGAAACATTTATGCTGTTTATAAAAATCAGGAAACACACAAATAATTTG
M
TTAACGCTCACCTTCTGGTCCTTTTGTGATTTGAGAGGTCTTGAGATAAGAAAAACTGTGGATGAATTTTACTGAACTATTGAATTGAGAATGGCTGAGG
Celera SNP ID:            hCV11667315
SNP Position Genomic:     1092480
SNP Source:               Celera
Population(Allele,Count): cau(A,5|C,3)   his(A,5)   total(A,10|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58322):
GCTCTTATTTTTAAGTCATCCTTATCTCTTTCACTTATTCCCTCATTCAGGCACCAAAAATGCTGTTTGACTGGGAGAGCAAGTGGAGCTGTTCAAAGTT
S
TAGGGACAGCCGGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGGCGAGGCGGGCAGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCC
Celera SNP ID:            hCV15894183
SNP Position Genomic:     541853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58323):
GCCAAAATATTCTTTTCAAAGTGATTAGAAGTAGGAGAAGCTTGCTCTCTTTTTATTGGCACTTCTGTCTTACATGCACTTTTTGATTTAAATTATTCTG
K
CTTCTATGAAATGACAGTGATTGGAGGTGGTTTATTTTTTTTTAAGTCTGCTTACTCGGAAAAATAAAACAAAGTTGACAACCTGATTTCAGACCTCCCA
Celera SNP ID:            hCV15894184
SNP Position Genomic:     539353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58324):
GTTTCAGTGCCTGACACAGTTGTATTCCTAAGACATAGTTGGGACCAGACCTCAAGAAAATAGCCAACAAATACTGGGTGAATGAACGAAAGAGGCCATA
Y
GCAGTCAGCCCCCCTCTCTCTGGGTTCTACATATGTAGATTTAACTAATGACAGATTAAAAGCATTCGAACAAACGGAGGGTGGTATCTGTACTGAAAAT
Celera SNP ID:            hCV15894185
SNP Position Genomic:     538296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58325):
CCTCTTTAAGGATAAGACTTTCTGATTTTTCAACTGGATTTACCATTGTGGCATCTGCACATGAGCAGACTGACTGCTTTTTGGCCCTACCTGGAGCCTG
R
GTCCTCAGGTAGCTGACCCGAGAGACCGTGGAGCTGCTTGTGATATACAATGTCAGTGCTCTGAGCTCATTAGGCGTCATCTGAGACAGTGGCTGTAGGG
Celera SNP ID:            hCV16291114
SNP Position Genomic:     396182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58326):
GATGGGTCTTTGTTTAGAGGAAGCTCTTTATCCTGGTACGCTGGAAGTTGGCATAGTCTTAGCAGTTAGTCCAGATGTGAATTTCAGGATTATTCTGTGA
R
TCTTCCAAGTCCTGTCTCAGCAGTGAAATAGGCTCAGTGTAGCTTATGTCTAGGTGGCTGAGTTCATTTTCTAGTCTAGGTAAAGGGCACCTCCTGTAAT
Celera SNP ID:            hCV16291115
SNP Position Genomic:     395897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58327):
TCTTTCTTTTTTTTTTTTGAGGTGGAGTCTTCCTCTGTCACCCAGGCTGGAGTGCAGTGGTGGGATCTTGGCTCACTGCAACCTCTGTCTCCTGGCTTCA
Y
GCCATTCTCCTGCCTCAGCCTTCCGAGTAACTAGGATTACAGGCATCCGCCACCATGCTTGGGTAATTTTTGTACTTTTATTAGAGACAGAGTTTCACCA
Celera SNP ID:            hCV16291116
SNP Position Genomic:     409284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58328):
CTATGCTGGGCACAAGGAATGTTATGGTGGATAAGGGGAAAATGGTCCCTACCCTCTGTCAGTTTTTTATGGAAGAAGAAAGACGGTCTTTAAAGAAATT
Y
ACATAATTAATCACAAAAAGCTAATACTATGACAAAGAATGTAAGTTACTAATACAGCTTAGAACAGATGACTCTAACCTTGTGTAGGAGCTAGAGAAGG
Celera SNP ID:            hCV1592100
SNP Position Genomic:     453753
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,7|T,1)   afr(C,7)      total(C,14|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58329):
CCCAGCCTGATTCCTGTTTTACATATTAAAAATTTCATCTCTCCAATCTTCGAAGAATCCGTAGTCCATTTTTAAGTAGCTCTTGTCTTCCAAAGGTATG
S
GATGTGCCTACCTAATGCTCTTCCTGGATGGGAGAATATTACCAAAAACGTTTGGTCGACTAATTTTATGACAGTTTCCAACTACAATTTTTTTCCTCTT
Celera SNP ID:            hCV11667323
SNP Position Genomic:     1086155
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58330):
GTGGTGGCTCCTGCCTATAATCCTAGCCCTTTGGGAGGCCAAGGTGGGAACATCATTTGAGCCCAGGAGTTAAAGACCAGCCTGGGCACATAGTGAGACA
S
CAGCTTTACAAAAGAGAGAGAGAGAAAGAAAGAGAGAGAGATTATTTCTAGAATAAGCAAACCAAACGTGAATTAAGTTTTCATTCTCATTTTAGTGATT
Celera SNP ID:            hCV1592101
SNP Position Genomic:     452617
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4|G,1)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58331):
TGGGTATGGTTGTGCACTCCTGTGGTTCCAGCTACTCAGGAGACTGCGGTAGGGGGATCACTTCAGCCCAGAAGTTCAAGGCTGCAGTGAGCTGTGATCG
Y
TCCACTGCACTCTAGCATGCGTGACAGAGTGAGACTATCTCAAAAAAGAAAAAATGAGATTATGGCCAGGGGTGGTGGCTCCTGCCTATAATCCTAGCCC
Celera SNP ID:            hCV1592102
SNP Position Genomic:     452445
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5|T,1)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58332):
TGGCTGGGCATGGTGGCTCACACCTCTAATTCCAGCACTTTGAGAGGATAACTTGAGTCCGGGAGTTTGAGACCAGCCTGGGCAACAGAGCCAGACCATC
Y
ATCTCTACAAAAAATTTAAAAATTAGCTGGGTATGGTTGTGCACTCCTGTGGTTCCAGCTACTCAGGAGACTGCGGTAGGGGGATCACTTCAGCCCAGAA
Celera SNP ID:            hCV1592103
SNP Position Genomic:     452317
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,5)   cau(C,1|T,5)      total(C,1|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58333):
ATATTAATTATTAATAAAATCCAACTCCTTAATAATACAATCATAGTTACCATTTATTGAGAGCACTCTTCTGAACATTTTGCATTCTTTATTTAATCTT
M
CCTACAACCTTATTAAGTAGACATTATCTTCATCTTATTAAGTAGTCAGTTCCTCATTTGCAGATGAGGAAACTGGCTGACTGAGTTAAATGAATGCCAA
Celera SNP ID:            hCV1592104
SNP Position Genomic:     451995
SNP Source:               Celera
Population(Allele,Count): cau(A,4|C,1)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58334):
ACTAATATTCTCTCTGACTATAATTGTAAAACAGTAGATGTCTTTCACCAAGCGCTAACATTATATTAATTATTAATAAAATCCAACTCCTTAATAATAC
W
ATCATAGTTACCATTTATTGAGAGCACTCTTCTGAACATTTTGCATTCTTTATTTAATCTTACCTACAACCTTATTAAGTAGACATTATCTTCATCTTAT
Celera SNP ID:            hCV1592105
SNP Position Genomic:     451933
SNP Source:               Celera
Population(Allele,Count): cau(A,6|T,1)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58335):
CCTAGCCAAGCAGAAACCCATGTTTTTGACTTTCAGGATATTTGTGAATTAATTTACTTGCATATATTGGCCAAGATCTAGCATAATCTCTTAATATTCA
R
TGAATAAAAAATTGAGTTTTGAGAGCAAATATTTTGGTAGGAAATAGAGAACTGACACTAATATTCTCTCTGACTATAATTGTAAAACAGTAGATGTCTT
Celera SNP ID:            hCV1592106
SNP Position Genomic:     451776
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58336):
GTGGCCCTGAAGAGGGTGGGAATGTCTCATCCCCCTGTGGGCTTAGAAGAAAACCAGAGGTCTGTGCACACTATGGATTTTTACTACAATGATGCCCTTT
Y
ACATACAGCGAGAAGGATTAAGAGGTACTGTATTGTTGGTTGATAAAGTCAAACTTGTGAACAGAGCAAAAGGGCATTGCTTGGTCATTGCAGCTTCCAC
Celera SNP ID:            hCV1592108
SNP Position Genomic:     451015
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58337):
TACTTCTTGGAGAAACCTCCCAAATTTCTATCGACACTAGACATCTCAGGATTTGAAATGTTAAGCTAACAAATTGTTCATCAGGTGTATCTCCAGCCCT
Y
CGTAAACACTGCCGGATGGATGAACCTACGTAATGATCTCCTGGTGCCATTTTCCTGACTGTAGATACTTGGGTAAGGAGGAGACTTTGACTCTAGATGA
Celera SNP ID:            hCV1592109
SNP Position Genomic:     449824
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(C,3|T,3)   afr(C,3)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58338):
AACTTGATATGGAAGGTCTTCACAGATTAAAACGAAGGAAAAAAAAAAAAAAAACTAGATAAATCTCCCTGGACATGAACTTTTGTAGAAGTAGTTACAA
Y
GCTAGTGACCTCATATACTCATGGTAACGGCTTCCGGCATCCAATGACCTTGCCATTGCGGAGGTCAATTTCATGTGTGTGTGCACACATGGGTGCGTAT
Celera SNP ID:            hCV2851500
SNP Position Genomic:     1072658
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,4|T,3)   his(T,3)      total(C,4|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58339):
AGGGCCCTTTGTCATTTATGTAGCACCAGCCCTGAAATCGGAGACTCATAAAACCTACAAATACACACACAAACACAAACCAGGCAAACCCACACACCAC
R
GAGAAGAGGCAAAGTGTGCATAAAGATACCCTGTTGTTATTCACCCAGTACAACTCTCTAATTCATGTATAAACAGTAAGTGTAAAATGTTCCACACCCT
Celera SNP ID:            hCV2851502
SNP Position Genomic:     1072352
SNP Source:               Celera
Population(Allele,Count): cau(A,6|G,3)   his(A,6)   total(G,3|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58340):
AGAGACTTCAGGTGGATCTGGAGGTCCTTCCCCAACCTTCTGCAAACCATGTCTTCCCAGAGAGCTTCTAAGCCAAAGCAAAGGTGTTGCTCTCTGCCTC
Y
TGTTGCTCTGTAATTCATCTCAGCAACCATCTTTCCCATCTCTGGGAAGAGAATGTTGTCCCCCAGAAAAAGTCCTTATGGATAGATTTAGTTATTGCTT
Celera SNP ID:            hCV2851503
SNP Position Genomic:     1070339
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,2)   his(T,2)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58341):
ATCAGGCCTTGGGAGATGCAAACAGTTTGCCCTTGGACCATGTCTTCTGCTTTCATCCTTATGCTCTCAACAGATCATGCCAAGGTCCTGTGTTCACCGC
S
TTCCTGAGTCCCCATTCAGAGGCTCAAGAATTGAGACAAAAGGGCATCCTGCAAATTTGCTGCCCTGGAAGCTGTGCTGGGGGAGCCAGTAGAGACTTCA
Celera SNP ID:            hCV2851504
SNP Position Genomic:     1070148
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,2)   afr(C,3)   his(G,2)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58342):
TGGAGTGCAGTGGCGTGATCTTGGCTCACTGTAGCTGCTGTCTCCCGGATTCAAGCGATTCCCCTGCCTCAGCTTCCCGAGTAGCTGGGATTACACCCAC
S
ACCATGCCCGGCTAGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCGTGACCTCAAGCAGTCCACCCGCCTT
Celera SNP ID:            hCV2851505
SNP Position Genomic:     1069117
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,1)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58343):
ATTCTCGCCTTCTAGCCTGGGCTTGTCAGCTTGGGGTGTATGCCGCACCTCCTCTTTGAAGAGGATCTTCATTTGGAGGGGTGATCTGACTCCCAACCCT
M
CCCAGGTGAAAGCACCGGGATTCATACCTAGGGGGCTTTGGGATTTGGGGCTGACTTTGACCCGTCATTATTTCTGACTGCAAAATTCCTGACAAATGTC
Celera SNP ID:            hCV2851507
SNP Position Genomic:     1067387
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,7)   afr(C,7)   total(A,3|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58344):
GGTTGGCGTTTCAGTGCCTGACACAGTTGTATTCCTAAGACATAGTTGGGACCAGACCTCAAGAAAATAGCCAACAAATACTGGGTGAATGAACGAAAGA
S
GCCATATGCAGTCAGCCCCCCTCTCTCTGGGTTCTACATATGTAGATTTAACTAATGACAGATTAAAAGCATTCGAACAAACGGAGGGTGGTATCTGTAC
Celera SNP ID:            hCV15894192
SNP Position Genomic:     538289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58345):
ACAGGGACAAGAAATAAATAACTTTGATGCAAATCCTGGGAAGACTCTGGAACAACATGGAGGCACCTATGTTAACTCTATTTCATTTTGGAAAAGTTGA
S
TAGACAAAAGGTGCAGAGTAGAGTATGCAGTGATTTCAGGGTGTTGGGCTCTGACAAGATGATGCCGACTTAGACAGTGTTAGTCAACATCAAATGTCTG
Celera SNP ID:            hCV15894193
SNP Position Genomic:     535194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58346):
CCAGAGGTCTGTTTTCATCACATCGTATCAAGCATTCCACCTTCATCATGACTCTTCACTGTTGATGGTGACTCTGATTCACCTGGTCAAGGTAGTGTTC
R
TTAGGTTTCTCCACTGCACACTTAGTCTTTCCCTCTACTTTCCACACTGCTGCCTTTGGAGGAGTGTTGCTGTGCCCAGCTCATGCTTGTGGAGTGGGGA
Celera SNP ID:            hCV15894194
SNP Position Genomic:     534032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58347):
TCTCAGTTAATGCCCACAAATTTCTGAACTTTGAACATAAATACCCTCACTGCAATACATGTTTTTCTTTCTCTCTCTTTCTTTCTTTCTCTTTTTTTTT
Y
TTTTTTTTTTTTTGAAAAACTTTTTTGGAGCAGCACCTGCATGTTGTAAAAACACAAAATAAAAAAAAAATAAATAAAAGCAGACCCCTTGGTTCAGATA
Celera SNP ID:            hCV16291123
SNP Position Genomic:     408840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58348):
CATGTACAACAGCGCCTGTGCTGGGCCTGCTAGGAGTCGATATTTTCTGGCTCAAAGAAGTTCCAAAAGAATTCAAAGCCAGTGTGTCTCTTTCTCTGGA
M
GGCCAAGTGATGCAGGTACCACGCTTAGGTCTGCTGGTGTTTAGCTTGACTTAAAACCCAGCCAGGGAAATATGTTTCACTTTGCTGGGGTGCAGGTGGA
Celera SNP ID:            hCV16291124
SNP Position Genomic:     408559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58349):
TTATTTGTCTTTTGGCTTGTATCCCACCTGTTCACTTTTTACCATAGCTAACCTTTCTAAGTGGTCAGGTGGGACTCATGGAGATTTTCCGTTCTTTGGA
R
ACTAGCAGCGACTGCAGATTACTCATCAGCTGTCTCCTTGAGTCCACAATGCCGGGCGGTGGACGGGCTTCCTGCCTCCTGGCCCAGGGCCCCTTTGCCG
Celera SNP ID:            hCV16291125
SNP Position Genomic:     407131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58350):
TATTCCTCGCCTGGCCTCATTGCTCGCTTCGTTTCGGAGGAAATTTTCCCTGTTAAAGTACTGTACTTGTCATTTATTTCCCTTTTTTCCACTCTCCCTC
C
GTGGCTGGGTTTGGATATGCATTTATCCAAAAGGCAAGGCTTTTACACACTTCCGCTAACCTCTTATGGTCAGGCTCATAAAAGCAACCCAACAAAGCTT
Celera SNP ID:            hCV11667331
SNP Position Genomic:     1084829
SNP Source:               Celera
Population(Allele,Count): cau(-,2|C,2)   his(C,2)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58351):
GTGGCGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGAGCCCGCCACTG
Y
ACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGACACGTACACAGACAAATGTTCTGACAGAAAT
Celera SNP ID:            hCV1592111
SNP Position Genomic:     449053
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|T,3)   afr(C,2)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58352):
TCTAGTGGATATTTTGTTAAAAAAAAAAAATGGGGTCTCATTCTGTTGCCCCGGCTGCAGTGCAGTGACATGATCATAACTCATGGTGACCTCAAATTCA
Y
GAGCCCAAGCGATCTTCCCACCTCAGCCTGAGTAGATGGGACTACAGGCATGTGTCACCATGCCAGGCTAATGTTTAAAAATTTTTCTTAGAGGTAGAGC
Celera SNP ID:            hCV1592112
SNP Position Genomic:     448394
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,7)   his(T,7)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58353):
CTGAGTTTCTGTGGATTTCTATAGGCTCCTGCAAATTTTATCTAGTGGATATTTTGTTAAAAAAAAAAAATGGGGTCTCATTCTGTTGCCCCGGCTGCAG
W
GCAGTGACATGATCATAACTCATGGTGACCTCAAATTCATGAGCCCAAGCGATCTTCCCACCTCAGCCTGAGTAGATGGGACTACAGGCATGTGTCACCA
Celera SNP ID:            hCV1592113
SNP Position Genomic:     448354
SNP Source:               Celera
Population(Allele,Count): cau(T,7)   his(A,2)   total(A,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58354):
AATTTTGTGTTGCGTAATATTTCAGGAACTTGCAACCCTGATAACTTGTGCCTGCCTGTCTGTAGGCCTTTAATGATGTTTTATTGAATTTTGGTTTTCC
M
CTAGACTTTGCAGTGCATGACACATAGTAATTGCTCAATAAATATGTGTTCAACTGAACTATGGTGGTTAGGTTAGTAATTAGATGCACAGACAAAATCA
Celera SNP ID:            hCV1592114
SNP Position Genomic:     446777
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58355):
CGAGCATGCTCTGAACTCCTGAACTGCTCATTCTGTTCTCTGAGAGAATTGCTCAAGCTGCAGTTTATCATTATATGCCTCCAAAGACTTTGTGTTTCCT
R
TGTTTGACATCGAGATAGAATTTTTCATAACCCTTTACTAGTAATAAATTTGATTGTTAAGGGACCGGGTTAATCTTATTTCTAATACCAGCATCTGATT
Celera SNP ID:            hCV1592115
SNP Position Genomic:     446259
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58356):
GAATGACTCCATGGATGACCTTTCCGTGCCTTTGTCTGTAGCCTGCCCTCCTCTTTAACTGAACACCTTCCAGACGAGCATGCTCTGAACTCCTGAACTG
S
TCATTCTGTTCTCTGAGAGAATTGCTCAAGCTGCAGTTTATCATTATATGCCTCCAAAGACTTTGTGTTTCCTGTGTTTGACATCGAGATAGAATTTTTC
Celera SNP ID:            hCV1592116
SNP Position Genomic:     446185
SNP Source:               Celera
Population(Allele,Count): cau(C,7|G,1)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58357):
TTGTTATTGTAAAAGCATCATGCACCAGGTAAAATGTTTAATAACACAGAGAAATCTAATTGTCAAGTATCTTCTCAACACACATTAATCAACAATTCTC
M
TATCGAAGGATAACCTCTTGTATTTACAAAAAAAAGAAGAAAAAGTGCTGTCATCAGTAAATTCATTCATGTATGTTATACACTTACATACAAAATGTAT
Celera SNP ID:            hCV435278
SNP Position Genomic:     265339
SNP Source:               Celera
Population(Allele,Count): cau(A,4|C,2)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58358):
TCACGTTTGTTTAATATTTTAATTTCCCCATGAGTCTTAAACCTCTGCGTGGTGTGCAAGTTGAGGCCTGGTGTATGCACTTCGGCCACGGGCTTTCCCA
Y
TGTAATGAAGATGGAATGACTCCATGGATGACCTTTCCGTGCCTTTGTCTGTAGCCTGCCCTCCTCTTTAACTGAACACCTTCCAGACGAGCATGCTCTG
Celera SNP ID:            hCV1592117
SNP Position Genomic:     446071
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58359):
CCGGGAAGTGGAGGTTGCAGTGAGCCGAGATCTTGCCATTGTTCTCCAGCCTGGGCGACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAA
R
AATTATGTCATTTCGTTGTCACAGCGTCAGCAGAATAAATCTTAGATCAAGATGGGATTACTGCGCCACTCCCTTCTTCCCAGTCTGTGGTTTAGCACGG
Celera SNP ID:            hCV15879100
SNP Position Genomic:     380441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58360):
GGTTGGAGAATGTTCATATCACATTATTTTGGATGTCTGGGGTTGCACCTGGAAGCTCAGATAGCAATATCTAGGCACGGCTGCCAGTGCTCTATACATT
S
ACGTTTGTTTAATATTTTAATTTCCCCATGAGTCTTAAACCTCTGCGTGGTGTGCAAGTTGAGGCCTGGTGTATGCACTTCGGCCACGGGCTTTCCCACT
Celera SNP ID:            hCV1592118
SNP Position Genomic:     445972
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5|G,1)      total(G,1|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58361):
AAGCGGGGCAAGGGGTTGGAGAATGTTCATATCACATTATTTTGGATGTCTGGGGTTGCACCTGGAAGCTCAGATAGCAATATCTAGGCACGGCTGCCAG
Y
GCTCTATACATTCACGTTTGTTTAATATTTTAATTTCCCCATGAGTCTTAAACCTCTGCGTGGTGTGCAAGTTGAGGCCTGGTGTATGCACTTCGGCCAC
Celera SNP ID:            hCV1592119
SNP Position Genomic:     445959
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58362):
GAAGGGGACATGCTATGTCAGAGTGGAGGGACATGGGGAGGCACCAGGACTGGTCAAGAGGCAGAGGGAGAGGGTCAAACCGTGGGTTCTGTGGGGAGGA
M
TGAACGAGGCAGGGTAAGTAGACTAGGGTTTGAGTAAGTTCAGCAGGCTCTGGGGAAGAGGGGCTGTCCCTATTTTTCTGGTACCTGGCCCTGGGTGATT
Celera SNP ID:            hCV2851510
SNP Position Genomic:     1065279
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5)   afr(A,1)   total(A,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58363):
CTCACTTAGTCATTTCACTATTAAAAGAGAAAAATAGTTAGTTTACAATTTCCAGGAAATCAGACAGGTCACCACCACCTCTTCAACGACTGGAATTTGC
R
CAGTCTCACTACTCATAGGCCCATCTGTTACTACTAACAGTGCTAATGTGATTGTCTGTAGGTCTAGCAATTGGAGGTTGTTCGTTTCTTTGAGACAAGG
Celera SNP ID:            hCV2851511
SNP Position Genomic:     1063535
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   afr(G,1)   his(A,6)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58364):
GCCAGAGTTTTTTTTTCCCTTGTCTTATACCAGTGGTGCCTAGCATGGTGTCAGGTTTATAGAGGACTAATACATATAAGAAGGAGAAAGGGAGGGAGGA
R
GAATTCCAGTTGTTTTTTTTTTAATCTAGGTACAAGTCTCTCTGTTGATTTCTAAACATCGAATGAAGATGAAGGAAATACTTAAAGCACCTAAGCACTC
Celera SNP ID:            hCV2851513
SNP Position Genomic:     1063330
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(A,1)   his(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58365):
CTCTTTTCTGAAGTGATGGGGATATTCGATGGCAATTTTGTGTTTTCTTCACTTGGAAAAACTAAAAAGTTTGCAACATTTAAAAAAAATACAACCCTTA
Y
GCTGATGGATGTACACTGTAAAACAACCACGTTTGGTAAACTGTTAATCACTTTCATAGTGTATGTGGATGGAGCCAGTTAAACCAGTTTTCATGTCTTT
Celera SNP ID:            hCV2851518
SNP Position Genomic:     1062098
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,2)   afr(T,2)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58366):
CTCTCAAAGATAGACATGGACATATAAATAATTTTTTAAAATCCTCTTTTGCAAAAAAAAAAAAAAAAAGAGGTGAATTTAGTTGAAAGGATATAGCCAC
W
CTTTTCTGAAGTGATGGGGATATTCGATGGCAATTTTGTGTTTTCTTCACTTGGAAAAACTAAAAAGTTTGCAACATTTAAAAAAAATACAACCCTTATG
Celera SNP ID:            hCV2851519
SNP Position Genomic:     1061999
SNP Source:               Celera
Population(Allele,Count): chn(T,5)   cau(T,5)   afr(A,1)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58367):
CTTATTTGTCTTTTGGCTTGTATCCCACCTGTTCACTTTTTACCATAGCTAACCTTTCTAAGTGGTCAGGTGGGACTCATGGAGATTTTCCGTTCTTTGG
M
GACTAGCAGCGACTGCAGATTACTCATCAGCTGTCTCCTTGAGTCCACAATGCCGGGCGGTGGACGGGCTTCCTGCCTCCTGGCCCAGGGCCCCTTTGCC
Celera SNP ID:            hCV16291132
SNP Position Genomic:     407130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58368):
TCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATGGCATGATCATAGTTCACTATAATCTCGAACTCCTGGTTTCAAGTAGTCTTCCTGCCTTGG
S
CTCCCAAAATGCTAGGAATACAGGCAGGAGCCACTGTTACTGGTCTGTTTTTTTCCTTAAATACATAGGCAACTTCCTCGATTGTCTCTCCTTTATTGGC
Celera SNP ID:            hCV16291133
SNP Position Genomic:     406450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58369):
TTAAACAGAGACAGATCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATGGCATGATCATAGTTCACTATAATCTCGAACTCCTGGTTTCAAGTA
R
TCTTCCTGCCTTGGCCTCCCAAAATGCTAGGAATACAGGCAGGAGCCACTGTTACTGGTCTGTTTTTTTCCTTAAATACATAGGCAACTTCCTCGATTGT
Celera SNP ID:            hCV16291134
SNP Position Genomic:     406435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58370):
TGATTGCCAGTCCATTCTCTAGCCTTCTGAAGAAGATAGATTGTAATCTTTAATTAAGCTATCACTCACACCAAAAAAAAAAAAAAAAAAAAAAAAAAAG
Y
GGGGCAAGGGGTTGGAGAATGTTCATATCACATTATTTTGGATGTCTGGGGTTGCACCTGGAAGCTCAGATAGCAATATCTAGGCACGGCTGCCAGTGCT
Celera SNP ID:            hCV1592120
SNP Position Genomic:     445862
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58371):
TTTGGCAGTTACCTGAAAGAAAATTTAGTGATTGCCAGTCCATTCTCTAGCCTTCTGAAGAAGATAGATTGTAATCTTTAATTAAGCTATCACTCACACC
M
AAAAAAAAAAAAAAAAAAAAAAAAAAGCGGGGCAAGGGGTTGGAGAATGTTCATATCACATTATTTTGGATGTCTGGGGTTGCACCTGGAAGCTCAGATA
Celera SNP ID:            hCV1592121
SNP Position Genomic:     445834
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,1)   his(A,3)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58372):
ACCACCCTTACATATCCCAGTGTATATGGTAGCCAAGGACAGTACTGTTTGAGCCTCCCCCATTAAGTGTCAACATTGAATCAATGCAATCCCATGCAAA
S
AAAGCTGAGCATGGGATTGTGCCGGTTTAGCCAGCTAAAGTGTGGTCTCTGATGCTGATCATGACTATGAAAAGGGAAAATGGAGGAGAATGATGACGAA
Celera SNP ID:            hCV1592122
SNP Position Genomic:     444259
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|G,1)      total(G,1|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58373):
GGGTGTGAGAGTGGCACATTCCACAGGAAGGGAACCCTGCATGTCCATGTGCCATGTGCCATGTGCCATCTTAGAGACGTAAAAACACTTTGTATGTTTG
S
GGTACAACTCAGTAACCCATTGGTGCAGATATGTGATTCTTAGGATGGCCCACATGGGTCTCTTTCACACACCCACGTGCATGACCCAAGTGAGCAAACA
Celera SNP ID:            hCV11667345
SNP Position Genomic:     1080786
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,2)   afr(G,2)   his(C,5)   total(G,4|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58374):
TGTTCGTCTCAGCCTCCCAAAGTGCTGGGATGACAGGCATGAGCCACCGCACGCAGCGTATTGCTTTATATTTTAAGACTATACACTGATATCCCCGAGC
M
CCCAAGTTCCTGTCCGCTGGTAGAATTCACAAAGCTGGTTTTATGTCTCCTTCTCTTCCTCTTCCAGTGTTGTCTTTTCCCTGCATTGAGATAGCATTGC
Celera SNP ID:            hCV1592124
SNP Position Genomic:     442669
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5)   his(A,1)      total(A,1|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58375):
CTCCAGGCTGTGTGACAGAGCAAGACCCCATCTCTAAATAAGTAAATAAATGCCTCTGTGAATCCATTTCATTGCATTGGAAAGACCTCCAGGATTCTCT
S
CAGAAGAATCTTTCCCAACATAAAATCCATTGTTAATCACATTTGACACACATGTGTGCCCATGTCTCTGGGCCTGTGTCCATAGGCATCTACGTCACTG
Celera SNP ID:            hCV11667346
SNP Position Genomic:     1080532
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,2)   afr(G,2)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58376):
ATTTTATTTTTTTTGAGACAGAGTCTCTGTCTCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCC
M
CTGCCCTGATCAGCTTCCTGAGTAGCTGGGACTACAGGTGCGCGCTATCATGCCTGGCTAATTTTTTGTATTTTAGTAGAGACTGGGTTCCACCATGGTG
Celera SNP ID:            hCV1592125
SNP Position Genomic:     442434
SNP Source:               Celera
Population(Allele,Count): cau(A,7)   his(A,7|C,1)   total(A,14|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58377):
TTTTTTATTTTATTTTATTTTTTTTGAGACAGAGTCTCTGTCTCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCACCTCCCGGGTT
Y
AAGCGATTCCACTGCCCTGATCAGCTTCCTGAGTAGCTGGGACTACAGGTGCGCGCTATCATGCCTGGCTAATTTTTTGTATTTTAGTAGAGACTGGGTT
Celera SNP ID:            hCV1592126
SNP Position Genomic:     442423
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   his(C,7|T,1)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58378):
AAATATTCTAGTATTTGCCAAAACTAGAGGATGAATGAGTGATGGGTAAGAGAGTTCTCAGAAAAATGGATATAAACAATATTGTAAATCATATTTGGAA
R
ATAAATACTAGAATCATTGAATCCCTGAGTTATAGAAAAATTTATTAATAGCGCTATCTGGCTACTTTTTAAAGTGTGGACATCCTCGATGTATTAGCTA
Celera SNP ID:            hCV1592127
SNP Position Genomic:     441691
SNP Source:               Celera
Population(Allele,Count): chn(A,7)   cau(A,7)   his(G,1)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58379):
AAGGCTGCAGTGAACCATGATGGTGCCACTGCACTCCAGGCTGTGTGACAGAGCAAGACCCCATCTCTAAATAAGTAAATAAATGCCTCTGTGAATCCAT
Y
TCATTGCATTGGAAAGACCTCCAGGATTCTCTGCAGAAGAATCTTTCCCAACATAAAATCCATTGTTAATCACATTTGACACACATGTGTGCCCATGTCT
Celera SNP ID:            hCV11667349
SNP Position Genomic:     1080499
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,2)   afr(T,2)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58380):
GAACTCGCTGGTTCTCGTCCTCGCCCTCAGCATACTTGCTCATTGTTTGTTTCCATCTCTATCATCTCTGTGAGCCCTTTGAGGATGGATGTGTGTCCAT
S
TTGTTAACAGTTGGCTCCCCAGTAACCAGTACAGTGCCAGATACAGAGTAGTAACCCTACATTCTAGCGTAGGCAAATATTCTAGTATTTGCCAAAACTA
Celera SNP ID:            hCV1592128
SNP Position Genomic:     441516
SNP Source:               Celera
Population(Allele,Count): cau(C,8)   his(G,1)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58381):
TAACCTCGATTTGTGCTCCAGGTCTGAGCAGAAATGTTATTCCCTCCAGAAAGCCTTCCCTGGATGTTGAGGGATGAAGTTGTAGCCCCCTCCCGAATGC
R
TCCTCAGAACTCGCTGGTTCTCGTCCTCGCCCTCAGCATACTTGCTCATTGTTTGTTTCCATCTCTATCATCTCTGTGAGCCCTTTGAGGATGGATGTGT
Celera SNP ID:            hCV1592129
SNP Position Genomic:     441409
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   his(A,1)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58382):
AGACTCACTAGAAGTTTCAGAAAGATGCAGACTGCTTTAAAAAAAAAAAAAAAGGGCAAGGGGAGGTGTGAGAAGAAAGTATAATTCTTTTTCTTCTAAC
K
GGAGATATAAAAATCATATAAGCATGATTTATGATTTGATTGGAACATTGTATTTTATGGTTGCAGAGCACACGTATCATCCTATCTGCTTCTGACACCC
Celera SNP ID:            hCV15879112
SNP Position Genomic:     433510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58383):
CCTCTCAAAGATAGACATGGACATATAAATAATTTTTTAAAATCCTCTTTTGCAAAAAAAAAAAAAAAAAGAGGTGAATTTAGTTGAAAGGATATAGCCA
Y
TCTTTTCTGAAGTGATGGGGATATTCGATGGCAATTTTGTGTTTTCTTCACTTGGAAAAACTAAAAAGTTTGCAACATTTAAAAAAAATACAACCCTTAT
Celera SNP ID:            hCV2851520
SNP Position Genomic:     1061998
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5)   afr(T,1)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58384):
AATGTCAGAGCCCTAAATGGTATGAAAAATAGGCAACTTGGGTCATGCCACTACAGATCGACACCCACTAAATCCTTTTAATTTAGTCTAGTGCAACAAG
K
ATTTGTGTAAGTGTCCTCTGCCCTGGACACCGGTGAGGTCACCGTGGGAATGGCTGGGCAGGAACAAAGCCTTTTGTTTCCAGCTGAGTTTCCTTTTCTG
Celera SNP ID:            hCV2851521
SNP Position Genomic:     1061676
SNP Source:               Celera
Population(Allele,Count): chn(T,10)   cau(T,10)   afr(G,1)   total(G,1|T,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58385):
TACCAAGTCATTTGGTTTACATCGGGAATGCCTTTTGTCGTTATGTCTAGACCCCTGGAGAACAGCCCACGGCAATGCACTTGTGGAAATTCGGACTGTG
R
ATTACACTGAGTAACAATCCTAATAATACCTGCACACAATCAGTTGCCTGTCCAAAAAGCAATAAAGAACCTCTAGATTTTGTGGTCACCATATTAATCA
Celera SNP ID:            hCV2851522
SNP Position Genomic:     1060993
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   afr(A,2)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58386):
CACTGGTGTGTGGGGTCATACCAAGTCATTTGGTTTACATCGGGAATGCCTTTTGTCGTTATGTCTAGACCCCTGGAGAACAGCCCACGGCAATGCACTT
S
TGGAAATTCGGACTGTGGATTACACTGAGTAACAATCCTAATAATACCTGCACACAATCAGTTGCCTGTCCAAAAAGCAATAAAGAACCTCTAGATTTTG
Celera SNP ID:            hCV2851523
SNP Position Genomic:     1060975
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(G,3)   afr(C,2)      total(G,3|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58387):
GACGGTGGAAAGAGAGGACTGCTCCTAGCGTGAGAGTGTCAGGGAAGCTTGCTGGGGGAAATACAAGGAAGGAAGAGAATGCAGGCAGCTCAAAAGAGCC
S
GGCAAGGAGACCTGCAGAGCGAGCGGAGGCCTGGTTTCTGTGAAGCACAGGGCAGGAAAATCCAAACTCACTTGAGTACACGCTCAGGGTCATGGGCTTG
Celera SNP ID:            hCV2851524
SNP Position Genomic:     1060475
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,5)   his(G,5)   total(G,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58388):
GGAGGCCTCAGGAAACTTACAGTTATGGCAGAAGGTGAAGGGGAAGCAGGTAATGTCTTCACATGGCTGGCACTGGAGGAAGAGAGAAAGTAGGGAGGTG
S
TAGATGCTTTTAAACAAACAGATCTCAGGAGAACTCTTTCACAAGACAGCACTAGGGGGATGGTGATTAGAAAGCACCTCATGATCCCGTCTACTTCCTG
Celera SNP ID:            hCV15879119
SNP Position Genomic:     401773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58389):
AGGGAAGAGCAGGGATAGAAGTGGGCTCCGGGTCTAGGAGACGGTGGAAAGAGAGGACTGCTCCTAGCGTGAGAGTGTCAGGGAAGCTTGCTGGGGGAAA
Y
ACAAGGAAGGAAGAGAATGCAGGCAGCTCAAAAGAGCCGGGCAAGGAGACCTGCAGAGCGAGCGGAGGCCTGGTTTCTGTGAAGCACAGGGCAGGAAAAT
Celera SNP ID:            hCV2851525
SNP Position Genomic:     1060436
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,2)   his(T,2)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58390):
CCCTGAGGAGCGGGATTCGCTGACCCATGCTGGCAGAACGGGTGATGGATGAGGCAGAGAAGGGTACAGGCTGGCTGGACCATGCGATGGGGAATGCAGG
Y
GGAACAGGCTTCCTCCTGAATCAGGAGTGGAAGAGGAGTCTGGGGTGAAGCCAAGGGGAAGACAGTTAAGCTTTAAAAAACCAACTGCCCAGCCGGGCGC
Celera SNP ID:            hCV2851526
SNP Position Genomic:     1059746
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,4)   afr(T,1)      total(C,4|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58391):
ATTTGATCCTGGAGTTGCTGTAATGGCAAGAAAAACCATGGCCTCCAGCCCCAGTGTTGAAGTTTTGACGCTAATGTGATGATAATTCTCTTTTCTTTGA
S
TGGGGACTTGCCTTTGTTTATCTTTTTTTGTTGTTTTAGCCATGAAATATCACATGTAAATAGCCGAGGATATCTGGGCTCTGAGTCTTTAAAAGGCAAC
Celera SNP ID:            hCV2851527
SNP Position Genomic:     1059318
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,2)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58392):
AACGCAGAATGCAGAGGCCATGCCTGCAGATCAGGGGTGCTAGAGGATAGGCAAGAAGTAAAGTGGCCACCCTATCTCGTGTTGAGAGCATGCTAGTCTC
Y
GAACGGCCTGCCAGGGTGCCTGACAGCCAGAGCCACCTAATGGGCCTATTTGATCCTGGAGTTGCTGTAATGGCAAGAAAAACCATGGCCTCCAGCCCCA
Celera SNP ID:            hCV2851528
SNP Position Genomic:     1059170
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,3)   afr(C,5)   his(T,3)   total(C,10|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58393):
AGAGGGAGAGGACAGTAACCAATACCGCTCCTTCTACATGATCAGTGTTCAGGTTGAAGACAAACAGGGCTCCAATTATGTTGTGATTTAGAAGGCGACA
R
AGCTGAGACCTCACCCTCTGCTTATGGGCTGCATGCCTTTCTCAGTGAAATAACGCAGAATGCAGAGGCCATGCCTGCAGATCAGGGGTGCTAGAGGATA
Celera SNP ID:            hCV2851529
SNP Position Genomic:     1059018
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,3)   afr(G,3)   his(G,3)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58394):
AAGCCCACATTTTAAAGGGAATTTGGTATTTTTAACAAAGCATCAGGGGGCCGGGAGCAGTAGCTCACGCCTGTAATGCCAGCACTTTGGGAGGCCGAGG
Y
GGGCGGATCACAAGATCGGGAGATCGAGACCATTCTGGCTAACATGGTGAAATGCTGTCTCTACTAAAAATACAAAAAGAAATTAGCTGTGCGTGGTGGC
Celera SNP ID:            hCV16291141
SNP Position Genomic:     405595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58395):
GACACTGGTCTGCACAATGAGTGTTTTTGTATATGAACCGAAAAACAGGTAGCAAAAGCAAAAATAGACAACTGGGATTACAACAATCTAAAAAATTTCT
K
TACAGAAAGGAAGCAATGAACAGAGTGAAGCAGCATCCTACAGAAAGAGAGAGAATATTTGCAAACCACACATGTGATAAGGGATTAATATTCAAAATGT
Celera SNP ID:            hCV16291142
SNP Position Genomic:     405114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58396):
CTTCTGTTAGGTGTATCTCTGCTCATGCTTGAGAGTGGTGGTGTTTGGAAAGACTCAATAGCATATGCACATGAGGAAGTTGACCAAATGATTCCACAGC
R
CATACTCATTTTTTGCTCTGATTCTAGCTTTTCCTCCAATTTTATTCAGAATTTGTTCTTTTCTTACCTCACACCATATAGAAAAATCAACTCAAAGTGG
Celera SNP ID:            hCV16291143
SNP Position Genomic:     404845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58397):
GGCAGGAAGATTGCTTGAGCCTGGGACGTCAAGGCTGCAGTGAACCATGATGGTGCCACTGCACTCCAGGCTGTGTGACAGAGCAAGACCCCATCTCTAA
R
TAAGTAAATAAATGCCTCTGTGAATCCATTTCATTGCATTGGAAAGACCTCCAGGATTCTCTGCAGAAGAATCTTTCCCAACATAAAATCCATTGTTAAT
Celera SNP ID:            hCV11667350
SNP Position Genomic:     1080469
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58398):
ACTCTGGGAGGCCAAGATGAGAGGATCACTTGAGCCTAGAAGTTTGAGACCAGTCAGGGCAATATAGACTACCTGCAAAAAGAAAAAAAAAAAAATGCCA
K
GTGTAGTGGTGTGCGCCTGTAGTCCCAGCTACTCAGGGGGCTGAGGCAGGAAGATTGCTTGAGCCTGGGACGTCAAGGCTGCAGTGAACCATGATGGTGC
Celera SNP ID:            hCV11667351
SNP Position Genomic:     1080324
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58399):
AAAAAATTGAGGTGAAATTCACATAATATAAGATTAACCATTTCAAAGTAGACAGTTCAATAGCAGTACATTCACAATGGTGTGTAAATACCGCATCTAT
H
TATTTCCAAAATATTTGTATCTCCCCACAATAAAAGTCTGTACCAATTAAGCAGCTACTACCCATTCCTCTTCCCTACCATTCTACCTTCTGTCTCAGTA
Celera SNP ID:            hCV15996470
SNP Position Genomic:     885397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|CTAT,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58400):
CTTGTACTTCTTTTAGGCTATTTTTCCACCTGGTACTATTTGGCTTTACTGACTGCCCTCATTCCCCATACACCACCTTGTTTTGTTCAGATTCCCCTAA
R
TCTTCATTCTCGTCCCACCTCCCCATCACTCCTGACTACTTGAAACACGACTTCTGTCCTCAGAAGGCAGCAGTGTTCCCTCCTCCCGTTCATTTTTCAT
Celera SNP ID:            hCV16291147
SNP Position Genomic:     403785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58401):
AAATCTCATAATGTTTTAAGAAAGTTTATGAATTTGTGTTGGGCCAGATTCAAAGTTGTCCTGGGCCGCATGTGGCCCACCAGCCATGGTTTGGACAAGC
Y
TAGTCTACAGGTTCTTCAAGAGGGGCTTGAGCATTTGAAAGACTTCTAGTGGGAGAGATCACAAGGTACAAGTAGAAAATCCTGGGCTGGCCTGAGAGGC
Celera SNP ID:            hCV1592130
SNP Position Genomic:     441149
SNP Source:               Celera
Population(Allele,Count): cau(T,7)   his(C,2)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58402):
TGGCTGCACATAATATACAATTGTTGATGAGCTAAAAAAAAAAAAATCCCCAAAAAATCTCATAATGTTTTAAGAAAGTTTATGAATTTGTGTTGGGCCA
S
ATTCAAAGTTGTCCTGGGCCGCATGTGGCCCACCAGCCATGGTTTGGACAAGCTTAGTCTACAGGTTCTTCAAGAGGGGCTTGAGCATTTGAAAGACTTC
Celera SNP ID:            hCV1592131
SNP Position Genomic:     441095
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   his(C,2)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58403):
CTGAATTATGGAGTTTTAGTTTTGCTTTAGAATTTTTGGATGATTAGACTTGTACTTCTTTTAGGCTATTTTTCCACCTGGTACTATTTGGCTTTACTGA
M
TGCCCTCATTCCCCATACACCACCTTGTTTTGTTCAGATTCCCCTAAGTCTTCATTCTCGTCCCACCTCCCCATCACTCCTGACTACTTGAAACACGACT
Celera SNP ID:            hCV16291148
SNP Position Genomic:     403737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58404):
CCAAACTTTTGGCTTCCCTGGGCCACATTGGAAGAAAAAGAATTGTCTTTGGCTGCACATAATATACAATTGTTGATGAGCTAAAAAAAAAAAAATCCCC
R
AAAAATCTCATAATGTTTTAAGAAAGTTTATGAATTTGTGTTGGGCCAGATTCAAAGTTGTCCTGGGCCGCATGTGGCCCACCAGCCATGGTTTGGACAA
Celera SNP ID:            hCV1592132
SNP Position Genomic:     441046
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   his(G,2)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58405):
ATAAACACATTTATAGTTCTCAGAGATTCCTTGAGAGAGGAACATCTTTAAATGGATAACCACAGTCTTCTAAACACCTGAAAGGGTGTCTTTTGCTGAA
Y
TATGGAGTTTTAGTTTTGCTTTAGAATTTTTGGATGATTAGACTTGTACTTCTTTTAGGCTATTTTTCCACCTGGTACTATTTGGCTTTACTGACTGCCC
Celera SNP ID:            hCV16291149
SNP Position Genomic:     403642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58406):
GTGTCCAAACTTTTGGCTTCCCTGGGCCACATTGGAAGAAAAAGAATTGTCTTTGGCTGCACATAATATACAATTGTTGATGAGCTAAAAAAAAAAAAAT
Y
CCCAAAAAATCTCATAATGTTTTAAGAAAGTTTATGAATTTGTGTTGGGCCAGATTCAAAGTTGTCCTGGGCCGCATGTGGCCCACCAGCCATGGTTTGG
Celera SNP ID:            hCV1592133
SNP Position Genomic:     441042
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   his(T,2)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58407):
ATTATGCCAGATTAAGAAAATGAAATCTGACTGTAAATTACTTCTCTAGGAGCAAATGATTGCTTGATTCTATTGTAGAAAATAAAAATTTTTTACTTAA
A
CCACACAAATTAAAAAATGGAACTCACTTTCACAGTCAAGAGTTACTTCTATTTTTTTTTACAGTAAATGCGCTCTTTAAGATGTTGCAAGCTCAATTCA
Celera SNP ID:            hCV11667355
SNP Position Genomic:     1078064
SNP Source:               Celera
Population(Allele,Count): cau(-,7)   afr(-,7|A,1)   his(-,7)   total(A,1|-,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58408):
GAGAGAGAAAAAAATAATTCCTAGATCTAGAGTTGGTGTGAGGCTAAAATAAGCTGCTTTTAGTATCACATTTGGCAAGTAGTAAACTCTGGATAAATAT
R
CTTTTGAATTGTGTGATTATTGTTGTTACCATTTATTGAAAGGGAATGATGAATGTAGTGAGAGAAGGAAGGAAGAGAGAGAGGGAAGAAGGGGAAAAAG
Celera SNP ID:            hCV15998079
SNP Position Genomic:     965833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|GA,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58409):
AGAGTTGACGGAGAGGGGACAGGAGGTGACTAGATTTGGAAGGAAAATTAGAAAACTTTTGGCCGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTT
Y
GGGTCAGTTGAGTCTAACATAGGGGTGTCCAAACTTTTGGCTTCCCTGGGCCACATTGGAAGAAAAAGAATTGTCTTTGGCTGCACATAATATACAATTG
Celera SNP ID:            hCV1592135
SNP Position Genomic:     440917
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   his(T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58410):
CATGATTCAATTACCTCCCACCTGGTCCCTCCTGCAACATGTGGGAATTCAAGAAGAGATTTGGGTGGGTACACAGCCAAACCATATCAAAAACCATTTA
Y
AAAACTCTAAGCAGCCTTAAAGGAAACCACCAAGGGACCAAGGCCTGATGAAGCAAGAGTAGGAGGGAACAGATGCTTGGATAGGGCAGGTGAGTCACAG
Celera SNP ID:            hCV1592136
SNP Position Genomic:     440520
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3)   his(T,1)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58411):
CAGGCAAGAAAGAACTTGTGTAGGGAAACTCTCCCTTATGATACCGTCAGATTCCTTGAGACTTATTTGCTATTGTGAGAACACCTTGGGAAAGACCTGC
Y
TCCATGATTCAATTACCTCCCACCTGGTCCCTCCTGCAACATGTGGGAATTCAAGAAGAGATTTGGGTGGGTACACAGCCAAACCATATCAAAAACCATT
Celera SNP ID:            hCV1592137
SNP Position Genomic:     440417
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   his(T,1)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58412):
GGCGACACAGTGATGGCAGAAGGTGAAAGGCACATCTCACATGGCAGCAGGCAAGAAAGAACTTGTGTAGGGAAACTCTCCCTTATGATACCGTCAGATT
Y
CTTGAGACTTATTTGCTATTGTGAGAACACCTTGGGAAAGACCTGCCTCCATGATTCAATTACCTCCCACCTGGTCCCTCCTGCAACATGTGGGAATTCA
Celera SNP ID:            hCV1592138
SNP Position Genomic:     440370
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   his(T,1)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58413):
GCTGGGGAGGCGACACAGTGATGGCAGAAGGTGAAAGGCACATCTCACATGGCAGCAGGCAAGAAAGAACTTGTGTAGGGAAACTCTCCCTTATGATACC
R
TCAGATTCCTTGAGACTTATTTGCTATTGTGAGAACACCTTGGGAAAGACCTGCCTCCATGATTCAATTACCTCCCACCTGGTCCCTCCTGCAACATGTG
Celera SNP ID:            hCV1592139
SNP Position Genomic:     440362
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(G,4)   his(A,1)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58414):
GTGGCAGAGGGAGAGGACAGTAACCAATACCGCTCCTTCTACATGATCAGTGTTCAGGTTGAAGACAAACAGGGCTCCAATTATGTTGTGATTTAGAAGG
Y
GACAGAGCTGAGACCTCACCCTCTGCTTATGGGCTGCATGCCTTTCTCAGTGAAATAACGCAGAATGCAGAGGCCATGCCTGCAGATCAGGGGTGCTAGA
Celera SNP ID:            hCV2851530
SNP Position Genomic:     1059013
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   afr(C,1)   his(T,5)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58415):
AGAGTATGTGCGCCTTCTTTTTGGTTACCCTGGACCAGACATTCCTCAGCACTGGCTTGCATTGGCAGGAGGTGGCAGAGGGAGAGGACAGTAACCAATA
Y
CGCTCCTTCTACATGATCAGTGTTCAGGTTGAAGACAAACAGGGCTCCAATTATGTTGTGATTTAGAAGGCGACAGAGCTGAGACCTCACCCTCTGCTTA
Celera SNP ID:            hCV2851531
SNP Position Genomic:     1058942
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(C,1)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58416):
TTGAGGTTCTTTCCAAGTAAAGGCGTTATTCTTTGTGGTGTGCTCCTGGAGGTCACTAACAAAACGTCTCCAGCAGGTGTTGTGTGGATTCCCCCAAATC
Y
GTAGGCTCTTATTTCCTAGACATGAAGAGTATGTGCGCCTTCTTTTTGGTTACCCTGGACCAGACATTCCTCAGCACTGGCTTGCATTGGCAGGAGGTGG
Celera SNP ID:            hCV2851532
SNP Position Genomic:     1058816
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   afr(C,1)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58417):
AAACAGCCAGCTATTCTGATCATTTGAAATCTGGAACATTCTTTCCTACGGTGGTTGACTTTTCACTGCCTTTGAGGTTCTTTCCAAGTAAAGGCGTTAT
Y
CTTTGTGGTGTGCTCCTGGAGGTCACTAACAAAACGTCTCCAGCAGGTGTTGTGTGGATTCCCCCAAATCCGTAGGCTCTTATTTCCTAGACATGAAGAG
Celera SNP ID:            hCV2851533
SNP Position Genomic:     1058745
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   afr(T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58418):
GGAGACCAGACTCCAAGTTCTGGCCTCACGTTGCTTGGTATACATCACTCAGTTCTGTTGGCATGGATGCTCCTCCTATACCCCATCAGCCATCTTGCAG
W
ATGGGTTTGGTGGATCACACAGGGATTCAGATAAGAGGGTTCAGATCCTTCTATCCATCAACCCACCCATCCACATCACTGAAAAAGGGACTCTCAGATG
Celera SNP ID:            hCV2851538
SNP Position Genomic:     1057296
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(A,3|T,2)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58419):
CTATATGATCATATGATTTTCCTTTAGCTTTTTGATATGGTGGACTATATTGATTTTAAATATTGAACCAGCCTTGAAGACCTGGAATAAATCCCACTTG
S
TCATGGCATATATGTTTTTTTATACATTGTTGGATACAGTTTGCTAACATTTTGTGGATAGCTCACCAACTTTTATTCAGAAAACATCCGTCTCAGTTTA
Celera SNP ID:            hCV2851539
SNP Position Genomic:     1056833
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58420):
GACTTCTTGTGCCTGTAGAGTTTATTCATATCACTCTTTGCTTGCTCAGCAGTTGAAATGGGATGGAGGAAAGCCCCCTAACTCCAAAAAAAAAAAAAAA
A
CTTTCTTCCCAGCCTGAGACAGTTGCCATAATTAGTAACCTGCAGCTCCCTTGATATCTTGATGATACTTTATTAAAACAAACAAACAACAAAAAACACA
Celera SNP ID:            hCV11668300
SNP Position Genomic:     551279
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(-,3|A,4)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58421):
AGAATTGGCAGGAAGGGCACAGGGGCAAGGTATAGGCTCACGTCTCCACATTCTGCACCTCCCAGGCTCCTGCCATTGATGTGAGCGGGTTCCTGTACTG
Y
ATGAAGCAGGGGTTTGCATCCGAAACAACCACCCGTGCTGAATATGTAGGTGATACGTTGATCTGTACAGCAAACCACCATGGCACACATTTACCTATGT
Celera SNP ID:            hCV11668303
SNP Position Genomic:     547930
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58422):
TAAGATCTGTCTGCACTCCTTTTGTCTGGCCTGTACCTGCCTTTTCTGAATGACCCTGTTAATTGCAATTGACTCTCATAGAATGTGGATAGCAGTGCCA
S
TTGACACCAGACTAATGCTTCTGACTTTTCCATGGTGCCCCAGCAGCAGGCTGGAGGGAAGGGCGGGGGCGGTCAGAGGAGAGATAGAGCACTTCAGATT
Celera SNP ID:            hCV11668304
SNP Position Genomic:     546030
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,4)   cau(G,4)   his(C,1)      total(G,8|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58423):
AGATACCCAGCCAATGGTCCACAGTGATGTAACTCATCAGTGGTCCACCTGACATTGGAAATTCGGTTGCTTTGGAACCTTCTACTACATCCCCTTTCCT
T
ACTCACTGACATCATTCCCAGATCAAAGAAAGATAAAAGAAGGAAGGGCTGGAGACGTTGTTTTCCTGTATGCTCCTTGATGAAGGGCTCAGAGCTAAGC
Celera SNP ID:            hCV11668305
SNP Position Genomic:     545026
SNP Source:               Celera
Population(Allele,Count): chn(-,6)   cau(-,6|T,1)   afr(-,6)   total(T,1|-,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58424):
ACATATCAGTCATTTTTTGAGGAAAATAAATTTAAGGCTTGGTTATCGGTCCTTGAGTCAGCACATTGAGCGTTTTGTCAATTAGCTCCTCCCCCCATCT
K
TATGGTATGGCTTTTCCTGTAATTACAGTCAAGATCCTATAGCCGGAGGAAGGCCTGTCAATTGAGTAAGAGGCTGATGTTCATCGCACAGTGACAGCCC
Celera SNP ID:            hCV16291153
SNP Position Genomic:     402392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58425):
GGACAACATATCAGTCATTTTTTGAGGAAAATAAATTTAAGGCTTGGTTATCGGTCCTTGAGTCAGCACATTGAGCGTTTTGTCAATTAGCTCCTCCCCC
M
ATCTGTATGGTATGGCTTTTCCTGTAATTACAGTCAAGATCCTATAGCCGGAGGAAGGCCTGTCAATTGAGTAAGAGGCTGATGTTCATCGCACAGTGAC
Celera SNP ID:            hCV16291154
SNP Position Genomic:     402387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58426):
AGGTACCTTGGAAAGACTGCATCTCCTGGATTTTGCATGGTTCTGGCTTAATGGACAACATATCAGTCATTTTTTGAGGAAAATAAATTTAAGGCTTGGT
Y
ATCGGTCCTTGAGTCAGCACATTGAGCGTTTTGTCAATTAGCTCCTCCCCCCATCTGTATGGTATGGCTTTTCCTGTAATTACAGTCAAGATCCTATAGC
Celera SNP ID:            hCV16291155
SNP Position Genomic:     402335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58427):
CTAAATTATGCCAGATTAAGAAAATGAAATCTGACTGTAAATTACTTCTCTAGGAGCAAATGATTGCTTGATTCTATTGTAGAAAATAAAAATTTTTTAC
Y
TAAACCACACAAATTAAAAAATGGAACTCACTTTCACAGTCAAGAGTTACTTCTATTTTTTTTTACAGTAAATGCGCTCTTTAAGATGTTGCAAGCTCAA
Celera SNP ID:            hCV11667361
SNP Position Genomic:     1078060
SNP Source:               Celera
Population(Allele,Count): cau(T,7)   afr(C,1|T,7)   his(T,7)   total(C,1|T,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58428):
CTAGGGTGTTGATAAGAAACAGCAGGCATAGTTACTGGGTGATTGAGAAGAGTTTAACAAAAGACTATATTAGTCTGTTTTCATGCTACTGATAAAGGCA
Y
ACCCAATACTAGGTCATTTACAAAAGAAAAAGGTTTATTGGACTTACAGTTCCTTGTGGCTGGGGAGGCGACACAGTGATGGCAGAAGGTGAAAGGCACA
Celera SNP ID:            hCV1592140
SNP Position Genomic:     440203
SNP Source:               Celera
Population(Allele,Count): cau(T,4)   afr(T,4)   his(C,1)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58429):
TAGCTAGGGTGTTGATAAGAAACAGCAGGCATAGTTACTGGGTGATTGAGAAGAGTTTAACAAAAGACTATATTAGTCTGTTTTCATGCTACTGATAAAG
R
CATACCCAATACTAGGTCATTTACAAAAGAAAAAGGTTTATTGGACTTACAGTTCCTTGTGGCTGGGGAGGCGACACAGTGATGGCAGAAGGTGAAAGGC
Celera SNP ID:            hCV1592141
SNP Position Genomic:     440200
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(G,4)   his(A,1)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58430):
GGATTGATACTAGCTAGGGTGTTGATAAGAAACAGCAGGCATAGTTACTGGGTGATTGAGAAGAGTTTAACAAAAGACTATATTAGTCTGTTTTCATGCT
W
CTGATAAAGGCATACCCAATACTAGGTCATTTACAAAAGAAAAAGGTTTATTGGACTTACAGTTCCTTGTGGCTGGGGAGGCGACACAGTGATGGCAGAA
Celera SNP ID:            hCV1592142
SNP Position Genomic:     440190
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(A,4)   his(T,1)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58431):
CTTTCTGTTATAAAATCATGTTTTTATTGAATTACATTTTAATATTGGTATCACTTTAAAATGAAAATGAGTACTTGCAAAATGTATTTTTGAAGGAGTT
K
GGTGGTGGTGGGGGGATGCCATTTTGGCAACAGATGACTTCGGTTCAAGTCCTCTCTCTGTCTCTTACTTGCTTTGTGGCTTTAGACCAGCCACCCACTC
Celera SNP ID:            hCV1592143
SNP Position Genomic:     439888
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   afr(G,3)   his(G,3|T,1)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58432):
TTTTTTTTCTTTTTCCCTTATGCATTTGGGAGTGGAAGAGCTGTCAGATTCTGAATTTAGTTAGATTTATAATGCTAGAGACATTCAGCAGTCTGCCTTT
Y
CCTTTCTGTTATAAAATCATGTTTTTATTGAATTACATTTTAATATTGGTATCACTTTAAAATGAAAATGAGTACTTGCAAAATGTATTTTTGAAGGAGT
Celera SNP ID:            hCV1592144
SNP Position Genomic:     439786
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(C,3)   his(C,3|T,2)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58433):
CTACAATAACTTTTTCAGTCTCTTTCTCCCTTTCCCACCTTCCCAAAAGGGTGGGAAATTTTTAAAGTAAAGTAATAAACAAATAAGTTTTGGGTTGGGC
R
GGAGATTAGTTAGAGACAGGATCTGTAGGTCAGAAGTGGTATTTGGGGGAGTAGGGAGTTTTTTTTTTTTTTCTTTTTCCCTTATGCATTTGGGAGTGGA
Celera SNP ID:            hCV1592147
SNP Position Genomic:     439621
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   his(A,2|G,3)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58434):
GCACAACTGAACTCCAGCCTGGGCGACAGAGGAAGACTCTGTCTCAAAATAAACAAACAAATAAATAAATAAAAATTGTTTAAACCTGCCAACTACAATA
W
CTTTTTCAGTCTCTTTCTCCCTTTCCCACCTTCCCAAAAGGGTGGGAAATTTTTAAAGTAAAGTAATAAACAAATAAGTTTTGGGTTGGGCGGGAGATTA
Celera SNP ID:            hCV1592148
SNP Position Genomic:     439529
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   his(A,3|T,2)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58435):
TTTTTGATTTGGTTTGGTTCTTTGGAGTTGTTTGCATTTCGTGAGTCTTGGCATCTTTTTGGTAGAGAACCTTGCTAGGTTCTCACAATGTAGAAATTAA
R
CAGAAAACAGAGGTCTCAATTTGCCTTTTCAGCGTGAATGCAGACTCTTACATTCAGTGCTGGGAGTCTTTCTTGAGGGACAGTGAGAGCGAGGAAGGGT
Celera SNP ID:            hCV1592149
SNP Position Genomic:     438785
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   his(A,1)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58436):
TACTAAGAAACTTTTGAAAATGATAATGGGTGTGTACTTTTTATCAACTGCTTTTTGTATGCCAATCTATATGATCATATGATTTTCCTTTAGCTTTTTG
R
TATGGTGGACTATATTGATTTTAAATATTGAACCAGCCTTGAAGACCTGGAATAAATCCCACTTGGTCATGGCATATATGTTTTTTTATACATTGTTGGA
Celera SNP ID:            hCV2851540
SNP Position Genomic:     1056767
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58437):
GATTCTTCTCAATTCCTAAATTACTAAGAAACTTTTGAAAATGATAATGGGTGTGTACTTTTTATCAACTGCTTTTTGTATGCCAATCTATATGATCATA
W
GATTTTCCTTTAGCTTTTTGATATGGTGGACTATATTGATTTTAAATATTGAACCAGCCTTGAAGACCTGGAATAAATCCCACTTGGTCATGGCATATAT
Celera SNP ID:            hCV2851541
SNP Position Genomic:     1056746
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58438):
TTTATTTTTGTTTGTATTTGTTAGTTTTTTTGAGATTTCTTGGGATTTTCTATCTAGCCTGTCATGTCATATGCAAATAGAGAATTTTATTTCTTCCTTT
R
TAATATGTGTGCCCTTTTTTTATTGCCTTATTGTAGTGGCTAGAACTTCCTGTGCTATGTTGAACAAGAGTAGTGAGAACATCCTTGCCTTGCTCCTGAT
Celera SNP ID:            hCV2851542
SNP Position Genomic:     1056456
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58439):
GTTTTTTATTTTTGTTTGTATTTGTTAGTTTTTTTGAGATTTCTTGGGATTTTCTATCTAGCCTGTCATGTCATATGCAAATAGAGAATTTTATTTCTTC
Y
TTTATAATATGTGTGCCCTTTTTTTATTGCCTTATTGTAGTGGCTAGAACTTCCTGTGCTATGTTGAACAAGAGTAGTGAGAACATCCTTGCCTTGCTCC
Celera SNP ID:            hCV2851543
SNP Position Genomic:     1056452
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58440):
GCCTATCATATAGGAATGATAGAGGCAGCACAGTGCTGTAATGGAAACCATAAGGGCACGCACAATGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGC
M
GAGGCGGGAGGATCACATAAGACCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAACTACAAAAATAGCCAGGTGTCCTG
Celera SNP ID:            hCV480774
SNP Position Genomic:     276973
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,2)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58441):
CATAAGACCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAACTACAAAAATAGCCAGGTGTCCTGGTGCATGTCTGTAAT
Y
CCAGCTACCTGGGAGGCTGAAGCATCAGAATCGCTTCAGCTTGGGAGCTGGAGCTTGCAGCCAGCCAAGATCACACCACTGCTCTCTATCCTGGGAGACA
Celera SNP ID:            hCV480775
SNP Position Genomic:     277089
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58442):
TTCTTTGGAGCGATTGTAAATGGCATTGTGTTTTTAATTCCAACTTCTACATATATCTAGAAATATGATTGAGTTTTGTGTGTTGATCTTGATCCTATGA
S
CTTGCTGATTGCATTTATTATAAAGTTCCAGGAGTTTTTTATTTTTGTTTGTATTTGTTAGTTTTTTTGAGATTTCTTGGGATTTTCTATCTAGCCTGTC
Celera SNP ID:            hCV2851545
SNP Position Genomic:     1056318
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58443):
TGGGTATCTTTCTGGCTTCTTTATTCCACTGATCTATGTGTCTGTCTCTCTGACAATTATACGCTGTCTTCATTACTATAGCTATGTAGTAAGCCTCATG
Y
CAGGTAGAGTGATTCTTCTCACTGTATTCTTTTTTATTAAGATTATTTTAGCTTCCTAAGACCTGTGCTTTTTCATATAAATTGTACAATATGGTTGTCT
Celera SNP ID:            hCV2851546
SNP Position Genomic:     1055932
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58444):
GCCTAGGAACATCTCATTGTTTTAGCACCATTTGCTGAAAATGATCTTCCTCCAGAGAATTTTTTTACCTTTATTCAAAATGAATTGAGCATGTTTGTGT
R
GGTATCTTTCTGGCTTCTTTATTCCACTGATCTATGTGTCTGTCTCTCTGACAATTATACGCTGTCTTCATTACTATAGCTATGTAGTAAGCCTCATGTC
Celera SNP ID:            hCV2851547
SNP Position Genomic:     1055833
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58445):
TGAACTCCTGGCCTCAAAGCGATCCTCCTGTCTCAGCCTCCCAAAGTGTGGAGATTACAGGCATGAGCCACTGCACACAGCCAAGGTCAGCTTTTTCACT
Y
CAGCACACCAGGATTTTCATCCCAGCTCTCCAATCCCCCAGCTGTGTGGGCCTGGTCAACCTGTTTAGCCTGTCAAGACTTCAGTCCCTTCAACTGATAG
Celera SNP ID:            hCV2851548
SNP Position Genomic:     1051664
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4|T,2)   his(T,2)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58446):
TACAAAAACTGTTACCGCCTAACACATTAAATGTATTTAAATTATTTGTTCTATTAAAATGTCAGTGTATTTCTTGAATTTTAACTGTGCCTGAAGATCA
R
TCATTGTAACAGCTGCAGGGAAGGCTTTATGACTTACCTGAACGGTGGTGTATTCTGTGGCTCGGCTAAGTGGATTCTTCGACTTTAATAGATTTTACTA
Celera SNP ID:            hCV2851549
SNP Position Genomic:     1050842
SNP Source:               Celera
Population(Allele,Count): cau(A,2)   his(G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58447):
CAAGGTGTTGATAGAACCCCTTAGTGTCCTCCTCATACCACAGACACTCTCTTCCCCCACTTACTTGGCCAATTTTTTTTTTTTTTTTTTTTTTTTTTGG
K
GGAGTCTCGTTCTGTCTCCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCCCTGCAACCTCTGCCTCCCATATTCAAGGGATTCTCCTGCCTCAGCCTC
Celera SNP ID:            hCV11668312
SNP Position Genomic:     540016
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(G,2|T,3)   his(T,3)   total(G,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58448):
GAAATGACAGTGATTGGAGGTGGTTTATTTTTTTTTAAGTCTGCTTACTCGGAAAAATAAAACAAAGTTGACAACCTGATTTCAGACCTCCCAATTTTTT
S
TTAAAAAAAATAAAAGTCTTCTTGGTCCATGAAATCCAGAAACTGGAGACCAAACTAGCAAATTCGCAAGGAGCTGCTTGATAGAAAAACACTTGAGATC
Celera SNP ID:            hCV11668313
SNP Position Genomic:     539461
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5)   afr(C,5)   his(G,1)   total(G,1|C,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58449):
TGGATGGTTTAATAAATAAGATTGATACAAACACAAAGCATTAAGCAAACAAAAGGAAATAAAAACGGCAACAAATAAAACTTCTGTGCTTTTTGAAATT
Y
TGTTTTTGGCAGGCAACATTCCAAAGATCTTTTTCATTTAAAGTCCAGGAGTCTTCTGTGTGAACCCCACACAGGTACCTTGGAAAGACTGCATCTCCTG
Celera SNP ID:            hCV16291162
SNP Position Genomic:     402162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58450):
ATTATTCCTTAAACAATCCAACATAACCACTATTTATATCGTGTTTATATTGTATTAGGTATTATAAGTAATCTAGAGATGATTTAAAGTGTACAGGAGC
R
TCACATACATTATATGCAAATACTATACAATTTTATGTTAGGGACTTGAGCATTTGTGGATTTTGGTATTTGGGGGGGTTCCTTGAACCAGTCCCCTTTG
Celera SNP ID:            hCV11668315
SNP Position Genomic:     538519
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,4)   cau(A,6|G,4)   afr(A,6)   his(A,6)      total(G,8|A,18) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58451):
TGATGTAGGAATGAACAGATGAACAACCCCACACAACCTAAGGACAACTTTGAATCAATTCTTCTAAGCTGGTAGCAGAAGCCACCTTTCCATTTGACTT
S
TATCTCGCTCTTTTTTTCTTTCTTTTTTTTTTTTTTGGAGACAGAGTCTCACTCTGTTGCCTAGACTAGAGTGCAGTGGTATGATCTCAGCTCACTGCCA
Celera SNP ID:            hCV16291163
SNP Position Genomic:     434874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58452):
GTGTGACTAATATTAGAAGCAGACACAGCCATGATGAGCAATACTCTTTTTTTGTTTATTTTTGTTGTTACTGCTGTAAGCCACTTTCTTCTCCCTCTCC
R
TTAAAATGCAACTTAATTGGTAAAGTTTAGTTGACTAGAGATTTCATTTATTTATTTATTTATTTATTTATTTATTTATTTGTTTGTTTGTTTGTTTGAG
Celera SNP ID:            hCV16291164
SNP Position Genomic:     431944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58453):
CTTGATAAAGGTTGGGGTTTGTAAGCTTGGGGCTCCTCAGCCATGACTGAAACGTACTATGAGCACGGCATCTACCGGGCTGTTCCACATCCTCCCTGTG
K
GACTAGGGGCCAGGGCAATGGGAATCAGTGCAGAAATAAAGCTCATGCTGTTTGCTCTGCCATGAGTAACGAAGTCCTCTGTATCTGATCCTGGGTCTCC
Celera SNP ID:            hCV25963314
SNP Position Genomic:     177991
SNP Source:               Applera
Population(Allele,Count): afr(G,34|T,2)   cau(G,34|T,2)   total(G,68|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:58454):
ACAGTTGTATTCCTAAGACATAGTTGGGACCAGACCTCAAGAAAATAGCCAACAAATACTGGGTGAATGAACGAAAGAGGCCATATGCAGTCAGCCCCCC
T
CTCTCTGGGTTCTACATATGTAGATTTAACTAATGACAGATTAAAAGCATTCGAACAAACGGAGGGTGGTATCTGTACTGAAAATGTACCAACTGCTTTT
Celera SNP ID:            hCV11668317
SNP Position Genomic:     538311
SNP Source:               Celera
Population(Allele,Count): chn(-,2)   cau(-,2|T,4)   afr(T,4)   his(T,4)   total(T,12|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58455):
CCTGCAATTCTTTGTACATATGAAATTTAATATGGTGAGATTGGCATCTAGCTGCTGCTAGAGATAGTGCTCATAATAATTTTTAACATTGATTGAGTGT
R
GATAATAATCCAGGAGCTGTGCTAAACGTTTTACAACACATTATCTCACTTAATTTCACAACTCCATAAAGTAGTTTTCACTTAGTTGAGGGATGAAAAA
Celera SNP ID:            hCV1592150
SNP Position Genomic:     438470
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   his(A,2)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58456):
CTGCCTCCTGTCCCTATCATTGATACCTGCAATTCTTTGTACATATGAAATTTAATATGGTGAGATTGGCATCTAGCTGCTGCTAGAGATAGTGCTCATA
R
TAATTTTTAACATTGATTGAGTGTGGATAATAATCCAGGAGCTGTGCTAAACGTTTTACAACACATTATCTCACTTAATTTCACAACTCCATAAAGTAGT
Celera SNP ID:            hCV1592151
SNP Position Genomic:     438445
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   his(G,2)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58457):
CTGGCAGGGGATGCCCGTGACCCCTGAAACCCTAAAAGGAGTGTTACAGTCAGTGCTCTTTTAGTTTTGCCATCCACGGACGGCTTAAGTGTTAACAGTT
S
AGTGGAGGGTCAGCGTGACAGCCTTTTGCACCCACATCTGGGTTCTTGTCCAGTGTCCAGGAGGAATGAGGTCTCATGAGCAAATTTTAAGGATGGCAAA
Celera SNP ID:            hCV1592152
SNP Position Genomic:     437882
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,1)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58458):
AAGTATCACTTATCCTACGTTCCATGTAAGATCTCTTTCCTAGGGTAAACTTGATATGGAAGGTCTTCACAGATTAAAACGAAGGAAAAAAAAAAAAAAA
A
CTAGATAAATCTCCCTGGACATGAACTTTTGTAGAAGTAGTTACAATGCTAGTGACCTCATATACTCATGGTAACGGCTTCCGGCATCCAATGACCTTGC
Celera SNP ID:            hCV11667374
SNP Position Genomic:     1072611
SNP Source:               Celera
Population(Allele,Count): cau(-,4|A,3)   his(A,3)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58459):
TGAAGCAGGAAATTTCCCTGACCCCTTTGCAGGCAGGAAGTGGAGTGCGGATGCTGGAACTAGCTGGCTGCTTTGGTGCCAGTAGAGGTGAACTGCACTC
W
CTTGAACCCCCTGCACTCCACCCCTTCTGGGAGGAAGCATGCAGGTGAGCAGGTGCAGGAGCCAGGGTAAATGCTTTTGGGCACTGGCAGGAATGAACTC
Celera SNP ID:            hCV1592153
SNP Position Genomic:     437659
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|T,3)      total(A,1|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58460):
CTTAATCTCCCTTTTCCATGGGCCCAACACCTGAATCTAGGGCAAACAGGTGTCCCCCAGATTGGATCCTCTGCTCTAGGACACATTCTTGTCCTAGAGC
R
GGTTGGGCAAGAGGCTTTTCTCTCAGTCACCAGCCCCAAACCCTGTGGTCTTGCCAGCCCAGGACGTGTCAAGACTGCAGCCTTTGCTGACCTGTGACCA
Celera SNP ID:            hCV1592156
SNP Position Genomic:     434219
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,7)   cau(A,7)   afr(G,1)   his(A,7)      total(G,1|A,21) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58461):
TATAATTTTGATGAAAGAAGTTTCCCAACAGTATTTCGGTGTGCATGCTCACACACCAGCCCTGGTCGTCAGTGAACAGATTCTTCCAGGTCTTCATTGT
R
GCGGAAGAAAGTGAGATCAGAGATCCCGAGGAAGGGCTTCAGTTTCACCAGTAGTGGAGCTAGGGAGTAGGGGGGCAGAAGCCGCAGGAAGTCAGTGCAG
Celera SNP ID:            hCV1592157
SNP Position Genomic:     433730
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,6)   cau(G,6)   afr(A,1)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58462):
TGCTTCTGACACCCAGTAAGCAGCTCTGGCTTTTATAATTTTGATGAAAGAAGTTTCCCAACAGTATTTCGGTGTGCATGCTCACACACCAGCCCTGGTC
R
TCAGTGAACAGATTCTTCCAGGTCTTCATTGTGGCGGAAGAAAGTGAGATCAGAGATCCCGAGGAAGGGCTTCAGTTTCACCAGTAGTGGAGCTAGGGAG
Celera SNP ID:            hCV1592158
SNP Position Genomic:     433697
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(G,6)   afr(A,1)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58463):
GATTGGAACATTGTATTTTATGGTTGCAGAGCACACGTATCATCCTATCTGCTTCTGACACCCAGTAAGCAGCTCTGGCTTTTATAATTTTGATGAAAGA
R
GTTTCCCAACAGTATTTCGGTGTGCATGCTCACACACCAGCCCTGGTCGTCAGTGAACAGATTCTTCCAGGTCTTCATTGTGGCGGAAGAAAGTGAGATC
Celera SNP ID:            hCV1592159
SNP Position Genomic:     433648
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6)   afr(G,1)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58464):
CCAACCTTTTTGCTGGCTCTCTTTCAAACTGTACTGCTCACTTTGGGCTGTACGTTAGAACCACCTGAGAAGTTCTTTTTCTTTCTTTTTTTTTTTTGAG
R
TGGAGTCTTCCTCTGTCACCCAGGCTGGAGTGCAGTGGTGGGATCTTGGCTCACTGCAACCTCTGTCTCCTGGCTTCATGCCATTCTCCTGCCTCAGCCT
Celera SNP ID:            hCV15912003
SNP Position Genomic:     409205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58465):
GGCTGCAGCAGTGTCTAGGTATCTGTGAATGTGTAAGAAATTGAGACAGCCTGCAAAATAGCTCACCCAGCTTTTCTTTAAAGTTCCAACCTTTTTGCTG
S
CTCTCTTTCAAACTGTACTGCTCACTTTGGGCTGTACGTTAGAACCACCTGAGAAGTTCTTTTTCTTTCTTTTTTTTTTTTGAGGTGGAGTCTTCCTCTG
Celera SNP ID:            hCV15912004
SNP Position Genomic:     409120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58466):
TTTGGGAAGTTCCCAAATCTGTCAGTATATATTACAAAAACTGTTACCGCCTAACACATTAAATGTATTTAAATTATTTGTTCTATTAAAATGTCAGTGT
M
TTTCTTGAATTTTAACTGTGCCTGAAGATCAATCATTGTAACAGCTGCAGGGAAGGCTTTATGACTTACCTGAACGGTGGTGTATTCTGTGGCTCGGCTA
Celera SNP ID:            hCV2851550
SNP Position Genomic:     1050810
SNP Source:               Celera
Population(Allele,Count): cau(A,2)   his(C,1)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58467):
TGTGGGCCCTTCTCTTTCCTCGTGATGCACGGTGATAGTGCGTATCTAACACTTGAAGGTGTCCACGCTGGCCCTAGCTCAGTGAGATGGCTTTGCTTTG
S
GGGGGTGAGGGGGCGGAGGTGGTGGAAAGGCAGCAAGCTACGATGTTCTTATGTGTGTGGCCTTGCTTCTGGTGGTGGGGTGGCACACATGCTCTGTAGT
Celera SNP ID:            hCV15912005
SNP Position Genomic:     406858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58468):
CATCTGGGAAGAGGTAACATTGATCTTAATTGTTATTAGAGAGAATTTTCAATTTCAGTTGTAGCATGAAAAATCACAGAGTCCATTTATTTCTCCTCTT
Y
GAGTCAGTATATCTCAAAACATTTTTTCAACGTTAATAGAAATATAAGAAGTGCCTGGATCAGTTTTTGTTTTTGTTTTGTTTCTTTTTGAGATAGGGTC
Celera SNP ID:            hCV2851551
SNP Position Genomic:     1050073
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58469):
AACACATGACAGTTTCTTGTTCATATTTGGCCAGAAGGAAGCAGTGTCCATTAGGTTGACTCTCCAGTGCTTCTTGGTGTTGTGATAAGCCCGTCTAGCA
Y
GGAGGGCCAGAAGGAAGCAGTGTCCATTAGGATGACTCTCCATTGCTTCTTGGTGTTGTGATAAGCCCGTCTAGCACGGAGGGCCAGAAGGAAGCAGTGT
Celera SNP ID:            hCV2851552
SNP Position Genomic:     1049180
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58470):
CCTTTGTTTTTGTTGTCATCGTTTTATGATTAACTTATATCTGGTCCTTTAGACATTTAGATTTTTTCTGTTTTATCTCTCTCTCTCTATATGTATATCT
R
TATATATATTTATCTATATCTATATAGATATATATATATATATATAAAATAATGAATGAAATGGACTGTTTGCAACCTCAGATGTATTTCTAGGACTTAG
Celera SNP ID:            hCV16101623
SNP Position Genomic:     136865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58471):
CGTGGTCACTTGCTTGCACACACTTGTTTAGATGTCTCTGCCCTGCTGTTAATTAGACTGTGAGCCTCCAGAGGGTGAGACTGACATCTCATTTCTCTTT
K
CAGTCACAGCAGAGATGCAGGCCCACAGTAGGGACTCACCAGATGTGGCAGGGTGAGGGAATTGTCCATAGATGCCTTAAAGATATGCTATCCACAGGAG
Celera SNP ID:            hCV2851555
SNP Position Genomic:     1046230
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,1)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58472):
TTGGAACAACTGCCTCACTCCTGTGGCCCCACTGTGCCATAGACAGGTTAGAGAACATGGGCCCTGGCATCAGACCTGGCAGGCAGTCTTGATTAGGCCC
S
TTATTAGGGTGCTCTGGGCAAGTAAGTTTACCTGTGCCAGGGATGCACCTTTTTAACCCAACACTTAGAGGGGTCCTCCATGTACAGCCATGATCACAAC
Celera SNP ID:            hCV2851556
SNP Position Genomic:     1046022
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(C,2|G,2)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58473):
CCTTGTGATTGAAAGCCCAAGCCCTGTGATCCACAGCAGGGGCCACAGCCAGAAATAATTCCCCGAGAATACTGCGTGTGCCTTCAAATGGTCCTTGATC
R
TTTTTCTTGGATGCCCCACTTTCCAAAGGCCAGAAATTGTTTCAGGGAGTCATTCCAGTTGGGGAAGGTTTTATGTTCTAAGAGCAAGGTGCTGTACTCA
Celera SNP ID:            hCV2851557
SNP Position Genomic:     1045614
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,2|G,2)   his(A,2)      total(G,2|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58474):
GGTAAAAATAATTCTAGATGAAGATAGACCCGTTTACATTCCAAGGAAGGGAAATGTTTTACCCAAACTGTTTCCATGGACCCTGTGGGTTCTTGTTAAT
R
CTGTTCAACCTTGTGATTGAAAGCCCAAGCCCTGTGATCCACAGCAGGGGCCACAGCCAGAAATAATTCCCCGAGAATACTGCGTGTGCCTTCAAATGGT
Celera SNP ID:            hCV2851558
SNP Position Genomic:     1045505
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,2|G,3)   his(A,2)      total(G,3|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58475):
GGCCCTGATGTCACTTCTTAGGCTAATTTCTGTGAAATTGTGATTGGGAGGAAAAAGTGAACAGGAACTTAAAGCCAGCAGAGGAAAGCTACCTGCCCTT
S
ACTGGTGGTCAGTGCATGGATTCCAGAGACAGGGTGGGCACCAGTTCCTCACCGGGTCCTTTCTAGTTGCATGACCTGGGGCAGGTGACTTTATGTGGCT
Celera SNP ID:            hCV2851559
SNP Position Genomic:     1044071
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,3)   his(C,2)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58476):
GGTCTTCTGAAGTATAGGAAAAGGCAGCTTACAGAAAAAAACTTGCTTGTTTACTGTCTTCTGAGCTGATTTCTCACCTACTGGCAAGTGGATAGGTCTA
S
TTTTTGTTTAGCTGTTTTTCTAATTTAATCTTGTACATGAGACAGCTATAGATGGATGTATAGTCTTTGAAGTGGGGCCAGTTGGCTCCGTCTATTAGCT
Celera SNP ID:            hCV16291171
SNP Position Genomic:     426626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58477):
TAGTGTTGGCAAAAGGCTTGCAATTTATTATTAAGTGGAATAAGCAGTTTAAAAACAGTATGTACAGGGTGGTTTTCTGGCTATATAAACACACAGGCAT
W
GAAAATAGATATACATAAATAATGTTACTATAATTTGTCTGCCTCCCTTCTCTCAGAAAAGACCAATGAATTATCTATTATGTGCCACTCACTATTTGAG
Celera SNP ID:            hCV16291172
SNP Position Genomic:     422360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58478):
TTTTTCTCCTTGGCAGGTTTTCACTATTAATTTGCTTGACAAAGGATAGATACATTTTCCATGTGTGGAGGTAAAAGCAGTGCAGTGAGCTAAAAAGTTA
R
CAAAGGTGAAGTGGTCCTAATCTGCGGCCCTGGTACACTTAGATAGGCATCATTGCCTTTCCTCTGAGCTCTTGGTGCTGATAACAGCTTCCTTGACCGA
Celera SNP ID:            hCV16291173
SNP Position Genomic:     422085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58479):
GCTAAGTTACAGCAGGTGAACTTGAATTTGAGGAAAGACAAAGCAAACCCTGGCTATTAAAGGAACACACACACACACATACACACACACACACACACAC
M
CGTTTCTGGTATTAGGAAATGGAGATTTCTAACATAATAAAAAAGATTGAACTTAAAAATGACTTCCATTAAATAGGGTAAGAATTTTGAGGTGGAATCC
Celera SNP ID:            hCV15790673
SNP Position Genomic:     857978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|AC,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58480):
GCACCACTGCTCGCATTCCCATGTTGGAGTTTTCCCTTTGGGGTTCTTATGCCATTTTAAAGACTCTGAAAACAGGAAGACTTTTTCTCTTGGGTATTTT
W
TTTTTTTTTTCCTCTGCAAGGGATGGGGTCATAAGACATTGGTGAGGTTAGGCCTTCCTTTGTCTCCCAGGAGCACACTTGATAGCAATGTAGGGTGAAT
Celera SNP ID:            hCV11668328
SNP Position Genomic:     536666
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58481):
AGAAAGTATAATTCTTTTTCTTCTAACTGGAGATATAAAAATCATATAAGCATGATTTATGATTTGATTGGAACATTGTATTTTATGGTTGCAGAGCACA
Y
GTATCATCCTATCTGCTTCTGACACCCAGTAAGCAGCTCTGGCTTTTATAATTTTGATGAAAGAAGTTTCCCAACAGTATTTCGGTGTGCATGCTCACAC
Celera SNP ID:            hCV1592160
SNP Position Genomic:     433583
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,9)   cau(C,9)   afr(T,1)      total(C,18|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58482):
CCCCCCCCAGCTTCCCCACCTGTAAAATGATTTGCTCAAAGTTTGCAAAGAATGGAGGCATATTCAAAGTGCTCAGCACTGGGCCGGACCCATGGGTATG
M
ATTCATAATGATCAGCTTCATTCTCTCCCTTTCCCTCTCTCTCCACACCTTTCCATTCCTCCTAACTAATGTGGGAGAGAAGAGAAAATTACAGTGAGAG
Celera SNP ID:            hCV16131716
SNP Position Genomic:     903908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58483):
GCTTTAAAAAAAAAAAAAAAGGGCAAGGGGAGGTGTGAGAAGAAAGTATAATTCTTTTTCTTCTAACTGGAGATATAAAAATCATATAAGCATGATTTAT
S
ATTTGATTGGAACATTGTATTTTATGGTTGCAGAGCACACGTATCATCCTATCTGCTTCTGACACCCAGTAAGCAGCTCTGGCTTTTATAATTTTGATGA
Celera SNP ID:            hCV1592161
SNP Position Genomic:     433543
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,9)   cau(G,9)   afr(C,1)      total(G,18|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58484):
ATCTTGGCAGATACTTAGCTGAATTCCATCGATTTAGTGATAAAATGGGAACAGTAGTAATGGTGCAGATTAGAGAAAAAAATGTGATTTGTGCATTCAT
W
TGTCTGTGTGTACATATATGTATATGTTCTGTGTATATGTAGACATGTATAGATGCATGTGTGTACGTATACACGCACACATACATAAATTGTGTACATA
Celera SNP ID:            hCV11667383
SNP Position Genomic:     1068230
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58485):
GATTAAATACAATGATGTAACCTACTTGAAAGTGTCATATAAATTCTGAGGTGAAGTGGAGGCATTATGGATGCATTTTATTTTGTTTTATTTTATTTCA
Y
TTATTCTTTTTTTGAAGAGGTATGGGTCAAGCAGATCTGCAGCCCACACTCGGCTCACTGATCACGTCCCATACAATCTTGGCAGATACTTAGCTGAATT
Celera SNP ID:            hCV11667384
SNP Position Genomic:     1068054
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,2)   his(T,2)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58486):
AGCTGCAGGATCACTTGCTTTAGATGGAATCACCCAGCGGATGGCGTTTAACTCTGCTTTAAACCCCTTCATGGCTTCCCACCACACTTACAAATACAAC
T
CCTTATCCTGTCAGCAGGGGCTTGCTTAATCTGACCCTTTCCACATATGCTGGATCACTTCACGCCTCCCTGTTCTTTCAATTCCTTGAACACACCAAGT
Celera SNP ID:            hCV11667388
SNP Position Genomic:     1065952
SNP Source:               Celera
Population(Allele,Count): cau(-,4|T,4)   afr(-,4)   total(T,4|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58487):
GCAGCTGCAGGATCACTTGCTTTAGATGGAATCACCCAGCGGATGGCGTTTAACTCTGCTTTAAACCCCTTCATGGCTTCCCACCACACTTACAAATACA
T
CTCCTTATCCTGTCAGCAGGGGCTTGCTTAATCTGACCCTTTCCACATATGCTGGATCACTTCACGCCTCCCTGTTCTTTCAATTCCTTGAACACACCAA
Celera SNP ID:            hCV11667389
SNP Position Genomic:     1065950
SNP Source:               Celera
Population(Allele,Count): cau(-,5|T,3)   afr(-,5)   total(T,3|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58488):
TACGTTTTTCTATTTTGTCTGAACTAGCCAAGGTCTCTGGAGTTTGCTGTTATATTGCTTCAGAGAAATTAGTGACATTGAAAGGCTGTTGTCTTTTTTA
K
TGTACTTTTGGTTGTTAGGAGAAATTTACAAGGCCATTTTTTTCTCCCGTCTCTGCAGTTCAGGAGATTATATTAGAAAATATTCTATACAAAAAATATG
Celera SNP ID:            hCV16082412
SNP Position Genomic:     467655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58489):
ACAAAGCATCAGGGGGCCGGGAGCAGTAGCTCACGCCTGTAATGCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACAAGATCGGGAGATCGAGACCAT
Y
CTGGCTAACATGGTGAAATGCTGTCTCTACTAAAAATACAAAAAGAAATTAGCTGTGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGA
Celera SNP ID:            hCV15912012
SNP Position Genomic:     405629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58490):
TCCATGACACTGGTCTGCACAATGAGTGTTTTTGTATATGAACCGAAAAACAGGTAGCAAAAGCAAAAATAGACAACTGGGATTACAACAATCTAAAAAA
Y
TTCTGTACAGAAAGGAAGCAATGAACAGAGTGAAGCAGCATCCTACAGAAAGAGAGAGAATATTTGCAAACCACACATGTGATAAGGGATTAATATTCAA
Celera SNP ID:            hCV15912013
SNP Position Genomic:     405109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58491):
ACAGTGTAAAATTAGTAGAAGAAAACAAGGAGGAAAGCTCCATGACACTGGTCTGCACAATGAGTGTTTTTGTATATGAACCGAAAAACAGGTAGCAAAA
R
CAAAAATAGACAACTGGGATTACAACAATCTAAAAAATTTCTGTACAGAAAGGAAGCAATGAACAGAGTGAAGCAGCATCCTACAGAAAGAGAGAGAATA
Celera SNP ID:            hCV15912014
SNP Position Genomic:     405071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58492):
TGAAGGGACTTGGGGCTCAGAGAAATGAAGTAACTCAGCTAAGTCTGTACAGTACTTAGCCAGGGGATTTAGAAATCCACCCAGGGATGGCTCCAGTTGC
M
TGTTTCTTTTCATTTGACACGGGATGGCCTAATGGGTCCCCACCAGGGGTGGCTTGGAAAGGAGAAAGCAACTGCATTCCCACTGGAAGGTGTTCTGTAG
Celera SNP ID:            hCV2851560
SNP Position Genomic:     1042247
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58493):
AAGTCCTCAAGAAGAAAAATTTAAGGAGCAAATATGTGAGCCAGGATCTCATGCTGGACTATCTAAGCAAGCATGTAGGAAGAGTTTGTTTCTTCCTGCT
R
TGGCCATAGAGGTTTGGTTGTCACTATGAAGAATGGGCCTGTGTTTTTTTTTAAAAATATGCTGATCTGGGTGAGGTCACATTTTGCTATTCTCAGTGGA
Celera SNP ID:            hCV2851561
SNP Position Genomic:     1041494
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(G,3)   afr(A,1)   his(G,3)      total(G,6|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58494):
TTTATGATTAACTTATATCTGGTCCTTTAGACATTTAGATTTTTTCTGTTTTATCTCTCTCTCTCTATATGTATATCTGTATATATATTTATCTATATCT
R
TATAGATATATATATATATATATAAAATAATGAATGAAATGGACTGTTTGCAACCTCAGATGTATTTCTAGGACTTAGAGTGATTAGCTTGAGGCGATGG
Celera SNP ID:            hCV16101633
SNP Position Genomic:     136887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58495):
AAGAAAAATAAAACGTGGTGAACGCCCATGATTGCAACTAGGAGACTGTTATGCTTATGGTTGTTAAGATTAGAAAGAAGGAAGCTTTAACCCTATCTCT
R
ATTTCTTACTTTTCTCTGTCTATGTAGAAGTTGATGTTGATACGTGTCTACATAAATATTTACTAAGGGCTTGCATTAGTCTTGGGACCAAGGATATAGT
Celera SNP ID:            hCV16101634
SNP Position Genomic:     71011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58496):
AGAAGGAAGCTTTAACCCTATCTCTGATTTCTTACTTTTCTCTGTCTATGTAGAAGTTGATGTTGATACGTGTCTACATAAATATTTACTAAGGGCTTGC
M
TTAGTCTTGGGACCAAGGATATAGTATTAAACGAAACAGAATCCCTGCCCTCATAGGCTTACCTTCTAGGTAGGAAAAATAGACCATAATCAAGTTTAAT
Celera SNP ID:            hCV16101635
SNP Position Genomic:     71086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58497):
GTCTTAACTTTTCAAAAACAGGACATGGGTGATCAAGCAGCAGTATATCTCTTTACTCCTTGTATTAGTCCATTTTCACACTGCTTGATAAAAACATACC
S
TAGCCTGGGAAGAAAAATCGGTTTAATGGACTTACAGTTCCATATTGCTGGGGAAGCCTTACAATCATGGTGGAAGGCAAGGAGGAGCAAGTCACGTCTT
Celera SNP ID:            hCV2851567
SNP Position Genomic:     1039241
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,1)   his(C,4)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58498):
GTTAAAGTCACACTGGAAGGATATATATTGAGGCTTTATCTCTGCCATGGTGTCAGCATCAGTGAATTAACACAGGGTGTCTTAACTTTTCAAAAACAGG
R
CATGGGTGATCAAGCAGCAGTATATCTCTTTACTCCTTGTATTAGTCCATTTTCACACTGCTTGATAAAAACATACCCTAGCCTGGGAAGAAAAATCGGT
Celera SNP ID:            hCV2851568
SNP Position Genomic:     1039163
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,1)   his(A,5)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58499):
CTGCGGGTGTGTGAGCCAAGGGGGCCCTGTGACCCTTGAAATAGAAAAGGGGGAAATGGCTGCATGCCAACCGAAGAGACCACTGCATTGTTGGCCATAA
R
TGAAACTAGTGAGATGTGTGGGATATCATAAAAAGAACATTGACATAATCCTTTTTTGGATGAAGTTATATCACAACCAGAACACACAATGACCAGCAGG
Celera SNP ID:            hCV2851569
SNP Position Genomic:     1038412
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(A,1|G,6)   afr(G,6)   total(G,18|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58500):
AACAAAGAGAGATCCTGTCTCCAAGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTCTCTCGGAAATATTCCTTCAGTGTATTAGTAAAGAAGTTACTTA
K
GAGTCACTTATGCCCTTGAAGAGTGAGTGATGTATCAAAATATGTCTGTCTTTATTGTTTCACTTTCATCCTTCTTTTTTTGGAGATGGAGTCTTGCTCT
Celera SNP ID:            hCV16291180
SNP Position Genomic:     417746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58501):
GTTTTCTATTCTGGGCCTCCCTGCTTCCAGCGATAGCAAGGAGCGAAATGAGATGCTGTCTAAGAAAGGAAGGTGCTGCGATCTTTGATTACTACACAGC
Y
TCGGCAGTGTTTGTATGATTAATGAGTCCATGTTTCAGACGTTCCCATTTAATGTATTTGAGCCTTCTAACAACATTGCCTTTCATATGTTGCTGACTGT
Celera SNP ID:            hCV16291181
SNP Position Genomic:     410640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58502):
ATCCCCTTTGCAAAAGTAAGAATTGTATCGTAGCCTGACTCAGGGTTTTAGCCAACTTCTCTGGATGCTAATGCTATTCTCTTCTTTATACTTGTCTTCC
Y
TCCCAGGCACACATCCACTGGAGCTTTGCAGGGCCTATCTGCCCTTAGCCCTCCAATATCCTTTTCATTTTCTTTAATAGTTTTATTGATATATAATGTG
Celera SNP ID:            hCV16291182
SNP Position Genomic:     409748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58503):
TAAGAGACCTCTTCTCAACAGGATCCATGTTTGATCCGGGGGAATAAAGCTAGAGTTGCTTTCTTCCTTGTAATATGTATAATGACTCATGAGAGAATTC
Y
CCACTGTCTTCCCCACCTGAGACCTGAGAGGAGGAGAAGGAAGCTTGGAGTCGCTGCCCTGTGGCCTGAATTGGTCAGTGACCAATCACTCAGACCCAGC
Celera SNP ID:            hCV11668336
SNP Position Genomic:     526174
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,3)   cau(C,3|T,1)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58504):
CTTGAGCCCAGGAGGCAGAGGTTGCAGTGAGCCGACATTGCACCACTGCACCCCAGCCTGGGCCACACAGAGAAACCTTGTATCCAAAAAAAAAAAAAAA
A
AGTGACCACACTGTGGCTTTGCTGCTTTGCCTAAGTATTTCGTGAAATTGATCGTTCATTCACAATGCTCAGTGCAGTGACTTTGCCGAGCACAAGTGGT
Celera SNP ID:            hCV11668338
SNP Position Genomic:     524847
SNP Source:               Celera
Population(Allele,Count): cau(-,3|A,5)   afr(A,5)   his(A,5)   total(A,15|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58505):
GCTCTCACAGTTAGAAAACAGTGAGCCTTGGTCAAGTCTCATAAACTGTGTCTCAGTTTTTTCATTTATACAATGGCCAAAAAAAAAAAAAAGAAAGAAA
S
CACAAAACCATACCTTCTTTGCAGGGTTGTGTAAAGGAAGGTTGAACTAGAATAGGTTGAAGTCAATCACATCTCTAAGGCATTTGGCATGTAGTGGAAC
Celera SNP ID:            hCV11667393
SNP Position Genomic:     1064892
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(G,1)   his(C,3)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58506):
CACTCTTAGCTCTCACAGTTAGAAAACAGTGAGCCTTGGTCAAGTCTCATAAACTGTGTCTCAGTTTTTTCATTTATACAATGGCCAAAAAAAAAAAAAA
G
AAAGAAACCACAAAACCATACCTTCTTTGCAGGGTTGTGTAAAGGAAGGTTGAACTAGAATAGGTTGAAGTCAATCACATCTCTAAGGCATTTGGCATGT
Celera SNP ID:            hCV11667394
SNP Position Genomic:     1064884
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   afr(-,1)   his(G,3)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58507):
TACCAGTGGTGCCTAGCATGGTGTCAGGTTTATAGAGGACTAATACATATAAGAAGGAGAAAGGGAGGGAGGAGGAATTCCAGTTGTTTTTTTTTTAATC
T
AGGTACAAGTCTCTCTGTTGATTTCTAAACATCGAATGAAGATGAAGGAAATACTTAAAGCACCTAAGCACTCATAACTCACTTAGTCATTTCACTATTA
Celera SNP ID:            hCV11667397
SNP Position Genomic:     1063357
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   afr(-,1)   his(T,5)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58508):
CACTGCAGTCTTGACCTCCCAGGCTCAAGCAATCCTCTGGCCTCAGCCTCCCAAGTAGCTGGGACTATTGGCAATGCCACCATGTTCGGCTAATGTTTTT
R
ATTTTTTATAGAGACAAGGTTTCCCTATGTTGCCCAGGCTGGTCTGGAACTCCTGTGCTCAAGCCATCCTCCCACCTCAGTCTCACAAAGTGCTGGGATT
Celera SNP ID:            hCV15912022
SNP Position Genomic:     366043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58509):
GCAGTGAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGTGACAAAAAAAAAACTTTACCTGGGCTTAGTAAGTTGCCTGACTTCTCATCCTGGAGTTCG
K
ATCCCCTTGTTTCTAGAAGAGAAATCCCTCAGATGTGAAGGTGTGTTCCATGATTTTGTCGAACTTGCCCTACATACTGTTTTATTATATATTCTGCCCA
Celera SNP ID:            hCV15912023
SNP Position Genomic:     365726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58510):
GCCCTACTGCACTCCAGCCTGAGCGTGAGACTCTGACTCAAAAAAAAAAAAAAAAAAATTAGCTGGGCGTAGTGGCAGGTGCCTGTAATCACAGCTATCC
R
GAGGCTGAGGCACCAGAACTGCCTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGTGACAAAAAAAAAACTT
Celera SNP ID:            hCV15912024
SNP Position Genomic:     365581
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58511):
ATTTCCATGTTCTCCGCACAGTGCGGAGCTACTGCGGGTGTGTGAGCCAAGGGGGCCCTGTGACCCTTGAAATAGAAAAGGGGGAAATGGCTGCATGCCA
R
CCGAAGAGACCACTGCATTGTTGGCCATAAGTGAAACTAGTGAGATGTGTGGGATATCATAAAAAGAACATTGACATAATCCTTTTTTGGATGAAGTTAT
Celera SNP ID:            hCV2851570
SNP Position Genomic:     1038381
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6|G,1)   afr(A,6)   total(G,1|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58512):
AGATGCAGAGTCTTCATCTTGTTGGGCTGTGATCAAGTACATATGCTCCCCAGCAGTTCTTTGAGATTTCCATGTTCTCCGCACAGTGCGGAGCTACTGC
R
GGTGTGTGAGCCAAGGGGGCCCTGTGACCCTTGAAATAGAAAAGGGGGAAATGGCTGCATGCCAACCGAAGAGACCACTGCATTGTTGGCCATAAGTGAA
Celera SNP ID:            hCV2851571
SNP Position Genomic:     1038316
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(A,1|G,6)   afr(G,6)   total(G,18|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58513):
GCCAAGAACAAATTAACCCAGGGCAACAAGAAACAATGACTAATTAGACCCTAATGAAGTGCTGCGGTACTGGCGTCCTTCCAGATTTGACTTGTAATCG
M
CACAATGTATTACAGATGCAGAGTCTTCATCTTGTTGGGCTGTGATCAAGTACATATGCTCCCCAGCAGTTCTTTGAGATTTCCATGTTCTCCGCACAGT
Celera SNP ID:            hCV2851572
SNP Position Genomic:     1038202
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(A,1)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58514):
TCCAATTTTTCAAGCTGCTGGCCAGCTTGAGCGTATTCATATGTTACCTACGATGAATCACATCAGTGTCGGGGCCGGGAAGGTACTGCAACATATTGGC
R
CCTCACGGGAGGCTCTCAAAATGATCCAAAGTTTTTTGTTGCAGCAAAAGCTCATTCAGAAGTCTTTGGGCCATTTGGCTCAGCGGAGGCTGTCATGTGC
Celera SNP ID:            hCV16101644
SNP Position Genomic:     74413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58515):
AAACATGCTGTATTATAGTGGCAAAGATTAGAATCAGATACATCTTATGACCTTGGGCAAGTTTCTTAACTTCTTTAAACCTCAGTTTCTTCATCTGTAA
M
ATGCACATCATAATATCTCTATTCAGAGATACAGGTGGTTCTATTAAACACATCAACTCTGTGTATATAAAGTCTTAACCCATTGTGGAATAAATTAAGT
Celera SNP ID:            hCV16101645
SNP Position Genomic:     76656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58516):
AATTTCTATATAAAGTGCTTAGCATAGTGCCTGCCACTTAGACCTCAAAATATATTGTTTTCATTGGATAATTAAATATAAAATAACATACAGCATGATG
R
TTAATACAACTAATAAATAGTGCATTAGTATTATAGGCACAAAAGACAGTATGAAGTACAGCACAGATCATGAGGAGGGTAGGGTCAGTTCTACGTAAAA
Celera SNP ID:            hCV2851575
SNP Position Genomic:     1037814
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   his(A,6|G,2)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58517):
CCCTTGAGCAGGAATAAGTGAGTGGCAGAGGGGGTCAGGGATGTTAACGCAAATGGAGATCCCTTCACCCAGAAAGACACATCTGAAATGGAGAAGATGC
Y
TTTTTCCTCCTGCAACCAATAAGAGAGTGATGAAAATTATGACGCCTTGGGAAATAAGACTGCAACGTAAATGTGTGTCCACCCCCTAGTTTTCTTTTGG
Celera SNP ID:            hCV349013
SNP Position Genomic:     43530
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5|T,3)   afr(C,5)   his(C,5)   total(C,20|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58518):
CAGTGAGCCGAGATCAGGCCACTGCACTCCAATCTGGGTGACAGAGCAAGACTCTGTCTCAAAAATAATAGTAATAATAATAATAATAATAATAATAATA
R
TAATAATAATAAGAATCTGACTAAGGTTATTAACCATTAAGGTATGCTGTGCTAAGGAGCAGGGGGCCCCTTCCATCCGTAGAGGGCAGAAAGGTGCCTA
Celera SNP ID:            hCV16101646
SNP Position Genomic:     81378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58519):
CTCCTGTATCTCAGTAGGCACTGTTCAAGCATTTGAACTTCATCAAGTATCAAGACAAGTCTAAGAGAAGGTGGGGAGAGACCATCAGGGCCTAGGATTG
S
AAAACCTCCAACGCAAAATAGAGATGTAGTTTTAGCGTGCTGCCCAATATTAAAAGATTGTATAAATGAGGGGGGCACACTTCCTGATATGTTCGTTATG
Celera SNP ID:            hCV2851577
SNP Position Genomic:     1036693
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,5)   afr(G,5)   total(G,10|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58520):
TAAAATGTTGCCTCCTGTATCTCAGTAGGCACTGTTCAAGCATTTGAACTTCATCAAGTATCAAGACAAGTCTAAGAGAAGGTGGGGAGAGACCATCAGG
R
CCTAGGATTGGAAAACCTCCAACGCAAAATAGAGATGTAGTTTTAGCGTGCTGCCCAATATTAAAAGATTGTATAAATGAGGGGGGCACACTTCCTGATA
Celera SNP ID:            hCV2851578
SNP Position Genomic:     1036682
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,5)   afr(G,5)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58521):
AAGGGATGGGGAATTAGTCATAGGGTATTTCCAGATAATGTAGTTAACACCTCGTGTAATATTAGGTGGGCAGGGAGCTCTGCTCTCAGGACCAAAATTG
Y
TCCTGCCAGCTCTAATAGGGAATGTGTGTATTTTTAAAGTCTGGGTAAGCACTGTGAGTCATTTCCACAATACGCCTCCCTTTGGCGTGAAATGGGGCAG
Celera SNP ID:            hCV11438312
SNP Position Genomic:     1099614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58522):
TAGCGTCTAGGGGATATACACTTCTAAGCCCATTCTTCAATGGAGAATTACTTATGCGCATAAGTAGTTTAAACAAAATTAGTGGAAAAACAGGGAGTTT
M
AGGGAGCAAGAGATCAGGTCTTCTGGGCTCACCACACATCAGGTGATTTAAGCTAAAAATGGCTTAAAATACCGCAATCACTTGAAACGCCTTACATAAA
Celera SNP ID:            hCV11438314
SNP Position Genomic:     1099359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58523):
TTACTTTGCAGGATTGCTGTAAGGATTAGAACCACCGTCTCTAAGGCATTCAGCATAGTCCCTTAGGGTAACATGAGTGCTCAAGAAATAGTAAATTTTA
R
TATGTGTCTCATTTTTTTCCAGATGCTCTGGGGTCACTACCAACCTTGCCTTTCACCCTACCTGTGGATCTATGACCCTGTCCTTCTCAGAACACCACTC
Celera SNP ID:            hCV11668347
SNP Position Genomic:     520346
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,3)   cau(A,2|G,3)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58524):
TTTCACCTACAAAATGAAGGCTACAATATTTACTTTGCAGGATTGCTGTAAGGATTAGAACCACCGTCTCTAAGGCATTCAGCATAGTCCCTTAGGGTAA
M
ATGAGTGCTCAAGAAATAGTAAATTTTAGTATGTGTCTCATTTTTTTCCAGATGCTCTGGGGTCACTACCAACCTTGCCTTTCACCCTACCTGTGGATCT
Celera SNP ID:            hCV11668348
SNP Position Genomic:     520317
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,2)   cau(A,2|C,2)      total(A,2|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58525):
GACTTGTATCTCTTAATGAGTTTAACTACATTTAACCATGTATGTGTCAGTCCTACTATGCACCTTACAGCTCACTAACCCTGTTTAATAATGTATGTTG
Y
TACATTTAATCTTTATGGTAGCCTCATGAACAGGCTCTTATTTAGTTCAGTGGTTCTTGATCAGGAGTGATATTGCCTGCCAGGGAATGCATGTCAATGT
Celera SNP ID:            hCV15912031
SNP Position Genomic:     435295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58526):
TGCCATTGCACTCCAGCCTGGGCAAAAAGAGCGGGGTAAAAAAACAACAAAAAAATGATGTAGGAATGAACAGATGAACAACCCCACACAACCTAAGGAC
R
ACTTTGAATCAATTCTTCTAAGCTGGTAGCAGAAGCCACCTTTCCATTTGACTTGTATCTCGCTCTTTTTTTCTTTCTTTTTTTTTTTTTTGGAGACAGA
Celera SNP ID:            hCV15912032
SNP Position Genomic:     434819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58527):
CACACCTGTAATCCCTGCTACACAGGAAGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGAGGTTGTGGTGAGCCGAGATCATGCCATTGCACTCCA
R
CCTGGGCAAAAAGAGCGGGGTAAAAAAACAACAAAAAAATGATGTAGGAATGAACAGATGAACAACCCCACACAACCTAAGGACAACTTTGAATCAATTC
Celera SNP ID:            hCV15912033
SNP Position Genomic:     434734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58528):
AGGAACAAGAGAGAGAGAAAGTGCATGGCAAAGACCCATCATTGATGAGTGACTGGATGTGAGGAATGGAGCAGGGGAGATGCTGATGATTTGGTTACCC
S
CTTCTCCATCCCCCACCACCCACTGATGTTATTATCCAGTAAGGACCAGGAGAGAAGAAGAGATTTAAGAAGAAGACAATGGCTGTGGTTTGATGAAGAT
Celera SNP ID:            hCV2851580
SNP Position Genomic:     1035534
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(G,3)   his(C,2)      total(G,3|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58529):
GCTTTAAGGAGAAATATTTTGTTGGGACACAGAAGTTAGACTGCAAGAAGGAGAAGATTGGATTCAGGGCAGGAAATCAGTACAACTTGCAGTAGTCCAC
R
TGACAGTTACGCAAAGGCCTGGTCTGATAGAGGAACAAGAGAGAGAGAAAGTGCATGGCAAAGACCCATCATTGATGAGTGACTGGATGTGAGGAATGGA
Celera SNP ID:            hCV2851581
SNP Position Genomic:     1035403
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   his(A,1|G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58530):
CCAGCCTTTTGCTATTGCAAATTGTGCCGCAACGTGTAACCTTGCACCGACATCGCTTCCCACGTGCATGCATGTATTTGCAGGATTGAGTCTTAGAAAT
M
GCAGCATCGGCTGAGAGAGTATGCACTCCGGTCGTTTTCATAGATATTGCCAAATTGCCCTCTACGGAGGTTGTTCTGATTTACATTCCCACTAAGCAAC
Celera SNP ID:            hCV2851582
SNP Position Genomic:     1035093
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4)   his(A,2)   total(A,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58531):
TTGCTATAGATACCAAACTCCACAATCAGTAATTAGAGCGTGCCCCCTGCCCCAGAACTGGTCAAACGGTGCAGAGCGCTCGGCAAATGGTCTTAAAAGC
R
TCCGCGCTTGCATGGAAATGCATTTCCAATGGTGACGGGGTTTGTTTTATTCATGGACTTTTTGAAAAAAAAATCACTGGTTTATTGGAAACCATAGAGA
Celera SNP ID:            hCV2851583
SNP Position Genomic:     1031745
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58532):
TCTAGGCTCATTCATACACCAGTTCATTCATCCTCATAACAGTTCTGTGCCTGAGTAGATTCTTGTCCTTATGTAAGGATTAAGGACGTTGAGACCCAGA
R
GGGTCTCATCTAACAGGCAGTAGTAGAGCCAGCAGTCAAAATAGTTTGACCCCAAGGCTCCAGGCTTTTTCCCTATTTCTTTCTCACCCACAGCCAATTG
Celera SNP ID:            hCV2851584
SNP Position Genomic:     1031039
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(G,6)   cau(A,2|G,6)   his(G,6)      total(G,18|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58533):
AAGGCCAGTTATGTGATGGATACTTCTATTACCTTATGTCTTTCTGATTTCATACACTTAAATGTACAGTTTTTATCTTCCTTCAAAACCTTATTTTTCC
R
AGCAAGTTTTATTTATTCACTTTCAGTCATTACTGAAGTGAATAACAAACATATAACAGATGCTATTTTGGGTCATAGCTGTTTTGCTAAGTAATACTTA
Celera SNP ID:            hCV15859933
SNP Position Genomic:     127728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58534):
GTGAACAGATTCTTCCAGGTCTTCATTGTGGCGGAAGAAAGTGAGATCAGAGATCCCGAGGAAGGGCTTCAGTTTCACCAGTAGTGGAGCTAGGGAGTAG
S
GGGGCAGAAGCCGCAGGAAGTCAGTGCAGGACGCCGGAGGCCACTCCTAATTGCTTCATGTGTTGTTGCCGTGCTGATGACCTTGGAGGCGCTGCTGGTC
Celera SNP ID:            hCV15912039
SNP Position Genomic:     433801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58535):
CTGAGGCAGATAAATCACCTGAGGTTAGGAGTTCAAGACCAGCCTGGCTAACACGGATAAACCTCGTCTCTACTGAAAACACAAAAATTAGCTTGGCTTC
S
TGGTGCATGCCTGTAATCCCAGCTACTGCAGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCGTACCATTGC
Celera SNP ID:            hCV2842764
SNP Position Genomic:     647128
SNP Source:               Celera
Population(Allele,Count): cau(C,8)   afr(G,1)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58536):
GCATCTTACCTATAAAAATAATGCAGATACATTCGTAACTCCCCAGGTTTTCGGGAGTGGAAATGAGGGCAGCTGGGGAGTGAATCTGTCGTTTGTTGAG
R
CTCTTTTTCCTGCTTGCCAGACACTGATCTAGGCTCATTCATACACCAGTTCATTCATCCTCATAACAGTTCTGTGCCTGAGTAGATTCTTGTCCTTATG
Celera SNP ID:            hCV2851585
SNP Position Genomic:     1030911
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(G,6)   cau(A,1|G,6)   his(G,6)      total(G,18|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58537):
GAATTGTGCATTTATTATTGCTAGGATGCATATACACATTGAACTCAGTCAACTTACTCTCTCTAAATTATCTCACCGGTGGAGACATTGCCTCAGGAGT
Y
GAGCCCTGTGGTGTGCCTCCTGCTGTCACCACATTTGACCACCTAACTGACCCCACTGTGGTCACCTTTGCCACCTGCCCTGCTTTGGTCCCTTCTCTGC
Celera SNP ID:            hCV2842765
SNP Position Genomic:     647456
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,2)   afr(C,3)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58538):
TCAGGCCCATAAAATACTGCACATCTTGGCATCTTACCTATAAAAATAATGCAGATACATTCGTAACTCCCCAGGTTTTCGGGAGTGGAAATGAGGGCAG
Y
TGGGGAGTGAATCTGTCGTTTGTTGAGGCTCTTTTTCCTGCTTGCCAGACACTGATCTAGGCTCATTCATACACCAGTTCATTCATCCTCATAACAGTTC
Celera SNP ID:            hCV2851586
SNP Position Genomic:     1030883
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(C,2|T,4)   his(T,4)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58539):
AAGCATGATGGCAATTGCCTGACTCTGTCCTCGGTGGGGACAGGAGAGCTGAGCATAAGGATCTAAGTTTAGACGCCCTCCTAGGATTACCAACGTAGGC
R
TGATCAGGCCCATAAAATACTGCACATCTTGGCATCTTACCTATAAAAATAATGCAGATACATTCGTAACTCCCCAGGTTTTCGGGAGTGGAAATGAGGG
Celera SNP ID:            hCV2851587
SNP Position Genomic:     1030779
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(A,4|G,4)   his(A,4)   total(G,8|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58540):
GGACCCTTGCCGGGGCCTCGCCATCCACATGGTCATTGCCTCAAAATTTGGGATTCCAGTTGCCCTTTTCCTTCTTCTCTCTTGAACAATGTGAACGCAA
K
GTGAGGATGGGCCTTCTCCGCCTTCAAAAGTTGCTGCCTTCCAAGGGGAAAAGGTCTGGTCTTGTAATTTCTGGTCTGTGCGTGCTGTATAAGGAAGAAG
Celera SNP ID:            hCV2851588
SNP Position Genomic:     1030488
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,3|T,2)      total(G,3|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58541):
TGTAGTCTCAGCTTCCCAGAAGGTCAAGGCAGGAGGATTGCTGGAGCCCAGGAGGTTGAGGCTGCAGTGAGCTACAATCATACCACTGCACTCCAGCCTA
R
GCAACAGAGTGAGACCTTGTCTCAAAAAATAACTGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTCTGGGAGGACGAGGTGGGCGGATCACGA
Celera SNP ID:            hCV2842769
SNP Position Genomic:     640884
SNP Source:               Celera
Population(Allele,Count): chn(A,9)   cau(A,9)   his(G,1)   total(G,1|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58542):
AGTCTTCTCTTTGGTCCCTGATAAATATACATAGAATGTATGGATGTGAGAAAGTTAAACTGATGTCTGTGTGTCTTCATGTCATTAAACTTTGAATCTA
Y
GGACATGTCTTTTTCTTTCTGGCATAGTTTGGAGGTCTTCATTTTGTGATTGAATACAAAACACCGAGGGCTTTAAGGAGGCATAGTGGTATGTTCAGCT
Celera SNP ID:            hCV11438324
SNP Position Genomic:     1084095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58543):
TAGAAGGCCTTAATCTCATTGTACATACTTTTCTATTCCTCCCAGTACCATTTAAAGGTTAGTGAAAGCAACCTTTAGTATCATCTGTTTTTTGGGGGGG
K
TTTTTTGTTGTTGTTGTTTAGCTGTTTATGGGTAGGAGAATGCGTGCTCTTTTAGGGACATCTCTTCAAATAAGAACAGGTTGTAACCTACACTCAAAAG
Celera SNP ID:            hCV11438326
SNP Position Genomic:     1061208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58544):
TGTTAGCAGGCTATTTCAATGATTTTCTCTGCGGAAGAGTAGGGAAAGGTGACATTCCAACTGGGAATATTCGACTCTGCAGATCCCTACTCGGAGTTTT
T
CAGCCCTGTTTTAAGTGCCGAGCTGGGTTTTGCCTCATGATCCAATTGTTTTATTAGCGAAATCATCATCTGTTTCATTTTGCTTTGGTAATAGTGCAGT
Celera SNP ID:            hCV11668355
SNP Position Genomic:     509479
SNP Source:               Celera
Population(Allele,Count): chn(T,7)   cau(T,7)   afr(-,2|T,7)   total(T,21|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58545):
TTCATAATCAGCAGAAGTCTTTTCTCTGGAAGGAACAAAGGATTAAGTTAGGGAGACAGTAATGGTATTGTTAGCAGGCTATTTCAATGATTTTCTCTGC
R
GAAGAGTAGGGAAAGGTGACATTCCAACTGGGAATATTCGACTCTGCAGATCCCTACTCGGAGTTTTTCAGCCCTGTTTTAAGTGCCGAGCTGGGTTTTG
Celera SNP ID:            hCV11668356
SNP Position Genomic:     509411
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4)   afr(G,3)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58546):
AAATCACAGAGTCCATTTATTTCTCCTCTTCGAGTCAGTATATCTCAAAACATTTTTTCAACGTTAATAGAAATATAAGAAGTGCCTGGATCAGTTTTTG
K
TTTTGTTTTGTTTCTTTTTGAGATAGGGTCTCATTCCGTTCCCTAGGCGGGACTGCAGTGGCACCATTATGGTTTACTGCAGCCTTGACCTCCCAGGCCC
Celera SNP ID:            hCV11438328
SNP Position Genomic:     1050143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58547):
CAGAGGGGCAGTCCAATAAAAGAGGCAGAAAGGGCTCTTGAAAAATGTCCCTGGGCACTTGCCCGAATGACTTTAGTGACAGTATCTACTAAAACTGATA
Y
TAATTCTGTTACGTGTTATGGCGCATACCCAAGACCCTCCCCATAAACTATTTGAAAGAAGCAAAGTTGTAATTCTCCAAATACGGACTTGTACATTTCT
Celera SNP ID:            hCV11438329
SNP Position Genomic:     1047297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58548):
TTGTTTTTCTTTCTTTTTTTTTTTTTTTTTTGAGGCAGGCCTTAGGTCTGGCACCCAGGCTGGAGTGCAGTGACGTGATCAAGGCTCACTGCAGCTTCCA
M
CTCCTGGGCTCAAGCAATCTTCGTGTTTCAGCCTCCTGAGTAGCTGGAATTACGGGCTCATGCCACCACACTTGGCTACTTGTTTAATTTTTTGCAGACA
Celera SNP ID:            hCV15912040
SNP Position Genomic:     432556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58549):
TACTGCTATTGTTAGTTTCTAAAGGCACTTGTCATGGTGTGACTAATATTAGAAGCAGACACAGCCATGATGAGCAATACTCTTTTTTTGTTTATTTTTG
W
TGTTACTGCTGTAAGCCACTTTCTTCTCCCTCTCCGTTAAAATGCAACTTAATTGGTAAAGTTTAGTTGACTAGAGATTTCATTTATTTATTTATTTATT
Celera SNP ID:            hCV15912041
SNP Position Genomic:     431908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58550):
AAATAAAAGTAAATAAGGGGAAATTGCATACTCCTATCTGGACTGTTTTCTTATGGTTTTGGAATCTCTGGCAGGTAGAAGTAATTATTTCTGTAACTCT
Y
AGGCAGGGCTTAGGAATTATCTCCCTTAGGTTTGACTTCTTTCTTTCTTGAGAATAAGCGCTGTGTTTCGCAAGAGTAAAGAAGTGGCATTTATTCTGTT
Celera SNP ID:            hCV2842770
SNP Position Genomic:     640287
SNP Source:               Celera
Population(Allele,Count): cau(T,7)   afr(C,1)   his(T,7)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58551):
GGGAAAACTAGGTTAGTGCCAGATAAGGTCCATTACTCTTTAAAAGTGGCCACTCATCCCTAATAATAAATAAACCAAACATTGGGATATTAAAACAATT
Y
GTTCTCAGCATCAGAAAAGAGGTCGTGTGTGTGTTTGTGTTTTTTTAATATCCCATCCAGCCCCCAGCCCCAGTAACCCTAAGATTGAACAAAACCCTAC
Celera SNP ID:            hCV2851592
SNP Position Genomic:     1029314
SNP Source:               Celera
Population(Allele,Count): cau(C,7|T,2)   afr(C,7)   his(C,7)   total(C,21|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58552):
CCTTTGAATCTTCAGTGTTTCAACATAGACTTGTTACAAAGAGAAGGAATATAAGCCTCTGTTCTTTCTTGTTTCCCTTTGTTAATTCCTTTTTCCTTTC
R
TTCCTTCTTATCTATCCCTTTCTTACCTTCTTTATTTCCTCGTTTATTTGGGCTTTTTCGGTTGTGAAGATCAGTACCTTGAAATTCAGAATAGATGGCA
Celera SNP ID:            hCV2842771
SNP Position Genomic:     638982
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6)   afr(G,1)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58553):
AAACTGTGTGATTCTGTCTGCAGTTGAGAACTGTAAGAAAAAGATCAAGATTAACATTATTATTATTGGTGTTACCTCATGTCTGTACCTTTTTGGACAC
K
TGGGTCTGTTTCCCGAGAAATCATTTTTCCTCCTCCTTGAAAATAGTGAATTTCAAGTGGTTTTAATTTTAACTGCATTATTTGTTTGCTTTATATAGTT
Celera SNP ID:            hCV15912048
SNP Position Genomic:     424553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58554):
AACCACACAGCCCAGTGGCCGTGGCCTGGGCAGGGAAACCGCAACTGCCTGCAGGAAGAGTGCAGTTTATTTAGATAACATTTTCACTTAACATCCTGCC
R
TTAATGACCTCCACCTGGCAACCTTTATTTAATCCAAAACTCAGGGACTGGATTTTCCATACGGCCTGTGAGGCCAGGGGGCTCAGTTGTTCCTCATAGA
Celera SNP ID:            hCV2851593
SNP Position Genomic:     1027568
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,8)   his(G,8)   total(G,16|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58555):
CGGAGGTTACAGTGAACCGAGATCGTGTCACTGCACTCCAGCCTAGGCGACAGAGCGAGACCCTGTCTCAGAAACAGAAAATAAAACAAACAAAAAAATA
S
TATTCCATAGCTGACTATTTTCTGAAATGATTTTGTTACTTTTCTAATGAGAAAAAAATAGATCTCGTGTGTGGAGGGAATTGAAGATGTAATTTCAGAC
Celera SNP ID:            hCV15912049
SNP Position Genomic:     422856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58556):
ACAACATAACCACACAGCCCAGTGGCCGTGGCCTGGGCAGGGAAACCGCAACTGCCTGCAGGAAGAGTGCAGTTTATTTAGATAACATTTTCACTTAACA
Y
CCTGCCGTTAATGACCTCCACCTGGCAACCTTTATTTAATCCAAAACTCAGGGACTGGATTTTCCATACGGCCTGTGAGGCCAGGGGGCTCAGTTGTTCC
Celera SNP ID:            hCV2851594
SNP Position Genomic:     1027561
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,3)   his(T,3)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58557):
CAGTTTTCAGACCAACTCCATTGTTACTAGATATCCTGACACTGAAGAAGCTAAAACCAAACAACAATGACAACAACAAACCCAAGTCTGCCTTATGGCA
S
ATTCTTCACGTCGTAACACCTTCCTTGGGACCCTATTTCTCAGTATGGACCTGACTCTCCCAGGGATCCTAGAATGCAAGCATAGTGATTGCAAACCAGA
Celera SNP ID:            hCV760301
SNP Position Genomic:     1117730
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58558):
GGAGAATCCAGAGAAACACAGCGGAAATTCAATTTATGGGCTACATTAACCCAGCATTTTGGATTGGAGGGTTTCTAAAGAGGTTTCGTTATATTAATGG
R
TGACAAGTGGATACTTAAGAAAAAGTGTATTTTGGAGAAAGTTGCAATAATACCTACTAGAGATTGTGTCCTCCCTCAAAATCGGAGTGCCATCCGCGCT
Celera SNP ID:            hCV2851595
SNP Position Genomic:     1026826
SNP Source:               Celera
Population(Allele,Count): chn(A,8)   cau(A,8|G,1)   his(A,8)   total(G,1|A,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58559):
GATCACTTGAGCTCAGGAATTCGAGACCAGCCTGGCCAACATGGTGAAACCTTATCCGTAAAAAAAATAAAAAATTAGCCAGACATCGTGGTGCATGCCT
S
TTGTCCCAGCTATTTGGGAGGCTGAGGTGGGAGGATTGCTTAAGCCTGGGAGATTGAGGCTGTAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGG
Celera SNP ID:            hCV2842774
SNP Position Genomic:     636672
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,4)   afr(G,4)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58560):
TTCCTTGGGACCCTATTTCTCAGTATGGACCTGACTCTCCCAGGGATCCTAGAATGCAAGCATAGTGATTGCAAACCAGACCATTTGAGGGAAACTCCTC
Y
AGTAAGCACCCTGCATGGTCACAATGTAAACCCTGCAGGGGCAGAAAAATGATAAGCTTTGGGTCGGGTCGGAAAGCCATTTCCCCCACAATCAAAGTTC
Celera SNP ID:            hCV760302
SNP Position Genomic:     1117851
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58561):
TGCCCATGGCAACCACAATTAACCCATGCCTGCCTTCCAGTCTTTTTACCACGTGTTGTGTTGTGTGGTGTTTGTCCCACATAGAGATCATTGCCATACG
S
CCATTTGGCACATTGCTTATTTTTCCCTGTCTTTATACATTTCATCATGTTGTTCTAAATGCTTCTTAACTGCAATTCTTAGTGGTTGTGATAGTCCACA
Celera SNP ID:            hCV2851597
SNP Position Genomic:     1026243
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(C,2|G,2)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58562):
AGCATTTTGAGAGGCAGAGGTGAGAGGATTCCTTGAGTCCGGGAGTTGAAGACCAGTCTGGGCAACATAGTGAGGCCTTATCTCTTCAAAAATAAAAAAA
A
TTAGCTGCCCATGGTGGTGTATGCCTGTGGTCCCAGCTACTTGGGCAGCTGAGGCAGGAGAATTGCTGGAGTACAGGAGATTGAAGCTGCAGTGAACTGT
Celera SNP ID:            hCV11667700
SNP Position Genomic:     870732
SNP Source:               Celera
Population(Allele,Count): cau(-,1|A,1)   total(A,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58563):
ACCACTTTTGCTCTCTGCTGGCATAGATGGCTGTGCTTTGGTTCATTTTCTTGCTCATCTTCATGATCTAGCAAGTTCTTGTTGAGTGCCAGCCCAGTGC
Y
AGGTGCTGAAGAACAATGGTGAACGGCACAGTCATGGTACCAGAACTCGGTCTGGTGGAACAGAGAGATTAAGCAATCAGAAAAACATATGTGTGTGTAA
Celera SNP ID:            hCV2851598
SNP Position Genomic:     1020485
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,2|T,7)   afr(T,7)      total(C,2|T,14) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58564):
TTGATGTCAAAAGTAAAGAAGTTCAGAACCTACGGGGCTTGCTTTGGGTCCCAAATTATCTTAGCTTTCTGGAAAGAGAAGAATCTATAATGTATTCTCC
R
TGGAGTATCTTTACTCACTTGTGATGAGATGTCTGTAAAAGTAATCAGCTCCATACATCTGGGCATGATGACCCTCAGGCCCTTGAGACTCAGGTGTTCT
Celera SNP ID:            hCV11667701
SNP Position Genomic:     868398
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58565):
TTTTTGTTCCCCCATGGGATAGTAGGTAAATTAATGGAGGAAGGGAGTCAACTAAACAATTTATTTGAGCAATTAATGGAGGAAGGGAGTCAACTAAACA
R
TTTATTAGGGCTTTATGTAAAGCCCTAGGGTTAGTTGGTTGGTTGGTTTTGTTTTGTTTTGTTCCTTTTTTTTTTTGCCAGGGGATGCTGTGGTTGAATT
Celera SNP ID:            hCV2842777
SNP Position Genomic:     634113
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,2)   his(A,5|G,2)   total(G,4|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58566):
AGCCTCCCAAAGTGCTGAGATTACATGCATGAGCCACCATGCCTGGCCTCTGGCCTTCTTTTCACTTTAGAAAAAAACAAAAAACAAAAAACAAAAAAAA
A
CACAAAAAAAACTTTTTTTTTTAGAACTGTTTTAGTTTGGGAGCCAAAATTGAGCAGAAAGTACAGAGAGTTCCCGTATACCTCCGGCAGAGCCCTGGCT
Celera SNP ID:            hCV11667702
SNP Position Genomic:     863413
SNP Source:               Celera
Population(Allele,Count): cau(-,5|A,2)   afr(-,5)   his(-,5)   total(A,2|-,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58567):
CGCCTCAGCCTCCCAAAGTCAGGTGTGTCTTTATCAGCAGCATTAAAACAAAGTAATAAAATTGGTTTCTTAGGGTTGGATGGCTTAAAACAACAGAAAT
R
TATCATCTCACAGTTCTGAAAGTGAGAAGTCCAAAATCAAGGTGTCAGCACAGCCACGTTCTTTCTGAAGGCTCCAGGGATGATCTACTCCATGCCTTTG
Celera SNP ID:            hCV2842778
SNP Position Genomic:     633107
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   afr(A,1)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58568):
TATAAGTTTTCATAGTTCTGTGCATTTCCTCTTGGCAGCAATGCACTGAGCTGCAGTTTTACATTTTTGTTTTTTTGTTTTTTGAGTTTTTTTTTTTTTT
T
GAGACAAAAGTCTCGCTCTGTCCCCCACGCTGGAGTACAGTGGCACGATCTTAGCTCACTGCAACCTCCACCTCCCAGGTTCAGGCGATTCTCCTGCCTC
Celera SNP ID:            hCV11667703
SNP Position Genomic:     859812
SNP Source:               Celera
Population(Allele,Count): cau(-,3|T,3)   afr(-,3)   total(T,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58569):
CACTTTATTGGTGATATGGTTTGGCTGTGTCCCCACCCAAATCTCATCTTGAATTGTAGCTCCCATAATTCCCATATGTTGTGGGAGGGACCGGGTGGGA
S
AATATTGAATCATGGGGGTGGTTCCCCCATACTGTTCTTGGGGTAGTGAATGAATCTCATGAGATCTGATGGTTTTATAAGGGGGAAACACCTTTCACTT
Celera SNP ID:            hCV2842779
SNP Position Genomic:     632484
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,5)   afr(G,5)   total(G,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58570):
CATGCCAAAGGCAGATAGCAACACTCTTCAATGGATGTGGGTGAGAGGACAGTGGAATCCAGCAGGGGCCATTGTTTCCTTCCATAATATTTTTAAACTG
Y
AGCAAAGTGATCTTTTTGAGACCCAAATGTGAGTATGCCATTCTAATCTTCCCACCCTCAGATAAACCACAGCAATGATTTTATACTGTCTGTAGGGTAA
Celera SNP ID:            hCV11667704
SNP Position Genomic:     859360
SNP Source:               Celera
Population(Allele,Count): chn(T,4)   cau(C,2|T,4)   afr(T,4)   his(T,4)   total(C,2|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58571):
ACTCCACATCTTTGTAACTTTTTATGGCTCTCAGCCCTACTTTCTTAATAGTAGCAGCAGTATTTATCTACTGTTTATTGTATTCCAGGTAAAGGATATG
Y
GAAGCACTTTTCATGCATTATTTAACCTAGCTATAATACTCCCATTTGACAGATGAGAGGACTGAGGCTTGTAGACTTTCCAAGGCTGTGCAGCTCTAGG
Celera SNP ID:            hCV11667705
SNP Position Genomic:     857367
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(C,8)   afr(T,2)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58572):
TGTCATTGAAAAAAACACCAGTAATTAAATCATTATTTCTTAGATGTGAGGTCCAAGGACATTCTAGAGGAAGTCAAAGGCAGAGGGAGGAAGGGTGGGA
C
GATGGAGGCCTGAAGGGCTGGTGGAGAGGAAAGAAGGCAGCCTGTGCCGTCAGAGAGAGTTCAACTCCATCCGTGCAGCTGCTAGCATCTTGCCTTACTC
Celera SNP ID:            hCV11667706
SNP Position Genomic:     855443
SNP Source:               Celera
Population(Allele,Count): chn(-,3)   cau(-,3|C,1)   his(-,3)   total(C,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58573):
CATTGAACTGAATCTCCACCTTGGGCTTGAGACTCTGCAAAGTGCATTAAATGGGAAGGAAACCAAAGGGCCTGCTGCCCTGCCCCCGCCATAGCCCAAG
K
CTGTGGCCATGGCTGGGGAATTGGCCTGTCAGTTCAATCAGGCAGCCCCTCTGACTGGTGTTTTTCACTAAGCTGGCCCCATGGATGGCCCTGGTCATGT
Celera SNP ID:            hCV11668362
SNP Position Genomic:     507037
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58574):
CACGCAGGCATTAAATGGATTGTGAAGAGGGACTTTGTTCCCCCTCAGTCTTGTCTCTGCCTCCGTAAAGGAGTAAGTTAAAAAAGAAAGTTTCTTTTTT
T
AAAAAAAAGCCTTACTGCTCAATAAATCCCTGTGGAAAAAAAAAAAAGAGGGGGAAAAAGGAATGCACATTAGTCTTCCATTAAAAATAGATCAAAAAAG
Celera SNP ID:            hCV11667707
SNP Position Genomic:     854490
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(-,3|T,2)   afr(-,3)   total(T,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58575):
AGCCATACTCAGAGTGGCCCTAGGATGGCTCCTCAGATAGCTGCTGGCAGAAACCTGCACTCAGTACATCTATACATGGTGTAATGATTGACTCAAGATA
M
TTAGCATAGCCATCATCTCAAACCTTTATTATTTGTGATGAGAAGATTCAAAACCCGCTTTTTGAACTGTTCTGAAATATGCAATACCTTGTTGTTAACT
Celera SNP ID:            hCV11668363
SNP Position Genomic:     503364
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(A,5)   afr(A,5)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58576):
CCATCATTTACTTACGTAATAAATCTGTTAAATAATTTTAATATAAATCTATTCATCTATCCATCTATTAAAAGAGATTTAAGTTATTTCTAATCTTTGC
R
TATTATAAGTTGCATTTCAGCTTATACCTTGACTTTCTTTGACATATACATCAATAGGTAGAGTATATTCCTAGAAATTCAATTGTGGACCAATGAGATG
Celera SNP ID:            hCV11438335
SNP Position Genomic:     1042966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58577):
AATTTTATGGATTACATTTATTTTCATTTCTGTATATTTAGTTAATTCTTTTAAAAGGCTGCCTGTTATCCCATTGTCTGTCTTCACCATCATTTACTTA
Y
GTAATAAATCTGTTAAATAATTTTAATATAAATCTATTCATCTATCCATCTATTAAAAGAGATTTAAGTTATTTCTAATCTTTGCATATTATAAGTTGCA
Celera SNP ID:            hCV11438336
SNP Position Genomic:     1042880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58578):
CTCAAATGCTCTAATCTCCACAGAAGTTAAAATATCCCTAAACAGGCATGTGCATATATGTCTTTCTTTCTTTTCTTAGGTTAACTTTTTTTTTTTTTTT
T
CCTTTTGAATGACCACAAAGCATATCTACCCAGCGGGGTTACTTTTTTTTTCCTTTTCAGTATTCATGACGTCAAGTCCCTGTTTGTTATCTTATTGTCC
Celera SNP ID:            hCV11667709
SNP Position Genomic:     848113
SNP Source:               Celera
Population(Allele,Count): chn(T,5)   cau(T,5)   his(-,1)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58579):
TCCTCCTTTTTCCTGAATATGGAACCAAAGCCTGTGTTTTTCTTGCTCACATGTGAGTCTTCTCCTTGCTTCAACCCTCCCCGCTGACAGCCACAAGACT
C
TGCCTCCCTGCAGCCTGTGGAACATAATATTCGTTGGGATCATACATTGACCAAAGATCCGCCATGTCTTTGCAACTAACATACTCACTCATGACTTCAC
Celera SNP ID:            hCV11668365
SNP Position Genomic:     503011
SNP Source:               Celera
Population(Allele,Count): cau(-,6)   afr(C,1)   total(C,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58580):
TCCGCTCATATTCTTGCATTTGCTGCAGCAAAACCTGACCTCTCTTTGTGTTACCTGAGTCTTGACGAAGAAGACTGAGGAAAGGCCCCCCCCCCCCCCC
R
CCAAATTGTCCCGTTGTCTCTTGGCTGGTCTTGCCAGCTGGCACACAGCTTCCTCTGACCACCCTGCTAGGTACAAATCCCACATGAAAAGTCTCAATCA
Celera SNP ID:            hCV11668366
SNP Position Genomic:     502060
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58581):
ATCCGCTCATATTCTTGCATTTGCTGCAGCAAAACCTGACCTCTCTTTGTGTTACCTGAGTCTTGACGAAGAAGACTGAGGAAAGGCCCCCCCCCCCCCC
C
ACCAAATTGTCCCGTTGTCTCTTGGCTGGTCTTGCCAGCTGGCACACAGCTTCCTCTGACCACCCTGCTAGGTACAAATCCCACATGAAAAGTCTCAATC
Celera SNP ID:            hCV11668367
SNP Position Genomic:     502059
SNP Source:               Celera
Population(Allele,Count): cau(-,4)   afr(C,1)   total(C,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58582):
TTGACCGATAAGTGTACCAGATTTCCTTACCTGTCCCAGGGCAAGATAGCAAGAGTTTCTTGATGCATTTAAAAAATGCATTTAGTGTTGGCAAAAGGCT
K
GCAATTTATTATTAAGTGGAATAAGCAGTTTAAAAACAGTATGTACAGGGTGGTTTTCTGGCTATATAAACACACAGGCATAGAAAATAGATATACATAA
Celera SNP ID:            hCV15912050
SNP Position Genomic:     422278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58583):
TGCAATTCCCTCTCAGTTTACATCAAAATCAGCTCGTCACCCTTGAGATTGAAGCTCGCACTCTGTAAGCTCTGAATAAATATTAACCATCTCCTGAACC
Y
TGAAGGAGACATTTTCTGGGGAGCAGTGATTTGATGATTTGATGAAGTTGTGTGTGTGTGTGTAGTTTTTCAGACATATCTCCATCTGATTCTTACCTCT
Celera SNP ID:            hCV2842780
SNP Position Genomic:     632165
SNP Source:               Celera
Population(Allele,Count): cau(C,8)   afr(T,1)   his(C,8)   total(C,16|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58584):
ATGTCTGATAGATATTAGGCATTCAGTCTCTCTCTCTCTCTCTCTCTCTCTGTTTATTATAGATAGAAATAAAAAAATTATAAATAGAAATTTATTTCTC
R
TGGTTCTAGAGGCTGGAAAATTCAAGATCAAGATGCAGACAGGCTTGGTGTCTGGTGAGGGCTGCTTTCTATCCTTCAAAAAGGCACCACGTTGCTGTGT
Celera SNP ID:            hCV9664216
SNP Position Genomic:     497830
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,6|G,2)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58585):
AGCTGCCGTTGAGTGTGTGCATGTACAACTGCTTGAAAACAGCTTGTGAGTTCACTATTAGGTCCATGAAATTTTTCTCCTTGGCAGGTTTTCACTATTA
R
TTTGCTTGACAAAGGATAGATACATTTTCCATGTGTGGAGGTAAAAGCAGTGCAGTGAGCTAAAAAGTTAGCAAAGGTGAAGTGGTCCTAATCTGCGGCC
Celera SNP ID:            hCV15912057
SNP Position Genomic:     422014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58586):
CATTGACCCACTTATGTGTAGTCCCCTAGTGAAATGACAAGAATCCCCAGAGCTGGGAAAACATTTCCATGCAATTCCCTCTCAGTTTACATCAAAATCA
K
CTCGTCACCCTTGAGATTGAAGCTCGCACTCTGTAAGCTCTGAATAAATATTAACCATCTCCTGAACCCTGAAGGAGACATTTTCTGGGGAGCAGTGATT
Celera SNP ID:            hCV2842781
SNP Position Genomic:     632096
SNP Source:               Celera
Population(Allele,Count): cau(G,8|T,3)   afr(T,3)   his(G,8)   total(G,16|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58587):
CAGATTTTAATATCTTTCCTCCCACACTTGCTTTGACTCCCTCCTTTAGTAATTAGATAATTATGTATAATAAGCACATTAATTATGTGCAACAGCTGCC
R
TTGAGTGTGTGCATGTACAACTGCTTGAAAACAGCTTGTGAGTTCACTATTAGGTCCATGAAATTTTTCTCCTTGGCAGGTTTTCACTATTAATTTGCTT
Celera SNP ID:            hCV15912058
SNP Position Genomic:     421921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58588):
TTATTTAGGAGGGGAATTTGGGGACATTGACCCACTTATGTGTAGTCCCCTAGTGAAATGACAAGAATCCCCAGAGCTGGGAAAACATTTCCATGCAATT
M
CCTCTCAGTTTACATCAAAATCAGCTCGTCACCCTTGAGATTGAAGCTCGCACTCTGTAAGCTCTGAATAAATATTAACCATCTCCTGAACCCTGAAGGA
Celera SNP ID:            hCV2842782
SNP Position Genomic:     632072
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,8)   afr(A,3)   his(C,8)   total(A,6|C,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58589):
CAGAAGAAGTTAAGGTAAATGGCTTTTAGCACATTGCACCCCCAGCTTTTAGCACATTGCATTATCATTATAATAAATGTTTACGGTTACTGATATTATT
W
TAGTTCTTTATCGACATTATTACAGTCCATTATTTACAGTCCTTATGTTATTTAGGAGGGGAATTTGGGGACATTGACCCACTTATGTGTAGTCCCCTAG
Celera SNP ID:            hCV2842783
SNP Position Genomic:     631924
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   afr(A,6)   his(T,1)   total(A,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58590):
CTTGATGTCGGAGTGTTCTCTAGACCTCACACCCAGTCCCTATTCTTAGGTTTTATTTCTCAAACCAGGTTTTGCCTGAGAAATTACAGCAAATGATTCA
K
AGCACAATGATGTTGCTCATTTTTGATAAGTAGTTGAAAGCTGATGGTGCCCTCCATTTCAAAGCAACAGAAGAAACGCTGGTGGTCATGGAGAAAGAGT
Celera SNP ID:            hCV15912059
SNP Position Genomic:     416223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58591):
TCTGCTTCTTAATCCATTAGTACCTGAGTGGGGGTATATAGGTTTTCTCAAATGCTCTAATCTCCACAGAAGTTAAAATATCCCTAAACAGGCATGTGCA
Y
ATATGTCTTTCTTTCTTTTCTTAGGTTAACTTTTTTTTTTTTTTTTCCTTTTGAATGACCACAAAGCATATCTACCCAGCGGGGTTACTTTTTTTTTCCT
Celera SNP ID:            hCV11667710
SNP Position Genomic:     848067
SNP Source:               Celera
Population(Allele,Count): chn(T,4)   cau(C,2|T,4)   his(C,2)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58592):
AATGATGTGAGGAAGCCAGGAATGATGAGTACCTGGATTAAACTACCTTAAGGCTGATTGAGTAAAAGTGAAAGATCATCCCGTCAACTGCTGGCCTGCC
R
CTTGTGTTCGTTAATAGAACATTTCCCTCTGATTGTCAGGCTTTCTTAGCAGCTACAGAATACTTATTTTCTTCTTTATATTATAAGTTTATGCCACTGC
Celera SNP ID:            hCV2842786
SNP Position Genomic:     630577
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(A,3|G,4)   afr(A,3)   his(G,4)   total(G,8|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58593):
CATCCTTCATCAAGGTGACATAGGTCTGGCGATCTTTTTGGCATAGACGTGTGGACGTTGTTTTTGACATTTGTACATGCTTTTGCTCAAGTTGAAGGCC
S
AAGTTTACCCAATTCGACTGCCCCCACCCAGATAGAATATTCATGGTTAGACCATAAACTACATAACTGGAAATTTTAAATCTATTTTTATATGCATACA
Celera SNP ID:            hCV11667711
SNP Position Genomic:     847339
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(C,1|G,2)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58594):
ATGGTTTTAAAATACCAAAAAATATTTCTTCAATTTTTTTCTGCTACTCATAATGTAGCATCTGTAGAGCGACACACTTTTGAATTTGAGTTAATATTTC
Y
TTTTTATTTTATTTTATTTTTTGAGATGGAGTCTCATTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCTGCTCACCGCAACCTCCGCCTCCTGGG
Celera SNP ID:            hCV2842787
SNP Position Genomic:     693328
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5|T,4)   total(C,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58595):
ATTTTCATTTTTATTAAGAAGTAAGGCAAAAACAAAATAAGACATATGTCAGAACTTCACTTATCCTTCTTTGCTGAATTGTATAATGGTTTTAAAATAC
Y
AAAAAATATTTCTTCAATTTTTTTCTGCTACTCATAATGTAGCATCTGTAGAGCGACACACTTTTGAATTTGAGTTAATATTTCCTTTTTATTTTATTTT
Celera SNP ID:            hCV2842788
SNP Position Genomic:     693243
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4|T,4)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58596):
AGACCTTGATATATGTACATATATTGTATGATACATATCCATGCATATACGTGGGTGTACACACACAGGTACACACAAATATATATGTGCCTTTGGACAA
R
AAAAAATCCCCAGGACAGTCTCATTTGGCTTTTAAAATGCTGCAGTTGAATAGGACCGTAGAGGTGGCCTAAGGCAGCCTTCCATTCAGGGCACGCAGAT
Celera SNP ID:            hCV277958
SNP Position Genomic:     462242
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,4)   cau(A,4)   afr(G,2)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58597):
GACATGAATATTGGTTGATATTTTCATTTTTATTAAGAAGTAAGGCAAAAACAAAATAAGACATATGTCAGAACTTCACTTATCCTTCTTTGCTGAATTG
K
ATAATGGTTTTAAAATACCAAAAAATATTTCTTCAATTTTTTTCTGCTACTCATAATGTAGCATCTGTAGAGCGACACACTTTTGAATTTGAGTTAATAT
Celera SNP ID:            hCV2842789
SNP Position Genomic:     693224
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58598):
CAACCTAAATAAAGCCACAGCCAGTGTTACAGAAATAGTGTTTCGTGATTAAAATAATGGTACTTATTTGGGAGAGTTACTTGCCACGTTTCAGATGATT
K
GGAGGTAGTCTTTTCAGGAATATTCTGAGTTTGTTTCTTGATCTCGATAGCAGCAACCTTTCCATTTGCTCTCTGTCTGGTTTCTCTGTGTCTCTCTTTT
Celera SNP ID:            hCV11438341
SNP Position Genomic:     1039953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58599):
GTTTGTGCCAAACCAGGTGTCATTGCCCTCCCCACCCTACCTTGCTCCCCTGGAGTGTATCCTGATTCTTTTGAGGATCACTTGATCCTGATTTTTTTTT
T
ATGTGTATAGATGGGATTTCATTATATTGCCCAGACTGGTCTTAAACTCCTGGCCTCAAGCAATCCAGCCACCTCGGCCTCCCAAAGTGCTGGGATTATA
Celera SNP ID:            hCV11668370
SNP Position Genomic:     500834
SNP Source:               Celera
Population(Allele,Count): chn(-,3)   cau(-,3|T,3)   total(T,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58600):
GTTCATTCAGTTATCTCACGTTTCTGGAGGGCCCTCTATGTGCAATACCTAGTGATACAGCAGTGAACAAAGGAAATCCCTGCCCTCAGGGAGCTTTCAT
K
CTACTTGGGGAAAGAGACGTGAAAGAAATCAAGACATGCAAGCAAGGATAAGTGCTGTAAAGATAATTCATTCCTGTTTAGAGGGCTGAGGACAGGAAGA
Celera SNP ID:            hCV11438342
SNP Position Genomic:     997944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58601):
CATTTTCATGGCGATGTGTTATAACAGGACAGACCTTGTACTTTGGAATCAAACATTCTCAACTCTGCTATCTGCTCTTTGTGGGGCCCTGAACAAAAAT
M
TTTACTCTCTTTGAGCCTTCGCTTCCTCATTGGTCAAGACTTTTCTCACTGCATTATATTTGAGTGAGACCCGTATCAATGGATTGAAATTCTCAGAAAC
Celera SNP ID:            hCV11438343
SNP Position Genomic:     989045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58602):
GGAGAGGTGCGATTTCCCTCCACATAATCTTCAGTTAGTGATCTCTGTAAGAGAATGTTTTTCAAAAGGCTAATAGAGAAGTAATGAGATCAGAAGGAGG
Y
CAACCCGGCCTTCTCCGTTTGGCAGCTTGATTAATTTATTTCTCCTTCTTGGAGATTGCTGCAAGGGGCTTTTGTCACCCTGTGTTTTTCATGGGACTGT
Celera SNP ID:            hCV8028150
SNP Position Genomic:     233034
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(C,2|T,2)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58603):
CCTAAAGATATCCCGCCCCACCAAAGATATCCCTAAAGACATCCTGCTGGTTTCAGTGGCTCATGCCTGCAATCCCAGCACTTTGGGAGGCTGAGGCAGG
Y
GGATCACTTGAGCTCAGGAATTCGAGACCAGCCTGGCCAACATGGTGAAACCTTATCCGTAAAAAAAATAAAAAATTAGCCAGACATCGTGGTGCATGCC
Celera SNP ID:            hCV2395992
SNP Position Genomic:     636570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58604):
GAGCAAGCATTTCTAACAATCATATTGCTTAAGAAGTGGATGGCAAGAAGATAATTACTAATATGTCTGCAATTGATCTGAAATTGACACAGTTGATCTA
W
CTGATTCATGGGGACCCTGGGAGTATGTTTGTGTATTTGGGGGTTGGGATGGGGGGGTGGGTGGAGGGTCAGAGAGGTGGCAAAAGCAGGTGGGAACAGG
Celera SNP ID:            hCV11438348
SNP Position Genomic:     960371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58605):
GTAGTCCAGTATATTGGCCTCCAGGGCAAAGCTACCTAGGTTCTGAGTCCAATTATGGCCTTCATGAGTCTTGTTTCTTTGGACAGGTTTTCCAGTGTCT
N
TGAGCCTCAACTTCCTCATGTATAAAGTGGAGATGATGCCATTACAGGTTGCTGCTTTATGGCACATAATTAATACTAGCTCTTATTTATAGGAACTGAA
Celera SNP ID:            hCV15788736
SNP Position Genomic:     819518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|CTGA,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58606):
ATGTTACTGTTTTAGCTGCCCCCAGTCAGGTGGTTGATGAGTTGGGGAGCCTGGTGGGCAGTCTGGAAGAGAGCACAGTGACTGCAAGGTCAGCTCCTGA
Y
CTTCATAATAAGGACTCACATGTGTCGGTCCCAAGGATCCCCAAGGGATACTCATGGTTGAAGGTGTCTATGTGTTCTCCTTGGTGTCCAGCGAATGCCT
Celera SNP ID:            hCV2842790
SNP Position Genomic:     692211
SNP Source:               Celera
Population(Allele,Count): cau(C,8)   afr(T,1)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58607):
CTGTAAACAAAAACAACACAGCCATCTAGCTGCAAGACGTAGCTAATTGCTCTGCAGAACAGGGTTGGCCAGCCTGGCCTTGATGTCGGAGTGTTCTCTA
R
ACCTCACACCCAGTCCCTATTCTTAGGTTTTATTTCTCAAACCAGGTTTTGCCTGAGAAATTACAGCAAATGATTCAGAGCACAATGATGTTGCTCATTT
Celera SNP ID:            hCV15912067
SNP Position Genomic:     416145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58608):
TCTTACCCATTAGGGATTATTAATATACTAGATAAGAGTACAGTCTCTGGAGCTAGGCTTGTGACTTTGAACAAATTATTTTATCTCTCTGAGCTCAGTC
Y
CCTCATCTACAAAGGGGGAATTGATAATAGGAATTGTCGCAAAGAGCTGTTTTAAAGATTAAATGAGATAATAGATATAAAGCACTTAGAAGAGAGTTTG
Celera SNP ID:            hCV2842791
SNP Position Genomic:     691972
SNP Source:               Celera
Population(Allele,Count): chn(T,6)   cau(T,6)   afr(C,1)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58609):
CTTTTGTGACCCTGATGAGATTACAGGTCCTCAGTCTCCTCATTGTATCTGAAGACTAAAGAATCAGAAATTTGTGACTCCACTTAGTTTTTCTCCACCC
M
GGAGCCCTCAGGCCGCTGGTGAGTGAAGTTCTTACCCATTAGGGATTATTAATATACTAGATAAGAGTACAGTCTCTGGAGCTAGGCTTGTGACTTTGAA
Celera SNP ID:            hCV2842792
SNP Position Genomic:     691842
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|C,2)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58610):
TATATGTGTATACATACATAGAAGTATATATATAAATACCAGTACTAGTGTCTGCTAATAGGTGGCGCCACTTTTTATCTGTGTGTGTTGGGGGTGGAAT
K
AGCATGTAGAGGTTGGCAAAGGGGACAGGAGACTGTGGGATGATTAGTATATTCTTATTTGGCCTGGGAGGGAAAAAAAATCTTTCATTTCCAACAATAT
Celera SNP ID:            hCV15912068
SNP Position Genomic:     366434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58611):
ATAAATTAATTTTTTAGCATTAATATTAGGGAAGATAATCTGACATTTAAAAATACATGTCTATATGTGTATACATACATAGAAGTATATATATAAATAC
M
AGTACTAGTGTCTGCTAATAGGTGGCGCCACTTTTTATCTGTGTGTGTTGGGGGTGGAATTAGCATGTAGAGGTTGGCAAAGGGGACAGGAGACTGTGGG
Celera SNP ID:            hCV15912069
SNP Position Genomic:     366373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58612):
AATCTAGGAGAAAGGTAGAGCTCTCTTATGCTGGGGCAACGCTACCAACATTGGTATTCCACAGCATTCCAACGATTCTAAATACTCTCCCAGAGTAGGG
M
GGAAAAATCATCCAAACTACTTGGTAATTGAATTCAAGAGTGATGGACCAAAAATTATTAATGCATTCCCTTCCGTCCACCAGCCAAAGAGGATTCCATC
Celera SNP ID:            hCV2842794
SNP Position Genomic:     689919
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,3)   afr(A,3)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58613):
CTCTGTTTTCCTACTTTTCTTTGGCCACTGTTTTTGCCACAGCTTCTAGGATTTCTCTTTCCCACAATCTAGGAGAAAGGTAGAGCTCTCTTATGCTGGG
R
CAACGCTACCAACATTGGTATTCCACAGCATTCCAACGATTCTAAATACTCTCCCAGAGTAGGGAGGAAAAATCATCCAAACTACTTGGTAATTGAATTC
Celera SNP ID:            hCV2842795
SNP Position Genomic:     689854
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,3)   afr(A,3)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58614):
CATGCAATGTTCACAGGTCTTTACATGTAAAAACAACCCTGTAAAATAAATAACATTATTCTCTTCATTCTCCAAGTAAGCTGAGGCAGAGGATTCCAGC
R
CAAGCAATTTGGTTCCAAAACCTGCCCTTTTAACCTCTACCAGATTTTGGTGAACTCTCTGTCTTTGGAAGGGTAGGTGGCGGCTGCGGGGAGAAATAGA
Celera SNP ID:            hCV2842796
SNP Position Genomic:     689412
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   afr(G,1)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58615):
GTCAAAGACATGAATATTTTCTTCTAAGTAGAAGTAATGATGACGATGATGGTAGCAGTTATGAGCAGGTAACATGCATTGAACACTTATTTGCTCCATG
Y
AATGTTCACAGGTCTTTACATGTAAAAACAACCCTGTAAAATAAATAACATTATTCTCTTCATTCTCCAAGTAAGCTGAGGCAGAGGATTCCAGCACAAG
Celera SNP ID:            hCV2842797
SNP Position Genomic:     689316
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(T,1)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58616):
GAATATTGGGCCGGGCTTGGTGGCTCATGCCTCTAATCCTACCTGAAGCAAGAGAATCGCCTGAACTTGGGAGGTAGAGGATGCAGTGAGCTGAGATGGC
R
CCCCTGCACTCCAGTCTGGGCAACAGAGCGAGGCTCCATCTCAAATAAAATTAGTCAGTCAAAGACATGAATATTTTCTTCTAAGTAGAAGTAATGATGA
Celera SNP ID:            hCV2842798
SNP Position Genomic:     689158
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,3)   afr(G,3)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58617):
AACTCCTAGCCTCAAGTGATCCGCCAGCCTCAGCCTCCCAAAGTGCTGGGATCACAGGCATAGGCTGCTGCACCAGGCAAGGACTTTTTTTTTTTTTTTT
T
AAACAAACTTCACTCAGTTTGAAGGCACCATTATTTGGGTTTCCTGTTAATTGCAGTTAATCCTATTGAGTAAATGTATCAAGGACAAAGAGCAGAATGA
Celera SNP ID:            hCV11667722
SNP Position Genomic:     838037
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   his(-,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58618):
TTAATACCTGTTGCTTTTGTGTGCTTCCTATTTAAAACATGTTTATCTATCCCCCACCCCCACTTTATCCAAAAGTTATTCAGTGTTTTACAAAGACATG
M
ATATTGGGCCGGGCTTGGTGGCTCATGCCTCTAATCCTACCTGAAGCAAGAGAATCGCCTGAACTTGGGAGGTAGAGGATGCAGTGAGCTGAGATGGCAC
Celera SNP ID:            hCV2842799
SNP Position Genomic:     689059
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(C,1)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58619):
TTTTTTTTTGAGACAAGGTCTCATTCTGTTGCCCAGACTGGAGTGCGGTGGTGCGATCTCAGCTCACTGCCACCTCTGCCTCCCAGGCCCAAGCGATCCT
S
CTGCCTCAGCCTCATGAGCAGCTGGGACCACAGGATGCACCACCATGGCCAGATAATTGTTTTGCATCTTTGGTAGAGACAAGGCTTCACTATGTTGCCC
Celera SNP ID:            hCV11438352
SNP Position Genomic:     947828
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58620):
CCCAGACACTTACATATTCCTAGCCATTCCTTTTGCTTAAGTTTGCAGAGATTTGTGCTTAAAACTGAATAAACAATCTCAGGGTTTTTGTGTGTGTGTG
G
ATGTGTGTGTGCGTGTTATATGAAGTCTTGCTAGAATGCATAAACAAACAAAAAAAATATCATACTCTCAGATCCTGGATACTGTGGTCGCCTGGACTTC
Celera SNP ID:            hCV11667726
SNP Position Genomic:     835402
SNP Source:               Celera
Population(Allele,Count): cau(-,9)   afr(G,1)   total(G,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58621):
TAGGTGATCCCCTCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACGACCACCAGCCTCAGTGAATGTTTTTTAATTTGGAAAGGATTTT
M
TAAGAAAGGATTCCAACTTTCCCATTTACAGAGAAGGAAGCTGAGGCTCACAGGTTTCACTCAAACCATAAAGCTCAGGAGTAACTAAAGGAACTGGAGC
Celera SNP ID:            hCV11667728
SNP Position Genomic:     830118
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(A,3)   his(A,3)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58622):
TAGTCAGTTAATTACATAAAGAGAACTTGAGCAAACTCTTACTCTGCCATATGCTGTGCAGATCCCTCTGAAAAGCTTTACAGATGTTCTTTTTTTTTTT
T
AATCCCTCCCCCTATCTTTCTTTCTTTGCACCCACGATGCTCTGCACTTCAAGCTAAATATAATGTATCTGATTTTACAGCATACATACTAATCAGGTTT
Celera SNP ID:            hCV11668389
SNP Position Genomic:     470607
SNP Source:               Celera
Population(Allele,Count): cau(-,2|T,4)   his(-,2|T,4)   total(T,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58623):
CTTACATTTAAATACAGGCCTTTCCCATTTCACAGTGTTTCTAGCTCCCCTTTCCAATACATCTCTCTCTCTCTTTCTCTCTCTCTCTCTCTCTCTCTCA
M
ACACACAACACACACACACACACACAGCCAAATCAGACACCAACATAAACTGTAGAGTTAACATTCTTTTTCCACCCTCACACTTTTTTTAGCTCCGATC
Celera SNP ID:            hCV15912076
SNP Position Genomic:     447637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58624):
GCACATATGTGTGTGTGCAAATTGTACTTGCAGTGGCTGCCTGGGAAATGAAATTTCTGCACCTTGCCAGAGCATGTTTTCCCTCTAAAGAGAGGCAGCT
S
ATAATTAGTAATGCTAATGTCGGGGTGAGATGCAATAGATAATCTAACACCAGCAATGATGCCCAGAGCATTTATCTTTGATGCTGGGAATGCGTTCATT
Celera SNP ID:            hCV15912077
SNP Position Genomic:     447345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58625):
CCGATTCTCTTCCACGTGTGGACAGATTGGCACATATGTGTGTGTGCAAATTGTACTTGCAGTGGCTGCCTGGGAAATGAAATTTCTGCACCTTGCCAGA
R
CATGTTTTCCCTCTAAAGAGAGGCAGCTGATAATTAGTAATGCTAATGTCGGGGTGAGATGCAATAGATAATCTAACACCAGCAATGATGCCCAGAGCAT
Celera SNP ID:            hCV15912078
SNP Position Genomic:     447316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58626):
CTATCACATTTAGAAACGCCCCTTGCCTTCCTTCCAGGACTTTCTTCCTTAATCAGGATTGACTTAACTGTTAACTCCTAGAACTGTCGTTGATTGCTTG
S
TGAAGTAACAATTAGTATAGACATTCAGCAACTGGCCTCCCATACTGTGATTCACTGACCCAGACTTTGACATCTTGGGCTCAGCCATACCCTGGAGCCT
Celera SNP ID:            hCV3284525
SNP Position Genomic:     703634
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,4)   afr(C,1)      total(G,4|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58627):
GTCCAGTATATTGGCCTCCAGGGCAAAGCTACCTAGGTTCTGAGTCCAATTATGGCCTTCATGAGTCTTGTTTCTTTGGACAGGTTTTCCAGTGTCTCTG
C
GCCTCAACTTCCTCATGTATAAAGTGGAGATGATGCCATTACAGGTTGCTGCTTTATGGCACATAATTAATACTAGCTCTTATTTATAGGAACTGAACAA
Celera SNP ID:            hCV11667738
SNP Position Genomic:     819521
SNP Source:               Celera
Population(Allele,Count): cau(-,7|C,2)   afr(C,2)   his(-,7)   total(C,4|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58628):
CTTTCTAATGCAGAAGGTGTAGACACAGGGCACAGAACTGCCAACTGTGGCTGCTGACACCTGTCTGACTTTGACTGGGTTAGTGACAAAGAAATGACTT
K
CCTTTTGTATGTTAGCCCTGTGCCTGGCATACTGCAAATATCTATGGTTGATAAATTAATGTTATCATCATCACGTAAGCATCTTGGGAAGTCTGTAAGT
Celera SNP ID:            hCV3284526
SNP Position Genomic:     702322
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,6)   cau(T,6)   afr(G,1)      total(G,1|T,12) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58629):
ATCTAAGAGGTAATAACCCTAATACCTCTTAGTGTTGCTGTGAGAATTAACTAAAGTACCATCTTCATGTGGTCAGCACAATGGCTGACACATAGCAAGA
Y
CTTGGTAAGTTATAGCTGTTGCTGTCATTCCTGCAGCTGTTATCTTTGTCATTACGCTTACTGTTATTATTAGCTCTGCTATCAGAGTGATGCTGTGGCT
Celera SNP ID:            hCV3284527
SNP Position Genomic:     702074
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,9)   afr(C,9)   total(C,18|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58630):
CCATTTGGACTTCCTTTTTGTAGTGGGCTATTAGATTTTGCCTCTGCTTGTTTCTGAATACCCAAGCTTGCTAACACAGGGAAAGACCAATTATCATGAT
T
ATTATTATTTACCTTAAGACCTGATTCTACCTATCTATGATCACATAGACATTTGGAAGCAAAGAGAAATGCTTTTCATGTGGGAAAAACCAATACCAAC
Celera SNP ID:            hCV11668395
SNP Position Genomic:     464838
SNP Source:               Celera
Population(Allele,Count): cau(-,4|T,1)   afr(-,4)   his(-,4)   total(T,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58631):
CATGGTGAAAGAAGACAGACAGTGTAATTTCCCTGGAAACTCAATTTTGATTCAGACGTCCACAGCATCTCATTTCTGCCTTTAAAAAATTTCAAGAGTG
R
CATTTTGGCATGATTGGACTCACAGGTGGAGAAGGTATGACAAACATTCTGGAAATCTTGGAAGGTGAAATATAGGGAAGATGGCCCCTATGGAGGTTCA
Celera SNP ID:            hCV16290589
SNP Position Genomic:     442134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58632):
TGAGGATTAATTGAAATAACTCGCAAAAATATCCAGCTCTCTGTTTCCCTGCTAGGGGCTCTTGTCATAGGAGCCATTGTTGTAGCCTTAGAAAACATAC
R
GCATTATTTTAGGGGGAGAGGTTAGAGTAGAATTTTAAAGAGTGCATTTCTCTTCCAGTAAGCAATTCTGCATCGATAAAAAGTGGAGAAAGAATAAGTG
Celera SNP ID:            hCV15912085
SNP Position Genomic:     447021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58633):
AGATAGATGAAGGGTTAGGAAGATGTAACTTGTCCTAAATCACGTGTCTTCTAAGCGGTGGAACTGATTTTCTCACTGACTATAGATGTTGAGCCCATTA
M
TGTGATACCTACTGCCTTTTAATTTTAAAAGTTCTCATTGTTTTATCGTTTTCATCATTATCATATGATTTACCTCTTCTCTTGTGTCTTATAATCCGAT
Celera SNP ID:            hCV15912086
SNP Position Genomic:     445060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58634):
GTCTTTTTTTTTTTTTTTTTTTTCCTCCTTTTTTGAGAGAGAGAGTCTCACTCTGTCACCCAGACTGGATTGCAGTGGCACAATCTCAACTGACTGCAAC
S
TGCACCTCTCAGGTTCAAGCAATTATCAGGCCTCAACGTCCTGAGAAGCTGGGACTACAGGCATGTACCACCACACTCAGCTAATATTTGTATTTTTAGT
Celera SNP ID:            hCV15912087
SNP Position Genomic:     444614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58635):
ATCCAGTCAGAGTGAATCAGCTTGCCCAGTGCTTGGCATATAGCTGCTCAAGAAATATTAGGCATTCTTTGTTATTATAAATCCCCTTTGTATTTTAAAA
Y
CCTCATGTATCACTGAAACAACCAACTGAAAACCATTGAGAGGCTCATGGTGAAAGAAGACAGACAGTGTAATTTCCCTGGAAACTCAATTTTGATTCAG
Celera SNP ID:            hCV16290590
SNP Position Genomic:     441988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58636):
TAATGATTAAATGATTCTGGTTATTAGCATAAAACACAGCTGTAGTACATAAGAGGTAACCTTTATTGTTTAAATATTATTCAATGTGCCTACATAGCAC
M
CAGCAAAAAAAACTTTTTTTCAGACTATTCAGCCATTATGGAAATAACTTATAATTACATTCAGAAATGTTGCAAATGCAACTCATCCTTGCAGTGGGAT
Celera SNP ID:            hCV3284531
SNP Position Genomic:     701062
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   his(C,1)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58637):
TGTTTAAATGCTCAAACTTGGTATGGAACTGCACAGACTATACGGCTGCTCTCCACTCAAGAATACAAATTGAACATTGACTTTCCTCATTTTTTATCCA
R
TTTTGCTTTCCAGAGACCCAGATATGGCTTCATTTTTTAAATGAAATTTTGCAGGTCATTAGCTCATAATGATTAAATGATTCTGGTTATTAGCATAAAA
Celera SNP ID:            hCV3284532
SNP Position Genomic:     700895
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   his(A,1)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58638):
TGTGGCTCTCCCCAGGGCCTCCCTTCTTGTTCTCCCCAGTTGCAGACCTCAGACAGGAGTCTGCTTGTCTTCCTAGGCCCTTGTCAGAGTGGAAGGTGGC
Y
CTCCACCACACCAGCCCACTTTCCAGTTATCAAAAAGGATCTTTGATTTAATATTTCCAGAGCAATTTTGGTGATTTCCATTCAAATCTGTTTTTTGTCA
Celera SNP ID:            hCV11667745
SNP Position Genomic:     818576
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,1)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58639):
CCCAGAGTGCTGGGATTCCAGGCGTGAGTCACCATGCCAGGCCCCTGCCTCTGTTTAAATGCTCAAACTTGGTATGGAACTGCACAGACTATACGGCTGC
Y
CTCCACTCAAGAATACAAATTGAACATTGACTTTCCTCATTTTTTATCCAGTTTTGCTTTCCAGAGACCCAGATATGGCTTCATTTTTTAAATGAAATTT
Celera SNP ID:            hCV3284533
SNP Position Genomic:     700844
SNP Source:               Celera
Population(Allele,Count): cau(T,7)   his(C,1)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58640):
GGAAAAGCTCATTTTCCAGTTTTTCCCCCTCCAGCTGTAGGGGATATATTTTCGTTAATTCCTGTGACCATATGGCAGCATGGTTAGGATCTTGGGCTTC
Y
AAATCAGACAGTTGTAAACTTAAACTCCAATTCTGCCACTTATTGTGTCACTTTGGACAAGTTACTTCACCTCTCCAAGCCTCAGTTTCCCTGACTATAA
Celera SNP ID:            hCV3284535
SNP Position Genomic:     697311
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,2)   his(C,1)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58641):
GTGAGCCACGGTTGGCCAGCTCCCAAACACCATGACATACAACTTGCAGGAAAAGCTCATTTTCCAGTTTTTCCCCCTCCAGCTGTAGGGGATATATTTT
Y
GTTAATTCCTGTGACCATATGGCAGCATGGTTAGGATCTTGGGCTTCTAAATCAGACAGTTGTAAACTTAAACTCCAATTCTGCCACTTATTGTGTCACT
Celera SNP ID:            hCV3284536
SNP Position Genomic:     697263
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   his(T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58642):
TAGTATTTGCCAAAACTAGAGGATGAATGAGTGATGGGTAAGAGAGTTCTCAGAAAAATGGATATAAACAATATTGTAAATCATATTTGGAAAATAAATA
Y
TAGAATCATTGAATCCCTGAGTTATAGAAAAATTTATTAATAGCGCTATCTGGCTACTTTTTAAAGTGTGGACATCCTCGATGTATTAGCTATGCATCTG
Celera SNP ID:            hCV16290597
SNP Position Genomic:     441699
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58643):
TTTCTTACCAGGAGTACATAGTTTGTTCTTTAAGCAAAACCATATGCATCGTATTTTAAATGGAACAGGGAGGTTGTTCCATGCGTCAACTTAGTCCAAA
W
GTAGAGGGTCAGGAAAACAATGATATGAGAAAAGGGCCGGTTACTGTCTGGGAATCCATAAATACTGCTTGGCAAATGGCACATTGCATGCTTATTCCTT
Celera SNP ID:            hCV11667749
SNP Position Genomic:     817190
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   afr(T,3)   his(T,3)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58644):
CCCTTATCAGAGATCAATTGGCCATAAATGTAAGTATTTCTTTCTGGACTCTGAATTATATCCCATTGATCTGTATGCCTGTCCTTATGCCATTGCCACA
Y
TGTTTTGGTTACTGTACTCTGTGTAAGTTTTGAAATTTGGAATTGTGAATTCTCCAACTTTGTTCTTCATTTTCAAGATTGTTTTGGGTATTCTGGGTCC
Celera SNP ID:            hCV3284537
SNP Position Genomic:     696960
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,2)   cau(C,2|T,1)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58645):
CTTTGAAAGTTGTCCTTCTGCACCCATTTTCCCCAGACCTAACCTCGATTTGTGCTCCAGGTCTGAGCAGAAATGTTATTCCCTCCAGAAAGCCTTCCCT
K
GATGTTGAGGGATGAAGTTGTAGCCCCCTCCCGAATGCGTCCTCAGAACTCGCTGGTTCTCGTCCTCGCCCTCAGCATACTTGCTCATTGTTTGTTTCCA
Celera SNP ID:            hCV16290598
SNP Position Genomic:     441370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58646):
TCTATTAAATGGTCTTTGCACCCTTATCAGAGATCAATTGGCCATAAATGTAAGTATTTCTTTCTGGACTCTGAATTATATCCCATTGATCTGTATGCCT
R
TCCTTATGCCATTGCCACACTGTTTTGGTTACTGTACTCTGTGTAAGTTTTGAAATTTGGAATTGTGAATTCTCCAACTTTGTTCTTCATTTTCAAGATT
Celera SNP ID:            hCV3284538
SNP Position Genomic:     696940
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58647):
GCATGTGGCCCACCAGCCATGGTTTGGACAAGCTTAGTCTACAGGTTCTTCAAGAGGGGCTTGAGCATTTGAAAGACTTCTAGTGGGAGAGATCACAAGG
K
ACAAGTAGAAAATCCTGGGCTGGCCTGAGAGGCAGACCTGTGATTATTTTGCTCTTTGAAAGTTGTCCTTCTGCACCCATTTTCCCCAGACCTAACCTCG
Celera SNP ID:            hCV16290599
SNP Position Genomic:     441216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58648):
TCTCGCATTTGGTGAGAGGAGTCTTCTGTGTTGATTGTCATGGTGGTGTGAGAGCAGAAGGGAAACATGGTTTCAGAAAAGAGTTTTTCCCTGAAACCAC
Y
CCTCTATTTTCTTCTCAGACTTTTATAGTTTTAGCACTTATGTTAAGACTTTTGATCCATTTTACGTCAATTTTTCTATATAGTTTAAGGTAGGCATTCA
Celera SNP ID:            hCV3284539
SNP Position Genomic:     696672
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,2)   cau(C,2|T,2)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58649):
ACTTTAGGCATTGATGCGCTTAATTATGCTTTTCAACAAGATTTTGCATTTTTAATATTTCCTTTTAGAGCTTCCAGGAATCTCAATTATTAATTGTACC
S
TGGATTTATTGGTCTTTGGACTCTCCCGCTAGTATAAAGACTGTAGATTCATCAAACATTGTTTACTGTCTTCAAACTTCAACAGTGTTTTAACTATCAA
Celera SNP ID:            hCV11438378
SNP Position Genomic:     937220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58650):
GGGAAAATGGAGGAGAATGATGACGAAGGAGGAGGAGGAGGAAAAGGTGACTTGCCTCTAGCTGATGTGGATTATTTCTCTTTTTTAATTTCCATGTCTG
Y
GTAGCTTCATCATAGATCTCAGCTTAAGGACAATGAAAGTCGTTTATTGAGTACTTAGTATGTGCTGGTTGCAGAGCCAAGTCTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV15912094
SNP Position Genomic:     444433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58651):
ACAGACAGTGTAATTTCCCTGGAAACTCAATTTTGATTCAGACGTCCACAGCATCTCATTTCTGCCTTTAAAAAATTTCAAGAGTGGCATTTTGGCATGA
Y
TGGACTCACAGGTGGAGAAGGTATGACAAACATTCTGGAAATCTTGGAAGGTGAAATATAGGGAAGATGGCCCCTATGGAGGTTCATTGTCCCCCACCTT
Celera SNP ID:            hCV15912095
SNP Position Genomic:     442148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58652):
CGTCCTCGCCCTCAGCATACTTGCTCATTGTTTGTTTCCATCTCTATCATCTCTGTGAGCCCTTTGAGGATGGATGTGTGTCCATCTTGTTAACAGTTGG
M
TCCCCAGTAACCAGTACAGTGCCAGATACAGAGTAGTAACCCTACATTCTAGCGTAGGCAAATATTCTAGTATTTGCCAAAACTAGAGGATGAATGAGTG
Celera SNP ID:            hCV15912096
SNP Position Genomic:     441531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58653):
TTTTAAGATACAGAAAGTGGGCCTTAAAGGTGCTACTGACTTGCTGATATGCTTTGGCTGTGTCCCCACCCAAATCTTAACTTGAATCGTATCTCCCAGA
R
TTCCCACGTGTTGTGGGAGGGACCCAGGGAGAGGTAATTGAATCATGGGGGCTGGTGTTTCCCATGTTATTCTTATGAAAGTGAATAAGTTTCATAAGAT
Celera SNP ID:            hCV8445341
SNP Position Genomic:     871251
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   afr(A,3)   his(A,3)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58654):
GTGTCAAAACAGGAGCTGTATTTCATGTCCTGAAAAGTGTGCACGGTTGGCCTCCTCTAGGTCCCACGTGCCTTCTGGATGGTTTTAACCCTCAGCCTCT
Y
TTTGGCCTGTGAGTGAAACCCATCATTTGACACAGAGGCTTTCTGGAAATGATGCTCCTCTTAGATGAAAGTTCCCTTTCAGAAATCTTTCATTCCCTGA
Celera SNP ID:            hCV11667750
SNP Position Genomic:     816964
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(C,2)   his(T,1)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58655):
CATAACCACATCTACTTTGTGTCTCTATAGATTTGACTATTCTGGATATCTCATATAAATGGAATCACACAATATGTGGCCTTTTGTGTCTGGCTTCTTG
S
TTTTAGCATGCTTTCAAGGTTCATCCATGTTGTAGAATGTATCAGTACTTCATTCTTTTTATGGTTGAGTGATATTCTGTTACATGGATATACCACTTTT
Celera SNP ID:            hCV3284540
SNP Position Genomic:     694874
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58656):
ACCATCCCCCGCTAAAGAAACACCATATCCATTAAGTGGTCATTCCCCATTTCCTCCTTCCCCCAGCCCCTCATAACCACATCTACTTTGTGTCTCTATA
S
ATTTGACTATTCTGGATATCTCATATAAATGGAATCACACAATATGTGGCCTTTTGTGTCTGGCTTCTTGCTTTTAGCATGCTTTCAAGGTTCATCCATG
Celera SNP ID:            hCV3284541
SNP Position Genomic:     694803
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58657):
TACTTTCTAAAATTCTCGGGCCTTTGCACCTTCTTTTTATCAACGCTTAGTTCTATGTTACTGAATATTTCTTAATTAAGTGCAGGAAAGAAAATAACCA
Y
TTTTTCTCCTTTTAAAGAAGCACACACACCTTTCTTTTATTGGTATTACATTCCTTTTCCCTGTTGGTGCCCCTGTTGGTTTTCCAAATTGTCTTCCCAT
Celera SNP ID:            hCV11667757
SNP Position Genomic:     812266
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58658):
AAACATCTGTGCACCAGTAAAGGGTTCTGATGTGTGATAAATTTATTTAGCTATTACTCATCTGAAGTTATACTATTTTAGGATCTTGGGGCAGTGAGGA
Y
TTTGGAAATGGAACAGGATGCTCCTTTAAGTTAGGGTAAAATGAAGTCTATAAAAACTGTTTTTCTATATCCTCCTCCTACCCCACAAAGAAAGTTAGGG
Celera SNP ID:            hCV11438384
SNP Position Genomic:     936958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58659):
GAGGACCTTGTGTTCCTGCTGGAGAGTGAGAGTCCCTCCCTCCCCATTCCACTCCCAAGAGCAGTGAAGAGTCAGGAAGGTGGGCTTGTTTTGTTTTGTT
W
TGTTTTGTTTTGCTTGTTGAGCAAGGGAATGCGGTTCCCCTGTGTCGGACTTGTTTCAGAAAGACAATGTCACTGAGGCTGGGGCAGGGAGATTAGCTGA
Celera SNP ID:            hCV11438385
SNP Position Genomic:     932570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58660):
TAAATGAAGCACCGCCAGGCCCAGTTGGGGAGGACCTTGTGTTCCTGCTGGAGAGTGAGAGTCCCTCCCTCCCCATTCCACTCCCAAGAGCAGTGAAGAG
Y
CAGGAAGGTGGGCTTGTTTTGTTTTGTTTTGTTTTGTTTTGCTTGTTGAGCAAGGGAATGCGGTTCCCCTGTGTCGGACTTGTTTCAGAAAGACAATGTC
Celera SNP ID:            hCV11438387
SNP Position Genomic:     932541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58661):
AACCCAACTCCTAGCCACTGCTTTTTGAGCAGCTACTCAGTGCCTAAGACTTTGAATAGTTTATTAATCATGTGTCACTGCAGCAAAGGGGACATTTCGG
Y
CCTGATTTCAGAGATGAAAGAACCAAGGCATAGAAATTGAGTCACTTTCTGGAGTGTACACAACTAGTAAGTGGATTCGAGTTAGTTTTGCTCTATTCCA
Celera SNP ID:            hCV11438388
SNP Position Genomic:     922109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58662):
TTTTTCAATTCCAGAGATGTTTTCACCTGGAAGATTCCCCAGATTTGGCAAAAACAACCCAACTCCTAGCCACTGCTTTTTGAGCAGCTACTCAGTGCCT
W
AGACTTTGAATAGTTTATTAATCATGTGTCACTGCAGCAAAGGGGACATTTCGGCCCTGATTTCAGAGATGAAAGAACCAAGGCATAGAAATTGAGTCAC
Celera SNP ID:            hCV11438389
SNP Position Genomic:     922054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58663):
CTTTTTACAGTCATGTGCTTTCAGCCCAGTACCCTTTGCTATGCCAAGATCCAGCTGAAACTGAACCAGGTGGGGGAGGCCTGCTAATGCCCAGGCAGTC
R
AAATGACGCCATCTCATCACTCCTTCTCTTAAAATTTTTTTTTGTCTTTCTTCTTGGATTTCCAGCAACAGGGAGCTGCCACCACCGTGTACTGTGCTGC
Celera SNP ID:            hCV25762815
SNP Position Genomic:     1118993
SNP Source:               Applera
Population(Allele,Count): afr(A,1|G,17)   cau(G,18)   total(A,1|G,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:58664):
GATCACCATTGGTAGATCATCACTTAGAATGCCATCACTACCTTCTAACAGCAATCAGTCCCCTTAAGTGGCTTTCTTCTCTTTTTTTTCTTTTATCTTT
K
TGTTTTTTTTTTTTTTTTGAGGGAGTCTTGCTCTGTCTGCCAGATGGAGCACAATGGCGCGATCTCAGCTCACTACAACCTCCGCCTCCCGGGATCAAGC
Celera SNP ID:            hCV15788773
SNP Position Genomic:     826927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|TTG,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58665):
AGAATGAGGTATGTGGTACTCGTGAGCAGGATTTTCAATGCCTGGCTGGTTGTTACTTATCCATTTAGTCCGAGCTTCAGGGAAAGAACATGACACCGGC
S
TCCAGCAGAGCCTGCTCTTGGTCCACTGTTTATCCTGGTGACCTTAGGCAAGTCATTTAATTTCCTTGAGTTTTGGTGTAAGTATTGATGGAGCAGACCA
Celera SNP ID:            hCV1445100
SNP Position Genomic:     834699
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(G,3)   afr(C,2)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58666):
AGCAGGATTTTCAATGCCTGGCTGGTTGTTACTTATCCATTTAGTCCGAGCTTCAGGGAAAGAACATGACACCGGCCTCCAGCAGAGCCTGCTCTTGGTC
Y
ACTGTTTATCCTGGTGACCTTAGGCAAGTCATTTAATTTCCTTGAGTTTTGGTGTAAGTATTGATGGAGCAGACCATCAATAACTGTTCTTATGTCTATT
Celera SNP ID:            hCV1445101
SNP Position Genomic:     834723
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,1)   cau(C,4)   afr(C,4)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58667):
AATTATTCTTTTACCCAGACACTTACATATTCCTAGCCATTCCTTTTGCTTAAGTTTGCAGAGATTTGTGCTTAAAACTGAATAAACAATCTCAGGGTTT
G
TGTGTGTGTGTGTATGTGTGTGTGCGTGTTATATGAAGTCTTGCTAGAATGCATAAACAAACAAAAAAAATATCATACTCTCAGATCCTGGATACTGTGG
Celera SNP ID:            hCV1445103
SNP Position Genomic:     835389
SNP Source:               Celera
Population(Allele,Count): cau(-,9)   afr(G,1)   total(G,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58668):
TGTGTGTGTGTATGTGTGTGTGCGTGTTATATGAAGTCTTGCTAGAATGCATAAACAAACAAAAAAAATATCATACTCTCAGATCCTGGATACTGTGGTC
R
CCTGGACTTCAAAAGCCTTTTGTCCGTATGTATTTACATAATGTATTCTCCATGTTTGGTTTTCATTAAACCCATGAGTTTAATAATAAAGTGTTTGGAA
Celera SNP ID:            hCV1445105
SNP Position Genomic:     835492
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,5)   afr(G,5)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58669):
GTGTTATATGAAGTCTTGCTAGAATGCATAAACAAACAAAAAAAATATCATACTCTCAGATCCTGGATACTGTGGTCGCCTGGACTTCAAAAGCCTTTTG
Y
CCGTATGTATTTACATAATGTATTCTCCATGTTTGGTTTTCATTAAACCCATGAGTTTAATAATAAAGTGTTTGGAACTATGCTTTTCCCTACCACTTTT
Celera SNP ID:            hCV1445106
SNP Position Genomic:     835515
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,5)   afr(T,5)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58670):
AAATGTATTTAACGCTCTCTCAAGAAATCCATTTAAGAATAAGAACACGGTTTGGGGGTGATTTTCAGACCGTAAATTGAAGTGTAAATATTCGAATTAT
Y
TTCATAAACTCTTCAGTTCTGTTGGGCTTTTATGTTATCATACAGTGATTTTTTTTTTTGTATTTAAGTTTTCTAGCAGTTCTCTTTTTTAAGAGCCTCA
Celera SNP ID:            hCV1445107
SNP Position Genomic:     836619
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58671):
TGTGAGCCACCGCTCCTGGCACCCATCAAATTTTCAAAGGAAGAAATGGAATGGTGCAACCATGGTACATGGGAAGGAGGAGGGGGACACACAAGACTGT
R
CCTATCATGGGGGCTTCGACCTCATCTGGGAAGGTGGTTGGAGAGAGTGAGTCCTGACCTGAGCTTTGGAACTTATCAAGTTGAGAGAGAAATTTGATAA
Celera SNP ID:            hCV11438390
SNP Position Genomic:     917255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58672):
GAGCAGAAGAACTCACTGAAAAGTCCTGGCAAGGTTCCACGGCACCTGTGATGCTTCCATCACACATATTTGCTGAGTACCCGCTGTTCATAGGTCAGTC
R
CTATGCAAGGCACTGAGGTGACAAAGACAAGCAGAATGACAGTTAAATGTAACATGGGCTTTGTGGTCAATTAGTTCTGGGTTCGTTCCCAGGTCCTATC
Celera SNP ID:            hCV1445109
SNP Position Genomic:     838258
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,4)   his(G,4)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58673):
CATAGTGGTCATGCTAACGTAATAACCTCTCTTTTTTATTTGAAGGATATTAAATAAAATTGTACTTTTAATCAGAGCCTTTTTTTGAAAAAAAAAAAAA
A
GAAAAAGATAGTTGATATTGTGGGAGATGGCTACAATACAGATTCATCCCATATTCTCTTTAATGTTCTATTCCCAAGAAGAGCACTAATTAATCTCTCT
Celera SNP ID:            hCV11667764
SNP Position Genomic:     808268
SNP Source:               Celera
Population(Allele,Count): cau(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58674):
TGCCTTCACTGCACATTCCGGGATCGCCATGTTCTAGAACATTCATGTCTGCCTTTTAGCCAGCAGAATGCTATTCTCACATCCACAATGGGACAGCTAA
Y
AGCCCCCATTTATCAAATCCCTGTCATATGCTGTGTCAGGCACTTTATATCCCTCATCCAGGAGGATGCAAAAACCTGGTGTTTTTCTTTTTTTTTTTTT
Celera SNP ID:            hCV25933625
SNP Position Genomic:     74707
SNP Source:               Applera
Population(Allele,Count): afr(C,38)   cau(C,28|T,10)   total(C,66|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:58675):
GTGTGTGTTGGGGGTGGAATTAGCATGTAGAGGTTGGCAAAGGGGACAGGAGACTGTGGGATGATTAGTATATTCTTATTTGGCCTGGGAGGGAAAAAAA
R
TCTTTCATTTCCAACAATATTCATTCTCTGTGTCACCTCAGCATTTAATTTACTTCCGTCACAAAACTACTTGAAGTTGTCCCAGGCTAGTTGGTCCTAT
Celera SNP ID:            hCV16290904
SNP Position Genomic:     366514
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58676):
TTAACAGCAAGATCTTCAGAGCTGCAGCTCACCTGTGCCACGATGGTCTCCTAGGAGCCCTTTCCTGCTGTAGTCCCGCCCCGAGGGGTTTCACTTCCCA
Y
TGCCTCTTGGTAGCCGTGGGCACTTTGGTGCTCTGATGATGTAACATGGAGATTGTCCTTGTCTCCATCGCTGTCTTTACTGGTGTATGCCCATGAGGTA
Celera SNP ID:            hCV3285500
SNP Position Genomic:     95692
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58677):
GGTTCCACGGCACCTGTGATGCTTCCATCACACATATTTGCTGAGTACCCGCTGTTCATAGGTCAGTCGCTATGCAAGGCACTGAGGTGACAAAGACAAG
S
AGAATGACAGTTAAATGTAACATGGGCTTTGTGGTCAATTAGTTCTGGGTTCGTTCCCAGGTCCTATCACTAACTAGTACCCTTATGAACCTGGACATGT
Celera SNP ID:            hCV1445110
SNP Position Genomic:     838290
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   his(G,1)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58678):
GTCAGGCCATTGGTATACCATTGTTTTTCTTAAACATTTATTTATTTTCTTATATTTACAGCATATGTGGTCATTTAAAATTATTTTATAGCATATAAAA
S
TAAAAAGAATATAAATTAATTTTTTAGCATTAATATTAGGGAAGATAATCTGACATTTAAAAATACATGTCTATATGTGTATACATACATAGAAGTATAT
Celera SNP ID:            hCV16290905
SNP Position Genomic:     366262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58679):
TTGTCTCCATCGCTGTCTTTACTGGTGTATGCCCATGAGGTATGTCAAAGTCTGTATGTCTTTGTAATAATGCTGGATCATTTGTCCACCTTCAGAGACA
R
CTGAAGACAGTTTTAAGTGAAACCACACAGAGGGCATATACCATTGGGACAAGAGGTCTGAAGTCTATTTTTGAGAAAGAGAAGAGATCAAGTAGTTAAC
Celera SNP ID:            hCV3285501
SNP Position Genomic:     95851
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58680):
CCACACTCAGGAATAGTGGAAAACTGACAAGACCCTGGAGATGCTGTGTGGGGAGGGATAATGGGAACGCAGGTCAGCATGCTCTAGGAATGGTAAGAGA
R
ACTCCCAATCTGAACGGTAGTCAAAGAAGGTCTTCTTCTCTTTGGAGACTGAAAGGCTGAGAGGGTACCTGCCCTGCTAAGGAAATGAACAGGACGGAAG
Celera SNP ID:            hCV1445111
SNP Position Genomic:     838717
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   afr(G,1)   his(A,6)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58681):
CTGGGCTTAGTAAGTTGCCTGACTTCTCATCCTGGAGTTCGTATCCCCTTGTTTCTAGAAGAGAAATCCCTCAGATGTGAAGGTGTGTTCCATGATTTTG
Y
CGAACTTGCCCTACATACTGTTTTATTATATATTCTGCCCACTTCTATTCCCTGCCAATTAATTAATTGTTTCATTGGTATAGTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV16290906
SNP Position Genomic:     365785
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58682):
CCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCCAAGTTCAAGCGATTCTCCTGGCTCAACCTCCTAAGTAGCTGGGATTAC
R
GGCACCTGCCACCACGCTCAGCTAATTTTTGTATGTTTAGTAGAGACGAGGTTTCACCATGTTTGTCAGGTTAGACCGGAACTCCTGACCTCAAGTGATC
Celera SNP ID:            hCV3285502
SNP Position Genomic:     96155
SNP Source:               Celera
Population(Allele,Count): cau(A,8|G,2)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58683):
GGAAATGAACAGGACGGAAGAATGATGGAGGGAGAATGGGAAGTCCTCAGCACATAAAAGTTTGAGCTGGAAATGAAATATACAACTCTGCATAGTCAGC
R
GATTTTGCTGGGCTGGGCCAGTTCAGCTCAGCAAGGATTGCTGGGCATGTGCTTGAAGGAGAAAGGTGAGGATACAAAGGCAATGAGTACATGATCCTTG
Celera SNP ID:            hCV1445112
SNP Position Genomic:     838898
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(G,1)   his(A,3)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58684):
ACCAGTCCCTAGCCTGTGGAGAAGGGGCAATCTCTTATCTGAAGGCCTAGGAGGTGCAGGGATGTTTATATGGGCTGCTAGCGCTTAGTTTCCTGCCACA
R
GGAGACAGTAAGAAAGGTGACGTCAATCTGAGATGAGAGAGAGAGCAAAACAGTTCTTTTGACCACCTTGACCCCGACCTTGAAATAAGGTGGAACTAAT
Celera SNP ID:            hCV3285503
SNP Position Genomic:     96648
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(G,4)   his(A,1)      total(G,4|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58685):
CTCCACATTGGCCTTCTGCCGTGATTGTGAGACTTTCCCAGCCATGTGGAACTGTGAGTCCGTTAAACCTCTTTCCTTTATAAATTACTCAGTCTCAGGT
W
TGTCTTTATTAGCAGCATGAGAACAAACTAATACACCACTTGAATTGCTGGTACGTCTGAGGGGCTTGACTCCCAGTCCTTCGAACATGGAGGGGTAGCT
Celera SNP ID:            hCV1445113
SNP Position Genomic:     839534
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   his(T,1)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58686):
ATGTCTTTATTAGCAGCATGAGAACAAACTAATACACCACTTGAATTGCTGGTACGTCTGAGGGGCTTGACTCCCAGTCCTTCGAACATGGAGGGGTAGC
Y
CTTTTTCTAAGCTCCTCATAAAGTATTGTATCCAATTCTTCAGAAGGGATGAAGGTATCTGGTCCTGTCCGCAAACAGAGAAGTGCTTCTTGTACTGACC
Celera SNP ID:            hCV1445114
SNP Position Genomic:     839634
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   his(T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58687):
TCCACAATGTCCACATACCAGCTTGATGGTGACTTGTGTCATTCTCCATCCCCTTGTTAAGAGAAAATCTACTTTATGAGCCCTCTTTCCAACCGCAGTG
W
TGAGGACTAGACCAGGCAAGATGATGCCGCTGGACCACTGGATCCAGCTGGACCGCTAGACCACAGAGCCCCTGGAGCCTCCCAAGGCCAAGCCCGCCAG
Celera SNP ID:            hCV3285505
SNP Position Genomic:     97448
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,3|T,5)   afr(A,3)      total(A,6|T,5) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58688):
GGGGTAGCTCTTTTTCTAAGCTCCTCATAAAGTATTGTATCCAATTCTTCAGAAGGGATGAAGGTATCTGGTCCTGTCCGCAAACAGAGAAGTGCTTCTT
R
TACTGACCAGGCAGTGACCTAACGCAGTCCTTGAGACAATTCCAGGTGCCCCTCAGGCCGTTTTTCCACCCTGGTGTTTTTCTTTGTATAGACAGCCTAT
Celera SNP ID:            hCV1445115
SNP Position Genomic:     839726
SNP Source:               Celera
Population(Allele,Count): cau(A,2)   his(G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58689):
TCCACCTGGGCACCCAGCCTGGTGAACAGGGTGCAGGCTGGGATTTAGCCCTACCTTGCTTTTGGACCATTGAGCTACTAAGTTGGAGCAACAAGGCTTG
R
GAATTTTTCTTTGATCATAGGTAGGAAAGGTAAAAAAACATAAATCTGCCAATAGAAAATAGCATCGTAATGAGTTTCTACTATATTTGTTTGGGCTTTG
Celera SNP ID:            hCV3285506
SNP Position Genomic:     97710
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,4)   afr(A,4)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58690):
TCCTTGAGACAATTCCAGGTGCCCCTCAGGCCGTTTTTCCACCCTGGTGTTTTTCTTTGTATAGACAGCCTATGCCTGGATAAGAACATGCTGCGTCAGA
S
AGTTCTTTTTCACTTTGCCCCTCAAAATGTGCACACCGACAGCCACAGATAGATCCCAGATGTCTTTTTCCTGCTCTTGCAAACCTTGAAGTGGGCCCTG
Celera SNP ID:            hCV1445116
SNP Position Genomic:     839854
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   his(G,1)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58691):
ATTCTAGCAAACTGCTCTCATATCCTGTGATCTTAAAATTTATTTATTCACCTTTTCCTTTTTGTTAAATAGATTCTGTAGAATTCTCTACATCTCTGAA
Y
ATAGTTTTACTTCTTCTCCAATTTTTATGGCTTTTGTTTCTTTTTCTTGTTTTAATGCACTGGCTATAGCCTGTAGGACAGTGTTGAACAGAGGTTTTGA
Celera SNP ID:            hCV11667770
SNP Position Genomic:     806448
SNP Source:               Celera
Population(Allele,Count): chn(T,4)   cau(C,4|T,4)   afr(C,4)   his(T,4)   total(C,8|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58692):
GTTTGGTGGAATTAACATAGATTTCCCACATGGGGAAGGTTTTGGGTGAGGATTTAGAACAAGGCAGGTTCTTGATCCTCGGAAGAGATTCTTATCTGAG
R
GGGGATTTGAGAATGGCATTGCAGAGTGGGAGGCGCTGCTGTGTGGAAAAATGAACTGGAATAATTATTAGAACAGTTCTCAGAATTTACAGGATATTTG
Celera SNP ID:            hCV3285507
SNP Position Genomic:     98095
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58693):
CCTGGATAAGAACATGCTGCGTCAGAGAGTTCTTTTTCACTTTGCCCCTCAAAATGTGCACACCGACAGCCACAGATAGATCCCAGATGTCTTTTTCCTG
M
TCTTGCAAACCTTGAAGTGGGCCCTGCCGGCAGGCACACCTGCCAAGGAAAATGCTGTCCTCGAAATGTTCCTGGCACCGTTTTCAAGAGGTGCCGACCA
Celera SNP ID:            hCV1445117
SNP Position Genomic:     839928
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,3)   his(C,3)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58694):
AGGATATTTGATCATAGGAGTAACTTTCCTCAGGAGTGATGGATGGAATGCCTGTACTTGGAATATTTTTAAATTAATCTATTTTCATTACATTGAAAGT
R
TGACACACAGAGAACACTAAAATTGGATGAGGCACTACCTGGAATTATATAAAGAATGACAAAGATGCGGTTATCCATTTATTTTCTAGGCAAGTTAGTT
Celera SNP ID:            hCV3285508
SNP Position Genomic:     98286
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58695):
CAAGCGCTGGAATTGCTGACCTCCCTGAAAGAGAAGCCTGCAGCTGCGGCCTCTGGGGTGAATTCCCCCCATGGGAGGACCTGGTGGAGTTAAAACAGAC
K
ATATCCACATCACAGAGAGCTGGCCCATTGCTCAGGGCCTGGGAAGTGGTAGGGAGGGACCTTCCCAGAAGAGAGATGACTCAGGCTGGTCCCAAGCCCC
Celera SNP ID:            hCV1445118
SNP Position Genomic:     840127
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58696):
GATCACATGAGGTCAGGAATTCGAGACCAGTCTGGCCAACATGGCAAAACTCCGTCTCTACTAAAAATTCAAAAATTAGGCTTGGTGGCACGTGCCTGTA
R
TCCCAAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGTAGGCGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTAGGTG
Celera SNP ID:            hCV3285509
SNP Position Genomic:     98730
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58697):
GGCAGGCCAAGGCGGGTGGATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGACCAACTTGGCAAAACCCAGTGTCTACTAAAAATACAAAAATTAGCTG
R
GCATGGTGTCACATGCATGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAACTGCTCGAACCCAGGAGGCTGAGGTTATGTTGAGCCAAGATTGTGC
Celera SNP ID:            hCV1445119
SNP Position Genomic:     840723
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   afr(A,2)   his(A,2)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58698):
GTTCCACATCCTCCCTGTGGGACTAGGGGCCAGGGCAATGGGAATCAGTGCAGAAATAAAGCTCATGCTGTTTGCTCTGCCATGAGTAACGAAGTCCTCT
R
TATCTGATCCTGGGTCTCCTGTTTTCTGCTAGCTTCCTCAAAACTTGGTAGCTAACTCATTAACTTACAAGGAAGAGGTTGAACGTGTAGACCCTTCACA
Celera SNP ID:            hCV25962773
SNP Position Genomic:     178072
SNP Source:               Applera
Population(Allele,Count): afr(A,1|G,37)   cau(A,2|G,38)   total(A,3|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:58699):
TGGTTTACTACTCCTTAGACGGTGGCCCAGAGACCCTTTAAATGAAATTCATTTTACTAGCACCCTTTTTCATCATGAGAAATATATTCTGTTTTTCTTA
R
AAAATGGGTTATGTTAGGTCTGGTCAAGGTAAATAAGTGTTGAGAGTCGATGTTGTGTGCATAGTTAATTTCAATTCTTTGAAGAAGCTCCCCCATGATA
Celera SNP ID:            hCV8709607
SNP Position Genomic:     304129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58700):
AGGCTCAGTTAATGATAAATTGTTATCAGGAGACCCAGCAGTTTCTGCTTTTTCTACCCTCCTCTTTGACCTCTATTTAAACTAATAGGTTACTGGGTTT
S
AACATGCCATGCAGTGGGAAGAGGCGGGAACCCCACTGAGCTGTCCTCTAAGTGAATCATGCCCACTATTTGGTTGTGAGGCTGTGGACTTTACTTTTCA
Celera SNP ID:            hCV60557
SNP Position Genomic:     230951
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,2)   his(G,2)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58701):
ACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGGTCAGGAGTTCGAGATCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACT
R
TAAACTCCGTCTCTACTATAAATACAAAAATTAGCCAGGCTTGGCGCTGGGTTTCTGTAATCCCAGCTACTTAGGAGGCTGAGACAGGAGAATCACTTGA
Celera SNP ID:            hCV16290913
SNP Position Genomic:     374277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58702):
GTATTAATAGTAGGGAGACAGTAAGCAAGCAAGGCTCAGTTAATGATAAATTGTTATCAGGAGACCCAGCAGTTTCTGCTTTTTCTACCCTCCTCTTTGA
S
CTCTATTTAAACTAATAGGTTACTGGGTTTCAACATGCCATGCAGTGGGAAGAGGCGGGAACCCCACTGAGCTGTCCTCTAAGTGAATCATGCCCACTAT
Celera SNP ID:            hCV60558
SNP Position Genomic:     230920
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,2)   his(G,2)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58703):
TCTCGATCTCCTGACCTCATGATCTGTCAGCCTCAGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCGGGGATCTTGTATTAATA
R
TAGGGAGACAGTAAGCAAGCAAGGCTCAGTTAATGATAAATTGTTATCAGGAGACCCAGCAGTTTCTGCTTTTTCTACCCTCCTCTTTGACCTCTATTTA
Celera SNP ID:            hCV60559
SNP Position Genomic:     230829
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,6)   his(G,6)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58704):
ACACTTTGAAATAATTTATGTTATGTGAATTTCATCTCAGCAAAAAGAGGCTAACACATAAGGAGACATATTTTGATACATGTGGCATATTAAGCTGCTG
Y
TGTTGTTTTTTAAATATTCCAGCTGCGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGGTCAGGAGTTC
Celera SNP ID:            hCV16290914
SNP Position Genomic:     374136
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58705):
TAGGACCCATATCCCTGGATTGTTGAGGAAATACGTGAACATATGTGGCACACATTATAGTGTCTGGCATACAATAAATACTTTGTAATGTTACTGGTGT
Y
TTCTTACCGTTATTGTCTCACTGGTGACCGTTTGAAATGTTGAAGCTTTATTATTACAGATAATGGTGGATATAGTCTCTTCCTTGTTTATTTTTTGACA
Celera SNP ID:            hCV3285510
SNP Position Genomic:     98991
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58706):
GGCGGGTGGATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGACCAACTTGGCAAAACCCAGTGTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGT
Y
ACATGCATGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAACTGCTCGAACCCAGGAGGCTGAGGTTATGTTGAGCCAAGATTGTGCCACTGTACTC
Celera SNP ID:            hCV1445120
SNP Position Genomic:     840733
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   afr(T,1)   his(C,7)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58707):
TTTATATAAAATATGCAGAGTAGGCAAATTCATAAAGACAGAATACGCATCGGTGGTTTCTGGGGCGGCGGGGAGTATGGAAAGCCTGTTAATGAGTACA
W
GTTTCTTTAGTTTTTTTTGGTTTTTTGTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACCATCTCTGCTCACTGCAA
Celera SNP ID:            hCV16290915
SNP Position Genomic:     373621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58708):
ATACTTTGTAATGTTACTGGTGTTTTCTTACCGTTATTGTCTCACTGGTGACCGTTTGAAATGTTGAAGCTTTATTATTACAGATAATGGTGGATATAGT
S
TCTTCCTTGTTTATTTTTTGACAGAATCTTTTTTTAAAAAAGTTTTTATTTGTTTGGTGAGAATTTACTTGTTACAGGTCTAGTGCTGTTATAGTTGAAT
Celera SNP ID:            hCV3285511
SNP Position Genomic:     99068
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,1)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58709):
ATGTTGACATAACAGTTCTGAAGACCAAGGTGGTGGAATAGGTTAGGTTAGGATACGTCGGAGGAGCCAGTGTGAACTGCTCCTTTAAGACATGAATTAG
Y
CCATTTTCATGCTGCTGATAAAGACATACCCGAGACTGGGCAATTTACAAAAGAAAGAAGTTTATTGGACTTACAGTTCCATGTGGCTGGGGAGGCCTCA
Celera SNP ID:            hCV1445121
SNP Position Genomic:     840993
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   afr(T,1)   his(C,7)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58710):
TTACAGGTCTAGTGCTGTTATAGTTGAATGTTTTGAATTATGTAACTTAAGTGAAACATAAAGCTATGACTTGAATTTTGTGGTTAGAAATTTTCTCAGT
Y
GATTGACAAGGATGGCGTATTGGCCACCTTTTGCCGCAGTAACAAACAATCCCAGACTCTCAAGGCTTGCAAAAATAAATGTGTGTTTGTTTGCTCATAA
Celera SNP ID:            hCV3285512
SNP Position Genomic:     99240
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5|T,2)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58711):
AGAGGAGAGCTTGTGTAGGGAAACTCCTGTTTTTTAAAACTATCTGATCTCGTGAGACTTATTCACTATCACGAGAACAGCATGGGAAAATCCTGCACCC
R
TAATTCAATTACCTCCCACCAGCTTCCTCCCACGACATTTGGGAATTGTGGGAGTTACAAGTTGCAATTCAACATGAGATTTGGGTGGGGACACAGCTAA
Celera SNP ID:            hCV1445122
SNP Position Genomic:     841214
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58712):
GTAACAAACAATCCCAGACTCTCAAGGCTTGCAAAAATAAATGTGTGTTTGTTTGCTCATAACACATGTGGCTGAGGGTTGGCCGTGGCTCCACAGTCAC
R
GGTGGGCTTTCCTGGGCTCAGCTTCTCACAGCGTCTCCTTGCAGGGCCCAGGCTGTAGGAGATGTCATCAGGGCCTGCAGAGGGCAAAACCTCACAGAGG
Celera SNP ID:            hCV3285513
SNP Position Genomic:     99379
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6|G,1)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58713):
CCGGGGCCGGGCACGGTGGCTCATGCTGGTAATCCCAGCACTTTCGGAGGCCTAGGTGGGCAGATCACAAGGTCAGGAGATGGAGACCATCCTGGCTAAC
R
TGGTGAAACCCCGTCTCTACTAAAAATAGAAAAAGAAATTAGCCTGACATGGTGGCACATCCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAA
Celera SNP ID:            hCV1445123
SNP Position Genomic:     841576
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,3)   his(G,3)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58714):
CTAAGTTCTTGCCACAGGTAGAAGCCATGCTACTGCACAAGTTTCATACTTGAAGAGTGGACATCTGACACAGTGTTGGTGGTTGTTGAAGTGTATGACT
W
TTACTGTGTTGCTTTGGAAGCTTGATGCCATAACAAAAGTGCAGAATTCCATGTTTGATAACTTTCTGACTTGATGAAAATGAATTGTGGATACAGATTT
Celera SNP ID:            hCV15783855
SNP Position Genomic:     368674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|AT,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58715):
TAATCCCAGCACTTTCGGAGGCCTAGGTGGGCAGATCACAAGGTCAGGAGATGGAGACCATCCTGGCTAACGTGGTGAAACCCCGTCTCTACTAAAAATA
S
AAAAAGAAATTAGCCTGACATGGTGGCACATCCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGATCTTGCA
Celera SNP ID:            hCV1445124
SNP Position Genomic:     841605
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,3)   his(G,3)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58716):
ACTTAGCCAAAACTAATTTGGGATTTTTGTTTGTTTGAATTGTTGGAGGGTGGATGAGAGTGAAGACATATCCTTTTGAAACTTAATTTAATTTTTATTT
W
TTATTATTATTATTATTTTCAATTTTTTATTTTTATTATTATTATTATTTTCTATTTTTTATTTTTATTTTTTGAGACGGACTCTCGCACTGTCGCCCAG
Celera SNP ID:            hCV3285515
SNP Position Genomic:     101200
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58717):
GGGATTTTAGTTGCTGGATGCTGAAGTTCTGCCAACACAGTGGGTTTGGAGAGTAGGAGTGAAAGAGTGGAGACTGGCCATAAGTTGGGAGGGTAAGTAA
Y
TGGTTGTGATTGAAAGGAAAGAAGGAGGTAATGATGAGTTTTGGTCTGGGAACCGGAGAATGGTGGTCCATGGACAGAAATAGAGAAGGCAAGATGAGAA
Celera SNP ID:            hCV1445125
SNP Position Genomic:     843510
SNP Source:               Celera
Population(Allele,Count): chn(T,4)   cau(C,2|T,4)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58718):
CACGTGGCCTTGCTGACATCTGAGTTTGCAACTTCTTTTATGCCTTCTGCTAACTGGGACCCCAGTGGGCTTCCCTGCTACACCCTCTGAGGTTCCCCAG
W
CCTGCCAAGCTGTTCCATCCCCAGTTCCTTGGTGCCTGCTGGTACTTCACCCTGGAGAGCCCAGCCCTTCCACTTGTTCAGATCTCAGTCTCTCATCTGG
Celera SNP ID:            hCV3285516
SNP Position Genomic:     102478
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   his(A,3|T,1)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58719):
GAATAAATAGGTACATAAGTGCTTGCTAGCAAGCAGCTGAGGCAACCTATTAAAACTCATGCCAGTGGTAAAGTTAAGCTGCTTTCTGGTAAGAATTTCA
S
AATTCCAGGACGTCTCAAATTTCTGGCTGGTACACCCTGGGTAAGGTCCACAGGCTGGATGGGTTTTGGAACATGTCTTGATTGTACTTTTTCCTCTTGG
Celera SNP ID:            hCV1445126
SNP Position Genomic:     843989
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,4|G,3)   cau(C,4|G,3)   his(G,3)      total(G,9|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58720):
CTAACTGGGACCCCAGTGGGCTTCCCTGCTACACCCTCTGAGGTTCCCCAGACCTGCCAAGCTGTTCCATCCCCAGTTCCTTGGTGCCTGCTGGTACTTC
M
CCCTGGAGAGCCCAGCCCTTCCACTTGTTCAGATCTCAGTCTCTCATCTGGGAGGGACAGCTTGAGCACTATGACCTGTGTGAAGCTTTTCCCAGTGCTG
Celera SNP ID:            hCV3285517
SNP Position Genomic:     102527
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,2)   his(A,2|C,2)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58721):
TGAGGCAACCTATTAAAACTCATGCCAGTGGTAAAGTTAAGCTGCTTTCTGGTAAGAATTTCAGAATTCCAGGACGTCTCAAATTTCTGGCTGGTACACC
Y
TGGGTAAGGTCCACAGGCTGGATGGGTTTTGGAACATGTCTTGATTGTACTTTTTCCTCTTGGTTTGGAAAGCAACGTACCCTAGGTAAGGAGAGATTTC
Celera SNP ID:            hCV1445127
SNP Position Genomic:     844026
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(C,4|T,5)   cau(C,4|T,5)   afr(C,4)   his(C,4)      total(C,16|T,10) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58722):
TGGCGTGAGCTGAGATCGCACCACTGCACTCCGGCCTGGGTGACAGAGCAAGACTCTGCCTCAAAAAAAAAAAAAAAAAAAAGAAAAAAAAAAGATTGAA
M
ATGTGGAATATGAGACAAATGAAAAAGATTGAATTCCGTTCCAACTGGGCTTTTGAATTTATTTTCGCACTTCCTATTTTTTGAGCCCGGGAGTGCAAGA
Celera SNP ID:            hCV3285518
SNP Position Genomic:     103237
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   afr(A,1|C,7)   total(A,1|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58723):
CAACCTATTAAAACTCATGCCAGTGGTAAAGTTAAGCTGCTTTCTGGTAAGAATTTCAGAATTCCAGGACGTCTCAAATTTCTGGCTGGTACACCCTGGG
Y
AAGGTCCACAGGCTGGATGGGTTTTGGAACATGTCTTGATTGTACTTTTTCCTCTTGGTTTGGAAAGCAACGTACCCTAGGTAAGGAGAGATTTCTGACA
Celera SNP ID:            hCV1445128
SNP Position Genomic:     844031
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(C,4|T,5)   cau(C,4|T,5)   afr(C,4)   his(C,4)      total(C,16|T,10) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58724):
CTGTACTCTTTAACCAAGGCTCCTTTTGCAAAGAGAAATCTGAGCTGCTTTTTAAAGAAGGCCGTTTTTAAATAAAAATGCAAATAAGCTACTTTGTAAC
Y
ACATTAATTACCCACCTAGCCTCTTATTACCATGTTTGTATTGTTTGCAAATACTATTTACAGTCGTGTGGAAATTAACATTACTGGTCCTGAGGAAAGA
Celera SNP ID:            hCV3285519
SNP Position Genomic:     103878
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   his(C,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58725):
GCAACAGTGGGTTTTTGTTAAATACGGCAAATATTAAGAGTCGTCTCTGGGCATTTTAGTTTATTCATTCATTTGTTCATTTATTCCACAGGGATTTATT
R
TGCATTTACTGTGTACTAACTAATGGGGAGATAGCAATGAAGGCAGACTAAGTGTCTTTGTTCTAGTGCAGCCATATAGTCAGTGAATGAATGAGTGAGC
Celera SNP ID:            hCV1445129
SNP Position Genomic:     846069
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58726):
GACATCCATTTGGGCATTGTATATGTTTTGATAGGATTACATAAATAATGAAATTGTATGCAAAGCATCAGAATGCAAAAGGTGTTTTCTCCAAGGTGTA
Y
ACACTGCCTGGGCCTTGTACTCTGGCCCTCAATTTTCTTAAACAGCTGCATCTTTTGGGGGCTCTGTTAAGACATGCTACTGTCTTTAGTATTTTGCCCC
Celera SNP ID:            hCV2852900
SNP Position Genomic:     941864
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,5|T,3)   afr(C,5)   his(C,5)      total(C,15|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58727):
ACGAAACATACCTTCCAGTCTCCCGAGTAGTGTATTAGGCTAAGTATGGTCTTTTAAATTATTACTTTAAAAATAAAAGATAATGGAATTATAGCATTAA
R
TACATTTTGCAAATGATCTTCTAGTAGGATTATTGAAAGACAGTAAAGGCAAGTATAAATCAGAAGCAAAATCATTGTCCTCTAATTCATTAATGGTTAA
Celera SNP ID:            hCV2852901
SNP Position Genomic:     942353
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58728):
GCTGGGAGTACAAGTGTGCACCACCATGCCTGGCTAATGTTTGTATTTTTAGTAGGGACGGGGTTTCGCCATGTTGGCCAGGCTGGTGTCAAACTCCTGA
Y
CTCAGGTGTACCAAGAACAAAAGGCCAACCCCATTAGACGGTGGCCAAGTTGGTGCTGTGAACAGGGATCCTGCCTCTGCCTCCCAAAGTGATGGGATTA
Celera SNP ID:            hCV2852902
SNP Position Genomic:     943213
SNP Source:               Celera
Population(Allele,Count): afr(C,1)   his(T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58729):
CAAGTGTGCACCACCATGCCTGGCTAATGTTTGTATTTTTAGTAGGGACGGGGTTTCGCCATGTTGGCCAGGCTGGTGTCAAACTCCTGATCTCAGGTGT
W
CCAAGAACAAAAGGCCAACCCCATTAGACGGTGGCCAAGTTGGTGCTGTGAACAGGGATCCTGCCTCTGCCTCCCAAAGTGATGGGATTACAGGCGTGAG
Celera SNP ID:            hCV2852903
SNP Position Genomic:     943223
SNP Source:               Celera;dbSNP
Population(Allele,Count): afr(A,1)   his(T,1)      total(A,1|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58730):
CCCCATCTCTGCTACAGATATAAAAATTGGCTGGGCATGGTGGGGTGCAGCTGTAATCCCAGCTGCTCAGGAGGCTGAGGCAGGCGAATCGCTTGAACCC
S
GGAAGCAGAGGTTGTAGTGAGCTGAGATCATGCCACTGTACTCCAGCCTGGGTGACAGAGCAAGACTGTCTCAAAAAAGAATAAAAATGAATAAAAATTA
Celera SNP ID:            hCV396185
SNP Position Genomic:     222975
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,5)   his(C,2)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58731):
AGCTTCTTAAAGGAGCTGCCTCAGACTGTCTCAAGATCTTAGAAGGCCATGCCTACATTGCCACCAGCATCCCTTGGCTTTTTGCTTGGCTTAAGAATCT
R
TCTTTTCCGTTCCTCCTTCCAGCATACTCAGCACAGTCCACCTCTGTGGTCTCTCTGTGGTTTTCTTTCTGTTTTCCTGCTCTCTCCATTTCTCATTCAC
Celera SNP ID:            hCV2852904
SNP Position Genomic:     943447
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   his(A,4)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58732):
GGAATGCCATTTGACAGTTACAGGCTCCCGTGAGGCGGTGCAGGCTCCTCCGAGCCAGGGATGGAGCTGGGGATTGAGTGACACAAGACTCTTTGGGTAT
S
TCTCAAACAATATAAATCACCAGCAAAATCTCACTCCTACAAGGAGAACCTGCAGGGAGCTCCGTGGGAGGCACTGCTGTTTACTCTCCTCATTCCCCAC
Celera SNP ID:            hCV8709614
SNP Position Genomic:     164858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58733):
AGCAGGACACACTGCAAATACTAGGAATCCTTAAGTACAGTGGAACCCCAGAGCACTCTACCTGCTTTCTTTCTCACCTCCTTAAAAACTTTTTTTGCCC
W
CACCTCATCATTTATTCAGCAGTCACAACAGTGCCAAGAACTTGGCTAGAGATTGGAAATAAAGCTTATGCCTTCTCTCATATCTCCTGTACCTTATTTC
Celera SNP ID:            hCV8029169
SNP Position Genomic:     303175
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58734):
GGCAGGCGAATCGCTTGAACCCGGGAAGCAGAGGTTGTAGTGAGCTGAGATCATGCCACTGTACTCCAGCCTGGGTGACAGAGCAAGACTGTCTCAAAAA
R
GAATAAAAATGAATAAAAATTATGTGATTAGAGAGGGGAAAACAATCATTTCTTGTGCGCTAATGCCACTCAGCAGGTGCTTACACTGTCTGGTTCATCC
Celera SNP ID:            hCV396186
SNP Position Genomic:     223053
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,2)   his(G,2)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58735):
TGAAATACCTTGGATTTAGGAATTGGAGATTTCCTTGGGTCAGGTTTCACCCTCTTCAAGTAGCGTCTCAAACAGTATACCCACTACAGCTTTCTCCCCA
S
TCTGTCAACCATGCCATGGGGCCTACTTTTTGCCCTGACTCCCACCAGATAATGCCCATCAGATGGCACCTCTTTTGGCTGAAAAATCGAAAACTCATCA
Celera SNP ID:            hCV2852905
SNP Position Genomic:     943676
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,4|G,5)   his(C,4|G,5)      total(G,10|C,8) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58736):
ACTTGTTAACTTCTGTATTGTCTTTTCTGCTGCTTTATCCAACTTTGCAATCTATAAGCTTCTGTTACTGGAAAATGGTGATGGTAAAGTAATTGCTTTC
Y
TATGTTCCATCACAGAGGGTAGACTGCTAGCTCTAGTATTTTTCAATGCTGCTTTTTAAGTGATAGATGTATACCATTCAGTACCAACCCTGCACCCTGG
Celera SNP ID:            hCV396187
SNP Position Genomic:     224172
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58737):
GAGTCTAGGACTCAGCAGCTGTCACCTTCCCAAAGTCACACTGCTGATGAGTGACAGAGACCACATTTAAATCTGTGTGTTTACAAGGTCTACAACTGCA
Y
CCTGCTACCTCCCAGAAGCTGAGGCAGGATGGGCAGGTTGCCACACCCTCCCAACCTCCTGCAACCTTAGTTGTTAGTGAAAGGTTATTAAATAGGCCTC
Celera SNP ID:            hCV2852906
SNP Position Genomic:     945035
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,5)   cau(C,5)   his(T,1)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58738):
AAATGGTGATGGTAAAGTAATTGCTTTCTTATGTTCCATCACAGAGGGTAGACTGCTAGCTCTAGTATTTTTCAATGCTGCTTTTTAAGTGATAGATGTA
T
ACCATTCAGTACCAACCCTGCACCCTGGGACATGCCTCCTTGCTGAAACTACCATTTATCTTTGTGAATTCATTATTCGTTTTTCCAACAAACTTTTATT
Celera SNP ID:            hCV396188
SNP Position Genomic:     224244
SNP Source:               Celera
Population(Allele,Count): cau(-,5|T,1)   total(T,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58739):
ACATGATGGCAACCAGGCTCCAATATCTGCCAGTTCCCCTGTACAGATTCCTCTTTAGCATTCTCTCGGCTTCCCTCCTCAACAATTAATTCAGATGAGC
M
GTTGGGAGAGTGCAGGATCCAGTTCAAAAGGATCTGTCCCCCCGTGAACCCCAGGACAGGGTGAGAGGCCACCTGCACACTTTTTTTTTGTCAGCTCACA
Celera SNP ID:            hCV2852907
SNP Position Genomic:     945539
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(A,5)   cau(A,5)   afr(C,1)      total(A,10|C,1) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58740):
AAGTTAAAAAATAGCACAGAGGGGATCCCTGTGATTTTTACTCACTTTTCTACAAGCATGACTCCTTATATAACTACAGTACAGGATCCAAACCAGGAAA
Y
ATGCCTGGGTACAATGTGAGTGTATAATTCCAGGTAGGTAAAATAATGGCCCTTATTAGGATGTCTGCGTCCTAATCCGCGGAAACTATGGATATGCTTT
Celera SNP ID:            hCV396189
SNP Position Genomic:     226263
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   afr(T,5)   his(C,2)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58741):
TTGGCCAGACTGCTCTTGAATTCCTAACTTCAGGTGACCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAAGCATGAGCCACTGTGCCCAGCCTAG
R
AATAACTTTTAAATCAGAAAAATACATTTTTTAAAAAGATGTAAAGCATACATAGAGGATAACTTACAAATCTGCATTTCATGACCACATATATCTATTG
Celera SNP ID:            hCV2852908
SNP Position Genomic:     946297
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,2)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58742):
GAGATGTAGCTTTGAATGGCCACATGAGTGTTTTTTTAAATGAAAAAAAAATCTATGTATAACTTGTTTCCTGTGAGGGTGCCAGGAAACTTTACAATGA
R
CTTCGTGAATTAAACCTCTACCAGATGAATAGAGGTGGTGGCATGGTAGCAGAAATTAGGATTAAAAAAATGGTTTTTGATTTATGAAAAATTTTTCTGC
Celera SNP ID:            hCV2852909
SNP Position Genomic:     950710
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,5)   his(G,1)      total(G,1|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58743):
TGTGGTGTGCGGTGCAACCCGGGCTGTGTTCCCGAGTGCATCAAACGGGGATTGGGACCTGTTTTCCTTCCCACTCACATGTAGGTCACCTACGGGAGCA
R
GGGAGGAACCATCTGAGGTGTTTTTTTTTTTTTTTTTAGATTTCTCATTGCTGAGAACAGTTCCAGCTCTGCTGACCAAAGGCTGAGTGTCCTTTTATTA
Celera SNP ID:            hCV11438700
SNP Position Genomic:     541311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58744):
AAGAGGTCACATAGGATATTCCATTTATATAAAATATGCAGAGTAGGCAAATTCATAAAGACAGAATACGCATCGGTGGTTTCTGGGGCGGCGGGGAGTA
K
GGAAAGCCTGTTAATGAGTACAAGTTTCTTTAGTTTTTTTTGGTTTTTTGTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGT
Celera SNP ID:            hCV16290922
SNP Position Genomic:     373598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58745):
TCTCCGACTTATGTATGATTCATCAAGAGGACTCCAGGCTGTGGTGTGCGGTGCAACCCGGGCTGTGTTCCCGAGTGCATCAAACGGGGATTGGGACCTG
K
TTTCCTTCCCACTCACATGTAGGTCACCTACGGGAGCAGGGGAGGAACCATCTGAGGTGTTTTTTTTTTTTTTTTTAGATTTCTCATTGCTGAGAACAGT
Celera SNP ID:            hCV11438701
SNP Position Genomic:     541272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58746):
AGGAGCTCTTGGATTGCAATTTTTCATTCACCCCTCCCTCTCCACCCTTCCTGTCTTCAAGCCTGAGCAGGTGATACTGCATTTTGTACCGTATGACTTT
W
AAACAGAACCACGAGTTCAGAACTTTGGTTAGGTCCTGCCCGTGTTCTCTAGCTAACGCATGGCAACGCTGGTTTCCAACCTTTCACTGTGCGGGTTTCT
Celera SNP ID:            hCV11438702
SNP Position Genomic:     540900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58747):
AGGGAGATGGAGGGAGGCAAAAAGAAAAAGGGAGAAGGAAAGAGAGGAAAGAGGGGAAGGGAGGAAGGAAAGAAGAGAGAGAAGGAGGAAGAGAGGGAAG
K
AGGCACAGAGGTAGAGAGGCAGGGAGATAATGGAGATCCTGGCCAAAAGTTAATGCTCCGTTTCTAGTAGTCCACAGAAAGCACCTTGACCAAGTGACTG
Celera SNP ID:            hCV16290923
SNP Position Genomic:     371976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58748):
CTTTCCATTAAGTGAGTCTTTCTCCAAGGGAACAGAAGTCTTAGGTTGTTGATCTGGCGGTCAGAACCTAGGACAGGCAAGGCAGTGGGCTGTTGTAGAG
K
AGATGAAGCTGATCAGAGCACACCCACACCAGTGACAACCGGTCAGGACCTGGGAAGGGCTCTGACCCATTCATCTGAGAGATGTGGCATGAGGAACACT
Celera SNP ID:            hCV16290924
SNP Position Genomic:     371652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58749):
ATTGCATTGCAAATAATAGCAGTTAGTGGGAGTTGAGAGCCAGCTCTGCACCAGACTCGTATCAGCCACTTGACCTCCATTATTCCTTATTCCTTGGTAC
Y
TCTGCGCCATCTGTGATATCAGATCCTTTTTTCTGCAAGGAAACTGAGGCTCGGCGATACTAAGAAACTCAGCCAGGGTCCGTCAGCTGTCAAGTGGCAT
Celera SNP ID:            hCV3285520
SNP Position Genomic:     104505
SNP Source:               Celera
Population(Allele,Count): chn(C,9)   cau(C,9)   afr(T,1)   his(C,9)   total(C,27|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58750):
TAAAGTGATAGAGAGGGGCTGGCGAGGAGAGCAGTCTAATTTCAGGAAAGTCAGAAAAGTCTTTAAGGAAACTGAAGGCTGAGCTGCCAGGGCCAGCCAC
R
TGGGTACTGGAGAGTGGGAGGCCCAGTCACGGGGAATGCTGGCTTAGCACAACTGAAAAATACAAAGGTAGAATATGAAGTGTAATGACATGGTTTAGAT
Celera SNP ID:            hCV1445130
SNP Position Genomic:     846311
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(A,5|G,2)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58751):
CGGGTGTGGTGGCGTGTGCCTGTAATCCCAGTTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAGCCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCG
Y
GCCACTGCGCTCCATGCTAGGTGACAGAGCAAGATTCCATCTCAAAACAAAACAAAACAAAAAAACAAGAAGTTAAGGATTGCAGAGCATAAGTATCTTC
Celera SNP ID:            hCV11438704
SNP Position Genomic:     540653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58752):
CCCATATACCACAGTTTCTAATACGATATTATACCAAGCTTTAATATGAGCACACCTCCTGGATGATGCTGTAAATTAGTTGCCTCCCACCACACCACAT
S
AAGTATAATGGATATAATATGATTTTTCAGAATTCAGCTAATTACCTACTGAGCTTTACATTTTGTAACTTTTTTGACTGTCCATCAAAATGTCTTTGGG
Celera SNP ID:            hCV3285521
SNP Position Genomic:     104757
SNP Source:               Celera
Population(Allele,Count): chn(C,11)   cau(C,11)   afr(G,1)   his(C,11)   total(G,1|C,33) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58753):
GCAGTCTAATTTCAGGAAAGTCAGAAAAGTCTTTAAGGAAACTGAAGGCTGAGCTGCCAGGGCCAGCCACATGGGTACTGGAGAGTGGGAGGCCCAGTCA
S
GGGGAATGCTGGCTTAGCACAACTGAAAAATACAAAGGTAGAATATGAAGTGTAATGACATGGTTTAGATTGAAATCTGATGTGGATGGAAAGGTTTTGT
Celera SNP ID:            hCV1445131
SNP Position Genomic:     846341
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(C,5|G,2)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58754):
ACTCTAATGACATAATTACCTCCCAAAGTCCGCACTTCCTAATGTTACCACTCTGGAGGTTAGAATTTCAACATATAAATTTTGGGGGGACACATTCAGA
Y
CACAATAATGTTTTATAATGTTCCTTTTGCTTTAACAAGAGACACATGTCAGATAGTAGACATGATCTGAGAAGACACAAAACCCAGCGTGGTGATTTTG
Celera SNP ID:            hCV11438705
SNP Position Genomic:     524352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58755):
GTAGTTTAACTAAAAAGTGGCCACTGTCTCCTGGTAGCGGTTGGTAAGCCATCCAGTCTCTGCAGGCATCTACGCTCCAGGTCTCCAGTCTGAGGAGTCT
S
GCTCCTGGGGCAGGTGCCTCTGGGGGTCTCTGCCAGGCTTGTCTGGTCATGCAGCTACTTCCAGACTGATTCCTAGATCTTGCATTTTTACATAGGACAT
Celera SNP ID:            hCV3285522
SNP Position Genomic:     105522
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,2)   his(G,1)      total(G,1|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58756):
TAATGACATGGTTTAGATTGAAATCTGATGTGGATGGAAAGGTTTTGTGGCCTTTCAGCCCAAGGTTTGAAAAAGAAATGGAATTTCTAAATGGAGTGGG
Y
AGCCACAGGAGGGCTTTAGACAGGACCGTGGCCCCGCTGGATTTTCTGCCCATTGACTTGGGCTCGAAGTCACGTCCATGTTGCTATTACAGATGCCTCC
Celera SNP ID:            hCV1445132
SNP Position Genomic:     846494
SNP Source:               Celera
Population(Allele,Count): chn(C,7|T,2)   cau(C,7|T,2)   total(C,14|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58757):
GAGGATTTGTTTTTGATCTCATAGGTGTCCATCTTGCTATTTTCTCAACTAGCAGAGGCAACTCTCTGGGGTATCTTTTAAAAGGGCACTAATGGCCAGG
M
GTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGTCTCGGTGGATCACTTGAGGTCAGGAGGTCGAGACCAGCCTGGCTGACAT
Celera SNP ID:            hCV11438706
SNP Position Genomic:     523916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58758):
AACTAAAAAGTGGCCACTGTCTCCTGGTAGCGGTTGGTAAGCCATCCAGTCTCTGCAGGCATCTACGCTCCAGGTCTCCAGTCTGAGGAGTCTGGCTCCT
R
GGGCAGGTGCCTCTGGGGGTCTCTGCCAGGCTTGTCTGGTCATGCAGCTACTTCCAGACTGATTCCTAGATCTTGCATTTTTACATAGGACATCCCCAGC
Celera SNP ID:            hCV3285523
SNP Position Genomic:     105529
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,2)   his(G,2)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58759):
ATGTGGATGGAAAGGTTTTGTGGCCTTTCAGCCCAAGGTTTGAAAAAGAAATGGAATTTCTAAATGGAGTGGGCAGCCACAGGAGGGCTTTAGACAGGAC
M
GTGGCCCCGCTGGATTTTCTGCCCATTGACTTGGGCTCGAAGTCACGTCCATGTTGCTATTACAGATGCCTCCCAGAACAGTTTATATAATCGTCAACGT
Celera SNP ID:            hCV1445133
SNP Position Genomic:     846521
SNP Source:               Celera
Population(Allele,Count): chn(A,2|C,7)   cau(A,2|C,7)   total(A,4|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58760):
AAGTGCTGGGATTACAGGCGTGAACTACTGTGCCTGGCCAGGATAATCTTTAAGAAGAAGATAACATTAGCTATTCTTCTCACTTCCTACGTAGAATTCC
M
TACCCTGTGTCTTTGGCCTGGAAAGGGTATTGGTAGCAATTGTCTTCGGCTTTCCCTGCCATGTGTATGCATTCCCACGGCCACACAAGCACACACACAC
Celera SNP ID:            hCV11438707
SNP Position Genomic:     523540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58761):
CCCTAGTTGTATCACCTTCCTCCCATTATGTTTGTAACTTCAGATTTTGTATATTTCGCATATGTCAATATGTAAACATTTTATATATATATATATGCAT
K
CACACACATGCATACATATATGTAATGGTATATATACATGTAAGTTTCCATTTTTGCTCAAATTGCTCTGGACAGTTCTTTGCTCTGGGAGTTCTTTACT
Celera SNP ID:            hCV3285524
SNP Position Genomic:     106184
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(T,1)   cau(G,4)      total(G,4|T,1) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58762):
ACAGGACCGTGGCCCCGCTGGATTTTCTGCCCATTGACTTGGGCTCGAAGTCACGTCCATGTTGCTATTACAGATGCCTCCCAGAACAGTTTATATAATC
R
TCAACGTATATTCATGGAGCATCTTCTGTCTGCTAGACACAGAATTGGGTGTTGGGCTTTAAAGATGGATGAAAGGCAGTACCTGGTCTAGAGAGGCTGC
Celera SNP ID:            hCV1445134
SNP Position Genomic:     846614
SNP Source:               Celera
Population(Allele,Count): chn(A,2|G,7)   cau(A,2|G,7)   total(G,14|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58763):
CAGTGAGCCCAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAACAAACAAACAAACAAACAAACAAACAAACTAAGAACA
R
CAACGAAAAAACTCCCATGTATTATCTATGGATTGACTGTAAAATATGAGAAGCAATAAATATGTTCATCACTAGGGCCATCTAGAAATTTCTAACCCAA
Celera SNP ID:            hCV3285525
SNP Position Genomic:     106731
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,1)   afr(A,3)      total(G,1|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58764):
GCTAGACACAGAATTGGGTGTTGGGCTTTAAAGATGGATGAAAGGCAGTACCTGGTCTAGAGAGGCTGCTACCTGGATGGTGTGTTTGCCATCCTCAGTA
R
TGTGTGTCCCTTACAGATGATGCCCAGTGACTCTACAATTGCTGGGATACTTTTTAGAATTTTCTTTTTGTGCATTACTTTTGATTCTTGGTTCTTTCTT
Celera SNP ID:            hCV1445135
SNP Position Genomic:     846746
SNP Source:               Celera
Population(Allele,Count): chn(A,2|G,5)   cau(A,2|G,5)   total(G,10|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58765):
GAAGAAATGCTGTTTTAGGAAATCAATAGGATAATTTTTTTTTTTTTTTGAGGCGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAGTCTC
S
GCTCACTGTAAGCTCCGCCTCCCGAGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGTTGGGACTACAGGCGCCCGCCACCACACTCAGCTAATTT
Celera SNP ID:            hCV11438708
SNP Position Genomic:     523249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58766):
GAGAAGCAATAAATATGTTCATCACTAGGGCCATCTAGAAATTTCTAACCCAAGGGTCAACTAATCTTTCCCTGTGTTGTATTTCCTGCTCTGCGGATCC
R
GCATCATGACCTTTGTACTACCCAGGAAAGCCAGTGTTCTCATGGGCTCTTCTCTTTTTTATGCTCTACCAGATGCTAGCACTGTGGCATGCCATTCGCT
Celera SNP ID:            hCV3285526
SNP Position Genomic:     106879
SNP Source:               Celera
Population(Allele,Count): chn(G,5)   cau(A,2|G,5)   afr(G,5)   his(G,5)   total(G,20|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58767):
TTAAAGATGGATGAAAGGCAGTACCTGGTCTAGAGAGGCTGCTACCTGGATGGTGTGTTTGCCATCCTCAGTAGTGTGTGTCCCTTACAGATGATGCCCA
R
TGACTCTACAATTGCTGGGATACTTTTTAGAATTTTCTTTTTGTGCATTACTTTTGATTCTTGGTTCTTTCTTTGGCATTAGCTCACCAGTGGCAAATAT
Celera SNP ID:            hCV1445136
SNP Position Genomic:     846773
SNP Source:               Celera
Population(Allele,Count): chn(A,1|G,4)   cau(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58768):
ATAAATAAATACATAATAAATAAACAGTAGTGGTTGAAAGAAAGGGAAGGAAGAAATGCTGTTTTAGGAAATCAATAGGATAATTTTTTTTTTTTTTTGA
R
GCGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAGTCTCGGCTCACTGTAAGCTCCGCCTCCCGAGTTCACGCCATTCTCCTGCCTCAGCC
Celera SNP ID:            hCV11438709
SNP Position Genomic:     523200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58769):
TGTCTGTTTATAGAAAGTGTCACCAAGTTCTGTCTTGGGCCCGTCCACTCGGTTATATGTGCTGGACCCTGGGTGGAAGCACTTTGCACGTGTGCATTCA
Y
GATGGGCTGTGCTGGAGGGGAAAACAGGCATCACTCCCAAATTCTATTCATGCAATTAAAAATTCCTTTCATTTTTATTTGTGAGAGGGTATGGGTGCAC
Celera SNP ID:            hCV3285527
SNP Position Genomic:     108193
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,3)   his(C,5)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58770):
GACATAGGTCTGGCGATCTTTTTGGCATAGACGTGTGGACGTTGTTTTTGACATTTGTACATGCTTTTGCTCAAGTTGAAGGCCCAAGTTTACCCAATTC
R
ACTGCCCCCACCCAGATAGAATATTCATGGTTAGACCATAAACTACATAACTGGAAATTTTAAATCTATTTTTATATGCATACAAAAACTGCAGGCCTGA
Celera SNP ID:            hCV1445137
SNP Position Genomic:     847355
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(A,2|G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58771):
TAACTGGGTGTGGCTGTGTCCTAATAAAACTTTATTTACAAAGAACAGGAAGTGGCTTGGATTTGGTATCTGGCCTGGCAGCTGTGGTTTACTACTCCTT
R
GACGGTGGCCCAGAGACCCTTTAAATGAAATTCATTTTACTAGCACCCTTTTTCATCATGAGAAATATATTCTGTTTTTCTTAGAAAATGGGTTATGTTA
Celera SNP ID:            hCV8029170
SNP Position Genomic:     304045
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58772):
TTGGATTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTGTTTGAGACAGTCTCACTTTGTCACCAAGTCTGGAGTGCAGTGGTGTGACCTTG
R
CTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCTTGCCTCAGCCCCCTGAGTAGCTGGGACTACAGGCACGTGCCACCATGCCTGGCTAATTTT
Celera SNP ID:            hCV3285528
SNP Position Genomic:     109148
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   afr(A,4)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58773):
ATAAACTACATAACTGGAAATTTTAAATCTATTTTTATATGCATACAAAAACTGCAGGCCTGAAGCTTCTAAAAATAAACGTTACTTTCATCCCATTATA
S
AAAAATGCATTTGAGGTGGTCATCATTTTATTTGGGCCAGGGTCTTCCGAGACTTGGGACAATAATATATTTTTTCTACTTTAGGCAAATGTATGCAGAT
Celera SNP ID:            hCV1445138
SNP Position Genomic:     847493
SNP Source:               Celera
Population(Allele,Count): chn(G,5)   cau(C,2|G,5)   total(G,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58774):
TTACAAAGAACAGGAAGTGGCTTGGATTTGGTATCTGGCCTGGCAGCTGTGGTTTACTACTCCTTAGACGGTGGCCCAGAGACCCTTTAAATGAAATTCA
K
TTTACTAGCACCCTTTTTCATCATGAGAAATATATTCTGTTTTTCTTAGAAAATGGGTTATGTTAGGTCTGGTCAAGGTAAATAAGTGTTGAGAGTCGAT
Celera SNP ID:            hCV8029171
SNP Position Genomic:     304080
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58775):
CCCCTTTCCTTTCCCAAACTTTTACTAGCTTCTTCCATCCTGGACTTGCAATCTGGCTGAAAACCTGCTAAATAAGGGAACAATTTTGACATGGCTCCTG
K
ACTCCCCACAAACCTAGTTGATTCCAGACCAGTAATGTCTTGGGGACAGTGTTGTCCCATCTTCCTTTCTAGGCTGGGCTCAGATTACTGACGTGGAAGA
Celera SNP ID:            hCV3285529
SNP Position Genomic:     109529
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,2)   his(T,2)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58776):
GCAGATTCTTAAAGCATGAATGCTGTATTACACACATTATAAATTCGAGTAACAGAAATGTTTGTGTGTAGAAATAGAATACGGAGTATATATTTTGTAT
W
AAATAACCTCTGTGGTATTTGTTTACCCTGATTTTTTGATTTATGAGTCGTCATTGCTCGCTATAGAAGAAGAAAAATAAATATGCAAAACAGTGGTAGA
Celera SNP ID:            hCV1445139
SNP Position Genomic:     847688
SNP Source:               Celera
Population(Allele,Count): chn(A,7)   cau(A,7|T,2)   total(A,14|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58777):
GGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGTCAGCCTCAGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACTG
Y
GCCCGGCCGGGGATCTTGTATTAATAGTAGGGAGACAGTAAGCAAGCAAGGCTCAGTTAATGATAAATTGTTATCAGGAGACCCAGCAGTTTCTGCTTTT
Celera SNP ID:            hCV396190
SNP Position Genomic:     230802
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   his(T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58778):
AGTCTTCAGGCCCACAGTGTAGGCATTCAACAAACGCTCTTCAGGGAGAAGGAAAGTTACCATCAAAATCCGTCGTTGAAAGTATTGAAGTTCCAGCTGG
Y
GGTCTGATACAGCTTAGATGTTGTCCCTGCCCAAAGCTCATGTCAAAAGGTAATCTGCAGCGTTGGAGGTGGGGCATGGTGGGAGGTGATTGGGTCATGG
Celera SNP ID:            hCV2852910
SNP Position Genomic:     951727
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5|T,1)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58779):
CCCACAGTGTAGGCATTCAACAAACGCTCTTCAGGGAGAAGGAAAGTTACCATCAAAATCCGTCGTTGAAAGTATTGAAGTTCCAGCTGGCGGTCTGATA
Y
AGCTTAGATGTTGTCCCTGCCCAAAGCTCATGTCAAAAGGTAATCTGCAGCGTTGGAGGTGGGGCATGGTGGGAGGTGATTGGGTCATGGGGGTGGATTT
Celera SNP ID:            hCV2852911
SNP Position Genomic:     951737
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,4)   cau(C,4|T,1)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58780):
GATCACACAGCTAGATCACAGTGGGGGAACCTGAATTATGGGGATGCTCACAAAAGGGCAAAACACAACGGTTGCTGTCATTTGATGCTTTATGTTAAGT
R
TGCATATGCTCAGTTACAGAAACCTAAATTGCTAAATTGCAAGGCTGTATATGATATGCCAATTTGGCATATTCTGTCTTTTTATATTCTGCCACCCCTA
Celera SNP ID:            hCV396193
SNP Position Genomic:     233690
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   his(G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58781):
AATCTGCAGCGTTGGAGGTGGGGCATGGTGGGAGGTGATTGGGTCATGGGGGTGGATTTCTCATGAATGGTTTACCACCATCCTCTTGGTACTGTCCTCA
M
GATAGTGAGTGAGTTGTTGGGGGAGCTGGTCATTTAAAAATGTGTGGCACAGCCCCCCACCCTGTCTCTTGCTCCTGCCCTGGCCACATGACGTGCCTGC
Celera SNP ID:            hCV2852912
SNP Position Genomic:     951879
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(A,1|C,4)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58782):
TCTGTTTTTCTTAGAAAATGGGTTATGTTAGGTCTGGTCAAGGTAAATAAGTGTTGAGAGTCGATGTTGTGTGCATAGTTAATTTCAATTCTTTGAAGAA
R
CTCCCCCATGATATTTCACGGCTGAGAGAAGAGGAAAGAGTTTAAGTGGAACAGTGTGCTTTGCTGAGCTTTGGAAATATTACCATATAGGGAAGCAGGT
Celera SNP ID:            hCV8029178
SNP Position Genomic:     304216
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58783):
CACAGTGGGGGAACCTGAATTATGGGGATGCTCACAAAAGGGCAAAACACAACGGTTGCTGTCATTTGATGCTTTATGTTAAGTATGCATATGCTCAGTT
R
CAGAAACCTAAATTGCTAAATTGCAAGGCTGTATATGATATGCCAATTTGGCATATTCTGTCTTTTTATATTCTGCCACCCCTATCATACTTATGAAAAT
Celera SNP ID:            hCV396194
SNP Position Genomic:     233706
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   his(G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58784):
ACATATGTATTCATTCATTCATTCATTTATTCTTTCATTCAGTCAATAAATATTTATTGAGTAGTAAGCACATGCAAGGCATTGAGGGTGGGGAGGGAAA
R
AGACACAAATTGTCCTTACCCTCATGGATTCACCATCTATTTAAAGGCCACAAATACTTGTGTGAGAAGCAAGTCTTAATAGTCTGAAGTATTTTCTTAG
Celera SNP ID:            hCV2852914
SNP Position Genomic:     954657
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5|G,2)   afr(A,5)      total(G,2|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58785):
ATATAATGATGATAATAATTGCTAATATTTATCAGCTATTTATCATGTGTCATGTACAGCTAAGCACTTACATACCATCCCATTTTATCCTTATAATGAC
K
CTAAGAGTGGGTTAAAAAATGGCAGAAGAATGGCAGTGTTTAATGGTTCAGCCTGGTGCAATGATTAACCACATTTTACAGACTAAGAAATTAAGAACCT
Celera SNP ID:            hCV8029179
SNP Position Genomic:     304482
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,4)   his(T,4)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58786):
TTCAGTCAATAAATATTTATTGAGTAGTAAGCACATGCAAGGCATTGAGGGTGGGGAGGGAAAAAGACACAAATTGTCCTTACCCTCATGGATTCACCAT
S
TATTTAAAGGCCACAAATACTTGTGTGAGAAGCAAGTCTTAATAGTCTGAAGTATTTTCTTAGATTCCCTTGAGCCGCAATGCTGAAAAGCTTATGGTGG
Celera SNP ID:            hCV2852915
SNP Position Genomic:     954694
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5|G,2)   afr(C,5)      total(G,2|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58787):
GGAGGGAAAAAGACACAAATTGTCCTTACCCTCATGGATTCACCATCTATTTAAAGGCCACAAATACTTGTGTGAGAAGCAAGTCTTAATAGTCTGAAGT
R
TTTTCTTAGATTCCCTTGAGCCGCAATGCTGAAAAGCTTATGGTGGTTTTGCTAATGAATTTGACAAGGCCAGAAATAGACCAGATGAAGATTGATCCAT
Celera SNP ID:            hCV2852916
SNP Position Genomic:     954748
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4|G,2)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58788):
ATAAAAATTTGGTATCAATTGTTTGGCTAAATTATGCACAGTGGGCCATCCTAACCTGCCATTAACATAACGTATGCTAAAGAATGTGTTGTGTTTTTTT
S
TTTTCTCTGATAATTATACTCTAAAGCATCAATTGCTTATTTGAGTAAATTAAACTTTGAGTTGTTCTTATTTCTTCAAACTTTCAAATTGTCTTGCCTG
Celera SNP ID:            hCV2852917
SNP Position Genomic:     956069
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|G,1)   afr(C,2)      total(G,1|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58789):
TGTAATCCCAGCCACTTGGGAGGCTGAGGCAGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATCATCCCACCGCACACCAGCCTGG
S
CGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAGTTACTTCTGAGTTAAAATATGAAGAGTGAGCAGTACCCAGCCATGCAGAAGGACATGG
Celera SNP ID:            hCV2852918
SNP Position Genomic:     957256
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,1)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58790):
CCTTTTTCTGGGGTCTTTTGCCTAATCGTTTACTGGTTTGGAGACACTGTTTTCTGTATTGTTTAGGACTGAAAATGTAGACCTAACTGAAATCAAGCAC
K
CGAGTATCCTAATTATTTTAAATTCATAATGAATAGTCATCATGGTTTCACTTTTTTTATGTACTCTTTTGAAAGAGTACGATGGGGGAATAAAAGCCAG
Celera SNP ID:            hCV15964432
SNP Position Genomic:     1018942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58791):
ATCATTAAAATGAGAACACTGTTATTGGTCTTTCGGGATTGTTTTGAGAAATGAGATATCGAGACATGCCTGGCACAAGGCCTTAATTCTTCTTCATGGT
M
AAGAAATGGCAGATTTTCCCCCTTCCATTCCCACCCTTGCACATAGTAGGTTCTCAGCAAGTATTTGTAGATGTAATCGACCAGCAGAGATCATTTGTAC
Celera SNP ID:            hCV15964433
SNP Position Genomic:     1018416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58792):
GGAGTTTTGTTTGCAAATGATCACCTGGTAATTTAAGAGGGTGAGCTAAACTTCCTCCTTTTCTAGTATGGACCTTTGGGGCTCAGGATGAGGATGTTCA
M
TTTGTACTGCTGGTGGAGCTGCCTTTCCATTAAGTGAGTCTTTCTCCAAGGGAACAGAAGTCTTAGGTTGTTGATCTGGCGGTCAGAACCTAGGACAGGC
Celera SNP ID:            hCV16290931
SNP Position Genomic:     371529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58793):
AGAAGCTTAGTCTCAATTTCAGAGAGTTATTTTGGCAACATATTTGGGAAAATGATAGTTAGATGCTGCGTTAGCCAGCCTCTGCATGATTTTTTACGCA
R
AACAAACAGTTCCAAATATCAGTGCTTTCAGCAACTCATATATTTCTCACTTATGGTGCATGTCGCTGATGGTTGGCTGCTGCTCTGATCTCACTCCAGT
Celera SNP ID:            hCV11438710
SNP Position Genomic:     519102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58794):
GCTTCTTTTTATTTCTTAGAGCCAGAGCTGGAAGACAAGGCCTGGCATATTTTGGCAGGCCTGGATCAGAGCCTAGGTGTGTAAATTAGGAATTGCATTT
S
GCTGCTGCTAACAAGGACCCAAACATGGTGGTAAATTCTTCCACATAAAACAACAGAAAATAAGTTGTTTTCTGGCCCTGGGCTGGGGTGGCCACTCCAC
Celera SNP ID:            hCV11438711
SNP Position Genomic:     500303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58795):
GGGTTTATGATCAAGTAAAGAGTTTAAAGAAGTGTTTTATGAGGGAGTTTTGTTTGCAAATGATCACCTGGTAATTTAAGAGGGTGAGCTAAACTTCCTC
M
TTTTCTAGTATGGACCTTTGGGGCTCAGGATGAGGATGTTCAATTTGTACTGCTGGTGGAGCTGCCTTTCCATTAAGTGAGTCTTTCTCCAAGGGAACAG
Celera SNP ID:            hCV16290932
SNP Position Genomic:     371486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58796):
AGGACATATGTGTCTTCTGCCAAGATGTGGAATTTTGGCAAGGCTAGCATGATAACAAATAAACATTCAAGCAGTCACTTAATGATATTGAATTGAACAC
M
ATTTCTCAGAAGTTCCTGTATTAAATTACAACCATAAGAACATACACAAGCATGCAGATTGTAAGTGTGATGAGAATGGAAACATTCCATAGGACGCAGA
Celera SNP ID:            hCV11438712
SNP Position Genomic:     499995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58797):
TTGGGTAATTCTAATGCTTACTTCATCCCAGGGCTGATGTGTGTTAGGTTAGGGTTTATGATCAAGTAAAGAGTTTAAAGAAGTGTTTTATGAGGGAGTT
Y
TGTTTGCAAATGATCACCTGGTAATTTAAGAGGGTGAGCTAAACTTCCTCCTTTTCTAGTATGGACCTTTGGGGCTCAGGATGAGGATGTTCAATTTGTA
Celera SNP ID:            hCV16290933
SNP Position Genomic:     371435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58798):
ACTCCTGTACTTCAAGGTTTTGGAGTGGGAAAGTTGAGGAAATGTAAGAGATCATCTCTGTCTCTATCACATTACCGACGGAGAAGTGGGATAAGAACTA
Y
GTGTGTTTTCACTTCTTCTTTCTTTAGAGAAAACAAATATCATCTGCCTTGCTAGGTAGTTGTGAGAAATGAGGAGATAATATCTTTAAATCTCCTACGG
Celera SNP ID:            hCV11438713
SNP Position Genomic:     487313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58799):
ACTAGCTTCTTCCATCCTGGACTTGCAATCTGGCTGAAAACCTGCTAAATAAGGGAACAATTTTGACATGGCTCCTGTACTCCCCACAAACCTAGTTGAT
Y
CCAGACCAGTAATGTCTTGGGGACAGTGTTGTCCCATCTTCCTTTCTAGGCTGGGCTCAGATTACTGACGTGGAAGAGTTGTTGGTCCTGGTGCAACATG
Celera SNP ID:            hCV3285530
SNP Position Genomic:     109552
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,2)   his(T,2)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58800):
GGCGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCCCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATCACGCCATT
R
TACTCCAGTCTAGGCAACAAGAGTGAAACTCTGTCTCAAAAAAATTAATAATAATAATGTTACAATAATAATAATGTTAGTGATACATATCATTTTGAAA
Celera SNP ID:            hCV11438714
SNP Position Genomic:     468216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58801):
ATAGAAGTTTATGACGGAAAAGGCAAAATTCTCTGTGTCTTTATGGGGAGATATTCGATATGTTTTTTCTTGGCAGAAATAAAACATATTCAATAATATA
M
TTAGGCAAACTTGTTTTACTTGACAAGAAGACCGTATCTCCGTCTGCAAGATGAAGGCAAGATCAAGAGATGTCAGTTAACATTCTTGCGACCACAGGTA
Celera SNP ID:            hCV3285531
SNP Position Genomic:     110931
SNP Source:               Celera
Population(Allele,Count): chn(A,9)   cau(A,9|C,3)   afr(C,3)   total(A,18|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58802):
TATATGTCTTTCTTTCTTTTCTTAGGTTAACTTTTTTTTTTTTTTTTCCTTTTGAATGACCACAAAGCATATCTACCCAGCGGGGTTACTTTTTTTTTCC
Y
TTTCAGTATTCATGACGTCAAGTCCCTGTTTGTTATCTTATTGTCCTCTTATCCTGGTCCTTAGAGTCTTTCAAGAGAAGAGGTTGATCCCGGTGTAATG
Celera SNP ID:            hCV1445141
SNP Position Genomic:     848167
SNP Source:               Celera
Population(Allele,Count): chn(T,6)   cau(T,6)   his(C,1)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58803):
AGAGAAAAACAATTACACTAGCTGCTGGTCTGTATTTACTGGTTAGAATAGAATATTATTACCATCAAGAATAACATTAGTGGCCAGGTGCGGTGGCTCA
Y
GCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAAACCAGCCTGGCCAACATGGTGAAACCCCCGTCTCTAC
Celera SNP ID:            hCV11438715
SNP Position Genomic:     467989
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58804):
GGAAAAGGCAAAATTCTCTGTGTCTTTATGGGGAGATATTCGATATGTTTTTTCTTGGCAGAAATAAAACATATTCAATAATATAATTAGGCAAACTTGT
K
TTACTTGACAAGAAGACCGTATCTCCGTCTGCAAGATGAAGGCAAGATCAAGAGATGTCAGTTAACATTCTTGCGACCACAGGTAGGGAGGAGAACTGGG
Celera SNP ID:            hCV3285532
SNP Position Genomic:     110946
SNP Source:               Celera
Population(Allele,Count): chn(T,10)   cau(G,1|T,10)   afr(T,10)   total(G,1|T,30) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58805):
TTGACCAATTTTTGTAAATCTCTTCTGTTACTGTTTATATACCCGGCCACTTCTGCCAAAATATGCTGGCCTTTTAGTCTTTTGGTTTTTTCTCTCTTTT
K
GTTTGTTGGCTTATGTTCGCTGCTTGATCTGACTACTGGTTTTATTTCTAAGGATTTTTTTTTAAGTTGGCATCTTTTTTTCTTTGACTTTCCTTGTATG
Celera SNP ID:            hCV1445142
SNP Position Genomic:     853015
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58806):
AAGGCAAAATTCTCTGTGTCTTTATGGGGAGATATTCGATATGTTTTTTCTTGGCAGAAATAAAACATATTCAATAATATAATTAGGCAAACTTGTTTTA
S
TTGACAAGAAGACCGTATCTCCGTCTGCAAGATGAAGGCAAGATCAAGAGATGTCAGTTAACATTCTTGCGACCACAGGTAGGGAGGAGAACTGGGGAGG
Celera SNP ID:            hCV3285533
SNP Position Genomic:     110950
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(C,7|G,4)   afr(G,4)   total(G,12|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58807):
TTACTGTTTATATACCCGGCCACTTCTGCCAAAATATGCTGGCCTTTTAGTCTTTTGGTTTTTTCTCTCTTTTGGTTTGTTGGCTTATGTTCGCTGCTTG
R
TCTGACTACTGGTTTTATTTCTAAGGATTTTTTTTTAAGTTGGCATCTTTTTTTCTTTGACTTTCCTTGTATGCCCCCCTTTCTCCCCTGCATTGTCTTG
Celera SNP ID:            hCV1445143
SNP Position Genomic:     853042
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|G,1)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58808):
GTTCAAGAAGGTCTTGGGCAAGCGCGTGCTAGTTATTTTCCTCACTGGTGTGGTCGTGACAGATGAATCACATTTTACTCTCCTCCCTTTCTCATAGTAT
R
ATTACATAAAGGAGACCTTCCCTGGAAAGAGCCCTGTGCATGGCTTTTGAGAGTGGGCCTGGGCTAACAGTGAGTGTGGAAGCTTGCTGCCTTGAATTCT
Celera SNP ID:            hCV3285534
SNP Position Genomic:     111225
SNP Source:               Celera
Population(Allele,Count): cau(G,9)   afr(A,2)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58809):
TTGTTTTTATTTAGGGCTCATCTGGTATGTGTATTATGTTCTTGGTAGACAGAAGCTGTCTTTAGTTCGTATGGGTTGAGCATGGAGGGAACTTCATCTC
R
TAGTCACTGGATAAGGAGCCAGTCCTGGCTCTTCCTTTAACTGCCCTTGTGACCTTGAACATGTCAGTTCATCTCACCACGTAGTCATTTTCTCATCCGT
Celera SNP ID:            hCV1445144
SNP Position Genomic:     853274
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(A,2|G,3)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58810):
GGGCTAACAGTGAGTGTGGAAGCTTGCTGCCTTGAATTCTTTCCAATTCTGGAGAGTTGATGGGTAACAAGTGTGTATCTATAGTCTGCTTGGACATGGC
R
GTGTGGCCACTGACACGTTGTCAGCCATCCCCTCAACTCCAGGGACAGGAATGGTGAGAAGGTGGTGAGGGCACAGTCTGCCCGGAGACGGGACAGTTTG
Celera SNP ID:            hCV3285535
SNP Position Genomic:     111386
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(A,2)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58811):
GCTGATCTGCATAGCACTTCGCAATGAAGCTGTGCTCTAGAAACATACCACGATCTACTGGACTTTCTTAAATAAGGTGGTTGTTCAGGAAATTCCTCCA
R
TTAATTTTACTTTAATTCCCCCTACAAGAATGCCGAGACACCTCTGCCTATTTTCTCTTTCTGTGTTTGTTGTTTCTTTTGTTTTTGTTTTCGAGACTGA
Celera SNP ID:            hCV1445145
SNP Position Genomic:     853540
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58812):
TCAGAAATGCATGTCAGAGCTACACAATTCTATCCAAGGCATTAACTGTTGTCAAGTCTGTTTTTTATGAATATGTTTCAATATAAGAAATTGTCTTAGG
Y
CCAAAGTGAAACGTCTTCCTCCTTGACTCATAGCAAGCTCATGCAGGTATTTGAACATTGTTCTGTATAATATGTGCACCTTTGAGAAATCCCATGATTC
Celera SNP ID:            hCV3285536
SNP Position Genomic:     116864
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,3)   afr(C,3)   his(C,3|T,3)   total(C,9|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58813):
GGATTACAGGGATGCGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCT
S
AGTTGATCTGCTCACGTCGGCCTCCCAGAGTGCTAGGATTAAAGGTGTGAGCCACCGTGCCTGGCCTCTTTCTGTTTCAAAGAAATAGTCAAGAAGTTTC
Celera SNP ID:            hCV1445146
SNP Position Genomic:     853848
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58814):
AACTTTTGTAGTTGCTGCTGGTCTCTTTGGAAGGCAAGTGCTAATTTACCCACAGTTGAAACCTGACACACACACGCGCGTGCACACACACAGACACACA
S
TCTCTCTCTCTTTCTCTGTCTCTCTCTCTTTCTCTGTCTCTCATAAGGAACTAAATCCTGCGTTTTCTCACCAGAGGGCTAATGACACACTGCTTAGTCA
Celera SNP ID:            hCV3285537
SNP Position Genomic:     117886
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(C,3|G,2)   his(C,3)   total(G,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58815):
TGGCCTCTTTCTGTTTCAAAGAAATAGTCAAGAAGTTTCTAGATGCACACAAAATGACCAAACCAGTCTTTCCGCTTATTTACACAATGAAGAAACATCA
S
AGTTCACCCTGGAAGACAGAGTTTCTTTCTGTCTTCATCCTAGGGCACAGGAGAGATGCAGTGATGGCATGTCTCCACTCTGCAGACATGTTGCAGGCCT
Celera SNP ID:            hCV1445147
SNP Position Genomic:     854010
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58816):
GCCACTTGCAGACCTTGGCAGTTGCTGTTGCTCCTGCTGCTGCTGCTGCTGCTGCATTGTCAAGACTACATTGATGTCTTGGAAATATAGAAAAAAGAGG
M
TGCTGGACTGTGTGCTTAGAATCAGTGTGCTAACTCTGTTACCAACACCGTAGAGAAGTGGTTCCAGAAGGAAGAGTTCAGGGTGAGAATGAATAACGGA
Celera SNP ID:            hCV3285538
SNP Position Genomic:     118999
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58817):
CTGTTGCTCCTGCTGCTGCTGCTGCTGCTGCATTGTCAAGACTACATTGATGTCTTGGAAATATAGAAAAAAGAGGCTGCTGGACTGTGTGCTTAGAATC
W
GTGTGCTAACTCTGTTACCAACACCGTAGAGAAGTGGTTCCAGAAGGAAGAGTTCAGGGTGAGAATGAATAACGGAGTGGCTTTGCAGTGGGAACCTGGC
Celera SNP ID:            hCV3285539
SNP Position Genomic:     119023
SNP Source:               Celera
Population(Allele,Count): cau(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58818):
AGGATAGTTTCCCTTCCTGGAAGATTGAGATGAAATAAAGCTTTAGGAGTTGGTATCGCACGCAGGCATTAAATGGATTGTGAAGAGGGACTTTGTTCCC
S
CTCAGTCTTGTCTCTGCCTCCGTAAAGGAGTAAGTTAAAAAAGAAAGTTTCTTTTTTTAAAAAAAAGCCTTACTGCTCAATAAATCCCTGTGGAAAAAAA
Celera SNP ID:            hCV1445149
SNP Position Genomic:     854432
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,2)   cau(C,2|G,2)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58819):
TTTGGGTTGATGAGATGCTGGTATGTATCATTCGTTCAGCCATTCTTTCAGTAAGTCATCACGGAAGTCTGCCTCTGTGACAGATTCTGGGGCTCTAAGG
M
GGAATTTACTTCTTCAAAGTACAGTTTCCTGCCTTGCAAGTTTGGAGTTAAGGCCACGCAGACCAGAGTTACGTGCACAGGTTGTAATACTCTCTCTTGT
Celera SNP ID:            hCV15992927
SNP Position Genomic:     1069742
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58820):
GCAGTCCCAAAGCCCGGGGCATGGATCCAGAGAGGAGGGTGAAGAATGGGCCCCTGACCCAAGACTGCACTTGTATTTGAGTTGCATAAGAAGCTGCTGA
K
GAATTTTAAGAACAGGAGTGACATGACTTCCGTTACAATTGAAAAAATCAATCTGGCGAAATGAATGGGGCTACATAGGTTGGGGGAAGGAGGTAAGAGA
Celera SNP ID:            hCV2852920
SNP Position Genomic:     958094
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,5)   cau(G,5|T,1)   afr(G,5)      total(G,15|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58821):
TTGTTAAACTTCTTGCACTGAGCTTTACCAGGTGAGCTGACAGTTATCCTCTGCATTCATCAATATAAGCCCCATAAAAGGCAAAGTGGTTGAGGAGAAA
Y
GAGAAATTACAGCCCAGATTAGCAGCCTTGAGTGCTCCTTGTGAACACAAGACACTGACCCAAATCACACGTCACGGCTCTTCGCCCATTAACGCTTATA
Celera SNP ID:            hCV2852921
SNP Position Genomic:     958379
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58822):
CATCAATATAAGCCCCATAAAAGGCAAAGTGGTTGAGGAGAAACGAGAAATTACAGCCCAGATTAGCAGCCTTGAGTGCTCCTTGTGAACACAAGACACT
S
ACCCAAATCACACGTCACGGCTCTTCGCCCATTAACGCTTATAGCAGGATTATTCCCAAGGAAGCTGTAGCCATTATATTTGCTGCCATCACAACAGTAA
Celera SNP ID:            hCV2852922
SNP Position Genomic:     958436
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58823):
CTCGTTTTTCCTTTTTTCTTTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGC
R
CAATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCACACCACCATGGCTG
Celera SNP ID:            hCV15917376
SNP Position Genomic:     953306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58824):
CACGGCTCTTCGCCCATTAACGCTTATAGCAGGATTATTCCCAAGGAAGCTGTAGCCATTATATTTGCTGCCATCACAACAGTAAAATAAACAGGTGTGA
Y
TGCAGCCCTACTCCTCGGGTTGTTTCATGCTGATCAGTTGTTAATATATGTGTGACTTGAAGTTGGAGCCTGTTGGGAGAAAAAGTTGTCTTTAGAGGAG
Celera SNP ID:            hCV2852923
SNP Position Genomic:     958552
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58825):
CAATCACTTACTAACTGCATTGTGGGTTAACACAGTGTGTGTGTGTGCACTTACTAACTGTGCAACTGTGGGCAAGTGATGTAATCTCTCTGGAGCTCGT
Y
TTTCCTTTTTTCTTTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATC
Celera SNP ID:            hCV15917377
SNP Position Genomic:     953211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58826):
AGGAGTAAAGTGTTGCCTTGCTGTGGGAAGGGGAAACTTTTTCTTGGGAAGTGGACTCACCAATAATTTTTGCATCATGCGCAGGAGACCCTACTAAAAC
S
TAAGTGTGCAATGCTTTAAATCAGTAAGTTTGTTTTTCATTAACATAAAATCCAAAACAGGTGCTGTGATCAGCAAGCCGCTGTCCTCCAAGTGGTAATT
Celera SNP ID:            hCV2852924
SNP Position Genomic:     958748
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58827):
ACAGCTTGCATGTGTAGTTAATTTGTTCCAAATTTCCATCCTGCATTATAACCCTAATGTTTGCTAATAACACACAAACCCACATTTTATTAAGTAAGTA
R
TTTGAGACATGATGATTTTTGTCATGTAAATAGGATCAGGCTGACCAGTATAGACTGGGCAGAGGAAGATTCATAACCAGGGAATTAATCTCTGGATCCA
Celera SNP ID:            hCV15917378
SNP Position Genomic:     951092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58828):
GGCTGCATAGTATTCCATGGTGTATATGTGCCAGCCATCCCGTTACTGGGTGTATACCCAAAGGACTATAAATCTTTCTGCTATAAAGACACATGCACAC
R
TATGTTTATTGCGGCATTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAGTGGTAGACTGGATTAAGAAAATGTGGCCTTTGCCTCTT
Celera SNP ID:            hCV2852925
SNP Position Genomic:     959927
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58829):
CTATAAATCTTTCTGCTATAAAGACACATGCACACATATGTTTATTGCGGCATTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAGTG
R
TAGACTGGATTAAGAAAATGTGGCCTTTGCCTCTTTTAAAAAGTTCTAAGTTGCTAGCCAGTCGGAACAAATACAGAATGTGAGGTCCCTTTCCAGCCAA
Celera SNP ID:            hCV2852926
SNP Position Genomic:     959992
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58830):
AAAGACTTGGAACCAACCCAAATGTCCAACAGTGGTAGACTGGATTAAGAAAATGTGGCCTTTGCCTCTTTTAAAAAGTTCTAAGTTGCTAGCCAGTCGG
R
ACAAATACAGAATGTGAGGTCCCTTTCCAGCCAATGGAAACCGGACACAGCAGTAGAGTACACGTGTCAGGTTATAAATGAGCCTGTCTCCTTTGTCCGG
Celera SNP ID:            hCV2852927
SNP Position Genomic:     960058
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,2)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58831):
CTCTTTTAAAAAGTTCTAAGTTGCTAGCCAGTCGGAACAAATACAGAATGTGAGGTCCCTTTCCAGCCAATGGAAACCGGACACAGCAGTAGAGTACACG
Y
GTCAGGTTATAAATGAGCCTGTCTCCTTTGTCCGGTGTTCTCTCATGGCAAAACTGCTGGCGAGTGTACCCTTTCTGCAGAAAGTAAAAATGGCCTTGCT
Celera SNP ID:            hCV2852928
SNP Position Genomic:     960123
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58832):
TGCTGGCGAGTGTACCCTTTCTGCAGAAAGTAAAAATGGCCTTGCTGAGGAAATTAAATTCCTGTTCGAGTGCTATTTCTTTATGGCACTGAGGAGCAAG
Y
ATTTCTAACAATCATATTGCTTAAGAAGTGGATGGCAAGAAGATAATTACTAATATGTCTGCAATTGATCTGAAATTGACACAGTTGATCTAACTGATTC
Celera SNP ID:            hCV2852929
SNP Position Genomic:     960278
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|T,2)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58833):
TGAATGGACCCTGAGTATCTTAGAATCTTCTGAAATAATATGCAGCATTATATTCCATTTGTACCTGGGAAGAGGGTACTTGTCTTTCATCAGAGAGTCA
Y
CAATGGACCACTGGTCCCTGCTGATTTAGTGTCACAGCTCAAAACCATCAGTAGTCCTCGTGATCTTTCGGCATTGTGGCTCCCTTTGTGAGAAGGGCCT
Celera SNP ID:            hCV3025427
SNP Position Genomic:     770894
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5)   afr(T,2)   his(T,2)   total(C,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58834):
GTGAATCTCCCAACCATAAGCTGTATTCAGGCAGGCACGAAGTCTCTTATTTACTCAGTGTTTCTGGAGCCCAGCATAGTGCCTCGCACACAGCAAGTGC
Y
CAGTGGGTATCTGTTGAACCGGCAAAACAAACAAATGAATAAATTAATGGGTGGTCACTGTACTAGTTTTCTATTGCTTCATAAACAAACTATCACAGGC
Celera SNP ID:            hCV3025428
SNP Position Genomic:     771099
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|T,4)   afr(T,4)   his(T,4)      total(C,3|T,12) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58835):
CACTGTACTAGTTTTCTATTGCTTCATAAACAAACTATCACAGGCATAGTGAGTTGGAATGATGGCTCTCAAAAAACTATGTCCACATCCTATAAATGCT
R
TTGTACAATATATGGTCTTTTGTGATTGGCCTCCTCCACTTAGCGTCGTGTTTTTGAGGTTCAGCCACAGTTGTAGCATGTCCATCTCTCTTTGTGTGGC
Celera SNP ID:            hCV3025429
SNP Position Genomic:     771255
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   his(G,1)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58836):
TTGTTGTAAACTCGTCCTGCCGCCTGGACTAGTTACGCTTCCCTTGATTAGCTCTGAGAAACGAGGCAGCGGGCACTGGGGCAGCCACATAGACAACATC
Y
AAATTTTTGTTGCTTTCCTGGGTCTTGCCCTGTCCTTACTGTTTCCCTTGGGCACGCTGTTCACCCCTTAGGACATACTACAGTAACCTTTTCCCACCAC
Celera SNP ID:            hCV16290940
SNP Position Genomic:     370458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58837):
TCTTAATACAAACTGGCGTATGTTATAGTTACTGTCAGTTGTTGTAAACTCGTCCTGCCGCCTGGACTAGTTACGCTTCCCTTGATTAGCTCTGAGAAAC
R
AGGCAGCGGGCACTGGGGCAGCCACATAGACAACATCTAAATTTTTGTTGCTTTCCTGGGTCTTGCCCTGTCCTTACTGTTTCCCTTGGGCACGCTGTTC
Celera SNP ID:            hCV16290941
SNP Position Genomic:     370420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58838):
CCCATGTGTGTATGTCTAACCCAGTGACAGGTAAGGCAGCCAGGAGCTGCTGTTATTTCAGTGCAAAGCTGTTTTCACAATCACAGACATGCACAGCTCA
R
AAACCCTCACAGGTCACGCCTGAATACCTTCAATGTGCCCCATGTAAAAATACACTGCAAGTCGATTGGACATGCCCTATGAATTATACCTTATTTATGA
Celera SNP ID:            hCV16290942
SNP Position Genomic:     369255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58839):
CTGGAGGGTCCAGGAGCCCCCTGAACTGAGTATCCGGTGGGAGGTCAGATTTCCGCATTCAGAACGAGAGCTCATACGGCATCCACGCGTGTCTTTCTCA
Y
GCATATCCCCAGCCCGAGTAGAAGAGGACTTCTGCATCTCTGTTAGTTCTTTCTCCTCCTAAGAAAAAGCAGATTTTAAGTAACTTATCATTTGTTCATT
Celera SNP ID:            hCV11438723
SNP Position Genomic:     460241
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58840):
GCATGTTAACATCCTGGTAGCTCTATTTATTTGCTACCATGGTACATAATCATGGGAGCTCTATTTATTTGAACATCTTCTTTTGTTATTATTTGGTGTA
Y
TTGGGAAAGGCATGTGGGAGCAGCAAGCAGGTGAGCATCCTGTTTGGAATGCAGGGCCGGGAACTGCCCTGCCCAGTCCAGCCTCATTCCAGAGGCTAGC
Celera SNP ID:            hCV3285540
SNP Position Genomic:     119420
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(C,1)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58841):
ATTTGTTATTTTTCTCTTCCCCCCCTTAGCTGTATCCCTGCATTTATTACAGCGCAGGTGCATCTTGCTTTTGAGTGCTAACTGAGATGAAAGGAGTGAG
R
AAACGCTCTCTTCTTCTTGCAGGGGAGGGCTGGCAAATTCAGTGAATGCAGAGTCGGCTGGGAGCCTTTCGGCTGGAAAGCTCTTCCTCTGATGAGCTGT
Celera SNP ID:            hCV1445150
SNP Position Genomic:     854881
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,3)   afr(G,3)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58842):
AGCTCTCTGCTTCTTTGGCAGTCTAGTGCTGTCACAGAAGGAAAGCTCACTCCATGGAAAAGGGGGGATTGATTTCTTCTCTGAGGGCAGAGGCTGATCA
R
TCTAGGCTGGTAGGAATAGATGTAACCTCAGAGGAAACAATTTGCATTGGCGAAAGCAAGTCAATGGCCATCCCCAAATTCAAAAGGACAGGGAAGTGTA
Celera SNP ID:            hCV3285541
SNP Position Genomic:     119657
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2)   afr(G,1)      total(G,1|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58843):
GTCAGATAACCCCCGATCGTAATAAGCCGGAGGATAATCGCTTGCATTGTTCAATAAAGCAATTGCTTTGTCCCCTCACTTAGCCCCTTCAGAAAAGCCA
R
AAAGAATGTGCCACCTAGATGCTATTTATAACCATTTTCACCTCTTGCCTCCAGGGGCTAAATTGGAAACCTAATTTTAGATGCATAAAAGCCAAAATAT
Celera SNP ID:            hCV1445151
SNP Position Genomic:     855145
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58844):
CTCCCCTTTCCAATACATCTCTCTCTCTCTTTCTCTCTCTCTCTCTCTCTCTCTCACACACACAACACACACACACACACACAGCCAAATCAGACACCAA
Y
ATAAACTGTAGAGTTAACATTCTTTTTCCACCCTCACACTTTTTTTAGCTCCGATCTGTGTTCAATTTCTGCCTGAGAGAGTGATATATTCATATATTTA
Celera SNP ID:            hCV11438725
SNP Position Genomic:     447681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58845):
GAGTGACAAGCCCTGGAGACCTGAGGGCTTCTGGGGCCCCCAGGGCGGTTTCAGGAGGCTGTCTCCAGACCTGTCCGGGGTGTGAGCATGTCACGCTGTG
R
CCCGCGCCTCCCCTGTACAGCTGCCTCTGCTCTTCTAAGCACTGAAATGAGAGGTGTAACCTGTGTTCCAGAGTCTGCGCCTCCCAGCCACTGGGGCAGG
Celera SNP ID:            hCV3285542
SNP Position Genomic:     121320
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   afr(A,1)   his(G,6)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58846):
TAATTATGTCATTGAAAAAAACACCAGTAATTAAATCATTATTTCTTAGATGTGAGGTCCAAGGACATTCTAGAGGAAGTCAAAGGCAGAGGGAGGAAGG
R
TGGGACGATGGAGGCCTGAAGGGCTGGTGGAGAGGAAAGAAGGCAGCCTGTGCCGTCAGAGAGAGTTCAACTCCATCCGTGCAGCTGCTAGCATCTTGCC
Celera SNP ID:            hCV1445152
SNP Position Genomic:     855437
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,4)   his(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58847):
AGCTAATTCCTACCTGTGCGATCACTAGCCAAGTACTGAACCTCTCTGAACTTCAATTATCTCATCTGTAAAAGGTGGTTGGTTTGTAATTGTTCCTACC
Y
CTTAGGGCTTTTGTGAGAGTTTAGATGATAAACCACCAAGCAACAGTGGCTGGCATTCTGTGCACAATCGAAGTCTGCTGCTGTCAGCTCTGTGGTCGCT
Celera SNP ID:            hCV3285543
SNP Position Genomic:     121740
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(C,1)   his(T,3)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58848):
TAACACCTGCCTCCGTGGTTTGTCAGGACATTTAGAAATGCAGACTTGCTCAAGACCTGGATCTCAGGTGGTAGGTTGGTCCACAGACAGTGGCACCACT
M
GCTATTATTTATTTGTTGTCACTGTTTGGGACCCCTGTTGCTGTCTCACCAAAGAACTTCTTGTCTCCCTTTTAGAAGTTTCCAGAGCGTCTTCCTGATG
Celera SNP ID:            hCV1445153
SNP Position Genomic:     855682
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(C,2)   his(A,4)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58849):
AACATGGTGAAACCCTGTCTCTACTAAAAATACAAAATTTTTTTTGTATTTTGGGATTCGGTTTAGGTGATGTGTGTCTGTAATCCCAGCTACTTGGGAG
R
CTGAGACAGGAGAATCACTTGAACTCCAGAGGCAGAGGTTGTAGTGAGCCAAACTTGCACAACTGAACTCCAGCCTGGGCGACAGAGGAAGACTCTGTCT
Celera SNP ID:            hCV11438726
SNP Position Genomic:     439372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58850):
AATTTCATCACTCCAAAAAGAAATCTCATAACAATTAGCAGTTATTTTCCATCGCTACTTCCTCCAGTCCCAAGGCAATCAGCAGTCTGCTTTCTATCTC
Y
ACCTGTTTGCCTATTCTGGACATTTCATATGAGTGGAGTTAGATAATACATGGCCTTTTGTGACTGGCTTTCACTTAGCATAATGTTCTAGAGGTTCATT
Celera SNP ID:            hCV88397
SNP Position Genomic:     309289
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58851):
AGGTGGTTGGTTTGTAATTGTTCCTACCTCTTAGGGCTTTTGTGAGAGTTTAGATGATAAACCACCAAGCAACAGTGGCTGGCATTCTGTGCACAATCGA
W
GTCTGCTGCTGTCAGCTCTGTGGTCGCTGTCTGCACTCCCACCCCTGTCATCCTCCAAGTCTGATCTCCTCCCGAAGTCTCTTCCTGGACCTCAGCCCTC
Celera SNP ID:            hCV3285544
SNP Position Genomic:     121812
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(T,1)   his(A,3)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58852):
ATAGGAAGGTTATCCTGGGTGATTAGCATGGATCAGAGTTCTCACAGGAGCCCTTCAAAGCAGAAGGGGAAGGTGGACAAGAGAATCGGAGAGATGTGGC
R
GAGGGTAGGCAGAGAGATTGCAAGCAGGGAAGGATTTCACGTACTGCCACTGGCTTTGAAGATGGAGGGGGCACATGGCTAGAAATATGGGCGGCCCTCA
Celera SNP ID:            hCV1445154
SNP Position Genomic:     856348
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,2)   his(A,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58853):
TGGTATTGGTACAATCAGTCAGGAAGCATTTTTCCTGGGGAGAAACTTACAAGTCCACGATCAAAGCCAACAAGAGACAAGGTGTTACATGACTCATTTT
Y
GGTTTAAGAAGTGACAGGCTGATTCTAAGTTGGGTTCAATTATTTTGTTAAAGCGTTTTGCTTATTTGACTTCTCCTGACCTCGGAAATAATTCTAACCA
Celera SNP ID:            hCV88398
SNP Position Genomic:     309813
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58854):
TTCTCATGTACTTACTTTAAATCAGAGAGCCCACCTGTCCAATTCTAGCTTCTCCTGGGCATCCTGTATTTGACACAGCCCCTCCCAGCATTCTGAGTCA
Y
CGTCTGCTGCTCTTGCACTGTCCGTTTTCCAAATGAGGAACTCATCGGTAAGGCCAGAAAGGAAAGGGAGAAAAAACAAACAAACAAACAAACAAAAAAT
Celera SNP ID:            hCV16290949
SNP Position Genomic:     368902
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58855):
GTGAGATCTGATAGTTTTATAAATGGAAGTTTCCCCTGGCCTTCATTCTCTTTCCTGCTGCTTTGCGAAGAAGGTGCTTGCTTCTGCTTTGCCTTCTGCC
R
TGATTGTAAGTTTCCTGAGGCCTCCCTAGCCATGCGGAACTGTGAGTCAATAAACCTCTTTCCTTTATACATTACCCAGTCTCGGGTAGTATCTTCATAG
Celera SNP ID:            hCV3285545
SNP Position Genomic:     122898
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58856):
AAGGCTCGTGTTAACTCCATCTGGACAAAGCCTTGAGGTATACGTGTGGCTTCTTTTGAGCATCGTGCCATAGCTGTCCCTGATCTACCTTGCGGGGCAA
W
CACAACAAGTAAAAGGTTTTCCTCTTGAAGGATTGAACGCCTCAATGCGTGCATCCTACATTGTCTAGTGGGAGAAATCTCCGTTGTAGATTCTGACATG
Celera SNP ID:            hCV1445155
SNP Position Genomic:     857164
SNP Source:               Celera
Population(Allele,Count): chn(A,8)   cau(A,8|T,2)   afr(A,8)   total(A,24|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58857):
ACAATCCAAGCACCCAAAAGACCTCTAGTTTCTAAAGCCTTCGATGATTTGATGTGGTACATGGATGTGGTTCCAAAAAACATGGACTCACATTCCTTTT
A
TTTATTTTTTTTCATCCTTTTCAGTCTTTCAAAATTCCAGTTGGAGAAAGCCTTAGTTAGGGCCTAGCATATTTTGATCCTATCATATGCTAGCATCCCT
Celera SNP ID:            hCV8028532
SNP Position Genomic:     294552
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6)   his(-,1|A,6)   total(A,18|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58858):
TGAGATATTGGGACTGTTCTTATTCCCATTTCACAGATGAGCCACTAACTGGCTCCTGGCAGGACAGTGAATAAGGGGCACAACAGAGACACAAACACAT
S
GCTAACCAATGGTCTCATCCGTCAGCCACACTGCCTGTCTCAGCATGGGCCCTGTGTGGACCATTCCATCTCAATTTGTTTCTGATTCTTGTCAATTCAA
Celera SNP ID:            hCV3285546
SNP Position Genomic:     123436
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(G,3)   cau(C,1|G,3)   afr(G,3)      total(G,9|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58859):
CTTGGGCTAAAATGTAGTTGTTGGCATTTCTTTCTGGAGGCTCTGGGGGAAGGTCGTTCCTTGGCCTTTTCCCATGACGTAGAGGCTGACACATTCCTCT
K
CTATGGCCTCTTCATTTTTCAAAGCCAGCAAGATTGCATCTCTCTGTCTTTCTTTTGTGGTCACATTTTACCAGGACTCTTCTCCTGCTTTTTTTTTTCT
Celera SNP ID:            hCV3285547
SNP Position Genomic:     123944
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(G,2|T,1)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58860):
GCAGCCTGTAACTCCCAGACTGAAGCGATCCTCCTGCCTCAGCCTCCCGAGTAGCTTGTACTGCAGATGTGTGTCACCATACCTGGCTGATTTATACTTA
Y
ATTTATGTATGTGCATGTGTGTTTATATATATATATTTGTAGAAATGGGATTTTGCCATGTTTCCCAGGCTGGGCTCAAACTCCTGGGTTTAAGCAGTCC
Celera SNP ID:            hCV3285548
SNP Position Genomic:     125607
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,3)   afr(T,3)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58861):
CAAAGTAGGGAAAGCACGACTTTGGGGCCAGGGCCCTTTCTGGTTCAGAATGTCCCTGGCCAGTGTGCGCCGTGCAGTGTGGAAGCACGCTTCGGTGCGC
R
TGTAAGTTTACGTGCTATCTGTAGGGACAGTGATTTTTATTCATTAGAGTTTTTGAGTCTAATTGTTTTTAAACTGCCACTTTTGTTTGTTAAAGATACA
Celera SNP ID:            hCV3285549
SNP Position Genomic:     126164
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58862):
ATATACTGCACATGTTTTTGTTTTTGTATTTTGGTTCAAAAAGAGAGTATGATCTCACTTTTCCCTTCTTGATAGGTTGTAGATTCCATGTCTAATCCAT
S
CTTTTCCAATATTCCCTCCTAATCTTTCAGTTGAATTATGGTCTTTAGCTCAAATGCATGACATGATGTGTGTGCCTTTGGAGTGGGGCGGTATTAGTCA
Celera SNP ID:            hCV1445159
SNP Position Genomic:     857624
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,6)   afr(C,3)   total(G,6|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58863):
TTAGATGCTCTTAGTTAAAGACCATGCAAAAAGGATGAAATCTTTTGATCATGTTCTTCACAATATTAGAGGTAAAACATGAACTCAACGCTTTTAGGAA
R
AAACAACTGGATTGCGTTTTCTATTTTATTGACAGAAACTAGATGGGGAGGCCAGGGTGTGTTTTATTATTGCACACATACGTAATTACAAAGTCTTTGC
Celera SNP ID:            hCV2852930
SNP Position Genomic:     960600
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,1)      total(G,1|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58864):
ATAAGTAAGTGGGAAGTCCAGGGGTAGACGTGAGTTCAGGCATAGCTGGATCCAGGATCCGACAGCTTGCATGTGTAGTTAATTTGTTCCAAATTTCCAT
M
CTGCATTATAACCCTAATGTTTGCTAATAACACACAAACCCACATTTTATTAAGTAAGTAATTTGAGACATGATGATTTTTGTCATGTAAATAGGATCAG
Celera SNP ID:            hCV15917384
SNP Position Genomic:     951031
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58865):
AAGCTGTACCTTAAGTTTATAGTTATGCAAATGAAAACCATTAATCCTGGAGCCTCTGACTTGCAAGGTGTGCTTCAGAAATTTGCAGCTTCTATTTAGG
Y
AGGAAGAGTTTGCCAGCCCGAAAACTCCAGTAAGCAAACAGCTTTATAGTACCCCAGCCATAGAAAGTGAGAGCTTTCGAAGAATCTGTGGTTAGAACTA
Celera SNP ID:            hCV2852931
SNP Position Genomic:     961286
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|T,3)   his(C,3)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58866):
AATTATAGCTCAAATTTAATTAAAATAGCTTTTATTGCTTCTATTCATGTGTCCCTGGATTTTAAGTGATGCGTCAGAATTTCATGATGAGCAAATGCCT
R
TGGATGCCCTCATTTCTCATCCTTCTTGACTGTCTGCTAAGATTCACTCTTGGTCTTGTCTTTGAGCTTTTCTGTTCAGTGATGTAATGGGACAGGCTCT
Celera SNP ID:            hCV15917385
SNP Position Genomic:     950390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58867):
AAGTACCAAAACAAAACAAGAAACCCAGAATTATAGCTCAAATTTAATTAAAATAGCTTTTATTGCTTCTATTCATGTGTCCCTGGATTTTAAGTGATGC
R
TCAGAATTTCATGATGAGCAAATGCCTATGGATGCCCTCATTTCTCATCCTTCTTGACTGTCTGCTAAGATTCACTCTTGGTCTTGTCTTTGAGCTTTTC
Celera SNP ID:            hCV15917386
SNP Position Genomic:     950362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58868):
CAGGACACTTGCTGTTTTCTGTTATTTTGGTTTATATTGCTTAATTAGCCAGCCTTTCTAATTAACATTACATTTTGCTGAGTTCACATTGTGATAAAGA
W
GAATATCAATTCTTTTCTACTCATCTCATTGAGAGATAGAGTTGAATTCATCTTCCCTTGTATCTAGGCTGCACTTATTCGTTTGCTTGACCAATGGAAT
Celera SNP ID:            hCV2852933
SNP Position Genomic:     962743
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,1)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58869):
CTTCTCTTTATGGATTTCCCTTTGGAAGCAGGGATAAGAAGAGGGAAGGTCTCCCAGATGTAAATTTCTCATAAATATTTGAGCTCCATTTCAGTAATTC
Y
TTCATTCTCTGATCTGTTGCCTAATCTTCTATTTAGCAAGTACTTTCCATGAAATAGAAGGCTTTAATTGATAGAATTACTAATTTGAATAGCTTAGCAC
Celera SNP ID:            hCV2852934
SNP Position Genomic:     963416
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58870):
AGGGTAGTGTGAAGTGGCGTTATAGTTCTCCTTTTAATGGTTGAGACAAGAATTGCCTGGACCTCTTTTAGGATACATCACCAGTCTTCCAATGGCAAAC
K
TATGTTTATTCCAGCTGATTCTCCCCAGCATGGGGGCATGAATTGCAGTGGAAATCAGTGGACTAGAATTTGGATGCAATTGCCCCCAAATTATCGAAGA
Celera SNP ID:            hCV2852935
SNP Position Genomic:     964705
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,1)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58871):
ATAGTGAGTTGGAATGATGGCTCTCAAAAAACTATGTCCACATCCTATAAATGCTATTGTACAATATATGGTCTTTTGTGATTGGCCTCCTCCACTTAGC
R
TCGTGTTTTTGAGGTTCAGCCACAGTTGTAGCATGTCCATCTCTCTTTGTGTGGCTGAATATCATTGCATTGTATGGATATACCAAATATTTTTCTCCTT
Celera SNP ID:            hCV3025430
SNP Position Genomic:     771300
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   his(A,1)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58872):
GGGAATAGATGAAGCAAGCTGCTTCTTTCAAATGCTCTTCCAATATGAAGCAAAATATTATTGATCTAGACTGCCTGCTACTTTCATTTACCATGTTACT
R
CTCGTGGGATTACAGGCACAAAGGTTTCATAAATTTCAAATGAAATATGAACATTTGTTGTCAAAGTACTGTTAAGGTATGAAAACCCTGCTAGTATTAG
Celera SNP ID:            hCV15896569
SNP Position Genomic:     602545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58873):
TTGGATGCAATTGCCCCCAAATTATCGAAGAGAAAAGAAGACCACTGTAATTCACCGGCCATAGCATTTTTACCAACTGTTTTTGCTAAGCATTAGTTTC
K
TGTGATAGGTTCAATTCTCAGGCTCCTTCTCATTAGAGTCTTTCTGTAAAGACCATTATTATTTCTGTTATATTTCCTGTGGCTGAGCTGAGCCGCACTT
Celera SNP ID:            hCV2852936
SNP Position Genomic:     964875
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,2)   afr(T,2)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58874):
AAAAGAAGACCACTGTAATTCACCGGCCATAGCATTTTTACCAACTGTTTTTGCTAAGCATTAGTTTCTTGTGATAGGTTCAATTCTCAGGCTCCTTCTC
R
TTAGAGTCTTTCTGTAAAGACCATTATTATTTCTGTTATATTTCCTGTGGCTGAGCTGAGCCGCACTTGGAGATTTGATCCATTTTAACTCTCTCATTGC
Celera SNP ID:            hCV2852937
SNP Position Genomic:     964907
SNP Source:               Celera
Population(Allele,Count): cau(G,1)   afr(A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58875):
AACCTCAGTTTCCTTTGCCACAAAATAGCAATACAAATTTATAATTCCTTAGATTGCTGTGAGAATGAATTGAGGCAAGGTAGGTAAAGTGCAAGGAATT
K
TGTGTGGCCGGCCAGGTGCAGTGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGACACCAGC
Celera SNP ID:            hCV3025432
SNP Position Genomic:     772995
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   his(T,1)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58876):
AAGAAGACCACTGTAATTCACCGGCCATAGCATTTTTACCAACTGTTTTTGCTAAGCATTAGTTTCTTGTGATAGGTTCAATTCTCAGGCTCCTTCTCAT
Y
AGAGTCTTTCTGTAAAGACCATTATTATTTCTGTTATATTTCCTGTGGCTGAGCTGAGCCGCACTTGGAGATTTGATCCATTTTAACTCTCTCATTGCCT
Celera SNP ID:            hCV2852938
SNP Position Genomic:     964909
SNP Source:               Celera
Population(Allele,Count): cau(C,1)   afr(T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58877):
GAGGCAGGAGAATCACTTGAACTCGGAAGGCAGAGTTTGCAGTGAGCCAGATTGCACCACCGCACTCCAGCCTGGGCGATGAGTGAAACTCCGTCTCAAA
R
AATAAACAAGAATTGTGTCTGGCCTTTGTGATAGTTACTCAACAAATCATATCTGTGATTGTTTTGGTTTTAACAATAATGGTTTTTAAAAACCGTAGGT
Celera SNP ID:            hCV3025433
SNP Position Genomic:     773290
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,1)      total(G,1|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58878):
CATTTTTACCAACTGTTTTTGCTAAGCATTAGTTTCTTGTGATAGGTTCAATTCTCAGGCTCCTTCTCATTAGAGTCTTTCTGTAAAGACCATTATTATT
K
CTGTTATATTTCCTGTGGCTGAGCTGAGCCGCACTTGGAGATTTGATCCATTTTAACTCTCTCATTGCCTTCAGAGAGTTGGTGATTTTGGGGGGGGCAC
Celera SNP ID:            hCV2852939
SNP Position Genomic:     964939
SNP Source:               Celera
Population(Allele,Count): cau(G,1)   afr(T,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58879):
CAGCCTGGGCGATGAGTGAAACTCCGTCTCAAAGAATAAACAAGAATTGTGTCTGGCCTTTGTGATAGTTACTCAACAAATCATATCTGTGATTGTTTTG
R
TTTTAACAATAATGGTTTTTAAAAACCGTAGGTGATCACATACTACGCAGAAAGGGAAGCAGTTACAGCATTCACAGCATCCGTGAGTCATAGACTCACT
Celera SNP ID:            hCV3025434
SNP Position Genomic:     773357
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,2)   cau(A,3|G,2)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58880):
TACTCAACAAATCATATCTGTGATTGTTTTGGTTTTAACAATAATGGTTTTTAAAAACCGTAGGTGATCACATACTACGCAGAAAGGGAAGCAGTTACAG
Y
ATTCACAGCATCCGTGAGTCATAGACTCACTGCATTGCTCCAAGGTGCAGATTCTAGTTGGAAATGTTAAGTTTTTTAGAGCAATGAAAAAATTGATCTC
Celera SNP ID:            hCV3025435
SNP Position Genomic:     773426
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5|T,1)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58881):
CCCGCAGTTTCATGAATGCCTCGCTGTGCCACCAGGATTTTCTTGGAGGGAGCCACGGTCAGATTTCAAGTGGTCATTTCACTCTTTCTCCCTCTGGGGG
M
CTGAGACATGATTAACTTGCAATAATTGTGACTCCCTCATTAAAGGAGAGCTGTAGCAAGGGAAGAAATCATTGAGACTGATCAAGACATCCCGTGCTAT
Celera SNP ID:            hCV3025436
SNP Position Genomic:     773748
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,2)   cau(A,2|C,1)      total(A,4|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58882):
CACTGCAACTACAACATCCCAGGTTCAAGAGAGTCTCCCACCTCAGCCTCACGAGTAGCTGGGATTTCAGGTGCCTGCCACCATGCCTGGCTAATTAAGT
S
AGTTTCTTAAAGTCCTACAACTGGTGAGCTGTGAGCTGTAAATTGTGGAACTAATTTTTATACTGCCAATCTGAGGCCTTTTCTGACCTCATCGCTGCCA
Celera SNP ID:            hCV3025437
SNP Position Genomic:     775121
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|G,2)      total(G,2|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58883):
CCTCACGAGTAGCTGGGATTTCAGGTGCCTGCCACCATGCCTGGCTAATTAAGTGAGTTTCTTAAAGTCCTACAACTGGTGAGCTGTGAGCTGTAAATTG
Y
GGAACTAATTTTTATACTGCCAATCTGAGGCCTTTTCTGACCTCATCGCTGCCACTGTAAAATGAATTCTAGCCCCAGACCATGACATGCCTACTAGCTT
Celera SNP ID:            hCV3025438
SNP Position Genomic:     775167
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58884):
TGAAACTCTATAGACAGCAAACAGAATGATGGTTGCCTGGGGCTGGGAGTGAGTGGAGGGGATTACCTGGAAAGGGTGGGGCAATTTTGGGGGGTCAAGA
R
AATGTTCTAGGACAAGACTGTGGTGATGGCTGCACAACTGGATAAATATACTAACTATCATCAAACTGTATATTTACAATGGTTAAATCATATGGTATGT
Celera SNP ID:            hCV3025439
SNP Position Genomic:     775834
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58885):
GATACAGATTTCACTATCCATGAATTGTGGCCTTAACTTTCTCATGTACTTACTTTAAATCAGAGAGCCCACCTGTCCAATTCTAGCTTCTCCTGGGCAT
Y
CTGTATTTGACACAGCCCCTCCCAGCATTCTGAGTCATCGTCTGCTGCTCTTGCACTGTCCGTTTTCCAAATGAGGAACTCATCGGTAAGGCCAGAAAGG
Celera SNP ID:            hCV16290950
SNP Position Genomic:     368864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58886):
GAGTAAAAGTCCTTTATGATTAGCAAATTGCAGGTCCTCCCCTTTCTGATATTTACAGCCCTTGCAACCGCCTGTACAAAAATCGGGAAAAGGCAGAAGA
S
GGCTGTCATTAATGTAAAAGCAGCTGGTTACCTCCCCCTCCCCAGCGCACACATCACCTCCTAGTACAATTAGTCACCATGTCTTTTCCCTTCCGTCAAG
Celera SNP ID:            hCV11438730
SNP Position Genomic:     418787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58887):
AGCTGAAACTGAACCAGGTGGGGGAGGCCTGCTAATGCCCAGGCAGTCGAAATGACGCCATCTCATCACTCCTTCTCTTAAAATTTTTTTTTGTCTTTCT
Y
CTTGGATTTCCAGCAACAGGGAGCTGCCACCACCGTGTACTGTGCTGCTGTCCCAGAACTGGAGGGTCTGGGAGGGATGTACTTCAACAACTGCTGCCGC
Celera SNP ID:            hCV25762878
SNP Position Genomic:     1119045
SNP Source:               Applera
Population(Allele,Count): afr(T,32)   cau(C,3|T,25)   total(C,3|T,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:58888):
TCACTGTCCAATATGGTAGCCACGTGTGACTATTAAAATGTAAATTAATTAAAATTAAAAGTTCAATTGCTCTGAAATAGCAGCCACATTTCAAATCTTC
W
GTAGCCAGATGTGGTTATTGGCTACCATATTGGGTAGCACCGATATAGAACATTTCTACCATAGTAGAATGCTCTTTTGGATACATCTGCTTTAAAGCAT
Celera SNP ID:            hCV16290951
SNP Position Genomic:     387812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58889):
AGAGTAAAAGTCCTTTATGATTAGCAAATTGCAGGTCCTCCCCTTTCTGATATTTACAGCCCTTGCAACCGCCTGTACAAAAATCGGGAAAAGGCAGAAG
M
CGGCTGTCATTAATGTAAAAGCAGCTGGTTACCTCCCCCTCCCCAGCGCACACATCACCTCCTAGTACAATTAGTCACCATGTCTTTTCCCTTCCGTCAA
Celera SNP ID:            hCV11438731
SNP Position Genomic:     418786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58890):
ATGCATGACCTGTGCAATGCACCTGCTTCGGTGCCTGGCACAGAGTCGCAAAGCCACAAAGATGGTGCTTGTTGGTTGTATGTGTTGTTTCCATCTGATA
Y
CACCATTGAGGGGAGCAAGATGACATGTGCCTACCCCACGTGTCCAGCAGCAAAGCCACCTGGCATAGTGGGCTGCTCAGCGTGCCTGGTTCATACTGCG
Celera SNP ID:            hCV11438732
SNP Position Genomic:     418559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58891):
ATAAAAATAAAAAGTCAAAAGGAAACAAACAATGTTGCTGAGAAGTGATAGAATATTCTAGTTTATATCTCAGTCATTTTACAGCTCTGGCATTTCTGGG
K
AACACTTTAGAATACTTCCACTCCGGTTGGTCCATAAAAAGCTGCCTGTGTTTTTATGTTTTGAAAATACACGCAGAGAGACCCACTGCATGTCCTATTA
Celera SNP ID:            hCV11438733
SNP Position Genomic:     415086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58892):
AAAAAAAAAAATCACTGGATTTGAAGTTGGCCTATGTTAGATTACTCCAAGGAAGTTAGTTAATATGTTAATATGAATCTAGATGAACATTGAGTGTTTT
R
CTCTTCTTGTTAATTTGCGCCATCTACTAATCTCTGGACAATGGAGAAAAAGTCGTAGGTTATGAGTTTTTTATTTATGGACATTAAGCAATATCTTTAA
Celera SNP ID:            hCV3285550
SNP Position Genomic:     126679
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   his(A,1)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58893):
AAAGAGAGTATGATCTCACTTTTCCCTTCTTGATAGGTTGTAGATTCCATGTCTAATCCATGCTTTTCCAATATTCCCTCCTAATCTTTCAGTTGAATTA
Y
GGTCTTTAGCTCAAATGCATGACATGATGTGTGTGCCTTTGGAGTGGGGCGGTATTAGTCAGTCGATGGTTATTTCCTTGAGGAGAAAGGAAAGGAGAAG
Celera SNP ID:            hCV1445160
SNP Position Genomic:     857663
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,7)   afr(C,1)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58894):
ATTTTAAGCAACTGACCCTTGGGATAAAAATAAAAAGTCAAAAGGAAACAAACAATGTTGCTGAGAAGTGATAGAATATTCTAGTTTATATCTCAGTCAT
W
TTACAGCTCTGGCATTTCTGGGTAACACTTTAGAATACTTCCACTCCGGTTGGTCCATAAAAAGCTGCCTGTGTTTTTATGTTTTGAAAATACACGCAGA
Celera SNP ID:            hCV11438734
SNP Position Genomic:     415063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58895):
TCTGGACAATGGAGAAAAAGTCGTAGGTTATGAGTTTTTTATTTATGGACATTAAGCAATATCTTTAAAATGTAAAATGAAGCCGACAAAATGCACAGCC
R
GATAACAACAACAAATCTAATCTAAAGTGACAGGAAGAGACTCTCCCAGACATTTTTCTCTTTAATGTAACATGACTTTAAATTGATGCAACCCCACAGT
Celera SNP ID:            hCV3285551
SNP Position Genomic:     126812
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   his(A,4)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58896):
CTTTCAGTTGAATTATGGTCTTTAGCTCAAATGCATGACATGATGTGTGTGCCTTTGGAGTGGGGCGGTATTAGTCAGTCGATGGTTATTTCCTTGAGGA
R
AAAGGAAAGGAGAAGTTGAGTACTTTTCAGTGTTTGTTACTACAAAAGCATGGTGGCATGCCATTGTTCTGAGAGGAAGGGGGTTTTTTGCCTTGTCAGC
Celera SNP ID:            hCV1445161
SNP Position Genomic:     857748
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58897):
AATTGTGATGTTCAGCAGTTTATACCTTGGGAGCTGGAAGCGTTTCTCCATGGTGAATTTGTAATATTAATTGGCCATGTCAGTTCATGACAAATGTAGT
R
ACATCTATTTCAAGTATTTCAGTTTTATGGTGCTGAAGAAGTGACACGCGCTCCAGATAAGTAATCTCACAAAAGATCTTCCCGCTCGCTGTGGAGCGCC
Celera SNP ID:            hCV3285552
SNP Position Genomic:     130160
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58898):
GTAGGACAATGAGAAGAGGCCAGATGAGGACAGAATTTTTATTTTCCATTGCCAGTAACAAACACAGCCCTAACTTGCTTAGACCAAAGATGGGGATTGA
Y
TGGCAACTGGGAAGCCTAAGGGTGGATCTGGCGTGGCTGGATCTAAGTGATTAAATGGCGCGGTCATAATTCTATTTCTCTGCATCTCTCAGCTGTACTT
Celera SNP ID:            hCV1445162
SNP Position Genomic:     858557
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58899):
TTCACCATGTTGGCCATATTGGTCTTGAACTCCTGACCTCAAGTGATCCTCCCGCCTCAGCTGCCCAGGGTGCTGGGATCACAGGCGTGAGCCACCGTGC
R
CGACCTCAGGGTCCCTTCTAACCTGTGCTGTTGTCATAAACCCTGGAGGAGAAGCAAGATCTTTCTAGCAGGAGCAACATCATCCCAAATAAAGTGATAG
Celera SNP ID:            hCV11438735
SNP Position Genomic:     414636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58900):
AACAGCAGCACAACAAAATAGCCATTTACATGTCAAGACTATATTCATAGAATCCATATGTCTAAGGTGGGGAAGTTGTCATTATTCCTGTTTTATAGAT
R
AGGAAACAGAGGCCCAGATGGAGTAAGTGACTGCTGAAGTACACATGATTTGTCAGTAGAAAGGAAGAGACCAAAGGTGGCATCAACTTTATCTTTCCTT
Celera SNP ID:            hCV3285553
SNP Position Genomic:     131288
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(A,2|G,3)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58901):
AATTTTTATTTTCCATTGCCAGTAACAAACACAGCCCTAACTTGCTTAGACCAAAGATGGGGATTGATTGGCAACTGGGAAGCCTAAGGGTGGATCTGGC
R
TGGCTGGATCTAAGTGATTAAATGGCGCGGTCATAATTCTATTTCTCTGCATCTCTCAGCTGTACTTCCATCTCTGTAAACTTCATTTGCAGACATGGCC
Celera SNP ID:            hCV1445163
SNP Position Genomic:     858590
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58902):
GAGCACTGGATACCTAGACTCTGCTGGGCTCTAGAGAAGTGCTGGGCTACAGCGCCCAGTGCCCTACCTCTTGGGGCCAGCCAGCCTCACCAAAAAATCA
S
GCTTCTGGCTTGCTCCAAACTCAGGAAGTTGCTGGGAAGTCTGGCTAGCAACACCCTCATTCCCAGTCCTGGCCATGCCTCTCTGCTCTCCCTAGCACAG
Celera SNP ID:            hCV11438736
SNP Position Genomic:     413265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58903):
ATGAGTACTCACTCTACTTTTTTAGTTTATATTTTTATTTTAGTTCATTTCATTTAAGACAGCGTCTGTTACCCAGGCTGGAGTGCAGTGACATGATCTC
R
GCTCACTGCAACCTACACCTTCTGGGTTCAAGTGATTCTGATGTCTCAGCCTCCCCAGTAGCTGGGATTACAGGCATGTGCCACCACACCGGCTAATTTT
Celera SNP ID:            hCV16290958
SNP Position Genomic:     383272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58904):
TAAGTTTTTAATTTTTGTTTTACTTTTGTCTTTTAATTTTAATTCTATTGCAACCAAATCTATCAGCCTGTCTTCTATGATCTCTGCTTTTAATTGTTAC
S
CTTTAAAAATCCTTCTCCATGGTAACATTATATTGACTCATATGTCTTACTGGTTGAACGTGCCTATGTTTGACTTTGAAATCATTAAATTCATTGAGGA
Celera SNP ID:            hCV3285554
SNP Position Genomic:     132887
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,2)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58905):
GCTCCATCAATACCCATCCCAGGAGACAGTGGCAGTCTTGATGTCAATCTTGTTTTAGGATCATTGCCAGTGGAATTCAGGACTGCGGTTCTACCCGGTA
Y
CGGGGAACCAGGTGAGGGGGTTAAGAGGCCTGGGCCCATGGAAGGGGTGAGAGAGAGCCACATACTTACAGTTGTGAAGGGGGCCAGCCAGGATGGTGGC
Celera SNP ID:            hCV1445164
SNP Position Genomic:     859113
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4|T,3)   his(C,4)   total(C,12|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58906):
AGAGAATAAGGTGTTGGTTTGTTATAAGGTGGTCCTTTATAAAGTTTAGACCTATTTTAATAAGGCTGACTTGGGTTGAAGATAACTAGAGCCATGACTT
Y
CATCTTGATGGACAATGAGTACTCACTCTACTTTTTTAGTTTATATTTTTATTTTAGTTCATTTCATTTAAGACAGCGTCTGTTACCCAGGCTGGAGTGC
Celera SNP ID:            hCV16290959
SNP Position Genomic:     383157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58907):
ATGAAATATTAGGTTAACATGGAAAAAACATGGCATCCCATGTTTTAGTATTTTTTCCTTATTTCCAAGCAGCACCTCTCTTTGAATTATATTCTGTTCT
S
TGTTTTTATAATTTGACTCCCTTCTATTCTACATCTAAATAGTGCATTGTCTGTTTTCACTCAGGACTTTAAAAATAGTTCTAGTACTAATTGTATTTTT
Celera SNP ID:            hCV3285555
SNP Position Genomic:     133252
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58908):
ATCCCTCGACCCAGTGACCTAGCCCCCGTGTACCTTCCCTGTCTCATTTCTCACTGTTATCATTGTAACCCTCTACCCTCTCTTTTGGCTTCCTGCAGTT
K
CCCTCCTGCAGCAGGGCTTTTGCACATGCTGGTTTCTCCCTTACTTTGCCTCTACTCAGTCTTTATATTTCAACTCAGTGGTCACTGTCTCTAGGAAGCC
Celera SNP ID:            hCV1445165
SNP Position Genomic:     859587
SNP Source:               Celera
Population(Allele,Count): cau(G,4|T,4)   afr(G,4)   total(G,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58909):
CACTGGATAGGTAATAGACGCCGGCATGGCTATGCTGTGGTTCCTGCTGATGGGCACACTATTACAGGTGCATGATAAGTGTGTCGTACGCAGGAAGTAC
R
TTTCCCCCAGCCTTCCCTACCTGCTGAGGGCTGCTCCCAGCCTAAGGATTTCATCCAGATAGATTCATAGCGCTTCCAGTAAATGCACCCCTTGCCTTTC
Celera SNP ID:            hCV3285556
SNP Position Genomic:     134179
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58910):
CTGCATTAAATCCTTCTATAAGTTTTCATAGTTCTGTGCATTTCCTCTTGGCAGCAATGCACTGAGCTGCAGTTTTACATTTTTGTTTTTTTGTTTTTTG
R
GTTTTTTTTTTTTTTTGAGACAAAAGTCTCGCTCTGTCCCCCACGCTGGAGTACAGTGGCACGATCTTAGCTCACTGCAACCTCCACCTCCCAGGTTCAG
Celera SNP ID:            hCV1445166
SNP Position Genomic:     859796
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,3)   afr(A,3)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58911):
CCTGCTGATGGGCACACTATTACAGGTGCATGATAAGTGTGTCGTACGCAGGAAGTACGTTTCCCCCAGCCTTCCCTACCTGCTGAGGGCTGCTCCCAGC
S
TAAGGATTTCATCCAGATAGATTCATAGCGCTTCCAGTAAATGCACCCCTTGCCTTTCAAAGTTGAAAAAGAAATTACTTTGGACACAAAGAGGTGTTTC
Celera SNP ID:            hCV3285557
SNP Position Genomic:     134221
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58912):
TCATGTGTTACCTGAGACTCTCCGCCCATAGGATGTAGTTCCTTTCCATTGGAACACATGGGGACCGAGGGAATAAAGAATGTTTTCATCTCTGAAAATA
Y
CTCTCATTCTTCCAATCAATGCTGCTCTTTTCTTGCATACTGTATACTGGGAAGCATTTGTTTCGATTTGTGGTTAAATGTATGTGTCCACTGGACTTCA
Celera SNP ID:            hCV3285558
SNP Position Genomic:     134817
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(C,3|T,3)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58913):
CTGACCTCCTAAGTTAGAGCCCCTGGGAAGTTCAGCCGTGGTTCTGACCAGGCAGGATAACTATCTAAGTGTTCCCCTTTGGACCTAGACTGAGCCAAAG
W
TTCTCCTTGGTCTATATAGGATAATAGATTTCTAAAACAAACCAATAGCTCAGGCACAATTATAGTGGGGGGTGGGGGGCATGTTTAACCTACTTTAGAG
Celera SNP ID:            hCV1445168
SNP Position Genomic:     860647
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   afr(A,1)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58914):
CGATTTGTGGTTAAATGTATGTGTCCACTGGACTTCAGTATCCACCCTTTGAAGGACCGCAGGAGAAGTTGTTCAGGTAGAAACATACAAGGGCCGGATG
Y
GGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGTGGATCACTTGAGGCCTGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCC
Celera SNP ID:            hCV3285559
SNP Position Genomic:     134981
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(C,2|T,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58915):
TATTGAATTTTGGCCCACAGGAAAAGGAAACTTTGCTGTTAGGGTCAGCTGGAGGAGAGACTGCAGGGGTCAGAGATCAGGGCCATATGCTAGAGCTGCA
R
TGTGGGTGCTCAAATGATGTTCAGTGCATCTTCACAGATGGACCTCCACATGTCCCTCATGCCCTAAAATAGATATTCTCCACAGCTGCACATACAACAA
Celera SNP ID:            hCV1445169
SNP Position Genomic:     862632
SNP Source:               Celera
Population(Allele,Count): chn(A,5)   cau(A,5|G,3)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58916):
GTCTTCGTAATATAGCTAGTTTTTGTCCATTCATTTTGCTTTGACTTCCTTGTATAGGTACAAAGGTGTAAGTAGGAGAGTCTACCAGGCAGCACACAGA
Y
GTGGCCCTGTAACCACCCTTGTGTAAAATCAGAGTAATCCTCCCTATCCTTGCTTATTTCACTGGGTTCATGGGTGATGACTGTAAATGACACAGGAGAC
Celera SNP ID:            hCV11512101
SNP Position Genomic:     238782
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   his(C,2)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58917):
GATGAATACTCAGGGTTTTTTTTTTTTTTTTTTTTCTTCTAACTTGTCCTCCTTGATCAGGATTTCTCAAATGCACATTTGTCTAATATACTGTTGAACC
R
TGCAAGTACCAAAACAAAACAAGAAACCCAGAATTATAGCTCAAATTTAATTAAAATAGCTTTTATTGCTTCTATTCATGTGTCCCTGGATTTTAAGTGA
Celera SNP ID:            hCV15917393
SNP Position Genomic:     950258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58918):
CCCAGTGTGTCACGCCATTACATGCTTACAGCCTATTTTTACAAAGTTTGAATATTGTAATTTGCCTTTAAAAAATTGTTTTAAAGATCTGCCTAGGTCA
R
CAAATTTTATTTACTCTCTAGAACCATTTGATTGGGGTACTGCCTTAAGAAATAAAGCAGATTCCTTCAGTCGCATGTGGGCCTGGAGTCACTGGAAAAT
Celera SNP ID:            hCV15896573
SNP Position Genomic:     573960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58919):
CAAGGTAGAAGACATAGGTGGTCAAGAATTTAGAAAGACCCGGACTCGAATCCCAGCTCTGATCCATCTCAGCTCTGCCATATTGCCAAGTTCCGCTGAG
R
CTCCATTTACTCACCTGTTGTATCATCTGAATTATTTCCATATCCATAATGTGCAAGGATATCCTTCCATGTTATTAGAAATACAGATACACCATCATTA
Celera SNP ID:            hCV2852940
SNP Position Genomic:     965276
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,2)   afr(A,2)   his(G,2)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58920):
GTGCCAGTGGGCAGAAGGTTTTGCAAGAATAGCTTCAGGAAGACTTTGTGGGAAGACAGATGAATACTCAGGGTTTTTTTTTTTTTTTTTTTTCTTCTAA
Y
TTGTCCTCCTTGATCAGGATTTCTCAAATGCACATTTGTCTAATATACTGTTGAACCATGCAAGTACCAAAACAAAACAAGAAACCCAGAATTATAGCTC
Celera SNP ID:            hCV15917394
SNP Position Genomic:     950200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58921):
TGGTTTTAAAAGACGCCATGGTTGCCATGAGGAGGACAATGCGTAGGAGGCAGGAGTGAAAGCTAAAGGATATGCTGGGAGGTGACCCTGGAGTTAAAGA
R
AGCAACTAAGGTGACCAGGTGACAATAATGGAGATAGAGAAAACAGGATGGATTCAGGAAACATGACCACACTGAGCATATTCAAATGTAATTGTCAGTT
Celera SNP ID:            hCV15896574
SNP Position Genomic:     571584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58922):
TTTGCTTTTAAATGCCCGTGTTGATTTCTTAATATTTTCAACTTCCTCTTCTGAAGCCAGTTCCCCCCGACCATCAGTCATGAGTCCGTTCTTTTAACCT
Y
GTTCAGGTGGCGTGGGGCGGTGTGTTTGGTGGGGAGTGATGGGTGCTTGCCTGGAAGTGCGAGCAATTGATCAGCTGATGAGGGGTATTTATTATCTGTC
Celera SNP ID:            hCV2857888
SNP Position Genomic:     154138
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58923):
CATTTACTCACCTGTTGTATCATCTGAATTATTTCCATATCCATAATGTGCAAGGATATCCTTCCATGTTATTAGAAATACAGATACACCATCATTATCA
S
TGGCCAAATCATTCAAATCGCTGTTTGCTTCTTCTCGGGCTCTTATTCAAGCTCACGATGCTATTCTCATAGTGATTGCGAATCTCACTGCATAAAGGTG
Celera SNP ID:            hCV2852941
SNP Position Genomic:     965380
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|G,2)   his(C,2)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58924):
AACTAAACAAAATGCTAACCCATATGGGAGAAATTTCCAAAGAATTAAAACCACCCACCAGGAAAATGGGAAAGTCTCCCCTCCACACACACACACACGC
R
CGCGCGCACACACACACACACACACACACACACACACAAAATCACCAAATCACACCTGAACAAGAGGAAGAAAATTAAACTCATTGAGGAGATACCATCT
Celera SNP ID:            hCV11512105
SNP Position Genomic:     242014
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58925):
TGATCCTATTCGCATGATAAAAATCATAATGTCTCAAATTACTTACTCAATAAAATGTGGGTTTGTCTATTATTAGTGATTATTAGGGTTATAATGCAGC
R
TGGAAATTTGGAGCAAATTAACTATACATGCAAGCTGTTGGGCTCAAGTGCAGTTAATCATACGCATACAGTGCCAGTGGGCAGAAGGTTTTGCAAGAAT
Celera SNP ID:            hCV15917395
SNP Position Genomic:     950029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58926):
TTCATTGTTGTCCTTTTTTATTAAAACAGGTTTTGTTTTTTTGTGTGTGTGTTATTTTGTTTTTTGTTTTTTTGTTTTTCGGGGGCTGGAGTAGTGTGCA
R
AGCCTGGCGGTGATTGTTCTCATTAGAAAGTATAGTGTAATACTCAATAAATTACTTTTGTTCTCACCTTGGGAAGTGGACTCAGAGGCCAAGTGACTTT
Celera SNP ID:            hCV15896575
SNP Position Genomic:     565317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58927):
AACTTCCTCTTCTGAAGCCAGTTCCCCCCGACCATCAGTCATGAGTCCGTTCTTTTAACCTTGTTCAGGTGGCGTGGGGCGGTGTGTTTGGTGGGGAGTG
M
TGGGTGCTTGCCTGGAAGTGCGAGCAATTGATCAGCTGATGAGGGGTATTTATTATCTGTCCCTGACTCCCGAGAGAGGAAATAAATCCTTGGACCCCAG
Celera SNP ID:            hCV2857889
SNP Position Genomic:     154177
SNP Source:               Celera
Population(Allele,Count): cau(A,4|C,1)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58928):
ATCTCACTGCATAAAGGTGATTTTGAAAACATCACTTTTCCTCCACACTAATGTGTGAGCTTAGCCAGAGTAGGAGATATATCTTACTTAAAAAAAAAAA
M
AACAAACAAACAAAAAAAAAAAACTCCTTCTTCATTTGTTATAGTTCCAGGATAGAGTGTGTACCTGGATAGAGAGAGTCAGGCAGATATAGGTGTGCCC
Celera SNP ID:            hCV2852942
SNP Position Genomic:     965562
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,2)   afr(A,2)   his(C,2)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58929):
CTAAACAAAATGCTAACCCATATGGGAGAAATTTCCAAAGAATTAAAACCACCCACCAGGAAAATGGGAAAGTCTCCCCTCCACACACACACACACGCGC
R
CGCGCACACACACACACACACACACACACACACACAAAATCACCAAATCACACCTGAACAAGAGGAAGAAAATTAAACTCATTGAGGAGATACCATCTTT
Celera SNP ID:            hCV11512106
SNP Position Genomic:     242016
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58930):
TCACTGCATAAAGGTGATTTTGAAAACATCACTTTTCCTCCACACTAATGTGTGAGCTTAGCCAGAGTAGGAGATATATCTTACTTAAAAAAAAAAAAAA
M
AAACAAACAAAAAAAAAAAACTCCTTCTTCATTTGTTATAGTTCCAGGATAGAGTGTGTACCTGGATAGAGAGAGTCAGGCAGATATAGGTGTGCCCTCC
Celera SNP ID:            hCV2852943
SNP Position Genomic:     965565
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,2)   afr(C,2)   his(A,2)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58931):
AAACAAAATGCTAACCCATATGGGAGAAATTTCCAAAGAATTAAAACCACCCACCAGGAAAATGGGAAAGTCTCCCCTCCACACACACACACACGCGCGC
R
CGCACACACACACACACACACACACACACACACAAAATCACCAAATCACACCTGAACAAGAGGAAGAAAATTAAACTCATTGAGGAGATACCATCTTTTT
Celera SNP ID:            hCV11512107
SNP Position Genomic:     242018
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58932):
AGGTGATTTTGAAAACATCACTTTTCCTCCACACTAATGTGTGAGCTTAGCCAGAGTAGGAGATATATCTTACTTAAAAAAAAAAAAAACAAACAAACAA
C
AAAAAAAAACTCCTTCTTCATTTGTTATAGTTCCAGGATAGAGTGTGTACCTGGATAGAGAGAGTCAGGCAGATATAGGTGTGCCCTCCTTCCAAGATGT
Celera SNP ID:            hCV2852944
SNP Position Genomic:     965576
SNP Source:               Celera
Population(Allele,Count): cau(-,2|C,2)   afr(-,2)   his(C,2)   total(C,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58933):
TAGAAAGATTTTCACCCATTCTGTATAATTAGACAAATTCTGTTACTATCTGTCCAACAGTTTAGCAAGAGTCACTCTGAGATTGAAGAGAGGAAGGGAA
Y
GTTGGAACCAATGCTGATGAGCCATTCATAGGCTCTGGCTCACTATATATGTCTAAAATTCACATGCCCCTAACCCTCAAATAATGACCATTAATAATCT
Celera SNP ID:            hCV3025440
SNP Position Genomic:     776115
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,1)   his(C,3)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58934):
CTGCAGAACTGAGGTGGGCCCCAAAACTTGCGTTTCTAAAAGGTACTAGCTGAGCATGATGACTCACATTTGTAATCCCACCACTTTGTGAGGCCGAGGC
S
GGTGGATCGCTTGAGGCCAGGAGTTTGAGACCAGCCTTGCCAACATGGTGAAACTCCATCTCTACTAAAAATATAAAAATTTGCCGGGTGTAGTGGTGCA
Celera SNP ID:            hCV11512109
SNP Position Genomic:     243060
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,3)   afr(G,3)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58935):
GCTTGGAAGGTGGCGCAAATAACTGCTTGAGGCTCCCTCTCTTGGGCCAAGCTTGACTCTGGATTTTCATTGTTGTCCTTTTTTATTAAAACAGGTTTTG
K
TTTTTTGTGTGTGTGTTATTTTGTTTTTTGTTTTTTTGTTTTTCGGGGGCTGGAGTAGTGTGCAGAGCCTGGCGGTGATTGTTCTCATTAGAAAGTATAG
Celera SNP ID:            hCV15896579
SNP Position Genomic:     565252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58936):
AAAAAAAAAAAAACAAACAAACAAAAAAAAAAAACTCCTTCTTCATTTGTTATAGTTCCAGGATAGAGTGTGTACCTGGATAGAGAGAGTCAGGCAGATA
Y
AGGTGTGCCCTCCTTCCAAGATGTGTGATGGTGGGCAACTTTCTTTGCATCTCTGAGCCTCTATTTTCTCTATATAAAATGAGAGAGAAAAAAATAATTC
Celera SNP ID:            hCV2852946
SNP Position Genomic:     965652
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   afr(C,2)   his(T,2)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58937):
CATCGCCCACTCTGATTTAGATGAGCAAGAGCTGCTGAGTTGTAGATTTCTAGTTTCTAAACAACAATAAGTCTTGCCCCCAGATAGCCTCTTAGCAGAG
Y
CAAAAGCCAGCAGAGAGAAGACTCAGCATTTGCTTTGGAGTAAGTTTGTGTGTGTATGTTTATCTCCCTTTTACTCATGGGCTCTTTTTTCCCAAATAAC
Celera SNP ID:            hCV3025441
SNP Position Genomic:     777198
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58938):
GATGAATGTAGTGAGAGAAGGAAGGAAGAGAGAGAGGGAAGAAGGGGAAAAAGAGGGATGGAAAGGAGGAAGGAAGGAAAGGAGGGAGGAGGCAAGTATA
W
TAGTCATGATATAGGGAATTGAAAAGACATTCACGTTTTGTGGTGAATGAAAATAACTTGACCTTTATGAAGCTGGCCTAATCCCTGGAAGGAAAAAATT
Celera SNP ID:            hCV2852947
SNP Position Genomic:     965981
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|T,4)   afr(T,4)   his(A,3)      total(A,6|T,8) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58939):
ACTACAAATCATTGATCAAAGTATTGGTCTGTCACCTGTCCATGTGTAAGGCCAGGCCTAAGTGCTCTGACAGGGCATGACTCAATCCTCAAACAGGAAG
S
GGGAAATTGCTTTCCATCTCCTAACCCTAAGATCCTGGATGGCAGGTAATCTGCTTCCTCAAGATTCTGTTGATACACATTCAGGACTCTGGTTTCTGTT
Celera SNP ID:            hCV3025442
SNP Position Genomic:     777559
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,6)   his(C,2|G,6)   total(G,12|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58940):
GAGAAGGAAGGAAGAGAGAGAGGGAAGAAGGGGAAAAAGAGGGATGGAAAGGAGGAAGGAAGGAAAGGAGGGAGGAGGCAAGTATATTAGTCATGATATA
K
GGAATTGAAAAGACATTCACGTTTTGTGGTGAATGAAAATAACTTGACCTTTATGAAGCTGGCCTAATCCCTGGAAGGAAAAAATTTCCTTGGATATGTG
Celera SNP ID:            hCV2852948
SNP Position Genomic:     965995
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,4|T,3)   afr(G,4)   his(T,3)      total(G,8|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58941):
CAAAGTATTGGTCTGTCACCTGTCCATGTGTAAGGCCAGGCCTAAGTGCTCTGACAGGGCATGACTCAATCCTCAAACAGGAAGGGGGAAATTGCTTTCC
R
TCTCCTAACCCTAAGATCCTGGATGGCAGGTAATCTGCTTCCTCAAGATTCTGTTGATACACATTCAGGACTCTGGTTTCTGTTTTGCTTGATGACAATG
Celera SNP ID:            hCV3025443
SNP Position Genomic:     777575
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,6|G,3)   his(A,6|G,3)      total(G,6|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58942):
GGGAAGAAGGGGAAAAAGAGGGATGGAAAGGAGGAAGGAAGGAAAGGAGGGAGGAGGCAAGTATATTAGTCATGATATAGGGAATTGAAAAGACATTCAC
R
TTTTGTGGTGAATGAAAATAACTTGACCTTTATGAAGCTGGCCTAATCCCTGGAAGGAAAAAATTTCCTTGGATATGTGATTTATATAATCAATCAACTA
Celera SNP ID:            hCV2852949
SNP Position Genomic:     966016
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,4)   afr(G,4)   his(A,3)      total(G,8|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58943):
ATACACATTCAGGACTCTGGTTTCTGTTTTGCTTGATGACAATGACCCAGTTTCTTTGACTAAATAAATGTATAGACACACATTACTTCTTTTCATTCTA
R
GAATCATAAGTTTTTCAAACTTTAGAATCACAAGGTCCATTAAAGGACATCTCCCCTGACCTTCCCATTTTGTAGATGGGAAGACTAAGGTCCAAGCTTG
Celera SNP ID:            hCV3025444
SNP Position Genomic:     777732
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,5)   his(A,3|G,5)      total(G,10|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58944):
TATTTTAGTAGAGACGGGTTTTCACCGTGTTGCCCAGGGTTGTCTCGAACTCCTGAGCTTAGGCAGTCTGCCCACCTCAGCTTCCCAAAGTGCTAGGATT
R
TAGGCATGAGCCACCATGCCCGGCCTAATCTAATCAATTCCTTTAAATCTGAAACTGTCCGCCTGATTCTGGTTTACCACAACCACCAGAGTCTTAAGTG
Celera SNP ID:            hCV3025445
SNP Position Genomic:     778287
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|G,2)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58945):
AGGCAGTCTGCCCACCTCAGCTTCCCAAAGTGCTAGGATTATAGGCATGAGCCACCATGCCCGGCCTAATCTAATCAATTCCTTTAAATCTGAAACTGTC
Y
GCCTGATTCTGGTTTACCACAACCACCAGAGTCTTAAGTGTCCCAATAGCCAGGGTCTCATAGACTCTGCTTATGGTTAATTCTTCTGGGGAAATTAATT
Celera SNP ID:            hCV3025446
SNP Position Genomic:     778347
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,4)   cau(C,4|T,2)      total(C,8|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58946):
GTGACAAGATCTCCAAGGAGCCAGTTCACGCTTGGATGACTCTGGAGCTGTGGTGACAATCTAAATCCTAAATTGAGGCTTACTAGGAAATGCACTAGGT
R
ACAGGCTCTAGAGAAATGGCTATTACCAGGTTGCTCAGGCTGGAGTGCAGTAGTGCAATCTCAGCTCACTGCAACCTCTGCCTTCTGGGTTCAAGCAATT
Celera SNP ID:            hCV3025447
SNP Position Genomic:     779017
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4|G,5)   afr(A,4)   his(A,4|G,5)      total(G,10|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58947):
CTCTAGTCTAGGGCACAAAATTTCTGTCAACCCTTCTAACCAGTGTTTGAAGTACGTAAGACGTTCATTTCCACTTCTAATGAGGAATTAGAGGAACGGA
W
TTATAAAGGAATTCTGGTTATAATTGCATGTACTTTTAGAGACGATGTCTAACAGTGCAACCCATAGAACCAGGCTGCCTGGATTCAAATCCCAGCTCTG
Celera SNP ID:            hCV3025448
SNP Position Genomic:     779535
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,6|T,3)   his(T,3)      total(A,6|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58948):
AGTATAGACACGTGGCACCACGCCTGGGTAATTTTTGTAGTTTTAGTGGAGACAGGATTTCACCATGTTGGCCAGGCTAGTCTTGAACTCCTGACCTCAA
S
TGATAGACCCACCTCAGCCTCCCAAAGTGCTAGGATTACAGACATGAGCCGACCTTTTTATGTATTGTTGATACAGTATGACAAGGGAAGAGTTAACTGA
Celera SNP ID:            hCV16290960
SNP Position Genomic:     380973
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58949):
AAGAGACTGGAGAAAGCCAATCTGTTTCTCCCTGAAAATCATCTTACTTTTTTAACGCTTCGTACCTAGATTTGGCCTGGGCAGCCCAGGGAGACTGTTC
R
AGCACTGGATACCTAGACTCTGCTGGGCTCTAGAGAAGTGCTGGGCTACAGCGCCCAGTGCCCTACCTCTTGGGGCCAGCCAGCCTCACCAAAAAATCAG
Celera SNP ID:            hCV11438740
SNP Position Genomic:     413165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58950):
GCCCATCCCAAATGAATTCTAATCCTCAGCCTCTAGAATGCCTGGAGTGAGAAAACAGAATATTGTTCTTTTCTGTTTATATTATTTCATACTGAGTTAA
Y
ACACTTGCCAAGACTCCGAGGCAGCTTCTGGCTTGACAATGCCTTCTTTAACTAGCCTAGTTTCTAGAATAAAGTTCGGGTCCACCAGGCCCTCTGAGTG
Celera SNP ID:            hCV11438741
SNP Position Genomic:     412941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58951):
TCGAGTTCTTAATCTGAGCAGTTTCGAAACCAAGCCCACATTAATTAATATAAATAATGACTGGGAAACGTTGCAGGACTCCCCGGAAAAGAATGTATAA
R
TTGATGTGTTTTTGTATATGCTTATGTATATGCCTTTGTGCACGAAAGGAGATAAATGGTGTATTTCACACAGTTCCTTCTCCTCCTCTAAGGGATATTA
Celera SNP ID:            hCV11438742
SNP Position Genomic:     412609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58952):
CTTAGGCATCCATGCTCAGGGCTCTCTGTGGTAGGCAACAGCTGGATTATTTACTTTCTAGAATATCTCGAGTTCTTAATCTGAGCAGTTTCGAAACCAA
R
CCCACATTAATTAATATAAATAATGACTGGGAAACGTTGCAGGACTCCCCGGAAAAGAATGTATAAGTTGATGTGTTTTTGTATATGCTTATGTATATGC
Celera SNP ID:            hCV11438743
SNP Position Genomic:     412542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58953):
TGCGGTGGCGCAAACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACTCGGGAGGCGGAGGTTGCAGTGAGTCGAGTCGTGTCA
R
TGCACTCCAGCCTGGGTGACAGAGCGAAACTCTGTCTCAAAAAACAAACAAAAAGAAACATACCGGGAGATCTGGTTCTATTGAACCCCAGTGCAGCCAT
Celera SNP ID:            hCV3285560
SNP Position Genomic:     135214
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(A,2|G,3)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58954):
TATGCTAGAGCTGCAATGTGGGTGCTCAAATGATGTTCAGTGCATCTTCACAGATGGACCTCCACATGTCCCTCATGCCCTAAAATAGATATTCTCCACA
S
CTGCACATACAACAACGTCAGTGAAATCCGTTGAGAGGAGCATTGAGGAGATGAGTCAGGTGTGCCGCAGCACTCAGGTCAGACTTGAGGCAAGTGAGAG
Celera SNP ID:            hCV1445170
SNP Position Genomic:     862717
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58955):
CAGTGGTGTGATCTCAGCTCACTGCAGCCTTGACCTCCTGGGTTCAAGAGATCCTCCCACCTCAGCCTCCTGAGCAGCTGGGACCACAGGTGCTTGCCAC
Y
ATGCCCAACTAACTTTTGTATTTTTTGTAGAGACAGGGTTTCACCACATTGCCCAGGCAGGTCTCAAACTCCCGGGCTCAAGCGATCCTCCCACCTTGGC
Celera SNP ID:            hCV3285561
SNP Position Genomic:     135871
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58956):
GAGATGAGTCAGGTGTGCCGCAGCACTCAGGTCAGACTTGAGGCAAGTGAGAGGTGTGAGTTATTCAGAGTCCCAGAGAGCTTGGGCCAAAAGAGATTCT
R
TTTTTACTGGAGCATGTGAGGGTGGATCACAACTAGGATGGCGCGAAGTTCACCTCGTGTAAGCACACCAGGCTGCAGGGATAATAACTGCACTTTTTAA
Celera SNP ID:            hCV1445171
SNP Position Genomic:     862865
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58957):
ATCATATTCTCTTCACTGAAACATTTCAGATGACTTAAAAATTCACCTTGTAGAACTTTTAAAATTGAAACTTTCTGGTGAACATCATTAGTTGACAGAT
R
TGTCATTGAAGTTTCATCCTTCTTCATTTCAGAGTCTGCTGGAAGACCCTTCATTTACCACTCTCTCCTTCCTGGAGGTGTGGAAATACTCTACCTGGGT
Celera SNP ID:            hCV3285562
SNP Position Genomic:     136122
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6|G,5)   afr(A,6)   total(G,5|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58958):
TATAAGCAATAGTCCCTGAACATCATTTGGCCTGAACTAGGCTAGAGTTTCTCTTAATCAAAATAATAACGATGATTTTTCCATGCCAAGGAGTGGTGTC
R
TATCATGAAGTAGATTTATGTACACATTAAATAAACTTTTACATTTTAATGTACCAATTTGCAATTTTTTTTTCTATTCACCAAAATATTCCAGATAACG
Celera SNP ID:            hCV16290967
SNP Position Genomic:     379421
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58959):
CATATTCTCTTCACTGAAACATTTCAGATGACTTAAAAATTCACCTTGTAGAACTTTTAAAATTGAAACTTTCTGGTGAACATCATTAGTTGACAGATAT
R
TCATTGAAGTTTCATCCTTCTTCATTTCAGAGTCTGCTGGAAGACCCTTCATTTACCACTCTCTCCTTCCTGGAGGTGTGGAAATACTCTACCTGGGTGA
Celera SNP ID:            hCV3285563
SNP Position Genomic:     136124
SNP Source:               Celera
Population(Allele,Count): chn(G,10)   cau(G,10)   afr(A,1)   total(G,20|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58960):
CCCAAAGTGCTGAGATTACATGCATGAGCCACCATGCCTGGCCTCTGGCCTTCTTTTCACTTTAGAAAAAAACAAAAAACAAAAAACAAAAAAAAACACA
M
AAAAAACTTTTTTTTTTAGAACTGTTTTAGTTTGGGAGCCAAAATTGAGCAGAAAGTACAGAGAGTTCCCGTATACCTCCGGCAGAGCCCTGGCTCACTA
Celera SNP ID:            hCV1445173
SNP Position Genomic:     863418
SNP Source:               Celera
Population(Allele,Count): cau(A,5|C,2)   afr(A,5)   his(A,5)   total(A,15|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58961):
CAAATGGGGAACAGTCCTGTGCAGTGTTTCTAGGAAGTTACCAGCTTCATCATAGGAAGACGTTCTCCATCGTTTGGATCTTTTTCACCAGCACCTTTTG
R
TTGTGGTGGTTTGGGATGTGATGATCTCAGAACTTTACATCCTCCATGAAATCTCTGCAGCGATAGTTGAATGTCTTGCCTTTTCTATTATTGCCCTTTT
Celera SNP ID:            hCV16290968
SNP Position Genomic:     379120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58962):
TTCACCTTGTAGAACTTTTAAAATTGAAACTTTCTGGTGAACATCATTAGTTGACAGATATGTCATTGAAGTTTCATCCTTCTTCATTTCAGAGTCTGCT
R
GAAGACCCTTCATTTACCACTCTCTCCTTCCTGGAGGTGTGGAAATACTCTACCTGGGTGAGGCTCTCGTGGCTTTTTGTGCCAAGTGTCCGTAAACTTC
Celera SNP ID:            hCV3285564
SNP Position Genomic:     136163
SNP Source:               Celera
Population(Allele,Count): chn(G,9)   cau(G,9)   afr(A,1)   total(G,18|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58963):
ATGCCTGGCCTCTGGCCTTCTTTTCACTTTAGAAAAAAACAAAAAACAAAAAACAAAAAAAAACACAAAAAAAACTTTTTTTTTTAGAACTGTTTTAGTT
K
GGGAGCCAAAATTGAGCAGAAAGTACAGAGAGTTCCCGTATACCTCCGGCAGAGCCCTGGCTCACTATCTACATCCCCACTAGATCCATGTATTTGTTTA
Celera SNP ID:            hCV1445174
SNP Position Genomic:     863451
SNP Source:               Celera
Population(Allele,Count): cau(T,6)   afr(G,1)   his(T,6)   total(G,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58964):
GAAGTGGGCGTCGTGATGCCAGTGTCTTCGTAATACTATCTTTCTTTCCCCTTTAGCACCCAGAACTTATGAAATATGACTCGGTTTATCCTGAACACAT
S
TCTGTGCATCAGGGAGGATGGGAGAATTAATTCCAGTTTCTCAATTGCAAAAGTGAGGCTGGTCATGGGGCTTGGAACCACGCCACGGACGCATGAAGCC
Celera SNP ID:            hCV11438747
SNP Position Genomic:     412315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58965):
TGAATACCTTTTGCTTTCTATAAAATGGTGTGGCATTGCTGGTATTTTCACTCTTCCTTCCTACCCTGGATGCTGATTTGATGCTTCCAGCCTTAGCGGT
Y
TTCTTGCTTCTAGGACTGAACAGGGAAGAGGGAAAAGTCAAAAGAATGACAGAAGGTCCTCACGTTGCAGAACACTGACCAATGTTGGCAACTACAAGAC
Celera SNP ID:            hCV16290969
SNP Position Genomic:     378710
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58966):
GGGGGCCTGGAAGGGGAGAAGGGGCACCAGAAGGAGAAATGGGAGGAAAGGGCGAGTGAGATAGCAAAGAGAACTCAGAAAGTAATAAAGCCCTGCAGTA
R
TCAGAGGGCTGAGGCCAGGTCCCCAGTGAGCGGCTGAACACACAGTGATTCAAACCCACTCCAGACCTGTGTTCTTAATCATTACCTTCACCTGGAGGGA
Celera SNP ID:            hCV2857890
SNP Position Genomic:     157327
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,1)   cau(A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58967):
TCTGTAGCTTCTTCCAGCATGTGATCATACATCTACCTAACCTCTCCCATTGGTTGAATTTAATATACTAGTGAATTTTCCATTGCAAAGATGAGGTTAC
R
AATCATAGTGTTCATACTCAGAAGGACTTTATAAATATTTTGCCTTTTTGAAGTATATACAAGAAATGAAAAAAAAAACAGGAATAAATAAAAAGAATAA
Celera SNP ID:            hCV3285565
SNP Position Genomic:     136565
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,4)   afr(G,4)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58968):
ATCATATATTGTATCATATCATATCATGTCATATCATATCATATCATACCGAATAATTTCATTGCCCTAAAATACCTCTGTTTTCACTTTTTAATCTCTT
W
GTGCACACATCAAAAATTCCTTTTGTGTTTTTGAGTTTCAAAAGTGTGCCACAAACAAGAAATTTGGGATCTGCTGAGCCCAGCCTCAGACCTGTAGGGG
Celera SNP ID:            hCV1445175
SNP Position Genomic:     864102
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(A,1|T,3)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58969):
GATTCCAGCATTTTGGGAGGCCAAGGTGGACGGATCACCAGAGTTCAGGAGTTTGAGACCAGCCTGGCCAAAATGGTGAAATGCCATCTCTACTAAAAAC
M
CAAAAATTAGCTGGGTGTGTGGTAGTGTGTGCCTGTAGTCCCAGCTACTCTGGATGCTGAGGCACGAGAATTGCTTGAACCTGGGAGTAGGAGGCTGCAG
Celera SNP ID:            hCV1591952
SNP Position Genomic:     363096
SNP Source:               Celera
Population(Allele,Count): cau(A,7|C,2)   afr(A,7)   his(A,7)   total(A,21|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58970):
TGCTCTCATTTCATTTTCACTGAACTGAAAATAAGGTAACAGACCCTCAGGTCTACCTATAAGTACCTTCCAACTGTTCCACTTTTGTAAATTTAGTTCA
R
ATAATACATATGCTGAAATTCCTATATCCCCCCCATACTCCAGATCTTCAGTGTGGAATTTAAATATAATTCCTTATTGTAAAAAAAAAAAATTTTTTTT
Celera SNP ID:            hCV11438748
SNP Position Genomic:     411015
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58971):
CTTTCTAGCTGTGTAACTTTAGGCAAATAATGTAACCTCCATCTGCCTTTGTTTTTTCCTCTGTAATAGAAGGAACAACAACGAACAACATTTTTTTTTT
K
GCAAGATTAAGTGAGATCTTCCATTTGACATGCCTGGCTAATTGGCAGTGCCCAACAGATAGAAACTATTGGTATTGTAAGGACTGCTTATTGGGTACAT
Celera SNP ID:            hCV2857891
SNP Position Genomic:     157801
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,7)   afr(G,2)   total(G,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58972):
CCCAGGCTGGAGTGCAGTGGCATGACCATGGCTCACTGCAGCCTCGACCTCTGGGGCTCAAGCGATCCTTCTGCAACAGCCTCCCTAGTAGCTGGGACTA
Y
AGGTGCATGCCACCACACCCAGCTAATTTTTATATTTTTTGTAGAGATGGGGTTTTACCATGTTGCCTAGGCTGGTCTCGATCTCCTGGGCTCTAGCAAT
Celera SNP ID:            hCV3285566
SNP Position Genomic:     137399
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4|T,2)   his(C,4)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58973):
GAAACAAAGAGGGCAACAGGAGGTCACGAAGGCATGCTGTGCCCACTTTTGGAAATTGTGAAGGAGAGTGTCTCAAACATGTAGGCTTGAGCCACTCAAA
R
TTCTGGGAAATAGGATGTTTTGTAAAGAAAGTTTGCTACTGTCACTTCTGAGTAGTTGCAGTCCCTCCCAGTACGTGGGTATCTTCGGTGAGAACAAATT
Celera SNP ID:            hCV1445176
SNP Position Genomic:     864302
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58974):
TCTCTCAGCTTCTCCTCTCTTTCCCATCCAACTGAGCAGCACCAATAAATAGATAAGAAACCTGAAGGTCTACATCAAATCAGCTTCTATTGCTGCAAAA
Y
TCTTCTAGCTAACTTCATTCTAAAAGCTGTCTGAAATATATTTACTTACACCCGAGAAGATTCAAAAACATTACCGCTGAACCCCGATGCTTTGGGAACA
Celera SNP ID:            hCV2857892
SNP Position Genomic:     158957
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   afr(C,7)   his(C,7|T,1)   total(C,21|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58975):
TCGACCTCTGGGGCTCAAGCGATCCTTCTGCAACAGCCTCCCTAGTAGCTGGGACTACAGGTGCATGCCACCACACCCAGCTAATTTTTATATTTTTTGT
R
GAGATGGGGTTTTACCATGTTGCCTAGGCTGGTCTCGATCTCCTGGGCTCTAGCAATCCTCCCACCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGA
Celera SNP ID:            hCV3285567
SNP Position Genomic:     137442
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,5)   his(A,5)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58976):
CTCATGTGACTTTCTATATCATCCTTTGTGTCTAAGTGATTTGCACTGGGAAGATAGTAAACGCTCCCACTTTATATGCAGAAGGTTGAAAACACCATGA
R
TGTTGCAATCTGAGGTATCTGCCCTTAAAGAAGCAATATTTACTGAAATGCAGGGCACACGACTTTTCCAGCAAACCACACCGCCGTCCTTTTGTGTGAC
Celera SNP ID:            hCV1445177
SNP Position Genomic:     864559
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6|G,1)   his(A,6)   total(G,1|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58977):
GCTCCTAGGTTTTCTTACTTCCAAAACAGTGGGCAAGAACAGCTACCTTTTAGAAGCAGGAAAAAGGAACATAATGAATAAACCTAAAGGATTTAAAAAC
K
TGGAAGACACTAAGAAACTATATTGCCGAGAAAGAGAAATGTAAATTCCGCTGGATAAATTAGCGTTTGCGGTTACTTCTCTCTTTGTTGCTTAAGCAGA
Celera SNP ID:            hCV2857893
SNP Position Genomic:     162730
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,5)   his(T,5)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58978):
ATTCATAACTCAGTCACGTTACTGAGGTATGTCTCTTCGGATAGATTCTATCTCTAAAAACTACAGATTCTATCTCTAAAAACTTAAGTCAAGGGATTTT
S
AAGCAGTTGTTTGATTTATGTATGTGAACCTCTCCCTTAGGAGAAGAACTTTTCTTTGGCAAACACCATAGGAACGGAGACCTTAACAAAAGAATTAGGA
Celera SNP ID:            hCV1445178
SNP Position Genomic:     865094
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,5)   his(G,5)   total(G,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58979):
AGTGCACCTGACCCTAGGATAATCTTAATTTTAAGTAACTGGTAACTCATAAATTTTTAAACACTCTGCAGTTCAAAGAAAACATGTTTGTGGTAGGTAG
Y
CAGTTTATAACCTGTGTAAGACTGTGTTATTAGCAAATCCCTCAATGTGTTGACCAAGAGTGGGTAGGAATCCTGCAGACAGAATCTTTTGAAGGTGGTT
Celera SNP ID:            hCV11512110
SNP Position Genomic:     244366
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,1)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58980):
TGGACAAGAGGTCACATTGCCTTTTCTAGCTTGGAAGGTGGCGCAAATAACTGCTTGAGGCTCCCTCTCTTGGGCCAAGCTTGACTCTGGATTTTCATTG
K
TGTCCTTTTTTATTAAAACAGGTTTTGTTTTTTTGTGTGTGTGTTATTTTGTTTTTTGTTTTTTTGTTTTTCGGGGGCTGGAGTAGTGTGCAGAGCCTGG
Celera SNP ID:            hCV15896580
SNP Position Genomic:     565224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58981):
CCCGGCCTTACGTTTCAGCATCTTTCAATCCATCTAATACGCAGTGCCAGGGAAGGTTTGTGAAAACATTTGAATCACAGAGTCACAAACAGTGAGAATA
K
CTGCAGTTATGTTTGTGATGCTCTAATGAACTTACAAAAGGCCAGGCCTAGTATTTCAGCTGTGTCCATGATGTCTCTGATGGAAATGGACAGGTAACAT
Celera SNP ID:            hCV3285569
SNP Position Genomic:     137652
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(G,4|T,1)   his(G,4)   total(G,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58982):
ACCCCATCTCTATTAAAAATACATAAATTAGTCGGGCATGGTGGCATGTGCCTGTAGTCCCAGCTGCTCAGGAGGCTGAGGCAGGAGAATCACTCGAACC
Y
GGGAGGCAGAGGTTGCAGTGAGCCTAGACTGCACCATTGTACTCCATCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAG
Celera SNP ID:            hCV2857894
SNP Position Genomic:     163439
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(C,6|T,2)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58983):
AAAGTACTCTCTATGGAGAGGTTTTATGGTTCTGAAATAATTTAAAAACACACTTTACTACAATCCATAGCAGGTAGTTTTGCCAATTTGGGAAGTTATG
K
TGCCTTGCAGTTTCCAAAGTAAGCTGAACAGTGTTTTTTAACAGTGCTGCCCCTCTCTCCCACTAGAAATGCGAGTCCATCCTTTTACCAAGTGTGGTAC
Celera SNP ID:            hCV1445179
SNP Position Genomic:     865957
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(G,6)   his(G,6|T,1)   total(G,18|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58984):
TTCCTTTTGAGCCCAGCTCTCCCTTTGTGACCCAGCAACTTCCTTCCCCGATGATGGCCAAGCCTTGAGGATGTGAAACTGCCCAGTGCCCCAATCTGGA
R
TCCACCATCCTGGGTCTAGCTGGGGACATCCTTGAATCAGCCTCTGGGAATCACTGAACCAACATGAGTCACTTGCTACTGTGAGATCTCAGAACACATG
Celera SNP ID:            hCV15896581
SNP Position Genomic:     554567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58985):
TGAGCACACTTCAGACTTCCAGTCTTGTGTGGCCTGTCTACCACACCATGAGACTTCATGTCTCTCCTAAATGAGGAGAACCAAAGCTGGAAATTGTCAC
Y
CCCTGTCAGCCCACAGCACTGGTTTCTAAACCTACTGGCCTCTACCGCTTCACTTCTCACTGTAATCTCTCTGACCCTACCTTCCAGCTTCTCTTGAGAA
Celera SNP ID:            hCV2857896
SNP Position Genomic:     163675
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58986):
GTTATTAGCAAATCCCTCAATGTGTTGACCAAGAGTGGGTAGGAATCCTGCAGACAGAATCTTTTGAAGGTGGTTTGTTTTTTTATTCCTTTATAAGTAC
W
GTTGTAGATTTACAAAGTAATTGAGTATATAGTACATAAGGTCTTGTGTACCCACCGATCGCAATTGAGCATATAGTACATGCTGTCCTGTGTACCCACT
Celera SNP ID:            hCV11512113
SNP Position Genomic:     244492
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,1)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58987):
TTGGATATGTGATTTATATAATCAATCAACTAGTCCTTATTTTGGTAGAGCTAAACTTCTGTCTTTGGGTTTACTCACCGTATCTGTGTGCATCCTGGCA
R
TGTTTACGATATACTTCTACTAAAATATTATTTTATTCTATACTAACAAAGGGATTTGTTGTGTGTGTAAAATTCAAATTTCAATGAAGATTGTGTATTT
Celera SNP ID:            hCV2852950
SNP Position Genomic:     966185
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,4)   afr(A,5)   his(G,4)   total(G,8|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58988):
TGGGTTTACTCACCGTATCTGTGTGCATCCTGGCAATGTTTACGATATACTTCTACTAAAATATTATTTTATTCTATACTAACAAAGGGATTTGTTGTGT
R
TGTAAAATTCAAATTTCAATGAAGATTGTGTATTTTTATTTGCTAACTCTGGAAAATGTGTTTACAGAAGAACCAGAGAAGGACTTACTCCTCTCCGTAC
Celera SNP ID:            hCV2852951
SNP Position Genomic:     966250
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5|G,4)   his(A,5)      total(G,4|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:58989):
AGGCCTGAGCAAAAGACACAGAAAGGATTTCTTTATCGTAAGCACACTTCTCTACATTACCTTTATAATCCAACAACTCTGCTATTAGTAAATTATAGAA
M
CAACTTTTGTAACACTATCTTGTTTGCAGAGTATATGAAAAATTTGAAGTTAAAATTCAGCTCCACGAATACTGCAGTGGTGAGAAAATGGCGACAAAGA
Celera SNP ID:            hCV15911803
SNP Position Genomic:     488255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58990):
TAGGCCAAGAAAGGGGTGGGAGAAACGAGCAAGGTGTTGATAGAACCCCTTAGTGTCCTCCTCATACCACAGACACTCTCTTCCCCCACTTACTTGGCCA
W
TTTTTTTTTTTTTTTTTTTTTTTTTTGGTGGAGTCTCGTTCTGTCTCCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCCCTGCAACCTCTGCCTCCCA
Celera SNP ID:            hCV15896585
SNP Position Genomic:     539987
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58991):
GAAATCTCTAGCTTCTCAAACTGTTTCGTGGTGGAGTGCCTTTTGGGCACAGGAGAAGGAAATAAGAGCCTCGCGAGGTTTGGGAATGCTGCCTCTAGCT
Y
TCACACTGCATGCAGAATTCCTACTCTGAGAGCTCACTTTATCTCAAAAACCCATGCATATTCTGCATCTACTCTGAATTCCGCAGTGTTGTGTGTTACT
Celera SNP ID:            hCV15830811
SNP Position Genomic:     469870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58992):
TACTCCTCTCCGTACACTTTGGACATGTCAAAATCTAGAAATAGAGATCAGTAAAGGTAACACATAGCACCTTAAATCTGATTTAAAAGGAAAACAATGA
Y
TATTATACAGATTTATGGCTTCTTGTCAATAATACTCTGATTTCTGGAGATTGTTATCAGTCATAAGCTTTATAGGAAATATCTCCTTTTGAAAATGACA
Celera SNP ID:            hCV2852952
SNP Position Genomic:     966436
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,3)   his(T,3)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58993):
CACGAACAAATTGCCAAATGCAAGGCCTGAGCAAAAGACACAGAAAGGATTTCTTTATCGTAAGCACACTTCTCTACATTACCTTTATAATCCAACAACT
Y
TGCTATTAGTAAATTATAGAAACAACTTTTGTAACACTATCTTGTTTGCAGAGTATATGAAAAATTTGAAGTTAAAATTCAGCTCCACGAATACTGCAGT
Celera SNP ID:            hCV15911804
SNP Position Genomic:     488233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58994):
TGCACTCCTGTCTGGGAGACAGAGGGAGGAGACTCCATCAACACTAATAATAATAAAGTAAATAAAAGGGCACTAACCCTACTCAGGAAGCCTTCACTCT
M
ATGACATAATTACCTCCCAAAGTCCGCACTTCCTAATGTTACCACTCTGGAGGTTAGAATTTCAACATATAAATTTTGGGGGGACACATTCAGACCACAA
Celera SNP ID:            hCV15896586
SNP Position Genomic:     524257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58995):
GTGTCATACAGCAGAGGGCTGTGATGCTCTACTGAGGAGTGGAAGTGTTTTTCTGAGGGCATCAAACACGCCGTCAAGCAGGGAGGCAACAAATCTGAGT
Y
GTTCCACAGATACTTTGAGTGCAGTACAAGTTGGTAATGGGTAACAGGCTAAACCATGTGGCACCCCTTCCCTCTTATCAGCTTCTTGCTACCATGCAGA
Celera SNP ID:            hCV15830812
SNP Position Genomic:     461653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58996):
TCCGTACACTTTGGACATGTCAAAATCTAGAAATAGAGATCAGTAAAGGTAACACATAGCACCTTAAATCTGATTTAAAAGGAAAACAATGACTATTATA
S
AGATTTATGGCTTCTTGTCAATAATACTCTGATTTCTGGAGATTGTTATCAGTCATAAGCTTTATAGGAAATATCTCCTTTTGAAAATGACATTTTAAAT
Celera SNP ID:            hCV2852953
SNP Position Genomic:     966444
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,3)   his(G,3)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58997):
TCCCATCACGAACAAATTGCCAAATGCAAGGCCTGAGCAAAAGACACAGAAAGGATTTCTTTATCGTAAGCACACTTCTCTACATTACCTTTATAATCCA
M
CAACTCTGCTATTAGTAAATTATAGAAACAACTTTTGTAACACTATCTTGTTTGCAGAGTATATGAAAAATTTGAAGTTAAAATTCAGCTCCACGAATAC
Celera SNP ID:            hCV15911805
SNP Position Genomic:     488227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:58998):
GGAAAACAATGACTATTATACAGATTTATGGCTTCTTGTCAATAATACTCTGATTTCTGGAGATTGTTATCAGTCATAAGCTTTATAGGAAATATCTCCT
W
TTGAAAATGACATTTTAAATTAATGTGAAATTGTGTTTTAATTTAATTCACAGGGAGTCATAAACAGGTGGGAGAATTATGGAACAATAATTGTGTTTGC
Celera SNP ID:            hCV2852954
SNP Position Genomic:     966524
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:58999):
ACAATGACTATTATACAGATTTATGGCTTCTTGTCAATAATACTCTGATTTCTGGAGATTGTTATCAGTCATAAGCTTTATAGGAAATATCTCCTTTTGA
M
AATGACATTTTAAATTAATGTGAAATTGTGTTTTAATTTAATTCACAGGGAGTCATAAACAGGTGGGAGAATTATGGAACAATAATTGTGTTTGCAAGAA
Celera SNP ID:            hCV2852955
SNP Position Genomic:     966529
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59000):
GGTCTCCCACCCTCTCTTATTTTTATAAACAGGCTCCATGGTACTATATACACTGCAGATGGACAGCTGCCAACCTGCTCTTTTTGTGCTGAGGAACTCT
R
GATATTTCAACTAGTTTACATGACTTTCTTACCTATGCTACCTTATAATCCTTTTATAAATTTTGCTTTACGTTTTAACAACGGAAAACACTTAAGGTTT
Celera SNP ID:            hCV3025450
SNP Position Genomic:     783510
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,3|G,4)   his(G,4)      total(G,8|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59001):
TTATAGGAAATATCTCCTTTTGAAAATGACATTTTAAATTAATGTGAAATTGTGTTTTAATTTAATTCACAGGGAGTCATAAACAGGTGGGAGAATTATG
K
AACAATAATTGTGTTTGCAAGAAATGGATTTCATCCTAAAACTCCATGAATATGCTATTACAGTTTGTTGTCATCCTGAAATGCTCTGTTTAACCATAAA
Celera SNP ID:            hCV2852956
SNP Position Genomic:     966606
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59002):
CATGGTACTATATACACTGCAGATGGACAGCTGCCAACCTGCTCTTTTTGTGCTGAGGAACTCTGGATATTTCAACTAGTTTACATGACTTTCTTACCTA
Y
GCTACCTTATAATCCTTTTATAAATTTTGCTTTACGTTTTAACAACGGAAAACACTTAAGGTTTTTTTCCTTTCTTTTTTTTTTAATTCTTCCGCCAGCT
Celera SNP ID:            hCV3025451
SNP Position Genomic:     783546
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,4|T,4)   his(T,4)      total(C,4|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59003):
TGTACAAAGCTGATAAATAACTGAAACCAAATTAGCTCAAACTGGTTATATTTCTGGGTACAAACCAGGTGTATAGTTAATCCATTGTTGTTTCTGTGTC
R
ACCACCATTGTCCTCACCTATACTTGGGCAGTGGGGGTGGGGAGGAGAACATAAAAACCCACCAAGCCTCATTTTTCTTGCTAATTTATTTCCTTGAACT
Celera SNP ID:            hCV2852957
SNP Position Genomic:     967564
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,7)   afr(G,7)   total(G,14|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59004):
TCCCATTTCAGGCTGATTAAAAGGCAAAATCTTCACAGTAGGACACCAAACCCTCTGTATGCCCTGCCTGCCTCCCCCCCTCTGACCCGCCTGCCTCCCC
V
CTGTGAGCTTTTTCCACCTACTGGCCTCTTGTTCTTCTTCAGCTGTTCCTCAGACATGCCAGGTGTGTTCCTGTCTCAGACGCTTTGCCTTTGCTGCTCC
Celera SNP ID:            hCV3025452
SNP Position Genomic:     784716
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,2)   afr(C,2)      total(G,2|C,2) ;no_pop(A,-|C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59005):
GCAGTGTTTCCAAAAATAGTTTTGGAAATTGCAAAAATACTACAATGCTGTTGTGCCGGCCACACTGTGAGTGCTGACTGTCATGCATTTTATAGCCCAT
S
TCCCTCTCCAGTGAGGCTTTTGGCCACTGGCCGTTAATTGGTAAGGTTCTTGAAAACTGAAGTGATGGTATCAGCATGGATGCCCGTGCTTTCTGATGCC
Celera SNP ID:            hCV2852958
SNP Position Genomic:     967781
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,2)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59006):
TCTTCTTCAGCTGTTCCTCAGACATGCCAGGTGTGTTCCTGTCTCAGACGCTTTGCCTTTGCTGCTCCTTCTGCCTGGAGTATTCTTCCACGTAGCACCA
Y
GAGCTGTTCTTCTCCAAAAGGCTTTGCTCAACTGACACTTTCTCAGTGAAGCTGTTTCTCACCACTCACTATAAAATGGCAGCCTGCCTCTCTGAGCCTT
Celera SNP ID:            hCV3025453
SNP Position Genomic:     784849
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,1|T,6)   afr(T,6)      total(C,1|T,12) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59007):
TGGCCATGGTGCTCACAGTCTCTCAATCCTTTATGTTGAGGGAGAAATGATAACCAGATCTCATTTTGTGTGCCAACCCGAAAGCCTGACTTGACTGCCT
M
AAATGTTAGGAAGGACTCTAAAGCCCTATCTGGATTCCAAATTTATGGTTGGTGCAGACTGGATTTTTACAATTTGTGCTTAGTAGTATCTTATTATATT
Celera SNP ID:            hCV2852959
SNP Position Genomic:     968654
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(A,3|C,3)   his(C,3)   total(A,6|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59008):
CATAGGTAGTTTTATATACATTTTATAGCTAAGCCCAGCAGCCCAAAAAGCTAAATGACTTCAGCGCCCACAGATACTCCTGGATGAGAGGGGATTGGAA
W
CCAGGTCTGTTCAATTGCAAATCCCCTCTTGTGCCTTTTACAGGTCAGATGATTTTGTTTTTATAGGCTCTAGCAGGTCCCTTCTCTTTGCGTCACCAGA
Celera SNP ID:            hCV3025454
SNP Position Genomic:     785346
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5|T,2)   afr(A,5)      total(A,10|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59009):
TTTATAGGCTCTAGCAGGTCCCTTCTCTTTGCGTCACCAGAGAGGAAGATCCCCTAAGACAAAGCATTCCCTGTAGTTTTTAGCATAACTAGTACTGGCT
S
AGTAAGTATCCACTGGGGTTCGGAATACAACTGCCCTGCCTCTTGAGCAGCCATGCCTGCTTCCGAGGTGGTGCTGCATGCTATTCAGGAGGACAGACCA
Celera SNP ID:            hCV3025455
SNP Position Genomic:     785506
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   afr(G,1)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59010):
TTTTAGCATAACTAGTACTGGCTCAGTAAGTATCCACTGGGGTTCGGAATACAACTGCCCTGCCTCTTGAGCAGCCATGCCTGCTTCCGAGGTGGTGCTG
M
ATGCTATTCAGGAGGACAGACCATGGATGGGAATCCTGAGCCACAACTCCTTAGCCTCATGACGTTGGGCAGATGACTGAGCTTGTCTGAGTTACAATAA
Celera SNP ID:            hCV3025457
SNP Position Genomic:     785583
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|C,3)   afr(C,3)      total(A,2|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59011):
CGGAATACAACTGCCCTGCCTCTTGAGCAGCCATGCCTGCTTCCGAGGTGGTGCTGCATGCTATTCAGGAGGACAGACCATGGATGGGAATCCTGAGCCA
S
AACTCCTTAGCCTCATGACGTTGGGCAGATGACTGAGCTTGTCTGAGTTACAATAAATAAAAATACCATGCTGAATGATGGCCTAGCATGACATTGGGAA
Celera SNP ID:            hCV3025458
SNP Position Genomic:     785627
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|G,3)   afr(C,3)      total(G,3|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59012):
TGCTATTCAGGAGGACAGACCATGGATGGGAATCCTGAGCCACAACTCCTTAGCCTCATGACGTTGGGCAGATGACTGAGCTTGTCTGAGTTACAATAAA
Y
AAAAATACCATGCTGAATGATGGCCTAGCATGACATTGGGAAGTACAGACTTTGCAGGCAGGCCCCTGGGTTCAATTCCTGCCCCTGTCATTGAGTAAAG
Celera SNP ID:            hCV3025459
SNP Position Genomic:     785685
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   afr(C,1)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59013):
GCACCTGCATGTTGTAAAAACACAAAATAAAAAAAAAATAAATAAAAGCAGACCCCTTGGTTCAGATATCTTTGTTTGTGTAAATGTTTTGGCATTCTTT
R
TGAAAATCTTCAGATTTTCAAGAGCTTAAGATGACCTCCTCTAGCCGGCTGCAGCAGTGTCTAGGTATCTGTGAATGTGTAAGAAATTGAGACAGCCTGC
Celera SNP ID:            hCV11438750
SNP Position Genomic:     408973
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59014):
CGCTGCCATTCAGTTTTACTCTGCACAAAATACAGCCAACATTTTTGCATTTCTTTCTTCCTTCCTCCTTTTCTTCTTTCTTTCCTTCCTTCCTTCCTTT
Y
TCCCTTCATCTATCTTTGTTCCGCTTTTGTTTGTTTTTTTTTAGATCGCTGCATGCTGCCGCGTTGGGTTAACCATGGTAGCATTTTACCATGAGAAGCC
Celera SNP ID:            hCV11438751
SNP Position Genomic:     408058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59015):
TAAATTGAATTATTCCCGCTGCCATTCAGTTTTACTCTGCACAAAATACAGCCAACATTTTTGCATTTCTTTCTTCCTTCCTCCTTTTCTTCTTTCTTTC
Y
TTCCTTCCTTCCTTTCTCCCTTCATCTATCTTTGTTCCGCTTTTGTTTGTTTTTTTTTAGATCGCTGCATGCTGCCGCGTTGGGTTAACCATGGTAGCAT
Celera SNP ID:            hCV11438752
SNP Position Genomic:     408042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(-,-|CTTCCTTC,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59016):
ATTCTCCATGCCACTCCTTATCTCTTTAGTGCAGAAAACGGAGAGGAGGTTCAGTATTCTTAAGAAACTCCCATGATTGCTTTGAGGCAATGGATTTAAC
R
GGTATCTTTATCCCTTATTTACGCACTGACTGTGGTACTGAGTCATCCCTGGTGTTTCTGGATTTTATTGGCAATGCCAAGAGAGCAGGAAGACTGGGAC
Celera SNP ID:            hCV3285570
SNP Position Genomic:     138336
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|G,2)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59017):
AATTTAAAAACACACTTTACTACAATCCATAGCAGGTAGTTTTGCCAATTTGGGAAGTTATGGTGCCTTGCAGTTTCCAAAGTAAGCTGAACAGTGTTTT
Y
TAACAGTGCTGCCCCTCTCTCCCACTAGAAATGCGAGTCCATCCTTTTACCAAGTGTGGTACGACAAAGGTTTCTCTGGTTTTCTTTTGGTATTCTCAGA
Celera SNP ID:            hCV1445180
SNP Position Genomic:     865995
SNP Source:               Celera
Population(Allele,Count): chn(T,5)   cau(C,2|T,5)   his(T,5)   total(C,2|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59018):
CCTTCCAACATCTAGCATTATTGTGTGTTGAATAAATACTTGTTCGATTAGGTCTAATCACTCTTCATGATTGGATTTCCAAAATGTGGACTCTCAGCAG
K
ACATTACAGGGACAGTGGTTGGGTCTGGAGATGTCACCCTTAGCTGTTTTTCACAATGAGAGGTTGTTTTATCATAAATAAATCAATAAATGGCAGATTA
Celera SNP ID:            hCV11438753
SNP Position Genomic:     405359
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59019):
CAGGCACGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGGTTTCACCATGTGGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGAT
Y
GACCTACCTCGGCCTCCCAAAGTGCTGGGATTACAGTCATGAGTCACCATGCCCGACCAGCAAGACCCCACTGCTATTGTCCAGTGTGGTAGGTACCTTT
Celera SNP ID:            hCV16290975
SNP Position Genomic:     378379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59020):
AATGAGGGCATTGGAAATCCGCTCTCAGGTGGCCATCGAAAATAGTCAGCCTGAGTGTTGCTACCTGTTTTCCATAATTGTGTAGCTTTGCCTTTCCTTA
R
TTAATCTGTTCAATAAACTCCTCTGCAGAATCCAAATGCTTAAATTCAGTTTCTTTTTGTCTTTATGGTGTTTTTCATTGTTAACGTGGCATCGGAGTAG
Celera SNP ID:            hCV3285571
SNP Position Genomic:     138899
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,2)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59021):
TGGTATGTGCAGGTATCACCAGGATGCAATTAGTTTGATGAAATATACCAAGTCGTCAATGCCACTTTGGATAGTTTAATCTGAAAATAGGACATGGTTG
K
GGTAGTGGGCACAGGGGAAGGAAGGTTATGTAATTTTAAAATTCTTCCTTTGATTCAAAAGAAAAAAACATGTTTGTTGCATTCAACTCCAAAGGGTGAG
Celera SNP ID:            hCV1445181
SNP Position Genomic:     866216
SNP Source:               Celera
Population(Allele,Count): chn(G,7)   cau(G,7)   his(G,7|T,1)   total(G,21|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59022):
TCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGATCATATCCTTCGCCCACTTGGGTGGATGAAGCTGGAAACCATCATTCTCAGCAAACTGT
Y
GCAAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACAGTTGGACACAGGAAGGGGAACATCACACACCGGGGC
Celera SNP ID:            hCV11438754
SNP Position Genomic:     383956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59023):
ATTGTTTGTTTAAAATCACTTTGGATTCTCATTTACCTTTTCCCCCTCAAGATCTTTGTTTTTGACTTTGGAGATAACCAGAAATAACTAAGCATGCTTC
S
TTCCCTCTACGATTTCATCCTCATGGGGAAGCAAGACCCCACTCTTTTATTTTCATGTATGTATATATGTATGTATGCATGTATGTATGTATGTTTGAGA
Celera SNP ID:            hCV16290976
SNP Position Genomic:     378060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59024):
TAATTGTGTAGCTTTGCCTTTCCTTAGTTAATCTGTTCAATAAACTCCTCTGCAGAATCCAAATGCTTAAATTCAGTTTCTTTTTGTCTTTATGGTGTTT
W
TCATTGTTAACGTGGCATCGGAGTAGCTCGACTTTTGCATCATGATAAATTCATAACCCAAGAGAAGGCAGAAAACATAATTATTATCAATTGCCTCTCT
Celera SNP ID:            hCV3285572
SNP Position Genomic:     138973
SNP Source:               Celera
Population(Allele,Count): cau(A,3|T,2)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59025):
TAACACTAACAAGCTAATTCAGGTATGATAATAAAAACCTTCACAGGGTTAGCCATCCATCTATCTGTCCATCCATCTATTCACTCATGCATTCATCCAC
S
TGTTCATCCATTCATCTGTCCATTCATCCATCTATCCATCCATCTACTTCTAGGTTGTGAGAACCCGTAGTATTGACTCTCAGTGTGATAGGAAGGCCAG
Celera SNP ID:            hCV1445182
SNP Position Genomic:     866940
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59026):
TCTGATGGCCAGTGATGATGAGCATTGTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGATCATATCCTTCGCCCACTTGGGT
S
GATGAAGCTGGAAACCATCATTCTCAGCAAACTGTTGCAAGGACAAAAAACCAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACA
Celera SNP ID:            hCV11438755
SNP Position Genomic:     383920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59027):
CACTTTAAACATTGCATCCTTGAGTTGCATATGATGGGATCTCTTGAATCATTTACATTTTGAAAAAAGAAAGTGAAATATTCTTTAAGAAGCCAAAGTA
M
TCCACGAGAATGTATGGTGTTTGTTCAGCTGGATATCTTATTTATTTGAAGTACTGAGAGAGAAATCTTTTCTGACTGCTCAAAACAGGGAATAATAAAC
Celera SNP ID:            hCV11438756
SNP Position Genomic:     357952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59028):
GAAATTGTCTCTACCTTCAAGGTTCTCACAGTCTGGAGGGAACAGAGAGCCATCAGGGACAATAGGTCCCTGTGCCATCAGCTACTGGGATGTATGACTT
Y
CCAGTAGAGGTACACAGCACTTGTTCCAAAAGGAGCCTATGTAGCTTTGGGAGTTCTCTATTTAGTCACCTTATTTTTTTTGTCTTCTTGTTAAACTAGC
Celera SNP ID:            hCV1445183
SNP Position Genomic:     868128
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,4)   afr(T,4)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59029):
TTGTCTTTATGGTGTTTTTCATTGTTAACGTGGCATCGGAGTAGCTCGACTTTTGCATCATGATAAATTCATAACCCAAGAGAAGGCAGAAAACATAATT
R
TTATCAATTGCCTCTCTCCTGGAATTGCCATTGGCTGAGTGGAACAAAATACGAACTTAAGGAGTAGCTGATTCAGAGAAATCCAGGGTAGGAACGGGTC
Celera SNP ID:            hCV3285573
SNP Position Genomic:     139056
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59030):
CAAAGAATTGTAGTTGGATCAAATGAGTTGGAGTGGGATACAGCAACAATCTATATTCTGATTTCAGCAACACTGTGCAGTGTAATTCCATATTATATTA
Y
ACCACATCTTCTGTGGGTCTTTCTTTGGGGGAAGCTAACATTTTAAAAGGTTTCCCTTTGTAACCTGTAACCCCCTCTACCCCAAAAGTATATTCAAGAG
Celera SNP ID:            hCV16290977
SNP Position Genomic:     376449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59031):
AGGCTAGCCAATCATTTCAAAGCCTGTGTAGAATATCTAGACTATATGTAATCCTAGGATTTGTTGTTGTTTTGTTATGATTTTTTTTAAGCAGGAAGCT
W
AAAAAAATAACCACCCGTTACTTTGCTGCTTTTAGAAAATAGGTTTGAGATTGATTTTGAATACTAAAGTATAGTTTTCATGTTATAAAGCCAACCATGT
Celera SNP ID:            hCV11438757
SNP Position Genomic:     357644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59032):
AAAGTGAGATTGCTTCACATTGCATTTAAAGGCTTAAATAATGTATTCTGTCAGACAATTCTCTGAAATGGTTTTCCAAGTGAATGCATCAGAAAGTGCC
Y
AGAAAGAATGCCTGGCACAGGAAGAGGAGGGCATTCAGAAAATGTGAGCTGCTTGCATCAGAATCTAACTTGAGATGTATCATTCCTACGGTAAGGTGCA
Celera SNP ID:            hCV1445184
SNP Position Genomic:     869991
SNP Source:               Celera
Population(Allele,Count): chn(C,1|T,5)   cau(T,5)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59033):
TCTTTATGGTGTTTTTCATTGTTAACGTGGCATCGGAGTAGCTCGACTTTTGCATCATGATAAATTCATAACCCAAGAGAAGGCAGAAAACATAATTATT
R
TCAATTGCCTCTCTCCTGGAATTGCCATTGGCTGAGTGGAACAAAATACGAACTTAAGGAGTAGCTGATTCAGAGAAATCCAGGGTAGGAACGGGTCCCA
Celera SNP ID:            hCV3285574
SNP Position Genomic:     139059
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,2)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59034):
AAAAACTAGCCAGAAAGCGTGAACTTTTTTTTTTTTTAAGCCATAAAGCTTGGTAAGGCTAGCCAATCATTTCAAAGCCTGTGTAGAATATCTAGACTAT
W
TGTAATCCTAGGATTTGTTGTTGTTTTGTTATGATTTTTTTTAAGCAGGAAGCTAAAAAAAATAACCACCCGTTACTTTGCTGCTTTTAGAAAATAGGTT
Celera SNP ID:            hCV11438758
SNP Position Genomic:     357589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59035):
ATAGTTTTCTGTTCCTGAATTCATATAAATAGTCACCCAGTACGCATTCTTTGCTGTCTTGCTTCTTTTACTCCTCATTAGGTTGTGGGATTTGCCCACG
R
TATTTCATTCTTTATTGTCATTCTTCTTTCTCTGCCACTGCCATCCTACCAACAGTTTGTATTATGAAAAATTGCAGACGTACACAAAAGTTGAAAGAAT
Celera SNP ID:            hCV1445185
SNP Position Genomic:     870366
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59036):
GCCCTTTTGAAGATCAAATGGGATCTGTAAAAACTCTTTGAAAAATGTAGACTGCTTCTTATGTGATTCTTACTGGTCTATTATTTATCAAGAAATTAAA
M
AGGAATGAATATCTGTAGCTGTTTTTCTTTTTCTTTCTTTTCTTTTCTTTTCTTTTTTTTTAAGATGGAGTCTCGCTCTGTCACCGGGCTGGAGTGCAGT
Celera SNP ID:            hCV3285575
SNP Position Genomic:     140177
SNP Source:               Celera
Population(Allele,Count): chn(A,9)   cau(A,9)   afr(A,9)   his(C,1)   total(A,27|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59037):
TGGCCATGGAATTGAGAAGCAGGAGCATGGCTCACAAATTCACAAATCAGCTTCTCCACTAATGAGGGGTGAGGAAGTTAAAATATAGACTTTGTTGTTG
K
TGCTGTTTTAATGAAGAGGCTGGACATTAAAATCAAGGGGAGGAATAATCATGTCTTCTCTTGAAATGGGCAGTGAACTTCCCGGAACCAGAGTGTTGCC
Celera SNP ID:            hCV11438759
SNP Position Genomic:     356308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59038):
TTCTTTTCTTTTCTTTTCTTTTTTTTTAAGATGGAGTCTCGCTCTGTCACCGGGCTGGAGTGCAGTGGTGCTATTTCGGCTAACTGCAATCTCTGCCTCC
Y
GGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTTGCTGGGACTACAGGCGTGCGCCACCATGCCCAGCTAATTTGTAATTGTTTGTTTCTAAAAGGA
Celera SNP ID:            hCV3285576
SNP Position Genomic:     140312
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,2)   cau(C,7)   afr(T,2)   his(C,7)      total(C,14|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59039):
TTTTAAAAATAATTAAGGTGATGTCATGATAAGGCTATTAAGAGCCAACATGCATTGAGTATGGACTTTCTGCCAGACATTGCACTATGCACTTAACACA
Y
AGACACATATTGTTTTTTCCATTTTAAGATACAGAAAGTGGGCCTTAAAGGTGCTACTGACTTGCTGATATGCTTTGGCTGTGTCCCCACCCAAATCTTA
Celera SNP ID:            hCV1445187
SNP Position Genomic:     871129
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   afr(C,2)   his(C,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59040):
TCTGTCACCGGGCTGGAGTGCAGTGGTGCTATTTCGGCTAACTGCAATCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTTGCTG
R
GACTACAGGCGTGCGCCACCATGCCCAGCTAATTTGTAATTGTTTGTTTCTAAAAGGATATTCAGTGCTTCCACTGTCTTTTAGAAGTCTGTAGAAGGAA
Celera SNP ID:            hCV3285577
SNP Position Genomic:     140354
SNP Source:               Celera
Population(Allele,Count): chn(G,7)   cau(A,2|G,7)   afr(G,7)   his(G,7)   total(G,28|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59041):
TGGATTTGTCCCATTACACTGCTTTCTTTAGTGCATAAGATCTTGAAGGGAGGGATGCATTCTATGCACCCCAAGTTTCTGGTTTACTCGTGGTTTCAGG
W
GTCCCTTTAGACAACATCACTGACAACTCACTATGTAAAACCAAACAAATTATTAGCTTTCTTACTGTGTGTTTGCATTTGCTGTGCCCAGGGAAATGGG
Celera SNP ID:            hCV1591965
SNP Position Genomic:     404303
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,9)   his(A,9|T,1)      total(A,18|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59042):
GTTTTTTCCATTTTAAGATACAGAAAGTGGGCCTTAAAGGTGCTACTGACTTGCTGATATGCTTTGGCTGTGTCCCCACCCAAATCTTAACTTGAATCGT
R
TCTCCCAGAATTCCCACGTGTTGTGGGAGGGACCCAGGGAGAGGTAATTGAATCATGGGGGCTGGTGTTTCCCATGTTATTCTTATGAAAGTGAATAAGT
Celera SNP ID:            hCV1445188
SNP Position Genomic:     871241
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(A,3)   his(G,1)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59043):
GCTGTTCTTAACTCTGAAAGCAGAGTGGGCCATTTGAATGCTCACTTTGATATTTTTTAAAGGAAAAATTTGAGGCATTGACACATGCCTTTTGCTTACT
Y
GCTTGGATTGGTTTGATCAACTTTGTTGCGGTCTAATTTATGTAAAATAAATTGCATCCATTTAAATATACAATTCAATGAGTTTTGACAGATGCACATG
Celera SNP ID:            hCV11512120
SNP Position Genomic:     252975
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(C,1|T,3)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59044):
CGATCTCGGCTCATTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACTACACCTG
K
CTAATTTTTTTGTAGTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTAGATCTCCTGACCTGGTGATCCGCCTGTCTTGGCCTCCCAAA
Celera SNP ID:            hCV3285578
SNP Position Genomic:     141065
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59045):
ACTATGTAAAACCAAACAAATTATTAGCTTTCTTACTGTGTGTTTGCATTTGCTGTGCCCAGGGAAATGGGAAGTGCATTGAGGAAGAGGCCCCAAGACA
W
GGAGAAGTCACTCCAACTTTCCGGGAACACCTTTTGCTGTGCCATGTGCATGGAAGGAGAGGAATGAATGACTGTTGAAGCCAGATGGCCTTGCTCATTG
Celera SNP ID:            hCV1591966
SNP Position Genomic:     404433
SNP Source:               Celera
Population(Allele,Count): chn(A,7)   cau(A,7)   his(A,7|T,1)   total(A,21|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59046):
GGAGAGGTAATTGAATCATGGGGGCTGGTGTTTCCCATGTTATTCTTATGAAAGTGAATAAGTTTCATAAGATCCAATGAATTTATCAGGGGTTTCTGCA
R
TTTTTCTCTTGCCACCACCATGTAAGAAGTGCCTTTCACCTCCACCATGATTCTGAGACCTCCCCAGCCATGTAGAACTGTAAGCCTGATTAAACCTCTT
Celera SNP ID:            hCV1445189
SNP Position Genomic:     871379
SNP Source:               Celera
Population(Allele,Count): cau(A,2)   afr(G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59047):
CCTCCCGGGTTCATGCCATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACTACACCTGGCTAATTTTTTTGTAGTTTTAGTAG
R
GATGGGGTTTCACCGTGTTAGCCAGGATGGTCTAGATCTCCTGACCTGGTGATCCGCCTGTCTTGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCA
Celera SNP ID:            hCV3285579
SNP Position Genomic:     141090
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59048):
AGCTTTCTTACTGTGTGTTTGCATTTGCTGTGCCCAGGGAAATGGGAAGTGCATTGAGGAAGAGGCCCCAAGACAAGGAGAAGTCACTCCAACTTTCCGG
R
AACACCTTTTGCTGTGCCATGTGCATGGAAGGAGAGGAATGAATGACTGTTGAAGCCAGATGGCCTTGCTCATTGATTCTCTCCTTTCCCGCCCTCTCAA
Celera SNP ID:            hCV1591967
SNP Position Genomic:     404458
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,6)   cau(G,6)   his(A,1)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59049):
CCTCCTAATACTGCATGACGGATAATATGCCATCACATGGTGTCATTTAATATATTCATTCCTATTTATAGACATTGAAGTTAGATCCATGTCTTACTAT
Y
ACACATGACTTAGTAATGAATGTTCCTGCATGTATATTTGGTCTGCTTGAGCAAGGATATTGGGAGGGAGGATTTCCAGCAGCAGAAGTGGTGGAACAAA
Celera SNP ID:            hCV15896591
SNP Position Genomic:     568455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59050):
TTCTTACTGTGTGTTTGCATTTGCTGTGCCCAGGGAAATGGGAAGTGCATTGAGGAAGAGGCCCCAAGACAAGGAGAAGTCACTCCAACTTTCCGGGAAC
M
CCTTTTGCTGTGCCATGTGCATGGAAGGAGAGGAATGAATGACTGTTGAAGCCAGATGGCCTTGCTCATTGATTCTCTCCTTTCCCGCCCTCTCAAGCCA
Celera SNP ID:            hCV1591968
SNP Position Genomic:     404462
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,6)   cau(A,6)   his(C,1)      total(A,12|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59051):
TGTTGTGGGCTTGGGGAAACAGAAGGAAATTGGAGACATTGATATGCTTCCTGAGAGGTGGAAGGGGCCACTTAACACAGCTTTCATTTTTCAGTTGCCA
R
TGGGAGAGGAGCTGGGGTGGGCATATAATGAGTAACATTCAAAGCTCCTTCTGTCTTTTTTTCAGAGAATTCACAAAACAACTCAGGGCCTCCTGGTCCT
Celera SNP ID:            hCV15896592
SNP Position Genomic:     567890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59052):
TGAAGCCAGATGGCCTTGCTCATTGATTCTCTCCTTTCCCGCCCTCTCAAGCCATCCAGAAGGAGAATGAAATGCTCAAATCAAGGGAGTTAACTATGGC
M
AAGATGTTAGTAATGGGAAACTTTGGAGGAAGGCAAAGTCAGAAATTATTCTGCAGGGAGATTTGGGGATGTTGGATGCTAAGGCCCAAGCCGTCTATTG
Celera SNP ID:            hCV1591969
SNP Position Genomic:     404609
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,7)   cau(C,7)   his(A,1)      total(A,1|C,14) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59053):
TGCTCACAGTCTCTCAATCCTTTATGTTGAGGGAGAAATGATAACCAGATCTCATTTTGTGTGCCAACCCGAAAGCCTGACTTGACTGCCTAAAATGTTA
R
GAAGGACTCTAAAGCCCTATCTGGATTCCAAATTTATGGTTGGTGCAGACTGGATTTTTACAATTTGTGCTTAGTAGTATCTTATTATATTAGCCCGGCA
Celera SNP ID:            hCV2852960
SNP Position Genomic:     968663
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(A,3|G,3)   his(A,3)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59054):
TTTAGAAATATTTCTAACCTCTGGCCTTTTTTCTTATCTCTACTTAAAGCTTTTCTGGAAGGAATTCATTTTCCACTTTCCTTAATGTTCCTTAAATGTT
S
TACATATCTTAAAAGTGGATTCCTCATAAAACAATATGGACTATGGTCTTATTCTGTTTAACGGTATGAAAGCTCGCCTGAAAGGCCAAGAGTAAGATTC
Celera SNP ID:            hCV11512124
SNP Position Genomic:     255014
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,4)   afr(G,4)   total(G,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59055):
GCCAGGGAACCAAGGCCTTTCAAAGTTGAGGACACTTCCCGGTGCCGTGCGGTGTAAATCACAGTGCAAACTATGCGATTATCCCCTGCAGAGGAATCGA
S
TGTGACTTTATGGGATTCTTCACCAAGCACTTAGGAATAATCTGATATAAAACAGCAGGGGTGGAGAGTAATGACAACTTCAAATTAGTTTAATGAATGT
Celera SNP ID:            hCV2852961
SNP Position Genomic:     969964
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(C,3|G,4)   total(G,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59056):
GGAAGGAATTCATTTTCCACTTTCCTTAATGTTCCTTAAATGTTGTACATATCTTAAAAGTGGATTCCTCATAAAACAATATGGACTATGGTCTTATTCT
S
TTTAACGGTATGAAAGCTCGCCTGAAAGGCCAAGAGTAAGATTCTTTTAAAATCATGCCCAAGTTTTAAAGGAATATAAAACTTTCTCTTTAAAAATATA
Celera SNP ID:            hCV11512125
SNP Position Genomic:     255070
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   afr(C,1)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59057):
AAATGTCCAGCTTTCTTTCTTTTATTCAAAATTTATACTTCATAATTGAAGTTCACCTCCCAAAAGACATAGCTTGGTTTAGCATAGAGCTATGATGTGT
K
TTCTCTTTGTTCCTTTTGCACACTTTCCTTGTCTGGAGGCGTTGGGCTTGGATCCTTCATTCTTCATGAGGCTGATGTTTTTCCATTTCGGTTTCCTTAA
Celera SNP ID:            hCV15911812
SNP Position Genomic:     484010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59058):
AAAATGTCCAGCTTTCTTTCTTTTATTCAAAATTTATACTTCATAATTGAAGTTCACCTCCCAAAAGACATAGCTTGGTTTAGCATAGAGCTATGATGTG
K
TTTCTCTTTGTTCCTTTTGCACACTTTCCTTGTCTGGAGGCGTTGGGCTTGGATCCTTCATTCTTCATGAGGCTGATGTTTTTCCATTTCGGTTTCCTTA
Celera SNP ID:            hCV15911813
SNP Position Genomic:     484009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59059):
CTCCTGGTTTTCAGCCTGAGGAGGAAGGTGGCTTTATTTAACTCCTTCAGCCCCGGAACATCACAGGGCCCTTCTTTGTGCATTCTGGGTTCTAACAGCC
M
CTTGAACAGTGCTTGAGAGTATTTCCATTATAAATGTCGAATCGGCATTGAAGGAACATCTGTTTTAAGTCAACTTAGACTCAATCCAGGAAAAAAAATA
Celera SNP ID:            hCV2852963
SNP Position Genomic:     970249
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(A,1|C,6)   total(A,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59060):
CGCCTGAAAGGCCAAGAGTAAGATTCTTTTAAAATCATGCCCAAGTTTTAAAGGAATATAAAACTTTCTCTTTAAAAATATACCTTTCTGCTTTCATCCC
Y
TAACCCACAAAGCTCAAGTCTAGTTTAATTCAAACTTGGAAATAGTTCTTTTATTATTGCTCCCTGCAATGGGAACAGAGCTGAGGCTCCTAAGGTCTAG
Celera SNP ID:            hCV11512127
SNP Position Genomic:     255189
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,2)   afr(C,3)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59061):
GGTGCCTAAAGTTTGAGAACTTCTGATCAAAAATGCCAGATAAGAAAAAAAAACCTTTCGAGACATCATTTGAATCAATTATCAAATGTTTCCAAAGTGC
R
CTTGCTTTGCAAACCACTGTACTACTCATCTCTGCCTCCATCGGAGCGAGTTCAGGAGAGTTGTGTTTACTTTTCTAAAGGAGCCTTTTCCTTCCCATTT
Celera SNP ID:            hCV15896596
SNP Position Genomic:     567037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59062):
AACTCCTGAGGGATGCTCAGGAAACCAAAAAGGATGTCTGCATGGAGGACAAGAAGGCACAAATCGTCTGATTTCACCCCATCCTAAGATCTTGTGACTT
M
AGCTTTGTTTTGGACTGGGGCATTGGATCTCCCACATGCCCTCTCTTAAGTCGTGCATTTGACGCATATTTAATAAGCACCTACTGTGTGCCATTAGAGA
Celera SNP ID:            hCV15911814
SNP Position Genomic:     483150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59063):
ATTTCAGTAGAAGGAGTGGGATAGGAAATGTTCACATTGCTTGCAGTATGTGAAATAGACCTCGAGGTATTTTGGATAAAAAAGCAACATTCGTGTTTTA
K
ATATGGTTACCCAGCCCAAGCCGCCTCTGCTCTTTATAGCCGTGTTTTTGAAGTGTTCTTATTTTTTGTTCCGAAATCGGAATATTTCCTGGCGTGCGTA
Celera SNP ID:            hCV2852964
SNP Position Genomic:     970699
SNP Source:               Celera
Population(Allele,Count): chn(G,9)   cau(G,9|T,1)   his(G,9)   total(G,27|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59064):
CCAAAGTGCTAGGATTACAGGTGTCAGCCACAGTGCCATGCCCTGATGTGATGCTTAAATTCAGAAATTGGGAAGGAGGGTCAGGTAGCTATAAGCAAAA
Y
ACAAGAGAAATATAAGAGAAAGAAAGACTTGTATCTGTTGTTAGTGAGTTTTTGTGGTGGTGATACATTAATGGAGGCAACAGAGGGTCAGAAATCAGGG
Celera SNP ID:            hCV11512128
SNP Position Genomic:     255953
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,3)   afr(T,3)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59065):
ATATACTGAATGCTAAGCCCTCCCCACTTTTTTTTTCTTTTTTAAATTCAGAAATTTCTAGTTGTGTTTATTCCCCTCGTCAGCATACTTTATCATATCA
R
AGCCTTTTCAGACACTGTAAAACTACTGAGTTATGTTTGGGTCATGTTTTGCGGTATGCCCTTTAATAGTGTAGCTTTAGAAATGCAATTTTCAGCCTCT
Celera SNP ID:            hCV15830823
SNP Position Genomic:     505509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59066):
GATTTAGAATCAGAAAGTGTGAGTTCAAATTGCCTTCGGCTCTTCACCTGGGTGGGCGATTTGAATAGAGCTCACAGCCCTGAAAACCCTGGTTTTCAGA
Y
TCTTTATTGGTAAATGAAGTCAGCTTAGTGATATGAGAATTATGAAACATAAATCCCTTTGTAAAAATATAAAATAATCTTACAATCATCATCGTCATCC
Celera SNP ID:            hCV15896597
SNP Position Genomic:     561685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59067):
TTGAGGTTGCAGTGAGCTATCATTGTGTCACTACACTTCACCCTGGATCTGGAAGGAAGGGAGGAAAGGAGGAAGGGAGGGAAGGAGGAATTTACTAGAA
R
CAAATTAACTTCTGTAATCCTAAGTACTTGTTAAGGCAGAAAAACGCAGATAAGAAAATCGAAGTTGAGGGCAAGGAGCTCATCTTTCACGGTCATAGAC
Celera SNP ID:            hCV3025460
SNP Position Genomic:     786509
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59068):
GTGTTTTAGATATGGTTACCCAGCCCAAGCCGCCTCTGCTCTTTATAGCCGTGTTTTTGAAGTGTTCTTATTTTTTGTTCCGAAATCGGAATATTTCCTG
S
CGTGCGTATCTTGGCCCCATCACATCACAACAGGCTGAATGCTGTCCACAGGTTGCCAGTCTGGATATGGAATATTAGTCAAAACGATATAAACTAACTT
Celera SNP ID:            hCV2852965
SNP Position Genomic:     970791
SNP Source:               Celera
Population(Allele,Count): chn(C,3|G,9)   cau(C,3|G,9)   his(C,3|G,9)   total(G,27|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59069):
GGCTGATGCCTTCTTTCACTAGCTTTATGTGGCTGGCAGTTCTGTCCTGCCACTCTTTTCCTCATCATCTCAGCCTCCCTGCCCATGGCACTCAAGAGTC
S
ACCTTGGCAGAACCTGCAACTCTTCAGCGCCTCCCTAATGAACTCCTTGCAAGGGCCCTTGGTTAAGTTACAGTAGAGAAGTGGTTGCTTAAGCAAGTAG
Celera SNP ID:            hCV15830824
SNP Position Genomic:     497135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59070):
GTTCACGCCTGTAATCCCAGCGCTTTGGGAGGCCGAGGCAGGCGGATCACCTAAGGTCGGGAGTTCGAGACCAGTCTGATCAACATGGAGAAACCCTGTC
K
TTACTAAAAATACAAAATTAGCCAGGCATGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAGTCGCTTGAACTTGGGAGGCAG
Celera SNP ID:            hCV3025461
SNP Position Genomic:     787121
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,1|T,2)      total(G,1|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59071):
GCATTTCAGGTTGGTCTTTCCCGCAAGAAGGTAAACTCATCTGCAGCTGTATTCGCTGTGCCTATGGTAGTGCCTGGCAAATGCACAGAAGTGGGTATTA
S
TGAGGACTTTGTGGTTCGAATGGAATGAGTGTGCTGCTGACAGTGTTGCGAGTCATCTGCAAATGAAAAGTCCTTCCTTCTCTTCCCTTCTGGAACCTTC
Celera SNP ID:            hCV2852966
SNP Position Genomic:     975223
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,1)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59072):
GATGACCAAGAATTTATAGTCAAAAGTAGATAAAGTAAAAGAGTGAAAACAGAGACATGATACGAGTTGATGATACCGTATGCAACTTGTCAAACACTTA
M
ATTTGTGAATAAGAAAACTGGGGTCTATTTGGTGGTTTATTTCAGAGATGTTGGATCAAATCAGACATCAGAAAAGACACCAGTACCAAACGAAGATATC
Celera SNP ID:            hCV3025462
SNP Position Genomic:     787514
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59073):
ACGTGTAGGAAGCTCAAGACAGAGACGTGGCTGGTCACGGTGGCTCATGCCTGTAATCTCAACGCTTTGGGAGGCTGAAGCAGGAGGATCACTTGAGCCT
R
GGAGTTCGAGACCTGGGCAACATGGTGAGACCCCCATCTCTACAAACAACAACAACAAAAAAAAAAATTAGCCAGGCGTGGGGGTGCATGCCTGTGCTCC
Celera SNP ID:            hCV2852967
SNP Position Genomic:     976038
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   afr(A,4)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59074):
GGCACCACACACGATGAGATTGGAGGCACCTGGGTGTCAGCCTCTTGGGCTGGCTCATTACAGGCCACTCTGTCTGAGGAACACTCAGGTTTGCAAACCG
K
TTCTTAAAATTACAGGATACCTAGGGACCTGTTGGGGTGGGAGGGAAGAACCCTATGGGCAGAAATGTGACTTTCTGTAGCAAAGATGTACTGTTTCCCA
Celera SNP ID:            hCV15830825
SNP Position Genomic:     476717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59075):
AAAACTCCTGGGCTCAAGCGATTCACGTGCCTCAGCCTCCCAAAGTGCTAGGGTTACAGGCATGAGCCACTGTGCCTGGCCCTGGTAAAATTTTGTCTAC
R
TAGTTACTGCTGCCCAGGCAAAATCTGAAAAATGTTAGTCTAATTTAGTTAAGTTTTTCTTGCAGACCAGAACTTCTAGGAAACTAATATACAGGTTTTC
Celera SNP ID:            hCV3025463
SNP Position Genomic:     788733
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|G,1)      total(G,1|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59076):
AACTTCTAGGAAACTAATATACAGGTTTTCTCCAAAATATATTTTCAAGGAAAATCAGAGAATAAAAGTTTCCAATGCATTTAGACTAGAAAATTAAATA
Y
TCAACAAACAATTTCGGAGGGCCAACTATTTGCCAGGATCCTTGCTGGAATAGTCTCTAACCTCAAGGCAATTGCTGTCTAGCTTTAAGATCAAGAGTAA
Celera SNP ID:            hCV3025464
SNP Position Genomic:     788904
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59077):
GTGTCACATATTTAAGGATGTTCAAGGCAACCAATTAGTATTCAAGCATTTAGAATTATTTTGAAACATCTTCTGTGAAAAACAATTTATTTCCTATTCC
W
AAATAAATGCAGAATATTCCTAATATAGTTTGATAGTTCCTCCTCAAGACTTATCATTCAAAGATTGGGCAAATTGACTTGAAAGAGAAAAGTTAAGCTA
Celera SNP ID:            hCV2852969
SNP Position Genomic:     977489
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59078):
CAGTTGCTCACACTCGGTCAATACTTGCCTTCCTTTGAGGCCATCTGCACTCACTGACAATCTGATCGCTCCCCTGAATGGAGGTGAAAGCATGCAAGCT
M
GGAGTTAAGATCTTTAACTCAGGGAAGACCCTGTCTATGGAAGTGCTGAGCTCTTCAGTGTCATCACAGAAAAGCATGAGCCCCTCCCTGGTACGGAGTC
Celera SNP ID:            hCV15830829
SNP Position Genomic:     470353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59079):
TAGTGTCAAGCAGTACAGGCTTTATTCAATGGCCATGGAATTGAGAAGCAGGAGCATGGCTCACAAATTCACAAATCAGCTTCTCCACTAATGAGGGGTG
R
GGAAGTTAAAATATAGACTTTGTTGTTGTTGCTGTTTTAATGAAGAGGCTGGACATTAAAATCAAGGGGAGGAATAATCATGTCTTCTCTTGAAATGGGC
Celera SNP ID:            hCV11438760
SNP Position Genomic:     356279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59080):
GGGTCAACTTCTTACCGACAAAGCTGGTGCCCCAAAAGAATGGGGTCTTATCCTGTTGGGTGTCATGAAGCCAACACACAAAACCGAAAGTAGTGTCAAG
Y
AGTACAGGCTTTATTCAATGGCCATGGAATTGAGAAGCAGGAGCATGGCTCACAAATTCACAAATCAGCTTCTCCACTAATGAGGGGTGAGGAAGTTAAA
Celera SNP ID:            hCV11438761
SNP Position Genomic:     356189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59081):
GTTCTGAACTTGCTGTTATAATTATTCACATTTTCTTGCAGTGAAAATCTACAGGTCAAGGTCATCTTCACGTCTTTAGTTCTTGTTTTGCTTCAGGTCA
S
TTTAGAACCGAATGTTAAAAGGATATTGTCTATTCGAAGGGTCAGATTGTGGCACGTGGACCAAATCCAGCCCCCCGAGGCCCACTTTTGTAAATCAGGT
Celera SNP ID:            hCV347864
SNP Position Genomic:     49735
SNP Source:               Celera
Population(Allele,Count): chn(G,11)   cau(C,3|G,11)   his(G,11)   total(G,33|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59082):
GGCCACAAAAATCATGTCACAAGATCTTGTTGATGTGCATGCATTCATTCATTCAACAAATATTATTGAGCATCTAACATAAGCCGGGTGCTTTGCTAGG
K
ACAGAATGCTGTACAAGGTCCCTGTCCTCATGGGGACCGTATGTTGGGAAGACAGATGATAGGCATGGAAATGAAGAGACAAACCACTCCGACTTCAGCC
Celera SNP ID:            hCV11438762
SNP Position Genomic:     353039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59083):
TAGAGTCTGGATTCTTTTTATCCAGAAGCCATTCTTTCAGCCTGTGCCTTTTTGTAAATACCATACCCCATCTATTTCCACAAAGGATTTGGGGCATTAG
S
GAGTAAAGGGGGAATATGTTCTAGAAGAAGGGCGCTCACCTCAGTAAATTGATGGGTGGGCCACAAAAATCATGTCACAAGATCTTGTTGATGTGCATGC
Celera SNP ID:            hCV11438763
SNP Position Genomic:     352880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59084):
ACCTCTTTTTCTTCCCGGTCTCAGGTTATGTCTTTATCAGCAGTGTGAAAATGGACTAATACAGTGAATTGGTACCAGTAGAGTGGGGCATTGCTGAAAA
S
ATATCTGAAAATGTGGAAGTGACTTTGGAACTGGGTAACAGGAAGAAGTTAGAACCGTTGGGAGGTCTCAGAAGAAGACAGGAAAATGTGGGAAAGTTTG
Celera SNP ID:            hCV1445190
SNP Position Genomic:     871573
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(G,1)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59085):
GATCCGCCTGTCTTGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGTGCCTGGCCTGATGATTCAGTTTTTACCCCAAGATGCAGTATGCCTC
M
GTCTCACTAAAATATGCCAATATGTTCTTCTTCTTGAGGATCAGGGCTGATTTCTTCTACTGGGAAAATGTATCCCCTGTGTTTGGCCCCAGAGGCATCA
Celera SNP ID:            hCV3285580
SNP Position Genomic:     141241
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59086):
CATGTTAATTAGATATGCATGTATGTGTATGTATGATGTATATACCCATATACACACAGTCTATATATACATGTATGCGCACATACACATATTTTAAGGA
R
AGAATTATAAAATGATCAATTCAAGCTTACTATATGCTAGAGGTGAGGAATATTTGAATACAAGTCTTATCTAGTAGATTAAAACAGAAATTAAAGACTG
Celera SNP ID:            hCV16290984
SNP Position Genomic:     374964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59087):
TTAGGAGAGGAATCACTGTGAATGTAGACCTCGGGTTGGTCATTTTCCTAGTAAGATAGACCAGACTGACTGGAAAAGTCACCCTCTTGGGCTATCCTGC
R
TATGTGGCTCGGCATTGCTTCCGTCAGGATAATGCATCAGTTTCTTGGACAAAGGGTGCATTTCTGCTATTTGAATGCAGACATATTTTTGGATATAAGC
Celera SNP ID:            hCV11438764
SNP Position Genomic:     344434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59088):
CGGTCTCAGGTTATGTCTTTATCAGCAGTGTGAAAATGGACTAATACAGTGAATTGGTACCAGTAGAGTGGGGCATTGCTGAAAACATATCTGAAAATGT
S
GAAGTGACTTTGGAACTGGGTAACAGGAAGAAGTTAGAACCGTTGGGAGGTCTCAGAAGAAGACAGGAAAATGTGGGAAAGTTTGGAGCTTCCTAGAGAC
Celera SNP ID:            hCV1445191
SNP Position Genomic:     871588
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,3)   afr(G,3)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59089):
CGGTGGGGAGGAGTTCATATTCATTTTTTTTTTGAGTCTGGATTTTAGAATAAATTCACTGTGTACATAGCTATTCCATCTTTAAAAACCTTTGTGAATG
Y
TAATATACAGCCTTTATAAATTTGAGGTATAATGTTCAAAATGCTCTAATCCCTAAATTTTCCAGTCTAGGTTATTATACTTTTATGACTATTAATTTTG
Celera SNP ID:            hCV3285581
SNP Position Genomic:     141575
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59090):
CTGGCAGAGGGCTTTTTTCTGATCACCACCCATGTTAATTAGATATGCATGTATGTGTATGTATGATGTATATACCCATATACACACAGTCTATATATAC
W
TGTATGCGCACATACACATATTTTAAGGAAAGAATTATAAAATGATCAATTCAAGCTTACTATATGCTAGAGGTGAGGAATATTTGAATACAAGTCTTAT
Celera SNP ID:            hCV16290985
SNP Position Genomic:     374934
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59091):
GGTGGCTCATGCCTATAATCCTAGCACGTTGGGAGGCTGAGGTGGGTGGAGCACCTGAGGTGAGGAGTTCGAGACCAGCCTGGTCAACATGGTGAAACCC
Y
ATCTGTACTGTAAATACAAAAAATTAGCTGGGCATGGTGGCAGGCACTTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGA
Celera SNP ID:            hCV1445192
SNP Position Genomic:     872810
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,1)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59092):
TTTTTTTCTAACTGAGGGATTAAGGATATAAACCCAACTTCAAATTTCTTTCTGGGTGGTCTTGAAAACTTAACAGTAGGTCCTGTAAAGAGGTGGGGGA
R
AGGAAAAAGAAATCCTTTACTCTCATCTGCTGGTTTTAAAATGAGAAAAATACACACACACACGTAATGATGTTCGTGATGTTAATGGAGGGAAATATCA
Celera SNP ID:            hCV3285582
SNP Position Genomic:     142392
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,3|G,1)      total(G,1|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59093):
TCCCCTTTCTGGCAGAGGGCTTTTTTCTGATCACCACCCATGTTAATTAGATATGCATGTATGTGTATGTATGATGTATATACCCATATACACACAGTCT
R
TATATACATGTATGCGCACATACACATATTTTAAGGAAAGAATTATAAAATGATCAATTCAAGCTTACTATATGCTAGAGGTGAGGAATATTTGAATACA
Celera SNP ID:            hCV16290986
SNP Position Genomic:     374926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59094):
TACTGGCCAGGTAGAAAGGGCGTCCAGGTGAAGGGACCCTGGTTCAGTGATCTCCAACCTGCACGTCTCATTTGTGAGGAAGCCGTAGGGTGTGGACTTT
Y
CTTGTTTCTGACCTTGAGTGATTAGAAAATAGCAGCTTTTATATGTCACAAATGGACTTTAGATAAGCATGAAGATGACGAAGACTGTGGAATATGTAGC
Celera SNP ID:            hCV11438766
SNP Position Genomic:     344007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59095):
TCTGGCAAAAATGGTTTTATTGTAGTTTCATCCTTGTTGAGTCAATAATTAACTGAGTTTGATTAAAGCTGAATTTTCCTAAGTATGAAAACCATGTGGG
Y
CCTTCTCTTTCCTCGTGATGCACGGTGATAGTGCGTATCTAACACTTGAAGGTGTCCACGCTGGCCCTAGCTCAGTGAGATGGCTTTGCTTTGGGGGGGT
Celera SNP ID:            hCV1591970
SNP Position Genomic:     406764
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59096):
GAGCAAAACTCCATCTTAAAAAAAAAAAAAAATGCCCGCCTTATTCAGATACACAGTCTAATGCTTTCCACTAGAAGATTCTGGCACTGTTAGCATCTCT
R
GCATAAACTATGTTACTCAACCCAGTTCTGTCGTCGTCATTTTTTTGTGTTGGCTTTGCCCTTCCCGCATTGTGACTTGATCCCATTTAAGCAGCAACCT
Celera SNP ID:            hCV1445193
SNP Position Genomic:     873065
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59097):
TGGGAGATAGTTTGAGATTTGAGGCCTCTGAAGAATAGGTGTTTTTGTGATGATTTTGGCTTTTCAGTTTGACAGTTGGCTTTGCTTTTTTGACAGACAC
M
TTAAGAGCTTCAAGGGTCATTTCATGGTTTGTCCTTTCCATGTCAGGGACACCTTTCACGTGGCCATTTTAAGCACAGGAATTGCCTTCAAGTAGTTTAC
Celera SNP ID:            hCV3285583
SNP Position Genomic:     143811
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|C,3)   afr(A,4)   total(A,12|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59098):
TAGATAACTCAAGAGACTCAATCAACTTCGTGTTTAATGTTTTCGTAAGAATACTTCAGAGGCAGTGGTGTAATCGTCCAAGAGTACACACAGGCCTGAT
Y
GCCAAAGCCAGTTTTCTTCAGGCCCAGCACGTCCTGACCTCCTCACTCCTCTGCCCACTCTCTGTTTACTCACTCCCATTTTCATTCATTGATTCTGTTA
Celera SNP ID:            hCV76274
SNP Position Genomic:     299890
SNP Source:               Celera
Population(Allele,Count): chn(C,6|T,1)   cau(C,6)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59099):
GTCGTTGTGAGCAGTGCCTTGGTCCCGATGATGATTCTCCAAAATGTAATCTCTGCTGACAGAACAAGAGTCTGCAAATTGGGAGTCTGGAAAGGGAAGA
K
AAGGGCTTTGTCCCTGGCCCCAAAGACTCAGGGAGAGGTTTACTGGCCAGGTAGAAAGGGCGTCCAGGTGAAGGGACCCTGGTTCAGTGATCTCCAACCT
Celera SNP ID:            hCV11438767
SNP Position Genomic:     343866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59100):
CCCCTGGCTGTCCACCAGCCCCTTTGTGATAGTCTCATAGTCTTATTTGTCTTTTGGCTTGTATCCCACCTGTTCACTTTTTACCATAGCTAACCTTTCT
M
AGTGGTCAGGTGGGACTCATGGAGATTTTCCGTTCTTTGGAGACTAGCAGCGACTGCAGATTACTCATCAGCTGTCTCCTTGAGTCCACAATGCCGGGCG
Celera SNP ID:            hCV1591971
SNP Position Genomic:     407089
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|C,1)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59101):
TCTCTAGCATAAACTATGTTACTCAACCCAGTTCTGTCGTCGTCATTTTTTTGTGTTGGCTTTGCCCTTCCCGCATTGTGACTTGATCCCATTTAAGCAG
Y
AACCTCTGCACACACAATCTTTTCTCTGTCCTTCACTCAGTGATGTTATAATATCTAGAGGCTTATTGATTATTTGTTTGATTCTATTGTGGGCACAGGA
Celera SNP ID:            hCV1445194
SNP Position Genomic:     873160
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59102):
TAGTAACCATGAACCTGTATATCAAAAAGCGTGACTAGAGTTTCATAGTTAAACATGTGCTGAAATCCACAGTGGACACCAGAGAGGGTCATGGAATCTG
R
GAATGGATGACTTGTCCCATGATGATAATATCTGTGTTCCTACGGCTGGGCCCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGATGGGA
Celera SNP ID:            hCV3285584
SNP Position Genomic:     144127
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,6)   afr(G,6)   total(G,12|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59103):
TGGCCCCCCAGAAATTATCTCCAGCAGCAGCAACAGAGAGGACTGGAATGCCATTGACAGGTCCCACAAGTCAGCAATCAGCACGCCATTTTTTAAAATT
W
ATGTTGCTATTGTATCGTAAGGTTCTTCTGAAGCGACCACTTCATAACACTGTGTAGTCCAATCCCTAAGCTGGGCAATTTTTTTTTCCCCTTTCAATAC
Celera SNP ID:            hCV15894201
SNP Position Genomic:     568763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59104):
CCAAGAGTACACACAGGCCTGATCGCCAAAGCCAGTTTTCTTCAGGCCCAGCACGTCCTGACCTCCTCACTCCTCTGCCCACTCTCTGTTTACTCACTCC
S
ATTTTCATTCATTGATTCTGTTATTCTCCACTAAGTTTTCTGGGTGGTCAGCCCAGGAAGCCTCAGCCTGCTTCCAGATAGTTCTCCTCAGAGTTAGCGG
Celera SNP ID:            hCV76275
SNP Position Genomic:     299967
SNP Source:               Celera
Population(Allele,Count): chn(C,6|G,1)   cau(C,6)   total(G,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59105):
GCCCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGATGGGAGGATCACGAGGTCAGGAGTTGAAGACCACCTTGATCAATATGGTGAAAC
S
CTATCTCTACTAAAAATACAAAAGTTAGCCGGTGTGGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGG
Celera SNP ID:            hCV3285585
SNP Position Genomic:     144277
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(C,6|G,5)   afr(C,6)   total(G,5|C,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59106):
TTAACATGCTGTTAGTGCATGCAAAAAAAAGCCCAGTAATTGTAGGGCTCATCAGTACATTGTTAATTGATCCTCATTTCCTATTATTTTACCTCAAAGC
M
AACACATCATTCACCATAGTGACACCAGAGTTGTTTATCTTCTCTGTGCAAGTGTGTGCTCTTTTTAGCAAGCTTTTTGGATCCTCTGTTTCAGAGGGCC
Celera SNP ID:            hCV15894202
SNP Position Genomic:     567474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59107):
TTACCAGACACATCTCACTTTATGGAGCCTGGGGCTATTGGTAATATGCATTTCTTTCTCATCTTGATCGTAAAATGATCTTAGAAAGGTTTCTGAGAAT
W
TATAGAGTTTAAGACAGCAATAAGACAACTAATTAATTAAACAGGAAAAGGGGATGTTGTGCTCAGAGAGGAAGTGTGGGTCTCATAAGGGCTTTCACAA
Celera SNP ID:            hCV76276
SNP Position Genomic:     302227
SNP Source:               Celera
Population(Allele,Count): cau(A,8)   afr(T,1)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59108):
TCTACCTATAAGTACCTTCCAACTGTTCCACTTTTGTAAATTTAGTTCAAATAATACATATGCTGAAATTCCTATATCCCCCCCATACTCCAGATCTTCA
K
TGTGGAATTTAAATATAATTCCTTATTGTAAAAAAAAAAAATTTTTTTTTGATCAAGGTGATTTTGATAAACTAAATGCATCTTTAATTTTACTCACAGC
Celera SNP ID:            hCV1591973
SNP Position Genomic:     411066
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,1)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59109):
CAAGCCCCAGCTGCCAAGGAGGCTGATATCGGGAGAGGCAGAATGTGTCTTTTCTTTCTTCTTCCTCTTCTTCTTCTTCTTTTTGAAACCATGCTCATTG
K
TTTTAGGAATCATTAGCATGGTGAAGATTAAAGCTATTGGAGATAGCACAGATTGTTTCATTTTATTATGTTCAATTGGATTGGATCCGAGCCATTTGCA
Celera SNP ID:            hCV1445196
SNP Position Genomic:     876153
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,2)   afr(G,3)   his(G,3)   total(G,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59110):
CCAGCACTTTGGGAGGCCGAGATGGGAGGATCACGAGGTCAGGAGTTGAAGACCACCTTGATCAATATGGTGAAACCCTATCTCTACTAAAAATACAAAA
R
TTAGCCGGTGTGGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAG
Celera SNP ID:            hCV3285586
SNP Position Genomic:     144301
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(A,4|G,6)   afr(G,6)   total(G,18|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59111):
GGACCCGGTTGGCTCTGCAAACCGCATTTCCTTGGCTGAACGCCAGAGGAGAGAAATGATCCGGCAAGAAGACACACCATTCCCCGTCAGCCCCTTCCCG
W
CCCTTGCACCCCTGGATCTTCTGCTGAGTATCGGATTGGTCTGCGTCCAAGAGCTCCTCGCTTGGCCAGCAGGGGCTGCCTGGAGAAGGGGAGGACAGGC
Celera SNP ID:            hCV1591974
SNP Position Genomic:     413674
SNP Source:               Celera
Population(Allele,Count): cau(A,9|T,1)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59112):
CTTTTTTCCACTTTCAAATGTATAACAAAATAGAACTTTATATTTCCAGATGGACTGCCTGGAACCCGGGGAGTGGCTCAGCTACCAGGCCCCAGTGGCC
S
TTGTCTTGTTATTTCCTCCATTAGAGACCTGGCGTATAATTGTGGGAGGGAGAAGCCAGTGGAGCAGTCAGGGGACTCCCTGGCTGTTTCTGTGTCTGGT
Celera SNP ID:            hCV1445197
SNP Position Genomic:     876465
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,1)   afr(C,4)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59113):
TTTTTTGAAAGAGACTGTTTAAAACACGTAATTTTGCTAAGTTATGGCTCATATCGTATTTGTTATTTTGGTTTTGAAAAATTGAGTAGGAAGCAATTGC
R
TTCTTAAATGACTTGAACATCAAAGGCAAGTAGTGTCTTGTTTTAGGAGCAGCCAGGCTCCTATCCCTCTGATCCAGCCAAGTGCTTTCACTTGGTCCCA
Celera SNP ID:            hCV3285587
SNP Position Genomic:     144797
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(A,1|G,2)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59114):
GAAAGTGTCATGTCAAAGATAAAGGGAGAACAGCATTTTCTTTTTTTACAAGTCACTCTTACTTAAACACACAGCATGACTCTCCTTACACATTTATTTC
R
GAAGAGCAAAGTCCGGGTCCCCAGGCTCAACTATCAGCCGCCTTCTCATCCCAAGGGCTGTCACCACCAGAAATTTAACATGCTGTTAGTGCATGCAAAA
Celera SNP ID:            hCV15894203
SNP Position Genomic:     567299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59115):
GTTCAAAAGTATCCTCTCTAGGCAAATAACGAGATTTCGCCAGCAGGATCTCCCGTTAAAGGCGTGCATGTGTGGCTTTGTAGACACGTATGTGTGTGTG
M
GTGCACACCTGCCTGCCCTTGCACAGTGGGCACTGTTTCCAGTGTGCAGTGAGGCCCTCCCTTCGTGTAGAACAGGACAGGACAATGACAAAGTTATTCA
Celera SNP ID:            hCV1591975
SNP Position Genomic:     416647
SNP Source:               Celera
Population(Allele,Count): chn(C,7)   cau(A,1|C,7)   afr(C,7)   total(A,1|C,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59116):
ACTTTATATTTCCAGATGGACTGCCTGGAACCCGGGGAGTGGCTCAGCTACCAGGCCCCAGTGGCCCTTGTCTTGTTATTTCCTCCATTAGAGACCTGGC
R
TATAATTGTGGGAGGGAGAAGCCAGTGGAGCAGTCAGGGGACTCCCTGGCTGTTTCTGTGTCTGGTCTTATGGGTCTGGGCACTGAATTCAGTCACAAAC
Celera SNP ID:            hCV1445198
SNP Position Genomic:     876499
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,4)   afr(G,4)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59117):
TCAGAAATTGGGAAGGAGGGTCAGGTAGCTATAAGCAAAATACAAGAGAAATATAAGAGAAAGAAAGACTTGTATCTGTTGTTAGTGAGTTTTTGTGGTG
R
TGATACATTAATGGAGGCAACAGAGGGTCAGAAATCAGGGAAATCAGGGTGGAAAATAGCCCAGCAGAGGGGAAAAGAGGAAGTCTGAACGAGGGCCACA
Celera SNP ID:            hCV11512130
SNP Position Genomic:     256013
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,3)   afr(G,3)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59118):
CCCTGGTTGACCTGGAATGACCTAGACCAGCAGTCACAAGCTCCTGCCCATGGACAAAATACAGCCGGTACCTCTTTGGCTATGGCCTGCAGGCTCAGAA
Y
AGTTCTTACATTTTCAATCATCTGCAAAAAAGAATAAAGAGGAGAATATTATTTCTTGAAGGAGGAAAATGATATGGAATTCTGATTTCAGTGTCATAAA
Celera SNP ID:            hCV3285588
SNP Position Genomic:     145037
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59119):
AAGGACCCTATGTTATATGATTTCATTTACATGAAATACCCCAAAGAGGCAAATCTGCAGAAACAGAAAGTAGAGTGGTTGCCAGGGGCTGGGGATGGGG
Y
GTGGATGGAGGCATTTGGGATTAACAGCTAAAGATAGCAGGATTCCTTCTAAAGCAATAAAAATGTTGTAAAGTTGATTGTGGAAATTCTTTCACAACTC
Celera SNP ID:            hCV1445199
SNP Position Genomic:     877262
SNP Source:               Celera
Population(Allele,Count): chn(T,5)   cau(C,1|T,5)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59120):
AGGCAACAGAGGGTCAGAAATCAGGGAAATCAGGGTGGAAAATAGCCCAGCAGAGGGGAAAAGAGGAAGTCTGAACGAGGGCCACATTGCAGATAGAGGC
Y
GGTGTACTGGTCTGCTCAGGCTGCCATAACAAAATACCACAGGCTGGATGACTTGAACAACAAAAATACATTTTCTCATAGTTGTGGAGCCTAGAATTCC
Celera SNP ID:            hCV11512131
SNP Position Genomic:     256128
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   afr(C,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59121):
AGCTGGCATGGTGGCACATGCCTGTAGTCCCAGCTTCTGGGGATGCTGCAGCGAGCCATGATTGTGCCACTGCTCTCTGGCCTGGGCAACAAAGAGAGAT
Y
CTGTCTCCAAGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTCTCTCGGAAATATTCCTTCAGTGTATTAGTAAAGAAGTTACTTATGAGTCACTTATGC
Celera SNP ID:            hCV1591977
SNP Position Genomic:     417659
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59122):
GGCGCGATCTCCACTCACCGCAAGCTCCGCCTCCTGAGTTCAACTGATTCTCCTGCCTCCGCTTCCCAAGTACCTGGGATTATAGACACCCACCACCATG
Y
ACAGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCCTTTTGATTGGTTGGCCAGTATGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGCCT
Celera SNP ID:            hCV1591978
SNP Position Genomic:     417965
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59123):
TCCCCGATTACAATATAGAGAGGCTAAATTATAGTCCATATCACTTTTCCTTTAAATCCCTTTACTTTTTTGTGCTACAAGAGTTTCAGAATAATAATTC
Y
GCAGAAAAAAGTACTGATTGTCCAGCAGTTGTGTCAGGTAGAAAACTGGGATGCCCGACTGCATTGGTTTAGCCAGAACTGTGGCCATGAAACCTTGCCT
Celera SNP ID:            hCV11512133
SNP Position Genomic:     258481
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(C,2|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59124):
AAATATTTTGAGAACTCTGAAATAATGCACACCAGAAACGTCCAGCTGAAAACAAAAAGGGAACAAGATGACATTTTGCAATCCCATGCACGTTGCAGGC
R
CGTTGAATGTGAAGGTCAGTAGTACTTCAGAGGGCAGGCCTGTTGCCCCCAAGCCTGTTGCCTAAGAAATGCCCAGGCCCTTTGAACAAAATGGATTCGA
Celera SNP ID:            hCV1591979
SNP Position Genomic:     419052
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,5)   afr(A,3)      total(G,5|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59125):
CAGTACTTCTGCTACGAGTGTATACAGGCTGAGGATGGGTGCTTTGTGGCCCTTTTCTTTTACCGGCTGACTAGAATGTTGACGTTAAAGCAGTTAGAGT
Y
CGAGCAGGCAACTCCGACCCCAAGTTGGAGCTGTGTGTTGAAGATAGAAGAGCAAATATGTAGAAGGAACCTGGATTTCTATTTTTTTAAAAAATATAAT
Celera SNP ID:            hCV2852970
SNP Position Genomic:     981603
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,2)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59126):
TAGTTCTGTCCCTGGAGGTGAGGGCCAGACAACACATCAAAACTGACTTTTTATTTTTTTTCAAAGTTGTTAAGACTATCTAAGATTCAGATCTCCCTAA
W
ACTGTTCCTAGTTAGTATTTAGAACGTATTTGTTTAGAGGATACTAGCCTGAAATAGCCCTATCTCCAGGTTGTCTGATGCGATGAGGATGTGGTGTTAA
Celera SNP ID:            hCV15911821
SNP Position Genomic:     482923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59127):
CCGGCTGACTAGAATGTTGACGTTAAAGCAGTTAGAGTCCGAGCAGGCAACTCCGACCCCAAGTTGGAGCTGTGTGTTGAAGATAGAAGAGCAAATATGT
R
GAAGGAACCTGGATTTCTATTTTTTTAAAAAATATAATAAATCATCCAGCCCCAAATGTCAGGAACCTGGGTTTCTAATGATGGTTGGCTGTCACCCCCA
Celera SNP ID:            hCV2852971
SNP Position Genomic:     981665
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59128):
AATCTCTAGCTTCTCAAACTGTTTCGTGGTGGAGTGCCTTTTGGGCACAGGAGAAGGAAATAAGAGCCTCGCGAGGTTTGGGAATGCTGCCTCTAGCTCT
Y
ACACTGCATGCAGAATTCCTACTCTGAGAGCTCACTTTATCTCAAAAACCCATGCATATTCTGCATCTACTCTGAATTCCGCAGTGTTGTGTGTTACTAT
Celera SNP ID:            hCV15830830
SNP Position Genomic:     469872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59129):
ATACGAAGATTTTTGAGAAAAACTTTGCATATTTTAATTGCTGTCTGGAATCCTCCTTCAGCTGGGATGAGAAATCATCTCTGGGTTAGTTCTGTCCCTG
R
AGGTGAGGGCCAGACAACACATCAAAACTGACTTTTTATTTTTTTTCAAAGTTGTTAAGACTATCTAAGATTCAGATCTCCCTAATACTGTTCCTAGTTA
Celera SNP ID:            hCV15911822
SNP Position Genomic:     482837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59130):
GCAGTTAGAGTCCGAGCAGGCAACTCCGACCCCAAGTTGGAGCTGTGTGTTGAAGATAGAAGAGCAAATATGTAGAAGGAACCTGGATTTCTATTTTTTT
W
AAAAATATAATAAATCATCCAGCCCCAAATGTCAGGAACCTGGGTTTCTAATGATGGTTGGCTGTCACCCCCATTTCCCACACTTTAAATGAGAGAAGTA
Celera SNP ID:            hCV2852972
SNP Position Genomic:     981692
SNP Source:               Celera
Population(Allele,Count): cau(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59131):
TTTGAAAACTTACCTTGTTTATATGTTTCTTCTGTTGCAATTTCTTCCATTACCTGGAATAGCTGCTTTGGACGGCAAACCAAGCAATGCCCTTTCACAG
S
TGTGGGATGAATGGGGAAAGAAGTCTTGGTAAGGAAGCAATTCAGAGAACATGGAAGCATCTCATGGCAGCAGTCACAATTTTGTGTTGCGTAATATTTC
Celera SNP ID:            hCV15830831
SNP Position Genomic:     446599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59132):
TATTTAAAGCTGTCATGGAAAGCCTTAAAGTTAAAATACGAAGATTTTTGAGAAAAACTTTGCATATTTTAATTGCTGTCTGGAATCCTCCTTCAGCTGG
R
ATGAGAAATCATCTCTGGGTTAGTTCTGTCCCTGGAGGTGAGGGCCAGACAACACATCAAAACTGACTTTTTATTTTTTTTCAAAGTTGTTAAGACTATC
Celera SNP ID:            hCV15911823
SNP Position Genomic:     482802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59133):
TCCCTTTATAAGCTAGGAATACTAAGAACCTAAGAGTCTCCATGAGGATTAGATGAGGTAATGTTTGTAAAGAATCTGAGATATAGTAAGTTGATCAGCA
W
ATGTTATTTATCCTCTTCTTCCCTCTACAAAGATAACTAAGCTGAGATAGCCTAACTCCCCCAGCTCAGAAAATAGCAAGTTATTTGCAAAATCAAATGC
Celera SNP ID:            hCV2852973
SNP Position Genomic:     982149
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,6)   his(A,2)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59134):
TTCTGAACTCAGAAAATGGAGATAAATCTCTTGCAAGGCTTTTGATTTTAGTTTTTAGATACAGAACCTTTAAAAAAAAAGAAAAATAAACGTTTTGCCA
M
AGTGTAGTATATACAACAGATGTGAGGGAAGGACATTGTTTTAAGTGGGAAACGTCAGCTCTCTCAACTTCTACACATTCGACTATTCCCTACTCCTCAG
Celera SNP ID:            hCV2852975
SNP Position Genomic:     982367
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,4)   his(A,2)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59135):
TGCTTTCATTGTTGCTTACATGTGTTAAATAATTTTGTCTCTGTATAATAACAACCTCTGGCGATTTTTCCTTTCTCTCTCTCTCTTTTTTTTTTCTTTT
S
TTTAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTTTAGTGGCATGATCTTGGCTCACTGCACCCTCCGCCTTCTGGGATCAAGTGATTCTCCTGCCT
Celera SNP ID:            hCV2852976
SNP Position Genomic:     983021
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(C,3|G,4)   afr(G,4)   total(G,12|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59136):
TGATTTTTCAAGTAAGGTAATGGAAGCAAGAGAGGTTTACATACATGGTGTACATATACCTCGGCAGCCTGTTTCCTTCCCTTATAACTATCTCAAAAAA
M
CATATTAAGTTATTTTTCAGAATTATGTTTTTTCCTGTTGCTTTTGACTGTAAAGGGCAGACTTAAATTTAGTTAACATCTGCTCTAACGTTGGATCATG
Celera SNP ID:            hCV2852977
SNP Position Genomic:     983309
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59137):
ACGAAGGAGGAGGAGGAGGAAAAGGTGACTTGCCTCTAGCTGATGTGGATTATTTCTCTTTTTTAATTTCCATGTCTGCGTAGCTTCATCATAGATCTCA
R
CTTAAGGACAATGAAAGTCGTTTATTGAGTACTTAGTATGTGCTGGTTGCAGAGCCAAGTCTTTTTTTTTTTTTTTTTTTTCCTCCTTTTTTGAGAGAGA
Celera SNP ID:            hCV15830835
SNP Position Genomic:     444455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59138):
ATCTCAAAAAAACATATTAAGTTATTTTTCAGAATTATGTTTTTTCCTGTTGCTTTTGACTGTAAAGGGCAGACTTAAATTTAGTTAACATCTGCTCTAA
Y
GTTGGATCATGTGTGGAGTCCCCAGTTTTCAACATTAAAAATAAAGTATTTGTTGAAGTGGGGTTTTTTTCTTCTTACAGTATATGTAGAACCATTTTCT
Celera SNP ID:            hCV2852978
SNP Position Genomic:     983398
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(C,2|T,2)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59139):
TGCCATCCACGGACGGCTTAAGTGTTAACAGTTCAGTGGAGGGTCAGCGTGACAGCCTTTTGCACCCACATCTGGGTTCTTGTCCAGTGTCCAGGAGGAA
Y
GAGGTCTCATGAGCAAATTTTAAGGATGGCAAATGTGGGGGATTTTATTGCTGATGAAAGTGGCTTTCACTGGGAAGATAAGCTAAAAAGAAGACAAAGC
Celera SNP ID:            hCV15830836
SNP Position Genomic:     437949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59140):
CTTTTCCTTCATGAGAATTTTCTGAAGCTATTGTGAATCTATGGAAGACTCAAGGTAGTATCTTTTTCACAGCATTCAAAAAAATGCTGCTGGCTCCTTG
R
CTTGTCCGGTGCATCCTCCGTGCCAGCCCCCGCTGTCCTAGAACCATCTAAGCTAACTCTCCGATGAGCTCTGGCCTCTGGACCTCAGCCTATCCAGGCC
Celera SNP ID:            hCV2852979
SNP Position Genomic:     983944
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,6)   afr(G,6)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59141):
TTTCTTTCTTTTTTTTTTTTAGGGAGGGTCTGGCTGTATTGCCCAGGCCGGAGTACAGTGGCACGATCTTGGCTTACTATAGCCTTGACCTCTCTGGCTC
M
AGTGATCCTCCCACCTCAGCCTCCTGAGTCACTGGGACTACAGGTGCACACTACCATGCCCAGCTAAGTTTGTTCATTTTTTGTAGATACAGGGTCTGAC
Celera SNP ID:            hCV15830837
SNP Position Genomic:     436669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59142):
TCAGCCTTTTCTCTCGATCTTTTTTTTTTTTTTTTTCCTTTCTTAAGAAAGGGTCTTGCTCTTTTGCCCAGGCTGCAGTGCAGTGGTACAATCAGAGATC
M
CTGCAGCCTCCAACTCCTAGGCTCAAGCGATCCTCCAGCCTCTGCCTGCCAAGTATCTGGGACTACAAGCATGCACTCCTGTGCTTGGTTAATTTTGACT
Celera SNP ID:            hCV11668000
SNP Position Genomic:     740532
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,1)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59143):
AAAATTTTCCCCTTTCTGGCAGAGGGCTTTTTTCTGATCACCACCCATGTTAATTAGATATGCATGTATGTGTATGTATGATGTATATACCCATATACAC
W
CAGTCTATATATACATGTATGCGCACATACACATATTTTAAGGAAAGAATTATAAAATGATCAATTCAAGCTTACTATATGCTAGAGGTGAGGAATATTT
Celera SNP ID:            hCV16290993
SNP Position Genomic:     374919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59144):
ACCCAAAGAGATCTGAAAAGCAAAAACAAATTTATTGTATATTTATAGCAAATTTATTTGGTGGTGAAATTTGACTTCAGCTTTAGCGTCCCTGTTTCTC
S
TTTCTAGTGTGAATGTTCATTTTGTTTTGTTTGTTTTTTTGAGGCAAGGTCTCACTTCATCACCCAGGCTGGAGTGCAGTAGTGTGTTCACAGCTCAGAG
Celera SNP ID:            hCV3285590
SNP Position Genomic:     145653
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(G,2)   his(G,2)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59145):
AAAGTAAACAGATCTTAGAGAGGGACACCGATCCCTACCCTGCATGGGGTTATTCACAGAGCCATGGGGACACTAAACGTACCTTATCTCTTGACCATGC
Y
ATTGATTAGTTATGTGTTTGCCTGTGTTATTAATAATGTATACATTGAAAAATCTATGTGCATTATAGTCTTTGATCTTGTCATGAATTTCAAAGCCAAA
Celera SNP ID:            hCV16290994
SNP Position Genomic:     374657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59146):
GTAATATGCAGTATATGTGCTAAATTACTTTTTTTGTTGTTGTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCT
Y
GCCGTGATCTCTACCTCCCAGGTTCAAGCGATTCTCCTGCCGCAGCCTCCCGAGTAGCTGGGATTACAGACATGTGCCACCACACCCGGCTAATTTTGTA
Celera SNP ID:            hCV3285591
SNP Position Genomic:     146069
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,6)   his(C,3)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59147):
AGATTTTGGAGGACTTGAAAGGTTCCTGCTACCTTTGGCTGGGGATGGAGGGAACATGGAAGATGGGTCTTTGTTTAGAGGAAGCTCTTTATCCTGGTAC
S
CTGGAAGTTGGCATAGTCTTAGCAGTTAGTCCAGATGTGAATTTCAGGATTATTCTGTGAGTCTTCCAAGTCCTGTCTCAGCAGTGAAATAGGCTCAGTG
Celera SNP ID:            hCV16290995
SNP Position Genomic:     395836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59148):
TATATAAGACAGTGCCCTTTAGAAGATCCCTGTCTCATTGAGAAGCGTTGAGTAAATGGGTCTCTCTGGTCATTCTCTCCAGAACATGAAGCCAAAGGGC
Y
GAGAGGGAGAGACTCCAAGAATGAATTAGTGTCCAGCAAGGTATCGCTTGTCTCAGGATGACAACTTGCAATTTGGGGATCTCTCAACGTCCTGACCTCC
Celera SNP ID:            hCV3285592
SNP Position Genomic:     148272
SNP Source:               Celera
Population(Allele,Count): chn(T,7)   cau(C,1|T,7)   afr(T,7)   total(C,1|T,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59149):
ATGAAAAGAAGTTGTATCAAACTTGCTGGGCATCAGAAATAAAGGGTTTTAGAGACACTGGCTTCAAACACAAGTTATTCCATCCAAGATTCTAAACTTA
R
CAATGCAACTTGCACTTAATTTTAAAACGCTGGAAAAATAATGATAAAGATTGTGTGATCAAGTATAGCAGCCCTGTGGTGTTTCCTCAGAATGGTGTAT
Celera SNP ID:            hCV1591980
SNP Position Genomic:     419688
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,5)   cau(A,1|G,5)   his(G,5)      total(G,15|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59150):
TCTCTGCCTTCCTTTCTCTCCCTCCTTGGTCTGCTTCCTCCTGTTGCTATCAGAGCCTGCCTGCCTCATCCTTGTTCCAGCCTTGATGGTGATGATGATT
R
TGGTTGCTGTTGCTATTTGTTTTTTTGGTTTGTTTGTTTGTTTTGAGAGGGAGTTTTACTCTTGTCACCCAGGCTGGAGTGCAGTGGCGCCATCTCGGCT
Celera SNP ID:            hCV3285593
SNP Position Genomic:     148775
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(G,4)   afr(A,1)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59151):
CTTGGGAAGTGGACTCAGAGGCCAAGTGACTTTGATTTTTCACTTTATCCTGGAGTTTCTCAACCTTGGCACTATTGACATTTTAGGCCAGGAGATTCTT
K
GTTGGGGGGGATTTCCTGTGAGTTACAAGACATTAAGCAACATCACTGGCCTCTACCCACTAGATGCCAGTAGCATCTTCTATTTCCTCAAGTCTCAAAA
Celera SNP ID:            hCV15894210
SNP Position Genomic:     565485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59152):
CCGATATTTAATATTATCAATTGCTGGTTCCTGTAAATTTGCATTTATGGATCACATTATAAAAGCAATTACTCTTATGGATTGTTCATGCAGAAATGCA
Y
TATGATGATAATATACTTTTAAAAGTATATTTATTTCCAGAATTCAATTTGTAAGAGGTTTGAGGGAAAAATAATACTGAGTTTTGAGTGTTTCTGATTT
Celera SNP ID:            hCV1591981
SNP Position Genomic:     419929
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,4)   cau(C,1|T,4)   his(T,4)      total(C,1|T,12) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59153):
CCATGCCTGGCTAATTCTTTGTAGTTTTAGTAGAGATGGGGTTTCAGCATGTTGTCCAGGCTGGTCTTGAACTCCTCAGCTCAAATGATCTGCCCACCTC
R
GCTTCCCAAAGTGTTGGGATTACAGGCGTGAACCACCACGCCCCTCACGCGCAGCCACTGTTGCTATTGATGATTATTATGACATCATTGCTCAGATTCA
Celera SNP ID:            hCV3285594
SNP Position Genomic:     149066
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(A,2|G,4)   his(G,4)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59154):
TACTTTTGTTCTCACCTTGGGAAGTGGACTCAGAGGCCAAGTGACTTTGATTTTTCACTTTATCCTGGAGTTTCTCAACCTTGGCACTATTGACATTTTA
R
GCCAGGAGATTCTTTGTTGGGGGGGATTTCCTGTGAGTTACAAGACATTAAGCAACATCACTGGCCTCTACCCACTAGATGCCAGTAGCATCTTCTATTT
Celera SNP ID:            hCV15894211
SNP Position Genomic:     565470
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59155):
TATTATCAATTGCTGGTTCCTGTAAATTTGCATTTATGGATCACATTATAAAAGCAATTACTCTTATGGATTGTTCATGCAGAAATGCATTATGATGATA
M
TATACTTTTAAAAGTATATTTATTTCCAGAATTCAATTTGTAAGAGGTTTGAGGGAAAAATAATACTGAGTTTTGAGTGTTTCTGATTTTAAAAATGTGT
Celera SNP ID:            hCV1591982
SNP Position Genomic:     419940
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|C,1)   his(A,4)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59156):
TTAACACAACTTCTCCGTGTGTGGGCTAAATAAATATTCGGGCAACACTGATTGAGCACTGCCTTGGGTAAATAATTCTCTCTCCACACATTTCCTAGTT
Y
ATAATGAGGAGTTTTCTTCGTGGTCTGACCAAATGTAACATTCCATTGAAAATGAGACATAAATCCTTGAGTGAGGGAGACGTGGAACCAGGGTTTGAGG
Celera SNP ID:            hCV3285595
SNP Position Genomic:     149861
SNP Source:               Celera
Population(Allele,Count): chn(T,8)   cau(C,1|T,8)   his(T,8)   total(C,1|T,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59157):
CTTTTCAAGTATCTTACTGTATGATGGTTGCTTTTGGGTTGAATTCCACCTTGGGTTCAATTCAACATGAAAGTTAACCTTTTGGTGAAGGAATGATCCA
S
GGGAAATAGTAAAATATTAGCCTGTCCTCCAATACAAATTGCCTGTGAGTCCCACTGATACTTACAAATATACAGAGGTGGTGTAAAAGGATTCTGTGTC
Celera SNP ID:            hCV1591983
SNP Position Genomic:     421182
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,8)   afr(G,1)      total(G,1|C,8) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59158):
GCCCCTCTGAAAGCCCTTCACTGCGGCTCAGCCTGTGGTGGAAGGTGTCCAAGGTGGCTGGAACACCTCCTGCTGGGGGTGTCAGTCTTGGCTCTCCTGT
K
TTCTGCCTGTGCAATGGTGGGTAGGTCCCTTGATACCTCGTAACCTCAGCATCCCTGTGGGTGATAAGGAGATGATAATAGTCTCTTCCCGATGGGGGTT
Celera SNP ID:            hCV3285596
SNP Position Genomic:     151486
SNP Source:               Celera
Population(Allele,Count): chn(T,5)   cau(G,5|T,5)   total(G,5|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59159):
GGCTGGAGTAGTGTGCAGAGCCTGGCGGTGATTGTTCTCATTAGAAAGTATAGTGTAATACTCAATAAATTACTTTTGTTCTCACCTTGGGAAGTGGACT
M
AGAGGCCAAGTGACTTTGATTTTTCACTTTATCCTGGAGTTTCTCAACCTTGGCACTATTGACATTTTAGGCCAGGAGATTCTTTGTTGGGGGGGATTTC
Celera SNP ID:            hCV15894212
SNP Position Genomic:     565400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59160):
GGTGGTGTAAAAGGATTCTGTGTCAAAACTATTAATATTTGAGAAATACAATACTTATCAGAGCCTTTGTATGTAAATGTCTCATATACCCCTCTAAGAA
S
GGGAGCGAATAGTATTTTCCAAACTTACGTCACCACTTACCATCCACCTGCATACTTTACACGTCTTGGAATCAACCTTACAGGGAACACTTGGTCGAAA
Celera SNP ID:            hCV1591984
SNP Position Genomic:     421359
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,7)   afr(G,1)      total(G,1|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59161):
CCTTTGTATGTAAATGTCTCATATACCCCTCTAAGAACGGGAGCGAATAGTATTTTCCAAACTTACGTCACCACTTACCATCCACCTGCATACTTTACAC
R
TCTTGGAATCAACCTTACAGGGAACACTTGGTCGAAAAACAGTGTTTTCTAAATTTATATTACAGTTCCCACTCCCCCCGCCCCCACTTGTATCACTTTG
Celera SNP ID:            hCV1591985
SNP Position Genomic:     421422
SNP Source:               Celera
Population(Allele,Count): cau(G,8)   afr(A,1)   his(G,8)   total(G,16|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59162):
TCCACCTGCATACTTTACACGTCTTGGAATCAACCTTACAGGGAACACTTGGTCGAAAAACAGTGTTTTCTAAATTTATATTACAGTTCCCACTCCCCCC
S
CCCCCACTTGTATCACTTTGTATGACAGTCTTCTTGGGAACATCCATTGGGAAACTCTTCCCTTGCAGGTGTCTGTTACAAGTCCTGGTTCACACAGTGT
Celera SNP ID:            hCV1591986
SNP Position Genomic:     421502
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,8)   afr(C,1)   his(G,8)      total(G,16|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59163):
GATCACCTGAAGTCAGGACATCAAGACCAGCCTGGCCAGTGTGGCAAAACCCCACCTCTACTAAAAATACAAAAAAAAATTAGCTGAACCTGGTGGTTCA
Y
GCCTGTAATTGCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTACAGTGAACCGAGATCGTGTCACTGCACTCCAGC
Celera SNP ID:            hCV1591987
SNP Position Genomic:     422697
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   afr(C,6)   his(T,1)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59164):
CGCCTGTAATTGCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTACAGTGAACCGAGATCGTGTCACTGCACTCCAG
M
CTAGGCGACAGAGCGAGACCCTGTCTCAGAAACAGAAAATAAAACAAACAAAAAAATACTATTCCATAGCTGACTATTTTCTGAAATGATTTTGTTACTT
Celera SNP ID:            hCV1591988
SNP Position Genomic:     422797
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   afr(A,2)   his(C,5)   total(A,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59165):
TATATATTTAAAGCTGTCATGGAAAGCCTTAAAGTTAAAATACGAAGATTTTTGAGAAAAACTTTGCATATTTTAATTGCTGTCTGGAATCCTCCTTCAG
M
TGGGATGAGAAATCATCTCTGGGTTAGTTCTGTCCCTGGAGGTGAGGGCCAGACAACACATCAAAACTGACTTTTTATTTTTTTTCAAAGTTGTTAAGAC
Celera SNP ID:            hCV15911830
SNP Position Genomic:     482798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59166):
GCAAGGTAGAAAGACACCTGAAGGTGAACATCTTTGGCCCATGTGAAATTTTGTTACGTGTTGTTAGGTTTCATTTGTCTCTCAGTCAATCAGTCAATCA
R
TCAGTCTCTCTCCTTCCATCCCCCCTTGTCCCCCTTTTCTCTTCTCTCCCCTTCCCTGCTCCCTCTACTTTAAGGTTTTCTCACAGATTAAGAGAGTAGC
Celera SNP ID:            hCV1591989
SNP Position Genomic:     423564
SNP Source:               Celera
Population(Allele,Count): cau(A,6|G,1)   afr(A,6)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59167):
GACCCAGTCACAGTGATTCTATCTGTACCTACCACAGCTAGGTAGGCGGTATGGGAAGACCACAAACTTGAGAGTCAGACGGATCGAACTTCGTCTTTAG
Y
CCCCCACTTAGGTGTTATGTGACTGTGGTCGGGTTATTGGTAACATCTTCTTGCTCAGCTTCCTGACCTGCAGAATGGGAATAAGAATACCTAGCACATA
Celera SNP ID:            hCV2852980
SNP Position Genomic:     984152
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,2)   afr(C,5)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59168):
CAGGTTTTGTTTTTTTGTGTGTGTGTTATTTTGTTTTTTGTTTTTTTGTTTTTCGGGGGCTGGAGTAGTGTGCAGAGCCTGGCGGTGATTGTTCTCATTA
R
AAAGTATAGTGTAATACTCAATAAATTACTTTTGTTCTCACCTTGGGAAGTGGACTCAGAGGCCAAGTGACTTTGATTTTTCACTTTATCCTGGAGTTTC
Celera SNP ID:            hCV15894218
SNP Position Genomic:     565343
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59169):
GTGTTATGTGACTGTGGTCGGGTTATTGGTAACATCTTCTTGCTCAGCTTCCTGACCTGCAGAATGGGAATAAGAATACCTAGCACATAGGGTTATAATG
R
AGATGAAACTGCTTAACGCATGTGAATAACAACAATGGCTAACATGTATCAGACGCTTGTCTTAGTGTTTATTGTTTTATGCGTATTGTCCTGTTTCATC
Celera SNP ID:            hCV2852981
SNP Position Genomic:     984264
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,2)   afr(A,5|G,2)   total(G,4|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59170):
AAAAGAAAAGTAGAGAGGATAGTATAATGAGGTTCCTGTCTGCCAGTCACTCTATAGTAACTATTAGGAAACCCCTTTTTTTCTCTGAAGTCATTGCTCC
G
GTGTGTGTGTGTCTGTATATAAAAAAAAGTATGTATACATATACGTATATGTATGTGTATAGATAAAAATGCATGTATGGTGCTGGGCGCAGTGGCTCAC
Celera SNP ID:            hCV11512145
SNP Position Genomic:     262393
SNP Source:               Celera
Population(Allele,Count): cau(-,2|G,1)   afr(-,2)   total(G,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59171):
AGAAACTTGGACAGAGGAAAATGAAAATGTTCTATTAATTCCACTAGCATGAGATAATCACTCTTAATATTTTGTTGCATGTTCTTTTCTTTCTTCTGAG
K
GATAGCATTTTTTTCAACAAATTGGGCTCGTAATATATAGGCACATAGATATATAATTAAAAAAACAAGAATTTCTCATGTCATTAAACATTGCTTGAAA
Celera SNP ID:            hCV15894219
SNP Position Genomic:     560539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59172):
TAAGCCCTGAAGTCTGGACACTGAGAGAATTCTAGGCTTGACTTCTCTGTACAGCCATCTTGGGAGTGCTCAACCCTTTGAATCGGATGTCTAGAATGGA
Y
TCAGATGTCACTGTGCAGGTGACTCACGCCTAGAATCCTCTGCCTATCGTGACAGGGAGAAGCCTGTGTGACCCTGTGGCCATCTCAGTCTCTGCAGGGC
Celera SNP ID:            hCV15911832
SNP Position Genomic:     508438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59173):
AAGATCCTCAAGCTGTTCCTTCCACCCCCTGGGATGCTGATTAAGTTAAGATTTCAGATTTTATTTATTCTACGGGTATTTGTTGAATATTTATTTCTTA
M
GATACCACGCACTGCTTTAGGCACTGGGAATATAGCAGGATATACAAAACAGAAAAATCATGGCCCTCATGGATTATTGGTTGTGAGTAATAGGAACCTT
Celera SNP ID:            hCV2852982
SNP Position Genomic:     987467
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59174):
GTATAATGAGGTTCCTGTCTGCCAGTCACTCTATAGTAACTATTAGGAAACCCCTTTTTTTCTCTGAAGTCATTGCTCCTGTGTGTGTGTGTCTGTATAT
A
AAAAAAAGTATGTATACATATACGTATATGTATGTGTATAGATAAAAATGCATGTATGGTGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTG
Celera SNP ID:            hCV11512146
SNP Position Genomic:     262414
SNP Source:               Celera
Population(Allele,Count): cau(-,2|A,1)   afr(-,2)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59175):
TCTATGTAACCTCAGCCATCTTGGATTCCCAGCTTACTCACATCATAGATGGAGAGTCAGTTGTTTAGAAAAAAACTTTCTTTTTTTTTTCTTTCCTTTT
K
CTTTTCTTTTCTTTCTTTCTTTCTTTTTTTTTTTTAGGGAGGGTCTGGCTGTATTGCCCAGGCCGGAGTACAGTGGCACGATCTTGGCTTACTATAGCCT
Celera SNP ID:            hCV15830841
SNP Position Genomic:     436553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59176):
TCCTCAAGCTGTTCCTTCCACCCCCTGGGATGCTGATTAAGTTAAGATTTCAGATTTTATTTATTCTACGGGTATTTGTTGAATATTTATTTCTTACGAT
R
CCACGCACTGCTTTAGGCACTGGGAATATAGCAGGATATACAAAACAGAAAAATCATGGCCCTCATGGATTATTGGTTGTGAGTAATAGGAACCTTTCAA
Celera SNP ID:            hCV2852983
SNP Position Genomic:     987471
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,1)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59177):
AGCAACACACAAGGATTGGGAGATGTTCATGGCAAGAAAAATTCAGAAGGGACATTGTTGTTTCACTAATTCTGTAAAGGAGAGCAGCGGCATTTACTTA
K
GCCGATTCCCCATTCTCTCTTTCTGTTTTTAAACAGAGACAGATCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATGGCATGATCATAGTTCAC
Celera SNP ID:            hCV15830842
SNP Position Genomic:     406306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59178):
CACTGGGAATATAGCAGGATATACAAAACAGAAAAATCATGGCCCTCATGGATTATTGGTTGTGAGTAATAGGAACCTTTCAATCTAACTTAGGAAAAAA
S
GTTAGGGAGCCAAGGAGGAAGAGTGGGTGTGATGATGCATCAGGATACCAGAGAATCCCGTGGAATCCCACAGTGACACAGCCAAGCCTTGGGAGGGGTG
Celera SNP ID:            hCV2852984
SNP Position Genomic:     987589
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,2)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59179):
CCCACAGTGACACAGCCAAGCCTTGGGAGGGGTGACACTAGCGATAGAGACAGAAACCCACACAGGAGTCCTTTTCTCTGTCTCTCATCTCTGCTTTTCT
Y
TGTACATCTGGTTCAATTATTCTCTTGCCACGAATCAGCTATTTGTATTCCTCTGTGCACGTCGCAGAAGATCAGGAATTTGCACATTATAGTCACAACC
Celera SNP ID:            hCV2852985
SNP Position Genomic:     987756
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3|T,4)   his(C,3)   total(C,9|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59180):
CAAGGCGAGTGGATCACGAGGTCAGCAGTTGAAGACCAGCCTGGCCAGCATGGTGAAACCCCGTCTCTACTAAAAATAGAAAAAATTAGCCGGGCATAGT
R
GCATGAGCCTGTAATCCCAGCGACTCGGGAGGCTGAAGCAGGAGAATTTCTGGAACCTGGGAGGTGGAGGTTGAAGTGAGCTGAGATGGCACCATTGCAC
Celera SNP ID:            hCV11512149
SNP Position Genomic:     263898
SNP Source:               Celera
Population(Allele,Count): chn(A,1|G,8)   cau(G,8)   afr(G,8)   his(G,8)   total(G,32|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59181):
GAGGTGGTAGATGCTTTTAAACAAACAGATCTCAGGAGAACTCTTTCACAAGACAGCACTAGGGGGATGGTGATTAGAAAGCACCTCATGATCCCGTCTA
S
TTCCTGCAGAGAACAGACTAGCCCCCTATGCAGCACACACCTTTGTGAGGTCCCTCCTCCAACACAGGGATTACAATTCAACCTGAGACGTGGGTGGGGA
Celera SNP ID:            hCV15830843
SNP Position Genomic:     401867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59182):
TGCACATTATAGTCACAACCATACCTAGAACCAAATTGCCTAACACTGAATCCCAAATCCAAATTCCTGGGAGATAGAATTCAATTCTTCTCTTGCCACA
M
ATCAGCTGTTTATACTCCTCTTTGCACGTTGCAGAAGATCAGGAATTTGCACATTATAGCCACAACCATACCCAGAACCAGATTGTCTAACACTGAATCT
Celera SNP ID:            hCV2852986
SNP Position Genomic:     987937
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(A,3|C,2)   his(C,2)   total(A,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59183):
AAGGTTTGGCTTAACTGCAAAGGGGTGGTTGATATCAGATTCATACGCCAGAACCAGAAGACCACTCGTGAGAAATTCTGTAAGCACAGGAGTGTGGTTT
R
TGTCAAAATCAATCTGATGGAGTGAAGCCATTCCTTGCCAAGCGAAAATACAGCATCATCAACTACATCCTTGAGCCTAGAACCTCTTCACTCAGCACCA
Celera SNP ID:            hCV2852987
SNP Position Genomic:     989493
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(A,2|G,3)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59184):
ATATGTCGCCTTGGGAAACAGAGGCAGAGGAGAACAGGAAAGAGTCAGATGGACTTTGATTTGAGACCCGTTTCTGCTTCTTCCCAGGGTGTGACCTCAG
Y
GGAGTTCCAGAGCATCCATCTCCTTTGTAAGACACAGATAATACCAACTGCATGGATTTGTTATGAGAGTTACATCAGGGGAGGGTCATGAGGTCACCTT
Celera SNP ID:            hCV2852988
SNP Position Genomic:     989787
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,4)   afr(C,4|T,4)   total(C,8|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59185):
CCGTTTCTGCTTCTTCCCAGGGTGTGACCTCAGCGGAGTTCCAGAGCATCCATCTCCTTTGTAAGACACAGATAATACCAACTGCATGGATTTGTTATGA
S
AGTTACATCAGGGGAGGGTCATGAGGTCACCTTCCCATGGCCAGGAGAAGCAGGTACTCAGGAATGGCTACTTCTCTGGCCACTTTATAGACCTATGGAG
Celera SNP ID:            hCV2852989
SNP Position Genomic:     989854
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,5)   afr(G,5)   total(G,10|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59186):
TATAATTTTTTTCTTCTTTTCTATCTGCTAGCAAAGTGGGTAAGTTGACCCATGACATGGTCCACTGGAGGGACCACATTTGTGACTCTAGCAATTAAGC
Y
TCCCTTCTCATCTGTGGATAAAACTGACCTCCCAGTGTGCTGGAGTCAAACATATTCAGCATCCAATCCACATTGGACTGTTTGCATGTAACGTACAGAA
Celera SNP ID:            hCV15830847
SNP Position Genomic:     400009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59187):
CAAATGCAGCATCGCTTGAAGCTGTGATAAAATATCACACCTTTGGAAATCAAGGCTCTTCTTGTTTATTTATTTAACTCACATTAATTAGCCTTAATTT
W
AAAAAAATGAGAAGAGCCAGCATCATGATGCAAGCATTGACTTTGCTCACAAAAACATCTTGTGGTCAACAGTGGGGCTTAGGGGGCAGGTTTTGTGGCT
Celera SNP ID:            hCV15911839
SNP Position Genomic:     391435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59188):
AGTTCCATTAGGTGACAGTGTGTGCACAGTTTATGGAGGATGAAGCGGAAAACCTGAGCCACAAGGCAGTAGAGGTTGGACGAGACACTCATTCCGAAGG
S
GGGTGTGTATGTGCAAACTGTATAATTTTTTTCTTCTTTTCTATCTGCTAGCAAAGTGGGTAAGTTGACCCATGACATGGTCCACTGGAGGGACCACATT
Celera SNP ID:            hCV15830848
SNP Position Genomic:     399888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59189):
TAAGTGTGTAAGCAGGGAACAGAAAGTACTGTGATTTAAAATATGTTAATTTTTCTACTGTACAGATGAGAGCCAGCTTGGAGATGGGCTGTAGCTCAAG
Y
ATCTTACCTACCTCTGATTTCTTAATGCCACGTTATAAGGCTGCTGCTTATAGCTCTTGAAGTCACTCCAAAAACAGATGAGTGAGACCCTGTTGCTAAA
Celera SNP ID:            hCV41262
SNP Position Genomic:     316098
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   afr(T,1)   his(C,5)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59190):
GGAGGCCAAGGTGGGTGGGTCACCTGAGGTCAGGACTTCGAGACCAGCCTGGCCAACATGGTGAAACCGCATCTCTACTAAAAATAAAAAAAAAAAAAAA
A
TTAGCCAGGCATGGTGGTGCATGTCTGTTATCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATCACTTGAACCTGGGAGGCAGCGGTTGCAGTGAGCCGA
Celera SNP ID:            hCV11668014
SNP Position Genomic:     735113
SNP Source:               Celera
Population(Allele,Count): cau(-,3|A,4)   his(-,3)   total(A,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59191):
AGAAAGGAAGAGTTTCCTGAGTCACCTTTGGGAGGTAGGAAGGGTTTGACATGTAGGCTGGGCATCTGGGAACGAGTGAGGGATTCTGTGAGCCCCATCT
Y
AGTGGACCACTCAAGGAAGGTGGGTAAGCCCTGGGTATAAGTGTGTAAGCAGGGAACAGAAAGTACTGTGATTTAAAATATGTTAATTTTTCTACTGTAC
Celera SNP ID:            hCV41263
SNP Position Genomic:     315960
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(T,1)   his(C,4)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59192):
TGTGTCATTCCGTTGTGCCTGTCGTCTTGACCTTGTAAAAGGTCTTGGGTAAGCATGCAAGAAGTTTTGAAGAGGGAGATACAGCTAATTTGCAGATAAA
R
AGCAAGGGAAGAATTCCTGGAGAAAGGAAGAGTTTCCTGAGTCACCTTTGGGAGGTAGGAAGGGTTTGACATGTAGGCTGGGCATCTGGGAACGAGTGAG
Celera SNP ID:            hCV41264
SNP Position Genomic:     315839
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(G,6)   afr(A,1)   his(G,6)   total(G,18|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59193):
ACTTGTGTCATTCCGTTGTGCCTGTCGTCTTGACCTTGTAAAAGGTCTTGGGTAAGCATGCAAGAAGTTTTGAAGAGGGAGATACAGCTAATTTGCAGAT
R
AAGAGCAAGGGAAGAATTCCTGGAGAAAGGAAGAGTTTCCTGAGTCACCTTTGGGAGGTAGGAAGGGTTTGACATGTAGGCTGGGCATCTGGGAACGAGT
Celera SNP ID:            hCV41265
SNP Position Genomic:     315836
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6)   afr(G,1)   his(A,6)   total(G,1|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59194):
CAGCACTTTGGGAGGCCAAGGTGGGTGGGTCACCTGAGGTCAGGACTTCGAGACCAGCCTGGCCAACATGGTGAAACCGCATCTCTACTAAAAATAAAAA
W
AAAAAAAAAATTAGCCAGGCATGGTGGTGCATGTCTGTTATCCCAGCTACTTGGGAGGCTAAGGCAGGAGAATCACTTGAACCTGGGAGGCAGCGGTTGC
Celera SNP ID:            hCV11668018
SNP Position Genomic:     735103
SNP Source:               Celera
Population(Allele,Count): cau(A,7)   afr(A,7)   his(T,1)   total(A,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59195):
GCTGGAGTGCAGCAGTGTGATCTTGGCTCACTGCAAACTCCACCTCCCAGGTTCAAGGGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGAGATTACAGGC
S
CCCACCACCAAGCCCAGCTAATTTTTTTGGTTTTTTTTGTATTTTAGTAGAGACGGGATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCTGGACCTCA
Celera SNP ID:            hCV15894220
SNP Position Genomic:     556557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59196):
TACTAGTGAGTGGCAGATATGTGTGGACCACAGAGATGGACTGAAAAGAGAAGTAACAGTCCTTGGTTTGTATTCCAGCCCCCACCTTCCTATGTCTTTG
R
GCTTGGTAATTAGATGCTTGGAGCTTCAGTTTCCCCATCTGTTGGATCAGAACGGCAGTATGTGCTCTCCAGTATTTTCATAAGAGTCACATGAAATATG
Celera SNP ID:            hCV1591991
SNP Position Genomic:     425641
SNP Source:               Celera
Population(Allele,Count): cau(A,6|G,2)   afr(A,6)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59197):
AGTATTTTCATAAGAGTCACATGAAATATGTACCTACAGAGTCTATCACTGTGCTTTTTAAGTTGGGGCTTAATATGTGGTAGTTGTTGCTGTTTTTGTT
R
TTATTATTATTAATGTTATTTTTTGTTTGTTTGTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGAAGTGCAGTGGCGTGATCTCAACTCACCGC
Celera SNP ID:            hCV1591992
SNP Position Genomic:     425812
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,6)   afr(A,1)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59198):
TAATATAATTAATGTAAAAACACATACTTCTTTTCAACAAAAACTGGCTCTCTTTGTAGTCTCTTTTTTAATTTGGTGCAATCACTTAAAAAGTTTAGCA
S
ATTTAAAATTTTACATCATTTTAAAATTGTTTCTCTTTTATAAGAAGGATGCTATTTACTATTAATGTAGAAGTACAAAGGAAACGGTTACTTTGGATTT
Celera SNP ID:            hCV16183419
SNP Position Genomic:     513714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59199):
TGTTATTATTATTAATGTTATTTTTTGTTTGTTTGTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGAAGTGCAGTGGCGTGATCTCAACTCACC
K
CAGCCTCCGCCTCCTGGGATCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTATAGGCACCTGGCTAATTTTTGTATTTTATATTAGAGAT
Celera SNP ID:            hCV1591993
SNP Position Genomic:     425911
SNP Source:               Celera
Population(Allele,Count): cau(G,5|T,1)   afr(G,5)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59200):
ACGTGAGTGACCACGCCTGGCCCATAAATGTTATCTTTATATAACATACTCACAGCTCCCTTAGGAGTACTTTTGTCCATTTCTACACAATGGAAACTTA
Y
AATTTTAGCCTTAGCAACATGTATTTACTGGGCATCTAGATTTCATTTATTTAAGAACTTTTTATTGAATGCCGATTGTTCAGCAGCCACCATGCAAGGT
Celera SNP ID:            hCV1591994
SNP Position Genomic:     426201
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,6)   his(T,6)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59201):
GAAAAAAACTTGCTTGTTTACTGTCTTCTGAGCTGATTTCTCACCTACTGGCAAGTGGATAGGTCTACTTTTTGTTTAGCTGTTTTTCTAATTTAATCTT
R
TACATGAGACAGCTATAGATGGATGTATAGTCTTTGAAGTGGGGCCAGTTGGCTCCGTCTATTAGCTGTGTGGCTTTTGTGCAGGTGACTTGTGGCCCCC
Celera SNP ID:            hCV1591995
SNP Position Genomic:     426659
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(A,1)   his(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59202):
CAACACTAATAAGTAATTGAGCAGATGAGATGCTCTTGCTAGCTTTGGTAAAAAGTCGGGGCAAGGTTACAACAGAGGAGCTCTGATGAGACTTGGGATG
R
TAAAGTCAAGTCGAATATCTGGTAGGGTTAAAAATCTAACAGTGGGCCAGGCGCAGTGGCTCACGCCTGTAATCACGGCACTTTGGGAGGCCAAGGCAGG
Celera SNP ID:            hCV1591996
SNP Position Genomic:     430347
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59203):
TCCTGGGCTCAAGCAATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTACCTGGACTCCACTATGCCTTCCCCTCCCCTT
Y
CCTCCCTTCCCCACCCTAAAGAGTCTCGCTCTTTTCCCCAGGCTGGAGTGCAGTGGCACTATCTGGGCTCACTGCAACCTGTGCCTCCCGGATTCAAGAG
Celera SNP ID:            hCV1591997
SNP Position Genomic:     367740
SNP Source:               Celera
Population(Allele,Count): chn(C,7)   cau(C,7|T,1)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59204):
CTCTCCTCGGCCTTGCAAAGTGCTGGGATTATAGGTACCCCGCCTGGCTGATACTTTCCTTAGTTGTTTTCAGTGTAATAACCTGTCTTCAGTCTACTCT
W
TGTCCTTTTCTCTCCTTTCCTCCCTGAATACTCAAGCTTCCAGTGCACAGATTTCTCCAACCCTGAATGTGACTGATACCAACACCATACTAGCTCTTCC
Celera SNP ID:            hCV1591998
SNP Position Genomic:     368068
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,3)   cau(A,3|T,4)      total(A,6|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59205):
AGCCTGGCCAGCATGGTGAAACCCCGTCTCTACTAAAAATAGAAAAAATTAGCCGGGCATAGTGGCATGAGCCTGTAATCCCAGCGACTCGGGAGGCTGA
R
GCAGGAGAATTTCTGGAACCTGGGAGGTGGAGGTTGAAGTGAGCTGAGATGGCACCATTGCACTCCAGCCTGGCAGACAGAGTGAGACTCCATCTCAAAA
Celera SNP ID:            hCV11512153
SNP Position Genomic:     263935
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(A,7)   afr(A,7)   his(A,7)   total(G,2|A,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59206):
TGGGATTACAGGCGTGAGCCACTGTGCCCAGCCAAACCTCGGCACTTTTATCCAACAAATATTTATTTCGTGACTATTATGAGTCAGGCTTAAGAATACA
Y
TAGTAGGTACAGCAGGAGAGCATGTAGAAGAGGATAGATGTAGAAAATCGGGACGGCATGTTAGGAATATAGATAGGAATTACTAAGGAAAATTGTATTT
Celera SNP ID:            hCV15894227
SNP Position Genomic:     552268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59207):
ATGTGTGGCCAATCTCACAAGATACTAATTCTTTTTTTCAAATGCAGCATCGCTTGAAGCTGTGATAAAATATCACACCTTTGGAAATCAAGGCTCTTCT
K
GTTTATTTATTTAACTCACATTAATTAGCCTTAATTTAAAAAAAATGAGAAGAGCCAGCATCATGATGCAAGCATTGACTTTGCTCACAAAAACATCTTG
Celera SNP ID:            hCV15911840
SNP Position Genomic:     391397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59208):
TTTGCTCTGTTACGTGAGGACACATCACTTGCACCTCAGTGTGAGTTTGAAAGTGTTTTCTCTGGAGAATAATTCTGAAGAAATAGGCCCTCCAGATATC
R
GTAGTGACAGGGGTATCAGTAATGTTGATTACTAAGTTCTTGCCACAGGTAGAAGCCATGCTACTGCACAAGTTTCATACTTGAAGAGTGGACATCTGAC
Celera SNP ID:            hCV1591999
SNP Position Genomic:     368542
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4)   afr(G,1)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59209):
AGATGTGCATAATAAGTTCAGGAGGGGCTCGGTTTTGGGAGGCCGGGGATACTAGAAGATAACCCTAAAATGTGGAAATCTACATCAGAGAGTGGTGTGA
R
TGGTTCCCAAAATGCCTACCTGGCACTCCTACCAAAGACACAGCAGAGAACTTGGGGCCTCTTGTTTCAGCCATTTTCATCTTCACTGTAAATCTAGACA
Celera SNP ID:            hCV2852990
SNP Position Genomic:     990441
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,8)   afr(G,8)   his(G,8)   total(G,24|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59210):
GTGAAACCCCGTCTCTACTAAAAATAGAAAAAATTAGCCGGGCATAGTGGCATGAGCCTGTAATCCCAGCGACTCGGGAGGCTGAAGCAGGAGAATTTCT
K
GAACCTGGGAGGTGGAGGTTGAAGTGAGCTGAGATGGCACCATTGCACTCCAGCCTGGCAGACAGAGTGAGACTCCATCTCAAAAAACAAACAAAAAAAA
Celera SNP ID:            hCV11512154
SNP Position Genomic:     263950
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(G,7)   afr(G,7)   his(G,7)   total(G,21|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59211):
TTCCTCCCCTTTTATCAAGAGCCGTAAGTCCTTGGAAAATGCAAAGAGGGGGAAAAAGAAGAAAAACAGCAACGAGTTTATTGGAGAGTTAACACTTAAA
K
ACTCCAGTACATTGAGTGTGACATGCCTGTGTAGGAGACTGTCTGTCCCCCAAATAATTGACAATTTCTCTCCATCTAACAAGAAAATATATGGCACTTT
Celera SNP ID:            hCV15894228
SNP Position Genomic:     549491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59212):
TTTTTTTTTTAATACTTTTCTTTTTGCCGGCATCTGCGTAGAATTTTTTTTTTTTTTTTTGGTAGTTTCTTAATGGTCTTTAGCAAAGGAAGTAAGTGAC
R
CTGATCGGTGAAGGCAGACAGTAAGATTTATAATGTATTTGTGCTAGCTGATTGCCAACAGAACCGGCCTTTCCCAGTGGTGCTGTACGCAGACTCGGAA
Celera SNP ID:            hCV15911841
SNP Position Genomic:     391090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59213):
CAGGCTCTAATGCACGATAAGACAGTTAGGTTCGAAGGAAAACAAAGACAATTGCACGGCACAGAGGGAATATACTGCTACGGTAAACCGATCACTAACA
Y
CCGGCCCTGAATTTGCTTCAAAGTTTTCACTAAGGCACAAAGGGAGCCGTGTGGAGCTCCGGAGTTCCCATCTGAGGTCTTGTCTAACTCCTTGGCAACT
Celera SNP ID:            hCV2852991
SNP Position Genomic:     991170
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,3)   afr(T,3)   his(C,2)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59214):
ATACACAATATGTTATATGAGATCTTCACCCAATCAAGGATTAAATGGCCAATTCCTAAATGATGCCTACCTTTTTATGGCCATGTATACCTTTGCCTCA
R
TACTACTGGCATTTGCTGACATCCATTTATCAAGATACAGGGATGGATTTCTAGAAGGCCCAGGCAGGGGTGCTGGCCAGGAGACACCAGGCATAGACCT
Celera SNP ID:            hCV11512155
SNP Position Genomic:     264157
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,5)   his(G,5)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59215):
TCGCAGACACGGAAAAAAGGATTATTCCTCCCCTTTTATCAAGAGCCGTAAGTCCTTGGAAAATGCAAAGAGGGGGAAAAAGAAGAAAAACAGCAACGAG
K
TTATTGGAGAGTTAACACTTAAATACTCCAGTACATTGAGTGTGACATGCCTGTGTAGGAGACTGTCTGTCCCCCAAATAATTGACAATTTCTCTCCATC
Celera SNP ID:            hCV15894229
SNP Position Genomic:     549467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59216):
TGATGCACCCGCATCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCTGGAGGACAAGTAATTTCTAAGTATTATTTCTTTTAATCCTC
R
CAGTGACTCCTTGTTAGGGTTTGCTGCATTTTATACAAAGAAGAAAGGAGTCTGTGGAAGTGACATAAAGTAGGACATGTATTCATTTACTGATTCAACC
Celera SNP ID:            hCV2852992
SNP Position Genomic:     992209
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   his(A,4)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59217):
GTGGCGTTTCCACACACAGGGAAGCAGATAGTTCCATTAGGTGACAGTGTGTGCACAGTTTATGGAGGATGAAGCGGAAAACCTGAGCCACAAGGCAGTA
K
AGGTTGGACGAGACACTCATTCCGAAGGCGGGTGTGTATGTGCAAACTGTATAATTTTTTTCTTCTTTTCTATCTGCTAGCAAAGTGGGTAAGTTGACCC
Celera SNP ID:            hCV15830851
SNP Position Genomic:     399859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59218):
CCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCTGGAGGACAAGTAATTTCTAAGTATTATTTCTTTTAATCCTCACAGTGACTCCTTGTTAGGG
W
TTGCTGCATTTTATACAAAGAAGAAAGGAGTCTGTGGAAGTGACATAAAGTAGGACATGTATTCATTTACTGATTCAACCTTTCATTTGTACATATATGT
Celera SNP ID:            hCV2852993
SNP Position Genomic:     992229
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,5)   his(T,5)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59219):
AAGATGAGTGGCGTTTCCACACACAGGGAAGCAGATAGTTCCATTAGGTGACAGTGTGTGCACAGTTTATGGAGGATGAAGCGGAAAACCTGAGCCACAA
K
GCAGTAGAGGTTGGACGAGACACTCATTCCGAAGGCGGGTGTGTATGTGCAAACTGTATAATTTTTTTCTTCTTTTCTATCTGCTAGCAAAGTGGGTAAG
Celera SNP ID:            hCV15830852
SNP Position Genomic:     399852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59220):
GCTGGACAAGAAGTCCTGAGCACTGGGGAGTTGACTTCATATTGGAGGCAGAGAAGAATTACCTGCCGATGGCTGTTGGCCCATGGCAACACCCTAGATC
S
TTGCATTTGTGGTCCTGCTGAAAGAGGAGACTTAAGTTATAGAGTTATTGGTACTTGCAACACTTTCTCTGGAATTTGGCCATTTCTCTGCTCTTTTAGT
Celera SNP ID:            hCV2852997
SNP Position Genomic:     995130
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,2)   afr(C,2)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59221):
TGGAGATTTCAAGGATCATCAGGGAAGCTAGTGTGGCTGGAGATGAATGGAGTGGGTAGGAGAGGTGCTGTTGGGGGATGGGTATCTGGTAGACTCTGAG
R
TAGCGGTGAGGAAGACATTAGAGGGTTTGAGCTAGAGAGTGATGCGAGCTGTTTGATTTTTGAAACATCGCTGGATTTCAGAATGAAGTCCAGACTGCAT
Celera SNP ID:            hCV11518046
SNP Position Genomic:     71505
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,1)   afr(A,2)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59222):
CCACTTTTTAAACATGACATTCGATCCACGTGGCATAGCAAGGATGGGATCCACAAGATGGAGTGATCTTTACGCCATCCTCCTGACCATAAATACTAAA
Y
GAATACTCTATTTCAGTTGAGTTTTTAGTTTGCTCTGTTACGTGAGGACACATCACTTGCACCTCAGTGTGAGTTTGAAAGTGTTTTCTCTGGAGAATAA
Celera SNP ID:            hCV8896997
SNP Position Genomic:     368413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59223):
TGAAATTCAGTATATTTGAAATGAGCCCTTATCTTGAGCTCACTGAGCTTATTATTTTGGGTTAAATAAAAAAGAAAACAGAGTCTTACTTTTTCTGATC
M
TTTTATTGTCTTTCTGACTAATGTTAAAAAGTAGTAACCTCTAGTAGGTGGGATAGTAGCAATTTTTAGGGATGTATTGAGAAGAGTACAAATGGGAATA
Celera SNP ID:            hCV11518047
SNP Position Genomic:     72267
SNP Source:               Celera
Population(Allele,Count): cau(A,2|C,1)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59224):
TGACAGGGAGATGGAGGGAGGCAAAAAGAAAAAGGGAGAAGGAAAGAGAGGAAAGAGGGGAAGGGAGGAAGGAAAGAAGAGAGAGAAGGAGGAAGAGAGG
R
AAGGAGGCACAGAGGTAGAGAGGCAGGGAGATAATGGAGATCCTGGCCAAAAGTTAATGCTCCGTTTCTAGTAGTCCACAGAAAGCACCTTGACCAAGTG
Celera SNP ID:            hCV8896998
SNP Position Genomic:     371972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59225):
GCTATGTCAGAAGCAAGTCAGGATTTGAAGGCAGATCTGTCTGCTTTTGCCCCTCTGTAAATCCAGAGCTGCTGCCTCATTTCTTACGTTGCCCCCACCC
R
TGCAGCAATTCTTCCTGGGAGGCCTCATTGTTCATATTCATAAAGGGCCCCATTCAGTCTCCTTTTTGGAGAAATGGCCACTGCAACTCTCTGTTCTGAC
Celera SNP ID:            hCV8896999
SNP Position Genomic:     372303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59226):
GCTGGCCAGGAGACACCAGGCATAGACCTTCCTTTCTCAGAGCCTTCGTGGCCCCTAGTTTGAATCTTTGAGTCACTGCAGTAAAGTTCCTGATGTTTGA
S
AGTACTCCTTATGAAGGGAGTCATATGAGTTGCTAGCTGGGTTCTCTGGATGGTGGTGTCATGCCAACATGGGAGCCACTAGCACAAAGAACATGCTAGG
Celera SNP ID:            hCV11512160
SNP Position Genomic:     264329
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(C,5)   his(C,5)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59227):
CGCAGATTGCCAGTGACTCCGGGAATGCCTAGGTTTATGTATGGATTAACACAGTGATAGACCCTGAGTAGCAAAAGACGAAGACTAATTACCTGACAGA
R
CTCCCCTCCACTCGCCTGGGTCATTGAAATTAATTTCTGCTTTCAAGCTTGGCAGAAAGCAGCTGCAGAATTTCAGTTCAATACTTAAATTAACGGGGAG
Celera SNP ID:            hCV15894236
SNP Position Genomic:     549207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59228):
GGATTAAGTTAGGGAGACAGTAATGGTATTGTTAGCAGGCTATTTCAATGATTTTCTCTGCGGAAGAGTAGGGAAAGGTGACATTCCAACTGGGAATATT
M
GACTCTGCAGATCCCTACTCGGAGTTTTTCAGCCCTGTTTTAAGTGCCGAGCTGGGTTTTGCCTCATGATCCAATTGTTTTATTAGCGAAATCATCATCT
Celera SNP ID:            hCV15894237
SNP Position Genomic:     509450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59229):
TCCTTCTTTCTGATCTTGAGACCTTGATTTGTCCAGTATTTTCTCATCATTAGCTGAGTGTAAGCATTTTTTGGCAAGAACATTATAAAAATGATGTGGT
R
TCTTTCTTAGTATATTATCTCAGGTAGAACATAATGTTGATCTGTCTCATCCCTGGTAATGTTAACCTTGATCACTTGGTTAAGGTGATGTCTGCTGAGT
Celera SNP ID:            hCV11512164
SNP Position Genomic:     268328
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   his(A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59230):
TACAGACCCCAAAGCTTGCTGTCCCCTGGGCAGGTGCATGAGGGGGTCCCAGGCAATCAGGCTCTTCTCAAACCTGAATTATACCCGGCCTCAGGGTATA
R
GGGTCAGGCAGCTGTTTGACAGGATTCTTGCAAATGTTTTTGGTTTCTCTGTCTACTCATTACGTACACTCTGCCAGAGGTTGAAAACTCAATGTTGAGA
Celera SNP ID:            hCV15894238
SNP Position Genomic:     584680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59231):
TGTTGAAGGTCATTTGAAAAATACTCTGTCTTTATTCTTTGAAATGGATTTACTCTCAAGAAAGTTGCATGTCACTTTACTTGGAAGAGACGGGTCTCAG
K
GAGGTGTGCCTCCGCTTTCATGAAAAGTCTCCCGTCTGCAGAAGCATTGGCTGACATGGAAGATTTTTTTTTTTTTTAATACTTTTCTTTTTGCCGGCAT
Celera SNP ID:            hCV15911851
SNP Position Genomic:     390922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59232):
GGTGATGTCTGCTGAGTTTTTCCAATGTAATGTTATTAATTTTTCCTTTGAAATTCATAATTATTTGAAGGGAGATGTTTTGAGATGATGCTGGCAGCCC
Y
GTTTTCCTTAAACTTTCACATGCTGACTTTCTATTGTTGGATCTTGCCTGCAGCAGTGTTTACCATGATGCTTGGCTAGTGGTGACTATGTATTTCCCTT
Celera SNP ID:            hCV11512165
SNP Position Genomic:     268512
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   his(C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59233):
GCAAAGTCAAGTTGGAGATGGCTCTCGATATGCATGAGTGTGTTAGACTGCTTTTCTTCTATTTTTTAAAAATGCACCCAAATGTAAAAGACACTTTTAC
S
TTTTTGATTTGATGTTGAAGGTCATTTGAAAAATACTCTGTCTTTATTCTTTGAAATGGATTTACTCTCAAGAAAGTTGCATGTCACTTTACTTGGAAGA
Celera SNP ID:            hCV15911852
SNP Position Genomic:     390809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59234):
TAATTTTTGTATTTTTAGTTAGACACCAGGTTTCACCATGTTAGCCATGCTGGCCTCGAACTCCTCACTTCAGGTGATCTGACTGCCTTGGCCTCCGAAA
R
TGCTGGGATGACAGGCGTGAGCTGCCTTGCCTAGCCAAATAACTCCATTATTTAAGAAAAATTAACCAGTATTTATTGAATACTTACTGGGCCCTGTGCT
Celera SNP ID:            hCV15911853
SNP Position Genomic:     390096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59235):
TCTTGCTTGTAGGAAGAACAAGAGACGAGACACAGCAAGGTGATGATGGGTATGTGAAGCAGGATAAAGAAAAAAACAGGACAGGCATTACAGGCTTAAG
Y
CTGTAATCCCAGCACTTTGGAAGGCCAATGCGGGTGGATCACCTGATGATAGGAGTTCAAGACCAGCCTCACCAACATGGTGAAACCCTATCCCTATTAA
Celera SNP ID:            hCV11512169
SNP Position Genomic:     269424
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59236):
TTCACAGTGTTTCTAGCTCCCCTTTCCAATACATCTCTCTCTCTCTTTCTCTCTCTCTCTCTCTCTCTCTCACACACACAACACACACACACACACACAG
S
CAAATCAGACACCAACATAAACTGTAGAGTTAACATTCTTTTTCCACCCTCACACTTTTTTTAGCTCCGATCTGTGTTCAATTTCTGCCTGAGAGAGTGA
Celera SNP ID:            hCV15830864
SNP Position Genomic:     447665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59237):
CAGCCCAACACAAATGTATAAACTTGCTTAAAACATGATGAGATATTTTTTGCCATTTTTTTTCAACTCATCAGCTATCATTAGGGTTAGTGTATTAATA
Y
TTTATGCACAGCCCAAGATAATTCTTTGTCCAGTGTCACCCAGGGAAGCCAAAAGATTGGACACCCTGGGAATAAAACAGAAAAAAGGTGTAAAAGGCTT
Celera SNP ID:            hCV314477
SNP Position Genomic:     274535
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59238):
AAGTACATCCTCTTAATTTGTTTCTGGAAGGCAGAGTTAAGAGTTAATTCCTTCCCATGATGTGGCCCCAGCGGAGACCTTGTGTTTTTTTTTTTTTTTT
Y
CTTCAGTGCTTTTTCAGGACTATGTTATAGAATACTTATGGGGCATACGTGTAAATGAACTGTCAACCTTAAAATCTAAACAAACAGCTTGTTTGTGGTT
Celera SNP ID:            hCV2954180
SNP Position Genomic:     1110960
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59239):
AGCTGACTTCCCTCTCCTTCATTCCCAACCAAGTTTGACCCCGCCGCAGTGGAGATTGTGGCAGATGGGTCAGATAGCATGTGTCCTGTCGCTGTCACAA
S
TTTTTAATAAGGGCTGGGGGTCCTCTTGAAGAGCCCAGGAACTGCAGTCCCTCCTCTATGCCTTCCCCTGAACACAGTGCGCCCTCACTAATAAATTCTG
Celera SNP ID:            hCV11668038
SNP Position Genomic:     711574
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,1)   cau(G,3)      total(G,3|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59240):
AATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCTTGGCGACAGAGTGAGTCTCCATCTCAAAGAAAAAAAA
M
AAAAAACAAAAACCTGCCCTGCCCAGCCATGCCCAAACAGAGTGGCCAGCAGTCAGCTTAGTGTGGGCAGAGCTCAGGGAATTATTCTGCAGTGCAGCTA
Celera SNP ID:            hCV2954185
SNP Position Genomic:     1060129
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|C,2)      total(A,3|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59241):
AGATGCCTCCAGCAATTATAATTGAATCTTGAAGCTAGAGTTTCTTGGCTATCCTATTTCCCTTTTGTTTCCACCATGAAGAAGTGGAGAGCCGTGTGAC
S
TCAGTGGTAGAGCTGATGTAGAAGCGCCCTCTCTGTTCCTGGCAGTGCCTGTCCTGCTAACCTCGTGTCTCTTGCTGGGGTCTTCATCAGTAAGAGACCT
Celera SNP ID:            hCV184187
SNP Position Genomic:     245060
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(C,1|G,3)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59242):
TTTTTTGCCCTTTTGGGGGACAAAATGTCTTTATGTTAAATTGTTTTATTATTGTTATCTTTATGGAGTTAAGGGCACATAAAATATTCTTACAGAGAGA
R
ATTCTGTAGTTTCCACAAGTAACCAGAGAATTGTTCATGGCAGAGAATTATTTTTTCAATGCCTATTTTCTCCTGAATTTTCTGACGGAGTTAGAGATAG
Celera SNP ID:            hCV184188
SNP Position Genomic:     245723
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59243):
TTTCTGTTTTCTTCTTCCATTTTTATGTTTTGCTATGCCATTCATTCATTCTATTCTTTTCATTTCTTTTTCTTTTTGTAAAAATTGTACAGAGTTTAAA
R
TTAGTCAGGTATGTCTATTAAATTTTTACGTAAAAAGTTAAAGCAGCCCTCAGCATCAACTTCTTCTTCATTTCTAACTCATTTAGTGAATTCAGTTGGT
Celera SNP ID:            hCV184189
SNP Position Genomic:     246061
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59244):
AGGCAGCAGAATTGCCTGAACTCGGGAGGTGGAGGTAGCAGTGAGCTGAGATGGCACCACTGCACTCCAGCCTGGGCAATGGAGCAAGACTCTATCTACC
M
CCCACCCTGCAAAAAAAGAAAAGAAAGGAAAAAAAATCTTGGTGCTTGTAGGAGAGGCATTTATTTCTTTTAGGACTGGACGGGGCTTGGAGGGTTTCCA
Celera SNP ID:            hCV11512170
SNP Position Genomic:     269686
SNP Source:               Celera
Population(Allele,Count): chn(A,1|C,4)   cau(C,4)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59245):
TAAACAAGAACAAATGGAGAATCTTTCACTATGACTGCAACTGAAAAGAGGAGTAATGGAAGGACATGTACTCTTCCCATATATTTTTAAACAATTACTG
K
ATCTGATTTTTCATTTTTCATTTTTTTTTTTTCTGGAAGAAAGAGCAGATCTGGATAAAGTCAGTATACAATGTGGTCTTTGGTGACAGACCCAAGTTCA
Celera SNP ID:            hCV15894245
SNP Position Genomic:     582246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59246):
TTGATAACTCCCTGGCAGGTTCTCTTCATCGGGCCTCCACATAGGGTATGCGAACCTCTTCATGTTTTTAAAAGGGAGAGATTTAATAAAGGCAATTTGG
K
ACTTAAAAATTGTTAGAAGAGCTAAAAGAGTAGTTTTGAGGTTGACCTTCAGAACGGCTTCCTGAATAATACAGAAGTGACCCTCCAGGAAGGCCCTTCC
Celera SNP ID:            hCV15894246
SNP Position Genomic:     576402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59247):
GTGACAATAATGGAGATAGAGAAAACAGGATGGATTCAGGAAACATGACCACACTGAGCATATTCAAATGTAATTGTCAGTTTTCGTGTCTCCCTCCCAC
K
GGACCACAAGCCCCTAACTCTTCATGTACACACCCTGACTCCCAGTGTGGGCTGGCCACCCAGGAGGCACCCAGTTTATGTGTGCTGCGTGAGTGATGTG
Celera SNP ID:            hCV15894247
SNP Position Genomic:     571703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59248):
TTGTGATTTATTAACCATTTACTTGGCTTTGGAGAAGGCAGCATTTTTAGTAGTACTGTTGAGCCTGCATGTAGCTTTTCCAGGAGGGCAGGGTGCCTGG
A
TATCTGATCTTACAGTTATTACTTTGTGTCATATATAATTTTGTTTTCTCCCTGCAACAAATAAATCTTTGGGACTCCGGAAGAAAAAAAAATGGGAAAG
Celera SNP ID:            hCV11512177
SNP Position Genomic:     271544
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59249):
GCAACCTCTGTCGATTCTCCTTCCTCGGCCTCCGTAGTAGTCAGGACTACAGGCATGCACCACCATAGCTGGCTAATTTTTGTATTTTTAGTTAGACACC
R
GGTTTCACCATGTTAGCCATGCTGGCCTCGAACTCCTCACTTCAGGTGATCTGACTGCCTTGGCCTCCGAAAGTGCTGGGATGACAGGCGTGAGCTGCCT
Celera SNP ID:            hCV15911863
SNP Position Genomic:     390023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59250):
GGGAAAGAAAAAAAAAATTTGTGGTTACAGTATAATAAAAATAAACTGTTTGTCGTGACTGCAGCTGACATTTATCAGCCTGTTTGTGGGTGATCTTTCT
C
TCTCTCTATAATACAGAACATAATTTGTCACTTTGTAAATACATTCCAGTCTAAATCCCTGCCAGCATCTGTTAGTGTTTGAAGGATTAATGTGCTACCC
Celera SNP ID:            hCV11512178
SNP Position Genomic:     271738
SNP Source:               Celera
Population(Allele,Count): chn(-,2)   cau(C,9)   afr(C,9)   total(C,18|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59251):
ATTAGTGAAGCAGAGGTTGAAGGAGGTCACTTGCTTTTTATCCCAATGTCAAATAACTCCATAATTTTTTTTATTATTTTTTGAGACAGAGTCTTGCTCT
K
TTGGCCAGGCTAGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCTGTCGATTCTCCTTCCTCGGCCTCCGTAGTAGTCAGGACTACAGGCATGCAC
Celera SNP ID:            hCV15911864
SNP Position Genomic:     389882
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59252):
GAAAGAAAAAAAAAATTTGTGGTTACAGTATAATAAAAATAAACTGTTTGTCGTGACTGCAGCTGACATTTATCAGCCTGTTTGTGGGTGATCTTTCTCT
C
TCTCTATAATACAGAACATAATTTGTCACTTTGTAAATACATTCCAGTCTAAATCCCTGCCAGCATCTGTTAGTGTTTGAAGGATTAATGTGCTACCCTG
Celera SNP ID:            hCV11512179
SNP Position Genomic:     271740
SNP Source:               Celera
Population(Allele,Count): chn(-,2)   cau(C,9)   afr(C,9)   total(C,18|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59253):
GTCATTGATTGAAAGAGTCATGGCATAGATGCTGAAGTTTTGATGGGAACTTTGCAGGATGTTCGTTTGTTTATCATTAGCCCTGGGAGAGTCATCCCTC
R
CCTCCCACCACCCCTTAATTTAAAGGGATTTAAAATATTTTCAAGTACATCCTGATATCAGCACGTGGTACACTGAGCCTAGTTGATGGAATTGTGAAAA
Celera SNP ID:            hCV15911865
SNP Position Genomic:     389145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59254):
CTTAGATCAGACGTGCTTTTGAAATATCCAGATATATACAACACAAAGAGCGAAGTTTGTTTTATATTTTGTTTGTTTAGGTTTTTTTTTTTTTTTTTTT
T
GGCTGGTGTTTACTGAATGCGTGCAAGGCTTTCTGTCACAGGCTCTGTGTTAAGATATTTAACGGGTGTTTCATTTTCCCAGCAATGCTATAGGACACAG
Celera SNP ID:            hCV11668042
SNP Position Genomic:     709644
SNP Source:               Celera
Population(Allele,Count): cau(-,5)   afr(T,2)   his(T,2)   total(T,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59255):
CAACACTCAGTCTGATAGTTTAGAAAGCTTTTGCAAGGCATTCCCCAATATAACCATTAAGCATCAAACTCTCAAATGGAAGTTTCGAAAAACAGAAAAA
A
GTGAGCATAAATGCAAACTATCACCCCATGTAATAGTTTATTTATTTCATGCTCCACTTTTCTGGGCAGTTTTGTTGTCATTCTCTCTCTACCTCTTTTT
Celera SNP ID:            hCV11668043
SNP Position Genomic:     708384
SNP Source:               Celera
Population(Allele,Count): cau(-,5)   his(A,1)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59256):
ATTATAAAAATGTATTAAAACTGAGAAGGAGAAAAAATATGGCGGTAGATGCGATTTTAATGATTGTGTAAATGTTCATTGTTCCATGGCAAAAAAAAAA
A
GTCGAGCTTTTCAGCCACAGTATTTCAGACAAATGCCAGGGCCTGTTTTTCTGTAAATGTGTACCGTGTGCTTTTAACACAAAGACAAATATGTTGCTTT
Celera SNP ID:            hCV11668044
SNP Position Genomic:     707683
SNP Source:               Celera
Population(Allele,Count): cau(-,6)   afr(-,6)   his(A,1)   total(A,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59257):
TTTAATCCAAACTGAAGTTATGCTTTGGGCTTCCAGAATCTGGGTCAAAAAGAGTAGAAGTCAGGCTCAGATTGACGCTTTTCAAGAGAGAGAAAAAAAA
A
GAAAAAAATCTTGCCTTTCCCTAGCTAGAGGTCAGATGTCAAAAAAGCTAATAACACAACCCAAGGATGTCATCGACAAATGAAAAAACTGGTGCGATGC
Celera SNP ID:            hCV11668045
SNP Position Genomic:     705745
SNP Source:               Celera
Population(Allele,Count): cau(-,2|A,2)   his(A,2)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59258):
CAAGCACCTATCGTTTTCCTGTGTATTCCAAGAGGCCAGTGTGGCTGGTGGAATAAGATGTTTTCCTGTTTTCAAGATGCAGTGGACTCTCTTTTATTTA
R
CAGCAGTGTCTATGTGTTAGGAATCCATGTGAGTTCTCTAAGTCTGGGACAACGATAGGTGTGTCTGAGTCCTGCATTACCATGGTTTATTCTTTCCTTT
Celera SNP ID:            hCV11518060
SNP Position Genomic:     75640
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59259):
TTCTTTTTCTTTTTGTAAAAATTGTACAGAGTTTAAAGTTAGTCAGGTATGTCTATTAAATTTTTACGTAAAAAGTTAAAGCAGCCCTCAGCATCAACTT
Y
TTCTTCATTTCTAACTCATTTAGTGAATTCAGTTGGTCTTTATATATGTAGCTTTAAGTAATTGCATGTAAACTGTTACTTCTTCATTTTCTAGTCTTAG
Celera SNP ID:            hCV184190
SNP Position Genomic:     246124
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59260):
TTCCTTCTACTTTGGTGCCCCATGATGATGTGCATCTTTTTTATTTCTGCATCATATCCATATAGTGATATCATGTATAATGATGTTTAAGAAGACAGTT
W
TTTTTGTTTAAATTGTTATAAATAAGTAAGTGTATGCACCACTATGCCATGTAGCATATCAAGATTATTTTTCTTTCCTGCACCTTATTTTTTCCCTGGA
Celera SNP ID:            hCV184191
SNP Position Genomic:     246364
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,2)   afr(T,2)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59261):
TATTTGTAACAAACAAATAAACAAAAAACAAAATAAATAAAAGCTACCCAGCTTAGATTATTTTGTCATAAAAGCCCCAAAAGACTATGACAAATCCTTC
Y
ATCTATGTGTCCTTAGGCAAAATACCCAAACTCTCTGAATACCAATTTTCTCATCCAAAAAAATGGGTGAATAATATCTAAGAGGTAATAACCCTAATAC
Celera SNP ID:            hCV11668047
SNP Position Genomic:     701898
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,6)   afr(C,1)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59262):
AGAAGACAGTTTTTTTTGTTTAAATTGTTATAAATAAGTAAGTGTATGCACCACTATGCCATGTAGCATATCAAGATTATTTTTCTTTCCTGCACCTTAT
W
TTTTCCCTGGAGTTAATACTCATCTTTTTTTAGAAATTTGCTGAGTTTGTGATGTACCTATCATTCAACCTCAAACTTTCATGTGATTGTCTAAATCTCA
Celera SNP ID:            hCV184192
SNP Position Genomic:     246453
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,2)   afr(T,2)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59263):
TATCATTCAACCTCAAACTTTCATGTGATTGTCTAAATCTCAGTTCCTTTTATTAGAAAAAAAAAAAAAAACAACTCCCCTGGAGCCTTTGTACCTTCTG
Y
AGTTTGGGGTTGTTGTCCTTTTTGCTTGGTGCACAGGAATACTTGGTGATGTTCTTTTTAAAACTGCCCTCACATTGTATCCTGGAAAGTTCATTTACCT
Celera SNP ID:            hCV184193
SNP Position Genomic:     246612
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,3)   afr(C,2)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59264):
TTAAAGGTAGAAACAGAAAAAAACAGGCAGAAACATAAAAAGCTCGGAGATGGCTTCCTATTGCTTCTTCATTCTGGGCCAGAGCAAATCATATGGTCGT
R
CTCCAGGGTGAGGAAGTATGTCCCACTTACAGACTGAAAAGGTGCTGCAAGTCTGCACGGCAGAGGGCATGGATAAGGGGTTCGTAAAAACTTAGGGCCA
Celera SNP ID:            hCV11668049
SNP Position Genomic:     699883
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,3)   afr(A,1)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59265):
TCTTAACTTCTTTAAACCTCAGTTTCTTCATCTGTAAAATGCACATCATAATATCTCTATTCAGAGATACAGGTGGTTCTATTAAACACATCAACTCTGT
G
TATATAAAGTCTTAACCCATTGTGGAATAAATTAAGTGCTCAATTAAATGTTAGCTGCTGCTATTAATAACAACAATAATAATATTTTCTTCACGCATGA
Celera SNP ID:            hCV11518065
SNP Position Genomic:     76719
SNP Source:               Celera
Population(Allele,Count): cau(-,3|G,1)   his(-,3)   total(G,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59266):
TTAACTTCTTTAAACCTCAGTTTCTTCATCTGTAAAATGCACATCATAATATCTCTATTCAGAGATACAGGTGGTTCTATTAAACACATCAACTCTGTGT
A
TATAAAGTCTTAACCCATTGTGGAATAAATTAAGTGCTCAATTAAATGTTAGCTGCTGCTATTAATAACAACAATAATAATATTTTCTTCACGCATGAAA
Celera SNP ID:            hCV11518066
SNP Position Genomic:     76721
SNP Source:               Celera
Population(Allele,Count): cau(-,1|A,3)   his(A,3)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59267):
ACACATGTGCAGCCACTGTATGACGTCTGGATTTTCCTTGACTTATGGTGATCACTATTGGGAGGTGGTAAGCAAACAGGTGACATAATTTGAATCATGG
K
TTTAAAAGACGCCATGGTTGCCATGAGGAGGACAATGCGTAGGAGGCAGGAGTGAAAGCTAAAGGATATGCTGGGAGGTGACCCTGGAGTTAAAGAGAGC
Celera SNP ID:            hCV15894254
SNP Position Genomic:     571487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59268):
TGCAAAGGCCCTGGGGTGGAAACACACTCGATGTGTTCAAGGGAGAGTAAGTGGTGAATGGGTTTGGAGCCAACAGGGATAATAGACAACGCTATCAAGA
R
GGGGGCCAACCACACATGTGCAGCCACTGTATGACGTCTGGATTTTCCTTGACTTATGGTGATCACTATTGGGAGGTGGTAAGCAAACAGGTGACATAAT
Celera SNP ID:            hCV15894255
SNP Position Genomic:     571375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59269):
TCTAAATCCCTGCCAGCATCTGTTAGTGTTTGAAGGATTAATGTGCTACCCTGTGTATGTCTGCACTTCCAGGGAACAGTGTAGCATCTGATTACAGATC
K
TGGGAGAGCAGGAGGGAACAAGGTGTTTTCTGTGCTTTTTCCTACATGCAGTCGTTTTGGCCTTTTTCTGATTTTTCTTGTCTTTATCCCATTCTGTCTA
Celera SNP ID:            hCV11512182
SNP Position Genomic:     271888
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(T,8)   afr(T,8)   total(G,1|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59270):
AAATCTCAAGCACAGGTGCAGCAAGTGCAAAGGCCCTGGGGTGGAAACACACTCGATGTGTTCAAGGGAGAGTAAGTGGTGAATGGGTTTGGAGCCAACA
R
GGATAATAGACAACGCTATCAAGAGGGGGGCCAACCACACATGTGCAGCCACTGTATGACGTCTGGATTTTCCTTGACTTATGGTGATCACTATTGGGAG
Celera SNP ID:            hCV15894256
SNP Position Genomic:     571350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59271):
CCAGATGTGGAAGAAATAGCCTCATTAGTAACTTTTCTGTAAGCAATCTCCTTATTTCTTGTTTTTTGTTCTTTTGTTTTTTGTGTGTGCTTCTGCGTGC
M
CCTCCTCTATGGCTCCCCCCACCAAATTTCTGTGTCTTCATTTGCAACTCTCTTTTCTCCAGTAAAGAGGAAAGTGTATAGTTCTCCTTTCCTTACAGAA
Celera SNP ID:            hCV11512186
SNP Position Genomic:     272860
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(C,1)   his(A,4)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59272):
ATAGAATGATCCAAGTTTATAATTTGTAAATAAGTAGACATCTTTTGAGGCGTATGCCCTTAATTTTTCTAACTGATGAAAGCGTACTTCCATCAACTCA
R
GACAGTTCAAAGCAGCTTGGAGCCTCTTGGATTTTAAAAAGACTCTGTGGCCTCTGTCTCTCTTGGTTTTCAGTGCTCAGCTGAGGTCTACTCTGTTTAT
Celera SNP ID:            hCV15911875
SNP Position Genomic:     388867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59273):
GGACTATTGTTGTCCATATTTCACAGATGAGGAAAGAGATGTGCTAAGAAAAGAGGTGGCAGAGTAGGGATTCCAGCTCAGTAGCCACTTTCAGGGTCCC
R
TACTTTTCAATGTAAGCATATTGGCTCTCAATTTAAAAATGTTATTTTTTACAGATAGTACACAGATGCACTGACACAGGTACCCTCTCCAGTCCTCTGA
Celera SNP ID:            hCV15911876
SNP Position Genomic:     388197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59274):
TATAGAACATTTCTACCATAGTAGAATGCTCTTTTGGATACATCTGCTTTAAAGCATTAGTCCCCAAAGTGTGAAGGATGAACCACTTGGGTTCCGAGAG
R
AAACATTATAACTTCTGTTTATCCATTAAACTCTTTCATTTATTATTAAACATCTCAACACATTTATTGGGTGGCAGGTACTGTTTTAAGTGTTTTGCAT
Celera SNP ID:            hCV15911877
SNP Position Genomic:     387956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59275):
AGGCTCATTGCTTACATACCGACAGCATACAAATTGTCAAGTACTTAAAGTTCCATTGTTGCTGAAAGGGCCTCCACCCAATGTCCTTAAATGGTCCCCC
Y
TTTTTTTTTTTTTTTCAAACCACAGGATTTACATCTCTCGTAGCATCTAATGAAATACCAGCAAGAATTGTGTGTTGGTGTAAGAAATAATAATCTTTCC
Celera SNP ID:            hCV15998116
SNP Position Genomic:     985095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|CT,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59276):
CAGTCTATTGTTACAATATTGCGTGTGTTAGGCATCAGGAAACAGAATCTCTTTGTCTCCTGTCCTTCTTTCACCTGCCCCAAGGCAGGACTCTAATCTT
Y
CCCACCTTTTTGATTGTGAGTCTTCAGACCCTCCCCAGAGAGTCAGTCCTGCCTTATGCCCTGGGGAAAGGAATGCTGACCTCATGAAGCTCCCATAAAA
Celera SNP ID:            hCV11668050
SNP Position Genomic:     695829
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,1)   cau(T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59277):
TATATATTTTGAGGTATAAAAAGTACGTGCTCAAGGTATTGGTCACTCCTCAATTTGTTTTCCTTGAAACAAAATGAAGGTATAAATATTTCAGCCGGGC
R
CGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCCGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAAGGTGAAACCCC
Celera SNP ID:            hCV77271
SNP Position Genomic:     26658
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,3)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59278):
TTGACACTAAAAGCTTAAGTCCCATGATTTGCCTTTGTGGATGGAAGGCCTTGGCCTTCTTTTATGATATATGTGTTGGGGGGAGGCATGTGGTATGTGG
R
GCGGGTAAAATACGAGCCTCATGCCTGTCTAAGCTGGTGACTTGGCTTGGAAAAGATGATCATTCGTCAACGCATCACAAGTCACAGGGCTTATCTCCAT
Celera SNP ID:            hCV11518070
SNP Position Genomic:     77846
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59279):
TTCTAAATACTCTCCCAGAGTAGGGAGGAAAAATCATCCAAACTACTTGGTAATTGAATTCAAGAGTGATGGACCAAAAATTATTAATGCATTCCCTTCC
S
TCCACCAGCCAAAGAGGATTCCATCTTTATTCTCCTCCCAAATGCAGGCTCCATTAACCTTTTACCTTTCTTTCTTTCCGGTCTTTCTTTTCTATATCTT
Celera SNP ID:            hCV11668058
SNP Position Genomic:     689994
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   afr(C,1)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59280):
TGAGGCAGGAGAATCCCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGGTGGTGCCACTGCATTCCAGCCTGGGCGACAGAGCGAGATTCCGTCTC
A
AAAAAAAAAAAAAAAGTAATCATTTTAGAATTGCTTTCTCTTCGGGATGGTTTACCTCGTGTTTAGTCTGTAAACGCGGATAACCGAGAGCTGGTCAAAT
Celera SNP ID:            hCV11518076
SNP Position Genomic:     85223
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   his(-,1)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59281):
AAGAAATGGAGCAAGGGAGGGGTTTCATCCCGCCGTGTTCATTTGCTTGGCTGTCCTGAAATTGCGAATACGCAGTTGTTACCTGCTCCCGGTGGGAGGG
R
GGGGATATTTATTTGGCATCTTGCAATTGATAGGAGCTGAGTGATTTTAGTAGGTAGTTTAACTCCTTAAAAACTTCCAGTGGTTTCATATTCTACCTAG
Celera SNP ID:            hCV8902344
SNP Position Genomic:     1097250
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59282):
TGAAACGCCTTACATAAACTGACCAGGAATCTGGGGCATTCGCGTTAGAGACAATTTTCTTCTCCTCAAGATAAGGGATGGGGAATTAGTCATAGGGTAT
Y
TCCAGATAATGTAGTTAACACCTCGTGTAATATTAGGTGGGCAGGGAGCTCTGCTCTCAGGACCAAAATTGCTCCTGCCAGCTCTAATAGGGAATGTGTG
Celera SNP ID:            hCV8902345
SNP Position Genomic:     1099542
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(C,2)   cau(C,2|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59283):
AGTAGTAGTGAATGCCCTGACTTTGGGGTTTGCAGTAAGCTAGGATTAAGTGCTTCACAGTGAGGCACAGTGGGGAGCTACTCTGAGGATGAATTGCCTA
R
TAAATAAGTGAGGTTTGTATAACCGAGGCCAGATCTTAGAACCTCCTGCTATCTGTACATAGAAGAATGTTTTAGTCAGAGGCAAGGCAAGGTCACCAGG
Celera SNP ID:            hCV15894263
SNP Position Genomic:     569635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59284):
GTACAATGGCTGACGCCCGTAATCCCAGCGCTTTGAGAGGCCGAGGCCGGTGTATCGCCTGAGTCCAGGAGTTAGAGACCAGCCTGGGCAAACAGCCTGA
R
GCAAAACCTCATCTCTACAAAAAATACAAAAAATCAGCTGGGCGTGGTGATATGCATCTGTGGTCTGAGCTACTCAGGAGGATAAGGTGGGAGGATCATT
Celera SNP ID:            hCV15894264
SNP Position Genomic:     569299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59285):
ACACTCTAAGGAATGGCATGACATTCTCCTTTCTTCTCCTGCATTCATTGGAACCTGAATGTAGTATTAATTATAAGACTGTTAGACTTCAGGGGACTAC
M
CTCTTATTCTAAAATAGTGGTCAACTAACTGTGCCCTTCAGACAGAATTCCTGCCCAGCACCTGGCTTTGTAATTAAAGTTTTACTGGAACAGAGGAATA
Celera SNP ID:            hCV11512191
SNP Position Genomic:     273608
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59286):
TTGCTGAGAGGTGGGGAGGGGGTGGGGGCTCTGTGCATGGAATGGGGGGAAAAGCTTCAGGGAAGGGCAGTGCAAATTGTTTCTGGACTGATGCCATCTT
Y
TAATAATAGTAGTTAATAGACTGGGTACAATGGCTGACGCCCGTAATCCCAGCGCTTTGAGAGGCCGAGGCCGGTGTATCGCCTGAGTCCAGGAGTTAGA
Celera SNP ID:            hCV15894265
SNP Position Genomic:     569174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59287):
AGAGGAATACCAGTTAATTTATATCTCGTCTGTTGCCACTTTTGCTTTCATGCTATTAAAGCTGAGTATTTGGGAGATACTTGAAAAATCTAAAATGCTT
M
CTATCTGGCCCTTTAGAGAAAAGGTTTTCCAATCTCTGTTCTAGAGGATTCGTGGTCATTTGGAAAGAAAAGTATGTTAAGACAAAATGAGCAGGTGGTT
Celera SNP ID:            hCV11512192
SNP Position Genomic:     273800
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(C,3)   afr(C,3)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59288):
GAAAAGTATGTTAAGACAAAATGAGCAGGTGGTTGGATTAGTATTTTCTTTCTACACATATAGAAACTGTTCCTATCATACCTGACTCAGTTTTCAAACT
K
GCTTAATCCAAAGCCTGGGGGGTGGATGTAGGAGAGAAGTTGAAATTAGCTGGGGTTTTTTTTTTGTATCACAAAAGTTACATTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV11512193
SNP Position Genomic:     273967
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(G,4)   afr(G,4)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59289):
GCAACCAAAGGGAGCATAACTCTGATAAGAATAATAAAAAGAAACAATTCAGCAACTCTCTTACAGATTTTTATCATCATCCCATTCATAATTGATTCCA
R
ACGTGCATGAATCTTTCAAGATAAGTGTCTTATTGATTATCCTGAAAACAAGCGATCACTTGGTGTCCTGAGATTCGCTCACTGCCCTCCCCTGATTACC
Celera SNP ID:            hCV331486
SNP Position Genomic:     495085
SNP Source:               Celera
Population(Allele,Count): cau(A,7|G,2)   afr(A,7)   his(G,2)   total(G,4|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59290):
TGGAACTACAGGTGCCCGCCACCAGGCCTGGCTAATTTTTTTTGTATTATTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTG
W
CCTTGTGGTCCGTCTGCCTCGGCCTCCCAAAGTGCTAAGATTACAGGCACGAGTCTCCGCACCCGGCCCTGTTTTTGCATTTTTAGTAGAGACGGGTTTT
Celera SNP ID:            hCV11512198
SNP Position Genomic:     281846
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(T,4)   afr(A,2|T,4)   total(A,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59291):
GACGGGTTTTCACCAGGTTGGCCAGCCTGGTCTCAAACTGTTGACCTTAGGTGATCTGCCTACCTCGGCCTCCCAAAGTGCTGGGATAACAGGCGTGAGC
M
ACTGCGCCTGTCTACATTTTCTGTCTTTACTGGTATTATGGTGGGAACCCATAAACCACTGCGAGGCAGATACCATTTTAAGCAGGAAACCTTATTTTTT
Celera SNP ID:            hCV11512199
SNP Position Genomic:     282037
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(C,8)   afr(C,8)   total(A,1|C,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59292):
AATTCTACATTCCTAAGAAGCTCCTAACAGGCTGATAATCCATGGATCGCATTTTGAATAGAAAGGATTATGCAAAAAGCCAGAGTTTTTTTTTCCCTTG
Y
CTTATACCAGTGGTGCCTAGCATGGTGTCAGGTTTATAGAGGACTAATACATATAAGAAGGAGAAAGGGAGGGAGGAGGAATTCCAGTTGTTTTTTTTTT
Celera SNP ID:            hCV11667401
SNP Position Genomic:     1063252
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   afr(C,2)   his(T,2)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59293):
ATTGGGTAGCACCGATATAGAACATTTCTACCATAGTAGAATGCTCTTTTGGATACATCTGCTTTAAAGCATTAGTCCCCAAAGTGTGAAGGATGAACCA
M
TTGGGTTCCGAGAGGAAACATTATAACTTCTGTTTATCCATTAAACTCTTTCATTTATTATTAAACATCTCAACACATTTATTGGGTGGCAGGTACTGTT
Celera SNP ID:            hCV15911887
SNP Position Genomic:     387941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59294):
ACATGGTTGGCTGGATTTGGCCAAGTTGACATAGAGAGCCAATCCCTCATCTCCAGCAGGGCTTTTACTCAATGATACAGTGCGCATGAATTGCTTGGGG
G
ATTGTGTACAAAGTGCAGATTTGGTTATAGGAGGTCAGGGAGGGGCCTCAATTCTACATTCCTAAGAAGCTCCTAACAGGCTGATAATCCATGGATCGCA
Celera SNP ID:            hCV11667402
SNP Position Genomic:     1063102
SNP Source:               Celera
Population(Allele,Count): cau(-,3)   afr(-,3)   his(G,1)   total(G,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59295):
TATGGAGTGTCAGAAATAGTGAAGCTTCTGGAGCTTCACTGTCCAATATGGTAGCCACGTGTGACTATTAAAATGTAAATTAATTAAAATTAAAAGTTCA
R
TTGCTCTGAAATAGCAGCCACATTTCAAATCTTCAGTAGCCAGATGTGGTTATTGGCTACCATATTGGGTAGCACCGATATAGAACATTTCTACCATAGT
Celera SNP ID:            hCV15911888
SNP Position Genomic:     387777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59296):
AAAACAGCAGGAAAAACTACATGGTTGGCTGGATTTGGCCAAGTTGACATAGAGAGCCAATCCCTCATCTCCAGCAGGGCTTTTACTCAATGATACAGTG
Y
GCATGAATTGCTTGGGGGATTGTGTACAAAGTGCAGATTTGGTTATAGGAGGTCAGGGAGGGGCCTCAATTCTACATTCCTAAGAAGCTCCTAACAGGCT
Celera SNP ID:            hCV11667403
SNP Position Genomic:     1063084
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(T,1)   his(C,3)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59297):
ATCACTGTGTAACTTCATCCAATACGTATTGAATACCTACTATGTGTCTGGCACCACTTCAGACAGTAAGGATATGGATATGAATTTGTATCAGTCAAGC
Y
TTCCAGGATCTTATTATCTAGAGAGAAAGATTAAAACATATGCAAATAATTTTGATAGAAGCAAAGACCTAACTCAGCCTGAGAGGAGGTTGGGTTTAGA
Celera SNP ID:            hCV15911889
SNP Position Genomic:     386900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59298):
CTTCTTCCCCCTACTTCCTTCTTATATCTGGCTATCTGGGAGAGAAAAAATTTAATACAATTGATTACTTTTTAGAAGAGTTAATTTTTACTTATTACTG
K
GGATTTTTTGTTTTTTAACAGTCACACCGAGGAGAAGACTCAGTGGGAACATCCAAAAACTGGAAAAAGAAAACGAGTGGCAGGAGGTTTGTATGTTGTT
Celera SNP ID:            hCV25762178
SNP Position Genomic:     14762
SNP Source:               Applera
Population(Allele,Count): afr(G,2|T,20)   cau(T,26)   total(G,2|T,46)
SNP Type:                 INTRON


Context             (SEQ ID NO:59299):
CTGAGTAGCTGGGACTACAGGTGCATGCCACCACACCTGGCTAACTTTTATTTATTTTTAGTAGAGAGGCAGTTTTGCTGTGTTGCCCAGACTGGTCTTG
R
ACTCTTGAGCTCAAGAAATCCTTCCACCTCAGCTTGACATTACAGGTAAGAGCCACCGTGTCCGGCCCCCCTTTCTTCTTTTTTAAAGTGGGGTATTAAG
Celera SNP ID:            hCV11668063
SNP Position Genomic:     686794
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,7|G,1)   afr(A,7)   his(A,7)      total(G,1|A,21) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59300):
ATCTGATAGGAAGGATTCACAGCTTTCCCCAAGAATACACCACAGTGCATACAAATCCTCGAAGCCGCAGAACTTTTTCAAGTTGAACTGTGAACTGTGA
T
TTTTTTTTTTTTTTAAGTAAGTTTACATGTAGAAGCTCATTGGTAGAGAGCTTTAGATATATTACTTCCCAGGGTGGTGCATCCTGTCACCATGAAGTAG
Celera SNP ID:            hCV11518083
SNP Position Genomic:     91848
SNP Source:               Celera
Population(Allele,Count): chn(T,5)   cau(-,1|T,5)   afr(T,5)   total(T,15|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59301):
AGTAAGCACAGTGGCTGGGATAGGACCTTGGCATCTCGTGCGAAGCCCCTCTGCCTGGAGTCCTGCCTCTGTGACACTTGCTTACTGTGTGACCTGGGTC
R
ACTCATACCTACTGTTCGTCAGTTTTCTCATCTGTAAAATGGGGATTCCAGTGGTTATTATGAGAATTAAATATGACGATACATAAATAGCACCTGGAAA
Celera SNP ID:            hCV11668069
SNP Position Genomic:     683842
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59302):
TCCCAGGTTCAAGTGATTCTCCCGTCTCAGCCTCCAGAGTAGCTGGGATTACAGGCACCCACCATCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGAT
G
GGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCTTGACCTCAAGTGATCCACCCGCCTCGGCCTCCGAAAGCGTTGGGATTACAGGTGTGAGTCAGAG
Celera SNP ID:            hCV11518085
SNP Position Genomic:     92216
SNP Source:               Celera
Population(Allele,Count): cau(-,4|G,2)   total(G,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59303):
AATTAACATTTTTATATTAGTTCCATGCTGAAATAATATTTGAGACATACTAGGTTAAATAAAATATCATTGAAGTTCATTTAATCTGTTTCTTTTTACC
T
TTTTTTTTTTTTGACACGGCTCCTGGAAAGGTTAACAATATGTAGGTGACCCTTTATTTTCATCAGACATTGCCGACCTAGAGGGTAACCACTGGAGAGG
Celera SNP ID:            hCV11518086
SNP Position Genomic:     92601
SNP Source:               Celera
Population(Allele,Count): cau(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59304):
ATGTAAGTGTAGCTCCAATGTGAGTTGTTACTTGTAGAGAACAGCTATGTCAAAACCACACCAAAAACGATTTGGAAAGGAAATAATTTGACTGGTCATT
K
TGTTTATCCATCAACTGAGTTGGATTGATATATTTTTCCTTTGGCCTTCAAAGGAAATTTGAGCATTCATTCATTCATCCTTTTAGAGAAATATTCTCTA
Celera SNP ID:            hCV8902352
SNP Position Genomic:     1101686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59305):
GGAACATGTGCTCTGTGTGCTGGAAGCTCCTGGAGGCCCCAGGGTTATCTCTGCTCACTTAGGTTTGTGATGTTGGGCAAAAGGAGAAAATGCTGAGTCT
R
TTCGGACCCAACTTCCATTAATGCCTGAGAAATAATTTAAATCGCAAGATTTCCAATCCCATAAGCAGCCCTAGCCTCTCTTCTCCTGATACTCCACATA
Celera SNP ID:            hCV8902355
SNP Position Genomic:     1103967
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59306):
GTTGCTGAGAGGTGGGGAGGGGGTGGGGGCTCTGTGCATGGAATGGGGGGAAAAGCTTCAGGGAAGGGCAGTGCAAATTGTTTCTGGACTGATGCCATCT
Y
TTAATAATAGTAGTTAATAGACTGGGTACAATGGCTGACGCCCGTAATCCCAGCGCTTTGAGAGGCCGAGGCCGGTGTATCGCCTGAGTCCAGGAGTTAG
Celera SNP ID:            hCV15894272
SNP Position Genomic:     569173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59307):
AGGTGTTTCTTATTTTTATCATTTTCCGTAAAGGTAGGATTGTGTTGACAGCCCTGTAATAAATGTCTCTTGGAAGAGATGTGTTGCTGAGAGGTGGGGA
R
GGGGTGGGGGCTCTGTGCATGGAATGGGGGGAAAAGCTTCAGGGAAGGGCAGTGCAAATTGTTTCTGGACTGATGCCATCTTTTAATAATAGTAGTTAAT
Celera SNP ID:            hCV15894273
SNP Position Genomic:     569091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59308):
TCTTCTTGTAAGGTGTTTCTTATTTTTATCATTTTCCGTAAAGGTAGGATTGTGTTGACAGCCCTGTAATAAATGTCTCTTGGAAGAGATGTGTTGCTGA
R
AGGTGGGGAGGGGGTGGGGGCTCTGTGCATGGAATGGGGGGAAAAGCTTCAGGGAAGGGCAGTGCAAATTGTTTCTGGACTGATGCCATCTTTTAATAAT
Celera SNP ID:            hCV15894274
SNP Position Genomic:     569081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59309):
CCATGCCCACCTTGCTGTTGCACCCCCCACCCCAAGGAAAGCCTTCCCACCTTTGGAAGCTGCATTAATTCTTCCAGGCCACAAGGGGGCCGTTGAGTTA
S
TGGTTCACTGCACTGGCTGGCAGGAAAGAGTTTTAATGCAGGCTCCAAAGGTGCTTAATTTCCTGTGGTCCTTATGAATATGCATACAGTATGTGCTCAG
Celera SNP ID:            hCV15911899
SNP Position Genomic:     386262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59310):
ATAGAGTTGTGTATTGTTGGGAACTAATTATATGTATTATAAATCCAAGAATTAATTTAAATGACCCAGTTTCCACAGAGAAAAAGCCACATTGTTTTTA
M
ATAGCTAACTAAACAAAATGCTAACCCATATGGGAGAAATTTCCAAAGAATTAAAACCACCCACCAGGAAAATGGGAAAGTCTCCCCTCCACACACACAC
Celera SNP ID:            hCV179682
SNP Position Genomic:     241907
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,1)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59311):
ACATCGCATAAAGATGCAGATTTGATTCCCCCTTTACTCACACTATAAAAACAAAGTTTTTAAAGTGGTTAGCCATACCTGGAAATGTAAATGCATTCGC
S
TAATGTAATGCCAAAGAAAAATTAAGACAAATGATACCACATCGCTGCCACAAACTGCGGCTCGTACAAAATTCACTTTAGTTATTATGCTGTGAATACG
Celera SNP ID:            hCV179683
SNP Position Genomic:     241375
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5|G,3)   total(G,3|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59312):
AGAATACATACTTCATAAGCAGGAGGCATATATGTTTGTATATATGTATGTACATAGACTTCATACACATGAAATAAAATTTCAAATGGTTCCTCTGTTC
M
GCAAACGTGACCCAAAGTTTTGGCTTATTTGGCGTTTTGTTTTCTTGAAGACATACTTGAATTTTAAATAGTTAATCCATTTAAGAAGTTTCATTTAAGG
Celera SNP ID:            hCV179685
SNP Position Genomic:     240956
SNP Source:               Celera
Population(Allele,Count): cau(A,4|C,2)   his(A,4)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59313):
GATGTTAATTGAGATATAGGAGTACTTCATTAAGTCTCCAGAATACATACTTCATAAGCAGGAGGCATATATGTTTGTATATATGTATGTACATAGACTT
S
ATACACATGAAATAAAATTTCAAATGGTTCCTCTGTTCAGCAAACGTGACCCAAAGTTTTGGCTTATTTGGCGTTTTGTTTTCTTGAAGACATACTTGAA
Celera SNP ID:            hCV179686
SNP Position Genomic:     240917
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   his(G,1)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59314):
TATTGTGAAATACCATTTGACCCAGCAATCCCATTACTGGGTATGTAACCAAAGGAATAGAAATGATTGTATTATAAAGGTACATGCACATGTATGTTGA
Y
TGCAGCAGTTTTCACAGTAGAAAAGACATGGAATTCACCCAATCCGAATTTTAACAAGTCTTCCATGTGATTCTGAGACAGACTCATGTTCGTGTGGTTC
Celera SNP ID:            hCV179687
SNP Position Genomic:     242854
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   afr(T,5)   his(C,1)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59315):
TTTCACCATGTTTGTCAGGTTAGACCGGAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGAATGAGCCACCACG
C
CCGGCTCAAATCCTTCTTACTTTTCCTCAAGAACTCACTTCCCACCCAAACCTTTCCTATTGTGGCAGCTGTTATCTTGTCCAGCACATGTGTCCACACT
Celera SNP ID:            hCV11518090
SNP Position Genomic:     96307
SNP Source:               Celera
Population(Allele,Count): cau(-,7|C,1)   total(C,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59316):
CACCCAATCCGAATTTTAACAAGTCTTCCATGTGATTCTGAGACAGACTCATGTTCGTGTGGTTCTGGCTCTGCAGAACTGAGGTGGGCCCCAAAACTTG
M
GTTTCTAAAAGGTACTAGCTGAGCATGATGACTCACATTTGTAATCCCACCACTTTGTGAGGCCGAGGCGGGTGGATCGCTTGAGGCCAGGAGTTTGAGA
Celera SNP ID:            hCV179688
SNP Position Genomic:     242990
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,3)   afr(C,3)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59317):
GAAGGCCTAGGAGGTGCAGGGATGTTTATATGGGCTGCTAGCGCTTAGTTTCCTGCCACAGGGAGACAGTAAGAAAGGTGACGTCAATCTGAGATGAGAG
R
GAGAGCAAAACAGTTCTTTTGACCACCTTGACCCCGACCTTGAAATAAGGTGGAACTAATAAATCCCGCTTTGTGCTGGAGCAAGTTTTGGCTGAGTTTC
Celera SNP ID:            hCV11518091
SNP Position Genomic:     96688
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,2|G,2)   his(A,2)      total(G,2|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59318):
TTGAAGATTTTGTGTTCAAGATTTGGAAGAGAATCTTCTTCCCAAGCCAGCATTTTATATTTTGCATTAAAAAAAACCACAAAAGACAAAAAAAAAAAAA
A
CAAAAAACCTTCACAGACAAAACCCAGGGCATATTTTAGGTGTGTTTAATTCGAAGCTCCTGATGTCTAGCAGGAACCTGGAACTTCCCTTTCTATTTTT
Celera SNP ID:            hCV11668077
SNP Position Genomic:     666393
SNP Source:               Celera
Population(Allele,Count): chn(-,7)   cau(-,7|A,2)   his(-,7)   total(A,2|-,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59319):
GCCACCTTTTGCCGCAGTAACAAACAATCCCAGACTCTCAAGGCTTGCAAAAATAAATGTGTGTTTGTTTGCTCATAACACATGTGGCTGAGGGTTGGCC
R
TGGCTCCACAGTCACAGGTGGGCTTTCCTGGGCTCAGCTTCTCACAGCGTCTCCTTGCAGGGCCCAGGCTGTAGGAGATGTCATCAGGGCCTGCAGAGGG
Celera SNP ID:            hCV11518094
SNP Position Genomic:     99363
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(A,2|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59320):
CAGGACTGAAGAGATGATATTGATTCTCACTTGATAGAGGTTAGAAAGGGCCTCTCCCTTCCCTAGCTGAATAGAGAGGGTTTCCTTTTTCTTTTCTTTT
Y
TTTTTTTTTTTTTAAATGGGAAACTTACAGGGAATAAGATCTGTTTCTTCATTTGCTTTGCAAGAGAGTTGGATTTGTACACGATGCCTGAGCTGGCTCG
Celera SNP ID:            hCV8902362
SNP Position Genomic:     1108795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59321):
TTGCTCAGTTACTTTTTTCCTGTTTTTTTTTCACTTTTGTCTTCCTGACTTTTTTCTTCCATCCCTATTTATGAAAACAAAAAGATAACTAAATTGAAAC
S
TTGACAATGTAATTTGTCAGAGGAAGGCAGCCTGTTTTATAAGCTCAGGTGATTTCATTTTTGTTCACCTGTTTATTTCATGACACTTGCAGGAAAAAGA
Celera SNP ID:            hCV8902365
SNP Position Genomic:     1109254
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59322):
TTTATGTTGCTATTGTATCGTAAGGTTCTTCTGAAGCGACCACTTCATAACACTGTGTAGTCCAATCCCTAAGCTGGGCAATTTTTTTTTCCCCTTTCAA
W
ACATCACATTGATTTTCTGTATGACTTTATCTGCTTAATACAAAGTGGGATTGAACAGTTATTTGTCTGGATTTGATCATTCCTTATTAAACATTTATGA
Celera SNP ID:            hCV15894280
SNP Position Genomic:     568861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59323):
AGGCAAACAAAAGAAGCCACAACAGTCTAGGAAGAAATCTTTAATTTCTATTCAGCTTTAAAGAGTTTGAGAGCGTTTTTTCCCCTCTGTTAACAAACGA
S
TTCAAGTACATGCCTTCATATTATAAAAGTACCTGAAATTGCCTAGAATAGCAGCATGCATAGCTTGTTAGTATTTACATATATTTACATAGGGAAACAA
Celera SNP ID:            hCV8902366
SNP Position Genomic:     1110145
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59324):
GCTCTCTGAGCCAATAAAAGAAGCTATATTCAGCACTGGCTGTATAAGATCTTTAATGTTTTAGGCTGTCAATGTTGGCTGTGGTTAGGCTGACATAATT
R
TGAGCTGCATGTACCAATATATAGCTCTTTACCCACAAAAGCATGCTGCAACGGGGAATCTTTCAGAGATAATAAAAGGATTCATCAAGTGTCTATACGA
Celera SNP ID:            hCV15894282
SNP Position Genomic:     961607
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59325):
AGCCTCTGACTTGCAAGGTGTGCTTCAGAAATTTGCAGCTTCTATTTAGGTAGGAAGAGTTTGCCAGCCCGAAAACTCCAGTAAGCAAACAGCTTTATAG
Y
ACCCCAGCCATAGAAAGTGAGAGCTTTCGAAGAATCTGTGGTTAGAACTAAGAGGATTTTTCTTTCTCCTTTTTCTGCTGTTATTATCTCAAGGAGAGAG
Celera SNP ID:            hCV15894289
SNP Position Genomic:     961336
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59326):
AAAGATAGTGTGCATGCCTCATCTCTAAGGGGCAGCCATTATTGACGTCCAGCTGAATGTTGCCACGTGGAAATTAGCTATAAACTTGCCAGAACCTCCA
R
TTTTTCTGGAGAGATTAGATTAGAAATTCATATATTTTTAAATATTAAATCATCCCTTTTTCTTGAGATGGTGTCACGTCGTTGCCCAGGCCACCGTTTA
Celera SNP ID:            hCV11667421
SNP Position Genomic:     1058053
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,3)   his(G,3)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59327):
GCTAAATCTATGTCCCCAATATAGGGAAGACAGGAGAAAGTGCCAAAGATAGTGTGCATGCCTCATCTCTAAGGGGCAGCCATTATTGACGTCCAGCTGA
R
TGTTGCCACGTGGAAATTAGCTATAAACTTGCCAGAACCTCCAGTTTTTCTGGAGAGATTAGATTAGAAATTCATATATTTTTAAATATTAAATCATCCC
Celera SNP ID:            hCV11667423
SNP Position Genomic:     1058009
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   his(A,4)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59328):
GCCCTGTTAATAATTCATAATTATATAGCATAGCATAGGGCAGTTTCAGATGCTTCAACTACCAGGTAGGTAGAATAAAGGAATGAAGTTGCTGTGTATA
S
GATGATAAATGGTGCTAAATCTATGTCCCCAATATAGGGAAGACAGGAGAAAGTGCCAAAGATAGTGTGCATGCCTCATCTCTAAGGGGCAGCCATTATT
Celera SNP ID:            hCV11667424
SNP Position Genomic:     1057895
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,2)   his(C,5)   total(G,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59329):
CCTTTCCCAAACCATAGATTCATGGAACTGTCAAAGAGCAGCACTGAACTTTGTACTCAATGCCTTAATTTTTCCAGTTGAGGATAATTCACACTAAACA
W
GGGATTTCACCTCTCTGACTCATGCATCAGGAACTTGGAGATAAAGCCCTGTTAATAATTCATAATTATATAGCATAGCATAGGGCAGTTTCAGATGCTT
Celera SNP ID:            hCV11667425
SNP Position Genomic:     1057749
SNP Source:               Celera
Population(Allele,Count): cau(A,4|T,1)   his(A,4)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59330):
TTGGCCATTGCCCACTAAGAAAATTTAGGTGGTTTTTATTGGGATTAGTGGATGAACTTAGGATTAGTGTGGCCCTTCCTTGAGATATAATGACAACCTT
S
GTGAAAGCAAGACCACAGGGCCTATCTTCAGGGAAGTGCCTTGCATTTTAATACCAACCATGCCACGTGTATGTGTTTCCTGGGCCTGCCATAACAAATT
Celera SNP ID:            hCV8444073
SNP Position Genomic:     728028
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   his(C,1)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59331):
TTCGTCCTGAAATCCTCCCTGCTCACAAAACAGCCAGCTACTTGGTTTTCTAAAAGACGTAATTTTGCAGGCAGACTTCGTAGAGCCATTCTGTGCAGAA
S
AAGGGAAGGGAGAAGCTGTTTGTTTTACCTGTAGTATGAAGATATTCTTTGCGCTGTTAGAACTGAGCTCATTAATTCTGCCTGGCAATAATTTCAAAGG
Celera SNP ID:            hCV8902370
SNP Position Genomic:     1111159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59332):
TATTAAATAAAATGAACACTGGGGTATTTCGCTCCAAGTTTGGTGTTCATTATTTATCTCTAAATTATGATATTCATAGAACAACTCCTTGCTTTTTCAC
S
AAGAATCTAGAATCTAGAATTATCTGAGCGTTCGCATCAGATAACTAGGAAGAAATCAGAGTCATTTTCTCTCTAAGGCAGGCTCGATGATACCTGCACA
Celera SNP ID:            hCV2851600
SNP Position Genomic:     1017188
SNP Source:               Celera
Population(Allele,Count): chn(C,10)   cau(C,10)   afr(G,1)   his(C,10)   total(G,1|C,30) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59333):
TTTTTCTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGTTCTTATGCCGAGGCTGGAGTGAAGTGGCACCATCTCTGCTCACTACAACATCTGCCCCC
Y
GGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGATTCTGGGTGCCCCCCGCAACCATGTCCCACGAATTTTTGTATTGTTAGTAGAGTTG
Celera SNP ID:            hCV2851601
SNP Position Genomic:     1014357
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,1)   his(C,3)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59334):
GGAAAATGTGATATGACAGACTGGAACCAGCACAGGGACGCAGCCCCTCACCTGCTGGGGGTCTTTGGGTGGGTCCTGTAGCCCCAGAGCCTCTCGATGA
S
CTATGAACAGGAACAGAACCAGCACCCCGAGTGGTGACAGTGACAAAAGGGTCCTCAGTAACAGCAGTCTGCTATTGTTTTGAATCATTCAAAGGAATTT
Celera SNP ID:            hCV2851602
SNP Position Genomic:     1012613
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,7)   cau(C,7|G,2)   afr(C,7)      total(G,2|C,21) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59335):
CAATTTCCTCATGATACTGGAAGGCAGTCTCCGGTCAGCACGGGGCTGGGTCTAGAGTTTTCAGTTCACAAAAGTGGAAAATGTGATATGACAGACTGGA
W
CCAGCACAGGGACGCAGCCCCTCACCTGCTGGGGGTCTTTGGGTGGGTCCTGTAGCCCCAGAGCCTCTCGATGACCTATGAACAGGAACAGAACCAGCAC
Celera SNP ID:            hCV2851603
SNP Position Genomic:     1012538
SNP Source:               Celera
Population(Allele,Count): chn(T,5)   cau(A,4|T,5)   afr(A,4)   total(A,8|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59336):
GCGCTGTTAGAACTGAGCTCATTAATTCTGCCTGGCAATAATTTCAAAGGTTTATTTTGGTGTAGATGGCGAATACAGATGCATACATTTATACGCAGTA
Y
ACGAGCTAGCTATAACCATAACAGAGGTTAAAGAAGTAGAGTAAAAATGTAAAATGTTTCAAATAAACACACACTAAATATCTTCTTTTATATCTTATAA
Celera SNP ID:            hCV8902374
SNP Position Genomic:     1111310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59337):
GGGGTCAGGGGGAGGGTGCACCTGTCCGCCACCCCAATTTCCTCATGATACTGGAAGGCAGTCTCCGGTCAGCACGGGGCTGGGTCTAGAGTTTTCAGTT
Y
ACAAAAGTGGAAAATGTGATATGACAGACTGGAACCAGCACAGGGACGCAGCCCCTCACCTGCTGGGGGTCTTTGGGTGGGTCCTGTAGCCCCAGAGCCT
Celera SNP ID:            hCV2851604
SNP Position Genomic:     1012504
SNP Source:               Celera
Population(Allele,Count): chn(C,7)   cau(C,7|T,2)   afr(C,7)   total(C,21|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59338):
TGAGGCTAAAATAAGCTGCTTTTAGTATCACATTTGGCAAGTAGTAAACTCTGGATAAATATACTTTTGAATTGTGTGATTATTGTTGTTACCATTTATT
R
AAAGGGAATGATGAATGTAGTGAGAGAAGGAAGGAAGAGAGAGAGGGAAGAAGGGGAAAAAGAGGGATGGAAAGGAGGAAGGAAGGAAAGGAGGGAGGAG
Celera SNP ID:            hCV16083115
SNP Position Genomic:     965871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59339):
ACCTACAGAAAAAAATGCCAAGAATGCACGCTGGGAATTCATTAAGAGATTTCAGGACGTTGAAATACTGTGTGTACTTGCAATCCCCACTTGACCAAAG
S
TGTCCAAACCTCGACAGACAGCGGCCAGAGAAGGCCCCATCATAGACTCTGCGCCTGGCTAATTACTCAGGAGCAAAGCAGGTCGTTAGGGGTCAGGGGG
Celera SNP ID:            hCV2851605
SNP Position Genomic:     1012315
SNP Source:               Celera
Population(Allele,Count): cau(C,5|G,2)   afr(C,5)   total(G,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59340):
GTCAGTAGCAGGCCACCAAGAGCCATCCCACCTCAGAAAGACAGAAGCCATCACTGCAAATGGCAAGGGCATGAGGCAGTTTGAAACTGGCAAAACTGGA
S
CTTTCATGGAATCCAGGGCTTGAGCTTTAATGCTTTACACTTTTGTTTTTTCATTCCATACGCTTTTGCTTTAGCTTCCTGGCAAAATTCAGACAAACCT
Celera SNP ID:            hCV16083116
SNP Position Genomic:     949171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59341):
ACAGTTGATCTAACTGATTCATGGGGACCCTGGGAGTATGTTTGTGTATTTGGGGGTTGGGATGGGGGGGTGGGTGGAGGGTCAGAGAGGTGGCAAAAGC
R
GGTGGGAACAGGGTTACAGAGCAAAGTAATTAGATGCCCTTTAGATGCTCTTAGTTAAAGACCATGCAAAAAGGATGAAATCTTTTGATCATGTTCTTCA
Celera SNP ID:            hCV15894290
SNP Position Genomic:     960459
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59342):
TTGGAGACCTACAGAAAAAAATGCCAAGAATGCACGCTGGGAATTCATTAAGAGATTTCAGGACGTTGAAATACTGTGTGTACTTGCAATCCCCACTTGA
S
CAAAGGTGTCCAAACCTCGACAGACAGCGGCCAGAGAAGGCCCCATCATAGACTCTGCGCCTGGCTAATTACTCAGGAGCAAAGCAGGTCGTTAGGGGTC
Celera SNP ID:            hCV2851606
SNP Position Genomic:     1012309
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,3)   afr(C,4)   total(G,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59343):
GCCTTGCTGAGGAAATTAAATTCCTGTTCGAGTGCTATTTCTTTATGGCACTGAGGAGCAAGCATTTCTAACAATCATATTGCTTAAGAAGTGGATGGCA
R
GAAGATAATTACTAATATGTCTGCAATTGATCTGAAATTGACACAGTTGATCTAACTGATTCATGGGGACCCTGGGAGTATGTTTGTGTATTTGGGGGTT
Celera SNP ID:            hCV15894291
SNP Position Genomic:     960316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59344):
TGAGTCCTTTTCAGAGAGTCATTTGGAGACCTACAGAAAAAAATGCCAAGAATGCACGCTGGGAATTCATTAAGAGATTTCAGGACGTTGAAATACTGTG
Y
GTACTTGCAATCCCCACTTGACCAAAGGTGTCCAAACCTCGACAGACAGCGGCCAGAGAAGGCCCCATCATAGACTCTGCGCCTGGCTAATTACTCAGGA
Celera SNP ID:            hCV2851607
SNP Position Genomic:     1012287
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,5)   afr(T,5)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59345):
TGTGCTGACAACTATAAATTGATGGCTAGCAGTTATCAAATGAATGTTGATGAAAAGCAGCTACTTAACATTTTCATCCCAACACCGAGTTTTGGAAGGA
Y
GGATAATTTAGATCTGAGGGCCTCAACTATAAATAAACAGCAACTGCTTTCTAAATCCCACCTTTCTGTAGTTGAAGATTGTGCTGCAAATCTGACAGAT
Celera SNP ID:            hCV8902378
SNP Position Genomic:     1115418
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59346):
ATCAAAGTTGAAAGAATTTTACAGCGAACCACCATTAACATTTTGCTATAATGGCTTTATCATATATCCATTCATCCGTCTATCATATTTGTAAAACAAA
Y
AATATTTTAATGCCAAACATATACAAAGGATAGATCAGTAATTTCCGAGAAATATTAGTTGACAACTTGACATCAAATTATGTACGGTTAAGTATTGATA
Celera SNP ID:            hCV2851608
SNP Position Genomic:     1011931
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59347):
AAGGGAGGCTGGGAAATATAGTTTGCTGTGTGCTGGGTGGGTGGGAGGGAGCGTCCACATTAGTGAACAGCCAGGCAGTCGCTGCCTCAAATTTCTTTAG
K
GTTATCCTTTCATTCCAGCAATTGAATTTGATTTGCACTGTTTCACTTCTCTACAAGGGTGTAAAAAGTAGAGGTTCCTCTTGAAAGAATTTCCTCCCCA
Celera SNP ID:            hCV15894299
SNP Position Genomic:     959081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59348):
CAACTTCTACATATATCTAGAAATATGATTGAGTTTTGTGTGTTGATCTTGATCCTATGAGCTTGCTGATTGCATTTATTATAAAGTTCCAGGAGTTTTT
T
ATTTTTGTTTGTATTTGTTAGTTTTTTTGAGATTTCTTGGGATTTTCTATCTAGCCTGTCATGTCATATGCAAATAGAGAATTTTATTTCTTCCTTTATA
Celera SNP ID:            hCV11667434
SNP Position Genomic:     1056358
SNP Source:               Celera
Population(Allele,Count): cau(-,2|T,1)   total(T,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59349):
TGGCCATTGCCCACTAAGAAAATTTAGGTGGTTTTTATTGGGATTAGTGGATGAACTTAGGATTAGTGTGGCCCTTCCTTGAGATATAATGACAACCTTG
S
TGAAAGCAAGACCACAGGGCCTATCTTCAGGGAAGTGCCTTGCATTTTAATACCAACCATGCCACGTGTATGTGTTTCCTGGGCCTGCCATAACAAATTA
Celera SNP ID:            hCV8444083
SNP Position Genomic:     728029
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   his(C,1)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59350):
CCTTGGCTTGGAAACACCACATTCTAATCTCTACTTCCTCCCTTACATCACCTTCTCCTCTGGCTTTGTGTCCTTTCTGTCTCTTACAAGGACACCAGTC
R
TTGGACTTAGGACCCACCTAATTGAGTATGATCTCATCTCATTCCTTATCTTAATTACATTTGCAAAGACCCTGTTTCCAAATAAAGTCACATTCGTTGG
Celera SNP ID:            hCV8444084
SNP Position Genomic:     728395
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   his(A,3|G,1)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59351):
TTTTAGTCAGGGTACATAAGTGTCAGCTGCTACGACAAACAACTTGCAACGTCTCATTATCTTCATACAACAAACGCTGATTTGTTCCTTTCATTACATA
Y
CCAGTGTGAGTTGGCTGGAAGGTCCACCCTACACAACCACTCGTGAAGGCAGACTTGAAGGGGACTCCACTGTCTTGGAGCTACACTCTAAAACAAATAG
Celera SNP ID:            hCV200404
SNP Position Genomic:     249475
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,1)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59352):
TTATGAGGGAGGCTGAGATGTGAGAAGCACATGGGTGTTGGGAGAGCACTAAAGGTCTCTAGCCCAGAAGCATGACTTCCAGCCAAGTGAGACAGGGAAG
S
CCAGAAAAATGTGTCACAGAACTTATGGCATCAGAATCTGATTCCCAGGCATGCTTTCCACCATATGCATAGACATTTGCACCCCAGGGATAGCACCATT
Celera SNP ID:            hCV200405
SNP Position Genomic:     249799
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59353):
TTGTACAATTATTTGAGTATACTAAAACAGCTGTACAGTATACATAGGTAGATTTTATGGTATGTGCATTATATTTCAGTAAAGTTCTTTAATAAATTAG
Y
TAATGCTTATTGTAGAAAAGTTGGAAAATACCAAAAACCATAAACAGGAAATAGGAAAAAAAGTAATCCTGACTGTATATCTGGAAATCTTTTCGTGGGG
Celera SNP ID:            hCV201062
SNP Position Genomic:     327651
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   afr(T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59354):
TTCTAGGCACATTAAACGGTCAGTGCACAGGTCCTCATTTTTCTCATGCTTCCATTTCCATATTCTCAATCAATCACTGATGGCCAGCTGTCAACAGGCA
Y
CATTTTTGGTGGGACCTGAAGATGTATATCCCTTGTTTTCAGATTCCTCGCCTCTCATCATGTAAGGTGATGCTCTGAGCTGGGTCTTAAAGCTTCTGGG
Celera SNP ID:            hCV200406
SNP Position Genomic:     250600
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59355):
GTACACTGATGGTGTTTTGGGAATAAGAGTGTAGGTAGATAGAGGGTGGCTAGTGATTGCTAATTTTTTTTTTTTTTTTTGAGTTAAAAAAGTGCTATAA
W
ATTAGAATGTAGTTATGGTTGTACAATTATTTGAGTATACTAAAACAGCTGTACAGTATACATAGGTAGATTTTATGGTATGTGCATTATATTTCAGTAA
Celera SNP ID:            hCV201063
SNP Position Genomic:     327532
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(T,1)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59356):
ATATGCACCCGGCTAGGGACCTCTTTAATGGTCATTCATTTGGGAGATGACCTTTGGTTCCTAAACTGGTGGACATACCAAGGACTAAAGGAGTGACTTG
Y
TCTCAGTTCTTTGTCATTCAGCTGCTTTAATATTAATATGACACCCGTTTTGGGCTTGAAAAGTTTTCCTTCTGCTGAGAAATGATGATGGTGACAATGA
Celera SNP ID:            hCV200407
SNP Position Genomic:     250959
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,2)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59357):
TAAAATGTCCGGAATAGGCGAATCTATAGGACAGAAAGTACACTGATGGTGTTTTGGGAATAAGAGTGTAGGTAGATAGAGGGTGGCTAGTGATTGCTAA
G
TTTTTTTTTTTTTTTTGAGTTAAAAAAGTGCTATAAAATTAGAATGTAGTTATGGTTGTACAATTATTTGAGTATACTAAAACAGCTGTACAGTATACAT
Celera SNP ID:            hCV201064
SNP Position Genomic:     327495
SNP Source:               Celera
Population(Allele,Count): cau(-,4)   afr(G,1)   total(G,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59358):
ACGTATTGTATGGTTCCATTTAGTATATAAAATGTCCGGAATAGGCGAATCTATAGGACAGAAAGTACACTGATGGTGTTTTGGGAATAAGAGTGTAGGT
R
GATAGAGGGTGGCTAGTGATTGCTAATTTTTTTTTTTTTTTTTGAGTTAAAAAAGTGCTATAAAATTAGAATGTAGTTATGGTTGTACAATTATTTGAGT
Celera SNP ID:            hCV201065
SNP Position Genomic:     327468
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59359):
CTGTTCCTGAGGCCCCCACTGGGAACCCTTAGCTGGAGAACACCCGTTTCATTATGGAACATGGAGAAAAGGGTGATTGTCAGCTCCAATTTATTCCATA
M
TATCTGATTCAATCTGTAGTTTGACTTTGCTAAAGGAATTAATTTTTAAGATCTTAACAAATCCAGTAACATTTAAAATGACCTATCCAGTCCATGCATA
Celera SNP ID:            hCV2851610
SNP Position Genomic:     1011035
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(A,1)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59360):
GAAAACAGTTTGGCCATTATTCAAAAAGTTAAACATTGAATTACCATATGACCCAATAATCCCACTCCTAGATGTATCTTGAAGAGAAATGAAAACATGC
R
TTTCCATAGCATCTTACAAATGAATGTACATAGTAGTGATATTCCTAATAGCCAATAAATGGAAACAATCCAAATATCCATCATTGGTGAATGGATAAAC
Celera SNP ID:            hCV201066
SNP Position Genomic:     327137
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59361):
GGGAAATACTTACAAATTAAATATTAAATAAGGGATTTGTATCTAGAATAAAGAACTTTTACAATTCAATAATGAAAACTCATTTAAAAAATGAGCATAA
R
ATCTAAATAGATATTCCTCCAAATATGATACACAAATTGCCAATGAATACATAAAAGATGTTCAATCTCATTAGGGAAATGCAAATGAAAGCCACAATGA
Celera SNP ID:            hCV201067
SNP Position Genomic:     326813
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(A,1)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59362):
CTTTCTCTGTTACCTTCGGAGGAAGCCTTCTCTAGATACCATCTTTAAAACAGCAATCTTCCTTCTCCATCCCCAGCAGCACCTCTGACCCCCTTCACCT
S
CTTTATTTTTCTCCATATTATCATTGCCATCAATCCAAGCACAATTTCCAGTTACTTACCCATTTTGCTTTCTCCCCGCTCTTTGAGAATGCTGGCTCCA
Celera SNP ID:            hCV2851613
SNP Position Genomic:     1004082
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(C,2|G,3)   his(G,3)   total(G,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59363):
AAGTCCCTTTGAGGTGATTTCTGGTCCACAAATTGAGGCAAAATAATCCTCACAATTTCTTGGATATTCTCTGCCCCAGCCCCGTTCTATTGCAAAGGAG
S
CTTCTCTAAAAGGCTTCCCAATGCCTTAGAATCTACTTAAGGGTATTTTTGCTGGAGAAAGAGCTGCTGTCTTTGTCCACCTGTCGTTTTCCTTTCTACC
Celera SNP ID:            hCV2851614
SNP Position Genomic:     1002569
SNP Source:               Celera
Population(Allele,Count): chn(G,8)   cau(G,8)   his(C,1)   total(G,16|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59364):
AGTTAAACTTGTTCCTCTTCTCCAATCATTGATACTTTTCTCTCTTGCTTCCCCTCCCCCTGCCCTTCGACACAGAGTGACAGGCCTGAAGTAAAAAGGG
W
AAAGGGGAACCGAGTGACTCAGCCCAGAGTGGGCCTCACCGCAGCTTCCTGGCCACTTTCTCGCTCTCTCCTTCCAAGAGAGAAAGGGGAGGAAGCCCAG
Celera SNP ID:            hCV2851615
SNP Position Genomic:     1001296
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(T,3)   afr(A,2|T,3)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59365):
GGTATTTCCTGGCAACCTTTGGTGTTTGGGGCATGTTGTCACCTCATTGCCATCTCTGCCTCTGTCTTCTCACCACCATCTTCCTTGTCCATGTCTCTCT
R
TGTCTTCAATGTTCTTCTTATAAGGACACCAGTCCTTGGATTTAGAGTCCACCCTAATTCACTGTAATCACATCTTACCTAAGTCCATCTGCAAAGACCC
Celera SNP ID:            hCV16083126
SNP Position Genomic:     913080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59366):
TGTAGGTTCCGTATCTCCCTGGAGAAGCACCAGCAATTCTCTTTCTTTTACTGTTATAGAATAGCCTGAGGTCCCCTCGTCCCATCCAGCTACCACCACG
R
CCACCACTGCAGCCAGGGGCTGGCCTTCTCCTACTTAGGGAAGAAAAAGCAAGTGTTCACTGCTCCTTGCTGCATTGATCCAGGAGATAATTGTTTCATT
Celera SNP ID:            hCV8902386
SNP Position Genomic:     1119617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:59367):
AAACAAAACAAATGTCACGGTGTGGTTGGGAGGAGGTGGGGAGAGAGGCAGATTTTGGAGGCGAAAGATACACAGAAACACTAAATACCTGTCTATTAAT
R
CTGACAGTAGTTGCGTTTAGGGGATGAGACTCTAAATTTGTTTATTTAAATTTTCTCATTTTAAAAAATGAGTCCTTTCAATTATGAGATCAAAAAGAAA
Celera SNP ID:            hCV2851616
SNP Position Genomic:     1000755
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   afr(G,1)   his(A,5)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59368):
ACAGAGACAGATGTATGTACCTTTCATGGACATAATTTCCCCAAGACTGAACACAAAAATGAGGGTTTTTGGAGATCTCTCTGGAATTAATGTAAACGTT
R
TTGAAAACATATTATTCTATGGCTCCTTCATAAACCCTAGGCCATCCCGAGGCTGTCTCACTCAGGCCCCTCAGCCCTCATAACCCCCCAGCTCCATAGG
Celera SNP ID:            hCV2851617
SNP Position Genomic:     1000229
SNP Source:               Celera
Population(Allele,Count): cau(A,2)   afr(A,2)   his(G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59369):
TCATTACATGTGTGTTTAGCCCACCGATTATTAAGGCTTTAACAATATTAAAACCTAAAGAGATAACAGAGGGGAAGCCTTTGGGAGCTAGGAATCAATC
R
TGCTGGGTGGCTTGAAAACAGGGCAGTAAAATGGCAGCCGCCTAGCCTGTGGTCTTTAATATTAATAAAGCCAGAGGCGATATCACTTAGTTGTTCCAAC
Celera SNP ID:            hCV2851618
SNP Position Genomic:     999780
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(A,1)   his(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59370):
TCTCCTACTTAGGGAAGAAAAAGCAAGTGTTCACTGCTCCTTGCTGCATTGATCCAGGAGATAATTGTTTCATTCATCCTGACCAAGACTGAGCCAGCTT
R
GCAACTGCTGGGGAGACAAATCTCAGAACCTTGTCCCAGCCAGTGAGGATGACAGTGACACCCAGAGGGAGTAGAATACGCAGAACTACCAGGTGGCAAA
Celera SNP ID:            hCV8902389
SNP Position Genomic:     1119744
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:59371):
TTGGTGTCTAAAGCCATGCTCAGTATATAGTTATATATTTCATTCATTCATCCGTTCATTCAGTTATCTCACGTTTCTGGAGGGCCCTCTATGTGCAATA
S
CTAGTGATACAGCAGTGAACAAAGGAAATCCCTGCCCTCAGGGAGCTTTCATTCTACTTGGGGAAAGAGACGTGAAAGAAATCAAGACATGCAAGCAAGG
Celera SNP ID:            hCV2851619
SNP Position Genomic:     997891
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   his(G,1)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59372):
GAGCTATTTTGGAAATTCTGCACCTCAATTTCTAAAAAGTTGGAAGGACAGGAAAGGGGAGCTGTGTTTGAGATCTCAGAAATCTGCACCCCACCTTGCT
R
TCCACCACTGGTATTCCGTCAGTCTTACTACCCCCTCCCACCTCTAGCCCACCCTCTACCATCCTCACCAGGAAGGAGGCTGCATTCATTTCAAGAACTG
Celera SNP ID:            hCV2842800
SNP Position Genomic:     688796
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(A,1)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59373):
GTGTGTGTGGAAAAAAGGGGCTTTAATCAAGCTATAAATATCTGTTTCTTTGAAGTTTTATGACCAACAATTAATGTTACTGGAAGGCCCATAAAAAGGG
Y
TGTTTCTTGACTTGGTGGGTCTGAGTGGGCCAGGGTCGGGTTAAGATGCTAGCCTCGTGGGGTGCCATCCTGACAGATTCTACTGTGTGCGTGTGTGTGT
Celera SNP ID:            hCV2851621
SNP Position Genomic:     997649
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,1)   his(C,4)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59374):
ACTGGTGTGGCCGAAGGAGTGCCGTGACTCCTCTGCCACCTCTCCACATTTGGAAGATTGTTTTGCAGCTGCAACCTCAAAACAGAAGCCTCCTAATTAC
S
AGGTAGCTTTCTAGAGCCAAACAAATGCTGTTGTTTCTGACAGGTAAATCAAGACAGGGAAATGATGACACATTCACCACAACTGAAGTGTTGATGGGGT
Celera SNP ID:            hCV2842801
SNP Position Genomic:     688509
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5)   afr(G,1)      total(G,1|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59375):
GGTGATGTTTGAACTTAAGAATCAAAAACAGTGCAAGCGCTGCATGGGGGAGAACAGTCTAGGCAAGGTGAACGGAAGTGCAGGGTCCCTGAGGCAGAAA
R
GAGCTCAGCCTCTTTGTTAGCTAGAACAAGAAAGGGGCCCGTATGGCTAGCATAGGATGGGATAGGGGATCGTGGTGGATACCAGCTAGGATTTCACTGT
Celera SNP ID:            hCV2842802
SNP Position Genomic:     688158
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   afr(A,2)   his(A,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59376):
AAACTGGTCCTTGTGGAAGCAACTTCGGGGGAGGAGGAAAGACAGGGAAGACCATTTTAAGGAGGTGATGTTTGAACTTAAGAATCAAAAACAGTGCAAG
Y
GCTGCATGGGGGAGAACAGTCTAGGCAAGGTGAACGGAAGTGCAGGGTCCCTGAGGCAGAAAGGAGCTCAGCCTCTTTGTTAGCTAGAACAAGAAAGGGG
Celera SNP ID:            hCV2842803
SNP Position Genomic:     688095
SNP Source:               Celera
Population(Allele,Count): cau(T,4)   afr(C,3)   his(C,3)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59377):
AAGGCCTCTGACTTAACAGGACTTCCGTGATGCGGGGGAAGAAGACAATAGGCAAGTAAGCAAGTAAATATACAAGATAAATAGAAACTGTGATGAGGGA
R
TTAAAGAAATTAAACTGGTCCTTGTGGAAGCAACTTCGGGGGAGGAGGAAAGACAGGGAAGACCATTTTAAGGAGGTGATGTTTGAACTTAAGAATCAAA
Celera SNP ID:            hCV2842804
SNP Position Genomic:     687983
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   afr(A,3)   his(A,3|G,6)   total(G,12|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59378):
TCATGTCATCCTTTGGATGTCTTGCAGAGCTGAGTGCTGAAATAAAATGATAAACAAGTCAAAAACAAAAAGGCCTCTGACTTAACAGGACTTCCGTGAT
K
CGGGGGAAGAAGACAATAGGCAAGTAAGCAAGTAAATATACAAGATAAATAGAAACTGTGATGAGGGAGTTAAAGAAATTAAACTGGTCCTTGTGGAAGC
Celera SNP ID:            hCV2842805
SNP Position Genomic:     687914
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(T,3)   his(G,5|T,3)   total(G,10|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59379):
TTCTCTTCTCCTTCCAAGAAAAAACACCCATACCATTCTTAACATCTCTGGAAGCTGGGGGTCAGGAGAGGGAGATCCATAAAGTTCTTGTCTTCCCCGA
Y
TCAAGAAGCTTAAGGGTACATTCACTCACTCATGAATTGACTGGTTTATTCATTCACTGGTTGATTAATTCATTCATTCACTGGTTAATTAATTAATTCA
Celera SNP ID:            hCV2842806
SNP Position Genomic:     687716
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   afr(T,1)   his(C,6)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59380):
TCCCCTCCTCTCCAGCCCTCACCTGGTTTTCTCTTCTCCTTCCAAGAAAAAACACCCATACCATTCTTAACATCTCTGGAAGCTGGGGGTCAGGAGAGGG
R
GATCCATAAAGTTCTTGTCTTCCCCGACTCAAGAAGCTTAAGGGTACATTCACTCACTCATGAATTGACTGGTTTATTCATTCACTGGTTGATTAATTCA
Celera SNP ID:            hCV2842807
SNP Position Genomic:     687688
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   afr(G,1)   his(A,5)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59381):
TGGTGTGGCCATGGTTCTCGTACTTCAGGTCCCTGTGAGCCCCTGGGGTCCTACACAACTTGGGGTAATGCTATGGTCACCTGCATCCCCTCCTCTCCAG
Y
CCTCACCTGGTTTTCTCTTCTCCTTCCAAGAAAAAACACCCATACCATTCTTAACATCTCTGGAAGCTGGGGGTCAGGAGAGGGAGATCCATAAAGTTCT
Celera SNP ID:            hCV2842808
SNP Position Genomic:     687603
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5)   afr(T,1)   his(C,5)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59382):
TGCATAGACATTTGCACCCCAGGGATAGCACCATTACTCCCAAAAATTGCAGGTTTGAAAGGGTACCTAAAAACAAGCCACCAGATTGTCCCATTCCACT
R
TCATTCTGCCATCAACACCGAGGTGTCGGAGTAGCAGGAGAGCCACATATTTCTTAGTGAGGGGACCCAGAATGATCCCTTTTGTGCTAGAGGATCTGAG
Celera SNP ID:            hCV11510929
SNP Position Genomic:     249965
SNP Source:               Celera
Population(Allele,Count): chn(A,5|G,1)   cau(A,5)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59383):
GGGAAGGAGAAGGGCCTTTGGGACTGGGTGGATGTAACACTTTCTGCCACCTCTACTCTTCCTGCTATAGATTAAAACAGAAGCTCTGAATTGCAGCCAC
W
AATCAATAATGAAAAGCTACCAGACCAAGCCCTTTCTTGTTTAGTGTTGTGTCTTCTGTGTCAACATCTCTGGAACATAGTCAATGGCAGTACCCAGTAG
Celera SNP ID:            hCV2842809
SNP Position Genomic:     687360
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(T,1)   his(A,4)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59384):
TCATTTCAAGTCTTCCTACCTTTGCTCTGAGTTGTCCCACCTTTCCAGACCGAACGAGTGTTCATCTTGCATATGTTGATTGATGTCTCATGTCTCCCTA
G
AATGTGTACAACCAAACTGTGCTCTGACCACTTTGGGCATGTGTCATCAGGCCCTCCTGAGGCTGTGTCACAGGTGCACATCCTCAACCTTGGCAAAATA
Celera SNP ID:            hCV11667451
SNP Position Genomic:     1048778
SNP Source:               Celera
Population(Allele,Count): cau(-,3|G,2)   total(G,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59385):
CTGGAAGCCCCCTCCTCATTTCAAGTCTTCCTACCTTTGCTCTGAGTTGTCCCACCTTTCCAGACCGAACGAGTGTTCATCTTGCATATGTTGATTGATG
K
CTCATGTCTCCCTAGAATGTGTACAACCAAACTGTGCTCTGACCACTTTGGGCATGTGTCATCAGGCCCTCCTGAGGCTGTGTCACAGGTGCACATCCTC
Celera SNP ID:            hCV11667452
SNP Position Genomic:     1048763
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59386):
ATGAAAGCCAGCCGGGCACAGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCT
R
GCCAACATGGTGAAACCCTATCTCTACTAAAAATAACAAAATTAGCTGGGTATGGTGGTGTGCGCCTGTAATTCCAGCTACTTGGGAGGCTGAGGCATGA
Celera SNP ID:            hCV2813384
SNP Position Genomic:     150191
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   his(G,2)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59387):
GCCTGGGAATAGGATGGCAGGTCGTGGGACCAGCATTTTAATTACCTAAAGGGAACTTATTGATTTTAGTCCAGAACACGGTGGGGAGGAGTTCATATTC
W
TTTTTTTTTTGAGTCTGGATTTTAGAATAAATTCACTGTGTACATAGCTATTCCATCTTTAAAAACCTTTGTGAATGCTAATATACAGCCTTTATAAATT
Celera SNP ID:            hCV2813386
SNP Position Genomic:     141497
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59388):
CCTAACCAGGATGTGAGAGACATTCTTGTCCTAGGCAGCACGTTGGTGGCAGAGGTGGGATCTAGACTGAGGCTCTCATTCTGTACCCTCTCTGGCCCCA
R
GGAAGGAAAGGGGAAGGAGAAGGGCCTTTGGGACTGGGTGGATGTAACACTTTCTGCCACCTCTACTCTTCCTGCTATAGATTAAAACAGAAGCTCTGAA
Celera SNP ID:            hCV2842810
SNP Position Genomic:     687249
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5)   afr(A,5)   his(G,1)      total(G,1|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59389):
TCACAAGTCTATGAATAGAGTATATTACCCACTTCATTTTAAGTAGGAAATTGAAGCTCAGGGAATCGTAGCAGAGGGCCCCAGTTCACACTGCTGATCA
R
TGATGCGACTGGGATCACCACAGCCCATCTGGTTCAGAAGCTTGTTCTCCTAACCAGGATGTGAGAGACATTCTTGTCCTAGGCAGCACGTTGGTGGCAG
Celera SNP ID:            hCV2842811
SNP Position Genomic:     687100
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(A,2)   his(G,5)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59390):
CCCAAAAATTGCAGGTTTGAAAGGGTACCTAAAAACAAGCCACCAGATTGTCCCATTCCACTATCATTCTGCCATCAACACCGAGGTGTCGGAGTAGCAG
K
AGAGCCACATATTTCTTAGTGAGGGGACCCAGAATGATCCCTTTTGTGCTAGAGGATCTGAGTTCATTTCATGAAACTGAAGCATCTTCTTGGAGATATA
Celera SNP ID:            hCV11510933
SNP Position Genomic:     250003
SNP Source:               Celera
Population(Allele,Count): chn(G,4|T,1)   cau(G,4)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59391):
TCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCAGTACAACATCTGCCTCCCTGGCTCAAGGGATCCTCCCATCTCAGCCTCCTGAGTAGCTGGGACT
R
CAGGTGCATGCCACCACACCTGGCTAACTTTTATTTATTTTTAGTAGAGAGGCAGTTTTGCTGTGTTGCCCAGACTGGTCTTGAACTCTTGAGCTCAAGA
Celera SNP ID:            hCV2842813
SNP Position Genomic:     686710
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,8|G,2)   afr(G,2)   his(A,8)      total(G,4|A,16) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59392):
GCAGGAGAGCCACATATTTCTTAGTGAGGGGACCCAGAATGATCCCTTTTGTGCTAGAGGATCTGAGTTCATTTCATGAAACTGAAGCATCTTCTTGGAG
M
TATAAGCTCACCTTGGGATAGGCCCTTGCAGATGACAATAAAGGTATTTTGGCACATAAAAAAACTGCTCAGCACACCTTGTATTTGTATTTCCTTTGAC
Celera SNP ID:            hCV11510934
SNP Position Genomic:     250099
SNP Source:               Celera
Population(Allele,Count): chn(A,3|C,1)   cau(A,3)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59393):
AATAAAACCAATGAGCTTAATCTACTTGTGGAATGTTATAGCCGGAAGGGATTCATAGAGATCACTCTATCGCCTAAAATTCTCTCTTCTACATATCTCA
S
TGTTGGAAAACATAAATGTGACTCCAACTTGTCTTTTTTGTTGTTTGTTTTTGAGACAGGGTCTTTGTTTCCCAGGCTGGAGTGCAGTGGCATGATCTTG
Celera SNP ID:            hCV2842814
SNP Position Genomic:     686540
SNP Source:               Celera
Population(Allele,Count): cau(C,8)   his(G,1)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59394):
TTAGTGAGGGGACCCAGAATGATCCCTTTTGTGCTAGAGGATCTGAGTTCATTTCATGAAACTGAAGCATCTTCTTGGAGATATAAGCTCACCTTGGGAT
R
GGCCCTTGCAGATGACAATAAAGGTATTTTGGCACATAAAAAAACTGCTCAGCACACCTTGTATTTGTATTTCCTTTGACGTGAACCATGGCCATCCAGT
Celera SNP ID:            hCV11510935
SNP Position Genomic:     250119
SNP Source:               Celera
Population(Allele,Count): chn(A,3|G,1)   cau(A,3)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59395):
TCCATCTATTTCAGGGGATGACCAGTCTGAATAAAACCAATGAGCTTAATCTACTTGTGGAATGTTATAGCCGGAAGGGATTCATAGAGATCACTCTATC
R
CCTAAAATTCTCTCTTCTACATATCTCACTGTTGGAAAACATAAATGTGACTCCAACTTGTCTTTTTTGTTGTTTGTTTTTGAGACAGGGTCTTTGTTTC
Celera SNP ID:            hCV2842815
SNP Position Genomic:     686511
SNP Source:               Celera
Population(Allele,Count): cau(G,8)   his(A,1)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59396):
TGTGAAATGGGAACATGACTTACCATCTACTCACCTCCTGTTTGAGTTCAAGGGAAGGTTTGCAGATTGGCCTGAAGGAAGACTTCTCTTGAAAAACTCA
W
ACCAAAGAGCACACCGCCGTCCCCAACCCTGAGCCATTTCTGTCCTTTTCATGGAAAGGGAACTGTGTTCGCCAGCTCGTAAAGCCCCGGCGTCTCCTCC
Celera SNP ID:            hCV2842816
SNP Position Genomic:     686177
SNP Source:               Celera
Population(Allele,Count): cau(A,4|T,1)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59397):
AGTTTTCTCATCTGTAAAATGGAGATCGCAGTATCTAACTCATGGGTGTGTTTAAGGATTCAGTGATGGAGAAAATAGCTGAAAAGTGACCGTATGAAAT
R
AGCAGCAGTTGTCAAGTACTTGGCATAGTTCCTGTCACATAGGAAGCATCCAGTAAGTAGTGGTATCTGTTGTGATTATGATCATATTTTATTTCATGGA
Celera SNP ID:            hCV2842817
SNP Position Genomic:     629857
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(A,1)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59398):
CCGCAGCTCCTGTAGTAGTTATGGTCACTGACTCCGGGTTCAGACGGACTTGGGGTTCAGTCCTAGCTCTGGCGCTTACCAGTTTTCTCAAGTGACTTTG
R
GCATCTTTACTCAAGGCTCTTGGTCTCAGTTTTCTCATCTGTAAAATGGAGATCGCAGTATCTAACTCATGGGTGTGTTTAAGGATTCAGTGATGGAGAA
Celera SNP ID:            hCV2842818
SNP Position Genomic:     629729
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59399):
GCCACGCAACATTCCCACTGCCATGTTGGCTTGTTTTTCTTTTGTTTTCTTGTCAACATAAGCCTCATGAGACAACAGCAGGATGCAAGATTGTACAATG
R
CACCATGACTCTGCTTTCTGGGTGTCCTCTGTGGGCTCTCAGCAGTGTCCCCGATGTGGAGGGTCTTCTTATTCTGTGTGTGTGCCCTCTGCTGTTGAAA
Celera SNP ID:            hCV11510939
SNP Position Genomic:     250322
SNP Source:               Celera
Population(Allele,Count): chn(A,5|G,1)   cau(A,5)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59400):
CCAAGGAAATGACCAGCACGTGGCTCACTCCCTGTCTGTCCAGTAGAGGACACCAAGGCACGATGACCGCAGCTCCTGTAGTAGTTATGGTCACTGACTC
Y
GGGTTCAGACGGACTTGGGGTTCAGTCCTAGCTCTGGCGCTTACCAGTTTTCTCAAGTGACTTTGAGCATCTTTACTCAAGGCTCTTGGTCTCAGTTTTC
Celera SNP ID:            hCV2842819
SNP Position Genomic:     629663
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   afr(T,1)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59401):
GTTGATTCTCTTCAAAAACTTGGCAGTAGCCCTTGGATCCCATTAATTGCATTCAACAGTCATGTATTTTATTAATTTTTGTTCCTAAAGAAAAAAAAAA
A
TCCAGATTGCTTAGAAAATAAATGTGACTCACGCAGAGCAGAATCCGAATTTTCTAAGTGATGAACATGTTAACATATTATTTTAATCTAAAGACATCCT
Celera SNP ID:            hCV11668401
SNP Position Genomic:     455959
SNP Source:               Celera
Population(Allele,Count): cau(-,2|A,2)   his(-,2)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59402):
GGTGGAGGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAATTCAAC
W
TACGAATTTTGCGAGGACGCAAACATTTAATCCGTAGTACTGATGTGGATATGATTTGAGCTAAGACTCTGCTGTTGATTCTCTTCAAAAACTTGGCAGT
Celera SNP ID:            hCV11668402
SNP Position Genomic:     455785
SNP Source:               Celera
Population(Allele,Count): cau(A,3|T,1)   his(A,3)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59403):
ATTTCACAGTGTTTCTAGCTCCCCTTTCCAATACATCTCTCTCTCTCTTTCTCTCTCTCTCTCTCTCTCTCTCACACACACAACACACACACACACACAC
C
GCCAAATCAGACACCAACATAAACTGTAGAGTTAACATTCTTTTTCCACCCTCACACTTTTTTTAGCTCCGATCTGTGTTCAATTTCTGCCTGAGAGAGT
Celera SNP ID:            hCV11668406
SNP Position Genomic:     447663
SNP Source:               Celera
Population(Allele,Count): cau(-,2|C,1)   total(C,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59404):
AACCACACTTACATTTAAATACAGGCCTTTCCCATTTCACAGTGTTTCTAGCTCCCCTTTCCAATACATCTCTCTCTCTCTTTCTCTCTCTCTCTCTCTC
W
CTCTCACACACACAACACACACACACACACACAGCCAAATCAGACACCAACATAAACTGTAGAGTTAACATTCTTTTTCCACCCTCACACTTTTTTTAGC
Celera SNP ID:            hCV11668407
SNP Position Genomic:     447630
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59405):
AAAACCACACTTACATTTAAATACAGGCCTTTCCCATTTCACAGTGTTTCTAGCTCCCCTTTCCAATACATCTCTCTCTCTCTTTCTCTCTCTCTCTCTC
W
CTCTCTCACACACACAACACACACACACACACACAGCCAAATCAGACACCAACATAAACTGTAGAGTTAACATTCTTTTTCCACCCTCACACTTTTTTTA
Celera SNP ID:            hCV11668408
SNP Position Genomic:     447628
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59406):
TTGAAATTTTTTATACTATGTTCTATTGGGAACCATTTCAGGGTTTTGAGATATAGTATGATATAATAACAGCTATGCTAAATTCTTTGAAGTTATTGGT
R
GTGGAATATCAATCCAGAATGAAAATAAATAATTTTGGAAATGAGCCTGTCATTGAAATATACTTTATTTCTCGTTAAATGTCCCAGCAAAAGTATTTTG
Celera SNP ID:            hCV2813392
SNP Position Genomic:     113606
SNP Source:               Celera
Population(Allele,Count): cau(A,1)   afr(G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59407):
CTTTATTATTTTAATGGAGTGCAAGGTGCAGTCTTTTTGAAGATGTAGAATGTGGCCTTATAAAAGCTAAGTGCTACTTTATATTTCTGCTGTCCTTGCC
S
GTGGCCTGCACTGGGGAGTTGTATATTGTATCAGTAATTTTAAAAGCCAGCAAGTGTTCTACCAGCTGAAGAAGTTTTCCTAATGGTGGCTGGTCAAACG
Celera SNP ID:            hCV11667469
SNP Position Genomic:     1041109
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,3)   afr(C,3)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59408):
TGAACTGAAGTGCTAATGTGAAATGTTCATGATGGTACCCGAGTACTTGCGGTGGTACCTAGCGTGTGCTTTCCAAGTGCTGGCAAAGAAAAGAAAAGAA
W
TGCTTGGGGCTCTGCCTACCTGTCTAGGCTCCTGTCTGGCCATTCTCTTTCTTGTTCCAACCATATCAAACTCACTGCTGTTGCTAAACCTTCCTGTCTC
Celera SNP ID:            hCV2813396
SNP Position Genomic:     88675
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(T,3)   afr(A,1)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59409):
TTAATATCCTCAAATTAAAACATACGTTTTTAAAGAAAGATTTTGCAGACTTTTAAGCTGGGCAACTGTCTGCCTTACAAGATGCGTCTGGAAACCCCAG
Y
GCCATCCTCCTTTTTTAGTCTTGTATATTTATGTATCCCCGGCCAGAGTTGGCTGGGGCACAGTCTAACAGTGTCACCGTGTAAGCTGACCCAGTGACCT
Celera SNP ID:            hCV15828962
SNP Position Genomic:     752172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59410):
GGAATTTATTTTAAATTACAGCTTTTTCTATTGGAAGCATTCATTTATGTTGGATTATTGTTCCCTGAGTGAAATTTCACTGATGCTGTATAATTAAATA
Y
AGATTTTTTTAGAGATAGTATATATTTTAGATGTATAAGTGGATAAACTGGAGGTATGGAAGGTCTTTATTTAAGGAGAATAAATAGCCCACCCCATCAA
Celera SNP ID:            hCV2813397
SNP Position Genomic:     88180
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(T,2)   his(T,2)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59411):
GGCTGGGCACGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGATGGGTCACCTGAGGTCTGGAGTTCCAGACCAGCCTGACCAATAT
W
GTGAAACCCCATCTCTACTAAAAATACAAAAAGTTAGCCGGGCGTGGTAGCACACACCTGTAATCCCAGCAACTCGGGAGGCTGAGACAGGAGAATTGCT
Celera SNP ID:            hCV15828963
SNP Position Genomic:     746076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59412):
TGACTTTAAGCCTTAATGAAACTAAGGCCGGAGCGGGTGGCACACTCCGTGGCTGGGATCCACAGTGAAATCTACGCTGGGAGAGGAGGAATTTAGGGTG
R
TAATTTGGTTCTTTGCTATTGACGAAATTTTCTAATTGACTGGGGTTACTTAATACCAGATAATATTTTTTTCTTGCTATAAAGAGAGTAAATTTGTTTT
Celera SNP ID:            hCV2813398
SNP Position Genomic:     87964
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,3)   his(G,3)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59413):
AGGGTCATTCATGTTGTAGCATGTATCAGTACTTCTTTTTTTAGGGCTGAGTAATATTCCATTTACGGATATGCCACATTTCATCTATGCATTCAGTTCA
Y
GGACATGTGGGTTGTTTCCACATTTTGGCTATTGTGCATAATGCTTCCAGGTACACTTGTCTACACATTTTTGTGTGGATATAGGTTTTCCTTTTTTGGG
Celera SNP ID:            hCV8031122
SNP Position Genomic:     257851
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(C,2|T,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59414):
CCACTGCCATGTTGGCTTGTTTTTCTTTTGTTTTCTTGTCAACATAAGCCTCATGAGACAACAGCAGGATGCAAGATTGTACAATGACACCATGACTCTG
Y
TTTCTGGGTGTCCTCTGTGGGCTCTCAGCAGTGTCCCCGATGTGGAGGGTCTTCTTATTCTGTGTGTGTGCCCTCTGCTGTTGAAAGTTGCCTGTCACCC
Celera SNP ID:            hCV11510940
SNP Position Genomic:     250336
SNP Source:               Celera
Population(Allele,Count): chn(C,5|T,1)   cau(C,5)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59415):
TTTTCTAGAAGGTGGTATTTTGCATATTAATACTTGCTTAAATCAAGAAGCTAAGACTTTGTATTATATTTTGCTTTACGTGCCTTGATTAAGGTCATGA
Y
CCTGACATTCCAGTCCCAAAGGAGACCAAGGAAATGACCAGCACGTGGCTCACTCCCTGTCTGTCCAGTAGAGGACACCAAGGCACGATGACCGCAGCTC
Celera SNP ID:            hCV2842820
SNP Position Genomic:     629537
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,4)   afr(T,4)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59416):
CAACAGCAGGATGCAAGATTGTACAATGACACCATGACTCTGCTTTCTGGGTGTCCTCTGTGGGCTCTCAGCAGTGTCCCCGATGTGGAGGGTCTTCTTA
Y
TCTGTGTGTGTGCCCTCTGCTGTTGAAAGTTGCCTGTCACCCATGATGCTGTGCTGATTGAGCAAACTAATCCATAACCCACCGCCACGTTCCTCGCCTA
Celera SNP ID:            hCV11510941
SNP Position Genomic:     250394
SNP Source:               Celera
Population(Allele,Count): chn(C,1|T,5)   cau(T,5)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59417):
TCTTCTTTAGAAGTCATCAATGGTAAGCCTAGGGCAGCCTGAACCACTTGTGTTAGAAATATTTTTTATAAAGCAGGACATGTGCTTTGAAATTTGATTC
S
TCCGTCACTGGCTGTGTGACCTTAAAGAAATAAATTGACCTGCCTGAGCCTCTCGGAAATATTGGCTGGCCAGTAGCATCCTCACAGAGTTTTTCTGGGA
Celera SNP ID:            hCV2842821
SNP Position Genomic:     629064
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,2)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59418):
ATGCTAAGGTAGGAGAATCGCTTGAACCCAGGAGGTGGAAGTTGTAGTGAGCCAAGATCGCATCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCA
K
CTGAAAAAAAAAAAAAAAAAAAGACATTTACATTTTATCTTTACTGTAGCTATGGCTGCCTATCCCAAGGATGGGAAGTCTGAAGTTCAAACTGGTGATG
Celera SNP ID:            hCV2842822
SNP Position Genomic:     685468
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,7)   afr(T,7)   his(G,2)   total(G,4|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59419):
CTGTACAAAAAATATAAAAATGAGCTGGGTGTGGTGGCACATACCTGTAGTTCCAACTGCTCAGAATGCTAAGGTAGGAGAATCGCTTGAACCCAGGAGG
Y
GGAAGTTGTAGTGAGCCAAGATCGCATCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTGAAAAAAAAAAAAAAAAAAAGACATTTACATTT
Celera SNP ID:            hCV2842823
SNP Position Genomic:     685403
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,3)   afr(C,4)   his(C,4)   total(C,12|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59420):
GGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGGGGCAGGCAGATCATGAGGTCAAGAGATCAAGAGCATCCCGGCCAGCATGGTGAAACCCTG
Y
CTGTACAAAAAATATAAAAATGAGCTGGGTGTGGTGGCACATACCTGTAGTTCCAACTGCTCAGAATGCTAAGGTAGGAGAATCGCTTGAACCCAGGAGG
Celera SNP ID:            hCV2842824
SNP Position Genomic:     685302
SNP Source:               Celera
Population(Allele,Count): chn(T,8)   cau(C,2|T,8)   afr(T,8)   his(C,2)   total(C,4|T,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59421):
CTAAAAAGGTAATCATTTTATAAGTACCTATTATGTGCCAGATACTAGGATAGGCACTTTGCATAGAAACTCACATTTCGACTGGGCCTGGTGGCTCACG
Y
CTGTAATCCCAGCACTTTGGGAGGCCGGGGCAGGCAGATCATGAGGTCAAGAGATCAAGAGCATCCCGGCCAGCATGGTGAAACCCTGTCTGTACAAAAA
Celera SNP ID:            hCV2842825
SNP Position Genomic:     685213
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5|T,4)   afr(C,5)   his(C,5)   total(C,20|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59422):
CCAAACCATACCACTCATGGCATCTCGTTTTTACAGAGTATATGTGTTTTCAGATTTTGCATGACATTTTAGGATAAATGTGATGAAAATGAGGAAAATT
R
GGAATGAAGTTTAGGTCAGAAAAGTTTCAGTGATTATTTTTTCAGAATCATTGTTTCTTGGTTTCTAGGGTCCAACATGCCATTGTTCAATGGCTGTATT
Celera SNP ID:            hCV2842829
SNP Position Genomic:     684519
SNP Source:               Celera
Population(Allele,Count): cau(A,2)   his(G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59423):
GCATTTATCTTTGATGCTGGGAATGCGTTCATTTTCTTTATCTTGCCATTACTGTACCTCTATTGGGAAATTTACTCTCTCTTCATAGATAGGATCCGAT
H
CAGTACATATTTATAAAACCACACTTACATTTAAATACAGGCCTTTCCCATTTCACAGTGTTTCTAGCTCCCCTTTCCAATACATCTCTCTCTCTCTTTC
Celera SNP ID:            hCV11668410
SNP Position Genomic:     447513
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|T,4)      total(C,1|T,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59424):
AAAAAAAATCCCCAAAAAATCTCATAATGTTTTAAGAAAGTTTATGAATTTGTGTTGGGCCAGATTCAAAGTTGTCCTGGGCCGCATGTGGCCCACCAGC
Y
ATGGTTTGGACAAGCTTAGTCTACAGGTTCTTCAAGAGGGGCTTGAGCATTTGAAAGACTTCTAGTGGGAGAGATCACAAGGTACAAGTAGAAAATCCTG
Celera SNP ID:            hCV16290607
SNP Position Genomic:     441133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59425):
ATGCTTTGTAATTTTTTTTAAGGATTGATACTAGCTAGGGTGTTGATAAGAAACAGCAGGCATAGTTACTGGGTGATTGAGAAGAGTTTAACAAAAGACT
R
TATTAGTCTGTTTTCATGCTACTGATAAAGGCATACCCAATACTAGGTCATTTACAAAAGAAAAAGGTTTATTGGACTTACAGTTCCTTGTGGCTGGGGA
Celera SNP ID:            hCV16290608
SNP Position Genomic:     440169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59426):
GCAATCTATGGTCTTTATCACTTCTCCATTAACTGTCCTTGTTTTATTAATGCTGATTACTTTTTGATTTGGTTTGGTTCTTTGGAGTTGTTTGCATTTC
R
TGAGTCTTGGCATCTTTTTGGTAGAGAACCTTGCTAGGTTCTCACAATGTAGAAATTAAGCAGAAAACAGAGGTCTCAATTTGCCTTTTCAGCGTGAATG
Celera SNP ID:            hCV16290609
SNP Position Genomic:     438725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59427):
TTCATTCTGTTTCTTTATTATTTTAATGGAGTGCAAGGTGCAGTCTTTTTGAAGATGTAGAATGTGGCCTTATAAAAGCTAAGTGCTACTTTATATTTCT
R
CTGTCCTTGCCGGTGGCCTGCACTGGGGAGTTGTATATTGTATCAGTAATTTTAAAAGCCAGCAAGTGTTCTACCAGCTGAAGAAGTTTTCCTAATGGTG
Celera SNP ID:            hCV11667470
SNP Position Genomic:     1041097
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,3)   afr(A,3)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59428):
TTATAAGTTACATTTTACATAAAAAGGCAGCAGTGGTGAAGCTGGAAGAGGGCACCTAGACTTTGATTTCAGGCAAGATTTTGTTAGGTCCCAGTATTGG
R
ACTTCCGGTTGGTGGATTTTGCTCAAGAATAGTTTTCTCTTTGTCTAACGCTTCATGAGAGACAACCTAAATAAAGCCACAGCCAGTGTTACAGAAATAG
Celera SNP ID:            hCV11667471
SNP Position Genomic:     1039790
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59429):
CAATCATATTTAAATCATTGCTGCTGGAACTTTAGTTGACTTTATAAGTTACATTTTACATAAAAAGGCAGCAGTGGTGAAGCTGGAAGAGGGCACCTAG
R
CTTTGATTTCAGGCAAGATTTTGTTAGGTCCCAGTATTGGAACTTCCGGTTGGTGGATTTTGCTCAAGAATAGTTTTCTCTTTGTCTAACGCTTCATGAG
Celera SNP ID:            hCV11667472
SNP Position Genomic:     1039749
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59430):
AAACAGGGTTAGTAAAGGCCTCAGAGAGAAGATGTCCTTTGAGCTGAGTCTTGAGACTCCAGAGATCAGGACTCAAGGACTGTGGAACCTGTACATTCAC
R
TCCTGGTAATCTTACATTGCTCAGAAGACTCCAGGGACATTGAGGTTGCCCCCATGGAGTTGAAACTCCTATGCTGATCACTTAGGAAGCCAAGAACAAA
Celera SNP ID:            hCV11667477
SNP Position Genomic:     1038013
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,3)   afr(G,3)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59431):
TGATGATTAATACAACTAATAAATAGTGCATTAGTATTATAGGCACAAAAGACAGTATGAAGTACAGCACAGATCATGAGGAGGGTAGGGTCAGTTCTAC
R
TAAAAACAGGGTTAGTAAAGGCCTCAGAGAGAAGATGTCCTTTGAGCTGAGTCTTGAGACTCCAGAGATCAGGACTCAAGGACTGTGGAACCTGTACATT
Celera SNP ID:            hCV11667478
SNP Position Genomic:     1037909
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   afr(A,1)   his(G,6)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59432):
ATGGACTGCATTCCATGCCTGGCACTGTGCCTATGATTTATTAAAATCTAAAGCCATTAATAAATAAATTATTCAATCCATGCATTGAATTATCTAGCTC
W
TTCAAAGACAGTCACAGTCCATCCCTCAAAGAGCTCATGGACCAGTCGAAGGAGGGTGACAGCCTGGGTCAAATTGGTGCTGAGCACACAGGCAGGGGTC
Celera SNP ID:            hCV11667479
SNP Position Genomic:     1037231
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,1)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59433):
TCTTTGAAAGTTGTCCTTCTGCACCCATTTTCCCCAGACCTAACCTCGATTTGTGCTCCAGGTCTGAGCAGAAATGTTATTCCCTCCAGAAAGCCTTCCC
Y
GGATGTTGAGGGATGAAGTTGTAGCCCCCTCCCGAATGCGTCCTCAGAACTCGCTGGTTCTCGTCCTCGCCCTCAGCATACTTGCTCATTGTTTGTTTCC
Celera SNP ID:            hCV15912103
SNP Position Genomic:     441369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59434):
TGATTATTTTGCTCTTTGAAAGTTGTCCTTCTGCACCCATTTTCCCCAGACCTAACCTCGATTTGTGCTCCAGGTCTGAGCAGAAATGTTATTCCCTCCA
R
AAAGCCTTCCCTGGATGTTGAGGGATGAAGTTGTAGCCCCCTCCCGAATGCGTCCTCAGAACTCGCTGGTTCTCGTCCTCGCCCTCAGCATACTTGCTCA
Celera SNP ID:            hCV15912104
SNP Position Genomic:     441357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59435):
TGGCCCACCAGCCATGGTTTGGACAAGCTTAGTCTACAGGTTCTTCAAGAGGGGCTTGAGCATTTGAAAGACTTCTAGTGGGAGAGATCACAAGGTACAA
S
TAGAAAATCCTGGGCTGGCCTGAGAGGCAGACCTGTGATTATTTTGCTCTTTGAAAGTTGTCCTTCTGCACCCATTTTCCCCAGACCTAACCTCGATTTG
Celera SNP ID:            hCV15912105
SNP Position Genomic:     441221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59436):
TCAAGATGAGTGTTATTTGGCAGAGGAAGATGATGCACTGCTTATTTTAGGGGATGCCCTCACTTTTGGGTCCCTATGTCACCTGTGTGTACTCCATGCC
R
GTGTCTTCCCAGCCCCTGCCAGGCAAGTTCGTGTGGTTCTGTGATAACCCTCATCTCTATAGGTTCTGTGATAACGCTCCTCTCACTGTGCTGCTCCTTG
Celera SNP ID:            hCV2842830
SNP Position Genomic:     623988
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|G,1)   his(A,4)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59437):
GTTTTAAGCCAGAGAGAGATTGATAAGACATGGAATGATATGGTGTGATATATGAAATGACATGTTTGAAATGATAGATGACGTGATTGTGATATAATAT
S
ATGCGGCTGAGGACAACACTATAACTGCTCGGTAGAGAATGGATTGTCATGGCCTGGGTGTGGTGGCTCATAATCCCAGCACTTTGAGAGCTCCAGGTGG
Celera SNP ID:            hCV2842831
SNP Position Genomic:     622377
SNP Source:               Celera
Population(Allele,Count): cau(C,6|G,1)   afr(C,6)   his(C,6)   total(G,1|C,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59438):
ATTGGCTTGGCTCGGTGGTTGGGATGGTTTGGCTCTTACTGGGCAGTAAGCACAGTGGCTGGGATAGGACCTTGGCATCTCGTGCGAAGCCCCTCTGCCT
K
GAGTCCTGCCTCTGTGACACTTGCTTACTGTGTGACCTGGGTCAACTCATACCTACTGTTCGTCAGTTTTCTCATCTGTAAAATGGGGATTCCAGTGGTT
Celera SNP ID:            hCV2842832
SNP Position Genomic:     683798
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,1)   afr(G,3)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59439):
CTGCTCCAATGAGGATGAAAATGTCTTTCTTATAGATGGGACAGGAGCCTTAGTAATATGGTGCGAGCAATGGTTCACATAGGGGACAGGTGTTCATTCA
R
TGGTGGGTATTATTATAATAATCATTAGCATCATTGCTAGTGACTTTATTTTTCCTTTAGCCAATGGAGCAGTGGCTTTTGGCCCACTACTTTCGACTGA
Celera SNP ID:            hCV2842833
SNP Position Genomic:     683159
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|G,1)   his(A,4)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59440):
GAGAAGAAGAGTGACAGAGTCACCAACTCACTCCATCAAATGTGGCTGTATTTTTAGAAGTGTCTGGTTCCTGAAATACCTCAATTCCTTTTGCCTGCCT
R
GCTCCTCTCCTCTCTTCTGCCTGTTCATTGAACTGAAAGATTATCAGGACTGTATTCAGCCCGGCCAATAATATCACAAAACAAAAATATCTTGTGGGTT
Celera SNP ID:            hCV2842834
SNP Position Genomic:     682616
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   his(A,1)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59441):
TGTGATCTGTCTACATATGTAGCTGTTTGTATTCATGGTGATTAAATAGTTGGGTGCTAGACATGCCCTTAGCGAGCAGCTCATGAGAGCAGATTTTGCC
W
GTTTCTTCCAAAATCTGGATTCAGTGACATCGTGTTGGTAGCTTGAAACTGACCGTGGTGAGAATATTTACACCATGGAAAGTGGCAAATGCTACTAATA
Celera SNP ID:            hCV16160953
SNP Position Genomic:     748818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59442):
GGTAGAATTCACAAAGCTGGTTTTATGTCTCCTTCTCTTCCTCTTCCAGTGTTGTCTTTTCCCTGCATTGAGATAGCATTGCATGGAGATCCTTGTACTC
Y
TCGAACAGAGGCTGCAGATGGACACAGGATCTGCTCAGGGAGATAAGATCACCTGCTAATTCTGCTTTCTCCATCAGAGTCTGAATGATCAGTGATGGGG
Celera SNP ID:            hCV11668420
SNP Position Genomic:     442788
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2)   his(T,1)      total(C,2|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59443):
CTTGCTATGCTGCCCAGGCTGGTCTGGAGCTCCTGGCCTCAAGCAGTCCTCCTGCTTTGGCCTCCTGAAGTACTGAGATTACGGGTGTAAGTCACCACAC
S
CAGCCCAGAGGCCTTCTTTAAATGCTAGTCCTTTTTCTCTTCCTCCATCTGGGTCTTGGTTCCATGCGTATTCAGTTTGTGAAAAATTTGAGTCGTGCAC
Celera SNP ID:            hCV16185420
SNP Position Genomic:     780502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59444):
TGTAGTGGTGTGATCTCAGCTCAGTGCAGGCTTGGCCTCCAGGGCTCAAGCAGTCCTCCCATGTTGACCTCCTTTGTATCTGGGACCACAGGTATATTTC
M
CCATGCCTGGCTAATCTTTGTGTTTCTGTAAAGATGAGGTCTTGCTATGCTGCCCAGGCTGGTCTGGAGCTCCTGGCCTCAAGCAGTCCTCCTGCTTTGG
Celera SNP ID:            hCV16185421
SNP Position Genomic:     780361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59445):
TCAGTGGAGGGTCAGCGTGACAGCCTTTTGCACCCACATCTGGGTTCTTGTCCAGTGTCCAGGAGGAATGAGGTCTCATGAGCAAATTTTAAGGATGGCA
R
ATGTGGGGGATTTTATTGCTGATGAAAGTGGCTTTCACTGGGAAGATAAGCTAAAAAGAAGACAAAGCAGGAAGGTAATTTTCCCCTGGAGCTATGCCAT
Celera SNP ID:            hCV16290616
SNP Position Genomic:     437981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59446):
CCTCACATTTGCTTGCAGCCAGTGCTCAAAACCATAGACAGGCAGTGTCCCCAACCACTCCCTGCGTTTCTCTTTCTTTGCCTTCCGAAGCTGCCATCTT
R
GTGGTTTTTGAAGCATCAACACTTACTTCACATGCAGAGGCCCCTTTTATTTATTTATTTTTAATTTTTTTGAGACAGGGTCTCGCTCTCTTGCTCAGGC
Celera SNP ID:            hCV16185422
SNP Position Genomic:     780155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59447):
GTGAGCCCTCTTACTGAATTATGTGGCTGGGGTTCTTGGGTATGTTTTGTTCTATTTTCTGGTTGGTGGTTTTCTTTCTGTCGGGTCCCGTGGGCTCTTT
Y
TGGACCTCTTCTCAGAATGTTTTTCGTTTTTTTTATTTTTTGAGATGGAGTCTTGCACTGTGTCCTGGGCTGGAATGCAATGGCAAGATCCCTGCTCACT
Celera SNP ID:            hCV16290617
SNP Position Genomic:     437059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59448):
TTAACATTCTTTGGCAGTTGTAATTTATTAATTGATTTTTAAATTTGGCCGGTGAAAATGAACTTTAGGTAGGGGTTTGAGGAAAATGAAAAGGCCTATT
K
GTTTTTCAGTGGCTGGTTCTTCGTGTTCAGCATTAAGGATTGGTAGAAATCAGGCAACCTCTATGTAACCTCAGCCATCTTGGATTCCCAGCTTACTCAC
Celera SNP ID:            hCV16290618
SNP Position Genomic:     436393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59449):
ATGAAGGTTGTGATTCAGTTGCCCAAGCAGTAAGGCCTGACTGGTGTCACGATCCCACAACCCGCACAAAGGCGCCATTGTTGCCCAGTGTGAAGGGAGC
T
GAGGCATCACCAAAGGGGGCCAAGCGTCCCTTCTCTGGGTTAGAAATGTTGTTTTCCATTTGCTGGTAAACAACAGTCCAAGTTCATTGTCCTGACACAG
Celera SNP ID:            hCV11667480
SNP Position Genomic:     1036405
SNP Source:               Celera
Population(Allele,Count): cau(-,5|T,1)   total(T,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59450):
ATACTACATTTCATCAGGTAGTGTTAGAAATTTAGGCTGAGCCAAAAAAGAAAAGGGAGGAGGTGGGAGGGAGGAAGCAACGAGTCCCTTGTTCAGGCGG
Y
ATTAACCCCCTTACCCTGGCTATTGGAACAATAGCGCTTCTAAAAGCCGCACAAAATCCTCCAATATTAAGAACGGAGAAAAGGAGTGTGGAAAAGGTGT
Celera SNP ID:            hCV11667483
SNP Position Genomic:     1029785
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5)   afr(T,1)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59451):
AGCCCCAGTAACCCTAAGATTGAACAAAACCCTACTTACGTGCTACGGATTTAATATAGCGTCAGGCTCCTCTAGGTACAATAAAATACCAAGTTAAGAG
Y
ATTAATTCCTTACAACCCTGATGGGTCCCAGCTGTGCACACGCATGTAGGGTGTGAGGGTGTGTGCTCAGCGGGCACAGGTGCTGACGGGGCTGTTCCAC
Celera SNP ID:            hCV11667484
SNP Position Genomic:     1029480
SNP Source:               Celera
Population(Allele,Count): cau(C,8|T,4)   afr(T,4)   his(C,8)   total(C,16|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59452):
ATCAGAAAAGAGGTCGTGTGTGTGTTTGTGTTTTTTTAATATCCCATCCAGCCCCCAGCCCCAGTAACCCTAAGATTGAACAAAACCCTACTTACGTGCT
W
CGGATTTAATATAGCGTCAGGCTCCTCTAGGTACAATAAAATACCAAGTTAAGAGCATTAATTCCTTACAACCCTGATGGGTCCCAGCTGTGCACACGCA
Celera SNP ID:            hCV11667485
SNP Position Genomic:     1029424
SNP Source:               Celera
Population(Allele,Count): cau(A,10)   afr(T,1)   his(A,10)   total(A,20|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59453):
CTGAAGCTTCAAATATGAACCCTTGCCACCAGCTGCATAAATATGATAGCCAAAGGGTTTCAAATTTGTGATTTGTCATAAACGCTCCTATTGCAGGCTG
R
GTCTAGTCCTTCTTGACTTTGTGGAAGGAGAAGGCTTGAGGAAGTATTCACAATTGGAGAAGGGCGCCTTCTGTTATGTTCTTAGCTCACTAAAAGTGGT
Celera SNP ID:            hCV16166845
SNP Position Genomic:     774429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59454):
AACTTGTGTAGGGAAACTCTCCCTTATGATACCGTCAGATTCCTTGAGACTTATTTGCTATTGTGAGAACACCTTGGGAAAGACCTGCCTCCATGATTCA
R
TTACCTCCCACCTGGTCCCTCCTGCAACATGTGGGAATTCAAGAAGAGATTTGGGTGGGTACACAGCCAAACCATATCAAAAACCATTTACAAAACTCTA
Celera SNP ID:            hCV15912112
SNP Position Genomic:     440429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59455):
TTCAGCAGTCTGCCTTTCCCTTTCTGTTATAAAATCATGTTTTTATTGAATTACATTTTAATATTGGTATCACTTTAAAATGAAAATGAGTACTTGCAAA
M
TGTATTTTTGAAGGAGTTGGGTGGTGGTGGGGGGATGCCATTTTGGCAACAGATGACTTCGGTTCAAGTCCTCTCTCTGTCTCTTACTTGCTTTGTGGCT
Celera SNP ID:            hCV15912113
SNP Position Genomic:     439869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59456):
CTTCTAAGCACTTCTTAGGTGCCTCTGGGCTTTTTAACATTCTTTGGCAGTTGTAATTTATTAATTGATTTTTAAATTTGGCCGGTGAAAATGAACTTTA
R
GTAGGGGTTTGAGGAAAATGAAAAGGCCTATTTGTTTTTCAGTGGCTGGTTCTTCGTGTTCAGCATTAAGGATTGGTAGAAATCAGGCAACCTCTATGTA
Celera SNP ID:            hCV15912114
SNP Position Genomic:     436360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59457):
CCATGTATGTGTCAGTCCTACTATGCACCTTACAGCTCACTAACCCTGTTTAATAATGTATGTTGCTACATTTAATCTTTATGGTAGCCTCATGAACAGG
Y
TCTTATTTAGTTCAGTGGTTCTTGATCAGGAGTGATATTGCCTGCCAGGGAATGCATGTCAATGTCTGGAGACATCTGGGGTTGTCAGTTCAGGAGGGTA
Celera SNP ID:            hCV15912118
SNP Position Genomic:     435330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59458):
AAAAAACAAACAAACAAACAAACAAAAAATAGGAAAAAAAGAAAGAGCGTATTTATAGATGGTAGAGAATTCTGGGCATGAGAAACCCAGCCAAACAAGT
R
GAATGTGTGCATAGGTGGGACTGCTGATCTTGTTTTATGAAAGAAATAAAGGCAAGTCAAACAGATCCTTTCGCAAGGATCCCCATGTGTGTATGTCTAA
Celera SNP ID:            hCV15912119
SNP Position Genomic:     369073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59459):
ACTGTAAATGCACGAGTATTGATCACAATTATTCCGTAAACACATCTTACAAATTCCCTCAGTGCACGCGCCATCTAAATTAATCCAAATTCAGAACAAA
S
CTCTCTTGGAAAAGGAAAGAGCATCTCTTTCAGGAGCTTCCCTCTTGGACATTAAATCTTCCATAATCTGTGCTAGTTCGGCAAAGAAGCCCCAACGTCC
Celera SNP ID:            hCV2842844
SNP Position Genomic:     619342
SNP Source:               Celera
Population(Allele,Count): chn(G,5)   cau(C,2|G,5)   his(G,5)   total(G,15|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59460):
CGCTTAAAAATGTGTTTTTATAGTGCCATTCCTATATAACATCGTCTGATAAATGTATTTGAGACGAACAGGCCAAATGAAAGAACCTTCCATAAGGGGA
Y
GCAGCACAGTTTGAATATAAGTGTTCCCTCCAATTCCCATGTTAGTGCTTTACTATGAGTATTGACCAGTGTTAAAGAGTGAGCGCACAGGAGCCTTCTC
Celera SNP ID:            hCV2842845
SNP Position Genomic:     619117
SNP Source:               Celera
Population(Allele,Count): chn(T,5)   cau(C,3|T,5)   afr(T,5)   his(T,5)   total(C,3|T,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59461):
GCACTTTGGGAATACGAGGTGGGCCAATCACTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAGT
K
AGTCGGGGTTGGTGGTGTGCTCCTGTAGTTCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAATCCGGGAGCCAGCGGTTGCAGTGAGCTTAGA
Celera SNP ID:            hCV2842846
SNP Position Genomic:     677643
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(T,6)   afr(T,6)   total(G,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59462):
TGGTGGGTCATGCATGTAATCCCAGCACTTTGGGAATACGAGGTGGGCCAATCACTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCC
Y
GTCTCTACTAAAAATACAAAAGTTAGTCGGGGTTGGTGGTGTGCTCCTGTAGTTCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAATCCGGGA
Celera SNP ID:            hCV2842847
SNP Position Genomic:     677619
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,6)   afr(C,6)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59463):
AATAAAAAATAAAATAAAAAAATAAAAATAAAAATAAATAAAAAGTAGTTGGGCGTGTGTTGTGGAGCATGTGGGGGTCCCAGCTACTTGGCAGGCTGAA
S
CAGGAGGATCGCTTGAGCTCAAGAGGTTGAGGCTGCTGTGAGCTATGATCTCACCTCTGTACTACAGCCTGGGTGACAGAGTGAGACCGTGTCTTTAAGT
Celera SNP ID:            hCV2842848
SNP Position Genomic:     677388
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(C,4)   afr(G,2)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59464):
ATCAGTGTGGACAACATAGGGAGGTCCTGTCTCTACAAAAAATAAAAAATAAAATAAAAAAATAAAAATAAAAATAAATAAAAAGTAGTTGGGCGTGTGT
K
GTGGAGCATGTGGGGGTCCCAGCTACTTGGCAGGCTGAAGCAGGAGGATCGCTTGAGCTCAAGAGGTTGAGGCTGCTGTGAGCTATGATCTCACCTCTGT
Celera SNP ID:            hCV2842849
SNP Position Genomic:     677348
SNP Source:               Celera
Population(Allele,Count): cau(T,4)   afr(G,1)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59465):
TTGCCTAGGCTGGAGTACAATGGCGCGATCTCAGCTCACAGCAATCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGA
W
TACAGGCATGCGCCACCATACCTAGCTAATTTTGTGTTTTTAGTAAAGACAGGGTTTCTCCCTGTTGTTCAGGGTGGTCTTGAACTCCTGACCTCAGGTG
Celera SNP ID:            hCV11438402
SNP Position Genomic:     905441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59466):
GCTGAGAAAGGATTCCCAGTCCCCCTGGTAAAAAGTCTGAAGGATGCCGAGGAGTTCACTGTGCCCTTAGATAATAACAGTTTGTCTTGGCTCTGATCAC
Y
CCTTTTTGTGACTTAGCTGGCTGGGAAGTAGCAAAAGTATCTTCCAAGCTCAGCTTCTCTCTGCTTGCATTCTTTCCAAATACGTGATTCCAAAGCCCAT
Celera SNP ID:            hCV11438403
SNP Position Genomic:     902559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59467):
CAAAGCCAGCAACAGAAACTCTCTTGTGCATGGAGTCCCCTCCTGCTTTGAATCTCTCTGACTTTCCTTGACTTTGATGTCTAGGTCTGGATTTCAAGGG
Y
TCAGAAACTCTCTCATGCATGTAGTTCCCTCCTGCTTTGAATCTCTCTGACTTTCCTTGATTTTGATGTCTAGGTCTGGATTTCAAGGGCTCACGTGATG
Celera SNP ID:            hCV16290625
SNP Position Genomic:     468916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59468):
TTTTTTTTTTTTTTTTTTGTTTTTCCTCCCAGCCTCTCTCCTTTCCCATTATGCACAATGCGCTGAGAAAGGATTCCCAGTCCCCCTGGTAAAAAGTCTG
R
AGGATGCCGAGGAGTTCACTGTGCCCTTAGATAATAACAGTTTGTCTTGGCTCTGATCACCCCTTTTTGTGACTTAGCTGGCTGGGAAGTAGCAAAAGTA
Celera SNP ID:            hCV11438405
SNP Position Genomic:     902498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59469):
TCCCCACTTTCAGGCTCTCCTTTCACACGCATGCATTAATTCGTTCATTCTTGGAATCTACCCACCTGTGATGTGCTAGTTACTAAAGATGCAGCAATGA
R
TGAAAGGTAATCCTGTCCTTGAGGCATTCACAGGTAAAGAAGCCTGCTTGGGACATTGGGCCGTGAGCTCCAACAATGTCACTATTCTTCTAGGCTTTGT
Celera SNP ID:            hCV11438406
SNP Position Genomic:     899549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59470):
TATTCCTTTCCAACTTCCACTTGCCCCAAATAGGTAGAAGTTAGCCTTTATTTTTGGTGTCATGTCTTCTTTCCCTCCTCCTATCAGTTTTTCAGAAACT
S
CAGAAATTTAACCTAGTACACAGGGGCCCCCCACCCCTGTTTCCAGATGCCTTCTAGAAAGAGGACTGGGAGTGTGAATGAGGCCATGTGGGCTTTGTTT
Celera SNP ID:            hCV16185432
SNP Position Genomic:     717039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59471):
ATTTATGACTTGGCTTACAATCCGTTGCAGAAAGCCTAGCTCCCCAGCTTCTCCTGAATCTACGTTTTTCTATTTTGTCTGAACTAGCCAAGGTCTCTGG
W
GTTTGCTGTTATATTGCTTCAGAGAAATTAGTGACATTGAAAGGCTGTTGTCTTTTTTAGTGTACTTTTGGTTGTTAGGAGAAATTTACAAGGCCATTTT
Celera SNP ID:            hCV16290626
SNP Position Genomic:     467595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59472):
CACCACCCAAGTTGTAAGATGGTAGAGCGAACAGGCCAGAATGTGATAAAGTAAAATGAAAGAAGAAAAAGGAGGAAGGAAAAAGAGAGAGGGAGAAGCA
S
ATAGAGGAAAGAAGGAAGAAGGAAGGAGGAAGGAGGGAGGGAGGGAGACAGGGAAGGAAGGAAGTCTGGCAAGAGGGCACAGTCAGACCTGCCAGGATCC
Celera SNP ID:            hCV11438407
SNP Position Genomic:     898113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59473):
AAAGCAAAGCCAATAGAGATCTTGAAAAAAAAAAAAAAAAGAAAAAACCACCGTGGTATTCTAGGAAGAAAAAAGCATTTTTCGAATGAAAACTTTTTAT
K
ATATTTGATATATTCTGCTTCCCTTCCCTAGTATGTATTAATGAGATGAAATCACTTCTTAATTTTCAGGTTAATATTAAAGTTGAAGCCCATCCCTCTA
Celera SNP ID:            hCV16185433
SNP Position Genomic:     716810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59474):
TCCTCCTCAAGGGAAACATTCTTCTCACAATAGCTTCCTGGTAGAAAGTTCTAACTAATGACTTTAATCGTGTGAATGTATTGCAGAAATGGACAGGACA
R
TTCTCAGCCCATTCATCTTACAGACCTCAAGTGAACAGGCACAAAACAACAGGCTCCACCCTCCTTCCCCCCTCTATCTCATACTTTACCTCAATTTATG
Celera SNP ID:            hCV16290627
SNP Position Genomic:     467401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59475):
CATTCTATCAATGCCAAAATGCACATCACACTGACAACAGCTCTTTGTTTACACCGGGGAGCCCCCAAAGCCCCAGGGTAATTCCATCACCACCCAAGTT
K
TAAGATGGTAGAGCGAACAGGCCAGAATGTGATAAAGTAAAATGAAAGAAGAAAAAGGAGGAAGGAAAAAGAGAGAGGGAGAAGCACATAGAGGAAAGAA
Celera SNP ID:            hCV11438408
SNP Position Genomic:     898026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59476):
CAACTGTTCTCTGCACGACCTAGTTCTGGGCTAGGGAATGGCTGTCTAGCTTCAGTGGATTTCCAGGGTCCGGAGCTACTAAAGGTCAACAGCTGTGTTA
Y
TGCAAACTCTGTGGCCTGCATTCTATCAATGCCAAAATGCACATCACACTGACAACAGCTCTTTGTTTACACCGGGGAGCCCCCAAAGCCCCAGGGTAAT
Celera SNP ID:            hCV11438409
SNP Position Genomic:     897907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59477):
TTTCCTGCATCAGCTAAGCATTTATTTCATGTAGTCCTCACACTAGATTGAGTGGTTCCATATTAATATCCTACGTCAAAGATGAGTAAATTGAGATGCG
K
AGGTTCTAATTTGCCCAGTGTCGTGGTGTGTGATCTTGACCACTAGCCTAAACTGCTATTTTATGTCCACCCATCAACCTCTACGGCTGCCCCTCATTTG
Celera SNP ID:            hCV16185434
SNP Position Genomic:     716180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59478):
CCAGCCCGTTATGTCGCAAGGGCTTTGGGAAATCTCAATTTATTGCTAGCCTGGTAGATATTGAGCAGGGTGTGATCCTGTTATTGGGCTTTCAGACTTT
M
GCTTAGCAACCTCATTGCACCCAGGACCCCCATTTAATCAGCGACTCCTATGGCTGTTTGGGGGCTCTCTTTCAAATAATTCTTCTCACCCATGAACATC
Celera SNP ID:            hCV11667490
SNP Position Genomic:     1017543
SNP Source:               Celera
Population(Allele,Count): cau(A,6|C,1)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59479):
CAGTTTCTTTAATTTTTTTTCTCTTCTAACAGAATCTAGAAATGTAGATTGTGTGTGCGTGTGTGTGTGTGTGTTTGTGAGAGAGAGAGAGAGAGAGAGA
G
AGAAATCTTTAGGAGTTTTAAATATTGGCAACTAATTCAATTTATTTCTGTTTTTAACATATTGCACCAAATACATGGGTATGGGCCGAAAATAACATGA
Celera SNP ID:            hCV11667492
SNP Position Genomic:     1007073
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(-,1)   his(G,5)   total(G,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59480):
TGACCTCAGGCAGTCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATGACGGGTGTGAGCCACCGCACCAGGCCATTTCCTCAGTTTTAAAAAGCAAATAA
S
AAACAACAACAAACTGCATCAGAGTAACCGTTTCAAAAACCCATCTCAGGTCTGTTTTTTCTTTTTTTTTTAAGTTAGCATTTTCTAGAAGTTTTGGTAT
Celera SNP ID:            hCV11667494
SNP Position Genomic:     1002035
SNP Source:               Celera
Population(Allele,Count): chn(G,5)   cau(C,3|G,5)   his(G,5)   total(G,15|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59481):
TGGCATAATTTAGCCAGATAAAGTGCCCACCTAGCACTCATCCCACCTCCTCACTCCTCTATCCTGTGAATGCAGAAATACAATTCCTCATTTACAAACA
R
CTGTGCATGTAGGGTTGCTTGCAAAAGTTCGTCGTGTGCCGATATTTCATTACCACTTTTGCCAGCGCTCTCGTCTGCATTTCCTGAGGTTTTTCTTTTT
Celera SNP ID:            hCV11667495
SNP Position Genomic:     1001604
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(G,4)   afr(A,4|G,4)   his(A,4)   total(G,8|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59482):
GGATCGCTTGCATCCAGGAGGTTGAGGCTGCAGTGAGCCATGACTGTGGCACTGCACTTCAACGTGGGCAACAGTGTGAGACCCCATCTCCAAAAAAAAA
A
GCAGTATAGTCAGTAAGAAAGAAAACAAACTAACAGTCAATATTGTGGCTGCTCTCAATGTTCTTTAAACGGATCACATTGCCACTTTTTTCTCTTTGTA
Celera SNP ID:            hCV11667497
SNP Position Genomic:     993541
SNP Source:               Celera
Population(Allele,Count): cau(-,3|A,1)   afr(-,3)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59483):
TTTGGTTCTTTAACATTCTCTTCTTCACTAAACCCAAATTAATAATTCCTTACTATTGTCATTAAAAGTTCTCACTGGATCATTCCATTTATACTCAGAG
K
AACAAAGCAAACCCAATTATTTGAGAGACACTGAAATGAATTTTGAGTCTAGAACAGCATCTGCAAACTTTGCAAAGGTTCACATGATAAATATTTTCTG
Celera SNP ID:            hCV15912120
SNP Position Genomic:     457826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59484):
GAGATAAAATGGGTAATTAACAAATGTAATCCCTCCCACCCACCCCCCACATTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTACCAT
R
TCTGTTACTCCATCAGTCAGGATCCAGTTAGGAGACAGAAACTATATCATAATTTTAACAGGGAAGATTTAATATTAAGAATTATTAGCTACAACAGGGT
Celera SNP ID:            hCV2842850
SNP Position Genomic:     677032
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   his(G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59485):
CTTTGGTTCTTTAACATTCTCTTCTTCACTAAACCCAAATTAATAATTCCTTACTATTGTCATTAAAAGTTCTCACTGGATCATTCCATTTATACTCAGA
R
TAACAAAGCAAACCCAATTATTTGAGAGACACTGAAATGAATTTTGAGTCTAGAACAGCATCTGCAAACTTTGCAAAGGTTCACATGATAAATATTTTCT
Celera SNP ID:            hCV15912127
SNP Position Genomic:     457825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59486):
TCTTTATTTCAAAAAGAGTGGCTGTGAATCTTTAAAAATTTCTTTGGTTCTTTAACATTCTCTTCTTCACTAAACCCAAATTAATAATTCCTTACTATTG
K
CATTAAAAGTTCTCACTGGATCATTCCATTTATACTCAGAGTAACAAAGCAAACCCAATTATTTGAGAGACACTGAAATGAATTTTGAGTCTAGAACAGC
Celera SNP ID:            hCV15912128
SNP Position Genomic:     457784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59487):
ATTAAAAAGATACATGACGTTGAAATCAGTGACAGAGGCATAAGGCTCCTTGAGGGAAGAAACCAGGTGTTGGCCATAAAAAAATTATTTTTCACAGCGC
Y
CAGCAAAGGGCTTGTATGCAAAGGACCCTCAGTATAAGCTGGTTGTTGACTGATGTGTTTCAAGAGTAAGTCAGAAAAATAAAAAGAAGGCAGGGAAAGA
Celera SNP ID:            hCV2842853
SNP Position Genomic:     616266
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59488):
CGTAGTACTGATGTGGATATGATTTGAGCTAAGACTCTGCTGTTGATTCTCTTCAAAAACTTGGCAGTAGCCCTTGGATCCCATTAATTGCATTCAACAG
K
CATGTATTTTATTAATTTTTGTTCCTAAAGAAAAAAAAAAATCCAGATTGCTTAGAAAATAAATGTGACTCACGCAGAGCAGAATCCGAATTTTCTAAGT
Celera SNP ID:            hCV15912129
SNP Position Genomic:     455918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59489):
ACTACCTTGGGAAATGACTCTGTATCAAGCGTTTACCATCTGCTGAAAGCTTTGCATACTCTGTTGCTTATCATGACAACTGCCCTGAAAGTTGGGTGTA
M
TTGTTACCCCTTTCCAGATTAAAAAACCTAGGGGTCAGAGAGGTTAAGTAACTTGCTCAAGACCTCACAGTGAACTGTGGTGGACCACTGGGATTAGAAC
Celera SNP ID:            hCV2842854
SNP Position Genomic:     615996
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59490):
TAGTCATTAAATATATTCACAATGTTGTGTAACCATCAGCATTACCTATACCTAAAATATTTTCATCACATCTTTTAAAAAATAACTGCCCCTTCCTCAC
W
TCCCCAAGCTTGTGGTCTCTGGTAACCCCTACTTTACTTTCTGCATCTATGAAATTGTTTTCAAGGTCAATCCATATTGTAGCATATATCAAAATTTCTT
Celera SNP ID:            hCV2842855
SNP Position Genomic:     674384
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,1)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59491):
CCTCACACGTTTGCTAATGTAAGAAGTGCTGGCTCTGCTCTTAGCCTGCAGTGGTGCAGCTTAAAAATTCTGGGAGGGTTTCATGCAGTAAATACTTAAA
R
TAACAGAAAAGGACTGGGGAAAAGCTGATGTTGTAGCTGTATGATCACCCATGTAAAACTGTTTATTTAGTTATTTATTTATTTATTTGCTTTTTTACTT
Celera SNP ID:            hCV2842856
SNP Position Genomic:     613034
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,3)   his(A,4)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59492):
GGAAGGGGCACTCAGCTGTTACCTCCTGTCATAGGACCATTCCTCACTGTGCCATCATATTATACTTCCATATCGTGTGTCTTGTGGCATTCCTGGGCCT
R
CAGTGAGCCTGTGGCCACCTCATAGTCTTGTTGGCCACAGCCTCTAGAACCAGGGATTGGAGGAACAGCCATCGCTAGCATGGTGCTTGGCACTGAGCGG
Celera SNP ID:            hCV2842857
SNP Position Genomic:     608118
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   his(A,4)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59493):
GGATGCCATGCTTGGTGAGAAATGAATTCGTAAGTGTGCACTGTCTGCCATAAAGAGCCAGGCAAGGCACAGAAAATATTCTTCTGTTTCTTTTTCTATT
S
TACCCTCTCTCTGCTTTTTCTTCTCTCACTGCTGCTGAAGCAGTGAGAGCCTGTTGAGTTAAAATAAGCCAGTGAGGATTTTGGTGGTGTTTGCCCTTGA
Celera SNP ID:            hCV2842858
SNP Position Genomic:     666824
SNP Source:               Celera
Population(Allele,Count): cau(G,8)   afr(C,1)   his(G,8)   total(G,16|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59494):
TTGAGAAGGGCCCTGTCCGCAGCCTGAGGAGCCTCAACTGTTCTCTGCACGACCTAGTTCTGGGCTAGGGAATGGCTGTCTAGCTTCAGTGGATTTCCAG
R
GTCCGGAGCTACTAAAGGTCAACAGCTGTGTTATTGCAAACTCTGTGGCCTGCATTCTATCAATGCCAAAATGCACATCACACTGACAACAGCTCTTTGT
Celera SNP ID:            hCV11438410
SNP Position Genomic:     897873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59495):
GAAAATTCAAAAAATTGCAACCTGAGGCATAAATGGGTTTTAAGCTCCATACAGTAAAACCTAGCATATGAAAACAGTTCTGGCTGATGGGTTGGTAGAA
R
TGATAGATATAGATACATATATACACATATATGCACAGTAATAGATATAGGTAAAGACCTTGATATATGTACATATATTGTATGATACATATCCATGCAT
Celera SNP ID:            hCV16290634
SNP Position Genomic:     462087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59496):
TATATCCTACCGCTCAAAGCCATCACCAAGGTCTGATCGTGAAAATTCAAAAAATTGCAACCTGAGGCATAAATGGGTTTTAAGCTCCATACAGTAAAAC
Y
TAGCATATGAAAACAGTTCTGGCTGATGGGTTGGTAGAAGTGATAGATATAGATACATATATACACATATATGCACAGTAATAGATATAGGTAAAGACCT
Celera SNP ID:            hCV16290635
SNP Position Genomic:     462047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59497):
GATATTTTCTACTATGGATGAATGCTCCTCTTTTGAATTTTCATTTTTGTCTGACATAACTCAAAGTGCTTGCTTTGGGAGTTCTTGTTAACCCTGACAA
W
TCTTGTCAAATATCTTACTCCTGGGCTGTGCTGGGGATGGCAGCAGAGTGGGGTGGTTGGATGGGAAGGCGGGAAAGAGCTAGCTTGGAGATGATACGCT
Celera SNP ID:            hCV16290636
SNP Position Genomic:     458273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59498):
AACCTTTTTGATGCCTCCAGGCAATTTCCTACAAGCTCTAATATCTTCCTCTTTACTCCCATATGTGGTATCTCTGGTACCCTATATATCATTCACTCAA
S
TGTTTGTTTTGAACCACTTATTTTGGCAAGACTTCTTCAGACAGGAGAGCCCTGAGAGCTCTTCAAAGGCTGGGCCTGATGGTGTTTGTCAGAGAGGTTC
Celera SNP ID:            hCV11438418
SNP Position Genomic:     884589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59499):
AAAGTTACCTTGATAGTTCAGGTGTGCAGAGAAAATTCACAGCCATCAATAGAAAAGAAAAAAAAATCCTGTTTATACCTTAGGCATTCTGTGATCCTTA
S
GATGTAGCCATGACAGTATTACGGGTTTTAAAAGCCACCCAAGTAATCTAAATTTCCTCCAAACTAACAATTCCTGAAAGATTGAAATATTGCTACCAAT
Celera SNP ID:            hCV16185443
SNP Position Genomic:     712273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59500):
TGTCCTGTCGCTGTCACAAGTTTTTAATAAGGGCTGGGGGTCCTCTTGAAGAGCCCAGGAACTGCAGTCCCTCCTCTATGCCTTCCCCTGAACACAGTGC
R
CCCTCACTAATAAATTCTGAGGGCTGACACTGCCTGAGCCGGCTGGTCTTTGCCCTCAATTTCATTGAGATGGGCCATTGAAAACTCATTACAAGCTGTT
Celera SNP ID:            hCV16185444
SNP Position Genomic:     711655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59501):
TGGAAGAAGGAAGGCGCCCCTCCTTCTTAGCTGATTGATGATGAGATAGAAAGATAGAAACAGCCCCATCACTATGAGATGGAAACCCTTCTTTCCTTCA
K
CTGACTTCCCTCTCCTTCATTCCCAACCAAGTTTGACCCCGCCGCAGTGGAGATTGTGGCAGATGGGTCAGATAGCATGTGTCCTGTCGCTGTCACAAGT
Celera SNP ID:            hCV16185445
SNP Position Genomic:     711475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59502):
GGGTGTCCAAACTTTTGGCTTCCCTGGGCCACATTGGAAGAAAAAGAATTGTCTTTGGCTGCACATAATATACAATTGTTGATGAGCTAAAAAAAAAAAA
A
TCCCCAAAAAATCTCATAATGTTTTAAGAAAGTTTATGAATTTGTGTTGGGCCAGATTCAAAGTTGTCCTGGGCCGCATGTGGCCCACCAGCCATGGTTT
Celera SNP ID:            hCV11668449
SNP Position Genomic:     441040
SNP Source:               Celera
Population(Allele,Count): cau(-,4)   his(A,2)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59503):
TTCTTAACCCTTTAAGAAATATGACTTGTTCTAATTGCCTTTTCTTATTTACATTATACTTAGGCTGGTGTTAGGATGCCGTGGCTGCCAAGTTTACACA
R
TGCACTTTCTCTCTCTCTTTCTTCTTTTGGTTTATGATGTTTTTCAATAGTGTCATGGAACTCACTTAATCTGATTTCATCAAGTAAATATATGGGAAGT
Celera SNP ID:            hCV8031160
SNP Position Genomic:     198543
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   his(G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59504):
GCTGGGAAGTCCAAGATCAAGCTGCTGGCAGATTGAGTGTTTGGCAACGGCCCACTTTCTGGTTCCTAGATGTTCACCTCCTTGCTATGTCCTCATATCG
K
GGGAGGGGCAAAGGGTCTCTCTATCTGGCCTCTTTTAAGCCCTTAACCCATTCATGAAGGCTTTGCCTCAATGACCTAATCACCTCCCAAAGGCCCTACC
Celera SNP ID:            hCV15912135
SNP Position Genomic:     455332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59505):
CTTATGGTCACCATTCTGTAATGATTATCATTTGTACATTTAAAATAGAAACTGTTAGGCCAATGTGTTATTCTAGAATAGGACTTGACAGACTTTTTTT
W
AAATAAAATGCCAGATAGTGTTTCTAGCTTTGCAGTTCAGATGGTGTGTGTTACAACTGTTCAGCTCTAACTTTGTATGAAAGTAGCCATAGGCAATACA
Celera SNP ID:            hCV2842860
SNP Position Genomic:     606452
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(A,3)   afr(T,2)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59506):
GGGTGAGATGAACATTGATTGAGCCTTTACATCGGAGACACTATAACAAATGCTTTGTGTACATCAGCTCTTTCAAATTAATACAATTCTACTAGAGGGG
R
CACTATTAGTATCCCCAATTTACAGATGAAAAAAATGAGGGACAGAGAGGTTAGATGTGTATCTAAGGTCACATAGCTCACAAACGACACAGCATGCACC
Celera SNP ID:            hCV15912136
SNP Position Genomic:     454910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59507):
AGATGAGGTTCTTGAGTACTTTCAATTAGGTTTACCACTGACCCCATCAGTGTGCAGACGAAGGGAGATGAGAGATACAGATGGTTAATGGGATTTTTGG
R
GTATCTTCCAGCCTTTGTGAGCACAGAGGTTTCGCTACATTTTGAAAATTAAAATTCATTTCATTCGCATTACAGATTTTAAATCCTAGCTCCTTTTTAA
Celera SNP ID:            hCV2842861
SNP Position Genomic:     605789
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(A,3)   afr(G,3)   his(G,3)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59508):
CAAGGCCTGTTGGAATGTCTGCCAGTTTCAACCCACGGGGATAGGGTGAGATGAACATTGATTGAGCCTTTACATCGGAGACACTATAACAAATGCTTTG
Y
GTACATCAGCTCTTTCAAATTAATACAATTCTACTAGAGGGGACACTATTAGTATCCCCAATTTACAGATGAAAAAAATGAGGGACAGAGAGGTTAGATG
Celera SNP ID:            hCV15912137
SNP Position Genomic:     454867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59509):
CAGATGAGGTTCTTGAGTACTTTCAATTAGGTTTACCACTGACCCCATCAGTGTGCAGACGAAGGGAGATGAGAGATACAGATGGTTAATGGGATTTTTG
K
GGTATCTTCCAGCCTTTGTGAGCACAGAGGTTTCGCTACATTTTGAAAATTAAAATTCATTTCATTCGCATTACAGATTTTAAATCCTAGCTCCTTTTTA
Celera SNP ID:            hCV2842862
SNP Position Genomic:     605788
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(T,3)   afr(G,3)   his(G,3)   total(G,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59510):
TCCTGCTATGTCCTTACATGACAGAGGAAGAGATCATCTTTCTTCAGCCTCTTCTGACAAGTCCACCAGTCTCATTCATGAGGGTTCCACTCTCATGACT
K
AAGTACCTCCTAAAGGCTCCCCCTCCTAATAATATCACCTTGGAGATTAGGGTTTCCAAATATGAGTTTGGGGGGACACATTGATTCCACAACACTGACC
Celera SNP ID:            hCV2842863
SNP Position Genomic:     665323
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(T,1)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59511):
ATCAAATGGTAGTTCTACTTTTAGTTCTTCAAGAACTCTCCACACTGTTTTCCATAGTGGTTGTACTAGTTTACATTCCCACCAGCAGTGTAGAAGTGTT
S
CCTGTTCACCGCATTCACGCCAATATCTATTATTTTTTGCATTTTTGGTAATGGCCATTCTTGCAGGAGTAAGATGGTATCGCAAATGCAACAAAAACAA
Celera SNP ID:            hCV2842864
SNP Position Genomic:     604735
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,2)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59512):
GCCGTGTCTCTTTTCTGTGATTCGGGAGCACATTGATACCCTTCTTTTGGAGCAGAGAAGCTTGTCTTTCATGATAGAAGTAGGTCATGGGGGCGGTTAG
Y
TGACTTCATCAGAGAGTAGCATGCAGATCCCACCTGTGAGGCTATGGTCTGCCAAGGAGAGTTCAGCGGGCTGGATCAGAGAGAGCAGAGCCATGCTGGC
Celera SNP ID:            hCV2842865
SNP Position Genomic:     602943
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,4)   afr(C,4)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59513):
AGGAGAGAGTTACTATTAGCTCCCAGTTTATAGGTGAGTGATATGGTTTGGATGTGTCCCCACCCAAATCTCAACTTGAATTGTATCTGCCAGAATTCCC
R
CATGTTGTGGGAGGGACCCAGGGGGAGGTAATTGAATCATGGGGCCCAGCCTTTCCCATGCTATTCTCATAATAGTGAATAAGTCTCATGAGATCTGATG
Celera SNP ID:            hCV2842868
SNP Position Genomic:     599301
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   his(A,2)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59514):
CTCCCGAGTAGCTGGGATTACAGGGGCACATGCCACCATGCCCAGCTAATTTTGTATTTCTAGTACAGACAGGGTTTCACCGTGTTGGCCAGGCTGGTCT
S
AAACTCCTGACCTCAAGTGATCCAACCGCCTCAGCCTCCCAAAGTGCTGGGATGACAGGTGTGAGCCACCACACCCAGCCACTCTCTTTCAACTAGAACA
Celera SNP ID:            hCV11438421
SNP Position Genomic:     876904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59515):
TCTCTCTCTCTCTTTTTTTTTTTTTTCTTTTTGAGGAAGGGTCTCTCTCTGTCACCTGGCTGGAATACAATGGTGCTATCTTGGCCCACTGCACCCTCCA
Y
CTCCCTGGTTCAAGGGATTCTCGTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGGGCACATGCCACCATGCCCAGCTAATTTTGTATTTCTAGTACAG
Celera SNP ID:            hCV11438422
SNP Position Genomic:     876771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59516):
CTGGGCAAGGAAACAAAACTGAACAACATTAGCAAAATCACTACATATTATAGGAATCAAGTACATTCTGAACGGCTTAATCCTACAGTTTAGATATGAA
S
CCTAAGGGTAAGATGAACGTCTTAGATGATCTGAGATATCCAAATACCTGTAACAAACATTTGTATGGTGTATGTAGGGCAGGAACCCCATCAGAATTGG
Celera SNP ID:            hCV16290643
SNP Position Genomic:     457368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59517):
TAATAAACAAATAAGTTTTGGGTTGGGCGGGAGATTAGTTAGAGACAGGATCTGTAGGTCAGAAGTGGTATTTGGGGGAGTAGGGAGTTTTTTTTTTTTT
T
CTTTTTCCCTTATGCATTTGGGAGTGGAAGAGCTGTCAGATTCTGAATTTAGTTAGATTTATAATGCTAGAGACATTCAGCAGTCTGCCTTTCCCTTTCT
Celera SNP ID:            hCV11668452
SNP Position Genomic:     439693
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   his(-,2|T,2)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59518):
CATGCTATCTCGACTTCTGTGTGTCTCCTTTTTGTCCATCTCTTAAATCAGTCACTTGGCAGCAGCAAGACATGTGGCCACTCCAGACCATTTGATCGAA
R
AGCTCTTGTTAGGAGATTAGGCTGCTAATCTGCAAGCGAGCTAATGGAAATCATTCTGGGCAAGGAAACAAAACTGAACAACATTAGCAAAATCACTACA
Celera SNP ID:            hCV16290644
SNP Position Genomic:     457212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59519):
TCCATTAGAGACCTGGCGTATAATTGTGGGAGGGAGAAGCCAGTGGAGCAGTCAGGGGACTCCCTGGCTGTTTCTGTGTCTGGTCTTATGGGTCTGGGCA
Y
TGAATTCAGTCACAAACCCTAGCATGCTCCTTTGCTACCTCAGGGGACAAAGTCAAGAAAATAACACTAGGATTGCCACCCTGCTCTCTCTCTCTCTCTC
Celera SNP ID:            hCV11438425
SNP Position Genomic:     876582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59520):
AAAGTAAAGTAATAAACAAATAAGTTTTGGGTTGGGCGGGAGATTAGTTAGAGACAGGATCTGTAGGTCAGAAGTGGTATTTGGGGGAGTAGGGAGTTTT
K
TTTTTTTTTCTTTTTCCCTTATGCATTTGGGAGTGGAAGAGCTGTCAGATTCTGAATTTAGTTAGATTTATAATGCTAGAGACATTCAGCAGTCTGCCTT
Celera SNP ID:            hCV11668453
SNP Position Genomic:     439684
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   his(G,2|T,2)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59521):
GACCATTAATCATGCTATCTCGACTTCTGTGTGTCTCCTTTTTGTCCATCTCTTAAATCAGTCACTTGGCAGCAGCAAGACATGTGGCCACTCCAGACCA
W
TTGATCGAAGAGCTCTTGTTAGGAGATTAGGCTGCTAATCTGCAAGCGAGCTAATGGAAATCATTCTGGGCAAGGAAACAAAACTGAACAACATTAGCAA
Celera SNP ID:            hCV16290645
SNP Position Genomic:     457202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59522):
AATAGCACAGCTTTTTTCCACTTTCAAATGTATAACAAAATAGAACTTTATATTTCCAGATGGACTGCCTGGAACCCGGGGAGTGGCTCAGCTACCAGGC
Y
CCAGTGGCCCTTGTCTTGTTATTTCCTCCATTAGAGACCTGGCGTATAATTGTGGGAGGGAGAAGCCAGTGGAGCAGTCAGGGGACTCCCTGGCTGTTTC
Celera SNP ID:            hCV11438426
SNP Position Genomic:     876455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59523):
GTATGTGTTTAATCTACCATTCCTTGTGGCACAGTGCATGGTCTGCATGGCACAGTGTGTGGTCTGTATGGCACAGTGCATGGTCCGCATGGCACAGCGC
R
TGGTCCGCGTGGCACAGCGCGTGGTCCGCGTGGCACAGCGCGTGGTCCGCGTGGCACAGCGCGTGGTCTGCGTGGCACAGTGCGTGGTCTGCATGGCACA
Celera SNP ID:            hCV11438427
SNP Position Genomic:     875520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59524):
ATAGTTCTCTCTGTGACCCTGTAGAATGCACTGAAGCAAAAATAACAGGTAATGCTAATCATAAAGTTTTACAAATCTCCTGAAGAGTCTTGTTGGTTTC
Y
GTGTTGATGAAGCAGGAAATTTCCCTGACCCCTTTGCAGGCAGGAAGTGGAGTGCGGATGCTGGAACTAGCTGGCTGCTTTGGTGCCAGTAGAGGTGAAC
Celera SNP ID:            hCV11668455
SNP Position Genomic:     437551
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59525):
AGTTCTGTGTTTATACTTCTCATTTAGCCCATACCCCACTATATTAAAAGAAGATGTATAAGTGTATGTGTTTAATCTACCATTCCTTGTGGCACAGTGC
R
TGGTCTGCATGGCACAGTGTGTGGTCTGTATGGCACAGTGCATGGTCCGCATGGCACAGCGCGTGGTCCGCGTGGCACAGCGCGTGGTCCGCGTGGCACA
Celera SNP ID:            hCV11438428
SNP Position Genomic:     875457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59526):
ACCTGGCTAATTTTTGTATTTTTTGTAGAGGTGGAGTTTCGCCATGTTGGCCAGGCTGGTCTTGAATTCCTGACTTCAAGTGATGAGACTGCCTCAGCCA
S
CCAAAGTGCTGGGATTACAGGCATGAGCCATCGCGCCCAGCCAGACTTGTATCTCTTAATGAGTTTAACTACATTTAACCATGTATGTGTCAGTCCTACT
Celera SNP ID:            hCV11668456
SNP Position Genomic:     435151
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3)   afr(G,1)      total(G,1|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59527):
ACATGGTGAAACCCCATCTCTACTAACAATACAAAATTAGCTGGGTGTGGTGATGCACACCTGTAATCCCTGCTACACAGGAAGCTGAGGCAGGAGAATC
R
CTTGAACCCAGGAGGTGAGGTTGTGGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGGCAAAAAGAGCGGGGTAAAAAAACAACAAAAAAATGATGT
Celera SNP ID:            hCV11668457
SNP Position Genomic:     434679
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   his(A,1)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59528):
TTGGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCACTATGCCCAATACCCCCTATGTAGACTTTTAAAGAAATACAGGAAACAGCCAAGACTGGTGT
S
ATTCAGATTTAGCTTGGGAGAGTCTAGTGGGTGTTAGGTTCCCACAGGATGAAGGATCACCATGAACGGTCAGGACCTGACTTAGGAGGACTCAGAAGCT
Celera SNP ID:            hCV11438429
SNP Position Genomic:     875068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59529):
GAGGGTGGCAGTGATCTTGAGGGGGGTCTGGGAGGGAGGAGCCAGCCTGGCCTGGTCTGGCCTGGCCCAGTGTGCCAGCTAGGGCAGGTGCAATGGCTCA
Y
GCCTATAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACT
Celera SNP ID:            hCV11668458
SNP Position Genomic:     434502
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   his(T,1)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59530):
CCTGCTTAGGAAATTTGGGTTGAGGGTGGCAGTGATCTTGAGGGGGGTCTGGGAGGGAGGAGCCAGCCTGGCCTGGTCTGGCCTGGCCCAGTGTGCCAGC
K
AGGGCAGGTGCAATGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACA
Celera SNP ID:            hCV11668459
SNP Position Genomic:     434481
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,5)   his(G,1)      total(G,1|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59531):
AAAAAAAAAAAAAAAAACAACTACCCAAGGCCTGTTGGAATGTCTGCCAGTTTCAACCCACGGGGATAGGGTGAGATGAACATTGATTGAGCCTTTACAT
Y
GGAGACACTATAACAAATGCTTTGTGTACATCAGCTCTTTCAAATTAATACAATTCTACTAGAGGGGACACTATTAGTATCCCCAATTTACAGATGAAAA
Celera SNP ID:            hCV15912144
SNP Position Genomic:     454842
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59532):
CATACCATATGCTGAAAGACTTGGAATGCAAAAACCTAAGGCCAAGGGCACTTCTCAATATTAAACCCTCAGTTGTAATGGAGGCATCAAGACTATAAGA
Y
CCAAGACCTTAACTTTTGTGCTCCTTGTCTTGTGGAGGGAACATCCATCCTCAAAACAGAAACCTGTGAGATCCCTTGAATATACTGACAATACACTGAT
Celera SNP ID:            hCV15912145
SNP Position Genomic:     451299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59533):
AGTAGATATTGGAAATATGAACCCAATATGTTCTTAACATCTCCATGTCGTAATTCTAATTTAAAATCAAAATCTCATCAAATTACATTTTAGATTAAAG
S
ATTGTACCTATCGAAAGAAGAGAATCGAAAATGCGAAAGTCCTTCATTTTCAGTGTGGCCTGAGATTGTTGAAGGATTTGTTCTATTGCATGCTGATAAA
Celera SNP ID:            hCV2842870
SNP Position Genomic:     594772
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5|G,4)   afr(C,5)      total(G,4|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59534):
TTAGAAGAAAACCAGAGGTCTGTGCACACTATGGATTTTTACTACAATGATGCCCTTTCACATACAGCGAGAAGGATTAAGAGGTACTGTATTGTTGGTT
R
ATAAAGTCAAACTTGTGAACAGAGCAAAAGGGCATTGCTTGGTCATTGCAGCTTCCACCCATGCACCTTACACAGAAGTTTGGGCCCTAACATGGAAACT
Celera SNP ID:            hCV15912146
SNP Position Genomic:     451057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59535):
TTCAACACAGTTCTCTTGTCTCTGTTCATGATATAACAGTAAATCCAAGTTGCTTTAAGTAGATATTGGAAATATGAACCCAATATGTTCTTAACATCTC
Y
ATGTCGTAATTCTAATTTAAAATCAAAATCTCATCAAATTACATTTTAGATTAAAGCATTGTACCTATCGAAAGAAGAGAATCGAAAATGCGAAAGTCCT
Celera SNP ID:            hCV2842871
SNP Position Genomic:     594715
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,4|T,4)   afr(C,4)      total(C,8|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59536):
TTTTCCAATGAGAGTACTGATGACATAAAAGGTTATACATTGAATAACCACCCAAATTAGCAGTGTTTCATATTTACACTGTTCAACACAGTTCTCTTGT
S
TCTGTTCATGATATAACAGTAAATCCAAGTTGCTTTAAGTAGATATTGGAAATATGAACCCAATATGTTCTTAACATCTCCATGTCGTAATTCTAATTTA
Celera SNP ID:            hCV2842872
SNP Position Genomic:     594634
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,4)   afr(C,4)   total(G,4|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59537):
AAAAGAAATCTGTTAGAAATGCATATTTTCTGTTTTCACCCCAGAAATCCTGAATAAGAAACACTAAAGGGGAGTGGGCCCAGCTATTTGTGTTTTTGGA
R
GAACTCCTGTTTTAATTTGTTTTTTCGGAAGTCCTCCAGTTTGAGAACCAATGATAAGGACATTTTTCCGGGAATCCAGTTGTTTTAGGAAAGGCCCAGT
Celera SNP ID:            hCV2842874
SNP Position Genomic:     594057
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,6)   afr(A,1)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59538):
TTTAATCACATAATTACTTAAATGGCCTGGCGAGCCGCCTTACCTAGCTGGCCAGGAATTCCAGGAGTCAGGCTTCCTGATCTAAATCTGTCCTGGTCCC
R
TCTTGGCTGGGTGCCACCAGCAGCAACGGCACACTCCAGCTTAAATATCAGTGGGGATAATTCTAGGCCGTTTGTCTGCCTGGTTCTTCCAGGATAGAGG
Celera SNP ID:            hCV2842875
SNP Position Genomic:     660339
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(G,3)   afr(A,1)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59539):
AGATCTTGCTTTTCAGTCTACTGGTATCTCCACTTCTCTCTGCAGCGTGATGTCTAGTCAGAGTTTCCATTCTGTTTTTATGACCCTGGGAGGACTGGGA
S
AGATCTGTGAGGTCATCTTGTCCACCCTCAGCCAGGGCAGGAGTATTCCCTAATGGTAGAGTCAAGTGTTTGGTTTGGTCTTGTTTCTAATGACTCAAGT
Celera SNP ID:            hCV2842876
SNP Position Genomic:     592618
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|G,3)   his(C,3)      total(G,3|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59540):
AGCAGCTTTAGATAATGCATTGTAGGTGTTTTGCAAAAACATACTTTCGTGACTAAACATCATAAGCTCCAAGTGAGTGATTTCCCCGCGTAAATGAATG
W
TTCTGTGAGGATAACACTTCTAAGATGTGAGATTTCAATAAATGAATCTGTAGGCTGCTGTGATGGATACCTTTGGTGGGGTAGGAAGGATCGTCATTTA
Celera SNP ID:            hCV2842879
SNP Position Genomic:     590402
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(A,3|T,4)   his(T,4)   total(A,6|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59541):
TATGTATTTTTGATAAATACCTAGGTGTGAAATTATTGACTCTTAGTGTTTAACTTGTAAGAATGCTGCCAAACAGTTGTCTAAAGTAATTGTATCATTT
T
AACCCCTCGCTAGAAGTGTGTAAGAGTTTATGTTGCTTCACATCCTCATCAGCACTTTGTAATTTCAGTCTTTTTAATTATAGCCTTTTTGTGGGTGAGA
Celera SNP ID:            hCV11667803
SNP Position Genomic:     805182
SNP Source:               Celera
Population(Allele,Count): cau(-,6|T,3)   his(-,6)   total(T,3|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59542):
CCTAGAGCAGGTTGGGCAAGAGGCTTTTCTCTCAGTCACCAGCCCCAAACCCTGTGGTCTTGCCAGCCCAGGACGTGTCAAGACTGCAGCCTTTGCTGAC
Y
TGTGACCATCTCCAAGTCCATGCCCAGGCCCCTACTAGGAGTTGAGGGCAACAGGGGCAGTGGGTCTCTCCTGCTTAGGAAATTTGGGTTGAGGGTGGCA
Celera SNP ID:            hCV11668460
SNP Position Genomic:     434311
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   afr(C,6)   his(T,1)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59543):
AGAAGATCCATTGCAAAATGAAAATATGGGGTTCTAGCCAGGGGCAGGGAACTTAATCTCCCTTTTCCATGGGCCCAACACCTGAATCTAGGGCAAACAG
S
TGTCCCCCAGATTGGATCCTCTGCTCTAGGACACATTCTTGTCCTAGAGCAGGTTGGGCAAGAGGCTTTTCTCTCAGTCACCAGCCCCAAACCCTGTGGT
Celera SNP ID:            hCV11668461
SNP Position Genomic:     434168
SNP Source:               Celera
Population(Allele,Count): chn(G,8)   cau(G,8)   afr(G,8)   his(C,1)   total(G,24|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59544):
GTTTTTAGACAGAATATCACTTTTTTATATTATTCATGGTAATGTAATTCCCCCCTTTAATCTCTTCAGGGTTTCCCATTCAGTCATGATATGCGGTTCA
R
AGAAAGTTGGATCGACCATTAATCATGCTATCTCGACTTCTGTGTGTCTCCTTTTTGTCCATCTCTTAAATCAGTCACTTGGCAGCAGCAAGACATGTGG
Celera SNP ID:            hCV16290653
SNP Position Genomic:     457088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59545):
GGTTATTTCCTTGAGGAGAAAGGAAAGGAGAAGTTGAGTACTTTTCAGTGTTTGTTACTACAAAAGCATGGTGGCATGCCATTGTTCTGAGAGGAAGGGG
S
TTTTTTGCCTTGTCAGCTCCTGATGAAAAAGATGTTGGGTTGGAAAGCTAAGTTACAGCAGGTGAACTTGAATTTGAGGAAAGACAAAGCAAACCCTGGC
Celera SNP ID:            hCV11438434
SNP Position Genomic:     857831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59546):
GGAGGGACAATAGAACCTCTGTAGAATCAAAGGCAGAATTAAAATCTGCATGTTAATAGCTTTCCTGCCAGCCACGAATAGATTCATTCTTCACGTCTCA
R
ATATATAAAGCTTATTTCAAAATAAATTCTGGGGAGCGTTCAACCTGATTGAATCTGCTGTAAGCTCTGTTAATATATTTGTTCGAGTCACTTGCACTCA
Celera SNP ID:            hCV16290654
SNP Position Genomic:     456883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59547):
TTTTCCCTTCTTGATAGGTTGTAGATTCCATGTCTAATCCATGCTTTTCCAATATTCCCTCCTAATCTTTCAGTTGAATTATGGTCTTTAGCTCAAATGC
R
TGACATGATGTGTGTGCCTTTGGAGTGGGGCGGTATTAGTCAGTCGATGGTTATTTCCTTGAGGAGAAAGGAAAGGAGAAGTTGAGTACTTTTCAGTGTT
Celera SNP ID:            hCV11438435
SNP Position Genomic:     857682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59548):
CAGGTTTGTCCCATTTGTACTGACTCTGACCCAGGTTGTCATGACTTGAGACTCACTAGAAGTTTCAGAAAGATGCAGACTGCTTTAAAAAAAAAAAAAA
A
GGGCAAGGGGAGGTGTGAGAAGAAAGTATAATTCTTTTTCTTCTAACTGGAGATATAAAAATCATATAAGCATGATTTATGATTTGATTGGAACATTGTA
Celera SNP ID:            hCV11668463
SNP Position Genomic:     433462
SNP Source:               Celera
Population(Allele,Count): cau(-,9)   afr(A,1)   his(-,9)   total(A,1|-,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59549):
GTGGGCTTAGAAGAAAACCAGAGGTCTGTGCACACTATGGATTTTTACTACAATGATGCCCTTTCACATACAGCGAGAAGGATTAAGAGGTACTGTATTG
K
TGGTTGATAAAGTCAAACTTGTGAACAGAGCAAAAGGGCATTGCTTGGTCATTGCAGCTTCCACCCATGCACCTTACACAGAAGTTTGGGCCCTAACATG
Celera SNP ID:            hCV16290655
SNP Position Genomic:     451051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59550):
TTATTACAGCGCAGGTGCATCTTGCTTTTGAGTGCTAACTGAGATGAAAGGAGTGAGGAAACGCTCTCTTCTTCTTGCAGGGGAGGGCTGGCAAATTCAG
Y
GAATGCAGAGTCGGCTGGGAGCCTTTCGGCTGGAAAGCTCTTCCTCTGATGAGCTGTCTGTTACAGATTTTCAGGGATGGCCCTTGATAAGGCAGGGGTG
Celera SNP ID:            hCV11438436
SNP Position Genomic:     854924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59551):
CATGATCTCGGCTCACTGCAAGCTCTGCCTCCTAGGCTCATGCCATTCTCCTCCCTCAGCCTCCTGAGTAGCTGGGACTGCAGGCGCCAGCCACCACGCC
Y
GGCTAATTTTTTATATTTTTAGTAGAGACGGGGTTTCACCATGCTAACCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCAGCCTTGGCCTCCCAA
Celera SNP ID:            hCV11668464
SNP Position Genomic:     432948
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,1)   afr(C,3)   his(C,3)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59552):
GCTCCAGGTAACCACTCATCTACTTTCTGTCTCTATATAGATTTGCCTATTCTAGACTTTTCATATAAATAAATCAGATACTGTGTGGCCCTTTGTGTCT
Y
GATCCTTACACTTAGCATCATGTTTTCAAGGGTCATTCATGTTGTAGCATGTATCAGTACTTCTTTTTTTAGGGCTGAGTAATATTCCATTTACGGATAT
Celera SNP ID:            hCV396204
SNP Position Genomic:     257722
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3)   afr(T,1)   his(C,3)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59553):
TCTTTTTTTTTTTTTTTTTTGAAATGGAGTCTTGCCCTGTCCCCCAGGCTGGTGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCTGCCTCCTAGGCT
Y
ATGCCATTCTCCTCCCTCAGCCTCCTGAGTAGCTGGGACTGCAGGCGCCAGCCACCACGCCCGGCTAATTTTTTATATTTTTAGTAGAGACGGGGTTTCA
Celera SNP ID:            hCV11668465
SNP Position Genomic:     432886
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   afr(C,2)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59554):
GGAATGCAGTGGCACGATGTTGGCTCACTGCAAACCCTGCCTCCCAGGTTCAAGCGATTCTCCTCTCCCAGCCTCCCGAGTCTCTGGGATTACAGACGTG
Y
ATCACCAGGCCCAGCTAATTTTTATATTTTTACTCGAGACGTAGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCGTGACCTTAGGTGATATGCGCCC
Celera SNP ID:            hCV396206
SNP Position Genomic:     258952
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   afr(C,2)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59555):
TCTAAACCAAAGGACCTAAATAAAATATTAATTTTTCATAGTGTTTAATATGTGCCAGTATATATAAATTCAAGGTAAGGTAGACAGCTGTAAACTGGAT
S
CCCTGCTGTACCCAGCAAATGCTGAGAGCCCTGCTTCCCCTCTTGTATTCAAATGGCTCTATAAGAGAGGAAGTAGTACAGCTATCAGTAACAATGCCAT
Celera SNP ID:            hCV11668467
SNP Position Genomic:     430929
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   his(G,1)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59556):
TCAAGCGATTCTCCTCTCCCAGCCTCCCGAGTCTCTGGGATTACAGACGTGCATCACCAGGCCCAGCTAATTTTTATATTTTTACTCGAGACGTAGTTTC
R
CCATGTTGGCCAGGCTGGTCTCAAACTCGTGACCTTAGGTGATATGCGCCCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCACGCCCAG
Celera SNP ID:            hCV396207
SNP Position Genomic:     259001
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,1)   afr(A,2)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59557):
GTACTTCATGATCTTGGAAGAAGGAAGGCGCCCCTCCTTCTTAGCTGATTGATGATGAGATAGAAAGATAGAAACAGCCCCATCACTATGAGATGGAAAC
M
CTTCTTTCCTTCAGCTGACTTCCCTCTCCTTCATTCCCAACCAAGTTTGACCCCGCCGCAGTGGAGATTGTGGCAGATGGGTCAGATAGCATGTGTCCTG
Celera SNP ID:            hCV16185464
SNP Position Genomic:     711461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59558):
CCTTCTCAGAGTCAGTAGGATAGTTTCCCTTCCTGGAAGATTGAGATGAAATAAAGCTTTAGGAGTTGGTATCGCACGCAGGCATTAAATGGATTGTGAA
S
AGGGACTTTGTTCCCCCTCAGTCTTGTCTCTGCCTCCGTAAAGGAGTAAGTTAAAAAAGAAAGTTTCTTTTTTTAAAAAAAAGCCTTACTGCTCAATAAA
Celera SNP ID:            hCV11438439
SNP Position Genomic:     854416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59559):
TGATGATCCAGAGCTTTGGAGTCAGCGAGACAGTAGAGAGTGGTGGAGATGGTGGCGCACAAGAGGGTCAGTGCCCCATCTCAAGGAACAGCTGCACCTC
R
GCCTACGCGATTGTGAAAATGTGAGCATATGCAGGCCAGACCTTGGCTTCTCTGTCTTCATTTTTCACAGGAGCCAGAAGTTTGGATGTGCAATGTGAAA
Celera SNP ID:            hCV396208
SNP Position Genomic:     259268
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59560):
AAGTAAAACCACAGGGGATCTGTTGGAAGTGGCATGATGGAGGAATTTTAAAAGAATTGAACAAATAAAATAGTCAGAGCTCAAAAATTGAGTACTGCTT
Y
GTTTCTCCCAAATAACCATCACCAGACAAACAGGTGTGTGTGTGGGTGGGGGAGGTGGCCTGGTGGTACTTCATGATCTTGGAAGAAGGAAGGCGCCCCT
Celera SNP ID:            hCV16185465
SNP Position Genomic:     711295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59561):
TCCAGAGCTTTGGAGTCAGCGAGACAGTAGAGAGTGGTGGAGATGGTGGCGCACAAGAGGGTCAGTGCCCCATCTCAAGGAACAGCTGCACCTCGGCCTA
Y
GCGATTGTGAAAATGTGAGCATATGCAGGCCAGACCTTGGCTTCTCTGTCTTCATTTTTCACAGGAGCCAGAAGTTTGGATGTGCAATGTGAAATCTCAC
Celera SNP ID:            hCV396209
SNP Position Genomic:     259274
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59562):
AGCAAAATGGGGTAAGAACAGAATCTGCCTTGCAGAGAATTAACCGAGATGATGTGTGGAAAGGGCCTATCCCAGAGGCTGGTGTACCATGGTGGCTTCT
Y
CTGGCTCTGCTGGTTATTATTATTAGCATTATTGTCATTGTGAAAGTGACAAGGAATGTGCCTGTGCGTGAATCTCACTCTTAGATCAGACGTGCTTTTG
Celera SNP ID:            hCV16185466
SNP Position Genomic:     709464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59563):
TTGAAGGAATGTTTCACTTCCAAATCCAGATCTCTGACTTCCCTTGAAAATTTGGAGTGCCACTCAAGTCGGCCGCTCTGAGCTAGAATCCTGGTGTTCA
R
AATTGGCAGGAAGGGCACAGGGGCAAGGTATAGGCTCACGTCTCCACATTCTGCACCTCCCAGGCTCCTGCCATTGATGTGAGCGGGTTCCTGTACTGCA
Celera SNP ID:            hCV16014506
SNP Position Genomic:     547831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59564):
GGATCTTCAGGTTTGGAGGGAGGCCGATAGAGAGTGTCTGGAGTTGCCAACGTCCTCTCCTTGGGTCATGGGTGTGTGTGTGTGTGTTTTCTTCTTGTTG
K
TGGGTTTTTTTTTTTTTTTTTTTTTTTTTTTGGCTTTTGCGCCTATGGTGACTTTTAGCGAATGGATACTATTGAAGGAATGTTTCACTTCCAAATCCAG
Celera SNP ID:            hCV16014507
SNP Position Genomic:     547659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59565):
AATGGATCTTCAGGTTTGGAGGGAGGCCGATAGAGAGTGTCTGGAGTTGCCAACGTCCTCTCCTTGGGTCATGGGTGTGTGTGTGTGTGTTTTCTTCTTG
K
TGTTGGGTTTTTTTTTTTTTTTTTTTTTTTTTTTGGCTTTTGCGCCTATGGTGACTTTTAGCGAATGGATACTATTGAAGGAATGTTTCACTTCCAAATC
Celera SNP ID:            hCV16014508
SNP Position Genomic:     547656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59566):
CCCCTGTGGGCTTAGAAGAAAACCAGAGGTCTGTGCACACTATGGATTTTTACTACAATGATGCCCTTTCACATACAGCGAGAAGGATTAAGAGGTACTG
W
ATTGTTGGTTGATAAAGTCAAACTTGTGAACAGAGCAAAAGGGCATTGCTTGGTCATTGCAGCTTCCACCCATGCACCTTACACAGAAGTTTGGGCCCTA
Celera SNP ID:            hCV15912153
SNP Position Genomic:     451046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59567):
GTGGGAATGTCTCATCCCCCTGTGGGCTTAGAAGAAAACCAGAGGTCTGTGCACACTATGGATTTTTACTACAATGATGCCCTTTCACATACAGCGAGAA
R
GATTAAGAGGTACTGTATTGTTGGTTGATAAAGTCAAACTTGTGAACAGAGCAAAAGGGCATTGCTTGGTCATTGCAGCTTCCACCCATGCACCTTACAC
Celera SNP ID:            hCV15912154
SNP Position Genomic:     451030
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59568):
CCTGGGAAATATAGCAAGATCCCAACCCTATTAAAAAATTAAAAATGAAAATAAAATTTTAAAGAAAGGTATTTCTCCCCTTCACGGTAATTTGGAGCCA
R
TACTTCTTGCACCATTCATTTGTCCACAGCATGGGACAAAGGATAATGCCTTAATGCCTGCTGCAAATAGAACAGTGGTGCTTAGCAGCTTTAGATAATG
Celera SNP ID:            hCV2842880
SNP Position Genomic:     590218
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4|G,2)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59569):
ATACTTGAAGGTAGCCAGTGGACACGTGGGGCCATTTCAAGCTAAATTAAATTTTAAATAAAATTAAAGATTCAATCTCTCACTCACACATTACAAGTGC
K
AAACATCCGGACACATCTAGTGGCTCCCACTGTGGGTAGCACATACAGAAAGAACGTTTCCGTGACAGTAGAGTGTCCCATTGCACAGTTTGGGTATGGA
Celera SNP ID:            hCV2842882
SNP Position Genomic:     588107
SNP Source:               Celera
Population(Allele,Count): cau(G,4|T,4)   his(G,4)   total(G,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59570):
TTAGCCAGGTGTGGTGGCATGCATCTGCAGTCCTGGCTACTCAGAAGGCTGAGGTGGGAGGATTGCGTGAGCCCAGGAGTTCAAGACCAGCCTGAACGAC
R
TAAAAAGACCTATCTCTACAAAAATTAGCTGGGCATGGTGTCACGTGCCTGTAGTCCTAGCTACTCGGGAGGCTGAGGTGGGAGGATCGCTTGAGCCCCG
Celera SNP ID:            hCV2842883
SNP Position Genomic:     587797
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,2)   his(A,3)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59571):
TAATGAAAAGTGAGTGAATGGGCTGGGTGTGGTGGGTCACACCTGTAATCCTGGCTACTCAGGAGGCTGAGACAGGAGGATCGCTTGAGCCCAGGAGGTC
R
AGGCTGCAGTAGGGTATGAGCGGGCCACTGCACTTCAGCCTGGGCAACAGAGCGAGACCTTCTGTCTAAAAATATTTATCTATATTGAGTGAATAAATGA
Celera SNP ID:            hCV2842884
SNP Position Genomic:     585746
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59572):
CACAGGTCAAACATCCTGAGCCTGTTCTGTGGTCAGTTACTCATTAGCAGCCTCTGCTCTAGGAGGAATAGTTATGGGTCCTTTCAGACATGCAACCCCC
M
AAACTCCATGTTGTTTACAGTGTGGGACACCTGACTTTCACCTTTTATGATACCTGCCTGGGGCATGCATGTGGTGACTTTTTCCATCTCTGGTCTCTAT
Celera SNP ID:            hCV2842885
SNP Position Genomic:     585018
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   afr(C,2)   his(A,5)   total(A,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59573):
GGTCAGGCAGCTGTTTGACAGGATTCTTGCAAATGTTTTTGGTTTCTCTGTCTACTCATTACGTACACTCTGCCAGAGGTTGAAAACTCAATGTTGAGAT
Y
ACATACATCCTGAAAACACTGTTTAAATAAAATTTTGGCCTGCATCCTGTTTTTGAAAACTTGCAATGGCTTGCCAACGTTTTCAAGTTGAGAAGTTTCA
Celera SNP ID:            hCV2842886
SNP Position Genomic:     584782
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,2)   afr(C,3)   his(C,3)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59574):
GTTTTCGAGACTGAGTCTTGCTCTGTCGCCCAGGATGGAGTACAGCAGTGCAATCTCGGCTCACTGCAGCCTCCAACTCCCGGCTCCAGTGATTCTCCTG
Y
CTCAGTCTCCCAAGTAGCTGGGATTACAGGGATGCGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGC
Celera SNP ID:            hCV11438440
SNP Position Genomic:     853727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59575):
TTAAAAAAAATAAATTAAATTTTTAAAAACATGACTTTCTGGCCAGGCGCAGTGGCTCATGCCTATAACCCTGCACTTAGAGAGGGCAAGACAGAAGGAT
Y
GCTTGAGGCCAGGAGTTTGAGACCAGCCTGGGCAACATAGCGAGACCTTGTCTGTACTAAAAAATTATTAAAAGAAAATATATATATTTTTTTAAATCAT
Celera SNP ID:            hCV2842889
SNP Position Genomic:     583190
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|T,2)   afr(C,2)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59576):
CAGGAGCCAGAAGTTTGGATGTGCAATGTGAAATCTCACAAATTAAACATGTTACATAACTGTATTTTGTTTCCTATCTCTGCTGTAATAAATTTTCTCA
W
TGTTAGTGACTTAGAACCACACAAAAGTTACACTTTACAGTTTTGGAGGTCAGTGGTCCAAAATAGGTCTCAGTGGGCTAAAATCGATGTGTCAGCAGGA
Celera SNP ID:            hCV396210
SNP Position Genomic:     259436
SNP Source:               Celera
Population(Allele,Count): cau(A,9|T,2)   afr(A,9)   total(A,18|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59577):
TTGTTTGTAAGAATCAGTTGAGGACAGATGGGACTATTTGCATGGATTGGTGTCATGTTTGAAGTCAGTTACCAGAGGGTTTCTTTCAACAGAGTATACC
M
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTAAATTGCACAGACCCCAGCTTAGGACCTGGACTTAATCTTCATGATGTTTGTAAAGTAATACTTCTTGG
Celera SNP ID:            hCV16290662
SNP Position Genomic:     449633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59578):
ACTTAGAACCACACAAAAGTTACACTTTACAGTTTTGGAGGTCAGTGGTCCAAAATAGGTCTCAGTGGGCTAAAATCGATGTGTCAGCAGGACACCATTT
Y
TTTCTGTAGGTTCTAGAAGAGAACCCACTTCCTTGCTGTTTCCAGCTTCCAGGGACTGCCCAAATCCTTTGGCTCATGGCCCCTTCCTCTATCTTCAAAG
Celera SNP ID:            hCV396211
SNP Position Genomic:     259545
SNP Source:               Celera
Population(Allele,Count): cau(C,10|T,3)   afr(T,3)   total(C,10|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59579):
AGCAATTTACAAAATTGCACATACTCTATAAATACACTTCTGTTATAAAAATAGACACGTACGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACT
Y
TGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCG
Celera SNP ID:            hCV16290663
SNP Position Genomic:     448846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59580):
CCCAAATCCTTTGGCTCATGGCCCCTTCCTCTATCTTCAAAGCCAGGGATGGCTGCTCAAGTCCTTCTCAAACTGCCCTGTTCCTGGTTCTCTCTCTTCT
K
CTTCTGCTTTTAAGGAACCTTGTAACTTCAGGGAGTCTACCCTGATAATCTGCGATAATCTGCCTATTTGAAGGTCAGCCAATTAGCAATCTTAATGCCA
Celera SNP ID:            hCV396212
SNP Position Genomic:     259704
SNP Source:               Celera
Population(Allele,Count): cau(G,12|T,2)   afr(G,12)   total(G,24|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59581):
AAACTCCTGAGGGATGCTCAGGAAACCAAAAAGGATGTCTGCATGGAGGACAAGAAGGCACAAATCGTCTGATTTCACCCCATCCTAAGATCTTGTGACT
Y
CAGCTTTGTTTTGGACTGGGGCATTGGATCTCCCACATGCCCTCTCTTAAGTCGTGCATTTGACGCATATTTAATAAGCACCTACTGTGTGCCATTAGAG
Celera SNP ID:            hCV16290664
SNP Position Genomic:     483149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59582):
CCGCTGATCTGCATAGCACTTCGCAATGAAGCTGTGCTCTAGAAACATACCACGATCTACTGGACTTTCTTAAATAAGGTGGTTGTTCAGGAAATTCCTC
Y
AGTTAATTTTACTTTAATTCCCCCTACAAGAATGCCGAGACACCTCTGCCTATTTTCTCTTTCTGTGTTTGTTGTTTCTTTTGTTTTTGTTTTCGAGACT
Celera SNP ID:            hCV11438445
SNP Position Genomic:     853538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59583):
TGCTCAAGTCCTTCTCAAACTGCCCTGTTCCTGGTTCTCTCTCTTCTGCTTCTGCTTTTAAGGAACCTTGTAACTTCAGGGAGTCTACCCTGATAATCTG
S
GATAATCTGCCTATTTGAAGGTCAGCCAATTAGCAATCTTAATGCCATCTACAACCTTAATTACCATTTGCTATGTAACATATTTATAGATATCAGGGAT
Celera SNP ID:            hCV396213
SNP Position Genomic:     259757
SNP Source:               Celera
Population(Allele,Count): cau(C,7|G,6)   afr(G,6)   total(G,12|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59584):
CCTAAGGTATTGCTGTCCTCACCGTCCTATGGGGAGATAGGTCACTTTCCCAAGTCTGGGCAGCCAGCAGCAGGGCTAAGATCACCACTCAGACCCTGTG
W
TTTTATTTTTCATCTCCTCACATCTGGCGCTGAATGTCAGGACCTTCCTGGCCTCTGGGAAAGACACAGGATGGCTGTTTTGAGAGGAGTGTGAAATACA
Celera SNP ID:            hCV11438446
SNP Position Genomic:     845528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59585):
CTCAAACTGCCCTGTTCCTGGTTCTCTCTCTTCTGCTTCTGCTTTTAAGGAACCTTGTAACTTCAGGGAGTCTACCCTGATAATCTGCGATAATCTGCCT
R
TTTGAAGGTCAGCCAATTAGCAATCTTAATGCCATCTACAACCTTAATTACCATTTGCTATGTAACATATTTATAGATATCAGGGATTAGTTCATGAACA
Celera SNP ID:            hCV396214
SNP Position Genomic:     259770
SNP Source:               Celera
Population(Allele,Count): cau(A,9|G,3)   afr(A,9)   total(G,3|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59586):
TTGAAGGTCAGCCAATTAGCAATCTTAATGCCATCTACAACCTTAATTACCATTTGCTATGTAACATATTTATAGATATCAGGGATTAGTTCATGAACAT
M
TTGGGGTAGAGGGCATTCCACATACAGCAGTACCTATAATGTATATGCTTCTTAAAGAATGCATGAGTCTTATTTATTTTATGTCCTTGGAGTGTATAGC
Celera SNP ID:            hCV396215
SNP Position Genomic:     259872
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,7)   afr(C,7)   total(A,3|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59587):
CTCAAATTTCTGGCTGGTACACCCTGGGTAAGGTCCACAGGCTGGATGGGTTTTGGAACATGTCTTGATTGTACTTTTTCCTCTTGGTTTGGAAAGCAAC
R
TACCCTAGGTAAGGAGAGATTTCTGACAACAGCTCAGCAATCACAGTTTCCAGAAAATGGCTCCAGTGGATCAACTATGAGTTAAGTAAAAAAAAAGTCA
Celera SNP ID:            hCV11438447
SNP Position Genomic:     844103
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59588):
CACTTTGGGAGGCCGAGGCAGGAGGATCACTTGAGCCTGGGAGTTGGAAACCAGCCCAGGCAACATAGTGAGACCTCATCTCTTTAAAAAAAAAAAAAAA
A
GAAAGAAAAATTAGCTGGCATGGTGGCACATGCCTGTAGTCCCAGCTTCTGGGGATGCTGCAGCGAGCCATGATTGTGCCACTGCTCTCTGGCCTGGGCA
Celera SNP ID:            hCV11668476
SNP Position Genomic:     417546
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59589):
GCCAGGGGTGGTGGTGCATGCCTATAATCCCAACACTTTTGGAGGCCAAGGTGAGGAGACCACCTGAGGTCAGGAATTCAAGACTACTGGGCAACATGGT
R
AAGCTCTGTCTATCCTAAAAATGCAAAAATTAGCCGGGAGTGGTGGTGCATGTCTGTAGTCACAGCTACTTGGGAGGCTGAGGCAGGCGAACTGCTTGAA
Celera SNP ID:            hCV396218
SNP Position Genomic:     262109
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,3)   afr(G,3)   his(G,3)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59590):
GGGCTTAGCTTGGGTATCATCGTGGTTATTCCAAGCAGTCTTCCAGCTGGACTAGCTTTTCGGGAACACGTGTGTGTTTGTGCTGGAAGCCCCAGTAATA
T
CATTTAATTCGAAAGCTTTTTTCTATGATGAATTATTCAGGCAGTGTTTACCAAAATTGTCATTGATCAGTACAGACCCAGAGAGCATGTACAACAGCGC
Celera SNP ID:            hCV11668479
SNP Position Genomic:     408373
SNP Source:               Celera
Population(Allele,Count): cau(-,5|T,1)   total(T,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59591):
TGGTGGTGCATGCCTATAATCCCAACACTTTTGGAGGCCAAGGTGAGGAGACCACCTGAGGTCAGGAATTCAAGACTACTGGGCAACATGGTGAAGCTCT
S
TCTATCCTAAAAATGCAAAAATTAGCCGGGAGTGGTGGTGCATGTCTGTAGTCACAGCTACTTGGGAGGCTGAGGCAGGCGAACTGCTTGAACCTGGGAG
Celera SNP ID:            hCV396219
SNP Position Genomic:     262117
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,2)   afr(G,2)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59592):
GGAGGAGACTTTGACTCTAGATGACATGATGTACCCTGTGTTCTGCAAGCTGGAGAACATCATGTAGAATCTGAAAATTAGGAGAGAGAGGCAATCAGAA
R
AAGACAGAGTGGTGTTGCAGGGACCTGCAGTCAGCCTAGTCCCCCAGTTTGCGTTTGAATTTGGTCCCAGATTTTTTTTGTTTTTGTTTTTTAGTAGTTA
Celera SNP ID:            hCV15912164
SNP Position Genomic:     450001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59593):
GGTGCCATTTTCCTGACTGTAGATACTTGGGTAAGGAGGAGACTTTGACTCTAGATGACATGATGTACCCTGTGTTCTGCAAGCTGGAGAACATCATGTA
R
AATCTGAAAATTAGGAGAGAGAGGCAATCAGAAGAAGACAGAGTGGTGTTGCAGGGACCTGCAGTCAGCCTAGTCCCCCAGTTTGCGTTTGAATTTGGTC
Celera SNP ID:            hCV15912165
SNP Position Genomic:     449967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59594):
AAGCACGGGGGTTTATGTGATGGCTCCACAGAGCAGTGAAAAGACTCCCGCCCTACTGCTCGCAACCTCAGATGTCCCTGGGCACTAGCCCATCTGTATG
K
CTTTAAAAAAAATAAATTAAATTTTTAAAAACATGACTTTCTGGCCAGGCGCAGTGGCTCATGCCTATAACCCTGCACTTAGAGAGGGCAAGACAGAAGG
Celera SNP ID:            hCV2842890
SNP Position Genomic:     583087
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(G,1)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59595):
GTCAGGAGATCGAGACCATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCACCTGTAGTCCCA
R
CTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGAGCCCGCCACTGCACTCCAGCCTGGGCGACAGAGC
Celera SNP ID:            hCV15912166
SNP Position Genomic:     448975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59596):
GTGAGGTGAGATCAGTAGAAGAGTACAATAAAACAGGAATTTTCAGAGCATGTAATTTCTTCTTGGAAGTGAAAGGCACTGGAGAATGGTGCAGAATAAG
Y
ACTAGCCTTAGAGAGAGGATGCCCTGCCCCAGTCTCTTTCTCTGAGTAGCAGAGAGCTGGCTGTGCTAGGAAACTCTTCGCCTCTCTAACACCACGTTTA
Celera SNP ID:            hCV2842893
SNP Position Genomic:     580718
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(T,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59597):
TTCTATGGATTTTCACTAAAATAGAATCATCGCCTTGGTGATGGATAGAAAAAGTAAAGCAATACATCCTGATAAATGCTGTGCCTTCCTCCTTCGTCTC
Y
CTGGCGGTGACCTTGTGCAATCCATAAGAGGGCAAGGCTGAGAGCCCCGGCCACCGCCGCCGTGTGTCAGAACTTGGAAATTTAAGTAGCTTTGAAACCC
Celera SNP ID:            hCV2842894
SNP Position Genomic:     580365
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,2)   cau(T,7)   afr(C,2)   his(T,7)      total(C,4|T,14) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59598):
GATAGCATGAGACTGTGTCTCAAAAATTAAAAAATAAAACATAAATAAATTTCTATTGTTTTAAGACAATTTGCCTGTGGCCCTAGGAAACCAGTATAGA
Y
AACTTGTGATGGTTTAGCTTATTTAGTACAACAACCCTGCCCCTTCTAGTTTTTATGATAACCTCATTAATTGCCGGTACTCTCAGAGCCCTGATTTTCT
Celera SNP ID:            hCV2842895
SNP Position Genomic:     578941
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59599):
GGGAGGCTGAGGCAGGTGGATCACTTCAACCCAGGAGTTCGAGACCAGCCTGGGCAACAAGGCGAGACCCCGTCTCTACAAAAAATACCAAAAAATGAGC
Y
GGGTGTGGTGGGGCATGCCTGTAGTCCCAGCTACTTGGGAGGCTGGGATGGAAGCATCATTTGAGCCTGGGAGGTGGAGGTTGCCGTCAGCTGAGATTGT
Celera SNP ID:            hCV2842896
SNP Position Genomic:     578718
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,1)   his(C,4)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59600):
AACAGAGCCTGCAAGCATTTCTCCTGCAGAACCCCCAGAAGGGACTCAGCCTGCAGACACTCAGATTTCAAACCTCTGGCTTCCTGAACTGTGAAAGAAT
R
AATTGCTGTTGGGCCAGGTACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACTTCAACCCAGGAGTTCGAGACCAGC
Celera SNP ID:            hCV2842897
SNP Position Genomic:     578566
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|G,1)   his(A,2)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59601):
GAAGCTTTACCCCTGAGAAGAGCAGGCATCAGATGGGCTTTGGAATCTACATGGGTGTTTGTAGGTAGACCATCCTGGAAGTTGAGTGATGGGGAATAAA
R
GGAAGAAAGTGCATTCTGAACAGAGGGAATAGCAGGTACAGCAGCTCAGACATGGGCACCTTCAGAGCGTGTCTGAGTCTTCCTGATGAGACACGTGGTG
Celera SNP ID:            hCV2842898
SNP Position Genomic:     576196
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59602):
GACAGCAGGGGGTGAGGATAAGAAGGAGGAAGCTTTACCCCTGAGAAGAGCAGGCATCAGATGGGCTTTGGAATCTACATGGGTGTTTGTAGGTAGACCA
Y
CCTGGAAGTTGAGTGATGGGGAATAAAAGGAAGAAAGTGCATTCTGAACAGAGGGAATAGCAGGTACAGCAGCTCAGACATGGGCACCTTCAGAGCGTGT
Celera SNP ID:            hCV2842899
SNP Position Genomic:     576168
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59603):
GTGTTAATCTTACACCTACCCATTAGTCTATAAAACTCCTGAGGGATGCTCAGGAAACCAAAAAGGATGTCTGCATGGAGGACAAGAAGGCACAAATCGT
Y
TGATTTCACCCCATCCTAAGATCTTGTGACTTCAGCTTTGTTTTGGACTGGGGCATTGGATCTCCCACATGCCCTCTCTTAAGTCGTGCATTTGACGCAT
Celera SNP ID:            hCV16290671
SNP Position Genomic:     483117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59604):
TCAGGTGGGACTCATGGAGATTTTCCGTTCTTTGGAGACTAGCAGCGACTGCAGATTACTCATCAGCTGTCTCCTTGAGTCCACAATGCCGGGCGGTGGA
Y
GGGCTTCCTGCCTCCTGGCCCAGGGCCCCTTTGCCGGCTCTTAGTGTAGAGCACTAGTTGTACCATCTGGTAGTTGTTTGTGCCTGCGACTCTCTTCCCT
Celera SNP ID:            hCV11668480
SNP Position Genomic:     407195
SNP Source:               Celera
Population(Allele,Count): chn(C,4|T,1)   cau(C,4)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59605):
CTGTAGTCACAGCTACTTGGGAGGCTGAGGCAGGCGAACTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGGAGCCACTGCACTCCAGCCT
R
GGTCACAGAGGGAGACTCTGTCTCAAAAGAAAAGAAAAGTAGAGAGGATAGTATAATGAGGTTCCTGTCTGCCAGTCACTCTATAGTAACTATTAGGAAA
Celera SNP ID:            hCV396220
SNP Position Genomic:     262263
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,2)   afr(G,2)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59606):
GGGAGGGAAGAACCCTATGGGCAGAAATGTGACTTTCTGTAGCAAAGATGTACTGTTTCCCACTGAGAAGAATCAAAAATAGAAAAGTGCTTCCTTGTCT
Y
TCTATATTGTTATTAAAACAAGTAGATGCATTTTCATTGAATCAAGGCAGTTTTCCTTTATAAAATGTCCTATTTCATATCACTGTTCAAACTTGACATC
Celera SNP ID:            hCV16290672
SNP Position Genomic:     476856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59607):
TTACAGGATACCTAGGGACCTGTTGGGGTGGGAGGGAAGAACCCTATGGGCAGAAATGTGACTTTCTGTAGCAAAGATGTACTGTTTCCCACTGAGAAGA
W
TCAAAAATAGAAAAGTGCTTCCTTGTCTCTCTATATTGTTATTAAAACAAGTAGATGCATTTTCATTGAATCAAGGCAGTTTTCCTTTATAAAATGTCCT
Celera SNP ID:            hCV16290673
SNP Position Genomic:     476827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59608):
ATCTGTAAAGTAAAAATAACCGTCGTCGTCATTTCTCAAGCGTGACGATACTGTTACACGTTTACTGCATATTCTGCATACCAAGCACATATCCGTCACA
Y
GCAGTGTGGCCAACTTCCGAGAGGCCGGCATTCAGCCAAACAGCCTGAAGAACCAGGAGAAATGCCTGAGTTTCCAAATGGCTTATGGTAAGTTGTTGCT
Celera SNP ID:            hCV8029205
SNP Position Genomic:     282331
SNP Source:               Celera
Population(Allele,Count): chn(C,7)   cau(C,7)   afr(T,1)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59609):
CCAGTCACTCTATAGTAACTATTAGGAAACCCCTTTTTTTCTCTGAAGTCATTGCTCCTGTGTGTGTGTGTCTGTATATAAAAAAAAGTATGTATACATA
Y
ACGTATATGTATGTGTATAGATAAAAATGCATGTATGGTGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGAATC
Celera SNP ID:            hCV396223
SNP Position Genomic:     262435
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(C,1)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59610):
TAAACTCCCACTGTTTATAAGTCACCCAAATTGTTGGTATTAAATTAGATGTGTACCATCTTATGTCTCTTCTTTCAGAAAATGAATCTCTGTTTTTTTT
T
CTCTTTCTCCTAAATGTTAGGAATTTTCTGAAGTTTGAAACCAAGTGGCACAAAAACATTGCATTTATTACATAATTGCTCCTAGGGAAATACACATACA
Celera SNP ID:            hCV11667828
SNP Position Genomic:     797394
SNP Source:               Celera
Population(Allele,Count): cau(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59611):
GTGTGTGTGTCTGTATATAAAAAAAAGTATGTATACATATACGTATATGTATGTGTATAGATAAAAATGCATGTATGGTGCTGGGCGCAGTGGCTCACGC
Y
TGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGAATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCGTGTCTCTACTAAAAG
Celera SNP ID:            hCV396224
SNP Position Genomic:     262496
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(T,1)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59612):
TGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGAATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGG
Y
GAAACCGTGTCTCTACTAAAAGTACAAAAAATTAGCCTGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGACCGAAGAATTACTTG
Celera SNP ID:            hCV396225
SNP Position Genomic:     262574
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,3)   afr(T,3)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59613):
ACTACCTTGCTTGCCTATGGGACATGTTCCCATTTCAGTGCATACTTGACCTTTACCATAAATCACATATTTGTAAACTGTACCCTCCTGCTGTTTTATT
R
GGCATGGAGAAGCAGTCTTTTCTTTTTCTTGATGGCCTGGGTTGACCAGATCCTGACTTTTGTGGAGACATTAAAGTGCTAGAAATGATAATGGTGAAAG
Celera SNP ID:            hCV11438457
SNP Position Genomic:     818779
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59614):
TGGCTAACACGGTGAAACCGTGTCTCTACTAAAAGTACAAAAAATTAGCCTGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGACC
S
AAGAATTACTTGATGAAACATGGCAGACGACATAGACCAGCAGCAAACTACCAACACTGTGGAGGACCCCCTGGATCTTAGGCTCAGCCCAGAGGAGCGA
Celera SNP ID:            hCV396226
SNP Position Genomic:     262662
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59615):
ACAAGGGCCCTGACAGCCTTTTCTGGACTTGTAGTATGTGCAAGAATTAAGCTTTTTCTGTATCAAGTCACCGTGTTATGGGGGTTGTTCCTCACTGCAG
S
AGAACCTTGTTCATCCGTATTAGAACAGTGTGGTGTTTCATGTTAGCAGAGTGTATCAGGATCTTTTGTTTTTTTTTTTTTTTAAATTAAGGATGCTGTA
Celera SNP ID:            hCV11438458
SNP Position Genomic:     817846
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59616):
TGTAGTCCCAGCTACTCGGGAGGCTGAGACCGAAGAATTACTTGATGAAACATGGCAGACGACATAGACCAGCAGCAAACTACCAACACTGTGGAGGACC
Y
CCTGGATCTTAGGCTCAGCCCAGAGGAGCGAATTTGTGTGAAAATGAGAAACGACCGAGAGCTTCGAGGCAGATTACATACTTATGATCAACATTTAAAT
Celera SNP ID:            hCV396227
SNP Position Genomic:     262731
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,2)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59617):
TACTATAGAAATTGATGAGGAAACATATGAAGAGACATATGAATCAACAAAACAGAATATTCCAGTGTTCTTTCTCCGGGGAGATGGCATTTTCCTGGTT
S
CCCCTCCACTGAGAGTTGGCTGAAACAAAGAATTTGTCCTGTATGGAAAACAGGAGACTTTGTACAGTGGCCTCTCTAAATGTGCAAGATATTCAAAAGA
Celera SNP ID:            hCV396228
SNP Position Genomic:     262964
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,3)   total(G,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59618):
AACTCTCTCATTGCCTTCAGAGAGTTGGTGATTTTGGGGGGGGCACCAGTGTGAGTCCTTTGATCCTTGAATGACAATTTGGATTTGTCTCAAGGTCCTG
M
TAAATGGGAACTGGAGGAACTGGCCTACTATGGTATTACAGGCTAGCACATGGTTTGCATTCTGAGGGAGCTCAGAATAGGCAAGGTAGAAGACATAGGT
Celera SNP ID:            hCV16082572
SNP Position Genomic:     965094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59619):
AGCCAAGGGATGGCTCAGAAGGGTGAAGGAACTCACCCGAATTGCACAGCTGGTGAGCTCAGAGTCAGGCTCCTTGCTTGGTCCATCTGGCTTCCAAACT
S
CAAGTCTGTCTGCTCCACCCCATGGCCCATCTTTTTACCATGTTTAGTATCAATGTTCATACTTTGCAGATTTTGCTTTCAAACTCTCTAGCTGCGGTTT
Celera SNP ID:            hCV25932744
SNP Position Genomic:     74923
SNP Source:               Applera
Population(Allele,Count): afr(C,37|G,1)   cau(C,40)   total(C,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:59620):
TATATTTCCTGTGGCTGAGCTGAGCCGCACTTGGAGATTTGATCCATTTTAACTCTCTCATTGCCTTCAGAGAGTTGGTGATTTTGGGGGGGGCACCAGT
K
TGAGTCCTTTGATCCTTGAATGACAATTTGGATTTGTCTCAAGGTCCTGATAAATGGGAACTGGAGGAACTGGCCTACTATGGTATTACAGGCTAGCACA
Celera SNP ID:            hCV16082573
SNP Position Genomic:     965044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59621):
GATTTTTTTTTTCATAAAACCAGTCTAAAAAAGCCATGGGTTATTTTGTCATGGCACGTTTTGATATGAATATTTCCACCCCCATTATTTGCATAACAAA
K
TACAGATTATCCAGAACAGGTGGGCTGTACATAAACAGGCTGGTGGGCTGGATTTGTCCTGTGGACTGTAGTTTGCTGACATCCAGGCTAGATCCTTAAT
Celera SNP ID:            hCV16082574
SNP Position Genomic:     925233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59622):
ACGAGGTCAGGAGATCGAGACCATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCACCTGTAG
K
CCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGAGCCCGCCACTGCACTCCAGCCTGGGCGAC
Celera SNP ID:            hCV15912176
SNP Position Genomic:     448970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59623):
ATTCATATATTTAGGTATAGTTAGAAAAAGCAAAATGGTAACAATAGAATCTTGATGGGATTGATCTCCTGCAGCAAGGAGCAACAGAAAAAAAAAAAAA
K
GGAATCAAGAACCCAGGTGCTTTTTATAGGTTAATTGTGCAGGGTTATCATGTATCTCTTTAAAATCACCATCTTGATTCTGAGCTTTGGTTCTACACAT
Celera SNP ID:            hCV15912177
SNP Position Genomic:     447869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59624):
CAAATCAGACACCAACATAAACTGTAGAGTTAACATTCTTTTTCCACCCTCACACTTTTTTTAGCTCCGATCTGTGTTCAATTTCTGCCTGAGAGAGTGA
W
ATATTCATATATTTAGGTATAGTTAGAAAAAGCAAAATGGTAACAATAGAATCTTGATGGGATTGATCTCCTGCAGCAAGGAGCAACAGAAAAAAAAAAA
Celera SNP ID:            hCV15912178
SNP Position Genomic:     447766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59625):
TCTTACACGTTTTACGGGCTATCAGTAGATGCATCTAATAATCCTAACACTGTCATCCTTATACTTGAGGTCTTATTGTCCACTTCTACCTTAGCTATGT
W
AACAGATGAGTAACCTACTCTGGATTTACCCAGATAGTGCTGTTAGGCACCACACACGATGAGATTGGAGGCACCTGGGTGTCAGCCTCTTGGGCTGGCT
Celera SNP ID:            hCV16290680
SNP Position Genomic:     476571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59626):
CTGGAGTGACAGAGTGTGTCAAGCCTGCAGCTCGTCCCGTGTCTAATGGAACAGAAACAAGCACCCTGCTGCCCTTGTTTTCCAGTGGCTCACCGGGGCT
Y
TGCGAGGTTTATTAATCTTAGCGTATAATGGAAAATGTGTTGCCATGTGAAATCTAGAGCCTCTGTTCACTACTCCGCGAATTGAAGGCGGCAGGAGTCT
Celera SNP ID:            hCV16290681
SNP Position Genomic:     475546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59627):
CTGTGTGTCACCTTCTCTCTGAGCTCACCCTCTCTAGGAAGCCTTCCTTGCTGGAATGCCCATTCCCTGATATAAGGATTCCACCCACCACGCCCCTTGC
R
GTTCCTTGCCGGTGTCCTGTCCTGGGCAGACATAAGCCCTGTGGGTTCCAGTTTCTCATTAGGAACCTGGATGATGGAGCAGGGATCATGCTCATTAAGT
Celera SNP ID:            hCV15917402
SNP Position Genomic:     948858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59628):
CCAGCCAGGGTGGTCTCGAGGAGGCCCATTACCGGCTGGAGTGACAGAGTGTGTCAAGCCTGCAGCTCGTCCCGTGTCTAATGGAACAGAAACAAGCACC
Y
TGCTGCCCTTGTTTTCCAGTGGCTCACCGGGGCTCTGCGAGGTTTATTAATCTTAGCGTATAATGGAAAATGTGTTGCCATGTGAAATCTAGAGCCTCTG
Celera SNP ID:            hCV16290682
SNP Position Genomic:     475511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59629):
ATTAGCATCACCCTGCTGTGCCTCAGTGTTTCCATCTATAAACTGGGTATAATAATCATTCCTACCCCATAGGTTGCTGTGAAGATTGGCTCACATCAGT
M
ATGTACTTGGAATGGATCCTGGCATAAAAAGAGCCCTTGGAAAATGATAGCGTTCATCCTTGGTATGACCTCCAAGTTCTTTGAACCTCAAAGAGCCAAG
Celera SNP ID:            hCV15917403
SNP Position Genomic:     947576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59630):
ACACAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTGCAATGTCTGCCTCCCAGATTCAAGCAATTTTCCTGCCTCAGGCTCCCAAGTAGCTGGGATT
R
CAGGCACCCACCACCACACCCAACTAATTTTTGTGTTTTTAGTAGAGACAGGGTTTCACCATATTGGCCAGACTGCTCTTGAATTCCTAACTTCAGGTGA
Celera SNP ID:            hCV15917404
SNP Position Genomic:     946133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59631):
AGTGGGAGAACATGGTATCAGAACCAGGAGAGGGTCCTCTGGCTTTCTGAGTTCTGCCAAAAACCAAGTTTTGCTGCCTTGGGCCTGTGGCTTCTCCTCC
Y
TGATTGTCGCTGGCCTTGCTGTAAATTGTGAGGCATCCATGTGAGGCACAGGATGGTTCCAAGGACCAACTGAGGCTGTCTGTGCTGAGGCTGGGAGGGT
Celera SNP ID:            hCV16290689
SNP Position Genomic:     474084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59632):
TTCAGTGACATGCCATCAGATTTGTTCCATGTAGAAGGACGACACTATCAGTTAGATGCTTATTTTGTTGGCAAATTTCTATGGCACTTCTGCTTGGCCA
Y
TTCAAACCAACCATGGAAGAATAGATACCCCAATGCGATGTTTCATCCCTATTCATAAAGAAACTGTACTTTGAGCAATGTAGGTATCCCAGGCAGCATC
Celera SNP ID:            hCV1565877
SNP Position Genomic:     1111561
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59633):
ATTTCAGTGACATGCCATCAGATTTGTTCCATGTAGAAGGACGACACTATCAGTTAGATGCTTATTTTGTTGGCAAATTTCTATGGCACTTCTGCTTGGC
Y
ACTTCAAACCAACCATGGAAGAATAGATACCCCAATGCGATGTTTCATCCCTATTCATAAAGAAACTGTACTTTGAGCAATGTAGGTATCCCAGGCAGCA
Celera SNP ID:            hCV1565878
SNP Position Genomic:     1111559
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   afr(T,2)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59634):
TAAAAATGTAAAATGTTTCAAATAAACACACACTAAATATCTTCTTTTATATCTTATAAACACCCAGCAGTCCTTTAGCACGGGCATCAAGGTGGCCCAG
Y
TGGAAAATTTCAGTGACATGCCATCAGATTTGTTCCATGTAGAAGGACGACACTATCAGTTAGATGCTTATTTTGTTGGCAAATTTCTATGGCACTTCTG
Celera SNP ID:            hCV1565879
SNP Position Genomic:     1111452
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,2)   afr(T,2)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59635):
GCATAGAATGTTTATATGGTGGCCAAAAAAGCAGATTGGTATCATGCTTTATGTGTGTTCATTCTAGTCCTGCACGTGTAGAAATGTAAGATTTTAATGT
R
TGGTAAGGTAGATAGATAGATACATACATACATACATACATACATACATACATACATATAAAATTAGGTAAGAGGATACTTTTAATGTATGGTAAGCTAT
Celera SNP ID:            hCV2857902
SNP Position Genomic:     168579
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6|G,1)   his(A,6)   total(G,1|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59636):
GGTGCCCGCCACCAGGCCTGGCTAATTTTTTTTGTATTATTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGTCCTTGTGGT
Y
CGTCTGCCTCGGCCTCCCAAAGTGCTAAGATTACAGGCACGAGTCTCCGCACCCGGCCCTGTTTTTGCATTTTTAGTAGAGACGGGTTTTCACCAGGTTG
Celera SNP ID:            hCV8029220
SNP Position Genomic:     281856
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4|T,2)   afr(C,4)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59637):
CAAAAAAGCAGATTGGTATCATGCTTTATGTGTGTTCATTCTAGTCCTGCACGTGTAGAAATGTAAGATTTTAATGTATGGTAAGGTAGATAGATAGATA
S
ATACATACATACATACATACATACATACATACATATAAAATTAGGTAAGAGGATACTTTTAATGTATGGTAAGCTATGATTGCACCACTGCATTCTAGCC
Celera SNP ID:            hCV2857903
SNP Position Genomic:     168602
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(C,6|G,1)   his(C,6)   total(G,1|C,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59638):
GTATAGTAGTGGGAGAACATGGTATCAGAACCAGGAGAGGGTCCTCTGGCTTTCTGAGTTCTGCCAAAAACCAAGTTTTGCTGCCTTGGGCCTGTGGCTT
Y
TCCTCCCTGATTGTCGCTGGCCTTGCTGTAAATTGTGAGGCATCCATGTGAGGCACAGGATGGTTCCAAGGACCAACTGAGGCTGTCTGTGCTGAGGCTG
Celera SNP ID:            hCV16290690
SNP Position Genomic:     474077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59639):
GTCGCTTGAACTTGGGAGGCAGAGGTTGCCGTGAGCTGAGATCATGTCATTGTACTCCAGCCTGGGCAACAACAGCAAAACTCTGTCTCAAAAAAAAAAA
A
GAAGAAGAAGAAGTAATTCCTAACAGTCTGGAATCTCTAGGGTCTCTGGTATTATCCTTTAGTTTAAGCCTCACATTTTTCTAAACATTTTGAAATCTGG
Celera SNP ID:            hCV11667843
SNP Position Genomic:     787300
SNP Source:               Celera
Population(Allele,Count): cau(-,2|A,1)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59640):
AGTGATTCAGAAAATAGCAAGTATAGTAGTGGGAGAACATGGTATCAGAACCAGGAGAGGGTCCTCTGGCTTTCTGAGTTCTGCCAAAAACCAAGTTTTG
Y
TGCCTTGGGCCTGTGGCTTCTCCTCCCTGATTGTCGCTGGCCTTGCTGTAAATTGTGAGGCATCCATGTGAGGCACAGGATGGTTCCAAGGACCAACTGA
Celera SNP ID:            hCV16290691
SNP Position Genomic:     474057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59641):
CTGATGTACTCTTGCTGGCGGTCCATCTGAGAGTTCACATAAGTGTGAGTGACTATTTTTTGACAACACTACCTTTGGGAGAAGATGGTTTCAAAGAACT
W
ACTGTATCAAATGGAAAGACAATGTGTTTTCCCAACATGGGAGTATGTTTCTAAGTTGGGATCAGTTCACGATTCAGAGAAATGCTCTGCCTTCTTGTCT
Celera SNP ID:            hCV15917412
SNP Position Genomic:     788185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59642):
TGGGGGAAAAAACCAATAGAATAATGTTTTATTACATGTAAAAATTGTATGAAATTCAAATTTCAGTGTTCATAACTAAATTTTAAAAACTTTTATTGAA
R
TTCCAGAGAGATCTGAAGTAGTTTTATTGGAACACAGCCCTACACACCTTCATTTATAAGCTATCTGTGGCTACTTTTGCACTATGCCAGCAAAGTTGAG
Celera SNP ID:            hCV2857906
SNP Position Genomic:     173767
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(G,3)   his(A,1)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59643):
CAAACATGTAATACCACCCTGGTCTTCAAGTCCACTCTCAAAAAAAAAAAAAAATTTGGCCTTTGGCCTCGTGACCACCAAATCTGATTTCCATCCAAGA
R
GCAACATTGTTTGTGCTTAGAAGGAATTCCTGGCTGGGCATGATGGTTCACGCCTGTAATCCCAGCGCTTTGGGAGGCCGAGGCAGGCGGATCACCTAAG
Celera SNP ID:            hCV15917413
SNP Position Genomic:     786975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59644):
GTAGTTTTATTGGAACACAGCCCTACACACCTTCATTTATAAGCTATCTGTGGCTACTTTTGCACTATGCCAGCAAAGTTGAGTAGTTGGGATGGAGACT
R
TATGGCCCATAAAGCCTAAAATACTCTCTGCTCCTTTCCAGAAAGCTTGGCAACCCCTACTATCATCTCCACGTCTGCCTTTGTTCTTCTTATTTGTCCC
Celera SNP ID:            hCV2857907
SNP Position Genomic:     173885
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(G,3)   his(A,1)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59645):
TAGGTAGAAATTTTTATGTCACAGGTGGGCCTAATTAACCTTGATTAATGTTCTGCAAACCCGGATAGACTGGAGACTCAGAAAGGGACGCAAAAGCTAG
Y
CTGGTTCCCATGTTAGTCCCTGCTCTGTGAGCAGCTGCCACACAGTCATGCTGATGGCTCCTGCAGCAGCCATTCTGGTTTGACTGTGCTCGTGCTGCCC
Celera SNP ID:            hCV2857908
SNP Position Genomic:     176826
SNP Source:               Celera
Population(Allele,Count): cau(C,8|T,1)   afr(C,8)   total(C,16|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59646):
AGAATCCCTATGGTCTCTTGAGTCCAGGAGTTTGAGACCAGCCTGGGCAAGATAGCAAAATACTATCTCTACAAAAAAATGAAAAAAAAAAAAAAAAAAA
A
GCCTGTCATAGTGGTACATGCCTATAGTCTTAGCTATTCAGGAGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGAATTTGAGGTTGCAGTGAGCTATCAT
Celera SNP ID:            hCV11667847
SNP Position Genomic:     786331
SNP Source:               Celera
Population(Allele,Count): cau(-,2|A,1)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59647):
TCCCAATTAGTTTCTTCATGCCATAAGGACAAAATCCACATCTCATACTTTTTCAGGATCTGCTCTCACTTCCCCAAACATGTAATACCACCCTGGTCTT
M
AAGTCCACTCTCAAAAAAAAAAAAAAATTTGGCCTTTGGCCTCGTGACCACCAAATCTGATTTCCATCCAAGAGGCAACATTGTTTGTGCTTAGAAGGAA
Celera SNP ID:            hCV15917414
SNP Position Genomic:     786901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59648):
TGTGGAGTATGCATTTAATTCACATTTACAAATTGGTTTCTGTTTTTAACTAAAGGTACTTTTTCAGCAGAAATGATGTGTATGATGTCATATCTAACTT
K
TGATCTCACTGGTATTTGATGTTAAGCCTCAAAATCATCAAATTTTTTTTACGGCACTGAAAAAAATACATAAATCTGCTTGATTGGTTCATAGAAAAAG
Celera SNP ID:            hCV2857909
SNP Position Genomic:     177517
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   his(T,1)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59649):
GGCAGGAGAATCCCTATGGTCTCTTGAGTCCAGGAGTTTGAGACCAGCCTGGGCAAGATAGCAAAATACTATCTCTACAAAAAAATGAAAAAAAAAAAAA
R
AAAAAAGCCTGTCATAGTGGTACATGCCTATAGTCTTAGCTATTCAGGAGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGAATTTGAGGTTGCAGTGAGC
Celera SNP ID:            hCV11667848
SNP Position Genomic:     786325
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,1)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59650):
TTTCTAAAACTTTAAGTTTCAGGGTACATGTGTAAGATGTGCAAGTTTGTTACATAGGTAATCATCTGCCACGGTGGTTTGCTGCAGAGATCAACTTATC
R
CCTGGATATGAAGCCCAGCGTCCATTAGCTGTTGTTGCTGATGCTCTTCCCACCACCTGCAAGCCCCAGTGTGTGTTATCCGCCTCCACCGTGTGTCCAT
Celera SNP ID:            hCV8027625
SNP Position Genomic:     242428
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   his(A,3)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59651):
ATGCCTTTGTGTGTCCTCTCATGGCAGAGAGAGGAAGGGGTCTGGAACCTTTCTCTTATAAGGATACTAATCCCATCGTACCCCGTCCCCCATGATCTCA
W
TTGAAATTAGTCACCTCCCAAAGCCCCACCTCCAAGTACTGTCACACTGGGGCATAGGGCTTCAGCATATGAATTTGGGGGAGCTGGGGAGAGGAACACA
Celera SNP ID:            hCV16290698
SNP Position Genomic:     473814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59652):
CATAGACTGGGCAGGTTAAACAGCAGACCTCTATTCCTCACAGTCTAGAGGCTGGGAAGTCCAAGGTGAAGCCATGGGCACATTCTGTGCCTGCCTGAGG
S
TCTCTTTCTGGTTCCCAGATGGATGCCTTTGTGTGTCCTCTCATGGCAGAGAGAGGAAGGGGTCTGGAACCTTTCTCTTATAAGGATACTAATCCCATCG
Celera SNP ID:            hCV16290699
SNP Position Genomic:     473691
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59653):
GCATTACCTGGGGCTCCCTCTGGAAAGAAAATGGTGGAGAGGTTACTGGCCTGATGACCCAGGGACCCAGGCAGTCCTTACAGGGACCCAGAATTTCACA
W
GCAAATGTGACCTCCAATTAAAGCTGGACTTGATTAACCCCATTTCCCCTCAAAAGATGATACTTGTAATGCCGTTCCGATGAGGCCGTCTCACTCCGTA
Celera SNP ID:            hCV15912190
SNP Position Genomic:     459766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59654):
TGTGGAAAAGGGACATGGCCCAGGGAACCAGAGTGGTTTGGGAAAGCACTTTGTCAAGAGGCTTGGGGACCCCAGGGTGGAAGCTGCCATGCGCATGAGG
Y
TGTGTTAGCAGAGGCAGTGGCAGAAGAAGACATTGCAAACCTGCAAAAGCAACCTCTGAGGATGGGTAGACATATACTTCATTGCAGGCAGCTGCTGCTG
Celera SNP ID:            hCV9664356
SNP Position Genomic:     502707
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,1)   afr(C,3)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59655):
CATCTTACAAATGAATCAATATTTAGTGGTTTGAAAATATGTTGTTTAATTTGGGGCGATTCAATATCAAATTAAGATTTTTAGGTTTATTTATCGATCT
Y
TAGAATTACATCAACATTAAGCTAATTACTTTAAATTGTGTTTTTAAGTAACCAAGAATACATCTGTGGACGCTGTTCTGTGCCATCTTGAGTCACGTTT
Celera SNP ID:            hCV2857910
SNP Position Genomic:     178539
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(C,3)   his(T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59656):
TAAAACGTGGATGTTCCAATTTATGTATAGCCGCATAATACATTACCCCAAAACTTAGAGGCTTAAAACAACAACCATTTTGTTTTATCTTGTGATTTCT
S
TAAGTTAGGGCTCAGTGGAGTGACTCTTCTGCCCCTTGTGGTGTTGACTGGGGTCAGTCAGTGGTGCTATGCTGGAGGATGAATTGGACTGGCACTTCAG
Celera SNP ID:            hCV2857911
SNP Position Genomic:     179607
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,1)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59657):
TGGATGTTCCAATTTATGTATAGCCGCATAATACATTACCCCAAAACTTAGAGGCTTAAAACAACAACCATTTTGTTTTATCTTGTGATTTCTCTAAGTT
R
GGGCTCAGTGGAGTGACTCTTCTGCCCCTTGTGGTGTTGACTGGGGTCAGTCAGTGGTGCTATGCTGGAGGATGAATTGGACTGGCACTTCAGCTGGTCC
Celera SNP ID:            hCV2857912
SNP Position Genomic:     179614
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59658):
ATGAATTGGACTGGCACTTCAGCTGGTCCAGGATGGTCACCCATGGGTCTGGCACTTTCACGAGGATGACTGGGATGCTTGGCTCAGCTGAGGGACTCTT
R
CCCAGAGCCCTACACATGGCCTTTCCTGCATGGCAGATATAGGGCCATCAGATTTCTTACATGGTGGCTCAGGGCTCCCAGAGGATTCCAAAAGAAAGTA
Celera SNP ID:            hCV2857913
SNP Position Genomic:     179786
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,1)   his(A,2)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59659):
GTGTAGCTCCAATTGCCTTCATCCTTAGAAGACCTTTAATGATATCCTATGCCAAACTTCCTAGCCTCCACCTGTACCCTGAATTGGCCCTAGCCTAGTT
K
TCCAAACTTTATCCCCAGGTGGTTGAACTTTCTAAGTTTCCCCAAGCTGATCAGTGTTTTGGGGTGGTATGGAACTCAGAATAGATCACTTTTTTTATTG
Celera SNP ID:            hCV2857914
SNP Position Genomic:     180743
SNP Source:               Celera
Population(Allele,Count): chn(T,7)   cau(G,1|T,7)   total(G,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59660):
CTTCTCTTTGCGTCACCAGAGAGGAAGATCCCCTAAGACAAAGCATTCCCTGTAGTTTTTAGCATAACTAGTACTGGCTCAGTAAGTATCCACTGGGGTT
S
GGAATACAACTGCCCTGCCTCTTGAGCAGCCATGCCTGCTTCCGAGGTGGTGCTGCATGCTATTCAGGAGGACAGACCATGGATGGGAATCCTGAGCCAC
Celera SNP ID:            hCV11667853
SNP Position Genomic:     785527
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,1)   afr(C,4)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59661):
TGGACCCTCTGATGTTGACAACATGATGTCAAAGATGGTGTTTGCTGTTGTTTCAAATGTCTTATTTCAAATTCCCAATTAGTTTCTTCATGCCATAAGG
R
CAAAATCCACATCTCATACTTTTTCAGGATCTGCTCTCACTTCCCCAAACATGTAATACCACCCTGGTCTTCAAGTCCACTCTCAAAAAAAAAAAAAAAT
Celera SNP ID:            hCV15917421
SNP Position Genomic:     786829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59662):
GCACTTTTTCTGTTTTTGATGGGATTTATCACTTGAAAATGCATATTATAGTAATTTCTGAATTCATCCTGATTCTCCTACTGGTTTCTAAACTCTTCAG
K
TTAGAATTCCTGTTGGATATCCCTCTGGCCCGAAATTCCTGAATGAGTTAAGCAGGACACCTAGAACTATGCAGAGGTAATACCTTCCTTGACCTGTCCC
Celera SNP ID:            hCV2857915
SNP Position Genomic:     181885
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,1)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59663):
GGTTTAGAAATAGGTATGTGACCCAGTTCTGACCAATGGATATGGAGGGTGCTTATGAGGAAGGTTTCCTACTCCTAAAAGAGATACACAGGAAGAGAGA
M
CTTCTGCTTCCTCTGGACACTGGCGCAGCCTGGACTAGCAGTTGCCAGCTTGGGTTTGGACAACCTCCGACCTTAGTTGAAAATGACCCTGTGTAGGACA
Celera SNP ID:            hCV15896601
SNP Position Genomic:     560998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59664):
GGGCAAGGAGCTCATCTTTCACGGTCATAGACCTCAGTTGCAACATCTGGAAAAAGAGCTGGTTGGGCATGCCGGGCAGGCTTTTGTGACAATGTAAGAG
S
AAGTGAAGATTGCATCTCAGTATGAGACACCGTAAGAGCTTGATAAATGGTGGACCCTCTGATGTTGACAACATGATGTCAAAGATGGTGTTTGCTGTTG
Celera SNP ID:            hCV15917422
SNP Position Genomic:     786678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59665):
TGATGGGATTTATCACTTGAAAATGCATATTATAGTAATTTCTGAATTCATCCTGATTCTCCTACTGGTTTCTAAACTCTTCAGGTTAGAATTCCTGTTG
R
ATATCCCTCTGGCCCGAAATTCCTGAATGAGTTAAGCAGGACACCTAGAACTATGCAGAGGTAATACCTTCCTTGACCTGTCCCTTTTCTGGGTCAGTTT
Celera SNP ID:            hCV2857916
SNP Position Genomic:     181901
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59666):
TTTGAGAAACATGGATGTAAATCTGATTTTCAGCATCTGGGAAACTTTTTTTGTAAGAGCCTTTTTCTGGGCCCCACTTCCAGAGGGTTTTTCTTTTTTT
K
TTTTCTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGCGGCGCGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCACGCCATTCT
Celera SNP ID:            hCV11517871
SNP Position Genomic:     7402
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(G,3|T,3)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59667):
CATGTAAATGAATTGTATTTTATGTAACCATTCCCTAGTGTTGGATAGCTAGGCCATTTATAATTTGGACACTATTTTAAAAAATAACTCAGGCTTATTT
W
ACTATTTATTTTTGCCTTACACTTTTTGTAAAAGTAATCAGAGCAGTAATAATAGATGACTCCCCAAAATCCTTTTGCCTCTAATGATTAGTCTAAGCCC
Celera SNP ID:            hCV15896602
SNP Position Genomic:     560770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59668):
AGGTCTTGTGTACCCACCGATCGCAATTGAGCATATAGTACATGCTGTCCTGTGTACCCACTGATCCCTGGTCCTGCCCCTGGTATGAGGGTATTAACAT
Y
TTGCATTAGTGTGGCACATTTGCTACAATTAATAAACCAATATCGATACATTATTAACTAGTCTATAGTTTACATGAGGGGCTGCTGCTTGTGTTGTACA
Celera SNP ID:            hCV183209
SNP Position Genomic:     244631
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3|T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59669):
CTTGAAAATGCATATTATAGTAATTTCTGAATTCATCCTGATTCTCCTACTGGTTTCTAAACTCTTCAGGTTAGAATTCCTGTTGGATATCCCTCTGGCC
Y
GAAATTCCTGAATGAGTTAAGCAGGACACCTAGAACTATGCAGAGGTAATACCTTCCTTGACCTGTCCCTTTTCTGGGTCAGTTTGCCCTTCATGATTTC
Celera SNP ID:            hCV2857917
SNP Position Genomic:     181916
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59670):
CTGTAATCCCAGCTACTCGGGAGCCTGAGGCAGGAGAATCACTTGAACCCGGGAGGTGGAGGTTGCAGCGAGTCAAGGTCACGCCAGTGTACTCCAGCCT
S
GGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAAAAAGAAAAAGAAAAAGGTGTTTGGAAGCCATGTCCCATGAATTCCAAATACAATTG
Celera SNP ID:            hCV15896603
SNP Position Genomic:     559822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59671):
CCTGACAATGTTAGTGAAGTTGCTTGCTTGAAATTTACCAGGCCAGGCTTATGGCTGTAATCCCAGAAACTCAAGAAGCTGAGGCAGGAGAATCCCTATG
R
TCTCTTGAGTCCAGGAGTTTGAGACCAGCCTGGGCAAGATAGCAAAATACTATCTCTACAAAAAAATGAAAAAAAAAAAAAAAAAAAAGCCTGTCATAGT
Celera SNP ID:            hCV15917423
SNP Position Genomic:     786243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59672):
AGACATAGAAATTCTTGGGCTTTATTCCACACATAATGAATCAGAAGCTTATGGGGTGGGGCCTGCAGTCTGACGTTTATTTTTTCTAAAACTTTAAGTT
Y
CAGGGTACATGTGTAAGATGTGCAAGTTTGTTACATAGGTAATCATCTGCCACGGTGGTTTGCTGCAGAGATCAACTTATCACCTGGATATGAAGCCCAG
Celera SNP ID:            hCV8027632
SNP Position Genomic:     242346
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59673):
TCTGGCTCTGCAGCTGAAATTGGGATCGCATGGAGAAAATAGAAAGTCCAGTGTTTGTAGCTGTGATCTCTCAGTTGCTTGCATGAATTGTGCTTTAAGA
Y
TGTAAAATTTTAGCCCATTAAAAATAAAATCTGTTGCTTTCCACCCACACCTGGCAATTTGGTGAGGGACGGGGGCTAGGATATTTAATGTCTGAAAGTT
Celera SNP ID:            hCV2857918
SNP Position Genomic:     184167
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5|T,1)   his(C,5)   total(C,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59674):
TGTGTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCTCCCGCCTCGGCCTCTCAAAGTGCTGGGAT
Y
ACAGGCGTGAGCTACCGCTCCCGGCCTTTTTTTTTTTTTTTTTTTTTTTTTTAAAGACAGGGTCTCGCTCCGTCGCCCAAACTGGAGTGCCGTGGTGCGA
Celera SNP ID:            hCV11517872
SNP Position Genomic:     7666
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   afr(C,1)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59675):
AAGCTCCGATTTTCTTGTTGAATAGCCGTGTTTCCTCAGCATTCTGTAGATTTTTGGCCAGGTTTGTGTAAGGGATGAACGACTCTCTATAAAATGATGT
M
AGGATCCTTTCTTTCCTGCCCATTGCCATTTCTAGCATTCTCTCCTTGAGGGAAGTTGCAGTTTTCTCCCTCTGTGTATTCATCCTTCTGACCTGTGCTC
Celera SNP ID:            hCV2857919
SNP Position Genomic:     184799
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   his(C,1)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59676):
AGTAGCTGGTACTACAGGTGCCTGCCACCACGCCCGGCTAATTTTTTATATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCACTTTGGTCTCAATCT
M
CTGACCTCGTGATTCAACTGCCTCGCCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCGAAAAGTTATAATTTTAATGGTCTAAAT
Celera SNP ID:            hCV8029239
SNP Position Genomic:     274282
SNP Source:               Celera
Population(Allele,Count): chn(C,2)   cau(A,2|C,2)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59677):
TCCTGACCTCGTGATCCTCCCGCCTCGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCTACCGCTCCCGGCCTTTTTTTTTTTTTTTTTTTTTTTTTT
T
AAGACAGGGTCTCGCTCCGTCGCCCAAACTGGAGTGCCGTGGTGCGATCTCGGCTCACTGCAACCTCTGCATGCCGAGTTCAAGCGATTCTCGTGTCTCA
Celera SNP ID:            hCV11517877
SNP Position Genomic:     7719
SNP Source:               Celera
Population(Allele,Count): cau(T,2)   afr(-,1)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59678):
TCTTGAGCAGCCATGCCTGCTTCCGAGGTGGTGCTGCATGCTATTCAGGAGGACAGACCATGGATGGGAATCCTGAGCCACAACTCCTTAGCCTCATGAC
R
TTGGGCAGATGACTGAGCTTGTCTGAGTTACAATAAATAAAAATACCATGCTGAATGATGGCCTAGCATGACATTGGGAAGTACAGACTTTGCAGGCAGG
Celera SNP ID:            hCV15917429
SNP Position Genomic:     785647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59679):
ACTTTGAACACTTTAAATGGGTGAATTGTATGGTATATGAATCATATCTCAACAAAGCTGTTAAAAAATTGTATGAAAACTGTGATGGGATTCAAGTAGT
S
TAACGCTCAAATTTCCCAAGTGCCCTCATTTAAGTCTGGACCACGACAGGAACCCAGATGTGGCCTGAGTAGCACATCGTGGAATGGGCCTGTCACCTCT
Celera SNP ID:            hCV1445201
SNP Position Genomic:     877478
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59680):
TGAACACTTTAAATGGGTGAATTGTATGGTATATGAATCATATCTCAACAAAGCTGTTAAAAAATTGTATGAAAACTGTGATGGGATTCAAGTAGTCTAA
Y
GCTCAAATTTCCCAAGTGCCCTCATTTAAGTCTGGACCACGACAGGAACCCAGATGTGGCCTGAGTAGCACATCGTGGAATGGGCCTGTCACCTCTACCC
Celera SNP ID:            hCV1445202
SNP Position Genomic:     877482
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59681):
CGGTGTTGGCTCTCAGTTAGAGACTCAGATTTATCCCTGCCCGAATCATTTTCTTTGATTCTCTGCCCTTCCCCACTACAGTGTAAACTCCATTTGGACT
Y
TCTCTAGTTCACTGTGAATGGTTTTTGAATAACATCAATTAGCATAACCTCATGCCCAGCATCGTCCTTATTGTTGAGAGCACAGCAGTGACAAAGGTGC
Celera SNP ID:            hCV1445203
SNP Position Genomic:     877746
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,3)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59682):
CAAAAGGGAGTATGTTGGTTCATGTACCAGGAAGTCTTGGAGTGATGGCTTCAGGCACGGCTGGATCCAGGGGCTCAAAAATATAATCAGATGATTTGTT
Y
GCTTCTGTCTTTTGCTATGGTGGTCTCTGTTTTGCTTACTTCTGCAGCAGATTTTCTCTACCTGGTGGGAGAAACAGCTGCCAGAAAATCCAGATTCCCA
Celera SNP ID:            hCV1445204
SNP Position Genomic:     878314
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(C,1)   his(T,3)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59683):
TAAAGACAGTGCCTCCTTCCAGGACAACGGTTTGGCAGATTTGCTTGATAAAGGTTGGGGTTTGTAAGCTTGGGGCTCCTCAGCCATGACTGAAACGTAC
Y
ATGAGCACGGCATCTACCGGGCTGTTCCACATCCTCCCTGTGGGACTAGGGGCCAGGGCAATGGGAATCAGTGCAGAAATAAAGCTCATGCTGTTTGCTC
Celera SNP ID:            hCV25963804
SNP Position Genomic:     177948
SNP Source:               Applera
Population(Allele,Count): afr(C,1|T,35)   cau(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:59684):
AGATCTCACTCACTATGGTGAAGACAGCGCCAAGCCATGAGGGCTCCGCCCCAGTGATTCAAATACCTCCCATTACGGACATGTTTCAACATGAGATTTG
R
GCGGGGACAAATATCCAAACTATATCAGGATCCCAGCAGACTGGGTGGGTGGAGGTTCAGGGATATCTGGGAAGGACTAAGAATAGCTTTTTCTTTTAGT
Celera SNP ID:            hCV2857920
SNP Position Genomic:     188779
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,2)   his(G,2)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59685):
TCTCACTCACTATGGTGAAGACAGCGCCAAGCCATGAGGGCTCCGCCCCAGTGATTCAAATACCTCCCATTACGGACATGTTTCAACATGAGATTTGAGC
R
GGGACAAATATCCAAACTATATCAGGATCCCAGCAGACTGGGTGGGTGGAGGTTCAGGGATATCTGGGAAGGACTAAGAATAGCTTTTTCTTTTAGTAGA
Celera SNP ID:            hCV2857921
SNP Position Genomic:     188782
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,6)   his(A,2)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59686):
TAGGGTTCCTTTTTTTCAAGTTAAAGCATTGAGTCATGTCTCTGATAAATCGCCCCCCCACCCCGATCCCCACCCTCTGCCGCCCCGGCCTTCTTTTTGT
R
CTGTTGGGTTCCAAACTTTACCTGAGGATTTTCACATGCACATCTGTTAAATGCCATTTAAAGAGAACACTAACAAGAGAAAGCTAGTTCATTTTTCTTC
Celera SNP ID:            hCV1445206
SNP Position Genomic:     879173
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59687):
ATGAATTTTCCGAGACTCTGTTATGACAGAAACTCACCAGTTCTCTGTTGTTAATCAACAAATAGATTGTGAATGCTTGACTCTTCTTTTTTTTTTTTTT
T
AAAGGAGTTTCAAGGGTAAGATCTGCTGTCTTGTGAATGTCAAAGAAGTTTCTCATTCGCCCCTTTCTTCTCTCTCCCAGTGTCTTTAATTTGTTAATGC
Celera SNP ID:            hCV11667860
SNP Position Genomic:     783895
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(-,3)   his(T,2)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59688):
TGCAAGAGTCAGCAAAGTTTCTCTGTGATGGGATATTTAATAAATATTTTGGGGCCTTGTAGTGTTTGTTGCCAACTACTCAACTCTGCCCTCATAGTGC
R
AAAACAGGCATAAACGATATGTAAAGGAGCAGGCATGGCTGCGAGAAACTTTATTTATGGATACTGGAATTTGAATTTCATATACATTTTCATGTGTCAC
Celera SNP ID:            hCV2857922
SNP Position Genomic:     189074
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(A,4|G,2)   his(G,2)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59689):
TTTGTGCTGTTGGGTTCCAAACTTTACCTGAGGATTTTCACATGCACATCTGTTAAATGCCATTTAAAGAGAACACTAACAAGAGAAAGCTAGTTCATTT
Y
TCTTCCTGGGACCTCAGTTTCCTCATCAGCAGAATCGGGATATTAGTGCAGACCTTGCAGGCTCTTTATGAGGATCCATCGGGAGCCTCAGGCGCACACT
Celera SNP ID:            hCV1445207
SNP Position Genomic:     879268
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59690):
TTTGTGAAAAAGGATGAATTTTCCGAGACTCTGTTATGACAGAAACTCACCAGTTCTCTGTTGTTAATCAACAAATAGATTGTGAATGCTTGACTCTTCT
C
TTTTTTTTTTTTTAAAGGAGTTTCAAGGGTAAGATCTGCTGTCTTGTGAATGTCAAAGAAGTTTCTCATTCGCCCCTTTCTTCTCTCTCCCAGTGTCTTT
Celera SNP ID:            hCV11667861
SNP Position Genomic:     783882
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(-,5)   his(-,5)   total(C,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59691):
TTCTCTGTGATGGGATATTTAATAAATATTTTGGGGCCTTGTAGTGTTTGTTGCCAACTACTCAACTCTGCCCTCATAGTGCAAAAACAGGCATAAACGA
Y
ATGTAAAGGAGCAGGCATGGCTGCGAGAAACTTTATTTATGGATACTGGAATTTGAATTTCATATACATTTTCATGTGTCACAAAATATTATTCTTTCCC
Celera SNP ID:            hCV2857923
SNP Position Genomic:     189092
SNP Source:               Celera
Population(Allele,Count): chn(T,4)   cau(C,2|T,4)   his(C,2)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59692):
TGTTTGTAACATTGAATACTTAAGACATCTGCTCAGAGTCTCGCATTATAAATGAATGGAAAGGATCCAGGAGGGCTTTATTGGATGGGAGCCGTGAAGT
S
AGCGCCGTGTATTTCAAAGCAGGATCTTAATCAGACATTATTTATATCTATAATATTTTACAAATTAAAAGCAGTAGAAATAGTCACTGGAAGGAAGTCA
Celera SNP ID:            hCV1445208
SNP Position Genomic:     879771
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(C,1)   his(G,4)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59693):
ATCCACTGGGGTTCGGAATACAACTGCCCTGCCTCTTGAGCAGCCATGCCTGCTTCCGAGGTGGTGCTGCATGCTATTCAGGAGGACAGACCATGGATGG
R
AATCCTGAGCCACAACTCCTTAGCCTCATGACGTTGGGCAGATGACTGAGCTTGTCTGAGTTACAATAAATAAAAATACCATGCTGAATGATGGCCTAGC
Celera SNP ID:            hCV15917430
SNP Position Genomic:     785614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59694):
ACAGCCGTGTTTGGCCCAGCGGTTATAGTTTGCCAACCCCTGCTTAGAGTCTAGCTTTATTCAGAGCTTAAATATGTCATCGAGGTCCCCTCTTTATTTA
W
TCCCTTAGTTTTGATGATCTTTTATGGGTTATATTCTTCAAAGGGAAAATTCTCTCCGAATGGGGCTGCCACTGGCAGACGAGCACTGTCCCATCTTGGC
Celera SNP ID:            hCV2857924
SNP Position Genomic:     189352
SNP Source:               Celera
Population(Allele,Count): chn(T,8)   cau(A,1|T,8)   total(A,1|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59695):
AACATTGAATACTTAAGACATCTGCTCAGAGTCTCGCATTATAAATGAATGGAAAGGATCCAGGAGGGCTTTATTGGATGGGAGCCGTGAAGTGAGCGCC
R
TGTATTTCAAAGCAGGATCTTAATCAGACATTATTTATATCTATAATATTTTACAAATTAAAAGCAGTAGAAATAGTCACTGGAAGGAAGTCAGCAAGCA
Celera SNP ID:            hCV1445209
SNP Position Genomic:     879778
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(A,1)   his(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59696):
GTTTAAAAATTTGTTTTAGATAGAGGTTTGAATGTCACTAATTACCAACGTGTAGCTCCTAATTGGAATTAAGAAGGGACTAGCTCCTATTATCAGAGAT
C
TGGTCATCACCCTTCAAGTTGACTATCTCCTTATGCTGATTTTTTTTTTCTTTTAAATAGCAGCACAAATATTTACCATCTAGCAGATGTGGTAAGAATG
Celera SNP ID:            hCV11667863
SNP Position Genomic:     780750
SNP Source:               Celera
Population(Allele,Count): cau(-,5|C,1)   his(-,5)   total(C,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59697):
TAGAGAAAAGGTGGCTTGGCTGTTTGGTTTATGTCCTAAAACCTTATCGTAATGTGATTCTCCTTAACAGAGGGATTCGTAAGCTTAGGACTGATAGAGA
W
TTGGCTTTTCTGCTGTTGGATTGATAGCTCCTTGACTGCTGAAGCCATTGCCCATCTGTTCAACTGTTGTATTCACGAGGAGGTTAGACCCCTGACCCAA
Celera SNP ID:            hCV15896610
SNP Position Genomic:     558445
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59698):
GGCCTCTTGTTCTTCTTCAGCTGTTCCTCAGACATGCCAGGTGTGTTCCTGTCTCAGACGCTTTGCCTTTGCTGCTCCTTCTGCCTGGAGTATTCTTCCA
Y
GTAGCACCATGAGCTGTTCTTCTCCAAAAGGCTTTGCTCAACTGACACTTTCTCAGTGAAGCTGTTTCTCACCACTCACTATAAAATGGCAGCCTGCCTC
Celera SNP ID:            hCV15917431
SNP Position Genomic:     784839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59699):
ATTCAGAGCTTAAATATGTCATCGAGGTCCCCTCTTTATTTATTCCCTTAGTTTTGATGATCTTTTATGGGTTATATTCTTCAAAGGGAAAATTCTCTCC
R
AATGGGGCTGCCACTGGCAGACGAGCACTGTCCCATCTTGGCTTGTTCCCCCAGTGACAAGAAGCTGTTTTCCCCACTACCCTTGGCCCAAAAGCCACAG
Celera SNP ID:            hCV2857925
SNP Position Genomic:     189410
SNP Source:               Celera
Population(Allele,Count): chn(G,8)   cau(A,1|G,8)   total(G,16|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59700):
CTATTCATGTGTTCTTGAATTAAATTTTCATGGCAAGCCTAAGAGGCCATGACTGTCCACATTTTGCCTCTGAGAGACGCAAGGCTTGGAGGCAGGAAAT
S
ACTCACTGAAGGCCACAGCACAAAGTGGGGACTTGAGTCCCGATCTCACTGATTCTAAAGTCCTTGCTCTCCAACCTCTGTCCATCTGAAATGGAAAAGC
Celera SNP ID:            hCV15896611
SNP Position Genomic:     525568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59701):
TCGAGGTCCCCTCTTTATTTATTCCCTTAGTTTTGATGATCTTTTATGGGTTATATTCTTCAAAGGGAAAATTCTCTCCGAATGGGGCTGCCACTGGCAG
R
CGAGCACTGTCCCATCTTGGCTTGTTCCCCCAGTGACAAGAAGCTGTTTTCCCCACTACCCTTGGCCCAAAAGCCACAGGGAGAACCAGGATTGGCCTAG
Celera SNP ID:            hCV2857926
SNP Position Genomic:     189431
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59702):
TTTAGGCAGACACCTATCCCTGAATCAGTCATGTCCCCGGATGATGCGGTTCTCTGCAGCCTGGGCAGTCAAGGCTGGAGATAATTCTCTGCTTCTCCAC
R
GAGTCTGAGAGGCCCCGTTCCCTAATGGAAAAATGAGGTCCAATTTTGCAAAAGGAGGCACCTGGGGAAACATTCTGGACACACAAATCTATAGCTTCTA
Celera SNP ID:            hCV2857927
SNP Position Genomic:     189633
SNP Source:               Celera
Population(Allele,Count): chn(A,7)   cau(A,7|G,1)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59703):
CATGTCCCCGGATGATGCGGTTCTCTGCAGCCTGGGCAGTCAAGGCTGGAGATAATTCTCTGCTTCTCCACAGAGTCTGAGAGGCCCCGTTCCCTAATGG
W
AAAATGAGGTCCAATTTTGCAAAAGGAGGCACCTGGGGAAACATTCTGGACACACAAATCTATAGCTTCTACCGTCAATCTGCTATGATCCTTTTATGGT
Celera SNP ID:            hCV2857928
SNP Position Genomic:     189662
SNP Source:               Celera
Population(Allele,Count): chn(A,7)   cau(A,7|T,1)   total(A,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59704):
AATTTTGCAAAAGGAGGCACCTGGGGAAACATTCTGGACACACAAATCTATAGCTTCTACCGTCAATCTGCTATGATCCTTTTATGGTTCTGACGTTGCA
R
TTTTATTTTTGCATGTTTCTAGAGACATCAGGAGGGGATCTTTTCGGGATGTGGCTTCAGAAAGGAGCCTGTTGGATGGTCTCTTACTAGTGGTCAGCAA
Celera SNP ID:            hCV2857929
SNP Position Genomic:     189775
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(A,1|G,6)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59705):
CTTTGCCACTCAGCCCCAGAGGTGCTTCTGCTTCCCTGCAGGCTTGCCCTGGAGCCTGGCGCTAGGGCCCTGGGGCTCCCTTGCTCCTGCGTGCCCCCTG
Y
GCCTGCCTTCCTGCTGCCTGGCCTTTCTCCCATCTGCTTTCTTCCTGAGTGGCCCCTGGCCAGGGGACTCGGGTGCATACATGGTTTCCAAACGCCTTTC
Celera SNP ID:            hCV11517883
SNP Position Genomic:     9441
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59706):
CCCCTGCGCCTGCCTTCCTGCTGCCTGGCCTTTCTCCCATCTGCTTTCTTCCTGAGTGGCCCCTGGCCAGGGGACTCGGGTGCATACATGGTTTCCAAAC
R
CCTTTCCTCCAGCCCTCCCGACTAGTGTCTTAAATCTCAAGCTGGCCTCTCTGGCTCCGCTGTTTTTTTTTTTTTTTTTTTTTTAATTTAATTTAACTTT
Celera SNP ID:            hCV11517884
SNP Position Genomic:     9535
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59707):
TGACAGTCCACTTCATTAAGTGGAGGACAGTGTTTTGATTGCTATTTAATCTGTTTTTCCTTCTGTCTGTTCTTGGCTATATGGAATTCACTTTGCCTCT
S
TTCCCGACTCTTCATATCCCTTATCTCAAGGTGAGTATCGTCAGAATCCCGGTACATTTCACCAGCCACCTTTTATAGAAGCTTAGAAAGATGGAGGCAA
Celera SNP ID:            hCV15917438
SNP Position Genomic:     782983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59708):
TTAAAGCGATAGTCCTATTTTCTAAGTAAAAGTCCAGGCATGTGACTTAAAAAAGAAAAAAAAAAATGTTTTCTGGTCAAGTCACATGCCTCTGAGGTTT
K
TTTTTTTCTTTCTTTCTTTTCTTTTTTTTTCTTTTTCCCAGACTCCTCATACCCCTCCTAGGAGACAGTGATTCCCTGGCTTCACCAGGCAGGCTCTTGG
Celera SNP ID:            hCV15896619
SNP Position Genomic:     516951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59709):
CTTTGGGAGGCCGGGGTGGGCGGATCACAAGGTCAGGAGTTTGAAACCAGCCTGACCAACCCTGTCTCTACTAAAATTATTTAAAAAAAAAATAGCTGGG
Y
ATGGTGGCACACGTCTGTAATCCCAGCTACTCGAGTGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGAAGGTTGCAGTGAGCTGAGATGGCGCCG
Celera SNP ID:            hCV15917439
SNP Position Genomic:     781527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59710):
GACTCGGGTGCATACATGGTTTCCAAACGCCTTTCCTCCAGCCCTCCCGACTAGTGTCTTAAATCTCAAGCTGGCCTCTCTGGCTCCGCTGTTTTTTTTT
K
TTTTTTTTTTTTAATTTAATTTAACTTTAAATTCCGGGATACATGTGCAGGATGTGCAGGTTTGTTACATAAGTAAACCTGTGCCATGGTGACTTGCTGC
Celera SNP ID:            hCV11517888
SNP Position Genomic:     9607
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59711):
TTGCCTGTCATCTGTTGTTTTTCTAATCTTCTAGTAAACATTTGGAAAGTGAAGGTTTAGGCATGTATGTTTCTCTTATGTAGGAAGGGGAAATAAGGCC
W
TGAGATTGCATGAGTTTTCTTTCCAAGTTTGTGCAGATCTGCACAATGATTGAAATATTTGCAACCTGTAGAGCAGCAGGGTATTTATTTGGCAGCAAAC
Celera SNP ID:            hCV15964504
SNP Position Genomic:     164640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59712):
TAATCAGACATTATTTATATCTATAATATTTTACAAATTAAAAGCAGTAGAAATAGTCACTGGAAGGAAGTCAGCAAGCAGGGGTGAAAAAAAAAAAAAA
K
AAAAGAACCTGAAGCCGCCAAGAGAGGCTCACTGACCATCTCTGGGGGAGGAAGGGTGAAGAGTAGCAAATTTACCGTCATCAGCAGGTGTGTAAATGTT
Celera SNP ID:            hCV1445211
SNP Position Genomic:     879899
SNP Source:               Celera
Population(Allele,Count): cau(T,4)   afr(T,4)   his(G,1)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59713):
AAAAAAAATAAAAGAACCTGAAGCCGCCAAGAGAGGCTCACTGACCATCTCTGGGGGAGGAAGGGTGAAGAGTAGCAAATTTACCGTCATCAGCAGGTGT
S
TAAATGTTCCATTTACATTGAATGGCACATGTCATAAAGTACATACCGCTGCACATCCCACCCTCTGTTTCTGTTTCAACTGCAGAGCCTATTTTTCTTT
Celera SNP ID:            hCV1445212
SNP Position Genomic:     879991
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   afr(C,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59714):
CCTGAAGCCGCCAAGAGAGGCTCACTGACCATCTCTGGGGGAGGAAGGGTGAAGAGTAGCAAATTTACCGTCATCAGCAGGTGTGTAAATGTTCCATTTA
M
ATTGAATGGCACATGTCATAAAGTACATACCGCTGCACATCCCACCCTCTGTTTCTGTTTCAACTGCAGAGCCTATTTTTCTTTCCCTTCCAGCTCAGCT
Celera SNP ID:            hCV1445213
SNP Position Genomic:     880007
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(C,2)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59715):
ATAAAGTACATACCGCTGCACATCCCACCCTCTGTTTCTGTTTCAACTGCAGAGCCTATTTTTCTTTCCCTTCCAGCTCAGCTGCCTTCTCCTCCCTGAC
Y
TCAGGTCACCCAAGACTCCCACTTTATGATTTCCTTTTACTTTTAGTTCATTATTCTCTGTGATTCAGTGGAAACATAAAAAATGGTTTTTAATTTTAAT
Celera SNP ID:            hCV1445214
SNP Position Genomic:     880125
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(T,2)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59716):
CGTCTCCCCGCCTTGTAAGGGCTGCCTGTCATTTTATTAGCGCTGGAGCCTCCCGACCGAAGGGCTGAGTAATTGACAAAAACTGCAGGTAAGGCAAGAG
R
CCCGTAATTGATTCATAAGATCCCTTCCTCCGATCGCATTGAAGAGTTAATTATTTTTCCTGCAGTTGGGACTCAGCTGTTGTTTCCACTGGGATTAAAC
Celera SNP ID:            hCV1445215
SNP Position Genomic:     880380
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59717):
CTCCCCGCCTTGTAAGGGCTGCCTGTCATTTTATTAGCGCTGGAGCCTCCCGACCGAAGGGCTGAGTAATTGACAAAAACTGCAGGTAAGGCAAGAGACC
Y
GTAATTGATTCATAAGATCCCTTCCTCCGATCGCATTGAAGAGTTAATTATTTTTCCTGCAGTTGGGACTCAGCTGTTGTTTCCACTGGGATTAAACAGC
Celera SNP ID:            hCV1445216
SNP Position Genomic:     880383
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,1)   afr(C,3)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59718):
AGACCCTGTCTCTGAAAAATAAAAATAAAAAAAAAAATTAAGTTAGAAGGGAGGGATTACGACCCTCATGTGTATCAAGAAACAAGCTCCATGAAGCCCC
R
TAGGATGGCTCAGCACCAGAACGAGGTCTGACTGTTAAGCAAAGTCAAGTGCATGATGGCTGAACATTGCTGGGGGAAGATTTTGCAATTATGCATTGTT
Celera SNP ID:            hCV2857931
SNP Position Genomic:     192997
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   his(A,1)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59719):
TTGTTTGCTTTGCTTTGCCTTGTCTGGTTTTTCAAAGTGCTCTTTTAACAAATGAAAGTTTAAAGCTTGAGTTCAATTTGAGTAATTTGTTCCCAGAGAA
R
AAGTAAATGAAAAGTATTTCTGGGTATTTTTAATGACACAAGTTTCTGTGCTGATATGCGGGCAGGGGTTCGGGAGTGGGGGCACCAGGGCTCATGAGCC
Celera SNP ID:            hCV1445217
SNP Position Genomic:     881149
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   afr(A,3)   his(A,3)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59720):
GCACACACACACTTTTAAGCATTTTTGATTTATATATCCCTCTGCATATTTTGTGCCTTGTGATGTGTTTAACGAATGACAGTGTCTTTAGTGCATTGCT
R
CTTGGGGTTTCTACACTGGAAGTGTAATCCGAGGCCTTGGAATTGGTCAAACAAAACTCACTTGGCAACATTTACTTAGAGAGCACTCTGCGAGCACTCT
Celera SNP ID:            hCV2857932
SNP Position Genomic:     197620
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   his(A,4)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59721):
TCAATTTGAGTAATTTGTTCCCAGAGAAAAAGTAAATGAAAAGTATTTCTGGGTATTTTTAATGACACAAGTTTCTGTGCTGATATGCGGGCAGGGGTTC
R
GGAGTGGGGGCACCAGGGCTCATGAGCCGAGAGCCCCTGCTTCCCTTGGAAAACGGAAATTTCTATCTCCAACTAGGGAAAAATTTGCATGTGTAGAATT
Celera SNP ID:            hCV1445218
SNP Position Genomic:     881221
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,2)   afr(G,2)   his(A,2)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59722):
CACACATAATTCAAAGGTAATGTAACTTGCCGTGTCGGACTTTAGTCCATTCCGTTAAATGGAGAAAAATGACTGACGTGAAGAATGACTTATTGATTCT
Y
GGTGGGAAAATGACTTCTGTAATATGGGAAGTATGGTAAAAGGAATAGCTTAATTATTTAGGGAGCACTTTTCAAAATGTGCTTTTACAGCAGTACAAAT
Celera SNP ID:            hCV2857933
SNP Position Genomic:     198182
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   his(T,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59723):
CACTGTTTCCAGCCACGGGCTATCCAGGGAATTGGGGACAGTCTGTAATGTATCTTGAGCTAGGACCATATCCAAATTACTGGCCTTTCCAGTTTTTCTT
W
AAATAGTAGGGTCAGTAGGTGACCACACTCAGAAGCCAAGCCTGCAGCATCAGGGCTGAGGAGCAAACTCTTTCTTTGGTCTGAAGCTTCAAATATGAAC
Celera SNP ID:            hCV15917440
SNP Position Genomic:     774248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59724):
CACCAGGGCTCATGAGCCGAGAGCCCCTGCTTCCCTTGGAAAACGGAAATTTCTATCTCCAACTAGGGAAAAATTTGCATGTGTAGAATTTTGGTTTTTT
S
TTCGGCGTGTTTATTTAATTTAACATTACCTATCCTACGATTATTTCAAGGTGATTTTATTACTAGTCAGCTTTCTTTTCCCTAGCACAAAACTCATGCA
Celera SNP ID:            hCV1445219
SNP Position Genomic:     881332
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(G,1)   his(C,4)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59725):
TTTACATTATACTTAGGCTGGTGTTAGGATGCCGTGGCTGCCAAGTTTACACAATGCACTTTCTCTCTCTCTTTCTTCTTTTGGTTTATGATGTTTTTCA
R
TAGTGTCATGGAACTCACTTAATCTGATTTCATCAAGTAAATATATGGGAAGTTGAGATGACATATTTTTATCTGACATTTGAAGAAATATTCATAAAAT
Celera SNP ID:            hCV2857934
SNP Position Genomic:     198590
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   his(G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59726):
TCTCACCAGACTGATGGTGCCATGAGGGCAGGGGCAACTCCTATCCTAAGGCGTGGCCCATAGTAAGGGGTATTGGTTAGAAGAATGAAAGATTGAATAC
R
TCAAAGTGATGAGTACAGAGCTGTCTGTCATTTTCTTATCTTTGGCCTAACAACTGAACACATTTTATGAAATTTGCAAATCTGTTTCCAAACATGTTTG
Celera SNP ID:            hCV2857935
SNP Position Genomic:     199787
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(A,3|G,2)   his(A,3)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59727):
ACTTTACATTTTGAGTTTCGATTTTTTTTTTTCACCTGGGCTAGTAATACGTGGTAGGATACTCTCTCACAATGCTAGGCCACAGCAGCGAGCTGCAGCT
Y
CCAGTGATCACAAGGGCAAAGAATCGATATTCTACCAGGCACGGTGTTGCCTGATAACCTTGCCCAGCTGTAGGCTAATGTAAGTGTTCTTTTTTATATT
Celera SNP ID:            hCV15896621
SNP Position Genomic:     603991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59728):
TGCTAAATAAGGCAGGAAATTCCATTAAGTTTAAATGTGCTGCCCTTACCCTAAAGTGTTTGGAGGGCTTCGTAGAAGAGCCAAATAGATTCACACAGAT
Y
TTATTTGTAGAGCTGAATGTGCACTTCATTAAAATACTTTGTAAGGTATTCAAGGATGGGCTAGGAGGGTGAGGATTCCAAATCAGAATCTTCAAGCCAG
Celera SNP ID:            hCV2857936
SNP Position Genomic:     200267
SNP Source:               Celera
Population(Allele,Count): cau(T,1)   his(C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59729):
CAAATGAATGAATGTATGAGTGGGTCAAGAACAAGATTCGGCCCCAAGGAGATACGCGACTTTCTACTTTGTTTTCTATTTGGATTTCACACAAAGGCTC
K
AAGGTCTCCTGGTAGGCCATGCTCAGAAGTCTGGGTTGTCCCCTGCCCAGGACAGGCTCACCCTGGCCTGTGTCCTAGGTATTGTGGGGCCGCTGTAGGA
Celera SNP ID:            hCV2857937
SNP Position Genomic:     202457
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(T,1)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59730):
GCAGTCAGAGGCCTCAATGGTGCCTGTGTCCACAGGGCTGGCTGTCCTCACCGTGAAGTCTAGATCTCCCTGCTAACTTACACTGTGCTCAAAACACACA
C
ACACACACACACACACACACACACACACACACACACACTGGCTGTCCTCACTGTCAACTCTAGATCTCCCTGCTAACTTACACTGTGCTCAAAAAACACA
Celera SNP ID:            hCV11517891
SNP Position Genomic:     10594
SNP Source:               Celera
Population(Allele,Count): chn(-,1)   cau(C,5)   his(C,5)   total(C,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59731):
TGAAGGAGAAGCAGGAGTTGGTATACCAATATTCCCACTGTGCCAGCAGAGAGCGGGTTATCCTTACTAGAGAGCCAGAGAGTCAGAACGGTTTTTTTTT
K
TTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACAATTGTTGCCCAGGCTGGAGTGCACGATCTCAGCTCACCGCAGCCTCTGCCTGCCGGGTTGAAGCAA
Celera SNP ID:            hCV11517892
SNP Position Genomic:     12782
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59732):
TTGCCCGTTGACCTCCATATAAGTATCTGCATTTGCTGCATCATTCATGACATGTGAGGCCTTTGACAAACCCTCCTATGGTGCAGCTTCCTCCGAGCAG
S
TCCTAAGGAAGTGCCAGAGTCAGGGCTTTCCTCTGCCTGAATTATCGGAGCTCTTGGCTTAATGTGGGAGAAGAGATGAATGATCTGTCCTTCTATGAAA
Celera SNP ID:            hCV15917447
SNP Position Genomic:     943954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59733):
ATCTGATGGGTGTATCAGGAGTTTCCGCTTTTGCTTCTTCCTCATTTTCTCTTGCCACTGCCATGTAAGAAGTGCCTTTTGCCTACCACCATGTTTCTGA
R
GCCTCCCCAGCCATGTGGAACTGTAAGTCCAGTTAAACCTCTTTTTCTTCCCAGTCTCAGGTATGTCTTTATCAGCAGCGTGAAAACGGACTAATACAGT
Celera SNP ID:            hCV15896628
SNP Position Genomic:     599494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59734):
TTCCTACATTCAACATTGTACTCTAATATCCAGTAAAGTGAAACAAACAAACAAATAAATACACTTTTTTCAAGAAAAAATAAATATCTGTGATCTCATC
R
TTTGACCGTCAGTATTTTCATTTTTGCATGTGCCACTTTAATTTCCCTAGGCAACACTAGCTAGTGGCCCACAATAAGACGTAGAAAACAAGACCACGTA
Celera SNP ID:            hCV15917448
SNP Position Genomic:     942586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59735):
TTCAGTGTTGGATGTTCACCGCTTCTTTAGGGTTCTACCACTCCCAGTAAATCAAGTAATAGGTTTCTGTTAAAAACCCCAGTGTGCTGATCTCAGTGGC
R
GCCATCTTGCTTTGTAAGCCTTCTCTAGCTTTATGATGCTCCCAGTATATAAGACATTTCCAGTGTCTAGTCCAAATTAGTATTTCTCTAATTCTCGAGT
Celera SNP ID:            hCV8902027
SNP Position Genomic:     782731
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59736):
GCCTGGGTGATAGAGCGAGACCCTGTCTCTGAAGATACAAGAAGGCCACATGTGGTGGTTCACCCCTGTAATCCCAGCAGTCTGTGAGACTGAGGCAGAA
R
GATTGCTTGAGAAGTTTGAGATTGGCCTGGGAAATATAGCAAGATCCCAACCCTATTAAAAAATTAAAAATGAAAATAAAATTTTAAAGAAAGGTATTTC
Celera SNP ID:            hCV15896629
SNP Position Genomic:     590092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59737):
ACCCACAGAACACTGGCTCCTCATCACCTCCCCAAGCCCAGCCCCTGGCAACCACCATTCTCCCCTACTTTGTCTATGAATTCGACTACTCTTGGTACCT
Y
ATATAAGTGGAATCACACAGTGTGTGATGTGTTCTTTTGTGGCTGACTTATTTATGATACTGGATTCTCAGCATCATGGGAGTTAGGACTGTCTGTCGCA
Celera SNP ID:            hCV15917449
SNP Position Genomic:     941237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59738):
CTCCCAGTATATAAGACATTTCCAGTGTCTAGTCCAAATTAGTATTTCTCTAATTCTCGAGTGTCTGATCTGCCTGGCTAGAATGATTAAAACAAAAAAA
Y
AGCAAATCAGTTTGACAGTCCACTTCATTAAGTGGAGGACAGTGTTTTGATTGCTATTTAATCTGTTTTTCCTTCTGTCTGTTCTTGGCTATATGGAATT
Celera SNP ID:            hCV8902028
SNP Position Genomic:     782870
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59739):
TTTTAAATAGTTAATCCATTTAAGAAGTTTCATTTAAGGTACTGTTAAAAAGAAAAAACACAGAACAACACAGTGAGAGCAGAAAAGGTATCATCTCCTC
Y
CCCTCTTCTTCTCTTTTAGAAACCTTGCTGCGTGATCCACTGATGGTAAATATTTCATGTACTTTGCATATCAGCCTGAGTTCCTTTTGTGAAGTCAGGT
Celera SNP ID:            hCV8027659
SNP Position Genomic:     241118
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,2)   his(C,6)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59740):
TAAGTGATGGCTGCTTATGGCCATGCCCTTTCTTCTGCACTTTGGGTGTTTTGTCTGGAATTTTCTCTCCTTTCCTTTTGTGAAAAAGGATGAATTTTCC
R
AGACTCTGTTATGACAGAAACTCACCAGTTCTCTGTTGTTAATCAACAAATAGATTGTGAATGCTTGACTCTTCTTTTTTTTTTTTTTTAAAGGAGTTTC
Celera SNP ID:            hCV8902029
SNP Position Genomic:     783806
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59741):
CCCAGATTGATCTTTTCTGGATATTGGGTCAACCATAAGATGGTACCTTTCCCTGTGTAACAAAGTCAGATTCTGTGAAACACCTGTTTTTTGTATGGCT
Y
ATGAGATGAGGATGATTTTTACCTTTTTTTTTTTTTTTTTCCCTTGAGACAGTGTCATTCTATTGTCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCA
Celera SNP ID:            hCV8709709
SNP Position Genomic:     199516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59742):
AGAGCTGCAGGCATTAATGCAAAGCTGCACTGCCTCACGAGGTCGCTGATGCACTCTCATTCCTTTTCCTCCAGGGACTCCTGCACTTTGCCAGGCGTGG
R
CCAGAATGCCACTCGTATTGTTTATCTTAATGCTTAGTGATAGTAGCTACCTCCAGTGCACGCCGCATTAGCCTCTCCAATGAGTTTCTCCTTTATTTTA
Celera SNP ID:            hCV268507
SNP Position Genomic:     156741
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,3)   his(G,3)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59743):
TCAGGAAAATTCAATCTCGTTAATACTTTTGGAGGGAAAAGAAGGCAAGCGTACTCTTCAGAGAACGGATTCTTTTGGATTTGTGTTAGAGAAAAACTGT
S
TCTAATGACCGCACAGCACAAAGCAAAGCAGTTAAATGAATAACCGCCTTCCAGTACAGATAATAAAGCAGGAGAATTTTGTGTGTCACATCAATAAACA
Celera SNP ID:            hCV1445220
SNP Position Genomic:     881669
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   afr(G,1)   his(C,4)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59744):
TGCAGGGAATTATTGCAGTTTTGTTTTTTATTTAGCACAAACCTAAATATTACACGTAGCAAATGTCACCCGATGCAACTGTCTGTCCTGAAGAGGAGGA
Y
AGATTATTCTGTGGCTACCTAATGGTGTTTACAGAGTTGCCACTTTGCCAAACCCCAAGACCCACACTTGGTCTCTGGTGTTGGGTCCGCCAGCTCTCCA
Celera SNP ID:            hCV1445221
SNP Position Genomic:     882085
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,1)   afr(C,4)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59745):
AATGTCACCCGATGCAACTGTCTGTCCTGAAGAGGAGGACAGATTATTCTGTGGCTACCTAATGGTGTTTACAGAGTTGCCACTTTGCCAAACCCCAAGA
S
CCACACTTGGTCTCTGGTGTTGGGTCCGCCAGCTCTCCACCCTTCAGAATGGGATGTTTAGGGCGTAATCTTCTGAGACCCACAACCTAAGCCGGGAAGC
Celera SNP ID:            hCV1445222
SNP Position Genomic:     882146
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,2)   afr(C,4)   total(G,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59746):
GGATGTTTAGGGCGTAATCTTCTGAGACCCACAACCTAAGCCGGGAAGCAGAGGCAATTTATTACCCCAGCTTCCTGTCCACTGGAGGCCCGGGGAGACC
K
TGAAATGCTCAGCTGCAAGTCAGGGTCCACCGATGCAGCCTCGGAATTTAATGAGGCCTCTCCGGACCCAAAGGGAGATGGACATTTCTAGGCTTGTGGA
Celera SNP ID:            hCV1445223
SNP Position Genomic:     882298
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,1)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59747):
CCCTCTTCTCTCCTGGTGAGACCGTTGTTGGATGTGAAAAGGCCTTCACTATTGTCAAGGCTGGGCCCCTGCTTTTGCCTTGTTACTCTGCATTTTAACT
S
TGGACCAGAATTGATTGCCACCAATAAAAGATACTCCAGTCCTTAAAAAGTCAACATTGTTATGTTTTACTTAGTTATGACTTAGTGAACACCTATACGA
Celera SNP ID:            hCV1445224
SNP Position Genomic:     882513
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   afr(G,1)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59748):
AAGAACGGCTTGGCAGCCAGTCCGGCTAAGTGGAGCTCAGAGCGGATGGGCACACACACCCGCCCTGTGTGTGTCCCCTCACGCAAGTGCCAGGGCTGGG
Y
CCCTTCCAAATGTCCCTCCAACACAGATCCGCAAGAGTAAAGGAAATAAGAGCATTCACAACAGAGTGAAAAATCTTAAGTACCAATGGGAAGCAGGGAA
Celera SNP ID:            hCV25761998
SNP Position Genomic:     1119319
SNP Source:               Applera
Population(Allele,Count): afr(C,21|T,3)   cau(C,14|T,2)   total(C,35|T,5)
SNP Type:                 UTR 3


Context             (SEQ ID NO:59749):
CAGACCCTTGCAACAAAATCTTACGTGGTCCTGGATGAAAATAACACTGGAGGTAAGAAACCTTGGCCTAGAGGGTTCCCCAACCTTTTTTTTTTTTTCA
K
TATGGCCCCCTCCCCCAGGAGCCTTTTGAGATACGACTTTCCTAATGGTCTTTGCCCATGAAATCTGAATACCACAGATGTGCTGAATGCCTGTTCGTGT
Celera SNP ID:            hCV1445225
SNP Position Genomic:     882888
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   afr(T,1)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59750):
ACATGGCAACCAAATAAGAGTAGCTGGAGCAGAGACTTTCTCTTCTTCAGATTATTAAGATTTGAGCAATTCATTTTTTTTGGATGGTGTTTATTAAAGT
M
AAGAAATCTTTTGCTTATTTGCTAATGATTCTCTCCCCTTTCTCTTCTTATATTTTTGAAGGCTGAATTGGTAAAATTATCTGGCCCAATAAAAATATGT
Celera SNP ID:            hCV2857940
SNP Position Genomic:     204435
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(A,4|C,3)   his(C,3)   total(A,4|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59751):
TGGATGTATTGTCACCCCTGTTGGGAATACACCGCTCAGAGAAGGGTTTTGTCCATAGGCAACACAGAGCCAATTGAGGCCTTTGGGCAAGCGGAGGTCA
W
GATGGAATTCAGCCTTTCAGACAATTCTGCCAGGCCCTTGGAGGGTGGGAGGAAACAGGCAAGACCTCTGGCTCCTAGAACCGTAAGGACCCTTGCCATT
Celera SNP ID:            hCV1445226
SNP Position Genomic:     883180
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(T,1)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59752):
ATCTGGCCCAATAAAAATATGTCCTGGGTTGGAAAAGAGCACAAGTTTCTTTTTCTAGCCCTGGAGTGAGGTGGCTCTCTGGCCTCTGGGTTCGTTTGGT
R
TCCTGGGGAGTCATTGACACCCACACACTCCTAGTCACAAGACCTTTCCCTCCCATCCAGATTGTGTTTATTTTACGGCTCTCGCACGGAGCATGCAGCT
Celera SNP ID:            hCV2857941
SNP Position Genomic:     204614
SNP Source:               Celera
Population(Allele,Count): chn(G,8)   cau(A,1|G,8)   his(G,8)   total(G,24|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59753):
TGGGCAAGCGGAGGTCAAGATGGAATTCAGCCTTTCAGACAATTCTGCCAGGCCCTTGGAGGGTGGGAGGAAACAGGCAAGACCTCTGGCTCCTAGAACC
R
TAAGGACCCTTGCCATTAGGACCAAACCTCTTCCAGCTTTCTCAGCAGCCACATGTCACCCCCTCTTCCACCCTTTGCCCTGCCACCCTCCATCCCCTGA
Celera SNP ID:            hCV1445227
SNP Position Genomic:     883263
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,4)   afr(G,4)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59754):
CTTTCCTTTATAAACCACCCAGTCTTGGGTATTTCTTCTTAGCAGCATGAGAAGGGACTAATACAGGGGTGATCACAAACAGCCTGCAGACTGGGCCATC
K
TTCTTAGGCAGGATCTCGAGCTAGGAGATGAGAAGAGCTCTATAGGCAAAAAGAATGACTTGGAAGGCCACATATGGCAGAGTAGCTAAGACTTTGGGGT
Celera SNP ID:            hCV2857942
SNP Position Genomic:     205756
SNP Source:               Celera
Population(Allele,Count): chn(G,5)   cau(G,5|T,2)   his(T,2)   total(G,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59755):
GAATTCAGCCTTTCAGACAATTCTGCCAGGCCCTTGGAGGGTGGGAGGAAACAGGCAAGACCTCTGGCTCCTAGAACCGTAAGGACCCTTGCCATTAGGA
S
CAAACCTCTTCCAGCTTTCTCAGCAGCCACATGTCACCCCCTCTTCCACCCTTTGCCCTGCCACCCTCCATCCCCTGATACCCTCCTGCCTTTTAGTTGC
Celera SNP ID:            hCV1445228
SNP Position Genomic:     883285
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,4)   afr(C,4)   total(G,4|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59756):
TTTTGTCAGTTCATCTATCTGTCCATCTCTTTGTCCATCCATCCAACTACCCACTTACCCATCCATCCATACATTTATCCATCCATCTACCCACCCATCC
R
TCCATCCATCCATCCATGCATCCATCCATCCATCCATCATCCATCCATGCATGTAAGTTGCAGACATCAACAAACTTTACCCTTAAGGACTTTGGCTGGC
Celera SNP ID:            hCV2857943
SNP Position Genomic:     208480
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(G,3)   his(A,1)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59757):
CCAAAGTATGCACGCCGCACTCCACCTCCCATGCCCTTTTCTTTTTCTCAGGGCCATCAGAAAGGAAGTAACTGGCTTAGATTTGACACCTCTTTTTTTG
K
TCGTTTTATGTTTTTGAATCTAGCATGTATAAGCTCATCAGAGAGCTTTCCCCTGGCCTGGGACAATCAGGTTTCAACTGAGGCTCACGCACACGTCAAC
Celera SNP ID:            hCV1445229
SNP Position Genomic:     884383
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,1)   his(G,2)      total(G,2|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59758):
GCCACTGTGCCCGGCCTTAGATGAGGTTTGTAGATGTGTTTTTCATATTCCCAAAGCCATGAAATTTGACAGGTAAATATATCAGTTATAAAAGTTTTAG
S
ATTAATTATCAACTAACTCCCAGAAGTTGCCTCAGCCTCTCTTTTTCAGCCTTGTCTTGCCCCAGCCCAGAGACAAGCCACAGCTATAGGTTTTATTTCT
Celera SNP ID:            hCV2857944
SNP Position Genomic:     209823
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,5)   afr(G,5)   total(G,10|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59759):
CTGGAGTGCAGTGGTGCAGTCATGGTTCACTGCAGCCTCGATCTCCTGGGGCTCAAGCCATCCTCCCACCTCAGCCTCCTGAGTAGATGGGACCACAGGC
R
CATGCCACCACACCCAGCTAAGTTTTGTATTTTTTTGTAGAGGCAAGGTTTCTCCATGTTGCCAAGGCTGATCTTACACTCCTGGGATCAGGAGATCCGC
Celera SNP ID:            hCV11667884
SNP Position Genomic:     771823
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59760):
TCTTATTGGAACAGCTGGTTTTCCCTTTAAAACAGGGAGTCCAGCAGCTTCTAGGATGCTTAGAATCAGAATTGTTGCTCACTTTTTAAGGTATAGAGTA
K
TTGTCTTATTCTTAACTACATTTTATATCTTTGCCCTTTTTTCCCCTACTTTAAATAAAATCTATCTCTAATTTATGTTACTTAAGCAATGACAAATTCT
Celera SNP ID:            hCV2857945
SNP Position Genomic:     210616
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,6|T,1)      total(G,6|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59761):
TTCTTTCCTTCCCTTTTTCCTTTTCTTTCCTTCTTTCCTTGCCATTTAAAACATACTGATAACTTGGCAGCACAGGGCAGTGATTAAACTCAGGCACTCA
Y
CCCACCCTACCTGGGAATCTGAATTCTGTCTTTTCTGCTGCTGTGGATTCTCAGTCCCCAAGTTGTGTAAATCAAAGCTTCTCCTGCCACACTAGTGTGT
Celera SNP ID:            hCV2857947
SNP Position Genomic:     212538
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,6)   his(C,1)      total(C,1|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59762):
AGGAAGAACTCTTCCAAATGATGGCAGGGATATTTGGAATCTTTCCCCCTGAGTTCCCTCTGGAAGTTAAAGCCCAGATCCCGTGAACTGATTAAAAAGC
Y
CCAGACCATTCCCGTTCCAGTCATCTTGAAACTGAGCAAGACCGTGTCATCCATGGAGCTTGAACATAGGAGCACTTTAAAAAAAAAAAGAATGAAAAGC
Celera SNP ID:            hCV2857948
SNP Position Genomic:     213033
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3|T,1)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59763):
TCTTAGAATCTTCTGAAATAATATGCAGCATTATATTCCATTTGTACCTGGGAAGAGGGTACTTGTCTTTCATCAGAGAGTCACCAATGGACCACTGGTC
Y
CTGCTGATTTAGTGTCACAGCTCAAAACCATCAGTAGTCCTCGTGATCTTTCGGCATTGTGGCTCCCTTTGTGAGAAGGGCCTAAGAGTGAATCTCCCAA
Celera SNP ID:            hCV11667888
SNP Position Genomic:     770911
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4)   afr(T,2)   his(T,2)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59764):
GGAAGAACTCTTCCAAATGATGGCAGGGATATTTGGAATCTTTCCCCCTGAGTTCCCTCTGGAAGTTAAAGCCCAGATCCCGTGAACTGATTAAAAAGCC
S
CAGACCATTCCCGTTCCAGTCATCTTGAAACTGAGCAAGACCGTGTCATCCATGGAGCTTGAACATAGGAGCACTTTAAAAAAAAAAAGAATGAAAAGCC
Celera SNP ID:            hCV2857949
SNP Position Genomic:     213034
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3|G,1)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59765):
CAAAGTTACACAACGGCTGTAAAAAATAAATAAAAAAAAAGCAAAATTAGCACTTTATCAAGTTTGGGGCATATTTCCAAGGCCACCAGGGAGCAGGGAA
R
GTCACCAAAAGACCGCTCCTTGAAACCAGGCAAGAAGCCATCTTTGCAGTGAGCTGAGAGGTCTGATGGCCGCCAGCTGAGGGAGGGAATTCCCCTTTTG
Celera SNP ID:            hCV8709713
SNP Position Genomic:     199267
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59766):
CAAGGGTAAGATCTGCTGTCTTGTGAATGTCAAAGAAGTTTCTCATTCGCCCCTTTCTTCTCTCTCCCAGTGTCTTTAATTTGTTAATGCTTTCGACTTA
Y
TTTGCTTTGGATAATTTTCAAAGTACTGCTTTCTCTAGAGATCTCTAAAAGGCAGAAGTTCTGGCTATTAAAGATTTGCCATTCTCAGAACAGCCCAGTT
Celera SNP ID:            hCV8902034
SNP Position Genomic:     784006
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59767):
ACCCATTGTACACATTTGGTATTTTTTCTTTAAAAAAAAAAAGCATTTACTTTTTGCCTCATGAATCTCTGAGTACATTTTGTGCATTCTGTATTCTACT
K
TATTTACTCAATATTAATTATATGAGAAATAAATCCTAAATGTAATTTTGAATGGTGGCTTCACAAAAGAACATTTCCTCTTCTTTTGGACATTTGCTCC
Celera SNP ID:            hCV8902038
SNP Position Genomic:     793757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59768):
GACAGCTCTAGGCAGAAAGCCTTTCTCAGGATCCCAGCTTCCCTGTCTTCCAGAACTCAAAGACGGCTTTTGTTTGTTAGTTTTGAGGATGGAGACAGCT
R
TCATTCTAATGAGGACTTAAATGTGTCCCTGCTGACCGAGCCAGAACTTATTTTTATGTTGCCACTAGGAGTCTTCTGAGATGCTCTTGTGGCTGGATGT
Celera SNP ID:            hCV8902039
SNP Position Genomic:     795992
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59769):
TCCCTGGAGAAGCACCAGCAATTCTCTTTCTTTTACTGTTATAGAATAGCCTGAGGTCCCCTCGTCCCATCCAGCTACCACCACGGCCACCACTGCAGCC
R
GGGGCTGGCCTTCTCCTACTTAGGGAAGAAAAAGCAAGTGTTCACTGCTCCTTGCTGCATTGATCCAGGAGATAATTGTTTCATTCATCCTGACCAAGAC
Celera SNP ID:            hCV16006706
SNP Position Genomic:     1119632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:59770):
AGCACAGGAAAGACTTGCCCTCATGATTCAGTTACGTTCCACCGGGGCCCTCCCACAACACATGGGAATTGTGGGAGCGACAGTTCAAGATGAGATTTGG
R
TAGGGACACAGCCAAACCATATCACAGGGTCACCTGTAGGTTACCGTAAATAAGAGAAACAGACCAAGTAGAGACTCAGCATAGCTGGAGGGGGGGCCCC
Celera SNP ID:            hCV16237398
SNP Position Genomic:     507875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59771):
CCTGAGGCATAAATGGGTTTTAAGCTCCATACAGTAAAACCTAGCATATGAAAACAGTTCTGGCTGATGGGTTGGTAGAAGTGATAGATATAGATACATA
Y
ATACACATATATGCACAGTAATAGATATAGGTAAAGACCTTGATATATGTACATATATTGTATGATACATATCCATGCATATACGTGGGTGTACACACAC
Celera SNP ID:            hCV16237399
SNP Position Genomic:     462107
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59772):
CTGCCTCCTAGGCTCATGCCATTCTCCTCCCTCAGCCTCCTGAGTAGCTGGGACTGCAGGCGCCAGCCACCACGCCCGGCTAATTTTTTATATTTTTAGT
M
GAGACGGGGTTTCACCATGCTAACCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCAGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATTAGC
Celera SNP ID:            hCV9663739
SNP Position Genomic:     432972
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(A,3)   his(C,1)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59773):
CTGTTTGTTTTGAACCACTTATTTTGGCAAGACTTCTTCAGACAGGAGAGCCCTGAGAGCTCTTCAAAGGCTGGGCCTGATGGTGTTTGTCAGAGAGGTT
Y
GAGCTCTTAAATTTAAATGGCCTCCCACAGGGAAGCAGAAGTCCTTTTGGATCCTCCAGAGGACTGAGATCCTCCAGATGCTGTTCATTTGCCTTATTCG
Celera SNP ID:            hCV1445230
SNP Position Genomic:     884689
SNP Source:               Celera
Population(Allele,Count): chn(C,6)   cau(C,6|T,1)   his(C,6)   total(C,18|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59774):
AAAGTCTGTACCAATTAAGCAGCTACTACCCATTCCTCTTCCCTACCATTCTACCTTCTGTCTCAGTAGGTTTGCCTATTTGGGATATTTTATTTAAGTG
S
GATCATACAATAGCATCATGTGTTCAAGGTTGACCCACATTGTGGCATGTATCAGTACTTCATTCCCTTTTATCACTGAATAGTATTCCACTGTATATTG
Celera SNP ID:            hCV1445231
SNP Position Genomic:     885530
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59775):
TGGGTAATGGCTGAAGAAAAGAGGTTTAATTGGCTCATGATTCTGCAGGCTGCACAGGAAGCATAGAAGCTTCTGCTACTGGGGGCGCCTCAGGAAACTT
R
TAATCATGGCAGAAGGTAAAGGGGAAGCAGGCACATCTTACATCGCCAGAGCAGGAGCAACAGAGAGCGACTGGGGAGGCGCTACACACTTTTCAACCAC
Celera SNP ID:            hCV1445232
SNP Position Genomic:     886056
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   afr(G,1)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59776):
ATGAAGGGTTCATCCTCATGACTCAGTCACCTCCCACCAGGCCCCACCTCCAACACTGGGGATTACAATTCAACATGAGATTTCGGCGGGGACACAGATC
Y
AAACCTTATCACCAGCGCTTGTTATTTCCTCAGGTACATTTTGATGTCCCTCCCCACTTTACTCTCCCCTACACCTTGAAGCAGGTGCAATCATTTTAGG
Celera SNP ID:            hCV1445233
SNP Position Genomic:     886316
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59777):
AGTTAGGCATTGGTTTGGCTCCAAGTGAAAACTGCTTCTGTTATTAACATCAGCAGCAGCAACAAGAAGAGAGAAGTTTATGTCTGTCTCGGAATACGTA
Y
GTGACAGGCTCCCCCATCGAGGTGCTCAGATATGGTGGCCACTGCATGATTTTGCTCAGGACTGAATTAGAGGCAGGTGAAAGGCCCTCACTCCCTGGAA
Celera SNP ID:            hCV1445234
SNP Position Genomic:     886852
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59778):
TCACAATTAATTGTGCCGCAGTTAATTAAATTGACTGCCTGGCAATCCAGTCTCAATTAAAATACTAATAGTTTATTTATTTATTTTGTCTTTTACGAAG
Y
GTTTTCTTTTACCATCTCTCAGGATCCTATGTAGGTATCCTGATGGTAAGAATGATAATACCATGACTGATTATTCCATAGTTGCAGGAACCCCACATGG
Celera SNP ID:            hCV1445235
SNP Position Genomic:     887983
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   his(T,1)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59779):
CTTCCCACAATTCCCAGTGAGCCCAACTCCTTACCACAATTCCCACCCCATGCCTTCCCCAAATTCCTGATGAGCCCTATGCCTTCCCACAATTCCCTGT
R
AATTTTGCTCCTTCCCACAACCCCAGTGAGCCCCACTCTGTCCCATAATTCCCTGTAAATCTCACTCCTTCCCACAATCCCCACTGAGTCCCATTCCTTC
Celera SNP ID:            hCV2857950
SNP Position Genomic:     214188
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(G,2)   his(G,2)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59780):
GAATAAGTATTTTGCAGGGCTTATTTTCATCATCTGGAAAGGAGGAATAGATAGGGTTATCTTGAAAGTCCTCTCTTGGAAGGGATTATGGTTCTGTAAT
S
CTGTAGGACTGGACTCAGTGGGTAAATGTAGAGGTGATGGTATCTCCGTTTTTATTGTCTTCAGAAATGTTGAGATCGAGTGATATAAAGTCACAGGGTT
Celera SNP ID:            hCV1445236
SNP Position Genomic:     888280
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,1)   cau(C,8)   his(C,8)      total(G,1|C,16) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59781):
CCACTCCTTCCCACAATTCCCAGTGAACCCCACTTGTGTAGTGTGTCTGTGAGTAGTCTGCCCACTCTCCTTATGACAGGTTTCCAGTATTATCTGTTTC
M
TAACCCATTTCCAACCTTCTGGGTTTTTTCCTTCAACGTTTTCCTGTGACAGTTCTCCATTATATCTTTGTTAGATAATAGTTAGCAACCCATTAATAAC
Celera SNP ID:            hCV2857951
SNP Position Genomic:     214437
SNP Source:               Celera
Population(Allele,Count): cau(C,1)   his(A,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59782):
CTTTGCAGACCCCTGGGAGCCTCATTCGAGTTCTTCCTGTGGAGTCCCATGCCTTGGTGTTGAACCAGTGTCCTAGCTGGGAGGACCGTTGTACTGCAGC
R
CTTTCCTAAACTCTGCATGTGGTCTCCATGATGTCCTGGCTGTGTTAGCATCAGAAATGGCTTTGCCCACATCTCCCAACTCTGCCCTCTTATTAGGATT
Celera SNP ID:            hCV1445237
SNP Position Genomic:     888577
SNP Source:               Celera
Population(Allele,Count): chn(A,8)   cau(A,8|G,2)   his(A,8)   total(G,2|A,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59783):
TGTTAGAAAAGGTATTTTTTTTATGAAGTAAGTAGGGAACTAACTACCTGTTCACTGCTGCCCGTTCATTGCTAGCACAATGCCAAGTGTCAAATAAATG
Y
TTCTTGAACAAGTGAATAGAGTACGCTTCTAGGCTTCTGGAAACGGTGAATGTTGCTTTATGTGGCAAAAAGGGACTTTGGAGATGTGATCAAGTTCAGG
Celera SNP ID:            hCV2857952
SNP Position Genomic:     214737
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59784):
CTGGGAACTAGCTAAAATTAGGGAGTTAAAATGATCCAGCTTAGCTCAGGCTATAGGGAGGATTTCTCTCCCAGGTGTTTGTTTTGTTTTGTTTTTGAGA
W
AGGGTCTCACTCTGTCACCCAGGCTAGAGTGCAGTGGCCTCAACCTCCCAGGCCCAGGTGATCCTCCCACTTCAGCCCCCTGAGTAGCTGGGACTACAGG
Celera SNP ID:            hCV11667892
SNP Position Genomic:     768269
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,1)   total(A,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59785):
TATGTAGTCATATATATATATGTGTGTGTGTGTGTGTGTATGTATATATATGTGTGTGTATGTATATATATGTATGTATCTGTATATGTATAATGGCTGT
M
CATGATATAATTTTGAGTTGGAAAAAGCAAATTGAAGAATAATACATGTATTATCATGTCTTTAAAAAAAAACTATACACATAGCTGAATGTTTTTGTGT
Celera SNP ID:            hCV11667893
SNP Position Genomic:     765843
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59786):
TGACCATCCATCTCCAGAATGATTTTCATCGTGCAAAACTGAAACGCTGTACCCACAGAACACTGGCTCCTCATCACCTCCCCAAGCCCAGCCCCTGGCA
R
CCACCATTCTCCCCTACTTTGTCTATGAATTCGACTACTCTTGGTACCTCATATAAGTGGAATCACACAGTGTGTGATGTGTTCTTTTGTGGCTGACTTA
Celera SNP ID:            hCV15917460
SNP Position Genomic:     941187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59787):
TTATTTTAAGTTCAGGGGTCCATGTGCAGGTTTGTTATATAGGTAAACTGGCGTGATGGGGGTTTGTTGTACAGATGATTTCATCACCCAGGTATTAAGC
M
TAGTGCCCATTAGTTATTTTTCCTGCTCTTCTCCCTCCTGCCACCCTCCACCCTTTGGTAGGCCCCAGTGTCTTTTGTTCCCCTCTTTGTGTCTATGTGC
Celera SNP ID:            hCV15917461
SNP Position Genomic:     940321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59788):
ATCACTTTTAAAGAATCTGGGCTTACCCAGTTAACAGAAATAGAACCTGCCTGTTTATCAGTGGGTTTGCCTCACTTTTCTGTGGGTTTCTTTTCTTTTC
Y
TAATTATGCATTAAGAAAATAACTTAAGTTTCTGTGCATACAACATCTTCCTTTCTCATTCCCAGTACCCTAGAAACACAGCCGTTCACTGAAGAGGATT
Celera SNP ID:            hCV8902040
SNP Position Genomic:     802693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59789):
GGGAAGAGATCACTTCACAGTTTCCTGAACCACTAGAAAAAAAAAATGTTCATAAATTTATAGCCGCTGACATTGAAGTTGGAGAAAAGAGCATATCTAG
Y
ACCTATGCTATGTGGAGAACACTCTCCATGTCTTTGAAAAATAAGCACAATACAAATTATATTTGAGGATGACCTGCCAAAGGGTTGATTATCCTGGAAA
Celera SNP ID:            hCV15917462
SNP Position Genomic:     936406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59790):
ATATGTAGTCATATATATATATGTGTGTGTGTGTGTGTGTATGTATATATATGTGTGTGTATGTATATATATGTATGTATCTGTATATGTATAATGGCTG
K
ACATGATATAATTTTGAGTTGGAAAAAGCAAATTGAAGAATAATACATGTATTATCATGTCTTTAAAAAAAAACTATACACATAGCTGAATGTTTTTGTG
Celera SNP ID:            hCV11667897
SNP Position Genomic:     765842
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59791):
TTCTTTAGTGGCGATTTATCAGATTTCAGTGTACCCATCTGAGCAGCATATGCTGTACCCAATATGTAGTCATATATATATATGTGTGTGTGTGTGTGTG
G
ATGTATATATATGTGTGTGTATGTATATATATGTATGTATCTGTATATGTATAATGGCTGTACATGATATAATTTTGAGTTGGAAAAAGCAAATTGAAGA
Celera SNP ID:            hCV11667898
SNP Position Genomic:     765781
SNP Source:               Celera
Population(Allele,Count): cau(-,2|G,2)   total(G,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59792):
CAGGGGACTGTTGTTATTCCTCCTTTACAGAGGTGGGTCTGAAGGTACAGAGTGGATAAGTCATTTTCTCCGGGCCAGCCACACAGCGAATGAATGGAGA
Y
TCCTTGTGTGTAGTAAATGGCTGCAGCCCTATAAGCTATAATCATATATCATCAACACCTTTACCCTGTTATTAACGTGTCTGAAATTAGGGAACACCAC
Celera SNP ID:            hCV8902044
SNP Position Genomic:     811375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59793):
CCACCTTTCTGAAGAAAACTGCAGAGCTTTTGCAGTTATTAAACTAGCAACAGATGTAAAGTCCAACTGTTAGAGTTTTTCTTTAAAGCAGAAGTTAGCA
R
TTACAGGTGCTTGTGATGTCATCACTTAGATGATCTTATAAATGCCTTTTTTTTTTTTTTTTTTTTTTTTAGTCGGAGTCTCACTCTGTCGCCAGGCTGG
Celera SNP ID:            hCV8902045
SNP Position Genomic:     811595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59794):
GCCAGGAGGGTTTCTCTGAGGAGATCCCATTTCAACAGATCTAGAAATGTAATGGAGCCAGTCCTAGGGAAACAGGACTACCAGGAATCCTCACCAGCCC
S
GCAAAGACGAGGGAGCAGCAAGTTCCAAAGCCCGTGGCATGTCAAGGGTCGATGAATTCACCAACTGCAAGGGGCTTTGGTGACCCCAGTGAACAGATGA
Celera SNP ID:            hCV8902046
SNP Position Genomic:     815247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59795):
GATGGCTTTCTTTCCAGTATAATAAAGACAGTGCCTCCTTCCAGGACAACGGTTTGGCAGATTTGCTTGATAAAGGTTGGGGTTTGTAAGCTTGGGGCTC
Y
TCAGCCATGACTGAAACGTACTATGAGCACGGCATCTACCGGGCTGTTCCACATCCTCCCTGTGGGACTAGGGGCCAGGGCAATGGGAATCAGTGCAGAA
Celera SNP ID:            hCV25963840
SNP Position Genomic:     177926
SNP Source:               Applera
Population(Allele,Count): afr(C,35|T,1)   cau(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:59796):
TACAGCTTTTAAGGAGAACTAACTTGCCACTTTGATAGCAGTATAGGACTCCAATATTTCTCATTTGTAATTTTCAGAAGCACACGGGAGGTCTTTGAAA
Y
TTAATGTCTCCCTGCATCACAAACCAAAAGACGAGTCAGTTTATAAGTAGGCTGTGCTTATTAACTCAGTCCTGGCTTTATTGATTGCTTTAGGTTCCAT
Celera SNP ID:            hCV1445241
SNP Position Genomic:     894595
SNP Source:               Celera
Population(Allele,Count): cau(T,7)   afr(T,7)   his(C,1|T,7)   total(C,1|T,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59797):
TCCCTCATGTTTCAAGTGGCTTTTTTGCATGATGGTGCATATGTCTTTGTTTCTGTACAGGGCCCTCCATGTTCAGAGGCAGAGTAACGTGAATTCATTT
Y
GCGCTAATGAGAGTTGCGATATGTCGGCCCAAACTCTCTGTGTCCTTTTCTTCTTGGGCTGATGAACTTGTCAACTTTTAAAAAATGTGCTCTCCAAAAA
Celera SNP ID:            hCV1445242
SNP Position Genomic:     895130
SNP Source:               Celera
Population(Allele,Count): cau(T,4)   afr(C,3)   his(C,3)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59798):
AGGAGTTTGAGACCAGTCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAACTTAGCTGGGCATGGTGACAGGCATCTGTAATCTCAGCT
M
CTCGGGAGGCTGAGGCTGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCACGCTATTGCACTCCAGCCCAGGCAACAAGAGCAA
Celera SNP ID:            hCV1445243
SNP Position Genomic:     895650
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   his(C,1)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59799):
CCCCAATCGATCAGTGGAGAAACGAGCTCTGGTGGGCAGTCAGGCAAAGCAGATACACGTGCTTCTTTTCAGCTTTGTTGGAAGGTTTCATTTTGCTTCA
S
GAACTAGGCAGGAGAATTCCTGAGTTCCTGTACAACCTGAGTTCTCTGTTAAAACAAGGAGGAAGTAATCATCCTGAGTTCGATGATTCAGAGTAAGCCA
Celera SNP ID:            hCV1445247
SNP Position Genomic:     896373
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59800):
TCAGAGTAAGCCATTTAACTTGTAGAGCTTTGGGACTAACAATGATCCCTTTTTGGAGTCCTTAATTACTAAAATTATCAGCATATTTAGAGTTCTGAAG
W
TGCTGAACCCTTATTGTATCTCCCCAGGGTTAGTGAGTAATTGGGAATAGTGTTCCATCTTGGATGCCCCCATCCACTAACCAGCTTTCCTCTTCGGGTG
Celera SNP ID:            hCV1445248
SNP Position Genomic:     896561
SNP Source:               Celera
Population(Allele,Count): cau(A,5|T,1)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59801):
AAACTTCTTTCCACAAGAGTAGGTTTATAATTTATTTTCTTTACATTATCTGGATAATTACATTTGGTTTGCTTACATAGATGGAGGCGAATGGTTTTCC
R
ATCTTCAAACCAACCTATATCACAAAAGCATTCTGAAAACTGGGAAGAGATCACTTCACAGTTTCCTGAACCACTAGAAAAAAAAAATGTTCATAAATTT
Celera SNP ID:            hCV15917472
SNP Position Genomic:     936264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59802):
ACAGATCTAGAAATGTAATGGAGCCAGTCCTAGGGAAACAGGACTACCAGGAATCCTCACCAGCCCCGCAAAGACGAGGGAGCAGCAAGTTCCAAAGCCC
R
TGGCATGTCAAGGGTCGATGAATTCACCAACTGCAAGGGGCTTTGGTGACCCCAGTGAACAGATGAGAAAGGGGAGGAGGCTGGGATCAGTGCACAGCTT
Celera SNP ID:            hCV8902051
SNP Position Genomic:     815281
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59803):
CGGGGTTTCACCGTGTTACCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACC
R
CGCCCGACTGCTTTATTTTCCTTTGTGTTCCTAATACCTGGCCCAGTGTCTGGCAAATGGAAAGTTCCCCTGGATGTAGTTGGGTGACACTATGAGTGTA
Celera SNP ID:            hCV15917473
SNP Position Genomic:     935682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59804):
AGCCCCAGTTGTTTTGAAGCATGTCCTATCATTAACACAGGTAATCAGGATATATTCATTGAAGTCTCACTGTGTGCCAGGCACTATGCTATGCACCTTA
Y
GTGTGTTATTTTATTTCATCCTTCCAGCTCTGGGAGGTGATGACTGTCATCTGCATTTTGCACATGACAAATCTGAGGGTCAGAGAACTTGCCCAGGGTC
Celera SNP ID:            hCV8902052
SNP Position Genomic:     819722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59805):
TCCCCGTTCTGGAGAGCCTTTGATTATAACATCAGCCTGTCATTTGGACCTCTGACCTGAATTATATGAATCTGAAAAATCTCTTCCTTTCCTATCGTGA
R
TTCGGTCATTGTTATAAGCCAAGCTTTGCAAAGGTGGAACACCTTGGAGATACTTATCTCCTCCTTACTCTACCCAAGTAATGACTCATCCTTTTATACA
Celera SNP ID:            hCV15917474
SNP Position Genomic:     935075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59806):
AGAATTTGGGGAGATTCTGCTCTAAAGGGAAAAGCTTTGTAAAGGAGAATTACCAGTAGAGTGACCTTATAATTTACCATCCAATGGATTTTGAATACTT
Y
TGAGAGAGAAATGAGATACTGATAATAATTATACCAAGACAACAGACATAAATTGGGATTGGCCTAGACGAGCAAAGATGAATGGTCATTCTGTCTGTTA
Celera SNP ID:            hCV8902053
SNP Position Genomic:     823968
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59807):
GGTGCAATCTTGGCTCACTGCAGCCTCCACCTCTGCCTCCCAGGTTCAAGTGATACTCATCTCAAGTGGTTTCTACCTCATTAAAACAAACAAACAAACA
S
CACTCACCATTTTTGTGGTGGGCATGGTGGCTCATGCCTGTAATCCCAGCTCTTTGGGAGGCCAACGCAGGTAGATCCCCTGAGGTTGGGAGTTTGAGAC
Celera SNP ID:            hCV3281355
SNP Position Genomic:     708634
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   his(G,1)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59808):
GCAGCTGACGGCCAAAGGGGAAGCTGAGAACAGCAAAGATTCAACTGAAAACATTTTAGGGGGTTCCTGACTTCAGGCCTCTTTTCAGAATGAGGGAATT
R
TCTAAAATCCCAAATGCATTCTTAGCTAAGGTCAGTGTGTCTGGGTCTGTGTCAGGCATGTAGCAGCCACAGCAAACTTCTCTTGAGATAGCATCTCCTC
Celera SNP ID:            hCV3281356
SNP Position Genomic:     708152
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(A,1)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59809):
AGGGATGGTTCTGTGGTGTCCCACACTCAAATAAACATCCTTTAAATACCTCTAGATGCTTATAATTCCTGTTGCAGCCTTAGTCAGTGGGAGCCACTGA
S
CTGCATTCGTGTAGGAACTGAGCAAGGTTCATCTAGTCTCGGTAGCTAGCTACCCCGAGAGCTGGCTGATTTTTTTTTTCTTAAATTTAATTCAAGACTT
Celera SNP ID:            hCV8902057
SNP Position Genomic:     824822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59810):
TCACTGGCTATGAAAATGGCCCCAAATAAAGTGGTATCCACACTTCTTCTTTCTCCTACGAATTTGGAGGTCTAGGAACGGGGGTAAGCCTATATGGTCA
K
AATTAGCCTGCAAACGTGAATTAATATGCAGAATCTGTCCCCACTGTGATAGAATTTGCCATTCGCTTCCTTTGCTAAATGGCTTGCAGTGGCAGCTGAC
Celera SNP ID:            hCV3281357
SNP Position Genomic:     707960
SNP Source:               Celera
Population(Allele,Count): cau(T,4)   afr(G,1)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59811):
CTCTAGATGCTTATAATTCCTGTTGCAGCCTTAGTCAGTGGGAGCCACTGACCTGCATTCGTGTAGGAACTGAGCAAGGTTCATCTAGTCTCGGTAGCTA
S
CTACCCCGAGAGCTGGCTGATTTTTTTTTTCTTAAATTTAATTCAAGACTTCATGAAGTCAACAAAATGGTCTGTTGGAAATTATTCCTAACCCCCAACC
Celera SNP ID:            hCV8902058
SNP Position Genomic:     824871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59812):
TTAGTCAGTGGGAGCCACTGACCTGCATTCGTGTAGGAACTGAGCAAGGTTCATCTAGTCTCGGTAGCTAGCTACCCCGAGAGCTGGCTGATTTTTTTTT
Y
CTTAAATTTAATTCAAGACTTCATGAAGTCAACAAAATGGTCTGTTGGAAATTATTCCTAACCCCCAACCACTGTCACTGCCACAATCAAACATATTTTC
Celera SNP ID:            hCV8902059
SNP Position Genomic:     824901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59813):
AAGAAAGTACACAAATGGAGAGAGGGGGAATTGGACATGCCATTGGGAGAACAAATTTATTTAGATATCTTTGGCTGTGTTGACAGAAGCTGCCCAATTA
W
ACCCAATATACAAATTTTAAATGCATATTAGTCAAAGTTCCAGTTATGTAGCTTTAGAAAAATTTCTATGTGAATGACTACTTTTCCCTGAAATACGTCC
Celera SNP ID:            hCV3281359
SNP Position Genomic:     707252
SNP Source:               Celera
Population(Allele,Count): cau(T,6)   afr(T,6)   his(A,1)   total(A,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59814):
CGCCTGCCTTGGCCTTCCAAAGTGCTGGGATATACATTTTTTTTTTTTTTTTGAGAGATGGAGTGTCACTCTGTTGCCGAGGCTGGAGTGTAGTGGCGCA
R
TCTCGGCTCACTGCAACCTCCTCCTCCGGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGTCGTGTGCCACCACGCCTGGTT
Celera SNP ID:            hCV444953
SNP Position Genomic:     313793
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,1)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59815):
TCTACAAAAAATACAAAAATTAGCTGGGCTTGGTGACAGACGCTTGTAGTCTCAGCTACTCGGGAGGCTGAAGTGGGAGGATCTTTAGAGCCCAGGAAGT
Y
TAGGCTGCAGTGAGCCATGACCTTGCCACTGCACACCAGCCTGGGTGACAGAGGGAGACCTTGTCTCACCAAAAAAAAAAAAAAAAGAGAGAGAGGTTGA
Celera SNP ID:            hCV1445252
SNP Position Genomic:     897542
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,1)   afr(C,5)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59816):
AGCTTCCCAAAGAAGAGTTGTGGAGAAGGAAAAGTGAAGGAAAGTACCTTACTAAGTCATTGATGGCACATTCAGCCCTTGTCAAAGTCAAAGAAGAAAT
Y
TGGAGAAATTCTCACCACTGTGCTTAGGAGTCACCCTGAACTATTTCTTGGATGAAATTACCACCCTCCCACTTTTGGCAATGAGACAGCAAGCTTGGAA
Celera SNP ID:            hCV1445254
SNP Position Genomic:     898609
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59817):
GTGTTCTGCGAATCCCGGTCTCTACTAAAAATACGAAAAAAATTAGCCAGGTGTGGTGGTGGGTGCCTGCAATCCCAGCTACTCTGGAGGCTGAGGCAGG
R
GAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAACCCAGATTGCGCCTCTGCACTCCAGCCTGGGCAAAAGAGTGACACTCTATCTCAAAAAAACAA
Celera SNP ID:            hCV1445255
SNP Position Genomic:     899801
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   afr(A,1)   his(G,7)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59818):
AGAGTGACACTCTATCTCAAAAAAACAAAACAAAACAAAAACAATTTGGCTCCAGTGAGCTCATTTTACGTTGTATGTACCAGTATGCAAGTGTTGTATG
S
ATGTGAGCGTCTGCGTAGGTTTTTATTTTTCTCTCTCAGAATGAAAGGTTTGATTCGTACCAGCTCCCCATCCCTTCCCACGATCCCATCTTAATGTCTG
Celera SNP ID:            hCV1445256
SNP Position Genomic:     899974
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(C,1)   his(G,5)   total(G,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59819):
AATACTCCCTTCTGGACACTGGAAGGGCAAATGAGGTGCAAGCCTTTTTTTTTTCTTTCTTTTCTTCTTCTTCTTCTTCTTTTTTTTTTTTTTTTTTTTG
K
TTTTCCTCCCAGCCTCTCTCCTTTCCCATTATGCACAATGCGCTGAGAAAGGATTCCCAGTCCCCCTGGTAAAAAGTCTGAAGGATGCCGAGGAGTTCAC
Celera SNP ID:            hCV1445258
SNP Position Genomic:     902417
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,2)   afr(T,2)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59820):
AAAATCACTTTTAAAAAATGTATGGTGTCCATCTGGGTTAGCAAACACATGCTCACACGTCTGTGCTTGCTGGATTTTTAAGAACTTACCAGCATTTAAG
R
TTTTCTTATGAAACTGATTTTACTCACCAGGGATAGAGTCTCAAAGTTGGAGGTATTTTATGTTGTTTTAAATAATATCGTCATCACATGTCATTTTAGA
Celera SNP ID:            hCV3281360
SNP Position Genomic:     706851
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,3|G,2)   afr(G,2)      total(G,4|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59821):
TAAAACTCTGCCTTTCTAAAGAAACAGGGACACGGTGCAGAAAAGTTCATCTGGAGTTAGGCTTGTGTCTTGCTGTCTCTTTAACGGAGAGTTCATGGGC
W
GGGTACAGTCTGTGAGAAGGAATGAAAACCCCAGGGTAGATGCTAACAAAAATCACTTTTAAAAAATGTATGGTGTCCATCTGGGTTAGCAAACACATGC
Celera SNP ID:            hCV3281361
SNP Position Genomic:     706702
SNP Source:               Celera
Population(Allele,Count): cau(A,3|T,2)   afr(T,2)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59822):
CAAGTGATTCTCCTGCCTCACCCTCCCGAGTAGCTGGGATAATAGGTGCCTATCACCACGCCGAGCTAATGTTTTTGGATTTTTAGTAGAGATGGGTTTT
M
GCCATGTTGTGCAGGCTGGTCTCAAATTCCTGGTCCCAGGCGATCTGCCTGTCTTGGCCTCCCAAAATGCTGGGATTACAGGCATGAGTCCCCATGCCCA
Celera SNP ID:            hCV15917484
SNP Position Genomic:     933438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59823):
AATAAATATCTGCTAGTTTTTAAAGTTTGAGAAAAACCCGTATTGTGGAATGAAAATGATACTGACAAGGGAATACATCTAGATCAGAAATACTGATATC
S
TAAGTGAGATCTTGTTTTTTAAAACAAAAAAAAGTTTAAGAAATTGTCATATAGGCTGGGCGTGGTGGCTCACACACATAATCTTAGCACTTTGGGAAGT
Celera SNP ID:            hCV8902063
SNP Position Genomic:     825276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59824):
GCACTGTTCCAACTCCAGTCTGGCTGCTTTTTCAACCTGGGGCTTTAGTCATGTCAATATTCCTGAGCTTCCATGTGCTTATTTGAAAAATAGGAAGATT
Y
GTCCAGTCTCAAGGAACTATGATAAGTAGCAAACAATATCCCAGAAAAATCTCCAGTCAAAAATCCACTGGAGGCCAGGTGCGTTAGCTCATGCCTGTAA
Celera SNP ID:            hCV3281363
SNP Position Genomic:     705056
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,3)   cau(C,3|T,2)   afr(C,3)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59825):
CTGATGTCTCAGCTTGAAGTCAGGCATAGAGAGGCAATTCTTTCTCACTCAGCCTTTTATTTTATTCAGGCCTTCAACAGATTGTATGAAGCCACCCACA
Y
TGGGAAGGGCAGTCTGCTTTACTCATAGTACTAATCGAAACGTTAATGTCCTCCAGAAACGCCTTCATGGACACACTAGAGATAATGTTTAACATAATAT
Celera SNP ID:            hCV15917485
SNP Position Genomic:     770205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59826):
TGAGATCTTGTTTTTTAAAACAAAAAAAAGTTTAAGAAATTGTCATATAGGCTGGGCGTGGTGGCTCACACACATAATCTTAGCACTTTGGGAAGTTGAG
K
CAGGAGGGCCACTTGAGGCCAGGAGTTTGAAACCAGACTGGGCAACACAGTGAGACCCCACCTCTACAAAATATTTTAAAATTAGCCAGGCGTGGTGGTG
Celera SNP ID:            hCV8902064
SNP Position Genomic:     825381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59827):
GCATCATTGCAAAGTATTAGAAAGGGCCCTGCCTGGGCTAGGAGCCAGAAGCATTCTTCAGTTCCCAACGGCCATCCAGCCACTCATTGCTGTGTGAGCT
S
TGGCTGGTCAGTAAGAACCTTTGATCCCATGTTTCTTTATCTTCTTCTTTTTTTTTTTTTTTTTAGCCATAGTCTCACTCTGTCACCTAGGCTGGAGTGC
Celera SNP ID:            hCV3281364
SNP Position Genomic:     704206
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59828):
GTGTCTGTCTGTATCTTTACACACCTATGGGTGTGTCTGTCTGTATCTATACACACCTATGGGTGTGTCTGTCTGTACCTATACACACCTATGGGTGTGT
S
TTTCTGTATCTATACACACCTATGGGTGTGTCTTTCTATATCTATACATTATATGTACTAAATAATATATATAAACACTATAGTATATAGAGTATACATA
Celera SNP ID:            hCV15917486
SNP Position Genomic:     769696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59829):
GATCAAGCAGAGGGCAAGTGGTAGATTCTAGAATTTGCATCCAGGCAGTTGAGTCTAGAATTGTCTTTGTGTATTTTGCTCCATGGTCTAGCACAGGATC
M
CCATTGGTAGATCATCACTTAGAATGCCATCACTACCTTCTAACAGCAATCAGTCCCCTTAAGTGGCTTTCTTCTCTTTTTTTTCTTTTATCTTTTTGTT
Celera SNP ID:            hCV8902065
SNP Position Genomic:     826831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59830):
CACCTGCTTCCCATTGGCCAGAATTCAGTCACATGATCACAACCAACTGCAAGGGATTCTGGGAAATGTAGTCTGGTGATGCCTCGAGGAGGCAAGAGAA
R
TGTTTTCAGTGAACACATTGCCTTCTCAGGCTTGCTTTCTATTGTAGATTGCTTACAATATTGCTTTTAAATTGCATGGTCTTGTACAAATGATACGAGT
Celera SNP ID:            hCV3281365
SNP Position Genomic:     703944
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59831):
TATATCTGTATCTATATCTAATCTATTTTTTGAGAAAGGCTCTCACTCTGTTGCTCAGGCTGGAGTGAAGTGATGCAATCTCAGGTCACTGCAACTGCTG
Y
CTCATGGGATCAAGTGATCTTCACACCTCAGCCTCCCAAGTAACTGGGACCACAATGCCCAGCTAATTTTTATATTTTTTTGTAGAGACGGTGTTTTGCC
Celera SNP ID:            hCV3281366
SNP Position Genomic:     700586
SNP Source:               Celera
Population(Allele,Count): cau(T,6)   afr(C,1)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59832):
CTCTTCTTTTTTTTTTTTTTTAAAGGAGTTTCAAGGGTAAGATCTGCTGTCTTGTGAATGTCAAAGAAGTTTCTCATTCGCCCCTTTCTTCTCTCTCCCA
S
TGTCTTTAATTTGTTAATGCTTTCGACTTATTTTGCTTTGGATAATTTTCAAAGTACTGCTTTCTCTAGAGATCTCTAAAAGGCAGAAGTTCTGGCTATT
Celera SNP ID:            hCV684750
SNP Position Genomic:     783975
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): chn(C,1)   cau(G,5)      total(G,5|C,1) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59833):
TGCAATAGGAAATCTCTTTATTTCGTTGGTGCTCAAGTGATACCATTAAGTCCCTTAAGATGCGGAATTTCCTTGCCCCCGCTGCCCCCTTTCTTTCTTT
Y
ATCTTATCTATATATCTGTATCTATATCTAATCTATTTTTTGAGAAAGGCTCTCACTCTGTTGCTCAGGCTGGAGTGAAGTGATGCAATCTCAGGTCACT
Celera SNP ID:            hCV3281367
SNP Position Genomic:     700475
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5)   afr(T,1)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59834):
TGTTAATTTAGTCAGACGAGGAAGGAAACGAGAAAAGTTATTCCTATTTCATCCATCTAAGACTTTATATCCCATTTCAGGCTGATTAAAAGGCAAAATC
K
TCACAGTAGGACACCAAACCCTCTGTATGCCCTGCCTGCCTCCCCCCCTCTGACCCGCCTGCCTCCCCCCTGTGAGCTTTTTCCACCTACTGGCCTCTTG
Celera SNP ID:            hCV684751
SNP Position Genomic:     784647
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59835):
GATTGTCCACAGCTCTGCTCTCTGCTCACCCCGGGGATTTAGCAGTAACAGAATCCACACTAGAAGGACAGAGTGCTGTACAGACAGAAGGAAAGACGCA
S
ACCCAAACCTTGATAACCATGGCAATGCAATAGGAAATCTCTTTATTTCGTTGGTGCTCAAGTGATACCATTAAGTCCCTTAAGATGCGGAATTTCCTTG
Celera SNP ID:            hCV3281368
SNP Position Genomic:     700349
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,2)   cau(C,4)   afr(G,2)      total(G,4|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59836):
AGTCACGTAGAAAGCAGTTATTGTTTCCAAGTTCCCTGCCCTTGTTAAATGTCAGCTTTGAGTGAAAATGTTCCTAATTTTACTCAGAGTGCAAAGAACA
Y
CCAGGTCAGGTACCTGACCTGCTTGATTCATGTCTTGGAAACACTCCTTTGTCTTTCAGAGAAAGTAAAGAGTGATGGAGACAGAGAGAGAAAGTGTGAC
Celera SNP ID:            hCV8902069
SNP Position Genomic:     828030
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59837):
TAATCTTTCCCACCTTTTTGATTGTGAGTCTTCAGACCCTCCCCAGAGAGTCAGTCCTGCCTTATGCCCTGGGGAAAGGAATGCTGACCTCATGAAGCTC
Y
CATAAAAACCCAAGAGGGCTGGGTTTGGGAGCTTCCAGATAGCTGAAGACAAGGAGGTTCCTGGAGCGTGGCTGCCTAGGAAGGGCTGGAAAGCTCCATG
Celera SNP ID:            hCV3281369
SNP Position Genomic:     695922
SNP Source:               Celera
Population(Allele,Count): chn(C,4|T,1)   cau(C,4)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59838):
TTCAGAGAAAGTAAAGAGTGATGGAGACAGAGAGAGAAAGTGTGACCTACTTTTTATTATCAGCACCATTTCATCTGCAAAACACGACTTTTCTCTTCTT
R
TTACGCTGAGCATGAAAATAAAATGTTTTCCAAAAGACCTGGCTTTGGCTGTTGTGAGGAAGGCCAGGGACTTGTTCAAAACTCTGATGAGCTCGATGAG
Celera SNP ID:            hCV16082948
SNP Position Genomic:     828185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59839):
AGGGCTGGCTGTCCTCACCGTGAAGTCTAGATCTCCCTGCTAACTTACACTGTGCTCAAAACACACACACACACACACACACACACACACACACACACAC
M
CACACTGGCTGTCCTCACTGTCAACTCTAGATCTCCCTGCTAACTTACACTGTGCTCAAAAAACACACGCACGCACGCACGCATGCACGCACATACACAC
Celera SNP ID:            hCV16209223
SNP Position Genomic:     10627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|AC,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59840):
GCCGCTGCATGCCCTCACCAGAAGCTCAGAGCGAAGAGACGGCCCGGACCCTGTGGGCGCTCAGCGAGAGGCTGATCCAAGAACGGCTTGGCAGCCAGTC
Y
GGCTAAGTGGAGCTCAGAGCGGATGGGCACACACACCCGCCCTGTGTGTGTCCCCTCACGCAAGTGCCAGGGCTGGGCCCCTTCCAAATGTCCCTCCAAC
Celera SNP ID:            hCV25761235
SNP Position Genomic:     1119241
SNP Source:               Applera
Population(Allele,Count): afr(C,36)   cau(C,33|T,1)   total(C,69|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:59841):
TTTCATAGATACCACTGACACTATTTTTCACCTCCCATGTTATCAGTTTGTGTAATAGTAGCTTGCTGGTAATGTAGTTACAGTAACAAGTTCAAATGAC
W
TGTGTGTTTTTTGAGCAAACCTGGTGAACTTTTGGTGCAAAACTGATATTGAGAGCAAATAGGCCAAAGCTTGCTTGAGAGAAGTCTCCCAGGCCACCAT
Celera SNP ID:            hCV16209224
SNP Position Genomic:     18781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|AT,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59842):
ACGAAACTCACATCTTCTTTAAATAAAATCTCCATTTAGAAATTTTTGAAGACTTGTGGATAGAAGAAGTAACCTTGAAAAGGGCAGAGCTGAGCCAGAC
M
CCTTTTCAGCTGGGTGCTCCCTGGAAGATGGATCTTGCCTTGTGGATGTTTTTCTACCGTGACAGAAGATAGAAAGGATGAAATAGAAAGAGTGTGAGTG
Celera SNP ID:            hCV1445261
SNP Position Genomic:     903690
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   his(A,1)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59843):
CGAAACTCACATCTTCTTTAAATAAAATCTCCATTTAGAAATTTTTGAAGACTTGTGGATAGAAGAAGTAACCTTGAAAAGGGCAGAGCTGAGCCAGACC
M
CTTTTCAGCTGGGTGCTCCCTGGAAGATGGATCTTGCCTTGTGGATGTTTTTCTACCGTGACAGAAGATAGAAAGGATGAAATAGAAAGAGTGTGAGTGA
Celera SNP ID:            hCV1445262
SNP Position Genomic:     903691
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   his(A,1)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59844):
TATTCAGTTGCCCAGCTCTTTTCATTCCCTGTCCTTTCCCCCTCTGGCTGGGTCTGCCTTTCCAACCGCTACCACCTTCCACCACCATTTTTTTTTTGTT
K
CCTCTGCAAGCAACATCTGAAAGGCCCAGACCCAGCTTGTTGGCCTTGGGCTCTGATAAGATCTGTCTGCACTCCTTTTGTCTGGCCTGTACCTGCCTTT
Celera SNP ID:            hCV8897697
SNP Position Genomic:     545873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59845):
TGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCATACCTAGCTAATTTTGTGTTTTTAGTAAAGACAGGGTTTCTCCCTGTTGTTCAGG
S
TGGTCTTGAACTCCTGACCTCAGGTGATCCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATCGCGCCCGGCCTAGCCTCCAACA
Celera SNP ID:            hCV1445264
SNP Position Genomic:     905515
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59846):
TGTTGCAAATTTCCAGTGGCTAGTTCAGGGACAGTGCCGGGGCTTGAACCCCTGTCTCTGTGTCTCCCAGCTCATAAGGTGTGCTACCAAGTCACCCATG
W
GTAGCAATTAGGCGACTTCTAACATGTCCAGCTTTAAACCTGTGACCTCAAGGCAAATGACTTCCACATCTCATTAGCACTCCCCAGAGCCTTCCAGCCC
Celera SNP ID:            hCV8897698
SNP Position Genomic:     550910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59847):
CAGAGCCAGCTCAAGAACCCAGCGCCAGTGGCTGATGCTTCTTCTTTTTTTTTTTTTTTAATGGATTCTTCTAAGGATGGCTGCATCAGCCAGGGGCAGC
R
GGTCATACCTGTAATCCCAGCACTTTGGGAGGCCAATGCAGGCGGATCATCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCGTC
Celera SNP ID:            hCV1445265
SNP Position Genomic:     906629
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(A,3|G,3)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59848):
GATTCCTCCCCATTCTATAAAATAACAGCTACCATTTCCTGAGGGCATACTGAGTGCTGACAGGCACATCAACATCAGACCATCACCTTCTTATACCTCA
R
AATAGTCTGCAGGGTGACTCAGAAGCTCCTGGCTGGTAAGTGGCAGATCCAGAGATGAAACCCAGATCTAACTGGACCCAAGACAGAAATTTCTAGAACA
Celera SNP ID:            hCV8897699
SNP Position Genomic:     555127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59849):
GCACCATTGCACTCCAGCCTGGGCAGCAGGAGCGAAACTCCTTCTCAAGAAAGAAGGAATAGCTGCATCACTTATGCTCTTGATGGTACAGAAAATGATC
Y
GCATGGAGGAAATCTAGACATCAGCGATTCAGAGTCAAAATGTTATTCAGGGGAGAGAGACCCTTCATGTGAAGAAATTTTAGGAATACTTTAATTATTT
Celera SNP ID:            hCV1445266
SNP Position Genomic:     906952
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(C,2|T,3)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59850):
CTTGGCCTGATGTTACCAGCTTTAAAGAGGGAGGAAGCGTCCAGGAGCCAAGGAATTCAGGCAGCGTCTAGAAGCCAGAAGAGGCAAGGAAAGAGATTCT
S
TCCCAGAACTTCCAGAAAGGCACGAAGCCCTGCTGACCTTTGATTTTAGCACAGTGATACCCATTGTGGCCTTCTGACCTTCAGAAAATAAATTTGTTTT
Celera SNP ID:            hCV1445267
SNP Position Genomic:     908046
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,1)   afr(C,3)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59851):
AAGAGGGAGGAAGCGTCCAGGAGCCAAGGAATTCAGGCAGCGTCTAGAAGCCAGAAGAGGCAAGGAAAGAGATTCTCTCCCAGAACTTCCAGAAAGGCAC
R
AAGCCCTGCTGACCTTTGATTTTAGCACAGTGATACCCATTGTGGCCTTCTGACCTTCAGAAAATAAATTTGTTTTAAGCCACTAATTTGGGGGTAATTT
Celera SNP ID:            hCV1445268
SNP Position Genomic:     908070
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,3)   afr(G,3)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59852):
GACCTTAGGTGATCTGCCTACCTCGGCCTCCCAAAGTGCTGGGATAACAGGCGTGAGCCACTGCGCCTGTCTACATTTTCTGTCTTTACTGGTATTATGG
Y
GGGAACCCATAAACCACTGCGAGGCAGATACCATTTTAAGCAGGAAACCTTATTTTTTTCCGAAGCACATTTAAAAATATTTTCCAGTTTATCTATTAAA
Celera SNP ID:            hCV11512200
SNP Position Genomic:     282079
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(T,8)   afr(T,8)   total(C,1|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59853):
GCGATTTAATTTGCTGCTGAATGCACTTTTGAATAAAGGGCCTAGAAGATGCAGTCTCGAGGAACCGAGGCCGGTTAGAGACAGGCTGGCAGCTTTGCCT
Y
CTCTCCCAAGACAAAGGCCTCCCCGCCCCCCTAAATCCAGCACACAATCAGCTGCTCTCCCTCCCCCTATTCTCAGCAGGAGAGTCAGGATGCATATTTC
Celera SNP ID:            hCV1445269
SNP Position Genomic:     908676
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(C,3|T,3)   afr(C,3)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59854):
TCGCTGCAGGCTACTTGGTTGTACTTGAGTAATTTACTCAAGATTCTCTTCAGCCCAGTTTCCTTATCTGTAAAATCCTTCCACTGTTGTTAGGAGGATA
R
GAAAGCCAGTATTGGTAAAAACATATATCAGAGTCCTTTTGACTGTTTAGAAAGTGTTAATTTACTCCACGATTATCCATTCAACATTTATTAGTTGGCT
Celera SNP ID:            hCV8902070
SNP Position Genomic:     831994
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59855):
TGCAGCCTCTACTTCCTGGGCTCAAGTGATCCTCCCACCTCAGCTTCCTAAGTAGCTGGGAGCACAGGCACCAGCAATGACACCTGCCTAATTTTGTATT
K
TCTGTAGAGATGGGGTTTTGGCATGTTTCCCAGGCTGGTTTTAAACTCTTGAGCTCAAGCCATCCACCCGCCTTGGCCTCCCAAATTGCTGGAATTATAG
Celera SNP ID:            hCV8902071
SNP Position Genomic:     834386
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59856):
CTCTGAAAGATTTATCTCTTTCGATTCATCTGTAAAGTAAAAATAACCGTCGTCGTCATTTCTCAAGCGTGACGATACTGTTACACGTTTACTGCATATT
S
TGCATACCAAGCACATATCCGTCACACGCAGTGTGGCCAACTTCCGAGAGGCCGGCATTCAGCCAAACAGCCTGAAGAACCAGGAGAAATGCCTGAGTTT
Celera SNP ID:            hCV11512206
SNP Position Genomic:     282304
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(C,5)   afr(C,5)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59857):
TTCAGCCAAACAGCCTGAAGAACCAGGAGAAATGCCTGAGTTTCCAAATGGCTTATGGTAAGTTGTTGCTGCCACTATGAGTAGCCTACTTGCATTTCTA
Y
TTAATGGCTTTTCCCCATATTTGATGGTATGTTAAACAGTCAATCATTCATTTTCTAAATTAAAGCCTGTCCTGAAAACGTGCTCAGTGCTATTGACTGT
Celera SNP ID:            hCV11512208
SNP Position Genomic:     282462
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(T,6)   afr(T,6)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59858):
CTGCATGCTGCAGCCAGCTCAGGAAAGATTTCAGGAAGAGCGTTTAGGAAGGCAGCTTTGAAAAGAAAATGGAAAGATGAGGTTGCAGAGGGTCAGTCCA
W
GGTGACCAGAATCTGACCTGGGGCAATGCCATAAATCCAAGAAAGACTGGGTTTCAGGTGCAGGAAATGCGATTGTGCACGGACCCTTGCCTTTTTACCC
Celera SNP ID:            hCV8902076
SNP Position Genomic:     837184
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59859):
AAAATAATATTACCGGAGAAACAATGAGTAACATGTATAGGATTTTTTTTTTTTTTTTTTGACGGAGTCTTGCTCTGTTGCCCAGGCTCCAGTGCAGTGG
Y
GTGATGTTGGCTCACTGCAACTCCGCATCCTGGTTTCAAGTGGTTCTTCTGCCTCAGCCTTCCAATTAGCGGGGACTACCAGCGCATGTCACCATGCCTG
Celera SNP ID:            hCV11512209
SNP Position Genomic:     282976
SNP Source:               Celera
Population(Allele,Count): chn(C,7|T,1)   cau(C,7)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59860):
CAGGTGGGAACAGGGTTACAGAGCAAAGTAATTAGATGCCCTTTAGATGCTCTTAGTTAAAGACCATGCAAAAAGGATGAAATCTTTTGATCATGTTCTT
Y
ACAATATTAGAGGTAAAACATGAACTCAACGCTTTTAGGAAGAAACAACTGGATTGCGTTTTCTATTTTATTGACAGAAACTAGATGGGGAGGCCAGGGT
Celera SNP ID:            hCV15917498
SNP Position Genomic:     960558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59861):
AGGTGACCAGAATCTGACCTGGGGCAATGCCATAAATCCAAGAAAGACTGGGTTTCAGGTGCAGGAAATGCGATTGTGCACGGACCCTTGCCTTTTTACC
M
AGTATCTAGCCCATCCTTCTTTCTTAGAAGCAGAATTTTCTAAGAGGTACACGGTAGTTCAGGATAAAAATTCCCTGTGCTAACTGCCCTTGCAGCTAGC
Celera SNP ID:            hCV8902077
SNP Position Genomic:     837284
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59862):
TGGTCTTTGCTTTCATAGGTTATTTCTCCTCTTCCATAGCAACACATGTCAAGGCAAGGACCATATCTTATTCAGTTCCTAGTCATCTTTTCTTTCTTTT
S
CTTTTTCTTTTTTAAATTGTTAAGATCTGCCATAAAAATGTCTGTCAGAGTAGGCATGATTGCATATTCTTTAGATGGATGGGTGGATGGATGGATGGAT
Celera SNP ID:            hCV8902078
SNP Position Genomic:     861516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59863):
TGTAACTCGAGTGTTCTGTGAAGCCAGATATTGGTGCCAAGCTAAATTTGTGCGTGCAGCTTCTGTTTAAGGCAATTATATAGTGTGTAATACCCAGTAG
M
GAAATTAAGTCGAAGTACATTTTGCCCATAGAGATTATCCTCTCAGTTGGATTTATTTTAAACAAGTTTTGCCCCTTATACATTAAGGTGCATGCAATAA
Celera SNP ID:            hCV1445270
SNP Position Genomic:     908937
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,2)   afr(A,3)   total(A,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59864):
TTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTCTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCAGCTCACTGCAGCCTCCACCTTCCAAGTTC
R
AGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATAACAGGTGCACACCACCATGCCCGGCTAGTTTTTGTATTTTTAGTAGAGACAGGGTTTTGAC
Celera SNP ID:            hCV1445271
SNP Position Genomic:     909748
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,2)   afr(A,4)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59865):
CAGGTGCACACCACCATGCCCGGCTAGTTTTTGTATTTTTAGTAGAGACAGGGTTTTGACATGTTGCCAGGCTGCTCTCGAACTCCTGACCTCAGGTGAT
Y
CACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCGGCCCCTGCCTTTTTATTTTGCTAAACCTGATGACCCTTGCCATAG
Celera SNP ID:            hCV1445272
SNP Position Genomic:     909889
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,5)   afr(T,5)   total(C,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59866):
TTTGACATGTTGCCAGGCTGCTCTCGAACTCCTGACCTCAGGTGATTCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACC
Y
GGCCCCTGCCTTTTTATTTTGCTAAACCTGATGACCCTTGCCATAGCAGAACTAAAGTGATGATGATGATTACAGCAGATCAGTTATTTTGAGCTCTGAC
Celera SNP ID:            hCV1445273
SNP Position Genomic:     909943
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,2)   afr(C,6)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59867):
GTGTGAGCCACCGCACCCGGCCCCTGCCTTTTTATTTTGCTAAACCTGATGACCCTTGCCATAGCAGAACTAAAGTGATGATGATGATTACAGCAGATCA
R
TTATTTTGAGCTCTGACTTTGCATGAGGCCCTTTATTAAGTGCTTCACTTGTGTGATCTGATTTAATCTTCACAAGCAAACTGGGACAGAGGGACTGTGC
Celera SNP ID:            hCV1445274
SNP Position Genomic:     910026
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,6)   afr(G,6)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59868):
CGGCCCCTGCCTTTTTATTTTGCTAAACCTGATGACCCTTGCCATAGCAGAACTAAAGTGATGATGATGATTACAGCAGATCAGTTATTTTGAGCTCTGA
S
TTTGCATGAGGCCCTTTATTAAGTGCTTCACTTGTGTGATCTGATTTAATCTTCACAAGCAAACTGGGACAGAGGGACTGTGCCTATTCCCATTTCACAG
Celera SNP ID:            hCV1445275
SNP Position Genomic:     910043
SNP Source:               Celera
Population(Allele,Count): cau(C,6|G,3)   afr(C,6)   total(G,3|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59869):
AGGAGCAGAGGACAGGATGGCTTTCTTTCCAGTATAATAAAGACAGTGCCTCCTTCCAGGACAACGGTTTGGCAGATTTGCTTGATAAAGGTTGGGGTTT
S
TAAGCTTGGGGCTCCTCAGCCATGACTGAAACGTACTATGAGCACGGCATCTACCGGGCTGTTCCACATCCTCCCTGTGGGACTAGGGGCCAGGGCAATG
Celera SNP ID:            hCV25963875
SNP Position Genomic:     177911
SNP Source:               Applera
Population(Allele,Count): afr(C,22|G,14)   cau(C,28)   total(C,50|G,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:59870):
TTTTCACCCGGGTTCTCCCTGTCTATAAGGGGAAAAGACAGGGTTCACACCAAGGCCTGTCTGGATCCAAAACCCATGCTCATAATCACTAAGTTATACT
M
CCTCTTCGAGATGCTGATTTGGAAAATAACTCCATGATGAAACATGTCAAGGGAGACTGCCTGTACTCCGTAATGCAGAAATGCATTAGAGCTCAAAAAT
Celera SNP ID:            hCV1445276
SNP Position Genomic:     910264
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,5)   afr(A,3)   total(A,6|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59871):
GTTCCCTGTACTCTGCAATGCTGAGTACTTCTCATCCTTCAGGTCTACTGCAAGTGTCACCTGGCCAACACACCATGCCTTCCCAGTCTCTGGTGTTACT
S
TCTGCATACTGTAGACCATCATCTTGTTTGCATACTTGTCTGTTATCTCTTTATCATCCGTCTACCCACATCAGGCAATTCCAAGAGAGAAGACCACTGG
Celera SNP ID:            hCV1445277
SNP Position Genomic:     911499
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(C,2|G,2)   afr(G,2)      total(G,4|C,2) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59872):
AGTCCCTGTGCACCTTCAGAACCACATCTAGCAATAGAAGGCGCTGCACGGGGAATTCTGGAATGAATAAAAACGCTTGGCAGTACCGCATGGCGAGCCA
K
TACCCGTGAATGCTACTTCCTCCAAAGAGAATTCCTGGGATAACAGAGAATCCATTCATGGCTGCCAGGAGGACTTGGATATTTCTCATTTTCCATTGGC
Celera SNP ID:            hCV1445278
SNP Position Genomic:     911724
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,2)   afr(G,2)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59873):
TTTCCATTGGCCCTGGAGTGGAGGAACAGAGCCGAAAAGTACGTGGGGGGCAGGCAAAGCTGCGGTCAGAGGCAGACCCTGTTGGTGTTGGCCGTGTCAA
S
CAGCTTTGCTGGTTTCTATTATAGCCCTGGTGTGGCAAAGGACACTGTGTGACTGTGAGCTCAGGTCAGCATTGCGATCCCTTCAGGCCTCTGGCTTGCA
Celera SNP ID:            hCV1445279
SNP Position Genomic:     911914
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   afr(G,1)   his(C,3)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59874):
GAAGGCAATACTATTATGCTCATTCATAATTAAGGCAATTGAAGCCCAGACCCTTCCAGTAGCTTTCCTGAAGTCAAGTTGCCAGTGCATTGGACATACT
R
GGCTGTAGTTCCAGGGCAGCCTGGCTCTGGTGTCTTTGCTGCAATGACAATATCTCCCCATTTCTCTGTTTAAATACCACACACTCCCCATATGGTTTCT
Celera SNP ID:            hCV11512213
SNP Position Genomic:     288146
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,6)   his(A,6)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59875):
TAAAGAAATATTCGTAATCAATAAGAACACAAAATATGGAATATATTAACTGAGTTATAAAAATGTTTGTAGTATAGCACAGAATGAAAAACACAGCAAG
K
TATGTACGGTTTAAAGTGTAATCAATTTTGAGGTTGTATACAAGGATATACATGATAAATACAAGTAGTAGCATTTTTAGTAAAGGCTGTTACAAAATAC
Celera SNP ID:            hCV15911900
SNP Position Genomic:     385746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59876):
CCTCCCTTCCTGATTTCCCATCTTCTTCCTCCCTCTTCTCTCCCCTCTCCCCCTTCTCCTTTCCGTCCTTCCTCCTTCAGTTCCCTCTTTCCTCTTTTTC
R
CCCTTTTATTTAACATTATAAATACGATGGGATTGTGTCTGCGCTTTTGTTGGTAATTAAATAAATTATTTATACATTTAACACAATCTTGAATTACCAG
Celera SNP ID:            hCV15911901
SNP Position Genomic:     384568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59877):
TGTTCTATTTATTTATTTGTTATTATTATGTTTTTTGAGACAGAGTCTCGTTCTGTCACTCAGGCTGGAGTGCGGTGGCATGATTGTAGCTCACTCCAGT
S
TTGAGCTCCTGGACTCAAGAGATCCTCCTGCCTCAGTTTCCTGAGTAGCTGAGACCACAGGCACGGGACACCATGCCAGTCTAATTTTTAAATTTTTTGT
Celera SNP ID:            hCV8902082
SNP Position Genomic:     862285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59878):
CTCAGTTTCCTGAGTAGCTGAGACCACAGGCACGGGACACCATGCCAGTCTAATTTTTAAATTTTTTGTAGGGACAGGGCCTCACTGTGTTGCCCAGGCT
Y
ATCTCAAACTCCTGGCTTCAAGTGATCCTTCTGCATTGTCCCCCACAAAGTATTGGGAATGTATTCTTTCCTGATCAGGAAACTCCGCAGAGAGAAAGTG
Celera SNP ID:            hCV8902083
SNP Position Genomic:     862417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59879):
TTTTTTTTTTTTTTTTTTGAGACTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCATGGCTCACTGCAGCCTCCCGGGCTCAAGCTTTCCACCC
M
CCTCAGCCTCCTGAGTTGCTGGGACCACAAGTATGCACCAACATGCCTGGTTAATTTTTGTGGTTTTTTTTTTTTTTTTTTTTTTCCTGCTGAGATGGGG
Celera SNP ID:            hCV8902084
SNP Position Genomic:     874809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59880):
GGGGATTTCACCATGTTCTCCAGGCTGGTTTCAAACTCCTGAGTCCAGGTGATCCACCCATCTTGGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCA
Y
TATGCCCAATACCCCCTATGTAGACTTTTAAAGAAATACAGGAAACAGCCAAGACTGGTGTCATTCAGATTTAGCTTGGGAGAGTCTAGTGGGTGTTAGG
Celera SNP ID:            hCV8902088
SNP Position Genomic:     875006
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|T,1)   afr(C,2)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59881):
TAAAACCAGGGGAGACTCGACCCAAGGCATTGTGTTTGAGCTAGGCTTTGAACAATGTATAGACCCTCACCAAGTATGGAAGTGGAAGAGTAAGACATTC
M
AGGTAGAAGGAACAGTATGAGGAAAGTCAGAGAGCTAACAAAGATTATAGTGTAATGCCAGAATCATGAGAAATTTGCTGAGAATTCATTTGAGGCCATA
Celera SNP ID:            hCV8902089
SNP Position Genomic:     878000
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59882):
GCCATCTCTGCCTCTGTCTTCTCACCACCATCTTCCTTGTCCATGTCTCTCTATGTCTTCAATGTTCTTCTTATAAGGACACCAGTCCTTGGATTTAGAG
Y
CCACCCTAATTCACTGTAATCACATCTTACCTAAGTCCATCTGCAAAGACCCTATTTCCAAATAAGGTCACATTCTGAGGCCCTGGGTGGACATGCATTT
Celera SNP ID:            hCV1445280
SNP Position Genomic:     913128
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,4)   afr(C,2)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59883):
TTTAAGGACCTTTGTGATAGTTTTGCACCCACTGGATGACCCAGAATCATCTTCCTCTTTTAAGATCAGCTGATTAGCAACGTCAGTTCCACCCACAATC
Y
TCATTTCCCTTTGTTGCGTAACCTAACATATTCACAGGTTCTGGTGAGTGGGATGGGGGTATCTCTAGGGGACCATTATCCAGCCTTCCACAGGCACTTT
Celera SNP ID:            hCV1445281
SNP Position Genomic:     914398
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(C,1|T,3)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59884):
GATAGTTTTGCACCCACTGGATGACCCAGAATCATCTTCCTCTTTTAAGATCAGCTGATTAGCAACGTCAGTTCCACCCACAATCTTCATTTCCCTTTGT
Y
GCGTAACCTAACATATTCACAGGTTCTGGTGAGTGGGATGGGGGTATCTCTAGGGGACCATTATCCAGCCTTCCACAGGCACTTTGTCACAGGCCAGGCG
Celera SNP ID:            hCV1445282
SNP Position Genomic:     914413
SNP Source:               Celera
Population(Allele,Count): chn(T,3)   cau(C,1|T,3)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59885):
TTGCTGTGTAAGAAATTACCACAAATTTAGTATATTTGTTATCTCATAGCTCCATAGGTTAAAAGTCCTGGTTCAGGCTGGGACTTCTGCTCAGGGTCTC
W
TGAGGCTGAAATCAAAGCGTCAGCCAGGGATGGGGTCTTATCAGAGGCCCTTGGTTACTAACAGAATTCATTTTCTTGTAACTGTAGGACTGAGGTGCTT
Celera SNP ID:            hCV1445283
SNP Position Genomic:     915472
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59886):
GGAGCTTGCAGTGAACCGTGATCGCTTCACTGCACTCCAGCCTGGGCAACAGAGCGAGAATCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
R
GAAAGAAAGAAATTACAGGTAGGCTAGAGCACGGATGAGCAAACTGTTTTTATAAAGGACCAGAGAGTATATATTTCAGGCTTTGCAGGCCCTATGACGT
Celera SNP ID:            hCV1445285
SNP Position Genomic:     924890
SNP Source:               Celera
Population(Allele,Count): cau(A,5|G,3)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59887):
TAAAGTTTAGACCTATTTTAATAAGGCTGACTTGGGTTGAAGATAACTAGAGCCATGACTTTCATCTTGATGGACAATGAGTACTCACTCTACTTTTTTA
K
TTTATATTTTTATTTTAGTTCATTTCATTTAAGACAGCGTCTGTTACCCAGGCTGGAGTGCAGTGACATGATCTCGGCTCACTGCAACCTACACCTTCTG
Celera SNP ID:            hCV15911911
SNP Position Genomic:     383196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59888):
TGCAGGGAGATTTGGGGATGTTGGATGCTAAGGCCCAAGCCGTCTATTGTATGCCTTTTGCTTTGGCATAAAACAACAGATGACCTTCTGTTAGGTGTAT
S
TCTGCTCATGCTTGAGAGTGGTGGTGTTTGGAAAGACTCAATAGCATATGCACATGAGGAAGTTGACCAAATGATTCCACAGCGCATACTCATTTTTTGC
Celera SNP ID:            hCV15911912
SNP Position Genomic:     404761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59889):
TCTACCTGGTGGGAGAAACAGCTGCCAGAAAATCCAGATTCCCATTCTCATGCTAGCTTCATAACAGCAGGAGAGCTCCTCACTCTGTTTCCCAGGGTGT
R
TATATATATGTATACATATGTATATGTATATCAATATATATATCAGGTAAGATTCTAGTCCAGTGTGAGCCATATGCTTTATTCCTGAGCAATCGCTGTG
Celera SNP ID:            hCV8902093
SNP Position Genomic:     878471
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,5)   afr(G,2)   his(A,5)      total(G,2|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59890):
CCTATCTGTGATGACCTGTAAATGGAATTTAAGGGAGGAATCACACGTGTTAGCACGGGGTTGGCATTGCGTGGCTGTTTTCAATTAACTTGACCACTAT
S
ATAACATCAAAGGTGTGTGTACCATTCTATGACCATTGAATCTCCATGGACATGTTTTGGGAAATGGATTTGTCCCATTACACTGCTTTCTTTAGTGCAT
Celera SNP ID:            hCV15911913
SNP Position Genomic:     404138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59891):
GGGCACGGTGGCCTACACCTGTAATCCCAGCACTTTGAGAGGCTGAGGCGGGAAGATCACTTGTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATG
S
TGAAATCCCATCTCTACTAAAAATACAAAAATTAGGTGGCAGGCACTTGTAATCCCAGCTACTCAGAAGGCTGAGGCGGGAGAATCTGTTGAGTCCGGGA
Celera SNP ID:            hCV8902094
SNP Position Genomic:     878697
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,5)   afr(C,5|G,1)      total(G,1|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59892):
GAAGAGCATAAGAAAAAGGAAGGGTACTGGGTGGACCAAATCTATTGTTACAATATCCCTTATATTCCTTAGGGTTCCTTTTTTTCAAGTTAAAGCATTG
R
GTCATGTCTCTGATAAATCGCCCCCCCACCCCGATCCCCACCCTCTGCCGCCCCGGCCTTCTTTTTGTGCTGTTGGGTTCCAAACTTTACCTGAGGATTT
Celera SNP ID:            hCV8902095
SNP Position Genomic:     879104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59893):
ATCCCTTATATTCCTTAGGGTTCCTTTTTTTCAAGTTAAAGCATTGAGTCATGTCTCTGATAAATCGCCCCCCCACCCCGATCCCCACCCTCTGCCGCCC
Y
GGCCTTCTTTTTGTGCTGTTGGGTTCCAAACTTTACCTGAGGATTTTCACATGCACATCTGTTAAATGCCATTTAAAGAGAACACTAACAAGAGAAAGCT
Celera SNP ID:            hCV8902098
SNP Position Genomic:     879158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59894):
CCTACTTTTAAAAAATTGAGGTGAAATTCACATAATATAAGATTAACCATTTCAAAGTAGACAGTTCAATAGCAGTACATTCACAATGGTGTGTAAATAC
Y
GCATCTATCTATTTCCAAAATATTTGTATCTCCCCACAATAAAAGTCTGTACCAATTAAGCAGCTACTACCCATTCCTCTTCCCTACCATTCTACCTTCT
Celera SNP ID:            hCV8902099
SNP Position Genomic:     885388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59895):
AAGGCAGACTTTAGTCTGGTTTATAATGCTTTAATATTTTTTTGAAGGAAGAAAAATGTTCATTACTTAACGTAATAATTATTTTTAAAAAGCAGCCTGG
S
GGGGGGGTATTCATTTTTCTGTGGCTGCCATAACAAAGTTCTTCAAACTTAGTGTCTTGAGACAAGACATTTATTTTCTTAAAGTTCTGGAGGTCAGAGG
Celera SNP ID:            hCV493661
SNP Position Genomic:     219268
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59896):
TGGCTGCCTGCAAGGGAGGCTGGGAAATATAGTTTGCTGTGTGCTGGGTGGGTGGGAGGGAGCGTCCACATTAGTGAACAGCCAGGCAGTCGCTGCCTCA
M
ATTTCTTTAGGGTTATCCTTTCATTCCAGCAATTGAATTTGATTTGCACTGTTTCACTTCTCTACAAGGGTGTAAAAAGTAGAGGTTCCTCTTGAAAGAA
Celera SNP ID:            hCV15894300
SNP Position Genomic:     959070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59897):
TGTTTTAAACCCATCTGTTTTTGTTTCTGGTAACTGTATCCAAAAGTAATACAGAATTTTCCGTAAGAACATTTATTGTGTTTCCTTCTACCCACGAATT
K
TCTTATGCTACACACACAACCCACTGAAATTTCACCTCTATTGTATGTGGCTTTTCTAGAAACGTGTGCTTCTGGGCTTTGTCTCACACCTCCTGGCCAG
Celera SNP ID:            hCV493666
SNP Position Genomic:     217699
SNP Source:               Celera
Population(Allele,Count): cau(T,5)   his(G,1|T,5)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59898):
TTATGTCATTGGCTACAACTCAGTCACATGACCATGGCTGCCTGCAAGGGAGGCTGGGAAATATAGTTTGCTGTGTGCTGGGTGGGTGGGAGGGAGCGTC
M
ACATTAGTGAACAGCCAGGCAGTCGCTGCCTCAAATTTCTTTAGGGTTATCCTTTCATTCCAGCAATTGAATTTGATTTGCACTGTTTCACTTCTCTACA
Celera SNP ID:            hCV15894307
SNP Position Genomic:     959036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59899):
TCAGCTTGTTTTGCTCCTGCATCTTTGCATCAGCTGGGCTTTCTGCCCTAGGCTGGACATGGGTGGGGCACTTTAGCTGGGGTGGTTCTCCTCCACATGT
S
TCTCATCTTCCTGGGACCAGCAGGGCTAGACCAGACATGACTTTCTTATGGCAAGGGCAGAAATGCAAGACAGCAACTCAAAACACATAAGGACTTTCAA
Celera SNP ID:            hCV15894308
SNP Position Genomic:     957797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59900):
AGCATGTAGAAAGATCACTGCAGATGTCCTTGTCGTGTTGACCTTATTGGAGAATTTCCTATCTGTGATGACCTGTAAATGGAATTTAAGGGAGGAATCA
M
ACGTGTTAGCACGGGGTTGGCATTGCGTGGCTGTTTTCAATTAACTTGACCACTATCATAACATCAAAGGTGTGTGTACCATTCTATGACCATTGAATCT
Celera SNP ID:            hCV15911923
SNP Position Genomic:     404081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59901):
AAACAAACAGATCTCAGGAGAACTCTTTCACAAGACAGCACTAGGGGGATGGTGATTAGAAAGCACCTCATGATCCCGTCTACTTCCTGCAGAGAACAGA
Y
TAGCCCCCTATGCAGCACACACCTTTGTGAGGTCCCTCCTCCAACACAGGGATTACAATTCAACCTGAGACGTGGGTGGGGACACAGAGCCAAACCACAC
Celera SNP ID:            hCV15911924
SNP Position Genomic:     401885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59902):
GGACCAAGTTTTATTCCCTGTTTAACCTTGGCCTGACAACCTAATAGGTGCTCAGTGAACAGTTCTTGAATTTAATTCTCTCCCTTTCCCCACACTGATG
K
GTATTTAAGCTCCAGTGGTACTCGATGTGTTGTTTTCTTTGTTCTTTTTTTTGAGACAGGGTTTTGCTGTCACCCAGGCTGGAGTGCAGTGGCAGAGTCT
Celera SNP ID:            hCV15911925
SNP Position Genomic:     399041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59903):
TTTTCAGGTAGAGGCTGAATGATTTCCGCACCTTTTTATAGATTGCATGACTTCAAAGATGCACACTAATACTACGGCTCCTTGGGAAATCTTTCTGCAC
T
GATCCCTTTGAATCTTCAGTGTTTCAACATAGACTTGTTACAAAGAGAAGGAATATAAGCCTCTGTTCTTTCTTGTTTCCCTTTGTTAATTCCTTTTTCC
Celera SNP ID:            hCV11668100
SNP Position Genomic:     638877
SNP Source:               Celera
Population(Allele,Count): cau(-,5)   afr(T,1)   total(T,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59904):
AGAATATAAAATTTTGTTCTATTTTATTTTAAAGCTCTGGTTACATATGGTCAAGTTGCTTCCCAAAAAGCGTCTCTGTCAGGATGATCTTATGAACGAC
S
TTAGTACCTCAATTTTACTGTCCCATCCTTTTTTCCTCCTTCCTTGCCTCCTTCCCTCTCTGCCTCCTTCCTTTTCTTCCCATTTCCTTCCTTCCAGCAT
Celera SNP ID:            hCV11668101
SNP Position Genomic:     637706
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59905):
GGATTGCTTAAGCCTGGGAGATTGAGGCTGTAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGGCAGCAGAGCAAGACCCTGCCTCAAAAAAAAAA
A
GTAAAAATAAAAATAAAATAAATATATATATGCATGCACATCCTAATTCCTGTAACACGTGGATATGCCCTTACTTGGAAAAAGTGCCTTTGTAGAATGC
Celera SNP ID:            hCV11668102
SNP Position Genomic:     636805
SNP Source:               Celera
Population(Allele,Count): cau(-,1|A,4)   afr(A,4)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59906):
TGGAGGAAGGGAGTCAACTAAACAATTTATTAGGGCTTTATGTAAAGCCCTAGGGTTAGTTGGTTGGTTGGTTTTGTTTTGTTTTGTTCCTTTTTTTTTT
T
GCCAGGGGATGCTGTGGTTGAATTTCCCTCTGTGGTGAGAGTTGCATGGGGCAATGAGGAGGTAGTCCAGAATAGTTCTATGGAAATAGGAGGCTTTCAG
Celera SNP ID:            hCV11668109
SNP Position Genomic:     634189
SNP Source:               Celera
Population(Allele,Count): cau(-,3|T,4)   his(-,3|T,4)   total(T,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59907):
ATAAATATTTATTGAGTAGTAAGCACATGCAAGGCATTGAGGGTGGGGAGGGAAAAAGACACAAATTGTCCTTACCCTCATGGATTCACCATCTATTTAA
M
GGCCACAAATACTTGTGTGAGAAGCAAGTCTTAATAGTCTGAAGTATTTTCTTAGATTCCCTTGAGCCGCAATGCTGAAAAGCTTATGGTGGTTTTGCTA
Celera SNP ID:            hCV15894315
SNP Position Genomic:     954702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59908):
AGCTCACCGGGGAGTGTTTCTCCCAGTTCCTCCCCAGTACACAGAAAAACAAAGCTTTCTGTCTCACCAGGAGGACTCCACGGTGAGCATAGCTTGGCTC
M
GCCCAGCAGGAGATTTTGAACCGACTCTGGTAGATTCTTCCTGCAGCCATTCAGCTCCCACCTCTTTCTCTCAAAAAGAAATCCAGGGCTGGGTGTGTGT
Celera SNP ID:            hCV15894316
SNP Position Genomic:     954114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59909):
GTTGCCCCTAGGATCATTTTTTTCAAAGCTAATGTCTGCCACAAATGGGAGTTTTAATAGGTTATAATTCATATGACTTAGTGTTAAACCTCTACGTTGG
K
ATTCTTAAATTTAACATGGATAAACTGAACTTGATTTCCTGCATTAAAAAAAATTAAAGAAATGAAAGTTCTGACTGTTTTATTGTAGCTGGGGAATTCT
Celera SNP ID:            hCV15894317
SNP Position Genomic:     946499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59910):
GTTGTAAAAGAATACAAGTAAGTAGTCAAGTGACACCTTAGCATTCTGATGAAAAGAGCTTTGACCTCACAGAGCTTCTGGAAGGGTCTCAGAGACATCC
S
TGAGGGTCCCTTGACTGCACTTTGACAACCACAGGTCTACATGATCTGTATAGCCTTTTCCAGTTTTCACATCCTATGATTCCAAGAGGGAAAACAATCT
Celera SNP ID:            hCV16102071
SNP Position Genomic:     636106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59911):
CCACACCCGGCCTCTTCTCGATAGATCTTATTTGGCTGACAACGAAAGCTGTTGTGCTGGTAGCATCATCCCTTTGCATGCAAAAGATAAACTGAAATCT
R
AAGTAGCCATATCCTTCCGGCCAGGTTTTTCAAGTGGTTACTCTGTTCTGATCATTGTCATGACAGGAATAGTGAAAATAACAATAAATCATTTTTCTTT
Celera SNP ID:            hCV16102072
SNP Position Genomic:     510233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59912):
GCTCCTACACCATGAGTGCTTTTGTATGGTGACTGTCTGGTTACAAGGTCATCTTTTCCCCTGGATGAGACGCCCCTTGGGGAAAGGACCAAGTTTTATT
Y
CCTGTTTAACCTTGGCCTGACAACCTAATAGGTGCTCAGTGAACAGTTCTTGAATTTAATTCTCTCCCTTTCCCCACACTGATGTGTATTTAAGCTCCAG
Celera SNP ID:            hCV15911935
SNP Position Genomic:     398956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59913):
TTTTGGAGGACTTGAAAGGTTCCTGCTACCTTTGGCTGGGGATGGAGGGAACATGGAAGATGGGTCTTTGTTTAGAGGAAGCTCTTTATCCTGGTACGCT
R
GAAGTTGGCATAGTCTTAGCAGTTAGTCCAGATGTGAATTTCAGGATTATTCTGTGAGTCTTCCAAGTCCTGTCTCAGCAGTGAAATAGGCTCAGTGTAG
Celera SNP ID:            hCV15911936
SNP Position Genomic:     395839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59914):
TGGTTCAGGGTGTTGAGGCTTCGTGCTGTTAATATTGGAAGGTGGGTCATTTGTACTGGGCATCTGTCCTGTATCTTGGAGATGTTTAGTAACATCCCTG
R
CCTCTAGCCATTAGATACCATCTCTCCCAGTAGGGATAATAAAAACATGTCTCCAGATGTTGGCAAATGTCTGGCCTTCTGGGGAGTAAAATGGCCCCTG
Celera SNP ID:            hCV15911937
SNP Position Genomic:     395265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59915):
GATAGTAGGTAAATTAATGGAGGAAGGGAGTCAACTAAACAATTTATTTGAGCAATTAATGGAGGAAGGGAGTCAACTAAACAATTTATTAGGGCTTTAT
K
TAAAGCCCTAGGGTTAGTTGGTTGGTTGGTTTTGTTTTGTTTTGTTCCTTTTTTTTTTTGCCAGGGGATGCTGTGGTTGAATTTCCCTCTGTGGTGAGAG
Celera SNP ID:            hCV11668110
SNP Position Genomic:     634130
SNP Source:               Celera
Population(Allele,Count): cau(G,5|T,1)   his(G,5)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59916):
GTTTATGCCACTGCAACATTTTAGAATCACCTGGGAAGCTTTTGAAAACTCCCAGCATCATGAAGCATGGTCTCTTGCCTTGGGGTCAGTGTCTGTCAAC
R
TGGCTTTTGCTAAAGAGCCTTCCCCTATGAGAAGTGAGGCAGGAGAAGGCGGAGTGACCACAAGATGCCCTGATGGTGCCAAGCTATTATTATAAATGAA
Celera SNP ID:            hCV11668114
SNP Position Genomic:     630764
SNP Source:               Celera
Population(Allele,Count): chn(A,1|G,5)   cau(G,5)   afr(G,5)   total(G,15|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59917):
AGTTTATGCCACTGCAACATTTTAGAATCACCTGGGAAGCTTTTGAAAACTCCCAGCATCATGAAGCATGGTCTCTTGCCTTGGGGTCAGTGTCTGTCAA
Y
GTGGCTTTTGCTAAAGAGCCTTCCCCTATGAGAAGTGAGGCAGGAGAAGGCGGAGTGACCACAAGATGCCCTGATGGTGCCAAGCTATTATTATAAATGA
Celera SNP ID:            hCV11668115
SNP Position Genomic:     630763
SNP Source:               Celera
Population(Allele,Count): chn(C,5|T,1)   cau(C,5)   afr(C,5)   total(C,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59918):
TCTTCTTTATATTATAAGTTTATGCCACTGCAACATTTTAGAATCACCTGGGAAGCTTTTGAAAACTCCCAGCATCATGAAGCATGGTCTCTTGCCTTGG
R
GTCAGTGTCTGTCAACGTGGCTTTTGCTAAAGAGCCTTCCCCTATGAGAAGTGAGGCAGGAGAAGGCGGAGTGACCACAAGATGCCCTGATGGTGCCAAG
Celera SNP ID:            hCV11668118
SNP Position Genomic:     630747
SNP Source:               Celera
Population(Allele,Count): chn(A,2|G,5)   cau(A,2|G,5)   afr(G,5)   total(G,15|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59919):
GTATAGTGATGGGTCTCTCATGGCTCACGTATTAACTGTATTTGTTGTTACTGCTTCTCAGGCACTCTGTTAAGAATGCAGGGCTCTTCCTCAGACTCAG
S
GCGGGGCCTGGGCTTTACAGCAATGGTTTTCAGTTTGTAATCTCTCTCAAGGAAGGGAGAGGAGCACAAAGCTGCCTTGACTGCCAGCACCATCAGAAAA
Celera SNP ID:            hCV15894324
SNP Position Genomic:     944525
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59920):
ACAAAAGGCCAACCCCATTAGACAGTGGCCAAGGGAGGTGAACTAAAGTTGGTGCTGTGAACAGGGCTAATGGTTTGTGATTTACCCATAAGTGGAAGGT
R
TACTCCGGCTGCTCCTTTAATATTTTATGATTAGCAGTAGAGGTGTGTCTGGGGGAAAGAGTCAGCTTATTTTATTTATTTATTAATTTTTTGAGATGGA
Celera SNP ID:            hCV15894325
SNP Position Genomic:     942908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59921):
TCCAGAATCATTGGCCCTGGCTCTACTCCTGGAAACCCAGTCCATCTCTAATCCCTTTGATTTCCAATGGGAGGCAAATCCAGGGGAGTTCTAGACTGTC
K
AGAATATTGTACCAAGAACAAAAGGCCAACCCCATTAGACAGTGGCCAAGGGAGGTGAACTAAAGTTGGTGCTGTGAACAGGGCTAATGGTTTGTGATTT
Celera SNP ID:            hCV15894326
SNP Position Genomic:     942790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59922):
CCTGGCTTGGTGTGTTTTGTGGCATTTGGCAGGCAAACGTTTTGAAAAGAAATCTCCTTTCAAAAATCACAGCACTGGTTGAAGCAGGAGCATCTCTCCC
Y
TTAAATGCAAAAGGAGTTAATATGCCAGTGACTACAGTGTGCCTGGAAAGGTCACTGGAGGCATTTTTGTCTGGGGCAGCCCCTGGAGTCTTGGCTTTTG
Celera SNP ID:            hCV15868523
SNP Position Genomic:     506308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59923):
AGCCCCTGGGCATTATTTCCCCAATTCCGTATCCCATCTACTAATACAAACTAATGAGATCTATTAAGGATGAGTCCACAAGTTTGAAGGGAGTCTCTTA
Y
TAATGTTCCGTCTTTGCATGGTGTTACAACAGCGGGACCATTTTACACTGAGGGTTTGCGAGAGGCATGGCTCCCCTGTTATGTATTTGGGACTTACTGC
Celera SNP ID:            hCV15911947
SNP Position Genomic:     395052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59924):
TTTTTTCCCTTTTCTTTTTTTTTCTCCCCATCTTGAACATGTTGCTGTAGACAGGTGCTAGGTTTCCCTGAATGACTAAAGCAGAGATTTGGTTATTTTC
Y
TCCCAGAAAAAGTAGATGCATCAGCAGAGTTGAGCCCCTGGGCATTATTTCCCCAATTCCGTATCCCATCTACTAATACAAACTAATGAGATCTATTAAG
Celera SNP ID:            hCV15911948
SNP Position Genomic:     394919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59925):
ACTAGGGGAAACAAACCCTGTTTTGTAGTATTTGCTGATTACTGTGGTGTAAATACTCACACCTTGGCTGATTTCAAGTTGCAGCTTGGAACTTGGAGTT
R
GAAAGAGATGTGTAGTCCCATACCATTTTATGTATGTAAAGTATTTGCACTATGCCGACTAATAGACATAAATAACCTCATGAGCATAGATAATAGTCAC
Celera SNP ID:            hCV15911949
SNP Position Genomic:     393858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59926):
AATGTCTCCAGACATTTGCTTCTGTCCCCTGGGGATCAAAATCACCCCTGGTTGAGAACTTGGGGTAATTTAAGTGGTGCTCCGGTAAAGGCCATTCAAC
W
TGACTCACTGTGTTGATGTTATGTTTTCTAACATTGACTTTCCTTTAAACCATAGGGTTCGAAACCGCCAAGTCTTTTGCCCTCCATGGTGCACATGTGA
Celera SNP ID:            hCV25761290
SNP Position Genomic:     70484
SNP Source:               Applera
Population(Allele,Count): afr(A,34|T,2)   cau(A,40)   total(A,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:59927):
GTCCCACAATTGGCAAGTGCCATAAATATATTATAGGCCATTATACTTTCTACAGTATCTTTAATTGATATGCCCCATGTCTAAGAAAAAAAGTAGTTTT
T
CATGATGAAGGTGATGAACTACTTCTTTCCATTATTCTATTTCCCCCTTTTCTTCTTCAGGCTTTAAAGATATCATAATACCATTTACATTTACTGTTTA
Celera SNP ID:            hCV11668122
SNP Position Genomic:     628683
SNP Source:               Celera
Population(Allele,Count): cau(-,2|T,4)   his(T,4)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59928):
TGGACTCTGATGGATCTAATCGAGGATTAGGATGGAGGTAGGTGGGAACATATTTAGAAGGATGCCCTGTGGTTTTTCTCCTTCCTGCTATTTATATTTC
Y
CTCTCTGTCTTTCCCACCTGTTTGGTGATGAGGAAGGAGCTGTGTACTGGTTTGAAACCTATTCACGACATAGTGGACCCAACACCAAGTGTCTTATTGT
Celera SNP ID:            hCV11668129
SNP Position Genomic:     625261
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,1)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59929):
CCTGCCGTGCTCAAAGCACTTGCTTACTTGGAATGCCATAAATTACATGAAGGAATTATTCATTGTATCACGAAACATACCTTCCAGTCTCCCGAGTAGT
S
TATTAGGCTAAGTATGGTCTTTTAAATTATTACTTTAAAAATAAAAGATAATGGAATTATAGCATTAAATACATTTTGCAAATGATCTTCTAGTAGGATT
Celera SNP ID:            hCV15894333
SNP Position Genomic:     942284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59930):
CTGTTAGGACATTGTAATTATTTTGTATTACTTAGGAAAACTTTTATGATTCTACTCTTTTAATTTTTTTAATAATTACTTTATGACTTCTTCATTAGGG
W
TTCTCTCCTCCAGTGCGTACGCAGATCTTCTGAAAAGGAATCTGACAAATTTAGTTGCTGCATTTTTCTAAATTGCTTTCAAGACTACCCAGCACTTCAG
Celera SNP ID:            hCV15894334
SNP Position Genomic:     937741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59931):
TACCTCTGGAGGCCCCAGGCTGGGACTTTGGGTACAGATGCACAGGAGACCTTTGCCCCACCCCGTCACGGCTGGGCCTACTCAGTTCCACGTCTTTGAG
K
TTTCACGCGGAAACTGGATGTTTCTTACATCCTCAGCTGCAGGCATGGGGAAGAGACGCACATCAGCCATTAAGAAAAAGGTATGCAGTCTACATGCCTC
Celera SNP ID:            hCV15894335
SNP Position Genomic:     936703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59932):
TTGAAGGAAAGTTTTGGCTACCCAGTTGTTAGCTGCTGAAGTTTAACTGTGCATTCTAAGCACACCAGTATTTTATTACATCATACCTGGGCAGCAGATA
R
TTTTAGTAAAACCTTGAAAAGATATGACTATTGGGAAGAAATTTGGGATTCTATCCTTTTTCTCTCCATTCTTCTCTCCTGCACCAAGTTTCTAAGCTCG
Celera SNP ID:            hCV16270799
SNP Position Genomic:     529547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59933):
TACCTTTGTCTCAGTCAATATTTACCTCTGAGGTCAATACGTGTGGATATTCACCTCAGCTGCAGTCAATATCCATTTCGTATTACAATATATGATGTGC
R
TATGTGAAAATAAAGAACAGCATGGTACAAAAAAGGTCTGCTAGGCAAAGAAGCTTTTTGCAAAGCGGATGTGTTTTTGTTTTATTTTTTGTTTGTTTGT
Celera SNP ID:            hCV15868534
SNP Position Genomic:     499749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59934):
CCACTGACCACTCTCTGTACAGATGCGCTCAAGCGACCATAACCACCAGTGTTCCTAACAATGCGCCTATTGACTTCTTATTTCAATAGATATCCAGATT
K
ATTATCCCTCAAGGTAAGCATCGATTTTACCTTTGTCTCAGTCAATATTTACCTCTGAGGTCAATACGTGTGGATATTCACCTCAGCTGCAGTCAATATC
Celera SNP ID:            hCV15868535
SNP Position Genomic:     499621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59935):
CCTGATTGAGTAACTGCTCTCTGAAGGTGGAGGCTGGACTGCTTCACTGGACAGGGTGGCCTGGGGTTATTCTAGTGCAGTGGTAGCTGGTGACAAAACT
S
AAAGAAGATGTAACTAGAGAAAAGGTACTCAGTGCAGCCTCTGTGAGCTACCACCACTGCCTCTAGTTTTCCAGAAAACCACCACTGACCACTCTCTGTA
Celera SNP ID:            hCV15868536
SNP Position Genomic:     499439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59936):
GGCTTCATATATTATTGAGAGCAAACCTACTTTCCACCGCCACTCCTGGATGCACTTATTTTGCGAGCCTTATTCAGAATGTCAGCATGGATCACTTGGC
R
ACAAAGGCCTAAAGGGCAAGCCAGGAAGCTTCCATGGATACGTTATTTATGGTGTTTAATTATTATTGTACAGATTTATTAAATGACTCTGTTACCTAGG
Celera SNP ID:            hCV15911957
SNP Position Genomic:     393493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59937):
TGAAACTACATGTTCATTGAAAATGATCTTTTGGGTGGTTGATGTTCGATTTTGGCTCTGTGTTGGGCCTGCCCAGTGAGGTCCTTTTGACTCCCTAAGG
R
ACCCTGTTTTGGGTTTCTTTTGAGGTTGAAGATATTTCAGACTCTTTCCCCCTCAACTTCCATAGGAACCAAACTCTCTTTCTTCCTCCCGTTTGGTTGG
Celera SNP ID:            hCV15911958
SNP Position Genomic:     392986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59938):
CCCGGACTCGAATCCCAGCTCTGATCCATCTCAGCTCTGCCATATTGCCAAGTTCCGCTGAGACTCCATTTACTCACCTGTTGTATCATCTGAATTATTT
Y
CATATCCATAATGTGCAAGGATATCCTTCCATGTTATTAGAAATACAGATACACCATCATTATCAGTGGCCAAATCATTCAAATCGCTGTTTGCTTCTTC
Celera SNP ID:            hCV16102097
SNP Position Genomic:     965314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59939):
ATAAAGTTTATTTTTACAGTAATTTTAAGTTCACAGCAAAACTGAGTGGGAAGTGTAGAGTTTCATATACTCCCTGTCCTCACACATGCACAGCCTCCTC
Y
AGCTATGCACATTTTCAATGAAACTACATGTTCATTGAAAATGATCTTTTGGGTGGTTGATGTTCGATTTTGGCTCTGTGTTGGGCCTGCCCAGTGAGGT
Celera SNP ID:            hCV15911959
SNP Position Genomic:     392867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59940):
TGGAGGTTGCAGTGAGCCGAGATCAGGCCACTGCACTCCAATCTGGGTGACAGAGCAAGACTCTGTCTCAAAAATAATAGTAATAATAATAATAATAATA
R
TAATAATAATAATAATAATAAGAATCTGACTAAGGTTATTAACCATTAAGGTATGCTGTGCTAAGGAGCAGGGGGCCCCTTCCATCCGTAGAGGGCAGAA
Celera SNP ID:            hCV2813400
SNP Position Genomic:     81369
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59941):
GGAAGAATGAGGATTTGGGGAAGGAAAATTTTGAGAGCCATTTTACAGCATTTCAAGATTCAGTGATCTCAGAACCTCTTTTGGTTAAACAAGCATGGGA
R
GATGGATGATTGGATGGATGGATGAATGGATAGGTAGGTGGGAAGATAAATGGATAGACATATAGGTAGGAAGGAATGAGGGATATATGGAAGGCTAGCA
Celera SNP ID:            hCV214208
SNP Position Genomic:     288806
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59942):
TCTTTAAGGAAAAAGGTTGGATGGATGATGTCAAAGACCCACTGTTCAGTCTTTCTTTCTTATATTTTGAGCCTTAATTGGGTCCCTGTGAGTCAATTTC
M
GATGATAGAATTTGCTGTTTTATAGTTTTACTCTAACATGTAGTACCTTGAGATAGACCAGTGATCCCAGACTAAGAATTATTCAGAATCATTCACCGTC
Celera SNP ID:            hCV2813403
SNP Position Genomic:     73752
SNP Source:               Celera
Population(Allele,Count): cau(A,4|C,2)   afr(A,4)   his(C,2)   total(A,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59943):
ACAAAAAGCAGCTTTCGTTTGCTTAAAATTTTTGTTCTCTGCCTTTATTTTTCAAAAATATTTTCACTAGGTATAGAATTCTAAGATGAAAGTTTTATTT
K
TTTTCAGCTGTGGCTTCCATCATTTTCCTGAGAGGTATAACTATCAGTCTTGTAGCTACTGGTCTCTAACTACTTCTAAAACTATCTGCAGTTTTTAGCA
Celera SNP ID:            hCV2813407
SNP Position Genomic:     68606
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   his(T,1)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59944):
CTAGTGTGGGTCTATACGTGACACTAGGTGTAGTGTAGGTGACAAACAAAAAGCAGCTTTCGTTTGCTTAAAATTTTTGTTCTCTGCCTTTATTTTTCAA
R
AATATTTTCACTAGGTATAGAATTCTAAGATGAAAGTTTTATTTTTTTTCAGCTGTGGCTTCCATCATTTTCCTGAGAGGTATAACTATCAGTCTTGTAG
Celera SNP ID:            hCV2813408
SNP Position Genomic:     68561
SNP Source:               Celera
Population(Allele,Count): cau(G,2)   his(A,1)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59945):
TTCCATTACTCACCTCCTAGGTTAAGCATTGTTATTATTATTGATATAGTAATTTTTGCTATATATTTTAAAACTCACAGATTTCACTCTTACCATTTGG
R
TCTTAACATGTCGTTACCCTTTATGTTGCTCTTTGTTACTTTCTGCATCTCTGGGTTTATAGCTAAGGTCATTTTCCTCCTGCCTGAAGAGCATCCTTTA
Celera SNP ID:            hCV2813409
SNP Position Genomic:     68351
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   his(A,1)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59946):
ATGACACAGGAGACAGGGAAAGAGTTTTGTTATCCTGATACACACATTCTTAAATGCCTCTAGCTGTGTAGACATTGGTTTGTCCATATTAATAGTATTT
Y
ACGAAGTGCCAGTTGTGTGCCTGCTTTGTGGCATATGCATTGGCATTCATTGCTTTATTTAATTCTTCCAACAACGTGTCAGATGTCTGTTCAAATTATT
Celera SNP ID:            hCV222089
SNP Position Genomic:     238969
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   his(C,1)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59947):
CTCCCATTTTACACCCTGTTTATTGATACTAAGAAGAGCCTCCAACTGAATAAGAACTAATGACTTCTGCCTGCCATCATTTTGGAATGTCCAATTCCCC
R
TTCTGGAGAGCCTTTGATTATAACATCAGCCTGTCATTTGGACCTCTGACCTGAATTATATGAATCTGAAAAATCTCTTCCTTTCCTATCGTGAATTCGG
Celera SNP ID:            hCV15894342
SNP Position Genomic:     934980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59948):
TTGCTGAATACTGAGTAAATAAAGAAAAGTTAACACAGTGGAGTCCAGGTACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCAAGGCAGGAG
R
ATCACGTGAGCCCAGCAGTTCAAGACCAGCCTTGGCAACATGGTGAGACCCCATCTCTACAAAAAATAAAATAATTAGCTGGGCATGGTGGTACATGCCT
Celera SNP ID:            hCV15894343
SNP Position Genomic:     934499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59949):
GGCTGGGACAACATGCCCACTCTCAACTAATTTTTGTAGCCATGGAGATTTGGAAGTCTGGCAAGTCTTGGGTCACATGATCTACCTTACAGCTGTTACT
R
CAGACCTCCCAAAGCTCACGAACTGAGAGTCAGGAGGCGTGGTTCCCCTAACTCAAATCAGAATTTCGTTATCAAAAGAAGAGAGGGATGGTTCTGTGGT
Celera SNP ID:            hCV16166556
SNP Position Genomic:     824638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59950):
GATGGAGTCTCCCTCTGTCGCCTAGGCTGCAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCACACCATTTTCCTGCCTCAGC
S
TCCCAAGTAGCTGGGAGTACAGGCGACTGCCACCACGCCCGGCTAATTTTTTTTTTTTTTTTTTTGGTATTTTTAATAGAGACGGGGTTTCACCATGTTA
Celera SNP ID:            hCV15894344
SNP Position Genomic:     934179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59951):
GAAAAGGAACAACAAAAAAGTATATCTGTGAACTTATTAAATGACTTTAATCATATGAAAATCAGCCATCAGCCTTATTAGAGTGGTTGATTTTTTTTTT
R
ATCTAAGAGCTTTCTTGGTTATTTTCTGTTCTTAATCATTGTTGTATATCCTTAATGCGCAGGACATGACACCGTATAACAAGTGTTTTAAAAATATTTA
Celera SNP ID:            hCV248299
SNP Position Genomic:     488684
SNP Source:               Celera
Population(Allele,Count): cau(A,8|G,3)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59952):
CCAGAATGAGTGTGTTTTCTAGCTGTCACTGCCTGATGTTTACTGCTCAAAGCTTAGGACTTGGATTAGAGCCCAGGACTTGGCAGCCAAGATAAACCAG
S
TGCAATTACGCTGAACATCTCAGCCCAGCTCCTGTCCATCCCTGAACAGGACACTTAGGGTAGAGGATGTTCTCAGCAGTGCCATTTGCATCCCCCTTCA
Celera SNP ID:            hCV11510674
SNP Position Genomic:     292716
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(C,1)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59953):
CTAAAGTCAGTTACATAACCAAGCCCAGCTTCAGAAGGGAAATTGTATGCCTTACAAGGAGGTGAGAGGATGGAAAATGAATATTTGCTGAACAGACTTT
Y
TGTCCAGTTTGTTGTATTTGGTGGTGGTGCAGGGCAAATATATGTTTAAAACCTTGTTCAGATTTTTAGCTTTCTTCAGAACAGAGCTTTTAAAACTGAG
Celera SNP ID:            hCV15868546
SNP Position Genomic:     484887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59954):
ATCATACCCATTCCCAAGATTTCAGTCATCAAATCCATTCCAATATGACTCCTGTATCCATATGTCCAGTTCCAAGTATCTGTCCATGGTGTTGGTCCCA
K
GTTATTCGCACCTCATATGTCTTTGGCACAGCACTCTTGACAGCTCATAAAGTCACGCTGTTACCCCCACAATGTCCCCCCACATATCATTGCTATCCCT
Celera SNP ID:            hCV437024
SNP Position Genomic:     254537
SNP Source:               Celera
Population(Allele,Count): cau(G,7|T,4)   total(G,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59955):
CGATGAGATTGGAGGCACCTGGGTGTCAGCCTCTTGGGCTGGCTCATTACAGGCCACTCTGTCTGAGGAACACTCAGGTTTGCAAACCGTTTCTTAAAAT
W
ACAGGATACCTAGGGACCTGTTGGGGTGGGAGGGAAGAACCCTATGGGCAGAAATGTGACTTTCTGTAGCAAAGATGTACTGTTTCCCACTGAGAAGAAT
Celera SNP ID:            hCV15868547
SNP Position Genomic:     476728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59956):
TACAGGATTTTACATGGCTTAGAGAAATACTGTGGTGGTGAAAATATGCATAAAAAAGCGAGAGATTTTACTTTTGAAATGCTGCCAAAGTGAAATCTCT
Y
TTGGATAGGCAGATGACAGTTTAGTACTTGCAGGTCTTTCGATTCTGACAACTGTCAGAAGTGAATTTAAGTGCTGGTGACTAGGCTGCCAGAGAAACAC
Celera SNP ID:            hCV11510677
SNP Position Genomic:     297734
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   afr(C,2)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59957):
GTCTTTGGCACAGCACTCTTGACAGCTCATAAAGTCACGCTGTTACCCCCACAATGTCCCCCCACATATCATTGCTATCCCTCCTCGACACCCACACCTC
Y
TGCATGTTCCTGAGCTTCTTAGGCGTGTTGCATCTTCCTGACCTTCCCAGTCCGAAGCCCAAGGAGATACTTGATAAATATTCGTCTAATAAATAAATGA
Celera SNP ID:            hCV437025
SNP Position Genomic:     254656
SNP Source:               Celera
Population(Allele,Count): cau(C,6|T,3)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59958):
AAACTGGCTGACTGAGTTAAATGAATGCCAAAGTCACAGAGCTGCTGAGTGGCAGAGTTGTAATTCCCATGCAGAACTGTGTGGCATCAAAGCCATTTTT
W
AACTCATTGCAATGCACAGTGGGTTAAAATGAGATGATTGAAAATGAGATGTGGCTGGGCATGGTGGCTCACACCTCTAATTCCAGCACTTTGAGAGGAT
Celera SNP ID:            hCV15868548
SNP Position Genomic:     452165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59959):
TGAACTTTCTGTCACCGGTATAATTTAAAGAAATTATACTTAAGCTTTGTCTCACTTAGAAGATAATATAGAACAGTGGTGTTTTTTTAATTAAAAAAAA
R
GTTAAAATAACGGTTTTGTATCCTTGCTTTACTTCTTAAACATATGGGAGGAAAAAAAATCTTTAACAAGTTTATTTATTTTCATTTTCTGCTAAATTAC
Celera SNP ID:            hCV11510679
SNP Position Genomic:     300961
SNP Source:               Celera
Population(Allele,Count): cau(A,6|G,1)   afr(A,6)   his(A,6)   total(G,1|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59960):
GTTACATCAAGGCTGGGAGGAGGTCTTTCCACTGGTTTTCCGGGCTGTTTGTGTACTACACAGCCTGTGTACCTGGCAAGGCACGCTCTGCTCTGCCCTG
M
CTTCTGATGAGCTGACTAACACCTTATAGATGAGGTTCCCTTAGAACCAAAGATGCCCCATGAAACTCCCTAGGATGAATGTTGGAAGTCCTTCCAACTG
Celera SNP ID:            hCV15911969
SNP Position Genomic:     392590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59961):
CTCTCTCTCTTTCTTTCTCTTTCCTTTCTTTCTTCCATTTAAATTGAGACAGGGCCTTGCTCTGTCACTCTGGCTGGAGTGCAGTGGCATAATCATAGCT
S
ACTGTGCCCTTGAACTCTTGGACTCAGGCAATCCCTCGACATCAGCCTTCTGAGTAGCTGGGACTACCGGTACCTGCCACCACACCTGGCTATTTCTTTT
Celera SNP ID:            hCV2813410
SNP Position Genomic:     67875
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3)   afr(G,1)   his(C,3)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59962):
GCAATGGGAACAGAGCTGAGGCTCCTAAGGTCTAGAGTCAACATGAAAATACCTTTGCTTCTGGGCCATAGCTGTGTTTCTTCTTAACAAGGCAGAAGCC
Y
AGAAGAGACTTCATGTACTGTGACTGTAATAAAGAGGGTTGTAAGTAGAGAAGCTGGAATTTGAAAGGTTACGTACAAGTCAAGCTGCCTCTGTAATGTC
Celera SNP ID:            hCV437029
SNP Position Genomic:     255355
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59963):
TTATTTTCAGTTTATCAATTAAGTTGTTCAAGTCTTCTATATACTTTGTGTTTGTCTGCTTATTTTATCTGTTACTAAGAGGGATATGTTAAAATCTTCC
R
TTATAATTGTGAATTTGTCTATTTATTGTCCTAATTCTGTCAATTTTTGACATATATGAGAGGCTCTATTATTAAGTACATATAAATTTAGAATTGTCAT
Celera SNP ID:            hCV2813411
SNP Position Genomic:     67243
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,2)   afr(A,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59964):
TGATCATCCTCCTGAGTAGCTGGGACCACAGGTGTGCACCACCACGCCCAACTAATTTTTTGTAGAGATGGAATTTTGCCATGTTGCCCAGGCTGGTCTC
R
AACTCTTGGGCTCAAGCGATCCACCCGCCTCGGCCACCCCGATTCCTGGGATTACAGCCATGAGCCACTGTGCCTGGTCTTCTTTTTAATATATGTAGTT
Celera SNP ID:            hCV2813412
SNP Position Genomic:     66700
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(A,2|G,2)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59965):
CTTAGGGTTCATAGGATCTGTAGTCCTTTTCTTTATTTTTCATTTTTAAAAACAACTTTATTGAGGTATGATTGACGTACAAAAAGCCTCACGTATTTGA
Y
GTATAGAACTTGATAAGTTTGGAGATAAGTATATACCTGTGAAACCATTATATTTTATAAGTACATGATACAATATGAGCACAGTACTATATGGTAGATC
Celera SNP ID:            hCV2813413
SNP Position Genomic:     65126
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   his(T,1)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59966):
CTTAAGATCTTCTTAGGGTTCATAGGATCTGTAGTCCTTTTCTTTATTTTTCATTTTTAAAAACAACTTTATTGAGGTATGATTGACGTACAAAAAGCCT
Y
ACGTATTTGACGTATAGAACTTGATAAGTTTGGAGATAAGTATATACCTGTGAAACCATTATATTTTATAAGTACATGATACAATATGAGCACAGTACTA
Celera SNP ID:            hCV2813414
SNP Position Genomic:     65115
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   his(T,1)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59967):
GTTGTTCACCATATCTTAAGATCTTCTTAGGGTTCATAGGATCTGTAGTCCTTTTCTTTATTTTTCATTTTTAAAAACAACTTTATTGAGGTATGATTGA
Y
GTACAAAAAGCCTCACGTATTTGACGTATAGAACTTGATAAGTTTGGAGATAAGTATATACCTGTGAAACCATTATATTTTATAAGTACATGATACAATA
Celera SNP ID:            hCV2813415
SNP Position Genomic:     65101
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   his(T,1)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59968):
GTGACTCAGATAGGTGTGTATTCTCAAGAAGCTTTCATTCTAATGACACATACTTTGTCTCCAGTCAGAGTTATGGCAGGTTTTTTTTTTTTTTTTTTTT
T
TGACTAAATTCACCCATATTTGATGGCAAGTGTGATCACAGCATGTTTATAAAAATCATTCTTAATTAAGGCATTTCCATCTTATCAAGCCCCCTATTTA
Celera SNP ID:            hCV11668145
SNP Position Genomic:     613506
SNP Source:               Celera
Population(Allele,Count): cau(-,3|T,3)   his(T,3)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59969):
AACCTGCCTGGCCTTGTGTTATATCGATGCTTTCTCAATCTGTTAAAAACGTAGCTGCTATTGAATGACTAAGAATTGTTTACTCTCATTTCCACTCTCT
K
ACATCTTTTTTTTTTCTTTTAATACCCTGTGATGAAACTGTGAAGAAAGATATTCCTGATCATTGCTTTGACCTGGAAATTTCAAAGGGACCCACAGTCC
Celera SNP ID:            hCV2813416
SNP Position Genomic:     63420
SNP Source:               Celera
Population(Allele,Count): cau(T,4)   his(G,1)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59970):
TGTCAGATGTGCCCTTTCTGGTAATAAAAAGTCCTTTGCCGTGGGTTATTTTGTCAAGTGAGATAGCAGGACTTAACAGGTTTGTTTGGGAAAATAAAAT
Y
TGATAGAAAAACGGCATGCTTTTCCCCCACAGATTTCTTGGTAGCATCATTCAAAACTACAGTGAGCAGTATCTTTGCAGGATTTTAATATTTATTCATT
Celera SNP ID:            hCV2813417
SNP Position Genomic:     62677
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(C,1)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59971):
AAGTATGGGCCACACAAAACAGGTCTGTGGGCTTGACTTGTCCTCTGATCATCAGTTTGTGACCTCTGTTCTAAAGAGTGAAAACTATGTAAGATAGTAT
M
AGATAAGTAGGTATTTAAATTACTTTGCACCTTTTCCATTTCATAGAACTTGAATGTTTGTGTTCAAAGCTTAAAACCCAAGACAGTGAGCTATTAAGCC
Celera SNP ID:            hCV2813418
SNP Position Genomic:     61757
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   his(A,1)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59972):
CTCTACTAAAAATACAAAAATTAGCCAGGCACAGTGGCTCATGTCTGTAATCCCAAATGCTTGCTCGGGAGGCTGAGGCAGGAGAATCACTTGAATCTGG
K
AGGTGGAGGTTGTAGTGAGCTGAGATTGCACCACTGTACTTCAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAGAACAAAAAAAAAAAAAGAA
Celera SNP ID:            hCV11668148
SNP Position Genomic:     610009
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(G,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59973):
GTAATGCCAGCAGCACGGGTGATGATCATGGTCAACATGACCAACTAGAAAGCCCAAACCCCACCTCTAGCTGACAGTGGCTTCTCAGCTAACCTGTCAC
Y
ACGTGGGATTGGGCCCCCAGTGGTGTAAGCTTTTTCAGAGAAGCTACACATCTAGCTTTTGGACCTGTGATCTCCCCAATGTTTTAATGCTGGCAACTAA
Celera SNP ID:            hCV2813419
SNP Position Genomic:     61402
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,3)   afr(C,5)   his(C,5)   total(C,15|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59974):
AGCCCTATGCCTTTGGGAAGGAGAGGAAGGACTAATATTTGTGTGGTACAAAGGATGTGCCTGGCATACCCCATATCTTTTACAAAGACATAAATGTCTT
S
TGAATAAAAGTATGATGATGATGATCATGGTGATGAAGATGAGGGTGATGATGTTGATGATGATGATGGTGATGGTGATGATGGTAGTATGATAATGCTG
Celera SNP ID:            hCV2852326
SNP Position Genomic:     691098
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   afr(G,1)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59975):
CTTGAAGGGGAGGGAAATTGTTAGCTACACGACCAAGAGACAGAAGAGAGGAAGGAGTTTGTACCCACAACTCAGCTTTATTTTATGTAAGCTCTTTCTG
Y
AAAGGGAAAGTAGCTCTTTGTACCAAAGCAAGGGCCTCTGAATGAGAGCTGGGAGAGGCCAGAATGGGCCTGTAAGAGGTTGATGTGTATGAGACCTGAA
Celera SNP ID:            hCV2852327
SNP Position Genomic:     690898
SNP Source:               Celera
Population(Allele,Count): cau(T,7)   afr(C,1)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59976):
GCAATAGAAATTCAAGGTATGAAATTCAAGGTGTGGTCTCAGAGTCATTTTATCTTACAGCTTCTCTGCTGTGTTTTCTCAGTATGTGAAATGGGAACAT
S
ACTTACCATCTACTCACCTCCTGTTTGAGTTCAAGGGAAGGTTTGCAGATTGGCCTGAAGGAAGACTTCTCTTGAAAAACTCAAACCAAAGAGCACACCG
Celera SNP ID:            hCV2852328
SNP Position Genomic:     686093
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59977):
TGTCACCGGTATAATTTAAAGAAATTATACTTAAGCTTTGTCTCACTTAGAAGATAATATAGAACAGTGGTGTTTTTTTAATTAAAAAAAAAGTTAAAAT
R
ACGGTTTTGTATCCTTGCTTTACTTCTTAAACATATGGGAGGAAAAAAAATCTTTAACAAGTTTATTTATTTTCATTTTCTGCTAAATTACTTTCAGAAC
Celera SNP ID:            hCV11510680
SNP Position Genomic:     300970
SNP Source:               Celera
Population(Allele,Count): cau(A,6|G,1)   afr(A,6)   his(A,6)   total(G,1|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59978):
TATGACTATTTCATGAGTGCTTACTATATACCAGGCGCTGTTACAGCCCGTGTAATGCCACCTGGGAGTTGGGGGGAGTCACCATCGTCCATCCGTCTGT
S
CATCCATCCATCCATCCTGCCTCCCTCCATCCTTTCTCTTTTTCACAATGTCTCTTGCTCCGCCCCCTCTCTTCCCCTCCTTCCTTCCTATCCAGTGCTT
Celera SNP ID:            hCV2852329
SNP Position Genomic:     676748
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,1)   his(C,2)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59979):
AATTTGTAGGAGCTGCTCTTAATGATTATTACTGCATAGGCTGGAATAGAAGCAAAATTTGCAGTAATACTTTTGTACCTTTCTCTTTAGGCCTTGGCAT
R
TATTAAAGTACTATACATTTGTCTTAAAAATTGAAATTGTAGATTATTTTCATCTAAGACCCTTTTGTTCACAGATTTTTTTTTCCAAGTATACCTATTC
Celera SNP ID:            hCV15911970
SNP Position Genomic:     391867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59980):
AAGACCAACGTGTAAATTACATATTAATCTTTCTTTTTCTCCCTAGCTCGGTTTTAAGAATAATGTTTTAGCCAACATATCTGCATTACTCTTGGCTCAA
Y
ATGAGAAATCCATTTTTGGTTTGCCTAACAGAAGATCATGTTGCTTTGCTTCTCTACACAGTATGAAAACCCAAAGAAAAGAAAAACAGAGGCAGTTTTT
Celera SNP ID:            hCV11510681
SNP Position Genomic:     301303
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59981):
TTGTGGTCAACAGTGGGGCTTAGGGGGCAGGTTTTGTGGCTGTGACAGAACACGTGGCCCCTAGTGTGTCTGTTGAAAGATGGGCCCCTTTCAGGAAAAT
K
GCTTACCTTACTTTTTAGACATAATTTTTGTTTTCTGTTAAAGGGTCAGTTATAGATAAGTATGCTCCCTTGCAATGAAATGAACCCACTTTATCAATTT
Celera SNP ID:            hCV15911971
SNP Position Genomic:     391595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59982):
ATGATTTTTTAAGGAAAATTTTGAAAAGTCTACAAGTTAAATTTTTTTTTCTATCCCATACATTTTCCATCCTAAGGCATTGAAAAAGCACACTGTGAAA
T
ACTTAGTGTATCTAGAAACATCAGGGAAGAATGCTTCCCTCCTAAGCAAAATTTTGCCTTCTGAAACTTTTTCAGCATTCAGTCTTTTTATATAATACTT
Celera SNP ID:            hCV11510682
SNP Position Genomic:     301539
SNP Source:               Celera
Population(Allele,Count): cau(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59983):
AGGAAAATTTTGAAAAGTCTACAAGTTAAATTTTTTTTTCTATCCCATACATTTTCCATCCTAAGGCATTGAAAAAGCACACTGTGAAATACTTAGTGTA
T
CTAGAAACATCAGGGAAGAATGCTTCCCTCCTAAGCAAAATTTTGCCTTCTGAAACTTTTTCAGCATTCAGTCTTTTTATATAATACTTAGAAAAATATT
Celera SNP ID:            hCV11510683
SNP Position Genomic:     301550
SNP Source:               Celera
Population(Allele,Count): cau(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59984):
CTGTTTGAAGCACTGTATTGAGCATACCATATGCTGAAAGACTTGGAATGCAAAAACCTAAGGCCAAGGGCACTTCTCAATATTAAACCCTCAGTTGTAA
K
GGAGGCATCAAGACTATAAGATCCAAGACCTTAACTTTTGTGCTCCTTGTCTTGTGGAGGGAACATCCATCCTCAAAACAGAAACCTGTGAGATCCCTTG
Celera SNP ID:            hCV15868555
SNP Position Genomic:     451277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59985):
GAAGAGATTCTCGTCCGCTCAGTTAAGGTACTCAGACTATTTTCCAACCAATCAAGAGGGTGCTGCTTCATGGAGTTCGTTTAAGCTGAAGCGGCAGCTG
K
TGACTGTCATTTGCATCATCTTTATACATTTACTGTGAATGTCACTGTCCATTTCCACTTTCTTTCTACTTGTCTTCAAATTGATGCTTATCAAGTAGAC
Celera SNP ID:            hCV11510685
SNP Position Genomic:     305096
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59986):
TGGCCAAATTCTGTTTGAAGCACTGTATTGAGCATACCATATGCTGAAAGACTTGGAATGCAAAAACCTAAGGCCAAGGGCACTTCTCAATATTAAACCC
Y
CAGTTGTAATGGAGGCATCAAGACTATAAGATCCAAGACCTTAACTTTTGTGCTCCTTGTCTTGTGGAGGGAACATCCATCCTCAAAACAGAAACCTGTG
Celera SNP ID:            hCV15868556
SNP Position Genomic:     451267
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59987):
TCAAGTGATCCTCCTGCCTTGAGCTCCCGAAGCGCTGGGACCAATAGAGATTTCTCTGAGAATTAGGTCCCCCACTATTAATAAGGTCATTGTCAGCTGA
R
TTGGGGAGGTGGCGTGGGTAGATACAATTAATTTAGATTTTTTAAAAGGCTTTTGAGAATATTCGGAGAACCTAATATATTTTGAGACCTGACATTTATT
Celera SNP ID:            hCV15868557
SNP Position Genomic:     448633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:59988):
GGAGATGTTCTTTGAGATTCGGTGATTGAGTTGTGAACATATGGACTGAGGGTGTTTTGTGGTAAGGCTTGAGTCATGTCTGTAGCAAGGATGTTTCCTG
R
ATAATGTGCACTGAGCATCAAGTGCCTGCAGTGGCCTGGCGGGTAATGCCAGCAGCACGGGTGATGATCATGGTCAACATGACCAACTAGAAAGCCCAAA
Celera SNP ID:            hCV2813420
SNP Position Genomic:     61259
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   afr(A,1)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59989):
AGTCTCACACTTGACATAGTAGGGTTTGACATGGTTTAAATAAAATCTCAACCAGATCAGTGGGAGATGTTCTTTGAGATTCGGTGATTGAGTTGTGAAC
R
TATGGACTGAGGGTGTTTTGTGGTAAGGCTTGAGTCATGTCTGTAGCAAGGATGTTTCCTGGATAATGTGCACTGAGCATCAAGTGCCTGCAGTGGCCTG
Celera SNP ID:            hCV2813421
SNP Position Genomic:     61197
SNP Source:               Celera
Population(Allele,Count): cau(A,5)   afr(G,1)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59990):
TGAGCCTGCTACCCTTGTGCTTCTCTGTCCACGCAAAGCCAAGTGCTACTGCGGGGTTTTCCAAGGCATAGCTAGCATCCTAATAGTCTCACACTTGACA
K
AGTAGGGTTTGACATGGTTTAAATAAAATCTCAACCAGATCAGTGGGAGATGTTCTTTGAGATTCGGTGATTGAGTTGTGAACATATGGACTGAGGGTGT
Celera SNP ID:            hCV2813422
SNP Position Genomic:     61113
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   afr(T,1)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59991):
AAACTTAAACCAGAAGGAACCTTCCTGGCATCGGGGAAAGAAGCTGCCTTTTTCTTAGCTCCTACCTCTGTGGGAGCTTTGTCAGTATTTGAGGGGACAG
R
GTTCCCACCTTCATGTTTTTTGTGCCTGAGGATTCTGTGGGCGACTGTCCCCACCTGTCCAGCCTACCAGTGAGTCTCATGGTGTGCGGCTGCCTGCTCC
Celera SNP ID:            hCV2813424
SNP Position Genomic:     60304
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:59992):
TTAGGCCTATCTTCTTGCTTTATGCATAATGGCAGATCTCCAGGGAGGGAGAGGATGTGTGCTGGAAGATTCTACAACTTGTTGATTGGTTCCTAAAGAT
S
GTTTTAGTGCTATGTTTGTGGGGCGGGGCTGGAGGGGGCTGGAAATCACCATCTCTGTGGCCTTTTAATTGTGCCCAGTTACAAGTAACATTTGTCCCCA
Celera SNP ID:            hCV2813425
SNP Position Genomic:     59942
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,3)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59993):
TATTGATCTAGACTGCCTGCTACTTTCATTTACCATGTTACTGCTCGTGGGATTACAGGCACAAAGGTTTCATAAATTTCAAATGAAATATGAACATTTG
K
TGTCAAAGTACTGTTAAGGTATGAAAACCCTGCTAGTATTAGTTCCCTTTTGTTATTATTCTATTATTATTATTATTATTGTGTTTACATCCACAGGCAA
Celera SNP ID:            hCV11668155
SNP Position Genomic:     602603
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(G,6|T,5)   afr(G,6)   total(G,18|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59994):
CTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAGTGGCGTGAACCCGGGAGGC
R
GAGCTTGAAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAGAGAAAAAAAAAAAAAATTATAACATGGAAA
Celera SNP ID:            hCV2813426
SNP Position Genomic:     58482
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(A,1|G,2)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59995):
TGCCTACCACCATGTTTCTGAGGCCTCCCCAGCCATGTGGAACTGTAAGTCCAGTTAAACCTCTTTTTCTTCCCAGTCTCAGGTATGTCTTTATCAGCAG
Y
GTGAAAACGGACTAATACAGTGAGGAAATCCATGTGTTAGGAAGGGAGTGTGGTTGTACTTCAACCTGGAACTGTCTAACTCCTAAGGTTTTATTAATAT
Celera SNP ID:            hCV11668156
SNP Position Genomic:     599573
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   afr(T,1)   his(C,5)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59996):
TTTAGGAGCTCTGTGCCAGGAACCTGGATGAAGACCCAGTATGTATTTCTTATTATATCACAATATCACAAATCCACAGTCACATGGTGATTGTGGTAGT
K
TGGGGGGCCTGATGGTGGGGTACACCTGCTTGAAGTCAGGCTACCATGCCCATTGGGGTCCTCCCCCTTTTTTGCCCTCTGATCTTGTGAGTTCCTTAAC
Celera SNP ID:            hCV2813427
SNP Position Genomic:     57649
SNP Source:               Celera
Population(Allele,Count): cau(T,4)   afr(G,2)   his(G,2)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59997):
ACCCCATGCCTGGCCAATTTCAAGGATTTTAGGAGCTCTGTGCCAGGAACCTGGATGAAGACCCAGTATGTATTTCTTATTATATCACAATATCACAAAT
S
CACAGTCACATGGTGATTGTGGTAGTGTGGGGGGCCTGATGGTGGGGTACACCTGCTTGAAGTCAGGCTACCATGCCCATTGGGGTCCTCCCCCTTTTTT
Celera SNP ID:            hCV2813428
SNP Position Genomic:     57622
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,2)   afr(C,4)   his(C,4)   total(G,2|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59998):
TCAGCTTCCCAATGTGCTAGGATTACAGGCATGAGACCCCATGCCTGGCCAATTTCAAGGATTTTAGGAGCTCTGTGCCAGGAACCTGGATGAAGACCCA
R
TATGTATTTCTTATTATATCACAATATCACAAATCCACAGTCACATGGTGATTGTGGTAGTGTGGGGGGCCTGATGGTGGGGTACACCTGCTTGAAGTCA
Celera SNP ID:            hCV2813429
SNP Position Genomic:     57587
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   afr(G,2)   his(G,2)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:59999):
GTATTCCAAATAATTGGTGGAAGGATGGAAAGGTTAAATGGAAATTATGTAAGGGCTGCAAAGAGATTCATATATGACTATTTCATGAGTGCTTACTATA
Y
ACCAGGCGCTGTTACAGCCCGTGTAATGCCACCTGGGAGTTGGGGGGAGTCACCATCGTCCATCCGTCTGTCCATCCATCCATCCATCCTGCCTCCCTCC
Celera SNP ID:            hCV2852330
SNP Position Genomic:     676676
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   afr(T,2)   his(T,2)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60000):
CCCATCTCATGTTGACTTAATTTCTCCAGCATTCAGTTAAGACCTAGCCGAAGCATAATTGTCAGCATAGTAGAGCTGGCTCTCCTCTTTCTAATTGCCC
W
GCAGAGTTTTTGGGGAGTCTGTATGCAATTGTGTACACCCCAATGCCCCAAAACCCTCTTCTATTTCCTTTAGCACTCTTGAGCTGAAGAAGCCCCACTC
Celera SNP ID:            hCV2852331
SNP Position Genomic:     671298
SNP Source:               Celera
Population(Allele,Count): chn(T,7)   cau(T,7)   his(A,1)   total(A,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60001):
GGGTCCCTCCCACAACATGTGGGAATTATGGGAGCTACAATTCAATATGAGATTTGGATGGGGACACAGCCAAACCATATCACAGGATAGTTCCCCATAT
S
AAGGTCCTTAACTTAATCACACTTGCATTTGATTTTATCATGCAAGGTAGCATACTCACAGGTGGGATTAGGACTTAGACACCTTCAGCAAGAAACATTA
Celera SNP ID:            hCV2852332
SNP Position Genomic:     667846
SNP Source:               Celera
Population(Allele,Count): cau(C,9)   afr(G,1)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60002):
CTCACTTTCGCCATTTAATAGCTTTGGGTCTACAAGTAACCACCCCAGATTTTTCTCCTCCTCTATGCACCAGTCATATCAAGAATTACTGTAACTTCAT
W
GGATTTTTGTCAGGACGCTATGATGAGAAGAACATATGCCAAGGAGACAGTTTTCTGGCAAATCAGAGGCCTGTAAGAAATGATGGCTTTTTGCTTGTAT
Celera SNP ID:            hCV2852333
SNP Position Genomic:     663349
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,3)   afr(A,2)      total(A,2|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60003):
CTTTGAGGGTCCTCAAAATAGAAGGTCAGAGAGTAGACTTTTAAAAGTCTTGCACTGTTTACAAGTCAGATGCTTTTTGGCAGAGTGACTCTCAGCTCCC
Y
CCAACAATCCCTTCTTGTCGTTCAGTAGTAGATAGACTCTATCAGGGAAAAATAGGAGAAATAAAATAAGACAGCATATGGAAGGCATTGCTGAAAGTCT
Celera SNP ID:            hCV2852334
SNP Position Genomic:     657442
SNP Source:               Celera
Population(Allele,Count): cau(T,4)   afr(C,2)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60004):
CCTCTGCAGTTATTTTTCATGCACACTCGGATTACACTGCTCGGTGATATTACATCTGCATGCGTCTTGCCCTCTGACACGGCAAACACAGATGCTGCCC
R
AATCCTTGTAAAGCCATATATCTTAAGTAGGAAGGAGCATCTTTGCAGGGGAGGTGAATTGATTTGCAAAGCAGCCTGACACATGGTCTCTTATTTCTCC
Celera SNP ID:            hCV2852335
SNP Position Genomic:     656273
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60005):
AAATTTTCATAGACATCCACCCCCTCACTGCCACACCCCCTCATAGATTTCTTCTTTTCCTCCTCCTTCTCCTCCTCCCTCTTCCTCCTCTTTTTCCCCC
M
CCTTCAAATAGTTCCAAGACCAGAGTTGAGGGTGGGTGGGTAGAGGGCTAGTTTACAGATAAAATGGTTGGTGTAGATCATCTAGTTTGGAAAAAGCACA
Celera SNP ID:            hCV2852336
SNP Position Genomic:     653222
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60006):
TACCCCTGATTGGTTGCTTTCCACGACCATTCAGCCGTTTGCATAGGAGCTGTAACTTTGTAACTTCGCTTCACCCTCTGATTGGTTGCTTTTCACAACC
W
ATCAGACATTTGCATAGGAGTGTAACTTCTTTCCACAACCAATCTGACTGATTGTGGGCCATTACTTCATTTCCATGAGGTGTACACCAAGTGGCCAATG
Celera SNP ID:            hCV2852337
SNP Position Genomic:     651207
SNP Source:               Celera
Population(Allele,Count): chn(T,6)   cau(T,6)   afr(A,1)   total(A,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60007):
TAGGGTCTGGTCAAGGAAAGGGCCACTTCCTGGGCCTCCCAAAAAGAGGAAGGAGAAGGCCCTGGCTTGTGGAAGAGTAAGAGGGGCCTCGTTAATGTCT
M
CCAAGCACAGTACCCCAACTCCCCACATACAGTCCCAACCCTTACTGCAGCCGGGAGGTTAGGTGTCTGCCGTGCTCATGAACAGGAAGTGAACCCGATC
Celera SNP ID:            hCV2852338
SNP Position Genomic:     650431
SNP Source:               Celera
Population(Allele,Count): cau(C,3)   his(A,1)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60008):
ATTTGAAAAAAAAAAAAAGTCACCAAGTTGTTTCCAATTGTTTTTGTAAATTTGCTTAGTCATTTTCAGAGACAAAAATTTGGGAAAAGGATTGTAGAAT
S
ACTGGCTTCCCAAAACCACTTGGTGTTTACAAAGTTATCAAAAACGGGCTGGGACCACTGATGGTAATAACAAAACCTGGGGCCCTGAATCGTGTATTCT
Celera SNP ID:            hCV15967194
SNP Position Genomic:     803723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60009):
GGGAATTCCTGGGGTAAAGTATCACTTTTCTGGGGCTGGGCTAGGCATAGGTCTCTTTGCTTTCTGGTGGTGGCCTGTTTGAAAGTAAAAACCTGGTTGG
Y
GTGTAGGTTCCGTATCTCCCTGGAGAAGCACCAGCAATTCTCTTTCTTTTACTGTTATAGAATAGCCTGAGGTCCCCTCGTCCCATCCAGCTACCACCAC
Celera SNP ID:            hCV15880601
SNP Position Genomic:     1119515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60010):
CATGTAGATTGTACATCGTTTGTCGATAAATCAGTGTACAAATACTAGGGGTGAGTGTGCTCAAAACTTATTTTTACTGATAATAGTCCATGATCAAGGC
R
GTTTGGAGACCACTCAGGACAGGGAAAACGCAGACTCATGTGACCCATCAGGGCTTCAGGGTGTCCTCTGGTGAAGGGCAGCAGCAGGACAGAGCCCCAC
Celera SNP ID:            hCV2852339
SNP Position Genomic:     649715
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(G,2)   his(G,2)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60011):
AGTGTGCTGAATCATGTTTTAAACATAATTATATCCGGAATGCACTTACCCATTTGAAAAAAAAAAAAAGTCACCAAGTTGTTTCCAATTGTTTTTGTAA
R
TTTGCTTAGTCATTTTCAGAGACAAAAATTTGGGAAAAGGATTGTAGAATGACTGGCTTCCCAAAACCACTTGGTGTTTACAAAGTTATCAAAAACGGGC
Celera SNP ID:            hCV15967195
SNP Position Genomic:     803672
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60012):
TACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGATTTCACCATGTTGGCCATATTGGTCTTGAACTCCTGACCTCAAGTGATCCTCCC
R
CCTCAGCTGCCCAGGGTGCTGGGATCACAGGCGTGAGCCACCGTGCGCGACCTCAGGGTCCCTTCTAACCTGTGCTGTTGTCATAAACCCTGGAGGAGAA
Celera SNP ID:            hCV15911980
SNP Position Genomic:     414589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60013):
AGGATCCTAAAGAGAAGATGTAATTATAAGATCTAAAACGTGGAGGGGGGTGGTGAATTCAGCCTGCAGGCATGTGTTTGCTGCCCCCACCCCCACATCC
Y
CTTTTTTTAAAGTTCGCATAAAAACCTGGATTCTTGGTTTCTCTTAAAAAACTGGAAGGTCTGGCACCTTTGCTCCCACATTTCCCGGGCGCAGCCCTTG
Celera SNP ID:            hCV11935330
SNP Position Genomic:     182687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60014):
AAGCAGGGAATTCCTGGGGTAAAGTATCACTTTTCTGGGGCTGGGCTAGGCATAGGTCTCTTTGCTTTCTGGTGGTGGCCTGTTTGAAAGTAAAAACCTG
S
TTGGCGTGTAGGTTCCGTATCTCCCTGGAGAAGCACCAGCAATTCTCTTTCTTTTACTGTTATAGAATAGCCTGAGGTCCCCTCGTCCCATCCAGCTACC
Celera SNP ID:            hCV15880602
SNP Position Genomic:     1119510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60015):
AAGTGTGCTGAATCATGTTTTAAACATAATTATATCCGGAATGCACTTACCCATTTGAAAAAAAAAAAAAGTCACCAAGTTGTTTCCAATTGTTTTTGTA
R
ATTTGCTTAGTCATTTTCAGAGACAAAAATTTGGGAAAAGGATTGTAGAATGACTGGCTTCCCAAAACCACTTGGTGTTTACAAAGTTATCAAAAACGGG
Celera SNP ID:            hCV15967196
SNP Position Genomic:     803671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60016):
CCTACCCAAGGTCTGGTCATTGCTATACTTGAGTTCTTTTCAGGCTCAAGATCTCTACCTTTTTGTGTTTTTTTTTTTTTTGTACAGAGTCTTGCTCTGT
Y
GTCCAGGCTGTAGTGCAGTGGAACAATCTCTGTATGCTCCCTGCAACCTCTGGCTCCAGGTTTAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGA
Celera SNP ID:            hCV15911981
SNP Position Genomic:     414376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60017):
CTGTCAAACAACACAGTCCCCATCTGTACTTTGGGAGGGAAGGACTTCTTAATTCCAGCTGCCTGTTGCCATGGGGGAACATAGACCCAGAACTGCCATC
Y
TTTCTAATTTTTTTAAAAATTAAAAGGCTAAAAGTTTTGGCTTATAAAAATGGTATTTCCTGAGTTTTTACAATTATAGTATTAAGATATTCCTAGGTTT
Celera SNP ID:            hCV11935331
SNP Position Genomic:     243895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60018):
GTCCCAGCCAGTGAGGATGACAGTGACACCCAGAGGGAGTAGAATACGCAGAACTACCAGGTGGCAAAGTACTTGTCATAGACTCCTTTGCTAATGCTAT
R
CAAAAAATTCTTTAGAGATTATAACAAATTTTTCAAATCATTCCTTAGATACCTTGAAAGGCAGGAAGGGAAGCGTATATACTTAAGAATACACAGGATA
Celera SNP ID:            hCV2851394
SNP Position Genomic:     1119877
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): cau(A,3|G,2)      total(G,2|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:60019):
CCCACCTCAGCCTGAGTAGATGGGACTACAGGCATGTGTCACCATGCCAGGCTAATGTTTAAAAATTTTTCTTAGAGGTAGAGCCTCACTTTGCTGCCTA
R
GCTGATCTAGAACTCCTGGCTTCAAGTGATCCTCCTGCCTTGAGCTCCCGAAGCGCTGGGACCAATAGAGATTTCTCTGAGAATTAGGTCCCCCACTATT
Celera SNP ID:            hCV15868564
SNP Position Genomic:     448511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60020):
TGCTGGGAATGCGTTCATTTTCTTTATCTTGCCATTACTGTACCTCTATTGGGAAATTTACTCTCTCTTCATAGATAGGATCCGATTCAGTACATATTTA
K
AAAACCACACTTACATTTAAATACAGGCCTTTCCCATTTCACAGTGTTTCTAGCTCCCCTTTCCAATACATCTCTCTCTCTCTTTCTCTCTCTCTCTCTC
Celera SNP ID:            hCV15868565
SNP Position Genomic:     447527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60021):
GTTTTCGAGACGAAGTTTCGCTCTCATTTCCCAGGATGGAGTGCAGTGGTGCAATCTCCTCCGCCTCCCAGTTTAAGCCATTCTCCTGCCTCAGCCTCCT
R
AGTAGCTGGGATTACAGGCGCCCGCCACCATGCCCGGCTAATTTTTTGTATTTTTTAGTACAGACGGGGTTTCAGCATGTTGGCCAGGCTGGTCTCAAAC
Celera SNP ID:            hCV11935334
SNP Position Genomic:     244102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60022):
ACCAACTCCATTGTTACTAGATATCCTGACACTGAAGAAGCTAAAACCAAACAACAATGACAACAACAAACCCAAGTCTGCCTTATGGCACATTCTTCAC
R
TCGTAACACCTTCCTTGGGACCCTATTTCTCAGTATGGACCTGACTCTCCCAGGGATCCTAGAATGCAAGCATAGTGATTGCAAACCAGACCATTTGAGG
Celera SNP ID:            hCV2851396
SNP Position Genomic:     1117740
SNP Source:               Celera
Population(Allele,Count): cau(G,1)   his(A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60023):
TGGTGGGGAAGGATGTTGCGGTGGGGTTGGGGTGGCAATGAAAGGTGAAAACCACTGTGGTCCCACCTGCCCATCGTCAGATTTCGGTTCCTCTCAGAGT
Y
AACGTAGAAGGTTTCTGGGGGCATGGACCTGAGTCTTATCCCCTTTGCAAAAGTAAGAATTGTATCGTAGCCTGACTCAGGGTTTTAGCCAACTTCTCTG
Celera SNP ID:            hCV15868566
SNP Position Genomic:     409610
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60024):
CAATGGACGGAGAACTACCATCCCATTTGGGCCAACCTCTTTTTTTTTTTTCTTTTTGTTTCGAGATGGAGTCTCGCTCTGTCACCAGGCTGGAGTGCAG
Y
GGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCCGAGTTCAAGCTATTCTTCTGTCTCAGCCTCCTGAGTAGCTGTGATTACAGGTGCGTGACACCACA
Celera SNP ID:            hCV11935335
SNP Position Genomic:     274889
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60025):
CGCCCAGAGTCGTATCACTTGACTGCATTTGACCATTCAGTTTTCAGACCAACTCCATTGTTACTAGATATCCTGACACTGAAGAAGCTAAAACCAAACA
R
CAATGACAACAACAAACCCAAGTCTGCCTTATGGCACATTCTTCACGTCGTAACACCTTCCTTGGGACCCTATTTCTCAGTATGGACCTGACTCTCCCAG
Celera SNP ID:            hCV2851397
SNP Position Genomic:     1117693
SNP Source:               Celera
Population(Allele,Count): cau(A,1)   his(G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60026):
AGGATCGCTTGCATCCAGGAGGTTGAGGCTGCAGTGAGCCATGACTGTGGCACTGCACTTCAACGTGGGCAACAGTGTGAGACCCCATCTCCAAAAAAAA
R
AGCAGTATAGTCAGTAAGAAAGAAAACAAACTAACAGTCAATATTGTGGCTGCTCTCAATGTTCTTTAAACGGATCACATTGCCACTTTTTTCTCTTTGT
Celera SNP ID:            hCV11667501
SNP Position Genomic:     993540
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,1)   afr(A,3)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60027):
AGGAATAATAATTCAGTGAAAGGAAATTTGGATGACATGAACTCATTTCCATTAGACTTGAGCCACACAAATCAATGGGAAAAGAAACAGCTGAATCCAG
S
ATAATATCTGGCTATTTGGAGTGGGCATGATAATGGAGGGAGATTGGGGAGGTAACAAACCAGCTACTATTAAGTTCAAGTCATGTCAGTTATTCAAATT
Celera SNP ID:            hCV2851398
SNP Position Genomic:     1117407
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(G,4)   his(C,1)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60028):
TAGTCCCAGCTACTCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGGATCGCTTGCATCCAGGAGGTTGAGGCTGCAGTGAGCCATGACTGTG
S
CACTGCACTTCAACGTGGGCAACAGTGTGAGACCCCATCTCCAAAAAAAAAAGCAGTATAGTCAGTAAGAAAGAAAACAAACTAACAGTCAATATTGTGG
Celera SNP ID:            hCV11667502
SNP Position Genomic:     993489
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60029):
CAGGGTTATTAGGAATAATAATTCAGTGAAAGGAAATTTGGATGACATGAACTCATTTCCATTAGACTTGAGCCACACAAATCAATGGGAAAAGAAACAG
Y
TGAATCCAGGATAATATCTGGCTATTTGGAGTGGGCATGATAATGGAGGGAGATTGGGGAGGTAACAAACCAGCTACTATTAAGTTCAAGTCATGTCAGT
Celera SNP ID:            hCV2851399
SNP Position Genomic:     1117397
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(C,3)   his(T,2)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60030):
CTCAGCCTCTTGAGTAACTGGGACTGCAGGTGCATGGCACTGTGCTCCACAATTTTTTTTTTTTTTTTAGAGATGGGATCTCACTGTGTTGTCCAGGCTG
R
TCTCAAACCCTTGGGTTTAAGTGATCCTCTTGCCTCAGCTTCCCAATGTGCTAGGATTACAGGCATGAGACCCCATGCCTGGCCAATTTCAAGGATTTTA
Celera SNP ID:            hCV2813430
SNP Position Genomic:     57452
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(G,2)   his(G,2)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60031):
GGGGTTGTACTTGGAATGACTGGCCTAGAAAACCCTACAGGTACCATTTAAGCTCCATAGTTCTTCTGTGTGTGTTTCGGATCCCAGGTTCCAAACCTGC
T
CTAAAACTTGTTGCTGCATCTCACCTAATCGTGTAGTGAGCCAGGTGAGCTCATCTGTGAAATGCAGACCTTTCTGGACGTACCACCTCGTGGGGTGAAG
Celera SNP ID:            hCV9661465
SNP Position Genomic:     352637
SNP Source:               Celera
Population(Allele,Count): chn(-,5)   cau(-,5)   his(T,1)   total(T,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60032):
AGAGAGTATTTTGTAACCTGTGACGCTCTTTTCAAGTCTTAGAGAGGAAGTATGGAAAGAGCATGCGCTTTTGACTGAGGAGGTCTTGGGTTTAAAGGTC
R
AATTTTGCCACTTACTTTCTCCATGGCCTTGGTCAACATCCTGAAGTCTCAGGTCCTTGTCTGCCTTTGCTTTGACACGAGATGTTGCCTGCCTCAGGCG
Celera SNP ID:            hCV78326
SNP Position Genomic:     353938
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   his(A,2|G,7)   total(G,14|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60033):
TTCTCCTGCCTCAAGGAGCTGCTTCTAGTGTGTGCTCTTAACCCTAAAGGAAGGAAACACTGTGTCTTCCTCTTCTCTCATACAGAGCCCTTCCCATGAC
M
AATGTGTGGAGTGTTCCCTCCTTTTACGTAATTCTCCAATTTTCTGGACCCCAGCTTGGTGTCCTACAATTCAGTTTTGACACTAACGACCCAGAGTCAG
Celera SNP ID:            hCV2813432
SNP Position Genomic:     56277
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(A,4|C,3)   afr(A,4)   total(A,8|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60034):
TTTTTTTGAGGTGGAATCTCCTCTGTCTCCCAGGCTGGAATGCAGTGGCATTTTCTCGGCTCACTGCAGCCTCCGCCTCCCAAGTTCAAGCCATTCTCCA
R
TCTCAGCCTCCTCAGTGGCTGGGATTACAGGCATGTGCTACTACCCCCGGCAAACTTTTATATTTTTAGTAGAGACAGAGTTTTGCCATGTTCACCAGGC
Celera SNP ID:            hCV78327
SNP Position Genomic:     354388
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   his(A,1|G,5)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60035):
AGAATAGATGGCAAATCCCATGATTTGTATTTGACTGACAGTCAAGACCCTGTGGGGTGTGAGCCTGGTGGGGGCATTCCAGGCTGGTTTCTCCTGCCTC
M
AGGAGCTGCTTCTAGTGTGTGCTCTTAACCCTAAAGGAAGGAAACACTGTGTCTTCCTCTTCTCTCATACAGAGCCCTTCCCATGACAAATGTGTGGAGT
Celera SNP ID:            hCV2813433
SNP Position Genomic:     56189
SNP Source:               Celera
Population(Allele,Count): chn(A,6)   cau(A,6)   afr(C,1)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60036):
CTCCTCTGTCTCCCAGGCTGGAATGCAGTGGCATTTTCTCGGCTCACTGCAGCCTCCGCCTCCCAAGTTCAAGCCATTCTCCAGTCTCAGCCTCCTCAGT
R
GCTGGGATTACAGGCATGTGCTACTACCCCCGGCAAACTTTTATATTTTTAGTAGAGACAGAGTTTTGCCATGTTCACCAGGCTGGACATGAACTTCTGA
Celera SNP ID:            hCV78328
SNP Position Genomic:     354405
SNP Source:               Celera
Population(Allele,Count): cau(G,5)   his(A,1|G,5)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60037):
TATTTGGACCACTTCTCCCTCTTTCCGGACAGCTGCTTAGTAGGTTTAGCTTAAATTATACACATGCCAAGCATGTACACATATGAGAAGCCTATATCTC
R
TAATATCCACAGAGAATAGATGGCAAATCCCATGATTTGTATTTGACTGACAGTCAAGACCCTGTGGGGTGTGAGCCTGGTGGGGGCATTCCAGGCTGGT
Celera SNP ID:            hCV2813434
SNP Position Genomic:     56076
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60038):
TGGCATTTTCTCGGCTCACTGCAGCCTCCGCCTCCCAAGTTCAAGCCATTCTCCAGTCTCAGCCTCCTCAGTGGCTGGGATTACAGGCATGTGCTACTAC
M
CCCGGCAAACTTTTATATTTTTAGTAGAGACAGAGTTTTGCCATGTTCACCAGGCTGGACATGAACTTCTGACCTCAAGGGATCCACCTACCTTGGCCTC
Celera SNP ID:            hCV78329
SNP Position Genomic:     354433
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   his(A,1|C,6)   total(A,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60039):
GAAGAGACCTCAATTCTGTGCCTTGATGGGATTACACCGAAGGGAGCACTGGTAGGCTGTTGATGAAACAGGTGGTATTTGGACCACTTCTCCCTCTTTC
M
GGACAGCTGCTTAGTAGGTTTAGCTTAAATTATACACATGCCAAGCATGTACACATATGAGAAGCCTATATCTCGTAATATCCACAGAGAATAGATGGCA
Celera SNP ID:            hCV2813435
SNP Position Genomic:     56001
SNP Source:               Celera
Population(Allele,Count): cau(A,4|C,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60040):
TTGGTTGTCTTAGTAGATAGGAGTGTGAGTACAGAATTATACGAAGTGAGACCATGGGTGTGTGTGTGCACGTGTGTGCGCATGCCTGTGTGTGTCATTG
S
TTAGTTAACAAAAGGATTGCCCTCTGAAGAACATGAACTTGGGCCAGACAGCACGTGTAGGGGGTGGAATTATGGAGCAATTGTTACTTTCTTGTATTAA
Celera SNP ID:            hCV2813436
SNP Position Genomic:     54692
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,2)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60041):
CGTCCTAATTGTGACTCTGCCTTGCCATTCTATGTTTTATCGGAATACGCAGACATATACTTTATGAGGTTGGGTAATGAAGAGAGAGAGACCCCAATAA
A
CATATTTTCTAAGAGTAATGGTTATCTATAGCTCAGGAACCCTTGGTTAGCACAGCCTCTATTACACAGTACTAGGCAAGCAGTTCATAGCTCAATTAGA
Celera SNP ID:            hCV11668166
SNP Position Genomic:     595040
SNP Source:               Celera
Population(Allele,Count): cau(-,4|A,3)   afr(A,3)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60042):
CTAAATCATAAAGAACCCTGTCTCGAGCAGACGAGAAAGAGTAACGGAGGCCTCAATGGTGAAAGGAAATCCTGTACCAGCTGTGAAAACAATGAGACAC
R
TTCAGTAATAGAATATAGTGTGCTTACAAATTCAGAGTTGGGTTCCCTTCTTCTCTTGAAGTGGCTATAAATTAATTCATCAAAATAAAAAAGGCCAAAC
Celera SNP ID:            hCV2813437
SNP Position Genomic:     54450
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,3)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60043):
AGAGCCAAGGTCAATCTGAATTTTTCTTTTTCTTTCTTCCTTTTTTTTTTTTTTTTTTTTTTTAAAAAAAAAAAGGTGCTTGAATTAGAAAGGTAGCACA
Y
TGTCCACATGGACAGTGCAGGATGGGGCTGGCTTTTTCATTTCTGAGAGCTGGCAATGGAATGAAGGTCTTTTTTTTTTTTCTTAATTTTTCTTTTTTAA
Celera SNP ID:            hCV2813438
SNP Position Genomic:     54097
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60044):
AAAGTAATATACCACTTTTCGCTTTTTTAATGGTGAGAGCCAAGGTCAATCTGAATTTTTCTTTTTCTTTCTTCCTTTTTTTTTTTTTTTTTTTTTTTAA
W
AAAAAAAAGGTGCTTGAATTAGAAAGGTAGCACATTGTCCACATGGACAGTGCAGGATGGGGCTGGCTTTTTCATTTCTGAGAGCTGGCAATGGAATGAA
Celera SNP ID:            hCV2813439
SNP Position Genomic:     54062
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60045):
TTATCTCAACCCATTTAAATGTCTTTTCCTTGCAATGTTTTGTAATATTACATGTAGATTGTACATCGTTTGTCGATAAATCAGTGTACAAATACTAGGG
R
TGAGTGTGCTCAAAACTTATTTTTACTGATAATAGTCCATGATCAAGGCAGTTTGGAGACCACTCAGGACAGGGAAAACGCAGACTCATGTGACCCATCA
Celera SNP ID:            hCV2852340
SNP Position Genomic:     649665
SNP Source:               Celera
Population(Allele,Count): cau(G,4)   afr(A,1)   his(G,4)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60046):
TTCAACCTGGCAACCCTGTGACCTCAGCACTAGGATATGGATAGAAAACATAGTAGCCCCTATTTACCTTTATCTTTTATCTCAACCCATTTAAATGTCT
W
TTCCTTGCAATGTTTTGTAATATTACATGTAGATTGTACATCGTTTGTCGATAAATCAGTGTACAAATACTAGGGGTGAGTGTGCTCAAAACTTATTTTT
Celera SNP ID:            hCV2852341
SNP Position Genomic:     649589
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(A,1)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60047):
TGTTAAAGTAAATTTTAATTTTAGATAAACAATGGATAATTTTTTAGCAAAAGGATGTTCCACATTTAACTGGACATTATCTCTGTCTCTCTCCCTCCTT
M
CCTGCCTCCTATCCTCTCTTCCCACCCCCTACGATGTCTATGTATAGTTTCAACCTGGCAACCCTGTGACCTCAGCACTAGGATATGGATAGAAAACATA
Celera SNP ID:            hCV2852342
SNP Position Genomic:     649440
SNP Source:               Celera
Population(Allele,Count): cau(A,2)   afr(C,1)   total(A,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60048):
AATCTTAGCTAAGATTTATCAGAAATTAAAACTGTATACTTAACTAACCACCTAGATAGGTGCAGGCATATATGAATTCACCGAAATTTGACTCAACTCC
Y
TTGGTTAATTTAAATAAAATAAAAGTAAATAAGGGGAAATTGCATACTCCTATCTGGACTGTTTTCTTATGGTTTTGGAATCTCTGGCAGGTAGAAGTAA
Celera SNP ID:            hCV2852343
SNP Position Genomic:     640170
SNP Source:               Celera
Population(Allele,Count): cau(C,6)   afr(C,6)   his(T,1)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60049):
AAAAGTGTAGTGGTTTGTAGGGTCATCCCCCTAAAGATATCCCGCCCCACCAAAGATATCCCTAAAGACATCCTGCTGGTTTCAGTGGCTCATGCCTGCA
W
TCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACTTGAGCTCAGGAATTCGAGACCAGCCTGGCCAACATGGTGAAACCTTATCCGTAAAAAAAATAA
Celera SNP ID:            hCV2852344
SNP Position Genomic:     636541
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,3)   afr(T,1)      total(A,3|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60050):
GGTATGTCACTTAAACCTTGTGTTGGAGTTTCCTCCTTGTTACATGGAGGTCACAAGAATAACAAACTATGCATAGATCACCTAATTTAGTCATTCCAAC
K
GTGTGGAGAGATAGAGGATTAGGATGGACTTTATTTCCTAAGTGAGAAACGTTGGCTTTAGTAAAAGTGTAGTGGTTTGTAGGGTCATCCCCCTAAAGAT
Celera SNP ID:            hCV2852345
SNP Position Genomic:     636378
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,3)   afr(T,1)      total(G,3|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60051):
TGTGGGGAGGACTTTGGACTTGGGGATTGGACTCCATGGGAGAGGTCAGCTCCTTGTCTCCCTGGTGGTGAGACAGGGAATGGTAGAGTGTGTCCTACCT
R
TGTGCCTGCCTTGCTCTACATCAGTGCTTCTTGGATATTTTGGTATCAGGACTCTAAACTCTTAGTAGTTATCCAGGACCCAAAATAGCATTTGTTTATC
Celera SNP ID:            hCV2852346
SNP Position Genomic:     635268
SNP Source:               Celera
Population(Allele,Count): cau(A,1)   afr(G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60052):
CTGTAGTTCATGAAACATTCCCTTCGATTCTTTGAACTCTCTCATACCTTTCCCTTAAATTCTTCTTTTTCCCTTATGTCAAGCTTCTTTCAGTAACAAC
W
GAAAGGCTAATAGTAGTGCTGTGTGGGGAGGACTTTGGACTTGGGGATTGGACTCCATGGGAGAGGTCAGCTCCTTGTCTCCCTGGTGGTGAGACAGGGA
Celera SNP ID:            hCV2852347
SNP Position Genomic:     635146
SNP Source:               Celera
Population(Allele,Count): cau(T,1)   afr(A,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60053):
TCCAGTCCGTGGGGGCCCTGGTGCTACTGCTGTAGTTCATGAAACATTCCCTTCGATTCTTTGAACTCTCTCATACCTTTCCCTTAAATTCTTCTTTTTC
S
CTTATGTCAAGCTTCTTTCAGTAACAACTGAAAGGCTAATAGTAGTGCTGTGTGGGGAGGACTTTGGACTTGGGGATTGGACTCCATGGGAGAGGTCAGC
Celera SNP ID:            hCV2852348
SNP Position Genomic:     635117
SNP Source:               Celera
Population(Allele,Count): cau(C,2)   afr(G,1)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60054):
TAGGGAGGCTGAGGCAGGAGAATCACTTCAACCCGGAAGGCGGAGGTTTCAGTGAGCTGAGATCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAGC
R
AAACAAAACAAATGAGGGTCCTCATCAGCGTGCCTTTGACACTGTCCTCTGGTCCTGGTGATCTGAATACATCACCACAGAACTGCCAGGGTACGTGTTT
Celera SNP ID:            hCV2852349
SNP Position Genomic:     634843
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,2)   afr(A,1)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60055):
TGCAGGCTTAAGGCTGGAAGAAACCCCAAGCATTTGGCCAGGAAGAGGCAACTAGTTCCAGCTGGCCCACATACTACACTTTAAAAATTACCCAGATGAT
S
TGATTCTGTAGAGAGAGAGTGGGTGGAGAGGACTCCAGGGCCATGGAGGAAGATTCGGCCTTTCTCTCCCTAATCATGAGCAATGTGATTTGGAGAGAGA
Celera SNP ID:            hCV15911991
SNP Position Genomic:     413472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60056):
TTGAAGGTGACAGAGACTGAGAAAGGGCTGCACACCTTTGGCCTAAAGGGTAATGAGCAACACACAAGGATTGGGAGATGTTCATGGCAAGAAAAATTCA
S
AAGGGACATTGTTGTTTCACTAATTCTGTAAAGGAGAGCAGCGGCATTTACTTAGGCCGATTCCCCATTCTCTCTTTCTGTTTTTAAACAGAGACAGATC
Celera SNP ID:            hCV15868573
SNP Position Genomic:     406251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60057):
CTTCAAAGATACAAAGCTAGAAACTACAAAACTAGGCATGGTTAATAAATAACTGAAATACCAGGTGTATAGAAATGCATCTGTGGAAAAATGAAATCAT
R
TATTCTCTAGGATATATTAGGAAATGGCTCTTTGGCAAGTCTAGAGGGTAAAGTATCCCTGAAGGGGGAAAAGGTTTAAAAACAGTAAACTAAAGAAGAT
Celera SNP ID:            hCV15911992
SNP Position Genomic:     411864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60058):
TCTTTCCCCCTCAACTTCCATAGGAACCAAACTCTCTTTCTTCCTCCCGTTTGGTTGGAAAGTTATTTTGCCTCACTGCGTGATTTTTCTACTGCACCAA
Y
TCCCCTTTCAAACGTTATTCCACAACATACTAAATTAATGTATACTGTGTTCTTTGGGTAATGGGGAGGGGAGCCTGTCTCACAGCACGCATTTGTTCAG
Celera SNP ID:            hCV15868574
SNP Position Genomic:     393129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60059):
TAGTTCAAATAATACATATGCTGAAATTCCTATATCCCCCCCATACTCCAGATCTTCAGTGTGGAATTTAAATATAATTCCTTATTGTAAAAAAAAAAAA
W
TTTTTTTTGATCAAGGTGATTTTGATAAACTAAATGCATCTTTAATTTTACTCACAGCAAAGCGATTCTTTATTTTCTCTCTAAAAGCATAATTGATGTG
Celera SNP ID:            hCV15911993
SNP Position Genomic:     411108
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60060):
ACTAGGAATTGAAATGGCCTGAAGCTGAGTTTCCACTCTTGTGAAGGCTGGACTGTCTCTTGTTATTACAGCGAGGGTATAACTCTTTAGGATCCCGACC
M
AAGGTTTGGTGTGTTTACCGTGGCCCTTTCCTGGTGGGTCCTGAGCTCAAATTTATGTCTTTTTCCTTGTTATAAAATTGCCAAAAGCTCAGCCCATCTT
Celera SNP ID:            hCV2398331
SNP Position Genomic:     69747
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60061):
CCTTTTGACTCCCTAAGGAACCCTGTTTTGGGTTTCTTTTGAGGTTGAAGATATTTCAGACTCTTTCCCCCTCAACTTCCATAGGAACCAAACTCTCTTT
M
TTCCTCCCGTTTGGTTGGAAAGTTATTTTGCCTCACTGCGTGATTTTTCTACTGCACCAACTCCCCTTTCAAACGTTATTCCACAACATACTAAATTAAT
Celera SNP ID:            hCV15868575
SNP Position Genomic:     393068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60062):
ATCATACAATGAGTGGCTTAAATATTTATTCTTACAGTTCTAGAGGCTGGAAGTCCGAGACGAGGGTGCCAACCTTGTTGAGTTCTTAGTGAGGTCCCTC
Y
TTCTGGTTTTTAAGTAGCCTGTTTCTTGCTGTGTCCTCATATGGTGGAGAGCTGAGAGGAATTGAGAGAGAGAGAGAGAGAGGTCGCACTGTCTCATGTG
Celera SNP ID:            hCV2398333
SNP Position Genomic:     80245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60063):
GTGTTATTACAGGGTAGAAATTCACCTATGTCAAGTAGGCATTATACCAGGTAACAATCTCAAGACTCAGCAGGGAAGGATCCACTTGCAAGCCCACGTG
S
TTGCTGGTAGGACTCAGTTCCTTATGGCCCAGTGGATTGAAGGCTTCCTTTCCTGCCTGGTGTTTGGTTCCTTGCCACGTAGGGATCTCCATCATGGCTG
Celera SNP ID:            hCV78330
SNP Position Genomic:     356731
SNP Source:               Celera
Population(Allele,Count): chn(C,10)   cau(C,10)   his(G,1)   total(G,1|C,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60064):
AACAGTCAGAGTGTCCAAGTAATCTGAGCTAGAAAGTTCCTTCTTTCAGAGAAAAGTTATAAAAAGTATATTTGCCGGATCCAAAAAAAATACTGTGTAT
S
AACTACTGAGACCTGCATAATGTTTTCTTAGTATTCTCACTCTTTAAAAGAAAAAAGAAAACCTGTAAAATTTGGGAACTTAAACTTTTTTTGATATTTT
Celera SNP ID:            hCV78331
SNP Position Genomic:     358150
SNP Source:               Celera
Population(Allele,Count): chn(C,8)   cau(C,8)   afr(C,8)   his(G,1)   total(G,1|C,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60065):
GCGTCCAGGACTAAAGTCATGTGCAATTTAACAAGATCTTGGTGAGATAAAGGAAGTTGCGCTTGAGGAAACATTGAAACACACCAGATGGAATTTTCCA
R
TTCCCTCCTACATGATAGAGACTAGGTGAAGGGAGATAGACCACAAATTGATTTTGTGTAACTCTTAAATTAAGTGGAGCAGAGTTAAAAAAAAAAAATC
Celera SNP ID:            hCV2398335
SNP Position Genomic:     126491
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60066):
TTGGTGGGAGGTGTGCAGGACACAGCTGAAACCTTTGGTGTATAGTGGATACTAAAGCAATGCTAGTCTTCTTCGTGTGCTACCAGTTAGAATGAATTTT
R
CTGACATCTTACTGGTTTCTGAGGGTATACAGACACTTATTGTCAAAGATATTATTGATTATCTGATCCCCAAACATATGGAGTTACATCACAGCAGGTG
Celera SNP ID:            hCV78332
SNP Position Genomic:     359353
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   afr(A,1)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60067):
GAAAATCCTTGGGGAGCCGCCATCATTCCTTCCACGAAGGAATGAAATTATAACGTAATGTATTGTTGGAGCCCTTAGTTCAACACTGTCTTTTTTCAGG
Y
CATATTAATGCAATGGTTAGCATATCAACTTCCTTCTGTTTTTAGTGACTCTAATACATTATATTCACCTTGTTCTCTGCATGTTCTTTCTTTAAGTCAT
Celera SNP ID:            hCV78333
SNP Position Genomic:     359583
SNP Source:               Celera
Population(Allele,Count): chn(T,7)   cau(T,7)   afr(C,1)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60068):
GGGAGCCGCCATCATTCCTTCCACGAAGGAATGAAATTATAACGTAATGTATTGTTGGAGCCCTTAGTTCAACACTGTCTTTTTTCAGGTCATATTAATG
S
AATGGTTAGCATATCAACTTCCTTCTGTTTTTAGTGACTCTAATACATTATATTCACCTTGTTCTCTGCATGTTCTTTCTTTAAGTCATGTTAGATCCCT
Celera SNP ID:            hCV78334
SNP Position Genomic:     359594
SNP Source:               Celera
Population(Allele,Count): chn(C,7)   cau(C,7)   afr(G,1)   total(G,1|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60069):
TTATGTTTCCCCAGTTGGCACATCATGGCCAACAAGAGAGTAGGGATCATTAAGGAGTTTATTTTCATCTTTATTTTATCATTTAAAACACATTTTTTTT
T
CCAATGAGAGTACTGATGACATAAAAGGTTATACATTGAATAACCACCCAAATTAGCAGTGTTTCATATTTACACTGTTCAACACAGTTCTCTTGTCTCT
Celera SNP ID:            hCV11668170
SNP Position Genomic:     594537
SNP Source:               Celera
Population(Allele,Count): cau(-,5|T,4)   afr(-,5)   total(T,4|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60070):
ATGCTGATGTAACCATTTCCATTCTGAACTCAGAAAATGGAGATAAATCTCTTGCAAGGCTTTTGATTTTAGTTTTTAGATACAGAACCTTTAAAAAAAA
A
GAAAAATAAACGTTTTGCCACAGTGTAGTATATACAACAGATGTGAGGGAAGGACATTGTTTTAAGTGGGAAACGTCAGCTCTCTCAACTTCTACACATT
Celera SNP ID:            hCV11667514
SNP Position Genomic:     982346
SNP Source:               Celera
Population(Allele,Count): cau(-,4|A,2)   his(A,2)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60071):
CAAAGTAATATACCACTTTTCGCTTTTTTAATGGTGAGAGCCAAGGTCAATCTGAATTTTTCTTTTTCTTTCTTCCTTTTTTTTTTTTTTTTTTTTTTTA
W
AAAAAAAAAGGTGCTTGAATTAGAAAGGTAGCACATTGTCCACATGGACAGTGCAGGATGGGGCTGGCTTTTTCATTTCTGAGAGCTGGCAATGGAATGA
Celera SNP ID:            hCV2813440
SNP Position Genomic:     54061
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60072):
TGAAGTACAGGCATATCCCACAGAATCTCTTAATACCAGGCCAAAAGTAACTTTATCTTGATCTGTAGTTCGGACATATTTCTTGGATTGTCCGCACTCA
W
AAAAAGAGATTGCGTAACACCCTTTGAACAAATGGATATTTGAGAACCATCCTGTCTTCAGATTTAGATTTTTTCAATTTTTTTTTACTGTCATATGATT
Celera SNP ID:            hCV78335
SNP Position Genomic:     359839
SNP Source:               Celera
Population(Allele,Count): chn(T,7)   cau(T,7)   afr(A,1)   total(A,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60073):
GCAAAGTAATATACCACTTTTCGCTTTTTTAATGGTGAGAGCCAAGGTCAATCTGAATTTTTCTTTTTCTTTCTTCCTTTTTTTTTTTTTTTTTTTTTTT
W
AAAAAAAAAAGGTGCTTGAATTAGAAAGGTAGCACATTGTCCACATGGACAGTGCAGGATGGGGCTGGCTTTTTCATTTCTGAGAGCTGGCAATGGAATG
Celera SNP ID:            hCV2813441
SNP Position Genomic:     54060
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60074):
ACATTTGGGAAATTTGTAAAGCCTTACTTTGAATGTCTTTTTCTTCACTCTATCTGTATTGTTTGGTGCTTTCTATATAAATTTATAAATTGGATGTACC
K
CCACAGATGTCGGTTTTCTGGTAATAATACTTTTTTACATTAAAAAAAACTCCTGAAATGAAAATGTAACTTAGTCTTATTATTGTAATCTCCCCTTGCC
Celera SNP ID:            hCV2398339
SNP Position Genomic:     203740
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60075):
TTAGTCTTTTCAAGAGGCAAAGTAATATACCACTTTTCGCTTTTTTAATGGTGAGAGCCAAGGTCAATCTGAATTTTTCTTTTTCTTTCTTCCTTTTTTT
G
TTTTTTTTTTTTTTTAAAAAAAAAAAGGTGCTTGAATTAGAAAGGTAGCACATTGTCCACATGGACAGTGCAGGATGGGGCTGGCTTTTTCATTTCTGAG
Celera SNP ID:            hCV2813442
SNP Position Genomic:     54044
SNP Source:               Celera
Population(Allele,Count): cau(-,1|G,2)   total(G,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60076):
CATTATGGTACATAAAAGAGCTTTCTATCGCTTTTTTACATTATAGTAGTTATTCGTTATTATTATTATTATTATTATTATTATTATTATTATTATTATT
T
CTGAGACACCGTTTTACTCTCTCTTTGCCCAGGCTGGAGTGAAATGGCACGATCGCAGCTCACTGCGACCTCCACCTCTTGGGTTCAAGTGGTTCTTCTG
Celera SNP ID:            hCV11667517
SNP Position Genomic:     980647
SNP Source:               Celera
Population(Allele,Count): cau(-,7|T,1)   his(-,7)   total(T,1|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60077):
AATGTCCGGTTTGGAGTTGGAGGAGTCATTGATTTTAGGCAAGGTGATGGTGAGCCCACAGAGCACAGAGTTAATGGAACTCTGGCCGTTGATGTAGCTT
Y
GAAGCCTGAATTTAAGTCATATTTTTGAAAAGTTGCGTCTTAAAAAGTTACTAGCGATGGAGAATGAAAAGTCAATTTGGACACTTTAAAAGTGAGCCTC
Celera SNP ID:            hCV2813444
SNP Position Genomic:     53774
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60078):
ACAGTCGTGATTTAGGGCATGAAGAGCTCACTCATCAAGATGTATGTAATTCAGATTTTCTGAGTGTTTAATTCGGCGTCTTTGGTCACAAGGAACAGAG
K
TTTACTTGTGCCACCTCTTCTAAGAAAAAGGTTTACTGTAAGAGATAATGTTGGCAAGCTGAGGAAAGGAGGCAGTTTTGGGTAACTGTCTCTTGCGATC
Celera SNP ID:            hCV11668174
SNP Position Genomic:     591310
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(G,1)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60079):
ATCTAAGATAGTGATCTGGTTACATAGATTATCAGAGATACTTTTTTTTTTGATTATCAGAGATACTTTTAAAAAAGCAACTACAAGGTAAGGATTATCC
K
TTAATTTAGTGTTTTTCTATTAAACTCAATTTGCTTTAAAGTTTTTTACATTTTGCCTCTTTTTTGTATGTTTGAGTACCACTTCCTAACCAATCACAAT
Celera SNP ID:            hCV2813445
SNP Position Genomic:     53572
SNP Source:               Celera
Population(Allele,Count): cau(G,4|T,1)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60080):
TACAGGCACGAGCTGCCACGCCTCACCTCTTGTTTTCAATACCATTGATAAGTTGTGGTCTTCAGGGACTTGTGGGCATTTTCAAGTTAAATATCCAACA
K
TCGTGATTTAGGGCATGAAGAGCTCACTCATCAAGATGTATGTAATTCAGATTTTCTGAGTGTTTAATTCGGCGTCTTTGGTCACAAGGAACAGAGTTTT
Celera SNP ID:            hCV11668175
SNP Position Genomic:     591213
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   afr(G,3|T,1)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60081):
AAGTCTCGCTTTGTTGCCTAGGCTGGTCTTGAACTCCTGGGTTCACGTGATCCTCCTGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGCACGAGCTGCC
R
CGCCTCACCTCTTGTTTTCAATACCATTGATAAGTTGTGGTCTTCAGGGACTTGTGGGCATTTTCAAGTTAAATATCCAACAGTCGTGATTTAGGGCATG
Celera SNP ID:            hCV11668176
SNP Position Genomic:     591130
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   afr(A,3|G,1)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60082):
AAGAAAACTCACAGAAGCAGAAACTTAGGGCTTGCTTTAAATGTTATCAGTGTGAATTGAGATGGTGTCAGCATTATTTTTTTAAAGACCAAAACAACAA
K
AGTAACAAACACACACAAGCCACTGTTAGATTTTACAAAACTTTAAAAAGTAATTATCTTAAAGATATCTAAGATAGTGATCTGGTTACATAGATTATCA
Celera SNP ID:            hCV2813447
SNP Position Genomic:     53405
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,1)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60083):
TCGCAATGATTCGGTGTGTTTTGTTCCGTGCATCCTGGCATGTGAAAGAAGTGAGGTAAAGAGTATAATTTACTTCCTTGTTTTAAAGCTAGCATTGCCC
R
TGCCTTCCACGCGGGACTGTTGTGGATATTTGACCACTGCAAGAAAACTCACAGAAGCAGAAACTTAGGGCTTGCTTTAAATGTTATCAGTGTGAATTGA
Celera SNP ID:            hCV2813448
SNP Position Genomic:     53264
SNP Source:               Celera
Population(Allele,Count): cau(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60084):
AATCACTGAATATGTTATAACCAAAAAGGTCAAACTCGCAATGATTCGGTGTGTTTTGTTCCGTGCATCCTGGCATGTGAAAGAAGTGAGGTAAAGAGTA
Y
AATTTACTTCCTTGTTTTAAAGCTAGCATTGCCCGTGCCTTCCACGCGGGACTGTTGTGGATATTTGACCACTGCAAGAAAACTCACAGAAGCAGAAACT
Celera SNP ID:            hCV2813449
SNP Position Genomic:     53229
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60085):
GTCTCTGTTTTTTTTTTTTTTTTTTTTTTTCCTCTAAATAAACAAAGGAATAGAAGATCCTGTGAAGAGCTGGGTGTGGTGGCTCATGGCTGTAATCTCA
S
CACTTTAGGAGGCCAAGGCAGGAGGATTGCTTGAGCCCAGTAGTTCAAGATCAGTCTGGGCAACATAATGAAAACCTAATGTCTACAAAAAGTATAAAAA
Celera SNP ID:            hCV2852350
SNP Position Genomic:     630218
SNP Source:               Celera
Population(Allele,Count): cau(G,6)   his(C,1)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60086):
GTTTAATTTTTAGGTCTGTATTTAAAAATCTGTGTAGTGACAACAATTATTCTTATTGTATGAACATATTGTCGGCTGGAGAGTATTCAGCTGTCAGACA
M
AGTGTTCTCTAAAGTGTTCAGCCATCAGACAGAAACTCTATTGCTGGTGGCGGGGTTGTGGGCTGGGGGAACCAGAGTATTTGCTCTTCTTTAGAAGTCA
Celera SNP ID:            hCV2852351
SNP Position Genomic:     628879
SNP Source:               Celera
Population(Allele,Count): cau(A,4|C,1)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60087):
TTTTAAGCTACCACACAGATGCAGGAAACTAATATACCCTTTAATGATTTTCTCCATGGCCTTTCTGATAATCCTTTCATCCTTCATCTCCCCTGTCGCC
S
TTTTCTTTGCTTTGCTTGCTTGCTTGTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGTCGCCTAGGCTGGAGTGCAACGGCACAATCTTGGTTCA
Celera SNP ID:            hCV15894381
SNP Position Genomic:     933214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60088):
ACACGAAAACTAAAAACTTATACATCATTTTATATTTTGAAATTCCCAATTTGCAATGTTATTTTTTTTTCTTCTTTTTTTTTTTATGACACTTTTCTTC
Y
GGAAAAAATCCTTAGGACCCAGTTACTCTCTTTCAGGATTTTATATCATAATGTGTCTGTGAGAGACAGAGCCAGATGTTCAGGATTTCAGACCACCATA
Celera SNP ID:            hCV2852353
SNP Position Genomic:     627925
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60089):
ATTGTTTTAAGCTACCACACAGATGCAGGAAACTAATATACCCTTTAATGATTTTCTCCATGGCCTTTCTGATAATCCTTTCATCCTTCATCTCCCCTGT
Y
GCCGTTTTCTTTGCTTTGCTTGCTTGCTTGTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGTCGCCTAGGCTGGAGTGCAACGGCACAATCTTGG
Celera SNP ID:            hCV15894382
SNP Position Genomic:     933210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60090):
ACCATGGCTGAAGGGTTATTCTGGGGAGCCTTCCCTGTGGAAGCCCCATTAACCATCCCTGCTCATTCCTCCCGTGAGACCACCATTTGCTAAATCTTCT
R
TCAGGTGATGTGGGATCCAAGAAGAAACAATAATCAGAAGCTTGCCTTACAGGCATGCACAATTTCGGGTGGACTGTCACATGTGCACTGAAAAAGTCGA
Celera SNP ID:            hCV2852354
SNP Position Genomic:     626792
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,3)   his(A,1)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60091):
GGGGTTTCACCATGTTAGCCAGGATGGTCTTCATCTCCTGACCTCGCGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCA
Y
GCCTGGCCCTGATTTTTAAATTTTTCATGGAGACAGGGTCTCACCTTGTTTTCCAAGCTGATCTCAAAATCCTGGCCTCAAGCAATCCTCTCCTCTGCCT
Celera SNP ID:            hCV15894383
SNP Position Genomic:     932164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60092):
GAATAAAGGCATGGATGTGACTGAGGAGGTAAAGGTGAAGAATTGGGGAGGGGTGGATGGGGCTGACTCATGACCTAAAGAACATGGCATCTGGGGCTCT
Y
TTGAAATAATCTGCACTAACCACTCATTCACATTTTTTTGAGTCTGTAAGATCCCAGGCACTCTTGGTAGCAGGGGGGTTAGGTGGGTGAAGGGACAAGT
Celera SNP ID:            hCV2852355
SNP Position Genomic:     626363
SNP Source:               Celera
Population(Allele,Count): cau(C,7)   afr(T,2)   his(T,2)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60093):
AGACATGAATAAAGGCATGGATGTGACTGAGGAGGTAAAGGTGAAGAATTGGGGAGGGGTGGATGGGGCTGACTCATGACCTAAAGAACATGGCATCTGG
R
GCTCTCTTGAAATAATCTGCACTAACCACTCATTCACATTTTTTTGAGTCTGTAAGATCCCAGGCACTCTTGGTAGCAGGGGGGTTAGGTGGGTGAAGGG
Celera SNP ID:            hCV2852356
SNP Position Genomic:     626357
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   afr(A,2)   his(A,2)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60094):
GTTCCAATGTTTCTGAAGGATGTTTTTTTAAAAGAAGTATTCATTTAGGTGACACATATTTATTGAGACACTAATATATGCCAGGAATTATTCTATTGGT
K
CCTTTGGAGGAGACATGAATAAAGGCATGGATGTGACTGAGGAGGTAAAGGTGAAGAATTGGGGAGGGGTGGATGGGGCTGACTCATGACCTAAAGAACA
Celera SNP ID:            hCV2852357
SNP Position Genomic:     626246
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,5)   afr(T,5)   his(T,5)   total(G,3|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60095):
TGATCACACCACAGCACTCCAGCCTGGCCAACATAGTGAGACACTACCTAGATAGCTTAGGAGAGTTCCAATGTTTCTGAAGGATGTTTTTTTAAAAGAA
R
TATTCATTTAGGTGACACATATTTATTGAGACACTAATATATGCCAGGAATTATTCTATTGGTTCCTTTGGAGGAGACATGAATAAAGGCATGGATGTGA
Celera SNP ID:            hCV2852358
SNP Position Genomic:     626182
SNP Source:               Celera
Population(Allele,Count): cau(G,7)   afr(A,1)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60096):
GTGCAGGTTAGAGGCTATGTCAGAAGCAAGTCAGGATTTGAAGGCAGATCTGTCTGCTTTTGCCCCTCTGTAAATCCAGAGCTGCTGCCTCATTTCTTAC
R
TTGCCCCCACCCGTGCAGCAATTCTTCCTGGGAGGCCTCATTGTTCATATTCATAAAGGGCCCCATTCAGTCTCCTTTTTGGAGAAATGGCCACTGCAAC
Celera SNP ID:            hCV15868582
SNP Position Genomic:     372290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60097):
TGGCCAGGAGACTAGGCATTCATAGTGGGGCGTCCTTTAAGGTCTGAAGAGGACAGTGACCATCCACCACAGGCAAACATGTGTGTGTTAAAAAGGAATG
R
CGTTTTGGTCTGTGCTACAACTGGGATGAACCTCAAACATTACGCTGGACGTGGTGGCTTACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTA
Celera SNP ID:            hCV15894389
SNP Position Genomic:     931028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60098):
CCAAGTTGTGTAAATCAAAGCTTCTCCTGCCACACTAGTGTGTATTAGGCCAGGACTTCATAGTGTGATTCAAATCACCAACTGAATTTTTTTTTCCTTT
Y
CTTCCCCTTTCTGGGGGACTACGTTTTTCATGGAGACCGGGGCCCTCCAGCTGCTGTGATGATCCTCCCTTGCCAGGGAGGTGCTGTTAATAGCAAATGC
Celera SNP ID:            hCV2398342
SNP Position Genomic:     212696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60099):
AGATACAAGAAGGCCACATGTGGTGGTTCACCCCTGTAATCCCAGCAGTCTGTGAGACTGAGGCAGAAGGATTGCTTGAGAAGTTTGAGATTGGCCTGGG
M
AATATAGCAAGATCCCAACCCTATTAAAAAATTAAAAATGAAAATAAAATTTTAAAGAAAGGTATTTCTCCCCTTCACGGTAATTTGGAGCCAGTACTTC
Celera SNP ID:            hCV11668180
SNP Position Genomic:     590124
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2|C,4)      total(A,2|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60100):
TGGTATCCCCAAACAAAATGTTATCAAATGAAGAACTCCTTCCCAGCTCTCCCTTCTGAGTGTCTGATTTTATTCAAGCTCAGATGGCTTCTCAGATAGC
K
TAAAAAGTGATGGAGAATTTCTTTTACCAATTGTATGCCCTGTGGGAACCTGGGTGCTGTAATCACTGAATATGTTATAACCAAAAAGGTCAAACTCGCA
Celera SNP ID:            hCV2813450
SNP Position Genomic:     53068
SNP Source:               Celera
Population(Allele,Count): cau(G,4|T,3)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60101):
TGGTTAGATTACACGTTTCCTGAGAGGTATAGATTTCAAAATTGGTGTATTTCACCCGTCCCTCATCATGGTATCCCCAAACAAAATGTTATCAAATGAA
R
AACTCCTTCCCAGCTCTCCCTTCTGAGTGTCTGATTTTATTCAAGCTCAGATGGCTTCTCAGATAGCGTAAAAAGTGATGGAGAATTTCTTTTACCAATT
Celera SNP ID:            hCV2813451
SNP Position Genomic:     53000
SNP Source:               Celera
Population(Allele,Count): chn(G,6)   cau(A,3|G,6)   his(G,6)   total(G,18|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60102):
TACTCTAGGAAGGAGAATCTCTGTTGGGATCTTTTGGGGAGTACTTGCCTCCCAAGTGCTTAGGCTCCCGCTGCTGACAAGACCCTCTGCCTGGCAAGCC
S
TGCAGGTTGGAATCCTCTGTTAGGGTTCCAAAGCCTTCACCAACTCAGAGCTCTTTCTCTCTCTGTTTCTCTTTTTTGAATTTAAATTGATCCTAGTCAC
Celera SNP ID:            hCV2813452
SNP Position Genomic:     52607
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(C,3|G,4)   total(G,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60103):
GCTGTTTACTCTAGGAAGGAGAATCTCTGTTGGGATCTTTTGGGGAGTACTTGCCTCCCAAGTGCTTAGGCTCCCGCTGCTGACAAGACCCTCTGCCTGG
S
AAGCCGTGCAGGTTGGAATCCTCTGTTAGGGTTCCAAAGCCTTCACCAACTCAGAGCTCTTTCTCTCTCTGTTTCTCTTTTTTGAATTTAAATTGATCCT
Celera SNP ID:            hCV2813453
SNP Position Genomic:     52601
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,5)   cau(C,5|G,2)      total(G,2|C,10) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60104):
TTAATTATGACCATAAAGGCCCCATCTCCAAATGCAGTCATGTTGGGGGTTAGGGCTTCAGTGTATGAGTTTGGGATGGCAGGGGAGCAGTTCAGCTCGT
R
AGAATCGTAAGATTCCTGATCTGTTTCTCTTCCAAGAAATTGTTTGGTTTCATGTTGATTTTATCTCCTTTTCCCTATCTGTCTCAAAGCACTGAAGAAA
Celera SNP ID:            hCV2813454
SNP Position Genomic:     52288
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|G,3)   his(G,3)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60105):
TGTAAATTGTCTAAAATTAAATTTTCTGTGGTTGTCATCCACATGGGTTCTGAACTTGCTGTTATAATTATTCACATTTTCTTGCAGTGAAAATCTACAG
R
TCAAGGTCATCTTCACGTCTTTAGTTCTTGTTTTGCTTCAGGTCAGTTTAGAACCGAATGTTAAAAGGATATTGTCTATTCGAAGGGTCAGATTGTGGCA
Celera SNP ID:            hCV2813456
SNP Position Genomic:     49689
SNP Source:               Celera
Population(Allele,Count): chn(A,2|G,12)   cau(G,12)   his(A,2)   total(G,24|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60106):
TTCTTCCTACCTTCCATATGAGAGAATAGGGAAAATTAAAGAATAAATGTCTCTGGGTTTAATGCAACTTTACTAAGGAATGAAAGTCCGATAAGAATCC
R
TATCTTTTGAAAGAAGATTTTTTAAATTCCTTATTTTTCCTTCCTGCATGGTCATAAAACACACTGGGGACAGCCCACCCTGAGAAGTCACCAGGCATCT
Celera SNP ID:            hCV2813458
SNP Position Genomic:     44957
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,3)   his(A,2)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60107):
CTTACCTCTTTTTAGTTTAATTAAAATTATTTCTCAGATTAAGAGCCATGCTATGATGCTTGCCAACGGATATTTAAAACATGTAACTGATTTGTTTTTT
R
TAATGCTTCAGGAGAACTCAGTTGAGCAGTAAAGATGTGCTCGTGATGTGGTTAGCTCAGAATAAGGATGTGAAAACCAAAAGGGAAAGGAGGACAGGAG
Celera SNP ID:            hCV2813459
SNP Position Genomic:     44716
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(G,3)   afr(A,1)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60108):
TTGCAATAATGTAATTGAAATAATGTAATACAATCCTGCTTAATATTACACTGTATATATTCATTGACTTATAGACTGAGCTCCTTATCTTGTTCATTGC
Y
ATGGCTTTAGCACCTTTTGAACAGTGGTGCTTGGCTTTTGGTAGGTGGTCAACAAATGTGTATTAAGTATATGAACTGTTGGAAGGGTCTGCTGTGAAGG
Celera SNP ID:            hCV2852360
SNP Position Genomic:     624857
SNP Source:               Celera
Population(Allele,Count): chn(T,9)   cau(T,9)   afr(C,1)   his(T,9)   total(C,1|T,27) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60109):
TTAAGCATTGCTAAATTGGAAAACCATGGAATATAGAGATCCAGTAGTTAAGAGCCTACTGGGAGAGACAGCATAATAATTACAATAAGTGCAGAACTTG
M
AATAATGTAATTGAAATAATGTAATACAATCCTGCTTAATATTACACTGTATATATTCATTGACTTATAGACTGAGCTCCTTATCTTGTTCATTGCTATG
Celera SNP ID:            hCV2852361
SNP Position Genomic:     624760
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(C,5)   afr(A,3)   his(A,3)   total(A,9|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60110):
CCCATTAAAGAACACAGCTCATGGTCGGTCCATTAACTACTAATTATCAAAACAGTGGGTGAAAACGATGTTTGGAAATAGCTGCGACTCTCGCGTGATA
S
GAAAATATCTGTGATTTCGATTGCGACAAACACACAGATGCTTCTCACACGATCGCAGTGCATTGCCTAAATGACAGTAATGCTAAACTCCAGTCAGATG
Celera SNP ID:            hCV15894390
SNP Position Genomic:     929055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60111):
GCAGGCTGCCAAGAATAGCAGTTAGAAATAGCTAGTATCAGGCCTGGTGTAGTGGCTCATGCCTGTAATCCCAGTGCTTTGACAGGCTGAGGGAGGAGAA
Y
TGCTTGAGCCCAGGAGATCGAGACCAGCCAGGGTAACATAGGGAGACCCTCATCTCTACACCGAATTTAAAAACTTAGCTGGGCATGGTGGTGCCTACCT
Celera SNP ID:            hCV2852362
SNP Position Genomic:     620472
SNP Source:               Celera
Population(Allele,Count): cau(C,8|T,1)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60112):
TTAGCGAGATATTGTCTCTACTCTCAAGAAACTCGCTTTCTTTGGGAATCATCACCTGTTTTTGTGTCACGGACCCCTTGGGCATTTGGTGCCCTTTGCA
S
AATAATGGTTTTGAATACATAAAACGCACGGGATCACAGAGGAAACCAATCATATTAAAATACAGTTGTCAAAATATTAACTCATGGGATCTAGTAACAA
Celera SNP ID:            hCV15894391
SNP Position Genomic:     928837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60113):
ATTCAAGATTGGAAAATGTTCATGTTAAATTATTGTTGGCCGACTGTGGGTTCATTTAATTAGGTTCTCTGTTTTGGGGTATGTTGAAAATTTTTCATAA
K
AAAATATTATTCAGAGGTCTCAAGAGGCAGGCTGCCAAGAATAGCAGTTAGAAATAGCTAGTATCAGGCCTGGTGTAGTGGCTCATGCCTGTAATCCCAG
Celera SNP ID:            hCV2852363
SNP Position Genomic:     620345
SNP Source:               Celera
Population(Allele,Count): cau(G,6|T,1)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60114):
CTCTTTCTCGATCCTTGCAGTTTCCCTTTTGACCTGTGGGTACACATGGTACTGACGCAATTGGCACCTCAGATGGTTCTTCCTGACAGCTACCCTTGCA
M
CTGACTCAGGATACAAACTACCTTTTTTTTTGGAGACAGATCTCACTTTATCACCCAGTCTGGAGTGTAATTGACGCAATCCTGGCTGGCTGCAGCCTTG
Celera SNP ID:            hCV2852365
SNP Position Genomic:     614211
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,3)   cau(A,6|C,3)   his(C,3)      total(A,6|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60115):
ACATTGAAAACTTATCCAGGAGAGGAAAGGCTCTTTCAGCTGCTCTTTCTCGATCCTTGCAGTTTCCCTTTTGACCTGTGGGTACACATGGTACTGACGC
R
ATTGGCACCTCAGATGGTTCTTCCTGACAGCTACCCTTGCAACTGACTCAGGATACAAACTACCTTTTTTTTTGGAGACAGATCTCACTTTATCACCCAG
Celera SNP ID:            hCV2852366
SNP Position Genomic:     614169
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,3)   cau(A,6|G,3)   his(G,3)      total(G,9|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60116):
GCTCAGCACACTTGGTGCAGTCTCTCTGGCTTGGTAATTGGTCCCAAGAAAATAGTTTTTTTCCAATTATGGCAACATTGAAAACTTATCCAGGAGAGGA
W
AGGCTCTTTCAGCTGCTCTTTCTCGATCCTTGCAGTTTCCCTTTTGACCTGTGGGTACACATGGTACTGACGCAATTGGCACCTCAGATGGTTCTTCCTG
Celera SNP ID:            hCV2852367
SNP Position Genomic:     614095
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,3)   cau(A,7|T,3)   his(T,3)      total(A,7|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60117):
GCAGAGTAAACAGACAACCCGCAGAGTGGGAGAAAATCTATACAAATCTATACGTCTATACAAGGACTAATATCCAGGATCTACATGGAACTCAAATTAG
M
AAGAAAAAAGCTAACAATCCCATCAAAAAGTGGGCTAAGGACATGAATAGACAGTTCTCAAAAGAAGATACACAAATGACCACCATACGTGAAAAAATGC
Celera SNP ID:            hCV2852368
SNP Position Genomic:     604990
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60118):
TTGAGCCTAGGAGGTTGAGAGTGCAGTGAGCCGTGTTGCTGCCACTGTACTCCAGCCTGGGCAACAGGACAAGACCGTGTCTCCAAAAGGAAAAAAATAA
W
AAAGCACTGTCTCTCTCTACCCTTGCAGTATCCCTGTAGGAGAGAGTTACTATTAGCTCCCAGTTTATAGGTGAGTGATATGGTTTGGATGTGTCCCCAC
Celera SNP ID:            hCV2852369
SNP Position Genomic:     599163
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   his(T,2)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60119):
GGTGCTAGGGTAAGGCACGCAGGATGCAAGATTAGCGAGATATTGTCTCTACTCTCAAGAAACTCGCTTTCTTTGGGAATCATCACCTGTTTTTGTGTCA
Y
GGACCCCTTGGGCATTTGGTGCCCTTTGCAGAATAATGGTTTTGAATACATAAAACGCACGGGATCACAGAGGAAACCAATCATATTAAAATACAGTTGT
Celera SNP ID:            hCV15894398
SNP Position Genomic:     928806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60120):
ACATCTTCCCCTTTCTTCTCCCCCAGGTTTGTCCCATTTGTACTGACTCTGACCCAGGTTGTCATGACTTGAGACTCACTAGAAGTTTCAGAAAGATGCA
S
ACTGCTTTAAAAAAAAAAAAAAAGGGCAAGGGGAGGTGTGAGAAGAAAGTATAATTCTTTTTCTTCTAACTGGAGATATAAAAATCATATAAGCATGATT
Celera SNP ID:            hCV15868592
SNP Position Genomic:     433439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60121):
GCAGTAAAATAGTTTTTCAGTCACTTTGCCTTCATTTGTTTGACATTCTTGGAATATTTGGGCTCTACAAGGTGCTAGGGTAAGGCACGCAGGATGCAAG
R
TTAGCGAGATATTGTCTCTACTCTCAAGAAACTCGCTTTCTTTGGGAATCATCACCTGTTTTTGTGTCACGGACCCCTTGGGCATTTGGTGCCCTTTGCA
Celera SNP ID:            hCV15894399
SNP Position Genomic:     928736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60122):
AGGGCCACATCTTCCCCTTTCTTCTCCCCCAGGTTTGTCCCATTTGTACTGACTCTGACCCAGGTTGTCATGACTTGAGACTCACTAGAAGTTTCAGAAA
R
ATGCAGACTGCTTTAAAAAAAAAAAAAAAGGGCAAGGGGAGGTGTGAGAAGAAAGTATAATTCTTTTTCTTCTAACTGGAGATATAAAAATCATATAAGC
Celera SNP ID:            hCV15868599
SNP Position Genomic:     433433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60123):
CCCTCTGATAATCCTGCAAGAGCCAGCCCAGTTTTGCTGACAGCACAGTCTGCTGTTTAATTATTGTGTGTTCAATGACTTACCTCTTTTTAGTTTAATT
R
AAATTATTTCTCAGATTAAGAGCCATGCTATGATGCTTGCCAACGGATATTTAAAACATGTAACTGATTTGTTTTTTATAATGCTTCAGGAGAACTCAGT
Celera SNP ID:            hCV2813460
SNP Position Genomic:     44638
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(G,3)   afr(A,1)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60124):
GACGTCTATGCTTTCCAGCTTGCCAATTCTGGGGCCTGGCACAGTATCTTTCACCCCGGAGTCTCAGTTTCCTCATCTGTAAAATGGGAACCATGACGTC
R
GCATCACAGAGTTGTGAGAATTCGACAAGGTGGAATGAAAGCAACTAGTGTGGTGTCTGACCGCTTGTGTTAGTCCATGAGGAATTTCCTTACGTATTGT
Celera SNP ID:            hCV2813461
SNP Position Genomic:     43772
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,4)   his(A,4)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60125):
ATGCCTATGCTTTTAAAAAATTATTGTGATACAGTGAAACAAGGAAGAACGTGTAGCTGGAAAAATAGTATTTGCTTGTAATATACATTCAGATTCATAA
Y
AGGCTTATTTGATTCCCAGGACAGGGTGAGCAAAGGATGCTGTTTCCTGGGTGTCTGCTTTGGTGTTCATTGAGTCATGTCTCTCTCTTTAGACCTTACT
Celera SNP ID:            hCV2813462
SNP Position Genomic:     42722
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,2)   cau(T,5)   afr(C,2)      total(C,4|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60126):
ATTACTGAAAAAAAAACAAAACAACAACAACAAACAACAAAAAAAACACCTTCCACTAAAACTGACTCAAAAAGATAATAGCAGGGAAAATGACATGTCG
R
TCTGTGATTCCTTTTTTACTTGTCAGTCCTTTTGGGAGTTGAACATATAAGCACATGTACCTCTATGTGACTTTTGAGACGTCTAGAATAGAGAATTCAC
Celera SNP ID:            hCV2813463
SNP Position Genomic:     42139
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60127):
GCCTGAAATAATTTCAAATTAACCCCTGAGGAACAAATGCTCATGACTTTCAATGAATAGAAAAATCAGACTGCTAGAACCTCCAGACTGCATGTCATGC
R
TAGAAGTAGAATCCTGGGGAAGCTAGCTCACAAAAGCAAGGGAGATACCTGCAAGGCTGAGCTGAGCTTGCAAGGGAAGAAAAATATTAGAGAGTTGTCA
Celera SNP ID:            hCV2813464
SNP Position Genomic:     40154
SNP Source:               Celera
Population(Allele,Count): cau(A,4)   his(G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60128):
AGTGGAATCACAGACATGAGCCACCATGCCTGGCCTGAAATAATTTCAAATTAACCCCTGAGGAACAAATGCTCATGACTTTCAATGAATAGAAAAATCA
R
ACTGCTAGAACCTCCAGACTGCATGTCATGCGTAGAAGTAGAATCCTGGGGAAGCTAGCTCACAAAAGCAAGGGAGATACCTGCAAGGCTGAGCTGAGCT
Celera SNP ID:            hCV2813465
SNP Position Genomic:     40122
SNP Source:               Celera
Population(Allele,Count): cau(A,3)   his(G,1)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60129):
GGTCCACCTCCTGGGTAAAGGAGATTCTCCTGCTTCAGCTTCCCAACTAGCTGGGACAACAGGTGTGTGCCACCACGTCCAGCTAATTTTTGTATTTTTA
W
TAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTAACCTCAAGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCTC
Celera SNP ID:            hCV2813466
SNP Position Genomic:     39803
SNP Source:               Celera
Population(Allele,Count): cau(A,4|T,7)   afr(T,7)   his(T,7)   total(A,4|T,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60130):
CAAATTCCAAGCAAACTTTTTACTTCTTATTATGTAAAATGGAAGGGTTAGCCAAATTAAGATCTCACCATCAACCTTGAGGGAGTGACTTCTACATGCC
R
TGTATTACTGGTTATAAAGCTAGTCTTGTTTGGATTGAAGAATTTAATCATATTTAACTTTTCAAAGGATGCTTTTTAAAAAACCTTATCCGCGTGTTAT
Celera SNP ID:            hCV2813467
SNP Position Genomic:     39483
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,6)   afr(G,6)   his(G,6)   total(G,18|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60131):
CATTTTATTTTGTGGGCAGATTTCTTTTACAGTTCTGGCTGGGTTTCTTTTAGTTGGCTTCTTTGCTTTGCTCCTGTTACGACTTAGCCCTGTAGCTCTG
R
GCTCTTCGATTCTCACGTGCTGATGGTGTAGCTGAGCTCTGCTAATGCTGGTTATTAATCTGACAATCTATACCAGGGAGGTTTTATAATTGCCATAATT
Celera SNP ID:            hCV2813468
SNP Position Genomic:     39121
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60132):
AGCTAGTCTGAGTGGCAGCCTTACCCATTTTATTTTGTGGGCAGATTTCTTTTACAGTTCTGGCTGGGTTTCTTTTAGTTGGCTTCTTTGCTTTGCTCCT
R
TTACGACTTAGCCCTGTAGCTCTGGGCTCTTCGATTCTCACGTGCTGATGGTGTAGCTGAGCTCTGCTAATGCTGGTTATTAATCTGACAATCTATACCA
Celera SNP ID:            hCV2813469
SNP Position Genomic:     39096
SNP Source:               Celera
Population(Allele,Count): cau(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60133):
GGTGGTTCACACCTGTAATCTCCACACTTTGGGAGGCTGAAGTAGGCTGAAGTGGGAGGATGGTTAGAGCCTAGGAGTTCGAGACCAGTCTGGGCAACAA
M
GTGAGATCCTGTCTCTACAAAAAATAAAAAAAATTATCTGGGTATAGTGGTGTGCACCTGAAGTCCCAGCTAACTGGGAGTCTGAGGCAAGGAAATTGTT
Celera SNP ID:            hCV2852370
SNP Position Genomic:     598963
SNP Source:               Celera
Population(Allele,Count): cau(A,4|C,4)   his(C,4)   total(A,4|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60134):
GACAAAGGTGACAGAAAGGAAATCTCCTAAGTTGGCCTACAGGGTGCTTTAGAAAACATCTGGCTGGGCATGGTGGTTCACACCTGTAATCTCCACACTT
Y
GGGAGGCTGAAGTAGGCTGAAGTGGGAGGATGGTTAGAGCCTAGGAGTTCGAGACCAGTCTGGGCAACAACGTGAGATCCTGTCTCTACAAAAAATAAAA
Celera SNP ID:            hCV2852371
SNP Position Genomic:     598892
SNP Source:               Celera
Population(Allele,Count): cau(C,3|T,5)   his(T,5)   total(C,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60135):
CTAAGCAGACATACTCGATACATCTTCACTAATGAGTTCTGACTTCATAAAATGTATTAATGACTTCTTTTTGAAAGTAAGAGTGCTTTGAATACCAGTC
R
TTATTGCTTTAGAAGTTCATAAAAGCAAAAGCACAGTATTTCCCCCAGTGTTTGTGCGATAAGAGAATAGATGTAGGTCCAGCGCCTAGAATTTTAGCTA
Celera SNP ID:            hCV2852372
SNP Position Genomic:     598555
SNP Source:               Celera
Population(Allele,Count): cau(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60136):
CAGTGCAGTGATGCAATCTTGGCTCACTGCAACCTCTGCCTCGCAGGCTCAAATGATTCTCCTACCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCC
R
CCCCCATGCCCAGCCAATTTTTGTATTTTTAGTAGAGATGCGGTTTCACCATGTTGACCAGGCTGGTCTCGATCTCCTGACCTCAGGTGATCCATCCATT
Celera SNP ID:            hCV2852373
SNP Position Genomic:     597448
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(A,1|G,3)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60137):
TCTGAGAGCAGGGCCAAGAAAGGGAAAGAGAGAGAGAGGAAAAAAAACAAAAAAGAAAAAGAAAAAAGAGAGGTGGGTAGGGAGGGAGGAGAGACATGGA
Y
CCACGGGGAATGGGAAGAGAAATAGAAATAGGGAATTTGAAATGGAAATAAAACAAAAGGGCAGGAAAGGAAGAAATAAAGAGAATGAGATAAAAGGAAA
Celera SNP ID:            hCV2852374
SNP Position Genomic:     593392
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(C,4|T,2)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60138):
ATCTTCACCTGGGAATGTTCTCCTAATAGTCACTTTTGTTATAAATCTTCACCTAGCATGGGAGTTAAGTGCATTTTAAAACTAGACCTGGGGACTATGT
R
TCCTAAAATGCAAAAATAGCCCCCAAAATGAAAATTAATGTTGAGAATCTAGTCAATCTGCCAGCAGTACGTACATAACTGTTCTGTGTATATTTCACAT
Celera SNP ID:            hCV2852375
SNP Position Genomic:     592955
SNP Source:               Celera
Population(Allele,Count): chn(A,8)   cau(A,8)   afr(G,1)   total(G,1|A,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60139):
GTGAATGGGTTTGGAGCCAACAGGGATAATAGACAACGCTATCAAGAGGGGGGCCAACCACACATGTGCAGCCACTGTATGACGTCTGGATTTTCCTTGA
S
TTATGGTGATCACTATTGGGAGGTGGTAAGCAAACAGGTGACATAATTTGAATCATGGTTTTAAAAGACGCCATGGTTGCCATGAGGAGGACAATGCGTA
Celera SNP ID:            hCV2852377
SNP Position Genomic:     571428
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(C,5)   afr(G,2)   his(C,5)   total(G,4|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60140):
CCTTTCTCAGCATTCCACAAGTTACTTCGTCCTTCCTTTGTTCTCCTCTGCCTTTGCCTCTTTTTTCTTTTTTTATTTTAATTTTTTTTTTTTAATTATA
S
TTTAAGTTTTAGGGTACATGTGCACGTTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGCGCTGCACCCACTAACTCGTCATCTAGCATT
Celera SNP ID:            hCV16163279
SNP Position Genomic:     959502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60141):
GGATTACAGGCGTGAGCCACCACGCCCGGCCTTGATTTTTCTTAACCTTTATTTCCAATTATGCATCTTCTGAGTAACTATAAAGAAAAGCAAAATCTAC
R
GTAGGTATGGAGTGAGTGCAGAGTCACCATCAGCTTGAACAAATGTGTGTATCTGTGGTCAAGTTTAATTGCTTCTTCTGTAATTTATATTAATCACGCT
Celera SNP ID:            hCV2813470
SNP Position Genomic:     38756
SNP Source:               Celera
Population(Allele,Count): cau(A,4|G,1)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60142):
TGGCTAATTTCTTTTGTATTTTTAATAGAGATGAGGTCTTGCTATGTTGCCCATGCTGGTCTTGAACTCGTGGGCTCAAGCAGTCCACTTGCCTCAGCCT
M
CCAAAGTACTGGGATTACAGGTGTGAGCCACCACATCTGGCGAAACTCTGGGTAGTTTCTAATTATTTCTGTATTTCTATTTGTATTTAAAAGTACAGGA
Celera SNP ID:            hCV2813471
SNP Position Genomic:     37833
SNP Source:               Celera
Population(Allele,Count): cau(A,3|C,2)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60143):
GTGTTGTTATGCAGTGTGTGACTGTACCAGCAGCTTGATCTTTGTGCTTCTAGAGAACATTTAAATTGATTCGCTTTTGTGAGACAGGGTCTTGCTCTGT
Y
ACCCAGGCTTCAGTGCATCAGCGTGATCATAGCTCACTGTAGCCTCTCCCTCCTGGGCCAAGTGATCCTCTCACCTCAGCCTCCTGAGTAGCTTGGACTA
Celera SNP ID:            hCV2813472
SNP Position Genomic:     37612
SNP Source:               Celera
Population(Allele,Count): cau(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60144):
AGTAGGAGATATATCTTACTTAAAAAAAAAAAAAACAAACAAACAAAAAAAAAAAACTCCTTCTTCATTTGTTATAGTTCCAGGATAGAGTGTGTACCTG
K
ATAGAGAGAGTCAGGCAGATATAGGTGTGCCCTCCTTCCAAGATGTGTGATGGTGGGCAACTTTCTTTGCATCTCTGAGCCTCTATTTTCTCTATATAAA
Celera SNP ID:            hCV11667546
SNP Position Genomic:     965630
SNP Source:               Celera
Population(Allele,Count): cau(G,3|T,1)   afr(G,3)   his(G,3)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60145):
AGGATGTACTTACAAATCCTACGTGGTATAACCCATTATACACAGAGGCTGTATGGGATAGCCTGTTGCTTCCAGGCTGCAAACTTGTATAGCATGGTAC
Y
GAACTGAATACTATAGGCAGTCATAACACAATGGTAAGTATTTGTGTATCTAAACACAGAAGTGGTACAGTAAAAATACAGTGTTGTAATCTTATGGGAC
Celera SNP ID:            hCV2813473
SNP Position Genomic:     37378
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60146):
GGAGGTGATTAGATCATGAGGGTGGAGCCCTCATAAGTAAGATTTGTGCCCTGATGAGAAGAGGATAGAAAGGTAGCTAACTTTCCTTAAGCTATGTGAA
K
GTGAGAACACAGTGGGAAGGCAGCCATCTGTAACTAGTAGGAGGGCCCTCCCCAAGAACGTGACCATGCTGCCACCTTGACCTTGGACTTTAAGCCTCCA
Celera SNP ID:            hCV2813474
SNP Position Genomic:     36699
SNP Source:               Celera
Population(Allele,Count): cau(G,2|T,8)   afr(T,8)   total(G,2|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60147):
AGAAGGACGTGTTTGCTTCCTCTCCTGCCATGATTGTAAGTTTCCTGAGGTCTCCCCAGCCACGTGGAACTGTGAGTCAATTAAACCTCTTTCCTTTATA
M
ATTTCCCAGTCTTCGATATGTCCTTATAGCAGCATGAAAACAGACTAATACAGGGGCCTCTGGGAGGTGATTAGATCATGAGGGTGGAGCCCTCATAAGT
Celera SNP ID:            hCV2813475
SNP Position Genomic:     36536
SNP Source:               Celera
Population(Allele,Count): cau(A,5|C,1)   afr(A,5)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60148):
GGACATGGTTGTGTCCCCACTGAAATCTCATCTTGAACTATAGTTCCCATGATCCCCATGTCTTGTGGGAGGGACCCGGTGGGAGATAATTGAATCATGC
Y
GTTCTCACGATAATGAGTGAGTTCTCATGAGATCTGATGGTTTTATAAGGGGCTTTCTTCCCTTTTGCTTGGCACTTCTCTTACTGCTGTCATGTGAAGA
Celera SNP ID:            hCV2813476
SNP Position Genomic:     36338
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,4)   afr(T,4)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60149):
TCTTTTTTTTTTTGTCAGACTACTTGCCAGCATACTAAAATCAGGATATTTTACTTAAATGTAGATTTATGACAGTTTTGAAAAATCAGAATGAGTATTG
K
AGACTAAATGTTTATGTCTTCCCCAAAAATTCCTATGTTGAAACCCTAATCTTAAGGTCATGGTATTTGGACATGGTTGTGTCCCCACTGAAATCTCATC
Celera SNP ID:            hCV2813477
SNP Position Genomic:     36169
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(G,1)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60150):
AGTGATTGACTTACCCGAGTGTACACATGTTTGCATCTCACTTGTATGTTCCTTACATGTTTACTTAATTATTGGGAAGGTGTATTAATGTCCTGTTGCT
R
CTATAATGGACCACCACAAACTCGGTGCTTCTATGCTGCAAACCTAAGATTATAGGCAGTCATAACACAGTGTTAAGTATTTGTGTATCTAAACATAGAA
Celera SNP ID:            hCV2813478
SNP Position Genomic:     35718
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(A,2|G,2)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60151):
TTTTGCTGTTACGAGCATGGATTTAGCTCATTTTTACCATCTTCCCTAGTTGTATCACCTTCCTCCCATTATGTTTGTAACTTCAGATTTTGTATATTTC
R
CATATGTCAATATGTAAACATTTTATATATATATATATGCATGCACACACATGCATACATATATGTAATGGTATATATACATGTAAGTTTCCATTTTTGC
Celera SNP ID:            hCV2373100
SNP Position Genomic:     106141
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60152):
TCAGTTTTCGTGTCTCCCTCCCACTGGACCACAAGCCCCTAACTCTTCATGTACACACCCTGACTCCCAGTGTGGGCTGGCCACCCAGGAGGCACCCAGT
Y
TATGTGTGCTGCGTGAGTGATGTGGAATGACTGCCCACGTAGGAAGTGGCAGGTTGGAGAAAAAGCAGTCACAGCTCCTGGCTGCTGTGGCTGCTTTGAG
Celera SNP ID:            hCV2842900
SNP Position Genomic:     571779
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(C,2)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60153):
TATGACTTTACCTATTTCGGGTAATTGATATAAATGGAATCATACAATACGTGGCCAACTGACTTCTTTCATTTAATGTTTTCAAGGTTTGTGTTATTTC
R
TGTATTAATATTATGTTGGTGCAATCACTTTTGAACCAATCTAACTAATACTTCATCCCCTTGTATGGCCAAATAATATTCTATTCTATCAATATATTAT
Celera SNP ID:            hCV2842901
SNP Position Genomic:     570742
SNP Source:               Celera
Population(Allele,Count): cau(A,6)   his(G,2)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60154):
ATGGCCTGGGAGGCAAGTGTGATCATTCAGGTAATCAAAGTAACTACAGAAACAGAGGTATGGATTAGCTAGTCATTGCAGATGTGGCATTGAGCATATA
R
GCGTGGTGTACATCTTAGAACTTCATCTGGAAATGCCTGTGGGGGAGTTGGATTTCAAGATCATCGTCAATGTCATGTCACTGTAATTTCATTTACATTA
Celera SNP ID:            hCV2373105
SNP Position Genomic:     59601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60155):
TAAGTTCTTAAGATTTGGCAGCTGTGGATCGTGTTTAGTAAGCACGATCTCTAACTCTTTGGAACTCAGAACTATGTAATTGAAATGGCCTGGGAGGCAA
R
TGTGATCATTCAGGTAATCAAAGTAACTACAGAAACAGAGGTATGGATTAGCTAGTCATTGCAGATGTGGCATTGAGCATATAAGCGTGGTGTACATCTT
Celera SNP ID:            hCV2373106
SNP Position Genomic:     59517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60156):
GCTTTATGTGGAGAAAACAGTATTGGAAATTATTACTCAGTTCAAGAAAACCTCACTGAGCACCTACCATGTAGGTGCTCATCCCGATACCACTATCAGG
M
CCTTTGGACCAGTTGCAAGGATGCAGGATGAGGAAGGCAATGTGAGAAAACAGAAGGAGCACCAGGCAGTCGTGGGCTTGATTTTTATTTTACTATTTTT
Celera SNP ID:            hCV2842903
SNP Position Genomic:     569960
SNP Source:               Celera
Population(Allele,Count): cau(C,5)   afr(A,1)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60157):
AGATTTCCCCTTTTCATAAGGACACCAGTCCTATTGGATTAGGGCTCCCCCATTATGACCTCATTTATCCTTAATTATGACCATAAAGGCCCCATCTCCA
R
ATGCAGTCATGTTGGGGGTTAGGGCTTCAGTGTATGAGTTTGGGATGGCAGGGGAGCAGTTCAGCTCGTGAGAATCGTAAGATTCCTGATCTGTTTCTCT
Celera SNP ID:            hCV2373107
SNP Position Genomic:     52218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60158):
ACCTGAGGTCTAGGGCTAAACTCTTGCCTTTACCTGTTCCATGCTTAGCCGTTCCTGCTTTTTGCCTAGAACCTCAGTGCTATTGCTCACACAGACCCAG
Y
TCATGTCCCCAGGCCATGACCACTGCCTCCCCTTCTCCCACCTGTGCAGGTGTTAAGCATCAGTACATAACTGAGGAGTAGGAGGGCAGCAGCCCAAATC
Celera SNP ID:            hCV2852381
SNP Position Genomic:     559075
SNP Source:               Celera
Population(Allele,Count): chn(C,3)   cau(C,3|T,2)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60159):
GCTTCAGGGAAGGGCAGTGCAAATTGTTTCTGGACTGATGCCATCTTTTAATAATAGTAGTTAATAGACTGGGTACAATGGCTGACGCCCGTAATCCCAG
Y
GCTTTGAGAGGCCGAGGCCGGTGTATCGCCTGAGTCCAGGAGTTAGAGACCAGCCTGGGCAAACAGCCTGAGGCAAAACCTCATCTCTACAAAAAATACA
Celera SNP ID:            hCV2842904
SNP Position Genomic:     569227
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|T,1)   his(C,3)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60160):
ATGTTAACCTCCTTTGGAAACACCCGCACAGACACACCCAGGAACAGCACCTTGCATCCTTCAATCCAATCACATTGACACTCAATATTAACCATCTCAG
Y
AGGCTTCTTCGTGTTCACATAGTCTCCTCACCGTGTGCTGTGTCCAGATTTCCCCTTTTCATAAGGACACCAGTCCTATTGGATTAGGGCTCCCCCATTA
Celera SNP ID:            hCV2373108
SNP Position Genomic:     52072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60161):
CCCAGGCTCAACTATCAGCCGCCTTCTCATCCCAAGGGCTGTCACCACCAGAAATTTAACATGCTGTTAGTGCATGCAAAAAAAAGCCCAGTAATTGTAG
S
GCTCATCAGTACATTGTTAATTGATCCTCATTTCCTATTATTTTACCTCAAAGCAAACACATCATTCACCATAGTGACACCAGAGTTGTTTATCTTCTCT
Celera SNP ID:            hCV2842905
SNP Position Genomic:     567419
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,2)   his(G,2)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60162):
CCGCTGACTTAAATGTTAACCTCCTTTGGAAACACCCGCACAGACACACCCAGGAACAGCACCTTGCATCCTTCAATCCAATCACATTGACACTCAATAT
Y
AACCATCTCAGTAGGCTTCTTCGTGTTCACATAGTCTCCTCACCGTGTGCTGTGTCCAGATTTCCCCTTTTCATAAGGACACCAGTCCTATTGGATTAGG
Celera SNP ID:            hCV2373109
SNP Position Genomic:     52060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60163):
CTCTTACTTAAACACACAGCATGACTCTCCTTACACATTTATTTCAGAAGAGCAAAGTCCGGGTCCCCAGGCTCAACTATCAGCCGCCTTCTCATCCCAA
S
GGCTGTCACCACCAGAAATTTAACATGCTGTTAGTGCATGCAAAAAAAAGCCCAGTAATTGTAGGGCTCATCAGTACATTGTTAATTGATCCTCATTTCC
Celera SNP ID:            hCV2842906
SNP Position Genomic:     567354
SNP Source:               Celera
Population(Allele,Count): cau(C,3|G,2)   his(G,2)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60164):
CCACCATACCCAGCCAAAATATTCTTTTCAAAGTGATTAGAAGTAGGAGAAGCTTGCTCTCTTTTTATTGGCACTTCTGTCTTACATGCACTTTTTGATT
K
AAATTATTCTGTCTTCTATGAAATGACAGTGATTGGAGGTGGTTTATTTTTTTTTAAGTCTGCTTACTCGGAAAAATAAAACAAAGTTGACAACCTGATT
Celera SNP ID:            hCV2852384
SNP Position Genomic:     539341
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,3|T,2)   his(T,2)      total(G,3|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60165):
CTTCCAAATGCCCTTAACCCACAGATGGGAAGAAAATGAGGTGGGGGGAAGGGGACTTTCTTGCTTCCTCATAGTTCTCCCCCATCCTGTAAAGGAGCCT
R
TGCTTCCCGACTCCCAGGGCCCTGCAGCATGTCAAGAACAATATTGGACAAGCTTGTCAGTGAGGGTCCAGGTGGTTCCCTGCCACTACGATGCATGCTG
Celera SNP ID:            hCV2842907
SNP Position Genomic:     564827
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,4)   cau(A,2|G,4)      total(G,8|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60166):
ACTCCTGGGCTCAAGCAATCTGCTCACCTGGGTCTCCCAAAGTGTTGGGATTATAGGTGTGAACCACCATACCCAGCCAAAATATTCTTTTCAAAGTGAT
W
AGAAGTAGGAGAAGCTTGCTCTCTTTTTATTGGCACTTCTGTCTTACATGCACTTTTTGATTTAAATTATTCTGTCTTCTATGAAATGACAGTGATTGGA
Celera SNP ID:            hCV2852385
SNP Position Genomic:     539278
SNP Source:               Celera
Population(Allele,Count): cau(A,1|T,2)   his(T,2)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60167):
ACCTTCACCACCACCCAATGTGTCCTGCTCATCACTGAGGTTTGTCATTTTTACTCTGAGTCTGTCCATTGTCATCATCTCCACCATCACCCCTTTTGTT
Y
TCATTGCCACCCTTGCCTGGGGTGAGTGAAGACGCTCTTCTCTGGCTTCCACCCTTCCAAATGCCCTTAACCCACAGATGGGAAGAAAATGAGGTGGGGG
Celera SNP ID:            hCV2842908
SNP Position Genomic:     564673
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60168):
TTCCCTTCGGAAAACTCCCTGGGTGCCCCAGCATTATGTGGTAAAGGACATGTATTTCCAACTGGCAGGGGCTCTGCAAAGTTTCTCTGCCTCCTTTGCT
M
ACCAAACCCTAAATAATTGTCTGGATGTTCCTTTTATTGTCACCTCTGAAACAAGACGAAGATTTGGACGGTTTGCTTTAGAGTGCATTAACTTCTTTAT
Celera SNP ID:            hCV2852386
SNP Position Genomic:     531762
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1|C,3)      total(A,1|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60169):
CACAATTCACACACCAGGCTGCCACTTTGGCCCCTGCGTCACCTTCACCACCACCCAATGTGTCCTGCTCATCACTGAGGTTTGTCATTTTTACTCTGAG
W
CTGTCCATTGTCATCATCTCCACCATCACCCCTTTTGTTTTCATTGCCACCCTTGCCTGGGGTGAGTGAAGACGCTCTTCTCTGGCTTCCACCCTTCCAA
Celera SNP ID:            hCV2842909
SNP Position Genomic:     564633
SNP Source:               Celera
Population(Allele,Count): cau(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60170):
AGAATAAAATATCATCAGGAGCAGCTCATGTGACCAGAATGTGACAAAGTCTTTGCTCTACAGGTCAAGTTGGGACTTACTGAGGAGAAATGAGGGGACT
K
CAAAGTCCAGGTTGCACCATCCACTTTATAGATGAGGAAAGTAAGAACCCACAGCATCTTGCACGTAGAATTCAATATATGTCCTGCTTCTTGAATCACA
Celera SNP ID:            hCV2852387
SNP Position Genomic:     531414
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(G,2|T,3)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60171):
GGGATTCATACGGACATTATTTAGACACACTTCCACCTACAGAGTCACATATTGTATAGAATAAAATATCATCAGGAGCAGCTCATGTGACCAGAATGTG
R
CAAAGTCTTTGCTCTACAGGTCAAGTTGGGACTTACTGAGGAGAAATGAGGGGACTTCAAAGTCCAGGTTGCACCATCCACTTTATAGATGAGGAAAGTA
Celera SNP ID:            hCV2852388
SNP Position Genomic:     531357
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,3)   cau(A,3|G,2)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60172):
TCTGTCTCAAAAAAAAAAAAAAGTGTACTTTTTGAGGAAAGTTCTATTTTTCATTATTTTCCACTATGAATGAAGAAGAAAATAATATACATACATTACT
K
GGATTCATACGGACATTATTTAGACACACTTCCACCTACAGAGTCACATATTGTATAGAATAAAATATCATCAGGAGCAGCTCATGTGACCAGAATGTGA
Celera SNP ID:            hCV2852389
SNP Position Genomic:     531257
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,4)   cau(G,4|T,2)      total(G,8|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60173):
AGGCCCTGGGGTGGAAACACACTCGATGTGTTCAAGGGAGAGTAAGTGGTGAATGGGTTTGGAGCCAACAGGGATAATAGACAACGCTATCAAGAGGGGG
S
CCAACCACACATGTGCAGCCACTGTATGACGTCTGGATTTTCCTTGACTTATGGTGATCACTATTGGGAGGTGGTAAGCAAACAGGTGACATAATTTGAA
Celera SNP ID:            hCV15948947
SNP Position Genomic:     571380
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60174):
CCTTTGCTTGTTACCAGAAGAGTCGCCCAGTTGTGGCAGAGATCATCTAGCTCGCAAAACTGTAAATATTTACTCTTTGGCCTTTCCCAGAAAAAAGTGC
S
GACTGCTATGTTAGATACTCCAGTTCATTCAAAGTGATATCACCCTAACATTCTCTAAATTAGCCACAGCTTAGATGAAATTTAGGCAAATGGAACGCCC
Celera SNP ID:            hCV348227
SNP Position Genomic:     25065
SNP Source:               Celera
Population(Allele,Count): cau(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60175):
GTGCCGACTGCTATGTTAGATACTCCAGTTCATTCAAAGTGATATCACCCTAACATTCTCTAAATTAGCCACAGCTTAGATGAAATTTAGGCAAATGGAA
Y
GCCCCAGGCCCCAGGAAGACTGTGGCAGCACATTGTATGTAACTGTTGGGGATGTTGCCTGAAACCCCCCCCTTTTTTTTAGGCAGCTGCAAGGATTAGA
Celera SNP ID:            hCV348228
SNP Position Genomic:     25161
SNP Source:               Celera
Population(Allele,Count): cau(C,5|T,2)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60176):
TGAAAACATCACTTTTCCTCCACACTAATGTGTGAGCTTAGCCAGAGTAGGAGATATATCTTACTTAAAAAAAAAAAAAACAAACAAACAAAAAAAAAAA
A
CTCCTTCTTCATTTGTTATAGTTCCAGGATAGAGTGTGTACCTGGATAGAGAGAGTCAGGCAGATATAGGTGTGCCCTCCTTCCAAGATGTGTGATGGTG
Celera SNP ID:            hCV11667550
SNP Position Genomic:     965585
SNP Source:               Celera
Population(Allele,Count): cau(-,2|A,2)   afr(-,2)   his(A,2)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60177):
AGTGACTCAGATAGGTGTGTATTCTCAAGAAGCTTTCATTCTAATGACACATACTTTGTCTCCAGTCAGAGTTATGGCAGGTTTTTTTTTTTTTTTTTTT
T
TTGACTAAATTCACCCATATTTGATGGCAAGTGTGATCACAGCATGTTTATAAAAATCATTCTTAATTAAGGCATTTCCATCTTATCAAGCCCCCTATTT
Celera SNP ID:            hCV16211931
SNP Position Genomic:     613505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|TTT,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60178):
AGACTCCTAAAGGGAAGATTAGGGTTGGAAGAAGATGGAGGAAGAGAGTAATTTAATTCCTTAATGGAAAGAATAAAATAAGAGCTCTTGACTTTTTTTT
K
TTGTTGTTGTTAGGATATGGGGAGAGGTTTCTGCAAATATCTTCTTCAGGGTTTACGAAGTGAACCGGATGTCCGGTAACAGGGTTGCATGTCATGCAAT
Celera SNP ID:            hCV2813480
SNP Position Genomic:     34557
SNP Source:               Celera
Population(Allele,Count): cau(G,1|T,4)   his(T,4)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60179):
TGCTTTCAGGTGGAGAAATTGTACCATTGCTGAAAATAGCTTCGCTGACAGTTAGGGCAAGCTTCATTGGTAGCAAGTTTCTATCTGGAAAGATGTAGGA
S
AGGAACACTGACTCTGGAAGCAGACGTGACCTAGTTTTGAAACCTGGGATAACCACTTCCTATCTGTATGACCCGAGCAAGTTACTTTCCTTCTCAGAAC
Celera SNP ID:            hCV2813482
SNP Position Genomic:     33418
SNP Source:               Celera
Population(Allele,Count): cau(C,4)   his(G,1)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60180):
AAATTTGCCTATCTCTGATGATTAGCAAGATTGATAGGCTTTTCTTATGTCGGGCCATTTGTTTTTTAACGAATTGCCCTTTCATCTTATATGCATGACT
R
TTGGATATGTATCGATTACTAATTGATTGCTTGCCTCATGTGCTATAATTTAATTTTCAAAATGTCCCTTAGAAGTTAATTTATAAAGTGTCTATTACTT
Celera SNP ID:            hCV2813483
SNP Position Genomic:     32879
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,6)   afr(A,6)   his(A,6)   total(G,1|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60181):
TTGATGTGCCTTCTCATTTAATATAAGTAATTATTTTAAAGGTTATTGTGATTAACATGTATTCCTTATGGAAAATTTAGAAAGCGAAGAAAAATAAAAA
Y
AAGAATAAAAGATTTAAAAAAACCCCAATTCTTACCAGTTAGAAGTATACTATTAATATTTAGCATGTATGATTGTAAGCATGTTTTCCCTTCTTTCGTG
Celera SNP ID:            hCV2813484
SNP Position Genomic:     32311
SNP Source:               Celera
Population(Allele,Count): cau(C,4|T,7)   afr(C,4|T,7)   his(T,7)   total(C,8|T,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60182):
AGCTCATTCATTTTGTTAATCCTGAGTTTGGAATCAACCAATTTATTTAAACCCGTGAAGCCTCGCTCTGTGCCCGGTCAAGTGCTGGGAGTGGCATCTG
Y
GGGGAGGGCCAAGGCAGATGTCATTTCCAGACTGCATTGGATCCTGGATTCAGAAGCTGAAGCTTAGGAGTGGGCATGGTGGTTCACGCCTGTAAACCCA
Celera SNP ID:            hCV2813485
SNP Position Genomic:     31873
SNP Source:               Celera
Population(Allele,Count): cau(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60183):
GCACAGAAACTGAAGTTAAAGCTAATACAATGTTTTTCATTTTTACCCTTACCTCTACAATGTACTTAATTGTTACAGATTCGTATTTATTGATTATCAT
R
TTGTATTACATTGATAGCCGTTTAAAATTTATGAAGATTCCGTACTTGTCATATTTAATTCTCAGCACCGTGCTTACAGCTGTCTTGTGATAATGTCGAA
Celera SNP ID:            hCV2813486
SNP Position Genomic:     31496
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4|G,1)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60184):
TGCTGGGATTACAGGCATGAGCCATCACGCCTGGTGAATGGTGTCATTTTGATGTACTGAGCCATCTCAGTTTTTCCAGCAACCTTCCCTCACCTTTGTG
S
TCAGCTAGAAGGTCAGTTAACACATGGGATGGGAATTCTTGCCAATGTCCTTCGTAAAAGAAGAACTTCTCCTTCACTCACATGTCCTGATACTTCCTCA
Celera SNP ID:            hCV11514233
SNP Position Genomic:     222316
SNP Source:               Celera
Population(Allele,Count): cau(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60185):
GCGGGGAGGAAACCTATTTCAGTGTCTCTACTATTTCTACCTAGGTGGAGGATAACTAGCCAGATGAACGGAGCTAAGCCTTTTGTATGAAGTTTATTTC
W
TATAAAGAGGAACAAAATCAGAATCAAATTTCTTCTGTAGTTGCACAGAAACTGAAGTTAAAGCTAATACAATGTTTTTCATTTTTACCCTTACCTCTAC
Celera SNP ID:            hCV2813487
SNP Position Genomic:     31353
SNP Source:               Celera
Population(Allele,Count): cau(A,6|T,1)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60186):
CTGTGCTTGATGGTTTTACTTTTTGTGATTTTTGGAGCCTTCATGTTAGAAGCCATAGTCATATGGTGCTCTCTGAAAGCAAGACAAGGTTTCTTCACTA
S
ACTCTAAGAGGAGATCTGAGACAGAGAGATGGGGGCGGGGAGGAAACCTATTTCAGTGTCTCTACTATTTCTACCTAGGTGGAGGATAACTAGCCAGATG
Celera SNP ID:            hCV2813488
SNP Position Genomic:     31218
SNP Source:               Celera
Population(Allele,Count): cau(C,4|G,3)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60187):
TTATTATTATTGTTGATCTCTTACTGTGCCTAATTTATAAATTAAAATTTATCCTAGGTATGTATGTATAGGTGAAAGCATAGAATACATAGGGTTTGGT
M
CTATCCAGTTTTCAGGCATCACTGTGGGTCTTGGAACGCATCTCCCGAGGATAAGGGGGGGCTACTGTCAGTGTGAACCTGATTAGATCTCAACTGAAAC
Celera SNP ID:            hCV2813489
SNP Position Genomic:     28552
SNP Source:               Celera
Population(Allele,Count): cau(A,1|C,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60188):
AACTTGTTGTAACATGTAAGAAATTACATCTGGGCTAAAAGGTTCAATAATGATTACTCTTATAATGGAATCTTCTACAAAGCAAGGGATTTCATGATAT
S
CCTATGCTTTTAAAAAATTATTGTGATACAGTGAAACAAGGAAGAACGTGTAGCTGGAAAAATAGTATTTGCTTGTAATATACATTCAGATTCATAACAG
Celera SNP ID:            hCV2373110
SNP Position Genomic:     42624
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,1)   cau(G,6)      total(G,6|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Gene Number:                 320
Celera Gene:                 hCG1811713 - 84000313596963
Gene Symbol:                 ch-TOG
Protein Name:                KIAA0097 gene product;KIAA0097;ch-TOG
Celera Genomic Axis:         GA_x5YUV32VW1T(3999141..4111587)
Chromosome:                  Chr11
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12480):
GCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGCGAAACCCCATCTCGACTAAAAATACAAAAA
TTAGCCAAGCATGGTGGTGGGTGTCTGTAATCCCAACTACTCAGGAGGCTGAGGCAGGAGAACCTGGGAGGCACAGGTTGCAGTGAGCTGAGATTGTGCC
ATTGTACTCCGGCCTGGGCAACAGAGTAAGACTCTGTCTCTAAATAAATAAATAAATAAATAAATAGTGGGCAAAGGACATGAACAAACACTTTCAAAAG
AGATACAAGTGACCAATAAACATATGAAGAAATGCTCATCATCACTAATCATCAGAGAAATGCAAATCAAAACCATGAGATACCACCTTATACGAGTCAG
AGTGGCTTTTGTTAAAAAGTAAAAATTTAATAGATGCTAGCAAGGCTGCAGAGGAAAGGGGACACTTGTACACTGTGGTGGGAATGTAAATTAATTCAGC
CACTGTGGAAAGCAGTTTGGAGATTTTTCAAAGAACTAAAAGTTGAACTACCATTCGACCCAGTAATCCTATTACTGGGTATATACTCAAAGGATAAAAA
ATCATTCTACCAAAAGGACACATGTACCCATATATTCATTGCAGCACTATTCACAATAGCAAAAACATGGAATCAACCCTTGTGCCCATCAATGGTGGAT
TAAAGAAATGTGGTACATATATCATGTAAAACTATGCAGCCATAAAAAAAGAATGAAATAATGTCCTTAGCAGCAGCCTGGATGCAGCTGGAGGCCATTA
TCCGAAACAAACTAATGCTGAAACAGATAACCAAACGTTGCACGTTCTCACTTAGAAACAGGGGCTAAACATTGGGTACACAAGGACATAAAGAAGGGAA
CGATAGACACTTGGGACTACTAGAGATGGGAGAGTGGGAGATGAGCAAGTGTGGGAGTTCAGTTAGGCTGGTGGGAAAATTTTAAGATGAAGTTATAAAA
TATAGACACAAATCTTCTTGGAAGGCCGGAAGGTTTTGCAAAAGTCTCAGGATAGGGTTATGGCTGAAAGCCGCCTAATCCTTACTTTGAGTAAATAGCT
TAAAGTAGATACAAAGGAATGTAGAGTAGTTTATCTGAATAGCTTGTTTACTCATGTGGTCTTAAGACCAATCTTTGATCAACCGGGTGCACAACCGCAG
GGGGTGGGGGCGGGGTTGTTGGCAACCAGGTCAATTACCCTCTAGCAGTGTTTACTCAAAACCTTTGTCATTTAATCTATACTGAATAAATGCAAGCTTC
GCTGGCTGATGGGGCCGGCTGCTACTCTTTACAGCACCTTCCTTGGTGTCTGTGAGGGGCCCAGACCCTTAGCTGGAGTGACAGGCAGAATATCTGTGTT
AGTGTACGTTATTCAACCGTTGTTGGGTCAAGGTCTGTGGGACAGACCCCGGCAAGCAAGGACTGATAAACTACTTACTGTTAGGTACTATGCTCACTAC
CTAGGTTCAATCATACCCCAAACCTCAGCATCACACAATATACCTTTATCACAAATCTGCACATGTATCCTCGATTCTAAAATAGAAGTTGAAAAATAAA
ATAAAATTATAGTCTTTCCAACCCCACTTCCCTATCCCTTTACCTAGTTTTATTCTTTTTCTTTTCCCACTGGACATATTGTCTAATAACATACTATATA
ATTTATTTATGTGTTGATTGTCTACGTTTCCTCACTATAGTGTGAGCACCACAAAGGGAGGAAATTTTGGGGAGTCTATTTTATCTACTGATCATTGCAG
TGCCTAGAAGAGTCCCTCCACATAATAGGTGCTGATAAATATTTGTTGAATGAATAAATGAGTAGCATCAGACATCTAATACTCACCTTAAAGTAGGGCT
GCACCTAAGTCATCCAAGACAAAAAGGGATTTTGTCATCTTGTTCTAAAACTCTCCAGGACCCGGACTGCACAAACATCCTTTGTTAAGCCAATTCCTGA
TTACCATCACACCCTCTCCTTAAATGTAATCTTCAGTTTATTTCTGGTAATATTTAAATAAAGTAAATATGCCAATGACCAATGACTGAAGAAAACTATT
TCTGTATATCCTCACCAATTTATCCAAGGTTACCATGACCATATTGCTTTCATTCCTTTCTTCTTCTCCTACATGTGGATCTGTCTTCATTGGCCATCCT
TTCACTCTCTCCAATCCCCCAATCTGCAGTCTCATTCACTCTATCAATGTGATTCCCAAATCTATATCATTGATTCTGCATCTATTCTTCCAGCTTCCAT
CGTGTATTTTCTAGGCCTACTCAGATGATTCCATTAGAATGCCTTATTGGTACCTAAAAGTGAACAGGTTGCAATTTAAATGCCTCACCTTCCCCTTGAG
ACTGGCTTCTCCTGACTTCCTACTTCCATTGGGCAATCAAATCCTGGAATTCTCTTTGACTCACCTCCCTAAATGGGACCCACCCTTGCCTTTGCACCTA
ATCTAGTCAGTTGCCAAATCTTTCATTCTTTCTTGAATCTGCTCTCATCCTCTCCACTGCTAACACCTCATATCATACTCCTAGCTGGGTTCCCAACTCT
AACCATTTTAGACAATCAAGCTAATTAATTTTCCTAAAGTACAACTCTGATTTTGCCACCCTCTTGCTCAGGTACCTTTAATAGCCCCCCCATTATCTAC
TTAATAAAGTACCAATTCCATACCCTGGGATTCAAGATCCTTTAGGAATCATTCCTGGCCGGGCACAGTGGCTCACATGTGTAATCCCAGCATTTTGGGA
GGCTGAGGCGGGCGGATGGCCTGAGCTCAGGAGTTTGCGACCAGCCTGGGCAACAAGGTGAAACCCCATCTCTGCTAAAATACAAAAAAATCAGCCAGGT
ATGGCGGCTTGTGCCTGTAGTCCCAACTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTGGCAGTGAGCTGAGATCACGCCA
CTGCACTCCAGCCTGGGCGACAGGTGAGACTCCGTCTCAAAAAAAAAAGAAAAAGAATTGTTCTTAACCTTCTGTGTCAATCTTGTGTTCCACTACTTCC
CAACAAAATTTCAGTCCTAAAATCAACCCCACATGTTCAGTCCCATACATACGATGCACTTTGCTGTTTCTGCGCCCTGACTCACACTTTCCCCACTACT
CTCTGCTCCTTCTATGAAAGAAAAAAGAAACACACCACGTTAACAGTAAAAATTCATTTCCCTCCCAAGTCCCACTCCTATTAAGTTTCTTATAATTCCA
GGAATGTTCTAACCATTTTCAGGCATGCCCTCAAACACACATACGTTTATAACCATATATAATAAAATCATTCCACAAGTTCTGCAACTTGCCTTTTTTT
CAATTAATAAAATTTGTGCATGTTTCTGTTCCAGCACATAGATTAACCGCATTCTTTTTAACAGTTTCATAGTGTTCTATTGAATGGATATGTCATAATT
TATGTAAAAGGTTCCCTGTTGATGAACATGTAATTTCCAGATTTTTTATTTTTTTTAGAGACAGCGTCTCACTCTGTCACGCAGGCTGGAGTACAGTGGC
GTGATCATAGCTCACTGCAGCCTTGACCTCCCACACTCCAGCAATCCTCCACCTCAGCCTCCCAAAGCACTGGGATTACAGGCATGAGCCACCATGCCTG
GCCTCCAGATTTATTTTTTTATTTTATTTTATTTTTATCTTAAGCAGTGCTGGCTGGGCACAGTGGCTCACAGCTATAATCCCAACAGTTTGGGAGGCCG
AGGCGGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACAGGTGAAACCCCGTCTCTACCAAAAATACAAAAAATTAGCTGGGCTTGGTG
GCACATGCCTGTAATCCCAGCCACTTGGGAGGCTGAGATAGGAGAATCGCTTGATCCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGGTGCCATCGCAC
TCCAGCCTGGGCGAGAGAGCGAGACTTCATCTCAAAAGAAAAAAAAAAAAGGGCCGGGCACAGTGGCTCACGCCTGTAATCTCGGCACTTTGGGAGGCTG
AGGCAGGTGGATGACCTGAAGTCAGGAGTTTGAAACCAGCTTGACCAACATGGTGAAACCCCATCTCTGTTAAAAATACAATAAAAAATAATTAGCCGGG
CGTGGTGGCAGGTGCCTGTAATCCCAGCTACTTGGGAGCCTGAGGCAGGAGAATTGCTTGAACCCGGGAGATGGAGGTTGCAGTGAGCCAAGATCACGCC
ATTGCACTACAGCCCGGGTGACATGAGAGAGACTCTGTCAGAAAAAAAAAAAAAAAAAGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGG
AGGCCCAGGCGGGAGGATCACGAGGTCAGCAGATCAAGACCAGCCTGGCTAACACAGTGCAACTCCGTCTCTACTAAAACTACAAAAAATTAGCCAGGTG
TGATGGCACGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACACGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGCGCCAC
TGCACTCCAGCCTGGGCGACAGAGCGAGACTGTCTCAAAAAAAAAAAAAAAAAAAAGCAGTATTGCAGTAAACATCCTTGTACATTTTTCTTTGCATACT
TGCACAGATCTGTACGATAAATTCCTCATAGTGGATTACTGGGCCAGAACTAGATTATGTACATTTTAGTAACTGTCAAATTGTCCTCCTAAAGGTTTGT
ACCAATTATACTCTTACCAATATTGACTTTGAGTGTCCATTTTTCCAAATCTCTTTATATTTTTAAAAACAGAGATGGGGTCTTGATAGCAAGACCCAGG
TTGGTCTTGAACTCCTGGCCTCAAGCAATCCTCCTGCCTCGGCCTCCCAAAGCGCTAGGATTACAGGCATAAGCCATTGCACCCAGCCTGTTTTTCCAAA
TCTTGACCAACCAAAGGCTGTTGAACTTTTTCATCTCTGCCAACTTGACAATGAAAAAACATGTAATTGTTTCATTTACTTTTATCCATCCTCTCTCCAT
CTTTTAGCCTGTTGGGAATCTACACATTCTTTAAATCCTAGGTTAAAAATTCATCTTCCTCACAGATCCTCCCCCATCAAATTTCTCCTGTCTCTAAGCA
TTTATAGCTTTTCATTTATACAGTTATTACACTGCTTTGAATTTTAGTGACTAGTCTGTATGTTATATTCCTCCAACCACTGTAGATTACAAATTCCTTG
GAAGTAAGGACCTGAACTCATTCACAGAAACACTGAATGTAGAGCTAAGCTAAAATTCTGGAGATCATGTTAACCAAGCCTCTCGTTTTTATAAGGGAAT
ATTAAGCATTTGCAGGATGCGTTACAGTTCACAAAGGCTTTTCTCAGACATTCTATTAGTTATATTAACTCCTCCATTAAATTGTAAGGGAAACATCGTT
ATCCCATTTTACAGATAAGGAAACAACTCCAGAAGATTTACTGAGAAAAGTGATTTACTCAGAACAGTTCCAAGGTCAGAATCCAGCATCCTGGCTTCAT
TCGCTGTTACTTCCACGACATCTCAGCTGCCTCTGGTTTCCCTCACAGCACTTAGCTTCACAATCTCTAGGGAATGAAATGACCAAAAAAAATTGTCGGG
TGTTGACAGCAGCCTGAACATCTGTAATTAAATAAAGCAAACATGCTGACGACCAAGGATGCCCGGGTCTACACACATTCTTTCGCCTTTCTTTCTGGAG
TCGGCAGACTTGCCCCCGGCAGCGACCAGCGTCCCCACCCGTGCAGGCGGCGTCTGGTCCAGAGGGAAACACGGCTGCGCGCGGCCCCTTTAAGGCTGCG
GGCGGCGCGTGCCCACAGGCCTTTCAAATGGACCAATAAAAGTCCGATGGGCGGTCCGTCGAGGACCAATAAAGAACGAGGACACTGCGGGGTGTGCGGC
GGCCCAAGCGGTTTCAAACGGCTTAGAGCAGGCCGCTTGGTTCTGACCCAGCTGAGGTGAGTGGTCGGTGGGCCTGCCCCACCCGCGAGGCCCTCGAGTG
CAGGCATCGCGCGCGCAGAGGAGCCCCTGAATCCTGGGCGGCTGGAGGTCTCCAGACGCGCGCCCCACTTGCCCCACGAACCCGGCAGGTCTGAGGCGGC
GAAGCGAGCCGGAGGCCGGGGGACCTGCGGCGGGCAGGGCCGGGGGCGTGGGCGCTCGTGTGCGGCGGAGGCCGGGGTTGGGCTCCAGGTGGCCAGAGCG
CGCCGCAGCGTGGCGCGGGTGGCAGCGTCCGCGGGGCGCGGGCGGTGCAGGGCCGCGCCTGGCGGCAGCGATTTACCAAGACTAGGGCGGGGGCCCCGAG
AGCCGGCCCTGCTAGAGTGCCTCTCGCGTAATTGTCAAGTGAATGAATAAGTAAGCGCCTACGAGGGCTGTGGTGGTTGCGAAGGGCCTTGTCGCCCTGG
AGCAAGGACAGCGGCACCGGGGCCTGGCCGCACACCTGTGTCCCTGCTGGCTTGCTGCGATGTGAACGATTCCGATCATCCACCACCCCGCCCTTAACGA
CTGGCTTTCTCTCTCTCAACGTGTCGGGAGCGTTCWGGTGTCCTTCCAGCCCTGGAGGTGTTGGGGAACCAATACAATAGCCAGCAGTGTGGGTTGGGCC
TTGCTACTTTAAGGTCGGGCTCGGTGAACTAGATTCTTACTTTTGAGCTCTCCCCTCTACTTGTAATCGTGGTAATTGTTGAGCAGGATTGAAATGCATT
CCGTTSTGTTTCTTGGATAGAAAATGATGAAAGGGTTGTTGCCAGAGTGGCTAGTGTGTGTTAGAAAATATATTCGTGTTGATGAATCTTAACAATGAGT
TTTTTATTCAGCATCAATAGAGGTTGAAGTGGTTTTTGCAGAACTTGCCCCAAATTTATGCGTGGCTCTAATTTAATTCTCATGGGACCAAGGCATCAAA
TCTTGGCCCAGAAATGCTGCCTGTCTTATGCATAATTATAGTAATTGAAAACTCATTTTTAGAAAGGTGAGCTCCTCCTTCCTCCATTTTCATCACCCTG
AAAAGTCCTTCTTTTGACCTAAAGAGCCAATAAATTAAGCTAAGAATCTTTTGAAACTTTAAGAAATTGTAGAAGACTTTGACTTCTCTGAAGTGACTGG
ACAAACTGTAATGCTTTTACCAAATTTAATGATATAGATAAAGGTGAAATCAATTTATTTTGCAACCATAAGTTAAATCTAGTTGGTAAACTCATGTAAA
AAAATTTTTAAATAAGATTTTAGGCTGGGCGCGGTGGCTGACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGTTT
GAGACCAGTCGGGCCAACATGGTGAAACCCCGTCTCTCTCTCTCTCTCTCTACTAAAAATACAAAAAATGGCTGGGCGTGATGGCGGGCGCCTGTAATCC
TAGCTACTCGGGAGGCCGAGGCAAGAGAATCATTTGAACCCGGGAGACAGAGGTTGCAGTGAGCCAAGATCCCGCCATTGCACTCTAGCCTGGGTGACAG
AGCGACCCTCTGTCTCAAAAAAAAGAAAAAAAATTTTTTAAAAGGCTGTTCACTGAGGCAATGGCAAGCAAAGGTATTCCGTAACAATTAACATGCCTTT
TACTTTATTCTCCATTACTTTAAAGTCTTGATCAGTTTTGAATTATGTTTGAATTATGAACAGTGGGTGTGGTAATTCCATCGCAGTCTTCTACTACTGA
CAGTTCAGTTTTAGCAGCACCTGTTTTTTTGGTGTTTTTTGTTTGTTTGTTTGTTTGTTTTTTACCTTCACGGTTTATTGTAAAGGATGCTACAAAGCAT
ACAGATGAAGAGAGGCGTAGGGCTTGTAGGTATGGGAGAAGGGTGTGGAGCTCTTATGCTCTCATATGAAGTGTGTTTGAATATACCAACTCTCCTGTAA
ACTTTTATCTTAATTCCATCAACACTCACTTTCTTTTCCTTTTTTTTTTTTTTTAAGACAGAGTCTTGCTCTTTCGCCCAGGCTAGAGTGCAGTGGTGCG
ATCTCAGCTGACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTGCCACCTCAGCCTCCCAAGTAGCTGGGACTTCTTGTGTGCACCACAATGCCCAGC
TAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAATGATCCACCCGCCTCAGCTTCCCAAA
GTGTTGGGATTACAGGTGTGAGCCACCACACCTGGCTAACCCTCACTTTTCTAACTGTAGCTTCTATTAGGACTTTATCAACAGGTTTTGTTTTTGCAAT
ACTAGGTAGGGGAAGTGTTCCCCAGCCAGACATAATATCCATTCCTAATAAAACACATTTACATATAGGAGACACAGCTTCCAACTTTCATAGTTCTGTC
AACACTTACATCTTTGTGTTCTCTCAATTTTTTTTTTTTTTTTTTTCAATCAGATCTCACTCTTTCGCCCTGGCTGGAGTGCAGTGCTGCTATTATGGGT
CACTGCAGCCTCCACCTCCAGGGCTCAGGTGATCCTCCCATCTCAGCCTTCCGGTAGCTGGGACTACAGACGTGCATCACCATGCCTGGCAAATTTTTTT
AGTTTTTGTAGCGATGGGGTTTTGCCTTGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGGGATCCTTTTGTCTCGGCCTCCCAAAATGCTGGGATT
ACAGGCGTGAACCACTACGCCTGGCYTTCTCTTAATCTAACTGTAGCCCTGTTCGGGGCTTCACCAATGGCTCTTGGTACTACTGTACCTGGGGCTTCCA
TATGAAGGAGTCCCAGGAATTTCTTTTTGCCACTCCCTGACCATTTTACCTACTTATATACAGAAGGCTTGGGGTCCCCAGCAGGTGGTTGAGCCAAGAG
ACCCTTGCCCATTTGCCAGTCTTTATCTTGACTCATCTACCTATTGTTTCCACAATTTCAGATCAGATTTCTCATTGTAATCTGCCTCCTGACTTACAAT
TTCTCCAAACTGGGGTAAATATAGCAAACTTGTTTGGAACCCCTTAATGGTGGGAGACCAGCAGGGTCTCCCTTTGGCTCCCAGGCTAGTCTTGAACTCC
TGGGCTCAAGTGATCATCCTGTCTTGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCACACCCTGCTACCTTACTTCTTTTTTTTTTTTTTTTT
TTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCGGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTC
CTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCTACCAAGCCCGGCTAATTTTCTGTATTTTCAGTAGAGATGGGGTTTCACCTTGTTAGCC
AGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTACCTTACTTC
TTAATAACCATTTAAAAATTTCCACCTTCCGGGTTGAATCCATTTGCCCTCTGTCTCACCATTCTCTTAACCTAATGGTTTTATTAGCATCTGTAAGACC
CACGAGAGGAAACTGAGACAGCACATTTGATAAGGCTTCTCGAACTGTCTTTTGATTTTGCAACAGTAAGGTTATCCACATTAAGGGGTCACCCTTAACC
ACAGCATTTACCATGACTGGGTAGTGGGCATATTCAGAGGGTAAATGTCCTAGTCATCATAAAGCCAGTTTCACATGGCTTGCATATGAAGTATATCAGT
GGCTCTATCTGGATCTGGGGTGTTCCACTTGGCATTTATGGAATCAGACTGTCCCCTTCAGGAAGCTTATGATACTAATGTACAAAGTGAAACAATTCCT
TCACATTGTACCCCCTGGTTTCAATAGTTCTTTGATTTTTGCAGACCACCTTCTTTGTTACCAGAGGTCTTAGAAGCACTTTCTGTTGTCCCGGCATACA
TTTTTCCCTTGAGGGACAGCTTTGAGGTTAGTGGCCTAAGCTCTCACATTCACTGAAAGCTGAGCTTGGTCTAGCGGGAAGGTCCAACCCACCACTTTCT
TTTAATTTCATTTTAGCTGTTACAGATAACAATAACCAAGGGATTTAACATTTCGCTTTTTTTTTTTTTTTTTTTTTGAACCAAAGTCTTACTCTTTCTC
CAGGGCTGGAGTGCAATGGCACGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGCTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAC
AGGCGTGAGCCACAGCACCCGCCTAAATTTTTTGTATTTTTAGTAGAGATGGAGTTTCACTGTTAGCCAGATGGTCTCAATCTCCTAACCTCGTGATCCT
CCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCGAGCCAGCATATCACTTTTTTAATACTAGTTTGCATTTCCTTGTGCATC
CTGTGAACCAACTCCCAGGCAGTTGGATCCATCTCTGGATTCCATGGATAACTTTTACCTTTAGTAATTGATGACAGCACAGCTTCAGCTCTTTACCATG
GGTGACCACTTGGCCACCTAAGAATCAAAGTTCTTTATCCCTATCCTTTTATCCTTTTTCTTCCCAAACCATATGTGTCTGTGAGCCAAGTCATTCTAGC
AAATCCCAATTCTGACGCCAATTCTGAGAATATAGAATAAGAAACTTTAATAAGTTTATCTTATACTCTCACAATACAGAAAACTTCTGTGACCTCAGAT
GTGTGAGATTTTTTTCCCCACACACCAAGCAAGTAGTTCTTCAGCAGTGGACACTAGCTGTGTGTCCTCTAATTCAGTTCAATTCTGACACCTTTTTTTT
TTTTTTTGAGACAGAATTGCTCTGTTGCCCAGGCTGGAGTGCGGTGGCGCAGTCTTGGCTGACTGCAACCTCTGTCTCCCGGGTTCAAGAGATTCTCCTT
CCTCAGCCTCCCGAGTAGCTGGGATTACAAGAACCCACCACAACACCCATCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATTTTGGCCAGG
CTGGTCTTGAACTCCTGGCCTCAAGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCTCACCTGGCCAATTCTGACACT
TTCTATCTGGAGGTAGTGTCAGATCCCACAGGTTGAGGGTTTAGTCCCAGAAGACTGCCCCCAACTCAGATGCCAATCTGAAGCCCCAGGTTTTTTTTTA
CCTGTGCTTCTGTAGGCTGACTATAAAAATGGGCATTCCTAATACCGCCCCCCATTCCCTGCCTTGGGTTTGATTAATTTGCTAGACCTGTTCATAGAAC
TCAGGAAAACACATTTTCCAGCCAGTTTATTATAAAGGATATTGCAAAGGATACAAAGAGCTATATAGGGTGAGGTATAGGGGAAGAGGCATGGAGCTTC
CATGCCCTCTCTGGGCACACCACGCTCCAGGGACCACCATGTGTTCAGCTCTCAGCTTCTCCAGCAGCAAAGTTTTAATTGCAATAAATTTGAGTACCTT
AATATTATGAACACTGTTCTAGGTTTTTGGTAAGCAATTAAAAATAATAAACATCTTTAACAGTGCCTTAGGATAAGTGTTAAAAATTTTGACAGGGAAT
GAGTATGTTAAGGTAAAGCCAGGCTCTCTTATGCTCCTTTAATGGGGTCTTATTCATTCATTGAACAGATATTGAGATTGATGCTTAATGTCTGTCACAC
ATTGTTCTAGATTCAGGGAATACACTGGTGAACCAGAAAAAGACAAAGGCCCTGACCTAAGGGAGTTTGACAGTTTTATCTGTCAAACAATTTACTGTAG
CAAATTATAGTTTCTGTAATCCCTCTGGGGTCAGCTCTGGTCCTTGAATAAAATACATGCCCAGATACTTTTACTAGCAGTAGCTAACATGTATTGAATG
CCTACTGGGTCCCACATTTTGTTTAATTAATTAATTAATTAATTTTTTTGAGACAGGATCTCACTCTGTCGCCCAGGCTGGAGTGTAGTGGTGTGATCAT
GGCTCACTGTAGACTCAACCTCCTGGGCTCAATCTGTCCTCCCACCTCAGCCTCCCAAGTAGGTGGGCCTACAGGCACATGCTAATTTTTGTATTTTTTG
TAGAGATGGGGTTTTGCCATGTTACTCAGGCTGGTCTCAAACTCCTGGGCTTAAGCAATCTGCCCTCCTTACCCTCCCAAATTGCTGGGGTTACAAGCAT
GAGCCAACATGYCCCGCTACATTTTATCTTTTTTTATCCTCACAATGTTTTACAGATGAGGAAACTGAGTCTTTAAAAGGCTGTGCAACATGCTCAAAAT
CATAGAACTAAGTGATAGAATCTGAATTCAAACCCAAGTCAGTCTGTCTCCAGGGCCTTTGCTCTTAACCTATGATTGTACTACGTGAAGTAGGGATCTG
TAGGAGAATTCAGGAGCAATTTCTGGGTAGAATTCCCCCAGCCCCTTTTAAAAAAGTACTTCTATCGGAGATGTGATGAAATATGAATGACAGGCATGAT
AGTTTTTAGAGGAAAGATGGCATTTACCATATGGAAGATGGACAACTGTGACAGTGGTGGCGGTGGGTAGCTAAAGGGACGCATAAAAATTGAGTTCTTA
ATCTAATTAGGATTCTTGGTAGTCAATGTTGGAGAGTTTTAAGGTTTTTAAATGATTTTCCTATTCTTGCCTCTGGAGTTTAGAATACATTACTTAGCTC
ATTTCTATCAGGGCAGTTACTCTACCTACTTGATGTGTATAACTCCAACACATTACGCTTATTCTTTTCGRTCTTTGCATTCTGTTCTGGAACTTCTCAC
TTCACTCTACCCCTACCCCCAGCCTGTATTACTGGCACTCTCAGGCTTCAACTTAAATGTCATCTCCTTAAAGAGACACTTTTCTGAGCTCTGAATTAGA
GGAGCCCTCTTGGTCACTTTTACTTCACTTTTCCTTATTTACTTCATAGCATATATTGTTATGTAATTGTTTATTGTTTGTCTATATATTGTTAGATTTT
CTCATAAAAATGAAAGCAGAACATAGATTTTTTTTTTCCTTTGAGGTTACCTCAGTGACTCAACAATGCCTGCAACAAACTAGGTGGTCAAAAATATTTG
TTGAACAAAATTGGCCAAAACTGGCATCATCTTCTCTGAACAAAAAAGTGATAAAAACAGTATCTGACTATTCAGTTGGCTGTGTTTCTGTGTCTTTATT
TATTTTTTTTTATTTTTATATTCTAAAAATGTTGCGACAATGGTGGCTCAGCAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGGGTCCCACTC
TGTCTCCTAGGCTGGAGTGTGTTGGCCTGATCTCTGCTTACTGCAACCTTCACCTCCCGGGCTCAAGGGATCCTCTCACCTCAGCCTCTAGTGGCTGGGA
CTACAGGCGAGTGCCACCACACCCGGCTAATTTTTTTTTTTTTTTTTTTTTTTTTTTGAAGAGGCAAGGTATTACTATGTTGCCCAGGATGGTCTTGAAC
TCTTGGACTCAAGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTAAAGTGCTAGGATTACAGGCGTGAGCCACCGTGTCTGGCTGTCATTTTTTTCTTTT
TGTGGAGACACAGTCTCAGTATGTTGCCTAAGCTGGTCTTGAACTCCTGGCCTCAAACAATCCTCTCGCTCCAGCATCCAAAGTGCTGGGATTACTGGTG
TGAGCCACTGCACCAGGCTTGTTCCTGTGTTTTTGGGTGTAAGCAGTATCTTAACAGTCTCAATTAGTCTTAAAATTATTTTAGACTAGTTCAGAAAGTC
TTTAAGAAAGCTAGAAAAATTATACATCTGAATTTTTTAAAAAAATTTTAATCTGTTTTSAGAGGTACTAGTCAAATACATTGTAAGATGTCCTTCTATT
GGAATTTGTCTGATGTTTTTCTCATTAGACTGGAGTTACAGGTTTTGGGCAGGAAGACCACAGAGGTAAAGTGCCATTTTCATCACATCATATCAAGGGT
ACATGCTATCAACATGATTTATGACTTAATATTGACCTTGACTGTTCATATTGACCTGAAATAGTGTTTGTGAGGTTTCTACAGTGAATTTACTTTTTTT
TCCCCTCCTTTTCTATACTGTATTCTTTGAAGGGAAGTCACTGTTTGCAGCCCACACTTAAGGAATGGGGAGTTCCTTGATCTTAGGGTGGAGTACCTAC
CTAATTTATTTGAAATTCTTGTCTCTCCTTTCCCATTTATTAGTTTAGTCAAGTATTTACTGATAATAGTGTGGACTCAAGTATATTTATTTTATATTTT
AGGTTACACTMCAATATTACATTATTTTGTTGTTCAGGTTGTTCCAGCTTTGTCCTTTGGGAGCTTCCTGTATTCCTTTAACATACATGTGTGTGTGTGT
GCGCGTATTTGTATTGATCTTTGAGTACTTCCTTACTATCTGGAAATGTTCCAGGCTCATCTTGTGTATTTCTTGTCCCAGTGCTAGAATCAGCCATTTC
CCCAAGGTGCCCTGGTTCCCTTATTGGAGAATGCTATTAGAAACAAGACCTGGGTACTGAGTGTTCTCTTTGCTACTGGGGTGTCATTTCTTTTAGGTCC
TTTCAACTGTTAGAGCAAAGAAATATATGAATGTATGCTAACCCCATGTATATAGACATATCTATAAATATTTCTCTATGTAGCCATCTGTGTCTATATT
AAGTTAAACGAGTTCCATAGATCACTTTCAGTAGTATGGGCGGGGGGGAAAAACATGAGTTCCTACTGGTGTCTCCAATTCTGATCCATTATCACATAGA
TCATTCTAGCCTCCTCCCCTTGCTGATCTTTGAATTTCCATTCACAATAGTGAAAAACCTAATTTCCACCATCCATTTATTTAATTGTCCAGTTCCATTA
TATATGGATATACATACATGGATAGCAGTATCAGAATTGCTAACCCATACTCCATGAAAAAAACTTTATCAACTAGAGTACATACTTCTGTGCAGTTCCT
TTTGCCCTTAATCTTTCAGACTCCACTCATTACCAAAGCTACTTAGGTCAGAACCTTTTTCCCACCCCCTTTGGTGAAGTTGTTTCACACATCTGTAATA
TAGATTCCCTTGTCATAGTCTTCATTCTTTTCTGCAATCTCCCAGTCTCCTAAATGACTTTTTAAAATTTGCATACATTAAAGTTCACTCTTTATGTCAT
AAAAGTCTCGAACTCCTGCCTTGGCCTCCCAAAAGTGCTGGGATTAACAGTACAACCCACTGTGCCCAGCTGACATAAATTTTTAATTCAGTTGGATAAA
TACCTAGAAGCAGGTTGCTGGATCATATGGTAAGACTAGTTATAGTTTTGTAAGAAACTGCCAAACTCTATTCCAGAGTGGCTGTACCATTTTGCATTCC
TATTAGCAATGAATGAGAGTTCCTCTTGCTCCACGTTCTTAACAGCACTTAGTTCTATCTGGTTTTTGGATTTTAGCCCTTCTGGTAGGTATGTAGTGTC
CCCACTTTATTATTATTATTATTTTAAAGAGATGGGGTCTCACTGTGTTGACCAGGCTGGTCTCAAACTCCTGGCCTCAAGCAATCCTCCCATCTCAGCC
TCCTGAAATGCTAGGATTATAGGTTTGAGCCACTGTGCCTGACCTAGTGTTCTCACTTTTTAAAATTATTCGTTTTCACGACATTACCTTTTTTGAAAAT
AAATGTTAGTTTTTTAAGAGGAAACTTTTTAAAAATTAACTTTATTTTGGAATAATTATAGATTGTTCCAACAGAAAAGTTGCAAAGATGATGTGTAGGA
TTCCTGCATACCTCTCACCCAGTGTGCCCTGTTATTAACATCGTTTAAACAAACTCCAGATTCTGTTTGTGTTTCAACAGTTTTTCTATTCATGTGCCCA
TTCTGTTTCAGGATCCAATTCAGGGTAACATATTGCACTTCGTGGTCATCTCTATTAGCCTTCTCTGGTCTTTGGCAATTTCTCAGTCCTTCCTTGTTTT
CATGACCATGACCATTTTGAGGAGTACTAGTCAGTTGTTTTGTAGACTGCCCTTCTCTTTGTCTTTGTCTGATATTTTTCTCATGATTAGTCAAGAATTA
CGTGTTTTTGGAAAGAATACCATAGAATACCATATCATATCAGGGGTTTTGTGATATCCATGTGACATCATTAGTGATATTAACCATGATCACTTGATTA
AGTTAGTGTTTGCTAGGTTAAGTATTAAAGTTAGTATTTTTCCCTTTCTATAGCTATTCTTATGAAAATGAGTAGCCAGGTCTAGCCCACCCCCAAAGTG
GGTGAAGGGATTAGATTCCACTTCCCGGAGTTAAGGGTATCTACATATATTCGGAATTTTGTAAGGAAGATTTGTCTCTTTTCACCCATTTATTGCTTTA
TTCCACTGTTTGTATCTTATGGACTAGTGTGTATGTGTGAGTGTGTATTGGCTTGTGTATATTTATTCTGTACTTTGAGATTTTATAATCTATTTTTTTC
CGTCGAATAATTCCAGCTTTGACTGTTGGGAGCTCTTTTTGGTTGGCTCCTGTGTCCCTTTGACATGCCCCCATCTTTTTAATTTTTTTTTTCTTTTTGA
ACACTTTCTTATTTTCTGGTACTTTAATATGCTCCAGGCTCATCTTTTATTTTCTCTGCTCTAACCCTAGAATTAGACATTTCTCCAAAGATTTCTGGTT
CCTTTTGCTTGGTATTTAGAAACCGAGATCTGGATACTCTGCCGTCTGCTCCTTGCTAGTGGGGTGTCAGTGTTTCTAGGCCTTCTCAGCCAAAACAGCC
AGGTAATATATATATGTATTTTAAAGGATAATGGTGGATGATTATTCATTTATACTTTATTTTTATTTTTTTAGTTGATATTTTATTTTATTGACTTCTC
TCAAACAGATTCTATTCACTCTTCTATGCACAATTTCAGCCTGCTTGGTTCTTTAAATCAATTGCTAAATTAGAAAGAAGGCACTGCTACAAGATAACTA
GAAGTGTTAGCTTGATCACAAAGGTCGCGAAACGAAAGCTGTAAAATATAAAGCCAGCCTGAGCAACATAGACAGACCTCATATCTAGGGAAAAAAAAAA
AAATTAGCTGGGAGTGGTGGTGCATGCCTGTGGCCCAGCTACTTGGGAGGCAGAGGTGGGAGGATTACTTGGGCCTGGGAGGTGGAGGCAGCAGTGAGCC
ATGTTTGTGCCACTGTATTCCAGCCCAGACGACAGAGTGAGACCCTGTCTAAAAAAGAAAAGAAAAATCTCTATCCAGTACATAAAAATACTTTTATGCT
TTAGAGGGCTGCCTACAAATTTTGAGCAATGTTTAATATGGGAGATTCCTCCAAACCTATGGATAGTCCCCTTGAATATCACCAAATAGCATATAATTTT
TTAATAGTGAATCTGCTTTCTATAGGATGAAAAGGAATAGATTGCTTGTACACCCAGAGAAGCAGTTTGTTTTAGACCAGAGAGGACTTGCCTTACTTGG
TCCTAAGGGCTGTAACCCGACTTAGGCTTCTCTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCGGTGGTG
CAATCTCAGCTCACTGCAACCACCACCTCCCAGGTTCAAGCGTTTCTCCTGCCTCAGTCTTCTCAGTAGCTGGGACTGCAGGCATGTACCACCATGCCTG
GCTAATTTTTGTATTTTTAGTAGAGATAGGGTTTCACTATGTTGGCCAGGCTGGTTTTGAACTCCTGATCTCAAGTGATCTGCCCGTCTTGGCCTCCCAA
AGTGCTGGGATTACAAGTGTGAGCCACCGCACCAGGCCAAGTTAGCCCACTCTTATATCAAAGGACTGAAATATAGGTTTGTTTAAGTCTGAAATCAACC
TAAAATCTCTCAATGACACTGGGATGATGCTTATAATGATATAGTAAAAGGCCAAGCCGGGTGGATCACCTGAGGTTAGGCTTTCAGGACCAGCCTGGCC
AACATGGTGAAACACCATCTCTACTAATAATATCAAAATTAGCTGGACGTGGTGGCACACGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAAAA
TCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCCATCTCAATAATGATGAT
GATAATAATAATAATATAATAATAATATAGTAATGATAGCTGTGGTTTACTGAGTGCTTGGTATTTGCCATGAAATCTGTTAATACTACTACTTACTTAG
CTGGGCCCAGTGGCTCACACCTGTAATCCCAGCAGTTTGGGAGGACGAGGCGGGCGGATCACAAGGTCAGGAGATTAAGCCCATCCTGGCTAGCACGGTG
AAACCCCATCTTTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCAGACGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAA
CCYGGGAGGCAGAGCTTGCAGTGAGCCGAGATCCGCCAGTGCACTCCAGCCTGGGCGACAGAGCCAGACTCCGTCTCAAAAMAAAAAAAAAATTAATAAT
AATAMCAATAATATAGTAATGATAGCTGTGGTTTACTGAGTGCTTGGTRTTTGCCATGAAATCTGTTAATACTACTACTTACTTGCATAAAATCCACTGG
ATTTGTTTAATTTGACCCTTTCCAATCAGCCTTTCTCTTATTTGGTCACATGGGTCATATTTTTGTTCTTTACTCTTGCCTGCATCTTTTAGAGATCCAC
ACACATGCCTGAAACATTCTCTGTTGTCCCTACTTTTTGCCTTTGCTTGGATAACCCCTATTAATTTCATTTAGTTTTCAGCCTGAGTATCACTTTCACA
GGGAGACCTTCCCTGAACCCCGCTGCCCCAGTCTAGATTAGATTCCTCCGTCATACTCTCTTATTGTACTTTGCCTCAGGGCTATTGTGGTGCACAGCCT
ATACTCAGCATCTAGATGAGCATCTAACACCGAATAGCCTCACACTATCTGACAAGCACAGTTGTCAGGACAGGAGAATAATGTGAATATTTGTGGGAAA
AAAAATTTTTTTTTTTTTGAGATAAACTCTTGCTGTGTCACCCAGGCCACAGTGCAGTGGCTCAATCATGGCTTACTATAGTTTCAACCTCCTGGGTTCA
AGCAGTCCTCCCACCTCAGCCTCTTGAGTAACTSAGACTACAGGCGCATGCCACTACACCTGGCTATGGAGGGAATTCTTAACATGTAAAAGGCAAAATC
TCATTTAWTCTTTACAACAATGATTAGATGAGTCATGTTAGGCAAGTTACTCTGTTTGCCTCAATTGCCTCATTATTAAATAGGGATAATAATATCAACT
TCAAGGTTTTAAGGATTAAATGAGTAAATACATGTGAAGTGCTTAGGATAGTGCCTGGCACATAATACGTGTTCAAGAAGTGTGTGTTAAATAGGGAGCA
ACATGAAGATGGTATTGTTATGATGATTGATAAAACTGAGGATCAGCTGGTTTGTGGCAGAGCAAGGTTTACAACTCAATCTGTCTACCTCCAGAGCTCA
ACATGACTCCAGGTTTGCACTAAATTTAATCTAGAGTAGAGCTTTCTACAGTAAGATTTCTTTCAAGCAACTGTTTTACTGCCATGGCTTTGCCAAAGTG
AAAGATTCTAAAAATGAAATTACCCTCTTTTAGTGGATCTTATAATAAAAAAGTAACTAACTAGGAAAATAGTGGCAAAAATCTTAGAAAATTTCAAAAT
AATATTACTGAGTGATTTTTTTCACTTTGAAAAGGGTTTACTTCAGAATTTTATTAAATATATATTGTTTTCTCAACACATTTGAAATACACATTCTACA
AAATTTTCTTTATAAGACCAGGCGCAGTGGTTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGTTCACTTGAGTCCAGGAGTTCAAAAC
CAGCCTGGGCAAGTGGTGAGACCCCATCTCTACAAAAAGTAAAAAAGTTGGGCATGGTGGCAAACACCTGTGGTCCCAGCCACATGAGATGCTGAGGCAG
AAGTTTTGCCAGAGCCCCGGAAGTCGAGGCTGCAGTGAGCCATGTTCCTGCTACTGCACGCCAGCCTCAGTAACAAAGCAAGACCCTGTCTCAGAAAAAA
AAAAAAAAAAAAAAGGATAAGTTTATTGTATATTTAAGACTTCTGACTGGGTGGGGTGGCTCGCAAGTGTAATATCAACTCTTTGGGAGGCTGAGGCAGG
AGGACTGCTTGAGCCTGGGAGTTCGAGACCAGCCTGGGCCACATAGTGAGACCCTGTCTCTACAAAAAAATTTAAAAATTAGACAGATGTGGTGGTGCAT
GCCCCAGTAGTCCTAGCTACTCAGGAGGCTGAGGCAGGAGGCTCACATGAGGCTGGGAGGATGAGACTAGAGTGAGCAGTTATTGCACCACCATACTCCA
GCCTGGGCAATGGAGCAATACCCTGTCTCAAAAAACAAAAAACAAAAAGACTTCTGTGACTTGATGAAATGGTGCCATTTTAGAAATTTTACACTAGAGC
ACAAAGCACTATGCAATGCTGGGATAATGAATAAGACTCAGTTCCTTCTTTCAAAGGAGATATCATGTATACAAAAAATGTTAAGAGAGAGAGTGAAGTG
TAGCCTATGGGATGAGTATAGGCAGATGATCCAACTTCAAGCCTCTAAGTGGGAATTTTAAAGTTTTAAAGCTTTTAAAAGCATTATYTATCATCTAAGC
GGGAGTTAAATAAAGAAAAAGTAAATGAAAAAAATTTAATAATATAAAAAATACAAAAACATTATTATAAAAGWTGCTGAAGCTCATTATTAAAAATCAG
AAGGCATGGATGGGTATTAAAGTTCAAAGTAAAAGTTTTTTCAAAAAAATTTCTTTGCTTAACCCTTAGACACACTCTCAGAAGTCATGGTTAACAATTT
TTTTCTTTTTTGAGACTGATTCTCACTTTGTTGCCCAGCCTGGAGTGCAGTGACGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGATTCACGCCATT
CTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCGCCACCATGCCCGGCTAATTTTTTTGTATTTTTAGTAGATACATGGTTTCATCCTGTT
AGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCAAGAGCCACCACCCCGGCCCATGGT
TAATAATTTTCTACAGATCCTTCCAGAAAATGTTTATGTGCATTCAAACATGTACAATGATGTCCTAGTTTTCTATGGCTGCTGTAACAAATGACCACAA
ACTTGGTGGCTTAAAAAAACAGGATTTATTCTCTCACAGTATGGAGGCCAGAAATCCAAAATGAGTCTTATGGACCTACATCAGGGTGTCAGTCAGCAGG
GCCACACTCCCTCCAGAGCCCCTAGGAAAGAATCTGTTCCTTGCCTCTTCCAGCTTCTGGTGGCTGCTGGCACTCCTAGGCCTGTGGCCATCTTTCTCTA
CTCTATTCTAATTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCGGTGGTGCCATCTCGGCTCACTGCAAGCT
CTGCCTCCCAGGTTCATGCCATTCTCTTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGT
AGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTTTCGACCTCCTGACCTTGTGATCTGCCTGCCTTGGACTCCCAAAGTTCTGGGATTGCAGGCGTGAG
CCACCGTGCCCGGCCTACTCTATTCTAATCTTTCTCTGATCCCTCTTCATATCACTTTCTCCATTGGGTCAAATCTCCCTCCGTCTTGCCCATAATGATA
TATGTGATTGCCTTTACCCACCCAAACAATCCAGGGTAATCCCCCCATCTCAAGATCCTTAATTTAATCACATCTGCAAAGACCCTTTTTCCAAATAAAG
TAACATTTACAAGTCCCAGGGATTACAACGTGATTTCTTTGGGGGTCATTATCAGCCTACACAAATRCATATGTAAATGTGTATGTGAGATACACACACA
CACACACACACACACACACACACACATACAAAAAAGGAATTAGACTTCATATACTGTCTTGCAAATTTCTTCTTAAAACTTAATGGATTTCTTCCACATA
GGCACATTTGACCCTTGAGCAATGCCAACGTTAGGGATCCCCCTGTGCAGTGGGAACTTCACATATAATTTTAGACACCCCCAAAACTTTACTAATAGCC
TACTGTTGACCAGAAGCCTTATTGATAACATAATTGTTTAACACATATTTTGTATATGTATTATATATTGTATTCTTACAGTAAAGTAAGCTAGAGAAAA
GAAAATGTTAAGAAAATCAGAAGGAGGAAAAATATTTTTTCTCGCTCCATCGTTCAGGGTGGAGTGTTGTGGTCCCCTCTTGGCTCACTCTTTCTGGGCT
CAGGCAATCCTTCTACCTTAGCCTCCCGAGTAGCTGGGACTAACAGGCATGTGCCACCAGGCCCAGATAATTTTTTGTATTTATTTTTAGAGACAGTAAG
TAGACTGTCTTTTAAGTAAAGTAAGACTTTATTGCCCAGTAAGTAGAAAATATATTTACTATTCATTAAATGGAAGTGGATCATCATAAAGGTCTTCATC
CTTGTCATCCTCATGTCGAATAGGCTGAGGAAGAGGAGGGGTTGGTCTTGCTGTCTTAAGGGTGACAGGGGCAGAAGAAAATTCACATGCAAGTCAACCC
GTGCAGTTCAAATCCATGTTGTTCAAGGGTCAACTGTATTTATATATTTACTTCTGTCTTCCATATCATCTTTTGTTTACTTTAAATATTTGCAAAGCAA
TTTTTGTATAGACGAATGTCTCATTTTTTGTGTATGGTAAAAAACAATAGTATAAAATTTACCATCTTAACCATTTTTAAGTGTACAGTTCAATAGTGTT
AAGTATATTCACATCGTTATGAAACAGATCTCCAGAACTTTCTCATCTTGCTAATCTGAAACTCTGTATCTAAATATTTCTCTTATCCCCCTCCCAAGCC
ACACCCCCACCCCATCTTTGGTTACTACCATTCTACTTTCTGGTTCTATGAATTCATGAATTTGACTGCATACCTCATAAAAGTGGGTTCATACAGTATT
TGACTTTTTTTGTGACTGTTAGTAGATTTTTTTCTCTAATTTTTAAAATGTTTAATTCGCTCATAAGCACAGCACAGGGTATTATCCATTTGTGTGTGCA
TACACACATACACTCATYGTACTWTGTTTATTGCAGTTAACTGAAGTCCTATGTCACTAGAATGCTATGTAACAGAAAATGYYKSTYRTACCTCTTGTGA
TAAATATTTGTTGGGTACTTATTTTGTATCACACATTGGAAGAAAAAGATAATTAAGATACATTCCAGCCCTTGCCCTTGAGGAACTCACAATCTGATGA
GAAAGGCTGATCTGCAAACCATTACCCTCAGAACAGTTAAGCTTGATGGGAATATAATGAATGAAGGTCTTAATTACCTAATTCAGAGGTATTCTTTACA
GTTAAATGCATTGTAGAATGAGACTGTCTTGGCAGTTCAAAAATCAGACTGTTTTAATCTGAATCCATTTTTTACTTGGCAACTTTATTTATTTATCTAC
CCCGCCCCCACCCAAGTAAGGAAAAGATACTTGGCAACTTTAGCTTAGGGTTCTCTAAAACCTTCAGAATAAGAGTAACCTGAGTCTGCTCCCTGGTGGA
GCAATCTTCATAACTGTTCTTTGGATTCTTAAATTTCTGCTTTATTCCTGTTGTGGATAGGAGAAATTGGGTTACTTACAAATGGTCTTTAAGCTTACTA
CATTGATTCCTGTACTGATCTGATGATGGCCCAAGGCTTTAAGGAGGTGTGTTGATTCATCTAAATTAGGTGGAGTAATATGGACTTAAAAAAAGCACAT
ATCTTTCCTGTTGGTATGATGGGAGACACAAAATGCAGTCAAACCTTGTAAACTAGGATTCAGGACAAACTCCTCCTACAAAAAGAAAATTAAAACTAGT
TGCTAACCTTTGGAGATCTCAGAGACTAGGACTTAACTCCTTGAAATATTAATGCYGTTTCTACTACAATTTTCTTAAGAACTCTTCATATTAAATTAGA
TGATTGCACATTACAATTGTATTGGCATGCAAGATTACTTACATAGACTTGTACATTTATTTACGTTGACTTTTAGGTCAATTTTTGAAAGATCACATTT
TACACACAAGATGGGGAAGGTTATTTTTCTTTTTTTCTTTTATAGAGGTATGGTTTTGGTTAGTTGTTCAGGGTGGAGTGCTGTGGTGCAGTCTGGCTCA
CTGCAGCCTAGTCCTGGGCTCAGGATCCTCCCACCTCAGCCTCCGGAGTAGCTGGGACTAGTCTTGTACCACCATGCCCAGCTAATTTTTTATTTTTTGT
AGAGATGGGGTCTCACTTTGTTGCCCAGGCTGGTATTTTTCTATTTCACCTTCTATTACCTTCCTGCCCATCTTGTATCATTGTCCAGGATTCCTCCAGT
TTTGTAAAGAACGAATTCCGTGAAAAGGTGAGGTGGAGCATTGTAGGATCTTTTCCAGGCCTTTGAGTTGCCATTTGAAGAACTGCTCGAGTCCAAAGGA
GGTTAATGAAGTAAGCAGCTTACATATAATGAGGGGCTATGTATCTACCTTGATGCTTTGGCTGTTACCTGCAGTAATTTTTTTCACCCTTGGAGGAGGG
ATTAGGATTGTGATAGTGGGAACTGGTCATCTCCTTTGTTTCTGGAATATTACGTGTAATACTACCAAAAAAAGAGGTCCACCCAACTGCAGTAGTCTTC
CTAGTTGGTCCATCATTTGCCTCTTGCCTGGGAAAGCCTAGGACCTAGAAGCAGCGCCTGAGGCCTGCAAACCTCTGGGCGAAGATACACTGCGGCCCCT
TTAAGCTTTCAGAGTGTGCGGAGAGGGGAGCTGAGGGTGGGGCGGGCACTCTGACAGTGGCGCTCCGGGCCCCGCCCTCGGAGGAGGCGTTTCCCAGCGG
ACCGCAGCACCAATGCTGCTGCCGCCGCCGCCGCCGCCTGCCGGGTATTCCTGCTGATCCTGCTCGGACCTTAGCTTCCCTGACCTCTCCCTGCCCGGGG
AGCGTAAGTGTCAAACCACGGGCAAAGGGCAAGCATCCCGCGACCGTGCTGCAAGTCCTGGTGGACAGTACTGGGGACTTTGCTGGCCTATCAGAGGCTA
AGGCGGCGAAAGAGCGTAAACAATGCCGGCTCCAGTGAGCTAAAGCCAGGGTATCTGCTCTACTTCTGGGTGGTGACAGCAGCCGTAGGGTGCTTGTTTG
GGCATGCAGTGGGTGAGCAGTGCCCACGACCTGGCTTTGCCCCCACCTGGTTCTTACTTGGGGTGAGGAGAGGGTTGCTTTTACCAGAGTATAACCCATT
TGAGCTGAATGGGTGGAGCTGAATCTCTCTCTCTGGGCCTTGGATCCTTACCCTGGTATTTGAAGACCTTGGTAGCTTTGGGATGAGTAAGCATTAGGTT
TTCAGCTACCTTGGTACAGTCGAGCAGTAACTCCAAGTTGTCCTAATTCACAGCCAGGTTTAGCTGTCTCTCCAGAGGCCTGTGTTGGTGGTATCCCGTA
CCCCTTTTGGATATGTTGACAGTGAACATCTCTTAGGAAGAGTCCAGTTAACCTTTCCTCCTGATATAAAGAGCACAATGTGAAAGAGACAGCTCTTTAC
CCCTCTCCATCTCTGAAGGAATTTGTGGGACGCCACTGTCCCAAGATTAGGAAAGCAAACACACCAAAGTTTGAGATAATCTGCTAGAAAACTGTTCAGA
TTTCTGGCCGCCTGGTAATGCAGAATACTCCGGCAAGAGGATAACACTTGTCCTTGTTAATGGGAAATACCTGGAGACAGTGAGTTTTTTTTTTAATTTG
AGGGAAAGTGTTGTCATTTTTGCCACCTGCTACTCAGAGATGGGATTTTGTCAGATTTTGGTTAAGTAATAAAAATCTTAAGTTTTCTATGACAGTTACA
TAGTTGTTGTGTTTCTTTAATCCAGTTGTCCTTCCTAGACATGGTTTGAGTAGATTTCTGGGCATGTGTATGCATTGCTTTTTTAAAAAAATAATTTCTT
TTTTTTTTTTTATGAGCCTATCATCACACTCAGTGGYCATTCAAATGGGTTGCTTTTTGATGGAGCAGAAGTTTTTCTCAAACTTCTGTTAAAATCATTC
TGTGCTTCTGCAATAGCATCTCCTTAGCCAGAGGTGAGAGTCCAGGAATGGTAATCAAATTCAGATCTCTTGTATTGTGATAGTGAAGAGCTTTTGTAGG
TCAAGAGCTTGGGAATTTGCCATAAAAAAGTCATACTGCCAGTGGTTTTTCTCTAAGTAGAAGAGAAAATAATCTGTACAGTAGCTCTGTAATTACTCTT
ATAGACTATCAAAATACAGGAATTTAAACTAAAAAGACACCACACTTGGGCCCATGGGTTGTAGGGAAGAGAGACAGACTGAGAAGTAGGAGACATAGGT
TCTAGGCCCAGCTCTAGTATTACTCATGACTTAATCTCTCTGTCCCTTTTAAATGGTTGGTTAATGAGAAAATGCACAGATTTTGGGGTCTCTTTTATGA
TGGGATATAGTGCATATTTAATAGGAAATTTGTTATTTATTTGAACACTAAACTGAAAAATCAGACAATTTGGAATTTATTCTAAGTTCTGCCTTCATGT
ATAACCTTGAAAACATTTCTTAACCTCTAGTCTAAAAATAAACAATTATGCCTAAACCTTTTCAGCAATAGCATGGACTATATGGTATTTGAGCTCTTAG
GAAGACATTTTTAGATCAGTGGTATATGATTATAATATATCTGTAAAACATACTTACTTTAGCTGACCTACTTGTCTTTGCCTCAGTTTTAGACTGGGAT
AAAATCTGAGAGCTCTGAATAATTGAAATTTCTGAATATGTGTCTTTACTAGGGACTAGATCAAATAAACCACAGCAAGCATTATGTATAGTTCAAATTA
ATCTTCTTAATGCTTCTCTTTGTTGGCAATTTTATTTGCTCTTTAGGCATCAAACTCTACTGTGTAGCAAAAACTTGGTTCTTATATCTGTTTATAAAAT
CCAGATCAGTCTGCTCATCCCTATATGATACTTTTAACTTTTTGAGAAACTTCCAAATGGTTTTACACAGCAGCTAGACCATTTTGCATTCACAGCAGCT
GGACCATTTGGCATTCAACTTAAAAAATACAGAGGTATAATAATTTTTATTGTATTTTACAGACATACTAGTATTCAGTTGGTGGGGGTGGTAGGGGGAA
GACTGGTCCTGAGTTTGAAAAGCACAGTTTGATGAACATGTGAACTGTTTCCAGCTTTTGACTACTATGAACAACATTGCTATGACTATCCCTATATAGG
TCTTCTGGTGTAATTTGCATCAGTTTCTAGGCTATACACCTAGGAATGGAGTTGCTGGGTGGTAGGGCATGTGTATCTGATAATGCCATACTGTTTTCCA
GACTGTTAAACTATTCTGTCTCCCATCATTGGTGTATTTGAGTTCCTGCAGATTCTCCTGACTCCTTTAAATTACACTGCTGCTGTTTCATGGCAATCCT
AGGGATTTTGAAGAAAAATCTTAATGAAAGTTCCACATATCCTAATAAACTTTTACAATTCCATCTTTCTCTGGGACATTTTCTTCTTTGCCATGGGAGG
GAACAAAATGTAAAGGAAGAAGCATAGACTATGAATCTTAGTTTAATTTCATTGCTTACCAGTTTTGTTGTTTTGGCAGGTTACTTAATATTTGTGAAGC
TAGTGTGTAAAATGAGAATATCTTTCCTTCACATAGTTGATGTCAGTATAAAGTGAATTAGCGTGTTTAAAAAGTACTTTGCACCATGCCTGATTCAGAA
TAGATATTACCAGAGTATATATTCAATAAACAAATATTTATTGAAAACATATTTTATGTCAGGCCAGAACTAGGGATGGAGAATTACGGAGGACCGCTTC
TATGTTATTAATAATATTGAAAAATCGGCCAGCCTGGGCAACATAGTAAGACCCCATCTCTACAAAAAACTAAAAAATTAGTTGGGCATGGTGACATGTG
CCTGTAGTCCCAGCTCCTTGGGAGGCTAAGGCAGAAGAATCACTTGAACCCGGGAGGCGGAGGTTGGGAGGATCACTTGAGCCCAGGACATCAAGGTTGC
AATGAGCTGTGATCACACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAATGAAAAAGAAAAATTGGAAACAATTTAAATGTCCAA
TGGTAGGGTTGGTAATTATGGTACATTTGTAAAATGGAGTGCTATGTAGACTTTAAACATCATATTCTCAAATCTGGGAAAATGTTTGTGATCATATAAC
AAAAATGTTGTAAGGGGATTATGCCTGTCTTTTTCATATGATTTATATTACTACAYGTGTATTGAAAAAAAACTGGATACGTACTTTAGTGTTCATCATG
GTTATTAGGTGGTGGTAAAATTGTATTTTAATACTTAGATTTTTTTCTGTAGTTACTAAATTTTCTGCAGTTTACACACATTACTTTTATAAGAAAAAGG
TGTTGTCTAGATAGATAGCATAGGGGTGGGTGCGGTGGCTCACGATCAGTGGGATCACTTGAGCCCAGGAGTTCGAGACCAGTCTGGGCAATATAACGAG
ACCTTGTCTCTACAAAAAATTTCAAAATTAGCCGAGCATGGTGGTGCACACCTGCAGTCCCACCAAATCCTAGCTACTCAGGAGGCAGAGGTGGAAGGAT
CGCTTGAGCCCAGGAGGCAGAGGTTGCAGCGAGCCAAGATCGTGTTCATTCCACTCCAGCCTGGACGACAGAGCAAGACGCTGTCTCAAAAAAAAGAAGA
TAGGTAGCATAAAGTTATTAAAAGGATGTTGACTTTAAACCTCACTTAAAAACATGGTTTACATAAAGAATATGTATAAAGGTTCATTCAGGGATTTAAT
TTTGTACTTGTTTATATAAACATTGACTAGTCATGTTTGCTAGAATTAGGGAGCTTGGCAGYATCAACATTTTTACATATTGATTCTTTCCTTTTCTTTC
TTTCTTTTTTTTTTTTTTTTTTGGGACGGAGTCTGTTGCCCAGGCTGGAGTGCAGTGCGATCTCGGCTCACTGCAAGCTCCGCCTCTCGGGTTCACGCCA
TTCTCCTATCTCAGCCTCTAGAGTGGCTGGGACTGCAGGCGCCAGCCACCAAGCCCGGCTAATTTTTTGTGTTTTTAATAGAGATGGGATTTCACCGTGT
TAGCCAGGATGGTCTCGATCCTGACCTCGTGATCCGCCCGGCTCGGCCTCCCAGACTGCTGGGATTACGGGCGTCAGCCACCACACCCGACCCCCATATT
GATTATTTTCTATAAGTAATTCTAGGTGAAAGTATGACTTTTTCCAAAACTTTTTTCTTGGCCTTTTAAAAGGCCATTTAGCTCAGCAATTCAGTTTTAT
TCCAGCTTCGTTTTATATCTAAGAAGTTCTTATTTGGGAAAATAAAAGCATCATTTTTTAGAAAACAAATTTTTGGTTTTTTTGAGACAGGGTCTTGCTC
TGTTGCCCATGCTGGAGTGTAGTGGCATGATCACAGCTCACTGCAACTTCTGTCTCTTGGGCTCAAGTAGTCCTCCCACCTCAGCTTCCCGAGTAGCTGG
GACTACAGGCACACACACCACTACGCCTGGCTAATTTTTGTGTTTTTAGTATAGATGGGGTTCCACCATGTTGCCCAGACTGCAATATATTTATATTTAT
ATTTTTTGAGTGACTTTATTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAATGCAGTGGGACAATCTTGGCTCACTGCAACCTCCTCCTCCC
AGGTTCAAGCGATTCTCCTGTCTCAGACTTCCGAGTAGATGGGACTACAGGCCTGCACCACCACACCCAGCTAATTTTTGTATTTTCAATTGAGACGGGA
TTTCACCATGTTGACCAGACTGGTCTTGAACTCCTGATCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACCACT
GTGTCCTGTCTTTTGAGTGACTTTAAAAAAAAAATTCTATTGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGG
ATCACGAGGTCAGGATCGAGACTGTCCTGGCTAACATGGTGAAGCCCTGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGGGTGCCTGT
AGTCCCGGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTCAGCCCAGGAGGTGTAGCTTGCAGTAAGCGGAGATCGCGCCACTGCACTCCAGCCTGGGT
GACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAGTCCTGTTAATTGAATTAAGTGGGGATCTGACGAAAGAACGGGATTTTTACTCTTG
TTGTTGCATGAATGATAAAATAATAATCTCAGAAAAGTTATTTTTGTCTTAAGAGACTGCCTGGTTGCTAAGCAGGTTTCTACCTTTATCTGACCAGGAA
ATACTCTTAATTCTAAGGAAAACCTGGAAGCACAATGGGAGATGACAGTGAGTGGTTGAAACTGCCAGTTGATCAGAAATGTGAACACAAGGTAAGATTC
TTCTGGAATTCGATTTTCAGTGTCGTTGGCTTGTTTTGTGAGCAGTTATACTATCATCTTACTTAGAAGTGTGTGAAAACATTGGCAGTTTCAAAAATAC
TGATGCCTTGTTAGATATGTTATTTTTTCTCATTGAAAATAGGTTTCTGTAGCTCAACTAAAAATTTTTTTGTCTCTGGAAAGAATTCAAAGAAAAGATA
TTAGTGAAGTGAAAAGTAAGTGGTATCTATGAAAAGTAACTGGCTAGTTTTTTCATCTCCTTGTATATACAGTACAATATACTTCTGGTACCTAAGTACT
TACTAATATTTTATTATATAGAGACTCTTCTTTTGAGATGTGTTCTGAATTTGGCCTTAGAAATCCAGCATTTTTTAGGTTCTCTGATTTATATGATCGG
CATTCCAATATTTACCCTCAGAATCTACCAATCTTTATTTTCTAGTTTATGCTAGTAAGATACAATTTATTACATCATGTCATTATTTGGTGGGCATCCT
TTCAGATTATCTTATTTTTTCCCCAACTATACCTCTAGTTTCTTTCATTTTTAATCATTTTAAACAAACATCTACCATCTGGTAGATTTTAGAATTTCAT
TTCTTCTTGTAAATTTATTCTACTCCAAGTCCTCAGGTTTACCACTTTATGTTCTTGACAGTTCTTTTAAARTTTGTTTTGAATCTGAGTATTCAAGATT
TATGGTTGTTGATTACTAAAAATACTGAATAAAATATACTAACTTACACAGTTGTATACATACAGTTCTACCTATGTAGAGTAGAAATTTGGAGCCATGG
TCCCTATATCCTCCACAGAACCACTCCTTCATCCTATATAATAAATTAGCCAAGGCCGAATACTGTATCAAAAATCAACATGTAGCTCTTCAAATAAGGC
CAGATTAAAAGTGAGCTAGTTGGTTTTTATTCTAATTCGCATAGAAATTGTTGGTTATGTAGTACATTAAATTGCAACAAAAATTGGGGGAGAATTTTGG
AACTTATTTAGAATCGTTAACTATAATGCTTTTTTTGGTAGATATTGTATATTCTCACTGAAAGGGGCAGACAATATAGATAAATCTTAGACTTTCCGAT
TTTTGATTGGTTAATATGTGCTAAGAGTTTTTCAATCTCGTGTGATTTGGTACTTTATTTTTCCCATTTTTTGAGCATTTATTGTGTGTTTTTGAAACTT
AAAGCATAGAGATGTTAAATCTGTTTAGGGAACACTCATTCTACTTTATAGAATGAGATGTTGCCCAATTTTAAAAAATAAAAAAATAAATCTGGTTTAA
ATTGGTTAGTAAATGTTCAACTATGATGTTAATTTATGTTATACTTCACTCTAATTTTGCAGAATAGGTAATGCCTTCTTCCTAATGAATGCATCTTATA
GTGGGTTAGGCAGCATTCCTTCCTTAGAAGGAAGAGTTTTTTCTGTGAGCATAGCACCTGCCCCAAATCACATTTTCAATTACATTAATTGAATCAATTC
AATTACATTTTCAATTACATTTTTACTTACATTAAACAAATAACATGTAAATTATTTCTGTTTTTCAATCATATGTTGATCCTTCTGTCTCTTTGATCTA
ATAGTGTTGAGGACAAACATCTAATTCTTTACTAATGCTTAACACAGTAAATGCAAATTCGATCATCCCACAAACTAACTTCTCATTTAACTGCCCCCAA
ATCATTTCATTGCTTTCCCATTGCTCTTAGAATAATGAGTGGAATCTTTTCTTTGGCCTTCATAGTCCTGCATGATCTGGCCTTTTCCAATCCTCTCCAG
CTTACTTTGTACCATACTCCCCTTCTCTTTCTTTATAGGAGTGGGAAATACCATATTCCCTGCTGCCATAGGGCCTTGGAGTATACTGTTCCTTCTGGAA
TGTTCTGTCTCCCCTTTTGCCACTCTTTCCTGATTAGTTCCTATTTATCTTTCAGGGCTCAGCTCAATTACCATTTCTCAGGAAATTTTTTCTTAACACT
AAGACAAAGCCTTTTATAATATATACTTTCATAGCACCAAGTTGCTTCTCCTTTGTAGTACTTAATGCTTTGTTAATTTTAAATTTATTTGTATTATAGC
TTAATGTCCCCTCCTGCTGGAGTGTAAGCTCCACAAGGGCCAGAGCTGAATTGATTTTTATTTATTAAACACCTGTTGAATAAATTAATGAAAAAAGAAT
ACCTCAGTAAAAATGTCCGGAATCTACTAGCTGAAATTAATATACAGTGTAATATAAAGCTACCTAATGATTATACAAAAATAGAACCAAAAAACAGCAT
ATACTTTGGAGACGGGGCAGTTTCATCAGGGTGATTTCTCATGTTTGAGTTATCACATCTTTAATACAATATTATAAAGAAGTAATAATTCTTAGATACA
ATGTGAGATTCATTTATAATGGCCTATTATGAATGGCAGAGTATCATAAACACTAAACACTTGTAAGAAGTTTATTAGCTAATCTTTTTTGAAAACTGCC
AATTTCTTAAACTCTTTTTTCATTTCTAGTCATGGGGTCCTTTGTTTACATTACCTGACATAGGATATTCATTTCTATTCTCACACCCTCCCCCCCAGAT
TAATAGTAGATGATAATATCATTAAATTATGTTTTGTTTCAAAATACTACTTTTCTTTTAGCTGTGGAAAGCAAGGTTAAGTGGGTATGAAGAGGCCCTG
AAGATCTTCCAGAAAATAAAGGATGAAAAGAGCCCAGAGTGGTCCAAATTTTTAGGATTGATCAAAAAATTTGTCACTGATTCCAATGCAGTGGTTCAAT
TGAAAGGATTAGAAGCTGCACTTGTTTATGTTGAAAATGCCCATGTAGCAGGAAAGTAAGTACTTTCTTTCCAACTTTACTGATAAAAACCCCTGTTTGG
TGTTACATAATGTATGTTTGTAGATCACTGTCCTTAGTTATTAGCAGTTTTAGAATAGATGAATTTTCTTACTTTCGTAGTTTCTTGATACTTGTTTTTC
ATTCAGTCTTTATTCTCAGAAATCTAAATGGCACATGAGATCTGTAGAGGAGTAAATTAGAAATAATATTTTGAGGGTTTACCTTAAGGTTTGATGACCA
AGTGGTTTTCCTTTTAAGCTTTTTGTATGGGAATTATTCTAAACTAAAAGGAAGAGTCTTTAGTAACTTCAAAAAGAAACTGAGAGATTGTCAGTAAAGG
AATTATCAGAATTTCACTGAAGACATTTGGGCATTATAGAAAACTAAATTTTTTACAAGGGTTGTTAGATAGGTGATGTTAGAATCATGTCTTTCTCCCT
TTGTTCATTAGGCATTTTTATTTCTTGGGGGAGGTAATGCTTACTAAACAACCTCAGTGACTCCTGGCCAGTTTAACTTGATCTGTGAATGACAGATTTC
TAGTCATCCTACTATCCCATACCTCATAGACCTGATTTTCCTAACTCTAGTCTCTGTGTCATTGAAAGGAACCCTCCATACAAAAAAAAAAGTTGAAACA
CTTGACTTAATTGCACAAGAAATATATACTTGACTTACTTCAAAGATTATACCAATAAAGATCATCATTAATTTGACAATTTGGTTAACTGGCATCACTG
GGTTTCCTTTACCGTTAGTAAAACTATCACTTTTTAATTTCTCTTCTGATACTAGAAGCGGTTTTTTGATAAATGCTGCATGTAATCTCAACCCACTCAG
TTCTTCTGATTCCCGGTAGTGTAGGTTTCATTTCATTTAGAGGAGATTCAAAGCAGTAAAGTTATTGTAAAGTCTTATCAAGGAGTCAAGAGTAGTCTTT
TATTATTAAAGGTACATATCCGTTCCCTCTGTGAAGAAATTCTCTTTTCCTAAAAAGTGTTTAAAACGACTTAAAAAATTTTTTTGCCCAGATGCAGTGG
CATGTGCCTGTAGTCCTAGCTACTCAGGGAGGCTGAGGCAGGAAGATCGCTTGAGCCCAGGAGTTTGAGGTCACAGTGAGCTATAATCCCACCACTGCAC
TCCAACTGGGTGACAGCACAAGACCCTGTCTCTCTCTCTTTTTTTTTTTTTTTCTTTTTGATACACAGTTTCGTACTTGTTGCCCTGGCTGGAGTGCAAT
GGCGCGATCTTGGCTCACCACAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAATTACAGGCATGCGCCACCACA
CCTGAGTAATTTTGTATTTTTAGTAGAGATGAGGTTTCTCCATTTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCC
CAAAGTGCTGGGATTACAGGCATGAGCCACCATACCCGACCAACCCTGTCTCTTTAAAAAAAAAAAAAAAAAAAAAATTGAAAGCAAGCATTCTGTAACC
CTACTTTTGTAAAGTATATTTGTATGTCCATATACACACACACTTAGAGAAAGGTCTGGAAGGAGGGATATCAAAAAGTTGAAAGTAGTTTTCTCTGGGT
GGTGGGATTTCAAGGGATCTTTAATTTTTTGTTTGAATTTTCTACATTTATAAACTGTTACTATGCCTGCTATGACATGTCTTAAAATTTTATGTTTAAC
GTTAAGTTTTTAAAATATTCTTGAACATAAATTTAAAAATTAAAGACTCATTTACTGTATTTCTAGCATTTGTAAAAGTACTAGTACACCCCCTTTCCGT
GACCTTTTTCCAATTCTTACTACTTAAGTGGGATTTTTGTTCTTTATAATATGTTACAGAACCACAGGAGAAGTTGTGTCAGGTGTTGTAAGTAAGGTGT
TCAATCAACCTAAAGCTAAAGCCAAGGAGCTGGGCATAGAGATCTGTCTTATGTACATAGAGATTGAGAAAGGAGAGGCTGTTCAAGAAGAGCTCCTGAA
AGGCTTGGACAATAAGAATCCCAAGATCATAGTGGCCTGTATAGAGACACTGAGGAAAGCCTTAAGGTAAGACTTTGTTTTAGCTTTGTTAACTAGAGCA
GCAGTCCCCAACCTTTTTGGCACCAGGGACCAGTTTCATGGAAGACAATTTTTCCATGGAAGAATTGTGTGTTGGGGGGATGGGGGGTCGTTTTGAGATG
AAACAGTTCCACCTCATAAGGAGCATGCACTCTAGATCCCTCACATGTGCAGTTCRCAGTAGGGTTTGCACTCGTATGAGAACCTTAATGCCCTGCTGAT
CTGGCAGGAGGCAGAGCTCAGGGGGTAATTCTCGCTTGGTAGCTGTTCACCTCCTGTTGTGTGCCTGGTTCCTAACAGGCCACTGTACTGGCCACAGCCC
AGGGGTTAGGGATCCCTGAACTAGAGTATCTCAATTGAGTTTGGATTCCGGGTTTAAACAGAAATGGAAACTGCAGAATTTGACTTGGCATGCCAAAACA
AGCAAGAAAGTGACCTGAATAAGGAAAGTCATTCCCCAAGTGTGGCACTTCATGTTGACTAATTTTAGCCTTCAAGTGTGTTGTGTAGTTATTTTATCTG
AATCCCTTTCTYATGAAGATGAATAGAGATTTCTGACCTGTTATCAGATTAAGAATTAGGCTTTTCAGTTGGGGGCAGTGGCTCATGCCTGTAATCCCAG
CACTTTGGAAGGCTGAGTTAGGAGGATCACTTGGGGCCAGGAGTTTAAGACCAGCCTGGGCAAGATGGCAAGACCCCTGCCACTATAAAGAAGCTGAGGT
GGGGAGGATCTCTTGAGTCTAGAAGTTCTAGGCTGCACTGAGCTGTGATTGTGCCACTGCAATTCAGCCTGGGTGAGAGAGCAAGACCCTGTCTCTTTAA
AAAATAAATAAATATGGCCAGGCTCAGTGGCTCACTCCTGTAATGCTAGCACTTTGGGAGGCCAAGGCAGGCAGATCACAAGGTCAGGAGTTTGAGACCA
GCCTGGCCAATGTGGTGAAACGTCTCTACCAAAAATACGAAAAAATTAGCTGGGCATGGTGGCGCRTGCCTGTAATTCCAGCTACTCGGAAGGCTGAGGC
AGGAGAATTGCTTGAACCTGGAAGGCAGAGGTTGCAGTGACCCAAGATCATGCCACTGCACTACAGCCTGGGTGACAAAGCAAGACTCCCTCTCAAAAAT
AAATAAATAAATACATTTTAAAAATTGGCCTTTTGGTGGAAAAGCACTGAAAAGAAAAGTACTGGCCTTTTGTTGGAAAACTACTCCTCAGGGTATTTAA
GCAGCTCTTTTTCTCTTGCTATCTTAAGTATAGACTTTCGAAGTCTATACTTTGAGATGTTGGCTAAAGATAAAGTTTGTGGACTAAAGCTAACCTTTAT
TTAGGTGCCTTTTTAGTAAAGTAGAAGCAAATGCTATATGCCTTTAAAGAGACGCACAGTGAAAGCAAATAGAAAAGTAACTTTTGCTCTTATGTAGTAA
GTTCTTTTCAACCCTAGACTTTCTTGTTTGGCCATGAAATTTTTCATGAATAGGATCTCTTTCAGGAACAAGTGGATGTAATTTGCTATGGAAATCTGAA
TTAGACAGATCACTAGTTTGTTCAGACTTGGCAGTTCTTCTAATCTGRTATCCTGTCCCCAAGTACTGTCTATATCAGATATTTTAGAAAGCAGCTGTAG
TAAAATCCTCACGGAATGAAGATCATCCATCTCACCTCTCATGATTTTGTGTATGACCTACATCTTGGAGAAAAATGTTTCCTTTGGTGTTTATCTTCTG
TGAAAGTATAAAAACTCTTGTATTTTGTTGAATGATCTTTGATTTATAGGTCTTTAATATTGTTTTTTGCTTTGCTCATAATGTACTTTTATAAAATTTG
ACTTGCTTAGATTCTTACGTGAATGAAGTTTCCTTGTTTCTAGCCTATTACAATATAGTAAGCAGATGTTTTTCTGAGTAGTAAACAGTATGCTCATTCT
ATTATCTTAGAAATTTAGTGACTCATCTTAGTTATCAGAACTATGCTTATATCAATAAATCTTTTGTGTCCTTAGTGATGTCTAAATTTTAAAAAATACT
GTAATCTTTTTTTTTTTTTTTTTTTTTGAGACAAGGTCTCGCTCTGTCACCCAGACTGGAGTGCAGTGGTACGATCTCAGCTCACTGCAACCTCCGCCCC
TGGGTTCAAGCGATTCTCATGCCTCCAGCCTCCTGAGTAGCTGGGACTACAGGTGAGCACCACCACACCCAGCTAATTTTTTTTTTCTTTAATAGAGATG
GGTTTCTCCATGTTGGTCAGGCTGGTCTGGAACTCCTGGCATCAAGTGATCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGACATAAGCAACCGCAC
CTGGCCTATAATCTTCTACCTTTAAATTACAAGTTTCTAGTCTGGAGTGCTGTGTACTCTGGTTATTTCATTTTTTAGCTAAACTGGGAGAATAAGGGTA
GGAAAATAACAAGTTACGTATATCTCATGTTTTCTTCATAGATGTTGTTATGTAGTCCCATCCCTGTGTGGTTCTTTATTTGTCCTAAAGCATTTCAGAG
TCTATAGTTTAACTAGGTAGCTCTCTGGGACCCTCAAGAACCTTGAGGCCAAACTGCTTGATCCTGGGTTCCAGAGCTTGCTAAAGCTTTGTTAGTGAGA
GCTTCAGGTGACCAGAAACATTTGTGGTACCTAAAACAGGTTTCTAGTACCCTTTTGTGTTTTCTATAGTAATACGTTTAGTATCAAAATTAGGTTTTAT
TTTATTAAGGTGTCTATTTTCCATGTGGACTTGCTCCATCTTTTTTTTCTTACAGAAGGAGGCCAGGATAGAGAAAAAAGATTCAGATGAAACAGTAATA
ATATATAGGAAGATTTAAGAAATCTCAAATGTTAGGTTCTTCAGGCACCATGTTAAATATCCCTAAAACAAAATGGTTTATTGCCACTATAATTTCTTAT
TTTTTGTTTAATCTTAAAGGTCAGCTGAGCCAAGTTAAAATGTAATTTTTTTAATAATATAAAAGCATTTTAAAAAATCTTAGAGATTATGTAGGTTATT
CTCATGATATTTGTACTTAAACTATATCACATAGCCAGGTATCTTATTAAAAATTCTTTTTTTATTGTGCCTGTAGTCCCACCAACTCAGGAGGCAGGAA
GATTACTTGAGCCCAGGGGGTGAGGCTGCTGTGAGCTATGATTGTGTCACTGTACTCCAGCCTGGTTAACAGAGTGAGACACTATCTCAAAAATAATAAT
AATAATTAAGGCCAGGAGCAGTGGCTCATGCCTGTATTGTCCCAGCACTTTGGGTTGGGAGGCTGAGGCAGGCAGATTGCCTGAGCCCAGGAGTTCAAGA
CCAGCCTGGGCAACAAGGAGAAACCCCGTCTCTACAAAAAATACAAAAAAAAAATTAGCCGGGCATGGTGGTGCCCCTCTGTAGTCTCAGCTGCTTGGGG
GACTGAGTCTGGAGAATAGCTTGAGCAGGGAAGGTCGAGGCTGCAGTGAGCTGTGATCATACCACTGCATTCCAGCCTGGATGACATAGTGAGACCCTGT
CTCCAAAAAACTAAAAACAAAAACCAAGAAAAAAAAATCGTTGGAGTACACTAGTAGCTATTACTGAGTAATTTTGTTGCATTTGCTCACATGAGATAAA
TTTGTGCACATTAGATAATAGATAAATAATAATTTGGGTCCTACTACTCATACAGAATTTCAGTGTTCTTTCATAAATAAATCTCTCCTGCTCCAGAATC
TGATACTCACAAATGTTAATAGTGATATTAGATAGCTAAAATTGGCCAGTTGGGAACTTGAAAATGTAATCTATGACAGATATGTAAGGTTAAACACACT
TTTTTTTAATTTTATTTTTTTTTTGAGACGGAACCTTGCTCTGTTGCCCAGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTGATCTATCTAGGTAAATGAATCACTTTAATTATAGGAGC
TATTAAAGGTTTATTAAAAGTAGATTTCATTCATGTAAATATTTATAAACTAGTTTATATTTGTAAGCTTTTATATGTATATACATACATATTTGTGGTA
TTAGGCTGGGTGTGGTGGCTCACGCCTGTAATCCAGCACTTTAGGAGGCTGAGGCGGGTGGATCACCTGAAGTCAGGAGTTCCAGACCAGCCTGGCCAAC
ATAGTGAAACCCCATCTCTACTAAAAATACAAAAATTTGCTGGGCGTGGTGGCGCATGCCTGTAACCCCAGCTACTTGGGAGACTGAGACAGGAGAATCA
CCTGAACTCAGGAGGCAGAGGTTGCAGTGAGCTGCAATCATGCCATACCACTCTAGCCTGGGCAACAAGAGCAAAATGCCATCTGAAAAAGAAAAAAAAA
GGGTATTAAACATGTTGATCCTTTATAGGTTTTAATTATTCCTAGTCTGCTTACCTAGAAAGTTTGTTTAAAAATGGTAATATTATTTTGGGCCCTACAC
ATTAAATAATATTCTTAGAAGAACAACACCTTAGTAGGTAAGCAGTTATGAGTTCCTTTTCTTTTGTTGCCTTAAAAAAAACTGAACTTATATAATTCTT
CTAATATGTAGATATGGAACTATGTTTGAATGAAGAAAAGCTAATGCTTTATTTAATTGCATTGCACGTTGACAGTTTTTTCCCAATTTTTTACTTGTAG
TGAATTTGGTTCCAAAATCATCTTGCTTAAGCCAATTATCAAAGTGTTGCCAAAACTCTTTGAGTCTCGAGAGAAGGCTGTTCGAGATGAAGCCAAACTA
ATTGCTGTGGAGATTTACAGATGGATTCGGGATGCTCTGAGACCCCCATTACAAAATATAAACTCTGTTCAGGTGAGACAAAAAGTTTTCTGGTTGCTTT
CGCACAAGGTTAATATGAAAATATTTTCTTCCTATCGTTGTTGATATTCTGTCCTTAAAAATAATTATTTTACATTCTTAATTTTGAAATCAGCTTTTCT
GAGCATAGCTAACTTTCTCAGCAATTCTCTTGGGTGGCAGAACTTATTATCTGTGTGAAGTACATTCTTTCTGGCTTTTTATTACAATTGGTTTTGGAGA
CTCTTCTGATGATGTAAATGTATCTGAATTAATGAACTAATGAGAGTGTCTTAAAAAGTGGGACTTACTGTTCTTTCTTAGTGCTTAGACATACGTCTTC
CTTATAGTAAATTCAAGTTGGTTTGACTTATGCTGTAAAAGAAATAAAATTTAATTATATATTTTCTTCCGCTGGTGCAGTGGTTCACACTTATAATCCC
AGCACTTTGGCAGGCCCAGGGAGACAGATCACTTGAGCCTAGGAGTTCGAGACCAGTCTGGGCAACATGGCAAACCCTATCTCTACAAATAATAAAAAAA
AAATTAGCCAAGCATGGTAGCACAGCCTGTAGTCCTAGCTACTCGTGAAGCTTAGGTGGGAGGATCACCTGAACCTGGGGAGGTGGAGGCTGCAGTGAGC
CAAAATTGTCCAGCCTGGGCAAAAGAGTTGAGACCCTGTCTCTCAATGAATGAATGAATGAATCTTTCTTGTTTGCCCTGGTAGAGCCACATAAATAAGA
AATTAGAGGCCAGGCACGGTGGCTTATACCTGTCATCCCAGCATTTTGGGAGGCTGAAGCAGGAGGATCACCTGAGGTCAGAAGTTCAAGACCAGCCTGG
CCAACATAGTGAAACCTCATCTCTATTAAAAATACAAAAATTAGCCGGATGTGGTAGTGCACACCTGTAATCCTAGCCACTCGAGAGGCTGAGGCACGGG
AATTGCTTGAACCCAAGAGGTGGAGGTTGCAGTGAGCCAAGATCATACCACTGCACTTCAGCCTGGGTGACASAGTAAGACTCTGTCTCCAATAAAAAAA
AAAGAAAGAAATTGGGTCCTGATATGTCAATAAATGTAAGTATTAAGTATGTTAACTAATGGTGGAGATGCAGATATTATTTAAATATTATATGACATTT
GCAGTTGAAAGAACTAGAAGAAGAATGGGTCAAACTGCCAACAAGTGCTCCTAGACCTACTCGATTTCTTCGTTCCCAACAAGAACTAGAAGCTAAATTG
GAACAACAACAGTCTGCTGGTGGAGATGCTGAAGGAGGTAAGCCAATTTTAAACACCGGTTTCTGCAAAAATTAGCAAGAACTGGCACTGCCATGAGAAT
CTGTGTTCATTAGGCATATTTTGTAGGATTGCCTTTAATAAAATATAAGTTGCATGTAGCTTTAATAACTCTGGTCCCTTCTCTATTAAAATTTCATCAG
GGTTGTGAAAGGACTGATAACTGATAAGTAAAACAATTCTAAGCATTTTTAAGGTTTGTGTTGTTTTTCTCCTTAAAGGTGGTGATGATGGTGATGAGGT
GCCACAAATAGATGCTTATGAGCTTTTAGAAGCTGTAGAAATCCTTTCCAAACTTCCCAAAGACTTTTATGACAAAATTGTAAGTAATAGTTAAACTTCT
TTCATTTATTTCTTGTAAAATAATTACTTGAATAGAATTAGAATACTCTGCTGAGCCCTTGCCTGATGCACCCCCTTCCATYCCATATCTTCCCTAGTAG
AGTGAGTTAGTTGCTTCTTCCTCTTTGCTCCCACACTACTTTGTACATATATATATTATAGCACTTTTTTAAAACATGTCTTGCCATAAAACCAGAACAT
TCTTGACTTCCTTTTTCTAATTTTCTCTCTGGTTTTTAACACTAAAGAGCTCCRGATTCCTCCCCTTTCTCCGTTTCTACTGCCACTACTTTACCCCAAG
GTTTCTTGACCTTAGCACTGTTGACATTTTTTGTCAGCTGTCCTGTGCATTGTRTGATGTTTAGCAGCATCTTTGGCTTTTATCCACTAGATGTCAGTAA
TACCATCTCCCTAAGTCATGACAATCAAAAATGTCTTGAAACATTGCCGGAAGTTCCCTAGGAGACAAAATCATCCCCAGTTGAGAAACACAGTCTTATC
CCAACCACCACTGTAGTAGTGGGTTGTTGGTTATGTGATTGTTCTTTTCTGGTCTTTTTAATGTTGTCAGTGTAGAAATTCCTCTCCTGTAATTGTGCTG
CTGTGAGATGGGTGGGCTAGAAATGCTTTCTATTAATGTTTTCTGTTTGACATCTGCTTACTAACGTTTGCCTAGAAAATGAGAATGAAACGTCTATGGC
ATTGTTTGTTTATTATATTACTTTAGTTATAACATCTTATGAAAATACTTTTTATATATGAACAAAAATTTATATATATGAACAAAATGTTCTGATTGCC
TCCACAGTTTTATTTTTTATTATTATTACTATTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTAGAGTGCAGTGGCGCGATCTTGGCTCACTGCA
AGCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTGCAGGTGCCTGCCACCACGCCCGGCTAATTTTTTGTATTTT
TAGTAGAGACAGGGTTTCACCTTGTKAGTCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCG
TGAGCCACTGCGCCCGGCCAGTTTTATAATTTTTTAAAAAAATTATGTATCTTTGAATTAGCAGAGTGCAATAAATAGACTTTTATTCCGCTCTCTTATT
TCCTGTTACAAATGACTCATATTGTATCTTGCAGGAGGCAAAAAAATGGCAAGAGAGAAAAGAGGCCCTGGAGTCTGTAGAAGTACTAATAAAAAACCCC
AAACTGGAAGCTGGCGATTATGCAGATTTAGTAAAAGCATTAAAGAAGGTAAATATGAGGACTTGCAGTACTGGTATTGTAACAGCCATCAGGCCTTTGA
ATTTCTCATCAGTCATCTTTTTAATTACACATACATTGCCACTTAAGGAACATTACTGATGGTATTTGAATTACAGACATACATTTTTAAAGGGTTGTTT
TAAATTCCTGTTGTGGGTTAGTTTCATTTTCAATCTTTGTTTTTTGTCACTTTGACTTTAGGTATGCTATTTGATAGCTTCTGTAACTCTCTAGGAAAAG
AGAGTTGCTGATCTAGAACTACATTTTCCAGTTTTATAATTCTATAGGATGAGCTATTTAAGTTAGCTGTATTTAATTGGACAAATATTAAACATGAAGA
TAGCAAATGATAACACACTACTTTGTATCAGTATGTAAAGAGTATACGAATATGWGGTCAGTTCTGAAACAGACAAGTACTAAGTAAGAGATAAACATTT
TTAGGAAATAATCTTTTGGTATTGCAAGTTGAATGCTGCTGGTGGACATTTTGTATGTAGTAACTTTTTATGAAAACTGTAAGTATAGATCAAACACTGT
GGATATGATTATAGTGCTTAAGAACAAACTCTGAAAACATCTTCATGAATATAGCAAGAATGAAAATTTTGTTTTGTTTGCTTCCTCAGTCTGAAATTAC
AGAGGATTACAATGGTGAGGGGAGGAAGTTGATTTTTAATTATACGCACACCTAAGTCATTACTTGTAGTAGTTATATTCTGTAAAGCCACTGCGAACAC
TAAATTAGTGAATATTGAATCATTGCTTCWAAGAGAAATACAGGGTTAGGATCCTGCAACCCTTTGGTCACAACATTTCCATCAATCAGTACATAACTTT
GTTTTATTCTGTTTGGAGATAGCATATTTAATATATGTTGTTGATTCATTAACATTGAACTCTTGGCCGACAACACTGTAACTCTTGCCTGATTGAAGCT
TTTCCTAACGCATATATTTTCTCCCTAAGGTACATCACAGCCTGTTTGCACTTAGGAATACTAGACAGCATTTCAGCACTACACTTAGGGGCCATTTTAA
ACAACAAGAGCACCAACAAAAAACACAAAAATGCAAAAACATGGCACTGAATAAACCATGAAAAAGACACTTGTTTATAGTGTAAAAGCTAAAGCAAGAA
GGTAGAGTGTTATCTTGTCTACCTCAGCTGGGAATGTGCACAATAGACAACACAAAATGTTCACAGCTCTGAACTTGTCTGTAAATGACCAGGAAAGTAC
CATGAGTGTTGATTTGGGGATTATAAGCAAGTTTTAGCAAGTAGGTGAATTTGCAAATATGGATTCGTGAATGATGAGGATCAACTATATTCTAGTAGTT
AACCTTCCTAGGCTTTCCTTCAGTGGGACTTGGAGGCAGAGATATGATTTGTGAAATCTTTGTTCAGTCATCAATTTTCCATCTTGAAGAGTTACACTCG
TGTAAAATAAATTAAAAGAGAGTTGCCCTAGGGGAAAAAGAGTTTTACCAACCTGGAACCTGGGAGGAAAGAATGGGAAGGGGAATAGTAGAGGGCACTG
AGACAAGGAAAGTCAGGTTCCAGTGGCATATGAAGAGAGCTACAGATTCTCTGTCAATTCTTCCAGCATTTGGTTATTAATTAGAAATCTTATTGCTCTG
GTGCTGAATTCTCGATGTGTCAAAGAAAACCTTTTCTTTTTCCTTATCATTAATATTATGTGTTTTCTACATGTATTTTCTAAGGATATTAGCTTCTCAC
ACAAAGACAGTTCTGTGGTTTCCATTGGCATTGTGAATGTAAATATAATCTCTTGCTGTACTATATAAAGAGAGAGCATCATGGATTTTATATTTGAGTA
GACAGACAATAGATTTCTGAGAGATCTAGGGTAGCAGTAGAAACTTCTTTCCCTTTTCACGTGGTGGGGTGGAGGGAATCAGAGACCACAAACAAGTAAA
AAGAAACTGAATTTTGTGGCTAAAATATTTAAAACAATGAAAAGTTAACTTCAGTTGTAAAAATTAACCTGAAACGACATTTTCTTTTCTTTTTGCCTTA
AGTAGTGACAGAGACATTTTATTTTTTTTATTTTCTTTTTTGAGATGGAGTTTCGTTATTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCAC
TGCAACCTCTGCCTCCCGTGTTCAAGTGATTCTTCTGCCTCAGCCTCCCAAATAGCTGGGATTTATAGGCACTTGCCATCACACCCAGCTAATTTTTGTG
TTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTAGTCTCGAACTCCTGACCTCAGGTGATCTACCCTCCTTGGCCTCCCAAAGTGCTGGGATTA
CAGGCATGAGCCACGGTGCCCAGCTGACATTTTATTTTTTGTATTTGATTTTAGTTATATGTACACACAAACTTTGTATTATGTTGACTTCCTAGAAACA
TAACAAAAGTGGGGAAATGGTGAAATGGAAAAAAGTGGGGAAATGGTGAAATGGAAAAAAGAGGATGAGATTGAAGAATAGATTACAGACCAATCCTTTT
TCCCTCCTTATAATTATCTCTTCTTTGTATTGTATAAATCAAGTAATCCCATTAATTTCTCAATTTTTTTCCTTTAATGAAAGTAGTAAAAAGGCATTAA
CTTTAAAATTTCTTATGATATTCCTGAAATTATTTTTAAACTGTTTTGAGTTGTCACCTGATTTAGCATATTCTGTGGGCTTTCCTGTTCTCACAGATTA
TAGTTCTTTTTTTTCTATTATTTTTAATTGATGTATTTATTTTTGAGACAGAGTTGCGCTTTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTC
ACTGCAACCTCCATCTCCCGAGTTCAAGCGATTCTCCTGCCTCAGCCGCCTGAGTAGCTGGGATTACAGGCGCGTGCCACCATGCCCGGCTAATTTTTTT
TTTTTTTAATTTTTAGTAGAGACAGGGTTTCATCATGTTGGTCTTGAACTCCTGTCCTCAAGTGATTTGCCTGCCTCAGCCTCTGAAAGTGCTGGGATTA
CAGGCGTGAGCCACTGCGCCTGGCCTATAGTTCTTTTATTTATAAGATGCCTCCCTCCCAGCTCATCGCTTCTTTGATTTTGTCATGTGCCTATGCCTAT
GGACATTTGATTTTTTATATATATATAATTTATTTATCTTTACATTAAGATTTGGATTTTCGAAGTGCTTTCTTATATAATCTTTAGACTTCTATGTGGT
ATTAATCTTTTTTCACTTGTTCTTTCTACTTTTCCCCCCTTAATTATTGCTTGTTTTCATCATAGTTTTCTAAACACAGTAATTCATAATGGGTTTCATT
AATTTGTTTCCTTTCCTCTGTCAACGGTGTGCTTTAGTTATTATTAACTAGTGGCTTTAATTTCTAGTTAAAGATAAATACCAATTGATAATTACTTTAA
AGCACTTTGTTTTAATACTGTAGGCCTCAATTTATGAGAAAAGTGACAGCACTTAAAACTGTACAAGATTTCCTATTGTTTAAATTATATTGAGATTATG
AGCTAAAGCTTCCATTCCCTGGTCTAGAACAGAAATTACTGAAAAGACAGAAGTCATTGTTTTTCTTACCTCTGAAATGGAGTCCCCCCTCATATGTTAC
TTTTCTTAAAAATAAACACTTCTCCATCTTCCCTACTCTCATTTACCCTGTTGAGAATAACTTGTTTATGGGAATAAACAATGAGTGTCAATGAGTGTGA
CAGGCAGGTATTATATTAGGGTATCTGGTCCATTGCTCACTTATAAGTTTATTTGAGCCTTTGCAATCTTGAAATTTAACAGATTCGCAGTATCTTCTTC
AATACTATACAATAAGATCATGAGTGTCTAGAGTCTAGCTCCCACTGGTTACTGTTCCAACAATGGATAGGGAGAGGTATTCTCCTAAGAAAGGAATAGA
ATGATAGTTTTTTAACTGAGCCCATATGACAAAATCACCCTTTGAGCCATTTAAAAATACTGATGTCCAAATTTCATCCCAGATTCATTGAACTAGAATT
TGTTGGAATGGGATCTTACATGTTTTTGATGTCCATTCCTAGAATATATATTTAGATGCTAAATATAAAGCCTAGCATCTAAATCATATCTGAGAGGTAT
TTTGATAAGGAAAAATAATCAGAACATTTATAAATACCAATAGTGATTTCAATACAGAAATGAATGGAAAATTTTTTTCTTCATAGACTTACAGTAATTA
GAGATTTAACAAAATGTTTATTAGGACCCTGATCTCATCCTCTCGTAAGGAAAAGTGAACTTAACACAAGTTGAGAGGGAGAACATGCTTTACTTAATAA
AAGGAGCAAAAACTTTGGAGTCAGAATTGACCTGGGTTTGAATCACACAGCATTACCATTTGCTAACTACCTGACTGTAAGCACATTANNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTTTCTGAGATAGTGTCTCG
CTCTGTCACCCAAGCTGGAGTGCAGTGGTATGATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGAGGATTCTCCTACCTCAGCCTCCTGAGTAC
CTGGGACTACAGGCGCATGCCACCATGCCTGGCTAATTTTTCTATTTTTGGTAGAGACAGGGTTTCGCTATGTTGCCCAGGTTGGTCTTGAACTCCTGGG
CTCAAGCGATCCTCCCACCTCAACCTCTTAAGGTCCTGAGGTTACAAGCGTGAACCACCATGCCTGGCTGTGAATCTGCAAAGTTGAAATAATAATAGTC
CTTACCTCATAGGGTTTGGGTGAAAATTAAACTTAAAAAGGATTATAAAGTGCCTACAAAATTTTGGTGCCTAATTTGTTTTTTCAATAAATGTTAGTTT
CTTTATCCTTATTCCTCAGCACTTAAGGAGTGCATATAAGTGCCAAGTAGAACTTCTTTCATGTTGCATGTTAGGAGTTGTTTAATGCAGAGAATCTAGA
ATAAAGCATTCTGCTTATGGAACACCACATTGTAGGGACTAGATAAAATTCAAAGTAGATTGGAGGCATTACTCTTACTGGGAAAAGAGTGAAAAAAGAA
GAGTTGGGGGCATTTAAAAATAAAGCAGCCGTGTGTGTGTGTGCATTTATAAATAAAGCAGCCGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTCTG
TCTGTCTGTCTGTCTGTCTTGCTCTGGTACCCAGGCTGGAGTGCAGTGGTGCGATCTGCACTCACTGCAACCTCTGCCTCCCAGATTCAAGTGATCCTTT
TGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACACGTCACACTGCCTGTATTATTATATAATAAAGCAGCTTTTTAACACCAACTGATTGGGCAGTG
TACCACAGTAAAATCTTACCAGGAAGGAACCCAGTCGTAGTCAGTATCTTGTTAAATTGACACAGATGCAGCTACTACCCGTGAGTTTAGATAAGTGCTG
GGCTTTGTGGGTTGTGGCATAGGAGGGCAGTAATATAAGCAGTGCTAGAGGAGAATCGACTGAGACTCTGAATTGAAGCTTAACCATTATTAGATGACTG
AAGTGGCAGCCTCAAGGCCRGAAGCTCCCTCAGAAGAATGGTTCTCAGAAGAATGCAGTAGCATTCACAATTTAGAGTCCCCATGGACTTCCTGAAGGTA
CCTGCAGCCGTTTGTACTGGTGCTTCTTGGTTATGAATATTAGAGCTGTTGCCCTGTGATGTCTTTCAGAGATACATTGCCTTTTCATTTTCCTTGTCCC
AAAGCAAAGTCAGCAGACCTCTCGTCTCTCTGCCATTATCAGGGTCATTTCCTGCACAGTTGAACAGTGCTGACAGCCCAGACTGCCACTACTGGATAGT
GAGCAATTTGATGTTGTGGTTTTATCTATGTTTTATTAGTAGAACTTTAAGATAGAAGACTAAACATAATGAAGGGAAGCTCCCAAATTCGATACAATGA
AAGAAGAATTTCTCCTCTGTTGTAGTAAATAAAATTGGTCATATATTAGCATAAGAGCTTTCAGAGTTCTTTTTTTTTTTTGAGATGGAGTCTTGCTGCG
TTGCCCAGGCTGGAGTGCAATGGTGCAATTCTCGGCTCACTGCAGCCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTTCCAAATAGCTGGG
ATTACAGGTGCCTGCCACCATGCCTGCTTAATTTTTGTATTTTTAGTAGAGACAGGGTCTCACCATGTTGGTCAGGCTGATCTCAAACTCCTGACCTCAG
GTGGTCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCGCTGCACCCGGCCTCAGAGTTCTTTTGAGAATAAAATTTCAATACCCTT
CTACATGGCTGTGACTATTTTGTTTTCCTTTTTACCCCCCTTTGTAGGTTGTTGGAAAGGACACCAATGTCATGTTGGTGGCTTTGGCAGCAAAATGTCT
TACTGGCCTGGCTGTTGGGCTAAGGAAGAAATTTGGACAATATGCAGGACATGTAAGTAACACTCCTTTTTAGATACAGATCAACAAAATTTATCAAAAA
TGGTAGGCCTAGTTTKCTGTTTGCTTTAAAACAACTCCTTGGCATAGATGTGTATATACTGTACAAAGTAAATTTCTCTCTGTTTTGTTAATATTCAGCA
TAGATATATCTTAGAAATTTCAGTAGATGTCAGTTGTAACAAAATTTATAGGCCTTATGTAGAAAGGCACTAGGCCTAAAGTACTTAGTTGAGTTTATTT
ATTTGCTTATTACTTATTTACTTACTAGTATCTTGCTTTGTTCTTACAACATTATACACATCATAACAAGATGAAACAAAACTTGTAACGACCAGGACCA
GAATGAAAATGAGAGTCGGAAAGGCAATGTAAAACTATAAATGTAAAACTGTGAGGTTAATATATAAAATGTGTTTTACATTGTTTTCCTATTTTAATAT
ATAATTTACTTACATATTTGAGACATTTTATATAGGTTACAATGTTATATATTTTATGTAGGTTATCTCCGTTTTACTTATTCAAAGAAAATCTGACTGG
AGACATTTGTTGACTTACTATTTGTATAAGTTTGTTTCCAATCAAATTTGGTAATAATTTTAATTAAGATGTTTTCTTTAACTGTGGCATCTGTCCTTTG
GCCTCTAAATCCGGTCTGCATTACTAAGAATGGCTCAGCATCCTAAAAATTGACCTTATTGATCTTTAGAGTTTAGCTTGCTAGCCCCTTCATCATTTGA
TTCCCTAGACTGACTTAGGAGTTTCCTAATAGTCCCTAGTCATGTGTCCATTTTATATTGTGAAGCTAATACCTAGCCTCACATGAGCTATGGTATTTGG
AGCTTGCTTACTCATAGCATTAAAAATAATCTCAGAGAACTTAACTGAAGAAAAAGAAGACACTACCAAATAAAAATAAATCATGACTGGCTTATTACTA
GGGAAATAAAAATAAGGGTCTGTAAAACCCTTAGACATATACATCATAAATTGAAATAAAATTAAAATCTATTTTTATAGCAATCAATATTATATAATAT
CGATGTGTATATGCCATTTTGATCAATTTTATATTACTTAGGATATTTTACACTTTTATATTGGGAATAATTTTTCAAGATAAAAAACAATTTTTTCCTA
CACCACTTAAATATCAGTTCAGAGAATAATTTTAGTTTTTTTTTTTTGAGACAGGGTCTCACTTTGTCACCCAGGCTGGAGTGCAGTGGCACCATCTCAG
TTCACTGCAGCCTTAACCTCCTAGGCGCAGGTGATCCTCCCACCTCAGTCTCCTGAGTAGCTGGGACTTCAGGCACACCCCACACCATGCTTGAGTACTT
TTTGTATTTTTGGTAGAGATGGGGTTTTGCCACCTTGCCCAGGCTGGTCTCGAAATCCTGAGCTCAAGCTATCTGCCTGCCTCAGCCTCCCAAAGTGCTG
GGATTACAGGCTTGAGCCACCACACCCGGCCTAAAATTCATTTTAATTTACCAAATTATGGGTGGATAATTAACTGGNNNNNNNNNNNNNNNNNNNNATA
ATTAACTGGCTTTTCCAGTTTGAGTTCTGATTCTGGCTTTGTTTCAGTTTGTTGTCCTGGTTAAAGAATGTCTCTATTGCTCTGTAGTTTGGGGTCTCCC
CCACCTTAATACTGTAATATATGCGGTGTTTAGTATCAAGCATGTTACTGACTTGGCTTTATTTTCTTTAAATGTTTACAAACTTTTTGGCAATATTTAT
AAAAGTGAATGTTAGCTTTATAGACATTAAAATATCTTGATTTTCAAGTTTATAACTAGTATTAAAAAGTCTTGTATTTTTCCATGGGAACCATAGTCCT
TGAACTATACCAAGTAGTCTATAACCACTTCTGTGAAATCTTGAAAACAATTATTTCTTGTTTTTGGATGCCATTGAGCTTTGCTGTGTCCTTTGGACCT
TAGAAATTTTCTTCCCCAGCCTGGGCAACATGGAGAAACCCCYGTCTCGACAAAAAATAAAATAAAAAATTATATTTACAGGGAAATGGTCAAGAAATTA
AGAATTAAAAAAAAAAATAGCAGGTGTGGTGACATATACCTGAGGCCTACCTACTCGGGAGGCTGAGATGAGAGGATTACTTGAGCCCAGGAGGCCGAGG
CTTCAGTGAGCCATGTTCATCCCACTGCACTCCCACGTGGGTGACAGAGCAGAGGCGGCAAATAGGTTGAGAAGCACTGCCATAGTGGGAGAGAATGAGA
ATTCTTCATTGTTCCGGCATAAGATACGATGTCCTTCATGAAAGGAAATGACTTTTTATTCCACTTAAATGTTTGCTTTATTGGTTTGTTTTGGTGGAGA
CAAGGTGGTTTTTTAGAAAGTAAGTTTTATTGAGATAAAACTTGCATACTATAAAATTTACCCTCTTAAAGTGATTTTAGAATATTCACAATGTTACATA
ACCATCAGCACTATCTAATTCCAGAACATCTTCATCACCCCAAAAAGAAACCCCTTGCCCATTAACAGTCTCTCCCCATGCTGCTCCCTGCCCTTGACTC
TAGCAACCACTAATCTACTTTTTTGTCTCTGGATTTAACATTTCATGTAAATGGAGTCATACAATACATGGTCTTTGTGACTGCTTTTTTTTTTTTTTTG
GAAGACAGGGTCTTGCTGTGTTGCCCAGGCTACAATACAGTGATGCAGTCGTAGCTCACTGCAGCTTTGACCTCCTGGGTTCAAGTAATCCTCCCACCTC
AGCCTCCCAAGTAGCTGGGATCATAGGCACATACCACCACACCTGGCTAATTTTTTTTTGTTTGTTTTAGTAGAGACAAGATCTCACTCTGTTGCCCAGG
CTGGTCTTGAACTCCTTGCCTCAAGCAACCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGTCACTGTGCCCAGCCTGTGACTGGCTT
TTTTTTTAACTTAGCATACTATTTTTAAGGTTCAGCCATGTTCTAGGATATATCAATATATCATTCCTCTTTGTTGCTGAATAATGTGCTAGCCATTCAC
TTTTACAGGTTGTGCCAACCATCTTGGAGAAATTCAAAGAGAAGAAACCTCAAGTGGTACAAGCCCTGCAGGAGGCAATTGATGCAATCTTCCTTACTGT
AAGTTGACAGCATGAGTTTGTAGTTTTATCTGAAGTAAAGTTTGTAAATATAATATTTTGATTGTTCTTTACAATTGAAAAAAGCTCATTAACYACATTT
TCTTTCTAAAGACCACACTACAGAACATCAGTGAGGATGTTTTAGCAGTAATGGATAATAAAAATCCAACCATCAAGCAGCAGACATCTCTTTTTATTGC
AAGAAGTTTCCGCCACTGCACTGCTTCTACCCTGCCAAAGAGCTTGCTAAAGCCCTTTTGTGCTGCACTACTTAAGGTACAGACTCTCTTTGAAGTTGGG
GGAATATTTTATACCTAGGCAAGATTCTTTTCCTGCAAATTATGTACAGTGACTACTTGACTTTCAGACTATAGAGGTTATGATCTTTTGAGGAGCAGAG
CCTTTGCAGCTTGGAAACTGAATCCAAATTCTCCTGTGTTCCTCTTCTTGAAAGAAAGCACAAGTTAGTGTTATGATTCCATTAACTGTTAAACATGTTG
TTTCTTACTTGTCCCATATACTGGTGTTCAGCTGAATCTGGCCAAGCATAGGCATCAAATGTGGAGTATTTGAAGATCATTTGGGAGTGAGTTATTTTAG
ATAGAGGGTAAGAGGAAAAGGAAATACTTATTTGCTAAATGGATTACCAAGGGTTTCCTTAACCCGAAAAATTTTTGTTTTTTTTTTGTTGTTGTTGTTG
TTTTTGTTTTGTTTGAGATGGAGTTTAGCTCTGTTGCCCAGGCTGGAGTGCAGTGACACAATCTTGGCTCACTGCAGCCTCTGCCTCCTAGGCTCAAGCA
ATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGATTATAGGCATGTGCCACCACGCCCGGCTAGTTTTTGTATTTTAGTAGAGATGGGGTTTCACCATGTT
TGCCAGACTGGTCTCGAACTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAACCACTGTGCCTGGCCCAAAAAGAATTTTTGAAAGAGTAACTGTCAA
TTGGCACAAGGAAAGCTATACTTAGTTCCAGTAAATTGTAAAAAGCAAATTCTTTATCTAGCAACCATCAGTCTGAATTAAAATGAGTAATGCCTAAAAT
ACCTTGCATTAATATCATTTTGCTTACTTCTGGACTATAGCACATCAATGATTCTGCTCCTGAAGTCAGAGATGCCGCATTTGAAGCATTGGGTACTGCT
TTGAAGGTGGTTGGCGAGAAAGCAGTAAACCCATTCCTAGCTGATGTGGACAAACTCAAGCTTGATAAGGTAGGTTAGTAATGGATTGGACTGAAATTGG
ACAACATTCCTGTCTCTTTGCATCATGGCTTTGTCTCTTGACAGTTATAGAGTACTGGTAGTTTTGATGAGGAGTTCTTGATTTTTTTTAAATTGCCATT
TATAGTAGGAAAGAAATGCATAATTGAAACAAGTTTTGGAGGATGCTCTCTGGTACTTTTTGTCTTCAATTTTGTCTGTTGTTTTATTAAGAAAAAAATG
CTGATATCACCTCAGGAAATTTATTTCATCCTYCACTGATAGTTCAGACCGAGTTTGAAAACTTAGCTTTTGAGAATTTAAGTTTCATTCCAGGCTATGA
TGGTGATAATTGTAGAAATAGCTTTCAAATTATAACCGAAAAAAAGCTGAGTGACCAATCTGTAGAGAAGGTGAAAACAGTTCTGTGAGATAAATTTATT
TCTAAGGTCCAGAAAATTACCTTCTTATATGTGAATGTCTTCCATAAACAATGTGGTCATTTTAAGTTTATTACAATTCTAATTTGTAAAGAAATAAAAT
GTAAGATTAATATCTTACGTATGTCTATCTACTGCCAAAAAAGTGTAGATAATTTATCTTTTTTGTTGAAAGGGAAATTTTTTCTCTGAAAATTTTTTTT
TTTTTTTTGGCAATGAATCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTTACTGCAACCTCTGCCTTCTGAGTTCAAATGATTTTC
GTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCTGCCACCACGCCCGGCTAAACTTTTTTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCC
AGGCTGGTCTCAAACCTCTGACCTCAAGTGATCCACCCATCTCGGCCTTCCAAAGTGCTAGGATTATAGGTGTGAGCCACCTTGCCTGGCCATTTCTCTG
AATTCTTATGTGTAGTTGTGGTTTAGAAATGTAATAACGTAGTGGTTGTGTTTCAAAGTTGGGCTTAATGATGTTCATCTCACTTTCATTCTCCAGATCA
AAGAATGTTCAGAAAAGGTAGAACTGATACATGGTAAGAAAGCTGGACTAGCTGCTGATAAGAAGGAATTCAAACCTCTGCCTGGAAGGACTGCTGCTTC
AGGGGCTGCAGGAGATAAGGACACAAAGGACATTTCTGCACCCAAACCAGGACCTCTAAAAAAGGCACCTGCTGCTAAGGTTAATAGATTATTTAAAAAT
AGAAGTTAGTAAGGAAGGGTCTGAGTCTCAGGTTCGTGGTTGTTCCTCTAAAATTATTTTGTTTGAGAAATGAATTCATTGGCCACATTAAAAATACAGC
AGAAAATCTGTTAATGAAGATAGGATATTCCAGCAATAAATTCAGCTGTTTGGAGCTTTAATAGAGATAAAAATGGTGATGAAGGCACAGAAGTGTGTTT
TGTCAATTTAACATAAAATTTACTATCTTAACTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGATGCAATCTTGGCT
CACTGCAACCTCCGCCTCCCAGGTTCAAGTGATCCTCCTGCCTTAGCCCCCCAGTAGCTGGAATTACAGGCACGTGCCACCATGCCAGGCTAATTTTTGT
ATTTTTAGTAGAGATGGGGATTTGCCATGTTGGCCAGGTTGGTCTTGAACTCYTGACCTCAGGTGATCCACCCGCCTTGACCTCCCAAAGTGCTGAGATT
ACAGGCGTGAGCCACCGTGCCTGGTCTGTCTTAACTTTTTAATGTGCAGTTCATTAATATTAAGTATGTTTATAATGTTGTGCAGCATCACCACAATCCA
TTGCCGTAATGCTTTTCATGTTTTAACACTGAAACTCTATGAATCAATTAACTATCCTCCCATTCTCAGCTTCTTCCAGCCCCTTCTTTCTGTTTCTATG
AATTTGACTACTTTGTTTTTATTTTCTATATTTTTTAGAGACAAGGTCTTGCTCTGTTGTCCAAGCTGGAGGGCAGTGGTGCGATTATAGCTCACTGCAA
CCTGGAACTCCCAGGCTCAAGTGATCCTCCTCACTCAGCCTCCCAAGTAGCTAGGATGACAGGGACTTGCCACCATACCCAGCTTATTTTTAAAAATTTT
TTATAGAGGGCCTCGCTGTGTTGCCCAAGCTAGTCTTGAACTCCTGGCCTCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGAGGTTACAGGCATG
AGCCACCAAGCCTGGCCTTGAGCATCTTTTCATGTGCAGGTGGCAATSTGTAGTTGTATAGTTCTYGGAAAAAAATATCTACTCAAGTTCTTTGCCCATT
TTTGAATTGGGTTGTTTTGAGGCAAGGTCTCACTCTGTTCCCCAGGCTGGAGTGCAATGGCACAATCACAGCATACCTCCCAGGCTCAAGCAATCCTCCC
ACCTCAGCCTTTTGAGTAGCTGGGACCAGAAGCACGTGCCACCACACACAGCTGATTTTTTATTTTTTAATATTTTTGTAGAGACGGGTTTCACTGTGTT
GCCCAGGCAGGTCTCAAACTCCTAGGCTCAATGAATCCTCCTGCCTCCGCCTCCCAAATTCCTGGGATCACAAACCTGAGCCACTGCCCCCAGGCTTATG
ATGCTTTTGCCCTCTATTTTGTTCTAAAGATTTTATAGTTTTAGGTCTTACATTTATGTCTTTATTTTGACTTTATTTTTATATACAGTGTCCAACTTCA
TTCTTTTTGCATGTGGATATTCAGTTTTCCCAGCACCATTTGTTGAATAGACTGTCCTTTCCCCATTAAACCGCCTTGGTACCCTTGTCAAAAAATCATT
TTACTGCATATGCAAGGGAGGAGTATTTTTTTTTTGTTTTTTCTGAGGTGGAGTCTTGCACTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTC
ACTGCAACCTCCACCCCCTAGTTCAAGCCTCCTCAAGCGATTCTCAGCCTCCTGAGTAGCTGGGTTTACAGGCACCTGCCACCATGCCCAGCTAATTTTT
TCTATTTTTAGTAGAGATGGGGTTTTGCCGTGTTGGCCAAGCTGGTCTCGAACTCCTGACCTCAGTTGATCCGCCTGCCTCAGCCCCTCAAAGTGCTGGA
ATTACAGGCATGAGCCACTGCGCCCAGCCAGGAGGAGTATATTTTAAAGGATCAGAAAGTATCATTAAATAATGAAATAAAATGTGGCAACACACTTAAC
ATTAATAACTAATAATACCAATTGGTCATTTTACTGATAATGCCGATGGATCACATCACTGAGTCTTCATGCCAGTCCAGGTGTTTACACCTTTGTACAG
TGTAGAAGTGGGGCAAATGCCTAGTGGCAATTACGGCATTCTTTTAATGAGCATGTGTCCTGTGGACTCTCTTAAGAGTGAGAGTTATCTGCTGCAGATG
CAAAAAGTTTAACTCTCCTTCCCCACGCCAGCCCCATCTTGAACCACTCAGCATGGAGTTAGGGGAAGAGAACTGATATTTAGTGAGCATCATTTTATGA
AACACTTTGCCTTTATAATGTCATTTAATCACTGTAACAACTCTTGAGGTAGGTATTCATTATCCTTGTTTTTCCAAAAAATGAAACTAAGACTCAGGGA
GTTTGTGTCCTACACATGCTCTGATATTTTTATTGTTGATTTGATTGTTTTGTTTACTGTATCCCCACACCATATTGTAAGCTTTTAAAGGATAGAGATC
TTGTCACTGCTTGATCCTCCATGCATAGAATAGTTTCTGGCGTATAGTAGAAACCGGGTATCTGTTTGTGGAATGTGTAGAGTGGCAGAGCTGGGATTTA
CCCTGAGTACCTCTAGTTACAGACTCTACTTTCTTTCACATTATGCTGTCTCCTTGGCATTCTAGAACAGGAAATCGGCAGCTATTTTCTCCTTTCTCAC
TAGTTCCTGTTTCTCTGGACAATTACCTGGACCCAAAACCTTAAAAGATGTGTCCAGATTTTGCTTGCTGTAACCCACTTGCCTCTTACCTCTTTAAACC
CTTCCATGTTCATGCTGGCTGACCTTCTCTTATTATGAGGAATTATCTTAAAAATTAAAATGCTGGGAGCAACCTCCTTCTATTCCCATTCTGAAAAAGA
TAAGTAGGACAATATCAGCAGCACGTGAGCCACTGAGCCAGCTATCATGTAGAATGATAATTCTGTCTTTTTTGTTTGGTTGGTTTTGTTGTTGTTGTTG
TTGTTTTTGTTTTTTTTTGAGACAGAGTCTCCTTTTATCCCCCAAGCTGGAGTGCGGTGGCACGATTTCATCTCACTGCAACCTCTGCCTCCCTGGTTCA
AGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGATTAAAGGCACCTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGAGATTTCACC
ATGTCGTCCAGCCTGGTCTCAAACTCCTGACCTCAAATTATCTGCCTGCCTCAGACTCCCAAAGTGCTGGAATTACAGGCATGAGCCACCATGCCCAGCC
TCGATAAATCTGTCAATTAATAAATAAAAATTGATGTCTGTTAACAACAACAAAAAGAATAGTAGGAGATTTGTTATTTGAAGTATCTCTCCATATAGAG
AATGCTATTACAGAGAAAGATCCAGAAGAGGTATCCTAGTTAATCAAAGAGTACAGAATTTTCCATTTTTAGGGTTAGAATGCAAATCCTTTTATGGGGT
TATTACTGTGAACCAGCAAAACCATACTGTCGATATGACATGGTAAGTATTACAGGTTTCCATTTAGTTAAAAACTAGTATCCTTAGTTTTGCTAAATAC
AACTTACAATATTGGAATATATTCAAGATAACATTAGTTTCAGAACAGGTCTGGATGTTGAAGACTAATTTGATCCCCTTTCATTTTATCTTTTCTTTTT
AGGTTTGGGGCATTTCATAWCAAATATCCAAAATAGGTACAAGGAACAATGTGAATGGTGATGTGTGTTGCCATAATACAGTTATCATTTGCTGTGTACA
TTGTAATATACTACTTTCTTGTGACTTTTTCCCCCGTACATATTCTGCTTTTGTATCTTGGGACTTTTGAAAACTGGAGTGGAATGAATTTATTTATTTT
GAGACAGGGTCTCACTCTGCCACCCAAGCCAGAGTATAGTGACATGATCATGGCTCACTGCAGACTCAACTTCCTGGGCTCAAGCAGCCCTCCCACCTCA
GCCTCCCAAGTAGCTGAGACTATAGGCATACACCAACACACCTGGCTAATTTTTTTGTATTTTTTGTAGAGATGGGGTTTTGCCATACTGCCCAGGCTGG
TCTCAAACTGCTGGGCTCAAGGGATCCTTAGCCTCCCAGAGTGCTGGGATTACAGGTGTGAACTACTGTGCTCAGCTACTTGGGAAGCTGAGATGGGAGG
GCTGCTTGAGATGGGAGGCTCGCTTAAGCCCAGGAGGTCAAGGCTATAGTGAGCCGTGATCAGGCCACTGCACTCCAGTCTGGATGACAGAGCAAGACCC
TGTCTCAGAAAACAAACAAAAAAAAAAACCCAAATAAATGTAAAAAAAATAAAGGTATCAGGATGTCATTCTCAAATTAATTTGTAAATGTAGTATAATT
TCAGGCCATCACTTCTGTTTCATTTATCTCATTAATTCTAAATTCAAGTTTTTAATATGGGGTCTACAGATTACCCCATGGGTGGTCTTCAGGGCTTCTG
TCTGACCTTGAAACTGCTAAATTTTGTAGGTACAAAAAATGTTTATTTTAGGGTAATCCCTCATTTTAATCAAATTTTTAAGGGAGTGTGTGACTCAATA
AAAGTTTAAAAACCACTGTTTTAGGCCGGGTTCAGTGATACATGCTTGTAATCCCAGCACTTTGGGAGGCCAAGACAGGAGGATCTCTTGCAGCCAGGAA
TTCGAGACCAGCCTGGGCAACATGGCAAAATCCTGTCTCTACAAAAAAAATTTTTTTTAATTAGCCAGGCATGGTAGCACACGCCTGTGGTCCCAGCTAC
ACAGTAGGCTGAGGTGGGAAGGAAGATCCCTTGAGCCCAGGAGGTTGAACCTGTAGCAAGCTGAGCTTGTGCAGCTGCATTCCAGGCTCGACAACAGTAT
GAGACACTGTCTCAAAAAAAATAAAAATAAAAAACTCCACTATTTTAAATCCTTAGGTGGTTTAATTTTTATTTTTTAAATTGTTTTTAGGCTGGTGGGC
CACCAAAAAAGGGGAAACCAGCTGCACCAGGAGGCGCAGGGAATACTGGAACCAAGAACAAGAAAGGACTGGAGACTAAAGAAATAGTGGAGCCTGAGCT
CTCGGTCAGTATTAACACACTGAGCCTGAAAATCATGAACCCTGCAAAGTGAGACCAATGAGAAGACTGGAGTTCTTTGCTGGGTTCTACAACGTACAGT
TAATTGATATTTTTTAGCTTATTGAAACTGCCTTGGACAATCTCCTTTATCAAAGTATAATAGAAGCCTCAGAAACTATAGCATACCTATGGGAGTATTC
TTTTAGTTTTGGCTGGAGTATGTTTACGTTCTTGTCATCTGTTCCCTTAAGCAATTCCTAATTCTAATATGTTTTTGTATCTTACAGATAGAAGTATGTG
AAGAAAAAGCTTCAGCTGTTCTTCCCCCTACCTGTATACAGCTTCTTGACAGCAGTAACTGGAAAGAAAGGCTGGCTTGTATGGAAGAGTTCCAGAAGGT
AGTGCATAGGGAAGAATTGAGTGTGAAAGAAAATTAGATTATATGGAAGCAGCGAAATTGATGAATGAAGGATTTGTCCTAATTGCTGTGTTTTATAACC
GGTGAACACGTTTTATGGCATTAAAGATGAGGTGGGACTTTTTATTTCTTGTAGCTGTGTAGTGTTTGCTATCTTTAAACATCAGTATTCTATGGCCTTT
ATAAGCTCATGACTTAATACTTAAGAAAATTAGATTCTTATTCTGAATTATAAGGCTTAGATTATTTTTTTATTTTTTGAGACGGAATCTTGCTCTGTTG
CCCAGGCTGGAGTACAGTGGGGCGATCTTGGCTCACTGCAAGCTCCACCTGCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGACTA
CAGGCGCCCACCACCACACCCGGCTAATTTTTTGGATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGAT
CCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCCAGCCCAGCTTAGATTAATTTTTTAACTATGGTACTTGCTC
ATAAACTTCCTAGGCAAATAGGTCACTCTACTTAAACCACCCCTCATCCAGTACTTTTTCTCCCCTTTATCATCATGATTCCTTGGTAGAATGGACATTA
TCCATTGKTATGAAAACCTCTCAAAAACCTGTGTTGTAAAGGAGCATGGCAGTTCATTTTGGCATATACCGGGTGATTCTAATGAGGAACGGTAAGGAGA
AACACTGCAAGAGCACTGTCACTTATGGCAGAAGCCGTCTRGTCCTGCGTCTGCTGCCCATTGGGTTTAGATCTGAGTTTGTGCATCTTTGATATTCGGT
ACTTTAGAACTTCAAATCTATTCTGCTTTGCTGTTTTTAGGAAAATCAAGGAAGAGAAAATACATATAAGCAGTTTCTGCCACACACTAGGCAAATGAAA
ACTATTATTTTGCATGGAGCAAACTATTTGTGAATTCCTGAAATGTGAGATAAACGTTCAGTGATACTAATTTAACAGCCATATACCAAGCATCTAGCTT
AAGAAATAAAGCATTATAGACATAAAAACACAAAGAAATAAAGCATAACAGCGGAAGCTATATAAGCTCCCTCAATAACCCTCCTCAGTTCTATTCCACT
CCTTTCTTCAGAGGTAACCACTTACTTGACTTTGGTATTTACTCTTCCTTTGGAAGTAACCTTTAACCCTTAAACTCTTATTCTCTTATTTTACTTCAAG
GCTGTTGAGCTAATGGACCGAACTGAAATGCCATGCCAGGCATTAGTGAGGATGCTAGCCAAGAAACCTGGATGGAAAGAAACTAATTTTCAGGTATTTT
AAAATGTGAGATTTGATGTCTTTTATTGAAGTAATTTACATTACATCATCCTATGGAGTAATACAGCAGAATAGTTTTCGTAATGATTTTTTTTTTTTTG
AGACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGACCTTGGCTCACCACAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCA
GCCTCCCGAGTAGCTGGGATTACAGGCACCCGCTACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGACGCGGTTTCTCTATGTTGGTCAGGCTGGTCT
CGAACTCCTGACCTCAGGTGATCCGCCTGCCTTGGCCTCCCAAAATGCTGGGATTACGGGCGTGAGCCACCGCGCCCAGCTTGGTAATGATTTTTAATGA
ACAATGGGGTGTGTGCATTTTGATTGAACACATAACTACAGTTGACTCTTGAACAATGTGGTGATTAGGGGTACTACCCCTTGTGCAGTTGAAACTTCAC
ATATAACTCTGGACTCCCCAAGAACTTAACTACTAATAGCCTACTGTTGCCAGAAGCCCTACTGATAACATAGTCAGTTAACATATTTTGAATGGTACAT
GTATTGTATATTGTATTCTTACAATAAAGTAAGCTAGAGAGAAAATGTGATTAAGAAAATCCTAAGGAAGAGAAAACATATTTACTATTTATTAAGTGGC
AGTGGATCATCATAAAGGTCTTCAATTCCCATCATCTTCATGTTGAATAGGCTGAAGGAGGAGAAAGAGTAAGAAAAGGGGTTTGTCTTGCTGTTTCAGG
AGTGGCAGAGGCAGAAGAAAATTCATGCATAAGTGGATCTTCGCAGTTCAAACCCATGTTGTTCAAGGGTCAACTGTATAACTTTATATAATTAGGAATT
TATATGTGTATAAATATGTAAATATGTATACATCCATATATAATTTGTATAATTTAGATATATACATTTTTTTCTTCTCATTTTTAGGCCTAGAAGCCTC
CTTATCCAATCTTTACATATTCAAGGGAGAAATAAACAGTGAGATAGCTTTTTTATTTGATAGGATAAAAAATAAGTGCAGTCCTTAAATTGCCAGTGAA
AATTTACCACATAATCAATTGTATAGCCCCATTAACTGATAATAGAGCTGAAATTTAGCAGTACCAAGTTATTAGTCTAAGGGGTGGGTATAGAGGGAAG
TATAGGAAAGTGCTGCAGGAAGGAAAATGAGAAAAAGTTTCCTTCTCTTTTTCTAGATGTACATACAATAGACCTCATGCTAAACAAACTTGAAATGTAT
CAGGTTTATTATTGGCATCCTGCTAGTCTCTTTTTGGTTTCTCTTCTGCTGCCACCTCTTGTTTTCTGTCTAGGATGTTTAGCTCCCTCATACACTGTGT
GTCCCTTACATTGTGTTACATAGCACCTTATTCGTATAGGCCAGCTCCACAAAGGCTAAATATTCTAAAAGATTCTTGAGGTGCCCTCTTCCTCTCACAC
CACCTTCTTTTTTTTTGAGAAAGGGCTTCACTCAGTTGTCCAGGCTGGAGTGTGGTGGTGCAAACGTGGCTCACTGCAGTGTTGACACCTTAGGCTCCAG
AGATCCTCCCACTTCAGCCTCCCAAGTAGTCGGGACCACAGGCGTGCATCACTACACCTTGCTAATTTTTTTCTCAAATTCATAGACAGTATGAAGTGTA
ATCTCATTGTGATTTTGATTTTCAGCCACCAAAGACTCTCTCCTTGGTTAACTTAATGACCAGCTAATGACTGGAGAGATTTTCTTAAATGCCTTGAACC
AATGTGATCTGTCTCCCACCCTCTGCCAAGGGGGAAGGTGTGTATGTTTGTGTGTGTGTGCGCGCTGGGTCATGCCAGAGATACTCAGGCACTTTACAGC
TTTACCCTGGAATTCACTTTTTAAGCAAGGTCTTGAAGGTCAGTCAGAGATTAGGGCCCTTTTCAGTCTTTCCTGGGCATACACATAACCTTGAATATTC
GCATGACCTTCTAGATTCTCAAAGTCCTCTGTGGATATCTTATTCCCTAGGTCCTTTTATGTTTTTGACCAAGCTGGGTTCCCCCAGCTGGTATTATGGA
CTTACACAGTTCTGATGTTAGATGTTAAACAGTTGCCACTCATTGTTTTCGTTGTTTTCAACAAAATCCCTGGGGATAGGGCTTTTCCCACTGAGCTAGY
CAGAGTCCAGTCAAATAACAGGACTTTCAAATGGAGCTTTTCTAGGAAGCTGCCAGACAAGACAGTACTTTGGGTCAAAACTTTTTGAGGAGGTCCAAAC
CTGAGCTGTCCCCCCACCTGCCAGTGGCTGCACAGCTCTAGGTTTTCATAGTTGCCATGGTTACAAGACTTCAGGTTTTGAAGGCTACTGTGGAGCTGGA
AGAAAAGGGGAGCAAGGCAAGTTAAATCACCAGAAACCTCACTGTCCTTACTAAAATTCAGCATCCTTTCTTTAAATGGTTCTTGTATGTTACAAGCCTT
ATTTAATTTTCAGAGTTGTGAGATAAGTTGATTTGGATAGTTTTTGCCAGTGTTCTTTGTTGCTTTTGAGGAAGATCAGTTTTTCAGAGGTATTGACTCC
ACAATTGCAGAAGTCCCACCCAAGATAATTACATTTCTTTGGTTTGTTTTTTGGTTTGGGAATTTTTTTTTTAATTTTTTAAATTTTTATTTTTTCACAT
GCCTGCTATGTCAAATTTTGGGGGTTTGAGACAAAGTCTCACTCTCTTGCCCAGGCTAGATAGTGCAGTGGTGTCAACATGTCTCTCTGCAGCTTCAGCC
TCCTGGGTTCAAGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTGRGACTACAGGCGAGGGCCACCATACCCAACTAATTTTTGTACTTGTTGTAGAGCT
GGGGTCCCTCCATATTGACCAGGCTGGTCTTGAACTCCTGGGCTCAAGCATTCCCCTCGCCTCAACCTACCAAAGTGCTGGGATTACAGGCATGAGCCAG
GCGATAATTGCATTTTNNNNNNNNNNNNNNNNNNNNCACTTGGAGAGGCTGAGGTGAGATCCCACTTGAGATCCACTTGAGGTCAGGAGATCGAGACCAG
CCCGGCCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAAATGAGCCAAGCGTGGTGGCGGGCGCCTGTAAGTAATCCCAGCTACTTGGGAGGCTG
AGGCATGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTAAGCTGATATCTCACCACTGCACTCCAGCCTGGGTGACAGAACAAGATTCTGTCAAAT
AAATACATAAATAAATGGGAGTATTTGTCACCTAAATTAATCTGTATAATAGGATTTCTAGTGGCGTAACAAAAAAAGTTAAAATATTCACACAGTACAA
AGAAAAATATTTATGAGCAAAGGGGTCCTTAATCCCATAGGTCTGCCATCACAATAATATCTTTAAATTATTTTCCACAGATCTTTTTATTCTTATACTT
AAAAGCCAACAAGTTCTCTAAAATCTCTGAAGTTCTGTGTTGCATGTGTGTATAAGAGGGTTGTAGTGTTTTTGTAGGCAGCCCTAGTAGTAATTCTCAG
TTATGCAGTCAGTATAGTAATTTATTGTGTATTTTAGGRTGTGTATTCAGTACTAAATGCAAATAATCATAAGAGGAGGAAAATTTAAAAATCAGATTTT
TCAATTAATAAACTTTCTGTGCAATATTACTTGTTAGTATTTTGGAACACTGAGTAGCTTTTTTTCCCTCTCTTCACTGTCAGTTAAGTAATTGGTAACA
ATTAAAGGATACAAATTATTTTGCATATTTGTTTAAAATCCTGATTTTACTTTAGATGTGTTTCCAGCTGTCCCTAACCATGTCATATCTGNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCAACATGGTGAAATCCCGTCTCTACCAA
AAATACAAAAATTAGCCAGGCGTGGTGGTGCACACCTGTAATGCCAGCTACTAGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGACAGACGTGG
CAGTGAGCCGAGATCACGCCACTGTACTCCAGCCTGGGCAACAGAGTGAGACTGTCTCAAAACAAATAAACAAAAAATTCTATAGAAGGTGAAAGCCCAC
GAGCTTGAGGCTGCAATGATTGATGATTGTGCCACTGTACTCCTGGGTGACAGAGCAAGACCCTGTCTCTAAAAAAAAAAAAAAACATTATAATGCAGAG
TAATTGCTGCAAAGCTATAAATAGTCCAGAATGCCTTTAGTCCTACTATCATTTCACCTCATTTTCTTGTGTAGGTTCACTCTTGTTCCTAAGGCATTCT
TGCAGTTGTTTTAGCGTCAGAAAACTAGTTTAATGCACATCTGCCTTAATGTCATGCTGTATTTCTATAAGAAATACGAGATAAAACACAGATCTGCTGT
TTTTCCCTTTTCAGGTTGTGTCAATGGCTTTCTCACAAAAGAATCCCAAAAATCAGTCAGAAACTCTGAATTGGCTATCAAATGCCATAAAAGAATTTGG
TTTTTCTGGGTAAGTCAGAACGAAATCAAGTGGAAAATAGTTAAATGTTCTGTCAGTCTCTAAGTCGTGCTRTTTATAATAATAGCTATTGCTGTTTATT
TCTGAAGAGTGAGAGCTGGATTGTCTCATTTATATAAAAGAAAATTACCTTTGTTGCTCAAAGGTCTATATTGGCTTGTGTTCCTGCTTTTTGATGTTCA
CTGAAAGAGTTCTCTACGTTATTTTTCCTTAAGCATTAATAGCTGTCCCASAGAAAATCCAGTTCCAAGAATTTCTAGTCAAATACATTAGGAAATTTCT
GTATATAATTACATTTGTTTAAAGACCTATAGTATGCCTTGGCGAATTAACTGCTGTCAGAAATCCTGCAATAGAAGAGCTTGTTTAACTTTGTTTAACC
CACTGTTCCCAAACTTATTTGCTTATAGAGCACGGTTGTTTATTTAAAACAAAACTTTATACAGTTTACTTTATCCCAGGTACTTTTAAAAAGCACTTTC
TAAATCATAATTCATTTGATTTAATCATCATAACAACTAAGCGAGGTATTATATTATCCCTATCTTATAGATGAGGACTAAGGCACAGAAAGTTTAAGTA
ATTTGGGCCCATCATAGTTAGGAAAGTGGCAAAACCAAGATTTTAATCCAGGCATTCTGGTTTGGAGAAAGAATGATGTAGCTGCTATACTATGTTACCT
TTCTCTGTGCCATGCTACATTTTGCAACATGCCTGTTAATATCTTGTAAAAGGGTATTTTGAGTTCTACTGATTGAAAAAACACTACTCTAGAAGTTACT
CAAATAACAAAGAACGGTTTGTTATGTTATTATCTGTGGTGTTCGCCCATAGTTGAGGGTATTGTTATAATTCCTCTTAATTGTATAGTCTTTGATATAA
CACACATCTCTTGGCATGTCACTTATAAAAGCCATATATTTTCCTCTTTTTTGTTATGATCTTTCATTTATTCATTTATTAAACAATTACATATTGGCCA
CTACAATGTTCCAATTGTTTGTTCCAGTCCTTCAGAATACATCATGAAYGAAATTAAATTTCTGTTTCATGGGAGTTACATTTGAGTAAAGAAAGATAGG
TAATAAACAGTTAAAAATATATATAKAGAGAGAGAGAGACAGAGACAGAGAGGCAGGCAGGCCGGGCGCGGTGGCTCATGCTTGTAATCCCAGAACTTTG
GGAGGCTGAGGTGTGCAGATTACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGCTTCTACTAAAAATACAAAATTAGCTGGG
TGTGGTGGTGTACGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGCACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCC
ATTGCTCTCCAGCCTCGGCAACAAGAACAAAACTCCATCTCAAAAAATATATATCTATTTTTTTTTACATATATATGTTTATGTAAAGCAGGATGAAGGG
TTAAATGGAATAATGTGGTATAGTTTAGATGGTGTTGTTTTCTATATAGTAGTTGAAGAGTTCTTCCTGAAAAAATGACATTTGAGTAGAGACCAGGACA
TGAGAGAGCAAGCTGTGATAATCAGAGAGGAGCATTCTAGACCAAGGGAAGAGCAAATGCCAAAAGCTCTGTGGTAGGAGTACATGTGATGTATTTAAAA
TAGCAAGGAGTGTCTTTTCTTCAGAATGTAGCTGTAGGACAATGAGTGAGTGGGTAGGAAGTGGTAGGAGATAAAGCTAGAGAAAGAATAGGGGCTAGGT
CATGTGGGGCCTCAACATTTTGAATAAGTTGGGAAGGCATTAGGGGCTTTTGAGGAGAAGAGTAACAGGTTCATATTCTGACTGTTGTCAGAGAAGACAG
AGAGGAGATCAAAGACAGGAAGACGAATTAGTAGGCTATTGGAATAATCCTGTCGAGAAATTCTGGTGGCTTGGACATAGATTGTAGAAGTGGAAGTGTT
ATAACTGATAAGATATTTAAAAAGTAGAATAGAACAAGAGAGAGACAAGTCAGGGATAACTTCAAAAAGTCAAGGATAGCCTGAATAACTGGAAGAACAA
TGTGGCTCTTTACTGAGGTGTAGAAGACTCTGGGAGGAACAGGTTTTGGGACTGGAGTGAGGACAATCAGGAGTTTGGTTTCAGTATATTAGATGTAGGC
TGTCTTCCAGGCATACAAATGGAAATATCACAAAGGCAGCTGGATGATGTGAATCTGGAGTTCAGGAGAGAGTTCAAGATTGGATTTAGGAGTTGTAATT
AAGCATAATAGGATTGTCAGCCTATAGATAGTATTTAAAGCTCACTTTAAAGTTAGTGTAGGAGGCTGGGTGTGGTAGCTCATGCCTGTAATCCCAGCAC
TTTGGGAGGCTGAGGCAGGCAGATCACTTGAGGTAAGGAGTGCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAACAAACAAACAAA
AAAAATTAGCTGGGCATGGTGTTACACACCTGTAATCTCAGCTACTCAGGAGGCTGAGGCATGAGAATCGCTTGAACCAGAGAGGCAGAGGTTGCAGTGA
GCTATCATGTACTGTACTGTAGCCTAGGTGACAGAGCAAGACTCTGTCTCAAATAAATAAAATAAAATAAAGTTAGTGTAGGAAGAGAAAAAGTGAGAAC
TTTGCCAAAGGGAGCCAGTCCTAGAGTCTGGCTTTATAAAACTTTATTGAGTATTTTGAGGGTTTCATTTGTTTGCTTTTAATTCTAAATGTTTCTTCTA
GGTTGAATGTCAAAGCTTTCATTAGCAATGTGAAGACAGCTCTTGCTGCAACAAACCCAGTGAGTACATAACAACATATATAGGGCAGTATTGCCATCTT
TGTGGATTTAAAAAGTTATTATTGCCATCTTTGTGATTTAAAAAGTTATTTTTCTTCTGTCTGGCAGGCTGTGAGGACTGCTGCCATAACCCTGCTTGGC
GTGATGTATCTGTATGTTGGTCCCTCTTTGCGAATGTTCTTTGAGGATGAGAAGCCTGCCCTCCTATCCCAGATAGATGCAGAATTTGAGAAGGTAGAAT
TTCCACAAATGATACAATCTGTTAGTGGACTTGAGAATCTCATTAAGACTAAACTGTTGGGTGTAGTGGTGCACGCCTGTAGTCCCAGCTACTCAGGAGC
CTGAGGAAGGAGGATTGCTTAAGTGCAGATGTTTTGGGCTGTAGTGTGCTATGCCAGTTGGGTGTCCACACTAAGTTCAGCATTAGTATTGTGACCTCCC
AGGAGCTGAGACCACCAGTTGCCCAAGGAGAGGTGAACTGGCCCAGATCAGAAACAGAGCAGGTCGGCCAGGTGCAGTGGTTCATGCCTGTAATTCCAGC
ACTTTGGGAGGCCAAGGCAGGAGGACCCCCTGAGCCCAGGAGTTTAAGACCAGCCTGGGCAACAAAATGAGACCTTCTCTACAAAAAAATAATCAAAAAA
TTAGCCAGGCATAGTGGCACATGCCTGTGGTCCCAGCTACACAGGAGGCCAAGGTGGGAGGATCACCTGAGCCTAGGAGGTTGAGGCTCCAGTGAGCCAT
GTTTGTACCACTGTACTCAAGCCTAGGCCACACAGAGAGACCTTTTCTCAAAAGAAAAAAAAAGAAAGAAAGAAACAGAGCAGGTCAAAACTCCAGTGCA
GATCAGTAGTGGGATCACAACTATGAATAGCCACTGCACTCCAGCCTGGGCAACATACTGAGACTCTGTCTTTCTGGAATGAAGAATATGTATGTATTTG
CTTTTATGCACAATAAAGTATCCATGGAAGAGTTCATAAGAAATTGATGATTTTGGCCGGGCTTGGTGGCTCACGCCTGTAATCCCATCACTTTGGGAGG
CCAAGGCGGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCAAAACTCCATCTCTACTAAAAATACAAAAGTCAGCCGAGTGTG
GTAGCACGCCCTGGAATCCCAGCTACTTAGGAGGCTGAGGCATAAGAATCACTTCAACCCGGGAGGCATAGGTTGCAGTGAACCAAGATCATGCCACTGC
ACTCCAGCCTGGGTGACAGAGCAAGATTCTGTCTCAAAAAGAAAAAAAAAAATTTTTATGTTTTGTTTGTTTTGTTTTTGGGTTGTTTTGTTTGTTTGTT
TGTTTTGAGGTGGAGTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGGAGTACAATGGCGCTTCCTGGGCTTATTCCAACCTCCACC
TTCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTCAGCTGGGAAGCTGGGATTACACGCACGTGCCACCATGCCAGGCTAATTTTTGTATTTTTAGTA
TAGACGAGGTTTCACCGTATCAGCCAGGCTGGTCTTGAACTCCTGACCTCAGATGATCCACCCGCCTTGGCCTCCCAAAGTACTGGGATTATAAGTGTGA
GCCACCACACCCTGCCTTCTAGTAGGTTTTGTATAAAAATACCTTTTGACATATGGTCTCAAAATTGTAATCTAGGTAGTAGTCAAATTACCTACTGTGT
AAATAGGTATTACAAAGGAATGAGAGTTTGACACAGGCACCCTCTCTAATTTGTTTGTTCCCATATCCTATATAAATTTCATTAGCCTTACTCATTCATT
TGTGTATAGATGCAGGGACAAAGTCCACCTGCTCCAACCAGAGGAATTTCCAAGCATAGCACAAGTGGTACAGATGAAGGAGAAGATGGAGATGAACCAG
ATGACGGGAGCAATGATGTCGTTGATCTTTTGCCGAGGACGGAGATCAGGTAGGTTCCAGTCTGTGAAATGGTTTATTTCATTCATTGTATTGAATTCAG
AATGTTGTCTTCTTTTTGAATTCAGTGAGGGGAACTTAACGTGATATCATCATTTTTTTGGAGTCTGGAATTAAAGGTTATTTTCTGTTTTTCAGTGATA
AAATCACTTCAGAGTTGGTATCTAAGATTGGTGATAAGAATTGGAAGATTAGGAAAGAAGGCCTAGATGAAGTGGCAGGTATTATTAATGACGCAAAATT
TATCCAACCGAATATAGGTGAACTTCCAACTGCCTTGAAGGGTCGACTCAATGATTCAAATAAAATCTTGGTATGTAGAGCATACGGCTGTTCTTTTTAT
CTCCCCTCCCCACTGCTGCAGGAGTTACCTTTTCAGTGTAGCCTTCACTTGCAAAAAATAAGTGGTTACTTTATTTGCTTTGAACTAGAAATAGCTGCCT
TTAATTTATTAAGTGTATCTCAAGATATGATGGTAGTTGGCAGATTTATTCATCAAATTTTTATGAGTCTCAGAATTTGCTTTTTGCAGGAATCCAATAT
TGAATATATTTGTATAAAACTGCTTGTAATACATGTAAACATAATGATTTCTGATTTTTAAATGTGGATTTTTATGTCAGGATTTCCTTAAACTAGGTTT
TACCTTAAAGTTGTAAAGTACTATGATCTCTGGTCTAAAATTCTGATAATCTAGTTTTACGAACTGATGATAAAAAGGCCACTGCCTAAAAATTAATTAG
AATAATCTAAGTCGAATAGCATGACAAGCCAGTGTCTCTGTCTCTTGAGTAGGCCAAAAATCTCCTGCTGTATTGACAGTATAGCAGCAAATTTACGGAA
GTTTGCACACAACTTGCTTATCGTTTCAACATAAAGTATTGGCTCTTTCCACTCAGGTACAGCAAACGCTGAATATCCTGCAACAACTGGCAGTAGCCAT
GGGCCCAAATATTAAGCAACATGTAAAAAATTTAGGCATCCCTATCATCACAGTCCTTGGAGACAGCAAGGTAAACCTAACTCTTTTCACCATGCCTCCA
TTCTGGAATAGGCCAGCCATATTTTTGGGTTAAAGATAATTCTCTTTTTAGAGTCATGTAAAGACCTGATAAACTTTATAAAGATGAAAATATTAGAAGA
AAAACAGTAAACATTTTTATCTTCCAGGCAGTATTAAGGTGACCAGGTATCACTTATTAGTTTTGTGACTTTTAGATAAGCTATCTTTGTTGAGGGTCAG
TTTCTTTATCTGTGAAATTTCTTTCTTACAGAATTAAATGAGTCTGTATGTAAGGTACATTTTATTGTGCCTGTCTCATATAGTATGCACACAATAAATG
GTTGCTATTATGATTATAACGTAATTGYGTAACATTTTGCTATAGTGAATAAATATGTGAATTTGGAGTTCATTAAGTTATTTTCTACTTTTATTTTTCT
GAACTATTAGAGTGGGATCTTCTAGTAGTTCAGCAAGATATTTGTAGTTTCATAGTTCTAGAAGTCACTGAAATATCATTGAAGGTTACAATGTTTAGCC
GTAGACTAAATATTTGAATATCTCTATACTGTTGTATAATTTATTTAACTTGAGGAACTTTATTTAATTTAATATAATTTGTGCTTTTAATATTAATGTA
AATTAATATAAAAATATAACTAATTTTCAGTCAATTTATTAGCAGTTTCAGTCTTAACCATTATGATGTCTTTAACATTTAGAATTTCATTCTTTAGCAG
ACAGACATGGACGTAAATGCCCCCAACTACTCAGGAAACAAAATATAAGAGTTATTCTTCTTACATGATATTTTATGCCCAGATCACTCACTGTTTTGCC
TGATTAACTGAGTACACAAGTTTTACAATTTGGAGTTTTATATTTCTACTTTACTTTGGAGTTTTAGTACAATCATAGAACTAGTTTCTGTTTCAGAGAA
GATGGTTTCATGTATGTTCATGTGGGCCTTAGATAACCCTCCATTGTTCATGTTCATAAAGCAACAGTGATCACCCCCTACCTCCAAACTGTAGTAGATA
TTATTTTTGCTGATTATCTTCTCCATTTAGAACAATGTTCGAGCTGCTGCCCTAGCGACTGTGAATGCTTGGGCAGAACAGACTGGCATGAAGGAATGGC
TGGAAGGAGAAGATCTTTCTGAAGAGCTCAAAAAGGAAAATCCTTTCTTGAGGCAAGAGGTTAGTATCATAAATTAATCATGTGCATTACTCATGTCATT
TACTTCCATAGGGGCTTGGGCCTGTCTGATAAATACGCATTTATGGTTAGAATGAGTTTCATTATAAAACAGTTAATAAAATGAAATCACATTCCTGGGG
CCTTTGTATTCATGTGCTTCCATTTTTTCCTTTCACATGCTTCTTTATCAATAACGCTTTTTAGAGGACTAGGCTTTTTGTGGAATTTTTCCCTTTTCTT
AAACATTTAAATGGTAAAATCAGAGGTTTTGTGTTTTTTTTATTATTATTTAAGCTCTGGGATACATGTGCAGAACATGCAGGTTCGTTACATGGGTATA
CATGTGCCATGGTGGTTTGCTGCATCCATCAACCCGTCATCTTCATTAGGTATTTCTCCTAATGCTATCCCTCCCCTTGCCCCGCTAACCCCCGACAGGC
CCCACTGTGTGATGTTCCCCTCCCTGTGCCCGTACGTTCTCATTGTTCAACTCCCACTTACAAGTGAGAAATTGCGGTGTTTGGTGTTCTGTTCCTATGT
TAGTTTGCTGAGAATGACGGTTTCCAGCTTCATCAATGTCCCCTGCAAAGGACACGAACTCATTCTTCTTCTGTGGTTGCATAGTATTCCATGGTGTATA
TGTGCCACATTTTCTTTATCCAGTCTAACATGATGGGCATTTGGGTTGGTTCCGAGTCTTTGCTATTGTGAATAGTGCTGCAATAAACATACGTATGCAT
GTGTCTTTATAGTAGAATGATTTATAATCTTTTGGGTATTACCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTCTGGGTCCTTGAGGAATTG
CCACACTGTCTTCCACAATGATTGAACTAATTTACACTCCAGCCAACAGTGTAAAAGTGGTTCCTGTTTCTCCACATCCTCTCCAGCATCTGTTGTTTTA
ATGATCGCCATTCTAACTGGCGTGAGATGGTATCTCATTGTGTTTTGATTTGCATTTCTCTAATGACCAGTGATGATCTTTTTCATATGTTTGTTGGCCA
CATAAATGTCTTCTTTTGAAAAGTTTCTGTTCATATCCTTCACCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTATAAATTTGTTTAAGTTCCTTGTA
GCTTCTGGATATTAGCCCTTTGTCAGATGGATAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTGTTCACTCTGATGATAGTTTCTTTTGCCGTG
CAGAAGCTCTTTAATTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGTGATTGCTTTTGGTGTTTTAGTCACGAAGTCTTTGTCCATGCCTATGT
CCTGAATGGTATTCTAGGTTTTCTTCTAGGGTTTTTATGGTTTAAGGTCTTAGGTTTAAATCTTTAATTCATCTTGAGTTAATTTTTATATAAGGTGTAA
GGAAGGGGTCCAGTTCAGTTTTCTGCATATGGCTAACCAGTTTTCCCAATACCATTTATTAAATAGTGAATCCTTTCCCCATTTCTTGTTTTTTGTCAGA
TTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTGTTATTTCTGAGGCCTCTGTTCTGTTCCATTGGTCTATATATCTGTTTTGGTACCAGTACCATGCT
GTTTTGGTTACTGTAGCCTTGTAGTATAATTTGAAATCAGGTAGCGTGATGCCTCCAGCTTTGTTCTTTTTACTTAGGATTGTCTTGGCTATACAGGCTC
TTTTTTGGTTCCATATGAAATTTAAAGTAGTTTTTTCTAATTCTGTGAAGAGAGTCATTGGTAGCTTGATGGGAATAGCACTGAATCTATAAATTACTTC
AGGCAGTATGGCCATTTTCATGATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTTTGTTGAGCAGTGGTTTGTAGTTCTC
CTTGAAGAGGTATTCCTAGGTATTTTATTTTCTTTGTAGCAATTGTGAATGGGAGTTTGCTCATGATTTGGCTCTCTGTTTGTCCATTATTGGTGTATAG
GAATGCTTGTGATTTTCGCACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGTTTAAGGAGTTCTTGGGCTGAGAGGATGGGGTTTTGT
AAATATGCAATCATGTTCATCTGTAAACAGAGATAATTTGACTTCCTCTCTTCCTATTTCAATACCCTTATTTCTTTCTCTTGCCTGATTGCCCTGGCTA
GAACTTCCAATAATATATTGAAAAGGAGTGGTAAGAGAGGGCATCCTTGTCTTATGCCGGTTTTCAAAGGGAATCCTTCCAGCTTTTGCCCATTCAGTAT
GATATTGGCTGTGGGTTTGTCATAAATAGCTCTAATTAAAATCAGAGGTTTTAATCAGAACATAAAAATAGAGGCTGGGTGCAGTGACTCATGCCTGTAA
TCCCAGCACTTTGGGAGGCCGAGCAAGCAGATCACTTGAGATCAGGGGTTGGAGACCAGCCTGCCCAACATGGTGAAACCCTGTCTCTACTAAAAATACA
AAAAATTAGCTGGGTGTGGTGGTGCGGGCCTATAGTCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAATCCAGGAGGCAGAGGTTGCAGTGA
GCTGAGATCACACCACTGTACTCCAGCCTGGGTAACAGAGCAAGATTCCATCTCAAAAAAAAAAAAGTCCAGTTGCAGTGGCTCACGCCTGTAATCCCAG
CACTTTGGGAGGCCACGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTAGCCAACATGGTGAAACCCCATCTCTACCAAAAATAGAAAAAT
TAGCTGGGCATGGTGGTGGGCACCTCTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATCACTTGAACCGGGAGGCGGAGGTTGCAGTGAGCCAAGA
TCGCGTCATTGCACTCTAGCCTGGGCAACAAAAGCGAAACTTCGTCTCAAAAAAAAAAAAAATAGAACATTCAAAAATCCATCAGAGTAATCATAACAAC
AGAATAACAAAATTTGTGATTATATCAACTGATGCAAAAAAGGCATTTGACATATCCAACATGCATTCATGATTAAAAACTCTTAGCAAGTCAGTAATGA
AAGAGAATTACCTCAACTTGATRTAAGCATCTGCATAACAACCTCTACAGATAACATGAAACTTAATGGTGAGGGCCAGGCGCGGTGGCTCACGCCTGTA
ATCCCAGCACTTTGGAAGGCCAAGGCGGGGGCAGATCACGAGGTCAAGAGATCGAGACCATCCTGGCAAACATGGTGAAACCCCGTCTCTACCAAAAATA
CAAAAATTAGCTGGGTGTGGTGGCATGCGCCTGTAGTCCCAGCTACTCGAGAGGCTGTGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTG
AGCCAAGATCGTGCCACTGCACTCCAGCCTGAGTGACAGAGCAAGACTCCGTCTCAAAAACAAAAAAACAAAAAAAAAAAAGAGGAATCACTTTACAATT
AGCTTACTATATTGCTAATGTAATCAAGACACTGTGATAGTGGTAGCAGGAGGATGGGGTGGAGATAGACACGTAGATCATTGGAACAACAGAGAGAACC
CAGAAATAGACCCACACTAATATCAACTAATTTTTTACAAAGCTACAAAAATAAGTCCGTGAAGGAAGTATAGTCTTTTCAACAAATGATTCTGGAGCAA
TTGGACATCCATAAACAAAAAAATGAACCTCACCCTAAACCTCACTGTCTCAAAACAGATTATGGACTTAAATTTGAAACATAAAACTATAGAACTTTTA
AGTGCAAACTAGAAAATCTCCAGGATGGGAGGCTGGCAAAGAATTCTTAGACTTAAAACCAAAACCATAATCCATAAAAGGAAAGTTGATAAATTGGACC
ACATGAAAATTAAAAACTTTTACTCTGCAAAAAAAACCACATGAAAATAATAAAACAAGCTACAGAACAACAGAAAAGATTTGTAAGCCAGTATCCAATA
AAGGACTAATATCTAGAATATATAAAGAACTCTGAAAACTCAACAGTAACAACAACAACAACAGAAAAATCAGAAAATGGGTATCCATGGCCAAGCCTGT
GAGTAGTGAGCTGAGATCATGCCATTGCACTCCAGCCTGGGTGACAAGAGCAAGACTTAATTTAAAAAAAAAAAAAAAAGATGCTCAGTGTTATTAGCAA
CCAGGGAAATGCAAATTAAAACTGTGTTGAAATATCACTATACAATCATCAGAATTGCTAAAATTAAAAATAATGGTAACGTGAAATGCTGGAGAAACCT
AAACAGTCATGCATTGCTGCTGGAAATGTAAAATGGTACAACTACTTCAGGAAATAGTTTGGTATTTTCTTATAAAACTAAACGTGCAGTTACTATATGA
GCCAGCAATTGCACTCTTGGACATTTATTTCAGAAAAATGAAAATTTATATCCATACAAAAATCTATGTACAAATATTCATAACAACTTCAATCATAGTA
GCCAAAAACTGGGACTATAGCTCAAGGGTAGAGCATTTTACTGCATAATAGCCAAAAACTAGAAACAGTTCAGATACCTTTCAGTAGGTGAATGGTTAAA
CAAATCTCTTGTACATCCATACATGGAATACTATTTAGCAATTAAGAACAAACTGCTGGTAAATACAATAATTCAGATAAATCTCCAAGGAATTGTGCTG
CATGACTAAAGCCAATCCCACTGGCCTGCGAGCCAAGATTATGCCATTGCCCTCCAGCCTGGGTGACGGGAGTGAAACCTTGTCTCAAAAATGAAAAATA
CAAATATGAACTATTTTAGGGATATAGAGAAGAAAAATGTCAACATAAGGCAAAAAATAAGAAGTCTTGGTAAAATTTGTAACCTTCTGATCACAATAAG
TGCTTTGGGTCTTCTAGCTAAATATTTTTCAGAACTAAAGGGAGATAAGTAAAAGTTTTTCATCTTTAAGATGTATTAAAGCTTTATAATTTAATACCCA
AATATAGTCCAAAGAAATGTGTCCTTATCTTAAAGATGATTGTCATCATTGCATATGTTATTTAAATWTAGCACAGTTCTTGAATTATGAAAAGTACTGA
TTTCATATTGGAAAGTTATAGTGTGAAAGCTAATTCAGTGCTTGAGACTAATGAAATCAGTAAGCCTGAGATCATAAATGATAACAGTCTTCATTTGAAG
TGTGTAACTAGTCTTTATTTCTTTTGGCAGCTTCTGGGCTGGCTGGCTGAGAAACTACCTACTCTTCGTTCCACCCCTACAGACCTTATCCTTTGTGTTC
CTCATCTCTACTCCTGCCTAGAAGATCGAAATGGAGATGTGCGAAAGAAGGCCCAAGATGCCTTGCCATTCTTCATGATGCATTTAGGATATGAAAAAAT
GGCCAAGGCTACTGGGAAACTAAAGGTACTACTTCTTGTTGCTGCTACTGCTGTTAAAAGCTATTAAAAAATATATTTAACATGGGCCTGGCACGGTGGC
TCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGACAGGTGGATTACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTC
TACAAAAACAAAATTTAGCCGGGTTTGGTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGGTGAGGCAGGAGAATCGCATGAACCCAGGAGGCAGAGG
TTGCAATCAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGCAACAAGAGAGAAACTCTGTCTTAAAAATATATATATATTAAACATGAATTTATATGAG
GAAAAAACCATATTACCTCCTGTGAGTCTCAATTTGAAATCGTAACAAGCAAAAATAAAATATTAAGCAGTGTAGAAGTAAAAATCTGCTGACCTCACAG
GGGTGAAAACTGTGACCTTCTAGAATGATACCTACCTTAGTGTGACTTCATAATGTGTGTGACTTCTCTGACACCATGTACTGCCTCCCTTACTTCAGTG
GTATTTCAAAACTAGGAGCTCAATCATTTGTTTGACAGAGGATTTGTTCATAAGCTTTGTATGACTTTATCATTTATGTGACCTCTCACTTTTTATGTCA
TTTTGTCTCTCTAGCCAACTTCTAAAGATCAGGTATTGGCCATGCTAGAGAAAGCCAAAGTTAACATGCCAGCCAAGCCTGCTCCACCCACTAAAGCAAC
TTCTAAACCAATGGGAGGGTCCGCTCCAGCCAAATTCCAGCCTGCATCAGGTAACTCTATCTTAAGAAGGTTAAAGGGGAAGGAAATAGCCCTGAGGAAC
TCTAAAAAGACATTCAGCCTTGTCTTTTTTAAATCACATTTCCTTACAGCGTAGATCCAAGCTCTCCTTCCTTCTCTGCTTACTTTCCTTTCACAAACAC
TTGTCAAGTAGTCAAGTACCTATTTTATGCCAGGAACTGTACTAAGGGTACAAACGTGACTAATTTGGTTTCTAATTCTAAAAAGTTTTTTTTGTTTTTG
TTTTGTTTTTTTTTTTAGAGATGGCATCTTGCTCTGTCACCCAGGAGGGAGTGTAGTGGCGTGATCATAGCTCACTGCAACCTCGAACTCCTGGGCTCAA
GTGTTCCTTCTGCCTCATCCTCCCAAGTTGCTGGGACTACAGGCATGCGCCATCACACCTGGCTAAATTTTTTACTTTTTATAGAGATGAGGTTTTGTTG
TGATGCGCAGGTTGGTCTCAAACTCCTGGCCTCAGGCGATCCTCCCATCTCAGTCTCCTAAAGTGCTGGACTTACAGGCTTGAACCACCACACCCGATCC
CAAAAGGAGTTTTGGAATAGTACATTAAAATAGTCCTTTCTGAAGTGTTGCATCCTACATTTCCACAACTATTTTCTGCTCCTGGATACTATAATTAGAA
GAGGAATTGGGAGAATCTAGCTTAATCCACTTTATTAACCTTCTTTAAGGGATAATTCTTGATTTCTTTATCCTGATATTAAAATTCCATAATAGGCTGG
GCACAGTGGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCCAAGGCCAGTGGATCATTGAAGTCAGGAGTTTGAGATCAGCCTGGCCAACATGGAGAAA
CCCCACCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCATACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAATCC
GGGAGGCAGAGGTTGCAGTAAGCCAAGATCACGCCAGTGCACTCCAGCCTGGGGGACAGAGCAAGACTCTGTCTCAAAATAAATAAATAAAAATAAATAA
AATTTGATAATATATAACCTGTGACCAATTCATTTTTAGACTTACTGCTTAAACAAAACAATATTCTTGAATTTAGTGGAATAGAAATTGTTGATGCTAT
AAAGTTAGAAATTTTACAGCCTGAGCAACATGGCAAAACTCCATCTCTACAAAAATTACAAAAATTAGCTAGTCTTGGTGGCGCACACCTGTGGTCCCAG
CTACCCAGGAGGCTGAGGTGGGAGGATCGCTTCAGCCCAGGAGGTTGAGGCTTCAATGAGCCACGATCGCACCACTGCACTCCAGCCTGGGTGAGCCAGA
ACTAGTCTCAAAAAAAAAAAATTTTACCTGTGTAAAACTCTTTATTAAAGTACATATTCAGTTTTTATTGAAATCTTGCTATGTAGCAGATACTGAATAT
CAAAGATGTCTTTACCTTTAAGAAAGTATCAGTCTGGGCTGGGCATGGTGGCTCACGCCTGTAATTCCACCACTTTGAGAGGACAAGGAGGTCAAGACCA
GCCTGGGCAACATAGTGGGACCCTGTCTCTAAAAAAAAAAAAAAAGTTGTTTTAATTAGTTGGGCTTGGTGGTGCACGCCTGTAGTCCCAGCTATTCAGG
AGGCTGAGGTAGGAGGACTGTTTTAGCCAGGGAGGTCAAGGCTGCAGTGAGCCCTGAACGTGCTATTGCACTCTAGTCTGTGTGACAGAAACCCTGTCTA
AACAAACAAATGAAACTACAGTTTAAATGTTGGTAAATGAGATACAGATTTTCTGAATTAATTTCTCTCTTACGCTTAAAGATTTTGGGAGAAAAATTAT
TAGGAAAAAAAAATCTAAGCCAGGCACAGTGACTCACGCCTGTAATCCCAGCACTTTGGGAAGCCAAGGTGGGTGGATTGCTTGAGCCCAGGAGTTTGAG
ACCAGCCTGGGCAACATGGCGAAACCCTGTCTCCACAAAAATTACAAAGAAAATTAGCTGGGTGCGGTGGCACGGGCCTGTAGTCCCAGCTACTAGGGAG
GCTGAGGTGGGAGAATTCATTGAGCCCAGGAGGTCAGGACTGCAGTGAGCACCGTGAAGGCACCACTGTACTCCAGCCTGGGAGATAGAGCAAAATCCTG
TCTCATAAAAAAAAAACTAACTGAAAACATCTTATAAATTGATACATTTAAGACTGCAAGCTTCCTTGTCATCATTATATATTTAACCTGTCCAAAATAA
AATGATATTAGTTAAAGTTTATAGTATATATATATTTTTTTCCTCAAAGCACCTGCTGAAGATTGTATTTCCAGCAGTACAGAACCCAAACCTGATCCAA
AAAAGGCCAAAGCTCCAGGATTATCCTCTAAAGCAAAGGTATGTTAACTCTGTATACTTCGATGTAGACTTGCTTTTAAATATATTTTATATACTGAGTC
ATTCTATTAGGAAGGATCATATTATATATAAAAGAACATCACTGCTGTTGATATTATCAAATTATTTATACAAATTTCTGTGGTTCATTTTTAATAAGGT
CCTAAAACGGAGACATCCTGCTCTCAAGAGGTGCTGTCATCTTCCTTTCATGTAGATTTTCGGGGAAAGATTTACTTTATTGAAAGAAGAAAGGGCCGGG
CACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGCGAAA
CCCTGTCTCTCCTAAAAATACAAAAATTAGTTGGGCATGGTGGCACACCTGTAATCCCAGCTACTTGGGAARTTGAGGCAGGAGAATCGCTTGAACCCAG
GAGGTGGAGGTTGCAGTGAGCCAATATCTCGCCATTGCACTCCAGCCTGGATGACAGAGCGAGACTCAGGAAAAAAAAAAAAAAGGAGAAAGCATTTGTA
GCTCTGGCATAATAAACACTTTAGGCTGATTTGGATTTAAGAAAAGGAAGTTAAATCAACCTCCTTCAAATTTGGCACTGTTGTCATCATATTAGAAGAT
GTTTCGGTTAGTCTGCAGGGAAATATCTTTTGTCCCAGTGGGATTTATTTTGATGCATCAGCAATTCTTTCAATATTCATGGAGAGTTGGACAATTTAAA
GCAGTGTGTTCAAATGTTCAACTTTATCCTCTGGGTGATTTTTTCATTTAATTAAGTTTTAAAATCACAGTAAATTGTCATTATCTCTATCAAGATTGAG
ATTAATAAACATATTCAGAGTGTTAATTATTTAACACTTACAAAAGGAAAATTGCAAAACTGTGCAATGGGTAATGAATCTAATAGTAAGTCTAAATAGA
GAATTATTTAATTTACTTCCTGTAATTGATGAAAAAATATAGAGAATGTTTTTTAACCAGTACATGTATTATTACACCCCCATTTTGGAGTACACACTCT
AGGGCCTTTCTTCTAAATATTACAATTAACCATTTTTCTTCCCTATGCTCAGGCCCTTTAACTCCTCAGTGAATTAATTTAAATGGGTAATTATCTTCAA
CTATCCAATGACGTTGTTCTTTTCCTGTCTGCCTGTCCTCATCCCAAATTTAACAAGTGCTTATTTTAGTTTAGATCACGAGTGTTTTGCAGTATTTTTG
ACTCCGTTCTTAATGCCATAATTTTTTTCCCAATCTTTTTAAACTTACGAAGCAGTTTCATATAAATGATCTCATATTTGTTTGGTCTGAATGACATTAG
TGTTTATACTAGAAAGAAATTGTGGCCAACTAGAAATAGTGGCCATGCTACATTTATAATAATAATGATTCCAGTAATGAAATTTGAATTTTACCTTAAA
TATGTGTACTATTGTTTACTATTTTCTTTCTATCTGATATGAAGATTTTAAATCTTGGATTATTTTTTAAAACCACTTTAGTGACTTAARTATTTAAAGC
ATTTCTTGTAACTTTCTCTAGAAGCAAGTTCAAAAGGTCTTCAGTTACACTGTTATGATAAGAGATACATTTAAATATCAATGGAAAGAAACAGAAAAGC
TTTCAAACTAAGTGTTTGGAAATGTGTAAATGCCATTCAAGATGTCATTAATGGCTSAGGTGGGTGGATCACTTGAGGTCAGGAGCTCSAGACCAGCCTG
GACAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGGGTGGTGGTGGGCGCCTTTGGTCCCACCTACTGAGGAGGCTGAGTCAGGA
GAATCACTTGAACCTAGGAGGTGGAGATTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAAAA
AAAAAAAAAAAGATGTCATTAATATGGAAAGCTATAAATAGTGTTGAAGATTTCAAGAAAACAAAAACAAAAAGTTTGTGACCTAGACTAATGATCAGTA
ATAGCAGTTTTTCCAACTACATAACATGCCAGTCCAAGAACTAACCAACAGTTACTTAAGAATATTCTCAGAAAAATTTCTAGAGAACCTGTTCAAAAAC
ATATACAAGATTCTGTGATGCATGTTTTTTTCATGTGAAATATCACGTAGAAAGATATCTCTGTTTTCTACAGTGCCCTTTTACTGGGCAGCAGCATCAT
ATTCTTAAGGAGAAGTGGCCAAGCTAATCAGTATTCCCTGAACCTTGGTTGTAGAGTGCACAAGGGAAGAAGATGCCAAGCAAAACCAGCTTAAAGGAGG
ATGAAGACAAATCCGGGCCTATTTTTATTGTTGTTCCAAATGGAAAAGAGCAAAGGATGAAAGATGAAAAAGGATTGAAGGTAAGGAAGGATTAAGAATC
GTCAGGAGATTTTTGCTTGTATTGTTATTCAAGAATAGTTTTGCTGTCTGAATTCATGTTATTGTTTAATATCTAGGAATTAAGTGTTTCTTTTGCTTAT
AAATTATATTATTTAGTTTATGGGAGCATTAATTCCTACAAAAGAAACTATAGAATAGAGTTATTGCCTATTTTTCCCTGTAAATAGAAATAAATGATTT
AGTAGCTTTTTTGGTATCTTCATTTTTAAAATCAAAGAATGGAATGTATTCATTGATTTTTTTTTTAATTAATTGGATGTATAAGCTTCTTCATTAATCC
TTCTTTTTAAGACCTTACAAGGCAGACTTTGTGACTGTATAAATGGCTAGTTCAGTCATTTATGTTACTTTGATTTCATTAGATACTTAAATTTGTTTTC
AAAATACATAATCTTTTTTAAAAATTATATGCAGTACAGAAAGTGCAAAGTATAGTAAGAAAAGCATGTCTCTGTTCCAGTATCCCTCCACAGGGAGGAT
ATTAGTCCTCATTTTTTCAATGTATTACTCCAGAAATATTTTATACCTCTACTATCATATGTATATTTTTATATAGCCCTCCTTTTATACAGATGGCATA
TACAGACATGCCGTACTGTTTGTTCTGTATCTCACTATTTTCTTTTAATGATGTTTGAAATATCTGAAAGATCATTCGTATCTGTGTATATATGTGTGTA
TCACTGTTTGTATTGGTGCATTGTATGTATGTACCTTTCTTTATCCTTCGCCCACTATGTTGGACATTTAGGTTGTTTCTGGTCTTTCACTATTACAAAC
ACTGCTGCTGTGAATATCTTTGAATGTAGGTCTTTGTACACATATGTGAGTGTATCTATATTAAACTCCTAGAATGATGATATGCATAATTTTGATAGAT
ATTTCAAATTTTCTCTCTATCAAAGATGTGGCAGCAGTGTCCACCATGTTATATAGTTATATGTAGGATTAATTTTTTTTTTTTCTTTAGTAAGAATTGC
AAGGCCAGGCACAGTGGCTCATGCCTGTCATCCCAACAATTTGGGAGGCTAAGGCAGGCAAATTGCCTGAGCCCAGGAATTCAAAACCAGCCTGGACAAC
ATATTGAGACTTCATCTCTACGAAAAAAATTTTTTAATTAGCTGGGCATAGTGGTGCATGTCTGTAGTCCCAGCTACTTGGGGGGCTAAGGCAGAAGAAT
CACTTGAGCCTGGGAGGTTAATGCTACAGTGATCTATGATCATGCCACTGCACTCTGCCATGCCCAGGCAACAGGTGAGACTCTGTCTCAAAAACAAACA
ATTCCAAAAATTTTTATTCCTAGAAGATTTTCAGAGTTGTTAAGCTTCAAGAAGTATGACACCTTGAAATTTGCATTCATATTTAATTACAAATGAATAT
TGTTGAATTTTTAAATATTTTATTGTTCCTGCAGCTGCATTATATAAGGCTCTCTACCTCATTTCAGTTGAACACCCTGTAGCCCCTTTTCACCGTTTGT
TTTTTCCAGGTGCTAAAGTGGAATTTTACTACCCCACGGGATGAATACATTGAGCAACTAAAGACTCAAATGTCTAGCTGTGTGGCTAAATGGTTACAAG
ATGAGATGTTTCACTCAGACTTTCAGCATCATAACAAAGCCCTTGCTGTTATGGTTGATGTAAGTCTGCAATAGATAAATATACATGTATTTCAGACATG
TAAAAATACCGAGCCCTATGAAATAATCTGAAGTTTGCATGACTTGGAAGTAGAATATACTATGTTCTCTATTTTTAGAGCTGTCTTGTTATTTGGTAGA
ATAAATGAATGTGTGTGTATATTTTTTAGGTCTTAATTGAAGGCTTAAAAATCTGTCATTTTCTTTTTGGGCTCCAATAAAATTTAAAAGACACTTGCCT
AGTAGAATTAAGATTTTGATTATTCTTATTTGTGGGAGTTTTGTTTTGTTTTATTTTAAGCACTTGGAGAGTGAAAAAGAAGGAGTTATTGGKTGCCTGG
ATCTTATCTTAAAGTGGCTTACCCTGAGGTTTTTTGACACCAATACAAGCGTCCTGATGAAAGCACTAGAATATTTAAAATTGCTCTTCACCTTGCTAAG
TGAAGAAGAATATCATCTTACTGAGAATGAAGCATCTTCCTTCATCCCCTATCTTGTCGTCAAGGTAATGTGGTGTTCTCTCTCTGGGAGACTGCTTAAG
TTCCCAGCTGACCTCAGTTTCTGTACTTTTATTTCCTCTCCCTTTTTTACTGATTATATCACGGTACCTTCCCTACTTATCCCTATTTCCCTATTCTTTC
AAAACATAGTAATGCATGGGAGAATCATTGCTACTTAGGAAATGCCTCACTTAATCATTATTTTCCTTATCGACTAGGTTGGAGAACCAAAGGATGTCAT
TCGTAAAGATGTTCGTGCCATCCTGAACCGGATGTGCCTTGTCTACCCAGCTAGCAAGATGTTTCCCTTTATCATGGAAGGAACCAAATCCAAAAACTCT
AAGCAGAGAGCAGGTGAAGCAAACAGTTTAAACTGAGATGTGAATCTCTGCAGCAGTAGCCTATAGAAGAAATAGTTTATAGATGAACAAATAAATTTCT
CCAGTGCCTATGTAGTTGATTCCAACCTCCTGATTTAGACTGTGAGAGTGATGAGTTGCACACTGGTGGAGCCATGGTATCAGGTGATACAGGCACCACT
CAGTATCACCCTGGTGACAAAATCAAGTGCACAGGGGCCATCTGACTCACAGGCATCTCTTCCTTTCAGGAGCACTTGCTGAAATACCATTTTTTCACTG
ATAAAAGGCAGTAAACAAAAAATCCTAGGCAGAGCCAGAGTAAGGTTTTAGTCCTTCATATATGCCAAGGGAAATTTCTCTAGTAAGGATAAGTCTCTGT
CCCAAATATGTGTTGTCTCATTAATCTAGCCTTTCTCCCCCATCAGAGTGCCTGGAAGAGCTGGGATGTCTGGTTGAGTCCTATGGCATGAATGTTTGCC
AACCAACCCCAGGAAAAGCCTTAAAGGAAATAGCTGTTCACATAGGAGACCGTGACAATGCTGTACGCAATGCTGCACTCAACACCATTGTAACGGTGTA
CAATGTACATGGGGATCAGGTGTTCAAACTGATTGGAAATGTGAGTGACTTCTCTGAACACTGTCAGCATGTCGTGAAAAGAATTGCAAGATCTCCTAGG
TGTTAGGTTTCCTGTCCTCTCAACTGTAGCTAAGTTTTTACTACTTTTTAGTCAACTCAACCTATCAATGTGTCCTAGAATCCAGATAGACCCTTGAGGT
GTCTCTGATTAGGCTGTTTTAATGGAAATCAAGTTTTCTTTTCTGAGCATTCTATTCATAGCAAATTTGCTTTAGAAATGAGTGCTATTTTTGAATCAAG
AAATCTGAGCTAGTCCCGGGTTTAAATTCTGCCTGGCAGTCTGCTCTGTAATTTTTACTGCATCGAGTTTTTGGTTAAAAAGTGCTTATTTGTGTATAGT
GTGGATGCTAGTATCTGTCAGATCACATCTTGCGCTACAGCCGTGAGCCAGTTTTTCACTCACATTAGGTTCTGCCTCTGACCTCTTATTTCGTTTGAGT
GAGTCTGGACCTCCGTCTTCAGTTACCTCATAGTGTCACCATGTATTTACACAGGGCTTAAATATGTTTACTTATATTTTCTAATTAAATTCTCACTACT
ACCCAGTGAAGAATATAAAGCAGTTGGGAATTTTACAGATGACCAAAAATGAAGTTTCTTGCCCATAGTCACACAGCTAGATAGTGGTGACAAAACAAAA
AATGAGGAAGCTTCATTTAATTTTTGACCTTTTTATTTGTAGTTACTAATTGGCTTTCTTTTTTTTATCGTTTCTTTTTTTTTTTTTTTTTGAGACAGGG
TCTTGCTCTGTCACCTAGGTTGGAGTGCAGTGGTGTGATCATGGTTCACCGCAGCCTCGACCTCCCAGGCTCAAGTGATCCTCTGACTTCAGCCTCCTGA
GTAGCAAGGACTACAGGCGCGTGCCACCACACCCAGCTTATTTTTATACTTTATGTATAGATGGGGTTTCACCATGTTGCCCAAGCTGGTGTCAAACTCC
TGGGCTCAAGTGATCCTCCTGCTTTGGCCTCCCAAAGTGCTGGGATTACATGCATGAGCCACTGTGCCCAGCCCCTCTCCTTCTTTCATATCTCCTCTTC
CTATAGCAGCTAGGCAGGTATTAATAGTAGTTGATTTTGAAATGTGGTGCTTTGAAAGTAAACATGTCCTAACATAGAAGGTTCTATTTGTTTTGATATG
AAAATAGATATTATTGTGTTATCCAGTTAGGTTTCTAAATTTGGCCTCTTTACAGCTTTCTGAAAAGGATATGAGCATGCTCGAGGAGAGGATTAAGCGG
TCAGCAAAGAGACCCTCTGCTGCACCAATAAAACAGGTGGAAGAGAAACCTCAGCGTGCACAGAACATAAGCTCCAATGCCAACATGTTACGCAAGGGAC
CAGCTGAGGACATGTCTTCCAAACTCAAGTATGTAGATAGAGATACTTGTCTGAGAGCATCTCCATGGCCTTTGCCTTGTGTGCTCACAGCCTGTCCTGT
AACATAATCTTGAGTTCTTGTAGCCATTATCATGCATGACAGAGTGTCTGGGTAAATGTATTGTAACCAAATGTTTGATTCTTCAGTCTTCATTGTCTTT
GTCTTTGTCTCAAAACCACTTCTAAATGGTCTTGTGCCTTCTTTCACTGCTTTTCCGTGGACAGAATTATGTATCGCACTTATAGGATGTAAGTACTGCC
TGCTAATTTCTCATTAGCAGGGCTCTTATATCTTTCTAACTTCTGACTTGGATTCATCCCCTCTGGAGGGTGACTAGCTTAGAGTTTATAATCAGGGTAG
AGGGTGTCCATAAGTACCCCATGAATCAAGTCTTCCACAAAAGTTCAATGTCATGTGGCTAAAATACTGATTCACTTTCTTCTTTGTGTTATACTTGGTT
GTGCTTAGTTTCCTATTCTTGAGATAAGGCTAATTAAAATACATGCAACCCAAAATTGGCTTAGGGACTCAAAATACTGCCTCCTAAGCAAGACAGCTCT
ATTTTGGGTTGTGTCATGAGTATAATTTTAACGAACTTGAATTTGGAAACTTTGAATCCCTATTTCTTGGATGTAAAGCTGGCCCTGACCTGTCAAGAGT
GAATATTCTAAAAAGGGGTGACTGGTGGTCTCACAAAATATAAAATGTGCTGAACACGGCATGGAATGGTACTTATGATTAGCAAAATTAAAGCACTGGT
TAATTTGGTGGAAAAGAACCAGCCAGTCTAAATTTTTCTTATATATTTGCTCATAAGTAGTGAACTTTGAGTCAATACAAATATATTTTATTGTTTTCTG
CCCCTTCAGGAATAGAAATACAAGGTTTGTTGGCTTTAGTGAACTAGAACAAATACTTATAACTTGGCAGGTAATGTAAGTACAAATTAAAGTTATCTGC
CCTCTTAGGATATTCATGAACCAATGTTGTTACCTATTAAAGGCACTTGCTTAGACTCAGGGACTTAAATCATTCAGGGGGGCTGAAACCAGAAGTTGAA
CATCTGTCCTGAAGCTTTGGGGCAACTGACAGTGCTACTCTTGCCCTTTGGTTAAGAAGTCTCTTTTAGTTCAGGAGCCTCCTTTTGCTTCCCTTAGCCA
AGCCCGAAGCATGAGTGGGCATCCTGAGGCAGCCCAGATGGTCCGCCGAGAATTCCAGCTGGATCTAGATGAGATTGAGAATGACAATGGTACAGTCCGA
TGTGAAATGCCAGAACTTGTTCAGCACAAACTGGATGACATTTTTGAGCCAGTCCTTATTCCTGAACCCAAGTGAGTTAAACTCTTTCATTTAAATATGA
GCAGTTCATGATGATCAGACGGCCTACGTGAAATGTGCCCTTTGTAATGTGCAGTTAAAACTTTTTAGAACTGATTATTTTTTGAATGATAGCAGTTGTT
AACTAAGACCTGGACCTAGTGGAGAATTGTATAACTCCAACTGACTGGGATGTCTTGTAATAGAGGTTGAAGTTTTCTCTTTGTTCTGCTATCTAGGATC
CGGGCTGTTTCTCCACACTTCGATGACATGCACAGTAATACAGCATCCACAATCAATTTCATTATCTCCCAAGTAGCCAGTGGTGACATCAACACAAGTA
TCCAAGCTCTGACACAGGTAATGGGTGTGCTCCCGTGACAGGGATTCCATTGGTGGACATAGAGGCTATAAATGTGATGAATTGCACACTCGCAGAGTCA
TAGCATTAGGGGATGCAGGCAGTGTTTCATACTTTCCCGAGGAAAGAAATGCACAGGTGCCACTCAGTCATCACTTGCCTCAGAGGATGTGACTCTAATA
GAGCCTTATTTTTTTTTTTTTTTTCCTCTTTTGAGACCAGGTCTCACTATGTTGTCCAGGCTGGAGTACAGTGGCTATTCACAGGCACTATCATAGCACA
TTGCAGCCCCAAACTCCTGGACTCAAGTAATCCTCCTCTCTCAGCTTCCTGAGTAGCTGGGACAACAGGCTTGCATCACTGCACCTAGCTAAGCCTTGCA
TTTTTTATAATTGCATTGATTCACCAGAGGCTAGAGATAAAACAGCAGCTAACAAGTAAGGACCAACTCTCATGGAACTTATTTAGATTTTAGTGGACAG
AGACAAGTAAACAAGAAAATATCACACAGTTGTAACAACTGTGTAAATATAACTTAAATGGGGTAATGACGGAAAGGAAGTGAGTAGATACTTAGACTGG
GTGATCAGGAAAACTCTGATATCCTTGGGGCTTAGAGTATGCCAAGGAGAGGAAAGAGCTAGTGGTCAAAGGCCTTAGGGCAGAAATGAGCGTGAAGTTC
AAGGAAATAAGAGAAGGTTCATGTGCCTGGAGCATAGTGTTAAAGGGGGACAATGATACAGAATGAGATTTGAGAGGCAGACAGTGATCATATCATGTAG
GGCTTTAAAAGCACCAGGGTGAGTTGTTTGGATTTTATTTCAATTATGATAGGAAACCATTAGAAATTTTTTAAAAGAGAAGTCATGGGTGGGTATGGTG
GCTCCTGCCTGGAGTCCCAGCTGCTCAGGAGGCTGAGGCAGGAAGATTGCTTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCTGTGATTGCACCACTATAC
TCCAGCCTGGGTGACAGAGTGAGACCATGTCTCAAAAAAAAAAAAAAAAAATAGGCCAGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAAGC
CAAGGTGGGTGGATCACGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATGTGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTG
GCGCACGCCTATAGTCCCAGCTGCTCAGGAGGCTGAGGCAGGAGAATCACTTTAACCCGGAAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCAC
ACCAGCCTGGGTGAAAGCAAAATTCTCTCTCAAAATAATAAATGAATAAAATAAATAAGTAAATGGGCTTTTTTTTAAGGTAAGACTTTAGAAGTACTTT
GCTAATAAATATTCTTACGGAGAAGTTTCATATAGTGTCTTCCGCTATTTTAGAAGTATGAAGCTTGGAAAATATATCTTGAAATTTTTGTTATCAGATC
GATGAGGTCCTGAGACAGGAAGACAAAGCTGAAGCCATGTCCGGCCATATTGATCAGTTTCTGATAGCCACTTTTATGCAGCTAAGACTCATCTACAACA
CACACATGGCAGATGAGAAATTGGAGAAGGACGAGATCATCAAGTTGTATAGCTGTATCATTGGCAACATGATTTCGGTAAGGGCACCTCTGCAGAATTT
CAGCTTCCCATCAATCTCTCAGCCTACAGAGGTTCAAAAGCCAGAGTCCATGCAGATGTTGCAGTGAGTCCTGTGTCACTTGGTAGAATTTTACATGCAT
TGTATATAGCAAGCTACTGATGGCTTCCATTGGATGTTTGGCTACACTCCATCCCACCTTACTGTTAGGATATAAAGTAACATGCTTACAGACTACCTAG
CTTCTTCCGGCCAGTTTCTTCATCAGGCATGGTAGGCCRTAGCTGCCTTTCCACAGATAAGTATGGTTCTATTAAAAATGCTAATTAGCCTGGTTTGATC
AGTATACATTGTATACATGTGYTGAAATACCACTCTGTATTCCATAAATTTGTACAATTATTACATGTCAACTAAAAATAAAAGGGAAAAAATTTGTTAA
TGTTTTACCTGTAGAGCAGATTATAAGGATAATAAAGACATTCTCACTCAGATTTCAATATTCTTTCTTAAACTGGGGCTAAAAGGGTGGACTTAATGAC
ACCAACTAGCCAGAAATTACAAATTTGGCATAACAGTAAATAATTTCACATGTAAAAACAAATACTTTGGCCAGGCACAGTGGCTCACACCTATAATCTC
AGCACGTTGGGAGGCCAAGGCGGGTGGATCACAATGTCAGGAGTTCAAGATCAGCCTGGCCAAGATGGTGAAACCCCATCTCTACTAAAAATACAAAAAA
TTAGCCAGGCCTGGTGGCGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAGAATTGCTTGAACCCAGGAGGCGGAGCTTTCAGTGAGCCGAG
ATCGTGCCACTGCACTCCAGTCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAAACAAAAAATTTCACAATTAGAAGCACACCGATTAATTTTGCCT
ATTACTAGAGGCTTGGGGGAGTGTGGTGATTTTGTTTTTTCTTTAATACTCTGAATTTTTACAAATATAACATAGCCGGGCGCGGTGGCTCACGCCTGTA
ATCCCAGCACTTCAGGAGGCCAAGGCAGGTGGATCACGAAGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAAAAAA
AAATACAAAAATTAGCCCAGCGTGGTGGTGGGTGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAATGGCATGAACCGGGGAGGCAGAGCTTG
CAGTAAGCCAAGATCACGCCACTGGCACTCCAGCCTGGGCGACAGAGGAGACTCCGTCTCAAAAAAAAAATACAACATAATTGAATATTTATCAGAATAT
GCCACCCACATTTCTTTACTCTCTATATTGAGTTTTACACCTCCCTGACACAAGTATGTCTGGATAGCTGTTTCAGATAGAGAGCCTTGCCCGGGAGGCC
TCCACTGGAGTACTAAAAGACCTAATGCATGGCCTCATCACCTTAATGCTGGATTCTCGGATTGAAGATCTTGAGGAAGGACAACAGGTCATCCGCTCTG
TGAACCTCTTGGTGGTGAAGGTTCTGGAGAAGTCAGACCAGACCAACATCCTGAGGTATATCTGTACTCTCAGCCAATAGAGCCTGGGGCATCCTCGCTT
TTGTTTACACTTAGAAACCATAATGTCCGTAAGTCAACTTCCTAGGCAACCTAACAATCATAATCAACTTCCTAGGCACACTTAAAGTTATAGCTACATC
AGTTATAACTATATCAGTTAAAACTTTAAGTGTGCCTAGGAAGTTGATTTATTACTCTTCTTCATCATGGACCAAAGGTATTTTAGCCTGAGACCATAGC
TAAAACTAGTAAATACTTAGTTAGCCAGCCAATATCATGCATTTTCTATAATAGGACTGTAAAGTTTGTCAGTTACATTTTTCTTGTACATTTCAGGTAC
ATTTTATTCTTTCTCAGCTACCAATGACAATGAAAAATAGAGTCACAAACCTTACACTTACCAAGTGGTGACTTAAAAGGCTTAAACAATGTTTATTTTC
TTAACTGAATGTCAGGTAGTCCAGGACAATTCCTGATCCATGACCTCTCAGTTTATTAGATGAATAGAGTAATCTCACTTGCCCTTTCAACTGCTGATTC
TAATTGGAATGCAGGTTTGAAACTTAATGCTGTTGTGTTGGGTTTTTCTTCCAGTGCCCTACTTGTTTTGCTCCAAGACAGCCTGCTAGCAACAGCCAGT
TCTCCCAAATTCTCAGAGCTTGTTATGAAGGTGAAGTTGAAATGATTTGATCTCTTTTCTTTCAAAGATGCAATCACTTTGTTAAAAGTATGGGGAAAGA
GGAATTGGAGCTAAGAAAGACATAGGCTCAAATCAACCAAGTCACACCTGAAAATATATTTTTCGTAATAAAAATATTAATAAATTTTTAAAAATTTAGC
CAGGTGCAGTGGCATGCACCTATAGTAGCAGCTACTCAGGAGGCTGAGTTGAGGAGATTACTTGAACCCAGAAGTGAGCTTGATCATACCACTACACTCC
AGCCTTGGCAACAGTGAGACCCCATCTCTTAAAAAATATATATATGGTTTTTTATATATATGTGTATTATATATATGTATATATGTATTATATATGTATA
TCTTAATATGTTATATATGTATATAATACACGTGTGTGTGTGTGTRTGTGTGTGTGTGTGTGTGTGTGTGTGTGTRTRTATATATATATATATATATATA
TATATGAATTGGTCTTCAGTTTTTCCCTTCCTACAATTTATATTCTAAGTTCAGGCCTAAACAGTTCGTGGCCTCAAACAGTGAAAGGGAGGAAATATTT
TGTAAATATTTTACTAATTCTCTGAGGATCAAAAGGAAAGAAGTTTGAAACAGATTTCATTTATTTTGGGGAAAAAGATATCTACAGCCCTATGATATTT
GGTCTCTTTTGTGAAAGAGACCAAATGAACATATTTATAACATTGTAATACTGTTATTACACTGAATTAGTATCAGATATTTTGTCCCCTTGCATTAGAT
TTGGTTAAGCAACATGAACTACTTTACTCTCAGGAACGAAGGAAACCCAAGAGAGAATTTCTRCCAGGTTAAATGATGGCCCCTAGCTCTGGGGAGTGGG
AAGGAGTAGAGATGGATGATTAGATGAATGACTGGACACACTTCAGCTGGTGTCATGGTAGAAGTGATTAAAAATTTTCATGTTTTAGCAGCTGAACTTG
AAAGATATGATGTGCCACATTTATAGCCCTGGCCATCTTTTAGAAGTGAGCTCAAAGCTTAGGGAAGATGAATGGTGACAAATTATCCTCATTCTTCAGT
CACTCCTAACTCTTTTATTCTTTTTTCAATAGTGTCTCTGGAGAATGGTTCGACTGTTGCCTGATACCATCAATAGCATTAACCTAGACAGAATTCTTCT
GGATATCCACATTTTCATGAAGGTCTTCCCCAAAGAGAAACTGAAGCAATGCAAAAGTGAATTTCCCATAAGGACCCTAAAGACCCTGCTACACACCTTA
TGCAAATTAAAAGGGCCCAAGGTGAGTAAGAATCGCAACTGGTCTCTGAGGGAGCTTGAGAGAAAATCATGGAAATGGCAGTGCTATCAGTCATGCATGT
GTCTCCCTCAGATCCTGGACCACCTAACGATGATCGACAACAAAAACGAGTCTGAGCTGGAGGCCCATCTCTGCCGGATGATGAAGCACAGTATGGACCA
GACTGGGAGCAAGTCTGATAAGGAAACAGAAAAGGGAGCATCTCGAATAGTGAGTGGCCTGACTTGAAAGATTGAGGGACATGAGGCTACACCGGAAGTG
ATCTTATCTAAGGTGTAGGTCACCAGGATATGCTTTCCGAAGGTCCAAGGTGAAGGCTCATGGACTGGTTGAATCAGTCTCCTGCTGTGGTGCAGTAACC
ATTTCCACCTTGAAATTTTAAAATCTAAACTAAGTATAACCATGTGTTTTTTGGTCCCCAAGAAAGATGCCTAAGGCATTGGTCACCAGATAAATAGCTA
GTTCTGCTTAACATGGAAAGAATATGTCAGTTCCTTCTCCATCAAGTTGAGGTGGAAATCTGAGACTGGAGGCATTCAGTAACACAGAATGTTAGTGCTT
CTGCTGCAAGACCTGCATCATCGGTGCATCTGTTATCTGTAGGAACATACCAATAAGGCCCAGATTTTGAGATATTTTCTGTTCATATCCAACCATCAGT
TCCTAATTAATAACTCAAGTCTAACCAATTCTTCCTATGTCTTTCAACTTTTCAGGATGAAAAATCATCAAAGGCCAAAGTGAATGATTTCTTAGCTGAG
ATTTTTAAGAAGATTGGCTCTAAAGAAAACACTAAAGAGGTGAGAGTGAAAGGGTTAAGCAGAATAGGGGTCTGCTTTATGGTAAAGGGACACTAACATT
CATCCCCACCTCTTCCCTTTTCCTGTTCACCAGGGACTAGCAGAGTTATATGAATATAAGAAGAAATACTCAGATGCTGACATTGAACCATTTCTGAAAA
ATTCCTCACAGTTCTTCCAGAGCTATGTCGAAAGAGGCCTTCGGGTGATTGAGATGGAGAGGGAGGGCAAAGGTCGTATTTCCACTTCAACAGGTATGGT
TTCCTGTTATAGCTCCAGGAATAAGCTCAAAATAGCTCCTAGCACAGGAACCTGAAGTTTTGGTTAGTTTAAATTCATATCCATGAACCTCAATACTTAA
TGGTCACCAAATGGCCTTCCCATTGCTATATCCAGTGGTCAATTCTTAGCCACCTGAATTGACCCATCATCAGTATTTGACAATGGTAAATAAATTGTTC
CCTGCCCTTGAGACAGCTTCTTCACTTCGCTTCCAGTTCTCCATGCTGTCTTGTTTTCCTCCAGTCTCACTGGCTATTCCTTCTTGGCCTTTGACTGATT
CTTGCTCACTTGCTCTGACCTCTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTTGCTCGGGCTGGAGTGCAGTGGTGCAATCTCGGGTTCAAG
CTATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCACGCCAGGCTAATTTTTTGTATTTTTAGTAAAGACGGGGTTTCTCCA
TGTTAGGCTGGTCTGGAACTCCTGACCTCAGGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGAGATGATGCTCATGAGCCACTGCGCCTGGCCTCACT
CTGACCTTTTAATGTGGACATCCCCCAGGGTTCAGTCTATGGTTGTCTTCTCTCTTTCTCTTATTTCCTTAATGAGTTCATCTACTTTCACCACTTTAAA
TAACATTTAAATCTCCAGCTTAGACCTCCTTCCTGATTTCCAAACTGCTATATCCTACATGATATCTCCACCTGGGTTTCAAATAGATTTTTTTTTTTTT
TTTTTTTTTCTTGAGACGGAGTCTCACCCTGTCACCCAGGCTGGGGTGCAGTGGTGTAATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGAT
TCTCCTGCCTCAGCCTCTTGAGTAGCTGGAACCACAGGCGGGTGCCACCACACCCAGCTAATGTTTGTATTTTTAATGGAGATGGGGTTTCGCCATGTTG
GCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGTCACCATGCCCAGCCTCACAT
AGACATTGTAAACTCTACATGTCAAAAACTAAAGTCCTGGCCAGGCATGGTGGCTCACGCCTGTAATCCAGGACTTTGGGAGGCTGAGGCGGGCAGATCA
CGAGGTCAGGAGTTCAAGACTAGCCTGGCCAATATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGTTGGGTGTGGTGGCGTGCGCCTGTAGTC
CCAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATCCATTTA
CATTCTTCTCCATCTTGGTTGATGGCAACTTTATCCTTCGAGTTTGTTCAGATCCAAAGCTTTTGAGTCTTCTCTTCCTTTCCGTCAGGAAATTATTTTG
GCTCTACCTGCAAACCATATGCAGAATTCATCCACACTTCTCTTCACTGCTACCACCTTGGTGTGTGTGTTCTCTCTCATCTGTATTACTGTACTATCTT
CCTGCTTGATCTCCCTGCTTCCACCCTGCCTTCCTCTGTTCTTTTCTACACATAGCATCAGAATGACTCTAATGAAACATTTTCCAGAGGCTCTCCCTTT
CACTCAGCAAAAGCAAAAGGCCCTTTAAAGGTCTCTGAGGTCCTGTGTTTATAGGACCCGCCAGTGCCCCTAGTACCTCATCACCTAGTCCTCTTCCTGT
TGTTTCACTCCAGCCCCACCAGCCCCCTTGTTTCTTTTAGAGTCAGGGTCTCGCTCTCTCACTCAGGCTGGAGTGCAGTGGCGCAATCATGGCTCACTGG
GTTCAAGCAGTCCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCATGCCACCATGCCTGGCTAATTTTTGTATTTTTTGTAGAGACAGGGTT
TCTCCTTGTTGCCCAGGCTGGTCTCTAACTCCTGGGCTCAAGTGATCCACCCACATCGGCCTCCCAAAGTTCTGGGATTTCAGGTGTGAGCCACCACGCC
TGGCCTCCCCCTGGTTGTTTCTGGAACACACCAGGCATATGTCTTCTTAGGGCCTTTGCACTGGCTATTTCTTACACATAAATGCTCTTCCTTAGATGGC
TTTGTTGCCTAGCTCCCTTTCCTCTTTCACATCTTTGTTCAAATACCACCATCTTAGTGAAACCTTTTTTTTTTTTTTTTTGAGATGAAGTCTTGCTCTC
TCGCCCAGGCTGGAGTGCTATGGCACGATCTTGGCTCACTGCACCCTCCGCCTCCCAGGCTTAAGAGATTCTCTTGCCTCAGCTTCCCGAGTAGCTGGGA
TTATAGACGTGCACCTCCACGCCCAGCTAAGTTTTGTAGTTTTAGTAGAGGCGGGGTTTCACCGTATTGGCCAGGCTGGTCTCCAACTCCTGACCTCAGT
TGATCCACCTGCCTTGGCCTCCCAAAGTACTCCCAGGCATGAGCCACTGTGCCTGGCCAGTAAAACCTTATTGTTTAAAACTTGCAACCTATCCCTCACC
CCACCATAGCACTTACACCTCTAACATACTATATAATGTAGTATTTATTAGGTTAATTGTTCAGCATCTGTGTCTAGTCATGCATATCAACATTTTGCCC
AGTGATGGACTGCATATATGATGGTGGTCCCATAAGATTATTTATTTTGAGACAGGGTCTCACTCTGTCATCCAGGCTGGAATGCAGTGACGATCTCGGC
TCACTGCAACCTCCACCTCCTAGGTTCAAGTGATTCTTTTGCCTTGGCCTCCCGAGTAGCTGGACAGTTGCGTGCCACCACACCCAGCTAATTTTTTGTG
TGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGCCCCAGCTGGTCTTGAACTCCTGGTCTTCCTGGTCTCAAGTGATCCCCCCACCTCAGCCTCCCAA
AGACCTAGGATTACAGGTGTGAGCCACCATACCCAGCTGGAGCTGAAAAATTGCTATCACCTGATGATACCATAGCTGTCATAATGTCATAGCACAATTA
TTTTTGTATAAGTTTAGTGTAGCCTAAGTGTACAGTGTTTATAAAGTTGACAGTAGTGTCCTAGGCTTTCACCTTCACACACCACTCACCCAGAGCAACT
TCCAGTCCTGCAAGCTCCATTCCTGGTAAATGTCCTATACAGGTGTACCATTTATCTTTTATACRACATTCTTACTGTACCTTCTCTATGTTTAGATACA
TAAATACTTTGTGTTAACATTGCCTATAGTATTCAGTACAGTAACATGCTGTACAGGCTTGTAGCCTAGGTGTGTGGCAGGTTATACCAACTAGGTGTTC
ACATAACAATGAAATTATCTAACAAATGCATTTCTCAGAATGTATCCCTGCCCTTAAGCCACACATGATGATATTTGTTAAATGATATAAATGAATGCAG
TAACTAAGTTTAAGCTGAAATGTTACTGCCCCCACAGTGAAAAAGTCCCTATTCGAGAATTACTGCTCACAGGATCTAGAGACAAACAGAAGACTTAGGA
GGTTTCAGTTATAGAAAATAGCTATCATGAGCCTTAAACCAAGACAAGACAGACCCAACTGCAAAAGTGCCCTCTCATCAGTCCTATGCTTAGTTCTTTC
CGAGTTTAGTGACATTCACCTACTCTTACATTTGAGAATGTGTTTGCCTGTCAAAGCATGTCCCTTTGTGTTTTTCAGACCCTGATCATATCCACTCTCA
GCCTGTATCTTGCTGGGCTGAAGCTTCAGTTAAATTTTGTTCTCTTAAATAGGAGTTCTTTTTTGTTTTTGACACCTTAAATTACGCCTTTCCAAGACTT
TACAAGTGTTTTTATTTTTTGAGGTTTTTTTGAGATAGGTTCTCACTCTGTCACCCAGGCTGGAGTACAGTGGTGCGATCTCGGCTCACTGCAGCTTCTG
CCTCCTGGGTTCAAGTGATTCTCATGTCTTGGCCTCCCGAGTAGCTGGGATTATAGGTGTGTGCCACCACCCCCAGCTAATTTTTGAATTTTTTTTAAGA
GGGTTTCACCATGTTGGCCAGGTTGGTCTTGAACCCCTGACCTCTAAGTGATCCACCTGTCTTGGTCTCCCAAAGTGCTTGGATTACAGGCATGAGCCAC
TGTGCCCAGCCAGGGTCTCTTTTTGTTGCCCAGGCTGGTCTTTAATGAAAAAGACCTCTTAGGAGTTAAAGTGTGGTGTGCAGAATGTCCAACAGTATGC
CACATGTAAACATACCATGGTTTGATCAGGGCAGGCATCCTATCCTTGTTTCCAAAGCCCTTTTTGGGGATGTTCAACGTGTGATAATTTTGGCCTAAAC
AGCACATTTGCAACCCAAGCATGTATTCCCACTGATTATTAAATTGATTTTGTGCCTTAGAGTATTCAGACATCTCATATTGCTGGCTTTTACATAATTC
TTCATTCATTTTTCACCCCCTCAGAGGATTCTCCTCATCTTTACATTAAAGGAGTCCTTTTTCCCTGGAGTAACCTTTCTACTTTTCTATTTACCATAAG
GCAGTGTTTCCTCCCAGTACCTTACCTTTGGGGCCTGTGGAATGCATTTGCATTGATACCAAGTGAAATATTTTAAAGGCCCGCATTGTATCATTGTTCA
TTCTCAGAAATTTAGGAAGTGTGATGGATTTTTTGTTGTTTTGGTTTTCCTCTCTCCTGCCAGAATATTGATCTTAGTGGTAGGGTTACAGACACTCCAG
TTCTATGCCCTCTTTAGATAATTGTTGGACACCTTCTCTTCCCCATGAATACACCATAGCCTTGGACACCTTGCTTCCTTCACAGGTTCAAATGAGTTTC
TCCTATGTGACATTGGTCCAAACTTAATCTAATTCTTCCAAACATTTAAGGTCCTCGGGTTTTTCAGTTGGGCAATTACAGTATGCTTAGGAGTAGCTTC
AGCTTTTTGGATTGCCCAAGTCAGCCCTGGGATTACTGGAGTACAATCCCCTGCATAACCCAGGATGCAGATGGATGACCCAATTTACATTCTGCCTTTC
TATATCAGTTTTTTGCATTCTCAAGAAGCTTATATTGTATATTTCAGAGCACCCTTATCACCAACTCCAGGTAGATTCTTGTGGAATTTGTCGTTTTCAA
GTATAGGAAATTCTTAATTGTTCTTTTTGGTGGGAGATTAACCAAGGCACTTTAGAAGGGGGATATGTGGATATCTGAATATTCTTTCTACTTTTTCCCC
TCTAGGCATCTCCCCTCAGATGGAAGTCACATGTGTGCCCACGCCCACAAGCACAGTGTCCTCCATAGGTAACACAAATGGGGAAGAAGTGGGGCCATCT
GTCTACTTGGAAAGGCTAAAGATCCTCCGACAGCGATGTGGTCTGGACAACACAAAGGTACTGCTCCTTTTCTTCTGTGCAGTTCAGGGAGGGTAGTCAC
AAGCAGGTCCGAGGCAGGCTGGCCCACAGAGAAGTGGCTTAGTCTTGCTGTAGTTCTGGAGCTGCATCTTGACCTGCTTGACCTGACCTTAGACAATCTC
TCTCCTTCTCTCAATAGCAAGATGACCGACCTCCTTTGACCTCTTTGCTCTCCAAACCAGCAGTTCCTACTGTCGCCTCTTCCACAGACATGCTCCACAG
CAAACTCTCTCAGCTCCGGGAGTCACGGGAGCAGCACCAGCATTCAGACCTGGATTCTAACCAGACTCACTCTTCAGGAACTGTGACCTCCTCCTCCKCC
ACAGCTAACATAGACGACTTGAAAAAAAGACTGGAGAGAATAAAGAGCAGTCGCAAATGAAGCTGCCCCACTCCCCCGGCACCCTGCAGCTTTAGTTTAC
TAAACTAGAAGTCCTCATAGTTTAAAATGGCCTCAGCAGGCCTAGTGTATACAAACTGGTTGTATGTATCATGCCGTGGAGCTAGGGGGAGGAGTCATTG
TGGCACAAGTATTTGTACATACTCTGCTTCTCTCTGTCAGCGTCCTGCTGCTCTAGAAGACTGTCCGTGGATGAGTTTAGTGTACAGACTTGTAAACAGC
TGCCCCCTCTCTGCTCAGTCTAGTTCCCAGATCCTTTTCTTTTTAATTGCTCATTTGTAAAATTGTCCTAATCTTTCCTAGCTTTTTAATAGTTAATATT
AGAAACTCTTTAATAGTTTTCCTTTCAGTTTGTGAGCTCTTCTCTGTCGCCCTGAAGGGTCACTGTATTCTGTATGAATGCATGGCATGATACAACTAAT
TTAAGAGTCTTTTATAAATAAAGTTTGCATTAACTATACCTGACTCCCAAGATGCTCCATATCATGGAGTGTTGGGCAGCAATTTTTTAACTTTTGGTAC
CAGCTGGGTATTCAGCCAGTTAGAGAAAGGTTAATTACTGCTTACAGAGCTTCCCTTTTTCTTGGCTCACAGACTTGGAGCTGTCTTTTATTCCTTTGGA
ATGGAAGGAACTCTCCTTCCCTGCTCTCCACAAACAGCTCCTAGGGAGCAGAAAAATCTCATCCTTCCTTGTTTTGAGATTTTGGTCATGATTTCCCTCC
AATTATCACCAGTCGTTTCAAGAAGCTCTTGGGCATCCTACCACTTTGCTGACCAAAGGCACACAAGATTGCGCCCAGAGATTGGCTGGGCTTCAGTGGT
TCTCACACTACAACTAGATTTGTGTTCATTTGACTAATGGAGTTTGGGAAATCTTAGTGGTTTGCTGCTTGGTTGTATGAGTCTCTTTTGGTCCAGGCTA
ACAGTTGCTTCACATTCAGTCAGAGTAAGGATGAGAAAGTGAGCTGAGTATTCACCTCTGGAATAAATTCCACAGGACCTCCCTCCACAGTCAGAAAAAC
TCTTCAGGATGAAAAGGTTCTGGATTCAGGAGGAGATTTTGGGCAGTTATAAAGTTCAAAGGAACTTTCCTATTGTAGCCCACCTTCAATTCAATTGATG
TCCAAGAAATGAAAGATTGATGGAAGATTAATCCTGTAAAGGTTCCAGTCATCGTTTTCAGGTGGCCCCGGAGCCTCCTGAAATTAAACTTGTCTCTCCT
TTATAGTGGGAACATGGGAGTGGGTATTTGTTCACTGAAGGGATGATGGAGGCGTTTGCTGCTATAGTGGAAAGACATATTTAGAAAGAATGGCTACAAA
GGCTGGGCCTGGTGGCTCACTCATACAACCGTAGCATTTTGGGAGGCTAAGGTGGGTGAATCACTTGAGCCCAGGAGTTCAAGACCAACATGGGCAACAT
GGCTCTACCAAAAAAATACAAAAATTAGCTGGGTATAGTGGCTCAAGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACCTGAGCCCAG
GAGGTCAAGGCTGCAGTGAGCCATGATCACTCCACTACAGCCTGGGCAACAGAGCAAGACCTTGTCTCAAAAAAGAGGAGGGAAACAAAAGAAGAGGAAA
AAAAAGAGTGGCTGTACTCCTGTCTGGAATTAGCACAGCTGACTGGAAAAACCCAAGTCCCTAGAGCTTACAACACTGACCGCTATGTCGGAAGAAAACA
GACTTATGAGAATGTGTGTTCTTGTTTAAAAAGCAGGTCCTGCATGTCACAAGTAATTCTGAATCCCTTCCCCCTTGATCGAGTTGATGCCCTGGGCTGC
CAAATCCTGCAAGCTCACTGCCTTTCAGTCAACCAGAACCAAAGAATGAGGCCAAGGAACTCTGTCCTGTTTGTTTTCTGATGTGTTGAAAAATGAGAAA
AAAAAAAAAACGTTATGAGGAGGGTGCTAAAGATCCCTATCTCAGGTCCCTTCCCGTGGAAAACCACGTTAGAAGATCCTAGGCCAGGTACTGTAGCCAC
AGGGTTTCCCTGCTCCACTCCACTATCCTGTGCCTGAGGCAGACGTTGATCTTCATTCTTTCCCTGAGCTCATGGATGAGACTTCTCAAGACGGAGCCAT
GCTCCATCCCACACCTGTGACCTCTGCCAACAGTAACCGTGAAGAATGTGCTCTGAAAGGGTATCTTTGAAGTTCTATGATTCTTTTTTTTGCAAGGGAC
TCTTGCTGTGTCGCTCAGGCTGGATGGCATGCAGTGGCATGCCTCTCTCCTCACTACAACCTCTGCCTCCTGAGTTCAGCCAATTCTCCTGCCTCAGCCT
CCCAAGCAGCTGAGAAGCTGGGATTACAGGTGCCCACCACCACACCCGGCTAGTTTTTGTATTTTTAGTAGAGACGGGATTTTACCATGTTGGCCAGGCT
GGTCTCCAACTCCTGACCTCAGGTGATCCACCAGCCTCAGCCTCCCAAAGTGATGGGATTACAGGCGTGAGCCACCATGCCCAGCCCATGACTCTTATAA
CTTAGAGGTCCCATTTCTTGGAAAAATAAATTGTTCCAGCTGGGAACTGCTGTGTGAGGAAACATTCCAGGAAGCAACTACCCCACTGATGGGCTATTTC
CAGGGCCCAAGAGAGGGACGAGGTAAGCGGCAGAGGAACTTTCAACAGGCCCAATGCCCGGTCCAGTTCCCAGGCAATAGTGAGAATACGAGTGGTAGTG
ATTCACAGCTTACTAGGCACTAGGCATTGTGCTAAGGCACCATGTAAGTTCTTTCATTTAATCCTCATAACCGTATGAGGTAAGTAATGTCGTTATATAC
ACCTTTTAATATACAGGTGGCCTTCCAGATCTGTGGGTTTTGCATCTGCAGATTCAACCAACTGCAGATTGAAAATATTTGTGGGGAAAGAAAACAATAA
AAATAATACAAATTTTAAAATAATACAGTATAACTATTTACATAGTATTTACGTTCTATTGGGTGTAAGTCATCTAGAGATGATTTGAAGTATATGGGAA
GGCCGGGCAGGGTGGCTCATGTCTGTAATCCCAACACTTTGGGAGGCCCCGATGGGTGGATAACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACAC
GTTGAAACCCCATCTCTACTAAAAATACAAAAACTAGCCAGGCGTGGTGGCGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACT
TGAACCTAAGAGGCGGAGATTGCAGTGAGCCGAGATCGCACCATTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTCCAC
CTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCCACGTAGCTGGGACTACAGGCGTCCACCACCACGCCTGGCTAATTTTTTGTATTTTTGGTAGAG
ACAGGGTTTCACCGTGTTCACCAGGATGGTCTCAATCTCCTGACCTTGTGATCCATCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCAC
CGTGCCCAGCCCTGATTTTTATAAACAGGGTTTCACTGTCACCCAGGCTGCAGTGCAGGTGTAGTGACATGATCATGGCTCACTGCAGCCTCAACCTCCT
GGGCTCAAGTGATCCTCCCAAGTAACCTTGACTACAGGCACATGCCACCACGCCTAGCTAATTTTATTTTTTGGGGTCTCACCACATTGCCCAGACTGAT
CTCGCATTCCTAGCCTCAACCTTAGTCTCCTAAATTGCTGAGATTACAGGTGTGAGCCACCATGCCCTACCTGATCTGATATCATTTTAATGATACAAGG
GAAGATGTAGGGAGTTAACTAAAAAAGCACCGTCCTCACTCAATATTTTCTATATTTGAAGTCCTACTTTGAGCTTTCTTAGCCATGTGACTTTGGACAA
GGTACTTCTCCAAATCTCAGTTTACTCACCTACCTCTTGTGAGGATTAAATGAGATAATCCATTAAAACCCAGAGGGTGGAACATCTTTAATGCCTGTAA
ATTCAACCTGCCATCTTTCCTCTCACCTGGCCCTGCTCTGAAGATAGATAGTGGATTCTTTTGGGACAGGGTCTCACTCTGTCACCCAGGCTGGGGTGCA
GTGGCTCACTGCAGCCTCCACCTCCTGGGCTCAAGCGATCCTCCCACCTCAGCCTCCCGAGTGCTCGGACTACCAGCGTGCACCAGGTGGTGGATTCTTA
AGTCTTCTTTATCCAGTAGTATTACTGGCTCTTCCTGAGCCCAGAGAGCTGCCCATGAATAGCACTGGGAGCATTGAGGCTCGCTGAGAGTCACTTTTAT
TGGGAACCATAGTTTTAGAAACACAAAAATAATTCTTTCACGGGATTGGTTCCAGGAGCCCAGAATATGAGTGGCCCCCTACTCTCCAAACTGATCAATG
ACCTTCTGTATCCACTTCTTCAGGCGGAACACATGTGTGTAGAAGCCATATTTCCCATCCCGGTCACAGCCTTCACCCCATGAGACGATGCCCATTTGAT
ACCAGCGGTTGTTAAAGGGGCTCTGAAGAAGAAAGATGAGGTTTCCAATAGAGTCAAGTTCAAGGTCACATCAGTATTCCTCTGCCAGGCAACTGTTTCT
AGATACTAGAGTTTCTCCCCACCCCCAGAAGATGTGTTCACCAGGCCCTGGGCTTTAGAGAAGCTTACCTTCATGACAAAGGGTCCCCCACTGTCACCTT
CACAGGCATCCCCTCGTTTCCCTTCATCAGGCTTGTAACCTTGAAAGAGAACAGCCGTCTGTGCTCAGGAGCATAGCTCATAGCCCAGCCACGCCCCTTC
ACGAGACACAGCTGGTGAGAGTCCACTTACCCCTCCAGTCATTCTTGCTGTCCCCACTTCCTCACCCTACACATCCAATCCTAGCAAATCTTGTCGGCTC
TACCTTCAGCATAGACCCCAAATCCAAACCCTTCTCACCACTTCTAGCTCGAGCTCCTGAACCCACTAGTTTCCTTCATTCTTTGCCCACCTACAGTCTA
TTCTCCACCCAACAGGCAGAATAATGCTTTTAAAAAGTTGGACCAGACCAGGGGAGGTGGCTCATGCCCAAGCCGGGTGGATCACTTGAGCTCAGCAGTT
CAAGACCAGCCTGGGCAATATGGCAAAACCCTCTCTCTACAAAAAATTAGCTGGGCATGGTGGCACATGCCTGGAGTCCCAGCTACTCGGGAGGCTAAGA
GAGGAGGATCACTTGCACCTGGGAGGTTAAGGCTGCAGTGAGCCGTGATCATGTCACCACACTCCAGCCTGGGCAACAGAGTGAGACCCTGTCTCGAAAA
AATTAATTAATGATAAAAGACCAAGAAAAAAATTTAAATTAAAAATTAAAAAATTAAAAAGTTAGACCTACAAGTCTGATGAGGATAATAATGATAGTTG
CTTTTATCCAAATCTCCCCACGTATCCTCTACAAACAATACAGAACAACACTAACAACAGTAAAACCTACACAAAAAAACCACACTTTCACTAGGTGCTG
TGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCAAGGCGGGCGGATCATGAAGTCAGGAGTTTAAGACCAGCCTGGCCAACGTGGTGAAACCCTGTC
TCTACTAAAAATACAAAAATTAGCCAGACATGTTGGTGTGCGCCTATAATCCCAGCTACTCAGGAGACTGAGGTAGAATTGCTTGAACCTGGGAGGTGGA
GGTGGAGGTTGCAGTGAGCCGGGATTGCACCACTGCACTACCGCCTGAGCGACAGAACAAGACTCTGTCTCGAAAAAAAAAAATTAGCCGGACATGGTGG
CATGTACCTCTGATCCTAGCTACGTGGGAGGCTGAAGCAAGAAGAGGATTGCTTGAGCCCAGGAGTTCAAGGCTGCAGTGAGCTATGACTGTGCCACTGC
ACTCCAGCCTGGGCAACAGAGCAAGACCCTATCTGAAAAAAAAAAAAGCTAGCAAGAGAACAGCAAAGTAAACCAGACAAAAACGTAAGCAAACTTTTTA
AGAGAAAAAAGCAGAAATTAATGAACCACAATAGAAAAATAATAGGCCTGGCCGGGCGCAGTGGCTCACGCCCGTAATACCAGCACTTTGGGAGGCTGAG
GCAGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCGAACG


SNP Information

Context             (SEQ ID NO:60189):
TTTAAAAGCATTATTTATCATCTAAGCGGGAGTTAAATAAAGAAAAAGTAAATGAAAAAAATTTAATAATATAAAAAATACAAAAACATTATTATAAAAG
W
TGCTGAAGCTCATTATTAAAAATCAGAAGGCATGGATGGGTATTAAAGTTCAAAGTAAAAGTTTTTTCAAAAAAATTTCTTTGCTTAACCCTTAGACACA
Celera SNP ID:            hCV1684209
SNP Position Genomic:     21074
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60190):
AGACATGGTTTGAGTAGATTTCTGGGCATGTGTATGCATTGCTTTTTTAAAAAAATAATTTCTTTTTTTTTTTTTATGAGCCTATCATCACACTCAGTGG
Y
CATTCAAATGGGTTGCTTTTTGATGGAGCAGAAGTTTTTCTCAAACTTCTGTTAAAATCATTCTGTGCTTCTGCAATAGCATCTCCTTAGCCAGAGGTGA
Celera SNP ID:            hCV11665230
SNP Position Genomic:     26537
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,11)   caucasian(T,34)   total(C,1|T,45)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60191):
CTACCATCTGGTAGATTTTAGAATTTCATTTCTTCTTGTAAATTTATTCTACTCCAAGTCCTCAGGTTTACCACTTTATGTTCTTGACAGTTCTTTTAAA
R
TTTGTTTTGAATCTGAGTATTCAAGATTTATGGTTGTTGATTACTAAAAATACTGAATAAAATATACTAACTTACACAGTTGTATACATACAGTTCTACC
Celera SNP ID:            hCV11665231
SNP Position Genomic:     31772
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60192):
GTTTTGGAGGATGCTCTCTGGTACTTTTTGTCTTCAATTTTGTCTGTTGTTTTATTAAGAAAAAAATGCTGATATCACCTCAGGAAATTTATTTCATCCT
Y
CACTGATAGTTCAGACCGAGTTTGAAAACTTAGCTTTTGAGAATTTAAGTTTCATTCCAGGCTATGATGGTGATAATTGTAGAAATAGCTTTCAAATTAT
Celera SNP ID:            hCV9254833
SNP Position Genomic:     55433
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60193):
ACTTGCCTAGTAGAATTAAGATTTTGATTATTCTTATTTGTGGGAGTTTTGTTTTGTTTTATTTTAAGCACTTGGAGAGTGAAAAAGAAGGAGTTATTGG
K
TGCCTGGATCTTATCTTAAAGTGGCTTACCCTGAGGTTTTTTGACACCAATACAAGCGTCCTGATGAAAGCACTAGAATATTTAAAATTGCTCTTCACCT
Celera SNP ID:            hCV29363776
SNP Position Genomic:     88893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60194):
TGGCTACACTCCATCCCACCTTACTGTTAGGATATAAAGTAACATGCTTACAGACTACCTAGCTTCTTCCGGCCAGTTTCTTCATCAGGCATGGTAGGCC
R
TAGCTGCCTTTCCACAGATAAGTATGGTTCTATTAAAAATGCTAATTAGCCTGGTTTGATCAGTATACATTGTATACATGTGTTGAAATACCACTCTGTA
Celera SNP ID:            hCV27141640
SNP Position Genomic:     95039
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60195):
GAATAGGATCTCTTTCAGGAACAAGTGGATGTAATTTGCTATGGAAATCTGAATTAGACAGATCACTAGTTTGTTCAGACTTGGCAGTTCTTCTAATCTG
R
TATCCTGTCCCCAAGTACTGTCTATATCAGATATTTTAGAAAGCAGCTGTAGTAAAATCCTCACGGAATGAAGATCATCCATCTCACCTCTCATGATTTT
Celera SNP ID:            hCV437866
SNP Position Genomic:     37648
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60196):
ATCAGGCATGGTAGGCCGTAGCTGCCTTTCCACAGATAAGTATGGTTCTATTAAAAATGCTAATTAGCCTGGTTTGATCAGTATACATTGTATACATGTG
Y
TGAAATACCACTCTGTATTCCATAAATTTGTACAATTATTACATGTCAACTAAAAATAAAAGGGAAAAAATTTGTTAATGTTTTACCTGTAGAGCAGATT
Celera SNP ID:            hCV27141641
SNP Position Genomic:     95122
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60197):
AAGATGTATTAAAGCTTTATAATTTAATACCCAAATATAGTCCAAAGAAATGTGTCCTTATCTTAAAGATGATTGTCATCATTGCATATGTTATTTAAAT
W
TAGCACAGTTCTTGAATTATGAAAAGTACTGATTTCATATTGGAAAGTTATAGTGTGAAAGCTAATTCAGTGCTTGAGACTAATGAAATCAGTAAGCCTG
Celera SNP ID:            hCV437868
SNP Position Genomic:     80868
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60198):
GGTTTTTTATATATATGTGTATTATATATATGTATATATGTATTATATATGTATATCTTAATATGTTATATATGTATATAATACACGTGTGTGTGTGTGT
R
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATATATATATATATATATATATATATGAATTGGTCTTCAGTTTTTCCCTTCCTACAATTTATATTCT
Celera SNP ID:            hCV27141642
SNP Position Genomic:     97446
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60199):
ATTTGTGTGTGCATACACACATACACTCATTGTACTATGTTTATTGCAGTTAACTGAAGTCCTATGTCACTAGAATGCTATGTAACAGAAAATGTTGGTC
R
TACCTCTTGTGATAAATATTTGTTGGGTACTTATTTTGTATCACACATTGGAAGAAAAAGATAATTAAGATACATTCCAGCCCTTGCCCTTGAGGAACTC
Celera SNP ID:            hCV16143690
SNP Position Genomic:     23688
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60200):
TGTATATATGTATTATATATGTATATCTTAATATGTTATATATGTATATAATACACGTGTGTGTGTGTGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGT
R
TGTATATATATATATATATATATATATATGAATTGGTCTTCAGTTTTTCCCTTCCTACAATTTATATTCTAAGTTCAGGCCTAAACAGTTCGTGGCCTCA
Celera SNP ID:            hCV27141643
SNP Position Genomic:     97476
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60201):
TATATATGTATTATATATGTATATCTTAATATGTTATATATGTATATAATACACGTGTGTGTGTGTGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
R
TATATATATATATATATATATATATATGAATTGGTCTTCAGTTTTTCCCTTCCTACAATTTATATTCTAAGTTCAGGCCTAAACAGTTCGTGGCCTCAAA
Celera SNP ID:            hCV27141644
SNP Position Genomic:     97478
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60202):
CACTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGAGTGACAGAGCAAGACTCCGTCTCAAAAACAAAAAAAC
A
AAAAAAAAAAAGAGGAATCACTTTACAATTAGCTTACTATATTGCTAATGTAATCAAGACACTGTGATAGTGGTAGCAGGAGGATGGGGTGGAGATAGAC
Celera SNP ID:            hCV27141645
SNP Position Genomic:     79270
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60203):
CATAAAGAATATGTATAAAGGTTCATTCAGGGATTTAATTTTGTACTTGTTTATATAAACATTGACTAGTCATGTTTGCTAGAATTAGGGAGCTTGGCAG
Y
ATCAACATTTTTACATATTGATTCTTTCCTTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTGGGACGGAGTCTGTTGCCCAGGCTGGAGTGCAGTGCGATC
Celera SNP ID:            hCV7472045
SNP Position Genomic:     29462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60204):
GAAAAATCAGAAAATGGGTATCCATGGCCAAGCCTGTGAGTAGTGAGCTGAGATCATGCCATTGCACTCCAGCCTGGGTGACAAGAGCAAGACTTAATTT
A
AAAAAAAAAAAAAAAGATGCTCAGTGTTATTAGCAACCAGGGAAATGCAAATTAAAACTGTGTTGAAATATCACTATACAATCATCAGAATTGCTAAAAT
Celera SNP ID:            hCV27141646
SNP Position Genomic:     79964
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60205):
TATTATAGCACTTTTTTAAAACATGTCTTGCCATAAAACCAGAACATTCTTGACTTCCTTTTTCTAATTTTCTCTCTGGTTTTTAACACTAAAGAGCTCC
R
GATTCCTCCCCTTTCTCCGTTTCTACTGCCACTACTTTACCCCAAGGTTTCTTGACCTTAGCACTGTTGACATTTTTTGTCAGCTGTCCTGTGCATTGTA
Celera SNP ID:            hCV27986026
SNP Position Genomic:     42954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60206):
GAAAACAATTATTTCTTGTTTTTGGATGCCATTGAGCTTTGCTGTGTCCTTTGGACCTTAGAAATTTTCTTCCCCAGCCTGGGCAACATGGAGAAACCCC
Y
GTCTCGACAAAAAATAAAATAAAAAATTATATTTACAGGGAAATGGTCAAGAAATTAAGAATTAAAAAAAAAAATAGCAGGTGTGGTGACATATACCTGA
Celera SNP ID:            hCV11661064
SNP Position Genomic:     52743
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60207):
TGATTTTTAATTATACGCACACCTAAGTCATTACTTGTAGTAGTTATATTCTGTAAAGCCACTGCGAACACTAAATTAGTGAATATTGAATCATTGCTTC
W
AAGAGAAATACAGGGTTAGGATCCTGCAACCCTTTGGTCACAACATTTCCATCAATCAGTACATAACTTTGTTTTATTCTGTTTGGAGATAGCATATTTA
Celera SNP ID:            hCV488641
SNP Position Genomic:     44830
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,8)      total(A,8|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60208):
CTAGCCACTCGAGAGGCTGAGGCACGGGAATTGCTTGAACCCAAGAGGTGGAGGTTGCAGTGAGCCAAGATCATACCACTGCACTTCAGCCTGGGTGACA
S
AGTAAGACTCTGTCTCCAATAAAAAAAAAAGAAAGAAATTGGGTCCTGATATGTCAATAAATGTAAGTATTAAGTATGTTAACTAATGGTGGAGATGCAG
Celera SNP ID:            hCV488642
SNP Position Genomic:     42073
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,3|G,27)   total(C,3|G,61)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60209):
AGAGAGTGAAGTGTAGCCTATGGGATGAGTATAGGCAGATGATCCAACTTCAAGCCTCTAAGTGGGAATTTTAAAGTTTTAAAGCTTTTAAAAGCATTAT
Y
TATCATCTAAGCGGGAGTTAAATAAAGAAAAAGTAAATGAAAAAAATTTAATAATATAAAAAATACAAAAACATTATTATAAAAGTTGCTGAAGCTCATT
Celera SNP ID:            hCV1684210
SNP Position Genomic:     20988
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60210):
GGAGGCAGAGCTTGCAGTGAGCCGAGATCCGCCAGTGCACTCCAGCCTGGGCGACAGAGCCAGACTCCGTCTCAAAAAAAAAAAAAAATTAATAATAATA
M
CAATAATATAGTAATGATAGCTGTGGTTTACTGAGTGCTTGGTGTTTGCCATGAAATCTGTTAATACTACTACTTACTTGCATAAAATCCACTGGATTTG
Celera SNP ID:            hCV1684212
SNP Position Genomic:     18805
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60211):
ACCCCATCTTTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCAGACGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACC
Y
GGGAGGCAGAGCTTGCAGTGAGCCGAGATCCGCCAGTGCACTCCAGCCTGGGCGACAGAGCCAGACTCCGTCTCAAAAAAAAAAAAAAATTAATAATAAT
Celera SNP ID:            hCV1684215
SNP Position Genomic:     18703
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60212):
TGGCTATCAAATGCCATAAAAGAATTTGGTTTTTCTGGGTAAGTCAGAACGAAATCAAGTGGAAAATAGTTAAATGTTCTGTCAGTCTCTAAGTCGTGCT
R
TTTATAATAATAGCTATTGCTGTTTATTTCTGAAGAGTGAGAGCTGGATTGTCTCATTTATATAAAAGAAAATTACCTTTGTTGCTCAAAGGTCTATATT
Celera SNP ID:            hCV26007364
SNP Position Genomic:     68772
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60213):
TGAAATTCTTGTCTCTCCTTTCCCATTTATTAGTTTAGTCAAGTATTTACTGATAATAGTGTGGACTCAAGTATATTTATTTTATATTTTAGGTTACACT
M
CAATATTACATTATTTTGTTGTTCAGGTTGTTCCAGCTTTGTCCTTTGGGAGCTTCCTGTATTCCTTTAACATACATGTGTGTGTGTGTGCGCGTATTTG
Celera SNP ID:            hCV1684216
SNP Position Genomic:     14511
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60214):
TATCAACTGATGCAAAAAAGGCATTTGACATATCCAACATGCATTCATGATTAAAAACTCTTAGCAAGTCAGTAATGAAAGAGAATTACCTCAACTTGAT
R
TAAGCATCTGCATAACAACCTCTACAGATAACATGAAACTTAATGGTGAGGGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAGGCCAA
Celera SNP ID:            hCV11666942
SNP Position Genomic:     78923
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60215):
GTTAGTAGATTTTTTTCTCTAATTTTTAAAATGTTTAATTCGCTCATAAGCACAGCACAGGGTATTATCCATTTGTGTGTGCATACACACATACACTCAT
Y
GTACTATGTTTATTGCAGTTAACTGAAGTCCTATGTCACTAGAATGCTATGTAACAGAAAATGTTGGTCATACCTCTTGTGATAAATATTTGTTGGGTAC
Celera SNP ID:            hCV28966527
SNP Position Genomic:     23618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60216):
TTTTGCCATGTTACTCAGGCTGGTCTCAAACTCCTGGGCTTAAGCAATCTGCCCTCCTTACCCTCCCAAATTGCTGGGGTTACAAGCATGAGCCAACATG
Y
CCCGCTACATTTTATCTTTTTTTATCCTCACAATGTTTTACAGATGAGGAAACTGAGTCTTTAAAAGGCTGTGCAACATGCTCAAAATCATAGAACTAAG
Celera SNP ID:            hCV28966528
SNP Position Genomic:     12412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60217):
CTCTGGAGTTTAGAATACATTACTTAGCTCATTTCTATCAGGGCAGTTACTCTACCTACTTGATGTGTATAACTCCAACACATTACGCTTATTCTTTTCG
R
TCTTTGCATTCTGTTCTGGAACTTCTCACTTCACTCTACCCCTACCCCCAGCCTGTATTACTGGCACTCTCAGGCTTCAACTTAAATGTCATCTCCTTAA
Celera SNP ID:            hCV1684217
SNP Position Genomic:     12971
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60218):
ACTTTAAGGTCGGGCTCGGTGAACTAGATTCTTACTTTTGAGCTCTCCCCTCTACTTGTAATCGTGGTAATTGTTGAGCAGGATTGAAATGCATTCCGTT
S
TGTTTCTTGGATAGAAAATGATGAAAGGGTTGTTGCCAGAGTGGCTAGTGTGTGTTAGAAAATATATTCGTGTTGATGAATCTTAACAATGAGTTTTTTA
Celera SNP ID:            hCV28966529
SNP Position Genomic:     6806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60219):
CTTGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGGGATCCTTTTGTCTCGGCCTCCCAAAATGCTGGGATTACAGGCGTGAACCACTACGCCTGGC
Y
TTCTCTTAATCTAACTGTAGCCCTGTTCGGGGCTTCACCAATGGCTCTTGGTACTACTGTACCTGGGGCTTCCATATGAAGGAGTCCCAGGAATTTCTTT
Celera SNP ID:            hCV1684218
SNP Position Genomic:     8826
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60220):
TAGGAGGGCAGTAATATAAGCAGTGCTAGAGGAGAATCGACTGAGACTCTGAATTGAAGCTTAACCATTATTAGATGACTGAAGTGGCAGCCTCAAGGCC
R
GAAGCTCCCTCAGAAGAATGGTTCTCAGAAGAATGCAGTAGCATTCACAATTTAGAGTCCCCATGGACTTCCTGAAGGTACCTGCAGCCGTTTGTACTGG
Celera SNP ID:            hCV453400
SNP Position Genomic:     49820
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60221):
TATTTAAGTTAGCTGTATTTAATTGGACAAATATTAAACATGAAGATAGCAAATGATAACACACTACTTTGTATCAGTATGTAAAGAGTATACGAATATG
W
GGTCAGTTCTGAAACAGACAAGTACTAAGTAAGAGATAAACATTTTTAGGAAATAATCTTTTGGTATTGCAAGTTGAATGCTGCTGGTGGACATTTTGTA
Celera SNP ID:            hCV28949000
SNP Position Genomic:     44455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60222):
GGATTCCTCCCCTTTCTCCGTTTCTACTGCCACTACTTTACCCCAAGGTTTCTTGACCTTAGCACTGTTGACATTTTTTGTCAGCTGTCCTGTGCATTGT
R
TGATGTTTAGCAGCATCTTTGGCTTTTATCCACTAGATGTCAGTAATACCATCTCCCTAAGTCATGACAATCAAAAATGTCTTGAAACATTGCCGGAAGT
Celera SNP ID:            hCV28949001
SNP Position Genomic:     43054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60223):
AACATCATATTCTCAAATCTGGGAAAATGTTTGTGATCATATAACAAAAATGTTGTAAGGGGATTATGCCTGTCTTTTTCATATGATTTATATTACTACA
Y
GTGTATTGAAAAAAAACTGGATACGTACTTTAGTGTTCATCATGGTTATTAGGTGGTGGTAAAATTGTATTTTAATACTTAGATTTTTTTCTGTAGTTAC
Celera SNP ID:            hCV11386630
SNP Position Genomic:     28856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60224):
AAGTAATAGTTAAACTTCTTTCATTTATTTCTTGTAAAATAATTACTTGAATAGAATTAGAATACTCTGCTGAGCCCTTGCCTGATGCACCCCCTTCCAT
Y
CCATATCTTCCCTAGTAGAGTGAGTTAGTTGCTTCTTCCTCTTTGCTCCCACACTACTTTGTACATATATATATTATAGCACTTTTTTAAAACATGTCTT
Celera SNP ID:            hCV28949002
SNP Position Genomic:     42782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60225):
GCCTGGGCGACAGAGCCAGACTCCGTCTCAAAAAAAAAAAAAAATTAATAATAATAACAATAATATAGTAATGATAGCTGTGGTTTACTGAGTGCTTGGT
R
TTTGCCATGAAATCTGTTAATACTACTACTTACTTGCATAAAATCCACTGGATTTGTTTAATTTGACCCTTTCCAATCAGCCTTTCTCTTATTTGGTCAC
Celera SNP ID:            hCV16143666
SNP Position Genomic:     18849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60226):
TTATCCATTTGTGTGTGCATACACACATACACTCATTGTACTATGTTTATTGCAGTTAACTGAAGTCCTATGTCACTAGAATGCTATGTAACAGAAAATG
Y
TGGTCATACCTCTTGTGATAAATATTTGTTGGGTACTTATTTTGTATCACACATTGGAAGAAAAAGATAATTAAGATACATTCCAGCCCTTGCCCTTGAG
Celera SNP ID:            hCV16143667
SNP Position Genomic:     23682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60227):
TCCTAGGCAAATAGGTCACTCTACTTAAACCACCCCTCATCCAGTACTTTTTCTCCCCTTTATCATCATGATTCCTTGGTAGAATGGACATTATCCATTG
K
TATGAAAACCTCTCAAAAACCTGTGTTGTAAAGGAGCATGGCAGTTCATTTTGGCATATACCGGGTGATTCTAATGAGGAACGGTAAGGAGAAACACTGC
Celera SNP ID:            hCV11661864
SNP Position Genomic:     62608
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60228):
GGCAGGCAGATCACAAGGTCAGGAGTTTGAGACCAGCCTGGCCAATGTGGTGAAACGTCTCTACCAAAAATACGAAAAAATTAGCTGGGCATGGTGGCGC
R
TGCCTGTAATTCCAGCTACTCGGAAGGCTGAGGCAGGAGAATTGCTTGAACCTGGAAGGCAGAGGTTGCAGTGACCCAAGATCATGCCACTGCACTACAG
Celera SNP ID:            hCV11661211
SNP Position Genomic:     37066
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60229):
GGAGCATGGCAGTTCATTTTGGCATATACCGGGTGATTCTAATGAGGAACGGTAAGGAGAAACACTGCAAGAGCACTGTCACTTATGGCAGAAGCCGTCT
R
GTCCTGCGTCTGCTGCCCATTGGGTTTAGATCTGAGTTTGTGCATCTTTGATATTCGGTACTTTAGAACTTCAAATCTATTCTGCTTTGCTGTTTTTAGG
Celera SNP ID:            hCV11661866
SNP Position Genomic:     62741
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60230):
CTTGCCCAGGCTAGATAGTGCAGTGGTGTCAACATGTCTCTCTGCAGCTTCAGCCTCCTGGGTTCAAGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTG
R
GACTACAGGCGAGGGCCACCATACCCAACTAATTTTTGTACTTGTTGTAGAGCTGGGGTCCCTCCATATTGACCAGGCTGGTCTTGAACTCCTGGGCTCA
Celera SNP ID:            hCV11661867
SNP Position Genomic:     66146
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60231):
GGGGATGCAGGCAGTGTTTCATACTTTCCCGAGGAAAGAAATGCACAGGTGCCACTCAGTCATCACTTGCCTCAGAGGATGTGACTCTAATAGAGCCTTA
T
TTTTTTTTTTTTTTTCCTCTTTTGAGACCAGGTCTCACTATGTTGTCCAGGCTGGAGTACAGTGGCTATTCACAGGCACTATCATAGCACATTGCAGCCC
Celera SNP ID:            hCV11661869
SNP Position Genomic:     93309
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,9)   total(-,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60232):
GGATTCAGGACAAACTCCTCCTACAAAAAGAAAATTAAAACTAGTTGCTAACCTTTGGAGATCTCAGAGACTAGGACTTAACTCCTTGAAATATTAATGC
Y
GTTTCTACTACAATTTTCTTAAGAACTCTTCATATTAAATTAGATGATTGCACATTACAATTGTATTGGCATGCAAGATTACTTACATAGACTTGTACAT
Celera SNP ID:            hCV26049432
SNP Position Genomic:     24456
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60233):
TGTTAGTAGATTTTTTTCTCTAATTTTTAAAATGTTTAATTCGCTCATAAGCACAGCACAGGGTATTATCCATTTGTGTGTGCATACACACATACACTCA
T
TGTACTATGTTTATTGCAGTTAACTGAAGTCCTATGTCACTAGAATGCTATGTAACAGAAAATGTTGGTCATACCTCTTGTGATAAATATTTGTTGGGTA
Celera SNP ID:            hCV26049433
SNP Position Genomic:     23617
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60234):
CTGTTAGTAGATTTTTTTCTCTAATTTTTAAAATGTTTAATTCGCTCATAAGCACAGCACAGGGTATTATCCATTTGTGTGTGCATACACACATACACTC
A
TTGTACTATGTTTATTGCAGTTAACTGAAGTCCTATGTCACTAGAATGCTATGTAACAGAAAATGTTGGTCATACCTCTTGTGATAAATATTTGTTGGGT
Celera SNP ID:            hCV26049434
SNP Position Genomic:     23616
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60235):
GCCCCGGAAGTCGAGGCTGCAGTGAGCCATGTTCCTGCTACTGCACGCCAGCCTCAGTAACAAAGCAAGACCCTGTCTCAGAAAAAAAAAAAAAAAAAAA
A
GGATAAGTTTATTGTATATTTAAGACTTCTGACTGGGTGGGGTGGCTCGCAAGTGTAATATCAACTCTTTGGGAGGCTGAGGCAGGAGGACTGCTTGAGC
Celera SNP ID:            hCV26049435
SNP Position Genomic:     20414
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60236):
CTGTGTCCCTGCTGGCTTGCTGCGATGTGAACGATTCCGATCATCCACCACCCCGCCCTTAACGACTGGCTTTCTCTCTCTCAACGTGTCGGGAGCGTTC
W
GGTGTCCTTCCAGCCCTGGAGGTGTTGGGGAACCAATACAATAGCCAGCAGTGTGGGTTGGGCCTTGCTACTTTAAGGTCGGGCTCGGTGAACTAGATTC
Celera SNP ID:            hCV28966530
SNP Position Genomic:     6636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60237):
GGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATCCGCCAGTGCACTCCAGCCTGGGCGACAGAGCCAGACTCCGTCTCAAAA
M
AAAAAAAAAATTAATAATAATAACAATAATATAGTAATGATAGCTGTGGTTTACTGAGTGCTTGGTGTTTGCCATGAAATCTGTTAATACTACTACTTAC
Celera SNP ID:            hCV26049436
SNP Position Genomic:     18782
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60238):
GGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATACCCGACCAACCCTGTCTCTTTAAAAAAAAAAAAAAAAAAAAA
A
TTGAAAGCAAGCATTCTGTAACCCTACTTTTGTAAAGTATATTTGTATGTCCATATACACACACACTTAGAGAAAGGTCTGGAAGGAGGGATATCAAAAA
Celera SNP ID:            hCV26049439
SNP Position Genomic:     35477
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60239):
TATTCAAGATAACATTAGTTTCAGAACAGGTCTGGATGTTGAAGACTAATTTGATCCCCTTTCATTTTATCTTTTCTTTTTAGGTTTGGGGCATTTCATA
W
CAAATATCCAAAATAGGTACAAGGAACAATGTGAATGGTGATGTGTGTTGCCATAATACAGTTATCATTTGCTGTGTACATTGTAATATACTACTTTCTT
Celera SNP ID:            hCV470686
SNP Position Genomic:     60120
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60240):
AAACTTTTACTCTGCAAAAAAAACCACATGAAAATAATAAAACAAGCTACAGAACAACAGAAAAGATTTGTAAGCCAGTATCCAATAAAGGACTAATATC
T
AGAATATATAAAGAACTCTGAAAACTCAACAGTAACAACAACAACAACAGAAAAATCAGAAAATGGGTATCCATGGCCAAGCCTGTGAGTAGTGAGCTGA
Celera SNP ID:            hCV11666953
SNP Position Genomic:     79814
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60241):
TTGTTGCTCAAAGGTCTATATTGGCTTGTGTTCCTGCTTTTTGATGTTCACTGAAAGAGTTCTCTACGTTATTTTTCCTTAAGCATTAATAGCTGTCCCA
S
AGAAAATCCAGTTCCAAGAATTTCTAGTCAAATACATTAGGAAATTTCTGTATATAATTACATTTGTTTAAAGACCTATAGTATGCCTTGGCGAATTAAC
Celera SNP ID:            hCV28949481
SNP Position Genomic:     68951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60242):
TTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTGCAGGTGCCTGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCTTGT
K
AGTCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCAGTTTTA
Celera SNP ID:            hCV25942503
SNP Position Genomic:     43726
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(G,1|T,39)   total(G,2|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:60243):
CCTTGGCCTCCCAAAGTGCTGAGGTTACAGGCATGAGCCACCAAGCCTGGCCTTGAGCATCTTTTCATGTGCAGGTGGCAATCTGTAGTTGTATAGTTCT
Y
GGAAAAAAATATCTACTCAAGTTCTTTGCCCATTTTTGAATTGGGTTGTTTTGAGGCAAGGTCTCACTCTGTTCCCCAGGCTGGAGTGCAATGGCACAAT
Celera SNP ID:            hCV26023880
SNP Position Genomic:     57466
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2|-,7)   total(C,2|-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60244):
AGTAGCTGGAATTACAGGCACGTGCCACCATGCCAGGCTAATTTTTGTATTTTTAGTAGAGATGGGGATTTGCCATGTTGGCCAGGTTGGTCTTGAACTC
Y
TGACCTCAGGTGATCCACCCGCCTTGACCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGTGCCTGGTCTGTCTTAACTTTTTAATGTGCAGTTCA
Celera SNP ID:            hCV26023881
SNP Position Genomic:     56853
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60245):
CAGCAAACTCTCTCAGCTCCGGGAGTCACGGGAGCAGCACCAGCATTCAGACCTGGATTCTAACCAGACTCACTCTTCAGGAACTGTGACCTCCTCCTCC
K
CCACAGCTAACATAGACGACTTGAAAAAAAGACTGGAGAGAATAAAGAGCAGTCGCAAATGAAGCTGCCCCACTCCCCCGGCACCCTGCAGCTTTAGTTT
Celera SNP ID:            hCV26325799
SNP Position Genomic:     105998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60246):
GCTGTTTGGAGCTTTAATAGAGATAAAAATGGTGATGAAGGCACAGAAGTGTGTTTTGTCAATTTAACATAAAATTTACTATCTTAACTTTTTTTTTTTT
T
GAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGATGCAATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATCCTCCTGCCTTA
Celera SNP ID:            hCV26023882
SNP Position Genomic:     56645
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60247):
TATCCATTTGTGTGTGCATACACACATACACTCATTGTACTATGTTTATTGCAGTTAACTGAAGTCCTATGTCACTAGAATGCTATGTAACAGAAAATGT
Y
GGTCATACCTCTTGTGATAAATATTTGTTGGGTACTTATTTTGTATCACACATTGGAAGAAAAAGATAATTAAGATACATTCCAGCCCTTGCCCTTGAGG
Celera SNP ID:            hCV16143677
SNP Position Genomic:     23683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60248):
ATCCATTTGTGTGTGCATACACACATACACTCATTGTACTATGTTTATTGCAGTTAACTGAAGTCCTATGTCACTAGAATGCTATGTAACAGAAAATGTT
K
GTCATACCTCTTGTGATAAATATTTGTTGGGTACTTATTTTGTATCACACATTGGAAGAAAAAGATAATTAAGATACATTCCAGCCCTTGCCCTTGAGGA
Celera SNP ID:            hCV16143678
SNP Position Genomic:     23684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60249):
TCCATTTGTGTGTGCATACACACATACACTCATTGTACTATGTTTATTGCAGTTAACTGAAGTCCTATGTCACTAGAATGCTATGTAACAGAAAATGTTG
S
TCATACCTCTTGTGATAAATATTTGTTGGGTACTTATTTTGTATCACACATTGGAAGAAAAAGATAATTAAGATACATTCCAGCCCTTGCCCTTGAGGAA
Celera SNP ID:            hCV16143679
SNP Position Genomic:     23685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60250):
TTTTGTTATGATCTTTCATTTATTCATTTATTAAACAATTACATATTGGCCACTACAATGTTCCAATTGTTTGTTCCAGTCCTTCAGAATACATCATGAA
Y
GAAATTAAATTTCTGTTTCATGGGAGTTACATTTGAGTAAAGAAAGATAGGTAATAAACAGTTAAAAATATATATAGAGAGAGAGAGAGACAGAGACAGA
Celera SNP ID:            hCV309101
SNP Position Genomic:     69749
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60251):
AGTCCTTCAGAATACATCATGAACGAAATTAAATTTCTGTTTCATGGGAGTTACATTTGAGTAAAGAAAGATAGGTAATAAACAGTTAAAAATATATATA
K
AGAGAGAGAGAGACAGAGACAGAGAGGCAGGCAGGCCGGGCGCGGTGGCTCATGCTTGTAATCCCAGAACTTTGGGAGGCTGAGGTGTGCAGATTACCTG
Celera SNP ID:            hCV309102
SNP Position Genomic:     69826
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60252):
TTACTGTAAGTTGACAGCATGAGTTTGTAGTTTTATCTGAAGTAAAGTTTGTAAATATAATATTTTGATTGTTCTTTACAATTGAAAAAAGCTCATTAAC
Y
ACATTTTCTTTCTAAAGACCACACTACAGAACATCAGTGAGGATGTTTTAGCAGTAATGGATAATAAAAATCCAACCATCAAGCAGCAGACATCTCTTTT
Celera SNP ID:            hCV25938308
SNP Position Genomic:     53994
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60253):
ACAGAATTAAATGAGTCTGTATGTAAGGTACATTTTATTGTGCCTGTCTCATATAGTATGCACACAATAAATGGTTGCTATTATGATTATAACGTAATTG
Y
GTAACATTTTGCTATAGTGAATAAATATGTGAATTTGGAGTTCATTAAGTTATTTTCTACTTTTATTTTTCTGAACTATTAGAGTGGGATCTTCTAGTAG
Celera SNP ID:            hCV157578
SNP Position Genomic:     74928
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60254):
GCTTTCACCTTCACACACCACTCACCCAGAGCAACTTCCAGTCCTGCAAGCTCCATTCCTGGTAAATGTCCTATACAGGTGTACCATTTATCTTTTATAC
R
ACATTCTTACTGTACCTTCTCTATGTTTAGATACATAAATACTTTGTGTTAACATTGCCTATAGTATTCAGTACAGTAACATGCTGTACAGGCTTGTAGC
Celera SNP ID:            hCV27985355
SNP Position Genomic:     103465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60255):
GACCTGAATAAGGAAAGTCATTCCCCAAGTGTGGCACTTCATGTTGACTAATTTTAGCCTTCAAGTGTGTTGTGTAGTTATTTTATCTGAATCCCTTTCT
Y
ATGAAGATGAATAGAGATTTCTGACCTGTTATCAGATTAAGAATTAGGCTTTTCAGTTGGGGGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGAAGG
Celera SNP ID:            hCV27907542
SNP Position Genomic:     36612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60256):
CCTCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGAGGTTACAGGCATGAGCCACCAAGCCTGGCCTTGAGCATCTTTTCATGTGCAGGTGGCAAT
S
TGTAGTTGTATAGTTCTTGGAAAAAAATATCTACTCAAGTTCTTTGCCCATTTTTGAATTGGGTTGTTTTGAGGCAAGGTCTCACTCTGTTCCCCAGGCT
Celera SNP ID:            hCV452983
SNP Position Genomic:     57448
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60257):
ATGGAAGAATTGTGTGTTGGGGGGATGGGGGGTCGTTTTGAGATGAAACAGTTCCACCTCATAAGGAGCATGCACTCTAGATCCCTCACATGTGCAGTTC
R
CAGTAGGGTTTGCACTCGTATGAGAACCTTAATGCCCTGCTGATCTGGCAGGAGGCAGAGCTCAGGGGGTAATTCTCGCTTGGTAGCTGTTCACCTCCTG
Celera SNP ID:            hCV25933987
SNP Position Genomic:     36256
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,26|G,6)   total(A,60|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:60258):
TCAATTAGTCTTAAAATTATTTTAGACTAGTTCAGAAAGTCTTTAAGAAAGCTAGAAAAATTATACATCTGAATTTTTTAAAAAAATTTTAATCTGTTTT
S
AGAGGTACTAGTCAAATACATTGTAAGATGTCCTTCTATTGGAATTTGTCTGATGTTTTTCTCATTAGACTGGAGTTACAGGTTTTGGGCAGGAAGACCA
Celera SNP ID:            hCV7472030
SNP Position Genomic:     14060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60259):
TGTGTCACCCAGGCCACAGTGCAGTGGCTCAATCATGGCTTACTATAGTTTCAACCTCCTGGGTTCAAGCAGTCCTCCCACCTCAGCCTCTTGAGTAACT
S
AGACTACAGGCGCATGCCACTACACCTGGCTATGGAGGGAATTCTTAACATGTAAAAGGCAAAATCTCATTTAATCTTTACAACAATGATTAGATGAGTC
Celera SNP ID:            hCV7472031
SNP Position Genomic:     19434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60260):
TCGAGACCAGCCTGGCCAACATAGCGAAACCCTGTCTCTCCTAAAAATACAAAAATTAGTTGGGCATGGTGGCACACCTGTAATCCCAGCTACTTGGGAA
R
TTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAATATCTCGCCATTGCACTCCAGCCTGGATGACAGAGCGAGACTCAGGAA
Celera SNP ID:            hCV27141636
SNP Position Genomic:     84872
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60261):
TTTACCTTAAATATGTGTACTATTGTTTACTATTTTCTTTCTATCTGATATGAAGATTTTAAATCTTGGATTATTTTTTAAAACCACTTTAGTGACTTAA
R
TATTTAAAGCATTTCTTGTAACTTTCTCTAGAAGCAAGTTCAAAAGGTCTTCAGTTACACTGTTATGATAAGAGATACATTTAAATATCAATGGAAAGAA
Celera SNP ID:            hCV27141637
SNP Position Genomic:     85990
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60262):
GATAAGAGATACATTTAAATATCAATGGAAAGAAACAGAAAAGCTTTCAAACTAAGTGTTTGGAAATGTGTAAATGCCATTCAAGATGTCATTAATGGCT
S
AGGTGGGTGGATCACTTGAGGTCAGGAGCTCGAGACCAGCCTGGACAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGGGTGGTG
Celera SNP ID:            hCV27141638
SNP Position Genomic:     86157
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60263):
AGATTTTTTTCTCTAATTTTTAAAATGTTTAATTCGCTCATAAGCACAGCACAGGGTATTATCCATTTGTGTGTGCATACACACATACACTCATTGTACT
W
TGTTTATTGCAGTTAACTGAAGTCCTATGTCACTAGAATGCTATGTAACAGAAAATGTTGGTCATACCTCTTGTGATAAATATTTGTTGGGTACTTATTT
Celera SNP ID:            hCV7472038
SNP Position Genomic:     23624
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,6)      total(A,6|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60264):
AAACAGAAAAGCTTTCAAACTAAGTGTTTGGAAATGTGTAAATGCCATTCAAGATGTCATTAATGGCTGAGGTGGGTGGATCACTTGAGGTCAGGAGCTC
S
AGACCAGCCTGGACAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGGGTGGTGGTGGGCGCCTTTGGTCCCACCTACTGAGGAGG
Celera SNP ID:            hCV27141639
SNP Position Genomic:     86189
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60265):
CATTTGTGTGTGCATACACACATACACTCATTGTACTATGTTTATTGCAGTTAACTGAAGTCCTATGTCACTAGAATGCTATGTAACAGAAAATGTTGGT
Y
ATACCTCTTGTGATAAATATTTGTTGGGTACTTATTTTGTATCACACATTGGAAGAAAAAGATAATTAAGATACATTCCAGCCCTTGCCCTTGAGGAACT
Celera SNP ID:            hCV16143689
SNP Position Genomic:     23687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60266):
TGGGCTAAGGAAGAAATTTGGACAATATGCAGGACATGTAAGTAACACTCCTTTTTAGATACAGATCAACAAAATTTATCAAAAATGGTAGGCCTAGTTT
K
CTGTTTGCTTTAAAACAACTCCTTGGCATAGATGTGTATATACTGTACAAAGTAAATTTCTCTCTGTTTTGTTAATATTCAGCATAGATATATCTTAGAA
Celera SNP ID:            hCV25940669
SNP Position Genomic:     50816
SNP Source:               Applera
Population(Allele,Count): african american(G,19|T,15)   caucasian(G,7|T,33)   total(G,26|T,48)
SNP Type:                 INTRON


Context             (SEQ ID NO:60267):
CTCCCACCTCAGCCTCTTGAGTAACTGAGACTACAGGCGCATGCCACTACACCTGGCTATGGAGGGAATTCTTAACATGTAAAAGGCAAAATCTCATTTA
W
TCTTTACAACAATGATTAGATGAGTCATGTTAGGCAAGTTACTCTGTTTGCCTCAATTGCCTCATTATTAAATAGGGATAATAATATCAACTTCAAGGTT
Celera SNP ID:            hCV806898
SNP Position Genomic:     19508
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,16)      total(A,16|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60268):
GTTGCATGTGTGTATAAGAGGGTTGTAGTGTTTTTGTAGGCAGCCCTAGTAGTAATTCTCAGTTATGCAGTCAGTATAGTAATTTATTGTGTATTTTAGG
R
TGTGTATTCAGTACTAAATGCAAATAATCATAAGAGGAGGAAAATTTAAAAATCAGATTTTTCAATTAATAAACTTTCTGTGCAATATTACTTGTTAGTA
Celera SNP ID:            hCV26005466
SNP Position Genomic:     66939
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60269):
TGAATTAGTATCAGATATTTTGTCCCCTTGCATTAGATTTGGTTAAGCAACATGAACTACTTTACTCTCAGGAACGAAGGAAACCCAAGAGAGAATTTCT
R
CCAGGTTAAATGATGGCCCCTAGCTCTGGGGAGTGGGAAGGAGTAGAGATGGATGATTAGATGAATGACTGGACACACTTCAGCTGGTGTCATGGTAGAA
Celera SNP ID:            hCV28004426
SNP Position Genomic:     97863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60270):
ATCACATCTGCAAAGACCCTTTTTCCAAATAAAGTAACATTTACAAGTCCCAGGGATTACAACGTGATTTCTTTGGGGGTCATTATCAGCCTACACAAAT
R
CATATGTAAATGTGTATGTGAGATACACACACACACACACACACACACACACACACACATACAAAAAAGGAATTAGACTTCATATACTGTCTTGCAAATT
Celera SNP ID:            hCV1684208
SNP Position Genomic:     22367
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60271):
ACTTACACAGTTCTGATGTTAGATGTTAAACAGTTGCCACTCATTGTTTTCGTTGTTTTCAACAAAATCCCTGGGGATAGGGCTTTTCCCACTGAGCTAG
Y
CAGAGTCCAGTCAAATAACAGGACTTTCAAATGGAGCTTTTCTAGGAAGCTGCCAGACAAGACAGTACTTTGGGTCAAAACTTTTTGAGGAGGTCCAAAC
Celera SNP ID:            hCV27943087
SNP Position Genomic:     65500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 321
Celera Gene:                 hCG1812186 - 11000596061872
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5L2HTVAVSK(9089383..9148617)
Chromosome:                  1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12481):
TCTTTTTTAGAGTATCCAGGTTTGGTGATTTTGCACTCTACCAGAATTCCAATGCAAAATCTTACTGTTCTATACAGATCTACTCCTATCCAATTATATC
AACCAATACAATCTCATTTTTGTTTAAGCCAGTTTTATTTGGTTTCCTGTTAAACACGACTGAAAAATCTTAACTGCCAATGTGGAGATATCCCCCTTCA
TGATGTTGTAATAATGGCTGCAGCAGCTCCAGGTGTCAAATGCAGACATGACATCCAGAGAAGAAGTGGAATGCTGCCTGTCATCCATCTCTGTTTATTA
GGAGTGAAAATCTTTTCTATAATTTCTAATTCAGAAGGCCAGGGTTGTAATCACACACTACATGGAATGGGATGGGAATGATTACCAAACAGCAATCTTT
ACTTATCCCTGAACTTGGGGAGAGGATCATCTTTCACTAGCAAACAACTACAGTAGAAGAACATCCAAATAAAACTGGGACTCTGCCAGCAATATAAAAT
ATGAAAGGGGAAAGCTATTGGGTAAATAATCAACAGTGTTTATGACACTAATAGATGTATTAATTTTCTGTAAAGTTGTGTGTGTGGGTAGAAAATATCA
GGAATTGTACATATCAATCTTTAGCAGAATTTAAATTTGGGAGGGGGACTATCTGGAGTGGAAAGGATGGATATTTTTACTTATACAATTTTCATTAGTT
TATATTACTTTGGTGATTTAAATTTAAAAGAACTTCAATCTAAAAATGGGCTGCTCAGAAGTAGAGCTAGAACAAAAATATAGAGTCAGAAGGCTGGATA
TGGTGGTCCACACCTGTAATCCCAATGCTTTGGGAGGTCGAGGCAGGAGGATCACTTTAGGCCAGACTTTGAGACCAGCCTGGGGAACATAGTGATACCC
TGTCTCTACAAAAGAAAAAATAAAAAGAATTATGAGCATGGTGGTGTGTGCCTGTAGTCCTAGCTACCCAGGAGGTTGGAGGATTGCTTGAACCCAGGAG
GTTGAGGCTGCAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGTGCTTGTCTCTAATACATACATAAATATATGTATGTGTGTATAT
ATATATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTGTGTGTGTGTATGTATATATGTATTAGGGAGAGAGAGAGAGAGAGAGAGAGAGAGTCAGA
GAAGCACATATTTGTATATTCCATCCCAGTCCTGGCCCCTACACAGTTACTCAGGTGCCAGTAGCAGGTTTATTCCTTCTGGGGATTTGGAGGCACAAAG
CTATCCGAGCCTGATGCCATCAAATATTTAAACCATTCACCTCCCTCCCGTCCCACTCTCAAAGCTGTCTTCACATCATAAATTGGCTTCCTGTGCATAT
TTTCCTACGGGGAAAGAATGTGCTGGACATGGCATTGTGAGCATTCTGGTCCCCTTGGCAGTTCTATTTCTCATCATAAATTAATACATTGCTTCTCTGG
CTCAGATAGCAGGATAGGAGCTGGGTTAGTAGGATCTACTTTCCATTCCCCAATAGATAGGTTCTCTCTTAATGCTGTTAAAGTCAAGTTCATAAGCCTG
GACCATGATGAATTTACCAAGGTAAAAGTCACCTCTGATGCCACTTGTCAGCTGGCCAGCCAGCCTGCCCTGATGACACTCCTGTCTCTTCAAGCACATT
TCTTTCAGACTCCTGTGCTTCCTAGCCACATTCATCTCAATCAGCTGTCTCTTTCTTTATCCCTCATTCTGTCTTTTCCTCTATGACTCTCTCTCTCTAA
TTATATATATCTTTCTCTCTTCCTACTTCACCACTTAATCTTCCTTTATCTTTTTTTTTTTATTTGACGGAATTTCTCTCTTTTTTGCTCTGGCTGGAGT
GCAATGGCATAATCTCGGCTCACTGCAACCTCTGCCTCCCGAGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCACACCA
CTATGTCCAGCTATTTTGTACTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGACTGGTCTCGAACTCCTGACCTCAGGTAATCCATTCGCCTCAGC
CTCCCAAAGTGCTGTGGTTACAGGTGTAAGCCACCGTGCCCAGACTTCTTTTCCTTTTTTCTTCTGTTTTTTGTTTGTTTGTTTGTTGTTGTTGTTGTTT
ACCTTAATTAACCATGGAGTTGAAAAATAATATATACCAGAGCTATGTGCCAAGCACAGAGCTGGGTCACATGTAAAAATTATATTCTGACCTCACAATA
ACTCTGAAAACTGTTTTTGTTCCTATTTTACAAAGAAAGAAGTGGAGGCTCATAAAGGGTAAGTGGTTGTGTTTCATAATCTTAAAGGTTTTCTCTGGTG
AATTTTCAAAATTAGTAAATTAAATGCTTTGTGCTTCCTTTATCTAAGAAAATACAGTTTAGGCCAGGCATGGTGGCTCATGCCTATAATCCCAGCACTT
TGGGAGGCTGAGGTGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCGACTAAAAATACAAAATTAGCCA
GCTGTGGTGGTGTGCACTTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAAGCAGAGGTTGCAGTGGACTGAAATCAGG
CCACTGCACTCCAGCCTGGGCAACAGAGTGAGACACTGTCTCAAAAAAAAAAAAAAGATGACCCTTTGAACAATAAAGCTCTCACTGCTCTTTGCCTCTC
CCCATCCTTCTTCCTGAGAGTGGGACTTGACCCTGATTCCTCTGACACAAACTTAAACTTCTTTATGGAGGAGATAACCTTCTCTGTCCAGTCAGGCTCA
ACATACTTTCTGTATCTGTGCAAAAGGAAGAGGTCAAATCTTCAGCACCTAGATTTGTAACTTTCAGTAACTTGGAGATGGAGGTTGTGGTAACATTAAA
TCTGCTCCCTGGAAGGTCACTTTTTATTATTTTGGGTGTTTAATTAAGTTGCTCGGCCTCATCAAGTGTCCTCCCCATGATCCTAGAAGATAGTGAGGTA
GAAGTAGAGAGGAGTATCCCTTCCAGCCTGCTTCAGTAGAGTTCTGAGAGGAGCAAAAGAGAAAACAAGATGTTTCTGGGTGGGTTCCAGGCCCCTCCAC
CCTTCTGCAAGGGAGTGAAGGGTGCTTATCTCCTGAAGACATGAATTGATGGATTTTGGTTATAGGCCGGAGGAGCAGATGCAACCACTGTATTTTCTTA
GGTAAAGGAAATATAAAGCATTTAATTTACTAATTTTGAAAATTAAGCAGAGAAAATCTTTAAGATTATGAAGCAAAACTACTTACTCTTTATGATCCTG
CCAAGGATCAGAACATGGCAGCAGAGAAGTCCCAGGTCTAACTGAATGTCCAGACTCTGTTGGATTCAGCACCATAGACAGAAAGCAGCCCAAAGCTGCT
GAGGGCTGAGGGTTGAATGCCATAGACAGATACCCCTTCTCTGTCCCCACCCCCAATTTCACTAGTCCCCATTGCTATTCCTGGGAGGAACCTAACCCCT
TCCATTAGTTAACTGGCCCCCAGCACTTAAAGGTCGAGATAAACAATGGGTTGGTTTCCTTCTAAGGCCCTCCGGAATTTCTTTACTGAGCTTTCAGTTC
TGCGGCTTCCTGGTAGAGTGGGGTCCGCCTTAGAGCAACTCTTATTAACATCCAGCTGATTTGCATATATCTGCATTCACTGGGGCTTCTCCATTCTGGT
TTTATTGTAAATGAATTGCTCAGAGGAAGAAAGGGAAGGATTATTTCACTCCTTTTTTTTCCTCTTCTTTCCCCCTATTCCTAGGGTCTCTGTCTGGAAA
TTTCCCCCAGATGCGTGAAGGTGTGTGTGGTGGAAGAGGGTAGAAACCAGACTCCAACAGTCAGGTATTTGCCAGAGCATCCTATGTAGATTTCCCCAGA
TAATTTCCCCCATCTGTTTGGTTTCTGAAAGATCCTTGTCAGGTTCAGAGGAAGTCTGTATTTTGTTTTAGCACCGAGGGTCAGAACCTCTGGGCTGAAG
TCCCTGGAGCTTCAGTAAGAAGCCATGATTGGTGCCTTAGAGCCTGCTAAGGGGATGGAACCCGGTTTTAAAGAGGAGTGAGGGGTGGTGGAGTGAGGAC
TCATTTTGAAATGAAAGGAGTCCTGGGTCTCTAAGCAGCTTCTAAAAATACCATCTCCCAGAGGTGGAGGCAGGGGGAGGGGAGAAATCGAGCGTGAGGA
GAATGAAGATGGAAAGGAGGTGGCAGTGTGAGAACCCTTCCTCAGGTAGGTCTGGTTTTAGAAGTCCCGCCTGCATCCAAGGACTGGAGGGATGCCACAC
CTCCTTCTGCTTCCTCAGGGGGCTTGTCTCCTGTGGTGTCCAAGCCACAGCCTCTCCTGATGACCTTTCTTTCTGCAGGTAAAGAAGACCAATTCCTCCC
ACCTACTCCTCCTATTGCTACTGTCCAGCAAGTATGTCTGAGTGGGCACGTGTGCATTTACTCGCACATATACACAAGCACACACGCAGAAATGGCACAT
GAAAGCGGGTTGTAAATGGCCAGTGATCTACGATGCCAGGAATCCTCCTTACACTCGGCGTTCAAAGAGGTATGGACTCTGGCAGAGACAGCGTGGTTCA
CCAGGGCATCCGCAGCACAGAGCATGGCGCCCAGTGAGGGCTGGGTAGAGGGGTGAGGGATACATATATGCAAAAGCACAGACACTCAGACCGCAGGGGC
CAAGTAGTCACAGGACTCACACTCACTCTCGAGGTTTCTCAGGCTATATTCGCTTCCAAATAGAGAGGGGGTGGGTCCCCCAAGAAAAGAGCTCGGAAAA
GCCACGAGGTGGGTGGAGCTTTCTCCCCTCAAGTTCAGCCCAGATGGTGGCGCTCAGTAGCCGCCTCCCTCGTCCTGGAGGGCCCCAACCCTTCCCACCA
CCAAAGTGTTAAACCCTCAGCTTGCACATAAATGACCTTCACTAGACAGAGGTCTTGTTCCACGTTTTCTTGCGGCTTCTTCAGCGCCGGCTGAACTCTG
CCAGGATTGCTCCGCCTCTCTCGCAGATGTCTCCGATTCCTGGCCTCTGTGCTGTTCACCAGTCCCCTGGGGTGGGCGGAGTGGGGTGATCAAAGAGGGG
AACCCCCGACTCTGAGCAGACTGAGGGCATGGGTGGTTGTGAGGTGTGCTGCTTGTATCTTGACAGCAGGAGCAAGAACCTGAGGAACCGATCGTTCATG
CAAAACCGCCACCGCCCCCATCCCAGCGTCCACATGGTTTCCCAGCCTCGGAAGCGCGTTGGTAGGGCAGGACCCCGTCCCTCACTTTGCTCTCCTTTCC
CGAGCAGCTCCCGGGATCGTTCGGCCCCTCCTTCCTGCCGCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATGAGGGCGGGAA
GAGAAAGGGGGGGATGAGCTAGGAGACACCGGGAGCCTCAGACACAGGAACAGACCTAGGGCAGGGAGACAGGAGAGCTCCCCAGAGCTTGGGGTCAGGA
CATAAAGCTTCAAAACCCCGCAAGTCCTGGGAACAAGGGAGCTTTCAGACTAGCTCAGAGGCTGCAAGTGTTGCTGCCTCCCCGAGGGTCGCCCCTCCTT
AAGCCAAGCCCACCTTGCCTGCCTACTTCTCAGGAATGAGGAGCTAAGGTTTAGCGCTCTGGGCCACCGATGCCAGCTCATTCCCCTCTCGCAGAAGCCC
TGCCAGCTCCCACAGCTGCCCCACCCCCCACGGTTTGGAGATCTGCGGGACCCCTTCCTTTCCCCACCAGTTGGGTGTTCCGCCCCTGGCCTATGAAACT
CCACCTTCCCACCCTCTGCTGGCGGGGATTGGTTGGCATCCCGCGGCGGTGCCTAGTGATTGGTTCCCATGGATGATGGTGAGCGGTGAGACTCCGCCCC
CCGCTGGCTCTGGGGTCTGGGGGCATTGCTCAGCGGTGCTAGGCTGGCGCGGCTTGAGCCGCCGCCGGACTKACAGCTCGGTCTGCGGACCATGGAGACC
TGCGCCGGTCCACACCCGCTGCGCCTCTTCCTCTGCCGGATGCAGCTCTGTCTCGCGCTGCTTTTGGGACCCTGGCGGCCTGGGACCGCCGAGGAAGGTG
AGAAGACTGGTGAGCTCTGCTCGGAGCGTGGCATACCAAAAGATAGGGGGCTGGCGATGGGGGTTCTGGGGGAAGGAGTCATTGSAGAGACTAGAGTCTG
TATTGGGGCTTGAAGCAAGCMGGCAGCAAAGAACTGGAGAGACAGAGAAAAATGTGATCAAGCAGTAGCGAAGAGAGGGGCGCTGAGGAGCTTGGGGGCT
GGAGACCCGGGAGGTTGGGAAAGAAAGAGGCCAGGAACCGCGGGAGCCAGAGGCGGCGGTCCAGCGGCCGGTGAGACGGACAAGCTGAGTGATTGGAGGT
GGGAGGTGCGGGGGCGGGGAGATGAAGAGTGGAGACAGGGAGATGCGGAGGTGAGCTCGGAATATGGGGAGACGGGATGGAGCCCGGACTACAGGGGCTA
GGAGACCACAGTGTGGCCAACAGAAGGTGGAATGCTGGTCGAGGGGGCTGGATCCGGGCGCTGCCCGACGTGCTGATCATGGAACTGTCCGCAGTGCTGA
ATTCTGAGCGTAGTCTGCCGGGCGCGCTCCGCGTTGCCGGGTTTGAGGCTGTCGGCGATACTGGAGCCCGCGTCTTGCCTCTGATTGTGCATTTAGGGGA
GCTATACGCTCAGTTGAATCCAGAGGCGTCATATCTAGGTGCAGAATCCGGAGGAGCTGGAATCTGAGGCGTTGACCGCGGGGTTGGTCTGGGCCCTGGA
TGGCTGATGCCTTCCAGTTCGCGATTCCGATGTGCTGTCAGTTGCGCGGATCTCGGAAAGCCGTCGGCGGTCCTGCCCACAGTCGCTGACGCCTCTGGAG
AGGCCCTCACCTTGGTGGCCCACCCCCTGGTTTAAGCTCCAGAGGGTAATCTCCCAAGACTCCGGGGTGTCCTGACCTCCTGTCTCTGGTCTGCGGACTC
TGCTGTCCAAACCATTTTCTGTGATCCATGCTGAGAGGTTGCAGGCTGCTGATCCGATGCCTCCTGGGGGAATAAAGGGACTTCAAGCTTCTCTGGTAGG
AAGGGTCATAGATGTATACATAAAAGAACCCCAGACATTCTTTCAAAAGCAGTGGAAGTGACAGCCCCTGGGAAAAGGGCTGGCTGAGGAGAAGAGAGAT
TTTATTTCTCCAGTTGTTAGCAGTATCTCTCCACATTGTTTTCTCAGAGGCCCGGGAGTCAGTCTAAAAATGTTCAAGTCTTCATGCCTGGGGACCACCG
ACCTCAGAAAAGCCCCTGAGTAGGAGTGGATTGGGGGGTATATACAGGAATCCCCTGATACATTCACTACTCACTTTCTCTCTCTCTCTCTCTAATTGAC
TCTTAGCTATAATTTTGGGAACCTAAGAAGGCTGGGGAGAGTCACTGACTCCCACCCCCAATCTGAGAGCCAACCTTAGAGTATTTGCCATGGACCCTGT
AGAAGGCTGAATGATGACCCCCACCCCCAATATGTCAATGTCCTAATCCCTAGAACCGTGAATGTTAGCTTAATTGACAAAAAGGACTTTGCATATGTGA
TTAGTGATCTTTTGAGATGGAGAGRTTGTTTTAGATTATCTGGATGGGCCCAATAATCACAATGGTCCTTGTRTGAGGGGTGCAGGAGGAGCCAGAGTCA
GAGGAGGAGGCAGTGTGATGACTGAGGCAGAGATTAAAGTGATGTGATTTGAAGATGGAGGAGGGGACCACAAGCTAGGGACTACAGGCGGCCACCAGAC
GCTGAAGATGGTAAGGACATGAGTTCTCCCCTCAGAGCCTCCAAAAGAAAACAGTCCTGCTGACACCTTGACTCTAGACCAGTGAAAGTGGCTTTGGGCT
TCTGACCTCCAGAACTGTAACAGAAAAATAWTGTGTTGTTTTAAGCCACTAAATTTGTGGTAATATGTTACAGCAGCCCCAGGAACTGAATACAAGCTCC
TTCCCTACTGACTGTGGCTACCTCTCTCTGGATTTGAGCTATTCACACCCCTCCTGGGGATGTATGGAGTGGGAAAAACTTGCCCATATCATTTGTCACA
TATTGCATTCTCTCAGCAAATTTACAGGGACTTCACCAAAGGATTCCACTCTCTTGCTAAACTGACCTTCTCGATTTCTGATATTTCTGTCTTCCCCTCT
CCTTAGTTATCCTCCTGGATTCCAAAGCCTCCCAGGCCGAGCTGGGCTGGACTGCACTGCCAAGTAATGGGGTAAGTGCACAAGTGTCCCTCCCTGTCCC
AGGGATCCTCTGGTGGTCCAGGACACAGTCTCCTCAGCTCCTCATGTTTACATCAGACAAAAGTGCTCCTCAGAGTGTGTGGTCTCCAGCAGCCCTGGCT
TCAAGCCAGAGTGGCCTGTTAGAAAACATTGAGTCTTCAGCCAGTTAGACAGTCAAAAAAAAAAAAAAAAGTGAATAAGTGAGGAGAGAACTGGCTGTCT
AGGAACAGAAAYGTGGCATCTGGATGGAGCTAATACAGGACAGTGGCTTGCACATAGTAGTAGATCCTCCAAGCAATGTTGTTGATTGATTGACACAGCA
AGCAAGACTGGGAGTCCTAAAAGAGGCTTGGAGACTTGGGGTAGGGGAGGATGATGTGGGCTGTAACAGCAGCTTGGTGGAGTGCAAAGGGCACTGGTCA
GAGAGTCAGGARACTACAGGCACCATTCCTAGCTCCACCACTAACTTGATGTGCATACCTGGTCAGATCGCTCTCCCTCTGGAGCCTCAGTTTCCCCATC
TATAAAAATAAGGATTGGGATCATTTGTTTCCAAAGTTTCTCCCAGCGCTGCATCTTACAATTTCCGGGGTGTGCATGGTGCATGAGAGAGAAAGCAGGA
GTCACTGCTAGCGCTCCACCTCCTGGAAGCACTTTGGCTCTGGGCTGCCCACCCCTTTACTCTTGTCCCCAGTGGGAGGAGATCAGCGGCGTGGATGAAC
ACGACCGTCCCATCCGCACGTACCAAGTGTGCAATGTGCTGGAGCCCAACCAGGACAACTGGCTGCAGACTGGCTGGATAAGCCGTGGCCGCGGGCAGCG
CATCTTCGTGGAACTGCAGTTCACACTCCGTGACTGCAGCAGCATCCCTGGCGCCGCGGGTACCTGCAAGGAGACCTTCAACGTCTACTACCTGGAAACT
GAGGCCGACCTGGGCCGTGGGCGTCCCCGCCTAGGCGGCAGCCGGCCCCGCAAAATCGACACGATCGCGGCGGACGAGAGCTTCACGCAGGGCGACMTSG
GTGAGCGCAAGATGAAGCTGAACACAGAGGTGCGCGAGATCGGACCGCTCAGCCGGCGGGGTTTCCACCTGGCCTTTCAGGACGTGGGCGCATGCGTGGC
GCTTGTCTCGGTGCGCGTCTACTACAAGCAGTGCCGCGCCACCGTGCGGGGCCTGGCCAMGTTCCCAGCCACCGCAGCCGAGRGCGCCTTCTCCACACTG
GTGGAAGTGGCCGGAACGTGCGTGGCGCACTCGGAAGGGGAGCCTGGCAGCCCCCCACGCATGCACTGCGGCGCCGACGGCGAGTGGCTGGTGCCTGTGG
GCCGCTGCAGCTGCAGCGCGGGATTCCAGGAGCGTGGTGACWTCTGCGAAGGTATCCAGTTGGCTGGGGGCCGTGGGGTGGGAGTGTAGAGCGTAGGTGG
CAATTGAGAGAGAGTGTGCCCTAGAGGAAAGAGGCGGGTGTGGGGTCGGGGGGCGGTGGAGAAGCCTTGGACTCTGGAGCCCAAGGAGAGCCCTGAAGTC
TTGTGGAGTTTCCAGTGAGTCCAGTCAGGGCCAATGAGTGAACTTACTAGATGAAATTGACTGGCTAAGGAGGCATTAGGGATCTATATCTTAGGCACCT
TGCACAGGCCTTCTCGTTTATTTATTTTCATGGCAATAAAGGAAGTCATTGTTTTTTTTTTTTTTTAAATAAGGAGTCTCTCTTGCTCTGTTGCCCAGGC
TGGAGTGCACTGGCTTGATCTTGGCTAACTGCAACTTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCGT
GCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGAYGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCT
ACCTAGGCCTTCCAGAGTGCTGGGATTATAGGCGTGAGCCACCGTGCCTGGCCTAAAGGAAGTCATTCTTATCTCTATTTCACAGATGAAGAAACAGAGC
CTCAGAGAGATTAGTACCTCACTTGCAAAGTTAGGAAATGGGGAGCTAGGATTTGAATTCAGGCTTGCCCAACTCACATTCTATGACATCATGAGGTCTC
CTCAGTGCATAAGGAAGAACTCTACAGCAGCCCAATCTTCAGGCTAGTGGGATTGGTTGCATTACAGAGAGGAATCTCCCAGTCACGGACCAAATACTTG
CAAGTTAGAGGCTGGCAGGGGGGATTTTTATGCTGGAGAGAGGGATTGGGAAGTTGCACTAGATGATTACGAAGATCACATCCCACTCTCTGAACTACAA
TCACTGTGCTCCCTGGGGGAGATCCTTCATGTTGAGGGTTTTGCTGGSTTCTCAGGCTAGTGGGGGCATTAGGAACAGACCTCTCATTCTCTCTCTTGCC
TGTGGCTTTGGATACAGAGGGTGATGATGGGGTTATTAATGTGTGTACTTAATATAGAAAGATCAAGGTATGCTTTTTCTAAACCATGTCCTTTTCTGGG
TGCCAGGGCAACAGAAATGAGTCAGACATAGTCCTAGCTCTCAAGAAGCTCACAGTCTAGATGGAGAGATGCAAAAATTTAAAAATCACAAGAGGGTAAT
ATATGCTATAACAGRGGGATACACAGAGTGGTGGGAGGACAGGGGAGGAAGTGACTAAATTTGCTCTCATTCCTTTGTTCAATCATCCATCCAATATGAA
TTGAGGATGTGCCAGCTGCATTTATTGAGGGCTTATTATATGTATATAGATGAATGCCACCATCTCCTCCCTGCGGAAATTGTAATTTAGAGAAAGACTG
GGAGGCATGAACCTTCCTGAGCTCTCCAGATATAGTTAGGATCCACCTCGGTGCTCTCCAGCATTCATTGAAACCTATTTCTGTACTTACCCCATGGTAT
GCACTGATCTACTTATGTGTGTTTTCACCACTAGATTAAGAACTTCTTTTTTTTTTTTTAGAAATGGGGGTTTGTCTATGTTGCCTGGGCTTGCGTGTAG
CAGCTATTCATAGGTATGATCATAGTGCATTACAGCCTGGAGTTCTTGGTTTCAAGCATTCCTTCTGCCTCAGCCTCCTGAGTAGGTGGGACTATAGGGA
CCACACCCTAGATTAGGAACTTCTTGAGCTCAGGCACTGGGTGTTACTAGTGTCAGCAGCCCCAGCATTCATAACAGGATAAGGCATACGGTAGGTGTTC
AGTGAAAATGCATTGGGTGAAAAAGTGGTTACTATAGGGTGTGAAACATAAACAGAGAGCTAAGGAAGCATGGAAGGGAGAACCTAATTCTAAGCATGGA
GAAGGCTTCCCAGAGAAGGTGAGAAGGTTTTTTTTYCCCAGGCAGCTTAGAGCATTCTAAGCTTAGGAATTGCATGCAGAAGGATGGAGGCAGAAGGAAC
ATAGCATGGCTGGGCCTATGTAACTAAATGTGGTTGGAGCAGAGGGCATGTGGGGGTGTGGGAGTGAAGTGATGGGGTTGGAGAGGAGCAGGTGGAAATC
ATGAAAGGCCTTGAATGTTGGGATAAAGAGCTTAGACTTTATGCTTTAGGCCAATGGGGAGGATCTGAAGCAGGGATCTGACATGCTCAGATTTGTATTT
TCAAAATATCACTCAAGCTGCAATTGCAAAGAAAGGATTGAAGAGGGAAGGATTAGGAGCCAGAAGATGAAGAAGGAAGATGGTGCAATAGTGCAGGAGA
AAGAGCACAAGGGCTGAACTAAGGTAGTGGCAGAGATCATTGAGAGATGAGGATAGATGGGATCATGAGTTAGCATCCACAGCACTTAGTGMCCATGTGA
TACAGGAGGAGAAAGGAGTCCCCTTTGACTTACATGCTACTGGGGATTGAATGGACAGAGGGATCATTCACTAGGGTACAGAACACAGGACCTGGATAGA
CACATATTTATGATGTCCACGGTGCATTCCAGTGGAGGTAGCTAGAAAGTGGGTCTGGAGCTCTGAAAGACAGAGACAGTACTTGAACCTGTGGGTGTGG
TTGGGACAGACCAGGAGAACGTGTGGGGTAAGAAGCCAAGAGGGCCAACAATGAAGACTCATAGAATAGCAATACTTAAGGACAAGTAGAAAATACAGAG
CCCATTAAAAAGGCTGAGAGGGAGTGATCAGAGTATGGAGGAGAACTAGGAGAGTGTGATATTATGACAGCCAAGAGAGATTGAAGGTGTCCAGGAAGGA
ATGCCCTACAGAGTTGGGAAGCAGTCAGGTAAGTCAAGGGTTAGAAAGTGCCCAGTTGGTGGCCTTGGTGAGAGCAATTGCAGCTGAGTGATGGACACAG
AGAACAGGTTGCAGTAGATTGAGGGATAAAGGAAGTTGAAGAGCTTGAGTCAGGGAATCTAGAAGCCTGGATTTGAATTAGAAGAGGAGGTATCTCGAGG
AGGACATTGGATTGAGAGAGGATTTTTATTATAGATGGGAGAGACTTGTTTGTATGCGGAAGGACAAAGAGCCACTGGGATACCAAGTGTGTATATGGGG
GGGATCCCCATCCCGGTCCCAGGAGGCAGGAGTATTTTATTACTGATGTGGGCTAGAATTGCTGATGCATTTTGCTAATAAAAAAGCAGGCCAGATTTTA
GTCAGTTTTATTATTGTTTTTACATACTCTATAGTTTGTGCCCTTATTGCCTGCACCCAAAATGGGCCACTTTTTACTGCTTCACTACCAAGAAGGGAGA
TGACTGATGGAATGTAGTATTTGATGAGGTTAAAGGGAGAGATCCAGGGTGGAGACAGAGGGGCTGGCCTTCAACAGGAGGTGGCTCATTCCCTCCTCTA
GGACTGGAAGGGAGGAGGAGAGGGGAGATGGTTGTGGATGGGGGCATTTGTGTATTCTGATGGGCAGATGTTGAGGGAATTATCAACTGATGGCTTCCCT
TCTCCCTATAAGGTGGGAGGGAGGGCATCTGTACAAATGGACAGTAAGGTCCTTGTCTGTTTTATTCATTGTTGTGTATCTATAGAGCCTACCTAGTAGA
TGCCAAAAAATATTTGCTGAATGAATGGATCAGGAGTGAGAGGAGGAGGTTTCTCTGGGAAATGWGGGAGAAAGAGAGAGAGAGAGAAAGAGACTCAGGA
ACCCAAACCATGTCTGATGAGAACAGAAAAAGGCCAYTTGTAATGGCCTCAGCTCTGCCTTGGGGAGTGGGGAGCTGGGGACAATGCCAAGGAAAGCTTC
ACAAGGGAGATGTTATTTGAACTGGGGTTTGGAGAAGTATAGAAGTTTGCCAGGAGAAAARGGATATAAGGAATTACAGAACAAGACCCAGAGGTGTGAA
AGGATGAGCTCAGTGTACCATGGKTAGAGTGGYTGGCAGTGGGGAGCTGTTGGAGGACATTAGGAAGGGAAGGGAAATGATTGGATTTGCATTTAGAAAG
TTAAGGCCTTCCAAGTGCCTTCTGCAGCTAACACAAGCTTCCCTCTAAAAGTAGATGGATAAGTGGGGGAATAGAACGAATATGTTCTTTTCCCCTTTTT
GTTTCTCTTTAGTGACCTTGACTTTTGTTCTCCCTCGGTTAGCCACTAGAGAAATTAGTAAAAGAGCTGGGGTTTCCTTTGGGGGAAAAAATCAGGGCAT
ATAACAAGTAGCTTTAATTCTMTGCTAGGGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCAATTTGGGAGGCTRAGGCAGGAGGATTGCTTGAGCCA
GGAGTTCAAGATCAGCCTGGGCAACACAGGGAGATCCCATCTCTCCACACACAAAAAATTAGCCAGGCATGGTTGCACAGCATGCCTGTGGTTCCAGCTA
CTTGGGAGGGCTGAGGTGGGAGGATTGCTTGGCCCCAGGAGGCAGGGGCTGTAGTGAGCTATGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGCAA
GACCCTGTCACAAAGAAACAAACAAACAAAACAACTYAGTGGGATTGCCTTGGAGCCAAGGGACCCAAGCAGATATGTTCTCTGAGGCTCCATAGGGCAC
AATGAGCCCCTGTGATGGGGTGGCACAAGGGGCATTACAGACAGCGAAGCTAATGGGGGCTCATCCTAAGAAGCACTTTCTGCCAGCATTGTTCAACAAA
GGCAGCCTCAGAAGCGGGTGAATGCCTCATGATAAAGTATGTGACAAAGACTGTGGCTACTGCTGGGGAAGCTGCCGGAGGACCAGGCCAGTGGGAGCTG
AGCTAGATTATCTCTGAAGGTCTGACCTTGAAGRGAGGGAGGGGCTGGCAGTCAGGAATCCCTGAATCTGCTCTTCAGCACAAACTCCTTCTAAGCAGAG
CCTCTYACAGCAGAGATACCACTGTGGTCGCTGATGGGCCCACCCACCTCTAGGACAGCAGCCACCCTCATACACTTGTGGGGAGGGAGCCTCCAGCATT
CTTCCCCTATTTTTGTGAAACCCTGCGAACAGATCATTTATCTGGGCTCTCACTTGCTCTCCTATTTCACAACAGTGGTGGGCAGGGCATGGTTGTTATT
CCTATTTGACCAATGCTTTTTTTGAGGCCAGAGAGGCACAAGGAGTGGCCCAGCCAACACTAGAACCCAAGCTTTCCAAGTCCCAGCCTGGGTCTCTGCT
GCCCACCAGACCACGGGGATAGTTGGCCCATGCTCTGTTCTGCAGGCAGAGGAGACTTCTGAAGGCTCCTGGGCTGCCGAGCCCCTCCCCAGAGTTGTGC
TGCCCAGAACTCTGGGCAAGATGGACCCTCTCAAACCTATGCCTTCCRGACAGTGGAAATCCTAGTCCCCTCCCCTCTTCTGCCACACAGGCTGAAAGTT
CCTCCTGAGGGCTAGTCTGCACCCTTTCTGTTGTACTGCGTCTTCTTGGAGCTGGAGAGCAGCCAGCTAAACTAGAGGAGAGGGCCAGGGAACAAGGTGA
GGACCACCCAAGTTCTGAGAGGTAGGGCCAGGAACCAMCTGGCCCAGCTGGTGAGAAATTTTTTTAAAGTGGGTGTTTAGCARTTACCACTTAAGGCCTG
TGGGGGAGGAACAGTAATTACTATCATTATTGTGAAAATGTGGTTGGTACTGGGCTAGGTGGTTTACATGTTTTATCTCAATCCTCCAACAACCTTTTTG
AGGTAGGTATTCAACACAAGGCTCAGAGGGGTCAACTGATGTGCTCAAGGCCACACAGCAAATAAGTGGGGTGACTCAGCTACAAACCCAGGTTGTTCAG
ATAGAAACACTTGTGATCTTAACAACCTGTGTTCTGAGAAGTGAGAGAAGCAAACTGAGTAGGTGTCAAGACTGGAACCAGGTCTGACTCATGGTCCAGG
GAACTTTTACTGGCCCTTYTCTCTCCACCCACCCCCCTCCACCTGGCTGGCTTTACTTCCAGTTGGGAATTTATGACACACTCACTCACATGATGGTGGT
GTGAGGGTGTGTGTGTGTGTGTGCATGTATGCTTGTGTGTCTGTCCCTGCRTAACTGTGGAACAGCTCTTGGGGCACCTCTCCTCCCCTCTCTTTCTCAC
ACCAGCACTGCAGAGTTTGACTTATTTTCTTCCAGTGGTCCTGAGGGTGGTGTGATGTGGGCTTGGGTTGGGATCCCACAGGCTGCGGGAGAGTAGCTGT
AGGCAACTTCACCTCTCCTAGCCTTAGCTCCCTCATTTTAAAGAGGATAAAGGGTCGGGCACAGTGGCTCACGCCTGCAATTTTGGCACTTTGGGAGACC
AAGCTGGGCAGATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGGTCAGCATGGTGAAACTCCATCTCTACTAAAAATACAAAAAAAGTAACTGGGCATG
GTGGTGCACACTTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTAAACCTGGGAGGTGGGGGTTGCAGTGAGTGGAGATCCCGCCACTG
CACTCCAGCCTGGGTGATAGAAGGAGACTCGAAAAGAAAAAAGAAAAAATAAATAAAATAAAAAGAGGATAAAGTATATAACCTCACAGGTGGTTGTGAG
GATTCAATGAATTAATAGACGTAATTTAAAAAATAATAAATAGAGACGGGGTTTGGCCATGTTGTCCAGGCTGGTCTCCAACTCCTGGGCTCAAGTGATC
CTCCAGCTTTGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCTGAAAGTAAAATGTTTCAAAGTTTTCCGAACACACAGCGTTTT
CTAAGGGTAGGTAATGGGTTGTTCAGGAGTCACTCCACGGGGCAGTGCTGACTGGAGTGGCTGAGTCCCCTGACTGTTTTTCTATCGCAATTGGAGGAGA
TAAACGCTGCCCTAAMCAGGCCAGTCAGGAAAGCGGGGAGAAACTGGAGGAGCCCCCTCTTCTCACCAGYCATGCCCTGCAGCCTGTCCCCCAGGGTTTT
ACAAGGTGTCCCCGCGGCGGCCCCTCTGCTCACCGTGCCCAGAGCACAGCCGGGCCCTGGAAAACGCCTCCACCTTCTGCGTGTGCCAGGACAGCTATGC
GCGCTCACCCACCGACCCGCCCTCGGCTTCCTGCACCCGTGAGTCCCCCCTCCAGGCTGCACTGCGGAGGGTGGGGGGTGGGAGTGGCCAAGAAGGAAGG
CCTGATCCAGGTGGTGGTGAGGGCAGGGTCTCCGCACTGGGGCGCACGKGGGCGGATATGGGGRCCAGCGCCCCGGAAGGCGGCGTACGGGGGAGCGGAG
CCTGGACGCGCCCTGGGGGCCGGGGCCTTTGATGAGAAGAACCAGGACAACTGCGAGAGTCCAGACGGAGGATGGGGTTAGGATGCCTGGCAGATCACTG
AGGAGAGCGCCCCTCCGCTGCCCTCTCCTCACCCTGCCTACCCTCCAGCCGAAAGGGGGGCTCCCGACCTTCGCACCATCGGTTCGGTCCCCATGCTSCC
ATCCTCGGTTCCTCACTAACCTCCTCCCAAATCCTCACCAACTGCCCCGCCACTCTCACATTCCGACCTCCCAAGGGCCCCCACGCCCCCGTCTCTGACC
CTTCCCGGGGCAAGCCCCTCCTCCCGCTCGCCCCTGCTCCCACTCACCCCTGCTCCCGCTCGCCCCTGCTCCCGCCCGCCCTCTGCTCATCCGCCCTCGA
CCCCTCACTGACTGACCATCTCTGTACCAATCTCCCTGACTGAACCCCACGCCCCCATTCCTCCCACCCCAGACCCCTCACACCTTCCTATCCCCCATGC
CCACTGGCTCCCACGGCCCATTCCCGCTCATCCATCCCTGTTCCTTCACCGGTCGTCCCTTCTACCTTCCTCCCTGACTGACCCCATGCCACTGTCTCTC
CTGTCCCCCGTCCCCCCTCATCCACCAAGTCCCTTGATGAACGCCCTGGTTCCCTCCTCCCCGACTGACCCTCGCGCCCCTGCTTCTCCTGCCTCACTGG
GGGTGGACAAGACCCCGCCCCCCCCTCGTGCATCCCGCCCCTCTCACGGGCACCCACGCCCCGCCCTGACCGCCCCGCCCCTGTGCCGCCTCAGGGCCGC
CGTCGGCGCCGCGGGACCTGCAGTACAGCCTGAGCCGCTCGCCGCTGGTGCTGCGACTGCGCTGGCTGCCGCCGGCCGACTCGGGAGGCCGCTCGGACGT
CACCTACTCGCTGCTGTGCCTGCGCTGCGGCCGCGAGGGCCCGGCGGGCGCCTGCGAGCCGTGCGGGCCGCGCGTGGCCTTCCTACCGCGCCAGGCAGGG
CTGCGGGAGCGAGCCGCCACGCTGCTGCACCTGCGGCCCGGGGCGCGCTACACCGTGCGCGTGGCCGTGCTCAACGGCGTCTCGGGCCCGGCGGCCGCCG
CCGGGAACCACCTACGCGCAGGTCACCGTCTCCACCGGGCCCGGGGGTAAGGCCGTCCGCGCCCCCCACCCCGAGGCCACCGCGCCTGCCGCCCCTGCGC
CCTCTTGGGGCCGCCCCGTCGGTCCTGCGGGAGCCCCACCCACCCACCCCAGAGAAGCCATCCTCTGTACACGCACCCCGCCCCTCTCCGGGACACAAAG
TCACCCCCCCGGACGCCCCAGCGTCAGTCGCCCTCCCGAGTGTGCGAGAGGGACTGAGGATGCAGGCGTCCCCTTACTACTGGGCCAGAGGGGAGGCGCG
CGGTTCTGTTGCGTCTGCGGGAAGCACCTGTGTGCTCGCYTTTCTCCTGGACTCCTTGCACAAAGCCTCTGTCCCGCTCACGGCTCTGCAGTTGGCCTCG
CCGCTGATTTCTCAGGGAAAAAGAGGTGGAAAGTCCCTTAATCTCTTMCCTTCCCTTTAAAAAAATGTCAGTAGGAATCCGAATTTACTTCCTTCCCTCT
GTCTCGGGAAGCCGGATCCGGCCCTGTGTCCCTTACCTCCAACCCTCGGCCTCTGCATGGTTTTGCTGCATCTGGCCACCTCCTTTCCTGGTCCCGGGAA
AGGGCAAGGAAGCTTGTAGAGTTAGGCTGTAGGGGCGATGGAACACACCAGCCAATACATCTCTGAGTCTGGACATGAGGTGAATAAGTGAAGACCTACA
ACCTTTTCACACCACACCTTCATTCCTGAGAGTTTCTTTTGATTCGCTTCTCAGCTGGGGTGGACCTTCAAGTAATGCTTGTATTCTTTGCAAGAAAGAT
AAGCGAGTGGTATGGTTTCTGACTCCCTTCCTAATCGAGCCTATAGGGTCGGCCTGTCACCCTGCATCCCTGCTTTCTGTGATCCCRCTTCTGTCTTTGG
CAGTGGTGTTGCCAAGAAGTCTGAGGCTAGGGTTATTTTCATTCTTTTCTACTTAACTTGGACATATGACATGTACACGTATGCACACGGATGTTAGAAT
AATTCTTTAACCTGCTTAACCTACTGTTGATAATAATTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCAGGCTGGAGTGCAGTGGCGCGATCTT
GATTCACTGCAACCTCTGCCTCCCGAGTTCAAGTGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACTACAGGTGCATGCCACCACGCCCAGCTAATT
TTTGTATTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCCAACTCTCAACCTCATGATCTGCTGGCCTCAGGCTTCCAAAGTGCTGG
GATTACAGACGTGAGCCACTGCRCGCCTAGCCAGACTTTCTTTTTTTTTTTTTGAAATGGAGTTTTGCTCGTCACCCAGGCTGGAGTGTGGTGGTGTGAT
CACAGTTCATGGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCGCACCACCACACCCAGCTA
AGTTTTGTATTTTTAGTAGAGATGGGGTCKCMCCATATTGGCCAGGCTGGTGTCAAACTCCTGACCTCAAGTCATCTACCCGCCTTGGCCTCCCAAAGTG
CTGGGATTACAGGCATGAGCCMCCTCATGCCAGGCTGAAAATAATCATTTAACCAATATGGATTTCTTTTTTTTTTTTCTTTTTCTTTTTCTTTCTTTCT
TTCTTTTTTTTTTTTTTTTTTGAGAGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGATCTTGGCTCACTACAAGCTCCGCGTCTGGGGTTCA
CGCCATTCTCCTGCCTCAGCCTCCTGAGTAACTGGGACTACAGGGGCATGCAGCCACACCCGGCTAATTTTTTGTATTTTTAGTARAGACAGGGTTTCAC
CATGTTAGCCAGGATGGTCTCGATCTCCTGAGCTCGKGATCTGTCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCTA
CCAATATGGATTTCTTTTGATTGAGTAAACCTTTTGATTTGCACAACTTTTTTTTTTCCCGGGAAAAGTTTTCTTCAGGCCGGGAACAGTGGCTCATGCC
CTTAGTCTGAGCACTTTGGGAGCCTGAGGCCAGGAGCAATATAGTGAGACCCTGTCTCTACAAAAAATTTTAAAAATTASCCAGGCATGGTGATGTGTGC
CTGTAGTACCAGGTGCTCAGGAGGGTGAAGGAGGAGGATCAGTTGAGCCCAGGAGTTTGAGGCTGCAGCGAGTGATAATTGTGCCACTGCACTCCAGCCT
GGGTGACAGAGCCAGACTATGTCTCTTAAAAAAAAAAAAAAAGTTTTATTCAGCCACTGCTTTGACTAGAACTTCTGATAGCTCAAATATATCTCTTAAA
AATATCTCTAAGCCTTAGGTTTTACATTCATTTTCTGATTCTCAAATCTTGTCACTTCACTTCCCTTATCCTTTTGAGCTCTTAATCCATTTCCACTGCC
TTTTGGAGATTTTCCAGCTTGTCTGGGTTTCTGGAACAGTACTGTTTTTTATTGTCTCTATTGTGATTTAACATTTGCTATTGCATTTACATCTTTAAAA
ATTCTTTTTTTCCATCTTTCTTTCATGTCAGATGGGTATTTTGCCAACGTGAAAAGGTTCGGGGGTGACACATCTCACATACGAGTGTGAATCCCCAATC
ATCACACTTGCAAACTACAAAAGGATCACATTTTTAAAAATTCAGTATAGAAGAAGAAAAAACCCATAATCTTATTACATAGATAAAAACAACTATTAAT
ATCTTAGAGTATATACGTCCAGAAAATTTTTCCTGTCTATCTTGATCTCTGTATTCATATTTGTAACTATCTACCTATAAAATCCCTTTTGTTTTAATAC
AGTCATGCACCATATAAAGACATTTTGGTCAACAATGGATGGCATATATGATGGTGATCCTGTAAGATTATAACGGAGCTGAAAGACTCCTGTCACTTAG
TACTTTCTGTTACAGTTGCCTGTAGTATTCAGTACAGTCACATGCTGTCACCCAGGCTGTACAGGTTGTAGCCTAGGCGTGTCATAGGCTATGCTGTCTA
GGTTTGTGTAAGTACACTCTGATGTTTGTATAACAATGAAATCACCTAACAACGCATTTCTGAGAACATCTTCCCATCATTTAGCAATGCATGATGGTAT
ATGTAATACTAACTTTTATCTGGCATTTTACATTAACAATCTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTATCACCCAGGCTGGAATGCAATGGCTCA
GTCTTGGCTCACTGCAACCTCYGCCTCCTGGGTTGAAGCGACTCTCCTGCCTCAGCCTCCTGAGTAGCTGGTATTACAGGCACACACCACCACAWCCGGC
TAATTTTTGTATTTTTAGTAGAGCCCCGCGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCTTGACGTCAGGTGATCCACCCGCCTCAGCCTCCCAAA
GTGCTGGGATTACAGGCGTGAGCCACCGTGCACGGCCTTATGTTAACAATCTTAACTGTTTTGACACAGATAGATTTAGAAGCCATGTTAAGGAAATACT
CTTCTATTTCCATTTTCTCAATAAAAATACTAAGCTTCCACTGATCTAGTGCTGCTGTATTTGGCACTGTGCAATATGATTTTCTACATTAATTCATTGA
AACGGGGCTGGGCACAGTGGCTCACGCCTGTAANNNNNNNNNNNNNNNNNNNNCCATGCCCATAATCCCAGCACTTTGGGAGGCTGAGGCAAATGGATCA
CTTGAGCTCAGGAGCTCAAGACCAGCCTTCGCAACATGGTGAAACCTCATCTCCACCAAAAAAAGAAAAGTACTAAAATTAGCTGGGCATGATGGCATCC
GCCTGGAGTCCCAGCTACTTAGGAGATTGAGGTGTGAAGATCACTCAAGTCCAGGAGGCARAGGTTGCAGTGAGCTGTGATCATGCCACTGAACTCCAGC
CTGGGTGACRGAATGAGACCTTGTCTCAAAAAATAAAAAATAAAAAATTTAAAAAAATTAAAAAAAACCCCAAAACAAAAATCCAATCTGGGCTGGCCAT
GGTGGTTCTCCCCTATAATCCCAGTGCTCTGGGAGGCTGAGGCAGAAGGATTTCTTGAGGCCAGCAATTCGAGAGCAGCCTGGACAACATAGCAAGACCC
TGACTCTACAAAATTTTTTAAAAAAATTAGCCAGGTACAGTGGCACATGCCTGTAGTCCTAGCTATTTTAGAGGCTAAGGTGGGAGGATTGCTTGAGCCC
AAAAAAAGGGGGAAGGGAAAGGAAAGGAAAAAAAAAGTTACTCAGCTAGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGT
GGATCGTTTGAGGTCAGGAGTTTGAGCCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATAAAAAAAATTAGCCAGGCGTGGTGGTGCACAC
CTGTAATCCTAGCTACTGGGGAGGCTGAGGCAGGAGAATCTCTTGAACCCTGGAGGTGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCT
GGGTGACAGAGCAAGACTCCACCTCAAAAAAAAAAAAAAAAAAAAAAGATGAAAAGAAAGGAAACTCATCTTAGATTGGTTTTGGAACCCAGGTCTGTCT
GACCTCAAAGCCCTGTGCCTTTAATCCCTAGGCCATATAATGCTTCATTGAACTTTTTCTAAAAATCAGAAATGRATGTTAATTTTATAAAATGCTTATT
AAGCATTTTCAATATGACCAAATTTTTTCCTTTTTGACCTGTCGGTATGATGAATTCTATTAATGGATATTTCAGTGTGAACTCTCTGCACTCCTGGATT
ATACCCTACTAGATATATTATTCTTTGGATGTTTTGCTGAGTTCATTTGCTTATATTTTAAGATTTTTCCCATCTACATTTCTAAGAGAGATTAGTGTTT
TGTAATGTGTTCTTTGTCAAGTTTTGGCACTATGGGGATGCTGGCTTTGGTAAAGGTATCTGGAAAAATTTCTTCTTTTTCTCTGCTCTGGGACAGTTTT
AACAACACATTTACATATTCTTTGAAGGCATAAAAAACTGCCTGGGAAACTTTCTGGGTTCTATGCCATTTTTGGAGAGAAAGTTTTATTTATTTGTTTA
TTTATTTATTTGAGATGGAGTCTCTGTCGCCCAGGCTGGAATGCAATGGCACCATCTCAGCTCACTGCAACCTCTACCTCCCAGGTTCCAGTGATTCTGC
TGCCTCAGCCTCCCAAGTAACTGGGATTATAGGCAACCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAAACATGGGATTTCACCACGTTGATCAG
GCTGGTCTTGAACTCCTGACCTCAGATGATCTGCCTGCCTTGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGGCACTGCACCTGGTGGTTTGATATTT
TTAATCTTTACTGTAACGTCTTGATCAGTTTTATAAATTTGTGCTTTCCTMGAAAATATTTTGGTGTTCTTTTTCTAATTTATTATTAGAAATGTATATA
CATTTCCTCAGTACCTGGAGTTAACTTCACTTTCTCTTTCTTCCTGTTGTATGCTTGTGATTTCTGTCTTTTTTCTTAATTATCCTTGCCAGAAGTTAAT
TTTACTGGTTATGACACAGAATCAGCTCTTGAACCTATCAATTCCATTGTTCTTTACTTTCGTCACTTATTTTATGATTTATTATTATTATTATTTTTGA
GATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACCATCTCAGCTCATTGCAACCTCTGGCTCCCAGGTTCCAGTGATTCTGCTGCCTCAGC
CTCCCAAGTAGCTGTGATTACAGGTGCACGTCAGCATGCCCGGCTATATTTTATGATTTTATCTTTATTAATACCACTCTCCTGCTTTCCTGAAGTTTTT
TTTTTTTTTTTTTGAGACAGTTTCACTCTGCCTGTCACACATGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCTGAGTTCAAGC
GATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGTGCACACCACTACGCCTGGCTAATGTTGTGTTTTTTGTAGAGATGGGGGTCTCACTATG
TTGCCCAAACTTGTCTTGAACTCCTGGACTCAAGCAATCTACCTGCCTTGGCCTCCCAAAGTTTTGGGATTACAGGTGTGAGCCACCCCACCCAACCTCT
GAAGTCTTTTTCTAGGCAAGTTCAGTGCTTAGTTATTTTTTGTTTAAATTTTTTAAAGCTATGAGTTTTCCTCTGAATATAGCTTTGTCACTTCCAATAC
ATTTGATACATGATATTATCACATTGTTAGTATTATAAGGTTTTTTTAGGTATAATTCATGTAACATAAAATTCACCCTTTTGAAGTATACGGTTCAGTG
ATTTTTCATATATCCGCATAGTTGTGCAACAAGTGCTATCTAATTCTAAAACATTTCATCACCCTGAAAGGAAACCCATTAGTCACTCACCATTCCATCC
ACCTCCTCTAGCTCTTGGTAACAACTAGGTCTTTCTGTTTCTATGGATTTGCCTCTTCTTGGCATCTCAATACATGGAATTATACAATATGTGAACTTGC
ATGTCTGGCTTCTCTCACTTAGCATAATGGCTTCAAGTTTCATCCATATTGTAGCACGTATCAGTACTTCATTCCTTTTTATGGCTGAATGACATTCCAT
TGCATGGATAGACCACAATTTTGCTTATCCATTCATCAGTTGATAGACATTGGGCTGTTTCCACATTTTGGCTATTATGAATAATACTATTATGAATATT
AATGTATTCATAATACATTAATGAATATATGTTTTTGCATAAACATATATTTTCAGTTTTCATGGCTATATACCTAGGAGTAGAATTGCTAAGTCATATG
GTTATGGACTGAATTATGTTACCTCCAGATTCATGTGTTAAAACCCTAAACCCCAATGTGACTATATTTGGAGAGAGTCTCTTTAAGGAGGTAATTAAGG
TTAAATGAGATAYAAGGGTGGGCCCTAATCCATTAGGACTGGTATCTCTATAAGAAAAGGGAGAGACACTACCCGGTGTGGTGGCTCACGCCTGTAATCC
CAGGACTTTGGGAGGCCGAAGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTCAACATGGAGAAACCCCATCTCTACTAAAAATACAAGATT
AGCTGGGCATGGTGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGTAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCGGTAAACCGAGG
TCGTGCCATTGCRTTCCAACATGGGCAACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAWGGGAGAGACACCACAGCTCAC
TCACTCTTTGTCCATATGTGCACAGAGGAAAGGCCACGTGAGAATACAGTGGGAAGGTGGCTGGTCAGGAAAACAGCTCTTACCGGATTACAGATCTGCT
GACCTCTTGACCTGGGACTTCTAGCCTCCAGAAGTGTGAGAAAATAAATTTTTGTTATGAAAGCCAAAGGTGGCTTTTGTTAGGAAAGCCACCTTTGTTA
TTTATTTATGTATTTTTTGAGACAGTCTTCCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCCGCTTCCCAGGTTCAAG
CAATTCTCAAGCCTCAGCTTGCCAAGTAGCTGGGATTATAGGTGCRTGCCACCACGCCTGGCTAATATTTGTATTTTTTAGCAGAGACAGGGTTTCCCCA
TATTGGCCAGGTTGGTTTCAAACTCCTGGCCTCAGGTGATCCACCTACCTTGGCCACCCAAAATGCTGAGATTACAGGTATGAGCCACCATGCCTGGCTT
GAAAGCCACCTTTGTTATTAAAGGTCTGTGGTYTCTTKTTATGGTAACCTGAGCTGACTAATACATATAATAACTTTTTAACTTTTTGAGGAATTAYCAA
CTTTTTCAAAGCAGCTCTACCATTTTGCATTCCTACCTGCAAAGTACAAGGGTCCAAGTTTCTCTGCCTCCTCACCAATACTTGTTATTGTTTGTCTTTT
AAACAGTAGCCATCCTAGCAGATGTGAGGTAATATCTCATTGTGGCTTTGATTTGCATTTCCCTAATAACTAATGATATTGAACATCTTTTCCTGTGCAG
GGTTTTCTTTTTGTCATTAAGTTATATTATAACTATAGATATGTATTACAGACACTAGACCCTTGTGTTCATTTCCCAGGGTTGCTCTAACAAGGTGCCA
AAAAACTGGCTGGCCTAAAACAAATGTATTGCAAAATCAAGGTGTCGTCAGAGCCACGCTGCCTCTGATGATTCTAGAGGAGGACCCTTCCCTGCCTTTC
AGCTTCTTATGTTTCCTGGCAATCCTTGGTGTTCCTTGGCTCGCAGACGCATCACTCTAGTCACATGGCTGTCTTCTCCCTGTGTCTTCACATCATCATC
TCTCTAGGTGTTTTTCTCTGTGTTYAAATTCTTCTTTTCATGAAGATGCCAGTCATATTGGATTAGGGCCCACMCTAATGACCTCATTTTAACTTGATTA
CCTCTGTAAAAATAAGATCACATTCTGAGATGGGAAGTGGTGGTTGGGACTTCAACATATCTTTTTTGGAGACACAATTTAACCCATACAAACCTTGTCA
GATACATGATTTGTGAATATTTTCTCCCACTCTGTGGTTTGGCTTTCACTTTATTGAGAATAGCCTTTCAATCACAAAAGCTTTTAGTTTCTTTTTTTTT
TTTCCCCAAGATGGAGTCTTGCTCTGTTGCCCAGGGTGGMGTACAGTGGTGCAATCTTGGCTCACTGCAACCTCTACCTCCTGGGTTCAAGCGATTCTCC
TGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGTGCACACCACCACATCCAGCTATTTTTTTTTTTTTAGATGGGCTGGAGTGCAGTGGCATGATCTCTG
CTCACTGCAACCTGTGCCTCCTGGGTTCAARTGGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACACACTGACGCACCCAGCTAATTTT
TTTTTTTTTTTGTATTTTTAGTTGAGACAGTTTTACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCACCCGCCTCAGCCTCCCAAAGG
GCTGGGWTTACAGGAGTGAACCACTGTGCCCGGCCAAAAGCTTTTAATTTTGATGAAGTCAAATTTATTTATTTCTTCTTTGGTTGCTTGTGCTTTTGGT
GTCATCGCTAAGAAACCATTGCTTAGTCCAAGGTTAACATTTCTGTGTTTTCTTTTAGTGTTGTAGTTTTGAATCAAATTATTTTAGAGGATGTGCTTTT
ATTTCCAGATGACTTGCTTTTATTTTGTTTGTCTTTACGTTGCTGATTGTAGTGCTTCATGGAGGTTTGTACGTGGTAAAAATTTTTAAACTATTTCATG
GCTACTTTAAAACAATGTGCACTATTTTATGGTGTAGTTCTTTCTCTCTCTGTCTTTATATTTCTATATCTATCTATATATACACAGATGTTCCTCAACT
TAATGACGGGCTTATGTCCCATTGGGCTTATTATAAGTTGAAAATATTATAAGTCAAAAATGCATTTAATGCACCTAGCCTGCCAGATATCATACCTTAG
CCTAGCCTACTTTAAACATGCCCAGAACACTTACATTAGCCTACAGGTGGGCRAAATCACCTATTTTACAATGAGTATTTTACACTGAGTATCTCATGTA
ATTTATTGAACACTGTACTGAAAGTGCAAAAATAGAATGGTTGTATTGCTTTTACACCATGGTAAAACAATCATCAGTTAAACCATCACGAGTTATTATT
CAGTTGYRGTTCCTTCTTATTTTTTACTTGATGTTCCAAAGACTGAGAGGGGTTCATTTTGCATTCTGTTTGTGATTTTGTTAAAATTCCTTGTATTTGT
AATGAATTTTATTTTAAATATTTCAATTTTGCTGATGCACTTTTAGTTTCTTCACCCAGCCCTTCTCAGTTTCTCCATTTTTATCTCATCTCGTTTCTTT
TTCTTCTCCACCTGTTTTCTCCTTATGACCTTCTGTACMTAGTTGGTGGAGGCTGTGTTTTCTTTCTTCTTAAAGTGCCAGAGCGTTTTACTTACTCTCT
ATCATATTAAATCACTTTTCAAGATCTACTTCTCCTGAGTCTTCAGARTAATGTTCCTATTCTCTTATTCTGAAATATTTTTTCATATACCCAATTTCTG
GTATTTTCTGTTTACTTGTTCTTGAGTAAGGAAATAGCTGGTGTTTGTCAACAACAACAAAAAAGATGCGTGAATTGCCCTTTGAATTAGTTATGAGGTT
TTCAGCTGCAAGTAACAATAAATCTCAGTCTAACTGATTTTATTTTATTATTATTATTATATTATTATTATTAGAGACAAGGTCTTRCTCTGTCACTCAG
GCTGGAGTGCAGTGGCATGATCATAGGCTCACTGTAACCTCAAAYTCCTGGGGTCAGGTGATCCTCCCGCCTGAGCCTCCCAAGTGGCTAGGACTGCAGG
CATGCCAACATGCCTAGCTAACTTTTTTTTCTTTTTAAATTGTTTTGTAGAGACGGAGTATTGCTATGTTGCCCAGGCTGGTCTCTAACTCCTGGCCTCA
AGCAAGACCCCCATCTATGCCTCTCAAAGCTCATCACATAGGCTGGTTCCCTCATGGTAGCAAGGTGGCTGCAGCAGCTCCAGACATCACATCCTTACCA
TTCRGAGGCAGAAAAAGAACTGTTTCTTCCTTGCAGGTATCTTTTTAAAAGCAAGAAACTTTTCTCTGAATCCCCTGTCCCCAGCTAACTTCTTTTGTTG
GCCAGAACTGGATTGTAAGCCCAACCCTAAACCATTCACTGGCAAAGGGAATGAGTGCACACAAATGTCTTAGAACARCCAGAAGTTACCCAAGTCACCT
ATGGGGAGACAGTAGACTATGAACCAAAAATTCAGCTCAGCTAGCAGGAAAGGGGGACAAGGCTGTTGACTAGGTTTCCAGTACTATCTGCTGTAACTTT
GGCCCCACTTGGGTGCTGGCTGATTCCCATCCCAAATCTACAGCTGGAGAGCMGGTGCTTGGTGTTAGTTTTTAGCTCCACTAGCAGGATTTATCAGGCT
TTCATCTAATTATCTCTTCGGAGCTGAGATGGAACCATCTTCTACCTCTCTATCCTGGCCATCTGATGCTTTCCACAAATGTAGCTCAAAAATGGACATT
TCTAGCCTCCTTTTCCATCTCTGCCCCATCTGTATTCGCAAGGAACTTTGCCACCTCCTAGAATGCTTCATCACTCCTCTCGCCTTTGTGCTCAGGCCTT
TTCTGGGAGCTGCCRTCTCAAAGTGAATTTTGGCTGAGAAGCGCCCCCGGGGGATAGGGAAGAGCACTCTTCCTCGAAAGCAGCTCTGCAGTAGAGTGCT
GGCTGTGCATTGTCCACTTGACAAAGACTTGGCTTTTTTTTTTTTTTTAAAGGGTCAGACACTGAAGGGAGGAATAAAGGATTTTTTTGAGTTATTTTTA
GAATGGGAGGCAATGCCACTCTGTGGGCAGTGTAGCCTAGGGGTTCATTACAATTGCACTTTTKGATCTAGTCCCACTGCCTTGATCATAAGTAGAAATG
TGCCACTCTACTCTCCAGCCCCCATTCTGGCGATCAGCTGTCAAGACTAGTTTATGGTGATGGTGTAGGTTTTCAACTCTTACTGTGTCTTTATGTTTTA
ATTGGAATTTGGGAAAGACATGGAGTGGAGGCTGCTAGATATATATACCATTTAAGACTAGAAGCCACATCCACGCACTTGTCAGAGCCTGAGCCACCTA
CTCCGTTTCCACTTTCTTGCTTTATTACTATCTGATCGGTACTTTCCTCAATCCCCTGAAGGCACCGGGAACGTCCACTTTATGAAAGCCAGTGGGAAGT
TTGAATCATCATCTTACTCTGTTGTCTCCTCTCAGCGTAAGACATGGCCCAGCGCCAGCTCCTCTTGCTGGAATGCTGGTGCTGAGCACTCGCTCAGTCC
CTCATAACACATTACTTCATAAAATTCCCACAGCAAGCCTAGGAGGTGTCATCATTGTTCTCATTTTACACACGGGGAAACYGAGGCTCAGGGAGTAAGA
TCACTTGCTTGTGGACCAATAGTGGGCTAACCACTGGAAAAGTCAGGAGGGAACCTTCCTAAATGTTCTCTTCCCTGGGCTTCCATCACCTTGCCCACCC
TTGGTCTTCCTCCTGCCTCTCTGGCTCCTCCTTGTCAAGCTTCTCTTCCTTTGCCTGTTTCTTAATTGTTGGCGTGTCTCAGGCTTATTCCCTAAAAGCT
TTTCCTCTTCTCTTTTTATGCGTTTTCCCTGGACAGTTTCATCCCTTCACCTTATCATGGCTCCTGCATCTCCATTTTTCTCCCAGACACCTTTTCTGAG
CCCTGGAACCATTTCTCCCACTGCCCTCCTGGCATCTTCTCTTGGAAACCCCTTTGCCGAACACTAACCCCAGGCCTTATTATCTCCCGTATATGTGTGT
ATGTGTGTGTATGCTGCTGTTCATCTGACATCATCCAGACTGGCGGTTCTCAAACTTGTCTGCACGCTGGAATCACCAAGAAACTTAAAAAATAAAGCAA
CTGGCTGGGCACGGTGGCTCACGCCCGTAATCCCAGCACTTTGGGAGGCCGGGGTGGGCGGATCATGAGGTCAGGAGATGGAGACCATCCTGGCTAACAT
GGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCYRGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGC
GTGAACCTGGGAAGTGGAGCTTGCAGTGAGCCGAGATCCCGCCCCTGCTCTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAATAAACAAATAA
ATAAATAARTAATAAAATAAAATAAAAGCAACTAATCCCTGAGCTCCAGCCTACAGAGATGATGATTTGTTTGCTCTGGGTTGTGACCTGGGCAACATTT
TTTTTACTGTAAAAAACACATAAAATGTATCATCTTAACCCATTTCACATGTATAGTACAGTAATGTTAACTAGATACGTTGTCCAAAGGATATAATTTT
TTTCCTTTATTTTTATTTATTTATTTTTTTTGAGACTGGGTCTTGCTGTATTGCTTAGGCTGGAGTGCAGTGGCAGCCTTGACCTTCTGGTCTTGGGCAA
KCCTCCTGTCTCAGCCTCCCACGTGTCTGGGACCACAGGTGTGTGACACCATGCCCAGCTAATTGTTTGATTTTTTGTAGAGACAGGGTCTCACTTTGTT
GTCCAGGCTGGTGTTGAACTCCTGGGCTCAAGCGATCCTCCCACCCTGGCCCTCCCAAAGTGCTGAGATTACAGGCATGAACTCCAATACCTGGGGTGTA
GAACTTTTTCATCTTGCAAAGCTGAAATTCTGTATCCAGTCAACAACTCCCCTTTACCCCCACCACCCTCCCCTGGCAACTACCATTCTACTTCCTTTTT
TTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTATCAACCAGGCTAGAGGGCACTGGTGTAATCTTGGCTCACTGCAACCTCCACTTCCTGGGTTCAA
GTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTATAGGCACACACCACCAGGCCTGGTTAATTTCTGTAATTTTAGTAGAGACAGGGTTTCACTA
CATTAGCCAGGCTGGTCTTGAATTCCTGGCCTCAAGTGATCTACTGGCCTTGGCCTACCAAAGTGTACTGGGTTTACAGGTGTGAGTCACTGAGATTATA
AGCATGAGTCACTGCACCTGGCCTACTATTCTACTTTCTGTTTCAAAGAGTTTGACTACTTTAGATACCTCACATAAGTGGAATCATGCAGTATTTGTCT
TTTTGTGACGAATTGTTTCACTTAGCATAGTGTCTTCGAGKTTCATTCATATTGTAGCATATAACAGAATTTTCTTCTTTTTAAGGACTAATATCCTGTT
GTATGTTTACACCATATATTCTTTTTTCTTTTCTTTTTTTTAACTCTTTTTTATTATTATACTTTAAGTTCTAGGGTACATGTACACAGCGTGCAGGTTT
GTTACATAGGTATACAAGTGCCATGTTGGTTTGTTGCACCCATCAACTCGTCGTTTACATTAGGTATTTCTCCTACTGCTATCCCTCCCCCTACCCTCCA
CCCCGCGACAGGCCCCGGTGTGTGATGTTCCCTGCCCTGTGTCCAAGTGATCTCATTGTAAAACTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTT
TCTGTCCTTGTGACAGTTTGCTTAGAATGATGGTTTCCAGCTTCATCCATGTCCCTGCAAAGGACATGAACTCATCCTTTTTTTATGGCTGCATAGTATT
CCATGGAGTATACACCATATTTTCTTTATCCATTTATCCACTTATGGACATTTAGGTTGCTTCCACCTCTTGGCTGTTGTGAATAATGCTGCAATGAACA
TGGGTGAGCAGTATCTCTTCAAGACCTGATTTCAGTTCCTTTGGATATATGCCCAGAAACAGGATTGCTGGATCATATAGTAATTATAATTTTTTAAGGA
ACCTCCATATTGTTTTCCATAGCAGCTGCACCAATTTACATTCCTACACAATGGTGTACAAGGGTTCCAATTTTTTCATGTCCTTGCCAACACTTGTTAT
GTCCCATATTTTTGGTAGTGGTCATCCTAAAGGGTGTGAGGTGATATCTCATTGTGATTTTGATTTTGATTTCCCTGATGATTAATGATATTAAGCATCT
TTTCATGTGCTTCTTGGCCTTTTGTATATCTTTTTTTTTGAGACAGAGTCTCACTCTGTTGCCCASGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGC
AACCTCTGCCTCCCAGGTTCAAACAATTCTTGTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGATGCATGCCACCACGCCCAGCTAACTTTTGTATTTT
TAGTACAGACGGGGCTTCACCATGTTGGCCAGGCTGGTCTCAATCTCTTGACTTCAGGTGATCTGCCCCCTCGGCCTCTCCAAGTGCTGGGATTACAGGC
AAGAGCCACCGCGCYCAGCCTATATATCTTTTTTGAAGAAATGTCTACTCAAGCTGGTCTGAGTGCAGTATTGTTTACAACTAACTGATCACAACCAGTT
ATAGATTTCTTTGTTCATCTCCACTCCCACTGCCTCGCTTGATAGCAAAAAAAAAAAAAAAAAAAAAAAAAAAGCCTACAGTTATTTGGTCTTTGTTGTT
GAGTTCTAGACATTCTTTATACATTCTGGATATTAACCCCTTAGATAAATGGTTAGCAAGCATTTTCTCCCATTTCAAAGACTGCTTTTTCACTCTGATT
ATTGTTGCCTTTGCCCTGCAGAAGTTTTAAAGTTTGATGTAGTCTCATTTGTCTATTTTCGTTTTTGCTGCCTGTGCTTTTGGTGTCATATCCAAGAAAT
CATTGCTGAATCCAGTGTCATGAATCTTTTCCCCTGTGTTTTCTTCTAGGAGTTTTATCATTTCAGATCCTACATTTAGGTCTTTAATCCACTTTGAGTT
CATTTTTTGCMTATGATTTTAGGTGAGGGTCCAACTTCATTCATTTGCAGGTGGATATCCACTTTTCTCAGTGCCATTTGGTGAAGAGACTATCCTTTCT
GCATAGCATAACCTTGGTACCCTTGTGGGAGATCATTTGACCATACATGGAGAGGAGTTATTTCTGGGCTCTGTATTCTGTTTCATTGGTCTATATGTCT
GTACCATATTGCTTTGATTACTGTAGCTTTGAAATATGTTTTGAAGTAAGGAAGTGTGAGGACTCTACCTTTTGTGTGTGAGTGTGTGTGTGTGTAGGTT
TTGTTGTTGGTTGGTTTTTGTAAATGATGGAGTCTCACTGTGTTGCCCAGGCTGGTCTCAAAATGCTGGCCTCAAGTGATTCTCTCACCTTGGCCTCTCA
AAGTGCTGGGATTACAGGTGTGAGCCACTGCCTCTGGCCCACCTTTATTTTTCCTTCCCATGATTGTGTTGACTATTCATGGTCCTTTTAGATTCCATAT
GAATTTTAGGATGTTTTTTCTATTTCTGCAAAAAATGCCTGGGATTTTGATAGGATTRCATTAAATCTGTAGATCACTTTTGGTAGTAGAGACATTTTAA
CARTATTAAGTGTTCTATTCCATGAACACAGGATGCCTTTCCAATTATTTGTGTTTTATTTCATTTCTTTCAGCAATATTTTATAGTTTTCTGTATAAAA
GTCTTTCATCCCTTTGGTTAAGTTTATGTCTAAGTATTTTATTATTTTTGATGCTATCGTAAGTGGGATTGTTTTCCTAATTTCCTTTTTGAATTGTTCA
TTGTGTATAAGAACACAACAAATTTTTGTGCATTGGTTTTGTATTTTGCAACTTTGCTGTATTTTGTTTATTAATTCTAAATTTTATTTTATTTTTTTGA
GATGGAGTCTTGCTCTGTTGCCCAGGTTGGAGTGCAGTGGCGCGATCTCGGCTCACTGTAACCTCTGCCTCCCAGGTTCAAGTGATTCCCCTGCCTCAGC
CTCCCAAGTAGCTGGGACTACAGGCGCGCACCACCATGCCCAACTCATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTC
AATCTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAATTTTGCTTTTGTTGCCCAGGCTGGAGTGCAATGGCACGAYCTCAGCTCACTGCAACCTCCAC
CTCCCGGGTTCAACTGATCTTCTTCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTACCACCATGCCTGGCTAATTTTGCATTTCTTTAKYAGAGA
CAGGGTTTCACCATTTGATCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGGTCCACCTGCCTCGACCTGACGTCAAGTGATCCACCTGCCCGGCTGGTCT
TGATCTCTTGACCTCATGAACCACCTGCCTCAGCCTCCGAATGTGCTGGGATTATAGGCGTGAGCCACCACGCCTGGCCTAACAATTTTGTGTGTGGAAT
CTTTAGGGTTTTCTACATATAAGATCATGTCATCTGTAAACAGAGATAAATTTCCTGCTTCTTTTCCAGTTTGGATGCCTTTTATTTCTTTTTCTTGCCT
AACTGCTCTGGCTAGAACTTCTGGTATTATGATGAATAAAAGTGATGACAGCAGACATCTTACCTTTTTCCTGATGTTGGAGGGAAGGCTTCCAGTCTTT
CACCATTGGGTATGATGCTCACTGTAGGCTTTTCATATATGGCCTTTATTCTTTTGGGATAATTTCCTTCTATTTCTAGTTTGTTGAGTGTATTACCTCT
TGACCAGACCATTGGAATCGTTAAGAAGCAGGTCCTTCTGCCTCTAAATGCTCTCTTATGTCTCCAAGCTGCAGCAAGTATAGAAAGAGCCTGGAGGATT
AGAGCCRACCACCATGAGAGAAGCYGGGCTGWAAGGGGTGGGCAAGCAGCAGAAGGCCTAATGCTTTTCCCTCTATGGGACAATGAAGAAAAGGGCTGTG
GGGGCAGAGGTGCTTCTTTCCTCTGGTCCCACAGACTCCTCTCCTTTGGCCATGCCTCTCAGTCAGTTCCCTAGCCCCGCCCACAGCCCGTTAGACCACG
CCCCAGGCCTCTCTAGTCCGGTCCCACAGCCCCGCACGCYGCACCCTCTTCSCCGCACCCCCAGCCCTGCCGTGAGGTGGGTCAAGGTGGAGAATCCCAC
GTAACTTACTTTCAGCGCCCTGGGAGGAGGATGAGATCCGCAGGGACCGAGTGGAACCCCAGAGCGTGTCCCTGTCGTGGCGGGAGCCCATCCCTGCCGG
AGCCCCTGGGGCCAATGACACGGAGTACGAGATCCGATACTACGAGAAGGTGAGTGCGTGTCTGGGAGGGACCTGGAGCCTGCCCCGCACCTGTCCCGCA
GGGCTTCTGGTTCTTCAGGCCATCCTCCCAGCAAAAGCCCTCGTTACTCCCTTTGTAAACATAACCACCCGTCTCCTAGGGGCCCCAGGCTCGAGTCTCC
CCCTCCTCCCCCGGACTCCTGCTCTTCCTCCCTCCGCTCAGGTCTATCTCCAACACCAACCATCTCCATTGTCCCCATGTCACCTAGTGTTTCGGTTGAC
AAAGAGCTTTCTCTGGGGCCCGGTCCAGATTTTGTGTGGCTGAATCTTATACGTATCATTTGTAGAGCCCTTTTAAAGAAAAAGGACACAGAAAGATCAT
ATCATTTCTAATTTTACAAAAGTGCCTGACCATGGAGCACATTGCTGGGTGTGGTGGTGTGCTGGTAGATATTTAACAGCCAGCTTTCCAGAACAATAAA
TGTATGAGTTATTATAATTCCAGTCATATAAAAAAGTGTAGCACAGCATTTACAGTGATAATAAAATATGTTCAGAACTCTTGATTGTGAACTCCATATG
GCCAATTGATCCCCATAGGATACTTGTGCTGATTTTTGCTGACCTCTTGTATCCATTGTCAATCTGTGGTTGCAGCTTAGCTGTGATGTAACAAATGGAG
TCACATCCCAATCTGCTCTTTTCCCCGTAAGTTTATTACCTTTATTATTTATTTATTTATTTATTTATTTTGAGACAGAGTTTCATTCTTGTCACCCAGG
CTGGAGTGCAGTGACATGATCTCGGCTCACTGCAACCTCCGTCTCCCAGGTTCAAGTGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGATTACAGGCA
TGCACAACTACACMCAGCTCATTTTTGTATTTTTAGTAGAGACGAGGTTTCATCGTGTTGGCCAGGCTGGTCTATATCTCCTGACCTCAGGTGATCCACC
CGCCTTAGCCTCCCAAAGTGCTGGGATTACTGGTGTGAGCCACTGCACCTGGCCAATTTATTATCTTTAAATCTGATATGCAAACTACTGTTAAACTGTT
TCTCACCTTGGTGCAAATTATATTCACTGAAGTGAAACCTCTTTCAGCTTCTACATGTGTCAGAACTTCACTCACTCCTCAATGACATGAGGGACTCCTT
TGCTGAAAATAGTTTTTGAATACTGGAAGTCTGTTGAGACCTGTGAGTGTTGGGGATGAGTRGGAAGGAGGAGAGAGTCCTGAGTCACTGCTGGGTGTCT
GACCTGGGTAACCCAGAGTCTGAGGTACCACTGACTGAGATGGAGAAGCACTGAGGTGGAAGGGCAGGCTTGGAGCAAGGTGATGAACCTGGTTTTGCTC
ATCTAGCATTCAGGGGGCCTCTGGGACACCCAGGTAGACTTGCAGGTCTGAAGCTTAAGGGAGAGGCCTGGCTTGGAAAGGGAGAGAAAGAGAGAGAGAG
AGAGTGAGAGTGTTGGGGGCTCTCAGCATAGAGACAGTAGCTGCTGCCAGGGGAGAAATTGGGGGAGAGGAATGAGAAGGGGAATGTGTCTGAGAAGAGT
GGCCAGGACAGAGCCCTGAGGAATGCTGATGTTTAGGGAGAGCAGCAAAGGACACTGGGAAGCAGGTGCTTAGAAAGGACTCACTGAATGGACTTTGAGG
ATCAGGGTATAGACAAGAGCCCCAAGGTTGAGCTGGGTGGATGCTCCCAGGTTGTTGGGCATGAAAACCCTCAAAAAGAGGAGCAAGGGCCAGGCTCAGT
GGCTACCACCTGTGATTCCAGCACTTTGGGAAGCTGAGACGGGAGGACGGCTTGAGGCCAGGAGTTCAAGACCAGCCTGGGCAACAAAGTGAGACCGCCA
CCTCTACAAAAAAGAAATTAGCCAGGCATGGTGGTGTGCGCCTGTGGTCCCAGCAACTTGGGATGCTGAAGCAGGAAGATCGCTTGAGCCCAGGAAGTCG
AGGCTGCAGTGAGCAGTGGTTGCACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACCCTGTCTCAAAAAAACCCACCAAAACCCCCAAAAACAACAAA
AAAGAAGGAACAAGTCCGGGCGTGGTGGTGCACGCCTGTAATCCCAGCACTTCGAGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCA
GCCTGGCTAACATGGCGAAACCCAGTCTCTATTGAAAAAACAAAAATTAGCCAGACATGGTGGTGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGG
CAGGGARAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACACTGCATTCCAGCCTAGGTGACACAGCAAGACTCTGCCTCAA
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAACAAGTATAAAAGGGCTATATTTGAAAGGCTTCAGTGTACTCTCATGGAGCCTGCT
GAGTAGAAGCCTTGCTGGGCCACTGGACCTGGGCGGGTGTCTGGCAGCTCCCCTYTGGAGCCACAGTGCTGCTCATCTCAACCTCTCTCTGCACACCAGT
CCAGCCCATGATGCAGAGGGGCTTGCTTACGGCACGTTGCCAATGCCCAGGTAGGCAGCCTTGCTCCTTCCTCCTCTCTGCCCCTAGCCTGCCCTACCTT
GTGGGTCCTGAAGCCACTGCTTCTCTGTCTTTCAATGGATTGTTGAGATGCCTGGAAGAGAGATTCTGATTGGCCCAGCTTGGGTCAAAGTCCGTCCCAG
TTCCTGAATGCTATGGTCAGAAAGCTGGAGCCACCGAATATCAGTGGGGAGAATAACTTTCTGGGGCTGTGGRTATGGCAGGGCCTCTAATAAGGTGTGG
GCAGGGACGAAACGACGGGAGGAGCATCTCTAGTATGCCATTGTCAGGTGTGTTGGGGTGGAGCGGGGGGCAGCATGATGTCGAGCAAAAAACACGGGCT
CTGCAGGGATTCAGAGGGTGCACCAGCCCCTTCCTTGATGTGAACCTCACCTAAAAAGGAGATGGAAATGCTGACTCCACAGGGCTGTTGTGAGGCTCAC
AGGAGGCAAAGGGTCTCATGCAGAAGCTGGCACTGAGTAGGCGCTCATCAGTGATGGCTCCAGCTGGGGCCTTGGGGGAGTCTTTACCCCTCTGAACTGG
GTTTCCTTATCTGTGAAACAAACAAACAAGATAATACTTTCTGTCCTCTGAGCCTTGCAGGACAGTTGTGAAAAATCAGACATCGAGGAAAGGAAAAGCC
TTGTGGGCCATTGGGGGCTTTCATGTGTCAGGGCTCATTCTCTCATTCYGTCCTTTGAGGCTTCAGGCCTGCCTAGGGCACTGGCTCAGCTTAGCCTGGA
TGGACAGGCCCTGRTGGCCCTCATCCTATCATSCCCCGGAAGGAGGATCTGGTGTCTTCTCTAAAATTTCTCTTATGCAGAGGTGGTGCTATTCTCAGCT
ACAAGTGCCACCGAGTGTGGGTGGGTGCTTGTGGTGAAGACAGGGGCTAAGGATCCAAGGAAAAGATCCCTGGGAAMCCCCAAGATGATTGAGGTTGGGT
TTTCGCACTCAGCCCACATTCACGTAAGGGCGCTTCTCCTGCCTCCCTGTTCCTGTTCACCCTTTGTTCTCCTAGAACAGTGGATCTGGCGCTGGTGGGC
TTCACTTCTTGATCTCTCTCCAGGGTCAGAGTGAGCAGACTTACTCCATGGTGAAGACAGGGGCGCCCACAGTCACCGTCACCAACCTGAAGCCGGCTAC
CCGCTACGTCTTTCAGATCCGGGCCRCTTCCCCGGGGCCATCCTGGGAGGCCCAGAGTTTTAACCCCAGCATTGAAGTACAGACCCTGGGGGAGGGTAAG
TAGTGTGTGTGAGTGGACAGGGACCTAGACAGAGAGAACCCTGCACGGGGCTGAGGTAGGGAGACAAATAGAGGGGGAGAGTTATCTGGAGTTATCTGTG
CAATGAAGGGAGCCTGCAGAACAGTTTAATTAATTACAGCCTAATTAATTAATGACTTTGAAATCCACTGACTAATGCCTGTTCACCGACGTGAATTAGA
TTGGGAAACTGTCCTGGAGGAGCTCACAGGAGAGGGRTTTGTGAACAGCTATAACCCATGTCTCAGCTGGATAGAGACTCAGTTTGGATAGAGACCCAAA
CATGGGACACTGTCCCTTTCCCCACTAGGCCTTAGAGCGTGATGCTGACTTCACTGAAGGTTGATGGACATGAAGGGGTTGCATTGCAGTGATAAACACA
AAAATAAGGATTGCGGCCAGGCGCGATGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACC
AGCCTGGCCAACATGGTGAAACTCCTTCTCTACTAAAAATACAAAAATCAGCCGGGCGTGGTGGCGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAG
GCACAAGAATCACTTAAAACCGGGAGGCAGAGGTTGCAGTGAGCCAAGATTATGCCACTACGTTCCAGCCTAGGTCACAGAGTGAGACTCTGTCTCAAAA
AAAAAAGAAGGATTGTGTAACTTAAGTGGGTAAATCACATGGTATGCGAACGATATCTCAATAAAGCTGTTACCAAAACCAAACAAAAACTGGAAATTGA
ATATCCTCATCTGAAAACATCTCCGGCTTCTCCGCAATATTGTGCTTTCCTCCCTCCTCCTTTACTTCCCTCCCCTGGTTCCTCTTCTCCCCACCCACTG
CCCAATTCCCTGATGTGTGCACAGCAGTTTAGCTGTCTTGTTGCTTTGCCTGCTGCTAACCTGGTCCTCAGGATCTCACCTCTATCTGCCCTGAGCAGCT
CATGAAAATATTTTCCTGAACAAAGGCAGTTCCCCCTAAGAGGCATTCTGGYACCAGCTGTCAAGATAATAATTCTTTCCAACCTGCTACATGACTCTAA
TCCAAGATAGGAAGAGCTCTGAGTCCAAAGGGAAGTGAAGATAAAATGCTGAAGGGGTCTGAGTTCTGGGAAGGAAGACCACACTTCTCGCCTGAATGCA
AAAAGTGTCAGACCTCGGCCAGGTGCTGGAAAGAGAAGATTATAGCTGGGGATCATTTGAATGTGTACAGATGGGCAGGGAGGCATKCTGGGGAGAGGAA
GCTATCTGAACAAAGGCGGGCAGGTTTGGCTGGAGTGGGCGTAGTGGGGGCAGGAGCTGGGGACCGTCAGTGGAGAAGGGCTGATGGTCTCCATTCATTG
GGTACCTCTCAGATAGTAGAGACTGCTGAGATCCCCAGTCTCCCTTCTTGTGGCCCTGGCTATGGTTCTCCCAATCTGCAGAGTGTGGTTTCCCAYGAGC
TGTGTCTCCAAATTGAGATTTTTTTTTTTTTTTGAGGTAGGGTCTTACTGTGTCACCCAGGCTGGAGTGTAGTGGCACAATCACAGCTCCCTGCAGCCTC
AACTTTCCAGGCTTAAGTGGTCCTCCCACCTCAGCTTCCCAAGTAGCTGAGACCACAGGYGCTTGCCACCATGACCAGCTAATATTTTTACTTTTTGGGG
GTCTYACTATGTTGCTCAGGCTGGTTTCGAACTCCTGGGCTCAGRTGATCCCTCCACTYGGCCTGCCAAAGTGCTGGGATCACAGGTTTGAGCCACTGCC
CCCCGCCTTCCAAAGCAGGATCTTTTTCTTTTTTCTTTTTTTAAAAAGAGCGATGGAATCTTGCTATGTTGCTCAGGCTGGTCTCGAACTCCTGGGCTCA
AAGCAATTCTCCTGTCTTGGCCTCCCAAAGTGTTAGGATTACAGGTGTGAGCCACCATGCCCAGCCCCAAATCAAGGTCTTGGTGAACGCTTATGCGTCA
CCACTGTGCTAGTTACCTATTGCTATGTAATGAGTTGCCCCAACATCTAGCAGGTGAAAACAACAAATATTTATAATCTTATGTTTCCATGGATTGGTAA
TATAGGTGCCTCTCAGCTAGGTGCCAGTGACTTAGGGTCTCTTCCAAGGCTGCCGTCAAGTTGTCCTCAGGGGCTGTGATCATCTCGGGGCTTAGCTGGG
GGAGAGTTCACCTCCCTGCTCAGGGTCTTGCTGGCTGCTGCTGAGGCATGCTGTTCCTTGTCCCATGGGCCTCTCCTTAGAGCTGCTCACCACAACCACT
GGATTCTTCCAGAGACTGTGAGCCAGGGAGAGGGCACCCAAGACAGAAGCCATTCATCTTGTTTCCTGATCTTGGGAATGACATCCCAATACTCTTGCCA
TATTCTGTTCATTAGAAATGAGTCCAGCCTGTGCTCATGGGGAATGGATACCAGGAGGTAGGGATGCCATCTCAGAGACTGCCCACTGCTGGCATCTTTC
TCCGTTTCTGTGTCCACATGGTTGCCTCATTTCAAACAGTTCTTGGCAACTCTATTCCCCTCTATCCCCACCCAGACCCTCAGCCCTCTTTGCCTCTGGA
ACCCTGGGCTCTGAAATGCCCTCTCTGACTCTAGCATTTTTGGCTTCTAACTCTCGTCTTCTGTTCCTCCTCACTTGCTCTGTGACATCCGAAAGACTGC
TCACTGGATCCTACCTCATCTCCCAGACTTTTAGCTCCTCCTGGCCCCACACCCATCTCTATCCAGCCCCTGCAGATGATCTCATCAGAAATACTCCCCA
ACTCTGCCAACCCTCATTCCCTGGGCACCTTGCTGCACCCACCTGCTAGTCCCCAGACTTGGACCTTTCTCCTCCCTGTGTCCCACGCGGAAGCTGCCTA
AAGAGGTGTACTTTCCAATCTYAGTTCAGTCTTCAGGGCCACTTAGTACTTTTCCCATTCCTAATAGTTATGCCAAACCTTCASCTCTCTCAAGCACCTC
TTCTCCATCCTCACTCCCACCTCAGCAGACACCCTCATTCCTTTTCTTCTTAGGCAGGAACTCTCTCCACTGCTCCCTGTCACCCACAGGAGAAAGTTTA
TACTCCTTAGCTTAGCGTTCAAGGCCCTCCAGGTTCTGGCTCCCCCAGTTCCCTCCATCTTCCCACCCTCCAGCTTCCTATTTGCCACTCTCCGCCTTCA
TGCAGTCTGTTTCCCAGACACAGGGGACGACTTGCCATTTTCAGACCCAGTGTGTGCATCAAAGCACCATCAAAAATCCTTCCAGTCTCCAGGTCCAGTT
CAGATGGCACCTTTTTTTGTGAAGCCTTCCTCATTGGCTTTAGGAAGAAATTATTGTGCCTCTGCTCAGCTCTGCTCATTTCTGTTTCTTTTTTCATTCT
ACAGTTAAGATTTTTGTTTCTGTCTCACCCGTAGGCCCATTCACCCCTCTCTCCTCAGTACTAATGCAAACCAGGCACATAGGTTGGATGGATGGATGGG
TTGATTGGATAGATCGATGAATAGGGCTGAGAGCGAGGGTCCTCTAGGCTGATCTCTTGGAGAAATAGTTCAAAGCAGAAGCTTTGGAATCAGGCAGAGA
CTTTTGGAGTGATGCTCAAATCTTAGGTTCACCACTTTTTAGCCATGTGATCTTGGGCAAATTATGTAATTTCTCAACCTCAGTTTCCTCAGCTGTAAGA
TGAAGATGGTAATACCTTCCTGGATTATTGTGAAGATGAAACAAGACAGTATAGTGTAGGCACATGGCCCAGTGTCTTGAATGGAGTAAGGTGCAGTTAC
CGTTAGCCCTTTTTATTATTGTTGGTGGATGGTCTGGACTGGGGGTAGGGAGCTCAGAGCAGAGGCCATTCCTCCTGCAGAGCAACTTTGAGTCCCTCAC
TGCTCATCTGAAAGGCATAGAGGGAGGCCTGGCCCTGCCTGTCTGGACTCCTGCCTCTCTGAGCAGGAGCTGGGCTGCTGTGGAGGTGTTCTGCCCTGAG
AGCAGAGGAAGCTCTTGGGACTCCAGGTGCCACTGTGGTCAGTGGGACTGCCTTGGCGCCTCTGTGGCTGGGAGGCAGTGCCAAGTGCAGAGGTGCTATG
GGAATCCTGCTACAGGGTGAGGACAGGAGTCTGCCCTGGGGCTTGCCTAGGAGCCTGGTCCTCTGCCTGCCTCAACCTCGTGATTTTCCTCCCAGCTGCC
TCAGGGTCCAGGGACCAGAGCCCCGCCATTGTCGTCACCGTAGTGACCATCTYGGCCCTCCTCGTCCTGGGCTCCGTGATGAGTGTGCTGGCCATTTGGA
GGAGGTAGGTGGCTGGCCCCAGCCTAGGTGACTCCTGGTGGGTCATGTCCCGTGCACATTAATGTGTGCTCACAGGCATCTCTGCCCACTTTGCACACAC
GCAGATTTGCACCTGCAAGCACACTGCTGTACAAATGTAGGCATGCATCATCCCGGCCCCTCCCCCCAGCTCAYTGTTCATGTGGCAGCCAGCACTGCAG
CTAGCTCAGCTGCTCTGGGATGAAGGGGATTTAGCGCCTTRACTCATTAAATGTCAGAAGGCATCACTGAGGAAGGAATCAAGCTCCGGCTGCTCCAGTG
TGATTAGAATTCTCCGGAGGAGCTCAGAGGCCCCCAGCCCCTGTCCCCGGGCCTCTTGAGGCCCTCGAACACAGGAAAAGGGGGAAAAGACAGAAATCTT
GTGTATGTATGTGTGTGGGAGGGGCAGGACAGGGAGGGCAATTCATAAAGCAGAAACCTCCCACCCCCAGCAGAAAGAAGCYTGCAGGAGGGTGAGCAGA
GAAAGGGGATAGGAGGAAGACATAGAGCTTGAGTATGGTTCAGAGAAGATTCTAGTCCTTTTGCAGGCAGCAGAGGCCTYCTGCCATGTATCCTCCCCTT
CTCCCCAGGGCCACACTCTGCTGCAGGCAGAGTCGCCCAGATGGGTCCCAGGCTGGGCGGGCTGGGGAGCCACATCTCAGCATCCTGAAACTGCCTGGCA
GCTGGAACGACAATGGGCATTCATTTGGCACTGGCTAATTTGCTTGGCCTTGAATGAGGCACTGAAAGTGACTGAGTGGGAGAGAACACTGTCTCGCTAG
TCTAGGAGCCAGCTCTGCCTGGACCAGGCAAATCAGGAGGGCAGGACAAGAGTAGGGAGTTCCTTGCTCGTGGAGCATGAAGGGTCCATGTGCTGGACCC
GTTGGAAAAGCAGAGATGGACAGATGCCGAGAGCATCTCATCCTGGCTTTGCACTGAGAGGCTCTGAGAGGCAGAAGGAGGAAAGGGAGACAAGCAAGCC
AAGAGCCCCTCTTCCGGGCAGAGGCTCTGCAGGACAGGAGCGCCCCAGGGACAGGTGCACTACAGAGGCGGAGCAAGCCAGCGCGGGATTCCAAATCCAG
CTGCTCTGAAATGGGGAGAGTGAGCCCAGTCTAGTGTGGAGGGGTAGAGAGGTGTTCTCCTCCAGCATGCATGTCCCAGCCTGGTGGGCTGTCTGCAGCA
CCTCTCACACCGTCCTGKGTGTAGTACCTGCTCTGCGCCRTGGTCCCTCACCTCCAATTTCCCTCCTCTCCAGTCCACCCTAGCTTGCCCACTTCTCACC
AGACCGTGTGGTCCAGTGGAAGCCTCTCTCCTCTCCTCACCACGCACCCTCTTTCGCTCCTCCATCCACTCAGCCTTCCCSCCTTCATCTCCACCCATCT
CTCCTGGATGTTGCTCCTCATTCGTGGAAGTCCTGTCACCACCCTGGGTGACTTCAGTAGCTGCCAGACAGCCTGTCCCATCCCTTGCCCCTCGGTTCTT
GGACTTCTCATTCCCAAGGATCATCTCTTCTGTTCCTCCTGGCCATCCTCCTAGAATGCTTCACCTCGTTACTTCTTTTTTTTTTTTTTTTTTTTTTTTT
GAGATGGAGCCTTGCTCTTGTCACCCAGACTGAGGTGCAGTGGCATGATCTCAGCTCAGTGCAGCCTCTGCCTCCCCGGTTCAACTGATTCTTTTGCCTC
GGCCTCCTGAGTAACTGGGACTACAGGCCCGTGCCACCATATCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTTGCCATTTTGGCCAGGCTGG
TCTCAAACTCCTGACCTCAGGTGATCTACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCACCATGCCTGGCCTCACCCCAATACTTAA
TCCAGTTCCCTTCTTGGTCTGCAGACGCCCTGTCTTTGCAGCTTGCTGTCTTGGCCACACCAGTCACACCTGTTCTTTAGCCTCATCACTGGCCCCTGGA
CTACTCACCACCAAACCTACAAACCTGCCTGCTTCTGCACCCATCCTCACCCCCTTTTCTCTAGAGGAGGTGATCCTCCCAGCCAGGATCAGTCCTTCCA
CCTATGGCTGAACCCCACCCTTTTGCCATCTTGGGAGCCCACTATTACTCCTAGTGTTCCCCTCTGCCCCCCATAACAGTGAACATGTGTGGAGGCTTGG
TAAGCTGACATGCTGCTGTCTGGCAGGCCTATCTTTATCCTGATTTTATTAAAGAGAAAATGGAGCCACCCAGTCCCACAGCTACCGAGCGGAGATGCTG
GGAAGCAGGTCCCTGCAGTCAGGTTCCGAGCCCAGGCTGTCAACACCCTGCGGTGGCCGCTTCCCCCTGTGTGACAGCCTAGCTCCTCCTTCCCATCTGT
ATCTACATGTGATCATCTCTGTTGTGAAAACTTCGGAAACTCCTCCCTTGGTCTCTCATCCTTGTACCTTTATGTGATTTCTCTCTACCATCCCCTCTAC
TTTCTCTGTCCTTGGTCCCTGTGATACCCTGCCCCAGTTTCCCTCTGCTCTCCTTCTGTTCCTCTGGCGATTCTTTTGTACTGTCCTTGGTGCTTCCTTC
CGCTAGCCTAGATGTTGGGGTTTCTCAGACTTATTCCTAGTCCCTCTTCTCAGACTCCATCCTCTCCCTGGGCCATGCTCATTGCTCCTGATTTGTATCT
GCAGAGCAGGCCTCTCTTCCAAGCTCCAGACACACACACACACGTCRAACGCCCGTCTTATCTTCCCTGCTTATCCCCCAGGCCTGCAAACTCAGATGTC
TAAATGTGAACTTTTTGTCTCCTCATCCCAGTAAATGGCACCACCATAAACTGTGGGCAACTTCTCCCTCTTCCTTTCTGCCATCCAACAACCTCTCAGC
CCTGTGGCCCCTGTCACCTTCATGTCACTCGAGTCCTCTGCCTCTCTCCATGCCCATGTTGACCCCATAGCTAGAACCACTGCCAGCTCCTCTCCTGTGG
TGACACCCGTGGCAGCTTCCACTCTGCAACTGGAGCTCTTTCTAAAGTAGAAATCAAATCATTGCACTCCTCTGCTTCAACCCCACAGGGGCTCTCCTCT
GCTCCCAGAATAAAAGCCAAAGTCTTTATCTTGGCCAGCAAGGCCCTGCCCCTAGGGGCCYCAAGTACCGGCCTGTGGCTTTGTTGACTGTGATGCAGTC
CTTTGGCCCGTGGCTGCCTCTGTCTCAGGAAGCSCTCCACAATGACCTTGGATCAGGTCAGGCCTGTCTGTCCCGTGTCCCAACAGTACAGCACCTTTCT
CCTTTGCCAGCACTGGTGAGTGGGCTTGTGGCTAACTCTCCATGTTTGTTTTCCTGACCAGACCAGAAGCTGCCCCCGAGTGCTGGATCCGCTTGCCTTA
TTCACACTTTCACAAAACCGCATGCGGGGGCAGCTGGGGGCCTGCAGCCAGGATGTGGATTGGGTGCCTCTGGAGTTGCAATAATTTTCACCATGTGAAA
GTAGCTAGGGATGGTGGTGGTGGTGACGGTTTGGTCTAGGGCTACGGTTGTATCTGTGCCATGGGGAGGTCRTCAAACCACAGAGAAGCTTTTAAACCAG
CTGGACAAGAAGTTCCCTCCCCCAGGGCACAGGCCTKGTCTTTTGAAGRGACAAAGAGGTGCTGCCCTCAGTGCTCTGTAATGGGAAGGGCCGGGGTGGC
CTGGCTGAAAGAATGACCCTGAACTCCCTGCCAGGCCCTGCAGCTATGGCAAAGGAGGAGGGGATGCCCATGATGAAGAGGAGCTGTATTTCCACTGTGA
GTTGGCTGGGCCTGGCTGGGGAGGGGCGGGCTCCACCCTGCCTCRCTCCTCAGCCCTCTGCCTTGCTACACTGCATGAGCCCGCTTGTCAGCCCCAGTRG
TGGAGGCCCCATTCCTCAGGCTCATCTCTTTCTCTCCYAGTCAAAGTCCCAACACGTCGCACATTCCTGGACCCCCAGAGCTGTGGGGACCYGCTGCAGG
CTGTGCATCTRTTCGCCAAGGAACTGGATGCGAAAAGCRTCACGCTGGAGAGGAGCCTTGGAGGAGGCAAGCTGGGCGCCCRGGAAGCCTTGTCCCCATC
TGGAAGCCTCACCCACTCTATAGGCCCCGCCCCTACTCTGTCCACACCTCTATCCTGAAGCCCACCTCCACCCAGGTCTCTGCTCGTGTCTGGAAGCCCT
GCCTCCACACCAAGCCCACCCTCCACCCAGAAAGTCCCTGGCTTGCCTGATTATAGGGAAGAGGATGGCAGAAGGGTCTGTGACCCTCTCCTGGTCCTCA
AGGTCAGACCTCTGCACACTGCCACTGGCAGTTTAGTCCCAGGCCTTCATGGGGCAGTGGGGAGGGGCCTTTGCAAGCTTAGGGGCCAGACATAACTGAG
TTCTAGTCCTGGCTCTCCCACTGACCCGCTGCATGATCAGGGTCATGGCCCTGTTTTGCTCAGAGCCTCAGTTTCTCATCTGAGAAATGGGCATGATATC
TGCCTTCTGGGGGCTAATGTGGGGACCTCCCAGCACTCCTCACAGGGCCTGGCTGTCGGCGCTTGCTCTCTAAGGGCCAGTCTCCTGCTAGCCTTTCTTC
CTGACTACAAATCCTCAGCCTCCTGTGCTCAGAGACGGTAGCTGCTTTCACTGGGAGCCTGACATTATCCCCTGACACTGTCTCCAGACCCGCTGGACAG
AAGCCGGAAAGGGGCAGGGTGGAAGAATAGATGTCATTGTCATCCATCCYGGGTCACATGGGGTTTGATGGCAGTCGGCGTGCTGGCATGTGCCCTGTCC
TTTCTTTAAGGCTTGGAAACCTCCCCCCACTGAGGAAGGCAGAGAGGAATCCCCATTTCACAGAGGAGACAGGCCAAGAAAAGGAAAGAGATGGAATTCR
AGGTCACACTGCTGGTACTCAGTTTACCAGGATTTAAGCTGGAAACAGTCCATGATCTGGAGTCACTTTTTTTTTTGAGACCGAGTCTTGCTCTGTCACC
CAGTCTGAAGTGCAGTGGCACAATCTCAGCTCACTGAAACCTCTGCCTCCTGGGTTCAAGTGATTTTCCTGCCTCAGCTTCTCAAGTAGCTGGGATTACA
GGCATGTGCCACCTTGTCTGGTTAATTTTTGTATTTTTAGTAGAGACTGGGTTTCGCCATGTTGGCCAGGCTGGTCAGAGTCACTTTCTCCTCGGCTCAG
CCTGCCCAGCTCAGCCAGGGCAGTGGCCTCTGGCGGTATCTGAGGTGCTGTTTCCCCACAGGGCGGTTTGGGGAGCTGTGCTGTGGCTGCTTGCAGCTCC
CCGGTCGCCAGGAGCTGCTYGTAGCYGTGCAYATGCTGAGGGACAGCGCCTCCGACTCACAGAGGCTCGGCTTCCTGGCCGAGGCCCTCACGCTGGGCCA
GTTTGACCATAGCCACATCGTGCGGCTGGAGGGCGTTGTTACCCGAGGTAGGGCCCGGTGCTCCCTTCCTGCTGCCCAGCCCACGGGTATGGGGGGTGGA
AATGATGGTGTGGGAGTTTGGAGTGCCCCTGCCTCTCCAGGTCCTTCCCTCAGCTATGGGAGGGAGCTTCAGCCAGGGACCTCAGCTTTCACTGACTCAA
GGCGGYCCTTCTCCTGGAGCGGCCACTCTGGCTCAGAATGACCTTTCTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTT
GCCCAGGCTAGAGTGCAGTGGTGAGATCTCGGCTCACTGCAAGCTCTGCCTCCTGGGATCATGCCATTCTCCTGCCTCAGCCTCCCGAGCAGCTGGGACT
ACAGGTGCCTGCCACCAGGCCCGGCTAATTTTTTTGTTTTTTTTTTTTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTG
ACCTCGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCACCGCGCCTGGCCAGGATGACCTTTCTGACCTGTGATAGGTCCC
CTAGAATATCACTCCTAGAAAGAGTGATCTTTCTTAGCAAGCTTGTTGCAGCTCATGACCTTGGACTTTGTTCACCTACAGATGTCTCCTCTTTTGTTCC
TTGGCATAGAGGACCCTGGGCTGGGCAGGAGGATGGCGAGATTAGGGAGCTTGGTGCTGGTTCTGGCTCTCGAGGCCCAGTCTGGGACCCTGGGGGGGAA
ACTTGTGTGCGTGCGGAGTGGAGTGGACAACTTAGCATGTGTGTTCCCATCCCTGGGCACAGGAAGCACCTTGATGATTGTCACCGAGTACATGAGCCAT
GGGGCCCTGGACGGCTTCCTCAGGGTGAGTGGCCCTGGGGCTGCCARTGACCACTTTATTCTGTAAAGCGGGCAGGGGTCCCTCACTTTTCTCTTTGGTA
GGGCTTGGAATTGGCATCATCCCCACTGGCCGGGCTGACCTGTGGTCACAGGGTGAACTAAAGCCTGGYGAGAGCTAGGTGACCRCCCTGGTGTCACACA
ACACCAGGGGATCCAAGCGCACAGCCCTGGCCTCAGTCTTCTCCCTCCACAGCGGCACGAGGGGCAGCTGGTSGCTGGGCAACTGATGGRGTTGCTGCCT
GGGCTGGCATCAGCCATGAAGTATCTGTCAGAGATGGGCTACGTTCACCGGGGCCTGGCAGCTCGCCATGTGCTGGTCAGCAGCGACCTTGTCTGCAAGA
TCTCTGGCTTCGGGCGGGGCCCCCGGGACCGATCAGAGGCTGTCTACACCACTATGGTGAGGGCGCCCCCAGCCAAGCCTGCCTGTGCCTTCTGGTTCCC
ACCAAGCTGCCCTGGAGCCCTTAACTCCCCACTTCTACTCCTTTCCCTGCCCCTCCACCCAGTTGGTCTTGGCATAAATGCGAGTGAACCCCACCTTGAG
GTCAGCTTTTCTGTCTTTCCCAGATGTGAAGCTGGAGTTGGGGGTTGCCTGGGAGGATGACATKYAGGCTGGATCTGGGGCTCAGTGGGGTGGGGAAACC
TGCGTGTCACCCAGTTCCTCCTTGCCCCTGACCTGCCTGCCCCTACAGAGTGGCCRGAGCCCAGCGCTATGGGCCGCTCCCGAGACACTTCAGTTTGGCC
ACTTCAGCTCTGCCAGTGACGTGTGGAGCTTYGGCATCATCATGTGGGAGGTGATGGCCTTTGGGGAGCGGCCTTACTGGGACATGTCTGGCCAAGACGT
GAGTAACCCGTGGCTCCAGCTGCATGCCTTCTGACCCTCTCAGCTCAGGCCCCAGCTTCCTGACCTCTGCCCGTTGGCCCTCAATCTTCCTGCCTCAGGC
CCCTCTTCTCTGTCTGCTTGCTTCTGGTTCTGCCTGGCCACTGCCCCAGGCTTCCTTGGGTGTGTGTGTSTGTGTCTGTGTCYGTGTGTGCGCATGTGTG
TGTGTGTGTCTGTGBCTGTGTGTGTGCATGTGTGTGTGCACRCACCATATGCTGGGGAAACCCAGAGCCTCCTCTCTGCTCCCCACCCCTGTGGCCCAGG
TGATCAAGGCTGTGGAGGATGGCTTCCGGCTGCCACCCCCCAGGAACTGTCCTAACCTTCTGCACCGACTAATGCTCGACTGCTGGCAGAAGGACCCAGG
TGAGCGGCCYAGGTTCTCCCAGATCCACAGCATCCTGAGCAAGATGGTGCAGGACCCAGAGCCCCCCAAGTGTGCCCTGACTACCTGTCCCAGGTACGTT
CCCACATGGGACAGCCAGCCTCTCACCTGTCCGTGGAGGGCCTCCCTGCATGTTGCAAGTGCAAACCCACCGCCTCCACCACCCCACCTGTCCAAGAGCA
ATTGTTCACCCCATTGCCCCAGAGGGCTGTAGCCTGCCTGCCTGCCCAGGCCCACCTCACTGCACATCCTCCTGGTCACTTCTGCTTCTCCTGGATTKTG
CCCACATCCCCGGGTACAATGACCTTTGACTGGAGAAATAGATGTGGTAATAGCCCTAACACATTTGTAGTTCCAATGAATCAAATATGTGAAATTAATA
TTCGTTGTTCCCAATATGAGTCACCAACCAGTCCTAGGCGTGTCCTACCCCAGACTGTTCCGGATACGCCAATACCTTTAGCTGGCGCTGGCTCTGCCTC
CACCTGCCTGAAGAACCTGAAGCCCTCGCTTCTTCACGAATGCACAGTGCTCATGTGAGCCAGATCCAGCCCTGGGGCCCGGTTACCCTCCCCTTCTCCT
GTCCATCCTCAGCTGGCCTCTCCCCGGGAGACCACCAGGTGTGGGCCCAGATCCCAGCTGTCGGTTGAGCACAGCTCCTCTGACCCGCAGGCCTCCCACY
CCACTAGCSGACCGTGCCTTCTCCACCTTCCCCTCCTTTGGCTCTGTGGGCGCGTGGCTGGAGGCCCTGGACCTGTGCCGCTACAAGGACAGCTTCRCGG
CTGCTGGCTATGGGAGCCTGGAGGCCGTGGCCGAGATGACTGCCCAGTGAGTCCAAGGCACCRAGGTCAAGGCCGGGGCTGGGGGATTCCACAGGCCCTG
CCCCTGCCTATACTGGGGAGTCCCAACCTGTCCAGAGAAGCGGAGGGAGAGTGGAGGGCCTTCATGGGAGGAGCAGAAGTTGGGGACAAGCCAGCCGAGT
GTGACCAGCCTTTGTTTCAGGGACCTGGTGAGCCTAGGCATCTCTTTGGCTGAACATCGAGAGGCCCTCCTCAGCGGGATCAGCGCCCTGCAGGCACGAG
TGCTCCAGCTGCAGGGCCAGGGGGTGCAGGTGTGAGTGGACCCCATTCTTCCAAGGCAGGACTCCGGTGGGGGTCCAGTCCCCCAGCCCTGCCCAAGGAC
CGTGGCAAGCTGCGCTCCAGCAGTGTGGGAGGGAGCGCTCTCTTCCTCTGCTTGGGCCCAGATCTGGTGGGGCCACAGCTTCCCCGCTTTCACTGCCTGC
CCCTCCCATTTTCACGAGTCTGAACGCCTTGGCTAACTCAGTGCCCCTGAAAAGAGGTTCAAATCCCTAGGGAGGACCCCTGAGATAACAGCAGGAGGAA
ATTCGGGGTCTCAGAGAAAAGCTGGGGCAGGGATGGGAGGGAAGACAGTGGGTTGAGATTGCCCTGGCTCATGCCCTACTGCCATTTGTACCCACTGGGG
GCTGGGGCCTACCCCGTGGGGTGTTCCCTTTTCCCACAGACCCATTGACCAGTCAGACAGCGTGGGTCCTGGGGGGGTCTTCTTCTACCTGGCAGTGACT
GCAGCTGCCTGGTGGCTCAGGCGTCGGGGGCTGGGCCAGAGGTGCATCCACCTCAGCTCCCTGTGCCTTGGCAGGGGCTGACTGGACACTGGCCAAGGCT
CAGGCAGGCAAAGATGGTGCTGAGCTCAGGGGCTGATACCCAAGAGCCCTAGACTCAGGATCTGGTTTCTGTGTCCCCCTGCCTTGGGCTGACAGTTCAG
GGTGAGGCCAAAAGTCCTGGCCAGGCCGGGCCATGAGAGGCCCTGGTGCTCCCTGGGGCCCCATGAGGCCCTCGTGTGCATTCCTTTTATGAACTTAGTG
GCCAGGACATCTGGGAAAAGCATAAAGGGCCATGTTATCTCCCCAGGGACCCAAGAGCTTTTCTCTCCAGCCATGGGGAGGGTGAAGAGGAGACTCAGAG
ATGGGTCCTCTCTCTCAAACAGGCTGGTCTAACCCCCAGTGTACAGATGGGGGAAACTGAGGCCAAGTGAGGAGTCAGGAGCAGAGCTGAGGTCAGAACC
CAATCCAGGGGTAAGGCTGGCTCTGGGGAGAGAGTCCTTGGTCCTGCCCTATGGCACCACCACTTCCCTGTACAGCCCTTGGGGACTCTAGAGGCGACTC
CCCTCCAGCCAGCTCCGTGCCTTGGGCACTACCCAGCCTTCCATGGAGCCCCTCCCTGCTCTGACTTTGAAGAGCCCTGGCAGAAGTGGTTGTGCTGAGC
CCACCGTGGAGTTCCTTATCCACAAGGGCCCCCGGGAATGGTGGGGCCCAGTATGCCAGAGCTTTCGTAGGGTGGCAGGAAGGCAGCTGGATCTCAGCAG
GGCCACAGGGACTGAGTTTGTTTAGGCCGCCCGTGACACTTGTCTGCTCTGCTTGGCTGTGTGTTGGTGGGGTGGGATGGGGCGGGAAAGAGGAGACAAG
AGGTAAAGATGAAAAAGACACACAGCCTGCCCTTGGGGGGCTCAGACTAGACCAGGAGAAGAGCTCAGGTACCAAGAAGTAATTCCAGGGCACCATCCAC
AGTGCCCAGGGCCCCCCAGGAGCCCTCTGGGTCAGTGGGTAGGTGGGCTGGAGGGGGAGATAGCCACTCTCTTAATGTGTGAAGTTGAGATGTAAGTTGA
ACAGGGCCTTGCAGGTGGGAAAGGGAAGGTTCTTTCCTTGGGGTGGGTGGAGTTTTCGGCAGGCAAGATGGCAGGCCTCGGACAAAAGGAGTCCATGCAG
AGAGGCTAGCATGAGAAAGAGCCCAGAGGCGGGAAGGTGCAGTGCATCTTTGCAGAGCACCCAGAGGTGGGGGACAGTGACTCACAGAGGTGCCTTTGGC
CTTACCCTGCCAGCAGCAGCTCCCCTGCTCTTGGAATCTCCCCCAGCCCCCTGCCTCCCTGTCTCCTGAGCACCTGCCCCAGCTCAGTGACTCTGGGGGT
ACTGGGGAGACCATGATGTTGCTACCACCTTAGTCAGGGTTGGGGGAGCCCCCGGCCAGGTGCCCTCCAGGATCCGCCTTCCCCACCCCTCCTGGGAAGC
CTGGACCAGCATCCCTTCTTGGGTGGATGGAGCCTCGTCCTCATCTCCAGCTACATCAGTCATTCTCTGCAGGGCAAAATCTCCTCCCCCTACCCCAGCT
GTTTCTGCAGAAGGGCCCCTGGCTGTGTTGGCAGGACTTCGGTGTCCAGGGTAGATCTCCCCTCCACTGAGGAGTGAGGTCCCAGAATCCTGTTGGGTCC
CAGGCCTCAGCCCTGCACAGATGTGATGTGGGGCGATGGCTCTCTGGGAACCCTCTACAGATCTATTTTTATATGGAACTTGTTCACTGGACAGAGGTGG
CCTGCAAGCCCCCATTACCCTGGTCTGAGCTCACCCTGGGAGGGAGGGGGCCAGTCGGAGGGGGTTCCTTCTGGAGATGTTTTTATATTTCTTGGGTTCT
CTATGCAGGATAATAAAAACTTGTCTGTGATATGGTGCCTCTTTGAGTGGCAGTTGCTTGATCATTGTATAGCTGGTGTGGAAGGGCTTCTGCCCCCTTC
CTCGAGGACAGGGGTGTCCAGAATCTGCGTCTGAGATCTCTCTGCATAGAGGTGAGTCCAACACTGCTCCTGCCGTGAAAGATGTCCCAGGATCCATGGC
AGGACGGTGTGACCCAGGGTACCGAGGGGAACTGGGTGCCCTGGGTATGTAGAGAAGTCTGTTACCCAGTCTCAGGAGCAGTAGAACCAGGGAGGTGTCT
GAGACATGGTGGTGTCCTTTGCTGGGATAGACAGTACCAGGGAGGGCAGAGACCAGGAAAGGTGCTCAGTGCTCAGTTTTGGATATGTGTTTGAGATGCC
TGTGGGATGTGCGGCAGAGATGTCTAGGAGGCAGGTGGATATCTGGTCTGAACCTCGGAGCACAGATGTAAGTTAGAGACAGAGCTTTGGGGTCATCAGC
ATTCAGATGGGGGTAGAAGCCAGGGTGAGAAGGAGGTCACCCGGCCAGCATGTTCAGGAGAGGGGAGACGTCAGTGTTGGGAGGCACCTGGATGAAGGGG
AGCAGTGGGAGATGCCAGGAGGAGCTGTGCCATTGCTGCTGAAGATGAAGTTTTGGTGTTAAATACAGAGAAAAATGGCCGGGTTCGGTGGCTCATGCCT
GTAATCCCAGCACTTTGAGAGGTTGAGGTGGGTAGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAA
ACACATAAATTAGCTGGGTGTGGTGGTGGGTGCCTGTAATCCCAGCTACTCAGGAGGATGACACAGGAGAATCACTTGAACCCAGGAGATGGAGGTTGCA
GTGGGCCGAGATTGTGCCACTATACTCCAGCCTGGGTGACAGAGCAGAAAAACAAATAACAACAACAACAAAAACAGAGAAATCAAGTGAAAGAGGAGGG
AGGAGTGGCTGTCAGTGTGGGCACTGGGCTATTATCAGTGAGTGTATTCATTTGCTTGGGCTACTGTAACACAGCACCTCAGACTGTAACACAGCACCCA
TGGGTTTGCCGACAGGGATTTACTGTCCCACAGCTCTGGAGGCTGGAAGCCAAGATCAAGATGTGCGCAAGGTTGTTTCCTGCTGAGAGCTGTGAGGGGA
GCTTCTGCTCTGGGCCTCTCTCCCCGGCTTGCCTGTGGCCATCTTCCCACTCTCTCTTCGCATCATCTTCCCTCTGTAAGTCCAAATTTCCCCTTTTTAT
GGATGCCAGTCATATTGAACCGGTCCATACCAGCCCACCCTAACATCCTCATTTTAACTTAATCACCCCTTTAAAGGGCCTGTCTCCAAGTACGGTCACC
TTCTGAGTTACTGGGAGTTAGGACTTCAACATAGAGGCCTGGCGGGGGGCACAATTCAACCCGTAACAGCGACCTTTGTTGTCAGGGCAGAAGCCAGATG
AGAGGATTGGGGAGTGGAGTTTGGGAATCTTTGAGGAGTCCAGCAAAAGGAGGAAGAGTGGGCTGAGACAATGACCAGGACAGGCTGCAGGTGTGGGCCA
AAGGCTGCAGGGGCAAGGCCTGAGTGCGCATGCATGTGAACACATATGTACTCATGGACACACGTGCACACACACACTTGGACCACATGAGTCCTTGCAT
GTCTCAGTTGGCTTGCTAGTGCTTCTCCTCTCCCTGGCCCGGGCCATTCATGTTCTTTAGGCTGCGGAAGGCGTCTTCCTCCTCTGCATAGTTCAGGACA
TGCAAAGTGCTTAGGGCAAGGGGTAGGATGGTGGGGATGGTGATAAATAAGACCCCTTCCCCCACTGCCTGTGCTCAGAGCCAGTTAAATACTAATTCCT
TGGGACAGGTGGAGAGCAAAATATCAGCTCTTTGATAAGGCTAACTGGAGAATGTTGCTTACCAAGTTTCTTTGAATCTAAGATGCCATTGAGTGTAAGA
TGTCCTACCAAGAAAGAAACATCACAGCCAACTATGTTGTGCCATCCAACTGAAAGATGCATCCCAGTTTCAGAGATGTTAACATGTACGTCTTCAATAA
ATGAGATGCCGCGCATCAGGGACAAAGTATGTTTCCCATCATTCCCCTGAACTAGACCCACCCAGTCCCAGGCTGAGCCGGGTGGGGCAGACATCCACTG
CAGGGGCAGAACTGTCCCCTCAGCTCCTGCCTGCACGATGGGAGCAGAGCAGGGTGCACCTTTCTTGTGGGCAAGCAGATCTGCAGAAGCCAGATGGCAC
TGAGTCAAGCAGGTTGTTCCTTCTGTCCCTCAATTCCACTTGAGAAGCCACCCTCTGGTGGGGAGGAATGAATGAGGAGTGGGTTAGAGATGTTAGCAGC
ATTGCTCCACTGAAGTCAGCCCCAGGAGAGGCATGCAGCCAGGGAATGCAGGACCCCAGCATTAACACAGTGCCTGGCACACAGAACACAGGAAATGCCC
ACTCGTTATTAGTATTACTATTATTATTATTATTATTATTATTATTATTATTACCTAGCTGGTGTGAGGCACCAGGTAGACATATAACATGTGGTCAGGA
ATGGAACTTCTCTAGGCAGTGGGCCTGCTGATCTGGCTTGACAAGGTATTTGCTCATTCACTGCACATGGACCAGGCACATACTAGATGGCTGGCTCTGG
CAAGTTAAGGCCTTACTGCCCAATGGGCGAGTCAGTTAAGTAAAAAGTACCCACGCCATGGCAATAAGGATGAATTCTAGGTGTTTTGGGGCTCAGGGGA
AGGCTCTGCCTGACTTCATCCCCGAGGAGGTGTGAGCGGGCTCCTAGAGGAAAGTGGGTAGTGTGTTAGCTGTCTTTGGTAGCCAAAGCCTGTGTTCTGG
ACCTTACAGGAGGGCATCTCAGTTCCTAACGTTACCTCTGCCCCACGGCTCAGGATGTGAGTAAAATTCACACTGCACCACCTGCAGCTCTCTTTAAATC
TCTTTGTACCCTTTGCCATTGAAATGGAACTGTCTGCCAGTATCTTGAAAAAATCCTGCTATTTGCAGGATATTTCCCACCACAGTTTACTAGTTGAGCC
CCTTGGGGTCTTTGGGCAACAGAGAGAAGCCAGAAGTTGTTTGGGCTCATGAATGATCTCATGTTGCCTATCAGCATCTTGGGAGCGGATTATGGGTATC
TCGAGCCTAGTTCCAGGGAATATGTTTGATCAAGACTGCTTGTAGAAGTGTAAGAGGAAAATGAAAAAATCAAAACCAAACTTGTTTCCCCATTGCAGCA
CCTTTCCTCCCCTTTCATTTAGGCTTCTCCTGGGCCCCTTTTCCTTCCTCCACCCCACAGCATTCCTTTTTTCTTTTTTTTTTTTTTTTTTTTGAGACAC
AAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGTACCCTCTGCCTCATGGGTCCAAGTGATTCTCTTGCCTCAGTAAGT
AGCTGGGATTATAGGCATGTTCTACCACACCTGGCTGATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCGTTTTGGCCAGGCTGGTCCCGAATCCCTG
ACCTCAGGTGATCTGTCCACCTCGGCCCTCCAAA


SNP Information

Context             (SEQ ID NO:60272):
ACTGGGAGCCTGACATTATCCCCTGACACTGTCTCCAGACCCGCTGGACAGAAGCCGGAAAGGGGCAGGGTGGAAGAATAGATGTCATTGTCATCCATCC
Y
GGGTCACATGGGGTTTGATGGCAGTCGGCGTGCTGGCATGTGCCCTGTCCTTTCTTTAAGGCTTGGAAACCTCCCCCCACTGAGGAAGGCAGAGAGGAAT
Celera SNP ID:            hCV9644603
SNP Position Genomic:     49250
SNP Source:               Celera
Population(Allele,Count): cau(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60273):
CTTTCTTTAAGGCTTGGAAACCTCCCCCCACTGAGGAAGGCAGAGAGGAATCCCCATTTCACAGAGGAGACAGGCCAAGAAAAGGAAAGAGATGGAATTC
R
AGGTCACACTGCTGGTACTCAGTTTACCAGGATTTAAGCTGGAAACAGTCCATGATCTGGAGTCACTTTTTTTTTTGAGACCGAGTCTTGCTCTGTCACC
Celera SNP ID:            hCV9644604
SNP Position Genomic:     49400
SNP Source:               Celera
Population(Allele,Count): chn(G,3)   cau(G,3|A,1)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60274):
TGTATCTGTGCCATGGGGAGGTCGTCAAACCACAGAGAAGCTTTTAAACCAGCTGGACAAGAAGTTCCCTCCCCCAGGGCACAGGCCTTGTCTTTTGAAG
R
GACAAAGAGGTGCTGCCCTCAGTGCTCTGTAATGGGAAGGGCCGGGGTGGCCTGGCTGAAAGAATGACCCTGAACTCCCTGCCAGGCCCTGCAGCTATGG
Celera SNP ID:            hCV25956861
SNP Position Genomic:     48149
SNP Source:               Applera
Population(Allele,Count): afr(A,2|G,34)   cau(G,38)   total(A,2|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:60275):
GGTCTTGGCATAAATGCGAGTGAACCCCACCTTGAGGTCAGCTTTTCTGTCTTTCCCAGATGTGAAGCTGGAGTTGGGGGTTGCCTGGGAGGATGACATG
Y
AGGCTGGATCTGGGGCTCAGTGGGGTGGGGAAACCTGCGTGTCACCCAGTTCCTCCTTGCCCCTGACCTGCCTGCCCCTACAGAGTGGCCGGAGCCCAGC
Celera SNP ID:            hCV3122280
SNP Position Genomic:     51465
SNP Source:               Applera
Population(Allele,Count): afr(C,32|T,4)   cau(C,32|T,4)   total(C,64|T,8)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): afr(C,26|T,2)   cau(C,22)   total(C,48|T,2)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): cau(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60276):
TGGTCTTGGCATAAATGCGAGTGAACCCCACCTTGAGGTCAGCTTTTCTGTCTTTCCCAGATGTGAAGCTGGAGTTGGGGGTTGCCTGGGAGGATGACAT
K
CAGGCTGGATCTGGGGCTCAGTGGGGTGGGGAAACCTGCGTGTCACCCAGTTCCTCCTTGCCCCTGACCTGCCTGCCCCTACAGAGTGGCCGGAGCCCAG
Celera SNP ID:            hCV3122281
SNP Position Genomic:     51464
SNP Source:               Applera
Population(Allele,Count): afr(G,30|T,4)   cau(G,28)   total(G,58|T,4)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): cau(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60277):
AGCTAGGTGACCGCCCTGGTGTCACACAACACCAGGGGATCCAAGCGCACAGCCCTGGCCTCAGTCTTCTCCCTCCACAGCGGCACGAGGGGCAGCTGGT
S
GCTGGGCAACTGATGGGGTTGCTGCCTGGGCTGGCATCAGCCATGAAGTATCTGTCAGAGATGGGCTACGTTCACCGGGGCCTGGCAGCTCGCCATGTGC
Celera SNP ID:            hCV3122282
SNP Position Genomic:     51073
SNP Source:               Applera
Population(Allele,Count): afr(C,3|G,35)   cau(C,4|G,34)   total(C,7|G,69)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): cau(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60278):
GAAGCAGGTCCTTCTGCCTCTAAATGCTCTCTTATGTCTCCAAGCTGCAGCAAGTATAGAAAGAGCCTGGAGGATTAGAGCCGACCACCATGAGAGAAGC
Y
GGGCTGTAAGGGGTGGGCAAGCAGCAGAAGGCCTAATGCTTTTCCCTCTATGGGACAATGAAGAAAAGGGCTGTGGGGGCAGAGGTGCTTCTTTCCTCTG
Celera SNP ID:            hCV937710
SNP Position Genomic:     35925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60279):
CGGGCAGGGGTCCCTCACTTTTCTCTTTGGTAGGGCTTGGAATTGGCATCATCCCCACTGGCCGGGCTGACCTGTGGTCACAGGGTGAACTAAAGCCTGG
Y
GAGAGCTAGGTGACCGCCCTGGTGTCACACAACACCAGGGGATCCAAGCGCACAGCCCTGGCCTCAGTCTTCTCCCTCCACAGCGGCACGAGGGGCAGCT
Celera SNP ID:            hCV3122283
SNP Position Genomic:     50969
SNP Source:               Celera
Population(Allele,Count): cau(T,8|C,1)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60280):
GACCATTGGAATCGTTAAGAAGCAGGTCCTTCTGCCTCTAAATGCTCTCTTATGTCTCCAAGCTGCAGCAAGTATAGAAAGAGCCTGGAGGATTAGAGCC
R
ACCACCATGAGAGAAGCTGGGCTGTAAGGGGTGGGCAAGCAGCAGAAGGCCTAATGCTTTTCCCTCTATGGGACAATGAAGAAAAGGGCTGTGGGGGCAG
Celera SNP ID:            hCV937711
SNP Position Genomic:     35907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60281):
TGGTGTGGGAGTTTGGAGTGCCCCTGCCTCTCCAGGTCCTTCCCTCAGCTATGGGAGGGAGCTTCAGCCAGGGACCTCAGCTTTCACTGACTCAAGGCGG
Y
CCTTCTCCTGGAGCGGCCACTCTGGCTCAGAATGACCTTTCTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAG
Celera SNP ID:            hCV3122284
SNP Position Genomic:     50106
SNP Source:               Celera
Population(Allele,Count): cau(T,2|C,3)   his(C,3)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60282):
ATTTTAGGATGTTTTTTCTATTTCTGCAAAAAATGCCTGGGATTTTGATAGGATTGCATTAAATCTGTAGATCACTTTTGGTAGTAGAGACATTTTAACA
R
TATTAAGTGTTCTATTCCATGAACACAGGATGCCTTTCCAATTATTTGTGTTTTATTTCATTTCTTTCAGCAATATTTTATAGTTTTCTGTATAAAAGTC
Celera SNP ID:            hCV937712
SNP Position Genomic:     34603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60283):
GGCGGTATCTGAGGTGCTGTTTCCCCACAGGGCGGTTTGGGGAGCTGTGCTGTGGCTGCTTGCAGCTCCCCGGTCGCCAGGAGCTGCTCGTAGCCGTGCA
Y
ATGCTGAGGGACAGCGCCTCCGACTCACAGAGGCTCGGCTTCCTGGCCGAGGCCCTCACGCTGGGCCAGTTTGACCATAGCCACATCGTGCGGCTGGAGG
Celera SNP ID:            hCV3122285
SNP Position Genomic:     49832
SNP Source:               Applera
Population(Allele,Count): afr(C,13|T,25)   cau(C,8|T,32)   total(C,21|T,57)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,3)   cau(C,4)   his(T,3)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60284):
CCATGATTGTGTTGACTATTCATGGTCCTTTTAGATTCCATATGAATTTTAGGATGTTTTTTCTATTTCTGCAAAAAATGCCTGGGATTTTGATAGGATT
R
CATTAAATCTGTAGATCACTTTTGGTAGTAGAGACATTTTAACAGTATTAAGTGTTCTATTCCATGAACACAGGATGCCTTTCCAATTATTTGTGTTTTA
Celera SNP ID:            hCV937713
SNP Position Genomic:     34558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60285):
GCCTCTGGCGGTATCTGAGGTGCTGTTTCCCCACAGGGCGGTTTGGGGAGCTGTGCTGTGGCTGCTTGCAGCTCCCCGGTCGCCAGGAGCTGCTCGTAGC
Y
GTGCATATGCTGAGGGACAGCGCCTCCGACTCACAGAGGCTCGGCTTCCTGGCCGAGGCCCTCACGCTGGGCCAGTTTGACCATAGCCACATCGTGCGGC
Celera SNP ID:            hCV3122286
SNP Position Genomic:     49826
SNP Source:               Applera
Population(Allele,Count): afr(C,34|T,4)   cau(C,37|T,3)   total(C,71|T,7)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(T,3|C,4)   his(C,4)   total(C,12|T,3) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60286):
CCGGGAACAGTGGCTCATGCCCTTAGTCTGAGCACTTTGGGAGCCTGAGGCCAGGAGCAATATAGTGAGACCCTGTCTCTACAAAAAATTTTAAAAATTA
S
CCAGGCATGGTGATGTGTGCCTGTAGTACCAGGTGCTCAGGAGGGTGAAGGAGGAGGATCAGTTGAGCCCAGGAGTTTGAGGCTGCAGCGAGTGATAATT
Celera SNP ID:            hCV554166
SNP Position Genomic:     20380
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60287):
TTGGGAGGCCGGGGTGGGCGGATCATGAGGTCAGGAGATGGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCT
R
GGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAAGTGGAGCTTGCAGTGAGCCGAGATCCCG
Celera SNP ID:            hCV937714
SNP Position Genomic:     31141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60288):
ACTACAGGGGCATGCAGCCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGAGCTCG
K
GATCTGTCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCTACCAATATGGATTTCTTTTGATTGAGTAAACCTTTTGA
Celera SNP ID:            hCV554167
SNP Position Genomic:     20137
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60289):
CTGAGCACTCGCTCAGTCCCTCATAACACATTACTTCATAAAATTCCCACAGCAAGCCTAGGAGGTGTCATCATTGTTCTCATTTTACACACGGGGAAAC
Y
GAGGCTCAGGGAGTAAGATCACTTGCTTGTGGACCAATAGTGGGCTAACCACTGGAAAAGTCAGGAGGGAACCTTCCTAAATGTTCTCTTCCCTGGGCTT
Celera SNP ID:            hCV937715
SNP Position Genomic:     30482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60290):
CGCGTCTGGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAACTGGGACTACAGGGGCATGCAGCCACACCCGGCTAATTTTTTGTATTTTTAGTA
R
AGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGAGCTCGTGATCTGTCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCC
Celera SNP ID:            hCV554168
SNP Position Genomic:     20086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60291):
TCCCCAGCTAACTTCTTTTGTTGGCCAGAACTGGATTGTAAGCCCAACCCTAAACCATTCACTGGCAAAGGGAATGAGTGCACACAAATGTCTTAGAACA
R
CCAGAAGTTACCCAAGTCACCTATGGGGAGACAGTAGACTATGAACCAAAAATTCAGCTCAGCTAGCAGGAAAGGGGGACAAGGCTGTTGACTAGGTTTC
Celera SNP ID:            hCV937716
SNP Position Genomic:     29278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60292):
AAGACCCCCATCTATGCCTCTCAAAGCTCATCACATAGGCTGGTTCCCTCATGGTAGCAAGGTGGCTGCAGCAGCTCCAGACATCACATCCTTACCATTC
R
GAGGCAGAAAAAGAACTGTTTCTTCCTTGCAGGTATCTTTTTAAAAGCAAGAAACTTTTCTCTGAATCCCCTGTCCCCAGCTAACTTCTTTTGTTGGCCA
Celera SNP ID:            hCV937717
SNP Position Genomic:     29104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60293):
TGGCTTTCACTTTATTGAGAATAGCCTTTCAATCACAAAAGCTTTTAGTTTCTTTTTTTTTTTTCCCCAAGATGGAGTCTTGCTCTGTTGCCCAGGGTGG
M
GTACAGTGGTGCAATCTTGGCTCACTGCAACCTCTACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGTGCACAC
Celera SNP ID:            hCV937718
SNP Position Genomic:     27140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60294):
TTCTCCCTGTGTCTTCACATCATCATCTCTCTAGGTGTTTTTCTCTGTGTTCAAATTCTTCTTTTCATGAAGATGCCAGTCATATTGGATTAGGGCCCAC
M
CTAATGACCTCATTTTAACTTGATTACCTCTGTAAAAATAAGATCACATTCTGAGATGGGAAGTGGTGGTTGGGACTTCAACATATCTTTTTTGGAGACA
Celera SNP ID:            hCV937719
SNP Position Genomic:     26874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60295):
GGTTTCCACCTGGCCTTTCAGGACGTGGGCGCATGCGTGGCGCTTGTCTCGGTGCGCGTCTACTACAAGCAGTGCCGCGCCACCGTGCGGGGCCTGGCCA
M
GTTCCCAGCCACCGCAGCCGAGAGCGCCTTCTCCACACTGGTGGAAGTGGCCGGAACGTGCGTGGCGCACTCGGAAGGGGAGCCTGGCAGCCCCCCACGC
Celera SNP ID:            hCV25961695
SNP Position Genomic:     9560
SNP Source:               Applera
Population(Allele,Count): afr(A,3|C,35)   cau(C,40)   total(A,3|C,75)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60296):
GCAGTGGCCTCTGGCGGTATCTGAGGTGCTGTTTCCCCACAGGGCGGTTTGGGGAGCTGTGCTGTGGCTGCTTGCAGCTCCCCGGTCGCCAGGAGCTGCT
Y
GTAGCCGTGCATATGCTGAGGGACAGCGCCTCCGACTCACAGAGGCTCGGCTTCCTGGCCGAGGCCCTCACGCTGGGCCAGTTTGACCATAGCCACATCG
Celera SNP ID:            hCV25961769
SNP Position Genomic:     49820
SNP Source:               Applera
Population(Allele,Count): afr(C,37|T,1)   cau(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60297):
GAGGTTTGTACGTGGTAAAAATTTTTAAACTATTTCATGGCTACTTTAAAACAATGTGCACTATTTTATGGTGTAGTTCTTTCTCTCTCTGTCTTTATAT
T
TCTATATCTATCTATATATACACAGATGTTCCTCAACTTAATGACGGGCTTATGTCCCATTGGGCTTATTATAAGTTGAAAATATTATAAGTCAAAAATG
Celera SNP ID:            hCV9644323
SNP Position Genomic:     27862
SNP Source:               Celera
Population(Allele,Count): cau(-,2|T,1)   total(T,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60298):
GGAGTTGCAATAATTTTCACCATGTGAAAGTAGCTAGGGATGGTGGTGGTGGTGACGGTTTGGTCTAGGGCTACGGTTGTATCTGTGCCATGGGGAGGTC
R
TCAAACCACAGAGAAGCTTTTAAACCAGCTGGACAAGAAGTTCCCTCCCCCAGGGCACAGGCCTTGTCTTTTGAAGGGACAAAGAGGTGCTGCCCTCAGT
Celera SNP ID:            hCV25957458
SNP Position Genomic:     48072
SNP Source:               Applera
Population(Allele,Count): afr(A,3|G,31)   cau(A,3|G,35)   total(A,6|G,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:60299):
GCCAGCAAGGCCCTGCCCCTAGGGGCCCCAAGTACCGGCCTGTGGCTTTGTTGACTGTGATGCAGTCCTTTGGCCCGTGGCTGCCTCTGTCTCAGGAAGC
S
CTCCACAATGACCTTGGATCAGGTCAGGCCTGTCTGTCCCGTGTCCCAACAGTACAGCACCTTTCTCCTTTGCCAGCACTGGTGAGTGGGCTTGTGGCTA
Celera SNP ID:            hCV3122290
SNP Position Genomic:     47734
SNP Source:               Celera
Population(Allele,Count): cau(G,6|C,5)   afr(C,5)   total(G,6|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60300):
ATTGCACTCCTCTGCTTCAACCCCACAGGGGCTCTCCTCTGCTCCCAGAATAAAAGCCAAAGTCTTTATCTTGGCCAGCAAGGCCCTGCCCCTAGGGGCC
Y
CAAGTACCGGCCTGTGGCTTTGTTGACTGTGATGCAGTCCTTTGGCCCGTGGCTGCCTCTGTCTCAGGAAGCCCTCCACAATGACCTTGGATCAGGTCAG
Celera SNP ID:            hCV3122291
SNP Position Genomic:     47661
SNP Source:               Celera
Population(Allele,Count): cau(T,7|C,7)   afr(C,7)   total(C,14|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60301):
TTCTCAGACTCCATCCTCTCCCTGGGCCATGCTCATTGCTCCTGATTTGTATCTGCAGAGCAGGCCTCTCTTCCAAGCTCCAGACACACACACACACGTC
R
AACGCCCGTCTTATCTTCCCTGCTTATCCCCCAGGCCTGCAAACTCAGATGTCTAAATGTGAACTTTTTGTCTCCTCATCCCAGTAAATGGCACCACCAT
Celera SNP ID:            hCV3122292
SNP Position Genomic:     47247
SNP Source:               Celera
Population(Allele,Count): chn(G,7)   cau(G,7|A,3)   afr(G,7)   total(G,21|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60302):
CTTGGTGTTCCTTGGCTCGCAGACGCATCACTCTAGTCACATGGCTGTCTTCTCCCTGTGTCTTCACATCATCATCTCTCTAGGTGTTTTTCTCTGTGTT
Y
AAATTCTTCTTTTCATGAAGATGCCAGTCATATTGGATTAGGGCCCACACTAATGACCTCATTTTAACTTGATTACCTCTGTAAAAATAAGATCACATTC
Celera SNP ID:            hCV937720
SNP Position Genomic:     26825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60303):
TAGCTTGCCCACTTCTCACCAGACCGTGTGGTCCAGTGGAAGCCTCTCTCCTCTCCTCACCACGCACCCTCTTTCGCTCCTCCATCCACTCAGCCTTCCC
S
CCTTCATCTCCACCCATCTCTCCTGGATGTTGCTCCTCATTCGTGGAAGTCCTGTCACCACCCTGGGTGACTTCAGTAGCTGCCAGACAGCCTGTCCCAT
Celera SNP ID:            hCV3122293
SNP Position Genomic:     45881
SNP Source:               Celera
Population(Allele,Count): chn(C,1)   cau(G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60304):
CCTCCAGGCTGCACTGCGGAGGGTGGGGGGTGGGAGTGGCCAAGAAGGAAGGCCTGATCCAGGTGGTGGTGAGGGCAGGGTCTCCGCACTGGGGCGCACG
K
GGGCGGATATGGGGACCAGCGCCCCGGAAGGCGGCGTACGGGGGAGCGGAGCCTGGACGCGCCCTGGGGGCCGGGGCCTTTGATGAGAAGAACCAGGACA
Celera SNP ID:            hCV25965117
SNP Position Genomic:     17049
SNP Source:               Applera
Population(Allele,Count): afr(T,32)   cau(G,4|T,32)   total(G,4|T,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:60305):
GCTTGAAAGCCACCTTTGTTATTAAAGGTCTGTGGTTTCTTTTTATGGTAACCTGAGCTGACTAATACATATAATAACTTTTTAACTTTTTGAGGAATTA
Y
CAACTTTTTCAAAGCAGCTCTACCATTTTGCATTCCTACCTGCAAAGTACAAGGGTCCAAGTTTCTCTGCCTCCTCACCAATACTTGTTATTGTTTGTCT
Celera SNP ID:            hCV937721
SNP Position Genomic:     26297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60306):
AGGGGTAGAGAGGTGTTCTCCTCCAGCATGCATGTCCCAGCCTGGTGGGCTGTCTGCAGCACCTCTCACACCGTCCTGGGTGTAGTACCTGCTCTGCGCC
R
TGGTCCCTCACCTCCAATTTCCCTCCTCTCCAGTCCACCCTAGCTTGCCCACTTCTCACCAGACCGTGTGGTCCAGTGGAAGCCTCTCTCCTCTCCTCAC
Celera SNP ID:            hCV3122294
SNP Position Genomic:     45740
SNP Source:               Celera
Population(Allele,Count): chn(A,4)   cau(G,1|A,4)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60307):
TGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGTAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCGGTAAACCGAGGTCGTGCCATTGC
R
TTCCAACATGGGCAACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGGGAGAGACACCACAGCTCACTCACTCTTTGTCC
Celera SNP ID:            hCV937722
SNP Position Genomic:     25613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60308):
GAGTGAGCCCAGTCTAGTGTGGAGGGGTAGAGAGGTGTTCTCCTCCAGCATGCATGTCCCAGCCTGGTGGGCTGTCTGCAGCACCTCTCACACCGTCCTG
K
GTGTAGTACCTGCTCTGCGCCATGGTCCCTCACCTCCAATTTCCCTCCTCTCCAGTCCACCCTAGCTTGCCCACTTCTCACCAGACCGTGTGGTCCAGTG
Celera SNP ID:            hCV3122295
SNP Position Genomic:     45718
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(T,3|G,2)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60309):
ATTATGTTACCTCCAGATTCATGTGTTAAAACCCTAAACCCCAATGTGACTATATTTGGAGAGAGTCTCTTTAAGGAGGTAATTAAGGTTAAATGAGATA
Y
AAGGGTGGGCCCTAATCCATTAGGACTGGTATCTCTATAAGAAAAGGGAGAGACACTACCCGGTGTGGTGGCTCACGCCTGTAATCCCAGGACTTTGGGA
Celera SNP ID:            hCV937723
SNP Position Genomic:     25313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60310):
GCTTGCAGGAGGGTGAGCAGAGAAAGGGGATAGGAGGAAGACATAGAGCTTGAGTATGGTTCAGAGAAGATTCTAGTCCTTTTGCAGGCAGCAGAGGCCT
Y
CTGCCATGTATCCTCCCCTTCTCCCCAGGGCCACACTCTGCTGCAGGCAGAGTCGCCCAGATGGGTCCCAGGCTGGGCGGGCTGGGGAGCCACATCTCAG
Celera SNP ID:            hCV3122296
SNP Position Genomic:     45080
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,4|C,7)   afr(T,4|C,7)      total(C,14|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60311):
GGGAAAAGACAGAAATCTTGTGTATGTATGTGTGTGGGAGGGGCAGGACAGGGAGGGCAATTCATAAAGCAGAAACCTCCCACCCCCAGCAGAAAGAAGC
Y
TGCAGGAGGGTGAGCAGAGAAAGGGGATAGGAGGAAGACATAGAGCTTGAGTATGGTTCAGAGAAGATTCTAGTCCTTTTGCAGGCAGCAGAGGCCTCCT
Celera SNP ID:            hCV3122297
SNP Position Genomic:     44982
SNP Source:               Celera
Population(Allele,Count): cau(T,4|C,4)   afr(T,4)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60312):
CCATCCCTGGGCACAGGAAGCACCTTGATGATTGTCACCGAGTACATGAGCCATGGGGCCCTGGACGGCTTCCTCAGGGTGAGTGGCCCTGGGGCTGCCA
R
TGACCACTTTATTCTGTAAAGCGGGCAGGGGTCCCTCACTTTTCTCTTTGGTAGGGCTTGGAATTGGCATCATCCCCACTGGCCGGGCTGACCTGTGGTC
Celera SNP ID:            hCV25972338
SNP Position Genomic:     50847
SNP Source:               Applera
Population(Allele,Count): afr(A,37|G,1)   cau(A,40)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60313):
GCATGCATCATCCCGGCCCCTCCCCCCAGCTCACTGTTCATGTGGCAGCCAGCACTGCAGCTAGCTCAGCTGCTCTGGGATGAAGGGGATTTAGCGCCTT
R
ACTCATTAAATGTCAGAAGGCATCACTGAGGAAGGAATCAAGCTCCGGCTGCTCCAGTGTGATTAGAATTCTCCGGAGGAGCTCAGAGGCCCCCAGCCCC
Celera SNP ID:            hCV3122298
SNP Position Genomic:     44741
SNP Source:               Applera
Population(Allele,Count): afr(A,29|G,3)   cau(A,25|G,1)   total(A,54|G,4)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): cau(G,2|A,3)   afr(A,3)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60314):
AGGCATCTCTGCCCACTTTGCACACACGCAGATTTGCACCTGCAAGCACACTGCTGTACAAATGTAGGCATGCATCATCCCGGCCCCTCCCCCCAGCTCA
Y
TGTTCATGTGGCAGCCAGCACTGCAGCTAGCTCAGCTGCTCTGGGATGAAGGGGATTTAGCGCCTTAACTCATTAAATGTCAGAAGGCATCACTGAGGAA
Celera SNP ID:            hCV3122299
SNP Position Genomic:     44674
SNP Source:               Applera
Population(Allele,Count): afr(C,30|T,4)   cau(C,21|T,3)   total(C,51|T,7)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): cau(T,2|C,4)   afr(C,4)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60315):
CTGAGGAGAGCGCCCCTCCGCTGCCCTCTCCTCACCCTGCCTACCCTCCAGCCGAAAGGGGGGCTCCCGACCTTCGCACCATCGGTTCGGTCCCCATGCT
S
CCATCCTCGGTTCCTCACTAACCTCCTCCCAAATCCTCACCAACTGCCCCGCCACTCTCACATTCCGACCTCCCAAGGGCCCCCACGCCCCCGTCTCTGA
Celera SNP ID:            hCV9644261
SNP Position Genomic:     17298
SNP Source:               Celera
Population(Allele,Count): cau(G,2|C,1)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60316):
ATGCCTCTCAGTCAGTTCCCTAGCCCCGCCCACAGCCCGTTAGACCACGCCCCAGGCCTCTCTAGTCCGGTCCCACAGCCCCGCACGCCGCACCCTCTTC
S
CCGCACCCCCAGCCCTGCCGTGAGGTGGGTCAAGGTGGAGAATCCCACGTAACTTACTTTCAGCGCCCTGGGAGGAGGATGAGATCCGCAGGGACCGAGT
Celera SNP ID:            hCV25995420
SNP Position Genomic:     36152
SNP Source:               Applera
Population(Allele,Count): afr(C,34)   cau(C,30|G,2)   total(C,64|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:60317):
AACTGAGGCCGACCTGGGCCGTGGGCGTCCCCGCCTAGGCGGCAGCCGGCCCCGCAAAATCGACACGATCGCGGCGGACGAGAGCTTCACGCAGGGCGAC
M
TGGGTGAGCGCAAGATGAAGCTGAACACAGAGGTGCGCGAGATCGGACCGCTCAGCCGGCGGGGTTTCCACCTGGCCTTTCAGGACGTGGGCGCATGCGT
Celera SNP ID:            hCV25990847
SNP Position Genomic:     9397
SNP Source:               Applera
Population(Allele,Count): afr(C,20)   cau(A,1|C,23)   total(A,1|C,43)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60318):
TTTGCAAGAAAGATAAGCGAGTGGTATGGTTTCTGACTCCCTTCCTAATCGAGCCTATAGGGTCGGCCTGTCACCCTGCATCCCTGCTTTCTGTGATCCC
R
CTTCTGTCTTTGGCAGTGGTGTTGCCAAGAAGTCTGAGGCTAGGGTTATTTTCATTCTTTTCTACTTAACTTGGACATATGACATGTACACGTATGCACA
Celera SNP ID:            hCV3122372
SNP Position Genomic:     19087
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,1)   his(G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60319):
GCGGAGGGTGGGGGGTGGGAGTGGCCAAGAAGGAAGGCCTGATCCAGGTGGTGGTGAGGGCAGGGTCTCCGCACTGGGGCGCACGTGGGCGGATATGGGG
R
CCAGCGCCCCGGAAGGCGGCGTACGGGGGAGCGGAGCCTGGACGCGCCCTGGGGGCCGGGGCCTTTGATGAGAAGAACCAGGACAACTGCGAGAGTCCAG
Celera SNP ID:            hCV3122373
SNP Position Genomic:     17064
SNP Source:               Applera
Population(Allele,Count): afr(A,16|G,14)   cau(A,23|G,11)   total(A,39|G,25)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60320):
CTGACTGTTTTTCTATCGCAATTGGAGGAGATAAACGCTGCCCTAACCAGGCCAGTCAGGAAAGCGGGGAGAAACTGGAGGAGCCCCCTCTTCTCACCAG
Y
CATGCCCTGCAGCCTGTCCCCCAGGGTTTTACAAGGTGTCCCCGCGGCGGCCCCTCTGCTCACCGTGCCCAGAGCACAGCCGGGCCCTGGAAAACGCCTC
Celera SNP ID:            hCV3122374
SNP Position Genomic:     16770
SNP Source:               Applera
Population(Allele,Count): afr(C,38)   cau(C,35|T,1)   total(C,73|T,1)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): cau(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60321):
GGGTTGTTCAGGAGTCACTCCACGGGGCAGTGCTGACTGGAGTGGCTGAGTCCCCTGACTGTTTTTCTATCGCAATTGGAGGAGATAAACGCTGCCCTAA
M
CAGGCCAGTCAGGAAAGCGGGGAGAAACTGGAGGAGCCCCCTCTTCTCACCAGCCATGCCCTGCAGCCTGTCCCCCAGGGTTTTACAAGGTGTCCCCGCG
Celera SNP ID:            hCV3122375
SNP Position Genomic:     16716
SNP Source:               Applera
Population(Allele,Count): afr(A,2|C,32)   cau(A,4|C,22)   total(A,6|C,54)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): cau(C,3|A,1)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60322):
CACCCCACTAGCGGACCGTGCCTTCTCCACCTTCCCCTCCTTTGGCTCTGTGGGCGCGTGGCTGGAGGCCCTGGACCTGTGCCGCTACAAGGACAGCTTC
R
CGGCTGCTGGCTATGGGAGCCTGGAGGCCGTGGCCGAGATGACTGCCCAGTGAGTCCAAGGCACCGAGGTCAAGGCCGGGGCTGGGGGATTCCACAGGCC
Celera SNP ID:            hCV11263916
SNP Position Genomic:     52897
SNP Source:               Celera
Population(Allele,Count): cau(G,9|A,1)   afr(G,9)   his(G,9)   total(G,27|A,1) 
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60323):
CTTTACTTCCAGTTGGGAATTTATGACACACTCACTCACATGATGGTGGTGGGAGGGTGTGTGTGTGTGTGTGCATGTATGCTTGTGTGTCTGTCCCTGC
R
TAACTGTGGAACAGCTCTTGGGGCACCTCTCCTCCCCTCTCTTTCTCACACCAGCACTGCAGAGTTTGACTTATTTTCTTCCAGTGGTCCTGAGGGTGGT
Celera SNP ID:            hCV3122377
SNP Position Genomic:     15851
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,3|A,2)   afr(G,3)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60324):
GATTATCTCTGAAGGTCTGACCTTGAAGAGAGGGAGGGGCTGGCAGTCAGGAATCCCTGAATCTGCTCTTCAGCACAAACTCCTTCTAAGCAGAGCCTCT
Y
ACAGCAGAGATACCACTGTGGTCGCTGATGGGCCCACCCACCTCTAGGACAGCAGCCACCCTCATACACTTGTGGGGAGGGAGCCTCCAGCATTCTTCCC
Celera SNP ID:            hCV3122379
SNP Position Genomic:     14706
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,1|C,1)      total(C,1|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60325):
CTTCACCATGTTGGCCAGGCTGGTCTCAATCTCTTGACTTCAGGTGATCTGCCCCCTCGGCCTCTCCAAGTGCTGGGATTACAGGCAAGAGCCACCGCGC
Y
CAGCCTATATATCTTTTTTGAAGAAATGTCTACTCAAGCTGGTCTGAGTGCAGTATTGTTTACAACTAACTGATCACAACCAGTTATAGATTTCTTTGTT
Celera SNP ID:            hCV15931734
SNP Position Genomic:     33515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60326):
CACGCGGAAGCTGCCTAAAGAGGTGTACTTTCCAATCTCAGTTCAGTCTTCAGGGCCACTTAGTACTTTTCCCATTCCTAATAGTTATGCCAAACCTTCA
S
CTCTCTCAAGCACCTCTTCTCCATCCTCACTCCCACCTCAGCAGACACCCTCATTCCTTTTCTTCTTAGGCAGGAACTCTCTCCACTGCTCCCTGTCACC
Celera SNP ID:            hCV3122300
SNP Position Genomic:     43184
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   afr(C,1)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60327):
TGGGCACCTTGCTGCACCCACCTGCTAGTCCCCAGACTTGGACCTTTCTCCTCCCTGTGTCCCACGCGGAAGCTGCCTAAAGAGGTGTACTTTCCAATCT
Y
AGTTCAGTCTTCAGGGCCACTTAGTACTTTTCCCATTCCTAATAGTTATGCCAAACCTTCACCTCTCTCAAGCACCTCTTCTCCATCCTCACTCCCACCT
Celera SNP ID:            hCV3122301
SNP Position Genomic:     43122
SNP Source:               Celera
Population(Allele,Count): cau(T,3)   afr(C,1)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60328):
GCGCTTGCCACCATGACCAGCTAATATTTTTACTTTTTGGGGGTCTCACTATGTTGCTCAGGCTGGTTTCGAACTCCTGGGCTCAGGTGATCCCTCCACT
Y
GGCCTGCCAAAGTGCTGGGATCACAGGTTTGAGCCACTGCCCCCCGCCTTCCAAAGCAGGATCTTTTTCTTTTTTCTTTTTTTAAAAAGAGCGATGGAAT
Celera SNP ID:            hCV3122302
SNP Position Genomic:     41959
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(C,5)   afr(T,1)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60329):
AGCTGAGACCACAGGCGCTTGCCACCATGACCAGCTAATATTTTTACTTTTTGGGGGTCTCACTATGTTGCTCAGGCTGGTTTCGAACTCCTGGGCTCAG
R
TGATCCCTCCACTCGGCCTGCCAAAGTGCTGGGATCACAGGTTTGAGCCACTGCCCCCCGCCTTCCAAAGCAGGATCTTTTTCTTTTTTCTTTTTTTAAA
Celera SNP ID:            hCV3122303
SNP Position Genomic:     41945
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(G,4)   afr(A,1)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60330):
TTCCAGGCTTAAGTGGTCCTCCCACCTCAGCTTCCCAAGTAGCTGAGACCACAGGCGCTTGCCACCATGACCAGCTAATATTTTTACTTTTTGGGGGTCT
Y
ACTATGTTGCTCAGGCTGGTTTCGAACTCCTGGGCTCAGGTGATCCCTCCACTCGGCCTGCCAAAGTGCTGGGATCACAGGTTTGAGCCACTGCCCCCCG
Celera SNP ID:            hCV3122304
SNP Position Genomic:     41905
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(T,2|C,4)   afr(C,4)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60331):
GGGGTGACACATCTCACATACGAGTGTGAATCCCCAATCATCACACTTGCAAACTACAAAAGGATCACATTTTTAAAAATTCAGTATAGAAGAAGAAAAA
A
CCCATAATCTTATTACATAGATAAAAACAACTATTAATATCTTAGAGTATATACGTCCAGAAAATTTTTCCTGTCTATCTTGATCTCTGTATTCATATTT
Celera SNP ID:            hCV11267487
SNP Position Genomic:     20962
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(-,7|A,2)   his(-,7)   total(A,4|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60332):
CAACTCTCAACCTCATGATCTGCTGGCCTCAGGCTTCCAAAGTGCTGGGATTACAGACGTGAGCCACTGCGCGCCTAGCCAGACTTTCTTTTTTTTTTTT
T
GAAATGGAGTTTTGCTCGTCACCCAGGCTGGAGTGTGGTGGTGTGATCACAGTTCATGGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAG
Celera SNP ID:            hCV11267488
SNP Position Genomic:     19553
SNP Source:               Celera
Population(Allele,Count): chn(-,5)   cau(-,5|T,1)   his(-,5)   total(T,1|-,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60333):
CCCCAGTGGTGGAGGCCCCATTCCTCAGGCTCATCTCTTTCTCTCCCAGTCAAAGTCCCAACACGTCGCACATTCCTGGACCCCCAGAGCTGTGGGGACC
Y
GCTGCAGGCTGTGCATCTGTTCGCCAAGGAACTGGATGCGAAAAGCGTCACGCTGGAGAGGAGCCTTGGAGGAGGCAAGCTGGGCGCCCAGGAAGCCTTG
Celera SNP ID:            hCV25961208
SNP Position Genomic:     48492
SNP Source:               Applera
Population(Allele,Count): afr(C,4|T,34)   cau(C,5|T,35)   total(C,9|T,69)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60334):
GGCTGGAGTGTAGTGGCACAATCACAGCTCCCTGCAGCCTCAACTTTCCAGGCTTAAGTGGTCCTCCCACCTCAGCTTCCCAAGTAGCTGAGACCACAGG
Y
GCTTGCCACCATGACCAGCTAATATTTTTACTTTTTGGGGGTCTCACTATGTTGCTCAGGCTGGTTTCGAACTCCTGGGCTCAGGTGATCCCTCCACTCG
Celera SNP ID:            hCV3122305
SNP Position Genomic:     41860
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,5)   afr(C,5)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60335):
CATTGGGTACCTCTCAGATAGTAGAGACTGCTGAGATCCCCAGTCTCCCTTCTTGTGGCCCTGGCTATGGTTCTCCCAATCTGCAGAGTGTGGTTTCCCA
Y
GAGCTGTGTCTCCAAATTGAGATTTTTTTTTTTTTTTGAGGTAGGGTCTTACTGTGTCACCCAGGCTGGAGTGTAGTGGCACAATCACAGCTCCCTGCAG
Celera SNP ID:            hCV3122306
SNP Position Genomic:     41696
SNP Source:               Celera
Population(Allele,Count): chn(T,6)   cau(T,6|C,2)   afr(T,6)   his(T,6)   total(C,2|T,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60336):
CGCCCCCGTCTCTGACCCTTCCCGGGGCAAGCCCCTCCTCCCGCTCGCCCCTGCTCCCACTCACCCCTGCTCCCGCTCGCCCCTGCTCCCGCTTGCCCCG
T
GCTCATCCGCCCTCGACCCCTCACTGACTGACCATCTCTGTACCAATCTCCCTGACTGAACCCCACGCCCCCATTCCTCCCACCCCAGACCCCTCACACC
Celera SNP ID:            hCV11267489
SNP Position Genomic:     17484
SNP Source:               Celera
Population(Allele,Count): cau(-,2|T,1)   total(T,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60337):
CTCGCCTGAATGCAAAAAGTGTCAGACCTCGGCCAGGTGCTGGAAAGAGAAGATTATAGCTGGGGATCATTTGAATGTGTACAGATGGGCAGGGAGGCAT
K
CTGGGGAGAGGAAGCTATCTGAACAAAGGCGGGCAGGTTTGGCTGGAGTGGGCGTAGTGGGGGCAGGAGCTGGGGACCGTCAGTGGAGAAGGGCTGATGG
Celera SNP ID:            hCV3122307
SNP Position Genomic:     41487
SNP Source:               Celera
Population(Allele,Count): chn(T,8)   cau(T,8)   afr(G,1)   his(T,8)   total(G,1|T,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60338):
GCAGAGGTGGTGCTATTCTCAGCTACAAGTGCCACCGAGTGTGGGTGGGTGCTTGTGGTGAAGACAGGGGCTAAGGATCCAAGGAAAAGATCCCTGGGAA
M
CCCCAAGATGATTGAGGTTGGGTTTTCGCACTCAGCCCACATTCACGTAAGGGCGCTTCTCCTGCCTCCCTGTTCCTGTTCACCCTTTGTTCTCCTAGAA
Celera SNP ID:            hCV3122309
SNP Position Genomic:     39877
SNP Source:               Celera
Population(Allele,Count): chn(A,2)   cau(C,3)   his(A,2)   total(A,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60339):
ACCGCCGAGGAAGGTGAGAAGACTGGTGAGCTCTGCTCGGAGCGTGGCATACCAAAAGATAGGGGGCTGGCGATGGGGGTTCTGGGGGAAGGAGTCATTG
S
AGAGACTAGAGTCTGTATTGGGGCTTGAAGCAAGCAGGCAGCAAAGAACTGGAGAGACAGAGAAAAATGTGATCAAGCAGTAGCGAAGAGAGGGGCGCTG
Celera SNP ID:            hCV25966654
SNP Position Genomic:     6285
SNP Source:               Applera
Population(Allele,Count): afr(C,3|G,31)   cau(G,36)   total(C,3|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:60340):
AAAGTATGTGACAAAGACTGTGGCTACTGCTGGGGAAGCTGCCGGAGGACCAGGCCAGTGGGAGCTGAGCTAGATTATCTCTGAAGGTCTGACCTTGAAG
R
GAGGGAGGGGCTGGCAGTCAGGAATCCCTGAATCTGCTCTTCAGCACAAACTCCTTCTAAGCAGAGCCTCTTACAGCAGAGATACCACTGTGGTCGCTGA
Celera SNP ID:            hCV3122380
SNP Position Genomic:     14634
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,1|A,1)      total(G,1|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60341):
CGTGGGCGCATGCGTGGCGCTTGTCTCGGTGCGCGTCTACTACAAGCAGTGCCGCGCCACCGTGCGGGGCCTGGCCACGTTCCCAGCCACCGCAGCCGAG
R
GCGCCTTCTCCACACTGGTGGAAGTGGCCGGAACGTGCGTGGCGCACTCGGAAGGGGAGCCTGGCAGCCCCCCACGCATGCACTGCGGCGCCGACGGCGA
Celera SNP ID:            hCV25961644
SNP Position Genomic:     9583
SNP Source:               Applera
Population(Allele,Count): afr(A,37|G,1)   cau(A,40)   total(A,77|G,1)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60342):
GATGATGGTGAGCGGTGAGACTCCGCCCCCCGCTGGCTCTGGGGTCTGGGGGCATTGCTCAGCGGTGCTAGGCTGGCGCGGCTTGAGCCGCCGCCGGACT
K
ACAGCTCGGTCTGCGGACCATGGAGACCTGCGCCGGTCCACACCCGCTGCGCCTCTTCCTCTGCCGGATGCAGCTCTGTCTCGCGCTGCTTTTGGGACCC
Celera SNP ID:            hCV3122385
SNP Position Genomic:     6072
SNP Source:               Applera
Population(Allele,Count): afr(G,35|T,3)   cau(G,40)   total(G,75|T,3)
SNP Type:                 UTR 5

SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(G,3)   his(G,3)   total(G,6|T,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:60343):
ATTGACAAAAAGGACTTTGCATATGTGATTAGTGATCTTTTGAGATGGAGAGATTGTTTTAGATTATCTGGATGGGCCCAATAATCACAATGGTCCTTGT
R
TGAGGGGTGCAGGAGGAGCCAGAGTCAGAGGAGGAGGCAGTGTGATGACTGAGGCAGAGATTAAAGTGATGTGATTTGAAGATGGAGGAGGGGACCACAA
Celera SNP ID:            hCV3122386
SNP Position Genomic:     7773
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,2)   cau(A,1)   his(G,2)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60344):
CTCAGAGCCTCCAAAAGAAAACAGTCCTGCTGACACCTTGACTCTAGACCAGTGAAAGTGGCTTTGGGCTTCTGACCTCCAGAACTGTAACAGAAAAATA
W
TGTGTTGTTTTAAGCCACTAAATTTGTGGTAATATGTTACAGCAGCCCCAGGAACTGAATACAAGCTCCTTCCCTACTGACTGTGGCTACCTCTCTCTGG
Celera SNP ID:            hCV3122387
SNP Position Genomic:     8031
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,4)   cau(T,1|A,4)   his(A,4)      total(A,12|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60345):
TGGCCTGTTAGAAAACATTGAGTCTTCAGCCAGTTAGACAGTCAAAAAAAAAAAAAAAAGTGAATAAGTGAGGAGAGAACTGGCTGTCTAGGAACAGAAA
Y
GTGGCATCTGGATGGAGCTAATACAGGACAGTGGCTTGCACATAGTAGTAGATCCTCCAAGCAATGTTGTTGATTGATTGACACAGCAAGCAAGACTGGG
Celera SNP ID:            hCV3122388
SNP Position Genomic:     8612
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,2)   afr(C,2)   his(C,2)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60346):
AGGGTGTGAAACATAAACAGAGAGCTAAGGAAGCATGGAAGGGAGAACCTAATTCTAAGCATGGAGAAGGCTTCCCAGAGAAGGTGAGAAGGTTTTTTTT
Y
CCCAGGCAGCTTAGAGCATTCTAAGCTTAGGAATTGCATGCAGAAGGATGGAGGCAGAAGGAACATAGCATGGCTGGGCCTATGTAACTAAATGTGGTTG
Celera SNP ID:            hCV3122389
SNP Position Genomic:     11736
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,2)   cau(T,2|C,2)   afr(T,2)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60347):
GGCATTTTACATTAACAATCTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTATCACCCAGGCTGGAATGCAATGGCTCAGTCTTGGCTCACTGCAACCTC
Y
GCCTCCTGGGTTGAAGCGACTCTCCTGCCTCAGCCTCCTGAGTAGCTGGTATTACAGGCACACACCACCACAACCGGCTAATTTTTGTATTTTTAGTAGA
Celera SNP ID:            hCV937746
SNP Position Genomic:     21522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60348):
ATGGGGTCGCACCATATTGGCCAGGCTGGTGTCAAACTCCTGACCTCAAGTCATCTACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCC
M
CCTCATGCCAGGCTGAAAATAATCATTTAACCAATATGGATTTCTTTTTTTTTTTTCTTTTTCTTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTG
Celera SNP ID:            hCV937747
SNP Position Genomic:     19822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60349):
TCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCGCACCACCACACCCAGCTAAGTTTTGTATTTTTAGTAGAGATGGGGTCGC
M
CCATATTGGCCAGGCTGGTGTCAAACTCCTGACCTCAAGTCATCTACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCTCATGCCA
Celera SNP ID:            hCV937748
SNP Position Genomic:     19732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60350):
TGGACTCCTTGCACAAAGCCTCTGTCCCGCTCACGGCTCTGCAGTTGGCCTCGCCGCTGATTTCTCAGGGAAAAAGAGGTGGAAAGTCCCTTAATCTCTT
M
CCTTCCCTTTAAAAAAATGTCAGTAGGAATCCGAATTTACTTCCTTCCCTCTGTCTCGGGAAGCCGGATCCGGCCCTGTGTCCCTTACCTCCAACCCTCG
Celera SNP ID:            hCV937749
SNP Position Genomic:     18648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60351):
GCCTGGTCCTCTGCCTGCCTCAACCTCGTGATTTTCCTCCCAGCTGCCTCAGGGTCCAGGGACCAGAGCCCCGCCATTGTCGTCACCGTAGTGACCATCT
Y
GGCCCTCCTCGTCCTGGGCTCCGTGATGAGTGTGCTGGCCATTTGGAGGAGGTAGGTGGCTGGCCCCAGCCTAGGTGACTCCTGGTGGGTCATGTCCCGT
Celera SNP ID:            hCV25996023
SNP Position Genomic:     44453
SNP Source:               Applera
Population(Allele,Count): afr(C,33|T,1)   cau(C,28)   total(C,61|T,1)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60352):
GCTCATTCTCTCATTCTGTCCTTTGAGGCTTCAGGCCTGCCTAGGGCACTGGCTCAGCTTAGCCTGGATGGACAGGCCCTGGTGGCCCTCATCCTATCAT
S
CCCCGGAAGGAGGATCTGGTGTCTTCTCTAAAATTTCTCTTATGCAGAGGTGGTGCTATTCTCAGCTACAAGTGCCACCGAGTGTGGGTGGGTGCTTGTG
Celera SNP ID:            hCV3122310
SNP Position Genomic:     39733
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,1)   cau(C,1)      total(G,1|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60353):
TGAGCCTTGCAGGACAGTTGTGAAAAATCAGACATCGAGGAAAGGAAAAGCCTTGTGGGCCATTGGGGGCTTTCATGTGTCAGGGCTCATTCTCTCATTC
Y
GTCCTTTGAGGCTTCAGGCCTGCCTAGGGCACTGGCTCAGCTTAGCCTGGATGGACAGGCCCTGGTGGCCCTCATCCTATCATCCCCCGGAAGGAGGATC
Celera SNP ID:            hCV3122311
SNP Position Genomic:     39649
SNP Source:               Celera
Population(Allele,Count): chn(T,1)   cau(C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60354):
CACGCCCCCGTCTCTGACCCTTCCCGGGGCAAGCCCCTCCTCCCGCTCGCCCCTGCTCCCACTCACCCCTGCTCCCGCTCGCCCCTGCTCCCGCTTGCCC
T
GGGCTCATCCGCCCTCGACCCCTCACTGACTGACCATCTCTGTACCAATCTCCCTGACTGAACCCCACGCCCCCATTCCTCCCACCCCAGACCCCTCACA
Celera SNP ID:            hCV11267493
SNP Position Genomic:     17482
SNP Source:               Celera
Population(Allele,Count): cau(-,2|T,1)   total(T,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60355):
GCCCCCACGCCCCCGTCTCTGACCCTTCCCGGGGCAAGCCCCTCCTCCCGCTCGCCCCTGCTCCCACTCACCCCTGCTCCCGCTCGCCCCTGCTCCCGCT
C
GCCCCGGGCTCATCCGCCCTCGACCCCTCACTGACTGACCATCTCTGTACCAATCTCCCTGACTGAACCCCACGCCCCCATTCCTCCCACCCCAGACCCC
Celera SNP ID:            hCV11267494
SNP Position Genomic:     17477
SNP Source:               Celera
Population(Allele,Count): cau(-,2|C,1)   total(C,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60356):
GATTCAATGAATTAATAGACGTAATTTAAAAAATAATAAATAGAGACGGGGTTTGGCCATGTTGTCCAGGCTGGTCTCCAACTCCTGGGCTCAAGTGATC
C
TCCAGCTTTGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCTGAAAGTAAAATGTTTCAAAGTTTTCCGAACACACAGCGTTTTC
Celera SNP ID:            hCV11267496
SNP Position Genomic:     16501
SNP Source:               Celera
Population(Allele,Count): cau(-,1|C,2)   total(C,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60357):
GGCTCAGTCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTGAAGCGACTCTCCTGCCTCAGCCTCCTGAGTAGCTGGTATTACAGGCACACACCACCACA
W
CCGGCTAATTTTTGTATTTTTAGTAGAGCCCCGCGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCTTGACGTCAGGTGATCCACCCGCCTCAGCCTC
Celera SNP ID:            hCV11345799
SNP Position Genomic:     21595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60358):
AGAACTTCACTCACTCCTCAATGACATGAGGGACTCCTTTGCTGAAAATAGTTTTTGAATACTGGAAGTCTGTTGAGACCTGTGAGTGTTGGGGATGAGT
R
GGAAGGAGGAGAGAGTCCTGAGTCACTGCTGGGTGTCTGACCTGGGTAACCCAGAGTCTGAGGTACCACTGACTGAGATGGAGAAGCACTGAGGTGGAAG
Celera SNP ID:            hCV3122314
SNP Position Genomic:     37562
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60359):
ACATGATCTCGGCTCACTGCAACCTCCGTCTCCCAGGTTCAAGTGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACAACTACAC
M
CAGCTCATTTTTGTATTTTTAGTAGAGACGAGGTTTCATCGTGTTGGCCAGGCTGGTCTATATCTCCTGACCTCAGGTGATCCACCCGCCTTAGCCTCCC
Celera SNP ID:            hCV3122315
SNP Position Genomic:     37214
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,3)   cau(C,3|A,2)      total(A,2|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60360):
ACTTTTACTGGCCCTTCTCTCTCCACCCACCCCCCTCCACCTGGCTGGCTTTACTTCCAGTTGGGAATTTATGACACACTCACTCACATGATGGTGGTGG
G
AGGGTGTGTGTGTGTGTGTGCATGTATGCTTGTGTGTCTGTCCCTGCGTAACTGTGGAACAGCTCTTGGGGCACCTCTCCTCCCCTCTCTTTCTCACACC
Celera SNP ID:            hCV11267498
SNP Position Genomic:     15803
SNP Source:               Celera
Population(Allele,Count): cau(-,2|G,2)   total(G,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60361):
CTCCACCTCCCGGGTTCAACTGATCTTCTTCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTACCACCATGCCTGGCTAATTTTGCATTTCTTTAG
Y
AGAGACAGGGTTTCACCATTTGATCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGGTCCACCTGCCTCGACCTGACGTCAAGTGATCCACCTGCCCGGCT
Celera SNP ID:            hCV3122316
SNP Position Genomic:     35295
SNP Source:               Celera
Population(Allele,Count): chn(C,4)   cau(T,1|C,4)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60362):
AACTTTTACTGGCCCTTCTCTCTCCACCCACCCCCCTCCACCTGGCTGGCTTTACTTCCAGTTGGGAATTTATGACACACTCACTCACATGATGGTGGTG
T
GAGGGTGTGTGTGTGTGTGTGCATGTATGCTTGTGTGTCTGTCCCTGCGTAACTGTGGAACAGCTCTTGGGGCACCTCTCCTCCCCTCTCTTTCTCACAC
Celera SNP ID:            hCV11267499
SNP Position Genomic:     15802
SNP Source:               Celera
Population(Allele,Count): cau(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60363):
CCTCCACCTCCCGGGTTCAACTGATCTTCTTCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTACCACCATGCCTGGCTAATTTTGCATTTCTTTA
K
CAGAGACAGGGTTTCACCATTTGATCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGGTCCACCTGCCTCGACCTGACGTCAAGTGATCCACCTGCCCGGC
Celera SNP ID:            hCV3122317
SNP Position Genomic:     35294
SNP Source:               Celera
Population(Allele,Count): chn(G,4)   cau(T,1|G,4)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60364):
ACCATGTTGGCCAGGATGGTCTCAATCTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAATTTTGCTTTTGTTGCCCAGGCTGGAGTGCAATGGCACGA
Y
CTCAGCTCACTGCAACCTCCACCTCCCGGGTTCAACTGATCTTCTTCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTACCACCATGCCTGGCTAA
Celera SNP ID:            hCV3122318
SNP Position Genomic:     35178
SNP Source:               Celera
Population(Allele,Count): chn(T,2)   cau(T,2|C,2)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60365):
CTGAGAAGCGCCCCCGGGGGATAGGGAAGAGCACTCTTCCTCGAAAGCAGCTCTGCAGTAGAGTGCTGGCTGTGCATTGTCCACTTGACAAAGACTTGGC
T
TTTTTTTTTTTTTTAAAGGGTCAGACACTGAAGGGAGGAATAAAGGATTTTTTTGAGTTATTTTTAGAATGGGAGGCAATGCCACTCTGTGGGCAGTGTA
Celera SNP ID:            hCV9644357
SNP Position Genomic:     29834
SNP Source:               Celera
Population(Allele,Count): cau(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60366):
TCCAGTGTCATGAATCTTTTCCCCTGTGTTTTCTTCTAGGAGTTTTATCATTTCAGATCCTACATTTAGGTCTTTAATCCACTTTGAGTTCATTTTTTGC
M
TATGATTTTAGGTGAGGGTCCAACTTCATTCATTTGCAGGTGGATATCCACTTTTCTCAGTGCCATTTGGTGAAGAGACTATCCTTTCTGCATAGCATAA
Celera SNP ID:            hCV3122319
SNP Position Genomic:     34011
SNP Source:               Celera
Population(Allele,Count): cau(C,1)   afr(A,2)   his(A,2)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60367):
TCTCCTTTGGCCATGCCTCTCAGTCAGTTCCCTAGCCCCGCCCACAGCCCGTTAGACCACGCCCCAGGCCTCTCTAGTCCGGTCCCACAGCCCCGCACGC
Y
GCACCCTCTTCCCCGCACCCCCAGCCCTGCCGTGAGGTGGGTCAAGGTGGAGAATCCCACGTAACTTACTTTCAGCGCCCTGGGAGGAGGATGAGATCCG
Celera SNP ID:            hCV25995444
SNP Position Genomic:     36140
SNP Source:               Applera
Population(Allele,Count): afr(C,33|T,1)   cau(C,32)   total(C,65|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60368):
GTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCGCACCACCACACCCAGCTAAGTTTTGTATTTTTAGTAGAGATGGGGTC
K
CACCATATTGGCCAGGCTGGTGTCAAACTCCTGACCTCAAGTCATCTACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCTCATGC
Celera SNP ID:            hCV1918014
SNP Position Genomic:     19730
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,2)   cau(T,2|G,2)      total(G,2|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60369):
GGGTTTCACCATGTTGGCCAGGATGGTCTCCAACTCTCAACCTCATGATCTGCTGGCCTCAGGCTTCCAAAGTGCTGGGATTACAGACGTGAGCCACTGC
R
CGCCTAGCCAGACTTTCTTTTTTTTTTTTTGAAATGGAGTTTTGCTCGTCACCCAGGCTGGAGTGTGGTGGTGTGATCACAGTTCATGGCAACCTCTGCC
Celera SNP ID:            hCV1918016
SNP Position Genomic:     19523
SNP Source:               Celera
Population(Allele,Count): chn(A,1)   cau(G,5)   his(G,5)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60370):
ACGCCCCCGTCTCTGACCCTTCCCGGGGCAAGCCCCTCCTCCCGCTCGCCCCTGCTCCCACTCACCCCTGCTCCCGCTCGCCCCTGCTCCCGCTTGCCCC
C
GGCTCATCCGCCCTCGACCCCTCACTGACTGACCATCTCTGTACCAATCTCCCTGACTGAACCCCACGCCCCCATTCCTCCCACCCCAGACCCCTCACAC
Celera SNP ID:            hCV1918018
SNP Position Genomic:     17483
SNP Source:               Celera
Population(Allele,Count): cau(-,2|C,1)   total(C,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60371):
GTGTGCGAGAGGGACTGAGGATGCAGGCGTCCCCTTACTACTGGGCCAGAGGGGAGGCGCGCGGTTCTGTTGCGTCTGCGGGAAGCACCTGTGTGCTCGC
Y
TTTCTCCTGGACTCCTTGCACAAAGCCTCTGTCCCGCTCACGGCTCTGCAGTTGGCCTCGCCGCTGATTTCTCAGGGAAAAAGAGGTGGAAAGTCCCTTA
Celera SNP ID:            hCV937750
SNP Position Genomic:     18540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60372):
TTAACAACCTGTGTTCTGAGAAGTGAGAGAAGCAAACTGAGTAGGTGTCAAGACTGGAACCAGGTCTGACTCATGGTCCAGGGAACTTTTACTGGCCCTT
Y
TCTCTCCACCCACCCCCCTCCACCTGGCTGGCTTTACTTCCAGTTGGGAATTTATGACACACTCACTCACATGATGGTGGTGGGAGGGTGTGTGTGTGTG
Celera SNP ID:            hCV937751
SNP Position Genomic:     15719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60373):
GGCCAGGGAACAAGGTGAGGACCACCCAAGTTCTGAGAGGTAGGGCCAGGAACCAACTGGCCCAGCTGGTGAGAAATTTTTTTAAAGTGGGTGTTTAGCA
R
TTACCACTTAAGGCCTGTGGGGGAGGAACAGTAATTACTATCATTATTGTGAAAATGTGGTTGGTACTGGGCTAGGTGGTTTACATGTTTTATCTCAATC
Celera SNP ID:            hCV937752
SNP Position Genomic:     15383
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60374):
GCGTCTTCTTGGAGCTGGAGAGCAGCCAGCTAAACTAGAGGAGAGGGCCAGGGAACAAGGTGAGGACCACCCAAGTTCTGAGAGGTAGGGCCAGGAACCA
M
CTGGCCCAGCTGGTGAGAAATTTTTTTAAAGTGGGTGTTTAGCAGTTACCACTTAAGGCCTGTGGGGGAGGAACAGTAATTACTATCATTATTGTGAAAA
Celera SNP ID:            hCV937753
SNP Position Genomic:     15338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60375):
AGAGGAGACTTCTGAAGGCTCCTGGGCTGCCGAGCCCCTCCCCAGAGTTGTGCTGCCCAGAACTCTGGGCAAGATGGACCCTCTCAAACCTATGCCTTCC
R
GACAGTGGAAATCCTAGTCCCCTCCCCTCTTCTGCCACACAGGCTGAAAGTTCCTCCTGAGGGCTAGTCTGCACCCTTTCTGTTGTACTGCGTCTTCTTG
Celera SNP ID:            hCV937754
SNP Position Genomic:     15148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60376):
AGGAGGCAGGGGCTGTAGTGAGCTATGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACCCTGTCACAAAGAAACAAACAAACAAAACAACT
Y
AGTGGGATTGCCTTGGAGCCAAGGGACCCAAGCAGATATGTTCTCTGAGGCTCCATAGGGCACAATGAGCCCCTGTGATGGGGTGGCACAAGGGGCATTA
Celera SNP ID:            hCV937755
SNP Position Genomic:     14337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60377):
CTTTGGGGGAAAAAATCAGGGCATATAACAAGTAGCTTTAATTCTCTGCTAGGGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCAATTTGGGAGGCT
R
AGGCAGGAGGATTGCTTGAGCCAGGAGTTCAAGATCAGCCTGGGCAACACAGGGAGATCCCATCTCTCCACACACAAAAAATTAGCCAGGCATGGTTGCA
Celera SNP ID:            hCV937756
SNP Position Genomic:     14077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60378):
CTTTTGTTCTCCCTCGGTTAGCCACTAGAGAAATTAGTAAAAGAGCTGGGGTTTCCTTTGGGGGAAAAAATCAGGGCATATAACAAGTAGCTTTAATTCT
M
TGCTAGGGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCAATTTGGGAGGCTAAGGCAGGAGGATTGCTTGAGCCAGGAGTTCAAGATCAGCCTGGGC
Celera SNP ID:            hCV937757
SNP Position Genomic:     14022
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60379):
AGAAGTATAGAAGTTTGCCAGGAGAAAAAGGATATAAGGAATTACAGAACAAGACCCAGAGGTGTGAAAGGATGAGCTCAGTGTACCATGGTTAGAGTGG
Y
TGGCAGTGGGGAGCTGTTGGAGGACATTAGGAAGGGAAGGGAAATGATTGGATTTGCATTTAGAAAGTTAAGGCCTTCCAAGTGCCTTCTGCAGCTAACA
Celera SNP ID:            hCV937758
SNP Position Genomic:     13733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60380):
GGGGTTTGGAGAAGTATAGAAGTTTGCCAGGAGAAAAAGGATATAAGGAATTACAGAACAAGACCCAGAGGTGTGAAAGGATGAGCTCAGTGTACCATGG
K
TAGAGTGGCTGGCAGTGGGGAGCTGTTGGAGGACATTAGGAAGGGAAGGGAAATGATTGGATTTGCATTTAGAAAGTTAAGGCCTTCCAAGTGCCTTCTG
Celera SNP ID:            hCV937759
SNP Position Genomic:     13724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60381):
GGTGTCACACAACACCAGGGGATCCAAGCGCACAGCCCTGGCCTCAGTCTTCTCCCTCCACAGCGGCACGAGGGGCAGCTGGTCGCTGGGCAACTGATGG
R
GTTGCTGCCTGGGCTGGCATCAGCCATGAAGTATCTGTCAGAGATGGGCTACGTTCACCGGGGCCTGGCAGCTCGCCATGTGCTGGTCAGCAGCGACCTT
Celera SNP ID:            hCV25958149
SNP Position Genomic:     51090
SNP Source:               Applera
Population(Allele,Count): afr(A,5|G,33)   cau(A,5|G,33)   total(A,10|G,66)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60382):
TCAGAGTGAGCAGACTTACTCCATGGTGAAGACAGGGGCGCCCACAGTCACCGTCACCAACCTGAAGCCGGCTACCCGCTACGTCTTTCAGATCCGGGCC
R
CTTCCCCGGGGCCATCCTGGGAGGCCCAGAGTTTTAACCCCAGCATTGAAGTACAGACCCTGGGGGAGGGTAAGTAGTGTGTGTGAGTGGACAGGGACCT
Celera SNP ID:            hCV25964565
SNP Position Genomic:     40126
SNP Source:               Applera
Population(Allele,Count): afr(A,1|G,37)   cau(G,40)   total(A,1|G,77)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60383):
TTGATTTCCCTGATGATTAATGATATTAAGCATCTTTTCATGTGCTTCTTGGCCTTTTGTATATCTTTTTTTTTGAGACAGAGTCTCACTCTGTTGCCCA
S
GCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAACAATTCTTGTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGAT
Celera SNP ID:            hCV3122321
SNP Position Genomic:     33266
SNP Source:               Celera
Population(Allele,Count): cau(G,1|C,2)   his(C,2)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60384):
TTTCAAAGAGTTTGACTACTTTAGATACCTCACATAAGTGGAATCATGCAGTATTTGTCTTTTTGTGACGAATTGTTTCACTTAGCATAGTGTCTTCGAG
K
TTCATTCATATTGTAGCATATAACAGAATTTTCTTCTTTTTAAGGACTAATATCCTGTTGTATGTTTACACCATATATTCTTTTTTCTTTTCTTTTTTTT
Celera SNP ID:            hCV3122322
SNP Position Genomic:     32341
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,1|G,8)      total(G,8|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60385):
TTTCCTTTATTTTTATTTATTTATTTTTTTTGAGACTGGGTCTTGCTGTATTGCTTAGGCTGGAGTGCAGTGGCAGCCTTGACCTTCTGGTCTTGGGCAA
K
CCTCCTGTCTCAGCCTCCCACGTGTCTGGGACCACAGGTGTGTGACACCATGCCCAGCTAATTGTTTGATTTTTTGTAGAGACAGGGTCTCACTTTGTTG
Celera SNP ID:            hCV3122324
SNP Position Genomic:     31601
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,7)   cau(T,7|G,2)   his(T,7)      total(G,2|T,21) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60386):
GCCTGGCAGCCCCCCACGCATGCACTGCGGCGCCGACGGCGAGTGGCTGGTGCCTGTGGGCCGCTGCAGCTGCAGCGCGGGATTCCAGGAGCGTGGTGAC
W
TCTGCGAAGGTATCCAGTTGGCTGGGGGCCGTGGGGTGGGAGTGTAGAGCGTAGGTGGCAATTGAGAGAGAGTGTGCCCTAGAGGAAAGAGGCGGGTGTG
Celera SNP ID:            hCV25969074
SNP Position Genomic:     9742
SNP Source:               Applera
Population(Allele,Count): afr(A,14|T,24)   cau(A,11|T,29)   total(A,25|T,53)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60387):
GGGAAGTGGAGCTTGCAGTGAGCCGAGATCCCGCCCCTGCTCTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAATAAACAAATAAATAAATAA
R
TAATAAAATAAAATAAAAGCAACTAATCCCTGAGCTCCAGCCTACAGAGATGATGATTTGTTTGCTCTGGGTTGTGACCTGGGCAACATTTTTTTTACTG
Celera SNP ID:            hCV3122325
SNP Position Genomic:     31309
SNP Source:               Celera
Population(Allele,Count): chn(A,3)   cau(G,2|A,3)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60388):
TTTGGGAGGCCGGGGTGGGCGGATCATGAGGTCAGGAGATGGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGC
Y
GGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAAGTGGAGCTTGCAGTGAGCCGAGATCCC
Celera SNP ID:            hCV3122326
SNP Position Genomic:     31140
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,2|C,1)      total(C,1|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60389):
GAAGGGAGGAATAAAGGATTTTTTTGAGTTATTTTTAGAATGGGAGGCAATGCCACTCTGTGGGCAGTGTAGCCTAGGGGTTCATTACAATTGCACTTTT
K
GATCTAGTCCCACTGCCTTGATCATAAGTAGAAATGTGCCACTCTACTCTCCAGCCCCCATTCTGGCGATCAGCTGTCAAGACTAGTTTATGGTGATGGT
Celera SNP ID:            hCV3122327
SNP Position Genomic:     29964
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,4|G,2)   afr(T,4)      total(G,2|T,8) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60390):
CCATCTCTGCCCCATCTGTATTCGCAAGGAACTTTGCCACCTCCTAGAATGCTTCATCACTCCTCTCGCCTTTGTGCTCAGGCCTTTTCTGGGAGCTGCC
R
TCTCAAAGTGAATTTTGGCTGAGAAGCGCCCCCGGGGGATAGGGAAGAGCACTCTTCCTCGAAAGCAGCTCTGCAGTAGAGTGCTGGCTGTGCATTGTCC
Celera SNP ID:            hCV3122328
SNP Position Genomic:     29715
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60391):
GGGGACAAGGCTGTTGACTAGGTTTCCAGTACTATCTGCTGTAACTTTGGCCCCACTTGGGTGCTGGCTGATTCCCATCCCAAATCTACAGCTGGAGAGC
M
GGTGCTTGGTGTTAGTTTTTAGCTCCACTAGCAGGATTTATCAGGCTTTCATCTAATTATCTCTTCGGAGCTGAGATGGAACCATCTTCTACCTCTCTAT
Celera SNP ID:            hCV3122329
SNP Position Genomic:     29453
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(C,2|A,2)      total(A,2|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60392):
GGCCCCCACGCCCCCGTCTCTGACCCTTCCCGGGGCAAGCCCCTCCTCCCGCTCGCCCCTGCTCCCACTCACCCCTGCTCCCGCTCGCCCCTGCTCCCGC
C
TGCCCCGGGCTCATCCGCCCTCGACCCCTCACTGACTGACCATCTCTGTACCAATCTCCCTGACTGAACCCCACGCCCCCATTCCTCCCACCCCAGACCC
Celera SNP ID:            hCV1918021
SNP Position Genomic:     17476
SNP Source:               Celera
Population(Allele,Count): cau(-,2|C,1)   total(C,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60393):
TGGGGAGTGGGGAGCTGGGGACAATGCCAAGGAAAGCTTCACAAGGGAGATGTTATTTGAACTGGGGTTTGGAGAAGTATAGAAGTTTGCCAGGAGAAAA
R
GGATATAAGGAATTACAGAACAAGACCCAGAGGTGTGAAAGGATGAGCTCAGTGTACCATGGTTAGAGTGGCTGGCAGTGGGGAGCTGTTGGAGGACATT
Celera SNP ID:            hCV11345806
SNP Position Genomic:     13661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60394):
CTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCGTGCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGA
Y
GGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCTACCTAGGCCTTCCAGAGTGCTGGGATTATAGGCGTGAGCCAC
Celera SNP ID:            hCV1918024
SNP Position Genomic:     10242
SNP Source:               Celera
Population(Allele,Count): cau(T,3|C,2)   afr(C,2)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60395):
TGAGAGGAGGAGGTTTCTCTGGGAAATGTGGGAGAAAGAGAGAGAGAGAGAAAGAGACTCAGGAACCCAAACCATGTCTGATGAGAACAGAAAAAGGCCA
Y
TTGTAATGGCCTCAGCTCTGCCTTGGGGAGTGGGGAGCTGGGGACAATGCCAAGGAAAGCTTCACAAGGGAGATGTTATTTGAACTGGGGTTTGGAGAAG
Celera SNP ID:            hCV937761
SNP Position Genomic:     13537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60396):
TTCATTGTTGTGTATCTATAGAGCCTACCTAGTAGATGCCAAAAAATATTTGCTGAATGAATGGATCAGGAGTGAGAGGAGGAGGTTTCTCTGGGAAATG
W
GGGAGAAAGAGAGAGAGAGAGAAAGAGACTCAGGAACCCAAACCATGTCTGATGAGAACAGAAAAAGGCCATTTGTAATGGCCTCAGCTCTGCCTTGGGG
Celera SNP ID:            hCV937762
SNP Position Genomic:     13465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60397):
TCGGAGCGTGGCATACCAAAAGATAGGGGGCTGGCGATGGGGGTTCTGGGGGAAGGAGTCATTGGAGAGACTAGAGTCTGTATTGGGGCTTGAAGCAAGC
M
GGCAGCAAAGAACTGGAGAGACAGAGAAAAATGTGATCAAGCAGTAGCGAAGAGAGGGGCGCTGAGGAGCTTGGGGGCTGGAGACCCGGGAGGTTGGGAA
Celera SNP ID:            hCV25966601
SNP Position Genomic:     6321
SNP Source:               Applera
Population(Allele,Count): afr(A,37|C,1)   cau(A,38)   total(A,75|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60398):
TTAGTTATGAGGTTTTCAGCTGCAAGTAACAATAAATCTCAGTCTAACTGATTTTATTTTATTATTATTATTATATTATTATTATTAGAGACAAGGTCTT
R
CTCTGTCACTCAGGCTGGAGTGCAGTGGCATGATCATAGGCTCACTGTAACCTCAAACTCCTGGGGTCAGGTGATCCTCCCGCCTGAGCCTCCCAAGTGG
Celera SNP ID:            hCV11263878
SNP Position Genomic:     28787
SNP Source:               Celera
Population(Allele,Count): chn(G,1)   cau(A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60399):
CCCCAATATGTCAATGTCCTAATCCCTAGAACCGTGAATGTTAGCTTAATTGACAAAAAGGACTTTGCATATGTGATTAGTGATCTTTTGAGATGGAGAG
R
TTGTTTTAGATTATCTGGATGGGCCCAATAATCACAATGGTCCTTGTGTGAGGGGTGCAGGAGGAGCCAGAGTCAGAGGAGGAGGCAGTGTGATGACTGA
Celera SNP ID:            hCV937767
SNP Position Genomic:     7725
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60400):
GAGTCCTAAAAGAGGCTTGGAGACTTGGGGTAGGGGAGGATGATGTGGGCTGTAACAGCAGCTTGGTGGAGTGCAAAGGGCACTGGTCAGAGAGTCAGGA
R
ACTACAGGCACCATTCCTAGCTCCACCACTAACTTGATGTGCATACCTGGTCAGATCGCTCTCCCTCTGGAGCCTCAGTTTCCCCATCTATAAAAATAAG
Celera SNP ID:            hCV937768
SNP Position Genomic:     8812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60401):
TATGGCAAAGGAGGAGGGGATGCCCATGATGAAGAGGAGCTGTATTTCCACTGTGAGTTGGCTGGGCCTGGCTGGGGAGGGGCGGGCTCCACCCTGCCTC
R
CTCCTCAGCCCTCTGCCTTGCTACACTGCATGAGCCCGCTTGTCAGCCCCAGTGGTGGAGGCCCCATTCCTCAGGCTCATCTCTTTCTCTCCCAGTCAAA
Celera SNP ID:            hCV25961957
SNP Position Genomic:     48345
SNP Source:               Applera
Population(Allele,Count): afr(A,32|G,4)   cau(A,37|G,3)   total(A,69|G,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:60402):
TGCAGGAGAAAGAGCACAAGGGCTGAACTAAGGTAGTGGCAGAGATCATTGAGAGATGAGGATAGATGGGATCATGAGTTAGCATCCACAGCACTTAGTG
M
CCATGTGATACAGGAGGAGAAAGGAGTCCCCTTTGACTTACATGCTACTGGGGATTGAATGGACAGAGGGATCATTCACTAGGGTACAGAACACAGGACC
Celera SNP ID:            hCV937769
SNP Position Genomic:     12192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60403):
GGAGGCTGTGTTTTCTTTCTTCTTAAAGTGCCAGAGCGTTTTACTTACTCTCTATCATATTAAATCACTTTTCAAGATCTACTTCTCCTGAGTCTTCAGA
R
TAATGTTCCTATTCTCTTATTCTGAAATATTTTTTCATATACCCAATTTCTGGTATTTTCTGTTTACTTGTTCTTGAGTAAGGAAATAGCTGGTGTTTGT
Celera SNP ID:            hCV3122331
SNP Position Genomic:     28548
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,1|A,2)   afr(A,2)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60404):
ACTTTTAGTTTCTTCACCCAGCCCTTCTCAGTTTCTCCATTTTTATCTCATCTCGTTTCTTTTTCTTCTCCACCTGTTTTCTCCTTATGACCTTCTGTAC
M
TAGTTGGTGGAGGCTGTGTTTTCTTTCTTCTTAAAGTGCCAGAGCGTTTTACTTACTCTCTATCATATTAAATCACTTTTCAAGATCTACTTCTCCTGAG
Celera SNP ID:            hCV3122332
SNP Position Genomic:     28439
SNP Source:               Celera
Population(Allele,Count): chn(A,5)   cau(A,5)   afr(C,1)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60405):
GAACACTGTACTGAAAGTGCAAAAATAGAATGGTTGTATTGCTTTTACACCATGGTAAAACAATCATCAGTTAAACCATCACGAGTTATTATTCAGTTGC
R
GTTCCTTCTTATTTTTTACTTGATGTTCCAAAGACTGAGAGGGGTTCATTTTGCATTCTGTTTGTGATTTTGTTAAAATTCCTTGTATTTGTAATGAATT
Celera SNP ID:            hCV3122333
SNP Position Genomic:     28208
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,3)   cau(G,2|A,3)   afr(G,2)      total(G,4|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60406):
TGAACACTGTACTGAAAGTGCAAAAATAGAATGGTTGTATTGCTTTTACACCATGGTAAAACAATCATCAGTTAAACCATCACGAGTTATTATTCAGTTG
Y
AGTTCCTTCTTATTTTTTACTTGATGTTCCAAAGACTGAGAGGGGTTCATTTTGCATTCTGTTTGTGATTTTGTTAAAATTCCTTGTATTTGTAATGAAT
Celera SNP ID:            hCV3122334
SNP Position Genomic:     28207
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,3)   cau(T,2|C,3)   afr(T,2)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60407):
GTCAAAAATGCATTTAATGCACCTAGCCTGCCAGATATCATACCTTAGCCTAGCCTACTTTAAACATGCCCAGAACACTTACATTAGCCTACAGGTGGGC
R
AAATCACCTATTTTACAATGAGTATTTTACACTGAGTATCTCATGTAATTTATTGAACACTGTACTGAAAGTGCAAAAATAGAATGGTTGTATTGCTTTT
Celera SNP ID:            hCV3122335
SNP Position Genomic:     28053
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(A,3)   cau(G,3|A,3)      total(G,3|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60408):
TGGCAGCCTTGACCTTCTGGTCTTGGGCAATCCTCCTGTCTCAGCCTCCCACGTGTCTGGGACCACAGGTGTGTGACACCATGCCCAGCTAATTGTTTGA
T
TTTTTGTAGAGACAGGGTCTCACTTTGTTGTCCAGGCTGGTGTTGAACTCCTGGGCTCAAGCGATCCTCCCACCCTGGCCCTCCCAAAGTGCTGAGATTA
Celera SNP ID:            hCV9644374
SNP Position Genomic:     31671
SNP Source:               Celera
Population(Allele,Count): chn(-,7)   cau(-,7)   his(T,1)   total(T,1|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60409):
TTTTTGTATTTTTAGTTGAGACAGTTTTACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCACCCGCCTCAGCCTCCCAAAGGGCTGGG
W
TTACAGGAGTGAACCACTGTGCCCGGCCAAAAGCTTTTAATTTTGATGAAGTCAAATTTATTTATTTCTTCTTTGGTTGCTTGTGCTTTTGGTGTCATCG
Celera SNP ID:            hCV3122337
SNP Position Genomic:     27507
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(T,4)   cau(T,4|A,3)   his(A,3)      total(A,6|T,8) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60410):
AGGTGCACACCACCACATCCAGCTATTTTTTTTTTTTTAGATGGGCTGGAGTGCAGTGGCATGATCTCTGCTCACTGCAACCTGTGCCTCCTGGGTTCAA
R
TGGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACACACTGACGCACCCAGCTAATTTTTTTTTTTTTTTGTATTTTTAGTTGAGACAGT
Celera SNP ID:            hCV3122338
SNP Position Genomic:     27331
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   his(A,2)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60411):
GATCCACCTACCTTGGCCACCCAAAATGCTGAGATTACAGGTATGAGCCACCATGCCTGGCTTGAAAGCCACCTTTGTTATTAAAGGTCTGTGGTTTCTT
K
TTATGGTAACCTGAGCTGACTAATACATATAATAACTTTTTAACTTTTTGAGGAATTACCAACTTTTTCAAAGCAGCTCTACCATTTTGCATTCCTACCT
Celera SNP ID:            hCV3122339
SNP Position Genomic:     26238
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,4|G,2)      total(G,2|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60412):
TGTGGGGACCTGCTGCAGGCTGTGCATCTGTTCGCCAAGGAACTGGATGCGAAAAGCGTCACGCTGGAGAGGAGCCTTGGAGGAGGCAAGCTGGGCGCCC
R
GGAAGCCTTGTCCCCATCTGGAAGCCTCACCCACTCTATAGGCCCCGCCCCTACTCTGTCCACACCTCTATCCTGAAGCCCACCTCCACCCAGGTCTCTG
Celera SNP ID:            hCV25960585
SNP Position Genomic:     48582
SNP Source:               Applera
Population(Allele,Count): afr(A,33|G,5)   cau(A,37|G,3)   total(A,70|G,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:60413):
GGGAAGTTGCACTAGATGATTACGAAGATCACATCCCACTCTCTGAACTACAATCACTGTGCTCCCTGGGGGAGATCCTTCATGTTGAGGGTTTTGCTGG
S
TTCTCAGGCTAGTGGGGGCATTAGGAACAGACCTCTCATTCTCTCTCTTGCCTGTGGCTTTGGATACAGAGGGTGATGATGGGGTTATTAATGTGTGTAC
Celera SNP ID:            hCV8858990
SNP Position Genomic:     10748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60414):
AAATGAGTCAGACATAGTCCTAGCTCTCAAGAAGCTCACAGTCTAGATGGAGAGATGCAAAAATTTAAAAATCACAAGAGGGTAATATATGCTATAACAG
R
GGGATACACAGAGTGGTGGGAGGACAGGGGAGGAAGTGACTAAATTTGCTCTCATTCCTTTGTTCAATCATCCATCCAATATGAATTGAGGATGTGCCAG
Celera SNP ID:            hCV8858991
SNP Position Genomic:     11015
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60415):
AAAAGAAAAGTACTAAAATTAGCTGGGCATGATGGCATCCGCCTGGAGTCCCAGCTACTTAGGAGATTGAGGTGTGAAGATCACTCAAGTCCAGGAGGCA
R
AGGTTGCAGTGAGCTGTGATCATGCCACTGAACTCCAGCCTGGGTGACGGAATGAGACCTTGTCTCAAAAAATAAAAAATAAAAAATTTAAAAAAATTAA
Celera SNP ID:            hCV8858993
SNP Position Genomic:     22161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60416):
CCCAGCTACTTAGGAGATTGAGGTGTGAAGATCACTCAAGTCCAGGAGGCAAAGGTTGCAGTGAGCTGTGATCATGCCACTGAACTCCAGCCTGGGTGAC
R
GAATGAGACCTTGTCTCAAAAAATAAAAAATAAAAAATTTAAAAAAATTAAAAAAAACCCCAAAACAAAAATCCAATCTGGGCTGGCCATGGTGGTTCTC
Celera SNP ID:            hCV8858994
SNP Position Genomic:     22210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60417):
ACTCAAGCTGGTCTGAGTGCAGTATTGTTTACAACTAACTGATCACAACCAGTTATAGATTTCTTTGTTCATCTCCACTCCCACTGCCTCGCTTGATAGC
A
AAAAAAAAAAAAAAAAAAAAAAAAAAGCCTACAGTTATTTGGTCTTTGTTGTTGAGTTCTAGACATTCTTTATACATTCTGGATATTAACCCCTTAGATA
Celera SNP ID:            hCV11263885
SNP Position Genomic:     33647
SNP Source:               Celera
Population(Allele,Count): cau(-,4)   afr(A,2)   his(A,2)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60418):
TTATTATTATTATTATATTATTATTATTAGAGACAAGGTCTTACTCTGTCACTCAGGCTGGAGTGCAGTGGCATGATCATAGGCTCACTGTAACCTCAAA
Y
TCCTGGGGTCAGGTGATCCTCCCGCCTGAGCCTCCCAAGTGGCTAGGACTGCAGGCATGCCAACATGCCTAGCTAACTTTTTTTTCTTTTTAAATTGTTT
Celera SNP ID:            hCV8858997
SNP Position Genomic:     28845
SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(C,2)   cau(T,2|C,2)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60419):
CTAACATGGCGAAACCCAGTCTCTATTGAAAAAACAAAAATTAGCCAGACATGGTGGTGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGGA
R
AATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACACTGCATTCCAGCCTAGGTGACACAGCAAGACTCTGCCTCAAAAAAAAA
Celera SNP ID:            hCV8858998
SNP Position Genomic:     38607
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60420):
GCCCAGCTTGGGTCAAAGTCCGTCCCAGTTCCTGAATGCTATGGTCAGAAAGCTGGAGCCACCGAATATCAGTGGGGAGAATAACTTTCTGGGGCTGTGG
R
TATGGCAGGGCCTCTAATAAGGTGTGGGCAGGGACGAAACGACGGGAGGAGCATCTCTAGTATGCCATTGTCAGGTGTGTTGGGGTGGAGCGGGGGGCAG
Celera SNP ID:            hCV11263888
SNP Position Genomic:     39173
SNP Source:               Celera
Population(Allele,Count): cau(G,4|A,3)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60421):
GGGGCTTTCATGTGTCAGGGCTCATTCTCTCATTCTGTCCTTTGAGGCTTCAGGCCTGCCTAGGGCACTGGCTCAGCTTAGCCTGGATGGACAGGCCCTG
R
TGGCCCTCATCCTATCATCCCCCGGAAGGAGGATCTGGTGTCTTCTCTAAAATTTCTCTTATGCAGAGGTGGTGCTATTCTCAGCTACAAGTGCCACCGA
Celera SNP ID:            hCV8858999
SNP Position Genomic:     39714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60422):
CAGGTGATCCACCTACCTTGGCCACCCAAAATGCTGAGATTACAGGTATGAGCCACCATGCCTGGCTTGAAAGCCACCTTTGTTATTAAAGGTCTGTGGT
Y
TCTTTTTATGGTAACCTGAGCTGACTAATACATATAATAACTTTTTAACTTTTTGAGGAATTACCAACTTTTTCAAAGCAGCTCTACCATTTTGCATTCC
Celera SNP ID:            hCV3122340
SNP Position Genomic:     26233
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,4|C,2)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60423):
CTGAGGCCGACCTGGGCCGTGGGCGTCCCCGCCTAGGCGGCAGCCGGCCCCGCAAAATCGACACGATCGCGGCGGACGAGAGCTTCACGCAGGGCGACCT
S
GGTGAGCGCAAGATGAAGCTGAACACAGAGGTGCGCGAGATCGGACCGCTCAGCCGGCGGGGTTTCCACCTGGCCTTTCAGGACGTGGGCGCATGCGTGG
Celera SNP ID:            hCV25962981
SNP Position Genomic:     9399
SNP Source:               Applera
Population(Allele,Count): afr(C,2|G,36)   cau(G,38)   total(C,2|G,74)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60424):
AATCTTCCTGCCTCAGGCCCCTCTTCTCTGTCTGCTTGCTTCTGGTTCTGCCTGGCCACTGCCCCAGGCTTCCTTGGGTGTGTGTGTGTGTGTCTGTGTC
Y
GTGTGTGCGCATGTGTGTGTGTGTGTCTGTGTCTGTGTGTGTGCATGTGTGTGTGCACACACCATATGCTGGGGAAACCCAGAGCCTCCTCTCTGCTCCC
Celera SNP ID:            hCV25968149
SNP Position Genomic:     51883
SNP Source:               Applera
Population(Allele,Count): afr(C,1|T,19)   cau(C,1|T,25)   total(C,2|T,44)
SNP Type:                 INTRON


Context             (SEQ ID NO:60425):
CTGTGGAGGATGGCTTCCGGCTGCCACCCCCCAGGAACTGTCCTAACCTTCTGCACCGACTAATGCTCGACTGCTGGCAGAAGGACCCAGGTGAGCGGCC
Y
AGGTTCTCCCAGATCCACAGCATCCTGAGCAAGATGGTGCAGGACCCAGAGCCCCCCAAGTGTGCCCTGACTACCTGTCCCAGGTACGTTCCCACATGGG
Celera SNP ID:            hCV25966902
SNP Position Genomic:     52110
SNP Source:               Applera
Population(Allele,Count): afr(C,30|T,2)   cau(C,38)   total(C,68|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60426):
TGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCCGCTTCCCAGGTTCAAGCAATTCTCAAGCCTCAGCTTGCCAAGTAGCTGGGATTATAGGTGC
R
TGCCACCACGCCTGGCTAATATTTGTATTTTTTAGCAGAGACAGGGTTTCCCCATATTGGCCAGGTTGGTTTCAAACTCCTGGCCTCAGGTGATCCACCT
Celera SNP ID:            hCV3122341
SNP Position Genomic:     26046
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,3|A,2)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60427):
TGGAGGTTGCGGTAAACCGAGGTCGTGCCATTGCGTTCCAACATGGGCAACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAAAAGAAAAGAAAAGAAA
W
GGGAGAGACACCACAGCTCACTCACTCTTTGTCCATATGTGCACAGAGGAAAGGCCACGTGAGAATACAGTGGGAAGGTGGCTGGTCAGGAAAACAGCTC
Celera SNP ID:            hCV3122342
SNP Position Genomic:     25679
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,2)   his(T,1)      total(A,2|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60428):
CTGCCTCACTCCTCAGCCCTCTGCCTTGCTACACTGCATGAGCCCGCTTGTCAGCCCCAGTGGTGGAGGCCCCATTCCTCAGGCTCATCTCTTTCTCTCC
Y
AGTCAAAGTCCCAACACGTCGCACATTCCTGGACCCCCAGAGCTGTGGGGACCTGCTGCAGGCTGTGCATCTGTTCGCCAAGGAACTGGATGCGAAAAGC
Celera SNP ID:            hCV25961318
SNP Position Genomic:     48438
SNP Source:               Applera
Population(Allele,Count): afr(C,30|T,8)   cau(C,33|T,7)   total(C,63|T,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:60429):
AAGTGCTGGGATTACAGGCGTGAGGCACTGCACCTGGTGGTTTGATATTTTTAATCTTTACTGTAACGTCTTGATCAGTTTTATAAATTTGTGCTTTCCT
M
GAAAATATTTTGGTGTTCTTTTTCTAATTTATTATTAGAAATGTATATACATTTCCTCAGTACCTGGAGTTAACTTCACTTTCTCTTTCTTCCTGTTGTA
Celera SNP ID:            hCV3122344
SNP Position Genomic:     23751
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(A,4)   afr(C,1)      total(A,4|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60430):
TGCTTGCTTCTGGTTCTGCCTGGCCACTGCCCCAGGCTTCCTTGGGTGTGTGTGTGTGTGTCTGTGTCTGTGTGTGCGCATGTGTGTGTGTGTGTCTGTG
B
CTGTGTGTGTGCATGTGTGTGTGCACACACCATATGCTGGGGAAACCCAGAGCCTCCTCTCTGCTCCCCACCCCTGTGGCCCAGGTGATCAAGGCTGTGG
Celera SNP ID:            hCV15791640
SNP Position Genomic:     51915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(-,-|TGTGTC,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60431):
ATTGGTTTTGGAACCCAGGTCTGTCTGACCTCAAAGCCCTGTGCCTTTAATCCCTAGGCCATATAATGCTTCATTGAACTTTTTCTAAAAATCAGAAATG
R
ATGTTAATTTTATAAAATGCTTATTAAGCATTTTCAATATGACCAAATTTTTTCCTTTTTGACCTGTCGGTATGATGAATTCTATTAATGGATATTTCAG
Celera SNP ID:            hCV3122345
SNP Position Genomic:     22975
SNP Source:               Celera
Population(Allele,Count): cau(G,3)   his(A,1)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60432):
GGCCCTGGACCTGTGCCGCTACAAGGACAGCTTCGCGGCTGCTGGCTATGGGAGCCTGGAGGCCGTGGCCGAGATGACTGCCCAGTGAGTCCAAGGCACC
R
AGGTCAAGGCCGGGGCTGGGGGATTCCACAGGCCCTGCCCCTGCCTATACTGGGGAGTCCCAACCTGTCCAGAGAAGCGGAGGGAGAGTGGAGGGCCTTC
Celera SNP ID:            hCV3122273
SNP Position Genomic:     52963
SNP Source:               Applera
Population(Allele,Count): afr(A,14|G,8)   cau(A,28|G,8)   total(A,42|G,16)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,7|A,3)   afr(G,7)   his(A,3)      total(G,14|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60433):
TAGGGCTACGGTTGTATCTGTGCCATGGGGAGGTCGTCAAACCACAGAGAAGCTTTTAAACCAGCTGGACAAGAAGTTCCCTCCCCCAGGGCACAGGCCT
K
GTCTTTTGAAGGGACAAAGAGGTGCTGCCCTCAGTGCTCTGTAATGGGAAGGGCCGGGGTGGCCTGGCTGAAAGAATGACCCTGAACTCCCTGCCAGGCC
Celera SNP ID:            hCV8859000
SNP Position Genomic:     48137
SNP Source:               Applera
Population(Allele,Count): afr(G,8|T,26)   cau(G,7|T,31)   total(G,15|T,57)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60434):
TCAGCTGGCCTCTCCCCGGGAGACCACCAGGTGTGGGCCCAGATCCCAGCTGTCGGTTGAGCACAGCTCCTCTGACCCGCAGGCCTCCCACCCCACTAGC
S
GACCGTGCCTTCTCCACCTTCCCCTCCTTTGGCTCTGTGGGCGCGTGGCTGGAGGCCCTGGACCTGTGCCGCTACAAGGACAGCTTCGCGGCTGCTGGCT
Celera SNP ID:            hCV3122274
SNP Position Genomic:     52809
SNP Source:               Applera
Population(Allele,Count): afr(C,5|G,29)   cau(C,5|G,27)   total(C,10|G,56)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): chn(G,10)   cau(G,10|C,2)   his(G,10)      total(G,30|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60435):
ACTTTTCTCTTTGGTAGGGCTTGGAATTGGCATCATCCCCACTGGCCGGGCTGACCTGTGGTCACAGGGTGAACTAAAGCCTGGTGAGAGCTAGGTGACC
R
CCCTGGTGTCACACAACACCAGGGGATCCAAGCGCACAGCCCTGGCCTCAGTCTTCTCCCTCCACAGCGGCACGAGGGGCAGCTGGTCGCTGGGCAACTG
Celera SNP ID:            hCV8859001
SNP Position Genomic:     50985
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60436):
GCAATTGTTCACCCCATTGCCCCAGAGGGCTGTAGCCTGCCTGCCTGCCCAGGCCCACCTCACTGCACATCCTCCTGGTCACTTCTGCTTCTCCTGGATT
K
TGCCCACATCCCCGGGTACAATGACCTTTGACTGGAGAAATAGATGTGGTAATAGCCCTAACACATTTGTAGTTCCAATGAATCAAATATGTGAAATTAA
Celera SNP ID:            hCV3122275
SNP Position Genomic:     52398
SNP Source:               Celera
Population(Allele,Count): chn(G,2)   cau(T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60437):
TGCCCCAGGCTTCCTTGGGTGTGTGTGTGTGTGTCTGTGTCTGTGTGTGCGCATGTGTGTGTGTGTGTCTGTGTCTGTGTGTGTGCATGTGTGTGTGCAC
R
CACCATATGCTGGGGAAACCCAGAGCCTCCTCTCTGCTCCCCACCCCTGTGGCCCAGGTGATCAAGGCTGTGGAGGATGGCTTCCGGCTGCCACCCCCCA
Celera SNP ID:            hCV3122276
SNP Position Genomic:     51942
SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60438):
CCCGTTGGCCCTCAATCTTCCTGCCTCAGGCCCCTCTTCTCTGTCTGCTTGCTTCTGGTTCTGCCTGGCCACTGCCCCAGGCTTCCTTGGGTGTGTGTGT
S
TGTGTCTGTGTCTGTGTGTGCGCATGTGTGTGTGTGTGTCTGTGTCTGTGTGTGTGCATGTGTGTGTGCACACACCATATGCTGGGGAAACCCAGAGCCT
Celera SNP ID:            hCV3122277
SNP Position Genomic:     51870
SNP Source:               Applera
Population(Allele,Count): afr(C,6|G,14)   cau(C,1|G,21)   total(C,7|G,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(G,4|C,4)      total(G,4|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60439):
CCTGCCTGCCCCTACAGAGTGGCCGGAGCCCAGCGCTATGGGCCGCTCCCGAGACACTTCAGTTTGGCCACTTCAGCTCTGCCAGTGACGTGTGGAGCTT
Y
GGCATCATCATGTGGGAGGTGATGGCCTTTGGGGAGCGGCCTTACTGGGACATGTCTGGCCAAGACGTGAGTAACCCGTGGCTCCAGCTGCATGCCTTCT
Celera SNP ID:            hCV3122278
SNP Position Genomic:     51632
SNP Source:               Applera
Population(Allele,Count): afr(C,33|T,5)   cau(C,34|T,4)   total(C,67|T,9)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): cau(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60440):
TGTCCATCCTCAGCTGGCCTCTCCCCGGGAGACCACCAGGTGTGGGCCCAGATCCCAGCTGTCGGTTGAGCACAGCTCCTCTGACCCGCAGGCCTCCCAC
Y
CCACTAGCGGACCGTGCCTTCTCCACCTTCCCCTCCTTTGGCTCTGTGGGCGCGTGGCTGGAGGCCCTGGACCTGTGCCGCTACAAGGACAGCTTCGCGG
Celera SNP ID:            hCV937705
SNP Position Genomic:     52800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60441):
GAGTTGGCTGGGCCTGGCTGGGGAGGGGCGGGCTCCACCCTGCCTCACTCCTCAGCCCTCTGCCTTGCTACACTGCATGAGCCCGCTTGTCAGCCCCAGT
R
GTGGAGGCCCCATTCCTCAGGCTCATCTCTTTCTCTCCCAGTCAAAGTCCCAACACGTCGCACATTCCTGGACCCCCAGAGCTGTGGGGACCTGCTGCAG
Celera SNP ID:            hCV25961820
SNP Position Genomic:     48399
SNP Source:               Applera
Population(Allele,Count): afr(A,4|G,34)   cau(A,3|G,37)   total(A,7|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:60442):
GATGACATGCAGGCTGGATCTGGGGCTCAGTGGGGTGGGGAAACCTGCGTGTCACCCAGTTCCTCCTTGCCCCTGACCTGCCTGCCCCTACAGAGTGGCC
R
GAGCCCAGCGCTATGGGCCGCTCCCGAGACACTTCAGTTTGGCCACTTCAGCTCTGCCAGTGACGTGTGGAGCTTCGGCATCATCATGTGGGAGGTGATG
Celera SNP ID:            hCV3122279
SNP Position Genomic:     51556
SNP Source:               Applera
Population(Allele,Count): afr(A,4|G,34)   cau(A,4|G,34)   total(A,8|G,68)
SNP Type:                 MIS-SENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): cau(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60443):
CAGCCTAATTAATTAATGACTTTGAAATCCACTGACTAATGCCTGTTCACCGACGTGAATTAGATTGGGAAACTGTCCTGGAGGAGCTCACAGGAGAGGG
R
TTTGTGAACAGCTATAACCCATGTCTCAGCTGGATAGAGACTCAGTTTGGATAGAGACCCAAACATGGGACACTGTCCCTTTCCCCACTAGGCCTTAGAG
Celera SNP ID:            hCV937707
SNP Position Genomic:     40437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60444):
ATTCCTCAGGCTCATCTCTTTCTCTCCCAGTCAAAGTCCCAACACGTCGCACATTCCTGGACCCCCAGAGCTGTGGGGACCTGCTGCAGGCTGTGCATCT
R
TTCGCCAAGGAACTGGATGCGAAAAGCGTCACGCTGGAGAGGAGCCTTGGAGGAGGCAAGCTGGGCGCCCAGGAAGCCTTGTCCCCATCTGGAAGCCTCA
Celera SNP ID:            hCV25960738
SNP Position Genomic:     48511
SNP Source:               Applera
Population(Allele,Count): afr(A,4|G,34)   cau(A,3|G,37)   total(A,7|G,71)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60445):
AAGGGCTATATTTGAAAGGCTTCAGTGTACTCTCATGGAGCCTGCTGAGTAGAAGCCTTGCTGGGCCACTGGACCTGGGCGGGTGTCTGGCAGCTCCCCT
Y
TGGAGCCACAGTGCTGCTCATCTCAACCTCTCTCTGCACACCAGTCCAGCCCATGATGCAGAGGGGCTTGCTTACGGCACGTTGCCAATGCCCAGGTAGG
Celera SNP ID:            hCV937708
SNP Position Genomic:     38855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60446):
GTCCTTCTGCCTCTAAATGCTCTCTTATGTCTCCAAGCTGCAGCAAGTATAGAAAGAGCCTGGAGGATTAGAGCCGACCACCATGAGAGAAGCTGGGCTG
W
AAGGGGTGGGCAAGCAGCAGAAGGCCTAATGCTTTTCCCTCTATGGGACAATGAAGAAAAGGGCTGTGGGGGCAGAGGTGCTTCTTTCCTCTGGTCCCAC
Celera SNP ID:            hCV937709
SNP Position Genomic:     35932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60447):
AGTCAAAGTCCCAACACGTCGCACATTCCTGGACCCCCAGAGCTGTGGGGACCTGCTGCAGGCTGTGCATCTGTTCGCCAAGGAACTGGATGCGAAAAGC
R
TCACGCTGGAGAGGAGCCTTGGAGGAGGCAAGCTGGGCGCCCAGGAAGCCTTGTCCCCATCTGGAAGCCTCACCCACTCTATAGGCCCCGCCCCTACTCT
Celera SNP ID:            hCV25960667
SNP Position Genomic:     48539
SNP Source:               Applera
Population(Allele,Count): afr(A,4|G,34)   cau(A,3|G,37)   total(A,7|G,71)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60448):
GCTGCTAACCTGGTCCTCAGGATCTCACCTCTATCTGCCCTGAGCAGCTCATGAAAATATTTTCCTGAACAAAGGCAGTTCCCCCTAAGAGGCATTCTGG
Y
ACCAGCTGTCAAGATAATAATTCTTTCCAACCTGCTACATGACTCTAATCCAAGATAGGAAGAGCTCTGAGTCCAAAGGGAAGTGAAGATAAAATGCTGA
Celera SNP ID:            hCV11263892
SNP Position Genomic:     41252
SNP Source:               Celera
Population(Allele,Count): chn(C,5)   cau(T,4|C,5)   afr(C,5)   his(C,5)   total(C,20|T,4) 
SNP Type:                 INTRON


Gene Number:                 322
Celera Gene:                 hCG1816897 - 146000220817779
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(49256159..49283386)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12482):
ATGGGAAAAGAAATCCAGCTAAAGCCTAAGGCAAATGTCTCTTCTTACGTTCACTTTTTGCTGAATTACAGAAACAAATTCAAGGAGCAGCAGCCAAATA
CCTACGTTGGCTTTAAAGAGTTCTCTAGAAAGTGTTCGGAAAAATGGAGATCCATCTCAAAGCATGAAAAGGCCAAATATGAAGCCCTGGCCAAACTCGA
CAAAGCCCGATACCAGGAAGAAATGATGAATTATGTTGGCAAGAGGAAGAAACGGAGAAAGCGGGATCCCCAGGCACCCAGACGGCCTCCATCATCCTTC
CTACTCTTCTGCCAAGACCACTATGCTCAGCTGAAGAGGGAGAACCCGAACTGGTCGGTGGTGCAGGTGGCCAAGGCCACAGGGAAGATGTGGTCAACAG
CGACAGACCTGGAGAAGCACCCTTATGAGCAAAGAGTGGCTCTCCTGAGAGCTAAGTACTTCGAGGAACTTGAACTCTACCGTAAACAATGTAATGCCAG
GAAGAAGTACCGAATGTCAGCTAGAAACCGGTGCAGAGGGAAAAGAGTCAGGCAGAGCTGATGGATCCAGTTTGAAAAAACAAAATGCCATTCAACCGTA
TTTCCTGTTCCTGGTCTCATGTGTGGCATTAGAGTAGCTGTGACTGATGCTTTGTGGAGGAGGGAGTGGCTTGGTAGAGGAGAGACTGATCCTGAGGAGG
GGAACGGAGAGGACGGGAAGGGAAAGAAGGGGAAGGGAGGAGAGGAGGGAGGGGAAGGGAAGAGAGGGGAAGGGAAGGGAAAGGAGGGGAATGGAGGGGA
GGGAAAGGGAGGGAAGGGCTGGCTTTGAGAGAAGTGTCAGCAGTAAACAAAAGGTGTGACTTGGGCCACTGGGTGGGAGCCTCCAGGTGTAAAGTAGCAG
CAGTCATGGAGGTAGAAGCACCGTGGTTCTGAGTGGTGATCCAGGTGAGAGGACCCTACTCAGTGTCAGGTTCAGGAACATGACGTCTGACTCTGCTAAG
CAGTGGCAGGACTGGGAAGACTGCCAGGGCTAGAAGGCCTAGAGTTCAAGCTCACACTTGAGGCCCCAGGAGAAACATATGGCATCTGAGTTGAGACAGG
CCTGAGGGAACCCAGGATTTCCAGCAACACTTAGATACGCTCAGTGGGGCCAGGGTGAACTCCCAGGGGTGTTCCCTAATCAGGAGGAGGCAAGGGGCAG
ATTTTACCAAAAAAAAAAAAAAAAAGCAGGGGGCTGGGGAACCAGATCAATCGTTTTTCAGTGGATAGATGTATAATATGTGGCCTCCACTCCTCTTCCT
CTTGTTCATAGCACTCTGACTCCCTTTCGTGACCAAGGCTGGATAAGAGGGCAGGATCGCCTTGGCCACAGTCATTGGCTCAGTGGTGGGCATGTGACCC
AAGTTGGTCCTATCAGGGTGGACCTCTGGACCTGTGTAAGGAGTCCTGGGGGACACCGCAGTCCAGGGAATGTGGACAGCCATTTGCCATCTCATAGGGC
CCAAGAAGGAGGCCGAGATGCTAGAATCCCTGTGGCATCAGAACAGTCTCCTAAACTTTTCATTGAAGATGAACAACACATTTCATTTTTTCCCTGAGAT
GGTTTGACTTAGGTTTTTTCCTACTTGACTATAATTTGACACAAATGGGATTGTGCTGTAAGTGTCTGTCTGGTAACTAGATTTTTCAGGCAAGAATATA
CTGTAGGCAACATTCCATACCAATCAATAAAGATTGAAATGGAATATTTTGAAATGGTTCTTCTGACTTCTTGACATCAAAAATACTGGGCCAAAATGCA
AAGCTGCTTTTTTGTCACCAGTTTATACATGCAACAGATCTCCCTAACTCCACCTCTAAGGACCCCTATTCCATGATAGAGGGACCTACACTTTCTACTC
TACTGCGCTGAACAGTAAAAATACATATTTTTGAACAGTCTTTTAGAACTGCATGAGCCTTTAGGGGATGAGAGGTAATACAGTGATTTAGAAATTCAGG
GTCTGGAATCAAACAGGTCATTTGTGGAGGATTTTCATGTGCCAGGCCATTTGCTGGGTACAGGGAGGCACATTACGCACTACTGCTAAGTTCCCGCCCT
ATAAAAAATTTCCTTCTGACAGGAGAGATGGACTTGGGCATAAATTGCAGCACTGCAAAGCAAGATGATGAAAGTGAATGCAGAAAGTAATGGGGGAGGG
ACTGGGGACCACCCAGCAAGCCTGTGCTGCAGTCTTCATGAAGGAAGCAGCCTTATTCCACTTGACAACTTTGTAGGCATGCTGGCAAAATTCCCGTTCC
GCATTCCCCACAGCTGCTATTCCAACTTGGCTCTGCTTCTCTTCCCTCTCAGGAGACGCCCGCATTTTCTGCTTCATTGAGAAAATAGAGATCCTCAGAT
ATAAGTGCTCTCAGTTTCCTTCATTCTTGAAATGTAATCCATACCAATCCTTTCCTCCTGGTCTCACCCCTCACGGAGAGCTATCCCCCTCCTGCTCTTC
CTGCCCCCTCCCTGCCTCCCTGGGGCCCTTGCTCCTTACTATAAGGGTGCTGGCCCTCCAGCCTGTACACTCATACAAGTTCACTTGATGCCATGATATG
GTGGTCCCCACCTTAATGTTGGCAGAACTTAGGGCAAGTTCTCATTCCTCTGAGCCTCATGTTCTTATCTGTGCAAGGAGGATAATGCCTGCCTTACAGG
TTGTTTTAGCAATTAACTGAGGTAATACATGTAAAAGTATTTGGCACAGTCCTAAATCTAATAGGTAATATAGCGGATATACTCTAGGGTGGCTGTTCCA
TAATCCTTTCCTCCTTTCTTGGTGTTCACACCCTTGTATAATCCCCTCCTATTAAGTGTGGGCTGGACAGGTGACTTTCTTCTAACCCATAGAATGTGGC
AAAGGAGATGGGATGTCACTTCTGTGATTATGTGATGATAAATAATACTATATATTGCTAGCCACTTTGCTCTAGGGATTCTCCTTGCTGCTTGATGAAG
TAAGTGGTCAAGTTTGAGAAGCCCATGTGGCAAGGAATGACAAGGAACTGTGGGAAATGTCTAGAAGCTGAGGGTGGCCTCAGACCATTAGCCAGTGAGA
AACAGAAGTTCTCAGTCCACCAACCACAAGGAACTTAATACTGCAGCAGCCACACAAGTGGGTAGGTGAATCCTTCCCCAGTCAAGCCAGCAGATGAGAA
CTTGGCCCTGGCTGACCAAGGCCTGAAGCAATGCACACAGCTAAGCTGTTACTGGACTCCTGACCCCACAGAAACTGTATAAATGTAAGTTTAAAACTAT
AAATGTTTAAACCATATGAGTGTATTTTGTTTTAAGCCACTAAGTCTGTGGTAATTTGTTACACAGCAATAGAGAATACATTACTCAATAAATGCCCTCT
TCCTTATAATTCTAGAAGAGACTGTCTTTAATCTTGTTTCTATCTCCAGCCTCTACCTTCCCCATTTAATTTCCTTTCCTTTGTTACCAATCTCTTGTTA
CCAACATCTTGAAGGTGGAGGGCCACCTCCCACCGTCCAGTGCTAATTAGATCCTGATTTGTATTACCCAGTAGTAGTTCCAGTTGGGTTGTCTTGTTTC
CAGCCTGAAATGTGGGCTCTTGGTGGGCAGCAGCTGTGTGATGTACCACACTCCTCTCTGGGAAGAGGGCCCCCACACAGCTAGGCCCCAGCTCTCATGC
CACCCCTTTCTGGTTTCCTGTGTGATTAATTATGTGAATGTGGGTGGCCAAGTCAGAGTTTTGACAAGAGTTTGCAGTTCCCCTGCTGAAAACTAACTCC
ATTAACAGTCCTTTATGAAAAAGACAATAGGAGGGTCTGAATCTGCTGGCTTCTAATGACTGTAATGTAATGACAATGGAGAGAGAGGGAGGGAAGGAGG
AGGAGAAGTTGGGGGAGCCTGGACCTAAGATAATGGGTGAGAGAAAAAGTAGATGGACAATCTGGTGTGGTGCCAGCATTCCAGGCCCACTCAGCTGGCC
TCAGGTGCTCCTGTCCTTGAGAAGAGGAAGGCAGGCCCATCACCATCTTGATGACTGAATCACTCAACTCTGATCCTTCTCTCCTCAACCGTTTTTCTGT
GTTCATGTAGTCATTAATTTACTTACTCATTCATTCAACAGATATTTACATAAATCTTATGCCTGCAATATAACAGCAACTATTCTGGTGCTGGGAATAC
AACAAGGTTCCTCATCTCTCACGTTCCGGTGAGGAGAGACAGACAATTAAAAAAACAACAAATAGGCCAGGCGCGGTGGCTCATACCTGTAATCCCAGCA
CTTTGGGAGGCCGAGGTGGGTGTTTCATGAGGTCAGGAATTTGAGACCAGCCTGATCAACATGGTGAAACCCCATGTCTACTAAAAATACAAAAATTAGC
CAGGTGTGGTGGCACGTGCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGCGAGCCCAGATTG
CACCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTTAACAAACAAACAAACAAACAACACAAATACATATATCGAATCAGTTTTTGATAGGG
TAAAGTACTCACTAGAAAATAAACGTGGGTAATGAGATAAATGATGATAGATAGGATAGAGGGCACTTGAAATGGATGGTCAGAAGTTTTCTGCGGAGCT
GGCATTTGGGTTTGGATTTAAAGGGCAAGAAGGAGCCAGACAAGCCAAGGTGTAAGAGAAGAGTCCTCCAAGCAGCAGGGAAGCAAGTGCAAAGGTCCTT
GCAGAAGCGAGCTTGGCATATTAGAGGGACAGAGGGAGGCCGGAGCAACTGGAGGTGTGAACAAATGGGCGAGATGTGTTTGGAAGGGTGAAGGCCTTGG
CAAGGGGTTTATGTGGAAATCTAAGTGCAACTGAGAGCCACAGAGAGATTTCAGTAGTGGAGAACCACGTGCTTCCATCTCTGACTTTGTGTTACTCATC
ATTCTAGGGTCTTCAGAGACTATCAAGTGCCAACAAGGGGATTACCCCTCTGCCCCTCTAAAGGATTGCAAGAAAGAAGACACCAAATCCATGGCATTTT
TTCCCTTAGGAAAGAAGGGAGATAATGAGAAGCCTCCACTTGGTATTCCTTGGAGCAGCTGGAAGCTAAAAACCAAATGTGGGAACTGTGAATCCTATCT
CTGGGATATGTTTTCTCAGGAAATGGAGGAAATGGGTGGGCACGGGTGGCAAAATATTCCAGGGGAATACTTCTTCCTGGGCCTTGTGGGGAACAACTCC
CAAAAGGCCAGTGGTTCTCAGCTTTAAGCCTGTGTTAGAATCACCTGCAGGGCTTATTAAAACACAGATTGCCGGGCCTTACCCCCAGAGTTTGATTTAG
TATTTCTGGGAGTTGGATCTATAATTTGCATTTCTGAAAGTTCCCAGGTGATACTGATGCTCCTGGTCCCAGGACCACAGACAAATTCTCCTTCTTGTAG
CCCCTCATTCACTCTGCGTAGGAGGCATGGCTCATCTGGCTGGTGGGTTTGGGAGGAGGAGCAGACCATGCTCAGTTAGCCCTCCCCACTCTCCCTTTCT
CTCTCTCCCCATCGCCCTAGCTGCAGAGCATATTCAGACAGCTCTCCAATCAGTTCATCAGTAATAAAGGTGACATGCTGATCCTCATCTGTTTTTCTCT
TGCATCTGCCAATTGATTCTGCACTTGAGAGGGGAATAAGTATATTTATTTATTGGGTTTCCCTCAAATTCCAACAGAGAAGTTGGTATCAGTTGCAAAA
CAATCAACTGGCATCCGGGCCACACAGCAGCATAGGAATCTTGGTTTTAGCTTCCACTAAAATATCAATTATTTGAGGGCAAAAAATGTCCAATTCCTGG
GCCTTTAAGATAGGAAGTCAGGTCTGTGGATGGGGTGAGGTCACCAGGATGAGGTCACAAAGGCATTGATGCCCCTTTGTCCTATCATGTGACCACTTGT
CACACTTCCATCAAACAGTACCTGCCCCTTAGGTGTGCTAGGGAATAAAYGAAATGCCTGGGACATCATCGTTAAGTGGCATCTGATGCATAAGCAGTGC
CCTAGGAATGGGGTTGCCTGCCTTGGTCTCTAAAGGATGGGTTCAARAGGCAAGAGCAGCACACAAGAAGATAGCTTCAAGCAGGAGAWAAAGCTTGGCC
CAGGGCCCAAAGGGGATACGACCCTTCAGGTTGGCCCTGACCTCTGGGTTGGATTACCAGTGACACAATGAACATTTCATTATGAGGCCATCCCTTGAGG
TAGTTGCATTGCAACAGCTCTCCCTACCCAGTGCTGCATTTCCARTGCTTTCTCTGTTCAGGCTGCTGGGTGACATTTCTATGTCTCCCCTTCAACGGTG
AAATATTTCAGTGGTTGTCCATCACCTATGGGAGTCTGACATGGCATAATCAGGCCACTGGGGCATTGMTAGTTGTGCTGTCCCTGATATTCACCGTGGT
AGGCAGTTTCTGAAATGGCTCCCAGTGATCTCCAACTCCTGAAATTCACACTCTGTGTAATCCCCTCCCTTTGAGTGTGGGCTAGACCTGGTGGCCAAAG
TGATAGGATTTCACTTCTGATGTTAGGCTATGAAAGGCTGTGACCGCTCTCTCTGCCTCTTCTCTCTCACTTGAAGCAAACTGACATGCTGAAAGCTGCC
CTATGGAGAGGCTCATGTGGCAAGGAACAGAGGGTGGCTTCTGGCCAACACCCAGTGAGGAACTCAGGCCCTCAGTCAAACAGCCTGCAAGGAACTGAAC
CCTGCCAATAACCGTAAGTAAGCCTGGAAGTGGATCACTCCCCTTTGAGATGCCTGCAGCCCCAGTGGACACCTTTACTGCAGCCTTGTGACGGACTCAG
CTAAACTGTACCTGATTCTTGACCCATAGAAACTAATAGGTGTTTCATGGCACTAAGGCTTCAGATAATTTGTTACAAACTGAAATGATGAGTACAGATT
TTGGCATCAAGAGAAGGATAGTATCATGACATATACCTAAAAATGTGAGATAGCTTTGGAACCAGGCAGTGGGCAGAGGTGAGAAGTATTCTGAGAAGCT
TGTTAGAGAAATCTTCAATTGCCTCAAAGACAATTGAAGACACTGTAGAAATCTGGACTTTGAGGATACAGCTGGTGGGGGCTTAAAAGAAGTGATGAAC
ATGTTATTGGAAACTAGAATGTCTTTGTCCATTTTCTATTGCCTGTAACAGAATATCTAAAGCTGGGTAATTTGTAAAGAAAAGAAATTTATTTGACAGT
TACCAGTTACAGAGGCTGAGGAGTCCAAGGTCAAAGGGCTGCATCTGGTGAGAGCCTTCTTATTGGTGAGGACTGTCTGCAGAGAGGACTGAGCATGTTG
ATGTGCCTGCTCAGGTCTCTCTTCTTTTGTTTTGTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGTAGTAGCGTGATCTCGGCTCACTAC
AGCCCTCACCTCCTGGGTTCAAGTGATTCTCCTGTCTCAGCCTCACAAGTAGCTGGGACTACAGGTGTGTGCCACCACATCTGGCTAATTTTCGTATTTT
TCATAGAGATGGGGTTTCACCGTGTTTGCCAGGCTGGGCTCGAACTCCTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACGGCACGAGCCATC
ATGCCTGGCCTCTTCCTGTTCTTATAAAGCCACCAGTCCCACTCTTGTGATAACCCATTAATCCATGGATGGATTAACCCATTCATGAAGACAGGGTTCT
CATGATCCAATCACCTCTTTAAGTCCCCACCTTTCAACACTACCATATTGGGGATTAACTTTCCAGCACATGACATTTGGGGGACCCATGCAAACCATAT
CATGGAGRAGGGACATCCTTGTTAGGTAGTGGTAGAAAGCTTAGTGCCACTATTGTCTGCAGTTACATGGAAAGCAAAATATGTACCTAATAAACTTAGT
GATCTAGCTATGGAGATGTCCAAGCAAAGTGTTGAAAATAATTTCTTCTTACTGCTTATGTGAGAAGAGAGAAAAAAAAAAGTTAAAGTGAGACAGGACC
TGATAGTTTTGAAAATTCTCAGTCTCCCAAGTCAGCAAAAGGTGCTAAAATTAAGAAATGGCATTTGAGCAAGAAATGGTGGTCTGAGATAAAGCTGTGG
GTGTGACTGTGGGCCTTTGGTTAAGACTTCAGAAAGATCAAAAGATCATGGTATTATTCAGTCATACAAAGGCCCTTTAAAGAGATTAGGGTAGGCCTCA
TAGATCCTCCAGATCAAACAATAGGGACTCTAGGAAGCCAAGGGGCTGTCCCTTGGCCATCTTTTCAAGAGGCTCAGGTTGAAAAGTTTAGTTCTCAAAG
AAATTTGTGGGTTTGTTTTTTTGTGTAATAGAGGGAATCTCAGTGCAATTTACAGAAGACCCAGAAGGTTTCTGAGAAAACCTATGAGAAGAAACACAGC
TGGGACAGAAAGGAACAGAGACAGTACAAAATAAAATGAGGCCATTGGACCCCTAAAATTCTCAGCAGGAAACAGGCTGAGAAAACAAGTCAGCTTTAAA
CACAGGTTTCCTTTCATGAAAAAGGAAGGATTACTCAGAGGGAAGAACCAAGAGCTTAGAAGGTGGAGCTAAGAGTCATGGAGAATTATCCCCAGGCTTT
GAAACCTAACCAAGAAACTTGCAGTCTTTTCCTGGCTGGATTTCAAAATTGTTACGGACCAGTGACGCCTTTGTTCCTCACATTTTCCTCCCTTTGAGTA
GCAGTGTTTATAGCCATTCCTCTATACCTAACCTGCCATTGTATGTTGGGCATATGGGGGGCAGATAATTTATCTCCTTAGCTTTTCAAATCACCAAATC
TGTAGTAACAGTATTCTAGAACTTGTACTTAAGGAATTATACCCAAGAGCCTCATCCACACCTGCACCTGATTTAGATGATGAGATCCTGGACTTTCAGT
TGGTGCTCCCACGGGAGGAGATGTTAGAGACCTTGGGAAGGATGATTGCATTTTGTGTGTGGAAGGGACATGTATTCTGCATGTGGAAGGGACAAGAATC
ATTGGAGAGCCAGAGGGTAGATTGTGATAGGCAGCTTCAGAAATGACTCTAAATTTCTTTCTCTTCTGGTATGTCCTTGTGCAGTCCCCTCCCTTTGTGT
GTGGGCTGGACCTAGTGATTTGCTTCTAAAGAATAGAATACAGAAAAAGTGATAGAATGTCACTTCTCATATCAGGTTATAAAAGACTGTCACTTCTGTC
TTATCCTCTCTCTCTGGCTCTACTCTCTGGCTTGCTCTGATGAAGCAGCTGGGTTGAAAGCTTCCCTTTGGAGAAGAACTGAGGGCTGTCTCTGGTCAAT
AGCACTGAGGAACTGAATCCAGCAAACAATTATGTGAAGAAACTTGGAAGCTTGTCCTCCCCTCTAGTTGAGCTTTGAGATGACTGCCGCCCTAGTGGAC
ACCTTGATTGAAGCCTTATGAGAAACCCTAAGCCAGAGAACCCAATTAAGCTACGCTTACATTCCTAACACAGAGAAAATATGAGCTAATAAATGTTGTT
TCAAACCACTAAGCTTTGGAGTAATATGTGACACAGCAACAGACACCTAACGCACCTGCCCTAAGGTCGGGCTACACTGCATTTTCCCCAGAAACATTAC
ACTCTCTCCTCCCCAGGGCCTTTGCACATACTTCTCATCTCTCCTACCTTTTAGGTCTGGTAGACTTCAACCTGTTCTACAGACTTAGGTCAGGTATCCC
TTCCTCTAGGAAGCTGTCTTTGATGCTCCAACTCCCTTGTGTGTTCCCATAATAGCTTATGTAAGTTCATACAATGCCATCCCAATGCACAGCACATTAT
AGCAACTGTTTGTCCCCTCAACTGGTAGAGAAGGGAAGGGATCTTGCCTTATTCATCACAGTGCTCTAAAATTTAACACAATGCGTCACATGGAGTAGAA
TGATAATAGCACACTTTTATTGAATGCCTACATCATACCTGGTAAGAAATAATTCATTGCAGGATTTGGGCTTGTGTTAGATGATTTGGGTACTGTTTGA
AGCCATTTAATGCAATTATTTTACTTAAGAAAAACATTCAATGAGAGCGGTACTTTAAACACCCCATTTTACAGACAACTTGAACAGCAGGTTAGGTGCT
CAGTTCATGTTTGATGGAAAATGAACAATTGAATCATGAGAAGCATGTTTTTTCTTCTGTCCTGTGTCTCCCTTCTCTCAAGAACTCTTTGCAAATACCA
GAGTATTTGTATTTTGTGTGTGGAAGGGACATGTATTTTGCATGTGGGCCAGAAGGCCTCCTGGGCATCTGGACATCCACTTTGTGCTTGACTGGTCATG
TTACCTAGCTTGGTATTTCCAGATAAGTACCTGGATCTATCCCTGGGTGTCTCAAAGGGAGGGCTTGGTTAGCACCCAGAGAGTTTGATGGGCACCAGAA
ACCACACCTCCAGCTCTTCGCCCACAGCTGTGCCTCTGGCTCCCAGACAGAATCAGCATTTTCCTCTCCCCACACTCTGTCATTATAAACCACGTAAATT
CCTCGATACCCATGTTACAACGAACAGATGCGGCTCTGTATTTTTAATGTATTATCTCTAATTAGCRGCAGTGGGCATGGAAGAACTCTGTGGTCCCTGG
GGCTGTCCCTCACTGATGCAGCTGCGAGTACATTTGTGATGAAGAATCTGGCCAGGCTCCTCTGGCCCGCACAGCCCTGGCAAGTGGGTGAGGGAACTTC
CATGTGCAAAGTATCTACTCTGCCAGGAAGTGGGAAAGGGCCGCCAAGGCCTGATCATCAGTCCACTGCTCATCTAGCCCCCACTCCCACCCCTCTATGC
TGTCTAAATACCCTGAGAGGATGTCCTTCATTGGGATCCCAGAGACAGGGCAGACAACAGCCTCCAATGTCATGGGCAAAACAGATTTTTCTAGGTTTGA
GGTCTGCAGTGTGAAGATCTGTGAAATGCAAAAAGAGAATGCTTCAGTGCCCAGGGCAAACATAAGGGGCGGGGGAACTGCATGGACTTCAGAAAAGAAG
GGGGCTGGTTAGTGAGAGCAAATGTATGCTCCTTAGCTCTGTCCAAAGAGGAAGGGTATTTCTTATAATAAATGTCATGCTCATGACTGACATGYTTTGG
GCRTTTACTATGGACTAAGCCCTATTTCTAAGTGTTCTCCAGATATCATCACGTATAATTCTAGAGGCAGTGTCAGCCCCCGGCCAATGACCACCATGGA
CCTCCCTGTAGTTGAACAAAGTTGGGTTTGCTGACTGGTGGCAGTGAGGGAGAATGCACACCACAGGGAGCTGTGCAGTGTCTCAGTAAGAAGGTAAGAA
ATAATTCACTGTAGGATTCGGGCTTGTGTTAGTTAATTGGGGGAGGGTTCAAGGAAGCAGAGCTTTGCCCTGGATTGGAGACTGGAGGTAGGTGTAATTC
TCTGGTTGGGTACTTCATAAATTTTATTTACAAGGCAGGAGGAATGAAGGAAGATAAGAGTTGTAATTGGTAAAGAAGCAGCCATCACTCACATCAGCCA
AGAGGTGGAGGGAGGGGGGCTGTTAAGTCATCTTTGTATTTTGAATAATGTTCTTGTTTTTGTCTGAATTCATGATGTTGAAATGGTCTTGTTTTTGTCT
TCATCTATCAGGGTCCTAGAGTGGTTTTGTCCGGCATTGACATTCAGTGAAATTGTTTATGGTCAACAGGAGAACCCCAAGGTCTAGGTGTAGGTGCCAG
GCCAGCTCTCGGCAGCAAAAGGCCTTACTGATAGTGCCAGGCCAGCTTGCAGCCATCAGGGGCTGCTGTTCTCCTTCTCAGCAGGCCCTGTTACTATGCC
AGTTTACAGAAATAAAGAAATTGAGGCAAAGACAGATTGCCTGGTCTTAGTTGTCTCACAGCTGGGAAGCAGCAGAGATTCCAGAGTCCCTGAAAGTCAA
GTGAGCATCAAGAGACAACAGAGGGAACTAAAGGGGAGAGTTTGTAATTACGGGAAGCCAGCCTGACCATGAGGGGAACTGGTCAAGAGATAGAACACAG
GATTTGTAGTCAGAGATCTCTACCTTGGGAATCTGTCATTGCTACTTACTAGCCATGTGGCCCTGGGCAATTTGTCGAACATGAGAAATTCACTTTATTC
TTATGTATAATGGCAACACCAAAAGCTGTTTCTCAGGGTCATATGGGAATAGAATGAGAAGACATGGCATAAAGAACTTACGTACCACTTGGGACACAGA
TGCTGCCCTGAGTATTTACTGMACGCCAGGCACTGTTCTAAGTCCCTCGCATGTATTTACTCATCTATTACAGCAASCCTTTATAACCTGTGGCTTGCAG
GTGAGAAGATGGAGACACAGAGAGGTTAGGCGACTTGCTTGAGGTCACACAGCTATCAAGTAGCAGAACTCAGGCATCCTGGCTGCAGCACCCACACTCT
ACCATGTGTCATAGTAGCTGTGGGGTCATTGCTCCTTGYCCACTCTAAGTGCTCCAGATCATGAGCTTCAAGACCCTAGTCTTATTCTGATGGTGATTKA
ATGCCCTGGAACTCTCAAGGCCCCAGACTTTTGCTTGTGAATGGGTCTAAGCTGCTTGCTTGGCTCTGGTCCGGAGAGCATTCATTTCCTTTTAGAAGGT
CAAAACATTCTTGGCATGACAGATAATATAGATTCAGGTTGCTGCAGTCTATAGATCAAATAAAACATAGTATTGCCTTATTAGTATTTCTACACCTTTC
AGTAAGTAGTAGAGTCAGAGAAAACCCTGAAAAATGAGTATAAACTAAAGAGGGTAGGAGAATGACTCAATGCTGCAGCACAAGCCCTCTTTTGGCAAGA
TCGATGTGTGGGCAGAAGGCAAATGGCTGCTGAGAGGAAATGGGCCASACCTGGCTGGTCTTATTCTATCCTGTAATGGCAGAAAGCTGTTCAGGATGGC
TATGGCGCACAGCCCAGGGCTGACTCAGCATTGCCTCTTCCTAACCTGTTGAGTGGGTTTATAGATTGTGTCACAAGTTCTGGGAAAATGAGAGGTCAGG
ATTCCTGGGCCCAATGGCTCGTTAACAGAGGTCCTGTGTGCCATCACCCCCTCCAGTCCTTGTCCCACTGGACTTGTCCCCCTTGTCGCACTGGGGGAGA
TGAGGGCCTGGAACTCACAGCAAAATTCTCTCTGTGGCTTGATGCAATCCCAGATCCTCACCATCAACCTTTGTGAGGCTCATCTGTTCTTAATTATATC
TCTAAATCCCGAGGCATTACAACTCTGAGAATTTGGGAAATTTAGCTGCTTAGAGGATTCATAATAATCACAAAATCCCTGGTATTTACAGAGCTCCCTT
TTGCAGACTGTGAAAGGCAGACAAGACAATACTGTAGTGGTAAAGGCACCCCGAAATTGCTCTCAAGTTCTCTTCACTGAATGCCAGGCCCTTAGTCTGT
ATTATTTTGTGTAGCTCAAGGGGGCAAATTGAAAAGAATACTTTTCCCTATTACTTTCTGAGAGAGACCACAGAGAAGAGAGAGATGTTAAGTTAATGTC
GAAGATATGCCCAGGGTTGCTGCCAAGCCCCTGCCCTCTTTTCAGGATTGCGCTGCTGAAGGGAGGGGCTCCTGCAGCTATACTGGTACAAGCTGAGCTT
GCCCCTTTCTAGCTGCAGCTGATTGGACAAGGAGTGGAGACACTCGACTGATGAGTGGAGCCAATCAGATTCTCTCTCTTGATAGTTTGAATTAAGAGAT
GTGGAAACTGGGAGTTGGGTTCCTGGATTTGAAGGTCAGGCAGACTCAGGGGCTGGAGTGACCATTTGGGACCAAGCAGAGAGAAGGGGAATAGACCATG
TAATATCTGAGAGTTGCTTTTCAGCACTTTCTGCCCATGTATTTGTTCAGCAAATTCTCTGATTCCTAAGCCAGGAGCCATCCCGTGAGGCCGTTACTGC
AAACAAGCTGAAAATCCTGCTTTGTTTCTTTTGGACACAACATGCTTTCCTTCAGCTTCAGTAGACGATGAGGCCAGCACCACATGGGCTAGATGTACAT
GAGATGTGAGCAACCACACTTCCCCTCTGACGGGGACAGACAGCATCACAGGTGAGTGGGAGACCCACATGTGGTCCATTCCAGACACCCCCGCTGCTTT
TATTAGAAGCCAACATGGGCCTCCCTTGAGCTGCCAGGTGTTGGGTGCAGCTGCCCCTCACCTCCCTAGCTTACAGGAGAAGGACTGAGCAAAGTCTCTT
CAAAGGAGCCATTATTGTGACACAGCACAGCCATCTGCTCCCCGCATTGATCTGACAGTGGCAGCAAGGGCTGAAAGCAGTAGTAGAGGCCCAGGAGCAC
AATTCAGTGAACAGCCCTCATTGATCTGTTTACCTGCTTGATGGCTGGCCAAACTCTCTGTGTCCGAAAGACACCCTTGGAAGGTCAGAGCTGGAAGGAC
ACCTTAGGGAGGCCTGAGGACAGTCCAAGATTGTCACAAATGGGAAAAGCAAGCCCTAAAGATACTATTGAGATATGACCTTTCCAATTTCAATCAAGGG
AACTCAGATAACTCCCACTGTTTATGGGACAGCCCTGGGGAGGGGGACAGGGTGCTATTGTGCTTTGTAGTCCTATTTGCCACAGGTAGTAAAGCAAAGA
GAATATCTATTTATATGAATCCATAGGACTGAATCATAAGCTCTTGAACGAAAAGAAAAAGCACATTCTTCTTACCGCGGTAACAATGTGTGGTCACTAG
TTCAGAACTCCCACTGTCCCTAAGCCACAGGATGCAGACCAACACAATCAAAGAGTTCTCTCGGCTGGAGGTTCCAACTGGAATGTGTGAGTTGGTGGCT
TCTATGGTGCCAGCTTTTGCTTAGCCTTTGCTTGGTCACATATTCAGGGTCAACCTGCCCTGTCCCAGTGACAATTGTCTCCAGCAGGAAATTCATTATG
AGCCCCTTTTCCACTTGTCGAGTAGATTCTGGAAATAGTCTGCTGTCCTCCCCACCACCTCCCACTAAGATCCCAGGAGCCAGGGATTTAGTCCCTGGAA
TCCCTGCAGCCTTGATCATTAACCACTCCACTTAAGTGTGGCCCATCTGTCTGGTTGGTCTGCTTCAATCTCTGGTCCCATTTCTTGCTCCCCCATGGGC
TAGCAGTTTTGTGAAACTGTTTCTGGATGGATGGACTTTGGGCCTACTCTCCCAAGGGTTGGGATTTATCTTCCCCATATCTATTAACCCACAAATGTCC
CTGACCTGAAAGTCACACAAATACCTGAGTCATGTGACCACCTCATTCCCTTAGACTTTGCCTTCCCAAAAATGCCAGTCCTGATGAGGGTAGGAGATTT
TGTCTTACAATATTGGGTGGCTGATAGCAAGCATTGGTGTCTCTCCCCYATTCCTGCTCTAACCACCACCACTATAATCATGAGCATTGGTTTTAGATGA
AGAAAGAACTGGCTTTGAATGCTGTTCCCACTACTAACTGTATGAACTTGGCAAGTTAGCAAACCACATTCTTCTGATCCTCCTTCTTCTTGTCCGTGTA
AAGGGTGAATTAAAACCTACTCAAGGTGACAGGTGTAGAGCAAATGAGAGAACAAATGAGAGCATGAATATAAAGAATTTAGCATAGCGCATCACACCTG
ATACTAATATGTAACACTCATTGAGAGTTTATAATATGTTAAGTTCTATGCAAAGTGCTTTGTAAACATTACCTTATTTAATCTGCACAGTAATCTAGTA
AGATCCTATTATCCAAAATTTTAAAATGAAAAACCTGAAGCTTGAAAGGTTAAGTAAATTGCTCAAAGTTAACAGCTAGTCAGTGGATGAGCAAACACTG
ATTGTGACCTCATGGAGACCAAAAATGATGATTTATCTAATTTAATGTCATTGTATAATGCCTATTATATACCAGGCACCCCAAAAATGTATGCTGAATG
AGTGTATGGCTCCCAAGTCAGTGCCCCTTTGCATAGCTGGGTTGAGAGCTCAGCTCTGCCAACTTACTGCTTCTCTCTCTCTCTCTTTTTGAGGGAGGAC
ATAAAGCTGTTTTTATTTCTGCCAGCATTTGTGTTCTTATCCCTAGTATGGCTATTACTGGATCTTTTAATACATTCAAACTTTCTATCTGAATGGATAC
ATTTCCATACCACCTACTCTTTAATGAGAGATTAAGAGATCTTAACTCACAGATTCAGCACTTGGACAGAGCTAGGATTTTTGAGCTAATGTGTAGTCGG
TATGGGATTTGCATTTAAAAACTATTTACATTAAAGTGTGACCCACATATGAGAAAAGACTGCGCTCTTCACTTACAGCTCAGTGGTTTTGGCTCTCTCT
TTCTTCTCATAGTCTATGAGATGAGAAAAGATTTCCATAAAGATTTTATGAGTCCAAGAGAAACATTACTCAAACAGGATTTATTTCAAAGGCATCATTC
TTGTGGCATGCTGTTTAAAGGGGAAGCAAAGCTCATATTGGTACAATTCTTATACTCAAAKAAAGTACAAATTTTGCAGAATATCCTCTTAAGACCTACC
AAGGGGACAACTTCTTCAATTTGGTTCAAATTAGCAAAATATAAAGCATTTTCAGCATCTCTGGGCTCATACTTGAAACCAGTGATAAGTGACAATAAGA
ATATGATTTTCCCCCATTCACCCTGAAACAAGGAGAAAGGTAATTACTGTATTGTTATTTTTGGACCTTCATGCTCTGGGACAAAAATATATTTATGATG
CCCAGGCACTGTGCTAAACACCACAAGGCAAACAAGGCACATTTTCTGCTCTTAATGACCTCGCTGGTAGGGAAGAGACATGTACCCATAAGCAACACAT
TACGCAGGGAGAAAAGAGTTATGAGAGAAATAGATACAAGCTGGGAACTCATTCTGGAGTTCTGTCAGGGCATTTATTGTCTTTCTGTCTAGTGGACAAA
CTCCTATTCATTTTCCTGCAACCCTCCTCTGTGAATCCTTTCCTGATCCTCTGAGACAGTCAGYCTTCCCTCCTTGGGGTTCCCACAAATGTTGAAGAAA
AGTAAAATGAGAATAACAGCTACTAAATAAGTAATTATTAAGTATATAAAAACTGTTCTGTAGGAGAAAGGGGCAGGAAATAATTAACTGTCAAGGAAGA
AGTGGAGATGCCTGAATTAGTTCTTGAAAAATGTGGGGAAGGTCGTTTTGGCTAGGGAAAGCAGGAAGCATGAAGGCATGGCAGCATGGCAGTATGCATA
GTTATGGTGTGTTTACAGAATGCCAAGCAGCGTGGGGTAGTTAAAGCAAGGTGCAAGGGAGGGAATGGTGTGGGGAACTGAAGATGATGGGGAGGAAGTG
ACAGAAAATGAAGGAGCTGAGTTGGGATGGAGTCGGATTATAAAATCTTCTGTTAGAAAATTTGTTCCTAATCCTGTAGGTGGTGGGAGCTTTCAAAATA
TATTTTAACTTTTACTTGTTTTTCTGTGTGCAGAAAGTAATATAAGCTTATTATAAAACTTAGAAATACAAAAGAACATAAATAATAAAATGCATTAGTA
CTGTGTATTTAAACTACATATTCAGTTTTGTATATTAATTTTTTAACTTAATATCCTATATTAAGCATTTTCAAATTTATTCGAAAGTTTCTGAAATTAT
AATTTTAATCCCCATGTGTTGTATCAGCCACAGGTGCCAGTTTATGGAACCATTAATATTGGACATATACTGTTTCCTTTTCCCCATTATAATAAATAAT
GCTGCAGTGAACATCCTTGCACATATCATTTTGCACCAGCCTCTCACTATTCCCTAGTTCCTTGGTATAAATCCCTAAAAGTGGTATCCACATTTCACGT
TTTAATTCCTACCATGAAAATTACCTTCCAAAAAAGTTGTGCCATTTATAATCCCACCAACAGGACATGAAGTTCTAAGAGGTTCAGTGACTTGTCTAAG
ATTAAACAGCTATGAATGGAGAACTGGAGGCAAATGTGAGTACTGGTATCCACGGGGCTATGGCAGAACTTCAGTGGGGAGATGGGAGTGGGGTGGCCAG
AGGTAATTGAGTCTGGAGGACTGAAAGTGACTTAGGTGAAGACTGATGGTCTAATGAGACAGCTTCAAAGGACAGGCTGTCAATGGACAACATTTGTAAT
TTCATACTTTCTCTAAAGCTGCCTATGTCACGACTCTTCCCACTTGAGAATGTTCAGACCAAAGAGAAATGAAACATATCTACCTTTCTATTGACTGTTA
ATCCTTTGTAGAATAGGGCATTAGGCTGGCATTAGTGATAAGGGCACATGTGAAAACTTGCCTGTTTCTCTAAAATTTGGTTCAAGGAGGATTCCCCATT
AATGCCATGAGTTCACTGCAGAGGTCAACACTGGGCATACACTTCAATCATCCATAAAGAAAAATGGAGGTACCTATCTCTTTGAGGTCACAGCATGCTT
TCTCAGTTGTTTCCTAGTTAAGAAATTACTCAATAAAGAATGGAAGATTCAGGATCCATAGTTTTCTCAATCCTCATACCCTGAATTTACTAGCTAACTT
CCCCCTTTCCTTTCTTCCTTCCATTCTTCCTTCTTTCCTTCCCTTCTCTTCCTCCTTTTCTTCCCTTCGTGGCTACGGATGCAGTCTAGAGCCAACAGGA
GCACCAAATTCAGGCAATCAAGTTATCAAAGCTCCATATCTTACTCATCACAGGCTTGAAAGGGATTCAGAGTCATGTACTCCAGCCTACTTCATAAATT
CTCTCTACCACACCAGCTGGAGGCTGGTGTTTGTCCAGCCCCTCCTTGACTCTTCCAATGGTCTCCCCAAGGAAGCTATTCCATTTTATTACAAAGATCT
TTGCACTGAGTCAAGGTTTGACTCCTGCAACTACCCATTGGTTCAGTTTCTCCCAGTTATTTAAACTTTCTTCCATAGAATGGACATTTAGCTACCCAAA
AACAGGKGCCATTTTCCTCTCAGTAGGTGATATATTGGTATATGTCTTAGGCTRCGGAGTAAAAAAGACCYGGGCTTCCAATTTTGAATCTGCCAGCAAC
CAGCTGTGTGTRGTTGGGCAAGTTGCTAAATATCTCCGAGCCTCAGATGATTTCCTCTAGAATAAATGATGACACATTTACCTCACCTCATTTAGTAAGG
ACTAAATGAAATGTCAATAGTAGGGCAAATTGTGGATGGTTGTTAGATGTTAGGTCCCCTCACAGTTGCCTTTTTTTTTTAAGTCAGTATTTCTCCAAGG
TGGTCTCTGACTAGTTGTATCGAGATAGCCTAGGGTGAGTATTGAAAATGTAGATTTCCGGATCAACTCCTAATCAACCGAGTTATAGTCTGTGAGTGTG
AAATCTAGACACTTTCATTTGTTTAGTTCAGAGAAGTATCCATGGAGCCAAGAAGTTAGAAGGCCTTAACACATATGGGAACTCTCCAAGCCTTCTCAGG
GAGTCTACAGTCAAAGACCCATATGATCCCTGGGACACATGCCTTGAATTGGGAAACAAGGCCCCACTTTCAAGATGTTTCTTTTGCCCACTCTCAGATA
GAAGCCTTCCCTCTTATTATGGAATTTGGACTTGGAAGAGATTGGCAATGGCCAATGAAGACCAGGGCTCTTCAATATAACTTAGAAGGAGTTAGAAGGA
GAGGGTCAGCCCTAGAAGGAGGATGAGCTGGGCAGGGCGGGGCTGGGGTTCATGGGCCASTGCAACAGACTGGAATTCAGTGGACTCTCTAGGCCAGGCA
GGAAGCTAGAGGGCCTCCCATGACCATAGCAGACACACAGTGGACACACAGTGGAATTCCCAGGGCTTTCCCTGACATGCTGGATGTCAGCGCAATCAAC
TCCATGCCCACCCTCTCTAGTGGATGAGTCTASGCTYCCAGGAAGTCCTAATACTCTAATTTATTCTGCTTGTCCTCTTGTCCTCTCATCCTCCCTTTTT
CCCTGTTGTGTCCCMGTTGTAAGCTCTCTCCTCACACCTAAGCTGATGGCTCCCAGACATCTATTTTCAACCTTTACTCCTCCCCAAAACTTTAGATCCT
TACATCCTTCTACCTCTGGCATCCCAGGGGCACCTCAAACTTAAGATGCCATCACCCCAGGGGCACCTCAAACTTAAGATGATCACCCCCTTTGCCACTT
CCTGCCATCCCACACACTGGCCACTCAAACCAAGGGCTGACAGCCATCTTATTCCTCCTCCCGCTTTGTCCCTCAGGTTAATTGCATTGCTAACCAAATG
ATGCTGTTTTTAAGTCTGTTAAACCTCTCCCTCCTCTCAGTCTCCACTAATACTGTCTGTGTTAATTCAGGCCTCATCATCTCTCACCTGGGCAACTGCA
ACAATGAGCAGTTTGTGTCTGTGCCTGCATCCATCCTTCCATCCTGTACTCCAGCAGCAGCCAGGGTGGTCTTTCAAAAATGCAAAGCTGATAATGTTAC
TCCCCTGCTGTAAACCTTCCAGCGGTTTCCTATTGCCTTCAGAATAAAATACGAATCATCTGGCCTCCATCTATCTCTCCAGGCTCATCCTCTCTCAATT
TTCCATATCCTTCAGGTACTTTCCCAGGCATAGAAGCTAAGAATTCCCCCTTTGTCCAGAGCCCTAGGCTGACCAAGCCCCACTGAAGACCATGCTTTCT
GATTTCTGCCTCTGTCATTTCCTTATTGTCCCTGCTCCCAATCCAGCTCACTGTCCAATTCAGCATGGACAGGAGAGACATGGAAAGAAAAACAACTGTT
ATAATTATTGCCAAAAGCTGTGTTCTGTTACTATGCATTGTGCATAGTAAGAGTTCACATTAAATTCCTCATTTTAATTCTCACAGTATCCTGTTGGGAC
AGACAGATGAAGAACCAGAGACCAGAGAGKTTAAGTAGCTTGCCAAAGGTCACACAGCAGTGTAAGCAGTACGGGTGATTCTTAAGCCCACATTGTTTGA
CTTCCGAGACATATCAGAAAACTACGTCAAAGAACACGCACAACTCAGACCTATTTCCAGTGGCCTATGCAGAAGAGCTACCCTGCTTGAATGGAAACCC
CTTAAGATACACTATTCTCAAAAACCTAAGTGCTTAGCCTGGCTTATGGAGGAGGCAATGCAATCTACCACAAGATGATTAAGACAACAATGAACTTAAG
WCCCAGCCACTGCTGGAGAATATCTGCCTGTGAATTCAATTTGGTTCAATTCAATCCGATTTAATTCAGTGCAGTTATTGAGTGCCCACCACATACCCCA
TAGGGCTGGTCCAGAGAGAAACGCAGGGGTCCCTCCTGGGAAATTATAACTAACCCAAGCATGGGCACCACATGAGGAAGCAGGAATGGGGGTTCTGGGA
TCTGGGGTTCAAGGCAGGAATCTTGTGGTCAGCCCTGGAGCACTTAGGAGAAGAATCTGCCAAATTCCTATGCCAGTGTCTGGTTGGCAGCAAGCTCTAT
AATTTTTAAGTAGTATGAATTCTGTGCCCATATTTCTTACAAAATATGTGTATGGAGAAAGATACCACCAGTTTAGTCTAATAGGTATTCTCAGGCCTAA
TATATATGAAAGAAATTGGGACTGGTGAGTGGTTAAGAGCATGGGCTTGGGAGACAAAGTCTTGGCTCTATTACTTCCTAGCTGAGCCATCTTGGGCAGG
CTAGGTTAACTTTCTGGGCTCAATTTCCTCATGTGTCAAAGGGGAATGAAAATAATACCAGCCTCATAGGGTTATTAAAAGGGTTAAGACAGATTATGCA
TATCGAGTGCTTAGCCTGGCCCCAAAGTGCCTAGAAAGGGTGCAAAAAGTGTTAGTGAATACAATTCTTATGGTCGCTGATACTTAATAAATGTCTCCTG
AATAAAAGAATGCATGAGTGGAATGTACAACTTAGGAGAGACAGATAGCTAGAGGATACTGGATGCTGAGCTAAGGCTCTGGACTATATTCCATGGGTGA
CAGGAGCCATCAAAGAGTTTTCAGCAAGGAAACAGCACAGCCAGATTTGGTTTAGAAAGGTCACACTGGACCAGAATAGAGGATGGGCAGGAGGGAGAAA
TTCTGGAGACAAGCAGGAGGCTGCTTCAGTGTTCCAGGTGTGAGAGCACCTAAACAAAGTCGGGCGTACTGGTGTTGCAGAGAAAGGGAAAAATTGGAAA
GATACTTAGGAGGCAGAACTGGCAGGACTTGGCAACCAAGAGATGGGAGCAGATGACAACCACCCTGCTCTGTGCAATGTCAGAAAAGAAGAATCCAGTT
AGGGAATCAGGGGAGAAGCTGATGGCCTCTCTGGAAGCCCCCAGCCACTGTTTTCACCGGGAATGCTGAGTGCTGCTTGTTCCTCTGCCCCAGCACAGAG
CAGAGGTTCATGTGTGGCCTGCACACAGCGTGGGGCACAGTGGGCAGCCGATGGGAAATTCTTCTGCATAACAGATCTCAGAGCTTACAACTGGGGCCAG
CAGCCAGCCGCAGGAAAGGGTTTCCCCTTGGCAGACAGGCCTCGGCTAAGGGACAGAAGTCATTCCTAATTGCAGCATGTTTTTCAGGGGAAGTCTCCAA
AGCTGTTTAGAAAATAAAACCTCTGAAAACAGTCCAAATAAAGGGAAAGTGACTCCCATTTGTTTAGAGCTACTTTGTGCTGAGTGCCATCACTAGTTTG
TTCTCACTCAGCCTTCAGCATGACTGAAGAAGAATTAGCTGCACATTTTACAGAGGGGGACACTGAGACTCAGAGGTTTTTTTTTTTAAATTTATTTAAA
TACGACCATTTTTCAGTGGAGGAATCAGAATTCAAACCCATCTCTTTGACTCCAAAGTCCGTTCTCTTTCTTCTATGACATATTTTATAATCCTTAATTT
TAAAAGGTCTGTTTCCTCGGACATTCACATACTGTGGCAGTGTAAAATGATCAAATGCTTTTAGAAAACAATTTGGCAATAAGAATCAAGTATCTTAAAA
AATATTCATTCTGGGAATTGCTCCTAAAGAAATAATCATAAATTCAGAAAAAAAAAAAGCTTTGCACACAAAAATGTTCCTTGCAGCAATATTTATAACA
TAAACAACGAGGAACAGCCTAAATGTTCACAGAAAGAGGAATGGTTAAGTAAGCTGTGATATATCCACTTAATGAATATTTTGAGGTCAAGGGTTTATAA
TAACAGAGAAAATGCTAATGTTATAAGTGCAGAATAATCAGGATACAAAATTGTACTTAGCCTCATCAAGCGATGGTGTTACAGAACCACTGGGTTTCCA
TTTAGAGAACTTTCCTCTCCAACCTCTATCAGCTCCTTCCAAATCACTCCAGAGTTTTTAAAAAATAACACTACTTAATAAGAAAAACACATAATTTCTT
AATGTTATATAATGGGAGAAAAAACTCTAGAACTAATTTTGCTGTTTTTATTGATCTGTAATATAGAATTTAGTAAAAGCTATGCTTGCCTTTAAGTCCC
TCTTATTCAGAAATTCTAGAGCTGCCAAACCTATCACTCCTCTTTAATATAATAATTCTGGAGGCAGTAGTCATATAAGAAGCCAAAAAAAAAGCATCCA
TGTGGGAAAGAAGAAATAAAATTACATTACTTGCAGCTAATATGATTGTCTAATCTAGAAAATCTAAAATAATCAACTTTAAAACTATTAGGGCTGATGA
GAGAGTTCAGTAAGATGGCTGGTTACAGAAGAAATGTACAGAAATCAATAGCTTTCTTATTTACCAGCAATAAGCAACTAGAAAAAAAATGCAGTGACAA
ATGGCCCTATTCACTATAACAATAAAAACTATAAAAGGACCTAGGAAAAAAACCTAACAAGAAATTCACTAGACTTATGTGATGAAAACTATAAAATTTT
ATTCAAGATCATTAAAAAAGGCCTGGAAAATAAGAGGCATACCATCGTCCAGGATAGGAATATTTACTGTAAAAATTTTAATTCTCTCCAAATCAATCTA
CAAATTCAGTGAAATTTCAACGAAAGTCACAGTGAAATTTCTTTGGGGGAAATCTGAAAAATTTACTCTAAAATTCATCTGGAAAAGTAAACGCACAACA
ATTGTCAACAAATATTTTCAAAGTAATAATAATGAAGGAGGTCTTTTCTGGGTAGAAAACAAAAATTATTACAAAGCTATGGCAAAATTCAAATGATACA
ATTATGACACAGAAATAGATTAACAGAGAAATAAAATAGAAGAAAAAGTCCAGTTGTAGAACCATGAATAGAGCTGAACTCAGTTTATGATGAAAGGACT
ATTTCAAATCAGAAAGGACAGGTTTGGAGTTAATTCATTATTCATTTATAACTAAAATAAAGCTAGATCTATAGCTCAAACCTCGTACAAAAATATAATT
CACACAGATTAAATAGCTAAATGTAAAATATAAAAATTCTGAGAGTTCCAGAATAAATAGAGAAGACTATTTCTATAATTTCCAAGCAGGAAGGTATTCC
TAACCAAGACACAAAACTGAGAAGTTTTATGTGATCAAATCAGGAGATCAACTGATTTTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGAGATGGAGTCTC
CCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATATCGGCTCACTGCAAGCTCCGCCTCCCAGGTACATGCCATTCTCCTGCCTCAGCCTCCCTAGTAG
CTGGGACTATAGGCGCCCGCCACCACGCCCGGCTAATTTTGTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATGTTAGCCAGGACAGTCTCCATCTCC
TGACCTTGTGATCCGCCCACCTTAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCAAGATCAACTGATTTCAACACACACACAC
AAAATAAAACTTATGCTGTGAGAGACAACAAAGTAAGGCTAAAAGACATGCTACTGATTGATAAAACCTTTTTACAACATATATTGATTTTAATACATGT
TAAAAATATACAAAGAGCTCCTATAAATGAATAGGAAAAACAAACATGACCTGATAGAAAAATGGGTAGAGAATATGAACAGGCAATCCAGAAAATAAAA
GTGACCATGGACATATGAAGAGATTACTAACTACACTAATAATTGGAGGAATGTTTTTCACCCACTGAGATGGATAAAAACAAAACTTTAATTTGGAAAA
GAGTTAGGGAAATAGCCACTGTTATACATGGTTGATGGAAACATGAAATTGGCACAGTCTTTCTGGAGTACACTTTAGCAGAGTCTAAATTTAAAAATAA
TGTATACTTTGACCCAGAAATTCTATTTTAAAGAAAGCTATCCTATTAATGCTCCAATGTGCACTGAGGTATATTCATGATGATGTTAACTATAACATTA
TTTGAAATAGTGAAAAATGCAATTATTAGGGAAATTGTTAAAAAAAATGAGGCTGACATATATATATATACTGACATTGAAACATATTTAACGTAGACAT
TTAAGAGAATAAAAGCAAGCTGTAGAATAATATGTTTATGTTTCACCTCCTATCCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCATGCGCCAGCGT
GTGTGTGTGTAATGCCTAGGCTAATAGACCAACTTAATAATGCTTAGGGAAGACAGTGGAATTAGGGTAGGGATTTAACACATAGACGACTTTAACGTTT
TATTCTGTACTCTCAGGTATGCTTTGAATTTTTCACAAAGAGTATAAATTACTCATAATAAAAAGTGGGTATATACTTAAACACATACACACACACTCAC
ACAATACTCTATGAACACAGCTCTTTAAAAACAAAGCCATACCTATAAAAAAAAGAGAAAGAAATGAATCAAAATGTTCATGCATAGAGTTTCTTTATTC
AGTTTTTCTCAATTTTCTAAATTTTCTTTAATGACCATGCTTTATGTTTACAATGGAAATAAAAAATATAATACTCGTCTGCTTTTGTGGGGATCTAAAT
ATATATAAAAGAATATACATATTCTTTTTCTTTCTTTTTTTTTTTTTTTTGAGATGGAGTCTGGCTCTGTCACCCAGGCTGGAGTGCAGTGGAGCGATCG
TTGCTCACTGCAAGCTCCGCCTCCCGGGTGCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAGTAAAGGCGTCTGCCACCACGCCTGGCTAAT
TTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTG
GGATTACAGGCATGAGACACCGTGCCCTGCCTATTCTTTTAAAATTAAATTTTTTTTTGTGGGCTCTTTTTTTCAGCCCGCATCGCCAAGTCAATCCTAA
GCCAAAAGAACAAAGCTGGAGGCATCATGCTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAACAGCATGGTACTGGTACCAAAACAGAGA
TATAGATCAATGGAACAGAACAGAGCCCTCAGAAATAACGCTGCATATCTACAACTATCTGATTTTTGACAAACCTGAGAAAAACAAGCAATGGGGAAAG
GATTCCCTATTTAATAAATGGTACTGGGAAAACTGGCTAGCCATATGCAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATTAATTCAA
GATGGATTAAAGACTTAAATAAACGTTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCATTATCATTCAGGACATAGGCATGGGCAAAGACT
TCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAGAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCAT
CAGAGTGAACAGCAACCTAAAAAACGGGAGAAAATTTTTGCAACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTT
ACAAGAAAAAAAAAACAACCCCATCAAAAAGTGGGCGAAGGACATGAACAGACATTTCTCAAAAGAAGACATTTATGCAGCCAAAAAACACATGAAAAAA
TGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACA
ACAGGTGCTGGAGAGGATGTGGAGAAA


SNP Information

Context             (SEQ ID NO:60449):
AAACATTACTCAAACAGGATTTATTTCAAAGGCATCATTCTTGTGGCATGCTGTTTAAAGGGGAAGCAAAGCTCATATTGGTACAATTCTTATACTCAAA
K
AAAGTACAAATTTTGCAGAATATCCTCTTAAGACCTACCAAGGGGACAACTTCTTCAATTTGGTTCAAATTAGCAAAATATAAAGCATTTTCAGCATCTC
Celera SNP ID:            hCV29130320
SNP Position Genomic:     16561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60450):
CTACCATGTGTCATAGTAGCTGTGGGGTCATTGCTCCTTGCCCACTCTAAGTGCTCCAGATCATGAGCTTCAAGACCCTAGTCTTATTCTGATGGTGATT
K
AATGCCCTGGAACTCTCAAGGCCCCAGACTTTTGCTTGTGAATGGGTCTAAGCTGCTTGCTTGGCTCTGGTCCGGAGAGCATTCATTTCCTTTTAGAAGG
Celera SNP ID:            hCV29130321
SNP Position Genomic:     12599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60451):
ACACACAGTGGACACACAGTGGAATTCCCAGGGCTTTCCCTGACATGCTGGATGTCAGCGCAATCAACTCCATGCCCACCCTCTCTAGTGGATGAGTCTA
S
GCTCCCAGGAAGTCCTAATACTCTAATTTATTCTGCTTGTCCTCTTGTCCTCTCATCCTCCCTTTTTCCCTGTTGTGTCCCAGTTGTAAGCTCTCTCCTC
Celera SNP ID:            hCV11859256
SNP Position Genomic:     19933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,6)      total(G,6|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60452):
GACCAGGGCTCTTCAATATAACTTAGAAGGAGTTAGAAGGAGAGGGTCAGCCCTAGAAGGAGGATGAGCTGGGCAGGGCGGGGCTGGGGTTCATGGGCCA
S
TGCAACAGACTGGAATTCAGTGGACTCTCTAGGCCAGGCAGGAAGCTAGAGGGCCTCCCATGACCATAGCAGACACACAGTGGACACACAGTGGAATTCC
Celera SNP ID:            hCV11859257
SNP Position Genomic:     19760
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,8)      total(G,8|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60453):
AAATGAAATGCCTGGGACATCATCGTTAAGTGGCATCTGATGCATAAGCAGTGCCCTAGGAATGGGGTTGCCTGCCTTGGTCTCTAAAGGATGGGTTCAA
R
AGGCAAGAGCAGCACACAAGAAGATAGCTTCAAGCAGGAGAAAAAGCTTGGCCCAGGGCCCAAAGGGGATACGACCCTTCAGGTTGGCCCTGACCTCTGG
Celera SNP ID:            hCV16179264
SNP Position Genomic:     6147
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,49|A,1260)   total(G,49|A,1260) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60454):
CTTACGTACCACTTGGGACACAGATGCTGCCCTGAGTATTTACTGAACGCCAGGCACTGTTCTAAGTCCCTCGCATGTATTTACTCATCTATTACAGCAA
S
CCTTTATAACCTGTGGCTTGCAGGTGAGAAGATGGAGACACAGAGAGGTTAGGCGACTTGCTTGAGGTCACACAGCTATCAAGTAGCAGAACTCAGGCAT
Celera SNP ID:            hCV9957411
SNP Position Genomic:     12377
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60455):
CCTTAGACTTTGCCTTCCCAAAAATGCCAGTCCTGATGAGGGTAGGAGATTTTGTCTTACAATATTGGGTGGCTGATAGCAAGCATTGGTGTCTCTCCCC
Y
ATTCCTGCTCTAACCACCACCACTATAATCATGAGCATTGGTTTTAGATGAAGAAAGAACTGGCTTTGAATGCTGTTCCCACTACTAACTGTATGAACTT
Celera SNP ID:            hCV9957412
SNP Position Genomic:     15449
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60456):
TGAGTCAAGGTTTGACTCCTGCAACTACCCATTGGTTCAGTTTCTCCCAGTTATTTAAACTTTCTTCCATAGAATGGACATTTAGCTACCCAAAAACAGG
K
GCCATTTTCCTCTCAGTAGGTGATATATTGGTATATGTCTTAGGCTGCGGAGTAAAAAAGACCTGGGCTTCCAATTTTGAATCTGCCAGCAACCAGCTGT
Celera SNP ID:            hCV9957420
SNP Position Genomic:     19007
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(G,2|T,7) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60457):
ACTATGCATTGTGCATAGTAAGAGTTCACATTAAATTCCTCATTTTAATTCTCACAGTATCCTGTTGGGACAGACAGATGAAGAACCAGAGACCAGAGAG
K
TTAAGTAGCTTGCCAAAGGTCACACAGCAGTGTAAGCAGTACGGGTGATTCTTAAGCCCACATTGTTTGACTTCCGAGACATATCAGAAAACTACGTCAA
Celera SNP ID:            hCV27471435
SNP Position Genomic:     20930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60458):
CAATCACCTCTTTAAGTCCCCACCTTTCAACACTACCATATTGGGGATTAACTTTCCAGCACATGACATTTGGGGGACCCATGCAAACCATATCATGGAG
R
AGGGACATCCTTGTTAGGTAGTGGTAGAAAGCTTAGTGCCACTATTGTCTGCAGTTACATGGAAAGCAAAATATGTACCTAATAAACTTAGTGATCTAGC
Celera SNP ID:            hCV9957324
SNP Position Genomic:     7908
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60459):
GTCAGGGCATTTATTGTCTTTCTGTCTAGTGGACAAACTCCTATTCATTTTCCTGCAACCCTCCTCTGTGAATCCTTTCCTGATCCTCTGAGACAGTCAG
Y
CTTCCCTCCTTGGGGTTCCCACAAATGTTGAAGAAAAGTAAAATGAGAATAACAGCTACTAAATAAGTAATTATTAAGTATATAAAAACTGTTCTGTAGG
Celera SNP ID:            hCV9957413
SNP Position Genomic:     17064
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60460):
CATAAGCAGTGCCCTAGGAATGGGGTTGCCTGCCTTGGTCTCTAAAGGATGGGTTCAAAAGGCAAGAGCAGCACACAAGAAGATAGCTTCAAGCAGGAGA
W
AAAGCTTGGCCCAGGGCCCAAAGGGGATACGACCCTTCAGGTTGGCCCTGACCTCTGGGTTGGATTACCAGTGACACAATGAACATTTCATTATGAGGCC
Celera SNP ID:            hCV9957316
SNP Position Genomic:     6189
SNP Source:               Applera
Population(Allele,Count): african american(A,28|T,10)   caucasian(A,31|T,9)   total(A,59|T,19)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;(A,-|T,-)   JBIC-allele(T,140|A,1119)   total(A,1119|T,140)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60461):
CTTAAGATACACTATTCTCAAAAACCTAAGTGCTTAGCCTGGCTTATGGAGGAGGCAATGCAATCTACCACAAGATGATTAAGACAACAATGAACTTAAG
W
CCCAGCCACTGCTGGAGAATATCTGCCTGTGAATTCAATTTGGTTCAATTCAATCCGATTTAATTCAGTGCAGTTATTGAGTGCCCACCACATACCCCAT
Celera SNP ID:            hCV9957421
SNP Position Genomic:     21201
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,9)      total(A,2|T,9) ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:60462):
TGGGTTGGATTACCAGTGACACAATGAACATTTCATTATGAGGCCATCCCTTGAGGTAGTTGCATTGCAACAGCTCTCCCTACCCAGTGCTGCATTTCCA
R
TGCTTTCTCTGTTCAGGCTGCTGGGTGACATTTCTATGTCTCCCCTTCAACGGTGAAATATTTCAGTGGTTGTCCATCACCTATGGGAGTCTGACATGGC
Celera SNP ID:            hCV9957317
SNP Position Genomic:     6345
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60463):
TCCCCACACTCTGTCATTATAAACCACGTAAATTCCTCGATACCCATGTTACAACGAACAGATGCGGCTCTGTATTTTTAATGTATTATCTCTAATTAGC
R
GCAGTGGGCATGGAAGAACTCTGTGGTCCCTGGGGCTGTCCCTCACTGATGCAGCTGCGAGTACATTTGTGATGAAGAATCTGGCCAGGCTCCTCTGGCC
Celera SNP ID:            hCV9957325
SNP Position Genomic:     10667
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60464):
AAAGCTGTTTCTCAGGGTCATATGGGAATAGAATGAGAAGACATGGCATAAAGAACTTACGTACCACTTGGGACACAGATGCTGCCCTGAGTATTTACTG
M
ACGCCAGGCACTGTTCTAAGTCCCTCGCATGTATTTACTCATCTATTACAGCAACCCTTTATAACCTGTGGCTTGCAGGTGAGAAGATGGAGACACAGAG
Celera SNP ID:            hCV9957326
SNP Position Genomic:     12322
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60465):
TTTTCCTCTCAGTAGGTGATATATTGGTATATGTCTTAGGCTGCGGAGTAAAAAAGACCTGGGCTTCCAATTTTGAATCTGCCAGCAACCAGCTGTGTGT
R
GTTGGGCAAGTTGCTAAATATCTCCGAGCCTCAGATGATTTCCTCTAGAATAAATGATGACACATTTACCTCACCTCATTTAGTAAGGACTAAATGAAAT
Celera SNP ID:            hCV8922653
SNP Position Genomic:     19112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60466):
AAGAAGGGGGCTGGTTAGTGAGAGCAAATGTATGCTCCTTAGCTCTGTCCAAAGAGGAAGGGTATTTCTTATAATAAATGTCATGCTCATGACTGACATG
Y
TTTGGGCGTTTACTATGGACTAAGCCCTATTTCTAAGTGTTCTCCAGATATCATCACGTATAATTCTAGAGGCAGTGTCAGCCCCCGGCCAATGACCACC
Celera SNP ID:            hCV8922645
SNP Position Genomic:     11195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60467):
AAGAGGGTAGGAGAATGACTCAATGCTGCAGCACAAGCCCTCTTTTGGCAAGATCGATGTGTGGGCAGAAGGCAAATGGCTGCTGAGAGGAAATGGGCCA
S
ACCTGGCTGGTCTTATTCTATCCTGTAATGGCAGAAAGCTGTTCAGGATGGCTATGGCGCACAGCCCAGGGCTGACTCAGCATTGCCTCTTCCTAACCTG
Celera SNP ID:            hCV8922647
SNP Position Genomic:     12948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60468):
CAGTTATTTAAACTTTCTTCCATAGAATGGACATTTAGCTACCCAAAAACAGGTGCCATTTTCCTCTCAGTAGGTGATATATTGGTATATGTCTTAGGCT
R
CGGAGTAAAAAAGACCTGGGCTTCCAATTTTGAATCTGCCAGCAACCAGCTGTGTGTAGTTGGGCAAGTTGCTAAATATCTCCGAGCCTCAGATGATTTC
Celera SNP ID:            hCV8922648
SNP Position Genomic:     19054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60469):
GGCTGGTTAGTGAGAGCAAATGTATGCTCCTTAGCTCTGTCCAAAGAGGAAGGGTATTTCTTATAATAAATGTCATGCTCATGACTGACATGCTTTGGGC
R
TTTACTATGGACTAAGCCCTATTTCTAAGTGTTCTCCAGATATCATCACGTATAATTCTAGAGGCAGTGTCAGCCCCCGGCCAATGACCACCATGGACCT
Celera SNP ID:            hCV26469302
SNP Position Genomic:     11203
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60470):
TTCCATAGAATGGACATTTAGCTACCCAAAAACAGGTGCCATTTTCCTCTCAGTAGGTGATATATTGGTATATGTCTTAGGCTGCGGAGTAAAAAAGACC
Y
GGGCTTCCAATTTTGAATCTGCCAGCAACCAGCTGTGTGTAGTTGGGCAAGTTGCTAAATATCTCCGAGCCTCAGATGATTTCCTCTAGAATAAATGATG
Celera SNP ID:            hCV8922649
SNP Position Genomic:     19071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60471):
TGAGGTCACAAAGGCATTGATGCCCCTTTGTCCTATCATGTGACCACTTGTCACACTTCCATCAAACAGTACCTGCCCCTTAGGTGTGCTAGGGAATAAA
Y
GAAATGCCTGGGACATCATCGTTAAGTGGCATCTGATGCATAAGCAGTGCCCTAGGAATGGGGTTGCCTGCCTTGGTCTCTAAAGGATGGGTTCAAAAGG
Celera SNP ID:            hCV25993653
SNP Position Genomic:     6050
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(T,40)   total(C,4|T,74)
SNP Type:                 UTR 5


Context             (SEQ ID NO:60472):
CTCTAGTGGATGAGTCTAGGCTCCCAGGAAGTCCTAATACTCTAATTTATTCTGCTTGTCCTCTTGTCCTCTCATCCTCCCTTTTTCCCTGTTGTGTCCC
M
GTTGTAAGCTCTCTCCTCACACCTAAGCTGATGGCTCCCAGACATCTATTTTCAACCTTTACTCCTCCCCAAAACTTTAGATCCTTACATCCTTCTACCT
Celera SNP ID:            hCV11859251
SNP Position Genomic:     20015
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60473):
ACAGTGGACACACAGTGGAATTCCCAGGGCTTTCCCTGACATGCTGGATGTCAGCGCAATCAACTCCATGCCCACCCTCTCTAGTGGATGAGTCTAGGCT
Y
CCAGGAAGTCCTAATACTCTAATTTATTCTGCTTGTCCTCTTGTCCTCTCATCCTCCCTTTTTCCCTGTTGTGTCCCAGTTGTAAGCTCTCTCCTCACAC
Celera SNP ID:            hCV11859252
SNP Position Genomic:     19937
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60474):
GGTGACATTTCTATGTCTCCCCTTCAACGGTGAAATATTTCAGTGGTTGTCCATCACCTATGGGAGTCTGACATGGCATAATCAGGCCACTGGGGCATTG
M
TAGTTGTGCTGTCCCTGATATTCACCGTGGTAGGCAGTTTCTGAAATGGCTCCCAGTGATCTCCAACTCCTGAAATTCACACTCTGTGTAATCCCCTCCC
Celera SNP ID:            hCV25994945
SNP Position Genomic:     6469
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,37)   total(A,1|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:60475):
TTGAGGTCACACAGCTATCAAGTAGCAGAACTCAGGCATCCTGGCTGCAGCACCCACACTCTACCATGTGTCATAGTAGCTGTGGGGTCATTGCTCCTTG
Y
CCACTCTAAGTGCTCCAGATCATGAGCTTCAAGACCCTAGTCTTATTCTGATGGTGATTTAATGCCCTGGAACTCTCAAGGCCCCAGACTTTTGCTTGTG
Celera SNP ID:            hCV27868467
SNP Position Genomic:     12539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 323
Celera Gene:                 hCG1818374 - 84000313469103
Gene Symbol:                 PCDHB2
Protein Name:                protocadherin beta 2;PCDH-BETA2
Celera Genomic Axis:         GA_x5YUV32VUFE(34811827..34826886)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12483):
TCTGGAGTTACTGTAAGCTGAAAGGAAACAATATAACCAGGTCTTCATTTTCACCAAACTGCCTCTGCACTTATCAAGTATGAAAACACAGCCCTAGAGT
GTGCATTTTAGCAGCACACTGCCATAAACAGAGACTTAGAAAAACACCCAAGTAACTTATTTGCTTCTGGTTTCCCAGGATGTGCAGTACTCCATGACAG
TGGACACAAAGAATCTGTTTGTAAGGCCCATAAGAGTCAAGTTCTGTATGAGAGAAACAGACACTACTACTACCATGAGCTAGCAGCATGGTGTTGGTGT
GGTTGGTAATATTTGATGGCAATGGCAATTCTCCTTTGTGTTATATTTAATGCAGAACGGATTATGTGATGTTCAAGGTGGTGGCAGTAGAAGGAGACTA
GGTCTGGAAGGTCTTCATGTCCTATCAGTTACTCAAAGACTTGAGTCTCCATCTGTATAGCGTGTTAGCCCAACACTGGGAAGTGTGCACACTAGGTTTG
TGAGTGATGGTAATCTAGCCAATCATAGACTTCAGGTTATGGTCAAGGACACTGAGATGCCACCTATGTATTCCAGATTCAGACAACAACTGCTGCTGGT
CAGCTGTTTCTTTCAGCTCTACTGGCTACATCTTGACAGACCTCAGGAATATGGGGTCTGTCACTTAGATTCCTCACTTAGCATATACTATGGTTTTAGT
ATTCCTTTGTTTTCTTGTTGGCCTGCTTCTTTACACAGTAGATGTTCAAATAATTACTGTGATATGAAAATATGTTATAATTTTCAAGTATTTCCTTATA
TTTCTTTAGCATATCTAAATTGATTATTTATGCTTTGTATTTTGTAGTCAGAGTTTCAGGTTTCTTCCCCTCACCCCGTATTCTTTGCCCTCTCTACACC
TTTGGATTTCTTCATTATTTACTAATTTTCGATATTGTATTTAGCCATATTATTTTCTTTTCTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTG
CCCAGGCTGGAGTGCAGTGGCGCCATCTCAGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTC
CAGGCGCCTGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCTAGGATGGTCTCGATCTCCTGACCTCGTGAT
CCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACAGCACCCAGTCCATATTTTCTTTTAAAGTAAAATTTCAATAGTGATCTTAGT
GAAAATTCAATCATCTACCAGATTACCTAAACCTGATTTAAGTTTTAACCTATTTTAATCATAAAAAAAAGTCTGAGATTTTTGGAAGAGGTCATACCTC
TGTCTCTCTCATCTCTATTTCCATCTATATCTGTCTATCTAGCTTTATCTGCAGTCCTGGTCAAGATTTTTATTTTCAAGGGGACAGATTGTCCTAATAG
ACTCTGATGGTTCTCCTTAAACAAAATTGGGCAAGATTCTTGTGCAGGTATCATTTTAAAAACCTTTTCTTGCTTATTTGTACTGTGGGAAGAGAATAAA
CAACACCATTTCCCCTTTTTGAGTTATATTTATTTCTTGTTTCATTTGCTTGTTTGTTTGTTGTTGTTGTTGTTGTTTGAGACAGGGTGTCGCTCTGTCT
CCCAAGCTGGAGTGCAGTGGTGTGATCTCGGCTTACTGCAACCTCTGCCTCCAGGGCACAAGTGACGCTAACACCCCAGCCCCCTATGTAGCTGGGACTA
TGGGCGTGAGCCACCACACCTGGCTGATTTTTTTTTTTTTTTTTTGGTAGACATGGGGCTTTGCCACATTGCAGGCTGGTCTTCAAAACTCCTGGACTCA
AGCAATCCACCCATCTTGGACTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGTGTAGCCGACCTTTATTTTGAAATCTTGTTTGCTTGAGCTTC
ATGAAATGTATGTCTTGATAGATTATGGGGAAACTTATTTGTATCCTCAATAAGGTAAAAGTAAATTAGTTGAATATGCCCCCAATTTTCACACTAGATT
AGGGTAATAAACTATGCCAGAACACTCCCTTCTTGTCCTAGAATATTTCTCTTATATTTTCTGCAGAATCTTAGTGTTAGATCACTGAAAACCCCTCCTT
CTTCTGCCATCTTATGGCTGAGTAAGTAAAGCCAGCTTGTGGGCAGAAGGCATTGAAAGGCTGAAGATCCCTCTCTATTGAAAGAGGGATACTAGTGGGG
ATAATATCTCCATATCATTTGGCATTATCTTTGATAGGAAAATGGTCATGTAAATCCCTTTGACTACCCTTTCTCCTAATTCTTGTAATTTTCATCTCAT
GGCAGTCAAAAGATCAAATCACCCTTTAGTCCAAAAAAGAGAGAGGCAAGCTTAATTATGACAGATACTCAAACAATGTGTTCTTATTTAGTTTTTGAAT
GGCTGTACTTTTGTAATAAGACTGTAATGACTTGCTTTCATTTTTGGTATGTTTTTGAAAATATTTTTCTATTCCTGTATATGAAATTATTTGTGTAACA
TTTTAATATGTTAGATTTTATTAAATGAATCTTCAAAATTATGAAAGTGACTCCTAGGATAATGTCTCTGCTTGTGCAGCATATGAAAAGTAAAGCGAAA
CCTAAGAAATTAAACCTACTGTAATAACATAATTTTTAAATTATGCAATAGATTCCCCTCATTATAATATAAATAATTACTATATGTAAACATATTTCAT
TCAGACTTATAAATATGCTATAAATTATAATCTAATATATATGATTCCTTATTAAAGGAGATTAAGAAAATAAGAGCATTTGTAAAGAAGGAAGGTGTAT
TCTCATCAAGGTTTAAGAAAATAAATGATTTAAAATAGCATAGCGGATATAATGCATTTAAAGCTGGAAACCTATATACGAATATAAAATATTGGTGTTG
GTTATATAATCTTTGAAAAAGAGAAACTTACTTCTATTTCTAGGTGTGTTAATAGCATTGAAATGAAAGATGGGTAAAACCTTCTGAATTGTGAGGACAC
ATGACAACATGAGAGGTTTTAAAATTTTTTTCACAATAAAACCTAATGTGTTCTTGGTTATTGTATCCTCTGAAATATCTTAGATATTAAGTTTTCTATT
CTCCAGCTTGTGAGAAGAGATTATGTTATTTTCTTCATATTACCTATTTTCCTCTCCTTTATGTTATCCCAAATTAACCATAACTGCTTTAGTTCAGAAA
ACCTGTCCAAAGGAAATAGCCATATACCTGGTTAAATATAAAATTTCGAGTAACCTACCAGTTATAATTTGCCTGTATGATATAACTGATCTTCACTACA
TCTATTTCGGACCCTAATCAGGTTTTGCAGATTATATAAAAAGCTGTTTTTAAAGACTTGGACCTTGGGTGTTATTCACCTCAATGAATTTGTTTAATGC
TCAATGTCAATGAATTAACATATTTTGAATTATTATAACATCCATATAAAAGTAATAATCATGGAAAGCAAAAAATAATATCAACAGGTAGAGATAGGCA
TTTGTTTTCTAAATGTTAAGAAAAGGAACCTGTGATTATCCTTTTTTTAGCCAGTTACAAGATGATAAATGAGAGCTTTTTAAAATATTATGCTATTGTT
ACATTTAATAAATCATCCAGTCCAGTTTTCTGAAAATACAGGGGATAGAAGAACAGGTTAAATGATACCATGAGGAAACAATCAAATTTGGAATGTAGGA
CATCCTACAAAACAACTAGTCTGGACACTTCAGAAATCTAATGTCATTAAAGATGGGGGAGTATTCTAGAGTAAATAGATCTAATAGCCAAATACAATTA
TCAAAGTTGGTTGAAAAAGTTTCTAAGACATTCCTTATAACAAATAGTTAAAAAAGTAAGTGCATTTGTCAAAGGAACTTGAGTGAGTGTGAATTCTTAT
CAAAATTGAGGAAAAGATAATGGAAAGACAGTGAAATTTGATTGGGGCTGGATTTTAGATAACTGTAGAATTTTTTTAAATTTTCTTAGGTATGATAGAA
CCATTATGATTATATGAGATAATATTATAATTATGTGATACCTGCTGAAATATTTAGAGGTGAAATATGATGTCTGCAAGTTACTTTCATATAAGTCATC
AGAAAAGCGGGTGTGTGTACAGAATAAGATAGAACAAATATGGTAAAATATAAACAATTGTTAAGTTTGGATGGAGGTTAGAGTTGTAGTTTATGTATAG
TTCTTTTAACTGTTCTATATATTTAATTTTTTTCTTCATCCCCCAATTTTTTAACCCAATGGATCTTTTAGAGACACATCCTAATATTTATTATTATTAT
TATTATTTTGAGATGGAGTCTCGCTTTGTCACCAGGCTTGGAGTGCAATGGCATGATCTCAGCTCACTGCAATCTCCGCCTCCCGGGTTCAAGTGATTCT
CCTGCCTCACCCTCCCAAGTAGCTGGGATTACAGGCACCCATCACCATGCCTGGCTCATTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCAGGTTG
GCCAGGATGGTCTTGATCTCTTGACCTCGTGATCTGCCTGCCTCGGCCTCCCAAAGTAAAATTATTTTTTAAAGCAGCCTTAGAGTTTACAGAAAATTGA
GCAAATAGTACAAACAGTTCCCCTCACATACCGATTTTCTCCCACTCAAAGTTTCCCTGTTATCAAAATCTTGCATTACTGTGGTACATTTGTTACAATT
GATGAGCCAATACTGGTAAATTATTAACTAAATTTCATAGTTTAGTGTTCACTCTTTGTGTTGTATAGTTCTGTGGATTTTGACAACGGCATAATGTCAT
GTATCTACCATTGTAGTATCGTAAAGTACCCCATGTTTAACCTCTTCATCCCCCTCCCTCTTCTTCCTAGCTATCACTTGTCTTTTAAATGTCTCTATAA
TTTGGCCTTTTTCAGAGTATCATGTAATTTGAATTATACAGTATCATTGCCTTTTCAGACTGGATTCTTTCACTGAGAAATATGCATTTAAGTTTCCTTC
ATGTCATTCTGTGGCTTGATAACTTCTTTATATTAACATTAAAAAAGAAACAAAAAGACAAAATTAAAAAACCTAACAACAAACAATGACATATATACCC
TGTTTGGAAGCAGATTGAAGAAACCATCACTGAAAAGACATTTTTAAAGATAATTGGGGAAACTGGAATATTTACTGGCTATTTAATATTATGAAATTGC
TCTTTGCTAGATGTGGTAATTGAATTGAGGTTATGTTGAAAGTTCTCCTAGGCATTAGAAAGGAAAATAATATTGATACATTTACAATAAGGAAATATCT
GGCTGCTCTTGGAGAGTTTCATGAGGCTCAGACACATCAAAGTTCAGGAAAATGTGAAGTGGGAGCAGTGCAAAGAAAGAAATATGAGTAAGGAGACTAT
TTCAGTGCCCATTAAAATACTCTTATTTGGATTCTGTGCTTTTCCTGGGTCTCTGTTTTTCAGCTGGGTTTGAGTGTGATGATGGTAATCTAACCACCAC
TGAGTTGCACACATGCCCAAACTCTGAATAAAAATAGAACTTTCTTAGTCTAAGCCTTCTTTCCGAAGCATGCTAGGACTGAGATCACTCCCTTCCAGGT
TCTGAAATTTATTTTTTCCAGTTTGAAAAAAAAAAAAAGCTTGGATTTGTGAGGGAAGTGAAGATTTATTTATTCTTGCCCTGTCTCTATGGGTGCAATG
AAGAGCCTTTCGAAACGCCAATAAGACTTCGGTACACTGAGAGACACTACTTGAAAATACTCAATTTCGATTGCCATCAGCCTGAAAGAAAGCACTGGGA
TTTTCTTAAAGTTTAGGAGAAAATAAATACTCGGAAGAGACGCGGGGTGGCGCTGCAGCCTTAGAAGTAGCAGAAACAAAGCACCCAGCCGACGCTCCCT
TACCCAGATACTCAGCTAAAGAAGCAGCAAGCAGGAAGAGGAGGCTTTCTAAGGCGGTCGCTCCGGGAAATCCGGGCCCTAGGATTGTCCACTCATCCCA
GTATCAGCGAGATACGGGGAGAYAGAGTTAGCGACAACGTGAGCCAGAGCTGGAGCACGTTTGGTGAGAGACCAGAAAGCAATGGAGGCCGGAGAGGGGA
AGGAGCGCGTTCCGAAACAAAGGCAAGTCCTGATATTCTTTGTTTTGCTGGGCATAGCTCAGGCTAGTTGCCAGCCTAGGCACTATTCAGTGGCCGAGGA
AACGGAGAGTGGCTCCTTTGTGGCCAATTTGTTAAAAGACCTGGGGCTGGAGATAGGAGAACTTGCTGTGAGGGGGGCCAGGGTCGTTTCCAAAGGAAAA
AAAATGCATTTGCAGTTCGATAGGCAGACCGGGGATTTGTTGTTAAATGAGAAATTGGACCGGGAGGAGCTGTGCGGCCCCACAGAGCCCTGTGTCCTAC
CTTTCCAGGTGTTACTAGAAAATCCCTTGCAGTTTTTTCAGGCGGAGCTACGGATTAGGGACRTAAATGATCATTCCCCAGTTTTCCTAGACAAAGAAAT
ACTTTTGAAAATTCCAGAAAGTATCACTCCTGGAACTACTTTCTTAATAGAACGTGCCCAGGACTTGGATGTAGGAACCAACAGTCTCCAAAATTACACA
ATCAGTCCCAATTTCCACTTTCATCTTAATTTACAAGACAGTCTCGATGGCATAATATTACCACAGCTGGTGCTGAACAGAGCCCTGGATCGCGAGGAGC
AGCCTGAGATCAGGTTAACCCTCACAGCGCTAGATGGCGGGAGTCCACCCAGGTCCGGCACGGCCCTGGTACGGATTGAAGTTGTGGACATCAATGACAA
CGTCCCAGAGTTTGCAAAGCTGCTCTATGAGGTGCAGATCCCGGAGGACAGCCCCGTTGGATCCCAGGTTGCCATCGTCTCTGCCAGGGATTTAGACATT
GGAACTAATGGAGAAATATCTTATGCATTTTCCCAAGCATCTGAAGACATTCGCAAAACGTTTCGATTAAGTGCAAAATCGGGAGAACTGCTTTTAAGAC
AGAAACTGGATTTCGAATCCATCCAGACATACACAGTAAATATTCAGGCGACAGATGGTGGGGGCCTATCTGGAACTTGTGTGGTATTTGTCCAAGTGAT
GGATTTGAATGACAATCCTCCGGAACTAACTATGTCGACACTTATCAATCAGATCCCAGAAAACTTGCAGGACACCCTCATTGCTGTATTCAGCGTTTCA
GATCCTGACTCCGGAGACAACGGAAGGATGGTGTGCTCCATCCAAGATGATCTTCCTTTTTTCTTGAAACCTTCTGTTGAGAACTTTTACACTCTGGTGA
TAAGCACGGCCCTGGACCGGGAGACCAGATCCGAATACAACATCACCATCACCGTCACCGACTTCGGGACACCCAGGCTGAAAACCGAGCACAACATAAC
MGTGCTGGTCTCCGACGTCAATGACAACGCCCCCGCCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGC
AGCGTCAGCGCCACAGACAGAGACTCGGGCACCAACGCCCAGGTCACCTACTCGCTGCTGCCGCCCCAGGACCCGCACCTGCCCCTCGCCTCCCTGGTCT
CCATCAACGCGGACAACGGCCACCTGTTCGCTCTCCAGTCGCTGGACTACGAGGCCCTGCAGGCGTTCGAGTTCCGCGTGGGCGCCGCAGACCGCGGCTC
CCCGGCGTTGAGCAGCGAGGCGCTGGTGCGCGTGCTGGTGCTGGACGCCAACGACAACTCGCCCTTCGTGCTGTACCCGCTGCAGAACGGCTCCGCGCCC
TGCACCGAGCTGGTGCCCCGGGCGGCCGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACGGCGACTCGGGCCAGAACGCCTGGCTGTCGTACC
AGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAGSGAGCGCGACGCKGCCAAGCA
GAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTG
CTKCTCCCGGAGGCGGCACCGGCCCAGGCCCAGGCCKACTTGCTCACCGTCTACCTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCTTCTCGG
TGCTCCTGTTCGTGGCGGTGCGGCTGTGCAGGAGGAGCAGGGCGGCCTCGGTGGGTCGCTGCTCGGTGCCCGAGGGCCCCTTTCCAGGGCAGATGGTGGA
CGTGAGCGGCACCGGGACCCTGTCCCAGAGCTACCAGTACGAGGTGTGTCTGACTGGAGRMTCCGGGACAAATGAGTTCAAGTTCCTGAAGCCAATTATC
CCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAGAGCTTTGAATTCASTTAAGTGTTAATAAGGATCTACTGAG
SCTAGTCTCGTTTAATYTGTGGAAAGTCCTTTTTTACTGCTTTGCCCATTGGAGGTGTCTCCTTTTATTAGAAAGTAACCATCTTATTCCAATTCTATGC
RTGTTACTGGTRTTTATAAATGTATGAGTTTTTTTGCGGTATAATRAATGTAAATTTTCTTTGTATTCTAATTGTTGGTTAGTTTCATTGCAATTTAATT
GCATTTAAAGTGTAAAAGTAAATTTTGTATTTTCAGAAATCTTTAAGTTAGAGCATCTTTTCCAGACCTCACAGTCTATGGTCCTAGATAATTTTGAAGT
CCTACATTTGAAAATATTTGTTATCATTACATGAGTTATATTTTCCAGCCCAGAATATTTGTGTTTTTTATATCCTCTTAGGCTAGTGTAAATTCTATCC
TGTGAATTCACATTGGCTAACCCTTTAAATAGGTATATTTATGAATAATATAGCAAGCACCGTCCTTACGTTTTTCAATATATGTAATTTTTTTTTTTTT
TTGAGATGGAGTTTTGCACTTGTTGCTCAGGCTGTAGTGGAGTGCAATGGCGCAATCTCGGCTCGCCGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTC
CTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCATCATTATGCCCGGCTAATTTTGTATTTTTAGTAGAGACAGGGTGTCTCCATGTTGGTCAG
GTTGGTCTTGAACTCCTGACCTTAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCCCCCCAGTCCAATATGTAT
ACTTCTTTCAAGTGTTGACATATGAAAAGTATTAGTCTTTAGAGATTGTAAGAATTTTAACTGTTGGATTCTACAAGGCACTAACATCATAAGTGCTCTA
ATAAATTTTTGTCAAAAGTCAATCATTAATATTCAAAAATGTAGATAAATAATACATGTCTAGCAATTTTCAAAGGCATGCTAATTCATCATGCTTTCTC
TTTCAAATAGTTTTTTTAAGAGCCCTCTGCTTATTCCAGTCCCCCCCTTTAAAATCTTTTAAAATTATTAATAACCTATTAACTTTGAGCACTTCATTAA
AATCCAAAAAATTTGAGGGAGTACATGTCTTTGTCCTTTACCTTTAGAACCCTCAAACATAGCTTGGTATTGCTGTTTTTAAAATTTTCTGGAGCATTTA
GGATTCACTTAGAAACAAGCCTTTAGGGAGAAAAATTTATCTAGCACCACTCACTCTATTTTTTTGCACTGACTACTTCTATTTTTCCCCCTTTCATTTC
CCTAGACTTTTCAATGCTTTTTTATAAAGGTGCTTGAGTTCTGTTTCTCAACAGCTCCCTCATTTATTGAATGATTCACACAGTCACTGGAATATTATAG
GCTCTTAATAAAATTTTTGAATGATTGAAAGAGAGAAAAGTATTTTACCTGTGATATATTGATATTTAAATAAACTAGAACACTTAAAGGAAAACATTTT
GCTGGAATCAAATACTCTTTGGTGTACAATGAATTATAATTTTGTTATTAATTGAATTGGTTACCATTGTTTGAACATGCAGTTATCATTCTGTTGTCGC
TTTCCTTCAACATATTTTTACTTTTTCTCTTAATGCTTAAATTGAGCCTCCTTTCCTGTCCACTGGCTTAAGGAATACAGATGGCTTTTAATTTTATTAC
TTAAATTTCCTTCCATAGTTCCCTAAATGACTCACCCAACTGTTTTCATTTCTTGCAGTTTACTTTCTGATCCATACATTAAAACAAATCTTAATTCTTA
ATGTTACTCAGTCTATCTTTATATTTTTATATCATTTTTACATACATTTGAATGAGCTATCCTATTAAAATTTTAATATTAACTTTGAAGGTCTTGTTTT
GAGATTAGCAATGGTGTAGAGCGCTGTGTTGGTATCAAAAGTCTCTGATCAACCAACTCATTACCTGTAGGATTTTGGATGAGTCACAAAGTTTCTTTTC
TTCTACCCAAATGATAGCAGGTATTTGAATAGCTTGCAGTTATACTCAATATAAAGACATAAAAGTGAAATTGCTGTTATTTTTAGTATCACTAGTATTA
AGAGCAAACATTCTTGATAATTGTGTAGAAGTACAAAAGCGGCTACATTGAACACATATTTGCACTGTTTTATTTCTGTACCAACAACCTTGCAATGGCT
TCCTTTTGTTCTTAGAATAATAAAATCCAAGCGCCCATTATTTGGCCTTGGTTTACCTTTTCAGCCTTCCTTTCCACTTACTCTTGAGACATTAAGTTTT
GTATTCACTGTCCTTCATTCATTATCTATTAATAGCTATGCTTTGCTCTCTCAGGGCCTTCACACATTCTACAGTCTTAGCCTGGCACACTTCTCCTATT
TCATGTTTCAGATTAAATGGTGCACCTTGGGGGAAACTTTCTTAATCACTCTCCATTAAGTTAGGTCCCCGTATTGCATACTTTCAGTGCACTCAGTACC
TTTTCTATGTAGCACTTTTCACACTGTTTAAACATCTGTTTAAAGACTGTACACCCACTAGATGGAAAATTGTTGTAAGATATACAGACATTGTCTTGTT
ACCACCACTTGCCTAACTTCTACAAACTCAACAATTATCTGTGGAAATAAACTAATACAGATGAAATGAATAATTGTAAATTTGCTCTGAAATAAGAAGA
GAAAGCACTTTAAGTGTTCCTTGAGCATGATAATCTGGAAGAAATTAGGTATTTGTAGTCCTCTGGATCCACCTCTGACATGATATATTTTCTTTTTTAC
CACCTTGCAGGAGGTGTCTTTTCCTTGTATTTTTCTGGTATATGCAATTCGGGCTCATTTCACAAAGTTTAGGAAAAAAAGAAAAACATAAATAGGATAG
TGAAGCATGCTATCATCTAGAGCAAAAATCTTTTGAAGTTTGTGTGTAATTATTACAAAAGGGGAGGGGTAAACTAGTATGTGTACACTTCCGTTAAATC
GTGTAAATGAGGACTCTACCAGGAAGAATCGCTGCTCGTAGATAAAAGTGCATTTTATTTCCCTAGATTGCATTTATTTAATTCATATAACATGAGAAAC
TCCTCCAGTAGCGTCAACTAGGGTTGATAAGAATAATCGATAAAGCAAAATAAAAACACCTTCTCCAAGATTTTGTAACTGCAAGCGAACGCATGGTGGC
GCTGTTGACTAAGAAGGCGAATTAAACCACAGGCATTGTGCATGCTCGGTGACGCACGGATCCAGTGTGGTAAACCAGCGGTTGAGAGCCCAGGCAGATT
TTTGAGCCAGCAAGTCTGAGCCTCTGGAAAGGCTTATTCACTAGGCCGTCTACAAAGGTTGTGGGGCAAAAGACTGTTTCCCAGCTCTGTCTGAGGTTCA
GCTTGGCGACATTCCCTGGAAGAGCGTGACGGAAAGTGCAATGGAGGCGGGAGGAGAGCGATTTCTTAGACAAAGGCAAGTCTTGCTTCTCTTTGTTTTT
CTGGGAGGGTCTCTGGCTGGGTCCGAGTCAAGACGCTATTCTGTGGCTGAGGAAAAAGAGAAGGGCTTTTTAATAGCCAACCTAGCAAAGGATCTGGGAC
TAAGGGTAGAGGAACTGGCCGCGAGGGGGGCCCAAGTTGTGTCCAAAGGGAACAAACAGCATTTTCAGCTCAGTCATCAGACAGGTGATTTGCTCCTGAA
TGAGAAATTGGACCGGGAGGAGCTATGCGGCCCCACAGAACCATGCATACTACATTTTCAGATATTACTGCAAAACCCTTTGCAATTCGTTACAAACGAG
CTCCGTATCATAGATGTAAATGACCATTCTCCGGTATTCTTTGAAAATGAAATGCATCTGAAAATCCTAGAAAGCACTCTGCCAGGAACAGTAATTCCTT
TGGGAAATGCTGAGGACTTGGATGTGGGAAGAAACAGCCTCCAAAACTACACTATCACTCCGAATTCCCACTTCCACGTACTCACTCGCAGTCGTAGGGA
CGGAAGGAAGTACCCGGAACTAGTACTGGATAAAGCGCTCGATCGGGAGGAGCAGCCGGAACTCAGCTTAACGCTCACCGCGCTGGACGGCGGCTCTCCC
CCTCGGTCTGGGACAGCCCAGATAAACATCCAGGTCTTAGATATAAACGACAATGCACCAGAATTTGCACAGCCGCTCTATGAGGTTGCAGTTCTAGAGA
ATACCCCCGTTAACTCTGTCATTGTCACTGTCTCGGCTTCTGACTTAGATACAGGAAGTTTTGGGACAATATCATATGCATTTTTTCATGCTTCTGAAGA
AATTCGCAAAACTTTTCAGCTAAATCCAATTACTGGTGATATGCAACTGGTCAAATATTTGAATTTTGAAGCGATTAATAGTTATGAAGTCGACATCGAG
GCCAAGGATGGCGGAGGCCTATCCGGAAAGTCTACAGTCATAGTCCAGGTGGTTGATGTCAACGACAACCCACCGGAACTGACCTTGTCTTCAGTAAACA
GCCCTATTCCTGAGAACTCGGGAGAGACTGTACTGGCTGTTTTCAGTGTTTCTGATCTAGACTCTGGAGACAACGGAAGAGTGATGTGTTCCATTGAGAA
CAATCTCCCCTTCTTCCTGAAACCATCTGTAGAGAATTTTTACACCCTAGTGTCAGAAGGCGCGCTGGACAGAGAGACCAGATCCGAGTACAACATTACC
ATCACTATCACTGACCTGGGGACACCCAGGCTGAAAACCAAGTACAACATAACCGTGCTGGTCTCCGACGTCAATGACAACGCCCCCGCCTTCACCCAAA
TCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCAGTGTCAGCGCCACAGACAGAGACTCAGGCACCAACGCCCAGGTAAC
CTACTCGCTGCTGCCGCCCCAGGACCCGCACCTGCCCCTCTCTTCCCTGGTCTCCATCAACGCGGACAACGGCCACCTGTTTGCCCTCAGGTCGCTGGAC
TACGAGGCCCTGCAGGCGTTCGAGTTCCGCGTGGGCGCCACAGACCGTGGCTCCCCGGCTTTGAGCAGCGAGGCGCTGGTGCGCGTGCTGGTGCTGGACG
CCAACGACAACTCGCCCTTCGTGCTGTACCCGCTGCAGAACGGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCTGAGCCGGGCTACCTGGTGAC
CAAGGTGGTGGCGGTGGACGGCGACTCGGGCCAGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCAC
AATGGCGAAGTGCGCACCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCAAGCACAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGG
CCACCGCCACGCTGCATGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCCTCTCCCGGAGGCGGCACCGGCCCAGGCCCAGGCCGACTTGCTCAC
CGTCTACCTGGTGGTGGCATTGGCCTCGGTGTCTTCGCTCTTCCTCTTTTCGGTGCTCCTGTTCGTGGCGGTGCGGCTGTGCAGGAGGAGCAGGGCGGCC
TCGGTGGGTCGCTGCTCGGTGCCCGAGGGCCCCTTTCCAGGGCAGATGGTGGACGTGAGCGGCACCGGGACCCTGTCCCAGAGCTACCAATACGAGGTGT
GTCTGACTGGAGGCTCCGGGACAAATGAGTTCAAGTTCCTGAAGCCAATTATCCCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCC
CAGTTTCAGGAAGAGCTTTGAATTCAGTTAAGTGTTAATAAGGATCTACTGAGCCTCGTCTTAGTTAATCTGTGGAAAGTCCTTTTTTACTGCTTTGTCC
ATTGGAGAGGTCTTTTTTGGTCTGGTTCAAGGCAAGTAGCAAGAATAGAGCAAAATATCAAATCCAGGGATGGCTTAGGTTTCATTAACAGTACTGGAAA
GTAGTTGTGTGGCTCTGAATGTTTTGTATTTCAATCGAGAATCCTTAGTCGATAGAACATTTTGTTTATATATTGATTCTACTTTTTCTGTAGTTAATCC
TTGCATATTCTCCTTTCATCCTGGCTTGCCAACGCAGTCTTAATTCCGCCTTTTTTTTTTCTAATGGGGAGCAAAAAGAAATTCACTGTCTTTTAATAGT
GATTTCAAATAGCTTATTAAAATAACTCCATTCAAATTTTACATTATAAAGCAATGTAGAGAGAGTTCCAAACCACCAATTTTATAATTTCCCTTGTTGA
ATATATTCATATAATGTGTTCTATAATATGCCCAAAGCAGCTTTGTCTATAGTTAACAAAGTTTTAAGGATAGACAAGAATGTGTTTTCTTTAATAAATA
GTAATATATCATCTTTTTAGGGATATAGTACTCAAATGAAAGTAATTTAGTTCATTTTC


SNP Information

Context             (SEQ ID NO:60476):
GCTAGTCTCGTTTAATTTGTGGAAAGTCCTTTTTTACTGCTTTGCCCATTGGAGGTGTCTCCTTTTATTAGAAAGTAACCATCTTATTCCAATTCTATGC
R
TGTTACTGGTATTTATAAATGTATGAGTTTTTTTGCGGTATAATAAATGTAAATTTTCTTTGTATTCTAATTGTTGGTTAGTTTCATTGCAATTTAATTG
Celera SNP ID:            hCV2025847
SNP Position Genomic:     8701
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:60477):
GCTCGGTGCCCGAGGGCCCCTTTCCAGGGCAGATGGTGGACGTGAGCGGCACCGGGACCCTGTCCCAGAGCTACCAGTACGAGGTGTGTCTGACTGGAGG
M
TCCGGGACAAATGAGTTCAAGTTCCTGAAGCCAATTATCCCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAGA
Celera SNP ID:            hCV25936396
SNP Position Genomic:     8461
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,27)   caucasian(A,5|C,29)   total(A,10|C,56)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60478):
TTAATTTGTGGAAAGTCCTTTTTTACTGCTTTGCCCATTGGAGGTGTCTCCTTTTATTAGAAAGTAACCATCTTATTCCAATTCTATGCATGTTACTGGT
R
TTTATAAATGTATGAGTTTTTTTGCGGTATAATAAATGTAAATTTTCTTTGTATTCTAATTGTTGGTTAGTTTCATTGCAATTTAATTGCATTTAAAGTG
Celera SNP ID:            hCV2025848
SNP Position Genomic:     8712
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:60479):
GGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCT
K
CTCCCGGAGGCGGCACCGGCCCAGGCCCAGGCCGACTTGCTCACCGTCTACCTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCTTCTCGGTGC
Celera SNP ID:            hCV1005608
SNP Position Genomic:     8203
SNP Source:               Applera
Population(Allele,Count): african american(G,32|T,2)   caucasian(G,33|T,5)   total(G,65|T,7)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60480):
TGCTCGGTGCCCGAGGGCCCCTTTCCAGGGCAGATGGTGGACGTGAGCGGCACCGGGACCCTGTCCCAGAGCTACCAGTACGAGGTGTGTCTGACTGGAG
R
CTCCGGGACAAATGAGTTCAAGTTCCTGAAGCCAATTATCCCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAG
Celera SNP ID:            hCV25936397
SNP Position Genomic:     8460
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,24)   caucasian(A,3|G,27)   total(A,5|G,51)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60481):
CCATTGGAGGTGTCTCCTTTTATTAGAAAGTAACCATCTTATTCCAATTCTATGCATGTTACTGGTATTTATAAATGTATGAGTTTTTTTGCGGTATAAT
R
AATGTAAATTTTCTTTGTATTCTAATTGTTGGTTAGTTTCATTGCAATTTAATTGCATTTAAAGTGTAAAAGTAAATTTTGTATTTTCAGAAATCTTTAA
Celera SNP ID:            hCV2025849
SNP Position Genomic:     8746
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:60482):
AGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAGAGCTTTGAATTCACTTAAGTGTTAATAAGGATCTACTGAGGCTAGTCTCGTTTAAT
Y
TGTGGAAAGTCCTTTTTTACTGCTTTGCCCATTGGAGGTGTCTCCTTTTATTAGAAAGTAACCATCTTATTCCAATTCTATGCATGTTACTGGTATTTAT
Celera SNP ID:            hCV1005609
SNP Position Genomic:     8617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60483):
AGCAGCAAGCAGGAAGAGGAGGCTTTCTAAGGCGGTCGCTCCGGGAAATCCGGGCCCTAGGATTGTCCACTCATCCCAGTATCAGCGAGATACGGGGAGA
Y
AGAGTTAGCGACAACGTGAGCCAGAGCTGGAGCACGTTTGGTGAGAGACCAGAAAGCAATGGAGGCCGGAGAGGGGAAGGAGCGCGTTCCGAAACAAAGG
Celera SNP ID:            hCV25939491
SNP Position Genomic:     6123
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 UTR 5


Context             (SEQ ID NO:60484):
GGAGGAGCTGTGCGGCCCCACAGAGCCCTGTGTCCTACCTTTCCAGGTGTTACTAGAAAATCCCTTGCAGTTTTTTCAGGCGGAGCTACGGATTAGGGAC
R
TAAATGATCATTCCCCAGTTTTCCTAGACAAAGAAATACTTTTGAAAATTCCAGAAAGTATCACTCCTGGAACTACTTTCTTAATAGAACGTGCCCAGGA
Celera SNP ID:            hCV3169664
SNP Position Genomic:     6563
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,5|G,33)   total(A,11|G,65)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   ;(A,-|G,-)   Caucasian(A,10|G,72)   African-American(A,5|G,73)   Asians(A,14|G,48)   total(G,193|A,29)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60485):
TCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCTGCTCCCGGAGGCGGCACCGGCCCAGGCCCAGGCC
K
ACTTGCTCACCGTCTACCTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCTTCTCGGTGCTCCTGTTCGTGGCGGTGCGGCTGTGCAGGAGGAG
Celera SNP ID:            hCV25937221
SNP Position Genomic:     8237
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(G,39|T,1)   total(G,75|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60486):
AGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAG
S
GAGCGCGACGCTGCCAAGCAGAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACG
Celera SNP ID:            hCV27537821
SNP Position Genomic:     8080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60487):
TAAGCACGGCCCTGGACCGGGAGACCAGATCCGAATACAACATCACCATCACCGTCACCGACTTCGGGACACCCAGGCTGAAAACCGAGCACAACATAAC
M
GTGCTGGTCTCCGACGTCAATGACAACGCCCCCGCCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCA
Celera SNP ID:            hCV8939793
SNP Position Genomic:     7501
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,38)   total(A,2|C,74)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60488):
CCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAGAGCTTTGAATTCACTTAAGTGTTAATAAGGATCTACTGAG
S
CTAGTCTCGTTTAATTTGTGGAAAGTCCTTTTTTACTGCTTTGCCCATTGGAGGTGTCTCCTTTTATTAGAAAGTAACCATCTTATTCCAATTCTATGCA
Celera SNP ID:            hCV8939786
SNP Position Genomic:     8601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60489):
GAGTTCAAGTTCCTGAAGCCAATTATCCCCAACTTCGTTGCTCAGGGTGCAGAGAGGGTTAGCGAGGCAAATCCCAGTTTCAGGAAGAGCTTTGAATTCA
S
TTAAGTGTTAATAAGGATCTACTGAGGCTAGTCTCGTTTAATTTGTGGAAAGTCCTTTTTTACTGCTTTGCCCATTGGAGGTGTCTCCTTTTATTAGAAA
Celera SNP ID:            hCV26312423
SNP Position Genomic:     8574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60490):
TGTAAATTTTCTTTGTATTCTAATTGTTGGTTAGTTTCATTGCAATTTAATTGCATTTAAAGTGTAAAAGTAAATTTTGTATTTTCAGAAATCTTTAAGT
T
AGAGCATCTTTTCCAGACCTCACAGTCTATGGTCCTAGATAATTTTGAAGTCCTACATTTGAAAATATTTGTTATCATTACATGAGTTATATTTTCCAGC
Celera SNP ID:            hCV2025850
SNP Position Genomic:     8849
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:60491):
TGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGCGTGTGGGCGCACAATGGCGAGGTGCGCACCGCCAGGCTGCTGAGGGAGCGCGACGC
K
GCCAAGCAGAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCACGTGCTCCTGGTGGACGGCTTCTCCCAGC
Celera SNP ID:            hCV26312425
SNP Position Genomic:     8092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION


Gene Number:                 324
Celera Gene:                 hCG1820462 - 176000013072289
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRE9APK7(3732124..3744650)
Chromosome:                  16
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12484):
AATTTTGGAGGGCTGGGGTAGAATGCTGTGAATTGAATGTTTGTGTCTGATATGGTTTGGCTGCGCCCCACCGAAATCTCAACTTGAATTATATCTCCCA
GGATTCCCACATGTTGTGGGAGGGACCCGGGGGGAGGTAATTGAATCATGGGGGCCGGTCTTTCCCATCCTATTCTCATGATAGTGAATAAGTCTCAAGA
GATCTGATGGGTTTATCAGGCAGTTTCTGCTTTTGCTTCTTCCTCATTTTTCTCTTGCTGACACCATATAAGAAGTGCCTTTCGCCTCCTACCATGATTC
TGAAGCCTCCCCAGCCATGTGGAACTGTAAGTCCAGTTAAACCTCTTTTTCTTCCCAGTCGTGGGTGTGTCTTTATTAGAAGCATGAAAATGGACTAATA
CAGTGTCCCTCCAAAATTATTATGGTGAAACCCTAATTGCCCATGTGATGGTAGTTGGAGACAGGGCCTTTCAGAGGTGATTAGATGAGAGTGGAATCCT
CATGAAGGGATTAGTGCCCTTACAAGACACATGAGACAGTGCGACCTCTCTCTCTCTCTCTCTCAATTCCTCTCAGCTCTCCACCATATGAGGACACAGC
AAGAAACAGGCTACTTAAAAACCAGAAAGAGGGACCTCACTAAGAACTCAACAAGGTTGGCACCCTCGTCTCGGACTTCCAGCCTCTAGAACTGTAAGAA
TAAATATTTAAGCCACTCATTGTATGATATTTTTGTTATTAGCCCGAAGTAAGACAAAGAAGAAATATTGCTCCAACAAGATTTATGAGTATATTTTACA
GATCTGCATTGGACAAGTTAGCTTTCCCTGCAACGACCATTTACTGAATCTTTACTATGTGCCAGAATCTGAGAGTCATATTAGCATCTGCAGGTAAATC
AGCCAAGGTTCAAAGAGATGACTAAGGCCAGGCACGATGGCCCATGCCTGTAATCCCAGCACTTTGGGAGACCCAGGCAGGAGGATCGCCTGAGCAGAGG
AATTCGAGACTAGCCTGGGCAACGTGGTGAAGCCCTTCCTCTACATTAAAAAAAAAAAAAAAAAAAATTAGCCAGGTGTGGTGGCATAAGCCTGTAGTCC
CAGCTACTCAGGAGGCAGAGATGGGAGGATCACTTGAGCCCAGGAGGTCAAGGTTGCAGTGAACCATCATTGTGCCACTGAACACCAGCCTGGGTGACAG
AGCAATACCCTATCTCAAAAAAAGAAAAGAGAGAGAGAGATGACCAGATTTGCCCAGGGACACCGAGTGAGTTAGTATTCACACTGGGATTTAACCCCAG
ATCTGTATGACTCCAAAGCTGGGGCTACCTCTATTCCACTGGGTTGCGTCTGCATATGTAAAAATTAGCTGCATTTTAAATATTTGTCTAAAATAAACCT
TAACCTATCGCAGGGCGTGCTGCCCCAGCCTGAGACTGGCTGCTTCATCTACAGTTGTTTCTCTACTTGTCCTTGCGTAGGGAAGTTTTATCACCACAAG
GACCGTTTCTCCTCTGTTTAATCTAACACCTGCTAGTCTGAGATTCTCTAAATGTCCCACAATAAATATGAAAAACAGTCTCAGGCATATTTTTCCCCTC
TTAAATAATGGAGTCTAAATGCCAAGTGGCCAAAAGCAGGCCTTTCAGCCATTGGCGGCTGAACACTGTCTGAACATGAAATCCGTCTCTTCAAACTATG
TCAAAATTGCTTAATAAGAACTCAGGGGACCCCACATTAATGAAAGGATGCATCTGCTTTGGGTTTCACATTATTGGGAGTGATGGTTCAGAGCCAGCCA
CCTATGCTTGACTTTCACTCTTTAAAACTCTGCAGTTAATCACAGCCCTCATTATACAAAGGTTACATGGATATAAAGTTTGAAAGATTCGGTTCAAGAC
TGCGAGCGGTGGCCAGGAAAAAAAAAAAAAAGGAGAAGACACAAAGACAATGATCAAAGAACAATGAATAACATTCAAGACTAAGTCGGTGCAAAATTTT
CAGAATGAGAAATGAAACGGAAAACTTAGAGGATAAGTACCAAGCACAAGTTTTAGGTATTCTGGAGACAGGAAACTCAGAATATTTTAGCAACCGATTA
TGTCTATGAGGGGGATGAATAATTTATTATCTGATAAAGAATCTTCCCTGAGCCTGTGACAAGAAAGGTCAAATAGGCAACTGAAGTAGAACAGTAAATA
CACGATATACTACTCGAAAAGGAAGTCTGGAACGGAAGGCGAAGGAAAGAGCTTCCTTGGCCCATGTTCATCAACTCCCTCAGATTACAAGAAGCGCAGC
GGATGTACTTTTTAGGTACCCTCATATTAGGAACCCAGAAGTATTCATACAAATAAATGCAAATAATGTATGAGTACAATACTTGTCTAAGTCCTTGAAA
AAGGCCAATCTTCCGGCATCACCCACACACCAGCTGCAAATCTTGGATCCACCCCGTTATCTCCCAGCTGTGTGAGCCTGGGAAAGTCTATGCCTCTTCC
AGCCTCTAAACTGCCTCATCTGCACAATGGGTTTCACACATAATATAAATACTTTACTGTTAAATGCTAAGCACAGTACCTAGTACAAAGACAAATAGGA
ATATCCAACCCCCCACCTGCAGGTGACAATAATAGGACATTTTGCAAACGCCCCAAAGAAGAACTTCAGAACTTTACGTTCCTTTGTGAGCATGCGCTTA
TTGACTTGAGCAAGTGGCTTATATAGTTCTTGCTGGTTTGCAGACTTGTTTATATCATACTTTATTTATTGAAAATCCAATACTATACAGAAAAACAATT
TGTAAAGCAAAGAAATGAGGAACAAATCTAATGGCTGATTTAGGATGCGCTCTTCCCGGTAATCTACAACTATTAATAATATTAATAGCTTTTATCTTTT
TGTTTAGCTACAGATCGTTCAGAACAATGGAGATAAGCCCTGTGACTTGTGATGCGTTGACGAATGATCATCTTTTCCAAGCCAAGTCACCAGCTTAGAC
AGGCATGAGGCTCGTATTTTACCCGCCCCACATACCACATGCCTCCCCCCAACACATATATCATAAAAGAAGGCCAAGGCCTTCCATCCACAAAGGCAAA
TCATGGGACTTAAGCTTTTAGTGTCAAAGGAGATTGCATGGAATTCCCACAAACAGTGAAGCTATACCAGCTCATAAAGTCACTGAATTTTAAGGAGCCT
AAAAGTAGGTGGAGTTTTGCAGAAGTCTTTAAAAGTGCGAGCAATTTACTCCTCAGCATCCTACCCATCGTTCCTTAATATCATGCCATGAAAACACAGG
ATGCGGCAGTTTCCCGGCAGGGAAAACAACAACAACAACAAAATGAAAACACAAGTGTCAGTATCTATGAAAAGCACAGCAAAATGTTGAGCCCATGAGC
CTAATATAATGGTTGGTACTGAGTGCTCCCTATCTGAAAATAATGTTAAAGTCATTATTTCCGATGCTTATCAATGAGGCTGCAATCACATAATGCTGTC
AGTACTATCCCTATCCCTTCACTCCCACAAAATAAATAGACCCGATATCAACTCTATTGAAAACCTGAATCATTACAGCACTTCAGCAGCAAACCGTGTG
GTTGCAATCAACTGAGCATGCGCTCTCTCCCTAAAACATGCACATTCCATTACCTCTGGCTAATAAATCTTTTATTTTTACCCCTCATCTCTCTGCTTTC
TCAATAATCATTTTGATATAAACCATTGCTTGCTGTTCCTGATGACTAATCCCTTAATCATCTTTCCAAAATATATGCAGAGTGTATTTCTTTGTAAATA
CAAAAGAAAAAGCAATCACATAAATAGTTAAGATGGCTTTTCAAATGACAGTTGAGTGCTAATATGAGCTACACTGGAAAATACTAATCAACAAACTAAA
TACACATCCATTAAAATGTAGGAGTCCAGACATATGAAGACAGAAAAAGAATTCATTGCAACTCCACTGAAATCAGGCTGATAAACATCTGCCCTAGAGC
TCCTCTTTCAGCCAGTTGGAGAGGTTAAGAAAAGTAAGCATCACTTTGCACTTTCATGCGTGAAGAAAATATTATTATTGTTGTTATTAATAGCAGCAGC
TAACATTTAATTGAGCACTTAATTTATTCCACAATGGGTTAAGACTTTATATACACAGAGTTGATGTGTTTAATAGAACCACCTGTATCTCTGAATAGAG
ATATTATGATGTGCATTTTACAGATGAAGAAACTGAGGTTTAAAGAAGTTAAGAAACTTGCCCAAGGTCATAAGATGTATCTGATTCTAATCTTTGCCAC
TATAATACAGCATGTTTTATAGCCGTGGTTATGAACTGGGGACGATTTGCACCCCCAAGAGACATCTGGCAATGCCTGGAGACATTTTGGTTGCCACAAA
CATACTTGGGTCACCCCTCCCATATGAGAGGGGAATAGACTCAAGACACATTCTGGGAAGTCAGGGGTGAGTCAAATAGTAACTCTAAGGGAGAGCCACC
TGCCCCTCTTCCCATACCAGCCCTCTCTGACCAACCTGTGGCCATCTCAATGTCCAGCAGATGCTGATGTTTCACAACACTTATTGGGCCCCTCGCTATA
CTAATGGCCAGTCCCCAACAGAAGCTCTTCTGCACTCTCTGTTAAACAGATCTAGTGAGGGCCTGGCAGGCATGAGGAACATTGGTTACTCATAACAATC
CCTCTCCTCTCTCTCAATCCACCGCCCCTGCCTCCCAGCCTCAGCCTCATCCCTTTTCCTCCTGCAAACAACGTAGGGAGATGGATGACATCAGGTCCAT
CTGCTCCCACTCTACCCTACCTCCTTCTTCCACAGGACCAGAGTTTTAGATCCCAAGTTCCGGGGATCTAAAATTTAGAAACTAAAATTTAGAAATCTAA
TAGAAACAGAAGAAGGAGGAACTCAGAGCCCCACTGGGGTCTTTCAAGAGCTCTACACTGGAATGTCGAGGTCTTGCTGTAGCTGTTCATGAAGTATGTT
TTGATACCTAATAAGCTCTTGTTCTTTACATGCAATGCCCCTCAGAGGTCCTGAGATCTCAAGACAGGGAGTGGGATATGCCAGACCCCGAGAAATAAAG
CAACAGAAGCCCAACTCCAATAGATACTGGGTAAAGGAAAGAATAAACCATGGTAATGCAGGACTCAGACACACCTATCGTTGTCCCAGACTTAGAGAAC
TCACATGGATTCCTAACACATAGACACTGCTGCTAAATAAAAGAGAGTCCACTGCATCTTGAAAACAGGAAAACATCTTATTCCACCAGCCACACTGGCC
TCTTGGAATACACAGGAAAACGATAGGTGCTTGTCTTAAGAGGTGAGGGCACCAGTGTATAATTCACATAAGGATGTGAATGAGGTAGATCACATCTGTG
TGCTGTTCCACAACATAGGAACAAGCCCCACTGCCCCGTTTTCTTTATTTAAATATGAATGGGGGCTGATGTGCCTCCATCTCCTCCCTCTTTTTTTAAT
TATGCCAAATGGATTGGCCTTTTAAGACAGTGGTTTACTTCTGTACTGTCCATGTTATCCTGTTTTAATTGTTTTCATTTTTTCTCTTCTAACTTTGGAG
CATCTAAAACATCTCAGCAGGAGGGCATTTTCCCATGAAATAATTAGTAGTCATAGTAATTACATATAGGTTCTTAATATACTTCTATATGGAATGTGTT
TTCACTTAAGTTGTATTTTATTAAATAGCTCCTTCTTCCCAAAAGTAATTTGAGAGCTCTATAAAGGATATCTTGAATATAAAGAGACGACAGGGTAGAT
CAGAGTGGCTTCCTCTAAGAAATAGGATGGATCCTGAAATTAATCACTCAAACCGCAGCTAGAGAGTTTGAAAGCAAAATCTGCAAAGTATGAACATTGA
TACTAAACATGGTAAAAAGATGGGCCATGGGGTGGAGCAGACAGACTTGGAGTTTGGAAGCCAGATGGACCAAGCAAGGAGCCTGACTCTGAGCTCACCA
GCTGTGCAATTCGGGTGAGTTCCTTCACCYTTCTGAGCCATCYCTTGGCTCGTCTGGAAAATGCAAAAAAAAAAAAAAGAAAAACACCAGGTTTTTGCAT
CCTCCTGGATGAGGGATATAAAGTGCCTGACACAGCATATGACAGGGATTTGATAAATGGGGGCTRTTAGCTGTCCCATTGTGGATGTGAGAATAGCATT
CTGCTGGCTAAAAGGCAGACATGAATGTTCTAGAACATGGCGATCCCGGAATGTGCAGTGAAGGCAGGAAGAGGAAGAATGGGCAGGGAAGAACAAGTTG
GGATGGAGGAATGAACTCTTATCTCCAGAAGCAGAGCTAAGAATGCCCACGGAGCCTTGGCACATGACAGCCTCCGCTGAGCCAAATGGCCCAAAGACTT
CTGAATGAGCTTTTGCTGCAACAAAAAACTTTGGATCATTTTGAGAGCCTCCCGTGAGGYGCCAATATGTTGCAGTACCTTCCCGGCCCCGACACTGATG
TGATTCATCGTAGGTAACATATGAATACGCTCAAGCTGGCCAGCAGCTTGAAAAATTGGAGTCTATCAAATTGACCTTGAGAAACACAGGAAGGTAATAT
TTAGTGACATACCAGATGAAATCCTTGCGCAGAGATGTGAGGTGAGGAAGGACCTGAAGGGAAGTAGACCAGCAAATATCAAGGGTCAAGGAGTTGGGGG
ATGATATAGAGACGAAGCCTAACAGATGTCACCAGAGCAAGAAGGCCTTACGACTTCACATCCTCTCTGCAGGGTATGAATGGTGCAATGGAATGAAATG
GTAACTACAGCTTCTGGTGCAAAATTTGAGTTTCCATAATCATCATCTTGGGAAAATGAGGAACACAATATAATGGCATACAGAGAGAACAAGTGAAAAG
ATGAGAGATGATGAACAGGTTGAGTTTCTTCAGCCTACAACCTATCAAATCTAATTTTAAACATCTGGAGCCACGTGTATTAGTTTTGTTTCTGTTCCAT
TTTCCTTTTTCTGTGTCCCCGACGGTGAATGATTCTGAATAATTCTTAGTCTGGGATCACTGGTCTATCTCAAGGTACTACATGTTAGAGTAAAACTATA
AAACAGCAAATTCTATCATCTGAAATTGACTCACAGGGACCCAATTAAGGCTCAAAATATAAGAAAGAAAGACTGAACAGTGGGTCTTTGACATCATCCA
TCCAACCTTTTTCCTTAAAGATGAGGAAACAGGCTCCAAATAGATCCAGAGGCTTACCCAAGGTCTCATCGCTAATTGGGGCAGGTCCAGGAATTTCTGC
TCTAAGCATCAAACAATAATTAAAATAGGATAAATGCAGATGAATGTGTTCTCATATATATTGTGTTCTCAGAAAAGAAGAGGATAAATTTAATGATGCA
AAAACAGTTGTGCTACAGCATTATCTTCCAAGACTGGTTTAAACATGAATGTCACTGTACAATCAGGTTACCATAGTGTCACTAGCGTCCCTGGAATTTT
ACCTTTCTAGTTTCAAATATTACATCAAATAGGCAGAGTTTTACAATTTTGACACGCCCTCCTGCTAGTCCCAAGAACACTGCAAGCCCTCAGCAGTTGT
CTGTCTACACTGTCAGTGGGAATGGAAATTGGAGCAACAAGATAAGAAATGACTCGGGAGGTCGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTG
GGAGGCCTAGGTGTGTAGATCATGAGATCAGGAGGTCGAGACTATCCCAGCCAACATGGTGAAACTCCGTCTGTATTAAAAATACAAAAATTAGCTGGGC
ATGGTGACGCGTGCCTGTAGTCCCGGCTACTCGGGAGGCTGAGGCAGAAGAATTGCTTGAACGCAGGAGGTGAAAGTTGCAGTGAGTCGAGATTGTGCCA
CTGCACTCCAGCCTGGTGACAGAGTGAAACTCAGTCTCAAAAAAAAAATAAAAAAGAAAAAGAAAAAAAAGAAAAAAGAAAATGACTCGGGAACTGTTAC
CAAAATTTTAAATGCATATGCCCTTTGAATCAAGGAGTCCAGTGCTAAGATTCTGCCCCAGGCATTTACTCACAAATACGTAAATAAAGAATGCTCACAG
CAGCATAGTTTAGGCCCAATATCAGATGATATCGTAAGAAAGACTGATGCAAGAAAGAGAGAACTGTGAAACACCATTGCTTGGAATAACAAATAGCAAA
ACAATGCAAACAACCTAAATGGCCACCAAAGGGAAGACTGGTTATAGCATAAGCACATGATGGAATATTATACAGCAGTTAAAACAATGAAGTAGATCTA
TATGCACTAATAAGAGATCTCCTGCAGTACTAAGTTTAAAAAAAAAAAAAGTACAGAACAGAATGTGAGTGTGTTTGCTGGTATATAGATAACCTTTTTC
TGGAAGAATACATAATGTTTATCTTCCAAGAGAAGGACCAAGAACGACTTTCACATTTCATTTTTCACCTTCCCATTCTGCGTGTAGATTCAAATAAGAT
GCACGTATTCCCATTTGTACTCTTCTCAATACATCCCTAAAAATTGCTACTATCCCACCTACTAGAGGTTACTACTTTTTAACATTAGTCAGAAAGACAA
TAAAATGATCAGAAAAAGTAAGACTCTGTTTTCTTTTTTATTTAACCCAAAATAATAAGCTCAGTGAGCTCAAGATAAGGGCTCATTTCAAATATACTGA
ATTTCAAATATTTCATCATAAATACACTGAAAAAGCAGAAATAAATCTTCCTTTTCTTTATTTTCACTACTTTTCAGTCCAGAGTACCAAAAATTTTCTT
AAGTACACTGTAGTCTATTTCTTCAAATGGCAAGAAATCTTTCACAGCATTCAAAAATGAAGACGGCCTCCACAGGGTGTACCCAGCCCCCTTCAGGCTC
TGCTCCCAAACACGCTGCTCTATCTCCTCCTCCCCCTCCTCCCAGGGCCTCTGCACCTGCCATTCCCCTACCCCATCTGACCCTTCTCCACCCTCTTCAG
GTCTTTCTTCAGATCTTAGTTCAATCACTTCTTCCTTGGGGACCCCAAAGGTCTCCCAACTCCCTGGCATCATTACTGATTCCTAGGACCACTCACTGCT
TTTTCAAGTTTACATTAAGATCTGTGTTTTTTGACTAAATTTGTCTTCCACAATAGGCTGAAAGCTCTACAAAGACAGTGGCAACGTCTGTTGTCCTTAA
CAGTAGACCCCAGCACCCATCACAGAGGTGCACTTCATGAATATGTGAATGAATGAAAAGTGAATGAATGCAGTCTGGACTTCATTCTGAAATCCAGCGA
TGTTTCAAAAATCAAACAGCTCGCATCACTCTCTAGCTCAAACCCTCTAATGTCTTCCTCACCGCTATCTCAGAGTCTACCAGATACCCATCCCCCAACA
GCACCTCTCCTACCCACTCCATTCATCTCCAGCCACACTAGCTTCCCTGATGATCCTTGAAATCTCCAGGCTTGTGCCTACCTCTGAGCCTTAGCATATG
CTCTTCTCACTGCTAAGAGAATACTTCTCTTGACATCTGCATGGCTTACCCCTACTTCATTCAGGTCTCAGATCAAATGTCACAACTTTGGAAGGCTCCC
TGCTGATGACTCCATCACACTCACGCTATCATTCCCCCCACCTTCCTCTGCTTTACAGTCCTTTATTTACTGACATTATGGCAAATATTAAACTTGATTA
TGGTCTATTTTTCCTACCTAGAAGGTAAGCCTATGAGGGCAGGGATTCTGTTTCGTTTAATACTATATCCTTGGTCCCAAGACTAATGCAAGCCCTTAGT
AAATATTTATGTAGACACGTATCAACATCAACTTCTACATAGACAGAGAAAAGTAAGAAATCAGAGATAGGGTTAAAGCTTCCTTCTTTCTAATCTTAAC
AACCATAAGCATAACAGTCTCCTAGTTGCAATCATGGGCGTTCACCACGTTTTATTTTTCTTAATAAATGAGTTAAAGGAAGAAACATTCTCAAACCCCT
GACTAATAAAGCAGATGACACTGACAATGAACTACAAACAAATGCGTGAATAATAATGGACTTGCTCATGCTTTCATTCATAAGACAAACAAAGTGAAGA
TGACTTTAAAAATAAAGACATGATTCCAAGAGCAATAAACTTTACACACTCCACTGAAATCTCCATATGGTTAGCCCGGCATGTGTATTTGACAATTAAA
AAAAACAACAACAGTCAAGCGCTTACCCATTCTTCTAAAATGCGTGACACTGCTTCACTCGCCCTTGCCATGTTCCTGCAGGCCAAGATCACATGTGCAC
CATGGAGGGCAAAAGACTTGGCGGTTTCGAACCCTATGGTTTAAAGGAAAGTCAATGTTAGAAAACATAACATCAACACAGTGAGTCATGTTGAATGGCC
TTTACCGGAGCACCACTTAAATTACCCCAAGTTCTCAACCAGGGGTGATTTTGATCCCCAGGGGACAGAAGCAAATGTCTGGAGACATTTTCAGTGGCCA
CGGTTGTGGGGTAGAGTCCTACTGGCATCTAGTGGGTAAACACCAGGCATTACAAAACATCTTACCATGAACAGGGCAGCCCCTGACAACATAGAACCAT
CTGGCCCGGACTGTCAACACTGTGATGGTGAGAAAACTTGTCCTAGGGATGCAGTGATTTCAAAGATGAAGACTGGGACATAGAAGAGTTCACGGCATGT
CCAGCCATTTAACCATCAATAATGACCAGATCCTGTGCCCACGATAAGGACTTTATGCTCTACTCTATGGTAAGTGTCGCCAGCACCTCTGCTTCTACCA
GTGTTACCTAGGTTTCTTAGCCCCATTTCCTACTGAGAACAATTAGAAAAGATGGACAAAATAACACACGTGCATACACACCCATATCTGTTTGAAGGCA
TCAGAAGGGCACTATGACTAAGAATTTTGGGGGCCAAGATCTGCAAAAACTGCAAGGCCAGCATTTGGCAGCTTTTTTCCTTCAAGGCATATTTCATTTC
CAAACATAGTGGTTGGAAGCCTGAGAAGATGGGCTGAGCTTTTGGCAATTTTATAACAAGGAAAAAGACATAAATTTGAGCTCAGGACCCACCAGGAAAG
GGCCACGGTAAACACACCAAACCTTTGGTCGGGATCCTAAAGAGTTATACCCTCGCTGTAATAACAAGAGACAGTCCAGCCTTCACAAGAGTGGAAACTC
AGCTTCAGGCCATTTCAATTCCTAGTTTGATTAAAGTGATCAGTCCCTATCTATCCAATTTCCAGAAGCAAGAGAAAATGTTCTCTGGAGGAAGATACCA
TTATCTAGAGTCTCAAATTACCACTATGATTATTTCAAATACTCATATAAACTCTCAGACATTCAAACAAAATAGCTAAGCATACAAAAAGAAAAAACTT
CACCAAAAGCCAGAGGGGAACAAATGGAAATAAATGCACAGGAGATCTGTCTAATCAAGTTATTCAGAAACAGTGATTAAAATAAGTCTGACTGACAAAT
TCAAGGAACAAAAAGGCAAGATGGAGAATTTTGCCAGGGAATTAGAAACAATAAAAAAATTCAAATAGATATTCTGAAACTTAAACAAAATAAGAGTAAT
AAGAGTAAAGAAGAATTCAGCATATAGTTTAACAGAATACAAGACACAGCTGACGACAAGATTGAGGAAACTACAAAATAAGTTAACAAAAAAATCCAAA
GTGAAGCATAAAAAGAAAAAAATAACACAATAAAACAAAGCACAAAAGAGACATATGAAACACATTCTCCCAGGCTCTTACACATACATGTAATCTGAGT
TCCAAAACAAGTGAAATAGACTAAGAAAAGCAATATTTAAAGACAGAATGGCTGATAATGTTACAAAATCAATGACGCATACACGGCCAAAAAAAGAAGT
ATCCTGAGCCATAAGCAGAAATATGTATGTGTATGTGTTGACATGTATATGTATAAATGTGTGTGTCTACATGTATGTGTGTGTGTGTATATATATATGT
GCAAGCTACAAGCAGAAATGTACGTTTGTATATATATATATATATTTATGTCTGTGTGAGCCGCAAACAGAAATATATATGTGAGTGTGTATCTGTATGT
GTGTATGTGTGTGTAGATACACATATATACACATACATGTCAAAGCAAGGCACATCAGAGTAAAACTGCTAAAAACTGCAGATAGTTTTAGAAGTAGTTA
GAGACCAGTAGCTACAAGACTGATAGTTATACCTCTCAGGAAAATGATGGAAGCCACAGCTGAAAAAAAATAAAACTTTCATCTTAGAATTCTATACCTA
GTGAAAATATTTTTGAAAAATAAAGGCAGAGAACAAAAATTTTAAGCAAACGAAAGCTGCTTTTTGTTTGTCACCTACACTACACCTAGTGTCACGTATA
GACCCACACTAGAGGAAACACTAAAGGATGCTCTTCAGGCAGGAGGAAAATGACCTTAGCTATAAACCCAGAGATGCAGAAAGTAACAAAGAGCAACATA
AAGGGTAACGACATGTTAAGACCCAA


SNP Information

Context             (SEQ ID NO:60492):
AGACTTGGAGTTTGGAAGCCAGATGGACCAAGCAAGGAGCCTGACTCTGAGCTCACCAGCTGTGCAATTCGGGTGAGTTCCTTCACCCTTCTGAGCCATC
Y
CTTGGCTCGTCTGGAAAATGCAAAAAAAAAAAAAAGAAAAACACCAGGTTTTTGCATCCTCCTGGATGAGGGATATAAAGTGCCTGACACAGCATATGAC
Celera SNP ID:            hCV25933156
SNP Position Genomic:     6043
SNP Source:               Applera
Population(Allele,Count): afr(C,37|T,1)   cau(C,40)   total(C,77|T,1)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60493):
AAAAAAAAAAAAAGAAAAACACCAGGTTTTTGCATCCTCCTGGATGAGGGATATAAAGTGCCTGACACAGCATATGACAGGGATTTGATAAATGGGGGCT
R
TTAGCTGTCCCATTGTGGATGTGAGAATAGCATTCTGCTGGCTAAAAGGCAGACATGAATGTTCTAGAACATGGCGATCCCGGAATGTGCAGTGAAGGCA
Celera SNP ID:            hCV25933625
SNP Position Genomic:     6166
SNP Source:               Applera
Population(Allele,Count): afr(G,38)   cau(A,10|G,28)   total(A,10|G,66)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60494):
GGGTGGAGCAGACAGACTTGGAGTTTGGAAGCCAGATGGACCAAGCAAGGAGCCTGACTCTGAGCTCACCAGCTGTGCAATTCGGGTGAGTTCCTTCACC
Y
TTCTGAGCCATCCCTTGGCTCGTCTGGAAAATGCAAAAAAAAAAAAAAGAAAAACACCAGGTTTTTGCATCCTCCTGGATGAGGGATATAAAGTGCCTGA
Celera SNP ID:            hCV25933143
SNP Position Genomic:     6030
SNP Source:               Applera
Population(Allele,Count): afr(C,34|T,4)   cau(C,36|T,4)   total(C,70|T,8)
SNP Type:                 MIS-SENSE MUTATION


Context             (SEQ ID NO:60495):
GCACATGACAGCCTCCGCTGAGCCAAATGGCCCAAAGACTTCTGAATGAGCTTTTGCTGCAACAAAAAACTTTGGATCATTTTGAGAGCCTCCCGTGAGG
Y
GCCAATATGTTGCAGTACCTTCCCGGCCCCGACACTGATGTGATTCATCGTAGGTAACATATGAATACGCTCAAGCTGGCCAGCAGCTTGAAAAATTGGA
Celera SNP ID:            hCV16101644
SNP Position Genomic:     6460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Gene Number:                 325
Celera Gene:                 hCG1820520 - 145000147113505
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(41659231..41674098)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12485):
GCCCTCCTCGGCCTCCCAAAGTGCTGGGATTCCAGGCATGAGCCACCGTGTCCGGCTCCAGTGACAATTTTTACAAAGTGTGCACAGTTGAGGGGAGAGT
TCTGAATTCTGTTCATGTGGTGGAATACTGTATGACTTGCATATGTCATGCTTTTTGAGGGGTGGGGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAG
TGCAGTGGTGTGATGTCGGCCCACGGCAGCCTCTGCCTCCTAGGCTCAAGCGATCCTCCCACCTCAGCCTCCTGCATAGCTGGGACCACAGGCATATGCC
ACGTGCCCAGCTAATTTTTTTAAAATGTGTTTTTTTCTAGAGACAGGGTCTCCCAGTATTGCTCAGGCTAGTCTTGAACTCCTGGGCTGAAGTGAACCAC
CGCACCCAGCTTGTGTTGTGCTTCTGAGTAATTTTTAATGATGTAAGAAAATGATCACAGTATAGTAATCAATAAAAAATGAAAAAAATACAAATTATTT
GTACAGTCTTATCTCAATTATGTACATATACATGTAGATTCAAAGAAAACTCATTGAAAGGAAATACACTAATTCACAAAGGTTATCTCTAAGTAGTAAG
ATTATGGGTGATTTTTTTTCTTCTTGAGCTGTTATGTGTTATTTGTGTATTTCCTATAATGAAAATTCTGAGATCAAAACAATGATTTTCTTTGTGCAAT
TGGAAAGTCAAAATAGAAACAGCAAAACTAAAGTTATCTTTGATTCCTTAATGTTGCACAAAGGAGGGGCTTTCAGTTGAAAAAAAAAGACATGTTCTTT
CCTTAAAAGAATCCGCTGGCCACGGGTGCAGGCTGTGCCACCAGCACTGGATGGTCCTGGCACCCCAGCCAGTTGTGTAGCTGGCCCCGCTGTCCAAGCA
CAAGCCACATGCAAGGGCTGAGAGAAAGCTTCCCTGCCCCCTCCCTCCATCACATCCCCCATGATACTAATGTGGGCTCCCTTACCTCCGCAGTACGGAG
TGGACGTCACGGCCCGAGATGCCCACGGGAACACAGCTCTGGCCTACGCCCGGCAGGCCTCCAGCCAGGAGTGCATCGACGTGCTGCTGCAGTACGGCTG
CCCCGACGAGCGCTTCGTGCTCATGGCCACCCCTAACCTGTCCAGGAGAAACAATAACCGGAACAACAGCAGTGGGAGGGTGCCCACCATCATCTGAGGA
ACAGCCGTGCCCGCCTGCTCGCCGCACCTGGGACGCGGCAGCCTCGCCGCATTCTCGCTCAGAAGTCGCAGCACGTGAGTCCCGTCGCATCCCCTCCCTC
TTCCTGGTGGCCACCTCCCTCCCGCCCACCCACTCTCACCCCAAACAAAATCACAAAACCTGGACATCCTCAAGGGGCGAAGAGGCGGCCGGGAGACTGC
AGAAGTGGCTCCTTTTCATAAACTCCCCTAAACCACACACAGGAGAGAGCGACGGGCCTCGGCCCTTTGATGATAGCACATGGCGCAGGACCCTTGTCCT
GGGGGCTCAAGGGATGGGGACGCGAGGGGGAGGGGAGGCGAGGAACAAGGAGAAGGGGCAACTTTCCTTAACTGGCAGTTGAGCACATAGTACATTTCCC
CTCTACCAAACGGAACACTTGGATTCCATCTCTTCTCTGAGGAGCTCGACGGCATAAATCAGAAGCAAGCACAGAGTTTGTCAGGTTTGAAGCCCCTATG
ATGGTGTGTGTCAAATCAGTTGTAGCTAATCTGTCCAGGGAGAATACTGGCTTCATTACACTTGTACAGCCGAGTTCTTCCCGCATTACTGCTGTTTAAT
AGAACGTGATTAGTCATCGCCGAGAAGAAAGCATATTAGCCGAGGAGGTAGTCACGCGGCACGCGCCGGTGATTGCCACGATGTGATTGCAATACTCTTA
GAAGCACCATATTATCCCAGACATGTTCTTTCAAGCCCTTGGAGCCCTCTCTAAATTCACTGTCATCATTTAGTATCTGTTTAATTTTTCAGTCCAAAGA
GAGGAAATCAGTCGCTGAGTATTATTTGACTCCGGTCTCCTTGGTGCAAAAACAAAATGGGAAAAATAAATAAGAATAACTCAGAAACTCAAAAGGAAAC
CACAAATTCAGCTAATAATAGCATTTCGAGTATATTTCGTAAACTAAGGAAATACACAAAAGGCTGTTTTTTCCGACTGTAAGAGATATTTGATGTCCTT
TTGCCGAGGTGGATGTGTTAGTCTCAGGCCCTCCTGGACCACGTTGCCCAAGTCACACAGGCTTCTGTGTTATGTATTTAGATAAGATGTGTGAAAATAT
ATTTGAATAAAAGAAGTTCATAAATATGCATTGATTTTTGTACAGACAAATGGCACCTCTCTTAATTTATAAATTGAACTGGATGTGAACTAATAATGTG
CAACTAGTTGAGATAAGAGGGTTACAGATCATTGTACATGGAAAATATTCCCAGCAGTAAACACTTCCATTAATGTGATCTACGGCTTTTGAAAAGGAGC
ATCTCAGAATAAGATGGTGGTACAATTTGCTTATTAAAATTGAGAAAGAAAAAAAAAGACACACTGGAGTATATTAGAAAGGAAAAAGAAGGAATGTGGT
CTCTCATGATTGAAAGCATGATTTAGATCGGATACGGCTTTTGCTAACCAAGGACCAAGGGACTCTGGCAAGATGGGGTGGTTTTCCGAATGCCAGACCG
AGGTGCCTTACGAAGGCAGCTGCCAATGGTTCTGTGGCACAGACTGGCTCCTGAGAACCCAGACGACCTTGACCTGGCAGCCCGGCCCTCCACGCTAGTA
CCTCGCCTGATTTTCCATCGTTGCGGTATCCAGCCGCTTCAGACGTCCGCCGCCTTCAGTGGTGGTAGTCAAATGTAGTCAACCAAACCACAGCATCCCT
TAGGTTAAAAGCAAACGGGGCAGCTTTGCCTAGAGCTCATTGACAGTGTGATGGGGGGAGAAGGGTTGTCACAATGGAAGATGAGGACACTAGACTCATG
TAGCACAGAAACATGAAGCCACACGCACCGGCAGCCTCCGGGGTGTTCCTCGCTCTCTCGTATGTTAAACCTTATATTTTATAAGAGTTTTTCCTCTTAT
TTCACTTTTTAAAAAAAATTAAAGTAGGTGGGGAAAAAAATAAAGCTTTACACAGAATTTATATGTGGGTAAGTGTTTCATGGAAATTTCTAATCTTAAC
GAAGCTAAGTGGAGCTCACTCGTATCCAAAAGTATAACAGGTGCAGAAGCCACAAGTCTGAGAACCTTGACGACAGTTCCATCGTCCTGCCATTTGATTT
TTCAGTCTGCGTTTCATCACTGTGTAGCTATTGTAAATGTGAATAGAAAAAAACAGGTCATTGCCTATTTTTGAAGAACGCGTTGGTGTTCGAGTCCACT
AGACACACTCGCTCCACACAGCCTTCACCGTAGACTCTGTAGTGGACACAGATATAGCATAAATGAAATTGTTAAATTATTTCATTGTAGTTAATTCCCA
CTATAGGAATGCTTTATCATAGTGAAGTTTCTTTTGAGAAGAAACGGAACTCCTTGAGGCTTCTCTTTGGGATGTATATGAGCGTGTACATATTATTCTA
TGTGTTTATAATATAATATTTTCCCAAATGACTTCTTGTTTCACTTTGCCTTCCACAACCTGAATGCCAGATTGGTTTTTTCCCTTCCTGGCCCCCAGCA
CAAGCTGCCATGACTCCCCCTCAGAAAACACAGCCCCTCCTCTACCATTCTCAGTGATGTCCATCTGCTCCACTCCGCAGCCACTTTCTAGGGCCCAAGT
TTTGGTAGCAGAAGGAAAGGCAGTTTTTGAGGGTCTTTCGAAAAAAAGAAGACGGGGCAGCTTTGCCCAGAGCTCGTTGGCAGTCTGTTTGTATTTCAGT
GTCTAACCAGAAGTCCTTTCTTTGCGGACCGCACTCTCGTTCCCACTTTCAAGCTAATTACCACCAAGGCTGGGAGAGGCAAGGACTGGGGGCGGAGCTA
GGAATAACTCGTTTGAGAAGGGGGTGGAGTTTTCGTTGTTCATTTCCATGTTCAGTTCTGTGACGTGACGATGACAGATCACCACTGCAGGATCCCCCTC
ACCTTTCCTGTTCAGAATTAAAACTCTCCCTTGATGAGAAACAGCCAGCTGAGGGAGGCCCACGAGCGGCCTGTGTAACCCCATGGGTGATCTGGACACA
TCTGCACCCCCGCGTTCAGCTTCGCGGAGACTGAACTTGGCGGGGAGTGGAGGGGTGTGGTGCAGACCTGGCTGCAGCAGAAACACCCCGCAGGGACAGT
ACTCTGTGATTCTGACCTCAGGTGCTGGGACGGGCAGATGGTTTGCCCCGCCCAGCACCCCAGTCCTGGTCCCTGGTCCCTCTCTCTGTTTCATCCCAGG
AAATGAGCAGCTCGAGGGTGAGCAAGTGACAAGTTCCTGAGTCACTGGCCCCAAAACCAGGTGCAGTGTCCTGTCTCCCAAGTGTGTGCACAATGTATAT
ATGCACTGGAAAGGAGGGAGAAGGCAGCGGGTCACTCGCCAATCGCAGGGTTCTCAGACACAGGAGAGAGCGGGATCTTAATGAATTGCATTTCCTGCAG
AGCCTCTAGTGCACAGGCCAGTTCTCGGCAGTGGCTTTTCAGCACAAGGGCCTTGCATTGAAGCTCCCTCTTCTGAGATTTCACCCAGCCTGATGAGGCC
TGCATGGTTCCGGCCTCGTCATCCAGTGTAGATACCAGTCTTCCTATTTTTGTGACATCTGCACATTTGGGGTCATTCCCTATATCTGCATAGGAGCTAT
TGCTAACCTTGTTAGGGAGAAACATGGTCTAATGAGAAAGACAGACCCCTAGGCTCAGCTGGCCCTGCCATCCTTCCAGAGGATTCCTCTGCAACTCTAG
GCAAGCACCCAGCTTCCTGGGCTCTTTTTCCTCATCTGTGAAACTTGCAGGGTGCAGTGAGGTTTCAAACCAGTGTGATAAGTGTTGGCCTCACACCTGG
CCCAGGGGATGCTGGGAGAACAGGAGCACTTGTTAATAACAGAAACACTGATGGGACCGAAGCCAGTGCACACACCAGGAAACCTGCCCGTGGCTGACAC
TGTCCTCCAGCCTGCATTCTGGGGAGGCTGTGATGGGCACGTTTGCCAACCCCCCCCCCCCAGTAGAGCCCAGGACCCTCCTCTCTCAGCTTGCCAGTGC
CCTGCCCTCCACATGGCGGGGAACAGCATCAATGAGGTCCTTGCTCCCTGAGAGCCTCTCTGGAACCTGCCCACTTTTCTCAACATGTATATTCTGCTTT
GTAGTCTGAGGTTGATTTTCTAGAGGCGAGGAAGGGGCTGAGTTCTGCCCTCGTGCTGTTCGCTGGTGCTGATCAGGGCCAAGACGACCCTTCCCTCTCC
CCCACAGCCTGTTGAGGTGCCGTTGACGTGGACAGCGCCCCTCCCTTAAGATGCCCCCTTGCCGTTGCCATGAGCCGCTGTGACTCACGCGTGCACTGGG
CCTTGCTTGGTGCTCCCCTCCTCCTCCTGTCTGAGATCGGAGCTTGCTGGAGAGCACCCCAGGTCGCCGTGCTTGGCTGCAGGCCCGTCCCTCTCTCCCC
ATCCTCGGGTTCCCAGCGTGTTTTGTGCTTGAACTTGGTGGACTCATCTTACCCCACAAGAGTGGCCTGCTCAACCTGCAGCCTCCAATGTGCCGTAGGC
GCTCCAGGTCCCCGTGGCGCCCAGGACACCAACTCTCCCTCCCTGCACTTAGGATGTTCTGGAAATGAGGGGAAATCCACATTCCTGCCCCAGGAGGTGG
GAAGCCTGGCAACGATGTAGCTTCCCCTGAGATGCGGTATGATCAGGCCTCAGCAACTACTCAGGAGGCAAAGGTGTTTGGAAAGCAAACCCCAAACCTC
CCGGCACGGCATGTGCTCTGCTTCCGTCCCTCACCGCCTGCACAAGGTCGTTGAGACTTTTCTAGAACTCCCCGGGGTTGTATTTATGGCCTTCAAGCAA
ACAAATTGAAAAGCAGTCAAGGAGGAGTTCAGATAGAAAAGTGCTGGAGATACACATCTTTCCTTCAAAGGAAATGTAATTTATTTCCAACCGCTGCCTC
AGACGGGGGTTTCACATGTTGTGAAGTCACATCTTGAATGACTGTCACCCTCATCCTTCCCCAAAAAGCTAAATAAGGGCCTTTGGCATCAATGCGTGCA
TTCTCCACCTTTCCGCGGCTTGCGCTTGGATTTCTGAGTGGCTTTCTTCAGGGAGCCCTTGTGGTCATGTGTCTTTAATGCTGCTCCCCATGCCCCCAGG
CCAGGCCAGCACGCTCAGGTGATAGCGAGTGGGGCCAGGAGACCCCCCTGCCCTGCCCAGTGGACAGATCTGCCCCAGCCCTGCTGTGGGGACGGGCCCT
CTATCATTTAACCACATACATTAGGTTGCTTTTCAGCAAAATGTCAGCTTTCCTCCCATTATGCAGGAGAGAGAAGGGGCGCAGGTGTATCTCCTTAGAG
TACACCTTGGAGCTGGATCACTAAGAAACAGTCCTCAGACTGGTCCTTCCGACACAGGCAGAGAGTGAACTGGATCGCTGGCCCCTGGGATGCTGCGCTG
TCTGTGATTAGAGAGAAGTGGCCAGTGTCCCGTCTGTGATTAGACAGAAACCCCTGTGGCAGACTCCTCCCCTCTCCATGAAGAAAGAAATATTTACTTA
GATATTACTGTTTCAAAACACAAACTTTATTCCCCTTAGAGAAGAAATACTGCCCTTAAATAGACTGTTGAAATATTAATGGCCCCCCCATTTAATCAGT
GTGTCTGCGGCTTTCTTCGCGTCACATGTCCGCATTGGCAGGTGATTCTGGAAAGGGATTCTGGGAAACCAACAAGTCTTTTTTAAATCTTTGAGTTGTA
TGAGAAAGTATTTAAGTTCACCAGTGTAGTAAACACCCACCCCAGAGCAGCGGTAAGCAAACCTAAATCTGAAAACCCATTCTTACTGTCTTTCACCATG
AGATGCTGGTTTTGGTGTAAAATGACAGCACTTGGTTTGGGGTTTTGCACCTGTTGGGTAGAACTGTTCTTGTCTGAGGTCCTCACCCTCTACAGATGGG
CCTCAGGGCCTGGAGGTGGGCAGATGGGGCCAGAGTGGCCAGCAGAGACTTGCATGGGCTCTGAAAGCCCCAGAGCTCARGCCTAAGGCTGCTAGGTGAG
ACCAGCAGGCAGCTGTGGCATCCGACCTTGGGACGCCCAAGCTGGGCAGCCGCTCCATGTGCCCCAAACAGGATATCCTCATGAATGTGAGGAGAGGCTG
GCTCAGGGCTTGGTTTTCATTTTGGCCTGGCACAGGGTACCTGTAGGGAGCACTCCCCCAACCTGAGGATGGTGAAACCATATGATAGAGACTCCTTGTC
GAAGTCCACATCGGACTGATCTAGAATGCCCCGTGGGGGGATTGCATGGCCTTTGCCTTGAGATGCAGGTGAAAGAAAGGAACCAAACAAGGCRTGAGTG
TGTTGGGGAATCTTCCCAGTGGAGCAAACCCCCTTAACACACCAGCTGTTGGGAACAGCTGCCCCTAAATCCAATTAAACCCTCATCTCCCTGGTGCTGA
ACAGTCTACACTGGCCCAGGAAGCTAACGTCTGAGCCGCTTGGAGAGCTTTGGTAAACAGAAGACACTGGAAGCCCACTCGGTCAGCAGCTGGGCATGAG
GATGTCAGGGGCCTTTGGACTTGAGGAAGGACAGTCCAGGTGCATGGAATCCTAATGGGCCTCATGCAGACACTGGAAGCAGCCCAGCCCCCTGCCCAAT
ACCACAGCCCTGGGGTGTCCCCTGACATTCCTGGAGGTCCCTGGGCAAATGCATTTCCTGCCTGGGYTCTCAGGGTAGGAGAACAGAGAAGGCTCCAAGG
GTGTTGGGAGTGAGCCAGGGGCTGGTCTGGGGAGTGGGTCTCACGCACTGCTCAGGTTGGCACGAGGGACCTCCCCCAYCCCAACCCAGCCCCAAGGGTC
CCAGCAGGGCTCTCAGCATGGCTGTTTTGAGGGTACACAGGTGGCTGGAGAGGGGTGGGGCAGTTGCATGGTGGGTGGCAAAGTGTGCATTTAGAAGCTG
CTTCGTGGCGTTAAGAACGGGGGGAGAGGGACCAGCACTGTAACGTTAGAAATAATTCCTTCTTGCAGACTTGAAAAGCATCAGTTTCCCTCCCACGGCT
GGGTTTTTGTGTCTGAAATACATCTAATTCTCCAGACTGCAGCCCCTCTCAGCCCCGAGCACCTGAGCGCTGGGGAGGCCCTTATTGAGCTCAGCCTGGA
GAGGGGAGGGTCGCACGGGTCCCGGGGGCAGGTCTCCTGCACTGGCTCTTCCCTTCTGCCAGCTTGGAATTTGGTTCTCATCTTGCCACAGGGGTGCGTT
TCCTAAAGGGCAGCCGGAGCAGCTCAAAGGTGACAACTGAGATGCATTTCTAGGCAGGGGCAGGGAAGGCCAACCCACCTTGCAGCCAGTTTTCTGTTTC
TGTAAATAGCAGTGTATAGAGATGGAAGGGCAGCGTGGGTGTATCCACAGATGGGTTTAGGTTTTTTTTTTGGATGTTTTCTATTACCTCATTCAGCAAC
TTTATGTTTCACAATGACTCAATGATGCTTTATTTATATTGTTTGTACTGTAATTAAAACCATTGACAGACATTTCACTTTGCTTGTTATTTCATATGAT
CTTGTTTTGATTAAATATGCCAGTTTGTATTTTCCTGCCTTGGGATTTTTTTGTGTCCGCTGTACAGTATTCTAAGGGAAAAAGAAAAAGAAAGATGTGT
AAAGTAACAGAGAGAGGTGGCTATGGTGTAGAGACCTCTTTCTAATAAAGAAATGAAAATATGTCTACACCGCTTCCGTGGAGTTGTTGTTTTTTGTTTT
TTGTTTTTTTTTTTTTTGGTGGCGTTGGTCATTTGTCACAACTAATTGTGTTTCTAAGCCCAGGAAAGGTAAATCAGAGAGAAAAGGGGCTCTGTCTGCT
GCGGGCAGGGATTGCCCCAGGCCCAGGCTGCCCCAGGCCCGAGGGACTCAGCACACGAGTTCACAGACGGAATGAAGAAAGAGACCAGGAGTGTCTCTTC
TGACTTCTTCCTTTACAAGGACAGAAACTCCAAGAGAATGTTCTTTGCCCAGCCAGGGTTGACTGGGCCCAGAACTTCCAGATGCTTCTGTATCTTTGCA
CTGTGCCACACTGCCCCAGGTGTGTCGTAAGAACTATTCCCAGCAGGTGGCTAGCAGTAGAACCATCCCAGGACTCTATTATTAAGACCGTTATTATCAT
TAATATTACTGTAATTTTTGCCTACAAACTACATTATATCTTCCCCTCCAAAAAAAAAAAATGAGAAAACTGACCAGGCCTGGTGGTTCACACCTGTAAT
TCCAGCACTTTGGGAGGCCAAGGCGGTTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACTCCGTCTCTACTTAAAATATA
AAAATCAGCTGGGCATGGTGGGACATGCCTGTAATCCCAGCTACTCCGGAGGCCGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGCAAG
TCAAGACCATGCCACTGCACTCCAGTCTGGGCGACAGACCAAGACTCCATCTCAAAAAAAAAAATGCCACCACTAATTTTGGGAATGCCTTCCAGACAGT
CTTCTCTGCAAATACAGGGGTGTCCTCTTCCCCCTACTCTTCCATTCAAGAAATAGAGAACCTCGTGATCTCATGACACATTAGTGACATTTTTTGTTGA
AGTTTTCCCATGGTGTGGGAGCCCATAGTGCCACAAAATGCCTCGTGGACGGCCACAACATGGAATGTGAGGCCACAGGCAGGGCAGCCCCTCACCCAGC
ACAGAGACCTGGTCACCTGCCGTCACAGGACACCCACAGGCCTCATGCACAAGGGTACTGGGCTGACTTGTCTTCTAAGAAATGCGGAAGAAGAAAAAGC
ACAAGGAAAGGTGCTTTTAGGAGGAATCAATGCCATTTAAGTGCATATAGATGGCCGAGCACGGTGGCTCACGCCTGTCATCTCAGTACTTTGGGAGGCC
GAGGTGGGCGGATCACCTGAGACCGGAAGTTCCAGACCAGCCTAGGCAACATGCCAAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGG
TGGCGCATGCCTGTGGTCCCAGCTACTTGAGAGGCTGCGGTGGGAGGATTGCTTGACGCAGGAGGTGGAGGTTTCAGTGAGCCGAGATCATGCCACTGCA
CTCCAACCTGGGTGACAGAGCGAGACCCTGTCTGAAAAAAAAAAATGCATATTGCTTATCTGATGAATTTAATAACAGATTTACAAAACAGCAGCTTAAA
TAAATGAAGGGTTTCTTTTTCCTCCCAAAAGAAGAAGCCTGGAGAGAGGCAAGCCTGGGCTGGCCAACAGCTGCAGAGTCTGCTGGGCCCAGCCTCCTCC
CGGCCGTCTGGTCAACCATGGCTCCCAGGTGCTTGTTACCTCTGGGCACCCCCGAGAGGGGCATCTCCAGCATCTGCATTCCAGTGAGAAGAAGAGAGAA
GGTGAGAGAAGAGGCAGCTGAGTCGGTCCCTCTTAACCAGCTTCCCCAGAAGCCACCCTCATGCCTCCACTTACACACCACTGACCAGACTGGGCGGGGT
CCCTCAGGGCTGCAAGGGATGCTGGGAAATGGGGGGAGGGGTGATGTGGAAGGATGGGGAGAGCAGGTTTTGAATAGGCGGCTCACGTCCCTGCCCAGCC
ACCTTGTTTCCCCACCATTCACACGCACCCTTCGGTCAGCACACAGAACACTCCCTCCCCAGGAGAGACCCGGGGGCCAGGCCGTGCCTGCCCTGCTGCT
GCTCAGTGGCTCCTCCTCTGTCCATAGCATTGTCCACACCCAGCTTCCCTCCAGGGCTCTAAGTAAACCTCAGAGTATCTGTCACCCTCCTAGGAGGTGT
CAGGGCCCCAGGAGTGGGAAACGGAATCACCTTCCCAGACCAAGGTACTTAAGCCAGGTGCTCTGGGAAGCTCTCAGGTCACAAAAGCAAGACTGAATGT
TTAGATTTCATAGCCAAGACTTGTATTGTGATCACACGCAGTGCTGGCAAGGCCAAGGTGAGGCGAACCCAAACACGCTGCTGGTGGAAGCAGTGCCCCT
GCAAAGCCATATGGAATTGTGCACAAAGACTCTGAAAAGCTTCCCTCATGACCCAGGAAGGCAGAACCTGGACCACACCTTCACCACGATAGAGGCTTAG
TACGTGTTTATTGACCACATGAATGAATTCAATGCCCACGAATCTGGCCAGGGGATAATGGGAATACTTTGACATGTGCCTAAAAATGTTCATGTCTATG
GTATTTATAGTAACAATATTGGAAGCAAGGTCAAAGCCCAACAGGGAGAGAGTTAAATAAATCATCGTGCATCTGTAAAGGGGAGGAAGATTTAGTCATT
TCAAACTGTGTTTATCACATGGGGAAATAATATAAATAAAAAATTAGGATATAAAAAAAGTATTTACAGGAGTGATCTCTAATTAAAGATATTTTAATAT
CCAGGAAAAAATATACAAAATGTTAACAGTGCTGTCTTTCTCTGGGGAATCCTGGGTGGTTTTTATTTCTTTCTTTTACTTTACTGTTCCCATTTTCTCC
ATTAGCATGTACAGGTTGAATATCTTTAATCTGAAACCCAAAATACTCCAAAATACAAAACTTTTTGAGCACCAACATGATTCCGTAAGTGGAAAATTCC
ACATCTGACCTCGTGTGGCAGGTTGCAGTCAAAACTTGGTTTCATGCACAAAATTATTGAAAATGTTGCATAAAATTACCTTCAGGCTATGTGTACAAGG
TATGTGTGAAACACGTGAATTTTGTATTTAGATTTGGGTCCTCTCCCCAAGATATCTCATTGCAAATATTGCAAAATCTGAAAAAAGTCAAAAGCCAGAT
CACTTCTGGTCCCAAACATTTTGGATAAATGATGCTCATCCTGTATTGTAAAAAGTTACATTGAGGCATATCTTGAAGCTCACATTTTGCCACAGACTTT
AAAGAAAGTGTTTGGGGTTTTTTTATTAATATATTGTTCTCATGCTGAAATTGGAAAAACCATTGGTTAACTACTTTGATCCTGAAAACAAATTGATTAT
AAGTTAGGAAGCAGCCCAGGCACGGTGGCTCACACCTGTAATTCAAACACTTTAGGAGGCTGAGGCAAGAGAATCGCTTGAGGCCGGGAGTTCAAGATCA
GGCTGTGCAACATAACAAGACCCCAAGTCTACAAAAAAAAATTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACACTGTCGCCCAGGCTG
GTGTGTAGTGGCACAATCTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCC
ACCACCGTGCCTGGCTAATTTTCTGTATTTTTAATAGAGACAGGGTTTCACCATGTTAGCCAGGATGGCCTCCATCTCCCGACCTTGTGATCCACCCGCC
TCGACCTCCCAAAGTGCTGGGATTACAGGCGTGAACCACCGCACCTGGCCAAAAAATTTTTTTAAATTAGCCAGGCGTGGCATCGTACACCTGTAGTCGG
CTTCTCAGGAGGCTGAGGTGGGAGGATCGCTTGAGACCAGGAGTTTGAGGCTGCAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGC
GGGACCCTGTCTCTAATAAAGAAAGAAAGAAAAATAAAAATTTTAAAAATTAGGAAGCATTGCAATAAGGAGCAAACCAAACTGTAAGTTACAGAATCTG
AAGAAATAAAGTTCAAACTGACTCCTGACCACAGCATCCGAACACAGCTGGGAACCTTCCAGAAGGCCAACCCTGCCTCCTGCTGCCCTCCCAGCCCCCT
CCTCTCCCACCAGGGGACCATGCTGACTCCTGAATGTTCTCTCCTTGCCTTTTCTTGTCCCTCCCGGGGATCGGATCCTGCTCTTCACCTTTTCCTCCAC
CTGGGAAGGCCCTGCTCTCTGTGGCTTCTTCCTTGTCATCTCTGGGGTCTCTGATGAACTGTCCCTTCCTCAAAGAGGCCTCCACACCTGGCCCCTGGCT
CCTGGCCCCATCAGGCTTCCCTGCTCTTGTGTTTGGCAGTCCTTCCCCATGGTGCTCACCACAGGCCTTTCCTTGTGGGATCATTCACCTCCCCTGAGCT
CCAAGGCCATGGATCTGTGTGAGTTACACCCAGGGCCCAGGGACCAGCCTGAATGAATATCCACTGACTCAACTAGTGAATGAAGGAAGGAACAAGCTCT
GGCCCATCAATGGTCTTGCCTTCCTTGGCGCAATTGAGTGTCGAGTGTCCAGCTGCAGCAGCAATTTTCTTTGGGTCAAAGGAAACCAAACCTCATTATA
ACTGTGACAGGAGTGAGGACAAAACATGGGCTGGGGGGGATGCACCCAAGGGACCCTCCTTCCAAATTCCAGCCAGGCCCGCCCAGTTCCCCTGGAAGGC
AGGGCCAGACTCGCTCAGCCCTCCCTCCTCTGCTGCCCATGGCACTTCGGTGGAATCTCAGCCATGGCCTGTGTCTCAGGGGCCGGGTCCCTTGTTGACC
TGCGGGCTCTCCCCCAGCCTGGGCTCGCACAGGGCTCCCCACCCCACCCTCGCTACACCCGGACCTGCCCGTGGTGACAGCGAAGATGACAGTGCGGCTG
TACAATGGACAAAAGCCTGGCAGTCCACGCCAGCCGCGAGTGGGGAGGAGTTACGATCAGCCCTACTGTCTCCAGCACGTTCCGAGAAGCTACTCAGTCG
CAATTTATCACCACTAGAGTCCAGTAAGGCTCCTAATTGGCCCATAAATGTGGTCCAATAACCGCGCCTGACATCCAAAGACACTGCAGGCAATTAGCAC
TTATTTATTTGCATATGGTATTGACCAATGCGCTAGCTGCACTCACTTTCAAGATCTGTTTATTTTTAAAGCTGGAGGGGAAAAAAAGCCCTCATTTACT
GCACTACAAGGGGAACTACCACACACACACACACACACACACACACACACACACACACACACCACTAGCAGGGATGATGGGAACTTGGCATCGCACTGCC
TCTGGCTAAAGGGATTCAGTGATTCACTTGTGTGCAGGGTCCTGTCAATATCTTACAAAGTACTCAATAGATGCAACCTGTCCAGGTGACTGTGCCGGCG
CAGCCAGCAGCAGCCTTCTTGCCCGGAGGAGGCTGAGGGGATGGAGCAGCCCGAGGAGATGGAGTAGCCCAGGACTGCACCCCACTTGTGTGGGTTTTCC
AAATGTATGGCAAATTGCCTTTGCCAAACCGCACTCGGCTAGGACCGCAGGCACGTACCACCATGCCAGACTAATTTTTGGCAGAGATGGGGTTCCATCA
TGTTACACCAGCTGGTCTTGAACTCCTGGGCTCAAGCGATCCATCCGCCTCGGCCTCCCAAGGTGCTGGAATTATAGGTGTGAGCCACCACACCAGCCTG
AGATTAAACTTGATTTTAATTTGTTATTTCTGCTTATTTGAATTACTTGTCTGAAAAATTATTATTTCTATAACTATTTTTAAAAGAAGGAAACAAAATG
AAATGAACAATGACCAACCACCCAGAGACAGGCGATCTTAGGGTGTGGATATGTGTTCTGGCATTCTGGCATCTTTTTTAAAATATACATGTACTTTTTT
TTTTTTGACGGAGTTTCGCTCTTCTTGCCCAGGCTGGTGTGCAGTGGCACAATCTCGGCTCACTGCA


SNP Information

Context             (SEQ ID NO:60496):
CCTTGTCGAAGTCCACATCGGACTGATCTAGAATGCCCCGTGGGGGGATTGCATGGCCTTTGCCTTGAGATGCAGGTGAAAGAAAGGAACCAAACAAGGC
R
TGAGTGTGTTGGGGAATCTTCCCAGTGGAGCAAACCCCCTTAACACACCAGCTGTTGGGAACAGCTGCCCCTAAATCCAATTAAACCCTCATCTCCCTGG
Celera SNP ID:            hCV29368495
SNP Position Genomic:     7494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60497):
GAGAACAGAGAAGGCTCCAAGGGTGTTGGGAGTGAGCCAGGGGCTGGTCTGGGGAGTGGGTCTCACGCACTGCTCAGGTTGGCACGAGGGACCTCCCCCA
Y
CCCAACCCAGCCCCAAGGGTCCCAGCAGGGCTCTCAGCATGGCTGTTTTGAGGGTACACAGGTGGCTGGAGAGGGGTGGGGCAGTTGCATGGTGGGTGGC
Celera SNP ID:            hCV29368496
SNP Position Genomic:     7979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60498):
TCCTCACCCTCTACAGATGGGCCTCAGGGCCTGGAGGTGGGCAGATGGGGCCAGAGTGGCCAGCAGAGACTTGCATGGGCTCTGAAAGCCCCAGAGCTCA
R
GCCTAAGGCTGCTAGGTGAGACCAGCAGGCAGCTGTGGCATCCGACCTTGGGACGCCCAAGCTGGGCAGCCGCTCCATGTGCCCCAAACAGGATATCCTC
Celera SNP ID:            hCV9087521
SNP Position Genomic:     7180
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60499):
CAGACACTGGAAGCAGCCCAGCCCCCTGCCCAATACCACAGCCCTGGGGTGTCCCCTGACATTCCTGGAGGTCCCTGGGCAAATGCATTTCCTGCCTGGG
Y
TCTCAGGGTAGGAGAACAGAGAAGGCTCCAAGGGTGTTGGGAGTGAGCCAGGGGCTGGTCTGGGGAGTGGGTCTCACGCACTGCTCAGGTTGGCACGAGG
Celera SNP ID:            hCV25991100
SNP Position Genomic:     7867
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,19)   caucasian(T,10)   total(C,3|T,29)
SNP Type:                 UTR 3


Gene Number:                 326
Celera Gene:                 hCG1821276 - 79000075346099
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6W6(3700622..3722942)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12486):
AGAATCTTGCTCCATCACCCAGTGGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCATACCACCACACCCAGCTAATTTTTAAAATTT
TTTAGTAGAAATGGGGTTTCACCACGTTGGCCATTCTGGTCTCCAGCTTCTGGTCTAAAGTGATCCACCCACCTCAGCCTCCCGAATTGCTGGGATTACA
GGCGTGAGCCACCGAGTCTGGCCTCTTACACTTCCAATGAACCCCATAGCTTGTAGCACATTGCTTTGTGTGGTAAGTGTCTCTATTCATGGTCCTAGCA
GGAAATGAATAGCACAGTGAAATTAGGATAATTTGGGGGAGAGTTTAATAAAGTGATAATTACAAAGAAGTAGGCAGGGTGTAGGGAAATCAGAAAGAAT
AGTGCAGTGCCTTAGTACCCACAGCTCTGTTGTGATCACCTCCAAGCTCAAAAAGATGAGGACAGAGCAGTCGTGTAGAGAGGACTTTCTTTTTTTTTTT
TTCTTTTCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCTGCC
TCCCGGGTTCACGCCATTCTTCTGCCTCAGCCTCCTGAGCAGCTGTGACTACAAGCGCCCGCCACCGCGCCCGGCTAATTTTTTTTGTATTTTTAGTAGA
GACGGGGTTTCACCGTGGTCTCGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAACTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCG
AGAGGACTTTCTCAATAAAAACTGTGACTTTCATTGATACCGTCCATTTGGGACAACTTACTGAAGCAGAAAGCAGGGTGGAGACTGAATTCAAGGGAAA
ACATAAGATGTCTGGTACAGCATACAACAGCATTGATTCAGAGGAGGGTGGGAGTACTGAGCCCAGGAGACGGAGAAGGAATGTAAAGCCTGCGAGAGGC
TGCTCAGCAATTATCTGGTCCCTTAGCCTACAGGATTAGCAGCTTCCTAACTCAGGCAATTATCTCTCTGGACCTGTTTCTTCTATCTATAAGTTGATGG
AATTAGTCTAATGATATCTAAGGTCCCTACTATGTGTACGTCTACTGTGACAAGGTCCTTAGCTGCATGATCTTTAATTCTGACAAAGGTTACTATCACA
AATATTTTAACATGTTTATTCTCGTGGTTACTAATCAACAATCTCTGGCACTATTACAACAAACCTTTCAGTATTTACAGAGAAGTTATTTGCCATTCTT
AGCAACTGGCCAGTCAACAACTCAACTTTATAGTAAGTTACAGAATTTATTCTGTATATTGTATTCTGTACAATGTATTCCATACATTAATTTATTTTGT
GGTAAAACAGTAACTTTTCATTTTAGATGGGAAAACTAGACGAGCTGAGATTCAACCCACGTGAGCGGCTGCAGAGCCGCTACCCTTAACAGCTCTCTCT
CGGGATTCTAACATTCCCTTCTGTGACGGAGAGACAGCAGGCCGGGACACGCATCCCAGGACGGATCCACAGCTGGATGGGGAAGGCTGCGCCAGGCGGG
CCGGAAGCCTGGCGGTGGCGTGCAGGAGCCCCGCCCTCCTGGGCTGGATTCAGCCGGGGGCGGGGCCGCGGGCGGGGCCTGTGGCAGCGGGAATCCCGAC
CCCGCCCCTTTCCCCACCCCTCCATTTCTCGCCATGGCCCCTGCACTGCTCCTGATCCCTGCTGCCCTCGCCTCTTTCATCCTGGCCTTTGGCACCGGAG
TGGAGTTCGTGCGCTTTACCTCCCTTCGGCCACTTCTTGGAGGGATCCCGGAGTCTGGTGGTCCGGGTGAGCGGGAGGGATCGAGGATGAACTGGGAGGA
GGAAGGTGGAGCCGTAGGAGAGGGATTGAGGGCGGGGCTTGGAAACAAATGACAGGGGAAGTCCAAGAGAGGGAACTCGAACCTTGAAAGCGGCCGAGAA
GCTACAGGGGAGGGAGACCTGAGTTCTAAATTAGGAACTCAAGGATTAGAGTTTTGGAGAGGCGGGAGAGTGAGGACTGAGGGAGCCGAAAAGGGCGGTG
ACCGGAGTATTCTAAGTAAAGTGTTTTGTAGAGAGGACTGTTGAGAGGAGAGTGTTAAAAAGAAGGAGCATTTGGAGAACCGAAGTAAGAGGGGCAATCC
AGCGTGGCCTCTCCAGCCATGCTTTTTGCAACTGCCTAACATGTGTTGTTCTATAAATCCTCTTCCCCAGGTTTGCAGGAGGCCTAGGGAAGAGGGCAGA
AACTAGGGATGGAAAAGTGAGATGGGCACAGCCTAGAGAGGAAGCATTAAGGCTCTTGAAAGCAGTAAGGGACATGGCCTGGGGATCCAAGAGGAGATGA
GGGTGGGGGAAACATTCTGCCACTGTTTCGATCTTTTGTCTCTTTTTCCCTCAACTTCCTGTAGATGCCCGCCAGGGATGGCTGGCTGCCCTGCAGGACC
GCAGCATCCTTGCCCCCCTGGCATGGGATCTGGGGCTCCTGCTTCTATTTGTTGGGCAGCACAGCCTCATGGCAGCTGAAAGAGTGAAGGCATGGACATC
CCGGTACTTTGGGGTCCTTCAGAGGTCACTGTATGTGGCCTGCACTGCCCTGGCCTTGCAGGTATGAGGCCCTGGCCTTGCAGGTATGAAATCCTGGCAG
TTGAGTCCCCAAGGGAGACCAAGTGTGGGAGGGGTGCCGTGGATTGGAGGGGCAAAATATGGGTTCAGGAGGAGAATTGAGGAACTAATCTCAGCTTCCA
TTCCTCCACAGCACATATCCTACTTTTTATCAAGAAGGGTGTACTTGTCCTTCCCTAAGCACAAGATATGCTTCTCACCTCTGCAACTTTGTTTATGTCC
TGCTTGAGATCCCTTCTCTTCAGTCCTACCCTTTCTTCAAAACCACTTCCCTAGGTCTGAAGAGAAGGCCTTGTCTGTCTTTTCACTGGGTGGTTGGCAC
AGGCTACTACTTTGCGTAGCTATCAGGTCACCCCATCTATTCTATAAGTTCTCAGGGTAGAGACAGGCCATCCTTACATCTTTGGGACCTCACCCAGCAC
GCACCCTCCACATGGTGAATATTTGGTGGTGATGCTTAGGAGAGAGGTGGGGGAGAGTTGCAGGCTAGCCTGTGGTGGGGGCAGATCTGGGTCTGGGTCT
CCCAAGGTCGGGCAGACTAGGCCACTGGGATACCCAGCCCCTTATCCTTCCACAGCTGGTGATGCGGTACTGGGAGCCCATACCCAAAGGCCCTGTGTTG
TGGGAGGCTCGGGCTGAGCCATGGGCCACCTGGGTGCCGCTCCTCTGCTTTGTGCTCCATGTCATCTCCTGGCTCCTCATCTTTAGCATCCTTCTCGTCT
TTGACTATGCTGAGCTCATGGGCCTCAAACAGGTGAGGCTCCGAGATCCCTACCTATGACCTCTGACCCGTTTTAGAACTCCTCGTTCCCTTTCAAGGGT
TTCCCTCCTCCCATGCTCTTCTACTGTCTCCCTGCTTCTCCCTCGTGGCCCTTCCCTTTGACTTTCCCTCGTAAGGGCAGCAAGCATGGGCCTCCTGGGC
CTGGGGAAGGTACATGGATCAGAAGTCAGGATCAGGGATCCAAGTCTCAGAAGGGGGGTTCCTGGGCCTGAGTTCTAGAAGGGTGGTGCCTGGAAGAGGA
GGAAAGAAGTGCCCAAGATGAGAAAAGGGCTTGACTCCATTTCTAAGCTCTTCTCCCTCTCTTAGGTATACTACCATGTGCTGGGGCTGGGCGAGCCTCT
GGCCCTGAAGTCTCCCCGGGCTCTCAGACTCTTCTCCCACCTGCGCCACCCAGTGTGTGTGGAGCTGCTGACAGTGCTGTGGGTGGTGCCTACCCTGGGC
ACGGACCGTCTCCTCCTTGCTTTCCTCCTTACCCTCTACCTGGGCCTGGCTCACGGGCTTGATCAGCAAGACCTCCGCTACCTCCGGGCCCAGCTACAAA
GAAAACTCCACCTGCTCTCTCGGCCCCAGGATGGGGAGGCAGAGTGAGGAGCTCACTCTGGTTACAAGCCCTGTTCTTCCTCTCCCACTGAATTCTAAAT
CCTTAACATCCAGGCCCTGGCTGCTTCATGCCAGAGGCCCAAATCCATGGACTGAAGGAGATGCCCCTTCTACTACTTGAGACTTTATTCTCTGGGTCCA
GCTCCATACCCTAAATTCTGAGTTTCAGCCACTGAACTCCAAGGTCCACTTCTCACCAGCAAGGAAGAGTGGGGTATGGAAGTCATCTGTCCCTTCACTG
TTTAGAGCATGACACTCTCCCCCTCAACAGCCTCCTGAGAAGGAAAGGATCTGCCCTGACCACTCCCCTGGCACTGTTACTTGCCTCTGCGCCTCAGGGG
TCCCCTTCTGCACCGCTGGCTTCCACTCCAAGAAGGTGGACCAGGGTCTGCAAGTTCAACGGTCATAGCTGTCCCTCCAGGCCCCAACCTTGCCTCACCA
CTCCCGGCCCTAGTCTCTGCACCTCCTTAGGCCCTGCCTCTGGGCTCAGACCCCAACCTAGTCAAGGGGATTCTCCTGCTCTTAACTCGATGACTTGGGG
CTCCCTGCTCTCCCGAGGAAGATGCTCTGCAGGAAAATAAAAGTCAGCCTTTTTCTACATATGGCATGCAGTCTGTCAGTGTCTCCCAAGCTACAGGGCT
GAGTTTGGGAAAGAAAGCCAGAGGGAGCCTGGGAGCACCGAACTGGAGTCTGGGCAGCCACCACGCCCTCTGGCAACCGCTGGGGTTCGGCCACCCCCGC
AGACCCGCCCCCACTTTGCCAGAGCGGCCGGGTCCCCATTCCCATTCCTTCAAATCCCCTTTTTCCCGGCAGCCGACCTGTAGACCCAAGGGAGACAGGT
TGAAGCTAGAAAGAGTCGGGGCAGCAGCTCTGGTAGGGGAGGGAGCATCCAAAACCTCTGGCTTCTGAGCGCCTCTCCTGCCGCCCATCCACAAAGCCCC
CCACAGCCTGGCGGCTGCCCTCGACCCCGCAAAACAAAGGACTTCAGAGGCTGGACCTACAGACCCAGATGAGAAGGCAAAAGCGTAGGGAGGAGCGGCA
GGAGATGGGAAGGGCGGGCCCCGCTCGGAGCAGCTGCCGCTTCCTCCCAAAGTCCCACGAGGGGCCTGAGTCACGGGCCACCGCCCTGGGTCGGCGAGCT
GGGGGAAGGGATCTGGACACCTGGCGTGTCCGGGCGGGAAGCTGGTGAGGGCCCCTGGGGACAGAGCGGAGGACCAGTGGTTGGGGCGAGAAGAGGGCAG
TCCCGCAGCGAGTCCCACGCGGGGTGGGAGGGATCTAGGCCCCGCCCTCTCCTCGGCTCCGCCCTGCGCCCCCTTCCCTCTCCTCATTGTCCTTAGACAA
AGCGGTCGCCGCCCCCGCCCGGCCCCCTGGTCTCTGTCTCCGTCCCTCCTCCTTTGCTGCCTCTTTCCCTCCTCCTCTCCCTCCCTCCTCCCCTCCCTCC
AGTCTCCGGATCTCCCTCGGTCCCTCTCTCCTCCTCTTCCTCTCTCTGGACGCCCGGCTCCTCCGCACCCCCTCCCCCGGGGGTCCCGCGGCCTGTGAGT
TGACTGAGGGGCTCAGACTTGGGGAGTGGGTGTCTCCTCGCCCCTGTCCTTGCTCCCGTCCCTGGCCCGGACCTTGGCTGTCTCCTCTTTGTGCCGAGAT
TGTCAGTCTGTGCGGCTACAGCGGGGTGGAGACGGCCGGCTCTGTCACGGCTTCATGAGAGCGGGGACGGGGCGCAGGACTTGCAGGCGCCGGGGAGAAG
AGACATGGAGCCGGCCCTTGGCACTCTGGGGTCGCGTGGGGCAGTCGGTGGGGGAGGCAGGCGGTGGTGACAGGACAGGGTGGGGGTGGACGCCAGGGTT
CTGGGAACGCGCTGGCAGCCCTGACGCCCGGGTTCCGAAAGTCTCGGGGGTGGGTATTTCCCCCGACCCGCCTCGGGGGCGGAGTGCGGGGCAGAGGGGT
GGGGGCTGGGGAGAGGCGTGGCCCGAGCGGTGCTGGAAGCGGAGCCGGGACCTTTGGGGCCCGCGCTGAGACGCGCCCGGCTGCTGCCGCCGCCCTCCTT
TCCCCTCTTCCCTGGTTTCCCTTCTCCTCTAGACCTGTTCGCTCTCCGCCCCTCCTTGCCTCCCCAACACCCCCTCAGGTCCCGTTGCCTCCTGGTCCTT
TCAGGGATTCCTGGTCCTTCCTTCCCACACTAGCCTCCCTGGGGTATCGCTGAGGCAGCCTGGCCTGCACCCAGGTTCCCCTCACCCCTGCCACATTTCT
CTCTTCTCCCTCACGCCAACTTTCCTTTTCGCCCTTCTCTCTCTTTCTCACATCCTAGAGACGGTCTTTAATACGCATTAACCCTGTGCTGCCACATCTG
GCTCCTGCCCTCATTGCCTCCAATCCGGACTCTTCCTCTCACATCACCCCCACCACCCCCAACTTGGGCTCACAACTTCTCTTCACTTTTTCCATTTCCC
CAGTTCTCTGCCTTCCGTCTTTCCCTCTGTCCTCATCCTTAGCCCCTCTGCCCTGCTTTGTGTCCCACCTCTCCCCCTCCACTTCCTCTCCTCCCACCCT
CAGTCTCACCCCCGGGCTGTCTCACTCTCTGGAGCCTCTCCTTCCTGTTCTCTGTCCCCAGTGCTCCCTACCCTCACCTCAAGACGACCATGGCCACCAT
CCCAGACTGGAAGCTACAGCTGCTAGCCCGGCGCCGGCAGGAGGAGGCGTCCGTTCGAGGCCGAGAGAAAGCAGAACGGGAGCGCCTGTCCCAGATGCCA
GCCTGGAAACGAGGGCTCCTGGAGCGCCGCCGGGCCAAGCTTGGGCTGTCCCCTGGGGAGCCTAGCCCTGTGCTAGGGACTGTAGAGGCTGGACCTCCAG
ACCCGGATGAGTCTGCGGTCCTTCTGGAGGCCATCRGGCCAGTGCACCAGAACCGATTCATCCGGCAGGAGCGGCAGCAGCAGCAGCAGCAACAACAACG
GAGTGAAGAGCTGCTAGCAGAGAGAAAGCCTGGGCCTCTGGAGGCCCGGGAGCGGAGACCCAGCCCTGGGGAGATGCGGGATCAGAGCCCCAAGGGAAGA
GAGTCAAGAGAAGAGAGACTAAGTCCGAGGGAGACCAGAGAGAGGAGGCTGGGGATAGGGGGAGCCCAAGAGTTGAGCCTGAGGCCTCTGGAGGCTCGGG
ACTGGAGGCAAAGCCCAGGAGARGTGGGAGACAGGAGCTCCCGACTGTCAGAGGCATGGAAATGGAGGCTGAGTCCTGGAGAAACTCCAGAGCGGAGTCT
GAGACTAGCAGAGTCTCGAGAGCAAAGCCCCAGGAGAAAAGAGGTGGAAAGTAGACTGAGCCCAGGGGAATCTGCCTACCAGAAGTTGGGCCTGACAGAG
GCCCATAAATGGAGACCTGACTCCAGAGAGTCTCAGGAACAGAGTTTGGTACAACTGGAGGCAACAGAGTGGAGGCTGAGGTCAGGAGAAGAAAGACAAG
ACTACTCGGAAGAATGTGGGAGAAAAGAAGAGTGGCCAGTTCCAGGGGTAGCTCCAAAAGAGACTGCAGAGCTGTCCGAGACCCTGACAAGGGAGGCCCA
AGGCAACAGTTCYGCAGGAGTGGAGGCAGCAGAGCAGAGGCCTGTGGAAGATGGCGAGAGGGGCATGAAGCCAACAGAAGGGTGGAAATGGACCCTGAAC
TCCGGGAAGGCTCGAGAATGGACACCCAGGGACATAGAGGCTCAAACTCAGAAACYAGAACCTCCAGAGTCAGCAGAGAAGCTTCTGGAATCTCCCGGTG
TGGAGGCTGGAGAAGGGGAGGCTGAGAAGGAGGAGGCGGGGGCTCAGGGCAGGCCTCTGAGAGCCCTGCAGAACTGCTGCTCTGTGCCCTCCCCCCTCCC
ACCAGAGGACGCTGGGACTGGAGGCCTGAGACAGCAGGAAGAGGAAGCAGTGGAGCTCCAGCCCCCACCACCAGCCCCTCTGTCTCCCCCACCCCCAGCC
CCAACTGCCCCCCAACCTCCTGGGGATCCCCTCATGAGCCGCCTGTTCTATGGGGTGAAGGCAGGGCCAGGGGTGGGGGCCCCCCGCCGCAGTGGACACA
CCTTCACCGTCAACCCCCGGCGGTCTGTGCCCCCTGCGACCCCAGCCACCCCAACCTCTCCAGCCACAGTTGATGCTGCAGTCCCGGGGGCTGGGAAGAA
GCGGTACCCAACTGCCGAGGAGATCTTGGTTCTGGGGGGCTACCTCCGTCTCAGCCGCAGCTGCCTTGCCAAGGGGTCCCCCGAAAGACACCACAAACAG
GTAGGGAAGCAGCCAAGCCAGACTTCTTAGAAGTCCACTTGTCAATTTTCTCTGGACTCTGGTCTCTTTCTTTTTTATACCCCTGTTTTCTTGTCTTCCT
CTATTCTTTCTTGTTAATTCCTGCCACCACCCTTCCTCGCTCTGCACATACACCCTTCCTTCTCAGAGCCCTCCTTTTCCATTTTGAGCCCAAAAGATCC
TGCCCCAGCAAAGGCTGTCTCTGGGTGTGTCTCTTTCAGGGTGTGCCAGGCTGCTCATTCTCCCTTCCCTTGGGCTCTGAGTTTCCAACCCCCTTTTCTT
TCCTTCCTTTCCTGAGTGTGACCTGCCCCAGCCCATCCAGTGGGAGAGCCTAAAGTGACGAGCTTGAATCAGTGAGGGCAGGGTCACCAGGGTGAGAGCA
CTTGCAGTTTTTCTGGGGAGAAGGGATAGGGAGCCTGGGGTGGTGGAGGGGGTGGGGTGGGTTTGTGTTCTAGGGAGAAACTGCAGGGAGAAGTGAATGG
AGAAAGGTCCAACTGCCCCGTGGGAAGGAGGGCAGAGCTGAATAGGGACATCCTAGGATGGAGGGGAGAGGGGAGATGGAACCGGGCCGGCCAAAGAGCA
GAGAGAAGGCTTTTGAACCCCGAGTCTGCCCCATGGGAGAGACACAGAGAGGCCATTTGAAGTGGGTGACCTCGGGGTTGCACACCCCCAGCTGGGCCAC
TGCTTCAGACAGTGCTCCCTTCTCTCTTGGGACAAGAAAAGCCTTCTCCTCTTCCAAAATACCCCCGCCCCTCACTCCCCTGTCCTTCCTCCCTGGGTTT
CCCCTCCCTCCCAAGAACTGGCTCAGGGATCGGTTTTCCCCTCTTTTCCTGCCATCCTGGACTTTCCCTCCCCTTAGGGTAGCAAAAGAGAGAAGTGAAT
TTGGAGACAGTTTTGAGAACAGGCACTGGCCAGGGAGCACAGTGGGAGTTCTGGACAGGGGTTGGGGCTGAGGCCAGCAGAGGGTCAGAGGTTAGACTTG
CAACAAAGACCTGCAGGAAAGTGGGGGCAGCCAGGATGACTCCCCCTGGCCCTGGCCTCACTTCTTCCCTGTGCACATCCATCTGTTTCCAGCTTGAAAA
TCTCTAGGGAGACAGAGGTCCCACACTCAGACATCTCAGACTTAGGAAGTCCCTCCAGTCACACACATCTCCCCAGAGCCTGGGAAGCCCAGTCTCATTC
TCATCCCATGTGTTAACATCCTCAGATTTGATTTTTTTGTGTCCTCAGTGTCAGTGGGGAACCACAGGGACTAAAGATACGGGTTAAGCCTTGGGTGGAG
GGGGGTTCATTTGATCCCCCAATTCATCTTCACATGAAGCGTAAGCTCCCACCTCTAAGCCATGGTTCTTGGGAACCTACCCTCAGCCCTCTGACTGCTA
CCAGCCTGTTCCCCTCAGGGCTGGGCAGATGAAAAAAACAGAAGTCCGGAAATGCTACCCGGGTGAGGTGTTCAGAAAAGTCACTTCCTACTGAGAGAGG
CTTGTGCCTCTGGGGAAGAATGAGCAGAGGGAAGCATGAAGCTTTGGGGCCCAAAGCCCAGGGAGCATCCCAGGGGAGCCAGGAAGCAAGTGCAGGGCAG
GACCTGTGCTGGTGACCATACCTAGGCCAGAGAGCAGGGGAGCCGGAAGCAGATCGCCCAAACAGGAAGCCTGGGGTGGGGGCCGGAAGGCTGGTGGGGC
TGAGTGGGGAACCCTGGGCCCTGGGCCCTGGGCCTGCCAGATCTGTGCTCAGGATGTGGTGAGAGAATAAGGAAGCAGCCGCTGCTTGGGTGGGGGTGGG
GAGGAGGCAGCACAGAGTTCCTCTGACCCAGACGCCTCACCCTCCACCCTCTACCCCCTGTCAGCAMCCTGTTCTTCAGGGACTGGGTGCCTTGTCCCAG
CTCTGCTGCAACACACTGGCTCAGGAATAGGAGATAGGAGGACCCTGCCACCAACCCCCGCTTCACCTTCCCTAAATAACTCGTTTGCAGGCTAATTCCA
TCAAATTTATCCCTGCCATCAGGAGAGAAATCCCAGCCCTGCCACTGGAGCCCAGGGGATGGCTGTGGCTGGTGCCCTACCCCAGAGGCCTCTTGGTTGG
GCTGAGAGACCAGCCCCATTGTGACCTTATATAGCTGATGGGAGAGGAGCGAGTGAGTCACCCCCTCTCTACCCCCCCACTCCCATGCAGGCTGTGCATT
TCTGAGAAGCCCAGTCAGAAGTTGGTGGGGGGTGAGGAGACAGGCAGGGTAGGSGGGGAGATATAAACATAGRCCGAGAGCAAATAAAATAAGTCATTTT
CAGAGTAGAAAATAAAGTACAGAGGTTATTATTCCAAAAGAGGATATGAGAAGAAAACAAAAATGGGTTCCCAGAAATGTGGGTAAATCTGTCAGTTACA
GAAACCTAAGCGGTCCCTTCTGAGAACTTGGGATATAAGCAGTCTGGCTGCTGTCACTAGATTCTACCAGCAGTTCCACAGACATGAACTGGGGGTCAAA
TGTGTACAGGCTGGACCACCCGCAGATCGTTTCCCCAGCATTGGTCCTCTGATGGCACCTCATGTGAGGTCTGAACAAACCCTAACCTCTTGCATTGTAC
CAACTTCTAAGCTCCTTTCTTTTTTCTTTTCTTTTCTTTTTTTTTTCTGAGACAGTCTCGCTGTCTCCCAGCCTGGAGTTCAATGGTGAGATTTCGGCTC
ACTGCAACCTCCACCTCCCGGGTTCAAGTGATTCTCCAGCCTCAGCCTCCTGAGTAGCTGGAATTACAGGCGCACGCCACCATACCCGGCTAATTTTAGT
ATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGTCTTGGCCTCCCAAAGTGCTGGGATT
ACAGGGGTGAGCCACCTTACCCGGCCCCAAGCTCCTTTCAACAGCAGACATGAGTATAATATATTAGTAAATTATCTAGTAAGTTAGAAGGTGGTAAGTG
ATTATGGAAAAAAAAATAGAACAGTGGAACTTAGAGGGTCAGGAGGTAGGGGGAGTGAATATGGAGACTTCAAAATAGGGTGATCAGGAGGGTCAGAGCC
ATGGGGATATTTTGGGGGAGTGTTCCAGGCAGAAGGAATAGCTAGTACTGTTCTGGTCCTGAGGTAGGAGTGCGTGGAGGGAACCAAGGCCAGTGTGGCT
GGAGTGGAGGAAGAGGCCAGAGAGGCAAGGGGAGGGTGGCATACTGGGAGCACCCTGTAGGCTTTGGTCAGGCTCTGGGCACCTTGGGGGCAATCAAGTA
GACTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAAGCCGTAGAGCAGTGGCGCGACCTCGGCTCACTGCAACCTCCGCCTCCCGG
GTTCAAGCAATTCTCCTGCCTCGTCCTCTCGAGTAGCTGGGACTACAGGTGCACGCCACCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACAGGT
TTCACCATGTTGGCCAGGATGGTCTCAATCTCTTGACCTTGTGATCCGCCCGCCTCGGCCTCCCAAAGTTCTGGGATTATAGGCATGAACCACCGCGCCC
AGCCTGGAGTAGACTTTTTGCTCCAAGTGAGATGGGGAGACACTGCAGGGTTCAGAGCCAACAAGGAGTAACATATACAGTTCCTGAGTTCTACCTTCCC
ATGGGGACCCAGGTGTCATATCTGGTTTTCTTTTTTTTTCTTTTTTAGAGACAGTGTCACTCTATTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGAA
ATCCTCCCGCCTCAACCTCCCAAAGTGCTGGGGCTACAGGTGTGAGCCACCATGCCTGACTGGTGTCATATTGATGCAGCTCTTAACAACCACCTGCCCA
GCCACCCTTCTGGCTTCTCTCTTTTCATACCTCAGTTCATTAGGGGACTCAGGGATGTACGGCTGACCCCAAGTCTTCCCAAACAGATGCCAGGGAAGGC
CTGAGTAGATCATTTGGACCTTTCCAAGTAGTTCATATGGAATCCTCCTGCTGTCTCCCTAATCCCTTTGGCTCCTAGACTTAATCCCACCCTGCCCCTT
CCCCCTGAGCTTCTTAATAGGGCAAAGGGGAAGGGTAGAAAGGCAGTGAGAACAGCTGGGACTCGCCTGCTCTTGGGACAGTGTGATTACCAAGGGTTTT
CTGTGCCCTGTCTGGTATTTTGTCTCTGTGCCTGTCCCTTTGGGCACACTGTGGACCCCCACCCCAGGTTTGTGTGGACTTTCCTTTCTGCCCTTGTCAT
CTCCCCCAGCCTTCAGGGTGTCAGYGGCTCATCTTTCCCCTGTGTGTTGCTGGAGTCTCTTGGTTCCTCTCGGCCTTTCTGTTCATCTCCCATCTCTTCC
TAGGCCCTAGACTCCCTTTGCTATGGATAGGAGAGGAATGAGGAGAGTAGGAGGGAACAGGTGCCCAGGGTCCTGGGTTTTGCATAGGACAGCAAGGGGC
TGTGGGTATGAAAACCTTGCTTTTGTCTGAGACTCGCTCCCCAGCCAGTTCTTTCCCCACTGGCCAGTCTGCTGGGCTCCTCTGGGAAGTTCACTCGATT
GCCCCCAAGGTGCCCAAAGACTCGGTTCTGATCACAAGACTTATCGCCATGTATTTTAATTTCTTTTTACCCCTCTGCCTCCCACACTCGAAATAGCAGG
GACCTTGGTCTTATATTATTCACTTCTGCCTCCCAAGCCCCTGCCAACGTACAGGGCAAAGTCTGATGTTTTGAAATGATATGATCGAAGAGGGAAACTC
TAGAATTGGAGAGCCAGTATGGAAAGGAAAACTGGATCCCAGAGTGGATGGGGAGAGTGAGTGGGGCACCTGAGTCCAGCCCCCACCCCCACGTTCCGCC
AGTCCCACCTGCTCCCTTGCAGACTCCGCCCCCCCCGCCCCCGCTTTCTCTCCCTCAACCCCCGCGGGCTTCTCCCCTGCTGACCTTGCCTCCTGCCCCC
TTTTTCTCCCTCCTTCAGCTTAAGATCTCCTTCAGCGAGACAGCCCTGGAGACCACGTACCAATACCCCTCCGAGAGTTCGGTACTGGAGGAGCTGGGCC
CGGAGCCTGAGGTCCCCAGTGCCCCCAACCCTCCAGCAGCCCAACCCGACGACGAAGAGGATGAGGAAGAGCTGCTGCTSCTGCAGCCAGAGCTCCAGGG
CGGGCTGCGCACCAAGGCCCTGATTGTGGGTAAGCGGAGGCTCCGCCGGCCCGAGGGCGCCCCCTGCTGTCAGAGCGGGCGCTGTGGTCCAGGAGAGAGG
AGGGAGGATTACATGTAGGCACTCGGAAGGGGCTTGGCGGGTCCTCTGGTTCAACATGCTCCTTTAACAGATGGGCAAACTGAGGTCCCCGGCAGTGAAG
TACACATTGAGTCTTCAGGTTTCAAAACGAGAACTCTTCCTGAGTGCTGTAATCTGGTCAAAATCACAGGGTGGGTCGACAGGCCTGAGTTGGAATTCCA
GCTTGTCTCTTTAATTGTGTGATCTCAGGGAAACCATCTGATCTCTTGCTTTAGTTTATTATTTATGAAATGAAGTTAATAATAACTACCTCCTGTGGCT
CATGCCTGTAATCCCAGCACTTCGGGAAGCCAAGACGGGTGGATCGCTTGAGCCCAGGAGTTCAAGACCACCCTGGGCAACATGGCAAAATCCTGTCTCT
ACAAAAAAATTGAAAAATTATCCAGGTGTGGGCCGGGCACGGTGGCTCACGCCTGTGATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAAGTC
AGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAAATTAGCTGGGCGTGGTGGCGGGCACCTGTAGTCCCA
ACTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGGTCGTGCCACTGCACTCCAGCCTTGACAACAGAG
TGAGACTCCGTCTCAAAAAAAAAAAAAAAAATTAGCCAGGTGTGGCAGTGCGCAGCTGTGGTTCCAGGTACTTGGAAGGCTGAGGTGGGAGCATCGTTTG
ACCTCAGGAGTTGGAGGCTGCAGTGAACCAATATTGCACCACCCACTGCACTCCAGCCTGGGCAACAAAGGAAGACCTGTCTCAAAAGAAACAAACAGGC
CAGGCACGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACTCAAGGTCAGAAGTTCAAGACCAGCCTGGCCAACATAGT
GAAAACCCATCTCTACTAAAAATACAAAAATTAGCTAGGCATGGAGGTGGACACCTGTAATCCCTGCTACTCGGGAGTCTGAGGCAGGAGAATCACTTGA
ACCCGGGAAGCAGAGGTTGCAGTGAGCCGAGATGACGCCACTACACTCCAGCCTGGGTGACAGAGTGAAATTCTGTCTCAAAAAAACAGAAACCAAAAAC
TACCTCCTAGACTTGTAGAAAATATTAAGTAATTTTATTTATTTATTTATTTATTTATTTTGAGACAGCGTCTCCCTCTGTCGCCTGGACTGGAATGCAG
TGGCACAACCTTGGCTCACTGCAACCTCTGCCTCCCAAGTTCAAGCGATTCTTGTGCCTCAGCCTCTCTAGTAGCTGGGATTACAGATGTGTACCATCAC
ACCTGGCTAGTTTTTATATTTTTAGTAGAGACAGGGTTTCCCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCTCCTGCCTCAGCCT
CCCAAATTGCTTGGATTACAGGTGCTCCAGGCCAAGATTAAGTAATTTTTTGTGAAGCACCAAGAGCCACAGCTGGATATCATATTACTTAATCTCTCCT
GGAGTTATGGTGAGATTAAACAGTTATAAGGATGCCTGGCACAGAGTCCGAGCTAAATGAGTGATGGATGTGGTTACTGGTGGTAACATGCTTTAGATAT
GGRAGATATTATAGGACTTCCTGCATGCCAACTGCCCTTCAATTTGTGTGGGGGGGAAGGGTGRGCAGAAGGCAGAGGCTCTCACTCATTCTCTAACATT
ATTGCCCCCTCTCCCACAGATGAGTCCTGCCGGCRGTGACCATCTTCCAACATAGGGATATACCTCCCTCCTTCTTATAACTGAAGATCCTGGAGCCCGG
AAGATTCAGGGCAGACAGACCCTGATAATGAGCCTGGCAGGGAAGGGCAACCAACWTCTTGTAACTTGCTTTCCCCACCCTGTTTCTGGGGGCAGAGCCA
ATTGCCCAATTTCTACCCTAATCCAAAGTCCCTGGTGTGGGTGGGGTTAAACGTGCTGGTGCATCCTAGGTCATCCAAGAGTGAGCGCCAAGTCCTGAGA
AGGGGCACAGAACTCCCTGGAGGGTGGAGATGGAGCACCTGCCCCCCATGGCAGGGTACACTCTCCCCACAGCCTTCCTCCCCACCATCCCGTGGGGACT
CTCGGGATTTAAGCACTCGTCTCTCTGGGAGGCCCAGACCCCACTCCATTTATAGGCACATCTCCTTCATTTCCTAGGTCACTGCCCCTTTGTTTACAGC
TCCTGCCTCCTCCCTTGACCACAGCCTGGTTTACAAATTCCATCAGCTCCCAGCCCCACCYGCCAAAGTCCCAGGTTTACAAGCCACGCTTACTTGCTGT
GTCTGCGTGGAATTCTCTCCTCTGTCCCCTCCAGTCTCCTCATTGGAGTGACCTGAAGGTGTGGCTTCCTCCACTTTTTCTCAGTATTACTTTGCCTTAG
TTTTCCCCAAGAGGGAAGGCTGGAAMTCTTAACTCTGTACCCCTTGATAGTTATTTAATTCTGTTTCTCCTAGTGGTTCACAATTGAACTGAATTGAGAT
GGTGTCGGGTGGCTAAGGAGACACCTCACCTCTCCTTCCCCATTGTGCCGCCTTTATCAATTGCCTGTTTTGTTTTGTTTGTTTTTTAACTTTCCATAAT
AAAATGGAGTTCTCTTCAACTCGTCTGCTTCTCCTTCTTTGGGAAAAAAAAAGGGTATGTGAGGGGAGGCTCTGGTGGCTGGGGGAGAGGAAAATGATGG
GGGATGAACCAGGAACTCGGCACTGACATGTCAAAAGGGGTCTGGGAAGCTGCACGTGGGTTTCACGCAGGACAAGCAGGTGACATGAGAAAGGGCAGTT
GAAGTGTCCACTAGACTGGAAGTGCCATGAGGGCTGACTACATCAGCTGGATTCACTGCAATATCCTGTACCTGTCAACTAGTAGACACGGAATTATTTC
TAGAATGAATGACAACAAATGAATGAATAGAAGAAAAGGGTTAAAATATTACAGAGGACACTTTGAGTTGAAGGGTTCTAGTATTCAGAAGCCTGCTGCC
ATGAAGGCAGCTAGGTAGTGTATGACACAACCCATGTGGCTAATCCAGGGATACTTACTTAAAGAGCTGGGGCTACGAATACTAAATCTGAAATTGCTGC
AAAATGAAGTAAGTATGTACAAGAGTCAGTTTCCTGGAAAAGGTTCCCCTCTGATAGACAATGGATTTTATATCGTTAAAGGCCTAAAGGCCGGGCACGG
TGGCTCACGCCTGTGATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATAAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCCGTC
TCTACTAAAAATACAAAAAATTAGCGGGGCATAGTGGTGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGG
TGGAGCTTGCAGTGAGCTGAGATTGCGCCATTACACTCCAGCCTGGGCAGCAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAGGTTTAAAAACCATCT
TGATAGTGCATGGCTTTGGTGCCCATGTAGTTGATATTTGGAATTTTCCCATTTCAAAGAATATCTTATACAAATGTGGAACATCAATATTTTACTCATC
AGGAAAATTTGTTTGTTTGTTGTTAGCTCTCCAGGCTAACAAAGATATGGTTGAATAGTTATAGTCCTTCTACCACTACAAGTTGCTCCTCTCAGACTGG
TCAGAGGAGGCCCCACACCTTTACTATAAAACAAAATATATGAGACAAATTGAACTTAAGCATACGCCAAAGGTTTTCAATTTACTAGCAAGAGAACAAG
CCAGGTGTCAAAAGACTCAGCCAGTTCAGAGAAGGTCTGGGTAGGGAAGGAAACAGAATGATTATATTAGTAGCCTGTTAGGTAAAGGTCTTAAAAAGTT
TCCAGTTGTGACCCAGGAAAACAGAGTTAGGAAGCTCCGAGGTGCCAGGGGTGCTCACAGTCCATCTCAGAAACAGAAAACAATGCATTCAAGAGGTCAG
GCCAGGTGTGGTGGCTCATGCCTGTAATCCTAACACTTTGGGATGCCAAGGCGGGTGGACTGCCTCATCTGAGGAGTTTGAGACCAGCCTGGGCAACATG
ATGAAACCCCGTCTCTACTAAAATACAAAAAATTAGCTGGACGTGGTGGCACGCACCTGTAGTCCCGCCTACTCAGGAGGCTGAGGCAGGAGAATTGCTT
GAACCCAGGAGGTGGAGGCTGCAGTGAGCCAAGATCACGCCACTGCATTCCAGCCTGGGCGACAGAGTGAGACTCCGAGACTCCCTTTCCAAAAAAAAAA
AAAAAAAAGTCAGTGATGTAGATCCACTTGTGGCTATTAATAAGAACAATGTTTCATTTCCTAACAGTAGTGCCTGGTAACTGCAATTAATCACAAAAGT
ATGATGCAGGATCAAACAAATCAGACAGCAGAGCATCGAGTAACAAATTCAGCTTTTTGTTTTGTTTGTTTTTTTTTTTTTGAGCATAGTCTTGGTCTGT
TGCCTAGGTTGGAGTGCCTGACCTCGGCTCACTGCAACCTCTGGCTCCTGGGCTCAAGAGATTCTCCTGTCTCAGGCCCAGTGCGGTGGCTCACGCCTGT
AATCCCAGCACTTTGGGAGGCCGAGACGGGCGGATCATGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTAAAACCCCATCTGTATTAAAAATAC
AAAAACTAGCTGGGCGTGATGGCATGTGCTTGTCACACTTGTAATTCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGAAG
TTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGTCTGGGCAACAGAGCGAGACTCTGTCTCCAAAAAAAAAAAAAAAATTCTCCTGTCTCAGTCTCCA
GAGTAGCTGGGACTACAGGTGCACACCTCCACACCTGGCTAATTTTTTGTAGAGATGGTGGGGTCTCACCCTGTTGCCCAGGCTGGTCTCAAACCCCTGG
TCTCAAGATATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGCAAGAGCCACTGCACCTGGCCTTGCTTACTTTTAAATAAGCAGCCACCAGTG
ATTTTCTCAAGCTGTTAAGCAAAAATGCAGAACACAGTTTGCCTGTTCCTTAGTTTGGAGATTTTGTCTTTAACAACTTTCCCCAGTTCCCCAGTTTCTT
CCTGCCTAGAGGTCTTCCCTTATACCTGACCTGTCTTCACTCCTGCTGCAGGCAAACCAGTCCTAGCAACGGTCACTTTTTTGTTTGTTTGAGACAGAGA
CTTCCTCTGTTGCTCAGGCTGGAGTGCCGTGGTGGGATCTCGGCTCACTGCAAACTCTGCTTCCCATGTTCAAATGATTCTCCTGCCTCAGCCTCCCGAG
TGGCTGGGACTACAGGCGCACACCACCACGCCAGGCTAATTTTTATATTTTTAGTAGAGACAGGGTTTCGCCATCTTGGCCAGGCTGGTCTCGAACTCCT
GACCTCAGATAATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCAACAATGCTAATATGTTTTATGAGCATG
GACCCGATCTTCCAATCTGAAATAGAATTTCATTCCTCCCTTACTTTGTATAGTTTTTGGCTCTATAAAATTTCCATACTTTCTTTATTATGTATCCTGT
CCCTCCCCCACCGCAAAATGTAAATTTGGTAAGGAACTTTTGATTTGTCCTCTGCTATATCCCAGGGACGGAAAGCAATGAGCACACATTAGGCATCCAT
TAAATTAATTTCACTTGTTGAATGAATGCGTGAGCGAAGCACTCACAGACTGACCATCAGGGGGCGTCAGAGAAACTGGACAGAGGCGAAATGAAGAAAA
AAGAATTACCCCGAGTTTTCAGGTATGGTTCCGCGAGGTTTGAACTCGCTCGGCCACCGTAGTGCTTAGAGGCCGAAAAAGTACAGCCCCTTCCGGGCTC
CGCGGTACGGGAAGACAGCTTTGGGATGTCGGAAGATCCTAGAGGTCCCAAGGTAGCTGACTTGCGAAGCTGAGGCTCCAGCCGAGGGCTCCAGGCCTCT
GACCGGCCCAGCAGTGAGCGCGGCTGCCCGACGCTTCAGGGCCGGGAGCAGGGAGCGTGAGTCGCCATGGCGACGCCGGCGGGTCTGGAGCGCTGGGTTC
AGGACGAGCTGCACTCGGTGTTGGGGCTGAGCGAGCGGCACGTCGCCCAGTTTCTGATCGGTACCGCACAGCGCTGCACCTCTGCCGAGGAGTTCGTGCA
GCGCCTACGAGACACTGATACCTTGGATCTCAGTGGGCCGGCCCGGGACTTCGCCCTGAGACTCTGGAACAAGGTGTCGGCAGGGGTGGGGAGGGGCCCT
GTGATTTGTCCCGGTGAGGCTGGCCTAACGGTCCATCGAGAAGTTAAGAAAGCTCAGTTCACAAGCACTTATTCTTTGTCCGTTGTCGCGTAGGTACTGT
GCTAGCTGCTGGACGCCCAGCTCAGTGGAGAAGATTGAGGAGGGCTTAGGTGTGTCGGGTTAAGCGCAATAGAACGGTGTTTCTCGAACTCTTAACATGC
ATCCAAGGTTCTTGTTAAAATGCAGATTGCGATTCAGTAGGGATCTTAGTTTCTGCATTTCTTTCTTTCTTTTTTTTTTTTTTGAGAGACACAGTCTCGC
TCGCCCCGTCGCCCAGGCTGGAGTGCGGTCGTAAGATCACGGCTCACTACAGCGTCGACCTCCCTGGTTGAAGCGACCCTCCCACCTCATCTTCCCCGGT
AGCTGGGACTACGGGCGCGCGCCACCACCCCCGGCTAATATCTTTTATTTTTATTTTTATTTTTAGAGATGAGGCCTTGGTGTGTTGCGCAGGCTGGTCT
CTAACTCCTCAGCTCAAGCAATCCTCTCTCAGCCCCCTCAGAGTGCTGAGATTACAGGCGTGAGCCACCATGCCCGGCCCCCCTCATCTTCTGAACTTCC
TTTCAGTCGTTTAATTAACAGAGGGGGCCGGGTGCAGTGGCTCACACCTGTAATCCCAGCACCCCGGGAGGCTGAGGCAGGAGGATTACTTGAGCCCAGG
AGTTCGAGACCAGCCTGGGCAACATGGCGAAACCTTCGTCCTACAAAAAAATTAAAAATTAGTTGAGCGTGGTAGTGTGCACCTGTGTTTCTAGCTACTT
AGGAGCCTGAGGTGGGAGGATCCCTTGAGCCCAAGAGGGACAGAGTGAAACCCTGTCTGTAAAAAAAAATAAAAAACCCCATTCAGGATGATGAAGATGG
GGTGAAGCCATGAGGAAGAAAGAGAATGAATGCTGGTTAGCTGGTTTAAAACTAAGTAATTGTGCCCGGGTGCGGTGGCTCATGCCTGTAATCCCAGCAC
TTTGGGAGGCTGAGGTGAGTGGATCATGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAAATAGTCG
GGCGTGGTGGCATGTGCCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGAAGTGAGCCGAGATCACG
CCATTGCCTGACAGTGGGGCCGGGCCGCGGGGGCAGGAAAGACTAAGTAATTGCTTAAATTAGGAACAGAGCTAAGTGGGAGGGCAGAGATCAGGAGTTG
CTCAGACCTCCTTATCTTCCCCTCTACTGACAGGTACCACGAAAGGCAGTGGTAGAAAAGCCAGCTCGGGCAGCAGAGCGAGAGGCCCGGGCCCTGCTGG
AGAAGAACCGATCTTATAGGTTACTGGAAGACAGTGAAGAGAGCAGTGAGGAGACTGTGAGTAGGGCTGGAAGCAGCCTCCAGAAGAAACGTAAAAAGCG
GAAACACCTCAGGAAGAAGCGTGAGGAAGAAGAGGAGGAAGAGGCTTCTGAGAAAGGGAAGAAGAAAACAGGGTAAGTCAGAAGCAGGGTGAGAGAGGAT
GGGGCAGGCTGAAGTGTTCTCTATGCCCTTATTTAATCCCCTGGATGGGCTGCAGGGGGAGTAAACAGCAGACAGAGAAGCCAGAGTCGGAAGATGAGTG
GGAACGGACAGAGCGTGAACGCCTTCAGGACCTGGAGGAGCGTGATGCCTTTGCTGAGCGGGTTCGACAGCGGGACAAGGATCGGACTCGAAATGTCCTG
GAACGGTCAGACAAGAAGGTGAATAGGAGCAGCATGTTCTGTAAATCCCCAAGATCCCAGGGTGAAATCTGAGGTTGGCTGTGAGTGCAGAGATAGTGAT
CTCTGGGAAGACAAGGGGCTGTCTCTAGTGAGATGTTCACCTCTGTGGTGAGAGAAGCCCTGTGCATCCTGTGGCTAAGACAACTGTCTGCTGTACCTGC
AATCAGAGAGATTCCTCACTGAGAGGGGACATTTTTTGTGTTAGGGCGCATCTGAATGATCCTTGTGATTCTAGAGGGGAGCAGCTGTCAGTGTGGGGGC
TCTTTGGCCTCACACCCCTCCATTCTTGTTTTTTCTTCTAGGCTTATGAAGAGGCTCAGAAGCGCCTCAAGATGGCCGAGGAAGACCGGAAGGCCATGGT
GAGTCCCAGGGCCTAGGGAG


SNP Information

Context             (SEQ ID NO:60500):
CCCCTCCAGTCTCCTCATTGGAGTGACCTGAAGGTGTGGCTTCCTCCACTTTTTCTCAGTATTACTTTGCCTTAGTTTTCCCCAAGAGGGAAGGCTGGAA
M
TCTTAACTCTGTACCCCTTGATAGTTATTTAATTCTGTTTCTCCTAGTGGTTCACAATTGAACTGAATTGAGATGGTGTCGGGTGGCTAAGGAGACACCT
Celera SNP ID:            hCV27840284
SNP Position Genomic:     16126
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(A,1|C,31)   total(A,3|C,67)
SNP Type:                 UTR 3


Context             (SEQ ID NO:60501):
AATGTGGGAGAAAAGAAGAGTGGCCAGTTCCAGGGGTAGCTCCAAAAGAGACTGCAGAGCTGTCCGAGACCCTGACAAGGGAGGCCCAAGGCAACAGTTC
Y
GCAGGAGTGGAGGCAGCAGAGCAGAGGCCTGTGGAAGATGGCGAGAGGGGCATGAAGCCAACAGAAGGGTGGAAATGGACCCTGAACTCCGGGAAGGCTC
Celera SNP ID:            hCV15877370
SNP Position Genomic:     7613
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60502):
GAGAGGGGCATGAAGCCAACAGAAGGGTGGAAATGGACCCTGAACTCCGGGAAGGCTCGAGAATGGACACCCAGGGACATAGAGGCTCAAACTCAGAAAC
Y
AGAACCTCCAGAGTCAGCAGAGAAGCTTCTGGAATCTCCCGGTGTGGAGGCTGGAGAAGGGGAGGCTGAGAAGGAGGAGGCGGGGGCTCAGGGCAGGCCT
Celera SNP ID:            hCV15852167
SNP Position Genomic:     7756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60503):
CCCCCCACTCCCATGCAGGCTGTGCATTTCTGAGAAGCCCAGTCAGAAGTTGGTGGGGGGTGAGGAGACAGGCAGGGTAGGGGGGGAGATATAAACATAG
R
CCGAGAGCAAATAAAATAAGTCATTTTCAGAGTAGAAAATAAAGTACAGAGGTTATTATTCCAAAAGAGGATATGAGAAGAAAACAAAAATGGGTTCCCA
Celera SNP ID:            hCV2436937
SNP Position Genomic:     10573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60504):
CGGTACTGGAGGAGCTGGGCCCGGAGCCTGAGGTCCCCAGTGCCCCCAACCCTCCAGCAGCCCAACCCGACGACGAAGAGGATGAGGAAGAGCTGCTGCT
S
CTGCAGCCAGAGCTCCAGGGCGGGCTGCGCACCAAGGCCCTGATTGTGGGTAAGCGGAGGCTCCGCCGGCCCGAGGGCGCCCCCTGCTGTCAGAGCGGGC
Celera SNP ID:            hCV2436938
SNP Position Genomic:     13480
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60505):
GTCCGAGGGAGACCAGAGAGAGGAGGCTGGGGATAGGGGGAGCCCAAGAGTTGAGCCTGAGGCCTCTGGAGGCTCGGGACTGGAGGCAAAGCCCAGGAGA
R
GTGGGAGACAGGAGCTCCCGACTGTCAGAGGCATGGAAATGGAGGCTGAGTCCTGGAGAAACTCCAGAGCGGAGTCTGAGACTAGCAGAGTCTCGAGAGC
Celera SNP ID:            hCV27854034
SNP Position Genomic:     7223
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,38)   total(A,3|G,69)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,32)   total(A,3|G,65)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60506):
CCCTTCAATTTGTGTGGGGGGGAAGGGTGGGCAGAAGGCAGAGGCTCTCACTCATTCTCTAACATTATTGCCCCCTCTCCCACAGATGAGTCCTGCCGGC
R
GTGACCATCTTCCAACATAGGGATATACCTCCCTCCTTCTTATAACTGAAGATCCTGGAGCCCGGAAGATTCAGGGCAGACAGACCCTGATAATGAGCCT
Celera SNP ID:            hCV25972654
SNP Position Genomic:     15435
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60507):
AGTTATGGTGAGATTAAACAGTTATAAGGATGCCTGGCACAGAGTCCGAGCTAAATGAGTGATGGATGTGGTTACTGGTGGTAACATGCTTTAGATATGG
R
AGATATTATAGGACTTCCTGCATGCCAACTGCCCTTCAATTTGTGTGGGGGGGAAGGGTGGGCAGAAGGCAGAGGCTCTCACTCATTCTCTAACATTATT
Celera SNP ID:            hCV25961097
SNP Position Genomic:     15303
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60508):
ATAAGGAAGCAGCCGCTGCTTGGGTGGGGGTGGGGAGGAGGCAGCACAGAGTTCCTCTGACCCAGACGCCTCACCCTCCACCCTCTACCCCCTGTCAGCA
M
CCTGTTCTTCAGGGACTGGGTGCCTTGTCCCAGCTCTGCTGCAACACACTGGCTCAGGAATAGGAGATAGGAGGACCCTGCCACCAACCCCCGCTTCACC
Celera SNP ID:            hCV26546049
SNP Position Genomic:     10167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60509):
TCTCCTTCATTTCCTAGGTCACTGCCCCTTTGTTTACAGCTCCTGCCTCCTCCCTTGACCACAGCCTGGTTTACAAATTCCATCAGCTCCCAGCCCCACC
Y
GCCAAAGTCCCAGGTTTACAAGCCACGCTTACTTGCTGTGTCTGCGTGGAATTCTCTCCTCTGTCCCCTCCAGTCTCCTCATTGGAGTGACCTGAAGGTG
Celera SNP ID:            hCV15877369
SNP Position Genomic:     15961
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(C,1|T,31)   total(C,3|T,67)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(C,235|T,1260)   total(C,235|T,1260)
SNP Type:                 INTRON


Context             (SEQ ID NO:60510):
ATGGATGTGGTTACTGGTGGTAACATGCTTTAGATATGGAAGATATTATAGGACTTCCTGCATGCCAACTGCCCTTCAATTTGTGTGGGGGGGAAGGGTG
R
GCAGAAGGCAGAGGCTCTCACTCATTCTCTAACATTATTGCCCCCTCTCCCACAGATGAGTCCTGCCGGCGGTGACCATCTTCCAACATAGGGATATACC
Celera SNP ID:            hCV25972110
SNP Position Genomic:     15364
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:60511):
TGAGTCACCCCCTCTCTACCCCCCCACTCCCATGCAGGCTGTGCATTTCTGAGAAGCCCAGTCAGAAGTTGGTGGGGGGTGAGGAGACAGGCAGGGTAGG
S
GGGGAGATATAAACATAGACCGAGAGCAAATAAAATAAGTCATTTTCAGAGTAGAAAATAAAGTACAGAGGTTATTATTCCAAAAGAGGATATGAGAAGA
Celera SNP ID:            hCV16175794
SNP Position Genomic:     10554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60512):
CAAGCTTGGGCTGTCCCCTGGGGAGCCTAGCCCTGTGCTAGGGACTGTAGAGGCTGGACCTCCAGACCCGGATGAGTCTGCGGTCCTTCTGGAGGCCATC
R
GGCCAGTGCACCAGAACCGATTCATCCGGCAGGAGCGGCAGCAGCAGCAGCAGCAACAACAACGGAGTGAAGAGCTGCTAGCAGAGAGAAAGCCTGGGCC
Celera SNP ID:            hCV27828672
SNP Position Genomic:     6936
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,34)   total(A,1|G,69)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,38)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60513):
TCTGTGCCTGTCCCTTTGGGCACACTGTGGACCCCCACCCCAGGTTTGTGTGGACTTTCCTTTCTGCCCTTGTCATCTCCCCCAGCCTTCAGGGTGTCAG
Y
GGCTCATCTTTCCCCTGTGTGTTGCTGGAGTCTCTTGGTTCCTCTCGGCCTTTCTGTTCATCTCCCATCTCTTCCTAGGCCCTAGACTCCCTTTGCTATG
Celera SNP ID:            hCV27462983
SNP Position Genomic:     12625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60514):
GGATATACCTCCCTCCTTCTTATAACTGAAGATCCTGGAGCCCGGAAGATTCAGGGCAGACAGACCCTGATAATGAGCCTGGCAGGGAAGGGCAACCAAC
W
TCTTGTAACTTGCTTTCCCCACCCTGTTTCTGGGGGCAGAGCCAATTGCCCAATTTCTACCCTAATCCAAAGTCCCTGGTGTGGGTGGGGTTAAACGTGC
Celera SNP ID:            hCV25973272
SNP Position Genomic:     15556
SNP Source:               Applera
Population(Allele,Count): african american(A,30)   caucasian(A,37|T,1)   total(A,67|T,1)
SNP Type:                 UTR 3


Gene Number:                 327
Celera Gene:                 hCG18360 - 79000075877882
Gene Symbol:                 KEO4
Protein Name:                similar to Caenorhabditis elegans protein C42C1.9
Celera Genomic Axis:         GA_x54KRFTF114(32167019..32214960)
Chromosome:                  Chr10
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12487):
CAGTTCTCCTGCTTCAGCTTCCCGAGTAGCTGGGATTTCAGGTGCGTGCCACCATACCTGGCTAATTTTTGTATTTTAGTAAAGACGGAGTTTCACCATG
TTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTAATCCACCTGCCTCGGCCTCCAAAAGTGCTGGAATTACAGGCATGAGCCACCATGTCCAGCCAGA
ATACATTGTATAAGAAAATTGATTTCAATTATAATGTACCTGTGGTACTTAACTACCAAGGATTGGGAACCGTTTGACCATAATTTTTCCATCTGTTGGA
TAAGAGCTGAATCAGAATGTCATTCTAAGCTAATAGTGGCTATCATCCATGACCTAAAACGGACTCTTGTTAGGGGACTGAAGATTGGCAAAGGGAGAAG
CTAGAGGCCATATAGAAGAGGAAAGCATGAAGGTAGAAACCACAATCAGGACTGCCTTCAAATATGAACTTCCAGGGATACTTCTTGGTTCTGGGTAGCT
CCCCCACCACACTGTTTTCTTTTGCTGTCCTCAGGAATCAGCTTGCTTGTTTCGTTTCATTGCTATCATCTGTAGTTTCTAATGAGTTTTTCACTTTCTG
TGATCTCTACAGAACAGATTTTACTTTTCTCTCTTCTCCCCTACATTTGTGTCTGTGAAGTATGCATGCTGGTGTTTTTACTACTTTTAAGGAAAGAGAA
GTATTTAGAAACAAAAACGTATTTCATCTGTCTTTGCCACAAGGATTTTTTCCTCCCTAGTTACATTTTCACGGGAAAAACAAGTTGTACATAAGTGCAT
CTTACATTTCAGAGGAAAGTCAGACTGGAGTTATAGTGGACTTCTTATCATTAGTTAGGTAGAGGTAGAGGCAGCAGCCTGGTCTTAACAGGACTCTGCC
TCTGTAGGGAGGGATGAGGAAACTAAAGACTACAGGAGTCAACTGCACTGGGGTACTGGGTTACAGGAAGGCTAGTGATCTTGCTAACCTAGAAGACTAG
AAAGTAGAGGAAATTCATATGCCCTTTTCCTGAGTTTGAAAAGGCTTTGTTCTTTCATCTCACAGGGAGACTTCAGCACAAATGATAGAAGAAAATTTGA
ACTGCCTTGGCCATTTAAGCACTATTATTCATGAGGCAAATGAGGAACAGGGCAATAGTATGATGGTAAGTTTTGTGTGGATATGGGTGCCTGCTTTGGC
TATGTTGGGTGCAAAAGGTTTAACTTTCCATGCTAGCCTTATCTGGCATTTGGGATGCATATGGGAAATAGAAGAACTCAAGAGGAAAGAGCATTTGGGG
AATATCCTCAACCTTAAATCCTTATCTGCCGTTACTCAGGGATATACTAGGATTATGTCATCAATTATCTTCAATAATAGCATTTTTGGTCAAATTAAAT
GAGTGGTAAGCTTCTTCACAATGTGACCATTGAAATTGAATGGTTTGTTCTGTACCTTTTTGCTTCAGCAATCAATTTTCTCCATTAAGATGGGACTTGT
ACTTTAATTCAGATATGGTACCTCCCGAATAGAAAATAAATTATGTTAATATAGTTGTAATAATAAGTGTGTGTTAAGATTTGGTTACTATAAACTACTG
ATTTGTTAAAACTTGAGGAAATTACCATAAAATGTCTACTGAATCAATTTTTCCTGCATTTAGTCTTAATGTCAATTCTGTACATTTCCTCTTTCATTAA
GAAAAATAGCAGTGGCCAGGCATGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGTGGATTGCTTGAGCCCAGGAGTTTGAGACTA
GCCTGGCCAACATGGGAAACCCTGTCTTTATAAAAAATATAAAAATTGGCCAGGTGTGGTGGCACACACCTGTGGTCCCAGCTACTTGGGAGGCTGAGGC
AGGAAGATCGCTTGAGTTCAAGAGTTTCAGGCTGCAGTGAGCCGTAATCCTGCCATTGCACTCCAGCCTGTGACAGAGTGAGACTTTGTCTCGGGGAAAA
AAAAAAAAAAAAAGGATAATGGTGGCCAGCCATATGACATGTACCTGTAGTCCGAGTTACTAGGGAGGCTGAGGCAGAAGGATTGCATGAGCCCAGGAGT
TCAAGGCTGCAGTGCATTATGATTGGACTTGTGAATAGCCACTGTACTCCAGCTTGGCAACATAGCAAGATCCTGCTCTCTTAAGAAAAAAAAAAAAAAA
GAAAAGAAAAGGAAAGAATAATTGTTTACTTCAAATATTTATGAAAAAAACTCTGAAATTTTTTTAAATCAGGAAATAAGGTAAATGAAATGATTTTTCA
ACTTTTGATTATGAAATGTCCAAACAGAAAACTTGCAAAAATGAACACCCATATACTTATAACTTATAGTCAACATCTAATTGTAACTTTTTCATGCCTG
GTTTTAGAATCTTGATTGGAGTTGGTTAACAGAATGAGTTGTCACTTGTTCACTGTCCCCAAACCTATGGAAGTTGTTGCTATACATGTTGGAAATGTGT
TTTTCCCCCATGAAACCATTCTTCAGACATCAGTCAATGGAAGAAATGGCTATGAACAGAAACTACATTTCTACTATGATCAGAAGAACATGATTTTACA
AGTATAACAGTTTTGAGTAATTCAAGCCTCTAAACAGACAGGAATTTAGAAAAAGTCAATGTACTTGTTTGAATATTTGTTTTAATACCACAGCTATTTA
GAAGCATCATCACGACACATTTGCCTTCAGTCTTGGTAAAACATTACTTATTTAACTGATTAAAAATACCTTCTATGTATTAGTGTCAACTTTTAACTTT
TGGGCGTAAGACCAAATGTAGTTTTGTATACAGAGAAGAAAACCTCAAGTAATAGGCATTTTAAGTAAAAGTCTACCTGTGTTTTTTTCTAAAAAGGCTG
CTCACAAGTTCTATTTCTTGAAGAATAAATTCTACCTCCTTGTGTTGCACTGAACAGGTTCTCTTCCTGGCATCATAAGGAGTTGGTGTAATCATTTTAA
ATTCCACTGAAAATTTAACAGTATCCCCTTCTCATCGAAGGGATTGTGTATCTGTGCTTCTAATATTAGTTGGCTTTCATAAATCATGTTGTTGTGTGTA
TATGTATTTAAGATGTACATTTAATAATATCAAAGAGAAGATGCCTGTTAATTTATAATGTATTTGAAAATTACATGTTTTTTCATTTGTAAAAATGAGT
CATTTGTTTAAACAATCTTTCATGTCTTGTCATACAAATTTATAAAGGTCTGCACTCCTTTATCTGTAATTGTAATTCCAAAATCCAAAAAGCTCTGAAA
ACAAGGTTTCCATAAGCTTGGTGACAAAATTCATTTGCTTGCAATCTAATCTGAACTGACCTTGAATCTTTTTATCCCATTTAGTGTGAATATTCCTTTA
TTTTGCTGCTTGATGATGAGAGGGAGGGCTGCTGCCACAGACTGTGGTGAGGGCTGGTTAATGTAGTATGGTATATGCACAAAACTACTTTTCTAAAATC
TAAAATTTCATAATTCTGAAACAACTTGCCCCAAGGGTTTCAGAGAAAGGACTGTGGACCTCTATCATCTGCTAAGTAATTTAGAAGATATTATTTGTCT
TAAAAAATGTGAAATGCTTTTATATTCTAATAGTTTTTCACTTTGTGTATTAAATGGTTTTTAAATTACTTTCTTGATCTCTATTCATTATAAAAATCAG
ATTATAATAAAACAGTTGAATATGGCTTAGGAAAATATGAAGGTTCCATGAAGTGGAATTAAGAGCATAGAATAACTGTACTTTCCTTAGGAATAATAGG
ACTTATGGTAAAGGTAGTATTGGGCAACTTCTTTAAGAGTGTTTTCCTCTGAAATGTCCTATCACCACTATCTACATCTAAAAAACATGCTCGATTCTTG
CCCTATAAACTGATGTCACAGCCCCACCATCCCCATTTTTGCTAGTGGTATCATTTTCCTAGTCAACCAAATTTTTTAGTCATCACATATCACTGTTCGT
CATCTATTATAATAGGCAGTCTCTCTCTTGTTTCCCTGGTTTTAGAAGATTTTAGTAATAAACATTTATTGGGTACCTGTTACTTGGAGGGTATTAAGCT
AGATGGCAAGATCTGAAACAACATAGGCAGTATAGTAAAAGTGCTTATCTGGGAGTCTGAACATTACAAGCCATCCAAGCATTGCAATTATTGTTAAGGA
TTATTTTCAATGGTCATGCATTTTCTAATATTTTAATAATTGGTTAAAGATTTGTTATAGCGTGGGGGCCGCTGCTGGTGTGTGGCTGGGGTTATGTCAG
GGCAGCCTGATCTATATAATTTGGGCAGATGGTGTGAGTCAGAACAGACTATTATAGTGGGATCCCCAAACTTGCTTTTGATGCATGAGTTGGACCACTA
TTTTTTGGTGGGTAACAACTTTTCAGAGGGGAATGGCAGTTGTGAATTGTATACATTTCATTCTTTAAGCAATATTATGAAAAACTTCAGAGAATGTCTA
CAGAAAACAGGGTATGGAGCAAGTTATTTTCCATTCTTTTTGCTTTTTGGAAGTTAAAATAGCTAAGCTCTGCAAATATCATTTATTTGGAACAGATAAG
GTCCCAGACATTCCTAGATAATAAAAATCAAATGAATGATACAGGTAAGTGTATTTATTGAAGGGTGTGGGTAGAGTGGTCTGGGAAGTCTTGCTTTAAT
GAAGACGGATTGATTCTATTTACCTCTTCTTACTTCCACTACTAAGTAACCCTGGGCCTGCAGTTTCCTAACCACTTGACTTCCTTGCCAACAGTCTGTC
TCCACTTTCAGCCGTTTTATAGATTCATTGGCCCTAAAGCACTGCTTTCCCATACTTCCCTACCCAAGAGGGCAGGGGTCCCCAAGCCCTGGGCCGCGGA
CCGGAACCAGACAGTGGCCTGTTAGGAACCAAGCCGGATAGCAGGAGGTGAGCGGCGGGCGAGTGAGCATTATCGCCTTGAGCTCTGCCTGCTGTCAGAT
TAGCGAGTGGCATCAGATTCTCATAGGCACGCGAACCCTATTGTGAACTGCACATGTGAGGTTTGCCGGCTCCCTGTGAGAATCTAATGCCTGATGATCT
GAAGTGGAACAGTTTCATCCCCAACCCACACACACCCCCACCCCGTCCGCTGGGTTAGAGGACTTTACAACCCTAGTCCACCTTGTCCAGTTATAGTTCC
ACCTCTAGCCTTTCAAGGCTTAAACCATTAATGTCCTTAATTTCTCTTGTATTCATCTATCTCCCAACTATACCTTTTTCCTTCCCTTTTTTATTTTTGG
CAATATGTGCCCATGGTTTTTTAATTTAAAACGAACAGAATATGTAGTGACGCCTACCATAGCACTCCTTCCCATCACACAAGCCTTCAAGGAAACTGAA
GTACTTACTTTGGTCTCCCTGGAGGATTCCCTCCGCCTCCCGCCCCATGTGCTTAGCAATTCTGTTCCTGTAGTCTGGATGGCCTTCATAAAGCCCTCAC
TGGACCAGCATTCTGGCACATAATAGGAACACTTAAAAAACGAGAGAATGATGCCGTTATATCTAATATCTTCCTCTTCTGAACTTTCACAGCACTTTAT
TTGCAACAAGTTTAGTTGCTCCTGAAGGGCAGGATCTCTGCCGGAAGCAAGTGCGTGCCACACAGTGGGGCTCCGCATACACTGCAAAAGGACAAATAAA
CCGAACAGCTACCGTTTGAGAGTGAGCGAGTGGGTTCTCTGCACAAGAACAAACCAACCAGTCCCTTGTCCGAAAGGGCGTCTCCTTTTCTCTGCTTCGC
TGCTCACTCCAGACTGCGGGCTGTCCTCTTCCGAAGCAGTTAACCAGCAGTGTACAGAAAGCGACTTGCCTCCAAAGGAGCCTGCGCGGCCCGCGGCTAG
GAGAATTTTGTCCCATGCGCTCCCCGTCTCACTAGCCGCGGGCCGGGGCTACGCCGTGTGCGTCCCCGCGCAGCCGCAGTGCTGGGCGAGTGGGCGGGGC
CGGCTGTTGGCGGCGGTTGGCTCGGCGCGGGAGTCGGCTGCACGTGCGGGCGGGGGCGATGCGTCACTGATCGGTGAGGCGCGGCCGAGGGGTCGGCTTT
CCTCGCGAGCCTGCGGCTGGGCTTCTTCTCAGTTAGTGCCTTCCACCCGGGAGCGACCCTTGGGAGAGGGAGTTTCAGGAAGCTCACCGAGCAGGGGCGG
CCCACTGGCCTCCGGGGGCGGAGGAGTTGGCAAGGGGTCAGCGGGCTCAGCCAGAAGGGAAGAATGAGGGGACAGGKGTACTGGACTCCCCGGCTCAGCC
TGCGAGAGAGCGCCAAGTTTCCGGAGGGAGAGGGTAGAAACTGGAGGGGGTGGACCTGTCACTCACGGGACTGAGGGTCCTTTTCTCCCGCTCCCAGGAG
GAACGAGAATGAATATGACTCAAGCCCGGGTTCTGGTGGCTGCAGTGGTGGGGTTGGTGGCTGTCCTGCTCTACGCCTCCATCCACAAGATTGAGGAGGG
CCATCTGGCTGTGTACTACAGGTGAGCGGCATGTGCAGTCAGTTAGGGCTCTAGAGCAGATTAAAAGGGTACTCCAGAGTGGAGTCTGGGAAGTTGTTCC
CTCTGCAACGTTCGGGGGCGCATGTCCCATCTCTAGGGAGAGCACGGGGGTCGAAGCGGGCTTTTGCGGAGCACCCTCCAGATGTTGGACAGTTTTAGTG
CTATGTTCGTTTTGTTGCAGAGATTAAGTCTCCCTACGGTTATTCCTATACACAGCAAACTCAATTATTTGTAGAAAAATGAAGAAGGAAGAAAGGAAGT
AGTCACTCTACCTCTAACTGAAGAGATGGATAAATTATAGTTCGTTCAACTGTACAGGCTTTAGTTTGCCGCTGTAGATGCTGTATGTTTATGGTTGTTT
CTTAGACTTTTTCATTTAAAAGCTTCCAGTGTCTGGTTACGTCTTGTAACACCATGATGACTGTGATGGTGCTTATGTCCCTGGACCTCCAGGGACATAA
GCACAACACTGATGGGCCATGCTCCTCCCTCCTTACTGTTGCTGTTCAAGTTGGGGACAGGAGTGGTGTGGGAGCTGTTGCTCTCTTGTTGAGCTCGCTT
AGCTTTTCCTTCAGCCTAATTACCACAAGTTCCTTTTGATACAGACTAGTAAGAGAGGCCAGTTTGTGGAGAAATTGGGATAATGGTGTATTCAAAAAGA
GCGTCAACTTTTTGCTTGTTTCCACTATCCCTCAAAACTGATATTTCTACTTTCAAATCCATCCTGAATCCTAGAAAAAGAGCAATTTTAATGGTATATC
TTAGCAGATGGAGCTCTACATAAGAAATTACAGATTAGTCCAGATTTCCTTCCAGTTTAAAAGCATTGTCTTTCTGACAGTAAAACCAGAGAAAGGACAT
TTCAARGAATGACTCAAAGAATTAGTAATGAACCTCAAACAGTTCATCTTTCCTTGTTATTATGACYTTGCAAATGTGTTTATATTTTCAAGACCGGTAG
CTAAGTTCTATGAATTTACAAGGTGCAAAATAGGACTTTGTTTTCTTTGCTCCCCAAATGCCTCCTTTTTATAATTTCCAGGGCTTGCTTTCATAGTTTT
CACATTCCAGGATTTGGTTAACAAGCCCTTATGCTATTTATTTGTATAGTCTTGTCACCCTTCATCTTTTCATGCTAATTTTTTGTTTTTATATAGAAAT
TTTATGTTCCCAGTATTTTAATTACCTTGTAGATAGATCGAAAGAATTATAAGCCTCAGAAATTTTCTCTTTACTTCAAAGTTTGCATTGTCTTTTTTTC
AACCTGGTGATTAAATGTATTATATATTTTGATTTGGCTCTTGTTATGTACTATTAATGTACCTCTACTGAAAGCCATTAGAATTTTTTAAACAAATATT
TCTCAGAAGGTTAAAGACCGAGGAGAATCCTTTGAACCTTAGAGCAGTGCTGGAGACCCAGAGGTACGGTTGGTTGAGCTTATGAAACAAGGTGTAACAT
TGGCAGTTTAATTTGATCTTTTTCCCTTTTTAGGTGTGGAGGTATTTTAAGCAGTTGTTCATTATGAGCAATTCATATTAGTGAGGCTTTAGTAGGTCAG
CAGCATGAGCAAGAGTGAGTATTTATTATAGCATTTTAGATTTGGAAAGATAATTTTTCTTTTTATAATTTTGTCAAATTGAAACATCTTTTTGCAGGGG
AGGAGCTTTACTAACTAGCCCCAGTGGACCAGGCTATCATATCATGTTGCCTTTCATTACTACGTTCAGATCTGTGCAGGTGAGTGATTCCTAGGGGAAG
CCTCCATACCAGATAGACAGGCATGACAGGAGTTACCACACTTGTGGGTGGAGATAGATTTCCTTATTGCTTAAGCAGATGGTGGTATTTACTTAAATGC
AGAAGTTAACGTTCAGAGTACAGTTGTTACAACACAAGTTATGATGTTAAACCACCTCACTTACTTGAAATGAATTAAAGGTATGAACCAGGAAGCTTGG
AAGGACTGACTTCTACCATCTATATCGTGGTATATAGCAAATTTTCTGTTGCTGCTGTCACAATAAAAGTAAGAATTAGAAACACAACTAGACATACAAA
CCAGTGATTATGTGGTTTAGAACAGTGTTTAGTTTCCATAGAGGCAGGCTCCTGGGCTACTGTTAACATGGAGGATCAAAATTTTTATACACAGCCTTTC
TGCCTCATGTTTTTTTGCCTGGTATATTAAGCACAATTTTATGTGGAACCTTAGTGAATGTTATATTTTGATGGCATCCCGGGATATTTGAAATAAGTGT
CTAATCCTCGAAAAGTGTCTTGGCCATGGGAGACAATAAAATAAGTATCTTTCAATGTAACAAGATGACAAAACCAGGATTAGGCTGTGACCACTTTCGC
AAGCCCAGTGTGATCATAAATCTTTGGATTCAGAAGTTTGTCTGCCATCTGCTGCTAATTTTTCAGGACTCAGGAAAATTCTGTGTTATTTAATCTTGTA
ATCTTATGTCTAGGCTTCCTGCTAAGTGAGAGTTTAATTATAAATTCTTAAATCCCCTAGGTTTTCTTCCTGTCCCCTTTTASATGGCTTAGGGAAAGAA
TTGTGTCTACTGAAGTGAAATGTATTCTTCCCCTAATCAGACTGATTTCCATATGTTGTTCCATATTTATTTTACCCATTCTTTCCTTAGTTCATGCCAT
CACTTCTTTATCTGCCATCTCACTCTCCATTCCTTYTCTCCTGTCTAAATCTTGCCAGGCTTTTAAAGGCTCATCCCAGATTCTTCCTCTTCTGATCTAT
AGCTCTTAAAGTCTATATTGTAAATTTTGGCCCTTTGTCTTATTTTCTTTAATATTGTTGTCTTGCATTGTTTGCTAAGTTTTTTTATGTGTTTTCTTTC
CAGAAAGGCTCCAGTTTTCTTAAAGGCAGGAGTTGTAACACATTTATATTTCTGGCTTTCTATTTATGGTGGAAGTTGTTAAATTGAGCTGATTTCTCAG
GAAGCAATGTGGTGTAATGAACATGGGGACCCAGCGTTACCGCCAGTTGGTGGCATGACTTTGGAAAAATTGCTTAACTGTCATAGACTTCAGTTAGTCT
TCTGTGAAAGGAGGAATTTTAATTACATAACCTCATCAACAGCCGAAACAATCTATAATAATGTTAGCAATGGCAGCATTAGACCCTTAAAAATCAAGAC
TCTAAGGCCCGGCGCAGTGGCTCATGCCTGTAATCCGAGCACTTTGGGAGGCTGAAGCAGGTGGATCACTTGAGCCTAGGAGTTTGAGACCAGCCTGGGC
AACATGGGGAAACTCCGTCTCTTAAAAAAAAAAAAAAAAAAAAATCAAGGCTCTAACAAATAGATCTTGTTCAAAACCAGGTAGATCTGTCTCTGCCTTC
ATGCTTAGTATGTTAAGTCATACTGATGCAAAAATATAAATAAAGGAGATATAGATAATAGTAAACAGATTTTGGAGTTTAATTGTGTATATATATAACA
AATATAGTGTGTGTATATATTTAATAATAAACTATCATAAGAGATGTAAATGAAATTAGTACAGAGACTTCAGTGTAAACTAAAATACTTCGCATCTACA
AAAAAGTTTTACATGGGCTAGAGCCAGCCAGTGTGACTAAATAGGAATGTTCTTTATGTGTAAAACGGTAACATTCTAGGAAATAATTATATTAATAAAA
CCATATTTAAAAAGTGTTCTTGGCCGGGCGTGGCGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTT
CAAGACCAGCCTGGCCAACCTGGTCAAACGCTGTGTCTACAAAAATACAAAAATTAGCTGGGCGTGGTTGTGCGTGCCTGTAATCCCAGCTATTTGGGAG
GCTGAGGCAGGAGAATCGCTTGAACCTGGGAGACCGAGGTTGCAGTGAGCCGAGATCGTACCCTTGCACTCCAGCCTGGGCAACAGAGGAAGACTCCGTC
TCAAAAAAAAAAAAAAAAAAAGAGTGTTCTTAAGAGAGTAAGACATAAATTTATTTTTAGGAATTTTTGGAACATATTAGAAGACATAGTCCAGATAAAC
AAATGGTTTAACAAACTTGGCAATTGAAAGGAATGTATATAAATGTGAAATTCCATATATGATGTAAAAAGAAAAAGCAATGGAGAAATTATATGAAAAC
CTTCAGCCTTCATAAAGTAACCATAGATTCACTTTTTAAATAAATTTTCTGTCATACTGGGAAAGTAATTTTTAAGAGGACATAAAAGAAATATAAAAGT
ACATAAAGATAGGGTGTTAAATGGAAGATTTAACATTTGAACCCTTTCCTAGTTCTTCTGAGTTTGAAAATTGGCTAGAGAATATCCTTTTGGTTTAAAT
AGGAACGTGTATTTAAAGTTGGTGTGGAATATGGAAACTGAATTAATGTTATAAAGGAAATAAATATAATTTGTCTCTTCATCAATCCCCTTAACCTAGA
ACTGCCACCAATGTTTACTGTCATTCTAATGTCTCAACCTAAGAGTTATTTTTTATTCTTTCCCCTCCTGGAATTTTATATCAACCAAGTATCAGATACC
TCCTCTATTATGTCTGGATTGACAGCTTTCATGGCCTTTACTGAATTAATCTAAATAAATTAATTATTTAGCCTCCCAGCTGGTTTTCTTACCTCCCTAT
AAGATGGAGAATGAGAACTACATCACATGTGAGAAAAGGAATTAAGTAAACATATTTTTGAATGGTTCGTTTTGTGACTGTATATAAGGTGAACTAGAGA
GATCCCAAACTCCCCAGCCAGCATTCAGGGCCCTCTGTCTAGTATTACCATGGTCTCTTGTCAGAATTTCATCTTTCATCCAAATTGTCCCTTSTGCTCC
AGGCAAGCCTATCTACTTTCGTTCGCCTATACACATGTTGTCTTCAACTGTGTGTATTTCAGTAGGATATTTATTGAGCTTAAGATGTTCCTCTGCCTCA
TCTGTTCTTATTTCTCCCACTCTAGACCTGGCTTATAAATCCTTCACCTCAGAGAGCTTTTCAAACTACTATTTTTTTCACTTTCTGTAATTTACCACTT
AACAGTTCAGTTTATAATTTGTGTTTTTGGTTTTGTTTTGTTTTGTTTTGTACCTGTTGATGGATTGATTGCATTGTAACATTTTGTCTCCTGTGCTGGA
TTGTGAACTCTTTGGAAACAGGGACTGTGATTCCTTTTTCCTTTGCTTTGTGCTTGATAAGATGCAGTATGTCTAGAATGTACTCATTAGGTGCTGACCT
ATTTGAGGCCTTAGAGTACAGCAGGAAGTCATTCATTCTGGATCTGAACAAAGGTGTGACAAGGGCAAAGCAATTAAGTACCAGATTGTTGGTTCACCAG
GAGGAAGCAGTACTGGTGGTAGCACTTCTATTAAAAAGGAAACTGAATAGGACATGTGAGAGATCACTAGGTATTAAACTAAAATGTTGACCACAGCTTT
AGAGAAGAAAGGTTGCTGTTGGATTCAAGGGCAGCTTTGAGTCTTAGAGTACTTGTATGCATAAAATCTCTTTTATCTTCAACATAAATAGTAATATTAG
CAGTGGAATCAAAGTTCAGAGTGCAAGTTGTAGCCAGAGTATCTATGTGAGCAAGCTGTGTTGTTTACAACCCCTGGCCAGCTCCAGGCAGGTAAGGGAC
TCTGGAAGAGTTTTCTACTTATTAGCAGACTGAACATTGAACCTTTCCCAGTGAATCTTAATTCAAACATTCGCTGTAGGCCAGGCACAGTGGCTCACGC
CTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCTCATCTTTACTAA
AAATACAAAAATTAGCTGAGCGTAGTGGTGCATACCTGTAATCCCAGCTACTTGGGAGGCTGGGGCACAAGAACCGCCTGAACCCAGGAGGCAGAGGTTG
CAGTGAGCCAAGATTGCACCACTGCATTCCAGCCTGGGTGACAAAGCAAGACTCTGTCTCCAAAAAAAAAAAAAAATTGCTGTAAAATATTTTCTGTCTC
AAGTCTTTCATTTCTACTAGAATACAAAAAGAAATGACTGTTCTGAGAGCTAATCTTTGGGAACTGAAATTGTGATGGATCTCTGCTGTACTTACTGTCA
GCAGCTTTCCAGAGATTTGCCTCTGGTACCAGTAGTTTTTTGACAATGTGTGTCTTGAGTGTTGATGAGATATCTTTTCCTCCCTAGACAACACTACAAA
CTGATGAAGTTAAAAATGTGCCTTGTGGAACAAGGTAAGCTTTCTCTTTGCCTACGAGCCTCCCTTTAGCTCAGACAGAGTTTCTGTTCCTACAGCTATG
ATCACTTAGACATATCTCARATAGGCATGATAGTTAACCCAAGGGGACTTCTGATCTGAGCATTGTTTGAGCAAAGGCCTATCTCCAAATAGGAGCTTTT
CCATCTTAAGAACCATTATTGTTCTTATGGTATTATTGGAAAAAACTGGAGTTTTAGAGCAAGTAGACCTAACTGTGYATTAGCACTGCTGCATCTGCTT
TATTGACTATTTTTTAAAGACTTTATTTTTTACAGCAGTTTTAGGTTCATAGTGAAATTSASCAAAAAGTACAGACAGTTTTTATATACCTCTTTCCCCA
ACACATTCCTTTATTGACACTTTAAAGCTTAGTTTCCTCCTTTATAAAGGCAGTAAAATCTACCTTGCAGAGTTGTTGTAAGGATTAGAATTACTGTATA
TGAAGTGCCTAACCAGAACTTGGCCCAGAATAGGTGCTTAATAAAACATAGTTTAAAATTAATCATCCCACCGTCTTCTCATCTGTAGTGTTAAATGCCA
TCTAATTTAGAGTTTCTGATTCAATAGGTCTGGGGTGAGGCCCGAGAATTTGCATTTCTAACAAAAGTTCCTGGGTGATGCTGATACTGCTGGTCTGAAG
ACCTCACTTTGAGAATTGCTGTCCTAAAGAGGTTTAGGGAAAGAAAGGCAAGCAGGGCCCAAATTATTTCTAGGGTATAATCACTGCATTGAATTGTATC
AAAAGAAGAATGTGAAGTTCAAGGTATTTTTTAAATTACTTATTTTAAATGACTATTWCAAGTGTAAAAAAGACATTGACATCTATAGAGGGACAGAAAT
GCTATGAAAAAGGAAGCGAACTCTTTCTGTGTTTTAAGTGAATATTAGTATGTTTCATTATCAGCTTCTCYCCAGGTCTATCTATAACTGTGTTTTATGG
ATTGCCTTTAGTAGTTCACACTYTTTTTCTTTGTTTTTAGTGGTGGGGTCATGATCTATATTGACCGAATAGAAGTGGTTAATATGTTGGCTCCTTATGC
AGGTATGTTACCCATCTACCTGTGGTTTTTATAGTTATAGCCAGAGGATTTATAGCTGAGAGATTCTTTGAGGAATAGAAGGGTACTTTGAAAGTTTTAT
GACTTCATTGATCACTGATTAATAAATTTCTGGGGAATAGAGGCAAAAATAGGTCAGAAGTTCTGGACAGAGTTGACTTTCTGCAACTGTATGAGTTACT
CTTCTCTGAGCTTAGTGTTTCTAAGAGCAAAATGGTCATTGGTTATTTCTAGAATAGGAAAGTAGTATTTTATCCAGTCAGGATGAGAGATAATTTCCTT
GGGTGTTAGAAATCTGTAACTGATCAATTCCTTGGCCCACACTGATTTGCCATCAAAGAGAAGTATTTTCTAGTTGAGATTTGCTATAATTTGCAAAGCA
GTCTGAAAGCCTTCAACGTGGGGAAAGCATTTTCTTGATAAAAGATGAAAACCTACAGGTATGGGGTGGGTAGGTACTGTTGTAATCAAAAACTTAATTA
GAAGCCCTGAAGAAAGATATACCGTCTTATATGCATGCTTGTTAATAAAACTGGCATGTCTAGTATGTACAGAATATTGTGTTTGGCAAGAATAATTTGA
AAAGATGAAATTACAGCCTTTGCCTTCAGGGGTTTTAATTTTACTTGAGAAGACATAATACAGAGCTAAAAAAGGATATATTGGGATGTAAGGTCATAAT
AAATTTCACATAACCGGTACAGGCACAAATAGTGAAAAGATTTCAGAGTAGAGAGCAGGCGTATTACTGTCAAGGGCATTTGGATTATATTTTTCAGAGA
GTAAGCATTTTCCTTGTCTTTTTTTCCTCTCCTTTCCTTGATTACAAATCACTGGAATGGATTATGATTGAAAAAGGGAAGGGACTGATGATTCTTTAAC
CAGAGATTAAATAGGAAACTATTTAGATATAATTCATTTGGGAAATGATCAAGCAAATGATTTAGTCATTAAGTATTTATTAATGGCCTGTCCATTAATT
TTTTTTCTTTTTTGAGATGGAGTCTTGTTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCAGTGCAACCTCTGCCTTTTGGGTTCATGCAA
TTCTCCTGCCTCASCCTCCCTAGTAGCTGGGACTACAGGTGTATGCCTCCACACCAGGCTAATTTTTGTATTTTTAGTAGAGACAGTGTTTCACCATGTT
GGCCAGGCTGGTCTTGAACTCCTGACTCAAATGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGTCGGATTT
GAAATCCAGTTGCATCTAATATCCCACATGGGAAGGCCAGTGGAGCAAATTCTTGGATCTGAAGACAGAAGTAGAAAGCAGCATGTTTTTGTAGATAAAG
AACAGGTTCTGACGTGGTCTAGTATGTACCTTTTGGGCATTTCTAAAATTCTCTGTTTCTTAGTTTCCTAATATGCAAATTTAGGAGAATTCAGTGCTAA
TTTATGTAAATTACCTGATATAAAGCCCAGCTCAGTTAATGTTTTAACAACTTTAAAAAATTGCCTTTTTAAAAACGGTCTTTTGCAACTGCTTTCTTCT
TTTATTTCTACTGTTCCTCAGTTTGCCTAGTCTCTCTTTACCTCTTAGCTAAACTTTTGCAGTAATTGCCTTATGCTTTCCCTGCCTCTGATCTTTATGC
TTCTCAGTTCATCTTCACACTGCTGGCCAAAGCGTAAATCTGACTGTCATGCCCTTGCTTGAAACCTTTGATAGTTCCTTATTACCTCCAAAATAATGGA
TACTTTAGTGTGGACTTTAAAGTTAGCCCCTGTTTGATGGGCTAACCAGCAGGTGTTTGGCATTAGTATTACAAATGCAAGGGTATTTGGAAAATTGAGC
ACAAGCAACACATCAAGATTTGTTAGTTGTGGTTTTTGGTTTCACTATTTTGTTGGCACTTTTCCTCATGTGTAATATATCACCCTGACTTTTACCCTGG
CTGAATTTGAAGGTACCTGTGTCATTGTTGGGTAAAACAAACATGGGTTGTACCTCTCCTTCAGTGTTTGATATCGTGAGGAACTATACTGCAGATTATG
ACAAGACCTTAATCTTCAATAAAATCCACCATGAGCTGAACCAGTTCTGCAGTGCCCACACACTTCAGGAAGTTTACATTGAATTGTTTGGTAAGTGTCT
TAATTCTTATGTATGTAAATAGCCAATTGGAAATCTTTGTTCAGCTTACTTATTGAGGTTATATTGGTAAACCTTAGTGCTATTTAAGCATTTCTTCTGA
ATTTATCATAGAGCAATTGTCTTTAAAATATTTTTTATCTTAAGTTTAAAATTTTTTATATAACTTGTTAGAGATTGGAAAAACTACTCAGACTGTATTC
TGTTTTTACTGTAATAACTTAGTGAAAATTAGCTTTGTTGATGTTTTAATAGATAATTTGAAAAATTTAGAAACCTGTGTCTTGAGGCTCCCATTTTTGA
TGATTTGGTAGGAGACTGACAGGACTCAGCACATAGTTGTGTTCACAGCTAAGATTTATTACAGCCAAAGGGTACAAAGCAAAATCAGCGAGAGGCAAAG
GCACACCAGCAAAATGCAGAGGAAAGCAGGTGCAGGCTTCCAAGAGTCAAACATGTGCCTAATTCCCACAGCAACAAGCTGTGACAACACATGTGAAATG
TTGTCTACTAGGGAAGCTCATTGGAGACTCATTGCCCAGGGTTTTCACTGGGGGCTGATTATGTAGGCACCCTCTGCCTACCACATAAAAATTCCAGACT
CCTGGAAGGAATGCAGGTGTTTGGCATAAGCCACATTGTATAAACAGTTCACAGCAAGTCAATTGTATTAGCTCTGGGGATAGTGGGACCCTTCTACAAA
TCCAAGTTCCTAGGTGCCAACCAAGGACGAGTTTACAAAAGGCCTTTCTAAGGATTGCAGTATCAGCCCTGCTTTCTTAACTCACTTCTGTACAACTTAC
TTTTCATTTATGATAGTGGAAGTTCTGACCAGGGAATGAGTTGTTGCTGTTGGTAGCTCACTTTTCCCTCCTGAAATTTTTAGTGAATTTCTAAGATGAA
GGAATAAGCAAGAGTAATCAATTTAAAATCTACCAATTGAGTCCTCTTTGGTGATTGTCAACCACTGAAGTGGCATGTGAGGAAACTGATGGGTCCTGCT
TTGTCTCACCACCAGTCATTTAAATAGCGAAAGTACCATTGAGGTGAATAGAAAGTGCATAGTTACAAGCCCAAGTGTTCATGCTGTGTATATTTCAAAT
ACTTTTCTATGAGCTTCTCTCTCTGTCTCTCTCTCTCTCTCTCTTTAAATCCAAAATAACAGTGAGGCTGAGATCCATGGAAATGAAGTTTAGTTATTTG
GGAATTTGAGTAAAGATTTACTGAACATAGAAATTTGTTTTTCTTTGAGAATGAGGATACATATTGAGTAAGAGCCCTGAATTAAGATACTAGAGATCCA
GATTCTCCATTTATTAGATCAACATATTTTACCCAGTAGTTGTTTATCCAGTAAATAAGTCTAATAAGTTACCCAGTAAAAAAGCTTATCCATAGTTAAG
TAATACATTTAGTGGGTAAACTTATTGGATAAACAGACTATCTGCTTGTCATCTTCRTTCCTTAATTTCTTTATTAGATAATTCCTTGCAATTTTTTTCC
CACACAAAAGGGAAGAAAAGGCAGTTTAAGCTCTGTAAAAGAATAGTACTGTGGAAACTTTAGGTCTAATAATGATTAGTTTTGTTTCATTATGAATACA
ATGTAAAAAAAATTGACTATCATGAGATCTGTTGTTCTTGGCTTAAAAAACAGATCAAATAGATGAAAACCTGAAGCAAGCTCTGCAGAAAGACTTAAAC
CTCATGGCCCCAGGTCTCACTATACAGGTAAGTTCTTTTCCTAGGGAAGTTCTCTGGGGATTTTGAGAGCTTTGAGTTTGTTCCTCCTTTCATTGGATTG
TTTTATTCAGCAATTATTTGAGATGCTATGGTGATTTATAGAATACCTTTCTCAATTTGACTTTAGATCTCTGCCAAAATAAAATACTCTTGTAGCTTRC
TATGGGTGACATTTGTGAACTCCTAGAGGGAACTGATAAGCTGAGGCTCTTACAAGGAAGTAAAATTCATATTTCTGCCATGTATGAAGCATTAAGATAC
AGTAATGGTTATAAATCAGTGTAAGCATAATCCCTGCCCTCAGTAAGATTATGAAAAGGGAGTTCAAGTGTAAAATTTGAACAATCCTGGACAAAATAGT
TATCACAAAGTATTAATTGACAGATGAATCTATTGAATGATTATTGCTGTAAGAGTAAGAGAACATTGGAAGACAGTGTGTCTAGGAGAGGGCTGTGATT
GAGTTGAGATTTTAAGTAGGTTTGGAAAAATTAATTGGATTTAAATGGGGGAAGAATGAGAAAGGTATTTCAAGTGGGAGGGACAGCCCTAGTAAAAACA
AGGTAGCAGGTGAATTTAGTGGTAGTGGTGATGGTGACGTTGGGAAATAGAATGGTGAGAGGTTTTACCCCTGCTTTTTTTTGGGTCACTGTGTTTTCCA
GATTGTGGGTTGTAAAATCAACTTTAGTGAGTCATGAACAGCATTTTAAATAAAATGGAATAGAATAGGAAAAGAAATGGYATGTAATAAGTTTAAATAT
TCTGTGACACTTGTGTTTCACAGTGTGGCGGGGTAGGTGTTTATATTGGACGTCAGTGCAAAATGTGTTTCTTACTGTGTCCACTGTCAGTAACATTCGA
AAGCCACTGCTCTGGATCCAGATGACCTAAGAAGTTATATTGAGGCTTCTCTAGTGTCCTTTCTCAGGAGCTCTAGGAGACCAGTTGATTGTTGATTGTT
GTGATGAACATTACTGCAACTAAAGCTTATCACATGTCTCTCAATTCTTTACACTCAGCACCACTGCTACTGAGAGTGTGCGCTCACTGTGATTGTATGT
GTTCGTGCTTCTCAAAAACAAGACTGAAAGATAGGTGGGGTTTTCCTCATGGCCTCATTCATGCAATGTCATTATCTCAGGCGCTTGAGGGTGAGCCACC
AGAGTTAAGGGGTCGTTTGAAATGTCCAGAGGTAACTTTGTAAAATCCTCTGAGTTGTTCAAGTCAGTTGTAGCTGGAGTAGCTTTTTAGTTTTAAAGAT
AGTGAATGTGAAGGTCAGCTCTTAGATTCTGCCCAGGGTGTTACTCAGAGATCTAGCTCATTCAACTGTTGTTTAGAATTCCTTGCCTTATATTACTTAG
CCATTTTTCTGTTCCCAGTTTTTTGCTATTAAACAATAGTGTAATGAACATTCATGACACATGTTCTTGTATGTACAAATTATCTTTCAAACTGACTGTA
CAAATGTACATTCTTAACAGCAATATGTGCAAATAATTGTGACCCATGAACTCACCAACATTGGAAGCAATCAGACATACTGATTGTTACCATATGGATG
GGTGGGCAATTATATCTCCCTTTGATTTGCATTCCTTTGGTTGTTAATGAGGTTGAACATCTTTTGATACATTTATTGGTCATTTATACTGTCTTCTGCT
GATTGCCTATTCATATCTTTTGCCCATTTTTCTGTTGGATTGTTTTCTTTCTTACTGATTTGTTCTGTATAAATTTGGAATTTTTATACACACACGTTAT
TTATGTTGTAGAAAAAAGTTAGATACTAGGAAAATGATGAAGAATAAAATGAAATTCACCAGTAATCTTATTATGCAGGGATAACATCATTTGTTATATC
TTTCTCGACTATTCTTAATGTATATGAACAAATGTTTGTAGATATAAATGCATACATGCTCAACTAAAGCAGAATCATACCATACTTGCTTTTTTCACTA
ACATTGTCTATGAACATCTTTCCAAAACAAAAATATAGGTTTGGTAAATCATTACTTTTAATGGTTATATTTAGTGAATCTCTATGGTTTCAAATTTTTT
ACTACTGTATGCATGTTGGAATGACCAAGCTTATATATTCTGTACATCTTTTTAAATCCCTCTCTTACAATAAATTCTTGAAGTGGGATTGATGATCAAA
GTGTATGCCCTGTTTGGGGGCTTATTGATACATACTACCGAATCACCTTTTAGAAAAATTTTAGCAGCTCCCCCCCTCATTAGCAGTGTTGGTAAGCTGT
AGTTCTTACACATTTGATTGCATGATTGTACCCAAATAATTAGCAGATGCAAGCTTTCCCTTTCTCTCTTAATCCTTTTGGAGAAAATTAGTCTGTTATT
TTGTGTTAATTATTGAAGTTGAATACCCTAGGTTATTAGCTGTTTTTATTTCATTTATAAATTGTTGGTTTTGCTCATTTTTGTAGTTAATGGTTTTTCT
AACTGATTTTAATAAGCTATTTTTGGCTGGGCATAGCGGCTCACATCTGTAATCCCACCACTTTAGGAGGCTGAGGTGGAAAGCTCCCTTGAGCCCAGGA
GTTTGAGGTCAGCTTGGACAACATAGTGAGACCCCTTCTCCACAAAAAATTTTTTTAAAAAATTAGGTAGGTGTGGTGGCATGTGCCTGTAGTCCCAGCT
ACTTGGGAGGCTGAGGTGGGAGGATGACTTGAACACAGCAGGTTGAGGCTGCAGTGAACTGTGTTCATGCTGTACTCTTGTCTGGGCAACAGAGCAAAAC
CCWGTCTATAAATAAATAAATAAATAGCATTTGTATATAGAGAACTTGTTTTTGAACCTTACCCTTTGAGAGGGGTAGAATTCGTTTTTAAAAATAAACT
TTTTCATATGTTAGTTATTGTAGCTCTTTTTTATATTTATAGGAAACATTTTCTTCAAATTTTTTCTTTGTCATTTAACTTTGTTTTTTCCTTGCTGATA
ACTTTGAAGTGTTCATGTTTTACATAGTAATTTCAGTGATTTTGTCTTTATRGTGTGTTGCTGAGCTGGCATGTTTTAAGAGCTTTTCACCACCTTAAAA
GTATAGCAATTAAAATTAGAAATTATAAAAATTGTATCTGCTTTTACAGTTGTATTCTTAGATTTAAATCTTTTAATTCATCTGCAACCCATTTTGATCT
CAGTTGCAAGGTAGGCCTTCAGCTCCATCCCCTCAACCCCAAATTGGGTAACAGCGGTAATTACTGAATAGTTTATTTTTCCATCTTCCCCCTTCTTTGA
AATAGTTTTTATGTTACATACTGCATTCCATTATATACTAGAGTCTTTTTCTGAACTTAGTTCTGTTCCATTGATCTTCCCATTCCTACTCTTTCATTAG
TTATTGAGTCCTTGGTCTTTTCTCATCAAATCGAATTTTCTCCTGTGTTTTTCATCTTGTCAGTTAATGGTAACTCTTTCCCCTCAAGCCARTCTAGAAG
TGTAGGAGGCATCTTTGACAATCGCCTCACCCTCAGCATCTAATCAGTCCCTATGTCCTGCAGATTCCACCACCAAAATCCAYGTATTAATAAAACTGAC
CACACCTCCATCTTCACTGTCATCTCAAGCCAAGCTACCAACTCTAACCTTGACATGTGCAGTAGCAGTAGCCGCCTGTCTTCTTTCCCCACTTTCACTT
TTACCTTTGTCTACTTCATTTTCTGCACAACAGCCAGAAGGATCTTTTGAATTTACTTATATTTATTTGCTGTTTTTATAAAAAGTTATTGATTGAAAAA
ATGTAGTTTTGTTATACGTTCTTAAAGTGGTAGAGATCTCCATTGTTTTAGGGTTTAAAAAAATTTTAAAATAATTTTTATATTTTGCAATAACTTAAGC
ATACCCTGAGAAGAGAAGAGCTCCTTTGCTTTGGTTGCTTTTGTCTTGTTATAAAATTTTTTTTACAATAGTTGGAATGCATTTTAAGAATTTCAAGGCT
GTTTTTGAGCTTTGTTATTTTTAACACATTACCATATGGTTGTGATAATTCAACTTTTTATTTTAAAATCTGGCAAGAGACATCATCTTTTAAAAAATAA
TGGCCTTTGCTGTTTCTGCCAGCTTAATCTTCCAGATGAGTTTTCATTATCGATATTTTCAAGCTATATCAGGCACCTAAGTGGTCATATACATGTTGTT
TTGTTTTGTTTTGTTTTGAGACAGGGTCTCCCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCATAGGTCACTGCAGCCTTGAACTCCTGGGCTCAA
GTGATTCTCCTGCCTTAGCCTCCCAAGTAGCTAGGAGTACAGGTACACACCCCCACATCTGGCTAATTTTTTTATTTTTTGTAGAGATGGGCCTTTGCCG
TGTTGCCCAGGCTGGTCTCAAACTCCTGGCCTCATGCAATCCTCCAATATAAGTTAAAAATAGAAACATAGTTTATGGCTTTACTTTATCATATCAGCCT
TTTTGGTTTTTAGAATTTCTGATTTAGGGGAGAAACTCATATCCTAAGTTAAATTAATACCAATGGATTTAATGAATTTTAATGCTGTTCAATATGTAGT
CTTTTTTTTTTTTAATCATTGAGGAATGTGATTGATTCTTGGTAGATTTATCTTATATCTACAACTTGAATTCACTGCCTTCTAGTAATTTTTGGGTTAC
TATTTTTACAGTCACTATTATATTTTTTTCCTTTCCATATATTTATATACCATTTTTCTTCTTGAAAAACTACTCTGGCAAATTAGAATGATGAAAATGG
TCATCTTTGATTTTTTTTTTCCTATGTTATTTAAGGGAGTGACTATATTATAGACTGGCTTTTGATATATAATATATGCTTAAAACCCAGGGGTCAGTTT
CAATACATATATTCCTTTCATTAGCCATTTTTTTCCTCCATTCACTCTATGTATGTGAGTGGGATGGGGGCATTATTTTATTATTTGAGGTTAAGAGCAG
AGGTTTAATAGGCAAAAGAAACAGAAAGGAGAATAGCTCTCTCTCCTGTGAGGGAGAGGGGTGCCTGAGTGGGACTTCCCACTTTTACTTTTAAAATCTC
TTTTGATGCAACTTACTCATGGTATCTGTACAGTAAGTGTTTATGTTTTCACATATTTGAAAATCTGTGAGATTTCCCAAGATTGGCAAGCACAATGTAG
TATGTTCTTCAGCCTCATTCAGCAAAATAGGAGTCTTCAAAAGACAGTCCTGGCCGAGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCG
AGGTGGTTGGATCACCTGAGTTCAGGAGTTCGAGACCAGCTTGACCAACACAGTGAAACCCTGTCTCTACTAAAAAACAATACAAAAATTAGTCGGGCTT
GGTGGCGCATGCCTGTAATCCCAGCAACTAAGGAGGCTGAGGCAGAAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAACTGAGATTGCACCACC
GCACTCCAGCCTGGGTAACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAGTCCTACTTTACGCTTCTTTTAATAAGGCTAAAAAGATATGTGGCC
AGTCTCTTAATTAAATGCAGTATGACAGTGCTTCCTTGAATCATATTAATCCATATTGGAAGTAATCTTATGTCTGCTAGTCACATGGTGAAATCTGACA
TCTCACAAAATCTGGTCCTGAATTTTTATTTGTCTTCTGCATGTCTCCACTGAGTTGTGAGGCCTCACATGTGTCACTGCCAGTGTGTTGTGAGTTTTTT
CCACACAGCCTTCAGCTGCTTATTCCATTCCACTGTAATCCTTATATTTAGTTATGATTGTCCTCAAAATTACCTACAAATTTGACTCATCTATTTCATA
TAGGAAATGCTATATCGCTTAAAAGTTTTAAAAGCCTTTAAAGAAGACTAAGTGCTTAAAGGCTTTGTTATTCTTAAAAGGTTAGCCAGTTTTCAGAAGG
AAAACTTCTTCAGACCAGCAAAGTGTTTTTTGTGTGTGTTTGCAGTATAGGTGGGGCGGCGGGGTATCGTATGTTTAGTAAAATCAAAAGCTTTTGAGAG
ATCAAGTCCTTGATGTAGAAAAGTCAGCCTTCAAAAAACAGTACTGTCCAGGTAGATAATCTTAATTGTGTCAAAGAACACTATGATTAGGGAAACAAAG
TGTCTGGTAAACAGCCTCTACAAAGACAGACTTTGTTCTAAGTGAGAGTTAAGGAAGAAAGAATATAAGCTTTTAATTGATATTTGTTTTCCTTCAGCCA
GTGGGCTGTTTACTTACAGCAAATACCAAGTGATTGCAGGGGTTGGAAGTGATAGATTAATTTACTCACTACTCACTGTATTAAATTGTATACACCAACC
TGGGTTTTTTTGTTTGTTTTTGTATTTGACTAATTGTTTCTGACTTTACAATTTCAGTCTTGGAACTTTGCCTTCCCGGCTTCTTTGGTTTACAGGGTTG
AAAAAGAAAGCAAAAGTATCTAACGACCTTTGTAAAACATCTTTTAAGTGAGAACCTTTTTCATAAGGCAGTTGTTTCCTCAGTGGGTAGATGGTTTTTC
CTGTAATCTGGCATTGTGTAAGGAAATAAGAAGCAGCTTGTCTTTGATTCTTGGTGTGATGGCATGAAAAGTAAATGTTCTGGTGGGATCCCCAAACGTG
TTAGTAGGCCGCTATATTATAGCTGTTGTTTATTAGATTAGTATCATTTGAGGGGCTTTTCTGTAGAAGATTTAATTTGAAGATTTATCTTTCAAATATA
CTTTGGCTTTTTCACTTTTATTTTTTAGGCTGTGCGTGTTACAAAACCCAAAATCCCAGAAGCCATAAGAAGAAATTTTGAGTTAATGTGAGTAATATGC
ATGGGATCCCAATATTTCTGTTTAGGGCTGTCTGCATATTAATAYTCCAGTCTAGAGGAAACATGTGAGACAATACACTCTGGGGTGGAGTATGTGTCTT
ATCTTCTTTACTCTTACTCTAGTAATATTGCCTATTCTTGTGTCTTAATTCCCACTAGACTCTTACTAGTGTTCTCTTTATGTATGGACATTTCAGGAGC
AGTTTCAGTGGCTAAAGATGCAGTTTGCTGTAAAACTATTGCTGGAAGCTTAAGSAGCTATAATTTTATATGAATAGTACCTTGAATTAAATATTTAATA
GAGGAAAGAGTCCTGAAGCCGTTAGGGTTGAAGAGAGTGCTCATATTTTGTTTCTGTGTTGTAATGGTAGGAATAGATACCTTGTTGGTATAAAGTTTGG
TTTTCCATTGTATGTGATTGTATATCTAAAATTAGACCTGGTTCTTTATAATGTGCCTCTAGGGAAGCCTTGCTTCTGTTGACTCCTGGTAGTCTTCTCT
TTTATGTATCCAGGGCTGACTGGGAATGAGAAGACATGAAATTAGTTTCTGACAGGATCCCTTTTAGGGGAATACTTACTGTGTTTGAAATGGCAATATT
GTTTTCGTATGACTGGTACTGAAAAGAAGAAATAAAAGTCTTTAGGAAATTTGGCTGATGTGTTAAAAGGGAAAGTATAAGACGCTGGAAAAATAAATTT
GCACAAGTCAAGGATACCACAGATGTATAAATACTGGAAGTCCAAGGAGCAGTAATACTACTTTATGAGGTTGTTTACTTCTGAGTCCTTTTTGTTACCA
TGCAGATTTTTATTGTTTTTTTCTTCTTTTATATTTTCCTTTTCCCTCATACCTTCTCTGAGCTCATACAGAGTTTTATTTCTCTTTTTCTTAATTTTTT
TTTTTTTGAGACAAGGTCTTGCTCTGTTGCCCAGACTGCAGTGCAGTGGCACAATCACGGCTCACTGCAGTCTCAACCTCCCAGGCTCAAGTGATTAAGC
GATCCTCCCACCTCAGCCTCCTGAGTAGTTGGGACTACCAGTGCATGCCACCACACCTAGCTAAATTTTGTATTTTTCATAGAGACGGAGTTTTGCCCTG
TTGCCCAGCCTGGTCTCAAACTCCTGGGCTCAAGCAGTCCTCCTGCCTTGGCCTCCCAAAGTACTGGGATTACAGGCTTGAGTCACCACACCCAGCCTGT
TTTCTCTTTTTCATTGTAGACAAAGAACTCTTCTTTTAAAAGTATAAAATGTAGACTGCCAGGCTGGGTAGATTATGGATGTGATCCACTTATTGAAAAA
ATATTTATAGGCGGGCTGTGGTGGCTTATGCCTATAATCATAGCACTTCAGGAGGCTGAGGCCGGCGGATCACCTGAGTTCAAGAGTTTGAGACCAGCCT
GGCCAACATGGTGAAACCCTGTCTCCAGTAAAAATAGAAAAATTAGCTGGACATGGTGGCAGGCACCTATAATCCCAGCTACTGGGGAGGCTGAGGTAGG
AGAGTCGCTTCAACCGGGGAGGTAGAGGTTGCAGTGAGCCGAGACCACGCCATTGCACTCCAACCTGGGCAAAAGAACGAAACTCTGTCTCAAAAAGAAA
ATTTTATTAAACTGTCAGCATGTCTTAGGCTTTAAATATGATTGCTTAGGCTGGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTTGGGAGGCCAAG
GTGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTAGCTAACACAATGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGTG
GGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACTCAGGAGGCRAAGCTTGCAGTGAGTCGAGATAGTGCCACTGCACTCC
AGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAGATTGCTTCTGGTGACGGAAAAATGAATATTGTGTGTTTTCTGCTCTCAAA
TAAATCATAGTATTCAGACTGTCATTTGATGTCTTTATCAATGTTATCAGAGGAAAGGGGAAACTTTGAGGGGAAGTGTTTTGGGGAAACTATTGGAGTT
ACTTTTCAGATGATTCTGGATCTTTCTTAATTTTATGGACTATTGGAATTCCAGAATTAAAAGCTACCTTGGGATGATCCAGTATAACCTTGCACCTGAT
AGTAGTGTTTTCTTATACCATTTCTGCCACGTGGTTACCCAGTAGCTACTTGTACATGCTTAGTAATATGCCAGCCATTTCCATTACAGGTTTAGTACCC
CTTATCCGAAATGCTTGGGACCAGAAGTATTTTAAATTTTGGATTTGTAAAGATTCTGGAATATTTGCATAGACATAATGAGATATCTCAGGGATGGGAC
CCAGGTCTAAATATAAAATTTATTTATGTTCTTCCTTGTTGGTATAGTGGTTAGTTTTTTTTTTTTAAGGTATTTTATTTATGTCCCATATACACCTATA
GCCTGAAGGTAACTTTATAAAATATTTTAAATAATTTTGTGCATGAAACAAAGTTTACCTTAAGTGCTTATGTGTGGAATTTTCCACTTGTGTCATAATG
TGGGCTCTCAAAAAGTTTCAGATTTTGGAGCATTTTGGATTTCAAATTTTCAGATCAGAAATGCTCAACCTGTRTTAGACACTGGAAGCCTTAGAAAATT
CTCCTTACTGTAAGCCCCAGTTTACTACCTAATAACTACCACCTAGTTATATCTTCTGTGCAACAAATAYGGTCACTGCRCATGGGTGCCCACCTGAGGA
GGGCAGGGGCTGAAACCCAGCTTCATTCTGCATGTCAAACCATGCACCTGCAGGACTGTAGAAACGGCTGGTGCCGTTTTCTAATTGGCACAGAGCTGCT
GTATGGACTAGCTGGAGGTCTAACAGCAAAGGAAGTATTGATATATTCCCTTCCAAATCACAGGCTTTACACAATACAACTAGGAGAAGAAAGCCAAACT
AAAATTCAAATGTACTAARTTTTTTTCCTATCTCTGGGTGACTTTGGGCAAATCATTGAATCTTTCAACCTCAGATTTATTATAAGTAAAATAAAGTAAC
ACCTCTCTTAACCTACCTTAATGGGTCCAAAAGCTCATGTTGACAAAACGGTTCTCTGACTCACTGTAGGGTCAGAATTACTGGCTGTGACTGCACATAG
GAGAATCATTTCTAATTTTTATAACATTTTGCTTCACAGGGAGGCTGAGAAGACAAAACTCCTTATAGCTGCACAGAAACAAAAGGTTGTGGAAAAAGAA
GCTGAGACAGAGAGGAAAAAGGCAGTTATAGGTACTTGGATTTCTCTGAAATGATTGTCTCTAAGTACATTTGTTTGTCCTGTTCTTTGTCAGTCTCATT
TTGGGTATCATGGGACTCAGTAAGATTGCATCATAGGTAGTGGGGAATTCTGGAATCTCCACTGTACATTCAGATGTTCTAAAGCCTTTAAAAGTAGGTG
AGACCAGTACTTAATGATGTGCTGTGGCTGTCCATCATGTTGTTAGATGCTACTGTTGTCTCTTTCAAGAACAGGGAGAATGGATAGGGTTTATAGGCAG
CTTGAGTCTGTGGATAGCATTTTCATTTGTACAGATTAAGAATAGGGAAGTTTTTTGACCAAAGTTTCAGRTTGTAGTATGCATCCTTGTTGTTGACATG
CACTTAGTTTTACCTGGATAGGTAGTGCCGTTTATGAAAGCATGGCAGGATTGTTTACAGTTCATTTCAGATTACAGTGGCTTCCCTTATACTCCAGGTC
ACTGTGTATTAGATTGCCCTCTTTGGCCCTCGGTTGATGCTGAAAGTTTAATACRTCTTTAATTAAATAATTCAATTATAGAGGAATGTACAGAGAACAA
TATAATGAAAGCTTAAGATTTTGCCTTATTCCCTTCAGATCTTTTTTTTTTTTTTTTAAGAAAAAAATTAAATATCTGTTTGAAGCCTCCTTTGTATGTT
CACTGGTCCTACTCTTTGACTTTTCTTCTCAGATTAACTTCTATTCTGAAGTTGATGTATATCCTTTCTGTCCATATTTTTATACTTTTACTGTAAGTGT
GTAAGAGTTTATAAAATTGTTTTACCTGTTTGAAACTACAAAAATGTTACCAAACTCTTATTTTACAACTTGCCTTATTTTCACTAACATTGAGTTTTAT
TCATATTGATACATGTAGATCTAGGGATTTTTTCTTTTTTTGGCATTTTATCCTTATTCTCTGTGAGATGGTAGATCGTTTATGTTTAGCTGCTACATTT
TTCGTTCTATGAGCGGGCCTAGTTTTATTGTAATGAATTACCAATGAGGAGTTAGGTAGTTTCTAGTTTTTCCTTATTACAAACACTGCCACAATAACAT
TCTTATCCAGTGCCTCCTGGATACAGTGTACATGTGCAGGTTTCCATAGAGTAGCATTACTCAGTGTATGGTGTGGGCCAGTGCCCTATCACCAGCTTTT
TGTTTCTGAGCCTCAATGAGATGAGTATAGAAATTGAGAATGAGTGTTTAGAAGTTTTTATAGCATTTTAATACAGCAGTTTTATGTCTGTTGAATCAAA
AATAAAAAATCAGAGCTTATATATTTATGTTTTTGTTTTTTAATTTCTTTTTTCTAGTACTGTAATTTGTTTTTGTTATAGTTTACAATTTATTGGTTCC
TCATAAATTGAAATACACACACAAAAAGGTAAGGTAYTTTTCCACAGGTRGTTTGAGAAGCACTGCTCTAGAATAGCTATCTCAAAGTAGAATTGATGGG
TCATAGGGTAGCATGTCTTCACATTCAACATATTGACAAATTGCTCTCTCAAGTACTTCTTTGATTTTACCATCTCTTCAACAATATTTGATATCCAGTT
TCTATGCTGCCATATTTGAATTCCCATTTCCACACATCCTTCTTGGTCCTTGGAGTTATCAGACTTAAAACTTTATGTCTGTTTAATGGAAGACATGGTA
TCACATAATTTCAATTTGAATTTCCCTGATTGTTAGTAAAGTTGAATATTGCTTATTGGTCATTCAAGTTTCCTTTTTTGTTGTTGTTATATGAATTGCC
TGTTAATGTCCTTAGCCCATTATTTGATTGCTTTTTTGAGTTGATTTGTAAGAGTCCTTTCTGTCTCCTGGATACTGATCCTTTTTCAGATTTATGCATT
TCCAACATCTTTCAATTTGTGGCTTGTCTTTGAACTTTACAATGTCTTCGATATACATATATGTGTAGTTTTTGTGTAGACAAATTCATTAGTCTTTTCC
TTTATGTTTTGTGCTTTTCCTATCTTAAGAATTCTTTCCCTAGTCCAAAGTAAGACTTTTATTCTAAAAGTTTTAAAGTTTTGCTTTTCATATTTAAGTC
TTTAGCCCATCTAGAATTTATTTTGGTGTTGAGTATGACATAGGGATTCAGTTTAATTTTTTCAAGTGGCAAGCCAATTGTCTCAGACTGTTTATTGAAT
AGTTTATTATTTCCTCTACTTATTTCTAATGCCATATCCATCATATAATAAGATACTATACATAATTTATTCTGATGCCATAATCTATTATTTTCCAATT
TTTTGGTCTCTCCTTCCTCAATATTAATTTGTTTTAATTATTGTAGCTTTTATGTTAAGTCTTGCGATGTGGAGAGTGAGTTGTGTAACTATTTCTCTTA
CCTGTTAACTATTCCTAACTATATTTAAAATTATCCTGGACTATTCTAGGCCCTTTATTCATCCACATGAATTTTAGAACCAGCTCCTTAAGTTTTGTGA
AATATTGTGTTGGGATTTTGATTGGAATTGCATTGAATGTATGCATCAATTTGGAGAAAATTATGATATTGAGTCTTATAAATCTGTTTCTCCATTTAGG
AGAGTTGTCTTTTAAAAAGTGTCATAATTTTCTTCTAAAGTTCTTGCACATTTATTAAAGATTTGTTCTTATATACCTTTATTTTTTTATTGACTTTTTT
AAAGGCACATTTTCTAATGGGTTTTGTATAAGTATGCTGTTGATTTTTTTATTTAGCAATATTGCTGAAGATGCTCTTATTTCTAATAGTCGCTTAGATT
TCCCATGAACAATCATATGGTCTTCAGACAATAGGTCCTTATCTTCACATAAGGACAATTTTATTTTTCTTCTAAGTCACATACTTTTTATTTCTTCCTG
TCTTACTGCTTTAGGCTATGACTTCTAAGTACAGTGTAGAAAAGAAAGTGACAAGTATTCTTGTCCTTAACTTTAAATAGTCCCAGTGACATTTGCTGTA
CTTAACACTGGTTAATAAAGTTTCAATCTGTACTTTGCTTGCTGAGAGCTTTCATTTTGAATGGCTGTTAAAACTTTCAGAATTTTTTTGAGACAGGGTC
TCGCTTTGCCACCCAGGCTGGAGTACAGTGGTGTAATCACAGTTCACTGCAGCCTCAGCCTCCTAGGCTTAAGTTATTTTCCCACCTCAGCCTCTCGAGT
AGCTGAGACTACAAGTGCACGCCACCACACCCAGGTAATTTTTGTATTTTCTGTAGAGACAGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAATTCCTG
AGTTCAAGTGATCCACCTGCCTCAGTCTTCCAAAGTGCTAGGATTACAGGTGTGAGCCACTGTGCCCAGTCTGAAAATTTTTTCTACATATATTGAGATG
TTTTTAAAGCTGTTAATATGGTAAATTATATTAACAGATTTATCTTTGTGTTTCTGGGACAAACAATCCACTTGGTCATTATATAGGTCATTATATACAT
TTTTATATAGTTTGCTGATAATTTCTTTAGAATTTTTACCTTTATTTTCATAAATGAGATCAGCTTATAATTTTCTTATACTTTTAGTGTTAGGTTTTTT
TGTATCATGGTTATACTATCCCCAAGATGAGTTGAAGAGCATGGCTTCCTTTTCTGTGTTCTATTGTATATCACATCATTATGTATCAGATCTGTATAAT
TTCATCTTTGTAGGTCTGGTGGAACTCGTAAAAGCCATCTTAGTCTTGTGAGGTTTCTGCTTTTTTTCATTTGCTTTTTGTGGTAACAGTTAATCTATTG
ATTTAATTCCTGTATTGAGTATAGGTATATTCAGATACATGTTTTCTTTTTAAGCCAGTTTTGGTAATTATATTTTCATAGAAAATTGTTCATTTCATCT
GATATTTCAAATTTTGGGGCATAAATTTGTTCGTAGAATTCTCTCATGATTTTTAAAACCTCTACCAAATCTGTGTGCCCCTTTTCATTGCTAATACTGT
TTTCTTGTGCCTTTTCTTTTGCTGTATCAATTTTGCCAGAGGTCTGTTTTATTTTATTTATCTTTTCAGAGAATTGGCTTTTGTTTTGGTTTTGTTGATT
GTTACTTTGTTTAAATTATATTATTTACACTTTTTAAAAAATATTTCCTTCCATCTTTTTTTTTTTTTTAGTTCATTTGTTCTTTTTTAACTTCTTGAGT
TGGATAGTTAAGTTTAAGTCTTTTCTAGTGGAAACATGGAAGATTATAAATTTTCTTCTAAGGATTGCTTTAGCTATGTTTCACAGGTTTTGAAATGTAC
TTTGTATATTGGTGTTCAGTTTTAATTCTWAACCTTTTCCTTCTAATTTCTTCTTTGGCTCATGAATTATTAAAAGTATATGCTTCAATTTCTGGTTTAG
TGGGTTTTGAGGGGCTACCTTTTTATTGTTGATTTCCAGTGTTACTACATTGTAGTCAGAAAATAAGACCTGTTATATGGATTCTTAAATATTTATTGAA
AATTGCTTTGTGGCCTACCTGTACACGGTCCTTTTTTGTAAATGTCTGTGTGCTTGAAAAGATTGAATCTGTGTTCTCTGGTTGTTGGATGCAGGTTTCT
TTATATACTCATTTGGTCAGGCTTATGAATTGTGTTGTTCACATCTTCTGTATTCTTCTAATTTTTGCCTTCTTGACCTATCAATTACTGAGAAGGATGT
GTTAAAATTTCCCACTATGACCATGGGTTTGTTGACTTGTAATTTTTTTCTTTATATATTTTGGGACTATATCATTAAGAACATTCAGGTTCAGGATTGT
TATATCTCCCTGGAGAATTGCTTCTGTTTTGTAATAATCTTTATCCCTAGATATGTTTTTAACTTAAGAGCTATTTTGCCTGATAATATAGCTATACCAG
ATTTTTCTTGGTTAGTTATTTTCTTGGTGTACCTTTTCCCATTCTTTTACTTTCAACTTTTCTATGTCATTATGTTTTAGGTGTGTCTCTTGTAAACAGC
ATATAGCTGGATTTTGTAATCTTATCCAATGTGAGAATCTGTCTTTTAACTGGTGAGTTTAGTCTTTTTATATTTATTGTGGTTACTGCTATATTTGGAT
GTGTTTGTATCATTTGATTATGTGCTATTTACCATGCATTTTTCTCTGCTTCTTTTTCCCTTTTCTGATTGGTATTGAATTGATTGAATTTTCTTTTCTT
TTCTTCCTTTTACTTGATTGGAAGTTTTACATTCCATTGCTGGAATGTATAACTAGTTGTTAATCATTCTATCCTCTTCTTGAACAGTACCTTAGAATGC
TTTAACTCTTATCACTGTCCTCCAGTCTTACATTTTATTATTGCGTAGTATTTTAGTTTCATGTTGTCTTTATCCTCCCATCAATTATGATCATTATGAT
TAATCCTTACAGTAAACACTTATTTTGATTGACATGTGTTGAGTAATGTTTTTTCCTCTCCATTGTTTCTGGTGATTTTTTTTTTCTAGTAATTTTTTTT
TCAGTGAAGACTAAGGAGTGAAAGTTATCTTCGGTCCTCCTTGGTCTGAAAATGCTTTTATTTTATCCTTGAATGGTAATTTAGCCTACAATTCTAAACC
AAGCTAATTTTTCCTTATCAATATGGCAGTATTATTTCAATTTTGTTTGGCTGCTTGCACCTATTTACAAGTATGTTGTTAGTCCAGTTGTTCCTTTTGA
GTAATCAGCCTTTCTTCTCTTTTTGCTTTTAACATGTTTCTGTCTGTATTTGGGTGTTCTTCAGTTTCACTGTGATGTGGCTAGGTAGAGAAGAGGTTAC
TTCTTAACTGGGCTGGTTGGTAGAGTGTTTTAGTTCCCCTTTCATTAGAGTTGCAGCCCTCTAGAGGTCTCAGTTTTATGCAAGGGTCTTAGTCCTAATA
TCACAAGGCCTCATCTCCTGGTCTTGCATGGGTAAAAACCCAGGTCCCACTCCCTTCTTGTCTAATAACCACCCCAGGGACACCACCATACAGGCTCTCG
GCTCCCCCTTGGCTTAAGTTACTTGAGGATCTCTCATTCTTTCTTACAACTCAGCCATGCATTAAAAAACAAATTTGCTATATTTCATCTAGCATTTTAA
GAGGTTGTTAGCTAAAGGGTTTTCTCTCTGGCCTTTTGGCCTTTTGCACCATTTTTCTAGAAGTCTGGTCGTGCTTTTTATTGATTTATTCCCACATGAC
AGAGCTTTGTTGAATGAGATTACCACAACAGTCCCCCTATGTTGAGGTAACATCCTTTGGGTTCTAGCTGCAGGCTTCAGATCCCTCACCTTTTATTCAT
GTTTTATCTTGAGTTTCTGCTTACAGTTCAATTTCTAGCCCCATTGAACATAGTAGTTTAGTTTTTGGATGGTGTAATATAGATTGATTTTACATTGGTG
GAGAAAGAGGGAATTATCTCCTGGAGYAGTTCGTAAAGCATACTGTTTTATGGAAAGAAAAAAATCACTTGGAAGTTTTCTTTCCATTATGTACTTTTTC
TAGGGGTCAGAGATAAGATGTCCTAAAATACCCATCTTCTTTGACTGAAAAGGAGAATTGAGAATGTTCTTTAAGAATAGCAGTGATTGAATGTAAAGTG
TAATTCAAGTCTTTCTTCCTTGTCCTGGGTCATTTGGGTAGGCCAGAGGTTTATTAAGGGTGTTGAGTTTCCTCTGCATGTACTTGCTTGCCACACCAAC
ATGTTCACTCCCAATGCTTGTTTTCACCTTCTCAAATGAATCACCCTGCTTTCTGCTTTATTTCCCTACAGCAGTTGGAATACTCCTCTTCTGATACCAT
TTTCATCCTGTCATTTCCCTAATGGTAACTTAACAGTAGATCCTGAGTATAGTAAAACTAAGCTCCTTAGCCTGTCACTCAAGACAGAGGTCTCCTAGCC
CTCTTTCTCTTCTTATTTTWTGTTGTCTTCGCTTGTTGGCTGGTTCCATATCACCTCTCCATTGTGACTTGTTCATTTGTGCCTTCTTGTCTTTCTTTTT
TTTGTTTTTGTTTTTGTTTTTGAGGCAGGGCCTCACTCTGTCACGCTGGCTGGAGTGCAGTGGCATGATCATGGCTCACTGTAGCCTTGACCTCCCAGGC
TCAAGAGATCCTCTTGCCTCAGCCTCCTGTGTAGCTGGGACTATAGGCACGCACCATCATGCTTGGCTAATTTTATAAATTTTTTCTAGAGATGGAGGTC
TCACTGTGTTGCTTAAGCTGGTCTTGAACTCTTGGGCTTAAGAGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGGTTACAGGCGTGAATCACCATGAC
TGGCCCTTCTTGTCTTTCTCTGTGCTTCCTGGCATGTCTTCTTAGGTCATATCCATTATTTCCTTTAAGATTACTTCCAGAAGGTCTTCCTTGGTTTAAC
TTATGTCACTCATTCTTTCTTTCTCCTGCCACATTAATTGTCCTGTGTTGCCATGCATTTATGTTGCTCTGTTTTTGTTCTGTGGTACTTTCATAAAGTA
TCTTTTTTTCCCATTAGCTTGTGGACCGTTGCTACAGAGTTGCATGAAGGACTGGCACTTTAACCTTTTTTTACTCCTTCTTCCCACAAAACTAGCACTG
TCAAAATAGAACAGTAAATTAGGAAATAAATTCCCTTTTTTCCTTTGAGTAGTTTACAGTCTGACTAGATAAAACTTAGTGAAACAATTAGCACATAAAA
CTTTCTGTAATTAAATGTTAGACTGTGTGCTGCTGGTTCGAAGTGCCTCAGGTACTGTAGAAATGGTTTTGAATGTGTCTTCTTATGTTGTATGATTATA
GAAGCAGAGAAGATTGCACAAGTGGCAAAAATTCGGTTTCAGCAGAAAGTGATGGAAAAAGAAACTGAAAAGCGCATTTCTGAAATCGAAGGTACATTGT
GGGGAGAGGATGAAGCTCTGCCTGTCCCGAACTGCCTCCTCTCTGCTCCAGGGTTCAGGCCTTTGATTGTGGTGGGTGAGAAGGCCATAGACAGAATAAT
CTGGTCTGGAGGAAATAGCTGGCCTGATAGTCTAAATAAATTTTTTTAAATTGCTATCACATTTCCAGCTTTTGGGTTTGTTTGTGACTGTGGGTAGCTC
AGCTTTCCTTTTCTTCCTTAAATTGGGGCTTATTAGCTACCACTTTATTTTCAGGCAGACAAGRTATGAAAATTACCCATAATCAATAGTAAAGAATATA
CAAGATAATAAACCCCATCTCTGGCCGGGCGCCGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACAAGGTCAGGAGATC
GAGACCATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGA
GGCTGAGGCAGGAGAATGGCGTGAACCYGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGT
CTCAAAAAATAAAAAAAAAATTAAAAAWAAATAAACCCCATCACGACCAGTTTCTTTTCCACCTGTCCAAAAAAAAAACAAAATTAATTGGGGGGAAAAA
CAGTTTTCATGGAGGGCCTCACACTACTTGATTTCACATAGTGAGATGTTGATGTTCTTAGCTCGGTCTTGAAGTCACTTGTTATATATTGCTGCTTCCT
GTCTGTCTCTGTTGACTGATTCTGGATGAAATTTGKGGGGGGGCTGGAGACAATGCAGTAAATAGAGCTTTTATGTCTGGACTTATTTTACTTGAAGCTT
AGTACCTGGGTGGAATGTAAGGCTCTGGGTGATAGGAGGTGGGAGAGTGGGTGGAGGAGAGAAGGAACAACTTAGAGTAGAAAACAAGTAGGCTCAGATG
AGCTGAGAGTTATTTGRCAGTGAAAAGAGTATTCCTCGTAGAGAAGTTGCTSTTTGGGGACTGGGACTTGAAAACTGCTAATAGGTTTTTAAAACTTTCA
ATGTGAAATAAGCAGTCACAATATTAAGCAGTGGGGAAAGGGACTCTTAACTAGCTGAGGGAATGGATTGACACCTTTCCTTTGTTTATTTGCTAGATGC
TGCATTCCTGGCCCGAGAGAAAGCGAAAGCAGATGCTGAATATTATGCTGCACACAAATATGCCACCTCAAACAAGGTGACTGGCTCCCTGGCCACTTTC
CTAATGATGCATTTCGGGGTTTTGCTTTCTCTTTTCAGGAGCTCTGATATGATAGAAGTGATTTTATCCATTGTCAAGAAAGTGTAGTGACCAAGACATC
CTCCAGAATTAGTCAGTTAGCAAGAAATATTTCACATTGATTGGGTAGGGACACAGGCCAAATGCCGTAATTCCATTCATTTGTACTGCTATATAAGGCT
GAATAATTAATTAAGTTGAAGGTCTTCTGAAATAAGAGTGACAGAAGAGTAAAGTCTATTTAGAATTGCTTTCCAAATAAGGTAGTTTTTTTGGTAGATA
CTTAGCTTGATTAGAGCAGTATTTCTCATCAAAGGCATTCCTGGCATTTGGGGTTGAGATACTTTTTCATTGTTGAAGACCATCTCATGCATTGTAGGAT
ATTTTGTATCCCTGGCCCTTGTCTACTGAATGTCAGTAGTGGTCACCAGTTGTTTTAACTGCCACACACACATGCATGTATTTCCATATGCCCCTTGTTG
AGTACTCCTTGTTTATTGGATTTAAAAAACTATTCCAGTCATGAGGAATTTCATGTGGGATAACTTGAGAAGGCAGGTTGGGTGATATATAGGTGATAAT
TTGGTGTAAGGACTGGGGTAAGCTGGCTAGACGGTACAGGGCTAGTGAGCAGGGGCTATTTAAGAGGCAGCTAGAACTCCGATAGTATTCTGAGAAGGGA
AGGGTATGTCCAAGATTTATAAGGTTATCGTGGAGCAGATTGGAACAGATAAAGGGTTGAGAAAGAGATTACTAAAGTGGATGATGCAGTTTGAAGGATT
AGAGTCAAGTTTTAAGATATAGACAGGGCTTTTAATTTAGAAAGGAACAACATAATCCGTATTTAGAAGAAATGATAAGATGATAGAATGAGAGTTGTCA
GTACTTTGAAAACCAATATAAATTTTAAAATGAACATAACATTGAAAGACACAGTTCTATAGACACAGAATGGAATTTGGCCAAAAGAAAGGCATGACAG
GAAACTCCAGTTGAGGAAACTAGGAGTCCAAATCTAATGGGAGAAGCTCGTCAGGCACAAGTTTCAAGACCTTGCCATTGAGGTCTACCTTATTCAGAAA
GGGGCAGTAGTTTTATGCCATTTTGAAAAATGTGACTCAGATACTAACCTATATTAAAAAGGCTTGAGGAAGAAATGTGGTTGTGCACTATGACCAGATT
TGATTGGAGTGTTTCGACAGAGGATATGAATCACCTGGAGAAGATAGAGATCCAAAGAGTGAAAGATGTCAAAGTGTAGAAAATAAATGCTGTAGGACTG
TGAAGGACAAGATGGACTTTTGCCTGGGGGACAGGCCAGGACTCAAGATAAGGAGAGGATCACAGAGCAGGGTCTGAGGGGCTTTGAAAGGCATATGTTA
CAGGGAACAGTGGAAATGGGTTTTAATCAAATCCAGATAGATTCTGGTTAGATACATCTTGGCATCCTGATTTAGACAAAACAAAACAGTGTGACAGAGG
GAGATCTGGTGGTCGACGAGTTTTAATCAAACCCAGATAGGTTCTGGTTAGATACATCTTGGCATCCTGATTTAAACAAAACACTGTCACATAGATCTGG
TGGTCGACAAACATCTGTCTGTCACAAGCAGCTTAAACATCCAGCTTCTGGGGAAAGGCAGAAGGCCAGATCAGGTGACAACTTGAGATTTTATTCTAGT
TCTAGAATTTGTTCAAGAAAAGCAGAATCACAGCTAATGATAAGATAATGAGCACCAGCCCTTCCTTTGAAGTTCTGCTCTCATCCACTGACCTGTGTAT
CTCTCTCAAGAGAATCAACAGAGAACCAGGCATGATGGCTCATTCCTGTAGCCTCCCTGGAGGCTAAGATGAGAGTATCTCTTGAGCCCAGAAGTTTGAG
GCTGCAGCAGCGAGCTATAATTGAACCACTGTATTCCAGCCTGGGCAACAGAGTGAGATCTCATCTCCAGAAAAAAAAAAGGCTGGGTGCAGTGGCTCAC
ATCTTTGATTCCGACACTTTGGGAGGCCAAGGTAGGAGGATTGCTTGAGGCCAGGAGTTTGAGACCAGCCTGGCAACATAGACCCCATCTCTACAAAAAT
AAAAATAATTTTTTTAGAAAAGAGAATCAACAGAAACTCCAGACCAATTCCAGGTTGAATTCAACTAGATGAAATGAAAGTCACTTTAGAAATATTAGTT
ATTATCATTAGTTATCACAAATTGTTTTCCAACTCCCCCATCCTTTTATTAAAAAGTGAACAGCTTCTCTTGCATTAAGTCAGGAGCTTAATGAAGGAAT
TTTAAGTCAGGAACGCAGCTGTTAATGTGATAGCCACTCTCCAAAGTGAGAGAGGGTCATTGGCAGTTATTCAGACTTGACTCATGATACTCAGGAGARC
AATAGGTGAAATGTATATAGGGAGAGAGAAGACTGTTGCACCAGAGTATTCTGATGCCTTTGCTCTTGTTTGCTCCCACACAGCACAAGTTGACCCCGGA
ATATCTGGAGCTCAAAAAGTACCAGGCCRTTGCTTCTAACAGTAAGATCTATTTTGGCAGCAACATCCCTAACATGTTCGTGGACTCCTCATGTGCTTTG
AAATATTCAGATATTAGGACTGGAAGAGAAAGCTCACTCCCCTCTAAGGAGGCTCTTGAACCCTCTGGAGAGAACGTCATCCAAAACAAAGAGAGCACAG
GTTGATGCAAGAGGTGGAAATGTTCTCCATATCAAGATGTGGCCCAAGGGGTTAAGTGGGAACAATCATTATACGGACTCTTCAGATTTACAGAGAACTT
ACACTTCATCTGTTCCACCTCTCCTGCGATAGTCCTGGGTGCTCCACTGATTGGAGGATAGAGCCAGCTGTCTGACACACAAATGGTCTTTTCAGCCACA
GTCTTATCAAGTATCCTRTATGTATTCCTTTCTAAACTGCTACTCATGAATGAGGAAAGTCTGATGCTAAGATACTGCCTGCACTGGAATGTTAAACACT
AAATATATAACAAGCTGTGTTTTCCTAAGCTGAGATCTGTTGAATAATGTTTACATTCGTCCCCCGGGGAAATGTMTGCTCAGCCACCATTCAAGAGATG
ACTGAGAAGGAGATGGTAAGTTCAAGAAGACTGATTGCACCTGGGACCCAGGCCCTTTCTTTGGGATCCAGTCCCAGCCTTCATCCATGTGATTAAGATC
CAGGCCGCTGAAGTTCCCCAGGAAATGATCTTCCACTTGAGCAACCTTTTACTTGATACGATTTGCACCTTTCTGTTTTCCTGCAGTCAGGGTGGTGGCC
TGCAGGGACCTGAGCTTTGCTACCCAACCAGATTCCTCATAGAGATTCCTAATCACTAGTTTCTTGTATTCATAAACTCAGAGATACAGAGGGCTTGGTT
TGAAGTTGGGGTGAGATGAAACCTTTGCTCTGAGCCAAAGCTCTGGGGCCYTGCATTCCCTGCATTGGGTTGATGACTGTCAGCATCACTGCCGCAGGCC
ATGCTTGACTAAGGTACCTGGTTTTAGCCACAGCCACCTCCTTGTATGTTACCTTTCAGCTCTGGCCAAGAGTGGGACAGGGTTTTAACCACAAATAGGA
GCAGCATGCAATTCCTAGTGACTTGCTGCACAGTATTGTATCATAATTACAGGAAGTTTTTATTTTTAAAACTGGATCTGGGGTATATTCATTTGCCCCA
TCACCTCTGTCTAAAGGCCCAAGTCCTAGGGCTGCCATGGTCACAAGCACACTGATGCTCCTTAAGATTGTTTATCTGGAGCCCACATAGTGTGGAACAA
AAAGTCACCTAGAAAGCATCCTTGGTCATCATTGTCTCCTTCCCACCTGGCCCAGAGATGCTTAAATCCAAGTTGTTTCTCCAGCTGTCACCTCCCCCAG
GAGATCAGGATTCCACTGACGTCCTGGGCAGCCAGTGAATTTAATTTTCCATGAGAAACAACAGAGTTAACCTGTGGCATTAGGAGACCTACTTCATGTG
GACCCTTTTTTTCCTTCAGTTTAACTTTTCTGGAGCAGTGTGCTGCGTAGTTCGGCCTGAGTTTGTGCAGCTTGTTAAGACAACTCTTGTGTACRCTATG
TTGAAGCTCAACAAAAAAGTCATGGGACCACTTCTAGAAATCTTTCAGCTGTCAGGCCTGTCAGTCTCATGACAGTTTGTTGGTTGTGCCAAACACTTTA
TTTGGGAAAGGAAAGCCCAGATTTGAATGGGTCTTTCCCCTGGGCCTTATCCTATAGAGGCATTTGTAATATGGAGAAAATAATTTTTCATTTTTGCTCA
TTTAATTCTATAAATTCTCTTTATAAATGAATTTTGTGTTCTTTAGTTCTCCTTAAAAGAACTTTTGAATTATAAAAATAAAATCTTTACCTGTCGAATT
GTTGCTGCAGATGATTGTTGTGGAAAATCTGGATCATTGACCTCTGTGCTTTCATTCCTAGAGATGTTTTATAGTTACATGAGCAAAAGCTGTTGCCCCA
AAGTGATGGCCCTGGAGGCGGGGCTGAGGAACAGGGAAATGCCGCTGTGAAGTCTTAAAGCACTTCTGCTTAAACTCCATGTGTGAGGAGTGTGCCTCCC
TGTGCCCTCTCAGCTCTGAGGCTGGCCGTCTTTCGGGGTGTTCCTTTTGGCAAATATACACTGTAATCTTGAGTCTAAATTTATATGTTGAAATGCTACC
TTTTTTAAAATAAGAAACTAAATAAAATTATTTTACTATCAGTGATTTGTGTTTTTTTTTCCCACGTCTTCATTTTTCTGTCATCTTAACATGCTCCTAA
GGCTGTCTTGCACATTTCAACTAGGGAGCCAGTTTATTTGCGGGTTTAACTTAACTGTAGAGGCTTTTGTTATACTCTTGCCAGAATACTGCCTACCTGG
TATAAGAATGTTTAAAACAAGGTGTCCACTCTTTGCTGACTCCTGGAATTTAACAAGGGGTGTTCTTCTAATCCTTTGTGGGACAGGGCCTGTGGCAGAG
GGGCAAGGAGGGAGGATGGAGCATCAGGCCACTGGGATCCGTCCCTGAGAGCAAAAGTACTTCTGCACTGAGGAGGGGAGGAGACAGACCAAGCCAGAGA
AGGACAATTTGTGTAAATTATAACTGGTAATGTAATGGCACAATATAACCAACTTGACTATTAAGATGTTAGCGGCCCAAGAGCCAGAGTTGGACCTGCT
CTTCCCAAACGTTCTGTATTTCCTCCTGGGATCAATTTCCTGGTGATCTTGGGCCAGCAGGGAGTGGTAATGGGAGTTGTGGGGAAAGCAGCTCTTTCCT
CCTGTTCTTATGGGATCAACCCCATAGTATCCTAGGTCAGTTGCTGTGGACCTGAGAATAATTTGAACTGACCATCCTATAGGTTATTGGTAGGTATTAA
AATGAAGTGATTTCTGCCTCTTCTGTGGCAAAAGAATTTGTGAATTAGAAGCCGTGGCTTCTAATCGCTTTAGGATTAAGTCTCAAATGTGTACACACGA
AGTTCGTGATCTGGCCCCTGCTGTCCTCTCCAGCCACCCTTCTCTAAGGTCCCTGAATGCACCTTCTGTCTGTCCCTTCTCATACGTTGTTCCATCTGCC
TGGTTCACTTTCCTTCCCTCGTAGTGCTGACTTTCCTCAGCCAACTCCTGAGTCTTCATCACTTCTTCAGATGTAAAAGCTTCAGTTCACTTTGAACTGC
TTGGCCTGGGTTAGCATCCTGTATTTCCCCCCCGTCACACATCATGCACACTTCATGTCTCATTATGTGCTCAATGTCTGTTTTCACAAATGCTAATCTC
TCTGAGGGCGGGGGCGGGGGCTGTGGCTGTGCTGTTCCCTGGGGATTGTTTCTGTTGCTAATGCCTAAGATGGCATCTGGCCCATATGAGATGGCTTTGT
TGCATGAAAGAACAAAAAGTTGAATATGACATGCAGGTAAATCAGGCAAGTGAGTCATGGAAAAAACTTAGAAGTGAGCCTACAGTGTCCATGTCAGGAC
TTTATGTGTAACCATGGGAAGTTACCTAACATCTCTGAACCTGATTACTCATCCTTGCAGGGTGACTCTTCAGTGGATTCAGGAGGATATGTTGTTGCAT
CTAGTGTAGAGATTCGCACGTGGTAATTGCTGGGATGCATTAGTTCACCTTGTCTACAGGAGTCAGTTGTCTACAGGAGTCAATATATGTGTCTGTCTCT
GAGTAGCTATAAGTTCCCATAGTGGAGAGAGTGAGCACAGTGCCTGCTACCTGCAATTGCATAATAGAACACGTAGATTAATGTCTTCACCAGCTATGAG
CTAAGCTAGCTGGATGTTAAACCCCAACCACAGCCCTCCAGGAGCATCCCAACAAGCTGGGCCAGCTTCTCATCTTTCTCCTGGTCTCTGCCCTGGTATG
AGCACTTAAAATGAATTTACTGGGCCGGGTGCAGTGGTTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGTCAGATCATGAGGTCAGGAGCTC
AAGACCAGCCTGATCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACGTGCCTATAATCCCCAGCTACTCAGGA
GGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGTAGTGAGCTGAGATCGAGCCACTGCACTCCAGGCTGGGCGACAGAGCAAGACTCTGT
CTCAAAACAAACAAACAAAAAAAAACAAAAAATTTACTGTTAATTCATTGCTCACTCCTAGTGTCTATTTTGACATAGACTGTAATGCAGAATGACGTTT
TACTTGTTTCCCTTACCATATTTCTTCTGAATTAGTACCTGTCTTTCCAATTTTTCTTATTTCTTTCAATCAATTTTTCTACTTTTTTTTTTTTTAATTT
TAAAAAATGTCTTCTTCCAGTGGGGCTCGGTGGCTCACACCTGTAATCCCAGCATTTTGGAAGGCTAAGGCGGGCAGATCAACTGAGGTCAGGAGTTTGA
GACCAGCCTGGCTAACATGGTGAAACTCTGTTTCTACTAAAAATACACACAAAAAATAGTCTCCTTTCTTTCTTCCTATAAATATTTATTGAGTATCTAC
TGTAGGCTAGTTGCTGAGGCAACAAAAAGCCATATAGCCTTGTGTGTGTGTGTAGGATGGGGCAATACAGCAAGTAAGTAGGCAAGTGTGATAGTGTGGT
AAGTAAGCAGGGTGTTCACTGGGTGCTGTGGGGCACCAGTAAAGATCAGCCCAGCCTTTTGGTTTCTAGGAAGCAATGTCTGATCTGAGCCAAATTTTTA
AGGATGGACAGGAGGCAGACAGCCAGCTGAAGAGAGCAGTGGTGATGGTGGAGTGTGTTCCAGGCAGTGGGAGAAGCACTTGCTATTGCATTTCAAAATG
CAGTGCCAGGAGGCATGAGAGGCTGTCCACTGCAAACCTTATGAGGCTCTACTATTACTTCATTTCATAGCTGAGATCTAGAGAGATTACATTACTCAAG
ATCCCATGAATATGAGTGGCAAAGTAAGGATTTGAACCTGTCATATTCCAGATCCAAGTTTACCACAGCCCTTTATATTTGCCTTTGAAGCCATTAGGTT
TAGGGTGATGAAAGCTCTAAATTGAGGGGAGATTTTAGAGGATGTTTATAGAGATTTGTAAGCCCTGCAGTCGAGGTCAGGAAAAGGGATAATGAGATGG
TTCATGTGTGAAGTGGTGACTTATGGGTGACTTCTCTGCCCTCTGCAGGACTTGGCAGAGGTGCTCTTAGTAAGCTGAGCGGTATGACAGCTGATTCCAG
AAAGATCAGCCCTTTGGAGCCTGGGGGAGCAGCTCCCCTTATTTGGGTTACAAAGCAAGTGGAGGTGAACAGTGCAGGGCTGATGGCACAACACCCAGAT
CCTGTTTGCAGATGTTAATCACTCATTCTCCTGGTTGCTGGGAGTGTTCATGGTGACAGCTTTTAGCAGAGTCGCTCTGCAGAAATTTTCCTCGGCTAAA
GACCCCTGCCCCGGGCCAAGATCACATCCCCTTCCTGGGGACAGCACATTCCATAAGTGGTTGATGCAGGGGTAGAAAGGCAATTTGTTCAAAACAAAAT
TGCATTGGTTTTCTCCATATGCAAGTCTGTCAGGGTGTGCATCCTAATAGGCACAATAACTGTAACTGGATTTCAGACACCTAAGGCAGGTTCTGACAAA
CTGGGTGTGTCTGATGCCTCTGGCGCCCTATCGCAATTCCACTCCACCCCACCTCTAACTCCAGCTGTGGCCATGGTAGACAGTTCCATGAGGCATCAAT
TCACTTTCCTCTGACTGCATCTCACCTCACACATGAGCTGCACTTACTGCTTTTCACCCTAGGGATCCTCCAACGCTATGGAGGCTGCAGTCAGTCCAAA
CATATGCTCAACTCGAGCACAAGAATTAATAGCCTCTGGGACAACCCCCAACTGGTAGGAGACAGGACCACAAATGGTTAGAGAGGAGGTGACCCAAAAA
AACCTTTTCAATGGAGACAGCAACCCTCCTGACACAAGAGAAACTGTGAAAATCACATTAAATACAATTCGACAGATGTTTGTTGAGTACCTGATATGTG
CCAGGAAACCTAAAATGTATAAAGTAATGGGCCAGTAATGAACAACAGTGAGTCAGACAGACATAGTCTCTGCTCTCTTAGAATCAACAGTCTTGGGCTG
GGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTCGGAGGCAGAGGCAGGCGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAAA
CCCCATCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGCATGTGCCTGTAGTCCCAGCTACTTGGTAGGCTGAGGCAGGAGAATCACTTGAAGCC
AGGAGGCAGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGGGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAGAACAGTCTGGTGG
GAAAGTAGACCGTAACCAAAGCACTTGAGAGACTTATCAAAGTGGGAGGAATGCAGTGCTAGGAGGGTCTCAAAAAAGAGGGAGAAGATAAAGAATGAAA
AAGAGCATCCGCCAGTTAAAGATCGGGGAATAACAACTCAATAAAAAGACAACCCAATTTTAAAATGGGCAAAGGATCTCAACAGACATTTCTTCAGACA
AGGTATACAAATGGCCAATAAAAACATGAAAAAGGGCCGGGCGCAGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCTGGCGGATCACGA
GGTCAGAAGATCGAGGCCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCCGGCGTGGTGGCGGGCACCTGTAGTCCC
AGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACCGCACTCCAGCCTGGGCGACAGA
GCAAGACTCCGTCTCAAAAAAAAAAAAAAAAATGAGAAAGATGGTCGACATCTTTAGTCATTAGAGGAATGCAACAAGATAGCCACTTCACACCCACTAG
GATGGCTATAATAAGAAAGGCAGTAACTAGTGTGGGCAAGGAAGTGAAGCAATTGGAATCTGCATAATTTGCTGGTAGGAATGTAAAATGAGGGCACTGC
CTTAGAAAACATTTTACAGTTTCTCAAAATGTTAAACAGAGTTAACATACGATCCAGCAATCTCACTTCTGGGTATCTACCCAAAAGAATGGGAACATGT
CCACACGAAGACTTGCGCTCTATAGCAGCATTATGCATAGTAGCCAGAAGGTGGACACAACCCCAGAGTGTCCATCACCTGATGAATGGATAAATCAGAT
GTGGTCTATCCATGCAATGGAATATTCTATAAAAAAGGAATGAAGTACTGATGCATGCTACAACACGAATAAGCCTTGAAAACATTAGGCTAAGAGGAAG
AAGCCAGGTTCTAGTTACATTAAATGTTCATCATAGACACATCCCTATGGACGAAAAGACTGGTGGTTGCCTGAGGCTGGGAGGAGAGGGAATTGAGTAG
CTGCTAATGGGCACGGCGTTTCTTCTTGGGGTAATGAAGAGATTTTAAAATTTGATTTTGGTGGTAGTTGCATAATTCTGCATATACTAAAAACTATTGA
GGCTGGGCACGGTGGCTCACGCCTGTTATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCATTTGAGGTCAGGAGTTTGAGACTAGCCCAGCCAACAT
GGTGAAATCCTGTCTCTACTAAAAATACAAAAAAAAGTAGCTGGGCCTGGTGGCCTCCGCCTGTAATCCCAGCTACTGGAGGAGGCTGAGGCAGGAGAAT
CACTTGAACCCAGGAGACGGAGGTTGCAGTGAGCCAAGATCGCACGTGCCACTGCACTCCAGCCTGGGTGAGAGAGCAAGACTCCATCTCAAAAAATAAA
AATTTAAAAAATAAAAAATAAAAACTACTGAACTGTATACTTTAAATTATAAATTACATGGCATATGAATTATATCTCAAGCTGTTTTTTTTTAAAGGAT
TGAGTAATAGTGTGAAGACCTCAGTTCAAGAACCTTCCAGAAATGGTAAAAAAATATTCAATATAGGTGCAACATTATTAGTGAGAATGAGAGCACCAAA
ACAGGAGGCTGAAGAGGTGGGTGTGAGAAGAGGGGAAGGGC


SNP Information

Context             (SEQ ID NO:60515):
GTGGAATTTTCCACTTGTGTCATAATGTGGGCTCTCAAAAAGTTTCAGATTTTGGAGCATTTTGGATTTCAAATTTTCAGATCAGAAATGCTCAACCTGT
R
TTAGACACTGGAAGCCTTAGAAAATTCTCCTTACTGTAAGCCCCAGTTTACTACCTAATAACTACCACCTAGTTATATCTTCTGTGCAACAAATATGGTC
Celera SNP ID:            hCV323660
SNP Position Genomic:     27374
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60516):
AGATGGAGCTCTACATAAGAAATTACAGATTAGTCCAGATTTCCTTCCAGTTTAAAAGCATTGTCTTTCTGACAGTAAAACCAGAGAAAGGACATTTCAA
R
GAATGACTCAAAGAATTAGTAATGAACCTCAAACAGTTCATCTTTCCTTGTTATTATGACCTTGCAAATGTGTTTATATTTTCAAGACCGGTAGCTAAGT
Celera SNP ID:            hCV27936067
SNP Position Genomic:     7406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60517):
GTAAGGCTCTGGGTGATAGGAGGTGGGAGAGTGGGTGGAGGAGAGAAGGAACAACTTAGAGTAGAAAACAAGTAGGCTCAGATGAGCTGAGAGTTATTTG
R
CAGTGAAAAGAGTATTCCTCGTAGAGAAGTTGCTGTTTGGGGACTGGGACTTGAAAACTGCTAATAGGTTTTTAAAACTTTCAATGTGAAATAAGCAGTC
Celera SNP ID:            hCV25593867
SNP Position Genomic:     36917
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,34)   total(A,65|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60518):
TCTAACAGCAAAGGAAGTATTGATATATTCCCTTCCAAATCACAGGCTTTACACAATACAACTAGGAGAAGAAAGCCAAACTAAAATTCAAATGTACTAA
R
TTTTTTTCCTATCTCTGGGTGACTTTGGGCAAATCATTGAATCTTTCAACCTCAGATTTATTATAAGTAAAATAAAGTAACACCTCTCTTAACCTACCTT
Celera SNP ID:            hCV25593869
SNP Position Genomic:     27719
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60519):
AATCACTAGTTTCTTGTATTCATAAACTCAGAGATACAGAGGGCTTGGTTTGAAGTTGGGGTGAGATGAAACCTTTGCTCTGAGCCAAAGCTCTGGGGCC
Y
TGCATTCCCTGCATTGGGTTGATGACTGTCAGCATCACTGCCGCAGGCCATGCTTGACTAAGGTACCTGGTTTTAGCCACAGCCACCTCCTTGTATGTTA
Celera SNP ID:            hCV910422
SNP Position Genomic:     40651
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   WICGR7_african_american_pooled(T,40|C,60)   WICGR8_asian_pooled(C,36|T,47)   WICGR6_caucasian_pooled(C,1|T,94)   total(C,97|T,181)   POOLE|_CEPH(T,29|C,159)   total(C,159|T,29)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60520):
GCCTTGTGGAACAAGGTAAGCTTTCTCTTTGCCTACGAGCCTCCCTTTAGCTCAGACAGAGTTTCTGTTCCTACAGCTATGATCACTTAGACATATCTCA
R
ATAGGCATGATAGTTAACCCAAGGGGACTTCTGATCTGAGCATTGTTTGAGCAAAGGCCTATCTCCAAATAGGAGCTTTTCCATCTTAAGAACCATTATT
Celera SNP ID:            hCV25593887
SNP Position Genomic:     12920
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,40)   total(A,73|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:60521):
TGTCTTTCTGACAGTAAAACCAGAGAAAGGACATTTCAAGGAATGACTCAAAGAATTAGTAATGAACCTCAAACAGTTCATCTTTCCTTGTTATTATGAC
Y
TTGCAAATGTGTTTATATTTTCAAGACCGGTAGCTAAGTTCTATGAATTTACAAGGTGCAAAATAGGACTTTGTTTTCTTTGCTCCCCAAATGCCTCCTT
Celera SNP ID:            hCV28001181
SNP Position Genomic:     7467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60522):
AAGACTGTTGCACCAGAGTATTCTGATGCCTTTGCTCTTGTTTGCTCCCACACAGCACAAGTTGACCCCGGAATATCTGGAGCTCAAAAAGTACCAGGCC
R
TTGCTTCTAACAGTAAGATCTATTTTGGCAGCAACATCCCTAACATGTTCGTGGACTCCTCATGTGCTTTGAAATATTCAGATATTAGGACTGGAAGAGA
Celera SNP ID:            hCV22273300
SNP Position Genomic:     39729
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,21|G,19)   total(A,53|G,23)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60523):
CCTCTCCTGCGATAGTCCTGGGTGCTCCACTGATTGGAGGATAGAGCCAGCTGTCTGACACACAAATGGTCTTTTCAGCCACAGTCTTATCAAGTATCCT
R
TATGTATTCCTTTCTAAACTGCTACTCATGAATGAGGAAAGTCTGATGCTAAGATACTGCCTGCACTGGAATGTTAAACACTAAATATATAACAAGCTGT
Celera SNP ID:            hCV27503427
SNP Position Genomic:     40118
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,57|A,1424)   total(G,57|A,1424) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:60524):
AAGGACTGACTTCTACCATCTATATCGTGGTATATAGCAAATTTTCTGTTGCTGCTGTCACAATAAAAGTAAGAATTAGAAACACAACTAGACATACAAA
C
CAGTGATTATGTGGTTTAGAACAGTGTTTAGTTTCCATAGAGGCAGGCTCCTGGGCTACTGTTAACATGGAGGATCAAAATTTTTATACACAGCCTTTCT
Celera SNP ID:            hCV27434018
SNP Position Genomic:     8601
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60525):
AACCCAAAATCCCAGAAGCCATAAGAAGAAATTTTGAGTTAATGTGAGTAATATGCATGGGATCCCAATATTTCTGTTTAGGGCTGTCTGCATATTAATA
Y
TCCAGTCTAGAGGAAACATGTGAGACAATACACTCTGGGGTGGAGTATGTGTCTTATCTTCTTTACTCTTACTCTAGTAATATTGCCTATTCTTGTGTCT
Celera SNP ID:            hCV22272232
SNP Position Genomic:     24745
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,26)   caucasian(C,2|T,38)   total(C,14|T,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:60526):
CTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACTCAGGAGGC
R
AAGCTTGCAGTGAGTCGAGATAGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAGATTGCTTCTGGTG
Celera SNP ID:            hCV27434019
SNP Position Genomic:     26563
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60527):
TTTCATTAGTTATTGAGTCCTTGGTCTTTTCTCATCAAATCGAATTTTCTCCTGTGTTTTTCATCTTGTCAGTTAATGGTAACTCTTTCCCCTCAAGCCA
R
TCTAGAAGTGTAGGAGGCATCTTTGACAATCGCCTCACCCTCAGCATCTAATCAGTCCCTATGTCCTGCAGATTCCACCACCAAAATCCATGTATTAATA
Celera SNP ID:            hCV29348500
SNP Position Genomic:     21292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60528):
CATGTGGACCCTTTTTTTCCTTCAGTTTAACTTTTCTGGAGCAGTGTGCTGCGTAGTTCGGCCTGAGTTTGTGCAGCTTGTTAAGACAACTCTTGTGTAC
R
CTATGTTGAAGCTCAACAAAAAAGTCATGGGACCACTTCTAGAAATCTTTCAGCTGTCAGGCCTGTCAGTCTCATGACAGTTTGTTGGTTGTGCCAAACA
Celera SNP ID:            hCV29348501
SNP Position Genomic:     41295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60529):
ACAGGGAGAATGGATAGGGTTTATAGGCAGCTTGAGTCTGTGGATAGCATTTTCATTTGTACAGATTAAGAATAGGGAAGTTTTTTGACCAAAGTTTCAG
R
TTGTAGTATGCATCCTTGTTGTTGACATGCACTTAGTTTTACCTGGATAGGTAGTGCCGTTTATGAAAGCATGGCAGGATTGTTTACAGTTCATTTCAGA
Celera SNP ID:            hCV1858731
SNP Position Genomic:     28371
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,7)   total(G,7|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60530):
TTACAGTTCATTTCAGATTACAGTGGCTTCCCTTATACTCCAGGTCACTGTGTATTAGATTGCCCTCTTTGGCCCTCGGTTGATGCTGAAAGTTTAATAC
R
TCTTTAATTAAATAATTCAATTATAGAGGAATGTACAGAGAACAATATAATGAAAGCTTAAGATTTTGCCTTATTCCCTTCAGATCTTTTTTTTTTTTTT
Celera SNP ID:            hCV1858732
SNP Position Genomic:     28555
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60531):
TTTTTAATTTCTTTTTTCTAGTACTGTAATTTGTTTTTGTTATAGTTTACAATTTATTGGTTCCTCATAAATTGAAATACACACACAAAAAGGTAAGGTA
Y
TTTTCCACAGGTGGTTTGAGAAGCACTGCTCTAGAATAGCTATCTCAAAGTAGAATTGATGGGTCATAGGGTAGCATGTCTTCACATTCAACATATTGAC
Celera SNP ID:            hCV1858733
SNP Position Genomic:     29437
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60532):
TTTTCTAGTACTGTAATTTGTTTTTGTTATAGTTTACAATTTATTGGTTCCTCATAAATTGAAATACACACACAAAAAGGTAAGGTATTTTTCCACAGGT
R
GTTTGAGAAGCACTGCTCTAGAATAGCTATCTCAAAGTAGAATTGATGGGTCATAGGGTAGCATGTCTTCACATTCAACATATTGACAAATTGCTCTCTC
Celera SNP ID:            hCV1858734
SNP Position Genomic:     29450
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60533):
GTGTTATTTAATCTTGTAATCTTATGTCTAGGCTTCCTGCTAAGTGAGAGTTTAATTATAAATTCTTAAATCCCCTAGGTTTTCTTCCTGTCCCCTTTTA
S
ATGGCTTAGGGAAAGAATTGTGTCTACTGAAGTGAAATGTATTCTTCCCCTAATCAGACTGATTTCCATATGTTGTTCCATATTTATTTTACCCATTCTT
Celera SNP ID:            hCV1858719
SNP Position Genomic:     9083
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60534):
AGGAAGCTCACCGAGCAGGGGCGGCCCACTGGCCTCCGGGGGCGGAGGAGTTGGCAAGGGGTCAGCGGGCTCAGCCAGAAGGGAAGAATGAGGGGACAGG
K
GTACTGGACTCCCCGGCTCAGCCTGCGAGAGAGCGCCAAGTTTCCGGAGGGAGAGGGTAGAAACTGGAGGGGGTGGACCTGTCACTCACGGGACTGAGGG
Celera SNP ID:            hCV16180967
SNP Position Genomic:     6277
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,21|G,1472)   total(G,1472|T,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60535):
TTCAATTTCTAGCCCCATTGAACATAGTAGTTTAGTTTTTGGATGGTGTAATATAGATTGATTTTACATTGGTGGAGAAAGAGGGAATTATCTCCTGGAG
Y
AGTTCGTAAAGCATACTGTTTTATGGAAAGAAAAAAATCACTTGGAAGTTTTCTTTCCATTATGTACTTTTTCTAGGGGTCAGAGATAAGATGTCCTAAA
Celera SNP ID:            hCV1858736
SNP Position Genomic:     34427
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60536):
CCTATCTCCAAATAGGAGCTTTTCCATCTTAAGAACCATTATTGTTCTTATGGTATTATTGGAAAAAACTGGAGTTTTAGAGCAAGTAGACCTAACTGTG
Y
ATTAGCACTGCTGCATCTGCTTTATTGACTATTTTTTAAAGACTTTATTTTTTACAGCAGTTTTAGGTTCATAGTGAAATTGACCAAAAAGTACAGACAG
Celera SNP ID:            hCV27957932
SNP Position Genomic:     13078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60537):
TCCAGCTTTTGGGTTTGTTTGTGACTGTGGGTAGCTCAGCTTTCCTTTTCTTCCTTAAATTGGGGCTTATTAGCTACCACTTTATTTTCAGGCAGACAAG
R
TATGAAAATTACCCATAATCAATAGTAAAGAATATACAAGATAATAAACCCCATCTCTGGCCGGGCGCCGTGGCTCACGCCTGTAATCCCAGCACTTTGG
Celera SNP ID:            hCV1858737
SNP Position Genomic:     36164
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60538):
TTGGGTCACTGTGTTTTCCAGATTGTGGGTTGTAAAATCAACTTTAGTGAGTCATGAACAGCATTTTAAATAAAATGGAATAGAATAGGAAAAGAAATGG
Y
ATGTAATAAGTTTAAATATTCTGTGACACTTGTGTTTCACAGTGTGGCGGGGTAGGTGTTTATATTGGACGTCAGTGCAAAATGTGTTTCTTACTGTGTC
Celera SNP ID:            hCV8734139
SNP Position Genomic:     18581
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;(T,-|C,-)   Asian (pooled) - WICGR(C,3|T,81)   Caucasian (pooled) - WICGR(C,3|T,93)   total(C,6|T,174)
SNP Type:                 INTRON


Context             (SEQ ID NO:60539):
GAGATGGAGTCTTGTTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCAGTGCAACCTCTGCCTTTTGGGTTCATGCAATTCTCCTGCCTCA
S
CCTCCCTAGTAGCTGGGACTACAGGTGTATGCCTCCACACCAGGCTAATTTTTGTATTTTTAGTAGAGACAGTGTTTCACCATGTTGGCCAGGCTGGTCT
Celera SNP ID:            hCV27104637
SNP Position Genomic:     15014
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60540):
CTAGACTCTTACTAGTGTTCTCTTTATGTATGGACATTTCAGGAGCAGTTTCAGTGGCTAAAGATGCAGTTTGCTGTAAAACTATTGCTGGAAGCTTAAG
S
AGCTATAATTTTATATGAATAGTACCTTGAATTAAATATTTAATAGAGGAAAGAGTCCTGAAGCCGTTAGGGTTGAAGAGAGTGCTCATATTTTGTTTCT
Celera SNP ID:            hCV25593876
SNP Position Genomic:     24955
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,39)   total(C,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:60541):
TGTTTTATTCAGCAATTATTTGAGATGCTATGGTGATTTATAGAATACCTTTCTCAATTTGACTTTAGATCTCTGCCAAAATAAAATACTCTTGTAGCTT
R
CTATGGGTGACATTTGTGAACTCCTAGAGGGAACTGATAAGCTGAGGCTCTTACAAGGAAGTAAAATTCATATTTCTGCCATGTATGAAGCATTAAGATA
Celera SNP ID:            hCV25593877
SNP Position Genomic:     17999
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,29|G,1)   total(A,60|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:60542):
CTGTATTAGACACTGGAAGCCTTAGAAAATTCTCCTTACTGTAAGCCCCAGTTTACTACCTAATAACTACCACCTAGTTATATCTTCTGTGCAACAAATA
Y
GGTCACTGCACATGGGTGCCCACCTGAGGAGGGCAGGGGCTGAAACCCAGCTTCATTCTGCATGTCAAACCATGCACCTGCAGGACTGTAGAAACGGCTG
Celera SNP ID:            hCV323659
SNP Position Genomic:     27470
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60543):
AGACATTGACATCTATAGAGGGACAGAAATGCTATGAAAAAGGAAGCGAACTCTTTCTGTGTTTTAAGTGAATATTAGTATGTTTCATTATCAGCTTCTC
Y
CCAGGTCTATCTATAACTGTGTTTTATGGATTGCCTTTAGTAGTTCACACTTTTTTTCTTTGTTTTTAGTGGTGGGGTCATGATCTATATTGACCGAATA
Celera SNP ID:            hCV25593878
SNP Position Genomic:     13771
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,38|T,2)   total(C,68|T,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,134|C,1357)   total(C,1357|T,134) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60544):
CCCAAATTATTTCTAGGGTATAATCACTGCATTGAATTGTATCAAAAGAAGAATGTGAAGTTCAAGGTATTTTTTAAATTACTTATTTTAAATGACTATT
W
CAAGTGTAAAAAAGACATTGACATCTATAGAGGGACAGAAATGCTATGAAAAAGGAAGCGAACTCTTTCTGTGTTTTAAGTGAATATTAGTATGTTTCAT
Celera SNP ID:            hCV25593879
SNP Position Genomic:     13658
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,3)   caucasian(A,38)   total(A,73|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:60545):
TGAGGCAGGAGAATGGCGTGAACTCAGGAGGCGAAGCTTGCAGTGAGTCGAGATAGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTC
A
AAAAAAAAAAAAAAAAAAGATTGCTTCTGGTGACGGAAAAATGAATATTGTGTGTTTTCTGCTCTCAAATAAATCATAGTATTCAGACTGTCATTTGATG
Celera SNP ID:            hCV27434020
SNP Position Genomic:     26631
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60546):
GGAAACATGGAAGATTATAAATTTTCTTCTAAGGATTGCTTTAGCTATGTTTCACAGGTTTTGAAATGTACTTTGTATATTGGTGTTCAGTTTTAATTCT
W
AACCTTTTCCTTCTAATTTCTTCTTTGGCTCATGAATTATTAAAAGTATATGCTTCAATTTCTGGTTTAGTGGGTTTTGAGGGGCTACCTTTTTATTGTT
Celera SNP ID:            hCV27434021
SNP Position Genomic:     32330
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,5)   total(A,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60547):
ATCCATTATTTCCTTTAAGATTACTTCCAGAAGGTCTTCCTTGGTTTAACTTATGTCACTCATTCTTTCTTTCTCCTGCCACATTAATTGTCCTGTGTTG
C
CATGCATTTATGTTGCTCTGTTTTTGTTCTGTGGTACTTTCATAAAGTATCTTTTTTTCCCATTAGCTTGTGGACCGTTGCTACAGAGTTGCATGAAGGA
Celera SNP ID:            hCV27434022
SNP Position Genomic:     35451
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,7)   total(C,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60548):
CCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACC
Y
GGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAATAAAAAAAAAATTAAAAAT
Celera SNP ID:            hCV27434023
SNP Position Genomic:     36428
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60549):
CGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAATAAAAAAAAAATTAAAAA
W
AAATAAACCCCATCACGACCAGTTTCTTTTCCACCTGTCCAAAAAAAAAACAAAATTAATTGGGGGGAAAAACAGTTTTCATGGAGGGCCTCACACTACT
Celera SNP ID:            hCV27434024
SNP Position Genomic:     36528
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60550):
TGCCTGCACTGGAATGTTAAACACTAAATATATAACAAGCTGTGTTTTCCTAAGCTGAGATCTGTTGAATAATGTTTACATTCGTCCCCCGGGGAAATGT
M
TGCTCAGCCACCATTCAAGAGATGACTGAGAAGGAGATGGTAAGTTCAAGAAGACTGATTGCACCTGGGACCCAGGCCCTTTCTTTGGGATCCAGTCCCA
Celera SNP ID:            hCV27883379
SNP Position Genomic:     40276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60551):
ATCAGACTGATTTCCATATGTTGTTCCATATTTATTTTACCCATTCTTTCCTTAGTTCATGCCATCACTTCTTTATCTGCCATCTCACTCTCCATTCCTT
Y
TCTCCTGTCTAAATCTTGCCAGGCTTTTAAAGGCTCATCCCAGATTCTTCCTCTTCTGATCTATAGCTCTTAAAGTCTATATTGTAAATTTTGGCCCTTT
Celera SNP ID:            hCV1858720
SNP Position Genomic:     9236
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60552):
CTAGAGAGATCCCAAACTCCCCAGCCAGCATTCAGGGCCCTCTGTCTAGTATTACCATGGTCTCTTGTCAGAATTTCATCTTTCATCCAAATTGTCCCTT
S
TGCTCCAGGCAAGCCTATCTACTTTCGTTCGCCTATACACATGTTGTCTTCAACTGTGTGTATTTCAGTAGGATATTTATTGAGCTTAAGATGTTCCTCT
Celera SNP ID:            hCV1858721
SNP Position Genomic:     11394
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60553):
CAAGTAGACCTAACTGTGTATTAGCACTGCTGCATCTGCTTTATTGACTATTTTTTAAAGACTTTATTTTTTACAGCAGTTTTAGGTTCATAGTGAAATT
S
ACCAAAAAGTACAGACAGTTTTTATATACCTCTTTCCCCAACACATTCCTTTATTGACACTTTAAAGCTTAGTTTCCTCCTTTATAAAGGCAGTAAAATC
Celera SNP ID:            hCV1858722
SNP Position Genomic:     13160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,3)      total(G,3|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60554):
CACTGGAAGCCTTAGAAAATTCTCCTTACTGTAAGCCCCAGTTTACTACCTAATAACTACCACCTAGTTATATCTTCTGTGCAACAAATATGGTCACTGC
R
CATGGGTGCCCACCTGAGGAGGGCAGGGGCTGAAACCCAGCTTCATTCTGCATGTCAAACCATGCACCTGCAGGACTGTAGAAACGGCTGGTGCCGTTTT
Celera SNP ID:            hCV8734140
SNP Position Genomic:     27480
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   African American (pooled) - WICGR(A,100)   Asian (pooled) - WICGR(G,1|A,83)   Caucasian (pooled) - WICGR(A,96)   total(G,1|A,279)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60555):
AGTAGACCTAACTGTGTATTAGCACTGCTGCATCTGCTTTATTGACTATTTTTTAAAGACTTTATTTTTTACAGCAGTTTTAGGTTCATAGTGAAATTGA
S
CAAAAAGTACAGACAGTTTTTATATACCTCTTTCCCCAACACATTCCTTTATTGACACTTTAAAGCTTAGTTTCCTCCTTTATAAAGGCAGTAAAATCTA
Celera SNP ID:            hCV1858723
SNP Position Genomic:     13162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,3)      total(G,3|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60556):
CTTTCTGTGTTTTAAGTGAATATTAGTATGTTTCATTATCAGCTTCTCCCCAGGTCTATCTATAACTGTGTTTTATGGATTGCCTTTAGTAGTTCACACT
Y
TTTTTCTTTGTTTTTAGTGGTGGGGTCATGATCTATATTGACCGAATAGAAGTGGTTAATATGTTGGCTCCTTATGCAGGTATGTTACCCATCTACCTGT
Celera SNP ID:            hCV1858724
SNP Position Genomic:     13823
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,30)   caucasian(C,1|T,39)   total(C,9|T,69)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60557):
ACATAGTGAGATGTTGATGTTCTTAGCTCGGTCTTGAAGTCACTTGTTATATATTGCTGCTTCCTGTCTGTCTCTGTTGACTGATTCTGGATGAAATTTG
K
GGGGGGGCTGGAGACAATGCAGTAAATAGAGCTTTTATGTCTGGACTTATTTTACTTGAAGCTTAGTACCTGGGTGGAATGTAAGGCTCTGGGTGATAGG
Celera SNP ID:            hCV1858740
SNP Position Genomic:     36736
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60558):
AAGTCTAATAAGTTACCCAGTAAAAAAGCTTATCCATAGTTAAGTAATACATTTAGTGGGTAAACTTATTGGATAAACAGACTATCTGCTTGTCATCTTC
R
TTCCTTAATTTCTTTATTAGATAATTCCTTGCAATTTTTTTCCCACACAAAAGGGAAGAAAAGGCAGTTTAAGCTCTGTAAAAGAATAGTACTGTGGAAA
Celera SNP ID:            hCV1858725
SNP Position Genomic:     17557
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60559):
TTGGGAGGCTGAGGTGGGAGGATGACTTGAACACAGCAGGTTGAGGCTGCAGTGAACTGTGTTCATGCTGTACTCTTGTCTGGGCAACAGAGCAAAACCC
W
GTCTATAAATAAATAAATAAATAGCATTTGTATATAGAGAACTTGTTTTTGAACCTTACCCTTTGAGAGGGGTAGAATTCGTTTTTAAAAATAAACTTTT
Celera SNP ID:            hCV1858726
SNP Position Genomic:     20603
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60560):
ATTTTAAGTCAGGAACGCAGCTGTTAATGTGATAGCCACTCTCCAAAGTGAGAGAGGGTCATTGGCAGTTATTCAGACTTGACTCATGATACTCAGGAGA
R
CAATAGGTGAAATGTATATAGGGAGAGAGAAGACTGTTGCACCAGAGTATTCTGATGCCTTTGCTCTTGTTTGCTCCCACACAGCACAAGTTGACCCCGG
Celera SNP ID:            hCV8734143
SNP Position Genomic:     39599
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,15)      total(G,15|A,3) ;(G,-|A,-)   (G,-|A,-)   Asian (pooled) - WICGR(T,8|C,76)   Caucasian (pooled) - WICGR(C,39|T,57)   total(C,115|T,65)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60561):
TCTTCAAATTTTTTCTTTGTCATTTAACTTTGTTTTTTCCTTGCTGATAACTTTGAAGTGTTCATGTTTTACATAGTAATTTCAGTGATTTTGTCTTTAT
R
GTGTGTTGCTGAGCTGGCATGTTTTAAGAGCTTTTCACCACCTTAAAAGTATAGCAATTAAAATTAGAAATTATAAAAATTGTATCTGCTTTTACAGTTG
Celera SNP ID:            hCV1858727
SNP Position Genomic:     20852
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60562):
TAATGGTAACTTAACAGTAGATCCTGAGTATAGTAAAACTAAGCTCCTTAGCCTGTCACTCAAGACAGAGGTCTCCTAGCCCTCTTTCTCTTCTTATTTT
W
TGTTGTCTTCGCTTGTTGGCTGGTTCCATATCACCTCTCCATTGTGACTTGTTCATTTGTGCCTTCTTGTCTTTCTTTTTTTTGTTTTTGTTTTTGTTTT
Celera SNP ID:            hCV11197227
SNP Position Genomic:     34920
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60563):
CTCAAGCCAATCTAGAAGTGTAGGAGGCATCTTTGACAATCGCCTCACCCTCAGCATCTAATCAGTCCCTATGTCCTGCAGATTCCACCACCAAAATCCA
Y
GTATTAATAAAACTGACCACACCTCCATCTTCACTGTCATCTCAAGCCAAGCTACCAACTCTAACCTTGACATGTGCAGTAGCAGTAGCCGCCTGTCTTC
Celera SNP ID:            hCV1858728
SNP Position Genomic:     21383
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60564):
TGGAGGAGAGAAGGAACAACTTAGAGTAGAAAACAAGTAGGCTCAGATGAGCTGAGAGTTATTTGACAGTGAAAAGAGTATTCCTCGTAGAGAAGTTGCT
S
TTTGGGGACTGGGACTTGAAAACTGCTAATAGGTTTTTAAAACTTTCAATGTGAAATAAGCAGTCACAATATTAAGCAGTGGGGAAAGGGACTCTTAACT
Celera SNP ID:            hCV25593860
SNP Position Genomic:     36952
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,36)   total(C,1|G,71)
SNP Type:                 INTRON


Gene Number:                 328
Celera Gene:                 hCG19414 - 79000075877732
Gene Symbol:                 FLJ10998
Protein Name:                hypothetical protein FLJ10998
Celera Genomic Axis:         GA_x54KRFTF114(32085126..32132748)
Chromosome:                  Chr10
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12488):
AATCAGTCTTACCCCTTCTTCCAACCCTTTTCCTTTTCCGTGCATGTATTGATCTATTTTTTTTTTTTTTTTGAGATGAAGTCTTGCTCTGTCGCCTGGG
CTGGAGTGCAGTGGTGCGATCTTAGCTCACTGCAACCTCTGTTTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGTTGAGATTTACAGGT
GCCCACCACCATGCCAGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCCCAAATGATCCAC
CCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCCAGCCATGTTGATCTATTTTTAAAAAGTTTTTATTTCCTGTTACACTGTG
TTCAGCTATCTTCAGCCACCTTAAATTCCCATGGATGAGTTTTCATAAACTTTTTGAAAATAGATTTAGATTTACGGGAAAGTTGCAAAGATAATACAGA
ATTTAATGGATGAGTTTTTTTATTGATGTGTAATAGATGTATGTATTTTCAGAGTACAAGTGATAATTTAATACATGTATATAATGTGTAAATATTAAAT
CAAGAGTTATTGGGATGTCCTTCACCTTAATATTTATCTTGTCTTTATGCTAGGAACATTATTTGAATTATTCTCTTTTACCTATTTTGAAATGTACAAT
AGATTAACATTAGCTATAGTTACTCTACTGATCTATCATAGGTCTTATTTCTTCTGTATTTGTGTCCACTAATCAAACTCTTCATCCTCACGTCCCCACC
ACCTTTCCTGGCCTCTGGTAACCACCAATCTACCTCCATCTCCATGAGATCCACTTTTTTAGCTCCCACATGTGAGTGAGAACATGTAATATTTGTCTTT
TCTGTGCTTGGCTTAGTTCAGTTAACACAATCACCTCCAGTTTCATCCATGTTGCTGAGAATGACAGAATTTCATTCCTTTTATGGCTGAACAATATTCC
ATTGTGTATATATACCACATTTTCTTTACCCATTCATCCATTGATGGACACTTAGGTTGATTCCATATTTTAGCTATTGTGAATAGTGCTGCAATAAACA
TGAGAGTGCATATATCTCTTTGATATATTGATTTCCTTTCTTTTGGATACATACCCAGTAGTGGAATTTGCTGGATCATATTGTAGTTCTATTTTTAGTT
TTTGGAGGAAACTATACAATTTTCCATAGTGGCTGTACTAATTTACATTCCCACCAACTGTGTACAAGAGTTCCTCTTTCTCTGCATCCTTGCCAGCATC
TGTTAATTCCTGTCGTCTTGATAGGAAATTTTAAGTGGGATGAGGTGATATCTTGTTGTGGCTTTGATTTGCATTTCTCTGATGATTGGTGATGTTGAGC
ATTTTTTCTTATAGCTGTTGGCCATTTGTATGTCTTGAGAAATGTCTATTTTGATCTTTTGCTCCCCCCGCTTTGTTTTTTTAAGAGATGAGTTCTCATT
ATGTTGCCCATGCTGGAATCAAACTGGGCTCAAACAGTCCTCCTGGGACTGGGCATAGTGGCTGAGGCCTGTAATCCCAGCACTTTGGGAGGCTGAGTAG
GTGGACCATCTGAGGTCAGGAGTTCAAGGCCAGCCTGGCCAACATAGTGAAACCCTATCTCTACTAAAACTACAAAAAATTAGCCAGGCATGGTGGTGAG
CACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACCTGGACCCCAGAGGTGGAAGTTGCAGTGAGCTGAGACTGTGCCACTGCACTCCAA
CCTGGGTGACAGAGTGAGACTCCATCTCCCCACCCCCTCCCCCTCCCCCAAAAAAACCCTCCTGCTTCAGCCTCCTGAGTAGCTGGGACTACAGGCAAGC
ACCACCACATATGGCTTTGCCCATTTTTAGACAGGATTTTTTGTGGGTTTTTTTCGCTATTGAGTTGTTTGAGCTCCTTGTTATATTTATTCTGGTTATT
AATCTCTTGTCAGATGGATAGTTTGCAAATATTTTCTTCCATTCTGTGGGTTGCCTCTTCACTTTGTTGATTGTTTCCTTTGCTGTGCAGAGCTTTTTAG
TTTGATATAATCCTATTAGTCTATTTTTGCTTTTGTTGCCTGTGCTTTTGAAGTCTTATACAAAAAATTTTTGCCCAGATCAATATCTTGGAACATTTCT
CCAGTATTTTCTTCTGGTAGCTTCATAGTTTCATGTGTTAGGTTTAAGTCTTTATCCATTTTGATGCGATTTTTGTATATGGTGAGAGATAGAGTTGAGT
TTCATTCTTCAGTATAGGGCTATCCAGTTCTCCAAGAATCATTTATTGAAGAGACTGTCCTTTCCTCATTGAATGTTCTTGGCACCTTTGTACTTTTGGT
ATTGACATAAAATGAGTTGGCTGTAAATGCATGGATTTATATATGTTCCATTGGTCTATGTGTCTATTTTTATGTCAGTACCATACTGATTGGGTTACCA
TAGCTTTGTAGTAGATTTTGAGGTTGGGCAGTATGATGCCTTCAGCTTTGTGCTTTTTGCTCAGGATTGCTTTGGCTCTTTGGGGTCTTTTGTGGTTCCA
TATAGATTTTAGGATTGTTTTTTCTATTTCTATTTCTGTAGAGCAGCAGTCCCTAATCTTTTTGGCACCAGGGACCGCTTTTATGGAAGACAATTTTTCC
GTGGACGCGGGGGGATTTTTTTTTTTAATGGTATGAACCATATTTATTGAAAACATTATTTCTGGCCTTTCTCAAATTGAAGACTGCAAAAAATAAAAGC
AGTGCTTTATTGAGTTGTCATTAACCTTGAGAGCAGTGGCGCTGCCTCTCCACGCTCTGGGGACGGTGGAAACCGTGGCTGGTGCGTGCCACATCTATCA
CACCTCGGTCTACAAAACAGTCCTGACGTCAAATAAAACTATTGTGGCCGGGCGCGGTGGCTCACGTCTGTAATCCCAGCACTTTGGGATGCCGAGGCGG
GCGGATCACGAGGTCAAGGAAATCGAGACCATCCTGGCTAACACGGTGAAAACTCGTCTCTACTAAAAATACAAAAACAAAATTAGCCAGGCATGGTGGC
GGGTGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCGTAGATCGCGCCACTGCACTG
CAGCCTGGGCGACAGAGCGAGACTCAGTCTCAAACAAAAACAAAAACAAAACAAAACAAAACAAAAAAAACAAACGCTCGTACATGACATTTACATTAGA
AAAAGAGAGCTGAAAGTAGGGATGGGGGGATGGTTTGGGGATGAAACTGTTCCACCTCAGATCATCAGGCATCAGATTCTTGTAAGGTACGCAGCGCCGT
AGAACCCTCGCATGTGCAGTTCACAATAGGGTTCCAGCCTCTGTAAGAATCTGATGCCACCACTAATCTGATAGGAAGTGAGCTCAGGCGGTTATTCTCA
CTTGCCCACCGCTCGCCTCCTGCTGTGCGTCCTGGTTTCTGATGGGTACTGGTCCATAGCCCGGGGGTTGGGGATCCTTGCTCTATCTAGAGAATGCCAT
TTGTATTTTGATGGGGATTGGACTGAATCTGTAAATTGCTTTAGGTAGTGTTGTCTTTTTTCTTTCTTTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCT
CTGTTGCCCAGGCTAGAGGCTGGAGTGCAGTGGCTGGATCTCCGCTCACTGCAAGCTCTGCCTCGCGGGTTCATGCCATTCTGCTGCCTCAGCCTTCCGA
GTACCTGGGACTACAGGCGCCCGCTACCACGCCTGGCTAATTTTTTTGTATTTTTAGGAGAGACGGGGTTTCACCGTGTTAGCCAGGAAGGTCTCGATCT
CCTGACCTCGTGATCTGCCCGCCTAATTCTTCTAATCCATAAGCGTGGAATATCTTTCCTTTTTGTGTGTGTGTCCTCTTTCATCAGTATTGTATAGTTT
TCCTTGTATAGATCTTTCATTTCTTTAGTTAAATTGATTCCTACGTAGTTTATATTCTTTGTAGCTGTTGTAAATGAGATTGCTTTTTTGATTTCTTTTT
CAGATTGTTTACTGTTGGTGCATATAAATGCTACTGATTTTTGTATGTTGATTTGGTATCCTGAAACTTTTACTGAATTCGTTTATTATTTCTAACAGTC
TTTTTCGTGGAGTCTTTTGATTTTTCAATACGATGAGTTTTTATGTCTTACTTTTGTATCCTCTTCTGGGAATTATTACCTGCTCATGTTTGGCAAACTT
CTACTCTTCTTCAAGATTCAGTCTTGAGTGCTACTCCTGGGCAGTGCTGTATTATCCAAAGAGTAGGAAAAAATGCATGCTTATGTGCCAGCAAAGCAGA
GCCACCAGTTATGAGGCAAGAAACAAACAAAAAAGAAGGCTTGTAGGCTGTGGGAAAAGCCAGAACTTTGTAGTTTTGTTTGGTTATTGAGACAGGGCTT
GCTGTGTCACCCAGGCTGGAGTGCAGTGGCAAGGTAATAGCTCGCTGAAGCCTCCATCTCCTGGGCTCAAGTGATCTCCCCACCTCAGCCTCTGGAGTAC
CTGGGAGTACAGGCATACGGCCACCATGCCCAGCTAACTTTTTTTTTTTTCTTTTTAAATTTGTAGTAGAGACGAGGTCTGGCTATGTTGCCCAGGTTGG
CCTTGAACTCCTGTTCTCAAGTGAACCTCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCTGTAGTTCTTCTTTAA
TCTTATGTTTTATTAATTTTGAATTATTTAGATGCCCTTGATGAGTCTTCCTTTCCCCGCAGTCGTCAGGAACTCTCTCTTGTTTCCATTTCCTTACACA
CTTGTTTCCTACCACTTGGCCTGAACCCTTCAAAAAAGTCAATATTACAAAAACTAAAACCAAATAGGTAGGAGGGCTTTTGTAGATTAAAATAGAGACA
GAACCAAATGCAAGTGTGAAACTTGATTGCATCTGAATCAAAACAAGCCCCAAATATAAAATCAGTTTGTAGGGAAATATGGAGAACTTTAAATATGGAT
GTATATTAGGTAATATTATTGAATAATTAATGTTAATTTTCTTAGCTGTGTTAATAGTATTACGGTTATGTAGGAGGATATCCTAATCTTAGGAGATAAA
TGGAGATGTATTCCTGTTGTCCGCACTTTATTTTATTTTATTTTTTGACACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGAAGTGGCGCGATCTCGGC
TCACTGCAACTTCCTCCTCCTGGGTTCAAGCGATTCCCCTGCCTCAGCCTCCCGAGTAACTGGGACTGCAGGTGCGTGCCACCACGCCCGGCTAATTTTT
TGTATTTTTAGTAGAGAGGGGGTTTCACCGTGTTAGCCAGGATGGTCTGGATCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCTGT
ACTTTACTTTCAAATGATTGAGTGAGAATGGAAGGGCTTGGGCACTTTGAGAGAAAGAGAACACAAGCAAATTTGCCAACATGCTGAGACTTACTGAATC
AAGGTAATAGCCATTATTCTTTTAACTTTTTTTTTTTTAATTTGAGACGGAGTTTCGCTCTTGTTGTCCAGGCTGGAGTGCAATGGCGCGATCTTGACTC
ACTGCAACCCCCGCCTCCCTGGTTGAAGCAATTCTCCACCATGCCCGGCTAATTTTTGTATTTTTAGAAGAGACGGGGTTTCACCATGTTGCCCAGGCTG
GTCTTGAACGCCCGACCTCAAGTGATCCGCCCGCCTCAGCCTTCCAAAGTGCTGGGATTATAGGCGTGAGCGTCCACGCCCGGCCTCTTAACTTTTTGAT
AGGTTAAAAACTTACAAAAAACGTGGATAGAGGGGGTCTGTCTTGCCCACTAGACCGATATGGTGTTGGTTAGGTTAGGTTAGGTTAGGTTAGGTTAGGT
TAGAACCCGACATTGTGCTCTGTACTTCCTAGCCATTCATTCGCTTCAAGTGCTCTGAAATTTAATTTAAAAAATCATAGTTGGAATCCTTTCGGTCACT
TTCTCTTTCTCCCTTCGTTCCTCCCTTTCCCTCTTGATTCTTCCTTGAGGCGCAAACACCTGAGAGAGGCTTCTGTCCCTCGGCGGTCTCCGTAAGTAAG
TGAACCGTTATTGGCTGGAGGGCRCTGACGTCTGATTGTTGCGCGGTCGCATTTTTCCGGGGAACGCGGATTCGCATTCCCAATTTTAGGTGGCAGTCGC
AACCCRTACTATTCGGACAGATGGCACAGAAACCGCTGCGCCTGTGAGTGACCGTGAATGGAAGCCTCTCTCCCTGTGTCTCTTTCGTGTGTGTAGGTGA
CGACACGGGCGGGAGTCTTTCCCATGACGGGAAGGGAGAAGGAAAAGGCGGAGAGACACGGGGCTGCTGGGGAGCTTAGGTGATGTCTTTGCCTGGCCGG
GGCTGACCTCTTTTCCTGGCCCTTTTCGCTTCTGAGGGGGTTTCTCTTGGCGACGCTCGTTCGGAGAGGCGGAAGCTCCCAGAGTTAGGCCTCCTCCATC
TTAGGGGGCAGTCCTGGCCTCTGACACATCCTTTCCCCTTCGTTTCTCCTGACCCCATTTATTTACTCGCCAAATAGCCATTGGGCCCACTGATGGGCCC
TGGGCAGTGGTGGACAGAGTAGATAGGGACCCTTCCCTGGGGCATTTTTTTTTTTTTTTTTTTTTTGCGAGGAGGAGGGGTGGGGGTGGTGGTGAAGAGA
GGGCTTCATGCAGCAAGTATTTATTGAAGAACTGCAGTGTGCCGGACGCTGTGCTAGGTGTTGCAACAGATGGAGTTCCTGCTTTAATGGAGCGTAGAGT
CTAGAGGAACAGGTACTAAAGAATCCAGATAATGGGCCGGGCGCGGTGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCTGTGAGCCG
AGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCTCAAAACAAAACAAAACAAAACAAAACAAACAAAAAACAATACAAATAATGGCCGG
GCGCGGTGGCTSACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGGCGGATCACTTGCGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGGTGAC
ACCCCGTCTCTACTAATACAAAAAAAAAAAATTAGCCAGGCGTGGTGGCGCGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTG
AACCCGGAGGCGGAGGTTGCACAGTGAGCCGACACTGCACCTCTGCACTCCAGCCTAGGTAACAGAGTGAGACTCCGTCTAAAAAAAAAGGAATTCAGAT
AAATGTAAAGTTACCATAGTGATAGGGCCAGGCGCAGTGGCTCACGCCTATAATCCCAGCGACTCCGGAGGCCAAGGCAAGAGAATCACTTGAGTCCAGG
AATTCAAGACCAGCCTGGGCAATATAGCAAGGCCCCGTTTCTACAAAAAATACAGAAAAAAAAAAAAATTAGCCGGGCGTGGTGGTCCCAGCTAATTGGG
AGGCTGAAGCAGGTGGACCACCTGAGCCTGGGGAGGTCGATGCTGCAGTGAGCTGTGATCGTGCTGCTGATCTCCAGGCTGGGTGACAGATTGAAACCCT
GTCTCAAAAAAAAAAAAAAAAAATTGCAATAGTGGTAACTTTTGGGAAGAAAATATTCGTGAATCTGGGAGAGTGCATAAGAGGGGTATTTGGCTTAATG
ATAGGAGTCAAGAAGGCTTCCCGAGAATGTTAGGATTGAGCCTTGGGAAATAAGAGTAATCCATTGCTTAACAGCAGGGTTATGTTCTGAGAAATGAGTT
GGTAGGCGATTTCGTCATTGTGCGAACATCTTTGAGTGTACTTCCAGAGACCTAGATGGTATGGCTTCCTGTACACYTAGGCTAAATGGTATAGCTGTAC
GTCAAGTTACTGTACTGAATACTGTAGGCAATTGTAACACAATGGTAAGCATTTTTGTATTTAAATATAGAAAGGGTACAGTGAAAACACCTGGCYGGGT
GTGGTGGCTTATGCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGAAGTTCAAGACCAGCCTGGCCAACATGGTGAAAC
CCTGTGTCTACTAAACATACAAAAATTAGCCGGGTGTGGTAGCGGGCGCCTGTAATCCCAGCTACTCAAGAGGTTGAGGCAGGAGAATGGCTTGAGCCTG
GGAGGCAGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTGTCTCAAAAAAAAAAAAAAAGAAAAAGAAAAAA
AGAAAATACTGTATACAGGAAAAAAAAAAAGGGCACAACCTGTGTAGGACACTTATCATGAATGGAGTTTGCAGAACTGAAAGTTTCTCTGAGTGAGTTA
GTAAGAGGTGAGTGAATGTATTACTTTACAGTATTGTAGACTTTATGAATACTGTACACTTCACCTATATTAAATTTATTAAAATATTATTTTCAACAGT
AAACCTTAGTTTACTGTAACTTTTACTTTATAAACTTTAAGTTTTTTTACACTTTTTGACTCTTGTTATAACACAGCTAAGACATAAAACACATTGTACA
GCTGTACAAAAATATTTTCTTTATATCCTTATTCTACAAGCTTTTTTCTATTACTTTTTTTTTCTTTTTACCTTTTAAACTTTTTTTTTTTTTGGAGACA
GGGTCTCACTGTCGCCCAGGCTGGAGTGCAATTGTGCAATCACGGCTCACTGCAACCTCAACCTCCTGGGCTCAAGTGATTCTCCCACTTCAGCCTCCTG
AGTAGCTGGGACTACAGGCGGAAGCTACCACACCTGGCTAATTTCTGTATTTTTTGTAGAGAGGGGGTTTTGCTATGTTACCCAGGCTGGTCTTGAACTC
CTGGGCTCAAGTTACCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCCACTGTGCCTGGCTTTAAACTTGTTTTGTTGCAAACTAAG
ACACACACACGAGTCTAGGCCTACACAGGGTCAGGATCATCAGTATCACTGCTGTTCACCTCCATATCTTGTCCCACTGGAAGGGCTTCAGTAGTAATAA
CATGCATGAAGCTGTCATCTCCTATGATAACAGTGCCCTCTGGAATACTTCCTGAAGGACCTGCCTGAGGCTTTTTTACAGTCAACTTTTTTTTTTTTTT
TTTGAATACGTAGGAGTRTACTCTAAACAGTAAAGAGCATACCATACTGAATATATTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGG
AGTGCAGTGCCRCGATCTCAGCTCACTGCAAGCTCTGCCTCGTGGGTTCATGCTATTCTCCCGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCG
CCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGAGGTTTCACTGTGTTAACCAGGATGGTCTCGAGCTCCTGACCTTGTGATCCGCTCGCCT
TGGCCTCCCAAAGTGCTGGGATTACAGGYGTAAGCCACCGCACCTGGCCATAGCATGCTAAATATTATACATAAACCAGTAACATAGTTGTTTATTATCA
TTATCAAATATTGTATACTGTACATAACTGTATGTGCTACACTTTTTATAACCACCAGCCCAGTAGGTTTATACCAGCATTACCACAAACAAATGAGTAA
TATATTGCACTATGATGTTACAAATGGCTAGACATCACTAGGCGATAGGAATTTTTTAGTTCCATTATAATCTTATGGGACCACCATTACATATGTGGTC
CCTTGTTGACCGAAACATTGTTATGTGGCACRTAACTGTATTCTTGTCTTTAACCTAAAAAGGTTATTGAAATGCTTAAGAACGCTTTGGCATGATCAAA
TTTTCATTTTGGAAAGCAGTTCTGTCTGCAATGTGGAGAACAAATCAGAGCCAAAGTAGAGAACAGCTGGGATTAGGTAGAGTGATGACAGAGGAATAGT
TTAGGGATTCAGGGTTTATTAAGGAAGTAAAATCAACAAGGCTTGTGATGGTTTAATTGTGAGTGAAAAGGAGCTGGCCTTGTTGGGTCATAGATTTCTA
TCTTTATTCAGTGGGATAGAGAACAGTGGAAAAGGGCCCAGATGAGGAGATGAGGCACCTGGTGATGTATAAACTGGACAGTGGATCTCCCAGAGACAAT
GGTAATTCCGTGTGACAACTGCTGTGATGGAAGAAATGCAGGCTCCTATGGGAACACTAGAAATTGGTAACTGATAGGTACTAGAAGGCTTCCTAGAGGA
GGTGGTGCTCAAAATATAAATAAAAGTCATATTAGTTTATGACAAAGCTTTCTCTGAAATGCTGTAATGTGGTTTTCTGAGTTTTTGAGAAGGTAATGAC
TTCTGAGCCAGCCAGGAAGGCTTCAGAAATGTGCTAAACCTTGAAGGATGGGAAAAACTTGGATTTAGGATGGGTAGGGTGGAACTACCCTAGGGAATGA
CAGAGGCAGAGAGTAATCAAATTGCCAGTTCAGTTAAGAAAACTTGGAGAAAGTACTAGAAAGRTGACAGGTCAGGGCCTGTGGAAAGCTGTGGTTCTAT
AGGCAGTGGGGAACCTCTTAATGTTTTGAGGAAAGAACATTAAACTGACTACTTTCTGTAGGATGGACAGGAGGAAGAGAAGGCATTAGAGGAAACATAA
ATGTATTCTCTACTTTGAATCTAACACTAGATGCATTGTATTTTTGTCTGATTCTTCCTCTGCCATAGGAAGGGGGTGAGGTGGGGTGGAGTGGAGTGGA
GGTTGCAGTGAGCCAAGGTCGTGCCACTGCACTTTAGCCTGGGTGACAGAGTGAGACCCTGTCTCAGAAAAAGAAAAAAAAAAAGTTTGGCGAGGTGTAC
AATAAAAGCACGCCAGAAAGAGACACTCACAAAACAATAAAATTTTAATATTTCAAGATGAGTTAAAAGACATTAAGGAAATGATATAAGCCGTGGAAAA
ACCACATAAATCAGAATTAGAAAATCTCAGAAATGAGATGATAGTAAAAGTCACTTCACAACGTAGGGCCAGTTTACCTTACCAATGTCAGCTCTTGCCA
TTTTCTACTTCCTGCCCCATAACACTTCACACATACCTCTGTTGTAGCCCTTTTCTTATAAATTTATAATGATTAGAGTGTCTTCCTTTCCCTGATTATA
AACTCTTTGAGGCTTAAACTGAGTCTTCCTCCACCTTGTACTGCTAACATGTTTTTAGCATAGTATACTTGGCATATTGTACTTAGCGTATGGTAGGTGT
CCAGTACCTGTTTATCAAATGAATGACTGAAGCCCTGTACTAAGATAGGAGGAGTCGTACTAAGATAGGAGGAGTCAAAATAAGAAGGATAGAATGAATG
TGAAAGATGTTTGGAAAAAGGGATTGATGGGACTTGGTGACTGGATGGGGGATTTTTGACTTTTGTTGACCATGTCAGCCATAGACATGTCCACAAAACT
TAGGAATGAGGAGAAGAAGCTGGCTCAATTGTGGAGTAAATGATAAGCTAAATTTTAGATACGGCGAGTGGGAGGTGTTGGTGAGACCCTCAGTGGATCT
GCCCAGTGGTTTACGTGCACTGAACCTTGCAAGGTAACTGCAGAGAGACTAGATCATGTATCTATCTAATCCAAAAGACCARTATATACCAAACCCGGCA
GGCCCATTTGTTTCCTGAATTGCTATAATGTTTATCTCTTTGTTTGCAGCTTGGCTTGTGGAGATGTTGAAGGAAAGTTTGATATTTTATTCAATAGAGT
TCAAGCAATTCAGAAGAAAAGTGGAAACTTTGATGTAAGATGTTTGTTTTTACTGAATTTAATTTTACCTTTGTAGTCAYACATAAAAATAAAGTTTGCA
CTCCTTTAAGTCTTGATTGAACACATACCATTTTTGTTAAATTGARTTCCCTTCATGAGCATAGGAACTTAGTAGCTGCTGAGTGGCTGGGGGAGGGAGA
CCTATTTACTGTTTACTATTGATCTTTATATTTTTTGAATTTGAATATTGTTACTTTATCACTGTACAAAAAACTGAAAACAGACTAGCAACACTTCCCT
AAGTGATTCTGACCTCTGGGTTTGGGAAGCACAGATCTATTTCATGAATGTGATGAGGATTAAGTCAGGTAACATACATACCAACCCATCACAAGCTTAA
AAGCTCTATATGAATGTTGTGTATGGTTGCCAACTAGACTGTAAACTCCTAAGAGTACAGAAGAGAGTATTCCAGGTATGAGGATAATTTGTTCATTGGG
TTAAAGGTTGGGTAAAGACAACAGGCAGGAAATGTGTTTTTTATACCTTGTATTTCTCAGATTCTAATATTTTAAGTTTTTTTGTTTCACACGGGGATTC
TTTAAAGATCTATTTCTATGTGACTGTATATTCCAGGGAAGGATATGTGGAGAGAGCCATGAATGGCAGAGTGGGACTGGGAATTTGAGGAGCACTTGAA
TTCTAACTTACTTTAAAAGTTTAGTTCCTTGACTCTCTCTTACCCATCTCTAACTTGAATTTGACAGCCAAAGAGCCAAAACTTAATAATTCATAGAATC
AGTAACTGTTAACAGTTGCTGCTAAAGAATTGTATATTGAAATCTGCAAATTGATTAAGAATTAAAAACTGATTTGAAACTATTAAATAACTAGTTGAAT
ATTACTATCAATTATGTACTGTWTGATATTTTAAAATCTCATATATCTGTTTAAAAAACTCATTTTAGCTGCTGTTGTGTGTAGGAAATTTCTTTGGCTC
CACCCAAGATGCTGAATGGGAGGAGTATAAGACTGGCATCAAGAAAGGTATAGAAATTATTTTTATTTAACATATGATTTCTAATAAAATTTCAAGGGCC
AGAGTTCTTGCAGAGTTGTTTTTCATTATTTAAGAATTTAAGAGTTATTTTCAGTATTTAAGAATTTAAGTTGCTTTTCATTATTAAGACTATCCGGCGC
AGTGGCTCACACCTGTAATCCCCGCACTTTGGGAGGCCGAGGCATGTGGATCACCTGAGGTCAGGGGTTCAAGACCAGCCTGGCCAACATGGTGAAACCG
TGTGTCTACTAAAAATATAAAAATTAGCAGGGCATGGTGGYGCATGCCTGTAATCCCAGCTCCTCGGGAGACTGAGGCAGGAGAATTGCTTGAACCTGGG
AGGCGGAGATTGCAGTGAGCCGAGATYGCACCACTGCACTTCACCCTGGGCGACAGAGCAAGGCTCTGTCTCAAAAAAAAAAAAATAAAATAAATAAAAT
AGCCAAGCTACAAGGTTGGGTGTAGTATATCCTTAGTGGATAGCTGTTCCACATTTAGGATTGCTAAATATGGGGAATGTGAATGCATGGACTATTTACT
TTTAATATAAGTATTTTTTCTATAGAGAGGCATATCTTAAGTTCTAAAGCAGATCTGGTAACTATATGGTGTCATGTCTGTTTCCCTCACTAGCTCCTAT
TCAGACATATGTGCTTGGTGCTAATAACCAGGAAACAGTAAAATATTTCCAGGATGCTGATGGATGTGAATTAGCTGAAAACATTACTTATCTGGGTAAG
CTGATACTTGTTGTATTTTTTTTTTGTTTTTTGTTTTTTGTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCT
CACTGTAACCTCCACCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTTGGATTACAGGCGTGTGTGACCATACCCGGCTAATTTTTT
TTATATTTTTAGYAGAGACAGGGTTTCACCGTGTTAGTCAGGATCATCTCGATCTCCTTACCTCGTGATCCGCCCACCTCGGCCTCCCAGAGTGCTGGGA
TTACAGGCGTGAGCCACCGCGCCTGGCCGATATTTGTTGTATTTGTAATGAACATAATATAGTGTTCTCAGGAATTAGTCTCCCAGGAAATTTTTGGCTA
GATTTTTCAGTGATTGCAGCCTGAGATAATGGGGTTTGGAGGGTTTTTTCCCAGAGTCTGTATATGTGCTGCTGTGCCCTTAGGACAATGCCTTTAGGAC
AGTGGCATTTTTTCTTTATTATTTCTACCACTTAGCCCCAATATCGTTGCGTTCCCACAACCCGGTACACACTTGTTTAGCCAACTGGAGGGATAAACTC
CTTGTCTATAGTATATGGGATACTTAAGGTATAAATTATGTTCACACAAAGGAAATTTCATGTATGTGGCTTTACCATACAATCTTGCTAGGTATATACA
GCTTACTTGTTAATGAGCCTCCCAACTATTTATAGCTCTAGGTTTCACTCTAAGGTTTTGGCAACTCAGGTTTTTAGTGCTGTTCTTTGGGGGCTTTTTA
CTCTTTTTTTACTCTCCTTTTTCTGGTTCTAGGTACACTCTTCAGTTCCAGCTTAAAGTTGTTTCCTCCACAGCCCTCTGTATTGCTTTTAGTGGCTCTT
TCAATGTCTGGCTGTTTTCAAAAGCACTGTCAAATTTTGCTTTTGTTTTCCCCCCACCTGCTGGCAGTCTGCTGCCTCTTAGATCATTCAACTCTTTTTT
TTTTTTTTTTTTAAGACAGTGTCTTGCTCTGTTGCTCAGGCTGGAGTGCAGTGGCATGATCTCGGCTTACTGCAACATCCGACTCCCTGGTTCAAGTGAT
TCTCCTGCCTCAGCCTTCCGAGTAGCTGGGATTACAGGCACGCACTACCATACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTCACCATGTTG
GCCAGGATGGTCTCGATCTCCTGACCTGGTGACCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCTCGGCTTTTTTTTT
TTTTTTTTAGTTGAATTTACTATTCTTCACATTTCCTCCTTGTTGGTCTTATTTCTCTAGAAAACTTCTTCATTTCCTTTGCTGTAAATGTCCTCTCTCT
CCTTCCCCATCATAGTTCATCTTGGCCTTTAGTCTTTATTTGGCTATGGCCCTCCCGTTACCAGTCTTATTTTGCACTAATCCTGTGGGACTTCTTTAAG
CAAAAATTGAAGGAAGGACTTTATTTGTTTTGTTGTTTTAATATGGAACTCTTCATGAATTTGCATGTCATCCTTGTGCAGGTGCCGTGCTAATATTCTC
TTTATCTTTCCAGTTTTAGTATATGTGCTGCTGAAGTGAGCACTGTTTAGTTTTAACTACACATATCAGATACGCATTTTGAAATTCTGTTGTAGATTTT
AACATGAGCCTGACTTATGCAGTTCTTGGTATAGTTTGTAGATTTGGATTAAGGGCATTACTGTAGATATTTGGCAGCCATTTTACTATATGAATTTAGT
GCCAGGAAAGGAAAGAGCAGCTAAGGTACTTGGGTTATTTCTGTGAAATAGATTTTTTGGATCCAGTAGGAGGATCAAGCARTGAACTTGGTAGTGAACA
TGTGATAGTGAGCTTGAAATACTGGTAGGACATCCAACATATAGTTGGAAGTGAGAGTTATTATTATTATTTTTTGAGATGGACTTTCGCTCTTGTTGCC
CAGACTGAATTGCAATGGCATAGTCTTGGCTCACTGCAACCTCTGCCTCCCGGATTCAAGCGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGGTTACG
GGTGTGTGCCACCATGCCCRGCTAATTTTGTATTTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAAATCCTGACCTGAGGTGATC
CAGCTGCCTCAGCCTCCCAAAGTTCTGGGATTACAGGCATTAGCCACTGTGCTGGTCCGAGAGTTCTTTCTAGAGTATCAGTGTTGAAGAGTATAGGCTT
TGGAGAGTTGGTCCCATAATGATGAAAAATAGAGCTGAGAAGAGGATCAAATTATTAAGGAAGAAATACAATCAGAAGGGAAGCAGGTTGATGATAGTAC
CTTGGTGGGTGGGGATGGTATATCTTCATCTAGGGGGTAGGAACAAAGACATAAAAGTGCTTAGAGGACTGTTTGAGAGGTAAAGATATTGTCAACTTCA
TGGAATCTACTGAAGATAACATAGTTTCAGGAGAACATTGGCAAATATAGGGTGACCTTTAAGAGAGTGATGGGAGAGGGAAACTGATTGCAGGGGGTTA
AGGAACTAATAAAGTAGGCTGGGCGTGGTGGCTCACACCTGTAATCCTAGCACCTTGGGAGGTCGAGGTGGGCAGTTCACGAGGTCAAGAGGTTGAGACC
ATCCTGGCCAACATGATGAAACCCCATCTCTACTAAAAATAGAAAAATTAACTGGGCATGGTGGCGGTCACCTGTAGTCCCAGCTACTTGGGAGGCTGAG
GCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTGGAGGTTGCAATGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGCAACAGAGCGAGACTCCATCT
CAAAAAAAAAAAAAAAAAAAAAAAAAGGTAAAGCACTTAGCATGGATGACTCTTCAGAAATTCAAAACTGAAGAGGAGGAAGTTTCTTAGTATGTGTGTT
CATTTTGGATGGCGATGATTGAGCATATTTTTTTCTGAACAAAAAGCGCCAGCTGAGTAGACTCAGTAGATGAAAGGGAAGTGAAAATTGATGGAGCAAG
GTCTTGAAGGCAACAGGAGGGAATGGAAACAAGGCCACAAGCCAGGAATAACCATAGAAGAGAGTGGCGTCTTAAATTTTTCCTAAACACTTGTTCTTTC
CAAATGTTTTCCTTCACTTGGAAGTTGCTGCCTGCCTCCAAGTAGCTGGGACTACAGGCACACGCTGCCATGCCTGGCTAATTTTTTGTATTTTAGTAGG
GATGGGGTTTCACTATGTGCATCTTTTCTAGACTGTAGCTTCCTTAGAACTGTATTTTTCTTCGCATTGCCTTTTCCTGTSTCCAGATGTCTGCATTTAA
GTCCATGTAGAATCTTCTCTAGAACGCAGAAAGCCTTTTCCCTAATCTTCTCTTCCCAACTTTTTCCAGTAATATTTGTAAGGCACCTGGCATAAACATA
CTGGCCCGTGGGCTCCAGCAGCCTCCACGTAGGGCTGTTCATATTTACTGAGCAGGAATACTGTTGTAGCCATTCACCATTGATGCCTAGCAGCCAGAAG
GGAGCTGCTGGAGAGTTTACACTTCAGACATGTAAAATGGCAGGGACATAGGAGAGTCATGGGAGATTCATCCCCCTATTGATGGCTTTTCATTCTGCAA
TTYTGACTAAAATTTGTTCATTTTTCTTTGAACCCAGGTCGTAAAGGTATCTTCACTGGAAGCTCGGGGCTGCAGATTGTGTACCTCAGTGGGACAGAAT
CCTTAAATGAGCCAGTACCAGGTTATAGTTTTAGTCCCAAGGATGTGTCTTCTCTGAGAATGATGCTGTGTACAACCTCCCAGTTTAAGGGTGTTGATAT
CTTGCTCACATCCCCATGGCCCAAGTRTGTGGGGAACTTTGGGAATTCTTCTGTGAGTAGTGTTTGTTTAGTTGGAATTTCTAAAAGCAAATTGCACTGG
CTTGAGTTGGGACTTTTTTCTTTTCCTGTTTATATTGAGTATTTTAGCTCTTGGGTACCTTTTATTAGAAGTCTTCTGTGAAAATTTTCAGGATTCTAAA
AGTTCTGTCAACTGATCAAAGCAAAAGTTAATTTCATGAAAGTGTGATTCATAGATGAGACTGCTGAAATCTTAATTATAAAGGAATGGTTTTTTATATT
CTCTGCTTCAAGTGCCCTTTCCTAAGCCTCTTAATGTTTTGAGGCTTCACTGATTTTTTTGTTTTTTGTTTTTTGTTTTTTTTTGAGATGGAGTCTCACT
CTGTCGCCCAGGTTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCCTCCTCCCGGGTTCAAATGATTCTCCTGCCTCAGCCTCCTGAGTAGCTA
AGATTATAGGCATGCGCCACCACGCCTGGCTAATTTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTGTGTCACCCAGGCTGGAGGGCAGTGGCGCCATC
TCTGCTCACCACAACCTCTGCCTCCTGGGTTCAAGCAATTCACCTGCCTCAGCCTCCCAAGTAGCTGGGACTATAGGCGCACACTGCCATGCCTGGCTAA
TTTTTTGTATTTTATTAGAGATGGGGTTTCAGCATGTTGCCCAGGCTAGTCATGAACTCCTGAGCTCAGACAATCTGCCTGCCTCGGCCTCCCAAAGTGC
TGGGATTACAGGCGGATTTTTTTGTATTTTTAGTAGAGATGGGATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTAATTTGCCCAC
CTCAGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCACCGTGCCCAGCCTAATTTTTGTATTTTTAGTAGAGACAGGGTTGCCCAGGCTGGTCTTGAA
CTCCTGCGCTCTAGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATACCTGGCCAGATTTTAATATTTTATGAGTAA
TCTTGAAAAGGATGGTACACCAGGAGTGACAACTATCATGGGGAGTGAAACRCTACACTGGTGGAAGTAAGCCTAAGGAAGATTTTGAAAAGGTTATGTG
TGAGGGCAGAAAACACTGGGTGAGCTTCATTGAAGGGAAATGTAAGAATGCATTTSGGAACAAATCTCCATGGTTGGATTCAGGATTATCAGTGATGATC
CAGAAGTGGAGCCTGTATACCACCCCTTGCCAGTTTCAGCACCATGTGTCCATGACCAAAAAGGCCAACAGGATACCAGGCATTATCAAGGAGGATGCTC
TCTTCCTTTTTGACAAACCCATGATTACTCTTTACGTAGAATACAAGGCATAGAGCTGGTTGGAGCACAAGGATATAGCAAAGCTAGGGAAGATCGAGAG
AAGGGCTGCTAAAGTGATGAAGGAAGAGAGAAAGACACATATGATGCTCTGTAAGGAAGGATGAKAAAATGAGGCCCCTTTGTTTTGCGGGGAGCTAAAA
ATTGATTTTGATCAAGGCTTATAAATAACCATACAGTATATTTATGGAGGAGAAAAGTATAGTTCACCAGTCCCTAAGATGCTAGGACTGACCTCAAAGC
TAATTCCCTGCCCTTCAGCAGAAACCTGAAGGAAACAAGCATAAGACAAAAGGAAATTCCTGCTTTACGTAGTGGAAAACAAACTTTGTTAGCTTATTTC
CAAGTAATACCTTCTCTTAGAATAGAGTTCATAAATAATGCTGTGGGTGAGAGATCACTTAATTGGTTGTTAACAGAATCTGGGGATGTTCTGGGAGCAA
GAATAACTTTGAGCAAACTTCATATTACTTAAGAAGGGTGTGGTTATGCCCTTCCTCAAACTGCCACTTCCTTGACTGAAGCAAAATAAAGGATTATATG
CTGGTGATGAAGTCCTTGAATACTCTATACCAGATATTCTGTGGATCCTAGGAGCCCTGAAGCCTAGCTTTTCGCTTTGATTTTCTGAATTGACTATGAC
TGTCTGGACCCGTGAACTACAGATGCACTACGTAACAAACTAGAGGCTGGGCGCAGTGGCTCACGCGTGCACTTTGGGAGGCTGAGGCGGGCGGATCACG
AGATCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCACGTGCCTGTAATCCC
AGCTACTAGGGAGGCTGAGGCAGGAGAATCACTTCTTGAACCCAGGATGCAGAGGTTGCAGTGAGCCGAGATTGTGCCACTGTACTCTAGCAGCCTGGGT
GACAAAGCAAGACTCCATCTCAAAAAAAAAAAACAAACCAAAACTAGAAGCCCAGTCTGTGGGCTCCAGAGGGAGAGCTTACTTTCCAAAAAAGGTTTTA
ATAATTTGTGTTTTGGGTATTGATATGGAGGAGTTACCTTTTAATCTCTGGCTTCCAACAGTTGTTCCTATTTCTACATTCATAGTAGTTCAGCTCCCTT
ATTTGTTAAGATTTTTTCTCTGATTGCCATACTTATGAAATTCAATGTGCAGTTCCTTCTGTCCACATCTGTATTCATGTATAAATTTCAAAGACATTTC
AAAATGTCTTATTATTTATTTGCATTTCTTGATAACTTTTGGTCTGTATGGATGACTAAGTTTTTGTTTACTAGGGAGAAGTGGATACCAAAAAATGTGG
TTCTGCTTTGGTTTCCAGTCTTGCCACGGGCTTGAAACCAAGATACCATTTTGCTGCTTTGGAAAAGACCTATTATGAGAGGCTTCCATATCGGTGAGTA
GCATTTCATTCTTCTTGGCTTTTTGAAGAATTTGCCATGGATCTTCTGTATAAACTTCTCTTGTTCGTTTTTAACCATATAACATCTTGGTTCCATTTGG
TTACTCAGACACTGAAGTAAGTGACTCTCAAGTCATTCATCTTCTCTGAGTTTGTTCCCTAATTTGAAATCACTTTGGAAATCCTTCAGTTTCAGAATCA
AGAACTTGTATCAGTTTTTTCCTTTTCAGGGCCAGGCATGATGGTGTGTGTCTGTGGTTCCAGCTACTTGGAAGGCTGAGGCAGGAGGCTCGCTCGAGCC
CAGGAGTTCAAGACTATAGTGTGCAATGACTACGCCTGTGAATAGCCACTGCACTCTAGCCTGGGCAACATAGGGAGCCCCATTTCTTTAAAAAATTTTT
TACCACAAATAAATATGAGATAATGTATATGTTAATTAGCTTGATTTAGCCATCCCACAGTATATACACATTTCAAAACAGCATGTTGTATACMATAAAA
AATACAAATTTTAGTTATCAATTAAAAATAAATGAGAGGGAAAATTTAAAAAATTTTTTTTTGTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTC
ACCTGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGATTA
CAGGTGCGTGCCACCACGTCCGGCTAAGTTTTTTTGTATTTTTAATAGAGACGGGGTTTCACCATGTCAGTCAGGCTGGTCTTGAACTCTTGATCTCATG
ATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCAGCCAAGAAAATATTTTTTTTTATTTTTTTTCTTTTGCACTCA
GAGGTGGAGTTTTTATTTTTTTAATTTTTGGGGGTACATAGTAGCATAGTAGGTATATAGAGGTCAAGTTCTTTTTTTTGAGACAGAGTCTTGCTCTGTC
GCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCCGTCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTAGYTGGGACT
ACAGGCGACCGCCACCACACCTGGCTAATTCTTTRTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATATAGAGG
TCAAGTTCTTAAAGAATATACTGCCAAGAAAACCAGTGTTTTACAAGTGAGAGAGTTAAGTAAAAGCTCAGAATTATCTTCACTGATAAAGGGCATGGAT
TATCCCTAAAATAACTTCTTTCCCTTCTTTTTTACAAAAGTAATATTTACGTGTTGCTAGTTAAAAAAATTTAAGTGAGCAAGAAGAGAATACCCCCCTT
ACCATAATCCCACAGCCTAATGCAGAATCATAGGTAATACAGGTTTTTCTGTTAAATCTCCATATACTYATTCTAGAAGAATGTCTTGTTCTCTAAAAAT
ATACTGCGAAAACAGAAGTTTTGGGAACAAGCCACTCAAAACTTACACAGTTCTTAAGAATCGGAATACAGTTTTTCATAGAACATATAAAAATGGCCAA
TAGGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCATGAGGTCAGGAGATCGAGACCATCCTGGCCAACA
CGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGAAGGCTAAGGCAGGAGAATGG
CATGAACCCGGGAGGTGGAGCTTGCAGTGAGCAGAGATCGCGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAA
AAAAAAAAGGCCAATAGACATATAAAAAGATGCTCTTATCATTAGCCATTATGGTAATGYAAATCAAAAGCACAATGATACACCACTTCATACCCACTAG
GATGGCAGTAGTCAAAAAGGCAAATACATAATAACAAGTGTTGACAAGGATGTGGAGGAATTGGAATCCTCACACATTGCTGGTGAGAGTGTAAAATGGT
GCAGCCGCTTTGGAAAACTGTTTAGCAGTTCTTGAAAGGTTAARTGTAAGAGTCAGCAGCATGGTAACGGCAATTTTATTCCTGTCCCAAGATAAGGGAA
AACATATGTCCACACAAAAACTTGTACACAGATGATCATAATAGCATTATTCATAATAGCTCAAAATGCAAACAACCCAAATGTCCATCACCTGGTGAAT
GGGTAAATTAAAAGTGGTAAATATATGATGAAATGTTATTTGGCAAGGAAAAGCAATGAAGTACTGACATGTGCTACAACATGGTTGAACCGTGAAAACT
TTATGTTAAGTGAATGAAGCCAGACACAAAGGACTACATTTTTTTTTTTTTTAATTTTTTTTTTTTGAGACAAGATCTCATTCTGTCTTCCAGGCTGGAG
TGCTGAGGTACTATCAAGGCTCACTGCAGCCTCAACCTCGTGGGCTCAAGTGATTCTCCTACCTTAGCCTCCTGAGTAGCTGGGACTGTAGGTATGCACC
ACCATGCCCAGTTAATTAAAAAATTTTTTTTGTAGAGACAGAGTCTCACTGTGTTGCCCAGGGTGTTCTCAAACTCCTGGGCTCAAGCAGTCCTCCTGTC
TCAGCCTCCCAAAGTGCCTGGCCTATTTTAGCTTTTTATTACACAAAAGAAGAGGCAATAGTAAAGTGAAACCTCATGTGTCCATCACTTAGCTTGAACT
ATTGTCAACATTTTGCCAATTTTACAACTCTTTTAAAGCCAAAAGTTGGAGTTTTGATGGTTTCTGAAGACATAATCTCATCTCTTCCTAAAACAGCCTT
GTGAGGTAGGGATTGTTGCCCTATTAGACGGATAGATAGTAACTTATCTGAAATCATTTGACTGGCGATGATGAACTGAGGACCTCTGCTCTTTTTATGG
CCCCATAGAGTCCACATATTTTGTCATTGCAAATCAAAAGTAAAATTGTTTGCAATTTTTTGTCTCTCAAATATGTTGTAGAAACCATATCATTCTACAG
GAAAATGCACAGCATGCCACCCGGTTTATAGCTCTGGCAAATGTTGGAAATCCAGAAAAGAAAAAGGTAAAGATTTACCTATTTGGTGGARGGTTGATAT
TCATGGTCTGCCTGATAAATGTATCTCTTGTCCAGTTTAGCATTCAGATCTTCTCTTCTCCCTGACTGCAAGGTCTCAGCAGTTTCGGAGACTCCTTTGT
AAAGGTATGGTAATGAAAGGTCAAGTCTCTTTGGGTCTTTTTGTAGGAGAGTTTAAAGAAGGGTTTGGGAAAATAGGCCCAGAGGAATAAAGGCAAAATA
TCAAATGAACAGTGTTCCTTTACTTCCACATCTATGTGGTTGTCTCTATGGGTATTTGTGAATTTGCCCTCAGATGCTTGCTTACTTCTTTAGCAACTTC
ATTTAGCTGAAATAAGAAAACCCCAAAGAGCTGGGCATGGTGGCCCACGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGTGGGCGGATCACTTGAGGCC
AGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTATAAAAAATAAAAAAAATTAGCCAGGTGTGGTGGGGGGCACCTGTAATCCCAGCT
ACTCAGGAAGCTGAGGCAGGAGAATTGCTTGAATGTGGGAGGTGGAGACTGCAGTGAGCTGAGATCGGGCCACTGCACTCCAGCCTGGGTGACAAAGTGA
GACTCTGTCTCGGGAAACAAAAAAAAAGAAACCCAGAGGACTTACCTAAGCTCTCCTTAGGGCTAAGATTTCCTGAGGGAAATCTTAGTGATACCTGGAA
TCTATCTTTGTATTGGAAAACAGTGCAGTTGATGAAAAGAATATACCAGAAAAATAGGTTGTTTTTCTCACTTCTCTGAGAGTATTTCTGATTTCCCAGG
GCCAAAACTAACCTATTGTGGATTGAGACAGCTAAAATAAGAACAGTTAGTGAAGTGGGAAAATAGGCAGATAAAGAGTCTGAAGATTATTCCACTATCA
CATGCCATAGACAATGCATACAAAAGATAAGCAAATCGATATTTTGTTTTTTTCATAATATTTCAAGCTTTTTTTGGGGGAGGGGGCGGATCTGAAGTGA
TTTTGCCTTTATTTCCTTCACTTTAAGCCAATCATGAAATTTCATAGTGATTTCTAGGGTTGGGGCAGAAGGAAGACAGTGTTAAGAATCATCAGGGCTG
TGGCCCAGTTGGCCTGCGGAGGTGCAGGCAGGGTGGCCCCTCAGGGGCAGCTGGAGGAGCATGGACTGCCCCGCTGGCAGGGAGCTGATGTTCCCAGAGT
ATAAGAGCTGGAATGTGATGTCCTCCACAGCTTCCAGCTTGCGCAGCTCTATCAGGCTGTTCCCTGCGGTGGCCAGTGAGTTGGCGATCAGCTCTGCTGC
CTTGGAATCGCCCTCAGCAGAGATGATGGCTGCCTTTTTCTGCTGCTCAGCCTTTTCTGCCACAAATCTGGTGCTCTCTGCTTCCCGCTGAGCCACCTGT
TTGGCTTCCACTGCTTCTGTGAACTCCTTCCCGAAGGTCAGATGTGTCAAGGACACGTCATCCAGGATGAGCCCAAAGGTGGCTGCTYGCTCTRTAAGGT
CGTTGCTCATCTGCCTGGAGACCAGCTCTCTTTAGGTGATTAGTTCTCCAGCATCAAAGTGAGCCACCACTGACTTGAGGATCTCAGTAGTGATGGACAG
CAGCACACGCTTATCATAATCCTCTTCAATGCTGGTCAAGATGCGAGGAAGCTGGCTAGCGACAGGCCCCCATGTGCACCGTGATGTTGACATTCTGTAA
ATCTTTGCTATCAGTGATGACTGGCACATTACATGGTCAAGAACAGCAGTCAAAGATAATAGGTTTGTGTACCCATGGAATGAGAAAGTGAGTCCCTTCC
CSTACCACAGTGTTCTGTACTCCATGGAATCGGTCAAAGATGACAGCTCTTTGCTCAGCATCCACATTATATAGGGCAGAGTTCACCACGTCTCCTGCAA
CAGCTAAGGCCAGGCCAAACTTGCCAACGGACTCAAAACACTTTGGCAGCCATGTTTTCTTCTGCTGGACCCTTTCATACCTGCTTCCACTCTGACCTCC
ACATAAATTCCCCAGCCTATTTTCAGCTTTTTTGCCCAATTCTTAGCAAATGTAGATTTGTAATTTTTCTTTTAATTGCCCTTTCAAACTGAATAACACT
TAGTATTTTCAGTCTGTTTTATTCTCAGGGACATGTTAGCCTCAGCCATAAGCAACTTATACTTTCGTCAAAAGGTGTGCACATTATAAAATTTGGCAAG
CATTGTTAAATTCATCTAAAAACTTTGTTCCAATTTATACCCCTACCCCAGCAGTGKTTTTTTTTTTCCCCCTCCATATTTCTCACTGGATCAAGTCAAA
GTTTTTGTTTGTTTGTTTAAGATGGAGTCTCTGTCTATTGCCCAGGCTGGAGTGTAGTGGCACGATCTCGGCTTACTGCAACCTCCACCTCCCATGTTCA
AGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAACTATAGGTGTGTGCCACCATGCCTGGCTAATCTTTTGTATTTTTAGTAGAGATGGGATTTCTC
CATGTTGGTCGGGCTGGTCTCTATCTCCTGACCTCAGGTGATTCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCATGAGCCGCCACCCCCRGC
CCACGTCAAAGTTTTATTAAAGTTTTTGCCAATGTGATAAATGATATATAATTGTTACTTAGTTGCATTTCCCTAATCAGTAGTAAGTTTAAACATCTAT
TTATATCTTATCTAAAGTTTTCGATATCTGTGGCATTAGTGCAAGATTCCAAATATTTATATGAATATTTATTGCTTTACTGCTAGTCTCCTAAGAAAAT
TTTATTAGCATATATAGCAGAATTTGTATAATATCAGAGAGAGAAACACTAAGTTCGTTTGTAATTTTCATTAGGAAAAATAAATGGCAGTGCCACAATT
CTGTGGACAGAGTACACAAAGATAAGGGACTCAGAGACAGAAGCAGTTTGTCTTCAAGGGTTATACAGCAAGTCCCTCTGGGCCTTGTAGTGACAGTTGT
CACTATTCCATTATCCGAGTGAGAACTCCTGGTTTGTGAGGGTGGGGGCTTTGATTTCTTGTTCATTTCTTTGTCAACCCTTGGTGAGCCCCTGCAGAGG
CCACTGAATTGGCATTTGATTTACTGTTTACTCTCTGAGCTATGGATGGGCTGGTTGCTGTTCTTTTAATTTTACTGAGTTTCACATGTTTTCTGTGAAA
TCTTCACAGTAAAATAGGTTGATTACAGTTGGGTAAATAGTATTTCCCCTAATGTCATTATGTTCTTTTTCTCTAAAGTATCTTTACGCRTTCAGTATTG
TTCCCATGAAGCTAATGGATGCAGCAGAACTGGTAAAACAGCCTCYGGATGTCACTGAAAACCCTTACAGAAAATCTGGGCAGGAAGCATCCATAGGAAA
GCAAATTCTTGCCCCTGTGGTATGTTCTGATTGAGGGTTGGCATTTTTATATGTGTTCTTTTCCTAGTTATAGTTTAGTACATAAGACAAGTTTAATCGT
TAGAATCTAAATCTTTTTTTTCCCCTTGGGAAATCATGATGRTGTTTAGAAAATCTTAGTAGATTTCARCTAAGCTTAGTGTTTTTTATTGTAGTTTGGG
GTTAACAGTTTGATACATTAGGTCTTTCTTTGTCCAAACTGGATTCAGACGTTTGGGGTTACAGTTTTATTTGTAAAGTCTTTGTCTAAAGTGATTATCT
GTTCTTAGCTCTTTAGGCAAGGCTCTAGCAGCTTCATAGCAATGTAATTTGTGATTTTATGATGATTGCTAGTAGGAAAATAAGATTCACTCTGAAGAAA
TTTTCTTAATAGCAGAGTTTTCTCAAATTAATTTTTTCCCCACTAAAGCAAGGAATGTCAAGTTCCCTTACTAGCATGCACGGTCTGCTTTCTCAGACTT
TTCTTTCTTTCCAAGCAGCCTTCTCATCTCTTAAGGCTGAATTAGGCTTGTTTGACCTGTGAAATTGTATGACTACACTATGTCCCTGTTGAGAGAAAAA
AGAAAAGAGAATTTAGGTGGGTTCATGTTCTGCTTTAGGCAAGAATTACTTTATAACTTGCATTTTAACTCGTTTTTCCAAAGAGATGAATTTGGCAGTA
GTTTGGATAAGTGTTGATGTATGACTGAGACTTCAGGCATCAGAACTGGGAAGATATTTTGCTTCCCTAGAGTGTGCAGAAAGGACTGAGAAGAAAGATA
GGTATGGCATGGCAGGAATGTTCCCTTGTATGTGAGTGGTCGGCTACTTATCTAAAGGTTAGTTGAATAACATTTAATCTTCTGCTTTTGGCCATTCCAG
GAAGAATCAGCCTGTCAGTTTTTCTTTGATTTAAATGAAAAGCAGGGAAGRAAGCGTTCATCCACAGGTAGAGATAGCAAATCTTCTCCTCATCCAAAGC
AGCCTCGCAAACCTCGTAAGTACCTTTATTCCAGAGGTTTCTTCTATGAACAGTAACTGTTATTTTGGCTTTTCTTTGGAAAGCAGCATTGCTAAGAGAG
CCTCTTCTGGCAGGGGAGAATTGTGCAATGAGTCATTAGGACCAACAGTAAAAATAAAATATAAACATGGCCTTGGCCAGGTGTGGTGACTGCACCATCT
TATATTCCCACTGGCAATGTATGAAGGTTTCTGCTTTTCCACATCCCTGTCAACATTTGTTATAGCAATAGCCAGTTTTACAAGATAGCTCCCTCTTTTC
CTGTCTCATAAATAGGTATGGTTCTCTAGGGGTGATGCTTTTATATACTTCTTGGACTCTGTATTTTTAGCCCATCTACTTGAGAGTGATGAGTTCCTTT
TGCTAATTACCATTTAAAGCAATTTTCTTTGTCCTAAAAAGGCAGTCTTCTGTTGCTTATATACCCATATTGGGATAAAAGCGTTGATATTCTTGGCCAG
GTGTGGGGGCTCATGCCTGTAATCCTGTACTTTGGGAGGCTGAGCCAGGCGGATCACAAGTTCAGAATTTTGAGACCAGTCTGGCCAACATAGTGAAACC
CCTTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCACGGTCCTGTAGTCCCAGCCACTCAGGAGGCTGAGGTGGAAGAATTGCTTGAACCCAG
GAGGCAGAGGTTGCAGTGAGCCGAGATGATGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAAAGTTGATATTCTT
TTTATAGCTTCAGATTCAGAAACTAGAGCTTTATGAATTTTTATCTAGAATTATGTAATGCTGGAAACTGATTCACACTAACTGTAATCCCAGCACTTTG
GGTGGCCGAAGCGGGTGGATCACTTAAGGCCAGGAGTTGGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCAA
GGCATGGTGGCACCCACCTGTAGTCCCAGCTCCTCAGGAGGCTGAGGCATGAGAATCGCTTGAACCCAGGAGGCGGAGATTGCAGTGAGCCAAGATTGCA
CCACTGCACTCCAACCTGGGTGACAGAGCAAGGCCCTGTCTCAAAAAAATAAAATAACGGGCCAGGCGCGGTGGCTCACGCCTATAATCCCAGCACTTTG
GGAGGCCGAGGTGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTGTACTAAAAATAGAAAAAATTAACCAGG
CGTGGTGGCAGACGCCCGTAGTCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCRCGCC
ACTGTACTCCACCCTRGGCGACAGAGCGAGACTCCGTCTCAAAAAAAATAAAATAAGAATGGCCTGACTTCGAGGCTGTTCTGAGGCGCTTCCTGTACTA
TGGAAAAAGCACCTTTCCTTTGTGTCTGTAAAACATAATGAGGTGAAGAGCCTCCAAAACCAATATGGGTTCATAAAATAATAGAATGATCAAACTCGAA
GGAAGGACTTTAAGAGTGTTTCATTGAGATTCTCTTTCTTCATCTTTTTGTTTCACACAAGAAGSTGACCTTGGGAGGGTAAATTTTCCAGGGTCATGGC
TAATGGCATAGCTGGGGCTTTAATTGGGGCTCCTGACACCCAGTTCAGTGTTCTTTTGTTGTAGCCTATTGCCAGTTATGTGCTACTTTAGTCAGTGTGT
GATTTTGCACTTGTGGGTTACCTACCTGTGGATTGGTTACAAATTCTAATGGAAGTTTAATTTCATTGAAAATGTTCATAGGGGGTCGTAGTGAGGAGCA
CAGGCTCAGCCCATTGTGGCAGTGTTGTATACCAGTCTTTTCAGGATATAAAAATCAGACAAAGCTGAGTTCTGTGGGGTGATTATATGCTSTAGTGCTT
GGACCATAGTAACACCTGGCTTTCTTTTACATGAAGCTCAGCCTCCAGGACCCTGCTGGTTTTGCCTTGCTAGCCCTGAAGTGGAAAAACATTTGGTGGT
CAACATCGGCACACATGTGAGTTACTTCCTTGGACTTTATAGAGAAGGAGATGCCTATTTGTTTTTTATTAACTTTATTGAGGCATAATCTACATATAAC
ATTTACCCATGTTTAAGTGTATGATTCGGTGATTTTCGTAAGGTTACTGAGTTATGCCACCATCACGTGGTATAGTTTTAGAACATTTTTATCATTGCAG
TAAGATCTCTTATGCCCATTTACAGTTAATCCCTGTTCCCAACTTTAGCCTCAGGCAGCAACTAGTCTACTTACTATCTCCATAGTTTGCCATTTTTGGA
CATTTCTTATAAATGGAATCATACAACATGTGGTCTTTTGTGTCTAGCTTCTTTTACTTAGCATAATATTCTTGAGGTTCATCCATGTTGCAGCATGTAT
CAGTATTTCATTCCTTTTTATTGCCAAATCATATTCCAGTGTATAGATGTACCACATTTCGTCTATATCTGTTCATCAGCTGATGGACGTTTGGGTTGTT
TCTACTTTATGGCTATTAGAAATAATGCTCCCATAAAATATCTGCATGCAAGTCTTTGTGTGGATATAGACCTAGGAATGGTCTATATKTTGGATAGACC
TAGGAATGGATTTGCTAGGTTATATAGTAAATTTATGTTTAACTTTTAAGAAACTGCTAAACTGTTTTCCAAAATGACTGCACCATCTTATATTCCCACC
AGCAGTGTATGAAGGTTTCTGCTTTTCCACATCCCTGTCAACATTTGTTATAGCAATAGCCAGTTTTACAAGATAGCTCTCTTTTCCTCTCTYATAAATA
GGTATGGTTCTCTAGGGGTGATGCTTTTATATACTTCTTGGACTCTCTGTATTTTTTAGCCCGTCTAATTGAGAGTGATGAGTTCCTTTTGCTAATTACC
ATTTAAAGTGATTTTCTTTGTCCTAAAAAGGCAGTCTTCTGTTGCTTATATACCTGTATTGGGTTAAAAATGTTGATATTCTTTTTATAGCTTCAGATTC
AGAAACTAGAGCCTTATGAAATTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGTTGGAGTGCAATGGCRTGATCTCAGTTCACTG
CAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTAAGCTTCCCAAGTAGCTGGGATTACAGGCACCTGCCATCACATCTGGCTAATTTTTATATTT
TTAGTAGAGACAGGGTTTCACCCTGCTGGCCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAG
GCGTGAGCCACCACCCCCGGCCTATGAATTTTTATCTGGAATTATGTAATGCTGGAAGCTGAKTCACACTAACTGATCACATCAAAGATAAAATTTCAGT
TTTGCTTAGTAGTGGAGGGTGTAGCTTACTAATGACAGGAATACCCATATTCACACTCCTGGTGTGAGTATCTAGGAACCCAAGATGATGATGATATGGT
TGTTTGGTAAGCATTGAATCAGACTATGAGAACGGGATGGTCTTGAGTATGATTTTATTCAGGTGGTGGAAAGCTTGAATGTGTGTGTCTCATGGGAAAG
TCATTCTATTTCACATTTCCCCAGATACTTTTGCTTGGGTAGGGCTGGATTAGACATTAAATAATACCAGTGTTTGASTCTGATTTCCCTGGGTTTTCTG
TAGACCATTGTTCTTTTTCATTCATTTAGAATGAAGAAAACTTAATTTTTAACACTATAGTCACCAGTGACTAGAATTGGATGTTCCCCAAGATTCCTGA
GGAAAATATTTATAAGTCATTTTTGTTTTGTGACAGTTTTGGGAGGTGGGGCCTAATAAGAGGTGATTTGGTCATAAGGACTCTGCCTTCATGAATGGAT
TAATGTTATCACAGTAGTGGGTTATCATGAGAGTGGCTTTGTTAAAGTGAGTTCAGGTCCCCTTTTGCTTCTTTACTCTCACCCTCACTTGCCCTTCTGC
CATGGGATGATGCAGCACGAAGGCCATTGCCAGGTGCCAGTGCTATGCACTTCGACTTCCCAGTCTACAGAACCACAAGCCAAATAGATTTCTATTCAAA
TAAATTATAGTCTGTGGTATTCTATTATAGCAACACAAGATGGACTAAGACAATTCCTTAAGTGTGTAGTGCTTCTGAAGACAGGTGCCTTCATCCATTT
CTCATTGATTTGTTCTACTTTTGGTTTCTGGGGTTGATCSTTTCAACTTATCCTAACAATCTGAGGACCGTTTTTTGTGTCTTCCTTCCTGTAGACTGAC
TAGAGTCTCAATTTCATCTTACACTTTAAGGAGTTACACTTCTGCCTGTGTTGTTTCCACCTGAAGAGTCTCAGTCTTTTACATTTTAAAAAATGTCTTG
GCCGGGTGCAGTGGCTCACGCCTGCTCACGGCTGTAATCCCAGCACTTTGGGAAGCTGAGGCAGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGG
CCAAGAAGGTGAAACCCTGTCTCTACTGAAAATACAAAAATTAGCTGGGCGTGGTGGCGGGCGCCTGCAATCCCAGCTACTCAGGAGGCTGAGGCAGAGA
ATTGCTTGAACCTGGGAGGTGGAGGTTGCAGGCCAAGATCGCGCCACTGCACTCCAGCCTGGGGGACAGAGCAAGACTCTGTCACAAAAAAAAAAAAAAA
AAAAAAAAAAAAAGGCTTAATTAGTGGCACACTCCTGTCTCTAGGGGGAGCACTAATGAAGTCAAGGCCGGTGACACAACTGAGCCATAGAACCTGTGGA
TGAAGTCTTCAGTGGAATAAGAGCAAACTTGAGAAGCTCTAGCTTTTATAGCAGTGCCCTTTTTGGATGATCTCTTTTGCATCTTTTTTCGTCTTTGGAT
TAGTTTATGCTATTTTTCTCTCCCACACAATTTGTATAGTAAGTTAGGCTTTGAATTGCCTTCTGTTTGGGAAGCTTCAATAGGTTCAAGATCACAYGCA
GGAGATAAGAGATTTGGAATGTGTGACATAGCTCAGTGCTGCTCTAGGCCTCAGTGAGAAGTGACTTTTCTTTTCCATTCATCTTTCTATTGTCCAGGTT
ACTCTAACTCAGGGTGTGGGCCTGGGCAACAATCAAGGAAACCTGTTTTCTTCTCATCTAGGCCTGAAACTAGAGGGGAAAAAGGTCTTGTTTGTGGCCC
AACCCAACATCCCAAGTAGGCCACATGAGTATTTCAGCCTAGAGTCTACAYTGTCCTTAGGTAGAAACCTCTTACAAACCTGTAATGACCTTTGGGTGTC
TGTGGAAGAGTTTGGGATCTCCTCCCTGCAATTATTCTTTTTGATTGCCTTTTTTTGTTTTTTAAATTTTTTCCCTGGCTTTCTCTTTGTCGTGCCTTCC
TCAAAGGTAGTACATAGAATTGTGCTGATGGTCCATAGCCACAGATTAGTAAAAAGGGGGAAGGGCTGCTGAGAGTGTAAAATAATTATTGCAAAATCAA
TGCATTTTACTTACGGGGAGAACCATTTATCCAGGTCCTATTTACACATGGTTAGAGATAATTCTAGTATAGAACAGATTAGAAGGTGAGAGTTTGAAAG
AGAGAGGAGATTAGGCAAGCGTGAAACTATTCACAAAAATTGCAAGTACAGGATTAGAGATGGTGCAGAGGAGCTCTTTAGTTTAGACATCATTACCTAA
AGAATGCACATCATAATAGAGAAGYTGATGTTTATGGCAGTGACCTTCTGACAAAAATAGCTAGACGACTCAGGCTTCTAGAGTAACCTTTTAAACAAAT
ACAATATAAAGTGGTTATTATACAAATAAAAAAAAGTTTTTAGTGCCTGTGAGGTTTTCATCAACTTTAGTCATCTGGAAAATTAACTTTGTCAATATGC
TCAGTCCTCTCTGCCAAACAAATCAAGGACAATCATGCTTTAGTATCTTTCCAATACATATCCTGTCATTCTGTTGGACTTTCTTATTATAGATGAGAAG
TGATTCCTTCCTTCAGCCTTAACTTTGAGCCCACCACACTAAGAGCATAGTTGGAATAATTTTTTATTTTTTTTCCYGAGACAGTCTTGTTCTGTCGCCC
AGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGTAACCTCCGCCTTCCAGGTTCAAGCAATTCACCTGCTTCAGTCTCCCAAGTAGCTGGGATTATAG
GCACGTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGCGATCCAT
TTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGTCATGAGCCAACGCACCCGGTCTGGATAATTGTTTTCTAAMGTATCTATATTTGCCTGTACTGGTAC
TCATTGGGCCCTTCTGTGCTCACTCATGGCATCTTCCCATCAGAGAATATCTGAGTGGTAGACCATTCTTGCATGTTTTGGTTTTTACAGAAATATTTTT
AGTTGCCATTAAAGGCTGACATCCATTGTTGGAAATCATTCTTTTCTGCCTCTTTGGATGCATCTGAGTTTGAGGTTTTACTTTCCTTCTACCCCATTAG
GTTGTATGTTTGCTTTTGTTTTGTAGAATTTAGTCAGCAGSTTAAGGCTTAGGAACATTAGATGCTAATCATGCCATCTTAGCTTTTTTTGTGAGCCCAA
GGAGTATATTCGGGGGTGGGGGTGGGAATGAAAGTTACTGGGGAGGCAGAAAGGGGTCATTTTTTTTTTTTTTTTTTTTTTGGAGACGGAGTCTCGCTCT
GTCACCCAGGCTGGAGTGTAGTGGCGCGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGG
ACTACAGGCACATGCCATCACAGGCCTGGCTAATTTTTGTATTTTTAGTAGAAATGAGGTTTCACCATATTGGTCAGCCTAGTCTGGAACTTCTGACCTC
AGGCGGTCCACCTGCCTCGGCCTCTCAAAGTTTTGGGATTACAAGCGTGAGCCACTRTCCCAGCCGAAAGTGGTCATTTTGAAATCAGAAGTTGTATCTT
TTTGTGGTTGAGGGTGATAAAAACTGAAAAACTGTTTTCAAGTTTGGAGCATGGGAGGGAAAACCCAGCGATTTGTTCTGGTCTCCCTCAGCTCAGTGTG
TTTGAAGCCAAAAGCCTGCTTGTGTGCCTCTCCCAATTCATTTGCTCCTAGTTCATTTGCTACTTGCATAGAAATTTTCATGCCGAATCTCACTCTTCAG
CGGATACCTGAGAACATTGTTGCTACAATCTCTAAAATCAGATTTTTTCAAGAAAGAATTTTTATTAATAACCTCAAGTACTTTTCGCCTACACCCTCAG
GCTCACTTTTTGTATAGGYTTTTCTCCCTGGAGAATCCTACATGCTGTATTGATGTCTCAATTCTGTGTGCTGCTTCTTCAGTGCTACCTTGCCCTGGCC
AAAGGAGGCTTATCTGATGACCATGTCCTCATCCTGCCTATTGGACACTACCAGTCAGTGGTGGAGCTTTCAGCAGAGGTGGTAGAAGAGGTGGAGAAGT
ATAAGGCCACTCTGAGACGGTTCTTTAAGAGTCGAGGGAAATGGTGTGTTGTATTTGAGAGAAATTATAAGAGCCATCACCTCCAGCTACAGGTAGGTGG
TCTGTTCATAGAAACTTGGAAGGGCGCTATGGGGACTTTGATATTGGTAAATAAGTATTTAAATAGGCTGGGCGAGGTGGCTCACGCCTGTAATCCTAGC
ACTTTGGGAGGCCGAAGCGGTTGGATTGCCTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACACGGTGAAACCCTGTCTCTACTAAAAGTACAAAAAAA
TTAGCTGGGCGTGGTGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATAGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGA
GATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCATCTTTAAAAAAAAAATTATATAAAGTTTAGCTTTAATATGTAAAATATTTAATAT
TTTTATATTAATATTTAAATAACATTCATTTAAAAAGTTTTTAAAGAGTATCTGGTGGTAACCCCAGAGACTTCACAGGGAAGTGTGTGGTCAGTACATG
TAAACAGCATAGATAGTAAGTTCCTTGTTTAGAAAAGGAATGGGTAGTTGAGGAAGTTCCAAGGAAGATGTGGGGCTTGCTGGATAAGAATTTGGAAGAA
AGTGAGTATTTTGTGTGGAGGCCCAGCATGAGGGAAAGCTTAGTGGTAGGAAATAGTCTCAAAGCCTGCATGGGGCTAGCAGCTCAGAAAATCAGATTGT
AAATCATTTGTAGTTGTGGTGGTTTTCTTTTTGGCACATTTGTTAAGTTTTCAAATGGGCCTAACTCTGCCACATATATAATATCGGAGATGGCAAAGGC
TTGTGACGGAGATATCTCTCTTAAGCCTTTCCTGCATCAGAGAATGGCTCCCACATGTGTCAGGCTATCTCATAAGTTTAAGTCCTTACAGACAGGCTGA
CACAGGCTTGTCTGGCCTGAGGATATTCTGTGCTGAGGGGTGTTTCTCCACCCCTGTGATGGATTTGCTACTTCTCAGAGACTRTGCAGGCACAACTTCT
CTGGGACCTGCACAAGGAATTTCTCCTGTCTCCCCAACCCCCAGGTCATTCCTGTCCCAATCAGCTGCTCTACTACTGATGACATTAAAGATGCCTTCAT
TACCCAGGCACAGGAGCAGCAGATAGAGCTGTTGGAAATCCCAGAGCACTCTGACATCAAGCAGGTGAAACAGGGGATGGTGATATTCAGGGAAGAGTAA
ATATCTGTTTTTTTTGTTGTTGTTTGTTSTTTGTTTGTTTGTTTGAGACAGAGTCTTGCTCTGTTGCCTAGGTTGGAGTGCAGTGGCATGATCTTGGCTC
ACTGCAACCTCCGCCTTCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGCATGCGCCACCATACCTGGCTACTTTTTGT
ATTTTTAGTCRAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCTGCCTGCCTYGGCCTCCCRAAGGTATTACAGKCA
TGAGYCACCCACGCCTGGCAAGATCTGGTTTTTGACATGTTGAGCCTAAGGTTTTTGACATGTTGAGCTATCAAGGCATTCCAAAAATGTTATTAAATAG
GCAATGGGTTGGGCATGGTAGCTCACACCTGTAATCCAACACTTTGGGAGGCTGAGGCGGGAGGAGCACTTGAAGCCAGGAGTTTGATACCAGCCTGGGC
AACAAAGTGAGACACCTTGTCTCTACAAAAAATAAAAAAATAAGCTTGGCATGGTGGCATGTGCCTGTAGTCTTAGCTACTCAGGAGGCTGAGAGTCAGG
AGGATCACTTAAGCCTAGGAGTTTGAGGATGCAGTGAGGTATGATTGCACCACTGTACTTCAGCCTGGGCARCATYGCAAGACCCTGTCTCTAAAAAAAA
AAAAAAAAAAAAGAGGCAGTGGACAATTTGGAACTAGAGCACTGGGTATTGACTAGACTGGAGATGAACAGGGCATTACTCCAAAGTTTAGTGCTTTCCT
GGGAAGAGCAAGAAATTAGAATTTCCTAAGGTAGGAACTTAGAAGGATAGACGCCACTGGGAGGATATTGTTAGTATCTTCCAGTTAGACTTTTTAAGCC
CTAGTTCCACTAAGTGGCTTGGGATCTATAGCAACATACATATCTTTTTTTCTTGTGCATTTAGACTGAATTATTTGCCTAGAGATGAACTCAGATTATA
GATTTTTAAAGCATTATTGGACATCCTCATACAACTCTGTTTACTTTAGATTGCACAGCCAGGAGCAGCATATTTTTATGTTGAACTTGACACAGGAGAA
AAGCTTTTCCACAGAATTAAAAAGAATTTTCCTTTGCAGTTTGGAAGGTATGTTTTTCTTCTTTTCAATGTATTTTCACTAGACCTGCTATGAACAGAGT
GGTGGGCTACATGGGACAATTGATAAAAAGCTAAATTGTAAACAGTCCTTGCCCCAGAGGACCCATGGTCTTAGGGCAGATGTTTWCATATATGACAGTA
ATGTAATGTAGAATGTGAAGAGTACCATGACAGAGTTTTGGAGAACAATGTGCTGTAGAAATTCAGAAAAGGGACAGCTCATTTCTAGTTGGTGAAAGCC
TTCATGAAAGTGGCAAAGTTGAACCTGAGAGGCATATTTAGAGGGCAAAGATTGAGGTGAGGGCATTCTAGCCAGAAGTGCTAGGGAACTTTAATTGAGC
ACATACTCTGTGCCAAGAACTGTACCAAGAACTTTACACATACATGACTCATTTAATCTTCATAACTCTGTAAGGTAGGTACTGTCATCCCGATTTACCA
GTGTGGAAAATGAGGCTCTAGAGCAGTGCCCGGTAGACTTTTCACAACGATGGAAATGCTCAAATATCTGCACTGTCCAATACAGTTGTGACTAGCCACT
TGTGGCCMCTGAGTGCTGAAATGTGGCTAATGTGACTGAGGAACTAAATTTTTGATTTTATTTAATTAATTAGAATTTAAATTTAAATAGCCATACCTGG
CTAATGGTTACCCCACTRGATAGCAGGCTGTAGAGAGCTTAGGTAGCTTGTCCTAGTCACACAGTGGTAGGTTCAAACCCAGGCCTGTTGGACCTCAAAA
CTTGAGGTCTTAACCTCAGTGTTCTACAGTATGGTAAAGGCCTAGAGGAGGCTTCAGTTCTGTTCCTCGTATCAGGCAAAACATGACTGCAAAACCATAG
AGGGAGTAACATAACTTAAGCAAAGATTGAAGATGGGAAGTTGCTGGCAAGAAGATACAGTTTGAAGGGGAGTGGAAAATGTGTAGAACRGAGTATCTGA
TGCTGGTGTCTGTGATTTGCAGCTGTTTTTTCTCCCCTAGTTAAAAATGGGCTTTGAGTGAGCCTTGAACCTGTCTTGGACTAATTCAGAAAGCCTCCAA
GAGATTGCCCCCTTAGATAAGTCCAGTAAATGTAGTTGTCTACATTTTTCAAAAAGATAAATGGGAACAAGTGTGCTACGAGATTCAGACATCTGACGTG
ATGTTTTCGTTGTTGCCTCAGCAACAGATGCGGTTATGAACATTGACAACATAAGCACACGATTGCAGATACACATAGGCGTATAAAGCACACAAAAAGA
AGATTCTCTGAATGGTTTTGTGCTTATGATGTATTTTCAATATTGAGTAATTATCAAGATACTAATTTATAGTTATATAGCATTTTATAGTTAACAAAAT
ATTTGAAATGGCATATTTTTTTCAGCTGTACAAGAAAGGTAGTTCTATTTTCCTTTTATATTTGAAATAGGCTCAAAGTTTGCCCAGGGAGCTTAGGTTC
TTTGACTTATAGAGAATTCATGATTTGTTTCTAACTCTTCTATTTACTGTAACTTCAAAGTGGAAAATGAACCATATAAATGTGTAATAGAATTATTTCT
AATATATCAAAATAAGTAAAAATAAAAATATAAAGCAATGGCGATTAGAAGGCAGCTTGTGTGTGAGTGTGTCTGTATGTAGTTATTCTTTAGTCCTAAG
AGCCAAGATAGTTGTTTTGTTGACATTGGGCTTGTGCTGCTGTTACGTGGGCCTGAGTYCCCTAGAAGGAGAGGCAGAGGAATTTTAAATCAGAGTGGGT
ATGACTAGGCTCCTGACTCTGCAAACTCATGTCTAGTTGAGGTGACAAAACTACAGTTTAAGGCAGGTTGTAATCACAGCTAATATGGCACTTTGACTGT
GTTATCTCTGTACCTCACAAAAACCCTGTATGGTGGGTGTTCTTATTTGCATTTCATAGGTGAGGAAATCAAGACTCAGAGATGAAATCATCTGTCTAGA
TCATAGATAGCAAGTGGCAAAGCTGGAAATGGGATCCAGTCTCTGATCTTTCTCACACCAGGGCCTGCCCTTTTTCTATGTGGTGTTGCTTCTCTAAGTA
CCAATAATATAGTTCCAAGTTTTTTAAGAGAGGGAGAAGCAAGTGGGGTTTGAAGGATCAGGAAATATATAGTACCTGAGCTGGTCATTTAAAACGGGTA
TGATTTTGATCAATAGTATGGCAGAGATGGCACTCAGGGCAGGAGAGCAAAGTCAGAGAAATTTGCATACCTCCTTTGGGTGATGTTGAGGAGAGCTCAG
GCTGATAGTTTCCATTTTGACTTCTTTGTGCTATTTCTGCAGGGAGGTCCTGGCCAGTGAAGCCATCCTTAATGTTCCTGATAAGTCTGACTGGAGGCAG
TGTCAGATCAGCAAGGAAGACGAGGAGACCCTGGCTCRCCGCTTCCRGAAAGACTTTGAGCCCTATGACTTTACTCTGGATGACTAAAACAAAGGGAAGA
ACTTTTTATGAACTCCACAGGAAGTAGTAARGCTTTTTTTTTTTTTTAATTAAAAGAATTTTTTTTGAGACAAAGTCTCGCTCTGTCACCCAAGCAGGAT
TGCAGTGGCATAACTGTGGCTCACTGTAGCCTCAACCTCCTGGGCTCTAGAGTTCCTCCCACCTCRGCCTCATGAGTAGCTGGGACCACAGGCGCAWGCT
ACCATGCCTGGCAAACTTTTTTGATTTTTTATAGAGACAGGAGGGTCTCCCTGTGTTGCCCAGGCTGGTCTGTAATGCCTAGGCTCAAGGGATCCTCTGC
CTTGGCTTCTTAACCTGCTGGGATTACAAGCATGAGACACCATTCCTGGCCTAGAAGCCTATTTTTAAAGAAACTACAATCTCCCATGGGGACTGTTTCC
CTGCCTCTTTTGTGCAGTCCCATGGAACTTGCCTACAGCAAGAGGCCTAAGATTGAATCTTTTTGGGGAAAAGTCATTCTAGGATGAAAATCCTATGTTA
AGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGTACTTTGGGAAGCCGAGGCAGGTGGATCACCTGAGGTGAGGAGTTTGAGACCAGCCTGGCCAACA
TGGTGAAACCCCGTCTTTACTAAAGCTACAAAAATTAGCTGGGCGTGGTGCCAGGCRCTTGTARTCCCRGCTRCTCAGGAGGCTGAGGCRGGAGAATTGC
TTGAGCCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCTCCATTGCACTCCAGCCTGGGTGACAGTGAAACTCCRTCTCAAAAATAAAAGAATAAAAG
TATGTCTGTCATCCAGCTCCTATGTCTGTTATCCAGCTCCAAGTACAGCTTGTGTATATCAACATTTTCAAAAACCTTTAAACTACCAAATGAAATCCAG
ATGTTTTTCCATGGTTGAGAAGTGTCTTGTGTTCATGTTGCCTGTGACCGTTGAAATGAAGTAGTATGTGTAATAGCAGGGGCTAGAGCTTTAGGCCCAG
CTGTTACTCCAAAATCACACAGGGCAGTTTCTCCCTGAACAACCCAAAGTGGAAAAGGGATCCAAGGCTTTTGCTATTTTTCTCTTAAAGCATTCATCTT
ATTCATAGATAAGAGCCCATTTAGTCCTTCGGATATTTAACTCCTATGTGCCAGGCATTTTTCTAAGCTCCAGGACCATAGTCATGTCCCAATATGGTCC
CTGTTGTCCCAGAGATTACAGTTTAATGGGGAATAGAAGGGACAGATTTAAGAAAAAAAAGATAATTCTCCTTTGGATATTGTTTTAGGTGCTTGATATA
TCTAATATGTGTCTGTTGTGCTGCTGGGCAGTTCTAAACTCATCAGTACCTGGGTTGGTTACAGGGCTTTGGGGATCATCAGGGTATAGGCCATAGGTGA
AATTAAGATAGGGTAAATACAGTCCTGAGCTGAAGATGATTACCTGAGAAATATCAGTATTTAAGGAGTGCTTGAAAATAGTGATCTAACATTTACATAG
AGAAGGAGCAAAGAGAATGCTACATATTAGGCGCAAAAAGAAAAATATTTTTACCTTTATATTGGGCACTTATGGTCCAGACACTGTTTCATTTAATCTT
CACAAAATCTCTGTGAGGTAGGTATTACCTCTATTTTACTCATGAAAAAAAAACTGAGACTCGGAAAATTGAAGATTGTGGAGCCTGGGGTCAACAGGCT
TAGGCTTTTTAAAAAACAGGCCAGGTGGCTCATGCCTGTGATTGCAGCACTTTGGGAGGCTGAGGCAGGCAGATGACCTGAGATCAGGAGTTTGAGACCA
GCCTAGCCAACACGGTGAAACCCCGTCTCTACTAAAAATGCAAAAAATTAGCTGGGCGTGGTTGCATGCGCCTGTAATGCCAGCTACTCGGGAGGCTGAG
GCAGTAGAATTGCTTGAACCCTGGAGGTGGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGTGACAAGAGTGAAACTCCATCTCAAA
CAATAACAACAACAACAACAAAAAACAACTCAAATTACTCATGGCCCTGGGAATGGGGGCATTTAAAAAGTTAACCAAGGGAACCAACCTGGTTTCCACA
AAGATGGCCACTTCTGGGTCAGCCCAATCATCAGTATCCCTGGGTCCTCAGCATCCCTTCCTACCTCTTTTGACTGGGAATTACGAGATTACAGCCCCAC
CTACGGAAATTGAGCACATTAGCACTGGCCATGCTGTACATACAGCAAATGAGAGGGCTTCATACTGTTACAACAATCTGTACCACAATTCTCTGTGCGG
TCTGCCCAGCTCTAAATGACATGTCCTCAGAGGCATCATCATCTCCAAGTCCATGGAAACCATGCACTTACAGAAACCAGAACCTCCCATACCACATGTT
ACTAATGACCTACAACATCGACTTCGTCTGTATCATGCAGTGCTCAACATTCTGGTTGCAGCATCACATTTATCAATAATTTGATTCCATGCTGATTCCT
TTACTTGGAGTATTGAGATCCCCCAGGTACAGTGAAGGTATGACCCTCTTAAATGGAAGACCAGGAGTTGTTTCCCCTATGCTATGGCAATCCGCCACCC
GGAAGCACTTGCTGCACCAACAGCATTCCCAAAGCTTGCCTCTGCAGCCCTGTAGCACCCATTAGAAACACTTCTCACAATGAACTACTGTGCTGGCAAA
CCCATAACTGGACTGCCGGACAGCAAGCTCTGTGAGGCATCTAGGAAAAAAGCTCGCGAAATCCCGAGAAACACTCTTCACTCCGGAATAGCGTCACATT
CTTGAGTCATTTGGGATGACAGGGGATATCCTGGAGCAGGTGTATTGGGAAGTCAGTGAACAAGAAGGCTAATTCATTAGTGGGCCTGCTAGCGTAGTAT
TTTAACGATTTCGCAGCCTTTAAATCATTGGTGGTCTTTAGCGTGCCGGATCAGCTGGTGGTGGAGTTGGAGGATAGATGGCAGGGATCTGAAGAAAGGT
GAAGTGTAGATAGGAGTAGAGACAATATGAAGTTTAGAAAAGACTAATTGCTGGACGCGGTGGCTCATGTCTATAATCCCAGCACTCTGGGATGCCAAGG
TGGGAGGACTACTTGAGACCAGGAGTTCGGGACCAGCCTGGGCAACGTAGCAAGACCATGTCTCTACAAAAAATAAAAAATTAGCCAAGCGAGGTGGTGC
GCGCCTGCAATCCCAGCTACTCGGGAGGTGAGAAGATCGCTTAATTCCGGGAGGTCGAGGCTGCAGTGAGCCGTGATCGTGCCATTGCACTCCAGCCTGG
GCAACGGAGCGAGACCCCATCTTAATTAAAAAGAAAAAAATACAGGAGAGACTGGGCTGCTTTGAAAAGTGGATTTGACGGGAATGTGGGGTTTGGAGAG
ATCTTATGTTTTCCAAGACTAGAAAAACATTGTGGTTCCGTTCAGCCCTCCCGGAAAATACGTAGGGGACTTAAAGAGCGGACCGAGTACCTGTTTGTTT
CCCCATCCCTTAGCCGGCAGGGCTCTGGCAGCGCCCTGGGAGAACTTAGGGAAGGGCCTTCTCGCAGCGGTTACCGGAAGTGACGCATTCATTCTCGCGA
GAACAAAGACGCGCGAGCATCGGCGGCCCGGAACCGGCCTTGGAACAACTGTGGAACCTGAGGCCGCTTGCCCTCCCGCCCCATGGAGCGGCCCCCGGGG
CTGCGGCCGGGCGCGGGCGGGCCCTGGGAGATGCGGGAGCGGCTGGGCACCGGCGGCTTCGGGAACGTCTGTCTGTACCAGCATCGGGTGAGGCGGGGCG
TGAGAGGGAGCGGCGGTGGGTTGGAGCGGCGGTGGGTTTGAGCGTCTGTGGAACACAGGGCTGACAGTGTGGGATAGATGGTTGGTGGGACCTTGGGCAG
TATTTGGGGGCCAGTGGGCTTGTGTGTGTGTATTAGAGAGAAAGATACTATGCCTGTGTGTCCAAAGTTGTATTTGAGGTACTGGGCATAGATAGAGCTG
TTGCGGGGAACTTGGGTATGACTGTCAGGCTGTGACCAGGTGTTTAGTGAGTGTGACAGTGCGTGTGTGTCTCTGTGAATGTGGAGTGTCAGGGTGTGTG
AGGCAGATGCACGTCACAGTGTGTATGTAGGAGCACGAATGTGTGAGAAGAGGGCTGAAGGGGACTGCCTTTGGGAATGTGTGCGTCCGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTGCGCGCGCGCGCGCGCGCTTGGAGGCCATATGATATCAGTGGGGACTGGAGTAGACAAGGAAGGCTTCATGATGGGTCCA
GAGTTAAGCCTTTGGAAGCATGGATGGGCTTTGGAATTGGGGATGTATTCCAGGTCGGGACAGTATGAGGGTGAGTTGGTGCAGAGCATGGCTTCAAACG
AAAGGCTATATTAGTAGATGGAGATGGGGGGCGCTCTAGTAGGTGGAGGACAGTTAACATCAGACTCAAGAATTTTACTTTGATTTAATAGAGAATGTTT
AACCATTGTAGTAGCAGTTAAAAAATCATATTTGGGTCTTGTTTGTTTGTTTTTGTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAATGCAGG
GCGCGATCTCGGCTCACTGCAGCCTCCTCCTCCCGAGTTCAAGCGATTCTCCTGCCACAGCCTCCTGAGTAGCTGGGATTACAGGCGCCCGCCACCGTGC
CTGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGCGATCCACCTGTCTCAGGCT
CCCAAAGTGCAGAGATTATAGGCGTGAGCCACGGCACCAGGCCTGGGACATGTATTTTTTGATATACCGATAAAAGCTGTGAACCCTTTCCCCAGAAAAA
TGCACAGATGCACATTCACACAACCATGCATTGCCATTTGAGAGGTTCGTGCCTTCCTAAAGGACATTTTAGGTAAATAGACCCTGGACTAATAATTCCT
GTAATATAGGCTTTGTTTTGTTGCCTGTAAAGTAAGTATAGTATAATAATTACATGCATCATGGATTTGAGAGTTAAATAAAATAGTAATGTGTGTAAAG
CTAAATACGGTACCTGACCCATGAAAGCCCTCAACTGTTAGCACCTGCTGCTACTTTGTTGTTGTTGCTGCTATGATCATAATGCTCCTCATTAATTGGC
CTTAAGGAAATGTCAAGATAAAAAGTGTTGTTCTAGGAAAATGGTTTTGTAAAGGATAAATTTGAGTGGAACAACATATGGGACAAGATGAACAGGTAAG
ATCTTACTAAAATGCCTGGGCTTGGCTTGTGAATAGAGAAGTTAATTCAAGAGGAAAAGTAATAATTTGTTATCTAAAGGAACATGGGTGTAGTGAGAAA
GCTCGTAATTTGGGGTGGGAGAAAGGGGAGATAGGAGTCTACCTTGGGAAAATAGGCATATTTAGGGTAATTAGAATGACAACTGAAACTGTTAGAACTG
AGGAAGTTTTGTGAACCAGGTTTCTAGATAGGGCATAGGAGAAAATCTTGGAGAAAGAGAATGGAAGGTGAAGGACTAAGGCATTAAGTCCTGTGATAGC
AGGATAAGTAGTAAATTTAATAATTCTCACCATCAGAGGGAACATAACACACTAAAAAAAAAAAAAAGTGGGAGCCAAGTGCTTCCAGTGGCATGTTGCC
TGTGTTACCTAAGCCTGCCTATCCGCCTGGTCATAAGGAAAAAGGATGCATGCTGGCAGCTTTTGTGACTTCTTTTCTTGGTCCCTGGGTGGGGATGGAT
GAATTAATCACTTTTTGTTTTATTATGGTAAAGTATACATAACACAACATTTATCACTTTATTTTTAAGTGTACAGTTAGGTGGCATTAAGTACATTGAC
GTTGTTGTACAGCCATAACCCTATCTCCAGAATATTCCGACTTTTTTGTTGTTGTTGTACATCTATAAACTTCCCATAGAATATTCTTTGTGAAAAGGTA
GAATTTCACAGAGTTGATGAAATATAAATTAAGGAGTTGAAGGATCTTACAAAGTGGGATTTTTGAAATAGATAACTTATTGCTCCATTAACATGAGCAT
TCAGGGCTCAGTGTTGTTCATGGTTGTGCCTGATTCTCATTTCCATGGTGGTAAAGGCCTGCATGGGACATAGATATAACTGGTCACCTGCTCATAACAA
AAGGAAGATTGAAGGGAGTGAGAACTGTGGGTAGGCTAGCATGCAGTCTATCCTAGTTTCCTTCTTCTCTATGCACCAGGTATCATCTTATCTCTAGCTT
CTTTTTTCCTCTCACCCTCCAATTCACACTACCCTATCCAAGCTATGTCTTGCTTCCCCACCTATAATATATTTTTTCTGTCCTGGCCCCTGGGCTCTTC
TCTCTGTATTCATACACAGCCTTTATTACAACTCTGGTTTGTGTCAGAGATTACATATGTTGGAAATTCTTTTGAACTCTCCTTGTGATATCAGAAACAT
AGTGTAGCCTGTTTAGCCCTGACTGCTATTTCTGAGCTGCATTATTAATGTTGCCAGAATATGATGGGGTCTGGCTATTTCCTGTAATATGCATCAGAAT
GGGTTTAATTTCAGTCAGAATTGGCTAAATTACTAGTCACAGGCAAGAGATGTTAGGTTCATTATGTAGCTATGGAAGCAGAAGTACACTCATTGGTAGG
ATTTTTTTTCTTCATGTCATTTGAAATGCATACATTAGGATTGGAGTTTTTTGCTTTAGGCTTGGTTATATTAAAACTTTCTCTTGCTGTTTGGAGTCCA
GGAAGCCCTGAATTACCTTCTTCATTTTAGTTATGCTAGAAGCTGGGGCACATATTAGTTGTCTTGATTAAGCTCTGAAAGGGGTTTGCTGAGGAGACAG
GATCTTTTTTTTTCTAACATTA


SNP Information

Context             (SEQ ID NO:60565):
TTTAGTAGAGATGAGGTTTCACTGTGTTAACCAGGATGGTCTCGAGCTCCTGACCTTGTGATCCGCTCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGG
Y
GTAAGCCACCGCACCTGGCCATAGCATGCTAAATATTATACATAAACCAGTAACATAGTTGTTTATTATCATTATCAAATATTGTATACTGTACATAACT
Celera SNP ID:            hCV16021290
SNP Position Genomic:     9629
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60566):
CGTTATTGGCTGGAGGGCGCTGACGTCTGATTGTTGCGCGGTCGCATTTTTCCGGGGAACGCGGATTCGCATTCCCAATTTTAGGTGGCAGTCGCAACCC
R
TACTATTCGGACAGATGGCACAGAAACCGCTGCGCCTGTGAGTGACCGTGAATGGAAGCCTCTCTCCCTGTGTCTCTTTCGTGTGTGTAGGTGACGACAC
Celera SNP ID:            hCV27511513
SNP Position Genomic:     6306
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,122|A,1363)   total(G,122|A,1363) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:60567):
ACAAGGATGTGGAGGAATTGGAATCCTCACACATTGCTGGTGAGAGTGTAAAATGGTGCAGCCGCTTTGGAAAACTGTTTAGCAGTTCTTGAAAGGTTAA
R
TGTAAGAGTCAGCAGCATGGTAACGGCAATTTTATTCCTGTCCCAAGATAAGGGAAAACATATGTCCACACAAAAACTTGTACACAGATGATCATAATAG
Celera SNP ID:            hCV11753662
SNP Position Genomic:     22644
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60568):
CTGAGCCACCTGTTTGGCTTCCACTGCTTCTGTGAACTCCTTCCCGAAGGTCAGATGTGTCAAGGACACGTCATCCAGGATGAGCCCAAAGGTGGCTGCT
Y
GCTCTGTAAGGTCGTTGCTCATCTGCCTGGAGACCAGCTCTCTTTAGGTGATTAGTTCTCCAGCATCAAAGTGAGCCACCACTGACTTGAGGATCTCAGT
Celera SNP ID:            hCV1345860
SNP Position Genomic:     25188
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60569):
CACCTGTTTGGCTTCCACTGCTTCTGTGAACTCCTTCCCGAAGGTCAGATGTGTCAAGGACACGTCATCCAGGATGAGCCCAAAGGTGGCTGCTTGCTCT
R
TAAGGTCGTTGCTCATCTGCCTGGAGACCAGCTCTCTTTAGGTGATTAGTTCTCCAGCATCAAAGTGAGCCACCACTGACTTGAGGATCTCAGTAGTGAT
Celera SNP ID:            hCV1345861
SNP Position Genomic:     25194
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60570):
TTATACTTTCGTCAAAAGGTGTGCACATTATAAAATTTGGCAAGCATTGTTAAATTCATCTAAAAACTTTGTTCCAATTTATACCCCTACCCCAGCAGTG
K
TTTTTTTTTTCCCCCTCCATATTTCTCACTGGATCAAGTCAAAGTTTTTGTTTGTTTGTTTAAGATGGAGTCTCTGTCTATTGCCCAGGCTGGAGTGTAG
Celera SNP ID:            hCV1345862
SNP Position Genomic:     25957
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,8)      total(G,8|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60571):
GTGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCTGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCT
C
AAAACAAAACAAAACAAAACAAAACAAACAAAAAACAATACAAATAATGGCCGGGCGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGG
Celera SNP ID:            hCV27433977
SNP Position Genomic:     7046
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60572):
CTCCATGTTGGTCGGGCTGGTCTCTATCTCCTGACCTCAGGTGATTCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCATGAGCCGCCACCCCC
R
GCCCACGTCAAAGTTTTATTAAAGTTTTTGCCAATGTGATAAATGATATATAATTGTTACTTAGTTGCATTTCCCTAATCAGTAGTAAGTTTAAACATCT
Celera SNP ID:            hCV1345863
SNP Position Genomic:     26298
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,12)      total(G,2|A,12) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60573):
TGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCTGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCTC
A
AAACAAAACAAAACAAAACAAAACAAACAAAAAACAATACAAATAATGGCCGGGCGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGC
Celera SNP ID:            hCV27433978
SNP Position Genomic:     7047
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60574):
GGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCTGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCTCA
A
AACAAAACAAAACAAAACAAAACAAACAAAAAACAATACAAATAATGGCCGGGCGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCG
Celera SNP ID:            hCV27433979
SNP Position Genomic:     7048
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60575):
CCCCTAATGTCATTATGTTCTTTTTCTCTAAAGTATCTTTACGCGTTCAGTATTGTTCCCATGAAGCTAATGGATGCAGCAGAACTGGTAAAACAGCCTC
Y
GGATGTCACTGAAAACCCTTACAGAAAATCTGGGCAGGAAGCATCCATAGGAAAGCAAATTCTTGCCCCTGTGGTATGTTCTGATTGAGGGTTGGCATTT
Celera SNP ID:            hCV1345864
SNP Position Genomic:     27046
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,39|T,1)   total(C,69|T,5)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,21|C,289)   Chinese(T,7|C,53)   Japanese(T,0|C,20)   African(T,11|C,89)   (T,3|C,3)      total(C,3|T,3) ;(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60576):
TTAGTCGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCTGCCTGCCTTGGCCTCCCGAAGGTATTACAGGCATGAG
Y
CACCCACGCCTGGCAAGATCTGGTTTTTGACATGTTGAGCCTAAGGTTTTTGACATGTTGAGCTATCAAGGCATTCCAAAAATGTTATTAAATAGGCAAT
Celera SNP ID:            hCV1404609
SNP Position Genomic:     37405
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,37|T,1)   total(C,69|T,5)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60577):
TATAGTTTAGTACATAAGACAAGTTTAATCGTTAGAATCTAAATCTTTTTTTTCCCCTTGGGAAATCATGATGATGTTTAGAAAATCTTAGTAGATTTCA
R
CTAAGCTTAGTGTTTTTTATTGTAGTTTGGGGTTAACAGTTTGATACATTAGGTCTTTCTTTGTCCAAACTGGATTCAGACGTTTGGGGTTACAGTTTTA
Celera SNP ID:            hCV1345865
SNP Position Genomic:     27269
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   JBIC-allele(A,243|G,1260)   total(G,1260|A,243) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60578):
TGAGGAGCACAGGCTCAGCCCATTGTGGCAGTGTTGTATACCAGTCTTTTCAGGATATAAAAATCAGACAAAGCTGAGTTCTGTGGGGTGATTATATGCT
S
TAGTGCTTGGACCATAGTAACACCTGGCTTTCTTTTACATGAAGCTCAGCCTCCAGGACCCTGCTGGTTTTGCCTTGCTAGCCCTGAAGTGGAAAAACAT
Celera SNP ID:            hCV1345868
SNP Position Genomic:     30092
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60579):
CTGTTGGAAATCCCAGAGCACTCTGACATCAAGCAGGTGAAACAGGGGATGGTGATATTCAGGGAAGAGTAAATATCTGTTTTTTTTGTTGTTGTTTGTT
S
TTTGTTTGTTTGTTTGAGACAGAGTCTTGCTCTGTTGCCTAGGTTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCGCCTTCCGGGTTCAAGT
Celera SNP ID:            hCV27104633
SNP Position Genomic:     37129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60580):
TGAGACAAAGTCTCGCTCTGTCACCCAAGCAGGATTGCAGTGGCATAACTGTGGCTCACTGTAGCCTCAACCTCCTGGGCTCTAGAGTTCCTCCCACCTC
R
GCCTCATGAGTAGCTGGGACCACAGGCGCATGCTACCATGCCTGGCAAACTTTTTTGATTTTTTATAGAGACAGGAGGGTCTCCCTGTGTTGCCCAGGCT
Celera SNP ID:            hCV27467379
SNP Position Genomic:     40866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60581):
CTGCACTCCAGCCTGGGCGACAGAACGAGACTCTCAAAACAAAACAAAACAAAACAAAACAAACAAAAAACAATACAAATAATGGCCGGGCGCGGTGGCT
S
ACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGGCGGATCACTTGCGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGGTGACACCCCGTCTCTA
Celera SNP ID:            hCV1345832
SNP Position Genomic:     7112
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60582):
GCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCTGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCTCAA
A
ACAAAACAAAACAAAACAAAACAAACAAAAAACAATACAAATAATGGCCGGGCGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGG
Celera SNP ID:            hCV27433980
SNP Position Genomic:     7049
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60583):
CTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCTGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCTCAAA
A
CAAAACAAAACAAAACAAAACAAACAAAAAACAATACAAATAATGGCCGGGCGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGG
Celera SNP ID:            hCV27433981
SNP Position Genomic:     7050
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60584):
GCACAAGGATATAGCAAAGCTAGGGAAGATCGAGAGAAGGGCTGCTAAAGTGATGAAGGAAGAGAGAAAGACACATATGATGCTCTGTAAGGAAGGATGA
K
AAAATGAGGCCCCTTTGTTTTGCGGGGAGCTAAAAATTGATTTTGATCAAGGCTTATAAATAACCATACAGTATATTTATGGAGGAGAAAAGTATAGTTC
Celera SNP ID:            hCV623449
SNP Position Genomic:     19165
SNP Source:               dbSNP
Population(Allele,Count): SG_12_G(T,1|G,20)   SG_95_G(T,7|G,170)   total(T,8|G,190)no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60585):
TAATCCTAGCACTTTGGGAGGCTGAGGCGGGCGGATCACTTGCGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGGTGACACCCCGTCTCTACTAATAC
A
AAAAAAAAAAATTAGCCAGGCGTGGTGGCGCGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGAGGCGGAGGTTGC
Celera SNP ID:            hCV27433982
SNP Position Genomic:     7220
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60586):
GGGTTATGTTCTGAGAAATGAGTTGGTAGGCGATTTCGTCATTGTGCGAACATCTTTGAGTGTACTTCCAGAGACCTAGATGGTATGGCTTCCTGTACAC
Y
TAGGCTAAATGGTATAGCTGTACGTCAAGTTACTGTACTGAATACTGTAGGCAATTGTAACACAATGGTAAGCATTTTTGTATTTAAATATAGAAAGGGT
Celera SNP ID:            hCV1345835
SNP Position Genomic:     7977
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60587):
GAAGCAGGTGGACCACCTGAGCCTGGGGAGGTCGATGCTGCAGTGAGCTGTGATCGTGCTGCTGATCTCCAGGCTGGGTGACAGATTGAAACCCTGTCTC
A
AAAAAAAAAAAAAAAAATTGCAATAGTGGTAACTTTTGGGAAGAAAATATTCGTGAATCTGGGAGAGTGCATAAGAGGGGTATTTGGCTTAATGATAGGA
Celera SNP ID:            hCV27433983
SNP Position Genomic:     7706
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60588):
TGTACGTCAAGTTACTGTACTGAATACTGTAGGCAATTGTAACACAATGGTAAGCATTTTTGTATTTAAATATAGAAAGGGTACAGTGAAAACACCTGGC
Y
GGGTGTGGTGGCTTATGCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGAAGTTCAAGACCAGCCTGGCCAACATGGTG
Celera SNP ID:            hCV1345836
SNP Position Genomic:     8096
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60589):
AAGCAGGTGGACCACCTGAGCCTGGGGAGGTCGATGCTGCAGTGAGCTGTGATCGTGCTGCTGATCTCCAGGCTGGGTGACAGATTGAAACCCTGTCTCA
A
AAAAAAAAAAAAAAAATTGCAATAGTGGTAACTTTTGGGAAGAAAATATTCGTGAATCTGGGAGAGTGCATAAGAGGGGTATTTGGCTTAATGATAGGAG
Celera SNP ID:            hCV27433984
SNP Position Genomic:     7707
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60590):
TTCAGTAGTAATAACATGCATGAAGCTGTCATCTCCTATGATAACAGTGCCCTCTGGAATACTTCCTGAAGGACCTGCCTGAGGCTTTTTTACAGTCAAC
T
TTTTTTTTTTTTTTTTGAATACGTAGGAGTGTACTCTAAACAGTAAAGAGCATACCATACTGAATATATTTTTTTTTTTTTGAGATGGAGTCTTGCTCTG
Celera SNP ID:            hCV27433985
SNP Position Genomic:     9287
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60591):
TCTAAAGGTTAGTTGAATAACATTTAATCTTCTGCTTTTGGCCATTCCAGGAAGAATCAGCCTGTCAGTTTTTCTTTGATTTAAATGAAAAGCAGGGAAG
R
AAGCGTTCATCCACAGGTAGAGATAGCAAATCTTCTCCTCATCCAAAGCAGCCTCGCAAACCTCGTAAGTACCTTTATTCCAGAGGTTTCTTCTATGAAC
Celera SNP ID:            hCV25592807
SNP Position Genomic:     28051
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,1|G,37)   total(A,9|G,67)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60592):
TCTCCTATGATAACAGTGCCCTCTGGAATACTTCCTGAAGGACCTGCCTGAGGCTTTTTTACAGTCAACTTTTTTTTTTTTTTTTTGAATACGTAGGAGT
R
TACTCTAAACAGTAAAGAGCATACCATACTGAATATATTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGCCGCGATCT
Celera SNP ID:            hCV27433986
SNP Position Genomic:     9318
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60593):
TTTATAGCTTCAGATTCAGAAACTAGAGCCTTATGAAATTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGTTGGAGTGCAATGGC
R
TGATCTCAGTTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTAAGCTTCCCAAGTAGCTGGGATTACAGGCACCTGCCATCACATCTG
Celera SNP ID:            hCV1345872
SNP Position Genomic:     31284
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60594):
AGGACCTGCCTGAGGCTTTTTTACAGTCAACTTTTTTTTTTTTTTTTTGAATACGTAGGAGTGTACTCTAAACAGTAAAGAGCATACCATACTGAATATA
T
TTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGCCGCGATCTCAGCTCACTGCAAGCTCTGCCTCGTGGGTTCATGCTAT
Celera SNP ID:            hCV27433987
SNP Position Genomic:     9356
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60595):
TCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACCCCCGGCCTATGAATTTTTATCTGGAATTATGTAATGCTGGAAGCTGA
K
TCACACTAACTGATCACATCAAAGATAAAATTTCAGTTTTGCTTAGTAGTGGAGGGTGTAGCTTACTAATGACAGGAATACCCATATTCACACTCCTGGT
Celera SNP ID:            hCV1345873
SNP Position Genomic:     31563
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60596):
GGGTGAGGTGGGGTGGAGTGGAGTGGAGGTTGCAGTGAGCCAAGGTCGTGCCACTGCACTTTAGCCTGGGTGACAGAGTGAGACCCTGTCTCAGAAAAAG
A
AAAAAAAAAAGTTTGGCGAGGTGTACAATAAAAGCACGCCAGAAAGAGACACTCACAAAACAATAAAATTTTAATATTTCAAGATGAGTTAAAAGACATT
Celera SNP ID:            hCV27433988
SNP Position Genomic:     10974
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60597):
TGGTAGGTGTCCAGTACCTGTTTATCAAATGAATGACTGAAGCCCTGTACTAAGATAGGAGGAGTCGTACTAAGATAGGAGGAGTCAAAATAAGAAGGAT
A
GAATGAATGTGAAAGATGTTTGGAAAAAGGGATTGATGGGACTTGGTGACTGGATGGGGGATTTTTGACTTTTGTTGACCATGTCAGCCATAGACATGTC
Celera SNP ID:            hCV27433989
SNP Position Genomic:     11491
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60598):
AATGTGTGTGTCTCATGGGAAAGTCATTCTATTTCACATTTCCCCAGATACTTTTGCTTGGGTAGGGCTGGATTAGACATTAAATAATACCAGTGTTTGA
S
TCTGATTTCCCTGGGTTTTCTGTAGACCATTGTTCTTTTTCATTCATTTAGAATGAAGAAAACTTAATTTTTAACACTATAGTCACCAGTGACTAGAATT
Celera SNP ID:            hCV1345874
SNP Position Genomic:     31878
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60599):
ATTTAAGTGAGCAAGAAGAGAATACCCCCCTTACCATAATCCCACAGCCTAATGCAGAATCATAGGTAATACAGGTTTTTCTGTTAAATCTCCATATACT
Y
ATTCTAGAAGAATGTCTTGTTCTCTAAAAATATACTGCGAAAACAGAAGTTTTGGGAACAAGCCACTCAAAACTTACACAGTTCTTAAGAATCGGAATAC
Celera SNP ID:            hCV2948092
SNP Position Genomic:     21969
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60600):
ATGGACTAAGACAATTCCTTAAGTGTGTAGTGCTTCTGAAGACAGGTGCCTTCATCCATTTCTCATTGATTTGTTCTACTTTTGGTTTCTGGGGTTGATC
S
TTTCAACTTATCCTAACAATCTGAGGACCGTTTTTTGTGTCTTCCTTCCTGTAGACTGACTAGAGTCTCAATTTCATCTTACACTTTAAGGAGTTACACT
Celera SNP ID:            hCV1345875
SNP Position Genomic:     32440
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60601):
TTCTCATCTAGGCCTGAAACTAGAGGGGAAAAAGGTCTTGTTTGTGGCCCAACCCAACATCCCAAGTAGGCCACATGAGTATTTCAGCCTAGAGTCTACA
Y
TGTCCTTAGGTAGAAACCTCTTACAAACCTGTAATGACCTTTGGGTGTCTGTGGAAGAGTTTGGGATCTCCTCCCTGCAATTATTCTTTTTGATTGCCTT
Celera SNP ID:            hCV1345876
SNP Position Genomic:     33451
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60602):
AACTATTCACAAAAATTGCAAGTACAGGATTAGAGATGGTGCAGAGGAGCTCTTTAGTTTAGACATCATTACCTAAAGAATGCACATCATAATAGAGAAG
Y
TGATGTTTATGGCAGTGACCTTCTGACAAAAATAGCTAGACGACTCAGGCTTCTAGAGTAACCTTTTAAACAAATACAATATAAAGTGGTTATTATACAA
Celera SNP ID:            hCV1345877
SNP Position Genomic:     33925
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60603):
GTGGATCACCTGAGGTGAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTTTACTAAAGCTACAAAAATTAGCTGGGCGTGGTGCCAGGC
R
CTTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAGCCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCTCCATTGCACTCCAGCC
Celera SNP ID:            hCV27467380
SNP Position Genomic:     41357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60604):
TCTTGAACTCCTGACCTCGCGATCCATTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGTCATGAGCCAACGCACCCGGTCTGGATAATTGTTTTCTAA
M
GTATCTATATTTGCCTGTACTGGTACTCATTGGGCCCTTCTGTGCTCACTCATGGCATCTTCCCATCAGAGAATATCTGAGTGGTAGACCATTCTTGCAT
Celera SNP ID:            hCV1345878
SNP Position Genomic:     34574
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60605):
GAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTTTACTAAAGCTACAAAAATTAGCTGGGCGTGGTGCCAGGCACTTGTAATCCCAGCT
R
CTCAGGAGGCTGAGGCAGGAGAATTGCTTGAGCCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCTCCATTGCACTCCAGCCTGGGTGACAGTGAAAC
Celera SNP ID:            hCV27467381
SNP Position Genomic:     41373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60606):
CTGGCTCGCCGCTTCCGGAAAGACTTTGAGCCCTATGACTTTACTCTGGATGACTAAAACAAAGGGAAGAACTTTTTATGAACTCCACAGGAAGTAGTAA
R
GCTTTTTTTTTTTTTTAATTAAAAGAATTTTTTTTGAGACAAAGTCTCGCTCTGTCACCCAAGCAGGATTGCAGTGGCATAACTGTGGCTCACTGTAGCC
Celera SNP ID:            hCV8734322
SNP Position Genomic:     40731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60607):
CTTTTCTGCCTCTTTGGATGCATCTGAGTTTGAGGTTTTACTTTCCTTCTACCCCATTAGGTTGTATGTTTGCTTTTGTTTTGTAGAATTTAGTCAGCAG
S
TTAAGGCTTAGGAACATTAGATGCTAATCATGCCATCTTAGCTTTTTTTGTGAGCCCAAGGAGTATATTCGGGGGTGGGGGTGGGAATGAAAGTTACTGG
Celera SNP ID:            hCV1345879
SNP Position Genomic:     34841
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60608):
GGATTAGTTTATGCTATTTTTCTCTCCCACACAATTTGTATAGTAAGTTAGGCTTTGAATTGCCTTCTGTTTGGGAAGCTTCAATAGGTTCAAGATCACA
Y
GCAGGAGATAAGAGATTTGGAATGTGTGACATAGCTCAGTGCTGCTCTAGGCCTCAGTGAGAAGTGACTTTTCTTTTCCATTCATCTTTCTATTGTCCAG
Celera SNP ID:            hCV623451
SNP Position Genomic:     33197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60609):
AGGAGTGTACTCTAAACAGTAAAGAGCATACCATACTGAATATATTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGCC
R
CGATCTCAGCTCACTGCAAGCTCTGCCTCGTGGGTTCATGCTATTCTCCCGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCG
Celera SNP ID:            hCV1345840
SNP Position Genomic:     9412
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60610):
ACATCACTAGGCGATAGGAATTTTTTAGTTCCATTATAATCTTATGGGACCACCATTACATATGTGGTCCCTTGTTGACCGAAACATTGTTATGTGGCAC
R
TAACTGTATTCTTGTCTTTAACCTAAAAAGGTTATTGAAATGCTTAAGAACGCTTTGGCATGATCAAATTTTCATTTTGGAAAGCAGTTCTGTCTGCAAT
Celera SNP ID:            hCV1345842
SNP Position Genomic:     9932
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60611):
CATTTTTATATGTGTTCTTTTCCTAGTTATAGTTTAGTACATAAGACAAGTTTAATCGTTAGAATCTAAATCTTTTTTTTCCCCTTGGGAAATCATGATG
R
TGTTTAGAAAATCTTAGTAGATTTCAGCTAAGCTTAGTGTTTTTTATTGTAGTTTGGGGTTAACAGTTTGATACATTAGGTCTTTCTTTGTCCAAACTGG
Celera SNP ID:            hCV25592811
SNP Position Genomic:     27242
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,20|G,20)   total(A,30|G,46)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60612):
GGTAGGTGTCCAGTACCTGTTTATCAAATGAATGACTGAAGCCCTGTACTAAGATAGGAGGAGTCGTACTAAGATAGGAGGAGTCAAAATAAGAAGGATA
G
AATGAATGTGAAAGATGTTTGGAAAAAGGGATTGATGGGACTTGGTGACTGGATGGGGGATTTTTGACTTTTGTTGACCATGTCAGCCATAGACATGTCC
Celera SNP ID:            hCV27433990
SNP Position Genomic:     11492
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60613):
TTTCTGTGAAATCTTCACAGTAAAATAGGTTGATTACAGTTGGGTAAATAGTATTTCCCCTAATGTCATTATGTTCTTTTTCTCTAAAGTATCTTTACGC
R
TTCAGTATTGTTCCCATGAAGCTAATGGATGCAGCAGAACTGGTAAAACAGCCTCCGGATGTCACTGAAAACCCTTACAGAAAATCTGGGCAGGAAGCAT
Celera SNP ID:            hCV25592812
SNP Position Genomic:     26990
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,40)   total(A,3|G,73)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60614):
GTAGGTGTCCAGTACCTGTTTATCAAATGAATGACTGAAGCCCTGTACTAAGATAGGAGGAGTCGTACTAAGATAGGAGGAGTCAAAATAAGAAGGATAG
A
ATGAATGTGAAAGATGTTTGGAAAAAGGGATTGATGGGACTTGGTGACTGGATGGGGGATTTTTGACTTTTGTTGACCATGTCAGCCATAGACATGTCCA
Celera SNP ID:            hCV27433991
SNP Position Genomic:     11493
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60615):
GGATTGCAGTGGCATAACTGTGGCTCACTGTAGCCTCAACCTCCTGGGCTCTAGAGTTCCTCCCACCTCAGCCTCATGAGTAGCTGGGACCACAGGCGCA
W
GCTACCATGCCTGGCAAACTTTTTTGATTTTTTATAGAGACAGGAGGGTCTCCCTGTGTTGCCCAGGCTGGTCTGTAATGCCTAGGCTCAAGGGATCCTC
Celera SNP ID:            hCV25592813
SNP Position Genomic:     40897
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,21)   caucasian(T,34)   total(A,3|T,55)
SNP Type:                 UTR 3


Context             (SEQ ID NO:60616):
AGGTGTCCAGTACCTGTTTATCAAATGAATGACTGAAGCCCTGTACTAAGATAGGAGGAGTCGTACTAAGATAGGAGGAGTCAAAATAAGAAGGATAGAA
T
GAATGTGAAAGATGTTTGGAAAAAGGGATTGATGGGACTTGGTGACTGGATGGGGGATTTTTGACTTTTGTTGACCATGTCAGCCATAGACATGTCCACA
Celera SNP ID:            hCV27433992
SNP Position Genomic:     11495
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60617):
GGCATGTGGATCACCTGAGGTCAGGGGTTCAAGACCAGCCTGGCCAACATGGTGAAACCGTGTGTCTACTAAAAATATAAAAATTAGCAGGGCATGGTGG
Y
GCATGCCTGTAATCCCAGCTCCTCGGGAGACTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGATTGCAGTGAGCCGAGATTGCACCACTGCACTT
Celera SNP ID:            hCV1345845
SNP Position Genomic:     13241
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60618):
GTCCTGGCCAGTGAAGCCATCCTTAATGTTCCTGATAAGTCTGACTGGAGGCAGTGTCAGATCAGCAAGGAAGACGAGGAGACCCTGGCTCGCCGCTTCC
R
GAAAGACTTTGAGCCCTATGACTTTACTCTGGATGACTAAAACAAAGGGAAGAACTTTTTATGAACTCCACAGGAAGTAGTAAAGCTTTTTTTTTTTTTT
Celera SNP ID:            hCV25592814
SNP Position Genomic:     40647
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(G,10)   total(A,2|G,30)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,38)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60619):
GCAGGGCATGGTGGCGCATGCCTGTAATCCCAGCTCCTCGGGAGACTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGATTGCAGTGAGCCGAGAT
Y
GCACCACTGCACTTCACCCTGGGCGACAGAGCAAGGCTCTGTCTCAAAAAAAAAAAAATAAAATAAATAAAATAGCCAAGCTACAAGGTTGGGTGTAGTA
Celera SNP ID:            hCV1345846
SNP Position Genomic:     13327
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60620):
ATAATGTATATGTTAATTAGCTTGATTTAGCCATCCCACAGTATATACACATTTCAAAACAGCATGTTGTATACAATAAAAAATACAAATTTTAGTTATC
A
ATTAAAAATAAATGAGAGGGAAAATTTAAAAAATTTTTTTTTGTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCTGGCTGGAGTGCAGTGG
Celera SNP ID:            hCV27433993
SNP Position Genomic:     21020
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,9)   total(A,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60621):
CACCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTTGGATTACAGGCGTGTGTGACCATACCCGGCTAATTTTTTTTATATTTTTAG
Y
AGAGACAGGGTTTCACCGTGTTAGTCAGGATCATCTCGATCTCCTTACCTCGTGATCCGCCCACCTCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAG
Celera SNP ID:            hCV1345847
SNP Position Genomic:     13913
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,17)   caucasian(C,1|T,35)   total(C,8|T,52)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60622):
TAATGTATATGTTAATTAGCTTGATTTAGCCATCCCACAGTATATACACATTTCAAAACAGCATGTTGTATACAATAAAAAATACAAATTTTAGTTATCA
A
TTAAAAATAAATGAGAGGGAAAATTTAAAAAATTTTTTTTTGTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCTGGCTGGAGTGCAGTGGC
Celera SNP ID:            hCV27433994
SNP Position Genomic:     21021
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,9)   total(A,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60623):
AGGTTTCACCATATTGGTCAGCCTAGTCTGGAACTTCTGACCTCAGGCGGTCCACCTGCCTCGGCCTCTCAAAGTTTTGGGATTACAAGCGTGAGCCACT
R
TCCCAGCCGAAAGTGGTCATTTTGAAATCAGAAGTTGTATCTTTTTGTGGTTGAGGGTGATAAAAACTGAAAAACTGTTTTCAAGTTTGGAGCATGGGAG
Celera SNP ID:            hCV1345880
SNP Position Genomic:     35257
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60624):
TTTACTATATGAATTTAGTGCCAGGAAAGGAAAGAGCAGCTAAGGTACTTGGGTTATTTCTGTGAAATAGATTTTTTGGATCCAGTAGGAGGATCAAGCA
R
TGAACTTGGTAGTGAACATGTGATAGTGAGCTTGAAATACTGGTAGGACATCCAACATATAGTTGGAAGTGAGAGTTATTATTATTATTTTTTGAGATGG
Celera SNP ID:            hCV1345848
SNP Position Genomic:     15582
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60625):
AATGTATATGTTAATTAGCTTGATTTAGCCATCCCACAGTATATACACATTTCAAAACAGCATGTTGTATACAATAAAAAATACAAATTTTAGTTATCAA
T
TAAAAATAAATGAGAGGGAAAATTTAAAAAATTTTTTTTTGTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCTGGCTGGAGTGCAGTGGCA
Celera SNP ID:            hCV27433995
SNP Position Genomic:     21022
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60626):
GTTGCTACAATCTCTAAAATCAGATTTTTTCAAGAAAGAATTTTTATTAATAACCTCAAGTACTTTTCGCCTACACCCTCAGGCTCACTTTTTGTATAGG
Y
TTTTCTCCCTGGAGAATCCTACATGCTGTATTGATGTCTCAATTCTGTGTGCTGCTTCTTCAGTGCTACCTTGCCCTGGCCAAAGGAGGCTTATCTGATG
Celera SNP ID:            hCV1345881
SNP Position Genomic:     35619
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,21)   caucasian(C,3|T,37)   total(C,20|T,58)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60627):
ATAGTCTTGGCTCACTGCAACCTCTGCCTCCCGGATTCAAGCGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGGTTACGGGTGTGTGCCACCATGCCC
R
GCTAATTTTGTATTTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAAATCCTGACCTGAGGTGATCCAGCTGCCTCAGCCTCCCAA
Celera SNP ID:            hCV1345849
SNP Position Genomic:     15820
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60628):
ATGTATATGTTAATTAGCTTGATTTAGCCATCCCACAGTATATACACATTTCAAAACAGCATGTTGTATACAATAAAAAATACAAATTTTAGTTATCAAT
T
AAAAATAAATGAGAGGGAAAATTTAAAAAATTTTTTTTTGTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCTGGCTGGAGTGCAGTGGCAT
Celera SNP ID:            hCV27433996
SNP Position Genomic:     21023
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60629):
GGGCAACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGGCCAATAGACATATAAAAAGATGCTCTTATCATTAGCCATTATGGTAATG
Y
AAATCAAAAGCACAATGATACACCACTTCATACCCACTAGGATGGCAGTAGTCAAAAAGGCAAATACATAATAACAAGTGTTGACAAGGATGTGGAGGAA
Celera SNP ID:            hCV27433997
SNP Position Genomic:     22460
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60630):
CCGCCTTCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGCATGCGCCACCATACCTGGCTACTTTTTGTATTTTTAGTC
R
AGACGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCTGCCTGCCTTGGCCTCCCGAAGGTATTACAGGCATGAGCCACCCA
Celera SNP ID:            hCV1345882
SNP Position Genomic:     37311
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(A,17|G,23)   total(A,22|G,54)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60631):
CCAGGCGTGGTGGCAGACGCCCGTAGTCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATC
R
CGCCACTGTACTCCACCCTAGGCGACAGAGCGAGACTCCGTCTCAAAAAAAATAAAATAAGAATGGCCTGACTTCGAGGCTGTTCTGAGGCGCTTCCTGT
Celera SNP ID:            hCV27433998
SNP Position Genomic:     29496
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60632):
GCTACTCAGGAGGCTGAGAGTCAGGAGGATCACTTAAGCCTAGGAGTTTGAGGATGCAGTGAGGTATGATTGCACCACTGTACTTCAGCCTGGGCAACAT
Y
GCAAGACCCTGTCTCTAAAAAAAAAAAAAAAAAAAAGAGGCAGTGGACAATTTGGAACTAGAGCACTGGGTATTGACTAGACTGGAGATGAACAGGGCAT
Celera SNP ID:            hCV1345883
SNP Position Genomic:     37776
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60633):
TAAAGAATTGTATATTGAAATCTGCAAATTGATTAAGAATTAAAAACTGATTTGAAACTATTAAATAACTAGTTGAATATTACTATCAATTATGTACTGT
W
TGATATTTTAAAATCTCATATATCTGTTTAAAAAACTCATTTTAGCTGCTGTTGTGTGTAGGAAATTTCTTTGGCTCCACCCAAGATGCTGAATGGGAGG
Celera SNP ID:            hCV25592819
SNP Position Genomic:     12823
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,35)   caucasian(T,40)   total(A,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:60634):
CCGTAGTCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGTACTCCACCCT
R
GGCGACAGAGCGAGACTCCGTCTCAAAAAAAATAAAATAAGAATGGCCTGACTTCGAGGCTGTTCTGAGGCGCTTCCTGTACTATGGAAAAAGCACCTTT
Celera SNP ID:            hCV27433999
SNP Position Genomic:     29516
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60635):
TGCTATGAACAGAGTGGTGGGCTACATGGGACAATTGATAAAAAGCTAAATTGTAAACAGTCCTTGCCCCAGAGGACCCATGGTCTTAGGGCAGATGTTT
W
CATATATGACAGTAATGTAATGTAGAATGTGAAGAGTACCATGACAGAGTTTTGGAGAACAATGTGCTGTAGAAATTCAGAAAAGGGACAGCTCATTTCT
Celera SNP ID:            hCV1345884
SNP Position Genomic:     38386
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,6)   total(A,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60636):
AAATGAGGCTCTAGAGCAGTGCCCGGTAGACTTTTCACAACGATGGAAATGCTCAAATATCTGCACTGTCCAATACAGTTGTGACTAGCCACTTGTGGCC
M
CTGAGTGCTGAAATGTGGCTAATGTGACTGAGGAACTAAATTTTTGATTTTATTTAATTAATTAGAATTTAAATTTAAATAGCCATACCTGGCTAATGGT
Celera SNP ID:            hCV1345885
SNP Position Genomic:     38808
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,8)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60637):
GAAATGTGGCTAATGTGACTGAGGAACTAAATTTTTGATTTTATTTAATTAATTAGAATTTAAATTTAAATAGCCATACCTGGCTAATGGTTACCCCACT
R
GATAGCAGGCTGTAGAGAGCTTAGGTAGCTTGTCCTAGTCACACAGTGGTAGGTTCAAACCCAGGCCTGTTGGACCTCAAAACTTGAGGTCTTAACCTCA
Celera SNP ID:            hCV1345886
SNP Position Genomic:     38918
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60638):
ACCTGAGGTGAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTTTACTAAAGCTACAAAAATTAGCTGGGCGTGGTGCCAGGCACTTGTA
R
TCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAGCCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCTCCATTGCACTCCAGCCTGGGTGA
Celera SNP ID:            hCV27468264
SNP Position Genomic:     41364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60639):
CAAAACCATAGAGGGAGTAACATAACTTAAGCAAAGATTGAAGATGGGAAGTTGCTGGCAAGAAGATACAGTTTGAAGGGGAGTGGAAAATGTGTAGAAC
R
GAGTATCTGATGCTGGTGTCTGTGATTTGCAGCTGTTTTTTCTCCCCTAGTTAAAAATGGGCTTTGAGTGAGCCTTGAACCTGTCTTGGACTAATTCAGA
Celera SNP ID:            hCV1345887
SNP Position Genomic:     39190
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60640):
AGGTGAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTTTACTAAAGCTACAAAAATTAGCTGGGCGTGGTGCCAGGCACTTGTAATCCC
R
GCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAGCCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCTCCATTGCACTCCAGCCTGGGTGACAGTG
Celera SNP ID:            hCV27468265
SNP Position Genomic:     41369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60641):
GTGTGTGAGTGTGTCTGTATGTAGTTATTCTTTAGTCCTAAGAGCCAAGATAGTTGTTTTGTTGACATTGGGCTTGTGCTGCTGTTACGTGGGCCTGAGT
Y
CCCTAGAAGGAGAGGCAGAGGAATTTTAAATCAGAGTGGGTATGACTAGGCTCCTGACTCTGCAAACTCATGTCTAGTTGAGGTGACAAAACTACAGTTT
Celera SNP ID:            hCV1345888
SNP Position Genomic:     39959
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60642):
CCTTTCCCTCTTGATTCTTCCTTGAGGCGCAAACACCTGAGAGAGGCTTCTGTCCCTCGGCGGTCTCCGTAAGTAAGTGAACCGTTATTGGCTGGAGGGC
R
CTGACGTCTGATTGTTGCGCGGTCGCATTTTTCCGGGGAACGCGGATTCGCATTCCCAATTTTAGGTGGCAGTCGCAACCCATACTATTCGGACAGATGG
Celera SNP ID:            hCV29348490
SNP Position Genomic:     6224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:60643):
TTTAGGATGGGTAGGGTGGAACTACCCTAGGGAATGACAGAGGCAGAGAGTAATCAAATTGCCAGTTCAGTTAAGAAAACTTGGAGAAAGTACTAGAAAG
R
TGACAGGTCAGGGCCTGTGGAAAGCTGTGGTTCTATAGGCAGTGGGGAACCTCTTAATGTTTTGAGGAAAGAACATTAAACTGACTACTTTCTGTAGGAT
Celera SNP ID:            hCV29348491
SNP Position Genomic:     10664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60644):
TCTTTGCTATCAGTGATGACTGGCACATTACATGGTCAAGAACAGCAGTCAAAGATAATAGGTTTGTGTACCCATGGAATGAGAAAGTGAGTCCCTTCCC
S
TACCACAGTGTTCTGTACTCCATGGAATCGGTCAAAGATGACAGCTCTTTGCTCAGCATCCACATTATATAGGGCAGAGTTCACCACGTCTCCTGCAACA
Celera SNP ID:            hCV29348492
SNP Position Genomic:     25502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60645):
CTAAAAAGGCAGTCTTCTGTTGCTTATATACCTGTATTGGGTTAAAAATGTTGATATTCTTTTTATAGCTTCAGATTCAGAAACTAGAGCCTTATGAAAT
T
TTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGTTGGAGTGCAATGGCGTGATCTCAGTTCACTGCAACCTCTGCCTCCCGGGTTCAA
Celera SNP ID:            hCV27434001
SNP Position Genomic:     31223
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60646):
GACTTTCTTATTATAGATGAGAAGTGATTCCTTCCTTCAGCCTTAACTTTGAGCCCACCACACTAAGAGCATAGTTGGAATAATTTTTTATTTTTTTTCC
Y
GAGACAGTCTTGTTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGTAACCTCCGCCTTCCAGGTTCAAGCAATTCACCTGCTTCAGT
Celera SNP ID:            hCV27434002
SNP Position Genomic:     34277
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60647):
CTTAGCTACTCAGGAGGCTGAGAGTCAGGAGGATCACTTAAGCCTAGGAGTTTGAGGATGCAGTGAGGTATGATTGCACCACTGTACTTCAGCCTGGGCA
R
CATCGCAAGACCCTGTCTCTAAAAAAAAAAAAAAAAAAAAGAGGCAGTGGACAATTTGGAACTAGAGCACTGGGTATTGACTAGACTGGAGATGAACAGG
Celera SNP ID:            hCV11753651
SNP Position Genomic:     37772
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60648):
ATTTTTTGTATTTTAGTAGGGATGGGGTTTCACTATGTGCATCTTTTCTAGACTGTAGCTTCCTTAGAACTGTATTTTTCTTCGCATTGCCTTTTCCTGT
S
TCCAGATGTCTGCATTTAAGTCCATGTAGAATCTTCTCTAGAACGCAGAAAGCCTTTTCCCTAATCTTCTCTTCCCAACTTTTTCCAGTAATATTTGTAA
Celera SNP ID:            hCV1345850
SNP Position Genomic:     17081
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60649):
TTCCCACCAGCAGTGTATGAAGGTTTCTGCTTTTCCACATCCCTGTCAACATTTGTTATAGCAATAGCCAGTTTTACAAGATAGCTCTCTTTTCCTCTCT
Y
ATAAATAGGTATGGTTCTCTAGGGGTGATGCTTTTATATACTTCTTGGACTCTCTGTATTTTTTAGCCCGTCTAATTGAGAGTGATGAGTTCCTTTTGCT
Celera SNP ID:            hCV11753656
SNP Position Genomic:     30993
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60650):
AGCTGCTGGAGAGTTTACACTTCAGACATGTAAAATGGCAGGGACATAGGAGAGTCATGGGAGATTCATCCCCCTATTGATGGCTTTTCATTCTGCAATT
Y
TGACTAAAATTTGTTCATTTTTCTTTGAACCCAGGTCGTAAAGGTATCTTCACTGGAAGCTCGGGGCTGCAGATTGTGTACCTCAGTGGGACAGAATCCT
Celera SNP ID:            hCV1345851
SNP Position Genomic:     17403
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,21)   caucasian(C,19|T,19)   total(C,26|T,40)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;JBIC-allele(T,640|C,849)   total(C,849|T,640)
SNP Type:                 INTRON


Context             (SEQ ID NO:60651):
GTTTGGGTTGTTTCTACTTTATGGCTATTAGAAATAATGCTCCCATAAAATATCTGCATGCAAGTCTTTGTGTGGATATAGACCTAGGAATGGTCTATAT
K
TTGGATAGACCTAGGAATGGATTTGCTAGGTTATATAGTAAATTTATGTTTAACTTTTAAGAAACTGCTAAACTGTTTTCCAAAATGACTGCACCATCTT
Celera SNP ID:            hCV11753657
SNP Position Genomic:     30789
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,4)      total(G,1|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60652):
CACTGGTGGAAGTAAGCCTAAGGAAGATTTTGAAAAGGTTATGTGTGAGGGCAGAAAACACTGGGTGAGCTTCATTGAAGGGAAATGTAAGAATGCATTT
S
GGAACAAATCTCCATGGTTGGATTCAGGATTATCAGTGATGATCCAGAAGTGGAGCCTGTATACCACCCCTTGCCAGTTTCAGCACCATGTGTCCATGAC
Celera SNP ID:            hCV28022677
SNP Position Genomic:     18856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60653):
ACAGGCGTGAGCCACCATACCTGGCCAGATTTTAATATTTTATGAGTAATCTTGAAAAGGATGGTACACCAGGAGTGACAACTATCATGGGGAGTGAAAC
R
CTACACTGGTGGAAGTAAGCCTAAGGAAGATTTTGAAAAGGTTATGTGTGAGGGCAGAAAACACTGGGTGAGCTTCATTGAAGGGAAATGTAAGAATGCA
Celera SNP ID:            hCV1345852
SNP Position Genomic:     18752
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60654):
GTTTTTACTGAATTTAATTTTACCTTTGTAGTCACACATAAAAATAAAGTTTGCACTCCTTTAAGTCTTGATTGAACACATACCATTTTTGTTAAATTGA
R
TTCCCTTCATGAGCATAGGAACTTAGTAGCTGCTGAGTGGCTGGGGGAGGGAGACCTATTTACTGTTTACTATTGATCTTTATATTTTTTGAATTTGAAT
Celera SNP ID:            hCV25592820
SNP Position Genomic:     12046
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:60655):
AATTTTTTACCACAAATAAATATGAGATAATGTATATGTTAATTAGCTTGATTTAGCCATCCCACAGTATATACACATTTCAAAACAGCATGTTGTATAC
M
ATAAAAAATACAAATTTTAGTTATCAATTAAAAATAAATGAGAGGGAAAATTTAAAAAATTTTTTTTTGTCTTTTTTTTTTTTTTGAGACGGAGTCTCGC
Celera SNP ID:            hCV1345853
SNP Position Genomic:     20994
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,10)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60656):
ATGGGTTCATAAAATAATAGAATGATCAAACTCGAAGGAAGGACTTTAAGAGTGTTTCATTGAGATTCTCTTTCTTCATCTTTTTGTTTCACACAAGAAG
S
TGACCTTGGGAGGGTAAATTTTCCAGGGTCATGGCTAATGGCATAGCTGGGGCTTTAATTGGGGCTCCTGACACCCAGTTCAGTGTTCTTTTGTTGTAGC
Celera SNP ID:            hCV11753659
SNP Position Genomic:     29765
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60657):
TGATATTTTATTCAATAGAGTTCAAGCAATTCAGAAGAAAAGTGGAAACTTTGATGTAAGATGTTTGTTTTTACTGAATTTAATTTTACCTTTGTAGTCA
Y
ACATAAAAATAAAGTTTGCACTCCTTTAAGTCTTGATTGAACACATACCATTTTTGTTAAATTGAGTTCCCTTCATGAGCATAGGAACTTAGTAGCTGCT
Celera SNP ID:            hCV25592821
SNP Position Genomic:     11980
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,38)   total(C,73|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:60658):
CCTGGCCAACATGGTGAAACCCCGTCTTTACTAAAGCTACAAAAATTAGCTGGGCGTGGTGCCAGGCACTTGTAATCCCAGCTACTCAGGAGGCTGAGGC
R
GGAGAATTGCTTGAGCCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCTCCATTGCACTCCAGCCTGGGTGACAGTGAAACTCCATCTCAAAAATAAA
Celera SNP ID:            hCV27468990
SNP Position Genomic:     41390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60659):
TGAGACCCTCAGTGGATCTGCCCAGTGGTTTACGTGCACTGAACCTTGCAAGGTAACTGCAGAGAGACTAGATCATGTATCTATCTAATCCAAAAGACCA
R
TATATACCAAACCCGGCAGGCCCATTTGTTTCCTGAATTGCTATAATGTTTATCTCTTTGTTTGCAGCTTGGCTTGTGGAGATGTTGAAGGAAAGTTTGA
Celera SNP ID:            hCV25592822
SNP Position Genomic:     11782
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,38)   total(A,2|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:60660):
GCTCTGTCGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCCGTCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTAG
Y
TGGGACTACAGGCGACCGCCACCACACCTGGCTAATTCTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGAT
Celera SNP ID:            hCV1345855
SNP Position Genomic:     21593
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60661):
TGCAGGGAGGTCCTGGCCAGTGAAGCCATCCTTAATGTTCCTGATAAGTCTGACTGGAGGCAGTGTCAGATCAGCAAGGAAGACGAGGAGACCCTGGCTC
R
CCGCTTCCGGAAAGACTTTGAGCCCTATGACTTTACTCTGGATGACTAAAACAAAGGGAAGAACTTTTTATGAACTCCACAGGAAGTAGTAAAGCTTTTT
Celera SNP ID:            hCV25592823
SNP Position Genomic:     40638
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,36)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60662):
CACTGCAACCTCCGTCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGACCGCCACCACACCTGGCTAATTCTTT
R
TATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATATAGAGGTCAAGTTCTTAAAGAATATACTGCCAAGAAAACCA
Celera SNP ID:            hCV1345856
SNP Position Genomic:     21635
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60663):
AGTTTTAGTCCCAAGGATGTGTCTTCTCTGAGAATGATGCTGTGTACAACCTCCCAGTTTAAGGGTGTTGATATCTTGCTCACATCCCCATGGCCCAAGT
R
TGTGGGGAACTTTGGGAATTCTTCTGTGAGTAGTGTTTGTTTAGTTGGAATTTCTAAAAGCAAATTGCACTGGCTTGAGTTGGGACTTTTTTCTTTTCCT
Celera SNP ID:            hCV15959113
SNP Position Genomic:     17627
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,20)   caucasian(A,3|G,33)   total(A,19|G,53)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60664):
CCTGGCTACTTTTTGTATTTTTAGTCGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCTGCCTGCCTTGGCCTCCC
R
AAGGTATTACAGGCATGAGCCACCCACGCCTGGCAAGATCTGGTTTTTGACATGTTGAGCCTAAGGTTTTTGACATGTTGAGCTATCAAGGCATTCCAAA
Celera SNP ID:            hCV25592824
SNP Position Genomic:     37385
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,13)   caucasian(A,20|G,20)   total(A,43|G,33)
SNP Type:                 INTRON


Context             (SEQ ID NO:60665):
GCCACCATACCTGGCTACTTTTTGTATTTTTAGTCGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCTGCCTGCCT
Y
GGCCTCCCGAAGGTATTACAGGCATGAGCCACCCACGCCTGGCAAGATCTGGTTTTTGACATGTTGAGCCTAAGGTTTTTGACATGTTGAGCTATCAAGG
Celera SNP ID:            hCV25592825
SNP Position Genomic:     37376
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,13)   caucasian(C,20|T,20)   total(C,41|T,33)
SNP Type:                 INTRON


Context             (SEQ ID NO:60666):
CATTCTACAGGAAAATGCACAGCATGCCACCCGGTTTATAGCTCTGGCAAATGTTGGAAATCCAGAAAAGAAAAAGGTAAAGATTTACCTATTTGGTGGA
R
GGTTGATATTCATGGTCTGCCTGATAAATGTATCTCTTGTCCAGTTTAGCATTCAGATCTTCTCTTCTCCCTGACTGCAAGGTCTCAGCAGTTTCGGAGA
Celera SNP ID:            hCV1345858
SNP Position Genomic:     23691
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,6)   caucasian(A,38|G,2)   total(A,56|G,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60667):
TGTATTTTTAGTCGAGACGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCTGCCTGCCTTGGCCTCCCGAAGGTATTACAG
K
CATGAGCCACCCACGCCTGGCAAGATCTGGTTTTTGACATGTTGAGCCTAAGGTTTTTGACATGTTGAGCTATCAAGGCATTCCAAAAATGTTATTAAAT
Celera SNP ID:            hCV25592826
SNP Position Genomic:     37398
SNP Source:               Applera
Population(Allele,Count): african american(G,32|T,4)   caucasian(G,37|T,1)   total(G,69|T,5)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60668):
CCTTACAGACAGGCTGACACAGGCTTGTCTGGCCTGAGGATATTCTGTGCTGAGGGGTGTTTCTCCACCCCTGTGATGGATTTGCTACTTCTCAGAGACT
R
TGCAGGCACAACTTCTCTGGGACCTGCACAAGGAATTTCTCCTGTCTCCCCAACCCCCAGGTCATTCCTGTCCCAATCAGCTGCTCTACTACTGATGACA
Celera SNP ID:            hCV25592827
SNP Position Genomic:     36884
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,26)   caucasian(A,1|G,31)   total(A,9|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:60669):
AGGAGGCTGAGGCAGGAGAATTGCTTGAGCCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCTCCATTGCACTCCAGCCTGGGTGACAGTGAAACTCC
R
TCTCAAAAATAAAAGAATAAAAGTATGTCTGTCATCCAGCTCCTATGTCTGTTATCCAGCTCCAAGTACAGCTTGTGTATATCAACATTTTCAAAAACCT
Celera SNP ID:            hCV11743422
SNP Position Genomic:     41477
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Gene Number:                 329
Celera Gene:                 hCG19452 - 104000117877618
Gene Symbol:                 NUDC
Protein Name:                nuclear distribution gene C homolog (A. nidulans);HNUDC;MNUDC
Celera Genomic Axis:         GA_x5YUV32W802(56208453..56245628)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12489):
TTAAATTCCAAGTGGTTTCTGGCATACGGTAGGAGGATTTTTCTGCCCCTTTCCTCTGTGGAGCTGAGCACCAGTGGACAAACAGGCACACCTCTTTCAT
TTGATTATTAGTCTTAATCCTTAAATTTATAAAGTTCCTTTCATGTTTTTAAATCTCACTGAATTCTCACAGTGTCCCCTTGAAGCAGACTCTGGAGTCA
GACTGGCTGGGTTCAAATCCTGCTTCACTTAGCTGAGTGACCTTGGGCAAATCACTTTCTCTTTCTGTGCCTCAGTTTCCTCATTTTTAAAACAGTGACA
AGAATTTCTGGAGGTGGATATTGGTTTTATGGGGCCTGAAGGTTACGATTTGGAGGACCCTCTTTAAGAATAGAATACACACTCGGTTACGGTGGCTCAC
GCCTGTAATCACAGCACTTTGGGAAGTTGAGGTGGGAGGATCACTTGAGGCTTCAGGAGTTCAAGATCAGCCTGGTCAACACAGTGAGACCTCATCTCTA
CCAAAAAAAAAAAATTAGCCAGTGTGGTGGGGCATATCTGTAGTCCCAACTACTTGAGAGGCTGAGGCAAGAGGATGGTTTGAGCCCAGGACTTCAAGGC
TACAGTGAGTTATGACTGTGTTACTGCCCTCCTGCCTTGCTCTAGACAGAGCAAGACTCTGTCTAAAAAAAAACGAAAAAACCCCACACACAAAACCTCC
CCTTAGACCCTGAATATTTATATTTATTTGATCAATGTGGTCAATGGGAACCCTTTCAAGCTGGTGTCTGTGTCATTTTGGCCTGCTTCCATAATTCCTG
GAACACTTGCTTTCTGGTATAGCAAGATATCAACTTTTCCAGCCCCTGGAATCAACCAATACTCCAAAGAGCTCTGATTTAATCTTTTAGTGGAAAATAA
TATTTAGAAAGCATGAAGTAGGCACTAGAATCATACTAAAAAACCAAGAACTGGCCGGGCACGGTGGCTCACACCTGTAATCTGGACTTTGGGGGCTGCA
GTGGGTGAGCTGCTTGAGCCCAGGAGCTCAAGACCAGCTTGGAAACATGGTGAAACCCCATCTCTACAAAAAAATACAAAAATTAGCTAGGTAGGTAGTG
CACACCTATAGTTCCAGCTACTCGAAAGACTAAGGTGGGAGGATTGCTTGAATCCAGGAGGGCAAGGCTGCAGTGAGCTGTGATCATGCCACTGCACTCT
AGCCTGGGCAACAGAGTGAGACCCTGACTAAAAATAGATAAATAAATAAAAATCAGGCGTGGTGGCTCACGCCTGTAATCCCCAGCACTTTGGGAGACCA
AGACAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAATCTTGTTTCTTCTAAAAATACAAAAATGAGTCAGACATGGTG
GCATGCCCCTGTAGTCCCAGCTACTAGAGAGGCTGAAGCGGGAGGATAGCTTGAACCTGGGAGGCAGAGGTTGCAGGGAGCCAAGATAGTGCCACTGCAC
TCCAGACTGGGCAACGGAGTGAGACCTTGTCTCAAAATAATAATAATAATAATAGGGCTGGATGTGGGGGTTCACACCTGTAATCCCAGCACTTTGGGAG
GCCGAGGCGGATGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCAAAACTCCATCTCTACTAAACATACAAAAATCAGCTGGGTAT
GGTGGTGCACGCCTGTAGTCCCAGCTTTTCGGGAGGCTGAGGTAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTTCAGTGAGCTGAGATCATGCCACT
GCAGCCTAGACTGGGTGAGACACAGTGAGACTCTTTCTAAAAATACTAATAATAAATAAAAATAAATAAATAAAAGAAACCACCTGGGCATGGTGGCTCA
CGCCTGTAATCTCAGCACTTTGGGAAGCTGAGGTGGCCGGATCACTTGAGGCCAGGAATTTGAGACCGGCCTGGCCAACATGGTAAAACTGTCTCTACTA
AAAATACAAAAATTAGCCAGACATGGTGGTGCATACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAAGCGGAAGTT
GCAGTGAGCCAAGATCCCACCACTGCACTCCAGCCTAGGCGACAAGAGTGAGACTGCGTCTCAAAAAAAAAAAAAAGAAGAAGAAACCAGAACTGTTCAT
TGTTATGAGGGTCACTACTCCCAGTCCTTCCTAGAGCTAATGAATGTGTACACACACACACACACACACACACACATTTACAATTATATTTATTTCTATA
ATTATACATACTAAACAACATGAATTCAGACTATCATCTCCAATTCCAAGCTCATATCATGGGGTTCATTCTAGTTTTTGCCCCTTGTGTATTTATACTT
CCTGTCTTTCACACCGAGGAATCTGGTGTCCATTATTCTTGATTTATCTTTTTTTTTTTTTTTTGAGACAGGGTCATGCTGTATCCCCCAGCTGCTGGAG
CGCAGTGGAGTGATCTTGACTCACTGCAACCTCTGCCTCAGGGTTCAAGTGATTCTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTGTCACCCAG
GCCCAGAGGCCCAATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAACAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCTGC
CACCAAGCCCAGCTGATTTTTCGTATTTTTTAGTAGAGATGGGGTTTTACCATTTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCTGCCCGCCT
TGGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACCGCACCCAGCTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTCTTGCCCAGGCTGG
CGTGCAATGGCACAATCTCGGCTCGCTACAACTTCCACCTCCCAGATTCAAGAGATTCTCCTGCCTCGGCCTCCCAAGTAGCTGGGATTACAGGTTCCCA
CCACTATGCCTGGCTAAGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGGCAGGCTGGTCTCGAACTCCCGACCTCAGGTGATCCACCTGC
CTCAGCCTCCCAAAGTGATAAGATTACAGGCGTGAGCCACTGCACCCAGCCTAAGTGATTCTTCTACCTCAGCCTCCCGTGTAGCTGGGATTACAGGCGC
ACACCACCACACCCAACTAATCTTTGTATTTTTAGTAGAGATGGTGTTTCACCATGTTGGCCGGGCTGCTCTTGAACTCTGGGCCTCAAGTGATCCACTT
GCCTCGGCCTCCTAAAGTGCTGGGATTACAGGCATGAAATACCACATCCAGCTACTTTTTTTTTTTTTCCTTTGTTTGAGACAGGGTCTGGCTTTGTCAC
CCACGCTGAAGTGCAGTGGCGTGATCACAGCTCACTGCAGCCTTGACCTCCCAGGCTCAAGTGATTCTCCCATCTCAGCCTTCTGAGTAGCTGGGATTAC
AGGCTCCCACTGCCATGCCCCGCTAATTTTTTTTTTTATACTTTGAGTTCTAGGGTACATGTGCACAATGTGCAGGTTTGTTACATATGTATACATGTGC
CATGTTGGTGTGCTGCACCCATCAACTCGTTATTTAACTCCGCTAATTTTTAAATTGTTTTGTAGAGACAGGGTTTTGCTGTGTTGCTATGTTTTGCAAG
TGTTGGGATTACAGGCATGAGCCTCCGCAGTCGGCCTGGATCTGCTTCTTGTTCCACACATAAACTTGTTTCTTTCACTGCTCACATACTTCCAGTTGTC
CTGGGAATCATTTATATTGGGATAAGACTTCTGATCCTGTACAGCAAGGGTCATGAGGTACAGCAAATGGTAGGAATATTCCTGGAAGCCCTTTCCACAC
ACCAGGACAGCTCACAATGACTTAACTATACACAAAAGTGACTGCCAGCCACCCAGCTATATCCCACCAAATCAATCCAAACTGAGTGTATTTCCAACTC
AACTTCACCTTAGCTGGATCACCAAATCCTCATGGCATCTCTGATATCACCTGATTCAAGGGAAAGTGAGATAGAGTGGGAAGAAATAGTAGTCTTAACC
AATTGCAATTTTAGAATTTTGCTTTTGCATGTTAAAAGAAAAAAAAATATGTATTTGACGCTATGAAGACATTGCTGGGGTTGCTCCCAGTGCCTAGGAT
GGGCCCGTGCAAGTGCAAGGCCCTGCCCTCAAGAGCCCTCAGTCTGAGGGAGAAGACACAGATCAACTCCAGGAATCTCTAATCTAAAGGGAGAAGTCTC
TAGTCTGAAGTGGGGAACACGCAATTCCAACCAAAAGAGAAACCTAAAGGAAAAAAGGAAAGAAGAAGGCGTCAACTGTGTCAAATGCACCTGAGAAGTT
GAGTAAGATAATAGTGGTTCATTGGCTTTGGCAATATGTAGCACTGTAACCATATCAGAGCCTTTAAAAAATAGACTAGAACAGGCCGGGCGCAGTGGCT
CATGCCTGTAATCCTAGCGCGTTGCGAGGCCGAGGCAGGTGGATCACTTGAGGTCAGGAGTTTGAAACGAGCCTGGCCAACATGGTGAAAACCCCTCTAC
TAAAAATACAAAAAAAAATTAGTTAGGCGTAGTGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGAATCACTTAAACCTGGGAGGCAGAGGTTGCAGT
GAGCTGAGATCGTGTCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTTGGTCTAAAAAAAAAAAGAAGAATAGATAGACTAGAATATACTGTAGAGAG
ATGGGAGGTGAGGGAGTAGAAAAACAAGCAAACAAGTTTGCTGCAAATGAGAGCTGAAAATTGGAGAGGTAGCAGCAGAAGAAAGTGGGGCCATGGAATA
ATAATATAAAAACAGGGCTGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGAGAGGCTGAGGCAGGAGGAGTGCTTGAGACCAGGGTTTGAGACT
TAGCCTGGGCAACACAGACTCCATCTCTACCAAAAAACAAAAAACAAAAAACAAAAAAAAAAAAACAGCAGGGCGTGGTGATGTGAGCCTGTAGTCCCAG
CTACTCTGGAGGCTGAAGTGGGGAAGATGGCTTGAGTCCAGGAGTTCAAGGCTGCCGTAAGCCAAGATGGTGCCACTGCACTCCAGCTTGGGTGACAATG
CAAGAACCCCATCTCTAAAAACAAACAAAAAGATATTAAAGCGTGTTTGTAAATTGAAGGGAAGAAGAAAGATATTTGTGATGCATAAGCTAAAAAAAGG
GATAATTAACAGGGATAGAGTTCCTGAAAAGACTAAGATGATGAGATTCATTGCACAAGTGGAGGGATTAGCTTGGATGGCTGGGTCCTGTCCCCGCATT
AACAGAAGTGAAGGTCAATTTCAGCACCTGTCATAATTTCCTGGGCCCAGTGCAAAATGAAAATGTGGGTCTCCTTATTCCAAAATTATTAAGAATTTCA
AGACTATAACAGAAGGCCATGAAATCAAGCGTGGAGCCTTTCTAAGCCTGGGTGCTGTGCGACTGCAATTTGTACTCCCATGAAGCTGGCCCTAGTCAAG
TACGCAGTGAGGTCGATGAGGAGGAGGCTGTCCTGTGGTAAGTCCCTTCTAGGATTGGAAGAGATGAGTAAGGCTACTTTCAGCTTCACTGCTCTACAAG
CTGGGGGGGTCGCTAGCAAGGGAGAGGGGCAAAACTTGTCCCTTTTTAACTTCCAACCCTGCCAGATTTGAGTCCAGGGCTTTCTAGAAGTCTCCACGGC
ATCGGGTGACCATAGCAACTCATGCCAAACTCTCGGGCCCACGGCTCCGCCTACCGCTTCGTGGACGCGCTTGTTGATTGGCTCCGAATGTCGACCAATG
GTCGGCGAAGCGGGTTGCTTGCCGCACGGTCAATGGCCGCAAACCGGGAGGAAGGCGGGAAGAGAGGAGGTGGAGGCGGGCCTGGGCAGCCGCGCGCGTG
CGTGTTTCCGGCTCCGCTGCGGAAGGCGGACGACTAGAGTCGTTGGGCCCGGCGCGAMCCGCAGGAGSGTAGAGAGCGCGGGACTAGAGTGCAGAGCTCC
GGGACGTGGATCGGAGCCGGCGCGATGGGCGGAGAGCAGGAGGAGGAGCGGTTCGACGGCATGTTGCTGGCCATGGCTCAGCAGCACGAGGGCGGCGTGC
AGGAGGTAACGGCCCGCGCGGCGTYGGCCCACCCGGCGGCCTTGGCCACGCTCCTTCCGCCCTTCTCTGCCTTCGAGGGCTGAGACCCACCCCAGCGGCT
CGCGGGCTTCTGGGATGCCCCTACATTCTCACTGCGCCCAGCTTCCGGCCTGGCCACCCGCCAGCAGGTCTCACCCGGTTCGCATCAGTCCCGGGCCCCC
GGCGCCCCTCAGTAGTAGCAAATTATCGCRTCCCTGAGCTTAGGATCCCCCTTTAGTTTCACATATGCCCCCACCCCCGTTTCCACTTTGATGGCGGCTT
CCAAGGAGCATCCCTTAGTAAGAACCGTCGCAAATATCGTGATTTGGATCCACCAAGGCTTGGGGCGAGCCGTCGAATGTGTGTGGTAGGGGAGCGGGCT
GATGTTAGCACGTGGTCTTGTTAGGCCTTGAATGGGGGAATAGGAGGCCTGTGTTCACGATTAGTTTCCACCACCTACCAACTTGGAACCTTTACATCTC
TCCAAGCCTGAGTTTCCTTATCTGTGAGACAGCTGCGAATACCGGTTTCCAGAGAGTAGTTAAGAACCGTAAGTTCTCAGTAATAAGGCTTTTTCATTCA
ACAAGTATTTGTCGTGTGATTGATGTGTGTCCCACACTCGACAATAAGGGCCAACTGTTACAGATTCTGGAGTTGGTTTTTTTGGAACAAACACAAAGTT
AACGGTAGAAAAGTCTGTCAGGATCAGAACTCTCATTCTCAGAGCCAGAGAAGTGGCAAGGATTTGCCTAGATCATGCAACATGGTTCTCACCTAGACAG
GTCAGTGTGCTTCCCAGAGTCCATGGCTGATTGTGTCTTACTGGAGGTAGGTTTCCATTGAACTTTCTATTCCTATGTAACCTAGGTGTCTGGTGACCAA
GGACTTCTAAGCCCTTTGTGGTGGGGAGAGTGTTTCTCATTTGCAAGTGTGAAAAGCCTTCCTGTCTCCATTCCTCTAAACTGTTCGCACAAAACTGGAT
TTGGGAGCGAGTTCATTTTTGAGCAAATTGAAAAACTGTCTAGAAGCAAGAACGGAAACCATTGAGATATGTTCTAGCATCAGATTTAATCAGATTTAGA
CCCACTCTTGGGCAAATAAAGGGTTTGTGTGTGCTGACCTTGAGTCACCACTAGATTGTTTCATTCAGCAAGAATTTTACTGATTATGTACCTTTAGCCA
TATCTGGTGCCCAGCATTGCAGGTGGCAGACAGACTAAGCCATGGTTCATGGTTCCTATTTGTAAGGTGTTTACCCTCTGCCAGTGGGTCTCTTGCTCTG
TGCCATACATTGCTAAAGGCCTCACCTCCTTGACCTCATGATCCTCACCAGGTCCCTAGAAATAGGTACTGCATCTTATTCCTGTTGTACAGAGTTAAGA
AACTTCTGCAAAGTCAAAAGGTAATATATGTCCATCTGATACTCAAACCGTTGGCTACACTTGTACTCCAGCCAGAATTAATCCATCTTATCCTCCTTTG
AAGTGGCTTCATTTGCTCTCCTCCTTCTTGCTTTGACCCGGTAACTTAGCCAGTGTCTTTTTTTTTGTTTAGACAAGAGTCTCTCACCCAGGCTGGAGTG
CGGTGGCACGATCTTGGCTCACTGCAACCTCTGCTTCCCGGGTTCAAGTGATTCTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCCACCACC
TGTAATCTAGCTAATTTTTGTGTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGACCCGCCCACCTGA
GCCTCCTGAAGTACTGGGATTATAGGTGTGAGCCAGTGTCTTSATGGGCTTTTTACTTTCTGGAGAGGAAAGCTGGGCCCAGGCTTTTCATGCCCTGGAT
GCAGAGGAGTGTTCCATACGCTTAGGCTGCTTCTAGCATCACAAGGAAAGTGAAAGGCGCACACACACACAGGATATGAGAAATCTGCTTCATGGTGGAA
GTGACTAAGAGAACYTGCTGGGGAGATAATCTCCTCAGTTGGGAAGCTCAGAGGAAAAATAGTCAAGTCCCAAGTTCCCTCCTAGACAAAACAAGTTGAC
TTGTGTGCAGTTGAAGGGCTCCCAAATGCAGCTCTACTACTTTAATCTTCTCCCCCTCTTTCAGCTTGTGAACACCTTCTTCAGCTTCCTTCGACGCAAA
ACAGACTTTTTCATTGGAGGAGAAGAAGGGATGGCAGAGAAGGTAAGTGTTGGAAACCACTGTCCTTTGGGCGGCTCTGTCTCTTCAGAAGAAAAGCTCA
CCTGGCCTTTCTTTGGCATAATAGTAACTTTCAGCAGAAGCGAAATGCCAAAGGTGAGGAATTGGGGAAGGGAAGGAAGCTGTCATTTCTTCAAGCTCCA
CTCCTTGCTCAGCCCTCTATCTACCTTATTTCCCATGACTTTTGCAGTTCTACAAGAGGGGCAGGTGTTAACTATCCCCATTGAGGAAATTGGCTCAAGA
GAATTTTGCACCTTATCCAAAGTCTTGAGCTGAGCTGTGGGAGAACCAGGGTTGAAACCAGTCTGTTGTAAACCTGTCCTCTGCCCCRACACAGTGCCTC
TCAGTTCCTTTTCCAATGAGGAGGTTTTATTTATTTATTTATTTTCTGAGACAGAGTCTTGCTTTGTCACCCAAGCTGAAGCGCAGTGGCGCAATGTCGG
CTCACTGCAACTTTCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAAGTGGGATTACAGGCGCCCGCCACCACACCTGGCTAATTTT
TGTATTTTGATAGAGACGAGGTTTCATCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATT
ACAGGTATAAGCCACTGTGCCTGGCCAGGAGGTTTTATTTTTACTTTTATTTATTTTATTTTATTTTATTTTTTGAAATGGAGTCTCATTCTGTTGCGCA
GGCTGGAGTGCAGTGGCATAATCTAGGCTCACTGCAACCTCCGCCTCCTGGGTTTAAGTGATTCTTGTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGG
CAGGCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACCCCTGACCTCAAGTGATCCA
CCCACCTYGGCCTCCTAAAGCGCTGGGAGTACAGGTGTGAGCCACTGCACCCGGCCTGAGGAGGTTTTAACTAATAACCTAGGAGATGAGACTGGGCAAA
TATTAGAAACTGATGCTTAGAAATAAATTTAGAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCTGGCGGATCACGA
GGTCAGGAGATCGAGACCATGCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAACACAAAAAATTAGCCAGGCGAGGTGGCGGGCGCCTGTAGTCCC
GGCTACTCTGGAGGCTGAGGCAGGAGAATGGCGTGAACCCCGGGGGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCAACAG
TGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAATAAATTTAGAAATACTCAGAGGCATGTCTTCCCAGATGCTGTGACTCAGAGTTTAAGGAT
TTCTGTTTTGTAGTATTGATTCTGAGACCTTGAACTTCTTTCTGATTCCTTAAAGTTGTAATTATACTTTTGAAAATTGTTATATCATGAGGAATTTTTT
TTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTGTTGCCCAGGCTGCAGTGCAATGGCACGATCTCAGCTCACCACAACCTCCGCCTTGCGAGTTCAAGC
AATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACCACGCCTGGATAATATTTGTATTTTTAGTAGAGATGGGGTTTCACCATG
TTGGCCAGGCTGGTCTTGAACTCCCAACCTCAGGTGATCTGCCTGCCTTGGCCTCCCGAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCAGCCTTT
TTTTTTTTTGAGACGGAGTCCCGCTCTTTTTATCCAGGCTGGAGTGCAATGGTGCGATCTTGGCTCACTGCAATGTCTGCCTCTTGGGTTCAAGCAATTA
TTGTGCTCAGCCTCCTGAGTAGCTGAGATTACAGGCGTGAGCCACCACGCCCGGCGCCATTATCTTTATAATAGACATAAACAAGAGACATAATAAGAAG
GAGACGTAGACGTTCTTTGCAAACCGTTTTCTGTGGCTTCAGGATTCTAACAAGTTGGTAAACTCTTTAATGTGTCCTGAATGTCTGAGGCCACTCTGTC
ATAGACAMATTACCTAAGAGTAGGAGTCCCAGGTTCTTGGTCTAGCTTTGTCACCTAGTCGAGTTCCCAGCAATGCTCTGGTTCTTTCCATCTTTACATC
TGTAAAATGGGAGAAAGTAGACCCCTTCTAGCTCAGATATTTTTTCTGTATTGTCACTAACACCTCTGGCCTTTCTGTGGGTCAGACTACCTGTAAAACC
TCATGCCGCAAACTTACAAAAAAATACAAAAGCACTTTTAGTTTTTATAGCTTTTGGGACTAGTCATTTATTTTTTCTTTCTTTTTTTTTTTGACACGGA
GTTTCATGCTTGTTGCCCAGTCTGGAGTGCAATGGCACGATCTCAGCCCACTGCAACTTCTGCCTCCCAGGTTGTAAGTGATTCTCCTGCCTCAGCCTCC
TAAGTAGGTGGGATTACAGGCATGCACCACCATGCCTGGCTAATTTTGTATTTTTAGTAGAGACAGGTTTCACCATGTTGGTTAGGCTGTTCTYRAACTC
CTGACCTCAGGTGATCCMCCWGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTACTTTTTTCAATGAATGTTTATTGA
ACACTTAACACTTTGGATTATGTTAGGTGCTATATCAAACCTTTTGGGATTGCAGAGGTGAATACAGATTTGTTCTTTGTTTTCATGGATCTCACAGTGT
AGCCAAAATAAAAAAAACAAGCAGTGAAAAAGTAGTGGGTGTTGGGGCAGAATCCCTGGGAACATAAAACTAACCTAGGTTGGGGGCTCAGAGAAGACTT
TGTGAGGAAGTGACGCTTCAGATATGAAGGATGAATAGCTGTAAGAAGGGAGAGAGATGAACCGTGTGTGTGTGTGTCAGGGTCTTGCTCTGTTGTCCCA
GCTGGAGCACAGTGGCTGTAAGAAGGGAGAGAGATGAACCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGKGTGTGTGTCAGGGTCTTGCT
CTGTTGTCCCAGCTGGAGCACAGTGGYGTGATCCAGCCGCCTTAGCCTCCCAAAGTGCTGGGACTACCTAATTTTTCTTTTTCTTTTTTTTTTTTTTTTG
AGACGGAGTCTTGCTCTATGACCTAGGCAGGAGAGCAGTGGAGCGATCTCAGCTCACTGCAATCCCCGCCTCCCAGGTTCAAGCGATTCTTCTGCCTCAG
CCTCCTGAGTAGCTGGGATTACAGGCGCCCGCCCCTATGCCTGGCTAATTTTCGTATTTTTAGTAGAGCCGGGGTTTCACCATGTTGGTCAGGTTGGTCT
CGAACTCCTGAGCTCGTGATCTGCCCGCTTCGGCCCCTCAAAGTGCTGGGATTACAGTCATGAGCCACTGCGCCCAGCCCCTAATTTTTCTTAACTGTAA
GAGGGAGCAGTCCTTACCTTACAAGGATGTTACGAGGATTTAAAAAAAGGCAAAGACCACAATCCACTTCAGAATCCCTTGGGGCCACATGTGTTTTGGT
ATTTAAAATTATTTGGATTTCAGAAAGGCAATACAGTGCATATAATGTGCATTACATACAATAATCTAATCGCAGGCCAGGAGCTGCATCCTGCAACAAA
ACACATTAATATTTCTGCAGAAATATATATATCAATATACATACCAAGTAGAAGAAATGAAGACTGTAAATACCTCATGCCACGAACTTACAAAAAAATA
CAAAAGCACTTTTAGTTTTTATAGCTTTTGGGGCTAGGAATTGTAGACTTGAATACAGCCATAGTGATCTAATCAATATGGTATTGATAGAAGAAGAGAA
AAATGGACCAGTGAAGCAGAATAGAGAATCCTGAAATAAAGTCTGGCATTTATGAGGATTTAATGTGTCTATTGTGGTAATTCAGTTCAGTAGGCAAAGC
ATGATTTAATAAGTCATGCTGCTACATGAATTTTTTTTGGTTAAAAAAACAAAATTTGCCATCTGTCATACTCTATAAAAATACCAATAATAAAAATCCT
GTAAGGAAAACTAGGAAACTATAGTCTTATGTGGGGGAGACTTTTCAGCATTAGAAAACTGGAAGCTATAAAAGAAGAGATAGCTGTTTGCCTTTTCAGA
TGCTGAAACTTTGTAAATGGTAAAAGACATTTAAGTCAATTGAAGAACACCAGATTATGAGAAAATATGCAGTGCAGAGGAAAAATAACATTTAATTGTG
AATTTCATATTTAGGAACTCATAAATAAAAATTAGCCAGGCCTTGTGGCACATGCCTTTAGTCCCAACCACTCAGGAGGCTGAGGTAGGAGGATTGCTTG
AGCCTGGGAGGTTGAGGCTTCAGTGAGCCGTGATTGTGTCACTACGCTGCAGTCTTGGTGACAGAGCAGGACTTTGTTTCCAAAACAAAACCCACAATGA
GATACTATTTCACATCTGTTAGGATGGCATCCGTTAAAAGATAAAACAAAATAACAAGTGTTGACAAAGATAGGGAGAAACTGGAACCCTTGTACACTGT
GGTGGGAATGTCAAATGGTGCATCTGCTATGGAAAACRTTATGGCGGTTTCTCAGAAAGTTAAAGAATACAACTATCGTATGTTCTAGCAGTCATGCTTG
TGGGTATATACCCAAAATAATCAGGAGGAGGATTTACTTGCACACCCATGTTCACAGCAGCCTTATTCATAACAGCCAAAAGGTGGAAGGAACCAAAGGC
TCCATCAGCAGGTGAATGGATAAACAATGTGGTATAGACATACTCTGGGATGTTATTCTGCCTTAAAAGGGAAAGAAATCCTGTCCATTGCTACATGGAT
GTACCTTGGAGGACATCATGTTATATGAAATAAGCTGGTCACAAAAGGACAAATACAGTTGATCCTTTGTATCCGTGGGCTCTGCATCCATGAGCTTAAC
CAACCACTGATGGAAAATATTTGGAAAAAAAATTTTTTTTAAATGACAGTACAATAATAAAAAAATATGAATTAAGCCCGACGTGGTGACGCACACCTGT
AATCCCAGCTACTTGGGTGGCTGAGATGGGAGGATGGCTTGAGCCCAGGAATTTGAGATCAGCCTGGGCAACATAGCAAGACCCCTTCTGAAAAAACAAA
AAAAAAAAACAAATTAAAAAAATATAATCTAATTACTTACATCCGTAGCAGTTACATTGTATTAGGTATTAGGTAATCTAGGGATGATTGAGAGTATGCA
GGAGGATGCATGTAGGTTATATGCAAATAAAATGCCATTTTATATAAGGGACTTGAGCATCCTCGGAAATTAGTGTTGGGGAGTGGTCCTGGAACAAATC
TTCGTGGGTACGGTGGGACTACCCTATTGCATTCCACTTACATATAATTGAAGGCATATTTTTTGATGAGTAAATATTATGTGACTATCTAAAAGAAAAG
TTACTGTTTAAAAACATAACTGTAGGGCCGGGCACAGTGGCTCATACCTGTAATCCCAGCACTTTGGGAAGCTGAGGTGGGTGGATCACCTGAGGTCAGG
AGTTAGAGGCCAGCCTGGCCAATATGGTGAAACCCTGTCCCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTAGGCGCCTGTAATCCCAGCTACTC
GGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTTCAGTGAGTCGAGATCGCACCACTGCACTCTACCCTGGGCAACAAGAGTGAAAC
TCCGTCTCAAAAACAAAAACAACAACAACAGCCACAACAAATGTAACTGTAATGGTATACCTTCTCCAGAAAAGCATACCAATTCTTTAAATATTACCAG
AGATCCACATCCAGTCAGGGTTCTGATTTCCCTCAATGCTCTCTTACTATTGTGTTTTGTTTTGTTTTGAGACAGGGTCTCGCTCTGCTGCCCAGCCTGG
ATGGTGTCCAGTAGTGCGATCATGATTCACTGCAGCCATGACCACTAGGCTCAGGCGGTCCTCTCACCTCAGCCTCCTGAGTAACTGGGAGTATAGGCGT
GCCCCACCACACCCAGCTAATTTTTGTATTTTTTGTAGAGTGGGGGTTTCACCATCTTGCCCAAGCAGGTCTTGAATTTCTGATTCTGATCTCAAGCGAC
CTACCCGCCTTTGCGGCCGCCATTGTACCCAGCTCTTTTGTTTTTTAAAAAAATATGGGCTGAGATGGGGGGATCACTTGAGGCCAGGTGTTCAAGACCA
GTCTGGTCCAACATAGAGCATATCTGTACAAAAAATAGAAAATCATAGCCAAGAGTGGTGGCACAAGCCTGTAGTCCCAGCTACTCTGCAGACCAAGGTG
GGAGGATCTCTGGAGCCCAGGAGTTTGAGGCTGCAGTGACCCATGATAAACGGCACTGTAATCCATCCTGGGCAACAGAGCTAAACCCTGTCTCAAAAAA
AAAAAAAAAAAATAGTGGGCTGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGAAGGCCGAGGTGGGCAGATCACCTGAGGTCAGGAGTTTGAG
ACCAGCCTGGCCAAATGGTGAAACCTCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCAGGGGCCTGTAATCCCAGCTACTCGAGAAGCTG
AGGTGGGAGAATTGCTTGAACCTGGGAGACAGAGTTTGCAGTGAGCCGAGATCATGCCATTACACTCCAGCCTGGGCCACAGAGCGAGACTCTGTCTCAG
AAAAAAAGTGTGGTAAAAAGCACATCATAAAATTTACCTTCTTAACCTTTGTTTTGTTTTTTGTTTGTTTGTTTGTTTGAGACGGAGTCTCGCTCTGTTG
CCCAGCCTGGAGTGCAGTGGCGCCATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCCAGCAGTTCTCCCACCTCAGCCTCCCGAGTAGCTGGGATTA
CAGGCGTGTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCAGGTGA
TCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAACCACTGCGCCTGGCCTTTTTTTTTTTTTTTTTTTTTTTGAGGTAGAGTCTCGCTT
TTTCGCCCAGGTTGGAGTGCAGTGGCACCATTTCGGCTCACTGCAACCTGTGCCTCCTGGGTTCAAGAGATTTCTCGTACCGGTTGGGCACGGTGGCTCA
CACCTATAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCATGAGGTCAGGAGATCGAGACTATCCTGGCCAACGCGGTGAAACCCTGTCTCTACTA
AAAATACAAAAATTAGCCGGGCATGGTGGCACTCTCCTATAATCCCAGCTACTCGGGAGGCTGAGGGAGGAGAATCGCTTGAACCCAGGAGTCAGAGGTT
GCAGTGAGCCAAGATCGCCACTGCACTCCAGCCTGGCGACAGAACGAGACTCCATCTCAAAAAAAAAAAGAGATTTCTCCTGCCTCAGCCTCCCAAGTAG
CTGGGACTACAGGTGCCCACCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCAGTAACATTGGCCAGGCTGGTCTCAAACTCTTGA
CCTTGTGATCCGCCCATCTTGGCCTCCTAAAATGTTGGGATTATAGGTGTGAGCCACCACGCTTGGCCCCTTTTTTTTTTTTTAATTTTTATTTAATTTA
TTTATTTATATTTCTGAGACAGAGTCTCACTCTGTCACCCACTGGAGTGCAGTGGCATGATCACTACTTACCTTGACCTCCCCAAGGCTCAGGTGATCCT
CCCACTTTAACCCCTTAAGTAGCTTGGACTCCAGTGCCATCATGCCCAGCTAATTTTTCTTTTTCTTTTTTTTTTTTGAGACAGAGTATCGCTCTGTTGC
CCAGGCTAGAGTATAGTGGTGTGACCTTGGCTCACTGCAACCTCTGCCTTCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAC
AGGTGCGCACAACCATGCCGGGCTAATTATTGTATTTTTACAATGTAGAGATGAAGTTTCACCATGTCAGTCAAACCTGTCTTGAACTCCTGACCGCATG
ATCCTCCTGCCTCGACTTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCCGGCCCCCAGCTAATTTTTCTGTTTTTTTTGTAGAGATGAGGTT
TTACCATGTTTCCCAGGCTGGTCTCTAACTCCAGGGCTCAAGTGATCTGCCTGACTCGGCCTCCCAAAGTTCTAGGATAACAGATGTGAGCCACTGTGCT
GGCCCATGTTAACCATTTTTAAGTGTACAGTTCAGTAGTGTTAAGTGAACTTACACTAAGAAACATATTTGTAAGACCTCTTTGCATCTTAGGGAACTGA
AACCCTGTACCCATTAAGCAACTTCGCTTTGTTCCCTCCCCTACCTCCTGGTAACTGCTGTTCTGTTTTCTGTGTAGGTTGACTACTGTAGATACTTCAT
ATAAATGGAATCATACAATATGTATGTCTTTGTGACTGGCTTATTTCGTTTAATGTAATGTCCACAGATTTATCCACATTGTARCATGTGACAGGATTTC
CATCCCCTTTAAGGCTGAATAATATTCCATTATATGTATATATCACAATTTTTTTTTTTCTTTTTGAGACAAGTCTTGCTCTGTTTCTTGCCCACGCTGG
AGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCAGCCTCCCGAGTACCTGGGACTACAGGCACACGCCACCACGCCCGGCTAATTTTTGTATTTTTAT
TAGAGTCGGGGTTTTACCATATTGGTCAGGCTGGTCTTGAACTCCTGACTTCGTGATCTGCCTGGCTCGGCCTCCCAAAGAGCTGGGATTACAGGCTTGA
CCACCGCGCCCGGCCACAATTTTTTTTTTTAAATCTATTCTTCTGCTGATGGACTTTTGGGTTGCTTTCACCCCTTGGTTATTGTGCATAGTACTTTTGT
GAACATAGGTGCACAAATCTTTTGAGATTCTATTTTCAATTCTTGCAGGTGTTACTCGGCAGTGTAATCTATTGGATCATATGGTAGTTTTTGTTTTTGT
TTTTGTTTTTGTTTTAAGACAGTATTACTCTTGTTGCCCAGGCTGGAGTGCAATGATGCAATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCG
ATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGATTACAGGCACCTGCCACCACACCTGGCTAATTTTTGTATTTCTATTAGAGACGGGGTTTCACCATGT
TGGCCAGGTTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTTTGAGCCACTGCATCCAGCCAGTT
TTTAGTTTTTTTAGGAAATGCCATGATCTTTTCCATAGCAGATGCACCATTTGACACTACCACTAATAGTACATGAGGATTCTGTATTAGTCTGTTCTCA
TGCTGCTATGAAGGAATACCCCAGACTGGGTAATTCATAAAGAAAAGAGGATTACGGCTGGGCACGGTGGCTCACGCCTGTAATCCCACCACTTTGGGTG
GCCAAGGTGGGCAGATCACGAGGTCAGGAGATCAAGAACATCCTGGCCAACATGGTGAAACCCCAGCTCTCCTAAAAATACAAAAATTAGCTGGGTGTGG
TGGCGTGTGCCTGTATTCCCAGCCACTTAGGAGGCTGAGGCAAGAGAATCGCTTAAACGTGGGAGGCAGAGGTTGCAGTGAGTCGAGATTGTGCTATGGC
ACTCCAGCCTGTCGAGAGAGCGAGACTCCGTCTCAAAGAAGAAAAAAAAGAGGTTTAATTGACTCAGAGTTCTGCATGACCGGGGAGGCCTCAGGAAACT
TAAAATCATGGAAGAAGGCATTTCTTCACAGATTGGCAGGAGAGAGAATGAGTGCCAGCAGAAGAAATGCCAGACGCTAATAAAACCATCAGATCTTGTG
AGAACTCACTCGTATCATGAGAACAGCATGGGGGAAACCATCCTGGTGATTCAGTTACCTCCACCTGGTACTGCCTTTGACATGTGGGAATTACAATTCA
AGGTGAGATTTGGGTGGGGAAACAGAGCCAAACGGTATCATTCTGCCCCTGGTACCCCCGCCAAATCTCATGTCTTCACATTTCAAAACACAATCATGCC
CTTCCAACAGCCCCACAAAGTCTTAATTCATTTCTGCATTAACCCATAAGTCCCAGTCCAAAGCTCATCTGTGACAAGGTATTACTTCGTTCTCATGCTG
CTGTGAAGAAATACCCAAGACTGGGTAATTTATAAAGGACRGAGGTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCGGGCTGGAGTGCAGT
GGTGCAATCTGGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCAGTAGCTGGGACTACAGGCACCCCCCACCATGCC
CGGCTAATTTTTTGTGTTTTTAGTAAAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGGCCTCGTGATCCACTTGCCTTGGCCTCCCA
AAGTGCTGGGATTACAGGCGTGAACCACCGYGCCCGGCCAGGACAGGTTTTTTTGTTTTTGTTTTTTGTTTTTTTTTCTTTTGAGACAGAGTCTCGCTCT
GTCACCCAGGCTGGAGTGCAGTGGGGCGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGG
ATTACAGGTGCCTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTGGCCAACCTGGTCTCGAACTCCTGACGTCAG
GTGTTCCGTGCCCCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCGTAAACCTCTTTTCTTTATAAATTACCCAGTCTAG
GGTATTCCTTCATAGCAGCATGAGAACAGACTAATACAGAACCCTCATGTACTATGGCCAGGAAAGAGGTTTAATTGACTCATAGTTCTGCATGGCTGAG
GAAGCCTTAGGAAACTTACAGTCAGGGTGGAAGGTGAAGGGGAAGCAGGTACCACCTTTACAAGGTGGCAGGAAGGAGAAGTGCCAGGCAAAGGCGGAAA
AGCCCCTTGTAAAATCATCAGATCTCATGATAACTCACTATCAAGAAAGCAGCATGGGGGTAGCCACCCCCATGATTCAAATTACCCCCCACCAGGTCCT
TCCCATGACATGTGGGGATTATGGGAACTACAATTCAAGATGAGATTTGGGTGGGGACACAGAACTAGATGATATCATATATCATCTAGTCAAGACATTT
GTCTTTTTTATTGGGTATTTGATTACGATTGTTTGATTCCTAATTCAAGTAAGGTTCACACTTTACACTGGGTGATAGAAACCTGTAAATTAAGAGACCT
CAAACAAAGACAAAAACAAAAAATTAAGGGTCAGGCACAGTGGCTCAGGCCTGTAATCACAGCACTTTGGGAGGCTGAGGTGGTAGGATCACTTGAGCCC
AGGAGTTGAAGACCAGCCTGGGTAATATAATGAGACTCCATCTCTACAAAAAAAAAATGTTTTGTTTTTTTTTGACTTGGAGTCTCTGGTGCTGAGGCGT
GAGTGCAGTGGCATGATCTTGGCTCACTGCAGCCTCCGCCTCCTGAGTTCAAGCAGTTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCC
ACCACCACGCCCGGCTAATATATATATATATATATATATATATATATATWTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTT
GCTGTTGTTGCCCAGGCTGGAGTACGGTGTCCTGATCTCGGCTCACCACAACATCTGTCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCTTCCCAAGTA
GCTGGGATTACAGGCATGCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCTCCAAGTTGGTCAGGCTGGTCTTGAACTCCCGA
CCTCAGGTGATCCGCCTGCCTCGGCCTCCCAGAGTGCCTGGTTTACAGGTGTGAGCCACCGAGCCCAGCCTAATTTTTGTATTTTTAGTAGAGGCAGGGT
TTCACCTTGTTGGCCAGGCTGGTCTCGAACTCCAGTGGTCTAAATCCTGACCTCAGGTGATCCACCCACCTTGGCCTCCCGAAGCGCTGGGATTACAGGC
GTGAGTCACCCTACCTGGCCTACAAAAAAAAATTTTAAGATTTAAAAAATAAAACACAAGAGACCTCTTTTTTCCTTGCAATTTGTTTTTTGAATAAAGG
GTCGTTTGTCCTGGCAAAGTTTCCCACAATCTGGATTTTGCGTATTGCATCCTAAGAATGGTTTTTACTCACAGCCGTTCTGACACCAAATGTGTGGGGT
TTTTCCACCACTCGACGACCAGTTCTCCAGTTCTCTGGACACCAACTGGGTATCCTACAATTCAATTGAATTCTGACCGTAACTACCCAGAATTACTGCA
GACTCCACAGGTTAAGGACTCAGTCCCATAAGACAGTGCCCACTTGACACACCAGTTATAAGTTCCAARTTGCCTCGTGTACTTCTGACCAACCAGCTGT
AAACTGGGGTTTGCCATGACCACCTTTTCAGGTTTAATAATTTGCTAGAATGATTCAAAACTCAGGAAAGTGCTTTATTTACTGTTACTTGTTTATTATA
AAAGACATAACTTCAGGAACAGCCAAATAGCTGTGTAGGGCTAGGTATGGGGGTGGGGCCTGGAGCCTCCGTACCCTCTCTGGGTGTGCCACCCTCCCGA
CACCTTGATGTGTTCACCACCCTAGAAACTCCAAACCCCATTGTTTAGGGGGGTTTTTGTTTTGAGACAGGTTCTCACTCTCACGCAGGTTKTAGTGCAG
CGGYGCAATCTCGGCTCACTGTAACCTTCAGTTCACAGCAACCTCCGGCTCCCAGGCTCAAGCAGTCCTTCCATCTTAGCCTCCCGAGTAGCTGGGACTG
CAGGCATATGCCACCGTGTCTGGCTAATATTTTCGTATTTTTGGTATAGACGGGGTCTCACCAYGTTGCCCAGGCTGGTCTTAACCTCCTGAGCTCAAGC
GATCTGCCCGCCTCGGCCTTTCCAAAGTGCTGGGATTACCGGTATGAGCCACTGTACCTGGTAAACTTAAATTATTTGCACAGATGTAGTTCCTCAGTGC
ACTAGCATTTTATTTATTTATTTTTATTTCTATTTATTTGTTTGTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGGGTGCAGTGATGTGATC
ATGGCTCACTGGAGTCTTGACCTCCCAGGCTCAAGCAATCCCCCTGCCTCAGTCTCTCRAGTAGCTGGAACTACAGGTACCACTACACTCAGCTAATTTT
TGTATTTTTTATAGAGACAGGGTCTTCCTATGTTGCCCAGGCTGGTTTCAAACTCCTGGGCTCAAGTGATCTGTCTGCCTCTGCTTCCCAAAGTGCTGGG
ATTACAGATGGGAGCCCCCGTGCCCGACCTGGATTAGCATTTGAATAACAGCTATTTCATAAAATTCTTCTGCCTTCTGAAAAGTATTTGAGAAGGCTGG
CATGGTGGCACATGCCTGTACTGTCCTGGGCCTCTTCTGGGGGAGAGTGACAGGCTTGGATTTAGAGCAGGCCCAGCCCTCCCCACCCTGGTTGGCTGTG
GTTCCCAAAGATGTGTCCAGTGACCGAAGCTTGAGTCGGTGACAGCCTCTGGGTAAGCTTCCACAACCCTGGGGTTATCTGTCTGAGGCTGGGCCTAGGT
CAGGCTGATGGGAGGATGGGTCAGAGGCTGCTGTGATTGGCCTTGACTCTGCCTGGTGGTTTAGCTCTGCCCTTGCTTAACCTCCAGGAGCTAGGAAGGA
AGTACAAATGGGATGTGACATGATTCAGTGGAGCTGGGAGAGGGGAGGGCCCTGCTCCCACCTCCCTTTGGCCACTGGTTGGCAAATGCCTTTAGTTCAA
GGTCTCTCTGATTAGGGACTTAGGACCAAGGCCTTGTGGTGGAACAGCCTCTGCTGGTGTAATTATGACCTATTGTTTCTACTGACAGCAGAATGGCCTC
CCCTACCAGTTTAATTTGTGGTTTAGGGGGTACGTTTGGTGTTCTTTAACCTTGTAGAGTGTGGAGCTACTGTGGTGTGGCATGGGACAGGGGGTTTGGG
CATAGCAGGAGAATTTGGCGTCAAATGGGTGAGAATCCACAGGGCATTTAGCAGAACCCCAGGTCTGGGGGCCCGTGGGTGACTTCTGTGACCTTGAGCC
CCTGCAGAGCTTTCCCTGCAGTTCTGCCTTAGAGATGCTTGAAAGAGGGTTTATTGACCACTGATCACATGGCAAGTGCCCTGCAAGGCCTCTAGGGGTA
TGTGCGTATGTGTGCACATGCACACTGTGTATGGGTTGGCATTGAGTTGAGTGTCCTAAGGGTATGTTCCTGGCCAGAGGTGAAACTTTGACACTTGACT
GGTCATGGAGGATGAATTGGTTTGCCAGGTGACCTGAGAATGGGGATGAGACATTCTAGGCAAAGAACAACACATGCCAAGATTGCTTTTATTTATTTTG
AGACAGGGTCTCCCTCTGTTACCCAGGCTGGTGGCGCGATCTCTGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCCCCCACCTCAGCCTCCCA
GGTAGCTGGGACTACTGGCGTGTGCCACCACACCGGGCTCATTTTTGGATTTTTAGTAGAGACAGGGTTTTACCATGTTGGCCAGGGTGGTCAAGAACTC
CTGACCTCAGGTGATCTGCCCGCCTCAGCCTCAAGTGATCCACCTGCCTCATCTTCCCAAAGTGCTGGGATTACGGGCATGAGCCACCACACCTGGCCAA
GACTGTTTTTAGAGATAATAACTTAGACCAGGCATAATGGCTTACACTTGTAATCCCAGCACTTTGGGAAGATGAGGCAGGTGGATCACTTGACCCAGGA
GTTTGAGACCAGCCTGGGCAACATGGCAAAACCTTGTCTCTAYAAAAAAATACAAAAATTAGCCAGGCATGGTGGCATGTACTTATAGTCCCAGCCACTG
GGGAGGCTGAAGTGGGAGGATCACCTTAGCCCAGGGAGGTCGAATGCATTCCAGCCTGGGTGAGTGAGACCATGCCTCAAAAATAATAATAATAATAACA
AGATAGAGGCACAGAGACATGACCTCAGGGTCACGCAGGTAAGAGTAGACCAGGAACTCAAATCTAGGTGTGATTTTGAAGTATGCATGGAAATTGGCCA
GGAGGGCTTGTTAAAAATACAGATTGCCTGGCCATACCCCAGAATTTCTGATCCAGTAGATCTGGAGTGGGGCTTAAGATTTAGCGTTTCTAACAGGTTC
CAGGTGATGCTGATGCTGCAGGTCAGGGGAACCCTGTGATGTGGACCTCACTAGGCTCTTGATTTGTGCTGTCATACTCAATCCTCATGACGGATAAGGA
AACAGGCTTAGAAAGAGTCAAAGTTGTTCACTTGTCTAAGGCCAGGAGCCAAATAATGACAGGTGGCAATAGTATGGGTGGAGGGTTGTCCTTGGGTAGC
AGGGAGGCTGGCTAGCACATCCTGGAGTGGAAACCTCCTGGGAAGGTGTAGTGGAGAAAAAGGATTTGAAGTTGATAGCTTGCTTGCTGGAGAGAGGGTG
AACAGGCTCTTCCTTCAAGAAAGCTCCCTGGCTTTGACCTGGCGCGGTAGCTCATACCTATAATYCCAGCACTTTGACCGGGCACGGTGGCTCACACCTA
TAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACTGGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAA
TACAAAATTAGCCAGGCGTGGTGGCACATGCCTATAATCCCAGCTACTCGGGAGGCTAAGGAAGGAGAATCACTTGAACCCGGGAGGCGGAGCTTGCAGT
GAGCCAAGATCACGCCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAATTAAAAAAAAAAGCTCCCTGGCTTTCTGCTAA
CGTGTCCTTTTTGGGTGTGGTGTCAAGTCTTGCATAGCTGGACTGTGGTCTTGGAGACAGGATGCACTAAGAGTAAGAGTGATTAGTCAGAGGAGTGGGC
CTGAGAACTCAGGAAAGGCTTGTGAGGGACTGAGGCTTGAGTTTTTACTTTAAACAGCGCCACTTTTTTTGTTTTGGTTTTTTTGAGACAGAGTCTCGCT
TTGTCACCCATGCTGGAGTGCAGTGGCCTGATCTCAGCTCACTGCAACCTCCACCTCCCTAGTTCAAGCAATTCCCCTGCCTCAGCCTCCTGAGTAGCTG
GGATTACAGGCGCACGCCACCGCGCCTGGCTAATTTTTTTGTATTGTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGATTAGTCTCCAATTCCTTTAT
TTATTATTATTATTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAGTGCAGTGGCACGATCTCTGCTCACTGCAACCTCTGCCTCCCAGGTT
CAAGCGATTCTCCCACCTCAGCTTCTCGAGTAGCTGGGATTACAGGCCCCCGCCACCATGCCCAGCTTTTTTTTTTTTTTTTTTTTTTTTTGTATTTTTG
GTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTTGACCTTGTGATCCACCCTCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCAGCG
CGCCCGGCCAAGCATCACTTTTTAAAACAGCCAGTTTATTGAGACAGGTGCTTTGCAGGTATTGTCATTACAACCCTATGAGATAGATGTATTTTCCTCA
TTTTGCACATGAGGAAACCGAGTTTCTGGGTGCAGTGCTTTGCCCTTGCACCCAGCAGGTAGAGAGTGGGGCTGGACTCCAGGCTGTGGGACACTGTCCC
CTGCTCTGATGCCTCATGGCCTTTCTTCCCTCTCCAGCTTATCACACAGACTTTCAGCCACCACAATCAGCTGGCACAGAAGACCCGGCGGGAGAAGAGA
GCCCGGCAGGAGGCCGAGCRGCGGGAGAAGGCGGAGCGGGCGGCCAGACTGGCCAAGGAAGCCAAGTCAGAGACCTCAGGGCCCCAGATCAAGGAGCTAA
CTGATGAAGAGGCAGAGAGGCTGCAGCTAGAGATTGACCAGGTGAAGGGTGGGCTTCCCTTCTCCACCCCTCAGATCCCCCCTGGCACTGAGCAGTGGGG
TCCTGTTGCCAACTGCTGTGCTCTTTGCCCCAGAAAAAGGATGCAGAGAATCATGAGGCCCAGCTCAAGAACGGCAGCCTTGACTCCCCAGGGAAGCAGG
TGAGATGGACTGCAGGGACTTGGGATGAGCCAGGAGCTTGGAACTTACAGGAAATCTCCTGCCTACTGCTTTCTCTGGAATACCCTTCCTTATCCTATCC
CCTCCCCTCCTGGCTTTGGGAATCTTCCCCATACTTTAAGATCACACTCAGAGACATTGAACCAAAGGATCCAGGTTAAAAAAATAAAAACCTGCCAGGC
GCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTAAATCACGAGGTCTGGAGTTCAAGACCAACTTGGCCAAGATGGTGAAACCC
CATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGTGGGCGCCYGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAGAATTGCTTGAACCCGGGA
GGCGGAGGTTGCCATGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCCCAAAAAAATAAAATAAAAACCGACTGACCT
TAACCTGTTTATGGCAAGAAAACCCAATAGCCAGAGAGGGCAGTGCCTATTACAGGTCCCATCTGAGGTTGGCTGGGTTCTGTGGGCCCAGCCATATCCT
TTGTCACATGGTATAATATTAATAGTCTGAGCTCCTCTCAGACTGAGATCAGAACCAAGTTTTACCTGGTTCCCAGTGGACCAAGGCTTGGGGGTCTGCC
CCTCTGTGGAGTGGGCAGGGACCAGGTCTGTTTTCTTTTGTGGCTGTATGCCCAGTGCTAGCCCTGGGCTTGGCCCAGTGAGGGTTCAATCTGTGTCTTG
TCTGTCAAGTAAGTAGCTGAGTGTCCCTGATTGTAAGCAGGATACTGAGGAAGATGAGGAGGAAGATGAGAAGGACAAAGGAAAACTGAAGCCCAACCTA
GGCAACGGGGCAGACCTGCCCAATTACCGCTGGACCCAGACCCTGTCGGAGCTGGACGTGAGTGTCAGGGACCAGAGGTAAAGCTTAGGGGGCCAGCCTG
GGGTACCAGCAGCACTTAGTGGCCTCTTCTGACTGCCTCTGCCCTATGCAGCTGGCGGTCCCTTTCTGTGTGAACTTCCGGCTGAAAGGGAAGGACATGG
TGGTGGACATCCAGCGGCGGCACCTCCGGGTGGGGCTCAAGGGGCAGCCAGCGATCATTGATGGGGAGCTCTACAATGAAGTGAAGGTGGAGGAGAGCTC
GTGGCTCATTGAGGACGGCAAGGTGGTGACTGTGCATCTGGAGAAGGTATGTGAGGCCCAGCCCTTCTAGCCTGGGGTGTTGATGGAAGTAGAAGGGAGG
ATGTGTGCTTAGTTTACTCAGGAGCCATGCTGGGGGCATTGTGGGATTATCTTAATCCCCATGACAACACTCTTTAAAGTAGATCTGTCTCTATTTTATT
TTCTTAAAGACAAGGTCTCACTCTGTTGCCCAGGCTGAAGTGCAGTAACACCTTCTTAGCTCACTGCAGCCTTGAACCCTTGGGCCCAAGCAATTCTCTC
GCCTCGTCCTCCTGAGTAGCTAAGACTACAGGTGTACACCACCACGCTCGGCTAATTTTTGTTATTAAATTTTTTTGTAGAGACCGGGGGGTCTCACTAT
ATTTCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCTTCACACCTTGGCCTCCCAAAGTGCTGAGATTACAGGCTTGAGTCAGGAAAAGAGCTCGT
TGATTTACCCAAGCTCCTACCTCTGGGAAGGGGTGGAGTCAGAATTGAAAGTCTTAGTTTCTAAAGCCACTTCTTTTTCACTAGGTTTGTACATGCATTC
AATTCATCAAATACTTGAACACCTGCTCTGTGCCTGGTACTGTTCTTGTTCTAAGTGCTGGAAAGAGAACAGTGAACAAAACATAGGAAAATATGTGCCC
TCAGGAAGCCTTCATTCTCAACCTCACTGCCTTTACAGAGAGGTAGGACACAGAGATCAGTAAATAAAGGTGGTCTGAAAAGGGCCAAGGGTCTGAGGAG
AACTTCCCAGGGCACATAAGACCCTGTMACAGCCTGTCCGACTGGCACTGGCTGCCTTCACTCACTCACCCCTCCATGCCTCTGCACTTGCTTTGTCGCC
CAGGCTGGAGTGCAGTGGCGYGATCTCGGCTCACTGCGAGCTCCGCCTCCTGGGTTCATGCCATTCTCCTGCTTCAGCCTCCAGTGTAGCTGGGACTACA
GGCGCCCGCCACCATGCCTGTATTTTTTTTTTTGTCTGTTTTGTTTTCTATTTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATC
TCCTGACCTTGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCAGCCCTTTCCCTGCCTTTTAAATTTATTTT
TTATTTTTTGAGACAGGGTCTTGTTCTCACCCAGGCTGGAATGCAGTGGCGCAATCACGGCTTACTGCAGCCTTGACCTCCCGGGCTCAAACGACCCTCC
CACCTCAGCTTCCTGAGTAACTGCGAGCGCCACCCTACCTGGCTAATTTTTAAATGTTTTTTGTAAAGACAGGGTCTCATGTTGCCCAGGCTGGTCTGAA
ACTCCTGGGCTCAAGGGATCTTCCTGCCTTGGCTTCCCAAAGTGTTGGGATTACAGGTAGGMGCCACTGCACCTGGCACTTCCCTGCTTAAAAACTTTTT
CTGGCTGGGCGTGGTAGCTCATGCCTGTAATCCTAGCGCTTTGGGAGGCTGAGGTGGGCAGATCACGAGGTCAGGAGTTTGAGACCAGCCTGGCCAAGAT
GGCAAACCCCATCTCTAATAAAAATACAAAAAATTAGCTGGGCATGGTGGTGGGCGCCTGTAATCCCAGCTACTTGGGAGTCTGAGGCAGGAGAATCGCT
TGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGACTGCACCACTGCACATGGTGGCTCACACCTGTAATCCCAACACTTTGGGAGACTGAGGCAGGCAGAT
CATCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCCAATATGGTGAAGCCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGTGCATGCCTA
TAATCCCAGTTACTCGGGAGGCTGAGGCCGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATGGTGCCACAGCACTCCAGCCTGGA
CAAGAAGARCAAGACTCCATCTCAAAAAATATATATATTTATTTTCTTCCCATTTTAAATCTGGAATACTGCTTTGTGTCTTAAGACTCAGCCCGAGTGT
CACTTTCAAACTTTTCTCCCTCCACCCTGGATGAATATCTCCCTTTCTGCTTTCTTCTTTCCCTTATCACACTGATTTGTAACTCTTYGCCTCTGTGTCT
CCCCTAGCTGCAGGAAGGGCACAGTCTTGTACCTCTGGATCCAGTGTAGGCCTGCAAGGGTCTCAGGTGCAGGATGTGGATGGGAGAGAGTTTGGTTGTG
AAAGGGTTAAGGGGTGATTCCTGGTGCACAGAGCAGGCCACCTCCCACCCTCTGGTTGTTCTCTTCACAGATCAATAAGATGGAGTGGTGGAGCCGCTTG
GTGTCCAGTGACCCTGAGATCAACACCAAGAAGATTAACCCTGAGAATTCCAAGGTGAGCCCTGGCTGGTTGGGGGAGCTTCAGCAGGAAGGTGAGGGGC
CTCGTTGTTTCCAGAGCTTCACCGATTCCTGTCACTGCCTGCCCTCAGCTGTCAGACCTGGACAGTGAGACTCGCAGCATGGTGGAAAARATGATGTATG
ACCAGCGACAGAAGTCCATGGGGCTGCCAACTTCAGACGAACAGAAGAAACAGGAGATTCTGAAGAAGTGAGCAATTCAGAGACGGGGTTGGGGGACCGT
GGGTGCCTGGGGGCTTAGACTTCGGTGACAGCAGTGAGTGGATCACTGCGCTGCCTCAGGAGCTGCCCTGCCCCCTTTCCAGCCATGTTTATGGCTTTAT
GGCTTTGGCTTGCCTACTCTTGTCATTTGCTGAGGTCATCTTGAGGGCAAGGCCGGCTCATGGTGCATGATAGGAGGGAAGGGGTAACAGGCGGTCATTG
CCACCTACAGGAAAACAATGCCAGTGTTGGTGCCTCAGCTTCCAGCCTCGGGACTCAAATGCGTCTCAGATACCCTGGGCCCTGCTCCTGCCCAGCCTGG
CTTGGTGTTGCTGAGGTCTAAAGAGATTAGACTTGACACGGGGGTGCTGGGAGAAGGGACAGCTTTAGAAGAGAAGGATGAGCTGTTTCATCTYGCTTCC
GTTTCTCCAGGTTCATGGATCAACATCCGGAGATGGATTTTTCCAAGGCTAAATTCAACTAGCCCCTGTTTTTTCCTCCCTGAACTCTTGGGGCTGAGCT
GCAACCACCCAACTTTCTTTCCCACTCTTCTCTGGGACTTGTGGGCCTCAGGGCTTGGGGCAGGCATGGGACTGGCCCAGGCACACAGGTCCCGGGGCAT
CAGGAGAAAGGCTGGGTCTTGGGACCTTGTCCTYCCCAGTTGGCCTACTGTTAYACATTAAAACGATTTGCCCAGCTCCTTCTGTGTCCTCTCTTGCCTC
TGGCCTTTCTCTGGGGCACAGGCCTCTTACGGCTGCTGCTGGGAACTGGGAGTTTGGCTTCTAGCCCAGATTCTGCCATGTGACCTAGGGCACATCCTTG
CCCCTCTCTGGGCCTCAGTTTCTCATTACTTAAAGATTAAAACAAGGCTTGGCCGGGTGTGATGGTTCATGTCTGTAATCCCAGCACTTTGGGAGGCTGA
GGGGAGCAGATCACCTGATGTCAGGAGTTTGAGACCAGCTTGGCCAACATGGAGAAACCCAGTCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGG
TGCACACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGTGGCGGAGGTTGCAGTGAGCCGAGATTGCACTACTTCACT
CCAGCATGGGTGACAGAGACTCCATCTCAAAAAAATAAATAAATAAAACAAGGCTTTTAGTCTATGTATGTTTCTGAGCAAAGGTTGAGTTTTTCTGGCT
ACAGAGACCAGAACACATGTCAGATTCTCAAAGGGGCGCATGACCCAAAAAAGTTTTAAGACCGCTGGACTTGTTGATCTGATTTTTACTTCCCACTGCA
GCGGGTCTGCCCTCTAGCCGTGAATCAAGTATTCTTGAAACTAGAGACTATTGTGTCCCAGGGCAGAAGAGCAGCAAGGGCCAAGGTGACACTGCCTGGC
TCAGGGGAGGGGTACCAGGAGGACAGCTCAGGCCTCAGATCTGGTGTGTGTGGTACAGGGACCTTACCAGGAGGACAGAGTAAAGTCCAGTGAGGCTCCA
TTGTTTGTATCTCAGACCTGGACCTCTGCAGATTCTAGGCCTTCTCAAAGCCAGCTCCCAGGGCTGAAGAGGTGCTCCCCTTTGCTCAGATCCAGCCCAC
AGAGCTGACCCCTGCCCCACTTTGGCTAGAGAGTGGAGGTCAGAATGCTTGGGCCACAGAGGTTATAGCAAGAATGTCTAGGTTGACTTGCTGTGAGTGC
TTAGTTCTTTGGCTCCTAAATTTCTGGAACACAGATGTTTTTTTTAGAATTTGAGAATAGCTGGGCACAGTAGCTCACGCCTGTAATCCCAGCACTTTGG
GAGGCCAAGGCAGGCAGATCACTTGACGTCAGGAGTTCGAAACCAGCCTGGCCAACATGGAGAAACTCCATTTCTGCCAAAAATATAAAAAGTTAGCTGG
GTGTTGGCCGGGTGCGGTGGCCCAGGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGACCACAAGGTCAGGAGATCGAGACCATCCTGGCTAA
CATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAAT
GGTGTGAACCCAGGAGGTGGAGCTTGCAGTGAGCAGATATCGCGCCACTGCACTCCAGCCTGAGCAACAGAGTGAGACTCCGTCTCCAAAAAGAAAAGAA
AAAGCTGGGTGTGGTGGCACGTGCCTGTAATCACAGCTACTTGGGAGGCTGAGGCAGGCGAATCACTTGAACCTGGGAGGCTGAGGTTGTGGCGAGCCAA
GATCGTGCCACTGCACTCCAGCCTGGGCAATAGAGCGAGACTCTGTCTCGGGGAAAAAAAAAATTCAGAATAGCTTGTTAAAGATTTCAGAGAGGCTATG
CAGTACATAGCTTTGTCTGTTTTCCAAACTTGCTAAACCTTTTTTTTTTTCCTGGGAATGCAAATAATGGTTTAAAAGGCTAGGTTTGGAAAATGGTGCT
CTAGGGCTGAGGCTTGGTTCGTGGTGTCACTCTACCGCTCTGTACTCCTGTTCTGCCCCGTGGTCATTTTAATCTTTTGGAGGCCTTGACCCGGATGCGA
CAGCAGAGCCTGGAGTTAGAACTGAACCCTATGTTCATAGCCCTGAGAGATCATCCTGTTTCCCTTAGGAAACTGGACAAACAAGTACAATTTGTCTAGT
AGTTACTTTCCAAAGGGTGCCTTTCGGAACAATAAAAAGGGCGGTGGGGGCAGCAGGTCAGATGGGAGCTGGAGTGGGGGGATCCTCAACACTTTCTAGC
TTGTTTGTTAATTAAGAATGGGCTGGTGGGCCTGCCCCGGCCTCTCTGCTGAAAGAGGACCAGTAGATAAGCCTGTGTGTGAGGAGCAGCCAAGTAGGAT
CCTTCTGAACTCATCTGGGCTCTGCTACCTAATGAAGGGATTCTGCATCTGCCCCAGCAAGGCCAGAGCCACAGTTACTAACTGCGTGTCCCACTAAGTT
CCTTGACCTCACTGTGAGCCCCACGTTTCCTCTCTGTGAAAGAATAATGTCCTTTCTCCAACGTTATTGGAGAGGCCAAGAAGATACTGGTGAAAACCAC
AGTGCTGGCCAGGCGCGGTGGCTCACGCCTCTAATCCCGGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGAC
CAACATGGAGAAACCCTGTCTCTACTAAAAAATACAAAATTATTTGTGCGTGGTGGCGCATGCCTGTAATCCCAACTGCTCGGGAGGCTAAGTTAGAAGA
ATCGCTTGAACCCGAGAGGCGGAGGTTGCAGTGAGCCAAGATTGTGCCATTGCACTCCAGCAGCTTGGGCAACAAGAGCAAAAACTCCATCTCAAAAAAA
AAAAAAAAAAAAAAAAAACCACAGTGCTCTGTTACTACCACAGAGAGAGTGGAAGGGGAGCAGCAGGTCCAAGGCTGGGTAGGGCCAACAAATGATCAAG
GCTTTGGGGAAACTGTGGGCTGGGCAGAAGCAGGCCAGCCTGCAGGCAGTGGACTGGGAGAGCAGAGGCAGTTCGGACAGGCCTCCCTAGAAGAACCTCT
CAAACAATGTCAGAAACCATTTATCCAACCTTTCTCAGGCACAGACTCTGTGCTTGGTTCTTTATCTCCTGGAACTCACAGTGAACCTGAAATGGGGGCA
GCATTACTCCCATTTTATCCTTCCTACTTTAACTGCAGGGCACTAAGCCAGGCTGGACACATATCCTGTCTCCTGCTCTGGGCAGCAGTTAAGTGAGGCA
GATGGGAGAGAAAGGACAGCCAAGAAAGCAGGCAGATACCAATTACCTTTGTACTTACAAACTGTGGTCATGTTAAGATACAGAACATCAGCCAAGAACC
AGAACCAACTCCTTAACATAACATAGAGTGGGCCCTGCCCACCCCCCAATACAATACATTTAAGATAAGCTTCTTTTAACTGTTGAATTACCCCAGGGAG
GGAGAAGTTTGCATGATTGGTTAGGGTGGCAATAGGGGGATGGAGTCAGGGTTCACTCCCAGAAGGTAATGCCTAACTCCTTACTTTCCATGATCAGGCC
ACCTGAAGACCATGAGCAGGAAGGAAGGGGCCCTGGCAGGGATCAGACCAGCTGGGGATGCAAGGAGATGTAGATCCCATGGCCCAGTGAAATGCACATG
GTCCAGGAACCCAGTCAGCCAAGGCAGGAGGAGCCAGAGTGGGCACTGCTTCAGGTCTAAGCCTCTCCCACAGGGGTTCCTGGTCCCCCTCTTCATTCTG
TAGGCCATGCTTCTCCCAGAAAGGGTGTGGCAGCTGGGCCTGGCAGGGGTTAGCAGTACACCTGGAGCAAGGGTGCCCCCGACGAGTCTGTGTCGGTGCC
CTGGAAGGATGAGTCATGGCTTGCTGGGTACCCTGGTAGGAAGGAGAGGAGAGGAGGAAACAGGCTCAGGGGAAGGAGCTCATCCAGATCCCATGACCAG
GGAGAAGCCTGCTGAGAAGGAGCAGAGTGGGACTTGAGCCTGGGTCAGTCTGATCCTGGCTGGATGACCCACTCAGTTTATTGACCTCTCTGAGCCCTAG
CCTCCCTTTCTGTAAAAGGATAATGATTCCACTCCCAGGGGGTTGTTGTCAAGGGCAAGAAGACCGCAACAGAACCACACGGGTGTCTTTCCAGCACCAT
GCTGGATGGCTCCCCACCCACTACTTTCCTAGTCATCTGGGCTTGAAGGTTGGGGTCTGATCACTTTCAGCTTGCCTGTTCTGGGCACCTGCACCCACTT
TAAGCCAGCTTGCTAGATGGAGACAGGTCTGTGGCTGCTTAGGTCCCCGTCCCTTTTTGATGTCATCCTCATCACCCCAAAAGAAAGCTGGGAGAGCAGC
AGGTGAGGGGCCCCTAGGGTAGTCCCCCACCCTCCACACCCCTCATTAGGTCAAGACCACACCTGGAGCTCCATAAGGCCTCAGCTTCCGGGCGATGGCA
TCTGCAGTCGTCTCCTGGGAGATCTGCACTGTCAGCTCTAGGGAGGGAACGTGAGGCAAGCAGTGGTCATTAGCACGTTCTTTCAACCCTATTTCCTACT
TCTGTTCCCAGCCCGATGAGGGAGGAGCCACTCACTCCTGGGCAGGGCTAGAAAAATAATGCTTAAAGACAGAGACATAGACAACGTGTGCATGCGCAGA
GTGATGGATGAGTGGGAGTTTTGGTTAGCCCAGAACAGGTCAGAGGCCCAAATTCATGTGGGTCCCTAGGTCCTGTTCACCAGACCAGGCCTAGAAGCTA
CTCTGGCAGGAGACAGCAGAGGAGAGGAGCCTTTTGGGTAAACTTGTTGAATGCAGAGGGAACCTTGACCTTTCTGGGGACAGCAGCGATGGCCAGAGAG
CTCTCCCAGGGTCTGCATGCTTCTCTCAGCCTTGCTCGGACCTCACCAGGAAGGGCCAGAGTGGGAGCTGGGGAGAGGGGATGCAAGAGTTGACAGAAAG
GAGGAGGAAAGGCAGGGACTGGCTGAGGGGTAGACCCACAGTGACTAAAGACCCCATTCCAACCCTCCCCTGGCCAGAGCCTCCCCTACTCTGCCCCTCA
GCCCCATGGGGCCCCCACCTACCATCCTGGCTGAGACCTGAGCCCACCATGGTCTCATGGCCACTGTCAGGGGCAGCAGCGGTTGGGGCAGCAGCCCGAG
TTGAACGACCCTCCGAGGTCTGTGGGCGAGCACGGCTCTTTCGGGTACTAATGCGAATGATGCCGCGTACCAGGCGGCCCTCAGCATCCTGCTCATCCAG
GTGGTAGTCCTGCGTGATGCTGCTGATAAGGTCCGAGATCTTACTGGTCTTCTCCAGGAACACAGTGTCTGATGTGCACTTGGCCAGCTCATCGATCTGG
TGTACGCTGAACAGCTCTGTCAGCTTCTTGAAGATGAGCACATCAATTTCTCGGCTCGACATGGAGCCACTGCCCATCTCCGGCAGGTCCAGGTCCGACT
CATGGAAAGAATAGTACTCCTCGGAGCCACGAGGACTACTGGCAAAGGTGCTGGGCAGGCTGTGTCGCATGGGTGGGGGATCGGCCAGTGGCTCCTTGCA
GCAGGAGTCCGCATCAGGGGCTGGGGAGGTGGCCCTCGGGTAGGGATACACAGGGATGCCTTTGAGCTTAACATCGGGGTAGCTGAAGCTGCTGCCCATG
GTTGACTTGAGCCGCTGGCCATCCCGCCGGCTGGGGGGTGCACGATCAGGGCTGGGGGGCACTCCATTGTGCTCCTTGGCCCAGTTGGCTTCAGCAGTCC
CCTCAGTGGAGTCCTCAGTAGACAGGCAGGGGCTGCATCCCCGCACACAGGCTCCACAGCGCTGGAGGCAATCCCGGCAGCGGCGGAAGCAGAAGGCAGC
CCGGCACCACTCCCACACCCAGGGTCGCCAGAGCAGGCAGCAGGTGGGGGACTCAAGGGCCGGCTCAGCAGAGCCAGAGATGAAGGTAATGCTCTCTGGC
CCATGGTGGCCAGGGTCCTTGGGGTCTGGTCTACGGGTGCGGCGGCTTGGTGGGGGCTGAGGTGGTTTATCATATGTCTCCAGACATAGCTCTGTTGGCC
GCTCCCACGGTCCCAAGCGTGGAGGCCCAGATGCTGGGCGGGGGTGTCCAGGGCGGGGCATGGCTCATTGCATGGTTTGTAGCAGCCAGGCACCTGCGTG
GGGAGAGGCCAGGAAGGAGTCAGGATCAGAGGTGAGGGACAAACTCCTGGGCTGACTTGAGCAGCTTCACATTTCTAGTTTCTGAGAGGCCTGGGATGTG
GATGGACCCAAGTATGCCCAAAAACCCTTGCCTGGGATGTGGATGGACCCAAGTATGCCCAAAAACCCTTATCTCTTGTGGCCCTCCCTCCACAAAGAGA
AAGTCTCTGTGGTCTAACCCAGATTTCAAAATTCCCTGTGACTTAGACCTATTGGGATGGCTATGAAAGGTTGAACATTGGCCGGGCGTGGTGGCTCACG
CCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAACCTGACTAACATGGTGAAACTCCGTCTCTACTA
AAAATACAAAAAAAATTAGCCAGGTATAGTGGTGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAG


SNP Information

Context             (SEQ ID NO:60670):
GGGACTTGTGGGCCTCAGGGCTTGGGGCAGGCATGGGACTGGCCCAGGCACACAGGTCCCGGGGCATCAGGAGAAAGGCTGGGTCTTGGGACCTTGTCCT
Y
CCCAGTTGGCCTACTGTTACACATTAAAACGATTTGCCCAGCTCCTTCTGTGTCCTCTCTTGCCTCTGGCCTTTCTCTGGGGCACAGGCCTCTTACGGCT
Celera SNP ID:            hCV26185803
SNP Position Genomic:     30634
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;POOLE|_CEPH(C,34|T,154)   total(C,34|T,154)
SNP Type:                 UTR 3


Context             (SEQ ID NO:60671):
AGCCTGGCTTGGTGTTGCTGAGGTCTAAAGAGATTAGACTTGACACGGGGGTGCTGGGAGAAGGGACAGCTTTAGAAGAGAAGGATGAGCTGTTTCATCT
Y
GCTTCCGTTTCTCCAGGTTCATGGATCAACATCCGGAGATGGATTTTTCCAAGGCTAAATTCAACTAGCCCCTGTTTTTTCCTCCCTGAACTCTTGGGGC
Celera SNP ID:            hCV26185804
SNP Position Genomic:     30394
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3|-,7)   total(C,3|-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60672):
AGGTGAGGGGCCTCGTTGTTTCCAGAGCTTCACCGATTCCTGTCACTGCCTGCCCTCAGCTGTCAGACCTGGACAGTGAGACTCGCAGCATGGTGGAAAA
R
ATGATGTATGACCAGCGACAGAAGTCCATGGGGCTGCCAACTTCAGACGAACAGAAGAAACAGGAGATTCTGAAGAAGTGAGCAATTCAGAGACGGGGTT
Celera SNP ID:            hCV26185805
SNP Position Genomic:     29890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60673):
AGGTGGAGGCGGGCCTGGGCAGCCGCGCGCGTGCGTGTTTCCGGCTCCGCTGCGGAAGGCGGACGACTAGAGTCGTTGGGCCCGGCGCGACCCGCAGGAG
S
GTAGAGAGCGCGGGACTAGAGTGCAGAGCTCCGGGACGTGGATCGGAGCCGGCGCGATGGGCGGAGAGCAGGAGGAGGAGCGGTTCGACGGCATGTTGCT
Celera SNP ID:            hCV1246384
SNP Position Genomic:     6068
SNP Source:               Applera
Population(Allele,Count): african american(C,16)   caucasian(C,35|G,1)   total(C,51|G,1)
SNP Type:                 UTR 5

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:60674):
ATGGGCGGAGAGCAGGAGGAGGAGCGGTTCGACGGCATGTTGCTGGCCATGGCTCAGCAGCACGAGGGCGGCGTGCAGGAGGTAACGGCCCGCGCGGCGT
Y
GGCCCACCCGGCGGCCTTGGCCACGCTCCTTCCGCCCTTCTCTGCCTTCGAGGGCTGAGACCCACCCCAGCGGCTCGCGGGCTTCTGGGATGCCCCTACA
Celera SNP ID:            hCV1246385
SNP Position Genomic:     6225
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60675):
TGTAAAGACAGGGTCTCATGTTGCCCAGGCTGGTCTGAAACTCCTGGGCTCAAGGGATCTTCCTGCCTTGGCTTCCCAAAGTGTTGGGATTACAGGTAGG
M
GCCACTGCACCTGGCACTTCCCTGCTTAAAAACTTTTTCTGGCTGGGCGTGGTAGCTCATGCCTGTAATCCTAGCGCTTTGGGAGGCTGAGGTGGGCAGA
Celera SNP ID:            hCV26185806
SNP Position Genomic:     28762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60676):
CACTGCGCCCAGCTTCCGGCCTGGCCACCCGCCAGCAGGTCTCACCCGGTTCGCATCAGTCCCGGGCCCCCGGCGCCCCTCAGTAGTAGCAAATTATCGC
R
TCCCTGAGCTTAGGATCCCCCTTTAGTTTCACATATGCCCCCACCCCCGTTTCCACTTTGATGGCGGCTTCCAAGGAGCATCCCTTAGTAAGAACCGTCG
Celera SNP ID:            hCV1246386
SNP Position Genomic:     6430
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60677):
TAAATCACGAGGTCTGGAGTTCAAGACCAACTTGGCCAAGATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGTGGGCGCC
Y
GTAATCCCAGCTACTCGGGAGGCTGAGGCAGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCCATGAGCCGAGATCACGCCACTGCACTCCAGCCTGGG
Celera SNP ID:            hCV26185808
SNP Position Genomic:     26449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60678):
TCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGACCCGCCCACCTGAGCCTCCTGAAGTACTGGGATTATAGGTGTGAGCCAGTGTCTT
S
ATGGGCTTTTTACTTTCTGGAGAGGAAAGCTGGGCCCAGGCTTTTCATGCCCTGGATGCAGAGGAGTGTTCCATACGCTTAGGCTGCTTCTAGCATCACA
Celera SNP ID:            hCV1246387
SNP Position Genomic:     8043
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60679):
CAAGCAGTTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCCACCACCACGCCCGGCTAATATATATATATATATATATATATATATATAT
W
TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTGTTGTTGCCCAGGCTGGAGTACGGTGTCCTGATCTCGGCTCACCACA
Celera SNP ID:            hCV26185809
SNP Position Genomic:     20450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60680):
GAGAGAGATGAACCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCAGGGTCTTGCTCTGTTGTCCCAGCTGGAGCACAGTGG
Y
GTGATCCAGCCGCCTTAGCCTCCCAAAGTGCTGGGACTACCTAATTTTTCTTTTTCTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTATGACCTAGG
Celera SNP ID:            hCV7557537
SNP Position Genomic:     11627
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60681):
CATACGCTTAGGCTGCTTCTAGCATCACAAGGAAAGTGAAAGGCGCACACACACACAGGATATGAGAAATCTGCTTCATGGTGGAAGTGACTAAGAGAAC
Y
TGCTGGGGAGATAATCTCCTCAGTTGGGAAGCTCAGAGGAAAAATAGTCAAGTCCCAAGTTCCCTCCTAGACAAAACAAGTTGACTTGTGTGCAGTTGAA
Celera SNP ID:            hCV1246388
SNP Position Genomic:     8215
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,6)   caucasian(C,30)   total(C,58|T,6)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,38)   total(C,70|T,6)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60682):
AATTGGCTCAAGAGAATTTTGCACCTTATCCAAAGTCTTGAGCTGAGCTGTGGGAGAACCAGGGTTGAAACCAGTCTGTTGTAAACCTGTCCTCTGCCCC
R
ACACAGTGCCTCTCAGTTCCTTTTCCAATGAGGAGGTTTTATTTATTTATTTATTTTCTGAGACAGAGTCTTGCTTTGTCACCCAAGCTGAAGCGCAGTG
Celera SNP ID:            hCV1246389
SNP Position Genomic:     8788
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60683):
TACACTTGTAATCCCAGCACTTTGGGAAGATGAGGCAGGTGGATCACTTGACCCAGGAGTTTGAGACCAGCCTGGGCAACATGGCAAAACCTTGTCTCTA
Y
AAAAAAATACAAAAATTAGCCAGGCATGGTGGCATGTACTTATAGTCCCAGCCACTGGGGAGGCTGAAGTGGGAGGATCACCTTAGCCCAGGGAGGTCGA
Celera SNP ID:            hCV7557539
SNP Position Genomic:     23743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60684):
CTTGATGTGTTCACCACCCTAGAAACTCCAAACCCCATTGTTTAGGGGGGTTTTTGTTTTGAGACAGGTTCTCACTCTCACGCAGGTTGTAGTGCAGCGG
Y
GCAATCTCGGCTCACTGTAACCTTCAGTTCACAGCAACCTCCGGCTCCCAGGCTCAAGCAGTCCTTCCATCTTAGCCTCCCGAGTAGCTGGGACTGCAGG
Celera SNP ID:            hCV15841618
SNP Position Genomic:     21604
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,13)      total(C,13|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60685):
GGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGGCCTCGTGATCCACTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCACCG
Y
GCCCGGCCAGGACAGGTTTTTTTGTTTTTGTTTTTTGTTTTTTTTTCTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGGGCGATC
Celera SNP ID:            hCV1246352
SNP Position Genomic:     19231
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60686):
CCCTCCCGACACCTTGATGTGTTCACCACCCTAGAAACTCCAAACCCCATTGTTTAGGGGGGTTTTTGTTTTGAGACAGGTTCTCACTCTCACGCAGGTT
K
TAGTGCAGCGGCGCAATCTCGGCTCACTGTAACCTTCAGTTCACAGCAACCTCCGGCTCCCAGGCTCAAGCAGTCCTTCCATCTTAGCCTCCCGAGTAGC
Celera SNP ID:            hCV1246354
SNP Position Genomic:     21592
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,13)      total(G,13|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60687):
AGTCCTTCCATCTTAGCCTCCCGAGTAGCTGGGACTGCAGGCATATGCCACCGTGTCTGGCTAATATTTTCGTATTTTTGGTATAGACGGGGTCTCACCA
Y
GTTGCCCAGGCTGGTCTTAACCTCCTGAGCTCAAGCGATCTGCCCGCCTCGGCCTTTCCAAAGTGCTGGGATTACCGGTATGAGCCACTGTACCTGGTAA
Celera SNP ID:            hCV1246355
SNP Position Genomic:     21764
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,13)   total(C,13|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60688):
AGTCTTGCTCTGTCACCCAGGCTGGGGTGCAGTGATGTGATCATGGCTCACTGGAGTCTTGACCTCCCAGGCTCAAGCAATCCCCCTGCCTCAGTCTCTC
R
AGTAGCTGGAACTACAGGTACCACTACACTCAGCTAATTTTTGTATTTTTTATAGAGACAGGGTCTTCCTATGTTGCCCAGGCTGGTTTCAAACTCCTGG
Celera SNP ID:            hCV1246356
SNP Position Genomic:     22059
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60689):
TGCCTTTACAGAGAGGTAGGACACAGAGATCAGTAAATAAAGGTGGTCTGAAAAGGGCCAAGGGTCTGAGGAGAACTTCCCAGGGCACATAAGACCCTGT
M
ACAGCCTGTCCGACTGGCACTGGCTGCCTTCACTCACTCACCCCTCCATGCCTCTGCACTTGCTTTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCG
Celera SNP ID:            hCV1246357
SNP Position Genomic:     28128
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,8)   total(A,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60690):
ACCCTGTAACAGCCTGTCCGACTGGCACTGGCTGCCTTCACTCACTCACCCCTCCATGCCTCTGCACTTGCTTTGTCGCCCAGGCTGGAGTGCAGTGGCG
Y
GATCTCGGCTCACTGCGAGCTCCGCCTCCTGGGTTCATGCCATTCTCCTGCTTCAGCCTCCAGTGTAGCTGGGACTACAGGCGCCCGCCACCATGCCTGT
Celera SNP ID:            hCV1246358
SNP Position Genomic:     28221
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60691):
AACCCATAAGTCCCAGTCCAAAGCTCATCTGTGACAAGGTATTACTTCGTTCTCATGCTGCTGTGAAGAAATACCCAAGACTGGGTAATTTATAAAGGAC
R
GAGGTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCGGGCTGGAGTGCAGTGGTGCAATCTGGGCTCACTGCAAGCTCCGCCTCCTGGGTTC
Celera SNP ID:            hCV26185811
SNP Position Genomic:     18941
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60692):
CACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACCCCTGACCTCAAGTGATCCACCCACCT
Y
GGCCTCCTAAAGCGCTGGGAGTACAGGTGTGAGCCACTGCACCCGGCCTGAGGAGGTTTTAACTAATAACCTAGGAGATGAGACTGGGCAAATATTAGAA
Celera SNP ID:            hCV1246390
SNP Position Genomic:     9408
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60693):
GTTACTCGGGAGGCTGAGGCCGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATGGTGCCACAGCACTCCAGCCTGGACAAGAAGA
R
CAAGACTCCATCTCAAAAAATATATATATTTATTTTCTTCCCATTTTAAATCTGGAATACTGCTTTGTGTCTTAAGACTCAGCCCGAGTGTCACTTTCAA
Celera SNP ID:            hCV1246359
SNP Position Genomic:     29309
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60694):
GGGTCTTGCTCTGTTGTCCCAGCTGGAGCACAGTGGCTGTAAGAAGGGAGAGAGATGAACCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
K
GTGTGTGTCAGGGTCTTGCTCTGTTGTCCCAGCTGGAGCACAGTGGTGTGATCCAGCCGCCTTAGCCTCCCAAAGTGCTGGGACTACCTAATTTTTCTTT
Celera SNP ID:            hCV26185812
SNP Position Genomic:     11580
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,3)   total(G,1|-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60695):
AGACGTTCTTTGCAAACCGTTTTCTGTGGCTTCAGGATTCTAACAAGTTGGTAAACTCTTTAATGTGTCCTGAATGTCTGAGGCCACTCTGTCATAGACA
M
ATTACCTAAGAGTAGGAGTCCCAGGTTCTTGGTCTAGCTTTGTCACCTAGTCGAGTTCCCAGCAATGCTCTGGTTCTTTCCATCTTTACATCTGTAAAAT
Celera SNP ID:            hCV1246391
SNP Position Genomic:     10608
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60696):
CATGCACCACCATGCCTGGCTAATTTTGTATTTTTAGTAGAGACAGGTTTCACCATGTTGGTTAGGCTGTTCTCAAACTCCTGACCTCAGGTGATCCCCC
W
GCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTACTTTTTTCAATGAATGTTTATTGAACACTTAACACTTTGGATTAT
Celera SNP ID:            hCV26185813
SNP Position Genomic:     11121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60697):
TCAGCCCGAGTGTCACTTTCAAACTTTTCTCCCTCCACCCTGGATGAATATCTCCCTTTCTGCTTTCTTCTTTCCCTTATCACACTGATTTGTAACTCTT
Y
GCCTCTGTGTCTCCCCTAGCTGCAGGAAGGGCACAGTCTTGTACCTCTGGATCCAGTGTAGGCCTGCAAGGGTCTCAGGTGCAGGATGTGGATGGGAGAG
Celera SNP ID:            hCV7557542
SNP Position Genomic:     29488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60698):
AAGATAAAACAAAATAACAAGTGTTGACAAAGATAGGGAGAAACTGGAACCCTTGTACACTGTGGTGGGAATGTCAAATGGTGCATCTGCTATGGAAAAC
R
TTATGGCGGTTTCTCAGAAAGTTAAAGAATACAACTATCGTATGTTCTAGCAGTCATGCTTGTGGGTATATACCCAAAATAATCAGGAGGAGGATTTACT
Celera SNP ID:            hCV1246393
SNP Position Genomic:     13138
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60699):
AGGCATGCACCACCATGCCTGGCTAATTTTGTATTTTTAGTAGAGACAGGTTTCACCATGTTGGTTAGGCTGTTCTCAAACTCCTGACCTCAGGTGATCC
M
CCAGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTACTTTTTTCAATGAATGTTTATTGAACACTTAACACTTTGGAT
Celera SNP ID:            hCV26185814
SNP Position Genomic:     11118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60700):
AATTCTGACCGTAACTACCCAGAATTACTGCAGACTCCACAGGTTAAGGACTCAGTCCCATAAGACAGTGCCCACTTGACACACCAGTTATAAGTTCCAA
R
TTGCCTCGTGTACTTCTGACCAACCAGCTGTAAACTGGGGTTTGCCATGACCACCTTTTCAGGTTTAATAATTTGCTAGAATGATTCAAAACTCAGGAAA
Celera SNP ID:            hCV11460613
SNP Position Genomic:     21269
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,15)   total(G,1|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60701):
GCCTCCTAAGTAGGTGGGATTACAGGCATGCACCACCATGCCTGGCTAATTTTGTATTTTTAGTAGAGACAGGTTTCACCATGTTGGTTAGGCTGTTCTC
R
AACTCCTGACCTCAGGTGATCCCCCAGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTACTTTTTTCAATGAATGTTT
Celera SNP ID:            hCV26185815
SNP Position Genomic:     11095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60702):
AGCCTCCTAAGTAGGTGGGATTACAGGCATGCACCACCATGCCTGGCTAATTTTGTATTTTTAGTAGAGACAGGTTTCACCATGTTGGTTAGGCTGTTCT
Y
AAACTCCTGACCTCAGGTGATCCCCCAGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCTACTTTTTTCAATGAATGTT
Celera SNP ID:            hCV26185816
SNP Position Genomic:     11094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60703):
TACTGTAGATACTTCATATAAATGGAATCATACAATATGTATGTCTTTGTGACTGGCTTATTTCGTTTAATGTAATGTCCACAGATTTATCCACATTGTA
R
CATGTGACAGGATTTCCATCCCCTTTAAGGCTGAATAATATTCCATTATATGTATATATCACAATTTTTTTTTTTCTTTTTGAGACAAGTCTTGCTCTGT
Celera SNP ID:            hCV1246396
SNP Position Genomic:     17184
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60704):
GGAGCCCAGGAGTTTGAGGCTGCAGTGACCCATGATAAACGGCACTGTAATCCATCCTGGGCAACAGAGCTAAACCCTGTCTCAAAAAAAAAAAAAAAAA
A
TAGTGGGCTGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGAAGGCCGAGGTGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCC
Celera SNP ID:            hCV11460615
SNP Position Genomic:     15012
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60705):
TTTGAAGTTGATAGCTTGCTTGCTGGAGAGAGGGTGAACAGGCTCTTCCTTCAAGAAAGCTCCCTGGCTTTGACCTGGCGCGGTAGCTCATACCTATAAT
Y
CCAGCACTTTGACCGGGCACGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACTGGAGGTCAGGAGTTCGAGACCAGCC
Celera SNP ID:            hCV28011247
SNP Position Genomic:     24465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60706):
CCTTTCTTCCCTCTCCAGCTTATCACACAGACTTTCAGCCACCACAATCAGCTGGCACAGAAGACCCGGCGGGAGAAGAGAGCCCGGCAGGAGGCCGAGC
R
GCGGGAGAAGGCGGAGCGGGCGGCCAGACTGGCCAAGGAAGCCAAGTCAGAGACCTCAGGGCCCCAGATCAAGGAGCTAACTGATGAAGAGGCAGAGAGG
Celera SNP ID:            hCV25592917
SNP Position Genomic:     25820
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60707):
CTTGGGGCAGGCATGGGACTGGCCCAGGCACACAGGTCCCGGGGCATCAGGAGAAAGGCTGGGTCTTGGGACCTTGTCCTCCCCAGTTGGCCTACTGTTA
Y
ACATTAAAACGATTTGCCCAGCTCCTTCTGTGTCCTCTCTTGCCTCTGGCCTTTCTCTGGGGCACAGGCCTCTTACGGCTGCTGCTGGGAACTGGGAGTT
Celera SNP ID:            hCV25592919
SNP Position Genomic:     30654
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,40)   total(C,71|T,7)
SNP Type:                 UTR 3


Context             (SEQ ID NO:60708):
GGAAGAGAGGAGGTGGAGGCGGGCCTGGGCAGCCGCGCGCGTGCGTGTTTCCGGCTCCGCTGCGGAAGGCGGACGACTAGAGTCGTTGGGCCCGGCGCGA
M
CCGCAGGAGCGTAGAGAGCGCGGGACTAGAGTGCAGAGCTCCGGGACGTGGATCGGAGCCGGCGCGATGGGCGGAGAGCAGGAGGAGGAGCGGTTCGACG
Celera SNP ID:            hCV27839793
SNP Position Genomic:     6058
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(A,2|C,38)   total(A,2|C,66)
SNP Type:                 UTR 5


Gene Number:                 330
Celera Gene:                 hCG1981987 - 117000147037323
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W0YB(7943680..7956640)
Chromosome:                  Chr4
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12490):
TTTGCCATGGAGCCTGTGCTCCTTTCAGCCGAGGAAGCTGTCCAGAAAGCGAGGATTGTCCAGGGATGCAGAGTAGCTGCAGTACAGCCGCCCCATGCCG
CTCTGGGAAAAAGGCCTGTGGATTCGAGTCCAGCCTCTGAGCAGCGGCTGCCAGTCCTGCTCTGGGGACTCGTGGAGGGCCTGAGATCCTTCCAGGCAGA
TGATGAGATCGAAGCCCATTGCATGAGGGCACCTTTTGCTCCCATGCTCTGATGGGCACACGGCGGCTTTCGAGGGCTGCAGGCCAGAGCAGGCACCTGA
CAAGGCTGGTAACATACGCAGCCAAGGCTGGATTTTCTTCATAGACTTCAACCAACAGCACATCTCAGCAGATGAAGTGCTGGAGCCGATATGGGAATCC
AGCTTCCACTAAGCCGGACAATACAAAGATTCGCACCAACGTAGAACCACGCCACTTTTCTCAGGCGGGTTTTTCATTTTTAAAAGTATGATTGCTTTTC
ATAAAACATTATGCTATTTATGTTAATGTGTAATAGCAATATTTTCTTATTTTTAAGTGAATTGGCAAGTATTCTGAACATTTCTGTTATGATTTAGAAA
ATGATAAGTATCCATAGGTATAACCCATACAAACAAAAAAGTTCTTCAGTGTCCTCAATTAGTTTTTTTTGTTTTTGTTTTTTGTTTTTTTGTTTTTTTT
TTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGACTGCAGTGGCGCGATCTTGGCTCACTACAACCCCTGCCCCCTGGGTTCAAGAAATTCTCC
TGCCTCAGCCTTCTGAGTGGCTGGGATTACTGGCGTGCACCACCACATCCAGCTAGTTTTTGTATTTTTAGTACAGATGGGGCTTCACCATGTTGGCCAG
GCTGGTCTCGAGTTCCTGACCTCAAGTGATCCGCCCGCCCTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGTCTCACTCTGTCGCCCAGGCTGGAGG
GCAGTGGCACACACAGTTCACTGCAGGCTTGACCTCCCCTGGCTCAGGTGATCCTCCCACCTCAGTCTCCTGAGTAGCCGGGACCACAGACACAGTCTCC
TGACTAGTTGAGACCACAGGCGCACTCCACCACACCCAGCTAATTTTTGTATGTTTTGTAGAGATGAGGTCTCCCTGTGTTGCCAAGGCTGGTATCAAAC
TCTGGGCTCAAGTGATCCTCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCCCTCAGTGACCTTTAAGAGTATGAAG
GAGTCCTCAGATAAAAACATTTGAGAAGCACGGAGGTGGAAATTTGTCTTTGGCCTGGGGGCCTGGAGTCTAAATACTGCATTGAGTGGCTGATCTGTGG
TTTTCGCTTAAAATACAGGTTAGATCATTTGTTTCTGTTTGCATTCTGTCCTAGTTGCTTCTATTTATTTTTTCTCTCTTTTTGAATCTGTGAAACATTA
ACAGGGTTCCAAACATCAGAGTGTTTTGTCTAAGCTTAAAAGCCCTCTGGGTGATTCCGATGAGCAGAGGCCGGGAAGGATTGAGCAAGACCATCCCCGA
GCTCCTTCCTCCGCTCTGTTTCCAGATCCCATGACTGGGGACCTATAAATATTTTCCTGACATGGAGCAGGATCAACTTCAGCATCTGTTAGCTTCATCC
CAAAGGCAGGGAAGCCTAGAGCCCCTGGGAGGGCTCTGCACCGCACACACCGCCGGCCTGCAGCCCCAGCCCTGTGCGGGGTCCTGGGGAGGGGGGCCCC
CTTTCTGTGGCTCTTCCTGACTCCCTGCGCGTTCCACCCCAGACCCTCAGCCCACTCTGACCTCCCTCCAGGAGGGATGGCTTGCAAATGCCCTCTGGCC
ACAGTGCAGACCGCTAGGCTGTTCTGTGCAGCTTTAGGCCATGCCAGGAAAGAGACTTAAAGCCAGGGCCCCAAAGGCCAGGGATGCCTGCGCCGGGAGC
CAGGAGCTTCCCCAGCCACTTCCAGCATGTAGACTGAAGTCAGGCCACGCACAGGGCTCTCCAGGTCACACCCTGCGCAAGAAGGTGTAGCACGCTGGCT
CTAATTTCGAGAAGGTGAAAACAAGAGCCCCTCTGCCCCCACGCCCTGAGCTTTCCCGAAAGGCTTGGGGCAAAGAACTCCCCTCAGTGGCACCTAGGGA
GGCACCAGGAAGGCGCTTGTTGGAACGGGAGAGAAACGGGGAGAGGGAGGAGGACAGGGGGGAGGGGAGGAGGGGAGGGGAGGAGGGGAGGGGATGAGGG
GAGGGGAGGGGAAGGGAGGGGACAGGGAGGGGAGGGGAGGGATAGGACAGACAGACAAAGAAAGGGGTGCGGCAGCACTGCCAGGGGAAGAGGGTGATCC
GACCCGGGGAAGGTCGCTGGGCAGGGCGAGTTGGGAAAGCGGCAGCCCCCGCCGCCCCCGCAGCCCCTTCTCCTCCTTTCTCCCACGTCCTATCTGCCTC
TCGCTGGAGGCCAGGCCGTGCAGCATCGAAGACAGGAGGAACTGGAGCCTCATTGGCCGGCCCGGGGCGCCGGCCTCGGGCTTAAATAGGAGCTCCGGGC
TCTGGCTGGGACCCGACCGCTGCCGGCCGCGCTCCCGCTGCTCCTGCCGGGTGAGTACTGCGTGCCCCCGGGACACCCAGAGAGGGCCCGGGCCTCCTGC
ACTTTCCCCGCGGCCCAGAACCTTGTGGCACCTCCAGAGGGACCCCCAGGACTGGCTGCGACCGAGCTTTAAGGGTCTAGTCCCGGGGGCAGCCAGTCGG
CCAAGGCCCCGGGTCCCTGCGACGGCGAAGGCATCCCGGAGGCCGCACCCAGACCGGCCCGGCAAGCTGCAGGGACTCGGACTGAAAACCTGCCCGTTAC
CCCTGGTCGCTCGCAGGCGCACGGGCGATCTAACCCCGCGCCGTCCATTCCGCTGATGGGGGTCTCGGAAGCGCCGCAGGAGAGCTTTGCGGAGCAGGGA
GGGGGTCGCGGGTGCTCGGGGCCGTCCTCAGAGCCCAAAGTGCCGCAGCCCTCTCGGCTTTCCACCCCGAGGCTGCCACGACGGTGCCAGCGCGCGGCTG
CTCCCCTCTGTGCTCCCAGGTGATGGAAAACCCCAGCCCGGCCGCCGCCCTGGGCAAGGCCCTCTGCGCTCTCCTCCTGGCCACTCTCGGCGCCGCCGGC
CAGCCTCTTGGGGGAGAGTCCATCTGTTCCGCCAGAGCCCCGGCCAAATACAGCATCACCTTCACGGGCAAGTGGAGCCAGACGGCCTTCCCCAAGCAGT
ACCCCCTGTTCCGCCCCCCTGCGCAGTGGTCTTCGCTGCTGGGTAAGTACAGCCCCCTCCTCGCCTCCTGCTCCACCAGGAGGGCTGCGGCGCCGGAGCC
CCCCGCACAGCTGCACGGCGGCGCTTCCCAGTCTGGGGCGTGCTGACGTCGGGAGACTCTAACACCAGAATGTTTGCCGAGCGCCTGCGGTGTGCGGTTC
CGGGGATGCGGTGGGGGCAGGGGGCGCTCACGGGGAGGGCGCAGGTGGGTCGCGGCAGGGGCAGCCACAGGGTGTCACGGTCCGACGTGACTGGGGGCCA
TGGTTCCCTGCGGGCGGCGGGGAGGGATTTCCTGGGGCGCCCCCTGGAATCCAAGCCCGACCGCAGTGTCTGACCATGGTCCGCGGCGCGGCCGGGTGGT
CCTGCAGGGGCCGCGCATAGCTCCGACTACAGCATGTGGAGGAAGAACCAGTACGTCAGTAACGGGCTGCGCGACTTTGCGGAGCGCGGCGAGGCCTGGG
CGCTGATGAAGGAGATCGAGGCGGCGGGGGAGGCGCTGCAGAGCGTGCACGCGGTGTTTTCGGCGCCCGCCGTCCCCAGCGGCACCGGGCAGACGTCGGC
GGAGCTGGAGGTGCAGCGCAGGCACTCGCTGGTGAGCGCGGGGCCGGCCGGGGGCGGGGTCCGGGGGGCCGGGGCCAGGCGCGCTGAGCCGCTGTCGCCG
CAGGTCTCGTTTGTGGTGCGCATCGTGCCCAGCCCCGACTGGTTCGTGGGCGTGGACAGCCTGGACCTGTGCGACGGGGACCGTTGGCGGGAACAGGCGG
CGCTGGACCTGTACCCCTACGACGCCGGGACGGACAGCGGCTTCACCTTCTCCTCCCCCAACTTCGCCACCATCCCGCAGGACACGGTGACCGAGGTGAG
TGGGCACCCCGCGTGCGCAAGGGCCGCTATGGCCCCCGCGGTGGGGACGGGGCTGGGGCCTGGCTGCACCCTCGCCTCCCAGCCCAGGACAGCCGCTTGC
GGCTTTTGTGTGGAAGAGGCTCTGCTTCTAGCGCCAGCAGTGAGCAAGGGGGTGCAGCCCTCCCATACTCTCCCAACCCGGGGTCACAGCACCGCAGGGA
GGACAGCGGGACGCGCGTCCCGAGGAGGCCGCCCCTTCCTGGCCTCGGTTTCCAGCCCGTGTTCCGTGGGATGGCTGAGAGGAGTACATGGGACCCTGTC
CCCAACAGTGGTGCAGAGGGCACGCTGGACGCTGGGCAGTGGCCCCAGTGAGGCCATACGCATACCAGAAGGTGGGCTTCTCGGACCCCAGGCCAACCTC
CTCTTCTTCCTCCCCAGATAACGTCCTCCTCTCCCAGCCACCCGGCCAACTCCTTCTACTACCCGCGGCTGAAGGCCCTGCCTCCCATCGCCAGGGTGAC
ACTGCTGCGGCTGCGACAGAGCCCCAGGGCCTTCATCCCTCCCGCCCCAGTCCTGCCCAGCAGGGACAATGAGATTGTAGACAGCGCCTCAGGTAACGGA
CATACAGGTCACATGGGACACACAGCAGCCCCGAACCCTGCCACAGGGCGACCACCAAACCCGAACCTAAGGCTCTGAGAAATTCCAAGTAGGGATTCGT
AGTGCGTACTGCAAGATGGTGCCTAGAAGATTTAGGATTCTGTTGATTCACACACTGAAGATGTGACTCTTGCACATTATTTGCAGTTGAAAGCATCTTA
CAGGGCCACAGCCCAGAGGAAAGAATGAAAGGAGGCTCCAGACAGTACCTGAGAGACTCTGTCCTGTCAGACACGCACCCACAGGTGACCTGTGTGTCAC
AGCTGACAAGGAAGCTTGCTAGGATGGCCCTGTGTGGCCACCGGGTGACAGCTATGCTGCAGGGCACCTGTGGGGGTCTCGGGACCCAGCCACCACACAG
CTCGGGGCTCTGCTCACAGGCGCCTTGGCCTGGGGCGGGGCAGGTGCTGATGAGCATTCTCCTAGCTCTTCCAGGCACCTGCTGGACAGGGCAGGCTGGG
AACGCTGGGGCCGAGTGGCAGTTCCCTCCCTACTCAGCTGGGTGGCAGCCACTGGCCTCACGGAGCGCCTGTGGTCTGGAGCGCATTGCTGGGTCGTGGG
TCAGGGCCTGTTGGCTCTGGGTCTCTGGGTCTCACCTGATATGGGTGTGGGACAGTCAGTGTAGGCCCCAGACAACAGCGGACTTCAGACTTTCCCGAGG
AGGAACTGGAGCCCACCAACCTGGCCATGGGCCCCGTCGTCCTCCACCCTCCATGTTGCTGGCTGGAGTTGAGGCAGGTACGGGGCCGCCCCACACCTGC
CCCCCAAGCCATGTGGTAGGGACAGATGTCGTCTTGAGGAGCAGCAGTAATTACAAGCTTACTGTCAGCCGTCCCTGGAAGCAAGGGCCAGGTCAGGTCA
GACAGGAGGCCGCCTGGCTGGCGGGAACCACTCCCCAGACAGAGACTGTGCCCAGTCCTGGGTCCCTCCTCATTTGGGATGAACTGGGCCTCCCTGTGCC
AGCCTCGGTGCTGCCCCTGCCCAGTGCAGGCTTGGGCTCCTCACTCATTTGTCCACGCGGATGCCCCATTCCAAGCAGATGTCCCCGAGCCACTTACCCA
ACAGGCAGACGTGCCAGCACTGTTCGTGGTGTGCAACTGGTCTGGCGGGAAGAGCCCCTCGTGGGCAGAGGGTCCAGAGAGGTGCGGTTTGCCCCACATT
TGGGGGCACTGGGCCACAGTGGGCAGGGGAGCACRTGGCCAGTGCCCTGGGCTAGGAGAGGGATAAAGTCAGCTGTGGCCAAGCAGAAGCAGTATTGCAG
GGGAAGGGTGGGGAGAGACTGTGCTATGAGCTCTGAGCAGGAGGCAGGACATGGAGAGAAGGGTGGGAGACGGACAGAGCCAGCTGTGCCAGCCGAGGGA
CCAGAGTGGGCAGTGGGGACGGAGCACAGACCACCGCCCACAAGGGTCTCTCCTGTGACTTCTGGCTTCCCGAGGGCAGAGGCTGGGMTGGGCATGTGGC
GGCTGGCACCCAGGAGGCTCCGCCAGGTCCACGCCAAGCCAGCCTGGCTCAGCTCTGGCTTCCTGCTCACACGCTGGATGCCTGTCCCCAGGCCTCCTGA
CAGGGCTCTGCAGCATTGGAGAGGCTTGTGGTGGGGCCCTCGCTGTAGAACAGGCACTGCCAGTGCTCACTGACTCCTCATTGCAGCCAGGGCAGGGGCG
CTCCCACCACCTCGGTTTCAGTCAGGAAGCTGGGGGGTGCTGGGATCTGCCAGCAGCTCTGTGTGCTCCCCAGGTGGGCTGCCCGGGGCCCTGGCTCTCT
GGCTTCTACACCAGTGCCCCTGCGAAGCCTCAGCGCCCAAGGTCTTTGCAAGCCCTGTTCCTGCATCTCTGGAGAGGGCTGCTCCAGGTGTGGGCCTGGC
CAGGGCTTCCAGACCAGTCCAGGCACTGCACCTGCACATTGACCCCCTTCTCCACTCTCTCTCATCCTTCAGTAGCCACAAAGCTGGCAGCAGGGTACTC
GCAGATTTGTGAGGAGAGCCGAGCCCTTGCTGACTGTCCTCCCGTGCACGGCAGAGTGAGGCGGGGCTCCTGGCCTCCTTAGGGGCTGCCCGCTCTGGGC
CACACAGCCAGAGAAACACTGTCCATCTGGCTGGCTTGGCCTGTGGGGTGCAAAAGAGGTGTTTTCACTTTGCTTTGGAAACATGGAAATTACCAAGTGA
CTTAACCATAACACCAAATGATGATTTTTAAATTTATGAAAATTATGGAACCAGATGGGACACAGGGAAACGAGAACGATACTGAAAAGGTCTGAGTCCT
GTGGGGGGTCCAGGTCCCGCAAGACAGCTAATCAGGTGCCCCTGTCTGTTATTCGGGTAAATGTAGCAGCTGGGTCCAGGCTCGGGCAGAGCAGCTTTCT
ACAGCAGGGGTGTCCGCCCTCTCCCGGGGTTCCCACGGGGTTCCCAGGGGCCTCTTACTCTGCCACGATGTGGGAGTTCCACCACCACAGGGACTTGAGC
GGCAGCTCCGGCTCTTACGTAGAAACGCGCAACTCCAGTCCCTAGGTTGTGTCCGAGGTTGCTATGGTGCCATCCCATCTTGCCGCTCACTCTGCGACTG
TGCGGAGAAACGCAAGTGCCCCCGAAGGGTGGGCGTGGCCTCTGATGAATGCACACGTTGGTGGGAGGTGGCTTCCGTTTGTACGAAGCGCCTCTTCACG
CGAGCGTTCACCTCGGTCTCCCCTTTGCTTGGTCCAGTTCCAGAAACGCCGCTGGACTGCGAGGTCTCCCTGTGGTCGTCCTGGGGACTGTGCGGAGGCC
ACTGTGGGAGGCTCGGGACCAAGAGCAGGACTCGCTACGTCCGGGTCCAGCCCGCCAACAACGGGAGCCCCTGCCCCGAGCTCGAAGAAGAGGCTGAGTG
CGTCCCTGATAACTGCGTCTAAGACCAGAGCCCCGCAGCCCCTGGGGCCCCCCGGAGCCATGGGGTGTCGGGGGCTCCTGTGCAGGCTCATGCTGCAGGC
GGCCGAGGGCACAGGGGGTTTCGCGCTGCTCCTGACCGCGGTGAGGCCGCGCCGACCATCTCTGCACTGAAGGGCCCTCTGGTGGCCGGCACGGGCATTG
GGAAACAGCCTCCTCCTTTCCCAACCTTGCTTCTTAGGGGCCCCCGTGTCCCGTCTGCTCTCAGCCTCCTCCTCCTGCAGGATAAAGTCATCCCCAAGGC
TCCAGCTACTCTAAATTATGTCTCCTTATAAGTTATTGCTGCTCCAGGAGATTGTCCTTCATCGTCCAGGGGCCTGGCTCCCACGTGGTTGCAGATACCT
CAGACCTGGTGCTCTAGGCTGTGCTGAGCCCACTCTCCCGAGGGCGCATCCAAGCGGGGGCCACTTGAGAAGTGAATAAATGGGGCGGTTTCGGAAGCGT
CAGTGTTTCCATGTTATGGATCTCTCTGCGTTTGAATAAAGACTATCTCTGTTGCTCACAAATGTCCCTGGCTGTCCCCACACTTGTTCTGGGCCCCGTG
CAGTGCAGGGACCCGTGGTGTGCGCTAATTGGGGACACACATTCAGAAGGCGCCTGGTGCTGCCGTCAGGGCCATGAGGCACGTGCTCTGTGTGTGTGTG
GGAGGCAGGCCTGAGACCTACAGATCTCCCCACAACAGACGCCACCCCTGGCCCATACAGGATTTCAGAAGACACAGCAAATGGCATGTCAGATGCATCC
ACAAACCCGGCAGGCACGCGCCTGCCCACAGGACGATCAGAAGCTCAGACAAGGGGCACCTTGAGATCCGGACGAGGCCCCAGAAGCCCTCACTCTGCCC
CCTCCTCTGTGGGAGCAGCTTGCATTGCTGCTGTTCATGGGGGGGCCACTGACCACCAAGACCCTCGCAGCCCATCAGGCCACCAGCAGACACCTCCTGA
GACCTGAGCTCAGAGGCCCCAACCTCAAAGATGTCCTCAGGGGCTCACTGTAATCTGTCGTGGCCCTTTCTGCAGCAGGGGTCCCCAGGCCTCCCCACCA
GTGCCACTCACCTGGTGGAACCCCAGGGCCCTCTCAGTGCCTGGGCGGGAGCTCTGTGTGGTTTGAGGATGGAGATGCTTGGGGGATGGCTGCTTCTTCA
GTCCTCTCCCAGTGACTGGAAGGTGGGGGCTCACTTCTCTCACCGAGGCCTGGTAGACGACCCTTCCTCGTAACTGTCTAAGGCCCTCCAGCCCTGATGC
TTCTAGAACCAGACCCCAGGCCCAGCTCCCACCACCCTGCACGCCATCCCCGCCCACCATCCTTGAAAACAATGAACTAAGCCCAAGCTCACGGGCGCAT
GAGCTCTGAGGTGACGTGGAGATCTGAAAAACCCCTGGCTTAAAGTTTTCTTAAGGTTCCTGGGACTGACAATGCCAGGAGGCCCCTGAAAGAATGGCCG
TAAATCCTGTGTAGAGATCACACTGTGTACTTGGAACTCAAGAGGATCCCCAGGAACATGAACCCACAATCAGAACCCATAAAACGCACAGAACACCAGC
CTTGATGCTCCTGAGTCAGAGCACATGGCAAACTCCACGGTCAGAGCCACCGGGCCGCTGGGGCTGGCATGACCAGGAGAAGATGCTGACCGAGTTAACC
TCGCCAGGAGCTCTAAACTCAAAGACACCAGAGCAGCACAATGGGGTGGTGCATTGAAGCCTCGACAGACGGACACAACACTCCAGTCAAAGGGCAGAGA
CTGCAAGAGCAGACTCACAGAACCATGCGCTACTGTGGAGCCTGTGAAGTCCTGTAGGATCACTGAAAGGCTGGGGAAGGGGTTGTGGTGCAGACTCCTG
CAGACACCTGGATCCACCTGCCCTCCCTCCTGGAGCATGGAGCTGGGGGTCCCTGGGGTAGGACAGGCGTCACTTTGGGGCCAGAACATTTACTGCCCAG
GTGAGAGGCTATTGTGCTTTCCTGGCCTCAGGGACCCCAGGGCATGTGTTGACGTGGGTGCCATCACTGAAGTCTCTGGGGCCCCAGGGCATGTGTTGAT
GTGGGTGCCATCACAGAAGTCTCCAGGGCCCCAGGGCATGTGTTGACGTGGGTGCCATCACAGAAGTCTCTGGGGCCCCAGGGCATGTGTTGACGTGGGT
GCCATCACAGAAGTCTCTGGGGCCCCCACGCCACTAGGACGGCCACTGTTGTGCTGAGGCATTGAGATTTGAAGGAGACCAATGGGGAACGCCATCCGGT
AATGGAATGCTGTGTGAGGAATCCCACAGGGGCCGCCTGGCCGGAGGGTGGATCAGACAGGACCTATGTGGCTGCCCTCTCCTGAATGAGGTGGGGAGCA
CGGGAAGGCGCAGAGTGCAGAAACAGCACTGCATCAGTGGCCGCCATCTTGACAGCAGTGAGTAGTGGGTATAGACAGGAAAATGGAGAGGAGAAGCCCC
TGCAATAGTCCCAAAAGAGAGAGGTTTGGGCCTCAGAGACACCCGTGGACATGGGAAGAAATGGATGAGTCTGGGTTTGTTTTGATGAAAACGCAACGTG
AATACTTACAGACCTGCGTTTAACATGCCTCCCAGAGATACCCAAGCAGTTGACCCCATCCCAGTTTCAGGAAGGCCTTGTCCCAACTGGGTCAGCATGG
GGAGCCAGGGGGGCAGTGAGCAAGTGAGGGCAAGTTCACACCTGAGGGACCCATTCGTGGTCTGTAGCCCCCTGCACACTGTGCTGCCACAGGTGGACGG
GGGGCACCTGGGCCAGAAGGAGGGGCTCCACAACTACACTGAGACTGCATGCCCCTCATATTAGTGGGATGTGGATACGCTGGGCTCCAGGGTGCTGCTG
GGCCTACAGGGTGAGGGTTGGTCCAGCCCACTGTGCTGAGAAGTGGTCGGCAGTCCACAGTGTCCGAGCCATAGGAGGATAATCATGGAATGGCCCACTG
TGCTCAGCAACAACACACAGGCCATGGGGACTGGGGCTGAGGGGTCTGTGGCACTGGGGGAGGAAGACAAAGGGTAGAACATGGAGAAGCGATGGGCAGG
GAGTTCCTGGCAAAGATGGTAGGCTGAGGAACTGAGCACTGACACCTAACTCCACTCCCACCATACTCCATTGGAGCTGTAGAAGAGGGTGTGTGGATGG
CACAATCCAGACGCCTACCTTGGCACTCTCAGGGGACACCCTCCACCCACAGAATGGCGAAACGGGATGGATACAGCTCTGAGACACTGCCCCTTTCATA
AGATGCAGGGAGGACTCCACTTTCTACCCCCACTTCTAAAAATAAGTAAACACACACATTGAGGCTGGAGCAAGGAGGTGGTGTCAGGCCAAAGAAACAA
GCTCATGAGCAGCTGGGAGAGACAGGGCTCCTGAGGGCTGCTGTGAGCTTGGCTAGCAGCAGAGTGAAAAGGTGAACCCAGCACCCCACATGGAGAGGGA
CCCTCGAGGCCAGCAATGCCCTGTGATATAGGAAAGGACAGGAGCAATTCTCTCCTCAGGAGCTTTCCCAGTCCCTAGTGTGAGCCCCAACAATCAAAAT
CAGGCAACGAGCACAACACAAAGATTAAATAAACAAGAAAACAAGTCGCTATAATTGAAAGCCAGAAAAAAAAAACCAACAGATTCAGACACCCAAGATC
TCAGATAATTAACTTGTCAGAAATGTAATATAAAACAAATAGAACAAAAATGACCAACCAACAAGGGAAATTAGAAACAAACAGATACATTTGGAAAGGA
AAAATTATAAAATGAGGAAGCCTGAGTGAGTTGGAGAGCTAATTAGCATAGCTGAACAAAGAATTAGTGAACTGGAAGATCTAGCTGAAGATATCAGGCA
GAATGCAGCACAGAGAGACAGGAAATGGGAAATTTCACAAAGATATGGAAGACAAGATGGAAAGTTCTAAAATGTTTTAAATCAGAGACTCTAAAGGAGA
TAATAGGGAGAGTGGAGAAGAGATAATATTTAAAGAGAAAATAGTGCAAATTTACAGCACTGGTTAAAATTAGAAGCTGTCTCCAGAAACAGAAAGCATA
ATGTATTCCAAAGAGGAGAAGTGAAAGCAGTCCACGCCCACACACAGTATATTGAAACTGGTGAACACTAAACACAAAGAACGAACCTTCAGGCTGGGCG
CGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGACGAAACCCT
GTCTCTACTAAAAATACAAAAAAAATTAGCTGGGCGCGGTGGCGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCCC
AGAGGCAGAGCTTGCAGTGAGCCAAGATTGCGCCATTGCACTCCAGCCTGGGAGACAGTGAGACTCCATCTCAAAAAAAAAAAAACAAAAAACAAAAAAA
AAAAACAAGAAAAAACCTTCAAAGGACCCAGAGGAATGTACAGATTGCTTATGAAGGAACATCTATTGAATGACAGCTACTTCCTAACAGCCCAAAGGGA
GTCAGAAGGCAGTCAGATAATAACTTTTGAAATGTTGAGAGAAATTAACTGTCAACCCACAGCTGGGAACTCAGCAACACCTTTTAAGAATGAGAGCAAA
ATGCAGACATTTTCAGATTAACAGAAACTGAAGAATCTTAATACCAAGATAATTACCCTGAAAAACTTCTAAAGGATGTTGTTCAGGGTGGAGGAAAATT
ATCCCAAAAGGATGGTCTGAGATTTGAGGAATGGTAATACAAATTATTTTAAATCTCTCCAATAACAAAAGTATAAATTCCCCAAAGATGGAGAAAAAAA
TAACAGCAAAATTAGAGAAGCTGAAAAGCAGCGGTAAAGTGAGAGCTGATCAGCAGGGCCGAGGAAAACAAATCCTAAGCTGGAAGTTCAGGTTCACAAA
TTCAAATAACTGGCCGGCCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGATGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGC
CTGGCCAACATGGTGAAACCCCATCTGTACTAAAAATACAAAATTAGCCGGGAGTGGTGGCAGATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAG
GAGAATTGCTTGAACCCAGGAAGCAGAGGTTGCAGTGAGCCGAGATTGCACCATTGCACT


SNP Information

Context             (SEQ ID NO:60709):
GCCAGCCGAGGGACCAGAGTGGGCAGTGGGGACGGAGCACAGACCACCGCCCACAAGGGTCTCTCCTGTGACTTCTGGCTTCCCGAGGGCAGAGGCTGGG
M
TGGGCATGTGGCGGCTGGCACCCAGGAGGCTCCGCCAGGTCCACGCCAAGCCAGCCTGGCTCAGCTCTGGCTTCCTGCTCACACGCTGGATGCCTGTCCC
Celera SNP ID:            hCV27512125
SNP Position Genomic:     6288
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,262|A,1227)   total(A,1227|C,262) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60710):
AACTGGTCTGGCGGGAAGAGCCCCTCGTGGGCAGAGGGTCCAGAGAGGTGCGGTTTGCCCCACATTTGGGGGCACTGGGCCACAGTGGGCAGGGGAGCAC
R
TGGCCAGTGCCCTGGGCTAGGAGAGGGATAAAGTCAGCTGTGGCCAAGCAGAAGCAGTATTGCAGGGGAAGGGTGGGGAGAGACTGTGCTATGAGCTCTG
Celera SNP ID:            hCV29285079
SNP Position Genomic:     6035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5


Gene Number:                 331
Celera Gene:                 hCG19832 - 113000145155785
Gene Symbol:                 JM1
Protein Name:                JM1 protein
Celera Genomic Axis:         GA_x5YUV32VR6H(61216..93302)
Chromosome:                  ChrX
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12491):
TCTCTAGGATGCCCCCACAGACCACAAAGCAGTCAAAGCGGTTGAAGAAGGAAGACACATAGGCAGAGGGGCCCAGACCGTACAATTTGAGAAGCATCTC
CACCGTGAACAGACAGAGCAACACTTTGTTGGCATACTCTGTGGGGAGAGAGGCAGGGATGATCGGGCTGGCCAGTTTCTGTGGTGACATGTGGGGAGGT
AACTAGGGACCATGGGGTGACCCACGGTAGCTGGTATCAGGCCAGGTGCTGGCTGAGGGAAGGCTTAGGGCTAGGGATTGGGGTGAGTTTGTAGGTCAGA
GTAGGTGAAGTTTTGAGGGGCTTGGAGATGGGGATGAGGGGCAGAGTCGGGGTGGGGGCCAGAGTCAGTGTCTATGAGTCCAGAAGACCCAAATTCACAA
GTAGAGTTAGAGTCTAGGGTTTCTTCGGGACTGGGGCTGGTTTGTGGGTTATGGGTTAGAAATGTGCTCGGTATTCAGGCTGGGGCTGAGATTATAATGA
ATAATAGTAAGAGCTGACACTTATAAAGTGTTAGCTATATGGTGGGCCATACAATGTCCTAAGCACTTTTCACTTTACATCATTTACTCCTCTTCGCTGC
TTCATGAAGTGGATACTACTATCTATCATCTCCATTTTGTAGATGTGGAGAACTTTTCCAGACAGTGTGATGATAAGAGCCTGGATTCTGGAGCCAGGCT
GCCTGGGTTCTAATTCTGGCTCTGCCACTCGCTAGCTGGGTCCCGAGATTAGTCGCTTAACCCCTCAGTGCCTTGATGCTCAGTGTTCTGTGCCTTAGTA
TTTAATTCGCATAAGGTTGTGGTGAAGAAATTGTCAGTACACATAAAGAAAGGTGCTGAGAAAGGAGCTTGAGGCACACAGCAAGTGCTACCTGTGTAAG
CTACAAGGTGGGATGGGACAGGCTAAGGGCTCTGGATTTATTTGGGTAGGGGGGAAGGCAGTGTCTTGGGGGCTGAGGCGCCCTAGAGGTTTTGGATTTA
AGCTTCTGGGGTAGAAGGAATAGGAGGCTGGGGGAGACGACTAGCAGGCTGGGGGTGTACCCTGGATCTGGGTGAGCCACACAGGCTGCCCGTGGTGCTC
AGAGGCGATGGTCAACGTGTTGAGGAAGACGAGCAACAGCACAGCCCAGTAGCAGGCATTGGACTTCACTGCCCGACGGCAGCGTGCCCGAAGGACCCGG
TTGGCTCGGCGGAGGCGGCGGCTGGGGGAAGGGGAGCCCACAGGCTGAGATCACCTACCTAAGCCTGCCCTGGGGGGCTCAGGTGGGGGATCCAAAGGTC
ATGAGGGCTTGGAGGTGGGGGGTTTCAAAGTTATGGAGTCAAGGATTTGCACAACTTTCCCAACTCACCAGACTCTGGTTTTCATGATCTTGTTTCTGAA
AAAGAAGGGGGATGGGAGGTGTGTGTCGTAAAGGGCAGAAGGGGTGTCAGTGACTGGGGCCAGAGGTCAAGGACTGAGATCGAGGCTTGAGGCTAAAGAA
AGGACTTGAGTCAGGGTTTGGACTGGCTTCTGGGCTGGGTCAGGGGCTGGGGGCCCTCACAGGCAGCGTGTACAGCTGGCCAGAGCCCCCTCCTCCTCAT
CCTCATCGCCTTGGGTCTCTGTCATGGAACCGGTGTCACTGGCTGGGAGGCTGGCTGTAGGCAAGGTGGGGATAGTGGTCAGGACCTGAAGACCCCGAGG
TCCAATCTTTGGCTTTCACCTCTGCCTACCCACCCCCACCCCAGCCTGGCTGGACCCCCACCATGGCTGCTGGTGGAGTGTGTGGAGCGAGTAGAATGAC
TGAACCAGCGCAGACGTCCACGCCTCCTATTGGTCAGCTCGGCCAGCTGTGGCCCTGCAGGGAGAGAAAGGACAATTAGGGAGGACATACTGGGGGCAGG
GTTAGGGCCATGTCTAGGGTAGGGGTGTCATTTGGAGTCTTTATAGCTGAGGCTGGTCTTGATTCTGCATTTTGAGCCATAACTTGGGGGCTGGGGCTAG
AGTTGTTGCAGATCAGGCCTGGGTGGGTCTCAGGAGGGCAGACCACATCTAAGGCATGCAGGGAATGGGCCAGATTGGAGTTGCCTACGATGGCCCGCCC
GGCCCTCTTCAGCCATAGAACCAAGGTTGTCATCGGCGGAGGGGTCCTCCATGTCCAGCTCTTCGGCTTGAGTGATCCAGTCCAGGTAGCCCCGCAGGTC
TTCCTCCATCTGCTGCTTCTCCCGCTGCTTCTGGAAGTCCCCGCGAGCTTTCGCTTTCTCTCTCTCCTTGGAGAACTCCCTGAGGGAGGAGGATAGAGGG
CTAGGGGGAGGAGCCAATCTGAACACCTTGCTTTCATCACTCCAGCCACACTAGCCTCCTAGCTACTCTTTGAATATGCCAAGCACATTCTAGCCTCAGG
GCCTTTGCACTGACCATTCTCTTTGCTTGGAATGCTTTTCCCTCAGATAACCACATGGTGCACCCACCTCATCTCTTTTTTTTTCTTTTCCCCAGATACA
GGGTCTCACTCTATCACTCAGGGTGGAGTGCAGTGGTGTGATCATAGCTCACCGCAGCCTCGACCTCCTGGGCTCAAGCGATCCTTCCACCTCAGCTTCC
TGAGTAGCTAGGACTACAGGTGTGCGCCACCATGCCCAGCTATTTTTGTTCATTTTTTGTAAAGATGAAGTCTCACTATGTTGCCCAGGCTGGTCTCGAA
CTCCTGACCTCAAGCCATCCTCCTGCCTTGGCCTCCCATAGTGCTGGGATTACAGGCATGAGCCACTGCACCTGGCCTCTTTCACATTTTTACTCAAATA
ACACCTTGTCAAGACAGCCTTTCCTGACATCCCTATTTATAATCACAAGATCTCTCCATTCTTATCTTTTATCTTTCCTTTCTTTCCACAGTACATATTC
CATATAAAACACTATATATATGTGTGTGCCAATATATAAATGCACACACTTATTTTATTGCATATGTTGCTACTTTCTGTCTCTCCCCATCAGAATGTAA
AACCAGGAAGGCAGAGATTTTTGTCTTTTGTTCCACTCCTAAAATGGTGCCTCACATACAATAGATGCTCATGATTGAATGAAGGAGTATTTCAGATGGG
TTTTGAAGGATGTCTAGGAGTTTGCCAGGCACAAAGAAGTGGGCAGTGGCTGAGGGGTGGGAAGCAGGGAGTGTCTAGGTCCCTCACCCACTCAGGACGC
CAAGCACAAGGTTGAGGACGAAGAAGGACCCAAAGATGACAAGGCTCACAAAGTACACCCAGGGCAGTTCATACCCCATGGCATCTTGCATCTGGGGAGA
GAAAAGGCATGCATCCCTCAGGGTAGGCAGACACTCCTGCGTGAGTGTCAGGGAGGAAAGGCAGGTGCAGCCTTTGAGCTCTGTGCCCACAGTCCACCTC
ACCCAGTAGAGCACATCGGTCCAGCCTTCCATGGTGACACACTGGAAGACTGTCAGCATGGCGAAGAAGAAGTTGTCAAAGTTGGTGATGCCTCCATTGG
GCCCTGGCCAGCGCCCGCGGCACTCAGTCTGGTTCAGCGTGCACGCACGCCCTGATCCCGAAGACGCACAGGGCGATGGGTCCTCCTCCGCTTCCATGTC
TGCAGGAAGACTGGAGCTTGGGGCTTCGAAGCAGGCCCACTCTCAGTCGCTGCCACCCTGAAGCCCCGCCCACTTAGGAAGCTCGACTTGGGTCCTAGAT
TTTTCTCTTTCTCTCTTTCTTTCTTTCTTTTTTTGAGACGGGGTCTCCCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACCACAACTT
CCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACCGGCGTGTGCCACAACGCCCGGCTAATTTTTTTTGTATTTTTA
GTAGAGACGGGGGTTTCACCATATTGGTCAGGTTGGTCTCGAACTCCTGACCTTGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGT
GAGCCACCGTGCCCGGCCAGTCCTAGATTTTTCTAAGGCAACACTTAGCTCCACTTCTAGGGCAGAACCCTGCGAGCTCCGTATTCTGAACCACTGGGAA
GCTAGGGATCCCACCAACCGGGATTTAAATCCTGGCGTGGAGTCTTGTAAATAACAATGAGGCAAGAGCCTGGGGGCGGAGTCTTGTGAATTTGGACGCG
TCTCTTGAAAATAGGGGAGGGGCAAGGCATGGGCGGGAGTCTGGGTAAATGGTCTGAGTGTATGAGAACAGTCGTGGAGAATAAAGCTTTTTTTTGGTTT
GTTTTTGTTTTGTTTTTGAGACCGAGTCTCACTCTGTCGCCCAGGCTGGAGCGCAGTGAGTGGTGCGATCCGATCTCAGCTCACTGCAACCTCCATCTCC
CAGGCTCAAGTGATTCTCATGCCGCAGCCTCCCGAGTAGCTGGGATTACAGACATGCACCACCACGCCCGGCTCAACTTTGTATTTTTAGTAGAGATGGG
GTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCATCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCACGGC
GCCCAGCCGAGGATAAAGTTTTTTAAAATTGTTTTTGTTATTATTTTTTGGAGACTGGATCTCACTATTTTGCACAGGCTGGTAGCAAACTCCTGGGCGT
AAGTGATCCTCCCGCCTCGGCCTCCCAAATGCCGGGAATACAGGTGTAAGCCAAGGCGCAGAGTTTTTGTTTTGTTTTGTTTTGTTTTTGAGACGGAGTC
TCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCAGGTTCA
CGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTTGTATTTTTTTAGTAGAGGCAGGGTTTC
ACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGCAGAGTCTTGTCTTAAGT
GCGGGGCACTTGCACTTAAGTCTTAAGTGCGGGGCAGGACCTTAGCCTGTGGGTACAGTCTCGTGATGGGGCGGAGCTATTAGCGAGGTGGGGTTGTAGT
CTGATTTAGGGCAGAGTCTTGAATATATGGGTGGGACTTGGTTATCTGGGGATGGAACCTGAGCCTGGGGGCCGAATCTTGTGCATTTCAGTGGGTTTCC
CTGAGTGCAGCATTGGATCTAGGAACCGAAGGAGGGGGCATGTTCTGCCTAGGAGGGGCGGGCAGACTAACCGGATCCCAGGAAGTAGCACGTCTTGTGC
ATTCGTCCAAGGAACAGCTCGAGCCCAATGATGGCATAAATGATGATGACGAAGAGCACGAGCAGTGCAATGTGCAGCAGCGGCACCAGAGCCTTCATGA
TGGAATTGAGCACTATGTGCAGGCCTGCGGGGAGGGAGGGGGAGGCAGAAATAAGGGCGGGGTCAGCTCAGCCCCACCCCCACCCTCCACCTCCGACCTC
GGGGGATGTGCCACTCACTCGGGACCCCAGACACCAGCCTCAGTGGCCGCAGCACCCGAAACGCCCTCAATGCCTTCACATCGAAGCCTCCTGGCTTTCC
CCCGGTGTGCGGGGCGTCGCCTGGCCGTCCGGGGCCCTGCTCCAGCAGAACGCTGAACAGCCTGATGGGGGAGCACCGGGCAGGGAGGCGGAGGTCAGGC
CTTGGGATTCCCCCCTCCACCCTAACCTTCTCAGAAAAGCACAAGTCCCTGTAACTAGAAATAGAAATGGGTTTTAATAATATTCCTGATTCTGGCTGCC
GAATGGGGGCGGTCTGAAAGAGTCGCTTTCCTGAGCCCAGAATTCAGCGGGCCTGACGGTAGGAAGGCGACTAGGGTGGGGTGCCTCCCGCAGACGCGCA
CCCGACCACGACGATGATGAAGTCGAGTAGGTTCCAGCCATTGCGGATGTAGGCGCTGGGGTGGAGCACCAGCCCGTAGGCCACGATCTTGAGCACCGTC
TCCACAGTGAAAATCACCAGGAATACGTACTCCACCTGCTCCTGGGGGTGGGACCGGGGGGCGGGTCGGGAAGTCGGGGAGTTATTTGAAGGCGAGGTTT
GACGGGGGCGTGGGGAGCATAGTCAGGACCGAGGGTGGGGCTGAGCCAGGCAGGGCCATCCGGGTCAGAGAGGGGGCGGGGTCTGGCTGGAAGGAGTGAG
CTCTACTGGGGCTCTATTTGGCTGGGAACTGGCTGGGGCGGGGCGGGCCTTACCAGGTTGTGGTTGGCAGTGTTGGAGTCGTCCTCAGGGAAGGGGATGT
AAACTCCCAGGGCCACGCAGTTGGCAAAGATGGTCAGCAGGATGAGGATGTCGAAGGGCCTCAGGTGGACACAGTCAAGGACCCTGGCAGAGTGGCATTG
GAACCCCCCTACTCCCTTGGGAACCTCCCACCCAGTGCTGACCCTTGACGCCCAAGGTGACAGGTCCTGGCATTCTCGACCCCTGCCCTGACAAGGCCTT
GACTTTGTCCCTCCTGGAAACCTTAACCATCCCCAACTCTTGCTGTGATTCAGTCCTTGACTCTTGAACCCTGGTGACCTTTGCCTTTCTGAACCTGCCC
CCCAACCCAGTTCTTGACTCTTGACCTTGATGATCTCAGCCCTCCTCTGTTCCAGCCCTGACCCAATTCTTTACTCCTGGTACCCTGATGACCCTTACCC
CTGGGCCCTGCCCCTGCCTTCCAGGATGCTTCCACTCCACGATGCTGATGCAGGACCGTCGCAGAGGATTGGCCAGGGTGAGGCRGAAGAGTGCCCGAGG
TGACCGCTGGGCACTGGCCACTGCCACTGTCTTGTGCTTGCTGTGCTGGTTTCTTCRCTTAGGGGTCCCTAGGCCTGATGCYCCACTGCTTTCACCTTCC
ACAGCTGGGGGCCCGGGGCACAGCCCCCATTCGGGACCAGGGCCTGCCCCATTGGCTGGACTGRGCTCTGGGGTGGTGTCTATATGGAGAAACTGTGTCA
GGGAGGGACAGGGTATTGGGGCAATTGTGGCTGCTTCCTACCTGATCCTGTCCCTCTGTTTGAAGGAAGGAGAGAAGAGCATGGAAAATTAGGGAGAACT
GGGAGTAGCTGGGTTAAGGACTGGGAAGTAAGAGTGTTCGAATTAAGATTASAGTGAGAGYTTATAGGGGAGTGAAGGTGAGATTACATTTCCAAGTGAA
GTASGGTTTGGTGTTTAAGTTGGGGGTAGAGTTTAAATTGCCATGGGGTGGGCGAATTTAAGGTTAAATTTGAGTGGTGGGTTTTGGGTTAGGGTGGGGA
TGGGTTTAGACATAGGTAGGAGTGGAGTTTTGTCTAAGGGTTAGGACTGGGTATTTTGAATTGGAATTAGAATTAGGATACAGGTTAGGGTCGAAGTTGA
GTTTTGAGTGGGACTTGAATTTTGCATTGGGGTTTTCAGCTAAGGCCACTCCCAGTTCCCATGGTCTCGTTTCAGCCTCAGAGGGCGGTAGATTGGCCTG
GTTAAGATTCCCAGCTTTGGATGAAACAAGCTGCCTGAGTTTAAATCCTGACTTTACCACTTGGTAGCTATGTGTTGCCTTGGGCAAATTATGTAATCTC
TTTGAGCCTCAGTTTCCTTATCTGTATAATAAGGATGATAATAACAGTACCTAAAATATAGCGGTGTTATGAGGATTAAATGAGTTCAGAATCAAAAGAA
TGCCTGGCACATAGAGTTATTCCCATTTTGCAGATGAGAAAATTGAGAAGAAAAAGTTAAGTGACTTGCTGAAGTGGCTGAATGGGGAGTCACACTCAGT
CTAACTCTAGAGCCCTCATGGCTTACTACCACCATCAAGTATGTCTTCTCTCTCTTTCTCTCTTTTGTTTTTGTTTTTTTTTTTAAAGGGTCTGTGCACT
TTCTGGAAAGTCAGAGACTGCAATCACTAACAGTATTGACATCCCGGGGTTGAGGTTGAGGTTAGGTCACTTTAGGTCTGTATCTGGGGTGGGGTTTAGA
CTCTAACAGGGGTTTGCCTTCTGGCTGGTAGAGTTTGTGTTAGGTTTCAGGTGGGCGTTTGGATAGGGGTCAGAGCCAGGATTGAGGTTGGGTTTCCTTT
GGGAACTAAGGCTGTGGATGAGGCTGAGAGGCCATGGGGGGTGGTGTCTGGGTCAGGCTGAGCGTTAGGGCTCTGGTGGCAGAGAGGCTGTTTGGGGCTG
GCTGGGATGGGGAACAGGGTGATGTGGTTCTTGTCCCCTAGAGGCTCTCTGGGGGTGGGGTCTGGGTGGGCAATGGGTGGGTCAGAGGGGCTCTACCTTG
CTCCAAGGGTCTGCAGGGATGGAAGGATTCTCTCACCTTTCCCGCCTTCAGATTCCGACATCTTTCTTTCGAGATTGAAGGGCCATCTGCACACAACCCC
CCTCTCTTCCCCCAGCTTTGGAGGGATTAAGGCCGCAGGGCGGGGCAATAACAGTGTTGTATGGGAGGGTGGCGGTGGGGGTGCAAATGGGACGTTTGTG
GGCCAGAGCCTGGCAACAGATGAAATATTTACCAAATATATACCTGCAGCAAACAGTCAAACTAAAATAAGAAAAACGATGTCATTTTCCAGTAGTATAT
GGAATTCGAAGTATRTAGGAAAAACCTAATATATGTGCAATATCTCTATGGAAAAAAGATCAAATATTATCAATTATTATTATTTTTAGAGACAGGGTCT
TGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCATAGCTCACAGTAGCGTTGAATTCCTGTGCTCAAGTGATCCTCTGACCTCAGCCTCTGTAGCT
GGGACTGCAGGTGTGCACTACCATGCCCAACTATTTTTTTTTTAAATTTTGGGTTGCTTCGAACTTTATTTGAGAACAACAGAAGATAAACCTATCAAAA
GAACACACAGGTGGGTGCGGGGGCACGGCTAGTGGCGGCGGCCGGGGGCATCCGGGCTAAGGCTTTTACTTGGCTGCAGACTGGTCGGATTTCGCAGCTC
CTAGGCCCCCAAGCTGGGCCCGTGACTCCAAGGTGATCTCGTTGGACTGCGTGGCTAGCTTGGGCATGGGGGCCTCCACGGTCAGTGTGCCCTCAGGGGA
CAGGGAGGAGGAGACCTTGGTGGGGTCCACACCGGGGGGCAGCGTGTATTTCCGGGTGAAGCATCGGGAGATGTAGCCATGCTCGTCCTGCCGCTCCTCG
TGCTTGCTGGTGATCTCCACCATGCCATCCTTGGTCTTGACCGTCAGCTCGTCGGAGGCGAAGTAGTTGATGTCCAGGGATACGCGCCAGCGGTCCGCTG
TGGGCCGATTCTCCGAGACCCCGCCGCTGAGCTGCCGGCTGAGCGCGTAGCTGTAGGCGGGCGCGGCCACCGCGGGGCTCTCGACCGCGGCGGGGGCAGG
GGACGCACGTAGCGGGGCCAGCAGCTGGTGCCCAACCACTGCGACCAGCCCGAAGGCCTGGTCAAAGAGGCGACTGTGCGGGTACCAGTCGCGGAAGGGG
TCCCAGCTGGGGTCCCGCAGGAGCGAGAAGGGGACGCGGCGCTCGGTCATGCTGGCTGGCTCTGCTGGGGACGTCTGCTTGGACAAGTGTCAATTTTTTT
TTTTTTTTTAAGAGATGGTGTATTGCTGTATTGCCCATGCCGGTCTCAAACTCCTGACCTCAAGCGATCCTCCCGCCTTGGCCTCCAAAACTGCTGGGAT
TGCAGGTGCGCGTCGGCTGTTCAAGAAATGGTTACATAGATTTCTTTTGCTTTATTTATTTATTTAGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAG
TGTAATGGCGCAATCTCAGCTCACTGCCACCTTCGCTTCCCCAGTTCAAGTGATTCTCCTGCCTAAGCCTCCCGAGTAGCTGGGACTACAGGCATGTGCC
ACCATGCCTGGCTAATTTTTCTCATTTTAGTAGAGAGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGACTC
GGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCGGTTACATAGATATTTGCTGTGTAATTATTCTTTGGAGTGTACAAATGTGTA
TCATATTAAAGCATTTATTGAATGCATGGACACTAGTAACTATAACTTACATAGTGCTTTCTTATCTTATGTGTCAGGCACATAGTACAACGTGCTTTAT
ATAAATTAATTCTGTTTTAATCCTAAAAAGCAGGTACTGTCAATAGTCCCATTTTACAGATGAGGAGACTAAGACACAGGGAAGTAGTCGCTTTGTGTTA
AAATTCTGCCCTTAATGTGTACACTTTTATAGCCTAGAAGATGAATGCCGCCTTAAACGAATGAGTCAGGAAGCCCYTTTCTGTCCGGCCCCTCCACTCC
CCACCACACGGGTTGTTCCTTTTTCCCTTGGAAGAGCCCACTGGACTGCAGGTGGAAGAACTACAGTTCCCAGCAGCTATTGCAAGCTCAACCTCCGTGC
ACACTCACCCCAGGCCTCACATCCGGCATGCGCCGTGCTCGCTCRCAGAACTACACTTTCCAACTCTCCCCACACGACCCGTGACACTCTGTGGACCGCG
AGCACGGAGCAGGGTTTCTACAGCTGCTCCCCACTTTCTCGGACCCGGTCCTGGACCCAGCCCCCGACTCCGACACGGCTCCACCATGGAGGAGGCGGAC
CGAATCCTCATCCATTCGCTGCGCCAGGCCGGCACGTAAGGACAGAGCCCCCGCCCACCCCCGAAGCCCACATCCGGGACTCTAAAGCCCAGGACCCCGT
TTCCCGGGAACCTTAAAACCCGGGATCCTGACATTCAGGGCTCCAACTCCAGGATCCTAAGACCCTCACCCCCTTACACACACACACACACACACACACA
CACACACGCACACACACACACGCACACACACACCGCCCTCCCTGACACCGACATCAGAGGCCTCCCAAATCCTTTAACCATGATATTTGGTACACCCAAA
GCTCTGGGACCCAGACACCTTGAGACGTTACAACCTTGAAACCTCAAGACCCGGAACCCTGTAATCTGGGGAATCTTAACATCAGTTCCCTGAGACCCTG
TTATCTGGAGACCCTAAGACACCTGTGCCCTAAGAACCAGGGAGCGTAAAACCCCAGGACCCTGGCACTCGGGGACTCCAAAAAATCCCTGGACCAGATA
CTTGGGATCCTTCAAACTCCAGTTCCCCAAACACCTGGGGCTTAAAAAAACCCAGGATTCTTTTTTTTTTTTTCCTTTTCCGAGATGGAGTCTCGCTCTG
TCGCCTAGGCTGGAGTGCAGTGGGGTGATCTCAGCTCACTGCAGCCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGTA
TTACAGCCGTGCGCCACCTTGCCCGGCTAATTTTTGTATTTTTAGCAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCCAACTCCTGACCTCAAG
TGATCTGCCCGCCTCCGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCCAGCCAAAAAAACCCAGAATTCTAAAATCTGACATCAGCATT
TGGTCACCCTGACGCACGAAGACTCCTCCGTTCAGAGGCCCTAAAAACCCAGGATGCCAACATCTAGGGAGTCTGATTTTTGTATTGCTTGAAACTAGGT
GGTCTTGATATTCAGGGATCTTGATACCCAGGGACCCTGACATTTGGAACTTCTGAAAACAGCAGCCTCCTAAAATCTAGTCTTCTCAAAACTCTAGCAG
CTCAATATGTATGCAAAGAACATACTATCTGGGAACCAAGAAACCCAGAGATTGTGCCACCTGGACCCTTTCACCTTCCCAGACTCCCAAATTTTGATAT
TTTTCTAAACTGAGTTCTCTTCCACCCACCATTCTCCTACTCCAAGATCTTAGGACTTGAGGATTTCCCTAGTTCCTGGTTTTCCAAATGGAAGTCACAG
TCACCAACATCCAGGATCTGTCTGAACTGTAGGCATCCTCCCTGCCCCGACCCTGGTACTAGTGTTTCCAAAAGGCTGCAGGGCTCAGCCTGATCCCTGT
TGCCTGACTATTCCTGYGATCAAGCTGGTCCCCTTCTTCAGGGCAGTTCCTCCAGATGTGCAGACCTTGCGCGCCTTCACCACTGAGCTGGTTGTAGAGG
CTGTGGTCCGCTGCCTGCGTGTGATCAACCCTGCGGTGGGCTCTGGCCTCAGCCCTCTGCTGCCTCTTGCCATGTCTGCCCGGTTCCGCCTGGCCATGAG
CCTGGCTCAGGCCTGCATGGTGAGTGGCCCTCCTCYTAATGCACACATCCTCTTTCTTCCTCTTTTACAAAGTAACCAAGTTCCTTTGCAACACTTGCCT
TTCCTCTGCAACACTTGCCTTTCCTCTGCAACACTTGCCTTTCCTCTGTCATTTTTCCTGCGGCTTAGTTTTCATTAGTGGTTAAGGCTGCTGACTGTAC
TGCCAAACTGCCTGAGTAGTTTAGATCCTAGCCCCACCACTTGGTAACTGTGTGACCCTAACCCTTCTGGGCCCCAGTTTTCCTATTTGTGAAATGGAGA
TGATAAATGTAGTGCTTTTATGAGGAGCAAATGAGTTTATCCAGTTTGCACCTGGGCTGCTCCTGGCTTCTATGTTTTAAATTTAGCTGCAAAATACCAC
CCCCACCCCATAGTATCCATTTCCTAGTTCCAGAAAATACTCTGTCTGGGTCATATACTCCTAAACTAATCACTCTGTGCTCTGATTGGCCCAGTCTGGA
TGACATGGTCATTCCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTTTGTCGCCCAAGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTC
TGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTGTGCCACCACACCCAACTAATTTTCATGTTTTTAGTAG
AGACGGGGTTTCACCATGTTGGCCAGGATGGTTTTAATCTCTTGACCTCATGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCC
ACCGTGCCCAGCCTTTTCTTTTCTTTTTTTCTTTTTTTTTTTTTTTTGATGTGAAGTCTCTCTCTGTCACCCAAGCTGGAATGCAGTGGCGTGATCTCAG
CTCACGGCTCACTGCAACCTCCGTCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGCACCACCATGCTCAGT
TAATTTTTGTATTTTTAGTACAGACGGGGTTTCACTATGTTGGCTAGGCTGGTCTTGAACTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTG
CTGAGATTACAGGCGTGAGCCACTGCGCCCGGCCGACACGGTCATTCCTATAGGACACTGTGATTAGCCACTCCTTCAGGATCCTGTGGAGTTGGGATAA
GGATGATTACCCAAAGAAAGGCATGCTGGTTACCCAAAAGAGTGTCTGCTATATTACCTCTGTGGGAACCACATATCCTGCCTCTGCTAAGAGCAATTCC
AACAATGTCTCTGTGACAGAATAAATAAAGTGCTTTTCTTTTAAAAAATATTTTAATTTTTTTAGAGGTAAGTGTCTTGCTATATTGCCCAGGCTGGTCT
TGAACTCCTGGCCTCAAGAGATTCTCCTGCCTCTGCCTCACTAGTAGCTAGGACTATAGGCACATGCCACCCTGCCCGAGAATTTTTAAATTTTTCGTAG
AGAYGGGGTCTCGCTTTTGTAGAGATGTTGCCCAGGCTGGTCTTAAGCTCCTGGCCTCAAGCAATCTTCCYGCCTTGGCCTCCTGAGTAGTTGGGACTAC
AGGCGTGCACCACTGTGCCTGGTAAAGAGCCATTCTGATGAAACACTCACCCATTCCCAGTATAGAGCTGAGTCCAGGAGTCCAGTTCCTGTATTCAAGA
GCTGCAAGTAATGCCACTCCCCCTGGCTCACTCACTCTGTGACTTTGGGCCAGTCTTTTTTTTTTTTGAAGCCCAGGCTGGAGTGCAGTGGCACAATCTC
GGCTTACTGCAACCTCCTCCGCCTCCTGGGTTCCAGCAATTCTCCTGCCTCAGCCTGCCGAGTGGCTGGGATTACAGGTGTCTGCCACTGTGCCCGGCTA
ATTTTTTTGTATTTTTAGTGGAGACAGGGTTTCACCATCTTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCCACCCACCTCAGCCTCCCAAAGTG
TTGGGATTACAGGTGTGAGCCACCGCGTCTGGCTCTCTTAACCTTTTTGAGGCTAAGTTTCCACATGTGTAAAATGGGTATAAGAATTGTAGCTACTGTA
TAGGGTTGCTGTGAGGATTAAACATGAGTTAATGTGTGAAAAGCTGGTTATAATAAGCTTTGCATAAATGGGATTACTATTATTGGATAGGTCCGATCTG
GAACCTGTGAATACATAGTGAATGGAAACACTTTGAACTGACCCAGGAAGTATATGGTGGTGGAGGGACGATAGAGTAACTACCGTGAAAACTTTCATTT
AGATATAGGGGACTGGGTGGCTAGAGTTGTTAAATTTGGGCCTTGCTTATGCAGTYTCTGTCTCTTAGCAACAGGTCTCAGAGCTCCATCCATCCCTTCG
CTCTCAGGTTCACCCAGCTCTCAGGAGTTGTCACATTGTTCTCTCTGGGGCTCTTGGTGGCCTTATGAGGCAGGCAGTCTGTCCCCTGGCCCAGGACTGT
ATGTATTCTTAAGGTTAGCACTTAATAGGGGGGAAGTTATGTCTTCTGTTTGCAGAGGAGAGTACACAGCAGGAGGTGTTGAGGTGGGGGCTCAGGCTTC
CTGCAGTTCTCTGTTCTTCCCTCAGTGCTGTCTCTCTTGGATTTTGTTCACCTGCTTTTGCTTACATTGATTTTAGTGGGGGTTAGTGACTATGGCTTTT
CCAGTGGCCAGGAGGTACATGTGGGCTGGGCACGTTGGCTCTTGCATGTAATCCCAGCACTTTGGGAGTCTGAGGTGGGAGGATCAGTTGAGCCCAGGAG
CTCGAGATCAGCCTGGGCAACATAGTGAGACCCCCATCTCTACAAAAAATAAAAAAAAAATAGCTGGGCATGGTGGCACACGCCTGTGGTCCCAGCTATG
TGGGAGGCTGAGGTAGGAGGATTGCTTGAGCCTGGGAGGTCCAGGCTGCAGTGGGCTGTGATTGCGCCACTGCACTCTAGCTTGGGAAACAGAGTGAAAC
CCCATCTCCAAAAAAAAAAAAAAAAAAAAAGACTGGGGACGGTGGCTCCTGTAATTCCAGCACTTTGGGAGGTGGAGGCGGGCAGATCTCACCAGAGGTC
AGGAGTTTGAGACCAGCCTGGCCAACCTGGCGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCTGGTGTGGTGGTGTGTGCCTGTAATCCCAGCTA
CTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTCCAGTGAGTCGAGATTGCACCACTGCACTCCAGCCTGAGCGACAGAGCAAG
ACTCTTGTTTCCAAAAAAATAAAAAACAGGTACATATGGTTGTCTGGCCCCCAGCAGCCTTGGTTTATCAGCAGCAGGCAAAAGGAGTTCTCTTAATCCA
GCTGTGTGCTGTCCCTGTAGCCCCCCCGCAACTCAGCACTGCCATGTTCTGGCATCTTTTCTTCATATGCCCTGCTCCTGGCAACAGTTTCTGCACCTTA
GCCACCTCCATATTTTGGCACCTTCCCCACTCCTGGAATGAGTTTCTATATCAGTCACAGCTCTTTGATTGCATATTGTGGAAAAAATCCAAAGTAAAAT
ACCTTAAAAGCCAGTGGTTATACTTATTTGACCTTGAGCCTCCAAAATAAATATATCTTGCATTGTGACCCAGTATACTCCTAAGTATAGAATAATGATG
GCTTCTAAGTGTACTCTGTGCCAGGCCCTGTGGTAAGTAACATGGTGTTAACTCATTTAATTCTCAGGACAACCTTCTGCTATATGTACTGTTGGTATAC
CCTCTTTCAGATGAAGAAAGTGAAGCACAGAGGGATTAAGTGATCTGCCTGAGGTCGTATAGTTGGTAAGAGGCAAAGCTTGGGTTTGAATCCAGGAAGT
CTGCTTTCAGAGTCTATGCAGTTCCAAAGCAGTGGCAACTCTGGAAGAAAAAGGCTTTCCTAGGCCGGGTGTGGTGATTCCCACCTGTAATCCCAGCACT
TTGGGTGGCTGAGGTGGGCAGATTGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGTAGCCCTGTCTACACTGAAAATACAAAAATTAGC
CGGGTGTGGTGGCATGCACCTGTAATCCCAGCTACTCGGGAGGCTGCGTGGGAGGATCACTTGAGCCCAGGAGGCAGAGGTTCCAGTGAGCCAAGATCAC
GCTACTGCACTCCAGCCTGAGCGACAGAGCGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAGGAAAAAGGCTTTCTTTCTCTCCTGGCCTGTTTCCTCA
GTCCCCATCAGAACCCTCATGAGTCCTTTTGTTCTGAGCTATTGTGCTTCTGGTCTTTTTGTCCTGTTTATTTTTAGGCACTCTTTCTATAATAGGTAGA
TTTGCTCTTTACCTATGATATGGGCTCCAAATATTTTTTCCCAACTTGTCATTAACTTTTGACTTTGCTTATTCTATTTTCTTTAAATATTTTCTTTCTT
TTCATGTATTCAAAAGTACCCATCTTTTCTTTTATGGCCTCTGGATTTTGAGTCATAGAAAGGCCAGAGCTTTAATCTTGTTTCTTGTTCTCTGTAGCGT
TGACTATCATCACTCTGTGACTCCCCCCAGGGCCCAGAGGCCTTGGGGAGCTGGGGGAGGTTGGGAGGGTGGTGGTTAGTGAGAAAGTGGGAGCGTTTTC
AGCCTAGGCCCAAGTCTCCCAGGGCAGGAGGACCCTGCCTGCTTCCTGATAGCCGCCCACCAACCCTCAGGACCTGGGCTATCCCTTGGAGCTTGGCTAT
CAGAACTTCCTCTACCCCAGTGAGCCTGACCTCCGAGACCTGCTTCTCTTCTTGGCTGAGCGTCTGCCCACCGATGCCTCTGAGGATGCAGACCAGCCTG
CAGGTACTGGGTGTCTGGGRTGTGGGCGGGGGCGGTGAGGGGAGAGGAGGGCCTTCTAGGGGCTGTAGGGCTGAGAGAGGTAGAGGTGGTAAAAAGGTTG
ATGGGTAGGRGTGGCGGTATGTGCCTTCAGGAGAGCTAGGCAGGAGGATTAGGCATCAGAGAGGGGCTACAGGGCAGGGGGCAGGGGGCTGAGGTTGAGC
TGACCCCGGTGGTGCGTTGGTGCGGGGAGGGGCCTCCCTGACTCAACCCCTGTGCCCTCCCTCTCTCTCACTTCGCTCTAACCACTTGGGCCTCCTGGGT
GCTACTCAAACATACCCCAGTACACTCCCGCCTCTGCACCTTTGTATCGTTGGTTACCTTTCCCCTAGGTACCCTCATGGTTCACTCCCTTACCTCTTTG
AGGTTAACCTCCTCTCCGCAGCCCTCTCCTGATCCCCACCTGGCTGCAGTCTGGATGGTATTCAGGATCCTATTCATGATCTCTCTCCTCTGCTAGCTTG
CCGGCTCCCTGAGGGCAGGGACCTTTATCCAGTTTGTTCCACGAAGTAGCCCTAGTGTCTAGAACAGCGACCTGTACATAGTAGGTGCTCGGTGTTTGTT
GAATGACTGAACGTGAGAACGCAAGCTGGATAGATGTGTATCTCTGGATGGGGGTCAGGAGTGGAGGCTGGTCTCCTAGGGTATGCCCTTTTGGATTTGC
AGCATTGACATCTGATTCACTTCCTCCCTATCCCCCATAGGTGACTCAGCTATTCTCCTCCGGGCCATTGGGAGCCAAATTCGGGACCAGCTGGCACTGC
CTTGGGTCCCGCCCCACCTTCGCACTCCCAAGCTGCAGCACCTCCAGGTGAGACCCCTGACTCCCATGGATCTTCTCTTGTCCCCGTCTGGGTGCCCAGG
GTTTTGGCCCCCTACCCCTGGCAACCCTCATCCCACTTCACCCTGGAGATTCTGAGCCTGCTCTCCCACCAGGGCTCGGCCCTCCAGAAGCCTTTCCATG
CCAGCAGGCTGGTCGTGCCAGAATTGAGTTCCAGAGGTGGTGAGCATGAGGCTGTGGGGAGGGGTGAGGAGGAAGGTGGGGGGGAACCTCATAGCGTTGC
CATGCGGCAGGGCCAGCTGACTCTGTTCCTGCCTCCAGAGCCACGGGAGTTCCAGGCGAGTCCCCTGCTGCTTCCAGTCCCTACCCAGGTGCCTCAGCCT
GTTGGAAGGGTGGCCTCGCTCCTCGAACACCATGCCCTGCAGCTCTGCCAGCAGACGGGCCGGGACCGGCCAGGGGATGAGGACTGGGTCCACCGGACAT
CCCGCCTCCCACCCCAGGTACAGCCAGATGCCTGGCTCCCTGCTGTCTGGGCTGCTGCTCACTGACACTCCCGCTGGTCCTCTGCTCTCCTTCCCCACTT
TGTCCCTCCCTTCCATTGTTTCCCCTCTGTGTGTGCTTACCTAGCTCCCCACCTGAAAGAACACTGGAGTCAGAAAAAAGGAGAACCTGGGACAAGTCAG
TATCCCTCCTCAGAGCCTTGGTTTCCTGTGCTAAAATTTGGGGTAGTAATAGTGCTCTCCTCTCAGGGCAGTAGTTAGACTGAATAATGTGCTTGAGATT
CCTGGCAACTGGAGCAATCCAGATTGGCTACCTGCCTTCATCATTCATTAATTCATTCATTCATTTGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAG
TGGCGTGATCTCAGCACACTGCAACCTCCATCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCTTGCACCACCAC
ACCTGGCTAATTTTTATATTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCTAGGCTGGTCTCGAATTCCTGACCTCAGGTGATCTGCCCACCTTGGCCT
CCCAAAGTGTTGGGATTACAGGCATGAGCCACCGCACCCGGCCCTAATCTTTCTCTGTTTCTGCACTTGTCACTGATGTTCATTTTTCTGGTTTCTAGGT
TTTTGCACAATTTCTGCCTGTCCCCATTATTCTAGTTCTGTGTTTTTGCTGCTCCTCTTTCTTACCTCTCTGTCTCCTCGTTTCTGTACTGAATTCCTCT
CTTGCTCTGTCTATCTATCTGTTCCCCCTTCTCCTCTGTCTACTTCTTTATCTGTCCCCTCTTCTTCTCTGTGCACCTTTTTATCTGTGTCCCCTTCTGC
TCTGTCCACCTCTGTATCTCTCCCCTTCCTTGCTGTCCACCTATATATCTGTCACCCCTCTGCCTCTGTTTACTTCTTAATCTCTCTCCTCTTCCTCTCT
GTCCACCTCTGTATCTGTTGCCCCTTCCCTCTGTCCCCTTATCTCTCCCTTCTTCCTCTCTGTCCACCTCTGTATTTGTCCCTCCTCCCCTTCTGTCCAT
CTCTTTATCTGTCCTCTCTTCTTCTTTTTTTTTGAGACGGTGTCTCGCTCTGTCACCCAGGCTGGACTACAATGGCATGATCAGGGCTCAAGGCAGCCTC
AAATTCCCGGGCTCAAGCAATCTTCCCACCTCAGGCATCTGAGTAGCTGGGTCTACAGGTGCGTGCGCCCGGCTAATTTTTGTATTTTTTGTAGAGATGG
GGTTTTGCCATGTTGACCAGGCTGGTCTCGAACTCCTGACCTGAAGCAATCCACCCACCTTGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACCA
TGCCGAGCCCCCTCTTCTTCTCTGTCAACCTCTTTGTCCCCTCTTCTTCTCTATCCATCTCTGTATCTGTCCCCTCTTCCCCTCTGTCCACTTATCTGTC
CCCTCTTCCTCTGTCCACCTCTGCATCTGTCCCCTCCTTCTCTCTGTCCACCTCTCTGTCACCCCTCTCCCTCTGTCCATTTCTTTATCTGTCCCCTTTT
CCTCTCTGTCCACTTCTCTTTTTCCCTCCCTCCATTCTGCTCTCCTATTTCTGTTCCCTCTTCCTCTGTGTTCACCCAGGTATCAGTACCCCTCCCCTTC
TGTCCACCTTTACATCTGTCCCCTCTTCCTCTCTGTCCACCTCTGTATTTGGCCCCCCTCCCCTTCTGTCTGCCTCTTTATCTGTCTCCTCTTCCTCTGT
GTCCACATCTCTGTCTGCCCCTCTTTTTCTCCACCTCTGTGTCGGCCCCCTCCTGGTCTGTCCACTTTTTTATCTGTCCTCTCTTTCTGTCTTCACCTCT
GTGTCTTTTTACATTTTTATTTTTTTATCATTATTATTATTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTACAGTGGTACGATCTCAGCT
CACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCACATAGCTAGGACTACAGGCATGCACCACCACGCCCAGCTAATTTTTG
TATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTCATGATCCATCTGCCTCGGCCTCCCAAAGTGTTGTGATTA
CAGGCGTGAGCCACCACGCCTGGCTGTCTGTTTTTGTTTTTATATCTGTAGTAATTTTCAAACATAAATGTAGAGAGAATATTCTAGTGAATCCTATGTA
CCATTTTGCCAACTTTTCTTCATCTTTTCTCTCCCAACTTTTTCTTTGTTGCTGTATTATTTTAAAGCAAATCTCAGACATCATGTCATTTCAGCTCTAA
ATACTTAGGACTACATCTCTTAACTCATAAGGACATTCAGTTTTCAAGGTAACCACTGGACCATTTTCATGGCTAATGAAGTTAACAATAATATCTTGTG
GGTTTTTTTTTGTTTTGTTTTGTTTTGTTTTTTGTTTTTTTTTGTTTTGTTTTTGAGACGGAGTCTCTCTCTGTTGCCCAGGCTGGAGTGCAATGGCGTG
ATGTCGCTTCACTGCAACCTCCACTTCCTGGGTTCAAGCCATTCTCCTGCCTCAGCCCCCAAGTAGCTGGAATTACAGGAGCACACTAAGTTTTGTATTT
TTAGTAGAGTCGGGGTTTTACCATGTTGGCCAGGCTGGTCTTGATCTCCTGACCTCAGGTGATCTACCTACCTTGGCCTTTCAAAGGGCTAGGATTATAG
GCATGAGCCACTGTACCCGGCCAACAATGATATCTTAATACCATCCAATACTTGAGTTCATAATCAGATTTTCCCATTATCTTGAAACTCTGTTGTCCCT
CTCTTGCCTCTCTCTCTCTGCCTCTTTCTGTGCTTGGTACCTTTGATTCCCTGTCTCTGCCCTGTCCCCCGATATCCTGTCTATGCTTCTCTTGGATTTG
GGGGCTCTAGGCCCACCCCCCTCTCTTCCCACATCCTTCTCCAGCATGGGGATCTAGTGGGTGGAGAGAAGTATGTCTGTGAGCAAGAGGAGACCCCTGT
CCTCGAGGAGATCCCAGGCTGGTGGAGCAGGAGAGTAGAGCAGGGCCTGCCTTAGTGGGAAGGCTGGAGGGTGGGGGTGACTTGTCWGTATACTCTTGTC
AGGGGGTCCTTGGAGGAGGCAGGGCCTTGGGTGCTAGGTGGGCCCCTACACCTTCCTGCTTCCCCCGCCTTTTCTCCCCAGGAGGACACACGGGCTCAGC
GGCAGCGGCTGCARAAGCAACTGACTGAGCATCTGCGCCAAAGCTGGGGCCTGCTTGGGGCCCCCATACAAGCCCGGGACCTGGGAGAACTGCTGCAGGC
CTGGGGTGCTGGGGCCAAGACTGGTGCTCCTAAGGGCTCCCGCTTCACGCACTCAGAGAAGTTCACCTTCCATCTGGTGGGTGCGCCTGAGGACATGAGA
TGTGTGGATGGGCGTGGCAGGCTTGGAGGGTGGCTTTTTGTGTCAGCACCACACCTTTATCCACACAGGTTCCTGTGTTCCCACTGGACAGGCCCTCGCC
CCACTGTGGGATGGGTACCCAGAGGGGTCCCCTAGCTTATTAGGGACTTGACTGGAGAAAATGTGGATAGGTGGGAACCATGCAAAGGTGTGGGGGTGTT
CTTGGGGCAACACCCCCTTTCCTCAGGCAGTTTCCTTTGAGCATATCTTCTGTCCTAAGATGTTCACTCTGAGGGCCCCCCATCCTTCTCATGGGCATTT
GAGGCTTGAGAGATGGGGCAGGTGGGTAGGAGCTGTGACAGGGTCAGGGAGATTTCTCCACGAGCAAGCACTCTGGCCCGAGGTTGCAGATGGTGCCTTT
ACCCACATAGTCACAGTCTGGCCACCATCGGTGCTTCAGTGGGCATGCATGCCGCACTGGGGGCAGTTCTCAGGGGAGGCTGAGGCTGGGCCACGTGAGG
AAGGGCCTTCCCTGGCAGCCAGGATGCCCCTCGTCACTCCCCTTAGGAGCCCCAGGCCCAGGCCACTCAGGTGTCAGATGTGCCAGCCACCTCCCGGCGG
CCTGAACAGGTGAGCAGAGTGGTTTGGAGGGGGGTGTCCCAGGCCCTTGCTTGTCTACTGGGCCTGACACCCCAACCCTGACTGGCCTGGGCCTCCCAGG
TCACGTGGGCAGCTCAGGAACAGGAGCTCGAGTCCCTTCGGGAGCAGCTGGAAGGAGTGAACCGCAGCATTGAGGAGGTTGAGGCCGACATGAAGACCCT
GGGCGTCAGCTTTGTGCAGGTAAGGGGCGGAGGAGGGGCTGCGCGTTGGGCTAGGTCAGAAGGAGGGCCTCGGGGTGTGAGGGACTAGATGGGGCAAGAG
GTGCTCTGTAGAGGTCTGCACATGGCAGAAGGGTTCCTGGGAGCCATTAGGGATCTGTGGGCCTCTTGAGGGTGGCTATGAGAATCAGGCCAGGGTGAGG
GTCTGTGGGCATCTATGGGGCACCGCGGGTCTGCATGGGCAGGGGATTGAGGGGTCCTCGGAGGGTCTGTGGGCATCTGTGGGGTACCCACGGGTCTGCA
TGGACAGGGGATTAGGGGGTCCTCGGGGTCCTTGGCACCAGCGTGGAGCTGTTAGAGAGGCCTGTGGGGGCCACAGGGGTGTACAGTCATCTGTGGAGCT
CCATGGGGGCTGTGGCATGTGACTGGGTATCCACCGGCCAGGCAGAGTCTGAGTGCCGGCACAGCAAGCTCAGTACAGCAGAGCGTGAGCAGGCCCTGCG
CCTGAAGAGCCGCGCGGTGGAGCTGCTGCCCGATGGGACTGCCAACCTTGCCAAGCTGCAGGTGGGGTTGGGGCTGTAGCTGGGCGGAGAGGGGCAGGGT
GGGGYGGGGTGGGGTTGGAGGGCCCAGCCTGTGTGACATGTACCCATCCCCCACCAGCTTGTGGTGGAGAATAGTGCCCAGCGGGTCATCCACTTGGCGG
GTCAGTGGGAGAAGCACCGGGTCCCACTCCTCGCTGAGTACCGCCACCTCCGAAAGCTGCAGGATTGCAGAGAGGTAAGCAGTGGGGCCCTGGGCTGTGG
GCGGGCCAGGGCAGGCTCGGTCCCTCTCTAGGGGGCCATCCCTATGCTCTGCTCACTGTCTTCTGCCTGTGGGCTCATGGCAGCTGGAATCTTCTCGACG
GCTGGCAGAGATCCAAGAACTGCACCAGAGTGTCCGGGCGGCTGCTGAAGAGGCCCGCAGGAAGGAGGAGGTCTATAAGCAGCTGGTAAGGCCTGTGTGA
GGGACCTGGGTAGCTTAGGAGGGTGGGGGGATGGTCCTGGGGCAGTGCCTGCTATATCCCTGCCTAGATGTCAGAGCTGGAGACTCTGCCCAGAGATGTG
TCCCGGCTGGCCTACACCCAGCGCATCCTGGAGATCGTGGGCAACATCCGGAAGCAGAAGGAAGAGATCACCAAGGTACACTGCCAGGGCCATGGAGGGT
GGGTCATGTGGGCTGTCAGGCATAGTGTGGCCGCACAGGGACCTCACACCCTCAGGCAGAGCTGTCCAGTCACACTCTAACACAGAATAGTCACACACAA
TCCATCCCAGTCACCCCTGACACAGTGACACAGTCCCTGTCTGGTACACATGAGGACCCTCCACTGCTAGCCAGCCTGCCCCAGGCAGGGGCTCATGGCY
GCCATGGTGTCTGCCAGATCTTGTCTGATACGAAGGAGCTTCAGAAGGAAATCAACTCCCTATCTGGGAAGCTGGACCGGACGTTTGCGGTGACTGATGA
GCTTGTGTTCAAGGTGTGGGGCAGGTTGGGCGGGGGTGAGTGGGGTGAGGCTGGGCTGCTGCCTTGTGCATCTGCTAATTGGCTGGCTGGGGTCCAGACC
CAGGCCCTGTGCGAGGCTGGAGGTGCACTGATACCCAGGGCTGGCTTTGTTTCATGGAGGATGAAGCTAGTGGGGTGGTGGGAGAGGGTGGCCTTCTTAG
GGCATGGAGATGGTCAAGGGCAGCCCACTGATACCTTTGAGGTCCCTGTGTCTGGTCAGGATGCCAAGAAGGACGATGCTGTTCGGAAGGCCTATAAGTA
TCTAGCTGCTCTGCACGAGGTGAGGGGAGACATGTGCCTGGGGTGGGGCTGCTGGGGGTGGGTGGGACTGGGTGCAAGCCTTCTGCTCCTGTTGTCCCCA
GAACTGCAGCCAGCTCATCCAGACCATCGAGGACACAGGCACCATCATGCGGGAGGTTCGAGACCTCGAGGAGCAGGTGAGGCCTGGGGGCAGGATGGGG
AGCCAAGGCGGGCCGGGGGGACAGTTCCTCAGGTTATGCTGACAGAGGCTGTGGAGCCACACACAGCCGATGGCTGGACACCCAGCCCTGCCCCTTAGTG
CCTGTGACCTGGGACAGGCAAGTGGCCTACTGTGAGCCCCAGCTTCCACCCCAAGGGCCCTCCTGTCTGCCTCCCAGGGCCATGGGCAGAGGCTTCAGCT
TAAAGATGTAGGGGGAATCCTGCCACATGGCGAAGGATGCTTTGGGTAGAGGGAACACCACACGAGGCCTGGCCATGGGACAGAGCAGGCTGTTGGAGTT
GGTGGGAGGGGCCCAGAGTGGCTGTGATGGGGGCTRGTGAGCAGGAGCTGGGAAAGGGGCTGTGTGTGCTGAGGGGGCATGTGTTCACATTGCCTCAGAT
CGAGACAGAGCTGGGCAAGAAGACCCTCAGCAACCTGGAGAAGATCCGGGAGGACTACCGAGCCCTCCGCCAGGAGAACGCTGGCCTCCTAGGCCGGGTC
CGGGAGGCCTGAGGAGCCGCCGGCAGAGGTCTCTCCCCAGCCTCAGGCAGGGATTTGGGGTGCTGGAGGCAGTGGCCAAGCACATGCCCTAGCTACTTCC
TCCGCTGTCCAGTTCCTCCTGCTGCGGCCTTGGACCCAGACCCCTGCCCACTGACCGCAACCCTTATATGGGGTGATAGTCCAGCATGTGGGGAGCTCGG
CTGCAGTTTATTGGGGACGGTACTGTGGGTTGGGGGCCTTGGATCCCAAATAAATGAGTAGTTCCTCTGCAGTCTAAGCTGAGGCATGGATCAGGGCTCA
GGGAATGGGAGTGAGGTGAGTGGCAGGGGAGACACGGGGTATTTTTGGCAAGGCAGTGTGTGTGGCTGTGTGTGTCTGCACGGGACTCAAGAGACCCACT
GGGGGGCTGTGCGTGTGCATATGCGTGAGATACACAGGTGAATTCTAACAGGCCGTGTGTGTGAGCGAGCACGTGTTGGGACCTCAGATCCTGAGGGTAC
TGACGCTGCTTCTGTGTAGGCCTCTGGGCACACCCCTGTGTTGACAGTGCCCCTGTGGGCCCTGAGGCTGGCTGTGGGTGCGTGCCTTGGGGTGTGTGGG
TTGTCAGGGCTGTGCTTGTGTGTGATTGTGTGATGATGCAGCTTTGAGGTTGTTTGAGTGTACTGAGGCAGGCTCTCTGTGTTTTGGGGTTTGTGTTGAG
TGAGGGACAGGATTGTGACATTTTGTGTGTCTGTGTGACTTTTCCAGCCCTGAAGTAATCTGTGCGAGCAGCTGAGGCAGGCTCTGTGTGGCTGGTTGTG
AAGGCTCTGTTTGGCTGCAGGGCTCGACTGGGGGGTGTGTCTGGGGCGGAGGTGGGGGCTGGGGCCAGGACCGGGGCCCCTCTGAGCAGCCTTGGGGCAA
AGGATATGATGGGGGAGGGGGTGGCTGCCAGCGGGGGAACAGGGGCCCTGGCAGGCAAGACAGTGGAAACCTCACTTCTTGGTCCCTGTGGGCACATCCA
GGGCCTATCATCCCTGCCCCCACCACCTCTGCCTCCCACCAGTTTGGCCCCTGTTCGTCCATCCTCCTTTCCTTGATCTTGAGGTCAGGGGCCAGGTGTA
GGGTTGGAACACCTGCTGGGCCTCTGGCTCCGTTTCTTGCGGAACTCCAGCTCATCCACGGTCCACACAGCCCCCTTCTCGCTCTCCACCCGCACAAAGC
ACTTGTGCAGACTCAGGTTGTGGCGGATGGCGTTCTGTGGAAGGCCGGGGACAGGGAGCAGGTGGGCGTCAACCTCTGAGGCCAGCAGCCACCACCAACA
ACCCACATCCCGTTCCTCCCCAATGTGCCTATGAGCCCAGACCCAGGCCTGCCCACTTTGAGCTGCGATGGCACTTGAGGCCATCCCAGTCACCGCCACC
TCAGAGGAGCTCACCTTCCAGGTGGCAGGATGGTTTCTGAAGAAGGCAAACATGCGTGTGAACCAGTGGTAGATCTCATTGAGTGTCCGCTGCTTCTCTG
GAGCCTCCAGGATGGCCTGGAAGTTGGGGGGTGGGGTAAGGGGCACATTCCCCAAACTTGGGGTTTAGAGGGGCTATGACCTACCCCGAGCCATCTGACA
TGGGGGCGGAATTGTAGGGGCAGGTAATCAGGGACAGGACTAGATGTGGGGTGAAGCATGGGGTCAAAGATGGGGTTAGAAAAGGGGTGAAGTGTCGGGT
TGGGCAGGGTTAGATGGGTGTGGGTATGGTTGTTCTGGGATTAGGTAAGGGATCAGGACTGAGGTTGGGAGTGGGGTCTTGTTCAGGGCTAGGGCTGAAG
TGAGGTGAAAGGTCTGGGATGGAGTTGGAGTTGGGGTTCTCTGTGGAGGTGACATTTCAGGGTTGGGGAAGGTGAAGGGTCAGAAGTGGGGTCAAGGATT
TGGAAGGGGTAAAGGGCCAGGCCAACTTAAGGGTCAGGGAAGGGGTGGGTTAAGAGTCAGGCTGGGGTGGACTCAGGTGGGGGGTCTAGGGGTGAGGGAT
GGGATGACTTGGCTTTAGGTCAGAAGCCAGAGATGGTTTGAATTATCGAGTATCTTACGTGTCAGGGACATGGTTAGGTGGTTAGGCTCAGGGCAAGGAT
GAGGTTAGTTGTGGGGTTCGGTGTGGAGTGAGGCTGAGGGTCAGGGAATTTGATCAGTTTGGATTCAGGAATGGGATTACAGAGTCAGCGATGATGATTG
CAGTGAGGCTATCAGTCAGGATGGGGCTAGGTCAGGGTTTCAGTTCAGAGACAGTCGGGGAATATCTGGTATCATGTAGGGGTGAGGTTCAGGTTTGGGG
TTAGGTGTGGCGCTAGGATGAAGGTTCTGAGAAGGCATTGGGGAGGCTGAGATGAAGGAGTTGGGATGGGGTGATGAAGTTAAGGATCAAATGGGTGTTA
CAAGGAAAGGTTGGGAACGGTGCCCAGTTGGGGGTGTATTGACATACTGGGGTACGTTGGGGCCAGGGAAGGAGATGGGGTTGGGTTGGCATAAAGGCTG
GGGAAGGAGTTAGAGTAAGAGCTGGGGTACGTTTAGGGCAAGGTGCAGAGATGGGGTTAGCTTTAGGCTATTTTATGGGTCCAGGAGAGGGTTAGGTATG
GGGCTGAGGTGGACATCTGGAAAGGGGTAGGTTTAGGGTCAGAATTTGGCATGCTCTGGCCTGGATGGTGGTTTAGGTTTGGATTTGCGGACAGGTTTGG
GGTGAAGCCAGCATGAGGGGTCACATTTGAGGCACGGCTTGGGGATCCTTGGGGCTGGGGCTTGGGAATGGAGGAACCCACTCTGAGGGCACTCAGAGGG
AGACAGGAGTTTGGGAGGCAGGTCCCCCACCCCATCTTTGTCTTCCTCCTCCTTGGGGCCGAGCTGCCCTGCTTACCCAGCGGATGAGCGTGGCGTAGGT
GAAAGGGGGTCGCATGTTGTGGAACTTGAAGTAGTCCATGTTGTGGAGGAACTCTGTCAGAGGGTGGGGATGAATCAAGCCCCATGCAGGACCTCCTAGC
TAGCTCCCTGTCCCCTCCCCCTACAAGGTGAGTCTACAGGCCTGAGATCTCACCGTCAACACCCGTGTCCACGGGCACAGGTACTGTTTGCTGAGCACCT
GACATAAGTTGTATCATTTATTCTTTGCACCACTTCTGCCAAAATAGTTCTCCCCGAGGTTGAAAAGAAGCGGAGTAACTTGCACACCAAAGGATGCAAG
AGGTTAAATGGCAGAGCCAGGATGACAGTCAAGGTCTCTGATCCCTGCTAAGCCCACAGGCCAGGCCTGGTGGAGAGCAGTGGATAGGTGAGCTCGGGCG
AATCCACCCCGATTTTCCTTGGTCAGGGGAGGAAAGGAGGTGCTCCTGGAATTACTTAGCAGGGTCCCTCCCTTCTGATGGCCGAATATAGTAGCTGGAG
TCCAGAGTGGGTGAGGCATGGCCCCAATCCCCAAGGGAGTCAGGGCTAGGGGCCCGACACTCGAGACCATATGGGGGGCTTTCAGGCCACGGACATCCCG
AAAGGAAGCTTTTGTGAGCGGATGCATTTTCCCAAAGGCTGAGTGGCGGCAGCTGCAGTGGTGGTGGTGGTGGGAAGGGGCAGCATGGAGCTCCTTTGCA
CCCTCCACCCAGAGCCTGTCAGGATTAGGAGCTTGGGGGCACCGTGTAGTGCAAGGACCATTCTTACCTGGGAATGTGCTGTTTCCATGGCTACCCCACA
GGTGCCTCCGGACAGCAAACAGGCTGTCAGGGGCCTCCCGGGGGCCAGACCAGGCTGGGACGACAGGGCCTTGGCTGCCAGCAGCTACGATGCAGCAGGA
GCCCTTGTCGGATGATGCCTGGGTGAGGGGGAGAGGCTGGTGACCCAGAGGCTTAAACTTCCCACTTTTTACTTTCTATTTTATGTTTTTTATTTTTTTT
GATACTGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCCCCACCTCCCAGATTCAAGCAAGTCTTCTGCCTCA
GCCTCCCGAGTAGCTGGGACTACAGGTGCCCGTCACTACGCCCAGCTAATTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTAGCCAGGCTGGTC
TCGAACTCCTGACCTCATGTGATCCACCCGCTTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCTGGCTCCACTTTATTTTTAAATC
AGTGTTTTTCAAAGCAAGGACGCCCTCTTCTAAATTCCAGTCTGAGGTGGAATCCCACAAAACAGCATGAGCCGTATTTATTAGAGCACAGGTGCGGATG
TCGTATGTGGCCACTGATGCTGGGACCATGAACTGGGGTTGAATAGGGCTCTTTACCACCCAACTGTGACCTTGGGAAAGTCACCTAAACCCCCCTGGCC
TCAATATTCCTCATCTGTACATTCGCATCATGAGAAATAAATTACCACCAGCAAAGCGCTCAGAAACAGTGCCTGGCCTCCAGGGCTGGCTTCATGGGCG
TGTGACCTATGTGGTTATGTGGCACCCTGTGCTTTGTTTAATGCTCTGTGGTCGCCATCTTGAAATCTGAACAAGGGGCCCTGCAGGTTACATAGCTGGT
CCTGCTGGCACACAGCCTGCATCTGGCAAGTCTGGCTATTTGCATTTGCTTTAACAACTCAGGATCACAGTGTTTGGGGATCTTAGAGTCAGAGGGTTTT
TTTTTTTTTTTTTTCTTGAGACGGAGTCTTGATCTGTCGCCTAGGCTGGAGTGCAGTGGTATGATCTCAGCTCACTGCAAACTCCGCCTCCCAGGTTCAA
GCAATTCTCTGCCTCAGCCTCCCAAGTAGTTGGGACTACAGACACCTGCCACCACGCCTGGCTAATTTTTTGTACTTTTAGTAGACACAGGGTTTCACCA
TCTTGGCGAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCAGCCGGG
GTCAGAGGGTTTGTAAGTAGAAGGGGACAGATTTCCAGGTCTGGGCATGTTTGGAGCTGGGGACAGGGGCCCCTAGCTCTCAGGACCTGAATGTGAGGTT
AGGTTCCCTGCACCGTGCAGACCTCCTCCCTGCCCCCCAGCAGTCTGAGTCTGCCACCACCAGTCCTGGGGTCGCTCACCACAGATGAAGCCTTGGTCAG
TGCCATTTTCCCAGCCAGGTGGGCCTGCATGGCACTCAGCTTCTCCTTCTCCAGCACCAGCTGTGAAATGGCACAAACATGAGGCCTCAGCCTGGCCCTT
CTCTGCCACATCTTTGCCCAGGCTACGGTCTTCCCTGGGAGTGCCCGCTCCTCTTCCTTCCTTTATACCAGCCCTCGTCCCAGGTGAACTTGGTTTCTGG
CACATGGTGGACAGAAGGTTTTGCGCACTATCCCTATCCCTTACCCTCCACCGCCCTGGCATTACCTGCTGCTCCAGAGACTGTACCATCTCTCTCTGGA
GGAGACATTGTGCCCTGCCCTTCTCATCCAGAAGATGGTCCGCCTGGCAGTGCCTAAGTAGGGAGAAGATTCCATGCAGGTGACCACGACAGGCCTGGTC
TGGCTCAATGCTCTGAATGGGGAGGGCCCAGACCCTCTGGGAGTTCTCTCCTCTGAGCCCCAGCTCCCCTCCCCTCTCTACCTCAGTCTCCCTCTCACAC
CCCTCGTTCCCTTAACACATGCCCCTCAGCACCTACTGCATGTCAGGCCTGAACTCACCACTTGAGCCTGGCCAGAGTGCTGGAGATAATGTTGGAAGTG
TGGTGAGTTGAGAATGGGCCAGGGAGGTGAGAGTGGGCAAAGCATTCTGGGTGGAGGGACGGCCTGTGCAAAGGCCTGGCTGCAAGGAGGACAGGACATG
TGGGGTTGCTGCTAAGGGTTGTGTGTAGTGTGGTGTGTATTTGTGTGTGTGTGTGTGTGAGAGAGAGAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGA
CATATGGGGGGACTGAGGGGAGGCAGCAGCAGCCATCTAGAGGAGCTAGAACTTTGGGAACAGTGGAATAAGGCTGGCATGTTGGCATGAGGAGTAGCAG
GGCAAAGCAGGAGTGCAGATTCTAGAGCCTGGCTACATGGGTTCAAATCCCAGCTCTGTCACTCAGGAACTGGGAGATTTTGATCAAGACACTTAACCTC
TTTGGCCTCAGTCTCCTTGTCTGTAAAATGGGGGTAAATAACAGCACAAACGTTTCTTATTATACATACGAGAAAACTGAGGTCGAGAGAAGCTAAGTAA
TTTGTCCAAGGTCACACAGCCAGTCAGGGATGGAGCTGGGATTTGAACCCACAGTCTCAGAGTTTAGCTCTTGCATCTTACTACTTATTGGGATGAAGCC
TGAGCTGAGATCTGCACCCTAGACCTCTCCCCACAAGCCAGGGCCGGTAGACTGGCACAGGCCTGGGCCACTCACTTGAGGAAGTCCTCTGGCTCTTCGA
AGACCTTCTCACATCCGGGCCACTTGCAGACACCATTTGCCAGCAGTGGGTAGGAGCTCTGGGGCACAGCCGAAAGGGTGCTGGGGGGACAGAGGGTGTC
AGGGGAGGGGATAGGAGGGCGAGGATCCTTCCCAGCCCTGTCCACTGACCTGTCCTTCCTGGGTGCACTGGGATTTGGGAAGGTGC


SNP Information

Context             (SEQ ID NO:60711):
ACTGCAGGTGGAAGAACTACAGTTCCCAGCAGCTATTGCAAGCTCAACCTCCGTGCACACTCACCCCAGGCCTCACATCCGGCATGCGCCGTGCTCGCTC
R
CAGAACTACACTTTCCAACTCTCCCCACACGACCCGTGACACTCTGTGGACCGCGAGCACGGAGCAGGGTTTCTACAGCTGCTCCCCACTTTCTCGGACC
Celera SNP ID:            hCV27829414
SNP Position Genomic:     10645
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,8)   caucasian(A,38)   total(A,64|G,8)
SNP Type:                 UTR 5


Context             (SEQ ID NO:60712):
GAGGAGACCCCTGTCCTCGAGGAGATCCCAGGCTGGTGGAGCAGGAGAGTAGAGCAGGGCCTGCCTTAGTGGGAAGGCTGGAGGGTGGGGGTGACTTGTC
W
GTATACTCTTGTCAGGGGGTCCTTGGAGGAGGCAGGGCCTTGGGTGCTAGGTGGGCCCCTACACCTTCCTGCTTCCCCCGCCTTTTCTCCCCAGGAGGAC
Celera SNP ID:            hCV16185830
SNP Position Genomic:     21787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60713):
CAGGGAAGTAGTCGCTTTGTGTTAAAATTCTGCCCTTAATGTGTACACTTTTATAGCCTAGAAGATGAATGCCGCCTTAAACGAATGAGTCAGGAAGCCC
Y
TTTCTGTCCGGCCCCTCCACTCCCCACCACACGGGTTGTTCCTTTTTCCCTTGGAAGAGCCCACTGGACTGCAGGTGGAAGAACTACAGTTCCCAGCAGC
Celera SNP ID:            hCV27839063
SNP Position Genomic:     10477
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,37|T,1)   total(C,71|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:60714):
AGTAGCTGGGTTAAGGACTGGGAAGTAAGAGTGTTCGAATTAAGATTAGAGTGAGAGTTTATAGGGGAGTGAAGGTGAGATTACATTTCCAAGTGAAGTA
S
GGTTTGGTGTTTAAGTTGGGGGTAGAGTTTAAATTGCCATGGGGTGGGCGAATTTAAGGTTAAATTTGAGTGGTGGGTTTTGGGTTAGGGTGGGGATGGG
Celera SNP ID:            hCV2478063
SNP Position Genomic:     7304
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60715):
TGAAGGAAGGAGAGAAGAGCATGGAAAATTAGGGAGAACTGGGAGTAGCTGGGTTAAGGACTGGGAAGTAAGAGTGTTCGAATTAAGATTAGAGTGAGAG
Y
TTATAGGGGAGTGAAGGTGAGATTACATTTCCAAGTGAAGTAGGGTTTGGTGTTTAAGTTGGGGGTAGAGTTTAAATTGCCATGGGGTGGGCGAATTTAA
Celera SNP ID:            hCV2478064
SNP Position Genomic:     7261
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60716):
AGGAGGCAGGGCCTTGGGTGCTAGGTGGGCCCCTACACCTTCCTGCTTCCCCCGCCTTTTCTCCCCAGGAGGACACACGGGCTCAGCGGCAGCGGCTGCA
R
AAGCAACTGACTGAGCATCTGCGCCAAAGCTGGGGCCTGCTTGGGGCCCCCATACAAGCCCGGGACCTGGGAGAACTGCTGCAGGCCTGGGGTGCTGGGG
Celera SNP ID:            hCV25752550
SNP Position Genomic:     21914
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,12)   caucasian(A,10|G,28)   total(A,36|G,40)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60717):
GTGAGCCTGACCTCCGAGACCTGCTTCTCTTCTTGGCTGAGCGTCTGCCCACCGATGCCTCTGAGGATGCAGACCAGCCTGCAGGTACTGGGTGTCTGGG
R
TGTGGGCGGGGGCGGTGAGGGGAGAGGAGGGCCTTCTAGGGGCTGTAGGGCTGAGAGAGGTAGAGGTGGTAAAAAGGTTGATGGGTAGGGGTGGCGGTAT
Celera SNP ID:            hCV16185771
SNP Position Genomic:     17320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60718):
ATCCATCCCAGTCACCCCTGACACAGTGACACAGTCCCTGTCTGGTACACATGAGGACCCTCCACTGCTAGCCAGCCTGCCCCAGGCAGGGGCTCATGGC
Y
GCCATGGTGTCTGCCAGATCTTGTCTGATACGAAGGAGCTTCAGAAGGAAATCAACTCCCTATCTGGGAAGCTGGACCGGACGTTTGCGGTGACTGATGA
Celera SNP ID:            hCV16185829
SNP Position Genomic:     24300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60719):
GGTGGTGGAGGGACGATAGAGTAACTACCGTGAAAACTTTCATTTAGATATAGGGGACTGGGTGGCTAGAGTTGTTAAATTTGGGCCTTGCTTATGCAGT
Y
TCTGTCTCTTAGCAACAGGTCTCAGAGCTCCATCCATCCCTTCGCTCTCAGGTTCACCCAGCTCTCAGGAGTTGTCACATTGTTCTCTCTGGGGCTCTTG
Celera SNP ID:            hCV2766054
SNP Position Genomic:     14756
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60720):
GTGGGCTCTGGCCTCAGCCCTCTGCTGCCTCTTGCCATGTCTGCCCGGTTCCGCCTGGCCATGAGCCTGGCTCAGGCCTGCATGGTGAGTGGCCCTCCTC
Y
TAATGCACACATCCTCTTTCTTCCTCTTTTACAAAGTAACCAAGTTCCTTTGCAACACTTGCCTTTCCTCTGCAACACTTGCCTTTCCTCTGCAACACTT
Celera SNP ID:            hCV16185781
SNP Position Genomic:     12436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60721):
TCTGTCTGAACTGTAGGCATCCTCCCTGCCCCGACCCTGGTACTAGTGTTTCCAAAAGGCTGCAGGGCTCAGCCTGATCCCTGTTGCCTGACTATTCCTG
Y
GATCAAGCTGGTCCCCTTCTTCAGGGCAGTTCCTCCAGATGTGCAGACCTTGCGCGCCTTCACCACTGAGCTGGTTGTAGAGGCTGTGGTCCGCTGCCTG
Celera SNP ID:            hCV16185782
SNP Position Genomic:     12217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60722):
CGTCGCAGAGGATTGGCCAGGGTGAGGCAGAAGAGTGCCCGAGGTGACCGCTGGGCACTGGCCACTGCCACTGTCTTGTGCTTGCTGTGCTGGTTTCTTC
R
CTTAGGGGTCCCTAGGCCTGATGCCCCACTGCTTTCACCTTCCACAGCTGGGGGCCCGGGGCACAGCCCCCATTCGGGACCAGGGCCTGCCCCATTGGCT
Celera SNP ID:            hCV27531019
SNP Position Genomic:     6957
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60723):
GATGCTTTGGGTAGAGGGAACACCACACGAGGCCTGGCCATGGGACAGAGCAGGCTGTTGGAGTTGGTGGGAGGGGCCCAGAGTGGCTGTGATGGGGGCT
R
GTGAGCAGGAGCTGGGAAAGGGGCTGTGTGTGCTGAGGGGGCATGTGTTCACATTGCCTCAGATCGAGACAGAGCTGGGCAAGAAGACCCTCAGCAACCT
Celera SNP ID:            hCV25753803
SNP Position Genomic:     25236
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,34)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:60724):
AAGAGCCGCGCGGTGGAGCTGCTGCCCGATGGGACTGCCAACCTTGCCAAGCTGCAGGTGGGGTTGGGGCTGTAGCTGGGCGGAGAGGGGCAGGGTGGGG
Y
GGGGTGGGGTTGGAGGGCCCAGCCTGTGTGACATGTACCCATCCCCCACCAGCTTGTGGTGGAGAATAGTGCCCAGCGGGTCATCCACTTGGCGGGTCAG
Celera SNP ID:            hCV27058746
SNP Position Genomic:     23505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60725):
GGTGTCTGGGATGTGGGCGGGGGCGGTGAGGGGAGAGGAGGGCCTTCTAGGGGCTGTAGGGCTGAGAGAGGTAGAGGTGGTAAAAAGGTTGATGGGTAGG
R
GTGGCGGTATGTGCCTTCAGGAGAGCTAGGCAGGAGGATTAGGCATCAGAGAGGGGCTACAGGGCAGGGGGCAGGGGGCTGAGGTTGAGCTGACCCCGGT
Celera SNP ID:            hCV25757788
SNP Position Genomic:     17410
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,35)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:60726):
GGCAGAAGAGTGCCCGAGGTGACCGCTGGGCACTGGCCACTGCCACTGTCTTGTGCTTGCTGTGCTGGTTTCTTCGCTTAGGGGTCCCTAGGCCTGATGC
Y
CCACTGCTTTCACCTTCCACAGCTGGGGGCCCGGGGCACAGCCCCCATTCGGGACCAGGGCCTGCCCCATTGGCTGGACTGGGCTCTGGGGTGGTGTCTA
Celera SNP ID:            hCV25594610
SNP Position Genomic:     6982
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,36)   total(C,65|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60727):
GGTCCCTAGGCCTGATGCCCCACTGCTTTCACCTTCCACAGCTGGGGGCCCGGGGCACAGCCCCCATTCGGGACCAGGGCCTGCCCCATTGGCTGGACTG
R
GCTCTGGGGTGGTGTCTATATGGAGAAACTGTGTCAGGGAGGGACAGGGTATTGGGGCAATTGTGGCTGCTTCCTACCTGATCCTGTCCCTCTGTTTGAA
Celera SNP ID:            hCV25594603
SNP Position Genomic:     7064
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,24)   caucasian(G,36)   total(A,6|G,60)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60728):
CCCTCTGTTTGAAGGAAGGAGAGAAGAGCATGGAAAATTAGGGAGAACTGGGAGTAGCTGGGTTAAGGACTGGGAAGTAAGAGTGTTCGAATTAAGATTA
S
AGTGAGAGTTTATAGGGGAGTGAAGGTGAGATTACATTTCCAAGTGAAGTAGGGTTTGGTGTTTAAGTTGGGGGTAGAGTTTAAATTGCCATGGGGTGGG
Celera SNP ID:            hCV29331340
SNP Position Genomic:     7252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60729):
CCTGCCCGAGAATTTTTAAATTTTTCGTAGAGATGGGGTCTCGCTTTTGTAGAGATGTTGCCCAGGCTGGTCTTAAGCTCCTGGCCTCAAGCAATCTTCC
Y
GCCTTGGCCTCCTGAGTAGTTGGGACTACAGGCGTGCACCACTGTGCCTGGTAAAGAGCCATTCTGATGAAACACTCACCCATTCCCAGTATAGAGCTGA
Celera SNP ID:            hCV29331337
SNP Position Genomic:     13971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60730):
CTGATGACCCTTACCCCTGGGCCCTGCCCCTGCCTTCCAGGATGCTTCCACTCCACGATGCTGATGCAGGACCGTCGCAGAGGATTGGCCAGGGTGAGGC
R
GAAGAGTGCCCGAGGTGACCGCTGGGCACTGGCCACTGCCACTGTCTTGTGCTTGCTGTGCTGGTTTCTTCGCTTAGGGGTCCCTAGGCCTGATGCCCCA
Celera SNP ID:            hCV27859618
SNP Position Genomic:     6885
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60731):
ACTCCTGGCCTCAAGAGATTCTCCTGCCTCTGCCTCACTAGTAGCTAGGACTATAGGCACATGCCACCCTGCCCGAGAATTTTTAAATTTTTCGTAGAGA
Y
GGGGTCTCGCTTTTGTAGAGATGTTGCCCAGGCTGGTCTTAAGCTCCTGGCCTCAAGCAATCTTCCCGCCTTGGCCTCCTGAGTAGTTGGGACTACAGGC
Celera SNP ID:            hCV29331338
SNP Position Genomic:     13904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60732):
AACAGATGAAATATTTACCAAATATATACCTGCAGCAAACAGTCAAACTAAAATAAGAAAAACGATGTCATTTTCCAGTAGTATATGGAATTCGAAGTAT
R
TAGGAAAAACCTAATATATGTGCAATATCTCTATGGAAAAAAGATCAAATATTATCAATTATTATTATTTTTAGAGACAGGGTCTTGCTCTGTCACCCAG
Celera SNP ID:            hCV29331339
SNP Position Genomic:     8715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 332
Celera Gene:                 hCG1986942 - 149000145732516
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VTB5(5254215..5268584)
Chromosome:                  Chr16
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12492):
AAAGTCAAAGCCACACAGGGACTCCTTGATCCCAGATGGGCTGGCTCTGAAGGTCATGCTCCTTTCATCCCATGAGGCTTACCTTCGTTTCACCTTCAGT
GTCTTACAGTGTTGTTAGAATGTCTTCATTGGCTTAACTTAACAGTATTCTCTTTACTGTGTTCAGGAGGCTTTTCAACTCGACCATTTGTGAGAAGTGT
CCAGCGTCAGAGTTTGTCATCCAGATCTTCTGTCACCAGCCCCTTGGCCGTCAATGAAAATTGCATGAGACCTTCATGGTCCCTGTCTGCTAAGCTGCAG
ATGCGCTCCAATTCTCCATCCCGATTTTCAGGGGATTCGCCAATTCACAGCTCTGCTTCCACCTTGGAGAAGATTGGGGAGGCAGCAGATGACAAGGTCT
CCATCTCTTGCTTTGGTAGCTTGCGGAACCTTTCTAGCAGTTACCAGGAACCAAGCGACAGTCATAGTCGCCGTGAGCACAAGGCTGTGGGCCGGGCCCC
TCTGGCTGTCATGGAAGGCGTGTTCAAAGACGAATCGGACACCCGCAGATTGAACTCCAGTGTCGTAGATACACAGAGCAAACATTCAGCACAAGGGGAC
CGCCTGCCCCCGCTCTCTGGTCCATTTGATAACAATAATCAGATCGCTTATGTGGATCAGAGCGACTCCGTAGACAGCTCTCCAGTCAAAGAGGTGAAAG
CCCCCAGCCACCCAGGCTCACTCGCAAAGAAACCAGAGAGCACAACTAAGAGATCCCCCAGTTCCAAAGGCACTTCTGAGCCAGAGAAAAGCTTGCGGAA
GGGGAGACCAGCCTTGGCAAGCCAGGAGTCATCCCTTTCAAGTACATCCCCTTCTTCTCCTCTTCCTGTAAAAGTCTCTCTAAAGCCCTCCCGCTCCCGC
AGCAAAGCAGATTCTTCTTCCAGGGGCAGTGGACGGCATTCATCCCCTGCCCCTGCCCAACCCAAAAAGGAGTCATCCCCGAAATCTCAGGACTCCGTGT
CATCTCCTTCGCCACAGAAGCAGAAGTCAGCCTCGGCCCTCACCTACACTGCTTCCTCCACATCTGCCAAAAAGGCCTCGGGCCCTGCCACAAGGAGCCC
TTTCCCACCTGGGAAGAGCAGGACTTCAGACCACAGCTTGAGTAGAGAGGGCTCCAGACAAAGCTTGGGTTCTGACAGAGCCAGCGCCACCTCCACCTCC
AAACCCAATTCCCCTCGGGTGAGCCAGGCCCGAGCAGGGGAGGGCAGGGGGGCCGGGAAGCACGTGCGGAGCTCCTCCATGGCCAGCCTGCGCTCCCCCA
GCACAAGCATCAAGTCTGGTTTGAAGAGGGACAGCAAGTCTGAGGACAAGGGGCTGTCCTTCTTCAAATCAGCCTTGAGACAGAAGGAAACCCGGCGCTC
GACGGATCTTGGCAAGACAGCCTTGCTCTCTAAAAAGGCTGGTGGGAGCTCTGTTAAGTCTGTCTGTAAGAACACCGGGGACGACGAGGCAGAGAGAGGC
CACCAGCCTCCAGCTTCCCAGCAGCCAAATGCAAATACAACGGGAAAAGAGCAGCTTGTCACCAAGGACCCTGCTTCTGCCAAACATTCCCTGCTGTCCG
CTCGCAAATCCAAGTCTTCCCAACTAGACTCTGGAGTTCCCTCGTCTCCGGGTGGCAGGCAGTCTGCAGAGAAATCCTCAAAAAAGTTATCTTCTAGCAT
GCAAACCTCTGCACGGCCTTCTCAAAAACCTCAGTGATATTTCTGCAATCGAAGTGTTTTATCTGTAAAGATGTTTATTTATTTAGAACCCCTGCCCTCC
CACCAAAGCCTCCTGTGCTTTTGTTTTGTACTTTTTTGAGTCACGTGCCCGACTGTGTGTGTGTGTGTGAGTGTATGCGTGTGTGTGTCTAATTCAATTG
CAAATTGTTCAAAGCGTCGCCTTATTCTGCCATTGAACCAAATAACAGCCATAGGCAAAACATTGACACCAAGCTAACTGGAATAATTGTAGACGATACC
CAGGACGGTCCCTTTAGCAATTGTACATATTTCTTTCTAGAGAACTCTAATGACTTTCTTTGGATATGAGGGTTTTGAAACCTGTGAACCAGAAAAGCTA
CCATTAGTGCGTAGAAGGAGGAAGGAGCTGACTCGTGTTTCTTCTGAGCAGGACTTGTCCTTACTGTGGATTGTGGGTGGCACCAGGAGCTCTAAAAACT
GTGACTCTAACAACGAAACAAATCGAGGGAAAAACTCTTGCTTTCTGCACTTTCGCCCCATCTACCAGTCTTTGTAAAGGGCAATATTTTAACACTAATG
TTTCTCAGGTATATACTCAGCTAGTCTAGGATGGTTGCACACCAGTAAATGGATTAAAGAGGAAGGTGCCATGTGGGTGACTGTGTCATTTCTCCTACTG
CCACAGATAGACATTTTCGAGGTAGAAATGAAGCCTTTCACCACCTTCCTATCTGTGGTGACATGTGCACCAAAACCTGTCTTGACTCTTGGGATAGGTC
CTAGGAAGTGGCAGATTGGATAGCCAGAAAGCCAGTCACTCGTTTAATTTTTTTTCCTTCTGAAATTACTAGCTAAGGCTCTTGGAATTTTGCACTGTAG
TAGAGCAGTTAACACCTTTGACAGATTCCTGGAAAAAACTTCTAGATTCTAAACTGGGTGAAAGACTGGACATCATTTTCCTTGTCAGGTGTTGCATTTT
TCCGTTAGAGGTGGGAAGCTCCACGATGCCCTGTGTCTGTGGGCTCATGTTCCCTCATCTTGTAGCTTGGAGAGGAAAGAAGTTGCCTTCTGCCAAAAGC
CAATGGTGGTATGTTGAAGCGTTGTGTGATCAAGTGTTACATATGCACTTCAGATCCTGTCTGTCAGTCTCTGTTAGGGCTGCCTTTCAGTAACTCATTT
ATTATTTCTTCTTTGTTCTTAAGATTTCATCTCATGCCCAGAACTCACAAGCAGGTTTTGGAGTGTGTTCCATCTGGCCGTGTCAGTGCAAATTGCATTT
CTTACAAAGGAGAACCTCACCAAAAAAAACCTCACAGATAAGCAAAGTATATAGTTTTGCAAGCTTTTTCAAGGTCTCCTGGCAATACTTTCCTGCTCAA
TTTTTAGCTTTTCTTTTTTTTTTAAATGTCAAGAGAGTGAAGGTCTTGATTCTCTCTGAATAGCATTTGTCACTTTGCCAGTAAATACAGCATGCTAAGT
TTATGTGCTTTTAAATATTAGCGTTTTTCGTCAGACTCTTCAAGTTCTTCTTGAACCCTTGGTGCACAGATCCATATATAACCTCCCTTTTCAGTATTGC
TGTGTGTGAATTAACTACAACACATATGCATGCATAGCTGTGAATTCTGCACTACTTTTTTTTTCTTTTTTCCCCCCAAGAATATCTCTTGGGAAAAGTT
TTTAGTACGTTACTTAACTTTATTTTGCTGCTAATTTGCGCATTAGCCGGTAACTTGCAAGTCTGGAGACCACTTACTGTTGAGGGTAGCTGGAATTTTA
GACCCTTGGCAGTATTTAAGATTTAGACATTTAGCCTTGTGAAAGTTACCACAGTGCTCCATGTGATTCATTGACTGTGAGCCTGTTGTCCATTGCACTC
AGCCCTGTACTCACTTCTTCACTCGCTGTCCTGGTTTTACTGTTCAGATTTTGGTGGGTTCTCAAAGCAGTACCACTCTCATCTGCTCAGTACATCTGCG
GCAACTGGCTGCCTTCGATGCTGTCATTGCGTTCAGCCCAGCACATCACAGCCCCATCAGTGTGTAGCCACCGCTCTCGTTTTTCTGTATCGCTTTTATC
TCCTGAAAAAGATGCACCAAATAAGAGATCATCTATATCAGGAATTGAATGTCTAACTCAAACCTCTCATTTTTGTTTAGTAGGTAGATCTCATTTGAAG
TCTCCTATCTGAATCTCTGAAACAATTATAGTTTGATTAGACAAAGGTTTTTAATAACACTTCTTTTTTGCTGTAGTCAAGCATTAATAGAAACTAGTTT
AATTTTCACAGTGGTAAATATTTTTATTCTTGAGTTATCTAGGAATGGATTTTCCACGATGTCTAGTGACTTAAAAAAAAAAAGGAAAAACGTTTCTACA
AATCCCTTTGGTTTTCCATGGGATCTGGAATAAAATGTCAGTGTCTATAAACTGTATGTCATGGAGTTTAGTCCTTGTTTCAGGTTTAATAGAAAAAATC
AGGAAGTATCATGGCATTGTCTAGACATCATGAAGCTATTTTATTTCCATAGTTGGTAAACAGTGAAAATTTCATTATCTCCAACTACTAGGTACAACTT
TAGGCCACAGGAAAGGTTATTTGGCCCGAAAGTTTGGAGGTGCTCCTTGAGGTGGGAAGTATCTTGTGGGAAAGTAGTTACTTGATTCAATTTAGTTCAT
TGGTAGGGTTGGGGACTTGGTGTTGGTTTCTTTCTTTCTTTTCTTTTTTTTTTTTTTTTTAATTTTCCCAGCAATATTTAGCACAATGAGCGTGTATGTG
CTTTGGGGTTAAAAATTATCTGCTAGGGATGATAGGCCTGGGTTTCTCGTTGACATCTAGATGGGCCTGATTAGAGCAGTCATCTCCTGGTAGGCACAAA
ATAATCACCAACAGTAATGTTGTATCTGTAATGTTTGTTTGCTTTTTAAAGTTTTATTCTTGATTTCTTGTAAACATCCATTGCACTGAGGCCGTATCAT
TCCTTAAGACAGCCCTACATCTTGCCTTGGTAATCCCTTAGATAATGTGGAAACTCAAACCGTTAGGCTCCAGTCATCTTAGACCATTTCCCATCCGTTT
TGTATTTTCTCGTCCTGAAAGCAGCTGAACTGAAAGTAAGTAATAATATGCTGGACCAGTGGGAACGGATGTGGGAGTATTTGTGGTGTGCTAAAATACT
GTAATTATCTGTGAGGCTGCCTGACACGCTTTTGCAATCTTGTTTTCATCATTCATTCTGCAAACGTTTATGGAGGGCCTTCTTTGAGCACAGAGGCAAA
ACTGAAAGCTTCAGGGATTTGCTGTAGCTGAGGAGCCCTGGGAGCACAGCCCATCAAGCAAGGGATGTGATGGTGTCCTAAATGGAGTGACAGTTCTCCT
GGGAAAAGAGATCACGTGGATTCCGGTCAAATCGGCTAAGGCTTGTGGTTCTCTTGAGCAAGTCTGTTCCTTCTGGAAACCAAAAGTGCCCTTCATCTTT
AGAGACATTTTACTCTTCCATCCACCTTTTCAGACTGAGCTGTCTCTACTATTTAGGGGTTGAAAATCCATTACACAGTCACTTTACGTTAACATTGGGT
CATCTTATGTTTGTATGAGACGGATGTGGGATTTGAGGGGAACATTGTCATTCCCTTAAAATAACTATCATGAAAAAAATAGCAACAGTATGTAAAGGGA
CCAAGAGTGGCAGCCTTTAGGGAAAATGGAGCAGAGAAGAGCTGTGAACAAAGCTCATTTATTTGAAATAAGCGTGCTTTATTTCACATAGAGGGGCATC
AGACGTTACATTTCATTCGGACAAATTACTGAACAGCCGAAGTGATTGTTTCCAATGTAGGTTATTATAATTATTGGATACAAAGATTTAACTAGTGTTT
CTGGGTTGGATTTTTGAAATAGTATGCAAGTCATAAGCACAGTTTCAATAAAACACGTATTCTGGAGGTGCGTGGAACTTTGTATTATTTGTAGTTGAGA
AAGGCAAACTTTGCTGACAAACCAGTACCTATCACAAACGAACACAAAAAGTAGCTGTTACTGTGCAGGCTGTCTTTAACTTTCATTTCATAAAGGGTAC
ATTATTGTTAAACTCTACTACATGGTTTGGGGAGAAATCCAGTGGTTTTATTTAAATGAACACTCTCACACTGCCTTTTGATCAACTTTCAAAGTATTTT
GCAGATGCATTTTGAGCATGACCATTTTTTTCCCCAAGTAAAAACAATTGTGCGTGGCCTCCATATAACTCAGAAAGCATGCTCTTACTACCTATGCAAG
CAAACAATAAAACATATAGACATGAAATGTTAAGTCTTAAAAAAAAAAGGCAACAATTATGGAGCTCTATTTTTAAATTTGTGATTTTCAAAATATGGCT
TACTCATCATTGTGTAGAAGAGCATGAATGCGATTTCTTGTTTTGCTCTGCATATATTTCTCTGCTGTTTTTCTGATCATTGGCGAGATTGTAAAGTATT
TTGCAAGCAGAAGTGGAATTGGATATGTTGAACACACATCATTGGTGTACATACTGTATTTAGCCTGAAGACTTTCCTAAAGTGTTTTGTTCTAAAAATA
ACCTGCCATTTTCTATAGATTTTAATTTTTTATATCTTCAAGGGTTCTATTTTGGTCACAAGGAAAGAATGTGGCTTCTAATAGTGCTAAGAATTAAAAG
ATGCTTTTATAGAGACTTAGAGCTATTTTGAAAAGCTTTGGGGCTTCCCAGCCACTGATCACAATTAGACTAAGCCCATGGAATTTCTGGGAGTGTTGTG
CAGTGGATTCGGTTCTAGATCCATCTTACATTTGTTTAGTGTTTCCCAATTTTTGGGAGAAGGGGTGCACAGCAAATTTGAGAGACTTTTTTGAATCTCA
CACATGTATTTTCCTCAAGATTCTTTTAAGCCTCTTCTGAATGACTTGTCTGAGATAGTGAAGACCCACATTRACTAGAATCAGCTGGGGAACTTTAAAA
AATACAGTGCCTGGGTCCCAGTCCCTAGCTTTTGATCTAATTCATGTAGGGGTGGGATCCAGGAATTACCATGTATTTTAAAAGCTTCTGGGTGTTTCTA
ATTTGCAGACAGATTGAGAACCACTATGATACGTCATCCCTTTACTGAGAATTATGGCGAGAATCACTGCCATTTGAATTACTCAGGAGTGACTGATTCC
TCAGTTGTGTAGGAGAAGCAGAAAAAATAAGAATAAAAAGAATTGAGAGATACTGATATCAAACTCCCATTTGAAATACAAGGGCCCTTCTGATTCAAGG
CCCAGTTGGGGAGCTTGGACCATGTTGTGAATGGCCTAGCACTCGCCAGTCTGGTGGAAATTGGTGGTCTTAGTTGCTGGAGCAGGCTGAGTGTCCCCGC
GGGGTTTGCATCTGTCCCCAGAACCTTTTCCCCAGGCCCGTGGGGGAATAGGGAAGTCACTCTGAGCTAGAAATTGTCGAAGAAGAAAAGAAACAACCTT
CCTAGCCTTGGAAAGCCTGTCCCTGCTTTTGATAGAATTATTGCCTTTTTGTAGGAATTACAGTAGCAAACCCCAGGCTGCCGCTGAATTTCCTACTTTT
GCTCATTCTCTAGGATAGTTCTTATCCAGAATGTGGTTTCAGGAATTCTTTTTTTTAGTTTGAAAATGAATGTGAAACATTTTCTTTGGTGTCTTTTTTK
AAAAAAAAAAAAACCCTTATTGCTATTTTTTCGTGTTTTTGTTTTGTTTTGTTTTTTGTTTGTTTTACCATTAAGTAATACACATCCCAGAATTTGGCAC
TCTGTGTTAACTGTGGAGGCAAATAAAATTTAGTTTTAATCTGTGGTGAGCTGAATGCACTACAACACCTTCSAAGTAATCTGATGGTTTCATTCTGTCG
AGCCTCATGCTGCCTACAAAACACCACAATTTACCTGGTGTTTTCAACATTTTAAGGAATGAAGATACAAGTAGACATGCAAGTTGGAAATGTTTCTTTA
GAAAGGCCATCCAGAATAATGATATCTGTTGCAGTCGTCCAAATGCAATATGAAATTTCCTAGGTGCTATTATAAACGGTGTGGTGTCATACCAAATGCA
AAAGCAGTTACAGTATTTCCGAAGTTGGAGTTCTCTTTGTAGGCCTTTCAAATACGTGTTTGCATTCCATAGAGGTCTGCTCACCAACTGTGCCTCTCAC
CACTGGTTAAAATTGAATTTAAGCCTCATTGACATAAGTCGTTTCTTGATTGAACTCTTCAGTTTTTACACTGGAATTTCTGTAGTTGTCTTGAAAGCTG
CATGTCACATCACTGTACACAAAGTGCTTTGGTATTACTCATGCACCGTGGATAGTGATTTCTGTGTCGTTTTCATTTTCAGTTGTACAGTAATATGGAA
GGCAGGATGTCTTTCCTAGAGGCTGGAAGAAAAGTGTATCGTACATTTTAAATTTATTTTAGAACAAGTGCATGAGATGTGTCACTGATTTCTGTTATTT
ATTTGTATGTTTTATTATTCAAAGTGTATGCACTTTTAAGAAGCAGAATTTATATTTTTACGTTTGAAACRTTTTATTTCTGAAACAGCGTTGATTATAT
AGTATACAGTTGGAATTAAGAGAAAAGTGGAAAATGTAACAAAATACAATAAATTTATTACAAGATGTCCTCTTCAAGCCACATTTCTCCTTTCTCCCCC
TTGCCAACTGATATCTTTTTGGTGTTGACTATAATAATAATTGTACTGCATCAGTCTTTACAAAATGCCTTAAAATTGCAGTGTTTAAAACACAAGTTAC
AGAAAGATGTATACATATGTTTTCTGTGTAAAAGTTTAAAACAAAAAATCACATCCATGCTTGTATAATTTTCACAATCAGGGATGGTTCTTCCCATTTC
CTCCATGACGGATTAGAGACAGTTTGTCCTGGGCCATGGAACTGGACAAAAACTCACATTCTGGTTCAATCCAACAGATTTTCAACATTTCGCATTATTT
TCCCCCTCTTACCAAACTTTTATGATGGGAAGAAATAGCAGTATAAAAGGGGCCATTCTTCCTGCGCTGTCTCATACCCTAGATATTTAATATTTTTGAT
ACAAACAACATTTTTCCAGCTGTCTTTCCCACCCTTCAGGACAGAACTCCCTACTGAGGATGTCACATCACCTATGGCCACGTGGGGGCACTAAAGATCT
CTTATGCATTTTAGAAGTCCAGCCTGCAGGTGGTTAGCCTCTGAGTGTGGAAATGTTTATTCAGTATGAGTTGGGGAATACGGTATCAGTGAACAGGGGT
TTCTGTTTAGGGGAGTGCCACCAGCCATCATTTGTTCCCGGAAAGTGTTGAGTACAGATCAGGACAGATCTTGTTTCCCTAAAGCACAGCATTATGGTTT
AGGGTTGGGGTGGGGGGAGTTGATGTTCCTGACAAGTGTGAACCACATGCCGTGCTAGGTACAGCACTTCTAAAGCTCTCTAATTTGAAATGGTAAGATT
TCGCTTAGGTTCTGTTAGAGAGTTTAACCATGTAGTACGCTGATTATTCAAGAGGCTTCATTATGCCACAAAGTGTTCACATGTCATAAAATATGTAGAT
TTAATAGTTATGCAGATATTTAAGGATCATTTTGCCTGTCTCCTTAGGATTTGGAAGATTATCTTTCAATACTTGAATGGTCAACGTCTCTCTGAATACT
TTTCGGGTCCCTGTAAATCTTCCTGAAGAAAGCAAAGGTGTGATAACACCCCTTGCCCAGAGCTGCATGTTCCTGTGTGTTAAACTGCCCCGTGGGTGAT
TCTAGGCCACTCTGACTCCGTGGGATGTAGCTTGAGGTCCTCCCCCACCCCAGTATCCCCTTTCTCCCAGCTGGGTTCTGTGTCATATGTTCTAATTCTG
TGTACATCATCTAACATAACGTTGAACGGTTAATCACTTCGATTTACTAATACATTCACTTTCCATTGCTCTTCACTCCTTCCTGGGTTCTCCCAGATGG
ATGCTTCAGGTTTCCTCTCTGCGACCCTGTTCCTTTCTCAGGCTTCTCCACGAGGGTCATCTGGTAGATTTCACCTTGCTGGGTGGGTTGGGTCTACCTT
CTGCAAACCCCTCTGGAATTCGGTCTTGGTTTGGTCTGGTCTTAGCTACGTTTTTCACCCTCTGCCAACACCTGCTATACACAGAGGACAGGGCTGTCCT
CTCCCTTGGTGGTGCATTTTTGCATGCCATATAACCCAATGGCCTTGCACTCGTTTCTTAGAGCTTTCAGGGATTTGATATCAGTTTGACTTGCTCTTTG
GATGTCTTAACAGCTCCATTTTTCTTGTGAAACGTGAGAAGATGGTGCAAATGAGACTGCAGTGCCTAGTTGGAATCAGGCCTCCCTGCCCCCGGTGGGG
TCTCAGGGATCTTGCATTCCAGCACACCACCCCTGTGCCTTCCCTTTGTTTAGGAGGACTCCAGAGAGGCCCACAGTGCACAGATCCAGTTCCAGAGACA
CAGGGAAAAGGGTGTAATACGTCTTTCCTCTCCGAGAGTCTGGAGTGGACAGTGTGTGGGGATTGTGCACTGGGGACTGAGGATGAATGGCACCAGCCTC
AGGGTTCCAAGTCCACAAAAGTTGTGGTGAGGAAGGTGCCCCTTTACTGTTTCACTCAGAATCGGAGTCCAGGTTCCTTCATTTAGTAATGTCTTCTGTG
TGCCCAGCTGCTGGGGTTATGACCACACTTGGAGGGGCTCACCTGCCAGTCAGGAGGTCAGGTTGGCCAACAGATAACGTTTCAGCAAGTTTGCCACTTA
TTCCCTGCTCTTTCTCAAGGCATCGTCCCTAGAATGCTCTTCTCCGAGATGCCAGCCTGGCTCATTCCCTCATCTCCTCCACATCTTTACTCACATATCA
CCTTATTGAGGCCTTCCCTTACTACCTTTTTAGAACACTGCAACCTGCTTCACACGCTGTCCGTACTCCCTATTTTATTTTCTGCATATCACTTATCACA
ACTACCATAGGTCATATGTGAGCTGATGGGTGAGCTTACATGAGAGCGGGGAGGTTTGCCTGTTCTATTCACTGCTCTTTTTCTCAGCATCTAAGAGGGT
GCCAAGCTTATAGCAGTTACTTAGTAAATACATACTAGCTGAATTAGTAATCTGCCTGAGTCTTTCTATCCAGAAGATGGAGGATACTGGTACTTGCATC
ATAGAGTGGTGAGAGTTAGATGGGAATGATGCCTATAAAGCCTTCAGCACAGTGCCTGGCACAGAGAAAGCGCTGGCTGAATGGAGCCATTTGTAATGAT
AACAATAGTGATGAGGAGGAGGGGCCGACCCTCCTGGGGTCAGAGGAGGGGGCAGTGGGCCATAACTCACACTTTCCAGGCAGGGGAAACTGCTTGCACT
CTCTGGAAACCCTGAGTCCAGTCTTCCTGGAATGTAGGGCAGGAAGGCAAGAAGCGTTGGATGAAGGGGGCGGGAGATCCCATCTAGGGGGACCTTTTAT
GAACTGCTCCATTTGTCCTGTAGTAAATGAAAATCCAGGAAGAGATTTTAATTTAGGGGAGAGGAGATCCAGTTTGCACCTTCGCATGGTCACCATGACA
AGATGTGTCATGAGAGAGCCGGTTCGGAGCTGGTTGCAGGAGTCTGGGTAGAGTGTGCGGAAGGGCTGACCGAAAGCAGTGCTGGGTGGCTGGAGAACAG
GGAGACGCTTGGAAAGGCACCGTGCTCAGGGTCCAGGAGCAGGCTGCGGGGTTCGAATCTTGCTAGCTGGACAATCTTGGGCGGATTACTCAACAGCTCA
AATTCTTCACACCTGTAAAATGTGGATAACGGTGTCTACATGATCATCACGAGGCTTAACTGGAATGCCTGGTTTATTTACATTTAATATAATCACTAAT
GTATTTGGTTTTTTGGTACTATCTTAACTTTCTTGGATATTTGTCCTGCTTATTTTATATTTATTCTTCTTGCTTTTCTTTGAGATGTATCAAGGATTTT
TTTTAATTTTTAAAATTTTTCTTCTTAACCCACAGAACAAAGCATTTTTTTTATTCTAATTTTTCTCCTCAGTTTGTTATTTTTTTACTCTCCTTTTGTG
GTTATCCTTGTAATTTCAACACGCACTTTTGATTTATAAGATTGTAAGAAAAGGGCCAGGCACGGTGGTTCAAGCCTGTAATCCCAGGATTTTGGGAGGC
TGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTAAAGCCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGTGTGG
TGGCGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCACGACACTGC
GCTCCAGCCTGAGTGACAGAGCGAGACTCCGTTCTCTTCCCCATCCCCCCTTCAAAAAAAAAAGATTCTAGGAAAAATTTGTATTTGTTTACCCCTTGAA
GGGCTTTATTTAGGACACTAATTCCATTTACCCATTTCCACCACTTGCTATGTTTGTCTTGCATTCTAATTCTATGCACACCATCTAACCTAACTTTATT
AGTAATCCTGAGTAGTCAATATTCACTCAGATTTACTGATATATTTACTTTCCATTGCTCATCACTCCTTCAATCCAGTGTTTGATTGCTTCTGCCTGAG
ATCATTCTCCTTCAGCCTGAAGAACTCCCTTATTTCTTTTTAAGCCTGTGTCAGCGATACATTCTCTCAGTTTTATTTGATTGGAAATGCCTTTATTTGG
TCTTCTTGAAGGGCATTTTCACTGGGAATAGAATCCTAGGTTGGAAATTACTTTCTTTCATTTTCATTCCATGGCCTTCTGCCTTTCACTGTTTATGTTC
ATAAGTCAGCTATCAGTCTTATTGCTGTTAATTTGAAGATATGTGTGGTTTGGGTTTTTTTGTTTTTTTGTTTTTTTTTTTTTCCTGACTGCTTTGAAGA
TGCTTCTCTTTGGTTTCCATCAGTTTTATTAGGATGGAGTTTTGTTTTTTTTTTTTAATCCTTCACTTCATAAATCAGACTTGGAAACTTCTCAGGTGTT
ATTGCTTTAAATATTGCTTCTGACCCATTTTTTTTTTTGCCCTCTTCTAAGACTCCAATTTCATGTATCTTAGACTTCCACCATGTCTCAAATATTCCTT
TCACTCTTTTTTGTATTTCCTATTCTTTTTGATCCCCTTACCTCAGTCTGGATAGCTTTTACTGAATGAATCTTTTCAGTTCTATCTAATCTTGCCAGAT
TAAATAAAGGACATCTCATTAAAGTTGAATTTTAGATAAATTGTGAATAGTTTTTTAGTGCATGTCCAAAATTTTGAATGAACATACTTATATGAAAAAT
TATTTGTTGTTAATCTAAAATTCTAATTTAACTGGACATCTGCTTTTATTTGCCAGTTCTGTCCATCTTAGCTAAGTCTAATCTGCTATTAAACCCACCT
AATTGTATTCTTAATTTTGGTTATGGTGTTTTCAATTCTAGAATTTGCATTAGCTCTTCAGAGACTCTAGGTCTCTGGTTAAATTCTTCATTTGATTGTC
TATTTTCTTAAACATATTAGTTATTTTAAAGGTTGGATCTGATAACACTAGTATCTAGTCACATGTGGACTTCTTTCTATTGTCTGGTTTTTTTTGTTTT
GTTCTACTTCTTGTTGTGCTTTTTGATTAATGCTAGGCAGTGTGTAGGAAAAAATGTGTAGGCTCTGGCTGATGATATTTGCCTCCAGAGAGAATTCATC
CTGTTTTCTGGTCGGCAGCTAGGGACTGAGTGGACTCAAAGTTGGATTGTAGTTGTTCTAAGACTCTGCTGCCTTCAGGTCATCTTACATAAGAATGAGC
ATTAATTTAATCGTTCAACACATATTTGTGGATCACCTGCTATGCCAAGCACTGGCCTGGGCATGGGTTACATCAGCATACCAGACAGGAAAAAAAAAAC
CCTTCGTCATGTGGAGTTTATCTTCTAGTTCACCTGTCCAGAAATTAATAATAATTAATAATAATAATTGACCTTAGCTGGGACCAGCTTCCAGAAGGAA
CAGAAATGTGGAGGTAAGTTGGTATTAAAGCAATGTGGAGATACACACCAAAACATGATTCTCTGCTCTCTTCCTACACCCCAGCCTTCCTGTGTTGGTA
AATGACATCAACATCCAGTCCAGCTGCTCAGTCCAGAAACTAAGGATCCATCCTTGATGCTGCTTTTCCCCTCAACTCCCTCCTTACATCGAACCCATTC
AAAAGCCCTGTCCAGTCCTACCTCCACAATTATGTTCTCAATGTGCCTCACTTCTCTTTCTCTCCACTGATAACATCAAGTCCAAGTCACATGATCCCTA
CCCAGACTGGGCTCCTGTATCAGCCTCTTAAATTTGTCCACTTCTCCAATTCCATCTTTAGTCTGTTCCTGCTGCCATTACAAAATACCTTAGATTGGGT
AATATATAAACAATAAAAATGTATTGCTCACAGTTCTGGAGGCTGGGAAGTCCACGATCAAGCCGCCAGCAGATTCAGTGTCTGGGGAGGGCCTGTTCCT
CATAGATGGCACCTTCCAGCTGTGTCCTCATATGGTGGAAGGGGCAAACAAGCTCCCTCGAACCTTGCC


SNP Information

Context             (SEQ ID NO:60733):
TGCTCATTCTCTAGGATAGTTCTTATCCAGAATGTGGTTTCAGGAATTCTTTTTTTTAGTTTGAAAATGAATGTGAAACATTTTCTTTGGTGTCTTTTTT
K
AAAAAAAAAAAAACCCTTATTGCTATTTTTTCGTGTTTTTGTTTTGTTTTGTTTTTTGTTTGTTTTACCATTAAGTAATACACATCCCAGAATTTGGCAC
Celera SNP ID:            hCV27077847
SNP Position Genomic:     7400
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:60734):
CAAATTTGAGAGACTTTTTTGAATCTCACACATGTATTTTCCTCAAGATTCTTTTAAGCCTCTTCTGAATGACTTGTCTGAGATAGTGAAGACCCACATT
R
ACTAGAATCAGCTGGGGAACTTTAAAAAATACAGTGCCTGGGTCCCAGTCCCTAGCTTTTGATCTAATTCATGTAGGGGTGGGATCCAGGAATTACCATG
Celera SNP ID:            hCV2611363
SNP Position Genomic:     6673
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:60735):
AAGTAATACACATCCCAGAATTTGGCACTCTGTGTTAACTGTGGAGGCAAATAAAATTTAGTTTTAATCTGTGGTGAGCTGAATGCACTACAACACCTTC
S
AAGTAATCTGATGGTTTCATTCTGTCGAGCCTCATGCTGCCTACAAAACACCACAATTTACCTGGTGTTTTCAACATTTTAAGGAATGAAGATACAAGTA
Celera SNP ID:            hCV2611366
SNP Position Genomic:     7573
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,4)   total(G,4|C,4) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:60736):
TAAAAACAATTGTGCGTGGCCTCCATATAACTCAGAAAGCATGCTCTTACTACCTATGCAAGCAAACAATAAAACATATAGACATGAAATGTTAAGTCTT
A
AAAAAAAAAGGCAACAATTATGGAGCTCTATTTTTAAATTTGTGATTTTCAAAATATGGCTTACTCATCATTGTGTAGAAGAGCATGAATGCGATTTCTT
Celera SNP ID:            hCV27077845
SNP Position Genomic:     6039
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,8)   total(A,4|-,8) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:60737):
CATGAGATGTGTCACTGATTTCTGTTATTTATTTGTATGTTTTATTATTCAAAGTGTATGCACTTTTAAGAAGCAGAATTTATATTTTTACGTTTGAAAC
R
TTTTATTTCTGAAACAGCGTTGATTATATAGTATACAGTTGGAATTAAGAGAAAAGTGGAAAATGTAACAAAATACAATAAATTTATTACAAGATGTCCT
Celera SNP ID:            hCV8918732
SNP Position Genomic:     8271
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60738):
TACTTTTGCTCATTCTCTAGGATAGTTCTTATCCAGAATGTGGTTTCAGGAATTCTTTTTTTTAGTTTGAAAATGAATGTGAAACATTTTCTTTGGTGTC
T
TTTTTTAAAAAAAAAAAAACCCTTATTGCTATTTTTTCGTGTTTTTGTTTTGTTTTGTTTTTTGTTTGTTTTACCATTAAGTAATACACATCCCAGAATT
Celera SNP ID:            hCV27077846
SNP Position Genomic:     7394
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 UTR 5


Gene Number:                 333
Celera Gene:                 hCG1996904 - 63000132520013
Gene Symbol:                 POGZ
Protein Name:                pogo transposable element with ZNF domain;KIAA0461;Nbla00003
Celera Genomic Axis:         GA_x5YUV32VSLS(9924790..9993235)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12493):
GAAGACAGAGATCTTAATTGCTTCTTACTGAAAGCTAATGGGAATTCTTCCTTTAGAAACCCAGGCTGAGAACTTCCTCAGGCTTTTTCTCACCTCCTGT
GTCTCTAGGAAAGTCCCCAACTCTTCTAAACATAAGAAGGTAGCAAATAATATTCCTAAATAAAATCCGGCCACAGCTGTTAACTTCCCCATTTTTTAAT
TTGACATTGGTCAAATGTAGATCTCCACTTGCCCTTTATTTCATGGCAATTTGCCTGTCAAGTTAAGCACCTCAATGTTTTCCTTCCACCACACATGCTG
ACTTATACACATGCTGAATCCCAGGCTCAGTGCAATCAGCTATCCATCTTTTCCACCTGGGAGCTGCTCAGATGGTAAAAATGTCTCTACTGTTTTTCTC
TTACGTTTTCTGAAATGAGTAGCTCTCTTTGAGGTTCCAGCTTTGACAATCCTGAGTGTGCATTACAGAGAGTGGGATACCCATTTCTTTCTTTCTTTTT
TTTTTTTTTTTTTGAGACGAAGTCTCACACTGTGGCCCGGGATGCTATGCAGTGGCGTGATCTCGGCTTGCTGCAGCCTTCGCTTCCCAGGTTCAAGCAA
TTCTCCTGTCTCAGCCTCCCAGGTAGCTGGGATTACAGGCATGCACTACCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATTT
TGGTCAGGCTGGTCTGAAACTCCTGACCTTGTGATCTGCCCACCTCCGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCATCGTGTTCGGCTGTTACC
CATTTCTTAAAGAAATCTGGCATTATCTCCCACGAAGCTTATTTCTGCCTGGACTAACCTCACCATCTGAGCCTCCCTACTCCCCGCCCAAACACATACC
AGTCAACCTCACGCTGAACCTGAACAATAAGTGATTAGGTCTGCATTTTAGCAAAATGATGCCACCGAGGGCATCCATGACTCAATGCTTTTGAAGACAT
GCTGAAATCATTTGTCTCTCTTCTTTAACATTCTCCAAGCTACAGGTGGTTCCAATTTTCTTTTGTATGTTTTGTTGTTGTTGTTTGTTTGTTTGTTTTT
TGATGGAGTTTCACTCTTCTTGCCCAGGCTGGAGTGCAATGGTGCAATCCTGGCTCGGTGCAATCCTGGCTCACTGCAGCCTCCACCTCCTGGGTTCAAG
TGATTCTCCTGCTTCAGCCTCCCAAATAGCTGAGATTACAGGCGCGTTCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCA
TCTCTACTAAAGACCTTTGGCCAGGCTGGTCTTGAACTCCAGACCTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCC
ACCGTGCCCAGCCCCAATTTTCAACTTGTGGCAGAAACCGTAAGTCAAGGAAGCAAGTAAGTATTTCCATAAACTGTAGAAAAGAAACACTCTCCAGCTA
TGTAACTGAAAAGCTCAGCTTGGGACATCCATTAACCTTTGACTTTCTTTCTTAGAAAAAGTTTCTAAGTTGGCTACTGAAGACTGGAATAATTTTTAGG
AGTACCACTATTAGGATCAAATTTCTTCAACATATCAGACTGGATTGGCTTTCAGATTCCTCCCCAGTATGTTACAGAGGCACATACGAGTTGATTTCTA
AGGATCTGATTCAGGTTATTTGTTCTACTACTTGGGTTTCCCATCATCATCAAGATGGTTCAAACCATTATCCAGATGGTCCAAAAGAGAGACCAAAGCT
ATCAGTTCTGTTACTTCACTCTGGAAACCTGTGTTTTAGCTGAAGAAGCAAAATGTTCCAACACTGTCCAAATTAATATGAGCATTCTCTCTTTAGCACA
AGGAATACGTTTCTGGAAATAGCAGTGTTAACTGTATAGTCTCTTTTGAAGTGCTGCACCAGTGTTGTAATGTAAGGTGGCAGAGTTTCCTTGAAATCTT
CTGAAGGTATAAAATGTCTTTGCTCATCATTTCCTTTTTTTTTTTTTTTCTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGATGTGGTGTGA
TCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGACTACAGGCATGTGCCACCACGCCTGGCT
AATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGATCTTGTAATCCACCCACCTCGGCCTCCCAAAGTGC
TGGGATTACAGGCATGAGCCACCACACCTGGCCAGGATACCTTTTACAACGTCAAAAGACACTCCATTCCCTAATTGCCTGTTGATCTTTACCCTCTGTT
TCCTCACCCATTTCCTCAAAGGTGCCTCCAGATCCTGCAAAACTCCCACTTTTACATTTAGCATGATAGACTTTCTGTATTCTTGGTGGCAGGCATAGCA
CCATCACTCATTTTATTGGGCATTATGGGTCAAAACTGTCTCCCAGGGCACAAACTAAATGACAGAAAAATAGAGAGGAGTAAGTAACACACCACAGAAC
TCAATCACCTGAAGCAGCAGCTTCACAACTCCCATCCTGGTCCAAGCTACCATCAACTCTCACCTGGATTATTGCAATAGCCTTCTATCTGGTCTCCCTG
CATCTGCCCTTGCCTCTATTAGTTATTCTTCACAAGCAGCCACAGTGATCCTTTAAAAACGTGAGTCAGGCCGTGTCACTACTTGCTTTATGATCCTCCA
GCAGCTTCATTTTCACTACAGGTAAAACCTAAACTTTGCTTCACTTTCTTCAGGTCTTTGCCCAAATGTCACCTTAACAAGGACTTCTCCAATCACCCCA
CATAAAATAGCAAATTCTCCACCCCCATGTCTGCACCACACTCCTAATTCCCCTATCCTGCCCTTTACCCTTCATAGCACCTATCACCATTTCATATAAT
CCATATTTATTTACATAATGTATATCAGATTGCATTTTCCAAGATGGCCACAAGATTTCCCTTTCCGCACACTTTCTTACAATGTGACATTTCCACTATT
CCCGTTGAGAGATGGGGATCTATGCTCTCCATCCTGTAACTGTAATGGAAGTAACACTATATGACCTCTGAGACTAGGTCACGATCTCTGTCTGGTCCTT
TTGGGGCACTCAGTCTTGGAACTCAGCCACTATGATATGAGGAAGCCCAGGCTACATGGAGAAGCCACTTGTAAATGGTCTGCCAACAACCCCAGCTGCG
GTCCAAGCCAACAGTCAACCTCAACTTCCAGACATGTAAGGAAGCTTTTGAGATTACTTCAGCCCTAGCCACTGCATACGAGACTCCCAAGTGAGAACTG
TTTAGCTGAGCCTAATTACCTCCCAGAACCATGAGAGGTAATGAAATTGTTGTTTTAAGCCACTAAGTTCGGGGTCATTTGTTATTTAACAATAGACAAT
AGAACAATTTGTTTATGTGTATATTTTATGTCTCTTTCCTTCTAGAGTATAAATCCCACAGATTCAGGTATTTGTTGTTGTTGTTGCTGCTGTATTCCCA
GCACCTAAAACAGTGCCTAGTACATGTGCTCAATAATTTTTTTTTTTTTTTTGAGACAGGATCTTGCTCTGTCCCTCCCAGGCTAGAGTGCAAGTAGTGT
CATCATAGCTCACTGCAGTCTCAAACTCCTGGCCTCAAGTGATCCTCCCAAGTCTTCCAAGTATCTAGGAATACCACAACCAGCTAATGAAAAAAATTTT
TTGGGGCCAGGCACGGTGGCTCACGCCTGTAATCCCAGCGCTTTGGGAGGCGGAGGCGGGCAGATCACGAGGTCAGGAGTTCGAGACCAGCCTGCTTGGT
GAAACCCCGTCTCTACTAAAAACAGAAAAAATTAGCCAGGCATCGTGGCGCACGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCACC
CAGCAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTTCACTCCAGCCTGGGGGAGAGAGCGAGACTCTGTTTAAAAAAAAAAATTTTTTTTTTGTAG
AGATGGGATGTTGCTAAGTTGCCCAGGCTGCCCTCAGACTGCTGTGATCCTCCTCCCTTGGCCTTCCAAAGTGTTGGGATTACAGGTGTTAGCCACCATG
CCCAGCCCCCAATAAATATTCATTGAATGAATGAATGGATGCATGATCCATTTTCAATAAAGCATGCTAACAGTTACTGGTCAACGGTATATGGCATAGT
CTGCGCTAGATCTCATTGGCTGGGAGAATAAATTGACAGGGCATGGGGAAATATGTTGGAATTTTTCAAAGGTTAATAACGTAATATACATAATGTAAAT
ATAACATATATAATGAATTATACTAATTACACGACAGTATAAAATAGGATTTGAGTTTCATGTAGTCTTTTGGTGATTGATCCCATAATCCTAATATGGG
CTTCTCCAGATCAGGTCTGGAAAGTCTTCAGAAGTATTTTCAGAAGGATTTAGTGATTCTTCTCATTCAAATAATGAAGTCCTTCCTAAGCATCCTACAC
TAGTGGAAATCACTCACATGGTTTTGGTATGAAATGGAATGAAACTGGGTGGTGGCAGTGTGTGTATGTGTATGCACATGTGCACACTCACACGGGCAGG
TGCATACAATTTGGAATGCCTACTTCCACTGCCTATTTTCAGTCTGGTGGTTTGAATGGAGTGTGTATATAAAGAGCACAAATAAACATAGTTCTGGATT
TCCCCTTTCTGCACCAAGTACCTTGATTTCACATTTGGTTTGAAGCAAATATTTGTGTATTGCTTAAATAGCAAACATTTTCAAATATTCAAGGAAAATA
TTACATTTTTATAATCTCAGAAGGCAATAAAGGACAAAATTTCTTAGCTACCTGAAAAGAGGTAGTTTTTGTCTGGGGAAGAATAAACAGGTGGATGGTC
GTTTGAGTGGACTAACCAATTTCTTTGAGCCAACCCATCTCAGCCTTGATTGGAGCAAAAAGCATAAGGATGTGGAGTGTGTGTGGTTTCTTGGAACTGG
GGATCTCTGCTGAATCTACTCACAATGGGAGCAAAGCAGTTTCCATCACAATAATCGCTTTAACAATCGTGTGCCACTTCTTTCCAGGATCCAGAAGGGC
TTGAGGATCAAAATGGCTTTTAAAAGTTCTTCACTTAAACAAGGCCGCAGCCACAAGGTTACTTGGCCGAGTGTCTCTTGAGAAAGAGTGAGTGCCATTT
TGTTCTTTGTTCCAATGACAGTTGTTGGTGCCACTGGGCCTCACCACCTGGCCTGTGTCATGAAGTCTCCCTCTTGACTGGGTCTAAGCCTTGAGTGGAA
AGTGGGGGAGCCTCCCAACACTTCCTTGGAAACTCTTGGCAAGTAAATTGGGGAATATTTTCTTTGGAAGTCTCATTTTTCTCACCAAAATTTAGATATA
GCTTCTGAAGCTAATTATTCTTTTTTCATTACAAAAAATGTTTTCCTTTATTTATTTATTTGCAGGCCCAGCCAAACTTGACTAGAAAAGAAGCCCGGGC
AGGGGTTTGGATGAGCCCATGACGTGCAGCGCGCTCCGACCAATTGGGAGGCCGTGAAAAAGGGGAGGGCGGAAGTGACGAGCCGTATCCCTCCGCGGGG
CGAGAGGGTCGGTGGGGGGAGTCGGCGTCTCTCTCCCCCGCGCCAGCTCCCGTACACGGAGCCGCATTCCTTGGCCCCCCCACCCCCCTCCCTCGGGGCC
CCCCCGCCCCCCTCGGGAAAAAAATCCACCCCGAATCACTCGAACCCGAGGGAGGCTTCCTTTCACCCTTGGGGAGACGAGCTTTCAACGGTTACCTCTT
CTTCGTCTCCCCCCAAGCCCCCGTCCCCTCCCCCTGCTCCCACCCCCTTCTGGCGCCGGGTGTAAGGTCCCTTTAAGGCGACGGCGCCTTCCTCGGGTCA
GACTACCGGCGGCGACGACCACAGGAGGTGAGTGAGCGAGCGAGCCTTCTCTCTCCCCACCCCCTGCTCCCGGGGGTTCCGTTATCTTTTCGCTCGGCGA
GGCGTTCAGAGGCGAGACAATGAGAGGGGGATGGGGCCGGTACGCGCGGGGGTGGGGGCGGGGGGCCGGCGGTGCGCGCCCCCGCCCACCGCGAGTGGCG
GCGCGGCCCGCGGCAGGGGCGGCCGCGGGGTGCGGCGCGCGAGCGCGAGTGTGTGTGCGTGCGCCCCGGGCCGCGGGAGCCGCGCGAAGGGCCGGCGGCG
GAGGTCCCTGCCTGCCGGCTGGCCGGCCGCCCCCGCCCCCCGGCGCCCGCCGCGGCGCGCGCGCGCGCACTCGCGCCCCACGGCCCCGCACACAGCCCGA
CGTCCACACGCACGCTCGGCGCGAGGCGTCTCGGAGGAGTGGGCGGCGCGGGCGCGGGCGGTGGCCCGCTGGGGAAGGGGCGGGGGCGGGGGCGCGGGCG
GTGGCGAGACGGCGGGGCGCGGCGGGAGGGGCCGGCGAGGGGGCGAGGCCGTGCGGCGGAGGGGCGGGCGGCGGCGGAGCGGCCCCTGGGGGTGGGGGTG
CGCGGCCCTCCCCGCCCCATTCCCGCTCCGAGAAGGAGTGGGGCGCTCGTTTTGAGCGGGAGGAGGAAAATGAGTGATTGCTGAGCCGATCCCTTGTGTT
ATGTAATCTCTGCTTGGTCTAATAGTACATCCTAAGCCTTAGTGCACTGCAGCTAGTTTACGAAGTCTCCTCCCTCGGTCCCCAAATTTCTTTTGGGATG
GCGCCGTGATTTATAAAATGGAATGAGGCGGGGAATCTTTATTTTCTGGTGATTATGTCCTGCCGCGGTGGGCGCCATGTTTATCCCGGGGACTATTTTG
TTTAGATTCTTGGCACCTTTTGCAAAGGAGTACTGTCATTGATCTATTTGTTTTCCGTCTTTCTGCGTGTTGTTCTTATTTCCTTCCTCTCCAGATGTGG
GATTCTCTCAAACTGCTAGTAGCACTTGTCTTAGACATTCTTAGTTCAGAAAAAGGTAGTGCTGATGAGTCCTTAGAGTCATTTAGTGGCCAGTCTCATT
TTCGAAATGGAAACTAAGATGCAGTTGGACTATCTCACAGCAGCCGCCGTCTTGATGCAAGCGGTGTAGCCCGTCCTTCCAAGCCCGTAGACACCTCTTA
CCGCCGCTCAAAACTCCACAGAAATGGGGTTTTACTTTTTTTTTTTTTTTGAGACGAAGTTTCACTCTTGTCGCCCAGGCTGGTGTGCAGTGGCACGATC
TCTGCTCACTGCAACCTCCGCCTGCCGGGTTCCAGTGATTCTCCTGCCTCAGCCTTCCTAGTAGCTGGGATTACAGGCATGTGCTACCACGCCCGGCTAA
TTTTTGTATTTTTAGTAGGGACGAGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACGCCTGACCTCAGGTGATCCGCCCGCCTTGGCCTCCCAAAGTGC
TGGGATTACAGGCGTCAGCCACCGCGCCCGGCCGGGTTTTACTTCTGTAGGCATTTACCCAACTAGAGGAAAGGGAAACGGAGGGGGCAGGGAGGGCTGC
TCSTTGGCAAACGATTAATTTTGAGACACTATTGCTCAGGGTCTGAGAGCTTGAACTCTGAATTCGAACTGTTAGCACAATCGTTCTCAACTTCGGGGTG
CATAAAAAGTAACTTGAAGGTGGTTAAACGTACAATTTGGGGGGCCTCATCCCCCAAATTTATTTGAATGGAGCAGAGGGGGGTTGTCATCTTTACATTT
TCAAATGAGCAGTCCTGGGGCTGAGACTGATTAATGTAACCACTACATTGAGAATTACTGGTCTAACATAAAAGTGTTCAAGATGTTGAAACAAGTGACA
CCTTGTGCCGTTGATTTCCTTCCCTTTTCCAGAGCTGTGTTGGTGGTGTATCTCAAACTAAAGGAGGTAACAGAATGGACTCTTGGGACGAACCTGATTT
AGTTAGAGTTTCCACTCCCATCTTGAACTAGTGGTRTAATGTAGGAAAGCAGTTCTCAAAGTGTGGACAGATGACCCATGGGGATCTCCTCTTACCCTTT
CAGGGTAGCCTCAAGGTCATAACTATTTTCAAAATAATAGTAAGATGCTATTTATTGTTTTCACTGATACACTGATGGTTCAAAAGCAAGGCTGGGTAAA
ACTACTGGCGGTACCTTAGCACAAAGCAAGTCAGGGGCACCAAACTACTTGAGAATGCCCTTGAAGCAGTAAAATTTATTATTCTATTTTTATTTTTTTG
AGGCGGAGTTTTGCTCTGTCGCCCAGGGTGGAGTGCAGTGGCACTATCTSGGCTCACTGCAATCTCTTCCTCCCTGGTTGTATTTTTAGTAGAGACAGTG
TTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCGGACCTCAGGCGATCCACCTGCCTCGGCGTCYCAAAGTGCTGGGATTACAGGCATGAGCCACCGTG
CCCGGCCTATTATTATTAAGTCTTAGCTTTTGACTACATGTCTTTTTAATTTTTAAGAATTTGTGATTAARTAAACATGGATAAAGCATTTATGCTGCCT
AGGGAGGTGTGATTGTTGTCATGAAGGAAAAGCATTTGTGAGATTGGGTTGTGAATGAATGGCTTATTTCATGGAGTAGCATTTTTACTTGAAAGAACGA
CTAGCAGACTATGGTTTTTCACACTTAGTATYTGGCAGATATTTCTTGAAAATGAAGTGAGCTTGTCACTTTTAGGAAAACAACTGACAGTATTTATTAC
CAGTGATAAAATTTGGGTGAAAATTAGAATTTTTAARAAGTTGACAGCTGGAGTTTGACAGCTTCCTAGTACTTAAAAGACTTTCCTTATGATATCAGTG
GTTAAGGACTGCAATATTTTAAAATGTTGTTTAATGAAATATGTTATTTGGAAGATGGGCATAACTCAGTAAATCTAGGCTTTGCAAATGACCAATGCAT
GATGTTGCAAAATCAAGCAAAGGCAAAAGATCYTTTGAAAATTCCAGACATAGCAATGGATTTTAACAGTAAAAAAGTGGATTGATGTGGTTTCAGATTC
CAAAATGTTAACTGTCCTTTAAGAAACTACTATTTGGCCTAGCGTGGTGGCTCRCTCCTGTRRTCCCRGCACTTTGGGAGGCCRRGGTGGAAGGATTGTG
TGAGCCCAGGAGTTGGAGTTGAGCCTGGTCAGCATAGTGAGACCCTGTCTCTATTTATTAAAAAAAAAAAAAAAAAAARAAAAGAAAGAAACTACCGTTT
GTTGAGTTTTAGTATTTACCAAACACAGTTATCTGAAAAGGTTATTAAAATACTTCTCCCTTTTCCGACTAGATTTTCATTATATACTTAACCAAAGCTA
CATATAGCAACAGACTGAATGCAGAAGTAACTGTGAGAATCCAACCATCTTTTATCAAGTTAGACATAAAAGAGATTTGCAAAATGCAAAACAACGTTAC
TTTTCTCACTTTTTGGAGGGAAAGTATTTTTTGTTGAAATGTTATTTATGTTAACTTATAATGGGCTTGTCTTAAAATACATTGATAAATACTACATTTT
AAAAATTTGTGGTAAATGTGGAAAGATAAAATTCACATAAACAAAAGATCTTTGGCGTCTTCAATAATTTTAAGAGTCAAAAAAATGAGAATCATTCAGT
CAGTCCTATGTTTCTGCTCTTTACATCATTCAAATCTAACTCCCTTGGGGAACTTGGGAGAATTTATAAATAGTTGAAGTTGATGGAAGAGGCAGTGACC
TGGGGAAGAATTCTAAAGCAAAAAAAGCTTGCTTTGAATCCTAACTGGGATATTTACTAACTGTAACCTTGAGGAAGTTACTTCGTCTCTCTAAACCACT
GTTTTGACCTTATCTGTAAAATAAAAACTTTAGAGCTGGTTGATTACAAATCCTAGAGCTGGTTAATGCCTTTGCCATAATATCAATRTGGTAACATTTT
GATAGATTCTTTGGTATTCTTGTTTGTGATATTAAGCCATATTCACAAAAACTTGTCTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTATTGCCCAGGC
TGGAGCGTAATGGCGCAATCTCGGCTCACTGCACCCTCCGCCTCCTGGGTTCAAGCGATTCTCCTCCTTCAGCTTCCTCAGTAGCTGGGATTACAGGCAC
GCGCCACCACACCTGGGTAATTTTTGTATTTTTCTAGAGATGGGGTTTCACCATATTGATCAGGCTGGTCTCAAACTCCTGACCTCTTGATCGACCCGCC
TTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCAACTGAAAAACGTATTTTTATATGTAACCAAGGGGAGGAGAGCAGAAAAGAGAC
ACTAACCTATTGCTAGGTGTTAGCAGAGTTAAAAGAAATTGAAAGCATAGAAATGGAATTTAGGCAACACACAGCTGTCATTGAAGAAAAGTTTTCCATC
ATAGTATAGATATTTTTCTTGGGAAAGGGACTCCTGAATATTGAACCCCTTTAAAGAAGAGAACTTGTTGCTTACTTGTTTTAGTAAAGAGCACAGAACT
AAATATTTGGGTGTTTCTTGATACAGGATTGGCTACCAGACAAGAGGAAAGTATTTTGAGTTTGGAAATTTTAGGTTATTAAGACTACTTAAAACCCTTA
TGATTCTTACATATGAGGTACTATAACAGATGTTGTGAGGGACAAAATGGGCTGTGCAAAAGACTGGATAAATAAAAGCTTATTACATGTTTAACTATAG
TTTTATACACAGATTAAGTATTCAGCCCTATAGGTTTTCTGGTATTAGTCCTTTTTAGAGCCAAAAATTGAGGTAACTTGAAAACATAATTACCAGTTAT
GTTGAGGATTATCATTGTTTATTTTTCACCCTGGAACAAGAAAGTGGTATTCTTAAAATGTTTGTTTTCTGTAAAATATTTTTCCTGTTCCAAATGTTCT
TTTTATGTTGATTTTTGGGCAGGTATGTACTGGCAGTAAGTTGAAAACGTTAGATACCAAATTCTTCATTTCTGAATTCTTCATTCTTCATTTCTGGACT
TTACAGCTATGAAAGAACAAGACAAAGGAATTCAGAGCTTTCAAGAACCAAGTATGTCAGGATAGTTGTGGAAAACAGATCTTTTTCTCATTTTCTTTGA
GATGAAGATAGGCAACATTTGCTGCCCATTAAATACCTTAAAAGTATACAGGTGTATCTGCAGGATTCTTTTTGCTGCTTTTAAATAGTATATTGTTTTA
AAAGGTCTGTTTTTATCTTGCCTTTACAATTATATAGACTTTTATTGACTAGCTGATCATATAGGGCCTTAGTATAGACTACCATATTCGCCAGCATTTA
AGAAATAGTCCCCTTCCCTCCAGGAGAGTATTTATCTGGTACTCCCATATTATGGATTGAAGGATGAGACAAGAGACTGAGTATTGCTAATAGTTCTGTG
TGAGCCTGCAGTGTTAAGTAAAACCTATTGAGTGCACAAAAAAATCATGTTACAATTACTACAAAATAGAGAAACCACCTAGGTTACCAAGATGTCAAAT
AATGGATTAATGGAAGAAAGTAATGTACCTCCTTGGTAGCCTACATAATCCACCTTAATTTGTTATTTCTTATTTAACTATTTTGCTATGTCTTAAGAAA
TGTATATTAAGTGAAAATGGATGCATAAAAATAAAAAAAGAGAAATGTATATATACAAGCTACATGAAAATTGGTCCTGGGAATAAATCAAGAAATTCAA
CCAACAAGGCTACCAGTTATTTAGTAAATACCAAAGAGATAGGTGGAATGTAGCAGTACAGAATATCACAGCTAAGATATGAGTAGGTAGTTCCACTCCC
TCCTACCCCACCTCAGTTTTTATTAAGAAAATTTCACGCATGCGAAAAGGGAGAAAGAGGCTGGGCGCAGTGGCTCACACCTGTAACCGAAGCACTTTGG
GAGGCCAAGATGGGCGGATCACAAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGT
TGTGGCGCATGCATGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAAAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCACTCCAGC
CTGGGCAACTGAGCGAGACTCCATCACAAAAAGAAGAAAAAAGAAAAGGGTGAAAGAATTCTACAAGGAACACTTAAACTATCCACCACCTAGACAGAGT
GACTTTTTTTTTTTAAGACAGAGTCTCGCTCTGTTGCCTAGACTAGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGCCTCCCGAATTCAAGCG
ATTATCCTGCCTCAGCCTTCCGAGTAGCTGGGACTGCAGGCACCAGCCACCACGCATGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGT
TGGCCAGGCTGGTCTCGAACTCCTGTCCTTGTGATCCGCCTGCATTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGTGACAGGA
TGATTTTTAATGTTTTGGCCCATGCCAAATATTTTTTGAAAGTTGGCATACTAGTATCTATAAGAAAATATCAAAATAGCCCACCTGTAGTGACAACTAC
TTGGGAGGCTGAGGCAGGAGGATCACCTGAGCCCAGGAGGTTGAGGCTGCAATAAGCCGTGATTGTGCCACTGCACTCCAGCCTGGGGGATAGAATGACA
CCCTGTCTCAAAAAAAAAAGCCAAATATCTATGTATTTGCTTAACCCCTTGAAAGTCACTTTCAAGATATTTCTATTAAATATTTTGTGCATTTCCTAGG
AATAAATACATTCTCCTACATGAATATAATATGATTATCCTTTCTGTTTAAAAATTTTTTAGAGGGATCGGTTCTGTTTCCCAGATTGGTCTTGAACTCC
TGACCTTAAGCAATCCTACCACCTTGGCCTGCCACCATGCCCGGCCAACATTGACTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTTG
TTGCCCAGGCTGGAGTGCAATTGCACCATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGA
TTACAGGTGCCCACCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACTGGGTTTCATCATATTGGTCAGGCTGGTCTCGAACTCCTGATCTGAGG
TGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGTCCAGCCGAACATTGACATTTTTAAAGAGACTTCTATTAGTTTT
ATAGAATGTTCCATATTCTGCATTTGATTATTTCCTTCTAGAATGTCCCACCTTCTGGATTTATCTCATTATTTCTTTGTGGTGATACTTAATTTGTTCT
TTTATTGCTGTATTTCTTGTAAACGCAAAGTTACATTTAAATAATGGATTTGGGCCAGGCGCGGTGCCTCACACCTGTAATCCCAGCACTTTGGGAGACT
GAGGCGGGTGGATCACCTGAGGTCAGGAGTTGAAGACCAGCCTGACCAACATGATGAAACCCCATCTCTACTAAAAGTACAAAATGAGCCAGGCATGGTA
ACGCATGCCTGTAATTACAGCTCCTTGAGAGGCTGAAGCAAGAGAATCGCTTGCACCCAGGAGGTGAAGGTTGCAGTGAGCTGAGATCGCGCCATTGGGC
TCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAATTWAAAAAWAAATAAAATAAATAAATAATTGATTTGATTCAGGTTAAATATTATTGTCAG
TAATACTTCATACATTGTTTTTGGCTTTTCTTGTGTATTTGTTTGCAAAAAAATGCCATAGACAAAACAGCTGATAACTAATGTGAATTATTAGTCAGTA
GTTTATTGGTTAATGTTTTTCTTTTTTCTTTCCCTTTGAGGCAGTCTCCTGTCTCAGCCTCCTGAATAGCTGGGATTACAGGCGTGGGCCACCACACCTG
GCTAATTTTTGTATTTTTTTTTTTTAGTAGAGACGGGGTTTCACCACATCTCTGGTCATGGTCATGGCCAGGCTGGTTTTGAACTCCTGACCTCAAGTGA
TCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCGGTCCTGGCTAAGGTTTTTCTATTTAAACATATTACAATCATAAC
CTTTGGCTTTTGAGATACAGAGCTACTGTAACTTTTAAGTTCAACCATAAATAAGATTTTTGAGGAAGAACATAGAAATAGGTTTCCATTTTGTCACTTT
GAGGCATTGCCCTCTGCAAAAATGATTTGAAAGTTGAAGAAGCTAGAAGAGTTTATATGTAGCAAAAGTAACCTGTAGAGGAATTGTAAAGGGGCCACAA
CAAGAAAAAATTTAGAACTGGGGAGGCTGGGCACGACTGCTCATGCCTGTAAAACCCAGCACTTTGGGAGACCAAGGCAAGCAGATCACTTGAGTCCTGA
AGTTCAAGACCAGCCKGGGCAATATGGCAAAACTCTAGCTTTATAGAAAATACAAAAATTAACCAGGCGTGGTAGCACATGCCTGTAGTCCCAGCTACTT
GGGAGGCTGAGACGGGAGGATTGCTTGAGCCCAAGAGGTCGAGGCTGCAGTGAGTTGAGATCGCGCCACTGCACTACAGCCCAGGCGACAAAGACCCTGT
GACCTAAAAGTTGTCAGATGAATATGAAGATAAAATCAAGTTCCTGGCTGGGTGCTGTGGCTCATACTTGTAATCCCAGCACTTTGGGGAGGCCAAGGCA
GGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGTGAAAACCCATCTCTACTAAAAATACAAAAACTAGCCAGCCGTGGTGGTGGG
CACCTGTAGTCCCAGCTACTTGGGAGACTGAAACAGGAGAATTACTTGTACCCGGTAGGCGGAGGTTGCAGTGAGCCGAGATCGTGCCTCTGCGCTGCAG
CCTGGGTGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAATCAAGTTTCACAGGTAGGTGATTATAGGATGAAACAGACTAGATAT
ATATGGATTTTATAAAAAAATTTTTAACATACAAGATATAACCATTTGAATAATTCATAAGAACCTTGTTCTGCTCTCTTGCAGAGTTTTTGAGACGGAG
TCTCGCACTGTCTCCCAGGCTGGAGTGCAGTGGTGCAGTCTGCAAGCTGCATCTCCCAGGTTCATGCCATTCTCCTGCCCCAGCCTCCCGAGTAGCTGGG
ATTACAGGCGGCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAATAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCG
TGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCTGAGAGGACAAATATTTTTAAAAAGAAATGATAGTTC
TTTATGTATAGAATGTGGGATGATTTTTTTTTAATTGCCCTCGTTTTCAGAACATGTATTCAGTTTGATCAGTGATTTTCAGTCTTGGCACTATTGACAT
TTAGGGTCGGATAATCTCCAGGCTATCCTATGCATTGTAGGATGTTCTGTAGCACTCCTGGCCACTACCCACTAGATAGGTCAGTAACACCTCTCCTCAC
CCCCACCCTGATTGTGACTACCAAAAATGTCTCTAGACATTGCCAAATGCCCTCTGGGGGGCAAACGTGACCTCTGATAAAATTCACTGTCACTTATGAA
GATTCCTTAATTATTTATTTATGCCTTTTATGAACTAGGGTTCCCTTGATGTAAGCTAGGTACAGGTGTTGAATGAATCCCTTCTGCAGATGTAGTGTAT
AGCTTGGGCGGTGCCTGATATATGTTGGAGAACACTGGAATATGATGAAATATTTTAGCACTATTGGGAATTTAATTGAAGGTTCGAAATGAGCTCTTGT
TTTGAAAGTAAAGGTGTAGGCTTTCTGCTGTATCTAAATCTCTGTTTTCCACCTCTGCCACCACCCCCTCATGCATTTGCTTGAAAAAGATCCTTACTAG
CTTAGGAATAGTTGAGAATTTCGTTTGAAATGTTTGACATGATCTGTCTATATCTTGTGTTCAAGGAAAGATAGTTTTGTTTGTTTGCGTGTTTGTTTGT
TTGTTTGTTTTTGAGAACAGGGTCTTGCTCTGTTGCCCAGGTTGGAGTGCAGTGGCTCGATCACAGCTCACTTCAGCCTCCACCTCCTGGACTTAAGAGA
TTCTCCCACCTCAGCCTGTTGAGTAGCTGGGACTACAGATGTGCATGCCACCAACACTCTGCTAATTTTTCTACTTTTTATAGAGATGAGATTTCACCAA
GTTGCCCAGGCTGGTCTCGAACCTCTGGGCTCAAAGAATTAGGGCTCAAGCAGTTCTCCCACCTCAGCCTCCTGAAGTGGTGGGATTACAGGCAAAGAAA
AGATAGTCTGGAAAAGTTACTTGCTAAAAGGCTTGATTAAACTAAATGTGTCCTCTTTGTTAACCTTTGATTGTTTGATTATATTTTTCTTAAAATTTAT
CTTTTTAAAATAATTTTTTAAAAATTTTAATAGATATGAGGTCTCTCTCTGTTGCACAAGCTGGTCTCGAACTCCTGAACTCAGGTAATCCTCTCACCTC
AGCCTCCCGAAGTGCTAGGATTGCAGATGTGAGCCACCACACCCAGCCAAAATTTCTTAACTACATATAAATTATCTTAATGATCTAGGTATTTTGTTAG
GGGAATACATACAGTCAGGATAGGATAAGAGGGGAAGTAATGAGTGGTTTACTAAATATATAAGACAAACATTTCAAGTAAAAATTTCAGGAGAAAATTT
TTTTTTAGGTTTCTAAGAAATATATTTGTGGATGTGGAATTTTTCTGTCAGATGACGTAAGAGCAAAGTTGAAGATAGCTAATACTTGGGGATTCATATG
GAGGTAATTTTTTATTTAAAATGAGCAAGAAGGACCCTAGCCTTTTATTGTGGTCTTGGAAACTCATTCCCCACCAGTATCATTCCTTGAAGAAATGGTT
GGTTCTAGGTCTGGGGCAGGAAATATATGAGATAAGCTGAAACATCTTGACTATCAGCAAAGATTTTATCAAACGATGCTAGGGTTGTGTCAGAAGGACT
CAGCAGCCAACTGAAGACGTTCCCACTGGCCAAAATAGGGCACATTGAGTATCTGTAAAGATAACTGCATGGATCAAAACACATCAAAAGCTGGGCACAG
TGGCTCATACCTRTAATCCCAGCACTTTGGGARTCTGAGGCAGGTGTGTTGCTTGAGTCCAGGAGTTTGAGACCAGCCTGGGAARCATGGTAAGACCCCC
TCTCTACCAAAAAAAAAAAAAAAAAAAAAAAAAAATTAGCCAGACATGGTGGCTCTTGGTTATCCCAAGAGTTAGTTAGCTCTTTGTCCCAAGAGTTACT
CAAGAGGTTGAGGTGGGAGGATTTCTTGAGCCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGTACTCCAGCCTGGATGAGACCACATCTC
ACAAAAAAAGAAGAGAAAAAAGAAATTGGGATAATGACTAGATATTTGATATTAAGGGATTATCAGTTTTTTAGGCATGTAATGGTAATACAATTTTTTT
GTTTTTAAGATGGAGTCTTGCTCTGTTGTCCAAGCTGGAGTGCAGTGGCACAATCTCGGTTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCCT
GTTTCAGCCTCCTGAGTAGCTGGAATTACACACCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTGGCCAGGCTGGTCTCAAACTC
CTCACCTCATGTGATCCGCCCGCCTTAGCCTCCCGAAGTGCTAGGATTACAGGCTTGAGCCACCGCGCCCAGCCATACAATTTTTTTAAACTATAGTCTT
TTAAAGTCCTTATCTTTTAGACCTACATACCAAAATATTTATGAATATGATGTTTTAGAGATTTGTTTCAATATAATACAGGGAAGTGGGGGCATAAATG
AAGGAATCCATTTTGAGTTGATAATTTTTGAAACTGAGTGACGAATACATGTCTAACTTTTTTATTCAATTAAAATTTGTATCATTAAAATTAGCAGAAA
AGGAACCACTACAATTTTGATTCAGAGACTCGTATGAAAATTTGCCTGTTCACTTGTTGCAGTATGATTCCCAAATTTACTGCCCATCCAAGTTTTCCTT
TTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTATCGCCCAGGCTAGAGTGCAGTGGCACGATCTCAGCTCACTGCGACCTCCACCTCTCAGG
TTCAAGCGATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGATTACAGGCGTGTGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTT
CACTATGTTAGCCAGGCTAGTCTCGAACTCTCAACCTCAGGTGATCCCCCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCAACCGCGCCC
GGCCGTTTTCCTCTTGATGTAGCACTGTATTCACTATGGGCTGGCTTTAAATATCTGAAATTCGCATTTCTGTTTGGCAGTTTTGAAATAAAAAATGAGA
AATTAAAATGCCCCTTAAGGATTACATTTCAGCATAATTTTTTTAGTGTGATAAGTATCCAATCCTTCATAGCAAGAAATTAGGGAAGAGGGAATAAAAT
TCGTTTTTTTTTTTTTTTTTTTTCCTTATGAGAAAGATTTGGTATGGAAGGAGGTTAAATGTGTGGAATGATAGTTTGGGAAGATCTTTTTTTTTTTTTG
AGGGCACATTTTCAGAATCTGGATATACATGTTAACACTGCATATTTAGTAATTACTGTCTTCTTTGTTCAAAAACAGTTGAAAGGCTGCCCTTGCCCAT
GATCGGGGCTAAAAAAAAAAAAAAAAAAAAGTTGAAAGACGGTATGCCATGGATCACTTGAAAGACCACAGAGAATGGTGGTGTTTCTTGAGAATCTTGG
TAGAAATATTAAATACTGCATTTTATTATGTTAGTATAAGATTTCCTTTTGATAACTAGAAAACTACAAGAAGGATCTAAATTTGAATTTTCTATTTTTG
GTTTGCTGAATATTTATATTAGGTTGATATATCTCTGTTGTATCTTTTAGACCCTGAGTTATAGATGCTGAAAGTGAAAGGAATTGATCACATCCTGAGA
TAGCAGAGTGTAGGTCAAAATCAAGGACAGTTTTGAAAAATTTGGCTTCAGTGTCTTTCAGAGATGCTTTGTGTATAAGTCTGTGAAATATGTTCAGTCA
GCAGACCTAATATTTTCTGAGTTGACAAACCTTATTAGCTAACTCCATCTTCTATGTTGTTTAAAAAAAAATGAAAAATATTTCCCCATAAGTTGGATTT
TCTTTTTTTTCTTTCTTTTTTGTCTCTTTCTTTTTTTCTTTTTTTTTTTTTTTTGAGACAGAGTCTGGCTTCTGTTGCCCAGGCTGGAGTGCAGTGGCGT
GATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCTTCCTGAGTAACTGGGATTACAGGCGTGTGCCACCATGTCCGG
CTAATTTTTGTATTTTTAGTAGAGGTGGGGTTTCACCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAAATGATCCACCCTTCTCAGCATCCCAAA
GTGTTGAGATTACAGATGTGAGCCACTGTGTCCAGCCAAGTTGGATTTTCTTTTCATTTTGAGTCTTTTAATTTACATTGGATATCTTGGCAGTACTCAT
ACCTAAGGAGAAGAGATATTTTTCTCACTTGATTAAAAAGTAGTTAGGACATAAACATCTTTCTTTGCCATCTTTTCAGATCTACCCTTTTTGGTTATTT
CCATTTGTTTTTTATTTTATTTTGTAGGGATGGAGTATTGCTCTCCAGCTCTCCAGCTCAGGCTGGAGTGCAGTGGCACCACTGCAGTTACTGTAACCTC
GAGCTCACTGTAACCTCGAACTCCTGGGCTCAGGCGATCCTCAATCCTCCTACCTCATCCTCCCTGGTAGCTGGGACCACTGGTGTGTGCTGCACGCCTG
GCTAATTTTTAAAAAAAAATTTGTAGAGATGGAGTCTTGCTGTGCTACCCAAGCTGGAGTTCTTTCCATTTCTCTCAGAAGGTCAAATGGAAGAAATTTC
AATATTCTTATTAAAATTCATTGCTTTATAAAATAAAGAACTGAAACTCTTAAGGTATTGTAAATACTTAAGATAAAAGAACACCCTTTTGGGTATGCTA
TTAAAATAACCACAGGCATGACATTGAAAACCACAATTTGTATTCTGATAGCTCTTCATATTCCAAATCAAAGTTTTCATATGTGTGGAGAGTTTGCTTG
TAAGTGGTCAGGACAAAAGTAGGTCCTTGAAAACCATCGGCAGAGGTTATTGTCCACAGTTTATATTCATTCTGCTGGGTGTTGGATATTTGCGCATTAA
TTATCTGTTGACTAAGCTCTCAGAAAGTTATACAGCAAAGAACAATGGAATAAAATTAAGTATTTAAGGAAAAAGTTTTTGAAAATATATTTTGTAGTGG
AATTAGACTGGAAAACAAAGGCATGTGTTGTCTTTGTCTCAAAGAATACCTGTGATATGGATTTGATTTCTTTTTAATTCAGTTTCTGGCTAGTATTGTC
TTCATATAATTAAGCCTGAAAATAAGAGAATTTAAGTAAGTTGATCCCTTAGATCTTTTTCTTTCCTCACCCCCTTTGTGGCTTTGGTTTAGAAAGACAG
AAATAATTAAAATAGAAGATTAAAGACCAGTTAGAATCCAGTTAAGCACTTTACCCATTAAAACCCAGAGTGCCCCTGGCTATAGCTGACTCACTGGGGC
ACTGCAAGATTGTTTTCAATTTTCAAGCGAAACAATGCCATCTGTTGGGCTTCTTGCAAACTGCTACTGTCAGGATGTATAGCCCTAACTAAATACTCAA
TAAACAGAATGGTTAGGTTGGTTGTTTGGTTTTGGTTTTCGCTTATGGATGTAGCAGCAGAATTACTAAGACACTAAGGACACTTAGAGCCTTACAGTAA
AGGCTTTGTTTGAACATTGAGCAGTAATAGTACTCCCGTTCCAACACAGAGAAACTGACCCTTAGTAAACTGTTATTGGAGGGCAGAATAGCATTAACTC
TTTGTTTGCAATGCAGAGATACAGACTTTATTTATTTGTTTTTATTTATTTTTATTTTTTTTGAGATGGACTTTCGCTGTTGTTGCCCAGGCTGGAGTGC
AGTGGCGTGAATTGTGGCTCATTGCAACCTCCACTCCCATGTTCAAGCGATTCTCCAGCCTCAGCCTCCCGAGTAGCCGGGATTACAGGCATGCACCACC
ACGCCCGGCTAATTTTATGTTTTTAGTAGAGATGGGTTTTCTCCATGTTGGTCAGGCTGATCTCAAACTCCCGATCTCAGGTGATCCGACCTCAGGTGAT
CCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCTCAGACTTTAATTTTTTAAAGGGACATGTAATTTAGGCAGTG
TTTTCAAATTAAGGGTTGACTCCGAAATCACAGTGGAATGGCCTCCAGGATTTCCTAGACTAGACGTACAAGGTAGTAGTAGGACTGGGACTAGAGTATG
ACAAGTAAGGTTCTCATCTTAGATGCAAAATTTAAAGGAGTACAGAGAGGTTCAGTAATCATAATAAATGCATTTTAATGCATCATTTTAAAAGATCAAT
ATTAATGCAGAACAATCCATAATGAACAGAATATCTATTTTAAATAAAGACTGAATCCGATCCTGCACTTGCTTGACTCACCTCACTGTCCTCATCCTAA
CCCTGGCCCTGGGTATTACACATTAAACTTTTTGTTGTTGTTGTTGTTTTTGAGACGGAGTCTCTATTGCCCAGGCTGGAGTGCAGTGGTGCGATCTTGG
CTCACTGCAACCTCTGCTGCCCGGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCTGCCAGCGTGCCCGGCTAATTG
TTGTGTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCGTGACCTCGTGATCCACCCACTTCAGCCTACCAAAATGCCGGGA
TTACAAGCATAAGCCACTGTGCCTGGCCTAAACTTTTATAATCCTAATTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCCCCCAGGCTGGAG
TGCAGTGTTGTGATCTTGACCCCCTGCAACCTCTGCCTCCTGGATTCAAACGATTCTCGTGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGGGTGCACC
GCCACGCCTGGCTAATTTTTGTATTTTGAGTAAAGACAGGGTTTTGCCATGTTGGCCAGTCTGGTTCTCTAACTCCCAACCTCAGGTGATCCACCTCCCT
CGGCTTCCCAAAATGTTGGGATTACAGGCGGGAGCCACCATGCCCGGCCTGTAACCCTAATTATTAAATAATTTGCTGTGGAATGGATTCTAATATTCAA
TAATAGAAGTTGTAATTCTGAACCCTTGGAAATGGAGGAAGGCTAGAGGATATGATAAAGGAGTCCAAGGAGGTAGGTTACCAATGGAGTCAAAGTTCTG
ATTTCATRTTTGGTATAAAGCAATATCTCCTATTCTTAGGCCCATATCTTATTTGAATGTTTTTCTTAYAGCATGGCGGACACCGACCTGTTCATGGAAT
GTGAGGAGGAGGAGTTGGAGCCATGGCAGAAAATCAGTGATGTCATTGAGGACTCTGTAGTTGAAGATTATAATTCAGTGGATAAAACTACCACAGGTAA
CAAAAGCTCTTCTGATCTTAGATGGTTTAAATTAATTAAATTGAATGGTATTTTGGTTAACAAAGTGTGAGATGGAAAAGGACTTGAAGAATCCAGGGAG
ACCTCGTTGTGGCACTCACTGGTGCTGCCTTTTTTCCCATGCTCTAGTCTGTGAAAACCTCAGTTTCCTCATCCATATAGCTAGAAACTATATATTTAAT
TCATCGAAAACATTGGAAGGTTGGATTAACCAGTGTTTATCAAATATCTAGCAGTCTTCTTACTAAAAGATGTATGAACAAGAATTCAAAGTGGTGGTGT
GTGTGTGTCAGTGCTCATTTATGTACCCAGTCAAAAATAGGTTCCCATAGTCTTGTTTTTTTTGTTTTATTTTGTTTTACTTGAACTTGGTTTCCTTTGT
GAGTGGAGTAGAAATTGCCTTGTGTCTGCCTTCATGGACAGTTTACAAATTTAGGCTTGTTAGCTTTTCTTTCATAAAGGTGATACTGCTGGGTCAAATT
CTAGATTGCCCTGAATTCAGAAAATGGGTGGTAGTTCTTTTGCTCCCCTAAATTGTACCAGTTGCTCTATATTTTTATCTTTCCTGTCTTGAGACCTGAA
GATGGCATTGGTTTGGGCTGAAATAGGGCACAGTTCAGGGTCTTTTGGATGGCTTAATATGCATGATTATGAATACCACTAGTGGTAATAATAAACCTTT
GAGTCCTAGAGGTTTGCTAGTGCTATGTAAGCAAAGATTAAAATCCCAGTTCAGTGGGCTCCRTGATGTAACTTAATTAACCAGGAGATGTGAGACGAAG
AAGGGATTGTGTTTAAATGGTGGACTAAGGGTTAAGTRGGAGGAGAAATCACATGAACAGTTGGATTTATGAAACAGGAAACTTTTTGGCTATAGAGACC
CACAATAAGATGGAAAGGGAAGATTAGAGCAGTATCCTTYAGTGTCATCTGTCCCTGTCTCCAAGTGACTATGCCTCCCCTTCCCCACAGTTTCTGTGAG
CCAGCAGCCAGTCTCGGCTCCAGTGCCCATCGCTGCCCATGCTTCTGTTGCTGGGCACCTCTCTACATCCACCACCGTTAGTAGCAGCGGGGCACAGAAC
AGCGACAGTACAAAGAAGACTCTTGTCACACTAATTGCCAACAACAATGGTAAGTGGGATTATTGGGAAATAATAATCCTGGGCTAGAGGGGTGAAAGAA
TAAAAAAGGTCTCAGGGACAGCCCTACCTGTTTAGTTAGGTACAGATGTGGTTCTACTAGTTGGAAAATGAATTTAGTAATGATTCTCTGATACGGAAGT
GATTTCTGTAGATGGTGCTATTCCTTCTAAGTTAGTGCTGACTCGGTACTGGTGTTTCAAGTGAGAGAGCAGYAGATTCTTGCTATTGATAATTTCTTGG
AGAGAAAATGTCAACCCAAAATTCCTGTTAAGATTTTTTTGTTTGGTTGGTTGGTTGTTTTTGTTTCTTTAATGAGAAAAATTCCATTAGTTTGGTAAGA
ATTTTCCCAGGGCAGTTCTGTATTTTCTCTGGCAGATTCATTTGTTTATTGGTTCCTGAGTATGGAAGATAGGATAGGGTTGTTGTCTACATGAAAGAAA
TGGTGAAAGACTAGTGTTTTTAGTGTATTTTATTTTATTTTTTTTAATAGAAAGGCTATATAGTATTGGTTTCTATTTAATTTCTAATGTCTATTTCTAC
ACTCCTAAGATGAGTTGTTGACCAGTTATGTCTCAAGATTCATAACTGAAGTAGGCACTTTCATAGAGTCATTGCATCGCTGCGAGGGACTTTATTTTTT
AATTATTTTATTTCCTTTAAAACTAAAACAGCTTTAGTACTACAAAAATAATATATGCATTGTAGAAAAACTATAAAGTGAAAAAAAAAAGGAACAAAAA
AATGTTTAACCATAATCCCACCACCTGAAGATAACTGATGGTTACTTTTATTCTGTACATATATTTATTTTTTATTTTTATATACATCTATATGTTATAT
GTGGTGATTTTCATTTGACAAAAAAAGATTATACAAGTTGTACATTACTCTGCCTGCCTTTTCCCCTTAATAGTGAATATCTTATTTTAATAGTCATCTA
TAACATTTTTGATGACTGACTGTATTTCCCATTATTTGATTAACTTATTAACAATGGGTTGTAAGAGGGTATATTGCTATTTTTAAGAGCTTCAGTGAAC
ATTCCTATCTCTGTATCTTTTCTCGCATTGTTAATTAGTTCTGCAAATATATTTCTGAAACAAATTGTTGGCTCAAAGGTCATCACAGTTTTTAAGAATT
GTGATCAGTATTGTTCCTGGATTGGCCATCTAGAAATGTTGTGTCAGTTTATATTGCTGATAGAAGAGAGTATGGTTTTTAGTTTGGGAATATAACCATT
TATATATGCATTCCCCATTGTTGAACATTTATTAGGGTCCCCATCCTTTGTGATTACAAATGATGCTGTGGTGAATGTTTTCAGGCATGTGTCCTTGCCT
ACTGTGTAAAACGTATTTGCAATATAAAGTCTTAGAGGTGAGATTTGCTGGATCAGGTGTTTATAATTTGATAGACGTTGTCAAGTTGTCCTAATAGGTT
GCTCTAAATAAGTGCCCGCCAGTAGCTCTTTCCCCGCATTGTTGCCAACTTTAGGTATTATCAAACTTTAAAACCTCCATGATTTCCAAAGGTTTTCAGT
ATTTGGGTACTGAAAATATGATGATTTTATGGGGAATCTTTAGACTTCTAAAAAACTTATAAATGGGATCCCTTGTATGTATAAAGATGGGGAACCATTT
ATGTAAAGATTTCTATTATTTTACAGATGTGGAAACTGAGGCCTAGAGAGTCTAAATAATTTGCTTTTGTTATAAGTAATAATAGTTGCTAAGTGACTAA
ACTGTATTTGCATTTTCGGGACTTCAAAGCTTTCGGGATTTCCACTGTATTATATTGCTTTCCTGTGTATTTCTTTTTTTTTTAAGCCAGTCAAATTTAG
CAGTGGGGGAGTTGTATACCAACTTTAGTGACACTAATGTTTATAAGTTCTGATAACCCACTACCACAGGACTAGTCCTATGTGTCTCTCAAACTGTTAA
AGTTCTGTTAGCAACCAGCTTACCTAACCTTTTCTTTGATCCCAGGGTTCCAAGGCCCATACTGAGATGGCTGTGCATCTTCTTTTTTTTTTTTCTCCCT
GAGACGGGATCTCACTTTGTCACCCACGCTGGAGTGCAGTGGCGTGAACACAGCTCACTGCAGCCTCAACCTCTGTGGCTCAGCAATCCTGCCATCTCAG
CCCCGCAAGTAGCTAGGACTACAGGCACATGCCACCATGCCTGGCTAACTTTTATAATGTTTGTAGAGACAGGGTTTCACCATGTTGCCCAGGCTGGTCT
CAAACTCCCAAGCTCAAGCGATCCTCCCTCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTGAGCCACCATGCCAGGCCAGCTGAGCATCTTGT
GACATGCTGAGATGACCTAGTCTCCTTGACTCCTTGAATGTACCCTTGATTCTTGAGCCTGCCTATGGCCAGTGTACTAATTTTTTCTAAAAAATATAAA
TTGACTTTATTTACTTCAAAAGCCTCTAATATTTAAATTAAAATGTTAACCCATAACCCATGTTCATGAAAAAAAAGAAGACAGTGGGTATAGACTGGTA
AGTAACCACAGTCTTGTGTATTCCAAAAAAAAATTCATCCATAGATAAGCATAAATTAATTGCAGTTGTCTAATTTATTTTACTTTATATATCTATATAA
AAAATACATACAGTTCTGTAACTTTTTTCATCAGATACTCTTGTTTTTTCTTTTTTGTTTTTTTTTGAGATGGAGTCTCCCTCTGTCACTCAGGCTGGAG
TGCAGTGATGTGATCTTGGCCCACTGCAACCTCCACTTCCCGGGTTCAAGTAATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCACC
ACCATGCCTGGCTGTGTTTTTTGTGATTTTAGTAGAGATGGAGTTTCACAGTGTTGACCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATTTGCCCACC
TCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTACTGCGCCCAGCCTAGGAACTCTTGAAATGCTAGTCCAACTTTAAGGATATGGCTTCAGAATA
AAGTGAATGAGAAATACTGCCTCATACAACCCAGTTTCCCTTTAAGCCTTCAGTTTAATTGTATTGATATATTATCTGCTTACTACATTAGTAACATAGC
AAATGAGAATAACGTTTGTTTTTTTGAGACAGAGTCTTACTCCATCACCCAGGCTGGAGTGCAGTGGCGCAGTCTCGGCTCACTGCAACCTCTGTCTCCC
TGGTTCAAGCGATTCTCATGCCTCACCCACCCCAGTAGCTGGGATTACAGGCATGCGCTGCCATGCTCGGCTAATTTCTGTATTTTTAGTAGAGATGGGG
TTTCACCATGTTGGCCAGGCTGGTCTCAATTTCCTGACCTCAAGTGATCCACCCACCACGGCTTCTCAACGTTCTGGGATTACAGGCATGAGCCACTGCT
CCCCACCAGCAAATGAGAATAATTTTTAAACAATTCAGTATTGTTTCACTTAGTGTACTTTAAAAAGTTTAGAAATTTAAAATTAAAAAAAAATTTGTGG
TCTCAGAAGAGGGAAAGATTTCTTAAACCAAATACAAAAACAGAGCTAACCATAAAGGGTAAAATTGATAAATAGAACTACATTAAAGATGTGATTAAAA
AAAAACACACACGGAGAAGACAAACCACAAACTGGAAGGTGTTTGTGGCATGTATTACTTTTTTTTTTTTTTTGAGACGGAGTCTGCACTCCAGCCTGCT
TTGTTGCCCAGGCTGGAGTACAGTGGCGCAATCTCGGCTCACTGCAGCCTCTGCCTCCCAAGTTCAAATGATTCTCGTACCTCAGTCTCCCAAGTAGCTG
GGACTGCAGGTGCCTGCCACCACACCCGGCTAACTTTTGTATTTTTAGCAGAGACAGTGTGTCACCATGTTGGCTAGGCTGGTCTCAAACTCCTGACCTC
AAGTAATCTGCCTGTCTTGGCCTACCAAAGTGCTGAGATTACAGACATGAGCCGCCTCACCTGGCCCTCGAAAAGTTAAACATAGAGTTACCATATAACC
CAGCAGTTCTACTCCTAGCTGTATACCCAAGAGAATGGAAAACGTATGTTCACATAAAAACTTGTGCACTAATGTTCATAGCAGTATCATTTGTTATAGC
TAAAAGTAAAAACAACCTGTGTCCATAAATTGATGGATAAACAAAATGTAATATATGTACACAATGGAATATTATTTGCCCATAAAAAGGAATGAAATAC
TGATACATTCTATAACATAGATGAACCTTGAAAACATAATGCTGAGAAAGAAGCCAGACATACAAAATTAGCCAGGTGTGGTGGTGCATGCCTGCAATCC
CAGCTATTAGGGAGGCTGAGGCAGGAGAATCGTTTGCACTCGGGAGGCGGAGGTTGCTGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCAACAA
GAGGAAAACTCTGTCTCAAAAAAAAGAAAGAAAAAAGAAGCCAGACACAAAAGGTCACATATTATATGATTCCATCTATATGAAATGTCTTGAATAGGCA
AGTCCACAGAGAGAGAAATTAGATTCGTGGTTGCCAGGGGCTGGGAAGAGAAAAGAATGGGGAATAATTGCTAGGGGAAATGAGGTTTCTTTTGAGGGCG
ATGAATATGTTCTGGATCTAGGCCAGGCGCGGTGGCTCACGCCCGTAATCCTAGCACTTTGGGAAGCCAAGGCAGGCGGATCACCTGAGGTCAGGAGTTC
GAGACCAGCCTGGCTAACATAGTGAAACCCTGTTTCTACTAAAAATATAAAAAACTAGCCGGGCATRGTGGCATGTGCCTGTAATCCCAGCTACTCGGGA
GGCTGAAGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTACAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCA
TCTCAAAAAAAAAAAAAAAGAAAAGAAAATGTTCTGGAACTAAATAATGATGATGATGGTTGCACAGCCTTGGGAATATAAAAAAAAATCACTGAATTGT
GTATTTTAAATGGGCAGTATGTGGATTATATCTCAAAGCTGGGTTTGGTTTTTTGTGTGTGTTTTGTTTTTAAGAAAGTATCAAGGCCAGGTGTGTGGCT
TACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGAGCAGAACATTTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCATCTCT
ACTAAAAATACAAAAAAATTARGCGAGTGTGGTGRCATTTACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGAGAGGTG
GAGGTTGCAGTGAGCTGAGATCACGTTACTGCACTCCAACTTGGGCTACAGAGCAAGACTCCATCTCAAAAAAAAAAAAGGAAAGTATCAGGAATAAAAT
TTTGGAATATTTTTACTATTCTGTTTGATGTTCTTTAGAATTTACTACTCAGTATTTTAAAATTATTCCTGTAGTTCTGACTCATCTTATGTTTGCACAG
GAAAGAAACATTATGAGGTGAAATAAACTATTGCTTAATTCTGAGCTGTGAATGATGTGAATTTAATGTTATAAATTTCTTACAGTATAACTAATTATGG
TTTTCAGTTCCTATTGTATTTAGCCCTCTATTTCTGGGCTTTAAGGGTATGGAAGTAAACYTAAAAGAATGAAGGAAGGCTGGGCGCAGTGGCTCACGCC
TATAATCCTAGCACTTTGGGAGGCTTGAGGCGGGCAGATCGCCTGAGGTCAGAAGTTTGAGACTAGCATGGCCAAATAGTGAAACCCTGTCTCTGTTAAA
AACTACAAAAATTAGCTGGGCATGGTGGTGGGCATCTGTATTCCTAGCTACTTGGGAGGCTGAGCAGAAGAACCACTTGAACCTAGGAGGCAGAGGTTGC
AGTGAGCTGAGGTCATGCCATTCCAGCCTGGGTGACAGAGCAAAACTCCTTGTGAAAAAAAAAAAGAAAGAATGAAGGAAAAAAATCAAGAGAGAGCAAA
CTTAGAGGGAGAAAGTTAGTTGCATAATTCTTTGATTTATGTGCAAGGTGGGCAGATCACAAGGTCAGGAGATCAAGACCATCCTGGCCAACATGGTAAA
ACCCCGTCTCTACTAAAATACAAAAAAATGAGCTGGGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGGGAATCACTTGAAC
CCAGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCACCATTGCACTCCACCCTGGTGACAGAGCAAGACTCTGTCTCAAAAAATAATGTGCTTGATACCAT
GTGATGTCTGAAGTATAGAAGAAAACTCATGGAATTAATTGTCACTGAGGTGGATTGTTTTATTTCATTTGTTTCTTAGGTTTTCTTTGTTTTGTTCAAG
ATGGGGTCTCACTTTGTCACCCAGGCTGGAGTGCAGTAGTGGCACGAACACAGCTGGCTCACTGCACCCTCCACCTCCCAGGCTCAAACGATCCTCCCAC
CTCGGCCCCCCAAGTAGCTGGGACTACAGGCACACACCACCATGCCTAGCTATTTTTCATTTTTTATTTTTGAGACTGAGACTCACACTGTTGCCCAGAC
TGGAGTGCAGTGGCACAATCTTGGCTCACTGAAGACCCCACCTGGGTTCAAGCAATTGTCATGCCTCAGTCACTCAGGTAGCTGGGATTACAGGTATATG
CCACCATGCCCAGCTAACTTTTGTATTTTTAGTAGAGATGGGGGTTTCACCATGATGGCCAGGCTGGTCTCAAACTCTTGACCTCAAGTGATCTGCCTGC
CTCGGCCTCCCAAAGTGCTGACATTATAGGCGTAAGCCACCACGCCTGGCCTTGTTTTGTTTTTGAGATGGGGGTCTCACTGTGTTGTCCAGGCTGGACT
CGAACTCCTAGGCTCAAGTGATCCACCTGCTTCAGCCTCTCAAATAGCTGGGACTACGGGTGCATACCACTGCCCTAGKTTGGATAATCCTTTTAAAGGC
TTTTTTTTTAAAGCACCAGAATTGTGATTGCCTGTTTCATCCTCTGGAAATAGAACCTTGTAAGACACTTGAATTGTCAGAATTCCTTTGAGCAAAGATT
GCAGAAATCATTAAAATGCTTCTAAATAAGTAAGTATAATTTACCTAGTATGACTTTCCATAGTCTGGCTTTTGCTTTCCATTGCATTGTGAATCTAATC
TGGTCTTAGAAAACCACTTTTTGATTGTACCATATTTTTGGGAAAATTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAATTTCGCTTATTGCTCAGACT
GGAGTGCAGTGGCGCGATCTCGGCTCAATGCAACCTCTGCCTCCTGGGTTCAAGCAATACTCTTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATG
CGCCACTACGCCTGGCTAGTTTTGTTATTTTTAGTAGAGACGGGATTTCTCCGTGTTGGTCAGGCTGGTCTCAAACTCCTGACTTCAGGTGATCCACCCA
CCTCAGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCACCTTGCCCAGCCTTTTTGGAAAAATTCTAACAATCCACCAAAATTTAAACTTGACCCTGA
TATAAGAGAAAATATTTGCAGAAAATGCTGTTAAAATTCTTTATAATGGTATTTACGGGTTTCATGGAAACCTGGTCTGTCTTTAAGAGACTTGCTAATG
CTGACTGATTTCCCATAAATGCAAAAAGCCTCCATCTTTCCCTTCTTGTATTTAATTGGGATGTTGAGCTAGTAATTATCTTAAGAATTTTTAGAATTAG
GATAAATAAGAGATAATTTATTTTCTTTTGTCCTAGCAGTTAAAATAATGACTAAAAAATATAGACTTTTGCTTAGTCAATATTTTTCAACCATAAATTT
CAAAAGGATAGAAAGAGATGGTTGGGGAACCTATAGATTAAAAGAGTTAGTTCATCAGTTGCACTTTGCAAACATTTTGTAACTGGATTCAGACAAATTA
CTTAAAAAATACAAGTAAATTTGAATTTTGACTGGGTATTTGATATTGAATAATTATTATAATGTTCAGGAGTTATGTTGGTATGATTCTTTTATCTTTT
TTTGAAGTTCTTATGTAGAAGGTATATTTTGAAATACTTATAGATGATATGATCTAGAACTTGCTTTAAAGTGATATGGGAACTAGTAAGTATGTAGAAG
GTATAGATGAAATAAGACTTGCCATACATTGATAATTATTGAAGCAGGGTGGTGGTTGCATAGGGGTTCACTATAGCGTTCCCTTTTTATGTATGTTTTA
ACTTCTCCATAATAAAACATTTAAAAATTTAAAAAACCCACCATAGATAAATTGCCAGTATAGTTTAACATGGATAGAACTTGCTGGAATTTTCTGTTTT
ATTTATCTATCTGCCTCTACAATCACTGGTCTTCTGGCTCAGTAACTGAGGGTCTAGTCTACTGATGAGCTCTCAGTTTCTGAGAGAGTATAAGATAAGC
CACTGTTGGCCCATTAGTAGCCACCTACATACCTATTCCTTTGGTGGTCTAGCTTTGTAGTTAACTGTGGTGATATAACCTGCCAAGTGGAACATACATT
TCAGAGGGGCCCATCCCATTCTGGTGATTTTGGGTAAAAAGTTGAGGCCATATTTTGCTTGACTCTTTGGTTTTTTGTTTCTTGTTGTTGTTGCTGTTGT
TGTTGTTTTGAGACAGAGCCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATGTTGGCTCACTGCAACCTCCGCCTCCCTGGTTCAAGCAATTCT
CCTGCCTCAGCTTCCCAAGTAGCTGGAATTACAGGGATGCGCCACCATGCCTGGCTAATTGTTGTATTTTTAGTGGAGACAGCGTTTTGCTGTGTTGGCC
AGGCTGGTCTTGAGCTCCTGGCCTCAAGTGATGTGCCTGCCTTGGCCTCCCAAAGTACTGGGATTAGAGGTGTGAGCCACCATGCCTGGCCTGCTTGACT
CTTTGGCTTAGGTATATTGGCTCTCTGAAATTTTCTATCTGGTTTTGAGTATACTTTGTAAATCAGGAAACTTAGTATTGGTTTTTTCACCAAATGTCAT
GAAATAGGGGACTTAAAAATATTTATAAAATTTTTCACAAATGAAAAGAATTTAAGATATTTCAATAATAGCCCAGTTTATTAATATTTATTCATGAATG
AATCATTATCTTCTGAAATCATGTCATTTTTACTTGGTGTGGGTTAGTTTTTGTCCAGGTCTTCTGATTATCACCCCTGATGACATAAAGAGAGGGCTAC
GGTAGGTAGCCTGTCAGTCTCTGGGTTCCCAGTGGTTGCTTAAAGAATCTTGCATTTCTCAGATTTAACTCACTAGGAAGAGAAACCATTCCTTAGATTC
TGTGTRCTTGCTGAATTAATGTTTGTTGATGAATATTMTTTTTAAAAAATTAAGGGGGATTAGCTAACAAATTATCTTCTAATAAAATAGGTTTTACCTA
GTTAAAATATGGAAAAAGACTTAACATATTTTGTTCTGCTGATTTGGTGGGGGAGATTATGTGTGGTCACTTAAATCATGAGAGTCAGGGTGCTAGCCAC
ATAGAATTCTAATGTGTCTTTCATCCCCAGTGAAGACATATGGGTGAAGTGTTAGTGAACCTCCCCTACCCATCTGTTTTTCTGTTAGTTGTAGATTTGG
GTGAAACTTAAATTTTTGGTGAGTTTGGTCACATTAAACCTGAGATGAGTGGCAGTCTTGGATATTTTGGCATATAGGACACCATTTCTGTTTCTAATAA
AATGTGGATTTGTACTTGGGAGGCTGAGGTGGAAGAATCACCTGAGCCCAGGAACTTGAGGCTGCAGTGAGCCGTGACTGTGCCACTGTGCTCCAGCCTG
GGTGACAGAGTGTGAGACCCTGTATCAAATAAAATAAAATAAAATAAAATAAAATAAAGTAAAATGTGGGTTTAACATTGTTTCTAACATTCCTTTTTTT
TTTTCTTCCTTTACCCTTTAGCTGGCAATCCTTTGGTCCAGCAAGGTGGACAGCCACTCATCCTGACCCAGAATCCAGCCCCAGGTCTGGGCACAATGGT
TACTCAACCAGTATTGAGGCCTGTTCAGGTCATGCAGAATGCCAATCATGTGACTAGTTCCCCTGTGGCCTCACAACCAATATTTATCACTACGCAGGTG
AGTAGGAYTCTGAATTCCAAGGTTGCTAGAGGAGAGAAAGACTATAAACCTCTGAAAACTCTGACTTAGGGTCTTTGGCGTCATTAGAAGTGGTTCTAAG
TCTTGTCTTTTGACCTGGCTTTCTCTTTTACTGTTCTGTAATTTGATGCCAACTGTGGAAAGCCCAGCATAGTATGGCTGGGTAATATCTTCTTTAAACC
CCTTAGAAGTTTATTAAGTGATTTGATTAAAGTCTAGGCAGAAATAGTGGGAAAACTTGAATTAGGAAGCCTTAACGCTTGGCTCTTGAGGCTTTTCACC
CTTTGCGTGGACTGCTCCTCTTCACATGGGATGAATTAGTTAACTTTTGGAGATGTATGTATGTAATTGGTGGAGTTCATGGAGACCTTTGGGAGACAAG
GAAGATGACTTATTTGATATATAATGTGTTGAATTGAAGTTGAAAGCCTAATTCTGAATATGGATTCTAAAGGCAAATGCTTCTCTTTGCCTGTGGCTTC
CTGAGTTGTAAATTCTTATGAATTTGCCAAAGGTTTATGGCCTTTGAAGTAGACTTTGGGAACAATTTTTTAGGATTGTTTGTATGTTGAATCACTCCAG
TGAACATTGCTCTTCCCCCTGCCCCCCACCCCCACTTCTGTTCATTTAGCACTTTAGGGAGCCAGTCTGTTGATGAGGTTTTTTTAAGCCGATGCTCTCT
TAAGTCAGGAAATAGGTTTTCATTTTTGCTCATGTGTACCAAAGCTTGTTCTCTAATTTTGATATTTTGTCTCTCAAAAGTTTGCCAGAATTTCCTAAAT
TTTTCCCTCTCAGTCATTTGAAACCTCTAATTCTAGAGAAAGAACCATTAAGTAAGAGTATGGGAATTTTTTTTTGGATGTAGGTCATACTGCAATCTTT
GTCAGTGTTAATTGGTCTCCATGTTAAAGATCATTTTGCTTTTTAATACAGGGATTTCCTGTAAGGAATGTCCGGCCTGTACAAAATGCAATGAATCAGG
TTGGGATTGTGCTGAACGTACAGCAAGGCCAAACGGTTAGACCAATTACACTAGTTCCAGGTAAGGAAAAATGTCTATCCATTTGGAATAAACYGGCATC
CAGAAGATTTGTTTTTATTGTTCTAAATATCCTAAGTCATTTAGTAAGTACATTTAAAGAAAATCTAAAAATATAAAAATATTAATGATTTAAGCCCAAT
TTTAAAAAATCTGCTTCTAACCTTTGGCCAGGGTGGTGGTTTTATTTATTTCTGTTTAGCTTTTCACCACCCTTCATCAAGTAGTAAAACAGAGTTTACA
GTCATTTTTCTGTAACTGGTATTTAGTCAGCTATTAAGACTATGTTATTAATGCAAACTCATAAATTCTACACTCCTTACACATCTCCTCATTTGCACGG
TGGGATTATAAACTTTGTTTTAATTTTATAGCATAGATTTTAGATATAAACAAATGACATTCCTTTTATGGATAAATACTGTCAATGACTAGATAGTTTT
TTTTTTTAAGATTCTGCTAGATAGTTTTTTTTTTTTTTAAGATTCTGAGAAGGATAATTTTTTTAAAATCTTAGAATTTTCCATTGCTCTATTTAGCATG
TATAAGTTTACTACAATTCAGACCAAAAAAGAGTATCTTAATTTAGCTATTTGTAAGGGTACCTCTGTAGCTTGTCTTCCTAAGGTTTTGTTTTTTGTTC
TCGTAGCCCATAGGGGTTTAAGTCTGACCAGCTTACCCTGGCATTTCTTTATTTTTCTCAGTGGAATTGTCTACAGTTGAGCCAGGAGACATTCCTCTTT
GGGACATCCTAGTAGAATGGCATAGTCTGTCTTCTGAGTTGATAGAAGAGGATGGAAGACTCCTTTAGTACTCTGAGAAAGACTGATTTCTTTTTTCAGG
ACCAGGTTTGCCATTTGGCCTATATACACCCATATTGCTTCCCACTCTTTTCTTCCAGTACCGAGGTCAAGCCACTGATTGTATTCTTAGAATTAAAAAG
GCAGTGTGATAAGGTGTTTTAGGAGGAGTTGATGGGAGTCTTATTTAACTTAATGTTTTTAGGCTGCCCAGGTTATTTTGTCAACATGGACACCTTGTGC
TTTCTTAGTCTTTAGAATCTATACTCCTCTTGGAAACCTCTGATGATCATCCATCAGTTTGGGGAAATAATCTTTCCAGTAAAGGCAGGGAGAATGKGTT
ATAGGTGAGCTCACTGACCAAGATCTGGTACTTTGTCTCTCTTTTAAAGCCCCAGGTACCCAGTTTGTTAAGCCGACAGTTGGAGTTCCACAAGTGTTCT
CCCAGATGACCCCTGTGAGGCCAGGCTCCACAATGCCTGTGAGGCCCACCACCAACACCTTCACCACCGTCATCCCGGCCACTCTTACCATTCGAAGCAC
CGTCCCACAGTCCCAGTCCCAGCAGACCAAGTCCACTCCCAGCACTTCTACCACTCCCACTGCCACACAGCCAACCTCACTGGGGCAACTAGCTGTTCAG
TCTCCAGGCCAGTCAAACCAGACCACGAATCCCAAGCTAGGTAAGGCTTCGGAAGAGGAGATGGCAGAGCCAGGTTGGGATGGTGGGTGGAGAACAGATG
ATTATCACTTGGTCACCGTAGCTCCCTCCTTCCCCTCTCCACCTGCAGTGAGCATTGCCAGCTTTGTCACTGTGAAGCGACCTGGTGTTACAGGCGAAAA
TAGCAATGAAGTGGCCAAATTGGTGAATACCCTTAACACCATCCCTTCCCTGGGCCAGAGTCCTGGGCCAGTGGTGGTGTCCAACAACAGCTCTGCTCAT
GGCTCTCAAAGAACCAGCGGACCTGAGTCTTCAATGAAAGGTACAATAACCTGAAAGACTCTGAGCAGCCAGTCATTCAAAAACATTAATAAAGTGTTTG
TTGTATCAGAGCTTTATACTCAGAAATAGAAAAATAAAATAAAATMCAGCTGCTGTAGTTTGTTCTTACAGAAACTTTAGTAAGGAGAAAGCCACTTACA
AAAAGTGTAACTGAATCAGCTCCAAGAAATTATGTGTGTAATTGTGCTTTGGAGATTAGTGAAATTGATTGATTAAAGATGGGTGAGATAATGAAAGATA
ACTTCATGGAAGAGATGGATTTCTGAGCAAGGTTTTAAAGTTAGGATTTGGTAGAGAGATCTTCAGGTTGAGAATGATGAGCATGAGGGTTTTCAGTGGT
CTAGAGCAGGGGTCGGCAAATGTTTTCTGTAAAGGGCCTAGTAGTAAAGTTGTAGGCTTTGTGCACAATATATAGCCTCTGTTGCAGCTATTAACTGTGC
TGTTGTGGTGGGGAAGCAGCCACAGATACATAAACGAATGAGCATGGCTGTGCTCCACTAAAAACTATTTATGGACTCTGAAATTTAAGTTTCATAAAAT
TTTCATGTGTCGAAAAGTTTTATTCTTTTATTTCAACCATTTAAAAATAAAAACCGCAAGGTATAGTGGCTCACACCTCATCCCAGCATTATGGGAGGCC
AAGACGGGAGGATCACTTGAGCCTAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAGATCCCATCTCTACAAAAAAAAAAAAAAAAAAGATTAGCCAGG
CGTGGTGGTGTATGTCTGCAGTCCTCGCTACTCAGAAGTCTGAGGTGAGAGGATGGCTTGGGCTTGAACCCAGAAGGTTGAGCCTGCAGTGAGCCATGAG
CATGCCACTGCAACAGAACGACACCCTGTCTCAAAAAAAGTAAAAACCTTTAAAACATGGTGTTGGGAAAACTAGATATCCATGTCCAAAAGAAGTTGGA
TCTTACCTTACAATAAATACAAAAATTAACTCAAAATGGATCAAAGACCTAAATGAACTAAAACTATAAGACTCTTAGAAAAATTATAGGACAAAAAGCT
TCATGATACTGGATTTGACAGTGATTACTATTTCTTGGATATGACACCAAAAGCATACGCAAGAAAAGAAAAAATGAGTAAATTAAATTATATCAAAATT
TAAAACTTTTGTGCAGGACGTTGTCAACACAGTGAAAAGGGAAGCCACAGAATGGGAGAAAATATTTGCAAATTATGTATCTAATAAGGGGTTAATATCC
AGAATATATAAAGAATTTGTGCAGTTCAACAACAAAAAAACTCCCAAACAACCTTTTTAAAAAATAGACAAAGGACTCGCTGGKCGTGGTGGTTCATGCC
TGTAATCCCAGCACTTTGAGAGGCCAAGGCAGGTGGATCACGAGGTCAGGAGTCCAAGACCAGCCTGACCAATAATGGTGAAACCCCGTCTATACTAAAA
ATACAAAAATTAGCCAGGCGTGGTGGTGTGTGCCTGTATTCCCAGCTGCTCGGGAGGCTGAGACACAAGAATTGCTTGAACCTGGAAGGCAGAGGTTGTG
GTGAGTCGAGATCGTGCCACTGCACTCCAGTCTGGGCAACAGAGAAAGACCCCATCTCAAAAAAAAAAAAAAAAGTAGGAAAGTAGGCAAAGGACTGAAT
AGACCTTTCTCCAAAGAAAGTTATTGCCAATAAGCTCATGAAAAGGTGCTCAGTGTTATTAATCATTATGGAAATGCAAATCAAAACCACAATGAGGTAC
CGTCTCACTCCCATTAGGATGGCTACTATCAAAGAACCATAAAATAACAAATATTGTTGAGGATGTGGAGAAAGCAGAACCCTTACGCACTGTTGGTGGA
AATGTAAAATTATGCAGCCACTTTGGAAACAGTATGGTGGTTCCTCAAAAAGTTAAAAATGATAGAATTGTTGTATGCTCCAGGAATTCCATTCTATACC
CAAAAGAATTGAAAGCAGGGACTAGAACAGGTATTTGTACACCTATGTTCATTGCAACATTATTCACAATAGCTGAAAGGTGAAAGCAACACAGAGGTCC
ATCAACTGATAAAGGGATAAATAAAATGTGGTATTCACATACAATGGTATATTGTTCAGGCTTAAGAAAGGAAATTCTGCTACAACATGTGCTGCAACAT
GGTTGAACCTTGAGGACATTATGTTAAAGTGAAATAGGCTAGTCACAAAAGGACAAGTACCATATGATTCCACTTACTTGAGGTACCTAGAGTAGTCAAA
TTCATAGAGACAAAGTTGAATTGTGGTTGCCGGGGTGGAGGCGAGGGGAGAATGGTGAGGAGGTTTTTATTGGATATAGCTTCAGTTCTGCAAGATTAAA
AAAAACAAAAACCTTAACAAAAAAATCACATACAAATTATTCTTAGCTTATGGGCCAAACAGAAACTGGTAGCTGGGCTGGATTTGATCTGTGTGCTRTG
GTTTGCTGACCCCTGGCCTAGAGTTAGAACAGTAAAAGGAAGCCTCAAACATAGTGATCTTGAGCCCAGGGAGGTCAAGGCTGCAGTGAGCTGTGGTCGT
GCCACTGCACTCCAGCCTGGGCAACAGACTGAGAGACCGTGTCTCAAAAAAAACAAAAACAAACAAAAACCATAGTGATCTCTCATGCTTGCTTACCCTT
TTATATACTTCTCAGGGAGTGTTTGACTTTTTCCCAAAAGGTCAGTAATCTTTTTCCAGTGTCATTGTATTAATCTTATCAATTCTTCTCACTTCTTTCA
GTGACCTCTTCCATCCCAGTATTTGACCTCCAGGATGGTGGACGGAAAATATGTCCACGATGTAATGCTCAATTTCGTGTTACTGAAGCTTTGAGAGGTC
ACATGTGTGTAAGTGATATCACCTGTGATCCAGCTTAAGTGGCTTCTGCCATTTACCTTCATTAATATTGGAAGCTTGTAAGCAGGGGCTCTAAAATGAC
TGAAGCTTTTTAAAGGGTTACTGTTTCTCTTGGTCTGTTTTTAGAAGAGCTGTGTACTTTGGAATGTGATGGGATACATTTAAAGACCCTCAAATAGATC
AGAACATATGTGATCTTACTTTCTTAGTGTGGTAGATTTTGAAACCACACAGGAGAACAGGTTTATAGATAATAAGGACTCAAACCATATTGGCCTCAGT
TCATTTTTGTTAATTGTGTCATTGGATGAATCGGGAGCTCTTACTTCCATTTTTTAGCTTTTCATTTTTTGGTATTAGTCCAGATAAAAAGGTTGGAACT
TCTTCTTTGCCAGGGAGCTCAGAGCCAAGTTATACTAATGATTAAGGGACCTAAGACAGGCAGGAGGGAGAAATACAAAGTATAGCGCTTGGGTGGCATA
TGTGGATATACTCTAGAAAAGGAGTAAAACTTGGAAACGCTAAAAAAAACTGAAGGGTGAAAGCTGAATGAGAATACCTGAAACCAAACCGTTAACAAGG
AATGGTAGTGAAGTTAAGGAGTTAGCACATTCTAGCCCCCAGGATAACCAGAATGATCAGATGTCTTTCTTTATAGTACTGTTGCCCAGAAATGGTTGAA
TACCAGAAGAAAGGAAAGTCCCTGGATTCAGAACCCAGTGTCCCATCAGCAGCAAAGCCCCCATCCCCTGAGAAAACAGCTCCTGTTGCTTCCACACCCT
CTTCTACACCTATTCCTGCTCTGTCACCGCCTACCAAAGTACCAGAACCAAATGAGAACGTGGGCGATGCCGTCCAGACCAAACTCATTATGCTTGTAGA
TGACTTCTACTATGGACGGGATGGTGGCAAAGTAGCCCAGCTCACAAATTTCCCTAAGGTCGCCACATCTTTCCGATGCCCACATTGTACCAAAAGGCTA
AAAAACAATATTCGGTAAGTGTTTAAGAGCCTTGGAAGTTACCTTGAACAAGAGAAGACTTACATTTTCTTATATATTTTAAGTCTTTCTCTTTGGAGAA
TGGACCTAACTACTATGCAGTCTTGCTGGGGTTATCATTAAATCAATAACTAGGACTATAGAAGGAGATATTGTGGTAATAAACAAAAGGTAACTGGATC
GAGTAAGGGAAAGCAGTATGTCTCCTTTCCCAGAACTCTCTTAGTTTCAAGAACTCATTATCTTTCTGGGCTCAGAAAAGGATATCCCAAACAGGAAGTC
TGGGGAATGGAGGGGAGCAGATAATGTTTGTTCTGTGATTTTACCATTATATTTCTAAAAGGCTACCAATTTTTTATGTTTTCTGTACTTTCTCTTTGTG
CKTTATTACAGATTCATGAACCATATGAAACACCACGTAGAACTCGATCAGCAGAACGGTGAGGTAGATGGTCACACTATCTGCCAGCACTGTTACCGCC
AGTTTTCCACTCCCTTCCAGCTTCAGTGCCACTTGGAAAATGTTCATAGTCCCTATGAATCTACTAGTAAGTTTGGAAACTCTTAAACTCAAGGGGAATA
TACCTTGCTGTTCACTCATTGAATGGCGCTGGGGGGAGCCCATTATATTTATTTACRTGTGGGTAACAGTGTAGAGGAAGTACTTTTCATATTTGTAGCC
AGTTCTTTACTTCATTCACCTTGTTTTTTTTTACAAGCCTGACTTTTATTTTGTTCAAGCATGGATTGAGTTCAGTGTTAGATCCTGAATTGTTAGGGGC
GTTGATTCAGAACCACTGTAGAAAAACAAATGTAATTAATTTATTTCTTAGGTCTCTTTATAGAAGGAACAGTCATCTATTTGCTCTTCCACTTTAGTTA
AACCCTGATAGGTTTTATGTAGGCTAAAAGATAATATTGTGAAGTACTTTATCATTAAGACATTGCTTTCAATGAAATATAAGATGAGCTGGAGTGTTTT
CTACACTGTATATTTTATACATGTAGGCTGGACATAAGCTCAAAGAAATTAAGTAGGATAAAAGATAATATGGCCGGGCACGGTGGCTCACGCCTGTAAT
CCCAACACTTTGGGAGGCCGAAGCAGGCAGATCACCTGAAGTCAGGAATTCGAGACCAGCCCGGCCAACATGGCGAAGCCCCATCTCTACTAAAAATGCA
AAAATTAGCTGGGTGTGGTGGYGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAG
CTGAGATCATGCCATTGCACTCCAGTCTGGGCAACAAGAGCAAAACTCCATCTCCAAAAAAAAAAAGATAATATTATGAAGTACTTTATCATTAAGACAG
TGCTTTCAGTGAAATATAAGGTAAGCTGGAATGTTTTTCTACACTGTACATTTTATAGATAGATGTAGGCTGAACATAAGCTCAAAGAAATTGAGTCATT
TGCTTATGAGCGTACACCTCTAAATACACCTCTACTGGGGATACATAGTGAGGATTTAAGCCCAGTATTGAGAATACTTCTCATGTCCTTTACGGGATTT
CCAGTTTTGTTGTAAAGACAAAAATTATGTAAATATAGGAAAATGTGAGAACAAGATAGTATATTATAAACATAGACATTTTAAGATATCATTGATAGGT
GAAATACTTCAGAGAAGGGAAAAAATCCTTGTGGCTAGGTTTCCAAGAAAGTCGTGCTTAAATTTAAGAAAGGTTTAGATGGATGGAGAGTAGTAAGAAA
AGCTTTTAGGTGATTGAAAACAGCATGATCAAAAGCATAGAAGACATATGCATATTATCTGGATGCATTTGCTACAAGTAAAAATCCTTAACTAAAAATG
AATTAAACAATAAGGACTGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTTAGGTGGGTGGATCAGTTGAGGCCAGGGGAGACCAGTC
TGGCCAACATGGCAAAACCACATCTCTACTAAAAATACAAAAATTCGCTGGCTGTGGTGGTGTGCGCAGGTAATCCCAACTACTCAGGAAGCCAAGGCAT
GAGAATCACTTGATCCCAGGAGGTAGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGATGACAGAGCGAGTCTCTGTCTCAAAACAAA
AGAAAACAATAAGAATATCTGTTATATCATTTAACTGAGAGATACAGAAATGGATGCTTCAGCCTAGAATTTGACTGCCCTGCTGGTTTTCAACAATTCT
CTTGTCTCTGGCTCATAGCAGGGTGGCTGTATAAGTGTCAGGCACTATGTCCAGATAAAAAATTGTTAGACAAAGAAGAGATCTTATCTTCCCATCTTTC
TTTCTTGAATCTGTTTTCTTATGAGTGAGAATTGCTTTCCTTTTATATCTCTTTGACCATTTATTGGCAAGGGAAGTGGGATTGACATTAATGGCTTACA
GTAACACTAGGCAGTAGAAATACGCAAGCTTCATGAGTAATTTTAATTTTTTTCACTTTAAATACAGTAGCGCTCCCTTATCCTCAATTTTTCTTTCTTG
AATCTGTTTTCTTATGAGTGAGAATTGCTTTCCTTTTATATCTCTGACCATTTATTGGCAAGGGAAGTGGGATTGACATTAATGGCTTACAGTAACACTA
GGCAGTAGAAATATGCAAGCTTCATGAGTAATTTTAATTTTTTTCACTTTAAATACAGTAGCGCTCCCTTATCCTCAATTTTAGTCTCAATCACAGTCCA
AAACTAGGTGAGTGCAGTACAATAAGATTATTGAGAGAGACACCACATTCACATAACTTTTATTACAGTATATTGTTATAATTATCCTTTTATATATTAT
ATATTTTTAATTGTTAATCTCTTTGCCTAATTTATAAATTAAACTTTATCATAGGTATATATATATATATATATATATGAAAAAACACGGTATGTATAGG
GTTCAATACTATCTSAGGTTTCATGTATGCACTGGGGGTCTTGGAACGTATATTTCCCATTGGCAAAGGGCGTCTACTGTAAAGTTTAAAAAAACAGGCA
AAATTAATTTTAACAGCATATTTTATTCAGTATATTAAAAATATTTCAACATGAACTCAAAATTTAAAATTAATGAGATATTCGTCATTCTTTTTTCCTC
CATTAAAAAACAGATCTTTTGAAATACAAATCTAAATTGGGTTTGAGCTTACCACATTTTAAGTGTTCACTAGATACATGTTGCTGGTGCCACCATATTA
GACAGTGAAACTTTGGACTAATCATTTGGGAGTAGAATGTATATTAGAATCAACCGGGCCAGGTGCAGTGGTTCACACCTGTAATCTCAGCACTTTGAGA
GGCCGAGGCAGGCAGATTGAGCTTAGGAGTTCAAGACCAGCCTGGGCAGCATGGAGAAACCCCGTCTCTACAAAAAAAATACAAAAATTGGGTGTGGTGG
CGCACGCCTATAGTCGTAGCTACTCAGGAGGTAGAGGTGGGAGGATTGCTTGAACCCAGTAGGTCAAGGCTAGAGTGAACCATGATCACGCCACTGCACT
CCAGCTTGGATAACAGAGCAAGACTCTGTCTCAAAAAACAAAGAATCAATGGTAACACTGCAGTGTAGTGCCAGGGTAGCCAGCTTGGTCTAGAATAGGA
CTCACGATTCTTCACTGTCAGTAATGTGAAGCCAGAGTAACTCATCCATACCTCTTAGTGAAAACACCAGTTTTTTGAGACAACAGGGTCTTGCTCTGCC
ACCCAGGCTGGGGTGCAGTGACGCAATCTTAGCTCACTGCAGCCTCGAACCCCTGGGCTCAAGCAGTCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACT
GTAGGCATATGCCACCACACCCAGCTAATTTATTCCTTTTCTTGGGGGTAGAGACAGGGTCTTGCTGTGTTGCCCAGTCTGGGCACCTAACTCATTTTTA
CGCGTAATATGGGGGGTGGGTTTTGTTATTCCGAAGTTCCACAAATAATAAAATTACACAGAGGGAAGATAAGTTTTTCCTTATGGAAAAGAAACAATGT
AGACCCTCATTGATCTTTTTTCTCTTGGTTTCCCTGACTTAATTTTTGAGTCTCTTATGACAAGATTTTATGCTTACCAAAATCACCTTTCCTTAGCATA
TATCAATTTTATTCTTGCAGTCTTTCGTAATTTCCTTTTTTGCACCCTTGACAGATCTGGCATGAAAGTAGTTTTTTTTTTTTTTTTTTTTTTTTTTTGA
GACAGGGTCTCACTCTGTTAGCCAAGCTGGAGTGCAGTGGCACAATCTTGGCTTACTGCAATCTCCACTTCCCAGGCTAAGATGATCCTCCCAACTCAGC
CTCCTGAATAGCTGGTACTACAGACACATGCCACTATGCCCAGCTAATTTTGGGGGGTTTTTTGTTTTGGGGGGTGTTTTTTGTAGAGATAGGGTTTTGC
CATGCTGCCCAGGCTGGTCTCAAATTATTGAGCTCGAGCAATCCACCCACCTCAGCCTCAAAGTGCTGTGATTACTGGTGTGAGCCACCGTGCTCAGCTT
TTTTTTTGGGAGACAATCGCTCTGTCACCTAGGCTGGAGTGCAGTGGCGCAGTCTTGGCTCTCTGCAACCTCTACCTCCTAGGTTCAAGCAATTATTGTG
CCTCAGTCTCCCAAGTTCCTGGGATTACATGCATGTGCCACCATGCCCAGTTAATTTTTTTGTTTGTTTATTTTTAGTAGAGATGGGGTTTCGCCGTGTC
GTTCAGGCTGGTCTCAAACTCCTGGCCTTAAATGATATACCTGCATCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCAGCATGCCCGGTCGAAAG
TAACTTTTTTTCTTTTTTTCTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGCTTCATTCTTTCACCCATGCTGGAGTACGGTGGCACAATCTCAGCTCAC
TACAACCTCCACCTTCTGGTTTCAAGCGATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGATTACAGGCGCCCACCACCATGCCCGGCTAATTTTTTGTA
TTTTTAGTAGAGACGGGGTTTCAGCATGTTAGCCAGGCTGGTCTCAAACTCCTGACCTCGTGATCCACCCACCTTAGCTTCCCAAAGTGCTAGGATTACA
GGCATGAGCCACCGTGCCCAGCCCAAAAGTAGCTTTTTCAAAAAAAAGAATTGATGCATAATAGGTGTACATGGTTTAGGGATGCATGTGATAATCTAAT
ATACATTTATATAATCTGTAAATATTAAATCAGTGTACTTGGAATATTCATCACTCTATGTGTTTATGCTAGAAACATTCAAATTATTCTCTTCTAGCTA
TTTTAAAATTTACAACAGGTTATTGTAAACTATAGTCACCCTACTGATCTACTAGGTCTTATTTCTTCTTTCAAACCATATATTTGTACCTGTTGATCAG
CTTCTCTTCAACTCTCTACTCCCCTACTCTTCCCAGCCTCTGGTAACCACCATTCTACTCTCTCTYCATGAGATCTACTTTTTTTTTTAGCTCCCACATA
TGAGTGGGAACATGTGATATTTGTCTTTTTGTGCTTGGCTTACTTCACTTAGGGACTTCCAGTTCTAACCATGTGCTGCATGACAGAATTTCATTCTTTT
TTGTGGCTATAATATTCCACTGGGTATATATACCACATCTTTTTTTTTTTTGAGAAGGAGTCTTGCTATGTCGCTCAGGCTGAGGTGCGGTAGTGCAATC
TTGGCTCACCACAACCTCCACCTCCTGGGTTAAAGTGATTCTCCTGCCTTAGCCTCCTGAGTAGCTGGGATTACAGGCACACGCCACCACGCCCGGCTAA
TTTTTTTGTATTTTTTAGTGGAGACGGGGTTTTACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCATGAGCCACTGTGCCCAGCCACCACATCTT
CTTTATTCATTCATCTGTTGGTGGGCACTTAGGTTGATTCTATATTTTGCCTATTGTGAACTGTGCAGCAATAAACATGGGAGTGCAGATACCTTTTCAA
AAAGTAGCTTATTTTTACATGCTAATATTTTGGGGGATTTTTTTCCTTTTATTTTCTGAATTGTTTGTTAATTGTAGACATCATGATATTTTTCTCCTAA
ATATTTTAATATGTAGCTCTAAAAAATAAGGCCTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGCCACAGTACCTTTGTTAAGAT
CTAATAGGCCGGCGCAGTGGCTCACGCCTGTACTCCCAGCACTTTGGGAGGCTGAGGCGGACGGATCACCTAAGGTCAGAAGTTCAAGACCAGCCTGGCC
AACGTGGTGAAACCCTGTCTGTACTAAAAATACAAAAAATTAGTTGGGCATGGTGGTGCACACTTGTAATCCCAGCTGCTTGGGAAGCTGAGGCAGGAGA
ATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTAAGCTGAGATCACACCATTGCACTACAGCTTGGGCAGCAAGAGTGAAACGCTGTCTCAAAAAAAAAAA
AAGAGGGCCGGGCGYGGAGCCTCATGCATGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGATATCGAGACCATCCCAGACAA
CATGGTGAAACTCCATCTCTACTAAAATACAAAAAGTTAGCCGTGTGTGGTGGCACRCGCCTCTAATCCCAGCTATTCGGGAGGCTTAGGCAGGAGAATT
ACTTGAACCCGGGAGGCGAAGGKTGCAGTGAGCTGAGATCGCACCATTGCACTCCACCCTGGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAGA
TSTAACAGAATTAATCAGAAATCCTTAATAACATTCAATACCTACTTTATTTAAAAATTTTCTGAGTTGTCCCCAGAATATCAGTGGATCATTATATTTA
ATTGTGATAACAGTATCATCTTAATAACATTACAGGCCAAGGCATGGTGACTCATGCCTCTAATCCTAGCACTTTGGGAGGCCAAGGCGTGAGGATTGCT
TGAGCCCAGGAGTTTGAGAACAGCCTGGCGAATATAGTGAGACCTTATCTCTCTCTGTTTTTGTATTTTTTTTTAATTAGCCAGGTGTGGTGGCTTGTGC
CTGTAGCCCCAGCTGCTCAAGAGGCTGAGGTGGGAGGATTGTTTGAGCCCAGCAAGTCGAGCCAGCAGTGAGATATGATCACACCACTGCTCTCCAGCCT
GGGTGACAGAGTAAGGCCCTATCTCAAAAAAAAAAAAAAAACCCAAAAAGTAGTATTACATTTTTATTCACACTTGTTTAAGAGCAGTGCAGTGACTTGA
AGGAGCTTGTATGGCCCTAGGGTTCTTTTCATAAGTTTGTCTAATGCTGATTCTTAGTCTTTTTTGAGACAGAATCTCACCCTGTCACACAGGCTGGAAT
GCAGTGACGCARTCACAGCTCAGTGCAACTTAAGCCTCCTGGGTTCAGGCAGTTCTCCTGCCTCATCCTTCCAAGTAGCTGGGACTACAGGCATGTTGGC
CAGGCTGGTCTCTAACTCCTAGCCTCAAGTGAGCCACCCGCTTTGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACCGCACTCTGTCTGATTCAT
AGTCTTTTTTTTTTTTCTTTTCTTTCTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTCACCCAGGCTGGTGTGTGCAGT
GGCACAGTCTCAGCTCACTGCAACCTCCGCGTCACAGGTTCAAGCAATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGTGCACCACCACA
CCCGGCTAATTTTTGTATTAGAGGCGGGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACTTCAGATGATCCGCCTGCCTCTGCCTCCCAAAG
CTCTGAGATTACAGGCGTGAGCCAGTGCACCCGGCCCTGATTCATAGTCTTTTAATATTTATGTCTAATACAGAAATCTTAACCTGCTTGGTGGTGAGGT
GTCCTGTGAGCCCCTTGAAATTACATATAAACTTTGCCTGTGTGTGTGCATTTTTCAAGGGAGAGGTTGCATAGCTTTTGTTAGTGTGAGATTTGGGACT
AAAAAATGGTTAAGACTGTTAGTTATTATTCCTGTTTTCCATAGTGGCTATCTTAAGGTACATTTCTTCAAATATTCTTTTTTTTTTTTTTTTTTTTGAG
ACGGAGTCTCGCTCTTTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCTGTCTCCTGGGTTCACGCCATTCTTCTGCCTCAGCC
TCCCGAGTAGCTGGGACTACAGGCACCCACCACCACGCCCGGCTAATTTTTTTGCATTTTTAGTAGAGACGGGGTTTCATCGTGTTAGCCAGGATAGAAT
GGTCTCGATCTCCTGAACTCGTGATCCACCGGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCGGCCCATTTCTTCAAATATT
ATAACATTTTTCTTCCTGGCATTGTTACCTCCACTTCCTGAGCATCTCATTAAAGGTAACAGATGTAGGTTATTCTAATCTTTCAAAAAATCTTGTGTTA
GTGGAAAGGAGAAAGTTTGAGGAAGAAATAGGATTGAGAGAAGGATGCTTTAAGGAGCTTAACCATGTTTAGGAGTCGGAGCCTGTCGGGGKTGGGGAAG
ATTGAAGACAGGGAAAACAAATTGACAAAATCTTGGAATACATGGCATGATGAGGTTGGATGAGCCTTAGGAAGGTACAAGAGATCTATCCTTCCATAAT
TTGGAAAACAAGCAGCAGAAGTTACAGTTGTTCATRCCTATTTCCTCAAAGTAGGAGATTGTGTTAGGTGTTAAGGAGGGTGATGGTGCTCAGAGGGACA
GTTAGGACAGCCACCATGGAGAATCAATTCATTTTCCCTCTTGAATCTTTTTCTGTATTAGCTCCTTCCCCTGTAGAACTGATGTGTCAAAGGTTACCAG
AGATCTCTTAAATCCCCTTATATTTGAGTTCCTACCTCACTAGTTTTCTTGAGATAACACAATGTAAATCTTTTTTTTCTTTTTTTTGAGGGAGTTTCGC
TCTTGTTGCCCAGGCTGGAGTGTAGTGGCGCCATCTTGGCTCACCGCAGCCTCTGCCTCCCAGCTTCAAGCGATTCTCTTGCCTCAGCCTCCCAAGTAGC
TGGGACTACAGACATGCATTACTGTGCCCGGCTGATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTTGTCTTGAACTCCCAACCT
CAGGTGATCCGCCTGCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCGTGCCCAGCCAACACATGTAAATCTTAACCTGATGCTTGTACA
TTAGAAATTGCTTAATAAGTGTTTTTATTATTGATGTTGCATGACAGCTGTGAAAATAGAGCTGATAAATAGGTTATAGGAGAAAGAGTGAATGAGATTG
CCCAGGGAAAACATAGACTAAGAAAGGCCTGGACAAAATATTGCTTAAAGGTGTTCTAGAAGAGAAAAATGAGAGAGGTAAACAAATCGGGGGGTGAGTG
GAAAAGAGATAATATCGTTATGTTGCTAGTTAACTGTTTCCCAAACATGTGGTTAACTTTCATACCTACTTGCCTTTCCTCCTGCTTTTCTCTTGGTCCT
CTCTCTGGCTGGCTGAGCCCCATTCTTTGACAATTCAGCTTTTATATGTTGTTATAGCTTTTCCTCATTCCTTTATGCAGAATTTCTTATTTATCCATGT
CCTCATAGCACCTAATGTACCTGTAGACAGTGTTTCTAAATGGAGTTGCAGACCTCTTTGAGAATAAATATGAAATGTKTGAATCCTCTTCCTAGAAAAA
TCTACATTTTACTCTTTTGCAAATAATTTCAGAGAAAGCCTGGATTCCTAGAGGCCTGTTCCATAGACCCCAGATTAAGAACCCCTGGCTTTTGTTTGTT
TGTTTTACTTTAAAAAATTACTTGGCTAGGCACAGTGGCTCATACCTGTAATTCTGGTACTTTGGGAGGCTGAGATGGGAGGATTGCTTGAGCTTGGGAG
GTCAGGGTTGCAGTGAGCCATGATTGAGCCACTGCGCTCTAGCGTGCGAGACAGAACGAGACTCTGTCTCAAAACAAAAATCCAGGGTTCTCGGTAGTTA
AAAAAAGAAAAAAGAATTATTTCAACTTTATTCATATTTCTTTGGCTGGGGTGTAGGGGGCTGGGGGCGGGGGGAGGTTAGACATTGTCCAGTAAATGCC
CAAGGCTTTAAGCTTCCAGTTTTCATATTTGCAAAAACTTGAAACTAATTCCATTAAAGTGACAAAAATGTAAATAATCTCTCTCTTTTTGCCATACTGT
ATAATTAAAAATATGTAGCAGTTAAAAGTCTTACCAAAATTGGCCGGTGCACTGGCTCACACCTGTAATTCTAGCACTTTGGGARACTGAAGTGGATTGA
CAAAAGGATTGCTTGAGGCCAGGAGTTTCCGACCAGCCTGGGCAACATGGCGAGACCCTGTCCCTACAAAAAAAAATTTTTTTTAATTACTTGGGCATGG
TGGTGCACCACTGTAGTCCTAGCTACTTGGGAGGCTGAAACAGGAGGCTCGCTTGAGCTCAAAGGATAGTCCTAGCTACTCAGGAGGCTGCGGTGAGCTA
TGATCATGCTCCAGCCTGAGCAACAGTGAGATTCTGTCTCTTAAAAAAAAAAAAAAAAAAAAAAGCCCAGGCACGGTGGCTCACACCTATAATCCCAGCA
CTTTGGGAGGCTGGGACAGGTAGATCACCTGAGGTCAGGAGTTCGAGACCAACCTGGCCAACATGAAATTACCAAAAATTGTCTCAGAAGTTTGACAAAA
TTGTTMATTTGTGTCATAAAATTTTGTCAAAATTTTTTCTCATAAGCTTGACAAAATGGACAATTTCAAAGAGAGTAGGAGGTATTGGAGGCCAGCTGAT
TAGCAGTGGGAAATCATATGGGCTAGTACCAAGTTTTTGCCTTATTATAAGTATAGAGAAGTGACAGTTCCTACATGCAGTTTGAAATAATGGTGACAGA
ATGCAGGGTTTGGAATCCGAGATAGTGCCTAAATTTTGAGCTCAGGAAGAAATGGGGAAAGGAAAAAGGGAAACAGTGGTAAGACAGGAGGATGCTGAAT
TAGGTTAGAGTTGACGATAGAATAACCAATTTAAAATGTCTTATAGATAAAATCTAGAATGAAGCTTTGGTAAGAAGTCTGAGCTAYGTACATAAGATTA
TCAGCAACATATATGTTAAGGTGGAGCCATTTAAAGAAAGAACAGAAGGGACCTATGATTTACTGATTGTTGAAAATCAAAATAAAGGAGGCAGAGAAAA
TAAAGATTGTGAGTCAGCAGGACTTTTGTCTTATTTTCAAGTGGATTTATTGATTACTTTTCTTCTTACAGCCAAGTGCAAGATCTGTGAATGGGCGTTT
GAAAGTGAGCCACTATTTCTCCAGCATATGAAGGATACTCATAAGCCTGGAGAGATGCCWTATGTTTGCCAGGTATTGCCTTTTTCTCCAGGGAGTTTTA
GCAGTTTTGCYCTCAGGAAGAATACAAAGAATYTACTAATGAATATTGTTGACCACCTACTGCATACACTCAGTTTAGGAACTCTGAGTAGGTACAGAAG
AAATAGTAAACACAGTTTATCTTCAGGGTTTCCATGCAGGAGAAAAACATAAAAGAACATGTCCACAAGTAGACTRGCCGGGAACATGTGCATATTCTAA
GGGAGTGTCTGTCTCCTGAACGTGCCCTTTGGAAATTGACAGAAAAGGCTTTATTTTTCTTAGTTAGAGAACATGGATTATTCTTAGACTTTCTGTCCCT
TCCTATTTTTAAAGTAATAGCTAAACCTATCACAAACATAGCCCAGCATTACAAAGTCAGGAAAATAATTTGATTTCTATGCATTTGAGAAAACTTTTTT
TTTTTAATTTAAAAATTTTTGTTGCTACCTTTTTTTTTAAGGCCTCTCAGTTGTTCACTTCATTCTTAGCCTTATTTTCCCTCCTATGTGACTCAGGTGT
GTCAATATCGCTCCTCACTCTACTCTGAGGTAGATGTCCATTTTCGGATGATCCATGAGGATACCCGGCATCTGCTCTGCCCTTATTGCCTGAAGGTCTT
CAAAAATGGCAATGCATTCCAACAGCATTACATGAGGCACCAGGTACTAGGCACCAAGCAATTCCCATATTCTCTTGTTTTTTTTTTTTTTAAACATGGA
TGCTGGGGCCAGGGCTGAGCTAGGCAAATAATTTGGGCAGAGATTATAATATGCATATGTTTGCAGAAATTTATTGAATTCACTTAATGTGCCATGTACT
AGTCTAGATGCTAGAGATTTAGTAGTAAACAAGGCAAACAATACAATAAAACATGAAGAGTACTGTGTTGGGGAAATTATAGGATATAGAAAATCACATA
GCTATTCTGGGTGCCTAGTAAGGCTTCCAGAAAGAAGTGTTGTTCAATACCTGAGGGATGAATAAGAATGAGCCAGATGAAATAAGACGAAGAACAGTGT
GCCCAAGGCACAAAGCAAAATTGTGGAGGTTCAAGAAATTGAGAGAGATTCAGTGTAGGGTGTAAGAGACAGAGGGGTTGGAAGTTAGGCAGGGACAGAT
CATGGAGGATCTTTTAAGCCATGAAAAGAATTCACTGGGAAGCCACTAAAGGGGTTTTAAGCCCTGGAGTGATGTGTTCAGCTTTAGTTAAGGCTTTATA
CTGCCTGCACTGCAGAGAATGGATTAARGGAGATTGAGACTACAGTTAGGGAAACTAGCTAGAAGGCCTTTTTCAGTAGTTTAGGTGAGAGATGATAGTG
GCTATTGGCTTTTGAAATAAAAAGAGGGTAGAGTTGAGAGATATTCAGAAGATTTGTGATATTTATGATGTAGAGATGGATTAGGTGAAGGTAGCAATGC
AGTAGTTAAGAATAGTGCCTAARATTCTGTCTTGGGCAGTTGGGTGAATGAGGGAACTATTTGCTGAAATAGAAACAATAGAGAAAGTATATTTGTGAGG
GGGGAGATCATGAGCTTGGATATTGTAAGTTAGCAGTATCTGTGGATGTCAAGTGTAGCTGTTGGATAATAGATCTCAAGCCTGTGAGAGAACTCTGGGT
TGTAGAAAAGATTTAGGAATCAGCGTTATATAAATCCTATAGATTTTAAACTTAAATACCATGGGCCCCCCAACCCTGTTGAGAATAAGAGAAGGCTTAG
GATATTTGAAGTCCCTTATCTATAAAGCAACCACCATAGTACTAGGAGGAAAACCAGAAGAGTCTTAACCTTAAGGAAACTGGGGAGAAGAAAGTGTTTT
AAAGAAAAGGGTGTGATCAAAATGTCATATGTTACAGGAAGGTGTCAAGCAACATAGAGACTTAGAAACAGGCCTTTAATTTAGCAACATTGATGAGAGC
CATTTTGTTGGTTGGTAGGGTGGAAGTCACATTTCAGCAGAACAAATGAATGAGAGGTAAGGAAATGAAGACGATGTATTTAAAGAAGTTTATTTATAAA
AAGGGAGGACCCAGGGTAGGTAAATCCAGAGGAAGAAGTGGCAAAGAAGAGTTTTTTATTGCTTTTATTTTCCTTATAAGATGAAAAGCTATGACTTCGT
TTTAAAATACTACAAGAAGAGAGCCACTAGAGGAGAGTGAAAGGTATATAGTATATAAGAGAGGATTCAAAATGGAGAATAAGATGAGTGCATGTGTGCT
TAATAGTCACATACATATGCACACAAACATATGTACCCTATTACACTCATAGTCTCCTTTGCACAGTRGTGACTGCTGATTGTCTACCACAACTGTATTT
CCAAATAGGGGCATGGAAATTGTCTCTTAGCCTAAGCTTACAGAGCTTTGTTATCCTACTAAAGAAAATCATAGACATGGGTTCTATTTTTGAAGGACTT
CAATACTAGGCAGACTGAATCCTCAAAGTGGTCTCACCAGGAGACATATCTGTATATACTGATGTGTTAAGTGAGAAAACAGCAAGGTATAGACAAGTGC
TATCATTTGTGTTAAAAGGAGAAAAAGAAGAGGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAGGTGGAGTCCAGCCTGGGCAACATGGTGAGACAACA
TCTCTACAAAAAGGAAAGGGAAAAAAGTAAGGGCCAGGCACAGTGATGCACGCCTGTAATCCCAACACTTTGGGAGGCCAAGGCAGGTAGATCACTTGAA
CCCAGGAGTTGAAGACCAGCCTGGGCAACATGGTGACACCCCGTCTCTACAAAAAAATACAAAAAGTAGCCGGGCGTGGTGGCACGTGCCTGTAGTCCCA
GCTACTTGGGACGTGCAGTGAGCTATGAACATGCCACTGCACTCCAGCCTGGGCTACAGAGAGAGACCCTGTCTCAAAAAAAGGGGGCGAGGCAGGTAAT
GATTGGATATGAATGTATTTGTGATACAGTTATATGTGTAGACTGCCCACGAAAGCATACTCAGGAAACTGGTAATAAGTTGTTTGTATGGAAGGGGACT
GAGTGTTGGAGTTGAAAGCAAAGTTGGAAGAGTATAGAAAAAAAAGTATGACTTTAGTTTACTATGTACATTGTCCTTTTTTAAAAAAAGAAGAATGAAG
AATGTCCAGAAGAATGTCCAGTTGTCAGCAGTGTAAAGATATAATACAAATAAAGGTTACATCACTCATTCAAATTGTTAAAACAAGTCAGGAAAGGATG
ATTTGAGAACTTAGTCATCCTGGACTAGAATCCATCTTTCTTTGATATCATGGGAGGTGATGATTCTCAATGGTAGGTTTTGTGGTCATGTTGCATATTT
CTTTCTTACTCTCTTAAATTATCAACAGAAAGGTGGGAAGAATGATATGGTTGACATTGATCTGCTTTCTCCTCAAAAAAGAAAATTTATTAGGAACCTT
TAAGGGATTTTGTCTCTTTTTTTCCCTCCCCCACTTCAGAAGAGAAATGTTTATCACTGCAACAAATGCCGGCTGCAGTTTCTCTTTGCCAAGGACAAAA
TTGAACACAAGCTTCAACACCATAAAACCTTCCGTAAACCCAAGCAGCTGGAGGGCTTGAAACCAGGCACCAAGGTAAAGAGTTTGCCAGTGTCTTTTAT
AGGCCCAGGGAGGGAGGAATAGAGATTTTCAGTATTCTGAAATTTAGTGTGGGTGATGTCTCATTGTTACTTCCCTTGGTTCTCAGGTGACAATCCGGGC
TTCCCGAGGGCAGCCACGAACTGTTCCTGTATCCTCTAATGATACACCTCCCAGCGCCTTGCAGGAGGCAGCACCGCTGACCTCCTCAATGGACCCTCTG
CCTGTCTTCCTTTATCCCCCTGTCCAGCGCAGCATCCAGAAGAGAGCTGTTAGGAAAATGTCAGCGCCTTCTTCTAAGTGCTGGGCGGGTGGGGACTGGG
TGGCCAGGATTATTCCTGATACACAGTGCAATCTGGTAGCTTTTTAGCAGGGTTTGTTGTCTGAAAATCCTACATTTTGGGGACCCATGAGGCAGTAATG
AGAATTCTTTTTTTTTYTCCCCCACAGGAGTGTCATGGGCCGGCAGACATGCCTGGAGTGCAGCTTCGAGATCCCAGACTTCCCTAATCATTTCCCTACT
TACGTACACTGCTCTCTGTGTCGCTATAGCACCTGCTGTTCTCGAGCTTATGCCAACCACATGATCAAGTAAGTTGGTTTTTAACCAGTGTTTTAGCTTG
AGAGTTCAGATTCTTTTTTTCTTCTTCTTCTTCTTYTTTTTTTTTTTTTTTGAAGACAGGGTCTCACTCTGTCCCCTAGGCTGGAGTGCAATAGCATGAT
CTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGATTATAGGTGTGCACCACCATGCCTGGCTG
ATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTGGCCAGGCTGGTCTCAAACTCCTGAGCTCAGGTGATCCACCTGCCTCGGCCTCCCTAAA
GTGCTGGGATTACAGACATGAGCCACTGCGCCCGGCCCCAGCCAGATTCTTGAGCACTCATTTCATTTTCTCCCCTGCTTCTAATATGTTTCCTCCTTCA
ACTCTTAGAGCTATTTGTTCTTCTCTCCTAGCAGAGTGAGAGGCTCTGTTTTTTCGGTTTTGATGGTCTGTGCTCTAATTTCATAGGGCCTTGCTATTCA
AGTACCAGTAGTATTAGGTGGGAGCTTGTTAGAAATGCTGACTCTCAGCCCCGCCCTAGGCCTACTGAACCAGAATGTGAATTTTAATAGATCCTCAGTG
ACTTGTATGCATATTAAAGTTTAAGAAGCATGGTGACAGGAAAACTGGCTTAGGTTGAGATTAGGGTGCACTGAAGAAGTGTCTCTTTTGTTGGGGGCAT
TGTCACTGGCTGGTGATCTCTAGCTTAGCCAGCAGAACTCCGTAACTCATACCACTTCTTTGTCTTTCTCAGCAATCATGTTCCACGGAAGAGCCCCAAG
TATTTGGCTTTGTTTAAAAATTCTGTGAGGTAAGAAAAAACTTATTGGCAGCATCTTAATTTTTCAGGTTTTTACATTAATTTTCAGGTTTTTCATTATT
TGGAGAGGTGGTTATGTGAATTAATTTCAGAAAAAGGAGAAAGTGGGAGGGCATTCCTTTTCTTTCTTAAGCCTCAAAGCTTAATGGTCTCAAGTGTCAC
TGCTGTGTTTGTCTTACATAGTCTCAATTCTCTTTTTTAGTGGAATCAAGCTGGCCTGCACTTCATGTACCTTTGTTACCTCTGTGGGCGATGCTATGGC
CAAGCATTTGGTATTCAACCCCTCTCACAGATCCAGCAGCATCCTGCCACGGGGTAAGTAGGAGAGAAGGGGATTAGTTGAGCAAGGGGAGGAAAAAAGA
TACAGGTTCGTACTGTATGCATCAGGAGCATACCTACTTGGCCTCACTCATTCACTGTTGAGATGTGCTGGACCTAATTAGAAACCTTCYGACCTGAAGT
TTATATAAAACTGGGAAAGCTGGTCACTGCGAACAGCGTATTTGTATGTAGTAAGTTGAATCCCAGGGCACTGTCTTTGGAGGGCTTATTTTTTCACTGA
GCTAACTATTTTTGTTGTTTCATTTTCCATAGGACTCACTTGGATAGCTCACTCAAGGTAACAAAAACTCACCTCACAATTTAATTTCTGGTTTGCAGTG
TGTTTACTCTGTTATTATTATTATTATTATCATATTATTGTTTCAATTTCCTAGTTGAACTGAGATTTCTCCTCTTCTCTTTGCTCCTCACCCCTTTAGG
CATGGCCAGACTCGTGACCGAGTGCATGACCGGAACGTGAAGAATATGTACCCTCCTCCTTCCTTCCCCACTAACAAAGCTGCCACTGTGAAATCTGCGG
GGGCCACCCCAGCTGAGCCTGAAGAGCTACTAACTCCCTTAGCCCCAGCACTCCCATCACCAGCCTCAACTGCAACCCCACCACCAACCCCCACTCACCC
GCAGGCTTTAGCCCTTCCACCGCTGGCTACAGAGGGAGCCGAATGTCTGAATGTTGATGATCAGGATGAAGGGAGCCCAGTCACCCAAGAACCTGAGCTA
GCATCAGGTGGTGGTGGTAGTGGTGGAGTTGGCAAAAAGGAGCAGCTGTCTGTGAAGAAGCTTCGAGTAGTACTGTTTGCTCTATGCTGCAATACAGAAC
AGGCAGCTGAACACTTCCGAAATCCCCAGCGACGTATTCGCCGTTGGCTTCGACGTTTCCAGGCCTCCCAGGGGGAGAATCTAGAGGGCAAATATCTGAG
CTTTGAGGCAGAAGAGAAACTGGCTGAGTGGGTGCTAACCCAGCGCGAACAACAGCTACCTGTAAATGAGGAGACCTTGTTCCAGAAGGCCACCAAAATA
GGACGTTCTTTGGAAGGGGGGTTTAAGATCTCCTATGAGTGGGCTGTGCGTTTCATGCTGCGGCACCACCTGACTCCCCATGCCCGGCGAGCTGTGGCCC
ACACCCTACCTAAGGATGTAGCAGAGAATGCAGGACTCTTCATTGATTTTGTACAACGGCAGATTCACAACCAGGACTTACCCTTGTCTATGATTGTGGC
TATTGATGAGATCTCTTTGTTCCTGGATACAGAGGTGCTGAGCAGTGATGATCGAAAGGAGAATGCCCTGCAGACAGTGGGCACAGGGGAACCTTGGTGT
GATGTAGTCCTAGCCATTCTGGCAGATGGCACTGTCCTTCCCACCCTGGTTTTCTACAGAGGGCAGATGGATCAGCCTGCTAACATGCCAGACTCCATAT
TGCTAGAGGCAAAGGAGAGTGGCTACAGTGATGACGAGATCATGGAGCTGTGGTCAACTCGAGTGTGGCAGAAGCACACAGCTTGCCAGCGCAGCAAAGG
CATGCTTGTGATGGACTGTCATCGCACTCACTTGTCAGAAGAGGTACTGGCTATGCTTAGTGCCTCTAGCACTTTGCCTGCAGTGGTCCCAGCAGGCTGT
AGCTCCAAAATTCAGCCATTAGATGTATGCATCAAAAGAACTGTCAAGAACTTCCTGCATAAAAAATGGAAGGAACAGGCTCGGGAAATGGCAGATACTG
CATGTGATTCTGATGTCCTGCTTCAGCTGGTGCTTGTCTGGCTGGGTGAAGTGCTAGGTGTCATTGGGGACTGTCCAGAGCTAGTTCAGCGCTCCTTCCT
GGTGGCTAGTGTTCTGCCTGGCCCCGATGGCAACATTAACTCACCTACAAGAAATGCTGACATGCAGGAGGAGCTAATTGCCTCCCTAGAGGAGCAACTG
AAGCTGAGTGGGGAACATTCTGAKTCTTCCACKCCACGACCCAGATCATCTCCTGAAGAGACAATTGAGCCTGAAAGTCTTCACCAGCTCTTTGAGGGTG
AAAGTGAGACCGAGTCTTTCTATGGCTTTGAAGAAGCTGACCTAGATCTGATGGAGATTTGAGTGTTGGGGTCATGAGGGGGTGTGGAGTGRGGGTGGGA
ACATGTGAGGGAGGGTAAAGGGGCTTAGGGAAAAGGGGGCATACCAGGTGGGGTATTTGGTTTCTATTTTTTAATTTTATACCACCACTCCCCCCTGAAG
TTGACTTACACTTCCCTGTGGATTTGTGGATTAATTAGGAAAACCAATAGTAATCACGTCTGAGCCAAGGAGCTGGCCCATTGGTCATTCACTTCTGCTA
AAAACAGGTTTTTGTGACTTTTTTTTTTTTTAAATTTAAATCACTGTGTTTGGTATTTTTCTGACAAAATTAAGAAAAAGAAAAAAAATTATTTGTGGGC
AAATGTTAAATTTTTTTGTTTCCCCTTTTACCTCAATTGTATCATAGTACTGGGTTTTTTTGTTTGTTTTATTGTGTGGCCAATGTCTTTGGGCATGATG
CTATCTAATCATTGTTAATGTGAGAACATTTCTGAAGATGGGAAAGACAAATTATGTAGCTCACAAACTGGTTTATTATATATATGGATAAAAAACTTTT
TTCATTGTGGTCTTAACACTTTTATATAAAAATGAAAATGGAAAAAAAGTCCCACTGAACTCTCTCTTCCTTCTCCTTTTCTTTCCTTCCCTCTCCAGAG
ATGTTGGTTTCTACAGCAACCCTAGATATAAAATTGTGGCTTTAAAAATGCATGAAACCACCTTTAATTATCCAGAATGAATAGATTTGTCTTTTCCTCA
CCACCTTCCCTCCAAAACATGACATAAACAATATTTTTTGCACTTGTGATCCTTGGCCCCTTTCCCCATTCTCAACACCATCCATCCCTCTGGACAAAGG
ATCATACAGGTGTTATTAGCAAGCAAGAGATACTGAAGCGATCAAACAGTTTTAGGGTGGAAGCCATTCCCAGTTTGAGTCTTCATCCTGTAAGCCCCCA
GGGGCAGTCCCTGCTTTACTGAACTTCATCCTGTTAGATGGAGAGCATGCCTGTTTAAGGGATTACTGGTCCTACAGCCAGGAGCTAATTGTTCAAGAAG
TGTTGAACTTTAAAAAGACAAGACCACTTGTTGAAATCCAGCGTGCTCTGTGGCTTTCCCCTATTTCTCTTAATACTTAGGGAAGAATCTGACAGGAAGA
AGCGCACAGGGGTGTGCACAAAGAAAATGACATGAATCTTTATTTTTCACTGCCAGCTTCAAGGRAAGAAAAYTTTTTYTACAATTTGCATGAGGGATTT
TTTTAATTGTATGTACTCATGGTTGTAAACCAAAACGTACTGTACCGTACAGAGAAAAGGAGCAAAAAACCAAGTCTTCTGTTTATCCTGAGGCTTTCCA
CAATGTTCCCCTCCTGTGAGCCAAGGAGGCAAACTGCACAAGCTTGTAAATGGTTCGTCTTTAAAATGTACATAAGTGGAACATTTAATAAAATGAGGGG
AAATGGATTTATAAACTTGTTTTTTTTCTAGGTGACCCTGTTTAATAGGCTTTCACAGACTGGGGAATGCTCAAGATGTGATGGGCCTGGTGGTACAGGT
GTGACATTTGTTACCACCCATTTCTCCCACCCCACCCTGCTTTTTTGTTTGTTTGTTTTTTCATCCCCCAGCACACTATAATATAGTGAACTGGAAAAGT
CCCTTCCAGAAACAGCTTGGCCAGCTTTGTGAACCTTTGACATCTGAAAACAACCRAGGATCCATCTGGGCTTCTCTTCCCCAGCTTTTTGCCTGATGCC
ATTTTATTGACAGACAATGGACTTTGAAGTCAGCCTTTGCCTTTGAGAAAGTTCAAGAACTATGGTTGGTCACGTCTATCTACAACCTAATCCTACTCTT
TGGTAGTCTCTGCAGCAGCCACAGCCTTAGCAGAGCTGGGGTTCCTGTCTTCTGCACACGATTGACTTTCTTGATGGGTAATTTTTTTTAAGATTATACC
AACAGTGGATCAGCTGGGTTTTGGCCAGGAAGTTGTCTTTGTGGACTCTGCCTGCATGGCTTAGTAGTAGAAGGAAATTTTTTTTTGGTTTTGTTTTTTA
TAATTCAGTTTAATCAATAAACATGTATTTATTGACTGTTTCCTGTGTTGAGACTGAATGTGTGGAGGTTTCAGATTGAAAGCTCATTGTTTGGCTTTAC
AAGTTTGTTGTTAACGGACAATGCAAATGGAGGGATGGTTTTATTTTTTCCTTCAGTTCTCACTGAATTTCTGTACTTTGAATTTGCTGCCTATATTTTC
TTTCTCAAGAAGTTTGGAGAGGATATGTGTCAGAATCGCCTACAGTGTTCATTTTAAAAATTCAAGCTGGGCATGATGGCTCATGCCAGTAATCCCAGCA
CTTGGGAGGCTGAGGCAGGAGGTTGCTTGAGCTCAGAAATTCAAGGCTGTAGTAGGCTATGATCATGCCACTGCACGCCAGCCTGGGCAACAGAATGAGA
CTTTTGTCTCTAAAATATTCAGGTTTAGAACCATTCCAGGGATGGCTGATGCCCCAGCTGACTTGAGGGCAACCTGATGCAGAATAGTTCTACTAGATTA
TTTTTAAAGTGGTATTTTAATGAAAATCACAGCCAACATTAAGAAATCTGTATTTGATAATCCAGTGCAGTGGAGGAAGATTTGGGAGGGGAATTTGAAC
ACAAAAGCCAGTTAGCACACAAAAATTAAGTCTGGCTTCTACAGGAAGCTCTGCTTCTAATACAGCTCCAAATGACGCTAGTGTGTCTTTCTGTGTTGTG
CAGAGAGAATTTCTGTGTGTGCTGCAAGACCACAAGGGTTCTCCGACCAGGGAGGGAGATGGCACATGGCAGTACTCAGCAGTTTTGCACTTGGTGTGAC
CCAGTCAGACAAAAACCACTCAGCAAGCATTTTGAAGAATTTATTTACTTTACAAAAGAAGAGTCTATCTTTGAACTAGCCAAGTTCAAAGTTAAAAGTA
GGGCAACTTCAGTTCTGGATAATGCATCTGTATTTCATTCAAAGCCACTAAAAAAGGAAGACAGAATAATAAAATTGTGAAGCATAAAGGGATCAATTCC
TAAAAATAGCTGTACTGTCCAACCAAAACTTTCCACCCAGAAAATTTTCCTGGGTGAGCCTCCCAGAAAAGCCCAGCTTAGTGTAAGCCAAAGACCTCCC
AAGTCTGTCACCAATTTTTTCCCTATTACTCACCTGATCATGTGGGCAATATCCCAGTTGGTCTCTGTAGACAATGGTCCCTCTATTTCAACACCTTTTT
CGGTGACAGTGGCGGTTTGAAACTGGAAGAAAGCAGAGCATTCAATAATGCCCACGCCTTAAGTCCTTAAATGAAAGGTCAGGTGGAGGTCTTCCCCAAT
GTGAAAATAGGAGTCACACAAGTAAGGCAATCTGTTCTTCAAAGCATAGAGACCCAGGGATTGCAAGTAGCCAGAGCCCGCCAATTAGGTTCCCAGCACA
TCCCTCACCCGGTTGTAAGAACGGGCATCTCGGTAGTACAGCACTCGCATGCAGCGTTCTACTAAGTCGCGGGCCTCGGTCTGGCTTAGCACTGGCTGCT
TCTCCAGAACTTCTCGCAGCAGAGGCTAGGGAGATTGGGGGAAAACCATGGGGGGATATTGGGCTGAATAACAGGCTAGTTGTCTCAAATCTATGGTATA
AAAAGCATTAGAGTGAAAGATGACATTCTACTTCTTGCCTCACCAGAATGAACTCTGCTTAGAAAATAAGCTAAGAGCCACTTCAGGAAGAAGTTCTAGG
GTGTCCTCTCTTTGCATGTCTACTGACTCCCAGTCATGTCATCTTGTCACTGGAATCAGTGTCAACACCTACAGCCCCCAGACTACAAAGAAAACCATCT
GCCCAGTAATAGCGATCCCAGCCCATCCCTCATATCAGAATTTCAGGAGAAAAGCAGACAACCACTAATCCATTTCCTTTTGTCTTCCCTTTCCCCCACC
TCTAGACTTACTACTTACCTGAGCCAAGTATGCACCATAACCAGTGGCCAGCGAAGGGGCTTCATAGGCTACACCAAGCATGTCCACATAACCGAGGAAG
CTAACAGGACACAATGGGTCAAAACTCATTTCACCTTAGGTTCATCTTAGCTGAAGAAGGGGACCATGGGGTCTGAGTTAAAGTGGGATTCACTTGGGGA
GAAGAGACAGAAGAGATACTACACAGGTACTAGGTTGGGTGGTAAAGGAAATAAGTTATTTGTATTCATATGAACCTCTCTCCATCAGCATAGCCTCCGA
TGACCATGGTGTTCCACAAAGGGTTCATCTTCGAGCGCCGGCTGTACATGGCCCTGGTCAGCCATGAATGAATAGCTCTAGGACTATAGCTGTGTCCATC
TCCCAGAAGCTCCTCATCAATCCTTAAAAGGAATTGGTTGTGAGAAAAGGGAGAGAATTAAGTCGGGGTCTCCACCCATCCCCAAAAGAAGTTACCACAC
CTTCCCCCATTTTACACCTAATGCCAAAAACTTTATTGCAAACACAGATCGCCCACCTCCAACAACTCTCCCAGTCCCCCGCTGCAACAAGTCCCCCCAT
CCCATCGAAGGGAATAAAAAACAGGGGACTCCCCTCTCTACTTGGGAACCACTCTCCTGTTCTCTGGATGACTTACACCATCTGGCCGAGAACTTGCTTC
AAATACTGGAAATCAGCGTAGTCGCCAGAGGCACCCAGCATGGTACTGTTGTTGACTCGCATAATGCGAGAGATGTTGCGGAAACGAGCCAAGGAGCCGT
AGGATCCCAGCATGTCTGCGGCAATCACCACTCCGCCCTCGAACTTAACGCCGAGGACTGAGGTCCCGGTCACCATGGGGTTCCTAAAGAGTGAGAACGG
TGGGAGCTGAGAGGGGGGATGGACTGCGCCCTCTTTCCGCGCACTGAGCTGCGCTTCTGATTTTCTATAATTCCTTCCAATTATTCTGCATTCTCCAGGA
CTCCGCGCCCTGAGCTCCCCTGCCGTTCGCGCGCCCCCGGGGTCCCCGCCTCACCTTCCCGGGCTCTCAAAACCAGCCGGCAGCACCAGGCCCCACGGTC
CCTCCCGCTACGCAAACGAAAGCGCCGAGAACTTACTGGGTCCGCGTGATTGGACCTCTGTAAAGTGCAGACGCCGGATCCATGAAGGAATCGGGAGTGG
ACGGAATGCGGTAAAACTGTCCTGGGGCCGGACCCCCCGCCCAAAGTCCGGACCGCGACCCCAAAAACGCTTCCATCTTAGTCACGGTAGCAGAAAAAAT
GAAAGCGCTTGCGCCAACGGAAGCGGAAGTGATCCTTCAGTGTCATTTCTTTCTTTTTCCTGTAGACGACTTCCAGCAGCCATGTTGATGAGGTCGTAGC
TGAACATGCAGTAATCCTAGGTGGCGACCGAGACAGGGAGTTGAAATTGCCCAACATCGCTTCGCATCGCATCGCATCTCCGTGGAGTTTGGACCAGATC
ACAGCGTTCTAACACACGATTCAAGGAGGAGGGAGGCATGAAGGTGGGGTGGGGAGGTGGCCACTTAAAGACGCTGATCCTGAGTGAGACGTCACAATTT
TTTATTTTATTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGGCCCCCAGGCTGGAATGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCGCCTCCCAG
ATTCAAGCGATTCTCGTGCCTTAGCCTCCCGAGTAGCTGGGATTACAGGCGCCTGCCACCACGCCTGGCTAATTTTTTGTATTTTTGCTAGAGATGGGGT
TTCACCATGTTGGCCAGGCTGGTCTCGAACTCCGGATCTCAGGTGATCCGCCTGCCTCGGACTCCCAAAGTGCTGGGATTACAGGAGTAAGCCGCCTCGC
CCGGCCTAGAAGTCACAGTTCTCATGTTCCTTTTGTATCATTATCAAAAAGCCCACATGAAAATATCAGTGAACACAGGATCTCTTACATCTGTACTCCT
CAGAGCAGCCCCATGTGGCAGGCATTATTCGACCCATTTGGTAAATAGGAAACCGAGGCTTGCGGTGTAGTGATTTACCCAGTCACACAGCCGATAACGG
TAGAACTGAATCTTGAAGCTAGAATAAAAAAAGGAATCAGGGCCGGGTGCGGTGGCTCATGCCTGTAATCCCAGAACTTTGGGAGGCCAAGACGGGAGGA
TCACTTGAACCCAGGAATTCAAGACCAGCCTTGGCAACATGGTGAGACCTCACCTCTACAAAACAAAACAAAACAAAAAATTAGCCAGGCCTGTAATTCC
AGCTACTTGGGAGGGTGAGGTGGGAGAATCGCCTGAACCCGAGGGAGGTTGCAGTGAGCCAAGGTGGCGCCACTGCACTCCAGCCTGGGCAACAGAGCGA
GACCCTGTCACAAAAAAAAAAAAAAAAAAAAAGAATACACTTGTGTATACCCTGTGGGGTGTGATAGCTCAGGTGGATCAAGCACTCTCTGTGGGACCTT
AGACAAGTCTGAAAGTTTCCTTATTGTCAAGGGCCCTTGCCCACCTCTAAAGAAACAGAAAAATTCCATTGGAAGTGTAGGGGTGAAACTAAATTCCAGG
GGTTTCCTTCTCAGTGTAACTCCATAGCAGGGGCTGGAAACTGTCTTGAATCAAACTGGTGAATTTTGTCAAAGATAAACAAAGCCGGACACTAAAGTGG
AAAGGACAGATTTCAATCAGTAATAACTACTACAATAAGGAAAAACAGTTCAGCATGAACTGAACTCAACTGCAATTTGTATGCAAGTAATGGGTATTTT
ATAGGGAAAATGAGGTTAGGGGACAGTGAGACAGAGGGTCAGTAGAGTCAGGGAAGTGAACATTTACAGAATTAGTCAATGTAAATGTGCTTAGGTCAAT
GATGTCTGCTAGCTGGCATTTATGGAAGTTAGGATTCCATCCTCCCACAGAGACTGGTGAGGATACCATCCTCAACACTGTCCTTAGGTGTCTTTTGTTT
GTTTGTTTTTTGAGACAAGGTCTGGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCGACCCTTGCCTCCCCGGCTCCAGCGATC
CTCCAGCTGCAACCTCTCGAGTAGCTGGGGACTACAGATGCCACACCCGGCTAATTTTTGTTTTTGTTTTTTTTCTTTTTTTCTTATTTTGAGAGGGAGT
CTTGCTCTGTTGCACAGGCTGGAGTGCAGTGGCACGATCTCAACTCAAAGCAGCCTCCGCCTCCCTGGTTCAAGCGATTCTCCAGCCTCAGCCTCCTCAG
TAGCTGGGATTACAGGGGTGCACAACCATGCCCAGCTAATTTTTTTTTGTTGTTGTTGTTGTATTTTTAGTAGAGATGGGGTTTCATCACACTGGCCAGG
TTGGTCTCAAACTCCTGACCTCAGGTAATCCTCTCACCCCAGCCTCCCAAAGTGATGGAATTACAGGCGTGAGACACCACGACCGGCCTAATTTTTGTAT
TTTTTTGTAGAGACCAGGAGAGATCTCACCATGTTGCCCAGGCTAGTTTCAAACTCCTGAGCTCAAGAAATCTGCCCACCTCAGGCCGGGCGCGGTGGCT
CATGCCTGTAATCCCAGGACTTTGGGAGACTTAGATGGGCGGATCACCTGAGGTCAGGAATTCAAGACCAGCATGGCCAACGTGATGAAACCCCATCTCT
ACAAAAAATACAAAAATTAGCCGGGTGTGGTGGCACACGCCTGTAATCCCAGGTACTTGGGAGGTTGAGGCAGGAGATTTGTTTGAACCCAGGAGACAGA
GGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGAGTGACAGAACTAACGAAACGCTGTCTCAAAAAAAGGAAAGAAAAGAAAGGAAAGAAGG
AAAGGAAAGGAAGGAAGGAAAGAAAGAAAGGAAAGAGAGACAGACAGAAAGAAAAAGAAAGGAAGAAAGAAAGGAAGGGAAAGGAAAGGAAGGAAAAGGA
AAGGAAGGAAGAGAAGAGAGAGAGGGAGGGAGGGAAAGGAAAGGAAGGAAAGGAAGAACGAAAGAGAGAGAAAGCTGCCCACCCAAAGTGCTGGGATTAC
AGGCGTGAGCCACTGCCCCTGGCCTATTCTCAGGTATTGGCTGGA


SNP Information

Context             (SEQ ID NO:60739):
AAATAGGGCACATTGAGTATCTGTAAAGATAACTGCATGGATCAAAACACATCAAAAGCTGGGCACAGTGGCTCATACCTATAATCCCAGCACTTTGGGA
R
TCTGAGGCAGGTGTGTTGCTTGAGTCCAGGAGTTTGAGACCAGCCTGGGAAACATGGTAAGACCCCCTCTCTACCAAAAAAAAAAAAAAAAAAAAAAAAA
Celera SNP ID:            hCV26139626
SNP Position Genomic:     17433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60740):
GAAGACGTTCCCACTGGCCAAAATAGGGCACATTGAGTATCTGTAAAGATAACTGCATGGATCAAAACACATCAAAAGCTGGGCACAGTGGCTCATACCT
R
TAATCCCAGCACTTTGGGAATCTGAGGCAGGTGTGTTGCTTGAGTCCAGGAGTTTGAGACCAGCCTGGGAAACATGGTAAGACCCCCTCTCTACCAAAAA
Celera SNP ID:            hCV26139627
SNP Position Genomic:     17413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60741):
AACTGGGGAGGCTGGGCACGACTGCTCATGCCTGTAAAACCCAGCACTTTGGGAGACCAAGGCAAGCAGATCACTTGAGTCCTGAAGTTCAAGACCAGCC
K
GGGCAATATGGCAAAACTCTAGCTTTATAGAAAATACAAAAATTAACCAGGCGTGGTAGCACATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGACGGG
Celera SNP ID:            hCV26139628
SNP Position Genomic:     14616
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60742):
GCTTGCACCCAGGAGGTGAAGGTTGCAGTGAGCTGAGATCGCGCCATTGGGCTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAATTTAAAAA
W
AAATAAAATAAATAAATAATTGATTTGATTCAGGTTAAATATTATTGTCAGTAATACTTCATACATTGTTTTTGGCTTTTCTTGTGTATTTGTTTGCAAA
Celera SNP ID:            hCV26139629
SNP Position Genomic:     13849
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60743):
TAGGAACTCTGAGTAGGTACAGAAGAAATAGTAAACACAGTTTATCTTCAGGGTTTCCATGCAGGAGAAAAACATAAAAGAACATGTCCACAAGTAGACT
R
GCCGGGAACATGTGCATATTCTAAGGGAGTGTCTGTCTCCTGAACGTGCCCTTTGGAAATTGACAGAAAAGGCTTTATTTTTCTTAGTTAGAGAACATGG
Celera SNP ID:            hCV26000380
SNP Position Genomic:     53076
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,24)   total(A,56|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:60744):
GGATACTCATAAGCCTGGAGAGATGCCTTATGTTTGCCAGGTATTGCCTTTTTCTCCAGGGAGTTTTAGCAGTTTTGCCCTCAGGAAGAATACAAAGAAT
Y
TACTAATGAATATTGTTGACCACCTACTGCATACACTCAGTTTAGGAACTCTGAGTAGGTACAGAAGAAATAGTAAACACAGTTTATCTTCAGGGTTTCC
Celera SNP ID:            hCV11834291
SNP Position Genomic:     52933
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,33|T,7)   total(C,64|T,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,11)      total(C,2|T,11) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60745):
GTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCTATTATTATTAAGTCTTAGCTTTTGACTACATGTCTTTTTAATTTTTAAGAATTTGTGATTAA
R
TAAACATGGATAAAGCATTTATGCTGCCTAGGGAGGTGTGATTGTTGTCATGAAGGAAAAGCATTTGTGAGATTGGGTTGTGAATGAATGGCTTATTTCA
Celera SNP ID:            hCV159511
SNP Position Genomic:     8571
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60746):
TGAGAATGCCCTTGAAGCAGTAAAATTTATTATTCTATTTTTATTTTTTTGAGGCGGAGTTTTGCTCTGTCGCCCAGGGTGGAGTGCAGTGGCACTATCT
S
GGCTCACTGCAATCTCTTCCTCCCTGGTTGTATTTTTAGTAGAGACAGTGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCGGACCTCAGGCGATCC
Celera SNP ID:            hCV159512
SNP Position Genomic:     8350
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,6)   total(G,5|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60747):
TGTGTTGGTGGTGTATCTCAAACTAAAGGAGGTAACAGAATGGACTCTTGGGACGAACCTGATTTAGTTAGAGTTTCCACTCCCATCTTGAACTAGTGGT
R
TAATGTAGGAAAGCAGTTCTCAAAGTGTGGACAGATGACCCATGGGGATCTCCTCTTACCCTTTCAGGGTAGCCTCAAGGTCATAACTATTTTCAAAATA
Celera SNP ID:            hCV159513
SNP Position Genomic:     8036
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60748):
CTTGTGTTAGTGGAAAGGAGAAAGTTTGAGGAAGAAATAGGATTGAGAGAAGGATGCTTTAAGGAGCTTAACCATGTTTAGGAGTCGGAGCCTGTCGGGG
K
TGGGGAAGATTGAAGACAGGGAAAACAAATTGACAAAATCTTGGAATACATGGCATGATGAGGTTGGATGAGCCTTAGGAAGGTACAAGAGATCTATCCT
Celera SNP ID:            hCV16244394
SNP Position Genomic:     49992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60749):
TTCTTCTTACAGCCAAGTGCAAGATCTGTGAATGGGCGTTTGAAAGTGAGCCACTATTTCTCCAGCATATGAAGGATACTCATAAGCCTGGAGAGATGCC
W
TATGTTTGCCAGGTATTGCCTTTTTCTCCAGGGAGTTTTAGCAGTTTTGCCCTCAGGAAGAATACAAAGAATTTACTAATGAATATTGTTGACCACCTAC
Celera SNP ID:            hCV25990867
SNP Position Genomic:     52860
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,36)   total(A,1|T,73)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60750):
GGAGGCTGGGACAGGTAGATCACCTGAGGTCAGGAGTTCGAGACCAACCTGGCCAACATGAAATTACCAAAAATTGTCTCAGAAGTTTGACAAAATTGTT
M
ATTTGTGTCATAAAATTTTGTCAAAATTTTTTCTCATAAGCTTGACAAAATGGACAATTTCAAAGAGAGTAGGAGGTATTGGAGGCCAGCTGATTAGCAG
Celera SNP ID:            hCV16244395
SNP Position Genomic:     52206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60751):
GGAGGTAGGTTACCAATGGAGTCAAAGTTCTGATTTCATATTTGGTATAAAGCAATATCTCCTATTCTTAGGCCCATATCTTATTTGAATGTTTTTCTTA
Y
AGCATGGCGGACACCGACCTGTTCATGGAATGTGAGGAGGAGGAGTTGGAGCCATGGCAGAAAATCAGTGATGTCATTGAGGACTCTGTAGTTGAAGATT
Celera SNP ID:            hCV25648355
SNP Position Genomic:     22969
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,34)   total(C,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:60752):
GGATTACAGGCGTCAGCCACCGCGCCCGGCCGGGTTTTACTTCTGTAGGCATTTACCCAACTAGAGGAAAGGGAAACGGAGGGGGCAGGGAGGGCTGCTC
S
TTGGCAAACGATTAATTTTGAGACACTATTGCTCAGGGTCTGAGAGCTTGAACTCTGAATTCGAACTGTTAGCACAATCGTTCTCAACTTCGGGGTGCAT
Celera SNP ID:            hCV11259948
SNP Position Genomic:     7603
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60753):
AGTTGTAATTCTGAACCCTTGGAAATGGAGGAAGGCTAGAGGATATGATAAAGGAGTCCAAGGAGGTAGGTTACCAATGGAGTCAAAGTTCTGATTTCAT
R
TTTGGTATAAAGCAATATCTCCTATTCTTAGGCCCATATCTTATTTGAATGTTTTTCTTATAGCATGGCGGACACCGACCTGTTCATGGAATGTGAGGAG
Celera SNP ID:            hCV25648356
SNP Position Genomic:     22908
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,8)   caucasian(A,34)   total(A,62|G,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:60754):
GTGCTTTCTTAGTCTTTAGAATCTATACTCCTCTTGGAAACCTCTGATGATCATCCATCAGTTTGGGGAAATAATCTTTCCAGTAAAGGCAGGGAGAATG
K
GTTATAGGTGAGCTCACTGACCAAGATCTGGTACTTTGTCTCTCTTTTAAAGCCCCAGGTACCCAGTTTGTTAAGCCGACAGTTGGAGTTCCACAAGTGT
Celera SNP ID:            hCV25995628
SNP Position Genomic:     36697
SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,12)   caucasian(G,31|T,9)   total(G,55|T,21)
SNP Type:                 INTRON


Context             (SEQ ID NO:60755):
AGAATCGCTTGCACCCAGGAGGTGAAGGTTGCAGTGAGCTGAGATCGCGCCATTGGGCTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAATT
W
AAAAAAAAATAAAATAAATAAATAATTGATTTGATTCAGGTTAAATATTATTGTCAGTAATACTTCATACATTGTTTTTGGCTTTTCTTGTGTATTTGTT
Celera SNP ID:            hCV26139630
SNP Position Genomic:     13843
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,3)   total(A,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60756):
CTGTTCTCGAGCTTATGCCAACCACATGATCAAGTAAGTTGGTTTTTAACCAGTGTTTTAGCTTGAGAGTTCAGATTCTTTTTTTCTTCTTCTTCTTCTT
Y
TTTTTTTTTTTTTTTGAAGACAGGGTCTCACTCTGTCCCCTAGGCTGGAGTGCAATAGCATGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAG
Celera SNP ID:            hCV25993300
SNP Position Genomic:     57136
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,28)   caucasian(T,28)   total(C,2|T,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:60757):
ATGTGGTTTCAGATTCCAAAATGTTAACTGTCCTTTAAGAAACTACTATTTGGCCTAGCGTGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCA
R
GGTGGAAGGATTGTGTGAGCCCAGGAGTTGGAGTTGAGCCTGGTCAGCATAGTGAGACCCTGTCTCTATTTATTAAAAAAAAAAAAAAAAAAAAAAAAGA
Celera SNP ID:            hCV26139631
SNP Position Genomic:     9185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60758):
GATGTGGTTTCAGATTCCAAAATGTTAACTGTCCTTTAAGAAACTACTATTTGGCCTAGCGTGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCC
R
AGGTGGAAGGATTGTGTGAGCCCAGGAGTTGGAGTTGAGCCTGGTCAGCATAGTGAGACCCTGTCTCTATTTATTAAAAAAAAAAAAAAAAAAAAAAAAG
Celera SNP ID:            hCV26139632
SNP Position Genomic:     9184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60759):
TTTTTTCATCCCCCAGCACACTATAATATAGTGAACTGGAAAAGTCCCTTCCAGAAACAGCTTGGCCAGCTTTGTGAACCTTTGACATCTGAAAACAACC
R
AGGATCCATCTGGGCTTCTCTTCCCCAGCTTTTTGCCTGATGCCATTTTATTGACAGACAATGGACTTTGAAGTCAGCCTTTGCCTTTGAGAAAGTTCAA
Celera SNP ID:            hCV27492808
SNP Position Genomic:     62056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60760):
AGTAAAAAAGTGGATTGATGTGGTTTCAGATTCCAAAATGTTAACTGTCCTTTAAGAAACTACTATTTGGCCTAGCGTGGTGGCTCACTCCTGTAATCCC
R
GCACTTTGGGAGGCCAAGGTGGAAGGATTGTGTGAGCCCAGGAGTTGGAGTTGAGCCTGGTCAGCATAGTGAGACCCTGTCTCTATTTATTAAAAAAAAA
Celera SNP ID:            hCV26139633
SNP Position Genomic:     9168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60761):
TTAACAGTAAAAAAGTGGATTGATGTGGTTTCAGATTCCAAAATGTTAACTGTCCTTTAAGAAACTACTATTTGGCCTAGCGTGGTGGCTCACTCCTGTA
R
TCCCAGCACTTTGGGAGGCCAAGGTGGAAGGATTGTGTGAGCCCAGGAGTTGGAGTTGAGCCTGGTCAGCATAGTGAGACCCTGTCTCTATTTATTAAAA
Celera SNP ID:            hCV26139634
SNP Position Genomic:     9163
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60762):
TTTAACAGTAAAAAAGTGGATTGATGTGGTTTCAGATTCCAAAATGTTAACTGTCCTTTAAGAAACTACTATTTGGCCTAGCGTGGTGGCTCACTCCTGT
R
ATCCCAGCACTTTGGGAGGCCAAGGTGGAAGGATTGTGTGAGCCCAGGAGTTGGAGTTGAGCCTGGTCAGCATAGTGAGACCCTGTCTCTATTTATTAAA
Celera SNP ID:            hCV26139635
SNP Position Genomic:     9162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60763):
AGATATTTCTTGAAAATGAAGTGAGCTTGTCACTTTTAGGAAAACAACTGACAGTATTTATTACCAGTGATAAAATTTGGGTGAAAATTAGAATTTTTAA
R
AAGTTGACAGCTGGAGTTTGACAGCTTCCTAGTACTTAAAAGACTTTCCTTATGATATCAGTGGTTAAGGACTGCAATATTTTAAAATGTTGTTTAATGA
Celera SNP ID:            hCV26139636
SNP Position Genomic:     8837
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60764):
TGGCCCTAGGGTTCTTTTCATAAGTTTGTCTAATGCTGATTCTTAGTCTTTTTTGAGACAGAATCTCACCCTGTCACACAGGCTGGAATGCAGTGACGCA
R
TCACAGCTCAGTGCAACTTAAGCCTCCTGGGTTCAGGCAGTTCTCCTGCCTCATCCTTCCAAGTAGCTGGGACTACAGGCATGTTGGCCAGGCTGGTCTC
Celera SNP ID:            hCV27459820
SNP Position Genomic:     48712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60765):
CTTCCTCCCTGGTTGTATTTTTAGTAGAGACAGTGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCGGACCTCAGGCGATCCACCTGCCTCGGCGTC
Y
CAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCTATTATTATTAAGTCTTAGCTTTTGACTACATGTCTTTTTAATTTTTAAGAATTTGTGA
Celera SNP ID:            hCV26139637
SNP Position Genomic:     8466
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60766):
AATCAGGTTGGGATTGTGCTGAACGTACAGCAAGGCCAAACGGTTAGACCAATTACACTAGTTCCAGGTAAGGAAAAATGTCTATCCATTTGGAATAAAC
Y
GGCATCCAGAAGATTTGTTTTTATTGTTCTAAATATCCTAAGTCATTTAGTAAGTACATTTAAAGAAAATCTAAAAATATAAAAATATTAATGATTTAAG
Celera SNP ID:            hCV89908
SNP Position Genomic:     35594
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60767):
TTGAGGGTGAAAGTGAGACCGAGTCTTTCTATGGCTTTGAAGAAGCTGACCTAGATCTGATGGAGATTTGAGTGTTGGGGTCATGAGGGGGTGTGGAGTG
R
GGGTGGGAACATGTGAGGGAGGGTAAAGGGGCTTAGGGAAAAGGGGGCATACCAGGTGGGGTATTTGGTTTCTATTTTTTAATTTTATACCACCACTCCC
Celera SNP ID:            hCV29003736
SNP Position Genomic:     60392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60768):
AGAGGGTAGAGTTGAGAGATATTCAGAAGATTTGTGATATTTATGATGTAGAGATGGATTAGGTGAAGGTAGCAATGCAGTAGTTAAGAATAGTGCCTAA
R
ATTCTGTCTTGGGCAGTTGGGTGAATGAGGGAACTATTTGCTGAAATAGAAACAATAGAGAAAGTATATTTGTGAGGGGGGAGATCATGAGCTTGGATAT
Celera SNP ID:            hCV9225271
SNP Position Genomic:     54323
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,13)      total(G,4|A,13) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60769):
ATAAGGGGTTAATATCCAGAATATATAAAGAATTTGTGCAGTTCAACAACAAAAAAACTCCCAAACAACCTTTTTAAAAAATAGACAAAGGACTCGCTGG
K
CGTGGTGGTTCATGCCTGTAATCCCAGCACTTTGAGAGGCCAAGGCAGGTGGATCACGAGGTCAGGAGTCCAAGACCAGCCTGACCAATAATGGTGAAAC
Celera SNP ID:            hCV29003737
SNP Position Genomic:     38684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60770):
AGGCCAAGGTGGAAGGATTGTGTGAGCCCAGGAGTTGGAGTTGAGCCTGGTCAGCATAGTGAGACCCTGTCTCTATTTATTAAAAAAAAAAAAAAAAAAA
R
AAAAGAAAGAAACTACCGTTTGTTGAGTTTTAGTATTTACCAAACACAGTTATCTGAAAAGGTTATTAAAATACTTCTCCCTTTTCCGACTAGATTTTCA
Celera SNP ID:            hCV11259952
SNP Position Genomic:     9279
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60771):
CCGATGGCAACATTAACTCACCTACAAGAAATGCTGACATGCAGGAGGAGCTAATTGCCTCCCTAGAGGAGCAACTGAAGCTGAGTGGGGAACATTCTGA
K
TCTTCCACTCCACGACCCAGATCATCTCCTGAAGAGACAATTGAGCCTGAAAGTCTTCACCAGCTCTTTGAGGGTGAAAGTGAGACCGAGTCTTTCTATG
Celera SNP ID:            hCV26000109
SNP Position Genomic:     60224
SNP Source:               Applera
Population(Allele,Count): african american(G,30|T,2)   caucasian(G,32)   total(G,62|T,2)
SNP Type:                 UTR 3


Context             (SEQ ID NO:60772):
GAGGAGAAATCACATGAACAGTTGGATTTATGAAACAGGAAACTTTTTGGCTATAGAGACCCACAATAAGATGGAAAGGGAAGATTAGAGCAGTATCCTT
Y
AGTGTCATCTGTCCCTGTCTCCAAGTGACTATGCCTCCCCTTCCCCACAGTTTCTGTGAGCCAGCAGCCAGTCTCGGCTCCAGTGCCCATCGCTGCCCAT
Celera SNP ID:            hCV25648366
SNP Position Genomic:     24040
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,36)   total(C,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:60773):
CCAGTATTGAGGCCTGTTCAGGTCATGCAGAATGCCAATCATGTGACTAGTTCCCCTGTGGCCTCACAACCAATATTTATCACTACGCAGGTGAGTAGGA
Y
TCTGAATTCCAAGGTTGCTAGAGGAGAGAAAGACTATAAACCTCTGAAAACTCTGACTTAGGGTCTTTGGCGTCATTAGAAGTGGTTCTAAGTCTTGTCT
Celera SNP ID:            hCV25648367
SNP Position Genomic:     34508
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,24)   total(C,49|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60774):
ATACTTAGGGAAGAATCTGACAGGAAGAAGCGCACAGGGGTGTGCACAAAGAAAATGACATGAATCTTTATTTTTCACTGCCAGCTTCAAGGAAAGAAAA
Y
TTTTTCTACAATTTGCATGAGGGATTTTTTTAATTGTATGTACTCATGGTTGTAAACCAAAACGTACTGTACCGTACAGAGAAAAGGAGCAAAAAACCAA
Celera SNP ID:            hCV2017822
SNP Position Genomic:     61573
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:60775):
TTCTCTTAATACTTAGGGAAGAATCTGACAGGAAGAAGCGCACAGGGGTGTGCACAAAGAAAATGACATGAATCTTTATTTTTCACTGCCAGCTTCAAGG
R
AAGAAAATTTTTTCTACAATTTGCATGAGGGATTTTTTTAATTGTATGTACTCATGGTTGTAAACCAAAACGTACTGTACCGTACAGAGAAAAGGAGCAA
Celera SNP ID:            hCV2017823
SNP Position Genomic:     61565
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:60776):
AGGAAAAAAGATACAGGTTCGTACTGTATGCATCAGGAGCATACCTACTTGGCCTCACTCATTCACTGTTGAGATGTGCTGGACCTAATTAGAAACCTTC
Y
GACCTGAAGTTTATATAAAACTGGGAAAGCTGGTCACTGCGAACAGCGTATTTGTATGTAGTAAGTTGAATCCCAGGGCACTGTCTTTGGAGGGCTTATT
Celera SNP ID:            hCV2017824
SNP Position Genomic:     58390
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;JBIC-allele(T,148|C,567)   total(C,567|T,148)
SNP Type:                 UTR 3


Context             (SEQ ID NO:60777):
CAACAGAAAGGTGGGAAGAATGATATGGTTGACATTGATCTGCTTTCTCCTCAAAAAAGAAAATTTATTAGGAACCTTTAAGGGATTTTGTCTCTTTTTT
T
CCCTCCCCCACTTCAGAAGAGAAATGTTTATCACTGCAACAAATGCCGGCTGCAGTTTCTCTTTGCCAAGGACAAAATTGAACACAAGCTTCAACACCAT
Celera SNP ID:            hCV26139609
SNP Position Genomic:     56323
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,12)   total(T,12|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60778):
GAATTCACTGGGAAGCCACTAAAGGGGTTTTAAGCCCTGGAGTGATGTGTTCAGCTTTAGTTAAGGCTTTATACTGCCTGCACTGCAGAGAATGGATTAA
R
GGAGATTGAGACTACAGTTAGGGAAACTAGCTAGAAGGCCTTTTTCAGTAGTTTAGGTGAGAGATGATAGTGGCTATTGGCTTTTGAAATAAAAAGAGGG
Celera SNP ID:            hCV2017827
SNP Position Genomic:     54128
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,13)   total(G,2|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60779):
GCATTTGTGAGATTGGGTTGTGAATGAATGGCTTATTTCATGGAGTAGCATTTTTACTTGAAAGAACGACTAGCAGACTATGGTTTTTCACACTTAGTAT
Y
TGGCAGATATTTCTTGAAAATGAAGTGAGCTTGTCACTTTTAGGAAAACAACTGACAGTATTTATTACCAGTGATAAAATTTGGGTGAAAATTAGAATTT
Celera SNP ID:            hCV11342148
SNP Position Genomic:     8732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60780):
AATGAAATATGTTATTTGGAAGATGGGCATAACTCAGTAAATCTAGGCTTTGCAAATGACCAATGCATGATGTTGCAAAATCAAGCAAAGGCAAAAGATC
Y
TTTGAAAATTCCAGACATAGCAATGGATTTTAACAGTAAAAAAGTGGATTGATGTGGTTTCAGATTCCAAAATGTTAACTGTCCTTTAAGAAACTACTAT
Celera SNP ID:            hCV11342149
SNP Position Genomic:     9033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60781):
CTTTTTGCCATACTGTATAATTAAAAATATGTAGCAGTTAAAAGTCTTACCAAAATTGGCCGGTGCACTGGCTCACACCTGTAATTCTAGCACTTTGGGA
R
ACTGAAGTGGATTGACAAAAGGATTGCTTGAGGCCAGGAGTTTCCGACCAGCCTGGGCAACATGGCGAGACCCTGTCCCTACAAAAAAAAATTTTTTTTA
Celera SNP ID:            hCV2017829
SNP Position Genomic:     51785
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60782):
GGATAGTCCTAGCTACTCAGGAGGCTGCGGTGAGCTATGATCATGCTCCAGCCTGAGCAACAGTGAGATTCTGTCTCTTAAAAAAAAAAAAAAAAAAAAA
A
GCCCAGGCACGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCTGGGACAGGTAGATCACCTGAGGTCAGGAGTTCGAGACCAACCTGGCCAACAT
Celera SNP ID:            hCV26139611
SNP Position Genomic:     52064
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60783):
GGAGGCGGAGGTTGCAGTAAGCTGAGATCACACCATTGCACTACAGCTTGGGCAGCAAGAGTGAAACGCTGTCTCAAAAAAAAAAAAAGAGGGCCGGGCG
Y
GGAGCCTCATGCATGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGATATCGAGACCATCCCAGACAACATGGTGAAACTCCA
Celera SNP ID:            hCV26139612
SNP Position Genomic:     47815
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60784):
CAATGGATTTTAACAGTAAAAAAGTGGATTGATGTGGTTTCAGATTCCAAAATGTTAACTGTCCTTTAAGAAACTACTATTTGGCCTAGCGTGGTGGCTC
R
CTCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGAAGGATTGTGTGAGCCCAGGAGTTGGAGTTGAGCCTGGTCAGCATAGTGAGACCCTGTCTCTAT
Celera SNP ID:            hCV11342150
SNP Position Genomic:     9154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60785):
AGAATTTCTTATTTATCCATGTCCTCATAGCACCTAATGTACCTGTAGACAGTGTTTCTAAATGGAGTTGCAGACCTCTTTGAGAATAAATATGAAATGT
K
TGAATCCTCTTCCTAGAAAAATCTACATTTTACTCTTTTGCAAATAATTTCAGAGAAAGCCTGGATTCCTAGAGGCCTGTTCCATAGACCCCAGATTAAG
Celera SNP ID:            hCV2017830
SNP Position Genomic:     51179
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60786):
TAATCTCTTTGCCTAATTTATAAATTAAACTTTATCATAGGTATATATATATATATATATATATGAAAAAACACGGTATGTATAGGGTTCAATACTATCT
S
AGGTTTCATGTATGCACTGGGGGTCTTGGAACGTATATTTCCCATTGGCAAAGGGCGTCTACTGTAAAGTTTAAAAAAACAGGCAAAATTAATTTTAACA
Celera SNP ID:            hCV26139613
SNP Position Genomic:     44215
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60787):
CAAAATGGAGAATAAGATGAGTGCATGTGTGCTTAATAGTCACATACATATGCACACAAACATATGTACCCTATTACACTCATAGTCTCCTTTGCACAGT
R
GTGACTGCTGATTGTCTACCACAACTGTATTTCCAAATAGGGGCATGGAAATTGTCTCTTAGCCTAAGCTTACAGAGCTTTGTTATCCTACTAAAGAAAA
Celera SNP ID:            hCV27911859
SNP Position Genomic:     55168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60788):
GAATACATGGCATGATGAGGTTGGATGAGCCTTAGGAAGGTACAAGAGATCTATCCTTCCATAATTTGGAAAACAAGCAGCAGAAGTTACAGTTGTTCAT
R
CCTATTTCCTCAAAGTAGGAGATTGTGTTAGGTGTTAAGGAGGGTGATGGTGCTCAGAGGGACAGTTAGGACAGCCACCATGGAGAATCAATTCATTTTC
Celera SNP ID:            hCV2017831
SNP Position Genomic:     50136
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60789):
ATAATTATCCTTTTATATATTATATATTTTTAATTGTTAATCTCTTTGCCTAATTTATAAATTAAACTTTATCATAGGTATATATATATATATATATATA
T
GAAAAAACACGGTATGTATAGGGTTCAATACTATCTCAGGTTTCATGTATGCACTGGGGGTCTTGGAACGTATATTTCCCATTGGCAAAGGGCGTCTACT
Celera SNP ID:            hCV26139614
SNP Position Genomic:     44178
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60790):
CTTGAACCCGGGAGGCGAAGGTTGCAGTGAGCTGAGATCGCACCATTGCACTCCACCCTGGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAGAT
S
TAACAGAATTAATCAGAAATCCTTAATAACATTCAATACCTACTTTATTTAAAAATTTTCTGAGTTGTCCCCAGAATATCAGTGGATCATTATATTTAAT
Celera SNP ID:            hCV2017832
SNP Position Genomic:     48102
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60791):
TATAATTATCCTTTTATATATTATATATTTTTAATTGTTAATCTCTTTGCCTAATTTATAAATTAAACTTTATCATAGGTATATATATATATATATATAT
A
TGAAAAAACACGGTATGTATAGGGTTCAATACTATCTCAGGTTTCATGTATGCACTGGGGGTCTTGGAACGTATATTTCCCATTGGCAAAGGGCGTCTAC
Celera SNP ID:            hCV26139615
SNP Position Genomic:     44177
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60792):
TAAAATACAAAAAGTTAGCCGTGTGTGGTGGCACGCGCCTCTAATCCCAGCTATTCGGGAGGCTTAGGCAGGAGAATTACTTGAACCCGGGAGGCGAAGG
K
TGCAGTGAGCTGAGATCGCACCATTGCACTCCACCCTGGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAGATCTAACAGAATTAATCAGAAATC
Celera SNP ID:            hCV2017833
SNP Position Genomic:     48023
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,5)   total(G,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60793):
GCGGGTGGATCACGAGGTCAGGATATCGAGACCATCCCAGACAACATGGTGAAACTCCATCTCTACTAAAATACAAAAAGTTAGCCGTGTGTGGTGGCAC
R
CGCCTCTAATCCCAGCTATTCGGGAGGCTTAGGCAGGAGAATTACTTGAACCCGGGAGGCGAAGGTTGCAGTGAGCTGAGATCGCACCATTGCACTCCAC
Celera SNP ID:            hCV2017834
SNP Position Genomic:     47957
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60794):
GCTTAAAGAATCTTGCATTTCTCAGATTTAACTCACTAGGAAGAGAAACCATTCCTTAGATTCTGTGTGCTTGCTGAATTAATGTTTGTTGATGAATATT
M
TTTTTAAAAAATTAAGGGGGATTAGCTAACAAATTATCTTCTAATAAAATAGGTTTTACCTAGTTAAAATATGGAAAAAGACTTAACATATTTTGTTCTG
Celera SNP ID:            hCV26139617
SNP Position Genomic:     33738
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,9)      total(A,2|C,9) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60795):
TGATACACAGTGCAATCTGGTAGCTTTTTAGCAGGGTTTGTTGTCTGAAAATCCTACATTTTGGGGACCCATGAGGCAGTAATGAGAATTCTTTTTTTTT
Y
TCCCCCACAGGAGTGTCATGGGCCGGCAGACATGCCTGGAGTGCAGCTTCGAGATCCCAGACTTCCCTAATCATTTCCCTACTTACGTACACTGCTCTCT
Celera SNP ID:            hCV11489561
SNP Position Genomic:     56917
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,5)   caucasian(C,4|T,12)   total(C,5|T,17)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60796):
GTAGCCTGTCAGTCTCTGGGTTCCCAGTGGTTGCTTAAAGAATCTTGCATTTCTCAGATTTAACTCACTAGGAAGAGAAACCATTCCTTAGATTCTGTGT
R
CTTGCTGAATTAATGTTTGTTGATGAATATTCTTTTTAAAAAATTAAGGGGGATTAGCTAACAAATTATCTTCTAATAAAATAGGTTTTACCTAGTTAAA
Celera SNP ID:            hCV26139618
SNP Position Genomic:     33706
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60797):
AGCAGGCAGATCACCTGAAGTCAGGAATTCGAGACCAGCCCGGCCAACATGGCGAAGCCCCATCTCTACTAAAAATGCAAAAATTAGCTGGGTGTGGTGG
Y
GGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCATGCCATTGCACTC
Celera SNP ID:            hCV2017836
SNP Position Genomic:     42422
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60798):
ACTGTGTTGTCCAGGCTGGACTCGAACTCCTAGGCTCAAGTGATCCACCTGCTTCAGCCTCTCAAATAGCTGGGACTACGGGTGCATACCACTGCCCTAG
K
TTGGATAATCCTTTTAAAGGCTTTTTTTTTAAAGCACCAGAATTGTGATTGCCTGTTTCATCCTCTGGAAATAGAACCTTGTAAGACACTTGAATTGTCA
Celera SNP ID:            hCV26139619
SNP Position Genomic:     31279
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60799):
GAATCTACTAGTAAGTTTGGAAACTCTTAAACTCAAGGGGAATATACCTTGCTGTTCACTCATTGAATGGCGCTGGGGGGAGCCCATTATATTTATTTAC
R
TGTGGGTAACAGTGTAGAGGAAGTACTTTTCATATTTGTAGCCAGTTCTTTACTTCATTCACCTTGTTTTTTTTTACAAGCCTGACTTTTATTTTGTTCA
Celera SNP ID:            hCV2017837
SNP Position Genomic:     41857
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;JBIC-allele(G,304|A,1147)   total(G,304|A,1147)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60800):
GGGGAATGGAGGGGAGCAGATAATGTTTGTTCTGTGATTTTACCATTATATTTCTAAAAGGCTACCAATTTTTTATGTTTTCTGTACTTTCTCTTTGTGC
K
TTATTACAGATTCATGAACCATATGAAACACCACGTAGAACTCGATCAGCAGAACGGTGAGGTAGATGGTCACACTATCTGCCAGCACTGTTACCGCCAG
Celera SNP ID:            hCV2017838
SNP Position Genomic:     41602
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,9)      total(G,1|T,9) ;JBIC-allele(G,306|T,1159)   total(G,306|T,1159)
SNP Type:                 INTRON


Context             (SEQ ID NO:60801):
AAAAAAAACAAAAACCTTAACAAAAAAATCACATACAAATTATTCTTAGCTTATGGGCCAAACAGAAACTGGTAGCTGGGCTGGATTTGATCTGTGTGCT
R
TGGTTTGCTGACCCCTGGCCTAGAGTTAGAACAGTAAAAGGAAGCCTCAAACATAGTGATCTTGAGCCCAGGGAGGTCAAGGCTGCAGTGAGCTGTGGTC
Celera SNP ID:            hCV2017839
SNP Position Genomic:     39798
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60802):
ACATTAACTCACCTACAAGAAATGCTGACATGCAGGAGGAGCTAATTGCCTCCCTAGAGGAGCAACTGAAGCTGAGTGGGGAACATTCTGAGTCTTCCAC
K
CCACGACCCAGATCATCTCCTGAAGAGACAATTGAGCCTGAAAGTCTTCACCAGCTCTTTGAGGGTGAAAGTGAGACCGAGTCTTTCTATGGCTTTGAAG
Celera SNP ID:            hCV8719311
SNP Position Genomic:     60233
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,26)   caucasian(T,28)   total(G,6|T,54)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:60803):
AGGGAAGAATCTGACAGGAAGAAGCGCACAGGGGTGTGCACAAAGAAAATGACATGAATCTTTATTTTTCACTGCCAGCTTCAAGGAAAGAAAATTTTTT
Y
TACAATTTGCATGAGGGATTTTTTTAATTGTATGTACTCATGGTTGTAAACCAAAACGTACTGTACCGTACAGAGAAAAGGAGCAAAAAACCAAGTCTTC
Celera SNP ID:            hCV16007856
SNP Position Genomic:     61579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60804):
TTCTTTCAAACCATATATTTGTACCTGTTGATCAGCTTCTCTTCAACTCTCTACTCCCCTACTCTTCCCAGCCTCTGGTAACCACCATTCTACTCTCTCT
Y
CATGAGATCTACTTTTTTTTTTAGCTCCCACATATGAGTGGGAACATGTGATATTTGTCTTTTTGTGCTTGGCTTACTTCACTTAGGGACTTCCAGTTCT
Celera SNP ID:            hCV16080475
SNP Position Genomic:     46766
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60805):
GGAGGATGCTGAATTAGGTTAGAGTTGACGATAGAATAACCAATTTAAAATGTCTTATAGATAAAATCTAGAATGAAGCTTTGGTAAGAAGTCTGAGCTA
Y
GTACATAAGATTATCAGCAACATATATGTTAAGGTGGAGCCATTTAAAGAAAGAACAGAAGGGACCTATGATTTACTGATTGTTGAAAATCAAAATAAAG
Celera SNP ID:            hCV11834288
SNP Position Genomic:     52587
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,10)      total(C,10|T,2) ;JBIC-allele(T,734|C,751)   total(C,751|T,734)
SNP Type:                 INTRON


Context             (SEQ ID NO:60806):
CACTATTTCTCCAGCATATGAAGGATACTCATAAGCCTGGAGAGATGCCTTATGTTTGCCAGGTATTGCCTTTTTCTCCAGGGAGTTTTAGCAGTTTTGC
Y
CTCAGGAAGAATACAAAGAATTTACTAATGAATATTGTTGACCACCTACTGCATACACTCAGTTTAGGAACTCTGAGTAGGTACAGAAGAAATAGTAAAC
Celera SNP ID:            hCV11834289
SNP Position Genomic:     52911
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(C,7|T,25)   total(C,10|T,58)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,11)      total(C,11|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60807):
TTTAGTAATGATTCTCTGATACGGAAGTGATTTCTGTAGATGGTGCTATTCCTTCTAAGTTAGTGCTGACTCGGTACTGGTGTTTCAAGTGAGAGAGCAG
Y
AGATTCTTGCTATTGATAATTTCTTGGAGAGAAAATGTCAACCCAAAATTCCTGTTAAGATTTTTTTGTTTGGTTGGTTGGTTGTTTTTGTTTCTTTAAT
Celera SNP ID:            hCV462428
SNP Position Genomic:     24473
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60808):
TCTCTAAACCACTGTTTTGACCTTATCTGTAAAATAAAAACTTTAGAGCTGGTTGATTACAAATCCTAGAGCTGGTTAATGCCTTTGCCATAATATCAAT
R
TGGTAACATTTTGATAGATTCTTTGGTATTCTTGTTTGTGATATTAAGCCATATTCACAAAAACTTGTCTTTTTTTTTTTTTTGAGATGGAGTCTCGCTC
Celera SNP ID:            hCV38974
SNP Position Genomic:     9988
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60809):
ATTTAATGTTATAAATTTCTTACAGTATAACTAATTATGGTTTTCAGTTCCTATTGTATTTAGCCCTCTATTTCTGGGCTTTAAGGGTATGGAAGTAAAC
Y
TAAAAGAATGAAGGAAGGCTGGGCGCAGTGGCTCACGCCTATAATCCTAGCACTTTGGGAGGCTTGAGGCGGGCAGATCGCCTGAGGTCAGAAGTTTGAG
Celera SNP ID:            hCV26139620
SNP Position Genomic:     29961
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60810):
GTGAGCAGAACATTTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGGCGAGTGTGGTG
R
CATTTACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGAGAGGTGGAGGTTGCAGTGAGCTGAGATCACGTTACTGCACT
Celera SNP ID:            hCV26139621
SNP Position Genomic:     29535
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60811):
TTAAAATCCCAGTTCAGTGGGCTCCGTGATGTAACTTAATTAACCAGGAGATGTGAGACGAAGAAGGGATTGTGTTTAAATGGTGGACTAAGGGTTAAGT
R
GGAGGAGAAATCACATGAACAGTTGGATTTATGAAACAGGAAACTTTTTGGCTATAGAGACCCACAATAAGATGGAAAGGGAAGATTAGAGCAGTATCCT
Celera SNP ID:            hCV28010628
SNP Position Genomic:     23938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60812):
TTGGGAGGCCGAGGTGAGCAGAACATTTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTA
R
GCGAGTGTGGTGGCATTTACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGAGAGGTGGAGGTTGCAGTGAGCTGAGATC
Celera SNP ID:            hCV26139622
SNP Position Genomic:     29522
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60813):
CCAAGGCAGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCTAACATAGTGAAACCCTGTTTCTACTAAAAATATAAAAAACTAGCCGGGCAT
R
GTGGCATGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTACAGTGAGCCGAGATCACGCCACTG
Celera SNP ID:            hCV26139623
SNP Position Genomic:     29067
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60814):
ATAACCTGAAAGACTCTGAGCAGCCAGTCATTCAAAAACATTAATAAAGTGTTTGTTGTATCAGAGCTTTATACTCAGAAATAGAAAAATAAAATAAAAT
M
CAGCTGCTGTAGTTTGTTCTTACAGAAACTTTAGTAAGGAGAAAGCCACTTACAAAAAGTGTAACTGAATCAGCTCCAAGAAATTATGTGTGTAATTGTG
Celera SNP ID:            hCV2017840
SNP Position Genomic:     37446
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,8)   total(A,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60815):
ATGATTATGAATACCACTAGTGGTAATAATAAACCTTTGAGTCCTAGAGGTTTGCTAGTGCTATGTAAGCAAAGATTAAAATCCCAGTTCAGTGGGCTCC
R
TGATGTAACTTAATTAACCAGGAGATGTGAGACGAAGAAGGGATTGTGTTTAAATGGTGGACTAAGGGTTAAGTAGGAGGAGAAATCACATGAACAGTTG
Celera SNP ID:            hCV26139624
SNP Position Genomic:     23863
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60816):
CAAAAGCTGGGCACAGTGGCTCATACCTATAATCCCAGCACTTTGGGAATCTGAGGCAGGTGTGTTGCTTGAGTCCAGGAGTTTGAGACCAGCCTGGGAA
R
CATGGTAAGACCCCCTCTCTACCAAAAAAAAAAAAAAAAAAAAAAAAAAATTAGCCAGACATGGTGGCTCTTGGTTATCCCAAGAGTTAGTTAGCTCTTT
Celera SNP ID:            hCV26139625
SNP Position Genomic:     17485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 334
Celera Gene:                 hCG19994 - 104000117760483
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRFTF0F9(41485173..41500036)
Chromosome:                  Chr6
OMIM number:                 156225
OMIM Information:            LAMININ, ALPHA-2;LAMA2


Genomic Sequence (SEQ ID NO:12494):
TTACACAAAAGTAAAGATAATAGAATAATAAATTCCTATATATTTGTTACTTAGATTCAATACTTATTGATATTTTCATGTTTTATTCCTTTTTATCTTG
TATACATAGTATATCAACAAAGCTAGTTTACTTAAACAAAACTACACTGTGTTCATATACTGTATATACAAGATTTATTTTCCAGATGTAATAGGAAAAA
AAAAAAAAACTAAATTATTTGCCCAAGAAATGCCCACCTATTCAATATAGTTCATATGTATATATATCTAGGCTTAATTTACAAATGAAAACTTGTTTGC
TACTATAAATCAGAGTGTTAAAATTAGACTTATTTATATACCTCACTGAATCTCAATTAACTAAGTTCACAGGTCAGTTTCAAAATCATCATTTGTTTAA
GATACATTCATTCATTCCCCCATTATGAAGTTGGGACTGTGCACAGAATAGGTAAGGCATATTTTATATACACATATAAATTAAATGTCATTAAGTGGAA
AAATCTAAAATCAAATTTTAAGACAATAATTTTATGAACATCATAGAGATAAATTCTTTAGCTGTTAAACTGCAATTCACAAAATTTGCATAACAATACC
CTTCCCAGCCTTAACTGATCCCTTTATTGTATATTCACTCAGGAGATTCTAGGAAATTCAGTGGAAAGCAACCGCTGGAAACTGAACAAGGTGAGAAGAG
TTTTCAGGTGCTACCAACCATAAAGTAAAGAGAATTCAGACTTTAAGTTAACTACATTAGAAATGTTTGATGAATACCTGGAGTTTTCCACTAATCTGTC
CTAACAAAGTATGAAAGTAAACTTTCATGACTTCATGGTGATCACTCAGCAAGTTTATTACTAATTAGAACCAATTCAAACTCTTCAGAGGAACATAACA
GAAACCAGTGTCTGCATTGTATTCTCCGAAATGTCCTGTAGAGATGATAAATTACAGTAGTCCTCACCTCATCTGTAGTTTTGCTGTCTGAGGTTTCAGT
TATCATGGTTAACCACAGTTCGAAAATATTAAATGGAAAACTCCAGAAATAAATAATTGAAAAGTTTTAATTTGCATGTCATTTTGAATAGTGTGGTGAA
ATCTCGGGCCATCTTGCTCTGTCGCACCAGGGATATGAATCATCCCCTTGTCCAGCATATCTATGCTGTATAGACACTACCCTCCTGTTAGTCACTTAGT
CCCATCACAGGTATCAGATAGAAAAAACATAGTATATATAGGTTTGGTACTATCTGTGATTTCAGGTATCAACTGGGGTTCCTGGAACATATCCTCTGTG
AATAAAGGAGGACTACTGTATTAGATATACAGGAAAGAAACAGGAAAATGTTGACCTTATTAAAAAAAGAAGTTGATAAAAGCAGATCCTGAGGTGACCC
AGATATTGAAATTAGCATACAAGGAAGTCAACGTAAGTTCTGTAAATATGTCCGAGAATATAAAGGAAACAATGTTTATAATGAGTGAAGGTATGGAGTA
TTTCAGAGAAATGGAAGCTGTAAGGAACATAAGAACTCCAGAAAGCTGAAAAGTAAAATACCTCAATTTAATAATTCACTGGATATGCTTAACATCAGGT
AGAGATGATAGGAGGAAGAGTAGTCAACCTAATGACTACTTTTGTAGTCATCTGGCCATAGGCCAGGATTTGGTCTACAGGCCAAAGTTTTCTCAAACAT
GATACTATTGTTAAAAGTAAATATAATGAGAATTTATTTATTTATTTATTTGTATTTATTTTTGAGATAGGGTCTCGCTCTCTTGCCCAGGCTGAAGTGC
ACTGGTGCAAGCTTGACCCACTGCAACCTCACTTCCTGGGTTCAAGCTATTCTCCTGCCTCAGTCTCCTGAGTAGGTGATATTACAGGTGCCTGCCACCA
TGCCTGGCTAAATTTTGTATTTTTAATAGAGACAGGGTTTCACCATGTTGGCCAGGTTGGTCTTAAACTCCTGACCGCAAGCGACTTGCCTGCTTCGGCC
TTCCAAAGTACTGGGATTCCTGGGGTGAACCACTGTGCCCGGCCTAATGAGAATATTTTAAAATCAGCTAGTAAATTAAAGATACATTATATGTAGACCA
AAGTATAATGACAGATGAATGGAAATGATCCAATCTAAAGAACGGAGAAAGAAAAAAAATTACTTAGCACTGCCTCAGATACAATGAACGCCCTAGCACA
CATGCAGCTGGAGTCCTAGAAAGAGAAGGAAAAACACTGGTCAAAAAACAGGTTTTAAACAAAAGCCTAAAAAAAATAAGTAAAAATAAAAAAAATAGCC
TAAAATTTCCTAAATGTGGAATAAAATCTCAATTTATAGTTCCTAGAAGCTTTGTGAATCAAGCAAGGTAAGCTTGAAAGCCAAACATAGACACATCATA
GTTTATTTAACTCTGAGGTTGGAAAACTTTTCTGTAAAGGGCCAGATAGTAAAATAAGCCATATAAAGACTCTCTTCATTCTTCCTCCTCTTCTTCCCCC
CCCTCCTAGTTCTCTTCATTCTCCCCTTCTTCTACTTCTCCTTTTAACAAACCTTTACAAATGTAAAAACATCCTTTGCTTACAGATCATACAAATATAG
GCCATGAGTCAGATTTGGTCTACGGGCCAAAGTTTTATCATACATGGTATAAGTGTCAAAAGGCAGATATAAAAAAATTTTTGAAATCATCTAGTGAATT
AAAGATATATATATATAGAACAAAGAAACAAATAATGGCTATGTTGTCATAAGGATGAATGAAATCCAGAAAATAATGGTGCCACATCTTTAAAGTGCTA
AACAAAGAAGAAAACACACACCTCTGTAACTATGTGGAAAATATCCTTCAATAATGAAAGTAGATTAAAGACATTTTCAGATAAAGGGAAGTTGAGAAAA
TTTGTCACCAGCAGCTCTGCACTACCAAAAAAAAAATGTTAAAGGAAATTTTTCAAGCAGGAGGGCAATATATATAAGCTAGAACCACAGAGTATGGAAA
ATGGGAAAGGTATGGTTAATGTAAATTTTTTTCCTTCTTTTCATTTCTTTAAGATTGTTTTCATAGTTTTGTGACTTCAAACAAAAATGACAACATTGTA
TTGCTGGCTTACAAATTATGTGCAATATATGAAAACAATAGTCCAAAAGATAGGACTATATCACTATATCATGAGCTTAAAATACTACCATCTCACACTG
GTCAGAACGGCTATTACTGAAAGTCAAAAATAACAGATACTGGTGAGGTTGCAGAGAAAGGGAACACTTATACACTGCTGGTGGGAAAGTAAATTAGTTC
AGACACTGTGGGAAGCCGTTGGGAGATTTCTCAAAAAACTTAAAACAGAACTAGCACTCAACTCAGCAATCCCATTACTGCGTATATGCCCAAAGGAATA
TATATCATTCTATCATAAAGCCACATGCATGCCTATGTTCATTGCAGCCCTATTCACAATAACAAAGACATGGAATCAACCTAGGTACCATCATTGGTGG
ACTGAATAAAGAAAATGTAGTACATATACACCATGGAATACTACACAGCCATAAAAAAGAATAAAATCATGTCCTTTGAAGCAACATGGATGGAGCAGAA
GGCCATTATCCTAAGTGAATTAATGCAAGAATAGAAAACCAGATACTGCATGTTCTCTCTTATGAGTGGAGCTAAACATTGAGTACACATGGACACAAAG
AAGGCAACAATAGACACCAGGGCCTGCTTGAAAAGGGTGGGAGGGGGGTGAAGATTGAAAATTTTATTATGCTTATTATCTGGGTGACAAAATAATCTGT
ACACCAAATCCCATGACACATAATTTACCCATGTACTACCTGAACCTAAAATAAAAGTTGGAATGGAAAATTATACAAAGAGGTACTGCTAAAAAGATAA
TAAAGGAAATAAAATGGAATACTGAAAAATATTTGTTTAACATAAAAGTAGACAGAAAAGGAAGAATGGGAACAAAAATTTTGTGACACAAATGGGAAAC
AAATAGCAAAACCCAATCATATTATTAACTATATTAAATTTAGGGACTAAACACACAGTAATTGTCAGGATAAAAAATCCATCTATTTTACTCTTTATAA
GAAATCTTTTAAATGAAAATAAAGATAGGTTGAAAGTTAAACAAAATCAGAAAAAACATACCATACAGAGTAAGCATATGAAAACTGCTGTGGCAATGTT
AATAAAAAATAAAGTAGACTTTAGGACAAAAAGTGATATCTGAGATTAAGTGGAGATCTTCACAGTTATCAAAATATTAATTTATAAGATATAAAAATCT
AAAGATTCAAAATATTCTAAATATGTATGTGCCTCATAACAGTGCTTCAAAGAACAGGAAGAAATACTGAAAAAAATGAAAGAAAGGTAGGAATCCATAA
TCGCAGATTGGAAAAATCCACATTTATTTGTTTGCCAAGAGAGACCATGCACTGAGCCATAAGTTAAATTTCAATAAACTTCTAAAGTTTGACATCTTAG
AGAGTATGTTCTCAGATCATAAACATCCAGTGTAGAAATCAAAAATATAATATTTAATAAAGCTCAAATATTTGGAAATTAACAAAAAATAAATCACAAG
AGAAATTAGAAATTATGTTAAATAAATGACAATGAACATAAAGCATTCCTGAATTCATGAGAAACAGCTAAAGAACTGCTAGAAGGAAATCTATATTTAA
AAGTTTATATGATAAAAGAAGAAAGGTGTAAAATCATAATTTAACTTTCCAAATTGATAGGTAGAAAAAGAAAATGAAATTTAAAACCAAAACAGGTCAA
ATGAATAATATAATAAATAGAACAGAATCAATAAAAACACAAAAAATAAAAAGGCAGAAGTTTTTTTGGAAAAGATTAGGAAAATTGATAAACCCCTAAC
ATAAGTGATCAATAAAAGGAGAAAAGCACAACTTAATCATTTTAAAAATTACACAGGGGATATCTATATAGATGCTATAGACTTCAAGAAGATAATAAGG
CAATTTTTAAAACTGCCAATTGCCAATGATTTGACAATTTAGATGAATTGAACAAATTACTTGAAAAATACAATATATCAAAAATTGACCCTCCCTAAAG
ATATTAATACAAAACCTATCTAACCCTATGTCTAATAAAAAATAGCCAATACAATGCACGAAGAAAACTAGAGACTCAGATAGTTTCACTAGGAAATTTT
ATCAAGCATTTTAAAGAGAATTAATTTTAATCTGAAGTTACTTTAGAAAACAGAAGAGGAAGTGCATTTCCCCGATCATTTGTTGATGCCAGTATACCCC
AATAAAAAACCTGACAAAAACATTATAAGAAAATAAAATTATAGACCAATATATTTTATGAGAGGATGTCAAAATTCTTAACCAAACATTAGTCAATTGA
ATCATCCAATATATAAAAATGATAATATATCATAACCAAATGGAGATTAATTCACAAATGCAAAGCTGCCTTCATATTTTAAAATTCAATTTGCATAAAT
TGTCCCCGTTAACAGAATAAAGGAGAAAATCCTTATGTTCATTTCAGTAGGTTTCGAAAAGCATATGACAAAATGCAAAACCATTTTGTTATAAAAACTC
TCTGCAACTTAGGAATAGTAGGGGACCTACTGAATCTGATAAAGGGTGTCCATAAAAAAATATGCAGTTCACATCATACTCCATAGTGAAATATTAGGTT
TCCCTTTAAAATTCAGAACAAAGTGAAGATGTCAGCTCTCGCCATTTTTAGTTAACCTTGGCATAAAGATTGCAAAGGAAGAAGTAAGCCTGAATGTACT
TGCAGGTAAAATGATTGTTTATGTGTACGTTTCTAAAGCATGTAGTTTAAAACTACTAGAATTAATAAAGAAATTAAGCATGGTGGGTGCTCCCGAATCG
ATGAGGAAAGCCGCTCTCCCCGGCAGATCCTCCCGGCCGGGGCGCCTCCATCACCCTGCCTGCGCCTCGGCACGCTGGCAAGGAGCCCGGGAAGAGACGC
CGGGAGCGACTTATGAAAATATGCATCAGTTTAATACTGTCTTGGAATTCATGAGATGGAAGCATAGGTCAAAGCTGTTTGGAGAAAATCGGAAGTACAG
TTTTATCTAGCCACATCTTGGAGGAGTCGTAAGAAAGCAGTGGGAGTTGAAGTCATTGTCAAGTGCTTGCGATCTTTTACAAGAAAATCTCACTGAATGA
CAGTCATTTAAATTGGTGAAGTAGCAAGACCAATTACTAAAGGTGACAGTACACAGGAAACATTACAATTGAACAATGACTCAGCTATACATTTACATCA
GATTATTGGGAGCCTATTTGTTCATCATTTCTCGTGTTCAAGGACAGAATCTGGATAGTATGCTCCACGGCACTGGGATGAAATCAGACTCCGACCAGAA
AAAGTCAGAAAATGGAGTAACCTTAGCACCAGAGGATACCTTGCCTTTTTTCAAGTGCTATTGCTGAGGGCACTGCCCAGATGATGCTATTAATAACACA
TGCATAACTAATGGACGTTGCTTTGCCATCATAGAAGAAGATGACCAGGGAGAAACCACATTAGCTTCAGGGTGTATGAAATATGAAGGATCTGATTTTC
AGTGCAAAGATTCTCCAAAAGCCCAGCTACGCCGGACAATAGAATGTTGTCGGACCAATTTATGTAACCAGTATTTGCAACCCACATGCCCCCTGTTGTC
ATAGGTCCRTTTTTTGATGGCAGCATTCGATGGCTGGTTTTGCTCATTTCTATGGCTGTCTGCATAATTGCTATGATCATCTTCTCCAGCTGCTTTTGTT
ACAAACATTATTGCAAGAGCATCTCAAGCAGACGTCGTTACAATCGTGATTTGGAACAGGATGAAGCATTTATTCCAGTTGGAAAATCACTAAAAGACCT
TATTGACCAGTCACAAAGTTCTGGTAGTGGGTCTGGACTACCTTTATTGGTTCAGCGAACTATTGCCAAACAGATTCAGATGGTCCGGCAAGTTGGTAAA
GGCCGATATGGAGAAGTACGGATGGGCAAATGGCATGGCGAAAGAGTGGCGGTGAAAGTATTCTTTACCACTGAAGAAGCCAGCTGGTTTCGAGAAACAG
AAATCTACCAAACTGTGCTAATGCGCCATGAAAACATACTTGGTTTCATAGCGGCAGATATTAAAGGTACAGGTTCCTGGACTCAGCTCTATTTGATTAC
TGATTACCATGAAAATGGATCTCTCTATGACTTCCTGAAATGTGCTACGCTGGACACCAGAGCCCTGCTTAAATTGGCTTATTCAGCTGCCTGTGGTCTG
TGCCACCTGCACACAGAAAYKTATGGCACCCAAGGAAAGCCCGCAATTGCTCATCGAGACCTAAAGAGCAAAAACATCCTCATCAAGAAAAATGGGAGTT
GCTGCATTGCTGAYCTGGGCCTTGCTGTTAAATTCAACAGTGACACAAATGAAGTTGATGTGCCCTTGAATACCAGGGTGGGCACCAAACGCTACCTGGC
TCCAGAAGTGCTGGACGAAAGCCTGAACAAAAACCACTTCCAGCCCTACATCATGGCTGATATCTACAGCTTCGGCCTAATCATTTGGGAGATGGCTCGT
CGTTGTATCACAGGAGGGATCGTGGAAGACTACCAATTGCCATATTATAACATGGTACCGAGTGATCCGTCATACGAAGATATGCGTGAGGTTGTGTGTG
TCAAACGTTTGCGGCCAATTGTGTCTAATCGGTGGAACAGTGATGAATGTCTACGAGCAGTTTTGAAGCTAATGTCAGAATGCTGGGCCCACAATCCAGC
CCCCAGACTCACAGCGTTGAGAATTAAGAAGACGCTTGCCAAGATGGTTGAATCCCAAGATGTAAAAATCTGACGGTTAAACCATCGGAGGAGAAACTCT
AGACTGCAAGAACTGTTTTTACCCATGGCATGGGTGGAATTAGAGTGGAATAAGGATGTTAACTTGGTTCTCAGACTCTCTCTTCACTACGTGTTCACAG
GCTGCTAATATTAAACCTTTCAGTACTCTTATTAGGATACAAGCTGGGAACTTCTAAACACTTCATTCTTTATATATGGACAACTTTATTTTAAATGTGG
TTTTTGATGCCTTTTTTTAAATGGGTTTTTATGAACTGCATCAAGACTTCAATCCTGATTAGTGTCTCCAGTCAAGCTCTGGGTACTGAATTGCCTGTTC
ATAAAACGGTGCTTTCTGTGAAAGCCTTAAGAAGATAAATGAGTGCAGCAGAGTTGGAGAAATAGACTTTGCCTTTTACCTGAGACATTCAGTTCGTTTG
TATTCCACCTTTGTAAAACAGCCTATAGATGATGATGTGTTTGGGATACTGCTTAGTTTATGATAGTTTGTCCTGTCTCCTTAGTGATGTGTGTGTGTCT
CCATGCACATGCACGCCAGGATTCCTCTGTTGCCATTTGAATTAGAAGAAAATAATTTATATGCATGCACAGGAAGATATTGGTGGCCGGTGGTTTTGTG
CTTTAAAAATGCAATATCTGACCAAGATTCGCCAATCTCATACAAGCCATTTACTTTGCAAGTGAGATAGCTTCCCCACCAGCTTTATTTTTTAACATGA
AAGCTGATGCCAAGGCCAAAAGAAGTTTAAAGCATCTGTAAATTTGGACTGTTTTCCTTCAACCACCATTTTTTTTGTTGTTATTATTTTTGTCACGGAA
AACATCCTCTCCTAAGTTGGAGCTTCTATTGCCATGAACCATGCTTACAGAGAAAGCACTTCTTATTGAAGTGAATTCCTGCATTTGATAGCAATGTAAG
TGCCTATAACCATGTTCTGTATTCTTTATTCTCAGTAACTTTTAAAAGGGAAGTTATTTAAAAAAAAAAAAAGAAATTAAGGATGGCTATAGGGCATAAA
GTCAATATTCAAAATTCTTTAACAATTACATTAAATAATTGGAAAATTATTTAAAAATTTTTTTTACAGTCATGCAAAGCAAAATTCTAAAGATTAATTT
AACAAAAGACATGCAAGATCTCTGTACTGGAACACTGACATGAATAAAGAAGATAGAAATAAATGGAGAGATATGCTATGTTCATTGGTTAAATGATTCA
ATATTATTATGATGTTATTTTCCTCAATACTTGTTTGCTTTTAAAGTTTAATTTCCTTTTTGACAAAATTGTATATATTTATCATGTGTGACATGATATT
TTGAATATCATTGTATATATATATTATATATATACAAATTGTGAAATGGTTATATCAAGCTAATTAACATATTACCTAACATAATTATCAATTTTTTTGG
TGAGAACACTTAAAATCTACTCTCAGCATTTTTTAAGAGTAAATACATTGTTATTAACTACAGTCACCATGCTGTACAATAAATATCTTCAATGTATTCC
TACTATCTAACTGAAATTTTATATTCTTTGACCAACATCTCCTCAAGCTCCATTTTCCATATTTGTATATAGAGTCTAAGCAATAATCCTAATATTTTCT
GTAATTGACAAGTTGATTCTAAAATTGTATAGAAACACACACAAAAAAGCCCCTACTATAGACAATCTTGAAAATAAAAAATAAAGTTGGTACATTATAT
TACCTAAATTCTAGACTTACTAAAGCAATGAAGATAGTATGGTATTAGCACGCAGAGGGAAAAATAGATGCTAGGAAAAATAGATAACTGAGGTTCTAGA
AATTGATCCATGTAATATGATCAATTGATTTTTCAACAAATGGTGCTAGAACTTCAGGTTAACCATATAAATCTGGTTACTTATTCACACCACACACAAA
CATTTACTTGATATGGGTAATAGCTCTATAAGTTAAAATTTTGGTTTTTAGGATAAAAAAATATTTAGACTTTGAACATCTACTTCATAAGAGAAGATAC
AGGAATGGTCAATAAGCCCTTACGATTAAAATTAAATCCATAATCAGATGCCATTTCACACCCACTAGATGACTAAAATCCAAAAAGATAGTCAACATCA
AATATTAGAGATGATATAGAATGACTGAAACTCATATAACTTTTTGGTGAACATTTTATACATTATTACTAATTTGGCAAAATGTTGACGGTTTCTTATA
AAGTTAAGCATCTACCTATCCTATGAAAAAAGCTTTCTATTCCTAAGTATTTACACAAGGTAAATAAAAATATGACTATAAAATAACTAGTATAAAATTA
TTTGTAGGAGCTAAGCTAAAACTGGAAATGATCCTAATTTCTATCAACAGGAGAATGGATTTAAAATTTTGATATGTTCGTGCAGAGAAATACTACTCAG
CAATTTCTTTCAAAAGAAAAAGAACTACTGATGCACAAACAACATGGATAAATCTTAACATATTATGTCGAGTGAAAAAAGACTCACTAGTATGTACTGT
ATGATTTCATTTTTATGAAATTCTCTAAGAGGCACAACTAATTTACGTTCTAAAAATCAGAACAGAGTTTGCCTAGGGGTCCACTCCTTGACTGGAAGGA
GCCATGATAAAACTTTCTGGAGTGATGGAAAAGTTTTATCTTACATCCTCAAAGATTTAGGTCAGTTTCAACTACGAAATGTTCCTACTTACCTTTTAAT
TTGAAGTTCAACTGTTTACAGAAGCTTTCAAAATTATTATTTTTTTGTATAAAACATTTTTGTATGAAAAAGCAAAAAAATAACTCTTTATGAAAGAAAA
AGCATACTTTACCCCTTTGGGTCTGAAGAAGCCATCAGTACATGTCTCGCAGTTTATACCAGCAGTGTTTTGGGTACAATTAATGCAGACACCCCCTCCA
ATGTACTTTCCACGTATATTCAAACTCAGATTTCTTCTGGCAACATTTTCATCATAATAGCATTCTTCAGCTTTTCCATGACAATTGCATGCTGCATTAA
GGAAAAATAAATTAATAAACATCAATTTGATTTCAGATACATTTAAAAATCATTTCTGTTATACATAATAGATTTTTTTTTTGAGACAGAGTCTCACTCT
GTCGCCCAGGCTGGAGTGCAGAGTGGCACGATCTCGGCTCACTGCAACCTCTGCCTTCCAGGTTCAAGCAATCCTCCTGTCTCAGCCTCCCGAGTAGCTG
GGGACAACAGGCATGCACCACCACACCCAGCTAATTTCTGTATTTTTAGTAGAGATGGGGCTTCACCATGTTGGCCAGGCTGGTCTTGAACTCTTGACCC
ATGATCCACCCGCCTCAGCCTCTCAAAGTGCTGGAATTACAGGCGTGAGCCACTGCCCCCGGCCTAGACTTTTATACCATACGGGAAATTACATTTAGCG
TACACACACACAAACATATCCAGAAAGTATCTGGATGTATTGGAGGTATTAATAAATTCACACATTTTAATAGAATTTGAAATGATTAAAACATATAAAT
TAAGCTCAATCATATGCAATTGCCAATATTTGGTTTTGACTAACGTGCAATTTTATATGGTTCAACTTACAATTTCCTATTATAACAAATAATAAATTAT
TCAATGATGGCACTGAATGATTAACAGCTAGGTAATCTGTAATGAATTACTACCATATGGAAATTTCTGTATTAGAGCCTGTGGGTAAAGAAAAGTATGT
ATAATATAATTCCTTTCTTTTAATACTAATAACAACTAAAACATAGGTTTTCTCAATGCCAGACACTGTTCTAAATGCTCCATATTTGTTGCTACTGATT
TTAATCCTCAAAAATGCTTTTAGGAATTAGGTATTATTATTATTAACCTATTTTTGTATACTAGAAACCTGAGTCCAGAGAAGTGAAATAACGTGTAAAA
GATATTCTAATCAGTATTGGAAACCAACCTCTGAAGCCAGACTCCAGAGTCTGCACTGCTAAAGACTGCCAGAATCTCTTCACATCCTACCCGGTGAATG
AAATAAGATACATGGCAGGTGCCAAGGAATTAAGACAAACCGAGAGCTAGTTTACTGGTGGCTAAGATCATGCTATTTTGCAACCAACTGTCTTGGATGT
GGGTGTGCTCTCCTCTACTTAGCAGTCATATGACATTGGAAACTTCTTAATTTCACGAAGGCTCAGTTTCCATATAATACATGGAGTGGTCAATAGTAAT
TACTAGATTGGGATATTTAAAAGCACAAGTGAGATAATGCATGTGAAATCATTAGCGTAATGTCTTATAAAGAAGTTAGCAATTGATTTTTCTTCTTTTC
TTCCTCCTTGTCTTTTTCATGTTACATTAGAAGAATTCCAAGAAGTGAAAAATCACTTTCTCCAGAAAGGATTGGGTAAGACTCTTCTAAATATGAAGAA
TTTATATTAGGATAGAACCAGGGAAATATATCGATGCAGTCTCCTTCCTACCTGACATGTTGAGTTTCTTAGGAGTACTTACATTTATTTCCACGTGTGT
GTGTGTGTGTGTAGGTGTGCTTGTATGCATACAGCTCAATCTTTTTATTTATTCTACAAAAGGGAAGGGGCATTTGTATACTGTTTAGAACCGGTTCTTT
TTACTAACAGTAAATCATGGAGCCCTTTCCATATTAGCATGTGTATCCCCTAAGGGTACACAGGGTACTACTTGAATGAAGGTATTTATCAGGTCCCTAT
TAATGAACAGTTACACAGTTTCCATGTTTCTCCCTTTACAAATAACACCACACACATACTGGGAGGACAAGGATGCCGGGTGGAGGGAGGCGCTCTAATG
TTAGAAAAGTTTCCTATTTGCCAGTTGAGTGACTTTGAGGCAAAAACTCGAGTCCTAGCATCACTTTAGTACTTGTCTCATACATGTTTTGAGAATGCTT
AGCAGAATGCCTGAAACATACTAAATACTGAGCTCAATAAATGTTAGTAGCAGTAGTGGTAGCACTTGTATAATAATGACGAGGATCATGATAATATGCC
TGTACATCTATATGAATATATCTATAGGGTAAATTCCTGGAAGCATAATTTCTAGTCAAAGGATATGTAAAATTTAAATTTTAATCGCTTAAAAAATTCC
CCTCCAGGAACGCTATGACAAATGACTTTTCCTCTAGTAGATATGATAAAACACTTTCTCCATAGCCACCAACCTTGTGTGTTATCAACCCTTGAATACA
ATTCCTGGACATAATAAGCATTCAAATATTTGTTGAGTAGAAGAATAAACACTTTGATAGGTGAAAAATAATATGTCATTGTTTTAATTGATACTTCCTT
CATTATGAGTGTCATTATCTTTTTACAAAGTTATATGTCATTTCTGAGGAATACCTGTTTTGATCTTTCTAACAGGTTAACTTTTTTCTTATTGATATGT
AAGATCTCTTAATATAGAAAGGTTATTATCCCCTTGTCATGTTTGTTGTAAATACCTTTCCCAACCTGCTGACATTTGATTTAGAATATAGTAGTTTTGC
TATGTTAATGGAGAGTTTCAAACTTTAGGGAACACATAGTAATCAATACAAATCACTAGGCATTGTAAGCAGTTTTATATCTTTAGGGCAACATACAAGA
ATTCCTTTTTTTTCTTCAGAAAGACAGTGATATGGTTTGGCTCTGTGTCCCCACCCAAATCTCATTTGAAATTGTAATCTCCACGTATGGAGGGAGGGAG
GAGACTGGATCAAGGGGGCAGCTCCCCCATGCTGTCCTCATGATAGTGAGTGAGTTCGTACAAGATCTGATGGTTTTATAAGGGGCTCTTCCCCATTCAC
TTTCTCCTCTCTCTCCTGTACCATGTAAGATGTGCCTGCTCCCTCTTCCCCTTTGATCATAAGTTTCCTGAGGCCTCCTAGCCATGCAGAAGGGTGAGTC
AACTAAACCTCTTTCCTTTATAAATTACCCAGTCTCGGGTAGTATCTTTACAGCAGTGTGAAAACGGAGTGATACAGACAGGGTCTCACTATGTGGCCCA
GGCTGGCCTCAAACTCCTGGGCTCAAGAGATCCTCCCACCATAGCTTCTTTCCAGTAGCTGGGATTATAGGAGCATGCCACTGGACCTGGCTATGAATTC
TTAAAAGCTTTGTTGTAATAGTGTATTTCAAAAAACAGTCAAAACTTCTGCTGCCAGTATAAGCAGAGGAAAACATAAAGTAACATAGACTTATTCTCAC
ACTATTTAGAATTCGTGTTGTCAAGAGTGTTTAGAACTATGAGCTACTATATGTAAAACCCTGATGCCAAATAAACGGTCCATCACACACTCTGTGCAGC
CAGGACCCTACACCTACAGCCCCACTTTCTGTCTGTAGGCTGCAGCCTACCCCGCTCTGTCTGTAACCTTCAAGAATATGGCTAGTAACTGATCACAAAG
CCATGTTTTTTCTCTATCATCAGCAACTTACTATTTCACAGAATGTCCAAGATATATCATATGAAACTGTTGTTTAGTAAAGGCTCAGCAACTGAATGAA
TATTCTATGCTTTTTAGAGATATTATCTTGCCTTATGTAAGCTAGATTGATGAAAATCCAAATTAAACTCAAATGAATTAGAATGTGATTATTCATTTTA
TGGAGGGATTTGTCATGTCATGGAAGGATTTTTCTAAATATTAAGGTGATTGGAATATGATTCAACTTGGAAAAGAAAATTTTTACTTAAGCTTTCAGGA
ATGTACTCATTGCTGAAAGTGTGATTTTTATGTATGGCTTTATGGCTAAGATCCCCATCTTGAATTTCTGCGTTTTTAAAATGTTTGTTTTTCAGTTTGG
AAATACGACCTCCCCTCTTCCCTACAGGGAAAGAAAAAAAGTGTTTCACAATTCCACTATTTTAAAAATGTGTACAGTAGCAGTTTGAAATGTCTTGCCT
TGCTTAGTCTACCTCTATTGCTAACAAGTTGCTCGATTGTTTTTGTTTTGTATTTAAACGTAG


SNP Information

Context             (SEQ ID NO:60817):
GATTCTCCAAAAGCCCAGCTACGCCGGACAATAGAATGTTGTCGGACCAATTTATGTAACCAGTATTTGCAACCCACATGCCCCCTGTTGTCATAGGTCC
R
TTTTTTGATGGCAGCATTCGATGGCTGGTTTTGCTCATTTCTATGGCTGTCTGCATAATTGCTATGATCATCTTCTCCAGCTGCTTTTGTTACAAACATT
Celera SNP ID:            hCV27339014
SNP Position Genomic:     6709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60818):
CAGAAACGTATGGCACCCAAGGAAAGCCCGCAATTGCTCATCGAGACCTAAAGAGCAAAAACATCCTCATCAAGAAAAATGGGAGTTGCTGCATTGCTGA
Y
CTGGGCCTTGCTGTTAAATTCAACAGTGACACAAATGAAGTTGATGTGCCCTTGAATACCAGGGTGGGCACCAAACGCTACCTGGCTCCAGAAGTGCTGG
Celera SNP ID:            hCV27339015
SNP Position Genomic:     7414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60819):
CTCTCTATGACTTCCTGAAATGTGCTACGCTGGACACCAGAGCCCTGCTTAAATTGGCTTATTCAGCTGCCTGTGGTCTGTGCCACCTGCACACAGAAAC
K
TATGGCACCCAAGGAAAGCCCGCAATTGCTCATCGAGACCTAAAGAGCAAAAACATCCTCATCAAGAAAAATGGGAGTTGCTGCATTGCTGACCTGGGCC
Celera SNP ID:            hCV27521050
SNP Position Genomic:     7321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60820):
TCTCTCTATGACTTCCTGAAATGTGCTACGCTGGACACCAGAGCCCTGCTTAAATTGGCTTATTCAGCTGCCTGTGGTCTGTGCCACCTGCACACAGAAA
Y
GTATGGCACCCAAGGAAAGCCCGCAATTGCTCATCGAGACCTAAAGAGCAAAAACATCCTCATCAAGAAAAATGGGAGTTGCTGCATTGCTGACCTGGGC
Celera SNP ID:            hCV27523776
SNP Position Genomic:     7320
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Gene Number:                 335
Celera Gene:                 hCG2000539 - 30000063665102
Gene Symbol:                 F2RL3
Protein Name:                coagulation factor II (thrombin) receptor-like 3;PAR4
Celera Genomic Axis:         GA_x5YUV32W1A1(8051992..8114946)
Chromosome:                  Chr19
OMIM number:                 602779
OMIM Information:            COAGULATION FACTOR II RECEPTOR-LIKE 3;F2RL3


Genomic Sequence (SEQ ID NO:12495):
ATAAAGACCTTACTGGCCTGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCGGGAGTTTGAAACC
AGCCTGACCAACATGGAGAAACCTCGTCTCTACTAAAAATGCAAAATTAGCCGGGCCTGGTGGTGCGCACCTGTAATCTCAGCTATTCGGGAGGCTGAGG
CAGGAGAATCACTTGAACTGGGAGGTGGAGGTTACAGTGAGCCAAGATTGCGCCATTGCACTCCAGCCTGAATAACAAGAGTGAAACTTCGTCTAAAACA
AACAAAAACAAACAAACAAAAAAAACCTAGCTGATAAAATAGCCTGCAGTAAAGAAGCCAGCCAAAACCAAGATGGAGACAAGAGTGGCCTCTGGTTGTC
CTCACTGCTGTACTCCTACCGGTGCCATGACAGTTTACAAATGCCATGGCAACATCAGGAAGTTACCCTATATGGTCTAAAAAGGGGAGGCATAAATAAT
CCACCCCTTGATTAGCGTATCATCAAGAAATAACTGGCCAGGCGCGGTGGCTCATGCCTGTAATCCCAATACTTTGGGAGGCTTTGGTGGATAGATCATT
TGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGATAAGACCCCCGTCTCTAATACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACGCACCTGT
AATCCCAGCTACTTGGGAGGCTGAGGTAGGAGAATCGCTTGAACCTGGAAGGCAGAGGTTGCAGTGAGCTGCAATCGCGCCACTGCACTCTAGCCTGGGC
GACAGAGTAAGACTTCGTCTCAAAAGGAAATAACCATTAAAATGGGCGGCCAGGCGCTGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCCAAGGT
GGGCGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGTGTGGTGGCA
GGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCTGGGAGGCGGAGCTTGCAGTGAGCCACGATGGCGCCACTGCACTCC
AGCCTGGGCGACAGAACGAGACTCTGTCTAAAAAAAAGGGCAACCAGCAGCCCTGGGGGCTGCTCTGTCTATGGAGTAGCCATTCTTTAGTCCTTTACTT
TCCTAATAAACTTACTTTCAGTTTACTGTATGGACTGGCCCTGAATTCTTTCTTGCGTGAGATCCAAGAACCCTCTCTTGGGGTCTGGATTGGGACCCCT
TTCCCGTAACAGTGTCAGAGGTGTTTGAACCAGAGGAACCCCGACTTGAATAGGGGCTGGGTAAAATAAGACTAAGACCTACTGCACTGCATTCCCAGAT
GGTTAAAGCATTCTTAGTCACAGGATGAGATAGGAGGTCAGCACAACATACGGGTCATAAAGACCTTGCTGATAAAACAGGTTGCAGTAAAGAAGCCGGC
CAAAATCTACCCAAATCAAAATGACCTCTGGTGGTCCTCACTGCTACACTCCCACCAGCGCCAAGACAGTTTAGAAATGCCATGGCAACGTCAGGAAGTT
ACCCTCTATGGTCTAAAAAGAGGAGGCATGAATAATCCACCCCTTGTTTAGCATATCATCAAGAAATAAATCATAAAAATGGGGAATAAGCGGCCCTCGG
GGCTGCTCTGTCTGTGGAGTAGCCATTCTTTGTTCCTTTATTTTCCTTATAAACTTGCTTTCACTTTACAGACTCTCCCTGAATTCTTTCTTGCGTGAAA
TCCAAAAACCCTCTCTGGGGGGTCTGGATCGGGACCCATTTCCTGTAACACTGGGAGGCTTTGGTAAGAAACGGACTGTCCAGACATCTGGTGGCCACAG
AGTGTTCAGTCTGCCTTCGCTGCTCTTCCTGGCTGGGAGCCACAAATCTTCCATGCTTTACTTTCTAAATACCACTCCCTTCCACCCACCGCTCTCTACT
TCCACTGCTCCCATCCTGGTCTAAGCCACCATCGTCCTTTGCCTAAATGATGAAACAGCCTCCCTCCACCCTCCCTGGCTCCGCTCCAATCACTTTCCTG
CAGAGCAGCCAGAGTGATCACTTTCAAATGCAAACCTGAACTTGCAGCTCCTCCGCTCAAAGCCCTTGGATGGTTTCCACCAGCGTGAATGCTAAAGCCT
GAACTCAGTGCATAAGGTGCTGTGTGTTCCGCTCCTCTGGCTGCTCCGGGATTATCTTGTACTCTCTTTCTTCCCCTCCCTCTCTGCAGCCTGGGAAACT
CGTCTTAAAAAAAAAAAAACTCTTGAAATGTACCATGCTGTCTCCCACCTCAAAAATCACAGCTGTTCGTGATTTTTCTCATGATGAATGCCTACGCATT
CTTCAGATCTCAGCTAGAATGCCACCTCCTCTGGGAAGCCTCCCTCATCTCCTGCAAGACTGGGTTAAGTTTCCCTAGGTAACAGGTGGTATTTTCCAAA
AATAGCCACAACATATTTCCTGTCCCACATGATACTCTTGGCCATTTGCCCTCCTCTTGAATTTAGGAAAAACTTTGTAACAGCCTGTATGGAAAGAATG
CAATGGAAATGATTCTGCGTGACTTCCGAGTCTGGGTGAGAAAAGGTAATATGGGAGCTGGGTGCAGTGATGCATGCCTGTAGTCCCAGCTACTCAACAG
ATTGACGTGGGAGGATCCTTTGAGTCCAGGAGTTTGAGGCCAGCCTGGGCCAGCCTGAGACCCTGAGTCCCACCCCAACCCCTGCCATCTCCGGAAGAAG
AAGAAGGAGAAGGAGAAGAGGAAGAAGAAGAGGAAGAGGAAGAAGAAAAAGAAAAGATGATATGATTCCCACCTGGCTCACACGCTCACTTGTTCTTAGA
ACGGTAGTTGTGAAGAAGCTCAGGCTGCAAGGAGACCACATGTAGGTATTCCAAGCAACGGCCCCAGCGAGGGTCTCGGCCTGTAGCCTGTAGCAACTGA
CATACATATGTGTGAGCAAACATTCAGGTGATTCCAGCCCCCAGACTTTGAGCCACCCAGCTGATGCCAAGGTTGAGTTATTCCTCCCAAGCCTGCCCAA
ATTGCAGATTGAAGAGTAAAATGAATGTCTCTTTTCTTTCTTTTTTTTTTTTTTTCAAGACAGGGTCTTGCTCTTGCTCTGTTCCCCAGGCTGGAGTGCA
GTGGCGCAATCTCAGCTCATTGCAACCTCCACCTTCTGGGTTCAAGCGATACTCATGCCTCAACCTCCCAAGTAGCTGGGATTACAGGTGTGTGCCACCA
CACCTGGCTAATTATTGTATTTTTAGTAGAGATGGGATTTCACCATCTTGTCCAGGCTGGTCTTGAACTCCTGGCCTCATGTGATCCACCCACCTCTGCC
TCCCAAAGTGCTGGGATTACAGCCATGAGCCACTTGCCCCGTGAATGTTGTTGTCATTTGAAGCTTCTAAGTCTTGAGCTGCTTTTTATTTTCTTTTACA
GAAAGCCCAGACCTTACAATGTTTTTATTTTTTCTCTCCATTTTTCTTTCTTTTTAATGTTTTTGTACAGATGGGATCTTGCTATGTTGCCTGGGCTGGT
CTCAAACTCCTGGCCTCAATGCATGCCCCCACCTTGGCCTCCCAAAGTGCTGGGATTGTCAAGGGCTCATTTGTTACACAGTCATAGCAACAGAAATTTA
GGAACTGTTACATGTATACCTTCTCTTTAAAGTATTTGTTACATGTGAAACTTTACATTTGTGTGATTACTAGATTCCTGTCTATCCTGAGAGACTAAAA
GCTCTTAACGGCCAAATTTGCGTTCCTTTTTACCATTCTATTCCTGACACTTAGCAAGGTGCCTGGTAAATGATGCACTCGATGCCAATTTACTCTCAAC
TTTCCTGCACCTCTTCACTTATAAAAAGAGAAAGCACTTGGTCATTAATTGAACGTTCACTTATTTGATGAATGCTGACTGAGAGACTGTGTCAGGGATT
TGTATTAGAGACGGACACAAAACAAATATGAAATACAAGGGACTGAGGGGAGACATAGAAGGGGACTGGGAACACTTCCTGAGGGAAAGGGATATTTGGG
CTGCGTTTAGAAGGATGTATAGGTGTTTTCTGAATAACAAAGAGGCATGACAGTACTTCTGGCAAAGGAAATGGTGAGTGCCAATGCTTGGGACCAGGAA
GCAGCCAGGTTGGTCAGGCAATTGTGTGAAGTTCTGCACAGAGGCAGGCAGTTTGCTTGGAAAATCCTGCAGGAAAAGGTTCCTAAGGACCAATTCTGAC
AGCCTGCAATGTAGGTGCTTAGATTTCATCTCATTAGAAATAGGAAGACCTTGGAGGTTTGGAAGGAGTGGTGGAAAAAGTGGAGTTTTTTGTTTTTCTG
TTTTTTTTTTTTTAAGAGATGAGATGCTCTTTAAAAAAAAAAAAAAAAAAAAGCACTGCTATGCTTCCCAGGCTGGGGTGTGCAGTGGCAAGATCATGGC
TCACTGCAGCCTTGAACTCTTGGGCATGAGCAATCCTGCCTCAGCCTCCCGAGTAGCTGGGACTAAACGTGTGCACCACCACGCCCAGCTAATTTTTTCA
TTTTATTTTATTATTTAATTAATTAATTAATTAATTTTTTGAGACAGAGTTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCAC
TGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCTTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACAAAGCCCGGCTAATTTTGTATT
TTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTAATCTCCAACTCCAGACCTCAGGTGATCTGCCCGCCTCGGCGTCCCAAAGTGCTGGGATTACA
GGCGTGAGCCACGGCGCCCAGCCAATTTTTTCATTTTCTTTTTCTTTTTTTCAAGGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTGCACCG
TGTTAGCCAGGATGGTCTCTATCTCCTGACCTCGTGATCCGTCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATCCCCAGCCTAG
AGTTCTTGATAGTATCAGGGCTGAGAAAGTACCAGAGTTAGAGCCAGGTGGGGTGGCACTAAAAGTACAAAAAATTAGCAGGGCGCAGTGGCGGGCGCCT
GTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGTGTGAACTCGGGAGGCGGAGCTTGCAGTGAGCGGAGATCGCGCCACTGCACTCCAGCCTGG
GCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAGTACCAGAGTTAGGAGGCTCCTAAACTGGTCCAGATGGGAAGTG
ACGGGGCCAAGGATAGGGAAGTGAAGATGGGAGGAGTAGGACTAACTTAAAGGCCATTTAGCAAAAATTCACCACGCAAGGCCCTATATTAGGGCGCTGG
GGGCTCATACCTCATCGTCCCGTCAACTCTATAAAGCAGGGGCCAACAAACTTTTTCCATAAAAGGCCAGATCGTAAATACTTCAGGGTCTGCAGATCTG
TAGGATCTTTAGCAACTACCTACTCTGTTGTAAGGCGAAAGCAGGCAGAGAAGCCAGGTAAACGCGTGGGCGTGTCTGTGTGCTAATAAAACTTTATTCA
GGGACCCTCAAATGTGAATTTCACAAACTTTTCACAGGTCATAGACTATTCTTCTTTGGATTTTTCCCCCGGCTATGTAAACATGTAAAAATAATTCTGA
GCTTGCGGGGCCGGACAAAGTAGGCGGCGGGTCTTGGCTCGCCTACCCCTGCTATATAAATCATTAATTATGATACCAATCTTAAGGAGAAGGTCTTCAG
AAGAGTCCCTCAAAGAGCACCGCCCCTCAACGTCATCAAACCCCGCCTCCAAAGGCGGAGGCTGCGCATGCGCGGCAGGACCTCGGGCGGGGGCGGGGCG
GGGCGCAGCTCCGACTTCGGACATGGCGCACGCTGGCGGTGGCAGCGGTGGCAGCGGTGCCGGCGGCCCCGCGGGCCGGGGGCTGAGCGGCGCCCGCTGG
GGTCGCTCGGGCTCCGCAGGCCACGAGAAGCTGCCGGTGCACGTGAGTGGCGTCCCCGCCCTCCCTCGGGGAACCCATCTTCTGGACCCCGCGGGCGGGC
GCCCCTCACCCAGGCCCCGCCCGGCCCCAGCCCCACCTCGGCCTCCCCTCTGCACTGCCCCGGACCCCTCACCCCTCACCTCTCACCTCGGCCCTCCGAA
AGCCCAGCCCATCCCCTTCCCCTCAGGGACCCCGGCCCCTCGTCCCCTCGTTCCGCGGCCAGGGCCCACCGGGACCCTCCCCCTCTCTGCAGGTAGAAGA
CGCCCTCACCTATCTGGACCAGGTGAAGATCCGCTTTGGCAGCGACCCTGCCACCTACAACGGCTTCCTGGAGATCATGAAGGAGTTCAAAAGCCAGAGG
TACCAGCGGGGCCCCTCTCCACCTCAGGGGACCCCCCTGGGCCGGAATCGGGCCTAGCGGGGTGAGACCTCCCCTCTCCAGCCTGCCCCCTTAGCCGGGT
GACCTTGCGCAGGTTGTCCAATCTCTCAGAGCCCTAGCTCCTTCTCGTAACAAAAATGGAAATGGGTAGTACCCACCTTGTGGAGCTTTGTGGGGATTCC
TGGAAGCAGGACAGGGATCTGGGGGGAGGCAGGGAGGGCGAGGCCGTGCACACTCATAGAGTCAAATCCTGCCTTGATTTAATATGTTGATTTTTATATT
AGTTTTGTTCATGAAAGATTTGGTGGGACCCATTTTGATTTTTATTTTCAAGCGCTGTAAAATGTTATTGTCTTGATGATTGAAATTTTTGGCACCCTCT
TCCCCTTTAATCTTGTCCTCAAGATGCTTCTCTGGGCTCACTGTGGTCCCAGGCCTGCTTGGAAGTAAGACGCATAAAATGCTTAGTAAGGGAGCTGGCA
CACAGAAAACGTTTAAAACACATGAGATGATTTTGCAGGCCCAGAATCAAGGAAGATTACAGATAGATGGGAAACCCTGGGATCATGCCCTTGTTTTTAT
AGGAGACTCACTGAGRTTTGGAGTGGGTAAGGGACCCACCTAAGTGGCAGAGGTGTCACTAGAACTCAGACCCTCTGACTCAGATTCTTGGAAGTCACAT
SCTTACCATACTGCTGCCCCCTCTTAGGAAACATGGTGGGGCTGGCCTGGTTTCCTTCCGGGAGCCCAGTGCTAAGGGCTGGGCTGCAATGCAGCCAGAA
GGGAGACCCCATCTCTCCCCTCCTATTTTTCTTACACCTTTCCCATTCTTGGCAGTACCATTGGTATTTATGCATTGCAATTGTTTGCTCAGATGGAAAC
CTGTGTCATAGTCATCTCTATCTGATACAAAATGAGGGAAGTTTTCACATTGCTTAGAGGACTTTGGCCTCCTGCCATTTCTTGGAGTCCAGGCCTTGCG
GTTGGCTCTCCTGACATTTTCAGAACCGAGTACCCATTCTTGGAGTGTTTTAGGGGAGCTGAGCGATGTCAGTATTCTCTGGTTCTCACCAGGAGGGAAC
AGGGAGCTCAGGCCTAGCCAGTCAGGAGATAGGTCATGGTGTACAGATGCTATCACATGGGGGCACTTTTTTTTTTTTTTTTGAGATGGATTCTCGTGCT
GTCGCCCAGGCTGGAGTGCAGTGGTGTGATCTGGGCTCACTGCAGCCTCCGCCTCCCGGGTGCAAGTGATTCTTGTGCCTCTGCCTCCTGAGTAGCTGGG
ACTGCAGGCAYGCACCACCACTCCAAGTTCGTTTTTGTATTTTTAGTACAGACAGGGTTTCACCATGTTGACCAGTCTGGTCTCGAACTCTTGACCTCAG
GTGATCTGCCTGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCTGGTGGGTCACATTTTAGGTTCCTTTGTTGTCTGTTGAGAA
GGTTTTTATGTGGCAGTATCAAGGGAGTGGGGAATAGATTATATTTTTCATTTATTTCCCAAGACCCTTTTGCCCACTTCCGTTGTTTCTTCTAGCATCG
ATACTCCTGGAGTCATCAGACGTGTCTCGCAGCTCTTCCACGAGCACCCTGACCTCATTGTTGGATTCAACGCTTTTCTTCCCCTCGGATATAGAATAGA
CATTCCCAAGAATGGCAAGTTAAACATACAGTYGCCTCTGACAAGCCAGGTATGCCACTACAGTGGTTCGGGTGATCTCAGCCTTCACCGAGTATGTCTT
GCTACTCAGGTTGGGCCACGTGTCTCTCCTGTATCATTGCTAGAAAGCCACTTAAGATCTGTTCTTTTTCTAGACGTGCTCATTGCTTCTAGCACAAATC
AAAATAGATATGGAAACACCTACACAAGCAGCCTCTGCCTCCCAAATTGATCTGTTTGGAAGATTTAAATCAAGAGTGGATGTCAGGGAGGTATCCTCCT
AAYGCAGAATTTTGTGTGAAGTCTAAATAACCACCTCAGCAGTTGCTGAGGTCTTGGCTTGAGGCTTTCCCAGCGAGCATACCAGGCAGGCTTGCCCTTG
TATTTAAGCATGTCCTCGTCTGCCTCTGATCACTCTCAGTACCACCTACAAAATAAAGTGGTCGAGATGGTGTGTGAGTAGCCACGTTTATGTTGGCTGT
GTTTCATTTAATTGTTGATAGGATCATTAGCTCAGCTGGGACTCCTGGCTTTGCTTTGGTCCCTTTTTTCTTGGGTGATAGGTGCTGGCCCTCTTTTTTT
TTTTTTTTTTTTTTTTGGAGACGGAGTCTGGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCAGTGCAACCTCCGCCTCCCAGGTTCAA
GCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTGCACCACCATGCTTAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCTTCA
TGTTGGCCAGGCTGTTCTTGAGCTCCTGACCTCAAGTGATCTGCCTGCTTCAGCTTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGTGCCCAGCCT
CCTTTTTTTTTTTTTTTTTTAAGACAGGTTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCCATCATATCTCACTGCAGCCTCAACCTCCTGGGCT
CAAGTGATCCTCCCGTCTCAGCCTCCTAAGTAGCTAGGACTACAGGCGTGCACCACCACGGCCAGCTAATTTATTTATTTTTTTTGTAGCGACAGGGTCT
CACTATGTTGCCCAGGGTTGGTCTCGATCTCCTGGCCTCAAGCGATGTGCCCACCTTGGCCTCCCACAGTGCTGGGATTACAGGAGTGAGCCACTGTGCC
TGGCTCACTGCCCCTTCTATCTCTGCAGTCTCTTCATGCTTGAGCTTACTAGCGCCTCTGAGAAAAAGAAAGCCTACTTAAGATTTCCTTTTATAAGATG
ACCATTGTCATTTTTTCCACCTCAACACTATTTCCCATTTAAGGCATAATTCTTTGCTGTTGGGGGCTTCCCAGTGCATTGTGGGGTGTTTAGCAGGATC
TGTAGCGTGTACCTACCAGACCTTCACTCAGTTCTGACAGCCAGAAATGTCTCCAGACATTGCCAGGTGTCTCCCTGGGGGGCAAAAGTGCCCCTGTTGA
GAACCACCGGTGTAAGTGGACCAGCTCTCCCAACCTCCTCCAGTCCTTGCCTCGAGAGTTTTAGCAGGGAGTGTCAGAATCTACTGCTGGAAGCACTTGG
TAGGTCTTCTTTGATGGAAGAGATGATAGAGCGTCCAATCAATTAGGGATCTGACACTCCGCAGTCAGTTGGAAAGAGAACAGCGAAGGGTAATGTGGCA
GTGCTTTTGTATTAATTCCATGTGCAAGGTGTGTGTCAATTCTGCTGCTTCTCGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGGGGC
CGAGATGGGTAGATTACAAGGTCAGGAGTTCAAGACCAGCCTGGCCATCATGGTGAAACCCTGTCTCTACTAAAAGTACAAAAATCAGCCAGGCGCAGTG
GAGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCATGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCAGAGATTGTGCCACTGCAC
TGTAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAATTCTGCTGCTTCTCTGTGCAAGACCCTCTCTGCCATCAGCCTGTTGTCTCCTG
AAAGCCAAGGAGCGAGTCTCAGGGTTTTTTTTTTKCCTTTTTTGAGAAGGAGTCTCGCTCTGTCACCCAGGCTGGAGTTCAGTGGCGCAATCTCGGCTCC
CTGCAACCTCCACCTCCTGGGTTCAAGAGATTCTCCTGCCTCAGCGTGCTGAGTAGCTGGGATTACAGGCACGCTTCATCATGCCCGGCTAATTTTTTTG
TATTTTTAGTGGAGATGGGGGTTTCGCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCCCGTGATTCGCCCACCTCTGCCTCCCAAAGTGCTGGGATT
ACAGGTGTGAGCCACCGCACCCAGCTGAATCTCAGCTTTAAAGGGGAACTTGGAAGCGTGTGGCCACTGAACTCTGAAGAGCCTTCCATTTCCTGTTTGC
AAATGAAGCCCCAGGATCCAGATGTACTGCTTGTGTCTTAGACCATGAAAGCCTTAGCAAGACTGATCTCCAGAACAGTCACGACTGCGGGAGAAAGCCA
AGCTCATTTGCAATAGCAGCGTCCACCAGAGCACTTTGCAGAGCCTGAATGCTGTGGAAACTCTGGGTCTCGTTCCTGTCACTCACTCAGAAAGAGCCAG
AGTGAAAAGATGTGAACTGTGCGTCCTGCATGTGGAAATTGCCTTTCAGCAGAGTCCCTGCCCGTGGAGTAACTCGGCTTTCAGGGCTAGATCTTGACAG
GCGCCACACTGGTTGTATTTGGAGTTGGCTCTTCCTTTAAGTAGCTGCGGGTCCCCAACCGTGGAGGGCTGGCAGTCTTGTCTCCCCGTAGGTGGCTTAG
GTGACAATGATGACGGTGCAGACCCATCGACTTGGGGAAAGGCTTGAAAAGAACTTTCACTTAGTAGCTACTCAGCAGGGCCTTGGTCATCGTGCTGCAG
CCTGGGAACAGTCATTTCCAGGCTTAGGTGTAGAAGTTTGTTCTCTTCGGGGGCCCCTGGGAGCCCACTGGCTTCCAGTTGATATTGACACAGGTGCTGT
CAGGTTTCCAGCCCTGTTTCCCAGCAGTCTGGGCTGTTGTTTGTGTGGCTTCAGGACAGAAACATGAGAGATATCCCAGGTCCAGGCCATGACTCGCGTG
GCTTCAGGAGTCCTTTGAGCTTTCGGCTCCCTGGAGTCCTTTGAGAGGCCATCGTCTGAAAGCCTCACAGGGTTTCCCACACACAGAGGCCCTGGTGATA
TTCTTTCTTTCTTTCTTTTCTTTCTTTTTTTTTTTTTTTGTGACAGAGTTTCAGAGTTTCGCTCTTTACCCACGCTGGAGTGCAATGACACAATCTCGAC
TCACCGCATCCTCTGCCTCCCCAGTTCAAGCGATTCTCCTCCCTCAGCCTCCTGAGTAACTGGGATTACAGGCATGCACCAGCGCGCCCGACTAATTTTG
TATTTTTAGTAGAGACGGGGTTTCTCCATATTGGTCAGGCTGGTCTTGAACTCCCGACCTCACGTGATCTGCCTGCCTCGGCCTCCCAAAGTACTGGGAT
TACAGGCATGAGCCACTGCACCTGGCCATCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTGTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTTG
GCTCGCTGCATCCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCTGCCACCACTATCAGCTAATTT
TTGTATTTTTAGTAGAGATGGGATTTCACCATGTTGGTCAGGCTGGTTTCGAAATCCCCTGACCTCATGATCTGCCCACCTCGGCCTCCCAAAGTTCTTT
TTTTTTTTTTTTTACTTTAATTGAATTATTTTTTAATTTTGAGACACCATTTCACTGTCACCCAGGCTAGAGTACAATGGCGTGATCTCAGCTCACTGCA
GCCTCCGCCTCTGAGGTTCAAGTCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGCTATTACAGGCATGTGCCACCACACCCAGCTAATTTTTGTATTTTT
AGTAGAGACAGGTTTTCACCATGTTGGCCAGGCTGGTCTCGAACCCCTGACCTCAAGTGATCCCCCACCTCAGCCTCCCAAAGTGTTGAGATTACAGGCG
TTAGCCACTGTGCCTGGCCTTTTTTACATTTTTAAAAYAGAGACAGGGTTTCACCATGTTGTCCAGGCTGGACTCAAGTGATCCTCCTGCCTTGGCCTCC
CAAAGTTTTGGGATTACAGGTGTGACCCACCACGCCTGGCCAGTATTCTCTGTYGCTTAGTTTTTCTAGTTTGACTGTTTTGAAGTATCTTTTTCCCCCC
CCAATTTTATCACAAAGCCTGCCAGCTACTGACAAGTAGGGAGTGGCCCATAGGTGGTAAGGAAGGTGAATAAGAGAGTCCCAGCCTCGGGCAGCCTTTG
GCGCAGGGTGTCTTCAGCTTTGGGGGCCAGACTGTTCTTTATGGCGAGGTGCCGTCCTGCACACTGAAGGGTATTTGAGCAGCCTCCCTGGCCTCCACCC
ACCAGATGCTTCTAGATGTGATAACCTAAAGTGTCTCCCGTGTTGCCGAGTGTCCCCTGGGTGGCAGAGTTGCTCAGGTTGAGAACACGAGTCTAAAGGG
GAAGACAGACACAGGCCGTGGTGTGTGGCCAGTGACGACCTGGGGAATTTGGAGGAAGGAACAGCTTCTTACTGGAGCCTTGCCTTGGCCTCCTGAGTCA
GCATCATTTACTGTCTGGTAATTCAGGCCTTGGTTGTAATGTCAGCTCCACAGAGAGCCCCCTAGTCCCTACCCTGTGTCATTCTTACACCACCCTGGGT
TATGTATTTCAAAACGGCTAGGAAAAGAAGTTCAGAATGCATTGTTTCTTATTGGTTTTCCTTCCTTGGTTGACGGTGAGTCCTTAAGATGAGGTGGGCC
CTGCACTGTCTTGTTCATGACTGTATCCACCTTCTGGAACGTCGCCAGGGAGCAGTGCATGGTGCAGGAATGAGAAACTGGATGCTGGTGGGAACATGGC
CGCTCTCAGCTAGCGGGTCCTCTTCAGGGCAGACCCTGCCTCGTGGAAGATGACAGCTGGCTTGGACAGAGACAGAGATAACCCCTTAACGTGCAGCTCC
TAACTTAAGCAGCCCCTCGACATTCAAAGGGAGCCCCCTGGCTGTTCTCTGGGGGAAGTCCCGCTAGTTGTCAACAAGTCRATTCTTGTGTTTGTATCTT
CTTGGCTCATGGAGCAGGCGGTGACCCCTTCTCCGAGCCAGGCCCTGGGGTTTATTCAGAGGCCCTGCTYTCAGGGTTCCTGCACAGTCAAGGTGGGGGG
TCCGATGAGAAACAGATGGGCAGATGCGGGTGGCGCATGGGAGAGGGCAGAGAGAGGATGGAGCAGGCCAGGGAAGGGTGGGAGGAGGTTGCTGTGGGCA
GGACCTGTTTCATGAGGGACTGTTCCTGGTGGGGAGTGATGGCCTGAGGTGAGAGTGAGTGGGTGTGCTTGAGGAACAGCCAAGGAGAACGGCAGGGTCA
GGAGCTGAAGGAGAGAAGGGGGAGAGGGAGCCAGGAGCRTGAGAACCACTGGATGGTTCTGGGAGGCGGTTCTGCTGCTGTGCTGAGAATGAGGGGTCAG
GAGGCCCCTGGGAGACCAGGGAGGGGCCCCAAGTGATGGAGGCGGGGTAGACAGTGATGGAAACAGAGTGGATGGTGACAAGGACCAGAGAGGGTCCCAA
GTGATGGGAACAGAGAGGATGGTGACAAGGACCAGAGACAATTCCCAAGTGATGAGGACAGAATGGATGGTAACAAGGAGTAGGGAAGGCCTCCCGAGTG
ATGGGGACAGAGGTGGACAGCAATGGCGACAGAGTGGATGGTGACAAGGACCAGAGACAGTCCCCAAGTGATGGGGACTGAGTAGACAGTGATGAGGACA
GAGTGGATGGTAACAAGGACTGGAGAGGGATCCCCCGAGTGATGGGGACGGAGTGGACAGTGATAAGGACCAGAGAAGTGCCCTGAGTGATGGGGACAGA
GTGACTGGTGACAAGGACCAGAGGGGGTTCCCATGTGATGGGGGCAGAGTGGATGATGATGTAGATCAGGAGCGGGGGTGTCAGTGAGAGTGAGAAGTCT
GGGCTGATCTCAGGATGCCTGATTCTCTGGGTAAAAGTGTGGGCCCCTGCTGAGGTGCATAAGGCCAGGGCAGTTGGGGGGCTGCTATGTGTCTGTGCGG
TGCCTGCCATTTGAGGCTCTGTTAATCAGTACCCAGGCGGGGCTGTGTGTGGATGCTCAGATGGACGTGTCGGCCACGCAGGATGGTTGTCATGGTGTGG
GAGGCAGTTCGAACTCTGCCTGATGAGGCCACCCAGGGCACGGGGAGAGAGGAGGTGCCGGAAGAAAAAGAAAACTGGGCTTGTGCTGGGTGGTTTAGAG
CAGCACAGTCGGCAAATGGTAGCTTGGAGACCAAAGCCAGCCTGGCTCGGTGTGATTGGTTGTGATTTTTACATTTTCAAAGGATTAAATTTTTAAAAAT
GTTTCATATTGTGATACTGTTCACATAACATAAAATCATCATCATTTTAAAGTGTTAGTATATTCACAATACTGTACAACCATCACCACTAATTCCAGAA
CATTAACATCACCCCAGGATCAAACCCTGAACCTCCTAATTCTCCTCTCCCCAAGCCCCTGGCAACCATGAGTCTGCTTCCTGTCTTTATGGATTTGCCC
GTATGGACATTTCATATCAGTGGGGTCATACACCGTGTGGCTGTTGGTGTCTGGCTTCTCACTCAGCATCGTGTTTTCCGGGGTCATTCACATCGGAGCC
GGTATCAGTGCTTCCTTCCTTAAGACTGAATCATTCTCCACTGTATGGCAGGACCACATTTCGCATGCCCACTCTTCTGTTGATGGATGTTTGGCCTGTT
TCCACCTTTTGGCTGTTGTGCATAGTGCTGCAACGAACATTCATGTGTGAGGATGTGTTGGAACACGTGTTTTCTTTTTCTTTTTTTTTCGAGACAGAGT
CTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGGTCTCAGCTCACTAAAACTTCTGCTTCTCAGGTTCAAGCAATTCTCCTGCTTCAGCCTTCCAAG
TAGCCGGGATTACAAGTTCCCACCACCACGCCTGGCTAATTTTTTTGCATTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGCTAGTCTTGAACTC
CTGACCTCGTGATCCGCCATCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTTCCAGCCACCGCGCCTGGCTTTTTTTTTTTTTTTTTTTTGAGATGGGG
TTTTGCTTTTGTTTCCCAGGCTGGAGTGCGGTGGTGCATTGTCGGCTCACCACAACCCCCTGGGTTCAAGCAATTCTTCCTCCTCAGCCTCCCAAGTAGC
TGGGTCTATAGGTGCACACCACCACACCTGGCTAATTTTTGTATTTTTAGTGGASACGGGGTTTTGCAATGTTGGCCAGGCTCGTCTCAAACTCCTGACT
TCAAGGGATCTGTCCACCTCAACCTCCCAAAGTGCTAGAATTACAGGTGTGAGCCACTGCGCCTGGCCTGAGCCACTGTCCCTGGCCTGAGCACCTTTTT
TCAGTTCTCTTGGTTATAGACCTGGGAGTGGGATTACCAGGTCATATGGTAGCAATAATTCCATGGTCAACCTGTTGAGGTAACTGCCACACTGTCCCTC
GTGGTGGCTGTACCGTCCCATCTGGCTCTTTTTGCCAAGCCCTGGTCTAGAGCGTGGTTCCCCATTTTGTCGCAGTGGCACACTTTAGGGGATCAGAGGG
TGCATGCGGAGCTTGGAAATGCCTCCTTGGAATGGTGGGGGGCTCGCAGTGAGCCTACAGCTGCCTCTGAAACAGACCTTGGCTCCATGMTGCTTCCCTA
CATACCCACACCCTGCTCGTTCCGACCCCTTCTGCCATCAAACCTGTGCACCATGGAGAAACAGACGCAGCCCCCTGTGAGCCTGAGCAGAGAATCATTC
CGGACATCCCCAGAGAATCTTACAACAAACCCCGCCACTGACTGGGCGCAGTGGTTTACGCCTGTAATCTCAGCACTTTGGGAGGCCAAGGTGGGCAGAT
CACTTGAGGTCAAGCGAGACCAGCCTGGCCAATATGGTGAAACCCCATCTCTACTAAAAATAGAAAAATTAGCCAGCGTGGTCGCACGGCACCTGTGATC
CCAGCTACTCAGGAGAATCACTTGAACCCGGGAGGCAAAGGTTGCAGTGAGCYGGGATCATACCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCCA
TCTCAAAACARAAAGAACAAATCCCGCCACCAAGGAGAAATTGTTTTAGAATCGTGGCTGCTCTGCGTCTTGTATTTCTGCTTTTCTCAGCTGAGACTTT
CTAGAATTGTCTCTGTACCCATTGTTCTGGGCAGAATTGTGTCATCCCCCCACCCCACATTCCACCCCAAATTCATGTATTTTAGCCCTAGCCCCAGCGC
CTCAGAACGTGACTGTATTTGGAGATGGAGCCTTTGAAGAGGTGATTTAACTGAGGCCGTTAGGGTRGGCCCTAATCCAGTCTGATTGGTGTCCTTATAA
GAGAGGAGATTGGGACACACATCAGGGACATGCGTGCACAGAGAGAAGACCACATGAGGACAMAGACAGTGGCCACCCACAAGCCAAGGAGAGAGTCCTT
AGAGAAAACCAAACCTCCTGGCACCTTGACCTTGGCCTCCTGGCCTCCAGGCCTCCAGAACTGAGAACTACTAACTTCTGTTGTTTCAGCCAGTCTGGGG
TACCTCGTTGTGGCAGCCTGAGCTGATGGATGCACTCACCCCACTGACGGTGCCTGTGCCCAGCAGAGGTACCTGTTTCAGTACAAGACGGTAGTGGTGT
GCCTGGCCTTGCCTGTTGCAGTAGATTTTCAGGGTCAGCGTTTGGGTCACCTGCAGTGTTGGGCACTGCAGGGCAGCGGAAACAGTGAAGTCTGTGTGTC
CCTTCATCCGTTCACCTGATCATCCCCAACAGTGGGTGAAGCTCACTCTGTTTCTCACACTGTTCTGGGCACTGGGGATACAGCCCTGATCAAAACCCCC
ACCCTCGTGGAGTTCGCCATCTAGTCAGGGACTGGCAGACAGTGCAATGAGTAAAATACATGATCCATAAGGTGGTGACGGGCCGCGGAGAAAAATGCAG
GAGTGCTAGGAGGTGGCGTCATTTTACTTTGGTGAAAGAGCGTTCTCTAGGACTCACCAAGCAGGGCTTATCCAAGCAAAAACCTCAGCCAGGCTGGAGG
AATCCTGACTGGCTGGAGACCCAGCCCTTGTGTGCTGGGGATGGTGCAGCATAATTCTGGTTTAGAAACAACAGCTCCTCCTCTGGGGGAGTGGTCCTGT
CCCACCACAACATGGGAGGGAGGCAAGCTTCTTTCTATTTTTGCTCATATCGGCTGAAAAGTACACGCATAGAGGGCATTCTTGGTGGGTGTTCAGGGCC
TGTCTTTTCTCCCAAGCGACCGATGCACCTTATTGCGATTGGCCTGGGTCTTAGCACCAAAAATGTCATGTCCCTTGAAGTCCCCAACAACCTGGACAGT
GGGTCGCCTCTAACCTCCAGGGTCCCCATCTTATATATCCTACCTTGGCATCACTGCTGGCAGCAGTTGCCTTTCCACGTGAAAGCAATCTTGCTGAAAC
AGATTGCAGGAGGCGTGGGAGACTTCTCTATTATATGCAGCCCAGCACTTGGCACCACAGAGGCTTAAACATCCACTTTGTACATTTCTCCTGAATGTGA
AGTTTTCCAAATGCAAGGTGCTCGTTGAACTTGTTGTGTTCCTTGAGTAGATTGGTAAGGATCGGGTGGAGGTGAGCTGGGAAGACTCACCTGTGCACCC
CGCCCTGCTTGCCTCCAGGCTCTCAGAAGTAACCTTTCCCTGTCTCTAATACAGCTTGGCTCCGTGCTGAGTTTTTTCTGTTCCTGTGCAGACAGTGGCT
GGGCCTGGTGTTTTTCAYAATCTGTTTCCAGTGTCGGGCCTGGCAGTAACTCATTGTCGCCTTGTCAGGAGAATTCGCACAACCACGGGGACGGTGCAGA
GGACTTCAAGCAGCAGGTGCCGTATAAAGAGGACAAACCCCAGGTGCCCCTGGAGTCCGATTCCGTGGAATTCAACAACGCCATCAGCTATGTGAATAAG
ATTAAAACCCGCTTCCTAGACCACCCAGAAATCTACAGGTCATTCCTGGAGATCCTGCACACGTACCAGGTAAGAACTCAGATTACAATTCCTTGTGGGT
TTTGGATTTCATCCAGTTTGGGGCCCTGCAGATATTCAGATTTTCTTGTCGGAATTCATAAAATCCTGTAAAATTCTAATTAGTTGTGGGGTTTTTTGTT
TGTTTTTTCTTAGAGTCTGGCTCTGTTACCCAGGCTGGAGTGCAGTGGCACGGACTYGGCTCATTGCAACCTCCACCTCCTGGGCTCAAGCCATCCTCCA
ACTTCAGCCTCCCAAGTAGCGGAGGCTACTTGGGGCTAGAACATGGGCGCACATCACCACACCTAGCTAATTTTTGTAATTTTTGTAGAGACAGGGTTTT
GCCATGTTGCTCAGGCTGGTCTTGAACTCCTGAACTCAAACGACCCATCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCCA
GCCACCTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTTGCTCTGTCACCTAGGCTGGAGTGCAGTGGTGTAATAATAGCTCACTGCAGCCTTGACCTCCT
GGGCTCAAGCGATCCTCCTGCCTCAGCCCTCCAAGTAGCTGGGAGTACAGGTGTGTGTCACCACACCTGGCCAAGACAGTCTTTTTATCAGATGACTTTG
TTATTGCTTAGGCAATACGGCCATCCTTTACTTTGCTGATTACAACTGGGCCCAGCACCAGGAGCTGGGGCTACAGAGACAAATGGCTGCTCCTGCTTAG
CTGTTCATTGCAGTGGTGGGAAGAAACTCAGAGGTGGATTGGGGTGGAAAAGAAAGGATGTGGGCAGGAGAGGTGAGTCAGGGTTAATATGATTCCCAGC
CCGGTTCCCAACCCGTCCGGGGCCAGGGAGGGGACAGTCAGGTTGAATCTTGACATATCAGTCGGAACCAGTAGGCAGGTTAGCCTGGAGGAAGGGTGGA
CATTCTTGGTGCCAGGAATGGCCTGTGCAAAGGTCCAGAGACCAGAGCAGACAGCGGCATCAGGGCGTCTGCAGGGGACTTGGGCAATGCAGGTGGGCTG
GTGGCGAGGGACATCTGTGTCGTGAGTGGGGCTTAGACGTCCTCTTCACCCAGACGTGGAGTCTCTAACRCTTGGAATTTTTTTTAGCAGCAGAACCCAT
TTTTTTTCTTTTTTTTGAAACAGAATCTTGCGCTGTCACCCAGGCTGGAGTGCAGTGGCTCAATCTCAGCTCACTGCAACCTCAGCCTCCCGGCTTCAAA
CAATTCTCCTGCCTCAGCCTCCTGAGCAGCTGGGACTACAGGCATGGGCCACCACGCCCAGCTAATTAGCAGAACCCATTTTTTAAAATGAAATCCCTGC
AGCCTTGACATGTCGAGTCAAGAAGCGGGATTCTTTTCAGCATAAGCGTTTCAGATCAAATGGATAGAATTTGTGTTCTGGGAACTCCACAGCATTTGTT
GTCCACCGTGCTGGCATCATCATGGGCCTTAGCATCTGTGAGAGGCTGGTACAGCCCTAAGAACGCTTGTTTGTCATGGATGAGTGGTTGCCAGTGGCTG
CTGTGAGCATCTGGTCTGTGTGGAGGGATGTGCTTGTGATCGTAGAATCTGTGGGCCCCTCCCAGGCTTTGTGGGGTCATCACATTTAGGAAGGCGCATC
AGAGCAGTCTGTGCAGTGGCTCTGTTCTGTGGCAAAGGAAGGGGCAGGTTAAAGACACTAGAGATGAATTTAGACAAGGTCACAATGAGGGGTTGCCACA
GACTCCTTCAGAGAGAGTGCCATGGGAAGGGACAACGCAGTATCCCCCAACCCAAACCGGGCTGCTGAGAGTTGGTTGAGAATGCAGACACCTGGCCACC
ATGCAGGATTCCCATTCATCAGGGCCCGCCCGGCATCGGCACAGTTTCTTTKYTGTTTTTATTTTTTGAGACTGGGTCTCACTGTTGCCCAGGCTGGAGT
GCAGCGGCATCATCACAGCTCACTGCAGCCTCTACTTCTCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCCTGAGTGACTGGGACTACAGGCRCTCACT
CCGACGCCCAGCTAAGGGCTAAGAGGAGACGGGGTTTCACCATGTTGCCCAGGTGGGTCTTGGAACTCCTGGCCTCAAGTGATCCACCCACCTCAGCCCC
CCAAAGTACTGGGATTACAGGCGTGGGCCACCATACCCAGCTGGATGGCATCTGCATTTTAAACAAGGCCCCTGGTGACTCCAGCCTCAGGTTGTCTAGT
TTTTTCAAATGTAAGTTTGAACTGTTGTGTAAATTATCCTGGTTTTAGAATGTTGGTTCAGATATTTCAGGGATACTGTTAGAGCCAAACCAGGCAGCTC
CAGGGTCCATCTGGCCGTGTGTTACTGTTTCTCCATCTTTGTGGGGCTTTCCTTCAGACTTTCTCTCTGCCACCTTCTCCCTCGGGGTTCTTATCCGTAA
AATGGCCACAAAACTGGTGGTGCCAATGAGCCTGGGTTCAGTGAGGTTAACTGAGCAACCAGTTCAGGCACAAGCCTGCCTCAGGTCACCCCTGGGTAAC
TGTCACCCATTACACAGCCACGTATGCATGTCCTGTGTGTGCTGGGATGAACAGTTAGTCCTGCCCTAACATAAGTGGGACCCTAAAAACGAGCTCCCTC
TGCAGAGTTGCAAAGTGTGATGGGAACTGCAGGTTCATGGGAAACAGACTCAGGGTATGACATTCAAAAACTTCCTCAGGGACACCTAGAAAAAGATAGG
CACCGACTCTAAACAGCAGCGCCGTTACGCGCATATTAAGTGGCCGAGAATTACATGAATGCCACAGCAAATCGGGTACTGACCTTGGAAGAGACCTGAG
GCTGGTTTGTGGATCTGGTGGCAGCCTGTGAATTATGTGAAGGCCGGGAGGAGGTCATCTGAAATCAGACAGGTCATTGTGGCCTCAGATGGGGACAGGG
CTGGCCCCTAGCACAGGGGAAYGCTGAGAGAGTGCATGGACATGGGAGGGGGTGCTGGCGTGGTTTTGCATACTCCCACGGGGTTCTGGTCAGCCGGGAG
CAGTTTCTGCATTCACCTGGTGTTTCTCCTGCACAAAATAGAAGAGAAGCAAACAGAAAATTCACCTCATGCTCAAATTATTCCCAGTACTTGTATCTCA
TTTAGACAGACATCTTGTTCAAAATAAGCATTCTAGCAGAACTGACTGTCTCTGCAGCATGAATTTCCAGAAACTACTTCCCTAAGTTGAGGGCGTACTA
TGCATTCATAGAGATCACTCAATTTCCTTCTAAAAGGTGGTACCAATTTGTCTTTCTGCCTTCCGTGTTTGATTGTTTGTTTGTTTGTTTTTTGAGACGG
AGTCTCTTTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGTCTCACTGCAGCCTCCGCCTCCTGGGCTCAAGCAATTCTCCTGCTTCAACCTCCCGAGT
AGCTGGGACTACAGGCACGCGCCCCCACACCCGGGTAATTTTTGTATTTTTAGTAGAGATAGGGTTTCACCATCTTGGCTAGGCTGGTCTTGAACTCCTG
ACCTCAGGTGATCCGCCTACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCSTGAGCTACCGCACCTGGCCTTGCCTTCTGTGTTTGAGAGCACCTGCTC
CCCACACCCTCATCGGAAATCCTAGCCTCTTCTGTCTGTGTAGTCAGATGAGCAGAGATGGCTGTGGCACTGTTTTAAATTGTTTCTTTAAACATCAGTC
AATTTGGTCATTGTTTCTTTTCTTCTTTATTTATTTTAGATAGGATCTTGCTCTGTTGCCTAGGCTGGAGTATGCACTATCATGATGGTAGCTCACTGCA
GCCTTGAGCTCCTGGGCTCAAGCAATCCTCTTGCCTCAGCCTTCCAAGTAACTAGGACCACAGGAGTGTGTCACCATGCCTACATAATGTTTAAAACAAA
TTTTTTTAATCATTTCTCAGCATTTTGGCTAAGATCAAGTGTAAAATTTTTTGTAGCGATAGGGTCTCACTGTATTGCCCAGGCTGGTCTTGAACTCTTG
GACTGAAGCCAGTCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATCATGCCCAGCCTAAATTGTTTCTTTAAACTTCACTCAGTG
TGGTCGTTGTTCTGTCCGTATGCAGATAGATCATTTCTATTTATTATCTGAACTGAGTGGCCTTTGCTTGTTTTTAAGTTTTGCTTTTTAGTGTCTTTTG
ATGACTTTTTGGAAGGGTGGTGTTTTTTTTCCCCTGCAGTGTAGGTGCTGCCGGTGCCAAGATTTAAAACTTGCTTCCCTTCCCACAGGCTGCAGCGGGT
GCAGAGGGGCAGGAGGCGCCAGCACAGGGATTCCTCCTGCTTTGCAGCCGTGCAGTGGGACTCTGGAAGCCACGCCATATTATCCGGGAGGCTCCGGTGC
TATTGCCTCTTGTTCTGTGACACTCTTGGGTGTAAAATTGATACGGACGTATTTCTAACAGCCACGGCGGTTTTGCTGGCCCGTTCCTGCCTTCCAACCT
GGGTTCCCTTTGGTCCTCTTGTTGCTTTAAGGTCTGGATCAGGCCATTTTCCTTGGGTCTCAGTGACTCCGGGCCAGTAGGTGCCTCGGCCTGGAAGTCC
CTTCCCTTCATGGCCCAGCGCTCCCCAGTTCTACACTCCCCATTTCCCTTGGGAAGGCCTGGGGTTCGCCCCTGACCTTGTACTTCCCCGGCCCACCCCT
GATTACAGCCAGCCTGTCACCTCCCTGCCCCCTCTGTTCGTGGACACTGCTGGGTCCCCACCATACTCCTGGACGGGACCTGCCCATGGCCGGGGCTCAG
GCCATGCTGGGCAGCAAGATCCACAMGTGTGCAGACAGGACCCTGCGGGCAGGTGCTCTTTCCTGAGAGTCATCCTGTCCCCTTCACGGAGGGCTGCCTG
AGTGTCCCGGCCCAGGGCACAGCACTCCTTGACTAACGACTTATTTTCCCTTTCCTGAAAACTGGCAGAAGGAGCAGCTGAACACGAGGGGCCGGCCATT
CCGAGGCATGTCTGAAGAGGAGGTGTTCACCGAGGTGGCCAACCTCTTCCGGGGCCAGGAGGACCTGCTCTCAGAGTTTGGACAGTTCCTGCCCGAAGCC
AAGCGGTCTCTGGTGAGTGCCGAGAGCCCCTGCCCAGCCTCGGGGGCCTCAGCGAGGAYGGAGGGCCCCAGCCAGCTTGACCCATGTCCGGGCCAAGCCT
ATGTACCCTCCAGGCCACACTAGGGTCCCCCAGAAGCTACGCAGGTTGCAGATACCCAGGGGTTCCTCACTGTAGGCTCCACCTGCACAGCAAGCTCGTA
AACGATTTGCCAAGGTGCTTCTCTGTACAGACAGTACCTGGATCTTGGGGTGGTTTGGGAGGCAGAGAGCATCTTCCAGTGGAGACTATGGGCCCAGGGG
TTCCACCTCCTGTGTCTGCCCTGCAGAGCCCCACCCTGCCTGGGACCCCAGCCCTGTGGGAAGGTGCAGGAGGGCTGGGTCCACAATCATCGCTTCCCCT
GTTGGATGAGACTGATCTGGGGCTCCAGCAGGTTGGATCTGGAGGAGCCAGTAGCGGGGGTGGCCTGTGGCCTGGCCCTGACCATGGTGGTAGAGAGCAG
AGATGGGCGAGGAGGGGCCTTAGACAGGGCTCAGGGCTCACCCTGCACAGTCAGCCTTTCTCCCCTGCCTGTGGCCTGAAGCTGCCAGGGCCGCCTGTTC
CGATTCCTCTTTTTTCCCCCACTATGATCATAAGACTTTTTTAAAAATTGAAGTGAAATTTATGTAACATCGAATTCACCATTGAAAGTGAACAATTCCA
TGGCATGTGGTACATCCTCAGTGTTGTACAACCTTCACCACTACCTAGTTCCAGAACATTTTCATCCCCCTGAAAGGAGACCCAGTCCCCATCAGCAGCC
ACCCCATTCACCTCCCCCAGCTCCTGGCAACGCCCATGTGCTTCCTGTTTCTGTGGATTTGATTCGCCCATTCTGGACATTTCAGATGGGTGGAATGTCA
CCATATGTGGCCTTTGTGTCTGGCTCCTCTCACTCAGCATCATGTTTTCAAGGTTYATCCATGTCGTACCGTGGATCAGTGCTCATTCCTTTTCCTGGCT
GAATCATATTCTGTTAGATGGATGAGCCACATTCTGTTTATCCGTATTCTGTTGATGGACATTTGGGTTGTTTCTGCCTTTTGGCTGTTGTGAACAGTGC
CGCCATCAACATTTATTGCACGGATTTGTTTGAACACCTGTTTTCAGTTCTTTTGGGTAGACACCTAGGAGTGGAATTCCTGGGTCACATGTTAATTCTG
TTTTTGACTTTTTGAAGAGCCTCTAAACTGTTTTCTACAGTGACCGCACCATTTTACATTCCTATCAGCARTGGACTGCGGTTTCTGTCTCTCCACATST
TGGCCAACATTTGTTCTTTTCCAGGTTTTTTTTTTTTTTTTTTTGCCTTTTGTTTTTAGTAGCCATCAGTGTGTGAAGTTTTATTGCATTAAGGTTTGTT
TGTTTTTATTTTTTGAGACAGGCTCTCTGTCTGTCACCTAGGCTGGAGTGCAGTGGCGTAATTGATCACTGTTCACTGCAACCTCCATCTCCCAGGCTCA
GGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGACACCACCACGATGCCAGGCCAATTTTTGTATTTTTTGTAGAGACAGGGCTTCGCCA
TGTTGCCCAGGCTGGTCTCGAGCTCCTGGCCTCAAGCGATCCACCTGCCTCAGTCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCCGGCCT
ACTTTTATTTTTTAATTGTAGAGACAGGGTCTCACAATGTTGTCCAGGTTGGTCTCAGACTCCTGGCCTCAAGCGATCCTCCCACCTTGGCCTCCCAAAG
TGTTAGGATTACAAGCATATGCCATTGTGCCCAGTCCATGGTTTCTTTAAGTGGCATTTATGCAGGGCACCCGGCTAGCTCAGTCAGTAGAGCATGAGAC
TCTCAAATAACATTTATTACCAATTTAGCTAAGATTTTTAGTGTGTATTGGTTTATTAGAGCTATCTTGTATATTTAGAAAGATTGGATCAACTTTTTAA
AATTATTAAAAGCACTGCATCTGTTGTGTGAAGTATAATCTTTATGTTAACTTTTGGACATATATTAAAACTGTAGGAAAAAGAAACCAAGATGAAATTT
GGCATTGCTCTAATTAAATTTGACTGGCCTGGATCAGAGGTTGACAAACCTTCTCTACAAAGGGCCAGATAGTAAGTATCACAGGCTTTGCAGGCCAGTT
GATCTTTGTGTAAAGATTCACCTCTGCCCTAGTAGCTTGAAAGCAGTCATGGAATATGTATGTCAATGACTGGACAGGGCTGTGTGCCAATAACACTTTA
TTTACAAAATGAATGGGTGTGGCCGGGTACCAACAAAACTTTATTTACAAAATGAATGGGCATGACTGGGTACCAATAACTTTACAAAAGGAATGGGTGT
GGCTAGGTGCTGATAAAAAATTTTATTTATGAGAACAACAGGCCCTGTGTTAATTTGCCATTCCCTAGCCTAGGTGGTCTTTGGGGGTCCATCTAGCTCA
GATGTTCACATAATTGGGAGATTAACTGAAAAGCAAGAACCATGTGAACTGTTGGGGAAGATCTGCTATACCTGCTTGGTGAGCTTGGCTGGACGCATGG
CGGGTTTCCCCTCCAGGTCCCCTGTTCTTGTTCAGCATTTGTCATATGGTCGCCCAGCTGCATCTTTTGGGAATCAGTTTACACCTGTTCCAGCATATAC
AAAAAATAGCCAAGCGTGGTGGCTCGTGCCTGTAATCCCAGCTACATAGAAGGCTGARGCAAGAGAATCACTTGAACCCAGGAGACGGAGGTTGCACTGA
GCTGAGATCGCACCATTGCGCTCCAGCCTGGGTGACAGAGTGAGACCTCCGTCTCAAAAAAAAAAAAAAAAAGATGTACCAGTGGAGAATTGTGTAGATG
CCAATTTCTCCACTTACAGCTCTCGAAATAGCCTTGAATTTTGGGTAATTATTCCCCCCAAATAATTCCCCCCAAAACTCAAATAGCCTTGAGTTTTGGT
AATTATTCCCCCCAAATTATTCTTCTAAGTCTTAACTGTGGCTAAATAATAAGTCTTTTTTAGTAGTAGTAGTAGTATTGTGGCTAAATAATGTCTTTAT
TATTATTATGGTAAAAATAGTATACACTAATGAAAAAATAAGTATTAGCAAGAGTATCAAATTTTTAATGCAAACTTCCTCTCCCTTGACTCAGTTCTTA
GTCATTCTTCTCAGAGGTTAGCACTTCTAAGTGTCTTGTATATCTTTCCAGAAATTTCCTCTGCATGTGTAACAAATACTTTTTACAAAGCGACACACGG
CATCCTATTTGTTCTGCCCCTTGGGTTTTTGGGGTTTTTCCTTGTTTTTTTTTGTTTGTTTGTTTTATTTCAGGTATGCCTGTCCCTAACAGCAGCCCAG
AGCCAGCCCATAGTATCTGATCGCTGCGGGCTGATTTGTTCAGATGCACCATGACTTGTCCATCTCACCCACACTTTAGGTCTTTGGGGGTGTCTTTGCA
TCCAGGTCCTGTGGTGGCAGGGGAAGGCGGAGTACGATGGAGGTGACCGCAGTGGCACAGAACGTTGTAGGGCCTCTCCAGCTCTGCCCACGTCCTGCAG
AAAAGCTGCGGTCTGTCCATCGTCCCCTGCCTGTCCAGCCTTCCAGTATGTTCATAGTAGACTGTTGCAGAACAGTTCTTTGTAAATGTCATTGGCACCC
TGTAGGCACCCTGCTCGGGACAAGCATCCTCGACCTGTTAGCCGATGGCTGGAGCCTGGGAGGCAGGCCCCGAACCAGCCACGAGCCCCACTCTGCTCCC
AGCAAGTGACGACATCATCCCCCAGAAACGTTTTGTCATTCATAGAAAAGACTTCAAAACCTGGCCCCAAGGCCCCCACCAGTGCCCTGGCAAACATCAG
CCACTTCCCCTTGCTGCCTGTTTCTCTGTCCACTGCACCTTGTGTTTCTGTGGTGCYGGCATGCACACGGCGAGATGCCCCACCAGTGGCCGCCACATGA
GCCCCCGCACGGGAAGACCCAACTCAGCTGTCTCCCTCCTGAAACCCCCAGCCCTTCTCCCTCCCTTATCCATAAAGGCCTCACAGGAGCTTTCTCCCAG
CCTGGCAGTGTTAGTCTGTGATGATTCGGTTACCTTGGAATGTGAGCATCTTGCTGGAGTCACCTCACGCATGGACGGAGCATCTGGCCTGGTGCCCGTG
GCCACCATTGCCCACCGGGCTGTGGGCTGAGCTGGAAGCAGCTCTGCATGCTCAGGTGCATGGGTCCAGCCACGTCTCCGGTGCTGACCACCTCCCACAT
GTGTCCTTAGTTCACAGGAAACGGGCCGTGCGAGATGCACAGCGTGCAGAAGAACGAGCACGACAAGACCCCGGAGCACAGCAGGAAGCGCTCCCGGCCC
TCGCTCCTCCGCCCCGTGTCTGCACCCGCCAAGGTACCTGTGAGCCACATGCAGCCATGCCTGCACGCGGGGCCCCCAGCAAATCGGGCCTTCCCAGCAT
GTGACCAGGGAACAGAGGCCCCAGCAGGGGTTCGGGGCTGGACCGGGGGCTGTGTGAGGTTCACCGGCAGTGGGACCGTTGGAAGTCAGCTCTCCTCTAA
GGTGGCTGTTCTTCCGTTCTCCCTGTCCTGTGAGATTGTTTTGAAAAGGAGGAGGAGGAAGGAGTGTTAACCCTGCCCTAGGTCCCAAGAAACAGGGTGT
ACCACCCAGTCTCCTTTTCACCCTCAGGACTCTCTCACAGGCAAGGCCGCCATGTACGTTTGTTCAGGTTGGTCACTGCACAGCTGAGGGCAGAGAGGGG
CTGGGATCCAGCTCCTGTCACGCCTTTCACCTGCAATGGTGGTTTTCCGATTCCATTATTCCTTGTGCAGTTACTACTTGGCTTTCTACTATTGGTGGGA
ACTTTGTCGTCCTCCCATTTATTTAGTTATGTATATTAGATATGGACTCTGGGTTATAATCCATTCTAGTGTTGATGTCCATACTGTTCCAGATTGGGCC
AGCGGGGTCCCTTTGGCTCTTGTGTCCTTTTTTTCTTTCCTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCA
CTGCAAGCTCCGCCTCCCGGGTTCACGCCATTGTCCTGCCTCAGCCTTCCTGTGTCCTTTTGGCATGTCCTCATCATTCTTTCTCCTGTGGGGGGATGGG
GTTTCACTCTGCCACCTAGGCTGGAGTGCAGTGGCACAGTCAGCCTTGACCTCTGGGCTCTAGCTGTCCTCTCACCTCAGCCTTCCAAGTAGCTGGGACC
ACAGGTGTGCACCACCACACCTTTTTGTAGAGATGAGGTTTCATCRTGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAACAATCCTCCCGCCTCAGC
CTCCCAAAGTGTTGGGATTACAGGCGTGAGTCCCTGCACCCAGCTCATCCTCATTCTTCAGGCACTTTGGAGATAGTTCTGGATGGACAGTGTTGTCCTT
CTTGCCATGATCGTGCATCCAAGTTCAGGTCCAAGTCCAGCTTAGAGACAAAAGCCTGCAGAGACTCAACATTTGGCTTCTCCAGGGTCTTCCCAGTGCC
ACCCTCTTCCTGTCCGCTTCTTGTTGCTGTCTTGGCTCTCAGRACAAAACAGGGAAAGGATTCTGAGATTGTCGTAGCCAGGGGCACATCCCCCTTGCCT
TTCTGATGCTGTGGCACTCTTGCCTGTTACCCAAAGCCCTACCCTGCTGAGATGGAGATCCCAGATTTGGCAGTGGCAGGTATCCCCAGAGGTGTCATCT
CAGGGGTCCTGGGTAACTGAGCGGCTCCTGCCTGTCCCTCACTGAGCATCTCATGGCAGTTCCCAAAGGAGAGCACGGTCTTAGCCTTCTTGAGACTCTG
TGACAGCGATGGACAGAGGCCACCGGTGGGAGGCACAGTGTTAACTGCATAGAATTTCTCCCCACAGAAAAAAATGAAACTTCGTGGTACCAAAGACCTG
TCCATCGCTGCAGTGGGGAAGTACGGGACTCTGCAGGAATTTTCTTTCTTTGACAAGGTGAGGGTGGGCCCTGGCTTCCATCTTGGGGATGCCATGTCCA
GCTGGCTGGGCCAATGCTCCCTGGGCCTGCCCCAGGATTGGGGCGGGGAGCAGGTAGGGTGGGTGCAGTCTGAGGATGGATCCGGCGGGGCTGGCCCCCA
GCTTTCACTGCGGAAGGGAATGTGGGCCTCCTTGGAGCCCAGGCATATACTGTGGGCAGGAGTCCCAGTGGGTGCTGAGACTCCAAGCAGAGTATGAAGA
CATACATGTCTGCCACCCTGCAGCTGTGTGGCTTTTTCTTATATCAGGGATGATTGTAGGGTTCCCGCCCAGGGTCTGTGGGCAGAGCAGACAAGGTGGC
CGTGTGCATGGGCTGTGAATTGCTGCATGGATTGCATGCACAGACTGTGAATTGCTGCATGGATCACGTGCACGGGCTGTGTGAATTGCTGCATGGACAC
ATGCATGGACTGTGTGAATTGCTGCACAGATGGCATGCATGGGCTGTGAATTGCTGCATGGATTGCGTGCATGGGCTGTGTGAATTGCTGCACGGATCGC
GTGCACGGGCTGCGTGAATTGCACGGATCACATGCACGAACTGAATTGCTGCATGGAYGCGTGCAGGGGCTGTGTGRATTGCACGGATCGCATGCACAAA
CTGTGAATTGCTGCATGGACGCGTGCAGGGACTGTGTGAATTGCTGCACAGATGGCGTGCATGGGCTGTGAATTGCTGCATGGATCACGTGCCTGTGCTG
TGTGAATTGCTACACAGATTATGTGCACGGGCTGTGAATTGCTGCATGGATCACCTGCACAGGCCGTGAATTGGTGCATGGATTGCGTGCATGGGCTGTG
TGAATTGCAGCACAGATATCATTTACTTATAGACACAGTTGGTTCCCATATCGCACACCCATGTGGCTGACCTACAAGTGAGCCAGGCCCAGAGGCTGAG
GAGCAGGGGTTCACAGTGGTCCCTGACTGCTCTCTCTGCAGGTCCGCCGGGTGCTGAAGAGCCAGGAGGTGTATGAAAACTTCCTCCGCTGCATCGCACT
CTTCAACCAGGAGCTGGTGTCTGGCTCTGAGCTCCTGCAGCTCGTCAGCCCATTTCTGGGGTGAGCAGCTGACTTCCCAGGGCTCCCTAGGGGGGTTCTG
TTCCTGTCAACTCCATCTACTTGGTTTTTAGTTACTGTTTTTGAGCAATGATTGTGCTTTTCTAAAATCCTGTTTATTAATTGACGTGATTGATAWAATT
ATTGATTCCCATGCATTTGTAAGGAGCAATACACCACCTGGGTACCCTCCAGCTGGTTCCTTTACCAGTAACATCTGTAGTCAGTATCCTCACCAGAATA
CAGTGGGTCCTCGAGTAATGCCTTTTCATTTAACACTGTTTTAACACCGATGAGAAAAGAAGACATTCATTTCTGGTCTGAGTGGAGTTTGCACGTTCTC
CCCATGTCTGCGTGGATTTTCTCCCACATCCCAAAGATGTGCATGTTAGGTTAAGTCTAGGTTAAGCGGTGAGTCTCCGTGGTCCCAGCCTGAGTGAGTG
TGGCGGGGTGAGCGCCCTGCAGTGGGGTGGCGTCCTGTCCAGGGTGGGTGCCCCACTGGTGCTCTGAGCTGCTGGGATAGGGTCCGGCCACCCAAGATCC
TGAACTGGAATAATTGGGTAAATTGTTATTTTACTTGTTTTTACTCATCTTTCTTATCTGTATGTGTGGCTTGCATTTATTTCAGTGTTTAATATTAGAA
GTGTTTTGGTCTCTCTTTAGAAATTTGGTGATTGTTTTGTGACCAAAAATACGCCGTAGGAACGTCATTCTTGTTTATGTGTCAATTAGCTTGTGGCAAA
ATTGGTTTTGTTACACATCTTTTCAACTTAAAGACACAGCTTTCTAACACCTGTTGATGATGTTGAGTGAGGACTTACTGTACTGACTCTCACACAACCC
CCGTTCTTTCCAGACTCTCCGTGTTCCTCATACACGTCTGGTGTGTGTGTTTTTATACAGCTTTCTCACTGTGGAGGGTTGTGCGTCCGCCACAGTGAAG
ATACTGAACGGCTCCAGGACTGTCAAGTTCTGGCCTTGACCTTTTATCTCCATCCCAAAACCCTGCCTYAGCCGGAGTCTGTTCCAAACCCCTGGCAACT
ACTTATCTGTTCTCTAGACAATGTTACAGTAATGGAACTGTACAGGAGGAACCCTCTGGGAGAAACCTTCCCCCCCCSCCCCCCAGCAAAATTCCCTGGA
GATTCACCTGATAAATACTTTTAAAAATTCTAACACTTGGGCCGGGTGCGGTGGCTCGTGTGTAATCCCAGCACTTTGGGAGGCCGAGGTGAGCAGATTG
CCTGAGGTCAGGAGTTGGAGACAAGCCTGGCCAACATGGTGGAACTCCATCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCAGGCGCCTGTAA
TCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCACGCCATTGTACTCCAGCCTGGGTGG
CGACAAGAGCAAGACTTTGTCTCAAAAACAAAACAAAACAAAAAAATAATTCTAACCCTTGGGTCGGGCTTGGGTTAGGTGCGGTGGCTCACACCTGTAA
TCCCAACACTTTGGGAGGCCGAGGTGGGTGGATCACTTGATGTCAGGAATTAGAGACCAGTCTGGGCAACATGGCCAAACCCTGTCTCTACCAAAAAATA
TAAAAATTCGCCGGGGGTGGTGGCACACGCCTGTTGTCCCAGCTACTTAGGAGGCTGAGCTAGAAGGATAGCTTGAGCCAGGGAGGTCAAGGCTGCAGTG
AGCTGTGATCACGCCACTGTCCTCTAGCCTGGGTGACAGAGTGAGACCCTGTATCCAAAAAATATATGTATATATATTATACCTCTGCTGCACAAAGAGA
AGCCTCATTAGCAGGTCAGGTCTAAGAGTAGCTTCTAACCTCTGGTGGCCAGGTCAGCCTCAGGAAGGGGCTGGGACTGAGTGGAGGGGCCTGGAAACAA
CTGCGCACACTCGTATCCATTCTCGGGCTCACAGGAGTGTGCGCGGTAGGAGTAGGCGGGCCTGTGAGTGCTGAGACCTGGGAGCCAGCTGGGGCCAGTG
TTGCTTCCTGCACATCAGCCCTGTGACTAGGGTGAGTCACTTGGGCAGTCTGAGCCTCTGTTTCCTTGCTGTAAAATGGGGATAGTAAATGTACCGACCT
ATGTGGGGTTCCTGAGAGCTGCAGGTGGGCGCTACYTGCAGGGCCCTTCAAATACAATAGAATCTCACAAATAAAAGGAAAAGACGATTTTTTCGGCAGA
AGGAAATGATGTAAGTCACAAACTTGGATCTTTCCTAAAGAATCGAAGAGCATGGAGAAAAATACACGTGAAGATTTTTTTTTTTTTCAAGACAGAGTCT
TGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGACTCTCCTGCCTCATCCTCCTGAGTA
GCTGGGATTACAGATGTGTGCCACCATACTTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGA
CCTCAAGCAGTCTGCCTGCCTCAGTCTCCCAACGTGCTGAGATTATGGGCGTGAGCCACCATGCCTGGCCATGATTCTTTTTTTTAATGGTTCTTGCACA
TGGTGGGTGCACATATTAACATGATYAGTCCATTCAGTCCTTAGCCCTTTTCCCATTTACCCCAGGGATAGTAGTTGACAGCACTTGTGGCTGTAGCGTT
CACCCCAAGATAACTTTGCCATGAAGCATCTCATTTTTATTATTATTTTTGCATTGCTGTCATATATCAACTTTGGAAATAAAAGACATCATTTTATGTA
TAGCATCCTGTTTTTAGTAGTGATATTTCCAGTTACAAAATATAGTAATTCTTGATCACTGAAAATGTCAAATCTTGGAAAATGTAGCATTCCTACACTT
GATGTTAACATTGTTCTCAAACAGTTGTTGGCCAAAGATTCATTTGATGAATCTGACTGTTCCAAAATAGACGATTCTGGTGATTCAGACGATTCTGATG
TTCTGTTTAGAAATAACTCCAAGAACAGTTTTTATATTTTACTTTCACATTGAAAATCAGTCAGATTTGCTTCAGCCTCAAAGAGTGTGTTTATGTAAAA
TTAAATGAGCGCTGGCAGCAAGCTGGACTTTTTTTTTTGTTCTAAATGGGAAAAAGTTGAATCAACCCTGGGGACAGGTGCTGTGTGAGCCCTTTTGCAT
TAACTTAAAAAAAATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTRTATATWCACATAAACATTTTTCTAATGTAAAATAAAGCACAGATCC
AAGAAACCACATGGCCAACAAATGGCTTGAATCTTTATTAAGCAGTCACCCATGTGCCCACCACCCACATCAAAAATAGACTCCAGGAGCACCCCCGCAT
ACCATTCCAGTCCCTGCCCCTCACTGTGAGAGTGTCCTGACTTCAGGAGTGACCGCCACCTGCACTAATGACGGCACAGCCACCCAGGTGGGCATCGCCA
AATACATGACTCAGTCTCACCCCCATCTGGGTTGGGTTTGCTTTGCTTTGCTTCTTTTCTCTTCTCTTTTCTTTTCTTTTCTTTTCTTTTTTTGAGACGG
AGTCTAACTCTGTCACCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCACTGCAACCTCTGTCTCCCAGGTTCAAGTGATTATCCTGCCTCAGCCTCTC
GAGTAGCTGGGACTACAGGTGCCTGTGACCACACCCAGCTACTTTTTGTATTTTGAGTAGAGACAGAGTTTCGCCATGTTGGTCAGGCTGGTCTCAAACT
CCTGGCCTCAAGTGATCCGCCTGCCTCAGCSTCTCAAAATGCTGGGATTGCAAGTGTGAGCCACGGCGCCCAGGCCCTGGGTTTTGTTTTCTAATACATC
TCGTAAGTCTCCTTTCACCTCTGATTCCCTCCGATTCTAGTCCTTACTATTTTTGTCCTGATGCCCCTCTGCCTATCCCTGTCCCTGTTATTTCTGTGAT
ATTAGCCTCCCAGGTTTGCTCATTCATTTGGGGTTACACAGGAGGATCACCACAGCATTTCTCACCTTTTATAAGAAGTGGCCCAGGATAGCTGCTTGAT
TACAGCCTTGATTCCTCCCTAGTCACGGCCTCAGAGTGATGAACTGCTTTCATATCATCTTCCCAAGGGGACCAATTAGGTTGTTTCCTTTGTTTTTTTT
TAGCATCTTAATGAATTCATGGACTTAAAATATATTTGATGCGTTTCAATACCGTTTCTAGTCCTTTTAAAGGTGAGGGGCCAGGCRTGGTGGCTCATGC
CTATAATCCCAGTACTTTGGGAGGCCGAGGGGGAAGGATCACTTGCATCCAGGAGTTTAAGACCAAGGCCGGGCCTGGTGGCTCACGCCTGTAATCCTAG
CACTATGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCGTAACCAATATGGTGAAACCCCTTCTCTACTAAAAATAAAAAAAT
TAGCCAGACATGGTGACCTGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGACAGGAGAATTGATTGAACCCAGGAAGCMGAGGTTGCAATGAGCAAAG
ATTGTACCACTRCACTCTAGCCTGGGCAACAGAGCAAGCTGTCTCAAAAMAACGAAAACAAAAAAAAATGACCAGCCTGGGCAACATAGTGAGACCTCGT
CAGAAACTAGCCAGAAGTGGTGGCGTGTACCTGTACCTACTTYGGAGGTTGAGGTGGCTGGATCGCTTGAGTTTTCGAGGCAGAGGTTGCAGTGAGCCCT
GATCTCACCACTGCACTCAGCCTGGGTAACAGAGTGAGAACCTGTCTCAAAAAAAAATAAGGAAGCTGAGGCTCAGGTCGAACCCCTCTAACTTACTCTA
GGACAAGCACTCATAGGTGAGCTTAGCGTGCTGTTAGGCGGCAGCCAGGGTGCTCCAGCCCCAAAGCCAGCCCTTTGCATGTTCTCTGCCTTCTGGGCAC
AGTGGCTGCTGGGCTTCGGTGTGTATTTTTTTTTTTAACTCAGCATTTCTTGGAAGTGTTTCAGCATCAGATGTGAACCCATGTCCTCATTTTTAAGCAA
CTGCACCGCTTTTCCTTCCCTTACCAGGGTCTCTAACAATGGACATTTGTCTCTAGTCCTCCCTGTAAGTGGTGTTGACAGCAAATGCTCCTGAGTCTGC
GACCCTCATGGGTCAAGCTGAGCCCATCAGAAGGCCTTTCCCTGGTGGTCTCAGGCATGCACGTGTTGGGGTGATCTTTTCAGTGGGTTTTCTTTCTTGG
GCTGCTGAAGKTCTGTAAACGCCCTGAAGAACAGCCCAGAGCAGGATGGTGTTACTCTAGTCTCAGCCAAAACGGGGACTCCTGGGGTCTGTTTGTGACG
TGGGTGGTGGGCACACGGCTGGGCTTTTTCTGTGGATGTGGAATGCACATTCACCTTGAGTTGCCTCCACTGGGCTTAGAATCCAGCACTCTCTGAGCCT
GGGTCCCACCTGGGAAAAGGGGCCCCCAGGGGCTGTGTGTGGAGCTGGTGTTGGCACCTGGGTCCAGCGGGCACGTGACCACCCCGGGTTGGAATTGGGA
CTCTGCTTCCTACTAGCCAAGCGAGCCTCAGTGTCTTTGTAAAATGGCCATACCTCCCTCCTGGGTTTATCAGGAGGTTAGAGGGGAAGACAGAAGGAAC
ATGAAAGGTGAGAATCTGAAAGGCAAGGTGCTGAACAGATGGGCAGTGCCGGAGCACAGTCAGCTGTTCTTGTTTCCATGTTTCAGCAGTAGAGACTCGT
ATGGGGAAGGGCGTTTGGGGAAGGGTCTGTATGGAGCAAGGTCCAGAATTGAAGCGGGCCTCTGCGTGTGCTTGACACGAGGCCTGGTTGGGTTAGGAGC
GTTCACCACCATGTGGCGTTCCTCCGCGTGTTCAACCTGCGGTCAAGTGCTCAGCTGGGCTGGGCAGCTGAACACGGCCCAGGGAACTGCCCCTCGCAGC
TGGCAGCCGCGTGGCAGCCAGGGTGGATCGGGTTGAGCATTCCCTTCAGAGCAGTCACGATTTGCGTTTATCCCAGCAGTAGCCTCAGGCATCTCTGCAG
CTTTTTYGTTGGTCTCTTTCCTTCCTACGTTTCCATCGGCTTGTGGGTTTTCCTTGTGAGCAGGGTTGGCATAGGGTTCTTAAATACGGGGAACGACGGA
GCCCACATCAATGAGGGGGACGTCGTTATGCGAGGGTGGGCTGGGTGGCTAGGTCACAGCAGGATTGTGGCACCAGCAGTCAAAGTAACTGCAACTTTTT
TTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAC
GCCATTCTCCTGCCTCAGCCTCTCCSAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTTTTTGTATTTTTAGTAGAGACGGGGTT
TCACCGTGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTTCTGGGATTACAAGCATGAGCCACTGCGCCTGGCCATAACTGCA
ACTTTTTTGGTAGGATCTGATGTTACTGCTTAGAGACGGGGTCCTGCTCTGTTGCCCAGGCTGGTCTCAAACTCTTGAGCTGAAGTGATCTTCCCGCCTT
GGCCTCCTGAGTAGCTGGGATTCCAGGTACACACCACCAGGTCTGATACTATTTTAAACAGAAATCCAGGTGGCATTGTAGGGTCATTTGCATTAAAGCC
TTCCTGTTGTCGACCACAGCCATGACATTATGACTTTCAAGCTTGTGTCCAGAGAGGGGTTCACAGAGAGAAGTCTCCCTCATGAGAGGAAGACTGTGGA
TCAGAGATAGGCAAACTTGATCTCTGAGGGGCCAGATGGGCTTTGTGGAAATGACTCAAACCCCTCTTGTGCAGGCAGCCACAGGCAGTGCGTACACAAG
TGGATGTGACTGCAGGCCAGTGAAACTTTATTTACAATGGGATGGCTAGGCATGGTGGCTCACGCCTGTCACCCCAGTACTTTGGGAGGTTGAGGTGAAA
GGATCACTTGAGGCCAGGAGTTCAAGACCAGCTTGGGCAACATAGCAAGACCCCATCTCTACAAAAAAATTTTTAAATTGGCCCTGCATGGTGGCTCACA
CTTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGAATCACCGGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGGGAAACCCCGTCTCTACTA
AACATACAAAAATTAGCCGGGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTCAGAAAGCTGAGACAGGAGAATTGCTTGAACCCGGGAGGTGGAGGTT
GAAGTGAGCCGAGATTGTGCCATTGCACCCCAGCCTGGGCGACAAGAGTGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAATTTAGCCGGGTGTGGTG
GCACATGCCTGTGGTCCCAGCTACTGAGGAGGCTGCGGTGGGAGGATCTCTTGAGCCCACGAGTTTGAGGTTGCAGTAAGCTGAGATCATGCCACTGCCC
TTGAGCCTGGGCAACAGAGTAAGACACTMTCTCTAAAAAGAAAATACCAAACCAAACAAAACACAGGCAGTGTGCAGACTGGCTGTGGCTTGCCACTCCC
TGGCCTGAAGCCTGGCCTCTTCCAGTCAGGGAACATCAGGGGTTCCAGCTTCTGCCAGTTTAAGTCATCTTTTCTGGTGTATTTCAAAGCCTTACTGTGA
GTATGGGATTAATAGGCACAGGAAGGGACCTGGTGTGTGACAGATGGGTGGGAGGCCCATTCATTCACACACCCCGGGACTTGCAGTGACTTCCTGTGTA
TTGGATTCTTCCGCCTCTCATTCGCATCCATGATGTTGAATTCTGACTCTGTTTAACTTGTAATGTCCACATGAAGCCATTCTAAAATCTCCAGATCCCT
CTCAGAAGGCCCTGGGGATGACCAGTTACCATGTGTCTTTATCTTTGAAGGAAATTTCCAGAACTCTTTGCACAGTTCAAGTCCTTCCTGGGGGTAAAAG
AGCTGTCCTTCGCGCCACCCATGAGCGACAGATCCGGGGACGGGATAAGCCGGGAAATTGATTATGCATCCTGCAAGCGCATAGGATCCAGCTACCGGGC
ACTCCCCAAAACCTACCAGCAGCCCAAGTGCAGTGGGAGGACAGCCATCTGCAAGGAGGTAGCGCTCCCTGGGGCTCAAATGTTCGTTGACATGGTGCAT
CCCCCACCCCTCCCCAGCAAACACCCGATACCCCCGTTATGAATGAAATGCTGTGTGCTCAGCCCTCCTGAATGTTGGGTTATGGGTGGTGCTGGGATGT
GGCCCGGCAAAACCACCTGAGCAGAGACAACAGTGTTGTACCCTGCTGGTAGTTTTGGCAAAACACAGAGTGCCAGGGATAACGTGGAGTTCGGCTTATT
CATCTGTTATTTGACTTAGGTTTATTGCTGCCATGATTCTGCTCTGTCCCGGGCTCACTGACCTCAGTGTGTTTCTGTTTAGCTTGACCATTGGACACTT
CTCCAGGGTTCGTGGACAGACGATTACTGCATGTCCAAGTTCAAGAATACCTGCTGGATTCCAGGATATAGTGCAGGGGTCAGCAAACTCTGGCCCACGG
GCCCTGGCCCGCTGCCCGTGTTTGTAAATAAAGTTTTACTGTCACACAGACACAACCATTCCTTTACATATTGCCTGTGGCTGCTTTTCTCACCACAAAG
GCAGAGTTGAGTATTCATCTGGGATGGCCTGCAAAATCTGAGATGGTTGCTGTCTGACCCTTTGCAGAGAGAATTTACCAATGTCTGAAATGAAATCGGC
CCTCCGGATCTGCAAGTTCCTCATCTGTGGTTTCAACTAACCATGGATTGAAAATACGTGGGGAAAGAGAAACCAAAAAATGACAATACAGCAATAAAGC
GTAATCCACATTTTAAGAATGCAGTGTAACAATGATCTACACAGCATTTACATTGCATTAGGTATAAGTATTCTAGAGATGATTTTGCATAGGATATATG
CAAATAGGATTCCATTGGACATCAGGGACTTGAGTATCTGTGGATTTGGGTCTTCAGGGGTGGTTCTGGAACCAATCTCCCAGGATACCAAGGGAGTGTC
CACTTGACCAAAGTCATGTTTTTCCTTAAAAACTTTATGCACCTTCCCATTTGTATAAGGCAGTTGGTATTATGTATCAGGATGGTATTATGTATCTTGG
TACTTTCTACACTGGCTAACAGTAAATCTTGGCTCCTGGGGCATGCAGCGTCATTCACGGCATTTCCTCTTGGTGCAGGTACTGAACGACACCTGGGTCT
CCTTCCCTTCCTGGTCTGAGGACTCCACRTTCGTCAGCTCCAAGAAGACACCGTACGAGGAGCAGCTTCACCGCTGTGAGGACGAGCGCTTCGAGGTGTG
TGTGCTGCTGTGGCCRGGTCCCCCGGCATGTGCCTGTTCCCCTTCTCCATGGGACATGCATCCTGATCCTCCTCCACTGCCCCAGTCTCGTTTGGAGGAG
CAGGAATTGCAGCACATTCCAACAGCTCCTGGAAGCTTCCTGCYGGGTCTTGCTGGCCTTTGGGCTGGCTACCAGATGGCACTTTTCTTTCTGTTTAAAA
ATTTTGTTTGGGCTGGGCGTAGTGGCAGACACCTGTAATCCCAACACTTTGGGAGGCCAAGACAGGTGGATCATTTAAGCTCAGGAGTTTGAGACCAGCC
TGGGCAACATGGCGAAACCCCATCTCTACCAAAAATACAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAATCCCAGCTACTCGAGAGGCAGAAGCAG
TAGAATTGCTTGAGCCAGAGAGGCCGAGGCTGCAGTGAGCCGAGATCACACCACTGCACTCCACCCTGGACAACAGAATGAGACCCTGTCTCCTAAAAAG
TTTMTTTAATGTAAAAATTAAATTTATTTTTATTTTATTTATTTATTTATTTTGCTTGCTCTGTTTCCCAGGCTGGAAGTGCAGTGGCGTAATCATGGAT
CGCTGCAGCCTTGACCTCCCAGGCTCAAATGATCCTCCCACCTCAGCCTCCTGAGTAACTGGAACCACAAGTCCATACTACCATGCCCAAGTTGTTGTTT
TTTTTACTTTTTTTGTAGACATGAAGTCTCACTGTGTTCCCGAGGCTGGTCTCACACTCCTGGCCTCAAGCGATCCTCCCACCTTGGCCTTCCAAAGTGC
TGAGATTAAAGGAATGAGCCACCACACCTGGCTAATTTTTTTTTCCTTTTTTTAGAGACAGGGTCTGTATTGCCCAGGCTACATTAATTTTTGTAATTAA
AAGTTTTATTGGCTGGGCACGATGGCTCACGCCTGTAATCCCTGCACTTTGGGAGGCTGAGGTGGGAGGACTGCTTGAGGCCAGGAGTTCAAGACCAACC
TGGGCAACAAAGCAAGAGCCCATCTATACAAAAAAAAAATTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTGTCGCCCAGGCTGGAGTCCAGTGGCATG
ATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCTGAATAGCTGGGATTACAGGCACACCACCATTCCTGGCTA
ATTTTTTTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGTCGGGCTGGTCTCGAACTCGTGACCTTGTGATCCGCCCATCTCAGCCTCCCAAAGTGCC
AGGATTACAGGCGTGAGCCACCGTGCCCGGCCATAAATTTTTTTAATTAGCCAGGCATGGTGGTGCACACCTATATTCCTAGCTACGTGGGAGGCTAAGG
TGGGAGGATTGTTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCTTTGATTGTGCCACAGCACTCAAGTCTGGGTGACAGAGCAAGACCCTATCTCTTAAA
TACACACACCCCCCCCCCMAAAAAATCCTCTGGTCTCTGAGGTCCCAGGCTCCTCTCTGAGGCCTCTTGAGTTCCCCAGTGGCTGACCCCGTCCTGCCTT
CCTTTCCATAGTTAGACGTTGTCCTGGAGACGAACCTGGCCACAATCCGTGTGTTGGAAAGTGTGCAGAAGAAGCTRTCYCGGATGGCGCCGGAAGACCA
GGAGAAGTTCCGGCTGGACGACTCCCTGGGAGGCACGTCGGAGGTGATCCAGCGCCGTGCCATTTATCGCATCTATGGCGACAAGGCCCCGGAGATCATC
GAGAGCCTCAAGAAGAACCCTGTCACCGCTGTCCCCGTTGTCCTGAAAAGGTGCCCTGTGGCGTCCCGACTTCCCTTCCCCTTCCCCTTCCCCCTTCCCT
CCCCTCCCCTCCCCTCCCCTCCCCACTGCAGGGAGCCCTTGGAGAGCTCATTAGTGCTGTTTGTCAACAGGTGTCATCTCCAGGGGTGGTCTCTGAGGCC
TAAGGGTGCCTTCCTGTATTTCCCAGTCTCCCACTCCTGAGAGGAGAGCACTGTGACCTTCTAGGACTTTCCACCTTGCACATAATACATCTAGACATCT
AAATAACTGCTTTAAGAGTCAGATGCGACCACTACACTGTGGCTTGCATTTTATTTAATGCTGCATTTCGGATGCCGTCCGGCGCTAGTTAACAGGCATT
TATCAAGTGGTCACTTTCAGGCAGGTGCAGTGCTTGGCCCTGGGATTATGCAGCTGAGTGAGGCAGACCCAGTCCCTCTCTTGGGACTCACAGCTGAGCA
GGGGACCTGAGTGGTTGAGCCAACAGCCATGCGGAGAGTGCTGGGTGCCAGGGAGGAGGTGGAGGAACCGGGAAGCCGGCCACATTGGCTCTGTAAGGCC
ATCACGCCCTCCCTCTGACGTGCACAGAGCCCACTGCACAGRCTAGGCTGSGAGCTGGCTGGGCCTGGGTCCTGGACCCCCAGTCAAGTCCCAGAGGAAG
ACAGGCCAGCCCTGGGATGCTTCAGGGAGGATGCCCTGGCTTGTCCCTGGTGCTGACCTCTCTTCCCCCCGCAGACTGAAGGCCAAGGAAGAGGAGTGGC
GGGAGGCCCAGCAGGGCTTCAACAAGATCTGGCGGGAGCAGTATGAGAAGGCGTACCTCAAGTCCCTTGACCACCAGGCTGTGAACTTCAAGCAGAACGA
CACCAAGGCCCTGCGCTCCAAGAGCTTGCTCAACGAGATCGAGAGCGTCTACGACGAGGTAAAGCCTTCCCTAGCCCTGCCGGCCGGTGGGGGTGGGGTC
CTGGCTCTCCCGACCGCCGGGTCTGTGCCTCTGTTTCCCTGGTGGTTAGGCAGGGTAGTGGCATTGCCCTTTCAGGGCTGTGTTGAGGCGAGGGTTCATG
TCTCTGTGATGCCCAGCCTGTGGCCTGCCCTAGGAGAACCAGCAACTCTGCCATTGTCTATCTGTTTGTTTGTTTGGAGACAGAGTCTCGCTGTGTTACA
CAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGTAACCTCAGCCTCCTGGGTTCAAGTGATTCTTCTGCCTCAGCCTCCTGAGTRGCTGGGACTACA
GGCGCACACCACCACACCCAGCTAATTTTTATATTTTTAGTAGAGATGGGTTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCA
CCCACCTCAGCCTCCCAAAGTGCTGGGATTACATGCGTAAGCCACCGCTCCTGGCCGACTCTGCCATTGTCTAGCGAAGTCTCCGTCCCTCCCGTGGGGC
AGTGATGGACTTTGGCTTAGGTAGTGGGTGGCAGCAGCCTTCATTTCTTTCTTGCCGACTGTGCCAGGCACCGGTGTTAGCAACACAGAAAGAGTAATRC
ATCATCTGACCTCACTCCTGAACCTGACTCTGCTGCGGCATTATTCTGATTTTACCAGTGGGGAAACTGAGGCACAAGAGGTTGCATTTGCCTGGGCTGG
TCGCAGGGGGCCAGGGCTCTGAGTCATTGGGTTCGAGGCTTTCGGCTGCATGTCCTCACTGCAGGCTCACAAGGCCTGAGTCATAGAACCAAGGCCAGCG
GGGCCCTCAGGTTGCCAGGAGCTGGGCCTGTTAGTAGCTGTGTGTAGGGAGTGCCTGCTTGCAGGATCCTGAGGTGGGAAGCTTGGCAGGGTGCCGGGCG
TGGTGATAGCCAGCTGTCGGGAAGGTCCTTGGACACTCTGAGGAGGTGGCTTAGGAGGGCACACTACTCCCCAGGCAGTGCCCAGATCATGGCACGGGCT
GCGTTATCAGCCTGGTGCCCACCTGGGCAGGGGGTGTTGCCTCACCTGATTTGGTTTCTTGCTCCTGTCACTGCACAGTGAGCGGTCGCTCCTTCTTTTA
CAACACAGAAACGGAATCCACAGGAGCCGGGCTGCTGGCCCAAGGCCTCTCCCAGAGCCTGTGGGACTGTGGGGACCCCCTTCCCTCCCACCTCCCTTCC
CGTGGGCCACCCTCGCCCCAGGCCCACCCACAACCACTCTGGCTTCCTCACTCTAGTCCTCGGCGATCCTCAAGCCCAAGACCCCGTATAGGTTCTGTGG
GTCTGTGGTGTCTGCAAAGTGCAGATGATGAAGTAGCCCTGGAAATCCACCAATGCGACCCTGAGTTCCTGGATCCCTCCCTGGGGCTGGGGCTGACAAA
GGGAGGGGCACCAAGGTTCATATGCAGATCTCTGCACATGCAGGTCCTTGATGAATTCCAAAGTCAGAACCCCATTCCATCACGTGATTTACAAAGCATG
GTTACAGATCATGGACATGGGGACCCTGCTTCAGAGGGGACTGTAAAGGAATTTTCAGAGTGTTTATGGCATAAATGAGACCTGGGGGACTTAGGAAGCA
GTCAGAGGGCGATGGTCACACTGAAGAGCCCAGAGCAGGGCTGAGCGTGCAGACTCCTAGGAACCAGGTCAGTGTGCTTGGCCCTACCAGCCTCTAAGCC
GCCTTGCAGGGGAGGAGGAAGGGAAACCTCAGGCTGCTAGGAGACCCGGTCCTTCCCTCGGGAGCCTGCAGAGATGGCATCCACGCTCATTTTCCCCAAG
AGCCCTGCTGCGTCTGCCTCCCTGCCTTGGACTGAGGGGGTTGGGGCTGCCCAGCAGAGGCCCTGGGTGCCAGGACAGTGGTGTGGGAGGCTGGAGGAAG
GGGTGATTGTCTAATGGTGTGAGGGAATGAAAGTCATGATCTAGATAAAGACCAAGGGGAGGGGTGAGCCTGGGACAGGGTTTTCCAGGGAGTGAGAGCA
GATGGGCATGTGCAAAGGCCCTGCACACGCAGGAGGGAGCTTGGCGCGGTGAGGCTGGAGGAGCTGTGGAGGGGCACATCAGGGGCCGGCGTCTTCTGAG
CAGCCTGGGAAAGCCTGAAGGGCATTAGTTGGGGTGACCATGCTCCTGTGGGCCAAGTCACCCTGGACCCAGTGAGGAGAGTGGTTGGAGCAGGCTGGTG
GGAGCTGGTGGGAGGGCTGGTGACATGATGGTGGTAGCAAGCACGTGCAGGGGCTGGCGGGGACAGCAGCGGAGGCGGGGGCTTGGTGACGATGGGCGTG
CAGGTCTTCAGATGTGAGCAGTTGCAGGCCTTCCGGGTAGTAGATGGAGGGCAGAGGCAGAGAGGTCACGGCTCACCCTTTGCCTCCTTGACTTCATCGA
TAGCATGGTGTGGGCAGCCCCGGTCGAGCTGGAATCAGGCGCCACCGTTGCTTTCAGTAGGAGGAGGTCAGCCTCAGAGGCTTCTCCATGCTGAGCCACG
GGGCCCCGTTCTGTCCTGGAGCTGGGCTGAGCGACAGACCCAGGCTTGACGCTGTCAGACCCCCTGTGAACCCCGCCCCACATCTCAGAATCCTCTTGGC
TCCTTTGTCTGGGGTCCCGGGATGACTTGGGTCTGCCTCACTTTCGGAGAGGGGACCAGGAGCACATGGGGCTGCACAAGAGGTTGAGGCAAGCGACCTA
CCCCCCAGGCCCTGCTGCCTCACCGATGTTCGCCACCCATCCTGCTCTGGGCAGCGCTCATCCACCTTGGTGGCCCAGTTAACAGCGAGTCGTGAATGGG
CACTGGGGGTCCTCTGGGTGCTGGGTGGCTTTCCACCTAATGGCCGCCCTTCCCCCCACAGCACCAGGAGCAGCACTCGGAGGGCCGCAGTGCCCCCTCT
AGCGAGCCGCACCTCATCTTTGTGTACGAGGACCGGCAGATCCTGGAGGACGCAGCAGCGCTCATCAGCTACTACGTGAAGCGGCAGCCGGCCATCCAGA
AGGAGGACCAGGGCACCATCCACCAGCTGCTGCACCAGTTCGTGCCCAGCCTCTTCTTCTCTCAGCAGCTGGACCTGGGCGCCTCCGAGGAGTCAGCTGA
TGAGGACCGGGACAGCCCCCAGGGGCAGACCACAGACCCCAGTGAGCGGAAGAAGCCGGCGCCAGGACCCCACAGTAGCCCCCCAGAGGAGAAGGGGGCC
TTCGGGGATGCCCCGGCCACTGAGCAGCCACCCCTGCCGCCCCCAGCCCCGCACAAGCCCCTGGACGATGTCTACAGCCTATTTTTTGCCAACAACAACT
GGTACTTCTTCCTGCGCCTGCACCAGACCCTGTGCTCCAGGCTGCTGAAGATCTACCGCCAGGCGCAGAAGCAGCTTCTGGAGTATCGGACCGAGAAGGA
GCGGGAGAAGCTGCTGTGTGAGGGCCGCAGGGAGAAGGGCAGCGACCCCGCCATGGAGCTGCGGCTGAAGCAGCCCAGTAAGGCTCCAAAGCCTGCCGRG
AGGCCCCGGSGGGTGCCTGGGGTTAGGGGTCACAGCTCATGATCTGACATGTCCTGTTACTTTTCTTTCTGGCTTTTCATTTTAAGAGAATTCTGTGATT
TCAAATGGGAAATTGCAAACAGGAAGTTGCCAGCATAAGACAGAGGTCTCACGTACCCCTCGCCCAGGCTCCCCKGGCCGTGGCACCTGTCCTGGGTGTA
GCACCCTCTCCTGACTGGGGAACATTTGTTTCTCATGGGCTTTCTCGTGGAGCCGTCATGGCCCAGCTCCACAGTRCCCTTTTTCTTTCTTTTTTTTTTT
TTTTGAGATGGAGTCTTGCGCTGTTGCGCAGGCTGGAGTATAGTGGCAGGATCTCGGCCCACTGCAACCTCCACTTCCCAGGTTCAAGTGATTCTCCTGC
CTTAGCCTCCCAAGTAGCTGGGATTACAGGCGCTCACCACCATGCCTGGCTCATTTTTTGTATTTCTTTTTTGAAATGGAGTCTTGCTCTATTGCCCAGC
CTGGAGCACAGTGGCATGATCTCGGCTCACTGCAGCCTCCGCCTCCCAGGTTCAAGCAATTCTCTGCCTCAGCCTCTGAGTAGCTGGGATTACAGGCACC
CACCACCATGTCCGGTTATTTTTTTTTGTATTTTTAGTGGAGACGAGGTTTCACCATCTTGACCAGGCTGGTCTTAAAACTCCTGACCTTGTGATCCACC
TGCCTCGGGCTTCCAAAGTGATGGGATTACAGGCATGAGCCACCGCGCCCAGCCCAATTTTTTGTATTTTTAATAGAGACAGGATTTCACCATGTTGGCC
AACCTGGTCTCAAACTCCTGAACTCAGGTGATCCGCCTGCCTCAGCCTCCCCAAGTGCTGGGATTACAGGCATGGGCCACCATGCCTGGCCTCCACAGCA
TTCTCGCTGCCATCCCTGGGTTGCCGGCCAGATTAGGCAGCCTCGGAGGGTGGCAGTGAACACCAGCTACTCGGGTTTCCTGGTGATTCCCACATTTGCC
CCAGGGGTGGCAGGTGAGGGCTGTTGGGCCCCATGGGGGCATTTGTTGGGGCTCTGTCATGCCAGAGTTTGGCCTGCGTGACTTTGCGCTCTCCAGGAGG
CATATGGATGAGGCGGTGTGTCTCCGCAGGTGAAGTGGAGCTGGAGGAGTACTACCCGGCCTTCCTGGACATGGTGCGGAGCCTGCTGGAGGGCAGCATC
GACCCCACGCAGTACGAGGACACCCTACGYGAGATGTTCACCATCCATGCCTACGTGGGCTTCACCATGGACAAGCTGGTGCAGAACATTGCGCGGCAGG
TGAGCCGGGCCGGGGTGGGGCCGGCCCTGAGGACGGCGGAAATGGCTCTACCATCATTTCACTCCCCGCTCGGGAGGGGGCCCGTGGTCAGCACAGCAAA
CCTATCCTGTTTTTTCTTAATTGAGACAAAATTCGCATAACGTAAAATTAACCATTTTGAAGTGTACAGTTTGGTAACATTTGGTACATTCACAATATTG
TGCAACCACCACCTCTGTCTAGTTCCAGAACATTTCATCTTTCCAAAAGGAGACCCCATCCCCATCAGCAGCCACTGCCCATTCCCCTGCCCCGAGCCCC
TGACATCCAGTCAACTGCTTTCTGCCTCTGTATTTCCCTCGTGCTTCATTCCTTTTTATGGCTCTGTAATACTCCATTGCGTGGGTAGCTACGTTTTGTT
TCTATCTCTTGGTGGACATCTGGGCTGTGGCTGCCTTATAGAGATTGTGAGCAATGCTGCTCTGAACATTTGTGTACAAGTTTTTGTTCCGTGTCCCTGT
TGACAAACCTTTCTTGAGGTTAAATTGACAACATGGAAAAAACCTTAACCCACTTATCCTGAGGGAGGGTGGGAATAGTGATTTCATCTGCGTTGGTTTT
AGTAGTAGCAAAAACCCAGSCCCCACTGAATGTCAACACAAGGAAACTGGTCACGTAAATATAAACAGCAGACGTCCCAGACGAGCTGGGTGTGGTTCCA
GGACATGGGTCCTGCCTGGTTTCTGCCAGAATCATTGTTCATGGTGACCTCCATTTCCTGGTCACCAAGTAAGGCTGTTCATCATAAAGTGGAAAAAAAG
CTGGAAAAAAAATAATGCCATTACTCTCCCACCCAGACACAGCCACGAGAAGCATTTCAGACAGGACGTTTCCTTCCAGGTTTTAAAGACTGCTTAATGG
AGCTAAAATACCCAAGCAGAAAAGTCCCCAAATTTGAAGGGGGCAGATGGATGGGCTTTTCATCAACAGAACCCCTGCCCCTGTGTCCCCACCCAGCCAC
CTGCCACCCATGGACACCCACAACCCTGATTTCTTTTTCTTCTTCTTCTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTCTCCCAGGCTGGAGTACA
ATGGCACAATCTCTGCTCACAGCAACCTCTGCCTCCTGGTTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGTGYGCACCACCA
CGCCTGGCTAATTTTTGTATTTTTAGTAGAGAGGGGGTTTCACCATGTTGGGCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTCCCTTGGCC
TCCTAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCGGCATCACAACCCTGATTTCTACAGAGAGGTAGATCCCTGGCCTCGAGCTGTGTGTTAACA
GCAGCACACAGCGCCCAGCCGCATCCTGGGAGCGTCATTCTGTGAGATTCCTGTGTTGAGATGAACCGGCCAAGGATTCCGAGGAACGACCCCCGATTCC
GTCCACCTGTCTCCTGAGGACAGGCATGGGCGGTGCCCCGTGGGTGTGTCTGCGGTGGCCGTCTATGTACATTTCTGCTGCTGCCCTTGGGGTAAGGCAC
AGAGAGGTGTGTCCCGCTGATGGCAACTTTCCGTTTCCTGGGTCACTCGTACCAGTGCTGTGCGAGGCCGCACTCTGTRTCCTCCCTGGGGCTCAGGGGC
GTCTCTCCATCAGCTGGGAGTTCAAATCTCGGTGGGCTCACGTTGCATTTCCCTGATGGCAAATGTGGCTGGGGCCCTGTCCTTTCATGRCCGTTGGGAC
ATCTTTTCTCATGGAAAGCTATCCACGGTGTTTGCGCCTGTTTCCGTTGCGTCTGCCTTGTTGGTGACTGGGAGGATTTCTGTGTCTGGCCATGAGGACT
TAGTGAAACCCATAGCTGCGTTCTGACACCTTCGCTTCAGCCCCCTCCACTTTCCCTCCGTGTGCCCGAAATGGGTCCCTGCCCATCACCATCCACAGCA
GTGGCCACTCCCCAGGTGAGGGAAACACGCACGGGGCAGCCTGGAGAGAGGACACCCAGGGCCCAGCACRTGGTGTTGGGGAAGTGACGCAGGGGACGCC
RGGGGGCTGGCAGTCTGTCCCCTCCCCCCCCCCCAGGCTGGGCACCCCTCATGGGCCATGGCTTCGGGGACAGCAACCTTGCTTGTGACACCAGGAGATT
GGACCAGATGGTTTATGGAAAGCATTGATTAATGCTTTAAAAAAATCCCCCCCTTCCATAAACAACTCCTCTAGAACCTGTTAAAAACAAAGCAATGAAA
ATGGGGCTGTCTGGCTGGAGCTGTAGTGAGAGCCACATGCTGCCCTGCTGTCCCAGCTGTGGCTGCACCACACCCCAGCTGCATCTCCCTGGGCCAGGTG
CTCACTGCGGGCCCCTCCACACTGTTTGTAACCTGCCTCGAGGCCATGTCTGGACTCTGCCTCCCTTTTTCTTAAAAATTAGCATTGCTGTTTTTTAGCA
GTAGCAGTTGGCATTCAGTGGGCACTTGCTGTGTGCCAGGTACTGTCTGAAACCTATGCGTGTCCAGGTGTTATTGTATCCATTCAACAAAGCTGCACAT
GGAACCCCCAAGGAGTGTGGTCCCCTGACCAGGGCCTGGGCTGTGCAGGCGGGTGATTCACACAGCCCTGTCTGCCCCACGATCCCTGCTGTTTCCATTC
CTTCCTTCTTCAGTGCAAAGGTAAAAGGAGTAGCAGTGTATTTACAGCCAAGCATTTAGGGGAAAGGAACAGCCTGCACTCAGGCCACCTTCAGCTCATT
CCTGGGTTTGCTTTGGAACATWTTTTTCCGTGTCTTTTCTGTGTGTTTCTCACACCCGGGCAGGGTTTGCTGGTCTGGCCTGGTCTGTTTTGTTCAGGTC
TGGTCTGGTCTAGTTTTGGTCTGGTCTGGTCTGGTCTAGTTTTGGTCTGGCCTGGTCTGGTCTGGTTTGGTTTTGGTTTGGTCTGGTTTGGTCTGGTCTG
GTCTGGCTTTGGTCTGATTTGGTTTGGTTTTGGTTTGGTCTGATTTGGTCTGGTCTGGTTTTGGTCTGGTCTCATCTGGTCTGGTGTGGTTTGGTTTTGA
TTTGGTCTGATTTGGTCTGCTCTGATCTGGTCTGGTCTGGTCTGGTTTGGTTTGGTTTTGATTTGGTCTGATTTGGTCTGGTCTGGTTTGGTGTGGTTTT
GGTTTGGTCTGGTCTGGTCTGGTTTTGGTCTGGTCTGGTCTGATCTGATCTGGCCTGGTTTGGTTTGGTTTTGGTTTGGTCTGATCTGGTCTGTTTGGTC
TGGTTTGGTTTGGTTTTAGTCTGGTCTGGTCTGGTTTTGGTATGGTCTAATCTGGTCTAGTTTGGTTGGTTTTGGTTTGGTCTGGTTTGGTGTGGTTTGG
TCTGATCTGATCTGGTCTGGTTTTGGTCTGGTCTGATTTGATTTGGTCTGGTTTGGTTTGGTTTTAGTCTGGTCTAGTCTGGTCTGGTCTGGTTTTGGTC
TGGTCTAATCTGGTCTAGTTTGGTTGGTTTTGGTTTGGTCTGATCTGATCTGGTCTGGTTTTGGTCTGGTCTGATTTGATTTGGTCTGGTTTGGTTTGGT
TTGGTTAGGTTTTGGTTTGGTCTGGTTTGGTCTGGTCTGGTCTGGTTTTGGTCTGGTTTGGTTTGGTTTTGGTTTGGTCTGGTCTGGTTTAGTTTGGTCT
GATCTGGTCTGGTCTGGTTTGGTTTTGGTTTGGTCTGGTCTGGTTTTGGTCTGGTTTGGGTCTGGTCTGGTCTGGTCTGTTTGGTCTGGTCTGGTCTGGT
CTGGTCTGTCTGGTCTGGTTTGGTCTGGTCTGGTCTGGTCTGTTTGGTCTGGTCTGGTCTGGTTTTGGTCTGGTTTGGGTCTGGTCTGGTCTGGTTTTGG
TCTGGTTTGGGTCTGGTCTGGTTTGGGTCTGGTCTGGTTTGGTCTGGTCTGGTCTGTTTGGTCTGGTCTGGTTTGGTCTGGTCTGGTCTGTTTGGTCTGG
TCTGGTTTGGTCTGGTCTGGTCTGTTTGGTCTGGTCTGGTTTTGGTCTGGTTTGGGTCTGGTCTGGTCTGGTTTTGGTCTGGTTTGGGTCTGGTCTGGTT
TGGTCTGGTCTGGTCTGTTTGGTCTGGTCTGGTCTGTTTGGTCTGGTCTGTTTGGTCTGGTCTGGTCTGGTCTGGTCTGGTTTGGTTTTGGTTTGGTCTG
GTCTGGTTTTGGTCTGGTTTGGGTCTGGTCTGGTCTGGTCTGTTTGGTCTGGTCTGGTCTGGTCTGTTTGGTCTGGTCTGGTCTGGTCTGGTCTGGTCGG
TTCGGTCTGGTCTGGTCTGGTTTGGTCTGGTCTGGTCGGTTTGGTCTGGTCTGGTCTGTTTGGTCTGGTCTGTTTGGTCTGGTCTGGTCTGGTCTGGTCT
GGTCTGTTTGGTCTGGTCTGGTCTGTTTGGTTTGGTCTGGTCTGGTCTGGTCTGTTTGGTCTGGTCTGGTCTGGTCTGGTCTGGTCTGTTTGGTCTGGTC
TGCCCACAGCCTGTCAGGATTCTGGTCTCTTCATCCCTGTGTCATGCACTCTCCATCCTGATGTGTTTCTGGCCTTTGTCGACTTCCTCTGTGGGTGAGG
TGGGGACTCCCGCAGGAGGCGGGGTGGCCGCACCACCTGCTTTCCTCCCGCCAGCTGCACCACCTCGTGAGCGATGACGTCTGCCTGAAGGTGGTGGAGC
TCTACCTGAACGAGAAGAAGCGGGGTGCCGCTGGTGGGAACCTGTCCTCCCGCTGCGTCCGCGCTGCTAGGGAGACCAGCTACCAGTGGAAGGCTGAGCG
CTGCATGGCCGACGAGAACTGCTTCAAGGTGAGAGGAGGCCTGGGGCTGGGAACACGCCGGGAGGCCCGGCCGCTCACTCCRCTCTGGACTCAGTCCTGG
GTGGACCCTGGTTCAGCGGCTGGGACACCGGCCCTGCTGCAGAGCCCATGAGGTACCTTTGACCTGCAGGAAGCATCAGGGCTTTGGGAGGGTGGCAAAG
GCGGGAGGCGGGTGGCCTTGCGAGCCTGCGCTGTGCCGGCTGGGCTGTGCCGGCAGTGGAGGCTGTCAGCGTTCCTGCTCCGCAGGTGATGTTCCTGCAG
CGCAAAGGGCAGGTGATCATGACCATCGAGCTCCTGGACACCGAGGAGGCCCAGACGGAGGACCCTGTGGAGGTCCAGGTGAGGCCCTGGCCCCAGTCTG
TGCCACGCATACCAGGGAGCGCCTGAGGGCAGCAGCATGGGGCTCCCACCAGCCAAGCGCAGGCCGYGCAGCATCCAGAGACCCTCCCTCTGCAGGCCAC
AGGCTCTCCTTGAGGCCTGGTGGGTGGGGTTGCCTCCCTCCCTGCTYCCCCACCAGGCTCTCTTCTGTGCCCCCTCTCCAAAGAGCAGACCACTCCTCCT
GAGCAAGCGGTTGTGTCCCAGGGCAGGAGGGGAACCAAGCCACCTCTCCCTGGCCCCCGACTCCCACTCAGGGCATCCCGTGGCTGTGACCTCTGCACCT
CTTGTGTCAGGGCTGCATCCTGTTCCTAATCCCCAGCAGAGGAGCCACCTGGGCCCAGCTCCCAGTCACAATTTTTGCGGGGACAGATGTTTCCTGCTCA
CCTCCCGCATCCTGGTGACAGTGAGGCATTGACCCGTGTGTGTCCCCAGGGTGGTCATTGGGGCCTGCAGCTCCCGGCACCTGCCAACAGGTCCAGTGTG
TGTGCACATTACTCAGCTAGGCCAACCCCATTCATTTCCTGGGGCTACCACCACAATGACCACAAACCACGTGGCTTCAAACAACAGAAGTCTATTCCCT
CAACGTCCTGGAGGTCAGCAGTCCACAACCACAGTGTGGGCCGGGCGGTGCTCCTGCCAAAGGCTCTGGGGCGGATCCTTCCTGCTCTTCCAGCTTCCGG
GGGCTTCTGGCGCTCCTCAGCTGTGGCCTGGTTGTGTGAGTCCCGCTGTCACTGGGTCCTCTGTCAAGAGCTATAGTCTGTTGGGGTCTCCGTCAGGGAT
CAGAGTCCTCTGCAGCGGCTCTCCTCATGCTCTGGCAGTGGGGGGCACAGAACCCCTGTGAGCTCCTGAACTCAGAGTCCAGAGTAAGAGTGGCCATAGC
CCTGCTGTAGGGGCATCACGGGCTGTGTCTCTCCCTGTCCCCAGCACCTGGCTCGGTACGTGGAGCAGTATGTGGGGACCGAGGGCGCGTCCAGCTCGCC
CACTGAGGGCTTCCTCCTGAAACCTGTGTTCCTGCAGAGGTAAGRGGCCCTGAGATGCATGCTCYGTTCCTTCCTTCCTGGGCCCAGGGAGTGTCCCCTT
TGTCCTGACGGGGGCTGGACCATGGCACACTGTCTGGGAGCACTTAGTAGGTGCCTGCTGTGTGCTGAGGCAGGCCCTGCCCTTTTGAGGCTTGTGGTTT
GCAGTGGAGGGATTAGTAACCCCAGGACGGTGAGGTGTAGGAGGGGCAAGGCCAACCCCACGATGCGTCAGTGGGTGAAGAGTGAATGCCCGGACTGGAG
GGAGACGCTGCCAGAGCTGGTGGGGCCAGGCCAGAGGCGGGTGGCTGTGGCAGGACCCTGGACCACCTCAGGTCRGGCTAGGATGGCACCTATGGGACCA
GTGGGGGCTGCTGGTGGGTGTTCAGATCTGGGGGCATTTCTTGTTGCTTCCATTTGCTTTCTGTGGACCCCTGGGAGGTAGCACATCTTCTGATGGTCCC
AGGCCTGGGGGTTTCCCAGCCTGCAAATCCTCCTCCCACAATGCCGAGAGCCAGAGTCCATTCCACCTCCTTTCGCCCCCAGGAACCTCAAGAAGTTCCG
CCGCCGGTGGCAGAGCGAGCAGGCGCGGGCCCTGCGCGGTGAGGCCAGGAGCTCCTGGAAGCGGCTGGTGGGCGTGGAGAGCGCCTGCGACGTGGACTGC
CGCTTCAAGCTCAGCACTCACAAGATGGTGTTCATCGTGAACTCCGAGGACTACATGTACCGTCGCGGGACCCTCTGCCGGGCCAAGCAGGTGCCAGGGG
AGGCCTGGGCTGCCCCGACATGCCCCTCCTSACCCCAAGTCCTGGGGCCCTGGGGGTCCAGCCCTCAGCTGCCCTGACACCCGGCCTCTTCAACAGGTGC
AGCCCCTGGTCCTGCTCCGCCACCACCAGCACTTTGAGGAGTGGCACAGCCGCTGGCTGGAGGACAATGTGACGGTGGAGGCGGCTAGCCTGGTGCAGGA
CTGGCTGATGGGTGAGGAGGACGAGGACATGGTACCCTGCAAGACGCTGTGTGAGACAGTGCACGTGCACGGCCTGCCCGTGACCCGCTACCGCGTGCAG
TACAGCCGCCGCCCGGCCTCGCCCTGACCCGCCCTCATGGGCACCGGGCAGGCGCCTCACAGAGCACAGACGTGCCCTCGGCCTTGGTCGTGTCGGGGCC
GTTTTCTTGAACGACGTGAGAGGCATCTCCCAGCCCCTCTGCTGCCGGACAGCGCACTCCAGGGCAGGACGCCGCCCCCGTGGCTCCCGGTCTCCTGTGG
GCCTGCTGTGTGCCAAACCTGAGCTACCTGCACCCGAGCCCTGGGGCTCAGCCCCACCACAGGGGCGGGTGGACGTGCTGGCCGAGGAACAAGCAATCAT
GTTTGCGTCCCCGTCCGTCACATGTGCCAAATCCCTGGCAGGCAGATGGCTCCTGCCCCATATTCTTGCCGTGTCTTGGAAAAGTCACAGGTGACAGCCC
TCCTGAGGCCCACACTTTGGAGGGGGTCCATGTCCAAGAGACCCTGACAAGGAAGGAGTTGAGCCCTGGGTAGGCTTGCTTGAAAAGTGAGTCCTTCCAG
AATATTCTCAGAGCTGCCAGAAACATCATCTGAGGGTTTGGGCATCAGCTCTGCCTGGCTGGTGTTCAGGCCCTCAGTCACTTTGGAAGTGAGAAGAACC
CTTCAGCCAAACCTTTGGGATCCCATTTTGAAGTCCAGAGCTGGAGCAGGCGGGCAGTGCCCTGGGAGACCCCGCTCTGGATAAGACACCCAACCCCAAC
TCCAGCAGCTGGACTCTGGGCCCACAAGGGGAGGGACCCCAGCCAGTATTCCCTCAGAGCCGGCACGACCCTGCTGTGGGGCGGCGGGCCCAGTCGTGTT
CCTGCAGTGGGCACCCTAGGCGTATGTGTATACAYGCACAGATATTTATTCCTTTCGCTTTTAGTGGTTGTTATTTCTGTAGCAGCCAAGTCCTGCGGCT
CCCTGGGGCTGAGATCTCCCTTTGTGGAACTCCGAGAGCCGCCCTGACAGTCCCAGCCGCCACCCAAGGAGCCCCATCCGCCCACCCACCCTGGGACCCA
CGCGGCCACTCCAGGGATCATTGTTGTCCTTTTGTGAGGGGCTGAGGCGACTGTCCCATGGAGGCATCCAAGGCTTTCTGTGCCAAGAATCCCAAGTGAC
TGGGGCTGGGGACCACTTCTCCAGGCCTCTCTCCCCGACCATGAGAGCCCCTGGCCCTGGCCCCTGCACACCAGTRGGCCCAGAATAACCGCCACCCTTG
CCATCCTGCAACAGCTGGACTCAAGTTTCCAGGAAGTGGAGATGTGTTTCTAGAAGTTTCCTGTGGAACCTGGAGGCTCCTGAYGCCTTTGACTCCAGGC
TGGGCGATTCCGATGCTGACCCGTCCTCCTGGGCTCCCCACCCCCGCTCCCCAARTGTCACACAGGCACTTTGTACACATCCTGGTTTTCTAAGAAGGGA
ACTTGCCATCAAGATTCCTGTACCAGGCCCACGGCCGTCTCGGGCAGAGCCACCTGGGCCCCRGGTGCAGCCGGAGACCCCGCCGAGCCCCTCCTCCCAG
TATTCCCATCCCCGCATGCTTYTAGGGAGCGCCTCTTTTCCGTTCTTGAGGAATTTCTGTTCTGGGGCTTGTCCTTCCTTTGCAGCTGTTTTGAATGTAG
TTTTCCTTTTCTATTTATTTGCACATTAAAGTTAATAATTGAATATTGACATCAAGCCGTGAGGGTGTGTTGSTCTTCCTGTGAGAGCCTTGCTGACTTC
CTGCCACCAGGTCAGTGGGCTGGACCCATGAGAGCAAGGGGTGGCTGGGTGTGCCTACCTGGGACCAGGGGAGTCRAAGCCCCTCCTTGAACCAAGATCA
TCTCACACCCTGCACCTGCCCCGCCACGACATGGGAGTGTCTTCTAGAATATTCTTTCCCCATTCCATTTGCACATTTAGTGGGAATTAGAAGCGTCTCC
TTCGCCCGAGTGTCTCTCATGCAGAACCCAATTTAAAGATCATGGTGTTTGCTCTAAGGTGTTTGTTCTAAGCTTCCCATGCCCAACCTATCCGTCCAGG
CCCATGCCTGCCCACCCACCCCACACGACCACCCTCTGTACTCCTTGGGGCCCCACCCACTTCCTGGCTTTCACCATCATTTTCTCYTCATCTCCTGCCC
CCTGTCTGCATCCCAAGCTCCACACCTGCTTCCGGGTAGCAGAAGCCCCAGCTCTGCTGTGTCCCCTGGCTGACATACCTGGAGGGTTCCAAGGCAGAAG
TGGCCAGCCCCTCCCCCTCAGTATGGGCTCCTCCATCCTCTGTAGGGGAGGGGCCATAGCTTCCTCCCAGTGACCCATGTGCTCCCTGTACACCCAAGCG
TCTCTGGCAGTTCTGACCACACCCCCACCGGAGGGTCAGRGCTCCCAGGGAGCGTGGCAAGCCAGACCGGAGGCCGCCCTGTTTCCTTCTGCCTTGATCC
CATGGCTGGGGATGCCCAGGGTCCTCTGTGGGCCCCCAGACTGGCTTTCYTTGGTCAGAAGTGCTGCAGGGGCTGGGAAAGGCTGTGCTGGTCCCAGGAG
AGCAGACAAAGAGCAGATCTCCGAGGTGGCCCTGCCCTGAGGGGTCCCCTGCCCTCAAGTAGGGCCCATGGCCTTGATGAGGTGATATGACATGAGTTGA
GAGAGGTTCCTCACTGGCCCTGAAGATGTCTCCGCTGTGCTGGGGAGGGGACCCTGTGGCAAGGGACAGAGAGTGGCCTCCAAGAGCCAAGGGGGACCTC
AGAGCCACCACTACCACCRGGACCCAAATTCTGCCCAAGTCCACTTGGGCCCAGAAAAGGCCCCCGAGCAGCAGATAAGGACACAGCCCAGCTGACACCT
TGATCTCAGCCTCATTTGACCCTGAACCAAAGACCCAGCCTCCCAGGCTGGACCCCTGACCCACGGAAACAAAAGGTCATAGAGGCGTGTGGCTGTGAGC
CACATTCATTATCCAGAGATAGATACAGCAGCATTAATAAAGCCGCTGCATGTCCAGCACCTCCCCTTCCACCTCCGTCAAGTACGGGGAGGTGGCTGAG
GGTCTCAGGAACCCCTACTGAGGGGGGAAATGAAAGAAAAAAGAAAAAATTAAAAAGAGAATTAAGCTTTTCCTGTATTAGGCTGACTTGTCTCAGAGGC
AGCAACAGGCACAGCCCAGACCCAGGAAAAGTCTTAATAATACTAAGAAGCCAAGACACAAAGGAATGTGCTCTGGAGCCTCTCCCAGCACTCCCTCAAC
ATAGGGAGAAGAAAAACAAATTTTCCTTTGTTTCATGGTATGAGTTTATAGATTCCTGCTCTCTACACCTAGTGACTTCAAATATTCTGTTTTATCAGCA
GTGGAGTGAAGGTCATAAACTGTCTGAGCAGCCTGAGATAGAGCCACCTGGGTGCCATAGTGATGGCCATGGAATAAGCCATGCTAAGCACTAGGGCAAA
CCTACATAATGGCCATCTGAGTTGCACAGCAACGGTCATGTCTAATCCTGAGTTATGAGCCTGTTATAATTTGATTAACTGTCTTTGTCCTGCCTCTGTA
TCCCTGCTTTCACGCCACTGTAAGCCTGCTTCAAGCTAACCCACCCCTTTTTAAAAGTGTGTTTAAGTCAAGTGCTGTCTTTATTCTAGGCCCAGTTTTT
AGACGTTGAGTCCRGTGGGTCTGAGTGCACTCAATAAAGATCCTCCTGTATACACCCCAAGGTCTCTCTTTTCCTCCTGTTTCCACAACACTACATGTGA
TGCTGACAGAGGGTGCTGGGACAGGGGCTTCCAGTGGGGCCCCATGAACATTTATTCTGTTGCTAGTGAGGTGTTTGTCTCACTGGCTTTTGCAACATAT
AACCAGTGCTTCCCGCCTGATGTCCTCACTTGCTGAGAATGAGGCTAACTACTCCAAACAGCAAACTGAATACCATCCAGCAATCACGTTCCTTTGTATT
TGCCCAAAGGAACTGAAAACTTGGGTCCACACAAAAACCTGCACAAGAGATATACGCAGCCTTATTCACCAGTGCCCAAACTCAGACACAACCAAGRCGT
CCTTCAGCGGGCAAACGGATAAACCATGTCACCTCCAGACAACAGGATATAAAACGAAATGAGCCATGAAGCTGTGAAGACATGAAGGGGCCAGGCGTGG
TGGCKCACACCTATAATTCCAGCACCTTGGGAGGCTGAGGCAGGAGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTG
TCTGTCCTGAAAATACAAAAATTGGTCAGGCGTGGTGGCACGCGCCTGTAATCCCAGCTATTCCAGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAG
GCAGAGGTTGCAGTGAGCCGAGATCACGCTACTGCACTCCGGCCTGGGTGACAGAGCGAGAGTCTGTCTCAAAAAATAAAAGACACAAAGGGGCCTCAAA
TGCATCTAACTAAGTGAAAGAAGCCAGCCTGGAAAGGCTGCACACTGCRTGATTCCAACTATAGAACACTCTGGAAAAGGCAAAAGTATAGAGGCAGTGA
AAAGATCTGTGGTTGCCAGGGGGCAGATGGGAGGAAGTAATCCATAGGTGGAGGTGGGAGGATTTTTAGGGCAGTGACRCAACTGTGCGACACTATGGTC
AATGGTGGACATATCATGACACATATGTCCAAACCCATGGAAGGTACAGTGCCAAAAGTGAACCCCCATGGAAACGCGGGGTTCCAGAAGACAGAGCCGT
GTCCATGCAGCTTTGTCCRTTGCAACAAAGGCACCGCTTTTGGTAAAGGACATAGATAGCGGGGGAGGCTTGCATGTGTGGGGTGGGGTTACATGGGGAC
TCTGTACCTTCTGCTGAATTTCACTGTGAACCTAAAACTGCTCTAAAAAATAAAGTTTTTTTTAAAAAAGCAATTTGACCCAAAGTCAGTCTCAGGAGGC
CAGGGGGTGGGGGACAGAACAGGCCAGGGCAGGAACTTGCAGGGACGGGTGCAGGCAGGCTGAGGTCTCAGGAATGTGTCTGCACCTCTGTGGTTTCCCT
TCTCTTCTTCCCTTCTGGGGACCTTTGCAATCTGGGCTGGCTGCTGGGTCCCGCCTAGGTTTCAGATTCTGCCCCACCCTGAGGTTGGCCAGTCCCTTCT
CTCTGTGGCTCTGGGAGTGGAGCCTCAGCCCTTGGTACAGTGGAGCAAACAAACTCTGATTTGGGGCCCCAGAGAGGAAGCGCTGGGAATCCAGGGGTTG
GACAGGCTGGACCCCAAGCCCTGCTTCCACCATGGCTGTCCGTGCGACCCTGGGAGTGACTGTCAGTCCTGGTGAGACAGGGTCACAGCACCTGCCTCTC
ATGGCCATTCAACTGGGTTAATGTCCCTGCCCAGCCAGGGAATGAGAGGAGGTGGCACCATGTTTGCTGCTGGAGTGTAATGGCGCGATCTTGGCTCACT
GCAAYCTCCACCTCCCGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCTGAGTAACTGGGATTACTGGCACGCACCACCACGCCCAGCTAATTTTTGTATT
TTTAGTAGAGACAGGGTTTCATCAAATTGGTCAAGCTGGTCTTGAACTCCCAACCTCAGGCGATCCGCCTGCCTCGGCCTCCCAAACTGCTGGGATTACA
GGCATGAGCCACCGCACCCAGCCTGCCCATGTGGCTTCTAACTTGTTCCCTGACCCTGACCTTTTGCTGGAGGCAGTGAAGGCAGGAGAGAGTGGAGGCC
ACATCCAGGAGCTTCCAGGGACCTGAGGGGTTGGAGGACAATGAAATCCAGGACACGCCACTGACTTGCGCCTGTCTGCCAATTTTTCCCCATTTAAAAA
AGTTATTTAAAGGGCCAGGTGCAGTGGCTTACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGCTCGCCTGAGGCCAGAAGTTCGAGGTGGT
GAAACTCCACCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGCATGCACCTGTAATCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGC
ACCCTGGAGGTGGAGGTTGCAGTGAGCAGAGACTGTGTCACTGCACTCCAGCCTGAGCAACAGAGTGAGACTCTGTCTCCAAAAAAAAAAAAAAAAAAAA
AAAAAGTTATTTGAATTGTGGTCAAGTTTATCTTAATGATTTTTAAGTGTTCAGCTCAGTGGCAGTAAGTACATTCATATTGTCACCATCCATCTCCAGA
ACTTTTTTTTTTTGGAGACAGAGTCTCGCTCTGTCACCAAGGCTAGAGGGCAGTGGCACAGTCTCTGCTCACTGCAACCTCTGCCTCCCAGGCGCAAGTG
ATCCTCCCACCTCAGCCTCTCGAGTAGCAGGGACCACAGGTGTATACTACCACACTCGGCTAATTTTTGTATTTTTTTGTAGAGATGGTTGGGGGGGTGT
CTCACTTTGTGGCCCAGGCTGGCCTCGAACCCCTGACCTCAAGTGATCCACCTGCCTTGGCCTCCCAAAGTGCAGGGATTACAGGCGTGAACCACCTCAC
CCAGCCCAGAACTCTTCCATCTTGCAAAACTGAAACACTGTGGCCTTAAGCACTCACTCCCCAATCCCCCTCCCCCAGCCTCTGGCACCCCCCAACCCAT
TCTACTTCCTGTCTCTATGGAGGTGACCACTCCAGGGACCTCCCATGAGTGGAATGACTCAGGATTTGTCTTTCCGTGACCGGCTTATTTCCCTCAGCAT
AATGTCCTCAAGATTCATCCACAATGTAGCATATGTCAGAATTCCCTTACTTTTTAAGGCTGCCTTTTTTTTTTTTTTTTTTTTTTTTTGGCAGAGTTTC
ACTCTGTCACCCGGGTGGGAGTGCAGTGGTGCAATCACAGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGCAATCTTCCCACCTCATTTTTTGATTTTT
TGTAGAGACAAGATTTCACTATGTTGCCCAGGCTGGTCTTGAACTCCTGAGCCCAAGCGATCCCTCTACCTCGGCCTCCCAAAGCACTGGGATTACAGGC
ATGAGCCACCACTCTGAAACAGCCCGGCCTGGCTGTCTGCCCTTTTTAAGAAAATAAGATTTTGGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCAC
TTCGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCTGCCTGGCCAACATGATGAAACCTCGTTTCTACCAAAAATACAAAAATTAG
CCAGGCATGGTGGCGGGTGCCTATAATCCCAGCTGCTCGGGAGGCTGAAGCAGGAGAATCGCTTGAATCCAGGAAGCAGAGGTTGCAGTGAGCCSAAATG
GCACCATTGCACCTTCAGCCTGGGCAACAAGAGCGAACCTCCATCTCTAAATAAAAAATATTTTGGCCAGGTGCAGTGGCTCATGCCTATAATCCTAGTG
CTTTGGGAGGCTGAGGCAGGTGGGTCACCTGAGGTCARGAGTTTGAGACCAGCCTGGCCAACACGACGAAACTCCGCCTCTACTAAAAATACACAAAATT
AGCCGGGCATAGTGGCAGGCGCCTGTAATCCCTGCTGCTGGGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAAGCAGAGGTTGCAGTGAGCTGAGA
TTGCGCCATTGCACTCCAGCCTGGGCGACTGATCGAGACTCCATCTTAAAAAAA


SNP Information

Context             (SEQ ID NO:60821):
GCAGTATGTGGGGACCGAGGGCGCGTCCAGCTCGCCCACTGAGGGCTTCCTCCTGAAACCTGTGTTCCTGCAGAGGTAAGAGGCCCTGAGATGCATGCTC
Y
GTTCCTTCCTTCCTGGGCCCAGGGAGTGTCCCCTTTGTCCTGACGGGGGCTGGACCATGGCACACTGTCTGGGAGCACTTAGTAGGTGCCTGCTGTGTGC
Celera SNP ID:            hCV3065956
SNP Position Genomic:     54265
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,31|T,5)   total(C,64|T,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60822):
GTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCTCC
S
AGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGGTCTCGATCTCCTGACCT
Celera SNP ID:            hCV26209764
SNP Position Genomic:     37326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60823):
AGGAGACTCACTGAGGTTTGGAGTGGGTAAGGGACCCACCTAAGTGGCAGAGGTGTCACTAGAACTCAGACCCTCTGACTCAGATTCTTGGAAGTCACAT
S
CTTACCATACTGCTGCCCCCTCTTAGGAAACATGGTGGGGCTGGCCTGGTTTCCTTCCGGGAGCCCAGTGCTAAGGGCTGGGCTGCAATGCAGCCAGAAG
Celera SNP ID:            hCV3066032
SNP Position Genomic:     7201
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|G,7)      total(G,7|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60824):
CACCTGGCTCGGTACGTGGAGCAGTATGTGGGGACCGAGGGCGCGTCCAGCTCGCCCACTGAGGGCTTCCTCCTGAAACCTGTGTTCCTGCAGAGGTAAG
R
GGCCCTGAGATGCATGCTCCGTTCCTTCCTTCCTGGGCCCAGGGAGTGTCCCCTTTGTCCTGACGGGGGCTGGACCATGGCACACTGTCTGGGAGCACTT
Celera SNP ID:            hCV3065957
SNP Position Genomic:     54245
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,16)   caucasian(A,6|G,28)   total(A,26|G,44)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60825):
GGTGACCTGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGACAGGAGAATTGATTGAACCCAGGAAGCAGAGGTTGCAATGAGCAAAGATTGTACCACT
R
CACTCTAGCCTGGGCAACAGAGCAAGCTGTCTCAAAAAAACGAAAACAAAAAAAAATGACCAGCCTGGGCAACATAGTGAGACCTCGTCAGAAACTAGCC
Celera SNP ID:            hCV26209765
SNP Position Genomic:     35512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60826):
CTGGAGTACAATGGCACAATCTCTGCTCACAGCAACCTCTGCCTCCTGGTTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGTG
Y
GCACCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGAGGGGGTTTCACCATGTTGGGCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCT
Celera SNP ID:            hCV3065958
SNP Position Genomic:     49191
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,14)   total(C,14|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60827):
ACACCCAGCTACTTTTTGTATTTTGAGTAGAGACAGAGTTTCGCCATGTTGGTCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCCGCCTGCCTCAGC
S
TCTCAAAATGCTGGGATTGCAAGTGTGAGCCACGGCGCCCAGGCCCTGGGTTTTGTTTTCTAATACATCTCGTAAGTCTCCTTTCACCTCTGATTCCCTC
Celera SNP ID:            hCV26209766
SNP Position Genomic:     34731
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60828):
CTCGAACCCCTGACCTCAAGTGATCCCCCACCTCAGCCTCCCAAAGTGTTGAGATTACAGGCGTTAGCCACTGTGCCTGGCCTTTTTTACATTTTTAAAA
Y
AGAGACAGGGTTTCACCATGTTGTCCAGGCTGGACTCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGTTTTGGGATTACAGGTGTGACCCACCACGCCTG
Celera SNP ID:            hCV3066034
SNP Position Genomic:     12438
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60829):
TTAAATTGACAACATGGAAAAAACCTTAACCCACTTATCCTGAGGGAGGGTGGGAATAGTGATTTCATCTGCGTTGGTTTTAGTAGTAGCAAAAACCCAG
S
CCCCACTGAATGTCAACACAAGGAAACTGGTCACGTAAATATAAACAGCAGACGTCCCAGACGAGCTGGGTGTGGTTCCAGGACATGGGTCCTGCCTGGT
Celera SNP ID:            hCV3065959
SNP Position Genomic:     48620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|G,6)      total(G,6|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60830):
TCTTGAACTCCTGACCTCGTGATCCGCCATCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTTCCAGCCACCGCGCCTGGCTTTTTTTTTTTTTTTTTTT
T
GAGATGGGGTTTTGCTTTTGTTTCCCAGGCTGGAGTGCGGTGGTGCATTGTCGGCTCACCACAACCCCCTGGGTTCAAGCAATTCTTCCTCCTCAGCCTC
Celera SNP ID:            hCV11699313
SNP Position Genomic:     15591
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|-,8)   total(-,8|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60831):
CCATGTTGTCCAGGCTGGACTCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGTTTTGGGATTACAGGTGTGACCCACCACGCCTGGCCAGTATTCTCTGT
Y
GCTTAGTTTTTCTAGTTTGACTGTTTTGAAGTATCTTTTTCCCCCCCCAATTTTATCACAAAGCCTGCCAGCTACTGACAAGTAGGGAGTGGCCCATAGG
Celera SNP ID:            hCV3066035
SNP Position Genomic:     12554
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60832):
AAACCGGGCTGCTGAGAGTTGGTTGAGAATGCAGACACCTGGCCACCATGCAGGATTCCCATTCATCAGGGCCCGCCCGGCATCGGCACAGTTTCTTTGC
T
GTTTTTATTTTTTGAGACTGGGTCTCACTGTTGCCCAGGCTGGAGTGCAGCGGCATCATCACAGCTCACTGCAGCCTCTACTTCTCTGGGCTCAAGCAAT
Celera SNP ID:            hCV26209768
SNP Position Genomic:     20454
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|-,9)   total(-,9|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60833):
GTCAACAAGTCGATTCTTGTGTTTGTATCTTCTTGGCTCATGGAGCAGGCGGTGACCCCTTCTCCGAGCCAGGCCCTGGGGTTTATTCAGAGGCCCTGCT
Y
TCAGGGTTCCTGCACAGTCAAGGTGGGGGGTCCGATGAGAAACAGATGGGCAGATGCGGGTGGCGCATGGGAGAGGGCAGAGAGAGGATGGAGCAGGCCA
Celera SNP ID:            hCV11699314
SNP Position Genomic:     13570
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60834):
ACCCCTTAACGTGCAGCTCCTAACTTAAGCAGCCCCTCGACATTCAAAGGGAGCCCCCTGGCTGTTCTCTGGGGGAAGTCCCGCTAGTTGTCAACAAGTC
R
ATTCTTGTGTTTGTATCTTCTTGGCTCATGGAGCAGGCGGTGACCCCTTCTCCGAGCCAGGCCCTGGGGTTTATTCAGAGGCCCTGCTCTCAGGGTTCCT
Celera SNP ID:            hCV3066036
SNP Position Genomic:     13481
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60835):
CAAACCGGGCTGCTGAGAGTTGGTTGAGAATGCAGACACCTGGCCACCATGCAGGATTCCCATTCATCAGGGCCCGCCCGGCATCGGCACAGTTTCTTTG
Y
TGTTTTTATTTTTTGAGACTGGGTCTCACTGTTGCCCAGGCTGGAGTGCAGCGGCATCATCACAGCTCACTGCAGCCTCTACTTCTCTGGGCTCAAGCAA
Celera SNP ID:            hCV26209769
SNP Position Genomic:     20453
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|C,9)   total(C,9|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60836):
ACCCCCTGGGTTCAAGCAATTCTTCCTCCTCAGCCTCCCAAGTAGCTGGGTCTATAGGTGCACACCACCACACCTGGCTAATTTTTGTATTTTTAGTGGA
S
ACGGGGTTTTGCAATGTTGGCCAGGCTCGTCTCAAACTCCTGACTTCAAGGGATCTGTCCACCTCAACCTCCCAAAGTGCTAGAATTACAGGTGTGAGCC
Celera SNP ID:            hCV3066037
SNP Position Genomic:     15755
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,7)   total(G,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60837):
GGATCAGAGGGTGCATGCGGAGCTTGGAAATGCCTCCTTGGAATGGTGGGGGGCTCGCAGTGAGCCTACAGCTGCCTCTGAAACAGACCTTGGCTCCATG
M
TGCTTCCCTACATACCCACACCCTGCTCGTTCCGACCCCTTCTGCCATCAAACCTGTGCACCATGGAGAAACAGACGCAGCCCCCTGTGAGCCTGAGCAG
Celera SNP ID:            hCV3066038
SNP Position Genomic:     16190
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,11)   total(A,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60838):
CCAAATTCATGTATTTTAGCCCTAGCCCCAGCGCCTCAGAACGTGACTGTATTTGGAGATGGAGCCTTTGAAGAGGTGATTTAACTGAGGCCGTTAGGGT
R
GGCCCTAATCCAGTCTGATTGGTGTCCTTATAAGAGAGGAGATTGGGACACACATCAGGGACATGCGTGCACAGAGAGAAGACCACATGAGGACACAGAC
Celera SNP ID:            hCV3066039
SNP Position Genomic:     16867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60839):
TGCCCCCTCTGTTCGTGGACACTGCTGGGTCCCCACCATACTCCTGGACGGGACCTGCCCATGGCCGGGGCTCAGGCCATGCTGGGCAGCAAGATCCACA
M
GTGTGCAGACAGGACCCTGCGGGCAGGTGCTCTTTCCTGAGAGTCATCCTGTCCCCTTCACGGAGGGCTGCCTGAGTGTCCCGGCCCAGGGCACAGCACT
Celera SNP ID:            hCV15873047
SNP Position Genomic:     23426
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,736|C,749)   total(A,736|C,749)no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60840):
CCTTCCTTTGCAGCTGTTTTGAATGTAGTTTTCCTTTTCTATTTATTTGCACATTAAAGTTAATAATTGAATATTGACATCAAGCCGTGAGGGTGTGTTG
S
TCTTCCTGTGAGAGCCTTGCTGACTTCCTGCCACCAGGTCAGTGGGCTGGACCCATGAGAGCAAGGGGTGGCTGGGTGTGCCTACCTGGGACCAGGGGAG
Celera SNP ID:            hCV15885495
SNP Position Genomic:     56973
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,26|G,1469)   total(G,1469|C,26) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60841):
CTCTTCCACGAGCACCCTGACCTCATTGTTGGATTCAACGCTTTTCTTCCCCTCGGATATAGAATAGACATTCCCAAGAATGGCAAGTTAAACATACAGT
Y
GCCTCTGACAAGCCAGGTATGCCACTACAGTGGTTCGGGTGATCTCAGCCTTCACCGAGTATGTCTTGCTACTCAGGTTGGGCCACGTGTCTCTCCTGTA
Celera SNP ID:            hCV25752561
SNP Position Genomic:     8233
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,13|T,1)   total(C,45|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60842):
GATTTGATTCGCCCATTCTGGACATTTCAGATGGGTGGAATGTCACCATATGTGGCCTTTGTGTCTGGCTCCTCTCACTCAGCATCATGTTTTCAAGGTT
Y
ATCCATGTCGTACCGTGGATCAGTGCTCATTCCTTTTCCTGGCTGAATCATATTCTGTTAGATGGATGAGCCACATTCTGTTTATCCGTATTCTGTTGAT
Celera SNP ID:            hCV7493741
SNP Position Genomic:     24656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60843):
GCTGCTGTGTGAGGGCCGCAGGGAGAAGGGCAGCGACCCCGCCATGGAGCTGCGGCTGAAGCAGCCCAGTAAGGCTCCAAAGCCTGCCGGGAGGCCCCGG
S
GGGTGCCTGGGGTTAGGGGTCACAGCTCATGATCTGACATGTCCTGTTACTTTTCTTTCTGGCTTTTCATTTTAAGAGAATTCTGTGATTTCAAATGGGA
Celera SNP ID:            hCV25617578
SNP Position Genomic:     46710
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,25)   caucasian(G,34)   total(C,1|G,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:60844):
TTCTGTTCCTGTCAACTCCATCTACTTGGTTTTTAGTTACTGTTTTTGAGCAATGATTGTGCTTTTCTAAAATCCTGTTTATTAATTGACGTGATTGATA
W
AATTATTGATTCCCATGCATTTGTAAGGAGCAATACACCACCTGGGTACCCTCCAGCTGGTTCCTTTACCAGTAACATCTGTAGTCAGTATCCTCACCAG
Celera SNP ID:            hCV7493742
SNP Position Genomic:     30996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60845):
CTGTGGAGGGTTGTGCGTCCGCCACAGTGAAGATACTGAACGGCTCCAGGACTGTCAAGTTCTGGCCTTGACCTTTTATCTCCATCCCAAAACCCTGCCT
Y
AGCCGGAGTCTGTTCCAAACCCCTGGCAACTACTTATCTGTTCTCTAGACAATGTTACAGTAATGGAACTGTACAGGAGGAACCCTCTGGGAGAAACCTT
Celera SNP ID:            hCV7493743
SNP Position Genomic:     31869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60846):
TGCTGCCCTTGGGGTAAGGCACAGAGAGGTGTGTCCCGCTGATGGCAACTTTCCGTTTCCTGGGTCACTCGTACCAGTGCTGTGCGAGGCCGCACTCTGT
R
TCCTCCCTGGGGCTCAGGGGCGTCTCTCCATCAGCTGGGAGTTCAAATCTCGGTGGGCTCACGTTGCATTTCCCTGATGGCAAATGTGGCTGGGGCCCTG
Celera SNP ID:            hCV29031670
SNP Position Genomic:     49679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60847):
CCACAAGGGGAGGGACCCCAGCCAGTATTCCCTCAGAGCCGGCACGACCCTGCTGTGGGGCGGCGGGCCCAGTCGTGTTCCTGCAGTGGGCACCCTAGGC
G
TATGTGTATACACGCACAGATATTTATTCCTTTCGCTTTTAGTGGTTGTTATTTCTGTAGCAGCCAAGTCCTGCGGCTCCCTGGGGCTGAGATCTCCCTT
Celera SNP ID:            hCV11699288
SNP Position Genomic:     56122
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,8)   total(G,8|-,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:60848):
TCTGTTCCAAACCCCTGGCAACTACTTATCTGTTCTCTAGACAATGTTACAGTAATGGAACTGTACAGGAGGAACCCTCTGGGAGAAACCTTCCCCCCCC
S
CCCCCCAGCAAAATTCCCTGGAGATTCACCTGATAAATACTTTTAAAAATTCTAACACTTGGGCCGGGTGCGGTGGCTCGTGTGTAATCCCAGCACTTTG
Celera SNP ID:            hCV7493746
SNP Position Genomic:     31978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60849):
GGTCAAGCTGAGCCCATCAGAAGGCCTTTCCCTGGTGGTCTCAGGCATGCACGTGTTGGGGTGATCTTTTCAGTGGGTTTTCTTTCTTGGGCTGCTGAAG
K
TCTGTAAACGCCCTGAAGAACAGCCCAGAGCAGGATGGTGTTACTCTAGTCTCAGCCAAAACGGGGACTCCTGGGGTCTGTTTGTGACGTGGGTGGTGGG
Celera SNP ID:            hCV29031672
SNP Position Genomic:     36211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60850):
AAGTTGAATCAACCCTGGGGACAGGTGCTGTGTGAGCCCTTTTGCATTAACTTAAAAAAAATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
R
TATATACACATAAACATTTTTCTAATGTAAAATAAAGCACAGATCCAAGAAACCACATGGCCAACAAATGGCTTGAATCTTTATTAAGCAGTCACCCATG
Celera SNP ID:            hCV7493747
SNP Position Genomic:     34154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60851):
CCTATCCGTCCAGGCCCATGCCTGCCCACCCACCCCACACGACCACCCTCTGTACTCCTTGGGGCCCCACCCACTTCCTGGCTTTCACCATCATTTTCTC
Y
TCATCTCCTGCCCCCTGTCTGCATCCCAAGCTCCACACCTGCTTCCGGGTAGCAGAAGCCCCAGCTCTGCTGTGTCCCCTGGCTGACATACCTGGAGGGT
Celera SNP ID:            hCV7493780
SNP Position Genomic:     57387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60852):
CCTGAAGATGTCTCCGCTGTGCTGGGGAGGGGACCCTGTGGCAAGGGACAGAGAGTGGCCTCCAAGAGCCAAGGGGGACCTCAGAGCCACCACTACCACC
R
GGACCCAAATTCTGCCCAAGTCCACTTGGGCCCAGAAAAGGCCCCCGAGCAGCAGATAAGGACACAGCCCAGCTGACACCTTGATCTCAGCCTCATTTGA
Celera SNP ID:            hCV7493781
SNP Position Genomic:     58019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60853):
TGTGTGAATTGCTGCACGGATCGCGTGCACGGGCTGCGTGAATTGCACGGATCACATGCACGAACTGAATTGCTGCATGGACGCGTGCAGGGGCTGTGTG
R
ATTGCACGGATCGCATGCACAAACTGTGAATTGCTGCATGGACGCGTGCAGGGACTGTGTGAATTGCTGCACAGATGGCGTGCATGGGCTGTGAATTGCT
Celera SNP ID:            hCV29031673
SNP Position Genomic:     30377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60854):
CACCAGCCAAGCGCAGGCCGCGCAGCATCCAGAGACCCTCCCTCTGCAGGCCACAGGCTCTCCTTGAGGCCTGGTGGGTGGGGTTGCCTCCCTCCCTGCT
Y
CCCCACCAGGCTCTCTTCTGTGCCCCCTCTCCAAAGAGCAGACCACTCCTCCTGAGCAAGCGGTTGTGTCCCAGGGCAGGAGGGGAACCAAGCCACCTCT
Celera SNP ID:            hCV15894788
SNP Position Genomic:     53347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60855):
ATGGATTGCGTGCATGGGCTGTGTGAATTGCTGCACGGATCGCGTGCACGGGCTGCGTGAATTGCACGGATCACATGCACGAACTGAATTGCTGCATGGA
Y
GCGTGCAGGGGCTGTGTGAATTGCACGGATCGCATGCACAAACTGTGAATTGCTGCATGGACGCGTGCAGGGACTGTGTGAATTGCTGCACAGATGGCGT
Celera SNP ID:            hCV29031674
SNP Position Genomic:     30358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60856):
AATTAGCCAGGCATGGTGGCGGGTGCCTATAATCCCAGCTGCTCGGGAGGCTGAAGCAGGAGAATCGCTTGAATCCAGGAAGCAGAGGTTGCAGTGAGCC
S
AAATGGCACCATTGCACCTTCAGCCTGGGCAACAAGAGCGAACCTCCATCTCTAAATAAAAAATATTTTGGCCAGGTGCAGTGGCTCATGCCTATAATCC
Celera SNP ID:            hCV27914707
SNP Position Genomic:     62595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60857):
TATTTGCCCAAAGGAACTGAAAACTTGGGTCCACACAAAAACCTGCACAAGAGATATACGCAGCCTTATTCACCAGTGCCCAAACTCAGACACAACCAAG
R
CGTCCTTCAGCGGGCAAACGGATAAACCATGTCACCTCCAGACAACAGGATATAAAACGAAATGAGCCATGAAGCTGTGAAGACATGAAGGGGCCAGGCG
Celera SNP ID:            hCV7493788
SNP Position Genomic:     59297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60858):
CCAAACCGGGCTGCTGAGAGTTGGTTGAGAATGCAGACACCTGGCCACCATGCAGGATTCCCATTCATCAGGGCCCGCCCGGCATCGGCACAGTTTCTTT
K
CTGTTTTTATTTTTTGAGACTGGGTCTCACTGTTGCCCAGGCTGGAGTGCAGCGGCATCATCACAGCTCACTGCAGCCTCTACTTCTCTGGGCTCAAGCA
Celera SNP ID:            hCV26209770
SNP Position Genomic:     20452
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|G,10)   total(G,10|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60859):
TTTCATTTTAAGAGAATTCTGTGATTTCAAATGGGAAATTGCAAACAGGAAGTTGCCAGCATAAGACAGAGGTCTCACGTACCCCTCGCCCAGGCTCCCC
K
GGCCGTGGCACCTGTCCTGGGTGTAGCACCCTCTCCTGACTGGGGAACATTTGTTTCTCATGGGCTTTCTCGTGGAGCCGTCATGGCCCAGCTCCACAGT
Celera SNP ID:            hCV3066005
SNP Position Genomic:     46875
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,12)   total(G,3|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60860):
AGGAGAATCACTTGAACCCGGGAGGCAAAGGTTGCAGTGAGCCGGGATCATACCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCCATCTCAAAACA
R
AAAGAACAAATCCCGCCACCAAGGAGAAATTGTTTTAGAATCGTGGCTGCTCTGCGTCTTGTATTTCTGCTTTTCTCAGCTGAGACTTTCTAGAATTGTC
Celera SNP ID:            hCV26209771
SNP Position Genomic:     16611
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,11)      total(G,1|A,11) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60861):
ACTAAAAATAGAAAAATTAGCCAGCGTGGTCGCACGGCACCTGTGATCCCAGCTACTCAGGAGAATCACTTGAACCCGGGAGGCAAAGGTTGCAGTGAGC
Y
GGGATCATACCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCCATCTCAAAACAAAAAGAACAAATCCCGCCACCAAGGAGAAATTGTTTTAGAATC
Celera SNP ID:            hCV26209772
SNP Position Genomic:     16553
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60862):
GGGAGGAGGTGGAGGAACCGGGAAGCCGGCCACATTGGCTCTGTAAGGCCATCACGCCCTCCCTCTGACGTGCACAGAGCCCACTGCACAGACTAGGCTG
S
GAGCTGGCTGGGCCTGGGTCCTGGACCCCCAGTCAAGTCCCAGAGGAAGACAGGCCAGCCCTGGGATGCTTCAGGGAGGATGCCCTGGCTTGTCCCTGGT
Celera SNP ID:            hCV3066007
SNP Position Genomic:     42851
SNP Source:               Applera
Population(Allele,Count): african american(C,16|G,22)   caucasian(C,24|G,12)   total(C,40|G,34)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(C,-|G,-)   JBIC-allele(C,366|G,367)   total(G,367|C,366) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60863):
GGGTAGGCCCTAATCCAGTCTGATTGGTGTCCTTATAAGAGAGGAGATTGGGACACACATCAGGGACATGCGTGCACAGAGAGAAGACCACATGAGGACA
M
AGACAGTGGCCACCCACAAGCCAAGGAGAGAGTCCTTAGAGAAAACCAAACCTCCTGGCACCTTGACCTTGGCCTCCTGGCCTCCAGGCCTCCAGAACTG
Celera SNP ID:            hCV3066040
SNP Position Genomic:     16963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,8)      total(A,5|C,8) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60864):
AAAAAAAAAAAAATTCTGCTGCTTCTCTGTGCAAGACCCTCTCTGCCATCAGCCTGTTGTCTCCTGAAAGCCAAGGAGCGAGTCTCAGGGTTTTTTTTTT
K
CCTTTTTTGAGAAGGAGTCTCGCTCTGTCACCCAGGCTGGAGTTCAGTGGCGCAATCTCGGCTCCCTGCAACCTCCACCTCCTGGGTTCAAGAGATTCTC
Celera SNP ID:            hCV26209773
SNP Position Genomic:     10335
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60865):
TGCAGGGGACTTGGGCAATGCAGGTGGGCTGGTGGCGAGGGACATCTGTGTCGTGAGTGGGGCTTAGACGTCCTCTTCACCCAGACGTGGAGTCTCTAAC
R
CTTGGAATTTTTTTTAGCAGCAGAACCCATTTTTTTTCTTTTTTTTGAAACAGAATCTTGCGCTGTCACCCAGGCTGGAGTGCAGTGGCTCAATCTCAGC
Celera SNP ID:            hCV3066041
SNP Position Genomic:     19670
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,10)      total(G,5|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60866):
TTGGCTCCTGGGGCATGCAGCGTCATTCACGGCATTTCCTCTTGGTGCAGGTACTGAACGACACCTGGGTCTCCTTCCCTTCCTGGTCTGAGGACTCCAC
R
TTCGTCAGCTCCAAGAAGACACCGTACGAGGAGCAGCTTCACCGCTGTGAGGACGAGCGCTTCGAGGTGTGTGTGCTGCTGTGGCCGGGTCCCCCGGCAT
Celera SNP ID:            hCV3066009
SNP Position Genomic:     40329
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60867):
CTGGAGTGCAGTGGTGTGATCTGGGCTCACTGCAGCCTCCGCCTCCCGGGTGCAAGTGATTCTTGTGCCTCTGCCTCCTGAGTAGCTGGGACTGCAGGCA
Y
GCACCACCACTCCAAGTTCGTTTTTGTATTTTTAGTACAGACAGGGTTTCACCATGTTGACCAGTCTGGTCTCGAACTCTTGACCTCAGGTGATCTGCCT
Celera SNP ID:            hCV11699323
SNP Position Genomic:     7811
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60868):
CTGGAGTGCAGCGGCATCATCACAGCTCACTGCAGCCTCTACTTCTCTGGGCTCAAGCAATCCTCCCACCTCAGCCTCCTGAGTGACTGGGACTACAGGC
R
CTCACTCCGACGCCCAGCTAAGGGCTAAGAGGAGACGGGGTTTCACCATGTTGCCCAGGTGGGTCTTGGAACTCCTGGCCTCAAGTGATCCACCCACCTC
Celera SNP ID:            hCV3066045
SNP Position Genomic:     20594
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,13)   total(G,13|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60869):
CAGCCTGTGAATTATGTGAAGGCCGGGAGGAGGTCATCTGAAATCAGACAGGTCATTGTGGCCTCAGATGGGGACAGGGCTGGCCCCTAGCACAGGGGAA
Y
GCTGAGAGAGTGCATGGACATGGGAGGGGGTGCTGGCGTGGTTTTGCATACTCCCACGGGGTTCTGGTCAGCCGGGAGCAGTTTCTGCATTCACCTGGTG
Celera SNP ID:            hCV3066046
SNP Position Genomic:     21522
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60870):
TAGAGACAAAAGCCTGCAGAGACTCAACATTTGGCTTCTCCAGGGTCTTCCCAGTGCCACCCTCTTCCTGTCCGCTTCTTGTTGCTGTCTTGGCTCTCAG
R
ACAAAACAGGGAAAGGATTCTGAGATTGTCGTAGCCAGGGGCACATCCCCCTTGCCTTTCTGATGCTGTGGCACTCTTGCCTGTTACCCAAAGCCCTACC
Celera SNP ID:            hCV16183043
SNP Position Genomic:     29343
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,217|G,1258)   total(G,1258|A,217) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60871):
GGGCAGCCTGGAGAGAGGACACCCAGGGCCCAGCACATGGTGTTGGGGAAGTGACGCAGGGGACGCCAGGGGGCTGGCAGTCTGTCCCCTCCCCCCCCCC
C
AGGCTGGGCACCCCTCATGGGCCATGGCTTCGGGGACAGCAACCTTGCTTGTGACACCAGGAGATTGGACCAGATGGTTTATGGAAAGCATTGATTAATG
Celera SNP ID:            hCV11699291
SNP Position Genomic:     50134
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|-,5)   total(C,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60872):
TCACTGCAGCCTCCGCCTCCCAGGTTCAAGCAATTCTCTGCCTCAGCCTCTGAGTAGCTGGGATTACAGGCACCCACCACCATGTCCGGTTATTTTTTTT
T
GTATTTTTAGTGGAGACGAGGTTTCACCATCTTGACCAGGCTGGTCTTAAAACTCCTGACCTTGTGATCCACCTGCCTCGGGCTTCCAAAGTGATGGGAT
Celera SNP ID:            hCV11699294
SNP Position Genomic:     47327
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,6)   total(-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60873):
CCTTTGTTTTTTTTTAGCATCTTAATGAATTCATGGACTTAAAATATATTTGATGCGTTTCAATACCGTTTCTAGTCCTTTTAAAGGTGAGGGGCCAGGC
R
TGGTGGCTCATGCCTATAATCCCAGTACTTTGGGAGGCCGAGGGGGAAGGATCACTTGCATCCAGGAGTTTAAGACCAAGGCCGGGCCTGGTGGCTCACG
Celera SNP ID:            hCV7493752
SNP Position Genomic:     35187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60874):
AAACACATGAGATGATTTTGCAGGCCCAGAATCAAGGAAGATTACAGATAGATGGGAAACCCTGGGATCATGCCCTTGTTTTTATAGGAGACTCACTGAG
R
TTTGGAGTGGGTAAGGGACCCACCTAAGTGGCAGAGGTGTCACTAGAACTCAGACCCTCTGACTCAGATTCTTGGAAGTCACATGCTTACCATACTGCTG
Celera SNP ID:            hCV15894792
SNP Position Genomic:     7116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60875):
CCCAGGAGGTTGAGGCTGCAGTGAGCTTTGATTGTGCCACAGCACTCAAGTCTGGGTGACAGAGCAAGACCCTATCTCTTAAATACACACACCCCCCCCC
C
AAAAAAATCCTCTGGTCTCTGAGGTCCCAGGCTCCTCTCTGAGGCCTCTTGAGTTCCCCAGTGGCTGACCCCGTCCTGCCTTCCTTTCCATAGTTAGACG
Celera SNP ID:            hCV11699296
SNP Position Genomic:     41918
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,5)   total(C,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60876):
GTGGAGGTCCAGGTGAGGCCCTGGCCCCAGTCTGTGCCACGCATACCAGGGAGCGCCTGAGGGCAGCAGCATGGGGCTCCCACCAGCCAAGCGCAGGCCG
Y
GCAGCATCCAGAGACCCTCCCTCTGCAGGCCACAGGCTCTCCTTGAGGCCTGGTGGGTGGGGTTGCCTCCCTCCCTGCTCCCCCACCAGGCTCTCTTCTG
Celera SNP ID:            hCV25758314
SNP Position Genomic:     53267
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,18)   total(C,49|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:60877):
TGACAGAGCGAGAGTCTGTCTCAAAAAATAAAAGACACAAAGGGGCCTCAAATGCATCTAACTAAGTGAAAGAAGCCAGCCTGGAAAGGCTGCACACTGC
R
TGATTCCAACTATAGAACACTCTGGAAAAGGCAAAAGTATAGAGGCAGTGAAAAGATCTGTGGTTGCCAGGGGGCAGATGGGAGGAAGTAATCCATAGGT
Celera SNP ID:            hCV7493790
SNP Position Genomic:     59749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60878):
GAGGCTGCGGTGGGAGGATCTCTTGAGCCCACGAGTTTGAGGTTGCAGTAAGCTGAGATCATGCCACTGCCCTTGAGCCTGGGCAACAGAGTAAGACACT
M
TCTCTAAAAAGAAAATACCAAACCAAACAAAACACAGGCAGTGTGCAGACTGGCTGTGGCTTGCCACTCCCTGGCCTGAAGCCTGGCCTCTTCCAGTCAG
Celera SNP ID:            hCV7493758
SNP Position Genomic:     38529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60879):
TAAAAGGAGTAGCAGTGTATTTACAGCCAAGCATTTAGGGGAAAGGAACAGCCTGCACTCAGGCCACCTTCAGCTCATTCCTGGGTTTGCTTTGGAACAT
W
TTTTTCCGTGTCTTTTCTGTGTGTTTCTCACACCCGGGCAGGGTTTGCTGGTCTGGCCTGGTCTGTTTTGTTCAGGTCTGGTCTGGTCTAGTTTTGGTCT
Celera SNP ID:            hCV15905342
SNP Position Genomic:     50822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60880):
CCGCGTGGCAGCCAGGGTGGATCGGGTTGAGCATTCCCTTCAGAGCAGTCACGATTTGCGTTTATCCCAGCAGTAGCCTCAGGCATCTCTGCAGCTTTTT
Y
GTTGGTCTCTTTCCTTCCTACGTTTCCATCGGCTTGTGGGTTTTCCTTGTGAGCAGGGTTGGCATAGGGTTCTTAAATACGGGGAACGACGGAGCCCACA
Celera SNP ID:            hCV3066010
SNP Position Genomic:     37007
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,10)   total(C,4|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60881):
AGCTGTTCTTGTTTCCATGTTTCAGCAGTAGAGACTCGTATGGGGAAGGGCGTTTGGGGAAGGGTCTGTATGGAGCAAGGTCCAGAATTGAAGCGGGCCT
C
TGCGTGTGCTTGACACGAGGCCTGGTTGGGTTAGGAGCGTTCACCACCATGTGGCGTTCCTCCGCGTGTTCAACCTGCGGTCAAGTGCTCAGCTGGGCTG
Celera SNP ID:            hCV3066011
SNP Position Genomic:     36762
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,11)   total(C,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60882):
GAGACAGGAGAATTGATTGAACCCAGGAAGCAGAGGTTGCAATGAGCAAAGATTGTACCACTGCACTCTAGCCTGGGCAACAGAGCAAGCTGTCTCAAAA
M
AACGAAAACAAAAAAAAATGACCAGCCTGGGCAACATAGTGAGACCTCGTCAGAAACTAGCCAGAAGTGGTGGCGTGTACCTGTACCTACTTTGGAGGTT
Celera SNP ID:            hCV3066012
SNP Position Genomic:     35550
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60883):
TCTACTAAAAATAAAAAAATTAGCCAGACATGGTGACCTGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGACAGGAGAATTGATTGAACCCAGGAAGC
M
GAGGTTGCAATGAGCAAAGATTGTACCACTGCACTCTAGCCTGGGCAACAGAGCAAGCTGTCTCAAAAAAACGAAAACAAAAAAAAATGACCAGCCTGGG
Celera SNP ID:            hCV3066013
SNP Position Genomic:     35481
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60884):
CTCCCAACGTGCTGAGATTATGGGCGTGAGCCACCATGCCTGGCCATGATTCTTTTTTTTAATGGTTCTTGCACATGGTGGGTGCACATATTAACATGAT
Y
AGTCCATTCAGTCCTTAGCCCTTTTCCCATTTACCCCAGGGATAGTAGTTGACAGCACTTGTGGCTGTAGCGTTCACCCCAAGATAACTTTGCCATGAAG
Celera SNP ID:            hCV3066014
SNP Position Genomic:     33526
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60885):
GTCACTTGGGCAGTCTGAGCCTCTGTTTCCTTGCTGTAAAATGGGGATAGTAAATGTACCGACCTATGTGGGGTTCCTGAGAGCTGCAGGTGGGCGCTAC
Y
TGCAGGGCCCTTCAAATACAATAGAATCTCACAAATAAAAGGAAAAGACGATTTTTTCGGCAGAAGGAAATGATGTAAGTCACAAACTTGGATCTTTCCT
Celera SNP ID:            hCV3066015
SNP Position Genomic:     33036
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60886):
TTGACCTCTGGGCTCTAGCTGTCCTCTCACCTCAGCCTTCCAAGTAGCTGGGACCACAGGTGTGCACCACCACACCTTTTTGTAGAGATGAGGTTTCATC
R
TGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAACAATCCTCCCGCCTCAGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGTCCCTGCACCCAGCTC
Celera SNP ID:            hCV3066016
SNP Position Genomic:     29046
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60887):
AAACCTGGCCCCAAGGCCCCCACCAGTGCCCTGGCAAACATCAGCCACTTCCCCTTGCTGCCTGTTTCTCTGTCCACTGCACCTTGTGTTTCTGTGGTGC
Y
GGCATGCACACGGCGAGATGCCCCACCAGTGGCCGCCACATGAGCCCCCGCACGGGAAGACCCAACTCAGCTGTCTCCCTCCTGAAACCCCCAGCCCTTC
Celera SNP ID:            hCV3066017
SNP Position Genomic:     27657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60888):
CTGAGGACTCCACGTTCGTCAGCTCCAAGAAGACACCGTACGAGGAGCAGCTTCACCGCTGTGAGGACGAGCGCTTCGAGGTGTGTGTGCTGCTGTGGCC
R
GGTCCCCCGGCATGTGCCTGTTCCCCTTCTCCATGGGACATGCATCCTGATCCTCCTCCACTGCCCCAGTCTCGTTTGGAGGAGCAGGAATTGCAGCACA
Celera SNP ID:            hCV25617552
SNP Position Genomic:     40416
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,30)   total(A,1|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:60889):
CTGCATCTTTTGGGAATCAGTTTACACCTGTTCCAGCATATACAAAAAATAGCCAAGCGTGGTGGCTCGTGCCTGTAATCCCAGCTACATAGAAGGCTGA
R
GCAAGAGAATCACTTGAACCCAGGAGACGGAGGTTGCACTGAGCTGAGATCGCACCATTGCGCTCCAGCCTGGGTGACAGAGTGAGACCTCCGTCTCAAA
Celera SNP ID:            hCV3066019
SNP Position Genomic:     26458
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60890):
TCTCCATGGGACATGCATCCTGATCCTCCTCCACTGCCCCAGTCTCGTTTGGAGGAGCAGGAATTGCAGCACATTCCAACAGCTCCTGGAAGCTTCCTGC
Y
GGGTCTTGCTGGCCTTTGGGCTGGCTACCAGATGGCACTTTTCTTTCTGTTTAAAAATTTTGTTTGGGCTGGGCGTAGTGGCAGACACCTGTAATCCCAA
Celera SNP ID:            hCV25617553
SNP Position Genomic:     40544
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,6)   caucasian(C,25|T,1)   total(C,45|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:60891):
GAGGACCTGCTCTCAGAGTTTGGACAGTTCCTGCCCGAAGCCAAGCGGTCTCTGGTGAGTGCCGAGAGCCCCTGCCCAGCCTCGGGGGCCTCAGCGAGGA
Y
GGAGGGCCCCAGCCAGCTTGACCCATGTCCGGGCCAAGCCTATGTACCCTCCAGGCCACACTAGGGTCCCCCAGAAGCTACGCAGGTTGCAGATACCCAG
Celera SNP ID:            hCV25617554
SNP Position Genomic:     23759
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,22)   total(C,56|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:60892):
TTCATCGTGAACTCCGAGGACTACATGTACCGTCGCGGGACCCTCTGCCGGGCCAAGCAGGTGCCAGGGGAGGCCTGGGCTGCCCCGACATGCCCCTCCT
S
ACCCCAAGTCCTGGGGCCCTGGGGGTCCAGCCCTCAGCTGCCCTGACACCCGGCCTCTTCAACAGGTGCAGCCCCTGGTCCTGCTCCGCCACCACCAGCA
Celera SNP ID:            hCV25617555
SNP Position Genomic:     55031
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|G,1)   total(C,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60893):
GAGCGTGGCAAGCCAGACCGGAGGCCGCCCTGTTTCCTTCTGCCTTGATCCCATGGCTGGGGATGCCCAGGGTCCTCTGTGGGCCCCCAGACTGGCTTTC
Y
TTGGTCAGAAGTGCTGCAGGGGCTGGGAAAGGCTGTGCTGGTCCCAGGAGAGCAGACAAAGAGCAGATCTCCGAGGTGGCCCTGCCCTGAGGGGTCCCCT
Celera SNP ID:            hCV11459076
SNP Position Genomic:     57750
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60894):
CAGGCACTTTGTACACATCCTGGTTTTCTAAGAAGGGAACTTGCCATCAAGATTCCTGTACCAGGCCCACGGCCGTCTCGGGCAGAGCCACCTGGGCCCC
R
GGTGCAGCCGGAGACCCCGCCGAGCCCCTCCTCCCAGTATTCCCATCCCCGCATGCTTCTAGGGAGCGCCTCTTTTCCGTTCTTGAGGAATTTCTGTTCT
Celera SNP ID:            hCV11459078
SNP Position Genomic:     56763
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60895):
CAGTGGCTGACCCCGTCCTGCCTTCCTTTCCATAGTTAGACGTTGTCCTGGAGACGAACCTGGCCACAATCCGTGTGTTGGAAAGTGTGCAGAAGAAGCT
R
TCTCGGATGGCGCCGGAAGACCAGGAGAAGTTCCGGCTGGACGACTCCCTGGGAGGCACGTCGGAGGTGATCCAGCGCCGTGCCATTTATCGCATCTATG
Celera SNP ID:            hCV7493767
SNP Position Genomic:     42077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60896):
GCAGTGATGGACTTTGGCTTAGGTAGTGGGTGGCAGCAGCCTTCATTTCTTTCTTGCCGACTGTGCCAGGCACCGGTGTTAGCAACACAGAAAGAGTAAT
R
CATCATCTGACCTCACTCCTGAACCTGACTCTGCTGCGGCATTATTCTGATTTTACCAGTGGGGAAACTGAGGCACAAGAGGTTGCATTTGCCTGGGCTG
Celera SNP ID:            hCV7493768
SNP Position Genomic:     43799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60897):
GAGCGGGAGAAGCTGCTGTGTGAGGGCCGCAGGGAGAAGGGCAGCGACCCCGCCATGGAGCTGCGGCTGAAGCAGCCCAGTAAGGCTCCAAAGCCTGCCG
R
GAGGCCCCGGGGGGTGCCTGGGGTTAGGGGTCACAGCTCATGATCTGACATGTCCTGTTACTTTTCTTTCTGGCTTTTCATTTTAAGAGAATTCTGTGAT
Celera SNP ID:            hCV7493769
SNP Position Genomic:     46699
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(G,34)   total(A,1|G,59)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60898):
GTGGCCACTCCCCAGGTGAGGGAAACACGCACGGGGCAGCCTGGAGAGAGGACACCCAGGGCCCAGCACATGGTGTTGGGGAAGTGACGCAGGGGACGCC
R
GGGGGCTGGCAGTCTGTCCCCTCCCCCCCCCCCAGGCTGGGCACCCCTCATGGGCCATGGCTTCGGGGACAGCAACCTTGCTTGTGACACCAGGAGATTG
Celera SNP ID:            hCV15905352
SNP Position Genomic:     50101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60899):
GACCCCAGCCAGTATTCCCTCAGAGCCGGCACGACCCTGCTGTGGGGCGGCGGGCCCAGTCGTGTTCCTGCAGTGGGCACCCTAGGCGTATGTGTATACA
Y
GCACAGATATTTATTCCTTTCGCTTTTAGTGGTTGTTATTTCTGTAGCAGCCAAGTCCTGCGGCTCCCTGGGGCTGAGATCTCCCTTTGTGGAACTCCGA
Celera SNP ID:            hCV27467249
SNP Position Genomic:     56135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60900):
GGCCGTGGCACCTGTCCTGGGTGTAGCACCCTCTCCTGACTGGGGAACATTTGTTTCTCATGGGCTTTCTCGTGGAGCCGTCATGGCCCAGCTCCACAGT
R
CCCTTTTTCTTTCTTTTTTTTTTTTTTTGAGATGGAGTCTTGCGCTGTTGCGCAGGCTGGAGTATAGTGGCAGGATCTCGGCCCACTGCAACCTCCACTT
Celera SNP ID:            hCV2884703
SNP Position Genomic:     46976
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60901):
AATGGGTCCCTGCCCATCACCATCCACAGCAGTGGCCACTCCCCAGGTGAGGGAAACACGCACGGGGCAGCCTGGAGAGAGGACACCCAGGGCCCAGCAC
R
TGGTGTTGGGGAAGTGACGCAGGGGACGCCAGGGGGCTGGCAGTCTGTCCCCTCCCCCCCCCCCAGGCTGGGCACCCCTCATGGGCCATGGCTTCGGGGA
Celera SNP ID:            hCV15905353
SNP Position Genomic:     50070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60902):
AATCAACCCTGGGGACAGGTGCTGTGTGAGCCCTTTTGCATTAACTTAAAAAAAATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATATAT
W
CACATAAACATTTTTCTAATGTAAAATAAAGCACAGATCCAAGAAACCACATGGCCAACAAATGGCTTGAATCTTTATTAAGCAGTCACCCATGTGCCCA
Celera SNP ID:            hCV11699300
SNP Position Genomic:     34160
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,11)   total(A,1|-,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60903):
TGTTTTTGACTTTTTGAAGAGCCTCTAAACTGTTTTCTACAGTGACCGCACCATTTTACATTCCTATCAGCAATGGACTGCGGTTTCTGTCTCTCCACAT
S
TTGGCCAACATTTGTTCTTTTCCAGGTTTTTTTTTTTTTTTTTTTGCCTTTTGTTTTTAGTAGCCATCAGTGTGTGAAGTTTTATTGCATTAAGGTTTGT
Celera SNP ID:            hCV3066020
SNP Position Genomic:     24999
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60904):
GGCTCAGGGGCGTCTCTCCATCAGCTGGGAGTTCAAATCTCGGTGGGCTCACGTTGCATTTCCCTGATGGCAAATGTGGCTGGGGCCCTGTCCTTTCATG
R
CCGTTGGGACATCTTTTCTCATGGAAAGCTATCCACGGTGTTTGCGCCTGTTTCCGTTGCGTCTGCCTTGTTGGTGACTGGGAGGATTTCTGTGTCTGGC
Celera SNP ID:            hCV15905354
SNP Position Genomic:     49790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60905):
GAGAGTTGGTTGAGAATGCAGACACCTGGCCACCATGCAGGATTCCCATTCATCAGGGCCCGCCCGGCATCGGCACAGTTTCTTTGCTGTTTTTATTTTT
T
GAGACTGGGTCTCACTGTTGCCCAGGCTGGAGTGCAGCGGCATCATCACAGCTCACTGCAGCCTCTACTTCTCTGGGCTCAAGCAATCCTCCCACCTCAG
Celera SNP ID:            hCV2884705
SNP Position Genomic:     20467
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|-,9)   total(-,9|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60906):
GTGGAATTCCTGGGTCACATGTTAATTCTGTTTTTGACTTTTTGAAGAGCCTCTAAACTGTTTTCTACAGTGACCGCACCATTTTACATTCCTATCAGCA
R
TGGACTGCGGTTTCTGTCTCTCCACATGTTGGCCAACATTTGTTCTTTTCCAGGTTTTTTTTTTTTTTTTTTTGCCTTTTGTTTTTAGTAGCCATCAGTG
Celera SNP ID:            hCV3066021
SNP Position Genomic:     24971
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60907):
CCTCCATCTCTAAATAAAAAATATTTTGGCCAGGTGCAGTGGCTCATGCCTATAATCCTAGTGCTTTGGGAGGCTGAGGCAGGTGGGTCACCTGAGGTCA
R
GAGTTTGAGACCAGCCTGGCCAACACGACGAAACTCCGCCTCTACTAAAAATACACAAAATTAGCCGGGCATAGTGGCAGGCGCCTGTAATCCCTGCTGC
Celera SNP ID:            hCV26209755
SNP Position Genomic:     62738
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60908):
CCATTCAACTGGGTTAATGTCCCTGCCCAGCCAGGGAATGAGAGGAGGTGGCACCATGTTTGCTGCTGGAGTGTAATGGCGCGATCTTGGCTCACTGCAA
Y
CTCCACCTCCCGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCTGAGTAACTGGGATTACTGGCACGCACCACCACGCCCAGCTAATTTTTGTATTTTTAG
Celera SNP ID:            hCV26209756
SNP Position Genomic:     60705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60909):
CAGCGGGCAAACGGATAAACCATGTCACCTCCAGACAACAGGATATAAAACGAAATGAGCCATGAAGCTGTGAAGACATGAAGGGGCCAGGCGTGGTGGC
K
CACACCTATAATTCCAGCACCTTGGGAGGCTGAGGCAGGAGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTGT
Celera SNP ID:            hCV26209757
SNP Position Genomic:     59405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60910):
CTGTAGGGGAGGGGCCATAGCTTCCTCCCAGTGACCCATGTGCTCCCTGTACACCCAAGCGTCTCTGGCAGTTCTGACCACACCCCCACCGGAGGGTCAG
R
GCTCCCAGGGAGCGTGGCAAGCCAGACCGGAGGCCGCCCTGTTTCCTTCTGCCTTGATCCCATGGCTGGGGATGCCCAGGGTCCTCTGTGGGCCCCCAGA
Celera SNP ID:            hCV26209758
SNP Position Genomic:     57640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60911):
TTGTAAATGTCATTGGCACCCTGTAGGCACCCTGCTCGGGACAAGCATCCTCGACCTGTTAGCCGATGGCTGGAGCCTGGGAGGCAGGCCCCGAACCAGC
C
ACGAGCCCCACTCTGCTCCCAGCAAGTGACGACATCATCCCCCAGAAACGTTTTGTCATTCATAGAAAAGACTTCAAAACCTGGCCCCAAGGCCCCCACC
Celera SNP ID:            hCV11699305
SNP Position Genomic:     27480
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,8)   total(C,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60912):
TCGCTGTGTTACACAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGTAACCTCAGCCTCCTGGGTTCAAGTGATTCTTCTGCCTCAGCCTCCTGAGT
R
GCTGGGACTACAGGCGCACACCACCACACCCAGCTAATTTTTATATTTTTAGTAGAGATGGGTTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGA
Celera SNP ID:            hCV26209759
SNP Position Genomic:     43488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60913):
AGTAGAGATAGGGTTTCACCATCTTGGCTAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCTACCTTGGCCTCCCAAAGTGCTGGGATTACAGGC
S
TGAGCTACCGCACCTGGCCTTGCCTTCTGTGTTTGAGAGCACCTGCTCCCCACACCCTCATCGGAAATCCTAGCCTCTTCTGTCTGTGTAGTCAGATGAG
Celera SNP ID:            hCV11699306
SNP Position Genomic:     22152
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,7)   total(G,4|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60914):
CCAGGAGGTTGAGGCTGCAGTGAGCTTTGATTGTGCCACAGCACTCAAGTCTGGGTGACAGAGCAAGACCCTATCTCTTAAATACACACACCCCCCCCCC
M
AAAAAATCCTCTGGTCTCTGAGGTCCCAGGCTCCTCTCTGAGGCCTCTTGAGTTCCCCAGTGGCTGACCCCGTCCTGCCTTCCTTTCCATAGTTAGACGT
Celera SNP ID:            hCV11459081
SNP Position Genomic:     41919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60915):
CTCAAAAAAACGAAAACAAAAAAAAATGACCAGCCTGGGCAACATAGTGAGACCTCGTCAGAAACTAGCCAGAAGTGGTGGCGTGTACCTGTACCTACTT
Y
GGAGGTTGAGGTGGCTGGATCGCTTGAGTTTTCGAGGCAGAGGTTGCAGTGAGCCCTGATCTCACCACTGCACTCAGCCTGGGTAACAGAGTGAGAACCT
Celera SNP ID:            hCV15754265
SNP Position Genomic:     35643
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,13)      total(C,1|T,13) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60916):
TGGGTGCCAGGGAGGAGGTGGAGGAACCGGGAAGCCGGCCACATTGGCTCTGTAAGGCCATCACGCCCTCCCTCTGACGTGCACAGAGCCCACTGCACAG
R
CTAGGCTGGGAGCTGGCTGGGCCTGGGTCCTGGACCCCCAGTCAAGTCCCAGAGGAAGACAGGCCAGCCCTGGGATGCTTCAGGGAGGATGCCCTGGCTT
Celera SNP ID:            hCV25617566
SNP Position Genomic:     42842
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,34)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60917):
GTGAAGTGGAGCTGGAGGAGTACTACCCGGCCTTCCTGGACATGGTGCGGAGCCTGCTGGAGGGCAGCATCGACCCCACGCAGTACGAGGACACCCTACG
Y
GAGATGTTCACCATCCATGCCTACGTGGGCTTCACCATGGACAAGCTGGTGCAGAACATTGCGCGGCAGGTGAGCCGGGCCGGGGTGGGGCCGGCCCTGA
Celera SNP ID:            hCV25759670
SNP Position Genomic:     47930
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,33|T,1)   total(C,65|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60918):
GGCTCTCAGAAGTAACCTTTCCCTGTCTCTAATACAGCTTGGCTCCGTGCTGAGTTTTTTCTGTTCCTGTGCAGACAGTGGCTGGGCCTGGTGTTTTTCA
Y
AATCTGTTTCCAGTGTCGGGCCTGGCAGTAACTCATTGTCGCCTTGTCAGGAGAATTCGCACAACCACGGGGACGGTGCAGAGGACTTCAAGCAGCAGGT
Celera SNP ID:            hCV25617567
SNP Position Genomic:     18318
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,6)   total(C,37|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:60919):
ATGGCCTGAGGTGAGAGTGAGTGGGTGTGCTTGAGGAACAGCCAAGGAGAACGGCAGGGTCAGGAGCTGAAGGAGAGAAGGGGGAGAGGGAGCCAGGAGC
R
TGAGAACCACTGGATGGTTCTGGGAGGCGGTTCTGCTGCTGTGCTGAGAATGAGGGGTCAGGAGGCCCCTGGGAGACCAGGGAGGGGCCCCAAGTGATGG
Celera SNP ID:            hCV7493731
SNP Position Genomic:     13839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60920):
ACCAGTGGAAGGCTGAGCGCTGCATGGCCGACGAGAACTGCTTCAAGGTGAGAGGAGGCCTGGGGCTGGGAACACGCCGGGAGGCCCGGCCGCTCACTCC
R
CTCTGGACTCAGTCCTGGGTGGACCCTGGTTCAGCGGCTGGGACACCGGCCCTGCTGCAGAGCCCATGAGGTACCTTTGACCTGCAGGAAGCATCAGGGC
Celera SNP ID:            hCV25617568
SNP Position Genomic:     52882
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,1|G,33)   total(A,11|G,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:60921):
CATAAAATCCTGTAAAATTCTAATTAGTTGTGGGGTTTTTTGTTTGTTTTTTCTTAGAGTCTGGCTCTGTTACCCAGGCTGGAGTGCAGTGGCACGGACT
Y
GGCTCATTGCAACCTCCACCTCCTGGGCTCAAGCCATCCTCCAACTTCAGCCTCCCAAGTAGCGGAGGCTACTTGGGGCTAGAACATGGGCGCACATCAC
Celera SNP ID:            hCV7493736
SNP Position Genomic:     18757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60922):
TTCTGTGCCAAGAATCCCAAGTGACTGGGGCTGGGGACCACTTCTCCAGGCCTCTCTCCCCGACCATGAGAGCCCCTGGCCCTGGCCCCTGCACACCAGT
R
GGCCCAGAATAACCGCCACCCTTGCCATCCTGCAACAGCTGGACTCAAGTTTCCAGGAAGTGGAGATGTGTTTCTAGAAGTTTCCTGTGGAACCTGGAGG
Celera SNP ID:            hCV7493773
SNP Position Genomic:     56476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIG-allele(A,732|G,757)   total(G,757|A,732)   (G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60923):
AGTTTCCTGTGGAACCTGGAGGCTCCTGATGCCTTTGACTCCAGGCTGGGCGATTCCGATGCTGACCCGTCCTCCTGGGCTCCCCACCCCCGCTCCCCAA
R
TGTCACACAGGCACTTTGTACACATCCTGGTTTTCTAAGAAGGGAACTTGCCATCAAGATTCCTGTACCAGGCCCACGGCCGTCTCGGGCAGAGCCACCT
Celera SNP ID:            hCV7493774
SNP Position Genomic:     56655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60924):
ACCAGGCCCACGGCCGTCTCGGGCAGAGCCACCTGGGCCCCGGGTGCAGCCGGAGACCCCGCCGAGCCCCTCCTCCCAGTATTCCCATCCCCGCATGCTT
Y
TAGGGAGCGCCTCTTTTCCGTTCTTGAGGAATTTCTGTTCTGGGGCTTGTCCTTCCTTTGCAGCTGTTTTGAATGTAGTTTTCCTTTTCTATTTATTTGC
Celera SNP ID:            hCV7493775
SNP Position Genomic:     56822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60925):
ACACATATGTCCAAACCCATGGAAGGTACAGTGCCAAAAGTGAACCCCCATGGAAACGCGGGGTTCCAGAAGACAGAGCCGTGTCCATGCAGCTTTGTCC
R
TTGCAACAAAGGCACCGCTTTTGGTAAAGGACATAGATAGCGGGGGAGGCTTGCATGTGTGGGGTGGGGTTACATGGGGACTCTGTACCTTCTGCTGAAT
Celera SNP ID:            hCV3065950
SNP Position Genomic:     60019
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60926):
GGCAAAAGTATAGAGGCAGTGAAAAGATCTGTGGTTGCCAGGGGGCAGATGGGAGGAAGTAATCCATAGGTGGAGGTGGGAGGATTTTTAGGGCAGTGAC
R
CAACTGTGCGACACTATGGTCAATGGTGGACATATCATGACACATATGTCCAAACCCATGGAAGGTACAGTGCCAAAAGTGAACCCCCATGGAAACGCGG
Celera SNP ID:            hCV3065951
SNP Position Genomic:     59879
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60927):
GCAGCCTTGACCTCCCAGGCTCAAATGATCCTCCCACCTCAGCCTCCTGAGTAACTGGAACCACAAGTCCATACTACCATGCCCAAGTTGTTGTTTTTTT
T
ACTTTTTTTGTAGACATGAAGTCTCACTGTGTTCCCGAGGCTGGTCTCACACTCCTGGCCTCAAGCGATCCTCCCACCTTGGCCTTCCAAAGTGCTGAGA
Celera SNP ID:            hCV26209760
SNP Position Genomic:     41105
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60928):
GCCACTGTAAGCCTGCTTCAAGCTAACCCACCCCTTTTTAAAAGTGTGTTTAAGTCAAGTGCTGTCTTTATTCTAGGCCCAGTTTTTAGACGTTGAGTCC
R
GTGGGTCTGAGTGCACTCAATAAAGATCCTCCTGTATACACCCCAAGGTCTCTCTTTTCCTCCTGTTTCCACAACACTACATGTGATGCTGACAGAGGGT
Celera SNP ID:            hCV3065952
SNP Position Genomic:     58914
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60929):
TTCCTGTGAGAGCCTTGCTGACTTCCTGCCACCAGGTCAGTGGGCTGGACCCATGAGAGCAAGGGGTGGCTGGGTGTGCCTACCTGGGACCAGGGGAGTC
R
AAGCCCCTCCTTGAACCAAGATCATCTCACACCCTGCACCTGCCCCGCCACGACATGGGAGTGTCTTCTAGAATATTCTTTCCCCATTCCATTTGCACAT
Celera SNP ID:            hCV7493779
SNP Position Genomic:     57076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60930):
TGCAGCCTTGACCTCCCAGGCTCAAATGATCCTCCCACCTCAGCCTCCTGAGTAACTGGAACCACAAGTCCATACTACCATGCCCAAGTTGTTGTTTTTT
T
TACTTTTTTTGTAGACATGAAGTCTCACTGTGTTCCCGAGGCTGGTCTCACACTCCTGGCCTCAAGCGATCCTCCCACCTTGGCCTTCCAAAGTGCTGAG
Celera SNP ID:            hCV26209761
SNP Position Genomic:     41104
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60931):
TGGCTGACCCCGTCCTGCCTTCCTTTCCATAGTTAGACGTTGTCCTGGAGACGAACCTGGCCACAATCCGTGTGTTGGAAAGTGTGCAGAAGAAGCTGTC
Y
CGGATGGCGCCGGAAGACCAGGAGAAGTTCCGGCTGGACGACTCCCTGGGAGGCACGTCGGAGGTGATCCAGCGCCGTGCCATTTATCGCATCTATGGCG
Celera SNP ID:            hCV15758628
SNP Position Genomic:     42080
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,351|T,1150)   total(C,351|T,1150) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60932):
AATAACCGCCACCCTTGCCATCCTGCAACAGCTGGACTCAAGTTTCCAGGAAGTGGAGATGTGTTTCTAGAAGTTTCCTGTGGAACCTGGAGGCTCCTGA
Y
GCCTTTGACTCCAGGCTGGGCGATTCCGATGCTGACCCGTCCTCCTGGGCTCCCCACCCCCGCTCCCCAAGTGTCACACAGGCACTTTGTACACATCCTG
Celera SNP ID:            hCV3065953
SNP Position Genomic:     56584
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   JBIC-allele(T,726|C,759)   total(C,759|T,726)   (C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60933):
AATAGATATGGAAACACCTACACAAGCAGCCTCTGCCTCCCAAATTGATCTGTTTGGAAGATTTAAATCAAGAGTGGATGTCAGGGAGGTATCCTCCTAA
Y
GCAGAATTTTGTGTGAAGTCTAAATAACCACCTCAGCAGTTGCTGAGGTCTTGGCTTGAGGCTTTCCCAGCGAGCATACCAGGCAGGCTTGCCCTTGTAT
Celera SNP ID:            hCV15758629
SNP Position Genomic:     8503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60934):
GGATCGCTGCAGCCTTGACCTCCCAGGCTCAAATGATCCTCCCACCTCAGCCTCCTGAGTAACTGGAACCACAAGTCCATACTACCATGCCCAAGTTGTT
G
TTTTTTTTACTTTTTTTGTAGACATGAAGTCTCACTGTGTTCCCGAGGCTGGTCTCACACTCCTGGCCTCAAGCGATCCTCCCACCTTGGCCTTCCAAAG
Celera SNP ID:            hCV26209762
SNP Position Genomic:     41097
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60935):
AATTGCTTGAGCCAGAGAGGCCGAGGCTGCAGTGAGCCGAGATCACACCACTGCACTCCACCCTGGACAACAGAATGAGACCCTGTCTCCTAAAAAGTTT
M
TTTAATGTAAAAATTAAATTTATTTTTATTTTATTTATTTATTTATTTTGCTTGCTCTGTTTCCCAGGCTGGAAGTGCAGTGGCGTAATCATGGATCGCT
Celera SNP ID:            hCV26209763
SNP Position Genomic:     40904
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60936):
GTGAAGAGTGAATGCCCGGACTGGAGGGAGACGCTGCCAGAGCTGGTGGGGCCAGGCCAGAGGCGGGTGGCTGTGGCAGGACCCTGGACCACCTCAGGTC
R
GGCTAGGATGGCACCTATGGGACCAGTGGGGGCTGCTGGTGGGTGTTCAGATCTGGGGGCATTTCTTGTTGCTTCCATTTGCTTTCTGTGGACCCCTGGG
Celera SNP ID:            hCV3065955
SNP Position Genomic:     54575
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Gene Number:                 336
Celera Gene:                 hCG20010 - 94000030162081
Gene Symbol:                 LOC90529
Protein Name:                hypothetical protein LOC90529
Celera Genomic Axis:         GA_x5YUV32W3P1(7481075..7552240)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12496):
TTGGTGAGGCAGAGTCCACTGAGAATGTCAGAGTCAATCTTCGCTCTAGAATGAGTCTAATTCCAGACAAATGTTCATAATTTCCATACATATTCCATCT
GGCTGGTCAGAAGGAATTAAAATGACAAAAGCCTTTAATGACCTGCAGAGTCCCCTCCTTGGGCATGCTGGGATGCGGTGGCAGCAGCAGGAGTCAGGAC
ACCGGAGAGTCAGAGCAGCGCCGCAGTTAGGAGCATGGGTTCTGCAGCTGGTCTGACCCGGGTTTAAATTCTGGTTGCACAACTTACTAGTTGTGCCAGT
CAGGGCCATTACTGAACTTCTCTGTCTCAGTCTCCTTGTCTCTAAAGTGGGGATAAAGATGGTAACAGCTAGCACTTGACAAACACTGGCCATTATGTGT
GGGTCATTGCCTAAGGGCTTCACATGAATAAATTCATTTCATCCTCACCACCACCAGGAGGCAGTTACTATTCCACAGAGGAGGAAACCTGGACCTACTG
TGTAGTGCTAGTGTGAAGATTACTCAAGGAAAGGCATGTGACGAACTCAGCACAGTACCTGGGATAGAATAAATGCTCAATAAATATTAGTCACTGTTAT
TATGATCATCATTATTATCTAAAATTAACAATAGTTCTAGCTCTTCCTCTCAACTTGCTATAGGATCTTAAGAATGTCGCTTCTCACCTCCCAGCCTCAC
TGTTCCAGTCCATCAAATGAGAGGTTTGATGAGATGATCTCTAAAGTCTCCTTTAGCTCTACGGTATTAGCAGTCACTGATCTTTTTTTCTTTCTTTTTT
TTTGAGGTGGGGTCTCACTCTCTCACCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAATCTCTTCCTCCCTGGCTCAAATGATCTTCCCAAG
TAGCTGGGACCACAGGTGGTCCTACCACACCTGGCTAATTTTTTGTATTTTTTGTGTGGTAGGTGCCCTACCACACCTGGCTAATTTTTTGTATTTTTGG
TAGAGACAGGGTTTCATCATGTTTGCCCGGGCTGGTCTTGAACTCCAGAGGTCAAGCCATCCACCCGTCTTGGCTTCCCAAAGTGTTGAAGTTACAGGCA
TGAACCACCACACCTGGCCTCTCTGATCTTTAAAAAAATAATTTTCAATAAATCCCAGTAATCAGATGCTGCACTGATAGGTATTTAGGAACACTTAAAT
TTGTCATTAAAATCCCCTTGTTAAAAAAGGTGCATTCCCTTTGACCTATTCGTTGTACCTATATGACTATATCTAAGGAAAGGATCAGAGATCAGCACAG
AGATTTACACTCCAGGATGTTCATGGTTTACAGCCACTCCAGATTAGAGACAGCCTGAATATCCAGCAATGAGGATCTGTTGAGCAAATTTTGACACAGC
AGCTCAACGGATTATTGGGCAATCATTCGAAAAGTATGCTTTCAGTCACTACTTGATGATATGGGGAAATATTCCACAAGTAAGGTCAAGTTAAACAACC
AAGATACAAAACTTTATGTGCAATGTGACCCCAAATTTATAATACTAGAAAAAAACAAGGAGATATACTGAAATCCGAATGAAAATTATCTCCAAGTAAT
GGAGTAGGTGATATACATACATACCTATATATATATATACTTTTTTTTTGGCATCAGGGTCTTGCTCTGTCACCCAGGCTAGAGTGCAGTGGTGCAATCA
TAGCTCACAGCACCCTCAAACTACTCTTAGGCTCAAGCAATCCTCCCGTCTCAGCCTCCTGAGTAGTTAGGACTACAGGCACATGCCACCACACCTGGCT
AATTTTCAATTGTTTTGTACAGGCGGGGTATCACTATGTTGCCCAGGCTGGTTTCAAACTTCTGGCCTCAAGAGATCCTCCCGCCTTGGCCTCCCAACGT
GCTGGAATTACAGCCATGAGCCACCACAACTGGCCCAGAGTAGGTGATTTTTTAAAAATCAAATCTTCTAAGTGGGAATGCATTCCTTTTATTCTATACC
TTTTATGGTGTTTCTCTGCCTCCCTATTTTTATGTATTTTAATGAGCATCTCTTTTTTTTTTTTTTTTCCTTTTGAGACAGAGTCTCACTCTGTCACCAG
GCTGGATAACAGCGGCACCATCTCAGCTCACTGCAACCTCCACCTCCTTGGTTCAAGTGATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGACTACAGGT
GGGCACCACCACGCCCAGCCAATCTTTGTGTTTTTAGTAGAGACGGGGTTTCACCATGCTGGCCAGAATGGTCTCAATCTCTTGACCTCGTGACCCGCCC
ACCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACTCCCGGCCCATCTCTTGTCTTTTGCTTACACATTCCCTTGTCTGTGTGAAGAGCCTGCCTG
TTTCTACCAGTGACAGGCATGCAGACCCCATACATATCTGTTAGCCAATGCAGAGCACTGTGTAACTTCCTTGCTAGGAAAATACAAATTCCCAAACCCC
AAAAAAGCCCTTGCCTTGTAGGAGAAGGAGGCCTCGCTTACGGCGCTGGAGCTACTTGTGGGAGGCAGCTGCTGCAGCTTCAGGGCTGCGCTGTGGGATC
CGTCCATGGTGGTCTAGTGGCGCATCCCACAGGGCCTGGCCTAGGAGGTGGAGCTGCTGCTAGGCGGGGCCCAGGCCAGATGCCATCTCTCCTTGTGGTG
TTCACCTCCCTCCAGCAGCCGTCACTTCCTCATGACAAAAGAATACTTCAAGGCTGTTTTGGCAGATTTACAGCCTTCTCCTCAGCTTCACTCAGAGAAG
TGCCAATTTCCGTGGCTCTCCCAGGCAGACAGAGAGGGGTGTGTTTTCCAGTTCTTGCGGTGCTCTAGGGTGGTGGAGAGGAACATTAAAAATGCATGGA
CAAGGAAACACTGAGCCCAGCTTTGTTATCTGAGAAGAGAATACCATTCAGATAAAACGTAACCGGCCATGACAAGTGAGTCCATTAAAAAAATTCTTCA
AAATTCAATTCTAGCAGTTAAAAACAAGTCCTATCATGCCTTTGTCCTCCCCTTAATACAAACCTGACTCATCTATCTCAAAAGCTTTCTCCCTGGCCCT
TAATGTTCCCTTTCCTCCTCCACTCTGCTTCCTTCCTCCCATCGCACCCTAACTTAAATCCTCCCTTTTTCCATAGCTCTTGAGCACAAGAAGTAGAATA
CTAACTTCTCCAGGTCTCAAAAAAAAAAAAAAAACAATTCCACTACCACGAAAAGGGAACTATTTAAGTTTCAGCTTAGGAAGAAAAGAATCAGAAGAAA
AGCTACATCCATGGAAAACAGAAGAACTGGCCTGCTACCGAGGATTGGCCTGACACAGGTGAGGTGACACTGGTCTCGGAGGTGGAAAACCTGTGTGACC
AGGTAACTCTGCCTCTCAGAGATTCAGTTGCCTCCTCTGTAAAGTGGGGGTAATAATGTGGCCTCAAATAAACCCAGCAATGATGAGAATCCCTACTAAT
TTCATCGGACTTATATTTTCAGTGCTTCCCGAGCTTTTCCTTTTTTTGGAGACAGAATCTCACTCTGTCATCCAGGCTGGAGTGCAGTGGCACAAACATG
GCCTCAAGCTGGGCTCAAGCAATCCTCCCTCAGCCTCCCAAGTAGCTGGGACCTCAGACGCGTGCCACAAGGCCTGGCTAATTTTTTTGTAGAGACAGGG
TTTCGCCATGTTATCAGGCTGGTCTTGAACTCTTAGGCTCAAGCAGTCCACTTGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGTGTGTGCCACTTCTC
AAAATTTGCTACCAAACAGAGAAGAGAAAGTATACTTCTAGTGTCCTAGGAGGCATGGCCAAAACCCTGCTTAAAAGTGTTAGGGTTTTCTTTGAGGACT
TTTTATACATTTTTTAGAAATGTATTCTACTGCATAGTCTATGTTTATTTTAATAGAAAAATGTTTTAAATTGCTTTTGATGTGCCATGTGCTACCTGTT
TTACCTTTGCCAGGTCATTTAACTTTTCAGCCAGTTTCTCCAGCTGTGAAATATAGATAATAATGTTCCCACTCCACATGGCAGTCATGAGAATTTGATG
AAATCATACATGTAAAATGCAGGCATAGCAAATGGTCCATGAATGTGAGCTGCTGTTAAGATTAATTTTATTCTCTCCTGTTTAATTATTTATTTTGTCC
ATTCCTTTCTCTCTCATGCATTCATCCAACAAATATTTACTGAGGGCTCACTGTGAGCTAAACAATTTCTGCCACTCCCTGAGGCTTCAGAGAGCTGCCT
CCTGTGTATCCTGTAGCTTCCAGTTCCTTCTGCTATCCGGCCCTAGGCCCAGGAATTCTGGTTCATGGTGTGGACAGCACATACATATGTGATAAGGGGA
ACACCATGTCCAGTCCTGGGATACAACAAATGCAGGTTTAGCATAGGGACAGCTACAGAAACCATTTGGCTTGGTTTCACTTTGTCAGAGGGCCTCAGGA
TGAAATTATTGCTACTACCTGCAGACGAGGTTATATATCCAATATACAGACATGAGATGTAAGCATTCACCGGGTAACTTTATCAGGTAATTCACATCCC
ATAGCTAGACTTCCCTGCCTGTAAAACCCTATGAATATGTGTTTGCAATCTTGTGGAAAGCATAATTGTTCACTATACTTTCACGTACATGTGAAAAGCA
TTATTGTGTTACATTTCTGTAAAAATGTTTTAGCATTTGTAATAATCATAAGAGCCTTAAGAGTGGCTCAGGGTTCTTTCTACCTCTGAGAGGCCCCGGG
AAGCATTCAACCATGAAGCAGTCATGGAGTTGAGGAGCGCAAACTCCAGTGAGGTGTTTGCGGAATACCCTGTTCAGTTGCTCCCAGCTGAGATCTAGCC
CAGAGCCTGACAGTGACTTCTATACATACCAACCAACTGACTAAATGAGATCTAGCCCAGAGCCTGACAGTGACTTGTATACATACCAACCGACTGACTA
AATGCAGGCTGGTTAAGCACTGGGTGCACTGTGGCCCCTTCGCAGTCAAGAATGCCTTTCTAAGGCCTAATCAACCACAACTCCAGAGCTTCAACAAGCA
GATATACTCAGCCCCACCCACAGGAGGTCAGAGAAAGCCAACAGACCTTAGCGACATGTCAATCAAGGGAGTGGTGGGAACCCAGGCCTCCTAACATCCT
TCAGAGTAGTTTGCCCAAGTGCTTTTCTGGTTTTGCTTTTGTTTGTGGTGGTTGGCATTGCTGTGGTTTAATTTTTCTTTTAAAAAGCAGCTTCCCTCTC
TGCCTCAGGAACTCGCAGGCCTCTGAAGCATCGCCTGCAAAGATTGAAGGCTCTCCCTCAGCTGGGTGGGAGTCCGGACTGAAAGCCTGGAGGAACCCTT
TGCAAGCTGTACTCCCTTATAAGACACATACTTTTCACCTGGTGACTCTCTTTTCCTGATTTCGAAGCATTTCTTCAGGACCTACATATGCCCGAGAGGC
AAGCAGTCACCTCTGCGTTGTCAACCACCCCACAATTAGAGCACGTGGTCACTGACCCAAGGAAGGAATGAGAATTCACTAGGTGCTCTGCTTCCATTCC
CACCCCGTTTATCTCGATGACGGATTTCACCAATCCCACAGAGCACGTTTTACAAATGAGACAGCCGTGGCTCATAGCGTCTGTATTCGAATTTGCCTCT
TTCTGAACAAATCAATAAAACACGCTCTTTCCCACCACCCGACGATCTGGCTTCTGGAGGTGAGCGCCAGTTCCCTGCCAAGCTTCCCGTTCCTCGGCTT
TGGCTCACGAGAAGGTTACATTCTTCCGTCCCGTCCCACTGAGCTGGAAACTTACAACTCGAGGAGACAGCACCTCTGTTCCAGAAGCGGGCTTAGACCA
AGAACGCCTCCCCTCATCCCACCTGCTAACTCCACCATCTGCTGCCGCCAGGAAGCCCGAGCCGCTCGGCACGAAGAGGAGAAATTCTGGCAAAGTTAAC
TCCATGTCACTTCCTGGTTTGGTAGAGCCTGGCATCACCTTTAGTAAGGTAGCCCATGCCCCCGCTCCTCTTGGCCTCGATGCAAAACTGGAAAGAACAT
TCCAAGGCAACGGGACCCAGGTTGGCGAGGCTGGTGACAGTAAGAAGGAAGGGTATGTACACTAGGGGACGTTAGGTGACTTCGCTTTTTCCAGAAAAAA
ACGAAGGTTAAATTCAATTCCCCTTCCTCCCGGTGTTAATCACTACTCACCGGCGGCGTCTCCTCTAAGGCCCACCTATCAAAACCTTCTGAGAAATGAC
TCGGACTCTTCGTGCAACCCGGAGGCACAGCCTCCTTCATCCCTTCCCAATTCAGAGCTGCCAAGATGCTGCAGTGTTTTGMTTTCAAAGGTCGCGATTT
GATTTGCCAGACTGCCTGCCAGTCAGAAGTTGGCAGGCATTTCGCGCAGGCAAGTGGCTGCGAGGACGGGGAGTAGGCGGGACAGCCCCTGGCAATTGGC
TGCGCTGCAAAGCTTGCTTGAAGCATAAGGGARCGACCTGGGGCTAGAGCTTGGCGCTCACCTGGAGCGGGGACCCCCTAGCGGCCACAGGAAGAATGGT
GCGGCGACTCCCCTGCCCCCTCTCCCGCTGTCCCAGAGAGCTTAGGTGGTTGCTCGCCTCCACCTGCCCGGCAGGTGGGCCTGGTTTTAGCAGCCTGCCA
GGTGTCCTCCCTTCTTATCCTCATAGCCACCTTCCGGGCTTTGCTCCTGCTGTTCCCCTACCCGACGCTCTCACCAAGTATTCAAATCCAAAACGTCCTT
GAAGACCCAGCGCTCCCCAGAGCCCYCGCGAGACTTGGGACCAAACATATCTCTCCTTTCCTGCCCTCCTGGAACACCTGTCGGATACCAAGCCTCCCAG
CAATACTGAAGGTCCTGAAACGAGCCCAGCGCTTGGTTAATGTTTCTATAATGTACATAATTATCACGGCCATGATAATTAACATGCGCATGGAGTTTTA
CAGATGACAAGCTTCTCATCGCTCACACGTTGTCATATACACGCATTTGCTTTCAGATCGTCACAGCCATGAGTGAGACTTGAAGCCCGTTTTACGTATG
AAGAAATGTCATTTGGGCCTAGACATCAACAATGAGAAAGAGGCAGTTCTAGTCTCAGATCGTGGGGCAGAGAAAGCTCCTTGGGAACATGGGAGAGGAA
CGAGTTGGTGCATTGTAGAAACTGCCCGAAGGCCAGCAGGGCTGGTGAGAGATTTTTCTGGGGGCGTGGTTGGGCCTGCGATCTGAGGGACRGGCCAGGG
ACAGTTTATAAATAACATATTTGGGGGCCGGCGCGGTGGCTCACACCTGTAATCTCAGGACTTTGGGAGGCCAGGAGGATCACTTAAGCCCAGGAGTTTG
AGACCAGCCTGGACAATATAGTGGGACCCCATCTCTACAAAAAAATTTAAAAATTAGCCRGGCGTGGTGGCGAGCGCCCGTGGTCCCAGCTACTCAGGAG
GCTGAGGCGGGAGGATCGCTTGAACTCGGGAGGCGGAGGTTGCAGCGAGTCGAGATCGCGCCAYTGCACTCCAGCTGGGCGACAGAGCAAGACCCTGTCA
AAAAAAAAAAAAAAAAAAAAAAAAGCTTGGATTTCACCCTAAATTTAAAGGCGAGCCATTGGAGGACTTTAAGCAGGGGAGTGACAAGGTCGCTGAGACC
GCCCTGCCCTGAAGCGTGTGAAGAGGGGCTCCTGGAATACTAAGTGGCTGCCCTTGTATAGTCGCCCATGTCAATTTTTTTTTTTTTCTTCTGTTAGAAA
CAGGGCTTGGGGCCGGGCGTGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCC
TGGCCAACGTGGTGAAACCCTGTCTCTACTAAAAATACAAAAAGAATAGCCTGGCGTGGTGGCGAGCGCCGGTAATCCCAGCTACTCAGGAGGCTGAAGC
AGGAGCATCGCTTGAACCTGGAGGGCGGAGGTTGCAGTGAGCCAAGATTGCGCCACTGCACTACAGCCTGCTCGACAAAGCGAGACTCTGTCTCAAAAAA
AAAAGAAACAGGGCTTGGATGAATGTTAATTCTTTTAGGTATATTCCTTGAAGCAGGATTTTTGAGTGAGCAAAATTCTGAGGCTTTTGGTTTATCACAA
GATTTTTGAAGCATGGCCTAGATAAACCTCTTATTAGTTCCCCACCCCGCTACAGGCCCTGATGTAATTAACCTAAGCCCTAAAATTCGGCCGGCTTCTC
TGCGGACTTTGAAACGCCTCTAATGATTGGTCAACAACTTTTCACGTTAAAGAAACAGAGGATGCCATTGGCTGGAGTTACCTCGCGGACGGCGGAAGGT
GGACTCGCGAATGTTAGGCCWGTGGGTGCCATAGCGACCGGGAGGTTGGGCTGGCCAGATTCAGCTGCCGGGACCGGACCAGGTAGGAAGCAGTTCCGGC
GGGGGGACCGGTCCCTGAGGTCGTGGGGAAGAGKACACGGCGCACCATGTCCTCCGCATGGGACGCCCGCGGAGACCCCCCGGCCTCCGGGTGCTTGCGG
AATTCCAGGGCTGAGCTAGGTGGAGCCCCGAGGGCGGGAAGAAGCCACCATGGGAGTTGCCCCTGCGTCGGGGCGTGTCCTCGGTRTTTCCACCCGAAAA
GTGGTGACAACTGGGGCTTGCCTGCTCCACCGAGCTCCTGCCAGGGGCGTGGGCGTCCGACCCTTCTGGCTCAGGCTCCGCGAGTGCGCAAAAGTTGGGA
GGCTTCAGTGCCTGGCAGTGGGTGGACGCCAAAGACCTGATCTCTACTCATAGGTTCACCCCAGCTCAGGGGGTGTCCCCCAGCAAACGACTTCCCTGCT
CTGGGCCTCGATTTACCCATCTGTAAAATAAAAGGGTGAGATTGGAACCTGGTGGTCACTAGCCCGCCGCTAAATTTCCTTCCAGCTCCCTGATACACTT
TCTCAGCCTATGAAGACTATCGAATGGGTTATTTACCTGAGAGTGCTTTGAAAAAATGTAAGCTGCTTCCAAGATGCTTATAACTGAGTAGATAAAAATC
GCCTACAGACGAAACTACTCAGGACATCCAAAAAAATTCTATCTAAAGTAACAGTATACATAGTTTAGTACATGTTTATATACCCTGTACAGTAACATGT
ATAATGTAAACTGTAATACTTAGCATATATAACGTTTTTTAAAAACACAAGAGATGATAAAATGAAACTGTGCCTATAGTTGTGATCATGTGAGCTGTCC
TTGTAGAATCTAACTCCCGCTGGAAATATATTCTGAGCACAGCTGTACACACAATTGCTAAAAGGTGTCTACCTCTAGTATTCATTCATTCATTCATTCC
ACCAATATTTATGAAGAAAATACTAWTTTTAAAAATTCTCAATACTATTATTATTATTTTTGTAGAGACAGGGCCTTGCTATGTTGCCCAGGGTAGTCTT
GAACTTCTGTCTCAAGCCATCCTTCCCCCTCAGCCTCTCAAAGTGCTGGGATTACGGGTGTGGGCCACCATGCCTGGCCAAYTGAGCAAATACTGTATGT
GAGGAAATAGACTGAAGATTCAGAGTTGAACTTTCTACTGGGGAAGATCATAAACAAATAAAGTAATAAACATACAATATAATGTTGGGTAGTGAAAAGT
GCTTTGAAAAAGATAAAGCAGAGTAAGGGGCTAGAGAGAGATGGGTTGGTGCTTCTTAAGAGAGGGTGGTCAGGGAAGTCATCCCTAAGAAGGTTTGAGC
AGARAGTCTCGTGAATTTTGTGACAGGACTGCAGGACGATGCCTGGGTCCGGTGAGGAAAGGAGCTCCCCATGCAGCAAGGAGATATGTGGCAAAAGCCA
GGGAGGTCCCATGTGGAGAAGAAGATTAGTCTTTAGGTGGTGGGGCACGACAACTGCCTTCAAATTCTTGCAGAATAGTCATATAGAACAGTGGCTTTCA
AACCTTTTGACTGTGACTCATGGTAAATGCATTTTATATTGTGACCCAGCATGCACACACGCATATGACAAACTAAAACTTCACAAAAGACTACAGACTA
TGACTTGCATTTTGAAAATCACCAATGTGGAAGAGAAATGAGACTTACTTTGAGTTGGTTCCAAGGGTGGGAATTAGGACGGATAGAAAAAGAAAAAAGA
GAGAGAGAATCAGCTTTGATACAGGAAGGAACTTTCTAGCAATTAGAACTGTCCAACAGTGAACTTCCCCCAGGAGTTTTTAAACTGTGTTCTGATGAAA
CCTAGCATTCTGTGAATATTCAAGAGAGTCAAATATTTGCCCCCACCCAGCCATCCCTTATTTGCTTTATATTTTGAAAACTATATGCAATATTGTAACT
TCAGAAACCCAACCAGGTAAGGCACGGTGGCTCACTGTAATCCCAGTGCTTTGGGAAGCTGAGGTGAGAAGATCACTTGAGGCTAGGATTTCGAGACCAT
CCTGGGCAGCATAGGTGAGACATTGTCTTTACAAAAAATTTTAAAACTAGCCAGGTGTGGTGGCAGGTGTCTGTAGTCCTAGCTACTCTGGAGGCTGAGG
TGGGAGGATCACTTGAGCCTAGGAGTTTGAGGTTGCAGTAAGCTATGATTGCACCACTGCACTCTAGCAAGTGGACGACACAGCAAGATCCTATTTCTAA
AAATAATAATAACAAACCAATCATACCCACTCGGGTGCTAAATGTCAAAATTTAGCAAGTTAATATTTAGTGTGTGCTGCCTGAGAGGTTATTATAGAGG
TTAAGGAGTGAGTAGAAGTCAGACTTCCTGAGTTCAAAGCCTGATTCCACTTTTCTTCTAATGTGACTTTGGGCAAGTCACTTAACCCCCCACCAAACTT
AAGTTTTCTCATCTGTAAAAAGTGGGGATTATACCTCACTGGATTATTAYAAAAATTGCATAAGGTATTCCATAGAAGGCATTTAGGACTGTGCAGGCTC
AATAAATGATAGCTATTATTTTAAGTTGTTAATACGATATCCCTGTGCGTATATTAAAACCCTACATTAATACAAGCCTACTGCAGGATAGGCAGTGTTA
ACCACTTCACATGGATCAGCCTAAGAGGAAGGTACTGTTATCACTCCCAGTTTATGGAGGAGGAAATAGGCTCAGAAGTTTAAGTGACTCATCGAGAATC
AGAGCTATTAAGTGGCAGGCCATAACCTTGAACCCAGGACTGGATACTCTGGACTGCTGCGCTGGCCCCCACGTAGGAATCGCTTAAACATATGTTGTTG
ATTCGGAAAGTGGTATATCTTCACTGCTCTTTCTTAGATTCTAGGTCCATGCCATCCTGTCATGGACAGTTATACAGGTGGACCAGTGAGGCACACCTGG
GCAGTGCTCTGTTCACATCTGTCCTGCACCTGCTCTCATCCTGCCTTCACAGGTATGCAGTGAGAAGACTGGAAAGCATTATTAACAGTGTGGTCTTTTG
GTGGTAGGATTGGGGATTGTTTTTTATTTGTTTGTTTGTTTGTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCGGTGGCGCGATCTTGGC
TCACTGCAACCTTCACCTCCTGGGTTCAAGCGATTCTCCTGCATCAGTCTCCTGAGTAGCTGGGACTACAGGTGCACGCCACCATGTCCAGCTAATTTTT
GTATTTTTAGTAGACATGGGGTTTCACTGTGTTAGCCAGGATGGTCTGGATCTCCTGACCTCATGATCCGCCCACCTCGGCCTCGCAAAGTGCTGGGATT
ACAGGTGTGAGCCACAGCGCTCGGCCATGGATTGCAGATTGTTTAAAGTTTTTTTGTAATTTATCATATTTTCTTAAATGTTGACAGTGTACATACATTA
TTATTATAGTAGTCCTCCCTTATTCAAGGGGGATATGTTCCAAGACCACCAGTAGATGCCAGTGAAACAGTGGATAATACCCAAACTGATTACTGTCAAT
CAGACTGTTTCTGTTCATATCTTCCACTCACAAATTTAATGCTTTTTCCATCTTAACTAAGCACTTATCATGCTCTGTGGCAACAGCTTTTTATAGTTTG
AGGTGAAGCACCAAAACTAGCACCAATTTTTTTCCCCTTTGAAATTTGATGGATAGAAGTTTTATTCTTACTGTAGATCTTAGCAACCTCAGAATACAGT
TTTTTTCTTGCCTTATTAAGTCAAGAACTTTCACCTTTTCACATAAAGGAGGCACTTTACAGCTTGTCTTTGGCATGTCCAAAGTGCTGGCATCACTACT
CTTGTGCTTTGGGGCCATTATTAAGTAAAGTAAGAGTTACTTGAACACAAGCACTGAGACAACGTGATGGTGGATCTGACAATCGAGATGGCTACTAAGT
GACTAATGGTGGGGTAGCAAATACAGCTTGAATGTGCTGGACAAGGATGATTCACATCCCAGGTAGGGTGGAGTCAGACGATAGGAGATTTCATCACATG
CCTCAGAATGGTGCATAATTTAAAGCTGATGAATTATTTATTTCTGGAATTTTCCATTTAATATTTTCAAACCACAATTGACCATGGGTAACTGAAACTG
GAAAATAAAGCTACAGACAAGGGTGGACTACTGTAAAACAGGAAGCTTAATATTTTTCTAATCACTCATAATTCCAGAACACTAATACATTTTTTAATAA
CAGCTTTATTAAAGCTAGGGCAGTAGATGGTTCTTACTAAAATGGTATAACACTGAGGGGTGGTAAATGAATAGTGRCTGCTTTGGTTATTTTTTGAGAC
AGGGTCTCACTTTGTCACCCAGGCTGAAGAACAGTGGCACGAACATAGCTTACTGCAGCCTTGACCTCTTGGGCTCAAGTGATCCTCCTGCCCCAGCCCC
TAAGGTAGCTGGGACTACAGGCACATGCCACCATGCCTGGTTAATTTTTATATTTTTTGTAGAGACGGACTTTCACCATGTTTCCCAGGCTGGTCATGAG
CTCAAGCTATCGCCTAACCTCGGCCTCCCAAAGTGCTGGGATTACAGGAGTGACCCACCACACCCAGCCCTAGGGGCTGCTTTTATAGATACTAAAAGAC
CTTGTTAAGCTGGATTGGTGATTGTGCTTTGATCATTATTGATTTGTTTCTGTTATTTTGAATCTCTTAATTTCTTGAAGAATGTTGTCAATAATTCTAT
TAAATATCAAATTTTTAGTATAGATTGTCCACCAAAAAAAAGTTGAAAATTGCTGCTGTGAGGATTACAGAATAAAGTAAGRAAAAATACTGCATGGAAA
AGGACCAGTAGAGTGTAAAATCATTTATTCAATCCTTTACTCATTAGTATATATAAATGGTATAAGTTCCTTAGGGAAAAAAATGGGCAAAATGAAACCC
AAGTCTGCTAATAAAAAATAATTGCTATGGAAATTAAATTGTGCCCTTGCTATTAACAACTAAAAAGTAGTTAAATGTGTTAAACAACTCACATTGGACA
ACAGGCACAGTACAATAATCCCTGAAGGAAGAAAAACACGGTGAGTCCTACAATTGCCCCCATTTAGTACTGGGGTCAGTTTTTAGGCCATATTGTAGGA
AATCCAAATGAATTCTAGATTTCTGAGTTGAGAAGATAAAAATAAGAATTCAGAGAGGCCAAAGAGGCTAGAATTTATAGGGAGAACCCTAAAGGAAGGA
GCTGCACCAAAAATGTTCAGAAACCTGAAGAGAGGTCTCCTTAAGTTTTTGGCTGAGCAGTAATCTGCACATGCATGAGAAGAAACTAAGACTGGGGAAA
TACCCATCAAAAGGCCATAGGCTGAACAATTTCTGGGGCTTAAACAGAACTGGGAATGTTGCATGTTACCATAAACCAGAATGCAGAGACATGGTATTAG
ATAGGAATTGGGTAGAGTTCACAGAAATGTCATGCCTTAGTAGTGGGGATAAATTATTCCCAGAATAAAAGCTGCTCTGGACTTGCCATAACAAAGTTTA
AAAGCTTGAAAGGGTCAGATGGATCTACAAGTTACTGAAAAGTGTGCCACATCCTTTGCAGGAATATATCAAAACCCAGCACCCAGCAATGTAAAATTCA
AAATGTCCAATATCTAATACAAAATTACCAGACATGAAAAGGAAAATATGACCCATATCTGAGAGGAAAATCAACCAATAGGAACAGACTTAAAAATGAC
AGATTATAGAATTAGTACAAAGAAACCTTAAAGCAGCTACTATGAATCTTACAAATATYCCTAAGGATGTAAAGGAAACTGAACATGATGAGGCTAGAAA
TAGAAGACATAGAAAAAGAGCCCAAATGTAACCTCTAGAAAGAAAAAATACAATATTTGAAATAAGAATGCAATGGATGGGATTTGCAGCTGATGAGACT
TCAGAAGATCAGTGAACTTGGCYGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTAGATCACAAGGTCAAGAGTTCAAG
ACCAGCCTGGCCAAGATGGTGAAACCCCGTGTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGCACCTGTACCCAGCTACTCGGGAGGCTGA
CACAGAGAATTGCTTGAAGCTGGGGGCAGAGGGTGCAGTGAGCCGAGATTGCGCCACTGCAATCCAGCCTGGGTGACAGAGCGGGACTCCGTCAAAAAAA
AAAAAAAAAAATCAGTGAACTTGAAGACATGACAATATAGACTACCCAAATGAAGGACAGAGAGAAAAGAGACTTAAAAATATTGAACAGAATATCAATA
ACCTTTGGGAAAATATGAAATGATCTAATATAACTGTAGCCCCAGGAAAGAAGGTGGCAGAGGCAGAAAAACTATTTGAAAAAATAATGGCTGAATATTT
TCCAAATTTGGTGAAAACTGTAGCCTACAGATTAAAGAAGTTCATTAAAACCCAAATATTAAAGACATAAAGAAAATTATGCCAAGGTACCATGAAAATA
AAATTGCTGAGAGGCACATAGAATAGTCAAAGTAATAGAAATAGAAAGTACAATGGTGGTTGCCAGGGATTGCAGGGAAAAAGGAATGGGGAAATACTGA
GGAAACACCATATTGTAGGAAATACTGGGGAAGTACCATATTGGTTAATGGGTATAGCATTTCAGTTTTTCACAATGAAAAGATTTACAGAGACGGATAG
TGGTGAGGGTTGCACAACATTATGAATTTGAATTCCACTCAGCTGTGCACTTAGAAATGGTTGAGATGGCAAATTTTTATGTTATGTGTATTTTACCATA
ATAAAAAATTAGGAAAAATCAAATTGCTGAATGAAAGTGATACACAGAAAAGCTTAAAAGTTGATGGATAAAAAAAGAATTATTACTGACAGAGGAATCA
AAATAAGCATTACAGTGGACTTCTCATCAGAAACTATGCATGTCAGAAGACAAAGGAGTAATATAAAAGTTCTTGGGAGAGGTAGGAAGAGAAAAAAACC
TATGAACCCATAATTCTATACTCAGTGGAAATAATTTTCAAAAATAAAAGAAAAATAAAGACCATTTCAGACAGACAAAAACCTAGAGAATGCATTATCA
GAAGACCTGCACTGCATGAAAAGTTAAAAGAATTTCTGTAGATAGAAGGACTATGACACTAGAAAGAATCTTGAATTTACACAAAGAATTGAAAAGCACT
GAAAATGATAAAATACTTTTTTCTTATTTTAATTTCCTTAAAAGATAATTGAGTGTTTAAAAAAATATGAGATTAATAATATATGTAGAAATAAAATGTA
TACAAAAGTAGCAAAAAGGATGGAAGGTAGGAAATGGAAGTGTATTTTTGTAAAATTCTTACATTATATGTGAAGTAACATACTATTGTTTGACTGTGAT
AAATTAAAGATGTATACTGTAAACCTTAATCACTATACATAAGTATAGCTAATATGTCAGAAATGAAGATAAAATGAGGCCATAAGTAATATGCACTTAC
TCTCAAAAGATCCAAAAAAAAGAGACAAGGGCCAATATAMCAAGTAGGAAATTGATAGGTTTAAGCCCAGCCATATCAAGTGCTACATTAAATGTAAAAG
TTCTAAACACTCCAATCAAAAGGCAGAGTTTGATTAGATTAAAAACCAGGACCTAATATATGTTTTCTTTAAAAAACCATCTCTAAATATAAAGACACAT
TCCTGCAAGCAGAAGTGTGAAGAAAACTCAATAATTAAATATAAAGACACAAGCAGGTTAAAAGTAAAAGGATAGAAAAAATATAGTGTGCTAATAGTAA
TCAAAAGAAAGCCAAAATGGCCATGTTAATATCAGAAAAAATAAGACTTCAGAACAAGGAATATTACCAGGGCTAAAGCAGGGTATTTCGTAATGATAAT
GGGGTCAATTCACCAAAAAGACATAAAAATTATAAATGTTCATGCACCTGGTAATAGTGCTTCAAAATACACAACAACAATTGACAAAGCTTAAAAGAGA
AATAAACAAATTCACAATAATATAATATGGGAATTTCAACACTTCTTAGTATTGATAGAAGGAATACATTGCAAATCAGTAAGGATGTAAAAGACTTGAA
CAGACTATCAACCAATGCTACCTAATTGACATTTATAAAAAATCCCATTCAACAACAAAAGGAAAATTCAAATCAACAACAAAAAGATAACTAGAGAATC
CCCCTGACTACTTGGAAATTAAACATCAGACTTCTAAATAAGCCATGTGTAAAAAAGAAATTACAATGAAAAATAAAAGATATTTTAAACTGAAAGAAAA
ATGAAAACACAACATGTTAAAATATATGAGATGCCACTAAAATGGTGCTTACAGGAACATTTAAGATATTAAATACATGTATTAAGAAAGAAGAAGGCGC
TGGGTGCGGTGGCTCACTCCTGTAATCCCAGCAATTTGGGAGGCCAAGGTGGGCMGATTACTTGAGGTCAGGAGTTCGAGACCAGYCTGACCAACATGGT
GAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGGAGTGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCACTTGA
ACCTGGGAGTTGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGGGTCTAAATTCAATTATTGAAGCTTCCACCTAAAAAGCTAGAAAGAGAA
GAACAAATGAAACCCAAAGTAAGCAGGAAGAAAGAAAAAATAATCATAGAAGTCAATGAAATAGAAAATTTAGGAAAGCAGTAAAGAAATATCAATAAAA
CCACATGCTGTTTTCTTCTGAAAAAATCAATACATTGGTAAACCTATAGCGAGACTTAACAAAAATATGTAAAACACAAATTACCAATATCAGGAATGAA
GTAGGGACATCACTACAGAACCTGCAGATATTGAAAGGATAATAAATGACTTTATGCCCGTAAGTTTCGTGATAGATGAAATGAAAAAAATTTCTTAAAA
TACACAAATTACCAAAGCTCGGTTAAGAAGAAATAGATAATCTGAAGAGCCCTGTATGTATTAAGTTAATGGACTTTGTCATTAAAAATCTTCCCGCAAA
GAAAACTCCAGGCCCAGACGGCTTAACTTGTAAATTTAAGGAAGAACTAATACCAATTTTACGCAAACTGTGCCAGAAATTAAGAGAAAAAAACACCTTC
CAACTCATGTGATGAAGCAAGCATTACCCTGATGCCCAAATCAAAGACATTTTTAAAATGAAAAGGAAAGCTACAGATTAATAGCCCTCATAAACACAGA
TGCAAAAATCCTTAACAGAATTTTAGCAAACTGAATCCTTCAATATATAAAAGTGATAATATCTTATGACCAGGTAGCATTTATTCCAGGAACACTAGGT
TGTTTTAACATTTGAAAATCAATCAATGTAATTCAATTAATATATTCACAAAGAACAATTGTATGATCATCTCCATAGATGCGGAAAAAGTATTTGATAA
AATTGATCACCTGTTCCTGTTAAAAACTCTTAGGAAACAGATTAGAAGTGATAACGAGCTTTTATTTTAAAAAAACCTACAACTAACATTGTACTTAATG
CCAAAAGACTGAATACTTTCCCACTCGAGCCAGTAACAAGACAAAGATGTCCATTATTGTCACTTCTGTTCAGTATTGTACTGGATGCCCTAGTCATTGC
AGTATTACAATAAAAAGAAATAACAGGCATACAAATTGGAAAAGAAGAAATAAAATGTTTTATTCACATACAACATGATTRTATATGTAGAAATTCCTAA
TCGACAAAAAAGCTACTAGAACTGAAAAAAAAAGTTTAGCAAAGTTGCAGGATACAGCATTAATATATATAAATTACTTATATTTCTCTATACCAGCAAT
AAACAATGAGAARTTTAAAAAATTTTAAGACCATTTTTTTGACATAAAATATGAAATACTTAGGAATCAGTTTAAGAAAATATATGCAATATTTGTACAC
TGATAACTGTAAAATATTGCTGAGAAATTAAATAATATCAAAATAAATGGAGAGTATACCATATTAATGGAACATAATACTCAACAAAGTTAAGATGTAA
ATTCTCCCTAAATTGTTCTATAGATTCAATGCAATCTCAATCAAAATCCAGGGAGGTTTTTTCTTTTAGTAGAAATTGACCTGTAAGTTATATTCAAAAG
GGCTAGTACAAGAGCTAATATAGTCGAAATAATTTTGAAAAATAAGACAAAGTTGGAACTACCTGATTTTAAAACTTACTCTAAAGCAAGATAGTGAGCT
GTTGGTATAAGGATATACACAGAGTTCAAAAGAACAGAATAGAGAATCTAGAAATAGCACTATGTATATCTAAATAAACACATACACACAGTAGATTTTT
GATGAGTGTGCCAAGATAATTCAGTGAAAAAAGGGTATTCTTTTTAGCAGATGGTGCTGGATTAATTGAATCTCCAAATGCAATAAAATGAAAATAAAAT
GAACCTGACCCTTACCTTAATACTGTATACACAGTTTAATTCAAAATGGATCCTAGGCCTAAATGTAAGAGCTAAAACTATAAAACTTCTAAAAGAAAAT
GTAGGAGAAAATATTTGTGACCTTGAGTTAGGCAAAAATTGCTTAGATCTGACAAAAGAAATCTTAAAACCTTAAAAGAAAATTTTGACAAATTTGATCA
AAATTTAAAAATTTGCATTCATAAGATAGTGTTAAGAAAATAAAAAGGCAAACCTCAGCCGGGGAGCAAATATTTTCAAAACATATATGATAAAAGGCTT
GTATCCAGATGTATTAACTTGTACAACTCAATAAATAACCCAATTAAATCCAATTGTTTTTGGGTTTTGTGGTTTTTTGTTTTTTTGTTTTTTTTTGTTT
TTTTTTTGAGATAGGCTGTTGCTCTGTTGTCCATTCTGGAGTGCAGTGGTGCTGTCATGGCTCAGTGCAGCCTTGATCTCCTGGGCTTAAGCAGTTCTCC
CACCTCAGCCTCCAGAGTAGCTGGGACTACAGGCTGGCTAATTTTTTATTTTTCGTAGAGATGGGGTCTCACTATGTTGCTTAGGCTAGTCTCAAACTCC
TCGCTTCAAGCAATCCTCCCGCTTCAGCCTCCCAAGGTGTTGGGATTATAGGTGTGAGCCACAATGGCTGTCCCCAATTTTTTTGTTTTAAAGGTAGAAG
ATTTGAACACACTTCACTAAAGAAGATAAATAAGCACATGAAAATATCCAAATTAAAATGACAATGAGATACCACTATAAAATCACTAGAATGCCTAAAA
TTAACAAGATTGAGCAAACACATGTTGGTGAGGATGTAGAACAACTGGAACAAAGTACTGATCTATGCAACAATATGGAAGAATTTCAAAAGCATTACAC
TAAGTGAAAAAAGAGTGTCTATGATTGCATTTCTGTGACATTCTAGAAAGGCAACAATTGTGACAGCAGAGCAGTGGTTGGGAGGGTGCTGACTGCAAAG
GGACACAGGGAGCTTCTCAGCATCATAGATAAATTAATATCTTAATTGTGGTGGTATTTAACTTGGCTGTAAACATTTGCCAAAACTTGGAATTGTACAA
CTAACACTGATGAATTTTATTTGTGTATACATTATGTCTCAGTAAAGCTAAATTTAAATAAAAATAGGCCAGGCATGGTGGCTCACACCTGTAATCCTAG
CACTTTGGATGGCAGAGGCAGGCAGATTACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACCCCRTCTCTGCTAAAAATACAAATTA
CAGATGGTGGGCGCCTGTAATCCCAGCTACTGAGGAGGCTAAGGCAGGAGAATCACTTGAACCCAGGCAGGGGCAGCGGTTGCAGTGAGCCAAGATCACA
CCATTACACTCCGGCCTGGGTGACAAGAGCAAAACTCCGTATCAAAAAATAAAAAATAAAAATAAAATCCAAGCCTTCAGTAGTTCTGTAAGCAACATCA
ACAGTGACTTCTTACGCAGTTCCTACTGCAGGCAGCACCAGCACAATGTGCTTGGGACTTTGGGTCACTGCACTTGGTAGATCTCAGCCGGCACCCACAC
CATTTCTCAGTTTACCCTGTAGATAGAACAGAACCCATTTGCAATAATTAACCAATGTGAAATGATCTCTACAAATGCTGTGTTTTGCTGTTTCAGGTGC
TTAGGAGAACATGCAGTAGAACTTTTCATCAAACAAATGGAACACRTCACAGAATTTTGCTAACATGGACAACTCTGCACAGAAAAATGAACGCACTGGC
AAACATCCCAGACGTGCCAGTGAAGTACAGAAAGGTACATGTGTCTTTGCAGGGAGGAGATAGCTCCTGACATATGCTTATTTTAGTACATAAGAGCAAA
TTTGGGGGGAATAGTAAGTCCTGGGTTATATCCACAGGGCCATCCTTACAGGCATACCAAATAGRTGGCTTTAGGCCCTACTGTTTCAAGTGTGACGATT
GGGAAGAAACTGAGAAGAAAGGATGAGAGAAGAAGGAGGAAGTCTGTTAAAAAATAAAAAACTAATAAACAAAACCCAGACTTGTTAGTTCCATGTATCT
GGTAAGAATCTCTATCCTCAAATTTAGATATGTAAGAGATCTTTTTTTATTTCCTAGAACTCAACTTGAGTTATGACTGCAAGTCCCCATTCTGCTGGGT
TGTTGGAAAGGATAACTCCAGCCATTATCAGCATAAATCCTATCTCCCTCGTGATTGTTTCAAGTTCAGAACTTTCCCAATAGTTAGTGTGATCCCAGGA
GGCTGGGTTGGGGTGGGGAGGAATACTCAGGTCATTGGTCAACCATCCACATTGGTGAGATCCCCAGTGTCCCAGCTCATGTGCTCCCTTTGGTTTTGCT
AGTGTTCRCCAACTAGTGTTCTGGTTCGTTAGTGTGGCTTAGGAATTATTGCTGAGACAGGAAACCTCATTTTGAGATCCCCCTAGGCTCCAGCGCTTTT
TCTTTCGAGGCTGTTACCACCTCCCTGGTGGGCTTCCAGAGTCGCTGCTGCTCTCAAATCCAGAGAGATCTCTCTTTCTTCCTCCTATCCTCTGATTTTG
CACTCTCTTTTTCTTTAACATTTCTTTAAATTGAAGCATAAATATATATTCAGAAAAAGTGCACAAATCCTAATTGTATAGCTTAATGAATATTCACAAA
GAAAACACCACCTATGGAATAACTTCTCAGACCAAGACAGAATGTCAGCAGCATCTCAAAAGCCCTTGTCCCTTCTCAGATATTATCTCCCTTCCCTGCA
AAAGTAAACACTACGGTTATCCTGACTTCTCATATCATTAATAACTTTAGTTTGTTTTTGAATGTTATGTAAATGTGAATCATACAATATGAGCTCTTTT
CTCTCAGGCTTATGTTTCAGAGATTTAACTTCATGTTGGTTTGTCTTATCTATGAGTAATTTGTTCATTTTATTACTCTTGTTTGAATACACCACAATTT
ATTTATCTATTCTACTACTGAAGGACATTTAGGTTGTTTCCAGTTTGGGGCTATTATGAATAAAAACTTCTGTAACTATTCTTGTACTTGTCTTGTGGGA
CACATATTTATGTATTTCATGGGTCTATACCTGAGGAGTGGAACTGCTGGGTCATAGGGTATGTTTAGGGTAAGCTTAGTTGATATTGCCAAACAGTTTT
CCAAAGTAGCTGTGCCAATTTTACCTCCTTACAAGCAATGTATGTGAATTCCAGCTGCTCCAAATCCTCACCAACATTTTAAGCTCATAATAGTTTTAAT
TTGCATTGCCTGAGATCAATGAGATTGAGCACTTTTTCATGTTGACTGGCCTTTTGGATATTCTCTTTGGAGAAGTGACTGTTCAACTTTTTTGCCCATT
TTCTTCTGCTGGGTCTTGTCTTGTCTTTTCTTTTTTTTATTTATAGGAGTTCTTTAAACCATTCTGTCCTTTTCTTATTTATAGGGATTCTTTATTCTAG
AAACAAGTCATTTGTTAGCTGTAGGTAAATGTCATCCCTTATCCTGGGACTTTCCTTTTCACTCTCTTAACAATGTGCTAAGACACAGAAACTCTTGATT
TTAATATAGCCCAATTTATCAGTCTCTTTATGTTTAGTGTACATGTCTATTTTATTAATACTTAAGAAATCTTTGCCCATCCCAAGATAGTTTCTTCTAG
AAACTCTATTATTTTACCTTTTACATCTAGATCTACAATTCACTTGAAATTGTTTTTGATTGAGGAAGATGCCCGAGTCTGTTGTTTTCCATGTTGACCC
AGCACCATTTATTGAAAGGCTGCTCATTCTCTACTACTCTGTATTGCTGTTGCTACCTTTGTCATAAATCAAGTGTCCAGGCATATGCAGCTCTGCTTCT
TGATTATTTATTCTGTTCAAATATCATACTGTCCTAATTACTGTAACTTTATAATAACTCTTTAGTAGCATAAGCCCTTCAACTTTGTACTTCTTTGTTT
ATGCTGGCTATTCTTGACCCCAGTGCATTTCCATATAAATTTATTTTACTTTTTTATTTTTAATTTTTATGGATACATAATAGTTGTACATATTTATGGT
GCACACATGATATTTTGATACAAGAATATAATGTGCGATGATCAAATCTGGGTAGCTATACAAATTTTACAATCAGCTTATTAATGTCTTAAAAAAACTC
TACTCTCATTTTAATTTGGATTGCATTGATTCTAGAAATCAATTTAAGGATAATTTACATCTTTACAATAAATATTAACTTCTCTAATCCATGTATAGAT
CCTTTTATTTAAGTTACCTTAAATTGTTCTCAATGTTTTGGAGTTTTCTATGTAGAAGTCTTGCATATCTTCATTATATCTATTGTAGGCATTTGATTTT
TATGCTGTTATAAATGGTAATTTTAAATTTTATTTTAAATTGTTTGTTGCTGCTGTACAAAAAAATTAATTGATTTTTGTATATTGACCTTGATTCTGGT
GACCTCACTAAATCCAACTATTACCTCTTATAGGGTGTCCACAGATTATTTTGCAATTTCCCCATAYACAATCTTGTAATCTGTGAAAATGACAACTTTA
TTTCTTCCTTTCTCATCCATATATTTTATGTATTTTTAATATATTTTATGTAGGCGTTTGTATTGGCTAGAGACCTTCAGTACAACGTTGAATAGAAGGA
TAATAGCAGTTGTACTAGTTTCACTCCCTGTCTCAAGGGAAAGCCTTTAATATTTCACAATTTGGTATCCTGTTTGCTATAGGCTTTTGTTATAGACACC
TTTTATCAGATTAACAAAGTTTGCTCCTATTCCTAGTTTGCTAGAGTTTTTCTTTTAATCATCAAAGGATATTAGATCTTATGAAAAGCTTTTTCTGTAT
CTACTAAACAGTTACTTCACCAAAAAAAAGATATACAGAGGGAAAATAGCATATGAAGGACTGCTTAGCATCATTAGTCATTAGGGAAATGCAAATTAAA
ACCATAATGAGATACCATTACATACCTAATGGGATGCCTGAGATTAAAAAGACTTCCCATTGCTGATAAGAATGTGAAGTCATAGAAATTTTCATACGCT
AATAGTGGGGATGTGCAAAAGTACAACGACTATGAAAAATAGTTTGACAGTTTTTTAAAAAGTTAAACATATGATCTAGTCATTCCACTCCTAGGCATTT
ACCCCGCAAAATGAAAGCTTATGTCCATTTAAAGACTTGTAGATAAAATGCTCATAGCAGTTTTATTTGTAATGCCCCCAAACTGGCGACAACTCAAATT
TACATCACCAGTGAATAAACATCATGTTTTTATACAATGGAATATTACTCAACAATAAAAAGCAATGGAGTATTGATATATCAGCAACAGAGATGAATCT
CATAGTAATTATGCTGAGTGAAAGAAGCCAGACAAAAAGAGTACATGTTACAGGTATATGATTTTTTTAATCTGTTGAGATACTCGTATGGTTTTTCTTT
TTTAGTCCGTTAATATGATGAATTATATTGATTTTTAAATATTAAACTATTTTTGCATTACTGGGGTTGGTCACGATGTATTATCTTTTTATATATTGTC
TGGTTTGATTCGCTAAAATTTTTCTAAGGATTTATGTATTTATGTTTATGAGGGCTGYTGACCTCTAGTGATCTTTTTCCCTCTTGTAATGATGCCATAT
AGTTTTGGTATCAGGTAGTGGTTGCCTCATTGAATGAGTTTGGAAATGTCTTTTCCTCTTCAGTTTTCTGGGACAGCTTGTATGGAATTGATAGGTGGAG
TGTTCTATAAATGCCAATTAGGTCAGGTTAGGTAATAGTTTTGTTCAGGTTTCATATATCTTTACTGATCTATCKACTTGTTTAAATTATCGAGGGAGAT
GTTTTGAGATCTCTGACTATAATTGTGAAATTTTCTAYTTTTTCTCGCAGTTTTATCAGTTTCTGCTTCTTATATTTTCAATCTCTTTTTATTGGGTACA
TCAGCATTTAGGACTGTTATGTTCTCTTGAGGAGCTGACTGCTCATAATGACCCCATTATGAAATGACCCTCTTTATTGCAGGTAATATTTTTTGCTCTG
AAATCTACTTTATCTGATAATATCTAACTATCTTTTGATTAGTGTTAGCATAGTAAATCTTTTTCCATTATTTTACTTTTAACTTATTTCTGAGTTTATA
TTTCAAGTATGTTTCTCCAAGGTAACATATAGTTGGGTCTTTCTTTCTTATCCAATCTGAGAATCTCTGTTTTTTAATTGGGATATTTAGATTATTTACA
TTTAATGTGATTATTGGTGTATAAGTTTAAGTCTATCATCTTGTGACTTGCTTTCTATTCGTCCCATCTGTTCTTTATTTACCTTTTCTCTGTCTCTTGT
ATTATTTTTAATGCTTCAATTTTATCTCCTTTGTTAGCCTATTAGGAATAACTCCTTGTAGTATTTTCCTAGTGGTTACCTTAAAGCAACAGTTGGCAAA
CTTTGCTCCTTGGACCAAATCTGACCCACTGCCTATTTCTATTAATAAAGTTTTATTGGAACACGGCCACCCCAGTTTGTTTATGTATTGTCTGTGGCTG
CTTTTACTCCATAATGGCAGCACTGAATAGTTGCCACAGAGAATAAATAGACTGCAAAGACTAAAATATTTACTATCTAGCCAGGCATGGTGGCTCACAC
TTGCAATCCCAGAACTTTGGGAGGCTGAGGCAGGAGGATTGCTTAAGCCCAGGAGGTCAAGGCTGCAATGAACTATGACTGCACCACTGCACTCCAACCT
GGGCAACAGAGCAAGACCCTGTCTCAAAATATAGATCAATAAGATAGATAGATAGATGATAGATAGATAGATAGATAGATAGATAGATAGCTATAGATGG
ATAGATAGATAGACAGATATGTACTATCTGGCCCTTAGAAAAAGTTCGTTGATCCCTACATACTTTAGAGTTTATAGTATATATCTTTAACTTATCATGG
TCTACCATCAAGTGATATTATAACACTTCACATATAGTAGAAGAACCTTAAAACAGTATATTTTTATTTTTCCCTTCCTGGCCTTTATGTTATTGTTGTT
AAACATTTTACTTGTACATATGGTATAAACCCTACAAAACAGTTGTTATTTTTGCTTTACATAAATTTTTTTTTTTTTTGAGATGGAGCCTTGCTGTGTC
GCTCAGGCTGGGGTGCAGTGGCGCAGTCTTGGCTCACTGTAACCTACACCTCCTGGGTTCAAGCAATTCTCCTGATTCAGCCTCCTGAATAGCTGGGATT
ACAGGCACCTGCCACCATGCCTGGCTAATTTGGTGAGGAGGCCTCCCAAAGTGCTGGATTACAGGCTACCACACCCGGCCAGTAATCATTACTTTTTAAA
TGTTTAAAATGTTATATTTAAATTATTCAAGGCTGGGTTTGGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAAGCCGGGGCGGGCAGATCATGAGGTC
AGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCT
ACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATAGCGCCATTGCACTCCAGCCTGGGCGCAAGAACGA
GACTCCATCTAAAAAAAAAAAAAAAAAAAAATTGTTCAATTTATACTCATAATTTTATATTTTCTATTTACCCACATATTTACTATTTCCAGAGCTTCAT
TCCTTTATGTGATTCAGATTTCCTACTGGTATCATTTTCTTTGGCCTGAAGGGCTTCCCTTAACATTTCTTGTAGCTCCCATTTGCTGATGATTCTTTCA
ATATTTATATAGTTTTAAAAGTTTTTATTCTGCTTTTGCTTTTGAAGATATTTTTACTGAGTACAGGATTCTAGGGTGACAGGTTTTTTTTTTCCTTTTA
TTGCCTTAAAGGTGTTGTTTTCAGTATCAATCTGCTGTCATTCTCGTATTTGTTTCTTCATATGTGACATGTCTTTTTTCTCTGCCCAATTTTAACATTT
TCTTCTTATCACTTTTTAAGCAATTTGATTATGGTTGGCCTACGGTGTCATTTTCTTCATGTTTCTTGTATTTGATGTTAAGTGACTTTCTTGAATCTGT
GAGTCAATAGTTTTTTTAATCAAATTTGGAAAAATTTCAACCATTTTTTCTTGAACTATTTTTTTCTATTTCTTCTCTCCTCATATTTCTTTTTTTGAGA
GCCTGATTACATATATATTAGGCTCCTCAAAGTTTCCACACAGCTCACTAATCCTTTTTCTTGTCCTTTTTCTGTTTTATTTTGTATAGTTTTATTTCTA
GGTCTTCAAGTTTACTAATCTTTTTTTCCTCTAATGTCTAATTTGCTATTCATCTCATCTAGTGTATTTTTAATCTCAGACATTTAGTTTTCACATCTGG
TAGTTCGATTTGGATCTTGTCATTATATCTTCCATATCTACTTAATATGTTCAGTCTTTTCTCTGGCTTCTTGAACATATGAAATACAGTTAGTGCAGCA
GTTATAATGYTCTTCTCCACTAATTCTATCATCTGTATCATTTCTGAGTTGGTTTTGATCATTTATTTTCTCCCCACTTTGAAGTATATTTTTCCTTCTT
CCTCCTATTAATTTTTTATCAATGCCAGGTATTTTGAATTTTACCTCTTAGGTGCTATTTTTGTAGTCCCATAAATATTCTTGTGCTTTGTTCTGAGATG
CAGTTAAATTATTTGGAGACAGTTTGATCTTTTCAGGTCCTGCTTTAAAGCTTTGTTAGCTGGAACCAGAGCAGTATTTAGTCTAGGGGTAATTTTGCCC
CATTTCTGAGGCGAAACCCTCCTGCATACTCTATGTTCCATGAATTATGAGGTTTTCCCGCTGTGACTCATGAAAACAGGAGCTATTCCCGGCCCTGTGG
AAGCCTCAGGGATTGCTCACTTGAATTCTGCCAGGCGGTTCCTTCTCCAGCCCTGGGTAGTTTTCTCATGCCATGTGTTGGTCAATACCCAGGAACTTAC
TCAGGGGACCCCGTTGCAGAGCTCCATAGCTCTCCATCTGGGTAGCTCTCTCTTCTCTGGTACTCTGCTCTGTGAACTTAGCTGTCTTGGTCTTTCTGGA
CTCCCAGATCTATTTCCTCAACTCAGGAAGACCACGGGGCTCCATCTGGATCCCTTCTTCCTGTGCTGTGGTCTTGAGATTTTCTCCTGGCAGAAAGCTG
GGGRCCATCTTATTGCCAACCTCATTTACTTTGCTTCTCTCAGGGATCCCTGTCCTTTGTTGCCTGATGTCCAGTATCTTGATTGCTTTATATATCTTGC
CCATTTTTAACTTTTTTTTTCCAGCTGGGAGGGCAAATCTAGTCCTGTTTTGGTAAGAAATAGGAGTTCAGTCATCCAGAGTGTTTTTCAAAAATTCTAC
TTTTTAAATTGTTTCATCAAGAGGGCTGCTCTGACACATGCATTTCTGTTATAGCCAGAAGCCTTGGATCTCCTTTCCAGTCAGGCAGAAACCTCTCCTT
TCCCCAGGAGAATGTCCTTCCTTTAACCTTTTTTAAATAACTCTCTYTTTACTGCCTCCTCTGCACACTCTCTTAGCTGTTCTATAGGCTTAGGCTTTTA
GAAACAAAAGCCAGGAAGTCTTGCAGCTGCTTCTGCCTTTTGATTTGCTGTATAGCTCTCTTAAAGCAAACAAACCAAAAACATAGCCATTCATCTACTT
AAATGGGGAGGGGAGGAGAAGAATACATTTACTGTATATTGGTATCCCCAAATATTTTCTACTTAAACACGTATTCAGCTCCTTTTACTTGCTTCATCCT
CCACCCAGGCAGATTAGGCTTCAGTGTCCCTCTCCCCATCGTGTTTATTGAGCACTTAYTAGAGGCCAGCTCAGGAAGAGGAAGCACAGCTCAGAGCTCA
AGAGCCTGGACTCATTAGGCAAATCATGTTCACACCCTACCTGTTCCGCTTAAGTGCTGGGTGATTCGGATGAGTAACTTAATCCCTCTAAGCCTCAGTT
TCCTCAACTGTGAAGCTGGTTCATGATTGTACCCCTTGAGGGGTCCCTGTTGTCTTCAGGCTTCCTGCTCTGAAAAGGAGTATTGTTTTTTAAAAAAATT
CAGAGATGAAGAAATGAGCCTTACTGATAGTTTCCATACAAACCACCCTCTGTCATGGCTAACACATACTTTCTTCTTTCCTTCTCTTGACTGTTTTTTT
TTTCCCCCATTTCTGCGCGTATTTCCTCTCTGAAGGTTAGGATTCTGATGTTAAAATAATTTGGCTTACTGTTGTGAACAGCCTACAGAGTCAGGATGCA
CCCCCCCACCCAAAATTTGGTTTGGATGTCAAGACTTACGGTGCCACACACACGCTCATGAAGAGTGTAGGAAAAGGCTTATCAYCCACATAGTGAGGCC
TTCTGAGGACAGCAGCACAGCCTTCCTAACCTGATCCAATAATGGCTTGAGAGAGCAGGGAAAGGAGCCTGGCTTGGGGGTTTTCTTATGGTTGGAAAGC
GAGGCTGGACTGAGGGCAGGGGTCTGCGTGGTTTGAACTTCCAGCTGGTGCCACAGGAGGGAGCTCTGGGCTTTCTCATCCGCTTGCCCAGTGGTAGGGC
AGAAGGGAATGAGGGAGTGGTGAAGCTGAAGAGCTATCAGCCATCAAACATCAAAAAACTGGAGTCAGAGTCCATTACACTTACAGGTTAGAGTCTATAA
TCAACCTGCTATGCAGACAGATGCTGCCAAGTTCTAGCAGTTGTGGAAGTCTCAGCAGGAGGGGAGTTTATACATCAGACATGCATGTATACATCGCAGC
CTAGACAAAGGAACTTTTAACTTCAGTTTCTATAGATGATCCCTTTCTGCTTTTTAACCCCATGTCTGCTCAAAACRGAAACGAAAACTTACACCTGTCT
TGCACAGTGCCCTGAAAAGTGAGAGCCAGCCCCAGGCTGGGATTTCCCTAACCTCTTTGGATTTTAACGGCCTAATGCTGGTGTCTGAATCTAGGCCAAG
GAGCAGTGAGGACGCTTCCTCTGTCCTGACCGCGCCTCGTCCAGGCTGCTCCCAGAATAGTTTTGCTGTCTCCTTCCTGCCTGGCAAGAATGTCTTTACT
ATCATCTCCTTCCTTTTCTCCGGGACAGCCTGTTTAAGGTACTTTATGTGACCACATCTCACTAATTTAAGAGCTGGAGGGGGGAAGTCCGATAAATTGC
CGAGAGGGAAAGAAAGTGGGGAATTTTTTTTTTTAATCCGGTTTCGTGTCTGTTTCCTGTCAAAAGGCAAGTTTCTCTTCTCTACCATTTAAAATAAAAC
TTTAATATACACCTTTGTGTTTTCCACATTTGTCAATCATTGTTTTGTATTCATTTTGATTTTACTCCATTTTTGTTGTTTAGGTTTTACTGCTGCATAT
CCAACACAATCCTCCATTCCTTTTAAATCTCAAGCTTCAGTAATCCCAGAATCAGAAAAAAAAGGATTCAATAKTCARGCCAAGAGATTTCCTCATAAGA
AGGTAATGACGTTGTCTCAGGGGTTCTTTCGTTTTAGTCTGGATTTTAGCCTTGCGGGACAGGCACGTTCTGTCTGGCTGCTGTGTCTTTCTGTGGACAG
TGGAGGGCAGTGTGCTCCCAGGAGCCGCGGCACCAGCTCCACTGAGGGGCACCGACTGGACTAACTGTAAGAACGAGCCTGAAAAATGGGACATCCAGGG
AAAAACAACTGTGTCTGGATTTATGGCGCCAAAAATATTGAACTGGACCAAAACTATTTTAAGAAAACAATATATTTTAAAAATCATCATAAAGCTAAAA
AATTGCAAAAATTCCCAAGTGTTATCAATTAAGTAAAAGATTAAAAAAAAATCTTCCCCATCCTTGTGAGAGGAAATCACATGACTTCAAATAACACAAG
AGGAAAAGAAGAGTCGAATACATCTAGAATTACCTTTGGAGGGCCGGGCACGGTGSCTTATGCCTGTAATCCCAGCACTTTGGGAAGCTGAGGTGGGAGA
ATTAATTGCTTGAGCCAGGAGTTTCAGATCAGCCCAGGCAACATAGCAAAACCCAATCTCTACAAGAAAAGAAAAGAAAAGAAAAAAGTACAAAAATTAG
CTTGGCATAGTGGTGTGTGCCTGTAGACCCAGCTACTCAAGAGGCTGAGGAAGGAGGATCACCTGAACCTGAGGAGGTCGAGGCTGCATTGAACCAAGAT
AGCGCAACTGTACCCTAGCCTGGGTGACAGAGCTAGACCCTGTCTGAAATWAAAAAAAAAAAAATTACCTTTGTAATGAGCCCTGCCCTACTTTAAAAAC
AAAAAAACAAAAAACAAAAAAAAACTTCCTTAAACAATGTGTTATTAGCCGGGTGCAGTGGCTCACACCTGTAATCCCAGCAGTTTGGGAGGCCAAGGTA
GACAGATCACCTGAGGTCACARGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGAGTGGTGGCGCA
CACCTGTAGACCCAACTACTGCCTCTCCTGAGGCAGGAGAATCACATGAACCTAGGAGGCAGAGATTGTAGTGAGCCGAGATCGCACTACTGGACTTCAG
CCTGGGCGACAGAATGAGACTCCATCTCAAAATCACCACCACCACAACAACAATGTGTTATCATAYTCCTGTGTCACCCACCACCCCCSCTTCCCTAAAT
CTTGCCGCATCTCTTTTCCTCTCTAACCTGGAAAGTTCTGCGTGGTTCCTGACCGGTCCTTATTTAATCTTTGGGATTTCTGGGACCTGACTTTCTCCTC
TCTCACCAGCAGGGGACAGAAGCAACTCACAGGCGTCCTTAGAGTCTAAAAAGTTTTTCATTCCTTCATTCATTTAAGCAAGACCTTTAGAATACTGTTC
TTTTGGAGGAGTCCTCATTTCACATATCTTTTGCTGCACTCTAAAAATGGTTTTCATCTTATTACCTTGCCCAGATGGCAGAGAGGGAATGAGGAGATCT
AGGTTCTGAACGGAGCCAAGGCATGGAGTGAGGGGCCTTGGCCAGCCCTGGTGCCCTCAGCCTGATTCCTCCTTGGTAGATGAGAACGCTGAACTAGAGA
ATGTTTCAAGTTTCTTCCACTTCTGATATTTTAGGATTCTAAGAAAGCAAATAATAAAGAATAGAGTGTACGCACACAAACACACACACACAGTTTTAAA
TCACTTGTAGGTTTTCTCCAAAGATAATACATATTTGCTCAGGAGTTTTCTTCTCTCCCTAGTTTCTCTGTTTTAACTGTTTGGCTCTTTCCCATTTTCT
GTCTGGTTTCCCATTTGTCAATTTAATGATAATATATTGTCCCTCTCYAGRATATTTGCAGCCCAGCCTCYGATAAAAACAATAGCAGCCACCATTTACT
TATCCTTACTATGTGTACTTTTAGACTGCCTTTTATCTCTAATCCTCAGAACAATGCTGAAAGGAAGGGTTTATTATTTTAATTTAACAGAAGAGGAAAC
CGAGGCTTAGGGAAGTTCAATGACCCACCCAAGGTCACACAATGCAGGGTTTGGCACTTAAGAGGCTCAAAGTAAATGTTTGCTGAATCAATGTTGAAAG
AATTAGACCTCAACCCAGGTCTAGTTCACTCCAAAGCCTCTTGCTCTTTCCACACACTGCACCACACCTGCCTTTGTGGCCCGCAAAGCTGTAAATTTGG
CCTGTGAAAGTCAGCAAGTTTCTGAARAGGCCTTAGCAACACAGACCAAGCTGAAGACAGGGGAGGATGTCAGCTACCGTGGATGGGCCCCATTCCCCGT
GATCTAGTTCTGAACACTCAAATTCAGAAAGCAAGCCGGCTCACTTGTCAAGTTAGTGTTTTAAAAGATGATTGCTTCTCAGAACGTTTTTGACTAAAGG
AACCAAGGAGGCAGGTAGCCAAACCTACAGGCAGCATCGAATAGAGATGGGAATTGCTCAGAGATTGGGTTCCAACTTTTTAAATGTGGTCGTGTTACTT
GACAACATGAAAACTTTCATCTCAGCATTTGTAAGCATTTTAGAAATAAGGATGGAATTTTATGGAAAGGGCAGGGGATCCATCAATCAGGCTTTCCGTG
TCCTACTCTGTCACTGGCTSTGTGCCTTTAAACCAGTCACTTGACTTTTCTGGGCTTCAGTTTCCTCAACTGAAACATAAAATTTGTATTATATAATTTT
TGTGGTCTCCTCAAGTTATAAAAACAGAAAAACAAATTCCTATTCTATGTTCGTTCTCATTTTTCCCGAGGGAAATGGCCATTGAGAAGTTAAAGATCTT
GTTTAACATCACCTGATAATTTAGTGAGGCAATACAAATTAAAGACAGATTTGAAAACTCCAGGGCTTCACCACCCTTCTTAAAGCATTAGTCACCCACA
CCGTTGCTCCAGATCGAACATGGCTGCCTCCTCGCAGTAGTCCTGTGGCCCACCTTAGCACATCTTTGACACAGAGAATCAGTGCCCTTTGAAATGTGCA
CTTACCTTGTGAGGCTAACTTTGCAGTGAACCATCAAGGTCTCCTTGCCCAGCTCACATTCCCCATGAGAATCTTACTGCAGAGTACAGTGAATCCTTCA
CAGAGCTCAGTGTCGGGACTGGCAATTTTGGCTGCTAGAAATGAAGTCTGTTTTCCTGAACATTTTCGAGTTATTTACAGATGTGCTGGTAACTTTGCGT
AGGTGAAGAGACATGCCTGATCTATGTGGCAGAGCATGGCCCAGCAGCCTGCCGGCCATTTTCTACCCCCGCCTCCCTGTTTCTGTCTCCACTTCACCCT
GGATTGTGGTCACTGTTTCCCAAACTGTGTACCCCTAAGGACACCACTTAATGTCTTTGCTTCTCTGTTTCCTCATCCTAAAAATAAAGATGTTGTAATA
GGTAGGTAAGCCCTTGCCAGGAATGAGTATTTCATGGTTCTACACCTCATCCCTTCCAGGCTTGAATAAATAAATACAGGTAGGACATAGGTACCATGTG
CTCTAGATGGGCACAATTTAAAAATATATGTTAATACCATTACATAGTAAATCTACCCTCCCAAATGGGAAGCYAGCCAGTGGTTAATTTGTGATGAAAT
CGTACAAAGTTAATATTGTTCACTTATTAACTTGATATGACACTAGACCAGGGATGTTTAAATGAAAGAGGTTCAGTTTGCAGAAGTCACCATGTTCAAG
GGGACAGCTGCCCCAAGTGTGCCCTCAGCTGCATATCTGACCCACAGTAGGGTCTGTCCTGCCTCCCTGCTCTGTGAAGCCTGACTTCTCTGTATCAGTC
ACCAGTACCCCTTCCTAAGGGGTCTGCAAACACTGGGCTGGCACTCATGACATGCCAGGTACCCCTCAAAGACCTTTGCATTTATTACCTCATTTAATCC
CCATAATAACCCCATGAGCTAAATCCCATCATTATCCATACTTTTCAGATAATGATCCTGAGATGAAAAGAGGGTGAAGTAGCTGGTGCAGTGGAGGCTG
GGCAGAGTGAGGATGAACCCAGGTAGCAGCTCCTGGTCCTCAGACCCTGTTTCCCCAGCATCTTCCCGAGGTGGAGGCACCTCCCACAGCTCGTCTTATG
CCCTTGACACAAGGTTAATGTGTGTGCTGTCTTACCTCCACCACCTGCCTAGGRGCTCCTTGGGCAGTGGTCATTGCTGTCCTTTCCAGACCCCACAAAC
CCCTCAAAAATGGATCAAATGMCCCCAACTCAAATCTGCGCATTTCCCATGGAGTCACGACCACACATCCATCCATGAGCACTGTTGTGATACATCTCCT
TCCTCCCATTCCTAAACCCTGTGAGCTGCTAACAGGTTGCGCCTGTATCTTCCATCCTTGGCACAGGTCCTGATGCACAGTAGGTTTCAATCAGTGTCCK
CTAAATTGCATTTTTGCCCCCATCCCACGCAGGGCACTTCAACAGGCTGCTAATAAGCTGCTCAGTCCCACTCTGAAGGTTTGTGACTCCCAAGGGAGGG
TCCTGGCTCCATGGAGGCAGTAGCAGGCAACATCGTGCGTGGTGATGGTGATGGTGATGATGATGATGGCGGGCCGCATCGGYGCTGTTCCACCCACTTT
ATGTGTATTGACCCCTTCAATCCTCACACTTAGAGGCAGCAAAGGAGACAGTGGGTAGGGCTTCCCTAGAGCACTAGTAAATGCGAGTTCTCTTCCCTTC
TCCCTCCCCATACATGTTTTTGTTTTGTTTGTTTATTTGGTTTTTGCCAAGAAACCAAGGAGTGGCTAAGTTCACACCAGTCACAACTTGGATTCTCGTT
CTCTGGGATTTGCTCTGAGAGGCTAAATTCATCCAAGTCACAGAATGTCAGTCGCAGGAACTGTTTTTGCACAGGCGAAAGGCCTCTCTGAGGGTGGCAT
CCGCCCACCTCTAGAAGTCACAGGAGAACGCTTGACATTTCCCTCCCAGAGACCTACTTGGGCGTTGCACGAAGGCGGTGGTGTGCTGGTCAACCACCAT
TTACCCTCCTCGAAGAAAAGTGCTGAGATGTAGCATCTGCCCGTTTTTGTGACATAAATACTSCCACCGTGGCCAAYTTCAAGCCACCAGCAGCAACATT
TTGGAATTTTTAACAGTTGTCCTCACAAGCTGCCGCTGGCCAGCTCCAGCTGCCGCTGCCTGGAGGACTCTCTTTTTGCTCACTAAGAACAAACAGGCAG
CACTCCATTCCTCCAGGCTAAGTGGTAACAGCCTTCTTGCCATTTGCCTTGGACTCAAGCCAGTATGCAAAGTGGCAGAATTAAAGTGTGTTAAAGCCCA
GGAAAGTTGTGAGCTTCAGCAAATGAAAACACRAGATGTCCAGTTAAATTAGAATTTCAGATAAATGGCAACTCTGTTAGTACAAGTATGTCCCAAATAT
TGCATGGGATATACTAAAATCATCATCTGCAGTTTATCTGAAATTCTAATTTAACTGGGCAGGTAGGATGGMGCCGGCATTTAGGTCTTGCATTTTGTCT
GGAACCCCTAGCTCCTCAGACACATATGAGTGCTCAGAAAATTCTTGCAAACTGATGGTCAGGTTCAGAGTGTGGTGATAACCGGGAGCTAGAGGTGTGT
GTCTTCACTATCTACTATTTAAACCTAGAAGAGTCACAGTGACACTTCCTGTGTCAGCTTTCCTAGATTCAGGGACTCTGGAAGCTCAAAAGCACCCAAG
GCCCAWCACCTTGGACTTACAAATAAGGAAGCCCAGAGAGGTGACTTGCTCAAGATCACTTAGCGTGTGGCAGCACTGAGACTACAATTTCTGATTCATA
ACCCGGTGGGGATTTTTTTAATCCTATGTAATCTCATTTGAGAATTAGTTTGGTTTCGTGGTTAAGAGCAGACTCTGTGGTCAGARTGCCTCGGTTCTGG
CTCTGACATTTACTAGTTATGTGGGCCTTATCTCTTTTGGCCCCAACTTCTTTAAAATGGAGATTAAGTGAGCTAATAGTACATGTAAAGTCCTCAGAAC
AGTGCATGGCACAAAATGAGCACTCGAGAAATTGATGCTTGCCCTGAAAACAGTTGCCTAGAAAAATCTCTTCCTTGTCTCCCCATAGCCCTTCGCATCT
GCATCCACAACACGAGGGTTCTCCTGGGCTCTCGGCCTGGGGTGCTGGAGTACCTGGCTCCACAGTGCCTCCTGCTGCCTGCCTCACTCTCCATGGCAGT
CAGTTCCTCTTCCGTCCACCGGGGATCATTCTCACCTAAAGCAGGAATCAGCACCCCTGTCGTCACCTCCCATGGGGCAAGGGTGAAAGGACTCACTGCA
TTTAAAAGTCAGCACAGAAGAACCCGTTAACAGCACTTTGACCCTATCCCTTATATGAAACCATAATTACACACTGCCCAGCCAGACTGGAAAGTCCTGG
AAGGCACTGATGGTACCTTGGGCTTTCTACCCTAAGGAAGGCAGTAGGGATGGTGGAGACAGGACAGGCCTGAGTGGCAGAGATTGGAGACAGCAAGCTC
TGGAGTCGGGCTGTCTCGGTTCAGCTCTGGGGTTTGCCACTTACTAGCTGTGTCTCTGGGCCTCACTTTCCTTAAAGTAGCCCTGATCATACCTCACTGT
AAAAGGCTTGTTGTGAGGAGTAAACAAGACAGCACACACCGTGCGCTTGGCACTGAAGTCAGGTACTGCCACTTACAGCAGCGGGACCTTGGGCAAATTC
ATCTCCACGTGCCTTAGTGTCTCCATTTATCAACGGGGGACAGTAATCCCTTCATCACTGGCTGATGGTGAAAATGAGACCAACTTTGAAAAGCTTCTGA
CACCAAGCAGGTACCCAGGAACCTCTTGCCACAGTGGAGCATCCTTAGCATTTCACACCACTCAGCCAACTTCTGTCAACATTTACTTCCCCCTGGTAAC
TAGCATGGGAAATGCAATGAAAGCCCGATGAGCTSCCGCAGCAGAAATGAACTTGGAAGTGACCTCTCACTTATTCCTCTCTCACATGCCTGCATCATTC
AGCACTTGAGCCTCAAGAGCTTGCCTCTTTTTGTCTGAGAGTTAGAAATGGCCTGGTTTGGGTTGAAGGTTGTTTTTGTTTCATTTTGCTTTATAAACAG
AAACACTCCCTGGTTTCTCTTCTGAAAGGCTGAGGAGGAAGCTGAGTCAGGTGGGGTGGGGTGAACATGAAATCGCTCACCCTTCCCTTGCCGTGGGTCT
GGCTTACCCAATCACTGCACACTGACTTGCACATCAGCCGCATTCAGTGTCCCACTTTAGGCCCATTTCTCTAATGACTTGAAAAAACAACTGTGTTCTT
TTGGAATGCGGCAGGGCATAGTGGAAAGAGCAAGGGCTTTGGGAGTCTAGCCTGGCTTGGAATTCCAGCCCCACCACTTGGTAACTGAGACGAAGATCGG
GCAAGTCAGGAAATGGTGGAGCTAGGCTGTCACCCACCAAGTGGTGGTAGCGCCTGTGCTGTGGGATTACAGTAAGGCTTAGTGTTAATGGATGTAAAGC
CTGTGGAAAAGCACAATGGAATTGAAGTATCTCRATGACACCACCTTCTCTTCCCTTTCAGAATGATATCCCAGGACCTGGGTTCTACAATGTTATTCAC
CAGTCACCGGTGTCCAACAGTGTCTCATTGTCCAAGAAAGGAACTTGCAYGTTTCCCTCAATGGTGAGAACCACTTCTCTTGAGTAAAGCATKAACTGGT
CAGTAATTTCCTTCATTCATTGCATAATTATATATTGGACATCTGGTCCTTTCTCTCCAAAGGCCTATGGTTCTAATTAGGAGAGTAACTGCCTCCTCAA
ATTTCATGCAAGTAAATTGGACCCTGTGTCTCTAAGTAACTTTTTCCCATCTCTACCCACTGCCAGGGTGGGAAGAGAAGCCAGAGGAATCTTGAGAACT
TGATCCTTCCAAACCAATTTTGTTATCACTGAGTGCACTAAGCAAGTATTTTCCTGAGATGTTTAGGCATGCCAGGAAATAGTTACTCTTACACATCTTG
GTGTAATATGATTTTTACAATGCTTAATCTAATTGGTTGTCAAACTATTGAGAAATCTGATAGGACTAAAAAGAAAGCCGGCAGTGGGCCTGAAAAGTAC
TGGCCCCACCCCTTTCCTTCTCTTCGTAAGATATGGGACTTAATTTTTGTTGAGGGCTGTAACAATCAAGTAGCTATATGAATTGCCAATGACCCTGACC
AGAGTTGGGCAAAGATAGGCTTCTTAAAAATGTTTATACATTGTCAAGAAAAATAGATACAGCAAAATAGATAAATGGTCAAGAAAAACAGATACAGCAA
GGGGAAAGATACAAACTAGGGTAAGGCTACCTGAGGAAGAAAAGTGAAAAGTGGACAGGCACGGTGGCTCATGCCTATAATGCCAGCATTTCGGAAGGCC
AATGCGGGAAGATCACTTAAGCCCAGGAGTTCAAGACCAGCTCGGGCAACATAGTGAGACCCCATCTCTACAAAATAATTTAAAAATTAGCCAGGAGTGG
TGATGTGTGTCGATAGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAGGTTGAGGCTGCAGTGAACTATGATTTCACCATCAC
ACTCCAGCCTGGGTGACAGAGGCAGACTCTGTCCAAAAAAAAAAAAAGTGAAAAGAAAGCAAGCCCAGACTCTAACATTAAATTAACAAACATATGCCAT
CTTGTCCCTTTAAAAGTTATAATAATTTCTTGCACAGATGTATTATGATGCCTGACATTGGAATTGATTTTTTTTTTTAACCACACAAAGGGACCATTTA
AGACACACTAAATGTAGCTACATCTTATTGGAATTCGAATTTGGCAGAATYGGATACTCAAGGAACAGACCAGCTTTGGAGTTAACTCCCCATTACCGAA
GAAGCTGAGTTTGTACATGGCCTCAGTAGGTCCACAGAACAGCCATGCCTCTACCTATTTTTCTGCCACCAGCTCTGCTAGGAAAGAAGCTCAAAAGAAG
TGCCGTCTCATGAAGTCCTGGTGTAGAAGACAAGACTTCAGACCTGATCCTGCCTCAGCTGTGGATTCTTGACGTGACCTCAAGCACGTCACCCTTCTGT
GTCCCAGTTGCCTCATGAAAGTGGAGACTCCCTGGAGGCACTGGGCAAATTAAYGTTGCAATGAGTGAAATRCTCTTTGAAACAGCAAAGCATTATAAAC
ATGCTAAATATTATGATTGTTACCACCTGAGTCACAAACAATACTTCCTGCAACACCTAGGTTTTCTCTCCGAGAACTTCTTTGCTAAATAATGGCACTG
CCCATTCCTTCTTGRTGCCAACAAAGAGACTGAATCAGAGGACACGATTGGTTGTCTACAAGGCTTTGCGTGCGGTAACTTTCCAAATGAAAAGCCTGAC
TATCTGGAGGAGAAGGGGCCCAAGGCAAGAGCTGAGTGTTACAGAACCTAGCCACGCCTTTCAGGCCTTTAAAAAATTCAGAACCAAACCCTAAAGAAGG
CAGACTTTGAGCTGCTCAGGCTTCCCCCTCTCCTCCCTTTCACAAATATGGGAATTTGTATTTATAGTTATGTTACACTCAGGTATAAGCACTTAAGGTC
CTGTACCTGGGGATGGGTGCCTGAAGTGGTCGATGGCGATCTATTAGGAGATCTCTGCGTTTTACCTCATTCCCGTGTGAACTGGATGAGAATTTCATAT
CCCCCACCCCACCGCCTCTTTCAGTAACTTTCACCTTTAGCACCTCCTCCRCTTCTGCATCCCAAGACTTAGAGGGAATTAAAAGTAGCTCTCATCAGAG
AAAGATCAGAATGACCAGTAGGAATGTGATTATGGGTGAGGCTGACCAAAAAACTCTGTGGGTCTATAAATTTTAGAAACTTCCTCATGACTGTTGAAAC
AACTACACCCAACCTTTTGAGAGACCTGTCATCTCTCTAAGTCTGAATGATATAAAGAGCTTTATTAGTATATTCCAAATCTTTGCTCCAGAATCTTCCA
CAGGACTGACTAGGAGAAGTGTATGAGGCAGGTGGGTGGAGAGTTTGATGGCCTCTCTGTATTTGCATGCTGGCAGGAGTGGCTCTAGAAAAGTTAGTAG
GTGCTGGAGAGAAGTTCATAAATGCCGGCATTTGGCCAGATTGGAGGCCACAGGCCTGGCAAGTAAACCAASGGGTGTGTAGTGTTGGTGAGTGAGTGTT
ACTGTAGCCACATTCTGAGACTAATTCTATTACGATACTTTATAAAACATTGCCTCTACTGGGACTTTTTTGGGAAGAAGTTTTTTCATTTTCAAAATGT
AAGTTGTAGGTGTTCTAAACCAAAAAAGAGTCTATGATTGAATGGGCTTGCTGTTATCCCAGAGCCATGYCGCTCAACCCTTTCCYCTTTAGAATGGGCT
CTCTGATCCATGTCATGTAGTGGAGRCTGACTGCTTGGGTAGGAATGCTGGTCCTCCGCCTGAATTAGCTGGGGAAGTTCAGCTTCCTCATCTGTAAAGT
AGAGATAATCATAAGATCCACTGCTCAGGGTTGTCCTGAGGATTCAACACAAAAACCCACCAAAGGTATTGGTTAACTCTTGGCCAGAATGAAAAAGATG
AAGCACGTTCAAAGCTGGGGTGACCTTACTTCTAGGAGCATCAGCAAATCCTTACACACTGCATGTAGCCACTTCTTATTAGAATTCGAGTTTGGCAGAG
TTGGATACTCAAGGAACAGATCAGCGTTGGAGTTAACTTCCCATTACTGAAGAGGCTGRGGTTGAGCTGGGGCTTGAACCCAGGTTAGGCTCTGAACAAC
TTAGGCTCTGGACAAGAACACTCCCGCTTCTGGTGCTACACCCMCCCAAATGCTAGTGGGGGTCCATAAACCAGACGCTGAGGACCGTCACCACCAAGCA
CAGAGTGAAGTAGGGGGGCCCTAATGCCTTCCTTTTGGCTCACCCACTTTCTGTGTTTGTGTAGTTATTGATTCCTATCAAGTGAGAAAATCCAGGGCAA
TGTTCTCAAGCTTTTGACCATTAAATAGTGGGAAATTTTTTGTTTTATCAGACTCCAATACTTGCCATGCTATCTTAGGGGAAAGTGATGTTATCACTGA
GTTTCTGTGACTTTTGTCCCTGTTCTTTTGACAAACATTGATTCTGTTTGTTTTTTAACTGAAGATAATTTATCGTGGCTTCCTGAAAGGGTGGGATTGG
TTCTGTTAAACCGTGAAAATACTGTAGGATTTGATGAAAACAGTAATTTGGTGGAGGGTAGGAGGCACAGATGGACAACAAGCCCCCTGGAGCTTTGTTT
GAAGCAAACTCGTTGCTTAGGCAGTTCAGATCATTTAACCTTAGAAACAAGATGTGAGATTTTACTCAGAAGAAAAGCYTAGGCTGAGAAGAGCATCTAA
AGCTTCCTATCACATAAATTACCCAACAGCTGATGAGTCAAGGGTAAGTGGCCTGGAACAGGATTGGGTGGAAATGCATTTATGGCAAAATCATTTTTGC
CAAGTCCCAAACAGAAGATGAATAATTTGAGTTAGTTTACAGAAGCGAGTACAGGTCTGAACTTGCGTTTTCCAAGGGAAGATCCTCAAAGCCYGAGGTC
AGTTTATCATTGTTACCTGCCAGAGTTTCGCCTTTTATAAAATGCRTTTAGACCTTGTGCTGGTCACCATCTTTTTGACATCTGTCCTTCAGATCCACAA
TATTATGTGACAATGCTGATTCCTTTKGTTGTCTCCTTACAGTGCGCCCGATTGGACACCATCRTTTCTAAATACCCTGCAGCGAAYGCATACACTATCC
CATCGGATTTTATTTCCAAGAGAGACTTTAGTAATTCGTGTTCCAGCATGTTCCAGTTGCCAAGCTTTATGAAAGCTCTCAAGTTTGAAACTCCTGCACC
RAACTATTACAATGTAAGAACTCTGCCTATGCTTGCTAAATAYAGATCGAATTAATGGTTTACTAAAATAAAAGGAAGAGGGGATCTTGGGGACATCGTA
TTTTAATGCAGTTGTCAAGCCAGTTAGCATTTGTTGACTACCCAATGGGTGCCTAAGGCTGTACAAGACTCTTACAGGGAATTTGCAGACCCCAGAGATC
AGGATGGGCAACATGGAGGCCAGTATCAAGCTGTGGGGAGGCCACTGCCCTGAGAAACACATATTCTAATTACTCTTGTCCTGTAACCTTTCTGGGACGT
AGTTTTCTCATCTGTAACAATGGGTGTATTATTTACCACTTTGTCTGCAGCCACTAATGATTTACTTTTTAGGTTCTTCTAGGGAAAATAAACTTTCATA
TCAGAAAATAGGTGTTTTAACAGTCGTGCCCTGCTGTGCCAATTATGATCGCTTTGTATTCACTGACRCAGAATGGCATGGATGGTTAAGAGATGGACTC
AGGAAGGTTTGGTTTAGCTCTCATCTGTTGCCACTTTCTAACTGTGCGGCCTTCGGCAAGTCCCTTAACCTTTCCAGGGCTTAGTTTAYTGATCTGTAAA
ATGGTGATGTATGTTCACCTCATCGTGTTAATGCAAATATTAAATGAGATAATGTATGCTTCATGCCCAGGACAGCACCAGTCACACAAGGACCACACAA
TACATGGAGATTGGTAGGGCTGTCTTTGTTAGTACATGAAGGGTATTTACTTACCCTTAAATACAAGCAAGTAAGTAAGTCACAGCCCCCACTGTACAAT
GGAATCAATTCTACTTGCCCTACAGGGTTACCATAAGGCAACGAACGTGAAAGCACTCTGAAGTGCGCAAGATATGAATTGTACTTAAGACATTAATGTT
ATGCCATTTTCCAAACTATTTTGGTTTTATACATTTATTATACCATTTCCTTTTTTCCTTCATAATATTGATAATTAATAATTATTTTTCTGACTACAAA
AATCCTGCCCACCTTCTATGATGGATTCAAGSTTTTTTTTGAGACGGAGTCTTGCTCTGTTKCCCAGGCTGGAGAGCAGTGGTGCAATCTGCAGGCTCCA
CCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTTGCTGGGACTACAGGCACCCGCCACCACACCCGGCTAATTTTTTGTATTTTTAGTAGA
GATGGGGTTTCACTGGGTTAGCCAGGATGGTCTCAATCTCCTGATCTCGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGGGAGCCA
CCGTGCCCGGCCTCATTTAAGATTTTCTAGTAGCCACATCTAAAAAGAAAAAGGGACAGATGAAGTTAATTTGAGTAATATAGTTTACCCAACAGATCCA
AAATATTATCATTTCAACACTAATCAATATAAAAGTTATGAATTTTATATTTGAGGAAGACTATTTTCCTTGTAGTGAGTCTTTAAAATCCAGTATGTGT
TTTATTCTTCCAGCACATTTTAATTTGGGCCAGCCACGTTTCCAGGGCCAATAGCCACATGCAACCTGTGGCTACTATACTGGGCAGTCCAACTCCAGGC
AGTCTTCCCTCGGCATAATCAGAGCCTGAAAATGATGAGGAGGAGGAGGAGGAGGATGAAGCACTTCTCATGTACTAAGTGCTGGTCTAAGAGTTATGTA
TTAATCATATTTAATACTCACAAGTGAATCCATAAAGTGGATTATCTTGTTCCCAGTATAAAGAAGAGAAAGCTAAGGCTCAGAGAGGTGAAGGGACTTG
CACAGTTACCCAGCTTGAAGGCATCATTTGCACTTCAGTGGGCACCAGTGGATGGCTGGGGTGGAAAGCTGGGGAATGATCAAAGTCACCTCRTTCCAGC
CCTGACAGGCTTCCCTCTGTGGATCCTGTTGCTCCTCTGTGCCAGGCTGGTGATACAGCTTAGATTCCAGTGGGGAATTCAGAAAAGAACAGGTAAACAA
ACAAAATAATTACAAACTGTGGTCAACTTTGAGGGACAGCTGGAGCTTGAGGGAGAATATGTGGGAGATATGGAGGTTGGCAGTACCAAGTCAGCCTTCT
CTGACTTGGTGGTCAGAGAAGGCTCCGAGACTGAGACCCAAGGATTGAGGAAGAGCCAGGGTTGGAGAAAGAGCATGTGCCAAGGTCCTGGTATAGCAAG
GAGCCCAGCCCACGAGGACCTTCAGGAAGGTTGAGTGGCTAGTGTAGGATGAGCAAGAGGAGAAGGGAGAAGGGGGCACCAGACAGACACCGGCCAATTC
ACACAGGGCCCTGAAGATCCCAGGAGGAAGTTCACATTTTGTTCTCTGGGTCCTAGGAAGCCCATGAGTGGGGCTGGAGGTATGGGGTGGTGTGATCTGA
TGCTTTTTTTTTAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCCGCCTCCCCARTTCAAGTAATT
CTCCTGCCTCAGCTGGGATTACAGGCACATGCCACCATGCCCAACTAATTTTTGTATTTTTTTTTTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCA
GGCTTGTCTCAAACTCCTGACCTCGTAATCCATCCRCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACAGCTTCCAGCCAATCTGACATAT
TTTTTAAAAAGTTCCTTCCAGCTGCTGTGTGGTGAATGGACTGCAGTGTGGGTTGGAGAGTGGGTTCTGGAAAACCAGCGAGGAGATTATTATGCTAACA
GGAGAGATGGCAAGGTGTGATACAAGAAAGTGATCAGAAAGGGGCTTAGCCATTGCCCCTTTGTCAGTCCCAAGTGGGAACCAGGCTACTTGGGAGAAAA
ACACAGGCACCGACTGTCTGTGCGGATGCCCCTCTCTGCAGCCTCCCGGTTGTAGCTGAAGGATGCTGCCGTCAGTGTTTCATGCACCATTCTCCCCGAA
TCACTGTCTACTCCTTCACCCGGCTTCCTGTCTCCAATGCCCAGCACAGGTCCTGGGATGCAGTAAGCATCCAATCAATGTTTATGACATCAAAGGAATA
ACTTTCCAGTAGTATGCAGCTGTTAATCTAGAAAGKACCTCTTCCCAAGATAGAATTGTGTCCTTCTGCCAATAGATACATTTAGGCGCATGTTTTTTGT
TCATTATTGTCTTAATATGACCCTGAAAATAATACACGCTCATCATAAAATATATTCAAGCCCTGTAGAAACCCATTAATTAGAAAGTGGAAGTCCCTTA
TAATTCTACTTCCCAAGGGAAACCACTGCATCAAAAACCAGGTGCAGGCCAGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTG
GACAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAATATAGTGAAACCTCGCCTCTACTAAAAATACAAAAATAAGCCAGGCATGGTGGCACA
CACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAAGAGAATTGCTTGAACCTGGAAAGTGGAGGTTGCAGTGAGCCAAGATCACACTACTGCACTCCAG
CCTAGGTGGCAGAGTGAGACCCCATCTCAAAACAAAACAAAAACCAGATGCAATTTCTTTCATATTCTCTCCTACCTCTGTCCCTCCACCAGTATTAGCA
TTATTCTGTACACAGCACACATGCATTTTCTTCTTAGATTTCTTTCCATGGCAATACAATAAATCTGCTTCAGTCTTTTTTAACCTGCTGAATATTTTCC
TGGCCCCATGGGGAAATCTTCCAGCGACACACACTCAGCGTATACAAAAATGCTCCCTTTTTCAGTTGCTTTTCTGTCTGGGTGAAAAATAAAGCTGAAG
TGCTGTTTTGTCTACAGGTGGCTTTTTTTCAGGCCAGGAGAACAATGGTTGAGTCAACTGGTGAGGAGTAGAAATGCAGTAATCCTGTTAGCCACACTGT
GCTTTGAGGTCTGTCAAAGCCTTTCTCTGCCTTTGCTGCCACCATCCCTCACTTGTATATTCGAGTCCTCTTCCTTGGTAATGTGTTATTACCTTCTCTC
CGGCAACCTGGCTCCTCTCCCCAACTCTCCGTGTCCAGTAATTAACCTGTCCCATCTGGTCTCTTTGTTTGCCCTCTCTGCATGCCGTCTAGCCATTAGG
GCCCTGGGAAAAGCTAAATTCCTCCACCTTTGTAAACACAAAATCAAAATGCCATCTGCATTTCTCGAGAAACATTTTTTTTGACAAAGGAGTATCACAG
CAAATCAAACCATCCTGGCCCCAGCAAATAGTTTCACTCATTCAGCAAATATCCCCAGCAATCACAGGTTTAATTTGTATTGCCTCTGTTCTCCAATGAA
TACAGGAGACCGCAAATTGGCATTTAAAATATTTATGATTCACGTGTAACAGAAGAATGATCTCAGGGTTTTTTTCCTATTATTTTTAGAGTTCTGAACA
CATCGCGCACTCTCAAATGTATTTCGTGAGTTGGCCAGAATTCTTAATTTCTGGTCAGTTCAGGAAAGTTGAGACAAGGGAATGCTTGCAAATGTGATCA
CAATCTTAAATGATACGACTTTCTTGTGTGCCCCAAATGCTGCATTTATAGAAGGGCTGTTTGAACAGTGAGCAATGCACCTAGGAATGAGGATGGGGAT
GGGTAGGACTACGTGTCCTGAAAACAGTAAAAATAGTAGAAAACCAGGTGCAGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGCAG
ATCATTTGAGTCTAGGAGTTCAAGACCAGCCTAGGCAACATGGTGAAACCCCATCTCTACAAAAAACACAAAAAATTAGCCAGGTGTGGTGGCGTGTGCC
TGAAGTCCCTGCTATTCTGGAGACTGAGGTGGGATGATTGCTTAAGCCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATGGCATCACTGCACTCCAGCCTG
GGCAACACAGTGAGACTCAGTCTCCAAAAACAAACAAAAAAAAAGTAGCAACAATAATGAAGATAATTTGCGGGTGTAGCATTACACACTTAAAAAAAAA
CACTTTCCGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGKATCACGAGGTCAGGAGATCGAGGCCATCCTGGT
TAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCTGGGCGTGGTGGTAGGCACCTATAGTCCCAGCTACTCCGGAGGCTGAGGCAGGA
GAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGTGGAGATCTCGCCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCTGTCTCAGAAAAAAAA
AAAAAAAAMAAAAAAAAAAAACACTTTCCTAGCGGTGATCTCTGCTGGGCCACCCCCACTCCCTGACAGAACTCCACAGCAAGTGGAGCTGACTGTCCAA
TCCGTTTTACAGATGAGAAAACTGGGTTTCAGAGAGGTTACAGAACTGATGCGGGGCCACACAGCCTGTCCTTAGCAGAAGTGAGCCTGGAAGCCACCCT
GCAGCTAGCTGTGTGTTCTGTTCCTTGTTGAGTGACCAGCATTTTCCAGGGATCACAAACTCATAGACCACTTGAGCTGGGATGACAGGGAAGCCACAGC
CAGTGTGACGTTTACAGCTCACATCTGTTCATTTGCTAAGAAGGACAGGTTTCGGTTTGATTTTTTTTACGTAGATTTGCCACTTGTCCAGGCATGATGA
CGAAGACAAAGAAAGGAAAGGTACTGAGTACATTGGGTGTATTTTCTCCCCCTAGGCCTCTGTCTCTTGCTGCAAGCAGAGAAACAACGTCTGTACTCGA
GCCGGGTTTATGTCAAAAACCCAAAGAGGATCTTTCGCTTTTGCTGATAAAGGACCTCCCCCAGGTAAGCAGCTGCTTTGCACTGGCCTTGACCTAAGGG
TTAAGTGTCCCAGATTTGATTTGCAGGGCACCTACTTCTTCACAGGGAGTCTTTGGAAGGATTTAGTCTTTGGGTGGGGAGGAGTAGCAGGCAGGTACTG
AACAAAGAGGAGAGGTGAGAAGACAGCCAGCAATCCCCACCAGGAGGACAATGGCTGGCTCTGGAAATGGGCCTCCAAAGCAGCTTCCTGGCCTCCCCTT
TTATGATCTGGCATACCTGCTCTGGGCAGCCAAGTGGAGAAGTGGCTTCTCACCTCAGAAATGTGCACATTCGTATACCCCAGSTGCCATTAGGGGCCAC
TGGGGAGGGGCAGGAGATACAGGGCATGACCATACATCCTGTTCCTTCAACACTGAGCTGCCACGTTCATTTTCTCCTATGCTAGAGGTGACTTCATCAT
CCAGTCATAAAACAGAGGAGGCAGCTCTGTTTCCGGAGCACCCACTCCACGGTGAGTGGTTTCCATGCAGTCTTGCAGGTCTGCCGTCATAGGTTCATCC
ACTTAGCCCTACTTTTCAGATGAGGAAGTGGAGGCTCAGAGAGTTGAAATGACTTGCCCAGTGTCAYACAGCCAGTAAATGGCAGACACAAGCCCAGAGG
GGTCTCACTAACGAGCCCACGTYCTCCATCATTCCATTGTCCCTTCTGGAACCTCCAAGATTCAGGAATACACAAGAGCTTTCCTGCAAGTGTTTCCCCT
GCCGGCCTTGGGGAAGGGTGTTGCACCTCTCCTGTGCTCTCTGACCTCCAGTGCTGGAGCACTTATTATATTAGATTATCCCAAATAGGTCCCACAGACC
ACACCCCAACCCCAGAAGCCCTGGGCACCAGAGCTGCCCCAGGAACCTTGGGCCCCAGAAGCAGGAGGAGGAGCAGGGAAGGTTTGCTTCTGCAATCATG
CCTCTTGCAGAGGGGTGTGGATAAAATTGTAGTGCATGTGAGATTTCAGCAAATCCAGATTAAAGTTGAAAAGATCARTCTGAAGCTGAATAACAAAACC
AGCGCTAATTAGGAGGCTCAGCCCCAGTTCATGCTCTCCTGCCTTGCATCATCCATGGGCAAAACCCCACCTTGTCTATTTATACAGAAGAACAAAGCCA
GCATCCCTGGGGTTGGCCAGAGTCCCTGCCAGTGAGCCCTGGGATGTGGGCACCTCCACAGTCTGCCCCTGCTCCTGCTCCCTCCCGGGGTGGGGGGATC
CTGAGAAGCCCCCAGCCCCTTATAACACAGAACAGGAGGGGAAGTGTGGGTACTAGCATCTGTTAAGCTCCCCGTGGGTGCCAGGGGCCTTACATTCATT
ATCTCACTGAATGCTCCAAAGCCCCATGGAGCAGGTACTCACCACATAATCATGGGCTCAGAAAGTGTGAGCTCTTCTTCTTCTTTTATCCCCACTTCAC
AGGCAGAGGAGATAGAAAAGCAGGTGACAGGCCCAGTGTCCAACAGCTGGATTTTTTTGTTTTTGTTTTGTTTTGTTTTGTTTTTTTGGAGATGGAGTCT
TGCTCTGTTACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACCGCAACCTCCGCCCCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTA
GCTGGGATTACAGGCATGCGCCGCCACGCCCGGCTAACTTTTGTATTTTTAGTAAAAACAGGATTTCACCATGTGGGCCAGGCTGGTCTCAAACTCCTGA
CCTCAAGTGATCCGTCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCAACCACGCCCAGCCCCACAGCTGGATTTTAATCCAGGCTCATCT
AGTTCAATATCTGGTACCTTCAGCTCACCCTCCACCCCAGCTTCCTGGCGGCTGGCTCTCTCTGGTAGTGGCAGCATAAATGCCTTCTATTCCTTGCTTT
TGCTTTTCATTGTTTTCTGTATTTTGTAATTCAAGTGTTGCTATAACCTTTTTAGTAGAAATATATATACAAAACAGAGAATATGAGAGATAGTTATCCA
GTATTGTAAATGCTGCTGACATCTGCTTCTTTAAAAATTTAAGCATATACTGGGAACATTTTTTTTTTTTTTTTTGAGAGGGAGTCTCGCTCTGTTGCCC
AGGCTGGAGWGCAACGGTGCAATCTCRGCTCACTGCAACCTTCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAACAGCTGAGAATACAG
GTGCACACCACCACACCTGGCTAATTTTTTAAATATTTTTAGTAGAGATGGTGTCTCACCATATTGGTCAGGCTGGTCTCAAACTCCTGACCTCAAGTGT
TCTGCCCACCTTGCCTTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGTACCCGGCTGATACTGGGAACGTCTTTTCATGTTAGTAAAAATCCTTTC
GGAACATCATTTTAAATAAATATATAGTATATTCTTATATGATAGTACCATAAATTAAGGAGCCAGTATTGTCTTATTGAAAATTGTGATTATTTTGAAT
TGATTGCTAATATGAATAGAGTGGTGGAGAACATCCATTCACAGGGCTACTGACAACTTAGGGGTGAGATCGCTTCCTCTTCACCCCAGTTTTGGTCATT
CTCTTCTTCCTTAAAGCTTTGTACACAAATTCATTTTATTCTGTCACAGTTTCTTGAGACAGGGCATTGTGGTGTGGTGGGGAAGTGTGGGCTTTGGAGA
CAAGCAGACCAGTCTCTACATAGTGGTGCTCAACACATACATGTTAGCTGGGCATGATGGCTCACACCTGTAGTCCTAGCACTTTGGGAGGCTGAGGTGG
GGGGATTGCTTGAGCTCACAAGTTCAACACCAGCCTGGGTAAAATAATGAGGCCTCATTTCTACAAAAAAAAAAAAGCTGGGCACAGTGGCTCACGCCTA
TAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATA
CAAAAAATTAGCCAGGCGTGGTGGTGGGCATCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCAGAGCTTGCAGT
GAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAATTTTTTTTTTAATTTGCAGGGTGTGGTGGTACAT
ACCTGTAGTCTCAGCTACTCGGGAGACTGAGATGGGAGGATCACTGAGCCCAGCAGGTCAAGGYTACAGTGAGCTGTGATTGTGATTGTGCCACTGCATT
CCAGCCTGGACAAGAGAGCAAGACCCTATCTCAAAAAAAAAAAAAAAAAGATAGTTGTTGATTGCATGATATTTACAAAGCATCCACTATGTGCTAGGAA
CTTAAAATATTATTCAACTGTCATAACAACTCTGTTGTCAGAAGAATTATTATTCTTAGTTTATAGAGAAGGAAAACTGGGCTCCAGCAAGGTGGAGAGA
TTTGTCTAAGTCCCTGGTTAGATGAATGTCCTTTGGCAAATTATTTAACAATCTCTGAGTCTCAGTTTCCCATGTGTAGAATGAAAGCAGTAATACTCAT
CTTGCCAGGCTAGTGCGAGAACTAAATCAGCTAAGTGTGTGCTTCCCGTGCCATCTGTTCTCTGCATGGTGAGGATTGTTTTTGGCTATCTCAGTCAGCC
CTTCCACTTGGCCATCCTAGAGTGATGGTGCCTTGCAGCCATCAGGTGTGTTCTTAGGGGTAAGGTACTGCTTTTTATTTACTTGAGAAGAGTTCCTTAT
TCTGTCCTAAAATTTCTTTCTCCTTAGGGCATTATGATATCAACGAATCCCTTGTGAAGCAGTCGCCAAATACATTAATGTCTTGTTTTAAATCAAAAAC
CAACCGTGGATTAAAACTGACGTCAACAGGCCCGGGACCTGGTTATTACAACCCCAGTGATTGCACAAAAGTTCCAAAAAAGACTCTTTTCCCGTGAGTC
CCAATCATTCTGGTCTTTCTTTTGAAAGGTGGTTGTGGGGAAGAAGCCCAACATAGAGAAAAGGATGGGGTGTCACTGCTTGGCAGAGCACAGTGCCGGG
CCACTCTCTTCAGGGGCCCTTAGTCACACATAATGATGCTCAGTAAATGCCTGTTGAATGCCTGATACTTATTGAGCAACCACTGTGTGCCAGGAACTTA
AAATTGTATTCAATTATTATTATAATCCTGTTGTAAGAATTGTTACTCTTACCCCATAGAGGAGGAAGCAAGGCTTCGGATTTGGCGGGACATTTGCCCA
AGTCCACACAGCCAACTTGAGGAGCCACAGGGAATTGGCTCAGGACTAAGTCTTTCCTCATTCCCTGTGATGCTGGATTCCCCTGGTGCTGACATTGTTC
TATTTTTSTAACATAAAATCTTCGCTGGAGTGGCAGGACATTCAGAAGCAGTCAAGCTCTCATAGCTTTATACCGATGGAAGTTTAAGCCCTGACTTTCG
AGTTGGTGATACCTGCTGGATTTGTACTTCAGCTCTGCTGTTTTTATGCTCTGTGACCTTGGGCAGAGTTCTAACCTCTCTGAGCCTCCATGCCCTCATC
TGTAAGGTGGGAATAATTCCTGCCTCGTAGGATTTTGCTTTCAGAATTAAAAATACATGTTTGGCTGGGCGCAGCAGCTTGCGCCTGTAATCCCAGCACT
TTGGGAGGCCGAGGTGGGCGAATCACTTGAGATCAGGTGTTCGAGACCAGTCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTATC
CAGGCATGATGGTGCACGCCTGTAATCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGGACCTGTGAGGCCCAGATTGTGGTGAGCCGAGATTG
CGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAACAAAAAAAGTAAATAAAATATATGTTTGGCATTGGCATTGCAGCTGGTGA
CTCAAWATTAACACAGATTTTTAAAAGTAAATACAGGGATTTKTGTTACCCTGTTTAATATCCTACACATTTTATATTACTCTCACCTAAGAGGCTCAAA
TACTCACAGAGCTTATTTATTTCTCGAATGGTTCTAGAACTTCTGGAACTAACTGCAGTTAGGGTTAGTCCTCCTGTTACCATCTCAGCTCTCACCCATG
CGTAGCCCCTCCAGACAGAGCTGGCCACTGGGAGGGCTGGCCAGGTGGGACCAACAATATATCCTCTTGGGCCCCTCCAGAGAGATCAGGCAGGTGTTAG
GAGCCATAGCCACAGTGGGTCAGAAGTCCAGGCAACCCAGGGAGGCTGCCAACATTGGGCATAGTCTGATCATCAGCCTAGGGCAAGGGGACCACAGTTA
GAGAGAGGTGCAAGTTGTGAATCTGCCAAGTCGAACTTAAGATCTGGAGAGGGGATTGAGACCTCAGCTGGAATCCACCAGAGGAGTCCCTTCTGCCCTC
CAGGTCTAGGGCTCTGCAGGCTGGCCTTGTACAGGCTGTAGGGCTAGGGGCTGGGGCAGGCCAGTCTCCAGGAACAGCTCTGTCTCTGGAAAGTCTCTCT
CCAGAGACCTCCCGCCTCCAGGCTGGCATGCGGCATCTCTACAAGTAACTATTCCCTTACTCTGCCAGAGAAAGAGTGGTCAAGAGGACAGGTGTTGGAG
TTGGCCGACCAGAGTATGAATCCCAGCTCTGTACCTTCCAGAGACTTCTCCTCTCTGAGCCTCAGTTTTATGTTATTAAGTAGAGATAAGGATCTTATCT
CGTAGGGATTCCATGAAGATTCGATGAGAAGATGTTGGAAAATAGCTATTACCGGTTGGGCATGGTGACTCACGCCTGTAATCCCAGCATTTTGGGAGCC
CAAGGCAGATGGATCACTTGAGGCTAGGAGTTTGAGACCAGTCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAATACAAAGCTGGGCGTGGTGGAG
GGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCGGGGAGGTGGAGGWTGCAGTGAGCCGAGATCATGCCACTGCACTCC
AGCCTGGGTGACAGAGCAAGACTTGGTCTCAAAAAGAAAGAAAATAGCTATTACCCTTATAATGATAGCTGTGGTTATTGTATATCCTATAGACCTACTA
GGCTATATTATACAATACAGCTGTTMTTTGGCATGGCAGCTMAAGCCCCCAGCCCAAATTTGGAAGCTTCTTCAAGGAAAATGGTGAAATAACATAAGAG
TGGAGGATGCTCAATTTTTAACTGCTTTATCTGGAGAAATATCTTCTGGCTTTTGCTCAAGTTTGAACAGGTGGTTTGAGATCGTTCTTATTTTATGGCG
TTTGCATTTGTCAGTCAGCAGACTCTATAGATTTCTAGTTCTGTACTGGAGGCTCAGGTGAACAGGACACCACGCCTCCAGCCAACCTCATCTGGGAACA
GCCTCGAAGCCAGGTGGAGGAGCCTGCAGCAAAATGCCGGGTTAGGTGGCCCCAGGGGTGTATGGCCATGTACAACCCATGGGGCCGTCTTCCCACTGGG
CAGTGCAGCGGGACTGCGTGTCTGGGGCTTCTAGGGCTCGCTGGCTCTCTGTCAATGCTTCACAAATAAAAGGTCTTTGGTTAATAAGTCTGAGAAGCAC
TGCATCGTAACCCTCTGCCCCTGAGAACATCGCAGTCTGCACAGGCATCTTAAAGGCTCTGAGAAGGCCTGCAGTAAAGGAACCTATTAACCCGCTGTCT
CCTAAACTTGGGTTCACCCTGATGAGGGGATGGTGCCCCAGGCTCTATAGCACGACATTTGTATAGCTGGCTCTGTGGTCTGGGGCTGCTCTGGGCACCT
CTCTGGGTCTTCATTTCTCTATAAGCGAAAGAAGGGTGTCTGCATTTCTGACACATCAGAATCCCAGGTTTGCTCACCATGGACTCAGGAGAGCACACAG
GGGACAACGAACGTGGAGCCAGCCTGGACCCACAGAGGAGGTCCAGATTATGTATTTTAAAATTAACGTGGGAAAGATGAAGCTAAGAAATTTATCATTT
TATTTGGAAAGCAAGAAGATAAGACTGGTAGGCTTTGGACTATTCTAAAAAAAACATTTATCTGTTCCCGATGAATGATGAAGAAAATGATGTAATGAAA
AGAAAAGACAGCTGAATATCAGAGTGTTGAGGAAATATCCAAAATCCAGTTTCTCAAATTCCAGTTCTGTTTTCTCCTGTGTCCCTGGAGGGAAGAGAGG
GRCAGGAGCTACACGGGTTCCTGAGGTCAGTAGACCCCTGAGGTGACCCCATCTGCATGCACCTTCCCTTAGGACTTTGTCCACATCAGAACTAATCCTC
TTTAGCTCTCCACGGCTACGTGGAGCGGCGGTGACTTGCCGCCATGTTTCTTTCTCGGGAACACACGCGTGCCATGCAGGGGGAGACCTGCCCTCATCTG
TCTTGGGTTGGAGTTGATGGGCTTCCCATTCTTGGGCAGAGTTACAGCTACAGAAATGCTTTTCTGGATCTGCTTTCTTCAGGGTGCAGGAAGCATCAGT
GCAGATATGAATTCTCCCTGGAGTTTTTAGTCTCATGTTACTGGCCAAAAAATGTAAAGCCCAGCCGTGAGAGGATGGCTGGATATGACCAAAGCTCAGG
AGGCCACCATTAGGGCAGGGAAYGGCTGATCACGTCCCCTGAAGAGGCCATGGAGGCAGCGTGGGCAGTGGATTGATTAGCGTAGGCCCCAAAGTCAGTA
CCATGGAACCTCCACTTTCCCTGCTCACCAGCCCTGTGGGCCTGGGGGAAGGGAGGTCACTTAACTCCCAGTGRGTTCAAAGTCATCCTTGGTGAACCAG
GATAAGAACACCTCATAATGTGGTTGTAAGGATAAAAGGAGATAACCCACAAAATTCACATGGTAACTTGTATTTTTATCAAAGCAGGTGAGCGGGTCCT
CTGTGTCTTCCTAGGGTTTCTAGTGTGGCCCCGCAGGGCGGATGCTGTGCTTGGGGCTGGCTGTTTGTTAGCACTGGCATTTCTGAGCTCCTTAGCTAAA
GGTCATGCCATCGGGTGTTCCTTGGCCATGGCCACCTTGCTGACTCAAAGCTAAGAGGACTTCTCAGCTTCCAGGGTGTCTTCAGAAGCAAAGTGAAGTA
TCAGCCAAGGTTTCGCTTCTGAGGTCTTCAATATCCGTCACAGTGATGACTCAATCACTTAGGGTGAGTCAGGGTGAGAGTTTTGGAGATCAAAATAGTT
CCTCCTAGGCAATGCCTTCCAACTCATGCTCCCCAGCAAGGAGGTGCAACACTCAGGGCCATTTTTCTAACCCTTGATCTGCTTCCTGGAGTTTTAAGCC
ACTGGATTTGCACAGACACGCTGTCTTGTCACAGCTAGAGCTGAAAAATCAAGCCCCGTTGGCCCCACTCCAATTTTGGTAATTAGATTGGACCCACCCT
AACTTCCCCTGGGATTTTCAATTAGATATGGGATGCTTCTTCCCAAGCAGCTGTAATCTGTCACCCGCTACCCTGTTAAACAGATACTGCATTCCACCCC
AGAGGCAATCGGCTGCCCTTTAATGATGAGAAAAATTGCCCCTTTATCCCTCCCAACCCTGGGAATCCCTGAGGCGAGTGAATGTGTGCCTGGGAGTGTC
TGGAGGGTCTCAGATGCTTTCCCCAAGTGGCCTGCTGAGTCCTCTAAGACATTCATTATTCTTAGGTGATTTGCAAACAGCTCACATTGGAAGCTGCAAA
CACACTTAATCCAGTTGTGGCCAACTCAGAGCCTTTGATAGATGTTTTCTTTCCACGGGGCAGGGCCRGGTTGGCTTTTATAACTGAGCAATGAGGCTCA
TAAAAGCCCTGGTCACAATGCACTGTGGGCTGCCCTGGGTTTGATCCAGCCTGACCTTTGTGATTTGTCAGCCCCACCTCGACATGGAGGGACCAGCCCT
GGATGAGGATGAAACTGTCATGTGGGCCTCAGATGCCTGGGCTCCTTTACATGCTGCCAGCCCTCTGCTTTTCTCTGCACTTCAGCAAATGTTCCCGGGA
TAGGGCTAGGGGCCTCAAAGCTGAGGAAGACACAATACCTTCCCTTAAAGAGCTAGGCAAGTAAAAGCCATAGAAAATGCAACATTTTAAATGCAAAGTA
ATAGCCAGAATGTATTCAGGGGCCACATACTCTGAGCTGAGAGCTCTCAGATGTGACCTGCCGTCGTCCTTCCACCTCTCCTCCAGGTGGGTGTGTCATT
CCGAGTTTACAGTGAAGTGCAGGCTGTTGACGGTGGTGGGGCTGGGATTTGAATCCAGGTCCCTCTGCCTCCAAAATCCATCTCCAAAACCCWTGTTCCT
CACTTGAGTCACAGGATGGGAACATTCAAGACAGTCAGGTGGGGGGTGGCGAGACAGGCGTGGGTGGAGGAGAGAAGTTTCCCTGGAAGAAAGTGAGAAC
GTCAAGAATTGAATTCGAGTTTGCAGGGAAAGTTGGTGTTTCTCACAGAAGGAACAGCAGGGACAAAGGCATGGAGTTGCTGAACTGTGTTGTGTTGGGT
GTTTCTGGAAGGTAAAACGGAAGCAGCAGGACATGGGAGATTAGGCTGGATTGAGAGGCCATAAATAGATCTTGCCTTTAAGTTTTCATCAGGGTTTGTA
AGTGGGGAGTATCAGAAGCAAGTGAACAACCCAGGAAATCACYGGTGAATGGAGGGTTGAAGGCAGTCTAGGTGCTCAGCGTCTGTCTCCTTGTGTCCCA
ATTCCTGCCATAACAGCTACAGCTTTCCCCATTCCATGCTTTTGCTCCTGCTGTTCCCTCTGCTGGAAATGCTCTTCCCCACCTGAAGATTTTCTGGATT
TCTGGATGGATTTCTGGATTCATCTTGTTGGAATTAATGTCCCTCTGTCTCTGTCTCTTTCTCTCTGCTTTCAATGCAGTTTTTTATTTTAACCTCTATT
CGAACAGATTTCATGTTTTTAAACAAATGTTACAAGTAAAGCACAATCTTCCTAACAATCTGGGTAGTAGGTATTAYTTCCACTGTTTTACAGATGAGGA
AATTGAGGCTTAAGGAGGTTAAGAGCCTTTTCTAAGAACACATAGCTGTTGAACGGGGAAGTGGGGATTCAAACCCAGCTCTGTCTGAGTGCAAAGCCTG
TACTGCCTGAAGTTGTCACCAGTCATGGCTGTTGCTGGCAGCGGATTGTCAAGCCCTTAAGGACACTCAAGTCCGTGTCTTAGTACAGAACTGCCTGGAT
TCCCAAGCATGCCTGGCCCAGAATCCCACACATGGCTGGTGCTCATGAAAGATCCATAGTGCTAGGCTGAAGGTTCTGAGCCTCTCCTGGGCATACTGAA
GGAGTGGAAGACAAGAAACCTCTCTAACCCATCTTGCCAAGAACACTGGTGAGTCATTAACTCAGCGTGCTCCAGCCTTCTGCAGGCTGTCCTTGGCTAA
GAAAGCAGACACCTCATGGTTTTCTCAAAGAACAGGGTGGGAATCTTGGGCTTGGAGTGACCCAGACCAGTGATGGGGTGACCTCATATAATGGTTGATT
TGTTCCAGCTGTAATTTCCAGGAATCAAACCTGTCTCTCCATGATGCCAGCCACAAACTCATCAAATGTCTGGAGGTGTTTTGAAGGGGGAGCCACAAGC
CAGAACAAGGAGAAGCCAGCTTTTATTTATAAGGGGAGAGGTTGTTGATTACACCCTGTAACCAGTTCTTCCATGCAGATTCATAGCAAACAGGGAGGCA
GCATGTCCCCCCTTTCCCTGTGGGTACCTTTGTTCTAAATATAAGCATCCACGCCAGCTGCTCCTCCACCACAAGATGTGAGCCCAAGCACATTTATGAT
GGCTTTCAGTGTCCTCTCTGACCAGGGGGGTGTCCCCTGCCTCAGCATGACTCTGGGGTGGAAGGGCCCTGTCAGTCTTTTACGAGGCTCAGTTGCCTGT
CTGTCACCAAGCAGCACACATTGATGCTGACACAGGGATCATCAGAAGAATAACAACTACCTTTATTGAGCACCTACTATGTGCTGGTGCTCTACTAGGT
GCTTTACATACCTTTTCTCTGTTCATTGTAACTCCTTTATAAAGTTAGTGTCATTGTTCCTTGCAATGCTGTGTATACTGACGCTAAGCTATAGAGAAAT
CAGGGGCCTTGTCTTACAGCCAGTAAGTGGCATGACTAGAATTCAGCCTCAGGTTTGTGTGTGACCCTTAAACTCAGTCCCCTCCGCCATCATGCTTTCT
CCATATTGCTAGGTGCCAAACACTTGAGTTCTATGCCAGCATTCCTACAAAGGTGCCTATAACTGGATCGGTTACTTTGTCTCTCCGGACACCAACATTT
TTAGAAAACTAAGGAGGTTGAAGAAGACATCACTTGGGTCCCCTCAAGCTCTCTGTGTTTAAGAAGTTGTTGGCTAAAGTGCAGTAGTGCCCCAGTGGCC
AGGAATCCCAAGTCCCCTCCTTTGCTTGGATGGGCTGGCTCCCTTGGTCATTGAGTGCTGGGGGAAGCTGGGGAAGGCTCCCTTGGCCATTCAGTGCGGA
GAACCTCCTCTCCCCTTTTGGTGAGAAGCCTTTTAGAAGAAGCCTTGGGTGTGAGCCAGAAGGAGGCGGCCCTTCTATTACATGGTTGGGAGAGTAGCAT
GATTCCTGTAACAAGCGCAGAAGTCTCTGACAACCCAGTGGAACTTTGAATCAAGGCCTGATGAAAGGTCACAGCAGGAAGGGACCTCAGAGGTCATCTT
GTCCAACCCCTTCCTTTTACAGATGGGGAAACTGAGGCCCAGAATGAGTTAGTGACCAAGCTAGGACTCAAGTACAGGTCCGGTCTTTCATTTCATGTCT
CAATATCAGAGATAAAAGATAGACTCCCTTTCTGGAAGGAGGGGAAGACAGACTTGAAAACAATGGCGGTGTGAGTGGTAAAGGGTTATGCAGAGTCTCT
TGATTTCCAGCCCGGTGCTTTTCCACTCCTGCCTCCTGCCTCCCCAGGAYGATATTTAGTAGGATTCTGGAATGTCAATGTTACAGTGGCCTCTAAAGAC
CTGCTGGTCTTGGGATGGCAAATCTGTGGAATGTGGGATGCTTCTTTCTCTTCCCTGACCATGGCAGGCATCACAAGTGGGTCACTAAGGCCTCTTCCCA
TTGAGTCCATATGAGGCCTCAGTTTTTTTCACAGAACTCCAGCCAGGCACTACCAATCAATCAGAGTTGGCACATGAGATATACACGGCCTGCCATTTCT
GGTTAGCTCCACATCTCCAGCAATGCACACTGAGCTCTCACTGTGTGCCAGGCCTATCCTGAGTACTGTGTTTTAGGTRCGTCATCTCATTTATCCTGAC
AACCCTGACCTCAAAGTAGGTCCCATCATGATTGCCATGTGCAGATGAAGAAACAGATCCAGGGGTCCCCAGCTCACTACCAGTGGAGCTAGGGCTCTGC
CCCRGTGCCGTGACCAGTCCTCTTCCAGACAGCTTGCTGCTGTGCAGGTCTTGGCTGTGTCTAGAAACTGTGCCTTCCCCACTAGACTGCCTTAGTGACA
TCTTCCCRTTTTATCTTTCCCAAAGGAAAAACCCCATCCTGAACTTCTCTGCTCAGCCTTCGCCTCTGCCTCCGAAGCCACCTTTCCCAGGTCCTGGTCA
GTATGAGATCGTGGACTACTTAGGCCCCCGCAAGCATTTCATCTCTAGTGCATCATTCGTGTCCAATACCAGCCGGTGGACAGCGGCGCCGCCTCAGYCA
GGCCTGCCTGGCCCAGGTCAGAGGATTGTTTTAAATRATTGTAAAAACCAAATCTTCTGGAACTGTTTGTCATTCTTGGGTCATCAAATGCCATTGATTT
ATAGGTTGTTTCCCAAATAGGTTACAGGGATGAGGGTAGATTTGGAAGCATTATCAGTTCACATTTTCACAGTACAAAAATGTTTTGTTTTTTAAGGTGA
AAGGGCTCTTAGAGATGGTCCAGGCCAGGGATTCATACTGAGGACCATGAACATCTAAAAGATTCAAAGATAGTCTTGAAGGGGTCTGTGACTCTGCACT
TGGCTGAAGAATTGGCACATATAGACATTATTTTCTGGGAAAGGAGGCCATAGCTTTTGTCAGAGTGTCAGAAAAGTTCTTTTTCTTTATTATTATTAAT
TTTTTTTACTTTTATTTTTTTGAGACGGAGTCTCGCTGTATCGCCCAGGCTGGAGTGCAGTAGTGCGGTCTTGGCTCACAACTTCCGCCTCCCAGGTTCA
GGCAATTCTCATGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGTACATGCCACCACACCCAGCTACTTTTTGTATTTTTAGCAGAGACAGACAGGGGTT
CGCTATGTTGGCTAGGCTGGTCTCGAACTCCTGACCTCAACTGGTCTGCCCGTCTTGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCC
AGCCAGAAAAGTTCTTTTTCTTAAAAATATTTAAACTACTGGTCTAGTGTGGCCAGGTTATTTTACAGCTGAGGAAGCCCTGGAGAGCAGGTGGGCCACA
GGTCCGCAGCGAGTTCGTGGCGGGCAGTGCCAGGTGTTTCCCCATTTATGCCTTGTTTGTTCATGAAATTAACCAGGGACTGTCCAACGGAGCAGCTCTT
TTGAACCTTCTAGCGCCACACTCTTTTTACAGGCAAGCATAAGTAGGGATCCCCTGTTACATCTGGGATCTACCTGGGAGCTAATATCATGAGGGACTCA
GTCCAGTGGGCGGCCTCTGTGCTTCCTGACCTATTTGTAGCTCTCTATAGAGCGCTTTCGCTATTACCACAGCCTGACCATGGCCAAAGCTGGTGGCACT
GGGGACTGACATGTGTGGCAGGTGGCATGGGAGGATGAAGGCAGAGCTGTGATGACTGCCAGCTTGGTTACACCCAGCCTTTCTGTGAGTGTTGACGATG
CTCCCGTGCGAGGGAGCCAAGATGACCTGGGCCCCAGGTTTGCCCCCAGAGGCCACAGTCAGGTGGGGAGATGCCGTCAGCTCCATACTCACAGGTGAGA
CTAACATAAGGCAGACTGGGCCAGGAGAAGGTCATTCTCCTAGCTTTGGCCTTGCAAATGTGGTGATAATCACACCAGCAAGGCTGTAGAGGTTTGATCT
GGGGCTCATCTAGTCAGTCGAGGAGAACTCAGCATTGCAAACATGCAAATGCTCCATACAAGGGGTGAGCTCCAGAGAGGGTAGGGCATAGGCAGGGATC
CTGCTTTGACCCTGCTCTACCACATCCTCTGGAAGCATTGCCCGAATGACTTTTCCATGCCGTATGTGGTGCTAGGCACCTGGCACACAGAGACAGGCAG
CTCCTGCCGCTCTGATCACCCRTGCCAAGGTGGGCTTCTGCGAGGGGTTTCCTGGGCACGTGCACGTGCCGGCATCTGCCTGCTCAGCTTCCAGTAAACT
CAGGTATACCTGGACTACCATGGGCTCCCCTGAGCGGCTTTCCAAGTATAGGAACAGAGAGGCTGTGCACGGGACCCTCATTAACCAAGTCAGTATCAAC
ATGAGTTTCTGGTCACCTGGGGCTACAGTTCCCAAGCCCTGCTCATCTCCTAKAGAACCATGTCCGCAATTGTCATGGCTTCTGCTTTTATGGAAACCCC
TGAACTAGATCAAAACAAGACCCCATGAAGCTAACACCTTGCTTCTTTAAGAATATTGCTTTACTCAATTTCTTTTCGAATTTCATAGAAAATAGTTTTG
TAAATTTTGTTCTGTTAAAGAAGTTGAAAAGAATTAAAGAAGGCAGGAAGTCAGAGTTTGACTTCCCCTGGGCCAGTTAAGAGCCAAATAACCTCGGGCC
AGTTCCTTCCTCTCTGTCTCCCCACGTGTAAGATACAGGGGCTGGCACAGGGGTCCCCAGGCCTTTCCAGCTCTGAGGTAGAATGCCAGAGACTGCAGCA
ATGGGCCTTTTCTCTCTTAATGCCTCCGCCTCTCTGTCCCCTCACAGCTACGTACAAGCCAGAGCTTCCAGGAAAGCAGTCCTTCCTCTACAACGAGGAC
AAGAAATGGATCCCGGTTCTGTAGGGATGTCACACAAGGTCAAGGAGAACTCCAGCCACCAGCCCACCCTGCCCAGCGTCCCCAGGACATTCCTCAGGAG
GAGACCGATCATGAGTGTGGCAGCTGACAACTTGGGGGGTGGCTCTACCACTCTGGCCTGGYATCCTAGCCGGACTGCTGCCATTGCCTTTGTCTTGAGC
TGGAGACATTGCTCCCTGGAGACTTCACCCCAGCCCCACAGACTCCAGTGGCTTCCTGAGCAGAAGGGAGGAGTGGACAGAGCCCCCTGGCTGCTTCCCC
ACGCACCCATCCAGGCTGCCTTCCGGCAYGACTCCCTGCCGCAGACTGAAGGGACTCCTGAAGCGCAGACTTCAAGGAGGATCAGTCCACCCTGAAGGTG
GCCAAGCCTGGAAGCCCCACCCTTCCCTGTTTCATTCCTTCATTCATTTACACATTCATTCATTCCCTCACTCCTGCCTTTCTCATTTGTCCCTTTCTGA
CCTCACTCACTTACGGTATGTCTACTGGGCGAAAGCTACCTGCAGGCAGGTGATGCTTTTTCCACCAGTCCACAGCTTCCTTTCTAAAGTGACCACCTGT
TTGGAAAGACCTCTCTTTACTCCTTTTAGACCTTTTTCTCTTTGGAGTGGGAGATCATCTTGGAATGGCAGTGGCCGGGCCCGGGGGCTGCGCTTTTCCC
TGACTTTCTCTGCTGGCGGGACTGAATTTTCTCAAGGCTTACAGGCCCTTCCATGGAGTCCACATGGCCTGTCTAGGCCTGATAGCTTTCGTCTCTCTAT
GTGGAGGGAAAAAGAAATGTGCCCTAGTGGTTTTGGTGGAGGCTGCACAGATTCGCGGTGGGTGGGGAGCTGCCAGGCTCCTTTTCTGATCTCCCAGCAG
GCTTTGACTGACGCTGTTTAGTCTTTCTGTACATTAACCCYGCCAGATACCGAGAGGTTACAAAGCCTCCAAGGCCTGTACAACTGTGGCCTCTCCAGAG
AAGTGGTTCTCAGCCTTGACTGCACACTGTAATCACCTGGGGACTTTAAAAAGTACTGAGGCCTGGGGCCCACCCACAAATGCTGATTTAACTCCTCCAG
GGTGGGGTCTGGGCAGTGGGGAGGCAGGAGCCACCCAGGTGATTCCAATGATAGGTGTAGGTTGAGAAGCGCCACCTTCCAGCTTCCTAACTGGCTCTGG
GAGGGGAGCTGGGTGGGAAGTTCAGGAGGTGGGAACTTTGTACACGCAGAGCACCTGGAGCACCTACAGCATGGCTGTGGTTCCACACTCCTCTGTCATT
TAACCTTCACACATCACCTCGTTCTGACATCAAGGGTGCGTCACAGCCACAGTGAGGCCTCGCCTGGGCAGAGCAACTYTGGGTGCCCCACTGGGTCCCT
CCCACAGGGGCAGGCAAGCCTAATGGGAACCCGAGGCAAAAGGAAACATCAGTAATACGAATCCTGTCTTTAAAACTGTGATGTTTTGTTCACCATGGAT
TTTTTTTTGGGGGGGGGGCCTTAATTTTAAAAATATTGCATTAAACTTATTTATCTTGCTTATTGAGCTTTTGGGTACCCCTTAATTTTTGTGCCTTAGG
CTAGAGACTCACCTGCCCATAGCCTTGACTCTAGGTAGGGGCTTGGGAATTAGGACCACAGACTGTCAGCGCTGGGAGGTTCTTAGAGGGATCATGGTTT
TCACACCTTTTTAAAAAAAGTTTTACTCAGACAGATGTTTACGAGAAACCCAAATATTTAAGTGGAGAGAAGCAGAGCTGCAGTGATGGAGTTAGGGAGG
GTACGCAGGGACTGCTGCAGCCCCTTCCTCGCATTGTAGTGGCCTTGGAGACCCACCAGTGAGCCCTGAGGCTCTGAAGATGATAATTACAAACAACCAA
CAGAGATCATGACCTGCATTTTATAGCCAAAGAAACTGAGGGCTACAGGTAGCAGTGGCTGGTAAGTCTGCTCTCCCAAAGGAAGAAAGACCCACTTCAA
CTTGGCAGCTTAAAAAAGATAAATGTGGCCGGACACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCATGATGTCAGGA
GATCGAGACCATCCTGGCTAACACGGTGAAACCCCATCTTTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGTGGGCACGTGTAATCCCAGCTACTC
AGGAGGCTGAGGCAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGCGAGTCGAGATCGTGCCACTCCACTCCAGCCTGGGCGACAGAGCCAGACTCCG
TCTCAAAAAAACAAAAAAAAAGATAAATGAGGCAATGGAGGAACTGATCTAAAAGAGACAAAAACTGGCCAGGTGCAGTGGCTCACGCCTGTAATCCCAG
CACTTTGGGAGGCTGAGGCGAGTGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTA
GCCAAGCGTGGTGTCAGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGAT
CATGCCACTGCACTCCAGCCTGGGTGACAAAGCGAGGCTCCATCGCAAGAAAAAAAAAAAAAAAAAGATAAATGAAAAGAAAGCAAGCCTGAATCTGTGA
TTTGTTCTCTAAGGAAAATAAAGGCCTTGATTTGTAGCATTTGTCAATTTCTGACTGTCACCATGGCTGATTTCAATGTGCCAACATGACCACACTCCTT
CAGAGTTGGGAAGAGATACCTGCAATTGCTTCTGTGAGCTGTAGGAGCTGGCTGCAGGGAACGTGGCTTGGCCTAGAGAGTAGGCGCAGAGCTGGCACAA
GACTCAGGTCATGTGGCTCCCAGCCTTGGGTGCTGCCTGATGGCCTCAGCTGTGAGGTCCTCTTCAAGCTCATTCTACACCCTTCCCAGGACTTTCTCTG
CAGAGTCAATGATCCTGAGGCTGTAACATTCAAACACAAACATCTGGGCATCAGGAATCTGCTGCCTTCCAGAGGGGGCACCTCTGCTCCACCGGTGCCC
TGCACGTCCCAGCATCCTTCAAGTCCAGGGCAACCCGTTCTCCGCACAGAGCCAGAGCGAAGGGAGAAAGAGGAGCGAGGCCCCGACCAATGTAGCCATC
TCTTTCCAGCAGACTCTCCCAAAAGGAACGAGAGCAGCATGTGAAGTAATGTGACGTAATACATAGATAGATTTTTATTACTAAATACCACGTGAGTATA
CAAAATGCATCACTGAATAACAGCTAAAAAAAGTCCAAGAAATGTGAAATACACATTTTTTGAAATGATAAAAACATATCCATGAAAAATATAAAATGTT
GCATATATATACAATATATTTATATATATATATAACAAATGAAAATCGTAAATAAGAAATGTATACAACAGTGAGTGGCAAGGCAGTAGTTTTACACAGC
GGTCACTTTGTTCCAGTCGATCGTTAGTGCTATTTACATCCTGCGCTGAGGAAGTCTGAGAAAGAGACTCCAATATAGTGTCTTTTAAAAGTCATTTGCA
CTGAAAATCAAGAGTTTTCAAGTTAACTGACCAAAGGTTGAGAAATCCTTTGTCTGAAGTTGAAGGAAGACAGAGAGTGGGGGCCGCACCAGCTGGCGTG
GTGCTGCGGGAGGGAGCGTGTGCCGCCACCATCTTAACGGGCAGCCTGCAGGAGCACCACTGCAGACAAGGGTCTTGGGAGGAGGGAACAGTCTTCTGGG
TAGGTGGTAACCATGGTGACATTGTTTTGGGGTACGGGGAGGCACTGGCAGGAAGTTCAGGGAGCAGATTCAAGCATACCATGGGGATCCAGGCCAGGGG
ACCCCCTAGGTCTCTCCCTGGCCCTGACGTCTGTGGGTCTGTGACTCAAGGGCCTCTTCCCTCAGGGAAGGCATTCAAGTAACAGCGCTGAGGCATGTGG
AGAGGTTGTGTGTGGCGTGGGGCCACGTCCCTGCTGGCCCCTTGCAGGTCGTGAGGGTTTGGATGCTCGAGAGGCCTTACAGCTCCTTAAGGATGATCTG
AATTTTGCCGTCCAGCTCCCCCATGTCCAGCAGGAAGGCGACGTGGTTGCTGTAATGCTGAATGATGTTGTTGTCCATGTTGACTAAGATTCTGGAATGG
AAGAGGGGATGTGGTTGGAACACAGCAGGCGCCCTGTTTTCAGGCCTTCTGAGTGACCAGGATGAGTGATGGGTCATACCCAGTGGGTACCTGCCACATT
TTAGGCACCTCACAAACCTTCCCTCTGATCCTCACAACAACCCCACGAGGTGAGGGAGTCACAGTCTCCTTTACTGCACAATGCCCAGTGGCCGAGCCAC
AACCCAACCCAGGCCTGCTGGCCCCCACACTCACAGCTACTGCGCCGGATTGCCTCTCTCCTGGTACACCCGAGGATGGACACTCAAGCAACTAGTATGT
AGATCTGGGGGAGACGCAGTGCTCCCTTAGTCACCATATTGAGGACTCGGACATGAAGTGTGAGTTCAAGCCCCGGAGGGGTGGTGGGTTGGGTTCAACA
AGAGGCTAGGATGTGTCCCTCAGGCATGCCTGAGCCAGAGGCAGGTGCCACACAAGCCCCTCCCAGTTCCATTCCCAGGAAGCTGAAATCTCAGGAGGAT
TGTCCGATAGACTTGAGGGGCTAGGCCCACTCTCTCCCCATATTCTCCAGGCAAGGACCTGGGTCAACCTGAGAGAGACGGAATCTTCATGGCTGTGGGC
CCCTGCAGGGAGTCAGAGCCATTGTTTATGCCAAAGAAAGAGCAGCCCTCTAGAAGCTGCTCCTGATGAAGGACCCACCAAGATGTGACTTGAGCTGATC
ACATCAACCTTCTCCTTGCCCCTTCCCTGCTGTCTTCTGAGCATGTAATGGAGTTGGGTATATCCACCCACACATTCACCATCCACCATTCATTCACATA
CACACACTCCCCATCCATCATCCACCCACCCAACCACACCCCCATCCACCATCTACCCACCCATACACACCCCCATCTACCCTCTACTACACACCCACAC
ACACACCTACCTGGCATCTACTCGTCCATCTACCCACTCATGCACCATCTACCCACACCCCCACCCATCCACCATCCTCCATCCACCTGCCCACCTGCCG
TCATCTTCCCATTCATCCCCTATATTCACTGAGGCCTTTCCATGTGCAGGGCTTTGCTCAAAAACAAGGACCATATGGAGATGAATTAGACCTAGTTCCT
GCCTTCCAGGAGTTTTGAATCTAGTAGGGACTGGGAGGATGAATCCTCATATTACCCCAGTTCATAAATGGGGAAGCTGAGGTTCAAAGAAACAAAGTTA
TTTGTCTAAGGTCACACAGTTCATAGATGGCAGGGCTGGGATTTGAACCTTTTCTCTTTCTACTGTATCATTTTTAGAAGGAAACAAAGCCCTATAAATA
CAAGTTAAGAAGCAGCAGATAGAAGGAAGGCAAAATCCAGGGCTATGGGAGAGTTCTTTGAAGTGGCGCAGGAGCGGCAGGCACGAGGACCCCCCGAGGG
CAATGGAGACAACATGGACCCGAAGGCATGGCCCACATCCAGTTGTCTCTCCCTGCCGCTCTCAGGAAGAAGGTCCAGGCTTGGGCTGTCAGTGGTTTGA
GCGCTGACTGCCAATGTGTAATCATAGGCTCCCCTTTCTTGGGTCCTGCCTGGAGTTCCTTCATTTCACAGAGGGCTCTTTGGGCACGGGAGGTCGGAAA
CAGACCAGGGGAGACCAGAACTGGGCAGAGGGGTGGGTCCTTTTTCAAAATCAGGGTTGTTTTGTCTGCCATTGATTGCGTGCTTCTAGGTGCCAGGCAC
TGTGAAGTAACTGATATGTACCAGCTGGAAGGCTGGATCCGTCCCACTCCCTAGCAGGGCCTTCCAGCGCCCTGAGCTCACACCTGCTCACATCTGCCAA
GCTCACACCTGCTCACACCTGCACAAGAGGGCTTCCAGATGGGCCCACAGACCCCTCTTCTCAAAAGTTAATGACAGCGGGCCCCTGAGAGGCAGTACCA
CTGTCACCAAATGTGGGCCTCTTGTTACTTGCCACCTTCTAGCTGTCTTCAGTCCTGAGTCACATTAAACCCCTGGCCAGCTGCCAGCAAAAACAATGTA
TTTGCTCATCTTTGCAGCACTTAGTGGGGCCTGTAAAGCTGACTCTATCCACCTTCATCCAGAGGACTTTCGGGAGGGTTTTATGAAAATAAACCAGGCC
TTTGATCAGAATTTCCTGTTTCTCACATGAGGACTCAGAGGGAGGCAGAAGATGAGCCTGGCCTCTCCTCTCCTAAGATCTATTTTGGGGAACACTGTCA
TTCAGACATTTCAGACAGTCCTGGGGCTGATGTTTTCACGGCCGTGGGGGTGTGTGGGGTGCCTGTGAAGGGCTGCTGAGTGATGCCCTGGCTATGGTGC
TGGGCAAATAAACTGGCCAGCCTGGCTGCATCCTTTATTTGCACATTGCGTAGTGATTAGAGGAACAAGCAGGAGGCAGGATAACAGAGTGGATGCCTGT
ACAGGCTTTAGAAGTCCAAGATGCTTCTGCCAGTTCCTAACTCATGACCTTGTAACTACTGCAGACCTCAGTTTCCCCATACGTACAAACAGAGATAATG
ATACCCAGCTCAAAGGGTCAACGAGATGATGCTTGGGAGTGATGCAGCCCAGTGCCTGGCATGTAGGAAGTGCCCCATAAATGGAAGGTTTTAGAATTAT
GATTTCAATAGCTGGCTGGGGCTTAAGGGGAAGCCTCTGGCAACTCAGCCAGTGGGGCTGGGGAACATCCTTGTACACACACCCCACCCTCCCACCCCCC
CATGCAATCACACAGCCTGGCCTGGAGTGGGATTGGTAAGGGAGGCCTGCCACAGGTGGGGCTGGAGCCAGGGGGCATGGGCACTGGAGCTGAAGGGAGA
GTGGGGCTGGGCTTGTCTGGGGAAAGCAGAGCCTGCCCTTTGCCGTGAAGTGGATTTCACTCTACAGAGCATGTGAGACTCAGATGGAAACCGAAACTTG
GAAAAAAAAGACACACGAAAAACTCTAGACATGCATGCAGCTAAAACCAAAAAAAAACCCCCTTCCCAGGGGCTGCAGGGATGGACACCTTCCCCCACCC
TCAGCCTTCTATGGAAGGCTAGGAAGGAACCAAGGAGGAGGAAGGCAGGCAGGGCTGGGCCTGTGAGGAAGGCGGCCAGGCCCCTAGGCCTGATGAGATG
GGGATTCAGCTTGAGTACAAAACTTGCCTCGCTTTGCAAAGTCTTCTACAAAGGAAGATCCACTTGCAGTAGCCACGGGGCAAGTGGCTGAGCACCTCCA
AGGGGCTACTAGCAAATGTCGCTCGAGTTAGACTATCCACAGCAAGAGGATCAGATTGGAGCTGTGGGCAGAGGGGCTAGGAGTGCATTTCCCAGGGCTC
TGGTTCTGGGGCCTCTGGGCTGGCAACAGCAATGACAATTCCTCACTGTCTGGGGGCCCTATGCC


SNP Information

Context             (SEQ ID NO:60937):
TCTACTAAAAATACAAAGCTGGGCGTGGTGGAGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCGGGGAGGTGGAGG
W
TGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTTGGTCTCAAAAAGAAAGAAAATAGCTATTACCCTTATAATGATAG
Celera SNP ID:            hCV3124910
SNP Position Genomic:     54568
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,6)   total(A,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60938):
TTACTGGGGTTGGTCACGATGTATTATCTTTTTATATATTGTCTGGTTTGATTCGCTAAAATTTTTCTAAGGATTTATGTATTTATGTTTATGAGGGCTG
Y
TGACCTCTAGTGATCTTTTTCCCTCTTGTAATGATGCCATATAGTTTTGGTATCAGGTAGTGGTTGCCTCATTGAATGAGTTTGGAAATGTCTTTTCCTC
Celera SNP ID:            hCV939715
SNP Position Genomic:     24658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60939):
TGATTAGCGTAGGCCCCAAAGTCAGTACCATGGAACCTCCACTTTCCCTGCTCACCAGCCCTGTGGGCCTGGGGGAAGGGAGGTCACTTAACTCCCAGTG
R
GTTCAAAGTCATCCTTGGTGAACCAGGATAAGAACACCTCATAATGTGGTTGTAAGGATAAAAGGAGATAACCCACAAAATTCACATGGTAACTTGTATT
Celera SNP ID:            hCV3124912
SNP Position Genomic:     56374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60940):
CCAGATCTATTTCCTCAACTCAGGAAGACCACGGGGCTCCATCTGGATCCCTTCTTCCTGTGCTGTGGTCTTGAGATTTTCTCCTGGCAGAAAGCTGGGG
R
CCATCTTATTGCCAACCTCATTTACTTTGCTTCTCTCAGGGATCCCTGTCCTTTGTTGCCTGATGTCCAGTATCTTGATTGCTTTATATATCTTGCCCAT
Celera SNP ID:            hCV939716
SNP Position Genomic:     28304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60941):
GTCTCAAAAAGAAAGAAAATAGCTATTACCCTTATAATGATAGCTGTGGTTATTGTATATCCTATAGACCTACTAGGCTATATTATACAATACAGCTGTT
M
TTTGGCATGGCAGCTCAAGCCCCCAGCCCAAATTTGGAAGCTTCTTCAAGGAAAATGGTGAAATAACATAAGAGTGGAGGATGCTCAATTTTTAACTGCT
Celera SNP ID:            hCV28014263
SNP Position Genomic:     54726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60942):
GATTTGCAAACAGCTCACATTGGAAGCTGCAAACACACTTAATCCAGTTGTGGCCAACTCAGAGCCTTTGATAGATGTTTTCTTTCCACGGGGCAGGGCC
R
GGTTGGCTTTTATAACTGAGCAATGAGGCTCATAAAAGCCCTGGTCACAATGCACTGTGGGCTGCCCTGGGTTTGATCCAGCCTGACCTTTGTGATTTGT
Celera SNP ID:            hCV3124913
SNP Position Genomic:     57368
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;(G,-|A,-)   TSC_42_A(G,33|A,50)   TSC_42_C(G,25|A,58)   TSC_42_AA(G,21|A,63)   total(G,79|A,171)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60943):
CTACTTAAACACGTATTCAGCTCCTTTTACTTGCTTCATCCTCCACCCAGGCAGATTAGGCTTCAGTGTCCCTCTCCCCATCGTGTTTATTGAGCACTTA
Y
TAGAGGCCAGCTCAGGAAGAGGAAGCACAGCTCAGAGCTCAAGAGCCTGGACTCATTAGGCAAATCATGTTCACACCCTACCTGTTCCGCTTAAGTGCTG
Celera SNP ID:            hCV939717
SNP Position Genomic:     28959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60944):
GTGTCATTCCGAGTTTACAGTGAAGTGCAGGCTGTTGACGGTGGTGGGGCTGGGATTTGAATCCAGGTCCCTCTGCCTCCAAAATCCATCTCCAAAACCC
W
TGTTCCTCACTTGAGTCACAGGATGGGAACATTCAAGACAGTCAGGTGGGGGGTGGCGAGACAGGCGTGGGTGGAGGAGAGAAGTTTCCCTGGAAGAAAG
Celera SNP ID:            hCV3124914
SNP Position Genomic:     57893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,4)      total(A,4|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60945):
AAGGAGGATCACCTGAACCTGAGGAGGTCGAGGCTGCATTGAACCAAGATAGCGCAACTGTACCCTAGCCTGGGTGACAGAGCTAGACCCTGTCTGAAAT
W
AAAAAAAAAAAAATTACCTTTGTAATGAGCCCTGCCCTACTTTAAAAACAAAAAAACAAAAAACAAAAAAAAACTTCCTTAAACAATGTGTTATTAGCCG
Celera SNP ID:            hCV939718
SNP Position Genomic:     31351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60946):
AGGCTGGATTGAGAGGCCATAAATAGATCTTGCCTTTAAGTTTTCATCAGGGTTTGTAAGTGGGGAGTATCAGAAGCAAGTGAACAACCCAGGAAATCAC
Y
GGTGAATGGAGGGTTGAAGGCAGTCTAGGTGCTCAGCGTCTGTCTCCTTGTGTCCCAATTCCTGCCATAACAGCTACAGCTTTCCCCATTCCATGCTTTT
Celera SNP ID:            hCV3124915
SNP Position Genomic:     58243
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60947):
CAGTTTTTTATTTTAACCTCTATTCGAACAGATTTCATGTTTTTAAACAAATGTTACAAGTAAAGCACAATCTTCCTAACAATCTGGGTAGTAGGTATTA
Y
TTCCACTGTTTTACAGATGAGGAAATTGAGGCTTAAGGAGGTTAAGAGCCTTTTCTAAGAACACATAGCTGTTGAACGGGGAAGTGGGGATTCAAACCCA
Celera SNP ID:            hCV3124916
SNP Position Genomic:     58577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60948):
AACAGAGAGGCTGTGCACGGGACCCTCATTAACCAAGTCAGTATCAACATGAGTTTCTGGTCACCTGGGGCTACAGTTCCCAAGCCCTGCTCATCTCCTA
K
AGAACCATGTCCGCAATTGTCATGGCTTCTGCTTTTATGGAAACCCCTGAACTAGATCAAAACAAGACCCCATGAAGCTAACACCTTGCTTCTTTAAGAA
Celera SNP ID:            hCV3124917
SNP Position Genomic:     63153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,6)      total(G,6|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60949):
TTGGATCTTGTCATTATATCTTCCATATCTACTTAATATGTTCAGTCTTTTCTCTGGCTTCTTGAACATATGAAATACAGTTAGTGCAGCAGTTATAATG
Y
TCTTCTCCACTAATTCTATCATCTGTATCATTTCTGAGTTGGTTTTGATCATTTATTTTCTCCCCACTTTGAAGTATATTTTTCCTTCTTCCTCCTATTA
Celera SNP ID:            hCV11466810
SNP Position Genomic:     27610
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60950):
CCCAGCCCCACAGACTCCAGTGGCTTCCTGAGCAGAAGGGAGGAGTGGACAGAGCCCCCTGGCTGCTTCCCCACGCACCCATCCAGGCTGCCTTCCGGCA
Y
GACTCCCTGCCGCAGACTGAAGGGACTCCTGAAGCGCAGACTTCAAGGAGGATCAGTCCACCCTGAAGGTGGCCAAGCCTGGAAGCCCCACCCTTCCCTG
Celera SNP ID:            hCV3124918
SNP Position Genomic:     63929
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:60951):
CCACCAAGTGGTGGTAGCGCCTGTGCTGTGGGATTACAGTAAGGCTTAGTGTTAATGGATGTAAAGCCTGTGGAAAAGCACAATGGAATTGAAGTATCTC
R
ATGACACCACCTTCTCTTCCCTTTCAGAATGATATCCCAGGACCTGGGTTCTACAATGTTATTCACCAGTCACCGGTGTCCAACAGTGTCTCATTGTCCA
Celera SNP ID:            hCV25999546
SNP Position Genomic:     38134
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:60952):
GGCTGCACAGATTCGCGGTGGGTGGGGAGCTGCCAGGCTCCTTTTCTGATCTCCCAGCAGGCTTTGACTGACGCTGTTTAGTCTTTCTGTACATTAACCC
Y
GCCAGATACCGAGAGGTTACAAAGCCTCCAAGGCCTGTACAACTGTGGCCTCTCCAGAGAAGTGGTTCTCAGCCTTGACTGCACACTGTAATCACCTGGG
Celera SNP ID:            hCV3124919
SNP Position Genomic:     64541
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:60953):
CTGGATGCCCTAGTCATTGCAGTATTACAATAAAAAGAAATAACAGGCATACAAATTGGAAAAGAAGAAATAAAATGTTTTATTCACATACAACATGATT
R
TATATGTAGAAATTCCTAATCGACAAAAAAGCTACTAGAACTGAAAAAAAAAGTTTAGCAAAGTTGCAGGATACAGCATTAATATATATAAATTACTTAT
Celera SNP ID:            hCV7556660
SNP Position Genomic:     18281
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60954):
TTGGGGTGGGGAGGAATACTCAGGTCATTGGTCAACCATCCACATTGGTGAGATCCCCAGTGTCCCAGCTCATGTGCTCCCTTTGGTTTTGCTAGTGTTC
R
CCAACTAGTGTTCTGGTTCGTTAGTGTGGCTTAGGAATTATTGCTGAGACAGGAAACCTCATTTTGAGATCCCCCTAGGCTCCAGCGCTTTTTCTTTCGA
Celera SNP ID:            hCV7556661
SNP Position Genomic:     21408
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60955):
GGTTCCACACTCCTCTGTCATTTAACCTTCACACATCACCTCGTTCTGACATCAAGGGTGCGTCACAGCCACAGTGAGGCCTCGCCTGGGCAGAGCAACT
Y
TGGGTGCCCCACTGGGTCCCTCCCACAGGGGCAGGCAAGCCTAATGGGAACCCGAGGCAAAAGGAAACATCAGTAATACGAATCCTGTCTTTAAAACTGT
Celera SNP ID:            hCV7556662
SNP Position Genomic:     64979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:60956):
AAATTTTTTTTTTAATTTGCAGGGTGTGGTGGTACATACCTGTAGTCTCAGCTACTCGGGAGACTGAGATGGGAGGATCACTGAGCCCAGCAGGTCAAGG
Y
TACAGTGAGCTGTGATTGTGATTGTGCCACTGCATTCCAGCCTGGACAAGAGAGCAAGACCCTATCTCAAAAAAAAAAAAAAAAAGATAGTTGTTGATTG
Celera SNP ID:            hCV2509616
SNP Position Genomic:     51764
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60957):
CATCGGATTTTATTTCCAAGAGAGACTTTAGTAATTCGTGTTCCAGCATGTTCCAGTTGCCAAGCTTTATGAAAGCTCTCAAGTTTGAAACTCCTGCACC
R
AACTATTACAATGTAAGAACTCTGCCTATGCTTGCTAAATATAGATCGAATTAATGGTTTACTAAAATAAAAGGAAGAGGGGATCTTGGGGACATCGTAT
Celera SNP ID:            hCV25993954
SNP Position Genomic:     42501
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,40)   total(A,72|G,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:60958):
TTGTAGTGAGCCGAGATCGCACTACTGGACTTCAGCCTGGGCGACAGAATGAGACTCCATCTCAAAATCACCACCACCACAACAACAATGTGTTATCATA
Y
TCCTGTGTCACCCACCACCCCCCCTTCCCTAAATCTTGCCGCATCTCTTTTCCTCTCTAACCTGGAAAGTTCTGCGTGGTTCCTGACCGGTCCTTATTTA
Celera SNP ID:            hCV939720
SNP Position Genomic:     31766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60959):
ACTGGACTTCAGCCTGGGCGACAGAATGAGACTCCATCTCAAAATCACCACCACCACAACAACAATGTGTTATCATATTCCTGTGTCACCCACCACCCCC
S
CTTCCCTAAATCTTGCCGCATCTCTTTTCCTCTCTAACCTGGAAAGTTCTGCGTGGTTCCTGACCGGTCCTTATTTAATCTTTGGGATTTCTGGGACCTG
Celera SNP ID:            hCV939721
SNP Position Genomic:     31789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60960):
AATTAACCAATGTGAAATGATCTCTACAAATGCTGTGTTTTGCTGTTTCAGGTGCTTAGGAGAACATGCAGTAGAACTTTTCATCAAACAAATGGAACAC
R
TCACAGAATTTTGCTAACATGGACAACTCTGCACAGAAAAATGAACGCACTGGCAAACATCCCAGACGTGCCAGTGAAGTACAGAAAGGTACATGTGTCT
Celera SNP ID:            hCV26000248
SNP Position Genomic:     20746
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,40)   total(A,2|G,72)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60961):
TTCTTCTCTCCCTAGTTTCTCTGTTTTAACTGTTTGGCTCTTTCCCATTTTCTGTCTGGTTTCCCATTTGTCAATTTAATGATAATATATTGTCCCTCTC
Y
AGGATATTTGCAGCCCAGCCTCCGATAAAAACAATAGCAGCCACCATTTACTTATCCTTACTATGTGTACTTTTAGACTGCCTTTTATCTCTAATCCTCA
Celera SNP ID:            hCV939722
SNP Position Genomic:     32448
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60962):
CCCAGCATCTTCCCGAGGTGGAGGCACCTCCCACAGCTCGTCTTATGCCCTTGACACAAGGTTAATGTGTGTGCTGTCTTACCTCCACCACCTGCCTAGG
R
GCTCCTTGGGCAGTGGTCATTGCTGTCCTTTCCAGACCCCACAAACCCCTCAAAAATGGATCAAATGACCCCAACTCAAATCTGCGCATTTCCCATGGAG
Celera SNP ID:            hCV939723
SNP Position Genomic:     34754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60963):
GTGTGCTGTCTTACCTCCACCACCTGCCTAGGGGCTCCTTGGGCAGTGGTCATTGCTGTCCTTTCCAGACCCCACAAACCCCTCAAAAATGGATCAAATG
M
CCCCAACTCAAATCTGCGCATTTCCCATGGAGTCACGACCACACATCCATCCATGAGCACTGTTGTGATACATCTCCTTCCTCCCATTCCTAAACCCTGT
Celera SNP ID:            hCV939724
SNP Position Genomic:     34822
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,10)      total(A,10|C,3) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60964):
AGACTTGAAAACAATGGCGGTGTGAGTGGTAAAGGGTTATGCAGAGTCTCTTGATTTCCAGCCCGGTGCTTTTCCACTCCTGCCTCCTGCCTCCCCAGGA
Y
GATATTTAGTAGGATTCTGGAATGTCAATGTTACAGTGGCCTCTAAAGACCTGCTGGTCTTGGGATGGCAAATCTGTGGAATGTGGGATGCTTCTTTCTC
Celera SNP ID:            hCV939725
SNP Position Genomic:     60550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60965):
ATATACACGGCCTGCCATTTCTGGTTAGCTCCACATCTCCAGCAATGCACACTGAGCTCTCACTGTGTGCCAGGCCTATCCTGAGTACTGTGTTTTAGGT
R
CGTCATCTCATTTATCCTGACAACCCTGACCTCAAAGTAGGTCCCATCATGATTGCCATGTGCAGATGAAGAAACAGATCCAGGGGTCCCCAGCTCACTA
Celera SNP ID:            hCV939726
SNP Position Genomic:     60879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60966):
CCTGACCTCAAAGTAGGTCCCATCATGATTGCCATGTGCAGATGAAGAAACAGATCCAGGGGTCCCCAGCTCACTACCAGTGGAGCTAGGGCTCTGCCCC
R
GTGCCGTGACCAGTCCTCTTCCAGACAGCTTGCTGCTGTGCAGGTCTTGGCTGTGTCTAGAAACTGTGCCTTCCCCACTAGACTGCCTTAGTGACATCTT
Celera SNP ID:            hCV939727
SNP Position Genomic:     61004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60967):
ATGTTGTCAATAATTCTATTAAATATCAAATTTTTAGTATAGATTGTCCACCAAAAAAAAGTTGAAAATTGCTGCTGTGAGGATTACAGAATAAAGTAAG
R
AAAAATACTGCATGGAAAAGGACCAGTAGAGTGTAAAATCATTTATTCAATCCTTTACTCATTAGTATATATAAATGGTATAAGTTCCTTAGGGAAAAAA
Celera SNP ID:            hCV3124850
SNP Position Genomic:     13282
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60968):
CTGAGAGGAAAATCAACCAATAGGAACAGACTTAAAAATGACAGATTATAGAATTAGTACAAAGAAACCTTAAAGCAGCTACTATGAATCTTACAAATAT
Y
CCTAAGGATGTAAAGGAAACTGAACATGATGAGGCTAGAAATAGAAGACATAGAAAAAGAGCCCAAATGTAACCTCTAGAAAGAAAAAATACAATATTTG
Celera SNP ID:            hCV3124851
SNP Position Genomic:     14259
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60969):
CAAATGTAACCTCTAGAAAGAAAAAATACAATATTTGAAATAAGAATGCAATGGATGGGATTTGCAGCTGATGAGACTTCAGAAGATCAGTGAACTTGGC
Y
GGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTAGATCACAAGGTCAAGAGTTCAAGACCAGCCTGGCCAAGATGGTGAA
Celera SNP ID:            hCV3124852
SNP Position Genomic:     14423
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60970):
GAACATTTAAGATATTAAATACATGTATTAAGAAAGAAGAAGGCGCTGGGTGCGGTGGCTCACTCCTGTAATCCCAGCAATTTGGGAGGCCAAGGTGGGC
M
GATTACTTGAGGTCAGGAGTTCGAGACCAGTCTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGGAGTGCC
Celera SNP ID:            hCV3124853
SNP Position Genomic:     16955
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60971):
TCAGTATGAGATCGTGGACTACTTAGGCCCCCGCAAGCATTTCATCTCTAGTGCATCATTCGTGTCCAATACCAGCCGGTGGACAGCGGCGCCGCCTCAG
Y
CAGGCCTGCCTGGCCCAGGTCAGAGGATTGTTTTAAATGATTGTAAAAACCAAATCTTCTGGAACTGTTTGTCATTCTTGGGTCATCAAATGCCATTGAT
Celera SNP ID:            hCV25997668
SNP Position Genomic:     61298
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:60972):
CTACTAGAACTGAAAAAAAAAGTTTAGCAAAGTTGCAGGATACAGCATTAATATATATAAATTACTTATATTTCTCTATACCAGCAATAAACAATGAGAA
R
TTTAAAAAATTTTAAGACCATTTTTTTGACATAAAATATGAAATACTTAGGAATCAGTTTAAGAAAATATATGCAATATTTGTACACTGATAACTGTAAA
Celera SNP ID:            hCV3124855
SNP Position Genomic:     18413
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60973):
GTGGCTCACACCTGTAATCCTAGCACTTTGGATGGCAGAGGCAGGCAGATTACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACCCC
R
TCTCTGCTAAAAATACAAATTACAGATGGTGGGCGCCTGTAATCCCAGCTACTGAGGAGGCTAAGGCAGGAGAATCACTTGAACCCAGGCAGGGGCAGCG
Celera SNP ID:            hCV3124856
SNP Position Genomic:     20278
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60974):
TAATTGATTTTTGTATATTGACCTTGATTCTGGTGACCTCACTAAATCCAACTATTACCTCTTATAGGGTGTCCACAGATTATTTTGCAATTTCCCCATA
Y
ACAATCTTGTAATCTGTGAAAATGACAACTTTATTTCTTCCTTTCTCATCCATATATTTTATGTATTTTTAATATATTTTATGTAGGCGTTTGTATTGGC
Celera SNP ID:            hCV3124857
SNP Position Genomic:     23567
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60975):
AGCTTGTATGGAATTGATAGGTGGAGTGTTCTATAAATGCCAATTAGGTCAGGTTAGGTAATAGTTTTGTTCAGGTTTCATATATCTTTACTGATCTATC
K
ACTTGTTTAAATTATCGAGGGAGATGTTTTGAGATCTCTGACTATAATTGTGAAATTTTCTACTTTTTCTCGCAGTTTTATCAGTTTCTGCTTCTTATAT
Celera SNP ID:            hCV3124858
SNP Position Genomic:     24875
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,7)      total(G,2|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60976):
GAACACTAATACATTTTTTAATAACAGCTTTATTAAAGCTAGGGCAGTAGATGGTTCTTACTAAAATGGTATAACACTGAGGGGTGGTAAATGAATAGTG
R
CTGCTTTGGTTATTTTTTGAGACAGGGTCTCACTTTGTCACCCAGGCTGAAGAACAGTGGCACGAACATAGCTTACTGCAGCCTTGACCTCTTGGGCTCA
Celera SNP ID:            hCV2509620
SNP Position Genomic:     12777
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60977):
CTTTTCTTCTAATGTGACTTTGGGCAAGTCACTTAACCCCCCACCAAACTTAAGTTTTCTCATCTGTAAAAAGTGGGGATTATACCTCACTGGATTATTA
Y
AAAAATTGCATAAGGTATTCCATAGAAGGCATTTAGGACTGTGCAGGCTCAATAAATGATAGCTATTATTTTAAGTTGTTAATACGATATCCCTGTGCGT
Celera SNP ID:            hCV2509621
SNP Position Genomic:     10950
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60978):
TTGAAAAAGATAAAGCAGAGTAAGGGGCTAGAGAGAGATGGGTTGGTGCTTCTTAAGAGAGGGTGGTCAGGGAAGTCATCCCTAAGAAGGTTTGAGCAGA
R
AGTCTCGTGAATTTTGTGACAGGACTGCAGGACGATGCCTGGGTCCGGTGAGGAAAGGAGCTCCCCATGCAGCAAGGAGATATGTGGCAAAAGCCAGGGA
Celera SNP ID:            hCV2509622
SNP Position Genomic:     9804
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60979):
TGTTGCCCAGGGTAGTCTTGAACTTCTGTCTCAAGCCATCCTTCCCCCTCAGCCTCTCAAAGTGCTGGGATTACGGGTGTGGGCCACCATGCCTGGCCAA
Y
TGAGCAAATACTGTATGTGAGGAAATAGACTGAAGATTCAGAGTTGAACTTTCTACTGGGGAAGATCATAAACAAATAAAGTAATAAACATACAATATAA
Celera SNP ID:            hCV2509623
SNP Position Genomic:     9582
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60980):
ATATATTCTGAGCACAGCTGTACACACAATTGCTAAAAGGTGTCTACCTCTAGTATTCATTCATTCATTCATTCCACCAATATTTATGAAGAAAATACTA
W
TTTTAAAAATTCTCAATACTATTATTATTATTTTTGTAGAGACAGGGCCTTGCTATGTTGCCCAGGGTAGTCTTGAACTTCTGTCTCAAGCCATCCTTCC
Celera SNP ID:            hCV2509624
SNP Position Genomic:     9426
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,6)   total(A,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60981):
TCCGGGTGCTTGCGGAATTCCAGGGCTGAGCTAGGTGGAGCCCCGAGGGCGGGAAGAAGCCACCATGGGAGTTGCCCCTGCGTCGGGGCGTGTCCTCGGT
R
TTTCCACCCGAAAAGTGGTGACAACTGGGGCTTGCCTGCTCCACCGAGCTCCTGCCAGGGGCGTGGGCGTCCGACCCTTCTGGCTCAGGCTCCGCGAGTG
Celera SNP ID:            hCV2509625
SNP Position Genomic:     8686
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60982):
GCGACCGGGAGGTTGGGCTGGCCAGATTCAGCTGCCGGGACCGGACCAGGTAGGAAGCAGTTCCGGCGGGGGGACCGGTCCCTGAGGTCGTGGGGAAGAG
K
ACACGGCGCACCATGTCCTCCGCATGGGACGCCCGCGGAGACCCCCCGGCCTCCGGGTGCTTGCGGAATTCCAGGGCTGAGCTAGGTGGAGCCCCGAGGG
Celera SNP ID:            hCV2509626
SNP Position Genomic:     8534
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,5)   total(G,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60983):
TAATGATTGGTCAACAACTTTTCACGTTAAAGAAACAGAGGATGCCATTGGCTGGAGTTACCTCGCGGACGGCGGAAGGTGGACTCGCGAATGTTAGGCC
W
GTGGGTGCCATAGCGACCGGGAGGTTGGGCTGGCCAGATTCAGCTGCCGGGACCGGACCAGGTAGGAAGCAGTTCCGGCGGGGGGACCGGTCCCTGAGGT
Celera SNP ID:            hCV2509627
SNP Position Genomic:     8421
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,7)   total(A,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60984):
ACTTTGGGAGGCCAGGAGGATCACTTAAGCCCAGGAGTTTGAGACCAGCCTGGACAATATAGTGGGACCCCATCTCTACAAAAAAATTTAAAAATTAGCC
R
GGCGTGGTGGCGAGCGCCCGTGGTCCCAGCTACTCAGGAGGCTGAGGCGGGAGGATCGCTTGAACTCGGGAGGCGGAGGTTGCAGCGAGTCGAGATCGCG
Celera SNP ID:            hCV2509628
SNP Position Genomic:     7460
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60985):
GGAGAGGAACGAGTTGGTGCATTGTAGAAACTGCCCGAAGGCCAGCAGGGCTGGTGAGAGATTTTTCTGGGGGCGTGGTTGGGCCTGCGATCTGAGGGAC
R
GGCCAGGGACAGTTTATAAATAACATATTTGGGGGCCGGCGCGGTGGCTCACACCTGTAATCTCAGGACTTTGGGAGGCCAGGAGGATCACTTAAGCCCA
Celera SNP ID:            hCV2509629
SNP Position Genomic:     7292
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60986):
TTCGCCTTTTATAAAATGCGTTTAGACCTTGTGCTGGTCACCATCTTTTTGACATCTGTCCTTCAGATCCACAATATTATGTGACAATGCTGATTCCTTT
K
GTTGTCTCCTTACAGTGCGCCCGATTGGACACCATCGTTTCTAAATACCCTGCAGCGAATGCATACACTATCCCATCGGATTTTATTTCCAAGAGAGACT
Celera SNP ID:            hCV25994838
SNP Position Genomic:     42327
SNP Source:               Applera
Population(Allele,Count): african american(G,30|T,6)   caucasian(G,39|T,1)   total(G,69|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:60987):
GTGGTGGCGAGCGCCCGTGGTCCCAGCTACTCAGGAGGCTGAGGCGGGAGGATCGCTTGAACTCGGGAGGCGGAGGTTGCAGCGAGTCGAGATCGCGCCA
Y
TGCACTCCAGCTGGGCGACAGAGCAAGACCCTGTCAAAAAAAAAAAAAAAAAAAAAAAAAGCTTGGATTTCACCCTAAATTTAAAGGCGAGCCATTGGAG
Celera SNP ID:            hCV2242915
SNP Position Genomic:     7564
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60988):
TGTTATAGCCAGAAGCCTTGGATCTCCTTTCCAGTCAGGCAGAAACCTCTCCTTTCCCCAGGAGAATGTCCTTCCTTTAACCTTTTTTAAATAACTCTCT
Y
TTTACTGCCTCCTCTGCACACTCTCTTAGCTGTTCTATAGGCTTAGGCTTTTAGAAACAAAAGCCAGGAAGTCTTGCAGCTGCTTCTGCCTTTTGATTTG
Celera SNP ID:            hCV3124861
SNP Position Genomic:     28647
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60989):
GAAAAGACAGCTGAATATCAGAGTGTTGAGGAAATATCCAAAATCCAGTTTCTCAAATTCCAGTTCTGTTTTCTCCTGTGTCCCTGGAGGGAAGAGAGGG
R
CAGGAGCTACACGGGTTCCTGAGGTCAGTAGACCCCTGAGGTGACCCCATCTGCATGCACCTTCCCTTAGGACTTTGTCCACATCAGAACTAATCCTCTT
Celera SNP ID:            hCV16094768
SNP Position Genomic:     55802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60990):
ACAGAGTCAGGATGCACCCCCCCACCCAAAATTTGGTTTGGATGTCAAGACTTACGGTGCCACACACACGCTCATGAAGAGTGTAGGAAAAGGCTTATCA
Y
CCACATAGTGAGGCCTTCTGAGGACAGCAGCACAGCCTTCCTAACCTGATCCAATAATGGCTTGAGAGAGCAGGGAAAGGAGCCTGGCTTGGGGGTTTTC
Celera SNP ID:            hCV3124862
SNP Position Genomic:     29485
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60991):
TGTTGTTTAGGTTTTACTGCTGCATATCCAACACAATCCTCCATTCCTTTTAAATCTCAAGCTTCAGTAATCCCAGAATCAGAAAAAAAAGGATTCAATA
K
TCAAGCCAAGAGATTTCCTCATAAGAAGGTAATGACGTTGTCTCAGGGGTTCTTTCGTTTTAGTCTGGATTTTAGCCTTGCGGGACAGGCACGTTCTGTC
Celera SNP ID:            hCV3124863
SNP Position Genomic:     30574
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,5)   caucasian(G,24|T,16)   total(G,53|T,21)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60992):
CCCCATCCTTGTGAGAGGAAATCACATGACTTCAAATAACACAAGAGGAAAAGAAGAGTCGAATACATCTAGAATTACCTTTGGAGGGCCGGGCACGGTG
S
CTTATGCCTGTAATCCCAGCACTTTGGGAAGCTGAGGTGGGAGAATTAATTGCTTGAGCCAGGAGTTTCAGATCAGCCCAGGCAACATAGCAAAACCCAA
Celera SNP ID:            hCV3124864
SNP Position Genomic:     31056
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,6)      total(G,6|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60993):
TTCTCTCCCTAGTTTCTCTGTTTTAACTGTTTGGCTCTTTCCCATTTTCTGTCTGGTTTCCCATTTGTCAATTTAATGATAATATATTGTCCCTCTCTAG
R
ATATTTGCAGCCCAGCCTCCGATAAAAACAATAGCAGCCACCATTTACTTATCCTTACTATGTGTACTTTTAGACTGCCTTTTATCTCTAATCCTCAGAA
Celera SNP ID:            hCV3124865
SNP Position Genomic:     32451
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60994):
CACTCCAAAGCCTCTTGCTCTTTCCACACACTGCACCACACCTGCCTTTGTGGCCCGCAAAGCTGTAAATTTGGCCTGTGAAAGTCAGCAAGTTTCTGAA
R
AGGCCTTAGCAACACAGACCAAGCTGAAGACAGGGGAGGATGTCAGCTACCGTGGATGGGCCCCATTCCCCGTGATCTAGTTCTGAACACTCAAATTCAG
Celera SNP ID:            hCV3124866
SNP Position Genomic:     32827
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60995):
GTTTTTAGTCTCATGTTACTGGCCAAAAAATGTAAAGCCCAGCCGTGAGAGGATGGCTGGATATGACCAAAGCTCAGGAGGCCACCATTAGGGCAGGGAA
Y
GGCTGATCACGTCCCCTGAAGAGGCCATGGAGGCAGCGTGGGCAGTGGATTGATTAGCGTAGGCCCCAAAGTCAGTACCATGGAACCTCCACTTTCCCTG
Celera SNP ID:            hCV26638307
SNP Position Genomic:     56223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:60996):
TCTCAGCATTTGTAAGCATTTTAGAAATAAGGATGGAATTTTATGGAAAGGGCAGGGGATCCATCAATCAGGCTTTCCGTGTCCTACTCTGTCACTGGCT
S
TGTGCCTTTAAACCAGTCACTTGACTTTTCTGGGCTTCAGTTTCCTCAACTGAAACATAAAATTTGTATTATATAATTTTTGTGGTCTCCTCAAGTTATA
Celera SNP ID:            hCV3124867
SNP Position Genomic:     33220
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60997):
ACAGCCAACTTGAGGAGCCACAGGGAATTGGCTCAGGACTAAGTCTTTCCTCATTCCCTGTGATGCTGGATTCCCCTGGTGCTGACATTGTTCTATTTTT
S
TAACATAAAATCTTCGCTGGAGTGGCAGGACATTCAGAAGCAGTCAAGCTCTCATAGCTTTATACCGATGGAAGTTTAAGCCCTGACTTTCGAGTTGGTG
Celera SNP ID:            hCV26638308
SNP Position Genomic:     52908
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:60998):
TTCCTCCCATTCCTAAACCCTGTGAGCTGCTAACAGGTTGCGCCTGTATCTTCCATCCTTGGCACAGGTCCTGATGCACAGTAGGTTTCAATCAGTGTCC
K
CTAAATTGCATTTTTGCCCCCATCCCACGCAGGGCACTTCAACAGGCTGCTAATAAGCTGCTCAGTCCCACTCTGAAGGTTTGTGACTCCCAAGGGAGGG
Celera SNP ID:            hCV3124868
SNP Position Genomic:     35000
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:60999):
GTGACTCCCAAGGGAGGGTCCTGGCTCCATGGAGGCAGTAGCAGGCAACATCGTGCGTGGTGATGGTGATGGTGATGATGATGATGGCGGGCCGCATCGG
Y
GCTGTTCCACCCACTTTATGTGTATTGACCCCTTCAATCCTCACACTTAGAGGCAGCAAAGGAGACAGTGGGTAGGGCTTCCCTAGAGCACTAGTAAATG
Celera SNP ID:            hCV3124869
SNP Position Genomic:     35183
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61000):
GCCACCTTCCGGGCTTTGCTCCTGCTGTTCCCCTACCCGACGCTCTCACCAAGTATTCAAATCCAAAACGTCCTTGAAGACCCAGCGCTCCCCAGAGCCC
Y
CGCGAGACTTGGGACCAAACATATCTCTCCTTTCCTGCCCTCCTGGAACACCTGTCGGATACCAAGCCTCCCAGCAATACTGAAGGTCCTGAAACGAGCC
Celera SNP ID:            hCV2509630
SNP Position Genomic:     6826
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:61001):
GCAGGCATTTCGCGCAGGCAAGTGGCTGCGAGGACGGGGAGTAGGCGGGACAGCCCCTGGCAATTGGCTGCGCTGCAAAGCTTGCTTGAAGCATAAGGGA
R
CGACCTGGGGCTAGAGCTTGGCGCTCACCTGGAGCGGGGACCCCCTAGCGGCCACAGGAAGAATGGTGCGGCGACTCCCCTGCCCCCTCTCCCGCTGTCC
Celera SNP ID:            hCV2509631
SNP Position Genomic:     6533
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,1|G,35)   total(A,5|G,63)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61002):
TCAAAAAACAAAAAAAGTAAATAAAATATATGTTTGGCATTGGCATTGCAGCTGGTGACTCAAAATTAACACAGATTTTTAAAAGTAAATACAGGGATTT
K
TGTTACCCTGTTTAATATCCTACACATTTTATATTACTCTCACCTAAGAGGCTCAAATACTCACAGAGCTTATTTATTTCTCGAATGGTTCTAGAACTTC
Celera SNP ID:            hCV11466769
SNP Position Genomic:     53543
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61003):
AAACCTTCTGAGAAATGACTCGGACTCTTCGTGCAACCCGGAGGCACAGCCTCCTTCATCCCTTCCCAATTCAGAGCTGCCAAGATGCTGCAGTGTTTTG
M
TTTCAAAGGTCGCGATTTGATTTGCCAGACTGCCTGCCAGTCAGAAGTTGGCAGGCATTTCGCGCAGGCAAGTGGCTGCGAGGACGGGGAGTAGGCGGGA
Celera SNP ID:            hCV27828802
SNP Position Genomic:     6382
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,34)   caucasian(C,38)   total(A,2|C,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:61004):
GCTCAGCCCCAGTTCATGCTCTCCTGCCTTGCATCATCCATGGGCAAAACCCCACCTTGTCTATTTATACAGAAGAACAAAGCCAGCATCCCTGGGGTTG
G
CCAGAGTCCCTGCCAGTGAGCCCTGGGATGTGGGCACCTCCACAGTCTGCCCCTGCTCCTGCTCCCTCCCGGGGTGGGGGGATCCTGAGAAGCCCCCAGC
Celera SNP ID:            hCV26638310
SNP Position Genomic:     49616
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61005):
TGAACCCGGGAGGCAGAGCTTGCAGTGAGTGGAGATCTCGCCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCTGTCTCAGAAAAAAAAAAAAAAAA
M
AAAAAAAAAAAACACTTTCCTAGCGGTGATCTCTGCTGGGCCACCCCCACTCCCTGACAGAACTCCACAGCAAGTGGAGCTGACTGTCCAATCCGTTTTA
Celera SNP ID:            hCV26638311
SNP Position Genomic:     47909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61006):
CGTTGCACGAAGGCGGTGGTGTGCTGGTCAACCACCATTTACCCTCCTCGAAGAAAAGTGCTGAGATGTAGCATCTGCCCGTTTTTGTGACATAAATACT
S
CCACCGTGGCCAATTTCAAGCCACCAGCAGCAACATTTTGGAATTTTTAACAGTTGTCCTCACAAGCTGCCGCTGGCCAGCTCCAGCTGCCGCTGCCTGG
Celera SNP ID:            hCV3124870
SNP Position Genomic:     35663
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,8)      total(G,4|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61007):
GGTGGTGTGCTGGTCAACCACCATTTACCCTCCTCGAAGAAAAGTGCTGAGATGTAGCATCTGCCCGTTTTTGTGACATAAATACTCCCACCGTGGCCAA
Y
TTCAAGCCACCAGCAGCAACATTTTGGAATTTTTAACAGTTGTCCTCACAAGCTGCCGCTGGCCAGCTCCAGCTGCCGCTGCCTGGAGGACTCTCTTTTT
Celera SNP ID:            hCV3124871
SNP Position Genomic:     35677
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-)   (T,-|C,-)   Caucasian(C,27|C,38|T,46|T,55)   African-American(C,34|T,50)   Asians(T,42|C,42)   total(C,141|T,193)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61008):
CTTCTTGCCATTTGCCTTGGACTCAAGCCAGTATGCAAAGTGGCAGAATTAAAGTGTGTTAAAGCCCAGGAAAGTTGTGAGCTTCAGCAAATGAAAACAC
R
AGATGTCCAGTTAAATTAGAATTTCAGATAAATGGCAACTCTGTTAGTACAAGTATGTCCCAAATATTGCATGGGATATACTAAAATCATCATCTGCAGT
Celera SNP ID:            hCV3124872
SNP Position Genomic:     35933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61009):
CATGCCCAACTAATTTTTGTATTTTTTTTTTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTTGTCTCAAACTCCTGACCTCGTAATCCATCC
R
CCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACAGCTTCCAGCCAATCTGACATATTTTTTAAAAAGTTCCTTCCAGCTGCTGTGTGGTGAA
Celera SNP ID:            hCV26638312
SNP Position Genomic:     45136
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61010):
CTCTGTTAGTACAAGTATGTCCCAAATATTGCATGGGATATACTAAAATCATCATCTGCAGTTTATCTGAAATTCTAATTTAACTGGGCAGGTAGGATGG
M
GCCGGCATTTAGGTCTTGCATTTTGTCTGGAACCCCTAGCTCCTCAGACACATATGAGTGCTCAGAAAATTCTTGCAAACTGATGGTCAGGTTCAGAGTG
Celera SNP ID:            hCV3124873
SNP Position Genomic:     36072
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61011):
CATTTATTATACCATTTCCTTTTTTCCTTCATAATATTGATAATTAATAATTATTTTTCTGACTACAAAAATCCTGCCCACCTTCTATGATGGATTCAAG
S
TTTTTTTTGAGACGGAGTCTTGCTCTGTTTCCCAGGCTGGAGAGCAGTGGTGCAATCTGCAGGCTCCACCTCCTGGGTTCACACCATTCTCCTGCCTCAG
Celera SNP ID:            hCV26638313
SNP Position Genomic:     43532
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61012):
CACTATCTACTATTTAAACCTAGAAGAGTCACAGTGACACTTCCTGTGTCAGCTTTCCTAGATTCAGGGACTCTGGAAGCTCAAAAGCACCCAAGGCCCA
W
CACCTTGGACTTACAAATAAGGAAGCCCAGAGAGGTGACTTGCTCAAGATCACTTAGCGTGTGGCAGCACTGAGACTACAATTTCTGATTCATAACCCGG
Celera SNP ID:            hCV3124874
SNP Position Genomic:     36306
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,6)      total(A,6|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61013):
TTTTAACTGTTTGGCTCTTTCCCATTTTCTGTCTGGTTTCCCATTTGTCAATTTAATGATAATATATTGTCCCTCTCTAGGATATTTGCAGCCCAGCCTC
Y
GATAAAAACAATAGCAGCCACCATTTACTTATCCTTACTATGTGTACTTTTAGACTGCCTTTTATCTCTAATCCTCAGAACAATGCTGAAAGGAAGGGTT
Celera SNP ID:            hCV26638314
SNP Position Genomic:     32471
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61014):
AATTTCTGATTCATAACCCGGTGGGGATTTTTTTAATCCTATGTAATCTCATTTGAGAATTAGTTTGGTTTCGTGGTTAAGAGCAGACTCTGTGGTCAGA
R
TGCCTCGGTTCTGGCTCTGACATTTACTAGTTATGTGGGCCTTATCTCTTTTGGCCCCAACTTCTTTAAAATGGAGATTAAGTGAGCTAATAGTACATGT
Celera SNP ID:            hCV3124875
SNP Position Genomic:     36486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61015):
AAACTTCCTTAAACAATGTGTTATTAGCCGGGTGCAGTGGCTCACACCTGTAATCCCAGCAGTTTGGGAGGCCAAGGTAGACAGATCACCTGAGGTCACA
R
GTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGAGTGGTGGCGCACACCTGTAGACCCAACTACTGC
Celera SNP ID:            hCV26638315
SNP Position Genomic:     31522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61016):
TGGAGCATCCTTAGCATTTCACACCACTCAGCCAACTTCTGTCAACATTTACTTCCCCCTGGTAACTAGCATGGGAAATGCAATGAAAGCCCGATGAGCT
S
CCGCAGCAGAAATGAACTTGGAAGTGACCTCTCACTTATTCCTCTCTCACATGCCTGCATCATTCAGCACTTGAGCCTCAAGAGCTTGCCTCTTTTTGTC
Celera SNP ID:            hCV3124876
SNP Position Genomic:     37535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,6)      total(G,6|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61017):
GTTTTGTTCAGGTTTCATATATCTTTACTGATCTATCTACTTGTTTAAATTATCGAGGGAGATGTTTTGAGATCTCTGACTATAATTGTGAAATTTTCTA
Y
TTTTTCTCGCAGTTTTATCAGTTTCTGCTTCTTATATTTTCAATCTCTTTTTATTGGGTACATCAGCATTTAGGACTGTTATGTTCTCTTGAGGAGCTGA
Celera SNP ID:            hCV26638316
SNP Position Genomic:     24938
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61018):
CTTCCCTTTCAGAATGATATCCCAGGACCTGGGTTCTACAATGTTATTCACCAGTCACCGGTGTCCAACAGTGTCTCATTGTCCAAGAAAGGAACTTGCA
Y
GTTTCCCTCAATGGTGAGAACCACTTCTCTTGAGTAAAGCATTAACTGGTCAGTAATTTCCTTCATTCATTGCATAATTATATATTGGACATCTGGTCCT
Celera SNP ID:            hCV3124877
SNP Position Genomic:     38250
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,27)   caucasian(C,2|T,38)   total(C,11|T,65)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61019):
CCTGACATTGGAATTGATTTTTTTTTTTAACCACACAAAGGGACCATTTAAGACACACTAAATGTAGCTACATCTTATTGGAATTCGAATTTGGCAGAAT
Y
GGATACTCAAGGAACAGACCAGCTTTGGAGTTAACTCCCCATTACCGAAGAAGCTGAGTTTGTACATGGCCTCAGTAGGTCCACAGAACAGCCATGCCTC
Celera SNP ID:            hCV3124878
SNP Position Genomic:     39451
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61020):
CTAGCACTTTGGGAGGCTGAGGTGGGGGGATTGCTTGAGCTCACAAGTTCAACACCAGCCTGGGTAAAATAATGAGGCCTCATTTCTACAAAAAAAAAAA
A
GCTGGGCACAGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGT
Celera SNP ID:            hCV11466770
SNP Position Genomic:     51376
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61021):
CTCAGCTGTGGATTCTTGACGTGACCTCAAGCACGTCACCCTTCTGTGTCCCAGTTGCCTCATGAAAGTGGAGACTCCCTGGAGGCACTGGGCAAATTAA
Y
GTTGCAATGAGTGAAATGCTCTTTGAAACAGCAAAGCATTATAAACATGCTAAATATTATGATTGTTACCACCTGAGTCACAAACAATACTTCCTGCAAC
Celera SNP ID:            hCV3124879
SNP Position Genomic:     39754
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61022):
TTATTCACCAGTCACCGGTGTCCAACAGTGTCTCATTGTCCAAGAAAGGAACTTGCATGTTTCCCTCAATGGTGAGAACCACTTCTCTTGAGTAAAGCAT
K
AACTGGTCAGTAATTTCCTTCATTCATTGCATAATTATATATTGGACATCTGGTCCTTTCTCTCCAAAGGCCTATGGTTCTAATTAGGAGAGTAACTGCC
Celera SNP ID:            hCV25994709
SNP Position Genomic:     38293
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,35)   caucasian(T,40)   total(G,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:61023):
GCCCACCCTGCCCAGCGTCCCCAGGACATTCCTCAGGAGGAGACCGATCATGAGTGTGGCAGCTGACAACTTGGGGGGTGGCTCTACCACTCTGGCCTGG
Y
ATCCTAGCCGGACTGCTGCCATTGCCTTTGTCTTGAGCTGGAGACATTGCTCCCTGGAGACTTCACCCCAGCCCCACAGACTCCAGTGGCTTCCTGAGCA
Celera SNP ID:            hCV25993113
SNP Position Genomic:     63762
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,38)   total(C,70|T,4)
SNP Type:                 UTR 3


Context             (SEQ ID NO:61024):
TTTGCGGGTGTAGCATTACACACTTAAAAAAAAACACTTTCCGGCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCG
K
ATCACGAGGTCAGGAGATCGAGGCCATCCTGGTTAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCTGGGCGTGGTGGTAGGCACCT
Celera SNP ID:            hCV27480679
SNP Position Genomic:     47667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61025):
AAATAGCTATTACCCTTATAATGATAGCTGTGGTTATTGTATATCCTATAGACCTACTAGGCTATATTATACAATACAGCTGTTATTTGGCATGGCAGCT
M
AAGCCCCCAGCCCAAATTTGGAAGCTTCTTCAAGGAAAATGGTGAAATAACATAAGAGTGGAGGATGCTCAATTTTTAACTGCTTTATCTGGAGAAATAT
Celera SNP ID:            hCV27922796
SNP Position Genomic:     54742
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61026):
ATCTCTGCGTTTTACCTCATTCCCGTGTGAACTGGATGAGAATTTCATATCCCCCACCCCACCGCCTCTTTCAGTAACTTTCACCTTTAGCACCTCCTCC
R
CTTCTGCATCCCAAGACTTAGAGGGAATTAAAAGTAGCTCTCATCAGAGAAAGATCAGAATGACCAGTAGGAATGTGATTATGGGTGAGGCTGACCAAAA
Celera SNP ID:            hCV27922797
SNP Position Genomic:     40351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61027):
AGGAAGTGGAGGCTCAGAGAGTTGAAATGACTTGCCCAGTGTCACACAGCCAGTAAATGGCAGACACAAGCCCAGAGGGGTCTCACTAACGAGCCCACGT
Y
CTCCATCATTCCATTGTCCCTTCTGGAACCTCCAAGATTCAGGAATACACAAGAGCTTTCCTGCAAGTGTTTCCCCTGCCGGCCTTGGGGAAGGGTGTTG
Celera SNP ID:            hCV29188554
SNP Position Genomic:     49123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61028):
ACGTGACCTCAAGCACGTCACCCTTCTGTGTCCCAGTTGCCTCATGAAAGTGGAGACTCCCTGGAGGCACTGGGCAAATTAACGTTGCAATGAGTGAAAT
R
CTCTTTGAAACAGCAAAGCATTATAAACATGCTAAATATTATGATTGTTACCACCTGAGTCACAAACAATACTTCCTGCAACACCTAGGTTTTCTCTCCG
Celera SNP ID:            hCV3124880
SNP Position Genomic:     39772
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61029):
ATACAGGTAGGACATAGGTACCATGTGCTCTAGATGGGCACAATTTAAAAATATATGTTAATACCATTACATAGTAAATCTACCCTCCCAAATGGGAAGC
Y
AGCCAGTGGTTAATTTGTGATGAAATCGTACAAAGTTAATATTGTTCACTTATTAACTTGATATGACACTAGACCAGGGATGTTTAAATGAAAGAGGTTC
Celera SNP ID:            hCV29188555
SNP Position Genomic:     34174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61030):
TCCTGACATATGCTTATTTTAGTACATAAGAGCAAATTTGGGGGGAATAGTAAGTCCTGGGTTATATCCACAGGGCCATCCTTACAGGCATACCAAATAG
R
TGGCTTTAGGCCCTACTGTTTCAAGTGTGACGATTGGGAAGAAACTGAGAAGAAAGGATGAGAGAAGAAGGAGGAAGTCTGTTAAAAAATAAAAAACTAA
Celera SNP ID:            hCV26638321
SNP Position Genomic:     20965
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(G,358|A,1107)   total(G,358|A,1107)   TSC_42_C(G,34|A,48)   total(G,34|A,48)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61031):
GATTGTTACCACCTGAGTCACAAACAATACTTCCTGCAACACCTAGGTTTTCTCTCCGAGAACTTCTTTGCTAAATAATGGCACTGCCCATTCCTTCTTG
R
TGCCAACAAAGAGACTGAATCAGAGGACACGATTGGTTGTCTACAAGGCTTTGCGTGCGGTAACTTTCCAAATGAAAAGCCTGACTATCTGGAGGAGAAG
Celera SNP ID:            hCV3124881
SNP Position Genomic:     39915
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61032):
AGACATGCATGTATACATCGCAGCCTAGACAAAGGAACTTTTAACTTCAGTTTCTATAGATGATCCCTTTCTGCTTTTTAACCCCATGTCTGCTCAAAAC
R
GAAACGAAAACTTACACCTGTCTTGCACAGTGCCCTGAAAAGTGAGAGCCAGCCCCAGGCTGGGATTTCCCTAACCTCTTTGGATTTTAACGGCCTAATG
Celera SNP ID:            hCV29188556
SNP Position Genomic:     29977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61033):
AGATGTATTAACTTGTACAACTCAATAAATAACCCAATTAAATCCAATTGTTTTTGGGTTTTGTGGTTTTTTGTTTTTTTGTTTTTTTTTGTTTTTTTTT
T
GAGATAGGCTGTTGCTCTGTTGTCCATTCTGGAGTGCAGTGGTGCTGTCATGGCTCAGTGCAGCCTTGATCTCCTGGGCTTAAGCAGTTCTCCCACCTCA
Celera SNP ID:            hCV26638322
SNP Position Genomic:     19407
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61034):
GGCAGGAGTGGCTCTAGAAAAGTTAGTAGGTGCTGGAGAGAAGTTCATAAATGCCGGCATTTGGCCAGATTGGAGGCCACAGGCCTGGCAAGTAAACCAA
S
GGGTGTGTAGTGTTGGTGAGTGAGTGTTACTGTAGCCACATTCTGAGACTAATTCTATTACGATACTTTATAAAACATTGCCTCTACTGGGACTTTTTTG
Celera SNP ID:            hCV3124882
SNP Position Genomic:     40772
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,6)   total(G,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61035):
TTGGGAAGAAGTTTTTTCATTTTCAAAATGTAAGTTGTAGGTGTTCTAAACCAAAAAAGAGTCTATGATTGAATGGGCTTGCTGTTATCCCAGAGCCATG
Y
CGCTCAACCCTTTCCCCTTTAGAATGGGCTCTCTGATCCATGTCATGTAGTGGAGGCTGACTGCTTGGGTAGGAATGCTGGTCCTCCGCCTGAATTAGCT
Celera SNP ID:            hCV3124883
SNP Position Genomic:     40970
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61036):
TCATTTTCAAAATGTAAGTTGTAGGTGTTCTAAACCAAAAAAGAGTCTATGATTGAATGGGCTTGCTGTTATCCCAGAGCCATGTCGCTCAACCCTTTCC
Y
CTTTAGAATGGGCTCTCTGATCCATGTCATGTAGTGGAGGCTGACTGCTTGGGTAGGAATGCTGGTCCTCCGCCTGAATTAGCTGGGGAAGTTCAGCTTC
Celera SNP ID:            hCV3124884
SNP Position Genomic:     40986
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61037):
GAAAGAAGAAGGCGCTGGGTGCGGTGGCTCACTCCTGTAATCCCAGCAATTTGGGAGGCCAAGGTGGGCAGATTACTTGAGGTCAGGAGTTCGAGACCAG
Y
CTGACCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGGAGTGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGCA
Celera SNP ID:            hCV26638325
SNP Position Genomic:     16986
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61038):
AAGAGTCTATGATTGAATGGGCTTGCTGTTATCCCAGAGCCATGTCGCTCAACCCTTTCCCCTTTAGAATGGGCTCTCTGATCCATGTCATGTAGTGGAG
R
CTGACTGCTTGGGTAGGAATGCTGGTCCTCCGCCTGAATTAGCTGGGGAAGTTCAGCTTCCTCATCTGTAAAGTAGAGATAATCATAAGATCCACTGCTC
Celera SNP ID:            hCV3124885
SNP Position Genomic:     41026
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61039):
CAAGCCCCCTGGAGCTTTGTTTGAAGCAAACTCGTTGCTTAGGCAGTTCAGATCATTTAACCTTAGAAACAAGATGTGAGATTTTACTCAGAAGAAAAGC
Y
TAGGCTGAGAAGAGCATCTAAAGCTTCCTATCACATAAATTACCCAACAGCTGATGAGTCAAGGGTAAGTGGCCTGGAACAGGATTGGGTGGAAATGCAT
Celera SNP ID:            hCV9874913
SNP Position Genomic:     41979
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61040):
CTGCATGTAGCCACTTCTTATTAGAATTCGAGTTTGGCAGAGTTGGATACTCAAGGAACAGATCAGCGTTGGAGTTAACTTCCCATTACTGAAGAGGCTG
R
GGTTGAGCTGGGGCTTGAACCCAGGTTAGGCTCTGAACAACTTAGGCTCTGGACAAGAACACTCCCGCTTCTGGTGCTACACCCCCCCAAATGCTAGTGG
Celera SNP ID:            hCV3124886
SNP Position Genomic:     41359
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   JBIC-allele(A,696|G,795)   total(G,795|A,696)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61041):
TTACTGAAGAGGCTGGGGTTGAGCTGGGGCTTGAACCCAGGTTAGGCTCTGAACAACTTAGGCTCTGGACAAGAACACTCCCGCTTCTGGTGCTACACCC
M
CCCAAATGCTAGTGGGGGTCCATAAACCAGACGCTGAGGACCGTCACCACCAAGCACAGAGTGAAGTAGGGGGGCCCTAATGCCTTCCTTTTGGCTCACC
Celera SNP ID:            hCV3124887
SNP Position Genomic:     41444
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,6)      total(A,3|C,6) ;(A,-|C,-)   JBIC-allele(A,323|C,400)   total(A,323|C,400)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61042):
ATAATATTGATAATTAATAATTATTTTTCTGACTACAAAAATCCTGCCCACCTTCTATGATGGATTCAAGCTTTTTTTTGAGACGGAGTCTTGCTCTGTT
K
CCCAGGCTGGAGAGCAGTGGTGCAATCTGCAGGCTCCACCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTTGCTGGGACTACAGGCACCC
Celera SNP ID:            hCV11466782
SNP Position Genomic:     43562
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,5)   total(G,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61043):
CCAGCATGTTCCAGTTGCCAAGCTTTATGAAAGCTCTCAAGTTTGAAACTCCTGCACCAAACTATTACAATGTAAGAACTCTGCCTATGCTTGCTAAATA
Y
AGATCGAATTAATGGTTTACTAAAATAAAAGGAAGAGGGGATCTTGGGGACATCGTATTTTAATGCAGTTGTCAAGCCAGTTAGCATTTGTTGACTACCC
Celera SNP ID:            hCV11466785
SNP Position Genomic:     42543
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,6)   caucasian(C,20|T,8)   total(C,30|T,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;(T,-|C,-)   JBIC-allele(T,519|C,588)   total(C,588|T,519)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61044):
CTTCAGATCCACAATATTATGTGACAATGCTGATTCCTTTGGTTGTCTCCTTACAGTGCGCCCGATTGGACACCATCGTTTCTAAATACCCTGCAGCGAA
Y
GCATACACTATCCCATCGGATTTTATTTCCAAGAGAGACTTTAGTAATTCGTGTTCCAGCATGTTCCAGTTGCCAAGCTTTATGAAAGCTCTCAAGTTTG
Celera SNP ID:            hCV11466786
SNP Position Genomic:     42387
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,10)   caucasian(C,8|T,20)   total(C,14|T,30)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,8)      total(C,7|T,8) ;no_pop(T,-|C,-)   JBIC-allele(C,517|T,592)   total(C,517|T,592) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61045):
TCACCATCTTTTTGACATCTGTCCTTCAGATCCACAATATTATGTGACAATGCTGATTCCTTTGGTTGTCTCCTTACAGTGCGCCCGATTGGACACCATC
R
TTTCTAAATACCCTGCAGCGAATGCATACACTATCCCATCGGATTTTATTTCCAAGAGAGACTTTAGTAATTCGTGTTCCAGCATGTTCCAGTTGCCAAG
Celera SNP ID:            hCV11466787
SNP Position Genomic:     42364
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,11)   caucasian(A,26|G,14)   total(A,51|G,25)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,8|A,8)      total(G,8|A,8) ;no_pop(G,-|A,-)   JBIG-allele(G,518|A,591)   total(G,518|A,591) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61046):
CGAGTACAGGTCTGAACTTGCGTTTTCCAAGGGAAGATCCTCAAAGCCCGAGGTCAGTTTATCATTGTTACCTGCCAGAGTTTCGCCTTTTATAAAATGC
R
TTTAGACCTTGTGCTGGTCACCATCTTTTTGACATCTGTCCTTCAGATCCACAATATTATGTGACAATGCTGATTCCTTTGGTTGTCTCCTTACAGTGCG
Celera SNP ID:            hCV11466788
SNP Position Genomic:     42246
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,14)   caucasian(A,26|G,10)   total(A,46|G,24)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,8|G,9)      total(G,9|A,8) ;JBIC-allele(G,606|A,689)   total(G,606|A,689)
SNP Type:                 INTRON


Context             (SEQ ID NO:61047):
GATGAATAATTTGAGTTAGTTTACAGAAGCGAGTACAGGTCTGAACTTGCGTTTTCCAAGGGAAGATCCTCAAAGCCCGAGGTCAGTTTATCATTGTTAC
C
TGCCAGAGTTTCGCCTTTTATAAAATGCGTTTAGACCTTGTGCTGGTCACCATCTTTTTGACATCTGTCCTTCAGATCCACAATATTATGTGACAATGCT
Celera SNP ID:            hCV11466789
SNP Position Genomic:     42217
SNP Source:               Celera
Population(Allele,Count): no_pop(-,8|C,9)   total(C,9|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61048):
TTTAGGTTCTTCTAGGGAAAATAAACTTTCATATCAGAAAATAGGTGTTTTAACAGTCGTGCCCTGCTGTGCCAATTATGATCGCTTTGTATTCACTGAC
R
CAGAATGGCATGGATGGTTAAGAGATGGACTCAGGAAGGTTTGGTTTAGCTCTCATCTGTTGCCACTTTCTAACTGTGCGGCCTTCGGCAAGTCCCTTAA
Celera SNP ID:            hCV3124894
SNP Position Genomic:     42968
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61049):
AGAGATGGACTCAGGAAGGTTTGGTTTAGCTCTCATCTGTTGCCACTTTCTAACTGTGCGGCCTTCGGCAAGTCCCTTAACCTTTCCAGGGCTTAGTTTA
Y
TGATCTGTAAAATGGTGATGTATGTTCACCTCATCGTGTTAATGCAAATATTAAATGAGATAATGTATGCTTCATGCCCAGGACAGCACCAGTCACACAA
Celera SNP ID:            hCV3124895
SNP Position Genomic:     43089
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61050):
TTTTTGCCAAGTCCCAAACAGAAGATGAATAATTTGAGTTAGTTTACAGAAGCGAGTACAGGTCTGAACTTGCGTTTTCCAAGGGAAGATCCTCAAAGCC
Y
GAGGTCAGTTTATCATTGTTACCTGCCAGAGTTTCGCCTTTTATAAAATGCGTTTAGACCTTGTGCTGGTCACCATCTTTTTGACATCTGTCCTTCAGAT
Celera SNP ID:            hCV11466790
SNP Position Genomic:     42194
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,9|T,10)      total(C,9|T,10) ;JBIC-allele(C,526|T,597)   total(C,526|T,597)
SNP Type:                 INTRON


Context             (SEQ ID NO:61051):
GGGACTTGCACAGTTACCCAGCTTGAAGGCATCATTTGCACTTCAGTGGGCACCAGTGGATGGCTGGGGTGGAAAGCTGGGGAATGATCAAAGTCACCTC
R
TTCCAGCCCTGACAGGCTTCCCTCTGTGGATCCTGTTGCTCCTCTGTGCCAGGCTGGTGATACAGCTTAGATTCCAGTGGGGAATTCAGAAAAGAACAGG
Celera SNP ID:            hCV3124898
SNP Position Genomic:     44393
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61052):
GGTGTGATCTGATGCTTTTTTTTTAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCCGCCTCCCCA
R
TTCAAGTAATTCTCCTGCCTCAGCTGGGATTACAGGCACATGCCACCATGCCCAACTAATTTTTGTATTTTTTTTTTTTTTAGTAGAGATGGGGTTTCAC
Celera SNP ID:            hCV3124899
SNP Position Genomic:     44989
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61053):
GTTTAGGTTTTACTGCTGCATATCCAACACAATCCTCCATTCCTTTTAAATCTCAAGCTTCAGTAATCCCAGAATCAGAAAAAAAAGGATTCAATAGTCA
R
GCCAAGAGATTTCCTCATAAGAAGGTAATGACGTTGTCTCAGGGGTTCTTTCGTTTTAGTCTGGATTTTAGCCTTGCGGGACAGGCACGTTCTGTCTGGC
Celera SNP ID:            hCV16187223
SNP Position Genomic:     30578
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,4)   caucasian(A,26|G,10)   total(A,56|G,14)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61054):
ATTATGATGCCTGACATTGGAATTGATTTTTTTTTTTAACCACACAAAGGGACCATTTAAGACACACTAAATGTAGCTACATCTTATTGGAATTCGAATT
T
GGCAGAATCGGATACTCAAGGAACAGACCAGCTTTGGAGTTAACTCCCCATTACCGAAGAAGCTGAGTTTGTACATGGCCTCAGTAGGTCCACAGAACAG
Celera SNP ID:            hCV11466794
SNP Position Genomic:     39442
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61055):
ACATCCTCTGGAAGCATTGCCCGAATGACTTTTCCATGCCGTATGTGGTGCTAGGCACCTGGCACACAGAGACAGGCAGCTCCTGCCGCTCTGATCACCC
R
TGCCAAGGTGGGCTTCTGCGAGGGGTTTCCTGGGCACGTGCACGTGCCGGCATCTGCCTGCTCAGCTTCCAGTAAACTCAGGTATACCTGGACTACCATG
Celera SNP ID:            hCV27992462
SNP Position Genomic:     62922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61056):
AATGCCCAGCACAGGTCCTGGGATGCAGTAAGCATCCAATCAATGTTTATGACATCAAAGGAATAACTTTCCAGTAGTATGCAGCTGTTAATCTAGAAAG
K
ACCTCTTCCCAAGATAGAATTGTGTCCTTCTGCCAATAGATACATTTAGGCGCATGTTTTTTGTTCATTATTGTCTTAATATGACCCTGAAAATAATACA
Celera SNP ID:            hCV3124900
SNP Position Genomic:     45636
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61057):
CTTCCTGGCCTCCCCTTTTATGATCTGGCATACCTGCTCTGGGCAGCCAAGTGGAGAAGTGGCTTCTCACCTCAGAAATGTGCACATTCGTATACCCCAG
S
TGCCATTAGGGGCCACTGGGGAGGGGCAGGAGATACAGGGCATGACCATACATCCTGTTCCTTCAACACTGAGCTGCCACGTTCATTTTCTCCTATGCTA
Celera SNP ID:            hCV3124902
SNP Position Genomic:     48784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,9)      total(G,2|C,9) ;JBIC-allele(G,525|C,598)   total(G,525|C,598)
SNP Type:                 INTRON


Context             (SEQ ID NO:61058):
GCAGTCTTGCAGGTCTGCCGTCATAGGTTCATCCACTTAGCCCTACTTTTCAGATGAGGAAGTGGAGGCTCAGAGAGTTGAAATGACTTGCCCAGTGTCA
Y
ACAGCCAGTAAATGGCAGACACAAGCCCAGAGGGGTCTCACTAACGAGCCCACGTCCTCCATCATTCCATTGTCCCTTCTGGAACCTCCAAGATTCAGGA
Celera SNP ID:            hCV3124903
SNP Position Genomic:     49067
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,15)   total(C,15|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61059):
GAAGGTTTGCTTCTGCAATCATGCCTCTTGCAGAGGGGTGTGGATAAAATTGTAGTGCATGTGAGATTTCAGCAAATCCAGATTAAAGTTGAAAAGATCA
R
TCTGAAGCTGAATAACAAAACCAGCGCTAATTAGGAGGCTCAGCCCCAGTTCATGCTCTCCTGCCTTGCATCATCCATGGGCAAAACCCCACCTTGTCTA
Celera SNP ID:            hCV3124904
SNP Position Genomic:     49478
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61060):
ATGCTGCTGACATCTGCTTCTTTAAAAATTTAAGCATATACTGGGAACATTTTTTTTTTTTTTTTTGAGAGGGAGTCTCGCTCTGTTGCCCAGGCTGGAG
W
GCAACGGTGCAATCTCGGCTCACTGCAACCTTCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAACAGCTGAGAATACAGGTGCACACCA
Celera SNP ID:            hCV3124905
SNP Position Genomic:     50610
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61061):
TTCTTTAAAAATTTAAGCATATACTGGGAACATTTTTTTTTTTTTTTTTGAGAGGGAGTCTCGCTCTGTTGCCCAGGCTGGAGAGCAACGGTGCAATCTC
R
GCTCACTGCAACCTTCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAACAGCTGAGAATACAGGTGCACACCACCACACCTGGCTAATTT
Celera SNP ID:            hCV3124906
SNP Position Genomic:     50627
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61062):
CTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAACAAAAAAAGTAAATAAAATATATGTTTGGCATTGGCATTGCAGCTGGTGACTCAA
W
ATTAACACAGATTTTTAAAAGTAAATACAGGGATTTTTGTTACCCTGTTTAATATCCTACACATTTTATATTACTCTCACCTAAGAGGCTCAAATACTCA
Celera SNP ID:            hCV3124908
SNP Position Genomic:     53506
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61063):
CCGTGACCAGTCCTCTTCCAGACAGCTTGCTGCTGTGCAGGTCTTGGCTGTGTCTAGAAACTGTGCCTTCCCCACTAGACTGCCTTAGTGACATCTTCCC
R
TTTTATCTTTCCCAAAGGAAAAACCCCATCCTGAACTTCTCTGCTCAGCCTTCGCCTCTGCCTCCGAAGCCACCTTTCCCAGGTCCTGGTCAGTATGAGA
Celera SNP ID:            hCV25998599
SNP Position Genomic:     61108
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,36)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:61064):
TAAGTATAGCTAATATGTCAGAAATGAAGATAAAATGAGGCCATAAGTAATATGCACTTACTCTCAAAAGATCCAAAAAAAAGAGACAAGGGCCAATATA
M
CAAGTAGGAAATTGATAGGTTTAAGCCCAGCCATATCAAGTGCTACATTAAATGTAAAAGTTCTAAACACTCCAATCAAAAGGCAGAGTTTGATTAGATT
Celera SNP ID:            hCV7556659
SNP Position Genomic:     16040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61065):
TTTCATCTCTAGTGCATCATTCGTGTCCAATACCAGCCGGTGGACAGCGGCGCCGCCTCAGCCAGGCCTGCCTGGCCCAGGTCAGAGGATTGTTTTAAAT
R
ATTGTAAAAACCAAATCTTCTGGAACTGTTTGTCATTCTTGGGTCATCAAATGCCATTGATTTATAGGTTGTTTCCCAAATAGGTTACAGGGATGAGGGT
Celera SNP ID:            hCV25995544
SNP Position Genomic:     61337
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Gene Number:                 337
Celera Gene:                 hCG20040 - 145000147808724
Gene Symbol:                 PS1D
Protein Name:                putative S1 RNA binding domain protein;HSPC251;pNO40
Celera Genomic Axis:         GA_x5YUV32W802(51784023..51864604)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12497):
AAATTAACAGTGATTGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACCTGCGGTTGGGAGTTCAAGAC
CAGCCTGACCAACATGGAGAAACCCAGTCTCTACAAAAAATACAAAATTAGCCAGGCACGGTGATGCATCCCTGTAATCCCAGCTACTCTGGAGGCTGAG
GCAAGAGAATCACGTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAATTCCGTCTCAAA
AAAAAAAAAAAAAAAAAAATTAACACTGATTGTCTTTGGAGTGGTAGAAATATAGACTATTTTTTCATCTTTCTGCTTTTTTTGGTTTCTCAAAAGAAAT
GATTTTTATAATAGAAATAGCTGATTTCAGGCCAGGCATGGTGGTTAATTATTGTAATCACAGCATTTTTGGGAGGCTGAGGCAGGTGGACTGCTTGAGC
TCAGGAGCAATATAGCAAGACCATGTCTCCACAAATGATTTTTAAAAATTAGCTGGGCATGGAGGCGTGGGCTTGTGGCCCCAGCTATTTGGGAGGCTGA
AGTGGGAGGATCCCTCGAGCAAGAGGTTGAGGCTGCAGTGAGCCATGTTTGTGTCACTGCACTCCAGCCTACATATAAAAATCACATTTATTTTATGTCT
TAAAAAAAGAAAAATTTGTCTGGGTTGTTGAAATGACCGATGTAACATCTTTATATTTGCATACACAGACTATAAACACCTCACTTGGGGTGACAGTGAT
AAATCGGATACTAAAGTAGCTACCCAAAATTAGTAGTTTTTGATAGCAGGGTCTCCTGAGAAAGGATGAAAGGTGAAAGGACGCCAAGAATTAGTATGAG
AAGCTGTCCTTCCATTATGCAGAATACTCACCTGCCATCTGTGTTGTAATGCAATTCCATCACTGCTCCACTGTGTCCCTTCAGTGTGGCATAGTTATCA
CAGTCACCATAGACATTCCACAGTACTGTTAGGGAGATGGGTTCTGTGAGCATTACTAGGCAAAGGGTACTTATAAATTTATCAGAACAACAGTTCTCAG
GCCAGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGACGGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCGTGGCTGATACG
GCGAAACCCCATCTTTAATAAAAATAAAAAAATCAGCCAGGTGTAGTGGCAGACGCCTACAATCCCAGCTCTTGGGAGACTGAGGCAGGAGAATCACTTG
AACCCAGGAGACGGAGGATGCAGTGAGCCGAGATCGCGCCACGGCACTCCAACCTGGGTGACAGAGTGAGACTCCGTCTCTAAAAAGCCAACCGACCAAC
CAAACAAAAAAAACTATGTAGTTTGTCTGATGAAATTAAGCCTATCAATAATTCATATATGTTCTGCAAAGATCCCTAAGCAATCCAGACGTTTGGCCAC
TAGTAAGCTTAAGGATCATAGAGCCGGAACATCCAAATCAAAATGGGCAGTGAAGACGGGTATCATCCACCCGGCACCGAGGAAAAGAGTTAACAGAAAA
GAGCCAAATAACTCATTTCATCTCATAATCTGGCAAGAAAGTAGCAACAGAAGCATCTGATTTTTTTTCCTTCTGGCTTCATTTGCTGGAGTATAAATAA
AACGACTTTTTCTACTTACTTCTCAAAAATGGGTATGAGAAATTCTTATTTCTCAAAAATGGAAATCTGGTAGTAGATCCTAATGATGTACAGGTAGATT
ATTTAAGGGAGTTACCACTTTAGGATTCCTTCCTTCCCATATGCTAGCTAGGATTCTGGGTGTGAATTAAGAGGACCTTATACCTTTGGGAAAATAAAAG
TTATTTCTCTCCTCATTACTGCCATTAACCTGTTATGTCTAGATTGCTAAGTGCCTTGGTAAATTAGCTGGAGATTTGCCTCTATGAGGAAGACATTCTC
AAACCAGAACAACTCACTTTCCAACTAGTAAAATAATGGCTTCTGTATTTACCCCATGGACTCCAAGTTCTACACCCAAGATCATTCAGCATGTTCATGC
CCCAATTTTAGCATATTAGCCATGCAGCCTGTTATGTTGCCAACATAGAGTGATACCTTCTGTGGCACCCAAGATTTAAAAAAAAAAATCACTATCTGGC
AGGAAAAATTATTCCAGATTCAAAAACTATGCCTCACATATCAGTCGGTCAAATCCTGCAGATGCTAAGGTGGATCCGTTGGGGTGGAACTTGCAGCAGT
AGACTTCCCCTTCATGTCCAGAGAGCAGCATGATTGGGGCTTGAAGGGAGGAACATCTTGGAGGTCCCTAAACAAAAGAGAAGCACAAGGTAACTACTGC
ATACAGACAAAGGAGGCTACAAAATTAGGGGGTGGGGAGTGGAGGGAAAAGACCAAGAAAACAATGATTAAGTGGGTTTCATCTGACTTACAGAATGGTA
GCTCTTCTCATATGAATGCCTCCAACTTGACACTCTCTGAAACTTTCCATTATCTACCTGTTATAATGACTCTCTTGTTCACTCTCTCAGCTCTTGTTGT
ACGACCAACTTTTTTTTGGAGATAGGGTCTCACTCTGTCACCTAGGCTGGACTGCAGTAGTGCGATCATGGTTCACTGCAGCTTCAAACTCCTTGGCTCA
AGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCCAGGACTACAGGCATGAACTAGCATGCCATGCTAATTTTTTTAGTTTTTGTGGAGATGAGGTCTTGCT
ACGTTGCCTAGGCTGGTCTCAAAATCCTGGCCTCCCTCCTTGGCCTCCCAAAGCACTAAGATTATAGGAATGAGCCACCACATTTGGCCTGGCTCATTTA
ACAAATGATGGAACTGACTTTCCCAACAACTCTGCTTGGTATGGAGTACTGGGTGAAATAGTTTTGTTTTATTTTTAATTTTTTTTGTGTGTTTTGAGAC
AGAGTTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTATGCTTTCTGGGTTCAAGGGATCTGGTGCCTCAGCCTCC
CGAGCAGCCAAGATTACAGGCATGCACGACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAAC
TCCTGGCCTCATGTGATCTGCCTGCCTTGGCCTCCCAGAGTGCTGGGATTATAGGCATGAGCCACTGCACCTGGCCTATTTTTATTTCTTATTTTTTCAT
AGCAAACGGATCCTCAGCATGGGTGAAGTAGTTTTGATTATGGTCTTGGACACCAAGATGACACTTGGGCAATTCATCTAAACATGGGCTGATATGCTCA
CTTGTCAAATGGGAGAAGTATACTACCCATAATCCCCAAATCTCTTCAGTACTTCCCAGCATTTTCATATTTATTTATTTATTTATTTATTTTTTGGGGA
AGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTACAATGGCGTGATCTCGTCTCATCGCAAACTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCATCAGCCT
CCCGAGTGGCTGGGATTACAGGCACCCACCACCAAGCCCGGCCAGATTCATTTAGTTTTAAAAAATGTTATGTGCAGGCTGGGCGCGGTGGCTCACACCT
GTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACTTGAGGTCAAAAGTTTGAGACCAGCCTGACCAACATGGTGAAACTCCGTCTCTACTAAAA
ATATACAAAAATTAGCCAGGCATGGTGGCGGGCGCCTGTAATTCCAGCCACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGTGGCGGAGGTTG
CGGTGCACCGAGATTGCGCCACTCCACTCCAGCCTGGGTGACAAGAGCAAAATTCCATCTTAAAAAAAAAAAAAAGAAGTTACGTGCTAGGCACTGGGCA
AACAGCAATGAACAAAATAAACAATGGAGCTCGCTGTTCCAGTGGGAAAGGGGGAAGGGAGAAGGGAAGGTGAGAGAAAACAAGCAAACTATATATGTGG
TGTCATGTGCTATAGAGCAAAAGAAGGGATGGGGATGGTGGCTCATGCCTGTAATCTCAGCATTTTGGGAGGCCAAGGTGTGCGGATTGCTTGAGCTCAG
GAGTGAAATCCTGTCTCTACAAAAAAATACAATTAGTTAGATGTGGTGGTGTGTGTCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGGATCACTT
GAGCCCAGGTGGTGGAGGCTGTACTGAGCCAGTGGTCAACACAGAGAGATTGTCTAAAAACAAAAAAACAAAAAAAGAGAGAGAGAGAAGCAATGTGGGT
TCCACAGTATGTGGTACTGCAATTTAAAATAGGGTGGTCAGGAAAATCCTCACTGAAAAAATTACATTTGGGCAAATATTCGCAGGAGCTGAATAGTAAA
CCATGTAAACATTTGTGAAGAGCAATCCCACAGAGAGGACAGCAAATGCAAAGGTCCTGAAGCAGAGGCTTGGAAGAGAGAGTAACTGAAGCCAGGTGAG
CAATAAGAAATTGGTCAGAGAGGTAAAGGGAAAGAGGGCAAATAATTACAAGAATTTTGGTTTTTACTCTGGATGAAGTACAAAGCCACCAGAAAGTTTT
CTGCAGAGTGTAATGTGATCTGATGTTTAGAAGGATTCCTTTGGTTATTGGCTTGGTAACAGGTGCTGATACAAAGGTAGAAAGTGGAAGACCAGTTAGG
GTCCCACTACAAAAATGCCAGATGAGATAATAATGGCTTAGGCCATGAGGCAATGATGGAGATGGTAGAAGTAGCAATTCTAGACCTATTTTGAGGACGG
TGCCAGCAGGATTTATTGAGGAGATGTGAGGACACTCGTATTTCCTCGTCTGAGCCTAAACAGGACATTAGAAGTGTGATCACTATTTCTATCTTACAAA
AAATGTAGTTAGGAGCATGGTTTCTCAGTTCGAAATCTGCTTCTATCACGTACTTGGTAAGTCTGTTTTTCCATCTGCAAAATGGGTTAATAACGTTCCT
AACAGGCTGCTACCAAGATCAATGGAAATTTCATATACGAAACACTTTAGTACAAGAGTCAATGAATGTTAGCTGCTATTTAGTTGTTAATAATACCAGT
GCAGAGAAATAAAGGGAAAAGCAACTTGCCCAAAGTCCCAAAACGAGCCAACACAAATCATTTCCCTTTTTTCTTCCCTCCCTCATTCATTCATTCTACA
CACTCTTCGGAATTTTTGTTCTATGCCAGATCCATGTTAGAGTCAGGATGCTTAAACCCGGGTCAGGGTTTTGAGCCCAAGGTCCTCAACTCTAATTCTA
ATGCTATCTCAGGGCAGTCGAGAGGCTGAAAACGGGCGCCAAACGGGGGAACACGTACGCAGCATTCGCAGGCTATGGGGAGCTTTTACAGTGTTTATGT
GCTTTAACTCTGCGTAGAAACTCTCGTTCTGCCCCCGCAATGCGGGAAAGGGTCAGGGATCACCAGATACAGCGCTCTGAGGGGAGGAAGATGAGCTGAG
GGCCAAAGGCCGCCTGCTTCTTCACTTACCGCTTGCAGCAAGGCTCCCGGCGTCGCCTGCTGCTGCCCGGCTCCTGGGCCAGACCCCGCTCCCAACAGCA
ACTCATGCCGCTGCCGCTTGACTGGAACCAGCGGCAACTCTGGGCCCTTACGCTTCTGCTGTTCTATCATGGCGGCAACCGGTCTCTTCAGCGCCGCCAC
TGACCGCGCTGCCGCTCTCAGGCGCCACGCAATTGGTTCCAAATTAGTCCTTCCTCCACAACTTCCAGCTTGGAAGAACCAATCGGCTTTCAATATTTCC
ATTTGCACCGCCCTCGGATAGTCTCTTGTTATTGGGCATATCTTTCTGACGTCATGAGAGTGCGATACCAGGATTGGTGGACGGAGCTGGCGACCGCCCT
AGGCGCGCTGGGTCTTGTGGGTGGAAACRCGCTGGCTGACTGGGGTCGGCGTTTAGTTCAGCGCAGCGACTCGGGGACCTGGAGCTGACGCCTAGTACGT
ATGAGGAAGAACGGGGTGGGTGGCTGCCTGAGTCTGGAGGCGACGCCTCGGTTGTGCAGTCTGAACCTGCCCTTCTCAGCTGAGGGTGCTGACAGCAAGG
GGTGGGAGGCGGGCCCCGAGTCCCCAGCTGTGGTAAGTAGTAGCCTGGGCTCCCTTTCGGGGCAGGAGCGGAGCCTTGGGGTCTCTGGCGGCAAGACCCA
GCCCCTGCGGCTCCCTTCTTCAAGAGCGCCCATCGTGGCCAGTCCTGTGCCGGGCATTCCCAGGGAGAAAGGCCTGCGTCCCAGCCTCCTCCGGTGCCCC
ATTTGGCCGAGGAGGCTGACTTGTTTCTGCCACTGATTTTGCAGTTTTTGATCAGGGCCTACTGTATGCCCCCCTGAGAGAGACAGTGATGAAGGAAATG
TCCGACTCCTTCTCCAGAGCACAGTCTTGTTGAGAAATTTGAGACTCATGCCCATGAACGTGGTCATTGCCTCAGTCGTCCTGCTGATATTCATTTAGCA
GCGCGTTGGGGGTATGTTGTGAACCGGGCACGGTCCCTACTCTCAGGGCGTTTAACTCTGGTGGGGAAAACGTTAAACAATGACCTCACTAATACATGGA
AATGCCTCCTACTGCTGCCTGATGCTATGAGTGCCTGAAATAAGCAGGAAGGTTTTTCAGAGGAAAAGATGCCTGCGCTGGTAGCTGCAGGAAGTGTTGT
AATTAATTAGGTGAAGAAGTGAAGGCAGAACCTTCCATAGAGAACTACTTGTTCAGAGCCCTGAGGCACTTGGGAGGAAAATGACTAAAAGCACAAAGAG
CCAGTGTGGCTGGTACAAAGAGAATGAAGGGAGTATGGTACAAGATGAAGCTGTACGTGATAGCGGTCAGACCTTGCAGGAATTTGTAGCTTTTATTTTA
AAACGGATGAGATACCACTGAGCCGTCTTCCCCCAGTGGGGTGTGGTGGAGGAGGGGACTTGATCCCTCAGGCTCAGTGGTGTGAACAGACGGGGGTTGG
GGAAGCCCTAGTCGAYGTATGTGGACCACTTGGGATATGCAGTAATCCTGGTCAGAGATGTCAGTGAGGACTGAGATATGGGTGGAACTGCAGAGAATTG
GACAGATTCTAGAGGTATATAGGAGGTAAAATGGGTGGGACTTGGTGATGGGTTGATTTTAGGGAGTGAAGAGAGGAATCAAAGGTAACTCCTAGGTTTC
TGGCTTATGTAGTTGAATAGATGGTGGTACCATTCACTCACTATCACGGAATCCCTCAAGCTGGATAGGGAACACTAGAAGATGATTAGAGACCAGTTTT
TTTTTGTTTTTTTTTTTTTTTTGAGACAGGTTCTTGCTCTGTCGCCCAGGCTGGAGTGTGGTGGTGCAACCTTGGCTCACTGCAACCTCCACCTCCCAGG
TTCAAGCAATTCTCCTGCCTTAGCCTCCCCAGTAGCTGGGATTACAGGCGCCTCCACTGTGCCCGGCCAATTTTTGTATTTTTGGTGGAGATGGGGTTCC
ACCATATTGGCCAGGCTGGTCTCCAACTCCTGGCCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAATTCTGGGATTACAGGCCTGAGCCACTGCTCCCA
GCTGAGATCAGTTTTTATTGATTGATTGATTGATTGTGTGGGGTCATTCATGACATCCAAGAGGCAGTTTGAAATACAGCTTTGTGCTCAGAAGAGAGAT
TTGTGTTGGGAATATAAAATTGGGCATAATTTGTATATACATGAATTGAGCCATAGGTGTGGGTAAGGTCAGCTAAGTCAGAACCTTGACTAGTTCCAAC
ATTTAATGGTGAAGAACAGGTGAACCTACAGGAGATACAGAAGAAAGGAAGGAGGACTGGAAGAATGTCTCAGAAGCAAAAGAATGATTTGTGATAGAAA
TTTCTAGAATTTAAATAACATGAAGATTGAAAAACATATTTTGGCTTTTATCATCATGGAGGTCACAGTAACCTTAGCAAGAGTTATTTTGTTGGTGTGA
TTGGGCCAAAAGCCAGATATGAGGCAAGGATTTGGACAAGAAAATGTAGGTAGTGAACCTACACAGTATTTTTCATAGATCTGATTGTAAAGAGGAGGAG
AGGATGTGCTAACCGATGGGGATAAGGGATTATCCAGGATCCAGTTGAGGATCCAGTTTTGAGAAATTTGAGAATATTGTAGAAGATTTGAAAGTCACTG
TGGAGTGTGGGAGAATGAGGTTACTAGAGAAATGTAGGATGCAAGGAAAAAAAAAATTTTTTTCCAGCATATCCAGCRGTTTAGTGCATGCATGGAGAAA
ACCTTTYTGGGTATGGCAAGGACATCGCTTGCTCAAGACACATTCTAACCTCTAATATGTCTTCTCTTCCTGAAAAATCTGGAAAACTAAAAACCATTTT
CTTGACTCCCTTGCACCTAAGGTGAAAATTGAATTTGGAACTGAGTTAAATGTGGAAAGAAGGAGGGTGTGAGTCATCCAGTTTTGCTGCCAGTCATGGC
AGTAAATTTCTCCAGTCAATARCTCCCTGGTTTGGTGGCTTGCTGCAGTGATAGCCATAACTTYCCTGGATTGTGGCAAAGGTGGTATTATTTTGTGGGT
TAGGTGTTGTTCCTGGAAGTTCTGCCAAAGTCTTTTATTGCARTACATCCCTTACTGCTTAAGTGGGTTCTGTTGTCTGCAACTGTCCCTGACCAGGTTA
GAGGTACTGCCAGAGAGTTAAATATAAAGACAGAGTTAAAGGGAGTTTAGGGTGTTGTTGGAATGATGGGCTATGGAATCTAAGCTGGATTGGAAGAAAA
CTGAAGAAAAAGGGGAGGGCTGATAGATTGGAAGAAAATAGAGGCCAATAAATCAGGGTTCTAATGAGGTCAAAGAACAGTATTCTCTGCTAGAGGATTT
CTGTTTATCCTAAAAGGCTTATTCAGTTATCTGTTTAACTTCTCTACTTCCCCCAGACCCTCTTTCTCTTCCTAGCTACTACTTTTGTTTGTTTGTTTTG
AGACAGTCTTACTCTGTTGCCCAGGCCGATTGCAGTGGCATGATTATGGCTCACTGTAGCCTCGACCTCCCAGGCTCCAGTGATCCTCCCACCTCAGCCT
CTCCAGTAGGTGGGATAACAGGTATGTGCCACCATGCCTGGCTAATTGTTGTATTTTTTATAGAGATAAGGTCTTGCCATGTTGTCCAGGCTGGTCTCAA
ACTCCTGGCCTCAAGTGATCTTGCTGCCTTGGTCTCCCAAAGTGCTACGATTATAGGCATAAGCCACCATGCCTGGCCCCCAAGCTTCTGCTTTAGCACT
TATCACATTGCAGTGTAATTGGTGTTATTTTGTGGGTTAGGTGTTGTTCCTGGAAGTTCCGCCAAAGTCTGTTATTGCAATACATCCCTTTCTGCTTAAG
TGGGTTCTGTTGTCTGCAACTGTCCCGGGCTAGGTTAGACATACTGCCAGATAGTTAAATATAAAGACAGAGTTAAAGGGAGTTTAGAGTGTTGTTGGAA
TGATGATATCTGATATCCCTATCAGATTAGGAGGTCTTTGAGAACAGGGACTGTGTTGAAAAGGGTGGTTTAGGCCGGGTGCTGTGGCTCACTCCTATAA
TCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCATCCTGACCAATATGGTGAAACCCTGTCTCTACTAAAAATAT
AAAAATCAGCTGGGCATGGTGGTGTGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGAGGTTGCAGTGAGCT
AAGATCGCRCCATTGCACTCTAGCCTGGGTGACAAGAACAAAACTCTGTCTCAAAAAAAAAAAAAGAAAAAAAAGGGTGGTTTAGTGGCAAGTGTGTGTG
GCCCTTGGAATGGCCTAAGATTTGTCTCTTTCTTGCTGTGTTGTTTTGGACAAGTTATTTCATTCCTGTAAAATAGGATTACTTGCTTTGTAGAGGAGTT
TTAGGGATTGAAAGCAGGTTTATAAAGTACCTTATATATAAACATCAATCAATAGCATACTGAATTGATGAATTAACAATTTAAATGGGGTAAAATTAAA
TAYTTCACTATTTTAGTAGACAATTTCCATGTGTGTTACACTGTGCTAGGCACTGGAGATTTGGGGAGGAAGGATATGATGATGTGCAAGACAAAGGCAT
GCTTACAAGAGTTCCACACTCTACAAAGGGAGGAAAAAAATGTCCCTAAAAATGATTTGAATCCCATCYCCATCATTCATATTTTGCAATCTTGAGCGAG
TTTACTTAGCTTCTCTTGTGTCCTCATTTTTAAAATGGCAATGATAATTGCCTGTTTTATGGGATAGTCAAGAAGAGAATTATTGAATGTCATGAAGATA
AAATTTTAAAAAGAAAAATTAGTTAAGAGAAGTAAAGCTCTTAGATTAATACATGGCAGATATGAAGCACTCAAATATTAGCTATTATAAGACTTTGAAG
GGATCTTAGGAATAATTGACTGAAAGTGTAGTGTCGAGTGGTAGAATAAGTGCTGATCCTGGGGTCTTATACCARTGTTGCTAACTGTGAGCAGCCTTTG
TCAAATCACTTGGCTTCATTTTCAGTGGCCTAAGAGTAATAGGTTTAATTATTTCCATAATTCCTTTAAGTTTTTACATTTTCTGAGTTCATCTTTTGTG
TTTTTCCTGGCATTTTACTATTCCTCTTTCCTGCTTTTGGCTATTTTCTCAACAGGTCCACGACTGGAATTTGAAAGCAAGAAGCATCTATCTTACATGG
TCACTCTAGAATTTGGTGGGAGGGAGGAAAGTTGGACCACCAGTTTGACATTTGAAAGTGTCCCGGCCGGGTGSGGTGGTTCACACCTGTAATCCTAACA
CTTTGGGAGGCCGAGGCGAGCAGATCACTTGAGGTCAGGAGTTTGAGACCAACCTGGCCAACATGGTGAAACCATGTCTCTACTAAAAGTACACAAATTA
GCTGGGCATGGTGTTGCATGCCTGTAGTCCCAGCTACTTGGGAGGCAGAGGTGACAGAATCACTTGAACCCGGGAAGTGGAGGTTGCAGTGAGTCGAGAT
CGCACCACTGCCCTCCAGCCTGGGCAACAGAGCGAGACTCCATCTTAAAAAAAAAGAAAAAAGAAGTGTTCCATCTGTTGATCTGTCCAACATATTAAAT
GGGACCTAGCTCCTTCTTCTTCTATATCCTTTAGACCAGAATGTGTTCCCCCCTCTTTCTCTACCTGTGCTTGGCATATAGTGAGGCTCAGTTCACTCAT
TTAAAAAAAACTGAGTACTTGTAGTATACCAGACCCCAGGAACACAAAATCAAATGAGAAATGGTCCTTGGTTTCATGTTTGAATGAATGGATCCAGACG
TTGCTCATCCTAGCTCTTCCATGAATGATATCCACATTGATTCCTCTAATGTTGGGACCTAGTTAGTGTTAGAGCTATATTCTACAAAATTTAGATTTAG
ACCGTGTATTAGCCCATTTTCACACTGCTCTAAAGAACTCCCTGAGACTGGGTAATTATAAAGGAGAAAGGTTTAATTGACTCACAGTTCTGAATTGCTG
GGGAGTCCTCAGGAAACTTATAACTCATGGCAGAAGGTGAAGGGGAAGCAAGGCACGTCTTAAGTGGTGTCAGAGGAGAGAGAGAGAGAGCAAGAGAAAC
TGCCACATTTAAACCATCAGATCTCGTGAAAACTCTGTCACTATCATGAGAACAGACTGTGGGAAACTGCCATGATCCAGTCACCTCCCACTAGGTCCCT
CCCCCAACATGTGGGGATTACAGTTCAAGATGAAATTTGGGTGAGGACACAAAGCCAAACCATATTCGATTGTGAATTCTTTTTGAGGTATAGTGCTTAA
GAATGCAGGCTCTTGGCCGGGTGCCATGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCTGAGGTAGGAGGATTGCTTGAGCCAGGAGTTCAAGACCA
GACTGGGCAACATAATGAAATCCAGTCTCTACCCCCCCTCAAAAAAAAAAAAAATTAGCCAAGCTCGTTGGTGTGTTTCTGTCCCAGCTACTTGGGAGGC
TGAGGCGGGAGGATAGCTTGAGCCCAGGAGGTCAAGGCTGCAGGGAGCCATGTTTGGACCATTGCACTCCGGCCTGGACAACAGAGTGAGACCCTGCCTC
AAAACAAAAAACAAAGCAAACAGTGCAGGCTCTGGAGTCATTATTCTGTCTCTGTTCATATCCTAGTAGTTTTAGTTAGCTTACTTTGCTCACAATTCCA
GCACAGCTTAAAGATAAACTAAAATTCCTTTAAATTCTTAGGGTTCTAGTCAATTAGTACTCAAGTAACAAAAAAATCTAAATCCAAACAAGCTGGAAAA
TGATAACAACAAAAATCTTGACCAGGTCAGTAAGGTGACACATTAAATGAAGTTCCAAAAAGGCTATAAAATGTCTGGCCAATTTAATATTGTTCTTTAA
ACTTTTCATTGCTTGGGGGATAGGAGGACAGGATGTGTAGGGTTTTTTTCCCAGTTGCATGTGTACTTTAAAATTTTTTTTTGAAACTATCACATAATTA
TGGAAGCATGTACAGATAACATTTTTCTGAATTATTTGAGTTAAATTGCTGACCCAATACCCCAACAGCCCTGAAAACTTTTTTTCCTACAAACAAGGAC
ATTCTCCTCTATAGCCACAGTGTAATTACCAACATTATGAAATTAACATTGCATTACTTCTTTGATCCTCAGGCCCCACCTCTTGATGCTCGAGCTCTGA
CTRCCCATTCTGGGCTGCTCCAGTGTGTGCCTTCATCACCTTATTCTTCCCTATATTGCAGTTCTCTTTGTAGATTTCCTCCTCACCCAGCTTAGACTCT
GACCTCACTCTGGGCCACCATTTCTTCTCCTGTATCCTTTACTTCCATCCCATACTTTCCTTTCTCTGTCCCTTGTTTTGGAAAGAGAGTGGCTAGTAAT
TGGTCCCCTGTTGCTTCCCTATGTAACACAGTTGTTTAAAACATGCAAGCAAAATGCTTTGTTCTGCATTCAGAGCTATTGCAAGGCAACTCCAAATGGT
GTACCTCAATCCTTGTCGACTTACTGGCTCTTTTAAGTGTATGAATGTGGTCCTGTCTGACTGACTGTATCTATCTTAATGTTATATACTCTTTTTTTTT
TTTCTTTCTGAGACAGAGTCTCTGTTGCCCAGGGTGGAGTTGCCCAGGGTGGAGTGCAGTGGCATGATCTYGGCTCGCTRCAACCTCCACCTCCCATGTT
CAAGTGGTTCTCCTGTCTCAGTCTCCCGAGTAGCTGGGATTACAGGTGCCCACCACAATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCA
TCGTGTTGCCCAGGCTATTCTCGAACTCCTGGGCTCTAGTGATCCACCCGCCATGGCCTCCCAAAGTGCTGGTATTAACAGGTGTGAGCCACCGTGCCTG
GCTCAATGTTATATACTCTTATTTTTTTTTTTTAGACGGACTCTCGCTCTGTCGCCCAGGCTGGAGTACAATGGTACGATCTTGGTTCACTGCAAGCTCC
ACCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTGCCGAGTAGCTGGGATTACAGGTGCCCGCTGCCACGCCTGGCTAATTATTTGTATTTTTAGTAG
AGATGGAGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCC
ACCACGCACGGCTGTATACTCTTTAAAAGTAGCAGAACTCTTTTTTTTTCCAAGTGAAATCTTACACAGAATTTTAATATGTAAACTGGATCAAAGCAGA
ATACGTTGTTACAGTAGGCACCCTTGCAGTAATTCTCACTCACTCCCCCTTTCACTGTGGCCCACCATAAGGTTGGGAGATTAACTGTGAATCAGTAATA
ATTGACCTTTGCCTAATTACTGAGGAGAGGCTTCTACCCAACTGCTCTGAGTGGGACTTCTCCCAGCTCTAGTTTCTTTGGGGGTTCTACTCCCTCAGCC
TTTGGTATGGAGGCTCACCTCTGGTTGGTTGACTTAGAGGCAGCCTCACTGGTCTGGGACCTTGTGGTGACCTAGATATTTCAGAGTTGACTTTTTTTTT
TTAATTTCTTTTTTTTGAGACAGGGTTTCATTTTGTCTTCTAGGCTGGAGTGCAGTGGTATGATCACGGCTCAGTGCACTCTCCATCTCTTGGGCTCAAG
TGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACAATAGGCAGGTGCCACTATGCCGAGCTAATTTATTTTATTTTTTGTATTTTTAGTAGAGATAGG
GTTTTACCGTGTTGTCCAGGCTGGTCTTGAACTCCTGACCTCAAGCGATCCACCCACCTTGGCCTTCCAAAGTGCTGGGATACAGGCGTGAGCCACCATG
CCCGGCCATAATTTTCTTTTCTTTTTTTWAAAAARTATTTTGTGGAGATGGGGTGTCGCTGTGTTGCCCAGGCTGGCCTCGAACTTCTGGTCTCAAGCAT
TCCTTCCACCTCAGCCTTCCAAAGTGCTGGAATTACAGGTGTGGACTACTGTACCTGGCCTGGAAGTTGACTTTTTAAAAATAAATTTGGATTAACTAAG
GAGCCTCTGAGTAACCGCARTAGAACCCTCGGTTTCTACAGAATTTGAAAAAAAGTTTTATATTCCATATTTAAAAAATGACAACCATTTACTTTCCTGA
AATTGTAAACCTGTTATAGTCATACCCCCTTGTTCATGGGGGATACATTCCAAGACCCCCATTGGATCCCTAAAATTGTGGGCACTGCTGAACCCAGTTG
CTATCAATTGGAAGACGTTTCTGTTTGTATTTTCTACCCACAAATTTAATGCCTTCTCCATCTTAACTAAGCACTTATCATACACTGTGGCTATAACTTT
AGCAGTTTGAGGTGCAACAGCAAAACTAACATGAATGTTTTTTTCTTCCTCACAATTTCAGACATCGAAGATTCATTCTTACTATAGATCTTAGCAACCT
TAGCATACAATTTTTTTTTTCCCCTTGAGAACTTTCACCCTTTCACTTAAAGGAAGCAGTTTACAGCTTCTCTTTGGTATACCAAAATTGCCAGCATTAC
TACTCTGCTTCGTGGCCATTATTAAGTAAAGAAAGGATTATTTGAACACAAGCAGAGATACTTCAACAGTCAGTCTGATAACCAAGATGGCTACTATGTG
ACTAATGGGCACTTAATATACACTGAGTGACTAGTGTATGCAGCATGGATACGCTGGACAAAGGGGATGATTCATATCCCAGATGGAACAGAGTGGGATG
GCACAAGATTTCATCACACTAATAAGAACAACATAACAGTTTTAAGCTTATGAATTGTTTATTTCTGGAATTTTTCATTTGGTGTTTTTGGACCGTGGTA
GACTGTGAGTAACTGCAACTGTGGAAAGTACAACTGTGGATGGGAGGACTACTGTACTGTTATATTTCAGGCTTTCCCTCAAAAATGCATGCCAGTTTTT
TTTTGAGATAAGGTCTCACTGTGTCGCCCAGGCTGGATTGCATTGGCATGATCGTACCTCACTGCAGCCTTGATCTCCTTGGCTCAAGCGATCCTCTTGC
TTCAGCCTCCCAAGTAGCTGGGATTATAGGCTGGTGTCACCACACCTGGCTGATTTTTTTTCTTTTTTTCTTTTTGAGACGGAGTCTTGCTCTGTCACCA
GGCTAGACTATAGTGGGGCCATCTCGGCTCACTGCAGTCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGG
TGCGCACCACCAYGCCTAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCGGGATGGTCTCGAACTCTTGACCTTGTGATCCACC
CGCCTTGGCCTCCCAAAGCGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCTGATTTTTTTTTTTTTTAAGTAGAGATAGARTCTCACTGTGTTGTCC
AGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCTCCCGCCTTAGCTTCCCAYGATTACAGTCGTGAGCCACTGCACCTGGCCCCAGTTTCCTTCTTGAA
GAATTGCATGGGGTTTCTTAGGCCACTGTTCTACAAGAGGTATAAATCTGGGAGCATTAAACCTAGCTTTTTGTATGCTTATCACAGCAGAAGTCTGTAA
GCAACAATGTAAGTTCATTTCTGCTTTAGACTTTTTTTTTTTTTTTGAGATGGAATCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCCCAATCTTGGC
CCACTGCAGCCTCCACCTCACCGGTTCAAGTGATTCTCCTGCCTCCAGAGTAGCTGGGATTACAGGCGCCTGCCATCACGCCTGGCTGATTTTTGTTGTT
TTTTTTTTTTTGGAGACGGAGTCTCACTGTGTCATCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATT
CCCCTGCCTCAGCCTCCCAAGTAGTTGGGACCACAGGTGTGCACCACCATGCCCGGCTCATTTTTTGTATTTTAGTAGAGATGGGGTTTCACCGTGTTGG
CCAGGCTGGTCTCGAACTCCTGACCTCAGATGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCTATGACC
TTTGTGTGTAGAGTAACAGATGATAGATTAAGATGTTTGAAGTTAATTTAGATGTTTCAGCTGCTGGTGCCCCTATGGATTCTGTACCTCACTAATACGT
TTCAAGTGTTGGAGGGATAATAAAAGTCTCCTGATAGAACCTGATAGATTAGTAACTCCTGTTCTAGCATGTGAGGTGAGGGATACTGGACAGAGGGAAA
GGACAGGCTAGAGATGAGATTGTATTGCTATGAAATGGAAGAGGCAGGATTTAACCAGAATGTAAAACTTGGAATTAACCTGTTTATGAGCTATTTCTCA
AGAACTGACAAATCTGCCTGTATTAGCTCTGTGTACTTTTAGTACAGTAATAAAAAGACACTTTGGCTGACCTAAGCAGAAAAGGGCAAGTTTAGTATAA
GGATATAAGATTATCTTAGGGAGCTTGAGGACAGGGATGTTCCTGAGCTGTGGGATAATACTAGAACAAGGGTTTGGATGTCCTGAAAGGATTTTCTTTC
ATTTCTGTTTCAAGTGAAGCTGTCAATTTAATGGATGGTCATTGTAAATCRGGAATACTTACCAAAATCAGGACATCAAGTCATCCTCTGAAAGTGAAAG
GAAGCAGTGGGGGTTGAGGAGAGAAGAAAGTATTTACCTGTGAAAACACAAGAAAAATAATTTCAGGTCTTACTGGTGTCAAATGTAATTGGGAGGAAAG
AGAACTGAGGATAGTACCATTAGATTTATCTTGGCAGTGATTTATCCAACAGAGTAAAGAGGCATGTTTAAGAGCCGCTAGATTGCTGGTTTCCCCTCTG
TTTAAGATCAGGAGGCTGAGCAAGATTATCTCTAAGGTAAGTATCCAAAGCTGTAAGTTTTGCTACTTAGGCAGTATCAGTGTCACCTAGTAGCTGGTTG
AAAATGCATTATCTCAGGTAACACCTCAGACCTACTGAACTGCAATCTGCATTTTCACATAATTCAGAAATAGTTAAATGAATTTGGTACATCCAACAAT
GGATTATTAGGTACGTGTTAACAAAAAGTTGTGTATGCGTATGAATTGCTGTAGTAAGAAAATGATTTCATGATTCCATTAAAAAACCACTTCTACATAT
AAAAAAACTGTAAGAATATAGATCAAATTGAATTACAGGTGATTTCATTTTCTTTATTATTAATGTATTATCTGAATTTTTTTATTATCTGAACTTTCAC
AGTGTGTATGTGTTTTAATTTTATCAAGAAAAAAAAAGTAAGCCCTTTTCTCTTTGAAGTCACTTCAGATTTAATACCTTAGCATAGTAGTTAAGAGAAT
GGACTCTGGAGTCAGCCAGTTTGRCTCCCCATTTCCTGGCTTTTTGACATGCTTAGTAATTTAACTTCTGGAAGCCTTTGTTCTCTCATCTGTATAATAT
AATAGTAATAGAACTTACATTTTAAGAGTTTTGAGAATTGTTTTGTTTTGTTTTTGAGATGGAGTTCGCTCTGTTCCTTAGTCTGGGGTGCAGTGGTGTG
ATCTCTCACTGCAGCCTCTGCCTCCCAGGTTCAAGTGATTCTCCTCCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCTCCTGCCACTATGCCTGGCTAA
TTTTTGTATTTTTAGTAGAGATGGGATTTCGCTATGTTGGCCAGGCTGGTCTGGAACTCCTGATCCTGAGATCGTCCGACCTCAGCAACCACAGTGCTGG
GATTACAGGTGTGAGCCACCATACCCAGCCTGAGTTTTGAGAATTAAACGAGATTGCATGTCTAGTGCTTAGCACAGTGCCTGGACATAGTAAGTGCTGC
ATTAATGTTTTTATTTCTGTTATTCCATTTTTTTGAGATCCGGTCAAACATACTTAACATCTTTTCCCACCCTCCCCCAAAATTCTTCCCCGGCAAAAAA
AATAGCAAAAATAGCAATTTAAAAAAACCAAACACAACAAAATTAGTAGCCTAATGGCCTTGGGTAAGTAACAAATTGTTGAGAAATAGGATCAAGGTTT
CCAAAACTCCCCACAATTAGAATAAACAAAAGAGATTTGGATAAAAGTGTATGGTGTTAAATCTAGTGGTATTATTCTGTAGAGAATAGCTGTGGATTGT
CTGCATATTCATTTCTTTAATGCAGATATCTCTCTAATTGGTGTCTGATTTCTTTATGACAGGACACTTGTATTAGCTTTAATAGAAGAGAAATGGAGGA
GCCATAGAATATTAAGGATGAATTCAGGAAGGCCTGAGACCATGGAAAACTTGCCTGCTCTCTACACTATTTTCCAAGGAGAGGTATATTCTTTTGTGCT
TTGAAAACCCACCATTTATGTTAAAATAGATTAAGGGTGACAACTGGGTTTGTTGTTCCTGTCCACTTAAGTCTGTCTTGAGCATTACAGCTTAAATGGG
AAGGGCCAGCGGAACATCTGGCAATCACATGTGCCTTCTCTAAGCTCCAGATATTTAAGTGCGTAGTTGACATCGTCATTGGAATACCAGCATGTGTAAT
TTATGTTTTAAAATGAATTTATTTTTTCACTGCTGTGGTTTGAATGTGTCCCCTAAAAAGCATGTTTTGGAAACTTAATCTCCAGTGCATCAACGTTGGG
AGGTAGGACCTAGTAGGAGGTATTTAGTTCTTGAGGGCTCCACCCTCCTGAAGGGATTAATGCCAATTATTGAAAGGCTTGAGGCTGTGAGTTTGATCTC
TTTCTCTCCTTCTTACCCTCTTRCCTTCCACCATGGGATGACACAACAAGAAGATTCTTGCCAGATGCTGGCACCTTGCTCTTGGACTTTCCAACCTCCA
GAACTATGAGCCAAATAAATTTCATTTCTTTATAAATTATCCAGTCTCTGGTATTCTGTTAAAGTAACACAGAACATACTGAGACACTCAAAAAATTGTT
TCTCTTCTAGATGTTTTCACCTCAACAAATAGAACCACTATCCTGCAGGTTCCCAGACTACACATCTGGCCATCACCCTTGATTTCTCTTCTTGATTTGA
TTTTGATTTTCCCTCCCACTCCAGTCTATTTGCAAGTCCTAATTATATCTCTGGTCTATGTACTTCTTTATCCCCTTGGCACCCTATTAGTTAAAACTCT
CTATCTCTTGCCTGGTCTTTACTGGGATCCCTGCTTCATCGTAGCTCCTCTCCAGTCTGTTCTTCACATTGTAGCTAGCATAAGATTTTTGTTTTTGTTT
TTGTTTTTTAATTCTTYTTTAAAAATTGAGCTGGGGTCTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTTAAGTGATACTCCCACTTCAGCCT
CCCAGAGTCCTGGGGTTACAGGCATGAGCCATTGTGCTTGGCCTAGAATAAGATTTTTAAAGTAGGTTGGACATGTTGCTTTCTCACGGCTCTTCAGAAG
CTTCTCATTACAATTGAATACAGACATGGACCTTCCACAGCTTGCCCCTGGGTGCTCTCACAATGTTGTTTGTTCTACCCTGCTCGTAGTCAAGACACAC
TGGCCTCCTTAATAGCTTTGAACAGTCTGAGTTCTTGCTCTCTCTTTAGGATTTGTGCACATGCTGTTTTCTTTTTAGTCTGTGCTGCTATAACAAAATA
CCTGAGATTGGGTAATTTATAAAGAACAGAAATTYATTTCTCACAGTWCTGGAGGCTGGGAAATCTAAGATCAAGTTGTCAGCAGATTTGGTGTCTAGTG
AAGACTACTCTGTTTCCAAGATGGCACCTTCCTGCTGCATCCTCTGGAGGGAAGAAATGCTGTGTCCTCACATGACGGAAGGGACAGAAGGAGCGAACTC
ACCCTTTCGAGCCCTTTTATGAGGCACTCATCCATTCATGAGGGGCCTAAGGGCCCCACCTCTTGATACCATTGAATTGGGGATTAGGCTTCAAAGTGAA
TATTGGAGAAATACCAAAGTTCATGTTGAACTTTAGTCCCCCMCGTGGGGGTATTAAGAGGTGGTATTAAGAAGTATTAATCACTTGGGAAGTGGTTAAG
TCATGAAGGCTCTGCCCTTGTAAATGTGATTAATGCCCTTATAGAAGAGGCTACAGAGAGCTGCCTGGCCCCTCCATTCCTTCTGCTGTGTGAAGACACA
GCATTTGTCACCTCCAAAGGACACAGGAATAAGGTGCCATCTTGGAAGCAGACAGTGAGCCCTTATCAAACACAAAATCTGCTGGCACCTTGATCTTGAA
CTTCCCAGCCTCCAGAATTGTGAGAAATAAATTTCTACGGTATTTTGTTATAGCAGCACCAACAGACTAAGACACTCTTCCTTTTAACTACCCACTTTCC
CATCATCTTGTATTCATCCTTTAGGTCTCAGCCCTAATGTCTCCTCAGAATTTTTTTTACCCATCATAAATAAATCGGTTCACACTGTATTTAATTATAT
ACTTGTTTAATGTCTATCTTCCTCACARGACACTAAGCTCCATGAGGGCTGAGTTGTGTCTGTTTTGTTGTATATCTCAGTCTTAGGTGGATGGGTAGAA
AATAGTAAGTGCTTGATACATTTTTGATGACCGAATGAATTATCAACCTTTGGTAGAGAAGGCATATTTGTTTCAAGAGCAGAGGCTTTGAAACCAGACA
AAATCGGGATTCTAGTCCCAGCTCTTTTGCTTGCTATGTGAGCCTTTAGGGTGTCACTTAATCTCTTTGAACCTCAGTTTTCTTGTTTGTTAAATGGAGG
TTCCATTTATTCACAGTAATTCTCTTCCATAGAATTACTGTGATGGTTAAATAAGCTATCATCTATAAGAATACAATGCCTGAGACATAGTAGGAATTAA
TTAATGTTGGCTCCCTCCTCTTGAAGTGAAAGTAAAGCCAAAAAATTGTTTTCAGTGTCTTACAAGAGCATGTAGTTTGCTTGTTCATTTGTTTGAGACA
GAGTTTTGCTCTTGTTGCCCAGGTTGGAGTGCAATGGTGTGATCTCAGCTCACTGCAACTGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCAATTCTC
CTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCGCCCACCACCACACCCAGCTAAATTTTGTACTTTTAGTAGAGACAAGGTTTCACCATGTTGGCCA
GGCTAGTCTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACACTGGGCCTCTTTTTTTTTTTTTT
TTTTTTTCTTTTTTTTGAGACAAGATCTCACTCTGTTGCCCAGGCTGGACTGCAATGGTGTGATTTGGCTAACTGCAACTTCCACCTCCTGGGTTTTAAG
TGATCCTCCCACTCAGCCCCCGAGGTAGCTGGGACTACAGGCACACACCACAACACCTGGCTAATTTTTCTGTAGAGACAAGGTCTCACTATGTTGCCCA
GGCTGGTCTTTTGAACTCCTGAGCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATCAGGCGTGAGCCATCGCACCTGGCCTGAGCCTATA
GTATTTTAATGGTATCATTTATACTTGATATTCATACTTGGCATTCATACTTGCTTTATATGGTTGACAAAAGTTTTACATCCTAATAATGTGAGGTCTT
GGAGGGCAGACTTTGTGATTATCAGTCAGTTATAGATAATTGTGGCTCTTGACTTCTGTTAAGTTGATCCCAACTTGTAATATAACAGTCAAGATACAAA
GTATAATACCATTTTAACACATAGCAAACAGCTCTGCTCTTTAAAGCCTCTGTCCTTTTTCTTTATGGCTCATGGTATCCCCAAAGGTTAGTAAGGTACC
GGAGCTCAGAAGAAGGAAGTGTAGCACTGGAGGTGAAACTGATTTTTCTGATCATGAAGCCCTCACTCATCAGGTGCTGCCCAAAAGAAAGGGAAGAACA
CTCTGCCCTCCACAGAATAACTCGGATTTCTAAAGTGGATCCTAACCTACAGCTCGCTCTTTTCTTTTCTCTTCTCTTCTCTTCTTTCTCTTTTTTTTTT
TTGGACAGAGTCTCGCTCTGTCACTCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCCACCTCCGGGTTCAAGTGATTCTCCTGCCTAA
GCCTCCAGAGTAGCAGGGACTACAGGCGTCAGCCACCACGCCYGGCTAATTTTTTGTATTTTTAGTAGAGACAGAGTTTCGCCATGTTGGCCAGGCTGAC
TTCAAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCCACCTACAGCTTTCTTAT
ATGAGATGGAGCTTGAATTAGTGCAGGTTTTATATATTACTATCAAGGATGGATGGTCTTTAGGAATGTTCAGAGAGAACTTTATAGTTCTAACTTACTA
TTTCAGTAGCATATTTTGAAAAGGGATGGTTTAGAAGTGACTTGGAGTTAGGGAAAGAGAAATACGATAAATTGGAAAGAAGAAACTTTTCAGAATATTC
ATCCAATAAACATTTAATGAGTACCCAATATTTACAAAGAAGAGGAGTTACATTAAAATTGAAAAAAAAAAAAAAAGGTGTAAGCCTAATCTATGCCAGC
ACTTTCACACATTCTGTCTTATTGAATCTCTCCAAAGAAATTGTTAACTCTATTTGATAGATAGGGAGACTCTTCTCAGAAGTTAAGTAATCGCCTAGGG
ATTAATAAATGGCAAAGCTAGGATTCTAAATCAGGTCCTCTTTCCAAGTTTACTTTCTGCTAAACTGCAGCTGGGGTTGTGCAATTGTACATAAATGTGT
GGAGGAACCAAAAGACCCATGAGAATTCTTTTTTTTTTAAGATGGAGTCTTCCTCTGTCGCTCAGGCTGGAGTGCAGTGGGTTCAAGCGATTCTCATGCC
TCAACCTCCTGAATAGCTGGGATTACAGGCGCATGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGTTTTCACCATGTTGACCAGGCTG
GTCTCGAACTCCTGACCTCAAGTGATCCATCTGCCTTGGCCTCCCAAAGTGCTGGGATTATAGATGTGAGCCACCGCACCCAGCCAAGAGAATTCTTTTG
ACTGAATTGAGTTATAGGAGGAATATAGATAAATTTGKTGGTTCTACAGTCATTTGTTGGTACAACTCTGTTACAGCATTTATCCTGGTCTGTCTTGTAT
TATTATTACTTGTATGTGTCTCTCTCCACTACTAGATCGTGAGTTACTGTAGAGCAGAGGCCATGATTGTCTCATATGTCTTGGTAACTACTTCAAATTT
ATTTAAAATGACTGGGCATCCCTTTTTTAAAGTTGTCTTTATTTCATAGTACCTGACATGGTATCTTGTACATAGTAGATAGGTGCTTAAAATGGAGCCC
AAGCCTCACAGGACTAGTTGTCCTTGAAGAAGGTGGTGTTTCAGCCCATGTCCCAGCTCTTCTCTTGCTGAACTTAGCAGGGATTTGGGACCTAGTAATT
AAATAGCTGAGAAGCCARTATTCATCCTGTCATCCTCTGAGAAGCATGTTGGTAGCAGAGTGCATTATATTAATACATGGTAGGRGGTACGAGCATAGCA
RTGAGACTTGGGATTTGGCTTAGGCTTGCCATAGCCCAAGAAATGCTGAGGGGAGATTCATGTTGGTAAGGTCGAAATAGCATTGGACTAGAAGTAAAAA
AAAAGTCTGTGTTGTACTTGGCTGWGCTACTATCTTTGTGACTTTTGACAAGTAACTTATGCCCCTGAGCCTCAAATTCTTCATTTACATTATGGTGACA
ACAAGTTTCAAGGCCATTTGCCACCTATAATCTGAAGATGGGAAATTTACTTTACCCAAGCTCTAATGAATTCAGTTGAGATAGTTACTGAATTTTTTCC
CCTGAGCTATTTGACTAATTATTCTTGGGACACCAGGCAGACTGCGTGATCATCTATGGCAGGTGTGATTGCACCCTAGGAGACACAGTGATGAAAACAC
CTGGTGCTAGAAATCTGAAACAATGCCTAAACAGTTGAGTGCATCCATTCTGGAGCATATTAACCTTTCCTTTTGGGAGAGGCCAAATTAAGGTCTATTA
TATTACCTCTAAAGACCATAATGTGACACTGGAGCTTCAGGATTGAAAAGTGAGATTGTCTTAATTTATAGCAGTGAGGTGAATTTGGCTCTAACTTCCA
GATTTATTTATTTATTTATTCACTTATTTATTTATTTATTGACAGAATCTTGCTCTGTCACCCAGGCTGGAGTGCAGTAGCATGATCTTGGCTCACTGCA
ACCATRACCTCCTGTGTTCAAACGATTTTCGTGCCTCAGCTACCCAAGTAGCTGGGATTACAGGCATGTGCCGCCATGCCCAGCTAAATTTTGTATTTTT
AGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGT
GTGAGCCACTGTGCCTGACCCAGATGCTACTTTTAAGTTTGTTGGATGATTATGTTCTTTAATAATGTTGTTACACAGTATGAGACTTTTCAGCCCTCTT
TCTAGAACTGTGGAACAAAAGCCAAAGTGCCTTCAGTTGGTCCAGAAAGAAGCGATTTGCTTTTATTTCAATTAAAAATTGGGAGACTTATCTTTATTAT
GTGGCCCTCTTTTACAAAGAACAAATTGCTTTGTAAACTCAGGTAAGCACTTTTTATCTCTGATCTCTACGTTCCTCATTTGAAACATGGTAGAACTGGA
CCAGCTAATCTCTGAAGTCATTTCTTTGGCTCTACCTTGCCTTAATTTTAAGCATCTGTGTGATTGTACTGTTTCTTTGGGACTCTCTGGTTCCTAACCC
AGCATAACATGTTCATTAGTATAAAACATGAGTTTAGAACTTTTGGTTCGTAACCCATTCTTCATGTTTTGTCTTGGAGAGTTAATTCAAGTGCTCCGTC
CGATGTCTCCATTAAAAAATGAGAATGAAAGTTTTTATCTATTTCCATCCTAACATTGAAGTGAGTAATGATGATATTTGGTTAAGTATAAGGCACTGGA
CTAGGGAGTCAAGGGACCGAGGTTCTATCCCTAACTTTTTTTCTTTTTTTTTTTTTTTTTTGAGATGAAGTATCGTTCTTGTTGCCCAGGCTGGAGTACA
ATGGCGCCATCTTGGCTCACTCAACCTCTGCTTCCCAGGTTCAAGTGATTTTTCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGACGCCCACCACCAG
ACCCAGCTAATTTTTGTATTTTTATTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTCGCCCT
TTCAAAGTGCTAGGATTACAGGCATGAGCCTCCGTGCCTGGCCTCCCTAACTCTCAAGTAGTTGTGTGCCTTCCTACCAGTCACTAATCTTTTTGTGCTT
CAGTGTCTTAGACTGTAAATTATTGAAAAGCTACACTTTGTTGAATGTCCATTATGTGCYACATACCTATGTCAGTCACTTTATGTACATCATTTGTTAT
CTGCAGCAGCAAAGTGAGAACAAATGGGAACTTAGGCCCTGAAAGGCAAGTTGTGTGCAAGATCCTACAGGTGGGAAATGGCAGAGCTAGGATTAGAAGC
CACATCTTTCACTCCAAAGCATGTTCACTTTCTATACCTATACTGTTATTTTTTTTTTTTAAAGCTTTTTTAGAGATGGGTCTTGCTATGTTATCCAGGC
TGGATTCAACTCCTGGCCTCAGGCCACGCTCCAGCCTCAGCCTCTGGAGTAGCTAGGACTACAGGCACGTTGCACAGCACCCAGATACACCTATACTATT
CCACTTCATTTGCAACATAAGGATCTACTGTATATGCTTTCTAGGATTGTTGCTAGGAATAGATAGGATATCAAATACCACATTGCTTTTGGCCATTAGA
ATTTTATAGTTAGAGGGGACCTATGAGCAGCTCTAGTGTAATTAAGACTCCGGATTCAAATCTCAGCTCTGCTACTTATTTAGCTTTGGACCTCCGATAT
GTTACTTAATCTCTTCATGCATCTTTTTGTCATCTATTGGATGGGAATAATAGTACCAACTCTGTACAGTGACATAAGGATTATGCAAAGCATTTTGAAT
ATTATTTTGCATATAGTGAGTATTCAGTATATATTAGTAAATAGCAGTGCAGTCAGGATTGTTTTATTTACTCCCCTTGTTTTAGTTATGGTGAAGCTGA
AACAGTGCTCAAGATGAAGCAGCTAATTGAAGACACTGAAAAGAATAAAGTTTATGTATGTAAGATTATATTGAATATTTTACAAATAATCATTTAGTGT
TAAATTCAGCATATAGTGACAACATTACCCTCGATCCACAGGTTGGGGGATGGGGTAGGCTACAGGGGGAAGAGAGAGCTAGAGCCTAGGTTAATGATTT
ATCTGGCAAGGGTTCTGGGCCTTTCATCACTAACATTTATTGGTTGCCTATTACATAGACCCATCAAGCCTCTAACTTCATCTTAGACAACTCTGCAGAA
GACTGAGGGGACAACTCTTTCTCTCTGATTAGATCTTTTCAGGTTCTGTCAGATGTGTATGTATTGGCTTTTTATCTAGTTGTCTTGATGAAACCCAAGA
CTCAGACTTGGAGTTAAATGTAACAGGCTGTATGCTCTGGTTTGATTTGAAGTTCAGGTATGAGGGGAGGAATGCCCTGTGTGATCCATCCCAAATTTAT
TAAAGTTCTCTGTATTGGGTTTGGAGGCCTCAGTCCTAGCTAATATAAARTATAACTTTATTACCTGGTTTTTTGCTTTTTGTTCCTTTTGTTCATGAAA
CTCCTCTGGTAATATCAATATGTTCCCTTTGTTCATGAAACTCTGTTGGTGATTTTACTAGGTATAGGATTTGGGTATTCCTCAGTATCATCACACCGTG
TGATAACACTCTAATCTCCCAGTGTTTTTAATGTGTACACACATACCTGTCAGTCTAAATTTCAAAAAAAACCCAGAAAGAATGTTTGACAGAGCATCAT
TTTTAGGCAGTTTTATAGCATACAGAGGCAGTCAATATGAAGTACAGATTTGGGGAGACTAGGTTAAATGCTACAGAAGAAAGATTCTCATGTATGTGAC
ATTGATTTTTTTCCCCCATCTTTATAGGTTGCTATGGTGACAGACTATGGGGCCTTTATCAAAATCCCAGGCTGTCGGAAGCAAGGTAGGAGTTTATAAC
TTGAAATTCAGCCCTCTGATTCTACTCTCTGCTAACACTCCACCACCTCCTAATTATAGGCTGTACATTTTTCAGACAGTAGTTTTTCATTCCTTTGTTT
TCTTTTTAATGTRTAGATATGAATACAAGATGACAGTTCATTTTTAGCGGGCAGAGAATTGTGGTCTCTGACTCAGGAGGAAGACTGGGGTATAGCTAAC
TGGGTTTACTTCTGAAACCAGCTCCTCCTTAGACTTCACCTGTGACCCTAGGCAAATCACTTGACTTCTTTAGACACAGGATTTGCGGGAGGGCARGCTA
CCTCTGTCTGAGGCTGACAGTGTGAGTTTTCTAGTAGATAGCGCATGAAATGGGAATAGTATTGCAAGTGATACAAACATATATAATATATATAATGTTT
TAAGTTTTTTTCATAAAGAGGCGTCTGTTGAACATTTTTTTGAGAATCCTGTTATAAATCTATAATCTTATTTATTTACCAAAACTATGTTAAGCCGAAA
AGGCAGGTTCCACAGACCGGTTGTCTGCCCAGAGTGATTTGGCTAGGTAGTGGCATAGCCAAGACTAGAACCCAATCCTTCTGATTCCTAGCCCCTGGAT
CTTTCTACTATATCACACTGCTGGTGGATCCAAAGATTCAACTTGCTAACTTCTTATGCTAAAATAAGGTTTAATTAAAGATTTTAACATTTTAAAAAAA
GGCAACCATAAGAATACTAGAAGAAAATCTAGAAGAATATTTCACTACATGAAAATTAAAAACTTMACTGCAAAAATCATTGTAATCAGAGTTAAGTTTG
GAAAAAGAATTTGTAGTACATATGATAAAGAGCTAATACAAAGGGGGTATTAGGAAAAGGTGCCAAGGATATGAAAAACAACTCACAGGATAAAAAAATA
TTACTTGGTACTATAGTAAAAGATACTCATTCTCCGTATGACTAAAAAGTAACTTAGACTGGTAGATTCATATAATGGGATATTACTCAACAATACAAAG
GAATGAGAATAAAATATTCATACATGCAACAACCTGGATCATCCCTCTCCAGAAATTATACTGAGTGAAAAAAGCTAATCTCAAAAGGTTATACACTTTA
TGATTCCATTTATATAACATTCTTATGTTTTACTTGAGATATGATTCACATACCACACATTTCACCTGCTTAAAGTGTACAATTCAGTGGTTTCTTTGGT
ATATTCAGAGTTTTGTGACCATCACCAYGATCTACTTTGAGAACATTGTTGTCACCCCAAAAAGAAACCCTGTACCTATTAGCCATCACTCCAGATTCTC
TCTATGCCCCCAGCTTTAGGCAATCATTATTCTACTTTGTCTCTGTATATTTGCTTATTTTGTACATTTCTTGTAAATGGAATAATGCAGTATATAGTCT
TTTGTGACTGACTTCTTTCACTTAGCACGTTTTCAAGGTTCATCTGTTTTATAATATGTACTTAATTCTTTTTTATTGCCATTACAAATTTATTGCAGTT
CCATCAGTTGATGGATATTTGGGTTGTTTCCACTTCTTTAGTATTATGAATAATGTTGCTATAAATATTTGTGTACAACTTTTTGTGTGGATATTTGCTT
TCATTGGGTATATACCTGTGAGTGGAAATACTGGGTCATATGATAACTCCATGTTCAACTTTTTGAGAAACTGCCAAACTGTTTTTCCAAAGTGACCACG
CCATTTTACATTCCTACCAGCAATGTATGAGGGTTCTATTTTCTTTACATCTTTGTTAACACTTGTTATTATCTTTCTGGGTATGGCCATCCTAATGGAT
GTGCACGGACATCTCATTGTGGTTTGAATTTCCCTAATAGCTAATGATGTTAAGTCTCTTTTCTTGGGTTTATTGGCCATTTGTATATCTTTTTTGGGGA
AATGTCTATTCAAATCTGATATATTTTGGCTGTGTCCTCACCCAAATCTCATCTTGAATTGTAGTTCTCGTAATCCCCATGTGCTGTGGTAGGGACCAGG
TGGAGATAATTGAATCATGGGGGTGGTTTGCCCCATCCTGTTCTCATCATAGTAACACAAGATCTGATGGTTTTATAAGGGGCTTCCCTTATAAAACCAT
CATTCGCTGGGCACTTATTCTCCTTCCTGCTGCCCTGTGAAGAAGGATGTGTTTGCTTCCCCTTTCCCCATGGTTGTTAAGTTTCTTGAGGCTTCCCCAG
CCATGCTGAACTGTGAGTCAGTTAAATCTCTTTCCTTGGTAAATTACCCAGTCTCGTATGTCTTTATTAGCAGTGTAAGAACAGACTAATACAAAATCCT
TTTCTTTTTTTGAGACAGAGTCTTGCTCTATTGCCCAGGCTAGAGTGCAATGGTGCAATCTTGGCTCACTGCAACCTCTGCCTCCTGAGTTCAAGTGATT
TTCATGCCTCAGCTTCCTGAGTAGCTGGGATTACAGGCATGTGCCACCACACCCGGCTAATTTTTAGTAGAGGCAGGGTTTTGCCATGTTGGCCAGACTG
GTCTTGAACTCCTGTCCTCCAGTAATCTGCCCTCCTCAGCCTCCCAGAGTGCTGGGATTAAAGGTGTGAGCCACCACACCTGCCTTTTCCCTTTTAAAAA
TAGGGTTATTTTTGTTTTTATTGTTGAGTTAGGTGTTTCTCATATATTCTGGATACTAGTCTCATATCAAATATATGATTTGCAAAGATTTTTATGTAAC
ATACTTGAAATGACAAAGTTATTTAAATGGAGAACAAATTATTTAATGGTTCACAAGGATTAAGAAGGGGAAGGMAGTAGCAATATGAAGGATCCTTGTG
GTGAGGGACCTGTTCTGTATCTTAACTGTGGCAGTGTATACATGAATCTACACATGTGGTAAAATTACGTGGAACTAAATACATACACATACAGAAACAC
AAATGAGTACAGGTAAAACTGGGGAAATCTGAACAAGAGCCAGTCGATTTTATCTGAGATGTTTTTCCCTACACCAACCAATTCTCCAGTTCTCTGATTC
TCTAACATCAACTGGATGTCCCAACAATTCAATTCAATTCTGACACTAACTACCTGGGAATTAGTGTCAGATTCCACAAACTTAAGGGCTCAGTCCCACA
TGACTACCCTCACTTCAGATGCCAGCCCCAATATTGAATCCTCAGATTACCTACACTTTTGTCTCACTTGGCTACAATTTTTGGGATTCCCAGCACTTCC
CCCCAARGTTGGTAATTTGCTAGAGTGACTCACAGAACTCAGAAAAATGCTATAGTTACTATTAGTTTATTTTAAAGGATAAAAATGAGCAGTCAGATGA
AGAAGTACACAGGGTGAGACCCAAAGTGTTCCGAGTACAAAGCCTCTGTCCCCATGGAGTTGGGGTGTGTCACCCTCTTGGCACATGGATGTGTTCACCA
ACTCTCCAAACTCCATTGCTTAGGGGTTTATRTGGAGGATCTGTTATATAGACATGGTTGATTAAATTATTGGCCTTCAGTGATAGAGCTCAGTCTCCAG
CCCCTCTCCCCTTCCCGGAAGTCAGAGGGTAGGGCTGAAATTTCTTTTTTTTTTTTTGAGAGGGAATCTAGCTCTGTTGCCCAGGCTGGAGTACAGTGGT
GCAATATCAGCTCACCGCAACCTCTGCCTTCCGGGTTCAAGCGTTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTGCACCACCATGCCT
GGCTAATTTTTGTATTTTTGGTAGAGACGGGGTTTCACTATGTTGGCTAGGATGGTCTCAAACTCCTTTCCTTGTGACCTGCCCGTCTTGGCCTCCCAAA
GTGCTGGGATTACAGGTGTGAGCCACCATGCCCAGCCCAGGCTGAAATTTCTAACCCTATCTAATCACATCGTTGATTTCTCTGTTTCTGAAGCTATCTA
GGGACCCACAGTAGTCACCTCATTAAGGGACTTAATGAATAACAAAAGACACTTCTATCACTCAGAATAGTCCAAGCGTTTTAGGAACTCTGCCAGGAAC
TAGGGACAAAGATCGAATATGTATTTCTTATACCACAGTATCAATGCCAGCATCCTGGTTGTGTTAGTGTACTATAGTTTTCCAAAATGTCACCATTGGA
GAAAACTGGATAAAGTGTACATAAAACCTCTGTATTCTTTCTTTCTTTYTTTYTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGC
ACAATCTCGGCTTACTGCAAGCTCCACCTCCTGGGTTCACGCCATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACCYGCCACCATGCCT
GGCTAATTTTTTGTATTTTTAGTAGAGTCAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCTGCCTCGGCCTCCCAA
AGTGCTGGGATTCCAGGCGTGAGCCACCGAGCCCGGCCTAGACCTCTGTATTATTTCTTTTGAGTGCAGATGAATGTACAATTATCTCAAAAATTTTTTT
TCACATAGGGCAGCAAAGTTATCAAATATTTTTAAAAAATGATTTAAAACACTCCTAAAATCTTTGAGATTAATAAATATTTTAAAAGATTGCTGTTAAT
ACCCAGTGTTAGAAATGGATACTTTTACTCTCTATCAGGAGCATAATTTCACAGACTTTGGCAATGCCTATTAACATCTTTTATGTGCTTATTACCCTTT
AATCCAGAAATTCTTTGAAGAATTTAGTGTAAGTAGAGAATTACATAAATTATGTGCATCTGTTTTGTAGACTATGCAGATGATTGAAAGAATGACTGTA
TTTCTAAGACATAATTATGCCTCATCTTACCAGAAAGATGCCATGGAAGGTTTTCATACAATTCCATCACACTGCTACCTGACTGATAACAGTTGTAAAA
CATCATTGATTATGAGAAGCACTCCAATTTCAGAGAGATTAAAGTGAGAGGAAAARAAAGTGCATCTTAGAATCAATGAAACACAATAAATGTCAGTTTA
CTGACATGAGCCAGGAGTGGTGGCATGCACCTGTAATTCCAGCTACTTGGGAGGCTGAAGTAGTRAGATCACTTGAGGCCAAGAGTTCGGGGCCAGGCTG
GGCAACATAGCAAGACCCCACTGATGGCGATGGAGGCCTGTCTAGAGTGGCTGCTGCAAAGATGCCAGCCATAGTGGGGGCTGTGCGGCCAGGGCTGCAT
GTTCTATGGAGCTGGCAGGAGCCCTGCCCCCTTATGAGTTAGTGGGGTGGGAGCCCACCCTCATGGGTGCAGCTGCCGCCACCCAGCCCTGGCTGCAGAC
CCAGGCATCCCTGCACTCTTGGAGGTCCGGGAAGACCCCTTTCCCCCATAGTCTCAGAAGTGCCTGCTCCCACTGCCTGGACTCTCCAAGCTCCCGGCTC
CTGCTCTGATTTTGGAGCAAAGTCGAAGCTGAGCCTGGGCACTATTGCAACCTGGCTGGGTTTGCACACCTTGGGGTGGTGCTGCCATGCCAGCTTCCTA
CCATCTTGGCCCCCTCTGGACTTTGGGTGCCAGTGAGCACAGGAGGGAGGCYAAAGGGGTGCTRAGGGTGGCTCAGCATGGGCCTGCAGGTGCCCCTGGG
CACAGAACAACTGGGCGTCATGGACAACATGATTGATGGTGACAAGAGGCAGACAGGCTCCTGGGTGGAAAGGGGCAGGTCTCGGTGAAGCCGCACCTTC
AAGCCAGGGATGGCCTAAAGCATAGGGGCCAGGCTGTCAGTTCCAGGTGGAGTCTGTGGCCCAGAGTGAGAACTTAAGGTGCTTTTCCTGGGCCTGCCCA
TGGACCAGTCAGCACACACTTCTGAAGACTGTAAAAATCCTGGACTCAGCCAGACTTGGGCAGACACTGGGAGGACTTGCCTGTGGAAATGGGTTACCCA
CACTGGGTCTCCTCTCCGTCAAGGGCTGCAGATGTTGGGATGACCTGCCTGCAGATAAGAGCTGCCCATTCTGGGTCTCCTCTCTGCTAAGAGCTGCACT
CAACAGGTTGACCTGCCTGTGGAAAGGAGCTACCTACTTTGGGTCTCCTGAGAGCTGTACCATCACTCAATAAAGCAACTCTTTGCCTTGCTTACCCTCC
AGTTGTCTGCTTACCTCATTCTTCCTGGATGCAAGACAAGAACTTGGGACCCGTTGAATGGCGGGACTGAAAGAGCTGTAACAGATCCAAGGGCTCCCTG
AGCCAGAGCTGTGACACCTCTTTGGGGCTTTATGGTTCCTGGCCTCTCCAAGCTTCTGGGCACCACCATGTTCCCCAGAGTCCACAGTGGAAGCCGCTTG
TGGTATGCCTGGTCCATCCACAGCCTCACATGGAGCTGGTGCCTGTGCCAGCACCTGGAGCTGCCTGCCCAGCCACAGCAGCCAGTGTGCCTGGCTGTGC
ACAGTGGCTGGACCCCATGCTCACTCACTCATGCATCCCTCGCCACTCCGAGCCTGGCTCGCCCTTGGCAGGTGTGGGATCTGGGACGGCAGCATGAGCC
AAGCGCAGCCCATTAGACCAAGTGGATGGAACAGGCCTAGTGGCCCCAAGCAAAGCTGAATGCAGCCTGCCAGGCCAAGTGGGCAGAACGAGCCCAGCAG
GTCCAAGCAAAACTCGGGCAAAGGTGCTGCTGGCCACAGCAGCTTCTGGCTGGAAAAGTGACACCTGAAGAATCTTGTGACACCATCTTTACAAAAAGTT
AGCTGGGTGTGGTGGCAGAAGGATCACTTGGGCCCAGAAGTTAGAGGCTGCAGTGAGCTATGATTGTGCCACCGCACCCCAGCCTGGGTAAGAGTAAGAC
CCTGTCCCTTAAAAAAAAAAAAAAAGAAAAAACTAACATGGAAAGAAGTCTAAGATAATAAAATTTAAAAACATGTTGCAGAAGACTTTGTATAGCATCT
CTCTTCCCCTTTTAAAGCAAGTGTGCATATGCCTTTAATATCTTTTTTCTTTATATAGTTTAAATTACTGCCTATGTTTAGAAGAAAGGCTGGAGGAATA
TTCAACAGATTAACAATGGTCACTTCTGGGGAGTTGGTTTTGCTAAGGAAGGGATGTACATGGAAGAGGGACTTTGACTTCTGGAAATTTTTTTTAAGTT
TTTTCTGTTAAAAAAAAAATCCAAGAGGTGATCTTTGGATAATAAATCCATGCCTCTAACCTTGTAGACTACTATTCTGCAAATTGCATCTTTGCTTAAG
AAATGGTTTACCAGCAGTTTTCAAGCTGGCAGTCAGCAGTCTGTAATTAAGTTTCTCATTTTATGTTGTCTGGAATTTAATGACATCGAACTCTTCCCCA
CCCCACAGGACATTCATCTCTTTCTGTCTGAGCACAGGTTTTCTTGTTAGTATACTTGCCATAGCTGCCAGTGCCTGAAAGTCCCATTCTAATTTGGGCA
TATGTGACACTTTGGGGACTGTGTGGGATTAAAGGCCTGTGACCTTCCAGCAGTCAATCTTCAACTCATTTTATCCATACCCTGTCAGGTGATGCCTCTG
ATTGTGGCTGACAGCTTACAAGTGAATCTGTCAGTCTGACAGCTGGGCTGAGGCAAGCCTCAGAGGGAGAGCTCAGGGAGCCAAATAATTAGGTGGAAAC
TCTGTGAGTTTTAATCCTGAGATCTATAGGTTTATTGGATAACTTGAGCAATTGACTTCCTTACAGTGTATCTTAGTTTCTCTGCCCATAAAGAGGGAAG
ATTATTAAGTCTCAGCCTGAAAGGACTGAGTTAGAAAATAACTCTGRTCTGATCAGGTCTTAACATCTTTGGCTCAGGTAGGTAGATTCTAATTTGAGCT
GGTTTCCCAGATGTCATGTTCTCAGAATACTTCAGCCAMCACTGAGTTGAAGACCCCTTCCTACTATTCAAACCTAAGCTAGATTTTCTTTCCCCTCTCA
TAGTATTATCCAATATAACTTTCTGTGATGATGAAAATATTCCTTATGTTCTCTGATTTGTTTCCTGACACCAACCAACTCCCCAATTCTCTGGACACCA
ACTGGGTGTCCAGTGACTCAGTTCAATTCTGACATTATTTATCTGGAGCTTGTGTTAGATCTCACAAATTTAAGGGACTCAGTCCCACAAAATTTCCCCC
ATTTCAGATGCCAGCTGCAAGTCCTGGGCCACTTGTACTTCTGACCAATCAGCTGTAAACAGGGGTTCCATGACCACCTACTTAGGTTTGAGACTTTGCC
AGAATGGCTTACAGAAGTCAGGAAAACACTTTACAGTAGTCCCCACTCATCTGTGCCTTTACTTTCCACGGTTTCAGTTACCCTAGGTCAACTGAGGTTT
GAAAATATTAAAGGGAAAATTCTAGAAACAATTCATAAGCTTTAAGTTGCAGTTGCAGTGTGATGAAATCTTGTGCTGTCTTGCCRCATTCCATCTGGGA
CTTGAATCATCCCTTTGTCCATCCACACTGTGTACGCTACCCACCCATTAGTCCCTTAGTAGCCTTCTCAGTGATCAGATCGACTGCTGTTGCAGTGCTT
GTGTTCCAAGTAACCCTTATTTTACTTAATGGCCCCAAAGTGTAATACTRATGCTGGCAATTTTGATATGCCAGAGAGAAGCCATAAAGGGCTTCCTTTA
AGTCAAAAGGTAAAAGTTCTCAACTTAATAAGGGAAAAACAGGGACCCCTAGAGGGGGGACTGAGGAAGGGGGAGAATGGTTGAAAAATTTAACTTTGAG
TACTATGCTGAGTACTWCTGTAACGGGATGATTAATATCCCAAACCTCAGCATCATGCAGTGTACACAGATAACAAACTTGAACATATGTACCCCCGGAA
TCTAAAATAAAGGTTAAAAACAAATTAAGGAAAGAAAACGTAATCCTGTCCTGTGGTTGCTAAGATCTACCCTAAGAATGAATCTTCTGTGTGTGAAATT
GTGAAGAAGGAAAAATTCATACTAGTTTTGCTGTCGAATTTCTAACTGCAAAAGTTACAGCAACAGTGTGTGATAACTGTTCTTACAGTATGTTGTTATG
TTATTATTGTTAATCTATTTCTGTGCTTAATTTATAAATTAAGCTTCACAGCCAGGCATGGTGGCTCACACATGTAATTTCARCACTTTGGGAGGCGAGG
TAGGTGGATCGCTTGAGCTCAGGAGTTTGAGACCAGCCTGGGTAACATGGTGAAACCCCATCTCCACAGAAATACAAAAATTTACTGGTCATGGTGGTGT
GTGCCTGTAGTCCAAGCTACTTGAGGGGGCTGAGGGGGTTGTTTGAGCCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCT
GGGTGACAGAACAAGACCCTGTCTCAAAAATAAATAAATAAATAAATAAAAATTAAACTTTATCTTAGGTGTGTATGTATAGGAAAAACATAGTATGTAT
AGGATTCAGTACTATTCTTTGCCAGTTTATTATAAAGGATACAACTTAGGAACAGCCAAATAATTGAAGAGATACATGGGGTAGGGTATGGCTGGAGTGG
AGTGGGATCGGGTAAGGTGTGGTGGGGAGCTTTCATGCTCTCTGGTATGCCACCCTCCCAGCACTAGGATGTGTTTGCCAACCCAGAAACTACAAATCTC
ATGTATGGGAGTTTTTATAGAGCTCAGTCTCTAGCTCCCAACCCTCCTCTTTCTTCCTAGAAGTAGGAGATTGGTGGGTGGGATTGAAAATTCCAGTCCT
CTAAGCCAGCATGGTGGTGAGCACCTGTAGTTCCAGCTACTTGGGAGACTGAGACAGGGGGATCAGTTGAGCCGTCCAGGAGTTTGAGTCCAGCCTGGGC
AATATGGCAAGATCCTGTCTCAAAATAGAAAAAGTTCCAGCCCTCTGATCGCTTGGTCTTTCTGGTGACTAGTCCATCCTGAGGCTATCTAGGGATCCCA
CTCTGTCACCTCATTAAAATAAACTCAGGTATAATCAAAAGGGGCTTACTATGAATAACAGAATACACTCCTATCACTTAATAAATCCCAGGAGTTTTAG
AAGTTCTTTGACAGGAAAATGGACAAATGTATTTTTGTATTATACTACATCTGTGCTGATACATGACTTTTTCATTTTATTTATTTCAACTAATTGAAAT
TGAAACTTAAAACAGCTACATGACTAGTGACTATCTATTAGGCAGTGCAACCCTATACAATTATAAAGTTCTTTTTTTTTTCCTACTGTCTTCTGCCRTC
CAGCACTAAACTATGAAATTTTGAGAACAGATTTTTCAACATTATACTTTCAGAGTTTCTTGCTTATGATAGAAGCTCAAATATATTTAGCAGTGGATTC
AGTTTAGCAAATAATTATTGAGTTCTATTTTCTGATTAGCTTTTTTGGTGGGAACACAGAGGTAAGAGAAACATAATCCCTTGCTGCCCTCAGATTGCTT
ACAGTCTAGTGATGTAAACAAATTAGAGTGGCGTGTAATAAAAATGAGTGTTGTTGCACTTAGTCCATGGAATTGTGGAACGGTTAGGCTGTTTGGATGA
GTCAGGGCATAGTACAATACYTGAGGTATAGTGGGTGGGTGTTCAGTAAATCTCACTGAATGAATGAATGAATTATAGCCTCAGTTCTACCATTAACTGG
CTTCTTGGCAAGTCTCCTAGTCTTTGAGCCTTAATTTCCTTATCCCTGAAATGGGAATGATGTGCATATTTTAGGGTCTTGAGTTTTTTTGACTGGGAGG
ACCATGTTTCATTAACGCTTGGATATATTTTTGCCTATAATATAGTTTAAGCGTTTAGTAAATGTTTTAGTGAATCCTTAATCCCAACAAGAATAAAGGG
TGTTAAAACACTTTCACGAATGTGCTTATATTATTGTCATATACCATTGATTGGGAGATGAATTGACTTAAACTGTGGAGAGGGAATTAAGATTACCCAA
GGGTAACAGTGACCTTTTGTTTTGACATTTTTTTGGCTGCAGCTGTCCTCTAATGATTTGAGATTTTCACTTCTTTCCTTTATTGCCAGTGGAAGTTGTG
GAAGAAATTAATGTTGAACCTAACGCAGTTGGGGTAACGGTTTTAAGGGGACTATAATGGGCTCACTCTGTTACTCTCATGTGGTGATTGAGGAGCTAGC
CCTTTCCAAGTTGTCAGGTTTCGTTTTTTTCCTGTTTTTACCAGCAGACACTCAGATGGGACTAATTCTGTTTAAGTGTCATGTTGGGTTTATTGAACTT
GATGATGGACTTGATATGCCTCTTGGGCATTTATTTATGGCTTGATGTCAGAAATCCATGCACAGGTTGCTCTGAAGAGCTCCCTTTGGTGTAGCGTGGC
AAGCAAAGCATTTTTGTTTGTTTGTTTCTGTTTGATTTTGGAGCATATGCTAGAACAGAATTAGATGTACTTTCCTCTATTTGTAGGTAAGTTCATCTTT
CTCCTTTTTTAAATTGTAAGGATAATATAGATTAATAATAAAAATGGGGAAAATATTGGTATGATGTAGGAGACCTGATAAACTCATATTTGAATTGCAC
TTCTGTTATTTATCAGCCTTGTGATCCTGGATAATTTATATGATTTCTAGATGATTTTTTCCCATGAACCTTTGTCAAAGAGGATTAAATGAATGGATGG
ATGTAGTATATATAGTGAGGTACTCAGCACAAAGGGAAGGGGCCTCAAATATTTTATATGGTGTCCTCTACTGCATACACGTCATCTGACTTTTGGTGGT
GTGTCCATGTTAACAATGAAGTCTCTCCCAAGAATTCAGACTGCTTTCTGAGAATGAATCTAGTCATGAATCCCTCCCATACAGAGTATAGTTTCAGCCA
TAGATAGAAATAAACCAGGTAATTGCCTATAAAACAGACTGAAGAGATGGGAGCACTCAAGATGCAAACAAGATAATCTGGGTGTAATTCCAGGGAAAAG
GGATTGGAATGAAATTGTAATTTAGGAGACTGAAATCTAGTTGATTGTATCATAATATTCTTTTTTTTTTTTCTCTTGAGACGGAGTCTTGCTCTGTCGC
CCTGGCTGGAGTGCATTTGCATGATTATCAGCTCACTGCAACCTCCATCTCCGGTTCAAGTGATTCCTGTGCCTCAGCCTCCCTAGTAGTTGGGACTACA
GGCAAGTGCCACCATGCCTGGCTAATTTTTGTATTTTTTTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTCTAGAACTCCTGACTTCAAG
TGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAGCGTGCCCGTCCTGTATCATAATATTCTACCGAGGGAGAGATTATGGGA
ACAAGCAGGGGGTTGTCAGCTTAAAACATGGTAAACATAGTAAAAGACAGGCTGAGTGCTTGAAGTTGGCAGAGTTTATCTTGCCTTATTTATGGCAGAA
ATGAATCTAATGATAGGAACTGTAGAGATGGATTTTTTTTTTTTCTTTGAGATGGAGTCTCGCTCTGTTGCCGGGCTGGAATGCAATGGCTCGATCTCGG
GTCACTGCAACCTCTGCCTCCCAGGTTCAGGCAATTCTCCTGCCTTAGCCTCCCGAATAGCTGGGACTACAGGTGTGCGCCACCATGCCCAACTAATTTT
TGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGGCAGGATGCTCTCGATCTCTTGACCTCCTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGAT
TACAAGCGTAAGCCACCATGCCCGGCCGAGATGGATTTTTTTATGAGGAAGTGATAGTACACTAAACCTTCATGGMCAAAAAAAGTATCTCAAAATAGTT
GTCTCCCTTTTGTTCTGATTCCATGTGGAAGCAATTTCTGATCACTAATGATCACTAATGTAATTGTTCAGGTATTTAATCTGAAGGCAGCAGCTAGTTT
ACCTAGATGAGGACTGAGAACCTTCCAGGTATAAGGAAAGTATATCTTGTATTGTAAATTAATAAACTGGTGTGTGTCTCTCTCTGAACCAGTCACTAAA
CTGACAGTCTGGTTAATGTATTTTAGTATATAAGCATCTGCATGCTAAAGACTCCTGCACTTATATCTACAGTTCATACCCTTCCCCTGAGCTACAGACT
TGGATATGCAACTGCCTACCTGACATTTGCATTCAAGATCGAGGGCGAGGGCTAGACTGTGTCTTTTGTTTAATTCACTGCATAAGCTAAGGCCTTTTGG
TAATAAGCCATTAATGTCTCAACTTTAATAATCCTGTACCCCGTTATAACTATTTTTATGTTTCCTTTTGGTCTATGTCCATATRAGGCATAGTTTCACA
TTATTTCATAGTGTATATATTATTTAATTATAAAAATATATAAATTTTTATGATTGGAAATAATGCATGCTCATCATAGAAAAATAGAGGGAAAAACACA
CAATGGAAAATGATCATTATGTGCTATTACTACCATACAGAGATAGGCACTGTTAACATTTTGGTGTATTTCTTTTTTTTTTGAGATGGAGTCTTGCTTT
GTCACCAGGCTGGAGTGTAGTGGCATGATCCTGGGTTCAGGCAATTCTCCTGCCTTAGCTTCCCAAGTAGCTGAGACTACAGGTGCCTGCCACCACACCT
GGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCGGCTCAGCCTCCGA
AGGTGCTGGGATCACAAGCATGAGCCACCGCGCTTGGCCAACATTTTGGTGTATTTCTGTATATTCACATATGTGTACACAATTTAATATGTTGAGATTA
AGATTATACTGTATATTTAAAATGTGTAGTTTTTTGCACGTAATGGACCTTAAACATTTCCCCATTAAAAAAATATTTTCTATAAACATTTAATGGCTTT
ATTCTGTCATTCAGATGTACCACATAATCATTTTAAGTTGTTTCCAGTTTTTCACTGCTAACGCTTCTAGACTGGTCATGTTTATCCAGGAGAGAGCTAC
CTGTACCAAAAATAAAATAAAATAAGTACAATAAAATAATAAAATAGAATTTAAAAAAATGCCGGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTG
GGAGGCCAGGGCGGGTGGATCAAGAGATCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGG
CGTGGTGGCAGGCACCTGTAATCGCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCAGAGATTGTGCC
ACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAATAAAAAATAAAATACATATGTGTGTGTGTATGTGTGTGTATATATATAGTTTA
CTCTCACTGACTCTTAGATATACTCTAAAGACCCATGGAAATTCAGTTGTAGCATAAAATAAATACATTTATAGCGTAAAAGAGCAAAATATTTCAAATT
AACTTGCTTAAGCTACTTAAAGACAAAAAAAGTTCATTTGAAATCTTTTGTCATTTTTTCACTGGTTATATGGAATCAGGTGAGAGAAGGACAAGTTTTG
ATGCCATTATTTCTATGTGGTACTCCAGTAAATAGACTTTCTGTTTTAGGGAAGAAGAATAGTGTTCCCTCAAGTATATTAGGTTCAACATTAATTTCCW
TCATAACTTTCATTAGCAATAGAGGAAAGAGATGAATTTTAACCAGTAGAGGACAGTTGCAGCCAAAAACAAGTCAAGATGAAGGGCTTCCCCTTTATGG
GATCTGAATTTCCTCTTCAAACTTTAAAATTAGGCTAGTTGGCTCATTACATCATAGGGGAAAAAAATAAACCCCATTTGCATGAATTTCACCAAATTTG
GAGATTGTGTGTTGATCTAAAATTAAAAACATAATGTATATAAAACATTTTAGAGGCCCCAGAGTTGTTTAGATAGGTAGGCTATCAACCTCCAGAATCA
GCTTATGTAGGTATGTGGGATGTAGTGATGATGGATAGAGAAAGTAGTGGCTCCCAGTAGGAGCTCTAAACAGAAAGGGCAGGTATTTTGAGTTTCAGGC
ATCTGCAGGCATCCATGTGCATCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGAAAGAGAGAGTGGGAGAATGAGAATAGAGGTGGATAAATTTCCCAAGCAACTTCAGGGAGGGCAGTTATTTTAGACAGGATGACTGATTTTTA
TTCATTCAGAGTAATTATTTATGTTCATTTTCTCCAGAATTGAAGTAATCCTCTATTATTATTTATTATCGAAAATAAATGAAAAGGTTAACTTGTAATA
CTATAACCACTGTTGGCATTTCAAGTCATTTCTTTCTAATTTTTAAAATGTTTTTAAAGCATTTGTAATCATACTGTATAATTTTGCATTATGCTTTTGT
TATTTAGTATGGGAAAATGCTAGATACCTACAGTACTTGATACATAATAGGCACTCAATAACTATTTACTAAAGAAGGAATTATTGACTTGTTTAAAAAT
CTTTTGAATGGACCATCAAGCGACTATACCATAATTGACCTAATTGTTATCCTTTGTTGTTTCTAAATTTTCCTGTCTTAAAAATACATTRAATATTTTG
ATGTAAATCACTTTTCCTGAAGCATATAGTTTTTCCTATGTATAAAGTTATTTTCTTAGGACAGGTTCCCAGAAGCAATTAGGGGTCAAATAAAGTATTA
GAACTCTTGGTTGCAAGGGGCAGAAACTTAATTGGGAAACATTTTGGCCAATCTTGTCAGGGGCTTCCAGGATAACTCTCAGTTATGTTTCTCAGTTATG
TTTCTGCCCCTTGTCTCTTTCCTCTATTGCTGGGACTTCAGCCTTTGCTGTATTGGGTGCTCAGTTTATACTCCCAGGGCTTTGCTTCTTGTTTACCAGT
GCTCTTCTTTGCTTTTCTCTGGCAGACTCTTGCCATCTGGTGGTAAAGATTGGCTTTGGCAATTTTTTGTAGTTTACAATCCTGATTTGTATATGTAAAA
TGTAATAAGCAAGGTGGTTCTCCCAAGGAAAGGATTTTGGACAGACAGGAAAAGGATGTTTGCTATAAGTGTTTTATTAAATGTTATTAAAATATTATTT
GATTTATTTTTGAGACAAAGTCTYGCTCTGTCACCTAGGCTGGAGTGCAGTGGTGCCATCACAGCTTACTGTAGCCTTGACTTCCTGGGCTCAAGCCATC
CTCCCACCTCAGCCTCCTGAGTATCTAGGACTACAAGCATGCACCACCACATCCTATTAATTTTTCTGTAATTTTTCTAGAGATGGGGTCTCACTGTATT
GCCCAGGCTAGTCTTGAATACCTGGGCTCAAGCAGTCCTCCCAAAGTGCTGGGATTACAGGCCTGAGCTTCCATGCCCAGCAATTATTTCATTTTAAATT
ATTTTTATTAAATGTGTAATAGTTTATTAGTATTTTATCATTCTTGATAGCCATTGATAGTGACTTCCAAAAGTTTATTCTAGCCTTAGTAATAGTTCTT
ATTTTACTATCCTTTCACCACATTGAATATTATTTTCTAAATACTTTGCTAATTTAATGGATTAAAAATAGTAGCTTGTTTATATTTCCTTTTTTAACTT
AACGTCTATCATAAATATTTTTTGTAATTAATTTAAATGGCTGTTTACTTTTTTATTCCACAGATTTACTATGTTTGCCATGCTGTTTTCCAGTTATTGT
TCATTAGGGTTGTTTTATGGTTCTTATATATTTTTTAACCTCTGTAGGTAATAATACCGCAAGTTATTTATGTATTTATGTATGTATGTATGTATTTATT
TATTTGTGAGATGGGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTCCAACCTCTGCCTCCTGGGCTCAAGCAGTGCTC
CCACCTCAGCCTCTTGAGTAGCTGGGATCACAGGTTTGCACCACCACGCCCAGGTAATTTTTGTATTTTTGGTAGAGATGGGGTTTTATCATGTTGCCCA
GGCTAGACTGCAAGTTATTTCAGCTCTGTAAGTTTTTTGGCTCTTGTGAGTTTTTCCTTTGAAAAAATTCTATTGATGATATTCTTGCATCAAAGATAAA
CATCTTTATCTTTTTGCTTTCAAATAATTTTACCAACTTATATTTCTATCAGTATTGTGTAACTACAGATATTTTATCACATCTTTACTAATATGGAGCA
TTACATTTTTTAAATTTTTTGTTTTTTATTTTTAAAATAAGATTTACAATATTTAAAAAATAGAGATGGGGTCTCGTTATGTTGACCAGGCTGGTCTCAA
ACTCCTTGCCTCAAGGTATTCTCCCATCTTGGCCTTGCAAAGTGTTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCTATTTTATTTACTTATTTTTTT
GAACCAAGGTCTCACTCTGTCACCTGGGCTGGAGTGCAGTGGTGCAGTTGCAGCTCACTGCAGTTTCAGCCTCCTGGGCTCATGCGATCCTCCCATCTCA
GCCTCCTAAGTAGCTAGAGCTACAGGCACGTGCCACCATGCCTGGCCAGGTTTTTTTTTTTTGTATTTTTTGTAGAGACTGGGTTTTGGCATGTTTCYCA
GGCTGGTCTTGAACTCCTGAGCTCAGGCAATCTGCCCGCCTCAGCCTTCCAAAGTTCTGGGATTACAGGCATGAGCCACTGTGCCYGGCCACTTTGAGCA
TTATTTTAAGAATGTTTGTTGGTTGATTGGGTATAAAAAGCAGTCTCAATTTGCAGTTTTAAGTTTCACGCTTTTCAGTAAAAATTTTCATTTTTCCCTT
GCATTCCCCAACTCTTACCTTCTTATCCAGTTTAGAGTATAAATACCAGATATGCCCTCTGCTTTACGTTATTTCTTCTTCTTGTGCCCAGGTCTGGTCC
ATCGAACTCATATGTCATCCTGTCGGGTGGATAAGCCCTCTGAGATAGTAGATGTTGGAGATAAAGTGTGGGTGAAGCTTATTGGCCGAGAGGTAAAGTT
CTGTGCGGCTCCCTTGTGGTTAGAAAGGATTAGGAAGAGCTGGGATTTTTGATATTTTATGATAGTGAGTGTGTAAATTTTGTTAATTGTGCTGATAATC
TTATTTTTAAATCCTGCCATTAGAATCTATTCTGAATTCAAACCTTCTGGTAGACTGTCCTGCAAACTCAGAAGGAATGATATGAGCTATAAAAGTGTGG
TGCAATAAGTGCACGTTTGTAAAACTTCCCTCCCTGAAGTTTACCCATAGGGTGGGCCGGAGGAGAGAAAAAAGAACCAAAAAGAGAGAAGGAAAGTTGA
CCTATGGGACAAGTGTTTATCACAGACTTCAAAGAATACCTGCCAGATACACTTCAGTTTGGGACAAAACAAAAAGAACACAGATAGTTTACAGTCATTT
TCCCTAATATCTGGCACCATGCAATGTGCAGAAAGTGAAAAAAATCTGAAGGACCCTGTTACTCACTTGAGGGTATGAGGGCTGTGGGTGTGGGCCGACC
ACAGGAGAAATAAGAGCATACACTGAGTCCTGTTCTACCAGAGACAGCACRGGAGATAGGCATGAAAGAACTATTATTCAACAATATTTAAGTGCTTAAT
ATGTGCTAGGTTTGGGAGATATAAGAGCGAACCAGACAAAAATGATCCCAGCTATTATGGAGTTAATATAGAATATAAGTAGAGACAATTTTTCTTTCTT
TTTTGAGACAGGGTCTCTCTTTGTCACCCAGGCTGGAGTACAGTGGTGCCATCACGGCTCACTGCAACCTCAGCCTCCTGGGCTCAACTGATCTTGCCAC
CTCAGCCTCCTGAGTATCTGGGACTACAGGCACGCACCACTAAACCTGGCCTTTTTTTTTTTTTTTTTTTTAATTTTTTTGTCAAGATGGGGTCTCACTG
TGTTACTACCCAGGCTGGTTCAAACTCCTGGGCTCAAGTGATCCTCCTGCCTTTGCCTCCCCAAGTGCTGGAATTACAGGCATGAATTTCCATGCCTGAC
CAAGACAAATATACATAAAATAATTGCAAGTTATATTAAGTGCTATATTGGGTTCAAACACTATTGGAAGAAGATTTCTAGTTGTCAGGAAAGGACTCTT
TGAGGAGATAGAATATGAGCTGAGACCTTAAAGAAAAGGAACTAGTCATGGAAGACTTGGGATAGGAACATTCCAGGCAGAGAGAATAACTGATGCAAAG
ACCCTGAAGTGAAGAAGTGCTTCATGTGCTGCGGGAAGCAAAAGAAGACCAATGTGACAAATGTCTTCATGCTTAAAGAAGCTCTAGACCAAGTCCAGAA
GGAGATCTAGTCTCTTGAAGTATTCAAAAACCTATTCTGGACTTAGGGATATCTCAACAAATCACTATGCTGAACTTACCTGGAAGAAAAACTTTTATTT
TCTGCCTGGTTACTTCCACAAGCCATGGATTTTTTGAGCTACCATTTTTGTCTTTCCCTCAGAGGGACAAGAATGAGATTAAGACTGTTTCCTAAAATTC
TTCTGCCACAGGGTCTACCTGTTATGCTTATTTGTATCTGCAATGTTCCTAGCACAGTACCTGGTCCATTAAAGAAGCTCAATGTTATGATGAAAACGTT
GACTCTTAATTTTAGACTGGCCATCTAAATGATGTATTTAAAGTTTTTGGTGACTTTTTTTGGTCTCTTTCAGATGAAAAATGATAGAATAAAAGTATCC
CTCTCCATGAAGGTTGTCAATCAAGGGACTGGGAAAGACCTTGATCCCAACAATGTTATCATTGAGTAAGTAAAAGGTTTGGAAAGGTGAAAATTCTTCT
GCCTCCCAAATCATAAAATGGTTTAGTAAATCAGACTGAACTGGTAACTCTACCATTTATGGACTTTGTGATATTGATAAGTTACGTAACCTTTGCAATC
TTTGGTTTTTAGAAATGTAAAATGAAGTTAGACCAGGCGTGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAAGCCGAGGTGGGCGGATCACCTAAGA
GGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCCGTCTCTACTAAAAATACAAAACTAGAAATTTGCTGGATGTGGTAGTGCGTGCCTCTA
GTCCCAGCTACTCGGGAGACTGAGTCATGCACTAGAGTCTCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTG
GATGACAGAGTGAGACTCGGTCTCAAAAAATAAAATAAAGTAATAAAATAAAAATAGTTAACACCTTGCTGCATAGAGTTCTAAGATGAAACGTTAACGT
ACCAAGCTCCTGGCATTGGAGTGCTCCATCAATGGTTTTGTTTCCTTTCCCTTAATCTCTTTCTGTTTCTGCCCTTTAACGAGTTAGCTAATAAGCATTC
ATGAAGAACTATTCTTTACCTCTCTCCCAGTGATTTCTGCAGGTGGGGTTACGTGGGTCTCTTCCACATAGAGACCACGTGGAAGGGTAGAGTAATCCAG
GAACAACTCCAGCGGGGTTTAGACTCCCACATCTTGGGATACACTGTGCTCTGAAAACAACATCTTACTTTCGTTGGCTCTTCTGACCTTTCATTTAGGA
ATGGGAAATTATCTATGTAGGACAATGTCTGGCAATACAAGGAATGTTCTGTCTGTCTCAAGTCTTTCTTGGATTTCTTTTTTTTTTTTTTTTTTTTTTT
TTGAGATGGGGTCGCCCAGGTTGGAGTGCAGTGCCATAATCACGGCTTACTGCAGTCTTGACCTCCCAAGCCCAAGCTATCCTCCCACCTCAGCCTACCG
AGTAGCTGGGACTACAGGCATGCGCCACCACACCTAATTTTTATTTTGTAGAGACAGGGTCTCCCTATGTTGCCCAGGTTGTTCTTGGACACCTAGGCTC
AAGCGATCCTCCCACCTTGGTCTCCTAAGTGCTGGGATTACAATTGTTAGCCACCATGCCCAGGCTTCTTTCTTAAATTTCTCATCGGAGGTTCTTGGAT
CCCTAAAGTCTCTTAAAGGGGGATCTTGGAGGGTTTTTTTTTTTTTTTTTTTTGAGACAAGTTTCACTCTTGTTGCCCAGGCCGGAGTGCAATGGCACAA
TCTCGGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCACAGTAGCTGGGATTACAGGCATGTGCCACCATGCCCGGCT
AATTTTGTATTTTTAGTAGAGATGGGGTTTCTCTATGTTGGTCGGGCTGGTCTTGAACTCCCGACCTCAGGTGATCTGCCCGTCTCGGCCTCCCAAAGTG
CTGGGATTACAGGCGCGAGCCACCGCGCCCGGCCCTTGGAGGGTTTATTAACTGTTTTTAGTGTTTTAGAAAGCCATCCAAAATTCTATGTGTGTCCTCA
GGTTAACCATGCTGTTATTTTGTTGCTTTTGATGATAAAATATCACATTGTTTGTCTTATGTTAATTAGGTACGCTCAATGACAATTATGTCATTGATGA
ATTTAAAAGACAAGAAAAATGATAGAATGTTATTTGAGTGGGATCTTATTGGTGAAAAGTTTGGAAAGCCTTATGTTTATAGTTCTGAGCAAAATCACTT
TGAATTTGAAGGAATTTTATCTGGAAGTAAGGGAAATGTTATTGAATACATACTGCAGTGCCAGGCATTTTATGTACATTCTTGGGTACATAACAACCTG
CAAAGTGGATGTTATCTCCATTTTACCTTATATTCCTACTTTATAGCTTGGTGCCTGGTGATAAGTAACTTACCTGTGGTTACATAGAAAATTATCAGGG
ACTCAAAACTCAGTCTCTCTGACCTTAAAGCTAATGCCCTTTTCACCACAAAATGCTTCTCACTCTTGCATGTGACTTACAGAACTTTTCATATTTCTGT
GGTTTAGTCTCTAAATATTAACATGTTTGTAAGGCTGATTATTGACAAAATACTGTCAGTAATAGTAGGAATCTTTTATAACTCAGAGTGCAGAAGTGTT
TAAATCTGGCTGTGGTTCAAGTTAGTGTTGGGAAAAGGAAAAAGAAAAAATTCTGATGATTGCATTGTAATAAATAGCTTCTGCTCCAAAAAATCCAATG
CTATATGGACTCATTAAAAAATAGTGAAATTTCCCAAAGCCACCCTTACAGTGATAAAATATAAAACATGTAAGATAAAAGAGCTAACCCTGTTTCTCAG
AAAATGGGTAGGGAAGGGAAAGGGCTCCCTGGTTTTGGGCTGTCTCTGTGTAGAACTATTTTTAGTAATAATCAAGTGGCTGAAACAGTAACTTTTGTTG
TAAATTATGTCTATAGCTGCATCCAGGAAGGAAGCATGGCATAATGGAATGATTAGAGGATTTAGAGCTAGACTTGAATCAGAAAGAGTACTGGTTCTGC
TCCAAACTAATATATGACTTTGAGCAGATTAATTAGTCTATCTGAATCTTAGCTTCTTTACTATAAAAGGAGACAGTAACATATATCTAAGGAATGCTTG
AGTGATTTAAGTAAAATCTTATTTGTAAGGAGCCAGCTTCATGTCTAGTCTATGGTAGACATACATGTAGCTACTTGTAGTTATTGTTTTAAATGCCGCT
TTGTTTTATCCTCTAATATCTGAGATTATAGCACCTTTTCTTTTTTCCTCATACTATGGTGTACGGAACCACACCTTTGCTTTTGAAAGAGTGTGTGTGT
AAGACCCACAAAAACAGAGACCATGACTTGTCTGCCATTGTGCCTGATGTATAGCATCCATAGTATTCATTTAGTTTTTTTGAGATGGAGTCTCACTCTG
TTACCCAGGCTGGAGTGTAGTGGTACAATCGTGGCTCACTGCAACTCTGCCTCCTGGGTTCAAGCAATTCTCATTCCTCAGCCTCCCGAGTAGCTGGGAT
TACAGGCATAGTCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGACCAGGCAGGTGTCAAACTCCTGACCTCAAGT
GATCCCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTACCGCTCAGCCCTAGTTAGTACTTTCATTTACTCATTTGTTCAACAAAT
ATAAGGCAACTTGTAATAAATACTAAAAGAGTAGTTTAAAGCAGTTGTCCCCGACCTTTTTGTCACCAAGGACTACTTTTGTGGAAGACCAATTTTTCCA
TGGATAGGGGGCTGGAATGGTTTTGGGATGAAACCGTTCCACCTTAGATCATCAGGCATTAAATTCTCATAGGGGGTGCGCAACCTAGATCCCTCACATG
TGCAGGTCACAATAGGGTTTGCACTCCTATGAGAATCTAATGCTGCTGCTGATCTGATAGGAGGCGGAGCTCAGGTGGTAATGCTCCTTCACCTGCTGCT
CACCTCCTGCTATGCAGCTTGGTTCCTAACAGGCCATGGACCAGTAGCAGTCTGTGGCCTGGGGGTTAGGGACTCCCTGTTTAAAGAAAGGGTTCTAGGA
ATTCACTTGAGGAGGAATAGTTTACTTCAGGCCTTGATGGTCAGAGAATAGGTGGTATTTGAGTTAGGTTTTGAAGAACAGATAAGATCTTGTCAGACAG
CAGGGGAAGGAATGGTATTTCAGGCAAAAGAAATGGTTTGAGGAAAGGAATGAGGCAGAAAAGCACATAGTACATTTGGGAACCTTGTTTAAGGAAAGAA
GAGGATATGGTCAAGTACTAGAATGGAAGGCTTGAAAGATAATTTAGGGTCAGATTGTGGAGAGCCATGAATATCAGTTAAAGAATATGAATTTTTATTT
ATTTATTTTTTGAGATGGACTCTTGCTCTGTTACCCAGGCTGGAGTACAGTGGCATGATCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTC
CTGAGTAGCTGGGATTACAGGTGCCCACCACTGCGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAA
CTCCTGGCCTCAAGTAATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATCRCACCCAGCCCATGAATTTTTTTAAAAAAGCCT
TTGGACAGAGAGGCTTCTCGTCAGATTAACCTCCCCAGGAATCCCATTGTCTGGCCTTGCCCTGTTATGCTCAGTATTCTCATCCTGTCTTCAGCCATCC
ATAGTTTGTTAGCCACCTTTCATTTTCCATAAAAATCTAACTCTTATATTCATCCCCTCAGGTCCCAAAGTGTTAATGAGATAATCTAATAAGTGACTCT
GTAAATGGAAAGGGGCTAAAAGCAGTTTCCAATTAGGCATAGCCTGCAAAGTACAGTCTTTTTCTTTTTTATTATGATCAAGATCAGAATTGAGTGTAGT
ATATAATTTTTTTTTTTTTTTTTGAGACAGGGTCTTTGTCTCCCAGGCTGGAGTGTAGTGATCATAGCTCACTACAACCTCAAATTCCTAGGCTCAAGTG
ATCCTCCTCCTTCAGCCTCCCAAGTAGCCAAGACTATAGGTCCATGCCAGCATGCCCCACTAATTTTTTTTTTTTTTTTTTTTTTTTTGAGACAAGAGTT
TCACTCTTGTTGCCCAGGCTGGAGGCAGTGGCACGATCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGT
AGCTGGGATTACAGGCATGTACCACTATGCTCGGCTAATTTTTGTTTTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGTTGGTCTTGAACTCCTA
ACTTCGGGTGATCTTCCTGTCTCGGCCTCCCAAAGTGCTAGGATTACAGATGTGAGCCACCATGCCTGGCCTAATTTTTAAATTTTTTGTAGAGATGACG
TCTTGCTGTGTTGCCCAGGCTGATCTTGAACTCCTGGTCTCAAGTGATACTCCCACCTTGGCCTTCCAAAGTGCTGAGAGATTATAGGTGTGAGCCACAA
CTGCTGGTCCATAGGGTAGTCTTTAGAAAAAGCACATATGACTTAACTCTGTTAAAATTTTTCATTTGTATGTCTCCCTCCATTGCCAGACTATTAGTTC
TTTCCAGAAAAGAATCATGTTTTGTTCGTTTTGGTATACATAATTATTACTATCACTAGTATTAGCACTGGCGTTATCCACTTACTAGCTGTACTGAAAA
AATGAGATTAATCTCAGAATCTGTGCTGGGATGGATTGGAGGAAGAAAACTGGAGGCAGGGAGACCAGTGAGGGAGTTATTACTCTAGATGAAACATGAT
GGGAGCCTAAACTAGAATGATGGCAATGAGGACAAAAAGAGAGACRTGGGTGACTGACACATTTGTTGMATTGAGTGTTAAGTGGGAAGTATGATTTGGT
TTGTAGTCTGGKAGAAGCCACAGAGTATTGGAATTGATTGTCATGGGGGTTGCTTAAGCTGCAACTCACAGCCACTTGAAACTCATCTCTACAAATAGAT
AGGTGAAAGCAAAAACCATGTTTGTGAGTTCCTTGAGTTATGTCCTCAAGTTTCTGCCTTTGTTATGGGTTTTTTTTTGTTGTTTGTTTGTTTGTTTGTT
TGTTTGTTTTGGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTACAGTGGTGCAGTCCGCTCACTGCAACCTCAATCTTGCAGGCTTAAGTGWTCCT
CCTGCCTCAGCCTCTCGAGTTGCTGGGACTACAAACACAAGCCACCATGCCTGGCTATTTTTTTTTTTTTTTTAAGTAAAAGGAATCTGTACTGTTAGAA
ATTAGAATTGTGATTACCCTTKGGGGAGGCAGGTAACTAGAAGGGAGCATGAGATGGGCTTCTGAGATGCTGGCAATGTTCTGTTTGTTTGTTTGTTTGT
TTGTTTTGAGACASAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCTGCTTCCCAGGTTCATGCCATTCTCC
TGCCTCAGCCTCCCAAGTTGCTGGGACTACAGGCGCCCGCCACCTYGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCTTGTTAGCCA
GGATGGTCTCGATCTCCTGACCTTATGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCACACCCAGCCTTAATRTTCTGT
TTTTTGATCTGAGTACTGGTTACTTTGGTATGTTCAAATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATA
TTATATATATATATATTATAATATATATATATAATAWWAWATATATATATAWAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTA
CCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGACTTATAGTTCCACTGCCTGTATAGGAGGCATGGCTGGGGAGGCCTCAGGAAACTTACAG
TCATGGCTGAAGGGTGAAGGGGAAGCAAGCATATCTTCATATGGCGGCAGGAGAGAAAGAGAGAGAGAGCAAAGGGGAAAGTGCCACACACTTTTAAACC
ATCAGATCTCATGAGAACTCCCTCACTATCACATGGGGGAAATCCGACCCCATTATCCAATCACCTCCCACAAGGTCCCTCCCCCAACACTGGGAATTAC
AATGTAACATGAGATTTTTGTGTGTGGGGGAACACAGAGCCAAATCACATCAACATATATATTATATTTTGGTAAGAAGTCTAAAAATGTTTTAAAAGGC
TATGAGAAATGCAACAAAGAGATTAATTCTGTCTGAGGGGCTCAGAGGAAAAGACTTGATAGAAGGAGAGCTAGTAACTGAACTGAGCCATGAAATGTCT
AGGTATAGTGAAGTGGTGAGGTGAGAGTCAAGTGGGGAAACAGAGCATTTCAGAGAGGGGGAGAACTGCCTGAGCAAAAGCACTGAGCCACATGGATAAG
AGAAAATAGACTTCTTTGGCCAGAGCATATTGTGTGAGTAAAGATGAGGCTGGAAAAGTAGTTTAGAGACARACTGTGAAAGACCTTGAATGCCAAGGTA
AAGAATTTGGAGCTGATTTTCTAGAAAGCCTTTGAAGGTCTTTTAAACCTATGAGTGACCTGGTAAGGGTTGTAGGGTGTTTAGCATGTTGAGTAATTAT
ATATTTTCATCCTCTGTGCATTAGTGAGATGAAGGTTAGTCTCATTCGTAATTGTTAATTTAGGGCTATTTCACATCATTGCATTTACTGCCTGTCTCGT
TCTGTCAAAAACTTTCTTTCTTTCTCCCCTTTCCCTGCCAAAAACAAAAAMCCAACATACAACCTTACCTTGTAGTATCTCTGGCCATRTCTCTTAAGGG
GGCCGGCAGTYGGTATCTTTTTCATTATAGGCAAGAAGAGAGGCGGAGGCGATCCTTCCAGGATTACACTGGGCAGAAGATCACCCTTGAGGCTGTCTTG
AACACTACCTGCAAGAAGTGTGGCTGTAAAGGTAGGGTGAAGCCTCTGCCCTTTCCACGTTTCTCTCCTTGTGGATGGACCCTTTTCTGGAAGAAGGAGG
CAGCCCAGTGTGAGTTTAGTTTACCCTGTTTTTTAGCCAAGTGATGGCCTTTGCTGTTTTTTCCACCAGACTCACATCAGAGTTCATGGGGTGATACATT
TTCTGTTTTCTTTTCTGAGTGCTGGCCCTACCAGATACTATACCACTACCACCACTCCTCCCACCCCACCCACAGCATATGCCTTGTCTGGGCAAGACCC
CCATGAACTATGCCAGGAGGAGTAAGAGTGTTGGATTATGATTAACACTCTAATTTTATCTCCAAGGATGATGATTCTGCAAAAATTAAGCAACTTAGAC
ATATATAACTTAAAGATCCAAGTCAGACTCTCATCTTTATCTCTTTAATGTCAGAGTTCTGAATACAATATCTTTTTACAGGATATTGAATAAAGAATAC
AGGATAGTCACTTCTTTTTAGCTCTATTTCCTCAGGTTTCCTCTACTCTTACTCAAATTTTAAAAGGTCTTTCAGCCTGATCCCTAGTTGGAGCTATAAT
GAGAGAGATTGCCAGCTTCTCATTTTCAGGTTGACCTCAATTGTCACCCCTTCTCCCTAGTCTTCCRTMTACCCTACTGTGTGATTTTTCTACAATAACT
GGTAGCAGATTTGTGCCCTGGTTGAAGTTGTGGGGTTTTAAGCCCCTATTTATCATTAGCATAGAGGGGAGAAGGAAAAAATAAAATTGAGAGAAAGAAT
ACCTCCTCAGGAAAACTGTGGGAACATTCCAGGTATTTGGAAAACTCTGCTATATTTCCCTGCCAGGTGCCACCCAGCTGTTGGACCCAGAGGTACAGAG
TACTTTACAGATAGCTTTTTTTGTTGTTTTTAAGGTAGGGTCACCCAGGCTGGAGTGTAGTGTTATGATCATGGCTCACTGCATCTTTGACCTCCTGGGC
TCAAGCAATCCTACCTCAGCCTCCTGAGTAGCTGGGACCACAGGTGTGTACCACCATGTCCAGCTAATTTTTAAAAATTTTTTGTAGAGACGGGGTTTCC
CTGTGTTGCCCAGGCTGGTCTCCCTGGGCTCCAGTGATCCTCCTGCCTCAGCCTCCCAAAGTACTGAGATTATAGGCATAAGCCACTGTGCCCAGCCCAC
ACATAGCTTTTTGATTATCTCATACAATTCCTCTGTGCCCCTAAGACAGGATCTACCACAAACTCAGACACAACTAGCAGTGTAGAGCATAGCATCTGTT
AAAGGGCCCCTCAGTACCACTATAGGCTCAGTGAAGGTGGGGGTCTTTTAACCTTAACCGTGTCCAACAGGCATTACATAAAGAAGAGAAGAATAATGAG
AGGTGGAATTTGTCCCAGTTAGTAAAGGTCAGGTCAAAGGTAGTTGGTTTTGGTGCAGCAGAAAGCACAGGGCAGGGAGGCATGAGACCCAGGATAAGTT
TGAACTCTGCTTCTGTCTATATGACCTTGAGCTACTTCTCAAATCTGGGCTTTCATCTTCTACAAATGTAGGATGGATTTAATGATTTCCAAGGTGCTTG
CCAGACCTGACAGTCTGTAAATGTTCAGTGCCCCTAGGTGACTGTGCCTATTTCTCTGTGTGTTAGCTTAGATGTGAGTGCCCACTTGCTACCAGCTACC
TACAAGCTATATTCCTTTAGGGCTTGGCCTGCCACTCAGCTCCTTCTGCTAAACATCCTGCTCTCTGGAGCAGTCTTTGATTGTCAGGAATATGTTCCAA
AATAGATCTTAAAAAATTAATAAGCCCCATTGTTAATGGAGGGCAGTAAAAACCTGCATCCTCATATSCTTTGCCATTTCGAGAACAGTACCAGTGTTCC
CCACAGCCCTGAGACCAGCTGCTAGTCTGGCTGTGGTTGAGTGAGCAGTGTCATGTTGAGGTGGTAGAAAATCTACCCTGAATCAAACAGCTGCTTTGAA
TGAACTCAACAATATTTCCTGAGCCAGCTAGCCCATTTCAGGAGACTTGGGGAAAGATTCACTTGCTGAGAAGAGAGACTACTTCCTTTTTCTATACCTT
TTCTACTTTTYTTCTGCAGGCCACTTTGCAAAAGATTGTTTCATGCAACCAGGTGGGACTAAATACTCTCTGATACCTGATGAGGAAGAGGAAAAGGAAG
AGGCAAAGTCAGCAGAGTTTGAGAAGCCTGACCCTACAAGGAATCCTTCTAGAAAAAGAAAGAAGGTGAATGCTACTTTGCTTTTATTTTATCATGTCTT
TTTCAAGTTTTAAGATGAAAATCTGAAAAGCCTCATGCAGCAGTACACACCTGTAGTCCCAGCTACTTGGGAGGATAAGGTGGGAGGATTGCTCGAGGCC
AGAAGTTTAAGGCTGCGGTGCGCTRTGATTATGCCTGTGAATAGCCACTGCATTCCACTCTGAACAACATAGTGAGACCCAATCTCTAAAAAGAAATTTT
TTTTGTTAAAAAAAAAAGAAAAATGAAAATGTGCTTTTTGCAGAAATTTTAGAAATACTGAAAAACATAATGAAGCAAACCAAGATCTTCTGTAACCTTT
CTACCCAAAGAGACTCTTATTGGCATTTTGTGGTATATTCTAATCTTTTTTCTTTTTTTGAGACAGGGTCTCTTGCAGTGGTATGATCTTGGCTCAGTGT
AACCTCTGCCTCCCAGGTTCAAGCGATTCTCATGCCTCAGCCAACTGAGTAGCTGGAACTACAGGCATGCGCCACCATGCCCGGCTAATTTTTGTATTTT
TAGTAGAGATGGGGGTTTTGCCTTGTGGGCCAGGCTGATCTCAAACTCCTGGCCTCAAGTGATCTACCCACCTCGGCCTCTGAAAGTGCTGGGATTACAG
GCATGAGCCACGACACCCGTCCACTTTTTTCTAGGTAATAATAAATACAGATATATATAGCTACACATACATGTAAATACAAAATTGTGGTCATACTAGC
TATAGTTTATACCTTTTTTTCATTTCACTTATCAAAAGCATTTCCTAGTATCCTTAAGTGTTCAAAAACTTGATTTAARAGCAACATAATATTCTACCCT
ATGGCTGTATGATGATATATTTAATTATTTTTGTATTACTGGATATTTTTTATTACTTCCAACCTAAATTTTTGGCCACATCTCTTATTGTTTTCTTGGA
TAAATTCCTAAGTAAGATTACTGAGTTAGGGCTTTAACGCTCTTGATACATTTTATCAAATTGCCTTCCAGAAAATACTTATCTGTCCCTAGCAGTGTAT
CAGAGCACCTGTCTCACTGAATTCCATCTCCTATATCTACTAYTTATGGCAGAGCAATTCATAAAACAGATATTATTGTGGTCCAGAAAGAAACAGTGCA
TTTGTAGCATGCTACACAGACAATAAAAACTATTCTGTAGGTTGATCAGGAAATATTTCTTCTATCGTGTAGGATTTTTCTAACTATGGCCAGTATATTG
ACTTTTGTTTCGTTTTTAAATCTTTGGCAAACTTTTGTTGAGGGGTCATTTTGTACCAGGCATTGTAACTCTAGGAATACAAAAACTGATGAGGTCCTTG
CCCTCAGTGGTTATTATCTATAGATTAAGTATTATCTTAATTTTCTGGGTGAGGAAAAGTTCTCTATACCATTACAAGAATTAGCCAAGTATATGAATAA
TAATTTCCCAATCTATATATTCTCTTTCTCGGTGATCCTATCCCTCCTGAGACTTTAGCTGCATTATTGACTTCCACATTCTTAACTAGGATGCCATGGG
TACCTCAAACTTTGGCTGGAGTCAGTCAAATCCAGACTTGAGGCTCTTCTGTGCTATTTACTAGCTGTTAATTTGGGGCTTTATTTTTKATTTTCTTTTT
GTTTTTTGAGATGGAGTGTCATTCTGTCTCCCAAGCTGGAGTGCAGTGGTGTGATCTCGGCTCATTGCAGCTTCYGCCTCCCAGGTTCCAGCAATTCTCC
TGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCAAGCCACCATGCCCGGCTAATTTTTGTATTTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCC
AGGGTGGTCTCAAACTCCTGACCTCAAGTGATCCGCCTGCCTTCGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCTCCGCGCCTGGCAAACTTCCGT
TTTTTCATTTTCGAAGTGGGATTGTTGTGATCTTTGATGACAATGTTCTTGCAGAGGGATGCCTGACTCCCAAAAATAAGATATAAAGCACTGACAAGTA
AGTTCCTAATTAGAGTTGGCTGTTATGACAGCCCTAATTATCTTTTTTAGTCCTCCTTCCTAAACATACACACACACACTACCACCATCACCAGTACCAC
CAAAACCCTTGTTTCTACCTTTCTATCATATATTATTACCTATTAATGTCAGCAATACTCTCCCAATCTCCCAAGAAAGAAACCAATGTCATTTATTTTC
CTCTCCTTTTCCATCCCACATCTAGTCAGTCACCAAGTCCTGGCAGTGGTGCCTTTTAAGTGCATATCTCAAAATTGTTTATCCCATTCCCATTCCCACT
GCTACTGTACAGTTTATCCCCTCACTTCTCTTACAGTCAGACTATTGAACGCTGTGGCCTAGGGAGTTTTAAAAAATACATATTTGCCCTCTACCTCTTA
GGTACCATGTTTACAGGGCCTAGGTCTGGGCATTTTTTTTTTTTTTAAAGCACCTTTTTTGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCTGAGG
CTGGAGGATAGCCCAAGTCCAGGAGTTTGAGACCAACCTAAGCAACATAGGGAGACCCTGTCTCTATAAAACATAGAGAAAATTAGCTGGGCATGGTGGG
GCACGGACTGTGGTCTCAGCTACTCAGGAGGCTGAGGTGGGAGGATCTCTTGGGCCCAGGGGTCAAGGCAGCAGTGAGCTGTGATTATGCCACTGCGCTC
CTGTCCGGGCAACAGAGCGAGACCCTGCCTCAAAACAACAACAACAAAACCACCTACTTTATGTCACTGCCCACTTCTGTTCATTGTTGATTTCTCACCC
TATGCTTTAACTCTGAATGTTGGAGTGTTCCAAGGGAATCTCATCCTGTCCTATGGTTTTAAATATCATCCCTATACTCATAACCCCCAAATTAAGTGCT
TGTGTCTGTATTTTATCCAAATCTGCATTGCTATTCTTGACTTTTTCTCTGGAACTCCAAATTTAGTTAATAGACTGCCTACTTGACGTCTACATCTGGT
TGTCTAGTTAGCATCAAGTTTAACATACCTCCAAAACTTAATTTTCCTAGCCAAAGCTGTTCTTTCCACATTTGGCCCTGTCTCAGTGATTGGAACTCAT
TGACCCATTTGATAAGCCAAAATCTGCAGCCTTTTTGTATAGTGTTTTTTGTTTGTTTTTATGGTAAAATACACATAACATAAAATTTACCATTATAGAA
GTGTACTGTTCATTGGCATTAAATACATTCATATTGTTGTACAACCATCACTGTCTTTGATCTCGAGAACTCTCTATACTCATTAAACAATAACGCCCCC
CATTCACCCTTCCTCCCTGCACTTGCAACCACTGTTCTACTTTCTGTCTTGAAACCATGTGGTATTTGTTTTTGTGACTGGCTTATTTCACTTAGCATAA
TGTCCTTAAAGTTCATCTGCATCATAGCATATGTTAGAATTTTCTTCCTTTTTAAGCCCAAATAATATTCTGTTCTATGTATTTATTTTTTGAAGCAGGG
TCTTGTGCTGTTGCCCGGGCTGGAGTGCAGTGGCACAATTATGTCTCACTGCAGCCTCAACCTCCTGGGCTCAAGTGATCCAGGAGTGTGCCACCACACC
CAGCTAATTTAGTTTTTGTAGAGATGGAGTCCTGCTATGTTGCTCAGGCTGATCTTGAACTCCTGGCCTCAAGCAGTCTTCCCACCTTGGCCTCCTAAAG
TGCTGGGATTACAGGCATGAGCCACCACATCGAGCCCCATTTTATGTATATACCACATTTTGCTTATCCATTTATTTTTGGTGAACACTTGGGCTGCTTC
CATATTCTGGCTATTGTAAATAATGCTGCTGTGAACATGGATGTATAAATATCTCTGAGACCCCACTCTTCTTTCTTTTTGGTATATACCTAATAGTAGA
ATTGCTGGATCATATATTCTGTTTTTAATATTTTGAGGAAGCACTCTGTTTCCCATTGTACGTTCCCATCAATAATGCACAAGGGTTCAAGTGTCACTAC
ATCCTTGCCAACACTTATTTTCTGGGTTTTGTGTTTTTTGGAGAGTAGCCATCCTAATGCGTGTAAAGTGACATCTCATTGTGGTTTTGATTTGCATTTC
CCTAATGATTAGTGATATTGAATATCTTTTCATGTGCTTATTGGCCATATGTATATTTTCTTTGGAGAAATGGCTATTTAAGTTCTTTGCCTATTTTGCA
TAAGCTTGTTTATTTTGTTGTTGTTGTTGATATGTAGGAATTTTTTATATGTTCTGGATATCAATCCCATCAGATATAYGGTTTGCAAATACTTTCTTCT
AATCTGTGGATTGTTTTTTTACTCTGTTGATAGTGTCCCTTTTTTCCCTATCAGATTTAGACTTTTTAAAATAGTGGTAAAGAACATATAACATTTACCA
TCTTAACTATTTTTAAGTGTACAGTTCAGTAATGTTGAGTATGTTCATGATAGTATTCATTGCACAAAAAAATTTTAATCTTGGTTAAGTTAAACTTACC
TTTTTTTCTCTTATTGCTGATGCTTTTAATGTCATACTCAAGAAATCATTGCCAAATCCAATGTCATGAAGCTTTTCCCTTATATTTTTCTAAGAGTTTT
GTAGCTTTAGCTCTTACGTTTAGGTCTTTGATCCATTTTGAGTTTATTTTTGTATATGGTGTACAGAAAGGGTCCAAAATTTCTTTGCATGTAGATCTCT
AGTTTTTAAAACACCATAGGTTGAAAAGACTGTCCTTTTCCCCACTGAATGGTCTTGGCCCCTGTTGAAAATCATTTGACCAAATAAGTGAGGATTTATT
CTATCACTGGTCTATATGTCTTTATGTCAGTACCACACTGTTTTGACTACTGTAGCTTTTTAGTAAGCTTTGAAGTTGGGAATTGTGGATCCTCCAGCTT
TGTTCTTTTTCAAGATTGTTTGGGCTATTTGGGGTCCTTTGAAAGATTTCATATGAATTTTAAGATAGATTTTTATATTTTTGCAAATTCTGATAGAGAT
TGCATTTAATCTGTAGATTGCTTTGGATAGTATGGACATTTCAACTGTATTAAATCTTCCAATCCATGAAAATTGGATATCTATTTGTATCTTCTTTAAT
TTCAGCAACATTTTGTAATTTTCTGTATACATGTCTTTCATCTCCTTGGTTAAGTTTCTTCCTAAGTATTTTTTTCTTTTTGATGCTACTGTGTGAATTG
TTTTCTTAATTTTTTTTCTGATTGCTCCTTGCTACTGTATAGAAACACAACTGATTTTAGCATGTTCGTTTTGTATTCTGCAACTTTGCTAAATTCACTT
AYTCGTTCTAACAGGATTTTTTTGTGGACTCTTTAGGGTTTTCTACATAGAAGATCATGCCATCTGTAAACAGAAATAATTTTCTTGCAGATTTAGTTTT
TTTTTTCTTTTGAGGCAGAGTCTTGCTGTATCACCCAGGCTGGAGTACAGTCACATGATCGTGGCTCACTGCTGCCTTGACGTCCTGGGCTCAAGCCAGA
TCTAGATTTTTAACTGTGATTCTATTTGTATGTTCCAAGCATTATTCTTTCTCTTTTAACCTTTTAGAGGTAAATGGTACTTGTTACATTCCTAAAGAGG
GTATATGGATATCTCACTTCTGTGGATCTTTGGTTGAGTTCTTTTTGCTGAATATATTGAGTATAATTTGTTATTCCTTTGTTTCTAAAGCTGCTTTGAG
ATATGTATTTCAGTTCACAAAACCAATTACTGAGGCTCTATCTGCTAGGTATGAGGCTCTTTATGACCTGCTTAGTCAACCTACTACCCAGCCCTCCATT
GCCTTTCACTTAGTAGAGGAATGGTCTGATGAACAATGGCAGTAATAATCATTATACATTATTATTTCTTAAAAGTATCTTTGGCCGGGCACGGTGGCTC
ATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACTTGAGATCAGGAGTTTGAGACCAGCCTGGCCAACGTGGCAAAACCCCGTCTCTA
CTAAAAATACAGAAATTAGCCAGGCGTGGTGGCGAGGGCCTGTAATCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAG
GGTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAATTAAAAAAAAAAAAAAAAAAAAAGTATCTTTGTG
TATATGAACTTCTAACTCATGAGTCCTCTTTGATTAAAAAGTGTTCTAGGGAGTGTAGAAGGGTAAAACTTTCCTCTTGATGCCCACTATTTCTACCAAG
ATAGCATTTAGCATCGTTGTCTTTTCACCTCATTGTTAATCCCGTCATTACCTTTTATGCCTCATATTTGTTTAGTGCTTACAGTTTATAAAATACATTC
CTGTTTTTGTTTCTTTTTATCATTATACAATTCTATGAGATAGCCAGAACAGGAATTATTATCCCACCATTTTACACATGAGTAAAATGGAGCTTCAGAG
AAATTGACGTAACTCACCGGAAGTCACACAAATATAAGAGATAATGCTGAAAAAATAACCCATGTCTTCAGATTACTAACAATATTCTTTTCTGTATATC
ACACTTCAACCATTTATTTAACTCTTCAATTATTCATTTACTGAACAAATATGTATTATCTGCTTCATAGGTATCTAGCATTGTGTTAGGTACTTGACAT
ATCAGGACTCATCAAGTCAGTTTTTGGTGGGTTTTTGTTTTGTTCCCAGCTACCGTTAGCCATCATGTGATGTTATCTATTGATTTGTTTCTGCTCACAA
CTGTAAATCAAGATTCCAGCCCTCCTGTTTCCTTTTACCCTCTAAATCTTGGATTCCAGCAGGAGGTTGGTTTTCCTTAACAGTAAAATCTTCTGTCTGA
GATGGCTTTTTTGGTGTGTGAGTGGCAGATTTGGACACTTGTTTCAGGACTAGTCAGCTCTGGGAGCCAAATATGGAACTGAGTAGATTTGTGAAGGAAC
ATGCCTTTAGCAGTCCATGCTCCTGAGTTGGACAGTGGAGAGTAGGAATGCCTGGCGTGTGGAAGGGCATATATGATAGTAACTCATGTAAGTTCAGTTA
ATGCATTTCTAACAGTTAAAAAAGTAACTCATGAAATAAAGATCATATGGTACCTACACTCAAGCGGCTAATCATATAAGGAGAAAGATAAGCAGCCAAG
CTATGTATGGTGGTAAAGGATAGAAACACATTCCAAGGAGGTTATTTGATTTTATGGACATCCAAGGACAGGAAATGCAGTGTAGTCAGGCCACCTAGGA
CTAGAACTGGAAAGTCTCATTAGGTTCTCATCTCCGTTTCTTCACAAGTCTGTTTCATTACCTCACTTTTTATAGTCTAGTGGAAGACAATGCAAAGCCT
CTAAGAAGACAGAAAATGGTAGACCTGTTGAGGAACCACCAGAAATAGCCCAGGATAAGGAAAGGATGTCACCTTTTACAAATAATGCCTGGTACTTAAT
AGGAATACATGCACTAACTACCTGTGAATAGATAGACTTCATAATCTGTGCTCTCTGTCATTCCTTGGGTGTCTTCACTCAGTGAAACCTGCCCTCAGAT
TGCAGAGTAATAGGTATTGACTCCTGCTGCTGGCAGTGGGCGATAATGAAAGGAGCAGGGGCAGGAGTAAGAATAACAGATCTTCCTAACCTTGAGCCTT
CCCACGTCTTTTCATTAAAACATACATGTATTGAATGCCTTTTCCCACAAGTCCAGGATGCATTGATTTAGTTGTGTGCATCTGGCACCATGAACAATTT
TTGTCCCAGTGACTGAATGTTATAAATAATTTTTGTTGGGCATAATTAGAATAAAAGGAAACTGTGTGTTGCAATTGGAAATGGGCTATGAAGTGGTTGG
TAAAATAGGAATGGAGGTTTTGTAGTGAATCCCTGGATAATCTTCTGATGAACTTGTGGTCTGTGCTTTACTGGCCTCTTTCATTAATCATATGCCATCG
TAGGTCTTTCTGAATYGGTGTTATGTTATGAAGAAGTAAGTGCCTTGGGGACCAAGCTGCCCACTGATTATAGTAAACTTTAGATATGTTTGATTCAGAA
TATAATTTTCTTTTGATTTTACCATATGATTTTCTGCTGTACCATATATAGAAGAACAAGAAATAGGAATGTCATTCTTTGGCTGCAGTGTTGGCTCTGT
CCTGCTGTCCAGAGAACTTSTTCTGGTGCCTATATAGAGAAAGGTTGCCAGTCCTGAGCCCACTCAGGGACACATTCTCTGCCTATTCAGATACAGCAGA
GAGCGTTGCCCAGTGTTGCCTACTCAGAAGCCTTCAGTGGTTCGCTTTCTTCTATGACATAAAGTCTAAGTTCCTTTAAGACTCTTCACAATCTGCCCAG
CTTCCTAGCATCATTTCCCACCAGTCTCTTCCCACACACTATACTCCAGCTTCATTCATTAATAGAGCTTCTACTGTGTGCTAAGCTCTGTTCTGGCCAT
TGCAGGTAAAGTAGTGAACAAAACAGGTAAAATCCCTATCTTCATGGCACTTAGATTCTAATGGATGGGGTCGATTGACACAGATAATAAACTGGTAAAC
AAATACAAAATAGTAAAAATAATGTATCAAGTAGTGATAAGTGCTATAGAGAAAAATTAATTTGATTAAGGGAGATAGGGAGTCCTAGAATGAGGATGTG
GGGAGCAGGTGACTTTCATTTTAGATAGGATGGTAAGGCCAGGCCTTTCTTTTTTTTTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGC
AATGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTTATGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCACCACC
ACGCCCAGCTGATTTTCTATTTTTAGTAGAGACGGGTTTCTCCATGTTGTTCAGGCTGGTCTTGAACTCCCGACCTCGGGTGATCCACACACCTCGGCCT
CCCAAAATGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCTGGGCCAGGCCTTTCTCATAAAGTGTTGTTTGAGTGGATATCAGAAGGAAGTGAGGA
CACAAGCTATTCAGGTAAGTGGAGAGAGAGCATTTCAGCAAATGTAACAGCTGATGTTGGGAAAGAGTGTGGCATGATTAAAGAACATTAAGGACGCCAG
TGTGGCTACAGTGAAATGAATGAAAAGAGAGTGGTAGGAGAGGAAGTTAGATCAGAAGGAACCCAGATCACTGGGGCCTTATAGGTGATTGGGAGGATTT
CATCTTTCACTTGAGTGAGAKGGATGTTATTAGAGGTTTTGAGCAGAGGAATGACATGATCTGACTTCCTTTTAAGAGAATTATTCTGGCTGCTATGTAG
AAACTTAGATGGTCAGAAAGCAAGAGTAGAAGCAGTGAGTTGATAGATAATCCAGATGATGGTGGCTTGGACTAGAATGACAGTGGCAAAAATGATGAGA
AAGGAGTTGAAGTGTGTATATATTTTGAAGATATAAGAGCAGGTGAGGATGGCATCAAAATTTTTGGACTGTGTAACTGGAAGATTTGAGTTAAGAGAAG
GAATGCAGGAGAAGTAAGTGTGGGAGTAGGGAGCAGTCAGGAGTTTAGTTTGAGTTGCTGTCTACACAGATGGAAAGATAGCTGGGAGAGTCTAGGTTTG
GGAGGGGGCGGGGCATAGAAATTGAGTTGCCTATCAGATATTCAAGTAGACCATAGAGTAGACAGTGGATATATAGTTTGGAGTTCAAGGGAGAGGCCCA
GGTAAGATATATAAATTTGGGAGTCATCTACATATAGATGGTATTTATGTTCATGAGATCACCTGCAGAGTAAATATAGGGAAGAGACTGAGCCCCAGAG
TGCTCAACACTTAGAGGTTATGGAGATGAGGATGAACTAACAAAGAAGACAGGAAAGGAACAGCCAAGGAAGTTTGTAGAAAAGTAAGAGAATGTAAAAT
GTGGTAGAAATAMCATGAATGTGTTCTAGGTAAGATGGTCTGTATCCATCTTGACTGACCAAGTAAATAAGACCCAATAATTGACCACTAGATTTGGCCA
CGTGGAGGTTACTGGTAATTTTGTTTGTTTGTTTTTGTAGAGACAGGGTCTCACTATGTTTTCCAGGCTGGTCTTGAACTCCTAGGCTCAAGAGATCCAC
CTGCCTTTAGAAAATTAAGTACTGGCTGGGTGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGATGAGGCAGGTGGATCACTTGAGGTCAGGAG
TTTGAGACCAGCCTGGCTAATATGGTGAAACCCCGACTCTAGTTAAAAAAAAATACAAAACTTAGCTGGGTGTGGTGGCATGCGCCTGTAGTCCCAGCTA
CTTGGGACTACAAGCGATTCAAGGAGAATTGCCTGAACCCAGGAGCCAGATGCTCCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTGAGTGACAAA
GCAAGACTCCATCCTAAAAATAAGTAAATAAATAAAATAGAAAATTAAGTACTCAATAAATGTTCACTGCTATATTCTCTTTTTTCAGTTTTTGCTTTTA
TTTTTGTTTTTCTGTCACACTGGGCTGCTGCTATCCTGTTTCAGAACTATAGTGAAAATGGGTAGACTAGCTGCTCTAACAAGGGATATGTGCTTTTCCT
AGAGAGCAGTCTTTGAGATGTTTGACCAGTGGCTTCCTTCCAGTGCCCCCTTGACCTGCGCCATGGGCTCACACTCCTATGCCATTTAAAAACTGTTTTA
TGTTTAATTTTCTATTTCCATCTGATACTTGAATCCATGTCATTTTTTTTTAACCCATTATCTTCTGTTTCCCTTCTCACTTGAATGAAGTTGAGAGAGC
AGAAGCTTGGTTCATCTTCTGGCTCTCAGTCTTCCCCCACCCCAACTCCCAACTTTGCTTTTGAACTACAACCTTTTTTTTTTTTTTGAGACGGAGTTTC
CATCTTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTTGGCTGACCCCAACCTCTGCCTCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAG
CTGGGATTACAGGCATGTGCCACCACGCCCGGCTAATTTTGTTTTTGTGTGTGCGTGTTTTGTTTTGTTTTGTTTTGAGACAGAGTTTTGCTCTTGTTGC
CCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACCAAAACCTCCGCCTCCCACGCTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTAC
AGGCATGTGCCACCACGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTTCATGTTGGTCAGGCTAGTCTCGACCTCCTGACCTCAGGTGATC
CACCCACCTTGGCCTCCCAAAGTGCTGGGATCACAGGCGTGAGCCACCGCAACCAGGCGAACTACAACTTCGGATGTGATTGTTCTTTTGTTCTGTAGCT
CAAGGCTAGACACGTAGGGAAAATGACGCCATTTGCTGGAGGATTGGATTGTCTTTGTTCAGGCTGCAAAACAGCTTTTGCATCAAAGTTGAGGTCTAGG
AGAAGGCCACCTCCTTGAGCCCTTCTTGCTAGCTAGAGTCCATGTTCCRGCATGCCAGGACTCTCCAGTGATTTGTTTTTATCTTCCCTCCTCCTGAGCC
TTCATCTTTGAGAGAGAACAAAGTGGAAATAGTGCCAAACTCTGTGTTATAAAGTATAGTGGTTTTGCCGCTTTAGCCTTGGTCGACTCACTTTACATTT
CTGAGTTGCAGTTTTTCCATCTGTAAAATGGGAATAATAACTCATGAAKTTTGACTCTACAGACTATTATTGTAAGATAAGGATGCAAAAAGCTTGATAA
ACTAAAGCACTGTTTAGGTGTAAGGCAGTATTATTACTCTCCTCACTTCTTTATCCAGGCTGGACCAGGCTTGCAGGGAACTGGTGCCAGACTCTGTATT
TTCATTTTTACTTTCCCAGGATATTCACCTATATAAGGGGCAGAACCCAGTGAGGCTCCTGACCCCATAATATCTTGTGATGGACTTCCATGGTCTTGCC
ATCCAGGAAGGTTCAGCAACATAGCTAAACTATTGATTTGCCAACTCTCAGCTCCTCCCAGCCATGGTTGTTATAGCTCGGTAATGTGGGTCTGAGAAGC
TTTGTTGCCTTCTCTCTACTCCATTGGAGATGCCAAGGAAGAATTGTTATTTCATCTTCTCTTAAAACTTTGACTTGTCTCCTGTAGATGCTTGGCCAGG
CTGTCAGAACATCCTRGGAGTTAATGAGAGAAAAATACATATAGCTCCCACTAAGTGCCTATAATGTGTCAGGCACTATAGTTAGTGCTTATCTTGTTTA
AACCTCATAGCATCCTTTGAAATAGGTACTTATTATTTCCAGTTTACTGAAAAGAAAACTGAGGTTCAAAAAAGTTAAATCCCTTGTTCTAAGTCACATA
GTGAGTTAAGTTGCAGAGCTAGAATTTGAACTTAATTCTATCTTATTCCAAAATTTGTTGTTCTAATGACCATACCATGAGGCCTCCTGTTACCATACAG
AAAGAGGGGCCATGTGCTACATAGGAAAACTCAGGAGATTTCCATTCATATGATCTACATGAAGATCCCAACTGCGCCTATGCGATCTGGGACAAGTGGC
TTTCAACTTGTCCAAGCCTTAGATACTATCTCATTAACTTGTCACCATAGGTGTTTTTTTTGGGGAGAGGGGGAGATTATTTATTTATTTATTTATTTAT
TTATTTATTTATTTATTTTGAGACAGGGTCTTGCTCAGTTGCCCAGCCTGGAGTGCAGTGGCAGGATTATGGCTCACTGCAACTTCCAGCTCTTGGGCTC
AAGCGATCCTCCCACCTCAGCTTCCTGAGTAGCTGGGACTACAGGCCCGCGTAACCACACCCGGCCAATTTTTGTATTTTTAGTAGAGACAGGGTTTCAC
CATGTTGGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCTGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCA
GTAGATGTTATTCTTATCYCCAGTTTACATTTGAAGGGAACAGGCCTCAGTGAGTTCAGATGACTTGCCCACGGATGCAGAATAGTAAATGGCAGAGCCA
GAACTCAGGTCCAGGTCTATCTAACACCTGCTTCAGTGTTCTTTCCACCATTTTTCACAGCCAGCTTCTAAGACCTGGTGTATCATTCAGCTAGATTTAT
AGCTCTGAGGCTGCTGGTTGGAAGCTGGCATCCTTTTCTGCTCTCTTTCTCCTCCCATACTTTCTCCCTCTTCTTAGAAACCTTACAGAGGCAATATAGG
TATTTGAAATTCAAAGAAGAGATTTATGCCGTGCTTAAAATCTGCTCATACTGCCCCATTAGACACCTGGGAATCTGCCTCTCGTCTTTTGTATGGGTTT
GTACTGTTACTTTGGTAGCATGATGTGGTGGGTATAGTTTTGGGAATGTTCTTTCTCAGCTCTTTTCTTTATGAGTATAATCTTGTGAGGTGGCTGTAAA
GTTAGAGATGATGAATATTCAAGGGTAGCAAGTACAGGCTTATTATTTGATGGCAGTTATTTCCCCTGGYACCAGGATCTAATAGAAACCAGAATAGCAG
TCAGGAGTTCTAAATCTTTTACTCCTATTCTTTGACCTTGGATATGTGAGTCACTGTTTCTAGATAGACTGGCTAGTCTTTAGGGGCGCCTTTCAGCTTT
AATGTCCTGCACTTTAAAAAATGAAAGTAATAAGATACTTGTTTAAAAAAAATCAAATTAGACAGAAGTATTTGAAGGAAAAAGTGAAAGACCCATATCC
TTTCCCCCATTCAGTTCATTCCCAATGTGTAACACTTATTACCAGTTTGATGTATCCTTTTCAGTGTTCTCTGTGTATACTAAATATACACAAGTGTGTG
TAACATACACAGTTTATATCATGTGCATATATATATAAATACAMATGTATATGTTATACGCACTGGAACCTACAATACATATTATGTCTTGGTTCTTTTA
CTTAACATGTTTTAGCTATTTTTTTCTTGTTGGCACTTAAAGATTTACTTTATTGTTTGCAATGTCTTATACTTTTTTTTTTTTTTTTTTTGAGACGGAG
TCTCGCTCTGTCGCCAAGGCTGGAGTGCAGTGGCACAATCTTAGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGTCTCAGCCTCCCGA
GTAGCTGGGACTACAAGCACCTGCCACCACGCCTGGCTAATATTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTC
CTGACCTCGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCCACAATGTCTTATACTTTATTAAGTGTTG
GCTGGACATGGTGTCTCACACCTGTAATCACAGCACTTCGGGAGGCCAAGGTGGGCAGATTGCTTGAGCTTAGGAGTTTGAGGCCAGCCTGGGCAACATG
GAGAAACCCAACTCCATAAAAATTAGCAGGGTGTGGTGGTGCATACCTGTGGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTTGAGCCCAAGA
GGTTGAGGTTGCAGTGAGCTGTGATCGTGCCACTGCACTGCACTCTAGCCTGGGCAACAGAGCGAGACTGTCTAAAAGAAAATTAAGTGGTCCCCTATTG
ATTGTGTGCTATAATTTTTCTTTTTTTCTCTTTTTAGAGATGAGATCTTGCTATGTTAGCCAGGTTGATCTTGAACTCCTGGCCTCAAGCATTCCTCCCA
CCTCGGCTTCCCAAAGTACTAGGATTACAGGTGTGAGCCACTGCACCTGGCCAATTATGTGCTATGATTGTTAAAAGCAAATATACACATACAGTGTTGA
TTTTTAAAATTTTCTTTTCAGGAGAAGAAGAAAAAGAAACATAGAGATAGGAAGTCATCTGACTCTGACAGCTCAGACTCTGAGAGTGATACAGGCAAGA
GGGCAAGGCACACATCAAAAGACAGCAAGGCAGCAAAGAAGAAGAAAAAGAAGAAGAAGCACAAGAAGAAGCACAAGGAGTGAGAGTATAAAGAGTGTAG
GGGGTGGTTGAGAGTAAGAAACCAGGAGCCTTGTGCCTTGAGACTCCTGGAAAGACTCAATAGTGAGAATATAGCCTCCCACCCCATTAACTTCGCTCCC
ATGGGAGATGGCTTCCSCTCATGCAACAGGCAGGTTTGKGAGTTAGAGGTCAAAAGCAGCTGCCTGAATGAGTTGTTGTTTCCTTATCACTCCTGGTCCC
TTTGCAAGTGAACCCTGCAGCTCACCCATTCATTCACCCAACTTCCTTCATTCAGCAGGAGGYCCTATTACCCTCTCCAGCTGCCACTGCCAGAGCTGGA
TTCCTGTAAAGGAGTCCAGGCTAGAGCCACAGAGACTGTTGTGGAGGTGAGTTCGGCTGTAGTTAGAGTGATTGGACCCTTCCTATTGGTCTGTCCTGGG
CCAACTGGTGGGTGATCTCTGCTGCATCCAACATGGGAGCAGAGACTGGCAGCAGGAGGGGGGAACATGGTGAGAAGTGGTGCTCACTTTTCCCATTCCT
CCTAACATAGTTCTACTATGCTAGAAGTGGCATCCAGCGGCCACAGCTAGAAAACAGTCTGCAGTGTGACTTAACTTGTGTATTGCATTCCAGCAGACCA
CTGAACCAGACAGCGAAGCCAAGATCATTGTTCTACTTTGTATTTACTACTGTGTGAATCAGTTGATTCTACTTCAGGTCCTTGCTTAAATTCCTGTCAC
TAAATGGAAATGTGTTTGGTTTTAAACTTACTGAGTTATTTTTCCTATAATCCTTCTTCCTGGGTAACTTACAGACTTAAAGTCACTGAGCCTGCATTAG
CTGACAAAAACATTTAATATGTTACCTTAGACCTTGGAGAGATGCCCAGCAGAGGTACAGAGCCAAAGGCACTAGCAGATCACTGCCTTCTTGGGAGATC
ACTTATAAGCCCTCCCTTTTGTAATGATCAGATGCCCTCTTCCCTCAGAGTTGATTAGAGAAGCAGTAAGAATTTGTAGTCATAAGTACTAGCCTGGTGC
ACAGGTCAGCAGTCCTCTTGGCCAGTGGTCATTTTCTCCCACCACCATGGTACAAGCCTGGGTTCTGTGCCCTGAACCTGAATTCTGGAAAGGGAGAGAC
TACAGCATTTCACAGAGAACAGCCAGACCCAAGAGCTTTCAGTGTAGGATGGGCCTGAAGTGACAGTTCAATAGCCAAACCTGGGGAAGCCCCATCACTG
ACTGAACTAGGTCATTTGACCATGGAGGGGGGGCAGTGTAAAGGCAACGTGTAGGTACAGCTCTTTTATTATTAAATGTGTAAGGTGATCAGCTGATTAA
CAGGCTCCGAGACTGTCCATTTCAGTCTCCCATCCAGTGCTTCTTCCTCAGTAACCTTCAGGCCGTTATTTCTGCCCACTCTCTGACACACAGGATAAAC
CAAGACTCCCAGAGTTATGTTACCAAAGGCAAAAAGGCAACTGGGTGGCCTTGGCTCTGCTTTATTGACCTCAGAGCACCCTATGAGTGCAGTTAAAAAA
AAAAAAAAAAAAACCACATACACCATGGGAACTGGAACTGGATCCCGGTCAGTGGCACCTGACCCCAGAAGAATTCGTGGATTTGTACAAAATGCAGAGG
AAGAAATGAGGCAATGTGGTGCTGAGTCGAGGGGTAGCCGATTGGCAGAGTAGTAGTCAGCAACAGTGCAGTCAGGTCATGCCTCTTTCTCATAAGTGCG
AGTGCAAACTGCAGTGCCGTGGGTGAGTGTCTGGAAGGAAAGACAGAGTGAGATGGGGGGTGGAGCCAGGAACACCATTGCGAGCATTCTACCCTCCCTT
CCTCCTGATAATTGTCACTTGAGTACCTACTATGTGCCGGCTATATGTATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTATACATACATAATTTTTTTT
TTCTGATATGCACAGCAAATCCTTAAGACAGGCATTGTAATTCTTATTTTAGAGATTTGGAAAAAACGAGCCTTTAGAGAGGAAGTAATTTGGTCAAGAT
CCTGAGTGTTTTTCCTTCCCTTATACCATTTGGCTTCCTTCATCCTTAGTGTCTAAGATGGTGCCTGGCATATAGTTGACAAATAGGAAAAATATCCAGA
GACTCAGGAAAGGACTGTGTTTGGCTACTAACTCCAATCCTTCCCTAACTTAGAGTAGTGCCAGGGCCAGAGCCCTGTACCTCCCACTATCCGGTCTGGC
ATCATAGAGCCAGACCCATGGCCTCACCATAGTTCAGCTGCCACTGAGAATTTGGTCCTGCATATCACATCCCCACCAAAGCTAGGCACCTCATTCCAAA
CTTCAAGGGGACCCCTGTCCCACATGAGTACAAGAATGCAGTTAACAGGTTATGCTGACCCAAGAAGGTGTGCAGTGAAGATGCCTAGGTGAAAACCTGA
GGCCCTGTGGTTAGGCAGAATCCACAGTTGGCTGCTCTCCCTGGGTCTGGGGGGAATTCAGTCAAGGCTAGATTCTCCAAGTGAAGTCCCCAAGCTTGAA
CAGATCTGCCAGCCTGGCTGTGGTACTTCCTACCCAAGCAGTAGTCAAGTAGTTTCAGTAGGCCAGACATAGAAAGCATGAAAATGGGGTAGGACTAGAA
TGGGGAAGAAAGGACTGTACTGTCATTCAGTGTCCCCACCAGTCACGAGCCTGTCCCTGCAAGTGACAATGCAGTCCTAGGGAGGAGAGGAAAGGGAATG
CTGAGATAGGCAATGGGAGCCCCTCCTAGAGGGCCTGGGATCAGATTTGGCCCTGTTTTCTACTTCTTCCTGAGGTGAGGCAAGGTAGAAACACAGGAAG
AGCAAACAAAGGACATGGAGCACCTGCTGTGTTCCTCAATCAGTGATGCTTTGTGCTGTGCATACACTGTCTCTTACAGGCTTCCCAGCAGCCCTACAAG
GTTGGTATTATTAATACCCGTTTTACAGTTGCACTTGGAAAAGGTGATTTGCCCACAGTCATGTAGCCTATAAGGTAAGATTTGAGTTCCGGCCTGTGTG
AGTCCAAAGCCACTACACAGAAAATTCCCACCTGATACCACCCTGACCCACAACCACTCTCTTGTCCCAGCTTCTACAGCTCTCAGGGGAGGACTTGGCT
TTTTAGAACAGGCTTGGCTGAAAGAGCAGTAGTAATAACCAATCAGATATAGCTCCAAAGTTGCCCATCTTACCAGGATGAGTTTTCCATCAATTAGCTC
CCGCACAAGTGTGGTCTCTTGCCCGTCCCATTTCTGCAGGTGAACAAGTTTCCCTCCATCCAGTGTCACAATGGACTGTGGAAAGAGGGTAGAGGCCTGA
GCTGTGATCTTAGTCAGGAATTGAGGGGCAGGGTGGGGTCTGGACACTGGGCCACAGAGGACACAGCCTTTGACCCAAACTAGTGATGGTGTGAGGACAA
GAGCTCAGGCAATCCGCCTCCCAGCTATCCCTGCAAGACATCTAGTTCACCTCCAGCCTCTGCTCCACTACTGCCTTTCTGGGGAAGAGGCCTTCAGATA
TTAGGCAAGGAGGGAGAGGCAGGCAGTATGGTGGAGCCAGAGAGCCTGGCTCTGAGAAGTACCACAAGCCTTCAAGACAGACACTTATCTGTACTCTAGG
TGATTCCCGTAGCCTGGTCCCCTCAGATACAGGTGGGATTTACTAGTCTATCCCTGGGAAAGACTGACTGAGGAGGAGGAGTAGTCCTGAGAATCTTTAT
CCAGCCTTGTGGTTAGTCCACATAATGTCTAAAAGACCCTTAGTGATAGGAAGTATTGGATAATTAGACTTCCTGCCCTGTATTCCTACACCTTTTCTTG
GTCCACATCATGTGACCTCTTTAGCCAACAAGAGGGCAGCAACCACAAAGTCCTGTGACTGGATGCCCTTGAAGTGGTTCCTCAGCTCTGGGTGCTGCCA
GCATACATACATCAGCTGGTTCTCATTTGGCAGCTCTTCCAGCTCTCTTTCCTAGGAGTTTGGGGGCCACAAGGCCAGGCTAAGGGATCCTGATGAGCAA
GGTGGTTCAGTAGGAGAATCTGAGAAGGTTCTGTGTATTGTTTAGGTGATAAGGGGTATGAGGCCTGTCTCTTAGTGTGCTCTTTTTTATCCTTACCTTA
CTCCTTGTTCTCATTCCCCTAGTTTTTTTTGCCTACTCAGAGTAGATATTTTTGCCCTAGGCATTCCACAGGGCTATTGTGTTTAATTGGGGTTCTTGCC
CCTTGAGAAAGTAGGCAAGTCCAAGGAGGTATGAGCAGGTGGTGGGGCAGCCACCTTTATCCAAGGTAGACTGCCATCTTTGGGCACCATCCCCAGCTCT
GCTGCCAGCCACCTGTGTGATCCTGTTCTTTCTGGGGACAGCTATGAGGAAGAGGAAACAGCTGATGGGGCTGAATGATAGTGTCATGATAGAACACTGC
TATAGGGACACCCTATAGAGGTCAAAGCCCTTAAGTTCTCTCGCTCCCATGCCTGGCCTGGAAGGCTGAGGCAAGCTGCCAAGACAGCCACTGCAGGGTG
ATAGAACCCTGGGAGGAGGGGCTAAGGCTTGGTGGGAAGACACTGCAAACACATTCATGACAAGGTGAATGCCCTATCACGGAACATAGCTCTTCCTGCC
TGTCAGCTGGCAACACTGGAAATAGTTTGTCAGGGTCATTGGCCATGTCTGGGAGTTAGAAGTTGAAGCGGCATCTGAGTAGGTGCTTCTAGTTCCTGGC
TGCCTTTTTTGCTGCTGGAGGTCACAATGACCTCACTCAGTGGAGGGCCCTGACTTCTGGGCATCATTCCTAAAGCACTTCAGGTCACAGCCATGGCCAC
ATAACTCTGCCATCTATGGAAGGGGAAAGAAACCTAGAGCTACTGCATACCTTGCACAGGGTCACCCAGCTGGAGCTGGAGTAGATACTGAGGTCAGAAG
AACATCCTGGCTCTGTGCTGCCCATTCCGAGGCAGACAATAGATGAATCCCAAGAAGGGAGGGAAGAAAACAAGAGGACAGAACTGACATGTATTTAGCA
TCAGTGGCATTCCAGCACTACACAGGCTTTATGAATCTTGTTTCATTTAAATTCCCCATGATAGTCTGCCCCTCAGGGTGCAATACCAGGGAGCCAAGAC
TACCAGCCTATTCTCTTTTAGAGTCTCAGCACTCTCCATTCCCCACCCCTGTTTCCCTGACTTACCTTGACCTTCCTGTCATCTGCTGTTGTCTCATCGA
ACTCCACCCCCAACTTAAAGCTGATCTCTGTGTTCTTGAAGGTGCTGTGTGTTTTTAGGGTGAGAATGTCCCCATTCTTTTCGATGATTGTGGTAGGCTT
GGTCATGCTGGCCACCTGCCTGGTAGCAAAACCCACACCTGAGGGTAGGGGGAAGGTTATGAGTATATGAGCTGGGGTAGAGAAGCAGTGTACAAGAAAC
TCAATGAATAACTCTCAGGCCTGGGTATGGGGAAGTGGAGGACTGTATCTTTCAAAGCCTTTGCATGGGAATTTTAAAATTCAGTCTTGCGCTTAGTTCT
GTTTGGTGAACACAGATAACTGATCCCATTAGATGAGAGATACTTAAGGAACAGCAGTGCCATAGCAAGTCAGTGGCAGAGCTGGGATTAGAATAAGCTA
CTATTGGGCCAAGTGTGGTGGCTCACGCCTGTAATCACACTTTGGGAGGCCAAGGCAGGCGGATCACATGAGGCCAGGAGTTTAAGACCAGCCTGGCCAA
TATGGTGAAACCCGTCTCTACTAAAAATACAAAAAATTAGCCAGATGTGGTGGTATGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCTGAGAATTG
CTTGAACCTAGGAGGTGGAGGTTGCAGTGAGTCGAGATTGTGCCACTGCACTCCAGCCTAGCCAACAGAGTGAGATTCCATCTCAAAAAAAAAAAAAAAA
AGCTACTATTAAGTACTATGAGCTTTTTGTGTAGTAAGAACTGTACATGTTATCTCATTTAGTTCTTCCTGTTCTTCTGAAGACTGTTTCCACGTTACAG
ATACAAAAACAGAGGTAAAGCCCAGGGTCACAAATCTGAGATTGAAGCCCAGAATTGTCTGAGTCCAGAGCTTGCTTAAGTGCTCAGCTATACTACCTCC
CAAGGCTGGAGCATAAGGCTGCCTTCCAGGGCACCTGAAAAGCTCTCAAAGCCTTAGGAATAAGGCTGAGGAAAGAAGAGAAACATAGACTTTCCCTTCC
AAAGCCTTAGGCATAGGAGTTTTCCAACTTTGGAAGTTTTTACCCTGAAACTAAGAAGTGTTAGTGCTCTTGTCCCTTATACATGGCAACCCATCATTTT
CAAAGCCTGTTATCTATGATCTAGGAGTTAGGTACAAAGGAAGTATTTGTCCTATTGTGCAGATTCAGGAGGAGCCTAAAGCGGTAGCAACAATGAGTTA
GACTCAAACCCGTCTCCTGACTCCCAGTCTAAGGCTTTACAGAGACTCTCTTCCTGACCCAAGCATGGCTTCCTTGGGTACTGGGCAAAGTCCTAAGTGT
CCTGCAACCAAGTAAAGAACAAAGAACTAATCATGACTGCCCCCTCTCCCCCCAGCAGCTTAACATTGAACTGTCTTCCAAGGCAAAGGTGAGGCAGGAG
GCAGCCCAGTGTAGTGAGGTGGTGTGTGTAAAGTCTCCAAATGTACCTGGCTACATAGTGCTTGCTGGAAGCTAGGTACTCTGCACATGCCCTACATGGG
TTGTTTTACTTAATGCTTGTAACAGCCTCGAAGCGTAGATTATCCCCAGTTTACAATGAAGAGTGCGAAGTGTCTTGTCGAAATTCAAAGAGAATAAACT
ACTGACATAGATTTGAACCTCGGCTCCAAAACTGTTGACTATTTTCACTGGGCGATTCTGTCCAGCACATACTCAATCCAGGCCAGCAGTTGTGCCTGTG
GTCACTGGTACTAGACGGGACCTCTTTGCCCCTTGAGAGCCCTAGGTCTACAGCAGGAGGGGCAGGGGCTGCCTCTGCTGTTATGCTGTCAGCCCACCCT
TGCTTGGCCAGTGAGGAACTTGGCATTGCCCCTTGGTATCAGGATGAGTCAGGCCAATCACACTCCCTTGCACAGAGCAGGACCTTGTCACGGCACTGGG
AGCTCTGTTCACTTAGGATCTACCCAGAGGTATGGAGTGTTTGAAAAGGAAACCACTGCGGGATGAGTGAGGGTCTGAACCAAGAGAAACTAAGAATATT
GAGCTGACAGAATTTAGGAGACTCAGGGAGATCTGGGTTCTACTTAGAAATGAAGCCAGCACTACTTACTGAGAGCTGAGG


SNP Information

Context             (SEQ ID NO:61066):
AAGTTCAGGTATGAGGGGAGGAATGCCCTGTGTGATCCATCCCAAATTTATTAAAGTTCTCTGTATTGGGTTTGGAGGCCTCAGTCCTAGCTAATATAAA
R
TATAACTTTATTACCTGGTTTTTTGCTTTTTGTTCCTTTTGTTCATGAAACTCCTCTGGTAATATCAATATGTTCCCTTTGTTCATGAAACTCTGTTGGT
Celera SNP ID:            hCV305378
SNP Position Genomic:     27750
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61067):
CTAACTGGGTTTACTTCTGAAACCAGCTCCTCCTTAGACTTCACCTGTGACCCTAGGCAAATCACTTGACTTCTTTAGACACAGGATTTGCGGGAGGGCA
R
GCTACCTCTGTCTGAGGCTGACAGTGTGAGTTTTCTAGTAGATAGCGCATGAAATGGGAATAGTATTGCAAGTGATACAAACATATATAATATATATAAT
Celera SNP ID:            hCV1496640
SNP Position Genomic:     28496
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61068):
TTTTACTTGAGATATGATTCACATACCACACATTTCACCTGCTTAAAGTGTACAATTCAGTGGTTTCTTTGGTATATTCAGAGTTTTGTGACCATCACCA
Y
GATCTACTTTGAGAACATTGTTGTCACCCCAAAAAGAAACCCTGTACCTATTAGCCATCACTCCAGATTCTCTCTATGCCCCCAGCTTTAGGCAATCATT
Celera SNP ID:            hCV1496641
SNP Position Genomic:     29428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61069):
ACTTTCTTTCTTTCTCCCCTTTCCCTGCCAAAAACAAAAAACCAACATACAACCTTACCTTGTAGTATCTCTGGCCATATCTCTTAAGGGGGCCGGCAGT
Y
GGTATCTTTTTCATTATAGGCAAGAAGAGAGGCGGAGGCGATCCTTCCAGGATTACACTGGGCAGAAGATCACCCTTGAGGCTGTCTTGAACACTACCTG
Celera SNP ID:            hCV25969317
SNP Position Genomic:     55711
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,6)   caucasian(C,40)   total(C,68|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:61070):
CCCTCACTTCAGATGCCAGCCCCAATATTGAATCCTCAGATTACCTACACTTTTGTCTCACTTGGCTACAATTTTTGGGATTCCCAGCACTTCCCCCCAA
R
GTTGGTAATTTGCTAGAGTGACTCACAGAACTCAGAAAAATGCTATAGTTACTATTAGTTTATTTTAAAGGATAAAAATGAGCAGTCAGATGAAGAAGTA
Celera SNP ID:            hCV1496642
SNP Position Genomic:     31407
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61071):
CGAGTACAAAGCCTCTGTCCCCATGGAGTTGGGGTGTGTCACCCTCTTGGCACATGGATGTGTTCACCAACTCTCCAAACTCCATTGCTTAGGGGTTTAT
R
TGGAGGATCTGTTATATAGACATGGTTGATTAAATTATTGGCCTTCAGTGATAGAGCTCAGTCTCCAGCCCCTCTCCCCTTCCCGGAAGTCAGAGGGTAG
Celera SNP ID:            hCV1496643
SNP Position Genomic:     31632
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61072):
GGAGTGCAGTGGCACAATCTCGGCTTACTGCAAGCTCCACCTCCTGGGTTCACGCCATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACC
Y
GCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGTCAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCTGCC
Celera SNP ID:            hCV26413660
SNP Position Genomic:     32488
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61073):
TCCTGGTTGTGTTAGTGTACTATAGTTTTCCAAAATGTCACCATTGGAGAAAACTGGATAAAGTGTACATAAAACCTCTGTATTCTTTCTTTCTTTTTTT
Y
TTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTTACTGCAAGCTCCACCTCCTGGGTTCACGCCATTCTCCTGT
Celera SNP ID:            hCV26413661
SNP Position Genomic:     32353
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61074):
AGCATCCTGGTTGTGTTAGTGTACTATAGTTTTCCAAAATGTCACCATTGGAGAAAACTGGATAAAGTGTACATAAAACCTCTGTATTCTTTCTTTCTTT
Y
TTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTTACTGCAAGCTCCACCTCCTGGGTTCACGCCATTCTC
Celera SNP ID:            hCV26413662
SNP Position Genomic:     32349
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61075):
ATACAATTCCATCACACTGCTACCTGACTGATAACAGTTGTAAAACATCATTGATTATGAGAAGCACTCCAATTTCAGAGAGATTAAAGTGAGAGGAAAA
R
AAAGTGCATCTTAGAATCAATGAAACACAATAAATGTCAGTTTACTGACATGAGCCAGGAGTGGTGGCATGCACCTGTAATTCCAGCTACTTGGGAGGCT
Celera SNP ID:            hCV1496648
SNP Position Genomic:     33156
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61076):
AGATCCTACAGGTGGGAAATGGCAGAGCTAGGATTAGAAGCCACATCTTTCACTCCAAAGCATGTTCACTTTCTATACCTATACTGTTATTTTTTTTTTT
T
AAAGCTTTTTTAGAGATGGGTCTTGCTATGTTATCCAGGCTGGATTCAACTCCTGGCCTCAGGCCACGCTCCAGCCTCAGCCTCTGGAGTAGCTAGGACT
Celera SNP ID:            hCV26413663
SNP Position Genomic:     26660
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61077):
TCTTAGAATCAATGAAACACAATAAATGTCAGTTTACTGACATGAGCCAGGAGTGGTGGCATGCACCTGTAATTCCAGCTACTTGGGAGGCTGAAGTAGT
R
AGATCACTTGAGGCCAAGAGTTCGGGGCCAGGCTGGGCAACATAGCAAGACCCCACTGATGGCGATGGAGGCCTGTCTAGAGTGGCTGCTGCAAAGATGC
Celera SNP ID:            hCV1496649
SNP Position Genomic:     33265
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,8)   total(G,5|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61078):
AGGATTTGTGCACATGCTGTTTTCTTTTTAGTCTGTGCTGCTATAACAAAATACCTGAGATTGGGTAATTTATAAAGAACAGAAATTTATTTCTCACAGT
W
CTGGAGGCTGGGAAATCTAAGATCAAGTTGTCAGCAGATTTGGTGTCTAGTGAAGACTACTCTGTTTCCAAGATGGCACCTTCCTGCTGCATCCTCTGGA
Celera SNP ID:            hCV26413664
SNP Position Genomic:     20548
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61079):
CTTTACTGGGATCCCTGCTTCATCGTAGCTCCTCTCCAGTCTGTTCTTCACATTGTAGCTAGCATAAGATTTTTGTTTTTGTTTTTGTTTTTTAATTCTT
Y
TTTAAAAATTGAGCTGGGGTCTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTTAAGTGATACTCCCACTTCAGCCTCCCAGAGTCCTGGGGTT
Celera SNP ID:            hCV26413665
SNP Position Genomic:     20117
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,7)   total(C,6|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61080):
CTCCTTCTTCTTCTATATCCTTTAGACCAGAATGTGTTCCCCCCTCTTTCTCTACCTGTGCTTGGCATATAGTGAGGCTCAGTTCACTCATTTAAAAAAA
A
CTGAGTACTTGTAGTATACCAGACCCCAGGAACACAAAATCAAATGAGAAATGGTCCTTGGTTTCATGTTTGAATGAATGGATCCAGACGTTGCTCATCC
Celera SNP ID:            hCV26413666
SNP Position Genomic:     11410
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,9)   total(A,3|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61081):
CTGGCTGGGTTTGCACACCTTGGGGTGGTGCTGCCATGCCAGCTTCCTACCATCTTGGCCCCCTCTGGACTTTGGGTGCCAGTGAGCACAGGAGGGAGGC
Y
AAAGGGGTGCTGAGGGTGGCTCAGCATGGGCCTGCAGGTGCCCCTGGGCACAGAACAACTGGGCGTCATGGACAACATGATTGATGGTGACAAGAGGCAG
Celera SNP ID:            hCV1496650
SNP Position Genomic:     33752
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61082):
GCACACCTTGGGGTGGTGCTGCCATGCCAGCTTCCTACCATCTTGGCCCCCTCTGGACTTTGGGTGCCAGTGAGCACAGGAGGGAGGCCAAAGGGGTGCT
R
AGGGTGGCTCAGCATGGGCCTGCAGGTGCCCCTGGGCACAGAACAACTGGGCGTCATGGACAACATGATTGATGGTGACAAGAGGCAGACAGGCTCCTGG
Celera SNP ID:            hCV1496651
SNP Position Genomic:     33764
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61083):
AGCAATTGACTTCCTTACAGTGTATCTTAGTTTCTCTGCCCATAAAGAGGGAAGATTATTAAGTCTCAGCCTGAAAGGACTGAGTTAGAAAATAACTCTG
R
TCTGATCAGGTCTTAACATCTTTGGCTCAGGTAGGTAGATTCTAATTTGAGCTGGTTTCCCAGATGTCATGTTCTCAGAATACTTCAGCCACCACTGAGT
Celera SNP ID:            hCV1496654
SNP Position Genomic:     35947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61084):
GGTCAACTGAGGTTTGAAAATATTAAAGGGAAAATTCTAGAAACAATTCATAAGCTTTAAGTTGCAGTTGCAGTGTGATGAAATCTTGTGCTGTCTTGCC
R
CATTCCATCTGGGACTTGAATCATCCCTTTGTCCATCCACACTGTGTACGCTACCCACCCATTAGTCCCTTAGTAGCCTTCTCAGTGATCAGATCGACTG
Celera SNP ID:            hCV1496655
SNP Position Genomic:     36586
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,7)      total(G,7|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61085):
AGTCCCTTAGTAGCCTTCTCAGTGATCAGATCGACTGCTGTTGCAGTGCTTGTGTTCCAAGTAACCCTTATTTTACTTAATGGCCCCAAAGTGTAATACT
R
ATGCTGGCAATTTTGATATGCCAGAGAGAAGCCATAAAGGGCTTCCTTTAAGTCAAAAGGTAAAAGTTCTCAACTTAATAAGGGAAAAACAGGGACCCCT
Celera SNP ID:            hCV1496656
SNP Position Genomic:     36750
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,8)      total(G,8|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61086):
TTGCTCTCTCTTTAGGATTTGTGCACATGCTGTTTTCTTTTTAGTCTGTGCTGCTATAACAAAATACCTGAGATTGGGTAATTTATAAAGAACAGAAATT
Y
ATTTCTCACAGTTCTGGAGGCTGGGAAATCTAAGATCAAGTTGTCAGCAGATTTGGTGTCTAGTGAAGACTACTCTGTTTCCAAGATGGCACCTTCCTGC
Celera SNP ID:            hCV16083830
SNP Position Genomic:     20535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61087):
TTCTCAACTTAATAAGGGAAAAACAGGGACCCCTAGAGGGGGGACTGAGGAAGGGGGAGAATGGTTGAAAAATTTAACTTTGAGTACTATGCTGAGTACT
W
CTGTAACGGGATGATTAATATCCCAAACCTCAGCATCATGCAGTGTACACAGATAACAAACTTGAACATATGTACCCCCGGAATCTAAAATAAAGGTTAA
Celera SNP ID:            hCV1496657
SNP Position Genomic:     36917
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,7)   total(A,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61088):
ATGATTTGCAAAGATTTTTATGTAACATACTTGAAATGACAAAGTTATTTAAATGGAGAACAAATTATTTAATGGTTCACAAGGATTAAGAAGGGGAAGG
M
AGTAGCAATATGAAGGATCCTTGTGGTGAGGGACCTGTTCTGTATCTTAACTGTGGCAGTGTATACATGAATCTACACATGTGGTAAAATTACGTGGAAC
Celera SNP ID:            hCV16083831
SNP Position Genomic:     30975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61089):
AATTAGAGTGGCGTGTAATAAAAATGAGTGTTGTTGCACTTAGTCCATGGAATTGTGGAACGGTTAGGCTGTTTGGATGAGTCAGGGCATAGTACAATAC
Y
TGAGGTATAGTGGGTGGGTGTTCAGTAAATCTCACTGAATGAATGAATGAATTATAGCCTCAGTTCTACCATTAACTGGCTTCTTGGCAAGTCTCCTAGT
Celera SNP ID:            hCV1496658
SNP Position Genomic:     38721
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61090):
CCTCAGCCTCCCAAAGTGCTGGGATTACAAGCGTAAGCCACCATGCCCGGCCGAGATGGATTTTTTTATGAGGAAGTGATAGTACACTAAACCTTCATGG
M
CAAAAAAAGTATCTCAAAATAGTTGTCTCCCTTTTGTTCTGATTCCATGTGGAAGCAATTTCTGATCACTAATGATCACTAATGTAATTGTTCAGGTATT
Celera SNP ID:            hCV1496659
SNP Position Genomic:     40976
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61091):
TTATTGGGCATATCTTTCTGACGTCATGAGAGTGCGATACCAGGATTGGTGGACGGAGCTGGCGACCGCCCTAGGCGCGCTGGGTCTTGTGGGTGGAAAC
R
CGCTGGCTGACTGGGGTCGGCGTTTAGTTCAGCGCAGCGACTCGGGGACCTGGAGCTGACGCCTAGTACGTATGAGGAAGAACGGGGTGGGTGGCTGCCT
Celera SNP ID:            hCV27847959
SNP Position Genomic:     6029
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,38)   total(A,1|G,67)
SNP Type:                 UTR 5


Context             (SEQ ID NO:61092):
CAAGGAAAGGATTTTGGACAGACAGGAAAAGGATGTTTGCTATAAGTGTTTTATTAAATGTTATTAAAATATTATTTGATTTATTTTTGAGACAAAGTCT
Y
GCTCTGTCACCTAGGCTGGAGTGCAGTGGTGCCATCACAGCTTACTGTAGCCTTGACTTCCTGGGCTCAAGCCATCCTCCCACCTCAGCCTCCTGAGTAT
Celera SNP ID:            hCV1496660
SNP Position Genomic:     44424
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61093):
TCAGCCTCCTAAGTAGCTAGAGCTACAGGCACGTGCCACCATGCCTGGCCAGGTTTTTTTTTTTTGTATTTTTTGTAGAGACTGGGTTTTGGCATGTTTC
Y
CAGGCTGGTCTTGAACTCCTGAGCTCAGGCAATCTGCCCGCCTCAGCCTTCCAAAGTTCTGGGATTACAGGCATGAGCCACTGTGCCCGGCCACTTTGAG
Celera SNP ID:            hCV1496661
SNP Position Genomic:     45898
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61094):
GGTTTTGTAGTGAATCCCTGGATAATCTTCTGATGAACTTGTGGTCTGTGCTTTACTGGCCTCTTTCATTAATCATATGCCATCGTAGGTCTTTCTGAAT
Y
GGTGTTATGTTATGAAGAAGTAAGTGCCTTGGGGACCAAGCTGCCCACTGATTATAGTAAACTTTAGATATGTTTGATTCAGAATATAATTTTCTTTTGA
Celera SNP ID:            hCV27517638
SNP Position Genomic:     66116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61095):
TTGGCATGTTTCTCAGGCTGGTCTTGAACTCCTGAGCTCAGGCAATCTGCCCGCCTCAGCCTTCCAAAGTTCTGGGATTACAGGCATGAGCCACTGTGCC
Y
GGCCACTTTGAGCATTATTTTAAGAATGTTTGTTGGTTGATTGGGTATAAAAAGCAGTCTCAATTTGCAGTTTTAAGTTTCACGCTTTTCAGTAAAAATT
Celera SNP ID:            hCV1496662
SNP Position Genomic:     45986
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61096):
GGACCCTGTTACTCACTTGAGGGTATGAGGGCTGTGGGTGTGGGCCGACCACAGGAGAAATAAGAGCATACACTGAGTCCTGTTCTACCAGAGACAGCAC
R
GGAGATAGGCATGAAAGAACTATTATTCAACAATATTTAAGTGCTTAATATGTGCTAGGTTTGGGAGATATAAGAGCGAACCAGACAAAAATGATCCCAG
Celera SNP ID:            hCV1496663
SNP Position Genomic:     46851
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61097):
GGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTAATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATC
R
CACCCAGCCCATGAATTTTTTTAAAAAAGCCTTTGGACAGAGAGGCTTCTCGTCAGATTAACCTCCCCAGGAATCCCATTGTCTGGCCTTGCCCTGTTAT
Celera SNP ID:            hCV1496665
SNP Position Genomic:     52368
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61098):
AAAACTGGAGGCAGGGAGACCAGTGAGGGAGTTATTACTCTAGATGAAACATGATGGGAGCCTAAACTAGAATGATGGCAATGAGGACAAAAAGAGAGAC
R
TGGGTGACTGACACATTTGTTGAATTGAGTGTTAAGTGGGAAGTATGATTTGGTTTGTAGTCTGGTAGAAGCCACAGAGTATTGGAATTGATTGTCATGG
Celera SNP ID:            hCV1496666
SNP Position Genomic:     53646
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61099):
TGAGGGAGTTATTACTCTAGATGAAACATGATGGGAGCCTAAACTAGAATGATGGCAATGAGGACAAAAAGAGAGACGTGGGTGACTGACACATTTGTTG
M
ATTGAGTGTTAAGTGGGAAGTATGATTTGGTTTGTAGTCTGGTAGAAGCCACAGAGTATTGGAATTGATTGTCATGGGGGTTGCTTAAGCTGCAACTCAC
Celera SNP ID:            hCV1496667
SNP Position Genomic:     53669
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,10)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61100):
CTAGAATGATGGCAATGAGGACAAAAAGAGAGACGTGGGTGACTGACACATTTGTTGAATTGAGTGTTAAGTGGGAAGTATGATTTGGTTTGTAGTCTGG
K
AGAAGCCACAGAGTATTGGAATTGATTGTCATGGGGGTTGCTTAAGCTGCAACTCACAGCCACTTGAAACTCATCTCTACAAATAGATAGGTGAAAGCAA
Celera SNP ID:            hCV1496668
SNP Position Genomic:     53712
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,6)   total(G,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61101):
TTGTTTGTTTGTTTTGGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTACAGTGGTGCAGTCCGCTCACTGCAACCTCAATCTTGCAGGCTTAAGTG
W
TCCTCCTGCCTCAGCCTCTCGAGTTGCTGGGACTACAAACACAAGCCACCATGCCTGGCTATTTTTTTTTTTTTTTTAAGTAAAAGGAATCTGTACTGTT
Celera SNP ID:            hCV1496669
SNP Position Genomic:     53996
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,6)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61102):
GAAAAGCCTCATGCAGCAGTACACACCTGTAGTCCCAGCTACTTGGGAGGATAAGGTGGGAGGATTGCTCGAGGCCAGAAGTTTAAGGCTGCGGTGCGCT
R
TGATTATGCCTGTGAATAGCCACTGCATTCCACTCTGAACAACATAGTGAGACCCAATCTCTAAAAAGAAATTTTTTTTGTTAAAAAAAAAAGAAAAATG
Celera SNP ID:            hCV25962295
SNP Position Genomic:     58225
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,32)   total(A,61|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:61103):
TTGATACATTTTATCAAATTGCCTTCCAGAAAATACTTATCTGTCCCTAGCAGTGTATCAGAGCACCTGTCTCACTGAATTCCATCTCCTATATCTACTA
Y
TTATGGCAGAGCAATTCATAAAACAGATATTATTGTGGTCCAGAAAGAAACAGTGCATTTGTAGCATGCTACACAGACAATAAAAACTATTCTGTAGGTT
Celera SNP ID:            hCV16002628
SNP Position Genomic:     59143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61104):
GCTGGGACTACAAACACAAGCCACCATGCCTGGCTATTTTTTTTTTTTTTTTAAGTAAAAGGAATCTGTACTGTTAGAAATTAGAATTGTGATTACCCTT
K
GGGGAGGCAGGTAACTAGAAGGGAGCATGAGATGGGCTTCTGAGATGCTGGCAATGTTCTGTTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGTCTCGC
Celera SNP ID:            hCV1496670
SNP Position Genomic:     54122
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,6)   total(G,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61105):
GAGCAAAAGCACTGAGCCACATGGATAAGAGAAAATAGACTTCTTTGGCCAGAGCATATTGTGTGAGTAAAGATGAGGCTGGAAAAGTAGTTTAGAGACA
R
ACTGTGAAAGACCTTGAATGCCAAGGTAAAGAATTTGGAGCTGATTTTCTAGAAAGCCTTTGAAGGTCTTTTAAACCTATGAGTGACCTGGTAAGGGTTG
Celera SNP ID:            hCV1496671
SNP Position Genomic:     55372
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61106):
ATTGTTAATTTAGGGCTATTTCACATCATTGCATTTACTGCCTGTCTCGTTCTGTCAAAAACTTTCTTTCTTTCTCCCCTTTCCCTGCCAAAAACAAAAA
M
CCAACATACAACCTTACCTTGTAGTATCTCTGGCCATATCTCTTAAGGGGGCCGGCAGTCGGTATCTTTTTCATTATAGGCAAGAAGAGAGGCGGAGGCG
Celera SNP ID:            hCV1496672
SNP Position Genomic:     55651
SNP Source:               Applera
Population(Allele,Count): african american(A,30|C,4)   caucasian(A,35|C,3)   total(A,65|C,7)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61107):
GTCTTTCAGCCTGATCCCTAGTTGGAGCTATAATGAGAGAGATTGCCAGCTTCTCATTTTCAGGTTGACCTCAATTGTCACCCCTTCTCCCTAGTCTTCC
R
TCTACCCTACTGTGTGATTTTTCTACAATAACTGGTAGCAGATTTGTGCCCTGGTTGAAGTTGTGGGGTTTTAAGCCCCTATTTATCATTAGCATAGAGG
Celera SNP ID:            hCV1496673
SNP Position Genomic:     56467
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61108):
GAGCAGTCTTTGATTGTCAGGAATATGTTCCAAAATAGATCTTAAAAAATTAATAAGCCCCATTGTTAATGGAGGGCAGTAAAAACCTGCATCCTCATAT
S
CTTTGCCATTTCGAGAACAGTACCAGTGTTCCCCACAGCCCTGAGACCAGCTGCTAGTCTGGCTGTGGTTGAGTGAGCAGTGTCATGTTGAGGTGGTAGA
Celera SNP ID:            hCV1496674
SNP Position Genomic:     57668
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,13)   total(G,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61109):
ACAAAATTGTGGTCATACTAGCTATAGTTTATACCTTTTTTTCATTTCACTTATCAAAAGCATTTCCTAGTATCCTTAAGTGTTCAAAAACTTGATTTAA
R
AGCAACATAATATTCTACCCTATGGCTGTATGATGATATATTTAATTATTTTTGTATTACTGGATATTTTTTATTACTTCCAACCTAAATTTTTGGCCAC
Celera SNP ID:            hCV1496675
SNP Position Genomic:     58879
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61110):
AATATTTCCTGAGCCAGCTAGCCCATTTCAGGAGACTTGGGGAAAGATTCACTTGCTGAGAAGAGAGACTACTTCCTTTTTCTATACCTTTTCTACTTTT
Y
TTCTGCAGGCCACTTTGCAAAAGATTGTTTCATGCAACCAGGTGGGACTAAATACTCTCTGATACCTGATGAGGAAGAGGAAAAGGAAGAGGCAAAGTCA
Celera SNP ID:            hCV25963603
SNP Position Genomic:     57911
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,5)   caucasian(C,32)   total(C,39|T,5)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,40)   total(C,71|T,5)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61111):
TAAGTTCTTTGCCTATTTTGCATAAGCTTGTTTATTTTGTTGTTGTTGTTGATATGTAGGAATTTTTTATATGTTCTGGATATCAATCCCATCAGATATA
Y
GGTTTGCAAATACTTTCTTCTAATCTGTGGATTGTTTTTTTACTCTGTTGATAGTGTCCCTTTTTTCCCTATCAGATTTAGACTTTTTAAAATAGTGGTA
Celera SNP ID:            hCV1496678
SNP Position Genomic:     62379
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61112):
TACCATATGATTTTCTGCTGTACCATATATAGAAGAACAAGAAATAGGAATGTCATTCTTTGGCTGCAGTGTTGGCTCTGTCCTGCTGTCCAGAGAACTT
S
TTCTGGTGCCTATATAGAGAAAGGTTGCCAGTCCTGAGCCCACTCAGGGACACATTCTCTGCCTATTCAGATACAGCAGAGAGCGTTGCCCAGTGTTGCC
Celera SNP ID:            hCV1496679
SNP Position Genomic:     66320
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61113):
AGCTAAGGCCTTTTGGTAATAAGCCATTAATGTCTCAACTTTAATAATCCTGTACCCCGTTATAACTATTTTTATGTTTCCTTTTGGTCTATGTCCATAT
R
AGGCATAGTTTCACATTATTTCATAGTGTATATATTATTTAATTATAAAAATATATAAATTTTTATGATTGGAAATAATGCATGCTCATCATAGAAAAAT
Celera SNP ID:            hCV11265670
SNP Position Genomic:     41485
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61114):
AGAAACCAGGAGCCTTGTGCCTTGAGACTCCTGGAAAGACTCAATAGTGAGAATATAGCCTCCCACCCCATTAACTTCGCTCCCATGGGAGATGGCTTCC
S
CTCATGCAACAGGCAGGTTTGGGAGTTAGAGGTCAAAAGCAGCTGCCTGAATGAGTTGTTGTTTCCTTATCACTCCTGGTCCCTTTGCAAGTGAACCCTG
Celera SNP ID:            hCV27498215
SNP Position Genomic:     73417
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,227|C,1268)   total(G,227|C,1268) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:61115):
TTACAGTATGTTGTTATGTTATTATTGTTAATCTATTTCTGTGCTTAATTTATAAATTAAGCTTCACAGCCAGGCATGGTGGCTCACACATGTAATTTCA
R
CACTTTGGGAGGCGAGGTAGGTGGATCGCTTGAGCTCAGGAGTTTGAGACCAGCCTGGGTAACATGGTGAAACCCCATCTCCACAGAAATACAAAAATTT
Celera SNP ID:            hCV9258253
SNP Position Genomic:     37283
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61116):
TAACTCTGGTCTGATCAGGTCTTAACATCTTTGGCTCAGGTAGGTAGATTCTAATTTGAGCTGGTTTCCCAGATGTCATGTTCTCAGAATACTTCAGCCA
M
CACTGAGTTGAAGACCCCTTCCTACTATTCAAACCTAAGCTAGATTTTCTTTCCCCTCTCATAGTATTATCCAATATAACTTTCTGTGATGATGAAAATA
Celera SNP ID:            hCV716657
SNP Position Genomic:     36039
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_C(A,13|C,71)   total(A,13|C,71) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61117):
CACTGAGCCGTCTTCCCCCAGTGGGGTGTGGTGGAGGAGGGGACTTGATCCCTCAGGCTCAGTGGTGTGAACAGACGGGGGTTGGGGAAGCCCTAGTCGA
Y
GTATGTGGACCACTTGGGATATGCAGTAATCCTGGTCAGAGATGTCAGTGAGGACTGAGATATGGGTGGAACTGCAGAGAATTGGACAGATTCTAGAGGT
Celera SNP ID:            hCV1496607
SNP Position Genomic:     7116
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61118):
TGTAGAAGATTTGAAAGTCACTGTGGAGTGTGGGAGAATGAGGTTACTAGAGAAATGTAGGATGCAAGGAAAAAAAAAATTTTTTTCCAGCATATCCAGC
R
GTTTAGTGCATGCATGGAGAAAACCTTTCTGGGTATGGCAAGGACATCGCTTGCTCAAGACACATTCTAACCTCTAATATGTCTTCTCTTCCTGAAAAAT
Celera SNP ID:            hCV1496609
SNP Position Genomic:     8378
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61119):
GTTTAAAAATCTTTTGAATGGACCATCAAGCGACTATACCATAATTGACCTAATTGTTATCCTTTGTTGTTTCTAAATTTTCCTGTCTTAAAAATACATT
R
AATATTTTGATGTAAATCACTTTTCCTGAAGCATATAGTTTTTCCTATGTATAAAGTTATTTTCTTAGGACAGGTTCCCAGAAGCAATTAGGGGTCAAAT
Celera SNP ID:            hCV29103843
SNP Position Genomic:     43891
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61120):
TGAAAAGAGAGTGGTAGGAGAGGAAGTTAGATCAGAAGGAACCCAGATCACTGGGGCCTTATAGGTGATTGGGAGGATTTCATCTTTCACTTGAGTGAGA
K
GGATGTTATTAGAGGTTTTGAGCAGAGGAATGACATGATCTGACTTCCTTTTAAGAGAATTATTCTGGCTGCTATGTAGAAACTTAGATGGTCAGAAAGC
Celera SNP ID:            hCV1496681
SNP Position Genomic:     67421
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61121):
AGAGGTTATGGAGATGAGGATGAACTAACAAAGAAGACAGGAAAGGAACAGCCAAGGAAGTTTGTAGAAAAGTAAGAGAATGTAAAATGTGGTAGAAATA
M
CATGAATGTGTTCTAGGTAAGATGGTCTGTATCCATCTTGACTGACCAAGTAAATAAGACCCAATAATTGACCACTAGATTTGGCCACGTGGAGGTTACT
Celera SNP ID:            hCV1496682
SNP Position Genomic:     68113
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61122):
TGGGATAATACTAGAACAAGGGTTTGGATGTCCTGAAAGGATTTTCTTTCATTTCTGTTTCAAGTGAAGCTGTCAATTTAATGGATGGTCATTGTAAATC
R
GGAATACTTACCAAAATCAGGACATCAAGTCATCCTCTGAAAGTGAAAGGAAGCAGTGGGGGTTGAGGAGAGAAGAAAGTATTTACCTGTGAAAACACAA
Celera SNP ID:            hCV27930459
SNP Position Genomic:     17451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61123):
GATGCCATTATTTCTATGTGGTACTCCAGTAAATAGACTTTCTGTTTTAGGGAAGAAGAATAGTGTTCCCTCAAGTATATTAGGTTCAACATTAATTTCC
W
TCATAACTTTCATTAGCAATAGAGGAAAGAGATGAATTTTAACCAGTAGAGGACAGTTGCAGCCAAAAACAAGTCAAGATGAAGGGCTTCCCCTTTATGG
Celera SNP ID:            hCV29103844
SNP Position Genomic:     42900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61124):
AATTGAAACTTAAAACAGCTACATGACTAGTGACTATCTATTAGGCAGTGCAACCCTATACAATTATAAAGTTCTTTTTTTTTTCCTACTGTCTTCTGCC
R
TCCAGCACTAAACTATGAAATTTTGAGAACAGATTTTTCAACATTATACTTTCAGAGTTTCTTGCTTATGATAGAAGCTCAAATATATTTAGCAGTGGAT
Celera SNP ID:            hCV29103845
SNP Position Genomic:     38398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61125):
GGCCTCCCAAAGTGCTGGGATTATAGATGTGAGCCACCGCACCCAGCCAAGAGAATTCTTTTGACTGAATTGAGTTATAGGAGGAATATAGATAAATTTG
K
TGGTTCTACAGTCATTTGTTGGTACAACTCTGTTACAGCATTTATCCTGGTCTGTCTTGTATTATTATTACTTGTATGTGTCTCTCTCCACTACTAGATC
Celera SNP ID:            hCV29103846
SNP Position Genomic:     24038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61126):
TGTTATATACTCTTTTTTTTTTTTCTTTCTGAGACAGAGTCTCTGTTGCCCAGGGTGGAGTTGCCCAGGGTGGAGTGCAGTGGCATGATCTCGGCTCGCT
R
CAACCTCCACCTCCCATGTTCAAGTGGTTCTCCTGTCTCAGTCTCCCGAGTAGCTGGGATTACAGGTGCCCACCACAATGCCCAGCTAATTTTTGTATTT
Celera SNP ID:            hCV29103847
SNP Position Genomic:     13380
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61127):
ATAAAGTATAGTGGTTTTGCCGCTTTAGCCTTGGTCGACTCACTTTACATTTCTGAGTTGCAGTTTTTCCATCTGTAAAATGGGAATAATAACTCATGAA
K
TTTGACTCTACAGACTATTATTGTAAGATAAGGATGCAAAAAGCTTGATAAACTAAAGCACTGTTTAGGTGTAAGGCAGTATTATTACTCTCCTCACTTC
Celera SNP ID:            hCV1496685
SNP Position Genomic:     69949
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,5)      total(G,5|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61128):
GAAGGATATGATGATGTGCAAGACAAAGGCATGCTTACAAGAGTTCCACACTCTACAAAGGGAGGAAAAAAATGTCCCTAAAAATGATTTGAATCCCATC
Y
CCATCATTCATATTTTGCAATCTTGAGCGAGTTTACTTAGCTTCTCTTGTGTCCTCATTTTTAAAATGGCAATGATAATTGCCTGTTTTATGGGATAGTC
Celera SNP ID:            hCV29103848
SNP Position Genomic:     10369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61129):
CTACTCCATTGGAGATGCCAAGGAAGAATTGTTATTTCATCTTCTCTTAAAACTTTGACTTGTCTCCTGTAGATGCTTGGCCAGGCTGTCAGAACATCCT
R
GGAGTTAATGAGAGAAAAATACATATAGCTCCCACTAAGTGCCTATAATGTGTCAGGCACTATAGTTAGTGCTTATCTTGTTTAAACCTCATAGCATCCT
Celera SNP ID:            hCV1496686
SNP Position Genomic:     70416
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61130):
TATGAGTATAATCTTGTGAGGTGGCTGTAAAGTTAGAGATGATGAATATTCAAGGGTAGCAAGTACAGGCTTATTATTTGATGGCAGTTATTTCCCCTGG
Y
ACCAGGATCTAATAGAAACCAGAATAGCAGTCAGGAGTTCTAAATCTTTTACTCCTATTCTTTGACCTTGGATATGTGAGTCACTGTTTCTAGATAGACT
Celera SNP ID:            hCV1496688
SNP Position Genomic:     71770
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61131):
TGCCTGTCTCGTTCTGTCAAAAACTTTCTTTCTTTCTCCCCTTTCCCTGCCAAAAACAAAAAACCAACATACAACCTTACCTTGTAGTATCTCTGGCCAT
R
TCTCTTAAGGGGGCCGGCAGTCGGTATCTTTTTCATTATAGGCAAGAAGAGAGGCGGAGGCGATCCTTCCAGGATTACACTGGGCAGAAGATCACCCTTG
Celera SNP ID:            hCV11265685
SNP Position Genomic:     55689
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61132):
GTGAAAATTGAATTTGGAACTGAGTTAAATGTGGAAAGAAGGAGGGTGTGAGTCATCCAGTTTTGCTGCCAGTCATGGCAGTAAATTTCTCCAGTCAATA
R
CTCCCTGGTTTGGTGGCTTGCTGCAGTGATAGCCATAACTTTCCTGGATTGTGGCAAAGGTGGTATTATTTTGTGGGTTAGGTGTTGTTCCTGGAAGTTC
Celera SNP ID:            hCV1496610
SNP Position Genomic:     8622
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61133):
AGGGTGTGAGTCATCCAGTTTTGCTGCCAGTCATGGCAGTAAATTTCTCCAGTCAATAGCTCCCTGGTTTGGTGGCTTGCTGCAGTGATAGCCATAACTT
Y
CCTGGATTGTGGCAAAGGTGGTATTATTTTGTGGGTTAGGTGTTGTTCCTGGAAGTTCTGCCAAAGTCTTTTATTGCAATACATCCCTTACTGCTTAAGT
Celera SNP ID:            hCV1496611
SNP Position Genomic:     8664
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61134):
CTGCAGTGATAGCCATAACTTTCCTGGATTGTGGCAAAGGTGGTATTATTTTGTGGGTTAGGTGTTGTTCCTGGAAGTTCTGCCAAAGTCTTTTATTGCA
R
TACATCCCTTACTGCTTAAGTGGGTTCTGTTGTCTGCAACTGTCCCTGACCAGGTTAGAGGTACTGCCAGAGAGTTAAATATAAAGACAGAGTTAAAGGG
Celera SNP ID:            hCV1496612
SNP Position Genomic:     8743
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61135):
GCTGGGCATGGTGGTGTGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGAGGTTGCAGTGAGCTAAGATCGC
R
CCATTGCACTCTAGCCTGGGTGACAAGAACAAAACTCTGTCTCAAAAAAAAAAAAAGAAAAAAAAGGGTGGTTTAGTGGCAAGTGTGTGTGGCCCTTGGA
Celera SNP ID:            hCV1496613
SNP Position Genomic:     9909
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61136):
AGGGATTGAAAGCAGGTTTATAAAGTACCTTATATATAAACATCAATCAATAGCATACTGAATTGATGAATTAACAATTTAAATGGGGTAAAATTAAATA
Y
TTCACTATTTTAGTAGACAATTTCCATGTGTGTTACACTGTGCTAGGCACTGGAGATTTGGGGAGGAAGGATATGATGATGTGCAAGACAAAGGCATGCT
Celera SNP ID:            hCV1496614
SNP Position Genomic:     10203
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61137):
ATATTAGCTATTATAAGACTTTGAAGGGATCTTAGGAATAATTGACTGAAAGTGTAGTGTCGAGTGGTAGAATAAGTGCTGATCCTGGGGTCTTATACCA
R
TGTTGCTAACTGTGAGCAGCCTTTGTCAAATCACTTGGCTTCATTTTCAGTGGCCTAAGAGTAATAGGTTTAATTATTTCCATAATTCCTTTAAGTTTTT
Celera SNP ID:            hCV1496615
SNP Position Genomic:     10675
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61138):
AAAGCAAGAAGCATCTATCTTACATGGTCACTCTAGAATTTGGTGGGAGGGAGGAAAGTTGGACCACCAGTTTGACATTTGAAAGTGTCCCGGCCGGGTG
S
GGTGGTTCACACCTGTAATCCTAACACTTTGGGAGGCCGAGGCGAGCAGATCACTTGAGGTCAGGAGTTTGAGACCAACCTGGCCAACATGGTGAAACCA
Celera SNP ID:            hCV1496616
SNP Position Genomic:     10974
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61139):
CCTGAATGAGTTGTTGTTTCCTTATCACTCCTGGTCCCTTTGCAAGTGAACCCTGCAGCTCACCCATTCATTCACCCAACTTCCTTCATTCAGCAGGAGG
Y
CCTATTACCCTCTCCAGCTGCCACTGCCAGAGCTGGATTCCTGTAAAGGAGTCCAGGCTAGAGCCACAGAGACTGTTGTGGAGGTGAGTTCGGCTGTAGT
Celera SNP ID:            hCV26413631
SNP Position Genomic:     73563
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(C,247|T,1226)   total(C,247|T,1226)
SNP Type:                 UTR 3


Context             (SEQ ID NO:61140):
AGTTTGATGTATCCTTTTCAGTGTTCTCTGTGTATACTAAATATACACAAGTGTGTGTAACATACACAGTTTATATCATGTGCATATATATATAAATACA
M
ATGTATATGTTATACGCACTGGAACCTACAATACATATTATGTCTTGGTTCTTTTACTTAACATGTTTTAGCTATTTTTTTCTTGTTGGCACTTAAAGAT
Celera SNP ID:            hCV26413632
SNP Position Genomic:     72144
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61141):
TCTCCTCTATAGCCACAGTGTAATTACCAACATTATGAAATTAACATTGCATTACTTCTTTGATCCTCAGGCCCCACCTCTTGATGCTCGAGCTCTGACT
R
CCCATTCTGGGCTGCTCCAGTGTGTGCCTTCATCACCTTATTCTTCCCTATATTGCAGTTCTCTTTGTAGATTTCCTCCTCACCCAGCTTAGACTCTGAC
Celera SNP ID:            hCV1496618
SNP Position Genomic:     12903
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61142):
CTCGATCTCCTGACCTCATGATCCACCTGCCTTGGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCAGTAGATGTTATTCTTATC
Y
CCAGTTTACATTTGAAGGGAACAGGCCTCAGTGAGTTCAGATGACTTGCCCACGGATGCAGAATAGTAAATGGCAGAGCCAGAACTCAGGTCCAGGTCTA
Celera SNP ID:            hCV26413633
SNP Position Genomic:     71219
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61143):
CTATCTTAATGTTATATACTCTTTTTTTTTTTTCTTTCTGAGACAGAGTCTCTGTTGCCCAGGGTGGAGTTGCCCAGGGTGGAGTGCAGTGGCATGATCT
Y
GGCTCGCTACAACCTCCACCTCCCATGTTCAAGTGGTTCTCCTGTCTCAGTCTCCCGAGTAGCTGGGATTACAGGTGCCCACCACAATGCCCAGCTAATT
Celera SNP ID:            hCV1496619
SNP Position Genomic:     13371
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61144):
GAAGTTGAGAGAGCAGAAGCTTGGTTCATCTTCTGGCTCTCAGTCTTCCCCCACCCCAACTCCCAACTTTGCTTTTGAACTACAACCTTTTTTTTTTTTT
T
GAGACGGAGTTTCCATCTTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTTGGCTGACCCCAACCTCTGCCTCCGGGTTCAAGCAATTCTCCTGCCTCA
Celera SNP ID:            hCV26413634
SNP Position Genomic:     69087
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61145):
TTGATTAAGGGAGATAGGGAGTCCTAGAATGAGGATGTGGGGAGCAGGTGACTTTCATTTTAGATAGGATGGTAAGGCCAGGCCTTTCTTTTTTTTTTTT
T
GAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTTATGCCTC
Celera SNP ID:            hCV26413635
SNP Position Genomic:     66862
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,7)   total(-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61146):
GGGGCTTTATTTTTGATTTTCTTTTTGTTTTTTGAGATGGAGTGTCATTCTGTCTCCCAAGCTGGAGTGCAGTGGTGTGATCTCGGCTCATTGCAGCTTC
Y
GCCTCCCAGGTTCCAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCAAGCCACCATGCCCGGCTAATTTTTGTATTTTTTTAGTA
Celera SNP ID:            hCV26413636
SNP Position Genomic:     59775
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61147):
GGATGCCATGGGTACCTCAAACTTTGGCTGGAGTCAGTCAAATCCAGACTTGAGGCTCTTCTGTGCTATTTACTAGCTGTTAATTTGGGGCTTTATTTTT
K
ATTTTCTTTTTGTTTTTTGAGATGGAGTGTCATTCTGTCTCCCAAGCTGGAGTGCAGTGGTGTGATCTCGGCTCATTGCAGCTTCCGCCTCCCAGGTTCC
Celera SNP ID:            hCV26413637
SNP Position Genomic:     59689
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,5)   total(G,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61148):
AGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATATTATATATATATATATTATAATATATATATATAATATAATATATATATATA
W
AATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTGACTTATAGTTCC
Celera SNP ID:            hCV26413638
SNP Position Genomic:     54652
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,9)   total(A,3|-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61149):
CTTTCAGCCTGATCCCTAGTTGGAGCTATAATGAGAGAGATTGCCAGCTTCTCATTTTCAGGTTGACCTCAATTGTCACCCCTTCTCCCTAGTCTTCCGT
M
TACCCTACTGTGTGATTTTTCTACAATAACTGGTAGCAGATTTGTGCCCTGGTTGAAGTTGTGGGGTTTTAAGCCCCTATTTATCATTAGCATAGAGGGG
Celera SNP ID:            hCV27480835
SNP Position Genomic:     56469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61150):
TATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATATTATATATATATATATTATAATATATATATATAATATAA
W
ATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTG
Celera SNP ID:            hCV26413639
SNP Position Genomic:     54640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61151):
AAGGTTTAATTAAAGATTTTAACATTTTAAAAAAAGGCAACCATAAGAATACTAGAAGAAAATCTAGAAGAATATTTCACTACATGAAAATTAAAAACTT
M
ACTGCAAAAATCATTGTAATCAGAGTTAAGTTTGGAAAAAGAATTTGTAGTACATATGATAAAGAGCTAATACAAAGGGGGTATTAGGAAAAGGTGCCAA
Celera SNP ID:            hCV8732500
SNP Position Genomic:     28966
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,5)      total(A,5|C,5) ;(C,-|A,-)   (A,-|C,-)   African-American(A,34|C,50)   Asians(A,8|C,76)   total(A,42|C,126)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61152):
TTACCCTTGGGGGAGGCAGGTAACTAGAAGGGAGCATGAGATGGGCTTCTGAGATGCTGGCAATGTTCTGTTTGTTTGTTTGTTTGTTTGTTTTGAGACA
S
AGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCTGCTTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCC
Celera SNP ID:            hCV3123443
SNP Position Genomic:     54214
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61153):
GTGGGAGAATGAGGTTACTAGAGAAATGTAGGATGCAAGGAAAAAAAAAATTTTTTTCCAGCATATCCAGCAGTTTAGTGCATGCATGGAGAAAACCTTT
Y
TGGGTATGGCAAGGACATCGCTTGCTCAAGACACATTCTAACCTCTAATATGTCTTCTCTTCCTGAAAAATCTGGAAAACTAAAAACCATTTTCTTGACT
Celera SNP ID:            hCV8732501
SNP Position Genomic:     8407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61154):
TTTCTTAATTTTTTTTCTGATTGCTCCTTGCTACTGTATAGAAACACAACTGATTTTAGCATGTTCGTTTTGTATTCTGCAACTTTGCTAAATTCACTTA
Y
TCGTTCTAACAGGATTTTTTTGTGGACTCTTTAGGGTTTTCTACATAGAAGATCATGCCATCTGTAAACAGAAATAATTTTCTTGCAGATTTAGTTTTTT
Celera SNP ID:            hCV16086343
SNP Position Genomic:     63402
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61155):
TACTTTGGTATGTTCAAATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATATTATATATATATATATTATA
A
TATATATATATAATATAATATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTACCTGAGACTGGGTAATTTATA
Celera SNP ID:            hCV16208043
SNP Position Genomic:     54621
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61156):
GAACTCCTGACCTCAAGCGATCCACCCACCTTGGCCTTCCAAAGTGCTGGGATACAGGCGTGAGCCACCATGCCCGGCCATAATTTTCTTTTCTTTTTTT
W
AAAAAATATTTTGTGGAGATGGGGTGTCGCTGTGTTGCCCAGGCTGGCCTCGAACTTCTGGTCTCAAGCATTCCTTCCACCTCAGCCTTCCAAAGTGCTG
Celera SNP ID:            hCV1496620
SNP Position Genomic:     14629
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61157):
TTGTCTTTGTTCAGGCTGCAAAACAGCTTTTGCATCAAAGTTGAGGTCTAGGAGAAGGCCACCTCCTTGAGCCCTTCTTGCTAGCTAGAGTCCATGTTCC
R
GCATGCCAGGACTCTCCAGTGATTTGTTTTTATCTTCCCTCCTCCTGAGCCTTCATCTTTGAGAGAGAACAAAGTGGAAATAGTGCCAAACTCTGTGTTA
Celera SNP ID:            hCV11265696
SNP Position Genomic:     69749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61158):
CTGACCTCAAGCGATCCACCCACCTTGGCCTTCCAAAGTGCTGGGATACAGGCGTGAGCCACCATGCCCGGCCATAATTTTCTTTTCTTTTTTTTAAAAA
R
TATTTTGTGGAGATGGGGTGTCGCTGTGTTGCCCAGGCTGGCCTCGAACTTCTGGTCTCAAGCATTCCTTCCACCTCAGCCTTCCAAAGTGCTGGAATTA
Celera SNP ID:            hCV1496621
SNP Position Genomic:     14635
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61159):
CAAAGTGCTGGAATTACAGGTGTGGACTACTGTACCTGGCCTGGAAGTTGACTTTTTAAAAATAAATTTGGATTAACTAAGGAGCCTCTGAGTAACCGCA
R
TAGAACCCTCGGTTTCTACAGAATTTGAAAAAAAGTTTTATATTCCATATTTAAAAAATGACAACCATTTACTTTCCTGAAATTGTAAACCTGTTATAGT
Celera SNP ID:            hCV1496622
SNP Position Genomic:     14820
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61160):
GTGGGGCCATCTCGGCTCACTGCAGTCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCGCACCACCA
Y
GCCTAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGCCGGGATGGTCTCGAACTCTTGACCTTGTGATCCACCCGCCTTGGCCTCC
Celera SNP ID:            hCV1496623
SNP Position Genomic:     16013
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61161):
TGACCTTGTGATCCACCCGCCTTGGCCTCCCAAAGCGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCTGATTTTTTTTTTTTTTAAGTAGAGATAGA
R
TCTCACTGTGTTGTCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCTCCCGCCTTAGCTTCCCACGATTACAGTCGTGAGCCACTGCACCTGGCCC
Celera SNP ID:            hCV1496624
SNP Position Genomic:     16184
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61162):
CTGATTTTTTTTTTTTTTAAGTAGAGATAGAGTCTCACTGTGTTGTCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCTCCCGCCTTAGCTTCCCA
Y
GATTACAGTCGTGAGCCACTGCACCTGGCCCCAGTTTCCTTCTTGAAGAATTGCATGGGGTTTCTTAGGCCACTGTTCTACAAGAGGTATAAATCTGGGA
Celera SNP ID:            hCV1496625
SNP Position Genomic:     16253
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61163):
ATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATATTATATATATATATATTATAATATATATATATAATAT
W
ATATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAAT
Celera SNP ID:            hCV26413640
SNP Position Genomic:     54638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61164):
TCAAGAAAAAAAAAGTAAGCCCTTTTCTCTTTGAAGTCACTTCAGATTTAATACCTTAGCATAGTAGTTAAGAGAATGGACTCTGGAGTCAGCCAGTTTG
R
CTCCCCATTTCCTGGCTTTTTGACATGCTTAGTAATTTAACTTCTGGAAGCCTTTGTTCTCTCATCTGTATAATATAATAGTAATAGAACTTACATTTTA
Celera SNP ID:            hCV1496626
SNP Position Genomic:     18224
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61165):
AATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATATTATATATATATATATTATAATATATATATATAATA
W
AATATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAA
Celera SNP ID:            hCV26413641
SNP Position Genomic:     54637
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,10)   total(A,1|-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61166):
TTTAGTTCTTGAGGGCTCCACCCTCCTGAAGGGATTAATGCCAATTATTGAAAGGCTTGAGGCTGTGAGTTTGATCTCTTTCTCTCCTTCTTACCCTCTT
R
CCTTCCACCATGGGATGACACAACAAGAAGATTCTTGCCAGATGCTGGCACCTTGCTCTTGGACTTTCCAACCTCCAGAACTATGAGCCAAATAAATTTC
Celera SNP ID:            hCV1496627
SNP Position Genomic:     19623
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61167):
ACTTTGGTATGTTCAAATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATATTATATATATATATATTATAA
T
ATATATATATAATATAATATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTACCTGAGACTGGGTAATTTATAA
Celera SNP ID:            hCV26413642
SNP Position Genomic:     54622
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61168):
TTACTTTGGTATGTTCAAATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATATTATATATATATATATTAT
A
ATATATATATATAATATAATATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTACCTGAGACTGGGTAATTTAT
Celera SNP ID:            hCV26413643
SNP Position Genomic:     54620
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61169):
TGGTTACTTTGGTATGTTCAAATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATATTATATATATATATAT
T
ATAATATATATATATAATATAATATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTACCTGAGACTGGGTAATT
Celera SNP ID:            hCV26413644
SNP Position Genomic:     54617
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61170):
CTGGTTACTTTGGTATGTTCAAATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATATTATATATATATATA
T
TATAATATATATATATAATATAATATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTACCTGAGACTGGGTAAT
Celera SNP ID:            hCV26413645
SNP Position Genomic:     54616
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61171):
TTGATCTGAGTACTGGTTACTTTGGTATGTTCAAATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATATTA
T
ATATATATATATTATAATATATATATATAATATAATATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTACCTG
Celera SNP ID:            hCV26413646
SNP Position Genomic:     54604
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61172):
TTTTGATCTGAGTACTGGTTACTTTGGTATGTTCAAATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTATAT
T
ATATATATATATATTATAATATATATATATAATATAATATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACTACC
Celera SNP ID:            hCV26413647
SNP Position Genomic:     54602
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61173):
GTTTTTTGATCTGAGTACTGGTTACTTTGGTATGTTCAAATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATATTA
T
ATTATATATATATATATTATAATATATATATATAATATAATATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAACT
Celera SNP ID:            hCV26413648
SNP Position Genomic:     54599
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61174):
CTGTTTTTTGATCTGAGTACTGGTTACTTTGGTATGTTCAAATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATATAT
T
ATATTATATATATATATATTATAATATATATATATAATATAATATATATATATATAATATAATATATATATATATATTAGTTCTCACACTGCTATAAGAA
Celera SNP ID:            hCV26413649
SNP Position Genomic:     54597
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61175):
TGAGACTCCTGGAAAGACTCAATAGTGAGAATATAGCCTCCCACCCCATTAACTTCGCTCCCATGGGAGATGGCTTCCCCTCATGCAACAGGCAGGTTTG
K
GAGTTAGAGGTCAAAAGCAGCTGCCTGAATGAGTTGTTGTTTCCTTATCACTCCTGGTCCCTTTGCAAGTGAACCCTGCAGCTCACCCATTCATTCACCC
Celera SNP ID:            hCV27478422
SNP Position Genomic:     73439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:61176):
TCAGCCCTAATGTCTCCTCAGAATTTTTTTTACCCATCATAAATAAATCGGTTCACACTGTATTTAATTATATACTTGTTTAATGTCTATCTTCCTCACA
R
GACACTAAGCTCCATGAGGGCTGAGTTGTGTCTGTTTTGTTGTATATCTCAGTCTTAGGTGGATGGGTAGAAAATAGTAAGTGCTTGATACATTTTTGAT
Celera SNP ID:            hCV1496630
SNP Position Genomic:     21328
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61177):
GTGCAATCTCGGCTCACTGCAACCTCCACCTCCGGGTTCAAGTGATTCTCCTGCCTAAGCCTCCAGAGTAGCAGGGACTACAGGCGTCAGCCACCACGCC
Y
GGCTAATTTTTTGTATTTTTAGTAGAGACAGAGTTTCGCCATGTTGGCCAGGCTGACTTCAAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCC
Celera SNP ID:            hCV1496632
SNP Position Genomic:     23043
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61178):
TTGTCCTTGAAGAAGGTGGTGTTTCAGCCCATGTCCCAGCTCTTCTCTTGCTGAACTTAGCAGGGATTTGGGACCTAGTAATTAAATAGCTGAGAAGCCA
R
TATTCATCCTGTCATCCTCTGAGAAGCATGTTGGTAGCAGAGTGCATTATATTAATACATGGTAGGAGGTACGAGCATAGCAATGAGACTTGGGATTTGG
Celera SNP ID:            hCV1496633
SNP Position Genomic:     24418
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61179):
TTGGGACCTAGTAATTAAATAGCTGAGAAGCCAGTATTCATCCTGTCATCCTCTGAGAAGCATGTTGGTAGCAGAGTGCATTATATTAATACATGGTAGG
R
GGTACGAGCATAGCAATGAGACTTGGGATTTGGCTTAGGCTTGCCATAGCCCAAGAAATGCTGAGGGGAGATTCATGTTGGTAAGGTCGAAATAGCATTG
Celera SNP ID:            hCV1496634
SNP Position Genomic:     24485
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61180):
AAATAGCTGAGAAGCCAGTATTCATCCTGTCATCCTCTGAGAAGCATGTTGGTAGCAGAGTGCATTATATTAATACATGGTAGGAGGTACGAGCATAGCA
R
TGAGACTTGGGATTTGGCTTAGGCTTGCCATAGCCCAAGAAATGCTGAGGGGAGATTCATGTTGGTAAGGTCGAAATAGCATTGGACTAGAAGTAAAAAA
Celera SNP ID:            hCV1496635
SNP Position Genomic:     24501
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61181):
TTAGCCAGGATGGTCTCGATCTCCTGACCTTATGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCACACCCAGCCTTAAT
R
TTCTGTTTTTTGATCTGAGTACTGGTTACTTTGGTATGTTCAAATTATGAAAAATCAAGTGAGCTGTATACTTATGACAGACATTTATATATATATATAT
Celera SNP ID:            hCV26413650
SNP Position Genomic:     54494
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61182):
CTTGCCATAGCCCAAGAAATGCTGAGGGGAGATTCATGTTGGTAAGGTCGAAATAGCATTGGACTAGAAGTAAAAAAAAAGTCTGTGTTGTACTTGGCTG
W
GCTACTATCTTTGTGACTTTTGACAAGTAACTTATGCCCCTGAGCCTCAAATTCTTCATTTACATTATGGTGACAACAAGTTTCAAGGCCATTTGCCACC
Celera SNP ID:            hCV1496636
SNP Position Genomic:     24625
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,5)   total(A,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61183):
GTGGCGCAATCTCGGCTCACTGCAAGCTCTGCTTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTTGCTGGGACTACAGGCGCCCGCCACCT
Y
GCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTATGATCCACCCGCCTTGGCCTC
Celera SNP ID:            hCV26413651
SNP Position Genomic:     54346
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61184):
ATTTATTTATTTATTCACTTATTTATTTATTTATTGACAGAATCTTGCTCTGTCACCCAGGCTGGAGTGCAGTAGCATGATCTTGGCTCACTGCAACCAT
R
ACCTCCTGTGTTCAAACGATTTTCGTGCCTCAGCTACCCAAGTAGCTGGGATTACAGGCATGTGCCGCCATGCCCAGCTAAATTTTGTATTTTTAGTAGA
Celera SNP ID:            hCV1496637
SNP Position Genomic:     25206
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61185):
AATTGTGATTACCCTTGGGGGAGGCAGGTAACTAGAAGGGAGCATGAGATGGGCTTCTGAGATGCTGGCAATGTTCTGTTTGTTTGTTTGTTTGTTTGTT
T
TGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCTGCTTCCCAGGTTCATGCCATTCTCCTGCCTC
Celera SNP ID:            hCV26413652
SNP Position Genomic:     54206
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61186):
AGTTGTGTGCCTTCCTACCAGTCACTAATCTTTTTGTGCTTCAGTGTCTTAGACTGTAAATTATTGAAAAGCTACACTTTGTTGAATGTCCATTATGTGC
Y
ACATACCTATGTCAGTCACTTTATGTACATCATTTGTTATCTGCAGCAGCAAAGTGAGAACAAATGGGAACTTAGGCCCTGAAAGGCAAGTTGTGTGCAA
Celera SNP ID:            hCV1496638
SNP Position Genomic:     26460
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61187):
GAATTGTGATTACCCTTGGGGGAGGCAGGTAACTAGAAGGGAGCATGAGATGGGCTTCTGAGATGCTGGCAATGTTCTGTTTGTTTGTTTGTTTGTTTGT
T
TTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCTGCTTCCCAGGTTCATGCCATTCTCCTGCCT
Celera SNP ID:            hCV26413653
SNP Position Genomic:     54205
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61188):
CCTCTGATTCTACTCTCTGCTAACACTCCACCACCTCCTAATTATAGGCTGTACATTTTTCAGACAGTAGTTTTTCATTCCTTTGTTTTCTTTTTAATGT
R
TAGATATGAATACAAGATGACAGTTCATTTTTAGCGGGCAGAGAATTGTGGTCTCTGACTCAGGAGGAAGACTGGGGTATAGCTAACTGGGTTTACTTCT
Celera SNP ID:            hCV1496639
SNP Position Genomic:     28313
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,7)   caucasian(A,15|G,21)   total(A,44|G,28)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61189):
AGAATTGTGATTACCCTTGGGGGAGGCAGGTAACTAGAAGGGAGCATGAGATGGGCTTCTGAGATGCTGGCAATGTTCTGTTTGTTTGTTTGTTTGTTTG
T
TTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCTGCTTCCCAGGTTCATGCCATTCTCCTGCC
Celera SNP ID:            hCV26413654
SNP Position Genomic:     54204
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61190):
TAGAATTGTGATTACCCTTGGGGGAGGCAGGTAACTAGAAGGGAGCATGAGATGGGCTTCTGAGATGCTGGCAATGTTCTGTTTGTTTGTTTGTTTGTTT
G
TTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCTGCTTCCCAGGTTCATGCCATTCTCCTGC
Celera SNP ID:            hCV26413655
SNP Position Genomic:     54203
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61191):
CACTTGGGCCCAGAAGTTAGAGGCTGCAGTGAGCTATGATTGTGCCACCGCACCCCAGCCTGGGTAAGAGTAAGACCCTGTCCCTTAAAAAAAAAAAAAA
A
GAAAAAACTAACATGGAAAGAAGTCTAAGATAATAAAATTTAAAAACATGTTGCAGAAGACTTTGTATAGCATCTCTCTTCCCCTTTTAAAGCAAGTGTG
Celera SNP ID:            hCV26413657
SNP Position Genomic:     35025
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61192):
TTAATCCAGAAATTCTTTGAAGAATTTAGTGTAAGTAGAGAATTACATAAATTATGTGCATCTGTTTTGTAGACTATGCAGATGATTGAAAGAATGACTG
T
ATTTCTAAGACATAATTATGCCTCATCTTACCAGAAAGATGCCATGGAAGGTTTTCATACAATTCCATCACACTGCTACCTGACTGATAACAGTTGTAAA
Celera SNP ID:            hCV26413658
SNP Position Genomic:     32999
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61193):
TTTAATCCAGAAATTCTTTGAAGAATTTAGTGTAAGTAGAGAATTACATAAATTATGTGCATCTGTTTTGTAGACTATGCAGATGATTGAAAGAATGACT
G
TATTTCTAAGACATAATTATGCCTCATCTTACCAGAAAGATGCCATGGAAGGTTTTCATACAATTCCATCACACTGCTACCTGACTGATAACAGTTGTAA
Celera SNP ID:            hCV26413659
SNP Position Genomic:     32998
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,4)   total(G,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61194):
GGGCCTAAGGGCCCCACCTCTTGATACCATTGAATTGGGGATTAGGCTTCAAAGTGAATATTGGAGAAATACCAAAGTTCATGTTGAACTTTAGTCCCCC
M
CGTGGGGGTATTAAGAGGTGGTATTAAGAAGTATTAATCACTTGGGAAGTGGTTAAGTCATGAAGGCTCTGCCCTTGTAAATGTGATTAATGCCCTTATA
Celera SNP ID:            hCV11265637
SNP Position Genomic:     20843
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3)   total(A,3|C,3) 
SNP Type:                 INTRON


Gene Number:                 338
Celera Gene:                 hCG2005047 - 209000073827476
Gene Symbol:                 C6orf134
Protein Name:                chromosome 6 open reading frame 134;Em:AB023049.7;FLJ13158
Celera Genomic Axis:         GA_x5YUV32W6W6(3651073..3680887)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12498):
ACACCCAGCCAGCGAAATGGCTATTTCTAGTGGGAGAGCCAATATCCAAAGATTCGTTTGTATTCATTACAGTTATTACCAAATATATTGGCCCACTTTC
TTCCTGAGGTTTTCTTTATTTCCTTGTCAATGTTCAGTGCCATGCTGGCACCTGGGGCTGGAGGGCAGGTATATGAAGCAAGATAGAGTCCATTATTTTT
CAAAAAGCCTTCAATATGTGAGAAGGACAGGATTTGCTCCTTAAAGAATTTGAAAACATATTGGCTGGGTGCGGCGGCCCATGCCTGTAATGCTAGCACT
TTGGGAGGCCCAGGCAGGTGCTTCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACGTGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGC
CAGGCATGGTGGCAGGCGCCTATAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATTG
CACCACTGCACTCCAGCCTGGGCGAAAGAGTGAAACTCCTCAAAGAAAAACAAAACAAAAAGAATTTGAAAACATTATATCAATAAAACAGATAATGGGA
AAGTGTTCTTCTGAGCTTGCAGCAAAAGTATTAGAGCAGAAGCTATATGGCTGATCATCAGGGAAGTAGTAGAGCATTTGGATAACAGTCAGAAAATGGG
GGTATTTGACTGCAATAAGAACCCTTCTAACACAGGTTATTTAGGAGTCCCATAGATAATTTCCCAGTTTCAATTGCATATAATTGGTTATAAAAAGAGA
TTATGGCCAGGTGCGGTGGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCCAAGGTGAGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCA
ACAAGGTGAAACGCCGTCTCTACTAAAAATACAAAAAAAATTAGCTGGGTGTGATGGCGGGCGCCTGTAGTCCCAGCTTCTCAGGAGGCTGAGGCAGGAG
AATCACTGGAACCTGGGAGATGGAGGTTACAGTGAACCAAGATTGCACCACTGCACTCCAGCCTGAGCAGCAGAGCGAGACTCCGTCTCAAAAACAAAAC
AAAACAGAGATTATAATTAATTACATAACTGAGAGAGAGAAATGTTACAAATTTAGTAGCATGGGTGATTCTGCTTGCATTCTACTCTACAATGTACCTG
CTTTTTTTTCAAGAGTCTCATTTCCTAGTTAATTTGCTGAGAGAGAGTTCTATGTAAATTGTAAAATTATTCTTAGTATATAAATTATATTCAGCATACT
ATTAAATACATTAGTTGTTTATACATACACATTACAATATCATTTTTTGGGTGATTTCTGGGATTTCCAATGACCAGCCCCAGTTTTTCACCTAAAGGCT
GACGTTAGAACTTAACCTCTGCAGCCCAGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTCTGAGGCCAAGGTGGGTGTATCACTAGGTCAGGAGTT
CAAGGCCAGCTTGGCCAAGATGGTGAAACCGCATCTCTACTAAAGATACAAAATAATTAGCCAGGTGTGGTGGCAGGCGCCTGTAACCCCAGCTACTCGG
GAGGCTAAGGCAGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGTGGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGCAACACAGGGAGACTCTG
TCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGAACTTAACCTCTGCATAAGAGATTTCTATGGGAGCACAGTGACAGAATATGGGATGTGCAAGGATGGAT
TCAGTGAATTGATGAAGCCAAACTGGGACATGAAGGAGGATGGCATCTGGAGAGCTGTAGAGGGGTGAAGGTGGTCCATGTGGGTGTGTAGGGATTGTGT
ACTTTCGATGTCCAAAGATCCTGCTGCTCTCCCTGCCTCTTTTCCTCACGTTTCTCTACCACTTTCCCCCACAGAACGTGAAGCTCTTGGAGCAATTTGT
CTGCGCCCACACGGGTATCATCTTCTATGCTCCATACACAGGTTAGCCCATCATCCCTGCACCACCAGAGAGCTTTTCCTTGTGGCATGCCTTGTTTATG
TAGTTGGCCAATAGGTATTTGTTCAGTGGCTCCTGCTTATAGCCTAAAAGGTCTGGCTGAACCTTTTGGAAATCTTGGCTTGCTGGGGGCTAAAGTAATT
AAATGTGGACAAAAGAAAACAACAAATACAGCCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGCTGGATCACCTGAGGT
TGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGTGGTGATGCATGCCTGTAATCCCAGCTACTCAGGAGGCGGAGGCAGGAGAGTCGCTTGA
ACCCAGGAGGCACAGGTTGTGGTGAGCCAACATTGCGCCATTGCACTCCAGCCTGGGCATCAAGTGAAGCTCCATCTCAAAAAAAAAAAAGGAAAAAGAA
AAAAACAAGTACTTCTGTAAGCAAACTATCTAAATGTAGTTTTTAATTGATAAACAGTGATTAATTCCTTTCTATAGGGTCTTTTAACTTTTACAAAAGA
CTTCTCACAAATTGTCACATAAGTTATTTTATATCATTGTCAATTGGATTAGATTTTCCAAACTTGGAATCGTAAATTTAACAATTCAGAATTATATTTA
TTCCCTAACTACAGTCACAGGGCAAATCTGGCCCACTGTCACGTCCATTTGTTTTCATATTTTCTGCAATTGCTTCCATGCTACAATGGCAGAGTTGAGT
AGCTGAGACAGAGACCACAGGACCTGCAGAGTTTAAAATATTTACTATATGACTCTAGACAGAAAAATTTTGCTAACCCCTGCTCTGAAGCAAGACAAAT
TTGCAGAGAATAATTTTTTGTTGTTTTTTTTTTTTGAGACGAAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCAATCTTGCCTCACCACAAC
CTCTGCCTCCCAAGTTCAAGTGATTCTCCTGCCTCAGCCCCCTGAGTAGCTGGGATTGCAGGCACATGCCACCATGTCCGGCAAATAGAGATGGGGTTTC
TCCATGTTGGTCAGGCTGGTCTCGAACTCCGGATCTCAGGTGATCCAGCTGCCTTGGCCTTCCAAAGTGCTGGGATGACAGGCATGAGCCACCGTGCCCG
GCAGAGACTAATCTTTGTTTTTGTTTTTTTTGGGGGGGTGTGGGTGGGGGGATGAAATCTCATTTACTCTGTCACCCAAGGCTGGAGTGCAGTGGCATGA
TCTTGGCTCACTGCCGTCTCCACCTCCTGGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACGTGCCACTGTGCCTGGCT
AATTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATTTTGGCCAGTCTGGTCTTGAACTCCTGACCTCAAGTGATCCTCCCACCTAAGCCTCCCAA
AATGCTGGGATTATAGGCATGAGCCACCGTGCCTGGCCTTGCAGAGAATAATCTGAATTCACCATTGTTGGGGGTGGCAGTACAATCAGTGTTCAGTTTG
TCAAGAGTTTCTTATAGTCAAGCTGTAAAGGCTGAAGGGACTATTATTGTTACTCTCTCAGATTGCCTTCCCCAACTCTGAAATCTCTTTTCCCTTTATT
GAATCTTTGTGGATTGTTCAACTCAACCCTCTAATTAACCACACTTGCCCATTAAATTGTGTTCTCCCTGTCTTGGAGGTTTTACCATTAAATGGCTTCT
CTATAGTGGCTAGACCCTCCTAAATCTTTATCCCAGCTCTCCAAAAGATGGGGGAGATTCTTTCCTTTGGGCAGATGGGGAAACTGAGGTCCATGGAGGG
GTCAGGGGAAAGGGGTCATTAGGTAAAGCCAATCCTTCCCAATCTACCCCTCTGTCACCATATGGAAGCAGTTGTGTTCTATTATTTACTGTGCCTTAAA
GAACAAGATATTTTTCTCCCCACAGGAGTCTGTGTGAAGCAGCACAAGCGGTTGACCCAGGCCATCCAGAAAGCCAGGGATCATGGTGAGCATGAGACGG
GGCACACAGCAGTTTTGTTTAGGTATAAGGAAGATGACTTAGGGCTAGAAAATGGATATAAATGCTCACACCTGTTCAAGATGGTAGCACCCAGCATGTT
CTTCCTGACGTTACATTGTCCCCTGTCCTTTCTCCTGAGTGTCTTACTTTATCATTGTCCTGTCTCCTTGTTCTTTGTCTTTCCATCCTTTTCCCTCCTA
TTTTACAACTGCTGGTCTCAATGCCTTAGGAAGTTCTTTATATAAATGTCTGGCCCTGGACTACATGGCACTGCTGCATAAGTTAGTAAAAAGTATACCC
CTCTGCTAGGGCAGATGCAGCTTCATAGTCCTTGTTCAGCACTGCACAGCTTTGTAAGCAAGAGCCCCAGCAGTATGTCAGCCCACACTTGCCCTCTGGG
CCGGTCACCTGTTTGCAGTATACAACATGCATAAATGTACCTGGTGGCTCTGACTGGTCCTTCCCTTTATAATCCTTTTTCTTACTTCATCTAAACCACC
CTCCTCATTGCCTCTTAAATTTCTTTTCTTTTTTAATCCCTTAGGTCTCCTCATTTACCACATCCCCCAGGTTGAACCACGGGACCTTGACTTCAGTACC
TCTCATGGGGCTGTGAGTGCTACTCCGCCAGCCCCCACCCTGGTCTCAGGTGACCCCTGGTACCCATGGTACAACTGGAAACAGCCACCGGAGAGAGAAC
TGTCTCGCCTTCGCCGGCTTTACCAGGGTCATCTCCAAGAAGAGAGTGGCCCCCCACCTGAGTCAATGCCCAAGATGCCCCCTAGAACACCAGCGGAAGC
CTCCTCCACTGGGCAGACAGGCCCTCAGAGTGCTCTGTAGGAGCTGTAGACTGGGAAGAGAGGCCAGGCGTGGTGGCTCACTCCTGTAATCCCAGCACTT
TGGGAAGCCAAGGTGGGCTGATCACTTGATCCCAGGAGTTTGAGACCAGCCTGGGCACCATGGTGAAACCTCGTCTTTACCAAAAAATACAAAAATTAGC
TGGGTGTGGTGGTGCACACCTGTAGTCTCAACTATTGGGGAGGCTAAGGTAGGATCACTTGATCCCAGGAGGCGGAGGTTGCAGTGAGTTGCAGTCACAC
CCCTGCACTCCAGCCTGGGTGACAGCTAGACCCTGTCTCAAAAAAAAAAAAAAAGACTGGGAAGAGAGCTAGAGGGACTAGGAGATAATGTGTATGTAGG
TTTATGTGATGGGATATCACCCTGAAGAGTTGTGTCTTTTGTGGCCAGTGACAAATCCAGGAAATGAATGTTGCTGATAGGGATAAATCTTGAGGCTGAG
GGCGGGTGGTACAGATGTGTATGGGAAACCCCAACCCCTATATATTGTAAATAGATGGGCTGGGCTAAACATTGTTGCCGTTTCATACTTCTACCAACTC
AGCTTTTACACAATAAAGCTCTACTGTCTCTGGTTTGCTTTGGGCTGTTTCCGATGAATGCCATTAGCGGGGGGTGGGCTGAGTGATGGTCTTTTCATAT
AAGCAATTGGGTGATGCTGTGGGGAGATAAGTGGTCAGGCTTAAGCCAGCCTTGCCTGTGACGCCTGGGACTAGAAGCCGGGGATGGGCAGCTGTGCCAC
TCTGTCAAGATGCCTTGTGGGCCCCCACTCCACAGCATGGCCCACTGTTCACTGAGGGGATAAAAGGTTGGACAGTGAGACACTGGGCCAAGGAAGACTA
CGTTGCCATGGCACTCACTGCCGTGGGATGCAGGGATGGAAAGGAGTGGCACTGCTAGGGGCACAGCTGGTTTGGCAAGAAAAACGGGGGCCCTGTCAGT
TGCCAGGACGCTAGGGGGCAAGGTCTACAGGCGGGGCTCCTGGAAATAAAGACTCCGAGAGGCGGTGCGGCGAGAGGAGGGGCGGAAGTGACGTCGTGTG
GGGCGGGTCCGACCGCGCACAATGGGCCATGGAGTTCCCGTTCGATGTGGACGCGCTGTTCCCGGAGCGGATCACGGTGCTGGACCAGCACCTGAGGCCC
CCAGCCCGCCGACCCGGAACCACAACGCCGGCCCGGTGACAGCTCAAACCCACCCTCTGGCCCTTTTCTCCCGGTTCCTCTCCAAACCTGGTYCAGGCAC
CACGCCCCCTTCTCACTGACTAGTGATCGCCCCTTTTGATGTCCAGGCCTGCCTTTTTGGTGACCTCTGACCCTGGGCCTAGTGGGATTGATCAGCGCTT
GGATCTGTGACCTTTCACCCCGGGCCCAAAATGTCCCAATCAAAGGATGTGGTTGACCTGGCCTTTCTGCTTCCTCACAATAACCTTAAGGGAGGAGGGA
GTGTGCCACCTTGAAAGGTGTGACAGAAGTTTGGGTTTCAGAAGGGTGGGGTGGGAAATCAGATTGGAAGACTCCCAGGCAAAGGCAGGGAGCCTTCAGT
GTTAAACCTGGGTTGGAGTTGTGGCCCAGGTTCCCAGGACTGACTGCCTAGGACCCGCTAATTTAGTGAGTATCTGACTCTTTATTTCTTCTCTTTCTCT
AGTGTTGATCTACAGCAGCAAATTATGACCATTATAGATGAACTGGGCAAGGCTTCTGCCAAGGTACTGGAGAGTTTTTAGATGGAGTAAAGGGAGGACC
TCTGTGGGGATGGTATATAAGGGAGGCCTGGGTCCTTCGGAGAGACTTGCAGAAAGTCTGACTTAATCTTCCCTGCAGGCCCAGAATCTTTCCGCTCCTA
TCACTAGTGCATCAAGGATGCAGAGTAACCGCCATGTTGTTTATATTCTCAAAGACAGTTCAGCCCGACCGTGAGTGCCACATGCTCTTCCATCCCATAC
TTAATTCCTTCCYTCCTCAGCCCTTCCCCCATCTTTGACTATCTCTTGCAGATAGATACCACTAGCCTGTTCATTATTTTCCCCGTCCTACAGGGCTGGA
AAAGGAGCCATTATTGGTTTCATCAAAGTTGGATACAAGAAGCTCTTTGTACTGGTGAGTGTTATTGGATRCTAGGAGTTCGTATACCTTGGTTTCTGAG
AACAAAAGTGCTGGAGGTTAGGGGGCAGCAGAGATGCCGGGGTTCCTAAAACATTTTTATTGTTTCTCTCTTAGGATGATCGTGAGGCTCATAATGAGGT
AGAACCACTTTGCATCCTGGACTTTTACATCCATGAGTCTGTGCAACGCCATGGCCATGGGCGAGAACTCTTCCAGTATATGTTGCAGGTATCACTGACC
TCTTCACTGGTTCATCCAAACTAGGGGCTCCTTTGCCCTGAGCCCTTCCAGAAGCCCTGCCTCCCACCCCCCATGTTCCCATGTCATTCTATTCCCTTCC
CAGGCTTCTGGCTTCCTGTTGGCATGCTTTCCCCATACTTCCTCCTACCCTGAGTCTCCTTTTCCCTGCAGAAGGAGCGAGTGGAACCGCACCAACTGGC
RATTGACCGACCCTCACAGAAGCTGCTGAAATTCCTGAATAAGCACTACAATCTGGAGACCACAGTCCCACAGGTTAGAGGTTTCAGAGAATAGATCCCC
ACTGAGCATTCCCATTGAATTTATTTGTTATTTATGGCAAAGAAGTAGTGACTTATTTCCTATCACATAGGTTTCATTTTCTACAACCAGGCTCTTTCTT
TCTCTTGTGGTACCATCTCTCATCCTGTAGTGACTTCTTTCTCATCTATTTTGATTTTTTTTTTTGAGATGGAGTCTCGCCATGCTGCCCAGGCTGGAGT
ACAGTGGCGCAATCTCAGCTCACTGCAACCTCCACTTCCTGGTTTCAAGCGATTCTCCTGCTTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCCACCA
CCACACCCAGCTAATTTTTATATCTTTAGTGGAGACGGAGTTACACCATACTGGCCAGGCTGGTCTCAAACTCCTGACCTTGTGATCTGCCCGCCTTGGC
CTCCCAAAATGCTGGGATTACAGGTGTGAGCCACCGCATCTGACTTTTTTTTTTTTTTTTTCAAAGCAGAGTCTCCTGCTGTTGCCCAAGCTGGAGTGCT
ATGGCAGGATCTTGGCTCACTGCAGCCCAACCTTCTGGGCTCAAGCGATACTCCTCCCTTAGCCTCCTGAGTAGCTGAGACTACAGGCATGCACCACCAT
GCCTGGCTAATTTTTTATTTTTTGTAGAGATGAGGTCTCACTATGTTGCACTGGGTGGTCTTGAACTCCTGGCTCAAGAGATCCACCTGCCTCAGCCTCC
CAAAGTGCTGGGATTATAGGCGTGAGCCACTGTACCCAGACTTATTTTGATTCTTTACCACAAGTTGTTTCCTACACCTAATTTTTCTTTTTTTTTTTTT
TTGTGAGATGTAGCCTTGCTCCATCGTCCAGGCTGGATTGCAGTGGCACGATCACAGCTCACTGCAACCTCTGCCTCCGGGGTTCAAGTGATTCTTGTGC
CTCAGCCTCCTGAGTAGTAGGGATTACAGGCATGCACCATCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGACAGACT
GGTCCTGAACTCATGGCCTCAAGTGATGTGCCCACCTCAGCCTCCCAAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACACAACCCTTATGCCTAATT
TTYTTTTGAGACAGAGTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGGCATTCTCCTG
CCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCACCACCATACCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGG
ATGGTCTAGATCTCCTGACCTTGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGACCCCTTATGACTAATT
TTCAACCCAAACATAGCCAGCTCATTTTCACCTCCTTGTTTTCACATAGTTCATTACTCATCTGGTCAGTCAGTATTTATTAAGGGTCCAGAATAATATG
CATTCCCTGTCCTCATGGAGCTTTGGCCTAATATAGGGAAGGAAGTCTTGTTTATAACTAAGTGCAGCAAAATGTTACTAATGCTACCCATTCATCCAAT
AAACATTGAGTGCCTGGCAGTGTTCTGGGCACTAGGAATGGTTTACTCAATGAAACAGACAACAGCCTGGGCAACATAGCGAAACTCTGTCTCTACAAAA
AATACAAAAAAAAATTAGCCAGGCGTGGTGGCACGAGCCTGTAGTCCCAGCTACTTGGGAGGCTGAAATGGGAGAATCGCTTGAGCCTGGGAGGCAGAGG
TTGCAGTGAGCCAAGATCGCGCCACTGCATTATAGCCTGGGCAACAGAGAGAGACCCTGTCTCCAAAAATGAAAACAAAAACAGAAAAAAAGGCCAGGTG
CGGTGCGGTGGCCCATGCCCGTAATCCCAGCACTTTGGGAGGCTGACGTGGGCGAATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGTCAACATGGTA
AAACCCCGTCTCTATTAAAAATACAAAAATTAGCGGGGCATGATGGTGGGTACCTGTAATCCCAGCTACCCAGGAGGCTGAGGCAGGAGAATCACTTGAA
CCCGGGAGGCAGAGGTTGCAGTGAACCAAGATTGCACCACTGCACTCCAGCCTGAGCGACAGAGTGAGGACTCCATCTCAAAAAAGAAAAAGAAAAAGGG
CCAGGCATGGTGGCTCATGCCTGTAATCCCCACACTTTGGGAGGCCAAGGCAGGAGGATCACCTGATATCAGGAGTTCGAGATCAGCATGTGGAACATAG
TGAAACCCTGTCTCTACTAAAAATATAAAAATTAACTGGGCATGATGGCGTGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTG
AACCCCGGAGGCAGAGGTTACAGTGAGCCGAGGTCCTGCTACAGCACTCCACCCTGGGGGACGAAGCGAGACTCTTGTCTCRGAACAAAAAAAAAAAACA
GAAAAAGAAGGGAACAGACAAAAGTCCCTGTCTTAGTGGTGGAGCTTATATTCTAGCTGGAGAGACAAACAAACATAATAAACAATATGGTTAATAAGTG
CTCTGGAAAAATGAGAGCAAGTAAGGGTTTGGGAGTACTCAAGTAAGGTGGGGATGGGAGTATGTGGGATTGCAGGTTGAAAGGGGATCATCACTGAGAA
AGTGTCATTTGAGCAATAACTGAAAGGAAGTAAGAGTAAAAACTGGCCGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGCG
CGGATCACGAGGTCAGGAGATCTAGACCATCCTGGCTAACATGGTGAAACCCTGTCTCCACTAAAAAAAATACAAAAAAATTAGCTGGGTGCCTGTAGTC
CCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGACA
GAGCGAGACTCCATCTCAAAAAAAAAGAATAAAAACCAAGGCTGGGCGTGGTGACTTACATCTGCAATCCTAGTACTTAGGGAGGCCGAGGTGGGTGGAT
CACTTGAGCCCAGGAGTTCGAGACTAGCCTAGGCAACATGGTGAAACCCCATCTCTACAAAAAACACWAAAATTAGCCAGGTGTAGTGGCACGCACCTGT
GGTCCCAGCTACTTGGGGGTCTGAGGCAGGAGGATTGCTTAAGCCCAGGAGGTCGAAGCTGCAGTGAGCCGAGATGGTACCACTGCACTGCAGCCTGGGT
AACAACGTGAGACTGTCTCAAAACAAACAAACAAAAAAAAAGAGTAAGAGCCAAGAAATATCTGGAGAGAGAGCATCCCAGACAGAAGGTACCACCAGTG
TATGGCCGTGAGGTGGGAGTGTGCCTGAAAGAGCAAATTGGCTGTGTCCAGAGCAGCATGAGTCAGCRGAGGAGTATGGTAGGAGATGAGACCAGAGAGG
TAATGCRGAGGAGGGGCMTTATAGGCTACTGCAAAGACTGGCTTTTATTTTAAGTAAAAAATAAGATCAGGCCAGGGGTGGCGACTCACACCTGTAATCC
CAGCACTTTGGGAGGCCGAGGTAGGTGGATCACCTGAGGTCTCTACTGAAAATACCAAAATTAGCTGGGTGTGATGGCAGGTGCCTGTAATCCCAGCTGT
TTGGGAGTYTGAGGCAGGAGAATCACTAGAACCGGGAGGCGGAGGTTGCAGTGAGCYGCTGAAATTGTACCACTGCACTCCTGCCTGGGCGACAGAGCAA
GACTCCTTCTTAAAAAAAAAAAAAAAAAAAAATAGCGCCAGGTGTGGTATCTCATTCCTGTAATCCCAGCATTTTGGGAGGCCCAGGCAGGTGGATCACA
AGGTCAGGAGTTCGAGACCAGCCTGGCCATATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGCGGGCACCTGTAGCCCCA
GCTACTTGGGAGGCTGAGATAGAAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCACTACTGCACTCCAGCCTGGATAACAGAA
CGAGACTCCATCAAAGAAAAAAGAAAAAGATCATTTTGGCTGTGATCTTGATTTTTTCCTTTTTAACAAGATCACTTTGGCTGTTAAGAACAGGCAATAG
CCGGGCACAGTGGCTCACACCTGTAATCCTAGCACTTTGGGAGGCCGAGGCAGGTGGATTGCCTGAGGACTTCAAGACCAGTCTGGCTAACATGGTGAAA
CCCCATCTCTACTAAAAATAGAAAAAAAAATTAGCCAGGTGTGGTGGTGCTCGCCTGTAATCCCAGCTACTCGGGAGACTGAGGCAGGGGAATTGCTTGA
ATCAGGGAGGTAGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTGCACTCTAGCCTGGTGACAGAGTAAGACCCCATATCAAAAAAAAAAAAAAAAT
GGAAACGGCAATAAGGGAGCCAGAGTAGAAGCAAGTAGACTAATTAGGCAGCAACAATCCTGGCGAAAAATGGTGGTGGCTCAGACCAAGGTGGTAGCAG
TAGTGATGGTAAAGAGTGGTCAAATTTTAAATATTTTGAAGGTAAAGCAAGTAAGATTTCCTGACAGATTGTATGTGGAGAAAGAGGACTTTAGGACAAT
GCCAAAGCCTGAGCAGCTGGAAGAATGAAGTTGCTTTAACTGAGATGGTAGGTAGACCAGCTTTGGGGGAAATACTAGGAGTACATTTTTAATATGTTAA
TTGGAGATGTCTGTGATATGTCCAGGTTTGAGYAGACAGTTGGATACTTCCCTGGAGATCAGGGAGGAGGTTTGGGGAGGAGAGTTTTCAGCATACATCT
GGTATCTAAAGCCAACAGACAGGATGCGATCACCATAGAAAGATTATAGATAGAGAAGCTGCCCCTTTGGGCCCTCTTTAAGAAGTGAGGACCCCCAACT
GGCTGCTCTGAAAAGCCATCTTTGCATTGTTCCTGGTTCGGTGTCCTGCTCACCACAGCCACCTCCGCCATGCACTTCCTCTGCTGCCTCAGAGTCTGGC
AGCTTAATCGACATAGTCCCCAAACTCTCACTTTCTTCTTAATCCCTTGCATCGGATCACCGCTGTGCCCCACCATGTCAGAGGCAGTTGTGGACACAAG
CTCCGTGATCACCACCAAGGACTTCAAGGAGAAGTTGTGGAGGAGGCAGAAAGTGGAAGAGACGCCCATGCTAACGGGAACGCTAATGAGGAAAATGGGG
AGCAGGAGGCTGACAACGAGGTAGATGAAGAAGAGGAACAGGGTGGGGAGAAAGAGGAGAAGGAAGAGGAAGGTGATGGTGAAGAAAAGAACGGAGATGA
AAACGAAGCAGCTGAGGCGGTATGGACAAATGGGCAGCTGATGATGATGAAGATGACGATGTTGATACCAAGCAGCAGAAGGCCAGTGAGGATGATTAGA
CAGCAAAAAAAGAAAAGTTAAACTTTAAATTAAGGCCACCGTGACCTATTCACCCTCCACTTCCCATCTCAGAATCTAAACATGGTYGCCCTCGAGAGGC
CTGCTTGCCCTCCACAGACAGTGCCACTGCAGATGACAGGCACTCACCACCACCCAACCCAAACCAGAGAATTTGCAACAGAGGAGGAAAAAAGAACCAA
AACTTCCAAGGTCTTGCTCTTTTAAAAGTACTTTAAAAAGGAAGTTTGTTTGTATTTTTTATTTACATTTTATATTTTTGTACATATTGTTAGGGTCATT
TTTTTTTTCTTTGAGACGGAGTCTAGCTCTGTCGCCAGGCTCAAGTGCAGTGGTGCSATCTTGGCTCACCGCAAGCTCCACCTCCTGGGTTCAAGTGATT
CTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCCGCCACCACACCCAGCTAATTTTTGTATTTTTAGCAGAGACAGGCTTTCACCAGGTTGG
CCAGGATGGTTTCTATCTCCTGACCTTGTGATCCACCTACCTCGGCCTCCCAAAGTGCTCGAATTACAGGCGTGAGCCACCGGCGCCCAGCCAGGTTCAG
TCATTTTTAATGATCTCAGATGACCAAGCCAGCCTTTGGAGGGTTCTCTGTCTTACTTCTGACTTTACTTGTGGTGTGATCATATTCATTATAATCTCAA
AGGAGGAAAAAAAAAAAAAAAAAAACCTTGTTTAAAAAAAAAAAAAAAGCCTGGGCGCGGTGGCTCGCGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
TGGGTGGATCACGAGGTCAGAAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCCTGTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGCGG
GAGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCA
GCCTGGGCAACAGAGCGAGACTACATCTCAAAAACAACAACAACAACAAAAAGTCTCGTTCTGAGCATTCCAGTAGCTTCTTTAGTGTATGTAGTTAGTT
GTACCATAAGTAGTTGGTTTGTGTGAGATGGTTAAAAAGGCCAAAGATAAAATGTTTCATTTATTTGCCTTTTTTGTCTATGAAATGGCTGCTTATTTAT
TTAGGCCTATTTGATGTATGTGTGAAACAATATTGTGCAACAATAAACCCAAATTTTATTTTGCTGAGTTGTTCTAACAGCAACAAAAAGAAGTTAAGGA
AGAGAAGAAGACCAGCAAATGCAACCACAGAGTGACTAGTGAAGTAGATGAAAACTGAGGCCGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGG
GAGGCCGAGTCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAACATGGTGAAACCCCATCTCTACAAAAAATACAAAATTAGCCAGGCGAGGTGGCT
CATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGACAATCACTTGAATCTGGGAGGTGGAGGTTGCAGTAAGCCGAGATCATGCCATTGCACTCC
AGCCTGGGCAACAAAGCGAAACTCCATCTCAAAAAAAAAAAAAAAGAAAAGAAAACTGAAAAGTAAGGTGACCTCAAAGGCCACTGAAGAAAGTGTTTCC
AGGAGGAAGGAATGGTTTACTTGGTCAAATGCTGCTGATCAAGGAGCAAAGAGGTCTGAGAAGTTACCATTGGATTTATCTGCGTTAGGCCATTGGTGAT
CTTAATGAGCAGTTTTGGTGCAGCGGTGTTTGGAAGCCTGGATGCAGTGGGTCTTGTAGACTGAGAAGCTAGGAACACAGCAAGAATAAGCTACTCTTTT
AAATCCTGCTTTAATGGGAATAGAAATAGAGCAAGAGCTGGAGAGTGAAGTGGATCAAAAGAGTTGATCTTTTGCAGATGGGAGAACAAATAGCATTAGA
ATGATTCAGTAGAGAGAAAATATTATTATGTCAGAGAAAGTGGGGAGAACTGTTGAAGTGATGTCATTGAATGGGCGGCGGGGGCGTTGAGATTTGGTTG
ACAAGTTAGCCTTGGATAGGAACATGGACAGTTAATCCAYTGTAACATGATTTGATAGATGTGATTACAGAGGAGGCATAAGGACATGGATTTGAGTGCT
ATCTTGGGCTGGGGGTTGGGTAAAGAAAGATGACATGTCTAATCTTGAAAGGCAAGTGTTTGTCAGGTGGACAAAAGGCTAAAGTGCATTTCATGTAGAG
GAACAGGCATGAGCAAAGGCAGAAAGGTATTAAACCACCTTTCAGGCCAGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTAGG
CGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTAAAACCCCGTCTCTACTAAAAATACAAAAAAAATTAGCTGGGCGTGGTGGCAGGC
GCCTGTAGTCCCAGCTAATCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCCAGATCATGCCACTGCACTCCAGC
CTGGGCGACAGAGCAAGACACTGTCTCAAAAAAAATAAATAAATAAATAAAAATAAACCACCTTTCAGGACACTACAAGCAGTGTGGTGTGGTTGGAGTG
CTGGGCATGTGCTTGTTGGGGGGTGGGGGTGATGAGGATGGGCTGGTAGACATTACAACAAGGTCAAGGCAAGGGATAGGCAGGGTCTTCCTACAGTATA
TTTTTCCATTAAGAGGCAACAGAGAGCAGTGGAAGGAGCACAGTTTTTTTTTGTTTGTTTGTTTGTATTTTGAGATGGAGTCTCAGTCTGTCGCCCAGGC
TGGAGTGCAGTGGCACAATCTCAGCTCACTGGAACCTCTGCCTCCTGAGTCCAAGCAATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGATTAGAGGCGC
CCACCACCACACCTGGCTAATTTTTGTGTTGATGAGGTTTCACCATGTTGGCCAGACGTCTCGAACTTCTGACCTCAAGTGATCCGCCCACCTCGGTCTC
CCAAAGTGCTACGATTACAGCCGTGAGCCACCATACCCGGTCCTGGAGCACAGTATTCGATATGAAACACATTACCCAGTTAACATGTAAGGCCAGAGCA
GTATAGAGTGTAAATAATAATTCACATTTCATGGGCTCTATGTGGTATCTATATGCATCATCTCAGTGGATTCTTGCACATCTTTTTGAGGTAGGTACTA
TTATTAAACCTATTTTGGGTTTATACAAATTAATGACTTAACCAAATTCACACAGCCAGTAAATAGTAGAGTCCACATTTGAACCCATAGCCATTTGCAC
CCAGTGAACTTTTTTTTTTTTTTTCTTTTTGAGGCAAGGTCTTGCTCTGTTGCCTAGGCTGGAGTGCAGTGGCACGATCACGGCTCACTGCAGTCTCTAC
CTCCTAGGCTCAAGAGATCTTCCCTACCAGCCTGGCCAACATGGCGAAACCCCATCTCTATTAAAAATACAAAAATAAGCCGGGCGTGGTGGCATGTGCC
TGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAAGAGCTTGAACCTGGGAGGTGGAAGTTGCAGGGAGCCGAGATGACACCATTGCACTCCAGCATG
GGCAACAGAGTGAGATTCCATGTTAAAAAAAAAAAAAGGCCGGACGCATTGGCTCGCGCCTGTAACCCCAGCACTTTGGAAGGCCAAGGCGGGCGGATCA
CGAGGTCAAGAGATCAAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTGAAAATACAAAAATTAGCTGGGCATGGTGGCGCATGCCTGTAGTC
CCAGCTGCTCCGGAGGCTGAGGCAGGAGAATCGCTTGAACTCAGGAGGTGGAGGTTGCAGTGAGCTGAGATCTTGCCACTGAAGTCCAGCCTGGCAACAG
AGCGAGACTCCATCTCAAAAAAGATCTTCCCACCTCAACCTCCCAAGTAGTTGGGACTACAGGCGCCCACCACTATGGCTGGCTGATTTTTTGTATTTTT
AGTAGAGACGGGGTTTCACCGTGTTAGCCAGGGTGGTCTCGATCTCCTGACCTCGTGATCGGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCTT
GAGCCACTGGGCCCGGCCCACGCCTGGCTAATTTTTAAAAATATTTTTGTAGAGATGAGGTCTTGCTATATTGCCCAGGCTGGTCTTGAACTCCTGGGCT
CAAGCTATCCACATGAGCCACCATGCCCAGCCCCCATTAAACTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGAAGTACAGTGGTGCAAT
CTCAGCTCACTACAGCCTCTCCCTCCTGGGGTCAATGGATTCTCCTGCCTCAGCCTCCTGAGTAGCTAGGATTACAGGCGCACGTCACCACACCCAGCTA
ATTTTTGTATTTTTAGTAGAGACAGGGTCTCGAACTCCTGACCTCAAGTGATCCACCCGCCTTGGCCTCCCAAATTGTTGGGATTACAGGCGTGATCCAC
CACGCCTGGCCCCCGAGTTTTTTTTTTTTTTTTGAGACGGAGTCTCTCTCTGTCGCCCAGGCTGRAGTGCAGTGTTGCCATCTCGGCTCACTGCAAGCTC
TCCTCTTGAGTAAACTCTTAATGGCTACACTATTTTCCTGGCTAAAACACTGCAGCTGGAATCAGAAGTCTGAAAGTTGAGGCCCAGCCCTGCCACTTGT
AGCTACTTGGCATTGGCCAAGCGAAGCCATGTCTCCAAGGCTGTATTTCCCCCAACCTTCTTTCAAATAGTGACTTCCAGGATTGTGAAGGCCAAATTAA
ATGTGAAAATATAATGAAGTAACTCTAAAATTAATAGTTACTAGTTATCAAAGTAGCATCCTGGCCTCCAGCATGTCTTCCCCTGACTTTCCCCACCCCT
TGGAACCCTGCTGAATTTTTTATTTATTTATTTATCCTTTGAGACGGAGTCTCATTSTCTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCRGCTCACTG
CAACCTCCGCCTCCTGGGTTCAAGCGACTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAGGTGCACACTGCCATGCCTGGCTAATTTTTTGTATT
TATAATAGACACAGGGTTTCACCATCTTGGCCAGACCGGTCTTGAACTCCTGACCTCAAGTGATGCCTGCCACAGCCTCCCAAAGTGCTGGGATTACAGG
TGTGAGCCACTGAACCTGGACTTTAGCACCTTTTTATGTGCTTATTGGCCATTTGTGTATCTTCTTTAGAGAAAAGTTTATACAAGTCCTTTGTCTGTTC
TTAAATTGTGTTCTTTTTTGTTCTGAGAGTTTTTCATATATTCTAGATAGAACGCACTTATCAGATGTATGACTTGCAAACATTTTCTCCCATTCTGTAG
ATTGTCTTTTCACTTTCTTTCTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCCATCGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAG
CTCTGCCTCCCGGGTTCACGCCATTCTGCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACRTCCGGCTAATTTTTTTGTATTTTT
AGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCYGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGT
GAGCCACCGCACCTGACCTTTACTGTACCTTTTCTGTGTTGAGGTATGTTTAGATACATCAGCTGAACCATTATGTTAGAATTGCCTACAGCTGGCTGAG
CATGGTGGCTCACGTCTATAATCCCAGGACTTTTGGAGGCTGAGGCAGAAGGATCACATGAGCCCTGGAGTTTGAGACTGGCCTGGGCATCATAGTGAGA
CCCCCATCTCTACAAAAAGTTAAAAAAAAATTAGTAGCCAGATGTGGTGGCATGCACCTGTGGTCCTAGCTACTTGGGAGGCTGAGGTGGGAGGATCATT
TAAGCCCAGGTTGATGCTGCAGTGAGCTGTGATGGCACCACTGCACTCCAGCCTAGGCAACAGAGCGAGACTCTGCCTCTCAAAAAAAAAAAAAAATTGC
CTACAGCATTCAGTACAGTAACATGCTGTACAGGTTTGTAGCCTAGGAGCAATAGGCTGTATGATATAGTCTGGGTGTGTTGTAGGCTATAGTGTCTAGG
TTTGTGTAAGTACACTCTGTGATGTTCACACAATGAAATCACCCAATGACGTATTTCTCAGAATGTATCCCCATCGTTAAGTGATGCATGATTGTATTTT
GTTTGTTTCATCTTCCAGGTGAACAACTTTGTGATCTTTGAAGGCTTCTTTGCCCATCAACATCGTAAGTTTTTGCATTTTGTTGGTCACGTAGTCGGGG
TGAGGGAAAGGAAAGAGCTGGACTCTTGGTCCTGCCGRCCCCTCACTGAGGGGCCCCGCCGCTTCCTTCCTCACAGGGCCCCCTGCTCCCTCTCTGAGGG
CAACTCGACACTCTCGTGCTGCTGCAGTCGATCCCACGCCCGCTGGTAAAGCCTGTATTGAAGGGGTGGAACTGTAGTGCAGTGATGGCTACTTACTCTA
GATGCCACGGGGTACAGTGCCATCTGTGGGCAATTTTGGAAAATTCTAAAGCAACCCAAGTCTCCAGCAGTCATGACTGTTTGCCTTTGCCCTCATGGGA
GCTCAGTGCATTTTATATTTGGCAAGACTTTTAACTAAGCAAGCTCATTGGGAGCCTGTTTGACAGCTGATATCAATGGACCCTCTTGCCAGTTCAGGTC
CGTCAACATAGGCCAGAGTCAGGCTCCTTTGTAAACCCCASGCTTCTGTTAGCCAGTGAGGGACAGGCTGGTGCAAACAGCCCTTCCATTTGCAGTCACA
GAATAGTGACACAAATGGCCCAAAATTTAAATGTTACTTTTAGAAGATAACACTCAGAGTTTATAACATTTCCAACCAGATAATGAAATTGATATGGAGA
AACCAAACCTCAGAGGCACTAAAATGCTGTCCAGATTCCCCATCCCATATACACACACACACACACACACACACACACAAACACACTTACTGACAGTCTG
AGCCCCACTCCTTCCTCTTCCTCACCACCTCCACCTTACCAACTTCTGACAGCTGTACAGTGCTTGCTTGCACAGAAGAGCCCCCTTCCTGAGCTGGCTC
TGTGGCCAGGAAAGGATGTAACCACCATCCAAACAGCAGTCTGTAACCAGCTATGAGCATCACAGTGTCAGGCACTGAGAGGCACCTCAACTCGCTTTGG
TTTCCAAGGCTTCTCCCATTTAGCTTGTTCAGAACCACAGGCTGTGAGAGGGACTGAGGGCCAACAAGGATGGTGAGGTCTCAGGCCTGCAGGGGAGGGT
GCTGTGGATAAAGCTTAAGTGAATTTGCTGAGAAGTCTTTCATTTGCCACACATACATGATGGAGAATCTCTTGAGAGGGAAAGCCGGGAGCAAGTAGAG
AAGTGAGGAGGGGGAGGCTGAACTTTGGACATTACATCAGCCTCCTGCTTACTCTGATAGCTCCCTTTCAGATGCCCATATTTATTTTCTTTTTTTTTTT
TAACCTAATAAAACTTCAGTCTCTTCCCATTTTCGTATAGGAAGGAGAGATTGTGCCCTCCTTCCAAACCTCCCCTGACCTCTCCAGAGCAATTCCTGAT
TAACCAAGGGCTTTGTCCATCTCATCCAGAGGAACCCAGGGTCCTCGTTGGCCCGGCTGGGACCATTCCACTGCCCCAGAATACCAGGGGGCCRTGACAG
CACCCACTGACAGTAAGAGCTCACTYCCCTTGGCTGCCCTTCTCCTGCATCTCCCAGGCCCCCAGAGTCTCCCCTTCGATCTTTCTCCCTAGCTCTGTGT
TTGGCCTACTCCTTCTGGCTTTCCTCAACAGTGTTCCACATTCCCCTCAAATTCCCTTTTGGTGTGCTGGCATTGCCATGGTGCTGCTCCTGCAAGTTCT
CAGGAGGAACTGTGGTGTCAGGGAGCAGARGTTTGGGGTTGGGGTATAGTGGCTGGGAGGAGGGGTGCAAAGTATGTCTCCTAACGCTTACCCTGCCTAT
GTCCCCTCCACTGCCAGCTCCAGCAAGGAAGCTGCCACCCAAGAGAGCAGAGGGAGACATCAAGCCATACTCCTCTAGTGACCGAGAATGTAAGAGGGGC
AAGGGTSGGGTGTCTGGGCCTGGGGTACCTTAACACAAGGGAAGAGAATGCTCAGGGGACCCAGGGAAAGGATTCGTTCTCTCTAAAGACTCAGATTTCT
TGGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGGCTAAGGCAGGCAGATCGCCTGAGTCCAGGGGTTCAAGACCAGCCTGGCCAAC
ATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCACGGTGGCACGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGG
CTTGAACCCAGGAGGCGGAAGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCTTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAGAAAAAAAAA
AAAAAGAAAGACTCAGATTTCTCTTTTTTTCTACCAAAACCTTTGCTGTCATGACTCTCTTCCKTTTTTCTTCTTTTTCTGTCTTGCTCTTCATTCTCCC
TGTCCCCAGTTCTGAAGGTAGCTGTGGAGCCTCCTTGGCCCCTAAACAGGGCCCCTCGCCGCGCCACACCTCCAGCCCACCCACCCCCCCGCTCCAGCAG
CCTGGGAAACTCACCAGAACGAGGTCCCCTCCGCCCCTTTGTGCCAGAGCAGGAGCTGCTGCGTTCCTTGCGCCTCTGCCCCCCACACCCTACCGCCCGC
CTTCTGTTGGCTGCTGACCCTGGGGGCAGCCCAGCTCAACGTCGTCGCACCAGGTAATAGGAGTTGAAGGGCTAAGGAGCCTCACAGCTATAAAAGAGGA
TGTTAGAAATGGCAAAGGGCAATTTGAATCCATCAGAGAGATGGATCAATAAGATGGGTGGCTTGGGGGGGGTCCTGAAACCTTTCAAGAAAAATATTTG
TGCAAGTGATCTGGGAAAAAAATGCAGTGAAGGAGCAGAATAGGACCTTATATGGAGCCTAGGGACCCTGGCTTTAATGTGAGAGTTATGTGGAATGGTA
GGAAGAACACCGAGATCCATCGAGTTGGGGGAACAGAGCCTTCTAAGATTGGGAAAATCTTCGCTTAATACTTGCTGGGGAAGGGGCAGTGTCTGACAGA
GAGTGGGAAGCCACTGGCTTGTGTGCCAAGAGTCCATCGCAGCAGGCAGGGAGTGGGCATTTCCTTTATTTCTCTCCCTTTCTCTTCACCTCTGACTTCT
CTGTTTTTCTCTCCCCYGCCCCCCGCCATTTCCCATCTCCCTTCCTCCCATCCATAACATCCTTCCACAGCTCCCTTCCCCGCTCTGAGGAGAGTCGATA
CTAACAGCTACCCTMTCCCTGCCCTGGGAGACCTGGGGTGGGCAGGGAACCCCTCCCTGAGAACCTCAGACCCACTCTTCCATTGCATCCTGTAGGACCC
AGTGGAACCTGACAGAGCCCATAGGATTCCCTCTTCTACTTTCTTAGACAGCAGGGATGTCAGGGTCTCAAACTGCCTAACACTTTGTAGCTTTTCTTAA
CACAAAAGCACCCCTTCTCTCCTAACTTGGGCTCTGAATACTTTCCCAACAGGAAGTCTGATCTGTTGCCAGACTTCTTRGTTAGATGGCTCATACATTT
ATCTAGAGAAGCACACTCTTGCTTGCTGTCAAACTTTAGAMCACCATGGAAGGTCTAAGGGCATCCTGTGCCAGGGAAACTTTTTAAGGAATTTTATCTA
TGGGATAAACCCCATATTCCCTCTAGTGTCTACTGGTGGCTCTAATACTGCTTTGTGCTGCCTGCCACACTTGCCCTTTGAGCCTGCGAATGGCCGCTAG
TGAGCAAGCTCTGCTTCAGAGCAGTCTAGTTAGGTAGAACAGGGACTTACCAGCTTCCCAAAGGGATCTACTCACCATTGCCAAACTCTTCATTTCCACA
TTTTGTGTAGGTGTCAGGGAACCCCAAACTGGYGTTGCTTTGGGGTCTCTAAAGGAGATTGGCTGACACCACCATTTCCCCCAGATCCAGATTCTCTGAG
GGAGGTTGTTTCTTGAGAGTAGATCCAGAGTGTCAAGGATCTGTTAGATCCTGGAATCCCTTCTTGCATCCATCCCTCCCTGGTAGCTAGGTCCCGATAT
ACTCCTGTCTTGTGAGATTGTCGAGATGAGATGGGGGACCACTCTTCCTCTGTCCTTCCTCTCTCCTTTCCTCCATAGCAAGGACGACCTTCCCTGCTCC
ATGCCCAGAGTATAGCTAGATCCCTTCCCCTCCCTACCCTCTGAATGTGTGCTAGATCAGGTGCCCCACTGTGTTTCCTGAAATCCTTGGGAGCCGGATC
TCCCCATCTCCCCTACTCACTCTTCCCTTTTCTTCTCTCAGTGTTGTCTGAATAAAGTGTGAAATCTTTTGTGTTTTCTAAATTGACATTTTCAATGAAA
AAAAGAATCACAAAAAAAAAAGTTGTCAGCCTCATTTGTGCGTCATCCCTTATTTTCCTGGGATCTCAGGACCTCTGTCCCTCTCATTTCTCACTTCTGA
GATCTGCACATCTTTTACCCAGGAGCCTCAGAGCTCCTGAGTCTGGTGTCTGCCTATCCCCATCTTCACTGTTAGTCCTCCTGCAGATTCTGTGTCTCCT
TTCATGTAGGTGCTGGATCCCTGTGTGTGGGCTTCCGTATCTACTCCCTCATTCCCTCCAGGAACCTCCAGCTCTCCCCAGTGACTTCTACCCTTTACTC
TGGGCGTGCCTTTGCCAAGATGTCAAAGCTTACCAACATCTCTGGATCCACTAATTACCTCCTGCCTCCTGTATTCGTCTTCCCACTCTGATTACCTGAC
GTCTGCTCCACTAAACCGCTGGATCTCTCTCAAGACAAACCCTTACCTCCATTGAGAGTGCAACACAGTCTGTCACCCTATTTACAGAGGCCCCCTTCCT
TTTCCTCCTAAATTCAAAATTCAGCCTTGTCACTTCCTATTTCCCTCTGGTCTAAGGAATCTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCC
AGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCCAAGTAGCTGGGATTACAG
AAGTGCACCACCGTGCCCAGCTAGTTTGTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGTTGGTCTCGATCTCCTGATCACGTGATCTGC
CCGTCTTGGCCTCCCAAAGTGCTGGGATTACAAGCCTGAGCCACCGCGCCCAGCCTGGTCTAAGGAATCTTATAGTTAAGGTAACCCTGTTTTCCAAACC
AAACACCAGAGTACCCGATCCAACACATTTTTGACCACATGTGAGTCTGTTCTTCTGACATGATTTGGATCACACCTAGCCATAGATTTAACACATTACC
TCAACTAGAAAGAATAGAGCAATAAATCAGAAGCACTCCAGAAAATCTTGGGTATAAAATGAACTTCCCCCGCCCTTTTCTGGGGCACAGCTTTGATTAA
AACCTGTTAGGAATGATAATTACCCCCTTCTCTTTGTTCCTGTGCTATTCCTTTTACTCCTCTCCTCTGATTCCTCCATACCCACCCATCTTTCATCCAG
TAGCCTCCTCCCCATCATCTCCCATTTCTTCTACAGGGGGACTCCCCCAGGTCTGGTAGCCCAAAGCTGCTGCTACAGCCGCCATGGGGGGGTGAATTCC
TCATCCCCCAATACAGGTAAGTATTCACTCCTCCCTACCCTCAAATCAAGTAGGCCACATTCACTGTCTACTCCTGCCTTCCCATTCACATGCCTGATAT
TTCCACAGGCAACCAAGACTCCAAGCAGGGAGAACAGGAAACAAAGAATAGGTGAGGTCTAAACCCCTCCCCTAACAGCCTCCCACCACCATCTGACTCC
CTTCCTAACATCATTCTCAGTCACTTCCTACTCTTAAATCTTATTGTATGAACTGGACACCAGCTCCTCCCACAATTCCTTCTACCTTACATCCTGCAAG
CCCCTTTCCCCCACAGGTTCAACTCTGGTACTTCCCTTTGGAATACGGATTCTCTGAGAGGTTTTAAATTTGGACATAGCACTAATGGTTCCAGCTTCAT
ACCCATCATGTGTCCTACATTAAAACCTGGCCCGAGACCTTGAAGAGTCTGTAATCTTAATTTCCTCTTTAGTATTCCTATAACCCACTCTCCATCTCCC
CACCTACCAGGTCTGCCAGTGAGGAGCAGGCCTTGTCACAGGATGGGTCTGGGGAGAAGCCCATGCACACAGCTCCTCCACAGGCCCCGGCCCCGCCAGC
CCAGTCCTGGACAGTGGGTGGGGACATACTCAACGCCAGGTTCATTCGAAACCTGCAGGAACGTCGCAGCACCAGGCCTTGGTGACCGCAGCCCCGTCAA
ACATCTTCAAAGTATTATTTCTCCCTCACTACAGGAAAGAGCCAAAGCCCAACCCTCATAATAGATGGATACATTCATTCATTCATTCATTCAGCAGGCT
TATCAGATTCAAGTCATTTGTATCTTTTAACCAGACCAATAAAAGTATTTATTTTTATCACAAGAGCTGTTGAAAAATTTGACTCATTATTTCAGCCGCC
TCACCCCTCACTGTCGTTGCACCCATTCAGCCTTCAGCCCTGTTTTTGCTCAGCTTTTTGCTCAAAGGCCTCAGCTGTGAATACAGCGCTTGGGGGGGCG
GGGGAGGCTGTAACTTGCGCAAGCGCACTCAGGCAGTCTCCGAGCCCGCGGGCGCAGGCGCGCTTACAGCCGACAGAGCGCTTCAGCCGCTTCCCTCGAG
CCTGCAGTGCGCAAGCGCGGGACATCTCCGTTTCCCTCCCTCAGCCCCTTCCCCCCCTACCCCCCCGCCCCGGCCTCCTTTCCCCTTCACGAAGCCGGCT
CTGGGGCGCGCTCACCCCTGTGAGGAGGCCGGAGGTCGGACTCAGGAGGCTCCTTCTCCACTCCCGGAAGATCATGTACCAGCCCAGCCGGGGTGCGGCC
CGGCGTCTCGGCCCTTGCCTGCGCGCCTACCAGGCTCGACCCCAGGTGAGCGGAGGAGAAGAGGGAGGGAGGAGAGGGGGCGGGGAGAGACCCTCCTCAA
AGCCGGTGCGTGGGGCGGAGCGCGCGCTGGGTTCCGCGCAGGCGCAGAGACACCCGCCGCCCCTTCCCACCTGTGCCCTGCAGCGCGTGGACAGGCTAGG
GGTCGCGGGAGCGGGAGGGAGGCGCTGCCGGGCCTGTCGCGCAAGGACGTCGGTCCTCCCAGGTTTGAGGGCGGTCAGGCGGGGTCAAGGCCAGGCAGCG
GGGCGCGTCTGCGTTGCGCCCGACTCTCCGCGGTTACCTGTGCCTAGAGGTGATTTGAAGGGCAGGGGCCGAGAGATTCGTAGCCCTGCTGCGGCGCCGT
CCCGGAGTTCCCCGGCCCAGACCAGACCCGCGGGGCGCCCTCAGCAGCCCGCCCGTCTTGCACTCGGAGAGCGGTCCTGGCAGGAAGGCCGGCCAGTGTG
CACCCGGTTCGGGCCCCTGCGCCCGGGCTGGCAAGATGGCCACGCCCCCAGCAGAGACGGCGCCTCTAGGACACCATCGGGGACCGAGGTACCCGAGCGG
TCCGCCCGCCTTCCCTGCAGTGAGACGATCCCCTGGGGGGTTCCTTGGGAGCGGAGGGACTCGGGTGAGGCCTAACTTTGGGTGACCTCCCCTTGCAGTT
TCAACGTCGGTAAACCCAGGAGAGTGAAGGCCAGCCTTTAACTGTCTCCTGAGGTTGTGTCTGTCATTAGAGGGGCCCGAAATGATAATAGCTTCCATTT
ATGTACTGCTTTCTAGGTCGCTACGTTTTGTTTACATTCATTATTTCATATAGGCCTCATAACCCAGTGAGGCTTTATTGTTCTCATTTATAGGACATTT
GTAGGAAGCGGAGGCATAGGGAATGAGAATGCCTAAAGTTACATGATAGAATTCAGATTCCTAGCTTCAGCTGGATATTCTTTTTTCTCTGTACATTTGC
CTCGCACACTTAATCATGGAGATGTACAGGCCACAGCATTTAATCCACAGTACAATAAAACCTGTTATTCGTTAACTCATCAAGTATGTATTACATGATT
CTTGCGATAAGAGAGGTGAAACTGCCCCCAGTGTTGGAATCTTTTTTTTTTTTTTTTTGAAATGGAGTCTTGCTCCGTCACCCAGGCTGAAGTGCATTGG
CACCATCTCGGCTCACTGCAATCTCCGTCTCCTGGGTTCAAGCAATTCTCCTTCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCTCCCGCCACCACACC
CGGCTAATTGTTTTGTATCTTTAGTAGAGATGGGGTGTCACCATATTGGCCAGGCTGGTCTCGAACTCCTAGACCTCGTGATCCGCCCGCCTCGGCTTCC
CAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCACATTTCTTTAAGATTCCAACACTGGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAG
CACTTTGGGAGGCCGAGGTGGGCGGATTACCTGAGGTCAGGAGTTCGAGAACAGCCTGGCCAACATGGTGAAACCCCATCTGTAACTAAAAATACAAAAA
TTAGCCGGGCGTGGTGAAGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCTTGAACCCAGGAGGCGGCGGTTGCAGTGACCCGA
GTTCGCGCCAATGCACTCCAGCCTGGGCGACGGTGAGACTTCGTCTCAAAAAAAGAAAAAAAAGTAAAATGTCTGCTAGGTTTTGGGAGGTGCCGGTATT
TATGTCACATAAAACAGTTTGCTCGGCTGGGCGCGGTGGCCCACGCCTGTAATCCCAGCACTTTAGGAGGCAGAGGCGGGTGGATCACGAGGTCAAGAGA
TGAAAACCATCCTGGCTAACATGGTGAAATCCTGTCTCTACTAAAAATACAAAAACTAGCTGGGCATGGTGGCGCGCGCCTGTAGTCCCAGCTACTCAGG
AGGCTGAGGCAGGAAAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCTACTGCACTCCAGCCTGGCAACAGAGCGAGACTCCAT
CTCAAAATAAATAATAAAATAAAATGGTTTCCTCCTGTTTTCAGTAGAGATGGAGATGAATCCATCCCTTTTTTCCTATAGTAATTCCATCCATTCTGTC
AGGAGGAATAGGTATTGGAAGCCTGTTGAGCATCCAGGGGATCAAGGGGTGTTAGACAAGTGGATTCTTATCTTTCTCCCTTCTGTTCTTTCTCCTTAGG
ACCAGCTTTATCCAGGGACTCTACCATTCCCACCCCTTTGGCCCCACTCCACGACAACCACTTCCCCATCTTCTCCTCTATTCTGGTCTCCCCTGCCCCC
ACGCCTTCCCACCCAGCGTCTTCCCCAGGTTCCCCCACTACCTCTCCCTCAGATCCAGGCCCTCAGCTCAGCATGGGTGGTTCTCCCTCCAGGAAAGGGG
GAGGAGGGACCAGGACCTGAGTTGCATAGCGGCTGCCTGGATGGGCTTAGAAGCCTTTTTGAGGGACCTCCCTGCCCCTATCCTGGGGCTTGGATACCTT
TCCAAGTCCCTGGAACTGCCCACCCTTCCCCTGCCACCCCGTCAGGAGATCCTAGTATGGAGGAACATCTGTCTGTCATGTATGAGAGACTGAGACAAGA
GGTAAGTCAGTGCAAAAGTGGCCTTCGTCTACAGTGGGAAGGATGTGGGTAATCCTTGGACGTACAGGGATAGTCAACTGGATTCTTTTTTGGAACCATG
AGGCAGGCATAGAAATATATTATAAACATTTTCCTGAGAAAATGATGTTCCAGCCAGGCACGGTGGCTCAAAGTGCTGTAATCCCAGCACTTTGGGAGGC
TTAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAACACAAAAATCAGCCAGGCATGG
TGGCAGACGCCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGCAGTGAAAGGAGATATCTCCATTGTACTCCAG
CCTAGGCAACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAGAAAGAAAATGATGTTCCTCATTTTGGGTTAAGGGAGGTTAATCATGGGATGAGATCT
TTCACTCCAAGATGGGAGTAAGGAGGCCTTAAAAATAGAAAACTGGGCCTGGCACATGGCTCACGCTTATAATCCTAGCACTTTGGGAGGCCGAGGCAGG
CGGATCACAAGGTCAGGAGTTCAAGACCAGCCTGGCCAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGGGTGCC
TGTAATCCCAGCTA


SNP Information

Context             (SEQ ID NO:61195):
TGAGGATGATTAGACAGCAAAAAAAGAAAAGTTAAACTTTAAATTAAGGCCACCGTGACCTATTCACCCTCCACTTCCCATCTCAGAATCTAAACATGGT
Y
GCCCTCGAGAGGCCTGCTTGCCCTCCACAGACAGTGCCACTGCAGATGACAGGCACTCACCACCACCCAACCCAAACCAGAGAATTTGCAACAGAGGAGG
Celera SNP ID:            hCV26545989
SNP Position Genomic:     13187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61196):
CCCGCCCCCCGCCATTTCCCATCTCCCTTCCTCCCATCCATAACATCCTTCCACAGCTCCCTTCCCCGCTCTGAGGAGAGTCGATACTAACAGCTACCCT
M
TCCCTGCCCTGGGAGACCTGGGGTGGGCAGGGAACCCCTCCCTGAGAACCTCAGACCCACTCTTCCATTGCATCCTGTAGGACCCAGTGGAACCTGACAG
Celera SNP ID:            hCV25750921
SNP Position Genomic:     22715
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,4|C,36)   total(A,4|C,74)
SNP Type:                 UTR 3


Context             (SEQ ID NO:61197):
GGTAGAACAGGGACTTACCAGCTTCCCAAAGGGATCTACTCACCATTGCCAAACTCTTCATTTCCACATTTTGTGTAGGTGTCAGGGAACCCCAAACTGG
Y
GTTGCTTTGGGGTCTCTAAAGGAGATTGGCTGACACCACCATTTCCCCCAGATCCAGATTCTCTGAGGGAGGTTGTTTCTTGAGAGTAGATCCAGAGTGT
Celera SNP ID:            hCV15877368
SNP Position Genomic:     23333
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(C,87|T,832)   total(C,87|T,832)
SNP Type:                 UTR 3


Context             (SEQ ID NO:61198):
GCTGGCTGAGCATGGTGGCTCACGTCTATAATCCCAGGACTTTTGGAGGCTGAGGCAGAAGGATCACATGAGCCCTGGAGTTTGAGACTGGCCTGGGCAT
C
ATAGTGAGACCCCCATCTCTACAAAAAGTTAAAAAAAAATTAGTAGCCAGATGTGGTGGCATGCACCTGTGGTCCTAGCTACTTGGGAGGCTGAGGTGGG
Celera SNP ID:            hCV11196663
SNP Position Genomic:     19091
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,10)   total(C,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61199):
GAGGCAGGAGAATTGCTTGAACCCCGGAGGCAGAGGTTACAGTGAGCCGAGGTCCTGCTACAGCACTCCACCCTGGGGGACGAAGCGAGACTCTTGTCTC
R
GAACAAAAAAAAAAAACAGAAAAAGAAGGGAACAGACAAAAGTCCCTGTCTTAGTGGTGGAGCTTATATTCTAGCTGGAGAGACAAACAAACATAATAAA
Celera SNP ID:            hCV16027790
SNP Position Genomic:     10082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61200):
ACACTTTGTAGCTTTTCTTAACACAAAAGCACCCCTTCTCTCCTAACTTGGGCTCTGAATACTTTCCCAACAGGAAGTCTGATCTGTTGCCAGACTTCTT
R
GTTAGATGGCTCATACATTTATCTAGAGAAGCACACTCTTGCTTGCTGTCAAACTTTAGAACACCATGGAAGGTCTAAGGGCATCCTGTGCCAGGGAAAC
Celera SNP ID:            hCV11690694
SNP Position Genomic:     22980
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,35)   total(A,1|G,71)
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,39)   total(A,1|G,71)   
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:61201):
TGAGGCCCCCAGCCCGCCGACCCGGAACCACAACGCCGGCCCGGTGACAGCTCAAACCCACCCTCTGGCCCTTTTCTCCCGGTTCCTCTCCAAACCTGGT
Y
CAGGCACCACGCCCCCTTCTCACTGACTAGTGATCGCCCCTTTTGATGTCCAGGCCTGCCTTTTTGGTGACCTCTGACCCTGGGCCTAGTGGGATTGATC
Celera SNP ID:            hCV27520576
SNP Position Genomic:     6193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61202):
TTTTATTTACATTTTATATTTTTGTACATATTGTTAGGGTCATTTTTTTTTTCTTTGAGACGGAGTCTAGCTCTGTCGCCAGGCTCAAGTGCAGTGGTGC
S
ATCTTGGCTCACCGCAAGCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCCGCCACCACACCCAGC
Celera SNP ID:            hCV26545990
SNP Position Genomic:     13457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61203):
AGTGTTCCACATTCCCCTCAAATTCCCTTTTGGTGTGCTGGCATTGCCATGGTGCTGCTCCTGCAAGTTCTCAGGAGGAACTGTGGTGTCAGGGAGCAGA
R
GTTTGGGGTTGGGGTATAGTGGCTGGGAGGAGGGGTGCAAAGTATGTCTCCTAACGCTTACCCTGCCTATGTCCCCTCCACTGCCAGCTCCAGCAAGGAA
Celera SNP ID:            hCV25750356
SNP Position Genomic:     21230
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:61204):
CTTTCCCAACAGGAAGTCTGATCTGTTGCCAGACTTCTTGGTTAGATGGCTCATACATTTATCTAGAGAAGCACACTCTTGCTTGCTGTCAAACTTTAGA
M
CACCATGGAAGGTCTAAGGGCATCCTGTGCCAGGGAAACTTTTTAAGGAATTTTATCTATGGGATAAACCCCATATTCCCTCTAGTGTCTACTGGTGGCT
Celera SNP ID:            hCV8942040
SNP Position Genomic:     23041
SNP Source:               Applera
Population(Allele,Count): african american(A,25|C,11)   caucasian(A,19|C,17)   total(A,44|C,28)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,675|A,820)   total(C,675|A,820)   no_pop(A,-|C,-)   (C,-|A,-)   no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:61205):
AAAATTAGCTGGGTGTGATGGCAGGTGCCTGTAATCCCAGCTGTTTGGGAGTCTGAGGCAGGAGAATCACTAGAACCGGGAGGCGGAGGTTGCAGTGAGC
Y
GCTGAAATTGTACCACTGCACTCCTGCCTGGGCGACAGAGCAAGACTCCTTCTTAAAAAAAAAAAAAAAAAAAAATAGCGCCAGGTGTGGTATCTCATTC
Celera SNP ID:            hCV16097351
SNP Position Genomic:     11357
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61206):
CCAGAGGAACCCAGGGTCCTCGTTGGCCCGGCTGGGACCATTCCACTGCCCCAGAATACCAGGGGGCCATGACAGCACCCACTGACAGTAAGAGCTCACT
Y
CCCTTGGCTGCCCTTCTCCTGCATCTCCCAGGCCCCCAGAGTCTCCCCTTCGATCTTTCTCCCTAGCTCTGTGTTTGGCCTACTCCTTCTGGCTTTCCTC
Celera SNP ID:            hCV27464301
SNP Position Genomic:     21026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61207):
CAAGGATGCAGAGTAACCGCCATGTTGTTTATATTCTCAAAGACAGTTCAGCCCGACCGTGAGTGCCACATGCTCTTCCATCCCATACTTAATTCCTTCC
Y
TCCTCAGCCCTTCCCCCATCTTTGACTATCTCTTGCAGATAGATACCACTAGCCTGTTCATTATTTTCCCCGTCCTACAGGGCTGGAAAAGGAGCCATTA
Celera SNP ID:            hCV25755499
SNP Position Genomic:     6913
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(C,1|T,37)   total(C,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:61208):
TCCTGAACTCATGGCCTCAAGTGATGTGCCCACCTCAGCCTCCCAAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACACAACCCTTATGCCTAATTTT
Y
TTTTGAGACAGAGTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGGCATTCTCCTGCCT
Celera SNP ID:            hCV26545978
SNP Position Genomic:     8703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61209):
TCCTAGTACTTAGGGAGGCCGAGGTGGGTGGATCACTTGAGCCCAGGAGTTCGAGACTAGCCTAGGCAACATGGTGAAACCCCATCTCTACAAAAAACAC
W
AAAATTAGCCAGGTGTAGTGGCACGCACCTGTGGTCCCAGCTACTTGGGGGTCTGAGGCAGGAGGATTGCTTAAGCCCAGGAGGTCGAAGCTGCAGTGAG
Celera SNP ID:            hCV26545979
SNP Position Genomic:     10768
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,4)      total(A,4|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61210):
CCCACCCCTTGGAACCCTGCTGAATTTTTTATTTATTTATTTATCCTTTGAGACGGAGTCTCATTCTCTTGCCCAGGCTGGAGTGCAGTGGCACGATCTC
R
GCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGACTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAGGTGCACACTGCCATGCCTGGCTAATTT
Celera SNP ID:            hCV2436955
SNP Position Genomic:     18192
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61211):
CATCCTGGCCTCCAGCATGTCTTCCCCTGACTTTCCCCACCCCTTGGAACCCTGCTGAATTTTTTATTTATTTATTTATCCTTTGAGACGGAGTCTCATT
S
TCTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGACTCTCCTGCCTCAGCCTCCCAAGTAGCTAG
Celera SNP ID:            hCV2436956
SNP Position Genomic:     18157
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61212):
CAGGCTTCTGGCTTCCTGTTGGCATGCTTTCCCCATACTTCCTCCTACCCTGAGTCTCCTTTTCCCTGCAGAAGGAGCGAGTGGAACCGCACCAACTGGC
R
ATTGACCGACCCTCACAGAAGCTGCTGAAATTCCTGAATAAGCACTACAATCTGGAGACCACAGTCCCACAGGTTAGAGGTTTCAGAGAATAGATCCCCA
Celera SNP ID:            hCV25757747
SNP Position Genomic:     7501
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,36|G,2)   total(A,73|G,3)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61213):
GCCTCCCAAATTGTTGGGATTACAGGCGTGATCCACCACGCCTGGCCCCCGAGTTTTTTTTTTTTTTTTGAGACGGAGTCTCTCTCTGTCGCCCAGGCTG
R
AGTGCAGTGTTGCCATCTCGGCTCACTGCAAGCTCTCCTCTTGAGTAAACTCTTAATGGCTACACTATTTTCCTGGCTAAAACACTGCAGCTGGAATCAG
Celera SNP ID:            hCV2436957
SNP Position Genomic:     17765
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61214):
TCCTGATTAACCAAGGGCTTTGTCCATCTCATCCAGAGGAACCCAGGGTCCTCGTTGGCCCGGCTGGGACCATTCCACTGCCCCAGAATACCAGGGGGCC
R
TGACAGCACCCACTGACAGTAAGAGCTCACTTCCCTTGGCTGCCCTTCTCCTGCATCTCCCAGGCCCCCAGAGTCTCCCCTTCGATCTTTCTCCCTAGCT
Celera SNP ID:            hCV27452367
SNP Position Genomic:     20994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61215):
TCCACTGCCAGCTCCAGCAAGGAAGCTGCCACCCAAGAGAGCAGAGGGAGACATCAAGCCATACTCCTCTAGTGACCGAGAATGTAAGAGGGGCAAGGGT
S
GGGTGTCTGGGCCTGGGGTACCTTAACACAAGGGAAGAGAATGCTCAGGGGACCCAGGGAAAGGATTCGTTCTCTCTAAAGACTCAGATTTCTTGGGCTG
Celera SNP ID:            hCV25754226
SNP Position Genomic:     21407
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|G,1)   total(C,73|G,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61216):
GTGGGGAGAACTGTTGAAGTGATGTCATTGAATGGGCGGCGGGGGCGTTGAGATTTGGTTGACAAGTTAGCCTTGGATAGGAACATGGACAGTTAATCCA
Y
TGTAACATGATTTGATAGATGTGATTACAGAGGAGGCATAAGGACATGGATTTGAGTGCTATCTTGGGCTGGGGGTTGGGTAAAGAAAGATGACATGTCT
Celera SNP ID:            hCV2436958
SNP Position Genomic:     15240
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61217):
TTGAAGGCTTCTTTGCCCATCAACATCGTAAGTTTTTGCATTTTGTTGGTCACGTAGTCGGGGTGAGGGAAAGGAAAGAGCTGGACTCTTGGTCCTGCCG
R
CCCCTCACTGAGGGGCCCCGCCGCTTCCTTCCTCACAGGGCCCCCTGCTCCCTCTCTGAGGGCAACTCGACACTCTCGTGCTGCTGCAGTCGATCCCACG
Celera SNP ID:            hCV2207747
SNP Position Genomic:     19638
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,38|G,2)   total(A,70|G,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61218):
GCTTTAACTGAGATGGTAGGTAGACCAGCTTTGGGGGAAATACTAGGAGTACATTTTTAATATGTTAATTGGAGATGTCTGTGATATGTCCAGGTTTGAG
Y
AGACAGTTGGATACTTCCCTGGAGATCAGGGAGGAGGTTTGGGGAGGAGAGTTTTCAGCATACATCTGGTATCTAAAGCCAACAGACAGGATGCGATCAC
Celera SNP ID:            hCV2436959
SNP Position Genomic:     12433
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61219):
GCTTGTGTGCCAAGAGTCCATCGCAGCAGGCAGGGAGTGGGCATTTCCTTTATTTCTCTCCCTTTCTCTTCACCTCTGACTTCTCTGTTTTTCTCTCCCC
Y
GCCCCCCGCCATTTCCCATCTCCCTTCCTCCCATCCATAACATCCTTCCACAGCTCCCTTCCCCGCTCTGAGGAGAGTCGATACTAACAGCTACCCTCTC
Celera SNP ID:            hCV25760660
SNP Position Genomic:     22617
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:61220):
AAGCTCATTGGGAGCCTGTTTGACAGCTGATATCAATGGACCCTCTTGCCAGTTCAGGTCCGTCAACATAGGCCAGAGTCAGGCTCCTTTGTAAACCCCA
S
GCTTCTGTTAGCCAGTGAGGGACAGGCTGGTGCAAACAGCCCTTCCATTTGCAGTCACAGAATAGTGACACAAATGGCCCAAAATTTAAATGTTACTTTT
Celera SNP ID:            hCV29160880
SNP Position Genomic:     20041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61221):
AGAGAGCATCCCAGACAGAAGGTACCACCAGTGTATGGCCGTGAGGTGGGAGTGTGCCTGAAAGAGCAAATTGGCTGTGTCCAGAGCAGCATGAGTCAGC
R
GAGGAGTATGGTAGGAGATGAGACCAGAGAGGTAATGCGGAGGAGGGGCCTTATAGGCTACTGCAAAGACTGGCTTTTATTTTAAGTAAAAAATAAGATC
Celera SNP ID:            hCV11196655
SNP Position Genomic:     11068
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61222):
GCAGGGGAATTGCTTGAATCAGGGAGGTAGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTGCACTCTAGCCTGGTGACAGAGTAAGACCCCATATC
A
AAAAAAAAAAAAAAATGGAAACGGCAATAAGGGAGCCAGAGTAGAAGCAAGTAGACTAATTAGGCAGCAACAATCCTGGCGAAAAATGGTGGTGGCTCAG
Celera SNP ID:            hCV11196656
SNP Position Genomic:     12084
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,7)   total(A,4|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61223):
TCATTATTTTCCCCGTCCTACAGGGCTGGAAAAGGAGCCATTATTGGTTTCATCAAAGTTGGATACAAGAAGCTCTTTGTACTGGTGAGTGTTATTGGAT
R
CTAGGAGTTCGTATACCTTGGTTTCTGAGAACAAAAGTGCTGGAGGTTAGGGGGCAGCAGAGATGCCGGGGTTCCTAAAACATTTTTATTGTTTCTCTCT
Celera SNP ID:            hCV25752032
SNP Position Genomic:     7071
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:61224):
TGGCACGATCTCAGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTGCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCAC
R
TCCGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTC
Celera SNP ID:            hCV26546005
SNP Position Genomic:     18776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61225):
CCCGCCACCACGTCCGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCC
Y
GCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGACCTTTACTGTACCTTTTCTGTGTTGAGGTATGTTTAGATACATCAGCTG
Celera SNP ID:            hCV26546006
SNP Position Genomic:     18865
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61226):
CACTCAGAGTTTATAACATTTCCAACCAGATAATGAAATTGATATGGAGAAACCAAACCTCAGAGGCACTAAAATGCTGTCCAGATTCCCCATCCCATAT
A
CACACACACACACACACACACACACACAAACACACTTACTGACAGTCTGAGCCCCACTCCTTCCTCTTCCTCACCACCTCCACCTTACCAACTTCTGACA
Celera SNP ID:            hCV26546007
SNP Position Genomic:     20251
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61227):
GACAGAGTGAGACTCCGTCTCAAAAAAGAAAAAAAAAAAAAAGAAAGACTCAGATTTCTCTTTTTTTCTACCAAAACCTTTGCTGTCATGACTCTCTTCC
K
TTTTTCTTCTTTTTCTGTCTTGCTCTTCATTCTCCCTGTCCCCAGTTCTGAAGGTAGCTGTGGAGCCTCCTTGGCCCCTAAACAGGGCCCCTCGCCGCGC
Celera SNP ID:            hCV11690689
SNP Position Genomic:     21864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61228):
CGTGAGGTGGGAGTGTGCCTGAAAGAGCAAATTGGCTGTGTCCAGAGCAGCATGAGTCAGCGGAGGAGTATGGTAGGAGATGAGACCAGAGAGGTAATGC
R
GAGGAGGGGCCTTATAGGCTACTGCAAAGACTGGCTTTTATTTTAAGTAAAAAATAAGATCAGGCCAGGGGTGGCGACTCACACCTGTAATCCCAGCACT
Celera SNP ID:            hCV26545980
SNP Position Genomic:     11107
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61229):
ACTCAGAGTTTATAACATTTCCAACCAGATAATGAAATTGATATGGAGAAACCAAACCTCAGAGGCACTAAAATGCTGTCCAGATTCCCCATCCCATATA
C
ACACACACACACACACACACACACACAAACACACTTACTGACAGTCTGAGCCCCACTCCTTCCTCTTCCTCACCACCTCCACCTTACCAACTTCTGACAG
Celera SNP ID:            hCV26546008
SNP Position Genomic:     20252
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61230):
AGTGTGCCTGAAAGAGCAAATTGGCTGTGTCCAGAGCAGCATGAGTCAGCGGAGGAGTATGGTAGGAGATGAGACCAGAGAGGTAATGCGGAGGAGGGGC
M
TTATAGGCTACTGCAAAGACTGGCTTTTATTTTAAGTAAAAAATAAGATCAGGCCAGGGGTGGCGACTCACACCTGTAATCCCAGCACTTTGGGAGGCCG
Celera SNP ID:            hCV26545981
SNP Position Genomic:     11118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61231):
TGGGAGGCCGAGGTAGGTGGATCACCTGAGGTCTCTACTGAAAATACCAAAATTAGCTGGGTGTGATGGCAGGTGCCTGTAATCCCAGCTGTTTGGGAGT
Y
TGAGGCAGGAGAATCACTAGAACCGGGAGGCGGAGGTTGCAGTGAGCCGCTGAAATTGTACCACTGCACTCCTGCCTGGGCGACAGAGCAAGACTCCTTC
Celera SNP ID:            hCV26545983
SNP Position Genomic:     11309
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Gene Number:                 339
Celera Gene:                 hCG2005629 - 209000073829575
Gene Symbol:                 C6orf47
Protein Name:                chromosome 6 open reading frame 47;D6S52E;D6S53E;G3;G4;NG34
Celera Genomic Axis:         GA_x5YUV32W6W6(4663343..4697606)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12499):
TGGTGGCAGGCACTTGTAATCCCAGCTACTTGGGAGGCTGGAGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTGGCAGTAAGCCGAGATCGCACCAC
TACCCTCCAGCCTCGGTGACAGAGTGAGACCCAGTCTCAAAAAAAAGAAAAAGACACAAATTGACTAGCCCAACGTTATATTGCTGGACGGTGGCAGACT
CAGGACTTGGGCCCCAGTTTTGCCACTTTAGCACAGGTTCGTCGGGGTTTATAGGGGGGACTCTTTGCTGATAGGAAGTTTTCAAATAGCATGTAAGAGA
ACAGTGTAGAAGTGGAATATGTGAAGGAACGTCTGGTGGGAAGATATGTGAAGCTGGCAAGTAGGGAGGTTGAAGAGAACTCACTTCACAGAAGAATTCA
TTGCCACGGAGCCCACAGAACCAGGAAATCCAGGACACCTCCTCTGAGCTGCTCATCTTCACGTCAGCTAGAAAAAGAACAGTGTCAGTAAAGCTCAAGT
TCTCCTTCCCTGCCTCTGGTATCCTCCCTCCTCCCACATTCGGCCCTCCAACCACGGGAGAATTCGGAACCACCCTTTCTTAAAGCAACCCAAACTCTGA
AGCACTCCTCTCCAGCTCCTCTAATTTACATCTCAGCCCCTTTTCTTTGAAGTTAAACATTCTTTGGGGTCCCACCACTTGAAAGAAGCCAACAGATACT
TTGACCCACCAGCCCGACCCACATCCCTGGAGCTCCCGAAGGCCAGGGCCCTCTCTCCTCTGTGTCAACTCCGGCAGGGACCTCGACTCAGGCTCCCTAC
CAATACAAGTCTCTGCATGACCCCCACGCCTTTCCCAAGGGTTTCCAAGTTTATCATTCTCAAGCAAGAACCGGGCTCCTCCTTTTCTCACGGGTTGGGG
GCGATTGTCAGGTCCCTTTCACCGGAATCCACACATCCCCCCTCCGCTCCTCAGGCCACCTCTCCCTCCTTCGTGCCGGACCTGGTCGCTTCCTCCCCCG
CCCCCACATCAAAGTCCGGAGACCCCATGTGCCGCTCCCAGCGACAAGGGACTCGGAGCAGCGACGACTTCAGACTCACCGGCTGGACGGGGACCAGGAC
TGGGGTGGGGTAGGGAAGTTGCTACTTCCAGGGAACGGCGGCGACCGCTACAGCGCAGGCCGCGGACCCGACCGCGGCAGGCGAAGTGGGGTGGGGGGAG
TGGAAATTAGGGAGGGTGGGGAAGAGGGCAACACGCAAGCGCCAAGGGTCAGGTGCCGCGGTGGATGCCGGGACACGGAGTCCCCGGTAGAGAAAGAAAC
TGGCTAAATGAGAGAAAGCGAACTACCAATCCCAGGATGACCCGCGCACGACCTGGCTGTCACGAAGGCCCGGAGGAGGGCGCTTGCGGGCGGGGCACAA
CGAGAAGCCACCGGAAGCGGAAGCCAGGTATGGCGTTCGGGGCCCGGGAGTCTGGGCAATACAGTTTTGTGCTCACTGGGTGAAGAGGCTGACTTAGGGC
GGGGAAAGGAGGGAGCCAGGCTGGATCTCTTTCCGCAGCTCTCCTCACGTTCCCCTCTAGTCCCGGCGCGGCGCTGCTGCCCAGGGGACTGGCCTATCCT
CGGCCAATCCGCTGGGTCCTTATTGCCTGTTGGGCCCCTAGTGCGAATCAGTCCCGCCAGAGACCCTTGACGGGCATACTGTTTCCTCCGGGCTCCTGCC
TCATGAGGGGAGAGGTGCGGCTTGGCTCCGTGCGTAGGGACTTGGGTGGGGTGGGGTGGGCGGTGTGAGAACTGGAACGTCCCAGTGCGCTAACCTGAGG
TGGTGCCAGCCATTCTGCTCGTCCCTTTGCACTTCTCCATTTCCCCTTAGGCTCTAAGTGTGACCTTCGAACCCTGGTCAGAGTAATGGTGAGGGGCAGG
CGTGACGTTATTTCATTACACGGCTTCTCGGCATTCCACAGGTTTCCCTCCGCCTCCTGAGGGCCTTTCCTAACCCACAGAGTGGATTCCTGGCTCCAGA
AAATGGGCTTGGAGCGGGGGCCACGTTGAGGAAGGCGAAGGGCATTGTGGGGGCGTTATGTAAAAGTAGGACCCCAACCGACAGATCCTAGTGCTCGCGC
CACCTGGGCGCGCGGAGCTTTGCTCGTTTACTATTGAAAAAGTTCCAGCGCGGGAAACTGAACCCGGAGCTTTGCGCACGCCCGAGCCCTCAAGTAATGT
GGGTTGTGGTTTTTGTTGTTGTTGTCGCCACGCATGCGTCTTCGTGCCGTGTGGCTATTTGATTGTGTCAACTCTTCTGATTAGAATGGCGCCATTTTGC
GGTACGGAAGCTACACAGCAACACGTATAGGAGACTCTCCCCGAGATCTTCTAGGGAGTGACCCATCTATTTTTGTTTGGGAAGAGGAAACTCCGAAATG
GGATCGCGGAAGACTTAAAGGGCCAGGCTGATTTTTTTTTCCTACTGGTATGTCTTACGGGGTGGGAAAGTGGTTTCAGAAAGAGGCTGGTGTTTATTGT
TGGTGAGGATGGGGGTGGGGGCCGGACGCAGGACCTCTGGACAACAGTCTCATGGAGTTTTATTAATCTTTACTAAGGAGCAAAGTCGGTATTGTAGGGT
TCCATGTTTTTACGCAAAGTCTCTCTCCCTTAGGCCCTGCAGAGTCCTAAGTTGTGGGGTTACTTTAGTGGCAGGAAAGTGTTTTTGACTACTTTTTCTC
ATCCCAGCAGGTCTCTGAGGCTGTGGTTGCTACAGGGTCACCACGAGCTTGGCTTACTTGTCTCATCCTTCCCTTGCCTGGTATCATTTTCTCAGTTCTC
CCAAAAGCCATGTCCCGGCCCTTGCTCATCACCTTCACCCCAGCCACTGACCCCAGCGACCTCTGGAAGGATGGGCAGCAGCAGCCACAGCCCGAGAAGC
CAGAGTCCACCCTGGATGGGGCTGCAGCCCGAGCTTTCTATGAGGCCCTGATTGGGGATGAGAGCAGCGCTCCTGACTCCCAGAGATCTCAGACTGAACC
TGCCAGAGAAAGAAAGAGAAAGAAAAGAAGAATAATGAAGGCACCAGCAGCAGAAGCAGTGGCAGAAGGAGCATCAGGAAGACATGGACAAGGGAGATCC
CTTGAGGCTGAGGATAAGATGACTCACCGGATACTGAGGGCAGCCCAGGAGGGGGACCTGCCAGAACTTAGGAGACTGCTGGAACCGCATGAGGCAGGAG
GAGCTGGGGGGAATATCAACGCCCGGGATGCCTTCTGGTGGACCCCACTGATGTGTGCTGCTCGAGCGGGCCAGGGGGCAGCTGTGAGCTATCTCCTGGG
CCGTGGGGCTGCCTGGGTGGGGGTCTGTGAGCTGAGTGGCAGGGATGCGGCTCAGCTCGCTGAAGAAGCTGGCTTCCCTGAGGTAGCCCGCATGGTCAGG
GAGAGCCATGGAGAGACAAGGAGCCCGGAAAACCGGTAAGGGGAAACTTTAGCTCAGACCCATGTCTCATTGTGTTCTGCCTCTCCCAGCCACACCACAC
CAGACGCCCCAGCACAGTGCTGAAGAGTTCTTTCCTTATCCTCATGTGTAGGTTGACAGGGTAGTATAGTCAAGTGGTTATAAACATGAGCTCCCTGGAT
TTAAAGCCTGATTCCACTTACTTGGGCAAACAACCTAATGTCTACATGTTCCAGTTTTCTCATCTTAGAAATGGGGGTAGTAAGAATTGTTGTTAGGATT
CAATGGGTTAATATATGTAAAATGCTAGAATAGTGCATGCCGCATAGTATGCAATACATGAATGTTAGCTATAGTCATTATGACTAATGTCCCTCCCCTT
GCCCAAGAGTTTGCTAGGTCTGGTTACCATTTTTTTCTTTCAACTATTCTGCTCTGGATCCCACAATGGTTTAAAGAAATTTGTTTTTAAGACAAGTCAA
GTGCAGTAGTGAGAAGGAGGGGAAAAGTGGAGTAAGGAGTTTGATCTGTAACTGAGTGAACAATTAATTCAGATAACTCACCACCACCTTTGGACCAGCC
TGGATCCCTCACTGTTAAGTAGGAAGGAAGGCAATTTGTCCCTTTTTTTTTTTTTTTTTTTTTTGAGACAAAGTCTCACTCATCTCACTCTGTCGCCCAG
GCTGGTGTGCAATGGTGTGATTTCAGCTCACTGCAACCTCCGCTTCCTGGGCTCAAGCATATTTTTTGTAGAAAGCAGGCTTTGCCGGGACATGGTGGCA
TGTGCCTGTAATCCCGGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTAAGGTGGAAGTTGCAGTGAGCCAGGATCATGGCACTGCACTCCAACCTGGGC
AGCAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAGCAGGCGTTGCCATTTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAAGCCATCTGCCC
GCCTCTGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACTATGCCTAGCTGGCAATTTGTTCCTTAGCAGAAAAGCTGAAAAGATCCTATTCTACCC
TGCCAGCCCCCTCTGAGGCCTCAACTCTTCCCCTTTTCCTTCCCCTGCCCTTAATGCTTTTTCTTCTTTCTCTGCAGGTCTCCTACTCCCTCCCTCCAGT
ACTGCGAGAACTGTGACACCCACTTCCAAGATTCCAACCACCGCACATCCACTGCTCACCTGCTGTCACTGTCGCAGGGTCCTCAGCCTCCCAACCTTCC
ACTTGGGGTGCCCATCTCCAGCCCGGGCTTCAAACTGCTGCTGAGGGGGGGCTGGGAGCCAGGAATGGGGCTGGGACCCCGGGGTGAGGGCCGTGCCAAT
CCCATCCCCACTGTCCTCAAGAGGGACCAGGAAGGACTAGGCTACAGATCAGCACCCCAGCCCCGAGTGACACATTTCCCAGCTTGGGATACCCGAGCTG
TGGCTGGGAGGGAGAGACCCCCTCGGGTGGCCACACTGAGCTGGAGGGAGGAGAGAAGGAGGGAGGAGAAAGACAGGGCTTGGGAGCGGGATCTAAGGAC
TTACATGAACCTCGAGTTCTGACTTTGGTAAAGTCTGACCCTAGTCTGCTGCTGAAGTCTGAACTTGGGCCTCTGACCTGGGCCCTTTGACTTCCCCTTC
CTGGGATCTGCTCAGATGCAGATCCTGAAGTTTTTGGTCAATAGGCTCTGTCTTCGTGAGAGACGGGCTGAGAGTCAGAAATAAATCAACCATTTGTGGT
TTATTCACTTTTCTGGAAGCTATTTTGAGGAAGCCAAACAGAAGCCTGGGAGCCACATGCAAGTCCCACCTGAGTCAGAAGGGGCAGCCTCTCCAGGTGG
CATGATAAGGTCACCTCCCTGCCAATCTGGGTTCACTTTCAGGTCCCAGACCCTCCTGGGAGTCCCCCACCTATTCTTTCAACCCCCCTGGACCAAGAAT
TGCCCAGCTTCGTGCAAGTCTCACTTCCCCCAGGAGGAGTTCCCTGACTACAGCCAATTCACTGATTTCACAAACATAAGTCCATATACTATGTGCCAAG
AATACAGGTAAAGACATTCCCAACCCTCAAAGAGTTCACAGCTGGAGAGGGAAAGTGCCATGTTATCAATTTTTTTCTTTTTTTTTTGAGATGCAGTTTC
GCTCTCATTGCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCACCACAACCTCTGCCCCCCGAGTTCAAGGGATTCTCCTGCCTCAGCCTCCCCAGTA
GCTGGGATTACAGGCATGCCCCACCACGCCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGCCAAGCTGGTCTTGAACTCCCGAC
CTCAGGTGATCCGCCGGCCTCGGCTTCCCAAAGTGCTGGGGTTGCAGGCATGAGCCACCACTCCCGGCCCATGTTATCAAATATTATAATGCAGGGTGAT
AAGGGAAGTCAAGGCCTCTAGAGATGAGAATGGGTAGGGTTTTGCTGGAAGAGGCCAGTGTGATAGGAAGGCCCACGATTATCAAGCTTGTACACTTAGT
TGAACTGGGACCAGAACTCTAGCCCCCAAATCTAAACTTTAAACTTCTTTGTTCCACCCATTTGTCTACACTTTTCTTTCCCACACTTCCCCACTCTCCC
ACCACCCACCCCCTTGTCTTGCTCATGCCGGGTGGTAGGCACAAGAAGAGCTCACTGTTGTGAAATCCAGGAATTCAAATTTGCAGACGGGCAGGGGAGG
GCTGTTCAAGTCGCAAGACTCCTCATTTTTTCTTTTCTGGGAAAGCCTTTCATGAAGTCTTGGATGCGAAATGGAGGAGTGGTGGGGGATGTGGAAAAGA
ACCCAGGGGCAGGGGGCTGTAGGGGGCGACCGAGTTTAGGGAAGCATGAGAAACCCGGGAAAATGGGGAGCTGGGTTTATATTAAGGTCCTGGTCCTTGC
TAATCTCGGTTTGGCGGTCCGGCGCGCACAGACAGCGCGGGGTATACGGGGGCGGTCTATTCGCAGGGTCCGCCCCATGAGCTGCGGCACCGCCCCCGCG
GGTCCTTCCAGTCCTGGTGCAGCTGCTTCCGGGCTTCGCGGCTCCCGGCGGCTCCCCAAGGCCGCGGCCCCGACGCTGGGCCCGGGAGCGGTCCCCGCGC
ACAGCGCCCGGACGCGTAGGTCCCGAAGTAGGCCCGCGCTTTGCTTCGTAACTGGGGATCTCTGAGGACATCTTAGTTCTGACCTTGTGGAGGCCGCGTC
TCTGCTGCGTGTTCGCGGGCCAGTCGGGCCACTTTGTAGAAATCATAGCCCTCTAAATCAAGGGACGAACGCTGCTGGCTGGAGTTTGCTGGACACTTTC
ATTCCACCTCCTAACAAAGAGAATTCCTATTCCTTGAGGTCCCTTGGGGCAGCAGTTAAAGACTACACGATCCAGGAGCACCTAGGACCTGGGGCCACCT
TCCTGCCCGCTTTATTGGATGGAGCACTGCCTCCCCAGTTTCTGGGACACCTTGGGGTGTGGCCTTGGTGAGTGAAACTTGGGGTGCTGCCTGCTGGGAA
GGAAATCCGGAAACGCAGAGAGGACTCTCTGGTGGTGACCCAGGCCTTGTCAGATCTGAGATTCTTGGAATCTCAGATTGTGGGGGTGTGGATGGTGAAT
GAATTTGGGTATGCCCCCCTTTACCCCAGAACTGAAGAGGAAGCAAACTACTTGCCACACTTGAGGCTGCATGACTATTCAGAGAAGGGAGGAGCCACTT
CTGAATTCAGAGTAGGACTGCATCACCAGGCAAATACCTGTTCTGAGCCAGAAAGACTCTGGCTTCTGAGGAGATCCTGAGAGTCTGAGTAGTGCCAGGA
AGCAGCCTCAGAATTTGGGGGCCCATTACACACCCCAGCCATGTTCCTGCGACGGCTTGGTGGCTGGCTACCTCGCCCTTGGGGCCGCCGGAAACCAATG
AGGCCTGACCCGCCTTACCCAGAACCCAGACGGGTGGACAGCTCCTCGGAGAATTCAGGAAGTGACTGGGATAGTGCCCCAGAAACCATGGAAGATGTGG
GGCATCCCAAGACTAAGGACTCGGGGGCATTGAGGGTTTCTAGGGCTGCTTCCGAACCAAGCAAGGAGGAGCCCCAAGTTGAGCAGCTAGGGAGCAAAAG
AATGGATTCCCTCAAGTGGGACCAGCCTATCTCTAGCACTCAAGAGTCTGGGAGACTGGAGGCTGGAGGGGCCAGTCCCAAACTCAGATGGGATCATGTG
GATTCAGGTGGCACCAGGAGACCAGGGGTGTCCCCTGAAGGGGGACTGAGCGTCCCTGGGCCAGGAGCCCCATTGGAGAAACCTGGTAGGCGTGAGAAGC
TGTTGGGCTGGCTGCGGGGGGAACCAGGAGCTCCCTCCCGGTACTTGGGGGGCCCAGAAGAGTGTCTGCAGATCTCCACCAACCTGACCCTGCATCTTCT
GGAGCTGCTGGCCTCTGCCCTGCTGGCCCTGTGCTCACGACCACTGCGGGCAGCCTTGGACACACTGGGCCTGCGTGGACCGCTGGGCCTCTGGCTACAT
GGCCTACTGTCCTTCCTGGCTGCCCTGCATGGGCTCCATGCTGTTCTGAGCCTACTTACTGCCCACCCTTTGCACTTCGCCTGCCTCTTTGGTCTCCTGC
AGGCCTTGGTGCTGGCTGTCAGCCTCCGGGAGCCCAATGGGGATGAGGCGGCCACTGACTGGGAGAGTGAGGGGTTGGAGAGGGAAGGTGAGGAGCAGAG
GGGAGACCCGGGAAAGGGGCTGTGACCGTGGGGTGGGGGCAAAGGGTGAAGAGAGTGTGGGCTTTAGGAGAAAAGTGTGAGGCATGACCCAAATTGTAAG
CATAGGGACCTCAGGGATGGGGAAGAAACCCGAGTACGAGGGTGCAGGGCCCCCCTTCATACACAGGAGAGAACAGAACTATTTAGGGTGTTTGTGTTTA
TGGACAGTGAGGGCACTGCTCTTGGATTCACCAGCTGTTATTTTTGCTTTTACTTTTCTCCCACCTTCAGTTTTTTTTTTTTTTCCACCTCCACTTTTTA
AAAGCAAAAAAAAAAAAAAGTATGATGGTGGTGAATAAAGACCAAAGGGTCCTCTCTACCTTTGAAAACTCTCCTGGGGTGGAGGAGACCAGGGCAGGAT
AGACAGACCTCTGCAGTAAGAGAGTGGTTGGGAAACCCAGGGTGTTCCTTGGATCTCAGGATCTGAGCCATCGAGGGAAGAGTGGGGCTGCTAGGCAAGT
GGATTAGGGGGTCTGGATAGGGCCCCACAGGTGACAGGGAGCCTGCAGGGCGGATCTGGTGATCATGGGAGCCAGAGGGAGTGGGGACAGTGCAGGCAGT
ATTGGCAGGAGGGCCAGTGCAGAAGGGCTGGTAGCTCAGGCAGTGTGGGGGAAGCACTGAAGCCTGTAGTCCCCACTTGGGGGCTAGGGGTTTGCTCACT
CAGCAATAAATAACTGTGTCACATCAAATCCTAAATATACCACTACAAAGTGAGAGTTACTGCCACTCTGTTCTTACTGACACCGTCCAGCTGGGAGTTT
AGGTGGTAGAGGATCCAGGGGGAATGTTGAAATGGGAGGAGTGGGAATGACGTCTGGAGACAAACCCCAGAATGAGATGAGGATTGAAAAATTATCTTTA
TTATCTTGAGTGGGAGCTGGAGCTGGAAGTCTCCAGCTTCTCCCTCCAACAACTCAGCTCCCATTGTACCCATCTGGGGACTTAGATGAAGTTACAGGTC
AGTTATTGGACAGCTCACAGGCCTCTGTGATGGGGGGAGGGAAAAAGAAGGACAGAAGGGAAGTCCAGGGAGAAAAGCAAAGTTGATAGTAATGGGGTGG
GGGAGAACGTGTTCTTTCATTCCCTGTGTCAAAGGGGAGTCTCTAAGGCTCTTTTCCCTCCACGTATGACCCTCTGCCCCCTTTATCCAGTGCAAACTCA
GAAACCTCTCTTTTGAGTAGCCCAGAACCCATCCTGCCTCCCTCAGGTGACATCACAGCTCTTAGCCACATCCCTCTGGTGACATCACACGAGCCTCTTT
CACCCTGTAACACCAGAAGACTTGGTGAGTCCTAATCCTGTTTTATGAGATTTTAACCCCTTACCTTGATTCCTAGGAGTCAATAAGAAGGCTTTGGAGT
CCAGGCAGGAAGTCAGGGACTTGAATTCCTCCACACACTTTTCGGGAGGATGTGGTGAGCGATCTGGAAGGGCAAGGTGGGGTCAGGCCAGTCAAAACCC
CTGGAAGCACCTAGCTCTTCCTGGGAGGGTGTCATAGGACCCAGAGTGAGGAGTTCTCCTGCCCTCCCTTGTTTCCCTCCAACCCTTCCTGCCTTGTATC
CCTACTCACTGTAGAGGAGAAAGCGCTGGTAACCCTGGCCTGTCTCATTCAGCATGATTCCACCTGGGCATGAGCTGGAAAAGAGCTCAGTCTTCATGTC
AGGGCGGCCTGTCAAGGCAGGTGGGAGAAGTATGAGAACAGAGATGCAGAACCAAACTCAAGGGAGGGTGAGGGCTGGGAAGAACCAACCTTCAGTTCTG
AGATCTGTGCTCCCTTCAGTCAGGTGGTAGATCCATTTCCGGGGCACACAGAGCCCATCTTTCCTGCAGAGGTGGTGGTGGCAAGGAGGAAAGAATGAGC
ATCACCCCAACCATAGTGTCCCAGCTTCTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCCATCTCGGCTCAC
TGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAACCTCGTGAGTAGCTGGGACTACAGGTGCCCACCACCATGCCCAGCTAGTTTTTTATA
TTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGTCCGCCTCAGCCTCCCAAAGTGCTGGGATTACA
GGCGTGAGCCACCACGTCTGGCCTGTCCCGGCTTCTATTTACTCCATTGTATTTGTTATTGAAGCCCAGCTCTCCTTGGGTTTCAAGCTACCAAGCATTG
GTTAGGCACATCTTTCTCCAGAGGGCAATTAATACAGCCACTGAATTCCGTGGGCCAAGCATAGTAGATATACCAGCTAAGAGGCCAGCTCTTGGTGGGT
GGATTCTCACACTTTGGGCAGAGACTGAACCCAGTGATGCTTCTGCCTCCTTACCACTCACATGCGGATGGTAGCACGAAGGTGGAGCTGCATCGGGGCA
GAGCCAGCAGCCATATTGAAGACAATGTTGTCCACAGGGTCAAAAGTTGCCAACTCCTCCTTGGTGGGAGCTGCCCCTGCGATAAAGTACCACTGGCCCA
AGTGGACCTCTGGGAACTGGAGAGACAATGAAGGGAGCAAAAGAGGGTGGGTTCCAGCACAGGATGGGTTCAACCTCTTCATCAGTCAAAACAGCAAGAT
TTAGGGGTAGAGGTGTTGGCTGCCTTCCTCTTTCCAACTGGGGATTGGATCCATGACAAAGAGTCATTAAATGACTTTTCCTCTTTGCCCCTCCCCAGTC
AACCTGGGTAACCACCCCACCCCCCAATTCTGCCATGCCTCTGCATTGATGGCCACAGTACTGATATTTTTCTTCTTGCTTTCATTATCACAACACTCAC
ACCCCCTTCCTCTCTTCCTTTCCCAAGATGGTCTCCAGTCATCCTAGGCCATCCACCCAAGTCCCTCAGAGCCTCCACCATAGGCTTCCCCCAATCTCAG
TCCATACCTCCTTCCCATCCACGCCCAGAGTTGTCAGTTGACTGTGCTCAGGGCACTGGTAGATGGAGTTAAGGATAATACCATAGAAGTAGAGCAGAGC
TGCCCAAATTTGGTGGAACATCTTCAGGCAGGAGGGAGCTGGTGCTCTGTGTGCCTTAACTGCTCTCTCCCCTACTGGCTGCTCAGTCCACTCTGCTTTC
AGCTCCCTTGCGTTCGACCCTTGACCCTTTCACCTGCTAATGAGTAACTTCAACCTTGTTTTCCAACCCAAACCTGGATTACTTAGTGTTTGGGACTTCC
TCCCCCTCTTCCGGATGCAACCACTCCATAGTACACCCTGGCATGTCCAGGGTTTCTCAGGAGTTATGAGGAGAGCTGAGCTGTCCAGGGAGAAGCCTGT
GGTCTTTGAACCTGTATCTGAGCTGGTTATTTGTTGCACTGTGCAGCACTGAAGGGAAGTAGCTTGACTGGGCCTCTCATTCATTCACTTAGCAAACTGT
TTTGAATCCCAAGTCCCAGTTGTTTCCCAAGAACTAGCTAATCCCCGGGGACATAAAAAAACGAATAAGACATAGCCCCTGATCTTGAAGAAGTCGTTAG
AGGGAAAACTAGCTGTGTAGACAAACCATTGCAATACAACTTGGTAAATGCTTTAGAACAGGTATGATGCAGGTGCTGGGGCACGGTGGATTGCTCTCTT
TAGTTTACAATTAGAAAAATATGTATACCCTGGCAGTGTTCACTGACACATTCACTCAACATTTATTACTACAAAGAGGCTATGTAATCTGGCTGTTAGA
GAGGATAGATGTTGGTGTCAGGCAGAATGTGTCCAAACCCTAACTACAGGCAGGGCAGGTAGCTCATGCCTGTAATCTCAGCACTTTGAGAGGCCAAGGT
GGGCGGATGGCTTGAGCCCAGGAGTTCAAAACCAGCCTGGGCTACATGGCAAAACTCTGTCTCTACAAAAAATACAAAAATTAGCCGATGTGGTGGCACA
CGCCTGTAGTCCCAGCTACTAGGGAGGCTGAGGAGGGAGGATTGCTTGAGCCTGGGATGTCGAGGCTGCAATGAGCCCTGATTGTGCCACTGCACTCCAG
CTTGGGCGACAGAGACTCTGTCTCCAAACAAACAAAACACCACCAACCCCTAACTGCTATGTCTGTTTTTTCATCTGTAAAATTGGCAAATCATCAATCT
TATAGGATTAAATGAAATAATGCACATAAAGCCCTTAGCAAAGACTTGCACATGGTAAGTCCAAAGTATATATTTGCTATAATTAATAGTAATGTTTGCA
AAGCACTTAGTTTCTGGTGGGTAATAAGTTCTCAAATAATAGGCAGTAAGAATTGCCAAATAGGTTGTCCTTGGATAGCACCAAGTGACTGGAGCAGTTA
ATGCTGTGAGAGATGGATCTTCCTCGATAGATTATTTATTTACTTATTTATTTTTAAGACAGGGTCTCACTCTGTCGCCCAGGCATGACTTTGACTTCCC
CGGCTCAGATGATTCCCGAGTAGGAGGTATAGGTGCACGCCATCACGCCTAGCTAATTTTTTGTAGACACGGAGTTTCACCATGTTGCCCCAGGCTGGTA
TTAAACTCCTGAGCTCAAGCAGTCGGCCCACCTTAGCCTCCTAAAGTGTTGGGATTACAGGCATGAGCCACCACACCTAGCTTGATAAATTTATATCCCA
TGGACTGCCACAAAAAATTTGCCGAGGGCTGAGGCTTGCGATTTAGTTAAAAAACAAACAAAATTTGGGTGACCAGTATATTAGAGTTTATTAATACTGT
TCTATTTTGGTGTAATGTTTGAATTTTTTTTTTTTTTTTTTTGAGATGGGAGTCTCGTTCTGTTGCCCAAGCTGGAGTGCAGTGGCGCGATCTTGGCTCA
CTGCAATCTCCACCTCCCGGGTTCAAAGCAATTCTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCGCCACCACGCCAGGCTAATTTTTGTA
TTTTTAGTAGAGATGGGGTTTCACCATTTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCGCCTCATCCTCCCAAGTGTGAGTCACTGCG
CCCGGCCGAAAATTTTTGTAATAAAAAGCTAAAATGTGGTTAGGCACAGTAGCTCACACCTATAATCCCAGCACTTTGGGAGGCCAAGTCTGCAAGACCA
GGCTGGGCAACATAGCAAGACCCCATCTCTATAAAAATAAAATTAGCCAGGTGTGGTGGTGTGCATCTGTGGTCCCTACTAGGGAGGCTGAGGTGGGAAG
ATCGGTTGGGCTCGGGAGGCAGAGGCTACAGTGAGTTGTGATTGCGCCACTGCACTCCAGCCTGGGCGACAAAGCGAGACCCTCTCTCAAAAAAATAAGC
TAAAATGTTAACAGCTTTTTATTGGGGCAGTAAAGTACAAGTGCTCGATCTGGAGTCCTGTAGGCCTGGATTTGTCAATTCTGACACTTATGTTCGTCTA
AGTGTACTCACTTAAAAAATGTTAAAAGCTCGTTAAAAGGCTTTTTAAAATAATACACAAAACCCGTAGTATATGGGCTGGCACAAGTGCTCATTAAACA
GCTGCTTATTAGAACTCTTAACTAAAATATAACCAGGACCTGGGTATAAACTACGAATCCCAGAAAGGTTGGACACCCCAACAGCGATGTGTCTTTCTGG
AGGACTCGCAGTTTCGCGGGGCCGAGGCCCTTGGCCCAGGGCAGGTTAAGAGAAGAGGGCACGGAGAGGCGGTAATGCCTCCACCCCCGGCCTTCGGAAG
CACGCTGGCCGGCCTTTAAATTCCCCACGGTCAGGGTCTTGTCTTTCTGTCCACTCGGACTCCATTTGCTCCCAATTCTCAAACTCGGAAGCGCCTCTTT
TCTTGACAAGTCGTGCAACTTAGTAGCACGTTTACTTTTCCTAAAACGTGTCATGTCCCCTTGGCCACACACCGACGAATGTGACGCCCACAGCCCTTAA
AACGCCCACCCGGCAGAACCGAAATCTAGCCCAACCAAGCAACCGAGAACAAAATTGACCAGTGCCGCCCCCAAACGCCTACTGAAAGAGTAACTTCCGG
AGGCACAGAAGAAAGGGCGCAGCGAGGGCAATAGGGTGGAGAAGAGTTTTAGCTGGCTAGGACAGTGCCGCCTGAAATTATCAGCCTGCCAAGATTTAAA
CATAGATGAATGTGGCATAATCCCCCATCTCCAAAGTCCAAGGTCCATACGACCGTCCATAGCCCCTCTCGAGGCAGTGGTAGAGTCCCAGCTGGTGACT
GTTTTTCAGGCATTTACGGTAGCCACCTCAATCTTCTAGCGCTCAAGCGCGCGCACAGACGTGAACGCCGCCAGAGGGGGGAGGGGGTGGGGCGATGCTT
AAGTGTCCACGCATCCGTAGTGCGACGCACGCAGGCGTAGTACGGTCCCCCGGGCGACAGCGGTGGCGGCTCCTCGGGGTGCTCGGCTCCCTCCCACMTA
GGCCGGCCCCGGCCCGACTCGCCCTCAGAAACTCACTGTTTGGGGCTGCGGACTTTCTCGTCGTGCCCCACAAAAGTAAAGCTTGGGGACCTGGGGGGAG
CCGGAAGTATCGCTTCGAGATCCCCAAATACTATCGGGGAAACGGAAGTGGCCGTCGGTGGCAGGTTTGGGGGAGACCGGAAGTGACGGTCCGTGGGGAA
GTCGGGGGCGGAGCCGCGGGGTGGTGKGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGGCTGTGGGTTAGTTGTGCCGTTCTGCTG
GAACACCGTGGGAAGGCAGTAGACGCGGGCAGTCAGCTAGCAGGTCYGTCGCCCCGTGAGTGCCGTTTCGGGTCTATAGTGAGTTAGGAGGGTTCGATGG
GCGTGGCGCGCGTGCGCGAAACCACTTTCTCCGCAGAGTGTGGGGCGACCACCGCTTTCGCGTTGTCCCAGGATTTTCCGACCTCTGGGGCGCTTGTCCT
GCCGTGACCGGTGATGACACTAGTCTCTGGTCTCGTGCTTCCTTCCTAATCTGACTGGCTCCCTGCTTATTGTGATTGGCGTCGTGGAGCCCCTCCCACC
TCTCGTCCTCCAGCTCCCTAAGCCGTCGATCTCCTGCCCTTTGTGTTTCTCTCCCTGTGCCCCGGAATCAGAAGGGGGATGGGGACAGGTGTGAATGTGT
GTGTGTGCAGGAGAWACTTTTTAGGTATTGGGGCAGGGATTAATGCTAGGGAGTCTTTCGGGTACACTCTGGTCTGGGCAACAGCGGGCCYTCCTTCCTT
CGTTCTTCTTTAGAGACCTGTCGGCCATGGAGCCTAATGATAGTACCAGTACCGCTGTGGAGGAGCCTGACAGCTTGGAGGTGTTGGTGAAGACCTTGGA
CTCTCAAACTCGTACCTTTATTGTGGGGGCCCAGGTGAGACACCTCACTAGTTCTGGAAGACACCTTTAGCTTTTCCTCGTTTAGGCCCCTTAGCCTGAG
AGATGAGCTTGATTTTCTGGTCACCAGATTTTCTTTTTTTTTCTTTTTTTTGAGATGGAGTCACGCCCTGTCTTCCAGGCTGGAGTGCAGTGGCGCGATC
TCGACTCACTGAAACTTCCACCTCTTGGGTTCAAGCGATTTTCCTATCTCAGCCTCCTGAGTAGCTGGGATTATAGGCGTGTGCCACTATACCCAGCTGA
TTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTTACCTCAGGTGATGTGCCCTCCTCGGCCTCCCAAAGTGC
TGGTATTACAGGCATGAGCCACCGCACCTGGCCTCAGATTTTMTTTTTATTGATCCCTTTGTTYGTATTCCAGTAGAACGTTTTCTGATGTTTTGTGAGT
GAGGCTGATTTTGTTCTGTCCTCCACATGGATAGAACTTAATGCAGAGGGAAATACAGAGGAAGGAAGAATCTGTGTGTCATCATCATGGGTGGACCCCA
ACCCAAAGGGACAGGCATGGCTCTGGCCTTTGGGAAGGGAAACAGCACAGGAACCCTAAGCAAGTGTGTCTTACTGATAGACATTGGTCAGGTCTATGCT
GTGTTYTTAAAGGGTAGAAATCAGAACCCATAATGGAGATAGGTCCTTGATAGACTGTTGAGTGAAATTACTAATTTTTATGGCATAGCTTGAGTCTCTT
GAGCTTAAAGCCTTGGACATAGCTATCTGTGTCTTTACTCCTGTAATACTTGGAGACAAATTGCATGTGGGGTGGTCCATGGTTTTCTAAAATGTGATAY
TACCTGGATATAAGAAAGCCATATATAGACTTGTGATTAGATGTATATAAATACTCTGGTACTTCCCAAGAGTCAGTTTGTAGTTAGGAAAAATATTTCT
CTTTTTGCTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTTGTTGCCCAGGATGGAGGGCTGGGGCGCAATCTCAGCTCACTGCAACCTCTGCCTCCT
GGGTTCAAGCAATTTTCCTGCCTCAGCCTCCTGAGTATCTGGGATTACAGACGACGCCTACTACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACA
GGGTTTTACCGTGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACT
GTGCTGGGACCTTTTTTGCTTTCTTATCTTCTTAGTCTTTCTTCAKTAACCTGATACCAGACCCCATCTTCTTTGCCATTTTTTAATCTTGGAAATCACA
GGAGAGTCTGGTAAATAAACTGGTATCATCTTGTGTTTGGAAAGGGGTCACTGATGTCTCTAGACACATACTCCCTTGGATGCCAGACAGATAATATAAT
GTCCATGTGKTTTTTTTTTGTTTTTCATCCGTGTTATTTTTCCTGGATCTATAACCTGAGCTTCATTAAGTTTATTTATTTAATTTTTTGAGATGGAGTC
CCTCTCTGTCACCCAGGCTAGAGTGTAGTGATGCGATCTCGGCTCACTGCAACCTCCGCCTCCCGAATTCAAGTGATTCTCTTGCTTCAGCCTCCCTAGT
AGCTGGGATTACAGGCGACCACCATGCCTGGCTTATTTTTTTGTATTTTTGGTAAAAAAGGGGTTTTACCATGTTGGCCAGGCTGGTCTCGAACTCCTGA
CCTAATGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCAAGCCAAATTTATTGTCTGTATTTTGACAGCTGTT
ACTTTAGTTTAAGGGTTTGCACAGTAATGATCTCACGGTCAAGACAAACGGGTAGTGATTCTGTGGTGGTTTTTACCCCTCACCTCCACAACTCGGTTGT
CTGTCTTTGTTCTTCCTCTTTCCTCCATTCTTTCCATTCCTGTGCATGCCTCTTCTTTTCAGATGAATGTAAAAGAGTTTAAGGAGCACATTGCTGCCTC
TGTCAGCATCCCATCTGAAAAACAACGGCTCATTTACCAGGGACGAGTTCTGCAAGATGATAAGAAGCTTCAGGAATACAGTAAGGGGGCTGGGGAGGCA
GTTCAGAGGTTGGGGCTACTGTCTGGAGGGATGAACTGAGGCCATGGGTTTACCTGTTCATACTATGTTTTGGTGTGTGTCTATTTTTCTGCAGATGTTG
GGGGAAAGGTTATCCACCTGGTGGAACGGGCTCCTCCTCAGACTCACCTCCCTTCTGGGGCATCTTCTGGGACGGGGTCTGCCTCAGCCACTCATGGTGG
GGGATCCCCCCCTGGTACTCGGGGGCCTGGGGCCTCTGTTCATGACCGGAATGCCAACAGCTATGTCATGGTTGGAACCTTCAATCTTCCTGTAAGCTTA
TGTTCCACAGGGGAGGGCTTTTGTGGGTAGCTTTGGTTGTGGTAGCACCAGGGAATTAATAAGATAGATGCTTCCATCTTTAGATTGGGTTCAGGGGGCC
CTGTGGTGTGCTATTGGTCTCAGTCTTTAAGGAGAAAAGGAGGTAGGGCTCCAGGGAATGAATTGGAGGTGTGGAGGCCTTAGTGTTGGCTTCTCCCAGA
ACAACTTCCCTTACCCTTTCCCCAGAGTGACGGCTCTGCTGTGGATGTTCACATCAACATGGAACAGGCCCCGATTCAGGTATTGAGGGGCCTCCGAGGG
TCAGGGAAGGGGATCTGGGAGAAGGAGGCTGGGAGGTGGGGTGGACCTGGCTGAGAGATGGCTGGGACCTGATTTAGTAGGTGGTAGAACTCATGGCTTC
ATCTGYAACCTACCCTGATAAACCTTCTCTCATTGTAGAGTGAGCCCCGGGTACGGCTGGTGATGGCTCAGCACATGATCAGGGATATACAGACCTTACT
ATCCCGGATGGAGGTAAGTGGGCAAGGCTGGCTAGGGTCTCTCTCCACCCTCCCTCTCCCTTTTCTCTCAGCCTGGGAGTTAGGGCTTCACTGGCCACAT
YCACAGGGTTTGGCCTTCATAATCTAGTCTTCTCTGCAGTATTCATTCTTTTGGGCAGAAAAAGTATCTTTGTGAGGCTCTCTCATTTCTGCCAATCCTC
TTGGTGCCTGGTATCTGGGGAGTTTGTTTCAGACTTAGTCTCATGGCATCTCTTTTCAATTAAAGGATTCTACTCTCTTAACTTGTGGAGGCTGGGAAAC
CAACTTGTGGAGGAAAGGAAACCACAATCTCTACTCTTTGTTAGAAATTTATTTACAAATATTACAGATGCTGTGGCCGGGTGTGGTGGCTCCTGCCTGT
AATCCCAGCACTTTGGGTCGCCATGGCAGGGGGATAACGTGTGGTCAGGAGTTCCAATCCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTACAAGT
ACAAAAATTAGTTGGGTGTGGTGGCACGCGCCTGTAGGCCTGGCTACTTAGAAGGCTGAGGCAAGAGAATTTCTTGAACCTGGGAGGCGGAGGTTACAGT
GAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAATTACAGATGCTTATTATGCATCTAATT
TGTGTCAGTCTTATGCTAGTTGCTAGCGAGTCGGAGATAAAATTGCAGAGCCATGCCTTCAGGGAGTCTAGTTAGGATACTTTCTCTGTTCAGTCTCCTG
TAGAGTAATCCTCTGCAGCAGTCTTACCCTGCCTTTGGTATCCTGACTCTCCCCTACCTTCAGTGTCGAGGAGGGCCCCAACCGCAGCACAGTCAGCCGC
CCCCGCAGCCACCGGCTGTGACCCCGGAGCCAGTAGCCTTGAGCTCTCAAACRTCAGAACCAGTTGAAAGTGAAGCACCTCCCCGGGAGCCCATGGAGGC
AGAAGAAGTGGAGGAGCGTGCCCCAGCCCAGAACCCGGAGCTCACTCMTGGCCCAGCCCCAGCGGGCCCAACACCTGCCCCGGAAACAAATGCACCCAAG
TGAGAGATGGAGGGAATCTTTAGTGGGTGGGGAATCCTAAGTGAAGTATGGGGAGAAGGAAATGAACCATGGCAAGGGAGGGAAAGGATTACTTGGAGGT
CTTAGTTGAAGGGTTAGCATTGAGGGGCGAGGAGGGGCTCTCTCGGTATAGGTAAATGACGCTAGGACAGGCAGCTGAGAAGAACTGCTGCTCTCCCTAY
GGCAAGGAAATCCAAATGGTATCTCCTGAGCCTGATCGGAATTCTCCTCTGAGTTCACGAAGGCCTGCTCTCTTTCTTAGAATTAGTCTTTCACCATTGT
AGGTGCAGGATTGTGGTGGGGAGGGTGGGAGCAGTTCATTTTCTTCTCCCTATCCTCTCATGGGTGGGAGTAAAGAATAGAAGCTTTGGCTGGGTGCAGT
GGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCAGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGT
CTCTACTAAAAAATACAGGCCGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGTCAAGAGATCGAGAC
TATCCTGGCTAACATGATGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTG
AGTCAGGAGAATGGTGTGAACCCAGGAGACGGAGCTTGCAGTGAGCTGAGGTCGCACCACTGCACTCCAGCCTGGGTGATAGAGCGAGACTCTGTCTCAA
AAAAAAAAAAAAAAAAAAAAAACAAAAATTAGCCGGGTGTGGTGGCAGGCAACTTAATCCCAGCTACTTGGGAGGCAGAGGCAGGAGAATCGTTTGAACC
TGGGAGGCGGAGGTTGAAGAGAATAGAAGCTCTGCTGGTCCAGAGAAGGATTGGGCCAGGGCTCTGGGAGACCAGGGAGAAAGAGGGCACATGTGGTCCC
TGTTGACTGTGAGGGTGGGAATCTGAGGAAGGCTTTGGCTCATTGCCCCTTGGGTTTGTCCACAGCCATCCTTCCCCTGCGGAGTATGTCGAGGTGCTCC
AGGAGCTACAGCGGCTGGAGAGTCGCCTCCAGCCCTTCTTGCAGCGCTACTACGAGGTTCTGGGTGCTGCTGCCACCACGGACTACAATAACAATGTGAG
CCCTTTGATGGCCCTGCCCTTTCTCCTCAGCCCCAGTACTCCCAAAACAGAACAGGCTGAAATRCAGATAACTCTTTCCCTCCCTGGAAAAACATTGCAA
CAGGGCCAGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCATCTGAGATCGGGAGTTTGAGACCAGCCTGGCCAA
CATGGTGCAACCCCATCTCTACTGAAAATATAAACATTAGCTGGATGTAGTGGTGCACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATC
GCTAGAACTCGGGAGGAGGGGGTTGCAGTGAGCCGAGATTGCACTACTGCACTCTAGCCTGGGTGACAGAGCGAGACTGTCTCAAAAAACAAAACAAAAC
AAAAAAACACACATTGCAACAAAACARTTTCTCTCTAAACCTGTAAGTGATTTTGTCCTCCCTTACAGAGAAGGTGATAATCTTTGCTGTAAGCACTGTC
CTCGTATCGTACCCCTTGTGCCCCTGAATGAATTTAGAAAATGTAAAGTACAGGAGATCAGTATATGATGACTTACTGATTCATAGTAGTGTTTTAATAG
GATGTTCCTTATGTGAATAAGATATAATTTATTTGCAAAGATTTGGTCTACATGTAAACTTCCAAGGATATAACTGAAAGTTTTGGAGGACATGGTATTC
TCAGTAGGCATTATTGCTTTTATTAGTGAGATGGACTCCAGCTTGATATTTTCTGCCTTTTTGTGTTTGGCTGGTTGTGCGCAGCACGAGGGCCGGGAGG
AGGATCAGCGGTTGATCAACTTGGTAGGGGAGAGCCTGCGACTGCTGGGCAACACCTTTGTTGCACTGTCTGACCTGCGCTGCAATCTGGCCTGCACGCC
CCCACGACACCTGCATGTGGTCCGGCCTATGTCTCACTACACCACCCCCATGGTGCTCCAGCAGGCAGCCATTCCCATACAGGTGGGTTAGGGGGAGTCT
GGCCTGAGGGAGAGTGAGGGGTGTTGATAGAGTGACCCAGGGTAGCTACTGGGCCTGAAGGAGGTTAGGAAAGGAGGAGACTGGAAACATGGTGATGAAG
GCTGGAGATACTTTAGAGGTTTATCATGAGGTTTTCTTGGTTAGGCTCTTGTATTTTTCTCACATCTGCCTGTCCATCTGTCTTTTTCAGATCAATGTGG
GAACCACTGTGACCATGACAGGAAATGGGACTCGGCCCCCCCCAACTCCCAATGCAGAGGCACCTCCCCCTGGTCCTGGGCAGGCCTCATCCGTGGCTCC
GTCTTCTACCAATGTCGAGTCCTCAGCTGAGGGGGCTCCCCCGCCAGGTCCAGCTCCCCCGCCAGCCACCAGCCACCCRAGGGTCATCCGGATTTCCCAC
CAGAGTGTGGAACCCGTGGTCATGATGCACATGAACATTCAAGGTGAGAATAGTTGCTGGCGAGAAGAGCAGGATCAGCATGATGAGGGAGGTTCATGCT
GAGGTGTGAGGGAACAGGGTGGGGAAGGGAGAGGCACATGCTGGTGGTGGTAGCCTGGGGACCAGAGCAGAAGCTTAAGTAGACAGATGTGGGGGGTGTG
GGGGTTGGTTTGTCTTTGGAGGTGTGTTTGTGTGGTGAAGGGAGTACCTCTCCCTGTTTAGATGGAGGGAAAGGCAGGCTTTCTGATTGGGGGATTATGG
GCCTGAAGTATGCCTGATCTCAGAAGGATATAGTTAGGCCTTGGCCCTACCTACCTCAGGGCCACTGTCTCTGTCTCCCTGCCCAGATTCTGGCACACAG
CCTGGTGGTGTTCCGAGTGCTCCCACTGGCCCCCTGGGACCCCCTGGTCATGGCCAAACCCTGGGTAAGAGTGAGGGCATCAGGGCAGGCTGAGCTCTGG
GTAGAGAAAGGGAAGGGCTGWGTGGGTGGGTTGAAGGGGTCCAGGTTCAAGGTTACATCAGACCCGCCCCCCAGGCTCCACCCTCATCCAGCTGCCCTCC
CTGCCCCCTGAGTTCATGCACGCCGTCGCCCACCAGATCACTCATCAGGCCATGGTGGCAGCTGTTGCCTCCGCGGCCGCAGGTAATGACCTGGAAGGGG
AGGCTTGGGAGGTAGGGCACAGTCCATGGTGGCAGCTGGCTGGCAAGGGCCTGGCCCTCAGCCCTCTTCGGTCTGTCTCTTCTGCCACCCACAGGACAGC
AGGTGCCAGGCTTCCCAACAGCTCCAACCCGGGTGGTGATTGCCCGGCCCACTCCTCCACAGGCTCGGCCTTCCCATCCTGGAGGGCCCCCAGTCTCTGG
GACACTGGTGAGCAAGGGTCGGGGAKTTCTAGTGCGTAACAGTCTAGGGAGAGACTCCTGTGGTGGTGCATGGAAGGGCAGGTCTGAARTTCTCCCTTGC
TCTCTATCCAGCAGGGCGCYGGTCTGGGTACCAATGCCTCGTTGGCCCAGATGGTGAGCGGCCTTGTGGGGCAGCTTCTTATGCAGCCAGTCCTTGTGGG
TGAGTTTTCATTCTTCCCCACTCAGAGTTTAAACTCCTTTCCTAGTCTGCTCACTGGCACTTTCCAGTTCTTTCCATATTTTCTTGGTTCCTGCTTTCCT
GGAATGGGGCTGCTGTAGTGTCTTGTGTCTTCAGGTTTCAGCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCTAGGCTG
GAGTGCAGTGTACAATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCACG
CCACCACGCCCAGCTAATTTTTTATGTTTTTAGTAGAGAAGGGGGTTTCACCATGTTGGCCAGGATGGTCTCGAACTCTTGACCTTGTGATCCACCCACC
TTGGCCTCCCAARGTGCTGGGATTACAGGCTTGAGCCATCGTGCCCGGCCAGCTTTTTTCTTTTTTTTTTAAGTTACAGAGTCTTGCTCTGTCACCCAGA
CTGGAGTGCARTGGTGCAATCCAGTGAGTTAAAGCTCACTGTAACCTTGAACTCCTGGGCTCAAACAGTTCTCCCACCTCAGCCTCCTGAGTAGCTAGCA
GTACTAGCTCCTGGCTAGTAATTGTCTTTTTTTTTTTCTGGTAGAGATGGGGTCTTGCTATGTGGCCTAGACTCCTGGGCTCAAGCAGTTCTCATGCCTT
GGCCTCCCAAAGTTGCTAGGATTACAGCCAAGAGCCACCATGCTCAGCCCAGCTTTCTTTTTTTGGTTTCTTACAGCTCAGGGGACCCCAGGTATGGCTC
CACCGCCAGCCCCTGCCACTGCTTCTGCCAGTGCTGGCACCACCAACACAGCTACCACAGCTGGCCCCGCTCCTGGGGGGCCTGCCCAGCCTCCACCCAC
CCCTCAACCCTCCATGGCTGATCTTCAGTTCTCTCAGCTTCTGGGGAACCTGCTAGGGCCTGCAGGGCCAGGGGCTGGAGGGYCTGGTGTGGCTTCTCCC
ACCATCACTGTGGCGATGCCTGGTGTCCCTGCCTTTCTCCAAGGCATGACTGACTTCTTGCAGGTGAGTGGCTGGCTTGCCATTCACCTCATCTTCCTGT
CCCCCGGCCCAGCCAGGCAGTGGTACCTTCTTGCCATTAYATAACCACTGGGTAAGAGCCCCTAGTGACATGTTAGGGGAAGGGGCCCTRGGAATTCATT
GACTCTGAACCTTTCATTTTAAAGATGAAGAAAATGAGGTTTAGAAAAAGAAAGTATAGTAATTAGTGTCACTGCTTTCTGACARCCTGTTCAGAGGAAG
AGGTAGGTAAGTTGTGCTGCCTGACTCTGTTAAATACCTACCATACTTCTGCTTTAAGCAGTGAAGATCAGAATGTAACTCCCCATCTTCCCAGACCCGT
TGGTTTGTGCCCTCTTGATGCCGTATTATTTCCGTGTGTCTTCATTCTCACCTCACTTTCTGTTCTTTGTTCTTTATTTGCCAGGCAACACAGACAGCCC
CTCCACCACCCCCACCTCCTCCACCCCCACCACCTGCCCCAGAGCAGCAGACCATGCCCCCACCAGGCTCCCCTTCTGGTGGCGCAGGGAGTCCTGGAGG
CCTGGGTCTTGAGAGCCTGTCACCGGAGTTTTTTACCTCAGTGGTGCAGGGTGTGCTCAGCTCCCTGCTGGGCTCCCTGGGGGCTCGGGCTGGCAGCAGT
GAAAGTATTGCTGCCTTCATACAACGCCTCAGTGGATCCAGCAACATCTTTGAGCCTGGAGCTGATGGGGCCCTTGGTGAGCAAAAAGGATGCTTTGGCT
TGCTCCAGGAAGGGGCAGCCAGAGGAATGTAGATGGCCTTGGTTTAGGGGTRTTGCCAAGGTGGGATGAGGTTGATGATCTGGTTGTGGGTGGGCAGGCC
AGGTGGTAAAGGCCATTGCTAACATCTGCCCTTGTCCCCCAGGATTCTTTGGGGCCTTGCTTTCTCTTCTGTGCCAGAACTTCTCTATGGTGGACGTAGT
GATGCTTCTCCATGGGCATTTCCAGCCACTACAACGGCTCCAGCCCCAGCTGCGATCCTTCTTCCACCAGCACTACCTGGGTGGTCAGGAGCCCACACCC
AGTAACATCCGGGTAAATGAAGGCCAGGGGCCCCAGAACTCTCCTCTTTTGCACATTTTATTCCTTATTTCTGACTGCTTCTCTGCCAGGTAAAGCTCCA
ATTGCCCCCACACAAGCCCTGGACTTGTTGGGGTCGAGGTGGAAGTCTTGGGAGGACTGAGGCTTTGAACTAAACCTGTTCTGTTTCCTCCACAGATGGC
AACCCACACATTGATCACGGGGCTAGAAGAGTATGTGCGGGAGAGTTTTGTGAGTAACCCTTCTCTATTCCTTTCCTCTCCTGGGTCTGGTCRAGGCAGC
TGCCTCCTCCACTCCCAGTCTTATGATTCTTGATTTTGGGATCTTTGTGTTATCTTGTCTCTCAGTCCTTGGTGCAGGTTCAGCCAGGTGTGGACATCAT
CCGGACAAACCTGGAATTTCTCCAAGAGCAGTTTAATAGCATTGCTGCGCATGTGCTGCATTGCACAGGTCAGGGGCTGGCCAGGCGGGGGCAAGKGGGG
CCTGTTGCATGTGCAGGGCTGCCACGTGCCAGCATTCCCTCCTTGTATTTTGCCCACAGATAGTGGATTTGGGGCCCGGTTGCTGGAGTTGTGTAACCAA
GGCCTGTTTGAATGCCTGGCCCTAAACCTGCACTGCTTGGGGGGACAGCAGATGGAGCTTGCTGCTGTTATCAATGGCCGAATTGTAAGCACCACCTAGC
CCCAGATCCTTAGCCTTTTGTTTCCTGAGGTTTCCATTCTCTGCAGTTTTCATTTTTCTTTTCTAAACTGACATTCTGTAACCTGGATCTAATCTATTTC
TAAAGGTGGTTGAGGGTTTTGTGTTCTAAATCTGCTTTCTGTCCCTCAGCGTCGTATGTCTCGTGGGGTGAATCCCTCCTTGGTGAGCTGGCTGACCACT
ATGATGGGACTGAGGCTTCAGGTGGTACTGGAGCACATGCCTGTAGGCCCTGATGCCATTCTCAGATACGTTCGCAGGGTTGGTGATCCCCCCCAGGTAA
GGGACCTGTTGGGCGATGGGGTCAGGGTACTTGAGAGAACTGGAGAGATCTGAGAGGAAGTATGGTGTTCTTTAATTTCACAGCCRCTTCCTGAGGAGCC
AATGGAAGTTCAGGGAGCAGAAAGAGCTTCCCCTGAGCCTCAGGTACTCTAGAGAGGGGGAGGTTGAGGGGCCAGATAATGTGGAGTGGAGGGCTGGGGG
AGAAAGGTTTGGAGGCTAAAAATTCTGAAGCCTGGCTCTTCCCGCCATCTGACACCCAGCGGGAGAATGCTTCCCCAGCCCCTGGAACAACAGCAGAAGA
GGCCATGTCCCGAGGTCCACCTCCTGCTCCTGAGGGGGGCTCCCGGGATGAACAGGATGGAGCTTCAGCTGAGACAGAACCTTGGGCAGCTGCAGTCCCC
CCAGTAAGTGTCAGGAAGTAATCCAGTGGGTCATGGCAGCTGAAAGTCAAGGACATTACTATTTTCTCTTTTCCTCCCCAGGAATGGGTCCCTATTATCC
AGCAGGACATTCAGAGCCAGCGGAAGGTGAAACCGCAGCCCCCTCTGAGTGATGCCTACCTCAGTGGTATGCCTGCCAAGAGACGCAAGGTTGGTTTTCC
TCTTCCCTAAGCCTCTCTCTCTRTCCAGGTTTCCCCGTCATGCCTGGAATCAAACTATGTAGAGATGGTGGGAGCTCTTGTTATTCAGTCTCCCCTCCCC
TCGTTTAATGAGGAAACTTTTTCTGGGATTCAGACTTGCTCTTGGTTGTTGCATAACCATACAGGACTTGACCTTAGTCTGTTTGCTAGCAGTCCTGTAT
TAGTTGCTCAGCTGCCTAATCCCCATGTGCTTAGATCCCATTTTCCTTTAAGGTGGGTTTCCTCTTGTGGATTACCTAGCTCTGAATCCCGGATGGCTTG
ACCCCTTCTGCCTTTCGTTTTGAAGAGCACGTTCAAGCACATTCACTTTAGTTTTGGCTAGTGCCAAAGAGAATTAGGAAGGCATTTCTGCTGTAAAAAC
CACATCCTGGACTCTTAATTTCCCCTCTCTCCACTAGCATGGAGACTCAGTGGAGTGGTTGACTCATGGAAAGGGTGAGCCGGATGGTGGCACTGGATCT
GACGTTGATCCTCTTTTCCCTCCCAACCCCCTGTCCCCCAGACGATGCAGGGTGAGGGCCCCCAGCTGCTTCTCTCAGAGGCTGTGAGCCGGGCAGCTAA
GGCAGCCGGAGCTCGGCCCCTGACGAGCCCCGAGAGCCTGAGCCGGGACCTGGAGGCACCAGAGGTTCAGGAGAGCTACAGGCAGCAGGTGCCACCTTGA
AGCAGAATAGGGATGGTCTAGTGGGAGGGGTTGGGCTAGGGTCCCTCTTCCCTGGATCCCTTCAGCGATGAACTGGTCAGCCTGGTGCTACCATTTGTTT
TCCCCTTTGGCATCTGGGAAGGCTTGACAGTGCCACCCCGGGCTATTTGACAGYGTGCTTGGGGGGGGAAATGTTAGCTTCTGAGGGATGGCCTTGTGTG
CTTGCTGGGATCATRGGGACTTGGCCAGCSTTTCTCCAACCTGCTTRCTTTTTCTCTTTAGCTCCGGTCTGATATACAAAAACGACTRCAGGAAGACCCC
AACTACAGTCCCCAGCGCTTCCCCAATGSCCAGCGGGCCTTTGCTGATGATCCTTAGCTCTTTGCTCTATGGCCCTTCCTCATCAGGGGACCGTTTCCCC
CCTCTTCCTTCACAGTATTTAAGAAATAAAAGTCGGATTTTTCTGGCTGCTTTCTCTCTACATTGTCTCCATTAGGTAGTGTGTCCCTTAATCTTGTGTG
AACTTTTTTAAATTAATACTTCCTTGGAACACTGTTGTGTTCTACTCAGCACGCTAAATTGTACAAGCCAGTTTTGATGTTTGTTTTTTTTTTTTTTTGA
GACAGAGTATTGCTGTCTCCCAGGCTGGAGTGCAGTGGCCCGATCTCGAGCTCGGCTCACTACAACCTCCACCTCCCGGGTTCAAGTGATTCTCACTCAT
GCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGTCCGCCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTGGCCAGG
CTGGTCTCGAACTCCTGACCTTGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGAATTACAGGCGTGGGCCACCGCGCCCAGCCTGATGTTTGTATTT
TTTGTGCGAAAGCACTTTATATATAAATAAAAAACCTGTATTTTGAGTTGGGAGCATATTCCAGGTGCACACTAGCATAGAGCTCTCAAATTACCCATCA
AAAAAAGTTTCTGAGCAGCTGCAGACCTAAGTATAGTCTTTAGCATAACTAGCATGCAGCGTTACCATGTGAAATCCCACTTAGTTTGACAATGCTGGAA
TTGGTCTATCCAATTCAAAGAGCCCCTTAAGTGTGCTCCAACATTGAGGCCTTAACAGAGATTTCCCCTTAGTTCATCATAAAGAACTGAAGTCCCATGG
CTGCAAATTCTTTGCTAGTCCCTTTGAGATGCAGTTGAAGTCCCTTCTAAACCCCCCCATCCCCTACCTTGGCTAGTTTAGTGCTCTATCAACTAAGCAT
GGCATAAGCTTAGAAAATTCCAGCTAGACCTCTTGGAACATGAGCTCACGGACATTTAACAGGCCTGCTGGAGAGTCCATGTGAAGACACTGGTTGATAA
CCCAGTAATGTTACAGATGTCCCACCAAGGCCCTAGATATGCAAAGGAAGCCATATTGGGACCAGCCCAGGTGTCAGCTGCAGACTGATAACCAGTTGAC
CTCGCTCACTGGCACAAAAAAGCAGATTTATCCAGCTGAGCTCAGCCCAAATTCCAGACTCACAAAAATTTAAAGATCCAATACGATGGTCATGTTTTTA
GTTTCAACAGCTCACTGGAATAAGTAATGAATATTTCCCTGACTGAAACTACAGATCACTCAGCACCATGCTTTAAGACAATGCAAACAACTCATCCCCC
AAATCATTGTAGAAGTTTTTTTTTTTAAATCCTTTTATTACTCTTTTTTAACAAACAGCCCCAGGGACAGGGGACCAGGGGAAGGGGGAGGAGGGGAAGT
GAGGCCCCAGCCCCACAACCCCTCCCCGCCCACCCCTTTCCCCCTTATATATTTATAATCTATATACAAGCCCCGGGGGTAGGGGGCAAGAGGAACTCCC
TCAGCGGGGTGGGGGCAACCCAGGCTCCTTGTCCCCTCGGGACCCAGGCTCCTCTGCCCGTCGGGAGGGCCCTTCTCGAGGTGGCGGCCCTGTCCGCTCC
CAAGGCTTAGGTATCCAGCGCAGGGCATCTGGTGGGGAGGCCTAGGGGACAGGCATGTGTTAAAGAGTGAGTCACAGTGAGAGGTCAGCGATGAGACGGA
AGGACAGGAAATCAGGTGGCAACTCGAATTTAGAGTTGGGGCCACAAGGGTTTCTCCTTCACCTGCTGGTAAAGGTCGACGCGCTGGGTGCGGAAGACTC
CACTGTAGGTGGAAGGCGTGGCCTTGAGACGGGAATTGAGGCCAGAGAAGGACCTAAGGGAAGAAGGGCGTCTAAGGCAAGCCTAGGATCCAGACCCTGG
TTCCAAAGTAAGGAAGCACTTGGAAAGTCCACATCCCTATTCCGTTTCACCTTCCAGTTGGGGGAGTCCGTGATGATCCAGGTCCCCCAAGGTTGCTGCT
CAGTTTTTGATAATCCTGGAACGGCTTTAGTTCCACTGGATGCAGCTGAGGGGAAAAAAATCATGAGCTGCCTACCTTGAAATACAGAATCCCTACTCCC
AAGTCTTGGCGCTCCCTAGCCCCTCAGTTCCTGTACCTTACCTCTGCTCGCCCCAAGCTAGCGGGGAAGGGCCTGGCAGGTGAAGGCAGCACCCGAGTAG
CAGGAGCAGGTGGGGGCCGCACAGCCAGGCTGGGGGGCTGCAGAGCAGGGCCCACAGGTAACAGAGAAAGGGGAGGTGGGGCAGGAGGTGGTGCTGGCGG
CAGGGAGCCAAAGTTCACCACAGGCAGCTGTGAGTCTACCATGGGTAGAAGCATCTGTAACAAGAAATTTGGGTGTGCATGTTGGGGGCAGGGAGGAATG
TCAGAAAACCAGGGAAAATCAAAGCCAGCAACTGGACAGAGAAATCAAATGAAGGGGAAGTGTGAAGATACAATATACCTGCTGGGCAGGAGCCCCTGAA
GGGAGAAAGCCACTTTGGCCACCAGGCTGCAGAGGAGTAGAATAAAAATCCGAAGGGGATGGCAGATCCTGGCGTACCTGTCGGGAAACAGGGAGAAATA
TATCAACCCCCACAAAATCATTCTCCCTACCCTATCCCCCAATATCTAATACCTGCCCCCCTCTTACCTGAAGCAACGATGTGTCAGGCAAAGGACTGGG
GCAGAAAGCCGGAGAGTAGAGGAAGGAAGGTGGAGGGTAGAGAACTCCTCCAGCCGGCAACTTCCCCAGCTCTGTAGCTTGCATTGTGGAGAAATCCAGA
AACTGGCCCTTGAGAGCTACCCCAGAGAGCAGTGCTGAGGGAGGGGCTGGGCCGGGGGGTAGGTATAGGGGCTGTGATCTGAAAATAAATTGTGGGGAGA
AAAGCTGTTAGGAAGCCAGAGTCCTAGCAATGCCTTAAGTCCACTAGCTTCTAGTACCCTAGAACTGTGTCTTCCCCTTCCCTCTCCCCGAAACACATCT
CCAAGTACTTCTGTGATCCACAGGCATCGAGTCTTACCTGTAAGGGTGCAGTGAGGGTGTCCCAGGGCGGAAGCCTCCACTGTTTGGATGTAATTGAGAG
TCCATGGCTCCCCCAGAGATCTGCAGGAGAGGAGCACGGTTGAAACAGCTTTAGTATCTGTGGTCAAGAAAAAAGATCACCATCCCACCCATAGAAGCAA
AAAGTAGGGAGAAAAATGATGTGACAAAGTGGTATCTCACAACTCTGCAACGTAGAAAGGCTTGATTATAAATACATACCAGGCAGAAAAAAATTATTAT
TCACTGAAGGGGTCATGCAATGGGAAGCGGGGCCTACCTGAGAACTGGAAGGCCCAGCACTGCCATAGAAAACCTCAGGATACAGGCGCTGGCCTGAGGA
GCTGGGCTCCGGGACACAGTGCCCAGAATCCAGGTTCTTGGATTGTGGCTCAGCAGAGGCAGCAGCACTGGGAAGCAGCTCCCAGTCTCGTGATACAGGA
ATGGCCTGGGAAGGAGAGGCCTCGTGGAGAGGGATGTCTGGCATCCTGGACGCCCTGGTCACTCCCAGCAATCTTCCCCAGAAATCTTGGGCCTTTCCAC
CAAACTCTTACTCCCACTTACCTCAGTGACTGATGCTGTTAGCTCCTTCTCTGCTTTCAAGCTGTCTCCTACCACTAGGCGTAAGTCTGAGTCCTGTGAT
CACAAGAAGGCAGGAGACATTGTCCCGTGACAGACATGTGTCCTCTATGTCCCACCTTTAGTCCTTCCCTTCTCTCCACCCAACTCAGGATACCCAGATC
CAGCCCACACAGACCTTGTCACTAGTGCCAAACTGGACTGGGGGACCAGGTCGATGGGATGGCCGAATGGGGCCAGGCTCTGTGCCTCGGTCTGTACGCT
GTGATCGTTCTGTGCCAATGGGGCCAGGGGGCAGAGGCTGCTCCCGGGGCAGCTCCTGGATTGGGCACACAGTAAAGTGCATTGGGGGAGGGAAAGGGAA
ATCCAAATTGGAATGCCCAGAACACACACGCAGAGAGAAAAAGCAGAAAAAGGTAGGGCCAAAGTCAGATTCCTGGAAACATTCCCCTTATCCTTTTTTG
GTCTTTTACCTTTCTGTCCCCATCGTGGGGGGCAGGTGGTGGTCTCCTAGGAGGTTCAGAGCCAGGTGGACCCTCACAAGGAACAGCATTCAGGGGTGAG
GAGCCTCCAGGCCTCTTGGGGGGTCCCTCTGCTGCCCCCTTGAGTCCTCCATCAGGGGAACTTCGCTGGCTGCAGGGACCTGATGACACCTGAGAATCCC
CACTCAGGTCCACCCCACTGTCAGACTGACTCATCTGAGAGGAGTGGAGAAGGAGCTAGTTAAGTCAGGGTAGAAAGCACCCCAATACCTGACTGATGCA
CACATACAAACTGCAGAAAGGGGACAGCCAAGTGAGAGAACAGCTCCAGACTCAACCCAGAGCAGGTGGGGGGTATGACCAGTGCTCAAAAAAGTCCCAG
CTCAGACACACCCTCCCACCCTCACTCACTTCTGTGCCAGCCACATCCTCAAAAGGACTCAGGGGCTCCATCCAAGGCTCCATGGAGCTGGGCCGGTAAC
TCTTTCGGCTAGTGGCTGGAGAAGGGAGCACCAACCAGAAGAGAAGTGAGGAGATGACAGTTCAGAAGCCCCTCTCATTCTTAACCCTTCTACCATAGTC
CTTTCACTCAGCTTTACTCACCAGTATGTAAACGGTTCCAGATGTGAGGGGTCAGGGCCTCTGTGCCTGTATCTCTGGACTCTGCCTGAGGGCCTGGGCC
CTCAGGCTTAGAGCCCAAGAATCCAGAGCTATGAGGAGGTGGCAAAGATTCCTACAGATGAGAAGGGCCAGAAGCAAAACATGAATTGGGTGGGAATTGG
GAATTATAGGAAGCCAGGACAGAGTGGGGTGACACAGGGTGTGGGGACAACAAGGGAGACACATGGGAGACTAATACTGAGAATTCTGGAGTAAAAACAC
AGTGAAAGAAACAGGAAAGAAAACAGAGAAAACATAACCCAGAAGAATTTTCACGAGTAAGAGTGCAGTGAAGCACAATCTCAAACCCATCCCTTACCTC
CTGTAGCAGCTCTGGTTTTCTGGGAGGCCGCTCCCGACGTTTAGGGGGAAAGGGACTAACCCCGGCAGAGTCCCGAGGAGTCCCACCCACCCCTCTCACC
ATTGGCCCCGGCTCCTCAAAGTGGGGGTCTGGGAAAGAGAAAAAGGGTCAGCATCTGCCTGGCTCTGCCACTGACCCTAACTTTTCCTCTCTACTCCACC
TCCCAATTCTTCTACCCTTGCTCCCTGCAGAAACGCACCCAGCAGCAGGGCCCCTAGGCCAGGTTCTCCACCCGCTCCCTCCAGCACTTGACCTTCTCTG
GGGATGGAGATATTCCCACCCATAACCCCTCCAGCTTACCAGAACTGAGGCCGCTGTTGACCCTCTGGGGCTCGTATCGGGTTGGGGGCCTAGGAGAGGG
GCCCTGAGGGGCTTGGGGAGGCCCAGGCTTGTGCCTTGGATGACCCCCTGGTGCAGTTACACTCCCTTGACGGCTACTAAGCTGGGCCAGAGCCTGTTGG
ATGCCAGCAGGGTTGCTGTGGATAACTTGGTCCAGGCGGAAGACAGCAGAACTGCTGGGAGGTGGGGGAGGCAGGGGAAGCCCCGGGGGACGCTCCTCTG
GAGGACGACTGGAGAAAACAGAGCATTAGCTCCAGTATCCACTAAATCGTTACTTTTTCCCACAAGTTATGTTTCCCAACTTCTGCTTACAACCTATTCT
CTTCCCTATTAAAGTCCAGGTGTTTTTGAGTCCTTCTAAGGGTTCCTATGCATACAGATGCACAGACTGGAAAGCAAAGAACCAGCAATGAATACATAGG
TGGGTGTTCTTGACTCTAACACCCTACCAACCGCTTTCCAGTTGCCTTAGCCAGACATGGAAATCCTACTGACATTCTAGAGCCCATGGCCCCTCAGGCC
ACAATCTCCACTCCACCCAAACTTATCTTTCCCTCAGGCTTTTTCCCCCTCCTCCAATTTTTA


SNP Information

Context             (SEQ ID NO:61232):
AAAGTGCTGGGATTACAGGCTTGAGCCATCGTGCCCGGCCAGCTTTTTTCTTTTTTTTTTAAGTTACAGAGTCTTGCTCTGTCACCCAGACTGGAGTGCA
R
TGGTGCAATCCAGTGAGTTAAAGCTCACTGTAACCTTGAACTCCTGGGCTCAAACAGTTCTCCCACCTCAGCCTCCTGAGTAGCTAGCAGTACTAGCTCC
Celera SNP ID:            hCV2451879
SNP Position Genomic:     23911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61233):
GGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCTGGGACCTTTTTTGCTTTCTTATCTTCTTAGTCTTTCTTCA
K
TAACCTGATACCAGACCCCATCTTCTTTGCCATTTTTTAATCTTGGAAATCACAGGAGAGTCTGGTAAATAAACTGGTATCATCTTGTGTTTGGAAAGGG
Celera SNP ID:            hCV3233741
SNP Position Genomic:     16946
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,2)      total(G,2|T,2) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61234):
GGTAAATAAACTGGTATCATCTTGTGTTTGGAAAGGGGTCACTGATGTCTCTAGACACATACTCCCTTGGATGCCAGACAGATAATATAATGTCCATGTG
K
TTTTTTTTTGTTTTTCATCCGTGTTATTTTTCCTGGATCTATAACCTGAGCTTCATTAAGTTTATTTATTTAATTTTTTGAGATGGAGTCCCTCTCTGTC
Celera SNP ID:            hCV3233742
SNP Position Genomic:     17110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,5)      total(G,4|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61235):
AAGGGACAGGCATGGCTCTGGCCTTTGGGAAGGGAAACAGCACAGGAACCCTAAGCAAGTGTGTCTTACTGATAGACATTGGTCAGGTCTATGCTGTGTT
Y
TTAAAGGGTAGAAATCAGAACCCATAATGGAGATAGGTCCTTGATAGACTGTTGAGTGAAATTACTAATTTTTATGGCATAGCTTGAGTCTCTTGAGCTT
Celera SNP ID:            hCV27462288
SNP Position Genomic:     16306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61236):
CCTCAGGTGATGTGCCCTCCTCGGCCTCCCAAAGTGCTGGTATTACAGGCATGAGCCACCGCACCTGGCCTCAGATTTTCTTTTTATTGATCCCTTTGTT
Y
GTATTCCAGTAGAACGTTTTCTGATGTTTTGTGAGTGAGGCTGATTTTGTTCTGTCCTCCACATGGATAGAACTTAATGCAGAGGGAAATACAGAGGAAG
Celera SNP ID:            hCV7514740
SNP Position Genomic:     16064
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61237):
TCCCTAAGCCGTCGATCTCCTGCCCTTTGTGTTTCTCTCCCTGTGCCCCGGAATCAGAAGGGGGATGGGGACAGGTGTGAATGTGTGTGTGTGCAGGAGA
W
ACTTTTTAGGTATTGGGGCAGGGATTAATGCTAGGGAGTCTTTCGGGTACACTCTGGTCTGGGCAACAGCGGGCCTTCCTTCCTTCGTTCTTCTTTAGAG
Celera SNP ID:            hCV7514741
SNP Position Genomic:     15415
SNP Source:               Applera
Population(Allele,Count): african american(A,31|T,3)   caucasian(A,28|T,10)   total(A,59|T,13)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(A,10|T,13)   SC_12_C(A,6|T,17)   SC_12_AA(A,0|T,23)   SC_95_C(A,54|T,121)   total(A,70|T,174)   no_pop(T,-|A,-)   JBIC-allele(A,732|T,761)   total(A,732|T,761)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61238):
CTTGAACCTGGGAGGCGGAGGTTACAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAA
A
TTACAGATGCTTATTATGCATCTAATTTGTGTCAGTCTTATGCTAGTTGCTAGCGAGTCGGAGATAAAATTGCAGAGCCATGCCTTCAGGGAGTCTAGTT
Celera SNP ID:            hCV9555517
SNP Position Genomic:     19273
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61239):
AATACTATCGGGGAAACGGAAGTGGCCGTCGGTGGCAGGTTTGGGGGAGACCGGAAGTGACGGTCCGTGGGGAAGTCGGGGGCGGAGCCGCGGGGTGGTG
K
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGGCTGTGGGTTAGTTGTGCCGTTCTGCTGGAACACCGTGGGAAGGCAGTAGACGCG
Celera SNP ID:            hCV16286906
SNP Position Genomic:     14927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:61240):
ATCATCCGGACAAACCTGGAATTTCTCCAAGAGCAGTTTAATAGCATTGCTGCGCATGTGCTGCATTGCACAGGTCAGGGGCTGGCCAGGCGGGGGCAAG
K
GGGGCCTGTTGCATGTGCAGGGCTGCCACGTGCCAGCATTCCCTCCTTGTATTTTGCCCACAGATAGTGGATTTGGGGCCCGGTTGCTGGAGTTGTGTAA
Celera SNP ID:            hCV27898010
SNP Position Genomic:     25996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61241):
TGTGTGTGTGTGTGTGTGTGTGTTTGGCTGTGGGTTAGTTGTGCCGTTCTGCTGGAACACCGTGGGAAGGCAGTAGACGCGGGCAGTCAGCTAGCAGGTC
Y
GTCGCCCCGTGAGTGCCGTTTCGGGTCTATAGTGAGTTAGGAGGGTTCGATGGGCGTGGCGCGCGTGCGCGAAACCACTTTCTCCGCAGAGTGTGGGGCG
Celera SNP ID:            hCV7514742
SNP Position Genomic:     15047
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,19)   caucasian(C,17|T,23)   total(C,24|T,42)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   no_pop(T,-|C,-)   JBIC-allele(C,595|T,890)   total(C,595|T,890)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61242):
CGTTTCTCCAACCTGCTTACTTTTTCTCTTTAGCTCCGGTCTGATATACAAAAACGACTGCAGGAAGACCCCAACTACAGTCCCCAGCGCTTCCCCAATG
S
CCAGCGGGCCTTTGCTGATGATCCTTAGCTCTTTGCTCTATGGCCCTTCCTCATCAGGGGACCGTTTCCCCCCTCTTCCTTCACAGTATTTAAGAAATAA
Celera SNP ID:            hCV7514727
SNP Position Genomic:     28129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61243):
GGCAGGCCTCATCCGTGGCTCCGTCTTCTACCAATGTCGAGTCCTCAGCTGAGGGGGCTCCCCCGCCAGGTCCAGCTCCCCCGCCAGCCACCAGCCACCC
R
AGGGTCATCCGGATTTCCCACCAGAGTGTGGAACCCGTGGTCATGATGCACATGAACATTCAAGGTGAGAATAGTTGCTGGCGAGAAGAGCAGGATCAGC
Celera SNP ID:            hCV25630740
SNP Position Genomic:     22279
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61244):
ATCCCCCCCAGGTAAGGGACCTGTTGGGCGATGGGGTCAGGGTACTTGAGAGAACTGGAGAGATCTGAGAGGAAGTATGGTGTTCTTTAATTTCACAGCC
R
CTTCCTGAGGAGCCAATGGAAGTTCAGGGAGCAGAAAGAGCTTCCCCTGAGCCTCAGGTACTCTAGAGAGGGGGAGGTTGAGGGGCCAGATAATGTGGAG
Celera SNP ID:            hCV25630741
SNP Position Genomic:     26586
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,36)   total(A,69|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61245):
CAGATGGCAACCCACACATTGATCACGGGGCTAGAAGAGTATGTGCGGGAGAGTTTTGTGAGTAACCCTTCTCTATTCCTTTCCTCTCCTGGGTCTGGTC
R
AGGCAGCTGCCTCCTCCACTCCCAGTCTTATGATTCTTGATTTTGGGATCTTTGTGTTATCTTGTCTCTCAGTCCTTGGTGCAGGTTCAGCCAGGTGTGG
Celera SNP ID:            hCV25630742
SNP Position Genomic:     25793
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,10)   caucasian(A,25|G,9)   total(A,51|G,19)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61246):
GCCCTGGGAATTCATTGACTCTGAACCTTTCATTTTAAAGATGAAGAAAATGAGGTTTAGAAAAAGAAAGTATAGTAATTAGTGTCACTGCTTTCTGACA
R
CCTGTTCAGAGGAAGAGGTAGGTAAGTTGTGCTGCCTGACTCTGTTAAATACCTACCATACTTCTGCTTTAAGCAGTGAAGATCAGAATGTAACTCCCCA
Celera SNP ID:            hCV2215700
SNP Position Genomic:     24685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61247):
GAGCCTGGAGCTGATGGGGCCCTTGGTGAGCAAAAAGGATGCTTTGGCTTGCTCCAGGAAGGGGCAGCCAGAGGAATGTAGATGGCCTTGGTTTAGGGGT
R
TTGCCAAGGTGGGATGAGGTTGATGATCTGGTTGTGGGTGGGCAGGCCAGGTGGTAAAGGCCATTGCTAACATCTGCCCTTGTCCCCCAGGATTCTTTGG
Celera SNP ID:            hCV2215701
SNP Position Genomic:     25252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61248):
GGATCCCTTCAGCGATGAACTGGTCAGCCTGGTGCTACCATTTGTTTTCCCCTTTGGCATCTGGGAAGGCTTGACAGTGCCACCCCGGGCTATTTGACAG
Y
GTGCTTGGGGGGGGAAATGTTAGCTTCTGAGGGATGGCCTTGTGTGCTTGCTGGGATCATAGGGACTTGGCCAGCGTTTCTCCAACCTGCTTACTTTTTC
Celera SNP ID:            hCV2215702
SNP Position Genomic:     27954
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,34)   total(C,1|T,63)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61249):
TGGGAAGGCTTGACAGTGCCACCCCGGGCTATTTGACAGTGTGCTTGGGGGGGGAAATGTTAGCTTCTGAGGGATGGCCTTGTGTGCTTGCTGGGATCAT
R
GGGACTTGGCCAGCGTTTCTCCAACCTGCTTACTTTTTCTCTTTAGCTCCGGTCTGATATACAAAAACGACTGCAGGAAGACCCCAACTACAGTCCCCAG
Celera SNP ID:            hCV2215703
SNP Position Genomic:     28015
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,9)   caucasian(A,16|G,8)   total(A,31|G,17)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61250):
TGCCCAGCCTCCACCCACCCCTCAACCCTCCATGGCTGATCTTCAGTTCTCTCAGCTTCTGGGGAACCTGCTAGGGCCTGCAGGGCCAGGGGCTGGAGGG
Y
CTGGTGTGGCTTCTCCCACCATCACTGTGGCGATGCCTGGTGTCCCTGCCTTTCTCCAAGGCATGACTGACTTCTTGCAGGTGAGTGGCTGGCTTGCCAT
Celera SNP ID:            hCV2451880
SNP Position Genomic:     24383
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,19)   caucasian(C,19|T,19)   total(C,36|T,38)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61251):
GAAGGTGAAACCGCAGCCCCCTCTGAGTGATGCCTACCTCAGTGGTATGCCTGCCAAGAGACGCAAGGTTGGTTTTCCTCTTCCCTAAGCCTCTCTCTCT
R
TCCAGGTTTCCCCGTCATGCCTGGAATCAAACTATGTAGAGATGGTGGGAGCTCTTGTTATTCAGTCTCCCCTCCCCTCGTTTAATGAGGAAACTTTTTC
Celera SNP ID:            hCV2451881
SNP Position Genomic:     27123
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61252):
CATCTTCCTGTCCCCCGGCCCAGCCAGGCAGTGGTACCTTCTTGCCATTACATAACCACTGGGTAAGAGCCCCTAGTGACATGTTAGGGGAAGGGGCCCT
R
GGAATTCATTGACTCTGAACCTTTCATTTTAAAGATGAAGAAAATGAGGTTTAGAAAAAGAAAGTATAGTAATTAGTGTCACTGCTTTCTGACAGCCTGT
Celera SNP ID:            hCV27462990
SNP Position Genomic:     24590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61253):
CAAACATCAGAACCAGTTGAAAGTGAAGCACCTCCCCGGGAGCCCATGGAGGCAGAAGAAGTGGAGGAGCGTGCCCCAGCCCAGAACCCGGAGCTCACTC
M
TGGCCCAGCCCCAGCGGGCCCAACACCTGCCCCGGAAACAAATGCACCCAAGTGAGAGATGGAGGGAATCTTTAGTGGGTGGGGAATCCTAAGTGAAGTA
Celera SNP ID:            hCV27462991
SNP Position Genomic:     19648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61254):
GTTCTGGAAGACACCTTTAGCTTTTCCTCGTTTAGGCCCCTTAGCCTGAGAGATGAGCTTGATTTTCTGGTCACCAGATTTTCTTTTTTTTTCTTTTTTT
T
GAGATGGAGTCACGCCCTGTCTTCCAGGCTGGAGTGCAGTGGCGCGATCTCGACTCACTGAAACTTCCACCTCTTGGGTTCAAGCGATTTTCCTATCTCA
Celera SNP ID:            hCV26778781
SNP Position Genomic:     15751
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61255):
TCGGGGAAACGGAAGTGGCCGTCGGTGGCAGGTTTGGGGGAGACCGGAAGTGACGGTCCGTGGGGAAGTCGGGGGCGGAGCCGCGGGGTGGTGGGTGTGT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGGCTGTGGGTTAGTTGTGCCGTTCTGCTGGAACACCGTGGGAAGGCAGTAGACGCGGGCAGTC
Celera SNP ID:            hCV26778782
SNP Position Genomic:     14934
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,4)   total(G,1|-,4) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:61256):
ATCGGGGAAACGGAAGTGGCCGTCGGTGGCAGGTTTGGGGGAGACCGGAAGTGACGGTCCGTGGGGAAGTCGGGGGCGGAGCCGCGGGGTGGTGGGTGTG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGGCTGTGGGTTAGTTGTGCCGTTCTGCTGGAACACCGTGGGAAGGCAGTAGACGCGGGCAGT
Celera SNP ID:            hCV26778783
SNP Position Genomic:     14933
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:61257):
CTTAAGTGTCCACGCATCCGTAGTGCGACGCACGCAGGCGTAGTACGGTCCCCCGGGCGACAGCGGTGGCGGCTCCTCGGGGTGCTCGGCTCCCTCCCAC
M
TAGGCCGGCCCCGGCCCGACTCGCCCTCAGAAACTCACTGTTTGGGGCTGCGGACTTTCTCGTCGTGCCCCACAAAAGTAAAGCTTGGGGACCTGGGGGG
Celera SNP ID:            hCV26778784
SNP Position Genomic:     14698
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61258):
TAGAGTCCCAGCTGGTGACTGTTTTTCAGGCATTTACGGTAGCCACCTCAATCTTCTAGCGCTCAAGCGCGCGCACAGACGTGAACGCCGCCAGAGGGGG
G
AGGGGGTGGGGCGATGCTTAAGTGTCCACGCATCCGTAGTGCGACGCACGCAGGCGTAGTACGGTCCCCCGGGCGACAGCGGTGGCGGCTCCTCGGGGTG
Celera SNP ID:            hCV26778785
SNP Position Genomic:     14581
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:61259):
CAAGGCATGACTGACTTCTTGCAGGTGAGTGGCTGGCTTGCCATTCACCTCATCTTCCTGTCCCCCGGCCCAGCCAGGCAGTGGTACCTTCTTGCCATTA
Y
ATAACCACTGGGTAAGAGCCCCTAGTGACATGTTAGGGGAAGGGGCCCTGGGAATTCATTGACTCTGAACCTTTCATTTTAAAGATGAAGAAAATGAGGT
Celera SNP ID:            hCV2215699
SNP Position Genomic:     24540
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,18)   caucasian(C,19|T,19)   total(C,35|T,37)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61260):
CTCGAACTCTTGACCTTGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCATCGTGCCCGGCCAGCTTTTTTCTTTTTTTTT
T
AAGTTACAGAGTCTTGCTCTGTCACCCAGACTGGAGTGCAGTGGTGCAATCCAGTGAGTTAAAGCTCACTGTAACCTTGAACTCCTGGGCTCAAACAGTT
Celera SNP ID:            hCV9555509
SNP Position Genomic:     23870
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,8)   total(-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61261):
ATCCCGGATGGAGGTAAGTGGGCAAGGCTGGCTAGGGTCTCTCTCCACCCTCCCTCTCCCTTTTCTCTCAGCCTGGGAGTTAGGGCTTCACTGGCCACAT
Y
CACAGGGTTTGGCCTTCATAATCTAGTCTTCTCTGCAGTATTCATTCTTTTGGGCAGAAAAAGTATCTTTGTGAGGCTCTCTCATTTCTGCCAATCCTCT
Celera SNP ID:            hCV7514735
SNP Position Genomic:     18701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61262):
TGAGCTTAAAGCCTTGGACATAGCTATCTGTGTCTTTACTCCTGTAATACTTGGAGACAAATTGCATGTGGGGTGGTCCATGGTTTTCTAAAATGTGATA
Y
TACCTGGATATAAGAAAGCCATATATAGACTTGTGATTAGATGTATATAAATACTCTGGTACTTCCCAAGAGTCAGTTTGTAGTTAGGAAAAATATTTCT
Celera SNP ID:            hCV7514736
SNP Position Genomic:     16500
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,98|T,1155)   total(C,98|T,1155)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61263):
CCCAGTCTCTGGGACACTGGTGAGCAAGGGTCGGGGAGTTCTAGTGCGTAACAGTCTAGGGAGAGACTCCTGTGGTGGTGCATGGAAGGGCAGGTCTGAA
R
TTCTCCCTTGCTCTCTATCCAGCAGGGCGCCGGTCTGGGTACCAATGCCTCGTTGGCCCAGATGGTGAGCGGCCTTGTGGGGCAGCTTCTTATGCAGCCA
Celera SNP ID:            hCV2355267
SNP Position Genomic:     23289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   (A,-|G,-)   JBIC-allele(A,118|G,1377)   total(G,1377|A,118)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61264):
GTGAATGTGTGTGTGTGCAGGAGAAACTTTTTAGGTATTGGGGCAGGGATTAATGCTAGGGAGTCTTTCGGGTACACTCTGGTCTGGGCAACAGCGGGCC
Y
TCCTTCCTTCGTTCTTCTTTAGAGACCTGTCGGCCATGGAGCCTAATGATAGTACCAGTACCGCTGTGGAGGAGCCTGACAGCTTGGAGGTGTTGGTGAA
Celera SNP ID:            hCV2451870
SNP Position Genomic:     15491
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,17)   caucasian(T,6)   total(C,5|T,23)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61265):
CCTACCTTCAGTGTCGAGGAGGGCCCCAACCGCAGCACAGTCAGCCGCCCCCGCAGCCACCGGCTGTGACCCCGGAGCCAGTAGCCTTGAGCTCTCAAAC
R
TCAGAACCAGTTGAAAGTGAAGCACCTCCCCGGGAGCCCATGGAGGCAGAAGAAGTGGAGGAGCGTGCCCCAGCCCAGAACCCGGAGCTCACTCCTGGCC
Celera SNP ID:            hCV25630735
SNP Position Genomic:     19553
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,3)   caucasian(A,39|G,1)   total(A,70|G,4)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61266):
GAAGGGGATCTGGGAGAAGGAGGCTGGGAGGTGGGGTGGACCTGGCTGAGAGATGGCTGGGACCTGATTTAGTAGGTGGTAGAACTCATGGCTTCATCTG
Y
AACCTACCCTGATAAACCTTCTCTCATTGTAGAGTGAGCCCCGGGTACGGCTGGTGATGGCTCAGCACATGATCAGGGATATACAGACCTTACTATCCCG
Celera SNP ID:            hCV25630736
SNP Position Genomic:     18506
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(C,1|T,31)   total(C,1|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:61267):
TCTTAGTTGAAGGGTTAGCATTGAGGGGCGAGGAGGGGCTCTCTCGGTATAGGTAAATGACGCTAGGACAGGCAGCTGAGAAGAACTGCTGCTCTCCCTA
Y
GGCAAGGAAATCCAAATGGTATCTCCTGAGCCTGATCGGAATTCTCCTCTGAGTTCACGAAGGCCTGCTCTCTTTCTTAGAATTAGTCTTTCACCATTGT
Celera SNP ID:            hCV2451871
SNP Position Genomic:     19900
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61268):
ATGGCCTTGTGTGCTTGCTGGGATCATAGGGACTTGGCCAGCGTTTCTCCAACCTGCTTACTTTTTCTCTTTAGCTCCGGTCTGATATACAAAAACGACT
R
CAGGAAGACCCCAACTACAGTCCCCAGCGCTTCCCCAATGCCCAGCGGGCCTTTGCTGATGATCCTTAGCTCTTTGCTCTATGGCCCTTCCTCATCAGGG
Celera SNP ID:            hCV25630737
SNP Position Genomic:     28088
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,23)   caucasian(G,28)   total(A,1|G,51)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61269):
GTGCTGCTGCCACCACGGACTACAATAACAATGTGAGCCCTTTGATGGCCCTGCCCTTTCTCCTCAGCCCCAGTACTCCCAAAACAGAACAGGCTGAAAT
R
CAGATAACTCTTTCCCTCCCTGGAAAAACATTGCAACAGGGCCAGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGAT
Celera SNP ID:            hCV2451872
SNP Position Genomic:     20964
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61270):
TTGACAGTGTGCTTGGGGGGGGAAATGTTAGCTTCTGAGGGATGGCCTTGTGTGCTTGCTGGGATCATAGGGACTTGGCCAGCGTTTCTCCAACCTGCTT
R
CTTTTTCTCTTTAGCTCCGGTCTGATATACAAAAACGACTGCAGGAAGACCCCAACTACAGTCCCCAGCGCTTCCCCAATGCCCAGCGGGCCTTTGCTGA
Celera SNP ID:            hCV25630738
SNP Position Genomic:     28047
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,1)   caucasian(A,28)   total(A,51|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:61271):
AGTGAGCCGAGATTGCACTACTGCACTCTAGCCTGGGTGACAGAGCGAGACTGTCTCAAAAAACAAAACAAAACAAAAAAACACACATTGCAACAAAACA
R
TTTCTCTCTAAACCTGTAAGTGATTTTGTCCTCCCTTACAGAGAAGGTGATAATCTTTGCTGTAAGCACTGTCCTCGTATCGTACCCCTTGTGCCCCTGA
Celera SNP ID:            hCV2451873
SNP Position Genomic:     21327
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61272):
TCCCACTGGCCCCCTGGGACCCCCTGGTCATGGCCAAACCCTGGGTAAGAGTGAGGGCATCAGGGCAGGCTGAGCTCTGGGTAGAGAAAGGGAAGGGCTG
W
GTGGGTGGGTTGAAGGGGTCCAGGTTCAAGGTTACATCAGACCCGCCCCCCAGGCTCCACCCTCATCCAGCTGCCCTCCCTGCCCCCTGAGTTCATGCAC
Celera SNP ID:            hCV2451874
SNP Position Genomic:     22821
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61273):
GTGCCACCCCGGGCTATTTGACAGTGTGCTTGGGGGGGGAAATGTTAGCTTCTGAGGGATGGCCTTGTGTGCTTGCTGGGATCATAGGGACTTGGCCAGC
S
TTTCTCCAACCTGCTTACTTTTTCTCTTTAGCTCCGGTCTGATATACAAAAACGACTGCAGGAAGACCCCAACTACAGTCCCCAGCGCTTCCCCAATGCC
Celera SNP ID:            hCV25630739
SNP Position Genomic:     28030
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,23)   caucasian(G,26)   total(C,1|G,49)
SNP Type:                 INTRON


Context             (SEQ ID NO:61274):
AACCCGGGTGGTGATTGCCCGGCCCACTCCTCCACAGGCTCGGCCTTCCCATCCTGGAGGGCCCCCAGTCTCTGGGACACTGGTGAGCAAGGGTCGGGGA
K
TTCTAGTGCGTAACAGTCTAGGGAGAGACTCCTGTGGTGGTGCATGGAAGGGCAGGTCTGAAGTTCTCCCTTGCTCTCTATCCAGCAGGGCGCCGGTCTG
Celera SNP ID:            hCV2451875
SNP Position Genomic:     23226
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,3)      total(G,3|T,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61275):
AGGCTGGTCTCGAACTCCTTACCTCAGGTGATGTGCCCTCCTCGGCCTCCCAAAGTGCTGGTATTACAGGCATGAGCCACCGCACCTGGCCTCAGATTTT
M
TTTTTATTGATCCCTTTGTTCGTATTCCAGTAGAACGTTTTCTGATGTTTTGTGAGTGAGGCTGATTTTGTTCTGTCCTCCACATGGATAGAACTTAATG
Celera SNP ID:            hCV27459255
SNP Position Genomic:     16043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61276):
CGGGGAGTTCTAGTGCGTAACAGTCTAGGGAGAGACTCCTGTGGTGGTGCATGGAAGGGCAGGTCTGAAGTTCTCCCTTGCTCTCTATCCAGCAGGGCGC
Y
GGTCTGGGTACCAATGCCTCGTTGGCCCAGATGGTGAGCGGCCTTGTGGGGCAGCTTCTTATGCAGCCAGTCCTTGTGGGTGAGTTTTCATTCTTCCCCA
Celera SNP ID:            hCV2451876
SNP Position Genomic:     23320
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61277):
GCTAATTTTTTATGTTTTTAGTAGAGAAGGGGGTTTCACCATGTTGGCCAGGATGGTCTCGAACTCTTGACCTTGTGATCCACCCACCTTGGCCTCCCAA
R
GTGCTGGGATTACAGGCTTGAGCCATCGTGCCCGGCCAGCTTTTTTCTTTTTTTTTTAAGTTACAGAGTCTTGCTCTGTCACCCAGACTGGAGTGCAGTG
Celera SNP ID:            hCV2451877
SNP Position Genomic:     23813
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Gene Number:                 340
Celera Gene:                 hCG2008157 - 107000109464666
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY4T(1447559..1461920)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12500):
GAACACCCCCCGCCCAAACTCCAACTCATCCTTCACCTGGTTATTCACTGAGCCTTCGGGTCTCAGTTCACTCAGGAAACGTTTCCTTAATCCCCACCTT
TTCCCCGCCACTAGTACCCCCTGATATAAATTCACACATTCTGTGTAATTTTCCGTAGTAGCACTCGTCAGGTTATAATTACATTCGTGAGAATCAGGCA
GGAGCAGAGACTGTCTTGTGCTCTTGTGGATCATCATAACAGCAAACATTTACATCATGTTTACTGTTTTTCAGCCTCTAGTCTGAGTGCTTTATATATA
ACTCATCTAATTCCCAACTCAAGGACCCAGATATTATTAACATCCCCATTTTACAAAAGATGAAACGGAGGTTAAGTAATTTGCTCTAGGCTACACAGCT
TGTATCTGGTATTTAGTCAATGGACGATGATTACTTATTGAAGTAATCATTGAGAGAAAATAAGAGTTGTCAGAGAGAAACCTATAAAGAAAAGGAGTTA
AGAGACACAGTAGCATTTCAGACTGTGTGACTTTCGATGAGAGACACCTCTTCACATCTCTCTTTGTGAAGGGAGATACAAAGTCATTTCCCTCTACTAA
AAATAGAAAAATTACCCAGGTGTGGTGGCAGGCACCTGTAAGCCCAGCTACTCAGGAGACTGAGGTAGGAGAATCGTTTTAACCTGGCACACGGAGGTTG
CAGTGAGCCTAGACTGCACCACTGCGCTCCATCCTAGGTGACATAGTGAGACTCCATCTCAAAATAATAATAATAATAATAATAATGATAGCAGAGTATT
CCAGCCTTAGCTCCTACAAGGTAGCCCCTCTACCTGCCAATGTGTGTACCAATGTGTCCAGAATTGGTTCCTTCCCCTGGGTTCTTGGTCTCGCTGACTT
CAGGAGTGAAACCGCAGACCTTCGCAGTGTTACAGCTCATAAAGGTAGTGCGGACCCAAAGAGCGAGCTGCAGCAAGATTTATTGTGAAGAGCAAAAGCA
CAAATCTCCCACAGCGTGGAAGGGGACCCAAATGAGTTGCCGCTGCAGGCTCGGTGGCTAGCTTTTATTCCCTTATTTGGCCCCACCCACATTCTGCTGA
TTGGTCCATTTTACAGAGCACTGATTGGTTCATTTTACAGAGCGCTGATTGGTCCATTTTACAGAGTGCTTATTGGTCTGGTTTTACAGAGTGCTGATTG
GTCTGGTTTTATAGAGTGCTGATTGGTGCGTTTACAAACCTTTAGCTAGACACAGAGCACTGATTGGTGTGTTTACAATCTTTTAGCTGGACGGAAAAGT
TCTCCAAGTGCCCACCTGACCCAGAAGCCCAGCCAGCTTCATCTCTCACTAAGATGATGTCAGAGACCCAGAGGCTTGAAAAACCTGCCTTACTCCATCG
TAGGGAGCCACACGTACTACCCACATGAGCCTTCAGTAGGCTCCGGCCCTAAATAGGCACATGCGTATTTCCCCAGCTCCTTACTGGGATCCTCCCGCTA
AGCCACGCCCGATGCCCTTGTCTACAGCCATGAGCTGCAGTAAGATGCCCAGGCCCGGTGCCAGCGTGCGCAGCACGTGTGCCAGCACCGTGGAATCCTT
GCCGCCCGAGGTGCCCAGGGCCACCACTGCGCCTGGCGGCAGCAGGTAGCCCACAAGCACCGTGTGCTGCACCTCCGCCTCGAAGGCGGTGCAGAAGCAG
GAACCGCACAGCACTTGGCCCGAGCATGGACGGCGGAGGGAGGCGCATGCCACGTGGCAGGAGGCACATGACGGGGCGGGCATTGCAAGAAGGGACAGCT
TCTCCTAGACCGGGAGAGGAGGCGGGTTACACATGTTTCATTGCCTTTGAGGAGTTCCCTAGATAGTGCCCCTGCCTGGAATAGACCAGGGGCAGCTGTG
GCTGCTGCTCTTATATACGTGGGTTATAAATGGGTTCTGGTGTAAGAAGGCCACTGCCTCCAGGAAGGCTTCCTGGACTGCACCCATTATGCACCAAGAA
GAGAAGGAACTTAAGCTGATTTCAGGGGGAAAAAGAGGGAGCAACAAGCAGGTTATACCCAGAATTAGATCGTGTCCTGTCCAAAGGGGTGAGGGCGTCT
ATTAAGGACCAGTTGTAACAACTTCCAGGAGGCCACCCATGTTACAGCCCTGATCAGAAGGTAGATATTACTGACTATTCAGAGAGGTTGGGAGGGGAGG
GGTCAGAGACTCTTAAGGACAGAGGGAGGTCATGCTCTGTTCAAGGGAAGGGGGCTATACAGAAAAGACCAATTGGATTTCACTTTCAGGGGTCGGGGTG
GGCATTCTGTCTCCAGGAATGGGTCCTGATTGTGTCTTACAAGGACATACACAGGCAGGCTAGATCAACCTCTAGGGAGACTAGCAGGGGTTGCACCTAT
TTTTGAGGTGAGGGTGTGTAGGCCTCCAGTTCTGAACTTAACCCCGCTCTGGTATCAGAATCCACCTAAGCTTCTGTGGCCCCCGAAAGACACAGAGAGG
TTGGGAGGGGAGGGGTCAGTGATGGGGTTGGCTCATCCTTGGCCCCCAACTGTTCTCTTTCCTACCTCATCCCTCCCCACCCAGCCAAGACTCTAACTGT
CCCATCGAACCTCCTTCGTCCCACTTGTCTGGTGAACCCATAAAAACTCCCCAGGCTTAGTCCCCCTCCTCAAGCCACCACCACCTCCAGCCTGCACTAC
TGCCGTCACATCCTTGCCATTCAGAGCAGGTCACGCTGCTTCTAGGATTTACCACAATGTGTGGAATTATTTCATATGACTGTGTATTTACCGTCTCTAA
CTTACATGCAAGTAAAGACCAGTGCCACTCAGATGTCTAATAAGCATCTCAAAACCCAAATTCCTGATTCCTCTAACCTAACGGGCTTCTCCTGGAGTAC
AGGGCAGCTCCATCCCTTCCAGCTGCTCAGGCCAGAAGCTTTGGGGTCCAGGACCCTGGACTGCTCTTTCTATCACTACAGTTGTCACTCTCCCAGTGGG
TGGAGCCAAATTGCAATGCTAAGCCCGGACCCTTTCAAACTCCAGGTGCTCAAATGAAAAGTCACACATATTGTTTGACTATAGCTTCAAAACAGCCAAA
CACTTCTGACCATCTCCATGGCAGCACCCTAGTCAGGTCTGCCTCTCTCCTAGATGGCTGCAGGGGGCTCCTCACAGGTCTCCATGCTCCCTGCCTTGCC
TCCTCCACACACACTCCTTCATATAACAGCCAGTGGGATCCTGCCCTGGATCTCGTCTCACTTTAGTAACTACTGGCTGGGCACAGTGGCTCACGCCTGT
AATCCCAGGACTTTGGGAAGCCGAAGCGGGTGGATCACAAGGTCAGGAGTTCAAGACCAGTCTGGCCAAGATGGTGAAACCCTGTCTCTACTAAAAATAC
AAAAAAATTAGCTGGGCATGGTGGTGGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTG
AGCCGAGATCGTGCCATTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAACAAAAAACAAAATGTAACTGCTAATGGCCGACGAGGCC
CTACAGGCTCTGGCTCCTTGTTTCTCTGTCCTCATCTCCTTCCACTCTCCTTCTTGCTTACTGGTGTCTACTCTTGAGTACCCCCAGGAACACTCTTGTC
TCTAGTTGTTTTCACTGGCTCTTCTCTTTGCCCAAAGCACTCTTCCCTGTCACTGAGCCATCAAGCAGCCCTCAGGACTCAACTGCGGTGATGTCAGGTA
CATCTGTCACAGCGGAGCAAAGTCCCCTTTGAAATACTTTCTCCCACAGCTTTTGATTTAGTCCTCCCTCTTTGTTCTTGTTTTTTGCCTCCTGCTTAAT
ATCTTCTGGGGAGGCCTCTTCACAGTCCTCAGATCCTGCCCATCACCCCTCTTCTCATTCTGTTTGTGGGTGACTCTGAATCGCAATGTCCACCAGCCTG
GCCCTCCAAATACCCCACGGAAGATCCCATCTAGGCCTCTCATATCTCAGTGCCCAACTGACCAGCTCTCACACCCCAAGGCAGAAACTTACCTAACCAA
GCTCCCCGTCTCCCGGAAGCAACACCATCTTTCACCCAGCTTCTCTATGGAAGACAACTCAGCTTTTTCAACCTCTGAATCTGCAGTCACCTAGTACTGG
GGTTCACTTCCTGAGGTCCTTATCAGATCCAGTTGCATCCCTGTTTTAGTTACCTACTCACCTCAGCCAGATGAACTTCCCATTGGTTTTTCAACCCCCT
GCATCTTTGGCCAGGCTGATCTCATTGCCCAGGGCACTTCCCTAAACACTGTGGTAGACCTAACTCTTACCTTCAAGTCTCAGCTCAAACTTTCATTCAT
TCATTTAACAAATACCCACTGAGTGCCGCCTATGTACCCAGCATGCTCTAGGTACTGGGACACAGCAGTGAGCAAGATAGGAAAGGTTGCAGCTGTCAGG
GCACTGATGTTCTAATGGAGGAACCAGGCCATGGATAAGGAAGTAAATGACTAAGATGCTTTCCAAATACGAGGGAATTATCTTTGGTGGTATGACTGGG
GGGGAACAGGGAGGGGGTTCTTTAGGGTGGCTGGAGGCCTTTGAGCTGAGGCCAACAAAATGAGTAGACAGATATTGGGTCAGGGTGGGAAGAATGCTCC
AAATTGAGTTAATAGCAAATGCAAAGGACATGAAGGGCAGGGCCTGGCTGTGTTCAGCCCATTGGAAAGTGTGTTGTGACTGAGGACGACCAGAAAGGAC
CAGAAGCTTAGAGGTTGGCAGGATAAGGAGCTTGGATTTTATTCTGAGATGGGAACCACTGGATGATTTTAAGCTGGGGGGCAGGGTAGTGACTGGTGAC
AGGATCTGATTTATATTTCCACAGGCTTCCTGGCACTGTGCCTGAATAGAGGGTGGAGTGTGGCAAGGGAAGAAACAGAACAGTGAGGAGGCCCCTGCAG
TGATGCAGGTGAGGAGTAACGGTAGCTCGGAGCAGAATGGAGACAGTGGAAGTGGAGAGAAGTGGTTAGATTCTGGGCCTCTTCTGGAGATAGAGACGAT
GAGACTCACACAAGGTTTGGTTGCGGGAGGGAAGCGGATGAGAGAAACAGAACACTGGCGACCATTCCAAGATTTTGGCTTGAGCACTTGGATGGACAGT
TAGTGGGGAGGAGGCAGAAAGATTGTGAGAGGAGCAGGTTTAGGACAGGGAATCTGGGATTTCGTTTGGATGTGGTAGATTTGAGGTCCTTTGCTCTGTA
AGGTCTTTCCTGAACCCTGGGCTGGGTCTAGCACCTCCTCTGTGTTCCCACAGCCTCCTGAGCACCCCCTGGGCCAGCCCTGACCACTCTGTGTTGTAAC
CAGGACAGAGGAGGGTGCACTCGCACTGCACCCAGGTTGAAGGGCGAGAGTGAGAAGGTGTCAGGCTGGGCCGCAGAATCCAAAGCGGGTCAGCAGGTAC
AACAGCTGCTTAGAGCACTCCCACCCGGAGAGAGGGATTGAGAGATCACGGAAAAGGGTGCCATCTTTCCAGGGACGCCTACCAGAACGCGGGGGAGAGA
AATACAGAGACCCTCAACTCCGCCACGTCATCGCGACAAAGGGCCAGGACCGGCCGGCCGCGGGATGGGCGCTCACCTGGGCAGAACTGGAGCTGGAAGG
GCCAACCTCCAAAGAAACGAGGAGCGGGCGGAAGGACTACGACTCCCGGAAGGCTTTGGGCCCATCCGCCTACGACTCCCAGGTGCCCCTGCGTTGCGTC
GTCCCGAAACACTTGCGGCTCTCGGACAAACTGGGCCTACAGTTCCCAGAGATCCTCGCGGCAGCGCTGCGCATTCTGCGCACGCCTCCCAGAGTGTACT
AGGCCGGTCCGGCCCGCTTCCCGTCTGCGCCTGCGCAAGCACAATAGCCGTGCCAGAATTCTCTGCCAGCTGCTGTGCACTGCTGTCAGTGCAAAGATGG
GATGGACTTTTTTTTCAGATTTTCTGCTGTTGTGGGAGTATGGCAAGAGTTTGAGGGGGCGGAGAAAGAGATTGGGAATGTGAAAAGGGAAGATAGCACC
TGCGCTAAGCACATKCCTAGGATTGGGCCGCGTCTCGGGGATGCAGAGTGGGCTCTTCGGCGCGCCCTGCAGCCRTGGGAGTGGACGCCTGCCCAGGCCG
AAGGGCAAGGACTTGCGGGGTGGGGTCTCTGTGCATGCGCGGAGCTGAAAGGGAGCGTTTTGCAGATCTCCACGCGTGCGCAACTCTCGGGACGTGGACG
CGGTGAACAGTTACGCACAATCGTCTTTCTGACACAAACACACCCTGCCAGGTGGAAGCCAGGATGGAGGGCAGGTGAGACCCGTAAGGCAAGATCCCRA
AACCAAGGAACGGAGCACTCTCCCCGCTTGCTCCCCAGATCCAAGCCCTCCACTTCCTTCCAATGCCCCCCTTCCCGAAACTGCTCCCTCCTGTATATTC
TGAGATCTTATCACTATTCCCGTGAGGCCCTTGATAAGGAGGATTCAGAGTGAAGGGTGATGGGAGACACGCCTTGGGCGTCTTCTGTCCACCTCAAGGA
TTGAACTTTGGTAACTGGAACTCATTCATTTGTTAATCTGTGTGCTAGGCCCTTTGACCCGCTGGCCAGATGCACCGGGACACAGGTGTATTCAGCCTGG
TCCAGAGATAAGGATGATAAATCTTAATGTAAAGGTATCAGATGTTAAGGGCTGCAGGAGCCCAGAGGTTACAAGTGCTGCAAGCCAGAACATGGGGAAA
CAACAGCAATTAAGCCGTTAGCTTGTGCCTTGGAGGGGTGTTTGCCCTGCACCCCACTCACTACCTGAAGATAAATGGCTTCTCCAACGTGTAGTGGGGT
TGGGATGATGAGGATGACATCACTGCCAGGTGGGAGGCAGGAGCTGCAGGTCCTGACATGATGAGGCAGGTATGGGCCGCCCTGGGCTGAGGGGGACATG
GGCTACCCTGGACTGGAGGGCTGGGCTGTGGCATGGGGACCCTGTCAGAGACAGGTGTTTGGCCTCCATGCCTTCCTGTGTCTCTGGAAGGGTGAAACTA
AGCGGGATGCTCCTCTCCCAGCCCCACCTGCTTTTCAGAGGCTACCATATGCTGGAGGGGGAAGATCCTGGCCACAAGCAGAGGCCCTGGAGGTGAATCA
GTGTTGGAAGTGGGGTGGTTGGTTCTGGGTCCTCCCTGAGGCTCACATGGCTGCCCCTCCCCATCCTCCAGGCCTCGCCTTCTGTCCCGGATCCGCCAAT
CCTCCSATCCCTGGATCCTCTGATGATGGCATCAACTGTCTGGGCTACAGGTTGCTCTCCAAAGAGTGGCTGCCCCTCTACACCAACCTCACTGTGGACA
TAACTTCCAAGCCTCAGGAGACCCAGTGCAAAGCTGAGGGGTATCTTATCTGGAAGCCAGAAAGAGCCCCTGAGGCCAAGGTCACAGGGAAGCCCTCCCA
CTCACCCCACCTGGTTTCTTTTWAAAGTAGAGTTTATTTTATCTCCTTTCTGCCATCCCTAATTCCTTCCTTCCATCTGTCCATCCATCTTCTTTCCCCT
CCCTCCCTTCCTCCCTTCTCCTTCTCCTCCTCCCCACACCTGCTTCTTTTCTCTTTCTTTCAACTATGTCCAGAAGGTCCTTCTTAACAAACACTAATTA
GTACAGGGAAAGGTCTCTTTAAGTGAATGCATTTAAAATAGGGAGTCCACCTTTGTGGTAAATAGTGTGCACGAGGTGAGTCTGGATCAGGACTTCACAC
TTGATAACGGAATTCAATTTCTCAAAATACCTTTATTTCAGATTTAATGAAATTCCATGTTTGTTGAATCATTAAGAACGAGCATTTGTGTTGTACTCAT
GGTGGACAGCCACCATTCTAATGCTTGACTTTACATAATTAACGCATGTAATCTGCAAAGGAGCCACAAGGCGAGATCTATTATTATTCCCATTGTGCTG
CTGGAGAAATTAAGGCAGAGAGGTTAAGTTGCTTGCCACCAAACTAGCGAGGGGCAGAGCTGGGATGTGTAGCATCCAGGTAGGTTGGCTCCAGAGCCCA
TGAGCCTAACTACTACTGTGCCCAACCTTTGTGCCAATCCCCACAACAGTCAAAGGATGGATCAAGTACTGGTTTTGGGGGTGGGGGCAGGGGACTCTGG
GCAGTATGTTTTCTGATCACATCACATGACAGTAGGACATTCTTCATTTCACCATGGCTTTCACTGCCCAACAATAAAAAGGTCATGGGCACTTTGGGAG
GCCGAGGGGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCATG
GTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCTGAGATCGTGCCACTG
CACTCCAGAGCCTGGGCGACAGAGCGAGACTCCATCTCACAAAAAAAAAAAAAAAAAAGGTCATGAGGAGGTAAAGTAGTACAATGGTTGAGAGTTAAAA
CACTGGCATCAGATAGCTTGGTTCAAATCCAGGCTTTTCTTGTTCCTAGATTTTCGGTCTTGAGTTTACGTCAAATTCTCTAAGCCTGTTTCCTCATCTC
TAAAATGGGGTTTATGAGGTTAGATTATTTCCTACAATGGCTGTGAGGAATAAACGAGTTAGTTCATACAAGCTGCCTAGAATAGTAGCTTCTCCCTCTG
GAAACTCAAAACTCTTGACCTCTCATCTCATGATGAGGCCATTGGACTAACATTTATTCATCTCTTAGTTCTCTGAGCCAACAGATCTTTTCACAGATCT
GTGAGCATGCCCTCATGTGACTGAAAACTTTAGATAGCTCCCTGGGACCCATCAATTCCAAAGCTAATCACCCAACCAAACTCCAGATTCCTCCGTCTAT
TATCCCACAGGCATTGAGTACAGACTGGCTTGTCCCAGCGCTTGGTACTGAGAGGAAAGAAAAAATAGTATGAGACAGAGGCTGGGAGGGAGGTGAGCAC
TCTAGACAGAGGGGGTTGCGAGGTAGGGAGGAAACTAAGTTGTTAAAGCCAACAGGCCCCGGAAGTGGCACGAGGTCAGAGGTGTGGGATGGCCAGGGAA
CGAGCAGCTTTCTGGAAGTGGGGAGGAAGGGCTTGCCCTGAGGGGGACAGTTAGGGAGGCCCACGTGAGGAGTGAACATGTGGCTGGAGATGAGGACCCA
GAGTGATCCCCCCAGGTGATGCTTAGGAACAGGGAAAGCCCAGATCTGAGAAGGGAGGCACATCCTGAGGGGTCTTTGGAACCAGTGTGTCTACACTGTG
GGCTCAAGTTTTTAACACACTTGTCCTAGGGCCCTGCCACCTTCCTCCCTGAAACTGGTCAGGGTGCCACTCCCAGGACCCAGGTGCACACTATTTCCAC
CCCTCACCACCATGGAGAGGCCTCTGCAGCCTTTCCACCCCACACCAGTCATCTACGGCCGGCCAGCCCTTGTACCTGGACTCCCCAGGTGAGACTCTTC
CACCTTTCTCAGGAGGTGGGACATGGTCACTGATACTACGCCCCTGGACAGGGAGAGGCCAGTGAGACACAGAACAGATTTGCTCTCCAGGGCCCAGCAC
AGGCTCCTGCATGTGCAGTCACCTTGTTTTAGACACAGCCTGAGGTCTGTGCTGGTTCCTGACCAGCTGTGTGGGCCCCTATCAACCTTGAAGGGGTATG
GAGACTAAAGCCATGGGTGCCCATCTCTAACACCCTTCTGGAAAAGACTTCCAGCTGACAGAAATCTCCCACCACAGTCCCACACCCAGCACAAGGGAAC
CAGGCAGGCTCAGGGATACGAGGCCCGCTAAAATTCATCAGCACTTGGTCTGTCCATGCAGTTCCAAGGGTTTAACACACACACACTTCTCACACCAAAT
GCATGGGGGTAGGGTACTATCATCATCTCCCTTTTGTAGATGAGAAAACCAGAATAGATGAGACCAAATAACTTGCTCAGCAGATGCAGAGGGTAGAGAG
TGGAGCCAGGAATCAAATGCAGGAACCTGGCTCCTGGGCCTGTGCACTTAAAAGATTATGCTGGTCTGCTTCTCGGAAGTATTGATAACAGTTCCCTCTC
CGTTTTTTAGCAAAAAATGTGTGTGGGGAGGAAATAAGTAATCAAAACTGTGGGAATGGCTAAATAAATTATGGCAGGTCAACCTCATAGAATACACGTG
TGTACAATCCATCATGGATTGTAGAATGAAAAAAATACCATCCACACACGTAAGAGATCTGAGTTTTATAAATCAATGAAAGAGTACTTACACAGGTATA
TGATGATGAACATAGTAATATGTGTGTATGTGTGTGTGTTTGTGTGTGTATCATGTGCTGGCAAACATTTTCTGTAAAGAGCCAGAGAGTAGATATTTTC
AGTTTCCAGCTTGGGGGCTATTTGATCTCCGCCAAAACTACTCAATTCTGCCAGTGCAGCACAAAAGAAGCCCAGACAATACATGTCCAAATGAACATGG
CTGTGTTCCAATAAAACTTTATTTTAAAAAAACAGTTGGGAGGCCATATTTGGCCAATGGCCACAGTTTGTTGACTCCTGGTGTAAAAATATGAACGAGA
CTAATGGTTGGCACTAATTATGGAGAGGCTCACTATAGATGGTGGAGATGGAAAGGGGGGGCAAGCTGAGCTAATCCTAAAAGAAGAGAAAATCTGTAAT
ATAAAGATCAGTAAACATTATAGAATCTCATTTATGCATTTACCAAAAATGCACATTCATGTGTATGTATAATAAAGGAGTTAATCATTGTTGATACAAC
CTCATTATATAAATATTCAATAGGGAATAATTTTTATAAAAACAATTAGATTAGATTCTCTTAAAAAATAACTCATCTGCTTACATCTCCTGCTATGCAG
TGAATTCTGCAGCAAACCCCACTGCACTGAGGGCATACATACATACATACATACGCATACATACACATATGCTGACCAGACCATATACATATGTCTGCAT
ATGCATATATATACATACATAGATACAGAAATATACGTACATACAGGTTGGGTATTCCTAATCTGAAAACCCAAAATCTGAAACTTTTTGAACTCTAACA
TGACGCTCAAAGGAAATGCTAATTGGAGCATTTAATCTTGGATTTTCAGATTAGGGATGCTCAACCAATAAATATAATGCAAATATTCCAAAATCTGTAA
GTATCTGAAATCCAAAATGCTTCTGATCCCAGGCATTTTGGAGAAGGGATACTCAACCTGTATATAATAATATGCTTATATATTATATATATGCTTATAT
ACATAAGGCGCACACACACACATAAAATATTGTCCTATCATGACTGTGTTGGCACTTTAAAAATATTGATATCCCACAATAAACAGGGTTATCATTGATA
TAATTTCCCACATATTTTACTATAAATAATCGAGTAACAACCTGTCTTGTACCATTCTTTACAGAAAGGCTTTTCTCAATGCGTTAGTCAGGGTTTCTTC
CCGGGGAGAAAATTTATAATCCTTAATGAGGCCAGTACTCAGAAGGACATTTCTGCTTACTCTTTTCTCTGTAATTGCCCTCACTAAAATAAAGCATGAC
TTTTTTATCATGTGTTCACACATGCAGTGCATCCCTAGAGTTTTTCTGAAGCATGAATTCAATAACATATAATTAGACCTGATTCTGAGAAGATTTTCTC
TTCTTCAAGAAACTCGGAGTATATTTCATTTATGAATATGCTGATGCACTAGGAATTCATTGCTTGGTAAAGCCTTTCACAGAATAACTGCATTTGTAAG
ATTTGTCTCTGGTATGAGTTGTTTGGTGTTTATTGAAGTTTGACCTGTTGTTGAAGGCCTTTCCACATTCAGAACACACATAAGGTCTTTCTCCCGTGTG
AATTCGCTGATGCACCTTGAGTTGTGGTTTCTTACTGAACGATTTCCCACAGTCAAGGCATTCATAGGGTTTCTCTCCCATGTGAGTTCTTTGATGGGTA
ATCAACTCTGATTTCTGGACAAAAGCCTTCCCACATTTGTAACAGACAAAAGGCCTCTCTCTAGTGTGAGTTATTTGATGTTTATGGAAATTTGACCTGC
CGTTGAAGGCCTTCCCACATTCAGTGCACACATAGGGTTTCTCACCCGTGTGAATTCGCTGATGCTCTTTGAATTGAGACTTAGAAGTGAAGGCTTTCCC
ACATTCACTGCATTTGTAAGGCTTCTCTCCGGTGTGAATTCTCTGATGCATGCTGAGTATTGACTTCTGGTTGAAGGCTTTCCCGCATTCACTGCATACA
TGGTGTCTTTCTCCAGTATGAATTTTCTGGTGTATATTCAGGTGTGACTTTTGGGTGAAGGTTTTTCCACAGTCACTGCATTCATAAGGTTTCTCCCCTG
TATGAATTCGATGATGTATATCAAGCTGTGACTTGGAAATGAAGGATTTCCCACAGTTGTGGCACTGATAAGGTTTTTCTCCTGTGTGGCTTCTTTGATG
GACAATCAGGTGTGCCTTCTGGATGAAGGCCTGCCCGCATTCGATACACACATAGGACTTCTGCCCTGAGTGGATTCTCTGGTGCAAGCTGAGTGTTGAC
TTCTGGGTAAAGGCTTTCCCACATTCACTGCATGCATACTGTCTCTCACCAGTATGAATTTTCTGATGTATAATGAGGGTTGAGTTTTGGGAGAAGCCTT
TGCCACATTCACTGCATTCATAGAGTTTTTCTCTACTGTGAGTTCTCTGATGTCTGAAGAGAGATAACATCTGGAAAAAGGCTTTTCCACAGTCATGGCA
TTTATAGGGCTTCTTTCTAGTGTGTGTTTTCTGGTGCGTAAGCAATTCTGATCTCTGAATAAAGACCTTCCCACATTCCTTGCATATACAGGGTATATCA
CCTGTATGATCTGTCAGATATACACTGAGTTTTAGTTGTGGCATGAAGGCTTTTCCACATTTGCCACATTCATGGAGGTTTCCTACACTATGAATTCTCT
GTTGGGCAAAGAGGTGTGACTTCTGGGTGAAGCTCCCCCCACATTCAGAACATCCATCTGGTTTCTTCTGAGTATGAATTTGATGTTGCTTGAGTGACTG
TTTATGGCCACAGACTTTTCTACACTGGTTACCTTTGCAAAATGTCTCTCCTGTATGAATATTCTTGCTGCAGGCATCAGAAGAGCTATGGCTGAATAGC
TGACCAGACCCAACAACGTCATCAAGCTGTTCTGTGTCATTGCTTTCATTCTGACCGTTCACTTCTAGGTTCAGCTTCAAACTTTCTGTAAATAAGCAAC
ATTTCTGAGGTTGTTTCTGTGAAGAAGCAAGGTGGGGCCTCGTGCGAATCATTTTCCCAGGGTCCTTATATTCACAATTGCTTTCTGTGTTCAATGTTTT
CTTGTTGAAGAAAGCACTGTGACTCATGGGTTGAATTTGATTTTGCTCATCTTTCTTTGTGCGGTCAGCATCCAGCCTCAGTTCTTCTAAAATGGAACAC
CATGAACCATCTCTTGTGAACTCACCTACCATATCCTTTTGAAATGAAGCTTTCTTAGAAATCTCCTTTTGTGGGATTTCAAGCCCAAACTCCCTTTCTA
AAAGGAGAAAGAGAAGATGAAATAGACACAATGAACAAGAAAGAGGAGAAACTGCATGAAGCTGATTGACACAGAACACAAGGAAATTGCTGAGTCATGT
AATAATGCTGCTAATGATGCTGACAATGAGCAGAAACACAGAGCCCTTATTACATGATGAGCATTTATCTACATAGCACTTAGCATGTGCCAGGCAGTGG
CCTACATGGTGCACACATACTCATTTAATCTGCATAATAACCTCAGGAGGTAGCGATGATGGGTGTTCCTGTTTTACAAAGAAAAGGAAGCACATAATGG
TTATGTAATTGGCCAAGATCACTTTGCTAATCTGTGGGGATTAGATTTCAACAACCTGAGGACACTTATGCAAGTGGTCTAGACACCCAGATCTAGTAGG
ATGAGTAGGATAAAACAGACAAGTGTTGCAGGGCAACATGTGTGGGCAGCCAAGGCTTGAAGGAGGGGGCTCAGTGTGTAGGTCTTCATTAACTTTCAGA
GATGAATCCTCACCAATCTGCCTGCTTTATCTTACTTGTTAGAAACAATGCCAAGTCCATCAGCCCTGTATATCCTTCTGAAAACTATTAAAGCTTCACC
TATCTTGACATGGCCAACCAGTGAAAGAATGACTATGCCTCAACTCTCCTATGCCTCAACT


SNP Information

Context             (SEQ ID NO:61278):
CGCGGTGAACAGTTACGCACAATCGTCTTTCTGACACAAACACACCCTGCCAGGTGGAAGCCAGGATGGAGGGCAGGTGAGACCCGTAAGGCAAGATCCC
R
AAACCAAGGAACGGAGCACTCTCCCCGCTTGCTCCCCAGATCCAAGCCCTCCACTTCCTTCCAATGCCCCCCTTCCCGAAACTGCTCCCTCCTGTATATT
Celera SNP ID:            hCV29188821
SNP Position Genomic:     6399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61279):
CAGGTCCTGACATGATGAGGCAGGTATGGGCCGCCCTGGGCTGAGGGGGACATGGGCTACCCTGGACTGGAGGGCTGGGCTGTGGCATGGGGACCCTGTC
A
GAGACAGGTGTTTGGCCTCCATGCCTTCCTGTGTCTCTGGAAGGGTGAAACTAAGCGGGATGCTCCTCTCCCAGCCCCACCTGCTTTTCAGAGGCTACCA
Celera SNP ID:            hCV2184220
SNP Position Genomic:     7047
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61280):
GGAATGTGAAAAGGGAAGATAGCACCTGCGCTAAGCACATTCCTAGGATTGGGCCGCGTCTCGGGGATGCAGAGTGGGCTCTTCGGCGCGCCCTGCAGCC
R
TGGGAGTGGACGCCTGCCCAGGCCGAAGGGCAAGGACTTGCGGGGTGGGGTCTCTGTGCATGCGCGGAGCTGAAAGGGAGCGTTTTGCAGATCTCCACGC
Celera SNP ID:            hCV2184221
SNP Position Genomic:     6175
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61281):
GGAAGTGGGGTGGTTGGTTCTGGGTCCTCCCTGAGGCTCACATGGCTGCCCCTCCCCATCCTCCAGGCCTCGCCTTCTGTCCCGGATCCGCCAATCCTCC
S
ATCCCTGGATCCTCTGATGATGGCATCAACTGTCTGGGCTACAGGTTGCTCTCCAAAGAGTGGCTGCCCCTCTACACCAACCTCACTGTGGACATAACTT
Celera SNP ID:            hCV27502273
SNP Position Genomic:     7306
SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   JBIC-allele(G,629|C,834)   total(G,629|C,834)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61282):
TCAGATTTTCTGCTGTTGTGGGAGTATGGCAAGAGTTTGAGGGGGCGGAGAAAGAGATTGGGAATGTGAAAAGGGAAGATAGCACCTGCGCTAAGCACAT
K
CCTAGGATTGGGCCGCGTCTCGGGGATGCAGAGTGGGCTCTTCGGCGCGCCCTGCAGCCATGGGAGTGGACGCCTGCCCAGGCCGAAGGGCAAGGACTTG
Celera SNP ID:            hCV2184222
SNP Position Genomic:     6115
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61283):
CCAGTGCAAAGCTGAGGGGTATCTTATCTGGAAGCCAGAAAGAGCCCCTGAGGCCAAGGTCACAGGGAAGCCCTCCCACTCACCCCACCTGGTTTCTTTT
W
AAAGTAGAGTTTATTTTATCTCCTTTCTGCCATCCCTAATTCCTTCCTTCCATCTGTCCATCCATCTTCTTTCCCCTCCCTCCCTTCCTCCCTTCTCCTT
Celera SNP ID:            hCV27484084
SNP Position Genomic:     7523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Gene Number:                 341
Celera Gene:                 hCG2009101 - 208000027997691
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W2RH(44234445..44248054)
Chromosome:                  Chr8
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12501):
CATCAGCGTTTCATATCACAAATTAACCTCCTTTCCAAATTTCTCTTTAAGTTTTAATCCTCTTGTTTAAGTGGCTTTATTTCTTAAGGTTTGAAGTGCC
TTTATTCACATTGTATAGACTCGAACATTCCTCAAATAAATTTACCAAATTTCTGCTTTCTGGCTTGAAAATCATCACTTTTTTAGATTTTCACATCACT
CAAGAGCAAGACTAGCAGCTGGCCGTTTTTCCCCCCATTGTTGATGGGTCAGGGAGCATTTTTTATTAAACAAAATTTACTTTAAAAGAGTGCCTGACAG
TGAGCTGGGAGCCTTATAACCTTTTCCAGATGAGGACGCTGTTCTGTCTGTCAGTTTCTCACCAGCTAAGAGCCTCTCACCTACAACCAGCCTTGAAGGA
CAAAAATCATCATCTGTCCTCGGCCACAGTGACAGTTCGCCACATGGCATGGACTTTTGATTGTTGAAATCAAAATTTTAAATTTAAAAAACAATTTAAA
TTTTTTTTTAAATTTTGATTTTAGAAAGCATATGTTGGTGTACATGCATGTATGTGAGATATACTGTCTACAGACACAGGTCAGTAATGGGCATGTATGT
GTGGGTGCATTCATACACGGCTGGACTTCTCCTTAGAAAGGTTATAGTTGCTCTGCTCCTAGTGCTTGAGGTCTGTGTTGTATTATTACTGCTTGGTTTT
ATCCCTTCCCCGCCTCCTGCTGACATTGTATTGTAGAAGCCAAAGGCAGGGCCCAGACAGGTCATCAGCAAGGCACTTAGGGGATCAACCTTCTAGGCAA
CCTTCCTCTCTGATGCCTGCAGCTTTCGTCTGTGGACGCACCTTTCCAACGCTCTTATGTTCCCCTAAACCTCTCATCTCTCCTCAGCCCATGAGGATCA
GGGCCTTTGAACTGTGAGAGATCAGGACTGGGAGGTAGACACCAGGCACGAGCAGGTAGTAAAAGAACAGCCCCTTAGCTCTCACCAGGCCTTACCTCTC
CACCCCCAAAGCTGAACATGTCTGCCATCTTGAGGTACACCACATTCCCCAAAGTTCTATTTTTTTCTCTCAGATCTGAGCCTTTGCTTACAGTATGCCC
TCAACCTAGAATCTTCTTCCCTCTACTTCTTTATGTTAATGTTTAGTCATCTTTCAAGATCTGCTGTCCTGGGATCTACTTAAAAGGCCTTTTGCAGTCC
AGTAAAACTCCCCACTCCCCACCCTTTTGTCCCCACTGGTGTAGTGGGTATCACAGTGGCTGTTTCCTTGCCTGTCTTTCCTAGTACATGAACTCCTTCT
GAGGGCATGTGCTGCTTCTCTCAGCAGAGCAAAGTGCTCTAAGGTGAACTCAAGTGTCATACTGTCTGGATTCTCATTCCATCTCTACTACTCAATAGCC
TTGTGATTTTCAGCAAGTATCTTTGAAATGTTCAGTGCCAAAGCTTCTCCAACTATAATATGGGGCTAGTAATAGTGTCTGTATTGCATATGGAGTTATG
AAGATTAAATGAGAAGAACACATAAAAAGCAACCAAAACCATAGGCAGCACCCAATAAATGATAGCTACTGTTACCATTATTCTCAGCCTAGCATTTTGC
TGGATAGCTAGAGATGGGAGAAACCTGCATTCGTTTCCTGAGGCTCCTGTAACGCATACCGCAAACTGGATGTTGTAAAATGACAAATTTATTCTTTCAG
TATTAGAAGCTAGAGGTCCAAAATCCAGCAGGGTTTTGCTCCCTCCAGAGGCCCTGTGGGAAGAATCTGTTTCTTGCCTCTCTCAGCTTCTGGTGACTCC
AGGTGATCCGTGGAGTGGTGCAGCCTCTGCCTTCATGGTCATCTCCCCACTGCCGCCGCCTCTCTGTGTTCTCAGAACTGCCTTTGCCTCTCTCTCATAA
GTGTACGTGTGATTGTATATAGGACCCACATGAATTTTCTGTGATAATCTTGTCTCGGGAGGCCAAGGCGGGCGGATCACTTGAGGTCTGGAGTTCAAGA
CCAGTCTGACTAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATTAGCTGGGCATGGTGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTAA
GACAGGAGAATCGCTTGAATTCGGGAGGCGGAGGTTGTGGTGAGCCGAGATTGCACCATTGCACCCCAGCCTGTGCAACAAGAGCGAAACTCCTTCTCAA
AAAAAATAATCTCCTTGTCTCAAGATCCTTAACTTAATTATATTTACAAAGACCCTTTTTCCTAGTCAGGTCACATTTACAAATTCCAGGGATCAGGACT
CGATAACTTTGGGTGGCCATTATTCAGCCTACCACAGCTTGTCCTCTGACCCCCAAAGAGTCACATCCAACCCACATGCAAAATATGTTCACCCATCCCA
GCAACCTCAAAAGTCTCAAACCCCTGTCTTGGCCATTGTTTTTTCTAGTCTTCAGAGAAGATGTGAGCTGTCATGTACTCCTCTCCCCACTGTGCCTAGG
ATTTCCTCCTCCAGATTCACAGGGGAGATTTGGGGGTAATAGTTGTTGTCAGCAGCTCTCTATTTTTTAGATCAATGGGTTCACGCTGATCGCTTGCCTA
ACATTAAATATGGAATCAAACTTGTAAAGTAGGCAAGACTCGAGGCCTCCTGTCCCAATCTGTTTTAGGCCACCTGTTCACACCACCACTCTGTTGTACC
CACCAGTCTCACTAGCCATCCATACAGCAGCACTGGCATCACTCCCATGACCCCTCCCTGCAGCACATTAGCCTCTTTCCTCAGCCAGGTGGAGGTTTCC
ACCTGTCAAGTTCTCTTTTTTTTATTTCGAAACAGACTCACTCTGTTGCCCAGGCTGGAATGCAGTGGTGCAGTCCCAGCTCACTGTAACCTCCACCTTA
TGGGTTCAAGCAATTCTCCTGCCTCAGTCTCCCGAATAGCTGGGATTGCAGGCACCCGCCACAATGTCCAGCTGATTTTTGTATTTTTAATAGAGACGGG
GTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCATCTCGGCCTCTCAAAGTGCTGGGATTATAGTCATGAGCCACCGA
ACTTGGCCCACCTGTCAAGTGTGAAGCCTATACCCCTCTTTGGTTCCCCGACATTTGTGTTTCTGGTCTCAGGGGCACCTCTGACATTCAGCTCCTTTGC
AGAGTAGCCATGGCTGACAGGTCTTGGCTCTGCTGATGATCACACTTTCTATGCTGATGATTAGCCCCGCCCAGTCCCCCATGCTGACCTTTAAGAAGGA
GGTAGAAGGTGGTTTAAGAAGGAAGTAGATGTTGCATTTAGCCTTGGAAGATGAGTGGAATAGGCAGGAGGAAATAAGCAAGGCAGCTGATGTTGAGTGT
TTTGTGAGAACGAGGGCCAGAGATCATAACCTTTAATGCATCTACTTCACAGAAGGCCACACTTCCTTCATTACAAAGAGTCTGTCTTTCCCCCTCTCAA
ATTCCATTTCATGCCTTCATAAACTCCTTTTTCTTTGTTTTTGAGACAGGGTCTTATTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCATAGCTCAC
TGCAGCCTCCACCTCACAGGCTCAAGCTATCTTCCCACCTCAGTCTCCTGAGTAGCTGGGACTACAGGTGTGCACCACCATGCCCAGCTAATTTTTGTAT
TTTTTGTGGAGACGGGGTTTCACCATATTGCCCAGGCTGGTCTCAAACTCCTGAGTTATGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGAGACTAC
CGGCATGAGCCACCACACCCAGCCCATAAATTCTTAATACAGGTTTATGGCTTGTAAGACAAAAGAAAATGACAATTCATTATTTTAGAATCTTCGGATA
AAAAACTACGTACGTAATATTTTATAAGGCCATCACTTGTAAGTGCCTCACAGAGTGCTGGGCATTGTGTTGAGCACTTCGCATGTGTTAACGTACCTCA
TTCTTAACCATGGTTACACAGAGAGAAAATGCTATTATCTCAACTTCGGGGCGCAGAAAGGTTAAGTGATTTACACTGTTTCTCACAGCTAGTACGTCGG
GGCCAGGATTCACCTGCAGCCTGTGTGGCTGAGAGCCAGCCCTCCTCACCCTCTCCACGCACCACTCTGTGCTCGCAAAATGCAGGCCCACTGGCCATTT
CTCCTCACAGCAGTGGTTTCTGTGCCCATGAAGCTGAAGTGTGGAGAAGGCGATCAACTTAGCATGGTTCTCCTGGCAAGCAGCACAAGCTCTGCTGGCT
GTGCCTCCTTATCCATCTGCAGCATGGCACCCTGGTATGCAGCTCCTGCGCTGCCCAGGCTGGGAGGGCCACCCCAGGCTTTTTCCCTGCCAGAACCACA
ACATCCACAGTGCCCAAAATAGCCCCAGCGTTACATTACTGAAGTCCTGCTTCTGTGATGAATCCAGCCATCTGTCTCAGGAGACTTCTAAGGCAGGCTT
TTGATAGCAAAACAAATAGTCCTGTGGACAGATTTGGGTTTTGTAGGGAATTTATGATTTTTGAAGTTGCATTTCATTGAACCTCTTTCCTTTTTTTTTT
TTTTTTTTTTTTAAAGACAACGTCTTGTTCTGTCGCTTAGGCTGGAGTACAGTGGCACAATCATGGCTTATTGTAGCCTCAACCTCCCGGGCCCAAGTGA
TCCTCCCATCTCAGCCTCCCAAGTAACTTGGGACTCTGGGTGCGTCACACCACACCCAGCTGATTTTTTAATTTTTGTAGAGACAAGGTCTTACTATGTT
GCCCAGGCTGGTCTCGAACTCCTGGGCTCAGGTGATCCTCCTGCCTTGACCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCTCTTCACCCGGTCCTCCT
CTTTCTTTAATAACCTACTTTATAACAGACTAACACATATTTTAACACAATTTAAATAATAAGAAATGAGGACAAAGGGAGAATAAAGGTAGCAAAGTAA
GGTGAATTCCAGGAGTGTGATTTCTCCACAAAATGAGTAACAAAAAGTCACATACAGTGTCTGGAAGTGGGCCACGGATTTGACCCTAAGATTCTTACAG
GCAAGAGCAAAGAGAGAAATACAACTAATTGTTAGGTTCATGGTAGCCTTAAGACTGACACTATTCTAACACTCTTGAATTAATACCTGATAACAATTTC
CCCCCTCCCCTGGCCCTCCATCCTTTGGCATTTAGAGAAGTGTCTGCAGTGCACGTGGGAAACCATAACATGCACTGAAAGAACATTCCAGAAGCCCAGG
TTCTGATCCAGGTTCTACCAATCCCTGACAAAGTGACCTCTGGGAATCACTTACATTCCTCATCTTTGGTCACTGGGAGTTAGAATTGTACTTTTATTTA
ATATAGAGCAAATAATGGATGAAAAACTATACCAAAAATTGGTTTACTGCTTATATTTCAGGCCTGGGACTTCCAGGTAAAAAAGCTCCATAGATGAAAT
GTCTGAGACATGCATATTTACTTATTTTCTTTTCTTTTCCTTTGTTTTTTTGTTTTTTCTTGTTGTTTGTTTGTTTTATTACATATCTACTTATTGGAAG
TGGGACTGTCATTGTCCCAGTTACTGATGAGGAAATTAGGCACAGAGAAGTCAAATGACTTGCTTAAGATCTCAAATCCAGGAACTGCAGAAGTGAGATT
TGAACCCATTTCCAACTCCAAGGCCTGTATAGTAATTCACTATTCCAGAATACTCCTGTAGCAACCTGGCCATTCGCTGCTGAGCCAATGCCCCCTCTCT
TTCCACAAACTCTTCTCCTGTAGCTTCGAAGCTATGGTAGGTGACCAGGAGTCTTGGCCACACTTCTTCCATTGCCTGCCCAGGAGGTATCTCCAACTTT
CTCTTACACACATCTGTATGATACACTAAGACCTTTTTCCAAATTGCACAGAGAGAGAAAAAGGGATTGAGTTGCTTCCATATTTTTGCTGCTCATTGTC
CTCTTTTCAGTACTATTTTATTTTCAGAATTTTTTCTAGCCACACTTTTCTTCTCAAGCACAGCAGGTAGCCTTTGCATAGCTATGAGAGTGACAGGATT
CTTGTCAACCAGACCATAGACGCCTACCCAGCCAGGTGTAAGAAGGTCCGCTGTGGGCAGAGAAGTTGATGAGCCAGCACGGTCAGTCCTGTCTTTCGCT
AGCAGGGACTATTGACTGCTCTGTGCCAGACATTTTGTTAAAAAGTGGTGTTATCGGCCTGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAG
ACCGAGGCAGGTGGATCACTCGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCCACTAAAAATACAAAAATTAGCCAGACRT
GGTGGCGCATGCCTGTAATCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATCAGTGAACCTAGGAGGCAGAGGTTGCAGTGAGCTGAGAYGATGCCGTTG
TACTCCAGCCTGGGCAACAAGAGCAAAACTCCATCTCAGAAAAAATAAAAATAAAAATAATGGTGTTACCAAGACATAGAAGGTGGGGTCCATTCTTTGA
AGTGACCACTCATTGAGTAAATTAACATCATTTCTGTTTCATGCCATTGAAGAGCTGTGAATAATAATACCCTTGTGTCAGGCTTCCTGTGGTCTAGCAC
TGTGTCCCGTACTTTATAGTTTATTTCCTTTAATACTCATGCCCATCTAGGGTAGTAGGTACCATGGTTGTTCCCAGTTGATATATGACGGAATCGAGGC
TTAGCAGAATAAGAAGTCACCCAAACTCATACCCACTGGTCAGCAGTACAGCTAGAATTCAAAGCCACACTTGTCTAGGTCCAAAATCTGCACCCCTAAT
TAACCACTCCTGGTAAGAAGCTGGTTATAAGGGCTGGTCAAGTCAGCTATGGAAGAATTCTCAGAAAGTGACTCTAAAGGTGTTCTTTGAAGGTTGTGTA
GGAATTCACCAAAACTGGAAGGAGACAGGCCTTCCTTGCAGGGAAAAGGAACGTAAGGGGCAAAGTTACAGAGACATAAAAACTCACACCATCTTTGGAA
AAAGGAGACTCATTTTGAGAAGCCAAAGAGTAAGGTTAAGTGAGAACTCTGGACATTTGGGCCTGTGGGTATTGGGCAGCAGCCCCTGACATGATGACTC
GTCTGTGTGACAGCAGAATGAATGACCACAGCAGAGCCAGAGGGCCTTTGCAGCCCTGTTGGTCTCAAATTTACTCATGTATAGCACATGCAACCTGCAT
TAATAATCACTTCTTTGGAATGTTTTCTACCTGGAAAGGGAATTAGTGGATGTAACAGTTCATTCCCCAAACATAAAATTTTCCTTGACGTTTTGATTGT
TATAACTCATTTAAGTGGGAAAGTATAAGATTTGATATCTAGCCCTGAAGACTCATCATTGAGCACAGTGCTAGAAAGAAATGCCTACCAGGCTAGGTGC
AGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGACAGGAGGATCACTTGAGGCCAAGTATTTGAGACCAGCCTGGGAAATACAGTGAGACCT
TGTCTCTACCAAAAAAAAAAAAAAAAAAAAAAATTAGTAATGAGACCTTGTCTCTACAAAAAAAATAAAAATTAAAATTAACCAGGCATGGTGGGTCATG
CATGTAGTCCTAGCTACTTGGGAGGCTGAGGCGGGAGGATCATTTGAGCCCAGGAGTTTAAGGCTGCAGTGAGCTATGATTATGCCACTGCACTCCCACC
TGGGTGACAGAGCAAGAACTTGTCTCTTAAAAAAAAAAAAAAAAAAGGCCACGTGTGGTGGCTCACACCTGTAATCCTAACACTTTGGGAGGCCAAGGTG
GGAGGATCAGTTGGTCTCAGGAGTCCAAGACCAGCCTGGGCAACTTAGACCCCATCTTGAAAAAATAAATAAATAAAAAATAAGAAAAAAAATAAATGCC
CTACCTTGAAGAACATCACAGCTCTGAGGATTTTATGAGTTACCAAAGAAGTCCTTAAATATTAAGTTATATGGGCTCATGAACATATACTGATGGTTAG
TTTAATTAAAATTAAATAAAACTAAATTTGAAAGCCTTTGGTTCTTCTAGTAATGCCAGTTTATCTCATTTCTTCTTGTATCAATATCATAGAATTACAG
AACATTCTGTCCAGGAGGTGAGCACCCTGCCAGCCTCTCCCTCTTCAGTAGGTGCAGTCAGACCAGGAGGTGATAGGTGCTAGAGTGTGGTGATTCACAG
TACAGACCCTGGAAGAGGGCTGCTGGCTTTCCATCCCAGCTTTGACCCTTACCAGTGACCTGACCTTGGGCAATTGACTTTACTTCTCTGTGTGCTTCTT
CATATATAAAATGAGGGGTGATTATACTATTTATCTCATAAGCATAATTACTATGAGTATGTAGCACAGTATGTTGCTCACAGTAAGTGCTCAGTAAACG
GTCGTTGCTGTTAATAATGTTACTATCAGGGCGTCTTGATGGGTAATGAAGAGCACATTGATTTGTGGTCAGGACTCCCAGGTACACCATTTCCCCACGG
GACCTGCAGCCATTTATTCATTTAGTCTCATTTCCTTATCTTATGATGCCAGTCTCATGCTGTGAGGAAGGAAGGCTGGATGAATATAAAAGCATGTGGG
CAATCGGTGGTGCTATTGAGCAGATGTGCAGTGTAGTGAGGATCAGTTAGTTTTTTTTTCAGCCCTGCCCTCTTCATCTGCCCTCCTGGTGCTCAGCCTC
CTCAGCCAGCCCATTCCCAGTGCCACCTAGGCAGTATTATAGTCTTCTAGGTAGAGGAGGAGAGGAGGCTGCTGAAAGAAGAGAACAAGAGTTTCCAGAG
CAGTCATAGGAAGAAAGGACAAGGAAATGAACTAGAGCCCCAGAGACAGGGTGCCCATGCAGGGTCCCGGGGAATCCTCCTGGGTGCCTGCAGCTTGGGG
CTCCACAACTGCCCTGCACTCTGCCCACCACAAAATGGATCATAGAAGAGCCCTCATTTATTGTCTTGTGACCCTCTCCTGGACATAGCACACTTACCTC
CACCTGTGTGCCTCTGGTTTTGCTGCTCACCCGCTAGAAAGTTCTTCACCTGTCCAGGTGCTATGTCTTCCCCAGACAGCATTCCCTACTCCCTCTTCCC
CACTCCTGCCAGCAGTCAGAGTTTAGAAACTATTCTCCTCAATTGACAGCAACTGATGTTCATCTCATTACACATTATTAGTGTATTTCCTATGTCTTAA
GTCTCACAGGCCAGAGCATAAGCTCTGTGAGAGCAGTGAAGTTTTATTTGTTTTTGTGCCTTCTGCTTCACATTTATGCCTTGCACATAGTAGATGCTTA
ATAAATGTTAATACTTGGCCGGGTATGGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCGGAGGCCAGGAATTTTAGA
CCAGCCTGGCTAACATGGTGAAACCCTGTTTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTATATGCCTGTAGTCCCAGCTACTCAGGAGGCTG
AGGCAGGAGAATCACTTGAACCCAGGAGGCCGATGCTGCAGTGAGCTGAGATTGCACCACTACACTCCAGTCTAGGCAACAGAGTGAGACTCCATCTCAA
AAAAAAAAAGTTAATATTTGAATGAATGCCCCTGTAGTCCCAGCTACTTGGGATGCTGGACAGGAGGAACACTTGAACTCTGGAGTTCAAGGCTACAGTG
AGCCATGATTGCACCACTGCACTCTAGCCTGGGTGACAGAGTGAGACTGTCTCAAAAAAAAAAAAAAAAGAGAGAATGAATGACGAGTCAGTAAGTGCCT
GAGGGCCTGGCCCAACAGATGACCACTTATCCACCACCCTGCTAATGGTGTTCACATGCACATTCCACTTGTGAGTTGTGTGTTTCTTCTGAGTTTGGAT
ACTAGAGGGTAGTCTCCTAGCATGAGGCCTCTTGGTGAACTTGAAATTTATTCTTCTTTCTCTACCCTCAAACTAAGGACAAGATCCTGAGCCAGTGGGA
ACATCACCAAGTTTCTATGCTCTTTGAGGCCTTGCCACAGAGCAGCTGCTCACCTCTTTGATACACTCCTTTACCAGAAATAAAAAACCGCAAAGCCCAA
AACAGTGCTCAGTTTTGTTTTGGTCTTAGGCCAGAAATGCATGCCGTTTTGGCTTGGGTCTTTTAAATGCCGTTCTGGAACCTGAGCAATGCCTGTCTAC
AGGCCAAACCCATGTATTCTCATTGCATTTCCCCATCTAAAGACATACCTTTTCACCTTCGGTTTTCCTTGTAGGTAACGATGGGGGTCCATCCTCTTCA
AGTAAGACTACAAACAAGTTTGAGGGACTATCCCAGCAGTCGAGGTAAGCCATCTCAGCGCTTCATTTCCCCTGTTGGATCCATTGATGCAATGGACAGA
ATTCTAGAAATGAGTTTTCATGAATTTCCCAGCGCTGCTCAAAGCTGTGGTCAGCCAAGTGGGGCTGGCCACAACAAGAAACCAGACGTTCACTCTTGGT
TTGCATGCACATCTTGTGACTGGACTGGGCACAGGTCTGCAGACCGTTCTCTGAGCAGCAACGCTGTCTACCCAGTTCACAGACAGGAGCTAACCTCACT
TCCCGGTGGTCGCAGGGTTGTGCAGTGGTCTTGAACAAAATTCCTGTCAGAATGAGTTTTTATTTTTGATATTTTAATCAAGTAACTTTGTTACTTTTCC
ACTTGACTCCTTTTGCAGATTTGGAAATGAAAAGATAATCCTTAGGGAAATCTGATTGCCTGGAGATTTTCAAACATAAAAATAGCACTCTTTCAAGTTC
TGTTTCTAATATTTTTTTTTTTAGGCTAGGCTGACAGCAGTGTTCTTTTCTTCCCTTTTTTCACTGAAATTGTATACTTGAGGAGATCTCTTACGGGCAA
TTTTTATCCAGCCTTACCCTAAAGTGTTTTCTCTGGAGGTGCCATCCAAGGAAAGGACAGAGAGCCACTTCCAGACCCAAACTTCAGGGAAAAAGAGTCA
GCTCTTATCCAGAGTTTCTGAAAGATGAGAAAACAAAATCTCTCTTTTTTTGAGATAGGGCCTTTCTCTGTCACCCAGACTGGAGTGCAGTGGTATGAGC
ACAGCTCACTGTAGCCTCAACCTCCTGGGCTCAAGAGATGGTCCTGCCTCAGCCTCCCGAGTAGCTGGAACCAGAGGCATGCATCACTGTACTCAGCTGA
TTTTTTTATTTTTTTGTAGAGACAAGGCCTCAGCATGTTGCCCAAGCTGGTCTTGAACTTCTGGGCTCAAGCAATCCTCCTGCTTCAGCCTCCCAAAGTG
CTAGGATTACAAGTGGGAGCCACCATATCCAGCCTTTTTTTTAATACCACTATCTTATGTACTCTTTATAACCCTGTGAGATAGGCCCAATTACTATTAT
CCTCAGTTTTGCAGGTGAGGAGAGCGAGGCCCAGAGTGGTTAGGTGGTGGGTGCAGATGTCAGAGCCAGCTCTCCAGCCTACTTGTTCTCCCAACTCCAC
ATTCCACACCCCTTCCTTGCCCTTGTGCCCTGCCTTTCATTCCTCACTCACCTTCCTTCAACCCTAATTTGGGGGACCCTGTAAAACTAAAGTTCTGGTG
TTCTTTTTCCAGAGTGAGGAGAATATCTGACACTCCAAAAGCACTCATAAAAGGTTTTTAAAGGCTGGACACAGTGGCTCACCTGTAATCCCAGCACTTT
GGGAGGCCAAGGTGTGAGGATTGCTTGAGCCCCGAAGTTTGAGGCCAGCCTGGGCAACATAGCAAGACCTTGCTTCCTAAAAATAAAAAAAATCAGCCGG
GTATGGTGGTACATACCTGGCTATACGGGAGGCTGAGGCAAGAGGACCGCCTGAGCCCAGGAAATTGAGGCTGCAGTGAGTCATGATCGCACCTCTGCAC
TCCATCCGGGGCGACAGCAAGACCCTGTCTCAAAAAAAAAGTTTTGGCAGGGCACAGTGGCTCTCGCCACTTTGGGAGAACCAATCCCAGCACTTTGGGA
GGCCAAGGCAGGTGGATCACTTGAGGTCAGGAGTTCAGGACCAGCCTGGCCAACATGGTGAAACCCCGTCTGTACGAAAAATACAAAAATTAGCCGGGCA
TAGTGGGGTGCGCCTGTAGTCCCAGCTACTCAGGAGGCTAAGGCAGGAGAATCACTTGAACCTGGGAAGTGGAGGTTGCAGTGAACCGAGATCACGCCAC
TGCACTCCAGCCTAGGTGACAGCGAGACTTCGTCTCAAAAAAAAAAAAAAAAAGTTTTTAAACAAAATCAAGCTGATTGTGAACTAGAGCCTTTGGCAAC
TCGTTAAGTTTGTTTGTTTGCTTTTGAGATGGAGTCTCTTTCAAGAGAAACAAAGCCCTCTCATGTTTACTGTTTCTTGTTTAGTGGTGGCTTTATCTCA
GCAATATTCCCCCGTTGCCCAGAGACAGGAGGATTTCAAGTGAGCTGAGGAAAGAGCAGTGAAGATCAAGGATGGCCAAGAGCCAGGACAGAAAGGAGCA
CACACCTTTCATCTTCTCTCTTTGACTACTTTTTGTTTTGTTGGTTGGTTTGGCTTTTTCTTTTCTTTTAAATGCAGTTAGCTGAGGCACAAGAATCGCT
TGATCCCGGGAAGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGTGACAGAGCAAGACTGTGTCTCAAAAAAAAAAAAAAAAAAA
AAAAAAGCAGCAGCAGCAGCAACCAACTCTTAGGACATCAGGGGACAGAAATGGAGAGATGAGATAATAAAGGGGTTCTTGGCAGATGGGGCTCAGGCAC
TTGGCTACTGCTGCTTCTCAGGCATGCAGGCCTCCTGGTGTCCTCTGAGAATCGCCAAAACCTCTTGTTAAAGAAAAATAGTGGCTTCCACCTAATGTAG
ACCACTGATGGCACTGGGGTTTCAGTTGCAGAGGTTAACGTTTGATGATTTAGACAATGTGGTATGGACCTGTATTCCAGGGACTTGGGCCTTTGTCACC
CTCATTTACCTGTCCTCCAAAAGGAAAGCAAGGCCTAGGAGAGCCTGGAGGCCCGAGAACCAAGCTCTTTGCTATAGTGGAGGAAGTGAGGGCTCTGGAG
GCCCAGGGGAGCTAGGGCCGAATTTCCACTTCTACCTCTGACCCACGTGAGACCTTCTGCCAGCCGCCAACACCCCCATTCCCTTCCATTTCCTTGTCTG
GAAACACAGAGCTGCTTTGTGGGATCATGTGGGAAGAGTTACTTCTGTGCACTACATTGGGGTCACCACTTAGAGTGTGCCAGGTGCCTTCATAAATGCT
TTGAAGTGGAGGAGTTGGGCTTTATCATTAAGAGGGACTTTTTTTTCATCCTTTTACTGTGCCTCCTCAGCCAGGCAAACTGAAATATGGAAAATAGACT
AATCTTTTGTTAAAGACATTTTGAGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGAAGGCTGAGGTGGGTGGATCCACGAGCTCAGGAG
TACAAGACC


SNP Information

Context             (SEQ ID NO:61284):
AGACCGAGGCAGGTGGATCACTCGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCCATCTCCACTAAAAATACAAAAATTAGCCAGAC
R
TGGTGGCGCATGCCTGTAATCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATCAGTGAACCTAGGAGGCAGAGGTTGCAGTGAGCTGAGACGATGCCGTT
Celera SNP ID:            hCV7686414
SNP Position Genomic:     6399
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61285):
TAGCCAGACGTGGTGGCGCATGCCTGTAATCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATCAGTGAACCTAGGAGGCAGAGGTTGCAGTGAGCTGAGA
Y
GATGCCGTTGTACTCCAGCCTGGGCAACAAGAGCAAAACTCCATCTCAGAAAAAATAAAAATAAAAATAATGGTGTTACCAAGACATAGAAGGTGGGGTC
Celera SNP ID:            hCV7686424
SNP Position Genomic:     6490
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 NONSENSE MUTATION


Gene Number:                 342
Celera Gene:                 hCG2012722 - 84000314047409
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(41064900..41077191)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12502):
TACTTGATTCTCCTGCTGTGTGTCTTCTCTCTTTCTGAGAGCCACAAAACACCACGTCCCCTTGCCTGAGTCTCTAGCTAGCTCTGTGGCCCCTAGGCCA
CACCTCTGCTGCCTGGTAACTTTCCTTGCTGCGTTGTGACAGAGCCCCTGTGGCCAGGCAAGTGTTGCCTTGGCGCTGGTCCTTTCTGTGAATATGGTGG
AAAGTTGATCTCAGTCCTTCCAGGGAACTAGTCTTACAGTATATGCTGGAGGCTACTTTGTGCTGATGGTTGTAATAGCCACAATTTAGTGGACAGCCAC
TGTTGCCAAGTATCTTATGTACATTGGTGACCTCTTATAATAATTTACAAAATCCATGCTGTCATTGCCATTGTAAGGATTAAAGTGGCAAATAGTGAAT
CCAGGTTTGGTGTCCAGGGGTGCCTGATCTTAGAGCCTGTGTGTGGGGATTGAACTGGCAGGAGGTGCAGATCTCTCAAGCAGGTGGGGTGTCTGTGGGA
CAGGGGACAGCTGTGCAGTCAGCATCAGACTCCAGTTAATACAGAATGCTTGACAGCTCACGCTCCCCACATCACAAAATCCAGGACCTGGAAGGGAGCA
GTGAGCACCCACATTGAGGTTATTTCATGACTGTATTCACCTGACCCCCACTGATGACCTCCCATGTGAGGTGCACACATTTGTCTACATGTGAATCCTC
AGCTCTGGACTGTTGGGAATTTTGGAAGTAGTGGCTGGGCAGCCGAGGAAAGAAGTGAAGCTGGGTGGGCAGAAATCGAGGCCCCAGGCCCATCAGCCTG
AGTGGTTGGGAGGAGAGCTTGGAGCTGGGGTTGTACGAGAATTGGGCTGGGCAAAGGCAGTGTCCACCTTGTTGGGTGATGAGGATGGGATTCAACAACT
ACCTGTCCTCTGGAGATTGAAAGGTTAAAATAAGGCTTGTTGGAGCCTTTGCCATCTGAAGCTTCTGTATGGTTTTGGGGTCAAAGTAGGTTTGGGGAGG
CAAAAATGAGCCCCCAGACACTAAGAAGAGAAGGCACAGGACAGGCCACCATCCATCCCCTGCTGTCCCAAAACTGACAAGTCTCGTACCTCTGACAGTA
AAACTCCCCGTAAGACTACAAGACGTGGGTCTTGGAGCTGCAGTTGGCCTCAAATGCAGGTTCACGAACTGACCAGAGCCAGCTGCTGCAGAGGCTGAGC
TCATTCGCAGTCTTGGTGTATCTGAACTCATGATTGAAAGATTTTGATGTACAGTCGACTTGCCATATGCCTAATGTGATATCCCGTTAGACTGTGCTTC
CGCTTTAGATAGGTAGTAGTTACAAGGGCTTTCACGGGAGCCCTTGTGCCTTAGTCCCTGTGTCCGTTTCCCATTGCAGCTGTACAAGGTTACCCCAGAT
GCAGTGGCTTCAAACAACACACATTTATTCTGTTATAGTTCTGGAGGTCAGATCCTAATATCAAGGTGTTGGCAGGGCCGCGTTCCTTCTGCAGGCTCTA
GGGAAGAATTTGTTTCCTTGCTTTTTCCAGCTTCTAGAGGCTGCCCACACTCCTTGGCTCATGGCCCCTTCCTCTGTCTTCAAAACCAGCTGTGTAGCAT
CTTCCGATCTCTTCTTCCATTCCACTCCATCCTGACGTCCCCTTCTCCGGCTCCTCTGCTTTCTTTTTTCATTTGATAAGGACCCTTGTGATTACGTTGG
ACCCATCTGGATAATCTTGAATGATTTCCCTGTCTTAAAATCCTTGACTTAATCACAGCGACAGTGCCTCTTTATCATGTAAAGTCACAGTTGCAGGTTC
TGGGGATTAGGACTTGGGCATCTTTGGGGAGGGTGGTGTCTGCCCACCTCAGTGTCCTTCCTCTGTGTTTCTCCTGAGGGCTGACTCTTCCCTCACTGTG
GGAGACCCTGCACACCTGCTGTCATTGGGGCTGAGCCAGTCAACACCGGTTGAGGGTAGGGGGACACTGGCCAACCCAAAGGCTCTTGGCGGTCTCCACA
GACTTCCACTTCAGTTTAGAAAGTACAGTGAGAAAACCAGTAGCTGAATAAAGATTTAGGGTATTTGGCACAGATCTGCTAATGCACGTGTCCGCAAATC
TAGACTCAGCACAAGGAGTCTTAGTTTGGGATCACAACTGATTCTCCTGGTCCAGTGATACCTCTGGGCTCTTGTTCATTGGCTGGAGCTCTCCTTTTTG
CTGGGAGGCAGTGCTTCATCTTGCAGTTCATGAGATGACTGGCACTTTTGCAGCCGGCCTCACACTGCTGGTTATGTGCATGGAAGAGGTCTCATCTCAC
TCCTTCCTATGGCTTTTCTAGCTGGGCAGACTCTGGTTCCTGTATTCTCCCCCTCAACTGTAGTGTTGAATGTTCACTGCCCATCCTTTCTGCCCTGCTC
TGTGGCTGCCTGTCCTCATCTCTGCATCGGTCTTCTCTTTTCATGTCCTGTAGCTCATGAGTGACCCGCTCCCATGTCACCTGCCATTTTGGCCTTGAAA
TTTGGTAATGATTCATACATGTGTCCTCGCTTGTGCCATATCCAGTGGGACAAGGGAATTGGGACACCTTTGGTTCTCTGGTAGCTTTGCCTTTTTTTTT
TTTTTTTTGAGACAGAGTCTTGCTGTGGCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCAATGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTC
CCGTCTCAGCCTCCCAGAGTAGCTGGGATTACAGGCGCCTGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGGTTTCACTGTGTTG
GTCAGGCTGGTCTCGAACTCCTGACCTTCGTTGATCCATGTGCCTTGGCCTCCCAAAATGCTGGGATTACAGACGTGAACCCCTGCACCCGGCCTAGCTT
TGCTTTTAAATTGCAAGCTGGGACTCCAGCCCTGTGAAGTGGCTGTCCGCATTAGATCGGACACCTGGCAGACACTTGTTTAAGTTTTAGAATTTTAAAA
AGGAAAATACAGGAGAAAAAGTAGAGTTGATCACAAAAAGTAGATTTTGCAGGAAATAGTTTAACTTTTAAAAAAGTTATCAATGTGTTATATGCAAATA
TGGAAAACTATAAAGAAGAAGAAAACAGTTGCCTATAATTCTTCTAGCTGGAGGTACCTGCTGTTACTCTTGGGGATGCTTTTTGTTTTTCTACCTTTGT
AGCTTTTTAGTTTTTTTCTAAGACAAAGTCTCTCTCTTGCCCAGGCTGCAGTGCAACGGTGTGATCTCAGCTCACTGCAACCTCTGCCTGCCCAGCTCAA
GTGATCCTCTCACCTCCACCTCCCAAATACCTGGGACTGCAGGCCCACGCCATCACACCTAGCTAATTTTTGTATTTTTGTAGAGATGGGGTTTCACCCA
GAATGGTGTCAGACTTGGGTTTAAGCGATCCTCCTGCCTCGGGCTCCCAGAATGCTAGGATTACAGGTGTGAGCCACTGCACCTGCCCTACCTTTGTGTT
TTACGAGGGTTGTATATGTATCACATATGCAGTGGTTTGTCCAGCTTTTCTCCTACAGTGACATTTTTCTTTGTCCTCGCCTTTTCATAAACTGTCTTTT
TAAATGTTTGCTTGATATTTAATCATGGATGTATTGAGATGGACTCATCTCAAACTATATTAAAAACACTCTGGATGCTTTAAATAAAAAATGGCAAAAG
TTAATGTTGTAAGAGAAGTGAAAAGAAAACCAAGAGCTCCTACCTGCCTCAGCTTACCCTTTGTTTGGTGCGTGGGTGCAGTGGGCAGTGAGCCGTGCCA
TTCCCTCCTGGCAGCCGGTGCATGGCTGGCCATGGTCCTTAGCAGTGACTGTGAACAGCCGTGGGCTACTTTGTTACCCACCCAGTGCTGCTTTTGTATG
TTGGCAAATGGGGCTTTCGCTTTCCTTGGTTTGATTCTGTCATTGATGCTTCAGACTAGTCATGCTTTTGTTTGAAGGGAAAAAAAAATCAATCAATCAA
TATCAGTAACTTGCTATAGATTTTTATAAAGGAAAAAACCCCACCACATGTATGGTGGGGAGTGAGTTGATGTGGAATCAGTCATGACCGCGTTGAGTTA
GGAGCATCGCGGATGTGGAGTTACAGCTCTGCTGTGGATGTTTTTGTTTTAAGAAAACATCTTTTAAAAATCTAATAATGGTTCATTAAAAACCAGAAAT
GGTCAAGCTCACTAGAAACCGTCATCAGCCACATTCTGATGAAAGAGGTTTTGACTTTCTTTTTTAAAAAATTAATGAAGATACATCCAAATATTTGTGG
CAGGCAGGAAATCAAGCGGATTTTAATGGGAAATTATGTAAGAAAGCTTAATGACTAATTTTTCTGGATCAGACAAGTGGAGAACGGTCTTAGGGAAATG
TGTACATCCATTACTCATTAGTTTGCTGTATTATAATTACTGTTGTATAGGAAGAAGCATGTCAGATAATTAGGAACTGGGTGGCATTTTATGCTAAGGA
TCAAAACAAAGATTTTGCTTGGAATGTTGAGCAAAATTATACTCTGGCTGAGATTAAACACATGGCAAGCATCCTACTCCAGTATTTAAAATCATCAGGC
AGGCTTTATTCTATTTTTTTGGGTCTTTGTTCTTTCATGTTTTCCTCTAATGAAAAGGAATGCTTAGAAAATAGCACTGGGAGGCCAGCAAGAAATCAGT
GTTGGGATTTTCTCATGTGTGAGGAGCTGTTACTGCTCCTGTCGCCTGGTTTCACCCCTCGGTTCTGCTCCCAGGAGCTGGACCCCTCCCCGCTGGCCCC
TCTGTGCTGCAAGCATCCATTTTGGGCTTGGGGATAATGGTCAAGAGAGTTGGTTGGTTTGGGCTGTGGGCTGGACAAGCGCTTGCTGCTTAAACCATGT
TGATTGTGGCTTAACTGCTGAACCAAACCAATACTTCATCCAAAGAACTTCTCCAGGGAGGGAGTGGGCTTCAGGGGAGCCACATGGGAAGCCCCCTAAC
CAACATTTCTGTAGCACTTGATTGGAGCCTCCAAACACCGTCGCTGTCGATGCTACAGCAGTCCTGTGGGCCGCAGAAGGAGTACTCACTGTGTGTTCTC
CATGCCCTTCTGTCTCTGAGAAGCAGCGTGGCGTGTTCGGATTGTGCCCTCCTGCCGACCCCGGTGGCTCAGGCAAAGGGCTTGCCAGATGGTCGGTGTT
CTTTGCCAAATGGGACCGATAGCGTGCGCATGGTGGGGATGAGGGGAGGACTAGGGAAGTAAATACAGTGCCTGCTGCCACGTCACCTTCACACAGTCCA
TGTTTAATAAGAGGTCGCTGCTGTGATGATAGGGGGTCGGCCAGACATGTCCACTGTTTAAAAAGCAGCATCCATCTGAGGACTCATTGGATTAAATGTA
CACCTAAAAAAAATACAGTGGCACCTGCATGCAGTGCCCGAGGATGGGTGTGCTGTTTTACTAGATCTGGTGTTTTTTGGAGGTGCACATTTGGTAGTTC
ATTGTTGGGTTGGTATTTGTCTCCATAACCTGTTTCAGCCTCAAGGTCATTTACCTTTGATCAGTGCTTGAAGCTTAGCGGTTTGTTTATATACATGTTC
ATGTATAAATTATATTACTCAGTCTGATCATAATATATGCCCAGTGCAAATCATTTCATTAAAGCCTCAGGGATACACGGTGCCACCGTTTCCTCATTCA
GGGACACGGGGATAGTGGTAGTGTGTCTTCAGCACGACATGGGGAAATTCAAAGGCAGCCATCCGTGGAAGAGCCAACGGCAGCCCGTGCAGGCGTCAGC
GCCTGGGGAATAGTAGCAGTCTACATCTTTAGCTGTCAGGGTATCTCGTTGTAGCCTCATCCTGCCCTCTTTAGGGGTCCTTGGATGAGTTATCAGTTGT
AGTATTGACATTTTCTGTAAATAGTGTCACTCAAGCGAGTGACAGTGGGAAGCAGACACCAGCCCTTAGGGAGCAGCCCAGGATGCTTTTTTCCTCCAAA
TGCCTCTCACCTATTCCCAGATACTCGCTGGAGTTGGAGCACACATGTCWGCAGATGTAAAACGACCTGCTCCCCCAGGTGAATGGATTCTCGCCAGGGC
CAATACTTATCCGCAGGGGTGTGTGCCAGGCAGCCCAGGTCAGCCTCCCTCCACCGGGCCACCCGCACCAGGTTGCCTCCCATCGTTTGCAGGAGCGGAA
GACCCGATGGAGCAGGTTTCACAGTGCCCTCGCTGCTGCCTCCCGTTTCATCTGCACGTCTCTTTCAATGCGGGCGTGCGAACTTCCAGGTAGAGCCGAG
TTCAAGAAAATGAAGTACTGCATGCGACGAGCAAGTTTATTGAAGAGGGTGTGAGGTCGCGGCGCCTGACCCTCATTATGTCAGTTACTACTAAATGAAA
TTAGAACTTCACTGCCCTTTTTCTTTTTCCCATCGAGGTGCAGGAGGAATTGATCTTAGGGTAGTATTTTGGATTTAAAAAAAAAAAAACATGAAATGAA
ATCCGTGTCCTCTTTATCCTCCCCTCTCTCTGTTCTGCGCGGCAGGTAGCAAGGAACGGTGGCGGGGCCAAAGGTTTCCTCAAAGACCCTGGGGGCCGGG
CGGGGCTGTGCCAGGCACCCGCGTCGCGCTCCAGCTCCAGCCCTTTAATGCTCTTTGCCATTCAAGCCACTCACTTTCATTTTCTATAGAAAAGCCTTTC
TGCCGCCTTTCACAAAACTTGTATTTTCATGCCTAATAAGTGAGCGTGTGACATGCAGTGGGCTCAGTCTCTGCATAGCCCGGCAGGCAGCGGCTCTGCT
TTCCAGAACCTTCTGGGAGTGGCAGACACACATTAGGAGTCCACGCGCAGGTAGCCTGGCCTTTGAAGCTCTCCAGGCTCTGGCCACAGTGGCTTTCCTG
CCCTCCTTGGCTGGTGGACGTAAGGCCCCTCGCCCCATCTGCTTCCTGCTCTCCCAGAGCCGGCCTCACCTTCGAGACTCATGCTACTAAGTTGTCTTTC
AGTTCCCCTGGTGGTGCCTCCTCTAGACCCCTGAGGAGATGGAGGGGGCTGCCTTCTTTGCGGCTTTCTCACGATTTCCTCACAGTACACACAGCAGGAC
CCCGGGGTTTGTGTGTGGCATCCTACACACACACACACACACACACACACACACACACACAGCAGGACCCCGGGGTTTGTGTGTGGCATCCTACACACAC
ACACAGCAGGACCCTGGGGTTTGTGTGTGGCATCCTACACACACACACACACACACACAGCAGGACCCCGGGGTTTGTGTGTGGCATCCTACACACACAC
ACAGCAGGACCCTGGGGTTTGTGTGTGGCATCCTACACACACACACACACACACACAGCAGGACCCCGGGGTTTGTGTGTGGCATCCTACACACACACAC
ACACACACACACACACACAGCAGGACCCTGGGGTTTGTTTGTGGCATCCTACACACACACACACACACACACACACAGAGCAGGACTCTGGGGTTTGTGT
GTGGCATCCTACACACATACACATACAGCAGGACCCCCGGGTTTGTGTGTGGCATCCTGCACACACACACATACACAGCAGGACCCCTGGGTTTGTGTGT
CGCATCCTTCACACACACACACACACACACACACACACACACACACACACACACACACACCCCTTGCTTATGTCCTCCACCCGTCCCTGAAAACATGAGG
TCTGCGAAGACGTCTTTGAGTCTGTTTGGCATCCCCAAGTGCAGCGGTGAACCAGAGAGAGAGGGAGCATTCACTTGATTCTTCACGCGTCAGTGTTTTT
AATCTCTGTGGCTGGAGGACAGTGTGTGTCACCTTTTCTTAGTTTCCAGGGACTGCGGCTTCCTTCCACCTCTCCCTTCCCTCTGTAGTTGGACAGGCCA
TGGCTCCCCAGTTCTCTGCTGTGGGCAGGTGCAGGAGCCTGACCAACTCCTCCGTGAGTCCATCTATCTGTGCGTGCATTTATTCATTCCTCCCTAGTGA
GGCAGGTCCCTGATGAGCAGCTCCTCTGCGCCTGCCCAGGTCCAGCGTTGGGCATGCAGTGGTGAACAAAACAGACTCAAACGCATCTTCACAGAGCTCA
TGTTTTGGTGGACAAGTGGAGGATATAAACAATAAGCACAATTTAGTAAAACATACGGTACCACAGCTAGCAAAGGTGGCAAGGAAAACAATGAGAGCGG
GGGTGGTGTGAATGTGTGTGGGTGCAGGGGCACCTCGGGAGCCTGGCCGGGAAGGTGGCATCCGCTGCAGGCCCAGGTGGGGAGATGGTGGGTGCTGCTT
CCAGGCCCAAGGAAGAGAAAGGCAGAGGCCCTGAGGAAGCACAGAGCTTGAGGGAGAGGGCTGGCGTCAGCTCAGGGAAGCAGGGAGGCCAGGCGGGGAG
GCCAGGTGGTGTGGGGCCTCATGGAGGCTGGGGAGTCATGAGGATGTGGGAGGATGGGGGAGCTCTGGTTGCTCAGGCAGTGGGGAGAGGACAGCACCAT
GGTAACATGCACTTGTGTTCATGTCTTGGCTGCCCCATTGCTGGGCACGTGTAAAATAGGAGAAATCTTAAAGCTTGCAGCTCTCCATGTGAAAATGATC
TGTTTGTTTCTTCTTATTACTATCAATATTAATATTGATCCTGTAGTGCTTTCACACTTAAATTGTTGAGTTCCAAGTCTTGTCTAATAATTATCTCAGC
AATTGCGATACCATTGGCTGAGGTTCATGGAGGTTTTCAGGCTAATGTCACTGAATGATCGGAAGGACTCACTGCTGGCAGTCACTTGTGTGTTTTGTGT
TTTTTTTTCCTCTGTCTCTCGCCCTCCATTTTTCTGCACGGCATTAAGTCAGCCACATTTTAGATTGTGTGCTTCTGTCATCAGAATATCTGGCATGCTT
TCCCCTGAATAGCAGGCTTGACATCTTTTTCTGATATTTTGTACCAACCGTACTAAGAGGCTTCTTGTTAGCTGTTAATTCATATTTTCTGAGGCTGCTA
ATATGCGTGGTAGAGCCATTACTGTTGCATGTTCAAGATAAAAGCCAAATCTCAGCTTATACCCTGTTCTCCCAGGATAAATTCAGAGAACCACTATGAA
GTCTAATCCATACTGTGATGTTGCTGAAAAGAAAATAGGGTTATAGGCTTATTTGGAGCCTTTCACTGTTTATGGTTGTACAAGTTGGGTGTTACTGACT
TATAATGTAAAATCTGAATTTCCAGGGCAGGGACAAGATTCGTTTTTGGCTAAGGCATATTGTGTCTGTGGGGCTGCTGAAGGAAAAAGAGCATCTTATT
TTTATGTGATTAGCATTATTCAATCACAAAATGCATTGGATTCTACTCAGACTGTCGGAGAATATGCTTGCTCCTCTCCTAGGCTCTGGAGGAAGAACCT
CAGCCACTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCATGCTTGTACGCCTGTGCACAGAGGGTGGGAAGAGGGCTTGCAC
CTAAGTCCTAGGGTCCTGTTCTCTGCACAGTTCTCTGCATAGGTTTCCGCACGCCTTGCTGTCTCCTCCTTGTTGCAGGCATGGAGCAAATTATCACCTG
GTGGTAACTCCAGTCTCCGCCACGGAGACTGCTTACCCTCTTCCTCTTTGGTTCAGGCTGAACCATCCTCACTCATCTTGTAGAGCCTCCCGTTCCCATC
TCCTCATCAGAGTTTCCTACTTTCCTTGAACTTTCCTTTTTGAGGAGATTTGAGAAGTGTGTTGTCCAAGATAGGATTTAGTATCCTGGAGCCAGGCTTG
GAATTCTAGTGTGGGAAAGCTTACTTACTATTACTTTATTATGGCATTTTAAAAGTTTTTAAAAGTAAGTGGAAAAAGGATTTTTGAACCTGTTATTACT
TTCTTATAGCATTTTAAAGCCATTTTTTTTCCTAGTGGGAGGCAGAAGGAAAAACTCGGTCATGTTTCACTCACTCCTTTCTTAAAGGGAGAGTTTTATA
TTGTACCTTCTTGTTCACAGCCAGGTGGCAGCTACATTGCTAATTGCAAGCTTTCAGGGTGAGAAAGAGAACCCGTGCCTACCTGCCTTTTCCTGATTTG
AAATGGTGATCTGCGTTGGTCTCAAGACCTTGTGCAGCCTCGCAGAGATTGCTCTGCACACATGTGATTGCATCTAATCAGGACTTTTTCTGAAACTGCT
GCCAGGAAAATGTGTGCTAGGAAGGTTACCTTCTGCAGCTGGACTTTTATGATGCACTGGATTATCATGGCCTTAGATATACCATCAGGGCATGGAGTGG
CAACAGTGCTTTGCTGTCTTGACGCATCTCAGGTAGAGGATCTCTTAGGGAGCTTTCTGATTGAATCCCACGCCCATTTTGAGGGAAGGGAATGGGCCAT
GGGTCTCATCCCTGCCTAGCGCTGCCTTGTGAGGGGTGCTGGCCTGTCACCTCCAGTTCTTGCTCCTTTTTAGGAAGCCATGCTGCCTCCTTCCTTGTTG
TGCGATTATTTTTTGGGTTGTGTCTATTTTGGTATTTTTTTCTCTTTCACCTCCTCTCCCATATTTCCCCTCTAGGGTGGGAGGAAGGAGACCCAGGTGT
GAGGTGGTGCAGGTGGCTGCAGTGTCCTCAGAGATACTGAGCTGTGGGGTAGAGGTAGCTGGAATCTAGATCAACTCACCTCTCTTTTATCAGCCATTTG
TTCTGAGAAGAGAGGCTTCGAGGAGAGACGCTTCGGTAAGGGGTTGCTGTGGGTCCTGGGGTCACGGGTGTTAGTTCTGGGTGCCACTGGGGGACACGAG
AGACAGAAAGGATAGGAATGAAAATGAAGAGCAACTAAGGGATGTGAAGATTTCTCTTGCACTTGTTTTCGGGATAGGAAAACAAGCCCTTTTAGTCTGG
GGCAAGGAAGTGTCTAGTGCCTCCACCTGGTCATCCACCGCGGTCCTCCTGGTCTCCGTTCAGGCCCACAGGACTCTGGACCGCCCCATCCCTCCCAGGG
AACTGTCCCATGTCCTGCTCAGGAAGGTGGTGGGGAAGGGGTAGGCAGGATGGACAGATGGACAGTGGCAGGTGGGGACACCTCCATCTCATTTTGTTCC
TCTCAATCCGTTTGTTTTTTTCTCTCCCTCCCTCTCTCCTCTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTACTCTGTTGCCCAGGCTGGAGTGCAG
TGGTGCAGTCTCAGCTCACTGCAACCTCTGCCTCCTGAGTTCAGGCAATTCTCGTGCCTCAGCTTCCCAAGTAGCTGGGATTACAGGCACACGCCACCAA
CGCCTGGCTAATTTTTGTATTTTTAGTCAAGACGGGGTTTTGCCATTGTTGACCAGGCTGGTCTCAAACTCCTGATCTCAGGTGATCCAACTGCCTCGGC
CTCCCAAAATGTTGGGATTACAGGCGTGAGCCATCGTACCCAACCTCAATCCATTTCTTTATCCTAATTGAGAGAATTTGAAAAGAAATTAATAGAATCA
AAAAAGAGAAAAGGGCCTGGTTATCAGAGATGCAAAATAAATGATGATTTTAAAGATGCTAGAAAGCTGTGCTCCCTCCCTGGGTGCTTTCTCTTTGGAG
GGGAATGCTGGAGAAAATCTCTACAAAATCTTCCCCTTGCAGTGCTGGGAGAGAGTAATGGTGAGCAAATCCTTGTAGAATTAAAATGGGATGAAGAGAC
CCTTATGAAGGGAGAAAGCAGGTGAAGATGGTGGGGATAGGGGCGGGACGTGCACCCCCTTCACTTTCCATGCCGGGCAGTATAAAAAGTGAGAAGAAAC
ACTTCAGGGCTGGTGTGTAAACTTCATGTTGGATAAATACGTGACTTCTGGTATTTTGGGGGCATGGAATCAAAAAGTTGCAGATTTGGAGGGATGTTTG
CAGCCACTTTTTACCCAACATGGCTCTCTATGTGGTCATTCAGTTGCTTAAACAAAGTCTGGGTAGACTTACAATTTTTTTTTAATACAAGTAATATTTG
CTTATAGTTTTAAAAAAGGGAGTATAACCATCAAAAGTAACTCTAGCGAATGATTTTGGAATATTCCAGAAATTTTCTATCCTTATATAAGCTCTAAAAC
AGTTAAACGCAGTAGCTCTATTTAATAATCACCATTGGGCACGTGGACTTTCATCAGTACACATAGATTTGCCTCACACAAACAAGAATGAACTTGAATG
TACAGATTAAGGGATAATAAAAATGCCAGCCTGGCTGCCATCTGGCTGAGGAGACGTTTTACAAGAACCTTTGAAGCATCTTGTGGGCCTC


SNP Information

Context             (SEQ ID NO:61286):
AAGCAGACACCAGCCCTTAGGGAGCAGCCCAGGATGCTTTTTTCCTCCAAATGCCTCTCACCTATTCCCAGATACTCGCTGGAGTTGGAGCACACATGTC
W
GCAGATGTAAAACGACCTGCTCCCCCAGGTGAATGGATTCTCGCCAGGGCCAATACTTATCCGCAGGGGTGTGTGCCAGGCAGCCCAGGTCAGCCTCCCT
Celera SNP ID:            hCV3224238
SNP Position Genomic:     6050
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,9)   total(A,9|T,4) 
SNP Type:                 SILENT MUTATION


Gene Number:                 343
Celera Gene:                 hCG2012742 - 84000314050698
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(41276754..41289204)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12503):
ACCTGGCCCTGGACTCCCATCCTCCGTAAGTAGGACAAGTAAAAGTCTGTTGTATAAGCCACTGGGTCTTGTTAGAGCAGCCAGAACGTACAAAGGCTGT
TTGGCAGGAAGGCAGCATCATCCTGACAACCCCCAGTATTCATTAATTGACAACATTATTTTTATAAGAAGCACTCATCAATTTATGGAAAACTCATGTA
TGTTAACCGTGATAAATACAAAAGCAAAGGAGTCACTGTGGAAACTAAACTTATCCAGACAACTGAGTCCCTGATATCCTGCATCGGGGACCGGCAAGCT
CTCTGCACGGGGCCAGAGAGTGAATATTCTGGGCTTCTCAGGCCGCAAAGACCCTCATCTCTGCTGTCACAGCTGGAGAGGGGCCCAAACCCGCTGCAGC
CCATCGACACAAAGCGTGGCTCTGCGTCATGAAAAGTCTATTTACAGCCAGGCGCGGTGGCTCATGCCTATAATCCTAGCACTTTGGGAGGCCAAGGTGG
GCAGATTGCCTGGGCTCAGGAGTTTGAGACCAACTTGGGCAACATGGTGAAAATCCCATCTCTACTAAAATGCAAAAAATTAGCCAGGTGTGGCAGCGTG
TACCTGTAATTCCAGCTACTGGGGAGGCTGAGGCACAAGATTTGCCTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGCCATCACGCCATTGCACTCCAG
CCTGGGCAAAGAGCTAGACTCTGTCTCCAAAAAAAAGAAGAAAAGTCTATTTATGAAAACAGGCAGCTGGCCTCATGCACGGGCCTGGGGACCCTTCATC
TACGACGCTTTACTTCAACATTCACAGGGGCCTCGGCAGCGCAGCGGCCGACAGTGACCTTGCTCCATTAGGGTGCACCTCTCAGAAGAGCTCTAAGGGC
CTCCCTGCACAGTTCTTCCAAGTCTCACTAACATCTCACTCATGTTCACCAGCACGGCTTGAAATGAGGTTTACTCCCCACAGGACATTCTCCCGACAGA
GGCAGCAGGAGGTGCCCGAGATATACGTTAGTGGAGGGAAGAAGGGGCTGTGGGACCCCAGCGACTTTGTGCTGATCCTCAGGGGACCCTGCGCTTCTTC
AGCATTGGCACTGGATAAGGCGAGAAGAAACCTAAGCCATGAAGCAGTAACTAGGACCAACGTGCTGAAAAACAGGTAAGTATCTGAGAGGCAGAGATGC
GCGGGAAGAGACGGCAGGCTTAGAAAGGAACCTCACTGCTCCAGGAAAGAAAATGTGAAGTTTGAGAACTGATGTCATCTTTGAAACTGAGTTGAACAGT
GAATGTACAGAATCCCTACAATTTCATCTGAAGACTAATTTAAACATGTAATAGAAAATTGCCCCATTTGGAGGAAGTCCCGGGAACAGTCCTGCAGCCA
CTGCTTTCACCGTGGGTCTTCAAGGTCAGAGCGCGGCGAGTCCTCCATCACCTTGAAGCGGCTCCAGCACTCTCTGGAGAGCCCGAGTGTGGCTGCCCTG
CTCTGCCCCCGACAACCCCCTGGGCACCAGAGCAGGGGGACAGGTGGCTCTGCCCCCATGGATTTAAACCAGAAGGGGAGAGGACCCTACAAGTGACTTC
CACCACTCCCACCAGCAAGGGGACCCTCTGCCAGAACCATGCCTCTCCCAAGCTTCCAACTTGAAAAGACTGGCTTTAGAAGTATCAGTCCTTATTTACC
CCAGACCCTCCTATCCCCAGGGTGACGCCACCTCTCCCGCCCACCCCACGCATCTGCACAGGCTCCTCTCTCATAGACGACGTCTGGCGCTATGATCATC
CACAAGTATGTGACCCTCTTGCAGAACCTCATGCTCTCCTAGGAGAATTTTCTGTCTGATTTGTGGCTGTTCCTGAAGGTAGGTGATCAATAATGAATAA
AATAACCTAAAAACAATTCCAAAAGGCTGGTCCTCACCCTCTGCTGTGAGTGGTATCGTGTCATTTTATTATTTTTTTGGTGGGGGGAGGTCCAAACTTG
ACTCTCTCTCTCCTCCTTTCAGTTCTCTTCTCAAAGCCTAATATCAAATATTTAAACTGCTTTAAAGGACGGGACTGGATTAAGAATGGGCAATTACAAT
AAAGAAATGCTCACAAACAAGTTTTACAGAGCACATGGATGAGTAACAGCTCAAGAAATGTTCTATCCTGTACACAAAAAGGCCCCATAGGAGACACACA
GACCCAACACCAGGCTGTTCTCAAGCCATGCCTTGTTGTCTCTTCTGAACACAGCACTGTTTATATGAAACATACCTGAGAATTGCCTCTGGAATGGACT
GCTCTCGATACTAATGCCCACCCATCAACGACATATTTCCACCACCCACATGCACAAGTGCAGGCAGGACTGACTTCTTGAAGTGCCTCCCGTCTATCAT
GAACTGAAATTAAACTCCCAGCCACGCGCATTTACCGTCCTGGAAGACCCTCTCCACATTCAGCCCGTATGTAGCACACGTCTCGTAGTACGTGCACCGT
TTCAGGTCGTTGGAGAGCTTCCTCGCCCTGGCGTCATCGATGACCCTCGGGTTAGCAGAACTTATGGCATCTGGAACAGAAGACCAAAAAGTAACGGCAC
AGTGACAATGACAGCTCTAAATACTTCCTACACTCCCCACAACACGGAAAACCAGTACCTTACTCAGCAGAAATGTAATTAGTTTATGAATCTGGAATTG
TAGAGCATCGTTTGCCTCCCAACTAAGAGACTCAAACACAAGAGAAAGTTATTCATTCGTAGATATTTGTTTTACAGGAGCGCTTCTGAAACTGCAATTT
TAAAATGTTCAGAAAGAAGGAAAAAGACTTAAATATGGGTCTAGAGGATACATACTTTAGAAAGGAGGAAAAACCACACACACAGTCCCTATGTGCAGGC
CCCCTTCTGTGCACCACGCAGGTGGCTAAGCATACTCCCTACACTGGCATTCTTCTTCTAGGTGTGGTCACTTGTCCAATGACGCACTTAATAAATGCTC
ACTGAGCCCCCATTTGGGGTTTGTTTCTGTTCTATGCACAGGGATACCCCAGTGAATTGTTGAAACAGACACAATCTGCACTCTCATGAAACAGACATTC
TAGTTGGCCAGAGAGGCAAGCAGAAAAGAAAGATGAATGTGATGAATGGTTCTGAATGTAAGATGGCCACACTGTTAACTGATGCCGGGAAGGAGGTCAG
GAGGCTTGGGTGACTCTGGGTTTTAGAGCAAGAGGTCAGGGAACCCTCACCTGCAGCAGGTGGGGCGCAGTAGGCACTGCCTGGGGCAGAACGCCTGAGG
CAGAGGGCAGCAGGACAGCTGGTGTATATGAGGGAGATGTAGGGGTGAGGCCTAGAGGGGTGGGAGGGAGGTGTGTGGAGAGGGGAGCAGCGAGTCCCCT
GAGGTTTTGATGGACCCCCTCAGGGTCACAGGTGACCTGGATCCCCCCAATCTAAGTCATGTGTGCACACGGGGGCGTTTGAGCAGCTGCACAGGGATGT
CGGCACCAGTTTCCTAAAAAAGAAACTGAGCTTTTTTTTTTTTTAAGCTCAGCTGCCAGGATTCCCCACCCCCAGCCCTGCCCCATCCATTCCATTACTA
TTGAGTTACAGTGGCACGTGGAACAGAGAAATGAGGAGCTGGAATGTGAACAGCCACAGGGCTTAGGGAGGAGAGAGGACTTTTCACAGACAGCTTTTTT
TTTCTTTTTTTTTAATGAGATGGAGTCTCACTGTGTCGCCCAGGCTGGAGTACAGTGGCGTGAGCTGGCTCACTGCAACCTCTGCCTCCTGGTTTCAAAT
GATTCTCCTGCCTCAGGCTCCCAAGTAGCTGGGATTACAGGTACTCACCACCATGCCCAGCTAATTTTTTGTATTTTTAGTCGACACGGGGTTTCACCAT
GTTGGCCAGGCTGGTCTCAACTCCTGGCCTCAAGTGATCCACCCGCCTGGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACTGCGCCCAGCCTTC
AGAGACAGTTTCCTAACCTGAATCTTTTTCATAGGGCTTGAAGGCTCTTATGCCAAAGAAAACAATAAACAACTCTTTAAACAAAAATCCACCAACAGGA
TTTCTCCACCAGTCAAAGAAATAGCAGCAAAGTTATACAACAGAGCGACCACCTTTGACATTTTATTTTTGTGGAGAAAGGGCATTTGAGAACTTCATTT
TTTGAAGTATATTTAAAAAGTGATGTCCTGAGGAATTTATTCAGTTTTTTCTTTTCTCTTTTCTCATGTTATTTTCTTAGCCCTATGAAATAGGGTTGGG
CTGACGTTTCCCCGTTACTGGAAGGCAAGTGAACTCTGCAGTTAAGGGTTTCTTCTCTGACAATCACCACTACAGCCTCCATAGGCTGCACCCCCGTTCC
AGGGATACGGTCAAAGGGCACCTCGTCCTGCCTTCTTGTCTTGCTGATTAGTAAATCTGACTTGCATTTCACAACATTTAAGAAAAGAAAGTTTTTTTTT
TAAGTATAAACATTTCTTTTTAATTGTAAAAAGAAGTTACAAGTCCATGATGTTTCAATGCTCTAGGATAATTTTGAAAACACAGGCCACATAGCATCCA
CCCAGCTTCCATGAGACCCTGACCTGCGGCCGAGCAATCCCGCAGCCCCTCCGTCCTCAGCGGCATGCTCGCTTGGTTTCTGTCAAATTTCGGCTTCAAA
GGTGCACCACGGGAATCTCTGCCACTGCACCAAAACGGGCTTCTGCACTCGCATTTCGGTTCTATACCTGTCTCATTTTCATTCCACTTTTAACTCCGTA
GCTTTTTACAGATCGTGCTTCTCCCTCAAATCAATTTAATTTGCAAGTCTTTAAAACAGAACTTGTTTAACAAACATTAAATGATTACCTCATTCATTCC
CATCTTGCCCAATTATGAACATTCGTGCAGTCCTTGGCTACTGCCCAGAAAGAGCTCCTGCTGGCAGAGCTGCCCCTCCCGCCAGCGGGCGGAGGCCTCA
CCCCAGCCCAGGAATCCTTTGGCAATGAACCTAATTCCTCTTCCGTTCTTTCCCATCCCATATGCTCTGACCTCTAACGCTGCCTACCCCAAAGCAGCAG
GAAGAGAAATGCCAGGTGCCTTCCTAGACAACCTGATCCCTCTTTTGTCTCTGGCATCCCAGGAAGCCAAACCCCTGAAAGAGCAGCCGAGCACGGGCTT
CACGGAGAGCAAGTCTGCACGCAGGAAGCAAGCGTCGCGGCAGGGACCCTCAGAGCCCACGTGCATGCCAGCTTCCTGCCATCAGGCTTTCTGGGGTGCT
CCCTGAAGTCTAGGGAAGGACCAAGAGAATCCCGCAGGTGAGGAATACAGCCCTGATTGCAACTTTTCGTTCTGGTTCATCTGGGGGTGGCCCAGCTAAG
AGGAGTCCTGCAGGGAGGGCATGGGGCCCGCTTACCTGCTCACCCCGGGAGGGCGTGGGGCCAGCTTACCTGTTCACCCCGGGAGGGTGTGGGGCTGACT
TACCTCCCAACCCCAGAGGCCACCCTCGCACACGCACACACTCCCCTGGGGCCTTCCTGGGCATCTTTCCACATCCGATCAACGGATGTTCATGGAATTC
ATGGGAATAAATGGGGGTACTTTCTTTTACTCAAGGACTTCAACTTCATCAGGGTTTCTCGAGAATCTAAGCAGCCACCCTGGCAGGAGGCTCGATGTGC
CCCTTGGCTCAGGCAGGAGACTCAGAGGGATACGCTGCCTCCAGGGGCAGGGACAGTGGGGGGTGGGGTTCAGGATTCCAGGCAGGACCCTGGAACACTG
GTCGCAGATTGAAATATGAGGAACAAAAGCAGCCATTGTTAAGATGCCTATCACATACCCACGGATGCACTGAGTGTCTTCTGGGAATTCCTGTTGAACC
CCACCAAAGTCCCAGGTGTCAAGGTCACCCAGCCAGCAGCCAGTCACACGCAGGTGTGTGTGGTCCCAACTCCCGGGATCTCAGACACTCCCTTCCTACT
GATGGAACATGGATGTGTACTCAGAACTCAGAGAACAGAACYTGATCGCAGGGGATCTTTCCAGGCTGGGAACTTCACTGTCACTTTTCACAGTGAGTCT
AAGCAAAAGCCCATTCTGAGTCCTAAAGTCAAACCTCCTGAGCTCCAGCAGCCTGTGAGTGGTGTCTGCACACACAGCCCCGAAGGACCCTGCTCAAAAA
TGCCACGGTCGGGCCTGCAGGAAGGGGAGCTTATTCGGAATTTCTCTATTCGACTTCAAGGCAGCTTTAAGCAGAATCTGCTGTGGATGAGCATCCACTT
TAAAACACGATTAGGCATTTTCAAGATGCCACCTCAAATACGGCAACTCTGCATTCTCACAAGAACCAAGGACTTTTGGGTGGTGCGGCCTTGTCTCCTG
GTGAACACTAGAGGGYGCATTAGGCCTAAGAATCCCTCCTCCCTTCTGTGTTAGGATTAAACAGAGCTCTGGCTCTGAAGGTTTCAGGAGTGAGAGCGAC
CACGTACGCTTTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGTTGGGGGAGGTGCTCTCCAGGAAGCCCAACTCTAACATCTCTCATCTAGCACA
CTGAAAAGATACTTATAGTTTTGTTTTTTTTTTCCCTTGAGATGGAGTCTCCCTCTGTCTACCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCA
ACCTCCATCTCCCCAGATTCAAAAGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGACACCCGCCAACATGCCCGGCTTTTTATTTTTTTGA
GACAGAATCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCGTGATCTCAGCTCACTGCAACCTCTGCTTCCTGGGTTCAAGTGATCCTCCTGCCTCAGC
CTCCTGAGCAGCTGGTATTACAGGCATGCACCACCATGCCTGGCTAATTTTTCTATTTTTAGTACAGACAGGGTTTCACCATGTGGGCCAGGCTGGTCAA
CTCCTGACTTCAACTGATCCCACCTGCCTGGGCCTCCCAAAGTGCTGGAATTACAGGCGTGAGCCACCACGTCTGGCTGGAAAATGTTTGTGGTTTATGC
CACACTATTTATCTGGGCTTTTGTAGGTTCGTGATCAAGCAGCCAATCATCTGCCTGGGCAACCTCCTACTTAGACCACACCTAGTGCAGTATGTACAGC
TGACGTCCTAAAGAGAAGCGTCTCACATCAGAGCATGGATGGGCATGTCAGATAGGCTCATTCTAAAAGAATTCGCAAAACAGTCTATTCATAGCCACAA
CAAAAATGAAGGGATATACAATTTTTCCTGATAGGATTATTTGTATGTTACCCATATTTCTGACAAAGCAGTTGTAAAGCTAACCTCCATCTGACTTTTA
CAAACATCCTACGTGACATCTTAGACCCTAGTGGCAGACCCAGCACAACCATAGGTCTGTGATCAAGAGCGAGGACATTGTGTCTCAGGCCATGTGACGG
CCACTCCACTAAGAGACCAAGTTCGAAGTGACCCTCAGAGAAAACAAGAAATGTGCCCAGTTGGATTCTCTGTCTGAGGGGCCTGTCAGATTAAAAATAA
GATACAGATCATAAGACGGTGACAAACAGAACTTAATAAACAGAACTGCTCTATGTTCAAAATCAGCACTATTTTCAAGGTGCACTGAAAGATAAGCTTT
AATAGATTGTTTATAAATCATTTTATAGAACAGAGAATTAAAATATAGCAGAAAATATATATATGTATTTGACTATATATATACAAAACATATACACACA
CACATATATATTTTTTTTCCAGAAAACAAGGGAAAATAGATTTTATTTTTCATAAAGCACCTGGGATATGTGTGTGTGTGTTGTTTTCAGGTTGTTAAAT
GAGTGGTTTCACCATAGAATCAAATCAGGAAATGTGATCATTTCAGTTCCATAATTTTTCCCAAAAAAGTGAGCGTTCAGTAGGCAATTTTTCCTTCTTT
AAAGCATTTTTTAAACTCCTCCATACTGAAAATATGTAACTGTTAGAACCCTTTCAAAACAATCTGCACACGAACATCACTCACCCTGGGTTCCCACCAG
AACCAGAGGAATCTCGCTCGTGTTCCGATAGTTGGCCATTCGACTGTAGTAGTGGTAAACGGTCTGGAAACTTATTTCATCCTCCAAGCTGAAGACAAAT
ATAACAGCGTCCACCCACATGGCAAACTAGGGAGAGAAGAAGGGGAGGAGAGCAGGAGCTGAGTGAGCAGGCTTGATTAAGAACAGAGATGTCTGCATGG
CGGCAGGCAGCAGGGGGCTGCAGGAATCCCCTCGGTCACACACTGGGTGCTTGACTTTTGACTGTCACTTTTACACACTGTCACGGCATCCACGTCCTCC
TCCTGAGCACACCATGCCTGGTGTTCCCCTTGGGAATGGGCCCTTCATCCTGTTCCCACCCAAGCCACTCTGTCTTCAGAGGACACAAACCACACAGTGT
CCCCGCGGTCCTCATGCTCCTGGCCTGTCCGCCCGCTGCCCCGACCTGCCAAGGCGGCCCCGCAGACAGAAGGCCAGACCCACCTCCTGCCAGAGCCCCT
CAAGCCCTAAGGCTTTCCACTGTACTCTCAACCTCTTAAGGAAGCCTTGCTGGACCCCTCATGCCTGCTCAGAACCTCCCCACCCCTCAGTCCTTCCCAC
TCGCTACCGCAGCGGCTGGCCTACTCTGTTGAAGGGTAAAGATTCAACCCAGGCTCATCCTTGGCTGAACTCCTGCTGCACCTCTGCAAAGAAATGACTA
CTTATTTTCAGGGAAATTAACAAAACTTAGGGAAGAAAACTTCACAATAGCCTCACTCTCGCCATTTTGTTCTTGCTTTGCCGTATTCATTTTATTCTTG
TCTTGCCAGTTGAACCTACATCACATCCTCTTTTGACAGATACCCACACTGTCAGGCATATACTAGTACCTCATTTAGTACCAACAGCCATCTTGGAAAA
CTGGAGCTGAGTGAGTGGAGGCTGCCTGCAGGGCAGAGACTTCCCACACTCACTGCAACCAGCGCAGCACATCTGACATCAGCTCTATCTGGCAACAAAG
ATCCTTCTCTTTCCAAGTGCAAATTTGAAAAACAAAACCGAAATCCATCCCGTCTGCTTTCCCTAAAAGAAGCTGTAGTTCCTAGATAGGTTTTTATGGC
CAAGGTTATCACCTCTAATACATTTGGTCTAAGTTTTTAACAGGTTAAACTCTGACTTCTGCATGTAAGTGAAAAGTGCATTCAGTTATATGTAAAACAT
GTACATGGTAAAACTTAACCCAAAGTTCTAGTGATAAATACAAAATTAAATGAGAATGAGGACTTGAAAACAAAGAAGGCCGGGAGAGACCTGGGAAGAT
CGTGATAGCAGCTCCCACAGAGAGTGCCAGGACCAAGGCTGACGGAAGGCATCTCCTTTTCCTCTTCTCTGCCTTGAGAAAGGCTCTTCCTGTCTCTTCT
AAGAAAGCAGGAGGAGCAGACTCCCACTGCGCCCATAAAGAGTACTGGCTGACCCGGAACCAGACCTCAGTTCCCGAGCCGGGAGCTGAAGCCCATCTGA
GCATCCACCCGGAGGAAACGTGAACTGTGGCTCTCATCTCCTAAGGGTGCATTCTGACTTCCCCAGCAACTTGTGTGGGGGGCACCCAATAAATAACCCC
CCAATCTAACATGTTCACCATCAGAAAACTGAAACTATGCTTTGGGGTTTGTTTTTTGAGACAAAGTCTCGCTCCATCGCCCAGGCTGGAGTGCAGTGGT
GAGATCTCAGCTCACTGCAACCACCTCCTTCTGGGTTTAAGGGATTCTGCTGCCTCAGCCTCCCAAACAGCTAGGATTACAGGCACGTGCCACCACGCCT
GGCTAATTTTTGTATTTTTAGTAGAAATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCTGCCTGCCTCAGCTTCCCA
AAGTGCTGGGATTACAGGTGTGAGCCGCTGCACCTAGCCTCTTCTGTAGATTTTTCTCTATATTTAAGCTTTTGTGCTTCATATACTGGTAAGACTTGCT
CTTCAGTTGTGGAGAAAAAAGCTTGTTTCCAGTCACTCAAAACATTTATGTGCTGGGGAAAACGGAAAATCAACTCAGGTGATTCTAAATGTTACCTACT
TCTTTCTCCTATCACCAGCCACAGGAGGGACCTTGCCTCCAAGAGTTCCTTTGTAGCAGAACAAACACGGTCCTATACATTCAGTGGGACTAAGAAAGAG
CTGACTTTTATCAGCATCTGACTGATAGGATCCTATCAGACCTCTAACTTTGCCCTGCCATACTATAAACTACCAGACGGTCACTGAACATGGGCTCAAA
CTGCTTTGTAACTAAGTTTTCACTTTTAACACGTCTTCAAGGTCTTTCCTTGTTATGATCAAGTTCATGGTATCGTTAATGCTAAGAAACAAAATGTTAC
ACACTTTAACAGCTTTGAAATCAGAATGCACCTAATTATTGCGGCTGTTTCATAGTTTAATTGGCAGCATCCTTCTTTCGAATACTGGTACATCTTAATG
GTCACTGTCAATGGTCAGAGTCAATGCAACATGGCAAATCTGTGGCATCTTCTGTATAACCGCACAGCCCTCCAACCTGTGGAGTACTAGACCTGAGGCC
TAAGAAGTCCTGTATTCAGTATCTTTCACTTTCTCCATCTTACAATCCTATGCTGCCCGTTCACAAAAAGGTTAAGTCCAGGAAATAATGCCAAGAAAAT
GTCTGACATTCCGTTTGCATTTGAGGTCACTAGCCGTTACCAGCTCTCGGCTCCTTTGAAGTGTTTAAATGGGTCGGGCGCGGTGGCTCACGCCTGTAAT
CCCAGCACTTTGGGAGGCCGAGGTGAGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACTCCATCTCTACTAAAAATACAAA
AAATTAGCCAGGCGTGGTAGCAGGCGCCCGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCCTGAACCTGGGAGGTGGAGCTTGTAGTGAGC
CGAGATCACGTCACTGCACTCCAGCCTGGGTAACAGAGCGAGACTGTCTCAAAAAAAAAAAATAAATAAATAATAAAAAATAACAATAATAATAATAACA
ACAACAACAATAATAATAATAACAATAATAATAAAGTGCTTAACTGGTAAATTATGCTGTAAGTAAAACAAAGCAGGTTAAATAAACCAAAAAAAGAGAT
CTTCCACACTCATGTTTTGTTATTTCCAGAATGACCATCTTTCCAGGAACTTCCAAAGAAATCATAATATGCTTCATACCGGCTTTCGGTGGAGACTGCC
TTGCTTGGGCCAAGGCCAGGGCGGCACAGAGGGGCCAATGCCTGTAGTTACCAGAGACAGAGAGAAGGTGGGACTCCCAATTGCACCCAGCAAGCTCTCT
AACTCTCACTGCTCTAGAGATCAAACCACTCAAAGGAAAAGGCCAAAAAACAAACCAAACGACAGAAATTTCCAGATGTCATTTCAACTGGGCTCCCCAA
CCAGGGCAGAGTGTGCGTTTCCTGCCTTTTTAAAAACACAGAAAGTGAAAAGCCATCACATAAACCCAACTTCCCTGCAGGATTTAGTCTGGGAAAAAAA
TAAAAAAAGAATTAGCTTCTTAGAGATGAGAAAAAAATGCAGTGAGAGGAAACATTTTTTATGGGGTTTCCACTTTTTTGGAAACCAAGTCACCGATTTC
TAGAAGCACTTCTTGAATCAAACCTTAGAAAACAAAGGGAAAAAAAGCAGGCTTGGGGCATGCATGTATACTCACCTGCGCCTCCGGGGGGCCCCCTTCA
TCTCTGATCAGCAGCAGATAGCTCTGTCCATCAACGACAATCTCTTTCTTGAACCTGCCACCTGCCACACACACAAAACATCTCGTTACACGAGAACAAC
AGAGAGTGAGGAGGGCAGACAGACGTGGGCTTCGCTTGTGGAAAAATACACCCTAGGCTGTCGCCCTGGAGGCAACTGAGTATTTAGGATGTTGCCAGCA
AATGCTGAATTTTAACAGAGCCGAACTCAGATTTAAATGTTTGTCTTTAAGAACCCCTGTGCGTTTCCAGTTGGAAGGCACAGCTTCCTTCGCAATGCCA
GACACTCGTGGCCAATTAGTGTGGACTTCTCATGTGGGCTTTCTATGTAAATTCAGGAATTCTCACTCACTGGGAAACAGAGAACATTAAAATTGTCATT
CTCTTGTTGGGTTCACAAAACTGAAACAAATTTTTCATGCTTAACAGGTGCCTGATCTGCAACCTCTTGGTAAATTACAGGGCCGAGAACCTGTATTCTC
CTCAAGAGAAACCCAGTTCTTGAAAGGGAGACATAGAACATCATGAGAAT


SNP Information

Context             (SEQ ID NO:61287):
AGTCACACGCAGGTGTGTGTGGTCCCAACTCCCGGGATCTCAGACACTCCCTTCCTACTGATGGAACATGGATGTGTACTCAGAACTCAGAGAACAGAAC
Y
TGATCGCAGGGGATCTTTCCAGGCTGGGAACTTCACTGTCACTTTTCACAGTGAGTCTAAGCAAAAGCCCATTCTGAGTCCTAAAGTCAAACCTCCTGAG
Celera SNP ID:            hCV1543805
SNP Position Genomic:     6042
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;JBIC-allele(T,124|C,1373)   total(C,1373|T,124)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61288):
CATTTTCAAGATGCCACCTCAAATACGGCAACTCTGCATTCTCACAAGAACCAAGGACTTTTGGGTGGTGCGGCCTTGTCTCCTGGTGAACACTAGAGGG
Y
GCATTAGGCCTAAGAATCCCTCCTCCCTTCTGTGTTAGGATTAAACAGAGCTCTGGCTCTGAAGGTTTCAGGAGTGAGAGCGACCACGTACGCTTTAAAA
Celera SNP ID:            hCV16061494
SNP Position Genomic:     6416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Gene Number:                 344
Celera Gene:                 hCG2012788 - 79000075504387
Gene Symbol:                 DKFZp762E1312
Protein Name:                hypothetical protein DKFZp762E1312;DKFZP762E1312
Celera Genomic Axis:         GA_x5YUV32VWPT(39374355..39404133)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12504):
AGAAGATTGGAGGAAGGAATAAAAAGACTAGAAGGGGTACAAGTTAAAAGTTGCTTAGATCCAAACAGGGTGGGTTTCAGAAGGTTAGTGTCCTTGGACA
ACTTGTGTTTTCAGCTCCACCACACCAAATAAAGAAGCTGACTATTGAAAGATTGGTGTGTTTGCCTCCCAGTTTTTCTAGAGTGCCTCCTAAAATATGA
TTTGATTTTGACACAGCAAACTTTCCTTAAAATGGCCATCTTTTTTGCCATCTTTTGCCTTTTACCTAAAAGAATGCAAGAGTAAGGATCATAATGAGAC
TATAGATAGAAAGAAGAATTTCTGCAGGAGTTTGAAAATTTGATACAGACAAATCCACGTAAGGAAGATGGGTCACTACAGTCGACTGTGCTACAGTGCG
CGCTCATGAGTGGTGTCAGAAGTTAGACCAAGCAGAAGCTAGAAATCAACGAGGCTGCCAATGACCCAACAATTGTTTGACCTAAAATATAGACTGAGCA
AAGAGGTCTTCTTCCACAAGTTGACAAAAGTATAAATGTCATTATGAAGGTTTTGTAGGGTGCCCAAGGCTAAGTTCGACTAATTGCCTTTTCACATAAT
TGTCACAGGTCTAAGGAACCTCTAACCATTTGTCTTCAAGACTGGATTAGATTGAAGCAGAAAATAATCAACATATATGCATCTGTCTTTCGTGGAACAC
TCCCTTATGCGATCAATAAACACAAGATAATCCAGGACAAAACAAAGACAGTTGAAATAAGACTGCCTACACACACACACACACACACACACACACACAC
ACAGCAAGCAGCAGGAGAATAAGCAAAGGTATTTACTAAATCTTTTATCCCCAAACCATAAGGTCTAATGATCTTATAGAAATACCTAGATCTAATTACT
TTGATTATAAATCCTAGGGTAACAAATTCAGCAATGAAAGCTCAATGAAACTATCAAGAACTCAGTGTTGAGGCTGGCTTACCTGGCAGCAGATATGAAG
GATAAATGGAGTTTGGCAAAGAGGCCCAGTGAGTATACCTGTTGGCCTGAGAATGCCCTAGAATGCTTCTAAGGGAGAGTCCTTGAAACGACCTCAGTAG
AAACTTTGGATTTGCCGTAGAATGATAAGACCACCCTTAATATCTGAACTGAAAAGACAAAGCTGAATATATTGCTACCAACTATGTGTTGTACCTGCTG
TACAATAGCAGCTTTAGAATGTTTGGGGCCATTGTCTTATTTGGATAAATGGCCCCTGATTTTGCAAAGCCAAGGTAAAAACACATGAGGGGTGCTGTGG
TTTAAATGTGTCCCCCAGAAACATGTATTGGAAATTTAATCTCCAATGCAACAGAGTTGGGAGGTGAGGCCTAATGAGAGGTGATTAGGCCATATGGCAG
AGGGAATGGACTAATGCCATTATTATGGAAATGATCACAGGAGTGGGTTTCTCATAAAAGAATGAGTTTGAAGGCTGGGCACAGTGGCTGTAATCCCAGC
ACTTTGTGAGGCTGAGGTGGGTGGATTACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAAACCCATCTCTACTAAAAATACAAAAAATTAGCTAGGTG
TGGTGGCACGCACCAGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGCCAT
TGTACTCCACCTGGGTCACAGGGCAAGACTGTCTCAAAAAAAAAAAAAAAGAATGAGTTTGGCTCCCTTTTGCTCTCTCTTGCCCTCTCTTGTTCTCCTA
CTTTACACCATGAGATGGCACAGCAAGAAGACCATCGCCAGAGGCCAATCACTCAGACCCTCACCACAGGCCAATCACTCAGTCTGGCTGGGACTCACCA
GTCTTCAGATCTGTGAGAAATAAATTTCTGTTCATTATAAATTACAGGTTCATTACTCTCAGGTTTTATTATAGCAGCACAAAATGAACTAAGATAATTG
GCCCCCTGTGTTTTCTAATTACATCAGTAATGCAAACTCATAATTGCACAGCAAACGCTCATTCTAGAAAATGCAGCTATGGAAAACTAATATTAAAAAT
AATTAATCACACCATCATCCAGAGACGGCCCTGGAAACATTCTGAGACGTATATACTCACACTTTTAAAACATGTATAATCATACTTTATATTATATAAT
ATATACTTTTTAAATGCACACATAATACAGGTTTATAACCTTTTTGTATTAAACAGATCATATAGAATTTTGATATCAATAATTACACTTCTTCAAAATT
CTTGCCAATAGAACACAAGTATCTATCATCATTTATTTTGCCATCCTTCTAGTATTGGACTTTATAAACTGCTTCACGAAAGATCCTCCAGCTAAATTCT
TGCCAGCATCCTTAATTACTTCAGTTAGATGTGAGACTCATTTAATCAAACAACACATTTTGTGAGCTTTGGCTGACATCTCGTGGAAAGTCAGCTTGTT
GCCTATTTCACAGCCTCTGTGTTTGCATCAGCTCTAGGGCAACAGAAAAAAGCAAACCCTTTTCTTAGCAGCCTAATAGGTGGGGTCTGATGTTTGCGAT
AATTTATCTTAGACTGACATTCTCACCGTTACACAGCAGTTTCTGTGTCAATGCTGGGACCAGCCAAAAGCTGCGCTTCTCCAACCACAGACTGGTGGTA
ACATTTCCACACCTTTCCAACAGAAACATATTTACATGACAACTCCATGCAGAATAAGTCTCCATCTCTTTTATTTGAAGCAAAATTCAGGCACATTTTA
TAAGAGCAGCCGTAATATAACTTTAAAGAGAACTATTTCCTAGGCATTTAAACAGCACTTGGAGGGTTGGAAATCCCAGCCCGGCCAGTAGAGGGCACTG
TGCAGGGGCAGCCGGAGCCACCCGCCGTCATCTCTGGAAACCCTGTGAGATTCCAAGATGCTGCACCCAGAAACCTGCTGCTGGGGAAGGAGCTGACTTG
TGATCCTTCCCTGTTATGTGGGAGTGGAAAGTGGTGGCAAAGGAGTTTGCTTAGCAGGTCTGGAGTAATATGGTTAGGCTGCCAAGGGTGGTAGGGTGAG
GTATTACAGAGAATGGCATTAAGGGAGGAGACCACTCCTCATATTGCCTTATGCTCAATTTCTGCCTCTAAAGAAAGAAGTAAAAACTAAAAGGCAGGAA
TGAAATCCACAAGCAGACAGCCTGGCGCCACACCCTGGGCCTGGTAGTTAAAGATCGACCCCTGACCTACTCGGTTATGTTATCTATAGATTACAGACAT
TGTATAGAAAAGCACTGTGAAAATCCCTGTCCCGTTCTGTTCCATTCTAATTACTGGTGCATGCAGCCCCCAGTCACTTACCCCCTGCTTGCTCAATCGA
TCACGACCCTCTCACATGGACCTCCTTAGAGTTGTGAGCCCTTAAAAGGGACAGGAATTGCTCACTCGGGAGAGCTCGGTTGTTGGAGACGTGAGTCTTG
CCGAAGCTCCCAGCTGAATAAAGCCCTTCCTTCTTTAACTCGGTGTCTGAGGGGTTTTGTCTGCGGCTTGTCCTGCTACAGCATCACATGAGAAGCATGA
TACAGGGTTCTTCTTTCCTTAGCTGGAGCACCACTTTAGACCATGGGATGGGGAAAGCCAGTCAGAGACGACTGGAAGACCACCAGGCCAGAACAATAAG
GGTTAATGCATGGACTTTGGCTGGCTCAGAAGGAGTTTGGCTAAAGCAAGTATGTTTTGGACTTCAATTAAAGACTTGAACTTGAGATTGAGAAATCTTT
CCACTGAAGCTGCCCCCAAACTCCTAGGACAGAGGCAGATGCTTGGATTGTCAGTGAAGCCAGCAAAGGAAATCTTGGAATGGTTTCCCAGGAATAGAGA
ATAAGCCCTGGGAGACGCCAGTTTTGAAAACTGGTACTATCGTGCTTGTTAGAGAGTCATGGTGAGGCAGGAGAATAGGGAACTGGGGTAGCAAAGGGTT
GAGGCATAAGCAAAGGAACAGCAGATGCAGCCAGTTCGCATAAGCAAGAGAACAGCAGGTGCAGCCAGTTTTAAGCAAGATTGGGCAGGACATAGGCTAC
ATCTTCACTCCCGTGATAACAAGAAAGAAGTTTCCACTTCAGCCCCTGAATGACTGCAGGCCAAGTTTCCACTTTAGGCTCTGATTGGTCACAGGCCAAT
CCTTCATAGGGTGTAACCAATTGGAGGCCTCTAAAGGGTACCCAGGGGTGTTGCCAAGTTCTTTTGGCTTTATAAAAACCCTAATTGAAGAGGCTCTTGA
GCTGCGGGCTCCAGTCCGCTCGCACTCTGTGAATTGTCTTCAATGAATCTGTGCTTTCCTTACTCCGTTCTCCTGTTGCTTTGTTTTTCGTTGCTTCATT
CCTTTGTTACTTTGTGTGTTTTGTTCAATTCTTTGTTCAACACACCAAGAACCTGGACAACTCTATCTGGTAACAATGGAAGAGTCAATCATCCAAAACT
CAAAAAGAAAAAAGAAAATCTTATTCAAGGTCTCAAGTCTCTAAATGGGCCCAGTTAGATGTTTGTAAAGTAAATTATGTGTGGGAAGCACAGAGTCCAA
GGAAGAGCATGTTAAGTTTCTGAACACTCCTAAGGAAGGAGGAGGAAGACACCTCGGTCTGTTTGTGAAAATTGGAAAAGGTACAAATTAAATGTGTAGA
TCCTGCAACTGGAGAAGACTCAGAGAGGATGTTTATATAGGGAGGAAGGGAAGGAAAGAAACAGGATTGGTAGGTTACCCCATCCAATTCCGTGGAATTG
AGAGCTCGGAAGATAAAGTGGCCCAGGGTTTTCTTCCATCAGACTGAAATGATACAGCCTTCCTGTTCCCACCTGGATCAGTCACTGGTGCTGGGCCACC
CTGGGGCAGCAGGACCTTGGGTGAGGGAGTTCTCTGCAACTGAATCATCCCAGAATAGGCTGACAACTGAAGGCCCCTGCCAACTGCCCTCCTAGCAGCT
GTGGCATCTTAAGGGGAATCAGGCCAGCACATCTCTGTGTCCAGCACAACGCAACACGTTTTGTGGACACACACACTACATGAGCCCTGAAGTTCTTACC
CTCCACCCACTCCCACCTAAATTTCCGCAGGACATCATGATAGAATTGCCGTGCAGGCTGAAAGGAGGTGAAGAGCCCCCTCTAAGGGACCTCCTGGTGC
TCAGTAATGCTTTTATTTTCAATCACATACTATGGTAATCATATCAGCACAAGCACACAAATGTGGTTAAGTGATGAAGCTGAATGAAACTTTCCTAAGA
TGTCAATCATAAATTCCATCAACCATACTAAAGACTGATTTATCTTGCTCTTCTCTCTGGAGAAAATATTACAAGATTAATATCAATGAAGAAGCAGAAT
ATGCAATCAGAAATACATAGGGAAAAAGGTGGGTTAATAGAAGTATTTTCCTGGATTTTGTGATGTGTATCGCATTTGTCAGCATCTTTAAATGTGTCAT
TCGTTGAGACTTATTTTTTCCTTCTAGATGAATATTCGCTATCCTGCCTCCTTTTGGGTTGGTAATTTGGGGTTGTCTTTCTTAGGCCCCTGCCCTGGAA
ACTGCGCCGGGATCCCAGGCGGAGGGGTGAGGAAGGCGGACCTCGCCCAGCGGCGACACCCAGAGCAAGTCACGCAGAAATCTCCAGGCCGCACTTATCT
CCGGTGCACAGCGCGGGAGATGACACGCATCCCACCGGATCTCGCACAGCACCGCTGATGAATAAGCACACAGCTGTTTGTACAACTACCACCGGCCGTG
GCGGCCGGAGACCCTCCCTCCCTTCCGCCGGACATTGGGGCGTGGCTGGAAACTCGGGAGTGGATTGGCCGGAAGGTGGGACGCAAATTTGTTTGAAAGG
CCCAATCAGTGCCCGGCTTCTCCGCTCTAGCCAATAGAAAACCGAGAGGAAGGCAGGAAGGGCGGAGTCTCCTATTTGAGTTTGTGGCGCGCGAGGCCCT
GCAGTCCGGGTTGGCGCTTGGGTACTGGCTGGGTCCGATGCTGGGTRCGCTGCGCGCCATGGAGGGCGAGGACGTGGAAGACGACCAGCTGCTGCAGAAG
CTCAGGGCCAGTCGCCGCCGCTTCCAGAGGCGCATGCAGCGGCTGATAGAGAAGGTGCGGCCCCCGCCGGTCCGCCGGGAGGGGAGGCCTGCGTGTCGGA
GTGAGGCTGGGAGGGGACGTAGGACGGGAAGGGAAGGSGCTCTGAGGACTCGGAGCGGGSGTTGGGGAAGCGGGACTGGGGCTTGRATGCGGAGAGAAGG
TGGAGGCGGAGCTGGGGGCTCCGGAGAGGGAAAAAGGAGGCAGCGCCGAAGGCTTCGGTGCGGGGACGGGGAGGAAAGACTGGGGCCTCCGGAACGGGGA
GTGGGGAAGCAGGCCTGGGGCTCGGGTGCAGAGAGGAGGGTTTGGWGGGGCTGGGGGTGCTCCTGAGTGGGACGAGAGAGGCGGAGTTGGGGGCTCCGCT
GCAGAGACCGCGTTTGGGGCGCCCCAGGCCAGACTAACGGCCTCTCACGGGCTGGCGCCGCCTCCTCCCGGGTCTGGGGCCCCTCGTGGCCCTGGAACCT
GACAGGAAGCCCCTTCCTCCTCCGCAGTACAACCAGCCCTTCGAGGACACCCCGGTGGTGCAAATGGCCACGCTGACCTACGARACGCCACAGGGTAAGG
GTCWTCCCCACCTTCTGAGTATTCGGGTGAAGAGTGTGAATGGAGTAGTTGAAATGCTGTCCCTGCTCTCTTAAGAAGTAAACATTGTTCACCTAACTAA
TAGGAACCAAAACATTGGTGCCCTTAAACCTGTAAATTACTTGAATTACTTATTAGAACAATTCCTGAAGAGACATAGGTGCCTCCTGGCTCACATGCCT
CCGGCTTACCGKGTTGGCATCCCCGCTGGCCACCTCCCCACCATGGCAGCGTGGGGCAGTTGCTTAGCTGGACTGGTCTCAGTGTCTTCATCTGTGAAAT
GGGAAGGATGATGACAATAATGTCTCCTGGGCGTGGGTGTTGTAACAGTCACGTACAATCCCTATGAAACTGTGAACAGTACCCCGCCCCGCACTGTGAA
TACTCACATTGACTATTGTTTGCCCTGTTTAACTTGGAGTAGTAACTGTCTTCCTTGAGGCTCCAAGTACTTGAATAGGGAGGAGAAGGCATTCCGTTTA
ATAGTTAATGTAAACGGACTGAAATCTTGTGGATTCTTTTTGGTAAATAGCTGGTGACACTTTGCACTGGCTGGGGTCAATTCCTCCCATATAGCTTTAT
AACTAACTCAGTATCACTTAATGAAAACAAACCTCAGAGCAAGTTCTATGTTGCATTAAACGGACACARAAGGTTCACAAGATCTGCTCCTTGAGTTAAA
AGAAATCCTACCTTTCTGCCTTTATAGCCAATCCAGACACATCTTGGGTGAAAAGTTTACACAGGCAGAAACTAAAATATTCCAGTGGCAGGTCTGCTAC
CCTTTGGTCTCTGTATAACATGTAGATTGCCCTTAGAAAGCATTCATTCAGTATATGGGATGTAGAGATTGCCTGCGAAAAGTGCTTACTCCCTCTATAT
GGTATATAGATTGCCCTCTATATATTTTAAGGACAGTCGCTGTCATATGTTCCTTGTTTTCATTTAACTTTTTGGGCTAATGATGTAATTTGATGAGCCG
TTTTCTAGTAGGTAGGAGAGATTTCCATGAATGACGAATTTGCCTTAAAAACCTGAAACTTTACAAAGAGGAACAATCGCAGGGTATCAGAAACCTGGCT
TGGTTTTAATATTGTACCTTTTTTTTGCYTGTCACTTTGGCATCTGGTGAACACAGATTGAGCAGAAGTTCAGCGTTCAGGATTATGTAAATGGTCATTT
TTGTTTCTTTTCTTCAGGATTGAGAATTTGGGGTGGAAGACTAATAAAGGAAAGAAACRAAGGAGAGATCCAGGTATTTAGTGTCAAATTTTATTGCCAA
ATAACCTTGCTGTGGAGGAGTATTCATATGAATAAAGGTGTGGGTATGCCCAACCTCTGAGCTTACGCAGAGGCCACCACGGGGCACTTTTTCTCATGAT
TATACTCTTTCTGTTTTTAAGGATTTAGAAGCATTTCTTCTGTAGCTTGTCAAGTGCAAGGAGTCACTGTGTAATATTTGGCCTTTTTCATCACCCTGTG
TTTCCTGTGTCACAGGCTGAGGGGCTCTGATAATACATGTGCAGAGGCTGGGCCAGTTGGGTAACCCTCCCCAAGGTCACGTGCCAGCCCAGCGAGGCAC
TCACTTTGTTTGGGTCCTTACAGAAAATACCAAATCCAGTTCCTTCTAGGGAAGAAGAATGTCTCTCTTCCTGTTTTGAAAGGGGAGGAAGAGAGATGAG
GRGAGGTGCAGCCTGGAGGATCACACATCTTTCCTTCTGCATTTTTCTACCTTCGGAAGACCCTGGCTTCCCTGCCTAGTTGATCCGAGGGTGTTGTCGC
TCTGAGACCCGTTATTTTAGTGGAAGGTGCTGTTGGCCTTTCTACGGGGGCATCCAGGAGCCCTTTTGCCACAGTGGCTTTTGCCAGGTTATCTGGTATT
CAGTTAATCACTGCCTCTCAGATGCCACATGGTTCCTCTCTGTGGTCACAGGTCAAGGAACCTGTATGAAAGAATGAAAAACATCAAGATCAATGTGACG
ATATTAACARCAAATTTGAAATCAAATCTTCTTGATTAATTATTCTAGTCATAAAAATGTTAAAAGTACATACAACTACATAAATGAGCTGATTCCTCTC
TGCAAAGATGGTCACTAATGCTATTTTAGTACAATGTGATTCCCTATAATACATATCTTTATAAATGCATTTTTTTCTCCCTCACTTTTCCGGTTAATAC
ATCTGGCAAACTCTTCTCTTCATCAACTGTTGTATAATTATAAAATTATATAATTATTTAAAAAATCATGTTTTTTTAACTGCTCTCCTGTTGATAGGCA
ATTAGCTATTTGTGGCTTCCTTTATTAATAAATAAGGGTCAGCACACTTTTTCCACAAAGGGCCGGATGATACATATTTTAGGCTTTGCTGGCTSTATGG
TCTCTGTTGTAACTACTCAGCTCTGTGTTGCAGGAGGAAAGTGGCCGAAAATAATATGTAAATGAGTGTACGTGGCAGTGTTCCAATAAAACTTTATTTA
TAAAGCCTCTGTTAGAAATGGTTTTCAGAGAAAATCCCGGTCCTTGTCTCTTCCCAATACTGATAGTCCCCCTTTTCGATAAATGCTGAGAAGTGGGATT
ATCGGGTTAAAGTATATATACTCTTTGAATTATGCATAATACAGATGTCCACTCATTAGACCAGTGCTTAATATGGTCCTGGTAGCAAAAAGTTTTCATT
TAAAGATTTATTTAAGGTTTTTGCTTAAAATGTAGGAGGAACCCTACCTGGGTCTCCAGAATCTTCAGACCCTTTCTTGGGATTAGGAAACTGGGCGTAG
CCTGAGATTTCAGCGGGGACATCTCTGACTTCACTGTAATTGCTATTGGTGACAGTGTCCAGATCCGCCTTCACCTTTTCCCAGACGACTTGGTGCTCCT
GCCGCCCTGGAGGCTGGGGGAGGCTGTGGGCCCTGGCAGGCCGGGTGTTGACCTGTGCTGGGTTGGTTATAACACAATGCCTGGGTTCTGTTTGTAGCTA
CCAGAGCTACCACATAGTTTGGGGTTGGTGTAGATCGTCTGCTTCTCTGTGATTCTCAAACCAGSTTCTGCCTCAGACACAGCCACAAAACAACCCTGTA
AACTCCACCTTACGTGACGGTTTCACTGGAAGCAAAGGTTCTGATATTCTGGAAGTGGGCTTCAGTTACCCTGTAGTGCTCCTGGGTAGCCCCAAGTCCT
CTGAACCCTCAGAGTTGACACCTGAGGACCATCCCTAACGGTATAGGCCTYGCCACCTTCTCACGCCCTGTTTTTATAAGGCTGGGTGGTTCCTAAAATA
TTAATATTTCAGCCAATCTGGTATCCTGAATGCTTGAATTTCATTACTGAGAACCCACCGATGCCATGCTCTGGGATTATTCGTGGGGCCTGCTATAGAG
CAGGCTCTGGAGAGCTGAAGCAGGCCTGACCAGGAGTGTGGCCGCCCGACCACCTCTGCCCACCAGGTATGAGCTCCTGGTCAGGACAAGCAGCTGCCTC
TGTGCGTTAGCTTGGGCTTAAACTGGCTCCTCCCCGCCTTAAATACTCCAGCATATTCTTTAAAGATCACAGGAAGTTGCCCAGGGGCCACTTGCCTATT
TCTCTGTTCTCGCTGATGACCTCAGGACAATTTTGTTCTGTTTCAATTTGGCTTTTTGTTTGCCCCAGTCCCTGTCATCCCTGGGCCACTGTTAGGAGGT
GTGAGCTTATCTGCTCGTGCCTGGGCCCCTGACTTTCCCTGCTCCTTCCAAGTGGCTTTTTAAGTAGCAGCCCCCGCTGCAACCCAGGGGAGCCTCAGCT
CCTTCCTACGCTCTTGAGGCCTCTTATAAAGTGGACATGCAGGGAGAAGAGAAGCCTTGTGGCAGGCTCYTGCTGTCTCCTGTGTTAACAGAAGGATTGC
AGTTTTATTATTTTGCGGTGACTTTGAAATGTGCTGTCACTCAARCAACCATGTTTTTATTGGCTTCTGCACTTGGAGGACTCYTCCATGAAGCCCGCGG
ACAGGACAGATGGCTCCGTGCAAGCTGCAGCCTGGGGTCCTGAGCTTCCCTCGCACCGCACAGTCCTGGGAGCCGGTGAGTGTTGCCTTCRTCAGAGAAC
TGAAGTCAGGAGGGACCAGGTCTGACGCACCTGTTACAACAGCTTAAAGCCTAGATTCCTCAGTAGTGAAGTTTTTATTTTTTCTAAGGTATATCTTAAA
AACTAAAATCATGTTAAAGTACCCTGTTGATTCCTTCTGAGCTCTGCCTTGCCCACAGTTACATCCGGTGCCTGACATATGAATGGTACTCAGGTGTTTT
TTGAGTAAATAAACATGCCCCTCCATGTGAAAAGTTAATATCCAGATTTAGTAAGACTTAAGATTTGCCCCTACAGGGTGGTGTTGTGAACCCTCACTTC
TATAGGGCAGCTTCCCACTTCGTCCTCCTAGGAGGCTCCTTCCTTTTCCCCAGGCCAGTCTCACTGCCCASCCCCATCCTGTCCTCTTTTCTAGGGAATC
TGTCCCTCACCCCTTCCTTCTGTCTTCAGTCTCTGTCCCCTGGATCCATCCGTCGGTATTTAGATGCGCTCAGACTCACGTTAGATACATCAGACCCTTC
GTGGCTCTCCCCTGTCCTGGGCCCCTTCCTTGCCACRTCCCTTTGCCCAGTTCCCTTTACCACCAGAGTGAAATAACCTGCTCCGTTTGGTGCCATGGAT
TCCCTACCCCACCAACCCCGTGTGTTCCTCCTCTCCCGACTCCTTTCGGCTCCATCTCTAAAGCCCAACTCTGGGTGAGGTTTCTCACAACCCCATTGCT
AAATCCTGTTAGCATTCTTTGGGTTTTATTCTTTGGGTTTTGCGCTCTCCATTGCATTTAAACCTTCCAGAAGTTCTGGCCTGGGCCTCTGTGGCCCCCT
GCTCCTCGGCCCCATGCTCCTCCAGTTTTCCTCCTTCTGTCTTCGTCCTTCCAAGCCTGCAGTCTGCTCGCCTCCCGTCCCTGCTGGATGCCCTTTCTAG
AGGGTTTGTTTGAGCTGCCTTTGCCCTTCCCCCRGGTGGAGCCATGGCTTCTCTGTGTGCTGACTGTAACCTCCAGCCAGAACTCAACTGGGGGCGTTTT
ACTGCCCAGCAGCCCCTCTGCTTCAATACTTCATGTCCAGACTTGGCACAGCTAAGACTCAGCCCGACAGACAGGCTCCCCATCTTCTGCTCTGCGCCTC
AGTACAGGCCCSTGCCGTCTTCCCTCTAGCGTTAGCCAGAAACCCAGGATCTTCATCTCAGCCTCTGCCTCATTCCTCATGGCCAAGGCATCCCTGTCCT
GTGCCTTGTGCTTCGTTAGCTCTCATGTCCCCGCTGAGCACCAGCCTCCAACCCCACCCGGGCTCCCTCCGCCCCACTGACGCCCCTGTGAATGTGGTCA
AGCCGCTTCTCTGATGCAACACGTGGCTTCCCATTGCTTTTGGGGTAAAAGGCCAGAACCCAGAATGGGGCCTGAAGTCCTGCCTGACCGCATGGCCTCC
TTGCTGCCCCCGGGAAGCCCCTGTGATCCCCAGGCTGGAACAGACCCCCACTCTTATCTGAGCTCTTTAGACCTGGGTTCCTCTGCTTGCGAAACAGTTT
TGTCACTAGCCTTTAAACACCTGTCTCTCCTGGACACTGGCCTTCCGCAGCCTCTGTCCCCCTCTGCCCAGTMCCTTTCCTGGCACCTTGCCTACACCAA
TAGTTAGTGATGGGTGTTGAGTCGCTAAAGGGAAGCTGGTGGTCTTTCAGAGTAGAATTGGAAAGCTCTTCATGAGGATATTTACCTGTGGTGCTATGTG
TTTACTGCTATTAATCCAGATTTTAACTATAAATCCTTAGGTCCATGAATTTCCCCAACCGCTTGAAATCACAGGAAATAGTTATTTGATAGATGTACTG
CCCAGTATGGCACCCACCAGCCCTCTCTGGATGATATTTAAATTAGTTGAAAGTGAAATAAAATTTAAAATCCATTTCCTCAGCCTTACTGGCCACATCC
CAGCTGTTCAGTAGCCCGGTGTGGCTAGTGGCTGGCCTAGGACAGCAGGCAGAGAACTTTCCATGGTCACCGGAAGTTCTGTCGAGCAGTGCTGGGCTTG
AGCGTCTCAACTTCCAGGCTCAGAGGCCATGGAAAGCTGGAGGTGGTGCAGAATCTGCCTTTCCTCACTCCATGGCCCCAGGCAGTTTCCCATTCTAGGG
GTTCTCTGGGTTACTAAGAACCACGGGCAGCCGTAGATGGCTCYAGTGGGTGCACCCTTGAAGCAATGGGGATTTTTACTGTACAACTTACTCGAAGTGA
TGCCAAAACCATCCTTGAGAGGAAAATGCACTCCTTCCTGAAAATCCTGATTGAGATTTACTTGTTTGACTTTTAGATTCAAAAAGCGGTGAGGTCGATG
CCACGTCAGACCAGGAAGAGTCAGTTGCTTGGGCCTTAGCAGTAAGTGCTGCCTTTAGTAATGAATGGACAGAGGGGGCGCTTGGGGGCTCAGGGGTCCR
TCAAAGCCCATGTGGCCTGAGGCGGGCAGCGCTGCCTGCACTTTTCTGGAAGTCCTCTCCTGAGGCTGGCTTTTGCTACTTCCARGTCTCGGATTTCCTC
GTGTCGATTCCCTTCAGCGGTAAGGCCCTCCTCTCAGTCTAGCACCTGGCAGCCAGTTCTACCCCCAGTGCAAGCCTGATTCACGATGATTTTCACTCTG
CAGATAAAGCTGTCAGTGTGGTTGGCAGGGCGCCATCYGCCTGGATGAGCACACGACAGGAAAGCTGGGCTCTCGGTCAGTCTCCCCTACAGGGGCAGGG
TAAAAAGAGAGGTGTTCTAGGGAGTATTTCCAGGTCTGTCCTCAAATGCCCCAAGTCACAAGGTCGCCTCATTGGGCAGCCGTCACTAACCCAAACAGTA
AGTGTCATYTATATGTCTGTTTCCCAGAGTGCCCCCTGGGTCACAGAAACCACCCGTTTTCTTATGGGATGTGCTTCTTATCCTCCTTGGTTGRGATAGA
TGMGAATTTACACAGAGCTTAACCAGCTCCAGCATCTTTCCTGGCCCCCGTGTCACACTCTGTTGCCTGCCAGAATACCTGRTGCATGGTTTTCCTCTAA
AATTGCTACTTTTGTGCAGAGGGTTTCCCACGCACCCATGTGTGACTTTCAGTGACTAAGAAAAAGGCCGTGGTCCTGGGGAAGAAAGTGGATGCTCACT
GAGAGATTGTGTAGGGATTGGAACAAAGGGGAAGTGGGTGGTACCAAGAGTCAAGAACCAAAGTGCCAGCCCCACTCAGCAGAGGATAGAGGGTGACGCC
CTCTATTTCCAGTGTCTAGCAGGGGAGGGGTAGGAGAGCCTCCTGAGCTGGAGCACTGAATTTCTGTTTTTGTTTTTGGTTCTTTTGAGATGGAGTTTCA
CTCTGTCACCCAGGCTGGAGTGCGGTGGGGCRATCTCAGCTCACTGCAACCTCTACTTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGC
TGGGACTACAGGCGCCCRCCACCATGCCCAGCTAATTTTTGTATTGTAGTAGAGATGGACTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCT
CAAGTGATCCACCTGCCTCAGCCTCCTAAAGTGCTGGGATTACAGGCATGACCCATCACACCCAGCCAGGAGCACTGAATTTCTTATAAACTTACCAGTT
TGAAGTTATTACCAGTAGTTGAGTCCTGAACTCACCTATGAATATTCAGATTTTTTTTTTCCTGGTCTAGCAATGCTGTCATAAACTTCTCTAGACATGG
TTTTTTTGTGTGTGTGTGTCTTTTTACATTCTTTTGGATTATTAACATAGCAGGAAGTGAAAAAGTGACTTTGAATAACATCATGGAGGTGAAAGTGACT
TTGAGTAGGATCATGTAAAGATTTGTACATTAATGAGCTTGCCAGTTTGTTCCAGAAGCCAAAAGGTCAGCTATACTYAGAAGCTCTTAAAAATTCTGAC
TTCTCTTTTTTGATCAGCCTGCAGTGCCTCAAAGCCCTTTGAAAAATGAATTAAGAAGGAAATACTTGACCCAAGTGGATATACTGCTACAAGGTGCAGA
GTATTTTGAGGTAATCTGTTTCCCAGTTGTTTGTTTTTATATAATTAGATCATAAACTAAATACATTGAGGTACAGTGTTATTATGCTTTTTGTTTTTTC
TACAGAACCCRTAAAGAGCATTTGAAGTAATGATTTCCAAATTGTTTTATTCACATGCTGACATACTTGCTCTTCTTGAATAAACACTCCAGGTCCCCCA
GGGCAGCGCCATCAGGAAGGTGGGAGCCCTGGCAGGGGTGCTCTGCCCACTGTTCTGGGGCAACTCACAGAAAAATCTAGTGGGGCAGCCAGGCACAGTG
GCTCATGTCTGTAATCCCAGCACTTTGAGAGGCCAAGGCAGGTGGGTCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAATCTCATC
TCTACTAAAAATAGAAAAATTAGCTGGGTGTGGTGGTGCGTGCTTGTAATCCCAGCTACTTGGGAGGCTAAGGCAGGATAATCGCTTGAACCCAGGAGGC
GGAGGTTGCAGTGAGCTGAGATTGTGCCACTGTGCTCCAGCCAGGGTGATAGAGCAAGACTCTATCTCAAAAAAAAAAAAATCTATTGGGGCCACACACG
GGACTCTTAAGAGCAGCCCTGACCTCTGGACCAGGATTTGAAGCTGCATAGTTAGGGAAGCAATAGTCCCCACATTCCCTGGTGCGATCAGGCTAGAATC
AGCTGCAAGGTGAGGAGGCTGACCCTTGGCACCTGTCCCGCCTGCTGAGAGGTCATGTTGGGAGGGGGGGGATGTGATGGCATGAGAGGTGGGCACACTC
ACCTGCCAACCCCTCTCTTAAGGTCAGTGCCCTCTGCCATAGAATAAAGGACATTGCAACACCAAATACGTAGGAAGTACACATTGCAGAATAAGAATTC
ATCTCCAGAAAAAGGCAGCAATCTCACAGGGGTGTTATGTGTTTTCTTACTGTGCTGCTGACCAGCGGAAAGCCTGTRTTTGTGGACCACCGACTTAGTG
GATGTACCTGAAATGCTTTTTCCTTTAACCCAAGGCAGCAAGTGGTGTCCTCTTGGTTGCTGTGTTGATCCAGGGAACAGATTAGGGTTAGGAACGAACG
GATCTACTGGGTCTTCTTTGTCCACCGTCCGGTTGGCCCCTAGGTGTTCTTGTGGTCTGAGTATAATGCTAGACAAAGAAAGCTACCAGCGCCCCTGGGG
TAAGAAGTTACTGGCAGGTGAGTGGTGACTGTGGCTGGAAGCTATCCTGGAGACCACATCAACTGTCCAGATCTTAGTAGGACATATTTTCTTCCCACTG
CCCGAAGCCTAGCTGGCCACTGTCACCACATTCACACGCTTGTCGACATGGCTGTGCTAAGATGCACAGTCCGCATYGTCAGGGGAGAACCCAGCTCCTT
GCACCCAGTTGACACCTGGCAACTTTTTTCTTGTAACCACTGGCTCTGATTTCAGTGTGCAGGTAACAGAGCTGGAAGGGATGTACGTGTGACTCCGCTG
CCTTCACTGGCCTCACCTGCCGTGCCTGCCCCCGGTGAGTGTGACATAGAAACTGTATGAACAGTGCGTGTTTCCTTCACTTTTGTTGGAGCTGCGTGGC
CCCTCAGAGCTGCTCATACTGGCCACGCCATCATTTCCTGGTGTGTTTCATCAACATAACTTGTTAGAGATATACTTGGATTTCACTGGAAGATTAAGAT
GTTTCAAAATGAGCTGTTTTCTCCTCCACGTCTGCTCTTTATTCCARTTTACTAGCTTGAAAAGTTTTGCATCTCCAGAAGCACAGGACTAGTACAGTGA
ACACCCTTCACTTGTTTCACAATTAACATGTTGTCATATCTGCGTTATCACCCCCTGCCACACACGTGCACACACAGTGTGTATTTATTTGCATTTGTGT
ATGCATTTATCCCTAAATGCCTCACACATACCTCCAAAAATCGGCTAATTCTCCTTTATGACTACAGTACGCTTAACACAGGCCAGAAATTGAACATTGA
TGCGGTACTGTTCTACCCATTGTGCCAGTGACGTCCTTTGCAGCCTTTCTGGTTTGCCTGATCGTTTCCGGACCCACTCAGGCTGGTACCACCGTTGCGT
TTAGTCTCCCTCCATCAAGAGCGGCTCCTTGGCATTTTCTCCCTCATGGTCACCTTTCATATTATTGCCTTTCTTGAATAGCACAGGCCAGTAATTTTGC
AGAATGTCCCTGAATTTGGACCTGATTGCTTCCTCRTGGTTAGGTTCACGTTAAACATTTTTGGCAAAATTACTACAGGGATGACGTGTCCTCTCAGAAC
ATTTGGTCAGTCTGTCCCATTCTTGGTGACTTTTAGGCTGGTCATTGAGTTAAGGTAAGACCTTAMTTCGATGTTTCTCATTGCGACAGGCCCTTTTTCC
CTGGAGTCATCTATGTGTGATTCTTTGAGATCTCCTAGGAACCTTTTCTCTAAAAGCTTCTCACCCAGTGACTTAGAAGCCAGCAATGCGGATCGCCTGG
GTGGAGGTCCCCGCCCAGGTTGTTTCTGTCTCTGCCGTTCCTTGGCACACGTCAGTTGGCATTATTCTGCTCAAAAGWGCTATCTCCCCTCTGGTTCTTT
TTTTTGCTTCCTGTAGTTCCCTCTCATGCTTTGATTTATTTTATTTTTATTTTTTAGGATCAGTAGGAATTCATGGAGTCTTTTTGTTCTTTGATTCACA
TGTTATAATCCATTGCCGGTATGCAATTTGACGCTCAAGTAACCCCAGATTTAGCTGTCAGGGAGCCCCTTTCAGGCTGGCTTTTGTGTCGTGTAGTGCA
ACGMCATGCGTTTTTGAGCACTTCTTCACCCCTGCCCTGATGCCATATCTGCCTCTCCCAGTTCTCACCAGCCGCAGTGAGTTAACACGTGCTCATCTGG
TCAATTGTACAGCATAAAATAACTCTAGCATTGCAGCACCTGCTACCACTCTTCACAACCATCTACTAAATAAGCTTGAAAATTTCCAAGCAGCTCTTTT
TATCCTTAGACAATATCTCTTTAAGAGGCAGACACTCAGAGTATTTGGACTCTTTTTTTTTCTCTTTCAGTTATCAATTTAACATACAGATTTTTTTTTG
TTTGTGTTCAATTTTATGGTTTTTTCCCATCACTGTTGGTTTATTTTTTTTTAAATATAGGAAACATTTACATGATGCAAAAGTCAAAGCTATATGAAGA
GGTTTGTTTAGAAGTCTTACACCCCTTCCCATCCATGTAGGTAAACAGTGTTGTCATTTTTCAGTTTCTAATTAGCTTTTGAAAAGGCATCCATCTTCTA
AACAGCCTAGAGGGAAAGGAAGACACCTTTGGGAAATGTACGATGGAGAGTAGAAATCAAATTTTGATACCAAAAAATATCTCTGAGAAGAGTCTACTCC
TACACATTTGTGGTGTTTTTGTTTTTGCTATTGCTTAAAAAAACATAGTCCTGATCCAATCTTAAGTTCTGTCATCTGTGCACATGGATGGTTTAGAATG
RTAACACACCTTTACTTTATGTGTATCTTTTCTCCCAGGATACTGCAGTCGTATCTCCRGAAAGAGTCCTGGTGACCCAGCGAAACCAGCTTCATCTCCC
AGAGAATGGGATCCTTTGCATCCTTCCTCCACAGACATGGCCTTAGTACCTAGAAATGACAGCCTCTCCCTACAAGAGACCAGTAGCAGCAGCTTCTTAA
GCAGCCAGCCCTTTGAAGATGATGACATTTGCAATGTGACCATCAGTGACCTGTACGCAGGGATGCTGCACTCCATGAGCCGGCTGTTGAGCACAAAGCC
ATCAAGCATCATCTCCACCAAAACGTTCATCATGCAAAACTGGAACTSCAGGAGGAGGCACAGATATAAGAGCAGGATGAACAAAACATATTGCAAAGGA
GCCAGACGTTCTCAGAGGAGCTCCAAGGAGAACTTCATACCCTGCTCTGAGCCTGTGAAAGGGACAGGGGCATTAAGAGATTGCAAGAACGTATTAGATG
TTTCTTGCCRTAAGACAGGTTTAAAATTGGAAAAAGCTTTTCTTGAAGTCAACAGACCCCAAATCCATAAGTTAGATCCAAGTTGGAAGGAGCGCAAAGT
GACACCCTCGAAGTATTCTTCCTTGATTTACTTCGACTCCAGTGCAACATATAATCTTGATGAGGAAAATAGATTTAGGACATTAAAATGGTTAATTTCT
CCTGTAAAAATAGTTTCCAGACCAACAATACGACAGGGCCATGGAGAGAACCGTCAGAGGGAGATTGAAATCCGATTTGATCAGCTTCATCGGGAATATT
GCCTGAGTCCCAGGAACCAGCCTCGCCGGATGTGCCTCCCGGACTCCTGGGCCATGAACATGTACAGAGGGGGTCCTGCGAGTCCTGGTGGCCTTCAGGG
CTTAGAAACCCGCAGGCTGAGTTTACCTTCCAGCAAAGCAAAAGCAAAAAGTTTAAGTGAGGCTTTTGAAAACYTAGGCAAAAGATCTCTGGAAGCAGGT
AGGTGCCTGCCCAAGAGCGATTCATCTTCATCACTTCCAAAGACCAACCCCACACACAGCGCAACTCGCCCGCAGCAGACATCTGACCTTCACGTTCAGG
GAAATASTTSTGGAATATTTAGAAAGTCAGTGTCACCCAGCAAAACTCTTTCAGTCCCAGATAAAGAMGTGCCAGGCCACGGAAGGAATCGTTACGATGA
AATTAAAGAAGAATTTGACAAGCTTCATCAAAAGTATTGCCTCAAATCTCCTGGGCAGATGACAGTGCCTTTATGTATTGGAGTGTCTACAGATAAAGCA
AGTATGGAAGTTCGATATCAAACAGAAGGCTTCTTAGGAAAATTAAATCCAGACCCTCACTTCCAGGGTTTCCAGAAGTTGCCATCATCACCCCTGGGGT
GCAGAAAAAGTCTACTGGGCTCAACTGCAATTGAGGCTCCTTCATCTACATGTGTTGCTCGTGCCATCACGAGGGATGGCACGAGGGACCATCAGTTCCC
TGCAAAAAGACCCAGGCTATCAGAACCCCAGGGCTYCGGACGCCAGGGCAATTCCCTGGGTGCCTCAGATGGGGTGGACAACACCGTCAGACCGGGAGAC
CAGGGCAGCTCTTCACAGCCYAACTCAGAAGRGAGGTAGGTGTGTTTCTGTTGGTTGAATGTGGTTTATGTGAGTGACTGCTCTTTGGACAGAGGCTTTT
TATGGTAGGAATCTTTGCGCCACGTTTAGTGAATCTCARCCGAATTCTTACATACGTGATCATTTTCTGAGCTTTCTCCCAAATGCTTTTCCTTCCTGTA
AAGTCAGCGTCTCTATCAAGAATGTGTCCCTGTGTAAGATGCATCGAGGTAAAGCAGAAAGTGCTCTTGCAGAAGTTTCACACTTTCCATTAGAATGCAT
TCAGAGGCTTTTTTCCYGCAAATCCTCACTTACTACGCTTTATTCRTCTTTGTCAAACCTTCATTTCTAACCTCTTCATCTGACACTCAGAAAATAGCTG
TTGTAAGGCGAAAGTGATCTAAAGCGAATGACTTCCTATTTCTGGATTCCTGGTAGGGAAAGAGCAAGAGTGGCCYGGGAGAGCCACGAGCACAGTATTC
TCACRGGTGCGAGGGGTGCCCTGCAGATATCTCAGTGCTCAGTGTTAAAACTTTGCACCTTGTTCTGCAGCTTAATTTGTGCGAATCRTGTCAGCTAGAG
TTTTAGTCTGCGTGTGCCCTTTTCTCTAGAGACAGTGGGGTGGGGTGGGTCAGTGGGAGTGAGTACCTTTGTTGGCATTAAAGGTTGGATTCCCCAGCAC
AGCTTCTCTGTGTGTCCACAGTCAGGATCTGGAGGATGCGACTTTCTTAACCCACAGGTGGACGGGACTTGACTGTGGGTTTGATTTGGCCGGTTCCTTT
GGGTTTTGTGTGTTTGTGGTTCCAGCAGGTGAGGCCGTGTCTCCAGTATCCTCTTCCCTTGTGCCCTAGCCTGGCGATGTGCCTCTTCTCTGAGGTCATT
TGGGTGGACCCTGCCTGCCATAAGTGTCCCATTTTCTGTTTCTCCCACCTGGACCCGCCTGGCCTGCGAGCCCTTCTCAGCCACTGGCTCCTGCCGTGCG
TCCAGCTCAGAACCAAGGTCTGGTATGCCTTGTTCCTTCTGTGGTGCCTGCCTTCGAAGCCTGCAGTCCCGCCTGTGCATGGCAGAGACCACACTCTCAG
ACCGCCAGCGGCCTCCTGTGGCTTGAGCCCCCTGGGGCCTTTCTCACTGTCACTCTGTCTTCCCAATGCCCTTGGACTGCTCAGGGCCACCTGCTCCAGG
GTCTGCCGTAGGACAGCCCTTCCCTTCCAGGGAACTTTCACTGGCATTCTCCCCCTACTCCCCAGTTCTTTGCTATTGCATCCTCGGACATCCTCCCTAG
ACTCCACCCACCGCTCAGCTGCCTGCTCCGTGCAGGTAACCCCCACCCTCCCAGGGGCTGCACATGGTGGGTGCTGCAGTGGGGAGCTGTCTGGACACAG
ACCAGTCTCATGGGTTAGCGGCTCAGGCTCCTTGGCTCAGTTCTAGAAGCTCCCAGGTTTTGTTGGATGTTTTGGTTTTCAAAGTTATTTTCGTGTATAA
AGTCATACTGTGTGAGCTAACCAGAAGCAGATGAAACAAGCCTTGGTTGTCATCTGTCTTCCCAGTTGAGGATGGACATACGTAAGTGTTCAGGTGATGG
GAAAGGTTTTTCTCTGCAGGGCCCCAGCTAGGGTCAGGGGCACTGTGTGGGCAGGGCCCTCGGAGCTCCTCCCCTGGCAGTGCACGGCTAACAGCAGTCT
TTCCCTCGGGTCTTGGTCTCCAACTGTGTGCCTGATGCCCACTCCTGTGCCCACTTGGGGCTTTTTCAGACCAAACCACCAGCCGGGTGACTTTCAGCCA
CAGTTAGTGAAGCCTTCAAGAATCTCAGCYACATCTTCATGGCAGACACTTCATGGAGGCTGCTTTGAGGCAAARTTTATGCGTTCTGTTKAACAGATGA
CCTCTCAAGAGTCTCCTTCTCAGYTGAAAGGGGAGAATTTCACCAAAAACAACTGTCCGGCCCAGAGAGAGATCTGAGGTTTCTCCTGGTCTCCCACACA
TCAGAGCTCCTCTGCTCTGCTYGTCCTGCTTGTCTAAACCTAACTGCTTTTTCTCAGATAGTGCCCCAGCTCTTCCTTTTACCATCATCCTGCCCCTGGG
ATTTTGTCTCGTGCCTTTTCCCACCTTGTTCCATGATCTGGCACCGTGCCAGTCGCCTGCAGACCCCTTTCCATGAGTGACATCTGCCCCAGTGCTCCGT
GCAGAGGCTCCTGCCTTGCTTTTTCACCTGCTCAGTCTAAAGGGCTTTCTTCTGGCCCAGCCACACAGGAGGGACCTCGGCCTTGTAGAGAATGGTGTGA
GGTTGCATTATTGTGGGACCATCCTGAGGACTCAGCCCTTGGTGGCCCCGCAGGGCCCTCCCAGCTACCCTGGAATTTGATAGCAAGTCAAATCATGAAC
ACCCCAGGTTTCATTTTAAACCACAATATAAACATGTTTAACTGGTTTCCTATGTTTTTCTGCTTTTCCCGCTTAAATGATAGATTTCTTGAGGAAAGAG
ACCAATTCTTCATGAGCTGCAACTACATATGGAGTTTTCATGCCTAACGTCTGAGTGCTCTCTGTGTGCCAGGCCATGCTGAACCGTTTTTACGTCTTAT
CTTCTTTCATCCCCACCAGAACCCCTTGATTAGATCGATTCTGTCCAATAGGCAGGCTGTCTCTCCTTTTAATAGATATGGAAAAGTAGCTTAAGTCTTA
GAACTCCTAAATTCACTCGTGCAGCAGCGCTAGCTGGGCCAGGGTGTGGGATGTGGACTTCCCCACCAGCTTGTGCTCCCTGGGGGAGTGTGGGGAGCAG
GGTCGGGGGGTTGCCATTATATTTTTGTTGTTTCTTTAACATAACTTACTTATTTAACGTAATGCCACTTTCTATAAGTATTTTTATACATGCAATGGAA
TAAGTAGAAAACAGTTAACCTTTTAGTGGCTGGCATTGGGAATTCTAGAATTTTGCTAACATCATTTTCTTTGTCTTTTTTTTTTCCTAGAGGAGAGAAC
ACGTCTTACAGGATGGAAGAGAAAAGTGATTTCATGCTAGAAAAATTGGAAACTAAAAGTGTGTAGCTAGGTTATTTCGGAGTGTTATTTATCTTCCCAC
TTGCTCTCTGTTTGTATTTTTGTTTTGTTTTTGATTCTTGAGACTGTGAGGACTTGGTTGACTTCTCTGCCCTTAAAGTAAATATTAGTGAAATTGGTTC
CATCAGAGATAACCTCGAGTTCTTGGTGTAGAAATTATGTGAATAAAGTTGCTCAATTAGAATTTTTAGGGTTCTCTTTGATAGGCCTGTTTTTCTGATG
TGTGTGTTTTTTTKGGGGGGGGGTTATTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTTGAGACAGTCTCTCTCTATCGCCCAGGCTGGAGTGCGGTGGC
ACAATCTTGGCTCACTGCAACTTCCGCCTCCCGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCGCGCCACCACGCCY
GGCTAATTTTTGTAGTTTTAGTAGAGACGGGGTTTCACCATATTGACCAGGCTGGTCTCGAGCTCCTGGCCTCGTGATCCATCTGCCTCGGCCTCCCAAA
GTGCTGGGATTATAGGCGTGAGCCACTGCTCCCAGCCGTGTGTTCTTTTTTAAATTTAGATATGTCCAGAGAATCCTCTCTCCTGTTTCCCATTTCATTC
GAGAATATTGTTTGCTTGTGAGACGTAAGTTCGAGCCCTGCATGCAATGACCCTTGAAGGAAAATAAACAGTCCTGGTGGTCCCAGACGCTCCTGCAGCC
ACAGCGCCTGTGACTCCTCATGATTCTTACTGAAGCTGTTGATGACAGGATATCATGGTGACGTTTTTGTAATGAAATATTTCACATATTCAGAATACAT
TGGTGAAACTCATGCTGGAGTAAATAGTTAATATATGGCCATATGAGTTTGGGTTTTTTTTTTTTATGAAAGATTTAAAATGAGATTAAATTACACATTT
TTCATTCCCGCCTGCCGCCCCAGGCGATTGCTCTCCTGATGTCAGGTATCACCCCCATACCCTGCCCCATATCTCTTCCCCCCTGCGTCTTACATTGGGA
CCATGTTATGTGTGTGTGTGCGTGCGCACCTGCATGCTCAGGCTGCCATAACAATGCTGGAGACCAGGTGGCTTAAACAGTAGAAGTTTATTTTCTCACA
GTTTTTGAAGACTAGAAGTTTAAGACAAGGGAGCCAGCATGGTTGGGCTCCGGTGAGGACTCTTCCTGGCTTGCAGAAAGCTGTCTTCTTGCTGTGTCCC
CACATGCTGGAGAGAGCAAGGTCTCTGGTATCTTAGGAGGGCACTAATCCCATCATAAGGGCCCTTCACTCATGACCTCATCTAAACCTAATCACCTCCA
GAAAGCCCCATCTCCAATACCATCATGCCAGGGGCTAGGACTTAATCATAATTCAATCCATAGCCTGTGAGTCAGTAAGGAGGGTGCACGCTGCTGAGAG
CCGAGAACCTCGCCAGGTGCTGCAGACCTCACAGACGGCTCATTTCCTCAAAGAACAGGCCGGCAGTGTAATGCTGGCTCAGGCTCAGCCAGGGCCAGAA
TGGCCCCTACAGATCTAGAGCCTTCCCTCAGGCCTGCTGCTTCCTAAAGGACAACGCGACCCACCCTTTCCTCTTCAGGAAAACCATCACTGCAACCCAG
AACTGCTTGTGCCTCTCCTTCCCCCACACCCAGCAGACAGCTGAAACCTTGCTGCCCGGGCCAGGCCTGGCTGCCAGAAAGGCCGGTGTTCTGTCATCCA
GTGGAGGAAGGTGAGGTGGAAGGATCTGGGCATGGGTCTTGCCAACTTACAGATCTGCCAATAAGGGCCCCATAAACTATATATGGTATAGTCTCTCTGT
TTCAAACTATATGAGTAAATTAATACTGTACATATGCTACAGTTTTGTTTCATCAAGAGACTGAATATGACAAGAGCTGATAGATGTGGGCATCTCACTT
TGAGTTCTCTAGGTGGTTTATTGTCCTGGATGTCTGCGGACGGGTGCAAAATCCACCCGTGATCCTTGTGCATAACTGTCAACTATCTGTGGCACACACA
CACCTAGAGGCAAATTACAGGTCACGGATGGGTGTGCCTTGAACTTCCATAGTTATTGCCAAATTGCTCTCCCAAATGGCTGCCCCAGTTTGCCCAATGT
CCCACAATATAAGAGGTACCTTTTCCCCACATTATCGCTGCCAGTTGCTGCCAGTCTGAGCTCTGGCAGGTGTAAGATGTGTTGCTTCACAGTTTGCTTT
CTCTTGATGACTTGTTGAGCATGTCTTCCTGGGAGTCCTGGTTTTTTAAATGTCCTCAGGACACTGGTTTTATATTTGCCTCTTCCTGATTTGGATGTAT
TCTGGATCCAATGATATGAAACAATCCAGTTTTTAACTTCTATCATCTATCATTTGTCATTTAACTTTGTGTTATTTTATTGTATGGAAGTTACATTTTA
ACACAATGCTATGGTTCGGATGCCATTTGTCTTGAAATTTAATTGCACATGTAATTGTTAGGGGGTGGGGGCCTAGTGGCAGGTTTTTGGGTCATGGGAG
TGGACACCCCATGAATAGATGAATGCCCTCTTGAAGGAGTGAGTTCTCACTCTCTGTGAGAGCGGGTTGCCTTTGCACCTGCCCACTCACCTTTCTGCTT
TTCCACTGTGTCTCGAGATAGCACAAGGCCCTCACCAGAAACCAAGCAGATGCCAACATCATGCTCTTGGACTTTCCAGCCACCAGAATTAGGAGCTAAA
CAAACCTTTTCTGTATAAATTACCCAGCCTTGGGTATTCTGTTTTAGCAACGCTAAACATACTAAGGCAGATAACTTCCTCCTTTTTTCTGGCTTCTGCT
GTTACTTTTAAAAGAAAAACTACCATACTCTCAGGATAAAAAAAATACTGTACTGTCTTAAATTTTGCTCTCTCCATTTAGGTCTATAAACCATCTGGAA
ATGTTTCTGCACAGGCATGGAAGGAGAGCCAATTGTACAGATGTACAGCTGCCTCCTTGTACTCTATCGAATGGTGCACTCTCCCCACTGCATCAGTGGT
GTTCAAGCTTGTTTAGCAGCAATACTCTTTATCACTGGGCAGGAAATCAAGTCACCATTTGCTCCACAAAACAGTTTGAAGACCACTGTTCCAGAGAAGG
CTTTAGCACGGGTTGGATTTTGGACAGCATAGCAGCTCTCTCCTGTTGATGGGACCCCGGATGGTGATTTCCTTTGGCAGTTGGACTGGGAACAGTTTGG
AAGTCCTGGTTTACCTGCTCTGGGGACACCTAGACTATTCTGATGGCCTGAGCATAGCAAAAGCCTTCCCCACACTGCCCCTCTCTTCCCCTACATGTTC
TTAGACATGGGGCTAATTTCTCCTTTTTGACCAGCAGCCAAATTCTGTTCCAGGCCTCACTGGGCTCCAGTTGCAACAGTCCAAACTTAACTTTGGTAAC
TTTAAGTCGCAAAGGGAAGGGCCTGGAATAAATGTCAGTTCCTCCATGCGGCCTTTCTGGATTGTCTCCAGACTTGCACACCCACCCTCCTGTGCCACTG
TAGCACTTGCACCCTGGCTGCAGTCCTCCCTCTGATGTGTGTTGTGGTTAGGTGCCTTTCCCTTTAAGAAGTGTCCTGGCCTGGCACGGTGGCTCACGCC
TGTAATCCCAACACTTTGGAAGGCCAAGGTGGGTGGATCACGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAA
TACAAAAATTAGCTGGGCGTGGTGCTGCGCACCTGGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAATGAGCCGAGATTGCGCCAC
TACACTCCAGCCTGGGCGACAGGGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGAAGAGTCCCTGGAGACAGATGGGACACTCTAGGCCTCCC
CTCACCGCTTGGCACAGTGCCTGGCCTTAGGCACGCTGTCAGCATGCGTGTGGATGAACTCCGAGTGAAGACACAAAGCTAGTTTCCGACCCTTTGGGCC
AGTGGGCTGTCAGACAAACGTACTTGGGGGGAAATCGGAAATGAAGTGGCTCATTAAGGCCAAAGTTCCCTTTGCCTCATTGTCTTGGTTCTGGGCTGTC
ACCACCTTACAGTCACAAGTCTACTCCAACGACAGTGGAGGTTTATTTCAACGGAAGGAAACAAAAGGATACTAGTTATTTTACAATAGTGTTTTTCCTA
CAAACTAAACTTCTTACAAACTAAATTAAAAAGGGCTTGCATTTGGCACTAAGAAGACAGTTTACGTCTTATGTTTGGACCACCTAGGACATTCCTTGGG
GTGAAGCCAGAAACCCATGCTGACTACAGCTATCCAAGACTGTGAGCGTCTCCAGGGCTGCCCTCCTGACCCCGGGATCCGGGTCCAGCTGTAGTTCCTG
GAGGGCTGAGAGAGAACACAAAGAGGGAAGGTTCAGGCCCCGCCCAGTCAGGACCACATGCTGCATGCCCTGGGCAGTGATGGCAGGCAAGGGCCGCAGA
AGGTGGGCAGGGGCAGACGGGGAAACTCCTGTGTGGGAAAGCAGAGGACTGCAGGTGGAGCTGTTTCAACACACATCATAGCTCTCAGGGCTTCAGTAAC
CACCCTAACAGGGACAGAAATCACCCACAGAACCTGATAGCAGCATCAGGCCAAAAGCATTTCATAAGAAGCTATGAATGGGAGAAACAGCCCAGGGAAT
GAAAGGGACTCCACCCATCAATAGCTGTCGTCCTGGAAAGGCCTCCCCAGGTGCATCTCTCTGCCCTGGTTGCACTCCCACCCCCCCGAAACCCCACAGC
AAAGGGTCCTCTGGCTCTTCCCTTGAAGCAGTTTCTCTAAGCTCCCCTAGTGAGTTGGTGAGTCGTGGACTCAACATCTAACACTCTCCACTACTCACAA
TTCCGTAATGCTGGGAAGTCCAGCTTTTTCAGATAATGTGTAGACATCTGCTTCATAATAATTCCTAAAACAATAGCCAAAGAAATGCTCATCACGCGAG
TATTAGGTCAGCAGGCAAGTCGTCCTGTGGTTTACTTACTTTACGTTATGAGAGCATTGATGAAAGATTTTGTTGAGCCCACGTTGGCAGGGAGGAAGCC
AAAATCAAAACGGGATAGAAAGCACAGTGCAGGGCTTAGACCTGAGCTCTGGTCTCAGCTTGCCACATGCCTCCCACTCATGATCCACCCTTCCCCCGAG
TGCCGGGGTGGACTAGAGGGCCTTCAAAGTCTATCTTGAGTCAGGAGACGTCTCTCTGCTCACCTGCCAAGTTGCAAGCAGCGATTCTGATTCTTGACAA
GTTATTTTTAACATAGGCCATTGTTTCTAGCAAGAAGCGGTAGAGAACAGCCGGCTTTTTCCGAGTCTGCAAAAAGTAAGTGATACACACTTTTTGCTTT
GGAGGATGAGACCCTGACAATGGGCTGTCATTCACCAAGCGTGTTCCCATCACCAAGATGCATCAGAGAGGGCAAGCGCCCATCCCAGCGTCACACAGCA
GGTGAGTAGCTGGCAAGTGAAGGACCACTGGCCACCAGTTATATTTTTCATATCCCATCTGACCAGAGAACCTGTGCTGTCCAACATGGTAGCCACAAGC
CATGTGTAACCCTGCAGCACTTCAAGTGTGGCTGGTCTGAATTAAGGTAAAGTGCCCCCTGGGTTTTAAGATGGTACCCCAAAAATTGTAAAATATCACA
ATAATAGTTTTTATACTGATTACATGTTGAAATGATCATGTTTTAGTTATTTGAGTGAAATAAAATACATGAAAATTAGTTTCACCTCTGCACTTTTCTG
GATGTGCCTACTAAAAGAAACATCAGACAGCTGAAATAGGCACATGACTTGCCTTCTATTTCTGCTGCACAGTGCCGGTCTCGACATGGCATGTGTGGAA
GGTAAACATAGGGCCCCAAGAAAGAGCTGTGGCAATCTCGACCCCCCAGCTCCAAGCCAGCGTGTGGCCACCTGGGACGGGCTGGTTCCCCCTTTGGCTT
CCTCACCAGGATGGAGCACATGGTTGTCTGGAAAACGGTCATCTTGTCATCAGTAGCGGTATCACTTGGCCCTGAGGGATGCTCCAGGGACTTCCAGCCC
CAGAAGTGCACACACTGAAACATGGTAGCCATACAGGCCTGCAGGGACACAGGACGGCAGCAGAGCCATCAGCCAGGCCACGTGGTTCCCCAGAGGGGTG
AGGCTGGCAGGAAGCCAGAGGGCAGCCCCAGAAAAGCCTCACCAAGCCAAAGAAAGGCAGGGCTGGTGGCTCCTGGGAGGCCACCTGGGACCTGGGCCCC
TGCCAGCTTGAACATGGCTGCAGGTACATTTATAGAAAGCCCCTTGGGGGCAGATGCAGCCCCACCCGCCCCCTCAGCCAGCACCTTCGTGCCCTCAGCA
GCCCTGCCTGGGACCCAGCCCTCCATGGGATCAGAGGCGGGAGCCGGGCTTGAGCAGGCAAGACTGGGCACGTGTCCTCACCTCCCAGGCCCAGTCCACC
AGCATCTGCCTGTGACCAAGCCTGCTGGCCACAGCTTCTGGAGACGGCAGGGCAGGAAGACAAAATGCTTCTGTCTCGGTAGCCCTTTCCTCACTCTCGG
TCACCATTGCTGGGTGCACCCTGGTTCCTTCCCTGAAGCCCCCCCACCCCACTGGACAGTTGTCGATAAAACATGGAAGAACAGTGTGGGCTGAAGACAG
AGGGTGGTGAGGACTGGCAAGGAAAAGGAGCCTCTGGGCAGTGACACCTTGTGCCCAGGGTGGCCAGGGATGGTGTGG


SNP Information

Context             (SEQ ID NO:61289):
ACCACCAGCCGGGTGACTTTCAGCCACAGTTAGTGAAGCCTTCAAGAATCTCAGCCACATCTTCATGGCAGACACTTCATGGAGGCTGCTTTGAGGCAAA
R
TTTATGCGTTCTGTTTAACAGATGACCTCTCAAGAGTCTCCTTCTCAGTTGAAAGGGGAGAATTTCACCAAAAACAACTGTCCGGCCCAGAGAGAGATCT
Celera SNP ID:            hCV559687
SNP Position Genomic:     21775
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(C,583|T,882)   total(C,583|T,882)   (T,-|C,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61290):
AGTTGAAAGGGGAGAATTTCACCAAAAACAACTGTCCGGCCCAGAGAGAGATCTGAGGTTTCTCCTGGTCTCCCACACATCAGAGCTCCTCTGCTCTGCT
Y
GTCCTGCTTGTCTAAACCTAACTGCTTTTTCTCAGATAGTGCCCCAGCTCTTCCTTTTACCATCATCCTGCCCCTGGGATTTTGTCTCGTGCCTTTTCCC
Celera SNP ID:            hCV559688
SNP Position Genomic:     21922
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)   SC_12_A(C,9|T,12)   SC_12_C(T,10|C,13)   SC_12_AA(T,5|C,12)   SC_95_C(T,74|C,103)   total(C,137|T,101) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61291):
AAGCCCGCGGACAGGACAGATGGCTCCGTGCAAGCTGCAGCCTGGGGTCCTGAGCTTCCCTCGCACCGCACAGTCCTGGGAGCCGGTGAGTGTTGCCTTC
R
TCAGAGAACTGAAGTCAGGAGGGACCAGGTCTGACGCACCTGTTACAACAGCTTAAAGCCTAGATTCCTCAGTAGTGAAGTTTTTATTTTTTCTAAGGTA
Celera SNP ID:            hCV25958068
SNP Position Genomic:     10791
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(A,2|G,30)   total(A,5|G,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:61292):
GTAATCTGTTTCCCAGTTGTTTGTTTTTATATAATTAGATCATAAACTAAATACATTGAGGTACAGTGTTATTATGCTTTTTGTTTTTTCTACAGAACCC
R
TAAAGAGCATTTGAAGTAATGATTTCCAAATTGTTTTATTCACATGCTGACATACTTGCTCTTCTTGAATAAACACTCCAGGTCCCCCAGGGCAGCGCCA
Celera SNP ID:            hCV15757252
SNP Position Genomic:     14911
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,20)   caucasian(A,3|G,5)   total(A,17|G,25)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,684|G,807)   total(G,807|A,684) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61293):
ACATCATGGAGGTGAAAGTGACTTTGAGTAGGATCATGTAAAGATTTGTACATTAATGAGCTTGCCAGTTTGTTCCAGAAGCCAAAAGGTCAGCTATACT
Y
AGAAGCTCTTAAAAATTCTGACTTCTCTTTTTTGATCAGCCTGCAGTGCCTCAAAGCCCTTTGAAAAATGAATTAAGAAGGAAATACTTGACCCAAGTGG
Celera SNP ID:            hCV15757253
SNP Position Genomic:     14678
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,6)   caucasian(C,9|T,5)   total(C,37|T,11)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61294):
ACATTGGTGCCCTTAAACCTGTAAATTACTTGAATTACTTATTAGAACAATTCCTGAAGAGACATAGGTGCCTCCTGGCTCACATGCCTCCGGCTTACCG
K
GTTGGCATCCCCGCTGGCCACCTCCCCACCATGGCAGCGTGGGGCAGTTGCTTAGCTGGACTGGTCTCAGTGTCTTCATCTGTGAAATGGGAAGGATGAT
Celera SNP ID:            hCV2296940
SNP Position Genomic:     6912
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61295):
TAGGCAATTAGCTATTTGTGGCTTCCTTTATTAATAAATAAGGGTCAGCACACTTTTTCCACAAAGGGCCGGATGATACATATTTTAGGCTTTGCTGGCT
S
TATGGTCTCTGTTGTAACTACTCAGCTCTGTGTTGCAGGAGGAAAGTGGCCGAAAATAATATGTAAATGAGTGTACGTGGCAGTGTTCCAATAAAACTTT
Celera SNP ID:            hCV2296941
SNP Position Genomic:     9095
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61296):
GGCTTCGGACGCCAGGGCAATTCCCTGGGTGCCTCAGATGGGGTGGACAACACCGTCAGACCGGGAGACCAGGGCAGCTCTTCACAGCCCAACTCAGAAG
R
GAGGTAGGTGTGTTTCTGTTGGTTGAATGTGGTTTATGTGAGTGACTGCTCTTTGGACAGAGGCTTTTTATGGTAGGAATCTTTGCGCCACGTTTAGTGA
Celera SNP ID:            hCV2641550
SNP Position Genomic:     19932
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61297):
GCCCCCGCTGCAACCCAGGGGAGCCTCAGCTCCTTCCTACGCTCTTGAGGCCTCTTATAAAGTGGACATGCAGGGAGAAGAGAAGCCTTGTGGCAGGCTC
Y
TGCTGTCTCCTGTGTTAACAGAAGGATTGCAGTTTTATTATTTTGCGGTGACTTTGAAATGTGCTGTCACTCAAACAACCATGTTTTTATTGGCTTCTGC
Celera SNP ID:            hCV2296942
SNP Position Genomic:     10570
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61298):
GGTGTGTTTCTGTTGGTTGAATGTGGTTTATGTGAGTGACTGCTCTTTGGACAGAGGCTTTTTATGGTAGGAATCTTTGCGCCACGTTTAGTGAATCTCA
R
CCGAATTCTTACATACGTGATCATTTTCTGAGCTTTCTCCCAAATGCTTTTCCTTCCTGTAAAGTCAGCGTCTCTATCAAGAATGTGTCCCTGTGTAAGA
Celera SNP ID:            hCV2641551
SNP Position Genomic:     20039
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   SG_12_G(G,7|A,8)   SG_12_AA(G,3|A,12)   total(G,10|A,20)JBIC-allele(G,443|A,1042)   total(G,443|A,1042)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61299):
AGGAAGGCAGGAAGGGCGGAGTCTCCTATTTGAGTTTGTGGCGCGCGAGGCCCTGCAGTCCGGGTTGGCGCTTGGGTACTGGCTGGGTCCGATGCTGGGT
R
CGCTGCGCGCCATGGAGGGCGAGGACGTGGAAGACGACCAGCTGCTGCAGAAGCTCAGGGCCAGTCGCCGCCGCTTCCAGAGGCGCATGCAGCGGCTGAT
Celera SNP ID:            hCV15757257
SNP Position Genomic:     6047
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,2)   caucasian(A,4)   total(A,8|G,2)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61300):
AGAAGAGAAGCCTTGTGGCAGGCTCTTGCTGTCTCCTGTGTTAACAGAAGGATTGCAGTTTTATTATTTTGCGGTGACTTTGAAATGTGCTGTCACTCAA
R
CAACCATGTTTTTATTGGCTTCTGCACTTGGAGGACTCCTCCATGAAGCCCGCGGACAGGACAGATGGCTCCGTGCAAGCTGCAGCCTGGGGTCCTGAGC
Celera SNP ID:            hCV2296943
SNP Position Genomic:     10645
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;(G,-|A,-)   JBIC-allele(G,56|A,1427)   total(G,56|A,1427)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61301):
CAAGAATGTGTCCCTGTGTAAGATGCATCGAGGTAAAGCAGAAAGTGCTCTTGCAGAAGTTTCACACTTTCCATTAGAATGCATTCAGAGGCTTTTTTCC
Y
GCAAATCCTCACTTACTACGCTTTATTCGTCTTTGTCAAACCTTCATTTCTAACCTCTTCATCTGACACTCAGAAAATAGCTGTTGTAAGGCGAAAGTGA
Celera SNP ID:            hCV2641552
SNP Position Genomic:     20217
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)   JBIC-allele(C,381|T,880)   total(C,381|T,880)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61302):
GAGGTAAAGCAGAAAGTGCTCTTGCAGAAGTTTCACACTTTCCATTAGAATGCATTCAGAGGCTTTTTTCCTGCAAATCCTCACTTACTACGCTTTATTC
R
TCTTTGTCAAACCTTCATTTCTAACCTCTTCATCTGACACTCAGAAAATAGCTGTTGTAAGGCGAAAGTGATCTAAAGCGAATGACTTCCTATTTCTGGA
Celera SNP ID:            hCV2641553
SNP Position Genomic:     20246
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;JBIC-allele(A,120|G,1380)   total(G,1380|A,120)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61303):
GTTAACAGAAGGATTGCAGTTTTATTATTTTGCGGTGACTTTGAAATGTGCTGTCACTCAAACAACCATGTTTTTATTGGCTTCTGCACTTGGAGGACTC
Y
TCCATGAAGCCCGCGGACAGGACAGATGGCTCCGTGCAAGCTGCAGCCTGGGGTCCTGAGCTTCCCTCGCACCGCACAGTCCTGGGAGCCGGTGAGTGTT
Celera SNP ID:            hCV2296944
SNP Position Genomic:     10684
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,9)   caucasian(C,26|T,4)   total(C,45|T,13)
SNP Type:                 SILENT MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(T,79|C,668)   total(C,668|T,79)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61304):
TCATCTGACACTCAGAAAATAGCTGTTGTAAGGCGAAAGTGATCTAAAGCGAATGACTTCCTATTTCTGGATTCCTGGTAGGGAAAGAGCAAGAGTGGCC
Y
GGGAGAGCCACGAGCACAGTATTCTCACAGGTGCGAGGGGTGCCCTGCAGATATCTCAGTGCTCAGTGTTAAAACTTTGCACCTTGTTCTGCAGCTTAAT
Celera SNP ID:            hCV2641554
SNP Position Genomic:     20376
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   ;(T,-|C,-)   JBIC-allele(C,337|T,368)   total(C,337|T,368)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61305):
CTACAGGGTGGTGTTGTGAACCCTCACTTCTATAGGGCAGCTTCCCACTTCGTCCTCCTAGGAGGCTCCTTCCTTTTCCCCAGGCCAGTCTCACTGCCCA
S
CCCCATCCTGTCCTCTTTTCTAGGGAATCTGTCCCTCACCCCTTCCTTCTGTCTTCAGTCTCTGTCCCCTGGATCCATCCGTCGGTATTTAGATGCGCTC
Celera SNP ID:            hCV2296945
SNP Position Genomic:     11171
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61306):
GCCCCCGCCGGTCCGCCGGGAGGGGAGGCCTGCGTGTCGGAGTGAGGCTGGGAGGGGACGTAGGACGGGAAGGGAAGGGGCTCTGAGGACTCGGAGCGGG
S
GTTGGGGAAGCGGGACTGGGGCTTGAATGCGGAGAGAAGGTGGAGGCGGAGCTGGGGGCTCCGGAGAGGGAAAAAGGAGGCAGCGCCGAAGGCTTCGGTG
Celera SNP ID:            hCV7607531
SNP Position Genomic:     6260
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;JBIC-allele(C,723|G,762)   total(G,762|C,723)   (G,-|C,-)   Caucasian(G,37|C,37)   Asians(G,37|C,43)   total(G,74|C,80)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61307):
AAGGCGAAAGTGATCTAAAGCGAATGACTTCCTATTTCTGGATTCCTGGTAGGGAAAGAGCAAGAGTGGCCCGGGAGAGCCACGAGCACAGTATTCTCAC
R
GGTGCGAGGGGTGCCCTGCAGATATCTCAGTGCTCAGTGTTAAAACTTTGCACCTTGTTCTGCAGCTTAATTTGTGCGAATCGTGTCAGCTAGAGTTTTA
Celera SNP ID:            hCV2641555
SNP Position Genomic:     20405
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61308):
CCCCTGGATCCATCCGTCGGTATTTAGATGCGCTCAGACTCACGTTAGATACATCAGACCCTTCGTGGCTCTCCCCTGTCCTGGGCCCCTTCCTTGCCAC
R
TCCCTTTGCCCAGTTCCCTTTACCACCAGAGTGAAATAACCTGCTCCGTTTGGTGCCATGGATTCCCTACCCCACCAACCCCGTGTGTTCCTCCTCTCCC
Celera SNP ID:            hCV2296946
SNP Position Genomic:     11337
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61309):
CTTCTGTCTTCGTCCTTCCAAGCCTGCAGTCTGCTCGCCTCCCGTCCCTGCTGGATGCCCTTTCTAGAGGGTTTGTTTGAGCTGCCTTTGCCCTTCCCCC
R
GGTGGAGCCATGGCTTCTCTGTGTGCTGACTGTAACCTCCAGCCAGAACTCAACTGGGGGCGTTTTACTGCCCAGCAGCCCCTCTGCTTCAATACTTCAT
Celera SNP ID:            hCV2296947
SNP Position Genomic:     11734
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61310):
GAGCACAGTATTCTCACAGGTGCGAGGGGTGCCCTGCAGATATCTCAGTGCTCAGTGTTAAAACTTTGCACCTTGTTCTGCAGCTTAATTTGTGCGAATC
R
TGTCAGCTAGAGTTTTAGTCTGCGTGTGCCCTTTTCTCTAGAGACAGTGGGGTGGGGTGGGTCAGTGGGAGTGAGTACCTTTGTTGGCATTAAAGGTTGG
Celera SNP ID:            hCV2641557
SNP Position Genomic:     20488
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61311):
GCCCCTCTGCTTCAATACTTCATGTCCAGACTTGGCACAGCTAAGACTCAGCCCGACAGACAGGCTCCCCATCTTCTGCTCTGCGCCTCAGTACAGGCCC
S
TGCCGTCTTCCCTCTAGCGTTAGCCAGAAACCCAGGATCTTCATCTCAGCCTCTGCCTCATTCCTCATGGCCAAGGCATCCCTGTCCTGTGCCTTGTGCT
Celera SNP ID:            hCV2296948
SNP Position Genomic:     11912
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61312):
CTGGGTTCCTCTGCTTGCGAAACAGTTTTGTCACTAGCCTTTAAACACCTGTCTCTCCTGGACACTGGCCTTCCGCAGCCTCTGTCCCCCTCTGCCCAGT
M
CCTTTCCTGGCACCTTGCCTACACCAATAGTTAGTGATGGGTGTTGAGTCGCTAAAGGGAAGCTGGTGGTCTTTCAGAGTAGAATTGGAAAGCTCTTCAT
Celera SNP ID:            hCV2296949
SNP Position Genomic:     12373
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61313):
CCCAAGAGCGATTCATCTTCATCACTTCCAAAGACCAACCCCACACACAGCGCAACTCGCCCGCAGCAGACATCTGACCTTCACGTTCAGGGAAATAGTT
S
TGGAATATTTAGAAAGTCAGTGTCACCCAGCAAAACTCTTTCAGTCCCAGATAAAGAAGTGCCAGGCCACGGAAGGAATCGTTACGATGAAATTAAAGAA
Celera SNP ID:            hCV11742345
SNP Position Genomic:     19410
SNP Source:               Applera
Population(Allele,Count): african american(C,23|G,5)   caucasian(C,33|G,3)   total(C,56|G,8)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,7)      total(G,7|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61314):
GCTCCTTCATCTACATGTGTTGCTCGTGCCATCACGAGGGATGGCACGAGGGACCATCAGTTCCCTGCAAAAAGACCCAGGCTATCAGAACCCCAGGGCT
Y
CGGACGCCAGGGCAATTCCCTGGGTGCCTCAGATGGGGTGGACAACACCGTCAGACCGGGAGACCAGGGCAGCTCTTCACAGCCCAACTCAGAAGAGAGG
Celera SNP ID:            hCV11473249
SNP Position Genomic:     19836
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,31|T,1)   total(C,56|T,2)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61315):
TGGTGCAGAATCTGCCTTTCCTCACTCCATGGCCCCAGGCAGTTTCCCATTCTAGGGGTTCTCTGGGTTACTAAGAACCACGGGCAGCCGTAGATGGCTC
Y
AGTGGGTGCACCCTTGAAGCAATGGGGATTTTTACTGTACAACTTACTCGAAGTGATGCCAAAACCATCCTTGAGAGGAAAATGCACTCCTTCCTGAAAA
Celera SNP ID:            hCV16179700
SNP Position Genomic:     12944
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;JBIC-allele(T,666|C,825)   total(C,825|T,666)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61316):
CTCAGCCACATCTTCATGGCAGACACTTCATGGAGGCTGCTTTGAGGCAAAATTTATGCGTTCTGTTTAACAGATGACCTCTCAAGAGTCTCCTTCTCAG
Y
TGAAAGGGGAGAATTTCACCAAAAACAACTGTCCGGCCCAGAGAGAGATCTGAGGTTTCTCCTGGTCTCCCACACATCAGAGCTCCTCTGCTCTGCTTGT
Celera SNP ID:            hCV27512038
SNP Position Genomic:     21824
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,139|T,1348)   total(C,139|T,1348) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61317):
GAGGTGTTCTAGGGAGTATTTCCAGGTCTGTCCTCAAATGCCCCAAGTCACAAGGTCGCCTCATTGGGCAGCCGTCACTAACCCAAACAGTAAGTGTCAT
Y
TATATGTCTGTTTCCCAGAGTGCCCCCTGGGTCACAGAAACCACCCGTTTTCTTATGGGATGTGCTTCTTATCCTCCTTGGTTGGGATAGATGAGAATTT
Celera SNP ID:            hCV2296950
SNP Position Genomic:     13609
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;SC_12_A(C,10|T,13)   SC_12_C(C,6|T,17)   SC_12_AA(C,10|T,13)   SC_95_C(C,57|T,122)   total(C,83|T,165)JBIC-allele(C,678|T,821)   total(C,678|T,821)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61318):
TGTCATTTATATGTCTGTTTCCCAGAGTGCCCCCTGGGTCACAGAAACCACCCGTTTTCTTATGGGATGTGCTTCTTATCCTCCTTGGTTGGGATAGATG
M
GAATTTACACAGAGCTTAACCAGCTCCAGCATCTTTCCTGGCCCCCGTGTCACACTCTGTTGCCTGCCAGAATACCTGGTGCATGGTTTTCCTCTAAAAT
Celera SNP ID:            hCV2296951
SNP Position Genomic:     13703
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61319):
CCTCCTTGGTTGGGATAGATGAGAATTTACACAGAGCTTAACCAGCTCCAGCATCTTTCCTGGCCCCCGTGTCACACTCTGTTGCCTGCCAGAATACCTG
R
TGCATGGTTTTCCTCTAAAATTGCTACTTTTGTGCAGAGGGTTTCCCACGCACCCATGTGTGACTTTCAGTGACTAAGAAAAAGGCCGTGGTCCTGGGGA
Celera SNP ID:            hCV2296952
SNP Position Genomic:     13782
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;(G,-|A,-)   JBIC-allele(A,263|G,1022)   total(G,1022|A,263)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61320):
TACACATTGCAGAATAAGAATTCATCTCCAGAAAAAGGCAGCAATCTCACAGGGGTGTTATGTGTTTTCTTACTGTGCTGCTGACCAGCGGAAAGCCTGT
R
TTTGTGGACCACCGACTTAGTGGATGTACCTGAAATGCTTTTTCCTTTAACCCAAGGCAGCAAGTGGTGTCCTCTTGGTTGCTGTGTTGATCCAGGGAAC
Celera SNP ID:            hCV2296955
SNP Position Genomic:     15778
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61321):
GTAGGACATATTTTCTTCCCACTGCCCGAAGCCTAGCTGGCCACTGTCACCACATTCACACGCTTGTCGACATGGCTGTGCTAAGATGCACAGTCCGCAT
Y
GTCAGGGGAGAACCCAGCTCCTTGCACCCAGTTGACACCTGGCAACTTTTTTCTTGTAACCACTGGCTCTGATTTCAGTGTGCAGGTAACAGAGCTGGAA
Celera SNP ID:            hCV2296956
SNP Position Genomic:     16177
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;SC_12_CA(T,7|C,7)   SC_12_A(T,8|C,8)   SC_12_AA(T,9|C,9)   total(C,24|T,24)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61322):
TCGTGGCCCTGGAACCTGACAGGAAGCCCCTTCCTCCTCCGCAGTACAACCAGCCCTTCGAGGACACCCCGGTGGTGCAAATGGCCACGCTGACCTACGA
R
ACGCCACAGGGTAAGGGTCATCCCCACCTTCTGAGTATTCGGGTGAAGAGTGTGAATGGAGTAGTTGAAATGCTGTCCCTGCTCTCTTAAGAAGTAAACA
Celera SNP ID:            hCV25968494
SNP Position Genomic:     6684
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,14)   total(A,1|G,47)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61323):
TACACATTTGTGGTGTTTTTGTTTTTGCTATTGCTTAAAAAAACATAGTCCTGATCCAATCTTAAGTTCTGTCATCTGTGCACATGGATGGTTTAGAATG
R
TAACACACCTTTACTTTATGTGTATCTTTTCTCCCAGGATACTGCAGTCGTATCTCCGGAAAGAGTCCTGGTGACCCAGCGAAACCAGCTTCATCTCCCA
Celera SNP ID:            hCV27503904
SNP Position Genomic:     18301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61324):
GCCCGCAGCAGACATCTGACCTTCACGTTCAGGGAAATAGTTGTGGAATATTTAGAAAGTCAGTGTCACCCAGCAAAACTCTTTCAGTCCCAGATAAAGA
M
GTGCCAGGCCACGGAAGGAATCGTTACGATGAAATTAAAGAAGAATTTGACAAGCTTCATCAAAAGTATTGCCTCAAATCTCCTGGGCAGATGACAGTGC
Celera SNP ID:            hCV27479252
SNP Position Genomic:     19468
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,97|A,1388)   total(A,1388|C,97) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61325):
GGCTGGGGTCAATTCCTCCCATATAGCTTTATAACTAACTCAGTATCACTTAATGAAAACAAACCTCAGAGCAAGTTCTATGTTGCATTAAACGGACACA
R
AAGGTTCACAAGATCTGCTCCTTGAGTTAAAAGAAATCCTACCTTTCTGCCTTTATAGCCAATCCAGACACATCTTGGGTGAAAAGTTTACACAGGCAGA
Celera SNP ID:            hCV2641534
SNP Position Genomic:     7369
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61326):
GAATGACGAATTTGCCTTAAAAACCTGAAACTTTACAAAGAGGAACAATCGCAGGGTATCAGAAACCTGGCTTGGTTTTAATATTGTACCTTTTTTTTGC
Y
TGTCACTTTGGCATCTGGTGAACACAGATTGAGCAGAAGTTCAGCGTTCAGGATTATGTAAATGGTCATTTTTGTTTCTTTTCTTCAGGATTGAGAATTT
Celera SNP ID:            hCV2641535
SNP Position Genomic:     7829
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,14)   caucasian(C,13|T,25)   total(C,31|T,39)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61327):
TGAGCAGAAGTTCAGCGTTCAGGATTATGTAAATGGTCATTTTTGTTTCTTTTCTTCAGGATTGAGAATTTGGGGTGGAAGACTAATAAAGGAAAGAAAC
R
AAGGAGAGATCCAGGTATTTAGTGTCAAATTTTATTGCCAAATAACCTTGCTGTGGAGGAGTATTCATATGAATAAAGGTGTGGGTATGCCCAACCTCTG
Celera SNP ID:            hCV2641536
SNP Position Genomic:     7959
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(A,17|G,23)   total(A,23|G,53)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;JBIC-allele(A,570|G,731)   total(G,731|A,570)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61328):
CACTTTGTTTGGGTCCTTACAGAAAATACCAAATCCAGTTCCTTCTAGGGAAGAAGAATGTCTCTCTTCCTGTTTTGAAAGGGGAGGAAGAGAGATGAGG
R
GAGGTGCAGCCTGGAGGATCACACATCTTTCCTTCTGCATTTTTCTACCTTCGGAAGACCCTGGCTTCCCTGCCTAGTTGATCCGAGGGTGTTGTCGCTC
Celera SNP ID:            hCV2641537
SNP Position Genomic:     8402
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61329):
ACTGCCTCTCAGATGCCACATGGTTCCTCTCTGTGGTCACAGGTCAAGGAACCTGTATGAAAGAATGAAAAACATCAAGATCAATGTGACGATATTAACA
R
CAAATTTGAAATCAAATCTTCTTGATTAATTATTCTAGTCATAAAAATGTTAAAAGTACATACAACTACATAAATGAGCTGATTCCTCTCTGCAAAGATG
Celera SNP ID:            hCV2641538
SNP Position Genomic:     8710
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61330):
GGCCTGCGTGTCGGAGTGAGGCTGGGAGGGGACGTAGGACGGGAAGGGAAGGGGCTCTGAGGACTCGGAGCGGGCGTTGGGGAAGCGGGACTGGGGCTTG
R
ATGCGGAGAGAAGGTGGAGGCGGAGCTGGGGGCTCCGGAGAGGGAAAAAGGAGGCAGCGCCGAAGGCTTCGGTGCGGGGACGGGGAGGAAAGACTGGGGC
Celera SNP ID:            hCV559709
SNP Position Genomic:     6286
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;(A,-|G,-)   JBIC-allele(G,665|A,816)   total(G,665|A,816)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61331):
TCTAGCACCTGGCAGCCAGTTCTACCCCCAGTGCAAGCCTGATTCACGATGATTTTCACTCTGCAGATAAAGCTGTCAGTGTGGTTGGCAGGGCGCCATC
Y
GCCTGGATGAGCACACGACAGGAAAGCTGGGCTCTCGGTCAGTCTCCCCTACAGGGGCAGGGTAAAAAGAGAGGTGTTCTAGGGAGTATTTCCAGGTCTG
Celera SNP ID:            hCV2641539
SNP Position Genomic:     13438
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   JBIC-allele(T,351|C,394)   total(C,394|T,351)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61332):
GGAAGTGGGCTTCAGTTACCCTGTAGTGCTCCTGGGTAGCCCCAAGTCCTCTGAACCCTCAGAGTTGACACCTGAGGACCATCCCTAACGGTATAGGCCT
Y
GCCACCTTCTCACGCCCTGTTTTTATAAGGCTGGGTGGTTCCTAAAATATTAATATTTCAGCCAATCTGGTATCCTGAATGCTTGAATTTCATTACTGAG
Celera SNP ID:            hCV7607518
SNP Position Genomic:     9951
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;(T,-|C,-)   Caucasian(C,38|T,46)   African-American(T,17|C,67)   Asians(C,34|T,50)   total(C,139|T,113)
SNP Type:                 INTRON


Context             (SEQ ID NO:61333):
AGCGGCTGATAGAGAAGGTGCGGCCCCCGCCGGTCCGCCGGGAGGGGAGGCCTGCGTGTCGGAGTGAGGCTGGGAGGGGACGTAGGACGGGAAGGGAAGG
S
GCTCTGAGGACTCGGAGCGGGCGTTGGGGAAGCGGGACTGGGGCTTGAATGCGGAGAGAAGGTGGAGGCGGAGCTGGGGGCTCCGGAGAGGGAAAAAGGA
Celera SNP ID:            hCV2965191
SNP Position Genomic:     6238
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,7)   total(G,7|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61334):
GGTTATAACACAATGCCTGGGTTCTGTTTGTAGCTACCAGAGCTACCACATAGTTTGGGGTTGGTGTAGATCGTCTGCTTCTCTGTGATTCTCAAACCAG
S
TTCTGCCTCAGACACAGCCACAAAACAACCCTGTAAACTCCACCTTACGTGACGGTTTCACTGGAAGCAAAGGTTCTGATATTCTGGAAGTGGGCTTCAG
Celera SNP ID:            hCV2965194
SNP Position Genomic:     9765
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61335):
GGGGCTCAGGGGTCCATCAAAGCCCATGTGGCCTGAGGCGGGCAGCGCTGCCTGCACTTTTCTGGAAGTCCTCTCCTGAGGCTGGCTTTTGCTACTTCCA
R
GTCTCGGATTTCCTCGTGTCGATTCCCTTCAGCGGTAAGGCCCTCCTCTCAGTCTAGCACCTGGCAGCCAGTTCTACCCCCAGTGCAAGCCTGATTCACG
Celera SNP ID:            hCV25963709
SNP Position Genomic:     13285
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:61336):
TCTCAGAGGAGCTCCAAGGAGAACTTCATACCCTGCTCTGAGCCTGTGAAAGGGACAGGGGCATTAAGAGATTGCAAGAACGTATTAGATGTTTCTTGCC
R
TAAGACAGGTTTAAAATTGGAAAAAGCTTTTCTTGAAGTCAACAGACCCCAAATCCATAAGTTAGATCCAAGTTGGAAGGAGCGCAAAGTGACACCCTCG
Celera SNP ID:            hCV25962587
SNP Position Genomic:     18810
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,40)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61337):
AGGAAGCCCCTTCCTCCTCCGCAGTACAACCAGCCCTTCGAGGACACCCCGGTGGTGCAAATGGCCACGCTGACCTACGAGACGCCACAGGGTAAGGGTC
W
TCCCCACCTTCTGAGTATTCGGGTGAAGAGTGTGAATGGAGTAGTTGAAATGCTGTCCCTGCTCTCTTAAGAAGTAAACATTGTTCACCTAACTAATAGG
Celera SNP ID:            hCV559710
SNP Position Genomic:     6704
SNP Source:               Applera
Population(Allele,Count): african american(A,17|T,17)   caucasian(A,13|T,7)   total(A,30|T,24)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61338):
TTTCTCCCTCATGGTCACCTTTCATATTATTGCCTTTCTTGAATAGCACAGGCCAGTAATTTTGCAGAATGTCCCTGAATTTGGACCTGATTGCTTCCTC
R
TGGTTAGGTTCACGTTAAACATTTTTGGCAAAATTACTACAGGGATGACGTGTCCTCTCAGAACATTTGGTCAGTCTGTCCCATTCTTGGTGACTTTTAG
Celera SNP ID:            hCV2641540
SNP Position Genomic:     17036
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61339):
AAAATTACTACAGGGATGACGTGTCCTCTCAGAACATTTGGTCAGTCTGTCCCATTCTTGGTGACTTTTAGGCTGGTCATTGAGTTAAGGTAAGACCTTA
M
TTCGATGTTTCTCATTGCGACAGGCCCTTTTTCCCTGGAGTCATCTATGTGTGATTCTTTGAGATCTCCTAGGAACCTTTTCTCTAAAAGCTTCTCACCC
Celera SNP ID:            hCV2641541
SNP Position Genomic:     17166
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61340):
AGCCAGCAATGCGGATCGCCTGGGTGGAGGTCCCCGCCCAGGTTGTTTCTGTCTCTGCCGTTCCTTGGCACACGTCAGTTGGCATTATTCTGCTCAAAAG
W
GCTATCTCCCCTCTGGTTCTTTTTTTTGCTTCCTGTAGTTCCCTCTCATGCTTTGATTTATTTTATTTTTATTTTTTAGGATCAGTAGGAATTCATGGAG
Celera SNP ID:            hCV2641542
SNP Position Genomic:     17378
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,5)   total(A,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61341):
TATAATCCATTGCCGGTATGCAATTTGACGCTCAAGTAACCCCAGATTTAGCTGTCAGGGAGCCCCTTTCAGGCTGGCTTTTGTGTCGTGTAGTGCAACG
M
CATGCGTTTTTGAGCACTTCTTCACCCCTGCCCTGATGCCATATCTGCCTCTCCCAGTTCTCACCAGCCGCAGTGAGTTAACACGTGCTCATCTGGTCAA
Celera SNP ID:            hCV2641543
SNP Position Genomic:     17604
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61342):
ATCTTAAGTTCTGTCATCTGTGCACATGGATGGTTTAGAATGGTAACACACCTTTACTTTATGTGTATCTTTTCTCCCAGGATACTGCAGTCGTATCTCC
R
GAAAGAGTCCTGGTGACCCAGCGAAACCAGCTTCATCTCCCAGAGAATGGGATCCTTTGCATCCTTCCTCCACAGACATGGCCTTAGTACCTAGAAATGA
Celera SNP ID:            hCV2641546
SNP Position Genomic:     18359
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:61343):
CTTTCAGCCACAGTTAGTGAAGCCTTCAAGAATCTCAGCCACATCTTCATGGCAGACACTTCATGGAGGCTGCTTTGAGGCAAAATTTATGCGTTCTGTT
K
AACAGATGACCTCTCAAGAGTCTCCTTCTCAGTTGAAAGGGGAGAATTTCACCAAAAACAACTGTCCGGCCCAGAGAGAGATCTGAGGTTTCTCCTGGTC
Celera SNP ID:            hCV29368022
SNP Position Genomic:     21791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61344):
GACCTGTACGCAGGGATGCTGCACTCCATGAGCCGGCTGTTGAGCACAAAGCCATCAAGCATCATCTCCACCAAAACGTTCATCATGCAAAACTGGAACT
S
CAGGAGGAGGCACAGATATAAGAGCAGGATGAACAAAACATATTGCAAAGGAGCCAGACGTTCTCAGAGGAGCTCCAAGGAGAACTTCATACCCTGCTCT
Celera SNP ID:            hCV2641547
SNP Position Genomic:     18648
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,7)   caucasian(C,20|G,16)   total(C,47|G,23)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)      total(G,6|C,4) ;JBIC-allele(G,555|C,928)   total(G,555|C,928)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61345):
CCGAAGGCTTCGGTGCGGGGACGGGGAGGAAAGACTGGGGCCTCCGGAACGGGGAGTGGGGAAGCAGGCCTGGGGCTCGGGTGCAGAGAGGAGGGTTTGG
W
GGGGCTGGGGGTGCTCCTGAGTGGGACGAGAGAGGCGGAGTTGGGGGCTCCGCTGCAGAGACCGCGTTTGGGGCGCCCCAGGCCAGACTAACGGCCTCTC
Celera SNP ID:            hCV7607524
SNP Position Genomic:     6446
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,13)   caucasian(A,1|T,1)   total(A,4|T,14)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;JBIC-allele(A,682|T,817)   total(A,682|T,817)
SNP Type:                 INTRON


Context             (SEQ ID NO:61346):
TCCTGCGAGTCCTGGTGGCCTTCAGGGCTTAGAAACCCGCAGGCTGAGTTTACCTTCCAGCAAAGCAAAAGCAAAAAGTTTAAGTGAGGCTTTTGAAAAC
Y
TAGGCAAAAGATCTCTGGAAGCAGGTAGGTGCCTGCCCAAGAGCGATTCATCTTCATCACTTCCAAAGACCAACCCCACACACAGCGCAACTCGCCCGCA
Celera SNP ID:            hCV2641548
SNP Position Genomic:     19274
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61347):
CACAATCTTGGCTCACTGCAACTTCCGCCTCCCGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCGCGCCACCACGCC
Y
GGCTAATTTTTGTAGTTTTAGTAGAGACGGGGTTTCACCATATTGACCAGGCTGGTCTCGAGCTCCTGGCCTCGTGATCCATCTGCCTCGGCCTCCCAAA
Celera SNP ID:            hCV27155504
SNP Position Genomic:     23400
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:61348):
TTCATCAACATAACTTGTTAGAGATATACTTGGATTTCACTGGAAGATTAAGATGTTTCAAAATGAGCTGTTTTCTCCTCCACGTCTGCTCTTTATTCCA
R
TTTACTAGCTTGAAAAGTTTTGCATCTCCAGAAGCACAGGACTAGTACAGTGAACACCCTTCACTTGTTTCACAATTAACATGTTGTCATATCTGCGTTA
Celera SNP ID:            hCV29368024
SNP Position Genomic:     16547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61349):
CAGAACCCCAGGGCTTCGGACGCCAGGGCAATTCCCTGGGTGCCTCAGATGGGGTGGACAACACCGTCAGACCGGGAGACCAGGGCAGCTCTTCACAGCC
Y
AACTCAGAAGAGAGGTAGGTGTGTTTCTGTTGGTTGAATGTGGTTTATGTGAGTGACTGCTCTTTGGACAGAGGCTTTTTATGGTAGGAATCTTTGCGCC
Celera SNP ID:            hCV2641549
SNP Position Genomic:     19921
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61350):
CTCGAGTTCTTGGTGTAGAAATTATGTGAATAAAGTTGCTCAATTAGAATTTTTAGGGTTCTCTTTGATAGGCCTGTTTTTCTGATGTGTGTGTTTTTTT
K
GGGGGGGGGTTATTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTTGAGACAGTCTCTCTCTATCGCCCAGGCTGGAGTGCGGTGGCACAATCTTGGCTCA
Celera SNP ID:            hCV27155505
SNP Position Genomic:     23214
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:61351):
ATTTGGACTCTTTTTTTTTCTCTTTCAGTTATCAATTTAACATACAGATTTTTTTTTGTTTGTGTTCAATTTTATGGTTTTTTCCCATCACTGTTGGTTT
A
TTTTTTTTTAAATATAGGAAACATTTACATGATGCAAAAGTCAAAGCTATATGAAGAGGTTTGTTTAGAAGTCTTACACCCCTTCCCATCCATGTAGGTA
Celera SNP ID:            hCV27155506
SNP Position Genomic:     17943
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,8)   total(A,8|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61352):
TTTATCCTTAGACAATATCTCTTTAAGAGGCAGACACTCAGAGTATTTGGACTCTTTTTTTTTCTCTTTCAGTTATCAATTTAACATACAGATTTTTTTT
T
GTTTGTGTTCAATTTTATGGTTTTTTCCCATCACTGTTGGTTTATTTTTTTTTAAATATAGGAAACATTTACATGATGCAAAAGTCAAAGCTATATGAAG
Celera SNP ID:            hCV27155507
SNP Position Genomic:     17899
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|-,7)   total(-,7|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61353):
AACAGTAAGTGTCATTTATATGTCTGTTTCCCAGAGTGCCCCCTGGGTCACAGAAACCACCCGTTTTCTTATGGGATGTGCTTCTTATCCTCCTTGGTTG
R
GATAGATGAGAATTTACACAGAGCTTAACCAGCTCCAGCATCTTTCCTGGCCCCCGTGTCACACTCTGTTGCCTGCCAGAATACCTGGTGCATGGTTTTC
Celera SNP ID:            hCV16179698
SNP Position Genomic:     13694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61354):
GAGTGCGGTGGGGCGATCTCAGCTCACTGCAACCTCTACTTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCC
R
CCACCATGCCCAGCTAATTTTTGTATTGTAGTAGAGATGGACTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCACCTGCCT
Celera SNP ID:            hCV27155508
SNP Position Genomic:     14218
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61355):
GCCACGTCAGACCAGGAAGAGTCAGTTGCTTGGGCCTTAGCAGTAAGTGCTGCCTTTAGTAATGAATGGACAGAGGGGGCGCTTGGGGGCTCAGGGGTCC
R
TCAAAGCCCATGTGGCCTGAGGCGGGCAGCGCTGCCTGCACTTTTCTGGAAGTCCTCTCCTGAGGCTGGCTTTTGCTACTTCCAAGTCTCGGATTTCCTC
Celera SNP ID:            hCV16179699
SNP Position Genomic:     13200
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,41|A,1368)   total(G,41|A,1368) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61356):
AGGAGAGCCTCCTGAGCTGGAGCACTGAATTTCTGTTTTTGTTTTTGGTTCTTTTGAGATGGAGTTTCACTCTGTCACCCAGGCTGGAGTGCGGTGGGGC
R
ATCTCAGCTCACTGCAACCTCTACTTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCAGC
Celera SNP ID:            hCV27155509
SNP Position Genomic:     14132
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61357):
CCAGGGAACTTTCACTGGCATTCTCCCCCTACTCCCCAGTTCTTTGCTATTGCATCCTCGGACATCCTCCCTAGACTCCACCCACCGCTCAGCTGCCTGC
T
CCGTGCAGGTAACCCCCACCCTCCCAGGGGCTGCACATGGTGGGTGCTGCAGTGGGGAGCTGTCTGGACACAGACCAGTCTCATGGGTTAGCGGCTCAGG
Celera SNP ID:            hCV11742339
SNP Position Genomic:     21227
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61358):
CTGCCCAAGAGCGATTCATCTTCATCACTTCCAAAGACCAACCCCACACACAGCGCAACTCGCCCGCAGCAGACATCTGACCTTCACGTTCAGGGAAATA
S
TTGTGGAATATTTAGAAAGTCAGTGTCACCCAGCAAAACTCTTTCAGTCCCAGATAAAGAAGTGCCAGGCCACGGAAGGAATCGTTACGATGAAATTAAA
Celera SNP ID:            hCV25969819
SNP Position Genomic:     19407
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,33)   caucasian(C,5|G,33)   total(C,6|G,66)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61359):
GCCTGATGCCCACTCCTGTGCCCACTTGGGGCTTTTTCAGACCAAACCACCAGCCGGGTGACTTTCAGCCACAGTTAGTGAAGCCTTCAAGAATCTCAGC
Y
ACATCTTCATGGCAGACACTTCATGGAGGCTGCTTTGAGGCAAAATTTATGCGTTCTGTTTAACAGATGACCTCTCAAGAGTCTCCTTCTCAGTTGAAAG
Celera SNP ID:            hCV559686
SNP Position Genomic:     21730
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   JBIC-allele(T,582|C,893)   total(C,893|T,582)    
SNP Type:                 INTRON


Gene Number:                 345
Celera Gene:                 hCG2024997 - 206000045906797
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W2NG(212788..226151)
Chromosome:                  Chr1
OMIM number:                 605537
OMIM Information:            ACTIVATING TRANSCRIPTION FACTOR 6;ATF6


Genomic Sequence (SEQ ID NO:12505):
TTTAAGCATATAAATTCTTTGGCTTCTCTTTTTAAATTTGCTTTTGACTGTTTGTTGCTGGCGAAAATTATTTAAAGTAATTAGGAACTCATCGTAAATA
TTTTGTACACTACTCTAAAAATCTAATTCCAACTAGTGAATTTAGCATTTATAAATGGAGGTGTCTATAGAGGAATAAAATCTTTGGTTAACCACTACTT
TACTTTTAGCAGTAAAGTCTGCAGCTCATGAAATTTGTAATTCTGGAGTGGTTTCAGTTTGCACCATCCCCTGGGGAGCCTGTTGATACAGCACTGAGCT
ACAGATTATTATTCAGCTGTAGAAGTTTTATGCTTAGGCATTTTCTTACATCTTCTTCTCTCAGTCAGTTGAAATCTTGTATTTTTGCCAAATAAAACAA
ATCCTATATTAATAAGAAGCTATAAATAAACAGTAGGAGCATGAGTCAGAGCCAGCATCACCCCATTCCTTGTGTGTACCTCTCTAGTACTCCCCAGTAT
GTTCCTTTTGCACAAACATGTAGTACTGCGTAACTACTGTTCTACAGATGAACTCCAGTTATTTAAGTGAGGCCTGTTTTTTAGAACTAAGTAATACTGT
AACTAGTAGAATTCTGGCATGTTACCACAGTCAAAAGCAGAATGTGAAGCTGTATGCTATTGATGGGAGGAAAAAAGAAATATATTTCCTACCTTTCCTG
TATAAAGCCCAGAAGATTCCTGTTAGATTTCCAAAATGGGTTTTTATATAATATAATATAATTCAACATTTTTTTCAGAGGAAAAAAGAAAAAGATAAGT
TGCTTGAAAGTCCCATCTCTTTTGCTAGTCGGCTTCTGTCTGATAAAATTTTATTCTGTTTTGCTTCATTGTTTATTCATTCAGTAGATGTTCATTGAAC
ACTTACTGTTACCAGGCACTGTGCTACCATAGACGGTATAAAGACAAATAAGCTAAAATCCTTGTTCTCAAGGAATTTATTATTGTAGAGAAAAGTGACT
TGTAAATCCAAAATTTCATACTGGGATAGGAACTATAAAAGAGACATCCTGCAGAATACTGAGATTATAAATAAAACTAGTATGTTTGAAGCATTTAGTG
TCCTAGCTGTTTTATAGAAGTCATTTCATTTAATCCTTTCAACAGCTTTATGAGGTAGATATCATTACACTATTTTACTTGTGCCAAGAGCACTACATTC
ATCAAGGAAGGAGGAGGTAGTATCAAATTTTTCAGAAAACAAGAGAGTTGGTTATAGAAGGATGAGTAGGGTAGAGAGTAGGAGGAAGATGAGGCAGTGT
GGCATTTCAGACAGAGAGGTGAATATGTAAGCACACAGGATGAGTGAGAGAATTGTTGGAATGTAGTCAGTTCTAGGAAATAAAAGATGGCAGGGTCCAG
ATCATGAAGTTTGGTTCTTAACCTGTAGAAGACAGAAATATGATCAGACTTGCATTTCAGGAAGATAACTCTGTAATTGTTTGCAATTCCTGTTAAACGA
AGAAATTTTCTCCAGCATTGACTTATGTTTATTAAATACATATAAAAACTAAATTCTAGAAACATCTTATACAGTTATACATCACTTAGCAATGGGATAC
ATTCTAGGAAATGCATTGTCAGGCAATTTCTTCATTGTACAAACGTCATAGAGTATACTTACACAAACCTAGATGTATATCTTTGTTTATATTTATTTTT
TCATATGGAAAACCAAATTTCTTAGCCATGTTACTGAATGTCAGTCATTTCCCTTACTTGATCTGCATCACCAACATTAAGTGCCATGTATCAGATTTCT
ATATATGTTCCATTATAATCTCATGGGACCACCATAGTACATGCGGTCCATTGTTGACAGACACATCATTATGTGGTGCGTAAGTGTACTTATAGTTTTA
CAACTACAAAGTGAAGCACAGAGAGGTTACATAACTTAGCCAGTGTCACACAGCTAATAAGTAGCAAAGTCAGGATTCGACATGTTAAGCCAACTTCATG
GACTTAACCACAGTCCTGTATTGCCACTCCTCTTCATTTAAAGGCATGCATGCACATATTAGATTTGGAGACAGTTCTAGAGACACTGAATTGGCAACTA
CAGTCGACAAAGAGACATTGCAGCAAGTACCTCTACGTTGTTTGTTTCTGTACCCTTAACTTGCAGTGGTCTACAAGAAAGAATGAAGGAAGGGAAGTGA
TATATTTGTCAACCCTAACTACATTGTAAAATGAAGCTTTTTTTTTTTCTTTTTTTGAGAGGGAGTCTCGCTTTGTCACCCATACTGGAGTGCAGTGGTG
CGATCTCAGCTCACTGCAACCTCCACCTCCCGGGTTCAATCTGTTCTCCTGCCTAAGCCTCCCGAGTGGCTGGAATTACAGGCATATGCCACCACACCTG
GCTAATTTTTGTGCTTTTTTTTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGTCTGGTCTCGAGCTCCTGACCTCAACTGATCCGCCTGCCTTGG
CCTCCTAAAGTGCTGGGATTACAGGCTTGAGCCACTGCACTCGGCCTGAAGCATTTTATGATGCTCACTACCAAGTGTTCATAAGCGGTAAATAAAGCCC
TTGGGCTAGGTAATGTAAGATCCATTGCAACCTGGAGATGAAGAACTTTGTAAAGGGGATAATTGTTATCACCCATCAGAGCATCAGAGTTTTAAGATGA
TCTAGATTTAGTCCCACTAATTATATTTCTCCTAACTTTTATAGACAGAGAAATCAGTGAAAAATATGTATTTCTAAGGATTAAATCCCAATCCATAGCT
CAAGGCTACCTTTATGTCTAATAGTTGTGATATAATATGTTGCTTAGAATAGGTTCTATAAATGGAATTCACACATAGGACCCCAGAATCGCTTCTTCAC
AGGGTTTCAGAGTTGGAGGACATATAAAAGGATAAATCAATCCATAAATCTCTAAGTATTCCTAAAAGAAGAGTGGTGTGTCAGTTATTGGCACCAGTAC
ATCATGAATCCTGCTGGGCTGTGGAGAAAGGAGAAACTAACCTGAACAAGACTATACTCTACACAGCTGTCCCTGACATTCTACCACCTGTTAGCATTCA
GTATTAATTTCATGGATCAAATCAAGGCATGCAAGTGCATTAAATAACTTTTTAAAAAACAACTGCTGATTGCTGACGTCTATGAGGGAAGAAAAATTAG
GGGCTGTTATTTTCCTATCAACCATCACTCTCATTAACAAGAACAGGAAACATTACGAATAAATAAAACTCTTACATCATACCAGAAAAAAGAACAGCTG
AATCCCCTAAAGGATTTCATATTCTATCATCAGACAACGAAAGAAAATAATTCCATATAAATGGCTGCATGAATCATTGAAAGAAACTTCCCTGCTTTTT
TAAAAGAGCAACTAGAAGTATTTACTTTTTGAAAATAGAGTAACCATTTGTTAAACCGTATATACCATTGAAGATGTTTTGGGTATAAAAGGGAATTTCC
ATAATAATTACATAGTAATCTTTTATAGCCAAAGTTATGAAGAAGATCAGGATTTGGGAAAATTGTGGTCAATATTTGATTTTCCTTTTCTGTTTGATAG
CCTTATCTAAATTCCCCTAGCTTGAATGTAGTAAATATGAGTGTGTAAAAATGTGTATCTAATTCACCTCTTGGGGGAGGTTTAATGTAACTATAAATAA
AAATTCTTTCCCCAGGTTAAAAAAAAAGTTACATAGTGTTTAATTCTACCTTTTCTCATTTCTCTATATCCAAAACTATCACCAAGTACTGTTAATTTTA
CTTTATAAAGCTCTCTTGATATGTCTCTTCAACCTCATCACCACTGCTTTAAATGAGGCATACTTCCTCATTTGGATTATGGCAGCAGTCTCTCTTCCTT
TAGTCTCTCCTTCAAATCCACCTCCATCCTTCATATCATCCATCATGTATTTTTCCCTGCCTAAATTCCTTGGTTGGCTTCTATTAAATCCAAGTTCCTT
AAGCATGGCAAACAGGGGCCAGCTTCCACGAGCTGGTCCATACCTCTCCTGCCTTATTTCCTGACACTTTCCCTTATACCTTGAGATCCAGCTTGCCAGT
ATTTCCCCAATACCTCCACCGCATATACAACCACATACATATACACCCTTATCCCCTCCCTCATGTACCACCCATATATAATTCTCTTTACCGCATCCTT
TATCACACTCCTACAAGCCTTGAAGCAATCTGAACACAGAAACCATCTTTGATTTTCAACTCCTAATTGGGACTGAACATACTTGTCTTGAACACAGATT
GCTGCCTTGTTAGTATAGGTATCCTAATATGGCACATGTGTATAGTTGAAGCTATAATGCATTCCCCAAGTTCCCTTTCAGGACTAAAGGGTTATTTCCC
AACAGCTGGAAGTCCTGCTGCCAGACAGCCTTCTTCAGGAATTGCCTTGTCCCCAACTCAAGACAACCCTGAAGGACCTTTCCCAGTTTTCCATGGGGTC
CACTGAGGCCTTGAGATTGTACTGAAGTCAACTTCTCCCTCTGCTGTCGCTTCCCTTCCACAGGTGTTTATCACAAGAACAATCCTTAATAAACTTCCTG
TAAGCACACTCTCAGAGTCAGCTTGCTGGGGAACCCAAGCTATAACAACATGTTTATCTTGTTCACACTTTCTTCTGAGTTCTAAATCATGGGAAGTTAC
AGTTATCCAAAATCTTACTAATTGGAAGATCATTTCATCAGACGTGTATTGAGCACCTGCTTCATGTCAGGCATTGTGCCAGATACAATGGAAACAAATC
AAGACTTGGCCTCTGTCCTTGAGTTTACAGTCTGAGGTGACAGTTACATATGAACCTAACTGTATTAAAGCATCTTGAGAATCTTTTTGATTCAAATGTC
AATAATTTTAGTATAAAATTCAAAAGCATGGATTTTGTGGTGTTACAAAGAACAAAAGGAAAATATTTCAGGGGAAGGAAAATGAATATAAATAAGTAGA
ATGAAATTTTAGAAGAGCACAGAATTTGTCTTTATAATTCTGAAAGCCTTTAGGGAAAAGGTAATTTTTTCACTTTTTATTTTGACATAATTTCAAACTT
ACAGAAAAGTCACATGAATACTGAACTCCCATACACCCTTTATGCAGATATATCAGTTTTTAACATTTTCCCTCATTCTGTTTCTTTACACACATACAAA
TTATTTTTGTGAACTCTCTGAGAACAGGTTAAATACTACATTATATCACTTCATACCTTAAAAATGTAGTATTTCCTAGAAACAAGGGTATTCACCTCCA
TAACCACAATGCAGTTGTCAAATTCAGGTAATTTGACCTTGATCTTTAATCTACAGTCCAGATTCAGATTTTGTTAATTGTCCCCAAAAAGATGAGTTTA
GGAAGAGTCATATAACTTAACATTTGTAATGTAAATTAAAGATCTCGGAAGTTTGCTAACCTGATTTAAATACCACAGTGAAATGAACCACTTCTGATTT
TCTACGGAGAAAGCAAGGGTTAGGTCCAGGTTACCTGTAAAGGTGTGACTTAGGGCTCCCCAGAAGTGAACCTTGCTCTGGAGACCCCATTTGGTGAGGT
TCTTTTCAAAAGAGATTGTATATTTTTGACCCAGGGATTGTCGATTTGTTGAGCTCCCATGTAAGTATGCCGCCTTGCCATTGACAGGTCTTCACAATGC
TTTCTTAAACGACATTCTTTGGAACTGTCTTTCATAGTCAGGCGACCCGCCAGCCAGGCCGCCAGGTAGGTGGAAGGGCGGCTTCGGGAACTAGATCCGG
CTGGTTCTCTGCTAACATGTGGTCCTCGATGCTCTAGCGGATTGGCCCCAAACCTCAGCACACAGAGCTTTGGTAGGGCTGGGGATGCAGGTCAGCCTGC
TGAAGGCGTCTAGAGGACTTGGGCGGGGGCGTGACTTCCTGCTGCACCACTTCCTTTCCAGCCACGTGGGCTTCTGGGACCCTATGACATAATTTCTGGA
GTGGTCTGTTGGGAGTTGTGGCGGCGGCGAGGCCCAAGCACAGCTGGCCAAGGCGGGTGTAAAACGCGGGTCGTGTCCACCCCAAAGCTCGACGCCTCTA
GAAGCCATGGCTTTTCTGCTGAAGCTAGAGCCGGACATGCAGGGGAAAGTAGATTTGTTTCGAGCCCGTATCGCCCAGGAGGCCGAGGATCTCGTGTCCA
CCTTCTTTCCTCAGAAGGTCTTGGAGCTGAATAGCCGAGTTCAGGAGCTCCGGCTGCAAGACCTGTCCAGAATCCATTCGGTGCCAACCTCGGAGCCCCT
GGCCACCCCAGGCAACAAGGGAGATGGGCCCAACCAAAATCTGCCAGTTCTGCTGACTCAGTTCTCCATCAAGGTCCCAGCACTGCTTGGCAGCGAGGGA
CAGCTTCTGCGGAGCAACCAGCATCTGGTGGAGTTGACTGAGTGGGTGAAACCTGAGATCAAGCTGCTGAGAGAGAAATGCAACACAGTGCACATGTAGG
TGCACCCGCTTATCCTGAAGGTGSAGGACGGCAACAACTTCAGGGTGTCTATCCAGGAAGACACTGTGGACCAGCTGTGGACCGTGGATAGCACAGCGGC
CTCCTCTCTATGCGGCTTCTCCACCTACTACAACACCCAGGCCAAGTTGGTATCCAAGATAGTGAAGTACCCCCAAGTGGAAGATTATCGCTGCACTGTA
GCAGAGGTCGACGAAAACGAGTACCTGAGTGTGCGCCAGATCCTGCTGCACCTACGGAACGAGTATGCCACCTTGCGTGATGTAATCCTTAAAAACATTG
AGAAGATCAAGATCCCTCGGAGCACCAACCGTGATAACCTATACTGATAGCCTTTCTCCACCCCATTTGCCTTCAGGAGTTGGCGGAGCTGTTTAGGCAC
CTAGAAGGCTGGTTATTAATGACTCTACAGGTCATGAAATTACTGGAAATGTGTGTTACCATTTAGAATTTCATACAGCTTATCCTCATACTGAATCATC
TTTTGGTGTAATTTTTATTTGATTTTCCTTTTGTGAGGAGAATGGGGACAAACCATCAAAAAGAAAAGACTGCCATTTTTAAAAGCAGCTTTATAGATAA
ATGTTGGCCCAAGGTTTCTTTATTATGGCCTTAGCGACATTGAATGGTTTTAGGGGCTACTTAAAAACTAAATCTTAAAGTTAAATGAAGTTTTTCCTAA
AGTTCTGCTATCCGTTGAACTTTGTTCAAACTTACAGAAATGCTCCTTTTACAGCATCATTTTTCTTTTTTTGCGAGGAACGGAGTTTAAAGGGATATGT
TTAGGTCATTGTATGCCTCCAGTTTAACAGATTGAAATAAAACTTGGTTATAAAATTTTGTGATGGCCTGAGTGTGCTTATCTGAGCTTTAATTTTCGGA
TGTGGACAATTCAGATGATAATTTCCTACTTCAGGTGGACTCATACACTTGATATTTTTCAACTCTGATGGGTAAGAAAAGTAAGCAAAGAGTAATGTAT
TTTAATTATTCTAAACAAATGGACATCTACTTCCCTTAGAATGAAAAGAGGAATCTGTGGAAAATGACTTCCTTCCATAATCTTCTATCATCTCAGGATC
TTCATTTCTTTTTACACAATTTAGAATTCCTTCTGTATATCCGTTTGTCTCTTTAAGTCTCTGCTAAATCCATCAAGCTGTGTATCCTATAATACTTTTT
CCCCCAGTTGATTTTCATTGCCCTTTCTTTTTGTCTCTTAGATATTTCTTAAAGTCCCTCATTAGCATTTCCCTCTCAGGTTATACAGGTCATTCTTTTT
TTTTTTTTTTTTTTGAGATGGAGTCGCGCTCTGTCATCCAGGCTGGAGTGTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAGCCTCTGCCTCCCAGGT
TCAAGAGATTCTCCTGCCTCAGCCTTCCTTAGTACCTGGGACTACAGGCGCATGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTT
CGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCT
GGCGGGTCATTCTTTAAAGACCCTAAAATGTGGCTTTGTGTTCTTTTGCTACGTCGTTGAGGGGAAGCCATTGTCTTCTCAACAGTAAGCTATATGGTTG
GTATTTTTAAAGTTCAGCATTTCCAGATTTCATTTGCAGGTAAGATAAATTACTGCACTGTGAGTCTATTCTAACCTATGTAGATTAGAAAAATCATACA
CTGGTTTAGCGGAAACTTTATTTTCTTTCTTTCTTTCTTTCTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGACCAGGCTGGAGTGCAGTGGTGCGATC
TCGACTCACTGCAGCCTCCACCTCCCAGGTTCAAGGGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGACACCATGCCCAGCTAA
TTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCGCCAGCCTCAGCCTCCTAAAGTGCT
GGGATTACAGGCGTGAGCCACTGCGCCCCGCCACGGAAACTTTATTTTCAAAGTAAACTCCTGAAAAATGATAACAAGTGAAACTATTCTTTTGTCGACC
TTCTGAAAAGCCTGAGTCTTTCAAATCTGTGCTTAAAAAGCAACAACAGCAAAAGGTATTGCCTAATAGAAAGACGTCTTACTTCCTTCCCCTTCAAGTA
AAAAGAGTTCTTTTTATTTTCCCTGTAAGGTGTTCTATCTGATTCAGAAAAGTGCTGGGAACCCTAAATCAGTTCATACCATTTGACAGGCTTTAATTGC
ACACAAGTGTATAATGGACAATGTAAGGGAAGAACAAATGTTGCTTAATTTTTCAACTAATGTTAATCATCTAAGACTTAACATATCTGTTCCTCACATA
ATATAATCATCTTTTGCTTGTTTCTTTTACTCAAACTGTCAAGCTTTATGACAGATTGAAATAAATTTTCTCCAATCCCTGGCATGCCTTTTACTGAGAA
AATATGTCCTTTGTAGTTAAAGATTTCTGGTATATGCATTTTTCACCTTTTTCCAACTCTGTATCAAATTAAGTTGGCTCTGGAATACTTTATAAAGTCC
CTACTTCTGCAAAAATTAATCTCTTTGTGATTTTCCCCTTTCTTGCAAATGGTTGGAAAAACTTTTATAATAATAAACTTAGGAACTGGTGTTACAATAT
GGTATCCAATGTGAATCATTTGCCTGTTATTAGTACTTGTTACTTGAAGCCACGTTTTTGTTCCTTTTAAGATGGCAGCTGAATTGAGCAGGTGTTTTTT
TTTTTTTTTTTAAGAAATGGTTTTAAAAACTTATTTTGGAATTAAGTAATTTTAGTTTTAAATTCTAAAACTAAAACATGAAGACCACTAAAATTTGATT
GGAAGTTGAAATTAGTAGATCTAATTTTTATGATTGAGTGAAATGTCTTAAACCACATAAATGATGGAGAAGAGTCTTAAAGTTCTTAAACTTCAAACTT
CTTAAACGTTTGGGCTTAGTTTTAAAAAATTACTGAATCGTTTATAAATTTTTCTTTGGTTATTAGAGGCAACATTTGTTTTGTAGTCTTTTTTTTTTTT
TTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTGTCACCCAGGCTGGAGTGTAGTGGCGTGATCTTGGCTCACTGCATCCTCCACCTACCAGGTT
TAAGCAATTCTCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCCCACCACTAAGCCGGGCTAATTTTTTTTTTTTTTTTTTTTGTATTTTTAGCA
GAGACGGGGTTTCACCATCTCAGCCAGGCTGACCGGGAACTCTTGACCTCGTGAGCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGC
TGCTGTGCCTGTCCTATTTTGTAGTCTTTATGAGGTTTACATATTTATATAGAATTCTTACCAAGTAGTCTCAACCATTAATAGATAACTGTGTGATCAA
TTTAAGTGATTTTTAATTTCAGGCCAGATGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGGGGCCAAGGTGGGCAGAACACTTGAAGTCAGTTCAA
GAACAGCCTGGCCAACATAGTGAAACCCTGTCTCAAGCAAAAATTACCAAAGTTAGCTGGGCATGGTGGTGTGTACCTGTAGTCCCAGCTACTCTGGAGG
CTGAGGTGGGAGAATTGCTTGAACCCAGGAGGCAGAAGTTGTAGTAAGCTGAGATCATGCCACTGCACTCCAGCTTGGCTGACAGAGTGAGAACCTGTGT
CAAAAAAATAAATAAATAAAAAGCTTTTTAATTTCAAAAGTACCATCTCAATGGTCAGAAATTTGAAAAGTATAAAAGGAGAAATCACCTATGGTTTACT
AGCCTAACAAAATCATTACTATTTGTGTGTGTTTTACTTATTTTAAAGGATGCATATATGTTTTTACATCATTGCAATATAGTATATGCCTACTTTTATA
GAGGATAAACATCTGCATTTAAATCCAATCTAATATTATAACTTCGTTTGATAGATATCCCCTGATTCAGATAACAGATACATCCATTCCCCCAAATATT
TTTAAGGCTCTGTTTCCTAATTGTGAAAATGATACTTGTCTGAGGCAGGAATTGTGATTAGAGTATGGAACATAGAGATCAAGTAGCTGGGAGGAAATGT
GCCTATATGACTGTGAGAATGTCTAGATATTTAGAATAGGGTTTTACTCTGCTTTTAGGTTGGGGCTTCATAATAGCTTTAGCAACATATCTGATCATTT
TATTACTCAGTGCTTTTTCCCTCCCCCTAGAGCATTTAATTACCTCTAAAAATATGTACAAGAAAGCATTCATGCCTTATACTGATTAGATGAACTGTTT
CAGCTTTCATGATTTGGTATGAGTAGGAGGGAATTCTACTTCCTCTGTCAGCACTTAAACATTTCTGGAAAATGCTGTAGTGCATTGACATCAGGCATTT
TTAAAAAATTACTGATCTTTGAGAAAAAATAAAGGACCCAGTGAGTTACAGAAATAGATGCTGGACCATCCCTGTTCTCTGCATTAGAAAACTATACTGC
TAACACATAGAAATAACTGCTCACCTTGAACTGAAATTATCCATGGGAAGCCAAATACATCCGTCTATCTATCCATCAATCGATAGATAGATGTATTTGT
CTCATTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTACCTCCCGGTTTCAAGTGATTCTCCCACCTCAGCCTGCCAAG
TAGCTGGGACTACAGGTGTGTGCCACAACTTTTGTAATTTTGATAGAAACAGGGTTTCTTCACATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTG
ATCTGCCTGCCTCGGCCTCCCAAAGTGCTGAAATTACAGGCGTGAGCCACCATGCCCAGCCTCCATATTGGATGATTATACATTTGTATATATTTTTCTT
TGCTTGCTTTATTTTGATGAGTCTTCAAGTCAGTAGCAGAATTTTATTAGTGAAGTGTAGTAATCCCAGTTACTCAAATTTAAAATGTTTCACTAGTAAA
CTGAATTTAACGAATTCTCTTTCATAGAGAATGTTGTGTTATTTTTCCTTATTGGTGAAAACCTAGCTGGTGCAGATGAACAGGAATCGAACCTATTATC
AGTAAAATTAGATTCCTTTTACAATTTGGCCATTTATTTTAGCTTTATTATTTAATCTCATTTTTACAAAGTTATGCAATAGTATATTGGAAAAATAATA
TTGCTTTGAAAGTGTGAAGTATTTAGAATTTCTTAAATAAATATATAGTTTCCAGTTTAGATGTTTGAGATTTAGAGGTGTACTTTTAGCCCCTTGTTTT
ATAGATGAAGAAATTTAGAATCAGAGATATATATGGCAGCACACAACTCATCTGTGACAAAACAAGGTCTAGAAGTCAAATCATCTTCCATTTCAGGCTA
GTGCACTTTTCACTGCACTTTACTATGTTCTAATCAGTAAATAAAATTACATTAGAAGAGAGTTCTTTCAGAAATACGCAAACCAGTAAAATTTCAACAA
ATTAACATCCCTTTCAAGTTGTGTGTTATTTTTTTCTGCAAAATGTAAGAGAAGTTGAAATGTTTCCAACTCAGAATGGACTATAATATTTTTACTGAAT
TAAATATTATGTAAAGAGCTGGGCTCGGTGGCACACACCTGTAATCCTAGCACTTTGGGAGGCTGAAGCGGGCGGCTTGCCTGAGCTCAGGAGTTTGAGA
CCAGCCTGGGCAACACGATGAAACTCCATCTCTACTAAAATACAAAAAGTTAGCCGGGCATGGTGGCATGCACCTGTAGTCCCAGCTACTCACAGGCTGA
GGCGGGGGTGGGTGGATCACTTGAGCCTGGGGAAACAGCGATTTCAGTGAGTCAAGGTGCCATTGCACTCCAGCCTGGGAAACAGAGCGAGACCCTGTCT
CAAAAAATAAAATAAATAAAAATATTCTACTGGCCAACTCCTCCCCCACCTTCTAACCTTCAGCACCAAAGAACTGCTACATAGATTTGTCATGGCTGCT
GCTCCTAAAAAACCTACAGAATAAAAGGGGAAAGAAGAGCTGTAGTTTTCTGTTCGGGAGGAAGCCTGAAAGGGTCATTTCCCAAAAGAAGTTTATCTTT
TAGAGCTGGACTGGTCAGTACAGTAGTCACTAGTCTTGAAATGTAGCTAGTCCTAACTGAGATGTGCTGTAAGTGTAAAATACACACTAGATTTTGAAGA
CTTAGGGTGAAGAAAAAGTAAAATATTTTAATAACGCTTATGTTGCTTACGTGTTGAGTGATAATATTTTGGATACATTAAATAAAGTAGATTATTAAAA
TTAAATTTATATGTTTCCTTTTACTTTTTTATTTTGTGTGCCCGAAATTTTAAGGTTATATATGTGGCTTGCTTATATGCCTCACAGTATATTTCTATTA
AACAACACTGCTCTGGAACTAAGATTTCTAAGGTAACTGAGATGATCCTTGGAGTTGAGCCTAAACCTGCTCTTGTGGTATATTTTGGAGATGTGGGTTT
CCATTAAGTATAGATTTTTTTGACTCCTAGTAAATTTTTATTGATTCGTCATCTGGTTCATAATGTACAATTCAGTAAAAGCCATTCAGAGAGAGGCTAA
ACATTGTAAGCCAAACCTTCTTACAGTGCAACTTGGTCTTGGAACTTAGAATGCTTACAGGAA


SNP Information

Context             (SEQ ID NO:61360):
TCTGGTGGAGTTGACTGAGTGGGTGAAACCTGAGATCAAGCTGCTGAGAGAGAAATGCAACACAGTGCACATGTAGGTGCACCCGCTTATCCTGAAGGTG
S
AGGACGGCAACAACTTCAGGGTGTCTATCCAGGAAGACACTGTGGACCAGCTGTGGACCGTGGATAGCACAGCGGCCTCCTCTCTATGCGGCTTCTCCAC
Celera SNP ID:            hCV11629059
SNP Position Genomic:     6524
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 UTR 3


Gene Number:                 346
Celera Gene:                 hCG2025049 - 84000314674671
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W2NG(20129105..20144148)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12506):
TGTCCTGGTCTAAATGTTCTTGACTCCTTAATCTCTTCAATCCCTTTTTCCCTGAGTGGATGTGAATACTACAGGGAGCTCCAGCTCAGGCCTCTCCCTG
ACAGAATTCAGATTCCAAGGACTCTCTTAACAGAGTTGCAAGTAGGGATCATGCCAAGCCCAATCTAACATGCCATGTCTCTCCTGCTATACAGGGCACA
GGTTCCCTAAGTGAGAGCTCCATCCCCTCTGTCTCTGACACCAGCACCCCAAGAAGAAGTCGTCGGCAGCTCCCACCCGTCCCGCCAAAGCCCCGGCCCC
TCCTTTCCTACAGCTCCCTGATTCGACACGCGGGCAGCATCTCTCCACCTGCTGATGGAAGCGAGGAGGGCTCCCCGCTGACCTCCCAAGCTCTGGAGAG
CAACAATGCTTGCCTGACCGAGTCTTCCAACTCTCCGCACCCCCAGCAGAGCCAACATGCCTCCCCACAGCGCTACATCTCCGAGCCCTACTTGGCCCTG
CACGAAGACTCCCACGCCTCAGACTGTGGTGAGGAGGAGACGCTCACTTTCGAAGCAGCCGTGGCTACTAGCCTGGGCCGTTCCAACACCATCGGCTCAG
CCCCACCCCTGCGGCATAGCTGGCAGATGCCCAACGGGCACTATCGGCGGCGGAGGCGCGGGGGGCCTGGGCCAGGCATGATGTGTGGGGCTGTCAACAA
CCTGCTAAGTGACACGGAAGAAGATGACAAATGCTAGAGGCTGCTCCCCCCTCCGATGCATGCTCTTCTCTCACATGGAGAAAACCAAGACAGAATTGGG
AAGCCAGTGCGGCCCGGGGGGGAGGAAGAGGGAAAAGGAAGATGGAAGGACACCATGCATTATCAGAGAAGAGGAAGTAAAGGACAATCAGAACACCAGT
CAAACCCACCAAATTGCTTTATTCCCCTTTGCAAGATGGGCACTGCCATAGTTCTGCCTCTTTGCTGGGGAAAGAAACCAGGAACGTGGAGGGTTATTAC
TGCGGGAGAAGGGACACGAGGATGGCTTTGCTTCCCCTTGCCCCTTCCCACTTTTCTAAAAGCTGTGGAGGGATCTAGCTGGCCTATGTCTACACTCAGT
GCCCTGAGAAGCCTGGAAGACTTTCTGGCTCTTAACTGGGGAGTAGTGGAGACCATAGGAGAGGACTCTCCTCCCTCACCAGCTCTTACGCCTCAGCCAG
CACCACTGCCACCAGGGCAACTGCAGCAGCATCTCATGCATAACCCTGTGGCTTGCTTCCCCCAGGGCAGCACAGGCTAAGTCAGGAACATCGGATGCCA
GGGAGGGAGGAGAAAGCCGAAGCGAAAGGGGTCAGGGTGCTGAGGCAACAGCAGCAAGGGCTGGTCTGGACAAGAAAAGCCATAGCCCGGCAGCCCCTAC
CATGAGGGAGACAGAGAAACAGAACTGGTGGTGCTGGGGGGTATAGCCCCCCATCCTTGAGGCCTGTCACCCACACAGTAGGTGCTGAGAGTTAGGACAG
GTCAGGAAGTCCCCCAGGGTCCACAAAGGTGCCTGAGGCTCTGGTAAGGGTGAAGATAAAAGTATTTAACAACCGCTATGGCATCAATGTAAGTGGAGTT
TGGTCCTAGTGCCGGAGCCCATGCTATTCCAGGCATTGGCTCTTTAGATGCCAGTCATGGGGGAACCCTGAGGGTGTGGGTAGAGTAGCAGGGGCCACCT
AAGAGATTAAAAACAGAGTCTGTTTTCCAACCAGTGTGGAAGCAATTAAATATACGTAACAGTGCTACGGCCACACCAGCACCTCCTGGCTGAAGGTCAG
CCCACACTCTGGTCCATGAGGCAGCAAGGCCAGTGCTGTGCCAAGCCCGGTAAGGCCAAGTGCCGAGGCCCAGCCTTCCCTGCCACTCCTCTGAGAGGGC
AGAACACACATATCCAAGTAGGCTACCCACCACTGGGTAGGGATTTCTGTAAAGATGGGAAAGGCTGATAGATTGAAATAAGCTTCTGTGAAAGTCTGGA
TTTACTGAGGACCTCCCCTGAGGAGGGACCGTTGGGACCGCAGATTCTGCAGCTGGTGTGGGGTTCAGGTCAGTTTGTCAGGATGCTTTAAGGTGATTAG
TAAATATACCTCAGCTTAGACTTGGGCTGCTCCTTCTAGCAAAGCAGGCTCCAGTGGGGCCTCATCATACAGGATGACAAGACTGGGGCCCTGTTCACCT
TGAACATGCCCCTGGGCCAAGATGGGGCTTCACCCCTCCCCAGAGTAAGAGCTGGGGCTGACAGTCCCACCCTGTCATTCCTAATAGCCCAAACGCAGAA
GCACTGAGCAAGAGAGCCCTTTCTTGCCAAGCCAGTGCTCTTTTGGTATATGGCATACAGCTCCATTGGAGGGGACACATCACTGGCTTTATCTGGTGGA
AATGTACCTTTCCCTTAAGTTCCTCCTTAGTGCCATCACAGCAGGTGAATGGGTGCCCTACGGGGCCCTCCTTCCCCCACCAGGAACAGATGGAACCTGC
CACCCAGGATCCTGATCTGCCCTGCACTGAGCACTCAGTGGATAAACACTCCTCCAGCCCAGACACACTCCTCCTCTTGGGCAGGAGCAATCCAGAGTTG
TTATTTTTCTTAGAAGGAGCCTCTTTTCCCTCTATTTTTTAAATTGAAATATAATAGCTGCATCAGCCCTGAAAAGCCAAATTCAACCACATGGCTGGAG
AATCATTTGTCATGGCCCCGCCTTCTCTTCTGATACTAATGGAGCTTCATGACCCACGGTCAGCCCCCAAACCAAAGTTGTCCCAACAGAGGAGGCCAGT
GAGGCAGAGACAGAGCTCTCCCACTCTCAGACCCTCTTTTGTCTTCATTTTCCTCTCCCACTTAGCACATGTGTGCTTGAGGGTGGCTGGGAATGTGATA
TACAGCACCCTGATCCTAACAGGTGTGATTGTTACGTAAGACGCTGATACTGGGCCTTGTATTGCTTTTAAAGTTTCCTCTGCTCAGCATCATTTCATGC
CAAAGTGCTGCTATGGGCTGCTTTGTGTGCACAAAATTGCTTTTTCCACCTCGGAAATGCAGCTTTCCCTAGGGGGAGGCCTACAACAGGACGACCATTC
TGAGCCAGTGAGTCTATTGCATGGTGTTTTGAGAAAGGGAATTTTAGTGACACCTTATGCCATTTCAAGAGGAGAAATGCAGGCTGGCAGAGCAATTTCC
AGAAATGGAATTTGCCTGCAAATAGTATAAACAACACTAAATTTACTGTGCCAGGAAATCTTCCTGAACTCCTTGAACTCATACACACAGGTATTTGAGT
CCTGAATAAAGTGTTGGAAAGCACTGCAGATGCGGTCACCTGACTGACCACCTGGGTTTTCTATTACCAGTGAATTTCTTTTATTCACCTTCCCTTGACC
AAGAAATTGGGTTTCTTTTCCCTCAGCCTGCACTTACTCTTCTATTAAGACCAGAAAATAAAATAATTTTCCGTTGAGTCACAAACTCATCATCTTGTTT
GGTGTTCTGCTGCCTCTGAACAAAAGTGAATGCCAGCCTTCCCTTGCTGGGTGTCAGAGTCTGCCTCCCTTGAAAAGAGGCCCCTGTAGACCCCAACACC
TATTCTTTTCTCTGGTTAATTACAGCAGCATCTGAGAAATTCCATGCAAAAGAAGACTACAACCAGTGTTTCAGATATACCACAAGATCAAATTTGGGCA
CTGGTGGTCCACCTCAGAAGACTCTTGAGTCATATATTCAGTTTCTCTTGCTAATATATGACTCGTCTTCACCATCTCCTCAAAACAAGAGCAAAGCCAA
GATAGAGGAAGGTAAAAGGAGGAGGAAAGGAAACCAAGGCAGGGAGATGTTCTAAGTAGGTTTGCATTTAGTTACCCCTCATTTCACTTAAGGCTCCAGA
CAGACTCCAGGTAGGGAATGCATGCTGTCTCTTTCTCTGTGTCTGTCTCCCCATCTCCTAGAGGACAGAGTGCCAGCGACCTCTGGACAGGGGCAGGGCT
CCAGCCAAGGTGCCCCTGAGCCAGGGTCAACATAGAATTTCCTGCCCCGTGAAGGGCTGGCACCAGCTAGCATCCCCTTGGCTCCACATGAGTCATGAAC
ACAATTGTCAGTGGGGGTCTCTGCTGCTCTTCTGGCTGAAGAATCTGTTTTTCTTCTGGGCTTCACTTGTAGTTCCTATTCAATGTCTCCATAGGGCACT
GAGATCACCAAGAACATTACCCAGAAGCTGAAGTCCAAATGTTCTAGATTTTGACCTCTCTTGACTCTGGGGCCACAAAGAGAAGGCCCCATAATCCACC
TCTCAGCCAGTATCTCCCTTCTTTGCACAGATTCCTCCCAACCCCATAGAGCCTATGTGGTGAGCATGAGGGTCGTCTTCCCTCTGTTCTCCCATCCCAG
CCTCTGTTTTGCTGCATGTTAGCGCTGATCCAGCTCCTGAGATGGTTAATTCCACCCAATCCAAGCTTATTTGCTTGCCTGACTGACTCCACCACTCTCT
CAGCTATGGGGGAATATTGCATTCTAATGAAATAGGGTTTGGAACTCACCTGGTGCTCCTCGCAAGACAACTGACACAAGGTGTAGGGTGTGGGGGTGGA
CACAATGCCCACCTACTGGATAAAAGCTCACTGCAGGAAAATGAGGTCTCCTGGCATAATGCAACAAAAATCTCATATAATTTTGATTTTTAAAAAGTTG
TTCTCAATTTTTCATTACATCCTACTTCTCAGCCCTCTGGATGTTTCATTTTTTTGGACAAAGTGTTTCTTTAGTGGTTGGGGCCAGGGACAGGTTGAGG
GATATTTCTCGGCTCATTTATAAGATATAAATATTATGAGGTTGTATGTAAAGAAAGGGCAAACGTACAGCAGAAGGGGAGCAAATAGCTACCTTTCAAG
GATTTTGAGATTTGAAGGTTAAGGAATTTTTACTGCTATTTTTGTTCATCAGTTTCATGTCTGTTATGTTTTGAGATCCTCAGAGGCCTAGGGTTAGCGT
ATACCAAGAATCCTGGTGAGAGGCGTTGCCATGCCTTGGGGTGAATTCTTCCCCACTAGCTCTCTCACCCAGCCTACAAGTCCTTCTCTCATAGATCCCA
GAGCAATGGGCACCGTCCAGGAGGTACAGGAGAGGACTTTATGATGCAGGAAAGAAGGAAGAAGTGGGTCCCTTGCAAGTGGCCAGACAGGGAATGATGG
TTTGACTCCAGAAATCAGGAATCAGGTTCAGGTTTGGATAACTTCTCTTTAAAATATCTCCACATTGAGACTCTTATTTTAACAAAATCCAAACAAAATT
AACTCAGGGCTTGTGACCTAACCTTTGTAAGAAGGTGATCAAAGAGATCCTACATTAATAAGCACTGCCTGTAGCACCAGCTTTGTCTTTTTGTCTTTTG
TTGTTTCTTTCCTGAACCACCCTGTACATCATAGCCAGGTCTACCCCAAATAGAGCAGCAGCTGATGGCTTCTCTGCTGTCTGTGGAGGGAGGGCTCGGC
TGCAGACCTATGGTGTTTTGTCAGCTGTTAGGTGCTACAGCCCACCCAGTCAGAGTACATAGACATAGCGCTTTAAGGGACAAAGGACAAACAGAACTAT
CTTTGCTTTCCGGAGGCCATCTTTTTCTTTCCTTGAATCCTTTCTGCTTTAAACTTCTGAGGTTTATGCATCCCAGAGAGGTCACACCAAGCCAAAGAGA
AAAAATTCATAGATTGTCCCAGCCTACCCAAAGGGCCTGAAAAGCCTCTCTAAACAAAACTCAAGATAGCTGAGAAGTATGAATGGGGTTCACAGCAAAG
TCCAATTGATGGCTTTTGAGGCTGGGACACCCCCAAACTGCCCTTCTGTTTTTGTAGTTTTGCTTTCTTCCACCCACCCTCTCTCCGCATGCTGTAAGTT
AGGGGAGTTAGTATCTTGAACTTCTAAATGCAAAAGGAGATTTTATAATAAGCCATGCTACCTGTAAATACATTATTGAGGTTTGCATTTTTATTTTTGG
AGGTATGAAAGAGTTGAGTAGACCAAGTCAAAAGAGGTGTGGGGATTTATGTTTATTTTTATTTGTTTGGGGTTGTTTGGTTGGTGGCTGGGTTTCTTGT
AACAGACCTATTCTGGAATAGCAAAGAAGGATACCTTGGTGATCTGCAATGTTTCTGAATCTGTTTCTCTTTAGGAAGTGATTGCCATCAAATTTAGTGA
TATGATATTTGAGTCAAAAATCTGAGGTTATAGTACCAGCTGTCTTTTCTCTCTGGTCTCCTTTTTGTCGTCTTTCTCTTTCTGTCTAAATTGGCCTCTG
TCTTTTCCTAAGGACTTAAAATATAACCCAAATTAATGAAGAACTGCCCCAAAACTTCAGTGAAAGCCAAGGAGGTACAGAATTTTTTCAGGACATCTTT
AACCAATACAAAATTTATGTCTTAAGAAGATAATTTTTACAATAGTGTAGTAATCTGATAAATGAAAACTATTGGAAGTCAATAGTTTTTTATATTCCAG
CTTTCTGTATTCAAACTTGTGCCTTCAGCAAGCATCTCTTCACTTTCTTTCCCTTGTCAATTGAAACATGAATGTTTGGCTAACTCATGATGTAAAGTGT
CTGTTAAGTTAATAATACATAATTTAAAGCACTTAGTCTCCACAAAGCAATTTAGAAAAATCTTCACTTGTTAGATCCCATGAAGTACCTATGAAATTCT
CAGCATTGCTATAAGCRTTTGATTTTTTTTAAGGAAACTTCCTGTTTAATGGAATCTGAATCCAAGATTTGCTTTAATTTCACTCTRTTCTTCCCATTTT
CCCTTATTCTTCTTGTTGTCTCTCTAATTAAAAAAAAAAAAAACCTAGGCTTTTTTTTTTCTATCCAGAAAGTTGGGTTTTCATGATCTGAGCTTCCTTA
TGTCTCCTTCTCTTTGTGCAAACTTAAACCAGTCATAGATTGTCACCCAGACATATTCTCCAACCCAGCATTGGAAATCTGAACGAATCTTTTCTCTTTT
TGTCCTACAAGTTTGTCAGAGATGAGAATGGATTGCTGTSTACATTCTACAACCAGACCCTAGACTTTATACCAGGCTGTGCCACTTCCTCTTCACTTCA
CTCAGAGGATGGCCCCAAAACTGAAAAGGAAATGAAATMATCAAATATACCAAATCCGAATTTGACTTTATTTGATGACTCAATATTTTCCTTCCAGTAC
TCTAATTTTTTTTTATGGCAATGGCCTATATGGCACAAGAACCACCACTTAAAGCAAATCTGTTGAACATTTTTATAAGGGATGAGCAAGAAAAACACAC
TCCAAAATTTTAAAGTGCCATTAATCAATTTTTAAGAATAAAGGTAATATGAAATGAGGGCTAAACAATGTAATATAACTGCCAGTTAAGGTAGACAGTA
GTTGTGGTCTTAGTTACATTTGATATGGAGTTGTGTAATATTAAGCAGATCCCAGTGGAGTTAGTAAAAACATAGGTATTGAGTTTTAATGGCTACCAAT
TGGGATATATACTTAGCCTGCAGGCTGAACTTTAGTCAGTGTTTTTCTATCATGTTGTTTTGTGAACAAGTCAAAATTTATACAAAGCTACCCTAAGTGC
TGCAATTGCAGAGGAACTTGCCTCTTCGTGATATTAGAGGGCAGTCCAACTCCGCTCAAACTGAGTCCAAGATTTGAATTCATCCAGAAAAACAAATGGA
GGAGAAAAGCCTAATGCACCACATGTGTTTGGCATTTCATGGCTGGGACAATGGAGTAGAGGGTAGGAAGACAAGCTGTAGAACAAAAGCAAAGTGAGGT
AGAAAGTAACAGGTCCCAGAMGAGGACAGACTTAGAGATGTGTAACCTTGGATCCTCTTTTTCACTTAGAATATGGGTAAACTTCTTAGCACAAGACTGG
ATTAAGAGAAGTTCTTTCTGTTAAACTCACCTAGGGTAGTGGCTTTGAAGGCCTCAGAGGATTAATAGATTCCCAAAATTTTCTTCCAGACCTGGGAGAT
GGAGAGAAAGAGGTTCTTGCTTTAAAGCGGCTCGAAGACAATCTTTATGACTTCAGCAACTCTTCAACATAGTAGCACCAATAAAGGAGAGATTATGTTA
ACTTCCTAGTGGTGAGAATACCATGGGATGGGAGAAGGGCCAGTGAGTGGGATGGGAATGAGCTTCATCAGGAACAGATTTCAGACTCTGCAGGGTGCAC
CGGTTCTAGCCTCAAATAACAACATTGCAAGGAGGTGGACTACAGGGTCCACACCCTCTGTCCTTCGGGGCCCATGGTCAGGCCATTCCCTCTTTGTTTT
GCTCCTAGAGGATGAGCATGTAAGATGAGATCAGGAGGGAAATTGGGTGCTCTGCCTCAGGCTGTTAAAATGCTGCTACCTGCATTCTAAAACGTGCAAG
TCATGCCCCACAAGACACCTCCTTAGGGCAGCATCCACTGTGGTGTGCCAGCCTGACACCCCTGCAGTCACGGTGTTTGAATGGCAGCTGATGCTGGCCC
ACCCAGAGTATCGGTGCATCTCTCCTAAAGCCACAGTTCAGCACTGCATGTTGACCAGGCGGATATCCTATAATATAGATGCTCGTTTGGATCCAAAAGG
AAAACCATTAAAAATAAAAGAAAGATGAAAAACTTTAATGTTTTGGGGGGGATAAAAGAAAAGAATAAATAAAACCTTGTTGTAAAGAATGCATCGGCCT
GATTTCCCTCACTTGATGTGTTTCTTTGCTGCTACCAGAAAGGGAAATCATGGGAGTGAAGCCTGCCAGGACCCTCAGGGTAAGCTGGCAGCAGGCTCTG
CAGCTGCACTTAGTTGGGGTCTGCTCAGACCAGTCAGGAGGAATTCAGGAGGCTTTCAAAGTCCCAAGGACATCCTGGCTCTGAAAGGTTTTCTTTTGTT
AAAAAATGCACTTTGTGCTGTGTGTGGTAGCTCGTATGTGTTACCCCAGCTATTCAGGAAGCTAGGGCAGAAGGATTGCTTGAGGCTAGGAATTCAAGAC
TGGCCTGGATGACAGAGTGAAACCCTCATCTCTTAAAAAAAAAAAAAAGGAATAAAAATGTTCTCTGCCTTGGATAACATTTTTTTTTAAAGATTCCATA
CAAACTCATTCCCTGAAAGAGAAAAACAGATTTTCTAATCAGGACATTGTCCTGATCTGCAAGCGAGGAGTTTAACAAGGTAGGCAGAGAACTTCCTTAT
GGAACAACAGGGCTCTGTGACCAGAAAAACTATGACCAGCCTCCTCTGAAAAAAGGTGGGGGGATTATAGGGCACCAGCTCAGCCGCCAAGTTCAGGAAG
CAGCTGATTCCCAAGACTCTTAGGAGATACTGTCCATTCTTCCTCCTGTCCACATCACTCCCCATTTAACTGCAATTGCTCCCTTGCCACAGGGAAAGCA
GCAAGCCCCAGGCCCAGGCCTCCATTTGATTTGCCACTCCGAGAACTGTCTGCTTCATTCTGCTTGAGGAGATATCTTCACCTAATCCTAGTGTTAATTA
TTTTAATCTGAGCAACGCTTTTATCAATTAGATAGAAACCAGCATTCCAAAATAAGTCCCCTAAGTTTGTAGTTTGAGCCAAGATATTTTCTTGAGCCCT
AAGATATATGACTTTATTAGCTAGGATTTTTCTTATGATTAAAAACATCCAAAAATGTGATATGTGGTCATCTCTCAGGGAGGTCTAGGTCCTTGCAGGC
TGGATTTTAGAAATTTCTAAGATTCTCTACAACTTTTAAATTTTATGTTATTTTTCAATCATAATTTCTTTCCTGTGGCTTCTATCACCATTGGAGTTAG
AATCTGACAACCTTTAACTTCACACTTTTATGAGATAATAAGTTGGTTTCTTGGGCAAAGGTTGGTTTGTAAGCCATTTACATGGATTGATGATTTCTGT
TCTTGTTTTCTTCTAACCTAGAACTCAGGTCCACAGTTTTCCACAGGCTAATGGCACTATGAAACAGATATAAAGAAAAATAGACACTGTTCTGAGTTTC
TCTTGAGTGTTTTTGTGCTATGATCTGATCATCTATTGGTTACCTTTACACATTACATTCCTAAATCTTCTATCCTGCCTCTGGGATATTAGAAACTTGT
CTTTACTTGTGTATCACATTACTTTGCTAATGAGCTGGGAAAATTCCCAAACTAAAGACCCGGATTTCAGTTTTTAAAATATTTAATCACAAAATATTGG
GACTAGTCACAGGCACACATAGCCCGGGAACTCCTTAAACACCTGCAACAAAAAGAAAAGAATAGAGGCTACAAATGCAAGCGCTGGAATAGAACCAACT
GAGGTCCAACCTGTGCACCACCAGTTACATGCTGTGAGGCCCTGCGTTGGCCACTTAACCTAAAACTCACTTTCTTCACCTTTAAAATGGGAACAATAAT
AGCAACAACCCCGTAGGGTGGTTAGGCAGAGTGACCAAATTATTGTGTATGAAGAGAATAGCCCGTGTCTGTCCACAATAGGCATCTGATAAATGTCAGG
TCTCACCATCGTTGTCATCATTAGCACCACATACAAGTGCATTCCCCAAACCCACCACATCTGAGAAACTGAATCTTTCAGGGCCACATGCTGAGAATAC
ACTGGTGGGTGCTCCCCTTCTGTTAATGAAACACAGAGGACGAGTTGATCCTTAGGCAAGTTTCTAAGGAAAGGGGGATACATTTAAAAAGCAAACCATT
ACTATGTAGCTATTTTAAAATAATGCTGCCACTCTTGCATCAGAAACAAGTCATAATTTTGTTTATTCTTCATTTCTCATTTCCATATTCGTTTAATAAC
AAAATGGGAGAAACATTAGTGGGAGATAGTAATTGTAAAAGTAGCAATAAAGTTAATGGCAACATTAAAAATACTGTACACCTATAAACACGGCAATATT
CAAGGCAATTTGAAATATCAAGTAACTCACAAATTGATGACACATGTAAGTGAACCATACATTTAGGGTCAGTGGCCTGTTAGTCCATTAGAAAAAAGGA
AAAATAATAATAATTCTGTTTAAAGACCATTCCTAAGTGGTCAATAAAGAATGATTAGTTCATAAAACATCAACTCTGGACATAAATAAATTGAGAAAAC
CTTTCCAGGAGATCGCCAGGGGAACATTCAGGATACCAGAAGGCAAAACAATGTAAGACTGAAGCCAAGCACTATAAATCCATCCAGAAAGAGGGCTCCC
ATGCCTCGGGGCACTGCTTCCAGATCCCCATCCTCTGCTTCTGCAGGCAAAATCATGGGTGTGTTTAAAATCAACAATAATAACTATAGCCTTCATCTGC
TGATCTAAATGATTCTACAACACACAGGAATCATAGAGCCCAGAACGTTGGCTTAAGGGAGAGCCTAGGTATTGATTCTGCCAGAGTCTATTTCATATAT
GAGGGATCTGACATTTGGAAAAACTCTAAAATGGGTTTTCCAGAGGCCAAGAAAGTATCCTGTGAACCTGGACTGCCATATTAGGCTCCTGAGGGTAGCC
TCAGCAACCCTAGCACAACCGTCCAAAAAAGAAGGAAAAAATAACTGAAACACACCCCAGGAGCCTTCTTTTGCTCATGTGTCCAGAAGACTCCTTTGGG
AACCTAATGGAAGCTGTGTATCCTCTCCCTTGAAAAGGGTACCAAAAAATCTGAGTGTTTACATCCTCCAGTCCCAACCTGAGCCTGTTTATAACCCCTG
CAACAGTAGCAGGTGGTATCATGGAAAGACCAGGCATAAATGAGCTATTTTCATCAAAGTAATTCAAAGAGCGAGCTATGACAGTTGGATCAAACTATTC
AGGCCTGGAAATAGAGGACGGAATCCAGGCTGATTTCCTGCCATGTTGGAAATACTGCTTGCCTCTGTGACCAGATCAGATGGCTTGACAATGATGGGAA
TACAGTGTGGCTATCTGGGAGGTGGGGTGGAAGAGAAAAGGGCAACTTATATAAATATAGCTCAGTAAATACACTGGCATAAGGCATTAGGTAGACCTGG
GTACAAATTCTAGCTATGCATTTAACAGTGACCCCAGCCAGGTTACTTAGCTTGTAACCCTTGACTTCCTTAACTGTATAATTAGGATAACAAGACTAAC
CTTGCATAGTTGTATTTAGGATTAGGGATTACACACATACACACACACACACACACACAGAGAGAAAGAGAGAGAGAGAGCGCCCAGCATGGTGTCTATC
ACATAGCTGGTATGCAATAAAACATGACTGCTATTATTGTTGTTCACTCATTCATTGAATGTATTTATTAACCATTTACTATGGTGCCAAGCACTAGGGT
TTTAATAAGCAAGCCAGATGAAGCAGTGTCCTTAAGTTGTTCACAGCCTAATGGAAGCTACAGATAAGAAAACAAACCACTGCACCATGGTGTAATCTTT
GTGAGGGTGAGGAATTTTCAGGGTACTATGGAAGCCCCTAAAACAACTTGGGGAGTCAGAAATGGCTTCCAGGGAGAACTGCTATTTGAGACAAAACCTA
AAGAATAACAAGGGTTGGCTGGGCCATAAGGATGGGGCGAAGATGTCAGGTAGAGGTGCAGGAGGAGGTATCTTGCTCTAGTTCAAGAGCAGATATTTGA
GAGAGCTTGTTAAAGGACAGGCTGGAGAGTGAAGGGAGAGCTTACAAGCCATTTCTCAGAGTTTAGCCTTCACACCATCCCTGTATTGGCAAACAGCAAT
GGCAAGTATTAAATCATGGGGAGATTAGGCACAGACAACACATCGATAAAACCAAACCAGGTTTACTTACCTGAATAAGGAAGAAACTCAAAATACAGAG
ATAACTGTATTATCCAAGACCAAGATACAAGCTTCTGGCCACTGAATTCTGCATGAGAGGGTACACAGCTAACAGTGAAAACATGAATGAGTAAAGGTCA
CACCAGACCCTCTGGAGACCTGATTTTCTCCCCCATTTTTAGCCTACCACAGAGGGTCTCATTTAATTCTTTCAGCAACATAAGCTCCACATGTCTATAC
CCACCAGTGGAAGGCAGTCAGTTTGACCAGCCCTAGTGAAGCCTTCAGACGTTCCCTGCTGATTCTGCACTGCCCTGAGAGACCCAAGGGACCGTCCGTA
CGATACCTTTCAAGTTTCCTTTAAGGGCATATACAGCTCTGTAATGAACATCTTCAGCTTCTTCAGAACATTTCTCACAGGATGAGCCAAGGACCAAAAG
AAATCAGACCACAGTCTCATTTTCTAGTAAGAAAATCCTCTGATAGAATCATGGCCAGTGGTTGAGATAAATTATAGAAGCTTGATGTATGTCATCAAAG
CAGTCTTTGCTTCATTAAAACACAATAATGGTCCCTTAAAAATAGGATTGTGTTAATAAATTGATGCATGAACAATTTCCAGGAGCATATCTTAAAGTGA
AACTCACCTCAAATATTTGTCTAAGGAGAAGCAAACTAGTGGCTGTGGTAAAACTGGTTAACCAGTTCTACTTAAAGTCCTCTCTTGTATTAAGTCCCTT
TGCCTGGGACTCTATTTCCCTGTTATATTTCTGCCCCAGACCTATCAGATCACCTTTCTTATTTTCCAGGCATTTGGAAACTATCTTTTTCAATCACTTT
TCTTTTGTTCAATGTGGTGTGCGTCATAAAAATAAAGGAGAGGGTCTCCATAGATAGACTGTAATTGTGAACAGTTTCAAAGAAGTTTTAAATAACTCCC
TGATTCTTAGAATCAATTTAAAATAAGCGATGTTGTATGGGCATGAGTGCTTCTTGGGGAGATTGGTAATGCTCCCTCGGCTAGCAGTGGAGTAGCTGAG
CTAACAAGGAGTTCCTGGTGCCAGGTGGGTCTTTGCACACTGAATTCGTGTCTGTAGGGAGAAGCAGCTGCCGCTCAGATCTGAACTGGGAAGAGATGAC
TTTAACCTTGGGCAATAACTAGAGTTCTGAATGGCAGCTGCTCTGCAAGATTGAGGAAATAACAGAGGTTCTCAGGCAGCATAATTGGATACCAGCATAA
GTTGTTGTTTTGTTTTTTTTTTAAGAGAGGGAGAGAGAAAAAAAGGTATGGAAAAGAGAGGAAGAGGAAGGAGAAGAAAAAGAAGAAAAATGGTAACTGG
CAACTTTACCATTATCAAGCATCACAATCTAGTCACTAAGCATAGAAGAAAGGTTCTTTTTTAATTAGAGAAATAAGCAGGTTAGTCACACACTAATCAA
GACCTATTTTTGCTTGAATTAGGTCAGTCTTCGTTAAATGCCTCTCTAGAAATAGGCGGAGGTCGAACTCTCCATGGGTGGTTTGCATGGATGCAGCAGA
GGTGACTCACGTTTGCCGATCTTAAGAGCTGTACAGATGGCTGGGAGCGGCCGATTAAAACCTCCTTGACAACTCCTCGGAGACTGAAGACCACCCACCT
CCATCTTCACTGGGAGCAAATGGACTGTAGAGTGAGCAACATGGTTTCTGACCTGATCCTCAGGCCAGGGGGTAAACAAAGGCAGCTTGACCTTTTGCTA
AACAGAGTGTCCGGGAAAATAATCCTCAGCTTGTTTTGAATGCACGCTGGACAGAGAATTACTGGTAATTTTGTGAACCGGTAGGTCTCTGCACTGCAAT
AAGAAGCCACCGTAACTGGGTCCTCGTGGTGTGACTGATTCATTTTCAGTCTACCCAGACTGTCCTGGTTTTAAAATGGAAAATCCTACAACCTGGGAAT
CCCCTTAGTTCACTGCAAACCAACAATTGGTCATCTTTGCTCTCCTCACAAAGAGTAAGATGCAAGGCCAAATTTTGGCTTGAATGATGTTCCAGGTTCT
CCACAGTTGGTGAAAAATCATTGAATGAGAAAATGTGCAGGATGAAAGGGATATTAGTAACTACCTGATCCAGTAGTTCTCAAACTTCAGTGTGTATCAG
AACCCCCTGGGCTGCTTATTGAAAATGTAAATGTCTGGGTTCTATTGCAAAAATCTGATTCCATCCATATGTCTTAGGTAGGGTCCCAAATTCTGCAATT
TTATAAGCACCTTAGATGACTCTGATTATACATGGTCCAAGGA


SNP Information

Context             (SEQ ID NO:61361):
ACCTATGAAATTCTCAGCATTGCTATAAGCATTTGATTTTTTTTAAGGAAACTTCCTGTTTAATGGAATCTGAATCCAAGATTTGCTTTAATTTCACTCT
R
TTCTTCCCATTTTCCCTTATTCTTCTTGTTGTCTCTCTAATTAAAAAAAAAAAAAACCTAGGCTTTTTTTTTTCTATCCAGAAAGTTGGGTTTTCATGAT
Celera SNP ID:            hCV677946
SNP Position Genomic:     6787
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:61362):
ACATGTGTTTGGCATTTCATGGCTGGGACAATGGAGTAGAGGGTAGGAAGACAAGCTGTAGAACAAAAGCAAAGTGAGGTAGAAAGTAACAGGTCCCAGA
M
GAGGACAGACTTAGAGATGTGTAACCTTGGATCCTCTTTTTCACTTAGAATATGGGTAAACTTCTTAGCACAAGACTGGATTAAGAGAAGTTCTTTCTGT
Celera SNP ID:            hCV677947
SNP Position Genomic:     7821
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:61363):
ACATAATTTAAAGCACTTAGTCTCCACAAAGCAATTTAGAAAAATCTTCACTTGTTAGATCCCATGAAGTACCTATGAAATTCTCAGCATTGCTATAAGC
R
TTTGATTTTTTTTAAGGAAACTTCCTGTTTAATGGAATCTGAATCCAAGATTTGCTTTAATTTCACTCTATTCTTCCCATTTTCCCTTATTCTTCTTGTT
Celera SNP ID:            hCV1432831
SNP Position Genomic:     6717
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:61364):
TTGTCACCCAGACATATTCTCCAACCCAGCATTGGAAATCTGAACGAATCTTTTCTCTTTTTGTCCTACAAGTTTGTCAGAGATGAGAATGGATTGCTGT
S
TACATTCTACAACCAGACCCTAGACTTTATACCAGGCTGTGCCACTTCCTCTTCACTTCACTCAGAGGATGGCCCCAAAACTGAAAAGGAAATGAAATCA
Celera SNP ID:            hCV1432832
SNP Position Genomic:     7040
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:61365):
TGTACATTCTACAACCAGACCCTAGACTTTATACCAGGCTGTGCCACTTCCTCTTCACTTCACTCAGAGGATGGCCCCAAAACTGAAAAGGAAATGAAAT
M
ATCAAATATACCAAATCCGAATTTGACTTTATTTGATGACTCAATATTTTCCTTCCAGTACTCTAATTTTTTTTTATGGCAATGGCCTATATGGCACAAG
Celera SNP ID:            hCV1432833
SNP Position Genomic:     7139
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,6)      total(A,3|C,6) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 UTR 5


Gene Number:                 347
Celera Gene:                 hCG2028278 - 83000099454014
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY6P(3478121..3566138)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12507):
CCAACAGAACTTTCTGCAATGATGGAAATGTTCTACATCTGCTCTGGCCAATATGGCAGCCACTGAAATATGACTAGTGTGACTGAGAAACTAGATTTTT
AATTTTATTTAGTTTTAATTCAAATTTAAATAGTCATATGTGGCTAGTGGCTGCCATACTGAACGGTGTGGATCTAGATGAATGAAAAAGTACTGTTTCT
ACAAATCCTGTTTCAAAAGTGAAAATAACTCTTGGGGACATTATGTTATGTGTAGTAAATGGACTTTTGTTACATGGAGGCAGAAAGGTAACATCCTGAT
TGTGTGTTGCTAGCTTTACCTATATGGACAGAATGTGTGTTGCTTGCAATGGAAACTGGTGAGTGAGTGGAATGAGTGAAGACTGCAGGAATTACAATGT
TTTACTGCAGGAATTACAATGTTTTACTGCAGGAATTACAATGTTTTACTGGATAACGGAAAAAAACTATAATAGAAAACTAGCTGTTAAGTATGAGAAT
TTGATGTACTCTTAGTTCAAAATGGTTGCCAAGAGTGCTCCAGGTAACTTATGTTGTAGATTAGATTTTTAAATGTGAAAACTATTTATACTGGAGAAAT
TTATAACCAACTAACTTTTATTTAGTATACAAAATTTAAAAAAATTGTTCACCAGTTTCCCAAAGTAAAGCAGAATAGTGATATGCCTTTACCTGGGTTC
CAAGTGTCCTACTCTACATAGTGAACCAGATAAATACTGCTTTGCATTTCTTTCTTCGTCTCATCATTCCACCGCTTTTCTCCATTTCCTTGCCACTGTG
TGTTGGTATGCAGTGAAACTCACCCAAGGGTTTCCATTTTTAATAAATTTATCTATCCTCTCAAACTTTTCTCTGAACACATATTGCACATGCTTGCTTT
AACTGAAACCTGGAACTTAGGTAAGGAAGATATTTGCAAACAAAGCCAATGTTCTCTCTTTCTATTAAAGGGGCTAAGTCCTAAGTAGGTGGTGGTGGTG
AGGGTCATCATTTTTCTTCTACACCATCTTAATGTAAAAATACTTTCTAAACTTATGCCATCTGGCCCAGTGGTTCTCAACTGGGAGGCATTTGGAAATG
AATGGGAGTATTTTGTTGTCAAAGTAACTGAGCGGTGCTATTGCAAGACATCCTCCCATAAGTCTCGATTTTCTATGAGTCTTAGAAGCAAAGGCACTGA
TTATCTTTTTTCCCAGACTACCTTTTCAAGGGAGCTTGTATACCAAGCACCCTTGGAAGACAGAAATGGTGTCACCTCCTGGATCGCATGGCAGCCCTTA
TTGTACAGTGTAATAAATAAATGTCTACTTATGGAACAAAAGTCAGGCAGGTTTGCCTACTACCCAATTTAAAAATATTTGTATTTCCTGGCTGGATTTG
GTGGCTCACGCCTATAATCCTAGCACTTTGGGAGGCTGAGGCAGGAGTACTGCTTGACACCAGCAGTTCGAGACCAGCCTGGGCAACACAGCGAGAACCC
CGTCTCTATAAAAAAATAAAAAAATAAGCCAGGTGTGGTGTCGTTTGCCTATAGTCCCAGCTAGTCATGAGGCTGAGGTGAGAGGATTGCTTGAGTCCAG
GAGTTCAAGGCTGCAGTGAGCTACGATCACGCCACTGCACTCCAGCCTGAGTGACAGAGTGAGACCCTATCTCTTTAAAAAAAAATTATATTTCCTGAGC
TTGGGTTCCTCAGCTATGAAACAAGTACATTCCATGTGCAGCATCTACCAAGGCATTACATACCACATTTCACCATTCAATTTTACTGATCAAACACTTA
CAGGTTTTGGTTTCTCTCTTGAGTTACATTTTTTCAAATGCTTTGCTAGTTGATCTTCATATACTGTGCTAAATTTAAAGAGAAAATTATTTCAAATGAG
ACTTGTGCCAATTACTGTTTCCAGCACAAAAAAAAACCCGTATCTGATCCACACTTACTGTTTTGGATCTAAAGGACACAGGATTCTTTTCCGAGCATCT
TCTTCCTAATAAATTAAGAGATACATTTATTTAAATAAAATATCAAGTTTATTGCTTACAGATACCAGATATAACTTCAGTGTCTCTGTAATCTCAAAAC
AAGGTAAGGAAACCTTACAAGGACATAATGAAAAGTTGGCAAAATCAGGTCCCAAGGGTTTAACAAAAACTCTCCAGTGTACTGGCTTAAATACATATGA
ACAAATACTGCTTTGGACAAACAAGGGTCTATAGCTTCAAACAGGGTATAGAGAAGGCCTACATATGGTGTCTGAAATCTAAGATAGCATCAACTATTAT
ATGTATGACTATTTTATGCACAACCAAGAAAGAAAAAAATGCTGCCTATTTCATGTTAATTGACAAATAGTTGTATATATTTATCACATATTAGGTTTGT
ACAAAAGTAATTGTGATTTTTATGGCAATAAAAATAATATACACTATTATTTATGTATGGTTTTAATACAACATAATGTTTTCAAATATGTATACATTGT
GGAATGGCTAAATCAAGCTAATTAACATGTATTGCCTCACATACTAATCATTTTTTGGAAAATGCTGCCCATTGACATATGGATTTTAAGATGTATCCTG
ATTTTAGAATGTTAAAATGTAAAAATAAAGTTTCTTAGAAACAATGGAACATGGCATTTTAACCATTTGGATGTGCCATATTTTACTGGCTTTGCAACTT
TTTACTATCAGTTACATCCTACTCATTCCTAAGTTACATCACTTAATGACTGGGAATACATTCTGAGAAATATATCTTTAGGTGATTTTGTCATTGGGAG
AACATCATACAGTATAGTAACACAAACCTAGATAGTATAGCCTACTGTACATCTAGCCTATATAGTATAGCCTATTGCTACTAGGCTGTAAACCTGTACA
GCATGTTACCATACTAAATACTGTAGGCAATTGTAACACAATGTAAGTATTTGTGTATCTAAACATATCTAAACATAGAAAAGGTACAGTAAAAATACAG
TATTATAACCTTATGGGACCACCATCATATATGCGGTCTGTTGTTGACTGAAATGTCATTATGTGGCACATGACTATATGAACTGGGAAAAAAGAAAGGA
AAATTGATAATGTTGGCAATTCTACCCAATATTCCACATGAATCTGTATAAATAGGGGTCATATAACAGTTAAGAACACAGGCCAGCCAGACTGCCTAGG
TATGATACCCAGCTCTACCTACCAGCTACGATCCCTATGACCTTAGTTAGGTAGGCTTACTGCCTCATCTGAAAGATGAGAACAAAAATATGTCTTACCT
TCTAAGGTTTGAACACATTAAGTGAGCTAATAGTTAACAAAACAAAACTGCCTAGCCCAGTGCTGTACATAGAGTAAGTGGTGACTAAGTGTCTGCTATT
ATTATTCTTTTAAAAATTTATTTCTGTTCGAATGTGCCTCTCAGCATGTCCATGAAGCTATTCACACTGAATTTCATGGGAAAGCTAAGAAATTTTTTTT
TTGAAAATACTATATATTCAATAGAAGAAAAAGAAAATACTGTATATAATTTCTTCCTTATTGCTGACTTTAAATCCTAACCTCCATGTAAAAGACTATT
CTAACCCCCAGAGCCTAACTGTAGCATAGGAAAAAAAAAGCACATTTAAAATTTATTAGTTGAATTTAGAAACAGGAATTCTCAATCTTGGCACTATTGA
CGTTTTGGGCAGGTAATTCTTTTGAGGGGGTGAGTGCAGGGGGCTGTCCTGTGATTTGTAGGAGGTTTAGCAGCATTTCTGGTCTCTATCCATTAGATGT
CAGTGATACTCCTCAGTTTGACAACCAAAATGTCTTCATTTTGCCAAGTGTTCACTGGAGGCAAAATCAGTCCCAGTCGAGAACCACTGGGTAAAAATGA
GTGGTGTCATCACAGCTATATATGACACTTAGAAAAAAAGATGGAAACACAACATCCAGTTACATCATAAATTACAGATTCAGGAGGATAGCCACAATTT
AAAACGAGATAGTAGTCAATAAAAGTGTTTCCACTTGATGTTTTGCGGTCTCTCTTCAAGTGTCTAATGACAATATGTCGTTCCTCTATAGGAATACTAA
TCAGCTTGTAAGGATTTATTCATATTCTACTATCATCACTATTTGTTTTCACCTTCCATATATCTGGATAAGGTGGAGTCTAAATCCTTCTCCTATCATA
ACTCTCATTCTTCAACAAGGGATGTTTGCCAGTCCCCTCAAAACCAGTCAATAGACTATGGGCATAATTCAGAGTTCCCACAACAAATCACGTCTCCCAT
ATTCCAAAACAAGAATGTCCTTGTTTCAGTATGCTTCACTTTTGGTAAATGCCAGTCAAAACAAAATAGGAAGTAGACTACAACTATGATGGAGAGTGGC
AGATGAAGGGGGTCAGGGGACTGATCTGCACTGGATATTGTCTAGAAGAATAAATTCCTTAAGAAATAAAATAATGCAAATAATACTGAACATTCAGAAG
CATGAAATCTGATGCTGATCGCTTTGGTTTATTCTTTATAGTTCTGTGGAACTATAAGGACATGCTCTCTTCCTATGAGCATTTTGCTCCTCTGGTTTTT
ATTTTCCCATCTCATATATATCCTAAAGTAATATACATATATACAAATATAAAGTGTTTGATAGTACATTTATATGCATAATTATCAAACAAAATTGTAT
GCTTTGTTCTCAATTGTAAAAGGTCAATTCGTATATATTTAAAAATCTTTCCTTCCCATTCCAGCAAAGTTGCATTCTTAAAAACTGTAAGTCGAAAAAA
ATTTTTTTTTCTTTTTTGAGATTCAGTCTGGCTGTCACCCAGGCTGGAATGCAGTGGTGTGATCTTGGATTATTGCCACCTCCACCTCCTGGGTTCAAGC
GATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGTTACAGGCTCGCACCACCACGATTTTCTTAATTTTAGTAGCTCGCGCCACGGCTGATTTTCTTATT
TTTAGTAGAGAGAGGGTTTCATCATGTTGGCCAGGCTGGTCTCGAGCTCCTGACCTCAAGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACA
GGCGTGAGCCACCGCGCCGGGCCTCAAGTCTAAATTTTTAAAAGAAAGTTTCTTCCAACCGCATTCACGAGAAGTGCTTCTCTTTCATGAAATAACAATT
AGAACACAACTAGTGAAACCTTTGGGACTTCAATCACTACTTTTTCTAAACTACCACTTTCCAGCAGGAAGACGGAGCGGTAGCTTGGGGTAAAAATTAA
AACCTAGCATTACCATGAGTTAAGATCGAGATAAATAGATCAAAATAAATGGGTCACTGCTGGCGCTTTACTTAGAAAAATAAAAAATTTCTCATCACTA
GAACTCATAATCGCTCCGCAAGGAGGGCAAAACTGGGTTTATTAAAGTGAAAGCTGGAGAATCCAGGGGACACAAGCAGAAAGCTGTCAAAGAGGGGAGG
GGCCGGGTTCCAGCACCGACAGGACCAGGATACTTATTTCCGACTCTTGAGAGAGTAGGGCGATACCACACCTCCATGGCTCCAGCGTGTTCACCACAAA
ATCTTTTCCCTGCGGCCACCACCATCCTGCAGAACCGTTTCTTCTTTTCCACATAGTAACCGCATCTACCCTCAGCTGGAAAACCAGGCGCGTGCGGCGA
CGTCGCGGAGGTCGCCATAATTCTAGGGCTCGCTTCCGGTGTCCAGCATCCGGCAACCAGAAGAAAAGTTAGAAGCTTCCTTCGGGTCTCCTTCCCTTAA
CAAACATGGCTGCCTCAGCCCCCGCGCCACACAGGTTAATACCCGGAACTACCACAACCGTCTTCCCTTTATCCTCCGCAGAACCGGAAGAATCCGATGG
TGGCTGGCGAGGGCCAAGTCTCTTACGCCTTCCCCTCGTTTCTCCCTCCCCGCCTCCTCCGCAGAAGCCGAGCGCCAAACTCAAACTTTATCAGGACCCG
GACSTCTCAGGCTAATCCCGAGGGCCGGGCCTGTTGGGCTTTTCTGCACACCAGCCGAGGCAGCGAGCCAACATGAGCCAAGTGCTGTTCCACCAACTAG
TCCCGTTGCAGGTGAAATGCAAAGACTGTGAGGAGAGGTAAGGYCCGCGTCATCCAGTGCCCGCGGGTGGCGGTTGGGGTCAGGCCAATGGGGAAAGATG
GCGGTTCTGGCCCGTGGGATCCACCTTGCACCTAGGTGTCGAGTCGGCCCCCCTAGGAAGCGGATAGGGAACCCAGAGGGCCCGGTGGTTACCTCTCTCA
CCAAGTCGGCCGTTGCAGAGGGGACTGGAGGAAGGGTGTGAGGAGTTAGGAAGCCGGCTCACATCAAGTTAATGTCAAAAACCCTACCTGTGCACGGAAT
CGTGAAGATTATAGCCCTACTCTTCCCTTTTGACAGATAAGAACTCTGGCCCAGAGAAGTTAAAAAAATTTACGTGAGGGCTCACAGCCAGTTCATGGCA
GGGTCAGGACTAGAACTCAGGCCTTGGCTCCGAGCCTTTCCCCCTCGTTCTCTTTTGAAGTATGTTGGCAGTAAAGTTCAACTTTTAAAAACCTACCAAT
TTGGTGGCGTACTTTGGCTCTTCACATCAGTTGCTTTAAAAAAGTAAATTACATTTAACCGACTAAAAATGAGAAAAGCAGAAACGTCATTAATTCATTC
AATAAATATTGCCTCCTTGTAAAACACCTTACTGGGCACTGGGAATACAGTGGTCAGGAAAAACAGTCCTTTTCTTCATGGAGTTTACAATCACTGGAGG
AAATAAAGACCAGTCGCACAGAGAAGTGCAACTTTGATTAAGGAGGTGGTATTATTGGGGCGTAAATAGATTTGACCAGAGGTCAGGAGACTTACTTTTT
TTTTCTCAGTTCTAACACTCAATGGTTGTCTCTTTTTTTCTCTGAACGTTCTTTCCTCATTTGTAAAACTGATATAACATGCGTATTCACGTGTTTGTAA
TGAGGATCAGGTGTGAAATCTTTTGCGTATTCACGTGTTTGTAATGAGGATCAGGTGTGAAATCGTATGTGAAAACTAAGTGGTGTACAAATGTAACATA
AAAAATGAAGACATTGCCTTATTGAGTTGCCAGTAATGTCAAACTGTAGTATATATAGTTCAGAATTCGGTCAAAAATCAATGGCAAGCCGGTCAAGGAG
ATGGTCCCAAAACCAGCAGCTGCATATGGAGATCTGTAGGTTTAGTTGATCATTCTTTTAATGCTGTCCAGTATGGTAGCCACTAGCCACATGTGGTTAT
TAGACATTTGAAATGGGGCTTATCTGAATTGTTGTGCTTTACATATGAAAATGCACGTTGGATTTTTAAGACTTACTATGAAAAAAGAATGTAAAATATG
TCAATTTTTATATTATGTGTTAAATGGCAATATTTTTGGGTATATTGGGTTAAATACAATGTATTATTAAAATTAATTTCACCTGCTTTTAAAAGTCTTT
TTAAAATGTGACTTCTAGAAAATTTAAAAGTAGGCTAGGTATGGTGGCTCACRCCCGTAGTCCCAGCACTTTAGGAGGCCAAGACAGGAGGATTGCTTGA
GCCTAAGCTTGAGGTTACAGTGAGCTAYKATTTGTGCCACTGTACTCCAGCCTGGGTGATAGAGCGAGATCCTGTCTCTGAAAAAAAAAAAAGAAAAAGA
AAAAAATTAAAATTACATACCTGGCTCACATTTGTGGCTTACATTGTATCTCCATTGGACAACACTGTTTTAGAATGATTATAGAAAGATAAAGGAGGCC
ATGACTTTGGTTTCAATATGGAAACTCCTAGATGGTCTCTTTCTGGTTACATTGCCATCACAGTTAATCTAAAAACTCAATTTCTCTGCTTAGAAACCTT
TAATATATTCCTATTATCTGTATAATAGGGGTCAGCAAACTGGAGCACATGGGCCAGTTGGCTCACTGTTTTCGTAAATAAACTTTTCTTGGAAYACAGC
CATGCTCATTTGTTTACATATTGTAGCTGCTTTTGCACAGGAAGGGCAGAGATGAGTAATTGTGACAGAGACCTTATGGCCCGCAAAGCCTAAAATATTT
GCTATCTGGCCCTTTACAGAATAATTTGGTGATCCTTGACCTATAGGAAGAACAACCCAGACTCTCTCTCTTTCTCTCTCTCTTTTTTTTTTTTTTTTCT
AGACAGAGTCTCGCTCTGTTGCCCAGACTGGAGTATTGTAGCACGATTACAGCTCACTGCAGCCTTGACCTCCTGGGCCCAAGGGTTCCCCTCACCTTAG
CCTCCTGAGTAGCTGCAATTACAGGCGCATACCACCACGCCTGGCTTTTTTTTGTTGTTAATTTAATTTAAAAGAGACGGGGTCTCCCTGTATTGCCCAG
GCTGGTCTTGAACACCTGGGCTCAAGTGATCCTCTCACCCCAGCCTCCCAAAATTCGGGGATTATAGGCGTGAGCCACCACGCCCAGCCCAGACGCCTTG
GTTGAGTATTTGAGGCCAGTTCAGCTCAACAAATACTGGCAAATGTCTGCTGTGTCTCAGGAACTGTCCTAAGTGTGGAGGATGTAAATACGCACCCCCC
TCTCCGTCCCCAACAACAACAAAAGCCAACAAAAACCTCTTTTCATTCTGTCCCTCAAGGAACTCACATTTTAATAGGGGAAATAAGATTTTCCTTGAAC
AGGCACCATAGCACAGATTAGGAGTTCAGGCTCTGGAGCCAGATTGCCTGGGTTTAAGTCCCAGTTCTTCCACTTACTGACAGATCTTGTACAATTTCCT
TCTCTGTGTCTCATCTTTAAGTTGATGGTAATAACAGTACCTACTTCATGGTATTATGAGAATGGAATGAATTATACATATGAACTGCTTACAACAGTGA
CTAGAGCATAATAAATGTTCACTAAATTTTAGGTATTAATGTGTGACAAATGCATAAAGTAATATAAGTACACTAAAGTCAGAGAAGAAGGAAATTCAGT
TGAGGACAGTGGTAATGATCAGGGAACTTCATCTGGTGGAAAATTATGCAAAATTTTGGAACCCATGATTTGACACTAATCTGCCTTTTCAGTTTTGTTT
CCTAAGCTTATCTCTCCAATATGAAAGTCATACAAGCATTCTTGTTACCTTCTGAATATACCTGATACTCATTCTATACTATTACCCCTGCTGTTCCTTG
TGCCTCAAATGCTTTTTTCTTTCATAACTTTCAGGTATGTCTTAAATCCTTTCACTATAAGGACCCTTCAAAGTTGCCTAAGTTGAAATRAATTGCCATT
ATTCAGTTATTAGATAGTGTGGTGTAGGTGAAAGATCTGAGTTTTCATTTGGGCTCTGTAATGTGACCTTAAACCATTATTTGGGCCTTAAGTTCTTCTT
TTGTAAAATAAATAATATTTACTTATCAAGATTATTGTTAAATAAGATGATATATGTAGAATACCTGGCAGGTACTCAGTAGTGTTGGTAACCCTTCCCT
CCCCTCTCATGGAGCCCTAAAATGCAATCAGAAGCAAATCTAGCAAAAAGTCATTAATCTCATCTCAATTTGAGGACAGAGACCATGGTTTTTTTTGTTT
TGTTTTGTTTGTGTCATCCTATGTTCAAAAATTATTATTTTTTTTTTTTTAGAGAGAGGCTGTCACTCTGTTGCCCAGGCTAGAGTGTTGTGTCATAATC
ATGGCTTACTGTAATCTCAAACTCTTGGTCTTAAGCTCTCCTGCTTCAGCTTCCAGAGTACATGAAACTACAGGCATGCACCACCATGCCTGGCTCATTT
TATAAATTTTTTGTAGAGATAGGATTTTGCTATGTTGCCCATGCTGGTCTTGAACTCTTGGCCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTG
GGATTACAGATGTGAGCCACTGCGCCAAGCCCCTGGACCATGTTTATTTCTGTTTGTATCCCTAGCACCTGGCACAATACCTGGCTTAAAGTACCTTTTA
TTTGTTTGATTGATAGTTTAAGAGCACAGCTACTGGGTGTCAGAGATGGCCTAGAATCCAGTTGTGCTAAAGCAAGCCTGATGTTTAGAATACTTTTTAT
TTAGAAGAACTCATAACTAAATCTAATGTCATTAGTATTAGACATCTATTGAGTACGACATCTATTGAGATGAGAAATAACATTTTATTGAGTTTTTATT
GTTTTATATTGCTCTTATGACATTAACCATTATAAGGGAAAAAATAAGATTTGTGATTTTAGTTAGCGTATCCTCTGAAAGCTTGTATTTTTCTACAGCA
TATTTCTAGGGATGTTTTTTAACTAAGCATGGGGAATTCGTTTAACTTACAGGCCTTCCGTTTTTTCTTTCAACATCTAATGTATATAGGCATTTGGAAT
ATATGCAACAATATCATTAATATGATTGGTAAATTGTCATAGTAATATAACTCTTCCAGGATTATGTAAAGAACACTTTGATAAGTGAATTCTTCTTGTA
CTTTTTGCAAATATATGAAGTATGACAGGACTTTTAAAACCGTAAAACACCGTCTAGGTGCAGTGGCCCACGCCTGTACTGCTATCACTTTGGGAGGCTG
AGGTGGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGTCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACGAAAATTAGCCAGGTGTGGTG
TTGTGCCCCTGTAAACTCAGCTACTCAGGAGACTGAGGCAGGAGAATCGTTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGCACCATTGCAC
TCCAGACTGGGTGACAGAGCGAAACTCTGTCTCAAAAATAAATAAATAAATAAATAATTAAAATAAAAATAAACTGTAAAGCACCATAAAAAGTTAAATA
CCAACTGCAGTATCATACCACTATGGCATTTATACTAGAGAAAACTTCAGAAGATGAAAACCAAACATAATGATGTAGAGCTAAAAAGGTTTTCACAAAC
CTTCTAGTTGAATCCACTTATCTTACAAGTTCGGAAACTGAGTCCCCCCCTCCCCCACCCCACCACGAAAGCTTAATCTTGCTGTGTTGCCCAGACTGGA
CTTGAACCCCTGGGCTCAAGCTATCCTCCTGCCTCAGCCTCTGAAGTAGCCAGCACTACAGGTGGGAGGCACTGTGCCCAGCTCAGGAAAGCTTAAATGG
AATTGGAGTAACACTCTAATCTGTTTCACATATGTTGCTTTAGATACTAGAAAAATAGCAACAGTGTATTCTCTTGTTTTGAAAATAATTCTTCCTCTCT
CTGGTGTAAACCAGTGCTTCTTGTTCCTTTTCAGAAAACAGATACAAGTTATGAGGTAACATTTAACCTTATTGTACAAACGGAGATTTAGCATCCAATC
ATAGTTCAACAAGAAACTTAACTAAAATGACACATTTTAAACCCATATAAAATTACAAGTCAGCATTAAAAAATCTAAACAATTGAATCTAGCCTTGATC
AACTGTTTCCAAGTTTTYCTATCAGTACTCAATTGCTGTTTRTACTTTTTACTTGTGTAGTAGATAAGCAATAGTGTGGAAAAGGTTTAAAAGAAGTCCT
TAGAAGAAAAACTTAAAATTGAACAAATTCTATTTGTTAGTTTACTTTTTTCTACCTGCACATCAAAGAAAGGCCATTGTTATTTAATTCTGGCAGAATA
GTTTGAGAAGTACTTGTGCATAGGTATTTTTTACTAATTTCTCCCTTTATTTTCTGAATTATATAAGCATTTGTGCTCTATTTGATTAAYGTTTATGAGC
ACTTTCACCTATATACCTCTGTCCAATTCTGGATTCTCTAAGATACAGCATAGGATGTGGAACACTGTGGTCTCTCCCTCTCAGGGCTTAAAGTTACTTT
ACTCAAGGATAAAATAGGTGTAATAAACTTGTTGATAATACTTCTGTGGTTTTATTACATAAAGAATATATTAAGCAGATTTAATTCGTGGATGTGAAAA
TACGTTTTTGTATGAATAAATGTAGGGAATATGTTATTTCCTTGATTTTAAACATTCAAAGCATTCTAATATCGCTTCACATATTAAGTTTTTATTTTAT
TTTATTTTATTTTTTGAGACAGGGTCTCTGTTGCCCAGGCTGGTGTGCAGTGGTGCAGTATTGGCTCACTGCAGCCTCTGCCTACCAGGTTCCGCATTTC
TCCAACCTCAGCCTCCCAAATAGCTGGGACTACAGGTGGGTGCCACCACGCCTGGCTTGTTTTTGTATTTTTTGTAGAGATGAGGTTTTGCCGTGTTAAC
AGGCTGGTCTCCAACTCTTGACCTCAAGTGATCTGCCTGCTTCAGCCACCCAAAGTGCCAGGATTACAGGTGTGAGCCACTGCGACGGGCCACATACTAA
GTTTTTAAAATGCAATCAGTCTCTCATTAATCAGTTTGATTACATGACATGGTAATTTTTTAATGTGAAAAGTTGTTACTAAATTGGTGGTTTGTCTTTC
TAGATGTTATTTTAGAATCAGGGCAGTAAGGGTATATGAGGTTCTTACCTCATTTAATCCTCAAAACATCCCCATTTTACAGTTGAAAAGTTACTAAATT
GATGGTTTGTCTTTCAATAGATGTTACTTTACAATCAGGGCCGCAAAGTCATATATCAGGCTAGTGCTAGGCACTCCACAGTGTTTATTTCATTTAATCC
TCACGATATCCCCATTTTACAGGTGAGAAAAATTTAGTTTTAGGTTAAACACTGCTAGATTACTCACTAGTGGAACAAGAAGAAATTAAGCTTCAAATCC
GGTGTGCTTTTCAAACTTCTGTTCATAAGTTAGAGAACACCTGTGGAAAGTCTTGTCACTTAAGACTGAAAACTTAATACAAATGATAGTGATAACTCAT
TTCGTGTGAATGTTTCTGATGGTTGGGTATGTCTTTTCCTACAGGAGAGTAAGTATAAGAATGAGCATTGAACTACAATCAGTTTCTAATCCAGTTCACA
GAAAGGTTGGTATTTAGTCCTTTTTTGAAATATCATTTCGGTACATTGTAGACAATTAGTTTTGTTCTTTAAGAATGTGACATCTTTTATTGCATTTATT
TTGCTTTTACATTTTAGGCTATTTTGCAACTGTTGGAAATCAAGGGTGGTGGAATCTACTGAGACAACAACTGAAGGATAATTATACTATATATTTCTTT
TTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTCACCTCCCGGGTTCAAACAATTCTCC
TGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAG
GATGGTCTCGATCTCTTGACCTTGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGAGATTACAGGCTTGAACCACTGTGCCCGGCCTATACCATATATT
TCTAAAACATACGTGAAAAATTGTGGGGTGGGGTGACATTCTCCTTAGATTTGCCCAGTGCACTTAGAAGTTGCATATTATATATATATAATAACATATA
TATAAAAATATATTTTATTGCTGTTGGTCATACACACACACACACACACACACACACACACACTGCTGCCTTGTAGAATTGGCATTTCATGGTATAAATG
TAAAAACAATAAACCGAAGTACTGCAGGGAGATATTTGTGAATCTTTTACTTTACGTTTTGAAGAGAGGCATTTAGAGTATCAGTCTCATATAACCTTCA
AAAGTGTGAGTCATTAACAGAACTAAGGATATAGAATAGAGGAGGGGTCCCCAACCCCCTGGCCACTTACTGGTACGGTCTGTGGCCTGTTAGGAGCCAG
GCTGCACAGCAGGAGGTGAGTGGCAGGCAGGGAAGCGAGTGTAACCTCCTACGATCCACCTCCTGTCAGATCAGTGGTGGCATTAGAGTCTCATAGGAGT
GCAAACCCTATTGTGAACTGTACATGCAAGGGATCTCAGCTGTATGCTCCTTATGAGAATCTAATGGCTGATCTGAGGTGGAAGTTTCATCCTGAAACCA
TCCTTCACTCCCTAATTCTTGGAAAAATGTCTTCTACAAAACTGGTTTCTAGTGCCAAAAAGGTTGGGGGCCACTGGAACAGAGAACTAAGAAATACGGC
ATCTGTGCCAAGGGCAGTGCCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAAGTAGGCAGATTGCTTGAGCCAGGAGTTTGAAACCAGTGTAGGCA
ACATGGTGAAATCCCATCTCTACAAAAAAATACACAAATTAGCTGAATGTGGTGGCACACTCCTGTAGTTCCATCTACTTGAGAGGCTGAGGTGGAAGGA
TCACTTGAGACTGGGAGGTTGAGGCTGCAGTGAGCTGTGAGGGTGCCACTGCAACCTAGACTGGGCGACAGAGCGAGACCCCATGTCAAAAAACACTGAA
ATATAGCATCTGTTTTCTGTGTGCCATAGCTTTCCCTGAACACATTCAAGGACCTAGTAGTATTAATAGTACCTTTGGTTTTTTAAGTAGCATCCTGGGT
GAATTTCAGGAAGTACTTAAATAGAAGCTGCTTAAGAACAAGGCATTCTGAGGCAGAGCAGGTGCCTAAATTACTAATTTTCCARAGTAGAGATGATATA
TTATACTTCTTACATGTTATTCCTTATGCCTGCTGTACCTCTTCATTTTCTAGCTTGGTGCATAAGTGGTTTAGATTTTTCTAGGATCTTAGCATTTCCT
CAGTAGACATGAGTAGAGATTTTATTTCAAATGAATTCTTAACCTTAATGCCCAGTTCTTTATTAGTTTTACATCATCTTGTAACTAATGCTGTTTTTCT
TTCACCAGTGTTCTCTGGTACATAATTTTGGTGTACTTTTTGTGAGCTCTAGCTGTTATGATGGTCTCCCACACTATGTACACGTAGCTACCTGGAAAGT
GATCTTTATGAAAGGTACTTACTTCATTTGAGACTGAAAACAGTTGGGCTTCCATATCAGTGGCCACCTGGCCTAGGAGAGAATAGGCTCTTTGGAAGAA
GCCTGGCAACGTGTTACCTGATACCCTGGTCTTCTGAGAGACAGAAGCTCTTTTTTCTAGTGTGGATTATTGTCAGTTCTGCTGATATATTTGCCACTTT
TGAAATGCCATACCAGTTAACTTTAAGGAAACTAAAAATAAAATTGAATGTGGTATGTTCAGTGGTAAAGAAAATTTTCATCATGTTATGGTGTAGCAAG
GACTGGGTCTAAATTTCCCCAAGCCTCTGATAGGAGGATATTCCTAAACTTTCAACTCCTAGCACTTGCTTAACTTTTACAGACCTCCATGTGGCTTTTA
AAGAGCGGAATGTCTACCCCTATTTAAGATTCTAACTCTCTAAAGACTAATAAAAAACCAGCAGCACTAGAAAACAAAGCTGTCTGCAATATAACTATGA
TACACTGATGTTGTTGGATTTCTTTACTTCTGAGAAGAAATTACTCAAAMGGCCAGATCTAGTAAAAACATTTAAAAACAACAAACTTTCTTTTAGGACT
TAGTTATTCGTCTGACTGATGACACGGATCCATTTTTTTTATATAACCTTGTTATATCTGAGGAAGATTTTCAAAGGTAACTAAATTTTTTTCTGATCTT
ATATTTAGTGAAAAAATAAGTTTCTAAGTTTTATTGGTACTGTTCTCTTTCAAACACATACCTACATATTAGATTTAGTTACTTTGGGAATATTGGGCTA
TTTGTACTRTCTTTACTTAGGGTGTTTTGGAAAATAAATATTTTGTGGGTTATTAGAATTCTGCTTAAAACACCTGTGAAGTTTGAAGCTTTTGCTGAAT
TTATTGATTTTTTTTTCCCATTGAATACGTTCTATAAAAATCAGAGTTCCTTAGCTTAGTTCTTGATTATAACAAGCGTTAGTAAATTTGAAAAAAGAAT
CCTTCAGGATGCTAATTATAATTAAAGATAGTRATTGGCCAGGCACGGTGGCTCAYGCCTGTAATCCCAGCACTTTGGGCGGCCGAAGAGGGCGGATCAT
GAGGTCAGAAGTTCGAGACTAGTCTGACCAACATGGTGAAACCCTGTCTTAACTAAAAATACAAAAATTAGCCAGGTATGGTGGCATGTGCCTGTAATCC
CAGCTACTCAGGAGGCTGAGGAAGGAGAATCTCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGTGATGG
AGTGAGCCTCTATCTCAAAAAAAAAAAAAAAAAAAAAAGGCACCAAAACAAAACAAAGTTAATTAAAATTTTTAAAAAATTTCTTTTCCTTTCTTCTGTA
TAGTTTAAAATTCCAGCAAGGTCTTCTGGTAGACTTCTTAGCTTTCCCACAAAAATTTATAGATCTCCTTCAGCAATGTACTCAAGAACATGCCAAAGAA
ATTCCAAGGTAAGTTGCATGAGAATGCTACATTATTAAATTTAATTCAAGACAGACTCTTCTTTGAAACACAAGTTGATGGCAAAATCTTTTCCGTTTAT
TATGACTATCCCTGTTTATTTTTAGAACTGGGGTTAGGCCTCCATTAAATCTCAGACTTTAAGGCATCTTGATTAAAATCAGAAATATTTCTTAATTTTC
ATGTCTTGACAAAGGCACTAAAGTCATCCGAAATATTTAGCAGCATCAAATATTTGGTTTTATAATGATATTGGAAAAAGGGAAGACTAAGATTGTATGT
GTGTATGGTGCTAACGCCTGATTCTTTTACTGTAAAGTTCACCATCAACCTTTTATTTATTGGTTTTATCAGTTGACGATTGTTGTTGAATCAGTTATTT
CATTAGGAAGAACAAAATGATGCTTCTGTATAATTTTTTCTATATTAAGTATAATTCTTCTATAAAGAAGAACTTTTCCTCAGCAATTAGGGCTATTTGA
TTACTCAGAAAATTCATAAAGGATAAATGCTTAATTCTTGCATTTAAATTGTCAATTTTTAGAGTAAAGAGCTGGTAGTCTACTTTTGTGGCACTCAGTG
AATTTTTGTTTCTAGTTTTTGCTTTTTCTCTCATTTGTTTCTCATGAACTCATGGACTTTTATGTAGTCACTGTGTTTCAGTCAATCTTTTCTKTTTTTT
GCCCAATTTATCTTTTACCATTGGGAGTCCTCAATGTGCTCCCTTTSCTGAGCTTTCTTAAGTAGAGAAGCTTCTGATTCAGTGAGAGATTTTCACTRTC
TCTTAAGTGTGTTATAATGTAACATTTTCTTTTCAAAGGTTTTTGCTACAGTTAGTTTCTCCAGCAGCTATTTTGGATAACTCACCTGCATTTTTAAATG
TGGTAGAGACAAATCCTTTTAAGCATCTTACACACCTCTCACTAAAACTTTTACCTGGAAATGATGTGGAGATAAAGAAATTTCTCGCAGGCTGTTTGAA
ATGTAGCAAGGTAAGATTTAAATTTAAGTTATTCTTTTAACAAAATAAGTATCAATGGTCTTTGATAAATTATTGAAGAGATACATTGCCATAAGTTTTT
GTTTTCTAAATAAAGTTTTATGAAATATAACGAATTTATTTTACTGTTTCTTATTTAGTCAAGGTATAGTCGGGATGGATCTGGACCAGGAATTGAGAAG
CTTAGGTCTCAGGGTTTTTACCAATCGTGTGATTTTGGACAGGTCACTTAAACTCTTCTGTCATGGTTTCATCAACTGGTAGACATGTATGGAAATAGCT
ACCCTATCTAGCCCATCTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCA
AGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAASTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTT
TAGTAGAGACGGGGTTTCACCGTTTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGACTACAGGCG
TGAGCCACCGCGCCCGGCCCTAGCCCATCTTTAATGAGATAAGATATATGGAAATGTCTTGAAAATTATAAAGTGCTATATGGCACAAGGAAACAACATA
GGGATGCTGCTTGAGTTTTTAGAGTCTTTCTAGTCAAATGCTATAGATCAGTGCATGTCAAACTTTAAATTATCTGGGGATCTTGTTAAAATGATTTAGA
TTTGAGATGGASCCTAAGAATCTGCATTTCTAACAGGCTTCCAGGATGATGCTGATGCTATACTTTGAGTAGCATGGCTATAGATGATTACATTGTAAAC
TGTGTAATTTTATTATTTTTATGAATAGGAAGAAAAATTATCATTGATGCAATCACTAGATGATGCTACTAAGCAACTGGACTTTACACGAAAGGTAATT
CAAATTTCATTTTGYCTTTGTAAGTCATCCAGACATTGGCACTGAATTGCTTCCTTGACTCAGTTCCAAGCTTTTATGTATTTTCTTTCAAAGCATGCTT
CCGTTGAATTTCCATTCCTCTTTGCCACCCTTCAACTACCACTTAATTATCTTAATTTGATACTTTCTCTTGTACATACTTGATTTTACACAAACATTTC
TGTATCCCCAATATATAACATGTTCCCTCGAGTCTTCATTAAATAAGATATGTATGTTTCTGTCATATATTAGTTCTCCACTCCCCACTTGTTCGCCTCA
TTCCTCTGGCCTAAATGGCTTTTCAGTTCCTATGCTCTAAACCTTTCCCTTTCTTTGCTATGTTTAGAATTAATTCCTCTGATAGGCTTAGCATCATTTC
AGTCATAGCTACAACATTTCTGCCCTAGTTCATGAAATTGAAGGCCAGAGTATCTGTTTTAGCTTGTTCTTGCTTTGCTTTAAAGAACTATCTGAAGCTG
GGTAATTTATAAAGAAAAGAGATTTAATTGGTTCATTGTTCTGTAGGCTGTACAAGCATGGCACCAACATCTGCTTGGCTTCTAGTGGGGACCTGAGGAA
GTTTACAGTCATGGCTGAAGGCAAAGGGGAGCAGGAGTGTCACATGGTGAGGGTGGGAGGAAGGAGGTACCACATGCTTTTAAACATCCAGATCTCATAT
GAACTAACTGAATGAGAACTTGCTTAACACCAAGGGAATGGCACTAAACCATTCCCATGATCCAATCACCTACCACAGGCCCTGCCTCCTCTGTTGGGGA
TTACATTTGAACATGAGACTTGGAGGGGACAGACATCCTAACTATATCGGTATCTGATAATCTGCATGGCCTCATGCAGAAAATACCCCTGCACAATGTG
GCCCACAGGGCCATGTTACTGGGTTTTATATGTAAGTGAACTATTCCTTATAATCGACTTGCTTCCCCTTACCCCTCTTTATTGGGTGGTAAAGAGCCAG
ATTTAATTAAAAGCTTTAATTAAAAGATAGTTAATCTTGACCTGTGGGCCGTTTTGGGTCTAAGATTGTTCTTATTCTAATGTTGATTTCCTAAAATTAA
AAAATTTTGTGTAGGAAAAGGCTTTGAACATGTCCTGAAAAGCTATAATTTTGTTTTCTTTAATATCCTTGTAAATATTGCTATATTCTAATCAAAAKTA
TTACATATTAAGGAGCCTATCTTAATATTTTGTGTTAAACTCTAATGTAGACATTAGCAGAAAAAAAACAAGAATTAGATAAGTTACGGAATGAATGGGC
GTCACATACAGCAGCCTTGACAAACAAGCATTCTCAGGAACTGACAAATGAAAAGGAAAAAGCCTTGCAGGTAAGAACATTAAAGGAAACTGAAAAAATA
TCTTTTATTGCTGTTAGTCATTTTGTTAATTTTAAAAGTAATATATGCTTGCTTTAAATTTTCCAAACGTTACAGAAGTATATAAAATAAAAATAAAAAT
CCTCTCTTTCAAAGTCTTACTACCTAGAGATAATCTATAAACATTTTGATGTATTTTTTTCAGACTTTTCTCTAYGTATATGTAAATAATATGTAATTTA
TAAATATTTGTTTATAAACTTATAACTGTAAATTATGTCATTTATATATGTACCCATATAATGGGTTTTTGGTTTTGTTCTATACTAATGGGGTCTTATT
GGATATATTGATTGTAACTTTCTTCGCTTAATGTGATACCATTCTGTATCAGTTAAGATATTCCTTTTTAGTGACTGCAGAGTATTCATTTTTTGGGTTT
AACTTAAATTATTTAACTACTTGCCTAAATGGTGGTCATTTAAATGCTTCGAARTTTTGGTTATTTTAAGCAATACTGCAAGAAGCACTCTTAGTTTCTA
GAAGTGAAACTGCAACATATCTGTATAAAATATTGATGGATACTGCAAATTTGCCACCCAAAAAGACTAAACCAAATGGAATCCCAAAGATAAGGTAGTG
TATAAGGATACTTATTTCCCCATATTCTTGACATTGTTTTTAACCTTCTTAATTCTTCTTTTTTTTTTTGAGACAAAGTTTTGCTTTTGTTGCCCAGGCT
GGAGTGCGGTGGCACAATCTCGGCTCACTGTAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATG
TGCCACCATGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTCGGTCAGGCTGGTCTTGAACTCCCAACCTTAGGTGATCTGCCTTG
GCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCTGCCACGTTCTTAATTCTTAATATATGCCACCTGATCTTAAGGTAGTACTAGTTTTA
TTTTATATTTCTTGTATTTTTTGTGAAGATAAGCATCTTTTAATACAACTTTTTATCATTTTTATTTCTTCTATGGATTATTTTTTATTTTCTTTTCATC
CCTTTTTCTGTGTGGTTATTTTTTTTTTTTCACTGTGCCCTGCCACCTTCTTAATTCTTAATATTTGCCACCTGATCTTAGTACTAGTTTTAGTTTATAT
TTCTTATATGTTTTGTGAAGATAAGCATCTTTTAATATAACTTTTTATCATTTCATTTCTTCTGTGGATTATTTTTTATTGTCTTTTCATCCCTTTTTCT
GTGTGGTTGTTTTTTTTTTCATTTTTTATTTTTAGATGGAGTCTCGCTCTGTCGCTCAGACTGGAGTGCAGTGGCACTATCTCGGCTCACTGCAACCTCT
GTCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTAAGTAATTGGGATTACAGGCGCATGCCACCACCATGCCTGGCTAATTTTAGTATTTTTAGT
AGAGATGAGTTTAACCCTGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCGTGGTCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGC
CACCATGCCCAGCTGTGGTTGTTATTTTCTACTGCTTTGTAGTATGAATTCCTTTTCTACCTTTCGTACTATAGCTTCTTTTTTTTTTTTTTTGAGACAG
AATTTCGCTCTTGTTGCCCAGGCTGGAGTGCARTGGCATGATTTGGCTCATTGCAACCTTTGCCTCCCAGGTTCAAGCAATTCTCCTACCTCAGCCTCCC
AAGTAGCTGGAATTACACATGTGCCACCATGCCCGGCTAAATTTTGTATTTTTAGTGAAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCGAACTCC
TGACCTTAGGTGATCTGCCCTCCTCAGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACTGTGCCCAGCCTTATAGCTTCTTTAATATTACATTTTA
TTGTTGTTTTTATGTACTTTACTAGATGCTTGCTCTTAAGAGTACAGCTTGATGATTTTTTTAAATGTGTAACTTTCACCCAAATTAAGATAAAGAAATT
GGACCACCCCTCTAGGTTCCCTTGTATGGCTTCCTAGTCCTAACAGTAGTCCATAGGAGGTTATCATACTTCTGACTTACATCATCATTCATTAGTTTTG
CCAATTCTTGAACTTTGTGTAAATGGAATCATATATGTTTGCATATGTCTTTCTTCACTCAGCATAATATTTCTGAAATTCACCTATTTTCTATTGTTTC
CTTTTATTGTTATATGAATCTGCCATAATTTATTTTCCTATTGGTAGGCATTTGAGTTGTTTCTGGTATTTTGCTATTATTAGTTAAACTGCTATTAACA
TTCTTGTACTTATCTTTTTGTGGACACATGCACTCATTTTTCTTGGATATTTATCTATTATTGGAATGGCTAGGTTGTAGTATATATAGGCATATGTTTA
GCTTTGGCAGAAACTACCAGTTTCCCAAAGTAGGTAGGTATACCGGTTTACATTGCCATTCTATGGGTATGTAATACTATCTGATAATAATGAACACTTC
TTCATATACATATTTATCACTTGAATATTCTCTTTTCAAGTGCCCATTCAAGTTGTTAGCATGTTTAATTTGCCTATTATTAGTATTATTATAGATTTGT
AGGAATTTGTATATTCTAGACATGAGTCCTTTGTCAGATGTATGCATTGTGAATATTTTCATTGTCTATAGCTTGCCTTTTCACTTTTTATTGGTATAAA
TTAAGGATATACACCTTATCTATCATGTACATTATAAACATTTCTCCCAGCCTGTCATTTGCCAGCATCTTTTGCCGTATATAGTTTTTTTAATTTGAAT
GTCATCAAATCTGTCAGTCATTGCCTTTATGGCTTAAGATTTCATTTCACATTTGGAAAGTGTTTCCCACCCGAGGACTATGAAAAAATTCTCCTATATT
CTAATATTTGTTTAATTTTCTTGTTATATTTAGCTTTTTAATCTACTTGGAATATAATTTTGTGGAGTATAATATAAGGTAGAATTTTTTTGACATATAG
TCAGTCATTGTTCCCCAATGATTTAAAATACTACCTCTATTATTTTATTTCATTTTTATTTTTTAGAGGTAGGGTCTTGCTCTGTTGCCCAGGCTGGAGT
GCAGTGACACGATCATGGCTCACTACAGCCTCAACCTCCAGCGATCCTTCTGCCTCTGCTTCCAAAGTAGCTGGGACTGCAGGCATGTGTCACCACACCG
GCTGATTTTAAAATTTTTTTGTGGAGATGGGGTTTCACTATGTTGCCCACGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCTCCTTCCTTGGCTTCCCA
AAGTGCTGAGATTACCAACATGAGCCACTGTGCCTGGTACTACCTTTATCACATACTAAATTTCTTTATGTACTTGGGCTTGTCTTTGGACTGTTGTTAA
GAACTGATCTCATTTTCTCGTTCAGTGGAGAGATGTATCTCTTCATTTATTAAGGTCTTATTTGTTGAAACAGACTTATTTACTCTCTCTCTCTCTCCCT
TTTTCTCTGTTCTCTTTTTCTTTTGCAGTCTTGTTAAACAGTGTTTTTGGCTAGGGACTTTACAGATTTTTACTGCATAAATGAGACCATCCACTCCCTA
CCAGTACCACTGTGGTTAAATTTATAATTGTTTATCAGTAGTGTATGTTAATGTCATATCCAGCCACCTTACTAAATTTACATACTGTTTCTAAGAGTTT
TGGAATTGATTCTCTTAGGTTTTCCAGGTAGATATGTAAACTATAAAAATTAGTAATTTTTTCTCTTCCTATGATTAGTGTCCTTTTTTTTCTTGCACAG
AAAAATAATAGTGGAATTTTTATCTTTTTCCAGTCTTTTTTGGTAAATAACTAAAATATCTCACTGTTAAATATGATATTTGCTTTGCATTTGAGAGAAA
GGGTTTTCTTCTCTTCCTTGCTACCTGAGAATTTTAATTCAAAGAGTGCTAAGTCAGATAAAATGAGTTTTGGGATCTAACCAAATAATTACGTCATTTT
TCCCCTTTAATAGTGTAGTAAATTATAACAATAGATTTCCAAAGGTGGAATCATCTTTGCATTCATAGAATAATACTTAAATAGTCATAGCGATTTTTAA
TAAACTATTGTATCAATTTGCTATTATTTAACTTGGGATTTTTGTATTTTTATTTATTTAATTTTAGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAG
TGCAGTGGTGTGGTCCCGGCTCACTGCATCCTCAGCCTTCCGGGCTCAAGTGACCCTCCCACCTCAGTCTTTGGAGTAGCTGGGACCACAGATACAGACC
ACCAGGCCTAGATAATTTTTTTTATTTTTATTTTTATTTTATTTTTATTTATTTATTTTTTTTTTAGAGATGGAGTCTCACTATGTTGGTCAGGCTGGAC
TCAATCTTCTGGCCTCAAATGATCCATCTGCCTTGGCCTCCTGAAGTGCTGGGATTACAGGCATGAACCACCATGCCTGGCCCAGGATGTTTGTATTTAT
ATTCATAAGTGACATTGGTCTGAGATTGTCTTTTTCCTGCACATCATAGTTCGCTTATTGCAAATGTGGGTTATAGACTATGGTATTAGAATTATGCTAG
CCTCATGAGATGAATAAGGACATTTTTCAGTTTTCTTTATTCTTTGAAACAGTGAAATAACAGGGAATTAATCTGTACCTTGAGGGCCTGATACAATTAG
CCTTTTAACACCATTTGGATCACTCACCTAGTTGAAGCATTTATCTTTTTCTTTTCCAGTTTTCTCCATGATTATTGGTCTGTTTAAATTTTCTCTTCTT
GAGTTTTGCTAATTTATATTTTCTTAAAAAGCCATGTGTTTCATCTATGTGTTTTTATTTTTAAAATTTATTATTTTTTTTTATTTTTGAAGATGAGGTG
TTGCTATGTTGCCCAGGCTGGACTCAGACTCCTAGGTTTAGGCAATCCTCCTGCCTCAGCTCCTCTAGAGTAGCAGGGACTACTGGTGTGTGCCATTGTA
TGTGGCTGTTATCTGTGTGTTTAAATATATTAGTACAATATCGTGCATATTGTCTTGTGATTTTTAAAATCTCCATATTATTTCTCTTATGTTCTTAATT
TGTTTTGTTTAAYGCGACTAGRTGGTTTTTCTATTGTTTAGTGTTTTCGAAGAACTAGTTTTTCATTTCATTAATTAGTTCTACACTGTTTCTCCCCCTA
TTTCGTTAATTTCTATTTACTACCTTTTCTTTTTTTTTTGGCTTGATTTTCTTTTTTTTTTTGAGACCGAGTCTCACTCTTGTCACCCAGGCTGGAGTGC
AGTGGCATGATCTCAACTCACTGAAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGCCACC
ACGCCTGGCTGATTTTTTTGTACTTTTTTTTGTCTTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCC
GCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGGGCCCGGCCTTTTTTTTGGCTTGATTTTCAAGCAAGTTGTGTTCTTCTTGAC
GTTGTTGTTCGATTCAGGGGTACATGTGCAAGTTTGTTACTGGATATATTGCTTAATACTGAAGTTTGGGCTTCTGTTGAACTAATCACCCAAATAGTAA
ACATAGTACTCAATAAGTAGTTTTTCAATCTCTACCTCACTCTATTCCTCCCTCATTTTGGAGTACTSCTTGTCTATTGTCCATGGAAACAAGTTAGATC
TGAAAGTTTCTTCATAAGGGCATTTGTTTAAAACTCCAGAGTGACTGAAGGATTTGTTTGTATTTCTGTATTGCACTTTCTGATAGGATTGTTAGGCAGC
CCTTCGGGACTTTAAAACCAGGTCAACACTTCTCTTCCTGCTAATAGATAATGTAAAACTTTAGTGTGCGTGAGAATCATTTGAAGGGTGCATTAGAATG
CAGATTGCTGGGCTTCATCCCCAGAGTCTTTGATACAGTTAGTCGGGGGTGGAGTCCAGGAACTTGATTTCCTGATAGGTTCTTAGCTGATACCGATTAT
TCTGTTCAGAGGACCGTACTTTGATAACCACTGCCATAGTGTGCTCTTTCTCAAATTAGGCCAATTTTGTGACTATATAGAAATCTGCTGAGGCAGGTAA
ACTGCCTTCTATTATTACTGATGGTTTCTACAAATGTTATAGGGAATAATGGCTGTATTATCTATATTTGTCACTTATCTATTCAAGTGGACATTAAACC
TGTGTTATCTTTAAGGCATTTTAATAGGGCAAATTTGATTCTTGCATTTTTTATTTCTCTTTATGTTTACACTTATTTCTCATGTTTTCTTTATACCTCC
ATTTAAAAAAATATACTGAGTAATCTGAATTGTTTCTACACTAATTTCTTTGTAGAAGCTTTTTTTCTGTGAGGAAAGTCCTAGCAACACGTAGAATCAC
CCATCTTCCTTCTATTTATTGTATTATTTTCTTAATTCTGACTTCTATATTTCATCACTTCTTCATAGAATTTTTTATTAATTTTTGTTTTCCCATTCAT
ATCATTATTATTCCATTCCCAAAACATTTTTCTCATCTAATATTCTTCCAAAACTACTGTGTGCTTTTCTGATTTAAGCCTCTATAGAATATTCATTTGA
AAAATATTGCTTCCACCTCTACAAATTCTCCCTTTTCTGTTAGACTCTATTATTTTGAAACTGTCCTTCCAATGATTATTTTTTTTCCTCCAGAATGGAA
AATTTTTAATGTATTTTTTTCTAAAAATAATGAAATGATTCAGAAGGGAACAAAGTAGAAAATGTGAACTTTATAATGCTAGTTCTCACACTTTTTTTTT
AAACAAAAATCTCCAAGGTTCTGATGAGCACTGGAATAAAAACCAGTTCTTTATTTTCACTGCTTTTGGCCTCTATTGTCTTTAGTGTCTTTGATTACTC
TCTTAGACAGTTACAGTTAGCATCTTTACCAGTTTGCTCTGATTTTTCTTCTTGGTTGCTTCTTCAATGTTTTCTTCCAAGATGGCATTTTCAATTTTAT
ATGGACTGCTTCCTGTTTTATCTCTTTTTGCTCCTTCTCCTCTCCTTTTCAGCTTTCTGAAAATGAGGAAATTCCTGAAGTAGTAATGTAAAATTCCTAA
GGTATTTTATGAGAGAGACACTCCCCTGTACTAGTGCTAAGACTTTTGAATGGGTATAACTTCTCTGGGATACAGTTTTGGAACTTGCATCAAGCTTTAT
ATTTGTTTATATTCTTTATTCTATAATTGATCATAAAGAAATAATCTGAATTTTAGATGTATGTCTGTGCAAAAAAAATCATCATTTTATTTATAATTGT
GAAAAATTGGGAACTAAATGTCCGTAATAGGGCAGAAGTTAAATGAATTATGGAGTAACCATGGATGGAATGTTGTGTAGCTATTAAAGACTTTACAAAG
AATTTTTTAATGATGTGAGAAGGTGCAAATGCTAAGGGATTAAAAAGTGTGATTAAATTGTATAAATAGTTTGATATTCATTCATTAAATTTAATATGTA
TATTGTGTGTTTATGTGGATGTCAATATAAGTATATAAACGAGTGGAAGAGAGTACTCCTAAATATTAGGAGTGATTTTTCTGGATGGGATTATGGGTTA
TTTGTGTTTCCTTTTTGCCTGTAAGAGCATGTATAACTTTGATAACCACAAAAATATGCTTTATTTTCAAAAGATATTTAGGATTTCATAGTGTTCGTTA
ACAAAAGTTACTAAGATAGGTTTGTGATACGATTCAGACAGGCACTAAATATTGCACAGTTATAACCATGTTCAAATTTTATTGTTGGTAAAAATGACTA
TAAGATTGGACTAATGAACCAACCTTGCTCGTTTTACAATTTTAGGTGTTTTTCCATTATAAAGCATATATACGAGTATTTATTATTAAAAACTGAAACA
CTGTGATGGTGTTTAAAGCAAAAATCTGCTTTTTTTTTAATACACAAGTAGGTTCATCCTGTATACAGTATTTGCAGTTTGCTTTTTTAACTTATATAGC
ATCTTCCCTTAACTTGAAGACTGTTGCACCTAAACATATATGGATTTAGAAGAAGCAAAAATTATGAACAAGATCATGGTGGTAAATTTGCTTTTGTTGA
CCTTGCTTTCTCCGTCATGAAATTCATAATTGAAAATAGACCCTTTTCAGAATGGGGATCTAAAGAAAGATGACAAAATTAAGACAAAAAAGAAAAAGAA
AAAATAAGAAATTACAATTTTTTTTTGTTCAAATCTTTCTGTATTTGTATTTCTGATTTTTTTCTTTGAATTTTGGTACTGTATTTTTATTGTATCATAG
GCACAGGTTCAATATCAACAGCAGCATGAACAACAGAAAAAAGATTTAGAAATCCTCCATCAACAAAACATCCACCAGCTACAAAACAGACTGTCTGAGT
TAGAAGYGGCTAATAAAGACTTAACCGAAAGAAAATATAAAGGAGACTCCACTATTAGAGAACTTAAAGCAAAACTTTCTGGTGTTGAAGAGGTATTGAA
TGTTGTTTTTTTTCCTCCCCCAATTTAAGAGAACGTTTTGATTTGGTTATTTTAATGTGGTTACTTGTGTGGGTGGTGTTCCTCTGGATGCTCTTGTGGT
GTTAGGGTATCCATTCAGACAATGCAAAGAAAATTGAGAATTTGAAATTTGATAAAAAGCATAATTCATAACAGAACTGAGGTAAGCTTGAATATTTTTA
GTTAGGGTCTTGAGAGCAGATTACTGGCACAGCTGTCAGATTTATCAATATGTTTTTAATAGTAACACAGCACCTGTATTTCATAGGGTACTGTGTTGAC
AGGGCTGGGGTTTTTTTTCCTCAACCTGCTTAACATATATCAAACAATTATGTGAATTTAGTATCTAGTAATAATAATGATAATGGTAATAGTAAAGATA
ATAGTTAATGCTTACTGAGCATTTTCTATGTGATAGGTACTGTTTGAAGTGCTTTACATATATTAACTCATTTTATTGTTACAACAGTTATTTAAGGTAG
GAACTATTATTAGCCCTATTTTACAGATGATGAAACTAAGGCACAGAAAGGTTAAATAAGTTGCCTAAGGTCACATAGTCAAGGAGTGGAAGAACAAGGA
TTAGAACTCATCTATTATTTGACTATCTTTAATACTACCTTGTTCTTTCAGGCAACAGAGAAATTTTTATTTTTTATTTTATTTATTTTATTTAAGTTCC
AGGATACATGTACAGAATGTGCAGGTTTGTTGCATAGGTAAACATGTGCCATGGTGGTTTGCTGCACCTATCAACTCATCACCTGGGTATTAAGCCCCAC
AGAAATTTTTAAAATCTTGCTATAGTGCCACATTTGTTGTTGCTTTGRCATTGATTACAGGCTTCTTTGTAGCATTATATATTATTGTCATATGAATTAT
TAGAAAATATATGTAGATTTTGTCTATATTTAAATACCAAAGTTACCAGTGTTATTCTAGCTCACAAGACTTCAAACTCTATTTTACCAGTCTCATGCTT
AGAAGCTCTAAAGCCTGACCAATTTTGTGTTCAGATCCTCATATTGTTTTGCCCCAATAATAGATGTCTTCTGTTTTTCCTGCATACACTCTTCATACTG
GTTGTAAAGCATTTGAACCTTCATGGTACATTGGTAGTCTAAATGCTTCAGTATAATGCTCTGATTTCATTATTCTCAGCCCTGGAACTGGTCATTATAT
AAACAACCTCATTGCATTGATTTTTATATGATCTAATGAAAATATTTCCTCCAAGATTTTCATAAGACTTGCAAATTGTTAGTTCTTGGAGCTTTTTTTT
TTAACTGCTGAGTATTCAGTTACCTATTTTAAGTAACAATTTTTAGGCATTAGTGTCCTAAAAATAACAATTGCTACCATTTATTGAGTTTTACTGTGTG
CCAGCCAAAATGCTAGGCAATTTACGTAAGGATTTTTATGAAGGTTAAATGAAATAATTTATTAAGTATTTGTTATTTCTGTTTTACAAATGAGGGAACT
GAGATTTAATTTAGGGAGTTTCAGTAATTACCAAGATCACACAGTAGAAGAGCCAGGATTTGAATTTTGTTTGATACTAAAGTTTGTGCTCCTAAAACCA
CTATAGTCACAATACTGTATAATTATTTTTGGAAACTTTGGTTAAGAACTAAAACTATCTAGGAATATTGTATCCTGGGCTTTCATATACCAGCAGCATT
TGGGTTGATATTAGCTGATTGGGAAGAGATCTATTGTAGATTTTTTAAAAATCTATTTTTAATGAACAATTATTGTTTATTTTGCTTGAAAGAGTGAACA
GAGAGATCTGGAAATGTTAACATTTATTGACATAGAAAGATATTTGTAATACGTGAAGAAGGTAGATTATAAACTGCAGAGTATCAACCTTTAAAAAACA
ATCTGTACATGTAAGCAACAAAGAAAAATGTTAAGTCTACATTGTGGCRGCTCTCACCCGTGGTTACCCTTGGAATCAGTTGTGGAGACATCAGAAAATT
ATTGTTAAAAGTTTTAAAGTTACTGTAATTTATTCATAAATTAGAATTATTTTCCCTTGATATGATTGAATCAGATAGTAGAATATTTTACAATTATATT
CCAGATATATGCTACTATACCATTAGAAAGACATTTATGCTTTTAAAAAAAAATCTGTACTAAAACTTTAAAATTATTAAAGACTTTTTTTTAATATGTT
AGACATCTTAATTATAAATAACCAGATGAGGCAGCTTCCTTTTTTCATAATGCTTAATTTCTTTCTTTTCCCATTCTAGGAGCTACAGCGSACTAAGCAA
GAAGTCCTCTCTTTGCGAAGAGAGAATTCTACACTAGATGTTGAATGCCAYGAGAAAGAAAAGCACGTTAATCAGCTACAAACAAAAGTGGCAGTTTTAG
AACAGGAAATCAAGGATAAGGACCAGCTTGTTTTAAGAACAAAAGAGGCATTTGATACAATCCAGGAACAAAAGGTCTACTTTTAAATTTTTCTCAGAAA
TTGATAATCATATTTATAAGTAAACACAAMTGCCCTAATTATTCATGTTTTTAAAAAATATATCAGGTGGTTTTAGAAGAAAATGGTGAGAAAAATCAAG
TACAACTAGGAAAGCTTGAAGCTACAATAAAATCATTATCTGCAGAACTTCTGAAGGTTTGTTTTAAAAATTTTATAGACTAGTATTTCATTAAATTACA
TAGAAATATACATATGAAGCTCTTTTATAGGCAAATGAAATTATCAAGAAGTTACAAGGGGATCTGAAAACTTTAATGGGTAAGTTGAAATTGAAGAATA
CAGTTACTATTCAGCAAGAAAAACTCTTGGCTGAGAAGGAGGAAAAATTACAAAAGGAACAAAAGGAATTACAAGATGTTGGACAGTCTCTTCGAATTAA
AGAGCAAGAGGTAGTTAATATTTTAAATTTTTATGTTGTAACTAAATTTTTTCCTCGTTTTAAAAATTTATGCTTTGTTACATTAACAAATGGCTTTGGT
CTTGTTTTTTTTTTTAACAAAAGAACATGACTAGATTGAGTAGATGGTAATAACCTGTTTCAGTTTGGAAAGTTAGTTATCATGATTCAGATACCTTGAT
TGCTCATGTATGTCTATGTTTGTATACACATGTAAATATTTTATTACATAATTGAGCTAATTCCTTTATTCTCATTTAATAATAGTAGTAGTAACCATTT
ATGTAATTATTTAGTTAATAATAATACATTCTTCAGTTTTTATTTAACCTTTATTTTGCTTGACTTATTGTGATGATTGATATATTTCAGGTATGCAAAT
TACAAGAACAATTAGAAGCTACAGTTAAAAAACTTGAAGAAAGCAAACAACTTCTAAAAAATAATGAAAAGTGTAAGTATGTTACGTGTTAATGTAAATG
AGGTTTGTAGTTTTATTCTTTTATTTTTTTGAGACACGGTCTCACTCTGTCACCGAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAGCCTCCAC
CACTTTGGTTCAAGTTATCCTCCCGCCTCAGCCCCCCAAGTAGCTGGGACTAAGGTGTGCACCACCACACTCAGCTAATTTTGTGGGTTTTTTTTGTAGA
GACGAGATTTTATCATGTTGCCCAGGCTGGTCTTGAACTCCTGAGCTCAAGTGATCCACCCGCCTTGGCCTCCCAGATTGCTGCGTTTAGGTTTACAGGT
GTTAGCCATCGTGCTCGGCTGTAGTTTTATTCTTAACCTGAAAATTTTATTCGAATTCATAAAAGTAGACATTGGCCAATATATAAGTAATTTCTGCTTT
AAATATACTGTCTTAATGCCTTTTCTATAATAAATTTATATCATCTGCCCAGTAAAAGAGTTATCATCTTTATAAAGAAAACCATATCCCATAGGTCAGT
AACCCACAATTAAAACTGTTGAAAATGTTGACTGTAATTTATTGTTTAAATTCTTCATTATTCCTTTTTTTAATAGCTGTGTTTACCTAATAATAACAAT
ATGAATTGTTTGAAAACAAAACATAAAAATAAGATTTTAACTAACATTTTCTCAGTTTATACTACTGGGTATCATACATAAGATTGTGAATTTTAAGTAA
ACTGTAAGATATTCTAGAAGTGAAATCTTTCRAAGAGTTGCTTGACTAGCAGAAATATGTGCTTCGGAAAGTAATACAATAAGGAGTCCTATGTGGCAGC
TTCTAAAATAAGAAACTTTAATGACAAAAATTTAGGTGAACCTATATTGCTCTCCTGTGATGTCAGGTAGTTGTAAAAACTTATAATTTAAAAATCTTAA
TATAATTTTTAAATGTTTAAGATGATTAGAAAAATAAACAGTCAATATTCTTTACCTTGCTTCTTGTTCTTTTATTTAAGTAATCACGTGGTTAAATAAA
GAACTAAATGAAAATCAGCTAGTGAGAAAGCAAGATGTATTGGGACCTTCTACTACTCCGCCTGCACATTCCAGCAGCAACACAATCAGAAGTGGAATTT
CTCCTAACCTGAATGTGGTAAGATTTAAAACAAGATGTGAGTGATCTTAGTGAATTTCCTGAAMCAAAAGTATTTCCAGATTGTTAGGAAGTTTCCATGA
TTTAAGGTGCTGATACCAATACAAAGTGGAGTCCTACAATTGCACTGAAATAGAGTTTAAGTTGCCCCTGGAAGTGGAACAAAGGCACACTTGCTCTGAA
CAGAGGCTGAGTTTCAAGAGCACATTTCTTTTTTTTGTTTTGTTTTGTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCTCAGGCTGGAGTGCAGTGGC
GCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGACTATAGGCGCCCACCACCACGCCC
AGCTAATTTTTTGTATTTTTAGTAGAAACAGATTTCACCCTGTTAGCCAGGATGGTCTTGATYTCCTGACCTCATGATCTGCCTGCCTCGGCCTCCCAAA
GTGTTGGGATTACAGGCGTGAGCCACCGCACCCAGCCAAGAGCACACTTCTTTATAAGTCTTGACTGGATATTGAAATCTTTCAATGCTAACTAAAGTAA
TACCAAATATACTGAAAAACTTGAAAACACATAACGTAAAACATTTAGGAGACTTGAAGAAGAGAGAATTCAGGGTTTAGGCTTAAGCCTAAACTGAATT
CTATCAGAAAAAGAAAAGAAAGTAAAAAAGAAAAAAGTCCTATTAGCAGGCTTGTCACCTTTAGATTCTACAAGAAACTGGTTATGAGATATAAACTTTC
TAGCTCCCAGGACCAGATTTTTTTCTCTTTTGAGACAAGACCTCACTCTGTTGCCGAGGCTGGAGTGCAGTGGTGGGATCATGGCTCATGGCAGCCTTGA
CCTCCTGGGCTCAGGCAATCCTCCCACCTCGGCCTCTCAAAGTGCCGGGATTATAGCTGTGAGCCACTGTGCCCAGCCCTGCTTTTTTTTTTTTTTTTTT
AACCTGAGAAAAAAGGGAGGCTGGGCACGATGGCTCATGCCTGTAATCCCAGCACTTTGGGTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGT
TCAAGAGGTCAGCCTGGGCAACGTGGTGAAACCCTGTCTCTACTAAAAATACATAATTCAGTTGGGTGCAATGGTGCATGCCTATAATCCCAGCTACTCG
GGAGACTGAGGCAGGGGAACTGCTTGAACCCAGGAGGTGGAGGTTGCCATGAGCCAAGATCGCACCACTGTACTCCAGCCTGGGCAACAGAGTGAGACTC
TATCTCAAACAGAAAAAAGGCAGAATAGGAAAAGCAGCTTCTTACATTCAGAGGTGGTTTGGTACTATCTGATAGTTAGGCCTAGGTGCTGCTAGGAGCT
TACCTAGCATCCGCACATAGGCCTGGGGCTCTCCTGTTGAACACAACAATTTCATGGAATATTAACATCAGGCAAGGTTACTCTGTGACTCTGTCAATAC
AAAAACAAGACTGTTTCATAATCATGCCTGAATACAGACAAAAATATGAACATTGCTAAATCACAGATATGGCCCATAAGCATCCTCATATCCTGGCTAA
CATGAATGGCTGCTGCTGCTTTAATTACAGCTTTGACCTTAATACATTCCTCTTGCTTTATTAGATAGGATTTATTCAGATACCCAGTCATACATTTATC
CCCATTTCCCAGTAGCTTCCAATCCACAGCAAAGCACCACTTAAACTTTTTCTTAAATCACCTAACATGTGCCTAAATCCAATAAATAAGTCCCTTTTAA
TACCCACTTTTGGAGATACCCATGTTTGTTCATGGTGTGCAGTTTCCCTTGTTGCAAGGAGCAATAAATCTAGCTCGTATATCTATACATGGGTTCCTGG
TGGTCCTTGGCTACAGGACATTGGCAGAAGGTTTAAAATTCAGATTCCTAATTGAATTTTTAACCTAATCTACTCTGGTAAGTCAGAGTACGGGATGTCT
AAAGAAGGGGAAAGATTGCTGTTAAATTGGAGAAGGGTGCAGAAAGAAGTGCCTGGGGCTGAATTACAAACTTAAAAAAGATTTTTTGTCCGGCTTAAAA
TTTGAATGACTGATGATAGCTGTGTGAAAGGTGTTTTTTTGTGTGCATCCATTAGTGTGCACAAATGCTTCTCAAGATTTCTGTTACAACTGGTCTCAGT
ATAAAAATAAACTTTTTCATAACGTTGGTTAATGTGTGGTGCCAGTATATTGAAAATTAGTGGCAAAACCAATTACTGTCTCAATTAGTCCATTTAAGAA
CACTGATCTTGTTTTTATGCAGTCTGACAGAAAATTAGTTTTATTTTATCTCTGATTGGCCTATTGATCTCCAGACTCCCCCATTCCCCCCTTTTTTAGG
AGACTTAGAGTGAAACAAGTTGGTTCAGAAGCTTGGCTTTAACTTAGTACAAAGGCAGGCCCAGTAGTTTGTTTTATCCAAGCTTGCACACCTACCTTGA
AAAGCCCTCTAGTTCAAAGTTATCCTAGCCCCATGGTAGATAATAAAGCAGAGTTGTGTGGCATGATAAACAAGACTGGCSTCTGAGATAGTGCTCTCTT
AATTATTAGTTATTATAACAGATGCTAATGCCACCTGATCAACAAATACTATTTAGAATTAATTTATCATCTTTAATCATCTTTATGTTTTTATTTTTAG
GTTGATGGTAGACTGACTTACCCAACCTGTGGGATTGGTTATCCTGTCTCCTCTGCATTTGCATTCCAGAATACCTTCCCTCATTCGATATCTGCCAAAA
ATACCAGCCACCCTGGTTCAGGAACAAAGGTAGCCAAATTAACTAATACTTGTTCTGGGAAAAAATATAGCAACCTATTAGCATACAAACATTTCACATC
TTTTAAAAGTTCATTTATTCTTTGGTCAGTTGTTAAGTAGTAGGTAGTGTATTAGATAAATACATTACTGAATATCTAGTATCTATGTGTACAGGAAATA
TATGCACTATATATTTCTTGAGTCACTGTAATTTCTAAAATCTTGACATCAGTCTGTTTAAACCTCACTTATTTCTACTCAACCTCTCCTTTTTTTTTTT
TTTTTTTTGAGACAGTCTTGCTCGGTTGTCCAGGCTGGAGTGCAGTGGTGTAATCTCAGCTCACTGCAGCCTCTGCCTCCTGGGTTCAGTGATTCTCGTG
CCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCACTACACCCAGCTAATTTTTTTGCAATTTTAGTAGAGGTGAGGTTTCGCCATGTTGGCCAG
GCTGGTCTCGAACTCCTGGCCTCAAGTGATCCGCCTGCCTTGGCCTCCCAAGGTGCTGGGATTGCAGGCCTGAGCCACCACGCCCGGCCAGCCTTTCCGT
TTTTATTCATTCTTCTACTTGTGTCTCCTACGCTCTCAGGCCTGGCTAGGATTTCTGACTTCATACTGTTGGAGTCTGAGCTATGATTTGGAGTCCATTG
CTAGAATTTAAAGGTCTGGTAGGGCAGGCTTAAATCAAATTCTAAAATTTAGTTCTGACAGCATTATCTCAGATAAGATATGACTAGCAATCCCCCCAAC
CCTTGATATATTTGTTAAGGCTTTCTTCTACCTACTTCTTTTTCCTCATTTTTATTATTATCTTAGATTTATGTATTTTTTATGTATTATAATTTTGTTT
TCACAATAGTTTAATCCACCCAGACCAGTCACTGCTTTTATTTTCATTGCTAACTTCAGATCCAGGTTTATTTTTTCTTAAATAATGAGACAAATAAACA
TTTATGAAAAAATATTGTATAAAAGATAAAATTGAGGACTTTGAAACTGGTATTACAAACTCTATCAAATTAGGTCTGGGCTACTCTAAAAATAAGTTGG
CTGTGTTGCTTAGGCATGTGCTCTTTTTAGCCATAGCCTTATTATTGCCAGTAGCTATGGAGAATTCTCAGTTAAATGAAAATTAAGCCTGAGTTTTTAT
GCCTGGAATACTGTTATGTAAAGAGTACTTAGATGCATATAACTGGCTCTTCTTGCATTGCTTATTAAGGAGAATTAGATATGTGCATTCGAAGGAATGT
CTATTGTTTTATTATCAGTTTCAGTATACTCAAGTGTCGTTGTATCTTGGGATCATTTTTTTTCTTTAGAATTATAAGTGAATTCACAGTTGTTTTTTAT
TTAAACAACTTTCCAGGAATATATATATAATGTCCAAAATGAGGACAAGTACTACTAGAGACAGTTGCCTACTTGGTAGGACTAAAGATGGCTTATAAAA
TAATACTATCATTCTTATAGGTCTTGTGGAATCAGAGGAATCATTATAATAATTATGTTCTTAAATACAGGAGCAAGACTTTCAGTGTTTCCTGTATCGG
TGATCTCCATATTCTTTTAATTATGTATCCCTAACAGGGAAAAAAAAAAACCCTAAAACAGAACAATTTGCGCTCTCATCTCAAATACATTAATGTGTAT
TTATTTGTGAATTTATGCATATACTACTGAAATACTATATGCCGTATAATTATTGGTTAAGAAGGCGGAATCTGATGTTAGGATTTAAAACCTGCCTCTA
TCAACCTGAAGTTGATCAAGCCACTGAAAAACAAACAACATTCAACTCTTACACTTCAGTTTTCCCACTTATAAAATGGAGTGATAATTTTCTCTACCTT
ACTGGATTATTGAGTTAAGTGAATTAATGCATTTGCTTAGAATAGTACCTGGTTCATGATAAGTGCTCTGTAAATGTTATATTATTAATAATAAAATATA
TTCAAAAATAGAAATTAAAGAATCAGACTAAAAATGGATGTAAATGAAAGTTGTAAGATTTTCTTCTCAGACCTCAGTGAATGGTCCTAATTACTGCCTA
CTTTGTCCTCCCCGACTCAAAGACCCACTTTAAAGCACCAAATACCACCTACTTTGGTGATCATTGATCTAGGTAGTTTTGTGCTAGCAGCTATGTTGAT
TAAAACATGTACTTTTGAATTACAGTTTTTAAAAATGACGYTTTTATTTTTGACGTTGAACCTGTGATCTTCCTGATGTCTTAAAATGTTACTGTCAAGA
TTGAATACATTCAAGGATGTTTAACTGTGGGAATGTAAAATAACATGAGAAATTTGGCAAGAAACAAAATAATGCTGAAAGAATATGTGAGAATATTTAA
CAAGATTGTGCTGTTCTGACAAATAGAACAAATACTTGATAATTTTAAAGCAAGATACACAAAACTACGTGTTTTTTCTCTTTTATTTTTGGATACAATG
ATAGCCAAAGATTCATTCATTGAACAAGTATTTAATGAATGTCTGTTATCTGCTGTGGCCAGGCATAGTTTTAGTTGCAGGAGATGACAGCAGTGAACAA
GACAAATGCCCTGACACTATGGTGCTTACATTTTGTGGTGAAACACCAGTAGATAGTAAATTGTAATGTCTTTCAAACTAAACTGTTTATTCATTCATTC
ATTTATTCATTTATTTTTGTGACAGAGTCTCACTCTGTCACCAAGGCTAGAGTGCAGTGGCATGATCTTAGCTCACTGCAACCTCCACCTCCCAGGTTCA
AGCGATTCTCATGCCTCAGCCTCCCGAGTAGCTGAGATTACAGGTGTGCAGCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACC
ATGTTGGTCAGGCTGATCTCTAACTCCTGACCTCAAGTGATCCACCTGCCTCGGCCTCCCAAGTGGTGGGATTACAGGCATGAGCCTCTGTGCCTGGCTT
GGGTTACATTCTTGATCTTCAAGGTCAAACTTTCATCAAGGAGATTATGAAGTATGTGAGGGATTTTCTGCAGTGAGGAACGGGCCAGATGATTGATTTA
TCTTTTTTCTTTTAATCTGGTTGAAAGGCTTAGGGAGACAATTCTGTTTACTGTTAAGGACCAAAAAACAAAGTCTGGAAATGCCGTACACAATGGTCAT
GAACTACAAAATAGTAGTGGAGTGGAGAGGAGACACAGTAATACACAGCATTATTTTGAGTGAGCTCCAGCTTTTCATTCTAACCCTTGAACCGAGGAGA
AACAGCTGTCCTTTTTCATTGAGTCTGCAACAGAATGGAAATGTGACTCAGTTTATCAGCTCCCACAGAGCAGGCAGAGTAAGAGACTATTTTAAGCTGG
TTTGGGGAGCCCCTATCCCAAGCATAGAGTGGATGTTGAAGGTTGTTCCCGGCATCCACTGGTGGTGGCTTGTGGCTAGTCCTGGGCTCCCTGGGTCCTA
GGCATCTCTTGATTCTCAGTAATGAACTTGTCAGTTGGCCAATGTGGACCTGTTGACAAATTACTCTGAATTACTGTAAGGTCTCTTTTGGCTTTATTCT
CTAGGGTTTGAGTTTCTACAGGAACGTTTACATTTTTATTTTCTCGGAAGGAATCTCTTATCCTCCTGACACTGTAATTGTAGGTGCTGAAATGCTTGTT
TTCTGTCAGTGTCATCCAGTACAGATCTCTAACATTTGTGTGTGACTGGAGGYGCCCCAAGGCCCTGTTGCCTCAATTTCTTTATCTTGRTAGTGTTTGG
CCCACAGTGTGTATTCAGAGACAGATTTTGTGTACAGATAGCATTATTCAGTTGGGTTAACCATCTGATTCACCTAGATGGTTTAAATTAATTTTTCATT
TATTTGGTATTAACTTTTTAAAAATAATGTGTAARTATGGGAAGCTTTGAAAGGTACAAGAGGATGTACTATCTAAAAGTCCCTACTGTGGTCCCCAGTC
CTCTTAGAGAAAAATACTGTTAGGAATTTCTTATGATATATTCCAGAAATATTCAGAGCATGTATTAGACCATATGTATGTGCATGTATATGTATATGTG
TTCAAATATATGAGTGTTTTTATATATAAACATAAATAGTACTTGCCAATTGTTCTGCGCCTTGCTTTTTTCATTTAATGGTATTATGGAATAGGTAACT
GCAGTGTATCAGAATATAAGTTTTTGTTTCTTTTTAATGACTTCATAGTATTCCAGTATACGGATGTACTATAATTAACTAATACTCTATTTATGGATGA
GTAGGTTTTTTTCAATCCAGATGCTCATACAGTGCTCCAGCAAATATTTTTGTGCATACATCTCGGTGGCCTGGTACTAATAGATTTATAGGTTACATTG
TTAGAAGTAACTGTGTCAAAGGCATTTTTGCATAACTGGTGACTAAAATAGTATCTTATTGTAATGTTAATTAACATTTTCTTGATTAAAGTGAGAAACA
TCTTTTTATATATTTGTAGGTTATGTTTCCTGTTCTGTAAAACTCCTGTTTATTCATTTTTTGTTTTCCATTTGTTTGTTTTAGAGATGGAAATCTCCCT
GTGTTGCCCAGGCTGGCTTCGAATTTCTGGGCTCACCTGATCCTCCTGGCTCAGCCTCCTGAGTAGCTGAGACTACAGGCATGCACCATTGTGCCTGGCT
CTTTCTTTTATTCGTTTTTTTTTGTTTGGGAGGTTTAACATTTATAAAATGGTTTTATAAGTGTTCTTTACATATTCTGGACGCTAGTTTGCCGTTGTTT
TTAATGTGTTATTTTGTAATTTTTGGTTTGTTTTTATTCTTCATTATACTTCCTTTTTAAAAATTTAAAGGTTATTAAGGTAGAATTTACATACCATAAA
ATCCTTCCACTTTAAGATTAGTTCAATAATTTTAGTCAGCTTATAGAGTTGTGAAGCTATACCACAGTTCAATATTAGAACATTTACATTACCCTAAAAG
TACCCTAGTGCCTGTTTGCAGTTTATCCTTACTCCTCCTTCTAGCCCTAGGCAACTACTGATCAGCTGTCACTATAAAATTTGCTTTTCCAAGTTTCATA
TGAGTAGAATCATACAACATGTAGTTTTTTTGTGTGTCTTTCTTCTTTTTTTTTGAGATAAAATCTCATTCTGTCATCCAGGATAGAGTGCAGTGGCACG
ATCATGGCTYATTGCAGCCTCGACCTCCCTGGGCTCAGGTGATCCTCCTATCTTAGCCTCCTGAGTAGCTGGGACTACAGGTGTGTGCCAYCATGCCCAG
GTACCTTTTTTTGCATTTTTTTGTAGAGATGGAGTTTCACCATGTTGCTCAGGSTGATTTCGAATTCCTGGGCTCAAGGTATCTGCCTGCCTCAGCCTCC
CAAAGTGCTGGAATTACAGGCGTGAGCCACCATGCCTGGCCCATATCTTTCCTTTTCACTCAGTATACTGTGTTTGAGGTTCATCCAGGCTGTAATGTGT
GTCAGTAGTTCTTTTCTTTTAATTGCTCAGTAGTATTTCRTTGTATTGATATGCCACAATTTGTTCATTCATCAGTTGATGGACATTTGAGTTGTTTTAA
GTTTTTGGATGTTACAGATTAAGCTGCTGTGAACATATGTGTACAAGTCTTTGTATTTATTGTGGGTGAGTACCCAGGAATGGAATGGCTGGTGGCATAT
GTTTGATTTTTAAGAAATTACCAAACTTTTCCAAAGTGTTTTTACAATTTACCACCAGCAGTCTGAGAGTTCAAGTTGTTCTGCATCCTTCCAACAGTTG
GTATAGTCAGTTGTATAGCCATTCTAATACATGCATAGAAGTACCTCATTGTGATTTTATTTATTTATTGAGACAGTGTCTTGCTCTGTTGCCCAGGCTG
GAGTGCAGTGGTGCAATCTCAGCTCACTACAACCTCCACCTTCAGGGTTCAAGCAATTCTCATGCCTCAGCCTCCCGAGTAGCTGGGGTTACAAGTGCAC
GCCACCACGTCCAGCTAATTTTTGTATTTTTTAGTAGAGACAGGGTTCACCATGTTGGCCAGGCTGGTTTTGAACTCCTGACTTCAAGTGATCCCCTACC
TCGGCCTCTCAAAGTGCTGGGATTACAGGCATCAGCCACCACACCTGGCCCCTCATTGTGATTTTAGTTTGCATTTCCCTAAAACCTAATGAGGTTGAGT
ATCTCTATTCATGTGCTTATTTAACATCAATATTAAAATACCACTTTGGTGATATTTCTATTTGAATCTTTTGACCATTGCTAAACAAGGTTGTCTTKTT
ATTGAATTATAAGTTCTTTGTATATTCTGGATACAAGTCCTTTATCAAGTATATGATTAGCAAATATTTTCTCCCAGTGGCTTCCCTTTTCATTTTCTCA
ATGTGTCTTTTGAAATACAAAAGTTTTTAATATTTGATGGAGTGCAATTTATCAAACTTTTTTCTTTTGTGGATCTTGCTTTTGGAGTTGTATATAAGAA
CTCTGTCCAACCACAGGTTGAAAACATTTTCTCCTTTGTTTTCTTCTACAACTTTTATAGTTTTAGTTGTTACATTTAGATCTGTGATCCATTTTGAAAT
AATTTGTGTGCATGGCTTGAAGTAAGGATCTAAGTTCATTTTTCCCCCCTGCTCTGAATATCCAGTTCTTAGTACCATTTATGAAAAGTCTTTTTCTCTG
TTGAATTGTCTAAGCACCTTTGTTGAAAATCAGTTGACCATGTAAGGATTTATTTCAGGATTCTCAATTCTGTTTCATTGATTTTTATGCCTATCCTGTG
CCAGTGTCACAGCATCTTAATCACTATGACTTTATATTAAAAGTTTTGAAAGTCAGTAGTATAAATCTACAGACTCTATTCTTCCTTTTCAAAATTGTTT
TAGATCTTTTACAGTTTCATGAAAATGGTCACCTTCTCAATTTCTACAAAATGGTTTGTTTGGATTTTGATAGGTATATAAGGAATTTATAGGTCAGTTT
TCAAAGAAATGCTGTTTTGGYAGTATTGTGTCTTCCAATCCATGAATATTAAGAGTCTTTCCATTTATTTAGAGCTTTACTTTCTCTCAGTAATGTTTTG
CAGTTTTCAATATATAAGTCTTGAATTTCTTCTGTTGAATTTATTCTTAAGTGTTTTATTCTTTTAGATGCTATTGTGGGTATAATTATTTTATTTTTCA
GAATATTCATTGATGTGTAGAAATGTATGTCATTTTTGTATGTTGATCTTGTATCTTGAAACCTTGCTAAACTCATTTATTATACTCATTAGTGGTTTTT
GGTAAATTCTGTTGGATTTTCCACATAGACAGTTATGTCATCTGAAAATAATGACAGCTTCCTTTCCAATGTGGTTGCTTTTTATTTATTTTTCTTGCCT
TATTGTAATGGCTAGAACCGATAGTACAATTTATTTTTATTTATTTATTTTTTGAGACAGAGTCTTAGTGTCACCTAGCCTGGAGTGCAGTGGCACATTC
TTGGCTCACTGCAACTTCTGTCTCCCAGGCTCAGGTGATCATCCTACCTCAGCCTCCCTAGTAACTGGGACCACARGTGCATGCCACCATACCCCCAGCT
AATTTTTTGTAATTTTGGTAGAGACAGGGTTTTGCCATGTTGCCCAGGCTGGTCTTGAGCTCCTGAGCTCAAGTGATCCACCTGCCACAGCCTCCAAAAA
AGTGCTGGGATTACAGGTGTAGGCCACTGCACCCAGCCTATAGTGCAGTTTAAATAAATGTGAGAGCAGACATTCTGGCCTTGTTCCTGAGCTTCAGGGC
AGAGCATTCAGTCTTTCATCATAAGCATATTAGCTGTAGGTTTTTGCTAGGTGGCCATTTTTCAGAATAAGGGAGTTTTATTCTATTCCTAGTTTGCTAA
GAGCTTTTATCATGAATGGTTGTTAAATTTTGTCAAATGCTTTTTCAATTGATATGGTCATGTGGCTTATCTTTTATCAGTTAACAGATTGTATTGATTG
TTTAAGATTATATTAGCCTTTCATTCTTGGGATAAACTTCACTTGGTCATGGTGTATTCTTTTTATATATCGCTGGAGTTAATTTACTTTTTGTTTCTTT
TTCTTTTTTTTTTTTTTGGAGACAGAGTCTCTCTCTGTTGCCCTGGCTGGAGTGCAGTAGTGTGATCTCGGCTCCCTGCAACCTCTGCCTCCTGGGTTCC
AGCGATTCTTCTGCCGCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGTCACTGCACCAGCTAATTTTTGTATTTTTAATAGAGACACGGTTTCGCCC
TGTTGGCTAGGCTAGTCTTGAACTTCTGAGCTCAAGGTCAGAGGTGGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGTGAGCC
CCAACACCCAGCTTGGAGTTAATTTTCTGATAGTTTGATTTTGTGTCCATGTTCATAAAGCATATTGGCCTGTAGTTTACTTTTCATGTACTGTCTTTAA
CAAATTTAAATCAGGACAATACTGGCCTCATAAAATGAACAGGAAACTGTCTTTTCTCTTTTATTTTCTGGCATATATTGTATAGAGTTGCTTTATATTT
TCTTTAAATGTTTGGTAGAATTTTCCAGTGAAATCATCTGGGTCTGGAAATTTTTTTGCCGGAGGCTTTTTTCAGCTGTGAATTAATTTTTTTCAATACC
TATAGAATGTTTGGGTTATTTATTTCTTCTTAGGCCAGTTTCGATAGTTTGTGACTTTCACAGGATTAAATCATTTAATCTAAATTTTAAGCTATGTGCG
AAGAGTTGTTTTTAGTATTCCATTATTTTTAATGTCTATAGACTCTGCTGTAACATCCTCTCTTTCATTACTTATAATGGTGATTTTTGCCTTGTCTCTT
TGAAAAATCAGTTTGGTAAGAGTTACCAGTTTCATGGATCTTTTCAAGGAACCGGCTTATGGTTTCATTGGTTTTTCAATTTACTGATTTCTCCATTTTA
ATATTTTTTCCCTTCTAACTGCCTTGAGTTTGTTTGGCTCCTTTTCTTACTTTCTTAAGGTAGAAGATTATGTTCTGATTTAAGAGTTCTATGTTAATCT
AAACATTTAATGCTATACATGTTGTTCAGTCTTGCTTTAACTGCATTTCACAAATTTTGGTATTTGTATTTTCATTTTCATTAAGTTTAAAATATTTTTT
TTTCTTTTTCTTTTCTTGTTTTTGAGACAGGGTCACACTGTGTCCCCCAGACTGGAGTRCAGTGGCATGATCGCAGCTCCTTGCAGCCTCACCTCCTGGG
TTTATGTGATTCTCCCACCTTAGCCTCCTGAGTAGCTGGGACTACAGGTGCACACCACCACACCTGCCTAATTTTCGTATTTTTTTGTAGAGACAGGGTT
TTGCCATGTTTCCCAGGCCAATCTCAAACTCCTGGGCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGTGGGGATTACAGGCATGAGCCACCAYGCC
CAGCCCTATTCTTTTCAAGTACACATGGAACACTAACCAAGATAGACTACGTCCTAAGTCCTAAACCAGTCTGGAATTAAACTAGAAATCTATAACAGAA
AGATATGTGGAAGATTTGAGGGAAATTAGAAAATATTTTGGCCAGGTGTGGTCACACACACCTGTGGTCCCAGCTGTTGGGGAGGCTGAGGTGGGAGGAT
CACCTGAGCCCAGGATGTGGAGGTGGCAGTGAGCTGTGTTTGCACCACTCTGCTCTGTCCTGGGCAATAGAGTGAGAGGTCTCACAAAAAAAAAAAAAAA
AAAAAAAAAGAAAACAATAGGTATTCTGTTTTTGTTGGGATAATGTTCTTTAAATATATCTCTTTGTATTATTTTTATTTTAGTGGTTGCTCCAGGCATT
ATAATATACATACTTTTCGTAGTGTGTAGAATTAATATCTTACCACTTAAAGTACAATATACATACCTTGCCACCATACAGTCCCTTTGCCTTTTCCCCC
CTTATGTTTTCATATTTCGTATGTATTGTATCTGCATACATTGGAGACATTATCAGACAATCTATAATTTTTGCTATCCTCCATTATACATATTTAAAAC
TCTGGAGTGGGCTGGGTGTGGTCCCTTACGCCTGTAATCCAAGCACTTTGGGAGGCCGAGGCACGTGGATCACAAGGTCAGGAGATCGAGACCATCCTGG
CTAAAGCAGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGTGGGCGCCTGTAGTGTCAGCTACTCGGGAGGCTAAGGCAGAA
GAATCACTTGAACTCGGGAGGCGGAGGTTGCAGCGAGCCGAGATTGCGCCTCTGCACTCTAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAACAAAC
AAACAAAAAAACACAAAAAAACTCTGGAGTGGAGAAGACTAGTTCGTTATATTACCCAGTGTTTACCATTTCTGTTCTTCTTGTTCTTTTCCTTCATTCC
TGGTATTCTAAGTTCTTCTACAGTATAATTTCCCTGAATGATAGAACATTCATTAGCATTTCTTTTAGAGGAAGTCTTCTGTCAATTCTTTTTCTTCCCC
TGGGAATGCCTTTCTTTTACCTTTCCCAAATGATATTTTCTCTTGATACATAATTCTGTATTCATAATCCTTTTCCTTAAGCATTTTAAAACTGTTGTTC
TGCCTCTTTTAGGATTCCATGATTTCCAATGAGAAATTAGCAGTAAATTTGAATCGTTCTCCTATAACTAGTGCATCATTTTCTCTGCCTGCTTTTAATA
TATATATATATTTTTAGTTTTTCACAGTTTAACAATGATGTGTCTGGGCATGGATTTTGAACTTATTTGACTTTATCCTTTTGGGGGTTTACTAAGCTTG
GTGAACCTTTTCCCAAATTTTTGAAGTATTCAGCCATTATTTCTTCAATTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCGCTTTGTAGCT
CAGGCTGGAGTACAGTGGTGTGAACAGAACTTGTGGCAGCCTTGACCTCCCAGGATCAAGCATTCCTCCCACCTCAGCCTCCCATGTAGTCAAATATTTT
TTTCTGCARAACACTCTTCTTTCTTTTAGGACTCAAAAGACATGAATATAAATCTTTATTTTCCTAAAGGTCCACAACCTTCTGTTCTTTTCTTCCATTC
TTATTTTTTCTGTTTTTCARATTTGATTATTTCTATTGATCCGCCTTCAAGTTTACTSTTTTCTCTGTCCATTCTACTRTCAAGCCCATTCAGCGGTTTT
TTTCTGTTCTAAAATTTCCATTTCGTTTTCTTTCCTTTTTTTTTTTTTTTTTTAATGARACTTTTTTACATTCATTTGAACAGTGTTATTARAGCACGGT
TATAATGGGTGATTTGAAGTGGTTTTTCTGATAATTCCAGTATTTGTGTCATCTTGGGGTTGACTTCTTCTGGTTTAACTTTTCCCTTATGAGTTGCTTA
CATTTCCCTAGTACTCTATTGAGTGATTTTGGATTGTATCCTGGACATTAGAATATTATGAGATCCCAGATTTTGTTTAAATCCTGAGGAGAATGTGATT
TTTTTTTAAGCAAACAATCAGTCTTGTTAGGTTCAAGTTCTGATTAGCCTTCTTTAGGTTGTGATTCTTAAGTCAGTTCAATTTTTTTCAAAAGAGTTTC
ACTCTGTTGCCCAGGCTGGAGGATAGTGGTGCAATCTCAGCTCACTGCAATTCTGGGTTCAAGCAATTCTTGTGCCTCAGCCTTCCGAATAGCTGGGATT
ACAGATGTGCACCACCACCCCCAGTTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTTCKGGCCTCATGTG
ATTGACCCACCTCAGCCTCCCAAAATGCTGGGATCACATGCGTGAGCCACCATGCCTGGCTGTCAGTTCAAATTTTAAAGACTTTGTCATGTCRTGCTGT
TTGGATCTGTCTCAAGTGTGCTATTCTGTGACCTTGGCAGTAGTTTACCCCATAGTTCGGTTCCCAAAGCCTTTGGTATGCTGATTAGGGTCAGATTCGT
ACAGCTCATAAGTGAGCCTAAGAGTTTATATACCACTTTATAGGATTTCTCCCTTGAGTTTTCTCTCCATGATTTCCTCAGAATTTTCTGTGCCCTTAGG
GTCCCCCTTCCTGGTCTTCTGGCTAGAAAATATAGGCCTAGGTTTCCTTTCCGTGCTATGCAGTTCCTGTAATTGTATCTCCATCTGTTATCAAGCAGCA
AGAGGACAAAGAGAGTAGAAAAGTAGGGAAGATGTTTCCCCTGTTAATGAGGCCACAGTGCCTTTGGTAGGAAAATATGATTCCCCTCCTTCAAAGTTTT
AGTTATCGCCTCGCCACTGTTGCTGTCACCATTACCTCTGGCACTTCTGCTTCCATATAGTAGCCTGGGAGTTGGAGCAGGAAAGAACACAGGGAAAAAT
GAAAAGAAAGGGATTTTCCTCCCTCTCTTTGACGCTTAGGAGTTTCTTTTTTCATATCTCAGCAGAAAAATAAATCTACCTTGATATTAATATTATATTC
TGGCTCTCTTATGCCTAGTATTTACATGAAGTATCATTTTCTATTTTTTTATTTTCCAGCCTGTGTCTTTAAATGTGATTTCTTTTAGATATTTATAATT
GACTCATTTGAATCCATTCTGACATTCTGGCTTAAATAATTTAAAATGTAATGCATATAATAAGTTTTACCATATTATGATTTGTTTTCTATATGTCCTG
TTTCTTGCCTCCCTTTTCTGTTTTTCCTGCCTTCTTTCCAGTTAGTTTTGTGCATTTTATTTCATTTTTCATTTTATATTTACTCTTGGCTTTCTTTTAT
TTTCTTTGTGTTTACTCTAGTTTATAATATACAATTTCATCATCTACTTTCAAATATTATTATACTACTTCCCATGTAAAATAAGACTGTTACAATAATA
TACTTCCATTTCTTCCCTTCTTTTTGCTACTGTTGTCAAAATTTTACTTGTATCTTTGTTATAAGCTCTACTTTTTTTTTTTCTTTAAACAATCAAGTAT
ATTTAAAAGACATTAAGCAATGAAGAAAAATCTCCTTGGTTAACCCATACATTACTATTTACACACTTTTTTCCTTTATGTAGATCTAAATTTTCATCTG
GTATTATTTTCCTTTCTCCTCAATAACTAAGATCTCTTATAGTACAGGTTTTTAAGGCTTCTTACAATGCAGGTCTGTGAGGAATTAATTCTTCTTTTGT
CTTATAATGTTGTTATTTTGACTTCATTTTCTCTGAATATAGAACTTTAGGTTGGCAAGTTTTTTTCCTATCTRTATTTTGAAGATGTTATTCCGTTGTT
GCCTGGATTGAATACTTTCTGGCAAGATGTCAGTAGTCATGTTTATATATAATGTTTCCTTTATATAAAGTGACCTTTTTCTCTGGGTGCTTTTAAATTT
TCTCTTTATCATTCATTTTCAACAAGTTAATTATGCCTTGGTGTGGAGTTTGTGTATTATTGTTTAATTGGGGTTTTCATGAAGTTTTTAAATAGGTGGG
TTTGTAGTTTTTATCAGTTTAGGAAATTCTAGTCATTATTCACATTTCTTTTTCTGTTTTGTTCTCTTTTTTGGTGTTCCTCCTTGGTACTCCAATTATA
CGTGGTTGATTACATGATACTTTCCCAGGGAGACTTAGTTTATTTCATTATTATTTATTTCATTTTATGTAGATTCTGATGCTGTGTCTTAAAGTTTATT
AGTCTTTTCTTACTGCAGTGTATAATTTGCTGTTAATTTATTCAGTGAGAAATTTTCATTTTATATATTGACTATTTTATGTCTGGAATTTTCTTTTCAC
TCTTTTTTATATCTTCAATTTTCTCRTACTTTTTATTTCCATTAAGTTCTTACACAATTACATTTGTGTCCCTGGTCTATAATTTCTACCATTTCTGAAT
CTGTTTCTGTTGGCTAATTTTTCTTCTGAGTATGACATCTTATTGTTGTCTTTGTAATTTTTGATAAGTGGAGCATTGTGAGTGTTACATTGTTGATTGT
CTGGATTTTATATTTCTTTAAAGCATGGCAGGCTTTTTTTTTTTTTTTATAGACAGGGTCTTGCTCTGTTGCCCAGTCTAGAGTGCAGTGATGTGATCAT
AACTCACTGTAACCCCAAACTCCAGGGCTTAAGTGATCCTCCTACCTCTCATATATCTGGGACTACAGGTGTGCACTACCACACTGCTGGAATTACAGGC
GTGAGCCACCACACTTAGCCAAAGCCTGTATTTTTATGGTGTAGATTTATCAGAAAACAAATTTAACCACCCATCTCAATATAGAACTAATTCACCCCGG
TAATGGTGGCTCATCCCTGTAATCCCATGATTTTGGGAGGCTGAGACGGGAGGATCACTTGAGCCGAGGAGTTTGAGACCAGCGTGGGCAACACAGTGAA
ACCCCGTCTCTACAAGAAATAAAAAATTAGCCAGACTTCGTGGCGTGTACCTGTAGTCTCAGCTAGTTGGAAGGATGAGGTGGGAGGATCGCTTGAGCCC
AGGAGATTGGGACTGCAGTGAACCGTGATTATGCCACTTTACTCCAGCTTAAGCAACAGAGCAAGGCTCTGTTTAAAATCCCCCCTCTGCCCAAAACTGT
CTACTTCTATATAACTCAGTTACATGAGATGTTTTTCCTTCTCACAGGTTCAGTTTAATTTGCAGTTTACAAAACCAAATGCATCACTAGGAGATGTTCA
GTCAGGAGCAACTATTAGTATGCCTTGCTCAACTGATAAGGAAAAGTAAGTGCTTAATGACATAAAATTTAATGTTTGCAATTTTGAAGGCCATCTTACA
GAATTTTTATCAGTGCTTGAGAGCTGTGATGCCCACCTGTTTACCTGAGACATTTCAAGTTACTGATCATTGGAATTTAAGTTGAATTACTCTTAGCTAT
AAAAAAGAGATTTCTCATACTTTTTTCTGTTTCCTCCTCCAACAATCTACTCATTATTTTTTAATGTGGGATGTGCTTAGATAGTAAAATTTCGTTTGTT
GAAAGAGATTTTCCTACATAACTGAAGACTGGGCTTTCAAATATTCTCAGACATATTCATAGAAATTTTTAAAAATTCCTCATGGTCAGCTGTTTTTGTT
TTCTTATATGGCTATGTCTGTCCCTGGAAGCTCTCCATTTTTCTGATTTATTGCTTTCAGTATAATCTAATCTAAAATACCAGCTAGTTAATATGCTAGA
AATATACAGAGAATGAGTAAAAAGGTTTGTGAGATTTTCCCATAGATAACAAAAATAAGCTTTAATGCCATTTTGCGACTTCCATTCCCTGTTTTTTAAA
CAGGGTTTACATAGTGAAGTCTGTTGATTCAATGACTTGTGGTTAAATCAAACCACTCATACAGGCAAACTTTTCTCTCTGGATAGACTTCATGTTTGTA
ATTTATTACTACTAATATAGTTATTTATTAAATTTAATGGCTTTAAGGCCTGTCTGCTGATACTCATTATCATGAGCTATCACCATCCTAGTTCTACATT
ACAAACTAAATTACTAACATAGCTCAAAGAGGGTTCTTATCCCCAGCTCTCTAGCTTTTATTCATTGGATCATGATGTGTTAAAATAATTAAAATGTTTG
TGGCTGGTCACAGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGGCCGGGAGTTCCAAGACCAGCCTGGCCAAC
ATGGTGAAACTCCATCTCTACGAAAAATACAAAAATTAACCGGGCGTGGTGGGCACGTGTAATCTCAGTTACTCAGGAGGCTGAAGCATGAGAATCGCTT
CAACCCAGGAGGCAAGAAGTTGCAGTGAGCCGATATTGTGCCACTGTGCTCCAGCCTGGGCGATAAGAGCAAGACTCTGTCTCAAATAAAATAAATAGAA
AAAATAATGTAAAAAAGTTAATATTTGTGAGCCTCCATTTTTAAAAAAGATCAAAATTCACTTGTTCACAAGGGAGAGCACCTTGAATTCCTGTTAATGG
TAGAATATCATAATGTTTGATATATTTAATTCATCATAGGCCAGGCATAGTGACATACACCTGTAGTCCCAGCTACATGGGAGGCTGAGGCAGGAGGATC
ACTTGAGTCTGGGAGGTCAAGACTGCAGTGAGCCATGATCCTGCCACTGCACTCCAGCCTGGGTGATAGAGTGGGGCCCTGCCTCAAAAGGAAAAAAACC
AAAAAAAAAGCCAGACATGGTGGTACATGCTTGTAGTTCCAGCTGCTTGGGAGGCTGAGGGATCACTTGAGCCTGGGAGTTGGAGTCTGTAGTAAGCTAT
GATCAGTCACATCACTGCACTCCAAACTGGGCCTCAAAACGAGAACCTGTCTCAAAAAAAAAAAAAAAAATCAAATCATTATAGACAGAGCAATTTTACT
AGCAGAAAATATGACAATCGTATTTGTAGTATGAAGTCAAACATATCCATCTGTCCATAAAATTAGGACTGTTCAGTGATTTTGAGTTTTTTCTGGTTCT
TTTATTTGTCAGCTAGCAAAAAGTGGCACCGGGTATCAAACTTTAAAGAAAAAAATAAAATAGAAAAAAAGTCTGTTCACCCACTTATTTCTGAAAATTG
GGTCAAGAGCAACCATCATTTAATTTTAAGGATTGATTTATTCTCATTGTTTTGCAAGAGCCTTTAACTTCTTATTACAAGTAATACTAGGGAAACCGTT
AACACTGGATGTATTTAGAAAGGATGGCAGTGGTAGAAAGGGGAAACACAGAAATGCCCTTCTTTCTCCCCCAGATTTTCTCATTTGTATTAATTTGATC
AGAATTTATTGTGTAATGTGTGTTAATACTTGATCATGACTACTTTGAAGCACTAGAAAATTTCGAAGAGCTTTTGGTCAAAGGAAAAAGAAATCTTATT
TTAAATATGAGTTAGAAATTAATAGTGTTACTCTCAAGGCACGTATTTTTCTGTCATGTATCACTTATGTGCTAGTATTTAAATTTTTATAGCACTTGTA
GAATTTTCATTTTTCCCACCATCCTTATCCCAGCTCTTAAAATTTTATTATAATCTACTCTTTACTGAGGATACTTTGGTTTATGTATAAAATTACCATT
TGCTTAAGAAACCAGTGAAGAATGTGTTCTGAACAAAGCTAAGCTATAAATAGAACTTAGTTACATTATCTTATATATATGTATACATATGAGATAAACC
TTCAAAGTTAATAAAGACTTTGTTAAATAAGTTATTACCATTTTCTTTTTAAGTGGTGAAAATGTAGGGTTGGAATCCAAATACCTGAAGAAAAGGGAAG
ATAGCATTCCTTTACGCGGACTCAGCCAGAACCTATTTAGTAATTCAGGTAAGCAGGGATTTCTGGATTTTTGTACTTTATAGTTGAATTAAATTTAATG
TATGAAGACTTAATGAATACCAGTAACCTTTTTTTGTCCTCATTTGCAGACCATCAGAGAGATGGCACTTTAGGAGCATTACATACATCTTCCAAACCCA
CAGCGCTCCCCTCTGCGTCTTCAGCCTATTTCCCTGGGCAGTTACCAAACAGTTAATTCTAGTGTCATGTTTTACTTTTTATTGGTATTTTAGAAACTCA
GGTGCTTAAAAAATATGTCAACACAAACCAGATCCTCAAATAGCAAGTTTCAAATTTTACTTGAGCTGTTAAAGACTGGATACTTTAAGTACTGCTTTTA
TGGCAGTTTATAATATAGGAACAAATTTGTACTTGGGGATTGGTAAAGATTGTGAGTAAATGACATTTTTTGGTTTGTGAACATGGCGTTTTATAGAATA
ATATGAATTTTATTAAGCTATTCTTTAGAAATTCAGTTCTAAGGAAAGAGTTGATCCTTATGAGGGAGATTCTGATCATATTAAAAATCTGGGTAAACTA
AAACCTGCTCATAACCTCATAGTATGCAACCAAAGAATACTAATTCATTTTATCACTTTCATTGGTAAAACTTTTAAATTCAACACCTGAAAATYATGAG
GGAAAATGATTACCTCTTGAGATATATTATTGATGACATTTAAAGGGAAAAGTCCTAAATTTACCTTAAATAACTGAAATGAATTAAGCCTTCATAGCGT
ATTTTCCTTGAAGCATTTAAATTTGCTAGTGATGAATCAAATAAATTTGATATACTTAAAATAATTTGGACAGTTTTTATGTGACCAGATTAAGTGCTTT
TGTCATTTGAGCTGACAAGTTTTTAAAACTTCAGTGCTTCCTAAATGTTTATACTCATCTAGTTTTTCTCAATTTGTAGTTTTATTATGCAGTTAAATCT
GTATCAGTGGACTTTTAAAACTTGGTACTACTACTAAATCTACTATATCATGAATATTCATTTATTTTTATAGTATSAGAACTTGGGTTGATTTCAATGT
TAATAAACTAGGCAAAACAAATAACTGTTAGAAGGTACAATTTTCTTCTCTTCCCTGTAACTGAAAGTTTTAAGAATTGTTCCTTGGGGAAAAATTTTTT
TAAAATTCACCTAGAATCATAGGGCCTCATTTTGTTTTCTTATTGACAAACAATACCTGGTAGCATTCTCTAAAGAGTCTTCTAGATCAATTTTTATAAA
GTACTAATGCTCATGTGATAATTTAAAATTATTTTCAACTACTTTATTACACAGATGAAGAAACATTTCAAGATATTGATGTAATAACATTACTGAGTCC
CATGGTAAGAAAGAATCTTTGCTAATTTTTTTTTTTTTTTTACGAAGCCAGTATCTTGAAACTATTGGCAATTGCAAGTGTCTTTAAACTAGGGATCTAA
TCTGAAAATTCAGTAACTAATATTAGGCAGTTGATACTCCCCCACCTCCCCCATTTAGATACACTACTGTATTAGTGAGAATACTTGGTACAGTAACTTG
AAAGCACTTGCTATTCTGGAAAGAAGCCTCTTGGTGATTTTGGAAGGAGCTTTATTGTAAATACTATGGAAGGGGCTTTGTTGTAAATACTATGTAATAT
ATATAAAATATTGTGACATGTTTTGGATGGGATGCATGACATACAGGTAGCTCTCTTTTTTAAAATATAGGTATCTCTTTGCATATATATACACAAGGAA
AGTTGAATTTTCAGGAGAGATCATTCTGATATCTTGCAAATTTGTATTAAATGTATACAGACTTCCAAGTGTGCTAATTCTTTACCTCCTAAACTTTTAG
TTGCAATTGTTTTGCAGTGTAAAATTGTACATGTGTTAATAATCAAAAAGTGTTGCATTTAATGTTATTTCTGTAAACTTTGAGCTTTGTTAATAAACTA
TTATGCAGCATCTACACTTTGAAAATCAAGTACTTCAAAACGCATACTGCATTTTTGTTTCTTTCCTCTTGTCTTCCTTGAAGAGCATTTTTTAGTGAGG
GAAAAGAAATGGATGCAAAGAAAGAATGAATAATGCTTTGATTTGTTACTGTAAAAATATGGTAACAAAGCCAAAACAGACCCTGTAGGAACTCACAGAT
CAAGACTTTTTTAAAAAAAAAATCATTAAAATATTTAACTTTATTAACAGAATATTTACATTTCTTTTAAGACCTTATTTAACCATAGTGAGTGTTCCAA
GTTTAAAAAGCATTAAGCAATAACCACACACAAGATGAAAACAGTGTAAACTATACAGTTCTTTATATACAATTTTTACAAAGTAACACTTTTTTAAATA
ATATAACTGGACACAAAAATATACACTTTAGAGAAATTCACATCGGTAATTGTATAAAGCTCTCCTCTAGGGTCCTGAAAATTTAGGACAAACATTAGCT
CTGTAAATAAAGTGTTACTGTGACAGTCCTGAAAGGCCACTATATATATTTATCTACATAATAGATATCACACTGACATTTTCAAGGCTACCAGCTTTAC
TATATAATTTTTAGATTATGTATTCAAGTGTTGAGGTGCTTATGATTATGCAAACATTAAAAGAATAGTGGTATAAGAAGTAGCTGGGGAATAAATTTGA
GCCAGCATTTAGATTACAGGCTCTAAATACCCCAACTTAAATGCTAAATGGCTGATACTTTCTCACTTCAAAAACAGTAGTGAATAATGTTTAAAAGTAC
TGCAAACAAGCTCAAAACATGATTCAGATTTAGTACAGTTTTCTTAAGAGTTTTTTTTTTTAAATGCAAACAATTCATTTACCATTTCTTTGTTTTAGTG
CATCTGCATTAAGGCTTTGAATTATTTGACCCAAGATTTTACAATATTAAAATCTGACTCAAAATTTTACAATGTTAAAACAAATAGGTCCACAACCATA
CTACCTACTGTGTCTCACTGAGTCAGCATAGAGTTAAAGCTCAACACCTTAAGGAAATGGTAGCAGAGACATTTGCTAATATCTAAGAAGTTACATATAT
AGTTTTTAATTAAAGGATGTATAATAAAACAAATAGCTTAGTGGCRAGAAATTGGTGCTAATAAACAAAAGGTTTTTCAAAAGAAATTGTAACATCTTTG
GAAAACTGTCTGGTTCTAAGTTCCCACTTCCTTTAGTTCCCACGGAGTTCATGCAGATACATTTCTTAAGACAATCTTAAAGTACACTGTGGATGGAAAT
GGAATGTACATCCAGAACTAGAGGTGAAAACTAAGACCTGGGTGCTGATAGAAAAATCTTCCTGATTTCAGTCGTCACACATTTGTGTCCTGGAGTAAAG
GTTCTTTGGCCTCTCCTGGCGCTTGTGTATTATGAGGATGGCTGTGACTGCCACAGTGCTTTCTCCAACTGCTGGACCTTAAGCTTAAATTGGTATGTTC
CGGAATAAACAAGGCAACAAGCAGAGCCAGCAGTACTGAACAGGCTCCAAATAGGAAGGGAGGGCCAGGGATGATGGAATTCTGAGGAAGAATAAAGTAA
TTAGGATTTTTACACAAATACTTTTACTCATAAGGAGAAACTACATACCTTTTAGTATTAACTTATGAATTACAAGCTAATTGCTCTTCTCTTTATTAAA
GCCATAATTATAAAAGGCATTCCCTTTTTAGGAGAAAAGAGATACTATCACATTCTCTATAAAATTCTGGGAATAACAACTGGCAAAACAGCCTATGCGA
AAATATTACATCATTACTTTCAGCACAAAATGTGAACACAGCTATTCTATGATTAATTTGTTAGTCCAAGGGGAAAACGTTTATAGAAAGATCTCAAAAA
TAAAATCAGGCTGCACGTGTTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTG
GCCAACATGGTGAAACCTCGTCTCTACTAAAAATACAAAAAAAATTAGCCGGTCATGGTGGCATATGCCTGTAATCCCAGCTACCCGGGAGGCTGATGTT
AAAAGAATCGCTTGAACTTGGGAGATAGAGGTTGCAGAGAGCCAAGATTGTGCCACTGCATTCCAGCCTGTGTGACAGAGTAAGACTGTCTCAGAAACAA
CAAAAAACAAAATAAAATCAGGTAGCATACAGTATTTACTACAGTAGCAAAATAAATTACCATTTCTTTGTTTCAAGAAGGTAATTATAATTTCAAGTGA
CTGGAAGTGAGAAAAACACAGGTTACCAAGAAAAAGAGACCTTTGTTTTAGCCCAAAATTACATTCATTCTTAGCAGAAGCTTGCACTGCCAGTTTTGTG
TATAGCCCACAAACATTCTTTTATTTAAAAGTAGTCTTAGTGGGTTGGAAGATAAGTACAGAACTCTGCTAAATAAGCCAGGAAACTGATGAGCTGCTAA
TATTGGCCAAAATGATCAGCATTGTTTGGCATTAATTTTCAGTTGAAARGAGGGAAATATAGCAAACAGTGAACAAAGGTTATTTACCATAAGCCTGCCT
TTTGTATGAAAAGTTAGTTAACATACACAACTGTGATATTAGAAAAGTTTCAAAAGAGACTAGTAGTAAAGAGAAATGGTTTGTTACATATGCCATTGAC
AAACTAGGTACTTAAAATTTTTCATTCTCAAGTGGAAAAAAAATATGCACAGCCAATTTTCACAAGGTGGTATGTAGAAGAACACAGTCCCTTAAACTCT
GGTTTTTAAGCATTTTATCCAATCTCAAATAGAATCTCACATAAAAGCTTTCATGACCAAAAACCAGTAGCCTTTAATCTAGCCAAATGAACCAYACAAT
TTGATCATGTTGAATGAGAATTACCTGTTCAAAGTGGTGCTGAGGGCTTGTGTTTGTTCCCAAGTCTGTTCCTGTTAYTGGCAGTTCTTTAAGTTCCACA
TGGAATATGTAGAAAATGAATCCATAGAGGGCCGGTCCCAGACCATTGCATAATCCTCGAATTCCTGTTATCATTCCTTGAACGACACCTACATTGTTTA
AACAAATTATCACTTAGTAAACTACCTGGTTTTTTTTCCCTACCTTAGAACCAGTACAAATATGAAATCACTTAATCTAAAATCAAGCTTCTTATCAGAC
ACTAGCAATTTATAGCAATGTCATTAAAAACTATTAATATTTAGAAGCTATCAGCTCTACAAAGTGTAGTAAGCTGTCCTATGCAAACATGAGCTCTGAT
GTACCCATATATAGGTCTCACATAGAAACAAGTGGGCAAAACTACTTTATTTCCCTAGATTACAGCCTTCAAAACATGGCTGGTTAAAAATCAGTCACAA
TTTCACAACTACAAATGTTAAAATTTATCTGTCCCCAAGCAAGTACTTAAGACCCCTTTTAGTCAAAAATAAAGTGGGGGGGTCAACTGGCGGGAGTGCA
GTGGCGCAAACTTGGCTCACTGCAGCCTCAACTTCCTGGGCTCAAATACCTGGCTAATTTTTGTACTTTTTGTAGAGATGGGGTCTCACTTTGTTGCCTA
GGGTGGTGTTGAACTCAACTCAAGTGATCCTCCTGCCTCAGCCTACCAAAGTGCTGTGATTACAGGCATTGAGCCACTGTGCCCAGCCAAAATCACACTT
TTTTTTTTGAGACGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAACTCCGCTTCCAGGGTTCAAGTGATTCT
CCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTGCACCACGACGCCTGGTTGATTTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTG
ATCTCGAACTCCTGACCTTAGGTGATCCACCAGCCTTGGCCTCCCAAAGCACTGAGATTACAGGCATGAGCCACTGCGCCCGGCCAATAACACTGTTTTA
ACAGCATTTGATTTTTGTTTCTCTCTTTTGGATCTTTAATTTAAAATGCAACTTGCTTTGGCCATAGGCCTTTCCTTCCTCATTTATCAACCAAGTGACA
ACTGCCACTGTTTTGCAGTGCCCCTTTTATCCTTATGACTAGACAAAACATATCCTTTTCAAAGAAGTATTTGTCATCTGTTAGCATCCCAAGAATTAAA
TGTTCCCACCAAAAAAAAAAAAGAGAGCATATGACATTAAAGATGTTGCTGTGTTACATATCTTCAGATGACTGAAACTATATGATTTCTTTTTTTTTTT
TTATTAGAGATGGGAGTCTTGCTGTGTTGCCTAAGCTAGCTTCAAACTCTTGAGCTCAAGTAATCCTCCTGCCTCAGCTTCCCAAGTGGCTGGGACAACA
TTCATAAAAGGTCTATGAATATATCCCACAAGGTGTCTAGCACAACACAGCAAAAACTTAATGCTTAGTTAATATTCTGTGGCCAACATTCATCAGTAAA
TTTTTTTGAGACAGGTCTCTCAAGGTCTCTCACTGTGTCGCCCAGGTTGGAGTTCACTGGCCTGATTTTGGCTCASTGCAACCTCCGCCTCTGAGACTCA
AGTGATCCTCCAACCTCAGCCTCCCAAGTAACTGGGACTACAAGCATGCGCCACCCTGCCCAGCTAATTTTTGCATTTTAGTGATGGGGTTTCCCCATGT
TGCCCAGGCTGGTCTCCAACTCCTGAACTCAAGCAATCTGCCTGCCTCGGCCTCTCAAAGTGTTGGGATTACAGGTGTGAGCCACCATGCCCAGCCTCAT
CAGTAAATTTTCTATGAACAGAACAGATAAGCCACATATTCTAAGTGAGAGAAAAGGGAATATGTATCTACCTAAGGATAAATACCCTAGAATCTGCTTT
TCCTGTTTATATCAAAAGCAATTTTAAAAGTCTCTACCCTGAAGATATACTTATGTTTCAGTACATAGGAGACAGAACACAGGATTAGAACATTCTGTAC
TTTTAAATAATTATCGCTAGTTCCTATCAACTCACCCTGTTGATCAGCATCAGCAGTTCGTGAAACAAGTGCACTGACAGCAGGAAAGGTGATGCTAGAC
ATGGCTGCTACTGCCCCAGCAGCCCACATCATCCTATAAGGAGAGCAGCAAAACAAAAACAGTAAATTCTTCTCCACYGTACCTGAAAGTCAAACTACAT
AATTAAGTAATTCTTACTGTGAAATGGCTGTAGAGAAAAGGAGAACTGAACTTGCTTACTAGGTGACTATGGGCAAGTCGCTTAACAATCTGACCCTGTA
TACAAAGACAGCAACTTAATTCACAAGAGTGCTGTGAGGGTGTAATGTAAAATAGGGATATCATGTTCCAAACTGTAAAATGTGCTGGGTATTATTTCTA
CAGGCAATTGAGAGGTTATATTGAGGATAATGTATAATATAGATGACGAAACATCATCAAATATTTCCAAACACATGAAGCCAACAAGTCTTTGGCAAAG
TTCTTATGGATGGATTTGTGAAGATATCGCTGATTTGATCTAATCCTTAAATTGTAAAGAACAAGTAACTTGGATGTTMCTGGCTTGATGTTTAAAAGAA
ATGTTTTAGGTAATTTCAATTGTGAGCACCTCTTTGCAAAGGCTAGTTTGGAGAACAAATCATCACCCTCTTGATGCTTGCTTATATCCAAGTCCAAACA
GAGACGAGGCAGTCAGTTGTTTGAAATATTAGTGCAAACCATGGAGTTCAGTGCCATAATGCCTGAGCACAATAATACTATCTACGTGGGCAGCCTGACA
ACAAGCGTCACTACTCAAGTCCCCTGCAGGAAACCCGACTGGTCAGAAAAGCTGAGACACAGCATGAAGCTGGCACCAAAATAACTGGATTGTTTTCACT
TCTGGTTTGCTATCAGTAATGATCACTGGTTATACAACTTTCTTTTTCCTGACCAGAAAAACAAAAAATGTAAATAACTTTCAGGGCCTTGTTGCTATGG
GATTACATACTTTTTCCTAGTAACGGACTGATTTAGATTAAATGCTCCTTAAAGATTCAAAAGCTGTATAATCTCATTCAAAAATTCAGCCTGTCATTTA
GCTATAAAAGGTCACCTTTTTAATCCTCAAGCCATTCTAGGAGAACATATAAATRTACAAGTGGCAGACTTATATTAGACACATTTTGAAAGATAAAAAG
CATAGTATGAGACAGATTACAGTCTACCCCTCAGTTGAGAAGCAAATAAAAACACAAGGGCTAACACCAAAATTAAAAATATTAACATTAAAATATTTAT
ACTTACCAAGGTTYTGAACCAAAGCCATACCATGCCAACTGTAATATTTGAAATCCTAGACCCAGTAAAATGGTGTTYTTATTTCCAATTGACCTCATAA
GTAAACTCAAGACTATGGTYTGAAAAAAAAAAAAAAAGATTTATCAGAATAAAGTTTTAAAAAGTGACTTCTTTCAATCTACACTATAAAAGGACTATTG
GCACTTTTCTACAATTTGGCTGATTTTCAGCAATAATTGCCCTGAATATGTCTGAGATCACTAGTCCAGGTCACATAAGCAGATGAAAAGTCCCTCTGCT
GACATAGATCCAGACTGAGAGTTAGAAAACTGAAAGATAAAACTTCCTATTCAGTACATTTCTACTGAGGACCACTTAAATCAGTAGTTGAAAATGGAAG
GGTCAAAAGTTCTAACTAATGATTTGGAGATCCCCATTACATAATAGCCTTAAAGCTTGTTTAGGTCCAAGTTAGTCTAAAATGCTTATTTCCACAACTA
AAGAAAAACTAACAGAACAATGATTACCCATATATTATTTACCTAAGTTAATCTGTTGTTGAAACCATGATGCCTTTTATAAACAGTAAATTAATAAGCT
TGATTTGGGATAAATGCAGTATACTATACAGCAGACTTTAGAAAAACAGCCTGGATCATAATCTTGGCTTTGTGTGGCTCTCAGCAAGTCACTTCACTTT
GAGCCTCACTTTTGTCTCTTTGCAAATGGGGATAACAGCACCTATTTCAAAACCTTGTCATGGGAATTAAATGAGATATATTTACATAAAGTTCTTAGAA
TTGTGCCTGGCAATAATCAGCGGTTAATAAACAATATTATCAGTGGGTGGGTTTTCTTGTGCCTCCTTTTTCTTTCAAAGTCAACAAAGTTCAGCAGTGA
TTTGGGAACATTAGAAAATTTTTTTTTGCTATTCTAACTAACGTTTTTAATATACTACATAAGATAGCTAGTAAGTCCATAGACAAGTAAAAATAATTCA
GGAAATCACTATTTTATGATGGGCTGACACTTTAAAACTCATAAAATATAAGTTTTGAATTCTTTAAATTGAGATGGCCACTTAAGAATTTAATCACAAA
TATGCCAGTGAAAAGCAAATGATTCATTCAAGGATTTTTGAGCAATTAGAACTCACAGCTTTCTTGTCTAAGACTTTCACTTAAATCACGTGAGTATAAG
ACTGAGTTCCATGTAGAATTATATTCTTCGGCAACCAAACCAGAAAAGGAAACTTGCCCAGAGCCAGCAGTTAGCTGAGAAAAACTTCAACTGAAAGAAA
CATTTAGGCCAGGCACAGTGACTCATATCTGTAATCCCAGCACTTTGGGGAACTGAGATGGAAGGACTGCTTGAACCCAGGAGTTTGAGACCAGCCTGGA
CAACATAAAGAGACCACATCTCTACAAAAAATTGAAAAATTAGCCAGGCTGGTGGCACACACCTGTGGTCCCAGCTACTCAGGAGGCTGAGTCCAGAGGA
TCACTCGAGCCCAGGAGGTCGAGGCTGCAGTAAGCCATGATCACACCACTGCACTCCAGCCTGGGTGACAGAGACCATCTCAAGTCACCCATGACTTGTG
GGTGGGAACTGGTGGCCAATATTATAAAAAATAATCAGAAAGATTAGAAATGATTAGGATTCTAATTAGGGTTAGAAATAATTAAAAATGATTTTATTTG
TGGACTATATCAGAGACTGGCTTTCAATTAATTATGAAAAAGGAAACTGTAAGTATACCCAAAGCTCTGTGGCCTCCAACTGTCTGAGAAGAACAGGGAA
CTATAATGCAAAGTTGAAGAACTTCTGGGAAACTACTTTTAAGAACATCCCGGAAGGTAGCACTTTCATCTAAAAAGCTGTGATTCTTTATATGGCTCTA
GGAACTCACAGAGCAGAAAACATTTGTTCTCATCATTCATTGAGATGATGATAAGCATTACAAGGAAGAAATGCTGTTAAAAAATAGATTTCACTTAATG
ATGAAATCCCTGGCACTTCAGCCAAGAGACAGGACAGTGAAGAAGGCTGAGCATCAACTCCCAGCTCAGTGGGAACAGGATGGCATGGGCCAGCCATGTA
CCCTGGAGCACGTGTTCTTTCAGGAATGCTAGTCTAAGAAAGCTGACACTTCTCAAGCAGAGATCATTAATATTACCAGAAAGTACTTATAAAATGCGGT
CATCTCATAGCCCTTCAACCAACCCATCTAGCCAGTAAGTACTTATCTGCAGAAATGACTATCTTCCCCTTTGTGGAAAGCTGTTCTCAAAGAATAAATC
CCAATTCAATAAAAAAGGCTTAGAATGCATTATTAGCCTCATTTCCTTTTTATAGATAAGATTAACTGGAGAATATATTTTCTTTTTCTTTTGGGTTTTT
TTTTCTTTTGAGACGGAGTCTCGCTCTGTTGCCAAGGCTAGAGTGCAGTGTCACAATCTTGGCTCACTGCCACCTCTGCCTCCGGGGTTCAAGCGATTTT
TCTGCCTCAGCCTCCCGAGTAGCTGGGACTCAGGTGCCCACCACCATGCCYGCTAATTTTTGTATTTTTAGTAAAGACAGGGTTCCACCATATTGGCCAG
GCTGGTTTCGAACTTCTGACCTTGTGATCCAGCTGCCTCGGCCTCCCAAAGTGCTGGTATCTCAGGCGTGAGCCACCACGTGCCCAGCCTTTCTTTTTCC
CCCCGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCTGTGGCGCAATGCTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTG
CCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACGTGCCACCATGCCCAGCTAAATTTTTTTTGCATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCC
AGGCTGGTCTCGAACTCCTGACCTCAGGTGATTCACCCACCTTGGCCTCCCAAAGTGCTAAGGTTATAGGTGTGGGCCACCGTGCCCGGCCAAGAATATA
TTTTCTTAAGGCCATGAGATGAGTCATTAAAATTGGAAACAATGAGATACACCAATCCCCCTTTCCTGGGGTAACGTCCTATGTGCAGAATTACTGCAGC
AGGCCCACTGCTGTGAGAACCTCCTCTTGGACTCCTTCCCCTACAGCCTATCTTGTGACCCAAAGCCCTAAAAGACACCGATACTTACAACACTGTAACT
GGGAACACTGATTTTCTTCTTGAAGGCAGGAACTTTTCTCTTATTTACATTTATATCCCCAGCACCCAGTAAGTTCTTAATAAGTGTTTATGGAAAGCAT
GCATAATTCTAAATGTTATAATATTCTCAATAATATTAATAATAATGGAACAAAATACTTAATATATAAGTGTTCTTGAACGGAAAAAATTTTTGGTGTC
CCTTAATTTAACTCTCATTTTGAAGATGACAGCACTGAGTCCCAAAGGTTAAATGACTTAAGCAAGATGGCATAGCTGATGAACAGCTAAGCTAACACTA
ACATCAGCTTTGGTTAGTCTGTCAACAAATATTTGCCAAATTCCTAATAAGACCAACTCTTATTCTTGGCCTGAAGACGCATGGGTGAGTAAGTCAAAGT
ATCCATCAACACACGGACTACCTTCTCATGGAGGAAAGATGCATATGAGCCTGCTTATTTAACAAGATATTCCAGGTTGTAGCTGCTATGAACAAAATAA
AACAGGGCAGTGTGATGGAGATGCTGCTTAAACCAGGATCCAGGGAAGGCCTTTTGAAGTGAGAGCTCACTAAGGGGAGAGACCTAGTTATGCAAAGATC
TGGGGAAAGAGAACACCCCAAGCAAGGCTGACAGCAAGTGCAAAGGCCCTGGACTGAAACAGAACATACTCAACCATGTGGAGAGTGGAGGAAAATGACA
TAATAAGGAGTCTAGATTTTATTCTGGTTGCAAAGGAAAGTGAGTTATAGGTAAGATGCGATTAAATTTCCATTTTACAAAAATTACTCTGCCAAGTGCA
GAATGAACTATAGTGAGGCAAGATGGAAGCAGAGAGACCAGATGGAAGATATGGCCACGGCTCAGATTGGGTTCCTACTAATGGAGAATATCAGAAACGC
TCTGATTCAAGATATATTTTGGAGAGAGAGGTGATAGGAAGTATCATTTGATGGGCTGAATGTAAGGTTAGGGAGAAAGGATTCATGAATGTCGCTAAGG
CTTCTGGCCCCCAAAACCWGGCGGTGGYGAAGCCACTGAATGAGATGAGGAGCATAGGGGTGGCGGGCAAGGGATGGAACCCAGATTTTAATTTTGGCCA
TGTTAAGGCTGAGATACCCAGCCAATGTGTCATATAGGAGCTCAGGGACTGGACTGGAAGAGTAAGTGTGGGAGTCACCCCCACAGAGAGGGCTGGATAG
GAAAACACTGAGAAAAAAGAAATGTGTAGAACTATATTGATGTTCTCATGTAAACACTTACTTAGTGCAAGTGTTAGGAACTCTTATACGTACCGGTGCC
CAGGAAGTAATGGGGCTGATGATAAACCAAAAAGAAAAGGTTCCAAAGGGGACAGCAACTACTTGGCTCTCGCTGGAAGGTTGGCCCACACCCGGTTACC
AGATCTAATCATTTTGGGGGAGAAGCTACATAACTATAATTTCACGTAACACTTCCCAATTTTAAAGTGCTTACTACTAATTTTTTAAGTTTTTTTTTTT
TTTAACATTATGGAAAAAAACCAATGACCTTTAGTTTAGCACCTCCTGGCAGTTCAGGGTGCTAGGGTGACAAAAATGAATATGATATAATCCTGACCTC
ATCATCTACTCAGAGGTCCGCTAGAGCTCACAAACTAAGGCAATAAACAGAGATAAAATCTCTACTACACTGTATTCTGTACAATGATGGAGATATGCGC
ACATGAGCATGGGGACCCAGAAAAGGGCTACTTAGGGTGGAGGAAGGGGAGGCAGAAAGAATAGCAGGAACAAAAGCACGTGGGTAAGAAATAAAGCAAA
CATGCATTAATGGAGAGCTATTAGCAGCTCCGTGCTGCTGGAGAGGAGGGAGAAATACACTGGTCTTTCAGTGGTATGGAAGGTCAACAGGGGACAAGTC
ATTCTCAATTGTATATTTCTGCATAAATGAGAATACAAGATCATTCTTCTACCTTTGAGGCTATACATGTAATAATGTAGTAGCTCATATATGATAYAAA
GTGTTAATTCTTACTTCTACATAAGCACCAAAACCTAAATGGTCACTTAAGGACCTTGTTCCTCATGGACTGTGTGTGTCATGCTGTGTCAGCAATGGTG
TTTGGAGGGTTGCTTGCACCTTTGCGGTCTTACTGCCTTCAGGGCTCTGCTGCTGCACTGATCTTTCCAATACAAATCCAACTACATTCCTCTCCTTTAC
CTGTCTGCCCTGCCAGATTCTGCACTCTCAGAGACTGTTTTTCATCTTGTAACCTAGTGCCAGATGCCATCTGCTAAACAGAGGAAAAATACCCTCAAAA
GCACCCTCCACTCATCACTGGGTCTGCAGTGTCACTGACTACATTTATTAGATGCATACAGCTCCCATGGTCATTTAAGTAAGAAACAGAACTTAAGACC
TTATAGCTATCAATCTTTTATGTGTCATTACAGTATTAGTCTGCTCTCTTCATCTAAATCTTAAACAAAATGTTAGCAAATCTAATGTTGGCAATGTATG
AAAAAGATACTCATGCCCAGGTTGATCACATCTATTGCAAGGTTGGGTTAATCTTTGATAATTCATCAAGTTCTACACATACTAACTGTGTATTTTCCTT
ACACTTTTTTTTTGAGACAGGGTCTCATTCTGTTGCCCATACTGGAGTACCATGGGACAACTGTGGCTCACTGCACCCTCGACCTCCCAGGATCAAGCAA
TCCTCCCATCTCAGCTTCCTGAGTAGCTGGGACTACAGGCACACACCACCACACCGGGCTTTCTTTCYTTTTTTTTTTTTTTTTTTTTTTTTTGGTAGAG
ATGGGGTTTTGCCAAGTTGCTTGAGCTGGTCTTGAACTCCTGGGCTCAAGCGGTCCCTGACCTTGKCCACCCAAAGTGCTGGGAATACAGACATGAACCA
CCGCACCTGGCCTCAAAAACTTTTTTTAAAGCCATTTTTATATAAAGGCTACAGTATATTTTCCTCCAAAGTTAAAAAGCACTTTTCTCATGGCTAGGAA
TGAATATTTAAATGCATTGTTTTTCCAGACTGATGATTTTTAGGACAAACCTGAAGCTAGAAATAGTACTAATACTCAACACCAAGTATATGTATGTGCA
GAGGCTTGGGGAGGCATATAGGATTTAAATTTGAAATTTGTTGCTAAACTCACCAAAACAGAATGAATCATGAGACCTGCAGAAGGAATCCTACTCGAGA
AATGGTGAACCATCCAAGAGTCAATTAAAAATACCCTAGAATAAAACTAAGTTGTAATCTAGTAGATTACATCTAAGGTGAGAAAAAGTATTAACTTAGA
CTAGATTGTCTTCATAGTGTCTTAGAAACAGAAAGCCAAATAGCAAGAAAGGGGGTGGGGCTTTTTCACAGGAAGGAGGACAATGTTCTGTGATGTGAGA
GAATTATGGTGGTCACTGGAAAAAAGATAGTATTCTTATTGTTAAACAGAAACAGTTTGGAAGCCAGGATGAAATATCTCCTCAGAAAATCCAAATTCCT
GTGTTGATTAATATCTTATTCATCACACAACAACTGTTTACCAACTGGGCTGCCAAGATACACACTTTCATGTCATTCTGCTGCTCAAAACCCACCAATG
ACTTCCTATCTTACTCAAGTCTTATGAGGACCTGTAAGCCCCGCACGATCTGGTCCCTCACTACCTCTTGGACTTCAGTTTCTAAGATGCTCTCAACTGT
TCACTCAACTGGAGCCGCACTGGCCCCCTGTTGTTTCTTACACAAGCCAGCTACAGTCTCTCCTGAGAATTTTGTTTGTACTGTTTAAAATTCTCTTCTT
CCAGATAATCCTACAGCTTGTTCCTCATACCTTTGCGTCTCTGCTGAAATGTCACCTTGCATTAGCAAGGTCTTCTCAACCATGCCCCCTGTGCCCTTAA
GACCATTCTCCCAAGTCACTCTCCATATGACCCTTAGCTTTTTCTCTGTAGTTCTCAATACATCTGATATGTTTACATTGGTGTTTTTATTTTCTGTCTT
ATCCCACCAGAATGTAAACTCTACAAAAGCAAGAATTTAGTTAAGTTCACTGCTGTATCCCCAGTGCCTGACACACGGTAGGTATTCAATAAATATTTGT
TGAATGAGTGAATAAATAGGACAAGGACTACAAGACATGAAACTTCTAACTTCATCCAGACATATATCCTAGTATACATCAATAAACTAGCTTTTACGTT
TATATATCCTATATTAAATGTGTCAGTCCCAAAAATCTGATCAACACTAGCTACACAAACAAATTGAATTTCTGAACCTATCAACCTCAGACTCCTGACT
TTGTTGATTCCACCAAGATACCATCACTAGATGAGGCCCCAGTTTGGATGGCCAGCCAGGGTCACTGACATCACTCTAACTAAAAAAAGAAACTCACCTG
TGCAATAATGGAAAGAATGCCAAGGACTGCTATAAACGCTGCAACACTTTCTGGTGAAAATTTCATTATCTAGAAGGGTTTCCAGAAAAGGTAACATTAA
TGAATACAAATGTATACCAGAYAGAAAACCACTGCAGCTACTTGTATATTAACATTTAATGGGCCAGAAAAAAATAAATGTAATTCATTTATAAACAAAG
AATTCCTCAGAGGAAATACAACATATCTTAACATACTAAAAATGCCTACTTATCCATGGTGGGTCCCTCAATGTGGATATACTAAATTGGAGATACTTAT
CAAGAACTCAGAATCATTTTACAAATAAATATTGCAGTATTTTGTGCATTTTACATGTATTGGTTAAAGGCTTGATCTCCGTCTAGTGAGACTAGTGTCA
AGGAGGAAAATACTTGTTTTTGCTCTCATTTTGGCTAGCTGCTCTACTTACATATGCTCTAAATCACAAAGAAGCTGGAGCAGGTGAAGGGGTTAAATCA
TCCCATCAATTCTATAGCCAACAAACTCAAACCACCTATATGGACAGGGAAAACTATCTTTCTCCCTAAGCCAAATATCTTAATATACCAAATAACCCCC
ATTAGAAATGCATAAGGAACATCAGCCACACAGAATAGGAGGTAAAGTCTAGTAGACCAAATAATATTCTTTTTATTTATTTATTTATTTATTTAATTTT
GAGACGGAGTTTCGCTCTTGTTACCCAGGCTGGAGTGAATGGCGCAATCTTGGCTCACTGCAGCCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCA
GCCTCCCAAGTAGCTGGGATTACAGGTGCCCGCCACTACGCCTGGCTAGTTGTTGTATTTTTAGTAAGCATAGGATTTTGCCATGTTGGCCAGGCTGGTC
TTGATCTCCTGACCTCAGCTGATCCACCCACCTTGGCCTACCAAAGTGCTGAGATTACAGGCGTGAGCCACTATACCAAGTCCAATGATATTCATTTTTA
AAGGCCACTTCTATTACAGTTCTCTCAAGATTAAATATTTTTATTAAAGCACTAGACAATGAAAGAAAAGTCCACCTTAGTGGAAGAGGATTTTACCTGT
CTGAGGTATAAAAAAAAGCTGGAATATTGGCCTGCCTCYGGTAGGTAGGAGAGAAACACTGTAATGCAGATCAGCAGCACTATGGAATCTTGGCCGACTT
TTTTTAAGGACTAGAACAAGAAAAAGACTGATTGATATAAGGTTTTCTATCAAAACCACTGAACTATTCTTAAGAATAYGCAGAGATTCCTTTTGGCAGT
GTACTCATGGACAACTAGTTGTCCTTTTTATTTATTTCATATTCCCCAAACTATTCTGAAAAGTATTTCAAAATGTTAAAAGAAAAACCCAAGATGTTTT
CCCTAAAGAAATATCCACAACAAAATATTAATGCTGCACTGAATCATGCACTTTTTTATCAAGGAGAAGGAAAAAGTATAAACTTACCGCAAAAGGGTCA
GCTTGTTCCCAGGAAATGGGTGCTCCCCAGGATGCTGGCCGCATTTTCTCAGGCAACGACTCTGGCACAGCAACAAGGATAAAACAAATATCTAGCAAAG
CTATTGCTGTAGCTAAGACCACCACCAAGCTGTCCCCATATACTCGTCCAAGATAAGCTCCAATTGCAGGACTGGTGACTAAACTTGCAGCAAATGTTGC
TGAAACCTGCARTAAATTAAGGATAGACAGAGATTAGTCAGGCTACTTTTTTCCTCAACACCACATAACTCCTTTCATAATCTTGATTTATGTCAGGCCT
TCTGTTGCACACCCTCCCTTTTCTCTTCCTACCTGTGCCATTTATCTTTTTYTCTTGTGGGGGCGAGAGTGGGGGAACTGGGTCTTGCTCTGTCGCCCAG
GCTGGAGTGCAGTGGTGCCATCACGGCTCACTGTAGTCTTGACCTCTCAGGCTCAAGAGATCTTCCTGCCTGAAGATCTCCTGATGGGGCTACAGGCACA
CACCACCACGCCCAGCTAATTTTGTTTATTTTTTATAGAGGTGGAAGTCACGCTATGTTGCCTAGGCTAGTCTCGAACTCCTGAGCTCAAGCGATCCTCC
CACCTCAGCCTCCCGAAGGGCTGGGAGTACAGGTATGAGACACCAAGCCTGGCCCCACTTTTCTTATACTCTCTCCTTTGGCAGGAAAAGTAAAGAATTA
GATTCTTGCCTTAAAAACAGCCTGGACAACATGGAGAAACCCTGTCTGTATCAAAAAAGAAAAAAGAAAAATTAGCTGGGCATGCTGGTGTGCACCTGTA
GTCTCAGCTACTTCAGAGGCTGAGGTGGCAGAATTCCTTTGAGCCAGAAAGGCGGAGGTTGCAGTGAGCCATGACAGCACCACTGCACTCCAGCCAGGGT
GACAGAGTGAGACCGCATCTCAAAAATAAAATAAAATAAATGATAGCCTCTCAGGACACTGTCTTCAAACTTTCTAAGCCTTGGAGCCCTCTGTTCCAAT
AAATCCTACTGGCAAATTCATAGGTAAAAGAGATTTTTTTAAGAAGACTGGGTGTGATGGTTCATGCCTGTAATCTCAGCACTTGGGGAGGCCAAGGTGG
GAGGACTGCGTGAAGCCAGAAGTTTGTGACCAGCCTGGGCAACACAGCAAGACCCTGCCTCTATTTAAATTTTTTTTTTTTTTTTTTTTTTTTTTGAGAC
GGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAGGCTCCGCCCCCGGGGTTTACGCCATTCTCCTGCCTCAGCCTC
CCGAATAGCTGGGACTACAGGCGCCCGCCACCTCGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACYGTGTTAGCCAAGATGGTCTCGA
TCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCGGCCTATTTAAATTTTTTAACTCTTTTA
GTTGAGGAAGGGTTGAGAGCCTGGGCACTGTACAAACACCCCTCCTTGACTGCCAGTCATGCTGGTCCTTAGGGGAGGGGTGTCTAATCTTTTGGCTTCC
CTGGGCCACGCTGGAAGAACGGTCTTGGGCCACACATAAAATACACTAACAATAGCTGATGAGCTTAAAGAAAAAAAAACTGCATAATGTTTTAAGAAAC
TTTATGAATTTCTGTTGGGCCATGTGTGCAGCCTGTGGACCATNNNNNNNNNNNNNNNNNNNNATGAAGTCTGATGTCTTTGTTCCTATACTGCTCCCCT
CCACTGCCCCCAGGCCCCAGCTCAGTCACCTCCAGGTCGAATTCCCAAGTGTGTTGCGCACTCCAGAACTCTAAATTATCTTGAGACTGAAATGAAAGAA
ACGGAGAGGCCTAGTTCTCCCAGCAAGAAGCAGAGGGCACAGAAAGGCTGAAAAATGGATTGAGGATTGAGCACTACCCTGGAATGTTCCAGAATTTTTT
TTTTGAGATGGATCCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCACAATTTCGGCTCACTGTAGCTTCTACCTCTCGAGTTCAAGCAATTCTCCTGC
CTCCACCTCCCGAGTAGCTGACACTACAGACACCTGCCACCATACCCGTCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGC
TGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCCAGAAAATATTTT
TTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTGTCGCCCGGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAGCCTCCGCCCCCTGGGGTTCAC
GCCATTCTCCTGCCTCAGCCTCCCGAATAGCTGGGACTACAGGCGCCCGCCACCTTGCCCGGGTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACC
GTGTTAGCCAAGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCAYGCCCGGCCTA
TTTAAATTTTTTAACTCTTTTAGTTGAGGAAGGGTTGAGAGCCTGGGCACTGTACAAACACCCCTCCTTGACTGCCAGTCATGCTGGTCCTTAGGGGAGG
GGTGTCTAATCTTTTGGCTTCCCTGGGCCACGCTGGAAGAACGGTCTTGGGCCACACATAAAATACACTAACAATAGCTGATGAGCTTAAAGAAAAAAAA
ACTGCATAATGTTTTAAGAAACTTTATGAATTTCTGTTGGGCCATGTGTGCAGCCTGTGGACCATGGGTTGGACAAGCTTGGTTAAGGGCATCTCCATAA
ACCCTTAAGTGCTCTCTGTGAAAGGAGTCTAAAATCCACTGCTCTAAGGAAATCCAATTTCACTGTGACTTTTCCAATATTAAAATTAAATGAACGTTTA
TCTTGATACATACTGAAGGGCTAGCTGAAATAAAGCTTAAAGACTTGGAGGTTCCTGTTCTCATGAATAATATGTTAAGCCCTGGAACAAAACTGAGCTT
GGTAATCTTTTTAGTTGGCAGGGTTAGGAAGAATGAAATCACAGATAAATTAAGAACATCTCTAAAACTCTGAGGAAGTCTATTTTTTTAAGCCTGGTGA
AGATGAAGATTAAAGTTGAAAAGGACACGAGTAGAGCAAACCTGTTAACCGCAGACATTTCTAGCCTACTGGACAACAGCCTACAAATTAGCAGATGTGA
CAGCAGGAAACACTTCATAAAAATAGCACTCTTAGTCAGGTGAGGTGGCACCTGCCTATAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGATCACTTGA
TCCCAAGAGTGAGTCCAGTCTGGGCAACACCCTGTCTGGAAAGGAAAGAGGAAAGGAAAGCAAAGGGAAAAGGAATGGAGAAAGGGGAAAGAAGAGGAGA
GGAGAGAAGAGAAGAGGAAAGGAAAGGAGAGGAGGAGAAAGGAAAAGGGGAAAGGGGAAGAGAAAAGGGGAAGGAAAGGGTTAAAAAAGGGAAAAGGCTT
ARGGAAAAGGCTTAAGGAAAAGGGGAAAGGGGAAGGGAAAGGAAAAGGAAAGAAAAAGAAAAAAGAAGGGAAAGGGAAAAGGGGAGGGGAAAGGAAAGGG
AAAAGGGGAAGGGAAGGGAAGGGAAGGGAAAAGAGAAAAGGAAAGGAAAGGAGAAAGGTGAAAGCGAAAAGGAAAGGGGAAAGTGAAAGTGAAAAGTGGA
AAGGGGAGGGGAGGGGAGGGGGAAGAGAAGGGCAAAGGAAAGGAAAGGGGAAGGGAAGGAAAGGAAAAGGACCATATTCTTTCAAAGCATAGAGATTAAT
GTTGGAATTTTATTCTGTTTCTATGCCATTTTTGACTTTTGGATGGAGAACTTAAACTTCACAAGAATGCTTACTTGCAACTCTATTGCTTAAGGCAAGC
AATTCAATTTTCAAAGGTCAATTATTTGAACAAGTACATAAAATTCTAGTAATTTCAAACATCTAGCTATCAATCAAATGTCCATCAACTGATGGATAAG
AATACACTACACAGCAATCAAAAAAAACTACTGGCCAGGTGCAGTGTCTCATGCCTGTAATTCCAGCACTTTGGGAGGCTGAGACAGGCAGATCACTTGA
GTTTAAGAGTTTGAGACCATCCTGGGCAACATGGTGAAACTCCATCACTACAAAACATACAAAAATTAGTAGTCCCAGCTACTCGGGAGGCTGAGGTGGA
AGGATCACTTGAGGCAGGGAGGTAGAGGGGAGACAGAGGCTGCAGTGAGCTGTAACGGCACCACTGCACTCCAGCCTGGGCAATAGAGTGAGACCCTGTC
TCAAAAAGAAAAAAATTAGCTGGGCATGGTGGATCATGCCTGTGGTCCCAACTGCTTTGGAGGCTGAGGCAGAAGGATCGCTTGAGCCCAGGAAGCCAAG
GCTTCAGTGAGCCATGATCATGCCACTGCACTCCAGCCTGGGGGATAGAGCAGGACCCTGTCTCAAAAAAAAAAAAAAGGAAAAGAGACAAAAATAGAAC
CTATTGATCTATAGTATCAACATGGATCAATCTCAAAAGATTATGCCAAGTGAAAGAAGTTAGACACAAAAGATGTTTTGTATTATTTAATTTMTATGAA
GTTTCTAGAAAAGGCAAAACCATGGTGACAGAAGCTAAATTGTTGGTTGCTTGGGGTCACAGGTGGAGCATGGGGACAGATGGCAAACAGGGCTGAGGGA
ACATTTTGGGCTGATGGAAATGTTCTATAACTGGGTTGTGGTGGTTTTTTAAATGGTATTTAATATATTCACATGGGGGCCAGGCGCCATGGCTCACGCC
TATAATCCCAACACTTTGGGAGGCCGAGGCAGGCGGACCAAAGGTCAGGAGTTCAAGACAAGACTGGCCAATATGGTGAAACCCCGTCTCTACTAAAAAT
ACAAAAATTAGCTGGGCATGGTGGTGGGCATAGCTACTGGGGAGGCTGAGGCAGCAGAATCGTTTGAACCCAGGAGGCGGAGGTTGCAGTAAGCCAAGAT
CACACCTCTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAACAAAAAACAAACTATATATATATACACACACAYACATACACACACACACATA
CATATAAATATATATTTTCAAATGTAGTGGTTATTTTGTTATTGCAGCCCTAGGTGTGGTTTCAGAGGSACCCAGATCTCWGCAGGGCTCTGGCACAAGT
GTGGGGAAAGGGAAAATGGTTCTCACTATGAGGGTCACTGAAGACATTTGAGGGCATTTACAGAGATCACATTTGTGACACAGTGAGCAAGTCAGTACAG
TTGTTTCATGTCATTTCCCTTCTCCTCAGTTCTCTCCACTTGGTAGCCATTTCTTTCTGCTCAGAAAAAAGATCACAGGGGTCACCCCGCACCCCCCAAC
CCCCTTTTTTGGAGACAGGTCTCGCTCTGTGGCTCATGTTGGAGCGCAGTGGTGCGATCACGGCTCACTGCAGCCTCAACCTCTCAGGCCCAAGTGATCC
TCTCACCTAAGCCTCCCAGGTAGCTGGGACTACAGGCACACACCACCACACCTGGCTAATTTTTAAAGTTCCTGTATAGATGGGGTCTCACTATGTTGCC
CAGGCTAGTCTCAAACTCCTGGGCTCAAACAATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTATAAGCCACTGCACCTGGCCCCTCCAACTTTTTT
TTTTAAGAGACAGGGTCTCACTCTGTACCCTAGACTGGAGTGTAGTGGCATGATCATAGCTGCAGCCTCAAACTCCTGGCCTCAAGCAATCCCCCTGCCT
TGGCCTCCCAAACTGGTGGTATTACAGGCACATGCCACTGTGCCTGGCCACTTCCCCACCTTTTTTCTGCATCCATATTATTTCTAGAAGATTTCAGTGT
TTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTTGCCAGAACATGGCTTAATACACAGAACCTCCAGATTGAAAATTGTTAATTTCAAAACT
TTGGCTATGGGAAAATAAATTACGTCAAAAAAACCAAACCAACGAACCAACCAACCAACCGACCAACCCCAAATTGGGTTATGGTGGTGTTTGCATAACA
GTATAAATTTACTAAAATTCACTGAACTATACTCATAAAAAGGATAAATTTTATGGTATGTAAACTATAGCTTAATTAGACTATTTTTTAAATATCCTGG
CTATCATCAGCCTTGTATCATTTAATGTTCCAAGTTTACAACTGAAATCATTAGTTCTTTTTCTTTTCACTTTTTTTTTTTTTTTTTTTTTAAATAGAGA
CAAGGTTTCACCATGTTGGCCAGGCTGGTCGTGAACTCCTGATCTCAAGTGATCCGCCTGCCTCAACCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCA
CTGAACAGGCCAGAAATTATTAGTTCTTTTTCTAACTTTCTCTCTATAGGTGTTTCCTCCCCAAAAATCTTATGATTCTTCACTATAACGTCCTTTGAAT
CAGAAATCAGTCCCTTTTAAAACTAATTCAGCCCAACACAATATTCAGTCCTTATTTATCAMAAGGTATTTGTCTCACATTTACCGAAATGCATCACTGT
CCTATTTCTGGCTATTCAGTAGTGATCTATTATTGTGCCTATAGTAGTCATTCTATTACTAGGCTTTTTTCCTTTAATTCCTAGATTTGATAGATGACAC
ATTATACTGCCATAATTTAGTTTACCAAAACAGTGTCCAGGAGTTGGCGACCTACCACTATGGCTCAAATCTGGCTGTTTCTTACATTTTTAAAGAGTTT
ATAAACATAAATACACATGCAAAAACAAAAGAATGAGACAGAGACTGTACGTGGCCCACAAAGCCACAAAAAAGGTTTGCTGATCCCTGAGCTAGATGTT
AGCCTGTTGTATTTTAGATTAGACATTAAATGAGTAGTGATTTTTTTTAACTCTTGACATACTAAATAATTCTTATTTTTAGGATTCTGTTAAAAAGAAC
TCTACAAGGTAAAATATACTATAATTTCAATTCTGACATGTGACTTATGAATATCTACTAAATGAAAAGAATCAAAACTTACATAGCCTCATACCGCAAA
AAAATTTTAAATGTAGTCTAATGAATGATTTTATTACAAAATATATTTTACGCAAAAATCTTGTAATGCAAAGGTTTGCACTCCTTATAATAATATTTAT
CTTAAAAACAAGGCATTTCTCAGCAGATACAAAAGGTATAGAATAAACATACATACCAGTCCATAAGCCATACTTCTTTCATGCTCTTGGGTTATATCTG
CTACGTATGCAAATACCACAGAAAAAGTCACTGCAAAAACCCCAGAAACAGAGATAACAGCAAAGTACCACCTAGGAATGAAAGATAACAAGAAATGGTT
AGAGCAATTACCATTGTTTTAATCTTCTTTCATTTTTATAAGTTAATTAAGCGTAAGAGCAGCTCATTTCAGTCAACAGCTTACTAGGATAGTTCATGGA
TTAACTATTCCATAAATATAAGCCACAGATATTATGAAAACATAGGGCTAGAAGGAGCCCTTCAATAGCAGCTCAGCTACTATACAGGAATACTTAAAAT
TAGATCATGTATTCAGGCAAATCTTTTGACCAACTGTTGAACTGTTAAGTGATTTTGCTTTTTCTGCCAAAAACAGCAACAAACTAAAGTCTATTATAAT
CCATCCATTACTGTTTTTCACCACAACACTAGATAAAAAACAAAATCCAGTAAACAAGACTGAGGAACAAGTTTCTTCATATTTATTTTGAGCCTCTATA
TAGTAACTAAATGTTTTCCATAAGTTATCTTTAGCTTTTCAAATGCTGGCAAAACAAATAACTCAGTTTTACACACAAAAAACCTATATGGCAGGATTCA
GTGTTCATAAAACTGAGAATAGACAGTTACTATAAACAGTGAACAAAATATTTAAAGAGTAAACTATATTTTGCTATAAATAATTCCAAAATAGCTGGGA
ATAAGAAGTTTCTATTGTAATACTGATGTTTAGTTTCTGAAAATCACATATAATCATAATGAGCTTTCAAAATATCATTCCACCAAGACTATCACTACTA
AAATTTTTCTAACACACTGCTTAACACAGCAAATTCTTTGTTCATTCCATGTTCAATTTTTGGTAAGATTTCATGTGCATGAGTGGCCTTCATCAAAGGC
TTGGTCTATTAGAATTGTATCTCATCTACAAGAAGAAGATCCTGCCCCATATAAACCTTTGGGCCTTTGTAGATAACACCATGGAAATAAAGCCCATCCG
TGATGTAGAACTAACATTAATACTCAGTGGAGTAAAAAGAACATTAGTCAGAATAAATCTATAAATCTACAACCAAATTGGGCTCTGACTTTAGGACAAT
TATTCCCTTTTTGTTAGCTTTCCTTCCCTTGCCTCCTGAGTGGAAAAAAAAAAAATACTGATTTTAATCAAGGTGGCCTTGAGTCCAGACTCTTGTAACT
AGGAGCAGCATATCCCTGAAATCTGACCAAAGAAATGCAAGCAGAGGTGGGATGGGAATTCTGTAAAGTTTCCTTAAAAGAAGGTGATGTGCTCTTCTTA
GCAACTCCTTCCACCTTGCTATCAGTAGTATGACTTGATGGCTAGAGCTCAAGAAGCCACTTTGTTCAGTGAGGTGAGAGATGAGGATGGAAGAACAGCA
AGATAGAAAAAGTCTGCTCCACTGGAACTGCCATACCAGCTCCAGACTGCTCAACTTGCAGACCCTTTTTCACATGAAAAGAGAAATTTGATTTTTAAGC
AACTCTTATTTTGGGTTTTGATATATAGCAAAACCTATTCCTAACTAATATAGATAATGACAAATTTTGTGTCTGTTTTTAACATTCTATACAAGAAAAA
AAGTTAGCAATCCTATCCAGTCCCCAAAATATTGTTTTGAAATTTGGGTTCTGGAATCCAAAATTAAGTTAGCCAGAAGTCTAGATGCCTCCAACAGTGT
CAACTATTTCTAAAATCTTTATGAACTATTACCTACTGTATTTTTAGAGGCCTTCTTATCTGTGTGAAAGAATAAATGTATTAGAAAAATAAAATTAAAA
CCTCATAACCAAGATGGCACAAGTGAAAGAAATAAAGGAACATTAAGAAAACAATAGCTGAAAGTGATATTTAGTTGCTATAATCTAAATGTGCACATAC
CATGGGCTGATCTTCATTAAAGGAATTGGGGCACATGTGAAAAACACCGTTAGCAGCAAGAAGGATTTTCGGCCCCAAACATCAGAAAGAGCACCAATAA
GCGGGGCACTAAGGAATGACAACAAACCCTAAAAAAATTAAATGAAAAAAATGAATACCACACATCTATGAGCATGAACCAAAAATAAATCRTTTTACTC
CTATAGAAAAATTTTCAACAACTTTGTTTCTAAAGTAAATATATCACAAACTTTTAAATAAACAATTGCTTATCTATATATAAATTTAAAATTTCCCAAG
ATAGTTTAGAATCATCTGTGGGGCTCCAGGTAGGTATTAAATATGAACTGCTCTAATAAATTCTCAATCACAATAAATCCACAATAGCAATTCCATATGC
TAATTACCTGTTTGTGTATGTGTGTGTATATGTATGTGTGTGTGTATATATATATATAAAACATAAAACATATATTTATATATATATAAAACAGGCTAAT
TACCTATTTCGAAAACTTGTTTGTCAAACTGAATCAAGAGTAAAGAATTTGAGCTGGGCACAGTACTTGCACCAATAATCTCAACACTTTGGGAGGTCGA
GGGCAGATCACTTAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCAAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCAC
ATGTCTGTGGTCCCAGCTACTTAGGAGGCTGAGGCAGAAGAATCGCTTGAACCTGGGAGGCAGAGGTTCTCAGCAGTGAGCTGAGATCATGCCACTTGCA
CTCCAGCCTGGGTGACAGTGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAACACGAAAAARAAAGAGCAAAGAATTCATWTAATAACCAA
CTYTTTACCCTACTGATACAGTTTTATATTGATGGGGGTTTTTTAGTATAGTTTTTTCCTCTTCAATCTGTAGTCTTACAAAATCATTGAGATCTCTGGA
ATTAAAATGCCAACATAAAAACAGGGAATCTGTTATGATGTGGTTTATTATTATGCATGATTGGCTATATTGTAGTTAGATCATATTTAAAACTCAAGTC
TAGAAAGTATTAAGTTATCTCTCAAAATATACTCCATCTAATTATAAAAATTAAGTTATTAATCAGTAAACAAACATATATTCGCATAGTTATATATATG
TATTTATGTATGTTCATCCGTGTGCGTGTATGTGTATGTATGTATATATACACATATATATGTATGACTGATCCTACCTTTACTCCTTGAATTAAGCCGT
TCATCAGAAATGTATGTTTAGGAAAGGTTTCATGTAATACCTAAAGAATAAAAACCAAAATAAAAATCACATGCTATATTTCAGTCTTAATAAAATTTCT
ACATTTACCTTTTTGAACATCCATTCATACTACAATCTGATTTATTTTACATATTCAGATTTGTATGACATGCATATGACCATTAATAACCAAATATTTA
TATGGTACTTAATATGTCACAGGGCACTACATTGGGCACTTTACATATATTATCTCATTTAATCCCTCATAACAGCCCTATCAGAAAACTGATATGCAGA
GGTTAAACATCTTGTCTAAGATTACAGTCAGTAAGTAAATGGCAAAGCTGAAGCTGAACCTAAGAGATCAGACTTGAAAGCCTATGTTTTTACTCACTAT
GCTATGCTGCTTCCCCAAAATAACTGACTTATAATTCTCTTTCAGATGGATATATTATCTAGGATAGGAGATTGGGAAAATTAATAAGTAATTTTTAATT
GCCACGAAGTAGATCTAGAAAGATTCTATAAAGAAAAAAAATCCCAACCTATGAAAATGTATAACAAGTTATTCTATCCTTTCCAAGGCTTGTTCTCAAA
TCATGTGGTATCAATTTTTTGCAGTGGGCAGCAAGAGAACCGCTGGAATGCATCAAATGAAAAGGCAATTCCAGGCAACTGGAAAAATAAACAGCAGCTA
CCATTTTTACAGCCTATATGTACTCCTGTTTAATCCCAACACTGTGAATTAGATAATATTATCACTTTACATATGAGGCAACTGAGTTCCTGTTTGACTT
AGAAACTAATGCTTCTATTATCCAATGCTATCGCTCAGTAATAACAACAGAGAATGGGAATGTGGGTAATAAGGAAGGTAGGGAAGGTCTTCCCTTTAAG
AAGAAACATTATGCTAAATATACTTTCTGACATGTTGCAAGAAGAACCTTTAGAAGGATCAGAATTGCTCCCCTTTCTTCAGTTATTCTTCTCCTGCCAA
TAGCGAGAAATTTAACAAAAATGTGCTCATTGTAAGTAAAAATCAATTTAGAGGCCAGGTGTGGTGGCTCACACCTGTAATCCCAACACTTTGGAAGGAA
GAGGCGGATGGATCACCTGAGGTGGGAGTTCAAGACCAGCCTGGCCAACATGTCGAAACCTCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTG
GCAGGCGCCTGCAATCCAAGCTACTCAGGAGGCTGAGGCAGAAGAATCGCTTAAACCCGGAGGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCACCACAC
TCCATCCTCAGCAACAGAGTAATAGCCTGTCTTAAAAAAAAAAAAAAAGAAAGAAAAAGGAAAAAAAAAAACAGTCGCAGACTGTATGTAAATGAATGGG
TTTGACTGTGTTCCAATAAAATTTTATTTATAAAAATAGTATGTGATCTCCAGGACACTGGACTGGGCAAAGATTTCTTGATAATACTCCACAAGCACAG
GCAGCCAAAGCCAAAGTGAGAATGGACAAATGAGATCACATCAAGTTTAAAGCTGCACAGCAAAGCAAACAACAAAGTGAAGAGACAACCCACAGAATAG
GAGAAAATATCTGCAAACTATCCATCTGACAAGGGATTAATAACAAAAATGTATAAGGGGCTCAAACAATTCTGTAAGAAAAGAATCTCATAATCTGATT
TTTAAAAAACGGGCAAAAGATCTGAATAGACATTTCTCAAAGTGACCAATAGGTATATGAAAAAATGCTCAACCATCACTGATCATCGGGGAAATGCAAA
TCAAAACTACAGTGAAATATCATCTCACCCCAGTTAAAAACAGCTTTTATCCAAAAGATAGGCAAGGATGTGGAGAAAAGGGAACACTCATACACTGTTG
GTGGGAATGTAAATTAGTACAATCACTAAGGAAAACAGTTGGAAGGCTCCTCAAAAAACCTAAAAATGGAGCTACCATATGATCCAGCAATCTCACTACT
AGGTATATACCCCTCCAAAAAAAGGAAATCAGTATATTGAAGAGATAGCTGTACTCCTACATTTACTGCAGCACTATTCCTTTTTTTGTTTGTTTGAGAC
GGAGTTGGGCTCTTGTCGCCCAGGCTGGAGTGCGATGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCT
CCTGAGTAGCTGGGATTACGGTGTGCACCACCATGCCTGGCTAATTTTTGTATGCAGCACTATTCTTAATAGCTAAGATTTGGAAGCAACCTAAATGTCC
ATCAACAGATGAATGAAAGGATAAAGAAAATGTATTTATACACACAGAAAAAGAATGAGATCCTGTCATTTGCAACAACATGGATGGAACTGGAGGTCAT
TATGTTAAGTGAAATAAGCCAGGCACAAAAGGAGAAACTTCACATGTTCTCAATTATTTGTGAGAGCTAAAAATTACAACAACTGAACTCATGGAGACAG
AGCAGAATGATGGTTACCAGAGGCCGGGAAGGGTAGTGGGAGAGAGGATGGTTAGTGGGCACAAAAAAATAGAATAAATAAGATCTAGTACTTGATAGGC
ACAACAGGTTGACTACAGCCAACATTTATTCTACATTTGAAAATAACTAAAATTTGGCCAGGCGTGGTGGCTCACGCCTGTAATCCCAGCACCTTGGGAG
GCTGAGGCGGGCAGAGCACAAGGTCAAGAGATTGAGACCATCCTGGCCAATACGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTATGG
TGGCAGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAAGCAGAGATTGCAGTAAGCTGAGATCGCGCCACTGC
ACTCCAGCCTGGTGACAGAGCAAGACTCCGTCTCAAAAAAACAAAAAACAAAACAAAACAAAACCTAAAATTGGATTGTTTATAACACAAAGAAAGGATA
AATGCTTGAAATGATGGATACCCCATTTACCCTGACGTAATTATTACATACTGTATGCCTGTATCAAAATATCTCATGTACCCCCATAAATATATACACC
TATGTACCCACAAAAATAAAAAATAAAATATTATTTAAAAATAAAAAAGGAAAAATGGCATGCCCTCTCTAATTGAAAAGAATTACTGGGAGGTCTTTGA
GAAACTCCTAGAAGTTCTTTTTAGAGTTCTACTGCATGCATTAACTAAGTAGCTAAGTGATAATTAGGAAAAAGTTCAATTCAACATACTTGTGAAAAGG
AATATAAACACACACACAAAGAGAAAGTTGCCAGAAGCAACTACAAAAAAAAAAAAAAAATTGCAAAAAAGATCTAGTCCTCTAGCCATATTTTCCCAGT
CCTTGTGCTAAAGGATAAGATTTAAACTCCTTAAACTAGTATCTCAAAACTTTTTACGGGACTCAAATGTATTATGCTTTTCTTTCAATAATCACATAGG
GCCTACTGCAAGCCAAATCTTTCTAGGTATGAAGAACAGGTTTGGTGTTAGAAAGAATGAAAAACATTATGAATGTCTATAAGAAGTTTTATACTATGCT
AGATCTTATCACTAATGATTCACTTTGCCAAGCTGTATTCCATTCCAATCAATCTGTTCGCTTCACTGTTTCTGAAATATTCTATGCTTTCCAATATTCA
TATTTTATACACGGCATCCTTTCAATTTTGAATGTTTCTTCCCTTTCTTTATCTGGCCAACCCCCAACCCTTCCAAACTGTTCCTCTGCTACCTAACTTT
TTTCTCCAAAGCAATTTCTCCTTTGGGGCCATACAATTTCTAACAAAATTTTAACAGACAAATATAACAAGTAATTCGAATGTTGTAAAGATTTTTGATG
TCAGGATCCTTTAGCACTGGTCTTTAGAGGTGAACAGAGAAAATGTAACACTTTTCCAAAAAATTTTATGGATCTTAACTTTTTTTTAACTTTAAAAATG
TTGAAAGTAAATAATCCTTAAAATGTTAAACGCTTTGGGGCTGTTTCTGTAGCCAAGGACACGAAACCATCTAGGTAGAAGAGATGCTAGTGGATTTTGA
GTGTTCCGTAACATGGACTGTGTATCTAGGAGCTTGAACCATCAAACACTGGCCTATTATTTCCAGAGCCATAGGTCTGTCAAAAGGGTAAAGCCGGCCA
GGAACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTTAGGTGGGTGGATCACAAGGTAAGGAGTTCAAGACCAGCCTGACCAAGATGGTAAAA
CCCCGCCTCTACTAGAAATAAAAAAATTAGCCAGGCATGGTGGCAGGTGCCTGTAATCCCACATACTTGGGAGGCTGAGGCAGAGAACTGCTTGAACCTG
GGAGGCGAAGGTTGCAGTGAGCCGAGATAGTGCCACTGAATTCCAGCCTAGACGACAGAGTGAAACTCTGTCTCAAAAAAAATAATAAAAAAAAAAATTA
GCTGGGCGTGGTGACATGCACCTGTAATTCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCTCTTGAACCTTGGCGGTGGAGGTTGCAGTGAGCCGAGAT
CACGCCACTGCACTCCAACCTGGATGCCAGATTAAGACTCCGTCTCAATGAAAAAAAAAAAAAAGGAAAGAAAAAAAAAAACCGGTAAATTCCACTCCTT
GGCATTACAGATCCTTATACCTACTGTTATTCTCATCACTTAGCTAATATGTTACATAATCAAGCAATAATCACTGATTCTGACTGAACTATCTACTATG
ACCAACCATATATTCATAACCTCTCAAAAGTGTTAGACCTCAATCTTTAAAAATATTTGTCAGTACAAAATCCTTCTTTTTAGCTAAATCCCCTTGTTGG
TAGAGGCTCACCATCTTCCCCTGGGCAGATCTTCCACAAAACACAGCTTTTGTTTTTTGACTGTTCTATGAGGGCTTAAAAGTGAAAGATAATTGCAACA
CACAGTTTTTTTGGTCTTAAAATGTCACATTAGTTTTAAAAATTAAGAAATTAAGGCTATCATAAATCCCAAACCAGACATTCAAAATTAATATGTCTAA
AACTGGTTATCTGATTAAAAAAATACTTCAAAGAATATCTTTGAAATCTGAAATGCTGAAACAAACTATGATATAACTGTTGAGGGAGGGACAGGGAAAT
GAAAGATACTGACTTAAAATATAAATTAAATTATGTCTTCATCCTCATTTTCCTTTTAAAATGAATGTTAAAAACTTTGACTCTTGTGGCATGCACCATT
TATAATCAGTTTCAAAACACATAAAACAGAAATGAAATGTTTAAAGATTAACAGACTTTTAAGAGGAGAGCCTTCTTTTACCCAGAAACCCACCTCTTTA
CACACCTCTCACACACAATGCTGGGGAGGAGTGGGAGGAGTACTGGGGCCCAAAACAAAGACTGCCAACAAAGCCAACAACAAAAAAACAAAATTTGTAA
GCAAAAAGCCTTGAAATGAGTAAAACCTTTTTAAAAAGCCCATATTGAATTAATATATTGTTCTTAATTAGTGACATATACTGAATATATAACAGGGTCA
CTTCTAAAAAGTAGATATGCCAGGCTGGGCATGGTGGCTTATGCCTGTAATCCCAACACTCTGGGAGGCCGAGGCAGGCGGATCACCTGAGGTCAGGAGT
TCAAGACCAGCCTGGCCAATGTGGTGAAACCCCGTCTCTATTAAAAATACAAAAATTAGCCTGGTATGTTGGCACGTGCCTATAGTCCCAGCTACTCGGG
AGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGGTTGCACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCA
TCTCAAAATACACAAACAAACAAAATAAAAAAAAAAAGAAAAAGAAAACAAAAATTAAAGATAATAAGAATATATTGGCCAGGCACAGTGGCTCACACCT
GTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGTTAAGAGATCGAGACCATTCTGGTCAACATGGTGAAACCCCATCTCTACTAAAAGT
ACAAAAATTAGCTGGGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAAAATCACTTGAACCTGGGAGGTGGGGGATGCAGT
GAGCCAAGATCGTGCCTCTGCACTCCAGCCTGGGGACAGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGGAATATATTAAGCACATT
AGTCTATGAAAAATGAATAAACAAGCCTTTCTAATTAAGGGGACTCCTTCCTTGTTCTTAAAAAAGATAGCCTCCCTTTGTCCAACTAGGAAAAAAATGT
ACCAAAATAACACGAAAGATAACATACCTAAAAAAATTTAAACAAGAAGCAAATTTTAAAAATAGCTATACACACTTGAAATACTGATAACAAATTATGG
AAACATCACAAAATGCTTTTTTTCATAGCTTGCTAACAGCTCATCCACATTTTGATCACCCTACTTAGCTAGTGGTTGGGCTGCCTGACAACCTCAACTA
TCTAAAACATGGGTACAAACAAGTTACTACCTGCATTCCCCAAAAGACTGAGCACTGGAGGAGTCAAGGAAGCCTGGGTGCAAATACCAACACTGCAGCT
TACTGTCAGAGTAGCAA


SNP Information

Context             (SEQ ID NO:61366):
ATAGAACCTATTGATCTATAGTATCAACATGGATCAATCTCAAAAGATTATGCCAAGTGAAAGAAGTTAGACACAAAAGATGTTTTGTATTATTTAATTT
M
TATGAAGTTTCTAGAAAAGGCAAAACCATGGTGACAGAAGCTAAATTGTTGGTTGCTTGGGGTCACAGGTGGAGCATGGGGACAGATGGCAAACAGGGCT
Celera SNP ID:            hCV734830
SNP Position Genomic:     75394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61367):
TATACACACACATACATACACACACACACATACATATAAATATATATTTTCAAATGTAGTGGTTATTTTGTTATTGCAGCCCTAGGTGTGGTTTCAGAGG
S
ACCCAGATCTCAGCAGGGCTCTGGCACAAGTGTGGGGAAAGGGAAAATGGTTCTCACTATGAGGGTCACTGAAGACATTTGAGGGCATTTACAGAGATCA
Celera SNP ID:            hCV734832
SNP Position Genomic:     75969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61368):
TACATACACACACACACATACATATAAATATATATTTTCAAATGTAGTGGTTATTTTGTTATTGCAGCCCTAGGTGTGGTTTCAGAGGGACCCAGATCTC
W
GCAGGGCTCTGGCACAAGTGTGGGGAAAGGGAAAATGGTTCTCACTATGAGGGTCACTGAAGACATTTGAGGGCATTTACAGAGATCACATTTGTGACAC
Celera SNP ID:            hCV734833
SNP Position Genomic:     75981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61369):
ACTATGGAATCTTGGCCGACTTTTTTTAAGGACTAGAACAAGAAAAAGACTGATTGATATAAGGTTTTCTATCAAAACCACTGAACTATTCTTAAGAATA
Y
GCAGAGATTCCTTTTGGCAGTGTACTCATGGACAACTAGTTGTCCTTTTTATTTATTTCATATTCCCCAAACTATTCTGAAAAGTATTTCAAAATGTTAA
Celera SNP ID:            hCV22272917
SNP Position Genomic:     70479
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,17|T,19)   total(C,46|T,22)
SNP Type:                 INTRON


Context             (SEQ ID NO:61370):
TTAACTAAAATGACACATTTTAAACCCATATAAAATTACAAGTCAGCATTAAAAAATCTAAACAATTGAATCTAGCCTTGATCAACTGTTTCCAAGTTTT
Y
CTATCAGTACTCAATTGCTGTTTGTACTTTTTACTTGTGTAGTAGATAAGCAATAGTGTGGAAAAGGTTTAAAAGAAGTCCTTAGAAGAAAAACTTAAAA
Celera SNP ID:            hCV26140201
SNP Position Genomic:     11518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61371):
TTTGCTGTTAATTTATTCAGTGAGAAATTTTCATTTTATATATTGACTATTTTATGTCTGGAATTTTCTTTTCACTCTTTTTTATATCTTCAATTTTCTC
R
TACTTTTTATTTCCATTAAGTTCTTACACAATTACATTTGTGTCCCTGGTCTATAATTTCTACCATTTCTGAATCTGTTTCTGTTGGCTAATTTTTCTTC
Celera SNP ID:            hCV1526710
SNP Position Genomic:     49826
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61372):
TTAGTTCTTGATTATAACAAGCGTTAGTAAATTTGAAAAAAGAATCCTTCAGGATGCTAATTATAATTAAAGATAGTAATTGGCCAGGCACGGTGGCTCA
Y
GCCTGTAATCCCAGCACTTTGGGCGGCCGAAGAGGGCGGATCATGAGGTCAGAAGTTCGAGACTAGTCTGACCAACATGGTGAAACCCTGTCTTAACTAA
Celera SNP ID:            hCV26140202
SNP Position Genomic:     16056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61373):
TTGGAGAGAGAGGTGATAGGAAGTATCATTTGATGGGCTGAATGTAAGGTTAGGGAGAAAGGATTCATGAATGTCGCTAAGGCTTCTGGCCCCCAAAACC
W
GGCGGTGGTGAAGCCACTGAATGAGATGAGGAGCATAGGGGTGGCGGGCAAGGGATGGAACCCAGATTTTAATTTTGGCCATGTTAAGGCTGAGATACCC
Celera SNP ID:            hCV1526711
SNP Position Genomic:     65819
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,12)      total(A,3|T,12) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61374):
TCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAA
S
TAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCAGGATGGTCTCAATCTCC
Celera SNP ID:            hCV26140203
SNP Position Genomic:     17948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61375):
GGTATTTGTATTTTCATTTTCATTAAGTTTAAAATATTTTTTTTTCTTTTTCTTTTCTTGTTTTTGAGACAGGGTCACACTGTGTCCCCCAGACTGGAGT
R
CAGTGGCATGATCGCAGCTCCTTGCAGCCTCACCTCCTGGGTTTATGTGATTCTCCCACCTTAGCCTCCTGAGTAGCTGGGACTACAGGTGCACACCACC
Celera SNP ID:            hCV26140204
SNP Position Genomic:     45159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61376):
GAGGTGATAGGAAGTATCATTTGATGGGCTGAATGTAAGGTTAGGGAGAAAGGATTCATGAATGTCGCTAAGGCTTCTGGCCCCCAAAACCTGGCGGTGG
Y
GAAGCCACTGAATGAGATGAGGAGCATAGGGGTGGCGGGCAAGGGATGGAACCCAGATTTTAATTTTGGCCATGTTAAGGCTGAGATACCCAGCCAATGT
Celera SNP ID:            hCV26140205
SNP Position Genomic:     65828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61377):
TCTTTTTTTTTTTTTTTTTTTTTTTTTTGGTAGAGATGGGGTTTTGCCAAGTTGCTTGAGCTGGTCTTGAACTCCTGGGCTCAAGCGGTCCCTGACCTTG
K
CCACCCAAAGTGCTGGGAATACAGACATGAACCACCGCACCTGGCCTCAAAAACTTTTTTTAAAGCCATTTTTATATAAAGGCTACAGTATATTTTCCTC
Celera SNP ID:            hCV26140206
SNP Position Genomic:     67666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61378):
TTAATATGTTAGACATCTTAATTATAAATAACCAGATGAGGCAGCTTCCTTTTTTCATAATGCTTAATTTCTTTCTTTTCCCATTCTAGGAGCTACAGCG
S
ACTAAGCAAGAAGTCCTCTCTTTGCGAAGAGAGAATTCTACACTAGATGTTGAATGCCACGAGAAAGAAAAGCACGTTAATCAGCTACAAACAAAAGTGG
Celera SNP ID:            hCV25933563
SNP Position Genomic:     30891
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,35)   total(C,1|G,73)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61379):
CCAGCCTGGGTGACAGTGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAACACGAAAAAGAAAGAGCAAAGAATTCATATAATAACCAACT
Y
TTTACCCTACTGATACAGTTTTATATTGATGGGGGTTTTTTAGTATAGTTTTTTCCTCTTCAATCTGTAGTCTTACAAAATCATTGAGATCTCTGGAATT
Celera SNP ID:            hCV8384222
SNP Position Genomic:     80903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61380):
CTCAGTGAATTTTTGTTTCTAGTTTTTGCTTTTTCTCTCATTTGTTTCTCATGAACTCATGGACTTTTATGTAGTCACTGTGTTTCAGTCAATCTTTTCT
K
TTTTTTGCCCAATTTATCTTTTACCATTGGGAGTCCTCAATGTGCTCCCTTTCCTGAGCTTTCTTAAGTAGAGAAGCTTCTGATTCAGTGAGAGATTTTC
Celera SNP ID:            hCV734801
SNP Position Genomic:     17194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61381):
AACTCATGGACTTTTATGTAGTCACTGTGTTTCAGTCAATCTTTTCTGTTTTTTGCCCAATTTATCTTTTACCATTGGGAGTCCTCAATGTGCTCCCTTT
S
CTGAGCTTTCTTAAGTAGAGAAGCTTCTGATTCAGTGAGAGATTTTCACTATCTCTTAAGTGTGTTATAATGTAACATTTTCTTTTCAAAGGTTTTTGCT
Celera SNP ID:            hCV734802
SNP Position Genomic:     17247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61382):
GAAGTATATAAAATAAAAATAAAAATCCTCTCTTTCAAAGTCTTACTACCTAGAGATAATCTATAAACATTTTGATGTATTTTTTTCAGACTTTTCTCTA
Y
GTATATGTAAATAATATGTAATTTATAAATATTTGTTTATAAACTTATAACTGTAAATTATGTCATTTATATATGTACCCATATAATGGGTTTTTGGTTT
Celera SNP ID:            hCV734803
SNP Position Genomic:     20075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61383):
GGGCTTCTGTTGAACTAATCACCCAAATAGTAAACATAGTACTCAATAAGTAGTTTTTCAATCTCTACCTCACTCTATTCCTCCCTCATTTTGGAGTACT
S
CTTGTCTATTGTCCATGGAAACAAGTTAGATCTGAAAGTTTCTTCATAAGGGCATTTGTTTAAAACTCCAGAGTGACTGAAGGATTTGTTTGTATTTCTG
Celera SNP ID:            hCV734804
SNP Position Genomic:     25768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61384):
GCCATGGTGGTTTGCTGCACCTATCAACTCATCACCTGGGTATTAAGCCCCACAGAAATTTTTAAAATCTTGCTATAGTGCCACATTTGTTGTTGCTTTG
R
CATTGATTACAGGCTTCTTTGTAGCATTATATATTATTGTCATATGAATTATTAGAAAATATATGTAGATTTTGTCTATATTTAAATACCAAAGTTACCA
Celera SNP ID:            hCV734805
SNP Position Genomic:     29448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61385):
ATACGTGAAGAAGGTAGATTATAAACTGCAGAGTATCAACCTTTAAAAAACAATCTGTACATGTAAGCAACAAAGAAAAATGTTAAGTCTACATTGTGGC
R
GCTCTCACCCGTGGTTACCCTTGGAATCAGTTGTGGAGACATCAGAAAATTATTGTTAAAAGTTTTAAAGTTACTGTAATTTATTCATAAATTAGAATTA
Celera SNP ID:            hCV15920934
SNP Position Genomic:     30549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61386):
ATTCAAAAGCTGTATAATCTCATTCAAAAATTCAGCCTGTCATTTAGCTATAAAAGGTCACCTTTTTAATCCTCAAGCCATTCTAGGAGAACATATAAAT
R
TACAAGTGGCAGACTTATATTAGACACATTTTGAAAGATAAAAAGCATAGTATGAGACAGATTACAGTCTACCCCTCAGTTGAGAAGCAAATAAAAACAC
Celera SNP ID:            hCV8384260
SNP Position Genomic:     61455
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61387):
AGATTTTAACTAACATTTTCTCAGTTTATACTACTGGGTATCATACATAAGATTGTGAATTTTAAGTAAACTGTAAGATATTCTAGAAGTGAAATCTTTC
R
AAGAGTTGCTTGACTAGCAGAAATATGTGCTTCGGAAAGTAATACAATAAGGAGTCCTATGTGGCAGCTTCTAAAATAAGAAACTTTAATGACAAAAATT
Celera SNP ID:            hCV734806
SNP Position Genomic:     32732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61388):
AGCCAACAAGTCTTTGGCAAAGTTCTTATGGATGGATTTGTGAAGATATCGCTGATTTGATCTAATCCTTAAATTGTAAAGAACAAGTAACTTGGATGTT
M
CTGGCTTGATGTTTAAAAGAAATGTTTTAGGTAATTTCAATTGTGAGCACCTCTTTGCAAAGGCTAGTTTGGAGAACAAATCATCACCCTCTTGATGCTT
Celera SNP ID:            hCV8384261
SNP Position Genomic:     60879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,11)      total(A,1|C,11) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61389):
AGCTTGCACACCTACCTTGAAAAGCCCTCTAGTTCAAAGTTATCCTAGCCCCATGGTAGATAATAAAGCAGAGTTGTGTGGCATGATAAACAAGACTGGC
S
TCTGAGATAGTGCTCTCTTAATTATTAGTTATTATAACAGATGCTAATGCCACCTGATCAACAAATACTATTTAGAATTAATTTATCATCTTTAATCATC
Celera SNP ID:            hCV734807
SNP Position Genomic:     35681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61390):
AATACCACCTACTTTGGTGATCATTGATCTAGGTAGTTTTGTGCTAGCAGCTATGTTGATTAAAACATGTACTTTTGAATTACAGTTTTTAAAAATGACG
Y
TTTTATTTTTGACGTTGAACCTGTGATCTTCCTGATGTCTTAAAATGTTACTGTCAAGATTGAATACATTCAAGGATGTTTAACTGTGGGAATGTAAAAT
Celera SNP ID:            hCV734808
SNP Position Genomic:     38141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61391):
CCAAGTAGCTGGGACTATAGGCGCCCACCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAAACAGATTTCACCCTGTTAGCCAGGATGGTCTTGAT
Y
TCCTGACCTCATGATCTGCCTGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGCACCCAGCCAAGAGCACACTTCTTTATAAGTCTTG
Celera SNP ID:            hCV27945418
SNP Position Genomic:     33563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61392):
ATCTCTTATCCTCCTGACACTGTAATTGTAGGTGCTGAAATGCTTGTTTTCTGTCAGTGTCATCCAGTACAGATCTCTAACATTTGTGTGTGACTGGAGG
Y
GCCCCAAGGCCCTGTTGCCTCAATTTCTTTATCTTGGTAGTGTTTGGCCCACAGTGTGTATTCAGAGACAGATTTTGTGTACAGATAGCATTATTCAGTT
Celera SNP ID:            hCV734809
SNP Position Genomic:     39653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61393):
TTTTATTAAAGCACTAGACAATGAAAGAAAAGTCCACCTTAGTGGAAGAGGATTTTACCTGTCTGAGGTATAAAAAAAAGCTGGAATATTGGCCTGCCTC
Y
GGTAGGTAGGAGAGAAACACTGTAATGCAGATCAGCAGCACTATGGAATCTTGGCCGACTTTTTTTAAGGACTAGAACAAGAAAAAGACTGATTGATATA
Celera SNP ID:            hCV25613408
SNP Position Genomic:     70339
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,39|T,1)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:61394):
GCTAAGACCACCACCAAGCTGTCCCCATATACTCGTCCAAGATAAGCTCCAATTGCAGGACTGGTGACTAAACTTGCAGCAAATGTTGCTGAAACCTGCA
R
TAAATTAAGGATAGACAGAGATTAGTCAGGCTACTTTTTTCCTCAACACCACATAACTCCTTTCATAATCTTGATTTATGTCAGGCCTTCTGTTGCACAC
Celera SNP ID:            hCV25613409
SNP Position Genomic:     70912
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,2)   caucasian(A,40)   total(A,70|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:61395):
TAAAAAATTTTGTGTAGGAAAAGGCTTTGAACATGTCCTGAAAAGCTATAATTTTGTTTTCTTTAATATCCTTGTAAATATTGCTATATTCTAATCAAAA
K
TATTACATATTAAGGAGCCTATCTTAATATTTTGTGTTAAACTCTAATGTAGACATTAGCAGAAAAAAAACAAGAATTAGATAAGTTACGGAATGAATGG
Celera SNP ID:            hCV25943408
SNP Position Genomic:     19698
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,16)   caucasian(T,24)   total(G,2|T,40)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61396):
AGGTTGCAGTAAGCCAAGATCACACCTCTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAACAAAAAACAAACTATATATATATACACACACA
Y
ACATACACACACACACATACATATAAATATATATTTTCAAATGTAGTGGTTATTTTGTTATTGCAGCCCTAGGTGTGGTTTCAGAGGGACCCAGATCTCA
Celera SNP ID:            hCV26065147
SNP Position Genomic:     75881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61397):
GTTTTAAGAACAAAAGAGGCATTTGATACAATCCAGGAACAAAAGGTCTACTTTTAAATTTTTCTCAGAAATTGATAATCATATTTATAAGTAAACACAA
M
TGCCCTAATTATTCATGTTTTTAAAAAATATATCAGGTGGTTTTAGAAGAAAATGGTGAGAAAAATCAAGTACAACTAGGAAAGCTTGAAGCTACAATAA
Celera SNP ID:            hCV25939026
SNP Position Genomic:     31130
SNP Source:               Applera
Population(Allele,Count): african american(A,31|C,5)   caucasian(A,38)   total(A,69|C,5)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,5)   caucasian(A,32)   total(A,61|C,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:61398):
TAGGCTAGGTATGGTGGCTCACACCCGTAGTCCCAGCACTTTAGGAGGCCAAGACAGGAGGATTGCTTGAGCCTAAGCTTGAGGTTACAGTGAGCTACTA
T
TTGTGCCACTGTACTCCAGCCTGGGTGATAGAGCGAGATCCTGTCTCTGAAAAAAAAAAAAGAAAAAGAAAAAAATTAAAATTACATACCTGGCTCACAT
Celera SNP ID:            hCV11892514
SNP Position Genomic:     7631
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61399):
ATAAAAAACCAGCAGCACTAGAAAACAAAGCTGTCTGCAATATAACTATGATACACTGATGTTGTTGGATTTCTTTACTTCTGAGAAGAAATTACTCAAA
M
GGCCAGATCTAGTAAAAACATTTAAAAACAACAAACTTTCTTTTAGGACTTAGTTATTCGTCTGACTGATGACACGGATCCATTTTTTTTATATAACCTT
Celera SNP ID:            hCV25936089
SNP Position Genomic:     15550
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,1)   caucasian(A,28)   total(A,61|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:61400):
TATAAAAATCAGAGTTCCTTAGCTTAGTTCTTGATTATAACAAGCGTTAGTAAATTTGAAAAAAGAATCCTTCAGGATGCTAATTATAATTAAAGATAGT
R
ATTGGCCAGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGCGGCCGAAGAGGGCGGATCATGAGGTCAGAAGTTCGAGACTAGTCTGACCAACA
Celera SNP ID:            hCV11892516
SNP Position Genomic:     16033
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61401):
CTGCACACCAGCCGAGGCAGCGAGCCAACATGAGCCAAGTGCTGTTCCACCAACTAGTCCCGTTGCAGGTGAAATGCAAAGACTGTGAGGAGAGGTAAGG
Y
CCGCGTCATCCAGTGCCCGCGGGTGGCGGTTGGGGTCAGGCCAATGGGGAAAGATGGCGGTTCTGGCCCGTGGGATCCACCTTGCACCTAGGTGTCGAGT
Celera SNP ID:            hCV1526694
SNP Position Genomic:     6144
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(C,2|T,38)   total(C,4|T,72)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61402):
TGCTTAATTTCTTTCTTTTCCCATTCTAGGAGCTACAGCGGACTAAGCAAGAAGTCCTCTCTTTGCGAAGAGAGAATTCTACACTAGATGTTGAATGCCA
Y
GAGAAAGAAAAGCACGTTAATCAGCTACAAACAAAAGTGGCAGTTTTAGAACAGGAAATCAAGGATAAGGACCAGCTTGTTTTAAGAACAAAAGAGGCAT
Celera SNP ID:            hCV25933937
SNP Position Genomic:     30951
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,34)   total(C,63|T,3)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,32)   total(C,62|T,2)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61403):
AATACAATGTATTATTAAAATTAATTTCACCTGCTTTTAAAAGTCTTTTTAAAATGTGACTTCTAGAAAATTTAAAAGTAGGCTAGGTATGGTGGCTCAC
R
CCCGTAGTCCCAGCACTTTAGGAGGCCAAGACAGGAGGATTGCTTGAGCCTAAGCTTGAGGTTACAGTGAGCTACTATTTGTGCCACTGTACTCCAGCCT
Celera SNP ID:            hCV1526695
SNP Position Genomic:     7553
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61404):
AAATGCTTGTTTTCTGTCAGTGTCATCCAGTACAGATCTCTAACATTTGTGTGTGACTGGAGGTGCCCCAAGGCCCTGTTGCCTCAATTTCTTTATCTTG
R
TAGTGTTTGGCCCACAGTGTGTATTCAGAGACAGATTTTGTGTACAGATAGCATTATTCAGTTGGGTTAACCATCTGATTCACCTAGATGGTTTAAATTA
Celera SNP ID:            hCV734810
SNP Position Genomic:     39690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61405):
AAGTAGGCTAGGTATGGTGGCTCACACCCGTAGTCCCAGCACTTTAGGAGGCCAAGACAGGAGGATTGCTTGAGCCTAAGCTTGAGGTTACAGTGAGCTA
Y
TATTTGTGCCACTGTACTCCAGCCTGGGTGATAGAGCGAGATCCTGTCTCTGAAAAAAAAAAAAGAAAAAGAAAAAAATTAAAATTACATACCTGGCTCA
Celera SNP ID:            hCV1526696
SNP Position Genomic:     7628
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61406):
CAGATAGCATTATTCAGTTGGGTTAACCATCTGATTCACCTAGATGGTTTAAATTAATTTTTCATTTATTTGGTATTAACTTTTTAAAAATAATGTGTAA
R
TATGGGAAGCTTTGAAAGGTACAAGAGGATGTACTATCTAAAAGTCCCTACTGTGGTCCCCAGTCCTCTTAGAGAAAAATACTGTTAGGAATTTCTTATG
Celera SNP ID:            hCV734811
SNP Position Genomic:     39835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61407):
AGTATCTCTATTCATGTGCTTATTTAACATCAATATTAAAATACCACTTTGGTGATATTTCTATTTGAATCTTTTGACCATTGCTAAACAAGGTTGTCTT
K
TTATTGAATTATAAGTTCTTTGTATATTCTGGATACAAGTCCTTTATCAAGTATATGATTAGCAAATATTTTCTCCCAGTGGCTTCCCTTTTCATTTTCT
Celera SNP ID:            hCV16002611
SNP Position Genomic:     42198
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,6)      total(G,2|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61408):
CAAAAATCTTATGATTCTTCACTATAACGTCCTTTGAATCAGAAATCAGTCCCTTTTAAAACTAATTCAGCCCAACACAATATTCAGTCCTTATTTATCA
M
AAGGTATTTGTCTCACATTTACCGAAATGCATCACTGTCCTATTTCTGGCTATTCAGTAGTGATCTATTATTGTGCCTATAGTAGTCATTCTATTACTAG
Celera SNP ID:            hCV16089502
SNP Position Genomic:     77362
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61409):
AGTAGGCTAGGTATGGTGGCTCACACCCGTAGTCCCAGCACTTTAGGAGGCCAAGACAGGAGGATTGCTTGAGCCTAAGCTTGAGGTTACAGTGAGCTAC
K
ATTTGTGCCACTGTACTCCAGCCTGGGTGATAGAGCGAGATCCTGTCTCTGAAAAAAAAAAAAGAAAAAGAAAAAAATTAAAATTACATACCTGGCTCAC
Celera SNP ID:            hCV1526697
SNP Position Genomic:     7629
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61410):
TAGCCTCCTGAGTAGCTGGGACTACAGGTGTGTGCCACCATGCCCAGGTACCTTTTTTTGCATTTTTTTGTAGAGATGGAGTTTCACCATGTTGCTCAGG
S
TGATTTCGAATTCCTGGGCTCAAGGTATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGAATTACAGGCGTGAGCCACCATGCCTGGCCCATATCTTTCCTT
Celera SNP ID:            hCV734812
SNP Position Genomic:     41254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61411):
GAAAATGGTCACCTTCTCAATTTCTACAAAATGGTTTGTTTGGATTTTGATAGGTATATAAGGAATTTATAGGTCAGTTTTCAAAGAAATGCTGTTTTGG
Y
AGTATTGTGTCTTCCAATCCATGAATATTAAGAGTCTTTCCATTTATTTAGAGCTTTACTTTCTCTCAGTAATGTTTTGCAGTTTTCAATATATAAGTCT
Celera SNP ID:            hCV734813
SNP Position Genomic:     42921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61412):
AACCTTTAATATATTCCTATTATCTGTATAATAGGGGTCAGCAAACTGGAGCACATGGGCCAGTTGGCTCACTGTTTTCGTAAATAAACTTTTCTTGGAA
Y
ACAGCCATGCTCATTTGTTTACATATTGTAGCTGCTTTTGCACAGGAAGGGCAGAGATGAGTAATTGTGACAGAGACCTTATGGCCCGCAAAGCCTAAAA
Celera SNP ID:            hCV16109239
SNP Position Genomic:     7995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61413):
GCTGTTCCTTGTGCCTCAAATGCTTTTTTCTTTCATAACTTTCAGGTATGTCTTAAATCCTTTCACTATAAGGACCCTTCAAAGTTGCCTAAGTTGAAAT
R
AATTGCCATTATTCAGTTATTAGATAGTGTGGTGTAGGTGAAAGATCTGAGTTTTCATTTGGGCTCTGTAATGTGACCTTAAACCATTATTTGGGCCTTA
Celera SNP ID:            hCV1526699
SNP Position Genomic:     9290
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;(G,-|A,-)   Caucasian(G,84)   African-American(A,4|G,80)   Asians(G,84)   total(G,248|A,4)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61414):
TAGCCTGGAGTGCAGTGGCACATTCTTGGCTCACTGCAACTTCTGTCTCCCAGGCTCAGGTGATCATCCTACCTCAGCCTCCCTAGTAACTGGGACCACA
R
GTGCATGCCACCATACCCCCAGCTAATTTTTTGTAATTTTGGTAGAGACAGGGTTTTGCCATGTTGCCCAGGCTGGTCTTGAGCTCCTGAGCTCAAGTGA
Celera SNP ID:            hCV734814
SNP Position Genomic:     43476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61415):
GGTTTTGCCATGTTTCCCAGGCCAATCTCAAACTCCTGGGCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGTGGGGATTACAGGCATGAGCCACCA
Y
GCCCAGCCCTATTCTTTTCAAGTACACATGGAACACTAACCAAGATAGACTACGTCCTAAGTCCTAAACCAGTCTGGAATTAAACTAGAAATCTATAACA
Celera SNP ID:            hCV734816
SNP Position Genomic:     45397
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61416):
AGTACAGTGGTGTGAACAGAACTTGTGGCAGCCTTGACCTCCCAGGATCAAGCATTCCTCCCACCTCAGCCTCCCATGTAGTCAAATATTTTTTTCTGCA
R
AACACTCTTCTTTCTTTTAGGACTCAAAAGACATGAATATAAATCTTTATTTTCCTAAAGGTCCACAACCTTCTGTTCTTTTCTTCCATTCTTATTTTTT
Celera SNP ID:            hCV734817
SNP Position Genomic:     47009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61417):
CACCAATAAGCGGGGCACTAAGGAATGACAACAAACCCTAAAAAAATTAAATGAAAAAAATGAATACCACACATCTATGAGCATGAACCAAAAATAAATC
R
TTTTACTCCTATAGAAAAATTTTCAACAACTTTGTTTCTAAAGTAAATATATCACAAACTTTTAAATAAACAATTGCTTATCTATATATAAATTTAAAAT
Celera SNP ID:            hCV25613410
SNP Position Genomic:     80192
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,5)   caucasian(A,40)   total(A,73|G,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:61418):
TTTCTTTTAGGACTCAAAAGACATGAATATAAATCTTTATTTTCCTAAAGGTCCACAACCTTCTGTTCTTTTCTTCCATTCTTATTTTTTCTGTTTTTCA
R
ATTTGATTATTTCTATTGATCCGCCTTCAAGTTTACTGTTTTCTCTGTCCATTCTACTATCAAGCCCATTCAGCGGTTTTTTTCTGTTCTAAAATTTCCA
Celera SNP ID:            hCV734818
SNP Position Genomic:     47120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61419):
AACTCTGGTTTTTAAGCATTTTATCCAATCTCAAATAGAATCTCACATAAAAGCTTTCATGACCAAAAACCAGTAGCCTTTAATCTAGCCAAATGAACCA
Y
ACAATTTGATCATGTTGAATGAGAATTACCTGTTCAAAGTGGTGCTGAGGGCTTGTGTTTGTTCCCAAGTCTGTTCCTGTTATTGGCAGTTCTTTAAGTT
Celera SNP ID:            hCV15959429
SNP Position Genomic:     58195
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,24)   caucasian(C,1|T,35)   total(C,5|T,59)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,105|T,1392)   total(C,105|T,1392) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61420):
TTTTCTCTGTCCATTCTACTATCAAGCCCATTCAGCGGTTTTTTTCTGTTCTAAAATTTCCATTTCGTTTTCTTTCCTTTTTTTTTTTTTTTTTTAATGA
R
ACTTTTTTACATTCATTTGAACAGTGTTATTAGAGCACGGTTATAATGGGTGATTTGAAGTGGTTTTTCTGATAATTCCAGTATTTGTGTCATCTTGGGG
Celera SNP ID:            hCV734819
SNP Position Genomic:     47259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61421):
ACCTTAAGGAAATGGTAGCAGAGACATTTGCTAATATCTAAGAAGTTACATATATAGTTTTTAATTAAAGGATGTATAATAAAACAAATAGCTTAGTGGC
R
AGAAATTGGTGCTAATAAACAAAAGGTTTTTCAAAAGAAATTGTAACATCTTTGGAAAACTGTCTGGTTCTAAGTTCCCACTTCCTTTAGTTCCCACGGA
Celera SNP ID:            hCV12001824
SNP Position Genomic:     56446
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61422):
CTGGCGAGGGCCAAGTCTCTTACGCCTTCCCCTCGTTTCTCCCTCCCCGCCTCCTCCGCAGAAGCCGAGCGCCAAACTCAAACTTTATCAGGACCCGGAC
S
TCTCAGGCTAATCCCGAGGGCCGGGCCTGTTGGGCTTTTCTGCACACCAGCCGAGGCAGCGAGCCAACATGAGCCAAGTGCTGTTCCACCAACTAGTCCC
Celera SNP ID:            hCV27839720
SNP Position Genomic:     6004
SNP Source:               Applera
Population(Allele,Count): african american(C,28|G,4)   caucasian(C,38)   total(C,66|G,4)
SNP Type:                 UTR 5


Context             (SEQ ID NO:61423):
TCACTGCACCCTCGACCTCCCAGGATCAAGCAATCCTCCCATCTCAGCTTCCTGAGTAGCTGGGACTACAGGCACACACCACCACACCGGGCTTTCTTTC
Y
TTTTTTTTTTTTTTTTTTTTTTTTTGGTAGAGATGGGGTTTTGCCAAGTTGCTTGAGCTGGTCTTGAACTCCTGGGCTCAAGCGGTCCCTGACCTTGGCC
Celera SNP ID:            hCV11892520
SNP Position Genomic:     67568
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61424):
CGCCATTCTCCTGCCTCAGCCTCCCGAATAGCTGGGACTACAGGCGCCCGCCACCTCGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCAC
Y
GTGTTAGCCAAGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCGGCCTA
Celera SNP ID:            hCV11892521
SNP Position Genomic:     72078
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61425):
GGGGTTTCACCGTGTTAGCCAAGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCA
Y
GCCCGGCCTATTTAAATTTTTTAACTCTTTTAGTTGAGGAAGGGTTGAGAGCCTGGGCACTGTACAAACACCCCTCCTTGACTGCCAGTCATGCTGGTCC
Celera SNP ID:            hCV11892523
SNP Position Genomic:     73290
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61426):
GTTCAATATCAACAGCAGCATGAACAACAGAAAAAAGATTTAGAAATCCTCCATCAACAAAACATCCACCAGCTACAAAACAGACTGTCTGAGTTAGAAG
Y
GGCTAATAAAGACTTAACCGAAAGAAAATATAAAGGAGACTCCACTATTAGAGAACTTAAAGCAAAACTTTCTGGTGTTGAAGAGGTATTGAATGTTGTT
Celera SNP ID:            hCV25935547
SNP Position Genomic:     28507
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,20|T,14)   total(C,54|T,18)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61427):
CTTAATTAGACTATTTTTTAAATATCCTGGCTATCATCAGCCTTGTATCATTTAATGTTCCAAGTTTACAACTGAAATCATTAGTTCTTTTTCTTTTCAC
T
TTTTTTTTTTTTTTTTTTTTAAATAGAGACAAGGTTTCACCATGTTGGCCAGGCTGGTCGTGAACTCCTGATCTCAAGTGATCCGCCTGCCTCAACCTCC
Celera SNP ID:            hCV11892524
SNP Position Genomic:     77071
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61428):
TGCCACTTGCACTCCAGCCTGGGTGACAGTGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAACACGAAAAAGAAAGAGCAAAGAATTCAT
W
TAATAACCAACTCTTTACCCTACTGATACAGTTTTATATTGATGGGGGTTTTTTAGTATAGTTTTTTCCTCTTCAATCTGTAGTCTTACAAAATCATTGA
Celera SNP ID:            hCV15865485
SNP Position Genomic:     80890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61429):
TCACAATCTTGGCTCACTGCCACCTCTGCCTCCGGGGTTCAAGCGATTTTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTCAGGTGCCCACCACCATGCC
Y
GCTAATTTTTGTATTTTTAGTAAAGACAGGGTTCCACCATATTGGCCAGGCTGGTTTCGAACTTCTGACCTTGTGATCCAGCTGCCTCGGCCTCCCAAAG
Celera SNP ID:            hCV8384242
SNP Position Genomic:     64151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61430):
AGCGGTTTTTTTCTGTTCTAAAATTTCCATTTCGTTTTCTTTCCTTTTTTTTTTTTTTTTTTAATGAGACTTTTTTACATTCATTTGAACAGTGTTATTA
R
AGCACGGTTATAATGGGTGATTTGAAGTGGTTTTTCTGATAATTCCAGTATTTGTGTCATCTTGGGGTTGACTTCTTCTGGTTTAACTTTTCCCTTATGA
Celera SNP ID:            hCV734820
SNP Position Genomic:     47292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61431):
TGCTTTGTAGTATGAATTCCTTTTCTACCTTTCGTACTATAGCTTCTTTTTTTTTTTTTTTGAGACAGAATTTCGCTCTTGTTGCCCAGGCTGGAGTGCA
R
TGGCATGATTTGGCTCATTGCAACCTTTGCCTCCCAGGTTCAAGCAATTCTCCTACCTCAGCCTCCCAAGTAGCTGGAATTACACATGTGCCACCATGCC
Celera SNP ID:            hCV16109247
SNP Position Genomic:     21633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61432):
ATAGCTGGGATTACAGATGTGCACCACCACCCCCAGTTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTTC
K
GGCCTCATGTGATTGACCCACCTCAGCCTCCCAAAATGCTGGGATCACATGCGTGAGCCACCATGCCTGGCTGTCAGTTCAAATTTTAAAGACTTTGTCA
Celera SNP ID:            hCV734821
SNP Position Genomic:     47789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61433):
AAGATAAGTACAGAACTCTGCTAAATAAGCCAGGAAACTGATGAGCTGCTAATATTGGCCAAAATGATCAGCATTGTTTGGCATTAATTTTCAGTTGAAA
R
GAGGGAAATATAGCAAACAGTGAACAAAGGTTATTTACCATAAGCCTGCCTTTTGTATGAAAAGTTAGTTAACATACACAACTGTGATATTAGAAAAGTT
Celera SNP ID:            hCV734823
SNP Position Genomic:     57849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61434):
CTGTGTGTTTAAATATATTAGTACAATATCGTGCATATTGTCTTGTGATTTTTAAAATCTCCATATTATTTCTCTTATGTTCTTAATTTGTTTTGTTTAA
Y
GCGACTAGATGGTTTTTCTATTGTTTAGTGTTTTCGAAGAACTAGTTTTTCATTTCATTAATTAGTTCTACACTGTTTCTCCCCCTATTTCGTTAATTTC
Celera SNP ID:            hCV16109248
SNP Position Genomic:     25113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61435):
TCTGTGGCCAACATTCATCAGTAAATTTTTTTGAGACAGGTCTCTCAAGGTCTCTCACTGTGTCGCCCAGGTTGGAGTTCACTGGCCTGATTTTGGCTCA
S
TGCAACCTCCGCCTCTGAGACTCAAGTGATCCTCCAACCTCAGCCTCCCAAGTAACTGGGACTACAAGCATGCGCCACCCTGCCCAGCTAATTTTTGCAT
Celera SNP ID:            hCV734824
SNP Position Genomic:     59876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61436):
TAAATATATTAGTACAATATCGTGCATATTGTCTTGTGATTTTTAAAATCTCCATATTATTTCTCTTATGTTCTTAATTTGTTTTGTTTAATGCGACTAG
R
TGGTTTTTCTATTGTTTAGTGTTTTCGAAGAACTAGTTTTTCATTTCATTAATTAGTTCTACACTGTTTCTCCCCCTATTTCGTTAATTTCTATTTACTA
Celera SNP ID:            hCV16109249
SNP Position Genomic:     25122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61437):
CAGCAGGAAAGGTGATGCTAGACATGGCTGCTACTGCCCCAGCAGCCCACATCATCCTATAAGGAGAGCAGCAAAACAAAAACAGTAAATTCTTCTCCAC
Y
GTACCTGAAAGTCAAACTACATAATTAAGTAATTCTTACTGTGAAATGGCTGTAGAGAAAAGGAGAACTGAACTTGCTTACTAGGTGACTATGGGCAAGT
Celera SNP ID:            hCV734825
SNP Position Genomic:     60478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61438):
AGATTACAGTCTACCCCTCAGTTGAGAAGCAAATAAAAACACAAGGGCTAACACCAAAATTAAAAATATTAACATTAAAATATTTATACTTACCAAGGTT
Y
TGAACCAAAGCCATACCATGCCAACTGTAATATTTGAAATCCTAGACCCAGTAAAATGGTGTTCTTATTTCCAATTGACCTCATAAGTAAACTCAAGACT
Celera SNP ID:            hCV734826
SNP Position Genomic:     61614
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61439):
AATATTAACATTAAAATATTTATACTTACCAAGGTTCTGAACCAAAGCCATACCATGCCAACTGTAATATTTGAAATCCTAGACCCAGTAAAATGGTGTT
Y
TTATTTCCAATTGACCTCATAAGTAAACTCAAGACTATGGTCTGAAAAAAAAAAAAAAAGATTTATCAGAATAAAGTTTTAAAAAGTGACTTCTTTCAAT
Celera SNP ID:            hCV734827
SNP Position Genomic:     61678
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61440):
CAAAGCCATACCATGCCAACTGTAATATTTGAAATCCTAGACCCAGTAAAATGGTGTTCTTATTTCCAATTGACCTCATAAGTAAACTCAAGACTATGGT
Y
TGAAAAAAAAAAAAAAAGATTTATCAGAATAAAGTTTTAAAAAGTGACTTCTTTCAATCTACACTATAAAAGGACTATTGGCACTTTTCTACAATTTGGC
Celera SNP ID:            hCV734828
SNP Position Genomic:     61720
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61441):
ATTTTTATGAATAGGAAGAAAAATTATCATTGATGCAATCACTAGATGATGCTACTAAGCAACTGGACTTTACACGAAAGGTAATTCAAATTTCATTTTG
Y
CTTTGTAAGTCATCCAGACATTGGCACTGAATTGCTTCCTTGACTCAGTTCCAAGCTTTTATGTATTTTCTTTCAAAGCATGCTTCCGTTGAATTTCCAT
Celera SNP ID:            hCV25934600
SNP Position Genomic:     18515
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,32)   caucasian(T,40)   total(C,4|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:61442):
AAGTAGCATCCTGGGTGAATTTCAGGAAGTACTTAAATAGAAGCTGCTTAAGAACAAGGCATTCTGAGGCAGAGCAGGTGCCTAAATTACTAATTTTCCA
R
AGTAGAGATGATATATTATACTTCTTACATGTTATTCCTTATGCCTGCTGTACCTCTTCATTTTCTAGCTTGGTGCATAAGTGGTTTAGATTTTTCTAGG
Celera SNP ID:            hCV1526700
SNP Position Genomic:     14685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61443):
TCCTCAACACCACATAACTCCTTTCATAATCTTGATTTATGTCAGGCCTTCTGTTGCACACCCTCCCTTTTCTCTTCCTACCTGTGCCATTTATCTTTTT
Y
TCTTGTGGGGGCGAGAGTGGGGGAACTGGGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCCATCACGGCTCACTGTAGTCTTGACCTCTCAGGC
Celera SNP ID:            hCV734829
SNP Position Genomic:     71052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61444):
GCACATTCCAGCAGCAACACAATCAGAAGTGGAATTTCTCCTAACCTGAATGTGGTAAGATTTAAAACAAGATGTGAGTGATCTTAGTGAATTTCCTGAA
M
CAAAAGTATTTCCAGATTGTTAGGAAGTTTCCATGATTTAAGGTGCTGATACCAATACAAAGTGGAGTCCTACAATTGCACTGAAATAGAGTTTAAGTTG
Celera SNP ID:            hCV1526702
SNP Position Genomic:     33164
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61445):
GGGGTTTCACCGTGTTAGCCAAGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCA
Y
GCCCGGCCTATTTAAATTTTTTAACTCTTTTAGTTGAGGAAGGGTTGAGAGCCTGGGCACTGTACAAACACCCCTCCTTGACTGCCAGTCATGCTGGTCC
Celera SNP ID:            hCV26065161
SNP Position Genomic:     73290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61446):
TCATACAACATGTAGTTTTTTTGTGTGTCTTTCTTCTTTTTTTTTGAGATAAAATCTCATTCTGTCATCCAGGATAGAGTGCAGTGGCACGATCATGGCT
Y
ATTGCAGCCTCGACCTCCCTGGGCTCAGGTGATCCTCCTATCTTAGCCTCCTGAGTAGCTGGGACTACAGGTGTGTGCCACCATGCCCAGGTACCTTTTT
Celera SNP ID:            hCV1526703
SNP Position Genomic:     41110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61447):
CAGCAGTGAGCTGAGATCATGCCACTTGCACTCCAGCCTGGGTGACAGTGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAACACGAAAAA
R
AAAGAGCAAAGAATTCATATAATAACCAACTCTTTACCCTACTGATACAGTTTTATATTGATGGGGGTTTTTTAGTATAGTTTTTTCCTCTTCAATCTGT
Celera SNP ID:            hCV26065162
SNP Position Genomic:     80871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61448):
GAGAGAAGAGAAGAGGAAAGGAAAGGAGAGGAGGAGAAAGGAAAAGGGGAAAGGGGAAGAGAAAAGGGGAAGGAAAGGGTTAAAAAAGGGAAAAGGCTTA
R
GGAAAAGGCTTAAGGAAAAGGGGAAAGGGGAAGGGAAAGGAAAAGGAAAGAAAAAGAAAAAAGAAGGGAAAGGGAAAAGGGGAGGGGAAAGGAAAGGGAA
Celera SNP ID:            hCV15877398
SNP Position Genomic:     74302
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61449):
CAGTGGCACGATCATGGCTTATTGCAGCCTCGACCTCCCTGGGCTCAGGTGATCCTCCTATCTTAGCCTCCTGAGTAGCTGGGACTACAGGTGTGTGCCA
Y
CATGCCCAGGTACCTTTTTTTGCATTTTTTTGTAGAGATGGAGTTTCACCATGTTGCTCAGGGTGATTTCGAATTCCTGGGCTCAAGGTATCTGCCTGCC
Celera SNP ID:            hCV1526704
SNP Position Genomic:     41191
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61450):
CCCATATCTTTCCTTTTCACTCAGTATACTGTGTTTGAGGTTCATCCAGGCTGTAATGTGTGTCAGTAGTTCTTTTCTTTTAATTGCTCAGTAGTATTTC
R
TTGTATTGATATGCCACAATTTGTTCATTCATCAGTTGATGGACATTTGAGTTGTTTTAAGTTTTTGGATGTTACAGATTAAGCTGCTGTGAACATATGT
Celera SNP ID:            hCV1526705
SNP Position Genomic:     41440
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61451):
ATTTTCCTAAAGGTCCACAACCTTCTGTTCTTTTCTTCCATTCTTATTTTTTCTGTTTTTCAGATTTGATTATTTCTATTGATCCGCCTTCAAGTTTACT
S
TTTTCTCTGTCCATTCTACTATCAAGCCCATTCAGCGGTTTTTTTCTGTTCTAAAATTTCCATTTCGTTTTCTTTCCTTTTTTTTTTTTTTTTTTAATGA
Celera SNP ID:            hCV1526706
SNP Position Genomic:     47158
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,3)      total(G,3|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61452):
CTTCTGTTCTTTTCTTCCATTCTTATTTTTTCTGTTTTTCAGATTTGATTATTTCTATTGATCCGCCTTCAAGTTTACTGTTTTCTCTGTCCATTCTACT
R
TCAAGCCCATTCAGCGGTTTTTTTCTGTTCTAAAATTTCCATTTCGTTTTCTTTCCTTTTTTTTTTTTTTTTTTAATGAGACTTTTTTACATTCATTTGA
Celera SNP ID:            hCV1526707
SNP Position Genomic:     47179
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61453):
TCATGTGATTGACCCACCTCAGCCTCCCAAAATGCTGGGATCACATGCGTGAGCCACCATGCCTGGCTGTCAGTTCAAATTTTAAAGACTTTGTCATGTC
R
TGCTGTTTGGATCTGTCTCAAGTGTGCTATTCTGTGACCTTGGCAGTAGTTTACCCCATAGTTCGGTTCCCAAAGCCTTTGGTATGCTGATTAGGGTCAG
Celera SNP ID:            hCV1526708
SNP Position Genomic:     47894
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61454):
AAACTAAAACCTGCTCATAACCTCATAGTATGCAACCAAAGAATACTAATTCATTTTATCACTTTCATTGGTAAAACTTTTAAATTCAACACCTGAAAAT
Y
ATGAGGGAAAATGATTACCTCTTGAGATATATTATTGATGACATTTAAAGGGAAAAGTCCTAAATTTACCTTAAATAACTGAAATGAATTAAGCCTTCAT
Celera SNP ID:            hCV29003935
SNP Position Genomic:     53995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:61455):
TCTGTGAGGAATTAATTCTTCTTTTGTCTTATAATGTTGTTATTTTGACTTCATTTTCTCTGAATATAGAACTTTAGGTTGGCAAGTTTTTTTCCTATCT
R
TATTTTGAAGATGTTATTCCGTTGTTGCCTGGATTGAATACTTTCTGGCAAGATGTCAGTAGTCATGTTTATATATAATGTTTCCTTTATATAAAGTGAC
Celera SNP ID:            hCV1526709
SNP Position Genomic:     49274
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61456):
CCCATATAAAATTACAAGTCAGCATTAAAAAATCTAAACAATTGAATCTAGCCTTGATCAACTGTTTCCAAGTTTTTCTATCAGTACTCAATTGCTGTTT
R
TACTTTTTACTTGTGTAGTAGATAAGCAATAGTGTGGAAAAGGTTTAAAAGAAGTCCTTAGAAGAAAAACTTAAAATTGAACAAATTCTATTTGTTAGTT
Celera SNP ID:            hCV734797
SNP Position Genomic:     11542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61457):
TAGTTTTATTATGCAGTTAAATCTGTATCAGTGGACTTTTAAAACTTGGTACTACTACTAAATCTACTATATCATGAATATTCATTTATTTTTATAGTAT
S
AGAACTTGGGTTGATTTCAATGTTAATAAACTAGGCAAAACAAATAACTGTTAGAAGGTACAATTTTCTTCTCTTCCCTGTAACTGAAAGTTTTAAGAAT
Celera SNP ID:            hCV29003936
SNP Position Genomic:     54377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:61458):
TTTGCCCAATTTATCTTTTACCATTGGGAGTCCTCAATGTGCTCCCTTTCCTGAGCTTTCTTAAGTAGAGAAGCTTCTGATTCAGTGAGAGATTTTCACT
R
TCTCTTAAGTGTGTTATAATGTAACATTTTCTTTTCAAAGGTTTTTGCTACAGTTAGTTTCTCCAGCAGCTATTTTGGATAACTCACCTGCATTTTTAAA
Celera SNP ID:            hCV25939839
SNP Position Genomic:     17298
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,35|G,5)   total(A,71|G,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:61459):
CTGGCAGAATAGTTTGAGAAGTACTTGTGCATAGGTATTTTTTACTAATTTCTCCCTTTATTTTCTGAATTATATAAGCATTTGTGCTCTATTTGATTAA
Y
GTTTATGAGCACTTTCACCTATATACCTCTGTCCAATTCTGGATTCTCTAAGATACAGCATAGGATGTGGAACACTGTGGTCTCTCCCTCTCAGGGCTTA
Celera SNP ID:            hCV734798
SNP Position Genomic:     11790
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61460):
TGAAAAAATAAGTTTCTAAGTTTTATTGGTACTGTTCTCTTTCAAACACATACCTACATATTAGATTTAGTTACTTTGGGAATATTGGGCTATTTGTACT
R
TCTTTACTTAGGGTGTTTTGGAAAATAAATATTTTGTGGGTTATTAGAATTCTGCTTAAAACACCTGTGAAGTTTGAAGCTTTTGCTGAATTTATTGATT
Celera SNP ID:            hCV734799
SNP Position Genomic:     15809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61461):
AGTCATTCTCAATTGTATATTTCTGCATAAATGAGAATACAAGATCATTCTTCTACCTTTGAGGCTATACATGTAATAATGTAGTAGCTCATATATGATA
Y
AAAGTGTTAATTCTTACTTCTACATAAGCACCAAAACCTAAATGGTCACTTAAGGACCTTGTTCCTCATGGACTGTGTGTGTCATGCTGTGTCAGCAATG
Celera SNP ID:            hCV27484165
SNP Position Genomic:     66797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61462):
TGAGTTTTTAGAGTCTTTCTAGTCAAATGCTATAGATCAGTGCATGTCAAACTTTAAATTATCTGGGGATCTTGTTAAAATGATTTAGATTTGAGATGGA
S
CCTAAGAATCTGCATTTCTAACAGGCTTCCAGGATGATGCTGATGCTATACTTTGAGTAGCATGGCTATAGATGATTACATTGTAAACTGTGTAATTTTA
Celera SNP ID:            hCV25933772
SNP Position Genomic:     18312
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,32)   caucasian(G,40)   total(C,4|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:61463):
TCTAGCCAAATGAACCATACAATTTGATCATGTTGAATGAGAATTACCTGTTCAAAGTGGTGCTGAGGGCTTGTGTTTGTTCCCAAGTCTGTTCCTGTTA
Y
TGGCAGTTCTTTAAGTTCCACATGGAATATGTAGAAAATGAATCCATAGAGGGCCGGTCCCAGACCATTGCATAATCCTCGAATTCCTGTTATCATTCCT
Celera SNP ID:            hCV25613396
SNP Position Genomic:     58278
SNP Source:               Applera
Population(Allele,Count): african american(T,22)   caucasian(C,1|T,37)   total(C,1|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:61464):
AAGGACTGCTATAAACGCTGCAACACTTTCTGGTGAAAATTTCATTATCTAGAAGGGTTTCCAGAAAAGGTAACATTAATGAATACAAATGTATACCAGA
Y
AGAAAACCACTGCAGCTACTTGTATATTAACATTTAATGGGCCAGAAAAAAATAAATGTAATTCATTTATAAACAAAGAATTCCTCAGAGGAAATACAAC
Celera SNP ID:            hCV25613397
SNP Position Genomic:     69322
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,40)   total(C,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:61465):
TAAGATATTCCTTTTTAGTGACTGCAGAGTATTCATTTTTTGGGTTTAACTTAAATTATTTAACTACTTGCCTAAATGGTGGTCATTTAAATGCTTCGAA
R
TTTTGGTTATTTTAAGCAATACTGCAAGAAGCACTCTTAGTTTCTAGAAGTGAAACTGCAACATATCTGTATAAAATATTGATGGATACTGCAAATTTGC
Celera SNP ID:            hCV15920924
SNP Position Genomic:     20354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 348
Celera Gene:                 hCG2031628 - 84000314998210
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(36760747..36773368)
Chromosome:                  Chr1
OMIM number:                 602935
OMIM Information:            FATTY ACID AMIDE HYDROLASE;FAAH


Genomic Sequence (SEQ ID NO:12508):
AAAAAAAAAAAAAAATCAAGGTGGCAATGTTATGCTGGTGGTTAAGGACAGAGCCTCTCCTACCACAGTGCCACTGACTTGCTATGTGACCCTGGGCAAG
TCACTTAACTCTAATATGCCTCAGTTTTCTTCTGTTAAAATGGGGATAATAATACTGAGCTACCTCAAAGGGCAGTTTTGAGGCATGACTAATGCTTTTT
ATAAAGCATTTTGGGATCCTTCAGCAAAGGAATTCTCAAGACCTGAGTATTTTTTATAATAACAATGTCCACCATGAACTTGATCTGTCTGTGTGTCCCG
GAAGCTATCATTAGTCTATATGGTTCTCTAAGAGACTGAATGAATCCATTGGAGAAGTGGTGGATAACTAGCCGGAGAAAATTTGAGAATGCTTAAACTC
ATTCCCATGGAAACATACACAGGACACCTTTTCTTTGATGAGGTGGGATTTTTCCCTTTTTATGTGGCATACTAGTAATTTGTGACCTAAGAATAATTTT
GGAATAATTTCTATTAATATCAACTCTGAAGTTAGTTATACTGATCTGAGATTGTGTTTGTTCATAACAAAAGTGAAATGAATCTGGAAAAAAAAAAAAA
AAAAAAGACAGCACCTCTGTGCACATTTCATTGGCTAAAGCAAGTCACGTGGCTATGCCTACCTGCAGAGGGAGTGGGGAAGGCAAGCCTACTACATGTC
CAAGAGAAGGAGTAACTAAGTACTCCTTTGTGAGAAGTCCTAAGGCTTATCATACCCACAAATTGACTTCATGACCACTAATGATTCATGGTTGTGAGCG
ATAATTCAGAAAACACTCATTGAAAGGTTTCGTATGCTAACCTACAGTCTGGCTCACTACAACTTCCTTCTACTGGTCCCAGCTCTGCCCCTGGGGATAC
TCAAAACACATCTGCTTCCCCTGCCTCAGAACAGTCCTAGTTGGAGACAACATCTCTCTTCCCTAAGTCTGTCTTTCTCCTGGCGAAATACTCCCAATTC
CCCCAGTTCTCCCCAGAATGAGACTTTCAGTTTCCTCTCCATCCCAGTCACCCTCTTCAGCCAGTACACCTCCTAAAGTGTCACCTCAAAATATGGTCTG
AACAGCTTGGAGCTCAAAAGTTCCCATTTACTCAGAGAGATAAGGCTGAGTAAACTTAAGGACAGGACTGACTTTCAGAAGCAATTTCTGTAGAGCCAGT
TATTTAACTTCCTCATTCAGTAAATTCTGATAATCATATTCCCACTGGGGGGCCCATGAAATCTGATCAGATCATTTTCCACCTTAAAACTCCGACAATG
GCTTCCAGTTACTCAGGATGGAATACCTATTCCTTCAAGTGGCCCAGAAAGCCCTGTTGTAGGTTGGCTTCTGCCTGCTTCTCCAGCCTTGTGTTTCACA
ACCATTCCTTTCTCCTTACACTGCAGGATACTGGACCTCTTTCAGAATCTAGAATGTCCTCTTTCCTGACTTCACATTCACACGAACTGTTCCCTCTGCT
AGGGCACTCCCAACATCCTCCTCTGCCTCACTAATTTAACTCCTCTTTATCTTCAGCTCTGTTTAAACATCTCTTCCTCCAGGCGAGGTTAGGTCCCTCA
GGTATATGCACTTTACATTTCTCTCAGTACTTGGCTCACTCATAATTTACTTATAACTAATTGTAATTGCTTGTAATTTACTTGTAATTACTTGTCTATC
TTGCCCACTAGATTGTACATCCCATGAGAACAAGGACTTTTTTCTGCTCTGTTCACCACTCTAGCGTCTACAGTTAAGCCTAGCACATAGGAGGTACTCA
AATATATACTAACTACCAAATAGGTACTAAGCATGTTGGTACTTGGGGGTTAGGGATGCAAAAATAAATACCAGCTTACTGTCCCTAACAATTCCTAGTT
TGGAGATGGGTAAAGAAGAAAAAGTGGCCATGGAAAGTGCTATATTCATTGTATTATAGAGAAGGTTGGGGAGCACAGAAGAGGATCAACCCAGCTTTAG
AAGGATTAGAGAAAGCTTCCAGAGGGGTGGACATTTGAGCTAGCAAGAAAGCACAAGGGAAAAGGCATTTAGACAGAGGAGACAATTTGTCCTGACCCAG
AAGCATTGGGGTATGCTATGCATGGATAGACAAAGAATTTGTGCAAAAGGGGAGCAGCAAGGCATGACAGACACAGATAAAACAGCATCAACAACCAGGG
ATCAGGGCAAAAGTCTGGACTTGATCCTGCTGGCAATGGAGAGAGAACAAAGGATCTTTCTGTAAAAATGGGTTCTCCCTATGTTGCTCAGGCTGGTCTC
AAACTTCTGGCTTCAAGCGACCCTCCTGCCTTGGCCTCCAAAAGTGCCGGGATTACAGGCATGAACCACCATGCCCAGCCTAAAGAACAAAGAATTATAA
GCAGATGAATGACACTCAGATTTGTGTTACTTACTAACACAAATGACATATGTTAAAATTTTATTTAAATTTACTTAACCATTTCCAAAACTTACTGGCT
TAAAACAACCACTACTTTATTTGTTCATGATTCTGGAGGTCAGCGATTTAGGTTGGTCTTGGCTGGGGTCACTCATGCTGTTTGGGTCACCTAACCGTTT
AACTGAGCTTAGGAGGTCTAAGACAGCTTCCAGCACATGTCTCCAGCAGGTTGGTCCAGGCTTCTTCACAGAGCCGCAGAAGAGCTCCAAAATGAGCGTG
GAAGTTGCGAGGCTTCTTGAGGCCTACATGCAGAAGTTGCACAGCATCCCTTCCACCAGACTTTACTGGTCAAAACAAATCATAAGATCAGCCCAGATTC
AAGAGGTGGGGAAACAGACTCCATCTCTTAATGACAGAAGCAGCAAAGTCACATTGTACTGGGACAGGATGGGAGGAATTATTGTGATCGGCGATCACAC
AACAGATAAGGGGTGGCATGAGAGGATGGGGGAGAATGGAAGAATTTAGGGCTGATTGGAGTAATAGAAATGAGTTTTGAGGCTACTGCCTTTGATCAGT
GAGAAATGATAAGGCCCTACCTAAGGTAGGAATGCTAGGAAGGAGAGAAATATAAGCGACATTTCAAGAAAGGAATTTCAGATTGTGGCTGGGCGCAGTG
GCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGCAGGCTGATCACTTGAGCTCAAGAGTTCAAGACCAGCCTGGGCAACATGGCGAAACCCCATC
TCTACTAAAAATACAGAAATTAGCCAGGCGCGGTGGCATGTGCCTGTAGTCCCAGCTACTCAGTAGGCTGAGGCAGGAGGATCACTTGAGCCTGGGAGGC
GGAGGTTGCAGTGAGCCGAGATCACACCACGGCACTCCACCCTGGTGAGAGCCAGACCCTGTCTTAAAAAAAAAAAAAAAAAAAAAAGAAATTTCAGATT
GTAACTTTTTGAGTTACTTAAGCAATCTAAGCTTGTTTCCTTCTCTATAAAATGGGACTAAAAAGAGTATATCAGCTGACTCTGGATTTGCTGCCTATGA
GTTAGCCTTACTCTGCAAGGAGCAGTACTGTTCAATAAAAGATTGCTGTCTAACACCACTAGCTTGCCCTTGAATTCTTTCCTGGCTTTCTCCCAGGCTA
AGCCCCAGTTTTGAGGCTTGCCTGCCCTGCAATAAAAACACACCATAAAAATAGTGCAAAGAAAAGCCACAAAATGGATGAAAATGTTCAAATTAACGAA
TAACTCTTTCAAAGTTTTATAATAAATAGGCAACAACAAAAAAGAGCATATCCCAGGGTTTCTGTGAAAGTAAGAAACAATGATGTAAGTAAAACAATGC
TTTTTTCACATGGGCCTGGCTCAGGTACGTTCGATATACAGTAGTGATTACTGTCACTGCATCAAGGATAGCTGCAGTTTCTGGCATGGGCAGCAGGGTA
AAGGGTGGTGTTAAGTTTGGAGATGAAGAATGCAGATGGGAAGAAGGGCAGATTGGCAGGGGTGAGAGTGGTGATTTGAGTTGTTACTGGGGTCTCTGCT
TGACCCCCTTGCCTTCCACTAAAGACCCTCAAATCTGAGATCTTCTAATCCAAAGGTTCTTAACTTGGGGGAGATAGGCCTTAGGAAGTACCAAAGCCCC
TGAAATTATATGTAAAATGCTATGGTGTTTTTTGTCTTTATTTTTCTGAGAACGGCCAAAGCTTTTACCAGTCTCTCAAACAGATTTGTGACTCCTAAAA
GGTGAAAACCATAGATCCAAGCTATCAATGTATATTGACCCATAACTGCCCCAATACCTGACCCTCTGCTGTGGTTCAACTGTTGCAAATCACAAGGAAA
GAGGAGCTCATGAACAAGACTGAGGCAATACTGCTAAGCTTCCAGGTCTCTCAATATGATCCCTCCTACATTAAGCCATATTTTGCATTATTATTCTCTG
TGGGCTTGGTTCTCTACCCACTTTTTTTTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGCCTGGTCTCGAACTC
CTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTACTGGGATTACAGGCATGAGCCACCATGCCACCATGCCCAGCCAACCCCCTTCTCTTTTTT
TAGGGAGACCTCAGATGTACAAAATTGAATTAATCATAATCTTTGTTTATAACATACTTTTATCACTTTTGTCATGAATAACAAATTTTTATGTATAACT
TTTTATTAACTTAGCTGCTTTTAATAATTCAATAAGCACCAAACATAAAAGCTAGAGCCTTAACAATAATCTAACTTTATGTTCCCTCCAGCCCCATCCT
ATCCCCCTACCTCTAAGAACCATTATACTGAATTCCATAGTGAGAACCATTCTTTCCTTCTTACATGGTTTTACTGCATACATGTTCTTTTTACATGTTT
TTAAATTCTTAATTGTATTTAATTTTATAGCATCACTACTCATTAGAGAAATGCAAATTAGGACCACAACGAGGTATCAAGATACATCCACTAGAATGAA
GTTTTTATTTATTATTTATTTTTGAGACAGAGTCTCCCTCTGTTGCCCAGGCTGGAGTACAGTGGTGCAATCCCAGCTCACTGCAACCTCTACCTCCTGG
GTGCAAGTGATTCTCATGCCTTAGTCTCCCAAGTAGCTGGAATCACAGGTATGTGCCACCACACCCGGCTAATTTTTGCATTTTTAGTACAGACGGGGTT
TTCCCATGTTAGCCAGGCTGGTCTTGAACTCCTGACCTTAAGTGATCCGCCCGCCTCGGCCTCCCAAAGTACTGGGATTACAGACATAAGCCACACTGCC
CGGCCCACTACAATAAAGTTTAACGTTGATAATCCTAAGTGTTAGTACTAAGATGTGGAGCAAATGGACCTCTCATACATTGCTGATGGCCGTGCAAAAT
GGTAGATCCACTTTGGAAAACAGTATGGTGGTACCTTATAAAGTTAAACATACATTTACCATATGACCTAGCAATTCTACCCCTAAGTATTTACTCAGAA
GAAAACATGGGCTGGGCACAGTGGTTCACACCTGTAATCCTAGCACTTTGGGAGGCCGAGGTAGGTGGATCATCTGAGGTCAGGAGTTCGAGACCAGCCT
GGCCAACATGGCGAAACCCCGTTTCTACTAAAAATACAAAGAAATTAACCAGGCATGGTGGTGGGTGCCTGTAATCCCAGCTACTCAGGAAGCTGCAGCA
GAAGAATCGCTTGAACCTGGGAGGCGGGGGTTGCAGTGAGCTGAGATTGCACCATTGCACTCCAGCCTGGGCAAAAGAGTGAGACTCCATCTCAAAAAAT
AAAAAAAGAAAAGAAAACACGTACTCACAAAATTATATGCCCAAAAGGTATTGGCAGCATTACTAATAATAGCCCCAAACTGGAAGCAACTCAAATGTCC
ATCAACTGGTGAACAGATAAACAACATGGTGGTATGTCTGCACCATGGAATACAATTCAGCAATAAAAAGGAACAAAACATTAATACTCACAACAAACTG
AATCTCAAAAACATTACACTAAGTCAAAGAAGTCAAACACCAAAGACTACATATTGTATGATTCCATGTATATATGCAAAAATTTTCCAAGACCAAATAT
TTGAAAGGATTATCCAGGCTTCACAGAGCATAATCACTTAAGATTTTTATTTAAAGGCAAAGGATACAGGGCAGCAAGAGAAAGACTAGGTAGGTAAACA
TCAGGAATCTCAGAATTCCCAAATACAAGCTCCCCATGGTCCTTATGCACATGTGGACTGCACTGCAAAGTGCCTTTGGATTGAATCATCATGATCTATG
TGAGGCATCCATCCTGGTTTTGGAAGAGCTCAAATCAGAAGTTCCCAGCAGGGCTTTTATGTTGCTCTGGCCATGKAATCAAGCCAGACATAYGTAACTG
GTTAGACCAGCTGCAAATAATCAATAAAAGGAGTGACCAGTGGAGCTTCAGACTTTATTTATTTATTTACTTATTTATCGAAATGAAGTCTCTTGCTGTC
GCCCACGCTGGAGTGCAATGGCGCTATCTTGGCTCACTGAAACCTCCACCTCCCAGGTTCAAGCAGTTCTCCCGCTCCAGCCTACTGAGTAGCTGAGATT
ACAGGCACCTGCCATCATGCCCTTTTGTACTTTTATAGAGATGGGGTTTCACCACGTTGGCCAGGCTGGTCTTGAACTCCTCCTGACCTCAGGTGATCCA
CCTGCCTCAGCCTTCCAAAGTTTTGGGATTACAGGCGTGAGCCACCGCACCTGGCCGAGCTTCAGACTTTAAACAGCACATTATAAATCCCAATGCCTTT
TTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCTGGCTGGAGTGCAGTGGCACAAAACGGAGTCTCACTCTCTTGCCCAGGCTGCTCACT
GCAGCCTCAAACTCCTGTGCTCAAGTGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACCACAGGCACATGCCAGCGCACCCAGCTAATTTTTTTTTT
TTTTTTTTTGGTAAAGACCAGGTCTCACTACATTGTCCAAGCTGATCTAGAATTCCTGGGATCAAGTGATCTTCCCACCTTGGCCTCCCAAAGTGTTGAG
ATTACAGGCGTGAGCCACTGTGCCTAGCCTATTTTCTATTTTCTACATCTTGATGGTGACTATACTATTATATACAATTATCAAAATTTATTAAACAATA
TATTTAAAATTTATGAACTATATTGTATGTAAAGAATAACTCCATAGAAAAGAAAAAACCTTTCATTTAGAAAGGGCATCATGCTACATTTACTCTTCTG
GGATTAAACTTTTTTCACTTAATTATTTTATTGCTCAGATTCATCCATATGGTTAGGTATCATTATAGTTCATTTGACAATTGTATAATGTTCTATTATG
TGAATATTCCAGTTTACTTGTCCACTCTCTTGCTCATGGGCATCTGGGTTATTTCTAGGCTTTTGCTTTTGTGAATAGGGTTGCTATGAATATTCTTGTA
CACATCTCCTGGTGTACATGTATGAGTTTCTCTAGGATTTATCCCCAGTATTGGATTAACTGGGTTATAGGGTAGCTGAATGTTCAATTACAGCAGATAA
ACTGTTTTCCAAAGTAGTTCTCTGCTTTTCTTATCTAGGTCTGCCTGTCCCCAATTAGATGATGACTCTAGAGGCAGGGGACCCTCTCATTTTGAATTAC
CACTGCTTAGCATTCAATTAGCACTAGGCTGGATATCCAGGAGTCCAAGGGCAGAAGCCCAGGCACCTGAGGCCTCTTAGCCTCAGCGAATACTAAGTAC
TATACAGAGTGAACAGCATGCAGGGACCATATGCCACGCACGGAGGCGGTTACGGTCCTACTCAGAGCACTAGCCATGCTCCTTAAAGCTCCATCTTCCT
AGCTTCACCTGATTTTGAGTCTCAGAGATCTTCCAGGGCCCTCAATTACAATGCAAATCCCAAAAGAAGGCTTAACCTCAGCTAAAGTCCCTCCTCAACT
GACACCTCTAATACCCAAATAAGGATGAGCAGGAAAGACAGAAGGGACAAAAAGAGTGGCAGGAAGAGGAGGAATAAGGAAAGTGGAAAAGCCAAGAAGC
CTTCAGGTATTCTAAAATTATATACCCTTTTCTGCACAGGATGTTTTCCAGGAAAAAAAAAAAAAGTTTAAAAATAAAATATCTGCAAGTGACCCTGAGC
AATTTTTTATATCCCTGCCACTAAAGGTTACTTTCTTTTGGCTAAAGTTACAAAAACAACATATCGAGTATGCAGTCAGTAAATGATGAAATCTTGCCCT
GAACACAGTGTGTGCAGTGAAGCCCTGTGATGCTGAGGGAAGAGTTAGGGATTAGGGGGTGGGCCAAAGAACAGGCACCAGAGCTCAGCTGCAGACTAGA
AACAACAAAAAGTCTGGAATCCAACAAAACAAAACATCAGGAAATTCCTAGGTGTTCAGAAAGCAAAAGGAGAGTTACCATTCTAAAGGATGAGGAAGCC
CAGTAATCTCCCACAATCCCAACTGCTACATCTCCAAGAGCTCCCTAGCTACCTGTCATACACGAGGTCTGGGAATACCTGCTAGATGAATGAACAAAGA
ACAAGGCACGCACAAGAGTATGACGGTTTTGTGGCAGAAGCAGCCTCCTAAGCCACATTTGGGCAGCAGTATTGTTGACAGCAGGAATGGCCAGAATTAT
TCAGCTCAGAGGGTTTTTCCAATGTGAGTAGGTAAGCAGATTATTTTGCACTGGCTTAACATTTTTAGTTACTTGTTCCTTAAATTAGATCATGAGCCAT
ATGGAAAAACCAGGCGGGCTTAATTGAGCCTGTTGGCTGCTCAAGACTGGTCAGGTGGAACTCACTTCAAGGGTGACAGGGGCTCAGTAACTGGCTGGTA
CAAATGGAACTAATGGCATTTGCACTGACATGAAGTCCCCAACTGCAGCCCCAGGTCTATAGAGTTTCAACAACTTTATTGGCCAAATGCTTCTCCTATG
TTTACAACTTAGTGTGAGCCTGCTCACTGGCTTCTCCTTCTAAGCCCCTAAGCGGGCAGCAAACTTTAGTACAGGCCTGGAGATGGGGTAGGGGTTAATG
AGTGAGTTGGAAACCTGCTGATGCTCCACAATTGGACAGCAGGACAGCAAATCTTCTACTTCTTATTGCCGAAAACTGCAGAAAGACACGAACAGGATGG
AGACAGGACCGAGAGTGCATCTCTGCCACTGGTCCCAGTTTCCAGTTTCTGGTGCATCCAACAGAGTATACCCTTTGTATTCTTGCTTCAGGGATTGGGT
GATACTATGTCAGCCTACGCATTTTGCAGAAGTACATGGGGCCAAAATTGGCCATGAGGTTTGGTATTACCAGCTCCCCAACCTGACAGGATGAGAAGAA
ACAAAATGTGTCCATGAAAACCCTTCGGAAGTGAGTCAGATCTTCCACCTGTACCTGGATGCTGTATTGATTGGCCAGGAGCTCAATGGCACCTTGCACC
ACATACTCGTTCTGTAAGTGTGAGAGTGAGCAGGTAGAATAGACAACATGGCCTCCTGGTTTGGTGGCAAGGAGTCCAGCCCTGAAACCAGAAAGAGACA
GAAGCAGTGACTAGTGAGCTTCCCAGCAGTAGAAGAGCAACATAAGGAGCTGGAAACATGGATAAGGGAAGGCTACTACAGGATGGGTAGCTGGTTAGAC
TGCCTCTCAAGTCCCTTCCACAATGACACTGTCTGAAAAGTCACTCTCAAGGCAGATAGCAACCCAACCTTACTCCATGAGCTCTTCACTAGGAAGTCTC
CTTACAATGACCCCCTGAGCTCTTGTTTATGGACCAAATTGCTATGCTGGCTATAGAATGAGTCCTTACTCTAGCAGCTATTTTTCAAACATGTGCTACT
CACTGGTACTGAGGATGAAATAGCATGAGTCAATCTGTGCAGCCCACTCTAGTATATATATCCTACTAGATAGGGTTGCTTTTTTGTTTTTGTTTTTGTT
TTTTGAGACAGAGTCTTGCTCTGTTACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAGCCTCCACCTCCTAGGTTCAAGTGATTCTCCTCC
CTCAGCCCCCTGAGTAGCTGGGACTACAGGTGTGCATCTCCACACCCAGCTAATTCAAATAGGGTTTTTATGTTCCAGAGATGATCCCATTTCTGTCTCC
TCTAGGCAGATCTCCAGCCATAAGATTCTTGTGTGGGTTATGGTCTTGGTAAGAGCTTCCAGTCCCCCAGTCTCCCAGAGCACTCTGGCACAAAGTCCTG
AGTTTAAAAATCTGTCACTCACGCAAGAAGCTGCACTTGCAGCACAGGCAATATCTGTCGCTCCTTCTTCCTTGACCGCTTAAAGATGTTGTTCTCCTCC
TCATGAAGGGAGTGGCGGTCTGTGGTACAGGGCACATCCACCAGCACCTACCCAGAGTGTTAAAGGGTAAAGTATTAAAGATCCTTATAGGCTTCTCTTC
CTTAGGCCAGAGATGTTTTAGGCCCCTGGCCTAAGTTTGTGAAATATTCCCTCTGCCCATCCCTCCTTTGCAGAGTACCTGACAAAGTTCTTCATTTTAA
CTTGGTAGACAATTGTGAAATAATGAGTGGAAAATAGTATATTTGGGAATATTCATGGCTGGTCAAAAACCCAAAACTAACACACAAGTAACTATAATTT
TTTTTTTTTTTAATTTTTAGAGACAAATCTTGCTCTGTTGCCCAGACTGGAGTACAGTGATGTGATCATAGGTCATTGCAGCCTCAAACTCCCTGGGATC
AAGCAATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGGCCATAGATGCAAACCACCACTCCAGACTAATTTACATATATATATATATATATATATTTTTT
TTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTCCCGGG
TTTACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGCCGGGGTT
TCACCGTGCTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCCGCCTTGGCCTCCTGAAATGCTAGGATTACAGGCATGAGCCACCATGCCCG
GCCTAATTTTTGTATTTTTGTAGGGACAGCATTTTGCTATGTTGCCCAGACTAACTATAAGATAATTCTTTAAACAGTACACTTATGATTTGGTCACTTC
TGTATTATACTCCAATAGGAAAGTTATTACAGTCTGGAAAACATAGTGAGACCCCACCTGCACAAAAAAAATTTTTTAATTAGCCGGGCGTGGTGGCATG
CACCTGTAGTCCCAGCTACAAAAAATTTAAAAACTAGCCAGGCATGGTGGCACACACCTGTAATCCCAGCTACTCGGGAGGCTAAGGCAGGAGAATCGCT
TGAACTTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCGCCATTGCACTCCAGCCTGGGCGCCAGAGCAAGACGCCATCTCAAAAAAAAAAAAAAAAAT
TTAGCCGGGCGTGGTGGCAGCGCTCTTGTAGTCCCAGCTACTACTCAGGAGGCTGAGGTGGGAGAATTGCTTGAACCTGGGAGGCGGAGGTAGCAGTAAG
CCAAGACCGCGCCACTGCACTCCAGCCTTTGGCAACAAAGTGAGACTTCGCCTCGAAAAAGAAAAAAAAAAGCTTACTACAGGACACAAAAATAACCACA
AAACTTAAAAGGAAACACGACTCCTTGAGCAAGTCAGCAGAAACAGCAACCAGTAAAACTAAATTCCCAGTTTATTTGTTTGTTTGTTTTTGGGATGGAG
TCTGGCTCTGTCACCCAGGCTGGAGCACAATGGCACGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCCACCTCAGCCTCCTAA
GTAGCTGGGACTACAGGCGCACAATACCACGCTCAGCTAATTTTTGTATTTTTTTAGTACAGACGGGGTTTTGCCATATTGGCCAGGTTGGTCTCGAAAT
CTTGACCTCAGGTGATTTACCCGCCTCAGCCTCCTAAAGTGCTGGGATTACAGGCATGAGCCATCATGCCTGGCCGGCCCCAATTTGTTTTTTCAATGAG
ACTAGTCAACTGCTGGAGTGAGAAAGGGAGAAAGAGCAGGAGTGAGAAGGGGAGAAAGAGTAGACGAAGTTCCATCTGTAACTGATTGTCAACAATAGTT
TTGATATAGGAATTATCCAATGTAGAATTAAAATATTAATATAAACCTTCCTAAATAACAAAAGAAGTTAAAAGAAAAACAAAACAGCAAGGACAGAGAC
CCCACAGTGAAAGAAACATGGTAAATAAACACAGTAAAATAATTTGACAGGTGTCAGGCACAGCGGCTCATACCTGTAATTCCAGCACTTTGGGAGGCCG
AGGCAGGCAGATCACAAGGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAAGACAAAAATTAGCTGGGTGTGGTGGC
ACGCACCTGTAGTCCCAGCTA


SNP Information

Context             (SEQ ID NO:61466):
TTGGATTGAATCATCATGATCTATGTGAGGCATCCATCCTGGTTTTGGAAGAGCTCAAATCAGAAGTTCCCAGCAGGGCTTTTATGTTGCTCTGGCCATG
K
AATCAAGCCAGACATACGTAACTGGTTAGACCAGCTGCAAATAATCAATAAAAGGAGTGACCAGTGGAGCTTCAGACTTTATTTATTTATTTACTTATTT
Celera SNP ID:            hCV7567590
SNP Position Genomic:     6376
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61467):
GATCTATGTGAGGCATCCATCCTGGTTTTGGAAGAGCTCAAATCAGAAGTTCCCAGCAGGGCTTTTATGTTGCTCTGGCCATGTAATCAAGCCAGACATA
Y
GTAACTGGTTAGACCAGCTGCAAATAATCAATAAAAGGAGTGACCAGTGGAGCTTCAGACTTTATTTATTTATTTACTTATTTATCGAAATGAAGTCTCT
Celera SNP ID:            hCV7567589
SNP Position Genomic:     6393
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Gene Number:                 349
Celera Gene:                 hCG2036930 - 206000042699837
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W2NG(87278..99944)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12509):
TTATGATCAGGAAAGCAAATGGCTGAGACTGGGTAAAAGGTAAGATCAGTGATAAAGAGGAGGTCCAGAAAATGACAGGTCAGTGTATCTGAAGGATCTT
CTCTAAGGATACTGAAATCATCCAAGAATCATGATGGAAGTAATGGTGAAGAAAGTAACAGTAAGCTAGTGGCAAAATGTTTTCAAAAAGCCAAAAAGAA
GCCAGGCATGGTGGCATGTGTCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGGATCCTTTGACCCCAGGGGTCTGAAGATGCAGTGAGCTGTGAT
TGCTCCACCGCATACTCCAGCTCCAACCTGGGCAAGAGAACAAGACCCCATCTCTAAAAGAAAAAAAGAAAAGTGAAAGAGAGTGATCCAGGAATCAGGA
GAGGTAGAGGATGGGATATTGTGACAAAATGAGATTTCAACTTAGATATTTTTAGGGAGGAGGAAAGGAGAATAGCAGTGAAGGACAATGGAGACACCTA
TCCCACCAACAGAGGCCCTATGGTGAAAAGGTTTTGAGAATAAAATTAGCAACCGTTCACCGGGGCATTACGGGAAGTTGTGTCATCCAGGAGCACCAGA
TTTTGATTTAGTGCTAGAAAGCCAAGAGAACCTTCACAGAAGAGACTGAAGACATAAACGAAACCACAGTGGCAGACGAAAGCTTCTGATCTTGATACAC
ATATCTTAAGTACAGCTGACAGAAGAATAAAGAGAAGGAAAAAGGAGAAAGGAGAAAGGAGGAGGAGGAGGGAAGAAAGAAGAAAGCAGAATAAAGCAGC
TTTTGCACAAATTCAAGCAAGAGTAAAAGAGAAGAGAGAAGGAGAGAGGAGGGTAAAACATACAGACGGCAAATAAGCATATGAAAAGATGCTCAACATC
ATATGTCATCAGGAAACTGCAAATTAAAACATACCACTACACACCTATTAGAATGACTAAAATCCAAAGTACTGGCAACACCAAATGTTAGCAAGGATGT
GGAGCATCAAAAATGCTCATTCATTGCTAGCGGGAATGCAAAATGGTATAGCCACTTTGGAAGACAGTTTGGCAATTTCTTACAAAACAAACAAAAAACA
TGTTCTTACCACACAATCCAGCAATTGTGCTCCTTGATATTTACCCAAACAATTGGAAAATGCATGTCCACACAAAAACCTGCACACAAATGTTTTCAGC
AGTTTTATATATAATTGCCAAAAGTTGGAAGCAACCAAGATGTGCTTCAATAGGTAAGTGGATAAGCAAACTGTGAATTTATGGCCTAAACTGTGTCCTC
CAAAATTCGTATGTTGAAGCCCTAACCCCAAATATTACTATATCGAGAGATACAGTCTTTAGGAGGTAATTAAAGTTAAATGAGGTCATTAAAGTGGGGC
ACTAATCTGATAGGACTGTGGCCTTATAAGAAGAAGAAGATTCTCTCTCTCAGTGCCATGTGAGGACACAAGAAGAAGGCAGCCATGTGCATGCAAGCCA
GGAAGAGAGCCCTAACCAGAACCTGAAGGTGCGGCCATCTTGATCTTGAACTCTAACCTCCAGAACTGGGAGAAAATAAATTTCCATTGTTTAAACCACG
CAGTCTGTGGTGTTGTCTTATGGCAGCCTAGGCAGACTAATAGGCTATAGAACATACATACTATTTTTTGTAACACTGTAAATAGTATTTTTGTAATACT
ATTTAGTGCTAAGAAGAAATGAGCTATCAAGCCATGAAAAGACATGGAGGGACCTTAAGTGCATATTGCTAAGTGAAAGAAGCCAATTCAAAAATGCTAC
ATACTGTATGATTCCAACTATATGACATTCTGCAAAAGGCAAAACCATGGAGACAGTGAAAAGATCAGTGGTTACCTGACCAGAGGTAGGGAAGAGGAAG
GAGGAAAAAATAGGTAGAGCATAGGGCTTTTTTAGGGCAGTGAAACTATTCTATATAATACTGTAATTATGGATACATGTCATTATACCTTTGTCAAAAC
CCATAGAACAGTGGTTCCCAACCCTGTTGGGAACCAGGCCACACAGCAGGAGGTGAGCAGCAGGTGGGTGAGTGAGCGAAGCTTCATCTGTATTTACAGC
CACTCCCCATCACTTGCATTACCGCCTGAGCTCCACGACCTGTCAGATCAGCAGCAGCATTAGATTCTCATAGGAGTGTGAACCCTACTGTGAACTGCAC
ATGTGAGGGATCTAGAGTGCACGCTCCTTATGAGAATCTAACGCCTGATGATCTAATCACTGTCTCCCATCACCCCCAGATGAGACCATCTAGTTGCAGG
AAAACAAGCTCAGGGCTCCCACTAATTCTGTATTATGTTGAGTTATATAATTATTTCATTATATATTACAGTGTAATAACAATACAAATAAAGTGCACAA
TAAATGTAATGCACTTGAATCATCCTGAAAACATTTCCTGTGCCTCCCTGTCCCCACCTCCTGTGGAAAAATTGTCTTTCATGAAACCAGTCCCTGGTGC
CAAAAGGCTGGGGATCCCTGCCATAGAATGTACAACAGAGTGAACTTTAAATGATGGGCTTAGTTAATAATAATGTATCAATACTGGCTCATCAATTGTA
ACCAATGTACCACACTAATGCAAGATGTTACCAATAGGAGAAGCTGGGGATGAAGGGGAAGTATGTGGACTCTTTGTACTATCTGCTCAATTATTGTGTA
AATCTATAATTATACTAAAAAAGTAGGCTTATTATTTAAAATAATTATGTGAAATTCAAATTTCAGTGTCTATAAAGCTTTATAGAAACACAGCCATGCT
CACTTGTTTATGCTGTCTCTGGCTGCTCCTGCACTATCACAGCAGACTTGAGTAGTTGCAACAGTGACCATGTAATCACAAAGCCTAAAATATTTACTAT
CTGAACCTTTACAGAAAATGTTTGAAGACTCTTGCTCTAAATTTCATTACCTAAGTTAAAAAGAAAAAGGAAAGCACATCCCTCACAGGCTGTTCTGAGT
TAATCACTTTATTTAAATTATTTAGAGTTGTTAAAATCACAGGACATACTAATTACATAATCTGATTTTTAAATTTTAACTAGATAGTGTCTAATATTAA
AAAAAAATCAAGGCTAGACACAGTGGCTTGAGCCTGTAATCCCATCACCTGGGAGGTTGAGGCAGGATGACTGAGGCCAGTTGGAGACCAGTCTGGGCAA
CACAGCAAGACCCCTGTCTCTACAAAAAATTCAAAAATTAAAAATTAACCAGGCATGGTAGCGGTGTGCACCTGTAGTCCTAGCGACTCAGGAGGCTCAG
ATGGAAGGATCACTTGAGCCCAGGAGTTCCAGGTCACAGTGAACTATGATTGCATCACCGCACTCCAGCCTGGGCGACAGAGCAAGACCCTGTCTCTAAA
AGAAACAACAACAACAACAACAAAATCAAGTAAATCAGTGAAGTACTTGAACATCCAAAACAGCAACTGTCACAGAACGAAACACTATCAGACAGTAGTG
TTTCACTCTATTGCCAACAAAATCTATCCTACTTACTGAACACCTAAGGAATTAAATTAAAGTCTTCAAAGAAGAGAAGACTGTTAACAGTTTGAAAAGG
GAAACCTGGAAAACAATGGAAATGGGCACATTCAGGGAGGGACAGGGCAGGATACCCGATAGAAGTGAGTCGGTGAACTGACTACAAAGAACTGAATGCT
CTGTTAGAGAACATTAAGTCAAGTGATCAGATAAGTCTGGAAAATGCAGCCTGGGTATCAGAAGACGACATAAAATTATGCTACCAGGAAGTGTCCCACA
GTTATACTTTAAGAAATGTCACTGGCCGGGCACAGTGGCTCACACCCGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACCTGAGGTCCAGAG
CTCCAGACCAGCCTAACCAACATGGAGAAACCTCGTCTCTACTAAAAATACAAAATTAGCCGGGCGTGGTGGTGCATGCCTGTAATCCCAGCTACTCGGG
AGGCTGAGGCAGGAGAATCGCTCAAACCCGAGTGGCGGAGGTTGCGGTGAGCCAAGATTGCGCCATTACACTCTAGCCTGGGCAACAAAAGCGAAACTCC
ATCTCAAAAAAAGAGGTAAAGAAAAGAAATGTCATGAAAATATAATAGCTGACTAGCTGACAAAATAAATCATAACTACCCAATATATTCAAGTAGTCTT
ATTAATAACCAGGGATCTTAGGAAGAATAAAATCTGTAGACATGAGTTAGGAAAGCATTATAGAATAGATGCTAGGGGTACAGACTTTGGAGGTAGAAAA
ACCTGGTCTGATCCTTCTTCTGCCACTAACTAGCTCTAAGAATCTGAGCACAAATTCTGTTAGCCTCAGTTTCCTCATCTCTAAAATAAACAGTACCTCA
TTGGACTGTTGGTAGGATTAAACAAAATACTTCATGTCAAGAGTTTAACAGGGTCCCTGACACAAAGAGCTAAATAAATGGTTACTGTCACTAATGCATT
TGGCTTGGGAAAATGGGAATAAAAAATCTTAAGTTTTCCAGCAACTCTTAAAAAATCTACCCAAGGATTAAAATAAATCTCCAATAGAATATAGTTTTAG
AGAACATCTGTCCTTGAAACAATTAAATGACTTTGTTCAATAAAAAGTTGAGATTCCTTCCACTCCTGCTATTGAGAATGCTGATCCAAGGGAGAAAGAT
AAACTGGGTTCCCCCCAGTTCCAAGGCTGATGAGTGGTGTAGGCTCACTAGCGGGCCCATTTGGGAACCTACACAATCCCAAATTCATATTGGAACCTAA
GAACAATATTACTATTATATCTTGCAATCAAGAGGAGAATAAAAGTCTCCTCTAAATACTTAGATAACAAAGTTTCTTCATTCTCATTTCCACTTCATCC
CATTCCACCCTTCCTGACCACCAAAACCAAACAAAATATCCATTAACAAGAAAATTAAGAGCTGTATCTGGAGAGCAGTCAGGATTACACCATAAGTATT
AGGTGTAGCTAAGCAGGGACCCGAGGTCAGGTGCTTGGGTGTTTTGCTTTTCTGCCAAGACGGACATCAGGCTTAAACCAATAGTAAAAGCTGTAAGATT
AGAATTTCTTGTATATAACCACATTCTCTCATATACACCAAACACACAAAAACCCACTCCATTGTGCTCACCGCCCACATTTCACACTCAGGAAATAGCT
TGTAGCCTTTTTGGCGGTCCCAGCCATTTTGCTCTAAACCTCCTAAAGACGTCCAGTGTTAGCCACACAAAAAGATCACCCGGTACTTCCCCAGTGGGAA
TAGTGAAAAACGACAGTTAACTCCAGTTAGACAATATTCTACTCTCCCTGTGGCCAGGACAGAAGCCGAACGATACTCCCAGACTCTTCCAGGGGCACGA
ACAGGAGTGACGAGGGGCCTCACTCCCCAGGCAGGGTTGGTCCACACCTGTCACCACGAGTGGGCGGAAGTAGGGAGGAAGAAACCTTTAGACGCGAACC
CGAGCCACCCTGGTACATTCTCAGATCCCACTCACCCCAATCTTCATCCAGCCTGTGAAAGAGTCCCGGGCTAAAAGGTGACTCCATGGTGCCGGCAACC
CCAGCCGGCTCCCCCATTTCACAAGTTCCTTCTCCCTGGAACTCCGTGATTAATATCTGGGACGGCGGCGGCAGGCGGACAAAATACTCCGTAACGCTGA
CGAGACGGTGGCCTAGTAAAGACAAACTACTTTTGCCGCACGAGGGATTTGTACGACACAGGAAAACGTCAGAGACTAAGCAAATTTGAATAGACCTCTG
AGTAAATATTTCCCTTTTGGAGTTTTCAGGACTTTCTGTCCCGCTGTTTTATGGGGAAGGCGGGGGAAGACACGCAGACATCAATTCGACTAAACAAAGT
TTATCAATAATATTAAAAATAAAAAGTAAAGCCCCTTTCTGAACATTATGGCTTATTCCTTGATTATCCTTCTTAATGCCACAGCGTGGCTATCTCAGAA
CAAAATTAGAGACTAACAGTAAATTTACTTTAATTTTTACGAATAATTCTCTATCAATGTAAAAATTTTTCATATACGCGTGTATGAAAGAAAAACACTA
CTATTTTTCCACATTCGTGAAAACTGCTTAACTGGGACAGTAACCGAGGTAAGTGGTACTATAAAACATACTTCTAGAAAGACTACTTTTATTTAAATAA
ATTGAAACAAAGCAAATATAAAAAGATAAACCCCCCAAATTTATCTCCTAAAGATAAATTTCTAAAGCATAGTATTTAGTCAAAGTCCAAGCGAGTCTAC
CCTAAGACCTACAGTAATCGAAGTTCCCAATATTTGTATTACTAAAGATTCGGGTTTTATTTAAAGGAAAWTCACATACATCACGAACTCCAACTGAAAA
TATGAACTGAGTTTGATAAAGCAGTTTCAAGAACGCTACTTAAGAGAATTTCTTTTTCATCCATTTTAAATTTCAGCGGCCAGTGAATATTTAAAATACT
GTAACCGACGAATACGTATGCTTCTAGGACCACGTGGAATCTTTCCCATGGTAGGTAAGCAAAACAAATGTGCTTCCCAGAACCCTCCAAACTGCTCGTG
GGTATATTACTACAGATTACATAATGCAGCAGCGTTCCGGGACGCAAGCCCAGAAAAAGATAATTAAATCCCCTTACGTCAGATGTAACTACTTTTGTCA
TTAGAAAACTAATAAATTTTCACTTAAGGTGAAATTTATAACACTTTAATTCTCACCCAATTACAAATTCAAAAATTGACATAAAAAACTAAAATAAGGC
CGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGTGA
AACCCTGTCTCCACTAAAAATACAAAAAGTTAGCCAGGCGTGGTGGCGGGCAAGTAGCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCA
TGAACGCGGGAGGCAGAGGTTGCAGCGAGCGGAGATCGCACCACTGCACACCAGCCTGGTCGACATTGCGAGACTGCGTCTCAAAAAAAAAAAAAAAAAA
AAAACCTAAAATAAAATAAAATCATCGAGTCTTCTGTATCCCACTAGACACCTTAGTCTTTTAAGAAAATCACCATGACAAATCGCCAATTTTTTTAATT
TCCAAAAGATTTTATTTTTATTCAAAAAGTGCAAGTAATTATGAAACAAACATTTGTGACCTATCACCAAGAATTTAAAAATTTAACATTTTTCATTTTT
GTCCCAGATTTTTCATAAGAAATTAAATACTACAGAATTGAATTCCTCTTTCCTCCCTGCTTCATTTTCCTCCCTTGGCGTAGGCCACTTCTACCATGAA
TTTTATGGGTATAAAATTTTATTTTATAAAAATAAAAGTGTAATTCTAGTCCACTTTTATTTTTAGTTTTACGGTGCTTAAACATGTTTATAGACACATG
CATTTAGTGTCATTTGGGTTTTTTTAATGTATGTAAACTTTAATGTTCTCCAAATCATTTTTCTTATTGGATATTAAGGATCTACCCATGGTATTTCCTT
GAATGAATCTCAATTTCTCTCTCTCTCTCCCTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGGCTCACTTTGTCCCCTAGGCTGGATTGCAGTGGAG
CCATCTCAGCTCACTGCAGCTTGACCTCCCAGGTTTAAGCGATCCTCATGCCTCTCCCCACAATAGCTGAGACTACGGGAACCCACCACCACACCCGACT
AATTTTTGTATTTTTTGTAGAGACAGGATTTCACCATGTTGCCCAGGCTGGTCTCAAAACTTCTGAATTCAAGCAGTCCGCCCGCCTCTGCCTCCCAAAC
TGTTGAGATTACAGGCGTGAGCCACCGCACCCAGCCTCAAGAATGTCTTAAATAATGTATGTACTATTTTATCAGTTTACACCCTCACTAGCATTGATGA
GTTCTCTTTGTTCCACATTCTCTCCAACACAAGATATGGTCAGACTCTTACCATTTTTACCGCTGTGAAAATTGCAATTTACATTTCCCTAACAAAGTGG
TGCATTCTTCCATACTTATGAAACCTTATTTCCTCTTCTGTGAACTGTCCACTCTTACCTTTTATAAAGTTTGCTATGGAGTTTTCTTTCACAAATGATG
TGTACGTCATTAGATAGCCTGCTCTATTCATTCACCTGTATAAAGTAAAACTAAACTCCTAAGTCCGCCACCAACAGAATAGGCCCCCTTGTGGCCAAGG
GGATCCTAGAAAACCTTAAAACTGAGTTCTAGACCACGATGGGACAGGTTAGACACACCTTGTTATACTCCCTCCCTTTTGTAGTTTAACACAACAACTG
GCCAGCATTAATGTTAAAACAGAGATGATAAGACTGACAGAACAGACTCTGGCAATAAGATGCCAAATTATAAAAAAGACCTAAAGCCATTCCAGGCAAG
GTTTTAGTCCCACACCCCTATACTTAAAGAATAAACTGTGTTCTAACTGCCACAAGATTCTTCTCTAGCAGCTAAACAAGTACTGGCCTAAAGATAAACA
ATATTAAAATAATGTGCAGCTCCACGAGATGCTGACTTACTGACCCCCAGTCCCCGTTCCACCAGCCATAGCTACAGCTTTCATTGGACAACTTTTTGTT
GATTTCAGTAACTTTCTCCAGGTAAGAAGACCACTGGCCATGGACTGGTTCTGGCTGGTCTACAGAGGTCGCACATTTGCATGGCTTCATGTCCTGAAAG
ACCTTTTGACGTATAGGGCTCGTAATACATTTAAATGTTAAGTCTTGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCCAGGTG
GGAAGATCACGAGGTCAGGAGCTTGAGACCAGCCTGGCCAACATGGGGAAACCCCATCTCTACTAAAAATACGAAAATTAGCCAGGCGTGGGGGCAGGTT
CCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGTATCGCTTGAAACCGGGAAGTGGAGGTTACAGTGAGCTGAGATCACATCGTTGCAGTCCAGCC
TGGGTGACAGAGCAAGACTCCGTCTGAACAACAACAACAAAAAAGTTAAGTCTCCATCCCAAAGTGAATATGGGTCATATGTTACATGAGTTTTTGTTCA
ATACGCATGTGTCAGGACCACTTTCATGAATATTCATAGCTCTTCCTGTAACCTGGTGAAAATGTAGGTTTAGCCAACCTGTTCAGCCTGAACTACACTC
CAAGCCCTCCTCCTTCAAAGCGCCTGTTTCTGGAGGCACGCTTCCCAGCCTGCAGGATGGCCACCTTGCAGGCCATAAAGTCTCCCCTTCTTTTCTAAAT
TTATTCATTGTGGGGCTTTTTAATATATACATTTTTAAAAGAGAGAGAGAGACAGAGTCTCGCTTTGTTGCCCGGGCTGGTCTCAAACTCCTAGGCTCAA
GCTATCCTTCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCAGCCCATTGTTGGGCTTTTTTAAGTTAACGCTTGGTATAT
GTTATAAATACCTTCTCCCAGGTTGACACTTGTCGTCTTTGTTTACGGTGATTTGTTCTCTAGATTTTAATTTCAATGTAGTCAAATTTATCAATCTGTT
GTTATGATAGCTGACTTGTAGCTTTCTTAAGAAATCCTTCCCTCTCCTGAGGTCACTAAGATTTTCATTTTCATTTTCATAGTTTTATAGTTTTGTTTTT
CACATCTTTTTTTTTCTATTTGGCTATTATTGGGGTATAGCAACACTGTGGATTTTTGTACAGCAATCTTGTACCAAAAACCTTGTTGAATTCTGTTATT
CTAGTATTTTGTCTGTGCCAGGAACAGTGGTACACACCTGTAATCCCAGCTTCTTGAGAGGCTGAGGCAGGAGGATTGCTTGAACCCAGGTGTTCAAGGC
TAGCCTGGGCAATATAGCAAGATTCTGTCTCTAAAAAAAAAAATCATATTATGGTAGATGGAAACTAGTATGTGATAAAATAAAAATGACTTTAAAAAAA
TTTGTCTAAAGTTCTTTAGGATTTTTTATTTAGCAGAACATTATGCAAACACCAACCTTTTAAATTCTATTTTATTTAATGTTTTAATTTGTAAAATAAA
CTTAGTATGAAAATTTTCAAACAAATACAAGAGATGATATAATAAATCCCTGTGTTCCTATCATCCAGCTTCAGCTTAAACAATTTGCCATTCTTGTTTT
ATCTATCCTACCTCTCCTCTCCACAACTTTTTTCATTTTGTTCTGTGTTTTTCCCAGAATTTTTTTTTTTTTTTGAGACGGAGTCTCTCTCTGTCACCCA
GGCTGGAGTGCAATGGCGTGAGCTCGGCTCACTGCAACTTCTGCCTCCCACAATCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAATTACAGG
TGCCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATAGGGTTTCACCAAGCTGGCCAGGCTAGTCTTGAACTCCTGACCTAAGGTGATCCA
CCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCTTGCCCAGCCTTCCTGGAGTATTTTAAAGCATATCTAGATATATTATTTCACCC
ATAAATACTTCAATGTATATCTCTAAGAGACAAGGCCTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCAGGCTGGAGTGCAGTGGCGTGATCA
CTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCGCGCCACCACGCCCAGCTACTTTTTGTA
TTTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTTGTGATCCATCCGTTTCAGCCTCCCAAAATGCTGGGATTA
CAGGCATGAGCCACTGCACCTAGCCTGCCTTTTCTTATTTTTAAAAAACATACTGATAATCCCATTATCATACCCAACAAAATTAATAATTCCTTAATAT
CATCTGATACCTGTTCCATGTTCAGTTTTCTGTCTCAAAAATGCCCTTCCTTCCACAGTTAGTTAAAATCAGGATCCAACAAGATTGTCACATTGCATTT
AGTTCACATGACAATTCCCTCTCCATTTCTTCCCCCCTGCCATTTGTTGAAGAATCTAAGTCATTGGTCCTATAGAATTTCCCACTTCATGATTCTGCTG
ATTACATCTTCATGGTGATGCTTAATTTGTTCCAGAAACTGCCAGTGACATCTAGAGGCTTGATTAGTTTTTGGTTTTTTGTTTGCTTTTGCAAGAATAC
TTCATAGGTACTTCCTTGCATCATAGCAGAAGGCATATACATACTGTCCCACTTTTAGAGATGTCGAGATTTATTAGTGAGTTCAGATTTTTTTCCTACG
TCTTAAACTGTTTAGCCCCTTGTTTTACTGCAATGGTTAGGCCCTCTAATACGATACAGAAGGTAGGGGCTAGACATCTTTTAACTTACTTCTAAATTTT
AATGTGAATGTTTGAAAAGTTTTACCACTAAATAAGATTTTTTCCCATATATTTTTCACAGCTGCTCTGATTAAGGAAGCTTCCTTCCACTCTAGTTACC
AGGCTTTTCTTTTTAAATCATTAAATGTTGGATGTTATGGAATTCTTTTTCTTGAATCTACTCATTCATTTTCAACTTAAACCCTTGGAATAGAAATACA
ATTTGAAAAAGAACCTTATGTCTAGAGACAATACCACTCTTTGGTCTAGGTAAGAGGAGCCCCTACCCTGGACCGACACTTTAGAAGACTTTACTCTGAC
CTCTGGCTCTGCCCCACAGGATAAGAATCCATACTGCCAACGTGATGTGCCCAGCTAGAACAGATGCCCCCTTCTAGAAGTGCATCTAACACCCAAATAG
CCCAAATAGCTCCAAGCCGGCTTCCAGGGCTTGCTCTGGCCTCATACCTCTTACGAGTGAAATGGGCTAATGGTATACACCAGGGCTGTAGCCAGATCTT
ATACATATAGGTGGGGGACCCACATATATATATATGCACCAGGCTCTTCATGATGCAGAACAAATCAAGGGGTGGGGAAATAAAGGAGGCACCCAGTGGG
CGGGGGCCACCTCTCCCTGCATTGCCATGCTTTGTCATGGAATCTGATAAAATCAGAGAATTCTGAATTCAAACCTGGTCTGACAGGTCATTATGAAGGG
ATATTTGTCAAGATAATAGAATAAAACATTTTATTTAACAGATAGCTTGATTTATAATTTTATTTTTTTAAGACAGAGTCTTGCTCTGTCGCCCAGGCTG
GAGTGCAGTGGCGCGATCTCGGCTCACTGCAAACTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCCCCGCCTCCCAAGTAGCTGGGATTACAGGGGC
CCACCACCATGCCTGGCTAATTTTATATTTTTAGTAGAGATGGGGTTTCCCTATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTGCAGTGATCCACCCC
CCTTGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACTGCACCCGGCCAATTTATGTTTTAA


SNP Information

Context             (SEQ ID NO:61468):
AGTATTTAGTCAAAGTCCAAGCGAGTCTACCCTAAGACCTACAGTAATCGAAGTTCCCAATATTTGTATTACTAAAGATTCGGGTTTTATTTAAAGGAAA
W
TCACATACATCACGAACTCCAACTGAAAATATGAACTGAGTTTGATAAAGCAGTTTCAAGAACGCTACTTAAGAGAATTTCTTTTTCATCCATTTTAAAT
Celera SNP ID:            hCV29085435
SNP Position Genomic:     6371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 350
Celera Gene:                 hCG2038413 - 208000027039733
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VVQK(28266098..28337459)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12510):
GCCCACTAAGATCTAATTTCCCCCCCAGGATGCTCATCAGCTCTTTTTGGTCTGTTTCTTCCCAGGACACAGGGGTCTTCTAAGGCTCAGCATCCTTCCA
GGGGCTTTGCAGAACATGGTAAACAGCAGCAGGGGAGAGAAGAGGAAAAAGGTAGTGGTGGCATTCGGAAGACCCGGGAAACAGAGCGGCTCCGGCGGCA
GCTGCTGGAGGTGTTTTGGGGTCAGGATCACAAAGTGGACTTCATCCTGCAGCGGGAGCCATACTGCCGGGACATCAACCAACTGTCTGAGGCCCTGCTC
AGTCTTAACTTTTGAGCCTCACCTGCTTGAGTGGCTGCCGCCCTGTCAGCTCCAGCCGCCTCCAGCTCAGCCCTTTCTGTGAGAGTCCCTCTGCTGCTCA
CTCTGATCCAGAGGCACCCTGAGTTGGTGCTTTGGATCAGGGAAGCCACTTTGGGACAGGTCCATAAAGTGAACTGATCTTACCGAGTCAGGACCTCAGC
CAGCTCTCAAGAGGTTCTGCTCAGCCTTAACTTCTCAACTTTGCCTTAGCACAGGGTTTCTGTAGGGAGTGGGGGCTGCTAGAGGGGATTAGTTCCGGAG
ACTGAGACTGTTGGCTCCACCTCCAAGCTGAGCTAGGGTGGAGGGCAGGGTGGGCAGGAAGTGACAGGAAGTTAAGCTGTTCCTCTCCCTGGCTGCTGCT
CTGGATGGCCAGAGAACAAGATGCTCCCTTGCTGAGCTCCTGGGAGCGTGGAAGGAGATGCTAGGCCCTGGCACAGTGTTATGTGGACTGGGCCACGATA
GGGTGGAGTGAGCTAGTGAAGAAGGCAGAGGGAGACTTGGCTTCTGGTCTCAGCTATGCCTGTTTTGTGACCTTGATTGAGTTGCTTGGGCTTTACTTCT
GCCTACAAATCAGGGGTAAAAATACCTGTTGGGAGGAGAAATGAGAACATAGAGGAAAGCCTCTTGGAGGAAAGGTGCTTGGACCAAGTCTCAGGTGTGT
CTGCCTGTGGCTGCACAGGCTCTCTAACCGAAACCTCACTTTCAGAGAGATGTGGGTCCTTTGTCTCCAGGATCCACACCCTAGATTTTAACACTGCATT
CTCACTATAACATGCCCTATAATGGCTGCATCCCTTTTGAGCAACCTCCAAAATCTACATTTACACAGTAGGTAAATTAGGGATGACTGCATTATCAAAA
TACTCTCAGGGTTCCTATAAATGGCAGCTCTCCTGTTGTATTCAGGTGTTGTTTACAGACTAACAAATGTGTTGGCAAATCCCTGGTTAGATGCACTTCC
TGGTGTTGAGATGAACACGTCGATTTTTCACCAATCGATGAAGCCATGCTCTGCAATGACAATATTAATGTGATCCGACCCTAACATTTTCTCTATGGAA
GACGTATGTTGCATAAAGCAAGGCACACTTCTGCTTTATGTGTGTGTGTATGGGGATGGGAGGACTTAACGGAAGTTGAACCAGTTGGTTCTAGATGAAC
CAATTATCTGGAAAATGAAAGAACCAGAGTTGGAAGGCACTTGACTGGCCACCAGACCAACTCTGCTGTTACTGACATGCTTTCTTCACCCTGATTCCTA
GAGGTCATTGCCCTGGATCTGCTTGAAGTCCTCCTGTGCCAGGGAATTTACTATCTCCAGGGTAGCACATTCCCTGTGTAGATGGTATTAATCAGTACTC
CTTACTTTAGTGCAGCCTAAAGTATGCTTTTCTGTTACATCCACCTTTGAGGCTGGTCATACCTCCAGGAACAATACAGAGCCAGTCAACTTCCTGGAAT
CCAAGACCAGATAAAGAAGTAGGACAGGTGCCCCTGGGTTCTGTTCTGTGTGGGCCTGTGGGGAGTCTCTAGACAAGATCTTTTCCAGGCCCTGACTTCT
GCCTCCCTCTGAGTGGCACAGGGAGTTGAATACTGCATGGCGAGTGTAATGATGATGGGGAGGGTCCTTGTGTCCTCACCCCTTCCTTTTTGGTGATTTA
CACCACTGTACCATACTGACCCAGGCTGGGGGCAGGTGTGTTGGAGACAGGCTGGTCAAAGAGGTGACAATGATTAAGAGATAACCCAGTGGTCCCTGAG
AAGAGATTGGTTAGTATGGCCTGAACTGGTGGCTGGGGGAACTGTGTCTGGTCAAGTTATGGCAGATGTCACAGCTTTAGGTAGGTAAAAAGGGTCCTAG
ATGAAAACCTTGGAGTTTTTTTTTTTCCTGATAGGGTTGTTTATACTTCTTGATTGGTTTCTTGCCATTTTCACTTTCAGTGATGGTGGGTGTGCAGTAG
ACCAAAAGTGTCTTCTGCCCTTTTGTGCTAAGGGCCCTGGTTGACTGAGTGGCCCCAGTCAGATGAGAGGCAAGTCCTAAGCTTCTTATAGACAGGGATG
TTGACTTTGTTCTGCTGCAGCCTGATAAACTGGGACCACTGTGTGGTTAGTAATGCACTTGCCATTTGGTGACACAGACTGAAGGCTATCCTACACCTGG
GCCTTACCTCTTCCTCTACTGGCATCCTAATGGCACTCTGACAGCATCCAGGGTGACTACAGGGCCCATTGGAAATGGATCATCATTCTCTCTTCTAGTG
TCTATCTTTATCATAACCTGATGTCCCAAACTTGTGACAAGTTCTTTTGGCAACTGAAGGACCAAGAAGGGAAACGGTGATGAGAGAGACTGCCCATTAT
AACTTTCAAAACCCCGTCTTTGGGGAAGAATCATCTAGGGTGACATTCCTTGAAGTAAATCCCAGGAGAATCTAGGCCAAAGAGATGAGCCAAGGTTAGT
GAGACAATTTATTTTTATTGCCTAAACTGCAGAGCATTCTCTACACAGCGTAAAGGAGAAGTGGGGCAGCTGCAGGACATGTAGAGAAACCAAACCGGGA
AATCTTACAAGGAGTTGAAAAGATTAATGTCCCAACCTGATGAGATTACGGCCTTGAGACAATAAGGTGGAGCAACAGAACAATGGGAAAGAGGACTGGG
AGAGGAATCTAAGAACCAGATGGCTTCAGCTCTCTAGAGGAGCTGAGCCTATTCACAGTGCCTAACCTGGAAGCCTGTGAGGAACAGGCCTCAGGCCCTT
GCCATGACCTACTTAGGCTACAATTTCCTTTAAGGCAGCCCCTAGCTCTGGGAAGGAATACTGGTAGCCAGTGGCCAGTGTTCGCCGTGGGATCACCTTC
TGGCCCTCCAGCAGCATGATGGCACGCTGTCGCCCAAAGACAGCTTGCACCACAGCGCTGGGGAGAGGGATGAAGGCTCGGCGGCCCAGGGCAGCACCGA
AGGTCTGGGCAAACTCAGCATTAGTGGCGGAGGATGGAGCCACTCCATTCAGGACCCCGTGCACGTGGTTTGCTTCAAGGGCATGGGTCAGGATTCCTGC
CAGGTCCCCGATGTGTATCCAGGGGAAGAATTGGTGGCCTGAGCCGATGGGGCCCCCCAGGCCCAGGCGAAAGGGCAGCAGCATGTGGCCCATGGCACCA
CCCCCACGGCCCAGCACAACCCCTAGAGCAGGAAAGAGGGAAGGTACAGGGGTCCTCTCAGCCTTGAAGGAGCCCACTGCTCCTCCTGGTTTCTGTTTCC
CCTTCCTCACTCTCCCCATGCTGACTTGGCTCTGTAACAGAAGTGAGCAGTATGGCTGTCTTTAAGACCTCACACCTTCTCATCTGCAGGTTGGCTAGAA
GTGGTGGCATCCTCTCACTCTGTAATTGTAATCTCAGCTCTCCTAATCCCATCACTTCCCCAGCCCAGAGAAGACATTCCAACCCTGTCTGATACCCAGG
CCCGTTTCTCACCTGAGCGCACCACCACCTGGCGTGTAGAATCTCCAGGAAGCCTGGCTGCAGCTTCCCATTTGGTTACGAGGTTGGAGAAAAAGTCAAA
GTCCCCTCCTGGGCTGTCTTCATCATACTCCGCAGTCAGACTGGGCTGGTAGTAAGCTGCCGGTGGAACACAATCATTTGCCCTGGGTGTCCTTGGTCCT
GCCTGGCTCTCTGTAGTGGAGGCTCCCCTTGGCCTCACCTTCTCTGGCCCTTAGGATCTCCCCATTTGGAGACAGAGCCATTTGGATATTTTCCCCTTGA
ACTTCTCCATGACCTGAAGCGTTCCTTCCCTGGAGGAACTCTGGTTGCAGGGCTAAACTTAGAGGCTGCTAGAGTGTAGTGGTTAAGAACAGGAACTTGG
GTACCAGGCGCCTGAATTTTAATCAGCTCCCTCATTTATTAACTCTCTGACTTGATGCAAGTTACTTAACCTCTCTGTATAGAATTTTCACATCTTTAAA
ATGGGAATAATAGTACCTACCTCATAGGGTTGTTGTAAGGAATAAATGATAATAAGCATAAAACACTTCAAATAGTGGCTGGTGTGTATAATTGTTTGCA
ATTACTTGGTCCCAAAGGTGACCAGGAACTCTGTTCCTAAAGAACTATGGTGTGAGAAGTAAGGGACTTTGGGATAGGTGGACTTTTCCCTGGCATTGAG
TGATGCCACTCCCCACTGTTTTTTCAGGGTCTCAATTTCTTAGTGAAAGTACACAAAGGTTAGGAGAAACATGCATGGATCAAGGGCCTAGGAAGTCATT
TTGCCTGGAAAAGACCAGTGCTCTGGTGTGTGCATAGCTACAGAGGTCTGAGTTACCCCGTTCCCCTGGTGAATATAAGGGGCTGGTGATTTGGGGGGCA
TACCTACACCTGTGACTAAGACCCAGGCCTTGGGGGGTTGTGGGGCTTTGGTGATGGCTTTAGCCAGCAATTGGGTGGTCTCTAGGCGGCTGCCGAGAAC
CTCTTTTTGGAAGGTTTCATTCCATCTGCAGGAGAAACATGGGAAATAAAAAGCCACTAAATACATAAGTGCACATATCCCTCTCTCTGTCTTTTCCTGG
GAGCTATTTCATACCAATTTCTTGTAAAGCCCTGAATTTTGGCTTAAGAGAAACAGTCAACGTCTCCTGTAGAGGGAAAGGGCATTCATTTCTTGGGCAT
CCTGAGTTATACGTGAGGACTTAAGCCAATTGGCTGACTGGGTGGAGGAGCAGGTGGGGGTGGAGGAGTGGAGCAGAATGAGTAGTCTGGGATATCGGTT
TAGTTCGGAATCTGGGAGCTCCATTACCCATAGCTCACAGGTTCTCATCAGTGGGGCACTGTCCTCCCTGTGCTCTAGTGGGTATCAGCTTTAGGGCCCG
GGCTGACCTTCGGAGAGGGTTGAGGATGTTCTCTCCGGCCAGGTTGACGGCGGCATCGCAGCTCGGCAGCCCCGATGCAGCGAGCTCATCCTGTCGGAGA
AAGCACACAGTGCCCCTGCCCCGCCCTGCGCCGCCCAACTCTGCCCTCCCACCCGCTTCCAGAGGATGGACTTACCCACGTGATCCGGCCGGGCCCGGGC
TTTCGGGAGACCAACGTCACTTCGTGGCCTCTGGCATTCAGCAGCTGGGTTAGGGCTGTCCCAATGAAGCCTGTCCCGCCACCTGATCGGAAAATACAAA
TTGTTTATATTCCCGTGGAGTTGGGGTGGGGGCGCCTTCCGTCCCCGCTGTGGCACCCTCTTCCGGCGCCATCCCATCTGACACCAGACTTCTCCCCACT
TATCCCCCTCCTCGCGATGCAGAGGTGACACAGGTCACAGGGATTAGGGAGATTCGGCTTCTCGGGCTAGGAGGCCAAGGCCAGGTTGCCTGTGCACTAG
ACAGTGCCCTCCCGGAAGCGGATTCCCAGTCCTCAATCTCCGACTAAGCCCGCCCAGCACTCTCCCTTTCTGCCCTCCCTCACCCACAAGCACACGCATA
GCGACTAGGACCTAACGCGCCTGCGTAAAGTTTAGAGTTTACCTCACCTCAGACGCGACTACGACCTCTCTGCGCATGCCCCTTTCGGGAAGCGCGTTCC
AATCGAGGTCGCAATCCTGTGCGTGACCCTTCTCGGCGACCCGGAAAAACTTGTAAATATAGGCTGGGTGTTTCAATAGCAAGCGAGGTGGGAGGGATTA
GACCGATGGACCCGGAAAGGGCGGAGGAGGGAAGGCTTTAGTGTAGAAAACCAACCAAACCAAACCCAAACCAACAAAACCCTTCACCTAAAACCCGAAG
CTACCCAGACCTCAGAATTTTGGATGTCTATTAAGTTGGCGGGTCAGTAATGCAAGAGAACCCTTCCACCGGTAATCTGGATTTCTTTCCACTCGGCCAG
TTTTTTCTTCTCTCTCTTTCCGCTGGCGCCTTTCTATCAACATTTAAACATTCCAAAGATCCCCCTATATTAAAATAAGCCTTCTCCAGACCTGTTTTTC
CTCCAGCTAATATTCTTTTTTTTTTTTTTTGCCTTCATAGCCAAACTTCCCACAAGTGTGGTTTCCATTTTCTACTTCTTACTTCACTCCTATAGGGTTT
GTGCCTTTATCATTCATTTCCTCACTCTCCAAGAACATAAGTTTCCCATGTGTCACCAAATCTAATCCCTAGTTTTCAGTTAGTTTTCTTGACCTCTCAG
TATCATTGGGCACCTGCTGATTCSTTCCTCCCTTTGAAAATGTTTGGCTTCAGTGAAAGACATTCTCTTCTCGGCTTTCTCSTACCTTTTTTCAGTCTCT
GATGCTTGCTCCACCTCTGCTAAGTTCTTAAAATATTGGTATTCCTCAGAGCTGGATCCTAGGACCTTCTCTTTCCAATCTGCACTTTACCCTAGGCATC
TATGCCTTGAATTCAGTTACCAGGCTTTAACAGAAGACATCCCAAATCTCCTATGCAACTCGGATCTCTCCTCTGAGCTCCTAACCCCTATAAAAACTTT
TCACTACACATCTCTTCTTGGACGTCTGAAACCCTATTGATTTTAAATACTGAATCTCTCCCAGATTTATCTAAGAGGGGTCTTTGAAAAGTTCATGGAA
AATGTGTATTATGCTAAAAAATACATAGGTTTCCAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCA
GGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGG
CGCCTGCCACTACGTCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGC
CCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCCAAATTTTTTTTACACCAAAATAAACTTGTACTAACTTGTTATA
TAACATGTCTGAACAGGATCTGACGCACTAAGAAGGCTAGACAGTTTGAAAAGAGCCCCTATCAAAGCAACCTGAATTCTGCTAAAATTGAAGCAAGAAC
AAACATGGAGTTTCTGGTGAAGAATGATGAAATTGATGCCTTATGAAAAGTTTATGAGGACAATGCCCCAAATAAATCATCAGTCTACAAATGCATAACT
CATTTTAAGAAACGAGGAGATGGACAAGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGATTATGCACGAGCCTCTCTCAAGCCCAGGAGTT
TGAGACCAGCCTGGGCAACATAGCGAGAACTCATCTCACTAAAAATTTAAAAATTAGCCAAGTGTGGTGGTGCACACCTGTAGTTCCAGCGTCTTGGGAG
GCTGAGGCAGGAGGATTGCTTGAGCCCAGCAGTTCAAGGTTGCAGTGAGCTATGATTGCGCCACCGTGCTGCAGCCTGGGTAACAGAGTGAGACCCTGTC
TCAACAAAAAGGGGAGGAGATGATGTTGAAGATATAGATAGTGGCAGACTATCCACATCACTTTGTGAGGAAAAAAATTCATCTTGTTTGTGCCCTAATT
GAAGAGAACTGACAACAGCAGAAACAATAGCCAACACCATAGACATCTCAGTTGGKTCAGTTTACACAATTCTGACTGAAAAGTTACAGTGGAGCAAACT
TTCAACTCGATAGGTAACAAAACTGTTGTACCCAGATCTGCTACAGTTAAGAGCAGAGCTTTCAGTGGAAAGTTTAAACAAGTGGGGTCAAGATCCTTGA
TATGGCTTTGTGACCTCACCCAAATCTCATCTTGAATTGTAATCCCCAGCTATTGAGGGAAAGACCTGGTGGGAGGTGATTGGATCATGGGGGCAGTTTC
CCCCATGCTGTCCTCATGATAGTGAGGGTGTTCCCATGAGATCTGATGGTTTTATAARTAGCAGTTTCCTGTGGGCTTTTCACTTACTGTTTTTCCTGCC
ACCATGTGAAGAAGGTCTTTGCTTCCCCTTTGCCTTCCACCATGATTATAAGTTTCCTGAGGCCTCCTGGGACATGCGGAATTGTGACTCAATTAAACCT
GTTTTCTTTATAAATTACCCAGTCCCCAGCAGTTCTTTATAGAAGTGTGAAAACAGACTAATACAATCCTGAAGCATTTCATCAAAGAATTGTAACAGGA
GATGAAAYATGGCTTCACCAGTATGATCCTGAAGAAAAAGCACAATCAAAGCARTGKCTATCAAGAGGAGGAAGTCAAAGCAAAGCAGACCAGTCAAGAG
CAAAGGTAATGGCAACAGTTTTTTTAGGATACTCAAGGTATTTTCCTTGTTGACTTTGTGGAGGACCAAAGAATGATAACATTAATTTGCCTATTGAGAG
TGTTTTGGGAAAGTTAGCCAAAGCTTTAGCAGAAAAACACCTGAGAAAGCTTCACYAGACAGTTCTTCTCCACCGTGACAATGCTTTTGCTCATGTCTCT
CATCATACAAGAACAATTTTGTTAGAGTTTCAATGGGAAATCTTTAGGCATCCACCTGATTTGGCTCCTTCTGACTTCTTTTTGTTTCTTAATCTTAAGA
AATTCTGTCAAGGGCACCCAGTTTTCTTCAGTTAATAATGTAAAAAGGACTGTATTGATGTGGTTAAGTCTCCAGGACCCTCAGTTCTTTAGGGTGTACT
AAATGGCTGGTGTCATTTCTTACGAAAGTGTCTTGAAGTTGGTGGAACTTATGTTGAGAAATAAAGTTTATATTTTATATTTTTTAATCTTTTAATTGAT
TTTTCCACAACATTTTGAAATTTCCTCATATTTCCCTCTGTCTCTGCCATCACAATCGTCTTATGAGTTATTCTGTCTTGTGTAAATATCTGCAGTAGTC
TCCTAGTAGGTCTTCCTGCTTTTGCATGTTTCTCCTCTCCAAACTATTTCACACATTGCAAGCTGAGTGATCTTTGAAAACCATATGAGGGGAACATTAT
AGTGGCACGTATAGTTTAAAAAACTCCCAGTTTAAAATTCCTGGATATGCTGGATAAAATTAAACATACCTCCATTTAAATGTATTGCCAAGTTAGCTAG
AAAAATAAAAAAATCCCAGAAGCCAAAAAATGAAATGTGTCTTGGGACTGAGGTTATGACAAAGATTATTTGCTTGGCCAAACTTTAGTCAGGCTTCTGA
ACCTTCTAGGCTCATTTGTACACCTCTTTGTAAAATCCAGTTTTCGCAAAGAGCCTTGCTAAGTCAGTTTAGCAAGAACCCCCTCAACCCTTGATATCTG
ATCACTCTCAATCTCTGATCAGGCCCCTCATCCTTCATCCCCTAGGTGATGTCTGATCACCTTGGCCTATCTTCACATGAATCCCGTTAGTTTGGGTTAG
CCAGAATCCCTCTTACCCTTGATATTTTTCTCTTACTAATTTTTCATCCACTGACCCCCACCGTATTCGTTGGCTATAAATTCCCACTTGCCCATGTTGT
TTCAKAYTTGACCCCAATCTCTCCYRCTGCAAGACCACATTGTAGTGGTACCTGTACCTATTGTGATGGAAAGTCTTCCTTACCTTACTCTATCAAGTGT
CACTGAATAATTTTCTTTAACAGGTATTTTGTGACTTTTAGTTTCAGTAACCCAGAGGCTTGGGTGACAGGAGACCATGCCTGAGATCGAAGCAAATTTG
GGACTGAGACCCCTGGATAAAGCCCTTGGGCTGTGTTCTCAGATAAAAAGTAAACTTTAAAAGTCCACCTGGTATCAAAGAACATGGCCTGGAAACTTGT
TTCTCTAGGCCTTTGCTCTTGTCTAGGATTGRTTGTCAAAAAAATTACCGTTCTTTGAGAAGTTGTATCTATTGTCCTGTCCGCCTGCATATTTGTGGTT
TGAATTAATTGTTACCTACTTGGCCTAGAAAGCTCTAACCCAAGAATTTAAATTAAGTGTTCCAGATAGAAGACATAAATCTTCCCTTGGTTTGGTTTCA
CAGGATTTCAATAGATAAAATCCTGCCAAGCATAAACATACAATACAAAATTACAAAACACACAAGGAAACAAAGCACTCTGAGGGTGTCAAATAAAATC
AAACCAAACCAAAACAGAAAACAGCAGATTTAGACAATCAAAGATTTCAAGTGTTAGAATTTAGAGGTATAGAATATAAAATTACCAAAGTTTAAAACGT
TTAAGAAAGAGAAGAAATTAAAAACATGAGAAAGAGACAAGATGCTATCAAAAAATACCAGCAGAATTGATAAAAGAACCAACCTGAACTTTGAAAAATT
AAAATTTTTTTAATTCAAAAAATTTTTTATTGTACTTTAAGTTCTAGGGTACATGTGCACAATGTGCAGGTTTGTTACATATGTATACATGTGCCATGTT
GGTGTGCTGCATCCATTAACTCATCATTTACATTAGGTATTCCTCCTAATGCTATCCCTCCCCCCACACCCACCCCRCAATAGGCCCCGGTGTGTGATGT
TCCCCACCCTGTGTCCAAGCRTTCTTATTGTTCAGTTCCCACCTATGAGTGAGAACATGCAGTGTTTGGTTTTYTGTCCTTGCGAGAATTTGCTCAGAAT
GATGGTTTCCAGCTTCATCCATGTCCCTRCAATGGATCATCCTTTTTAATGGATGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGT
CTATCATTGATTGACATTTGGGTTGGTTCCAAGTTTCTGCTATTGTGAATAGTGCCACAGTAAACATACATGTGCACGTGTCTTTATAGTAGCATGATTT
ATAATCCTTTGGGTATATACCCAGTAATGGGATCGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATCACCACACTCCCTTCCACACTAGT
TTCCACTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACCGGTG
TGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATAATGAGCATTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTT
TGAGAAGTGTCTGTTCATATCCTTCACCCACTTTTTGATGGGGTTGTTTGATTTTTTCTTGTGAATTTGTTTGAGTTCATTGTAGATTCTGGATATCAGC
CCTTTGTCAGATGGGTGGATTGCAAAAMATTTTCTCCCATTCTGTAGRTTGCCTGTTCCCTCTCATAGTAGTTTCTTTTGCTGTGCAGAAGCTGTTTAGT
TTAATTAGATCCCATTTGTCTATTTTGGCTTTTTTTGCCATTGCTTTTGGTGTTTTAGWCATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGC
CTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTATATAAGGTGTAAGGAAGGGATCCAG
TTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCTGTTTCTTGTTTTTGTGAGGTTTGTCAAAGATC
AGATGGTGGTAGATGTGTGGTATTATTTCTGAGGGCTCTGTTCTGTTCCATTGGTCTATCTCTCTGTTTTGGTACCAGTACGCTGCTGTTTTGGTTACTG
TAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGTCTTGGCAATGCGGCCTCTTTTTTGGTTCCA
TATGAGCCTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGCAGCTCGATGGGGATGGCATTAAATCTGTAAATTACCTTGGGCAGTATGGCC
ATTTCGATGATATTCATTCTTCCTATCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCCCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCT
TGAAGAGGTCCTTCACATCCCTTGTGAGTTGTATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTCT
TTGTCTGTCATTGGTGTTTAGGAATGCTTGTGATTTTTGCACATTGATTTTGTATCCTGAGACTGTTGAAGTTGCTTATCAGCTTAAGGAGATTTTGGGC
TGAGACGGTGGGGTTTTCTAAATATACAATCATGTCATCTGCAAACAGGGACAGTTTGACTTCCTCTTTTCCTAATTGAATATCTCTTTATTTATTTCTC
CTGCCTGATTACCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTACCAGTTTTCAAAGGGAATGCTTCC
AGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCTCTTATTATTTTGAGATACATCCCATCAATACCTAGTTTATTGAAAGTTT
TTTGGCATGTAGGGCTGCTGAATTTTGTCTAAGGCCTTATCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGATGGATTA
CGTTTATTGATTTGTGTATGTTGAACCAGACTTGCATCCCAGGGATGAAGCCAACTTGATCGTGGTGGATAAGCTTTTTGATGTGGTTTGCCAGTATTTT
ATTGAGGATTTTTGCATTGATGTTCATCAGGGATATTGGTCTAAAATTCTCTTTTTTGGTTGTGTCTCTGCCCGGCTTTGGTATCAGGATGATTCTGGCC
TCATAAAATGAGTTAGAGAGGATTCTGTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAATGGTACCAGCTCCTCTTTGTACCTCTGGTAGAATTTGG
CTTTGAATCCGTCTGGTCCCGGACTTTTTTTGGTTGGTAGGCTGTTAATTATTGCCTCAATTTCAGAGCCTGTTATTGGTCTATTCAGGGATTCAACTTC
TTCCTGGTTTAGTCTTGGGAGGGTGTATGTGTCCAGGAACTTATCCATTTCTTCTAGATTTTCTTTTCTTCTTTCTTTCATTCTTTTTTTTTTTTTTGAG
ACGGAGTCTCACTCTGTCACCCAGGCTAGAGTACTAGAGTGCAGTGGCRCTATCTCAGCTCACTGCAAGCTCTGCCTCCCAGGTTCATGCCATTCTCCTG
CCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACTATGCCCGGCTAATTTTTTTGTACTTTTATTAGAGACTGGGTTTCACCATGTTAGCCAG
GATGGTCTCGATCTCCTGACCTTGTGATCCACCYACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCACYGCRCCCGGCCTAGATTTTCTAGT
TTATTTGTGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGATATCCCCTTTATCATTTTTTATTGCATCTATTT
GATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCGGTCTGCCTATTTTGTTGCTCTTATTGAAAAAAGCAGCTCCTGGATTCATTGATTTTTTGAA
GGATTTTTTGTGTCTCTATCTCCTTCAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGGGTTTGCTCTTGCTTCTCTAGTTC
TTTTAATTTTGAGCTTAGGGTGTTGATTTTAGGTCTTTCCTGCTTTCTCTTGGGGGCATTTAGTGCTATCAATTTCCCTCTACACACTGCTTTAAATGTG
TCCCAGATATTCTGGTATGTTGTGTCTTTGTTCTCATTGGTTTCAGAGAACATCTTTATTTCTGCCTTCATTTCGTTATTTACCCAGTAGTCATTCAGGA
GCAGGTTGTTCAGTTTCCATGTAGTTGAGCGTTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGACAGTTTGTTAT
AATTTCTGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACTGTGTGGTCAATTTTGGAATAAGTGCGATGTTGTGCTGAGAAGAATGTATATTCT
GTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTGTTAGGTCAACCTAGTACAGAGCTGAGTTCAATTCCTGGATATCCTTGTTAACTTTCTGTCTCGTTG
ATCTGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTACTGTGTGGGAGTCTAAGTCTCTTTGCAGGTCTCTAAGGACTTGCTTTATGAATTC
TGGTGCTCCTGTATTGAGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTG
ATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCTTTTTTGTTTTCCATTTGCTTGGTAGAACTTCCTCCATCCCTTTATT
TTGAGCCTATGTGTGTCTCTGCATGTGAGATGCATCTCCTGAATACAGCACACAGATGGGTCTTGATTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAA
TTGGGGTATTTAGCCCATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCATGTCATTATGATGTTAGCCGGTCATTTTGCTCGTTAGTTGAT
GCAGTTTCTTCCTAGCATCGATGGTCTTTACAAATTGGCATGTTTTTGCAGTGGCTGATACCGGTTGTTCCTTTCCATGTTTACTGCTTCCTTCAGGAGC
TCTTCTAAGGCAGGTCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGGATTTTATTTCTCCTTCACTTATGAAACTTAGTTTGGCTGGAT
ATGAAATTCTGGATTGAAAATTCTCTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTTKAGAGTTTCTGCTGAGAGATCCACTGTTAG
TCTGATGGGCYTCCCTTTGTGGGTAACCCAGACTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCGACCTTGGTGAGTCTGACAATTTTGTGT
CATGGGGTTGCTCTTCTCGAGGAGTATCTTTGTGGCATTCTCTGTATTTTCTGAATTTGAATGTTGGCCTGCCTTGCTAGGTTGGGGAGGTTCTCATGGA
TAATATCCTGAAGAGTGCTTTCCAACTTGGTTCCATTCTCCCTGTCAATTTCAGGTACACCAATCAGACGTAGATTTGGTCTTTTCACATAGTCCCATAT
TTCTTGGAGGCTTTGTTCRTTTCTTTTTCCTCTAAAATTCTCTTCTTGCTTCATTTCATTCATTTGCTCTTCAATCACTGATACCCTTTTTTCCACTTGA
CCGAATAGGATACTGAAGCTTGTGCATGCCTCAKGTAGTTCTTGTGCCATGGTTTTCAGCTCCATCAGGTCATTTAAGGTCTTCTCTATGCTGTTTATTC
TAGTTAGCCATTCATCTAGTCTTTTTTCAAGGTTTTTAGCTTCTTTGTGATGGGTTCAAACATCCTCCTTTAGCTCAGTGAAGTTTGTTATGACYGATCT
TCTGAAGCCTACTTTTGTCAGCTCGTCAAAGTCATTCTCTGTCCAGCTTTGTTCCATTGCTGGCGAGGAGCTACATTTCTTTGGAGGAGAAGAGGCACTC
TGATTTTTAGAATTTTCAGCTTTTCTGCTCTGGTTTCTCCCCATCTTTGTGGTTTTATCTACCTTTGATCTTTGATGATTGTGACCTACAGATGGGGTTT
TGTGTGGATGTCCTTTTTGTTGGTGTCGATGCTATTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGTCAGGACCCTCAGCTGCAGGTCTGTTGGAGTTT
GCTGGAGGTCCACTCCAGACCCTGTTTGCCTGGGTATCACCAGCGGAGGCTGCAGAACAGCAAATGTTCCAGAACAGCAAATGTTGCTGCCTGATCCTTC
CTCTGGAAGCTTTGTCTCAGAGGGGCACCTGGCTGTATGAGGTGTCATTTGGCCCCTACTGGGAGATGTCTCCCAGTTAGGCTACTCAGGGGTCAGTGAC
CCACTTGAGGAGGTAGTCTATCCATTCTCAGATCTCAAACTCTGTGCTGGGAAAACCACTGCTCTCTTGAAAACTGTCAGACAGGGACGTTTAAATTTGC
AGAAGTTTCTGCTGCCTTTTKTTCAGCTGTGCCCTTCCCCCAGAGGTGGAGTCTATAGAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTTCACCCAGT
TCGAGCTTCCTGGCCACTTTGTTTACCTAGTCAAGCCTCAGCAATGGYGGACGCCCCTCCCCCAGCCCRGGCTGCCGCCTCACAGTTCAATCTTGGACTG
CTGTGCYAGCAGTGAGCAAAGCTCCATGGGTGTGGGACCTGCTGAGCCAGGCATGGGATATAATCTCCTGGTGTGCCGTTTGCTAAGACCATTGGAAAAG
CACAGTATTAGKGCGGGAGTGTCCCAATTTTCCAGGTACYGTCTGTCACGGCTTCCCTTGGCTAGGAAAGGGAATTCCCCGACCTCTTGTACTTCCCGGG
TGAGGTGATGCCCCACCCTGCTTCAGCTCACACTCTGTGTTCTGCACCCACTGTCCAACAAGTCCCAGTGAGATGAACCCAGTACCTCAGTTGGAAATGC
AGAAATCACCCGTCTTCTGCATCGCTCACACTGGGAGCTATAGACTGGAGCTATTCCTATTCGGCCATTTTGGAATGATCCACCCATGATGATTCAAGTT
TTAAAATTCAGTGAATGTTTAAACATCAGGGAATAGATTTAGGCATTGGTTAAGAGAGGATTAACTAGATGTGAAGAAATTACCCAGAATGCAACAGAGA
AAAAGAGATAGAAAATGTAAAAGAGAGGGTATGAGAYGAGGATGATAAACTGAGAAATTATAATTCTTCTATTTGGTGTTCCAGAAGAGAGGAGTCAGAG
AAGAGRACAGAGAAAATATTTGATGAAATAATAGCTGATTGTTTTCTAGAATTAAAGAAAGATATGAATCCTCAGATTCAGTAAACAAAATGAGTTTCAA
GTAAGATAAATAAAAACAAACCCATACCTAGTTTCATCATAGTAAAACTGGAAAAACAAAGAGAGATGTTAMAAGTAGTCAAMAAGAAGACAGATTATCT
ATAAAGAAATGCCTTTTTTTTTGAGATGGAGTCTCTCTGTTGCTCAGGGTGGTGTGCAGTGGCAGGATCTCAGCTCACTGCAACCTCCACTTCCTGGGTT
CAAGTGATTCTCCTGCCTTAGTTTCCTGAGTACCTGGGATTATGGGCATATGCCACCAMAGCCAGCTAATTTGTGTATATTTAGTAGAGATGGGGTTTTG
CCAYGTTGGCCAGTCTGCTCTCCAACTCCTGACCTCAATTGATCCACTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCACGAGCCACCATGCCCAGC
CTAAGAAATAACAATTAGACACCTGACACATCAGCTGCAACAATATCATCTAATGGAATAATATCTCAAGCTTGAAGAGAAAATAATTACCAACCTAGAA
TTGCTTACCAACACATTATTCAAGAATGAAGGTGCCGAGACYAGCTCGGCCATGGAGACCCTAACCTGGCGGCRCTAGAGGAATTAAAGACACACATACA
GAAATATAGGGTGTGGAGTGGGAAATCAGGGGTCTCATAGCCTTCAGAGCTGAGAGCCCTGAACAGAAATTTACCCACGTATTTATTGACAGCAAGCCAG
TGATAAGCATTGTTTCTATAGATTATAGATTTACTAAAAGTATTCCTTATGGGAAACAAAGGGATGGGCTGAAACAAAGGGATGGGCTCTGGCTAGTTAT
CTGCAGCAGGAACATGTCCTTAAGGCACAGATTGCTCATGCTATTGTTTGTGGTTTAAGAACACCTTTAAGTGGTTTTCCACCCTGGGTGGGCCAGGTGT
TCCTTGCCCTCATTCCAGTAAACCCACTACCTTCAGCATGGGGGTCATGGCCATCAYGAACATGTCACAGTGCTGCAGAGATTTTGTTTATGGCCACTTT
TGGGGCCAGTTTATGGCCAGATTTGGGGGCCTATTYCCAACATGAAGGTAAAACAAGGATACTTTTTAGACAAGCAAAAACTGAGAGCATTTGCCACCAT
CAGACTTAATATACTTTGTCAGGAARAAAGGAAATGATCTGAAAAGGAAAATGTAAGATGCAGGAAAATAGTGATCAAAGGAATTGATAAAGTTGATAAA
TATAAATATTTACTATATTAAGCAACAACAATAATGTTTAATTTGTGGGTAAAAATTAAAAATATTAGTCACCAGTAATAGGTAGTAAGAGAAATATTTG
ACTGGAGTTGAATTGTTATGAAAAATATAGCAATACTGAATAATGTTAAACTTTGTTAAATGTAAATTTAAAAATTAAGGCTAAATATTGCATATTAGAA
GTAAAGTGTGCACTTCTAAATCAGTAGAGGGAAACARTTGAATAAGATAATCTAATCAATTTAAAAGTTATCAGGAAAAGATAAAAAGAGGATGCTTRGA
AAAAACTAGAAAGGCCAAAATAAGATAACAGAAATAATCAGTAACCATAATAAATTTAAATGGAGTAAGAAATTAAATTAACTAGATGTATCTGGAATTA
CAAATTTCAAAAGAAGTGAATCTCACAACTATAATGTTAAACAAAAAAGAAGTTGCAGAAAAGTACCTACAATATAATGCTATTTACCWAGAGATTAAAA
GTATGCAAAATTATACTTTTTTTTATTGAGGGGCTAAATATATTTGTAGTTAAAATAAAAAGAAATGCAAGGGAATGRTGATGATGGGTAGAATAGTAAT
GTGATCAAGGAGGAGTACCCTGGGAAATTTAACTTCTTATTTCTTAGGGTGTATTCATTTTATTTTTGGTATATCTGAAATATTTCACAATATACAAAAA
TGTGTAGTGGATTTAAGATATGTTGTCATATTTCAGATGTATGGAAAGATAACTTTATTTTCTGTAGTTGAACACAACTTGCTCATAAACATTTCTCATT
GGAAGTGGTATAAACTTAAACTCATCCAACAAAGTTAATTATCATTTCTAGTTTAAAACTTCTCATATACTCAGTTTTCTCTGGGTAAATTCTTAGTCTT
TCAGCATGCCTTGTCCCTTTTCTCCTTTCCTTCTCCTAGCTAGACACCCAGGTGTAGCAGGCCCTTTGGCAGGCACTGTTATGTAGTCCTCAGTGCCTGC
TTGGAAGGGTCTCATCTCCTTCGGCCTTTGGATCTTGCCTGCTGAGATCAGCTAAGGCACAGCTGGTTAGGCCAGACCTCTGGGCAGTGTTTTGGCCACT
GCTTCTGATACCCATGGCTCTTGCCTTGATATCAGAGTTCCACAGCATCTGCTGGATGATGAAGAAACACTTGGCTTGCCTCTGGCCAACAGAATGGGAT
GCATGGGCCTTGATGAGGGTCCCCTCAGGCTCACCTCTTGGTAATTTTTCACAGTCATTACTGCTCAGGCACCTTATTGTGAACTAGTTATATGTTGCTG
TTAACAAATTATCTCAAAACTTAGTGGTTTGAAACAACAATAGTATTTATTATCTTTTACAGTCTTGTGGGTTAGGAATATGGTAGCAGTTTAGCTCGGT
GGTTGTGRGGTGTGGCTCACAGTCTCTCATGAGRTTATACTCAAGATATCAGCTAGGGCTGCAATCATCTGGATACTTGACTGGGGCTGGAGGATCCTCT
TTCAAAAAGMCTTGCTCACATGCTGTTGCAGGAGGCTTCATTCCTTGCTGATTGTTTCTCACCATGTGGACCTCTCCACATGGCTGCTTGAGTATCCTTA
TGACATGGCAGCTGGCTTCCCTGGAGTGAGTGATTCAAGAGAGTGAGAATGAGGAGAAAGCTTCAATACCTCTAATGACTAATCTAATCTCAGTGTAACA
TACAGTTACTTTTATCACAATCTATTTGTTAGATGTGAGTCACTGAGTTGAAGGGGTGAGAAATTTGGCTGTAAAACTTTTAAAGGGAATAGAGTCAAAT
AATTTGTTGGCACATTTTAAAACCAACACAAGCTCTGTGCTGCATTTAGGGCTTCTCTGAGATGCTTGTAGACTCTCTCAGTTGTGCCTGGGAATTGTGG
TACAATCCTTGTTATTTTTAGATGCCTCTTTTACCTCTCCAGGTTTTCAAGCATCTCTCCTTACCTCCCTAGCTAGGCTCCTTCTCAGAGAGTTCAGGCA
GCATTTATAATCTAGTTATGTTCTCTCCAAATCTTTTAGCTCCTTCCCTAAGCCCAGGGAAAGCTAGGTAATGGGCAACTGCTCTGACATCATAGCCAGT
TTCTTTCCTACCCTCTGATTTATAAAACAAATTCCATGCTTGGTCTTCTCTCAACAAAACCCTTGCTCTTGAATTTCCTCCTTTCCAGGCTATTAGTTAG
ATATGGAATAAAACAACTTGCTTTTGAGAGTCAAAACTAAGGCTTGTCGGATTTGTTCCCTTACACTGCAGAGGGAAAAGGAAGTACTGAGAGGGAAAAT
ACGTTGGGTAATATTGCAAAGCAAACTGGCTTYATACATGGCTAGATCCAGGTGCTTACATAATGTCATCAAGGATCCACATCTTTTTAATTCTCAGCTC
TTATTTTTTGTTGGTTGACTTCATTCTCARGAAGATTTTCTCCCTTTAGAGTGAGAATGAATTCTTGGCTTCTATTTCCAGCAGAGTAACTATTTCTCTT
AATTCCATAAAGAATGTCAGAACTGACTCTTCTTGGACTGTTATGRGTCTCGTGCCATCTCTGAACCAACTATTGTGGCCAAGTATGGAGTKTTCTGCCT
GGCCAGGCCTGAGTYGTGTGTCTACTGCTGGACCAGGGGTSGGGTAGCCCCACTCACTGTCCTCCACTGTGGAAACCCAGCTGAGCCCCTGAGGTGTTAA
GGAACTCCTCCTCTCTTCAACAACGTTGACATTCCTTCCTTTCTCTCCTGGCTATGTCTTTCCTTCCAGTGAGCTGGGAGTTGTGCTGTAGAAGGTGAGA
GGTGAGTGGGAGGGTTCCACTAAATTACATGCCTTTTAGAGTATAGATTTAAGAGGGTGGATGTCCATCAATATCCTCAAGGAGGTGAGATGGAAACCTC
CTGCAGAGCTTTACACCCCTTGCGAAGAGGAGGTACATAGGGACAGAGCTCCCATTGCAGCAGCCAGCCCCTCATCTCCAGGGAGGCTGATGGAGAGCAG
GCTCTGTCTGAATGTGTTCAGCTTTCCATCCAACCTCCTTAAAGCTGTYGTTCTTCTGGGTTCTGGGGATGGGTGGGTCAACTTCTCTCATCCTCCTCAG
CCTCTCCTTTAGCAACTGAACTATTTTAGTTAAACTTTTTGCAGCTCTCAGAGTCCATCTGACACTTKGGAGGTTAAAACATTCAAACCTTAGACAACAA
GACATGAGAAATTTTCATCTGCACATCTGGGCTTAGGGGCAAGTGCAGCTGGCTTTCCCTTTGGGAAGAAAAGGCTTCCTCCTGGGTCTGCAGCAATCAC
AAGKACTTTGAAATGGGACTGTTTTCCTCACAGCTGCTTCCTGAAACAACAAAAGGAGCTSAGCTCAGTCAACCTCTGGGGCATCAGGCCAGCCCTGCGG
GGCAGGATAAAAAGTCAGAGAAGGATCCTGGCTGCTTCYTCAGCTTGGGCCAAGGCAGAGTGGGATGGGGGATTTGCTGGTGACAAGTGCCTCTGCCCCT
TCCCAATGCCACCTGTGTGAATGTTCCCTGCTTCATTTTGYTGGAATAGATTTTTGTGACTTCTCTCAGGCTCTGAGATGTTACTTGCCAAATGCTATTC
ACATAACCATTTTACATATTTCTGTTACTGTATGGTAGAACCAATCAACTAACCAATTAATCGASCAACCAACCAAAATCCTAATTCTGGAGACACATTG
GATAAAGGATCCTAGAAATCTCCCTTCCTTTTTATAAGATAGTCTGCTCTGACCTCAGGGTCTGGGGCCACAGGAACAGCATTCCTGAACCTCGAYGTCT
GTGGAGATGCCAGGTCTTCTCCAGGGGCTGCACCTTGTCTTCTYCTTTTTCCCTTCCACTAAGACTTTTAGATGCCCCCATCCCTAGTCTGACCCCTAAC
CAGACATCTGTTCCCAGTGGGACCTTTTGTAGGAGCTGAGAGACCTGGCCAGCCTCCAGCATCAGCTCCGTACGCTCCGTTGTTGGCCAGGACCTGCTGT
GGAGAACAAGTGCCCTTGAGGTCTCTCTGCTCTTAGTTTCCAGGGCAGTGAATGAGAAATGCCCTCTTACATACTCTGACAGTGCTGGGGAGAGAAAGCT
AAATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGADAATGATGTTAGTCTTTGGCCAGGCTGGACCTGAGAGGAACTGTTTAGCATGAGCAG
CTCTTCTTGCACCACCAGAGGCTTCACCAGCCCAGCAATTCCATTTCCTACTCACTCAGAGGAAGGACTACTGGCTGCAGTCTCTTGCCACTGTCTGGCT
CTGTGCTGTAAAATGGCCACTGGGAGGCTTCTCCTGGGTCTGTTTTCCCCTGGCCCCAGCACAGGCCCTTCTGAAATTAATCTATGGAGAATGTATTTCT
CCATCTCCACTGTGGCTGTGGCCCTTTCCCTACAGTCTACTCAGCCCCACATGAGTTGGGGGTAGTGGGAGGCTGGGCTCTGGGGAAGGGACCCAGGGAG
ATATGAGCAGGTGCTTGCAGGGAAGGTCAGCTTTCTCCAGCTCCTTTCTCATGGYAGACACTCAATTACAGGGCCTCCCAGGTGCTGGATAGCTCTGTGC
TGGCAGAATGCTACTTCTCACACCCCTCYGCACAGCAGAGATGATGAGGGCTGGGCCTGATTTTCTCCCTGCACTCTGATRTAATAAAGTTGTTGTCACT
AGGACCTATTAAATCAGRCACTCATGGTAGTAAATGTGGAGATCAGGCAGCTTGGAAATCCTCAGGCACATGTGCATGTGGATGCGTGTGTGTGTCATGA
RGACACAGGATAAAGTCTGTTGTCTGTGGCCCTGGGGGATTGAGGCAGTGATCACCAGAGCTGGCTTTATCTTTGCGTTCATGCRTCTTCTACCCACTCA
GCTCACATTTCGTTATACCATTCAGCAGTTGGCAACCTGAGGGGTTCCTAGGGAGGGAGATGTAGGCTAGTCCATCTTCTCCTCCATGGATCAACATAGG
CCAGACCCAGCTACAGGAGGCTGGACCACAACCARCATGAAATTTTTGCTGAGTTTAGACAGAAGGTCACTACGTCACTGAGGTATCTCATTGAATACTT
GATTAGAYAGAGAAGGAGATGATGGAGAAGAAAGAAAGATGACAGGAGAGGATAAGGGGGTGGCCATGACAACAGAGGAAGAGAGAGGACTCAGAGGKTG
TCCCCAAGGCTTAGACTCTAAATAATTAAGAGACAGCCCTGGGCTCAGTATCCAGGTTAGATCTGTGTAGGATCCCTGGGGCACTGAAGTTGAGGATGTG
ACTAGTGGCTTGAAGGTGGAGTTGAGAGGTTCAGGGTGCCTGGTGTGGATTTTGGGGATGAAGGTTACAACCAGGACCTTTTATGGACTGTTCACAGGAC
TCCACATCCAGGCAAAGGCCAGAGTATTGATTCTTAGATGAAATGCTGTTACACAGCATGGGGACTTCACTTTTTTGAGACTGAAGAACTTTGAGGGGAA
ATAAAATCTCTGAAGAGAAGCTAGGTTCCATCTACAGAGGTAGCATGGCTTAGTGCCTCTCATCCATTCTGTTGAAACAGCTCTTGTCAGTGACCTCTAT
GTTGCTAAATTCATTGATCTCAGATCACCACATACTTTGCCTCTCTGCAACATTTGTTTCAGTGGAAACACTTTCTTCACTGGTTTCCAGGACATGATTT
GTCCTCCTCTTACCTCATTAGCCACAGCTCAGTCCCCTTGGCTGGCTTTGACTGTCACCTGATCTCTAAACATTGGCATACTGCAATCTTTGTCTTTGGG
CCTCTTCTCCATGTAGGCTCACTCCTTAGTATGAATCTCAGGTTTTTGAATAGTGTCTAATGAATCCCAAGTTTCTGACTCCAGCCTGAATATTTTTCCT
GAATTCTAGGCTTAAATATCAAACTACCTACYCAATGTTTGTATGTGGATGACTAATAGCCATCTAAACTTAACACACCCCATACCATTCTCTTGATTTC
CATGGCCCCAAACTTGTTCCTTTGCTGGTTCTCCCAGTCTCAGCAAATGGCAGTGTAGTTTTCCCATTTGCTCAGGTCAAAATAAAAAACTTGGAGTCAT
CATTAACTCCCCGTGATCCATGAGCAGGAATGGTTGGATTTATCTCTAAAAGAAATCCATACATGCAATAAACCCATAATTAGGTATCTCACCATGTTCA
CTACAGCTACCATCTGGTACAAGTTAATGGCATCTTTGTCTGGATCATCATAAGGGCCTCCTTACTGGTTTTTCTGCCCTAACTCTTGCTCCCTTAGAAT
TTATTGTTCACTTGGTAGACGGAGTGATCCCTATAAAAACTTAAATCAATCATGCCACTCCTCTGCTCAAAGTCTTCCAATGGATTCTGGTTTCAGAATA
AAAGCCAAAGATCTTATAAGATCTCAGGGGACCCTTGAGACCCCCAGTGATTTTGTCCTCACTTGTCTATRTGACCTCACCTCCTGCCTGTCCTGCCCAA
GTCACACTGGCTTCTCAGTATAGCGTGACAAACTTGCTTCTGCCCAGGGCCTTTTTGCTATTCCCCTGCTTGAAATGCCATGCCTCCAAATAGCCACATG
GCTCTCCCAGACCTCACTTCCTTCAGGTCTCTAATCAAATGTCTTATTAGACATTATTGACCAGCATATTTAAAATCGGTTTTCTTCCTCACCTTTGGAA
CTTTGTTTTTCCTTCATCCTGTCTTATGTTTCATACCACTTATTATCGTCTGATGTATTGTGTATTTACTTGTTTGTTTGTTACCTGTCTCTTCTCACTA
GAATGCAAACTCCACAAGAGCAGAGATTTTATTATTACTATTATTATTATTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGT
TAGATACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCCCCCACTCC
CCACCCCACAACAGTCYCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTGTCATTGTTCAATTCCCACCTATGCGCGAGAACATGCGGTGTTTGG
TTTTTTGTCCTTGCGATATTTACTGAGAATGATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTAT
TCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAATAA
ACATAYGTGTGCATGTGTCAGAGCAGAGATTTTATCTGCTTTGTTCACTCTTCACCCCAGAATTTTGGAGAGTACCTTCATTTTGTAGATGCTCAATTAG
TATTTWTTGAGTAAATGAAAGAATGGTGGTTGAGAGTGCAGGTCCTGGAAAAAGRTTCCCTGAGTTCAAAKTCCAGATCTTCTCTTTAACAACTGTGTGA
TTTTGGGCAAGTTTCTTAACCTCTCTGTACCTTAGTTTCCTTACAGTAATTGAGGATAACAAGTACCTGCCTCATAGAATTGCTATGAAGACTAAGTTAA
TACATTTAAAWCTCAGATMAGTCCACAGCACATAGATTTGATAGATGTCAATCATCATCATCATCATCATCATCATATGAAATTATTAGCTGGGGTGTTA
GAAATATAAGAAGAGACAGAATTTTAGAAATCTGGGAGAAGTGAGAGGATGCAGAACATACGGATGGGATTGGTGGAAGCTTTGTGTGGCAGATTGTATT
TTTCAAAGACAGCTGCAACAATATCTCAGTTTCACATGCTATTCTGGAAACTTTTCACTCCCTATCAAAAGGTAGAGCGTATGTACTTTCCCTTCAAGTC
CAGATGGGTATTTATGACTGCCTCAAGTGATGTAACTTCCAAGACTAGGTTATAAAAATGCCACACACTTCGAACTTGTTTTCTTGAAATGTTCACTTTT
AGAACCACCCATCATGCTATGAGAAAGTCCAAACTAGCCCATGTAGACAGACTACATAGGGAGGCTATATGGGTGTTCCTGCTGACAGCCCAGCTGAGGT
CCTTGCCAACAGCCAGCATCAACTGCCAGATGTGTGTATGAAGATGCCTCTAGATGACTCTGGTCCTTGTTGAGTCACCCCCAGCCTTCAGGTATTCCCA
CATGAAGCACCAGGCTTCATGGAGCATAGCCCAGGTGTCTCTGCTGTGCTCTGAAATTCCTGGACCAGGCAATCGATGAGAATAATCCTGTGGTTGTTTT
ATGGCACTAAATTATGGAGCAGTTTGCAGTACAGCAACAGCAATAGGGTACTCAGGTTCAACTGTCAAGAGACCAGTCAACAGTGTAGCAAATAGATAAC
AGGCAAGAAAAGCCACACAAAACCAGGTGTGAGAAGTGGTCCTATTTCATTGCTTGGTCACGGATTACTGAACAGGAGATTTGAAACCCTTAACGGSATA
TCTGATCAGCAGGGGTTTAATGGGAAGAAGATGATTGGAACATAATTCCAGAGTAAAAGAAAGATATATGAACAAGCAGATGAGGKTAAAGTGGTCCTGT
ATGTGAGGAAGGCATAAGTAATTTTAAAACAAAAATTTATAAAATATCTATGGGAGGAAATTACATTTTCATGTGAATCTGAAAATCACACTCACATATA
ATAAAACATTTGCGATTTKATGATGCAATATACTCTTGGAGGTTGCTTGAGAAGGCAGATTGTCAGATGAAKTAAACTTGTGTATTTATTGGCTTACTAG
AACATATTTAGCATCCTTTTTTGGGAACCACTGAGTGAGTGAATGAGGTGGTAAAGTATACTTTTATTTTTCAAGATTGAATGGATAAAACAGTGAAACA
TGAGTGTAAAAAAGTGGAGGYACTCTTTTTTTCCTTTTTCTCTTAATATATATGTATTTTTTTTTCTTTTTCTTTTTCACACCTGGTGAACAGGAAGTAG
TGGTKCTCTTTATTGTAGATCACCTGACTTGTCCCAAAGACTGAGTAAAAAATGAGATGATAGAAGCTGTTAATTGAATGCAAACAGTACTACTTGATGA
AACAAATGGTGGAAAATGCCTTATTATGATGGAAATTAAAGGTGATGTTTTTAAGATCTGGGGAYATAAAAATAGACTGGCATATAAACCAGGCCAGGTG
TTAGCTATAATTCTTTTAGCARTGGTGTTTATGCCCAGTTAAATTCAATATCCTCATGGGAGAAGGGAGATAACTGAGATAAAATAGGCAAATTAGTTAA
TGAAAAATTGAAAAATAGAATATGAAAAGGTAATAACCCATATGAGCCAGGTAAATTACAGACACAGTGGAAGTTCAAGAAATAACCATTTCTGGATCAA
TATTTTCATGTACTTAATATTTTTTCCTTGGTGATTAATAGCATAATCAAAGAGGCTGTTATGGGTAAAAATATGTCTCTTAAAATATGGTAAAATTGAC
AAGGTGAGGAAAAAATGAGGTCACTGAAAAGTGTTAATTATAAATTAGGAAACCAAAAATTCTCACAGGGACTGAAAACCAACTTAAAAAAAAAAAAAAC
CAACATACCAAACTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCTGTTGCCTAGGCTGGAGTGCAGTGACAAGATCACAGCTCATTGCAACCTTGACCTC
CTGGGCTCAATCGACCCTCCCACCTCAGCCTTCTGAGTGCCTGGGACTACAGGTGCACCCCAGCATGGCTGGCTAATTTTTGTATTTTTTTTTTTTGTAG
AGATAGGATTTTGTCATGTTGCTCARGCTGGTCTCAAACACCTGGCCTCAAGCGATCTATCCTCTTCGGCCTGGAAAGGTGCTGGAACTACAGGCATGAG
CTACCATGCCCAGCTCAAACCAAACTTTTAATTGCAGCATGATGCTCTGCTAATGTAACTCAGTGAGCAATCACAAAGTGAACACATCCCTGTTACCACC
ACCCTAGTCAGGAAATAGGACATCACCACATCAGAGGCCCCCCGACAACCATGTGCCTCATCCTAATTCTTAACATCTCCACCCTCACCAAATGTGACTG
CCATCTTGACTTTTAACACCAAAGATTAGTTTTGTTTGTTTCTGTTCTTTATGTAAGTGTGCTGACACAATAGGTCTCCTTTTAAGTTTGGCTTTTGCTC
CCCTTAACATTATGCTTGTGAGATTCATCAATGTCATTGTAATAGCAGTTAATTTTTGTTGCTGGGGAGTATCCTATCGTATCACTGTACCATAATTTAT
ATGAATAAATAAGTAGTATTTATTCATTCTACTGTTGAAGGAATTTTGGGCTGTTTCACATATCATGCTATAATGAATATTCTTGTTCATGCTTTAGGAT
GCAGAGATTTCTTTTGGGTGTGTTCTTAGGCATGAATTGATGTCATAGGATATGTGCATTTTCAGTTTCTCAGCTGATACTGAGAAAGTGAAAAGTGACG
GAGCTGTTAACGGCACTTCCTCTAATAGTGTAGGAGAGTTCCAGTTGCTCTCCTTGTCAATATTGATATTATCAATCTTTCTAACTTTAGCTATTCTAAT
GAGTGCATGCTGCTATTGCTCATGGTTTTAATTTCTAATTTTTTACTRATGAGGTTAGTACCYTTCATATATTTAYAGTTCAGTTGGTTATCTTACTTTT
GTTAACTTTCTGTTCAAGTCTCTTATCTGTGTTTCATTGAGTTGTCTGATGTTTTTTCTTATTGATTGATAGGCACAACTTGTAAGTTCTGCATGTGAGC
CCTTTGTTGATATATGTGTTGCAAGGATCTTCTCCCATTCTAYGGTTTGCCTTTTTCGCTCACTTAAAGGTGTCTTTTCATGAGCAAAAGTCCTTCTTGT
AGTCTCATTTTTAAAATCGTTTTTCCTTTAAGGCGATAATTCTCAATGATAGGGTGAGTATTTTTCAGGCAATATTTGGGACATACTGAGTATCTATCAT
CTATCTATCTATGATATCTTCCTATCTATCTAATCTATCTAAGATATCTATCTATCTATCTATCTATCTATCTATCTATCTATATGGTTTTTTCCTTGTT
GTTTATCTGAGATTCTAATTGAATTTGGCATCTTGTTTTTTCCTCCTAAATCTGGTAACCATACCCAGGGGACATTGGAGAATGTATTGGAGAAACTTTG
TTGTCATAACTGGGAAGTGGTGGTGGGGAATCGGTTGGTATCCCATGGGTAGAGGTCAAGGATGCTGCTGAACGTCCTACAACGCACAGAACAGCTCCCC
ACAACAAAATTGTATCCAGTTTGAAATGTCAATAGTGCAAGGTTGAGAATCTTGCTTTAAAGTTAGTGCTTTTTTATGTGCCTTGAAGAAATCTATCTAA
ACTCCAAAGTTTTAAAGATATTTTTCTATTGTATCATCTCAAAGTTTTATTGTTTTACCTTTCCCATGTAGATCACCTGGAATTAACTTTTGTGTGTCTG
TGAGATAGGGGTCAAATTTCATTTTTGCTTCTAGATATTCACTTGACCCAGCAATATTGATTGAAATGACCATCCTTCCCACTTCTCTACAGTTCCTCCT
TTGTCATAAACCAAGTGTTTATGGATAAAGGTGTTTGTTTCTGGTCTCCATTCTGTTCTATTGCTTTAATTGATTGTGTTTGCATCCACACCATATTTTA
CTAATTACAGTAGTTTTAAATAAATCTTGGCATCTGGAAGCAATCTTTTTTTTTGGCCTTTAAAACATTTATATAAATGTCTGGGGTGCAAGTGCAATTT
CATTACATGCATATATTGCATAATGGTCAACTCAGAGCTTTTAGGGTATCTAGTACCCTAATAACCTACACTGTACCCATTAAGTAATTTCTCATCACGG
GAGTATCTCGATTGGATTTCCTCAGAAACAGACCCTGATACAAAAATTTGAGTGCAAATAGTTTGTTTGTGATGKGATTCCTGGAAGCACTGATGGGTGA
GTGAAGAAGTGAAACAGAGAAGGAAAGAAAATACAGGGTGTTTCAATGAGCAAATTACCTCTGTGGGCACCTGGGGATTTATCTCACCCAGGACTTTTGG
AAGATGGTGTGGGACATGTCTCAGCACTGTTCCACTAGAAGGAACATGAATGAAATAATGAAACTGGGTTATTTATCCAGCAATTCTCATCCATAATGGG
TTAAGGCAACTTTAGGGGCATTAACTCTCTGACATTTCTTGTCTGCTGTGTAGTCTGGCTGAGCATGCTCTTGTGGCCTGAGAAAGCTTTTGGGGAGAGT
TGTGGAAGATTGGCATAAGAAGCCTTCTGTAGAGGCTCACTTTGGTGAGCATTGATGATACGTTGGCAGGACACCAACAGTATCACCTACCCTCCACCTT
TTGAAATGGTCTGATCCAGTACCTCACATTGAGTTCATTTCATCTTGTCACTGATTGTTCAAGGGGGTAGCCATTTCAATTTATAATAAAACGGTCTTAT
AAAGGGAAGTGTATTACTCAGGGTTCTCTAGAGAAACTGACCCAATAGGATAGATATTATTTGTAATACAGAGAGAGAGAGAGAGAGACAGAGAGAGAGA
GAGGAGAGAGGAGAGAGGAGAGAGAGATTAAAGAATTGGCTCAAGCTGTGGAAGCTAGCAAGTCTGAAATCTGTAGGGCAAGCCAGCAGGCTGGAAATTC
AGATAAGAGTTCAAGAGTTGATGCTGGAGTCTTGAATCTGAATTCCTCAGGGCAGCAGGCTGGAAACTCAGGCAGTATTTCTATGTTGCTGTCTTGAGGA
GAATTCTTTCTACTTTGGGGAACCTCAGTCTTTGCTTTTCAGGTCCTCAACTTATGGGATAAGGCCCACCTATGTTATGGAGGATAATTTGCTTTACTTA
AAGTCTACTGATTTAAATGTTAATCACACAGATTCATTGCAATCCCTATAGAAATACCAGTGACATTTTTCACAGAAATAGAAAAAAATCCTAAAATTTT
TATGCAACCACAAAAGACCTCAAATAGCCAAAGTAATCTTGAACAAAAAGCACAAAGCTGGAGGCTTCACACTACTAGACTTCAAAATATACTGCAAAGT
TGAAGCAACCAAAATAGCATGGTACTAGCATAAACAATAGACACATAGACTGATGGAACAGAAATGAGAGCCAAGAAATTAATCCATGTAACTACAGCCA
ACTACTTTTTGACAAAGGCACCAAGAACTCTCATTAGTGAAAGGACAGCCTCTTCAATAAATGGTGCTGGAAAAACTYGATATCCATATGCAGAAGAATG
AAACTAGACTCCCACCTCTCACCCTATATGAAAATCAACTCACAGTGGATCAAAGATCTAAATATAAGACATGAAACTACAAAACTACTAGAAGAAAACA
TAGTGGAAACACTTCAGGACATTGCTCTGTGAAAAGATTTTATGAATAAGACCTCAAAAGCACAGGCAACAAAAGCAAAATAAACAAGTGGGATTATATC
AAACTAAAAAGCTTCTATACAGCAAAGGAAACCCTACAYAAAAGGAAAAGACAACAGAGTAAAAATACAACCTACAGTATGGGGGGARATTTTTGTAAAC
AATTCATCTGACAGAAGATTAATATCCAGAATATACAAGGAACTAAAAATCTCAATAGCATAAAAAAACCCACCCCAAAATGATTAAAACATGGGCAAAC
GATCCAAACACAGACAGTTCTGAAAAGAAGACAAACAAATGGTCAACAAATATTTAAAAGATACTCAACATTGCTAATCACCAGGGAAAGGTAAATCAAA
ACCACAATGAGGTATCATCTCACTGCAGTTAGAGTGGCTATTACCAAAAAGACAAAAAATARCAAATGCTGGCGAGGATGTGGAGTAAAGGGAACTCTTA
TATACTGTTGGTGGGAATGTGAACTAGTACAGCCACTATGGAGAAAAGTATGGAGGTTCCTCAAGAAACTACAAACAGAACTACCACATGATCTAACAAT
CCYACTACTGGGCATTTATCCAAAGGAAAGGAAATCAGTATATTGAAGAAACATGTGCATCCCTAAGTTTATTTCAGCACTATTCACAATAAGCCAAGAT
ATATAATCAACCTAGGTGTCCAACAACAGATGAATGGATAAAGAAAATGTGGTATATGTACACAATGGAATAAATTCATCAAGCCACATTCAGCCATAAC
AAAGAATGAAATCCTTTCATTTGCAATGGCATGGATAGAACTAGAGGACATTATGTTAAGTGAAATAAGCCAGGAACAGAAAGTTAAACACCACATGTTC
TCACTCATTTGGGAAGCTAAAGAAAAGTTGATCTCATAGAAGTAAAAAGTAGAACAAGAGGGTACTAGATACTAGAGAAGGGGGTGGGGAGAGGAGGAGA
TTTGTTAAAGGATACAAAATTAGAGCTAGATAGCAAGAATGAGTTCTAGGGTTCTATAGCACCATAGGATAACTAYAGTTAACAATAATATATAGTTTCA
AATAGCTAGAAGGAGGATATTGACTGTCCTCAACACGAAGAAATGATGTTTTAGATGATGGATATGCTAATTACCCTGACCTGACCACTATACATTATAT
GTATCAAAACATCACCATGTATGTACTCCATAAATATGTACAATTATATATCAATAACAAAATTTAAAAATGAAAATGTCATACAAATATTAATAGCATC
TTAAAAAATATTTTTATAGGGACAAGCTACAGTCCATACTTTTTTTCATAATTTTATTTTATTTTTATTATACATTAAGTTCTAGGGTACATGYGCACAA
TGTGCAGGTTTGTTACATAGATATACAKGTGCTACGTTGATTTGCTGCACCCATTAACTCGTCACTTATATTAGGTATTTCTCCTAATGCTATCCCTCCC
CCTGCCCYCCACCCCACGACAGGCCCCTGTGTGTGATGTTCCCCRCCCTGTGTCCAAGTGTTCTCATTGTTCGATTCCCACCTATGAGTGAGAATATGCA
GTGTTTGGTTTTCTGTCCTTGTGATAGTTTGCTCAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGAACATGGACTCATCCTTTTTTATGACT
GTATAGTATTCCATGATGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGATTGACATTTGGGTTTGTTCCAAGTGTTTGCTATTGTGAATAGTG
CTGAARTAAACATAAGTGTGCATGTGTCTTTATACTAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTC
TAGTTCTAGATCCATGAGGAATCACCACACTCCCTTCCACAATGGTTGAACTAGTTTCCACTCCCACCAAGAGTGTAAAAGCGTTCCTATTTCTCCACAT
CCTCTCCAGCATCTGTTGTTTCCTGACTTTTTAATGATCGCCTTTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTTTCTGATGA
CCAGTGATGATGAGCGTTTTTTCATGTGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCACTTTTTGATGGGGTT
GTTTTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGATTCTGGATATTAGCTCTTTGTCAGATGGGTAGACTGCAAAMATTTTCTTCCATTCGCTACAGT
CCATACTTTTACAGTGAGTCCTGAGGTCATTATTAACAGTCATTATCTTCCTTTAGCACCTTTTCTGCATTCCCTACCCTAACTCCCTGGCAAGCACTTC
TGATGGTTTAGGTTGTTTATTCAATAAGGCAAATCGGATCTTTATCTCTAAGGTTACCGTGCCATTGTTAAGGCAGGATTTYTGCAATTGTGTGTTATAG
TTATCACTGGGTAGAAGCATCAAGAAGTGTCTTGTACTGCTTYCTGGGCCACAATTACATTGTTTTGTGGCAACAACTTGATCTCTTCATGATAACCAGG
GTCATTTAGTAACTTCACTGTTGCCTAGAGATCTACTGTCAAAAGAAGCTTGACATGACAGTTGGCAGCCGTAACTTTATTTTTTAGTGAAACCCTTATT
GTATCCCTGGCCCTGGTGAAAGCAAATCCCCCACTCTGTGCTTGGAAATGAGGACCTTTATTAAGTGGGACCTAAAATTGTAGGGACAGAAAAGCCAAAT
TTACCACGTTGGTCCCTAGGAGTGCTTGCCTTATACTATGACTTGGTGGTTCTGATATGATTCAGCTCATGATGGACAGCTGTGATCACACAGTCACCCT
TATGTCCCATGGTCAGATAYTCAGTGTCTGCTAGGGCCCAGTAGCACCCTGGGARCTACTTTTCATATGGTAAATAGTTCTCTGCTACATATGGCATAAC
CTTACTATGGAACCCTAGAGGTCTGTGCTATAATTCACTTATGAGGGCTTGTCAGTCATTTCAGAGGTGCCCACCCTTATCTGTCATGGCTACCTTTAGC
ACCCATGGAATCTGCTGGGTCATATGATTACGGGCCAGGGCTGCTCATACAGCAGGATGAAYRTGCCGCAGGACTCTCTTGTTTTGGGAGATCCTCTRAA
AAGCTGACAGCAGCCTTCTGAGAAAACCCATTAAATGGGCTGGARCAGTATTCCCAAGAGTGTTATATGCTATGTGCAAAATCCAAAGAGGSCTGCCGGG
CACTGYGCCTCTTTGTAGTCCATGTCGTCAATATAGCGGATCCATCTGATGATCTGTGRAATGTCCASATGCAAAGGTCTCTTTGGACTGTGTTGAGAGA
GAACCGGAGGTTTAATATAGTGCTGAGATGAGACTGCTTTCCATMCTGGGTGAATGCAAACTGTTCTGATCCTTCCTCCTGACGGGAACTAAAAGAACAC
ATTTGCCTTATCAAAAGTCACATATCAAATGCTAGAGGCTGTGTTGCTCTATTCTAATGAAGACACAACATACAAAACTGCAGTAACCGCTGCYCCACCA
CTTGGTAGAGTAGTCTGCTATCATCTGCTAGGGTGTATTTGGTTTTCCAGGTGACCATYTCTGTATCAYTTAAATCTTTGAGGCTACCACCAAATTCTGC
CATTTTACCTGGAATGTTGTATTGTTTCTGATTTGCCATCTTGGCTAGGTTGTGGACAACTAAAGCCTTTTTTACCRTAATGCCTCTTATTTTATAAGTC
AGGGAATCAYGAGAGTTCCATCAGCRTTTAAGTGCTGCCTATACATTAAAAGTATGCACTCAGGGACCAGGGTATTTACCAAAGGGTAGGTTCAAGGACC
CAACTGGCCCACTGTGGGATRGATTTAGGATAGGGCTTCCTTTATCATTTGGTGCCTTTCAAGTGCAACTCTAACAGRTGGACCACAACATATTTTGGGT
TCCCTAGTATTAGTGAGAGGTGACAGYGTGCTGGCAGCCCTGGCAGCCCTYRCTCACTCTTGGCGGTGCCTTGGCCTTGGCGCCCACTCTGGCCATGCTT
GAGGAGCCCTTYATTCTGCCGCTGCACTGTGGGAGCCCCTCTCTCAGCTGGCTGAGGCTGGAGCCGGCTCCCTTTGCTTGCGGGGAGGTGTGGAGGGAGA
GGCGCAGGTGGGAACCGGGGCTGCGCGCGGCACTCGGGGGCCAGTGTGAGTTCCGGGTGGGYGTGGGATCGGCGGCCCATGCTAGGGCTTAGCACCTGGG
CCAGCAGCTGGGGAGGGTGCACCGGGTTCTCTAGCAGTGCCAGCTGGCAGGTGCTGCACTTGAATTCTTGCCAGGCCTCAGCTGCCTCTCYGTGGGGCAG
RGCTCGGAACCTGCAGCCCGCCATGCCCAAGCCTCCCCACTGCCCTGGGCTCCTGCGCAGCCTGAGCCTCCTCGACAAGCACTGCCCCCTGCTCCAGGGC
TCCTGGTCCCATCAACTGCCCAAGGGCTGAGGAGTGTGGGCGCATGTGGGACTGGCGGGCAGCTCTGCCTGAAAGGCCCTGGTGTAGGATCCACTAGGTG
AAGCCAGCTGGGCTCCTGAGTCTAGTGGGGACTTGGAGAACCTTTATGTCTAGCTAAGGGATTGTAAATACACCAATCAGCACTCTATGTCTAGCTCAAT
GTTTGTAAACACACCAATCAGCACCCTGTGTCTAGCTCAAGCTTTGTAAATGCACCAATCAGTGCTCTGTGTCTAGCTAATCTGGTGGGGACTTGGAGAA
CTTTTATGTCTAGCTAAGGGATTGTAAATAAACCAATCAGCAATCTGTGTCTAGCTCGAGGTTTGTAAATGCACCAATCAGCACTCTCTACCTAGCTAAT
CTGGTGGGGACTTGGAGAACTTTTATGTCTAGCTAAAGGATTGTAAATGCACCAATCAGCACTCTGTGTCTAGCTCAAGGTTTGTAAGCTCACCAATCAG
CACCCTGTGTCCAGCTCAAGGTTTATAAATGCACCAATCAGCACTCTGTATCTAGCTAATCTGATGGGGACTTGGAGAACGTTTATGTCTGGCTCAGGGA
TTGTAAACGCACCAATCAGCACCCTGTCAAAACAGACCAATCAGCTGTCTGTAAATCAGACAAATCAGCTCTCTGTAAAATGGACCAATCRGCAGGATRT
GGGTGGGGCCAGATAAGGGAATAAAAGCAGGCCGCCCCAGCCAGCAGTGGCAACCTGCTCGGGTCCCCTTCCACACTGTGGAAGCTTTGTTCTTTTGCTC
TTTGCAATAAATCTTGCTGCTGCTCACTCTTTGGGTTTGCACTGCCTTTATAGGCTGTAACACTCACTGCGAAGGTCTGCAGCTTCACTCCGGAGGCCAG
CAAGACCATGAACCCACCAGGAGGAATGAACAACTCGGGACAGGAGGAACGAACAACTCCAGATGCGCCACCTTAAGAGCTGTAACACTCACTGCCAAGG
TTTGCAGCTTCACTCCTGAAGCCAGCGAGACCATGAACCCACCAGAAGGAAGAAACTCCGAGCAAGTCTGAACATCAGAAGAGACAAACTGTGGACACAC
CATCTTTAAGAACTGTAACACTCACCGCGAGGGTCTGCGGCTTCATTCTTGAAGTCAGTGAGACCGAGAACCCACCAAATTCTGGACACATTAGTACCAG
CTCAGATCCTATACACAAGACCTCCCAAAAGTGCTGCATATTTTGTAGGTTCCTTTGGCAAAGGATTGGAACAATAYTTTCTGAAGGTCAGATGAAGCAT
ARTGGAAGGACCCAAAGTCACCAGTTCTCTCAGATGCAACTGGGGCAGTGAGAAACTAAAGAAAATATTCATAAAATGGTATACAAGTAGGGGCAACACA
CAAGGTAGAAGAGATGTCAAATGTTTGCTCTCCTGAAACTGTTAGCTGAGCTTTGATGAGTGTCACTCCATGTTTCCTGGCATAGGTGAGGGTTCCCTCT
CTCTGAAAGGGTGGTGGGATCCAGGTTACATCCCTGTTCGTAGGAGTCAGGGTTAGAAGTTAATTGTTATGGAGTGATCARAAGATGTTTCCCTGGCTCC
TGCAATGCCTCCGACCCCCTTGGTGGCCTCTGTTACATAGGGATTGGAAGACTCCCTCTTGAGGGGTGTGGCTTCAAAAAAGGAGCATTTCCTATCTCCA
GGAAATGGAGACATGACAGTATACTTTTTGGCCTGCTTGTTTTTYTTTACCAAAAACAATTTTAGGAAAAGCTTGAGAATATGTAAGKCTCAGTGATGTG
ACTTTTTCCTTTTTCTTCTGTCGTTGAAGAGGAAGAGTTGAGGAACCTCCTTGGATAGAAGGGGTATAGCTTATTTTAGGACTTCAACCAAAGGCACGGG
AGAGAGAACAGGCCAAAGGACTGTAAGGAAGGTTATCTCAGGATTGGGATCCGGCAGGAAAAAAGCCCTGGGTCGTTATTCTCCACTTACCCCTCCATGA
CAGCGCCTCACCTTGCTCTGGGGCCTACTTTTGAGGGCGGCTTCAAAAGCCACTCTGTGCTCTGGCTGGCAGTTGGGGTTGGCCAGTGGAAGCACTGGCA
GGAGRTGGAGGSAGGAAGAGAGAGAGGTGGTGGAATTTGTTCACAGAATCTCTTSCTGCCAGACCACCAGTTGGCTGTGGGTCCTTCCTCTATTGCAGCC
CACAGCTCCTGCCCTATAGCTGCAAYTGGCACCATAGAGGTAGAACTTCCACTCTCTTCCCAGGTTTCAAGAACCACTCCTTCTCCAGGCCCCTTCCTGC
TGGTAGGCAGTGGTGGCTTCTCACTCTTGCTAGCTCTGGGGCACATCACCATGCCCTACTGGTTTTCTGTAACTCTGCTTCTTTTGCAAATATTCCCTCT
GTTGAATTTTCCCTACATTACCCTGCGTGATTGTGCCATTGGCCACTGCTGGGATGTGACAGAAAGGCCATTTGAGGATAAAGGACCAAAGAACAGGTCA
ATGTGATTATTTCAGAGCCTGAGGTGGGGTTGATTACAGAAAACTCACAGCTGGTCAGGGTGCACTTTTCAGAGCCAGGGGGCCCAGCAAAGATATGGTC
ATATACYAGATGCAAATCAGAGAAGATTTTCATCAGGAAAACTATCAYGAAAATTAGCAAAGATCTTAGCTTCCTGGCTACTCTTACCTAATGATGTAAT
TAYTGATGAGAAAATGAACCCAAAGTAATGCAGCCAACTCCTCTTCTGGGGAGTGGTTGCRTTTAATTGCACTAAAGCCACGTAACAAAARCAACAGCAA
AACCCCCAAACACTTAAACTACCCAAACAAATTGAAAGTGCTGAAAAGTTGAGTGAGGACAGAAGCCTCTCATCATTTAATCCAAAACATAGACTCACTA
AATAATAACCCCAGCCACAAATCATGTAATCTAGAGAGAGATCTATGAGCTCTTTCTCTGTCTCTYTCTGGCCTGGCAGACTGAGAGATCCAGTGCACAG
AAGATCCAGTGCACAGAAGGGCAGCCTCATATGGTTTGTATGGGGAATACTTAGTCTTGGGATATTCAAAGGGAAAAGAGGAAAAGTCCAGGGTTTTTCC
TGGAAAAACCAGGCTTGCCTTAGAGCTCTCATACTGACAAACCCTTTAATTACATGTATTGTGCTGTGTATTGGCATGTAGTCAGTGTTCAGTGTTTTTT
GGAGTTGTTKTTTGCTTTTTTTGTTTTTATAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAATACAGTGGCACAATCATAGCTCACTGTAGCCTCGAAA
TCCTGGGCTCAAGCGATCCTCCTGCCTTGGCCTCCTGTGTAGCTAGGATTACAGACCCACACTACTGGGCCTGGCCAGCAGTGTGTTTTGACTTGAGCAG
CCTTGGCTTCTTTCTCTTTCCCTCAGCAGCGGGGASTCAGCTTGGCCAGTGCTTGTGATGGGCAAGCCWGGGGCATCCYCTTCTCATGGGTTGGGTGAAG
MCTCTAGTGCTGAAGGACAAAGCTCACACAACTCCCCRCTTTTGGCTGTCAGCACCAGCCAGACAGGAGCAAGAACCAGGAACAACTCCCAGCATCTCAG
AATCAAATCTCYACTCCTGGATGCTCTAGTCTTTCCTGATTACAGGCCCACATGGAGCCTGTTTGAAGGGGTCGCTGCCATGGGCTGAGTCAGGGCATTG
AGGYCTGGATGTCAGGGCYCAGCAGTGTCCAGTTTCCAGGCCTCATTACAGCTGCTYCCATGAGGGGTTCCCCCAGCACTGGGCCTGGAGAGTTATGAGT
CTCTCCTGYAMTTTCTGCTCTGGGGACCTGGTTCCACAATCTTCCGGGAAGGTCTTTCTGGTGTATGTGCTCTGTTTCAGTTTATATTCTGGACTCCTAT
GAAGATGTTTCAGCAAAGTCTTTTGCTCCTTTTTGTTTTATGTTTAGTTATGTCTGTTGTAAAAAATCAATGTAATAAGTTTATAATTAATTAAAAAAAA
ACCCAGTCACTTCTAATCTCACAAACAAGTGTGCACCTATTATCCCATTGTTGAAGATATGGTACATATAATTTTTTTCTTTGCCTCAACATTACATTAT
ATTAAGACTAAAGGCTGGACAATGGCTCCATGTGGTGGAGGGGAGGGGTTTCAGAAGCCTGGTCCTCATCTTGTCTTTTTTTTTTTTTGAGACCAGGTCT
TGGTTTGTTACTCAGGCTGGAGTTCAGTGGTGTGAACACAGCTCACTGCAGCCTCAATCTCCCAGGTTTAGCAATTCTCCCACCTCAGCCTCCTGAGTAG
GGTAGCTGAGACTACAGGCAYGTGCCAYCATGCCCAGCTAGTTTTTGTATTTTTTGTAGAGATGGCATCTCACCATGTCACCCAGGTTGGTATCAAACTC
CTGAGCTCAAATGATCCTCCTGCCTCAGCCTCCTAAAGTGCTGGAATACAGGCATGAGCCACTGTACCAGCCTCCTCTTGTTTTATACAAGGGAAGAATC
CTATTTCAAAGTGAAAGGAGGAGTTCATCTTCTTGTATTGGATCCTGTGTCAGAAATATTTTTAAAAGATTTTATTATAAAAGTTTTCAAAYGCATACAA
AAGTAGGAAGGATTGTATAGTGAACTCAATGTATCTGTTCCTCACCTTCCATCATAATCAATACATGGCCAATTTAATTTCCTTTACACCTTCCATTCCT
TGCCTTATGCCAACCTCCCCAACCCCTCAGATTATTTTGAAGCAAATCCCAGACATCAMCAAATACTCTTSTACACCATGAGTATGGGTCTCAAGTTAGG
GAAGTGATCTGGTTCTAATTTGTATACTTGGCTTGCCCCACTCCTCCAGTGGCCTGAGGAGTCATGGGTAGGGCAGGGGGCCTTGCCTCCTGCTCTTGCA
TGTGGTCTTTCACAACAGCTGAACATATGGGGGACCTGTCCCAGGAAAGCRTCAACCCTGGACCCTGAGGGATATGTCCAGAGAAGTGAGGAGGCTGGAG
GAATGAGAGCTATTAGTCAGAGAAAGAAAAGACCTGGAGAGGTATGACCATTGTCTTTATATGATTGGAGGGTGGTTTGGATTTGAAGTGTTAGATTTGT
TTTACTTGTTCAGGTGTGAACACAGAATGCAAATGAAGGCCCTCTGGGMAGAAATAACCAGGAAGCAGATTTTTAGTTCAAGAACTTTCTAATCATCTGA
GTGGTCAAAAAGTGGAGTASGTCACCCAGGCTWGGGGATCACCAGGTGAAGAYGAGGTAGCAGAATTTAAGCAATGGGTTAGGRTGGTACATGAGTAAAT
TAACTAAGTTCCTTTAAATGAATTTTCCAGTTTCTAAGAGAATCAATGACACACTTGGTTAAGAGTCAAGAACTTTGTGTGACCACAGAAGTCCTTTTAC
CTTATTGGGTCCTACTCATACARTTAGGATTTTGGATTATGTGATAGCAATAATAGCTAACTATGTTGAGCCCTTATGTGTTTTAAGCAAGTATTAGCTT
GCTTTCAATAACTACATAAGATAGTGTATTAGTCCAATCTCACACTGCTAATAAAGACATACCCAAGATTGGGTAATTTATAAAGGAAAAAGGTTTAATT
GACTCAAAGCTCAGCATGGCTGGGAAGGCCTCAGGACACTTACAATCACTGCAGAAGGGGAAGCAAACATGCCCTCTTCACATGGTGGCAGGAAGGAGAC
GTGCCAAGCAAAAGTGGGAAAAGCCTCTTATAAAACAATCAGGTCTCTTGAGAACCCACTCACTTTCACAAGAACAGYAGCATGGGGGTAATTGCCCCCA
TGATTCAATTACTTCCCACCGGGTTCCTCCCATGACATGTGGGGATTATGGGAACTACAATTCAAGATGAGATTTGGGTGGGGACACAGCCAAACTATAT
CATTCCACCACTGGCTCCACCCAAATCTCATGTCCTCACATTTCAAATTAYAATCATGCCCTCCCAACAGTCCCCCAAAGGCTTAACTCATTCCAGCATT
AACTCAAAAGTCCGAGTCTAAAGTCTCATCTGAGACAAGGCAAGTCCCTCCTGCCTATGAGCCTGTAAAATCAAAAGTAAGTTAGTTGCTTTCTAGATAC
AATGGGGGTACAGACATTGGGTAAATACACCCATTTCAAATGGGAGAAATTGGCCAAAATGAAGGGGCTACAAGCCACATGCAAGTCCAAAATCCAATAG
GGCAGTYGTTAAACCTTAAAGTTCCAAAATGATCTCTTTTGACTCCATGTCTCACATCCAGGTCACACTGATGYAAGAGGTGGGTTTTCACAGTCTTGGG
GAGCCCTGCCCCTTGGMTTTGCAGGGTACAGCCCCAACTTCTAGCTGCTTTCACAGGCTGGCATTGAGTGTCTGTGGCTGCACATGATGCAAGCTGTTGC
TGGGTCTACCATYCTGGGGTCTGAGGACAGTGGCCCTCTTCTCACAACTCYACTAGGCARCGCCCCAGTGTGGACTCTGTGTGGGKCTCCCATCCCACAT
TTCCCTTCCACACTGACCTAGCAGAGATTCTCCATGAGGGCTCTGCCCCTGCAGCAAACTTCTGCYTGAGCATCCAGGCATTTCCATACATCTTTTGAAA
TCTAGGCAGAGGTTCCCAAGCCTCACTTCTTGATTTCTCTGCACCTGCAGRCCCAACACCATGTGTAAGCCACCAAGGCTTGGGGCTTCACCCTCTGAAG
CAAAGGCCTGAGCTGTACATTGGCCRCTTTTGGCCATAGCTGAGATGCAGGGCACCAAGTACCAAGACTGCACAAAGCAGCAAGGCCCTKGGCCCAGCAT
AYGCAGCCATTTTTTTCTCCTCAGCCTCCATGTCTGTGATGGGAAGGACTRCTGTAAAGAYCTCTGACATGCCCTGGAGACATTTTCCCCATTGTCTTGG
GAATTAACATTTGGCTTCTCTTTACTTATGCAAATATCTGCAGCTGGCTTGAATTTCTCCTCAGAAAATGGGTTTTTCTTTTCTAGCACATCACCAGGCT
GCAAATTTTCTGAACTTTTRTGCTCTGCTTCCCTTTTAAACATAAATTCCAACTCCAAACCATATCTTCATGAAAGAATAAAACTGTGTGTTTTTAAGAG
CACCTAAGTCACATCTTGAATGCTTTGCTGCTTAGGAATTTCTTCTGCCAGATACCCTGAATCATCTCTCTCAAGTTCAAAGTTCCACAGATCTCTAGGG
CAGGGGCAAAATGCCACCAGTCTCTGTGCTAAAGCATAACAAGAGTTACCTTTGCTCTATTTCCCAACAAGTTCCTCATCTCCATCTGAGACCACCTCAR
CCTGGACTTTATTGTCCATATCACTATCAGCATTTTGGTCAAAGTCATTCAACAAGTCTCCAGGAAGTTCCAGACTTTCCCACATTTTCCTGTCTTCTTC
TGAGMCCTCCAAACTGTTCCAACCTCTGCCTGGTACCCAGTTCCAAGGTCTCTTCCACACTTTTGGGTATTTTTACAGCAGTGCCCCACTACCTGGTACC
AATTTACTGTATTAGTCCATTCTCACACTGCTWATCAAGACATACCTGAGGCTGGGTAATTTATAAAGGAAAGATGTTTAATTGATTCACAGTTCAGSAG
GGCTGGGGAGACCTCAGGAAACTTACAATCATGGCAGAAGGGGATACAAACACATCCTTCTTCACATGGTGGCAGGAAAGAGAAGTGCCAAGCAAGAGGG
AAAAGCCCCTTACAAAACCATCAGATCTCGTGAGAAATCACTCACTATCATGAGAACATCAGCCTGATTCAATTACCTCCCACTGGGTCCCTCCCATGAC
TTGTGGGGATTATGAGAACTACAATTCAAGATGAGATTTGGGTGGGGACACAGCAAAACTATATCAGATAGGTACTATAATTATCTGTATTTTGGATATG
GAGAAACTGAGGCACAGAGACAGTATGTATTTTGCTCAAAGTCACACAGCTATCATATGATAGAGCTGGGATTTGAACCCAGGCAGTTGGTTTCAATGCT
AGCATGCTTAACCACTATGGCACAGTATATTTCAAAGATAAGTTTGAGTGTTTCAGCTCTAATCATACAGTGATTCTAGGATGAAATGAGATAATATATG
TGACCTTGCATTATTCTACACAAATGACACCACTTCACATCTTATATTTTTCTCAAAASAAGGATATTACAATTTCTTTTCTCCAACCAGATCTTGGACA
AGCTGTGCTCCTCTGAGACAGTAACATCAGACAAAAGTCTCATAGACCGTGATCTCTGACAGGGCGAGTACTGAACCAGSCGTATTCACCTTTGAAAGCC
TGGGACGATGTAGGCCCTCAGGAGGATTTGTTTATTGATTGATGGCAGGACTGTGGCCCAGAAAACTTTTCACTCGAAAGGTGCCATGTTCCAGGTGGCC
AGCTGGGGGAGCCTTAGCCCAAAGGCAGGGCAGGCTGAAAGTAGCAGAGGCTGTGTTGTGATTGGCGGTCAGCGGTCCGGAGTCCACCGAGGGCTGGGCT
GGATGTGAAGGGTTGAGTTGCCKGTGAGGAGAGGCCTTGCCTGTCCCAGAGGCCTGGTCCCGCTCAGCCAGGTCATGGGACAGTGGAAAGGCCCCGCTGG
AACCTAGGAGGAAGTKGCGCWGGTCAAGACGGTCTTAGGGGACAGGAGCTGGTGGCGGGAGGGGAGACAGCACTCCGAGCAACCTCAGCGTGCCTCGAGG
GGGACAGGCATCCGGGAGGCCAGMGGCTGAGCTGGGTTCTGGGCGCTGGCAGGTCAGCAGGGCAGGGAAGAGAAGGKCATCGAGGGTGGGCCTGGGGGCT
TCCCAGCAGCCAGCCCCTGTGACTGGGAGAAAATCCTGCCCCTGGGCGGAAAGGCCCCCATCTCTCCCTAATGGTGAGAGGGCAGGATCCCGAAGGGGCC
CCAAACCGTACCTCTCAGTGTGCGCCTCCTTCAGGCGATTTCCCACCCCATCCGCGTCTTCTCTGCCATTCAAAGGGGCAAGGGTGTGTAGGAGASGAGG
TAGGGAGATACCTCTCTCCCGAGGATCCCTGGCAGAGGGGCCTGGCACTGCAGGGGTGCATGCRAGAAGTGGGTGCACGTCCGCAGAGCTTGGGTGGGCA
GCAACGAGAGGGCTTGGGTGGGCGAGAAGAGAAGGCATGGGCTGCTTGCACTCATTTTATTCCAACCCCACAGAATGCGGCTCAACCACGAGGTGAGTTG
CTGAGGCTGGGCGAATGCTCTGCTCCCATTTTACCCAGGGAAGCCAGATGGAGACCTGAGAGAAGATAGGAGGAAGAAYCCGGAACCCCACTCTCATGGG
AAGTGGACTCGGACCAGAGACTTTCCTCTTTATGTTTTATTTTATTTTGTGTTTTTAGAGACAGGGTCTCACTCCATTATCCAGGCTGGAGTGCAGTAGC
ACCATCACAGCTCACTGCAGCCTCAACCTCCTGGGCTCAAGCAATCCTCCTGTCTCAGCCTCCTGAGCAGCTGGGACCACAGGTGTGCACCACCATGCCC
CACTAATTAATTTTTTTTATGGAGGTGGGGTCTCACTATGTTGCCCAGGCTGGTCTCAAACTCCTGGCCTTAAGTGATCCTCCCACTTCAGCCTCCCAAA
GTGCTGGGATTACAGGTGTGAGCTGCTGTGCCTAGTTCCTCGTTTTTTAACTCTATTTCCTCTTCCCCAAGGAAGGAGATGAAGGAGAGGCCTCTGTTTG
CTGCTAGTGTGAGGTTAAGCTGGGAGGATGGCCAGAGGCTGAGTCACAACTCCTGAGGCCCCTTTAGGTGCTGCGGTTTCAGTAGTCCAGGCTCCTACCC
TCTTTAGGCCACTTCAGCCCCAGGTTCTAGCACCTTCACCCTGGTGCTTTTCCCTCCCAGGGAGTCTCATGAACTATTTCCTTTGGGGAAGGTGAAGAAA
GWCCAGTTTAGCTTGGAGGGGACCATCTCTACTACTCAATGCCCCAATAGAGGACTTCCCAGCTGTCATCTCGAAATTTCTCATTCTTGGCACTTGTGGG
WAAAGTCTAATTCTAGAGCTCCCCAGAGTCACTTTATCTCCTGGGGCAGTAAAAATCTGCCCATGGCACTGATCTTGGAGGAGACCTCTTATCTTCAGGG
ACACCGCATCTGCTAGAGGTGGCAGAGGCCCTGCCATTGTTTCTTTCCGCCTTTGAGCTGCAGCACCTTTTTCTTGGCTGGTCTGAAGAACCCCTCTACC
CACACTGCAGGCTGGAGGTCGCCTTGCATGCTCCGGCTCCTAGGCTGGGTGAGCCTTAGAGCCTTTGGGTGGACTSCTRCTTTAGCAGCTTAGGAAGGCA
AATGCTGGCTCCTCTTCCTYTCCTCAMTTGGTAGGACTCAGAGCAAAGAAAGGATGGCTTTTCTCCAGTCCTTCTCCCTTTTCAGACAGGCGGCACAGCT
AGAGAAATATGTAAAGATCAGGGGAAGCCTGTTTTGCATAGTGAGAGTCTTGCAYGCTTGGGACATCAGGACAGCCTCCAGGGGTTCTAAGTGTGTGTGG
ACTATTCTCAGGGAAGAAATGCTGGAGGGCCTTGGGCTGACATTCTAGCTCCTCCACACTGCTCTTGACATCCTAGAATAAAAAGGGAAGGCCAAGGTCA
CCTTTAGGGCATTCTTTGAATGTGGCTGGCCTGGGGCTGGAATGGGAGAATATAGTGCGGTCCTGGCTCTGAAAAACCACAGTTACTCTGGGTCTGTGCC
TTAAAGCTGTGGTTTCATGACGTCAGATTTCCTCTCAACAGCCAGGAGTAATCAAGATAGAGAACCATTTAGGCTTGTTCCTTCCTATATGTCAACAGCT
ATTCTACCCCAGGGCTCAGATTTAGAGCTAGTGTCCTGTTCTCTTTAGCAGAACTGACTCCTCTCTCCTCTGTGCCTCTGTGTGATTGCTGACCTGGCCT
TAAGCACCGCCTCAGTGGTTAAGTTTTGCAGAGAGGGCTGGTTACTTCCCTGGTACCTCTCTTGTTATTGAACCCTAGTTTCCTATTGACTATCTATCTT
TTCTTCATTTACTCCTTATTTTGTCATGTCTAGCTCCCAGCAGTTTTCTGAGAAAGGGTACTTGGAAAGCCAWTTTTTTTTAGACTTTCAACGATGGAAA
TAGATTTATTCATTCCTCACAGTTGATTGATACACTGTCTGCTTAAGCTTTTTGAGGGTCAAATTATGTTCTCTGGTATCAGTAGTAACTGTGAGCTGTG
AGAGAYCTTTCTGTTTCATGATAGACAGATACRATATGATGGACTCTTGGAGAAATCGCTGGTCACAAGGGAAGAAGGTGAGGTCTCTGATGACCCTCCC
AAAATACAYATAGCCAATAAACCAAATCATATCTGAGCCCAGTTTACTGGAGCTGTGGATTGGGGTGGCCAAGAGCTTTGTCATGCGTATGGTAATAGCT
TATAAGTATTTATTCCCAAATGGCTAAGAAATTAAYTGAGCACCATTTATTTTACCAYAGTTTCTGTGTTTACTATATACTAAATGTTTTCTATAGGCTA
GAGCCATTATCTGAGCTCTCTAGTCAGTTTCATGGATCTATCTGGTCAATTCTTGTAGCATCATATATATTTTAAAGTTTGTCTTCTCTTTATGTATTTA
TTTTATTTATGAGGTGTCTTARGAAGAAATCTCAAACTGTCAAAAGGCTCTGATTTTGTTCTTGGGCTACCTAGTGCTTTTGACAGCCTTGGAAGATGCA
ATGGAAAGCATGTCCATCAATGCTAAAAATGTCATGAGTTGGCAGGAATACACAAAACCCAGGAGAGCAAAGTAGCAGTCTAAAAAGATTCTGCTAATGA
TTTATTAAAGTCTCAAAAGATTATATATATATATAAATATATATATATATTTTTTTGAGACAGAGTCTCATTGGGATTACAGGGATTACAGGCATCTGCC
ACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGCAATCCGCCTGCTTT
GGCCTCCCAAAGTGCTGGGATTACCGGCATGAGCCACTGCACCTGGCCTATATGTATATACTTAAAGGATAGATACAGAGTCTCTCATTTGGTTTAAAGA
CCAACTGCACAAGAATAAAAGTGAATATGCATGCCTTAACAGTTGTGTATGTCAAGAACACACGGGTTTCACTTGGATGCAAAGTCAGCTTGAGGCTGCT
CTACTCTGATCAGATAAAATACCTACAGGAACCAGGATGGTAACTGCACTAGTGCAGTGGACTGTTAATTTAACTATATTACATTATATTTAATTTAATA
TGTACATGTTAAATTAATATGTAACTTTATTTACATAATAAACATTAAACTCATAGGAAGAATCTTTATTTCTACAAAGCCGTGTGTGCTCTCCCCACTT
TTTTTGAAGCACATGGCCAGCTCTCTCCATCTATATTTATCATTCTCCATGTTCGATACAGAAAAATTTCAAGAAAAATTTCATTTTTCTCCTTACTGCG
AGAAAAGCAACAGCATAACAGCAATGATACATGGAAACGGACACTCTGTGCTGGGGAAGCAAATAAGGGGAGGTGGGATTTCCTGTGTGGGAATTAGATG
GTTGCATGCTCCTTCTGAACTGAGCAGCCATCAACTCCAACTGATTCTTGCCATACAGGAGTATGGGTCAATGATTGCCAGACCTCATGTTCAGGAGATG
CCAGCAATCTGGATTTTCCCATGAGATTTCCTGATTTTAAAAATTTTGGCAACCATGTTTTTATTTTATTTTTTATTTATTTATTTATTTTTTTCAGTGT
TGTGTGCATTCTTTATTTTTATTATTATTTTTTTTTATTATACTTTAAGTTTTAGGGTACATGTGCACATTGTGCATGTTAGTTACATATGTATACATGT
GACATGCTGGTGCGCTGCACCCACCAACGTGTCATCTATCATTAGGTATATCTCCCACTGCTATCCCTCCCCCCTCCCCCGACCCCACCACAGTCCCCAG
AGTGTGATATTCCCCTTCCTGTGTCCTTGTGATCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCGGTGTTTGGTTTTTTGTTCTTGCGATAGTT
TACTGAGAATGATGGTTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCA
CATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAATGCCGCAATAAACATACGTGTGCATGTGTCT
TTATAGCAGCATGATTTATAGTCATTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACA
CTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTT
TTTAATGATTGCCATTCTAACTGGTGTGAGATGATATCTCATAGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGT
TTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGA
GTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAATATTTTCTCCCATGTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTC
TTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTGGACATGAAGTCCTTGCCC
ATGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTAATGGTTTTAGGTCTAACGTTTAAATCTTTAATCCACCTTGAATTGATTTTTG
TATAAGGTGTAAGGAAGGGATACAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTGCTT
GTTTTTCTCAAGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGCATTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTAC
CAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGG
CGATGCGTGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCT
GTAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTTTATTTCC
TTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGA
GTTCACTCATGATTTGGCTCTCTGTTTGTCTGTTGTTGGTGTATAAGAATGCTTGTGATTTTTGTACATTGATTTTGTATCCTGAGACTTTGCTGAAGTT
GCTTATCAGCTTAAGGAGATTTTGGGCTGAGATGATGGGGTTTTCTAGATAAACAATCATGTCGTCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCT
AATTGAATACCCTTTATTTCCTTCTCCTGCCTGATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGCGGTGAGAGAGGGCATCCCTGTCTTG
TGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAAATACGTGCC
ATCAATACCTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCTTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCT
TTGGCTCTGTTTATATGCTGGATTACATTTATTGATTTGCGTATATTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGATGGATAAGCT
TTTTGATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTGGTTGT
GTCTCTGCCCGGCTTTGGTATCAGAATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATTGATTGGAATAGTTTCAGAAGGAAT
GGTACCAGTTCCTCCTTGTACCTCTGGTAGAATTCGGCTGTGAATCCATCTGGTCCTGGACTCTTTTTGGTTGGTAAACTATTGATTATTGCCACAATTT
CAGAGCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGAATCACCAGCTAACATCATAATGACAGGATCAAATTCACACA
TAACAATATTAACTTTAAATATAAATGGACTAAATTCTGCAATTAAAAGACACAGACTGGCAAGTTGGATAAAGAGTCAAGACCCATCAGTGTGCTGTAT
TCAGGAAACCCATCTCACATGCAGAGACAAACATAGGCTCAAAATAAAAGGATGGAGGAAGATCTACCAAGCCAATGGAAAACAAAAAAAGGCAGGGGTT
GCAATCCTAGTCTCTGATAAAACAGACTTTAAACCAACAAAGATTAAAAGAGACAAAGAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAGG
AGCTAACTATCCTAAATATTTATGCACCCAATACAGGAGCACCCAGATTCATAAAGCAAGTCCTGAGTGACCTACAAAGAGACTTAGACTCCCACACATT
AATAATGGGAGACTTTAACACCCCACTGTCAACATTAGACAGATCAATGAGACAGAAAGTCAACAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAA
GCAGACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATAG
TTGGAAGTAAAGCTCTCCTCAGCAAATGTAAAAGAACAGAAATTATAACAAACTATCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAA
TCTCACTCAAAGCCGCTCAACTACATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGGTACATAACAAAATGAAGGCAGAAATAAAGATGTTCTTT
GAAACCAACGAGAACAAAGACACCACATACCAGAATCTCTGGGATGCATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCTACAAGAGAA
AGCAGGAAAGATCCAAAATTGACACCCTAACATCACAATTAAAAGAACTAGAAAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATAAC
TAAAATCAGAGCAGAACTGAAGGAAATAGAGACGCAAAAAACCCTTCAAAAAATCAATGAATCCAGGAGCTGGTTTTTTGAAAGGATCAACAAAATTGAT
AGACCGCTAGCAAGACTAATAAAGAAAAAAAGAGAGAAGAATCAAATAGACACAATAAAAAATGATAAAGGGGATATCACCACCGATCCCACAGAAATAC
AAACTACCATCAGAGAATACTACAAACACCTCTACGCAAATAAACTAGAAAATCTAGAAGAAATGGATGCAACCATGTTTTTAAAACCTTGTGCAGGACA
GGCTCAATGAGCAGGATAGGCTCAATGAGCAGGATGCTGGATTGTGCTGTCTCAAACATTGTAGCCAGCTCTAAGTACTTTATTTTATTTTATTTTTTTG
AGACGGAGTCTTGCTCTGTCGCCCGGGCTGGAGTGCAGCGGGGCGATCTCAACTCCCTTCAACCTCCACCTCCCGGGTTCAAGTGATTCTCCTGCCTCAG
CCTCCTGAGCAGCTGGGATTACAGGCATGCAACACCGTGGCCAGCTAATTTTTGTATTTTTCGTRGAGACGGGGTTTCACTGTGTTGACCAGGCTGGTCT
CGAACTCCTGACCTCAGATGATCCACTTGCCTTGGCCTCCCAAAGTGCTGGGGTTATAGGCGTGAGCCACTGTGTCTGGCCAGCCCTGAGTACTTCAAAG
TAACGGTGACAAACTACAGCACATTAAAATTGTGAGAGAAACTAGAAGMTTGGGAAAAGGGTGGAAGACCCAGGGATGATGCTTCTGAGAAAAGAAAGCT
CAGCTGAGATTTGATACCAGACTTCTGGTTGTGTATGAACTTCCCTGTTAGGGACAGAACATTTTTTTACTGGAGACAGGAGGAGCGATGGGATCAGGTC
TAGCATTYGAAGGTATTTTGGAAGCAGCTGTGAGATCTATATAAGCAGAACTAACAATCAGCTACTTTAGGACATCAGGACATATGTGCCTGGGAAAAGC
AGTGAGTTTYCATCATTGGAGATGTTCAGGCAGCATCTTCAACCAGTTGGGGACATCATAAAGAGTACTGAAACACTGGAGGAGGGCATCATGTCCAGTC
CTGATGGTCCTGTCCATCCCTAAGGGATTATGATTCCAATCTTCTTTAGCTACTGTGGAGCATTTGGGCTTTTCCTTTCCCTAAGCTCCCWTGCAAGTTG
TACCATTCTTTTTGCTATTTAAGGCATGCAGTAGGCAATAATTCAATGTATGGGGTTCCAATCCTGGGTGCCCTGGCTTTTGCCCTTGGCAAAGCTTTAT
AGCATCTCTTAGCCTTACTTTATTTATAAAAATATGAGTGAATACAAAATATCAGTGTGAAGATTAATATGGCCCATGCAGCTCTTGTGAGAGGTCATGG
AGATTGGGACTGTYRAATGGCCTTTAAAAAAAATTAATCCAATGGCCTTTAAAAAAAATAGTCTTTTAAAAAAATTTAGCTCTGCTGAAGGGGGAGGTTC
CAAGATGGCAGAATACGAACAGCTCCAGTCTACAGCTCCCAGCATGAGCGATGCAGAAGACTGGTGATTTCTGAATTTTCAACTGAGGTACAGGGTTCAT
CTCACTGGGGCTTGTTAGACAGTGGGTGCAGGACAGTGGGTGCAGCCCACGGACCATGAGCCAAAACAGGGTGAGGCATCATCTCACTCGGTAAGTGCAA
GGGGTCGGGGAATTCCCTTTCTTAGCCAAGGGAAGCCATAACAGACGGCACCTGGAAAATCAGGTCACTCTCACCCTAATACTGCACTTTTCTGATGGTC
TCAACAAACGGCACACCAGATGATTATATCCCACGCCTGGCTTGGAGGGTCCCACACCCACAGAGACTTGCTCACTGCTAGCACAGCAGTCTGAGATCGA
ACTGCAAGTCGGCAGCGAGGCTGGGGGAGGGGWGCCCGCCATTGCTGAGGCTTCAGTAGGTAAACAAAGTGGCTGGGAAGCTCGAACTGGGTGGAGCCCA
TGGCAGCTCGAGGAGGCCTGCCTGCCTCTGTAGACTCCACCTCTGGGGGAAGCGCATAGCTGAACAAAAGGCAGCAGACACTTCTGCAGACTTAAACGTC
CTTGTCTGACAGCTTTGAAGAGAGTAGTCCTTCTCCCAGCACGGAGTTTGAGAYCTGAGAATGGACAGACTGCCTCCTCAAGTGGGTCCCTGACCCCGAG
TAGCCTAACTGGGAGGCACCTCCCAGTTGGGGCCGACTGACACCTGATATGGCTGGGTGCCTCTCTGAGATGGAGCTTCCAGAGGAAGGATCAGGCAGCA
ACATTTGCCGTTTCACAATATTTGCAATTCTGCAGCCTCTGCTGGTGATACACAGGAAAACAGGGTCTGGAGTGGACCTCCAGCAAACTCCAACAGACCT
GCAACTGAGGGTCCTGACTGTTAGAAGGAAAACTAACAAACAGAAAGGACATCCACACCAAAACCCCATCTGTATGTTACCATCATCAAAGACCAAAGGT
AGATAAAACCACAAAGAGGGGAGAAACGAGAGCAGAAAAGCTGAAAATTCTAAAAATCGGAGCACCTCTTCTCCTCCAAAGGAATGTAGCTCCTCACCAG
CAATGGAACAAAGCTGGATGGAGAATGCCTTTGATGAGTTGAGAGAAGGCTTCAGAAGATCGGTAATAACAAACTTCTCCGATCTAAAGGAGGATGTTCA
AACCCATTGCAAAGAAGCTAAAAACCTTGAAAAAAGATTAGACGAATGCCTAACTAGAATAAACCGCATAAAGAAGACCTTAAATGACCTGATGGAGCTG
AAAACCATGGCATGAGAACTATGTGACACATGCACAAGCTTCAGTAGCCGATTTGATCAAGTGGAAGAAAGGGTATCAGTGATTGAGGATCAAATGAATG
AAATGAAGTGAGAAGAGAAGCTTAGAGAAAAAAAGAGTAAAAAGAAATGAACAAAGCCTCCAAGAAATATGAGACTATGTGACAAGACCAAATCTCCGTC
TGACTGGTGTACCTGAAAGTGACGGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAACCTAGCAAGGCAGGC
TAACATTCAAATTCAGGAAATACAGAGAACACAACAAAGATACTCCTCGAGAAGAGCAACTCCAAGACACATAATTGTCAGATTCACCAAAGTTGAAATG
AAGGAAAAAATGTGAAGGGCAGCCAGAGAGAAAGGTCGTATTACCCACAAAGGGAAGCCCATCATACTAACAGCGGATCTCTCAGCAGAAACTCTACAAG
CCAGAAGAGAGTGGGGGCCAATATTCAACATTCTTAAAGAAAATAATCTTCAATCCAGAATTTCATATCCAGCTAAACGAAGCTTCATAAGTGAAGGAGG
AATAAAATCCTTTACAGACAAGCAAATGCTGAGAGATTTTGTCACCACCAGACCTGCCTTAGAAGAGCTCCTGAAGGAAGCAGTAAACATGGAAAGGAAC
AACCGGTATCAGCCACTGCAAAAACATGCCAATTTGTAAAGATCATCAATGCTAGGAAGAAACTGCATCAACTAACGAGCAAAATGACCGGCTAACATCA
TAATGACAGGATCAAATTCACACATAACAATATTAACCTCAAATGTAAATGGACTAAATACCCCAATTAAAAGACACAGACTAGCAAATTTGGTAAAGAG
TCAAGACCCATCAGTGTGCTGTATTCAGGAGACCCATCTCACGTGCAGAGACACACATAGGCTCAAAATAAAGGGATGGAGGATGATCTACCAAGCAAAT
GGAAAACAAAAACAACAGGGGTTGCAATCCTAGTCTCTGGTGAAACAGGCTTTAAACCAACAAAGATCAGAAGAGACAAAGAAGGCCATTAYCTAATGGT
AAAGGGATCAATTCAAYAAGAAGAGCTAACTATCCTAAATATATATGCACCCAACATGGGAGCACCCAGATTCATAAAGCAAGTCCTTAGAGACCTACAA
AGAGACTTAGACTCCCCCACAAGAATAATGGGAGACTTTAACACCCCACTGTCAACATTAGACAGATCAACGAGACAGAAAGTTAACAAGGATATCCAGG
AATTGAACTCAGCTCTGCACCAAGCGGACCTAATAGRCATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTCTTCTAAGCACCACATCACAC
TTATTCCAAAATTGACCACATAGTTGGAAGTAAAGCACTCCTCAGCAAATGTAAAAGAACAGAAATTATAACAAACTGTCTCTCAGACCACAGTGCAATT
AAACTAGAACTCAGGATTAAGAAACTCACTCAAAACCACTCAASTACATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGTTACATAACGMAATGC
AGGCAGAAATAAAGGTGTTCAATGAGAACAAAGACACAACATACCAGAATCTCTGGGACACATTTAAAGCAGTGTGTAGAGGGAAATTGATAGCACTAAA
TKCCCACAAGAGAAAGCAGGAAAGATCTAAAATTGACACCCTAACATCACAATGAAAAGAACTAGAGAAGCAAGAGCAAACACATTCAAAAGCTAGCAGA
AGGCAAGAAATAACTAAGATCAGAGCAGAACTGAAGGAGATAGAGACACAAAAAATCCATCAAAAAATCAATGAATCCAGAAGCTGGTTTTTTGAAAAAG
ATCAACAAAATTGATAGACCACTAGCAAGACTAATGAAGAAAAGAGAGAAGAATCAAATAGATGCAATAAAAAATGATAAAGGGGATATCACTACTGATC
CCACAGAAATACAAACTACCATCAGAGAATACTATAAACACCTCTATGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTGGACACATACAC
CCTCCCAAGACTAAACCAGGAAGAAGTTGAATCCTTGAATAGACCAATAACAGGCTCTGAAATTGAAGCAATAATTAATAGCCTACCAACCAAAAAAAGT
CCAGGACCAGATGGAATCACAGCCGAATACTACAGAGGTACAAAGAGGAGCTGGTACCATTCCTTCTGAAACCATTCCAATCAATAGAAAAAGAGGGAAT
CCTCCTTAACTCATTTTATGAGGCCAGCATCATCCTGATACCAAAGCCTGGAAGAGACACAACAAAAAAAGAGAATTTTAGACCAATATCCCTGATGAAC
ATTGATGCAAAAATCCTCAATAAAATACTGGCAAACCGAATCCAGCAACAYATCAAAAAGCTGATCCACCATGATCAAGTGGGCTTCATCCCTRGGATGC
AAGGCTGGTTCAACATACASAAATCAGTAAACATAATCCATCATATAAACAGAACCAATGAYAAAAACCACATGATTATCTCAATAGATGCAGAAAAGGC
CTTTGACAAAATTCAACAACCTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATGGGACGTATCTCAAAATAATAAAAGCTATCTATGACAAACCCA
CAGCAAATATCATACTCAATGGGCAAAAACTGAAAGCATTCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGT
GTTGGAAGTTCTGGCCAGGGCAATCAGACAGGAGAAAGAAATAAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTATTTGCAGATGACATG
GTGGAATATCTAGAAAACCCCATTGTCTCAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGCATACAAAATCAATGTGCAAAAAT
CACAAGCATTCCTATACACCAATAACAGACAAAGAGAGAGCCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAATATAAAATATGTAGAAAT
CCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAATTGCAAACCACTGCTCAATGAAATCAAAGAGGACAGAAATAAATGGAAGAACATTCTATGC
TCATGGATAGGAAGAATCAATATCTTGGAAGTGGCCATACTGCCCAAGGTAATTTATACATTCAATGCCATCCCCATCAAGCTGCCAATGACTTTCTTCA
CAGAATTGGAAAAAACTACTTTAAAACTCATGTGGAAACAAAAAAGAGCCCGCATTGCCAAGACAATCCTAAGCCAAAAGAACAAAGCTGGAGTCATCAT
GCTACCTGACTTCAAACTATACAACAAGGCTACAGTAACCAAAACAGCATGGTACTGGTACCAAAACAGAGATATAGACCAATGGAACAGAACAGAGCCC
TCAGAAATAATACCACACATTTACCACCATCTGATCTTTGACAAACCTGACAAAAACAAGAAATGGGGAAATAATTCCCTATTTAGTAAATGGTGGTGGG
AAAACTGGCTAGCCATAGGTAGAAAGCTGAAATTGGATCCCTTCCTTACACCTTATACAAAAATTAATTCAAGATGGATTAAAGACTTAAATGTCAGACC
TAAAACCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCCAGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAACAGCAACA
GAAGCCAAAATTGAGAAATGGGTTCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGTATGGGAGA
AAATTTTTGCAATCTACCCATCCGACAAAGGGCTAATATCCAGAATCTATAAAGAACTGAAACAARTTTACAAGAAAAAATCAAACAACCCCATTAAAAA
GTGGGCAAAGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAGACACATGAGAAAATGCTCATCACCACTGGTCATCAAAGAAATG
CAAATCAAAACCACAGTGAGATACCATCTCACATCAGTCAGAATGGCAATTATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAG
GAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCACTGTGGAAGACAGTGTGTTGATTTCTCAGGAATCTAGAACTAGAAATACCATTTGA
CCCAGCGATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCAGCACTATTCACAGTA
GCAAAGACTTGGAACGAACTCAGATGTCCATCAATGATAGACTGGATTAAGAAAATGTGGCACATACACACCATGGAATATTATGCAGCCATAAAAAAAG
GATGAGTTCATGTCCTTTGTAGGGACATGGATGAATCTGGAAACCATCATTCTGAGCAAACTCTCGCAAGGACAGGAAAGCAAACACTGCATGTTCTCAC
TCATAGGTGGGAATTGAACAATGAGAACACTTGGACACAGGAAGGGGAACATCACACACTGGGGCCTGTCATGGGGTGACGGGAGTGGGGAGGGATAGCA
TTACGAGATATGCCTAATGTAAATGACAAGTTAATGGGTGCAGCACACCAACATGGCACATGTATAGATATGTAACAAACCTGCACCTCGTGCACATGTA
CCCTAGAACTTAAAGTATAATAAAAAAAAGAAAAAAAAAATTAAAAAGTTTTTCAAATTTTAATTTTTTCAGTTTTATTTATTTATTACTATTAATATTT
ATTTATTTATTWGTTTTTGAGACAGAATCTCACCCTTTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAGCCTCTACCTCCCGGGTTCA
AGCAATTTTCATGCCTCGGCCTCCCAAGTAGCTGGGACCACAGGCACCCGACACCATGCCCAGCTAAGTTTTGTATTTTTAGTGGAGACAGGGTTTCACC
TTGTTGGCTAGGCTGGTCTCAAACTCCTGACCTCAAGATATCTGCCAGCCTCAGCCTCCCAAAGTGCTGRGATTACAGGCATAAGCCACTGCACCCAGCC
AATATTAATTTTTAAATTGACAAATACAAATTGTACATATTTACAGTGTACAACATGAAGTTTTGATACACATATGCATTGTGGAATGACTAAATCAAGC
TAATGAACATATTCATTGTCTCACATGCTTATCTTTTTTTATGGTGAGAACACTTAAAATTTATTCTCTTCATGATTTTCAATTATTAAAATGCATTGTT
GTTAACCGTAACCAGCATGTTGTACAATAGGTCTCTTGAAATAGGCCTTTATTGTTGTTAACTTCCTTCCTTTAATTATGTTTTGCTCATAAGACTTTTT
CACAGGTAAATKATGAGTTCACCCATTGAGTTGAAACCCTTGTCAGGGAAGGTCAGGAGTGCATATATCACGTTTTGGACCTCTCCCATGACACCAGTGA
ATTACAGGTGTGCAGTTTGCAGGCCCTCACTATGTCCTGCTTTACACAGAGGTTTTCATCCTGACTTTATTCTGCTTCACCCATGGGTTTGCTGAGCTCT
CTTTACCTAGGTTGTTGAGGACTAGATAAATCATTGTTGATTTGACTATCAAATGGCCGTGGAGAGACAAACCTTGGCTTATAAGAATGTATATGTTTGC
AAGAACTTTTCTTAGGGAGGGGCAGAGGCTGAGAAGAATTCAAGTTTGTTGGGCAGTGTGTGGAGAGAGGAGTGCTATGRAGCTGTCAGAGCACAATATT
TACAAGCATCAGATGTTCCTGAACATTCTGGAGCTGTACTCTATACAAGTTCTGACAGTAGGATAAGGCTTCTTTGTTTCTCTTTTCAATTTCTTTTTGG
TTATCATTTACCATATAAYCACTTTAGAATAATTTGACACATATAAGGGAAATCTGTTTCTCTATTACCCCTTGCTCTATATCAAGTAGGATTGTGAGTG
TACAAAGTAGTTAAGGGAATTGGAATGGAGGGAGGGGAACAGCTTTCAGTATCTTAGGTGAAGGCTCAGCTTTGGGTCAGGGTCAGGGCCGGGAGTCAGG
GGTGTCCCTGTTTGGCCTCCTTACTTCTGTCTCTGCCTTTTCTGCAGAACCCAGGGAAACTGGGCTGTTTTGGACTATAATTATCCAGTGTTTGTGTTGG
GCAGGTCCCTTCCCATGGCATGGAGAAAAAACCCCTCATATCTGGGCTAAATCTGCAGATGCTGGAACATTTTTCTTCCCCTTATCAGAACCTAGCCTCC
ATTAACAGGGTCAGTGTCACTCTCTGAATCACTGAATCAAATCTGCAATGATGGCTGATATTGTCTTTTATGGATGGGCTGGTTGAAGAGGCCAGTGTGG
CACCAACAGCTCTTTCCACACTCCTTGCCCAAGAGGAAGTTGTCTTCTTTGGGTTCACACTACAGGGCAGACCCAGCCACKGGCCTCAGGGCATCCTTAA
AGCTTTTCCTAGGTAGTTCCTCCCAGCTCAGGCTCTGGATGATCCTGAGGATGTCCTCCTCACTCCCTATCTTCTGCCCCAGGCGACSGGGTACCATGTC
CTGTGGTTTCCCTGCTTCCTGGGGAATGTGCTCTGTATGGGAAAAACAGAAAATAAGACCATTTGCTGAGCATCTAAGMAAATGTTTGAGAAAGCCCTCC
TGCATTTTTGTGTTTCTTCATTTTTTTTGTGATTTGTGAAAACAAAAACAATTTTAAGGAGAATAAAAAATTAGAATAAATAAATAAAAAAGCCATTCTT
TAAGTTACAATTATGAGAAAATTACCTCTATTTTTGAAGGATTCTTTCCRCTTTTCCCTAAAATATATAGTTTTCCATACTGTTGCAATCAAAGTATGTG
TACATTTTTGAATATTCTTTTTTCTTCAATTCGCACTATATTGTACTTATAACTAGATTTGGAGTTGGGATTCCCAAGCTCTGAGGCAAGCAGGGAGGGA
GCYGTTGGAGGCCCCTTGATGTTTGCGCCTTTGGAGTAGSATGATTGTGAAAGCAGTAGAAGGACTTCAGAACCAGGAAGGTCATCTCCTCCTGTACCTC
TCCCTTACCCCAGGCTCTGGTAACCACCATTCTACTTATTTCTATGAGTTTGGCTTTTAAGAGTATATGACCGAGATCATGCAGTATTTCTCTTTGTGTG
CCTGGTTTATTTCACTTAGCATAATGTCCTCCTGGCTCATCCATGTTGTTGCAAATGACAACATTTCTTCTTTTTAAGGATGGATAATAGTATTCCACTC
TGTGTGTGTTTGTGTGTGTGTGTGTGTGTGTGTGTATGTATGTGTTCTTTATCCATTCATCCAGTGATGGACACCTAGGTTGATTCCATATCTTAGTTAT
TACGAATAAACATGGGAGTGCAGATATCTCTTTGACATACTGATTTCAGTTCCTTTAAATATATATCCAGTAGTGGGATTGCTTGATCATATGGCAATTG
TATTTTTAATTTTTGGGTAAAGCTCCATACTTTTTTCATAATTTACATTGCCACCAACTATACTAATTTACATTGCCATCAACAGTGTACAAGTGTTCTC
TTCTCTACATCTTCACTATCAGTTATCTTTTATTTTTTGATAATTGCCATTCTAATAGGTGATATCTCATTGTTGTTTAATTTGCATTTCCATGGTGATC
AGTGATGTTGAGCATTTTTTCATATACCTATTGGCTATTTGTATTTTTTGAGAGAGGTCTATTAGGTTCTTTGCCCATTTTAAAATTGGGTTATTTGCTT
TCTTGCTATTGARTTGACTTCTTTATTTGTTTTGAATATTAAMYCCTTATTAGATGTGTGATTTGCAAATATTTTCTCCCATTCTATTGRTTGTTTCTTC
ACTCTGTTGATTGTTTCCTTGGTTGTGCAGAAGACTTTTAGTTAGATGCAATCCTATTTGTCTATTTTTGCTTTGTTGCCTGTGTTTTTGGGATAATATC
CAACAATTCATTGCCCAGAGCAATGTCATGGAGTTTTCACCTATGTTTTCTTCTAGTAGTTTTAGAATTTCAGGTTTTATATTTAAGTCTTTAGTCCATT
TTGAGTTGATTTTTGTATATGGTGTGAGACAAGGGTCTAATTTCATTCTTTTGCATGTGAACATCCAGTTTTCCCAACAYCATCTATTGAATAGACTGTC
CTTGCCCTATTGTGTGTCCTTGGCAGCCTTGTCAAAAATCAATTTGGRCATCTATTTTGTGTGGAGAGAAGTGGCGCAGGGAAAGGATACATGTTAGCTC
ATGGCCATGGATATTGGTTAGTGGCTATCACTCACAACAGCTGGGGAATGGGTRCATCACCTGCTTAAGAGGTCCTGGGAAGGGCATCAACAATGTCTAC
TAAAATCCATTCCTTGCACTGTTCAGATTCACTTGTTTCTGGCCTTCAGGTGGGTAGTTTTTATTTTCTCATCCACATTGGTGTTACCTCCTCAACCCCC
TCCTTTACTCACTCTAATAGATGACATTTACMTACATAATTAGGTCCACTGTTGACAATATACCTTTGCTCAGAATGATCTAATTATCAGCAGAACAAAG
GTGAGCTTGTTTATGGARAGTCCCAACTACATCTCTGGGTAAGGACCAGTGCACCTGGTCCAGTTTATACACCACTCCAGCTTCCCTGGATTCCACTTGC
ATTGACTGCTTGCTTTGCTTTTAGGTTGGAGTGGCTCTGGTGACAACTCACTCTGTTCTCATGGTCACAAATCCCTGCTCACTGCTGCCACTGCTGCTGC
CACCACAGACCAAGAGCTCCACTTGCACAGTGCTGCTGGCTAAGAAGAAGTTGCTGTACCTGAGCACTGGACCACATGGACTCACAGAGACTCCCAACCA
RGTAAAGGGGTGATATGGCTTGTGGATGTCAACCATATTCTCTTCTTGATCACCTCGCTGCTGGAAYAATGGGCCATGGTCAGAGTAGAGTGGTCATGGA
GGTTGAATAGATGCCATGAATGGGTCCAAGAACATGGACACTCTCTTTCACCAAAATCAATTCGGGTCTTGCCACTGTTAATCACCTAACTTGCYAACAG
CAGAGACTAYCGCTGAGTCTTTGAGATGGCACTGCTCTTGGAGAGATCAGGCAGCCATCCAGTGAGAGGTTGACCCCTCTGCTTTGGAGGGGATGGACAT
TCATCCTTATCACCATTGATACTTGCTCTAGACATGAGTTTTCCTTCTCTGCCTGAAATTCCTCTGCCACTACCACCATATGAGGGCTTACAGATTTCCC
AATCCATCAACCTGCTTCTCACACACATTAGCTCAGAGTAAAGGACTCATTTTATGGCAAAGAATGTAAAATGATGGGCTCATTGGTCTTATTATATACC
ATGCCACCCAGAAGCAGTCAACCTAGTGGAATGATGAGCTGGCCTGTTGAAAGCTCAGCTAAGGTGCCAGCTCAGAGATGACACCCTGTAGGGTTGGAAG
TTGGAGCACTGCTTTCCAGGATGTGATACATATGCTGAATCAATACCAATCTATGGTTCAGTGTCCCCACATAACTAGAATATATGAGTCCAGGAACCAA
GGGATAGAAGTAGAATTGATCCCTTTAGTTATCACTCCCAGGGACTTACTTGTGGAATTTGTATCTTACTGTTCCTGCAAACTTAAATTCTGCCAGTTTA
GAGGTCTAAGTTTCCAGGAAGTAAATGCTTTCTCCAGTGGAGGTGGGAAAGGCTCCAGTGAACTGGAAGTTGTGACTATCACTCAGCTGTTTGGGGCTCC
TCATAACAGTGGACCAGCAGGCAAAGGAAAGAGTTGCCTTATGGCTAGAATAATTGGCCTTGATTACCATGAGAAGCTAGGGTTGCTGCAATGCAATGGG
AGAAGATAAGAGTATGACTGCAACCCACGGGATTTGCTGGAAGTATCCCCCATACTTTTGTGCTCACTGATGATTGTAAATGGGCAGTTACAACAACCCA
AACCTAACAAATGCAAAGCAACTAACAACTCAGTCCCCTCGGGGTAGAGGTCTGGGTCACTCCATCAGACTACAGCACAGACTTACTGAACTGCTAGATG
GTTGTTGGGGGGCACCTAGAGTGGGTGGTGGAAGTGAGATGCAAAATATCAATTAGGACTCTGGGATCAGCTGTGGCAGTGGAGATTTTCAGGAGATTGC
AATTGGCCATTGACACCAATTGCCAGGAAAGACTGCTCACTAACCTGAGGGAACCTGTAGGGCTTAGCTTCTCTGGTAGCTTCCTGAATGGGCTGAGTGA
CGCGACCTGGAAATGGAAGGATGCTTTGTTCCCATGCAGAAAACCCTGAGCAATGGAATTCTGAAGATGGTTATATGTGCTTATCCACTGGTGGAGCCAT
GAGTGGTGCTGCGTCCTCAATAGTTAGAATACATGGATGGGGCTTGGAGCCAGCATAAAGACAAAATCAGAATAGCTATTAATCCCATCCTGTAGAGATA
ACCCCCATAATTATTTTGATGTAATTACTTCCAATTTTTTCCTGTGCATATATAAAATATATAGCTACAAAAGTGAGATTCTACTATAGGAAGATTTTCA
TATTGCTTTGTAAAAGCATTACATTATATTGAATATATTGAATTTTCTTGAATTTTTCCATACTAAATGTTTTTAACACAAATTTTCATGAATTCAGAAT
ATTCAATCATACAAGTTTATCATAGAAGCTTTTCTCCATGTCTGGGATTCCAGATTTTTGTTATTGAAAATGCTGAGATTCAAACTATCATAAGGACAAA
AAACCAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACACCAGGGCCTGTTGTGGGG
TTGGGGGGGGGGAGGGATACCATTAGGAGATATACCTAATGTTAAATGAAGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACGTATGTAACA
AACCTGCACGTTGTGCACATGTACCCTAATACTTAAAGTATGATAAAAAAAAAAGATAACCAAGAAAAGAATGTTGAATTTATAGACAGCAATTGTCCTT
TTTGTAGAAAAATATTGAGCTCCTGTATTTCAGGTTAAAATGCATGTCAATTTTTCAGATGAAGTAACTGAACATATCAAGTAGTATCTTTAAGTCATAT
AGCTGGTAGAAGACTTGAAACTAGAAACCAGAGCTGAAATGAAGTCAAAAATTCTCACTTTGGTATGGTTTCATGTTTCTGAAAAAAAAAATCAAGTCAT
ACAGTGCATTAAAAAATTTTTCTGATATCTAAGACTATGATAGAAATTTCATATGTATATATGTGTGTGTGTATAATAAATCACTTTTTTAATACCTTTG
ATATATTAAATGCAAAGCAGAAATTATTTGGAAGATGAAATATATAGGAATAAATTATAAAAAGTAAAAAACATAAATAAAAATGCTGAGATTAAAATTT
TTATGCATGAATCTTTTTGTGTGTCTTTGATTCTTTCTTAAAGATAAACTCCCAGCAATAGTTCACTTGGCCAAAGGTGTTCAGCACACCCTCAGAAATG
ATGGGTGTTGCCAGCCTCAGGCTCTGGCTGTCCTGTCCCTTTCCTGCCCTGTTTTCTCTCCTCCAGTCAGTCTCCCATGACAAGGGTTTGTGTTGAGCAA
GCTCTAGGTTTTGGTCTTCCTGCTGGTTTGGGTGAAGCCATTTGTGGATGGGTGTTGCTCATGCAGACCTTGTAGTGCTGTCTCTCCTCTAATCTGCTCT
CAGTATCTGTTTGGTAACAATGAGTGAGTGGGAGGCAGTCTTCTCTGCATATCAGATGAAAGCTTCACAGAGGGAAGATCTTTTCTTATCGATGTGGGCT
ATGAGGAGGGCCCTGTGTGGCATCAGCTGCCTTCTTTATATCATGTATCTAAACCATGGTCTTCAACGAAAGAGAGCCAGTGGTCTTCAACGAAAGACAG
TGATCTTTCTTTCCTCCTCCCTCCCTCGCCTGGGGACATTTAGCAATGCCTGGAGACATTTTGGTTGTCACAACTTTGCGGTGGAGAAGGGGGTGTTGCT
TCTGGCATCTAGTAGGAAGAGGCCAGGGATGCTGTAAACATCTTATATCTTGCTTATAATTCAAAATGTTCTTAGTGCTTCTGAATATTACTAAAGATAA
ATCAGAATTGGTATAGGGTTGATGATTAAGGCAAAGAAGGATTTGGTGTCTTTTCTTAAGCTGGAAATATGGATCCTGCCTTTCCAGGGAAAATCTCTTC
TTTTTCCTCATTTTTTTTTCTTCATTAATTCCTCTCTATTTCTCTCTCTCTCTCTCTCTCTCCCTCCCCCCCCATACACACACACACACACACACACACA
CACACACACACACACCCCTTCCAAATCCTTGGGTGCTTGGGCTGGGAATCAGGTCACTATGTGCAGGGAGAAGAGAGCAGCAGAGAGGGGACACACACTC
ACGACTAGAAGCTGTGTCTTCACTGAGGTTTATTGAGAGTTCTGTGACCTGTAGGATACTTCTGGAGGCTTAGGGTTGTGGCTGAGGGACCAAGGGTAGA
CCAGAATGAGTGGCACACACTTTGCTGCTCAGGTCCAGTTCCAGCTTCCCTTTCAGGCTGGCTCAGGATCCAGGATTAATTTGCCTGCAGGATCTGGTTG
ATCCAGGGCCGGTAATGGGAGATTCGGGTGAAGACAGCAGGGGGCTTTGCATCCGACCGTCCATAGGATACGATGCCCTGGGCCACCCCAGCACACAGAA
GAGGGCCCCCAGAGTCTCCCTGTAGGGGGAGGAGAGAGAGAAGAAGGTGAGCCCGGGAAGTCCTCCACTCCTGTCTGCCAGCCAGCTTGGAGTCACAGTG
AGACCTAAAGTCAGACCCAGGAGGTGGAGCTCCTCACTTATACATCTAGTTCTGATGCCCCTTCTTCCTTTCTTGGGACCGTCATCCACATTCTCCACAT
CACCCCATGCCCCCAGTGCAGTAGACTGGAATGGATGGTCAGAGGCTGTCTTGGACCACGGGAGGACAGCAATTCCTGTGATGCTCACCCTGTCACTGAC
TGACAACCTTCTGACCCCATCTCCTTCTAAGAGCATTCTGGTCCCTGAACAGTGAGTTTTGGAGAGGAAACCTAGTTGGAGGATCACCTTAAATGCAGAT
TTTGTCTTCCTGGGATTGCCCACACACAGCTGAAGATTGTGGTCAAAGTCTCTGAAGTGGCTGCAGGCCTGGGGATCCATGAGTCTCAGCTTCACCTCTT
GCAGAGTGTCTGAGCCCGGCTTCAACACACCTGTTCTTCCCCAGCCAGCCACCCGGCACATTCTCCCAGGTGGGACAAAGTTGAATTGTGATGGGAAGGG
GAGTGTCCCCACAGCCAGGGTCAGGCTGGCTTTCTCCTTCAACTGTGAAGGGAATGAAGGACTGTCAGTCCTCGAAATGGGCTCTGGACAGTTGGAGGTG
ATCAGGGAGGGACAGGGTGAGTAGCTTCATGTTATAGCCAAGTCCTAAGAAAAATTCAGGGCAATGAGGACCTGAAGGAGAAGCTTAGGAGAATGGGAAG
TGGAAAGGGAGAAGAGAGGTGTTGTCACCTTTAGTAACATGATATCGTGGTGAAGAGTAGAAGTGTTATATTTTGGATGACGGAATTGCTTTATAACCTC
AAGCTTCTGCCATGTGTCTTCTTCCTCTGTTATGTTATGGGCTCCAAGGGTGACTGTTATAGACCTGTTGTGAGGAAGAAGGAAGGAAAAGGAGCGACAG
TGATGGCTTGGGGTTTCTTCTGAGGTGAGCTCATTCTGAGAAAAGAGGACTAAACTCTGTCACTGGGTCGCCGGACTCTACCCATCTCCCTTTTCATGGG
CCACTTGTGGCATTTGAGGGCTCAGGCTTAACTCATGAAAGAGCTTTCTCAGGAAACAGACACAATTTCTACGACCCCTGGAATTGCTGGGGACTGAACA
GGCCAGGGAGGACTCAGGGGACAGGGTTCACACTTCCTAATTCAGGGAACCCTGCATGAGGGCCAGCCCCTGAAGCAGGAGATATCAGTTAAACGGGAAA
GTGGGGGTCTCATGTAGACCCTGTTCTCTGCCTCCCATAAAATGATGGGTTCAGGACCCTGAGAACTAGAGGCCAGTGTTCTTGAAAAGGCCATAGAGGA
AGTGGCCCTGAGACTGGGTGGGGCCCTGAAAAGTGAGCCGTGTGTCTTGAGTTGGGTAGGGGTGAGGGGTGCTACTGCAACAAGAGGGACCTTGGACAGG
ACCTCCTTTTCCTCCGAAGGGGAGCTTAGCTCACAGTGACTGAGGCTCAAGGAACTATTCAAACACAGACTAAAGTCTTTCAGCCCAAGTCTTCCCTCTC
CTGAAAGTTGACAAGACCCAGGACCCCCTCTTCAGTCCCCAGTGCAGGTGTATTCCTGGATGCTACTCTGGTTGTTCATCTCCCATTTGGAGATAAATAG
ACCCTGTTGTCTCACCTTCCTGCACAATGAGCAGCCGTCAGCACAAAGTTCCGTCTTATAAGGAAACCACCACAAAATTTTGAGGGACCGTTGGAAGTTA
CAATTTCCAGGTAGGCCATGTAGGGGCGGGAATGTGGCTTGCATTCTGTGCCCCCGATGATCTCCCCTGGAACAGAGCACCCCAGGGTTTGAACACGGCC
ATAGATACTCTCTCCAATGAATGGACAAATTGGGTTAAAGCTGAGCTAGGCTTCCCTGGAATCTCATTCTCACCCTGTGTTCCGCCCATCTTCCCTCTCC
TGTCTCCTGTATTTCGTATCTTTCCCCACCCATAACCTCCCAGGTGAAATCTCATTCTTGCCTCTGCTCCATTCTGATGTTTTCATCTCAGACTTCTCCC
ACTCCCACCTTGCCCTGGCCCACCCTCCTCTGTCTCTGTGTAGGACCCACTGTCCAGGTTCCTGTTTTAGATTTCTCCATAGCTCTTGAGCATGGTCACA
GAGTGAGAAAGTCACAAAGTAATGGGTAGCCCTGATGCTCAGAAGATTAAGAGGACATGTCTGTTTTCCTGGGGATACCCCTTTTCCTTCCACTTGCTCT
GGGCTTTTCTACAATTGAGGTGAAATTCCTTGTTCCTGGGGGCTGTCCTAGGCTGTAGAGAATGGCAGTGGGTGGGGGTGGGGGTGGGGTGGCACACATC
CCAAGTGGAAATTTCCCTCTGGGACTCTTGAAGAGAGATCTTGGAACCCTGTTTAGGAGTCAGCTATTTTCAGACTAAACATCTTTGTTTCAGGAGCTGA
TACTGCAGATTTCAGAGGGAAGAACCCTGATACTCACCAGCTTCAGCTCTGGAGCACAAGA


SNP Information

Context             (SEQ ID NO:61469):
CTGTGCTCTGGCTGGCAGTTGGGGTTGGCCAGTGGAAGCACTGGCAGGAGATGGAGGGAGGAAGAGAGAGAGGTGGTGGAATTTGTTCACAGAATCTCTT
S
CTGCCAGACCACCAGTTGGCTGTGGGTCCTTCCTCTATTGCAGCCCACAGCTCCTGCCCTATAGCTGCAACTGGCACCATAGAGGTAGAACTTCCACTCT
Celera SNP ID:            hCV2796328
SNP Position Genomic:     38655
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,7)   total(G,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61470):
CTTGCTCTGGGGCCTACTTTTGAGGGCGGCTTCAAAAGCCACTCTGTGCTCTGGCTGGCAGTTGGGGTTGGCCAGTGGAAGCACTGGCAGGAGATGGAGG
S
AGGAAGAGAGAGAGGTGGTGGAATTTGTTCACAGAATCTCTTGCTGCCAGACCACCAGTTGGCTGTGGGTCCTTCCTCTATTGCAGCCCACAGCTCCTGC
Celera SNP ID:            hCV2796329
SNP Position Genomic:     38612
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,6)   total(G,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61471):
CTGAACATTCTGGAGCTGTACTCTATACAAGTTCTGACAGTAGGATAAGGCTTCTTTGTTTCTCTTTTCAATTTCTTTTTGGTTATCATTTACCATATAA
Y
CACTTTAGAATAATTTGACACATATAAGGGAAATCTGTTTCTCTATTACCCCTTGCTCTATATCAAGTAGGATTGTGAGTGTACAAAGTAGTTAAGGGAA
Celera SNP ID:            hCV11431428
SNP Position Genomic:     61919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61472):
AGGGCATCCTTAAAGCTTTTCCTAGGTAGTTCCTCCCAGCTCAGGCTCTGGATGATCCTGAGGATGTCCTCCTCACTCCCTATCTTCTGCCCCAGGCGAC
S
GGGTACCATGTCCTGTGGTTTCCCTGCTTCCTGGGGAATGTGCTCTGTATGGGAAAAACAGAAAATAAGACCATTTGCTGAGCATCTAAGAAAATGTTTG
Celera SNP ID:            hCV11431429
SNP Position Genomic:     62588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61473):
ATAAAATACTGGCAAACCGAATCCAGCAACACATCAAAAAGCTGATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAACATACA
S
AAATCAGTAAACATAATCCATCATATAAACAGAACCAATGATAAAAACCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAAC
Celera SNP ID:            hCV27127130
SNP Position Genomic:     58420
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61474):
GATGAACATTGATGCAAAAATCCTCAATAAAATACTGGCAAACCGAATCCAGCAACACATCAAAAAGCTGATCCACCATGATCAAGTGGGCTTCATCCCT
R
GGATGCAAGGCTGGTTCAACATACAGAAATCAGTAAACATAATCCATCATATAAACAGAACCAATGATAAAAACCACATGATTATCTCAATAGATGCAGA
Celera SNP ID:            hCV27127131
SNP Position Genomic:     58394
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61475):
GAAGAGACACAACAAAAAAAGAGAATTTTAGACCAATATCCCTGATGAACATTGATGCAAAAATCCTCAATAAAATACTGGCAAACCGAATCCAGCAACA
Y
ATCAAAAAGCTGATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAACATACAGAAATCAGTAAACATAATCCATCATATAAACA
Celera SNP ID:            hCV27127132
SNP Position Genomic:     58351
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61476):
GGCAGAAATAAAGGTGTTCAATGAGAACAAAGACACAACATACCAGAATCTCTGGGACACATTTAAAGCAGTGTGTAGAGGGAAATTGATAGCACTAAAT
K
CCCACAAGAGAAAGCAGGAAAGATCTAAAATTGACACCCTAACATCACAATGAAAAGAACTAGAGAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAG
Celera SNP ID:            hCV27127133
SNP Position Genomic:     57602
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61477):
GCAATTAAACTAGAACTCAGGATTAAGAAACTCACTCAAAACCACTCAAGTACATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGTTACATAACG
M
AATGCAGGCAGAAATAAAGGTGTTCAATGAGAACAAAGACACAACATACCAGAATCTCTGGGACACATTTAAAGCAGTGTGTAGAGGGAAATTGATAGCA
Celera SNP ID:            hCV27127134
SNP Position Genomic:     57495
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61478):
AGCAAATGTAAAAGAACAGAAATTATAACAAACTGTCTCTCAGACCACAGTGCAATTAAACTAGAACTCAGGATTAAGAAACTCACTCAAAACCACTCAA
S
TACATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGTTACATAACGCAATGCAGGCAGAAATAAAGGTGTTCAATGAGAACAAAGACACAACATAC
Celera SNP ID:            hCV27127135
SNP Position Genomic:     57444
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61479):
TTTAACACCCCACTGTCAACATTAGACAGATCAACGAGACAGAAAGTTAACAAGGATATCCAGGAATTGAACTCAGCTCTGCACCAAGCGGACCTAATAG
R
CATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTCTTCTAAGCACCACATCACACTTATTCCAAAATTGACCACATAGTTGGAAGTAAAGCA
Celera SNP ID:            hCV27127136
SNP Position Genomic:     57237
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61480):
AGGGGTTGCAATCCTAGTCTCTGGTGAAACAGGCTTTAAACCAACAAAGATCAGAAGAGACAAAGAAGGCCATTACCTAATGGTAAAGGGATCAATTCAA
Y
AAGAAGAGCTAACTATCCTAAATATATATGCACCCAACATGGGAGCACCCAGATTCATAAAGCAAGTCCTTAGAGACCTACAAAGAGACTTAGACTCCCC
Celera SNP ID:            hCV27127137
SNP Position Genomic:     57017
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61481):
CAAGCAAATGGAAAACAAAAACAACAGGGGTTGCAATCCTAGTCTCTGGTGAAACAGGCTTTAAACCAACAAAGATCAGAAGAGACAAAGAAGGCCATTA
Y
CTAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAACTATCCTAAATATATATGCACCCAACATGGGAGCACCCAGATTCATAAAGCAAGTCCTTAGAG
Celera SNP ID:            hCV27127138
SNP Position Genomic:     56992
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61482):
GCATAGCTGAACAAAAGGCAGCAGACACTTCTGCAGACTTAAACGTCCTTGTCTGACAGCTTTGAAGAGAGTAGTCCTTCTCCCAGCACGGAGTTTGAGA
Y
CTGAGAATGGACAGACTGCCTCCTCAAGTGGGTCCCTGACCCCGAGTAGCCTAACTGGGAGGCACCTCCCAGTTGGGGCCGACTGACACCTGATATGGCT
Celera SNP ID:            hCV27127139
SNP Position Genomic:     55254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61483):
TCCACCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGCAGCTGGGATTACAGGCATGCAACACCGTGGCCAGCTAATTTTTGTATTTTTCGT
R
GAGACGGGGTTTCACTGTGTTGACCAGGCTGGTCTCGAACTCCTGACCTCAGATGATCCACTTGCCTTGGCCTCCCAAAGTGCTGGGGTTATAGGCGTGA
Celera SNP ID:            hCV347195
SNP Position Genomic:     53665
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61484):
CTTGATTAGACAGAGAAGGAGATGATGGAGAAGAAAGAAAGATGACAGGAGAGGATAAGGGGGTGGCCATGACAACAGAGGAAGAGAGAGGACTCAGAGG
K
TGTCCCCAAGGCTTAGACTCTAAATAATTAAGAGACAGCCCTGGGCTCAGTATCCAGGTTAGATCTGTGTAGGATCCCTGGGGCACTGAAGTTGAGGATG
Celera SNP ID:            hCV28022869
SNP Position Genomic:     23798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61485):
GCCTCACCTTGCTCTGGGGCCTACTTTTGAGGGCGGCTTCAAAAGCCACTCTGTGCTCTGGCTGGCAGTTGGGGTTGGCCAGTGGAAGCACTGGCAGGAG
R
TGGAGGGAGGAAGAGAGAGAGGTGGTGGAATTTGTTCACAGAATCTCTTGCTGCCAGACCACCAGTTGGCTGTGGGTCCTTCCTCTATTGCAGCCCACAG
Celera SNP ID:            hCV2796330
SNP Position Genomic:     38605
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61486):
GACAGCAGCCTTCTGAGAAAACCCATTAAATGGGCTGGAACAGTATTCCCAAGAGTGTTATATGCTATGTGCAAAATCCAAAGAGGGCTGCCGGGCACTG
Y
GCCTCTTTGTAGTCCATGTCGTCAATATAGCGGATCCATCTGATGATCTGTGGAATGTCCACATGCAAAGGTCTCTTTGGACTGTGTTGAGAGAGAACCG
Celera SNP ID:            hCV2796331
SNP Position Genomic:     35306
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61487):
TCATACAGCAGGATGAATGTGCCGCAGGACTCTCTTGTTTTGGGAGATCCTCTAAAAAGCTGACAGCAGCCTTCTGAGAAAACCCATTAAATGGGCTGGA
R
CAGTATTCCCAAGAGTGTTATATGCTATGTGCAAAATCCAAAGAGGGCTGCCGGGCACTGCGCCTCTTTGTAGTCCATGTCGTCAATATAGCGGATCCAT
Celera SNP ID:            hCV2796332
SNP Position Genomic:     35245
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61488):
CCAGGCGACCGGGTACCATGTCCTGTGGTTTCCCTGCTTCCTGGGGAATGTGCTCTGTATGGGAAAAACAGAAAATAAGACCATTTGCTGAGCATCTAAG
M
AAATGTTTGAGAAAGCCCTCCTGCATTTTTGTGTTTCTTCATTTTTTTTGTGATTTGTGAAAACAAAAACAATTTTAAGGAGAATAAAAAATTAGAATAA
Celera SNP ID:            hCV11431430
SNP Position Genomic:     62679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61489):
AGCACCCATGGAATCTGCTGGGTCATATGATTACGGGCCAGGGCTGCTCATACAGCAGGATGAATGTGCCGCAGGACTCTCTTGTTTTGGGAGATCCTCT
R
AAAAGCTGACAGCAGCCTTCTGAGAAAACCCATTAAATGGGCTGGAACAGTATTCCCAAGAGTGTTATATGCTATGTGCAAAATCCAAAGAGGGCTGCCG
Celera SNP ID:            hCV2796333
SNP Position Genomic:     35198
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61490):
AGAGGTGCCCACCCTTATCTGTCATGGCTACCTTTAGCACCCATGGAATCTGCTGGGTCATATGATTACGGGCCAGGGCTGCTCATACAGCAGGATGAAT
R
TGCCGCAGGACTCTCTTGTTTTGGGAGATCCTCTAAAAAGCTGACAGCAGCCTTCTGAGAAAACCCATTAAATGGGCTGGAACAGTATTCCCAAGAGTGT
Celera SNP ID:            hCV2796334
SNP Position Genomic:     35163
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61491):
CAGAGGTGCCCACCCTTATCTGTCATGGCTACCTTTAGCACCCATGGAATCTGCTGGGTCATATGATTACGGGCCAGGGCTGCTCATACAGCAGGATGAA
Y
GTGCCGCAGGACTCTCTTGTTTTGGGAGATCCTCTAAAAAGCTGACAGCAGCCTTCTGAGAAAACCCATTAAATGGGCTGGAACAGTATTCCCAAGAGTG
Celera SNP ID:            hCV2796335
SNP Position Genomic:     35162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61492):
ATATGATTCAGCTCATGATGGACAGCTGTGATCACACAGTCACCCTTATGTCCCATGGTCAGATACTCAGTGTCTGCTAGGGCCCAGTAGCACCCTGGGA
R
CTACTTTTCATATGGTAAATAGTTCTCTGCTACATATGGCATAACCTTACTATGGAACCCTAGAGGTCTGTGCTATAATTCACTTATGAGGGCTTGTCAG
Celera SNP ID:            hCV2796336
SNP Position Genomic:     34955
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61493):
GAGTGCTTGCCTTATACTATGACTTGGTGGTTCTGATATGATTCAGCTCATGATGGACAGCTGTGATCACACAGTCACCCTTATGTCCCATGGTCAGATA
Y
TCAGTGTCTGCTAGGGCCCAGTAGCACCCTGGGAGCTACTTTTCATATGGTAAATAGTTCTCTGCTACATATGGCATAACCTTACTATGGAACCCTAGAG
Celera SNP ID:            hCV2796337
SNP Position Genomic:     34920
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61494):
TATCTCTAAGGTTACCGTGCCATTGTTAAGGCAGGATTTCTGCAATTGTGTGTTATAGTTATCACTGGGTAGAAGCATCAAGAAGTGTCTTGTACTGCTT
Y
CTGGGCCACAATTACATTGTTTTGTGGCAACAACTTGATCTCTTCATGATAACCAGGGTCATTTAGTAACTTCACTGTTGCCTAGAGATCTACTGTCAAA
Celera SNP ID:            hCV2796338
SNP Position Genomic:     34543
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61495):
TATTTAAGTCTTTAGTCCATTTTGAGTTGATTTTTGTATATGGTGTGAGACAAGGGTCTAATTTCATTCTTTTGCATGTGAACATCCAGTTTTCCCAACA
Y
CATCTATTGAATAGACTGTCCTTGCCCTATTGTGTGTCCTTGGCAGCCTTGTCAAAAATCAATTTGGGCATCTATTTTGTGTGGAGAGAAGTGGCGCAGG
Celera SNP ID:            hCV11431437
SNP Position Genomic:     64180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61496):
CTTTTGCATGTGAACATCCAGTTTTCCCAACATCATCTATTGAATAGACTGTCCTTGCCCTATTGTGTGTCCTTGGCAGCCTTGTCAAAAATCAATTTGG
R
CATCTATTTTGTGTGGAGAGAAGTGGCGCAGGGAAAGGATACATGTTAGCTCATGGCCATGGATATTGGTTAGTGGCTATCACTCACAACAGCTGGGGAA
Celera SNP ID:            hCV11431438
SNP Position Genomic:     64248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61497):
ATTTTGTGTGGAGAGAAGTGGCGCAGGGAAAGGATACATGTTAGCTCATGGCCATGGATATTGGTTAGTGGCTATCACTCACAACAGCTGGGGAATGGGT
R
CATCACCTGCTTAAGAGGTCCTGGGAAGGGCATCAACAATGTCTACTAAAATCCATTCCTTGCACTGTTCAGATTCACTTGTTTCTGGCCTTCAGGTGGG
Celera SNP ID:            hCV11431439
SNP Position Genomic:     64354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61498):
AATCCCTCTTACCCTTGATATTTTTCTCTTACTAATTTTTCATCCACTGACCCCCACCGTATTCGTTGGCTATAAATTCCCACTTGCCCATGTTGTTTCA
K
ATTTGACCCCAATCTCTCCCGCTGCAAGACCACATTGTAGTGGTACCTGTACCTATTGTGATGGAAAGTCTTCCTTACCTTACTCTATCAAGTGTCACTG
Celera SNP ID:            hCV11431369
SNP Position Genomic:     9805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61499):
CCCTAGTTTCCTATTGACTATCTATCTTTTCTTCATTTACTCCTTATTTTGTCATGTCTAGCTCCCAGCAGTTTTCTGAGAAAGGGTACTTGGAAAGCCA
W
TTTTTTTTAGACTTTCAACGATGGAAATAGATTTATTCATTCCTCACAGTTGATTGATACACTGTCTGCTTAAGCTTTTTGAGGGTCAAATTATGTTCTC
Celera SNP ID:            hCV27127140
SNP Position Genomic:     47573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,4)      total(A,2|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61500):
TGCTCTTGACATCCTAGAATAAAAAGGGAAGGCCAAGGTCACCTTTAGGGCATTCTTTGAATGTGGCTGGCCTGGGGCTGGAATGGGAGAATATAGTGCG
G
TCCTGGCTCTGAAAAACCACAGTTACTCTGGGTCTGTGCCTTAAAGCTGTGGTTTCATGACGTCAGATTTCCTCTCAACAGCCAGGAGTAATCAAGATAG
Celera SNP ID:            hCV27127141
SNP Position Genomic:     47160
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,5)   total(G,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61501):
GGCTCAACCACGAGGTGAGTTGCTGAGGCTGGGCGAATGCTCTGCTCCCATTTTACCCAGGGAAGCCAGATGGAGACCTGAGAGAAGATAGGAGGAAGAA
Y
CCGGAACCCCACTCTCATGGGAAGTGGACTCGGACCAGAGACTTTCCTCTTTATGTTTTATTTTATTTTGTGTTTTTAGAGACAGGGTCTCACTCCATTA
Celera SNP ID:            hCV27127142
SNP Position Genomic:     45779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61502):
ACCAATTTACTGTATTAGTCCATTCTCACACTGCTAATCAAGACATACCTGAGGCTGGGTAATTTATAAAGGAAAGATGTTTAATTGATTCACAGTTCAG
S
AGGGCTGGGGAGACCTCAGGAAACTTACAATCATGGCAGAAGGGGATACAAACACATCCTTCTTCACATGGTGGCAGGAAAGAGAAGTGCCAAGCAAGAG
Celera SNP ID:            hCV27127143
SNP Position Genomic:     44098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61503):
GTACCCAGTTCCAAGGTCTCTTCCACACTTTTGGGTATTTTTACAGCAGTGCCCCACTACCTGGTACCAATTTACTGTATTAGTCCATTCTCACACTGCT
W
ATCAAGACATACCTGAGGCTGGGTAATTTATAAAGGAAAGATGTTTAATTGATTCACAGTTCAGGAGGGCTGGGGAGACCTCAGGAAACTTACAATCATG
Celera SNP ID:            hCV27127144
SNP Position Genomic:     44033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61504):
GACTTTATTGTCCATATCACTATCAGCATTTTGGTCAAAGTCATTCAACAAGTCTCCAGGAAGTTCCAGACTTTCCCACATTTTCCTGTCTTCTTCTGAG
M
CCTCCAAACTGTTCCAACCTCTGCCTGGTACCCAGTTCCAAGGTCTCTTCCACACTTTTGGGTATTTTTACAGCAGTGCCCCACTACCTGGTACCAATTT
Celera SNP ID:            hCV27127145
SNP Position Genomic:     43905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61505):
AAAGGCCTGAGCTGTACATTGGCCGCTTTTGGCCATAGCTGAGATGCAGGGCACCAAGTACCAAGACTGCACAAAGCAGCAAGGCCCTGGGCCCAGCATA
Y
GCAGCCATTTTTTTCTCCTCAGCCTCCATGTCTGTGATGGGAAGGACTACTGTAAAGATCTCTGACATGCCCTGGAGACATTTTCCCCATTGTCTTGGGA
Celera SNP ID:            hCV27127146
SNP Position Genomic:     43302
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61506):
ACCCTCTGAAGCAAAGGCCTGAGCTGTACATTGGCCGCTTTTGGCCATAGCTGAGATGCAGGGCACCAAGTACCAAGACTGCACAAAGCAGCAAGGCCCT
K
GGCCCAGCATATGCAGCCATTTTTTTCTCCTCAGCCTCCATGTCTGTGATGGGAAGGACTACTGTAAAGATCTCTGACATGCCCTGGAGACATTTTCCCC
Celera SNP ID:            hCV27127147
SNP Position Genomic:     43290
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,3)      total(G,3|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61507):
CTTCTTGATTTCTCTGCACCTGCAGACCCAACACCATGTGTAAGCCACCAAGGCTTGGGGCTTCACCCTCTGAAGCAAAGGCCTGAGCTGTACATTGGCC
R
CTTTTGGCCATAGCTGAGATGCAGGGCACCAAGTACCAAGACTGCACAAAGCAGCAAGGCCCTGGGCCCAGCATATGCAGCCATTTTTTTCTCCTCAGCC
Celera SNP ID:            hCV27127148
SNP Position Genomic:     43226
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61508):
GCAGCAAACTTCTGCTTGAGCATCCAGGCATTTCCATACATCTTTTGAAATCTAGGCAGAGGTTCCCAAGCCTCACTTCTTGATTTCTCTGCACCTGCAG
R
CCCAACACCATGTGTAAGCCACCAAGGCTTGGGGCTTCACCCTCTGAAGCAAAGGCCTGAGCTGTACATTGGCCGCTTTTGGCCATAGCTGAGATGCAGG
Celera SNP ID:            hCV27127149
SNP Position Genomic:     43151
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61509):
CTGCACCCATTAACTCGTCACTTATATTAGGTATTTCTCCTAATGCTATCCCTCCCCCTGCCCCCCACCCCACGACAGGCCCCTGTGTGTGATGTTCCCC
R
CCCTGTGTCCAAGTGTTCTCATTGTTCGATTCCCACCTATGAGTGAGAATATGCAGTGTTTGGTTTTCTGTCCTTGTGATAGTTTGCTCAGAATGATGGT
Celera SNP ID:            hCV2796341
SNP Position Genomic:     33545
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61510):
CCTCTCATCATTTAATCCAAAACATAGACTCACTAAATAATAACCCCAGCCACAAATCATGTAATCTAGAGAGAGATCTATGAGCTCTTTCTCTGTCTCT
Y
TCTGGCCTGGCAGACTGAGAGATCCAGTGCACAGAAGATCCAGTGCACAGAAGGGCAGCCTCATATGGTTTGTATGGGGAATACTTAGTCTTGGGATATT
Celera SNP ID:            hCV2364559
SNP Position Genomic:     39466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   (C,-|T,-)   Caucasian(T,24|C,52)   African-American(C,17|T,65)   Asians(T,38|C,44)   total(C,113|T,127) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61511):
GTTTGTTACATAGATATACATGTGCTACGTTGATTTGCTGCACCCATTAACTCGTCACTTATATTAGGTATTTCTCCTAATGCTATCCCTCCCCCTGCCC
Y
CCACCCCACGACAGGCCCCTGTGTGTGATGTTCCCCGCCCTGTGTCCAAGTGTTCTCATTGTTCGATTCCCACCTATGAGTGAGAATATGCAGTGTTTGG
Celera SNP ID:            hCV2796342
SNP Position Genomic:     33508
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61512):
TACAGTCCATACTTTTTTTCATAATTTTATTTTATTTTTATTATACATTAAGTTCTAGGGTACATGTGCACAATGTGCAGGTTTGTTACATAGATATACA
K
GTGCTACGTTGATTTGCTGCACCCATTAACTCGTCACTTATATTAGGTATTTCTCCTAATGCTATCCCTCCCCCTGCCCCCCACCCCACGACAGGCCCCT
Celera SNP ID:            hCV2796343
SNP Position Genomic:     33428
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,7)   total(G,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61513):
TAGCATCTTAAAAAATATTTTTATAGGGACAAGCTACAGTCCATACTTTTTTTCATAATTTTATTTTATTTTTATTATACATTAAGTTCTAGGGTACATG
Y
GCACAATGTGCAGGTTTGTTACATAGATATACATGTGCTACGTTGATTTGCTGCACCCATTAACTCGTCACTTATATTAGGTATTTCTCCTAATGCTATC
Celera SNP ID:            hCV2796344
SNP Position Genomic:     33394
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,7)   total(C,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61514):
TCCCTCTTACCCTTGATATTTTTCTCTTACTAATTTTTCATCCACTGACCCCCACCGTATTCGTTGGCTATAAATTCCCACTTGCCCATGTTGTTTCAGA
Y
TTGACCCCAATCTCTCCCGCTGCAAGACCACATTGTAGTGGTACCTGTACCTATTGTGATGGAAAGTCTTCCTTACCTTACTCTATCAAGTGTCACTGAA
Celera SNP ID:            hCV11431370
SNP Position Genomic:     9807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61515):
AGAAGGGGGTGGGGAGAGGAGGAGATTTGTTAAAGGATACAAAATTAGAGCTAGATAGCAAGAATGAGTTCTAGGGTTCTATAGCACCATAGGATAACTA
Y
AGTTAACAATAATATATAGTTTCAAATAGCTAGAAGGAGGATATTGACTGTCCTCAACACGAAGAAATGATGTTTTAGATGATGGATATGCTAATTACCC
Celera SNP ID:            hCV2796345
SNP Position Genomic:     33076
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61516):
TTTTTCTCTTACTAATTTTTCATCCACTGACCCCCACCGTATTCGTTGGCTATAAATTCCCACTTGCCCATGTTGTTTCAGATTTGACCCCAATCTCTCC
Y
GCTGCAAGACCACATTGTAGTGGTACCTGTACCTATTGTGATGGAAAGTCTTCCTTACCTTACTCTATCAAGTGTCACTGAATAATTTTCTTTAACAGGT
Celera SNP ID:            hCV11431371
SNP Position Genomic:     9825
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61517):
TACTGTTGGTGGGAATGTGAACTAGTACAGCCACTATGGAGAAAAGTATGGAGGTTCCTCAAGAAACTACAAACAGAACTACCACATGATCTAACAATCC
Y
ACTACTGGGCATTTATCCAAAGGAAAGGAAATCAGTATATTGAAGAAACATGTGCATCCCTAAGTTTATTTCAGCACTATTCACAATAAGCCAAGATATA
Celera SNP ID:            hCV2796346
SNP Position Genomic:     32603
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61518):
TTTTCTCTTACTAATTTTTCATCCACTGACCCCCACCGTATTCGTTGGCTATAAATTCCCACTTGCCCATGTTGTTTCAGATTTGACCCCAATCTCTCCC
R
CTGCAAGACCACATTGTAGTGGTACCTGTACCTATTGTGATGGAAAGTCTTCCTTACCTTACTCTATCAAGTGTCACTGAATAATTTTCTTTAACAGGTA
Celera SNP ID:            hCV11431372
SNP Position Genomic:     9826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61519):
TACTCAACATTGCTAATCACCAGGGAAAGGTAAATCAAAACCACAATGAGGTATCATCTCACTGCAGTTAGAGTGGCTATTACCAAAAAGACAAAAAATA
R
CAAATGCTGGCGAGGATGTGGAGTAAAGGGAACTCTTATATACTGTTGGTGGGAATGTGAACTAGTACAGCCACTATGGAGAAAAGTATGGAGGTTCCTC
Celera SNP ID:            hCV2796347
SNP Position Genomic:     32462
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61520):
CATGGAGGTTGAATAGATGCCATGAATGGGTCCAAGAACATGGACACTCTCTTTCACCAAAATCAATTCGGGTCTTGCCACTGTTAATCACCTAACTTGC
Y
AACAGCAGAGACTATCGCTGAGTCTTTGAGATGGCACTGCTCTTGGAGAGATCAGGCAGCCATCCAGTGAGAGGTTGACCCCTCTGCTTTGGAGGGGATG
Celera SNP ID:            hCV2796274
SNP Position Genomic:     65095
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:61521):
GTGGGATTATATCAAACTAAAAAGCTTCTATACAGCAAAGGAAACCCTACATAAAAGGAAAAGACAACAGAGTAAAAATACAACCTACAGTATGGGGGGA
R
ATTTTTGTAAACAATTCATCTGACAGAAGATTAATATCCAGAATATACAAGGAACTAAAAATCTCAATAGCATAAAAAAACCCACCCCAAAATGATTAAA
Celera SNP ID:            hCV2796348
SNP Position Genomic:     32188
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,7)   total(G,7|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61522):
GATGCCATGAATGGGTCCAAGAACATGGACACTCTCTTTCACCAAAATCAATTCGGGTCTTGCCACTGTTAATCACCTAACTTGCCAACAGCAGAGACTA
Y
CGCTGAGTCTTTGAGATGGCACTGCTCTTGGAGAGATCAGGCAGCCATCCAGTGAGAGGTTGACCCCTCTGCTTTGGAGGGGATGGACATTCATCCTTAT
Celera SNP ID:            hCV11431446
SNP Position Genomic:     65110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   SC_12_T(C,7|T,16)   SC_12_C(C,4|T,19)   SC_12_TT(C,1|T,22)   SC_95_C(C,53|T,124)   total(C,65|T,181)   (T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:61523):
CTTGTTTCTGGCCTTCAGGTGGGTAGTTTTTATTTTCTCATCCACATTGGTGTTACCTCCTCAACCCCCTCCTTTACTCACTCTAATAGATGACATTTAC
M
TACATAATTAGGTCCACTGTTGACAATATACCTTTGCTCAGAATGATCTAATTATCAGCAGAACAAAGGTGAGCTTGTTTATGGAAAGTCCCAACTACAT
Celera SNP ID:            hCV2796275
SNP Position Genomic:     64532
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61524):
TTTATGAATAAGACCTCAAAAGCACAGGCAACAAAAGCAAAATAAACAAGTGGGATTATATCAAACTAAAAAGCTTCTATACAGCAAAGGAAACCCTACA
Y
AAAAGGAAAAGACAACAGAGTAAAAATACAACCTACAGTATGGGGGGAGATTTTTGTAAACAATTCATCTGACAGAAGATTAATATCCAGAATATACAAG
Celera SNP ID:            hCV2796349
SNP Position Genomic:     32139
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61525):
GCTCTGGTAACCACCATTCTACTTATTTCTATGAGTTTGGCTTTTAAGAGTATATGACCGAGATCATGCAGTATTTCTCTTTGTGTGCCTGGTTTATTTC
A
CTTAGCATAATGTCCTCCTGGCTCATCCATGTTGTTGCAAATGACAACATTTCTTCTTTTTAAGGATGGATAATAGTATTCCACTCTGTGTGTGTTTGTG
Celera SNP ID:            hCV2796277
SNP Position Genomic:     63214
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61526):
TGTGTTCTCAGATAAAAAGTAAACTTTAAAAGTCCACCTGGTATCAAAGAACATGGCCTGGAAACTTGTTTCTCTAGGCCTTTGCTCTTGTCTAGGATTG
R
TTGTCAAAAAAATTACCGTTCTTTGAGAAGTTGTATCTATTGTCCTGTCCGCCTGCATATTTGTGGTTTGAATTAATTGTTACCTACTTGGCCTAGAAAG
Celera SNP ID:            hCV11431376
SNP Position Genomic:     10132
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61527):
AATTTTAAGGAGAATAAAAAATTAGAATAAATAAATAAAAAAGCCATTCTTTAAGTTACAATTATGAGAAAATTACCTCTATTTTTGAAGGATTCTTTCC
R
CTTTTCCCTAAAATATATAGTTTTCCATACTGTTGCAATCAAAGTATGTGTACATTTTTGAATATTCTTTTTTCTTCAATTCGCACTATATTGTACTTAT
Celera SNP ID:            hCV2796278
SNP Position Genomic:     62850
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61528):
CCAGCATGTTGTACAATAGGTCTCTTGAAATAGGCCTTTATTGTTGTTAACTTCCTTCCTTTAATTATGTTTTGCTCATAAGACTTTTTCACAGGTAAAT
K
ATGAGTTCACCCATTGAGTTGAAACCCTTGTCAGGGAAGGTCAGGAGTGCATATATCACGTTTTGGACCTCTCCCATGACACCAGTGAATTACAGGTGTG
Celera SNP ID:            hCV2796279
SNP Position Genomic:     61412
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61529):
CTCCCATTGCAGCAGCCAGCCCCTCATCTCCAGGGAGGCTGATGGAGAGCAGGCTCTGTCTGAATGTGTTCAGCTTTCCATCCAACCTCCTTAAAGCTGT
Y
GTTCTTCTGGGTTCTGGGGATGGGTGGGTCAACTTCTCTCATCCTCCTCAGCCTCTCCTTTAGCAACTGAACTATTTTAGTTAAACTTTTTGCAGCTCTC
Celera SNP ID:            hCV11431379
SNP Position Genomic:     21649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,12)      total(C,3|T,12) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61530):
AGTGAGAGGTGACAGTGTGCTGGCAGCCCTGGCAGCCCTCGCTCACTCTTGGCGGTGCCTTGGCCTTGGCGCCCACTCTGGCCATGCTTGAGGAGCCCTT
Y
ATTCTGCCGCTGCACTGTGGGAGCCCCTCTCTCAGCTGGCTGAGGCTGGAGCCGGCTCCCTTTGCTTGCGGGGAGGTGTGGAGGGAGAGGCGCAGGTGGG
Celera SNP ID:            hCV27127150
SNP Position Genomic:     36112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61531):
AGGATAGGGCTTCCTTTATCATTTGGTGCCTTTCAAGTGCAACTCTAACAGGTGGACCACAACATATTTTGGGTTCCCTAGTATTAGTGAGAGGTGACAG
Y
GTGCTGGCAGCCCTGGCAGCCCTCGCTCACTCTTGGCGGTGCCTTGGCCTTGGCGCCCACTCTGGCCATGCTTGAGGAGCCCTTCATTCTGCCGCTGCAC
Celera SNP ID:            hCV27127151
SNP Position Genomic:     36027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61532):
TGGAATGTTGTATTGTTTCTGATTTGCCATCTTGGCTAGGTTGTGGACAACTAAAGCCTTTTTTACCATAATGCCTCTTATTTTATAAGTCAGGGAATCA
Y
GAGAGTTCCATCAGCGTTTAAGTGCTGCCTATACATTAAAAGTATGCACTCAGGGACCAGGGTATTTACCAAAGGGTAGGTTCAAGGACCCAACTGGCCC
Celera SNP ID:            hCV27127152
SNP Position Genomic:     35810
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61533):
TTTGAGGCTACCACCAAATTCTGCCATTTTACCTGGAATGTTGTATTGTTTCTGATTTGCCATCTTGGCTAGGTTGTGGACAACTAAAGCCTTTTTTACC
R
TAATGCCTCTTATTTTATAAGTCAGGGAATCACGAGAGTTCCATCAGCGTTTAAGTGCTGCCTATACATTAAAAGTATGCACTCAGGGACCAGGGTATTT
Celera SNP ID:            hCV27127153
SNP Position Genomic:     35777
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61534):
GTATTCCATGATGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGATTGACATTTGGGTTTGTTCCAAGTGTTTGCTATTGTGAATAGTGCTGAA
R
TAAACATAAGTGTGCATGTGTCTTTATACTAGCATGATTTATAATCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTC
Celera SNP ID:            hCV27127154
SNP Position Genomic:     33806
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61535):
TCTTTCTAACTTTAGCTATTCTAATGAGTGCATGCTGCTATTGCTCATGGTTTTAATTTCTAATTTTTTACTAATGAGGTTAGTACCCTTCATATATTTA
Y
AGTTCAGTTGGTTATCTTACTTTTGTTAACTTTCTGTTCAAGTCTCTTATCTGTGTTTCATTGAGTTGTCTGATGTTTTTTCTTATTGATTGATAGGCAC
Celera SNP ID:            hCV27127155
SNP Position Genomic:     29276
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61536):
TTGGGAACCACTGAGTGAGTGAATGAGGTGGTAAAGTATACTTTTATTTTTCAAGATTGAATGGATAAAACAGTGAAACATGAGTGTAAAAAAGTGGAGG
Y
ACTCTTTTTTTCCTTTTTCTCTTAATATATATGTATTTTTTTTTCTTTTTCTTTTTCACACCTGGTGAACAGGAAGTAGTGGTTCTCTTTATTGTAGATC
Celera SNP ID:            hCV27127156
SNP Position Genomic:     27521
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61537):
CCCCAGAATTTTGGAGAGTACCTTCATTTTGTAGATGCTCAATTAGTATTTATTGAGTAAATGAAAGAATGGTGGTTGAGAGTGCAGGTCCTGGAAAAAG
R
TTCCCTGAGTTCAAATTCCAGATCTTCTCTTTAACAACTGTGTGATTTTGGGCAAGTTTCTTAACCTCTCTGTACCTTAGTTTCCTTACAGTAATTGAGG
Celera SNP ID:            hCV27127157
SNP Position Genomic:     26055
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61538):
GGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCTGCAATAAACATA
Y
GTGTGCATGTGTCAGAGCAGAGATTTTATCTGCTTTGTTCACTCTTCACCCCAGAATTTTGGAGAGTACCTTCATTTTGTAGATGCTCAATTAGTATTTA
Celera SNP ID:            hCV27127158
SNP Position Genomic:     25906
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61539):
CATGTGCCATGCTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCCCCCACTCCCCACCCCACAACAGTC
Y
CCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTGTCATTGTTCAATTCCCACCTATGCGCGAGAACATGCGGTGTTTGGTTTTTTGTCCTTGCGAT
Celera SNP ID:            hCV27127159
SNP Position Genomic:     25617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61540):
AGATCTTAGCTTCCTGGCTACTCTTACCTAATGATGTAATTACTGATGAGAAAATGAACCCAAAGTAATGCAGCCAACTCCTCTTCTGGGGAGTGGTTGC
R
TTTAATTGCACTAAAGCCACGTAACAAAAACAACAGCAAAACCCCCAAACACTTAAACTACCCAAACAAATTGAAAGTGCTGAAAAGTTGAGTGAGGACA
Celera SNP ID:            hCV2364560
SNP Position Genomic:     39261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61541):
ATACTAGATGCAAATCAGAGAAGATTTTCATCAGGAAAACTATCACGAAAATTAGCAAAGATCTTAGCTTCCTGGCTACTCTTACCTAATGATGTAATTA
Y
TGATGAGAAAATGAACCCAAAGTAATGCAGCCAACTCCTCTTCTGGGGAGTGGTTGCATTTAATTGCACTAAAGCCACGTAACAAAAACAACAGCAAAAC
Celera SNP ID:            hCV2364561
SNP Position Genomic:     39203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61542):
CAGCTGGTCAGGGTGCACTTTTCAGAGCCAGGGGGCCCAGCAAAGATATGGTCATATACTAGATGCAAATCAGAGAAGATTTTCATCAGGAAAACTATCA
Y
GAAAATTAGCAAAGATCTTAGCTTCCTGGCTACTCTTACCTAATGATGTAATTACTGATGAGAAAATGAACCCAAAGTAATGCAGCCAACTCCTCTTCTG
Celera SNP ID:            hCV2364562
SNP Position Genomic:     39148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61543):
TTATTTCAGAGCCTGAGGTGGGGTTGATTACAGAAAACTCACAGCTGGTCAGGGTGCACTTTTCAGAGCCAGGGGGCCCAGCAAAGATATGGTCATATAC
Y
AGATGCAAATCAGAGAAGATTTTCATCAGGAAAACTATCACGAAAATTAGCAAAGATCTTAGCTTCCTGGCTACTCTTACCTAATGATGTAATTACTGAT
Celera SNP ID:            hCV2364563
SNP Position Genomic:     39107
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61544):
TTATGGGTCTCGTGCCATCTCTGAACCAACTATTGTGGCCAAGTATGGAGTGTTCTGCCTGGCCAGGCCTGAGTCGTGTGTCTACTGCTGGACCAGGGGT
S
GGGTAGCCCCACTCACTGTCCTCCACTGTGGAAACCCAGCTGAGCCCCTGAGGTGTTAAGGAACTCCTCCTCTCTTCAACAACGTTGACATTCCTTCCTT
Celera SNP ID:            hCV2364564
SNP Position Genomic:     21241
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,11)      total(G,4|C,11) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61545):
TGTCAGAACTGACTCTTCTTGGACTGTTATGGGTCTCGTGCCATCTCTGAACCAACTATTGTGGCCAAGTATGGAGTGTTCTGCCTGGCCAGGCCTGAGT
Y
GTGTGTCTACTGCTGGACCAGGGGTCGGGTAGCCCCACTCACTGTCCTCCACTGTGGAAACCCAGCTGAGCCCCTGAGGTGTTAAGGAACTCCTCCTCTC
Celera SNP ID:            hCV2364565
SNP Position Genomic:     21215
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,14)      total(C,14|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61546):
TTAGAGTGAGAATGAATTCTTGGCTTCTATTTCCAGCAGAGTAACTATTTCTCTTAATTCCATAAAGAATGTCAGAACTGACTCTTCTTGGACTGTTATG
R
GTCTCGTGCCATCTCTGAACCAACTATTGTGGCCAAGTATGGAGTGTTCTGCCTGGCCAGGCCTGAGTCGTGTGTCTACTGCTGGACCAGGGGTCGGGTA
Celera SNP ID:            hCV2364566
SNP Position Genomic:     21146
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,15)      total(G,15|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61547):
ATTAATCCATGTAACTACAGCCAACTACTTTTTGACAAAGGCACCAAGAACTCTCATTAGTGAAAGGACAGCCTCTTCAATAAATGGTGCTGGAAAAACT
Y
GATATCCATATGCAGAAGAATGAAACTAGACTCCCACCTCTCACCCTATATGAAAATCAACTCACAGTGGATCAAAGATCTAAATATAAGACATGAAACT
Celera SNP ID:            hCV2796350
SNP Position Genomic:     31878
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61548):
CTTCATACATGGCTAGATCCAGGTGCTTACATAATGTCATCAAGGATCCACATCTTTTTAATTCTCAGCTCTTATTTTTTGTTGGTTGACTTCATTCTCA
R
GAAGATTTTCTCCCTTTAGAGTGAGAATGAATTCTTGGCTTCTATTTCCAGCAGAGTAACTATTTCTCTTAATTCCATAAAGAATGTCAGAACTGACTCT
Celera SNP ID:            hCV2364567
SNP Position Genomic:     21030
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,14)      total(G,14|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61549):
CAGCCTTCTGAGTGCCTGGGACTACAGGTGCACCCCAGCATGGCTGGCTAATTTTTGTATTTTTTTTTTTTGTAGAGATAGGATTTTGTCATGTTGCTCA
R
GCTGGTCTCAAACACCTGGCCTCAAGCGATCTATCCTCTTCGGCCTGGAAAGGTGCTGGAACTACAGGCATGAGCTACCATGCCCAGCTCAAACCAAACT
Celera SNP ID:            hCV2796351
SNP Position Genomic:     28426
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61550):
TGTAAAAAAGTGGAGGCACTCTTTTTTTCCTTTTTCTCTTAATATATATGTATTTTTTTTTCTTTTTCTTTTTCACACCTGGTGAACAGGAAGTAGTGGT
K
CTCTTTATTGTAGATCACCTGACTTGTCCCAAAGACTGAGTAAAAAATGAGATGATAGAAGCTGTTAATTGAATGCAAACAGTACTACTTGATGAAACAA
Celera SNP ID:            hCV2796352
SNP Position Genomic:     27605
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,5)   total(G,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61551):
TGTGAATCTGAAAATCACACTCACATATAATAAAACATTTGCGATTTTATGATGCAATATACTCTTGGAGGTTGCTTGAGAAGGCAGATTGTCAGATGAA
K
TAAACTTGTGTATTTATTGGCTTACTAGAACATATTTAGCATCCTTTTTTGGGAACCACTGAGTGAGTGAATGAGGTGGTAAAGTATACTTTTATTTTTC
Celera SNP ID:            hCV2796354
SNP Position Genomic:     27372
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61552):
TAATTTTAAAACAAAAATTTATAAAATATCTATGGGAGGAAATTACATTTTCATGTGAATCTGAAAATCACACTCACATATAATAAAACATTTGCGATTT
K
ATGATGCAATATACTCTTGGAGGTTGCTTGAGAAGGCAGATTGTCAGATGAATTAAACTTGTGTATTTATTGGCTTACTAGAACATATTTAGCATCCTTT
Celera SNP ID:            hCV2796355
SNP Position Genomic:     27319
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,9)      total(G,3|T,9) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61553):
AAGGTATTTTGGAAGCAGCTGTGAGATCTATATAAGCAGAACTAACAATCAGCTACTTTAGGACATCAGGACATATGTGCCTGGGAAAAGCAGTGAGTTT
Y
CATCATTGGAGATGTTCAGGCAGCATCTTCAACCAGTTGGGGACATCATAAAGAGTACTGAAACACTGGAGGAGGGCATCATGTCCAGTCCTGATGGTCC
Celera SNP ID:            hCV2796283
SNP Position Genomic:     54110
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61554):
ACCCTTAACGGCATATCTGATCAGCAGGGGTTTAATGGGAAGAAGATGATTGGAACATAATTCCAGAGTAAAAGAAAGATATATGAACAAGCAGATGAGG
K
TAAAGTGGTCCTGTATGTGAGGAAGGCATAAGTAATTTTAAAACAAAAATTTATAAAATATCTATGGGAGGAAATTACATTTTCATGTGAATCTGAAAAT
Celera SNP ID:            hCV2796356
SNP Position Genomic:     27186
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,8)   total(G,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61555):
TAACAGGCAAGAAAAGCCACACAAAACCAGGTGTGAGAAGTGGTCCTATTTCATTGCTTGGTCACGGATTACTGAACAGGAGATTTGAAACCCTTAACGG
S
ATATCTGATCAGCAGGGGTTTAATGGGAAGAAGATGATTGGAACATAATTCCAGAGTAAAAGAAAGATATATGAACAAGCAGATGAGGTTAAAGTGGTCC
Celera SNP ID:            hCV2796357
SNP Position Genomic:     27097
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61556):
GATGGGTGGGTCAACTTCTCTCATCCTCCTCAGCCTCTCCTTTAGCAACTGAACTATTTTAGTTAAACTTTTTGCAGCTCTCAGAGTCCATCTGACACTT
K
GGAGGTTAAAACATTCAAACCTTAGACAACAAGACATGAGAAATTTTCATCTGCACATCTGGGCTTAGGGGCAAGTGCAGCTGGCTTTCCCTTTGGGAAG
Celera SNP ID:            hCV11431383
SNP Position Genomic:     21768
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,13)      total(G,13|T,3) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61557):
AGTCAGTTTCATGGATCTATCTGGTCAATTCTTGTAGCATCATATATATTTTAAAGTTTGTCTTCTCTTTATGTATTTATTTTATTTATGAGGTGTCTTA
R
GAAGAAATCTCAAACTGTCAAAAGGCTCTGATTTTGTTCTTGGGCTACCTAGTGCTTTTGACAGCCTTGGAAGATGCAATGGAAAGCATGTCCATCAATG
Celera SNP ID:            hCV2796286
SNP Position Genomic:     48122
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61558):
ATGAGAAATTTTCATCTGCACATCTGGGCTTAGGGGCAAGTGCAGCTGGCTTTCCCTTTGGGAAGAAAAGGCTTCCTCCTGGGTCTGCAGCAATCACAAG
K
ACTTTGAAATGGGACTGTTTTCCTCACAGCTGCTTCCTGAAACAACAAAAGGAGCTCAGCTCAGTCAACCTCTGGGGCATCAGGCCAGCCCTGCGGGGCA
Celera SNP ID:            hCV11431384
SNP Position Genomic:     21904
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,16)      total(G,16|T,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61559):
AAAACTAAGGCTTGTCGGATTTGTTCCCTTACACTGCAGAGGGAAAAGGAAGTACTGAGAGGGAAAATACGTTGGGTAATATTGCAAAGCAAACTGGCTT
Y
ATACATGGCTAGATCCAGGTGCTTACATAATGTCATCAAGGATCCACATCTTTTTAATTCTCAGCTCTTATTTTTTGTTGGTTGACTTCATTCTCAGGAA
Celera SNP ID:            hCV2796359
SNP Position Genomic:     20933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61560):
TTCTGTTTCATGATAGACAGATACAATATGATGGACTCTTGGAGAAATCGCTGGTCACAAGGGAAGAAGGTGAGGTCTCTGATGACCCTCCCAAAATACA
Y
ATAGCCAATAAACCAAATCATATCTGAGCCCAGTTTACTGGAGCTGTGGATTGGGGTGGCCAAGAGCTTTGTCATGCGTATGGTAATAGCTTATAAGTAT
Celera SNP ID:            hCV2796287
SNP Position Genomic:     47809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61561):
TTGGGAAGAAAAGGCTTCCTCCTGGGTCTGCAGCAATCACAAGGACTTTGAAATGGGACTGTTTTCCTCACAGCTGCTTCCTGAAACAACAAAAGGAGCT
S
AGCTCAGTCAACCTCTGGGGCATCAGGCCAGCCCTGCGGGGCAGGATAAAAAGTCAGAGAAGGATCCTGGCTGCTTCCTCAGCTTGGGCCAAGGCAGAGT
Celera SNP ID:            hCV11431385
SNP Position Genomic:     21961
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,14)      total(G,3|C,14) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61562):
CACTGTCTGCTTAAGCTTTTTGAGGGTCAAATTATGTTCTCTGGTATCAGTAGTAACTGTGAGCTGTGAGAGATCTTTCTGTTTCATGATAGACAGATAC
R
ATATGATGGACTCTTGGAGAAATCGCTGGTCACAAGGGAAGAAGGTGAGGTCTCTGATGACCCTCCCAAAATACACATAGCCAATAAACCAAATCATATC
Celera SNP ID:            hCV2796288
SNP Position Genomic:     47733
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61563):
AGTCTTCCAATGGATTCTGGTTTCAGAATAAAAGCCAAAGATCTTATAAGATCTCAGGGGACCCTTGAGACCCCCAGTGATTTTGTCCTCACTTGTCTAT
R
TGACCTCACCTCCTGCCTGTCCTGCCCAAGTCACACTGGCTTCTCAGTATAGCGTGACAAACTTGCTTCTGCCCAGGGCCTTTTTGCTATTCCCCTGCTT
Celera SNP ID:            hCV27127160
SNP Position Genomic:     25071
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61564):
GTTGGGGGTAGTGGGAGGCTGGGCTCTGGGGAAGGGACCCAGGGAGATATGAGCAGGTGCTTGCAGGGAAGGTCAGCTTTCTCCAGCTCCTTTCTCATGG
Y
AGACACTCAATTACAGGGCCTCCCAGGTGCTGGATAGCTCTGTGCTGGCAGAATGCTACTTCTCACACCCCTCTGCACAGCAGAGATGATGAGGGCTGGG
Celera SNP ID:            hCV11431389
SNP Position Genomic:     23155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61565):
GGCAGTGAATGAGAAATGCCCTCTTACATACTCTGACAGTGCTGGGGAGAGAAAGCTAAATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGA
D
AATGATGTTAGTCTTTGGCCAGGCTGGACCTGAGAGGAACTGTTTAGCATGAGCAGCTCTTCTTGCACCACCAGAGGCTTCACCAGCCCAGCAATTCCAT
Celera SNP ID:            hCV27127161
SNP Position Genomic:     22744
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|T,1|-,6)   total(G,1|A,1|-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61566):
CAGCTTGGGCCAAGGCAGAGTGGGATGGGGGATTTGCTGGTGACAAGTGCCTCTGCCCCTTCCCAATGCCACCTGTGTGAATGTTCCCTGCTTCATTTTG
Y
TGGAATAGATTTTTGTGACTTCTCTCAGGCTCTGAGATGTTACTTGCCAAATGCTATTCACATAACCATTTTACATATTTCTGTTACTGTATGGTAGAAC
Celera SNP ID:            hCV27127162
SNP Position Genomic:     22141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61567):
TCCTGAAACAACAAAAGGAGCTCAGCTCAGTCAACCTCTGGGGCATCAGGCCAGCCCTGCGGGGCAGGATAAAAAGTCAGAGAAGGATCCTGGCTGCTTC
Y
TCAGCTTGGGCCAAGGCAGAGTGGGATGGGGGATTTGCTGGTGACAAGTGCCTCTGCCCCTTCCCAATGCCACCTGTGTGAATGTTCCCTGCTTCATTTT
Celera SNP ID:            hCV27127163
SNP Position Genomic:     22039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61568):
GTGATTCTCCTGCCTTAGTTTCCTGAGTACCTGGGATTATGGGCATATGCCACCACAGCCAGCTAATTTGTGTATATTTAGTAGAGATGGGGTTTTGCCA
Y
GTTGGCCAGTCTGCTCTCCAACTCCTGACCTCAATTGATCCACTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCACGAGCCACCATGCCCAGCCTAA
Celera SNP ID:            hCV27127164
SNP Position Genomic:     17704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61569):
GTGGCAGGATCTCAGCTCACTGCAACCTCCACTTCCTGGGTTCAAGTGATTCTCCTGCCTTAGTTTCCTGAGTACCTGGGATTATGGGCATATGCCACCA
M
AGCCAGCTAATTTGTGTATATTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGTCTGCTCTCCAACTCCTGACCTCAATTGATCCACTGCCTCAGCCTC
Celera SNP ID:            hCV27127165
SNP Position Genomic:     17659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61570):
TTATTCTAGTTAGCCATTCATCTAGTCTTTTTTCAAGGTTTTTAGCTTCTTTGTGATGGGTTCAAACATCCTCCTTTAGCTCAGTGAAGTTTGTTATGAC
Y
GATCTTCTGAAGCCTACTTTTGTCAGCTCGTCAAAGTCATTCTCTGTCCAGCTTTGTTCCATTGCTGGCGAGGAGCTACATTTCTTTGGAGGAGAAGAGG
Celera SNP ID:            hCV27127166
SNP Position Genomic:     15895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61571):
GGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCACTGC
R
CCCGGCCTAGATTTTCTAGTTTATTTGTGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGATATCCCCTTTATC
Celera SNP ID:            hCV27127167
SNP Position Genomic:     13680
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61572):
ACTGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCAC
Y
GCACCCGGCCTAGATTTTCTAGTTTATTTGTGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGATATCCCCTTT
Celera SNP ID:            hCV27127168
SNP Position Genomic:     13677
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61573):
CCCGCCACTATGCCCGGCTAATTTTTTTGTACTTTTATTAGAGACTGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACC
Y
ACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTAAGCCACTGCACCCGGCCTAGATTTTCTAGTTTATTTGTGTAGAGGTGTTTATAGTATTCTCTGA
Celera SNP ID:            hCV27127169
SNP Position Genomic:     13634
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61574):
GTGTGGCTCACAGTCTCTCATGAGATTATACTCAAGATATCAGCTAGGGCTGCAATCATCTGGATACTTGACTGGGGCTGGAGGATCCTCTTTCAAAAAG
M
CTTGCTCACATGCTGTTGCAGGAGGCTTCATTCCTTGCTGATTGTTTCTCACCATGTGGACCTCTCCACATGGCTGCTTGAGTATCCTTATGACATGGCA
Celera SNP ID:            hCV2796360
SNP Position Genomic:     20110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61575):
ACAACAATAGTATTTATTATCTTTTACAGTCTTGTGGGTTAGGAATATGGTAGCAGTTTAGCTCGGTGGTTGTGGGGTGTGGCTCACAGTCTCTCATGAG
R
TTATACTCAAGATATCAGCTAGGGCTGCAATCATCTGGATACTTGACTGGGGCTGGAGGATCCTCTTTCAAAAAGACTTGCTCACATGCTGTTGCAGGAG
Celera SNP ID:            hCV2796361
SNP Position Genomic:     20034
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61576):
ATTATCTCAAAACTTAGTGGTTTGAAACAACAATAGTATTTATTATCTTTTACAGTCTTGTGGGTTAGGAATATGGTAGCAGTTTAGCTCGGTGGTTGTG
R
GGTGTGGCTCACAGTCTCTCATGAGATTATACTCAAGATATCAGCTAGGGCTGCAATCATCTGGATACTTGACTGGGGCTGGAGGATCCTCTTTCAAAAA
Celera SNP ID:            hCV2796362
SNP Position Genomic:     20008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61577):
TGCTATTTACCTAGAGATTAAAAGTATGCAAAATTATACTTTTTTTTATTGAGGGGCTAAATATATTTGTAGTTAAAATAAAAAGAAATGCAAGGGAATG
R
TGATGATGGGTAGAATAGTAATGTGATCAAGGAGGAGTACCCTGGGAAATTTAACTTCTTATTTCTTAGGGTGTATTCATTTTATTTTTGGTATATCTGA
Celera SNP ID:            hCV2796363
SNP Position Genomic:     19178
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61578):
GCATGGGGGTCATGGCCATCACGAACATGTCACAGTGCTGCAGAGATTTTGTTTATGGCCACTTTTGGGGCCAGTTTATGGCCAGATTTGGGGGCCTATT
Y
CCAACATGAAGGTAAAACAAGGATACTTTTTAGACAAGCAAAAACTGAGAGCATTTGCCACCATCAGACTTAATATACTTTGTCAGGAAGAAAGGAAATG
Celera SNP ID:            hCV2796364
SNP Position Genomic:     18436
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61579):
CATGCTCCGGCTCCTAGGCTGGGTGAGCCTTAGAGCCTTTGGGTGGACTGCTGCTTTAGCAGCTTAGGAAGGCAAATGCTGGCTCCTCTTCCTCTCCTCA
M
TTGGTAGGACTCAGAGCAAAGAAAGGATGGCTTTTCTCCAGTCCTTCTCCCTTTTCAGACAGGCGGCACAGCTAGAGAAATATGTAAAGATCAGGGGAAG
Celera SNP ID:            hCV2796291
SNP Position Genomic:     46827
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,6)   total(A,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61580):
AAGAACACCTTTAAGTGGTTTTCCACCCTGGGTGGGCCAGGTGTTCCTTGCCCTCATTCCAGTAAACCCACTACCTTCAGCATGGGGGTCATGGCCATCA
Y
GAACATGTCACAGTGCTGCAGAGATTTTGTTTATGGCCACTTTTGGGGCCAGTTTATGGCCAGATTTGGGGGCCTATTTCCAACATGAAGGTAAAACAAG
Celera SNP ID:            hCV2796365
SNP Position Genomic:     18357
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61581):
AGCTTTCTCCAGCTCCTTTCTCATGGCAGACACTCAATTACAGGGCCTCCCAGGTGCTGGATAGCTCTGTGCTGGCAGAATGCTACTTCTCACACCCCTC
Y
GCACAGCAGAGATGATGAGGGCTGGGCCTGATTTTCTCCCTGCACTCTGATATAATAAAGTTGTTGTCACTAGGACCTATTAAATCAGACACTCATGGTA
Celera SNP ID:            hCV11431390
SNP Position Genomic:     23229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61582):
CGCCTTGCATGCTCCGGCTCCTAGGCTGGGTGAGCCTTAGAGCCTTTGGGTGGACTGCTGCTTTAGCAGCTTAGGAAGGCAAATGCTGGCTCCTCTTCCT
Y
TCCTCACTTGGTAGGACTCAGAGCAAAGAAAGGATGGCTTTTCTCCAGTCCTTCTCCCTTTTCAGACAGGCGGCACAGCTAGAGAAATATGTAAAGATCA
Celera SNP ID:            hCV2796292
SNP Position Genomic:     46820
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61583):
AAACAAAATGAGTTTCAAGTAAGATAAATAAAAACAAACCCATACCTAGTTTCATCATAGTAAAACTGGAAAAACAAAGAGAGATGTTAAAAGTAGTCAA
M
AAGAAGACAGATTATCTATAAAGAAATGCCTTTTTTTTTGAGATGGAGTCTCTCTGTTGCTCAGGGTGGTGTGCAGTGGCAGGATCTCAGCTCACTGCAA
Celera SNP ID:            hCV2796366
SNP Position Genomic:     17483
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61584):
TCACACCCCTCTGCACAGCAGAGATGATGAGGGCTGGGCCTGATTTTCTCCCTGCACTCTGATATAATAAAGTTGTTGTCACTAGGACCTATTAAATCAG
R
CACTCATGGTAGTAAATGTGGAGATCAGGCAGCTTGGAAATCCTCAGGCACATGTGCATGTGGATGCGTGTGTGTGTCATGAGGACACAGGATAAAGTCT
Celera SNP ID:            hCV11431391
SNP Position Genomic:     23318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61585):
TGGTCTGAAGAACCCCTCTACCCACACTGCAGGCTGGAGGTCGCCTTGCATGCTCCGGCTCCTAGGCTGGGTGAGCCTTAGAGCCTTTGGGTGGACTGCT
R
CTTTAGCAGCTTAGGAAGGCAAATGCTGGCTCCTCTTCCTCTCCTCACTTGGTAGGACTCAGAGCAAAGAAAGGATGGCTTTTCTCCAGTCCTTCTCCCT
Celera SNP ID:            hCV2796293
SNP Position Genomic:     46779
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61586):
TCAGATTCAGTAAACAAAATGAGTTTCAAGTAAGATAAATAAAAACAAACCCATACCTAGTTTCATCATAGTAAAACTGGAAAAACAAAGAGAGATGTTA
M
AAGTAGTCAAAAAGAAGACAGATTATCTATAAAGAAATGCCTTTTTTTTTGAGATGGAGTCTCTCTGTTGCTCAGGGTGGTGTGCAGTGGCAGGATCTCA
Celera SNP ID:            hCV2796367
SNP Position Genomic:     17472
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61587):
GGCTGGTCTGAAGAACCCCTCTACCCACACTGCAGGCTGGAGGTCGCCTTGCATGCTCCGGCTCCTAGGCTGGGTGAGCCTTAGAGCCTTTGGGTGGACT
S
CTGCTTTAGCAGCTTAGGAAGGCAAATGCTGGCTCCTCTTCCTCTCCTCACTTGGTAGGACTCAGAGCAAAGAAAGGATGGCTTTTCTCCAGTCCTTCTC
Celera SNP ID:            hCV2796294
SNP Position Genomic:     46776
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61588):
TTGATTTTTTCTTGTGAATTTGTTTGAGTTCATTGTAGATTCTGGATATCAGCCCTTTGTCAGATGGGTGGATTGCAAAACATTTTCTCCCATTCTGTAG
R
TTGCCTGTTCCCTCTCATAGTAGTTTCTTTTGCTGTGCAGAAGCTGTTTAGTTTAATTAGATCCCATTTGTCTATTTTGGCTTTTTTTGCCATTGCTTTT
Celera SNP ID:            hCV2796369
SNP Position Genomic:     11548
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61589):
AGGACCTATTAAATCAGACACTCATGGTAGTAAATGTGGAGATCAGGCAGCTTGGAAATCCTCAGGCACATGTGCATGTGGATGCGTGTGTGTGTCATGA
R
GACACAGGATAAAGTCTGTTGTCTGTGGCCCTGGGGGATTGAGGCAGTGATCACCAGAGCTGGCTTTATCTTTGCGTTCATGCATCTTCTACCCACTCAG
Celera SNP ID:            hCV11431396
SNP Position Genomic:     23401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61590):
CTCTCCTTGTCAATATTGATATTATCAATCTTTCTAACTTTAGCTATTCTAATGAGTGCATGCTGCTATTGCTCATGGTTTTAATTTCTAATTTTTTACT
R
ATGAGGTTAGTACCCTTCATATATTTATAGTTCAGTTGGTTATCTTACTTTTGTTAACTTTCTGTTCAAGTCTCTTATCTGTGTTTCATTGAGTTGTCTG
Celera SNP ID:            hCV11431397
SNP Position Genomic:     29248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61591):
TTGATATTATCAATCTTTCTAACTTTAGCTATTCTAATGAGTGCATGCTGCTATTGCTCATGGTTTTAATTTCTAATTTTTTACTAATGAGGTTAGTACC
Y
TTCATATATTTATAGTTCAGTTGGTTATCTTACTTTTGTTAACTTTCTGTTCAAGTCTCTTATCTGTGTTTCATTGAGTTGTCTGATGTTTTTTCTTATT
Celera SNP ID:            hCV11431398
SNP Position Genomic:     29263
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61592):
TTCTTCTAGATTTTCTTTTCTTCTTTCTTTCATTCTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTAGAGTACTAGAGTGCAGTGGC
R
CTATCTCAGCTCACTGCAAGCTCTGCCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACTATGCCCG
Celera SNP ID:            hCV27127170
SNP Position Genomic:     13449
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61593):
CCTCTCATAGTAGTTTCTTTTGCTGTGCAGAAGCTGTTTAGTTTAATTAGATCCCATTTGTCTATTTTGGCTTTTTTTGCCATTGCTTTTGGTGTTTTAG
W
CATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATCCAT
Celera SNP ID:            hCV27127171
SNP Position Genomic:     11659
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61594):
TTACTTTATTTATAAAAATATGAGTGAATACAAAATATCAGTGTGAAGATTAATATGGCCCATGCAGCTCTTGTGAGAGGTCATGGAGATTGGGACTGTC
R
AATGGCCTTTAAAAAAAATTAATCCAATGGCCTTTAAAAAAAATAGTCTTTTAAAAAAATTTAGCTCTGCTGAAGGGGGAGGTTCCAAGATGGCAGAATA
Celera SNP ID:            hCV370912
SNP Position Genomic:     54515
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61595):
TCCTCTAAAAAGCTGACAGCAGCCTTCTGAGAAAACCCATTAAATGGGCTGGAACAGTATTCCCAAGAGTGTTATATGCTATGTGCAAAATCCAAAGAGG
S
CTGCCGGGCACTGCGCCTCTTTGTAGTCCATGTCGTCAATATAGCGGATCCATCTGATGATCTGTGGAATGTCCACATGCAAAGGTCTCTTTGGACTGTG
Celera SNP ID:            hCV15982304
SNP Position Genomic:     35292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61596):
AGTGTTATATGCTATGTGCAAAATCCAAAGAGGGCTGCCGGGCACTGCGCCTCTTTGTAGTCCATGTCGTCAATATAGCGGATCCATCTGATGATCTGTG
R
AATGTCCACATGCAAAGGTCTCTTTGGACTGTGTTGAGAGAGAACCGGAGGTTTAATATAGTGCTGAGATGAGACTGCTTTCCATCCTGGGTGAATGCAA
Celera SNP ID:            hCV15982305
SNP Position Genomic:     35359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61597):
TGCTATGTGCAAAATCCAAAGAGGGCTGCCGGGCACTGCGCCTCTTTGTAGTCCATGTCGTCAATATAGCGGATCCATCTGATGATCTGTGGAATGTCCA
S
ATGCAAAGGTCTCTTTGGACTGTGTTGAGAGAGAACCGGAGGTTTAATATAGTGCTGAGATGAGACTGCTTTCCATCCTGGGTGAATGCAAACTGTTCTG
Celera SNP ID:            hCV15982306
SNP Position Genomic:     35368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61598):
CCACTTTTTGATGGGGTTGTTTGATTTTTTCTTGTGAATTTGTTTGAGTTCATTGTAGATTCTGGATATCAGCCCTTTGTCAGATGGGTGGATTGCAAAA
M
ATTTTCTCCCATTCTGTAGATTGCCTGTTCCCTCTCATAGTAGTTTCTTTTGCTGTGCAGAAGCTGTTTAGTTTAATTAGATCCCATTTGTCTATTTTGG
Celera SNP ID:            hCV2796370
SNP Position Genomic:     11528
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61599):
CCCGCAATAGGCCCCGGTGTGTGATGTTCCCCACCCTGTGTCCAAGCATTCTTATTGTTCAGTTCCCACCTATGAGTGAGAACATGCAGTGTTTGGTTTT
Y
TGTCCTTGCGAGAATTTGCTCAGAATGATGGTTTCCAGCTTCATCCATGTCCCTGCAATGGATCATCCTTTTTAATGGATGCATAGTATTCCATGGTGTA
Celera SNP ID:            hCV2796371
SNP Position Genomic:     10874
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61600):
TCATCATTTACATTAGGTATTCCTCCTAATGCTATCCCTCCCCCCACACCCACCCCGCAATAGGCCCCGGTGTGTGATGTTCCCCACCCTGTGTCCAAGC
R
TTCTTATTGTTCAGTTCCCACCTATGAGTGAGAACATGCAGTGTTTGGTTTTTTGTCCTTGCGAGAATTTGCTCAGAATGATGGTTTCCAGCTTCATCCA
Celera SNP ID:            hCV2796372
SNP Position Genomic:     10821
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61601):
ACATATGTATACATGTGCCATGTTGGTGTGCTGCATCCATTAACTCATCATTTACATTAGGTATTCCTCCTAATGCTATCCCTCCCCCCACACCCACCCC
R
CAATAGGCCCCGGTGTGTGATGTTCCCCACCCTGTGTCCAAGCATTCTTATTGTTCAGTTCCCACCTATGAGTGAGAACATGCAGTGTTTGGTTTTTTGT
Celera SNP ID:            hCV2796373
SNP Position Genomic:     10777
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61602):
GGGCCCCAAACCGTACCTCTCAGTGTGCGCCTCCTTCAGGCGATTTCCCACCCCATCCGCGTCTTCTCTGCCATTCAAAGGGGCAAGGGTGTGTAGGAGA
S
GAGGTAGGGAGATACCTCTCTCCCGAGGATCCCTGGCAGAGGGGCCTGGCACTGCAGGGGTGCATGCAAGAAGTGGGTGCACGTCCGCAGAGCTTGGGTG
Celera SNP ID:            hCV28026322
SNP Position Genomic:     45496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61603):
GCAGGGGCAAAATGCCACCAGTCTCTGTGCTAAAGCATAACAAGAGTTACCTTTGCTCTATTTCCCAACAAGTTCCTCATCTCCATCTGAGACCACCTCA
R
CCTGGACTTTATTGTCCATATCACTATCAGCATTTTGGTCAAAGTCATTCAACAAGTCTCCAGGAAGTTCCAGACTTTCCCACATTTTCCTGTCTTCTTC
Celera SNP ID:            hCV28026323
SNP Position Genomic:     43800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61604):
CATTTTTTCATATACCTATTGGCTATTTGTATTTTTTGAGAGAGGTCTATTAGGTTCTTTGCCCATTTTAAAATTGGGTTATTTGCTTTCTTGCTATTGA
R
TTGACTTCTTTATTTGTTTTGAATATTAACCCCTTATTAGATGTGTGATTTGCAAATATTTTCTCCCATTCTATTGATTGTTTCTTCACTCTGTTGATTG
Celera SNP ID:            hCV27893601
SNP Position Genomic:     63813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61605):
TGCCATTCAAAGGGGCAAGGGTGTGTAGGAGACGAGGTAGGGAGATACCTCTCTCCCGAGGATCCCTGGCAGAGGGGCCTGGCACTGCAGGGGTGCATGC
R
AGAAGTGGGTGCACGTCCGCAGAGCTTGGGTGGGCAGCAACGAGAGGGCTTGGGTGGGCGAGAAGAGAAGGCATGGGCTGCTTGCACTCATTTTATTCCA
Celera SNP ID:            hCV27893602
SNP Position Genomic:     45564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61606):
TCTGATGATCTGTGGAATGTCCACATGCAAAGGTCTCTTTGGACTGTGTTGAGAGAGAACCGGAGGTTTAATATAGTGCTGAGATGAGACTGCTTTCCAT
M
CTGGGTGAATGCAAACTGTTCTGATCCTTCCTCCTGACGGGAACTAAAAGAACACATTTGCCTTATCAAAAGTCACATATCAAATGCTAGAGGCTGTGTT
Celera SNP ID:            hCV15982313
SNP Position Genomic:     35445
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61607):
TTGGCTTTGCAGGGTACAGCCCCAACTTCTAGCTGCTTTCACAGGCTGGCATTGAGTGTCTGTGGCTGCACATGATGCAAGCTGTTGCTGGGTCTACCAT
Y
CTGGGGTCTGAGGACAGTGGCCCTCTTCTCACAACTCCACTAGGCAGCGCCCCAGTGTGGACTCTGTGTGGGTCTCCCATCCCACATTTCCCTTCCACAC
Celera SNP ID:            hCV27893603
SNP Position Genomic:     42913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61608):
AGAACACATTTGCCTTATCAAAAGTCACATATCAAATGCTAGAGGCTGTGTTGCTCTATTCTAATGAAGACACAACATACAAAACTGCAGTAACCGCTGC
Y
CCACCACTTGGTAGAGTAGTCTGCTATCATCTGCTAGGGTGTATTTGGTTTTCCAGGTGACCATCTCTGTATCACTTAAATCTTTGAGGCTACCACCAAA
Celera SNP ID:            hCV15982314
SNP Position Genomic:     35594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61609):
TAAAGTTCCAAAATGATCTCTTTTGACTCCATGTCTCACATCCAGGTCACACTGATGCAAGAGGTGGGTTTTCACAGTCTTGGGGAGCCCTGCCCCTTGG
M
TTTGCAGGGTACAGCCCCAACTTCTAGCTGCTTTCACAGGCTGGCATTGAGTGTCTGTGGCTGCACATGATGCAAGCTGTTGCTGGGTCTACCATCCTGG
Celera SNP ID:            hCV27893604
SNP Position Genomic:     42817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61610):
GAAGACACAACATACAAAACTGCAGTAACCGCTGCCCCACCACTTGGTAGAGTAGTCTGCTATCATCTGCTAGGGTGTATTTGGTTTTCCAGGTGACCAT
Y
TCTGTATCACTTAAATCTTTGAGGCTACCACCAAATTCTGCCATTTTACCTGGAATGTTGTATTGTTTCTGATTTGCCATCTTGGCTAGGTTGTGGACAA
Celera SNP ID:            hCV15982315
SNP Position Genomic:     35659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61611):
GGTACAGACATTGGGTAAATACACCCATTTCAAATGGGAGAAATTGGCCAAAATGAAGGGGCTACAAGCCACATGCAAGTCCAAAATCCAATAGGGCAGT
Y
GTTAAACCTTAAAGTTCCAAAATGATCTCTTTTGACTCCATGTCTCACATCCAGGTCACACTGATGCAAGAGGTGGGTTTTCACAGTCTTGGGGAGCCCT
Celera SNP ID:            hCV27893605
SNP Position Genomic:     42707
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61612):
TTTTTTGAGAGAGGTCTATTAGGTTCTTTGCCCATTTTAAAATTGGGTTATTTGCTTTCTTGCTATTGAATTGACTTCTTTATTTGTTTTGAATATTAAC
Y
CCTTATTAGATGTGTGATTTGCAAATATTTTCTCCCATTCTATTGATTGTTTCTTCACTCTGTTGATTGTTTCCTTGGTTGTGCAGAAGACTTTTAGTTA
Celera SNP ID:            hCV304265
SNP Position Genomic:     63844
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61613):
ATTTCTCTTAATTCCATAAAGAATGTCAGAACTGACTCTTCTTGGACTGTTATGGGTCTCGTGCCATCTCTGAACCAACTATTGTGGCCAAGTATGGAGT
K
TTCTGCCTGGCCAGGCCTGAGTCGTGTGTCTACTGCTGGACCAGGGGTCGGGTAGCCCCACTCACTGTCCTCCACTGTGGAAACCCAGCTGAGCCCCTGA
Celera SNP ID:            hCV8923414
SNP Position Genomic:     21192
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,11)      total(G,11|T,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61614):
CTTACTTTATTTATAAAAATATGAGTGAATACAAAATATCAGTGTGAAGATTAATATGGCCCATGCAGCTCTTGTGAGAGGTCATGGAGATTGGGACTGT
Y
AAATGGCCTTTAAAAAAAATTAATCCAATGGCCTTTAAAAAAAATAGTCTTTTAAAAAAATTTAGCTCTGCTGAAGGGGGAGGTTCCAAGATGGCAGAAT
Celera SNP ID:            hCV29358359
SNP Position Genomic:     54514
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61615):
CATACAAAACTGCAGTAACCGCTGCCCCACCACTTGGTAGAGTAGTCTGCTATCATCTGCTAGGGTGTATTTGGTTTTCCAGGTGACCATCTCTGTATCA
Y
TTAAATCTTTGAGGCTACCACCAAATTCTGCCATTTTACCTGGAATGTTGTATTGTTTCTGATTTGCCATCTTGGCTAGGTTGTGGACAACTAAAGCCTT
Celera SNP ID:            hCV15982321
SNP Position Genomic:     35669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61616):
TTCTGATTTGCCATCTTGGCTAGGTTGTGGACAACTAAAGCCTTTTTTACCATAATGCCTCTTATTTTATAAGTCAGGGAATCACGAGAGTTCCATCAGC
R
TTTAAGTGCTGCCTATACATTAAAAGTATGCACTCAGGGACCAGGGTATTTACCAAAGGGTAGGTTCAAGGACCCAACTGGCCCACTGTGGGATGGATTT
Celera SNP ID:            hCV15982322
SNP Position Genomic:     35826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61617):
TCAGCGTTTAAGTGCTGCCTATACATTAAAAGTATGCACTCAGGGACCAGGGTATTTACCAAAGGGTAGGTTCAAGGACCCAACTGGCCCACTGTGGGAT
R
GATTTAGGATAGGGCTTCCTTTATCATTTGGTGCCTTTCAAGTGCAACTCTAACAGGTGGACCACAACATATTTTGGGTTCCCTAGTATTAGTGAGAGGT
Celera SNP ID:            hCV15982323
SNP Position Genomic:     35921
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61618):
GATTTGATACCAGACTTCTGGTTGTGTATGAACTTCCCTGTTAGGGACAGAACATTTTTTTACTGGAGACAGGAGGAGCGATGGGATCAGGTCTAGCATT
Y
GAAGGTATTTTGGAAGCAGCTGTGAGATCTATATAAGCAGAACTAACAATCAGCTACTTTAGGACATCAGGACATATGTGCCTGGGAAAAGCAGTGAGTT
Celera SNP ID:            hCV29358360
SNP Position Genomic:     54008
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61619):
TGGGGTTATAGGCGTGAGCCACTGTGTCTGGCCAGCCCTGAGTACTTCAAAGTAACGGTGACAAACTACAGCACATTAAAATTGTGAGAGAAACTAGAAG
M
TTGGGAAAAGGGTGGAAGACCCAGGGATGATGCTTCTGAGAAAAGAAAGCTCAGCTGAGATTTGATACCAGACTTCTGGTTGTGTATGAACTTCCCTGTT
Celera SNP ID:            hCV29358361
SNP Position Genomic:     53849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61620):
TTATTCATTCCTCACAGTTGATTGATACACTGTCTGCTTAAGCTTTTTGAGGGTCAAATTATGTTCTCTGGTATCAGTAGTAACTGTGAGCTGTGAGAGA
Y
CTTTCTGTTTCATGATAGACAGATACAATATGATGGACTCTTGGAGAAATCGCTGGTCACAAGGGAAGAAGGTGAGGTCTCTGATGACCCTCCCAAAATA
Celera SNP ID:            hCV29358362
SNP Position Genomic:     47706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61621):
GTCCAGTTTAGCTTGGAGGGGACCATCTCTACTACTCAATGCCCCAATAGAGGACTTCCCAGCTGTCATCTCGAAATTTCTCATTCTTGGCACTTGTGGG
W
AAAGTCTAATTCTAGAGCTCCCCAGAGTCACTTTATCTCCTGGGGCAGTAAAAATCTGCCCATGGCACTGATCTTGGAGGAGACCTCTTATCTTCAGGGA
Celera SNP ID:            hCV29358363
SNP Position Genomic:     46501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61622):
CTTTAGGCCACTTCAGCCCCAGGTTCTAGCACCTTCACCCTGGTGCTTTTCCCTCCCAGGGAGTCTCATGAACTATTTCCTTTGGGGAAGGTGAAGAAAG
W
CCAGTTTAGCTTGGAGGGGACCATCTCTACTACTCAATGCCCCAATAGAGGACTTCCCAGCTGTCATCTCGAAATTTCTCATTCTTGGCACTTGTGGGAA
Celera SNP ID:            hCV29358364
SNP Position Genomic:     46402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61623):
CTTTACTTATGCAAATATCTGCAGCTGGCTTGAATTTCTCCTCAGAAAATGGGTTTTTCTTTTCTAGCACATCACCAGGCTGCAAATTTTCTGAACTTTT
R
TGCTCTGCTTCCCTTTTAAACATAAATTCCAACTCCAAACCATATCTTCATGAAAGAATAAAACTGTGTGTTTTTAAGAGCACCTAAGTCACATCTTGAA
Celera SNP ID:            hCV29358365
SNP Position Genomic:     43520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61624):
ACCAAGACTGCACAAAGCAGCAAGGCCCTGGGCCCAGCATATGCAGCCATTTTTTTCTCCTCAGCCTCCATGTCTGTGATGGGAAGGACTACTGTAAAGA
Y
CTCTGACATGCCCTGGAGACATTTTCCCCATTGTCTTGGGAATTAACATTTGGCTTCTCTTTACTTATGCAAATATCTGCAGCTGGCTTGAATTTCTCCT
Celera SNP ID:            hCV29358366
SNP Position Genomic:     43361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61625):
GGCACCAAGTACCAAGACTGCACAAAGCAGCAAGGCCCTGGGCCCAGCATATGCAGCCATTTTTTTCTCCTCAGCCTCCATGTCTGTGATGGGAAGGACT
R
CTGTAAAGATCTCTGACATGCCCTGGAGACATTTTCCCCATTGTCTTGGGAATTAACATTTGGCTTCTCTTTACTTATGCAAATATCTGCAGCTGGCTTG
Celera SNP ID:            hCV29358367
SNP Position Genomic:     43351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61626):
GATGCAAGCTGTTGCTGGGTCTACCATCCTGGGGTCTGAGGACAGTGGCCCTCTTCTCACAACTCCACTAGGCAGCGCCCCAGTGTGGACTCTGTGTGGG
K
CTCCCATCCCACATTTCCCTTCCACACTGACCTAGCAGAGATTCTCCATGAGGGCTCTGCCCCTGCAGCAAACTTCTGCTTGAGCATCCAGGCATTTCCA
Celera SNP ID:            hCV29358368
SNP Position Genomic:     42986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61627):
CAGTGTGTTTTGACTTGAGCAGCCTTGGCTTCTTTCTCTTTCCCTCAGCAGCGGGGAGTCAGCTTGGCCAGTGCTTGTGATGGGCAAGCCTGGGGCATCC
Y
CTTCTCATGGGTTGGGTGAAGCCTCTAGTGCTGAAGGACAAAGCTCACACAACTCCCCGCTTTTGGCTGTCAGCACCAGCCAGACAGGAGCAAGAACCAG
Celera SNP ID:            hCV8923427
SNP Position Genomic:     39979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61628):
GGCATTGAGTGTCTGTGGCTGCACATGATGCAAGCTGTTGCTGGGTCTACCATCCTGGGGTCTGAGGACAGTGGCCCTCTTCTCACAACTCCACTAGGCA
R
CGCCCCAGTGTGGACTCTGTGTGGGTCTCCCATCCCACATTTCCCTTCCACACTGACCTAGCAGAGATTCTCCATGAGGGCTCTGCCCCTGCAGCAAACT
Celera SNP ID:            hCV29358369
SNP Position Genomic:     42960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61629):
CCTTGGCTTCTTTCTCTTTCCCTCAGCAGCGGGGAGTCAGCTTGGCCAGTGCTTGTGATGGGCAAGCCTGGGGCATCCCCTTCTCATGGGTTGGGTGAAG
M
CTCTAGTGCTGAAGGACAAAGCTCACACAACTCCCCGCTTTTGGCTGTCAGCACCAGCCAGACAGGAGCAAGAACCAGGAACAACTCCCAGCATCTCAGA
Celera SNP ID:            hCV8923428
SNP Position Genomic:     40001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61630):
ACCAAAGGGTAGGTTCAAGGACCCAACTGGCCCACTGTGGGATGGATTTAGGATAGGGCTTCCTTTATCATTTGGTGCCTTTCAAGTGCAACTCTAACAG
R
TGGACCACAACATATTTTGGGTTCCCTAGTATTAGTGAGAGGTGACAGTGTGCTGGCAGCCCTGGCAGCCCTCGCTCACTCTTGGCGGTGCCTTGGCCTT
Celera SNP ID:            hCV15982330
SNP Position Genomic:     35978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61631):
GGTGCCTTTCAAGTGCAACTCTAACAGGTGGACCACAACATATTTTGGGTTCCCTAGTATTAGTGAGAGGTGACAGTGTGCTGGCAGCCCTGGCAGCCCT
Y
GCTCACTCTTGGCGGTGCCTTGGCCTTGGCGCCCACTCTGGCCATGCTTGAGGAGCCCTTCATTCTGCCGCTGCACTGTGGGAGCCCCTCTCTCAGCTGG
Celera SNP ID:            hCV15982331
SNP Position Genomic:     36051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61632):
GTGCCTTTCAAGTGCAACTCTAACAGGTGGACCACAACATATTTTGGGTTCCCTAGTATTAGTGAGAGGTGACAGTGTGCTGGCAGCCCTGGCAGCCCTC
R
CTCACTCTTGGCGGTGCCTTGGCCTTGGCGCCCACTCTGGCCATGCTTGAGGAGCCCTTCATTCTGCCGCTGCACTGTGGGAGCCCCTCTCTCAGCTGGC
Celera SNP ID:            hCV15982332
SNP Position Genomic:     36052
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61633):
GGAACTACAATTCAAGATGAGATTTGGGTGGGGACACAGCCAAACTATATCATTCCACCACTGGCTCCACCCAAATCTCATGTCCTCACATTTCAAATTA
Y
AATCATGCCCTCCCAACAGTCCCCCAAAGGCTTAACTCATTCCAGCATTAACTCAAAAGTCCGAGTCTAAAGTCTCATCTGAGACAAGGCAAGTCCCTCC
Celera SNP ID:            hCV28001372
SNP Position Genomic:     42451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61634):
GGCTCAGGGATTGTAAACGCACCAATCAGCACCCTGTCAAAACAGACCAATCAGCTGTCTGTAAATCAGACAAATCAGCTCTCTGTAAAATGGACCAATC
R
GCAGGATGTGGGTGGGGCCAGATAAGGGAATAAAAGCAGGCCGCCCCAGCCAGCAGTGGCAACCTGCTCGGGTCCCCTTCCACACTGTGGAAGCTTTGTT
Celera SNP ID:            hCV28001373
SNP Position Genomic:     37191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61635):
GGAGTCTATAGAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTTCACCCAGTTCGAGCTTCCTGGCCACTTTGTTTACCTAGTCAAGCCTCAGCAATGG
Y
GGACGCCCCTCCCCCAGCCCAGGCTGCCGCCTCACAGTTCAATCTTGGACTGCTGTGCCAGCAGTGAGCAAAGCTCCATGGGTGTGGGACCTGCTGAGCC
Celera SNP ID:            hCV28001374
SNP Position Genomic:     16648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61636):
CAAATCTCCACTCCTGGATGCTCTAGTCTTTCCTGATTACAGGCCCACATGGAGCCTGTTTGAAGGGGTCGCTGCCATGGGCTGAGTCAGGGCATTGAGG
Y
CTGGATGTCAGGGCTCAGCAGTGTCCAGTTTCCAGGCCTCATTACAGCTGCTCCCATGAGGGGTTCCCCCAGCACTGGGCCTGGAGAGTTATGAGTCTCT
Celera SNP ID:            hCV15982339
SNP Position Genomic:     40204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61637):
TCACAGGCTGGCATTGAGTGTCTGTGGCTGCACATGATGCAAGCTGTTGCTGGGTCTACCATCCTGGGGTCTGAGGACAGTGGCCCTCTTCTCACAACTC
Y
ACTAGGCAGCGCCCCAGTGTGGACTCTGTGTGGGTCTCCCATCCCACATTTCCCTTCCACACTGACCTAGCAGAGATTCTCCATGAGGGCTCTGCCCCTG
Celera SNP ID:            hCV29358370
SNP Position Genomic:     42951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61638):
ATGATGTAATTACTGATGAGAAAATGAACCCAAAGTAATGCAGCCAACTCCTCTTCTGGGGAGTGGTTGCATTTAATTGCACTAAAGCCACGTAACAAAA
R
CAACAGCAAAACCCCCAAACACTTAAACTACCCAAACAAATTGAAAGTGCTGAAAAGTTGAGTGAGGACAGAAGCCTCTCATCATTTAATCCAAAACATA
Celera SNP ID:            hCV29358372
SNP Position Genomic:     39291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61639):
TTTCCTATCTCCAGGAAATGGAGACATGACAGTATACTTTTTGGCCTGCTTGTTTTTCTTTACCAAAAACAATTTTAGGAAAAGCTTGAGAATATGTAAG
K
CTCAGTGATGTGACTTTTTCCTTTTTCTTCTGTCGTTGAAGAGGAAGAGTTGAGGAACCTCCTTGGATAGAAGGGGTATAGCTTATTTTAGGACTTCAAC
Celera SNP ID:            hCV29358373
SNP Position Genomic:     38288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61640):
TGGAAGACTCCCTCTTGAGGGGTGTGGCTTCAAAAAAGGAGCATTTCCTATCTCCAGGAAATGGAGACATGACAGTATACTTTTTGGCCTGCTTGTTTTT
Y
TTTACCAAAAACAATTTTAGGAAAAGCTTGAGAATATGTAAGGCTCAGTGATGTGACTTTTTCCTTTTTCTTCTGTCGTTGAAGAGGAAGAGTTGAGGAA
Celera SNP ID:            hCV29358374
SNP Position Genomic:     38245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61641):
CGTGTGTGTGTCATGAGGACACAGGATAAAGTCTGTTGTCTGTGGCCCTGGGGGATTGAGGCAGTGATCACCAGAGCTGGCTTTATCTTTGCGTTCATGC
R
TCTTCTACCCACTCAGCTCACATTTCGTTATACCATTCAGCAGTTGGCAACCTGAGGGGTTCCTAGGGAGGGAGATGTAGGCTAGTCCATCTTCTCCTCC
Celera SNP ID:            hCV29358375
SNP Position Genomic:     23485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61642):
GGTGCTGGATAGCTCTGTGCTGGCAGAATGCTACTTCTCACACCCCTCTGCACAGCAGAGATGATGAGGGCTGGGCCTGATTTTCTCCCTGCACTCTGAT
R
TAATAAAGTTGTTGTCACTAGGACCTATTAAATCAGACACTCATGGTAGTAAATGTGGAGATCAGGCAGCTTGGAAATCCTCAGGCACATGTGCATGTGG
Celera SNP ID:            hCV29358376
SNP Position Genomic:     23281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61643):
TATCTGGAATTACAAATTTCAAAAGAAGTGAATCTCACAACTATAATGTTAAACAAAAAAGAAGTTGCAGAAAAGTACCTACAATATAATGCTATTTACC
W
AGAGATTAAAAGTATGCAAAATTATACTTTTTTTTATTGAGGGGCTAAATATATTTGTAGTTAAAATAAAAAGAAATGCAAGGGAATGGTGATGATGGGT
Celera SNP ID:            hCV29358377
SNP Position Genomic:     19089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61644):
GAAGTAAAGTGTGCACTTCTAAATCAGTAGAGGGAAACAATTGAATAAGATAATCTAATCAATTTAAAAGTTATCAGGAAAAGATAAAAAGAGGATGCTT
R
GAAAAAACTAGAAAGGCCAAAATAAGATAACAGAAATAATCAGTAACCATAATAAATTTAAATGGAGTAAGAAATTAAATTAACTAGATGTATCTGGAAT
Celera SNP ID:            hCV29358378
SNP Position Genomic:     18898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61645):
GGGGCCTATTTCCAACATGAAGGTAAAACAAGGATACTTTTTAGACAAGCAAAAACTGAGAGCATTTGCCACCATCAGACTTAATATACTTTGTCAGGAA
R
AAAGGAAATGATCTGAAAAGGAAAATGTAAGATGCAGGAAAATAGTGATCAAAGGAATTGATAAAGTTGATAAATATAAATATTTACTATATTAAGCAAC
Celera SNP ID:            hCV29358379
SNP Position Genomic:     18526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61646):
AGCCCAGTTTACTGGAGCTGTGGATTGGGGTGGCCAAGAGCTTTGTCATGCGTATGGTAATAGCTTATAAGTATTTATTCCCAAATGGCTAAGAAATTAA
Y
TGAGCACCATTTATTTTACCACAGTTTCTGTGTTTACTATATACTAAATGTTTTCTATAGGCTAGAGCCATTATCTGAGCTCTCTAGTCAGTTTCATGGA
Celera SNP ID:            hCV15982340
SNP Position Genomic:     47936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61647):
GAAGAGAAAATAATTACCAACCTAGAATTGCTTACCAACACATTATTCAAGAATGAAGGTGCCGAGACCAGCTCGGCCATGGAGACCCTAACCTGGCGGC
R
CTAGAGGAATTAAAGACACACATACAGAAATATAGGGTGTGGAGTGGGAAATCAGGGGTCTCATAGCCTTCAGAGCTGAGAGCCCTGAACAGAAATTTAC
Celera SNP ID:            hCV29358380
SNP Position Genomic:     17974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61648):
AATATCATCTAATGGAATAATATCTCAAGCTTGAAGAGAAAATAATTACCAACCTAGAATTGCTTACCAACACATTATTCAAGAATGAAGGTGCCGAGAC
Y
AGCTCGGCCATGGAGACCCTAACCTGGCGGCGCTAGAGGAATTAAAGACACACATACAGAAATATAGGGTGTGGAGTGGGAAATCAGGGGTCTCATAGCC
Celera SNP ID:            hCV29358381
SNP Position Genomic:     17942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61649):
TCCATTCTCAGATCTCAAACTCTGTGCTGGGAAAACCACTGCTCTCTTGAAAACTGTCAGACAGGGACGTTTAAATTTGCAGAAGTTTCTGCTGCCTTTT
K
TTCAGCTGTGCCCTTCCCCCAGAGGTGGAGTCTATAGAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTTCACCCAGTTCGAGCTTCCTGGCCACTTTG
Celera SNP ID:            hCV29358382
SNP Position Genomic:     16521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61650):
TTTCCAACTTGGTTCCATTCTCCCTGTCAATTTCAGGTACACCAATCAGACGTAGATTTGGTCTTTTCACATAGTCCCATATTTCTTGGAGGCTTTGTTC
R
TTTCTTTTTCCTCTAAAATTCTCTTCTTGCTTCATTTCATTCATTTGCTCTTCAATCACTGATACCCTTTTTTCCACTTGACCGAATAGGATACTGAAGC
Celera SNP ID:            hCV29358383
SNP Position Genomic:     15619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61651):
GGATTGAAAATTCTCTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTTTAGAGTTTCTGCTGAGAGATCCACTGTTAGTCTGATGGGC
Y
TCCCTTTGTGGGTAACCCAGACTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCGACCTTGGTGAGTCTGACAATTTTGTGTCATGGGGTTGC
Celera SNP ID:            hCV29358384
SNP Position Genomic:     15311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61652):
GAAGGACAAAGCTCACACAACTCCCCGCTTTTGGCTGTCAGCACCAGCCAGACAGGAGCAAGAACCAGGAACAACTCCCAGCATCTCAGAATCAAATCTC
Y
ACTCCTGGATGCTCTAGTCTTTCCTGATTACAGGCCCACATGGAGCCTGTTTGAAGGGGTCGCTGCCATGGGCTGAGTCAGGGCATTGAGGTCTGGATGT
Celera SNP ID:            hCV8923442
SNP Position Genomic:     40112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61653):
CTTCACTTATGAAACTTAGTTTGGCTGGATATGAAATTCTGGATTGAAAATTCTCTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGGCTTT
K
AGAGTTTCTGCTGAGAGATCCACTGTTAGTCTGATGGGCCTCCCTTTGTGGGTAACCCAGACTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTT
Celera SNP ID:            hCV29358385
SNP Position Genomic:     15271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61654):
GGATGCTCTAGTCTTTCCTGATTACAGGCCCACATGGAGCCTGTTTGAAGGGGTCGCTGCCATGGGCTGAGTCAGGGCATTGAGGTCTGGATGTCAGGGC
Y
CAGCAGTGTCCAGTTTCCAGGCCTCATTACAGCTGCTCCCATGAGGGGTTCCCCCAGCACTGGGCCTGGAGAGTTATGAGTCTCTCCTGTACTTTCTGCT
Celera SNP ID:            hCV8923443
SNP Position Genomic:     40219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61655):
TTGTGGAGGACCAAAGAATGATAACATTAATTTGCCTATTGAGAGTGTTTTGGGAAAGTTAGCCAAAGCTTTAGCAGAAAAACACCTGAGAAAGCTTCAC
Y
AGACAGTTCTTCTCCACCGTGACAATGCTTTTGCTCATGTCTCTCATCATACAAGAACAATTTTGTTAGAGTTTCAATGGGAAATCTTTAGGCATCCACC
Celera SNP ID:            hCV29358386
SNP Position Genomic:     8756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61656):
GAGCAACCTCAGCGTGCCTCGAGGGGGACAGGCATCCGGGAGGCCAGCGGCTGAGCTGGGTTCTGGGCGCTGGCAGGTCAGCAGGGCAGGGAAGAGAAGG
K
CATCGAGGGTGGGCCTGGGGGCTTCCCAGCAGCCAGCCCCTGTGACTGGGAGAAAATCCTGCCCCTGGGCGGAAAGGCCCCCATCTCTCCCTAATGGTGA
Celera SNP ID:            hCV8923444
SNP Position Genomic:     45277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61657):
ACTAATACAATCCTGAAGCATTTCATCAAAGAATTGTAACAGGAGATGAAACATGGCTTCACCAGTATGATCCTGAAGAAAAAGCACAATCAAAGCAGTG
K
CTATCAAGAGGAGGAAGTCAAAGCAAAGCAGACCAGTCAAGAGCAAAGGTAATGGCAACAGTTTTTTTAGGATACTCAAGGTATTTTCCTTGTTGACTTT
Celera SNP ID:            hCV29358387
SNP Position Genomic:     8557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61658):
CAGACTAATACAATCCTGAAGCATTTCATCAAAGAATTGTAACAGGAGATGAAACATGGCTTCACCAGTATGATCCTGAAGAAAAAGCACAATCAAAGCA
R
TGGCTATCAAGAGGAGGAAGTCAAAGCAAAGCAGACCAGTCAAGAGCAAAGGTAATGGCAACAGTTTTTTTAGGATACTCAAGGTATTTTCCTTGTTGAC
Celera SNP ID:            hCV29358388
SNP Position Genomic:     8554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61659):
TTATAAATTACCCAGTCCCCAGCAGTTCTTTATAGAAGTGTGAAAACAGACTAATACAATCCTGAAGCATTTCATCAAAGAATTGTAACAGGAGATGAAA
Y
ATGGCTTCACCAGTATGATCCTGAAGAAAAAGCACAATCAAAGCAGTGGCTATCAAGAGGAGGAAGTCAAAGCAAAGCAGACCAGTCAAGAGCAAAGGTA
Celera SNP ID:            hCV29358389
SNP Position Genomic:     8508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61660):
TGTTCAGTTCCCACCTATGAGTGAGAACATGCAGTGTTTGGTTTTTTGTCCTTGCGAGAATTTGCTCAGAATGATGGTTTCCAGCTTCATCCATGTCCCT
R
CAATGGATCATCCTTTTTAATGGATGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGATTGACATTTGGGTTGGTTC
Celera SNP ID:            hCV460843
SNP Position Genomic:     10929
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61661):
CACCACAGACCAAGAGCTCCACTTGCACAGTGCTGCTGGCTAAGAAGAAGTTGCTGTACCTGAGCACTGGACCACATGGACTCACAGAGACTCCCAACCA
R
GTAAAGGGGTGATATGGCTTGTGGATGTCAACCATATTCTCTTCTTGATCACCTCGCTGCTGGAACAATGGGCCATGGTCAGAGTAGAGTGGTCATGGAG
Celera SNP ID:            hCV27982581
SNP Position Genomic:     64901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61662):
ATGTCCAGTCCTGATGGTCCTGTCCATCCCTAAGGGATTATGATTCCAATCTTCTTTAGCTACTGTGGAGCATTTGGGCTTTTCCTTTCCCTAAGCTCCC
W
TGCAAGTTGTACCATTCTTTTTGCTATTTAAGGCATGCAGTAGGCAATAATTCAATGTATGGGGTTCCAATCCTGGGTGCCCTGGCTTTTGCCCTTGGCA
Celera SNP ID:            hCV27982583
SNP Position Genomic:     54291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61663):
CATCACTTTGTGAGGAAAAAAATTCATCTTGTTTGTGCCCTAATTGAAGAGAACTGACAACAGCAGAAACAATAGCCAACACCATAGACATCTCAGTTGG
K
TCAGTTTACACAATTCTGACTGAAAAGTTACAGTGGAGCAAACTTTCAACTCGATAGGTAACAAAACTGTTGTACCCAGATCTGCTACAGTTAAGAGCAG
Celera SNP ID:            hCV29358390
SNP Position Genomic:     7956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 PUTATIVE UTR 5


Context             (SEQ ID NO:61664):
TAGATGACATTTACATACATAATTAGGTCCACTGTTGACAATATACCTTTGCTCAGAATGATCTAATTATCAGCAGAACAAAGGTGAGCTTGTTTATGGA
R
AGTCCCAACTACATCTCTGGGTAAGGACCAGTGCACCTGGTCCAGTTTATACACCACTCCAGCTTCCCTGGATTCCACTTGCATTGACTGCTTGCTTTGC
Celera SNP ID:            hCV8923451
SNP Position Genomic:     64618
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61665):
TATTATGATGGAAATTAAAGGTGATGTTTTTAAGATCTGGGGATATAAAAATAGACTGGCATATAAACCAGGCCAGGTGTTAGCTATAATTCTTTTAGCA
R
TGGTGTTTATGCCCAGTTAAATTCAATATCCTCATGGGAGAAGGGAGATAACTGAGATAAAATAGGCAAATTAGTTAATGAAAAATTGAAAAATAGAATA
Celera SNP ID:            hCV27979656
SNP Position Genomic:     27822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61666):
CTGCTCTGACCTCAGGGTCTGGGGCCACAGGAACAGCATTCCTGAACCTCGACGTCTGTGGAGATGCCAGGTCTTCTCCAGGGGCTGCACCTTGTCTTCT
Y
CTTTTTCCCTTCCACTAAGACTTTTAGATGCCCCCATCCCTAGTCTGACCCCTAACCAGACATCTGTTCCCAGTGGGACCTTTTGTAGGAGCTGAGAGAC
Celera SNP ID:            hCV27979657
SNP Position Genomic:     22444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61667):
ATTTAGGCATTGGTTAAGAGAGGATTAACTAGATGTGAAGAAATTACCCAGAATGCAACAGAGAAAAAGAGATAGAAAATGTAAAAGAGAGGGTATGAGA
Y
GAGGATGATAAACTGAGAAATTATAATTCTTCTATTTGGTGTTCCAGAAGAGAGGAGTCAGAGAAGAGGACAGAGAAAATATTTGATGAAATAATAGCTG
Celera SNP ID:            hCV27979658
SNP Position Genomic:     17237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61668):
ACGCCTGGCTTGGAGGGTCCCACACCCACAGAGACTTGCTCACTGCTAGCACAGCAGTCTGAGATCGAACTGCAAGTCGGCAGCGAGGCTGGGGGAGGGG
W
GCCCGCCATTGCTGAGGCTTCAGTAGGTAAACAAAGTGGCTGGGAAGCTCGAACTGGGTGGAGCCCATGGCAGCTCGAGGAGGCCTGCCTGCCTCTGTAG
Celera SNP ID:            hCV27961037
SNP Position Genomic:     55033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61669):
CTCAGGCTCTGAGATGTTACTTGCCAAATGCTATTCACATAACCATTTTACATATTTCTGTTACTGTATGGTAGAACCAATCAACTAACCAATTAATCGA
S
CAACCAACCAAAATCCTAATTCTGGAGACACATTGGATAAAGGATCCTAGAAATCTCCCTTCCTTTTTATAAGATAGTCTGCTCTGACCTCAGGGTCTGG
Celera SNP ID:            hCV15982296
SNP Position Genomic:     22265
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61670):
ACCTCTCTGTACCTTAGTTTCCTTACAGTAATTGAGGATAACAAGTACCTGCCTCATAGAATTGCTATGAAGACTAAGTTAATACATTTAAATCTCAGAT
M
AGTCCACAGCACATAGATTTGATAGATGTCAATCATCATCATCATCATCATCATCATATGAAATTATTAGCTGGGGTGTTAGAAATATAAGAAGAGACAG
Celera SNP ID:            hCV15982297
SNP Position Genomic:     26219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61671):
ACTCCCTGGCAAGCACTTCTGATGGTTTAGGTTGTTTATTCAATAAGGCAAATCGGATCTTTATCTCTAAGGTTACCGTGCCATTGTTAAGGCAGGATTT
Y
TGCAATTGTGTGTTATAGTTATCACTGGGTAGAAGCATCAAGAAGTGTCTTGTACTGCTTCCTGGGCCACAATTACATTGTTTTGTGGCAACAACTTGAT
Celera SNP ID:            hCV27883964
SNP Position Genomic:     34482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61672):
ACCCATTAAGTAATTTCTCATCACGGGAGTATCTCGATTGGATTTCCTCAGAAACAGACCCTGATACAAAAATTTGAGTGCAAATAGTTTGTTTGTGATG
K
GATTCCTGGAAGCACTGATGGGTGAGTGAAGAAGTGAAACAGAGAAGGAAAGAAAATACAGGGTGTTTCAATGAGCAAATTACCTCTGTGGGCACCTGGG
Celera SNP ID:            hCV27883965
SNP Position Genomic:     30575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61673):
AGCTGTTAATTGAATGCAAACAGTACTACTTGATGAAACAAATGGTGGAAAATGCCTTATTATGATGGAAATTAAAGGTGATGTTTTTAAGATCTGGGGA
Y
ATAAAAATAGACTGGCATATAAACCAGGCCAGGTGTTAGCTATAATTCTTTTAGCAATGGTGTTTATGCCCAGTTAAATTCAATATCCTCATGGGAGAAG
Celera SNP ID:            hCV27883966
SNP Position Genomic:     27765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61674):
TGAATCTCAGGTTTTTGAATAGTGTCTAATGAATCCCAAGTTTCTGACTCCAGCCTGAATATTTTTCCTGAATTCTAGGCTTAAATATCAAACTACCTAC
Y
CAATGTTTGTATGTGGATGACTAATAGCCATCTAAACTTAACACACCCCATACCATTCTCTTGATTTCCATGGCCCCAAACTTGTTCCTTTGCTGGTTCT
Celera SNP ID:            hCV27883967
SNP Position Genomic:     24532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61675):
CAGCTACAGGAGGCTGGACCACAACCAACATGAAATTTTTGCTGAGTTTAGACAGAAGGTCACTACGTCACTGAGGTATCTCATTGAATACTTGATTAGA
Y
AGAGAAGGAGATGATGGAGAAGAAAGAAAGATGACAGGAGAGGATAAGGGGGTGGCCATGACAACAGAGGAAGAGAGAGGACTCAGAGGGTGTCCCCAAG
Celera SNP ID:            hCV27883968
SNP Position Genomic:     23708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61676):
TTCCTGGCCACTTTGTTTACCTAGTCAAGCCTCAGCAATGGTGGACGCCCCTCCCCCAGCCCAGGCTGCCGCCTCACAGTTCAATCTTGGACTGCTGTGC
Y
AGCAGTGAGCAAAGCTCCATGGGTGTGGGACCTGCTGAGCCAGGCATGGGATATAATCTCCTGGTGTGCCGTTTGCTAAGACCATTGGAAAAGCACAGTA
Celera SNP ID:            hCV27883969
SNP Position Genomic:     16707
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61677):
AAAATTCTCTTCTTGCTTCATTTCATTCATTTGCTCTTCAATCACTGATACCCTTTTTTCCACTTGACCGAATAGGATACTGAAGCTTGTGCATGCCTCA
K
GTAGTTCTTGTGCCATGGTTTTCAGCTCCATCAGGTCATTTAAGGTCTTCTCTATGCTGTTTATTCTAGTTAGCCATTCATCTAGTCTTTTTTCAAGGTT
Celera SNP ID:            hCV27883970
SNP Position Genomic:     15734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61678):
GGAAAGACCTGGTGGGAGGTGATTGGATCATGGGGGCAGTTTCCCCCATGCTGTCCTCATGATAGTGAGGGTGTTCCCATGAGATCTGATGGTTTTATAA
R
TAGCAGTTTCCTGTGGGCTTTTCACTTACTGTTTTTCCTGCCACCATGTGAAGAAGGTCTTTGCTTCCCCTTTGCCTTCCACCATGATTATAAGTTTCCT
Celera SNP ID:            hCV27883971
SNP Position Genomic:     8258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 PUTATIVE UTR 5


Context             (SEQ ID NO:61679):
CGTGTGCATGTGTCAGAGCAGAGATTTTATCTGCTTTGTTCACTCTTCACCCCAGAATTTTGGAGAGTACCTTCATTTTGTAGATGCTCAATTAGTATTT
W
TTGAGTAAATGAAAGAATGGTGGTTGAGAGTGCAGGTCCTGGAAAAAGATTCCCTGAGTTCAAATTCCAGATCTTCTCTTTAACAACTGTGTGATTTTGG
Celera SNP ID:            hCV16154072
SNP Position Genomic:     26006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61680):
ACTCTCCAAGAACATAAGTTTCCCATGTGTCACCAAATCTAATCCCTAGTTTTCAGTTAGTTTTCTTGACCTCTCAGTATCATTGGGCACCTGCTGATTC
S
TTCCTCCCTTTGAAAATGTTTGGCTTCAGTGAAAGACATTCTCTTCTCGGCTTTCTCCTACCTTTTTTCAGTCTCTGATGCTTGCTCCACCTCTGCTAAG
Celera SNP ID:            hCV27883972
SNP Position Genomic:     6524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61681):
AGTACCTTCATTTTGTAGATGCTCAATTAGTATTTATTGAGTAAATGAAAGAATGGTGGTTGAGAGTGCAGGTCCTGGAAAAAGATTCCCTGAGTTCAAA
K
TCCAGATCTTCTCTTTAACAACTGTGTGATTTTGGGCAAGTTTCTTAACCTCTCTGTACCTTAGTTTCCTTACAGTAATTGAGGATAACAAGTACCTGCC
Celera SNP ID:            hCV16154073
SNP Position Genomic:     26071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61682):
TATAAGAATGTATATGTTTGCAAGAACTTTTCTTAGGGAGGGGCAGAGGCTGAGAAGAATTCAAGTTTGTTGGGCAGTGTGTGGAGAGAGGAGTGCTATG
R
AGCTGTCAGAGCACAATATTTACAAGCATCAGATGTTCCTGAACATTCTGGAGCTGTACTCTATACAAGTTCTGACAGTAGGATAAGGCTTCTTTGTTTC
Celera SNP ID:            hCV345982
SNP Position Genomic:     61780
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61683):
GTTTCTTAACCTCTCTGTACCTTAGTTTCCTTACAGTAATTGAGGATAACAAGTACCTGCCTCATAGAATTGCTATGAAGACTAAGTTAATACATTTAAA
W
CTCAGATCAGTCCACAGCACATAGATTTGATAGATGTCAATCATCATCATCATCATCATCATCATATGAAATTATTAGCTGGGGTGTTAGAAATATAAGA
Celera SNP ID:            hCV16154076
SNP Position Genomic:     26211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61684):
GATTGGGGTGGCCAAGAGCTTTGTCATGCGTATGGTAATAGCTTATAAGTATTTATTCCCAAATGGCTAAGAAATTAACTGAGCACCATTTATTTTACCA
Y
AGTTTCTGTGTTTACTATATACTAAATGTTTTCTATAGGCTAGAGCCATTATCTGAGCTCTCTAGTCAGTTTCATGGATCTATCTGGTCAATTCTTGTAG
Celera SNP ID:            hCV16154077
SNP Position Genomic:     47958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61685):
AGTTCAGTGGTGTGAACACAGCTCACTGCAGCCTCAATCTCCCAGGTTTAGCAATTCTCCCACCTCAGCCTCCTGAGTAGGGTAGCTGAGACTACAGGCA
Y
GTGCCACCATGCCCAGCTAGTTTTTGTATTTTTTGTAGAGATGGCATCTCACCATGTCACCCAGGTTGGTATCAAACTCCTGAGCTCAAATGATCCTCCT
Celera SNP ID:            hCV9952205
SNP Position Genomic:     40821
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61686):
GATTGTAAACGCACCAATCAGCACCCTGTCAAAACAGACCAATCAGCTGTCTGTAAATCAGACAAATCAGCTCTCTGTAAAATGGACCAATCAGCAGGAT
R
TGGGTGGGGCCAGATAAGGGAATAAAAGCAGGCCGCCCCAGCCAGCAGTGGCAACCTGCTCGGGTCCCCTTCCACACTGTGGAAGCTTTGTTCTTTTGCT
Celera SNP ID:            hCV27958119
SNP Position Genomic:     37199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61687):
TGGTGTGAACACAGCTCACTGCAGCCTCAATCTCCCAGGTTTAGCAATTCTCCCACCTCAGCCTCCTGAGTAGGGTAGCTGAGACTACAGGCACGTGCCA
Y
CATGCCCAGCTAGTTTTTGTATTTTTTGTAGAGATGGCATCTCACCATGTCACCCAGGTTGGTATCAAACTCCTGAGCTCAAATGATCCTCCTGCCTCAG
Celera SNP ID:            hCV9952208
SNP Position Genomic:     40828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61688):
CATTTTTGAATATTCTTTTTTCTTCAATTCGCACTATATTGTACTTATAACTAGATTTGGAGTTGGGATTCCCAAGCTCTGAGGCAAGCAGGGAGGGAGC
Y
GTTGGAGGCCCCTTGATGTTTGCGCCTTTGGAGTAGGATGATTGTGAAAGCAGTAGAAGGACTTCAGAACCAGGAAGGTCATCTCCTCCTGTACCTCTCC
Celera SNP ID:            hCV15982387
SNP Position Genomic:     63003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61689):
ATTGTACTTATAACTAGATTTGGAGTTGGGATTCCCAAGCTCTGAGGCAAGCAGGGAGGGAGCCGTTGGAGGCCCCTTGATGTTTGCGCCTTTGGAGTAG
S
ATGATTGTGAAAGCAGTAGAAGGACTTCAGAACCAGGAAGGTCATCTCCTCCTGTACCTCTCCCTTACCCCAGGCTCTGGTAACCACCATTCTACTTATT
Celera SNP ID:            hCV15982388
SNP Position Genomic:     63040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61690):
ATTTTTTGAGAGAGGTCTATTAGGTTCTTTGCCCATTTTAAAATTGGGTTATTTGCTTTCTTGCTATTGAATTGACTTCTTTATTTGTTTTGAATATTAA
M
CCCTTATTAGATGTGTGATTTGCAAATATTTTCTCCCATTCTATTGATTGTTTCTTCACTCTGTTGATTGTTTCCTTGGTTGTGCAGAAGACTTTTAGTT
Celera SNP ID:            hCV27939106
SNP Position Genomic:     63843
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61691):
CAGTGTGGACTCTGTGTGGGTCTCCCATCCCACATTTCCCTTCCACACTGACCTAGCAGAGATTCTCCATGAGGGCTCTGCCCCTGCAGCAAACTTCTGC
Y
TGAGCATCCAGGCATTTCCATACATCTTTTGAAATCTAGGCAGAGGTTCCCAAGCCTCACTTCTTGATTTCTCTGCACCTGCAGACCCAACACCATGTGT
Celera SNP ID:            hCV27939107
SNP Position Genomic:     43066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61692):
GCCACATGCAAGTCCAAAATCCAATAGGGCAGTCGTTAAACCTTAAAGTTCCAAAATGATCTCTTTTGACTCCATGTCTCACATCCAGGTCACACTGATG
Y
AAGAGGTGGGTTTTCACAGTCTTGGGGAGCCCTGCCCCTTGGCTTTGCAGGGTACAGCCCCAACTTCTAGCTGCTTTCACAGGCTGGCATTGAGTGTCTG
Celera SNP ID:            hCV27939108
SNP Position Genomic:     42774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61693):
ACCTGAGGGGTTCCTAGGGAGGGAGATGTAGGCTAGTCCATCTTCTCCTCCATGGATCAACATAGGCCAGACCCAGCTACAGGAGGCTGGACCACAACCA
R
CATGAAATTTTTGCTGAGTTTAGACAGAAGGTCACTACGTCACTGAGGTATCTCATTGAATACTTGATTAGACAGAGAAGGAGATGATGGAGAAGAAAGA
Celera SNP ID:            hCV27958120
SNP Position Genomic:     23635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61694):
CATTGGATAAAGGATCCTAGAAATCTCCCTTCCTTTTTATAAGATAGTCTGCTCTGACCTCAGGGTCTGGGGCCACAGGAACAGCATTCCTGAACCTCGA
Y
GTCTGTGGAGATGCCAGGTCTTCTCCAGGGGCTGCACCTTGTCTTCTCCTTTTTCCCTTCCACTAAGACTTTTAGATGCCCCCATCCCTAGTCTGACCCC
Celera SNP ID:            hCV27958121
SNP Position Genomic:     22396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61695):
AGATAGAAAATGTAAAAGAGAGGGTATGAGACGAGGATGATAAACTGAGAAATTATAATTCTTCTATTTGGTGTTCCAGAAGAGAGGAGTCAGAGAAGAG
R
ACAGAGAAAATATTTGATGAAATAATAGCTGATTGTTTTCTAGAATTAAAGAAAGATATGAATCCTCAGATTCAGTAAACAAAATGAGTTTCAAGTAAGA
Celera SNP ID:            hCV27958122
SNP Position Genomic:     17306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61696):
TGCTGAGCCAGGCATGGGATATAATCTCCTGGTGTGCCGTTTGCTAAGACCATTGGAAAAGCACAGTATTAGTGCGGGAGTGTCCCAATTTTCCAGGTAC
Y
GTCTGTCACGGCTTCCCTTGGCTAGGAAAGGGAATTCCCCGACCTCTTGTACTTCCCGGGTGAGGTGATGCCCCACCCTGCTTCAGCTCACACTCTGTGT
Celera SNP ID:            hCV27958123
SNP Position Genomic:     16840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61697):
GTGAGCAAAGCTCCATGGGTGTGGGACCTGCTGAGCCAGGCATGGGATATAATCTCCTGGTGTGCCGTTTGCTAAGACCATTGGAAAAGCACAGTATTAG
K
GCGGGAGTGTCCCAATTTTCCAGGTACTGTCTGTCACGGCTTCCCTTGGCTAGGAAAGGGAATTCCCCGACCTCTTGTACTTCCCGGGTGAGGTGATGCC
Celera SNP ID:            hCV27958124
SNP Position Genomic:     16812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61698):
GCCTCCTTGAGCTGTGGTGGGCTTCACCCAGTTCGAGCTTCCTGGCCACTTTGTTTACCTAGTCAAGCCTCAGCAATGGTGGACGCCCCTCCCCCAGCCC
R
GGCTGCCGCCTCACAGTTCAATCTTGGACTGCTGTGCCAGCAGTGAGCAAAGCTCCATGGGTGTGGGACCTGCTGAGCCAGGCATGGGATATAATCTCCT
Celera SNP ID:            hCV27958125
SNP Position Genomic:     16669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61699):
AGTTTTCTTGACCTCTCAGTATCATTGGGCACCTGCTGATTCGTTCCTCCCTTTGAAAATGTTTGGCTTCAGTGAAAGACATTCTCTTCTCGGCTTTCTC
S
TACCTTTTTTCAGTCTCTGATGCTTGCTCCACCTCTGCTAAGTTCTTAAAATATTGGTATTCCTCAGAGCTGGATCCTAGGACCTTCTCTTTCCAATCTG
Celera SNP ID:            hCV27958126
SNP Position Genomic:     6582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61700):
TGAATAATGTTAAACTTTGTTAAATGTAAATTTAAAAATTAAGGCTAAATATTGCATATTAGAAGTAAAGTGTGCACTTCTAAATCAGTAGAGGGAAACA
R
TTGAATAAGATAATCTAATCAATTTAAAAGTTATCAGGAAAAGATAAAAAGAGGATGCTTGGAAAAAACTAGAAAGGCCAAAATAAGATAACAGAAATAA
Celera SNP ID:            hCV11714511
SNP Position Genomic:     18837
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61701):
TCAAGACGGTCTTAGGGGACAGGAGCTGGTGGCGGGAGGGGAGACAGCACTCCGAGCAACCTCAGCGTGCCTCGAGGGGGACAGGCATCCGGGAGGCCAG
M
GGCTGAGCTGGGTTCTGGGCGCTGGCAGGTCAGCAGGGCAGGGAAGAGAAGGGCATCGAGGGTGGGCCTGGGGGCTTCCCAGCAGCCAGCCCCTGTGACT
Celera SNP ID:            hCV2796304
SNP Position Genomic:     45224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61702):
CCGGTGAGGAGAGGCCTTGCCTGTCCCAGAGGCCTGGTCCCGCTCAGCCAGGTCATGGGACAGTGGAAAGGCCCCGCTGGAACCTAGGAGGAAGTGGCGC
W
GGTCAAGACGGTCTTAGGGGACAGGAGCTGGTGGCGGGAGGGGAGACAGCACTCCGAGCAACCTCAGCGTGCCTCGAGGGGGACAGGCATCCGGGAGGCC
Celera SNP ID:            hCV2796305
SNP Position Genomic:     45121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61703):
AGTTGCCGGTGAGGAGAGGCCTTGCCTGTCCCAGAGGCCTGGTCCCGCTCAGCCAGGTCATGGGACAGTGGAAAGGCCCCGCTGGAACCTAGGAGGAAGT
K
GCGCAGGTCAAGACGGTCTTAGGGGACAGGAGCTGGTGGCGGGAGGGGAGACAGCACTCCGAGCAACCTCAGCGTGCCTCGAGGGGGACAGGCATCCGGG
Celera SNP ID:            hCV2796306
SNP Position Genomic:     45116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61704):
AGGCAGGGCAGGCTGAAAGTAGCAGAGGCTGTGTTGTGATTGGCGGTCAGCGGTCCGGAGTCCACCGAGGGCTGGGCTGGATGTGAAGGGTTGAGTTGCC
K
GTGAGGAGAGGCCTTGCCTGTCCCAGAGGCCTGGTCCCGCTCAGCCAGGTCATGGGACAGTGGAAAGGCCCCGCTGGAACCTAGGAGGAAGTGGCGCAGG
Celera SNP ID:            hCV2796307
SNP Position Genomic:     45023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61705):
TGTCTGATGTTTTTTCTTATTGATTGATAGGCACAACTTGTAAGTTCTGCATGTGAGCCCTTTGTTGATATATGTGTTGCAAGGATCTTCTCCCATTCTA
Y
GGTTTGCCTTTTTCGCTCACTTAAAGGTGTCTTTTCATGAGCAAAAGTCCTTCTTGTAGTCTCATTTTTAAAATCGTTTTTCCTTTAAGGCGATAATTCT
Celera SNP ID:            hCV11431405
SNP Position Genomic:     29443
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61706):
AAATTCTGGACACATTAGTACCAGCTCAGATCCTATACACAAGACCTCCCAAAAGTGCTGCATATTTTGTAGGTTCCTTTGGCAAAGGATTGGAACAATA
Y
TTTCTGAAGGTCAGATGAAGCATAATGGAAGGACCCAAAGTCACCAGTTCTCTCAGATGCAACTGGGGCAGTGAGAAACTAAAGAAAATATTCATAAAAT
Celera SNP ID:            hCV11431406
SNP Position Genomic:     37777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61707):
TCACATGGTGGCAGGAAGGAGACGTGCCAAGCAAAAGTGGGAAAAGCCTCTTATAAAACAATCAGGTCTCTTGAGAACCCACTCACTTTCACAAGAACAG
Y
AGCATGGGGGTAATTGCCCCCATGATTCAATTACTTCCCACCGGGTTCCTCCCATGACATGTGGGGATTATGGGAACTACAATTCAAGATGAGATTTGGG
Celera SNP ID:            hCV2796308
SNP Position Genomic:     42278
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61708):
TCAGATCCTATACACAAGACCTCCCAAAAGTGCTGCATATTTTGTAGGTTCCTTTGGCAAAGGATTGGAACAATACTTTCTGAAGGTCAGATGAAGCATA
R
TGGAAGGACCCAAAGTCACCAGTTCTCTCAGATGCAACTGGGGCAGTGAGAAACTAAAGAAAATATTCATAAAATGGTATACAAGTAGGGGCAACACACA
Celera SNP ID:            hCV11431407
SNP Position Genomic:     37802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61709):
TTTTCCAGTTTCTAAGAGAATCAATGACACACTTGGTTAAGAGTCAAGAACTTTGTGTGACCACAGAAGTCCTTTTACCTTATTGGGTCCTACTCATACA
R
TTAGGATTTTGGATTATGTGATAGCAATAATAGCTAACTATGTTGAGCCCTTATGTGTTTTAAGCAAGTATTAGCTTGCTTTCAATAACTACATAAGATA
Celera SNP ID:            hCV2796309
SNP Position Genomic:     41923
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61710):
TTTGCCCACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGATTCTGGATATTAGCTCTTTGTCAGATGGGTAGACTGCAAA
M
ATTTTCTTCCATTCGCTACAGTCCATACTTTTACAGTGAGTCCTGAGGTCATTATTAACAGTCATTATCTTCCTTTAGCACCTTTTCTGCATTCCCTACC
Celera SNP ID:            hCV11714522
SNP Position Genomic:     34278
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61711):
ACTTTCTAATCATCTGAGTGGTCAAAAAGTGGAGTACGTCACCCAGGCTTGGGGATCACCAGGTGAAGATGAGGTAGCAGAATTTAAGCAATGGGTTAGG
R
TGGTACATGAGTAAATTAACTAAGTTCCTTTAAATGAATTTTCCAGTTTCTAAGAGAATCAATGACACACTTGGTTAAGAGTCAAGAACTTTGTGTGACC
Celera SNP ID:            hCV2796310
SNP Position Genomic:     41784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61712):
AATAACCAGGAAGCAGATTTTTAGTTCAAGAACTTTCTAATCATCTGAGTGGTCAAAAAGTGGAGTACGTCACCCAGGCTTGGGGATCACCAGGTGAAGA
Y
GAGGTAGCAGAATTTAAGCAATGGGTTAGGATGGTACATGAGTAAATTAACTAAGTTCCTTTAAATGAATTTTCCAGTTTCTAAGAGAATCAATGACACA
Celera SNP ID:            hCV2796311
SNP Position Genomic:     41753
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61713):
ATGAAGGCCCTCTGGGCAGAAATAACCAGGAAGCAGATTTTTAGTTCAAGAACTTTCTAATCATCTGAGTGGTCAAAAAGTGGAGTACGTCACCCAGGCT
W
GGGGATCACCAGGTGAAGATGAGGTAGCAGAATTTAAGCAATGGGTTAGGATGGTACATGAGTAAATTAACTAAGTTCCTTTAAATGAATTTTCCAGTTT
Celera SNP ID:            hCV2796312
SNP Position Genomic:     41733
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,5)      total(A,3|T,5) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61714):
CATAGGTGAGGGTTCCCTCTCTCTGAAAGGGTGGTGGGATCCAGGTTACATCCCTGTTCGTAGGAGTCAGGGTTAGAAGTTAATTGTTATGGAGTGATCA
R
AAGATGTTTCCCTGGCTCCTGCAATGCCTCCGACCCCCTTGGTGGCCTCTGTTACATAGGGATTGGAAGACTCCCTCTTGAGGGGTGTGGCTTCAAAAAA
Celera SNP ID:            hCV11431411
SNP Position Genomic:     38081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61715):
ACACAGAATGCAAATGAAGGCCCTCTGGGCAGAAATAACCAGGAAGCAGATTTTTAGTTCAAGAACTTTCTAATCATCTGAGTGGTCAAAAAGTGGAGTA
S
GTCACCCAGGCTTGGGGATCACCAGGTGAAGATGAGGTAGCAGAATTTAAGCAATGGGTTAGGATGGTACATGAGTAAATTAACTAAGTTCCTTTAAATG
Celera SNP ID:            hCV2796313
SNP Position Genomic:     41720
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61716):
CATTGTCTTTATATGATTGGAGGGTGGTTTGGATTTGAAGTGTTAGATTTGTTTTACTTGTTCAGGTGTGAACACAGAATGCAAATGAAGGCCCTCTGGG
M
AGAAATAACCAGGAAGCAGATTTTTAGTTCAAGAACTTTCTAATCATCTGAGTGGTCAAAAAGTGGAGTACGTCACCCAGGCTTGGGGATCACCAGGTGA
Celera SNP ID:            hCV2796314
SNP Position Genomic:     41649
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,7)   total(A,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61717):
GGCCTGAGGAGTCATGGGTAGGGCAGGGGGCCTTGCCTCCTGCTCTTGCATGTGGTCTTTCACAACAGCTGAACATATGGGGGACCTGTCCCAGGAAAGC
R
TCAACCCTGGACCCTGAGGGATATGTCCAGAGAAGTGAGGAGGCTGGAGGAATGAGAGCTATTAGTCAGAGAAAGAAAAGACCTGGAGAGGTATGACCAT
Celera SNP ID:            hCV2796315
SNP Position Genomic:     41451
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61718):
AATTTAATTTCCTTTACACCTTCCATTCCTTGCCTTATGCCAACCTCCCCAACCCCTCAGATTATTTTGAAGCAAATCCCAGACATCACCAAATACTCTT
S
TACACCATGAGTATGGGTCTCAAGTTAGGGAAGTGATCTGGTTCTAATTTGTATACTTGGCTTGCCCCACTCCTCCAGTGGCCTGAGGAGTCATGGGTAG
Celera SNP ID:            hCV2796316
SNP Position Genomic:     41271
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,8)      total(G,8|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61719):
CAATACATGGCCAATTTAATTTCCTTTACACCTTCCATTCCTTGCCTTATGCCAACCTCCCCAACCCCTCAGATTATTTTGAAGCAAATCCCAGACATCA
M
CAAATACTCTTGTACACCATGAGTATGGGTCTCAAGTTAGGGAAGTGATCTGGTTCTAATTTGTATACTTGGCTTGCCCCACTCCTCCAGTGGCCTGAGG
Celera SNP ID:            hCV2796317
SNP Position Genomic:     41259
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,8)      total(A,2|C,8) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61720):
GGAAGAATCCTATTTCAAAGTGAAAGGAGGAGTTCATCTTCTTGTATTGGATCCTGTGTCAGAAATATTTTTAAAAGATTTTATTATAAAAGTTTTCAAA
Y
GCATACAAAAGTAGGAAGGATTGTATAGTGAACTCAATGTATCTGTTCCTCACCTTCCATCATAATCAATACATGGCCAATTTAATTTCCTTTACACCTT
Celera SNP ID:            hCV2796318
SNP Position Genomic:     41092
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61721):
GTCAGGGCTCAGCAGTGTCCAGTTTCCAGGCCTCATTACAGCTGCTCCCATGAGGGGTTCCCCCAGCACTGGGCCTGGAGAGTTATGAGTCTCTCCTGTA
M
TTTCTGCTCTGGGGACCTGGTTCCACAATCTTCCGGGAAGGTCTTTCTGGTGTATGTGCTCTGTTTCAGTTTATATTCTGGACTCCTATGAAGATGTTTC
Celera SNP ID:            hCV2796319
SNP Position Genomic:     40311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61722):
CTAATCATACAGTGATTCTAGGATGAAATGAGATAATATATGTGACCTTGCATTATTCTACACAAATGACACCACTTCACATCTTATATTTTTCTCAAAA
S
AAGGATATTACAATTTCTTTTCTCCAACCAGATCTTGGACAAGCTGTGCTCCTCTGAGACAGTAACATCAGACAAAAGTCTCATAGACCGTGATCTCTGA
Celera SNP ID:            hCV11431417
SNP Position Genomic:     44659
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,19)      total(G,1|C,19) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61723):
TCTCCAACCAGATCTTGGACAAGCTGTGCTCCTCTGAGACAGTAACATCAGACAAAAGTCTCATAGACCGTGATCTCTGACAGGGCGAGTACTGAACCAG
S
CGTATTCACCTTTGAAAGCCTGGGACGATGTAGGCCCTCAGGAGGATTTGTTTATTGATTGATGGCAGGACTGTGGCCCAGAAAACTTTTCACTCGAAAG
Celera SNP ID:            hCV11431418
SNP Position Genomic:     44780
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,15)      total(G,15|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61724):
CTGGACCACATGGACTCACAGAGACTCCCAACCAGGTAAAGGGGTGATATGGCTTGTGGATGTCAACCATATTCTCTTCTTGATCACCTCGCTGCTGGAA
Y
AATGGGCCATGGTCAGAGTAGAGTGGTCATGGAGGTTGAATAGATGCCATGAATGGGTCCAAGAACATGGACACTCTCTTTCACCAAAATCAATTCGGGT
Celera SNP ID:            hCV27127123
SNP Position Genomic:     64967
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:61725):
GTTATTTGCTTTCTTGCTATTGAATTGACTTCTTTATTTGTTTTGAATATTAACCCCTTATTAGATGTGTGATTTGCAAATATTTTCTCCCATTCTATTG
R
TTGTTTCTTCACTCTGTTGATTGTTTCCTTGGTTGTGCAGAAGACTTTTAGTTAGATGCAATCCTATTTGTCTATTTTTGCTTTGTTGCCTGTGTTTTTG
Celera SNP ID:            hCV27127124
SNP Position Genomic:     63890
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61726):
AAAGTATAATAAAAAAAAGAAAAAAAAAATTAAAAAGTTTTTCAAATTTTAATTTTTTCAGTTTTATTTATTTATTACTATTAATATTTATTTATTTATT
W
GTTTTTGAGACAGAATCTCACCCTTTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAGCCTCTACCTCCCGGGTTCAAGCAATTTTCAT
Celera SNP ID:            hCV27127125
SNP Position Genomic:     60812
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,2|-,3)   total(A,2|-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61727):
GGTTGAAGAGGCCAGTGTGGCACCAACAGCTCTTTCCACACTCCTTGCCCAAGAGGAAGTTGTCTTCTTTGGGTTCACACTACAGGGCAGACCCAGCCAC
K
GGCCTCAGGGCATCCTTAAAGCTTTTCCTAGGTAGTTCCTCCCAGCTCAGGCTCTGGATGATCCTGAGGATGTCCTCCTCACTCCCTATCTTCTGCCCCA
Celera SNP ID:            hCV28004493
SNP Position Genomic:     62481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61728):
CATCAGAGTGAACAGGCAACCTACAGTATGGGAGAAAATTTTTGCAATCTACCCATCCGACAAAGGGCTAATATCCAGAATCTATAAAGAACTGAAACAA
R
TTTACAAGAAAAAATCAAACAACCCCATTAAAAAGTGGGCAAAGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAGACACATGAG
Celera SNP ID:            hCV27127126
SNP Position Genomic:     59866
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61729):
CTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGCATACAAAATCAATGTGCAAAAATCACAAGCATTCCTATACACCAATAACAGACAAAGAGAGA
G
CCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAATATAAAATATGTAGAAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAAT
Celera SNP ID:            hCV27127127
SNP Position Genomic:     58940
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61730):
TCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGCATACAAAATCAATGTGCAAAAATCACAAGCATTCCTATACACCAATAACAGACAAAGAGAG
A
GCCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAATATAAAATATGTAGAAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAA
Celera SNP ID:            hCV27127128
SNP Position Genomic:     58939
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61731):
TGATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAACATACAGAAATCAGTAAACATAATCCATCATATAAACAGAACCAATGA
Y
AAAAACCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAACCTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATGGGAC
Celera SNP ID:            hCV27127129
SNP Position Genomic:     58462
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61732):
AGCCGGCTCCCTTTGCTTGCGGGGAGGTGTGGAGGGAGAGGCGCAGGTGGGAACCGGGGCTGCGCGCGGCACTCGGGGGCCAGTGTGAGTTCCGGGTGGG
Y
GTGGGATCGGCGGCCCATGCTAGGGCTTAGCACCTGGGCCAGCAGCTGGGGAGGGTGCACCGGGTTCTCTAGCAGTGCCAGCTGGCAGGTGCTGCACTTG
Celera SNP ID:            hCV11714530
SNP Position Genomic:     36262
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61733):
AGCACCTGGGCCAGCAGCTGGGGAGGGTGCACCGGGTTCTCTAGCAGTGCCAGCTGGCAGGTGCTGCACTTGAATTCTTGCCAGGCCTCAGCTGCCTCTC
Y
GTGGGGCAGAGCTCGGAACCTGCAGCCCGCCATGCCCAAGCCTCCCCACTGCCCTGGGCTCCTGCGCAGCCTGAGCCTCCTCGACAAGCACTGCCCCCTG
Celera SNP ID:            hCV11714531
SNP Position Genomic:     36391
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61734):
CCAGCAGCTGGGGAGGGTGCACCGGGTTCTCTAGCAGTGCCAGCTGGCAGGTGCTGCACTTGAATTCTTGCCAGGCCTCAGCTGCCTCTCTGTGGGGCAG
R
GCTCGGAACCTGCAGCCCGCCATGCCCAAGCCTCCCCACTGCCCTGGGCTCCTGCGCAGCCTGAGCCTCCTCGACAAGCACTGCCCCCTGCTCCAGGGCT
Celera SNP ID:            hCV11714534
SNP Position Genomic:     36401
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61735):
ATGTCAGGGCTCAGCAGTGTCCAGTTTCCAGGCCTCATTACAGCTGCTCCCATGAGGGGTTCCCCCAGCACTGGGCCTGGAGAGTTATGAGTCTCTCCTG
Y
ACTTTCTGCTCTGGGGACCTGGTTCCACAATCTTCCGGGAAGGTCTTTCTGGTGTATGTGCTCTGTTTCAGTTTATATTCTGGACTCCTATGAAGATGTT
Celera SNP ID:            hCV2796320
SNP Position Genomic:     40309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61736):
GCCTGTTTGAAGGGGTCGCTGCCATGGGCTGAGTCAGGGCATTGAGGTCTGGATGTCAGGGCTCAGCAGTGTCCAGTTTCCAGGCCTCATTACAGCTGCT
Y
CCATGAGGGGTTCCCCCAGCACTGGGCCTGGAGAGTTATGAGTCTCTCCTGTACTTTCTGCTCTGGGGACCTGGTTCCACAATCTTCCGGGAAGGTCTTT
Celera SNP ID:            hCV2796321
SNP Position Genomic:     40257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61737):
CAGCTTGGCCAGTGCTTGTGATGGGCAAGCCTGGGGCATCCCCTTCTCATGGGTTGGGTGAAGCCTCTAGTGCTGAAGGACAAAGCTCACACAACTCCCC
R
CTTTTGGCTGTCAGCACCAGCCAGACAGGAGCAAGAACCAGGAACAACTCCCAGCATCTCAGAATCAAATCTCCACTCCTGGATGCTCTAGTCTTTCCTG
Celera SNP ID:            hCV2796322
SNP Position Genomic:     40038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61738):
GCCTGGCCAGCAGTGTGTTTTGACTTGAGCAGCCTTGGCTTCTTTCTCTTTCCCTCAGCAGCGGGGAGTCAGCTTGGCCAGTGCTTGTGATGGGCAAGCC
W
GGGGCATCCCCTTCTCATGGGTTGGGTGAAGCCTCTAGTGCTGAAGGACAAAGCTCACACAACTCCCCGCTTTTGGCTGTCAGCACCAGCCAGACAGGAG
Celera SNP ID:            hCV2796323
SNP Position Genomic:     39969
SNP Source:               dbSNP
Population(Allele,Count): (A,-|T,-)   (A,-|T,-)   Caucasian(A,18|T,64)   African-American(T,23|A,57)   total(A,75|T,87)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61739):
TGTGTAGCTAGGATTACAGACCCACACTACTGGGCCTGGCCAGCAGTGTGTTTTGACTTGAGCAGCCTTGGCTTCTTTCTCTTTCCCTCAGCAGCGGGGA
S
TCAGCTTGGCCAGTGCTTGTGATGGGCAAGCCTGGGGCATCCCCTTCTCATGGGTTGGGTGAAGCCTCTAGTGCTGAAGGACAAAGCTCACACAACTCCC
Celera SNP ID:            hCV2796324
SNP Position Genomic:     39936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61740):
TGGCTTTTCTCCAGTCCTTCTCCCTTTTCAGACAGGCGGCACAGCTAGAGAAATATGTAAAGATCAGGGGAAGCCTGTTTTGCATAGTGAGAGTCTTGCA
Y
GCTTGGGACATCAGGACAGCCTCCAGGGGTTCTAAGTGTGTGTGGACTATTCTCAGGGAAGAAATGCTGGAGGGCCTTGGGCTGACATTCTAGCTCCTCC
Celera SNP ID:            hCV11431423
SNP Position Genomic:     46955
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61741):
CAGGCTTGCCTTAGAGCTCTCATACTGACAAACCCTTTAATTACATGTATTGTGCTGTGTATTGGCATGTAGTCAGTGTTCAGTGTTTTTTGGAGTTGTT
K
TTTGCTTTTTTTGTTTTTATAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAATACAGTGGCACAATCATAGCTCACTGTAGCCTCGAAATCCTGGGCTC
Celera SNP ID:            hCV2796325
SNP Position Genomic:     39710
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61742):
TTTGTATTTTTAGTGGAGACAGGGTTTCACCTTGTTGGCTAGGCTGGTCTCAAACTCCTGACCTCAAGATATCTGCCAGCCTCAGCCTCCCAAAGTGCTG
R
GATTACAGGCATAAGCCACTGCACCCAGCCAATATTAATTTTTAAATTGACAAATACAAATTGTACATATTTACAGTGTACAACATGAAGTTTTGATACA
Celera SNP ID:            hCV11431424
SNP Position Genomic:     61070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61743):
GGTGGTGGAATTTGTTCACAGAATCTCTTGCTGCCAGACCACCAGTTGGCTGTGGGTCCTTCCTCTATTGCAGCCCACAGCTCCTGCCCTATAGCTGCAA
Y
TGGCACCATAGAGGTAGAACTTCCACTCTCTTCCCAGGTTTCAAGAACCACTCCTTCTCCAGGCCCCTTCCTGCTGGTAGGCAGTGGTGGCTTCTCACTC
Celera SNP ID:            hCV2796327
SNP Position Genomic:     38726
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Gene Number:                 351
Celera Gene:                 hCG2038528 - 208000027040526
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VTKB(5362649..5376941)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12511):
ATTTCCTTTAAGTTTCAAAAGGCAAACTCTAAGCTTTCAGTAACACCTAAAGCGAAAGAGGTTCTCAATGAAGGGAAACTTTCTGACTATTGGTGTTGAC
AGAACATTTAAGCTCTTGGGAGATCATGATATGAAAATTATTTAAAAGACAAGACAAATTTTTCTCATTGCCCAGATTCCTGGGACTTGCCATTGCTTCA
AGCATTGTAACAAATGTGTTCCCTCTGTCATAGGAGAGCCTTGTTCTTTTGATGTGGCTATCATTGCTGGTCGCCTTCGGATGTTGGGTGACCAGTTCAA
CGGAGAATTGGAAGCTTCTGCCAAAAACGTCATTGCAGAAACCATTAAGGGACAGGTCAAGTTTCTACTTCATGCTATTGTTTGCTGCTTTTTTTTCTAT
TTCAAACTTCCTTTTCTTACTACTCCCATACTACAGTGACTAGGAATGTTCTATGAAAATATTTGGGTGCTTATATTTCAAGGAAGTATAGCAAGAATTC
TCCAATTGCTAAAACCTAAGTGGTACAGAGATGGAAAATTTTGGGCATAGGCTGATGAACCTTCAGTTTGTCTCTACTTGGTCTTCATCACAGCTGTTGT
GCTTAGTGTGCACAGAGCACATTTATAACACTTTATTCTTGGCAAAGTATAGTATCTTTTTTTTTTTTTTTTTTTCAGACAGGGTCTTACTGTGTCACCC
AGGCTCAAGTGCAGTGGTGTGATCTCAGCTCACTGCAGCCTCCACCTCCTGGGCTCAAGCGATCCTCCCACTGCAGCCTCCTGAGTAGCTGGGACTTCAG
GCAAGTGCTACCATGCCCATCTATTTTTTTTATTTTTTTATTTTTAGTAAAGATGGGTTTTTGCCATGTTGCCCGGGCTGGTCTTGAATGCCTAAGCTCA
GGTGATCCACTCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCTACCACACCCAGCCTATGCTTTTTTTTTTTGAGATGGAGTCTCACTCTG
TCACACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCACCCACCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTACCTGG
GACTACAGGGGTGAGCCACCGCGCCTGGCCCATCTGGGCGGATCACCTGAGGTCAGGAGTTCCAGACCAGCATGGCCAAAATGGTGAAACCCCGTCTCTA
CCTAAAAATACAAAAATTAGCCGGGCGGATCACTTGATGTGAGGAGTTCAACACCAGCCTGGCCAACATGGAGAATCCCTGTCTCTACCAAAAATACAAA
ACTTAGCTGGGTGTGATGGCCCATGCCTGTAATCCCAGCTACTTGAGAGACTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGCGAGCC
AAGATCACACCACTGTTCTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAAAAAAAGAACCACCCTCTTAACCGTTATGCTTTATTCGTCCTACTATA
CACAGCTTGGGCAGTGTGCCTACACTATGTTCAGGCAGAGCTGGACCTGTTACTCCCAGTTGCTTGCCCTGAGGCTGTCCTAGGTAGTTGATAGCTGAGT
TGACTTTTTTTCTCATTAAACATATTTTTTTTTTTGGCTGGGTGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGAGGGGCGGACTGCT
TGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATAGTGAAACCCCATCTCTACTAATAATACAAAAATTAGTTGGGCATGGTGGCACACACCTGTAATC
CCAGCTACTCGGGAGGCTGAGGTAGGAGAATTGCTTGAACCCAGGAGGCAGAAGGAGGTTGCAGTGAACTGAGATCTCGCCACTGCACTCCAACCTGGGC
AACAGAGCGAGACCCTCTCTCAAAATAAATAAATAAATACAAATACAAAAATTAGCCAGGCATGGTGGCACACAACTGTAATCCTAGCTACCTGGGAGGC
TGAGACAGGAGAATTGCTTGACAGGGAGGGGGAGTTTGCAGTGAGCCGAGATGGTGCCATTGTACTCCAATCTGGGCGACAGAGCAAGACTCTGTCTCCA
AAAAAAAAACATAAATAAATAAATAAATAATTTGACTTGAACTTGTTTTAATAAAAAAAAATATATTTTGAAACAGCCCTAAACTCAGGGAAAGGTTGCA
AGGATAGTACAAATAATTTCTCTCTTGAATCATTTGACAGTAAGGAGTTGACATATTTCATCAACCCCTAATACTTTTATACTTCCCTCAAACAAGAACA
TTCTGTAATGTAACCACAATCTAACCATCAAAACCAGGAAATTAACATTGATTCATTATCATCTAATCCTTAGATCTCATTCAAGTTTTGCCATTTGTCC
CGATAATGTAATTTATAGTAAAAAGTTGTAGGCCAGAATCACATACTGCATTTAGTTGTGATTTCTCTTTAGTTTCCTTCAATCTGGAATTTTTCCTTAG
TCTTTCCTTGATTTTCATGACCTTGACACTTGAAGACTATGGTCTATCTTGTTGAATGTCCCTTAACTGGGGTTTGCTTGATGTTTCTTCTTGAATAAAT
TAAGGATATATACCTTTGGCAGGAATATCACAGAAGTATTGCTGTGTTCTCAGTGCATTGCATCAATTGGCACAAGATTTCATTTTATACCAGTATTGAT
GTTGTTAACTTTAATCACTTAAGATGGTGTCTGTAAAGCTTCTCCTCTATAAAGTTACTCTTTTCCCCTTTGTAATTAATAAGTGTTTTATGGAGAGGTA
CTTTGAAACTATGTAAATATCCCACATCTCATCAAAATTTCATTGCATTCATTTCTTATCAGCATTGGACCCATGAATTCCTACTTTATTCTGTGGATTA
TAATCTGTTAACATCATTATTAATTTAGATGCTCAAATCATCCTAGTTTTAGCTAGTGGGAGTCCTTTCACTCTAGACTGCATCTCTTTGATGTGTCTCT
ATTATTATTTGAGTACTTCCTTAATTTCTGACAGAATATCTTATACTTCCCTAGCCCCAAACTGAAATCAACCATTCTCCAGAGAGCTCTGGTTTCTTTT
ATTTTTTGAGACGGGGTCTCACTCTGTTGTCCAGGCTGGAGTGCAGTGGCACGATCTCCGCTCACTGCAACCCCTGCCTCTCGGATTCAAGCAATTCTTC
TGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACACACTGCCACGCCTGGCTAATTTTTTTTTTTTTTTTGTATTTTAGTAGAGACGGGGTTTTACCA
TGTTGCTCAGGCTGGTCGCGAACTCCTGAGCTCAGGCAATCCGCCCACCTTGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCGCCCGCCTTTT
TTTTTTTTTGAGACGGAGTCTTGCGCTGTCGCCCAGGCAGGAGAGCAATGGCGCAATCTCGGCTCTCTTCAACCTCTGCCTCCCCGGTTCACCTGATTCT
CCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCATACCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGGC
CAGACTGGTCTTGAACTCCTGACCTCGTGATCTGCCTGCTTTGGCCTCCCAAAGTACTGGGATTACAGGCCTGAGCCACTGCGCCCGGCCTCTGGTTTCT
TTTAATGGAGAATGATATTTAGAAATCAAGATCTAGGTGCTCTCCCACATGGATGTCCTTTTCAGCTTGTTTGGGCTCTGATATTCAGCTCTGACCACCC
TTGGCCCCCCTAAATCCCCACAGATCTTGCTTGGACCCACCTAATGGATTTTAGATTCCATTTTTGAAAAAGAAAGAGGAAAAGGAAGAGCTACTCAATT
ATTTTAATGAATTATTATTATTTTATTATTAATTCTAATTAACTACTATTTTTGAGACAGTCTTTCTCTGTTGCCTAGGCTGGAGTGTAGTGGCTCAATG
ATAGCTCACTCTAGCCTCAATCTCATAGGCTTAAGTGATCCTCCCACCTCAGCCTCATAAGTAGTTGGGACTACAGGCATGTGCTACCATGCCTAGCTAC
TTTTTAAAATTTTTCATAGAGACAGGGTCTCAATATGTTGCCCAGGCTAGTCTTGAACTCCTGACCTCATGTGATCCTCCCACTTTCGCCTCCCAAAGTG
TTGGGATTACGGGTGTGAACCACTGCATTCGGTCTTTTTTTTATTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGC
TCACTTCAACCTTCGCCTCCCAGGTTCAAGTGATGCTGCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCCTGTACCACCATGCCTGGCTAATTTTT
GTATTTTTAGTAGAGACAGGGTTTCAGCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTCCCAGTCTCAGCCTCCCAAAGTGCTGGGA
TTACAGGCATGAGCCACTGCCCCCGGCCTTTACTTTAGAGTCTCCCAGACATTTCCTAGTCATTCAAGCAATACCTTTACAATTTAACCAGCTGGACTAT
CACATACTTAATATTTTTCTTTCAAATCATTTTTCATTCATTTTGTTTAACCTAAGCAATAATACCTGAAGTCATGGGTTTGATGGACTACTTATGTATT
TTCAAGTGCCCATTAAGATAACAAAATATTAAAATGAGAAAAGATTATTCATCTACTCTCTAAGATTTCCTTAGTTACCACCAGTTGCACATTTGGCACT
CTAAGAAACAATTGCTTTACTGGATTCCTGCACCTGCAGCCTCCTGCACTTTTTGAGTGATACTCTGTTGATGTTTCCTTTGTCTTTCCTCAGACAGGAG
CTATACTCCAGAACACTGTGGAATCTCTCAGCAAGACCTGGTGTGCTCAGGATTCCAGCTTAGCTTATGAGAGAGCTTTTCTGGCAGTGTCAGTGAAACT
TCTTGAGTACATGGCTCACATTGCTCCTGAAGTAGTGGGACAGGTGGCTATCCCCATGACGGGTATGATCAATGGGAACCAAGCCATCCGGGAGTTCATC
CAGGGCCAGGGAGGTTGGGTAAGTTTGTTGGGGCTCCTGGTTTTGCTAGGTATTTGCACTGTTTTTGTACTAATACCTGGGATTCCAATTCATGACCCTT
TTTGTAAATTGGAAACCAACAGGAAAACAGGCTTCCCTATTTTGCTGAAAATGCCTAGATTTTCTTGCCATGGAAAAATGGAGCAGACAGAAGCTCAGCC
TGTGGATGTTGGACTCGAGTCATGCTACCTTAAATATTGACTGCTGACTACTGTAAAGCTAATCTTCATTTCCTACACATAATCATCTATAAAGTATATT
CATGATAGAGTTCTAATTTCAGCCTGGCTTCACTCCGTTCCTTTGTAAATTTCTGGGTCTTTTTTTCCTAACTTCTCTATGTGTGTGTTAGGGAAGTCAG
AATCACCTTAATAGTATCTAAGAAAAAACAGTCTTTGCTGTAGTGGTAACTATATAAGGTATTCTAAGCCCATGTTTTAGTAATCATCAGAACTTATGCT
GTCATAGAGCACTCCTTTCCATTTACAGGGTCAGTGAAAGCCTTAATAAGAGCTACATTTCCTGGAGCTATCTGCAGATCATTTCCTGGTTTCTTAGGAA
GTTCCTGAAAGCAATTCCTTTGACTGTAGGATTTTCTCTGTCTTCCCTAGGAAAATCTGGAGAGCTGAAGAGTTGGAGCTATTCACGAGACTGAACATCA
CTTCCTTGTTGACTGATTGGGTGATTGATTCCTGGGAATTCAAACAAACAAATAAAAAAGCACTTTTTTCATTTTATCAGAACTGAACTTAGCTGAATAA
GTTATTTTTTACTGATTGTTAAAGTTGGGAGCAGCTGCCAGAGGCCTGCAGAGTTGGTTTTTGTTTTTTTTGTTTTGTCAACTTAATGCAAACCACAGAG
ATTTTCTACTTTCTGTTTTCACATGAGTTTTAATGAGGTTCTGTTGAAGCAAAGACCCCTAGACACAAAGTAATGACTTGTTAGTAGTGGAATTATAAGC
AACAGGGCAGGCCTTTGCTGGAGGTATTTTGAGAGAAAGGGAGAACAATGGAAACTATTTCTTCAGATGTAGCCCTGTCTTTTGGTAAGAATTGTGCCTA
CTAATTTTGCAATTTAAAGGATTTCAGGAAGCTTTTTGGTTGAAAAATCTTGTTTTTTTTTTTTTAGACGTAGTCTCACTCTGTCACCCAGGCTGGAGTG
CAGTGGTGCGATCTCAGCTCACTGCAAGCTCCACCTCCCGGTTTCACTCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGAGCCCGCCAT
CACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGAGGTTTCGCCGTGTTAGCCAGGATGGTCTGGATCTCCTGACCTCGTGATTCGCCCGCCTTGGC
CTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCWCGCCCGGCCTAAAATCTTGTTATTTTAAGTTGAGCATTTTCATTCAAAATCATCCCTAAACTTC
ATGTTAATTTCACCTGAGAAGGACTATTTTATGCATTTTAGAGGTTGGAAGCAAAAAACAAACAAACAAAMAAAAACAGTTGTTTCTACTAGGAAGGTCA
AAGAAAATAAAAGTTACTCCATTTTTACTGCCACAGGATGCAGGAAGTGCTGGCCCACATCTAGGACAGCAAGGCCACCCCAGCTTAGATGAAGCTAGCT
GCATAACACAAAGCTTTAAAAGTGTGGTTCACACACCACTTGTGGACCTTATTGAATTGCTGATTCGCATTCCTAGAGATTCTGATTCTGTAGGGGTAGG
CTGGAGCCTAGGAACCTACCTTTTAAACTAGTTCCATAGGTGATTCTGATGTACATATAGAGTGTGACAGCCATCACTATAGAGAATAGATTGATAAATT
ACAACCCACGCGTCAAATCTGGCTTGCTGTCTTATTTTGTAAATAAAGTTTTATTGGAATAGAGCAACATTCACTTGTTTACATATTGTCCATGGCCGCT
TTTGTGCTACAATGGCAGAGTTGAATGATTATAGAAGACCATATGGCTGGTTAAGTCCAAAATATTTACTAGCTGGCCCTTTACAGAAAAAGTTGGCTGA
CCCCTTCTCTAAATCAACATTTCTCCTTGGTAACTGAAACTCTATTACAGTCCTGACAATTCCAGCAAACACAGCTGTAGATAGGGTTTAAACTCAAAGA
TATTTAACTCTTCTTTGGGAACTTAGTCTCCATATGTTTGTTAGTTCTTGCATAATCCACAGTTTCTCTGGGTCTTCAGCCAATCAGAGAGCTCTGTAGC
TCCTGAGTAGTCCATTTCTCTGGCCCTACAAGTGAGAGTGATTGGAAGCAAAGCTTATGATTTGTATGATCTTGTATCTCAAAATAGTCCTTAATGATCT
AATAGATTAGTAGGCAGTCATCAGGTAGAGACTCCAAAAACCAGACTACTTTCCTAAATATCAAGAAGAAAGGCATTGCTACAGTGATTCATGAAAAGCA
GCATTAATAACTTTGGCTAAAGTTTAACAAAGCTAACCACTTCCCCTCTATCAGCCAGCCATCTATGTATCTCCTCTAAATGCAGAGAAGTAAATATGTA
GTGCTGTTAATACATTTTTGCTTTTTAAAGTTATGCTTTGTCCTGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGAT
CACCTGAGGTTAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTGCTAAAAATACAAAAAATTAGCCAGGCTTGGTGGCACGTGCCTG
TAATGCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCTGTGAGCTGAGTTCGCGCCATTGCACTCCAGCCTGGG
CTACAAAAGCGAAACTGTCTAAAAAAAAAAAAAGAAAATAAATAAAGTTATGCTTTTTCCTCTATTCCTAGTTAAATCACAACAAGTTAGTAATCCATAA
ATGATGTGTCCTGTTTCTCTTTAGTAGAAATTATATTTTTGGCTACCAGTTAAGAAACTTGTACTCCTTTGTCCCTTATGTTACTATAAACTCAAGATRA
TGAGTTTTGTGGTATTTGACTTCATAGGCAAAATCAAAATTTTTACTTTGTTGCTATTCTGTTTTATGAAATAAACTTCTGTCTATGCATTTGAACTAAG
TTTCAGCAAATTCAATCTAAATTGAATAATTCCAGCTCCCAGTTTTATCCTATGTTGCTCATAAAACAGTTCCAAGTATACTGCATTATCTTGAGATTTG
AAGATATGGTGCCCACGGGGATTATACTAGGCAAATGCGTTAAGCAGCTCTGGCCTAGGTGTTGTGTATTTTAAGAGACTCTATCTTAGGAGAGCTTAAG
TGATTGGGCTGCAGGAAGAAGACATTGTAACCCAGGAATTAAAAATGGATTCAGATTGCCTGATTTTAACACTTTAGTTTCACCATAGGCTAATTATGTG
ACATTGGGCAAGAGACATAATTCTTCTGTACCTTAGTTTCTACATTTGTAAAATAGAGATGATTTGGTAACTTATTAATAAGATTTTTGTGAGAGATAAA
TAAAACAAATACATTTTGTAAAGGGTGAGTACTTGGAATATTTTAAACACTGTGCCATTAGCAATTTGGAATTCTGTGTTATGCAGTTCATAAGGTTCTA
GCTTGACTTTTTTCTCTCTCCATTAACCCTGTCTCTCACAGATGCAAACCACTCTTAATGGCTTTACTTTCACATCAATGTGAGTGATTCCTAAATATGA
TTTATTTCCCTTCTCAATTCCATACCCACAGATGCTTATTATTTATTTATGTGTACCTTTCTTATCCCCATACTCTCCCTGTTTGCGATACAACTAGCTC
AAAACCTCAGTCATTTTTACCTTGTCTCTCTCTCTCCAGTCCAACTCACCCAACTAGTTTTTCTCATTTGTTACTTCATTTTTGTCCTGGTTCTTCTACC
AGATTTATTAGCAACTGCCTGGACTATTAATAAAGCCTCCTACTTAGGCTTTCAATAGATTGTTCTGTTCCTGCTCCATTCCAGTCTGTCCTATATACTG
CCATCAGATTGATCAAAGCTGTGGTTTCTTTGTCTATTATTTTGATTCATTTTTAGATATGGTATCATTCATTTTTAAATTTAACATACCAATGAAGATT
ACAAGACTTAAACATCTTATCAGAAGGGGGCATTTATTTTTTAAATCAAGAAATAACTTTCCAAAAGCATTGCTTTGAATGCCATTCTCTTAAAGTCCTT
CAGTGGAACTTTTGAGTGTGATTAGACATGTTCATTATCTTGATTGTAGTGATTTTATGGGTGATGATTTCACACCAACTTATCAAACTGCATACTTTGA
AATGTGTAGTTTATTGTACATCAGCACTACCTTAATAAGGTTGTTTTTTTTTAAAAAAAAAAAAAAACCTTCAGCTGCTCCCTACTGTTCATCAAATAAC
AGTCTGATATTCAAATTCCCCCAGTATCTGGCCCTAACTGCCCTATATAGCCTTAATCAATCATGATTCTCCTCTACAATCCCAATGCTCTAGTATAACC
GAGCCAGTCACTAAAGCTGCCCTCCTCCTACTGTTCCCTATGTTTCATATTGCTTTTTCTGAGGCTCTACCTGTAGACATCTTCAAGACCCAACCCAACT
GTCATGAAGCCTTCTCCATGAAGGCTATCCATATAACCAGAATAAGAAGTGGTCTTTGCCTCCTTGAACTTTTGTTTGTACCACTTTTATGTTTCTTATC
CAAAAAATGGCCTTAAGTTGTAATTATCTGTATAGTCATCTTCCCCACTAGGATAAAGGATTGCTGAATGATACAATTTGTTGTATACTTCTGTAACACC
CCTCCTCTTCATTATCTGGCATGTACATCGATATTAAAAATATTCATTAAATGAATGAATAGCTGATTGACTCAGATGAGACTTCAAGTTTGATTATATT
TGAAAAGGATGCTAAGCTTTAAGAGTCCTGATGCTCTTTATTTTAAAAAAAAAATGCTTCAGGCTGGGCTCGGTGGCTCACGCCTGTAATCTCAGCACTT
TTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCTTGGCCAACATGGTGAAACCCCATCTCTACTAATAATACAAAAATTAGC
TGGGCGTGGTGGCACATGCCTGTCATCCCAGCCACTCAGGAGGCTGACGCAGAAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATAG
CACCATTGCACACCAGCCTGGGTGACAACAGCAAAACTCTGTCTCCAAAAAAAAAAAAAAAACTTCAATTGCAAGTTATTGGTTGACCTTTGCTTCTTGA
GGATTTTGAAACCAAAGGCAGAGTATGCTTCCCTGTGTAGTGGGAGGTTGACTATGAAGTCTGCAGCAGGTGAACTGAAGGACTTAGTGAAGTCTCAGAA
TGCTGTAGTGACAAGCAGTAGATTGAAAGATGGGTAGGGGGACTTTTCCTACCCGGGATGATGTGAAAACATGAGAAAATCAAACAAGCTTCGTTAAAGG
TATTTTATAAGCCTCTTCTGTGTTCATTTATAAAAGGAAAAACAAGCCTACTCTAGAGATAAAGGAGGTCATTTATTTCTGGCCATTGCAGTTCTTCAGA
GATGGACTCTGAAGCTCAGTATTGACACCATTCCTTTCATAATAATAGCCCTGCTGCTTGGGCAGCAGCATTCAGGAAAGTACCCTTTGCCAGGTTCCTG
TGCCTCCATGTAGGAAGGCCCATCTGCTCCTGGCATAATGAAAGTGCCTAGCTAGAGACAAGAAGCACAGACTGTGCCAGACAAGAGACTTGGAGTAATT
GATATAATGAGTAACCAAGTGAGAGTAGATCCCTCACCAAAGCGTAACCACATTAGCTACTTTATCACAACAGACTTATTTTTAGGTATACTCAAGACCA
TGTTAAGCACTGTGGGTTATACAAACGCATAGAATACACTATCATTGCCTTTGATAAATCTGAAAATACAGGGGACATCTTTTGAATAAACTCTTAAATA
AACTTATAGGAGACAAGGAAATTGAATAAATGAAAACTTCTATAGCTGAATATACAGATTTATATTGAAGAGATTCAGACTAAGGGAAGATCATGGCGAA
ACAGAGGTAGGGGCAAGATTTTTGAAGAAAAATTGAGCTTTATGGTTTTATTTTCATTGTGGTGAAACTTAGGGGTAAAGGTGAGAAGTAGAAAAAAGTG
GTAGTAGAACGAACGAGGTCTGTAGGTGATGTGCTTGGATAGGTTGGGTGGGGATAGTTGACAGGGAGGGGCTTGGTGACAAGCTAAGGAATCTGGACTT
GTTCCCGTAGATCATCAATAACTATTCTGATTCTTTAGCATTAAAGTGCAGTTTTAAGAACTTTCATCCAGCCTTGGTTAACAGGAGATACTAGAATGGA
AACATATAGATAGGAAGATACTCTAAGTTTATTGCTATAGGAATCCGGGTGTGAAAGTGGGAATGGGGCTAAGTGGGAATGGAAAAGACAGGTTGAATCT
AAAAGACATTGAGGAGAAATTTCCAATAGGCCTTGGTGATCAAAAGAATGCTTACAAAGGACTGAATGTTTCACAGACAGTATATATATCCCATATCAAA
TCAATGACCCTGGAATGTAGGGAAAGGCAAGAGTAGTGAAACTAAAGCTAAGGTTGGGTAAGTATCTTCTCCAGGGTAAAACATGTCTCCCCCTCATCTA
AAAGACAGAAGGATGTTCTGAGAATCCTGAATGTTTTTCCTATTGAATAGTTTATCTTACCCTTGTAGTCTTCCCTGAAATTCTCCTCAATTAATGTTTA
TTGTAATCTAATTCCTGACCTCTGTGATACTGATATTTCCCCTTAAACTAGCATACTCCCCTCTTCTTGGAACACGTGACATGGTGACCAGCACTCTTCT
CTGTTGTGTTCTTCCTTCTGACCAAGCACTACAGCCACATGAGGCAGCAGTGAGATGTGGCCTTGTCACTCCTCTTCAGGTGCTTATCCACAATTTACTT
CCCACAATTTACTTGATGGTTCTGGCAAAATGTTTGTGAGTCTTTTTTTATTGCATGGAATTGTGTTCACTTAGGTTTTATGCCAGACTGGTTTAAATGA
TTCATCATAAATTCTGAAACTCTTTTAGGTATTTGCCAACCTTTACTGCATGTCTTGTTTCCCCTCCCCAGCTCTTTATCTTCCCGCAAGATACAAATGA
GTCAACACAATCTTCATCAAAAAGCATTGTGCTCTGTAGAAGGAAGTGTGATAAATTAAGTAGTAGCTTATTTTTTTAAAAAAAAAATAATAGCTCCAGC
TACTTGGAAGTCTGAAGTGGAAGGATCACTTGAGCCCAGGAGTTCCAGACTAGTCTGGGTAACATAGCAAGACCCTGTCTCAAAACAAAACAAACAAACA
AACAAAAAAACCCAAAACAAAAAAAATAATTAAAGTTTTTTGTTTTCTTCTTCAGTTTGTTTTTTGCTTGCTTGAGTGGTCTGCTCAGGAAATGGCCTTG
TAGCTAAGTGGGTTTTGGGGGTTTGGTTATTTCACAATGTCTCTATACCTTTTGGGTTTACAGTAGAATAGATTGCTGCTTGCTTTTTTAAAAAAGTGTG
AAGTTCTGCCAAGACACTATTTACAGATTCTTAGATTTTGAGGAAAGGGACTATGGAGGCATCTAAGCAAAATTTTTTTTGTTATCTCCTATTTATTTCT
GTCTTCTCCCTCATTAAGAAGAAACAAGAAAGTTAGTAAGAGATTGTGCTGAAATATAGGCTTGAGAAAAATAGATTTAAATTTTATTAGGCAGGTTTGC
CTCATCAATTAATAAAAATTAATAAAGTTCTAGTTTTGTGTAATTGAGGACATTCTAAGGGTACAGAGAAATTATAAAACTATATTATCTTCTTTGTCCA
AACATAGAAAATCATTTTCCTTTTAGGATTATGCTTTGCTACTCTGCAATTAAGCAAGTTAGTTTGGAATGTTTTTATTTTTATTTTCTTTCCCAAAGTT
ACCTAAGGAGTGTTTTAATTTTTATCAGTAATCATGTCTGTATCTTTAGTTCTGAGTTGCTTTATTAACTGGCTAAGGATGTTTTTGTTTTGTTTTGTTT
TGTTTTTACCATATTCTGGCTTTCTCAGTGTTGTATGCCAATCTCCTAAGACAATGTTTAGAATTTAGTGGGTACTCAATAAATTTGTTGAACAACTTAA
TGGATTTTTAAATGTTTATTTCTAATTTTAAAAACGGTATGATAATTTTAGAAAGCAAACTTTATCATAATTCTAAAATTATGATAATTTTAGAAAGCAA
ACTTACACAATTGATTCTTTTTTGCTTCTTTTAGTCTTTAACTATGTACACACTTTTACATGGTTTTAGTTATTACAAACTTGAAATTTTGTATTTTTAT
AAATCAAAGATTTCCCATATTTTATGTTTTAAAATAGCCAAAGTAAACATCACGTTACTTAGAGCAGCAAGAAATTCTCTCTTAATTCTAGATGGGGATA
ATTTAAGAAATATACTATTCCTAACAAATATTGCTGAAGAATGAGGGTTTATTTTAATTTATGTATACTGGGATTGAGTTTCTTAATTTGAAATATTGTC
TTTAAGTTGTCTATAACCAAGATATCTCGATGATCTTTCTTTTTTTTTTGCAGTACTTAGTAAAGAGCATGCAGTATCTTTAATGTTCAGATTAAGCAGT
GTTCAGAATCATGATATCCTGAAGGAAGTTTGAATAATGTTGCAAAACAGAAAGGATTGCTAATATCTTAAATAGAGGAAGTCCTAACAACACATTTCCC
AGTTTTCTTCAGGATCAAGACTAATTTTGTTAACATTTGTTGAACTTCTGCCTTCAATAAAGATGATATACTGATTTTTGGATGTTCTCACACTGAATTA
GGCACTTGGGTAGACTTGTACCCATTGAGAGGTTATGCAAGCTGAAATGTGGAAAGTTTTTCTAGAAGAGCCTGCCTTTCAGGGCCAAAATGCCACAGGC
ACAGCATAACTTCCTGAAACAAATTTATTTCCTAAGACATTGGTTGCAGAGTAGAAATGTGTTCTTTAGAAACAGTTCTTCAGGCTTTCTGC


SNP Information

Context             (SEQ ID NO:61744):
AAATGATGTGTCCTGTTTCTCTTTAGTAGAAATTATATTTTTGGCTACCAGTTAAGAAACTTGTACTCCTTTGTCCCTTATGTTACTATAAACTCAAGAT
R
ATGAGTTTTGTGGTATTTGACTTCATAGGCAAAATCAAAATTTTTACTTTGTTGCTATTCTGTTTTATGAAATAAACTTCTGTCTATGCATTTGAACTAA
Celera SNP ID:            hCV1900130
SNP Position Genomic:     8199
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61745):
CATTTTCATTCAAAATCATCCCTAAACTTCATGTTAATTTCACCTGAGAAGGACTATTTTATGCATTTTAGAGGTTGGAAGCAAAAAACAAACAAACAAA
M
AAAAACAGTTGTTTCTACTAGGAAGGTCAAAGAAAATAAAAGTTACTCCATTTTTACTGCCACAGGATGCAGGAAGTGCTGGCCCACATCTAGGACAGCA
Celera SNP ID:            hCV26300476
SNP Position Genomic:     6671
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1|-,7)   total(A,1|C,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61746):
TGAGGTTTCGCCGTGTTAGCCAGGATGGTCTGGATCTCCTGACCTCGTGATTCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACC
W
CGCCCGGCCTAAAATCTTGTTATTTTAAGTTGAGCATTTTCATTCAAAATCATCCCTAAACTTCATGTTAATTTCACCTGAGAAGGACTATTTTATGCAT
Celera SNP ID:            hCV26300477
SNP Position Genomic:     6536
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Gene Number:                 352
Celera Gene:                 hCG2038542 - 208000027040613
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VYHA(14911099..14926510)
Chromosome:                  Chr20
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12512):
CCCAAAGTGCTAGGATTACAGGTGTGAGCACCAGGCCTGGCCCGATCTTGTTATTTAATTTGTTAATAAAGAAGCACTTGTATTACTACATCACACATCT
AAAATATTTTGAAAATTGCATTTCAGTAGGTTTCCTTTGTAAACCTATGTATTTGGCTAAGTGCAGTGGCTCACACCCATAATCCCAGCACTTGGGAGGC
CGAGGCAGGAAAATTGCTTGAGGCCAGGAGTTCGGAGAGCAGCTTGGGCAACATAGTGAGACCCTGTTTCTACAAAATTGATAAGAGACCCCGTCTTTTA
AAAAATAACTGGGTGTGGTGGCAAGCCCCTGTAGTCCCTGCTACCTGGGAGGCTGAGGTGGGAGGATCACTTGACCAGAAAGACTGAGACTGCAGTGAGC
CGTGATCATGCCACTGCATTCCTGCCTAGGTGACAGAGTGAGACCCTGTCTCTTTAAAAAAAAAAAAAGAAAAAAAAAGGAGCGTGAGGAAAAAAAACCC
TTATGTATTGGCATTTAAATATTATTCTGAGTCTGAGAAGGGGGTCTGTGGGTTTCACTGGATTTGTGAGAGGGTCCATGGCACACAGAGTTTGAGAGCT
GCTGCCCCAGTGGGTCCTGATACACAGTTCATGAAACGCTACCCCATGCTGAAAGCTCTTGGGGGGCAGAGCTCCGGAGTCTTGAACCTCGAGCCCAGCA
TGGAAATCACATCGGTGGCCAATGTTTCCATAGCACATATGGTGCCAGCCTCTGTACGAGGCCCTTCACATGGATTATTTCTTTTAATCTTTACACCAAC
TCTTGTGTGAGGGGTACTATTCTTAGCCCCATGTCTCTGTCTCTTTACCCTACTTCATTTTTCTTCTTAGCACCAGAAGTGTCATATATTTTTATCTGTT
TATTGGCAGCCTCCCCCACTGGGATGTGTGTCTCTTGAAGGCAGGAATTTGCTTTGCTGAGTGCTTCATCTCCAAAATATCAAAATATGCAAGACTTAAG
GGGGTACCAAAAACTCAGGAATCATGCCATGTCACATATCATGTTCACACACACACCCACAACCTCAGAAATCGAAATAAGGAACATTTTACTGCCTTTT
TTTTTCTGGGACAGGGTCTCGATCTGTCACCCATGCTGAAGTGCAGTGGTGTGATCATGGCTCACTGCAGCCTTGAACTCCTAGGCTCAAAAGATCCTCT
TGCCTCAGCCTCCCAAGTAGCTGAGACTACAGGCACACGCCACCACACCTGGCTAATTTTTTTTTTTGAGACAACAGTCTCACTCTTTCACCAGGCTGGA
GTACAGTGGCGCGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTGCAC
CACTACGTCCAGCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGATGGCCGCAATCTCTTGACCTCGTGATCTGCCCACCTCG
GCCTCCCAAAGTGCTGGAATTACAGGCGTGAGACACTGCGCCCAGCCTAATTTTTGTATTTCTTATAGAGATGGGATTTCACCACGTTGCCCAGGCTGGT
CTTGGCAACTCCTGGGCTCAAGTGATCCCCTTGCTTTGGCCTCCAAAGTGTTGGGATTATAGGCATGAGCCACTGTACCCTGTCTGTAATATTTAAAAAA
ATAAAAAATAATGCCCCAAACCCATAAACAAAATATCAACATTTCAAGTAAAGATAGGATCCAACCTCCTGCATGTGTACATTACTGCCTGGATCTCCTT
ATCCTGTTACTGGTCCTGAGGGGCTTAAAACCTAACGGTTGCTAAAGTGAATTAGTCTCATTTTGCAGATGGGGACATTGAAGCAAGGATGCTAAAGACC
CCCTCGGTGCCAATAGCCAGTAAGTGGAGCAGTTAGGATTTTGAACTCAGGCAATTGAGTTCCAGCCCCATCTTTCTTAAACCCTGCACAGCCAGCCTCA
TGAATTATCATGCTTGATCTTTTTGGTAGAGGCAGTAAACTGGTAAAATCAGATAGGTTTGAGTTAAAACCCCAGTTTTGGCTGGGTGCAGTGGCTCACG
CCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTTGAGATTAGCCTGGCCAACATGGCGAAATCCCATCTCTACTA
AAAGTACAAAAATTAGCTGGGCATGATGGCGCATGCCTGTAATCCCAGCTACTGAGGCAGGAGAATTGCTTGAATCCGGGAGGCGGAGATTGCAGTGAGC
CGAGATCACACCACTGCACTCCAGCTTGGGCAACAGAGCGGGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAATTCAATTTTGCCCCTTCCTAGCTGGGT
GATCTTGGGCCAGTCATCTCAATGCTCTGTACACAGATTAAAGAGGGCAGAGGGGACTGGAAGGGGATCAGAATGTGGCTACTTCATTAGGTGGGTCCAC
TGTGGGTGTGTCTGAGAAAGAGTGGGGAGACCGGGATGTTAGAGCAGGCACCCTTGGGTGAGAGCTGTGGGAGATGAAATAGAGAAGCATGCAGGAGCCA
GTGGATGTAAGTATTTGCAGACCAAGCCAGGGACTTTGGACTTTATTTAACACGTAACAGAAAGCCTTTGGAAGGTTTTGATGGCAAAGTGACATGATCA
GACTGACAGCTTGACAGGACCCCTCTGGCCATTATGTTGAGAAGAACCTGAAAGATCAAGGGCAGAAATAGGGAAGCTGGTCTGGACGTGGTACAATATG
AAGGCAATAAACAATGGTGGCCTGGCCCCAAGCTGCAGCAGTGGAGGAGCAAGAAATGCAGATCCCAGATCTATTTTGAAGGCAGAGCCCAGAGGAACGG
CTGACAAGCCATTCATTTCAGCACTGTTTGTTATAGCAAAAGTTGAAAGCAACTTGAACGTTCAGGAGTAGGAGACTGGCAATTACCATGTATAATAGAA
CACAACATAGGCTTATGAAAGAATGAGGAGGCTCTTCGTGTATTAATACAGAATGATTTCCAAGATACATTAAATGAAAAAAGCAAGATGCAGAGCAGTG
TATATGGCACTCTTACTATTTGTATGGGGTAAAATAAAACAAAGCAAAACAAAACAACACACGCACGCTACACATCGGTTATATGTATGTGTGTGTGTGT
GTGTGTGTGTGTGTGCAAAAATGATCTCTGGAAGGATACGTGAGAAACTGGCGGCCTCTAGGGACAGGGGGACAGGGGTCCAGGGGTATAAGGGAAATTT
CACTTTTCATTGCATCTTTTGGATTTGAGATTTTGTGCCTCTTCTCAACTGGAGGTGATGTCCCCCAGGGGACATCTAGCAATTTCTGGAGACATTTTTG
GTTGTTGCAACTGGGGGGAGGTATTACTGGCATCTGGTGAGTAGAGGTCAGAGATGTTGCTAAACACCCTGCAGTGCCCAGGGCAGACCCCACAACAGAG
CAAGAGCTGGCCCTAAATGTCAGTAGTGCTGAATTTGAGAAGGTTTGATCTATTAAAAAACATAATAAGGCTGGGTGTGTTGGCTCATGCCTGTAATCCC
AGCACTTTGGGAGAGCAAGGCGGGTGGATCACCTGAGGCCGGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCCTCTCTACCAAAAATACAAAA
ATTAGCCAGGTGTGGTGGCGGGTGCTTGTAATCCCAGCTACAGGAGGCAGGAGAATTGCTTGAACCTGGGAGACAGAGATTGCAGTGAGCCGAGACCGTG
CCACTGCACTCCAGCCTGGGCGACAGAGCAAAACTCAGTCTCAAGAAAGAAAGAAGAAAGAAAGAAAGAGAGAGAGAGAGCAAGAGAGAGAGAGAGAGAA
AGAGAGAGAGAGAGAAAGAGAGAAAGAAAGAAAGAATAGAAGTTTTTTTTTTTTCAGGATGGTCTTTATTCTGAGGTTGTATATTTTATGGGTTTGATAT
ATCCTTTGTTTTACTAAGATAATATATAGTACATGATAGTCATTTTTTCCACATCTTTACTTGGCAAAATAAAATGTCAGCAAGCCTTATACACTTCTCT
AAGCTGAATAAAAAATTATCCGGGCATGGTGGTAGGTACTTGTAGTCCCAGCTACTTGGAAGGCTGAGGCAAAAGGGTGGCTTGTGTCCAGGATTTCGAG
GCTGCAGTGAGCTAAGACTGCACCACTGTTCCCCAGCCTGGGTGTCAGAGTGAGACCACATCTCTAGACAAATAAGAATAATTTTTTTTTTTTTACTGGG
CTATGAAATCCTAAAGTCTGGAAACTACCCTTTTCACTCAATGGGCTTTTGAAAGGTAATGATTTTAAAATATGTCCACAAAATATTTGATCCTTTTTCC
CCAAGAGGTAGAATTACCTCTCTCTAAGTGTGAACCAGATTTGGTGACTCACTGCTAACAAATAGAATTTGGTGCGAGTGATGGTTTCTGATTTCTGAGA
CTAGGCCACAAGACGCATTGTGCCTTTCTCCTTACCCCTCTCTCTTGGACCACTGCCCCTGGGGGATGCCAGCTTCCATGCTGTGAGGATATTCAAGAGC
CCTATGGAGAAGTCCACATGGTGAGCAACTGAGGCCTCCTGCCAACAGCCAGTAAGGAACTGAGGCCTCCTCAGCCAACTTAGAGGCAGGTCTTCCATCC
CAGTCAAGCAGAGGACTGCAGCTGGTGTCTTGATTGCAACCTTGTGAGAGACCCCTAGCCAGAACCACTCAGCTAAAGATGCTCCTGAATTCCTGACCCA
CAAAAACCATGAGATAATAAATGGTTCAACTTGCTAGAGTTTGGGGGGTAATTTGTTACACAGCAGTAGATAAATACAGAAGGCTGGGCACAGTGGCTCA
TGCCTGTAATCTCTGTACTTTGAGAGGCTGAGGTGGGTGTATCACTTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATGGCAAAACCCTGTCTCTAT
TAAAAAATACAAAAAATTAGCCAGGTGTGGTGGCACATGCCTGTAATCCTAGCTACTCTGGAGGCTGAGTCACGAGAATTGCTTGAACTCGGCAGGTGGA
GGCTGCAGCGAGCAGAGATTGTGCCACTGCACTCCATCCTGGGCAACAGAGTGAGACTATGTTTCAAAAACAACAACAAAAAACCTCCCAAAAACAAATA
TAGAAATCTTTGAGCCCTATCAGTAAGGCAGAGATCACAGAAAGGTAGCCTATGGGCTCTGGTCTGCCTACAGATATATTTCCTTTGGCCAGTACAGGAC
TACAAAAAATGGAATTAATCACTAATGTTTATTTATTTTTATTTTTTATTTATTTTATCTTTTAGCAGAGACAGGATTTCATCATGCTGGCCAGGTTGGT
CTCGAACTCCGCCTTGGCCTCCCAAAGTCCTGGGATTTCAGTTGTGAGCCACATGCCCAGCCATAGTTGCTAACATTTAAAAGTTGGGTATTTCCTTTAA
AAATCCAGATTTCTGACTTCTCTTAGAAAGATCTAATATTGCTGGGCCCACATCCCTATGGGGTAACAACCAGCTGGAGATGAATGGTGTTCACCCCTTT
AGACAGGGTGTGTGTTCTGTTTTTTATCACACTCACCACCACCCCCTTAAGTCTCTTAGTTAAGTTGCTTTACTCATTTATGTTACCTGCTCTGCCCCAG
TAGTCATTTGAGCTTATGCCTTCTATTGTGAGACAGTTTTTAATGAGATGCCCAGGCATAGTTGACATGAGAACTAAATGACCAGAGTTGGAACTTTGAT
TCATGAATATCATGTAGGATGGGTTACCACTGGGTTGCATAGTGGGGGTGAAAAGCCAGTTATATTTTCATGTCCTCCCTCTTCTGGGGGGAAGAGAGAA
AGCTGATGCCGCCTGGAGACAGGATTCCTGATTCAAGTCCCCTTACAGCGCTTCCCATCTCGCCTCCCTGTGCCCTCCAAAAAATAAACTCCTCCAGGCT
TGTTTTTTCCATACCTTTTATTGAACTCTGCAGACTTCATTAAGGGACCATTTGCTTAGAAATTCTTAAACATTTGGACATATTTTACAAGACAAGACAG
CAGCTGGAGGTCACACAAAGATCACAATTTCATCTCACCACATGCATAAAAAGACACTGGGATTTGTGTGTGTGTGTGTGTGTGTGTGTGYGCGTGTGTG
TTGCGCACATGCGCAATGCTTATTTTCACCTTTACAGGAAGGACTAGAGACATTAACTGACGAGAGATGAATAGGACCCACGAATGCACCCCCGAGAAAA
GAGTGGCTGAGGACATTGGTCATTTATGGCTAATGTGATTGGCTTGGCCCCTGTCAAGGGTGAGGTGATCAGAATGGCTTTACTGGCAGAAAAGCCCCAA
CCTCACACGACGGGTTCCTGGGAGAGACAGGGTCTTAGCTGATGGGATCTGGGGGCATACTATCATGACGGCTTTGGGGCTCAGAAAAAAAGATCTTCGG
CTCTAAAAGCTGGAGGGCAGGCTGGCCTTAATATCCAGCTGGACTCCCATGGCTCAGGGAAYGCAATCCAGTTTCCAGATGTTGGCTCCTATGTTTCTGC
CCCAGGAAGTCCCAGACCAAAGGAAGTCCCAACTTCGAACCCTTGGCTTAGTCCATTGGAAAACCACTTGGTGGTCCCCCCCATGGGTCGTGTGTGAGCT
AAAATAGAACATGAGGCTGAGAAATGCAGGGTAGGGGAAGAGGAAGGAGGGCAGAGCTGCTCTGTGGGCCCCCAGGAAGTGTGGCTCTGAGAGRGCTGTG
GCCCTTATCAGCTTGGGGCCTACAAGCATCAAATTGAGATGTCATCTTGAGTCAAAGAAAGATGACCTTGATGGGGCAGTTATGGGTTTCAGTGGGAGAG
GGGCTCCTCATTTTTCTTCTCTTCACAGTTAGGTAGGGATTCATTAACTCCCCCATTCACTCACACATTCACGCATCCAGTCATCCACTCAGAGGCCAAC
CAGTCACACATTCACTCACTCACAAAAACACAGGTTGGATGACCATCATGTGCCAGCGGCATAGGTTGGGGATAACCCTGAGTTCCTGGTGCAGAAAATA
AGATTCTCAGTTTTTGACCTTGGATTGAGAAGGACCTATGAAATCAAGATAGACCTGGAGAATCCTCCCTGTCCCCACCCACTCAGGCACACTCAGCTCA
ACCAAGAGGGAGGCCCAAACCCCAGTGAAGCCCAAGGGGCAGAGCCAAGCTGTGGATATGTCAGAGTTTCTTGGGCATCTTCTCTGCTGCCTGCCTCTTT
CCAATCTTGGTTCAGATCAGGGAAGCAGGAAGTATGGGAAGATCCCTGCATGGCCCCTTGAGGGCATCCTAATGGGACGGAATTGGGAGTTTCTTATATT
TTCATGAAATATCCTATTTTTGTCTCCTTGTGTTGTTGCAACTTGAGTGATTCTGCAGGGCAGAGCCTCCAGTGAGGAGTTGGGAGGAATCTTGAAAACT
GGTTTTTATTTTATTTTGGTTTCAGAGGAAGGCGGCTGCTCATTCTACCCATCCAAACATATCATCCTGCCCAACCTCATACTAAAACAACCAAAGACAA
ACCAGTCTTCGGTTCACCCTGAGGTTGAAGTCTCACTTTCTCCCAATCCACCATACATAAACCCTCTCTTGTCAAATGCTTTCCTTAGAGAATGCAGTAT
GCAGGATGATTTGRGATGGAGGCCACAGCTGCAGGAGAGTGGCATTCTGCTTGGAGGCAGCCAAGAGCCTGGTTTTGCTGTGAAACTGGATTAAAAGCTG
CCTTTCTCTTTTGACCCTTCTGGATTTTTTTCATTGACGGGGACTTTCAAAGGTCTTGAGTGGGGTCTCTTATTTGATTTACCAAAAAAACAAGCCCTTT
TGGAATGGAGCCATTTGCTATTGCCTGGGAAGTTGTTCATTGTGGGGATGGCTAGTGGGGAACAGATATCATTGCATCTTTTATACAGAAAGCCCCAGGC
TCATGAGGGCACAGGAGCTGGGCGGAGGGGCTGAAGCACCATAAGACAGCCAGCCAGGGATGGGGGACAGCGTGGATTGCTCCTTGGCTGGCCTGGGGAA
GGGTAGCATGAGTCTCATCCCAATGTGGTGCCTGGTAGGCCACTGGGGATGGGTTGGATTGGTGACTGACAGTCATTAAAATGTTCCAAGACGGAGCCGG
AAGGAAGCAGACTTGTCTCTTGGACACCCCCTCTGAGAGCTCCAAAGCCCAGAAGTTGCATTCCTGCTAATTGTGCTGCATGCCTTTGCCTCAGTGGCTT
GAGCTTATATCCAGAGTGTTGAAACCACCTACACACACACACACACACACACACACACACACACACACACACACTCCAAGAAACAAAGAGGAATTTCTGT
GGTTGTTCAGCCCAGTTTCCATGCAATGCTAGGGCCCCTCTGCAATGCCCATTTTTTACACCATCTAGCCAGCCTCTCTTTAAACACCTGTGATATAAGG
GAGCTCACTGTCCACCATGGCATTGAGCTCCATGGTCAGACAACCCAGCCTGTTAGGAGGGCTTCCTTAATTTGAGCTGCAATTGACCCCATCCCTTTCA
TACAATAGAAATTTTCGGAGAACTTGCATACAGCCAGCTGGCAGCTAAGTTTTTTTCTTCAGGTGCACTGCCCCACTCCACCCCATCCTGGCCAGCCTTT
AGGAGATCTTTTCAGGATCTTTGGAGGGAGGAACAGAGAATTAGGTTTATAAGTGAAGATGAGGGTTCCCTCGATTAACAGAGCCCTACCCAAATTCAAG
TTGGCATTTGGGGTAGTTCAGGAGAAATTCTAGGTTAAGATAAAATCAGGGAGAGTGGATGGAAATGCAAACTATATAACCTCTTTCTTGATGAAAACAG
CAACAGCCATAGGCAACAGTGTTTGCTTATCTGGGCATCAAACCCAGGAAACTACTGGCAGACTTTTTTTTGTTTTGTTTTTTTGCTTTTGTGCAGAGGA
AAAAAAAATCTTGTCTGTTTTATTTGACTCTGGTTCAAACCAGACTATCAGAGGTTTTCGGGGTGGGAGAACTCTGATCAGGGTCATAGTCCAGAATAAT
AAAATTCATATTTGAGTTGGCTTCCTCTTGGGAGTTATCTGATGGGATGGCTCACTGCCATCTGAGGGTCCCAGTTTGGCTCAAATTTCTGATTCTAGGC
AGAGCCCCAAGCCCTGCAGCTGACAGTGAGGTGGGTGGTATACCAAAACCTAAACGAATGCAAGTTGGAGATTATCTGGGCTTTCTTCATCTTCCTGCAT
GAGTTGACGGATGGAGAATCACTTTCTGCTGAAGATCCTGCCTAGTGAGATGTCCTCCGCCCACCCAGGACTGAAAACTGCCTCTGGAATTAATTATCAG
GACAGTCCAAAAACTCCCCCAGGCGTGGATAGGTGGAAGCTGGAAAACTGCCCCTGTCCTTGCCACACACCTCCTGCTCTATGGAGCCAGGCAGCTGGCA
AGGGAAGGGGAGATGAGCTAGCAGATTCGGGGACATCTCTTCTCAGGGTTTGGCTGCAAGGGTGTCTGGCCACTGTTTTTTGGTGAAGCTGTTAGAAATG
GATTGAAATGGACTGGGTGCAGTGGTGGCTCACACCTGTAATCCTAGCACTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGC
CTGGCCAACATGGAGAAACTCTGCCTCTACTAAAAATACAAAAATTAGCTGGGCGTGATGGTGCGCTCTTGTAATCCCAGTTACTCAGGAGGCTGAGACA
TGAGAATCACTTGAACCTGGGTGGAGGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTGCAGCCTGGGCAACAGAGCAAGACTTTGTCTCAAAATAA
TAATAACAAAAAAATAAATAAATAAACAGATCGAAACAAGGAACTGATAAACAAGTTGGTGAGATCGGAGGCCCAGCATGTTCTTGTGAGGTTCACGAGA
ACCTGAAAAACCTCTGACCTTCAGCTCTGATTGATGTTACAGGCCGACAGGGTGCTGGACATGTGGGAGCAGCCCAGCCAGGAGGGACTCACATGTGTTC
TGGATCTCAGAAATGCCAGTGATGAGTTTGCTTGCATGAGATTTTTGGTTCCAAGATCTCTGGGGATGAGAAAACTCAGTCCCTTCAGATCCCTAAAGGG
GTGTGGGATATAAGTGAAACCAGCCCACATCCCATCCTGATTTTGAGGGCCATCTGTAGCTCTGCTTCCCTGGGTCTCATTCCTGCATTCATGCCCTGGA
TTCTTAAGAACAACGAATGGGAGAAACACACAGAAATGAATGAGGAAAGTCACAGCATTGACAGAGTCCAGGCCTAGTGTCAAGAAATGCCTACACAAGG
AAGTCAAACCCCAAAGTCTTTCCCCACCCTCAAGAAATCAGAATCAAAAGGAAGAAAACCCAAACAGCCCAAGGGACAATGGTAGGAACTGCAAAAGACC
AGAAAACATCAGCTACGATAATGACCAACAATGAAACTCCTAAGATATTGTTCTGTATTACAAAAGAAGAAATTAGACTCAATTGCCCTATTATAAATTT
GCTAAAAATACATATATATATATATTTTATCTGAACAGAAAAATAGACTACTCTGAGATGCGTGGACATTCTATGACATAGTCGCGCATCAGATACTTCT
AGAGCCAGAAAAATGGCAACAGAAAATGCAGAGGTAACTCTTATTTCTGGGTGTAGCCAGGACTGGTTTGGGTTGCCTGGGCTGAGTGACATGAAAGCAT
TTGGATGCTGTCCTATAAGCAGTGATAGGTGAGGAAACATCAGCTCGGGGCTGGAAGCTTTCCATTGTCCTGCCGGGGTCTCAGGGGAGCCCCTTCTCCC
TCCTGCCCACTCTGCAGCTACAGAAAAAGTCCTTTCCCAAAGAAGCATGTCCGGAGGCTTTTTGCCTTGCTCTCTTTTGATTCAAAGTTACTTGAATTGA
GGCTGAAAAAAAGCCTGGGGTATTGTTACTTGAGATTAGTTGGTAGAGAAATAAGAATAGGAGAGAGATTAGCGATAGAGACCTGGCTTTAGTGGCTCTT
GTCCGTGGTGAATTTTAAATATCCCCTTGTCCATGGAACTAGACACTCCAGCTGGGACTGGAGCAAGACAGAAATATACAATAGTTACAAATATCAACAA
TACATTACAGTTTTACAGAAGAGAATACTGTTTTGTTTTTCTCCTTAGAAACATGGATCTTATTAGGAGAAAGGGCAGAGACGAGGCTACAGTTACCAAG
ACACATGGAGAAGCTGGAAGTCAGTTTGAAAAAGTTTGTATCACCAGCAGTTTTCAGGGGCAAGCTGGGTGGGTTAAAAGAAATGGCCTCCTCAGGATTT
TGTTGTTTTTCCTTCTTACTCTTCTTCCTTCTTGATCCCCAGTCCTTTGGAGAAAGGGACTTCACGGGAACAAATGTTCTCTCCTCCTTTTTTCTTTCCC
CTTGAAGTGTGCTTAAGATAGAATTCCTAAAGAAGGCACTGAGAAATCTACTGCACCAAAGTCCTGTTGGTTTCTTTTACCCAAAGATAAAAAGGTGAAT
ATACTGTCTCCTCCAAAGCTTCCCCACCTCTCTCACCGCCGGTGGCAGACTCTCCCCCGTGTGATTGGGACACATGGCTACCTGGTCCCTAGCCCTTTCA
GATAATTGTGGAAGTTGGAATGCAAGTTCAGCTGGGTTCTTGATGAGTTTCAGTGAATTTGCCAAACTGACCAGCATCCATTCGCCGCGTCCAGCCCCTA
GTTTGCTTGTTTGGGTTGACTTGTTTCTTTCTGCTCTCATTGGTTCAGGAATGAATGGGAAATGGACCACCAAGTTAAAGCAGGATTTGCCTTCAGACCA
TTGCTTTCCTCTTCTCTTCTCTATCAAGACCTTTCTATCGAGTGAACTTCTCAGTGAAGACTCTTAAGTAGATTTCCCAGTGCATGTATATTCACGTACA
TAGGTACAGGTTGGGTGTATACATATTAAAATTTGGATATGTTCTTTTTTAGCGGGTGGATGGGCTGGGAAAACTTATAATACTCTCTTTCGAATTGAGC
ACAGAATAAAAGCTATACTCCCCCAGTACATACACACACAAGTAAAAGAAAAAAAAACCCAATCAAACCCAAACAAAATACTTTCTAAGCATAGTATATG
CTGAATTTCAATTATTCTGTTTCTATAAGAACTCTATAGGACTCTGGCTATGAAGCCTGAAAAGGTAGGTTCTTAATGATACTTCTGAATTCGTCCTTCA
AAAGTGACTCAATAAAATGCTACTTTACGGTTGGACAAAATACACAAGGAAGGAAGGGCCAGGTCCTACATGACCACAGAAGGCAGAAAGGGCCTTTGGT
TACAAGGAGAGTTGCACCAATTGGTTTTCGTTTTTTTTAAAAAAAAAAAAAAACAAATCATTTTCAATCTGTACAGTTCTCATCTGCTTCAACCAACAAA
TGAAATGCCTCGATTGGAAGAAGGGGTGGTAAGTTCCTTCTCAATATATATGGCTATATTGAAACATGTTCACTTTCCTGATATGTAAAATAGACTATAT
TATTATTATTATTATTTTTTACAGATAGCATCAGCTCTAAAAATATCTGAATTGGAAATCACAACTATTTACTTTTATCAAAAAGCATTTGTTTTTTTCC
CTGAATTTTCACATTTGTGCTGATGGTGGACATTAATGGTGATGAAAACAAAGAAGAGACATGTGAGATGGTCGGCGGAGAACTGTCCCACAGTCATTCC
TCAAGAGGCCCCCAGCTCAGACTGCGTGTTCAGCAAAGTGTTTTGGGAGTGCTGCTTCCTCTGCCTGGCACGGGATGACCTCACACTCTCCCTGCCCCTA
AGTCCCTTTGCAGTTGCTGCGCGAATACTCTGAAGATACCTAGGAAGAGTGACGTTCTCGTTTTCTCTGTTAATGCGGCAAAGAACAGGACTGCACCCTC
TTGGGGGGATCTACAGTCTCTGGAGATGCTGAGAAGTGTTATGAATTGGGTTTGTATACAGCAGAGAAGACATATTTTTAAGGGTGGTGGAATGATCCCA
TCTCATCATATGTGTGGCAGGTGGCTCAACCTTATGCCTTATGTATGAAGAGCAGGCAGAACAGCTCCATGATATTTGTGTACTGAGAGGTGGATCATGC
CATTGTACTAACAGGCAGACCAGCAACAGATGATATTGAGACTTAAGACTAGGTGAACCAATACCATATCTTTCTTCCACTGGGAAGACATATGCCTGTT
ACTGTATTGAGGATAGACAGAACTACACTATTGTACTTGGGACATCATCCATCAACATTACATTAAGAGAACAACATTGTTCCATTGTACTACAGACAGG
CAGACCAATAACATGTCATCTTTACTGACAGGTGAGCCAACACTATAGCATTGTATTCATCAGTGGTTCAACCTAATGCCACTGTACTGAGGAATGGCCA
ACAACACCATGCTGTTGGACTAAAAGCAGGCAGGACAATGCCAGGTCATCAAACGAGGACAGGAAAACCAACACCAAGAAATACACCAGAACCACTCAGG
ATGCACACAAATACTTATTGCTTTTGTCTGTACTGGCTGCATCGATGGCTGCAGGAAGGAGAGTTGAGCTTTTAGTACAGACAGTGACACTGAAAAACCA
ATAGCTGGTTGACAAGAAAGAGAACAGAGTAAAACACCCAATGTCCAACTGTCACTGTGTCCTTTTGAGATGTGCATGTCTCCTGTATACTTGACTTCAT
GAGAGGCCCCACCCAAGGGGCAAGAACCCCTCCTGACCCATGAGGGTTAAGGGAAGGTTTCAGAGGGGCAGGGAAGGAGCCCACAGACTTTGATATGGCA
GACAGTAATACCAGCACAATATTACCCATGCTGGCCAGAAATGGGCAGGTAGCAACAATCCAACTACAGTCCCAACAATTGGGCTATGGGAAATAGTGCT
TATTTTAAAGTGCAAGATGTTGACACTGTCCCTGGCAGAACCTATTTTTGAAAAACATAAAGTGCTTTTTATTTTAACTTTTTTTTTTTTAACTTGAAAA
CCACAGAAAACAAAACAGAATTTCTATTATAGTAGGTACTTTCCTTGCTGCAGCAGGAATTATTCAGTCTGAACTGGGCATTTCAATGCGTGGTATTTTT
TTCCTTTCATTTTTGCAAGTAAAAAAATCATATTTTTATGCTGTTCTTCAGTAACACACAGTCTCTTTGAATAAACTATTTCTTTTGCATATTTGACACT
TGCATATCTTTTGAGTCTACACTAGTGATGTAAAGAAAGCGTGTTCCTCCTCCAACCCTAAAACAATGCTCTGAGTTCATGCTGTTGGCTGGGTGCCCAC
CTTCTGAACCCTTCCCAGATTGCCAGGGGGCAATTAGAATTGAGTACAAGTGGTGCAACTCACCCTGATGGTATCTCAAAATAAAATCTCAGGTACTATG
AAATACCGAAGTCAATGAAGACATTTGAGTAAGGGTTTTGCGCTGGGATCGTGGCTTATGGCGCAGAGACTTCCCCATGACCAATCATTCCCTGTAGCTG
TCTAACAGTGGAATCCATCCAGGAGGTGATGGACAGGTGTTCCTAGGGGTGGCTGGGCAACATTCAATACCAAATTGGTCAACCCACTCTTTCAACACCA
GCCGCTTGTTCCAGCATCCTTCTCTAGCTGAAGCCAGGAGGACTGTCAATGTTGCCCTCCGAGGCTGAGATGGAAAGCCACGAGAGAATGGGGAGTATGT
GGCCTCGGTCCTGTCTAAAGTGGTGGTAGTGGTGGCTGTGAGTTCCACTCATGTCATCTCCCAAAGAGGGCTATAGAGTTGTTACAAGGAGGTGCTGTGC
CCTATGGCTTGGCCAACTTCATGCTGATGGACCTGTCATGGCTCTCAAGGTCTTAGGGAGCCTTCTCTGGAGTCTCTCTTCTCTCTGAGGGCTTTACAGG
GCCTTTCTGTTCCAGAGTTCATGCAGAAAAGCTCTGTGGCAGGTAAGCTGAACAGCTCTCCTCTTTGGACCTCACCCAAAAGTCTCTCCTCCAAGGCAGG
GCAGTTCAGATGCTCTGATCTCGTGTGCTTCCATGGGCTCCTCCCCCTGGCAACACACGGACGTCAGGGGAGATGTGGTTCTCAAGTTTGCACTTTTCCT
GACCACTGGGGCCTTTTCCAGTCAATGCTTCTGTGGAGTAAATACAGTTCTGCCTTAAGAACTTAGGGGAGGTGGGTAAAGGGGAGCTTTCAAAGTGGTT
TTTCTCCGATCTTGTCCCCGTGCTGAACTTCGGACTGGTGCTCCCAGGGAGGCTTTTGGGGGGGCTGGAGTCCACACTGTAGAGCAGCTGTCCCTCATCA
TCTGTGTCTGC


SNP Information

Context             (SEQ ID NO:61747):
TCACCCTGAGGTTGAAGTCTCACTTTCTCCCAATCCACCATACATAAACCCTCTCTTGTCAAATGCTTTCCTTAGAGAATGCAGTATGCAGGATGATTTG
R
GATGGAGGCCACAGCTGCAGGAGAGTGGCATTCTGCTTGGAGGCAGCCAAGAGCCTGGTTTTGCTGTGAAACTGGATTAAAAGCTGCCTTTCTCTTTTGA
Celera SNP ID:            hCV524967
SNP Position Genomic:     7714
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIG-allele(A,245|G,1250)   total(G,1250|A,245)   no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:61748):
GTGAGCTAAAATAGAACATGAGGCTGAGAAATGCAGGGTAGGGGAAGAGGAAGGAGGGCAGAGCTGCTCTGTGGGCCCCCAGGAAGTGTGGCTCTGAGAG
R
GCTGTGGCCCTTATCAGCTTGGGGCCTACAAGCATCAAATTGAGATGTCATCTTGAGTCAAAGAAAGATGACCTTGATGGGGCAGTTATGGGTTTCAGTG
Celera SNP ID:            hCV717068
SNP Position Genomic:     6794
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 PUTATIVE UTR 5


Context             (SEQ ID NO:61749):
ATCATGACGGCTTTGGGGCTCAGAAAAAAAGATCTTCGGCTCTAAAAGCTGGAGGGCAGGCTGGCCTTAATATCCAGCTGGACTCCCATGGCTCAGGGAA
Y
GCAATCCAGTTTCCAGATGTTGGCTCCTATGTTTCTGCCCCAGGAAGTCCCAGACCAAAGGAAGTCCCAACTTCGAACCCTTGGCTTAGTCCATTGGAAA
Celera SNP ID:            hCV525012
SNP Position Genomic:     6562
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)   JBIC-allele(C,237|T,1263)   total(C,237|T,1263)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61750):
GACAAGACAGCAGCTGGAGGTCACACAAAGATCACAATTTCATCTCACCACATGCATAAAAAGACACTGGGATTTGTGTGTGTGTGTGTGTGTGTGTGTG
Y
GCGTGTGTGTTGCGCACATGCGCAATGCTTATTTTCACCTTTACAGGAAGGACTAGAGACATTAACTGACGAGAGATGAATAGGACCCACGAATGCACCC
Celera SNP ID:            hCV525013
SNP Position Genomic:     6191
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 DONOR SPLICE SITE


Gene Number:                 353
Celera Gene:                 hCG2039142 - 206000044636977
Gene Symbol:                 FCER1G
Protein Name:                Fc fragment of IgE, high affinity I, receptor for; gamma polypeptide
Celera Genomic Axis:         GA_x5YUV32VSLS(215505..231498)
Chromosome:                  Chr1
OMIM number:                 147139
OMIM Information:            Fc FRAGMENT OF IgE, HIGH AFFINITY I, RECEPTOR FOR, GAMMA SUBUNIT;FCER1G


Genomic Sequence (SEQ ID NO:12513):
CTAGCTGTGGAGAAGTTGCTAAACATCCGGCCTCCTCCTCGGGCACAGTGGATCCGAGGTATGTCCCCCCAACTTTTTCTGTGGCCCACTGTGAGCATAG
CATAGTGCCTTTTCCACCACTTCCCCGTTGAACCCAAGCTTAGTGTTCAGACCCCAGGCTCTGCCCAGACCTCTCTGTCCGCCTCAGTGCTTGGCTCCTA
TATCCTGTCTTCTCCTTGTCTTCACAGTGCTGTTTGGAGAAATCACACGTTTGTTGAACCACATCATGGCTGTGACCACACATGCCCTGGACCTTGGGGC
CATGACCCCTTTCTTCTGGCTGTTTGAAGAAAGGGAGAAGGTAAGAGTGGGAGGAAAGGATAGGAATAGGGAAGGAAGTGCAGGAAGTAGAGAAGGTATA
AAGGAGACAGGAGATTAAAAGAAGAGAGAGAACATGGGAGAACATTTAGAGGGGGAAGGTATGTTTAACTTGGGTTATATTTGTAGAAACTATATCATGA
GGGGTTGGTTGGGCACAAGAAGGCAGAAAGTGGGGGAGTAGGCCATCATAGGACCTGGGGGCCTGGGACTTTGACACTAATTCCCAGCACGTTCTATGAA
GATGTTTGAGTTCTACGAGCGAGTGTCTGGAGCCCGAATGCATGCTGCTTATATCCGGCCAGGAGGAGTGCACCAGGTGAGCAGGTCCCCGGCTTCCCCA
AATGTCCAGCCCAGGCCTATTTTCCCTGTGGCCACTGGAGGGCAGTGCTGGATGATGGAAACTCCAAACCTGTATCGCTGGGGGAGGGGGTGCTGAGAGG
GCTCTCCTTAGTGAAGGCTATGCCACATTCAGTAGCACTTCCGTTTGGCTTCTAGGACCTACCCCTTGGGCTTATGGATGACATTTATCAGTTTTCTAAG
AACTTCTCTCTTCGGCTTGATGAGTTGGAGGAGGTAAGCTAGGAGTCAATGGGAAAAATCTCTCCCCCACAAGAAGGGCTAGAGAAATACAGAGATATTT
GAAGAGTGTGAGGAAGAGTATTAACACACCAGTTTTCTTGATCAATAGTTGCTGACCAACAATAGGATCTGGCGAAATCGGACAATTGACATTGGGGTTG
TAACAGCAGAAGAAGCACTTAACTATGGTTTTAGGTGAGGGGAATACAACTTCTCTCCGTAGGAGTGGGGGTGGGAGTGGGGGAGTTCCAGCCTAATATC
TTGTCTTTGAAGACTTGTTGGCATCCTCCTAGTCATACCCTGAATGTGAAGGATCAACAAGGGAGGCTAAGGAAGAAGGAGCCTCCTTACTTAGTTTGTG
GAGAGTGGCCCTTATTCCCATTATGCTCTCCACAGTGGAGTGATGCTTCGGGGCTCAGGCATCCAGTGGGACCTGCGGAAGACCCAGCCCTATGATGTTT
ACGACCAGGTTGAGTTTGATGTTCCTGTTGGTTCTCGAGGGGACTGCTATGATAGGTAAGGCCCCAATCCTTTCTTGGCTGATATTCCAGCTAGTTTCCC
CTGCCTCACTCTTCTCTTTGCCACTTCCTTCTTTACCCTACTTCTCAGTGTCTGTGGGAGCTCTTGTGTGTGTTAGACGAGGTTGCTCTCAAAACACTTT
CACATATATGGAATCTTACTTATTTTTTTCTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGTTGGAATGCAATGGTGCAATCTCGGCTCACTGCAA
CCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGAGCCACCACGCTCAGCTAATTTATGTATTTTTA
GTAGAGACGGGATTTCTCCATGTTGGTCAGGCTGGTCTCAAGCTCCTGACCTCAGGTGATCTACCCGCCTCGGCCTCCAAAATTGTTGGGATTATAGGCG
TGAGCCACCACACCCGGCCTATGGCATTCTTTTTATCTTTACATTATCCTTGTCTTAGATGGAGCTAGCTTTGGCTGCATTTTATAGCTGAGAAAGCTGA
GGCATAAAAGTTAGGGATTAGCTGGGATTATTCTTCAGGAGTGGTCGAGACTAGAATCCTCCTGATCCAGTGTTCTTTCTAGTAGATCCTAAGCTTCAGA
TTCTCCTCCTGGGCCAGGCACAGTGGCTCATGTGTGTAATCCCAGCATTTTGGGAGTCCAAGGTGGGTGGATCACTTGAGGTCAGGAATTCAAGACCAGC
CTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGTGTGGTGGTACATGCCTGTAAGTCCAGCTACTTGGGAGGCTGAGGA
AGGAGAGTTGCTTGAATCTAGGAGGTGAAGGATGCAGTGAGCTGAGATGGAGCCACTGCATTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAA
ACAAAAAACGAAAACCAAAAACAAATTCTCCTCCTGTTTTCTCACCCTGAGTCAGATTTGTTACTGTGTATTGTTTTTTTTATTTTTGTTTGTTTTATTT
TTTGAACCTGGTAGCTACTGCTGTTATTTTTGTTTGTCCATTTGACTCTCACCCATCCTGTGGTCCAAAAAGTGCTTAAGGAGGTAATTAAAGAAATAAA
TACTACAGGCCATGTTCTGAGAAAATAAGGAGAGGGTTTGGGGAAGCACCCAAGAGTAGAAGCAAACGATTACAGGGGGCTGGGGTTGGTGGCTCATGCC
TATAATCCTAGCACTTTGGGAGACCAAAGCAGGCAGTCGCTTGAGCTCAGGAGTTGGAGATCAGCCTGGGCAGCAAAGTGAAACCTCGTCTCTACAAAAA
ATATTCGGATGTGGTGGTGCACGCCTGTAATCCAAGCTACTTTGGAGACCGAGATGGGAGGATCACTTGAGCCCCAGAGTTCGAGGCTGCAGTGAGCTGT
GAAACCCTGTTTCAGAAAAAAAAAAAAAGACTACAGGGTTTATATGGGTGGCCAAGCCAAGCAGAGATGCTGTACTTGGAGAAAAGAGTGGGGAGAGTTG
ACCTAACCCTTTTGAGGTTGGCCAAAGGGCATCCTTCCTAGCCCCATACCTGCTCCTCTGACTGTTCTTCTCTTGCTCTGTCTCATCTTCTTGAGGTACC
TGTGCCGGGTGGAGGAGATGCGCCAGTCCCTGAGAATTATCGCACAGTGTCTAAACAAGATGCCTCCTGGGGAGATCAAGGTTGATGATGCCAAAGTGTC
TCCACCTAAGCGAGCAGAGATGAAGGTTGGCTGCAGGGAGGGGGAAAGTGTGGGGTGTTGGAAAGGGGCCAGTGGCTGGGGAGGAGTATCCTTGGATTAA
ATCCTATCTTTTGGTTTTCTTTTTTTTTTGAGACAGAGTTTTACTCTTATTGCCCAGACTGGAGTGCAATCTCGGCTAACTGCAACCTCCGCCTCCCAGG
TTCAAGCAATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGTGTGCCACTACGCCCAGCTAATTTTTTGTATTCAGTAGAGACAGGGTTTC
ACCATATTGGTCAGGGTGGTCTCGAACTCCTGACCTCAGGTGATCCTTGGCCTCCCAAAGTGCTGGGATTACAAAGCGTGAGCCACCACACCCAACCCAG
TTTTCTTTTAATAGAGAATTTACTGTGTAGTAAGAGATTCGGGTTTTTTTTATTTTTTTATTTTTTTTGAGACGGTGTCACGCTCTTTCACCAGGCTGGA
GTACAGTGGCATGATCTTGGCTCTCTGCAACCACTGTCTCCTGGGTTCAAGCGATTCTCCTGCCTTAGTCTCCCGAGTAGCTGGGATTACAGGCACCCAC
CACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTCTGTTGGCCAGGCTGGTCTTGAACACCTGACCTCTTGATCTGCCCACCTCA
GCCTCCCAAAGTGCTGGAATTACAAGCGTGAGTCACCGCACCCGGCCATATAAGAGATTCTTAATCTCCCATAGCTCTCCTGTTTTATTCTGTATCCTCT
CTGCTTACTGACTGACATGTGGCTTTAGTCTCCCTGAGGGTAGAGATTATTTTCTGTGCTGGGGGAGGCCTAGGAGACAGAGTTTGGATATGGTTTATTG
ATGCTCCCTGTTTCCTCTCTTCAGACTTCCATGGAGTCACTGATTCATCACTTTAAGTTGTATACTGAGGGCTACCAAGTTCCTCCAGGAGCCACATATA
CTGCCATTGAGGCTCCCAAGGTAAGGAGAGGAGGGGAAGGAAAAGACCATATGTAGAGTAGGTAGCTAAAGATAGATGTTTAACAAATAGCTCATTCATC
AATGAGAGAGAAAACAGAATGAATAGAGGTTTTGTTGGCAGAGAAAAATACTCTTCATGTTAATACAGACACCCAACCTTCTTCCTTGAACAGGGAGAGT
TTGGGGTGTACCTGGTGTCTGATGGCAGCAGCCGCCCTTATCGATGCAAGATCAAGGCTCCTGGTTTTGCCCATCTGGTAAGAATCAATCCCAGTAACTA
TAACTCCAATGAATTAAACCTGACCTTGGTTGAGGTTTTTATGAACTCTTCTTTCTCCTCCCACCTTGCAAGTCTTAACTAACATTGTTGCCATCTCAAT
CTCCCTAGGCTGGTTTGGACAAGATGTCTAAGGGACACATGTTGGCAGATGTCGTTGCCATCATAGGTACGAGGCCTATTGTGTAGTAGAGGTATCCTAG
ACAAAGGAGTTCGGGACGCCCACTGGGGACAGAAGGAGAACACTTCCTGTTCACCATAGGCCATGGCATGGACTCGGGTCCTCAATCTTTTGAGCACAGT
AATGGGTTCTGGATCTTGGGTAACACCACTTTTTTTGTTTGTTTTGCCTCACAACAGGAAGATAAGTAACATCACTTTTTTCCTCCATCCTCTCACCTAG
GTACCCAAGATATTGTATTTGGAGAAGTAGATCGGTGAGCAGGGGAGCAGCGTTTGATCCCCCCTGCCTATCAGCTTCTTCTGTGGAGCCTGTTCCTCAC
TGGAAATTGGCCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTTCATGTACACTTGGCTGTCAGGCTTTCTGTGCATGTACTAAAAAAGGAGAA
ATTATAATAAATTAGCCGTCTTGCGGCCCCTAGGCCTAAACTTCTGGTATCTTAGTGTCTCAGTATCTTAGTGTCCTTCACTCGGACTGTAAACCTAAGA
ATGTTCATTAACCCTCCATTCCTGTTAGATTCAGTCAGGTCTTAGCAATTTTTCCTGCTCGTCTCCACCCCCTTCTCTGACTCTTGTCCTTTCCACTTCT
CTATTCCCCATTTCCTCTTTCGCCTCAGTTCCCTCCTTGCCCAAACCTTCTCAGTGCCCACATAACTTGGTAAACCACTCAAATCAAGACCTGGGGTAAA
GTTGGGAGGGAAAGGGCTATAGTGGGGTCTGAGGGAATGTTGACGGGCAGTTTCACACAGATAAATCTCTGAACCAGCCGGGCGCAGTGCCTCACGCCTG
TAATCCCAGCACTTTGGGAGGCCGAGGCGGATGGATCACCTGAGATCAGGAGTTCAAGACCAGCCTGATCAACATGGAGAAACCCCATCTCTACTAAAAA
TACAAAATTAGCCGGGCGTGGTGGTGCATGCCTGTAATGCCAGCTACTCGGGAGGCTGAGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCGGTGAGCC
GAGATGGCGCCATTGCACTCCAGCCTGGGCAACAAAGCAAGAGTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAATCTGAACCAGGTGGAGTGGAAAATGG
CAGATGTAGACAGCCTTTCCTGAGCGTGAAAGTCTCCTCATTCTGTGGGTTAGGAGTTGGTCATTGAAGGGCTGACGCTTAAGAGCCCAGATCTCCCAAC
TCCCTTAGTTGGCCCTTCCGGGAGCCGCCCGGTCTCTTGTGCAGGAAGGGGAAGGGGCCAAAGCATGGGGGAAGGCGTGGCAGGAAGAGGGGGACTCTGT
GGTCAGGGAACTKCTCGCTGAGCACAGCTGCACAGTGCTGTCAGAACGGCCGATCTCCAGCCCAAGATGATTCCAGCAGTGGTCTTGCTCTTACTCCTTT
TGGTTGAACAAGCAGGTAAGAGGGTTTGGTGAGGGATAGCGTGAGCTGGCTCCAGGGTGGAAGTCCAGAGCTTGGGTCTGAGGGCCAAGTCAAACACAGG
TGAAGGAAGGCTGACAGTGGGTAGGTGGGCATAGGGAGACCCTGAGGCTAGTCCTCTCCAGCCCCGACCCAGGGCACTAGACTCATAGTTCCCTCCTTTC
TTGTTGCCTTCTTACTTCATTCCAGACTTTTCTCCGTATTATTATTATTATTTTGGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGC
AATCTCTACTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGGCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCGG
CTAAGTTAAGTATTTTTGGTAGAAACCGGGTTTCGTCATGTTGACCAGGGTAGTCTTGAACTCCTGACTCAAGTGATCCACCCACCTCGACCTCCCAAAG
TGCTGGGATTACTGGTGTGAGCCACTGCACCCAGCTATTATTATTATTAAAAAAAGACAGGGTCTTACTATGTTGGCCACATCGGTCTTGAACTCCTGGC
CTCAAGCAATTCTCCCACCTCGGCCTCCCAAAGTGCTACTGTGCCTGGCTGACTTTTCTCTTTTCAGGGTTGATAGAAAGTGGCAGGGGAAGGGTCTGGT
TGTATGGCATGAAGAGCTGGTCTGGTGAAAAGCCTCATTTCTCATGATGAGCATTTCCCATGGGGTGCCTTTGGTCTTGTCTGCTGGGAGCTGATCTCTA
GCTGGTTTAATATACAAAGCACCCTTGGTGCCTATAATTCCAGCTACTCAGAAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGT
GAGCCAAGATCGCACCACTGCACTCTAGCCTGGGGGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAGATTTTACATATATATCTCTATCTATCTAT
CTATATACACACACACACACATACACACACACACACACACACACACACACACACACATATATATATATATAKAGAGAGAGAGAGAGAGAGAGAGATAACC
CTTTAGGAAGGTAGGACTCTGTTCTTGTGCTTGGGAGTAAGGCAAGGATATAGCCAAGACAAACAGACGGGATTGCTGTTTCTATGGGTCATTGTTAATG
CTCCATTCTGTCAGCAGTTGATAATGAGGGTGGGCAGCATGAGATCCCCAGTTCCAGAGACCTGAGCGTCAGCTGAGAAATAGAGGCAGAAATGGGAAGG
TCTCTGAAGCTCTACAGCTCCAGCCACTATCTAAGAATTCTCACTCCTCGTTCACTCTGTGTTGTCTGTGCTGGATTGGTGTGTGTGTGTTGGTGGCAGC
TGGGTGTTGGGGAGGAGGAGGTCAGTAAACTTCAGGGAAACTGTGGAAATTGAAAGAGAATGACTGGGGAGGAATTCCAGCAGCCTAGCTGAGAAGGTGG
GAGCAAGTATTAAGTTAGCCACTGGTCTGCTGCCGTGGGATGAGGAGGGAGGAGGCCCGCTGAGGCACAAAGGAAAGCATGGGCTTTAGAGGCAGAAAAC
CTGCATTTGAGTTCCAGCTCTGTCACTTAACTCTGTGGCTCTGAGTGAGTTACTTAGCTTTTCCGAGCCTTGGTTTCGTCACCCATAAAATGGCGATGAT
GATGTTTCCCTCACAGGGTAGTTTTAAGATTTGTGCAATATCGTGTGTGTGAAAGAGTGTTGCAGAATAAAAAGTACTTGACCGATGTCAGCAATTGACT
GACGTTAGTCACATGTTCCCTACTGGTCCTCTGATACGGGGTGAGAGCAGTCTCTGGAGCCCAGACTTGATTTGATTTTTTAAATTGCACAAAACTTCCC
CTCTCAGAGACCCAGAGAGTGAGTAATAGGGCAGAGTAACAGGAGCTGGAATCCATATAGCTGTGGTCATTCCCCCAGCCTTGTGTTCAGGGCCAAAGGT
ATCTGTAAGGTCTGGGAAAAACAGACACACTTTTTTTTTTTTTTTTTTTTTTTACATATTTAAGTGTCTTGTGGTGGGACAGAAAGCAACAAGGCTGAGG
CTAGGAGATGACCAATGATAGAGTAATTGCCTTCTCTCCCTTCCCCAGCTCACATCCTTCCTGTCCAGCCCTCAGCCACAGGTCACAGGACTTAGTAGAG
ACACTTCTGTGGTTTCTTCACTGAAATTTGCCACTACCTCTCCCTCCCACTACCCATCTTGGCTGAGGTTTTGGTTTCAGTCCAGTGGACTCAGATGGGT
CCCTTGAGGTGGATAAAGTGCTCAATGGTGCCTGAAGAACCCACAGTGCTAAAAAGAAAAGGTTGGGGGCTGAGGGGGAAGGCCTCAATTATTAGTCCGT
GTGAGTCCCATTTCAATAGAACCCTCAAGCTTCCTATCCTAGCCTGACCCTATGGTGTGGGAGGAGGGAAAGGTAAGGGCAGTGGAAGGCCAGAGAGAAA
CAGAATTTCTTCCCTTAGAYGGCTCCCCTCCAGGCCCTGTCCTACCTCCCAGAGCCCCTTCCCTTCTCTCCTCTGAGTACCAGATCCTCCCTGATACCCC
CGACCCCATGGGCATCCTCTATCCCCTCAGCGGCCCTGGGAGAGCCTCAGCTCTGCTATATCCTGGATGCCATCCTGTTTCTGTATGGAATTGTCCTCAC
CCTCCTCTACTGTCGACTGAAGGTAGCGCTGGGCAGGGTGGGGTAAGGGCTGGAAGGGGAAGTGGGAGGAGGGCAGCAGCAAGGATTCGAAGAGAAGGAA
TAAAAGGGGATCCTCCACAAAGTTTGGAGGGAAGGGGGATGGGCCATTAACTTACCCTTTACTGATAACCTTTCCCCCATTCCAGATCCAAGTGCGAAAG
GCAGCTATAACCAGCTATGAGGTATGGACCCTCCTACACCTGGTGTGGACAACTTTTCAGACCCTCAGCCCTCCTGGGGCTCTAGCCTGGGTTTCCGGGC
CTCTGGGAGGGCCTGCCTCTCAGGTGCTGATCTGCATACACCTCAGAGGCCTCCCTCCCACCTTACCTAGCCAAGCCACAAGTAAAATATTCAGCAGGTG
ACASGGAAGAATCAAGCATAGAGTGATAAAGAATATGTGAGAGACTTGGATGTAGTATGTCGGGTGTATATGTGTGCTTGTAGCCATGTGGGCAAACAGG
TATCCATGTCCCAGAGTGTCCATGTGAGTGCCCTCTAGCCCAAGGTGGCTGGCTGCCCACCCCCCATGCCTCCCTGGGTGGGGCAGATGCTGAGGGGCCC
TGGAGAAAGTGTGGGTCTTTAATGTTTTGCTTCTTTTGTCTCTGCAGAAATCAGATGGTGTTTACACGGTAAGTGTGCCTACCTCCCCCACCCAGGAAGT
CAGCAGAAGAGGGTGGGATTTTGAGCGATCTTTGGAAGGCCGGTGGGGGGAGGGGGGTCCTGTGGAGGTGGGAGGGGCCTCTGATGGACTCCAGCTCCTG
ATCGCCCTTTGACTCCCATCTCCAGGGCCTGAGCACCAGGAACCAGGAGACTTACGAGACTCTGAAGCATGAGAAACCACCACAGTAGCTTTAGAATAGA
TGCGGTCATATTCTTCTTTGGCTTCTGGTTCTTCCAGCCCTCATGGTTGGCATCACATATGCCTGCATGCCATTAACACCAGCTGGCCCTACCCCTATAA
TGATCCTGTGTCCTAAATTAATATAYACCAGTGGTTCCTCCTCCCTGKTAAAGACTAATGCTCAGATGCTGTTTACGGATATTTATATTCYAGTCTCACT
CTCTTGTCCCACCCTTYTTCTYTTCCCCATTCCCAACTCCAGCTAAAATATGGGAAGGGAGAACCCCCAATAAAACTGCCATGGACTGGACTCTATTCAT
TCATTCATTCATTTATCATAGATTTATTCAGTCTCTGCTAAGCACTAGATACAGCTTTTCAGTTCCAGAACTCACAGTCTAATGGACTTCAGAGCTATTT
TGCTCGACTGAGGGATAAATGCTGACTATGGCTGGGGGAGGGATAAAAACCTTTGACCTGTAGGTGCTCTGAGGATGGAGCTGGAGCAGGGACTAGTGTG
TTGGGAGTCTAGGCATATTTGGAAACATAAGAAATGACTTCTGTATCAGCATGGCCTTCTGTGTTCGACAATTGAACCAAGGTTGGGTTGTAGGGGAGCC
TGGGTGTCCCCAGATGGCCACCAATCCAGACAGCATCAATCCAGTACATGCATATGGGAATTAGCATAGCTGAAAAGCCAAATATGCAGAACGGATGGTG
TAACTAGGGCTGAGTGAAGCTCCTAATGGAAGGTTTTATAGCAACAGTGAATTTTCAGGGCATCTGGGGCAAGTGGGACCTTAGAGGGCCAGATGGGTCA
GTGGTAGGTAAGGCAAAGGGAAATAAGTTGGGTCCAAATGGGGGGGTCATCTCCTTCAAGTGCATGGGTGGTGGTCAAGGCCCTGTCAATGCCTGTCCTG
TTTTCAGAGCTACGAGGAATATTTGCCTGAAAGAATTTAAACCTCAGGAGATGCTGCCAGTCCTACTTGTGACCCAGTCTTTTCAGAATGGGTCTAGAGA
CTCCAAGCTTACCCCTGGCATAACCCCCAACCTCCACAGTGCTGCACAACACTTCACACTGCATAGTGACTTACACTTTTCAAAGTATTTTCCAGCTCAT
TGTACCATTTGATCTGCTAATTAACCCTGTGAGGAAATTCAGGCTCTTTGAAGTTAATTAACCTGTCCAAGGTCACCTTGCAAGGAACCGACTGAGATCA
CTTTCGTCTCTGCACATTTTGCCACATGAGAAGAAGCAGATATTGGGAAAGAGAAGGGGTAGTGAGTAATCATGAATGGCGAGGGTCTTGAAGGCCAGAT
GAAGCAGGTTGATCAATATCTGGAAGGAATTGGAGCCATCTCCGGTGTCTGGCGGGGGAAAGGTGATTTCAGATGAGATAAGAGAAATGAGCCAGGGTAG
GAAAGTAACTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCCCTCTATCACCAGGCTGGAGTGCAGTGGCATGATCTGGGCTCACTGCAACCTCTGC
CTCCCGGGTTCAAGAGATTCTCGTGCTTCAGCCTCCCGAGTAGCTAAGACTACAGGCACCACCATGCCCAGCTAATTTTTTTTGTATTTTTAGTAGAGAC
AGGGTTTCACTATGTTGGTCTTGATCTCTTGACCTCGTGATCTGCTCGCCTCAGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCACCGAGCCTGACC
TGGAAGTAACTCTTTTAAAGATAAAGTGGGAATAAACTTTTATTGGAAAATGTTTCATTTTCCTTTGCTCTGCCTTTTGGGATTGTAAGTCTCTCCCCAT
CAACCCGGACTGATTTCCATTCCATTTTCATTTAATCCAGGTATCACAGCTCCCAAAGTTTTTCTAGTCCCACATGTCCACCGAATTGGATACTTGCCAG
GCCTTTAAATGGCTACCACAGCTACTACTTCCAGGCTCCAAGATGGCTACCAGGCCAGTTCTATGAATAGTGCCTGGATAGCAGTGGAGGAGAGGCTTGG
AATGGGTCTTCCACAGACAGTGTCTAGATAAGAGGGTTTTTGTTGTTGTTGTTGTTGTTGTTGGGATGGAGATTCACTCTTGGTGCCCAGGCTGGAGTGC
AATGGCGTGATCTCGACTCACTGCAACCTCCACCTTCCGGGTTCAAGCGATTCTCCTGCCTCAGTCTCTTGAGTAGCTGGGATTATAGGCATGTGCCAAC
ACTCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTACCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGC
CTCCCAAAGTGCTGGGATTACAGAGGTGAGCCACTGCACCCAGCTGGTCTTTTGTTTTTAATTAAAAAAATATATATATTAGGGGGGCTCACTGTGTTTC
TCAGTCTGGTCTCGAACTCCTGGCCTCAAGTGAGTCTCCCACCTCAGCCTTCCAAAGTGCTGGGGTTACAGGTGTGAGCCTTGATGCCTGGTCTAGATAA
GAGGTTTTAAATGGAGAAATTAGAGCACTTCTAGGGAGAGGAGCAAACTCAAGTCTTTTATTGTGGGAAAGGGGGAAACACAGTGTTCCCCTGGCTCAGA
AGGGAAAGGAGGGCCACGGGTGACACCTTGGGAAGCTTTCTTTTCTTCATAGAATGACTAACAGGAAATTATGAGGGGTACCCTCATTTTCTTTTTTTCT
TTACTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCTAGGCTGGAGTGCAGTGGCACGATGTCAGCTCACTGCAAC
CTCCGCCTCCCCGGTTCAAAAGATTCTCATGCCTCAGTCTCCCGAGTAGCTGGGATTACAGGCACGTGCCACAACACCTGGCTAATTTTTGTATTTTTAG
TAGAGACGGGGTTTTACCATGTTGGCTAGGCTGGTCTGGAACTCCTGATCTCAAGTGATCCACCTACCTTGGCCTCCCAAAGTGCAGGGATTACAGGTGT
GAGCCACTGCACCCCACCAGGGTACCCTCATTTTCTATGACCTCCAGAAATCGAGGGATTCAGTTTGTGAATCCTTCCTTCCTCTCCTAGTTCCTTGTGC
AATGCAAAGCCTCTTTAGTGTTCACCTGCAGAGTCGTGCCCAGGCTGTAGGAGACTCTGGGTTTGGAGAATCATGGCACCCTCATCCTGTCATTTTCATC
AGTTGTGTCTTCAATCCTTTCTTCACCCCTCCACACTCAAACCTCTCTCCTTCTAGAAGCAGATTTTTCCTTTTCCTTCCTCTTCTCCTCCCTTACTCCC
CTACTTTTCCCAGTCCCCCAAACATACCAGGCTCAGAGCTGGATTCATTCAGCATTTATTGTAGCAAAGAGTGGGTAGGGACAGGAGCTCTAGGACTGGC
CAGTGGGTGTTCTAGAGGCCAGCTGGGGTTGGAAGACAATGGTCTGGACACTTCACTGGGTGGCAGGCTGTGTTCCAAGTTCCACGAAATAGCTCAAGAA
GTTAACCAGTTCCGTTCCAGCCTTCTTGATCAGGGGTGTCAGCTGCTCCTTTGACTTTTCAAAGTAAGACCTGGATAGGTGAGGGGATTAGAGTTTAATC
TGAGGGACCCTAGGCACTGGCAGGGGCCTTGGTGGTGGTGGGAGGTCAGAGCAGACTGACTCAGGTCCCCAAACTCTAGTGCCTGGTCCATCGCATGGCA
AAGCCCCTAGGTAGGAATAGAGTCAAGACCTTTGCTAGGTAGAGGGACAGACTCTAGAGACTGAAATTCAAGGCCCAGTTCTTGCTGTTCCTCTCTATCT
AAGAGACGTGTGGGATCTTTGGGTGATGAAATACTTTTTCTCTGCAATTTAAGCCTAATCTGCCCTAATCCCCACCCCTGGGTTCAGACTTCTGTGGGAC
CTCTCATCTTCCCTTCTTTCTCTCCACAGTTCCACAGCCCCTGAACCCCTTGCCCTGAGACTTACTTGGCCTCGGCCTGAAGCTCTGGGCTCTTGACCTT
CTCCATCAGGTCCTTGCCATAGTCAGTCACGGTCTGGAAGTACTGAGAAACCAGGCTCTCCACACATGGCTCCTTTGCCTGTCTCCGAACCAAAGCTCCT
GCCCACACACACACACACACACACACACACTCTTTTCAGCTGGGTCCACAGCAGTGAATCCTGGCCTCCTGCCATACCTCTGCCAGTACCCACCCCAGCT
CTCTGCCCCCTCCCCAAAAAGGTATCCAGCCAGATCTTTGGATGGGCTTTCTGGGCTTTAGAGAGGGAATGATCTTCCTTTTGAGCCCTTTGGTTGCCAG
ACCTGGATATAAGAGCACAGGCAGATAGGTAGCTATAACCACCAGCACATTCTCCCTTTTGGCCCCCTCTCCATATCACACCCACCTTCAAGGCTGCAGA
TGGTGAGGAGTAGCACAGTTGCTGCGAGCAGCTTCATGTTGGTAACAGTGGGGAGGGCGGCCTAGGAAGAGGGTGGTGGGGGTTTGGGGGACACTGAAGC
CAAATGGGCTTCAGCTCCTCCCCAGGGATCTCCCTACCTGCTGCCCATTCCAACCTGGCTCTCTCCCTCTCCACAACTGAAGCCCAGGCCTCTTTGGATG
CTGCTCACACATCTTGCCTCCTTATCTTACCTAGCCAGCGTCTCTGTCCTTGGTGTCTGTGCCTGCCCTGGCTGGAGAGGAAGGGGCTATATACCTGTCT
GTTTACCCACCCCCTGTCAGGTGACAGGGACTATGGATGGGCCCAGTGGGGCAGGGATTATGTGAGGATAAACAAGTTGGAGAAATGGGGGAGGAGAGGA
CAAGCACATGGAAGACTCATGGTGATGGGGTGAGAGGCAGGGGGTACAGCTCTTAGTGGAGGCTAAGGGGGTACACTTCAGGTATATTTGAGGTTCATTC
TTTTGAGATCTGAGGTCCTTGGACTTGAATGCAACAGGAAGCAGGATTCCAAGTTATTTCTCTGGAAAGCTCTGACATATCAACCCATGGAATACCATCA
ACCCATCATACCATGGAAAGCTCATGGTGTCTTTATTCCATTATGGGTAGATCTCATCTCTCAACCTTATCCCACTTTACTGCAACTTGGCAGAGAGATA
TTGGGGAGCAGAAGAAAGGAGAAAGGAATTGAAATCAGGGACAGGGTTGAGGGCTATGGGGGTTAGGGGAATGAGGGTCGGGTAAGAGGGCAAGTGTAAA
TGATCTTGTCCGTTTTTGAGTTAATGTGTAATGAGACGGGGAGAAAACAGGAGAGCCCAGAATGACCTGGATGCTGATCACTGAACATACCCTACCCCCA
GTAAAACAAATTCAGAAAACAGCTTCCGCCCGTCCCCTCCCAATGGAGGGCTCTGGCAGGAAAAGAGGTGAATAAGAGGCTTCTACCAGGGTAAAGGTTG
AAGGCACCTGGTCATTTGATCACCTTATCAGTTCTAGGCAGTGATTAGCCAATATTGAGTCAGCAGGGGCAATAGCCCTGGCCCTTGTCTCACTCCTGTT
GGGGGTGGGGGAGGGGGAGAGGTACATTCCCAGGTTCAAAGCATTTGGGTGAAATCAGTTAAATAGATATCAGAAGCTTTTGTATCTTTCACCCTTTTGC
CCCCCAAGCATACTCGCTGAGTATGTGGAACATTCCTGAGGGTGACAGTGGAGGCGCAAAGCTGATGAGGGAGGTAGTGACCAGAGACCAAGAAATCTTT
GTTTTTTAACTTTTGTTTTAAATTCAGAAGTATATGTGCAGGTTTTTTTGTTTGTTTTCCTGAGACGGAGTTTTGCTCTTGTTGCTCAGGCTGGAGCGTA
ATGGCATGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGGATTCTCCTGCCTCAGCATCCCAAGTAGCTGGGATTACAGGCATGCGCCACCAC
GCCCGGGTAATTTTGTACTTTTAGTAGAGACGGGGTTTCCCCATGTTGGTCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCTGCCCGCCTCGGCCTC
CCAAAGTGCTAGGATTACAGGCATGAGCCACCGCCCCTGGCCTATATATGCAAGTTTGTTACACACGTAAACTTGTGTCATGGGGATTTGTTGTACAGAT
TATTTCATCACCCAGGTATTAAGCCTAATATCCATTAGTTATTTTTCCTGATCTTCTCCCTCCTCCCACCCTTCACCCTCCAAGACCAAGAACTCTTACT
CCATTTTCAATTATTCCCCTGTGGAGCGCTTAGTGCTTGAGGTCAGCCCTTTGGCTTGTCCCTGGTCCTGGGATGGAGTGCCTTTGGGGGCCA


SNP Information

Context             (SEQ ID NO:61751):
AACCCTCAAGCTTCCTATCCTAGCCTGACCCTATGGTGTGGGAGGAGGGAAAGGTAAGGGCAGTGGAAGGCCAGAGAGAAACAGAATTTCTTCCCTTAGA
Y
GGCTCCCCTCCAGGCCCTGTCCTACCTCCCAGAGCCCCTTCCCTTCTCTCCTCTGAGTACCAGATCCTCCCTGATACCCCCGACCCCATGGGCATCCTCT
Celera SNP ID:            hCV15867980
SNP Position Genomic:     8620
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   JBIC-allele(T,668|C,803)   total(C,803|T,668)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61752):
CCCTTCCGGGAGCCGCCCGGTCTCTTGTGCAGGAAGGGGAAGGGGCCAAAGCATGGGGGAAGGCGTGGCAGGAAGAGGGGGACTCTGTGGTCAGGGAACT
K
CTCGCTGAGCACAGCTGCACAGTGCTGTCAGAACGGCCGATCTCCAGCCCAAGATGATTCCAGCAGTGGTCTTGCTCTTACTCCTTTTGGTTGAACAAGC
Celera SNP ID:            hCV15867981
SNP Position Genomic:     6013
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,11)   caucasian(G,32|T,6)   total(G,57|T,17)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,8)   caucasian(G,31|T,7)   total(G,55|T,15)   
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,732|G,763)   total(G,763|T,732)   (G,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:61753):
ATTAATATACACCAGTGGTTCCTCCTCCCTGTTAAAGACTAATGCTCAGATGCTGTTTACGGATATTTATATTCTAGTCTCACTCTCTTGTCCCACCCTT
Y
TTCTCTTCCCCATTCCCAACTCCAGCTAAAATATGGGAAGGGAGAACCCCCAATAAAACTGCCATGGACTGGACTCTATTCATTCATTCATTCATTTATC
Celera SNP ID:            hCV27467069
SNP Position Genomic:     9917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61754):
TGGGAGGGCCTGCCTCTCAGGTGCTGATCTGCATACACCTCAGAGGCCTCCCTCCCACCTTACCTAGCCAAGCCACAAGTAAAATATTCAGCAGGTGACA
S
GGAAGAATCAAGCATAGAGTGATAAAGAATATGTGAGAGACTTGGATGTAGTATGTCGGGTGTATATGTGTGCTTGTAGCCATGTGGGCAAACAGGTATC
Celera SNP ID:            hCV25652760
SNP Position Genomic:     9204
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,15)   caucasian(G,18)   total(C,1|G,33)
SNP Type:                 INTRON


Context             (SEQ ID NO:61755):
ACCCCTATAATGATCCTGTGTCCTAAATTAATATACACCAGTGGTTCCTCCTCCCTGTTAAAGACTAATGCTCAGATGCTGTTTACGGATATTTATATTC
Y
AGTCTCACTCTCTTGTCCCACCCTTCTTCTCTTCCCCATTCCCAACTCCAGCTAAAATATGGGAAGGGAGAACCCCCAATAAAACTGCCATGGACTGGAC
Celera SNP ID:            hCV1841966
SNP Position Genomic:     9891
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   ;(C,-|T,-)   JBIC-allele(C,450|T,655)   total(C,450|T,655)   POOLE|_CEPH(T,30|C,158)   total(C,158|T,30)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61756):
ATTTTACATATATATCTCTATCTATCTATCTATATACACACACACACACATACACACACACACACACACACACACACACACACACATATATATATATATA
K
AGAGAGAGAGAGAGAGAGAGAGATAACCCTTTAGGAAGGTAGGACTCTGTTCTTGTGCTTGGGAGTAAGGCAAGGATATAGCCAAGACAAACAGACGGGA
Celera SNP ID:            hCV16248614
SNP Position Genomic:     7172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61757):
TGGTTCTTCCAGCCCTCATGGTTGGCATCACATATGCCTGCATGCCATTAACACCAGCTGGCCCTACCCCTATAATGATCCTGTGTCCTAAATTAATATA
Y
ACCAGTGGTTCCTCCTCCCTGTTAAAGACTAATGCTCAGATGCTGTTTACGGATATTTATATTCTAGTCTCACTCTCTTGTCCCACCCTTCTTCTCTTCC
Celera SNP ID:            hCV7481371
SNP Position Genomic:     9826
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61758):
TATACACCAGTGGTTCCTCCTCCCTGTTAAAGACTAATGCTCAGATGCTGTTTACGGATATTTATATTCTAGTCTCACTCTCTTGTCCCACCCTTCTTCT
Y
TTCCCCATTCCCAACTCCAGCTAAAATATGGGAAGGGAGAACCCCCAATAAAACTGCCATGGACTGGACTCTATTCATTCATTCATTCATTTATCATAGA
Celera SNP ID:            hCV7481366
SNP Position Genomic:     9922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61759):
TGGCATCACATATGCCTGCATGCCATTAACACCAGCTGGCCCTACCCCTATAATGATCCTGTGTCCTAAATTAATATACACCAGTGGTTCCTCCTCCCTG
K
TAAAGACTAATGCTCAGATGCTGTTTACGGATATTTATATTCTAGTCTCACTCTCTTGTCCCACCCTTCTTCTCTTCCCCATTCCCAACTCCAGCTAAAA
Celera SNP ID:            hCV7481367
SNP Position Genomic:     9848
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Gene Number:                 354
Celera Gene:                 hCG2039153 - 206000044667935
Gene Symbol:                 PCDHB11
Protein Name:                protocadherin beta 11;ME2;PCDH-BETA11
Celera Genomic Axis:         GA_x5YUV32VUFE(34706451..34721723)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12514):
GAAGGCGCGCTGGACAGAGAGATCAGAGCCGAGTACAACATCACTATCACCGTCACTGACTTGGGGACACCCAGGCTGAAAACCGAGCACAACATAACGG
TCCTGGTCTCCGACGTCAATGACAACGCCCCCGCCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCAG
CGTCAGCGCCACAGACAGAGACTCGGGCACCAACGCCCAGGTCACCTACTCGCTGCTGCCGCCCCAAGACCCGCACCTGCCCCTCGCCTCCCTGGTCTCC
ATCAACGCGGACAACGGCCACCTGTTCGCCCTCAGGTCGCTGGACTACGAGGCCCTGCAGGCTTTCGAGTTCCGCGTGGGCGCCACAGACCGCGGCTCCC
CCGCGCTGAGCAGCGAGGCGCTGGTGCGCGTGCTGGTGCTGGACGCCAACGACAACTCGCCCTTCGTGCTGTACCCGCTGCAGAACGGCTCCGCGCCCTG
CACCGAGCTGGTGCCCCGGGCGGCCGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACGGCGACTCGGGCCAGAACGCCTGGCTGTCGTACCAG
CTGCTCAAGGCCACGGAGCCCGGGCTGTTCGGTGTGTGGGCGCACAATGGGGAGGTGCGCACCGCCAGGCTGCTGAGCGAGCGCGACGCAGCCAAGCACA
GGCTCGTGGTGCTTGTCAAGGACAATGGCGAGCCTCCTCGCTCGGCCACCGCCACGCTGCACTTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCC
TCTCCCGGAGGCGGCCCCGGCCCAGGCCCAGGCCGACTTGCTCACCGTCTACCTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCCTCTCGGTG
CTCCTGTTCGTGGCGGTGCGGCTGTGCAGGAGGAGCAGGGCGGCCTCGGTGGGTCGCTGCTCGGTGCCCGAGGGTCCTTTTCCAGGGCATCTGGTGGACG
TGAGGGGCGCTGAGACCCTGTCCCAGAGCTACCAGTATGAGGTGTGTCTGACGGGAGGCCCCGGGACCAGTGAGTTCAAGTTCTTGAAACCAGTTATTTC
GGATATTCAGGCACAGGGCCCTGGGAGGAAGGGTGAAGAAAATTCCACCTTCCGAAATAGCTTTGGATTTAATATTCAGTAAAGTCTGTTTTTAGTTTCA
TATACTTTTGGTGTGTTACATAGCCATGTTTCTATTAGTTTACTTTTAAATCTCAAATTTAAGTTATTATGCAACTTCAAGCATTATTTTCAAGTAGTAT
ACCCCTGTGGTTTTACAATGTTTCATCATTTTTTTGCATTAATAACAACTGGGTTTAATTTAATGAGTATTTTTTTCTAAATGATAGTGTTAAGGTTTTA
ATTCTTTCCAACTGCCCAAGGAATTAATTACTATTATATCTCATTACAGAAATCTGAGGTTTTGATTCATTTCAGAGCTTGCATCTCATGATTCTAATCA
CTTCTGTCTATAGTGTACTTGCTCTATTTAAGAAGGCATATCTACATTTCCAAACTCATTCTAACATTCTATATATTCGTGTTTGAAAACCATGTCATTT
ATTTCTACATCATGTATTTAAAAAGAAATATTTCTCTACTACTATGCTCATGACAAAATGAAACAAAGCATATTGTGAGCAATACTGAACATCAATAATA
CCCTTAGTTTATATACTTATTATTTTATCTTTAAGCATGCTACTTTTACTTGGCCAATATTTTCTTATGTTAACTTTTGCTGATGTATAAAACAGACTAT
GCCTTATAATTGAAATAAAATTATAATCTGCCTGAAAATGAATAAAAATAAAACATTTTGAAATTTGTGGTTGAGATTGCTGGAGATATTCATTTATATG
TTGCAAATTTATTTTAAATACCAAATTTTTAATAAGCAAGAGGAACTAAAGGTTAGAATGAAAAACAAGTTTCATCAGTTTTTTTATATTACTATATATA
AAATATATACTATATATAACTAACATTTTATAGTTTTTTAAGTTAGCTGTTCTGCCAGTCCCTTACCACAGTGTGGTTTCTTCTTGAATTGATCTCAATA
TTTATAAATAATATGTTTATAATACTATATCTTGATATTGTTTTGTATTTGAACCATTTCTTTCTATAATAGAAAAGCATTTTAGCTTTATTTCCAAACT
AACAAACATATACAAACATTGCAAATTCTTTTTCTCCTATTCTCCAATATAGATGTCACAGTTTCTTAGTTAAATTAGTGGTTATTATCTATATTGTTAC
ATGCTTCAGAATATGCATTTGTATACTGTACTAGAATTACATTTCCATACTTGAAAAGTATGGTTCCTAGAGTTCGTAATTGTTATTTCATACTTGCATT
ATTTTCTATGTACCTCTATTGTTTTTTTCCATATCTTTCATTTGAATGTATTTTCTCCTTAAAAATATTCCAATTTTTAAGATACTCTGTCAATGACATT
TATTTTCAGGAGCTCTTTCATCGTGAGTTTCCTGTTTCATTTAGACTGGTTAATCTATAGACTGTTACCCTGGGACTTTTTCCCTTCAATACTTTCCTGT
ATGAGTCTACTTTTCCAAGGTCCAGTATACTCTTTTTTCTAGTTTACTCTCTTATTCAGCTGGCACGCATCTCTCAAGACCTTCATATAAACGAATGCAG
AAGAGATTTTTAAAAAATTGTCTCCTTACATTGTGAAGACATCTTTTTTGTTTGTTTTCATTTGCTTGATAGTTTGACTGGGTATAAAATTCTAGTTTGA
AAATAATTTTCCCTCAAATTTTGAAAGCTGAAGCTGTCTCTTTTACTCATTGCATGTCGAGTTTCTTCAGAAGACTGACTTGATTTTGATTCCACCTCTC
TTTGTGTCCTTCTCTCTTACCTCCTTTCCTGGAAGCATTGAAAAACTTTTTCCTGGTAATCTGAAAAGACCTTAATACAGGCATTTTATTTATTAATCTG
GCCATGCAGGCATACCCTGTTAACATATAGACTCTTACTGTAAGTTCTGAGAAATTTTCTTGTTATGTTTTAGTAATAATTTATCCATTGAGTTTTCTAC
AGTCTCACTTTAACCAGAATCTCATTAAATATTGCACCTCCTGTGTTGATTTTCTGAGACTCTAAATTATAATTTTTTTCTTCTTTTCCATCTCTTGTTC
TACTTATTAGACAATTTATTTAATCATCCAATCTCCATATTTAAGTTTTTCTTTTTGGATAGCAAATATTTATTTTTAAGAGCTCTTGGTTTTTCATAAC
ATCCTATTACAAATTTGCAAATGTAAATCTTCTTTCATCTATAATTAATCTATTTATTCTTTAAAAATGCATTATATAGTAAGAGTTATTATTATACCTA
TTTTAAACTTGCAAGTGAATCAAAGGGAAGTTAAGAATTTGCCTAAGGCTATATAGCTAGTAAGGGGCACTTAAGCCCTAAGCTATTCTTTGTCTTCCAG
GTATAAATACGTACTTGATAGGGTTACTGTTAACATCAACTAGGTAAATCCATATGAGGCACTAGAATAATGAACTTAGAATAAGTCAATAAGTGTTAGC
TCTTATTACATTTTGTTTCTCTGGGGATACTAATCAGACATTTTAAAAGGCTTTCTTTTGTTTTCTGAATTATATCTATTCCCTCCTGTTGCTTTTTGTG
CTTGGCGGTAGTATTACAGTTTTGGCTTTTCTATTTCATGTTGTAGGCATTTTCTCAAATGTCTTGTTATCTTTGACTGTCTTATTATATATATGAATGG
TGACACAGCAAATGCTGACAGTCAACACTTCATGAGTATTGATGACAGGGCTTCACTCTAATGTAACCATGCTAGGATAGAGCTACTACCTTGGGAAACC
CCCACATATCAGTACATGTAAGTCTTTATCTGCGCCTTTCATATTCCCCAGGATAGAATTCTACAATATTCAATGTTTTGGGTGCGATGGGGAAGATGTC
AGGCATATATCTTGTGTCCTACAATCTGAGAGTATCATGGCTAGGAGTCTCACAATACAGAAGGCAGTGTTTTGCCTAATCTCCCTATCTTTAGTTTCAT
ACCTCCTACTTTCACTCAGCTCTGCCTGGGGTTTCCAAGACTGGAGATAGTATAATTTCTCCAGAATATAATCTAATTTCTCCAGAGTATAAGCTTTCCA
TTCTCTGGCTCTCAGTTATTTTCTTGTCTCTGTATGATGGTGAAAAGACCAGAGAATTCAACTATCCTACATACATACTTTCAACTAATAACTTCTTTTT
TAAGCCCTTACTTGACTTCAGCCTTCTTATACACCTGGTTCCTCCAAGTCTGGTACCTACTAGGATTGTGTAGGGAAAACCCAGTAGTTTATTTTTAGTA
TCTCCAATGAAGGAACTTTATTTTAGACATTTCTTGGAACTATTGTCAATTGCTCTTTCATCTGCTTTCTATCATCAAATAATTTGTGTATTTACTTATG
TATTCTTAGTCTTTGTGAATTCATACCTTTTATTACTTTTCTGTCATTTTAGAGAGGGGTTAAGAAGAAGGAAGGATAATTGTATAGTCAATCCACATAC
TATTCAATTTCTACTCTTCTGCACTGATAATTTTTCAACCATGTATCTAGTTCACATTTTTGTGAATGTAATTTGAAATTAGAATTTTTAAAAGCAGACT
TCTTAGATGTCCTCCATTATTGAGAGTACTTTGAGATGTCTAACAGTGGATACCATTGGTAGTTTCCAAGCACCTATTCCAACTATCTCCCTCATTATGC
CATGCACTTTGGCTAGGACTGAAACCACCTCAAGTTTAAGGGGCAATCTCTGCCTGGATTAAAACAAAGGGTCAAAGATGGAGTCTTTAGATTCTGGGAC
TATAATCTCTACCTTTAATCCTATACATCTTGAGACACTGATTTCTTCAGTAACAGGCTGAAGTGCTCTCAGTTGGTCTAATCAGAATGAAGGCTAAGAT
TTTGTTCTATTATTGAGGAAGAAAATATCTCTCATTCTGTCTTCTTGAGCTGAAAAACAAAGCAGATAGCCATAGATGTTGCTGGAATAAATCTTGGGAA
ACTGAGGGAGGGCAGTCTTAGAAATAAGCCTGCTTTAAATGAAACTAACATGCTTGTGCTTGTGTATTTATTATTTTTTGAGAAGCTGGAACTAAATCAA
GGATTCTCATAATGTGTTCTACTCCCAATATCTTACTTTACTTTCTAGCAGTTCACAATTCCTTGCTACCAAGGAAATCTATATAAATGCCTTCTTGTGC
TATCATAACTATCAAAGTATGTCCCATCTCATGGTTAATCCAGTTTCATATCCTCTGAGAGGACTTCTAAAATGACCCATGTATAGTTTGCCTTTTCATT
ACCACCTAAGGAAAGTCAAGTAGTGATAGAATTTTGTACAGCTTAAAAATATTATGGTTGTTTTATGTTTCCAGTCTTCTCAGAAAGATTACAAACCACT
GGGAGCCAGGAATCACATCTTGTATTTCTGTATTCACCACAACTAAGCACGTTTGGTTGTATGGAGAAGGGGGAAAGATAAATGCTTTAAGATGAATATT
AACAGCATATCAAACTAAAGAGAATATGAAATAATTATTACAGAACGTGCAATATATTTGTAATCACTTGAACACAATGAATAAAACAATATTTGTTTCC
GGAGGACATATAAGTGAATGGAATTTAGGTAGCTTTCACCAAACTGTGAAAATCTATGGAGACACTTGGTGGCGCTGCAGGATAACATCGTGAAAAATAT
ATTCACTGGATGGCGTTGTGAACACTGATATCCAGTGCACACAGAGAATCAGAAGACAGAAACAACAAGCCTTCAAGAGGGTGACCTGGAAACCATTCAA
CAGGGTTAAAATCCTTAGACCACAGAGGATTTGGTGGACAAGTCAGAGACGCGTTCCGCAGAGCTGAAGCCTTTCTTCAAGAAGCCTACAAGAAAGGAAC
TATGGAGAACCRAGGGACACRCACTCAGCAGATAAGGCAAGTCCTGCTTCTCTTTGTTTTGCTCGGAATGTCTCAGGCGGGCTCTGAAACCTGGAGCTTT
TCTGTGGCAGAAGAAATGCAGAGCGGGAGTTTTGTAGGCAATCTGGCAAAGGACCTGGGGCTGAAGGTGAGAGAACTGTCCTCACGGGGGGCTCGGGTGG
TCTCTAATGATAAGAAACAGCGTTTGCAGCTGGACATAAACACTGGGGATTTGCTCTTAAGTGAAACACTAGACAGGGAGGAGCTCTGCGGTTCCATCGA
GCCTTGCGTGCTACATTTGCAGGTGTTAATGCAAAACCCCACGCAGTTTTTACAAATTGAGCTTCAGGTCAGGGATATAAATGATCACTCTCCCATCTTC
TCGGAAAAACAAATGCTCCTAGAAATCCCAGAGAACAGTCCCGTTGGTGCTGTGTTCTTACTAGAAAGTGCGAAGGATTTAGATGTARGAATCAATGCTG
TAAAAAGCTACACAATAAGCCCCAACTCTCATTTTCACATTAAAATGAGAGTCATTCCAGACAATAGGAAATACCCCGAGTTAGTTCTGGACAAGGCGCT
GGATTATGAAGAGCTCCCGGAGCTCAGTTTCATCCTCTCTGCTCTGGATGGTGGGTCCCCTCCCAGGTCTGGAACTGCCTTGGTCAGGGTGGTGGTTGTG
GACATTAATGACAACTCCCCTGAATTTGAGCAGGCTTTTTATGAGGTGAAGATTCGGGAGAATAGCATCCTTGGCTCGCTGATTTTGATTGTCTCAGCTT
GGGATTTAGACTCTGGAACAAATGGTGAAATATGCTATACCTTTTCCCATGCCTCAGAAGATATTCGCAAGACATTTGAAATTAATCAAAAGTCTGGAGA
AATTACTTTAAGAGCACCTCTGGATTTTGAAACGATTGAGTCATACTCAATAATCATTCAAGCCACAGATGGGGGAGGACTTTTTGGAAAATCTACAGTC
ATAATTCACGTGATAGATGTAAATGACAATGCTCCTGAAATCACTGTGTCATCAATTACCAGTCCAATCCCAGAAAATACGCCAGAGACCGTGGTTATGG
TTTTTAGTATCCAAGATATAGACTCTGGGGACAACGGAAGAATTGTWTGTTCCATTCCGGAAGACCTCCCATTCGTGCTAAAATCTTCAGTTGAGAATTA
CTACACGTTGGAAACAGAGAGACCRCTGGACAGAGAGAGCACAGCCGAGTACAATATCAYCATCACCGTCACCGACTTGGGGATACCCAGGCTGAAAACC
GAGCACAACACAACTGTGYTGGTCTCTGACGTCAATGACAACGCCCCCRCCTTCWCCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCG
CCCTGCACATCGGCAGTGTCAGCGCYACAGACAGAGACTCAGGCACCAACGCCCAGGTCAACTACTCGCTACTCCCGCCCCAGGACCTGCACCTGCCCCT
CGCCTCCCTGGTCTCCATCAACACAGACAACGGCCACCTGTTCGCCCTCAGGTCGCTGGACTACGAGGCCCTGCAGGCTTTCGASTTCCGCGTGGGCGCC
ACAGACCGCGGCTCCCCGGCTTTGAGCAGCGAGGCGCTGGTGCGCGTGCTGGTGCTGGACGCCAACGACAACTCGCCCTTCGTGCTGTACCCGCTGCAGA
ACGGCTCCGCGCCCTGCACCGAGCTGGTGCCCCGGGCGGCCGAGCCGGGCTACCTGGTGACCAAGGTGGTGGCGGTGGACGGCGACTCGGGCCAGAACGC
CTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTATTCGGCGTGTGGGCGCACAATGGCGAGGTGMGCACCGCCAGGCTGCTGAGCGAGCGC
GACGCGGCCAAGCACAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCAMGTGCTCCTGGTGGACGGCTTCT
CCCAGCCCTACCTGCCKCTCCCTGAGGCGGCMCCGGCCCAGGCCCAGGCCGACTCGCTCACCGTCTACTTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCT
CTTCCTCTTCTCGGTGCTCCTGTTCGTGGCGGTGCGGCTGTGCAGGAGGAGCAGGGCGGCCTCKGTGGGAAGCTGCTCGGTGCCTAAGGGCCCCTTTCCA
GGGCATCTGGTGGACGTGAGCGGCACCGGGACCCTTTCCCAGAGCTACCAGTACGAGGTGTGTCTGACGGGAGGTTCCGAGACAAATGAATTCAAGTTCC
TAAAACCGGTTATCCCTAATATCCAGGCAAAAGGTCTTGGGAAGAATAGTGAAGAAAACTCCACCTTTCGAAATAGCTTTGGATTTAATTTTTAGTAAGA
ATGCTATTTACATTTGCATGTACTTTTTTAGTTTTATGTAACCATATCAATATTATTTAGTCTTAAACTAGTTACGTTATTATGCAATACGACTAATTGT
ATTTTTAATTTTTTCTTTTCTCCCCCAATTTTTTTTTTTTTTTTGAGACCGAGTCTCATTCTGTCGCCCTGGCTGGAGTGCAATGGTGTGATCTCAGCTC
ACTGCACCCTCCGCCTCTCGGGTTCAAGCAATTCTCCTGCATCAGCCTCCCGAGTAGCTGGCATTACAGGCGCCCACCACCACGCTCGGCTAAATTTTTT
TTTTTTTTATCTTTAGTAGAGACGGGGTTTCACCACGTTGGCCGGGCAGGTTTTAAACTCTTGACCTCATGTTCCACCCGCCACGGCCTCCCAAAGTGCT
GTGATTACMGGTGTGAGCCACTGCGCCCGGCCTTTTTTTTTTCTTTTCTTTTCTTTTTTTTGATACAGAGTCTTAGTCACCCAGACTAGAGGTCAGTGGC
AGGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGCTCAAGAGACCAGCCCACCTCCGCCTCCAAGTAGCTGGGACTACAGGCGTGCGCCACCATGCCCG
GCTACTTCTTGTATTTTTTGTAGAGACGGATCGTCACCATATTTCTTAGGCTGGCCTTTAACTTCTGAGCTCAAGAGATGCACTCCCCTCAGCCTCCCAA
AGTGCTGGGATTACAGGCGGCCAGGCCTATTTTCAATTTTCAAGTATTGCATATCATTGTGAATAACATTGTAAATCCTTTTTATATTAAGTAACAGGTA
GTTAATCCATTTCTAATGAATAATTTTAAGGTTTTAATCCTTTCCAAGTGTACAATAATTTACTGATTATTATTTCTTATTCTAGAAAACTGACTTTGAT
TTTTCTCTTAGGTTGTTTTGTTTTGTTTTGTTTTTTGAGACGATGTTTCACTCTTGTCGCCCAGGCTGGTGTGCAATGGCGTGATCTCGGCTCACTGCAG
TCTCTGCCTCCCGGGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCACCACCACACCCAGCTAATTTTGCATTTTTAGTAGAGACGGGG
TTTCACCATGTTGGTCAGGCTGGTCTCTAACTCTTGATATCAGTGATCCGCCCGCCTCAGCCTCCCAAAAAGCTGGGATTACAGGCGTGAGCCACCGTGC
CCAGGCTCCCCTAGTATTTTTCACTGTCTGCATCCTATGATCCTAACCACCTGTGTATTGTAGTTTCTTCATGGGAGAAGTCATATCTGCCCTTCCAACC
TTATTCTAACATTCTATTTATTCATTTAAAAAGCCACATCATCTAGTTCTAAATCACAGCATTTAAAGAGAAACATTTCATTATTAATGTGCTCATGGTA
AATTAAATATTATTTTGTGATCAATATTATACTTCAATACTAACTTTGTGCTTGTATTATTTTCTTAAATATACTACACTTACTTGGCTAATATTTTTAA
TGCTTTTGTGTGTGTATATATATATATATGAGAGAGAGAGAGATCATGGCTTATAATCCAAACAAAATGTAATAAACTGCATGAAAATAAATAGGAATAT
TAAAACATTTTGATAATTTTGGGATGAGGATATTGGTGGACTGTTGGAAAGATATTCACTTTTCCTTTTATTTTGTAAATTTATTTCATTATTTTCAAAT
GTAAAAATCAAGATGAACTAAAGGTTGAAAGAAAAACAAGGCCTGCCTCAGTGGCTTGGCTGGGTGGGTTAGATCACACCTGTAATCTCAGCACTTTGGA
AGGCTGAGGCGGGCGGGTCACCTGAGGTTGGGAGTTCAAGACCAGCCTGGCCAACACAGTGAAACCCCATCTACACTAAAAAATACAAGAAGTAGCTGGG
TGTGGTGGTGCGTGCCTATAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCTTGCC
ACTGCACTCCAGCCTGGGTGACAGAGCGATACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAAGAAAAGAACAGAACAATATTT
TCTTTAATTTCCAGTCTCCTTCTATTGAGTGGCTTCTTCTAGAATTACCTCAATACTTCTAAATGATATGTTTTTGCTGTTAAATCTTGCTACTCCATTT
TACATTTTAATCACTTCTTGCTATGTATTTTTTAAAAAAGATTTAACTTTCTTTTCAACTAATGTAAACCAATATAAGCACTGCACATTCCCTTTCTCCT
ATTCTCCCAATAAAATTGTTACAGTTTTTTTTTTCTTTTTGACAGAGTCTTACTCTGTCGCCCAGGTTGGAGTACAGTGGTGTGATCTCAGCTCACTGTA
ACCTCTGCTTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAATAGCTGGGATTACAGGCACCCACCACCACACCTGGCTAGTTTTGTAGCTTTA
GTAGAGATGGGGTTTCACCATGTTGGCCAGGCTCGTCTTGAACTCCTGACCCCAGCTGATCCTCCTGCCTCAGCCTCCCAAAGTGTTGAGATTACAGGCG
TGAGCCACAGTGCCCAGCCTACAGTTTTTTTTAAGTTAAACTAATAGTGTCCATATTGCTAAGCTTTCTTCAAAATACACATTAGTGTAGTGTGATTAAA
TTTCCTTTCTTGAGAAACATTTTTCCTAGAACTGAAAATTGTTTTGTACTTACATAATTTTCCATTTACTAATATTAGTTTCTTTACATTCTCTAATTTG
AATCTCTTTCTTCTCAAAATATTCAAATATATCAGATACCTGTCAATTATGTTTATTTCTTGGTGATCTTGCACCCAGATCTCTACTTCATTCATACTGG
TTGCTCTATAGGCTGTCACCCTAGGACTTTAAAAAATATTTTTCTTTGTTGGTCCTTTTTTATAAGATCCAGTACATTCTTCTTTCTTAGTTTACTCACT
TATTTTGTTGATGCACATCTCTCAGTACCTTCATAAAAATGGATACAGAGGAAATAAAACTTTTTGAGAGCTTGCTTTGTTATTTTCTTTTTTTTTATTT
GATTGATAGTTTGGGCATAACATTCTAGGTTGAAAATAATTTTCCCTCAGATTTCAAAAGCACTGCTCCTTTTATTGACTGCATATAGAATTGCTGTTCA
GAAGACTGATTCCATTCTGATTCCTATGTCTTTTTATGTGATTCCCCCCCTTTTTTTCTTTCTTTCTGTGAGCATTGAAAAAAATTCCCCTGGTCTTCTG
AAAATACCTTAGTACTGGCTCTTTATTGATTAATCTGGTTATATCGCTATGCCCTGTTCATGTTTAACTTTTTTTTTTTTTTTAAGATGATGTCTCACTG
TGTTACCCAGGCTGGAGTGCAGTGGCTATTCACAGGCACAATCACAGCACCCTGCAAGCTCTAACTCGAGAGCTACTTCTGCCTCAGCCTTCCAAGTTGC
TGGGACTACAGGCATGTGCTAGACCCCTTGGCTAATGTTCAGACTATCAATTTTATTTCTGAGAAATTTTGGTTGGGCATGGTGACTCACACCTGCAATC
CCAGTACTTTGGGAAGCTGAGGCAGGATTATTTGAGGCCCCGAGTTTGAGACCACCCTGGGCAACATAGTGGGAACCTATCTCTACACAAAAACAATTTG
TTAAAAGGAATTTCCTTGGTATGTTTTACTCATAATTTCTCCTCTGAGTTTTCTGGATTCTCACTTCAATGAAAATCTCAGTTAAATATTAGACCTCCTA
GATTGACTCTATAAGACTATAAGCCATTTTTCCTTTCTTATTTTCTCTTTGCCTCTCATTCCATTTTTTGGACAATTTATTTAATCACTCAATGTTTTAT
GTATAAGTTTTTCTTTATGACTGAAAAATATTTACTTTTAAGAGTTGTTTTTGGTTCTCTGAATGTTTTTCATGGCATCCTGTCATAGATTTATAAATGT
AATATTTTCTCTCATTTATAATTAATCTTTTCTTTAAAAATGCATTAGGCAGTATCATTATTATATATCCATTTTAAAAGTGAAAGTGAGTCTAAGGGGA
GTTAAGAACTTGTCCAAGGTAATATAGCTAGTAAAAAGCACTGAAGTCCTAATCTAGTCTTCATCTTACAATAGGAATATGTACTTCATATAGTTACTAT
TTAGATTAAGTGGATAAATACATACTTCATACAGCTACTATTTAGATTAAATGGATAAATGCATTATGAGGCACTTAGAACAATGAGTAGCATAGAGTAA
ATACTAAATAAGTATTAGCTTTTATTAGATTTTCTTTCTCTGGGAATATTAACCAGACATTTTCAAAGGCTTTCTTCTGCTTTCTATATTATTGTTCCTT
TTTTTTTTCTTGATGGTAGCGATGGTGGTAGTTTTGGTCTTTCTATGTTATGTTGCAGGCATTTCCTCAAATGCCTTGGCTATCTTCTCGTATTTTAGAA
GGATGATATATCAAAATGCTGACAATCAACTCTGTGAGCGAACAGTACCTGTTGATGGCAGGGCTTCATTCTAATATAACCATGCTAGGATAAGTCTATT
ACCTTATGAGATGCCAAATATTAATATGTGTCTTCATTTGGGCTTTCATATTCTCCAGGTTAGAATTCTACAATATACACTATGGGGATAGACTAGGGGT
CAGGCATACACTTTGTGTCCTACAGTCTAAGAGTATTGCATGAAAAGGGATTAGAAGTCTCACCATGCAAAATGCAAAGGTTTGCTTACTCTCCCTATTT
TCAGTTTGACACCTCACACTTGTGCTCAGCTGTGCCTAGATCCCCAAGACTAGAGAAAGTCCCATTAAATTTCTCCAGAGAATAAACTTTCTATTTTCTG
GCTGTGAGTTATGTTTCCATCTATGTAGGGTGATGAGAAGAACAGAGAATTCAATTATCCTCTACACATACTTCCAACTAATAACTTTTTTCCATCCTTA
ACTGACTTCAGTCTTCTTAAACATCTGGTTCCTCCAGATCTTGCGCTTAAAAGAGATTATGTTTCTTGTGAGTATCTTCAATGCAGGAACTTTACTTTAG
GGGCACTTTTTGGAACTGCTAAGTTAATTGCTCTTCCACCTGCTTTCTGTCATAGAAAAATGTATGTGTTCACTTGTGTATTCTTAATCTTTGTTAGTTC
CTACCATTTTAATTACTTTTCTGCCATTTTAGTGCATATTTTTTTTTAAAAAGAGAGGTTAATTGTGTGTGCTCAATTCATCTACTTTTCAAGTTTTACC
CTTCTGTACCAATTACTATTTCAACCATGTATCCAGCTTACATTTTTAAGAATATTAATTGAATTTAACATTTTAAAATGCAGACTTGTTGGATTCTTCT
CCCATCCATTCTTAGTGCACTTTAAGACTTTCTATAGTGAATATCACTGATGAGCCCTTAGCATCTGTTGCAAACAGTCTCCCTCATTTTGTACCAATGA
GGTACTTTGGCTAGGACTGAAACCTTCCCAAGCTTAAGAGGTGGTCCCAGACAGGATTAAAACACAGTAATGGCCAGAGACAGGTCTTTAGATTCTAGGA
CTAAAATCTCCAACTATAATTCTATACCTCTTGAAACAATGATTGCTTCAGTGGCAGACACATGATCTTACTTGGTCTAATTAGAGTGAAAGTTAGGTTT
TTGTTCTATGTTTAGGGATAGACTCTTACTTTCTCTTCCTGGGCTGAAAGAGAAAACAGATAGCTACAGTTGTGGCTACAATAAATTTTGGGAACCTAAG
GCAAGTCAGCTTTAGGAATAAGAGTCTGCTTTAAATTAAACTAACTTGCTCATGCTTGTGTACTTATGAATTTTTTTGTAAATTATGAAAAACTGGAACT
AAATGATGGGTTTACATAACATGTTCCACCCCAATCTCTTGCTTCATTTTCTGCCTGTTCACAATTCATTGCTATTAAGGAAATCTACAGAAGTGCCTTT
TTATGCTGTTGTGTTGACCTATATATGCCTCATCTCATGGTTAATCCAGTTTCATAACTTCAGAAAGGATTTCTGAGATGACCTTTCCTTTACCTTATCA
CGTAAGGAAAGCCAAGTAGTAATAGAATTTCATTCAGCTTAACAATCACTTATACCCTGCTTGTTTCAGGCTTACAATTGTCTCAGAAACACTATGAATT
CCTGGGAGCCAGGGATCACATCTTGTATCTGTGTTTACCACAACTGAACACATTTGGTTGTGAGAAGAGTGGGGAAAGACACTGAATAAATGCTTTAAAA
CAAAATCATCATCACAAACTATAAAGAATATAAAACGATTATTATGGAAGATAAAATATATTTTTAATTACTTCAACAGAAGGAATTATTTAAACGCAAT
ATTTATTTGCTTCTGGAGGACATTTATGTAAATAAAATTTAGGTAGTGTTCATCAAACTGTGAAAATCTGTGGAGACGCGTGGTGGCGCTGCAGGATAAT
ATCAAGAAAAAAATTACCCTGGAGGATGTTGTAGACCCTGTTATCCAGTACACGCGGAGAACTGGGAAGACAGAAAGAACAATCCTTTAAGGGAGAACCT
AGAAGCCATTCAACAAGGTTAAAATCTTTAGGCTTCCGAGGATTTGGTAGACAGATCAGAGGCACGTTTCCCACAACTGCGAAGAGGCGCTGAGGCAATT
CTGCAAGAAGATTTTGGGGTTTTGGAAAAGAAGCTATGGAAAACGGAGGGGCAGGCACTCTGCAGATAAGGCAAGTCCTGCTTTTCTTTGTTTTGCTGGG
AATGTCTCAGGCGGGCTCTGAAACTGGGAACTTTTTGGTGATGGAGGAATTGCAGAGCGGGAGCTTTGTAGG


SNP Information

Context             (SEQ ID NO:61760):
GTACAATATCACCATCACCGTCACCGACTTGGGGATACCCAGGCTGAAAACCGAGCACAACACAACTGTGTTGGTCTCTGACGTCAATGACAACGCCCCC
R
CCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCAGTGTCAGCGCTACAGACAGAGACTCAGGCACCAA
Celera SNP ID:            hCV25999360
SNP Position Genomic:     7349
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,15)   caucasian(A,11|G,23)   total(A,22|G,38)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61761):
GAAGACCTCCCATTCGTGCTAAAATCTTCAGTTGAGAATTACTACACGTTGGAAACAGAGAGACCACTGGACAGAGAGAGCACAGCCGAGTACAATATCA
Y
CATCACCGTCACCGACTTGGGGATACCCAGGCTGAAAACCGAGCACAACACAACTGTGTTGGTCTCTGACGTCAATGACAACGCCCCCACCTTCACCCAA
Celera SNP ID:            hCV25998708
SNP Position Genomic:     7260
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,3)   caucasian(C,21|T,3)   total(C,44|T,6)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61762):
CTGGGGACAACGGAAGAATTGTTTGTTCCATTCCGGAAGACCTCCCATTCGTGCTAAAATCTTCAGTTGAGAATTACTACACGTTGGAAACAGAGAGACC
R
CTGGACAGAGAGAGCACAGCCGAGTACAATATCACCATCACCGTCACCGACTTGGGGATACCCAGGCTGAAAACCGAGCACAACACAACTGTGTTGGTCT
Celera SNP ID:            hCV25998644
SNP Position Genomic:     7225
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,11)   caucasian(A,2|G,12)   total(A,9|G,23)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61763):
TATCACCATCACCGTCACCGACTTGGGGATACCCAGGCTGAAAACCGAGCACAACACAACTGTGTTGGTCTCTGACGTCAATGACAACGCCCCCACCTTC
W
CCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCAGTGTCAGCGCTACAGACAGAGACTCAGGCACCAACGCCCA
Celera SNP ID:            hCV25999383
SNP Position Genomic:     7355
SNP Source:               Applera
Population(Allele,Count): african american(A,25|T,1)   caucasian(A,37|T,1)   total(A,62|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61764):
TCTACTTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCTTCTCGGTGCTCCTGTTCGTGGCGGTGCGGCTGTGCAGGAGGAGCAGGGCGGCCTC
K
GTGGGAAGCTGCTCGGTGCCTAAGGGCCCCTTTCCAGGGCATCTGGTGGACGTGAGCGGCACCGGGACCCTTTCCCAGAGCTACCAGTACGAGGTGTGTC
Celera SNP ID:            hCV7430664
SNP Position Genomic:     8164
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,32|T,6)   total(G,65|T,7)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61765):
CACAGAGGATTTGGTGGACAAGTCAGAGACGCGTTCCGCAGAGCTGAAGCCTTTCTTCAAGAAGCCTACAAGAAAGGAACTATGGAGAACCAAGGGACAC
R
CACTCAGCAGATAAGGCAAGTCCTGCTTCTCTTTGTTTTGCTCGGAATGTCTCAGGCGGGCTCTGAAACCTGGAGCTTTTCTGTGGCAGAAGAAATGCAG
Celera SNP ID:            hCV7430667
SNP Position Genomic:     6021
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,17)   caucasian(A,2|G,36)   total(A,7|G,53)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;(A,-|G,-)   Caucasian(A,1|G,81)   African-American(A,9|G,69)   total(G,150|A,10)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61766):
CTGACGTCAATGACAACGCCCCCACCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCAGTGTCAGCGC
Y
ACAGACAGAGACTCAGGCACCAACGCCCAGGTCAACTACTCGCTACTCCCGCCCCAGGACCTGCACCTGCCCCTCGCCTCCCTGGTCTCCATCAACACAG
Celera SNP ID:            hCV26000011
SNP Position Genomic:     7426
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,12)   caucasian(C,17|T,19)   total(C,29|T,31)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61767):
GAGACCACTGGACAGAGAGAGCACAGCCGAGTACAATATCACCATCACCGTCACCGACTTGGGGATACCCAGGCTGAAAACCGAGCACAACACAACTGTG
Y
TGGTCTCTGACGTCAATGACAACGCCCCCACCTTCACCCAAACCTCCTACACCCTGTTCGTCCGCGAGAACAACAGCCCCGCCCTGCACATCGGCAGTGT
Celera SNP ID:            hCV25998847
SNP Position Genomic:     7319
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,5)   caucasian(C,6|T,26)   total(C,13|T,31)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61768):
TGTCATCAATTACCAGTCCAATCCCAGAAAATACGCCAGAGACCGTGGTTATGGTTTTTAGTATCCAAGATATAGACTCTGGGGACAACGGAAGAATTGT
W
TGTTCCATTCCGGAAGACCTCCCATTCGTGCTAAAATCTTCAGTTGAGAATTACTACACGTTGGAAACAGAGAGACCACTGGACAGAGAGAGCACAGCCG
Celera SNP ID:            hCV27488823
SNP Position Genomic:     7147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61769):
TCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCAAGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCCGCTCCCTGAGGCGGC
M
CCGGCCCAGGCCCAGGCCGACTCGCTCACCGTCTACTTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCTTCTCGGTGCTCCTGTTCGTGGCGG
Celera SNP ID:            hCV25991677
SNP Position Genomic:     8032
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,3)   caucasian(A,31|C,9)   total(A,64|C,12)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61770):
CTCTCCCATCTTCTCGGAAAAACAAATGCTCCTAGAAATCCCAGAGAACAGTCCCGTTGGTGCTGTGTTCTTACTAGAAAGTGCGAAGGATTTAGATGTA
R
GAATCAATGCTGTAAAAAGCTACACAATAAGCCCCAACTCTCATTTTCACATTAAAATGAGAGTCATTCCAGACAATAGGAAATACCCCGAGTTAGTTCT
Celera SNP ID:            hCV26000131
SNP Position Genomic:     6488
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61771):
CCGGGCAGGTTTTAAACTCTTGACCTCATGTTCCACCCGCCACGGCCTCCCAAAGTGCTGTGATTACCGGTGTGAGCCACTGCGCCCGGCCTTTTTTTTT
T
CTTTTCTTTTCTTTTTTTTGATACAGAGTCTTAGTCACCCAGACTAGAGGTCAGTGGCAGGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGCTCAAGA
Celera SNP ID:            hCV26312313
SNP Position Genomic:     8842
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:61772):
GGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCAAGTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCC
K
CTCCCTGAGGCGGCACCGGCCCAGGCCCAGGCCGACTCGCTCACCGTCTACTTGGTGGTGGCGTTGGCCTCGGTGTCTTCGCTCTTCCTCTTCTCGGTGC
Celera SNP ID:            hCV25991698
SNP Position Genomic:     8017
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61773):
ATCTTTAGTAGAGACGGGGTTTCACCACGTTGGCCGGGCAGGTTTTAAACTCTTGACCTCATGTTCCACCCGCCACGGCCTCCCAAAGTGCTGTGATTAC
M
GGTGTGAGCCACTGCGCCCGGCCTTTTTTTTTTCTTTTCTTTTCTTTTTTTTGATACAGAGTCTTAGTCACCCAGACTAGAGGTCAGTGGCAGGATCTCA
Celera SNP ID:            hCV26312314
SNP Position Genomic:     8809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:61774):
ACCTGCACCTGCCCCTCGCCTCCCTGGTCTCCATCAACACAGACAACGGCCACCTGTTCGCCCTCAGGTCGCTGGACTACGAGGCCCTGCAGGCTTTCGA
S
TTCCGCGTGGGCGCCACAGACCGCGGCTCCCCGGCTTTGAGCAGCGAGGCGCTGGTGCGCGTGCTGGTGCTGGACGCCAACGACAACTCGCCCTTCGTGC
Celera SNP ID:            hCV26312316
SNP Position Genomic:     7585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61775):
GGTGGACGGCGACTCGGGCCAGAACGCCTGGCTGTCGTACCAGCTGCTCAAGGCCACGGAGCCCGGGCTATTCGGCGTGTGGGCGCACAATGGCGAGGTG
M
GCACCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCAAGCACAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCT
Celera SNP ID:            hCV25993106
SNP Position Genomic:     7874
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,33)   caucasian(A,6|C,34)   total(A,9|C,67)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61776):
TCCTTAGACCACAGAGGATTTGGTGGACAAGTCAGAGACGCGTTCCGCAGAGCTGAAGCCTTTCTTCAAGAAGCCTACAAGAAAGGAACTATGGAGAACC
R
AGGGACACGCACTCAGCAGATAAGGCAAGTCCTGCTTCTCTTTGTTTTGCTCGGAATGTCTCAGGCGGGCTCTGAAACCTGGAGCTTTTCTGTGGCAGAA
Celera SNP ID:            hCV25991148
SNP Position Genomic:     6012
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,11)   caucasian(A,34|G,6)   total(A,61|G,17)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,7)   caucasian(A,33|G,5)   total(A,56|G,12)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,94|A,1399)   total(G,94|A,1399) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61777):
CCGCCAGGCTGCTGAGCGAGCGCGACGCGGCCAAGCACAGGCTGGTGGTGCTGGTCAAGGACAATGGCGAGCCTCCGCGCTCGGCCACCGCCACGCTGCA
M
GTGCTCCTGGTGGACGGCTTCTCCCAGCCCTACCTGCCGCTCCCTGAGGCGGCACCGGCCCAGGCCCAGGCCGACTCGCTCACCGTCTACTTGGTGGTGG
Celera SNP ID:            hCV25992315
SNP Position Genomic:     7978
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,1)   caucasian(A,34)   total(A,41|C,1)
SNP Type:                 MISSENSE MUTATION


Gene Number:                 355
Celera Gene:                 hCG2039415 - 208000027133930
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W3HS(16110909..16202485)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12515):
AATGACATTGACTAGCCCAGTGTTTTCCTTGTTTACATCTTGGACATAAGTCAGGTGGCTCTTTTTTATTTGAGACTGGGCAATTCTTTTTTAGATGACC
AATTTGATCACAATTATAACATTTCCCTCCAAATGTTCTAACTTGTCCTCCTAAAGCAACTCCTGTTATTGTGGAATAAAGTTTAGAAAATATCCAAAGC
TTATCAGCCTGTAAATTCTGGGTAGTTCAGTTGTCTACCATGCTGTTAATTAAATGAAAACATCCTGTTATTTCAGGGTCCTTCCTTGACAAAGTACTAT
ACAGCTGAAGAACATCTCGAATACAATTTTGGTGGGAAAGGAGCCAATTGATTTCAACAGAATCAGATCTGAGCTTCATAAAGTCTTTGAAGTGACTTCA
CAGAGACGCAGACATGTGCACTTGAAGATGCTGCCCCTTCCCTGGTACCTAGCAAAGCTCCTGCCTCTTTGTGTGCGTCACTGTGAAACCCCCACCCTTC
TGCCTCGTGCTAAACGCACACAGTATCTAGTCAGGGGAAAAGACTGCATTTAGGAGATAGAAAATAGTTTGGATTACTTAAAGGAATAAGGTGTTGCCTG
GAATTTCTGGTTTGTAAGGTGGTCACTGTTCTTTTTTAAAATATTTGTAATATGGAATGGGCTCAGTAAGAAGAGCTTGGAAAATGCAGAAAGTTATGAA
AAATAAGTCACTTATAATTATGCTACCTACTGATAACCACTCCTAATATTTTGATTCATTTTCTGCCTATCTTCTTTCACATATGTGTTTTTTTACATAC
GTACTTTTCCCCCTTAGTTTGTTTCCTTTTATTTTATAGAGCAGAACCCTAGTCTTTTAAACAGTTTAGAGTGAAATATATGCTATATCAGTTTTTACTT
TCTCTAGGGAGAAAAATTAATTTACTAGAAAGGCATGAAATGATCATGGGAAGAGTGGTTAAGACTACTGAAGAGAAATATTTGGAAAATAAGATTTCGA
TATCTTCTTTTTTTTTGAGATGGAGTCTGGCTCTGTCTCCCAGGCTGGAGTGCAGTGGCGTAATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTGACA
CCATTTTCCTGCCTCAGCCTCCTGAGTAGTTGGGACTACCAGTAGATGGGACTACAGGCACCTGCCAACACGCCCGGCTAATTTTTTTGTATTTTTAGTA
GAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTGGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGCGATTACAGGCATGAGC
CACCGCGCCTGGCCGCTTTCGATATTTTCTAAACTTTAATTCAAAAGCACTTTGTGCTGTGTTCTATATAAAAAACATAATAAAAATTGAAATGAAAGAA
TAATTGTTATTATAAAAGTACTAGCTTACTTTTGTATGGATTCAGAATATACTAAATTAACTTTTTAAAACACAACTTTTAAAAAATGTATCAAAATAAT
AAACGTGTTCTGATATTTTTAAAATAAGTGACCTTGTGTTCTTTAACCAGTCCACATCTTTAGAGAACAAAAATGTGTTATGATATTATGGGCCATGCTA
ATGACCTCTAGAAAACATCAGAATATTTCTGGATATTTAATAATAGCTTTATATATGACTAATGCTCATTTCTATGTAATTCTGTTTAATAGTTGCTTTA
AAGGTGAATTTTGCCACATTTACTTTGACAGCAGTATAAGGAGTGAGATAGACATGAACCTGAATTTCAATTTAAAATCATGGAAGAGAGGGAAAAAAAA
CCAGCTTAAGAAAAATCAACTGATAAACTGCAAGAAAAAAATGCAACTTACATCACAAAAGCTAATTGCTTTATTATTTAGAGAGTACTTAAAAATTAAA
GACCAAACTTCTCTCCACCCAACAAAAATGGGCAAAGGACATACAGCTAGGTCACCAAGAAAGAAGGGCAAATAGGTGGTGAGTACATGTAAAGATACTT
GATAGGACTTTTGCTTAGTTGAATCTTTAGCAAATCTCTTTTATTTCTTGGGATTTTGAAGAAGTAATTTTTAAAGGAGGACTAGAAACTAAGTGATTGG
GAATTGGCCTTTTTAGAATTAAAATTTCCCATTACAAGAAAAAAAAATCCTGTGTTCTTTTTTTTTTCCAGAATGGAGTAGGTCAGTGAGCAATGTGATT
AATAAATATTTCAATGTCTGTGACTTTTGATTTATTTTGGAGACAGGGTCTTGCTCTGTTACCCAGGCTGGAGTGCAGTGGTGCTATCTAGGCTTACTGC
AACCTCACCTGTCACTTTTTAATTGCAAGAAAGCTGAAAGGTTTTTTTCTATTATATCAGTTATAATGAGAAATACTGTATATACTAACTATGAGTAAAA
TACTATATTGCCTAACTTGTATTATTAAGCAATTCTGCTAACCTGTGACCTTACATTTTCATCTGAAAAGCAGGGGCTGGACACCAATTGCCCTATGAAG
CTATTGCTAGTCCTAACATTCTTTGTTTTGTTTGCTTTTTTGGCACACTTAAGTGTGTACTATGAAGTTTATGATGCTTTAATGAAATTTTCTGTCTCTA
CCATTGTAATGAGAAAGGAATAAAATACTTTATTTTGCAAATCTACTTATGGAATATAGTTCTGTACCTGATTGTTTTCATAATCCCTGTGTTGATGTGT
AATGCCACAGACATGCTCTTGATAGTAACAGGAAAGAAAATCAGACACAGCTAAACATAAAGGTCAGTTGGCTGGCAGGTGCTTAGCAGGTGTAAATAGA
GGCCCATTCATGCTGCTCCACTTGCTCCTGAAAAGCATAATGTAAATACAGTATACTAATTAGGAGGCAAAGAACCATCTAACATGGTTCTTTTTTTTTT
TTTTTTTTTTTTTTGAGATAAAGTCTTGCTCTGTCACCAGGCTGGAGTGCAGTGGCGCGATCTTGACTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAA
TTCCCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTGCGCCACCACGCCCAGCTAATTTTTTGTATTTTAGTACAGACGGGGTTTCACCATGTT
GGCCAGGATGGTCTAGATCTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCCTAACAT
CAAATTTTAAAAGAGTTGGCCACAGTTTAATGACATCCCTGCACACCAGCCTCCACCCATACTGCCCTTCATAAGCCCCTTAAAGGAGATCCCATAGTTC
TAAACCGGGTCCACAAACACACATATCCTCATTCTCTCCTTTTCTTCTCTTTGGCAGTTTGACAAAATCTTTAGGGGGAATTGGAGGAAACATTAATCTC
CTAAATCAACTTCATTCAAAGCTTTGGCTTCAAGTTCTACCCGTTAAGGCCTCAGGAAGTTCATTGTCGACATTGAACTCAGTCACTAAAATGACCTCAA
GGCTAAGGGATAGACCACAGCTCCACTTCACAAGTAAGCTTGCAACACCTGATTTAGGAAAGTTTGCTGTGCAGACAGTTGTAGCTCATCCATTTTACAG
ACCGATCTCGATTTGTTTCCTAGGGTCTAAAATTATTTAAATCAAAATCTCTCAGAAATTTCTGGACATTTAATAAATTCATGCTGGAGGAGAACTGGCA
GAGATATGTTAAATGCACTTGACCACAAGAACCATTTATTTCATCCAATATTTACCAGCTATTCATTGTACACTTACTACAGATTTTGGCACTGGAGATA
TTATAAGAAAGCTCTAACCCTGACTTATGGAACTTATCCCAAAAAATAGGAAACAAGGCTCAGAACCATTCAAATGAAGCTTCAGTTAACTCAAATAAAA
ATTAGTTTTATAAATTTAATGTGAAAGTCTTCGAGTATATTAAGAATGGCTTGATTAACCCCAGGGATGGAAATTTTACTGATTGAAAGAAAGTTTCAAT
AAAATACCGATCTTCGAATCTAATCTGACACCTGAAACTAGGAAATCAAACACTAGCCATATTTTTTCTTCTATTCTTTATAATAATTTTTCTCATGAGA
AAAAGGTATCTTTCTTCCAAGCCTGAAAATAAATGGAGAATTTTTAATATCTATTGATGTGGAGAAAAATAAATAGACTATCTGCTTTCACAAATAAGTG
CTGGCATTGAGCCACAGAACATGTCTGTCATATTGCTCTTTCACACCATACATTAACAGGAATAATAATTTCTCCTCATTGAGTTTCCTATTTACTATCC
CCTTAATTATACCTCCTTTAATTACTGTCATAGAGTGTCTGAATTTTATAATCCAAGATACTAAGATGTTTATTTGATATACCACCAGACTCAATGTCTT
GTATTCTATGCCAAAAATTTGAAAATGTTTGGGAAGAGGAAATTCCGTGGTTTGGTGAACCCAGAAAGTCTTCAGTACATCTCAGTTATAGAACTGTATT
AAATACATTTAAACTCTATAATTCCATAAGACCCATTTTAGGTTTATACACTAAGCATCCAATTCCTCACTATCCTCTCATACAAACCCTGTGTAATACA
AGTTCTACTCCCATAATTCTATGAACAAAACAACAATTGATACATAGATTTGATTTTTAAAATACATTTTCTTTACCTTATTCTAAGTGTAACATAGGGT
CAACATAGAAAAAGAAAACTGAAAAGCACAAGGAAAGTGAAATATCTATAATCTTAACCATTGTTAATTTTGTTGTGTTCCAAATTAGTGTATGTATATA
TATATATATATATATATATAGCATTTTTGTTTTAATAAAAGGACTGCCAAAATGCACATGCCAATTTGGACTCTGCTTTTTCCACTTACAATGATATCAT
AGTTTCTCACATTTGGTATTCTTTTGCAATACTTGCTGCATAGAATTCCATCACACAAAGGTAACTGCCAGAAATTCCTTATTACTTTTGCTAGACACTT
AGGGTTTACATTTTTTACAAAAATTATAAATCTTTGATCACAGCTCTGATGATTTCTCTGGGAACTGAGAGCCTAACACAAGTCATTTCCACTTTAAGAC
TTTTAACATTCTGAAAAGTTATGTTACAAACAGAGTGCTGGTCCCCCTGCAACATGCTCACTCACATTGGCTGACATTTTAATTCTTTGCCAATCTGAGG
GGAAGAGATGTCAACTTTTTTTGTTTGCTCTTTTAATGCCAGTCATGTTCCCTTTTTTTTCCCCCTTTTACCAGTCATACTGGCTTACTCAGAACCCTAC
AAATCAATCCTGCTCATTCTTAATTTTCCAACATTGTTCCTGAGATTGTTTCACCAGAAAAGTTCTCCCCCTTATCCACTTCGCCTAACAATTTCTACCC
ATCCCAATCCTCCTGCATTTATTGCTTCCAGGAATTTGGCACTTAGGACACCCTTGTCCTTACATTGTTCATGCATGTATATTTCGTCTTCAATAAAACA
TTTAGTTGCTCAAGGGCAAGGGTCCCATAGAGTCTCAATATGCTAACGGCCTGGTGTTGCTTAATAATTTAGATTCTGACGGGTCCTCTCCAGGGAGGGG
AGCAAAGGGCAAATTATCTTAGGGGCTGGGAGTGCAGAAGCCAAACCTTTGAGACTGTGAAAAGAAGACGGCGCCGAGACGATTCAGTAGCAGGCATTCA
AGCAAGAAAAACTCAAATATTGTTCCCAATAATGCCTGACTAATGCCAAATACCAAGTAAGGGCCCAGGCAGTCCTGACAGCCTGCAGTGCCCCAGGATA
AAACTAACCCTGAGGGGTGCTAGCCCACGATAACCCCCTGCCAGGGCTCTGGACACGCCCTGTCTCCTCGAAGGCCAACGGGCTGCCCCTGCGCGCCGAG
GCCCCGCCCCGCGGCCCGCCGATTGGCCCCAGCCGCCCCGGCGCTAAGACTCAATTTCACACTACGCGCCCAGGCCACGCCCACCTGTCATGCGGCCCTG
GAAACTGTGAGTTTGGGGATTGTTGTGTCCACTAACCGGACTCAGAAGGGACTTCCCTGCTCGGCTGGCTTTCGGTTTCTCTGCTCACCTCCGGATAAAT
CACGGGGTCTCCCGCGCCGCTCATGGCGCCTCCCGTCCGTCTCGAGCGTCCCTTTCCTTCCYGGCGCTTTCCTGGGTTGCTTCTGGCGGCCCTGGTGTTG
CTGCTGTCCTCCTTCTCCGGTAGGACCCCGGGGTGGATTCGCGCGTCCGCGGCGAGGCTAGARCTCTGCTCAGTCAGTCGGGCAGGAGGCGCGGGGCGAA
GCTCACTGCACGTCGTGCCTGCTTGGGATAGAGAGCGAGGCCAGGGTTCTCCGAGGGGTGCCGTGCTCAGATCCCGGGGGTATGTGGCGGGGGATGCGGG
AACCACGCAGAAGCTTGTTTGGTGGCATCGTGTGCGCGGCCGACATTTACGCAGGATCTGGCTGCGTTCCCAAAAGAAGCGTGAATCGTGTTTTCGGGAT
TGAGCCCAGTCAGCAAGGGGAGGGCTTACTGGGCGCCCCAGGTGAGGGCTTGCTCTGGAGTGCACAGGTGCGTGGGATTGTTGCTAGAGCCCGTGCTGTG
CCCGTGGTGAGAGTTTGCCCTGTGTTCCCTTGGTGCCTTGGTGAGTAGGGTGTTCATTAGGGCTTGGACAGTACCCGCGGTAAGGGTTGCAGTGCGTCTG
CTKTGCCCCATGGGCTGGGCTGGCCTGGGCTGGGCTGGGCGAGCAGGGGCCTGGCCAGGTGTTGCTGGGAGCGTGCTGTGCGCAAGTGGCCTGTGTGCGG
AGTTCACTGTGGGCAAGACAGCTCACTGTTTGCTTTGAGTGGAGCGAGCGCGGACTCTGCGGCTAGGGAGGGCATGTTGAGTGAGAGCAGGCTCTCAGTG
CCTGGGGTTAGAGAGGTGGTAAGGGCGCACCATGCTTTTAGTGCYTTCTGTGAACAGTGTCCGTGTTGCCTGAGATCGTATTGGTCTTGAATTTTAAGTG
GCTGCTTTTTTGGGGGGTGGGTGGGCCATCGAGTCATCTTCCTGTTCCCAACCAATATAGACAGTATCTGATTCCATTGCCTAGTGGCTTTTTGACATTG
TTTTCCTTCTTTTCATTAGTTTGAGTCATATTTGAGAGATGTGAAGCAACCTAAAAAACACTGGTAGCCAAACCTAGTGAGAAATTAGTATCCTAACAAA
GGAAGGCAGATAATGTTAATCTTGTTTTCCCCTACAGCTCATAAACTGAAGCTTAAGGCCTATCCCACTGTTYTGTATTTCATTGAATGGAATCAATATT
TTTAAAAATGCATGCTAGGCCAGGCCCAGTTGCTCACACCTGTGATCCCAGCACTTTGGGAGGCCCAAGTTGGGTGATTGCTTAAGCCCAGGAGTTCAAG
ATCAGCCTGGACAACATGTCAAAACCCCATGTCTACAAAAAATAAAAAAATTAGATGGGCATGGTGGTGTATGCCCGTGGTCCCAACTACTCCAGAGGCT
GAGGTGGGAGGATCGCTTGAGCCCAGGAGGAGAAGACTGCAGTGAGCTGTGATCATGCCACTGCACTCCAGCCTGGATGACAGTGTGAGACCCTGTCTCA
AAAAAAAAAAAAAAAAAAAAAAGCCAAAAAATACATGCTTAAATACAGGCTTATTGTGCAAAATGAACAAAATAAAAGGACAACTGTTTTTAATATTTTG
TTATATTTCCTTCTGACTTTATTGTGTTTCATGTGTATCTATATCCAAATTATATTTAGGATCTTATTCCATGTACAGATTGTACGTTGCATTTCTTCTC
TTAGGAACATTCATTCAACGAATATGGGTCTTGTATGTCTGGTGCTGTTACACTGGTAGGTAATAACAGACAATTCCTATTTTCTTTATCCTTTTTTTAC
TATTTGTTTACACACGTACATGCAGGAAGATAAGCAGGGACTTTTTTTGCTCATTGTTAAGTGCTTAATGCCGGGAACACAGTAGGCAATCAACAGATGT
TTGCTAAAATGTATTGGGAGTGGCAGACATTAACCAAAACATAATAGTAACAAATATATTAACCAGGGAAGTGTTCTGGAGGAAAGGAGTATAATTTTCT
GACAGCATTTAACAAATGACTGGGGGGAGGGAAGGCTTTGCTTCTCATCAAACAGACAAAACTCTGCCACTTTGGGGCATCTGTGCTTTCTGTTCCCTCA
GTCCTGGAACGTTCTCCCCATGACCTGCTGCATAAATGGGCTGTTTCTTCTGCAAGCTCAGCTGGAATGTTACCGCTTCAGAGACCTTCTTGGAACCCCC
CAACTCAGGTTGAACACATACAACCCAGTTCAAGTACCTCTTGTAATCACCCTTTTAAAGTGATCTTTTCTGTTCTCTGTCTCTCCCCATCAGAATGCAG
GAATCTTCTGTCTTCCCCCATTTGTGGTYCCAAAAGCCCCATTTGTTTGCTTCTGTATGAACCCTAACTCAGTATCCATATAGACATCTGTTAAATATCA
GAAAATTAAATATACTATTTGGCTGGGGCTTAGAGCCTAGGAAAAAGTCCCTCCTGCCTCCAAGAGGAAGGTTCTTTAAAGAGCTATGCTCAGGATGGTC
TTTCTGTTGTACCTAAAAAGCTAGGGCAGCAGCAGCTGAGGGCCAGAAAGGATCTGTCTCCCCTGTTTATGTTGACTCTGCAGGGCTTCCAGTACTTCAG
TCTTGCATCTCACTGATCATTAAAACGTTCATTTTGAAGGAGGGTGATGGGATTAGGGAGCAGTGGTGTTAAGAAGAAAACGAAAGGACTTTTTTTTCTT
TTTAAAGATTAATGTTTAGAATAGGCTTAGTACTAGAAGTACATACAGCCTGGGCATCATAAGGAGAGCCCACCTCTACAGAATATTAAAAACAAAAAAT
TAGCCAGGTGTGATGTTGCATGCCTGTGGTCCCAGCYACTTGGGAGGCTGAAGGGCGTGAAGGGGGAGGATCACTGGAGCCCCCATGGTCAAGGCTGCAG
TGAGCCCTAATCATACCACTGCACTCCAGCTTGGGTGACAGAGTGAGACCCGGTCTCAAACACACACACACACACACACACACACACACAGACACACACA
CACACACAGAAAAAAAAAAAAAACCTGGAAGTTGAAGAAGATAATGAAAGCAATTTGAAATAGAGGAACATAGAATTATAAAATGAATAGGGTGCAACAT
GGAAGATAACAAAACTAAAAATGAAGAGAAGGAAAAATAAGGTTAAGTTTGAGGTTGATAGGGTTAAATCAAGACAGGTATGAAACCTAGAGAAAGTAAA
AATGAGAACTCACGATGCTAGGCAGAGAGAATACATGAATTAAAATAAACATTCAATTTTTGGAGCAACTCACTCTCACAAAGATAAGGTTTTGTAAGCA
GGTGGTGCTGTGCATGGGAGACCTGCCCTCTCAAAGGTAGTTGCCAAATGGTTCCAGATAGCAGAAGGAAACATGTGTCAAATTTCAGGCCAGTCTCATT
CATTCCTCCAGAAGAGGAGCTGCTTTTTTGGACAAAACCCCCGATCTCCTGTTGTGTGTGGTCTCTTCTGCCTATTTCAGGTGTTTTCCTTATTTTCAAT
GAAAGAAGCCAAGACCARTAAGTTCTTATTGCTTCTTAGTTTCCTCACTCGGCATACTACAATGCAAAAAGAGCAGTCCATATCTGGTCACCTGCCAGGA
TACCAGAAGACTGGGAGATAGGCAGCACAAGAAATGGCTAAATCTTCTTTCTCCATTGTTCTGTAGAATGATTATTTTCAATATGAAATTGATTACAATA
TATTCTTCACATTGTTTTGTGTTTGACAGCAGTGGACTTTGAGTACCAAATTTTTTTCRAATAGCTACTATGAGGGACATATTGTGCTGGGTGTTGTGGC
CACATGGATGAATGGAGTCGGCCTTGTTAACTATTAAACTCAAAAACACGTGATAATTACCTGAGAGATCCATGCAGGGGAGAGTCCAGGGGAAGGTGAC
TGATCACTGCTTCCCAGGGGGAGGCAGAAAATGCTTCTTGGAGGAGATGATGGGTGGATTAAAGAAGACAAGAGCTGAGCAGGAGTTGTAGCTACCGGCC
AGGGAGGAAGGGTATTCAGAGCAGAGGAAGCAAGGTGAGCAAAGGCACCAAGATGTGACACTGCTGGACTGCCAAGCTATTCAGTGTGGCAGAGTAGGGT
AAAGGAGACAACAAAGAAGGGAGAGGAATAAATCACAGGGTGAGCAGTTCTAAAAAGCAACAGTCTTGTCAGGAATAAACAATCACCATCGTAAACTCAG
ACTTTGRTATTATTCCCTGTCCTTTTAGGGCAGCTTGAGCCCTTTTGTTTGACTTAGCACAACGTGACTCCAAACTAGGGTTGTTTTAATTTCCCRAGAC
ACAGTAGTAGGCAATTTCTTGAGGACCTAATTGCAGATAGAGTTTGTCGGTCTCAGCATGTGGGAGCTCCAGATGAATGGCAGTAATGGGAAGCAGTTTG
GTAGTGGTTCAGCAGTGTGGCCTGGGAACCTAGTTGACTGGCCTGCCTCCTGGGTCTGCCAACCTAACTGGAATGTATTCTTGGGTTCTGATTGTGATGG
GATTTAAAAGTCTCTAAGCTATGTTAGGAAGCCTTAGACATTATCCTGAGGTCATTGGAGAGCCATCGAAAGGTATCTGTCTTGGAAAAACCTTGATTAC
YCTGTCATATAAATACTGCTCTGGTAATGTGAAAAATGAATTGAATGAAAGGTGGCAAGATAGGTATGGAGACCTATTTRGTTATGTCGTGGTAATCCAG
ATAAGAAATGATAGTGGCTTGAATGAAAAGTAAAGGATACAACTACATAGAATAAACGGGCATTTCAGTTGTGGAAACATAACTTGTTTGGGGGGCGTGT
GTGTGTATGTGTATGTGTGTGTAGAGTCAAAAGTGGCTCTTGGGYCTCCCTTTGTTGTTTGAGCTAGAGTGACACATTCCAAGTAGAGCTGTGTGGGGAG
GCAATTGAATATGTAGTTTTGGCACCCCAGCTAGAGATCTGGGATGGAGAGATACCCAGCTAGGAGGCAGCTGGTTATCAGTGGTAATGAAGTCACAGAA
GTGTATATATTCTCCCAGGGGGACCTGCAGAATGGAATCACAGGAAGTCCTCCTACAGACTCATCAGGGATATTACCTTGGTATGAGCCAGAGGACAAGC
TGAAAACCAGAGTGGTTTGCTCTCCTAAAAGCCAAGGAGTGAGAACTCTTCAGGCAGAAGAGAGTGAGGGCAGAGTGATCAGTAGCTCTCACGTTATCAA
GAGGGTAATTCAAACTATTAAGGAAGAGACTGTTAGGAGGAGTTTAACAAGGAGGAGGCCCTTTAATGACTCAGAAAGTAGTTGAAGTAATTTTCATAGA
CCTARAAATGAGTGGGAAGTGAGAAATAAAATTGAAATATGTAGATGTCAGAGTTTATGTTTTGTGGAAGCAAAAAAGGTTTTAAATAGATTGGATAGTG
GGAGAAGGAGCAAGATGGTCAGGTTTCATTGCCATTTCACTTGTAGTCAAATACCATGAATTTCTGGTAATACTAATCTGGGCAGGGCTGTGGRTATGCG
TGTACATTAGTTAATTTTTTGCAAGCAGGTGTGAATGTACAGAAGTTGAACAGTTCAGTGGATGCAGTGTAGATTTTTTTTTTTTTGAGACAGAGTCTCG
CTCTGCTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCACCTGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCCGAGTAGC
TGGGACTACAGGCGTGTGCCACTACACCTGGCTAATTTTTTGTATTTTTAGTAGAAATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCTATCTCCTGAC
CTCGTGATCCGCCSGCCTCGGCCTCCCAAACTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCCAGTGTAGATAATTCACTTTACTAAAACTCACC
TGGAACTTTGGGGAAATTTCTGACTGCACCTATCTTATGATATAATGGCACCTACTGTTGAGGTATAGTATTGTAGCTTAATATTAATTATAATATAAAA
TATCTAGAAAAAATAAGTCAAGATACTGTTTTTCTGGGGGTAGGCATGTTTAGTTTGAAATTTTCCATAGGAAGAAATTCAGTCCTCTGAAAACGTATTG
CCAATAAGTGCATTGCAGGACATGATATATAAAGAAAATATTGGACAGTGTATATATGGAGAATTTTAGAATTTAGAATATGACATGAAATGAAGGTGAG
ATTTCACTTGGTTAGAATTTTCTTGACCAGTCTCTCAACCTGAGGCAGGACCATGACCAGGGAGTAAGAAAAGAAATGCTCCTTGGAGATCAAAATAGAT
CTATCTACTTTGGTCCTTCCACTATAGAAGAGGCCTTTGCATTCTGTTGGCCCTTTAGGCTTTTACTTGATGTCTCCATCATCTTATTTTGCAAGCCCAC
AGATAATTTGAGGAAGATGAGTTGCCGCAGTAGAAATGATAGGGAGAAAAAAAAAACTACAAAAAACAGAAATAAAAAATTCTAAAACCACAGCAATATA
GTAGCTTTATTATAGGACATGCTGGATAAACAATCCAACAGCTACCTCAGGGAGCTTCTGAGAGAATGCATGATGCAATGATCAGTGAGGCAAGATCAAA
TTGTGTTTGATGTTCAAGAAAGGAAAAACAATTCATGTAAGTCTATCCAAAGTAGTAAATGTTTTATATTTAAGTAGTGTATATTCACTTGTCAGATGCT
CAGTTCACTTATCTGAAACCTATGAAATAAAGTCTTATATTTTAGAATATTTGAGTTCATATTTATTTTAATCTATGAAATCCACTACATTTACTTAATA
ATCACCTCTTACCATAACATTTCTTGAGCACCCACAAGGTGGGTAGAGTGTAGTAGAAAAAGAAGAACATGGTCCTTGACCCCCAGGAACTTGCCTTTTA
AGAGAAGACACCCTGAAGTGACAAGCTGTTATAAGTTAGTGTTTTAAACTATGGAAGAACAATCTGAGCAGAGTGCTCTATACTGTAGATGACTTCTTAG
AGGAGAAGTTACTTTTGAAATGAATTTAGAAAAATGTGGAGAAAGATGCATCCATATATATTTTAAGATCAAAGACATTAATGCTGTCTCTTCAGTTTAT
TGTCGAATGTTTATTCCCAAACAAACCAAAAGCTAATAGGATGTTACTTAAAACATGCAAATCCCATTTCCTCCACTACTACCAGCACTCAGGTAAAAGC
ATGGAACAGTCATTTAAAATCTTGCCAAGGGCCTTCCTATTTTTTCTGTACTACCTGCTGCCAGACCACAGTCCATGGCTGATGAAAGTGATATCAGTAC
TTCATCTTCATGTTCCTATTCTCTTATCCCTAGATGCCTATGAGGAGCCACCAACATTTGAAGCTATGGAGCTCATTGGTAAACCAAAACCCTACTATGA
GATTGGGGAACAAGTAGATTATAAGTGTAAAAAAGGACACTTCTACGTACCTCCTCTTGCCACCCATACTATTTGTGATCGGAATCACACATGGCTACCT
GTCTCAGATGAGCCCTGTTATAGTAAATAAACTAGCCTTTTTTTTTTTGTTTTCTGCTTGCTCTAGAGATTTGCACACATTTTAKGGTACATATTCCACT
ATGGAGATGATGATTTTTTTTTCTTGTGAAATGAGGTTTAAGATAGCAATGCATTTTTGCAGACTTTGAGAAATTGAAATCTCCAAGAAATCTTTTTCTT
GGCAATAGATTGCCTGGGTGAACATGAAACTGAAATTTGCCCTTATAATAGGTAAAGAAAGAAAATAATATGCCCWTGCATTCAAARYCGCAATGCAGAA
TTTTGACCTTGATTCCAATCTGTTTAGAAACTGGATTGAAAAAATCTCAAAATTATTTTCTTTTAGGAAAAACATGTCCATGTATAGGTGATCCTTTACA
TGGCCAAGCAGTCCTTGCAAATGGGACTTATGAGCTAGGTTATCAGATACACTTTATTTGTAATGAGGGGTAAGTAAGTTCCTCCTTAGAGGAAATAAGG
AAAATGTTAGTAATTTTATTTTCGTTTTGCTTCTCTTCTTAAGCTTTCATATAAACTTTATTTAATTTTGCTTTCTATGTGACAAGTTATACTTCTAGCC
AAACAACTCTTGGATGTTTTATGGAGACAGCAAAGACRTAGAGTAAATAGAAATTGATATTGAAGGAAAGCATAACTACTTGCTATTTCTGACAATAAGT
CTGTTGAAAGCATTAAGARTGTAGTAATCATGAGAATTCATCCTTCACAACTGAGTGTCCCCTATTTAAATCTGCAAACTCTTAGAGTTAAAGTAGGGCT
SACAGAAATGAGAAATAGAATTGCCAACTAAAAATATGCTTGTATCCAGATGACTCTGTAAAGTGTGACCTGGTTAGCCTTTACCATCATGTTGAACAAA
AGCTCTCAGTTGAAAAACCTTATTTCTGAGACTGCTACAATGTGAAGCATCTCAAGAACAGGCACTGAGCACTCGGTAATAGCCTTTGTTCTGCAGGACT
TTTAAAGTCMTRGATATTGGGGATACTGGACATTTAAGTGAAATGTGCTTTTAGAGAGTAAATGTAATTTTCATAGATTTTCTATTGCTATAACACAATA
CGTGAGACTAGATAATTCATAAAGAAAAGAATTTATTTGGCTCATATTTCTGGAGGCTGGGGAATTCAAGGGCATGGCAGTAGTACCTGGCAAGGGCTTT
CATGCTGCATCAGAACATGCTGGAAAGTGAAAGGGAAATTCAGCACTTGCAAAAAAGACAAAGCACAAGGGAGGGGCTCTCGCTTTATAACAACCTGCTC
TTGTGGTAACGAATCCAAGCCTACAAGAATGAAGATCCACTCCCTCAAGAATTAATGAAGACCCTCTAGAAAGGCATTATCCCTCTTAATGCCCTAATCA
TTTCTGAAAGGCCCCATCACCTCTCACTGCTGTTACACTGGCAATTAAATTTCAATAAGAGTTTTGGTAGAGACAAACCASATTCAAACAATAGCAATAA
TACACTATAATATATAAACAAAGTGAGTCTTGGAGGAAAAGTGCACTGTGACCATGTAAGGCAGTTTCACTAAGAGTTTTTAAAATTTGGTCAAGTAGAA
ATATTGGAGTATTCAATTAATAGTTACATAGAGCTTGCTAGGCACTATGAGGGATACCAAAAGTTTAAGACATGGACCCTCCTAAAAGAAGTTCTAACCT
TATTGAGAAACAATATATACTGAGAGGTATCAAACCAAAATACTAAATGAGAAATACCAAATAATAGAATTAATCATGTTATTACACTAAGAGTCCAGAA
GGAGGAGAGATTCCTGTGAATTTAAATCAGGGAAGATTTCACTGAGTATAGGTGTATACTCAATGAAAGTATTCCTATACTCAATGAGCTACTCCTAGAA
AGACATTCTGTTCTAAATAATATTAATAGGAGCTAAAACTCGTGTAGCACTCACTATGTGCCAAATGCTAACTTATCTAATCTCCTAAACAACCCCACGA
GCTATGTACTGTTATCCCCTTTTAATCAATTAGGTAACTGAGTGAGAGGAACTTTAAGTGATTTACCCAAGCTCAAGAAACTAGTAAGTTGGGAAGCAGA
GACTCTAATCCAGGCATTCCAGCTCTAGGGCCTGTTCTCTCTACAGTCTTGTCCTTACTGAGCAAAGTCGTGTGAGAAAACGCACAGAAATGAATGTGTA
ATGTGATTGCAGGAGGCAGCAAAGAGGCTGGGTGGAACGGCACAGCAGATTTATTTAGATGTTTTTGCTCTCGGCCAATATACGTTCAAATAGAGAAACT
CTTTATTTGATTAAATTGCAGATTTATTTAGCACTTTCATTATATAGTATGTTGTTTAAGAAACCACCCCCCTCAAATTACTGCAGCGTAGAAAATAAAC
CATATAAAAAGTTCCTTCATTATTATGTGKCTTATTAATTGCTATACAAAACAGTAACCCTTTCTTTTCCCATTTAGTTATTACTTAATTGGTAAAGAAA
TTCTATATTGTGAACTTAAAGGATCAGTAGCAGTTTGGAGCAGTAAGCCCCCAATATGTGAAAGTAAGTAAATTCTTTTTTTTTTTTTTTTAATTCAGAC
CAGTAGTCCTCAAAGATTTTTTGCCTCAGGGCACCTTTTACATTTTAAGATTAACAAAGATCCCAAAGAGGTTTCTTTTATGTGGGTTATATCTRTTGGT
ATTTATCATATTGGAATTCAAACTGAGAGATTTTTTAAATAAGTATTGATTCTTTTTGTTTTTGTTTTTGTTTTTCCTAAGAGAGGGTACCAGTATGTTT
CCCAGGCTGGAGCACAGTGGCACAATCTCAGGTCACTGCAACCTCAGCCTCCTGAGCAGCTGAGACTACAGGCATGTGCCACCATACCTGGCTTTTTGTA
ACTTTTGTAGAGACGTGGTTTTGCCATGATGCCCAGGCTGGTCTTGAACTCCCGTGCTCAAGCAATCTGCCCCCGTGGGCCTCCCAAAGTGCTGGGATTA
CAAATGTGAGCCACCCCACCTGGCCTGATTAATTTGTAAGAATAGATGCAATACAAATTAACATATATAACATTTTTTAATGAAAAATAACAATTTTCCA
AAACAAAATAAAATTAGTGAGAATAGTGGCATTGTTCACATTTTTTGCACATCTCTTCAACAYCTAACTTAAAGGAAGACTTGGATTTGGGCTGTTGTGT
AATCACACAATATGTAGACTTTGGAAAATATCACTATACACTTCTGCCCGGCGCAGTGGCTCAGGCCTGTAATCCCAGCTCTTTGGGAGGCCGACGCGGG
TGGATCGCGAGGTCAGGAGATCCAGACCATCCTGTCTAATACCCTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGTAGCAGC
CTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGCGAGCCGAGATCGCGCCACTGCAYTCCAGCCT
GGGCGACAGAGCGAGATTCCGTCTCAAAATCAATCAATCAATCAATCAATCAATCHCTATACACTTATAAGGATGAGAGTGAAAAAAGACAATATKTTGG
TGGTATTGTGAATCACCAATTTAGAAAATGGATATATTTAAAAATTGCAAAGGATTTCTCAGCTAGCGCTCAGTTAAGCATATTTTCTCATTAAATTGTC
AGYATTTCTTGTGATAACTAGAAGAAAACTTAGCATGGCCTTGCAAATAAATATAGGCGTATTAGGCCGTTTTCGTATTGCTATAAAGAAATGCCTGAGA
CTGGGTAATTTATAAAGAAAAGAGGTTTAATTGGCTCGTGATTCTACAAGCTGTACAGGAAGCATGATGCTGGCATCTGCTGGGGGTTTGGGGAGGCCTC
AGGAAACAACAACCATTGGGAAAGGCAAAGGGGGAGCAAGGTGTCTCACATGGCAGGAGCAGGAGCAAGGTGGGGAGGACGGGAGGTGTTGCGCACTTTT
AAATAACCAGATCTCCCAAGCACTCAGTATCACGAGAACAGCACCAAGGGGACGGTGCTAAACCATTCATGAGAAATCCACCCCCATGATTCAGACCCCT
CCCACCAGGCCCCACCTCCAACATTGTGGACTACAATTTGACATGAGATTTGGTGGGGACACAGATCCAAACCATATCAATAGGTATTTACACTTTAAGA
AAATGAGATTTGTTCTGAAAGTTAGTTACTACATTAATGGTTTGAATTTGGGATGATATATTTGCTCATAGAAACCTTCTTTTAAATCCATATTGAATTC
ACAACCAGCTTGTAGAAACCCTATATTGACAAATTCACTGAAGACACAGAAATTTTACTAATGCTGCCTTAATCTTTTACATTTCTTTCCTCTTTTTCTT
CAATTTTAAGAGATTTTGTGCACATGACCTCCAAAAATAAAAAATGGAAAACACACCTTTAGTGAAGTAGAAGTATTTGAGTATCTTAATGCAGTAACTG
ATAGTTGTGATCCTGCACCTGGACCAGATCCATTTTCACTTATTGGAGAGAGCACGATTTATTGTGGTGACAATTCAGTATGGAATCATGCTGCTCCAGA
GTGTAAAAGTCACCTTTCAATTTATTTCCTTCTTCATCTGTAAGTACTCTGGAAATATTTTGTAAATAGTTTTATCTACAAATAAAGCAGGTGTATGTGC
TTCCTCCTCCTGTGTAATTGGATCTAATTTATTTTAATACAGGTCAATTCAAGCCAAAAAATAGTTCTAGCTAGAGTTCTCTATTTTTCACCCCCACATG
TTCTTGGGATTTCATTTCATACAGTGTGAACTACTGTGTAATCTGCATGAGTTAGAAGTTTTTGTTTGAAAGACCAAAAAAAATAATAAATCAACAAACA
CTGGCTTAAAAATAAGAAAGGTGGTTCTTGTATTACAAGAAATCTAAGAGTTCTGGCTTTGGTAGTGGTAGACTGTAACAGACTAATGCTCTCACCAATA
AAAATGATAAACTCTGGATAAAAAATAATTTTCTTAAAGACCAGAGTGACCAAAAGTATGAAGACTCCACAGGGGACTTGCCCGTTTAAACAAAGAAATC
ACAGAATAACAGTGATTTAAAAGTATATACTTCCCAAGTATGCATGAAACATTCTCCAAAGTAGACCATATTCTAGACAATAAGACAATTTTCCACAAAT
CTCAAAAAATTGAAATCATTCAAAATACATTATCTGATCACAACAGAATGAAAGTAGGAATCAACAACAAGGCCAATCCCCAAAGAAATGAAAAGTATAG
AAGACACTCCTAAATAATCCATGCATAAAAATAGTAGTCAGCCGGGAAATTAGAAAGTGTTTTGAATTGAATCATAACACATCAAAATATCCAAACATGT
AGGATACAGCTAAAGCATTGCTTACAGGGGAATGTATAGCATAACATACTTACGTTAGAAAAAAAAGAAAAGCCTCAAATCAATGATTTAATTTTCCACC
TTAAGAAACTAAAAAAGAAGAGCAAATTAAATCCCAAACTAGCAGATGTAAGGAAATGATAAAGATAGAGCCAAAATCAATGAAACTGAGAAGAGAAAAA
AAAAAATAGAGAAAATCAATGAAACCAACAGTTGCTACTTGGAGATCAATAAAATGTGTAAACCTACAGCCAGACTGACAAAGAAAAAAAAGACACAAAT
TAACCAATACTGAGAATGAAAGAAGTGGTGGTCAAGCACGGCACCCCAGCCAGCTTGAAGACCCTGCACTCCTGCAGCTGGCAGGGGCAGTCACTCCTGG
ACTTGTCCTTTTAGAAGCTCCAGCTTTACCACTTGCTGGTGGAGCCCAACCACTGCCGCAGGGTCCTCATCACCAACACGCCTGGCAGATCCAAGAGGAG
ATGGCCCAGGATGGGATGTGGTGAACAGCAGCACCCAAGAGTGTGGGGTGCGTGTGGCTCCACTGCCTGGTTTCTGCAGAGATCCTGTGCCAGTGCCCTG
TGCCCGCCACACAGGAGCCAGAGGGGGAGCACCATGCCCCCCACTTCGGAGACTGCTGCACGAAGGGGCCAGGTATCAGACCTTTGCTGTCTCACCTCAG
CACTGGCACCAGGAGCCCTGCAAAGCAGCATCTGGGAGATGGACAGCCAGGGGGAAAATAAAGGAAGCTTTCAGAAGTGGCTAGATGAGATATTTGAAAT
ACTGAAAACTAAAAATCCCAACTGCATGGAAGAGCTGGCCTCAGATGTGGTCAGTTCTTACGACAACCTGGACACACAGTGCTGACCCGCATGATGGGAT
GCACCAAGCTGGGCCCCTGCAACGCACTTGGAGGCTTGGCCCTGCCACCGCCCCACCTCCCAGCTCCAGCTACAATTGCAGTCTGACCTGGGCAAGCAAG
AGCACATGGTGGAGATCCTGATGGAGACCTGAGCCACACGTGCCACAGTGCTGGCCAGACATGGAGGATGGGATCCCGCCAAGGGAACTCTGGCCAGCCT
GTAGCCCACTGCCCAGCCTTGCCGGCTCCTCTGCTGATTCCTGCATGGTCTGCAGCCCCAGGCCCATTCCCTTCCTTCCCCTCTGCAGAGGGCAAGCCGG
AGGCTGGTCTCAGCAGGAGCTAGGGCTCTCCTCAAAGGCTTTCTGACCTTGGGGCAGGCTTGACATCCCCATRGCCCTGCATCCCTCATCCCTTTTCATG
TCTACTGGAGGACAGTGAGCCATAGCTGCAGCAATCTTGTTTAAATTTAGGTAGTTGAATTTTTTAGAATTAAGTTTTGTATGTTTTGAGCAATAAATTG
TCTTAAGATATATATTTTAGGTTGCTTCAAGATAGCTGAATAGGAACAGCTCTGGTCTACAGCTCCCAGTGAGATCAACGTAGAAGACAGGTGATTTCTG
CATTTCCAACTGAAGTACCTGGTTCATCTCACTGGGACTGGTTGGACAGTGGATGCAGCCCATGGAGGGCAAGCTGAAGCAGAGCGGGATGTCACCTCAC
CAAGGAAGTACAAAGGGTCAGGGGACTTCCCTTTCCTAGCCAGGGAAAGCTGTGAGTGACTGCCTGGAAGAACAGTACACTCCTGCCCAAATACTGTGCT
TTTCCCACAGTCTTCACAACCAGCAGACCAGGAGACTCCCTCCTGTGCCTGGCTGGGGAGGTCCCACGCCCACGGAGCCTTGCTCGCTGCTAGTGCAGCA
GTGTGAGATCCACCTGGGATGCTGGAACTTGGCTGGGGGAGGAGCRTCCGACATTGCTAAGGCTTGACTGGGCGGTTCTAKGCTCACAGTGTAAACAAAG
CGCCAGGGAAGCCTGAACTGGGTGGAGCCCACTGCAGCTCAGCAAGGCCTACTGCCTCTCTAGATTCCACCTCTGGGTGCATGGCATATCTGAACAAAAG
GCAGCAGACAGCTTCTGCACACTTAAACGTCCCAGCCTGACAGCTCTGAAGAGAGCAGTGGTTCTCCCAGCACAGCATTCGAGCTCCTATAACGGACAGA
CTGCCTCCCCAAGTGGGTCCCTGACCCCCGTATAGCCTAACTGGGAGACACCTCCCAATAGGGGCTGACAGACACCTCACACAGGTGGGTGCCCCTCTAG
GATGAAGCTTCCAGAGGAAGGATCAGGCAGCAATATTGACTGTTCTGCAGCCTCCGCTGGTGATACCCACGCAAACAAGGTCTGGAGTGGACCTCCAGCA
AACTCCAACACACCTGCAGCTGAGGGACCTGTCTGTTAGAAGGAAAACAAAGAAACAGAAAGGAATAGCAGGTGGTGATATCCCCTTTATCATTTTTTAT
TGTGTCTATTTGATTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCAGTCTATCAATTTTGTTGATCTTTTCAAAAAACCAGCTCCTGGATCCATTG
ATTTTTTGAAGGGTTTTTTATGTCTCTATTTCCTTCAGTTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCT
TCTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTAGATCTTTCCTGCTTTCTTTTGTGGGCATTTAGTGCTATAAATTTCCCTTTACACACTGC
TTTAAATGTGTCCCAGAGATTCTGGTATGTTGTGTTTTTGTTCTTGTTGGTTTCAAAGAACATCTTTATTTCTGCTTTCATTTCGTTATGTACCCAGTAG
TCATTCAGGAGCGGGTTGTTCAGTTTCCATGTAGTTGAGCTGTTTYGAGTGAGTTTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGAC
AGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGTGGAGCGCTTTACTTCCAACTATGTGGTCAATTTTGGAATAAGTGYGGTGTGGTGCTGAAAAGAA
TGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGGGTTCAATTCCTGGATATCCTTGTTAACTTTC
TGTCTCATTGATCGTCTAATGTTGACAGTGGGGTGTTAAACTCTCCCATTATTATTGTGTGGGAGTCTAAGTCTCTTTGTAGGTCACTAAGGACTTGCTT
TATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTATCATTATGTAATGGTCTTCTTTG
TCTCTTTTGTTCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTC
CATCCTTTTATTTTGAGCCTATGTGTGTCTCTGCACATGAGATGGGTTTCCTGAAAACAGCACACTGATGGGTCTTGACTCTTTATCCTATTTGCCAGTC
TGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGC
TYGTTAGTTGATGCAGTTTCTTCCTAGCCTTGATGGTCTTTACAATTTGGCATGTTTTTGCAGTGGCTGGTACCGATTGTTCCTTTCCATGTTTAGTGCT
TCCTTCAGAAGCTGTTTTAGGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCTTA
GTTTGGCTGGATATGAAATTCTGGGTTGAAAATYCTTTYCTTTAAGAATGTTGAATATTGGCCCTCACTCTCTTCTGGCTTGTAGAGTTTCTGCTGAGAG
ATCCGCTGTTAGTCTGATGGGCGTCCCTTTGTGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTTCCTTCATTTCAACTTTGGTGAATCT
GACAATTATGTGTCTTGGAGTTGCTCTTCTYGAGGAGTATCTTTGTGGTGTTCTCTGTATTTCCTGAATTTGAATGTTGGCCTGCCTTGCTAGACTGGGG
AAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCCATCACTTTCAGGTACACCAATCAGACGTAGATTTGGTCTTTCCA
TATAGTCCCATATTTCTTGGAGGCTTTGTTCGTTTCTTTTTATTCTTTTTTCTCTAAACTTCTCTTCTCACTTCATTTCATTCATTTGATCTTCCATCTC
TGATACCCTTTCTTCCAGTTGATTGAATCAGCTACTGAGGCTTGTGCATTCGTCACATAGTTCTCGTGCCATAGTTTTCAGCTCCATCAGGTCCTTTAAG
GACTTCTCTGCATTGGTTATTCTAGTTAGACATTCATCTAATTTTTTTTCAAGGTTTTTAATTTCTTTGCCATGGGTTCGAACTTCCTCCTTTAGCTCAG
AGTAGTTTGATCGTCTGAAGCCTTCTTCTCTCAACTCATCAAAGTCATTCTCCATCCAGCTTTGTTCCTTTGCTGGTGAGGAGCTGCGTTCCTTTGGAGG
AGGAGAGGCGCTCTGATTTTTAGAGTTTCCAGTTTTTCTGCTCTGTTTTTTCCCCATCTTTGTAGTTTTATCTACCTTTGGTCTTTGATGATGGTGACAT
ACAGATAGGTTTTTGGTGTGGATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAGTCAGGACCCTCAGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCC
ACTCTAGACCCTGTTTGCCTGGATGTCAGCAGCGGTGGCTGCAGAACAGCGGATACTGGTGAACTGCAAATGCTGCTGCCTGATCTTCCTTTGGAAGTTT
TGTCTCAGAGGAGTACCCGCTGTGTGAGGTGTCAGTCCGCCCCTACTGGGGGKTGCCTCCCAGTTAGGCTATTTGGGGGTCAGGGACCCACTTGAGGAGG
TAGTCTGCCCGTTCTCAGATCTCAAGCTGCGTGCTGGGAGAACCACTACTCTCTTCAAAGCTGTCAGACAGGGACATTTAAGTCTGCAGAGGATTCTGCT
ACCTTTTGTTTGTCTGTGCCCTGCCCCCAGAGGTGGAGCCTACAGAGGCAGGCAGGCCTCCTTGAGCTGTGATGGGCTCCACCCAGTTCGAGCTTCCCGC
AGCTTTGTTTACCTACTCAAGCCTMGGCAATGGTGGGCGCCCCTCCCCCAGCCTCACTGCTGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATGA
GCGAGACTCCGTGGGCGTAGGACCCTCTGAGCCATGTGCGGGATATAATCTCCTGGTGTGCCGTTTGTTAAGCCATTGGAAAAGCACAGTATTAGGGTGG
GAGTGACCCAATTTTCCAGGTGCCATCTGTCACCCCTTTCTTTGACTAGGAAAGGGAATTCCCTGACCCCTTGTGMTTCCCAGGTGAGGCGATGCCTCGC
CCTGCTTCGGCTCATGCACAGTGCGCTGCACCCACTGTCCTGCACTCCCCAGTGAGATGAACCCGGTACCTCAGTTGGAAATGCAGAAATCACCCGTCTT
CTGTGTCGCTCACACTGGGAGCTGTAGACTGGAGCTGTTCCTATTYGGCCATCTTGGCTCCTCCCTCCTATTTTATTCTTTTCAGAGTGATCTGTTGACA
CCTTTACTGAGTTTGTTCCTAYTGCAGGACTCTTTGATTTTCTGGAGTGCAACCAGTTTGAGTCTTTTGATGTAACACATTTAAACAGGGAAATTTCTGC
TGTCTGCAGAACACGACCTATATTTCTGTCTCTTCCCTGCCTGCAGTCTTCCACACCTCATAATGTTATTCTTTTTTTCTCTTTACTGGGCAGTTTTATC
TGGCAATAGCAACTAAATTTATAGCAACTGAAAGGCAGGAAAAGTCCTTATTTACTGAGATGAAATAGAGGACTTTTTGCAGGGACTCCTGATCAGCAGC
TGTGCTTATGACTGGAGAGATTATTTTGATATGAYGGAAGGGATTATTGTCCTGATTTCAGCACTGCTATCTCTGGTTTCACTTTCCTTGCRGCAGAAGC
AAGAGACTAATTGTAGGAAGAGCATTAGCCTGCGYAGACTATGCTTAATTAACATCATTTCTGTGGTCTTCAGTTTCCATTTAGTTTAATGAGATTGTTG
AACTCAAATCTCAATCACTGGATTCTAATTTGTTTATATATTTCCTATCTCCCTAATATTTTAAAGGATCTAGGGGAATTATGCACGTTAACATAGTAAT
TAGAATACCATTTTATAATTCCTATAAAAGCCTGTTAACTGGTAGCCTCCTTAGTTGAGTCCTGTAGGTTTTGAGGGGCAGGAAGAGATGGTTTTTTTAG
TGGACTGATATATGAGCAAAACAAGATTGCATATGAATTTAATACTCAATAAGGTATCCAGGCTTACTCACATGCTCCTAGTGGGTATATGTACTAATAC
TAAGTTTGTTGATACAGTCTTTTGAAAGAGTTAACTATAAGCATTTCATAAAGTGTTTATAAAACACTGATCTAGCTTAGTGTTTGAGAGCAGAGGAGAG
AATTGCTTGTGAGAAAAAGTTTATAAAAAAGAGAAACTACAGGGGTATTTTTTGAAAAATGACAAATCAAAATTCCTCATGGGATTGTCAGTCATTTTTT
GTCATCAGTAAGAGGAAGAATAAATAGCAAGATAATGATGTTAAGGTAGATCTAAATGTGCTAATGTGAAAAAATGTCCAGGAAGTCCTAAGCGGAAAAG
AGGAAGATGTAAATTATGTAGTATAATACCACTTAACAGTTTTTTAAAAAGATACATATGTTTACCCCAAGCACATTACTTTTATGATTTATTACTKGTT
ATCTTCTAGGATTTCCATTATAAAATATGAAACGTAGTGAGCATTTTTTTGGTTTTTTTTTGARACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAG
TGGCATGATYTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCCCGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGCTACAGGCACCCGCCACCAT
GCCAGGCTAATTTTTTTGTATTTTTAGTAGAGACAGAGTTTCACCATGTTAGCCAGGATGATCTTGATCTCCTGACCTTGTGATCCATCTGCCTTGGTAT
CCCAAAGTGCTGGGATTACAGGCGTGAGCTGTAGTGACCATTCTTGTACATGCATCCTTACATACTTGTGCAAATATATATGTAGATTAAATTATTTTTT
TTTCTAGTTGGAGCCTTGCTCTGTCACCCAGGCTGGAGTCCAGTGACATGATCTCGGCTCACTGCAACCTCCATCTCCAGGGTTCAAGCAATTCTCCTGG
CTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCGACACCATGCCAGGCTAATTTTTGTATTTTTAATAGAGATGGGGTTTCACCATGTTGGCCAGGCTGG
TCTCGAACTCCTGACCTCRTGATCCACCYGCCTCAGCCTCCAAAAATGCTGGGATTACAGGCGTGAGCCACCATGCCTGGCAAAGAATGACACTGGGTGT
ATTAAAAAGTATGATAAGTGACATGATCACAGTAGACATTTCCTCCAATAGAATATTGGGAGAAAGCCTAATGGAAACCAATGAAAAATAAGAAACACAC
GTAGCCTTTGGAACATAGCCTTTCTCACCTAGTGGAGGAGGAGCTGAGACTTGAGTAAGACAGTCAGATGAAGTAAGGCAGTATTCGGGAATGTTTGTGT
GAGCTAAGACTATACATCCTGAGTGATACACGTGTGTTGGACCATGTATACATGGGTCTCCATTAGTGAAGCCGCACTGAGTAGAGAATAGTTTTCTACC
TAAAGCATCTTTACTCCATGATGAATCAGTTATGCATGGAGGAGAAAGAGCTAACACGTGTACTGAAATATCTGCTACATTATCTACTCAACCCTAATTC
TACTCACCTTTCTACAGCCTTTGATATTTAGAGTTACTCCGTCCTCACASAACTCTTTCCAACTCCAGCACTGGAAACAATTGACTCCTGTCTCTACCAA
ACTGTACGTCCCAGATTCTTGTCTTAGGAGCCATAGAACTCCAAAGGTTTATGGCTATAACTGTGTTTTGACATAATTGGCTTTCTTTATAGTCCTACGT
GATTTACTTATRCATTACAAAAAACAGCTCTGAGAAGGGATTCATAATTCTGACCAGCCAGGCAAAGGTGTATACATGATACATAAAGATATTAAGAACC
CCTCATGACTATTCACAATAGCAAAGACATGGAATCAATTTCAATGCCCATCAGTGATAGACTGGATAAAGAAAATGTGCTACATATCCACCATGGAATA
CTATGCAGCCATAAAAAAGAATGAGATCATGTCCTCTTCAGGGACATGGATGGATCTAGAGGCCATTATCCATTGCAAACTAACGCAGGAACAGGAAACC
AAATACTGCATGTTCTCACTTATAAATGGGAGCTGAATGATGAGAACACATGGACAGATGTGGGGGAACAACACATACTGGGATCTATTGGAGGGTAGAG
GATAGGAAGAGGGAGAGGATTAGGAAAAATAACTAATGGTACTAGGCTTAATACTTGGGTGGTGAAATAATCTGTACAACAAACCCCCATGACACAAGTT
TACCTATGTAATAAACCTGCACATGTACCCCTAAACGTAAAAGTTAATAAAAGAACCCCTGCATGGATATGGATCATGTATTTCCATTCAGATCTTCCTT
TCATTAATTTTACATGCCCCTCTTCAACAGTCTCATTGATTCCTGTGATTTTGACCATCTCCCATCCATTATCTTTTACAAAAGTCCTCTTGTGCCTTTT
TTGGAAGTCCATTTTCATAATCAACAAATTACCTATATTCCCAATCTTTTCCTAAACATTCTCACACCTCCTGGCCTTCACTAAACCCCATCTGTCCCAT
GCCCACATCTTTCTCAGTTTAAAAAACAACAACAATGAAAAACTTTCGCTGCTTAACCTTGATGGCGCTATCCCTTCCCCACCCAATGGTTTCCTATTGC
TACTGTAACAAATTATCTTGTGGTTTAAAACAACACAAATCTATTCTTTCACATTTCAGGAGATCGTAAGTCCACAGTGAGTCTTACAGGATGAAAACCA
AGGTGTTGAAAAGACTGACTCCTTCTGAAAGCTCCAGTGGAGAACCTGTTTCTTGCTTCTAAGGGGCACTAGCATTCCCTGGCTCATGGCAGCAACACTC
TGAGCTCTGTTTTCATCATTACCTTCTGGTCTATTACCTTCCTCTTATAAGGATCCCTGTGATCATATCAGGTTCACCTAGCTACTCCAAGATACTCTTT
CCATCTCAATATCCAACTGCAAAGTCCTAAACTGCAAGGTAACACTCACAGATTCTGGGATGTAGGATGAGGACATTTTGGGGGAACATTATTCAGCCTA
CCACGCACTCCTCCTTTTCTCTCATTCTTGGATTGTTTTTTATTGTTATTTTTTAAATTGGCTCATAATGATTGTACACATTTATGGGATACAGCAAAGG
AAACAACAGAGTGAAGAAAAAAACCTACAGAATGTGAGAAAATGTTTGCAACCTATGCCTTTGACAAGGGGTTAATATCCAGAATATCTGAGGAACTCAA
ACAACTCAGCAAAATAAAACAAATAATATTATTTAAAAGTGGGCACAAGACCTGAACAGACATCACTCAAAAGAAGACATAGAAATGGCCAACGAATATA
AAACAAAATGCTCAACATTCTTAGTCATCAGAGAAATMCAAAATAAAACCAGAGAGAGATATCACCTCACCCTAGTTATCAGAGCTCTTATCAAAAAGAT
AAAAGATAACAAATGCTGCTGAGGATGTGGAAAATAGAGACCTCTTATACACTGTTAGGGAATCCAAATTAATATGGCCATTATGGGAAATAGTATGGAG
GTTTCTCAAAAAATTAAAAGCAGAACTACCATATGATCCAGCAATCCCACTACTGGGTATATACCCAAAAGAAAGGAAACCAGTATGATGAAAAGATATC
TGCACTCTCACATTCAATGATGCACTATTCACAATAGCCAAGGTATGGAATCAACCCAAGTGTTCACCAATGGACGAATGGATAAATAAAATGTGGTATA
TATACACAAGGGAATACTATTCAGCCATAAGAAAGAATGAAATCCTATCATTTGCAGCAACATGGATGAATCTAGGGGATATTATATTAWATGAAGTAAA
TCAGGCACAGAAAGACAAATCCTGTATGATATCAGTCATGTGCAATCTAAAAAAGCTCATCTCATAGAAGTAGAGAGTAGAATACTGGTTACCAGAGGTT
GGGGTAGGGAGAGACAATGGGAGATGGAGAGAGATTGGTTAAAGGRCACAGGGTCACAGATACATAAGAATAAATTCAYCCTTGAATACTTAACCCTCTG
CCCTACATCTGTCACTCCTACATCCATATTCATTGCTAATCCTGGGGCTAACTCTTGATTGCTTTCTTCTCACTACTAACCTTAAGAAAGGAAGTAACCA
AAATCCAATACATGAGCAACTGTTCATTCCATCTCCAATATCTTTGTTMATTGTCCACTTTATCCACCCAGTCAGGGCCACCATCAAACCTCACTTGGAT
GTCAGCAAAAGCTCCCTGGCTGGTCTCCCCTCTCCATTATTGCTTTAATCTAGTCTCCATACTATACACAGATTTACATTTTTTGAATATATATCTAATT
GTCCTTCCCTTTTTAAAAATCTTACAATGGCATGACATCTCAATTCACGATAAGGAAATTGGTTCTTCACATTCCCTGTGCACTGTACACATCGCCTGCA
ATTGCCCTTCAACACAGAGAGCAGGCATTTCATTAGCTGACCTTCCCACACACATTCTTGCAAAGAGGAAAAGTCAAGCAGGGTGTTTGGAGGTGAGTTG
CCATCATCCACCGCCTTTGTCTGKAAGGAAGCGYAGGGCCTCACACGCGGGATCCATCGGAAGCCCAAGCATTGTCAAGCTCTGCTGCTGCACCTGGGTC
AGCAAGGTGGGCTCTGCCAGCGAAACTCGTTAGAAACAATGCAAATGGGGAGTAAACATGGCCTTGCCCATGAAGGGGAAGCTGGTCAAAAGCATTTTGT
CCCGGAACCCCGCAGCCCTCCCCATGCTCTGGGCGCGGAGCACAAGGATTGGTCACTCCTCTTTGCACTGCGCTTTTCCTCTTATCAAATCTGGTTTGTA
GATGTGCTTCGGGAGGATGGGGGTCTCTTCTCCGAGAAGCCGGGAGCCTGTTGGGCAGCSGGCGCCCGGTCTCCCCTTCTGCTGCGGAGGATCCCTGCTG
GCGGTCGTGGTGCTGCTCGCGCTGCCRGTGGCCTGGGGTGAAACGCTGGGGGGCGTGGGGAGGCGCCCGGGCTGACGAGGCACCCAGGGCCCCGCAGAGA
ACTCGCGTGCCGCGCTGGGCTGCGCTRCTCTGCGCGCCCGGGTCCAAAGGCAGCGCGATGGGTGGGCTGAGCGCGCTACCTGGCAGGGCGGCGGGTCTGG
GATCCTTCTGCGCACTGGAGACCCTCGCTGCCTCTAGGTAAGCGTGGAGTTCCCACGTGCAGGGGCTTAAGTCGTGACGAGCGCAGTGGAAGGCGCAGAT
GCTGAGCGGGTGCCGCACGAAATTCCTTGCCTTTGTGTATTCACAGCCTCGGCTGGCTATAGCCGAGCGTGGCGTCGATCCTAGCGAAACGGGACTTGGG
GATCCGACAAACCTGAGTTCTGGTCCTAGAAACTTAACTGTGAGGCAAGTTAGCACACCTAAGTCTGTTTGCTCTTCTGTAAAATGGGGACACTGGTATC
TCTGCATTGTGGAGTTGCTGCCTCAGTGGCATAAAGCCTGTCGAGTATCTAACACAGGGCCTGTCCCCGAGTCCATTTCTATCCCCCAACCGTTACCTCT
GCACTTTGCTCCCAGTGGTGTTTAGACAAGCAGTCCTAGGGATGTCCTGCATGGAACTGTCCTCGTCCCCTACCCCAAGCCACCACCGCCATCATCATGA
TGCACTTGATTGACAGCATACTTTAAGACAGATGCATGCCAGGCACTTGGGGATTAGAAGAGCAAGGGAAGCCCCAGAACATGCAATGTAACCGCTGCAG
GTAGAAGGGACAGTAGATATGTTTACAATTTGCATTTTAGTGATGTGTTTAGTACAAAATAAAGCCTATTATAACTACTATGGAAATTTTGAGGCCACAT
CTCTTCCTTTTTTTAACTTCAAGTAGGTAAACATCTTCAGTTAGAACCCTTCTATTATTAGTTTTGGGCTCCCCAGAAGTCTTCTTGGTTGCCTAGACTC
ACTGGCAACATCTCACTTGAAGTGACAGTCTTGGTTGTTTTGGTCCTGTCTCTTCCTGACAACTCAGGGTTCGTCCTTCTCTGCCACTAGACGTTTTGCA
TTCATTATTTGAGTGTTCCTTCTTCTCTAAAAGAGTAAGGGGAAAAGAAAACCAAGTTCCCCCAAGAGTTGTTATTAATATTTGATCTTCTTAGGCACCA
GAAAGTAACCTGTCTAGTGAAGAGATATGATAAAACTTACAATTTTATTTTTAGGAGAGAAGCATGCCCAGTAAGTTAAGCAATCTGTTGTCAGTGCTTA
CTGAGGTTCTCACAATAACCTCCAAATGTGAAACAGCCTAAACTAAACTACCTAGAAATTTTGTTGCTGGAGTAATTTCAATTTTAAAATGCTTATGGAT
GCTTCCGGTGTGCACAGTCCTTTGGAATTTAAAAGAAATGTAAGAGAAAGAGCTATGCTCCCAAGGTGTATGCATATAGAAGTAGGTGGTGGAGTTTTAT
GAAATCTACTTTTTAGGAAGCCAGTGTTCTGGTTTTTCCAGACTCTGCTACTTACCAACTGGGGCTGTGGACCCAGCAACTTAAGTCACATCACTGACCT
TCAGTGTCCACGTGTATAAAATGAGCATGACTGACATCCTGATTTCTGAGAGAGGTATTTTGAAAATCAGGTGGGGTAGTGCATGTGACAGCGTTTTGTA
ATCTGAAAACCCTCATGCATGTCTGAAAAACCATGACTAAGCAGTCGTGCAGGACTGCAGGATCACTGAAAAGGGAGAAATCTCAACTCCTATGATCAGG
AAAGGGTGAGGGAAAAGAGTATGACTTTACTAGCACTTGAAGAGTGAATCCAGAAACAGGTTGCATAGGACAGTTTATGGGAATATTTATATATAAAAAA
TAACAGAGGAACTAGGATTGTTTTGTCATTAGAGGGTACTCCTACTACCCATGAAGTGGTATGGTGCTATTTGAAAGAGAACTTAGATTAGCTGCAAATA
GATATTGCAAACTTAGGGCAACTACTGAAAAAAGTGAAAAAAAGAAGTACAATTGATATGCCAGTAAGGAAGAGTGAATTGCATCATATAAAATGCTCAG
TTAAAACAATAAACGGGGCCAGGCGCAGTGGCTCACACCTATAATCCCAGCACTTTAGGAGGCAGGGTAGATAACTTGAGGTCAGGACTTTGAGACCAGC
CTGGCCAACATGGTGAATACCCATTTCTACAAAAATCCAAAAATTAGCCGGGCATGATGGTGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAG
GAGAATCTCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTACACTCCAGCCTGGGCGAAAGAGTGAGACTCTGTCTCAAAAATAA
AAATAAAATAAAATAAAGGTCAGGAAAAGAATGCAAGACAAAAAATAGAAACAGAGAACAAGAGAAGAAAGACAACAAATAGAAACAAGTAACATATTAA
ACCAACTATATCAACCATCATTTTGAGTGTCAATGATCTAAAGGCACCAATTGAAACAGATCATCAGAGTCGATCAACAAACAAAACTCAACTATATATT
GTGTACTCCCTATAAGACCATTTTAAATATAGACAATATATATTAAAAGTAAATGGGTAAAGATATACCATGCTAATGCTAGTCACAGAAAGCAGGAGTA
GCTGTGTTAATTTCAAACACAGCAGACTTCAGACGAAGGAAAATTATTAGGAATAAAGAGGGTCATCATATAATGATAAAGGGGCTAATTCTCCAAGAAG
GCATAACAATATCTAATATGTATCCATCTGACAGAGAAACAAAATATGTGGGGCAAAGCTGATAGAACTGCAAGGAGAAATAGATGAATGCACTATCATA
GTTGGAGACTTCAGCACCTTTATCTTTTCTGATATCAGAAAAGATAAAGGTGCTGAAGTCTCTTTATCAGAAATGGGCAGATTCAGCAGGCAGAAAATCC
ATAAGGACATACTTGAACTCAACAGCACCATCAATCCACTTGGATATAATTGACATATACAGACGACTTCATCCAACAACAGCAAAAGACATTCTCTGGC
TCACATTCATGGGGATAGACCACATTGTGAGCCATAAAAATAGTATGCTAATTAAGCTTTACCAGGGAGTGTTTAACATAGGGTAGACTCTGGCGCCCTC
ACATGGTCCTCATGTAGGATCTGATTTGGTTTTCCCTGCTAGGTAAAGGTGCAAGATAGAAAGAAGGGTAATTCCAATTTGCTTTCTGTGCTTTGTGATG
TATTCTGGTTTACATATGCTCGGATGAGTAGATGTATGATTTATATTATCTACTGTTATCTAAAATAAWCTTCACATTCGGACAGGCAACATCAAAACTG
TCCTACACAGAAATACTGGGTGAAGATCACTTAATAAGACGAACTCCAGAAAACAAGAAAATGGCAGAGTTGACAATCCCTCTCACCCTCCCTGCAAAGA
CRCATGTATACAAATTTCTTTTGTCAGAGACATTAAGAGAAACAAATGCTGTCAATCTAATCACAACTGATCACAACTTGATGAAACCAAAAAATCTAGA
AAGTATCATGAAGACAGTTGAAATACAGCTTTACATTCACTATTGTGACCAGAGGAACTCACTGTGGCTGTTTTTTGTCCCCTTAGATGTCAACTAATGA
TTGTGTTAAGTGATCATGATTAACAGAGCATTTAAAATGTTTATTTTATCTGTTTTACATTTCAAAAATTTATATTTAGGCATATAATTTATATATTTGT
GTACATATATAATTTATTACTTTATATTTTTGAAAGTGCATGCTCTTTTTTTAAGCTGACAGACATGCCTAAGCAAAGCAAGTGCAAGTCTGTTCCTTAA
AGGGTAAGTATGCAGAATGGAAAGCAGAGTGTACTTCGGGTTGACAGCTCATATTTGCRCAGACATGAAAGTGATGATGTGTTAATTGTGCGTATAGCAC
AGAATAAATCAGCTTGCTTTGAATGGAAGATCTGAACCAGGAGTGCATGAAATTGGGCTGAGTCATACAAGAAAAAACCCGAAATGAGATAACAAAATAT
ACCCACTAGAATGGCTAAAATGGAAAAGATTGACCAAACCAAGTGTTGGCAATAAAGTGGAGAAGCTGGAATTATAATATACTGCTATTCGGCAGGTAAA
ATTACAACATAACTTTAGAAAATAGTTCAACCGTTTCTTAAAACCTTACACACACAYCTGTCATATTACTCAGCATTTTACTCTTAGGTTTTTACCCAAG
AGAAATGAAATCATATGTCCACAMAAAGACTTGTACATGAATTTTCATAACAGTTTTGTTTGTAATAGCCAACGAGTGGGAACAATCCAAATGTCCCTCA
ACAAGTGAATGGATAAACTAAATTAACATATATTTATACAATTGAATATTACCCAGCAACAAAAGGAAACAATTTGTATATGTGCAGCAACCTAGATAGA
ACTCTAATTATGCTGTGTGAAGGCTAAAACATTTAAAAMAATCGGAGTGATTTCCTTTATATGATAGGATATAAACGAAGTGATTCGGGTTATATGAAAT
TTTAGAAAGTCAAATCAATCTGTAGTAAGAGAAAACAGGTCGAAGGTTGCCTAGAGAAGGAAGTGGATGTTTGGATGCATTACAGAAGGACATGAGGGAA
CTGTGTGGGGTGAAGGGTATGATGGAAATGTTCATTGTCTTCATTTGGTGATGGTTTCACAGGGCATATATATAAGTAATCAAATTGTACACTTTAAATA
CTCATCAACCATTTTATGTAATACATCTTAATAAAGCTATAAAAACTTTTTAAACTTATGGTAGGTCTTGAGTTTATGGAGTTTATATTAATATATTTAT
CATAAGAACCAGCCACAAATTGAGGGATTGGTAATAAAGAGGGAAAGGAAACTACATCAAGCATTCTTTGTTGAAGGCTCATATGTTCCTTTTTTGGGCT
ACTAYGCAAATTTATATTATTACCTATACTATGCATWTACTACTATAAAGGTAAGAATATTAGGTAATTAAGGGGAAGGAACTTCTTTCTTTCCAAGAAT
GGTTCATTATATTTGCTTTGTTGCTTTGATCTAGTTCTAACCTCTCATTGCAAGCTTTGTTGTGACGTTTACCCTCTCTYAATACAGCTTTTGGCGCTAG
GAGAGCTCCACTTGGAATCTCTTCCTTTGTCTAGCATCAATGCATAAGACACATATCAAAATTGTATTTCATCCCACATATCAACTAGAGGAAAGGTGAA
TGCATAACACTGAAAGTCACGGAACTGTTTTATTCGTKTTTTTTTTTTTATACAGTGGTTCTCAAAGTGCTGTTATCTATCCAAATCAGCTGTGAAACTT
TTAAAAAATATAGACTCCTGGGCTCTAACCCAGACCCACTAAATCAGAGATTCTGGGGACATAGCGTGGACTCTTCATTTTTTTTTAAGTTTTATAAGTA
ATTCTTCAATTATTTGATCATTGCAACAAATATGCATTGAGTGCTTATAACTGAGTGTTAAGCACAAGGACTAGGTATTAATTTAGAAGTACAAAAAACA
TGTCATCATTTGCCCTCAAATTATACATATCTAATATCTTTTGAGAGAAATAGATACTTCTAAAAGCACACAAAATTAAAAAGCACAAATTGCAACCACA
AACAATTATTGATATGAAAGGAAAAGGAAAGGGCCTGACTAGAAATTATCATAGGGTGGGGCAGAGGGAAGTAGTTTAGATTCCAAATCCCTGAGAGGGT
CAGGGAAGGCATCAGACTAGATTGGGTGCGTTCAGGGTGGTATGGCCATAGACAGGCCAGGGAAGGCTTCGATAAGAAGGTGGTATTTTAGCAAACACCT
GGAGGAAGAATTGAAGTCATAGCCAAGATAAAAGTGCATCACACAAAAGGAATGTCATAGACAGGGGAAAAATGTGTGTCTTCAGGAAACTGAAAAAGGG
GAAAGGGCCACCACACCTTGGTGAGGGGACCCAGTGGTAAGAGATGAAGCAGGAAACATAGACAAGGGCATCTTTGTACAAAGCCAAAAGTTGGTTCTTT
TAAGTCTAATAAAATTGACCTCTGGCCTCAATCTACCCAATTAATTAGTGGAAGGTGTGGGAAGGAACAGAAATGAAAACAAAACAAACAAGATATTTCC
AAAACTAGAGTAAGATGCTATTCTTTTTCAACAGATATATCTTCTTGATTACATACTGTTTGACTCTGTGATTTTTGTTGCTTTAAATTAAATCTACAAG
GCCTTAAGGGGCCTAGCTGAGTCTACTATATAATATGAAATATCTRTGAGAAAATACGTCTTCTTTATGGTAAAGTATAGCTTTAGTTGTTGAGCTTTGT
TCACTCTTTGTGCTCAAGATTGACGTGGCGACAGACTTCCAACATTGGTGGCTGCTACTGAGGGCCAAAGAGGAGATGTGTACTCCCACTGAATCTGAGT
GTCCACTGAGTGTGAAGGTGGATGGTAAAATGCATGAGTGTATCTTACACTCATACTTTACAAGAAAGTATGATAAATGAGGATGGGAGAGAAGCTACAA
CACAGGCACTTACTGATTAACTAAAATTTGAAGCTGTGAATTGCAGCTTCCCCTTTAGTGAAAGATGATATAAATAGCTTAGTTTTCTTCAAACTAGCAG
AGACTTTTTAAATGGATGGATGCTGATTTTTTTTTTAAAAAAAGAGCCCATTTCTAAGGCATGTTTTAAAGCAGGTGTCCTCAACCCCTGGGGCATAAAC
CGGTACTGTCCGGTGGCCTGTTAGGAACTGAGCAGAACAGTAGGAGGTGAGCGGCCAAGCATTACTGCCTGAGCTCCACCTCCTGTCAGATCACTGGCAG
CATTAGATTCTCATAGGAGCAGAAACCCTATTGTGAACTGTGCATACGAGGGATCTAGGTTGCATGTTCCCTATGAGAATCTAATGCCTGATGATCTGAG
TGGAACAGTTCCATCTCAAAACCATTTCCCTGCACCCTCCATTCACGKAAAAATTGTCTTCCACAAAACGAGTCTCAGGTGCCAAAAAGATTGGGGACCA
AAGTTCTAAAGGAATCAATCTCTTTGCTATTATTGTTATTATTATTGTTAAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACAGTCTT
GGCTCACTGCAACCTCTGCCTCCTGGGTTCAAATGATTCTCCTGCCTCAGTCTCCCAAGTAGCTTGGACTACAGGCACATGCCACCATGCTCTGCTAATT
TTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAAACTGGTCTCGAACTCCTGACCTCCAGTGACCCACCCACCTTGGTCTCCCAAAGTGCT
GGAATTACAGACATGAGCCACCACACCCAGCTCCCTTGGCTATTAGTGAAGTCTTCTTTTTCTTTTTTGATCACATCTATGCAGTATATTTGAGAGAAAG
AGGAAGTAGAGTGGGAATTTCAGCAGGGCATGGTGGCTCACACCTGTAATCCCAGGACTTTGGGAGGCAGAGGTGGGCAGATCACCTGAGGTCAGGAGTT
TGAGCCTGGCCAACACGGTGAAACCTTGTTTCTACTAAAAATTCAAAAATTAGCCGGATGTGATGGCAGGCGCCTGTAATCCCATCTACTCAGGAGGCTG
AGGCAGGGAGAATTGCTTGAACCTGTGAGGCAGAGGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGGGAGACTCTGTCACAAAAAAAAAAAAAAAA
AAAAAAAAGTATGGTAATTTCTCCATTAACTTCGATGCTGCTGTGGTCTTGATCCCCAGATCAATGCAATGTCCCGGAATGGCTTCCATTTGCCAGGCCT
ACCAACCTAACTGATGACTTTGAGTTTCCCATTGGGACATATCTGAACTATGAATGCCGCCCTGGTTATTCCGGAAGACCGTTTTCTATCATCTGCCTAA
AAAAYTCAGTCTGGACAAGTGCTAASGACAAGTGCAAACGTAAGTAACTCTGGAGTGGGAACCYCTCTGTTAGTCAAACATCTGTAAGATCTGATTCAAT
TTGTTCAAATTTTGTAACTGAGTTGCATACAACAATTAGTTTGCTAAGGTGCAATACATATGAGAATTATTCTTGTAGATCATACCTTGTTACTGCTTTG
AGTTCCTGGCACCTTCATTACAAGTTTATTTCATGAGAAACCGTCATTGCAGGACATGATTGAGGGAAAAYCCCCATTCACTGGGGGTCTCCCAYTTTCA
TGACTAAAATTAAGTAATGAATGACTTGGGACAAGAAAGAGAAGTGGATTAAATAACTAAAAGATGCGACAATCTTGGGCYTTGAGATCTTTGGATTATA
TCAGTTGAATTGAATTACAGATAATAACGAAGTTTACATTTTTCTGGGAGGCATAATATGGGGATGAAACAGATCTGAAAGGAAAGTTTTTTTTGAAAGG
GAGCTGATCCTGAGGCAGTCTGGTGAGTTTCCTCAAGGTAGCAAAATCTGTGGAACCATCAGAACTGCATGTGTTCCTCAGTAAGCTATAGGCAGGTTGA
GACCTTATGTACTAAAAAAAAATTCAGTTTACTCTACTTGGCTTCAAATTTCTGTTTCTTTCCTGTAGGTAAATCATGTCGTAATCCTCCAGATCCTGTG
AATGGCATGGCACATGTGATCAAAGACATCCAGTTCRGATCCCAAATTAAATATTCTTGTCCTAAAGGGTGAGTTGGCATCTCTTGAACCAACATCTCTT
GGTTCAAGGGTTCTAACACAGCCATACTACCTTCTAGTCACATCTCAGAAAGGACAACTAAACTATTACCATCTGCTCTTTAAAGRCTTCAACACAGGTG
CTTAGCTCCTGACTGAAATGGACAAAGGTATGACAAGATCAGGGGGAAAATCATCTGTATCCTTGCTGGAAACCAAGGCAGAGCATATATGAAAAGTGTG
GCATTCATTGGGTGGGAAGGAAGAAAATGGGGGAAGAGTATAGTCAAAGCACACAATCAGCCTTAACACAGATTAGACATTGCTCAAAGAAAGGGAAGGC
CATTGAGCAGCTGTGTGAGAGAAATCTTAATGGTCATAGCACARATAGTTTGCTAGGGCTGCTGTAACAGAGTACTCCAAAACAGGCGGCTTAATACAAA
CAAAGTTTTTGGAGTTCTGTTCCGGAGGCTGGAAGTACAAAATCAAGATATTGGCAGAGCCAGAGCCAGATCCATAGCCATGCTCCCTCCAAAACCTGTA
GGGATGGATCCTTCTTTGCTTCTTCCAGTTTCTGAAGCCCCAGGCCTTGGCGTGTGGCAGCAGAACTCCAGTTTCTGTCTCTGTCTGTCCTCACATGGCT
GTCTTCCCTCTGGGTCTCTGTCCTCCTATGCTGTTCTCTTATCTGTGCATGTCTGTGTCCAAAGTTCTTTTTTTTTTTTTTTGAGATGGAGTCTGGCTCT
GTTGCCCAGGCTGGAGTGCAGTGGCGAGATCTCGGCTCACTGCAAGCTCCACCTCCCGGGTTCCTGCCATTCTCCTGCCTCAGCCTCTTGAGTAGGCTGG
GACAACAGGTGCCCACCACCATTTTTTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGATTTCACCATGTTAGCCAGGATGGTCTCGATCTCCT
GATCTCATGATCCGCCCACCTCACGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCCAAAATTCTCTCTTTCAATAAGGACACC
AGTCATATTGGATTGCGGCCCACACTAACAACTTCATCTTAACTTGATTGCCTCTGCAAAGACCGTATTTCCAAATAAGGTCACATTAATAGGAACTGGG
GATTAAGACATCCATATATTTCAGGGGTGAGGGGAACATAATTCTCATGCATTGCTGGTAGGAATGCAAAATGGCACCATGACTTTGAAAGACATTTTGG
CAGTTTTGTATAAAAATAAACATACTCTTAACATATTATCCAGCAGTTATCCTCCTTGGTATTTATCTAAAGGAATTGAAATCTCAGGTTCACACACAAA
AAAATCTGCACACAGATGTTTATAACAGCTTTATTCATAATTGCCAAAACTTGGAAGCAATCAAGATGTCCTTTAGCAAGGGAATGGATAAACTGTGGTA
CATGCATACAATAGAATATTATTCAATACCAAAAAGAAATGAGCTATCAAGCCATGAAGAGACATAGAGGAACCTTAAATAATGAATCTTCTTTCACTAT
TACTAAGTGAAAGAAGCCAATCTGAAAAGCCTATATAGTATATGATTCCAACTATACACCATTCTGGAAAAGGCAAAACTATAGAGATGTAAAAAGATCA
GCAGTTGCCAGGGGTTAGGGAAGAAGGGGATGAATAGGCAGAGCACAGAGGATTTTGAGGGTAGTGAAACTACTCTGTATGATGCCATAACAGTAGGTAC
ATGTCATAATAAATTTATCCAAAGTCATATGATGTACAATACCAAGAGTGGACCCTAAGATAAACTATGGACTTGGGGTGACCATGATGTGTCAGCGTAG
GTTCATCAGTTGCAAAAAATATTTACCACCCTGGTGAAAGATGTTTATAATAGGGGAGGCTATCCATGTATAGGGGCAGGGAGTATATAGGAAATCTCTG
TATCTTCTGTTCATTATTGCTGTGAACCAAAAACTTGTGCTAAAACACAAAGTCTATTTTTTTTTAAACTACATAAAAGTAAATACACAGGCACATGTGC
ATAAACAGACACGCACACAGTCGAGTACAGGTAAAACAGGAAATTTGAACAAAACTGGTGGATCATACCTGTCTCAATATCTTGAGTTTGATGTTGCACT
ATTGTTTTGCAAAATGTTATTATTAGGGGAAAATTGAGTAAAGTGTACCTGGGATCTTTCTGTGCTATTCCCTACAACTGCATGGGAATCTGATTATCTC
AAAATAAAAWWWTTTTTTTTTTAAGTTACTACTAAATTTCCAAGGGSATGGGCTTCCTACCAAAGAATTGTATATTGTGAAATTAAATCATTCGAACTTA
AAACAATTCAAACTTATAGCTGGGAGAACTTTAAATTATTCTGAGCCATGAGAAGACTGTGGCTATGCAGCCTGAGTCATGCAGCAGGCAGCTGTAACTT
CTGCCTTTTTATCCTGTGAATAGTTAAAACCAAATGGCGCCAGAGATAAGACCCACTCAGATCACTACGCCTTTTCAGGGAGCAATAATCTTCCTTGGAA
TGTAGCAATATGTAACCAATCAAAGTGATGTAACTATGCATGGTCCCATATGGAAAATATAATCCTGCTAAAATTTCTCTGTCTCTGCCTATGTAAGTGA
TACCTTACGTCCTCCACTTTGGAATGCTGACCCCATTCATTTGGAGTTGGTGTCTTCCAGGTGGCTACCCTTAAGCTGTGTGCTCAAATAAACTCTATCC
TTAAATATATTTTCTGAATCTCATTATTTAARGTTAACAATGTGCTAACCTAAACAATTCACAGGATTTGTTTTTTATTCTCATTTTTTCCTAACCCAAC
CACCTGKTTCAAGGCACATAGATTAAGAAGGAAAATGGAAATGGGACTAATATCCCAGGCTTCACTGTCCCTCTYCGGGCCCTGGGGAGGAGACTCCCAA
AAGTCTAGACATGTTCACCCACATCCTGTATGTGGTTTCTGGAAACGAAATGATCATGGCWTTTCCTGAACCATGGCTTAACTTTGTGAATCCACAACTC
TCTCTTCCCCAGGAGATCCAAAAAGRTAGGGTAGGATGTAAAGGCTTCAATCTGTTTAAATGGATATGAGAGTCCCTGGCTCTCCTTAAAATAAGTAGCA
TGGATTTTGTCTCTCTGCCTTACTTCCTCACAAACATTCTGAATGAGAAAAGTTCAAACCATTATTTGTTCAAGTACTTAATCTACTTTGGGACACAAGT
TTAATAAATTAAAATATTCTTCTATCTGTTCCCTTTGATCAGTGAACATAAAGTTATCCTTTGACTCATATTTAAAATGTTCAGTACTACAACACTGAAC
AATAGTATGGAGGAAAAAAAATGCCAATTTAAGTTTGAACTTGCTTCACCATTCCTATCCCAACCCCCATGATTAGAAAATCAAAAAGAACACTTTGAGA
AATAACCTCAGTGGGGTCAAAAGCCAGAGTCTCCAGGATGTCTTGTTCTTAAGACAAATAGAAGGAGGTACAAATATAGGATTGCAGACTTGTTTACTTC
ATTTGTTCTCTATTTGTGTGCATGTGTGTTGGCAGTGCAATTGAGAATGCTTTCATTTTTGGTGGTGTACTAGAAGGCATTAAAAAACAAAATGAGAAGT
GGGAATTGAACAATGTGAATACATGGACACAGGGAGGGGAGCATCACACTCCGGGGCCTGTTGGTGGGTGGGGGGCTAGGGGCGGGATAGCACTAGGAGA
AATACCTAATGTAGGTGACCGGTTGACGGGTGCAGCAAACCRCCATGGCACATGTATACCTATGTAACAAAACTGCACATTCTGCACATGTACCCCAGAA
CTTAAAGTATAATAAAAATTAATTAATTGATTAATTAATTTTAAAAAACAAAATGAGTCCAGGCGCAGTGGCTCATGCGTGTAATCCCAGCACTTTGGGA
GGCTGAGGTGGGAGAATCACCTGAGGTCAGGAATTCAAGACCACCCTAGTCAACATGATGAAACCCCGTCTTTACTAAAAATACAAAAATTAGCCAGGCA
TAGTGGCGTGCACCTGTAATCCCAGCTACTTGAGAGGCTGAGGCAGGAGAATCACTTGAATCTGGGAGGTGGAGGTTGCAGTGACATTGCACTCCAGCYT
GGGCGACAAGAGTGAAACTCTMTCTCAAAAATAATAATAATAATAAATAACCAAAATGATATCGAAGTCACTAATAATTACAACATAATAGCTACTATAA
TGTAACAATGTGTCAAGTGTCTGCAGAAGGACCCACTGTTGTCTCACTATTCATTTGATCTCCATTTGGCACTGTTTCGTTGTTTGAATAAAGCTTTATG
CTGCCAGGTTTTCCTACATATTTGTAAAACAAAGTTCTCAGCCATTCCAATAACCATGACTGTTACTTGACATTGCTTCATTCATGTATAGTACTATCAA
GTTTGAGCCTACCCTCACTATGACTAGTTTGGCCCAACCATCTATCACAACAGAGGGTCTCAGGTGAAGTAAAATAAATGTTATAAATTCTTCCAAATTT
ATGGCACACTTTGAACAGTTTGAGACATACTAATTGAGAATTGCTAACTTTAACATTTTAAGTATAAAATAAGTGTTCAGTTCTTTTTGGTCAGCTTGGA
TTGCCTTTGGTTCTAGTTATAAATCATTTTCTTTCTTTCTTTCTTTCTTTYTTTCTTTTTTTCTTTCTTTTTCTTTCTTTCTTTCTTTYTCTTTCTTTCC
TTCCTTCCTTCCTTCCCTCCTTCCTTCCTTCTTTCTTTCTTTCTCTTTCTTTCTTTCTCTCTTTCTCTTTCTCTCTCTCTCTCCCTCTGACTCTCTCTCT
CTCTCTACCCCGCCCCTTTCTTTCCTACTGACAAGGTCTTGCTTTATTGCCCAGACTGGAGTGCAGTGGCATGATCAACACTCACTGCAGCCTCAATCTC
CCAGGCTCAAGCGATCTTCCTGCCTCAGCCTTCTGAGTAGCTAGGACTACAGGAATGTGCCACCATGCGTGGCTTTTTAATAAAAWTTTTGTTGAGACAG
GGTCTCACTATGTTGCCCAGGCTTCTCTCGAACTCCTGAGCTCAAGCAGTCCTCCTACCTCAGCCTCCAAACGTGCTGGGATTACAGGCGTGAGCCACTG
TGAATGGCCTACTTTGATGAATCTTACTGATAAAAGCCCATCCATGCATCCATATATTAATACTTATAAGGCATAGAAATACATACAACAGGACTRCATA
CACACATACATATGTATATATATGACAGCTTCCCTGCACTCAAGAAGCTTGTGTTGTCTTTTAAAAAAATGAAATTTATAGGAAAAACTGTAACTCATCT
TTGATTTATATAAAAATGTGTCATAAGATAATAAAAAAGAGAAATCCCATCCAACTGAGAAGGCATGGAAGAGAAAATGACAAAGTCCCAAGAATGTGAA
ATTTGGGAAGGTGATAGACAATTCTTTGACAAGTGGAAAATGTCCCTCTGAATTCTATAAGAGTGTAATCTCTGGAAGTAGTAATYTAATTGGGTAGTTG
ACCTGTGTATTTAGAATGTAACATTCCTTATTTTTTGCCTCTAGATACCRACTCATTGGTTCCTCGTCTGCCACATGCATCRTCTCAGGCAACACTGTCA
TTTGGGATAATAAAACACCTGTTTGTGACAGTGAGTTGAAATATGCATTCCTATTTCTTTTACCGATACATTCTAATTTTTCTCTGGAATAATAAAAATC
TTAACCGAATTCCTTCTGTGCAAWCTGTACTTCACATGGCTGAAGACAGCCATAATGTTCTCAGATATTCCTATGGGGTTCCTGGCAACTCTTTCTTTAA
GTTCTTTCTTATCCTGGGATGTGTCTTTTCTAATTCTAGGGGCCTAAATACGTAAAAGGCTTCAAACTTGATTTTACTTCAATAAACTTGAAATTATGTT
GGTTCTACCACCTCCAGTATAATAATCATCCTGCTTGGCAAATCAGTAAAGATTTTAAAAATTGATACTCTTCAAGGTTAGCGAAGCTGTGGAAGAACCT
GGACTCTCATGTACCACGAGATCAACACATCCTCTTGAAAGGCCCCATGCACTATAAACCTCAGAAGTGGGCATGTATTTTAACCTAYTTCTTARAATTT
RTACTTAGGAAATAATCACACACTTTTTAAAGYAGTTTGGTATAAACTTTTCATTGCAGCATTATTTATATTAGTTAAAATGTTAGAGTAACCTAAATAT
TTTAAACTATGGTTTGGAAATAATCTACTAGTAGGAAAAAGATGTGTTCAAATGACCATTAYAAAGAATTCCCTAAGAAACATRAAATAGCTATGCAGAA
TGAAAATAAGTATATCCATACACTGGCATGGTATTCAGCCATAAAAAATGATAGCATAAAGAAGCACTTAATGACTAGAAAGAGATGTGTTTTATGTGGA
AAAAGAATCAGATGAACGGCATATATGGCAAGATCTCATTTTATTAAAAAAAAATACACCTATGTAGTGAGGGCCAGGCTGAGGCTGAGAGAAATGCAGT
GTATAACATCTTTGTCTTACTCTTCTCTTTGGATAACTTGGGGACTTCTTTACTTTTCTTCTTGGTATTTAAAAATGTTGTTACTTTTACTAGAAAGTTT
ACGAGCTTCAGAATCTAAATTTACAAATGACATTGGTCACACATTTATTGCTGTTTATCCACTTTAAGAAACAGTTTTGCTATTTTGTAAAACAAATTGG
GAAACCTTCCATCTTATTTGAAATCTGTAATAAGATAACATGGAATTGGAATAGGAATTTTCTTGGAAATATTAAAAAAAATTAGTAAAATAGAAAAAAC
AAACAATATAATAATACACCTATACCTATATCTATATTTTTATCTCTGTTTCTASTTCTGTAAACTCTCTATACCCAAATCCTGGTAAATGGCTGTAAGT
CTTCTTGGAGAAGACTAGGGGAAGATTTACAATACATGCTTTTGACTGCGTAGCATGGTGCTTCCTCAAGAGAATCCAGTCTCCCATCCGTTGGTGCTGC
TCTGGGTCTATAAACTATTCAAGTCTAGGAATTGTTGATGAACAATGAACTTCTTTTGCAATAATTCAAGTCAGACTTCAATTCACTTGACCTAAATCTC
TTATGCTTATACAAATCAAATAACACCTTAGTCGGCTATCCCTCTACTTCGGTTTTAGAGACTCCATGATCAATTAGCCCAATAACAATGTTCTCTTCAG
TCAAATCATTCTGATTGCTGTTTCAGTTCTAATAGCCATTACAATTGTCTCTGGCAATTAAGTGCTGCCAATTGGACTCTGTCACCCTGAGCTCCTTTGG
TCCCCAAGTGAATTCAGAGAACCCAGTTCAATGGCAACAGTTCCCACTGTCATTCCTGGCCTACAGAGAATGAGCCATCGCAGAGGATGCTGAAACTCCC
CGTGTGAATGTTTTTCTCAAGCCTCCAGTAAAAGGTCTGTCTTCTGAACCCTCCACTCCTGCATGTGCCTCACCAGCTCTATCCAAGGATGTGACTTTCA
GAGTGGAATGGCTGTTGCTTAACCTCTGCCTCTCAAATATCAGGCTAATTTCTCATGCTGTAACCCTAGTCCAGAACCATACAGAGAAACTAAGTCTGGA
AAACTTAATTCCAAATTGGCCTGGTTGACACTGTACAAAACCACCAGATAATTATAATTTTATTTAACTCTTTGTCTTCTTTTCTTTCCTTCCCTCCTTC
CCTTCTGCCTGCCTGCTTGCCTTCCTTCTTTGCTTGCTTCCTTCCTTTCTCCCTCCCTTCCTCCCTCCTTTCCTTCCTTCCTCCCTCCCTCCCTCCCTTC
CTCCCTCCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCCTCCTTCCCTCCTTCCCTCCTTTCCTTCTCCTTATTTTCTTTCTTCT
TTACCACACGGCTAGGACCACCAGTATAACATTGAACATTGGTAGCAATAGATGTCATCCTTGTCTTGTTCCACATCTCAAAGGGAAGGATTAAAACATT
TCACCATTAACCTGGTGTTTACAGTAGGCTTTTTGTAGGTAACCATTTTTGAATTAAGGACATTCTCATAYACTCTTCATTATTAAAAATTTTTTGTCTT
TGAAACATGTTGAAGTTTATCGAGCACTTTAGTTATATGTATCGATGTAATCATATCTGTTTCTCTTTTTTCTGTTAATGTAACAAACTGTTTTGAGTAC
ATTTTTGAAAGGCAAATAATTTTGAATTTCAATTTTACATTCTTAAAATCAACTAAGTCAATACTTAATCATTTTTATATATAACAAATACCCTTTTATA
ATACATTTTATATGTTTCTATTAAAGTATAATTCATGTATCATAAAAGTTACCTTTTCAAATTACACAATTCAGTGGTATTTAGTATATTCATAAAGTTG
TATATTACGGTCTGAATGTTTGAGTCCACCCCAAATCCATATGTTGAAATCTTTACCCCTAAGGTGATGACATTAGGGAGTGAGGCCTTTGGAAGGTGAT
GAGATCATGAGAGCAGAGCTGTCACGAATGGGATTAGCGTCCTAATAAAAGAGGCCCAGAAGAGCTCCTTTGCCCCTCCTGCCATGGGAAGAAATGCTGA
ATCTGCCAGAGAGGTTGGTCCTGAACTCCTTAGCCTCCACAACTATGAGAAATAAATTTTTGTTGTGTATGAGCTAACCAGTTTATAGTATTTTGTTATA
ACAGCCCAAATAGACTAAGACATTGGGCAACCAGCACCGCCAATTAATTCCGGAACACTTTCATCATCCCATTCCTGTTTTAGAGATTAGACTGTAATTT
TCTTTCTTGTAATGTCCTCATAAGATTTTGATATCAAACTTATGACAGTCTTATAAAGCCAGCTGGTAGTGTTTCATATATTTGCTTCCTTGTAAGAGTT
TATATAAAATTGGTATTATTTCTTCTTTAAATGTTTAAAAGAATTCACTGGAAAAGCCATATAGCCTGGAGTTTACTTTGTTGGGAGGTCTTTTTTTATT
CCAACAATTTTCTTGTACCATGTAGACTTTTTGCTGAAGTATAACATATATATGTAGTAAAGTGCACACATCTTAATTATGCAGTTCAGTAGATATTTAC
AAATTAAATGCACCCATGTAAGTGGCACTCAGATTAAGATATAGAACATTATCAGCACCCCAGAAGCCTTCCTGATGCCCTTTCCCAGTTATCTTCCCAA
AGTAACCGCTATTCTGATTTATAACACTAATAGTTTTGCTGCTTCCTAAATTTTATAAAGGAATCAAAAAATAGGTACTCTTCTGTGTCCGGCTTCTGCT
CAGTGTTATATTTGGAAGTCACTTTTGTTGCTGCATGAAGGATGGTCAGTTTTTTTATTATTATATTGTATTTCACTGATGATCTTGAGTACCTTTTCAT
ATGTTTGTGAAGGGCCTATTCCAAACTTTTGTCTGTTATTTACTGGTTTGTCTATGATTTTATTGTTTTGTAGAAGTTGTTTAAATATTCTCTTGTTTTC
TAATAAATGTAACACAAATGTTGTCTTTCAGGCTGTGGCTTTTCTTTTTCTTTTTCCCTTCTTAATGATGTCTTCTGTTGTAGTAAGTTCTACATTTTAA
TAATATTCAATTTATGGGTCTTTTTTTCCAGTTACTGCTTTTTCTATTCTACTTAGGCAATTGGGCCAGGTGAGGTGGCTCACGTCTATAATCCTAGCAC
TTTGGGAGGCCAAGGCAGGAGGATTGCTTGAAGCCAGGAGTTCGAGACCAGCCTGGGCAACAAAGCGAGACCCTGTCTCTACAAAAAATAAAATAAAATT
AGCTGGGCTCAGTGGCACATGCCTGTAAGTCCCAGCTACTTGGGAGCCTGAGGTGGGAGGATCCCTTGAGCACAGGGGTTCAAGGCTTCAGTGGGTTATG
ATGGTACCACTGCACTCCAGTCCAGGTGACAGAGTGAGACCCTGTTTCTTATGGATAGGCAATTGATCTAATATCATTTATTAAATGTTGCACCATGGCC
ATAAGTCAGGTGACCTATATGTGGATGTCATTCCAGGGAGGTTCTGTTCCAYTGGTTTATTTGCCATACATTGTGTTTTTGTTTGGTTTAGTTTTTTGCC
ATACTATAATGGCAAAAAAAACTGTAGCATTACATTAAGATTTTAATTACTATAGCATGACATTAATATTTGATATCTGGTGGCATATATCTTCTAACTA
TGTGCATCTTCAAGATTTACTTGGTGATTCTTGGCACTTTGCATTACCATATAAAATTTAGAATCAGCTTGTCAATTTCCACAAAAAGAATCCTACTTGA
ATTTGTATTGAGTTTCTATTGACTTAGTACAWCAATTTGTAGACATTAACAAATTTAGTTTTGAAGTTTAAATTTATGAACATGATATATCCTCCCATTT
TTGAAGTCTTCTTTAATTTCTTTTAAAAATATTTGTTAATTTACCTTATAGAAGTCATGTACATCTTTCATTATCTTTATTACTACATATTATTTTTAAA
ATTTTATTCTCTATTTACTTCTTAGATATGCACTGGTTTCACCTCAGCTCCAGCAATTTTATTAAATTTACTTTTAAATTGAATAGTTTTTCTGTATATC
TTTTGAAGTTGCTGCATAATTATGTCATCTATGAATCTGACAAAGTTTTTAAATCTTTTCCTTTCTTATGTCTTTTGTTTATTTCATCTGCTTTATTGCA
TTGGCTAGAACCTCCAGTACAACATTGAATAGAAGAGATGATACAAGCCTTTTAATGGTTATCACAAATCATGATGTATGCTGTAGATTTTTGTATGATA
TCCTTTATTAGATTAAGGAAACTCCCCTTTACTTCTGATTGCTAAAAGATTTATCATGAATGTTCATTCTAATTGATCACTCTGCATGTATTGAGATTAT
CATGTTTCTTTTTCACTCTGTTAATGTAATATATTACATTGATTGATCTTTAAAGGGCAAACAAACTCTGAATTCCTAGAATCAACCTATGTTGCTTGTG
ATGTGTTATAGATGATTATCCTATCWATGAAATGTGTGTGAGTGTGTGTGTGGTGTGTGTGTGCAGGATTGCTCATATTTTTATTGTAACGTTGTAACAT
TGATTTAATATTTAAAATCAGTCAAGGTAAACCTCACTTTGATCATTGTATCATCCTTTGGAAATATTGCTGGATTCAGTTTCATAATATTTTGTTTAGA
AAATTTGCATTTATGTTCTCAAGAGATCTTTGGTTATAATTTGGTTTTATTTTAATGTCCTTATCAGGTTTGGGCATCAAGATTATGTTGGGCTAGTAAA
ATGTGTTAAAAATTGTTTATTTTTTTCTAGTCTCCGGAATAATTTGTGTAACATTAATATTATTTTTCCTTATATGTTTGGAAGAATTCAGCAATGAAGC
AATCTGGACCTGAGGGTTTGTTGTTGTTGTTGTTAGGTTTTAAATTAGTGATTCAATTTCTTTAATAGCTATAAAAGTATTATTTTATATCGTATTGAAT
TAGTTTGGGTAAGTTATATTTTTCAAGGAATTTACTCATTTTATTTAAATTTTCTAGGTTATTAGCATAATGCTATTTATTATATCCTCAGAAATCCTTT
GGATGTCTGTAAATTCTGTAGTGGTACTCCTATGCTAATTAATTTCTGATATTGGTAATATCTTTTTGCTTCTTTTTCCTTAATTAGTTTTACTGGGGCT
TTATCAAGTTTACTAAGCTTTTCATATAAACTACTTTTAACTTTCTTGTTTTTTCTTTAAAGTGTGACTATTTTCTCTTTTACTGATTTCTGCTTATTTT
CTTCTACTTTCTTTAAGCTTTGTGTACTCCTCCACTCCTAAATTCTTGATATTGATTAGATAATTTGTTTTCAACCTTTATTTTTCTAATATATACATTT
AACCTATACATTTTTCTCTAAAACTATTTTACTTCCCACAATCTTTATATTTTTATTATCATTGTACATAAAAGTTTTCTAATTTACCTTTTGATGTCTT
CTTTGACCCATAGGCTATTTAGAAGGGCATTGCTTAATTTCTAAATATTTGGAGATCTTCTAGTTATCATTCTTTCATTAATTCAATCATTTGAGACATG
GTTTATGGCCCAGAATATGGATGATTTTGGTAAAATGTTACATATGCACTTGAAAAGACTGTACAGTTATTTTGTTTCATTTTCTAGAAATGTCATTTAG
GAAAATGTGGTTTAGAACAGACTTTTTTTCTCCCTCCACTTGTTCTCTCAGTTATGGAGAAGCATGTGTAAAATATCTGTATTAGTTTCCCAGGGCTGCT
GTAACAAATTACCACAAACTTGGTGGCTTCAAAGAAGAGAAATTTACTCTCTCAACAGTTTGGAGGCCAGAAATCCAGTTAAGATGTCAATAGGATTGGT
TCCATCTGCAAGCTGTTCTGTGCCTCTCTTCAGGCTTCCTTCCAGTGGCTGCTGGCAATCGTTGATGTTCCTTGGCTTGTAGATGCATCATTTCGTTTTC
CGCCTCCATCTTCAAGTCGCCTTCTCCTCTGTGTGTGTCCTTTGCTCTTCTGGCTCCTGTAAAGACACTGGACATGGATTTAGAAGCCACCCTGGCAATC
CAGAATGGTCTCAACTCAAGATCATTAATTTGATTGTATCTACAAAGACTCTCCAAACTGGGTCACATTCACAGGTTTCAGAGATTAGGTTAGGACACAG
ATATTTTTTAAGGAGGACAGTGGTTATTCAACCCATTACAATCCCCAACTATGACTATGAATTTGCCTGTCTTTCCTCTTTGTTCTAGCAATCTTTAAGC
AATCTTTACTTTATGTATTTTAAACATGTTATTAAATGCATGTTTAAATAATTGCATTTGTTAAATTTTTTGTTTATTCTTTCTGCTGAATTGACTGTTT
TATCATAATGAAATGTCTCTCTTTACCTCTCATAATACTTCTTGCCTTAAAATCTACTTTGTACATTAATATAGCTATATCAGCTTTCTTTCTTGTATTT
ATATTATATATATTTCAAATCTTTTACTTTCAGCCCTTCTTTGTCTTATATTTAAAGCTTGTCTGTTATAAACATCATATGGTAAAGTTTTGTTGTTTTA
TTCAGTCTTTCTTTGTTGTTCATTAGTGTTTGAAACATTTAAATTTAATAATAAAAAGTTAAAATTATAAATAAATAAATTTAATCTAGTTACTGATAAG
TCTAACTCTTGGTTATTTGTTTTCTATTTGTTTCATGTGTTTGTGCCTTTATTCCTCATTTCTCACATTTTTGAATTCATCAAGTATTTTTATTATTCTA
TTTTCCCCAGTAGCTTTTAAGTTATATTTCATTTTTTATTCTTAAATCACTACTCTAGAGACAGACATCCTTGATTTACTATAGTCTACTAAAATTGTGC
TTTTACCAGTCTCCAAACAACGCAAGTACCCAAACTATTAATATTTAATTCCATTTGTGTCCTCCTCCTCTTTTTGTATTGTTGCCATACGTTTTGTAAA
AAGAAAAGCTTCAGCTGAATTAAATTTAAAAGAGTTTAATTGAGCAATGAACGATTCGCAAATCAGGCAGCCTTCCAAGCCAAAGTAAGCTCAGAGACTC
CTGCCCAGCTGCGTGGTGGAAGAGGATTTACGGACAGAAAAAGGAAACTGACGTACAGAAAACAGAAGTGAGGTACAGAAACAGCCCGATTGGTTATAGC
TCAGCGTTTGGCTTATTTGAAGACAGTTCAAACAGTTAGCCACATTTGATTGGCCAAAACTCGGTGATTGGCATAAGAGTAACCTACGGTCTGTTTACAT
CTTCACTCGTTATAATTCGCAGTTTACAGAGAAACCTTTAGGCTGAGCTTAAACTATGTAAGGCTTTAGGCTAAACTTGATTTAACAATTTACATATGTT
ATATATTTCAAAGACGTAATTGTTGTTGTTGTCTTTATAAAAATAATATCTATTTATATTTACACCGTAGTGAATTCTTAGAATTTTTATGTTGCCTCAG
CATCCATTTAGAATATGTTTAGCTTTCTCATGCCAGAAGCAGGGCTTAGTCACCCTTAATGCCCTTTCTAGTTCTGTACCTCCTCCCAATTTTGCAACGT
GGTCGAGCCAGATATCTGCTTTATACAACTGCCTCCTGGTGACCACCTCTCCATGGGACAGCTAGATAAAACCTACTTGACTAGCGTCCCTGCCCTCTGT
GCCCTGCATGGACTTCGCAGTTATGCTGCCGTGACCACCTCTCAGTCGCAGCATGACTGCCTGGAACATGTGCCTGCTTTCTTTAAACTCACCAATTAGA
ACTCCCCATGGGAGATACCTTGGCTTGTAGATGCAAGATGCTGGGTCATACTCTGGTCCCCAATAAAGGCATTGGCCGATGGATCCCCTTCTCTCTCTCT
CTCTACGTTCCTCGCACTGACCAACCTCTTTGTGATCTTCAGGCGTGCCATACCCCCAGCCCGTAATAAAATCTTTACTKCCATCTTGTGTTTCTTGTAA
TGACTGAAGAGGTTTTCTCTATCATAAAGATCCTAAATGAAAACATACCCGCATATGAGCTCTTTCTGGTGTGTTTCCTTCTTATTGCAATTCTATCAAT
CCTATATGAAACTATTTTCCTTCAGCCTGAAAAAGTCTCTTTGGCATTTTTGTATTGTAGATCTTCTGACAACAAATTCTTTAAACATTTTTCTAATTGT
GGTTCCTTTGAAGGTTATTGTCTATGTTTCCTGCTGCTTTTATGGATTACACTTTAAAATAGATTTTTTACAATATTACTATGTTGTGTCTAGGTAAGTA
TTTCTTTGTATTGCTTGGGTTTATCTTGTTGCACAACTGGAGTGCAGTGGCGCGATCTCGGCTGACTGCAATCTCCACCTCCCAGATTCAAGGAATCTTC
CCACCTCAGCCACCTCGGTAGCTGGGATTACAGGCCTGTGCCACTATTCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCAACATGTTGGCCA
GGCTGGTCTCAAACCCCTGACCTCAGGTGATCTGCCCACCTGGGCCACCCAAAGTGCTAAGATTACAGGCATGAGCCACCACGCCAGGCCTGTATAGCTT
TTTGAATCTGTAATCTTGCATCAGTCTTGGAAATTTCTCAGTTATTACTTCTTCAAATGTTGTTTATGTCTATTATCTCCTCTCATGGCAGGACTTCACT
TAAACATGCTAGGCTTTATTCTTCTATATCTTGGTCTGTATGTTTAACATGCATTTAAGGAGTTTTTGTGGACTAATATATGACCACTTTTACACAGATA
TCATGTTATTATATCAAACTTAGATTTGAGTAAATGAGTTGATAAGTTTTATACCTCTTGTGTGTTGTGAAATATTGAAATTACATTTGGAAGCATCTGT
TACTTGAAAGTTCAATAGAGCTTATCTTTTTTTTTTTATTCTTACATGTTTGTTGGGTAATTCTAGCTTTCTAAATCTTTTTGAATGAATATTGGCAATT
TATRTTTCCATTTATATCATTTAGATTTTCAAAATATTTAACCCCCAGTAGTCTACAGTTTTATAAATATTCTCATATTCATAAAAATGTTTAAATTCCT
TTTCCTACTGTGTATATTTGTGTCTTCTCTCTTCCCTTATACTTTATCTTTTGGCAAAGGTTTTTATATTTTATTTTTCTAAAAAGGCTAACCTCAGTTA
TTAACAAAAATGCAAATTAAGAAAGCAAATGAAAAGAGTAGGAGAACACTGTATAAACTCTATAATACTATAATCAAAGGGCTATTTAAAATGAAAAGAA
TGTGGATGGAGTTAATAAATGCATGCAAATATTATAGGAAATCATATAAGTAAGAAAGGCAGGACACATCATATTATCCCCACCAAAATTACAACTTTGT
AAAAATGTACCTACGTGTTAGCAAAGAATAAAAGCAAATAATGAATGTAAAAATAGTTACAGTTTAGTGACTCGTGAGATTTTTGTCATTCATTATTTAA
ATTGACTGTGCTCTTCCTTTCCCAGGAATTATTTGTGGGCTACCCCCCACCATCGCCAATGGAGATTTCACTAGCATCAGCAGAGAGTATTTTCACTATG
GATCAGTGGTGACCTACCACTGCAATCTTGGAAGCAGAGGGAAAAAGGTGTTTGAGCTTGTGGGTGAGCCCTCCATATACTGCACCAGCAAAGATGATCA
AGTGGGCATCTGGAGTGGCCCAGYCCCTCAGTGCATTATACCTAACAAATGCACGCCTCCAAATGTGGAAAATGGAATATTGGTATCTGACAACAGAAGC
TTATTTTCCTTAAATGAAGTTGTGGAGTTTAGGTGTCAGCCTGGCTTTGKCATGAAAGGGCCCTCCCATGTGAAGTGCCAGGCCCTGAACAAATGGGAGC
CAGAGTTACCAAGCTGCTCCAGGGGTGAGTCTGACTGAGGCCTAGAAGGGCCCTGCCAGTGACATGCATTGCTGTTGGATCAGGAGATTAGTATTTGTTC
AGGGGGAGGGATTTGTGCTGAGCAGGGTCGAGAAGCAAATTTTCTAGGTAGTGAACATGAAATTCAGAAGGTGTGTGTACATGCAGATGTGCTGAAATGA
AGAAGCAAAGCTAAACCTGGACAAGGAACGTGATGTTTCTTTGGAGTTCTTATAAGCAAATCTATTAATTACCTTTGAGTATAATAACTGCTGATAGAAA
ATGAGTGATTCTTCCAGCCAGGCACCATAATACAGGCTACATGTGAATTTTAATCCTTAAAACAAAGTTATTAGGTAGTTACCAGTTTTTCTAGGTTTGT
CTGTTTTGTTTTGCTTGAGACAGGGTCTTGATCTGTCACTCAAGTTGGACTGCAGAGGTGAGATCATGGCTTACTGCAACCGCCACCTCCCTGGCTCAAG
CAATTCTCCTGCCTGAGCCTCYCAAGCAGCTGGGACTACAGGTGCATGCTACCACRCCTGGTTAAATTTTTTATATTTTTTTTATAGAGATCGAATCTCA
CCATGTTTCCCAGGCTTGTCTCGAACACCTGAGCTGAAGCAATCCACCCACCTGGGCCTCCCAAAGTGCTGAGATTATAGGCATGAGCCACTGTGCCTGG
CCTCTATGTTTTGCAGAGAAAATGTGCCTTAGAGAAATCGGATAACTTTCTAAGATATTAACTTGCAGACTGAAGACTGAAAYGCAAGTCCACCCGACTC
CAGAGACTTGGCTTTGCTAGTCAGCATCCAGTCAGGAAATCAAAACTTACTCTAGATACTTTCAAGGAGGGAGGGATTTCATGCAGGCTGTATTAGACTC
TTCTCACATTGTATAAAGAACTACCTGAGACTGGGTAATTTATAAAGAAAAGAGGTTTAATTAACTCTCAGTTCTGCAGGCTATACAGGAGGAATGACTG
AAGACTCCTCAGGAAACTTACAATCATGGTGGAAGGCAAAGAGGAAGCATGTATATTTTCATATGGCTGGCAGGAGACAGCAACTAGGGAGGTGCTACAC
ATTTTAAACAAGCAGATCTCAAGAGAACTATATCACAATACAGCACTAGGGTGATGGTGATAAACCATTAGAAACCACCCCCATGATCCAGTCACTTCCC
ACTAGGCTCCTCCTCCAACACTGGGAATTACAATTTGACATGAGATTTGGGTGGGGACACAGAGACAAACCATATCACAGCTAATAGGTCACAAAGATGT
TAGAAGGGCAGGAAAATCAGGCAGCCTCCCTAGCAATAGGACGAAGGCAGAGTTACCAGAGATCAGGGAGCTGCTGTGGCTCCCAGTCTACACAGCACAG
GAGCCTGGAGGGATGCTCAAGTGGCCAGCCCCTCCCACTGAGCAGGCAGCTCCCTGAAAGCTGCTAATGCTGCAGGAGCCACCACAGCTGCCAGAATGCA
GCTGATATTGCTGGAGCCAAAGTCATTGGCATCGCTAGAATTGAAGCTGTAGCTGCTCACTGAAGTCATCTATACTGCCACTGCCTGAGCCACCTCTAGA
AGTAGAACAGACTCTGCCATCATCCTGCTTTTTAATTTGGTATATATGCCTCCAACTGGAAGAACCTAACCAGAGCCCAGCTATCAAGGAAGACAAATGA
TTATAGTTTTAAGGTTTCCATTGCTAGCAGCCAAAAGACAGTGCAGAAGTGTGAGGCTAGGGGCCAACAGAAATTTAACCAGCACAGCACCTCAATATTA
CATCACCAGGCATTGATTAGTCAAGGGAAACACTGGGTGATGAGCCCTGAAAATGGACATTACAGCATCAGAGTATTTACAAACTCCCTAAAGAAGTCAT
TTTTCTAGTCCAATCCCCCATTTGATGCTTGAGAAAGCTGAAGTCCAGAAAAGGGAACTGATCTGCTCAAAGACAAACTGAAATTATTTTTTCCATTTTA
TAACAGTTTTATATAATTTAGTTGAGACCTAAATGTGTTCTGACTTCCTGAGTTCCGATCAACTATATTAAGAGAGAGCCAGCGCTGCCCTTACAATATG
TTGTGTGAAATAGACACTCTCATTATGGTGACAGTAGGTCTTTTAGATTTTGTTCGACAGTTGCCCACCTTCTCACTGGAGTGAAATGAATGACTAGGCA
GCACCTTGCTGCATAGCATGAAGGGAGGAGACCCATAGTTCTTTACCACCCTATGTCAGGTGGCCGCTGAGAGAAGACTTGAAAGGAGAAGAGAATAGAT
GTATGTTTGTTGCACCAGTGTGATAGGTGATGGAGGGACCTATTAGATGAGACATGGGCAGGGGCACTCCTTTATGGCCTAAAATGCAAGACKAAATTGG
TGATGCCTTTCTAGAAAGGAAGCATGGAGATATAAAAATCCATCATCCCTCCCAATTTTGTACTGGGTGAACAGTAATTGGAAGCATTCTAGAAGGAACT
GTCCATTGTGAAATCTTAGTTGCATACTTTAGATGTAAAACAATGAATTGGGGATACCTCTGTTTTAGTCACAGTTGTGCAATGTGTCAGTTCTATGAGT
GATGGCAAGACATCTTCCTCGCCCTGTGTATTTAGTTTGTTATCAATGTAATAAGGCTGTTATTCTACCTTTTTTGTTACATATAGATTTGTAATTATTA
TTCCCTTGGCCAGTTTAACAGTGAGAGAAAAGTTATTTTCACACAATTAGCAGTACTTTGTTTCTCTCTCCCCAGTATGTCAGCCACCTCCAGATGTCCT
GCATGCTGAGCGTACCCAAAGGGACAAGGACAACTTTTCACCCGGGCAGGAAGTGTTCTACAGCTGTGAGCCCGGCTACGACCTCAGAGGATCTACGTAT
TTRCACTGCACACCCCAGGGAGACTGGAGCCCTGCAGCCCCCAGATGTGAAGGTGACTAGACTCTTATCTGGCTTGGTATTTTTAGCTTGCGTCTTTATT
CTCCACATGCCAGTTATTTCTGTTCGTTTTTCTTTTTTTCCAGTGAAATCCTGTGATGACTTCCTGGGCCAACTTCCTAATGGCCATGTGCTATTTCCAC
TTAATCTCCAGCTTGGAGCAAAAGTGGATTTTGTTTGTGATGAAGGGTGAGTATGAGCTTGCCTGACCTGCTGGACATTGAAATTGGGGTTAGGAATTAG
TCCAAAAAGGGGAGATTTGATGTGGCTTAAAAAAAGACAGACAGACASACACACACACACACACACACAATCAGAGAGATGAACTTTTGAAAGTATATAT
AGGAAGAAAGGAAAGACACATATGGAACTAATAAYATGAGATATGAAGAGGACACTGGGCCATATATTAACTGGCAAATTCAAAGACAAGTATAATTACT
TGTTATTAATATATAGGTAACACAGTAAGTTTAAAAAATCCTATTTTCAAAATTTTAGAATTTCAAAACAGCAAATAGAATATGAGTAATTTAAGAGTCT
CAGAAAAAATTGCAAGTAACAAAAAACTTATTCTAAAGAGCTAGGATCATTTAAGAATCATTTCAGTAAATTCTTTAAACCATCAGTAATGAAATTTGTA
ATAGGACTGAAAGTGTAAAAATCAGCATTTTAAAAAAATCCAGTCATATATCGTCTGGCTAGTCATGGGCTCTGGGCTCTGAGCTGGGGTTCTGATGGCT
GCTGTTAATATTTCCAGCAAGGTCATTACCTTGTTTATGTCCACCTAGTGCTCTTCRCAGGGTGCACATCTCTACACGGGAGCTGACCAGCATGGGCAAC
AAAGCACCTGATCCCAAAATGTAACACAGAATCTTGGCAGGCTCCAAAAGCCAGCACCCAGTAAGAGTTAGGAGGGCATCGGGGCCCAACAGACATTGAG
AATTTTCAACAATTGCGTACAAAAATTATGTCCTCTCTTCTTTCCTTTTTCCCCTAGAATATTCGTGCTTACTCTTCAGCAGCCCAAATTGCCCTTTTGA
GCCTTCTTCACGCCATCACAGATGTGGAGATGAAAGGACAATCTCTGTTCTCTCGCCAGCTATTTCCCACTTTACCACTCCAAACTGGGAGCTGTTTTAC
TTGCTGTTCCAGGGTCAGAGTTACGAAGGCATTGCATTAGAAGACTGGGTTTCTAATAATGACAATGAGTAATCAGTGAAACTCCAAGCCTGGGTCCTGG
GTCAAGGAGATGGTGGCYATTTTGTGACCACCTTTTTCAATTCAAGCAGGACTATCATGTGACCAAGCTACTGCATTTTGCCACTCTATATTGCTCCCTT
CTGGAGGCTGTGATTTTTCCAGAATAACGTAGYCTGTGCAACTCTGCCACCTGCTGGCCTCAGGTCCTCAAAATCCTGAAATTGGGGCTGGGCCTTAGAT
TGTGAACTAAGTGTCCTCTTGGCTGAAACAGCTCRCTATTCACTCCTATTTTCTTCTTTAGATTTCAATTAAAAGGCAGCTCTGCTAGTTACTGTGTTTT
GKCTGGAATGGAAAGCCTTTGGRATAGCAGTGTTCCAGTGTGTGAACGTAAGTAATAGGAGTAACATTTCAGGCCAATCTCTCCYCTTCATCTGTTCAGT
ATTTGACCCAYGACCTCCCCTAATGTGGTTCTTCAATTTTCTAATCTGAATTATTGATTTGAAAATTTCTTATTTTAGTAATGTTTGGTTGTGAATCAAT
GTGTACATCACCTGTCTTTGGAACTATCTGATCTGTCTCTGTCATTTTGTATTCTATGTTCTMTTGCGATAAATCCTATGGTCGTGTGCTTCTAGGTCAG
GAGAGATTAGATAATGTGAAGCTTTTACAATTTGCTTTCTTTCTCTACTTCTTTTCTTTCTTCTCTTCTTTCCTTCCTTCAGTTCTTTTTTCCCTTCTTC
TCTCCCTCTCTCCTTCCTTCTTTTTCATTTTGTTCTCCAATCAATGTGCAGTCAGTCTACAATTTGTGTATATATTTGATAATACTCAAGTATCAAACAT
GCCTTTATTTAATCAATTATTTATTGATCACATACTTTGTGCCTCTGTTCATCTAGATACTGGAGTTATAGCAATGAACAAGATGAGTGAAGTCCCTGTC
CCCATGTTGTTTTTACTCAGGTRGGGAGAAGGACAAGGAAAAAAATAAGCAAATTAAATGCTACGGATAATAGATCAAAGCAATGAAGAATGAGGGAAAA
GTGGGGAGTAACATTAGACAGGGTGAGCAGTTTGAGACTCCATAAATTCTCAAAATATGTACCTAAATAATTTATGCTGAGAGATTCATAAATAATAAGT
CATTTTTTTAAAATGAGCCTCATATGTTCAATAATCAGTAGACTACTGATTTCTCCTAGTCTACCCATTTATAATTTCCCCAATAGAAGATAGAACTTTG
CTTCATTTCTTGATTCTAATGATTGGAAAACATGTTTCTTTAGAAAACCATGAAATTTTACTAAAATGTTTATGTTCTTAGAAATGTACTTGGACATCTT
ACAGTGCTTTTTAGAGTAAAATTTTGGAAGAACATAACTTATATAGAGATGCTTGCTGTCTAAGAAATCCAGTGCTCCTTGAGGCAGCATGACAAATGTC
TGTTCTACTATCATGCATGAAAGCTCATTGATTGGACTACTCAAGCTTTCTCTTATTTTTCATAACTCTGGTAGTTAAAATAACTTCTTCCAAATGCCAG
TTCTAATGAAAAATGCCAATTAGAAATGAGGAAGAGACTATTATAAACAAATCAGTAGATGCTAGAAAGGAGTAACAACTTGAAACCTGACCCAGAAAGT
AAAAAAAGAAAATAAATCATCAACAGACSTTGACATTTTCAAAAGCAAAGCAATCTGAATCCATTTGGAGTTTTTTATAATGGCCTGAATATGTTTCAAT
TCACTGTGGCAGGGCTATTGTTATCACTGAGACTGATGATCAATATCAGTAAGTAATCAGTGAAAGTTTTCACCTATTTAAGATGATTAGCACACATATA
TACATTTGWGAAATATTTCCCAAGAACGTAGGCYCCTTCCTCAGCACTGTGTCCCCAGGATCCTGATGAGTGGCTGACACAGGATAAGTGCTAAATTAAK
AAAKATTGACTAAATGAATGAGTAACCCTTCAAAACGGTTATTTTTCTTCTTCAAATGTTTTGCTACTTCATTAAAGTTGTAAAGTAAGTAAACTTGCAY
TGGATCTTTCCCATGTCTGCAAAAGCTTCTTATTGAATTTTTTCAATTGTGGGATAAGAGAAACCTTTTTTCAAAAGCGTTCAGATAGGTGGATGTAAGA
GTTTTTCTTGCAGGTCGTCTTTGATTATTGCTTGAAATGCTCACTTCAYGAGAATGTTTCAAGGAATATTTGTAGAGAAAATCTTCATTCCTTATGGGAA
AATAAATAATAAATGACTCTATATCAGGAAATAAARATTGTGTAGGAAGACAAATTCTGTTTGAATAACTAGGTGGGAAGAAATCCTTTGAAAACTTTAT
TGGTAGTAAATAATGCCATAAATGACCTTTACATTTTGATAAGGGATGCAAGGTCTCTACACAGATCTAAATCTAGATCTAGATAGATCTGGAGGGAAGG
TCTTTTTGAAAGTGGGGCTTAGTAGGTGGCTGATCCTGAGGCTCTCTGATGAGTTTTCTCAAGGTGSCAAAATCTGTGGAACTATCAGAACTGCGTGTTT
TCTTCAGGAAGCTACATGCAGGTTGAGACCTTACGTACTGAAGAGAGTTCAGATTACTCTACCTGGCTCCAAAACATTTTCTTTCCCACAGGTAAATCAT
GTGAAACTCCTCCAGWTCCAGTGAATGGCATGGTGCATGTGATCACAGACATCYAKGTTGGATCCAGAATCAACTATTCTTGTACTACAGGGTGAGTTGG
CAGCAACATCTCTTGGTTCCAGAGTTCCAGCACAGCAATACTACCTTCTAGCCACATCTCAGGAAGGAAACTAGGCTGTTGCCACCTGCTCTTGAGAGGT
TTGAACACAGGTATTAACTCCTGATTGAAATGAACAAAGATAGGAGAAGATTAGGGGAAAAATCTGTGTCCTTGCTGGAAACCAGGGCAGTGCACACATA
AAKAGTATGCCGTTCACTGGATGGGAARGAAAAAAAATTAGGAGTATAGTAGTCAAAGCACACAAACAACCCTAACCCAGAGTAGACATTGCTGGAAGAA
AGGGAAGGGCATGTAGCAGCTGTGTGAGAGAACAAATCTTAATGATAACAGCATGATCGCTTGCTAGGGCTGCCATCAAAAAGTACAGGCCTTCCTCATT
TTATTGTACTTCACAGATGTTATGCTTTTTACAAATTGAAGGCTTGTGGCAACGCTGCAACAAGCATGTCAGTTGGCATCATTTATCCAACAGTGTGTGT
TGACTTCGTGTCTCTGTGTAGCATTTTGGTTATTCTCACAATATCCCAGAKGTTTTCATTATTATCATGTCTGTGATAGTGATCTGTCTTCAGTGATCTT
TGATGTTACTATTTTCATTGTTTGGAGTCCCTACGAACTGCACCCATATAAGACAGAAAACTTAATAAATGTGCATGCTTTGACTGCTCCATGGACAAGA
CATTCCCCTTCTCTCTCCCTCTCTTCAGGACTCCCTAATCCCTGAACACAATAATACTAAAATGAGGCCAATTAATAGCCCTACAATGGCCTTTAAGTGT
TGACATGAAGGGAGGAGTCATGCATCTCTTACTTTAAATCAAAAGCTGGAGATGATTAAGCTTAGTGAGGAAGATATGTTGAAAGCCAAGACAGGCCAAA
AGTCAGGCCTCATGTGCCAAACAGCTAGCGAGTTGCAAAGGCAAAGCAAAAGTACTTGAAGGAAACTTAAAGTGCTATTCCAGTGAACACATGAATGATA
AGAARGTGAAACAGCCTTATTGCTGATATGGAAGAAGTTTTAGTGGTCTAGATACAAGATCAAACTAGACATATTTCCTTAAGCTAAAGCCTAATCCTGA
GCAAGGCCCTAACTCTCTTCAATTCTGTGAAGGCTGACAGAGGTGAGGAAGCTGCAGAAAAAAAGCTGGAAGCAGCTGGGCACTGTGGCTCATGCCTGTA
ATTCCAGCWCTTTGGGAGGCAGAGGCAGGTGGATCACCTGAGGTCAGGTGTTCAAGACCAGCCTGACCAATATGGTGAAACCTCATATCTACTGAAAATG
CAAAAATTAACCAGGCGTTGTGGCGGGTTGCCTGTAGTTCCAGCTACTCGGGAGTCTGAGGCATGAGAATAACTTGAACCCGGGAAGCAGAAGTTGCCGA
GATTGTGCCACTGCACTCCAGGTTGGGTGATTCCTGAGGTTTAAGGAAAGAAGTCATCTCCATAACATAAAGGTGCAAGGTGAAGCAACAAGTGCTGACA
TAGAAGCTGCAGCAAGTTGTCCTGATGATCTAACTAAGATCATTGATGAAGGTGTTAAAATAAATAGCAGATTCTCCATGTAGACAAAACAGCCATCTAT
TGGAMCTTCATAGCTAGAGAGGAGAAGCCAATGCCTGGGTTCAAAGCTTCAAAGGATAGGCTGCCTTTTTAGGAGCTAATCTCGTTGGTGAGTTTGAGTT
GAAGCCAATGCTCACTGACCATTCTAAAAGCCCTAGGGCCCTTAAGAATTATGCTAAATGTACCTTGCCTGTGTCTATAAATGGAACAACAAAGTCTGAT
GACAGAGGTATGTTTGCAGCATGGTTTACTGAATATTTTAGGCTCACTGTTGAGATATAGTGCTCAGAAAAACAGATTCCTTTCAAAATGTTACATACAG
CTCATTGACTTTGTATCCAATCAGGCAAGAGCTCTGATGGAGATGGACAAGGAGATGCATGTAGTTTTCCTGCCTGCTGACAACAGCAGCCATTCTGCAG
CCCATGGCTGAGCAGTAATTTTGACTTTGAAGTTTTAGTATTTAAGAAATATATTTTGTGCCAGGCATGGTGTAATCCCAGCATATTGGGAGACCAAGGT
GGGCGGATCATGAGGTCAGGATTTCAAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTATTAAAAATACAAAAATTGGCCAGCATGGCAGAATGTG
CCTGTAGTCCCAACTACTCAGGAGGCTGAGGCAGGAGAATCACCTGAACCCAGGAGGTGAAAGTTCCAGTGAGCCGAGATTGCGTCACCGCACTCCAGGT
TGGGCAATAGAGGGAGACTTCAACTCAAAAAAAAGAAAAAGAAAAGAAAAGGAAAAAAAAATACATTTTGTAAGGCTATAGTTCCCACAGACAGTAATTC
CTCTGATGGATCTGAACAAAGTAAGTTGAAAACTGCAGGAAAKAATTAATCATTCTACATACTGTTAAGAACACTCATGATTCATGGGAAGAGGTTAAAA
TATCAACATTAACAGGAGTTTGGTAGAAGTTGATTCCGACCCTCATGGATGACTTTGAGAGGTTCAAGACTTCAGCGGAGGAAATAATTGCAGATGTGAC
AGAAGTAGCAAGAACACTACAATTAGAAGCAGAGCCTAAAGGTGTGACTGTATTGCTACAATATCATGATCAAACTTGAACAGAAGAGGAGTTACTTCTT
ATGGATGAGCAGAGAAAGTAGATTTTTGAGGTGGAGTCTCTTCCTGGTGAAGATGCCATGAGCATTGTTAAAATGACCACAAATTTAGAATATTACATAA
ACTAAGTTGATAAAGCAGCAGCAGTATCTGGGAGGATTGACTCCAATTTTGAAAGCAGTTCAGAGGGTAAAATGTTATCAAACAGCATTGCATGCTACAG
CAAAATCTTTTGTGAAAGGAAGAGTCAATGTGGCCAGTTTTATTGTTGTCTTAGATTAAGAAATAGCCACAGCCACCCCAGCTTTCAGCAACCACCACCC
TGATCAGTCAGCAGCCATCAACCTTGAGGCAAGACCCTCCACCAGCAAAAAGATTGTGACTTATTGAAGGTCAGATAATCTTTAGCATTTTTTACCAATA
AACCATTTTTTAAAGTATGACCTTTTTTTCACATAATTCTATTTCACACTTAATAGACTATARTATATTACAAACACAACTTTTAGACTCACTGAAAAAT
CAAAAAATTCATATGACTTGGTTTGTTGTGATATTTGTTTTATTGTGGTGTTCTGGAACTGAACCTGCAATATCTTTGAGGAATGTCTGTAACACAAAAT
GGGTGGCTTAATACAACAGAAGTTTTTGGAGTTCTGTTCTATAGACTGGAAGTCCAAAATCAAGGTGTTGGGAAGACCATGCTCCCTCTGAATCCTGTAG
GGTAGGATCCTTCATTGCGTCTTCCAGCTTCTGGAGCCCCAGGCCTTCCTTGGAGTGTGGCAGCAGAACTCCAATTTCTTCTGTTGCTGTCCTCAGATGG
CCATCTTCCCTCTGGGTCTGTGTCCTCATATGCTGTTCTCCTCTCTGTTCATGTCTGTGTCCAAAGTTTTCTCTTTTTATAAGGACACCGGGCATATTGG
ATTAGGGCCTACCTTAATGACCTCAGCTTAACTGGATTGCATCTGCAAAGATTGTATTTCCAAATAAGGTCACATCCACAGGGACTGGGGGTTAAGACTT
CCCAACATATTTGGGGGAGACACAATTCAACCTATAACAGAGTCCCTTTGAAAATGTCAAGTGTCAGGTGCTCACAGCGCATGGTCCAGCTGTTGGTGCT
CACCCTTGCTCAGCACACAGTGGAGGCTCTGCCTCAATCTCACTCTTCACGGGAACAGCTAAGCCAGGTAGTGAGTAGGGGCTATGTTTGTGCCACCGCA
ACAAACACAGAAAGGAAGCTTGTGGTGTCCAGCATATTTGCCAGCCTAGGCTTCAGAGACCATAGCACCTAGAATCTGACAAAATAAAATTGGAATAAAT
CCAAAGTCCTCTTTTCTTTTTTGAGCATTTTTAAAAATACAATTGATAAATTTCCTAACTGTTCCTTCCTCATCTTGCATTGTGGAATAAGTGCGAACCT
CCCTGCGGCATGAGGCAGAAAACCATTGAGCTTATGACAAAAAACAGGAAATACATGTAAAAGAGACCAATTTTAAAAAATCAGGAGAAATTTTACAAAA
GAGATTTACTGCCAGGAAACCAGGAAAACTTTCAGAACACTCTCCTTTTCCTATTTTTAACAAGACTCAGTTGTACAAATAATTCTGTGAAACTAGCCAT
GAAGTTTGCACACGAATGAATATATGTAGTCAGTGTGTTTATATATTTCATTTCATATATGTGTCATATATATGTGTGTGTGTATGTRTATATATATATA
TAYAYAYATAYATATATAAAACACTGAATATTGCAGAAAATTAAAGCAAAGAGTAAGAAGAGTTAACCAAATTTTCCCTCAATGCAGTGGGAAAAGATGA
AAAGGAGAAGATAGGTGGGCACAGTGGCTCACACCTGTAATCCCAACACTGAGAGGCCGAAGCAAGAGAATCACTTGACCCCAGGACCTCGAGACCAGCC
TGGGCAATAAGGCAAAACCCCATCTCTACAAAAAAGTATAAAAATTAGCTGGGYGTGGTGGCGTGTGCCTGTAGTCACAGCTACACAGGAGACTGAGGTG
AAAGGATCACCTCAGCCCGAGAGGCTGAGGCTTCAGTGAGCCGTGATGGCACCCCTGCACTCCAGCCTGGATGACAGAATGACACCTTGTCTAAAAAAAA
AGAAAAAGAGAAGACGTATGTAAGACAGTGTCAGGATTCAAATTATGTATTAAAAAAATTCCAGAAGGGTAAGCAAATAAGCCCATACCTAGCCATCACT
AGGGAAATTTCTGTGTTTCAGGGATAGAGAAAAAAACTCAGATTCCAGAAATAAAATGTGAAAATGTAATACCCGCAAAAGAAATAAATTTATTGACACC
ACATTGATTCTACACAACACTAAATTGTAGAAGATAGCACTTCTGTTGAGCCAAGCTAATATTCACATCTAGAGGCTCCAGATACACATTAAAGAATAAG
CAAAGACACAAAAATTGTACCATTTAAGTATGTTTCCCARGCAATTAATAAGCAAATTTTTAAAAAGGAGAATGATGAATTSCTAAAGAAATCTCAATGA
GATAGAAAAGTGGTAAAAACAAACAACAACAACAAAAAACCATAAACACAAAAACTGGCAAWGTAATCATAATTTAGTAATAATCTCTGTGAAGTCATAG
AATATATCAATAGAAGTAGAAAATGTGAGAAAGCAGGAAAAGGTAGGCTAGACTTRCAGAAAAGATGAGTAGACTGACTGTACAGAATTTGACTCTGAAA
TTGAGAAAATAGGTTTAAATATATGTATCAAGTGTATATATCTACAATATACATGCACACATATAAAATTAAATTCCTAATTGGAAAAAATATTAAGTTT
AATTTCCAAATTATTAGAATAACTAAAACAGCTGAATCTATCTGTTCCATATAGTAAGGGGAGGGAAGGAAAAAGAATAGCAAGGAATGCATTTGTCTCT
GTCATCGGAAATAAGCCCCATCATGTTTGGGTCAGGTCATTTTATTCATTGCTTTCTCCTCATCCTCATCATGGGACATCGTGAAATCATGAAAAAGGTA
GTGAAAGAATKATGACAAGGCCGAGCACAGTGGCTCACGCCTGTAGTCCCAGCACTTTGGGAGGCCGAGGTGGGAGGGTCACCTCAGATCAGGAGTTCAA
GACCAGTCTGGCCAAMGTGGTGAAACACCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGTTGGTGCATGCCTGTAATCCCAGCCACTCAGGAGGA
TGAGTCAGGAGAATTGCTTGAACTCGGGAGGCAGAGGTTGCAGTGAGYAGATATTGCACCATTGCACTCCAGCCTGAGCGACAGAGCCAGACTCCGTCTA
AAAAMACAAACAAACAAACAAAGCAAATCAAATATATAATTTATTTCAATCCATTTGGTTTAAMCTTCTTGTCAAAAAACCAAGTCTACTAGACAGGATC
AAAAGCAACAAATCTTGTATTTATAAAAAACATGCCTCAAGTTAAATGGCATAGTATTACACACACACACACACACACACACACACACACACAYAYATTA
AGGGAATACGCAAACAAAAAATGGCAGAAATAATATGGGAAAAGACAGAACTTAAGAAAGAAATTGTCAAGCAGGTCTACAAAATRATTGTTTTATTTTG
GTGCCAGGTACAGTCCACAATGAAGTCAAGATATTAAGAAGTAAAGTGGACCAGGAGAAGTTAGAGCAGAAATATCTCTTTTCAATAGTGAGAGCAGAAA
AAGAAGTAGAAAAGCTGGGAACAATAGGTAAAGTTTAGGCTAGGCCTTAGACTTCTCCTATATTGTAATCCCTCTGGTTTGCCACATRTGCATGCTGTCA
GGAAGTTGATGAGGTATGKAMAGCACAATTATTTTCCATTTTTTGCCTTTAGGCACCGACTCATTGGTCACTCATCTGCTGAATGTRTCCTCTCGGGCAA
TACTGCCCATTGGAGCATGAAGCCACCAATTTGTCAACGTGAGTTGAAATCTCTTTCCCCATTCACCCCACCATTTAACCCTAGAGTTGTCCTCCTAGAA
TTACAAAGAATGAATCTCATCCCTCTTGGAAATGGTATCCTTCTGATATTTGAAGAATCCAGTCATATCCTTAAAATGGCTCACAGCATTCCAAACTTCC
ACCTTCACCTAGAAATGCTTTTTTTCTTATCTTAAGGTGTAATTTATTTTAAACTAGTCTTGAGCTAATTTAAATAGCCCCCAATTTCATCCTCTGTTGG
GTGAACACCTCCCAGTTTGAAGAGCATTTTCTTTGGTGAAGTCAACAAATACAAAGTCAGTGAAAGAAACCGCATATCCTCTCTGCAAGCTGTTAGTATC
ACATCAGATATTCAAGCCATGCAGCTCTTTCTTCCTTCTTATTCTTTGTCTAAACAGGATCATGCCATCTTCCCTGTGAGTTGTTTGGAAGATGAGCTTT
CTACATTTTGGGGAGCAAAGAGGAATGAGCAATTGCAAGCTAATAAGGAATATAAAATGTGTATAATCCTGGGTTTAGTGATGGTGTGAGGAAATCAGCA
ATTTCAAACCCATCTGGTGGGAGRATAAGTGGGAACAAACTTTGTAGAAGGGCAATATACTGGCTGGGCACTGCCCTACAGTAGAGTAGGACACAGTATT
CAGTTCTTCCAAGATCAGATGAAATTGGGTGCATTCAGGGTGGTATGGCTGTAGATCAGTATCCAGTTATTTGTATTACTTCTGAATCTGTAAGTATCAT
GTTTATTATATGTAATATTGTATATTTGTGYTTGCTTTGTCTTTATTAGTTCTGCCAGAGCTTTTGTTCTTATTATTTAATAAAGATGTTATACTGGGCC
AGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGTCCTAGGTGAGCAGATCGCTTGAGCCCAGGAGGTCGAGACCAGCCTGTACAACATGGTG
AAACCCTGTCTCTACAAAAAAKACAAAAATTAAATGGGCATACTGGCACACGCCTGTAGTCCCAACTATTCGGGAGACTGAGAGGTGGGAGGATTGCTTG
AGCCAGAGAGGTCAAGGCTGCAATGAGCCATGATCGTGCCACTGCACTCCAGCCTGGGCAGCAGAGCAAGACCTTGTCTCAAAAAAAATGCTATGCTGTA
TGCTTTATTATATTAATATCCAATAGAATAAAGACACATGCCTTCTATATAGAGAGAACTAAATTAATAATGGTGAGATAACATAGTTAAATTCTCATTT
AGCAGGAGAAATATAAATGTGTACTATAGGCCAGGCACAGTGGCTCACACCTGTAATTCCAGTACATTGGGAGGCCCAAGGTAGGTGGATCACTTGAGGT
CAGGAGTTCAAGACCAGCCTGGCCAACATGGTGCTACCCCATCTCTACTAGAAATACAGAAGTTAGCTGAGCATGGTCGTGCATGTCTGTAATCCCAGCT
ACTTGGGAGGCTGCAGCAGGAGAATCATTTGAGGCCAGGAAAGGAAGGTTGCAGTGAGCCAAGATCATGATACTGCACTCCAGCCTGGGCAACAGAGACT
CTGTCTCAAAAAAAAAAAAAAAGGAAAAAAATGCTCTATAATAATATATGGACACATTTAGCAAAGTAATGTTAACTACGAAGAGCACAACTCACAATAT
TATAAAATTGTAAGAATATATCTGTACATTAGTAAATATTAGATGAGAATGATATTGTGAATATTTACTTCCGGTAATTTGGGATTTCAGAAAAGCTATT
AGCATAATTTACAATAAAGTATAATTTTAAGAAACCATGCCGGGCACGATGGCTCACGCCTGTAATCTCAGCATTTGGAAGGCAGAGGCAGGTGGATTGC
TTGAGGCCAGGAGTTCAAGACCAGCATGGCCAACATGACCAAACCCCAACTCCACCAGAAATACAAAAATAAACCAGATACGGTGGTGCGTGCCTGTAAT
CCCAGCTACTCGGGAGGTTGAGGGGGGAGGATTGCTTGACCTGGGAAGTTGAGATTGCAGTGAGCCATGATCGTGCCACTGCACTCCAGCCTGGGCGACA
GAGCAAGACTCTGTCCCAAGGTTTTGTTTTGGTGAACTTGCGGTCTCTTTTCCCAGGAATTCCTTGTGGGCTACCCCCCAACATCACCAATGGATATTTC
ATTAGCACCGACAGAGAGTATTTTCACTATGGATCAGTGGTGACCTACCACTGCAATCTTGGAAGCAGAGGGAGAAAGGTGTTTGAGCTCGTGGGTGAGC
CCTCCATATACTGCACCAGCAAAGATGATCAAGTGGKCGTCTGGAGCGGCCCAGTCCCTCAGTGCATTATACCTAACAAATGCACACCTCCAAATGTGGA
AAATGGAATATTGGTGTCTGACAACAGAAGCTTATTTTCCTTAAATGAAGTTGTGGAGTTTAGGTGTCAGCCTGGCTTTGTCATGAAAGGACCCCCCGCA
CCGTGTGCAATGCCAGGCCCTGAACAAATGGGAGMCRGAGCTACCAAGCTGCTCCAGGGGTGTGTTTGCCTGAGGCCTAGAAGGGCCCTGCAAGTGACAT
GCATTGCTGTTGGATCAGGAGATGAGTATTTGTTTAGGGGGAGGGATGTATGTTGAGGAGGGTGGGAAAGTAAGTTTTGGGGGAAGAAGCATGAAATTAA
GAATCTGGGGTGTGCAWGCACYCATGCATATGTGTCTTCATTTTGAAAAGCAAGACCTTAATTAGCCAAGAAAACTGGTATTTTGGACTCACCTATTAAT
CAATTGTCAGGGCAAAGTACCAGCTGCAATCTCTCTCAATTATATTGAAAAATTATATGGACTTTATGGTCAGCTGTGCCCTAAGCACTTTGTATACATT
ATCTCATTTATTATTTAAAACAACACTGTCTTATTTAAGGGCTTGTGTTTTTGATGGCTCATCTTGTCTACTGATGCCACAATAGCTGGCTTAGCAGCGG
AGTGGGAGGTGTTATGGCAGATACATAGGGACAGAGAAAGAGCTTACAATTCTTCTACCAACCCATGTTAGCCTTGTGCAACCACTGAGCTGGGAAGACA
AACAGATAAAGGGATATAAAGACGGATGTACCGAGGCAGGAGATGGGCAGGGCTTGTGTTCTGGTCACAATCCTGCTGACCAAAACAGAATCTGGCCTAG
ACAGGATGAAGTGAAAAAACAGCAGCAACAGGCAGATGGCGATGAAAGCAATCACTAGCTGCCCTCATATTCCCATCAGCACTGTGACAGTTTACAAATG
CCATGGCAACGATCTGGAAGTTACCACCCCTTTCCAGGAAAGTTCTAAATAACACGCCCCTCAATTTGCATTGATGTGCCCCTTAACTTACCTGTAATTG
GCTGGGCATGGTGGCCCATGCCTGTAATCCCAGCACTTTKGGAGGCCAAGATGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATG
GTGAAACCCTGTCTTTACTAAAAATACAAAAATTATCTGAGTGAGGTGGCTCGCACCTGAAATCTCATGAGGCTGAGGCAGGAGAATCACTTGAACCTGG
GACGCGGAGGTTGCAGTGAGCTAAGATCACACGACTGTGCTCCAGCCTGGATGACAGAGTRAGATATCACCTCAAAAAAAAAAAMACACAAAAAACAAGA
AACAAAAATAATTTACATGTAATTGAAGCGGGCTTACAGGAGTATAAATACAGTTGCCTGCCAGGAGCTCATATGTTGCTGACTCTGGGCACATTGCCTG
TGAGTTAGCCCTGCTCTGCAAAGGGCAATGCCTTTCTAAAAGATCGCTGTCTAGCACCACTGGCTCATCCGTGAATTCTGTCCTGAGTGAGGCAAGAACC
CTTCCAGARTAAGCCCCAATTTAGGGGCATGCCTGTCCCCAAACAGTATGACTGTACTTTAGTCATTGGTGTGCAATCAGAGAAATATGGGGAAATCTGT
AAAACAGACTTGGTCTCMGGTGACAGTCTCATTACCTGAATAATGATGGTACAAATACCTCCCTAGGAAATATGTAGATGGAGAATCCACCAATACTAAT
AACTCCACACTGGATATCCAGAGCTAGGAGAAAATACTTCATGCCCTGTAGATTTACAGGTGAATTTTGGGCCATGTGCTAGGGAGAATTGTGTTCTATT
TCTCTACCTTTTACTAACTATGAGGCCTTCAGCAGGCATAGGATATAGCAAAAGAAATTCCCCCATAACTAACARGTACTCTGGAACTGTCCTTTCTACA
ATGTGTCAGCYGCCTCCAGAAATCCTGCATGGTGAGCATACCCTAAGCCATCAGGACAACTTTTTACCTGGGCAGGAAGTGTTCTACAGCTGTGAGCCCA
GCTATGACCTCAGAGGGGCTGCGTCTCTGCACTGCATGCCCCAGGGAGACTGGACCCCTGAAGCCCCCAGATGTACAGGTGCCTCTCTTTCCCCCTCACA
TGGAAGTCTTACTCCTGTTGTTTTATTTTTTCTTCTCGTGAAATCCTGTGATGACTTCCTGGGCCAACTCCCTCATGGCYGTGTGCTGTTTCCACTTAAT
CTCCAGCTTGGGGCTAAGGTATCCTTTGTTTGTGATGAAGGGTGAGTGTGACCCAGTGTTGAGACCAAGGACTCAGTGTGGAGAATCACTGAGTTAATCC
AATTAAGGAGCTGACCTAGTAGATAAGAAGTACCCAGAGAGATTAATTTATGGAAGGGTAGTTTTGAAATAAGCGTTAATCCAATTAAGGAGCTGACCTA
GTAGATAAGAAGTACCCAGAGAGATTAATTTATGGAAGGGTAGTTTTGAAATAAGGGTAGGGACTAAGTGGCACCGCCTTCAGAAAACAATGAAAAAATG
GCACATACAACTCAATRTCAGATACAAACCTAAATACAGTCACTGATCTTGGGTACACAGTTGGAACTTGAAATGAATGGGTACGTATTTATTTGGAGGC
AAAAGAACATAATTTTATAAAATGTRTGCTAGAAAAAAAAGATGAATGAGATGGAAATTGTTTGCCTCATAATAAGGCAAAGGTTGTTTTAGGAAACTTA
AAACCAGTCAATARTGGAATCTGTAATAGTGTATGAATAACTATGTTTTAACCCAATTACATATCTTCATGTCAAGAATGGCCAGTGTAATTGTTTTGAT
GCAAGATTTTTCTCAGCCACTTTGCCAGCTGGTGACCTCTGGCCAGAAACATCCCTGTCCAGGCCTTGCTCTACCCAGGATCAATGCAGGAGACACCTCA
TCTACTTGGCCCACCCAGGCCGTGCCAGGCTTGTGCTCTGATGCAGAGCCCATGGCTGCCGCGACTACATGCTCAGCCTCTGGGAGGGGGTGTGTGAGTG
AGCAAGTGGGGGTTCCAGCTGGCCGCGCCAAGCACTGGCACAGGAGCGGGCTCCGTGCAAGGCTTGTGGCTGGACCAGGCATGTCACACTGAAGGGAATG
TGTTGGTGCCCAAACAGGGGTCCCCACGACCCCGAAGCCCAGAGGGGGTGTAACAGCATGGTAATAGCTCTTAGCATTTGATAATGCCTGCAGCCCAACA
GATGGCGGTGTGTTAACAACTCTGTCAGTTCCATCGCCCTGCTCAGGCCTGCATCTCCAAGGCTGACTTGGCCTGCATCTCCAAGGCTGACTTGGCCTGC
ATCTCCAGGGCTGACTGGACCTGCTGGTGCTTCCTGTTGCATGGAATAACTTCCCTCCCCTAGGAGACGGCAAAGAGCCACTGTATTACAGCCTTCTTCA
TACCTGCGTTTGGTGGGTCCTGAGTTCTTGTCCCGCATCCAAGAAGAACAAGCTTATGCTGACAATAGAAGGGTGAGGAGGGTGGAGAAGAGTTTTATTG
AGTGACAAAACAGCTTCTCAGCAGAGAAGAGACACAAGGGTGGACCCCAGATGAAGTCAGGGGGTYATTCTCTCAGTGTGGCTGGTTCTGGAGCCTTTAT
GGACTCAGAATTGGAAGTGTGTGTTAATTGGTTGGTGAGTATGCAAAAAAGGCTAAAACAAAGCCACCACTCAAAGGTGGGCACAACAGTGCAAAAAACC
AATTAGGGAAGAGCAGGTATATGTGAAATAGATGAAGAGTGGGGATCAATCAGAGGAAAGCACACCCAACAGGAAGAGAGGTTCTCAAGCCAGTCCATGG
ATTTACCTGGAACTTGTAGCTAGGCTTTAAACTGTCTTCAGCTTGAAGGTCGGGTTTCACCGGGATCCGCCCCATCTGCCTGTGATTTGTCTGCCTCCTG
CTTCTACCACTGTCAAGTGGTATTATTCGTTGCTTATGTGTATCCATTATTCTTGGTGATACAGTATGAGTCTGGGGGATAACTAGATTGAGCAATTAAG
GAGTTATTTTTAATAATTTCCAAGGATTCTTTGGCATTTACAAAGTCCACCACCTAATAATGATTTCCAATTTCAGAACGATTTTAGATTTCAGAAGGGA
AGCAGTACTCAATAGTAAGTTGAGCATTTCAGGGTGGCAAAGACTCCTCCCCTGACCCTTCTTTTTTTCTTAGAACACATGGTTCAGCATGCTTCTGTGA
GCCTCTTTCTGGCCTGTTACATTTGGAGTGGCGAGAAGAACAGATATTCCTGGCTTTGCTTACCAAATCAAAAGCTGTTCTGCCTCATGACCCACTAATG
AGAATAAGTGGGATGTCAGAGAGCCATCAATGAAAGATGACACCTGAAGGTTATGGCTCTTGTGCCCATGGAGAAGTCTGGTTCTGTGTTCATGCCTTCT
GTAGGTGATGCTGGGCTATGAAGTTTATATGGCACTTCAGCTCTGATTGCTTTGCCAGTCACAGGGTACCATGGTTCTTTAGAATAAATTGGCCTTTGAG
TTTCTGTCAGCTACTGAAGAATTCAGATCCCTAATGAACTAAGACTTTTAGCTAGACCTGAACCTAAGACCCAAATGATAGTCAAGGAGGAAATGGTAGT
GAGGAAGCTGAGCATCTATTAGTGAAGAAATCAAGGGAGAGATGGGAATTGCTCAYACATTTGCTACCACTTTTTTTTTTCTTTAGGTTCTGATTAAAAG
GCAGGTCTGCTAGTCATTGTGTCTTGGCTGGAAYGAAAGCCCTTTGGAATAGCAGTGTTCCAGTGTGTGAACGTGAGTAGAAAGAACTAYGTAGTTTGGA
TAGCTCTCCTTATTTTTGTTTTCCAGTGTTTTACTGCACGGAATCACTTGTCTGGATCTTTACTTAACTAAATTACTGATTAAAATACTTCTCTGTTGGA
AGAATTTCAAGAAGGGTCTTGTAGGACTTTTCTGACATTTGTTACTAATCTGTAAATCACTTAGTTTAATGACTGTTTAATTTTGTGGGGAATGTGTGGC
AAGAAACTAAATGACATAAAAGTGCAGCACATTTTAGTCAGTCATTTATTTTTAATTTTCTTATAAGGAGTAATCTTTCTTACATTTTTTTTTTCTTTTT
TGAGACAGTTACCCAGGACAGAATGCAGTGGTGCAATCACAGCTCACTGCAGTTTCAATGGCCTGGGCTGTAGTGACCCTCCCACTTCAGCCTCCCAGTA
GTTGGGACTACAGGTGCATGCCACCACACCTGGCTAATTTTTTATATTTTGTAGAGATGGAGTCTTGCCATATTGCCCAGGCTGGTCTCAAACTCCTGGG
CTCAAGCTATCCTCCCAYCTTGGCCTCCAAAAGTGTTAGGATTACAAGTGTGAGCCACYGTACCCAGCCAAATTYTTATGTTCTTTTATCCCCTCACKTA
TCATAAACAATTTAGTCAGCTTGTTTTTTAGCCTGCAGTATTGAATGACATAGGGCTTCCCATGTGCTAGGACTTTCCATGTGTAGAAAATGCAATGAAG
AGTAAAAGAATAGTGAAGCCACCTCCCTACTTTCCTGGAGTATATTTTCTTGTTGGGAAGAAGACTAAAAACAATAAAATAAGAAAACAAAATTCTAAAA
ATTATAATATATAAAATGGTAGTTAAATAGGGATGTTATGGAGAAAATAAAACAGAGTTATATGATAAATTAGTACAGTGGAAGGAGCCGGGATGACGAA
TCAGTGTCTGAAATGATGAGGTGTCCTAAATTTCCAAACCATCCGCTTAAATAAAATATCCCAAAATTCAGAAAGAATTCAGAAACTCAGATAAAAGTAC
ATATTTGACATACTAAGACATTACTGATTTACCCTATTCTGTCTATTAAAGCAAGGCATGATTTTTTTAAACCTTTTTTTTCTTATTGGAAAATGTTTAC
TTTAATTTGCATTGTGTTAAAATAACTTACAGAAATCAATTTGGATATTTTATGGTGAGTATTATGGTGAAGAACATTCAATACCTGAGGAAACTCAAGT
ATCCAACAAACTCAACCCTTACAGAGACACATAGAGCTGAAAATAAATATATAAATAAACTTAGGAAAAACACAAGTAAAATTCAAGCATGAGAAGTTAA
TCATTGTTTGATGTACTAAGTCTTTTATGTACACATAATTCCGATAAACTTGGGTATCTCTTCCTAAATTCATATCAAATTAGAAGCATCAAGTGCTTTT
AGGGAAGGAACTGTTCTAAACAGAAGAAAAGAAGGAAGAAATGATGGCTAATAATYTGGAAGAAAGAAAAAAAGCCTCTTTGGCACCATTTAATCTGTGT
AAAAAGAGCCTTACCAATGTAGTCTGATGACACCACTGGAAATTTGGTATTGGTCCTGATGATAACAGTCTTGAATCACCAAGAAACATTTACATTGCTA
AAGATGATAGTTCATGACTATTAAAGTTCATAGATTTCCTTGGAACTTATGGTCTCTGATGGCCAAAATTTTGTCTGTCTTGAACCTCATTGTCAACTCA
GGAATCTTACTATGCCTGATTTAAAGTAGACAACCAAATGGGTGTTTGTAAAAAAATTAAAAAAAATTACTTTCCAAATTCATTATGAACRTAGCTACCT
GGATGGTCCAAAAACACTGTCTTTGGGCTTTTGCAATAGACTGTAATTTAGGTCTCACAACAGTTAGTTGCCTCTCAACAAAAGCCTTACAGATTTAAAT
TCCATCCACCTTAGTTATAGTCTTTCTAAAAGAAAAAAAATTATATTCATAGCACTGTCGCAGGTCACTAATATTTCAGTCATCTTAAGTGAAACTCTAA
TAGAACTTAAAAGCTCTTGTTTTCTTTCTAGAAATCTTTTGTCCAAATCCTCCAGCTATCCTTAATGGGAGACACACAGGAACTCCCCYTGGAGATATTC
CCTATGGAAAAGAAGTATCTTACACATGTGACCCCCACCCAGACAGAGGGATGACCTTCAACCTCATTGGGGAGAGCACCATCCGCCGCACAAGTGAACC
TCATGGGAATGGGGTTTGGAGCAGCCCTGCCCCTCGCTGTGAACTTCCTGTTGGTGCTGGTCAGTATCCGCTTCCACATATCCTAAATGGGTTCAGAATA
TGTAGGTGAGAACCTTCATATTTCTATAGTGACAGTCATTTTTGCTTGTGAAAATGGCTTTGCTGTAACTGTCAGAGACAGAACTACCTCCCAAGTGAAT
GACAAATGGGTTCTAGATAGGCACACTGTCTCAATTATTGGTATTCTGATGGCCTTTGGGGTGAGGAGGGTGGGATGGTAAGGAGAGAAGAGGGTGGACA
GTGAAGAGAATTGGTGAGGTCCAGATTTTGTAGAGAAATTTTTGAAAGTACTGAAAACAAATGCTAAAGAATGTACTCTTTTATTCTACCCCTACTATGA
GTTGTCTTTATCCTGGAGAGATGGATGTGCTGCGCAAAAAGTACATGATGATGTAATTTACTTCAGAACTGATAACGCTATAAAAGTAATTTAAGAAATT
CAGATGTAGGGATTTATACTTTTTATGTTGTTTCCAAGGGTTTGTTCAAGCCGCTGACTATATTTAGTTGGTCCTTCACCTCACCATTAACAAAGGGAAC
TCGGGAGGCCCTGGAGAAGCAGAGTCTGAGACTGTACTCTTAGCCTTCATAGCTCCTTCCTTTGATATATTACTCTGGCTTTAAACGACAGTACTTGACA
ACCGTAGATGCATTTGTGGCTGTGACTGCCCACACAAGCTCCATCCTCCAGTAAGGACAGAAGAGCATTGAATTATAAAAGGTGTTGACTTTTTAATGTG
TTCTTTTGAGATGGAGTCTTGCACTGTCTCCCAGGCTGGAGTGTAATGGCACAAACTCGGCTCAATGCAACCCCCGCCTCCTGGGTTTGAGCAATTCTCC
TGCCTCAGCTTCCCAAGTAGCTAGGATTACAGGCACCCACCACCACACCTGGCTAATTTTTGTATTTTTTAGTAGAGACAGGGATTCACAATGTTGGCCC
GGCTGGTCTCTAACTCCTGACCTCAGGTAATCCATCTGCCTCGACTTTCCAAAGTGGTGGGATTACAGGCATGAGCCTGGTGCTGACTTTTTTGACCTGT
TGGCTAATTGGACTTAGAACTTCTGTATGTTGAAAAAATGACTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCATTATTCA
CAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAA
AAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAAACATCATTCTCAGTAAACTATCACAAGAACAAAAAACCAAACACCGCATATTC
TCACTCATAGGTGGGAATTGAACAATGAGATCACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTGGTGGGGTCGGGGGAGGGGGGAGGGAT
AGCATCGGGAGATATACCTAATGCTAGATGACACGTTAGTGGGTGCAGCGCACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCAC
ATGTACCCTAAAACTTAAAGTATAATTTAAAAAAAAAAACATTAAAAAAAAAAAAGAAAAATAAATAACACAGTAGATAGATGAGAAATATATGGGAAAC
ACAGCAAAGGGTTAATAGTGTTATCTTACAGGTAGCAGTAGTGGTGGTTGTGGTACTAGTTGTAAAAGTTAATATATAATGAATACTTAGTACCACTGTT
AGATAGGCTGGACATGGTGGCTTATGTCTGTAATACCAGCACTTTGGGAGGCTAAAGTGAGACGATCACTTGAGCCCAGGAGTTCAAGTGCAGCCTGGGC
AGTATAGCAAAACTCTGTCTCTACAAAAAATAAAAAAAATTAGCTGGGCGTGGTAGTGCATGCCTGTAGTCACAGCTTCTTGAGAGGCTCAGGTGGGAGA
ATCCCAAGCCTGGGAGGTCGAGGCTGCAGTGAGCTGAGATCACAACACTGCACCCCAGCCTGGACAACAAACAAGACTCTGTCTCAAACACACACACACA
CACACGCACACACACAAGATAGCTTCTAATTTAATTACACAACAACCTATGAGGAGGATAGTATTCTTATTGTCTCATTTTATAGGTGTAGAAACTGAGA
CACAGAGGGTTTAGGTAACTTGCACAAGACCACAGAATGGGGTAGCCTGGGTTCAGCCAAGCAATCTACTTATCTGTAGAGACTGTGCWCTTTAACAATA
AATAAATGGTCAACGGACCTAAATATATAATTCAACAAGAGAGAATATTTAAGTACTGTCATAATGAAATGGAAAGCTATCAGGCAAGGTCCCAAACACC
AGATAATGGGCAATTCTTAAGTTGGATGAAGGAGATACATACAAAGAATTAGAATGGGCCAAATAACTATTAACCAGCAGGTTCTTGGAACTCAGAGCTT
AGTGTAAACTCCTCGTGAATTGGGCTGAACCACATAGGAACTCCTTTTGTCTCTCTGAACTAAGACTCAGACTAAAAGCAGTCCCCTTTGCCTTCTTGTT
CCTAGTCTCTTTACCCTATCTAGTCTTGGCCTTTGACATCTTACTGCTTTGTAGTGAGAAGAGACAAAGAAAATTTCATGATCTTAGAGACTATCGAAAC
AGAAAAAATTAAACCCAGTATTTTTTCCCTAAGAYTTGGGATAGATTGCTTAAGATACCAGTCCTAGGCCTTCCTAAAATGGAAGATGAGGAACTAACCT
GGGGYGGTGGTCCAGGCTTGGAGTGACATGCCATAGAGGGTTTTGAGACAGAATAGCAATCCAAAGAGAAAAAGGAACCTTTGAGTACTAGCATCAGAGC
AGGAAGAATATCTTGGGATACTCAGATCCCCTATCTCCCCATTTCAATGGCCCAGTTACATCAGAGGCCTGATTCATTTCAAAACCTTCCTCAGAGCAAG
GGGTAATTGCCAGGTACCCTTTAAAGCCAGAATTAATACATATAACCCATATTTAYGCTGTCTCAAGACTAATTAGCATGGTGTTGCATGCTAGACAAAT
AAGTTCAACTCCAGAAAACATGTAAAAACTAACAGAAGTTTCAACTTGAATATCTTAAGAGAGGCTTAAAGAAAAATTAAACTATGTGACACTCATTAAA
ATGTCCCCAAATCCTCTTTACCCATTTCCATTACCCAGTGTCCCATTCATTAAAGCAACTGCTTTCCTAGAGCCTAGCTTCTCTCAGTTCCACCCAGACT
GTCTCTCAATAGTCTCCCCACCTTCTGGACCTTCTTAGTTCACAAGAAGTCTCCATGCCATTTCTAAGGTAAATGGAGTTTCTTCAGTTCTGCATAGTTC
GATGCAACACAGCCTTGAAAGTTTCTGCAGGGAAATGCRGAAACTATCTTAGGATGCAAGATTTAGAGAAAGGGTGTAAATATCTTTCTACTTTGGCACA
TAAATATACAGAAACTGTTTAACCTCACTAGAACTAAAGAAATGCAAAAATAACAAAGTACCCTTTTTTTTTATTATACTTTAAGTTTTAGGATACATGT
GCACATTGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCAACCACTAACTCGTCATCTAGCATTAGGTATATCTCCCAATTCTAT
CCCTCCCCCCTCCCCCCACCCCACCACAGTCCCCAGAGTGTGATATTCCCCTTCCGTGTCCATGTGATCTCATTGTTCAATTCCCACCTATGAGTGAGAA
TATGCGGTGTTTGGTTTTTCGTTCTTGCGATAGTTTACTGAGAATGATGTTTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTT
ATGGCTGCATAGTATTCCATGGTGTATATGTGCMACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGA
ATAATGCCACAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGG
TATTTCCAGTTCTAGATCGCTGAGGAATCGCCACACTGACATCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCT
CCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTC
TGATGGCCAGTGATGATGAGCATTTTTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCACCCACTTTTTGAT
GGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCCCAT
TTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGTCTTTTGTTGCCG
TTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCHATGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAAT
GTTTAAGTCTTTAATCCATCTTGAATTGATTTTTGTATAAGGTGTGAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCAC
CATTTATTAAATAGGGAATCCTTTCCCCATTGCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATAGTTGTAGATATGCGGCGTTATTTCTGAGGGCTCTG
TTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGTGTGATAAA
GTACCCTTTTTTTAAATTGTCCATTAAATTAACGACAAACAGGTTTTTATGTGAACACCCAATAAAAAGTAAGGATGTAATGTAACGAATATTGTTGTAT
ATTGAAGGTACTATTGTAAATTGGCAAAATCTCTTATGAAAAACAATTATGCAATGTGTGTGGACAATAATACAAATATTCTGCCAGTTAGCCTCCTAGA
ACTGCAACCTAAGAAAATAGTGTAAAATATAAAATAGTTTATGCATTTTATTAAGGGTTTCATGAGAAAGAAAACTAGAAATAAATGCACAATAGAAGTC
ATTGAATATACTATGATGCATCTACTAGATTATATTAGTTTGCCTTTGTTGTAACTTATATTTCTAGTATATAAATATGTGAAAACATACCAGAAGAGAA
TGTATCAAAACACATTTTGGGTACTAGGATTTGGGGTGATATTTTTCTTTAGTTCTGTATTATAAGTTTTCTTCTGTAATTGTATTACTTTTACGAGAAA
AATATTAATTTTTAAAGTCTTCTTGGCAGTGGCTCGCGCCTGTATTCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACGAGGTCAGGAGATTGAGAC
CATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAACACAAAAATTAGCTGGGTGTGGTAGCACGTGCCTGTTTTCCCAGCTACACAGGAGGCTGA
GGCACGAGAATCCCTTGAACCCAGGAGGCAGAGGTCGCAGTGAGGTTGCACCACTGCACTCCAGCCTGGCGACAGAGTGAGACTTTGTCAAAAAAAAAAA
AAAAAAATCTTCTCTGAGTGCAGAAGGTAAAATGAGAGTATATGAGTGAAATCAATGGCTTTTTATAAAAAATATTAGTCTGAGTCCTGAATAAAAATCA
GGATAAATTGTCACTGGCTGAGAAGTCCTGTTCAATCATGTTGCATGCCAGAGTGATGTTTTTGTGACTTTTGTCTTCCTTTTAGGTTCACATGATGCTC
TTATAGTTGGTAAGTTTTATGAAGTGTTTGCTGAGGAATTCTGTCATCTTTAACAGTAAGTACCTACTTATAATGAATGCAATGTAGAAAGAGAGATCAA
AATATCTTGAGTTATAAATTCAAATAGAAAGAAAATTATGATGAGTTTAGGCCAGGATATGGTGAAACTGGCATCGTCATATGCCAGGTTATTGAGTAAC
CTTCCTCAAAAGTTCTTTACTATCTTTGAACCACTACAAATGCATAATCGTTCAACAGTGTCAAAAAGTATTTATTTGAATGTGGTGGGAGAATGAAACT
TCTTCTTTGGGTTATAACCTGGAGTATGCTTCCAGATGGTGATTGTGCCCATTTGTACAAATAGAAAGCTACAAGACCAGTCTTCCGAGCCCATGTCTGT
GATCTGCCTATGTAAGAAGAATAGTTTTGTAATAGAGTTTGCTTCCAAGGGAATCTCTATGGCATAGTATTCTTACATCCCTTTTTATACATCTGGACAC
TGAGACACGGAGGGTTTAGGTAACTTGCCCAAGACCACAGAATGGGGTAGCCTGGGTCTAAGCAGGCAATCTACCTATCAGTGGAGACTGTGCACTTTAA
CAATCAATAAATGGACAAAAGGACGTAAATATATAATTCAACAAGAGAGAAAATTCCAGTATTGTCACAGTGAAATGCCTGTGTGTTAAGCCTTAGGCGA
GAGACATGGGCAGGGCCATGGAGAGCCAGTGGCCAGCTGTCCCATCGCACTTCTCACTTACTTGTGGAAAGGCTGATGGTGGACTAAAGGTTACAAAAGA
GGTCAGCTCACCCCTTAACTATAATAACCCTGTGGGAGTGAGACTAATGCTATAGAAACCCAGAGTAAAGCAGAATGTATAGTTACATCTTTTAAAAAAA
AAAGCATTGGCAATCTGTAGTGGGACTGGATACTAAGATAGAATTTAAAACCTGTGAGTTATATTTTCCACGCATTTAATTACCTTGTTTTACTGCCTAG
GCACTTTACTTGGTACGATCATCTTTATTTTAATCATCATTTTCCTCTATTGGATAATTTTCAAGCACAGAAAAAGGTAAGTATAGCCATATTATCCCAA
GAAATGTAAACTGTACTTACCCCCTCTTGGAAGTCAAAAGAAAGTAAAAGACAAACAAACCCATTGCTACATAAACAGATGTGGTAATTCTTATAAAGAA
GGTCCTTGACACACAGTATAGACAAAGAGGTATTCACACTAAAGGAAGTATATAGGATACTAAGAACAATTAAAAAATAATAATAATAACAAAAAACCAG
CATTTTGGCCAGGTACAGTGACTCATGCCTGTAAATTCAGCACTTTGGGAGGCCAAGGTGGGCAGATTACTAGAGGCCAGGAGTTCGAGACCAGCCTGGG
CAACATGGTAAAACCCCGTCTCTACTAAACATACAAAAAATTAGCCGGGCGAGGTGGCACACGCCTGTAATGTCAGCTGCTTGGGAGGCTGAAGCACAAG
AATTGCTTGAACCCAGGAGGCAGAGGTTGTAGTAAGCTGAGATTGAGCTGTTGCACTCCAGCCTGGGCGACAGAGTGAGACTACATCTCAAAACACACAC
ACACACGCACACACACACAAACACATAGCATTTTAAGCAAGAATTGAGTTTTACAGAAAGAGAAAGTAGGCAGAAGGGGTTTTTAAAAAGTTGTTCATGA
GGCTGTTTGATATCCTAGTTTTGCTAAGACATTGCAGATACTGACCTCTAAGCCCAGATCCTATCATAGCACTAGAAGTTAGATTGGGTCACTTATGGCA
CACATAGGCTGCCAGTGGGGAAGAACTGAGACTTTCCATTGGGTATTTTAATATATGAACAAATATTTTGTAATTACAATTAACTTTTTTTTTTTTTGAG
ACAGAGTCTTGCTCTGTCACCCAGCCTAGAGTGCAGTGGTGCGATCTTGGCTCAATGAAACCTCTGCCTCCCGGGTTCAAGGGATTCTCCTGCCTCAGCC
TCCCGAGTAGCTGGGACTACAGGCCTGTGCCACTACGCCAGGTTAATTTTTGTATTTTTAGTAGAGACAGTTTTGCCATGTTGGCCAGGCTGGTCTCAAA
CTCCTGGCCTCAAGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTGCAGGCATGAGCCACCATGCCAGGCTACCATTAACTTTTTACACTTGAA
AAAAAATTCCAAAAATTAAGATCTGAGTAAAGAAATGTCTTTGACAGGGAAGAGAACATACGCAGCTTTTGTACTGGTTGACTGAAATATAACAACATCA
ATGAGGCCAGAATCAATAATATCAATGTTATAAGGTTGATGAGCAAATTCTATATCCATAAAAAACTGAGGGCCAGGCTCGGTGGCTCACGCCTGTAATC
CCAGCATTTTGGGAAGCTGAGGTGGGCAGATCATGAGGTCAGAAGTTCGAGACCAGCCTGGCCAACACAGTGAAACCCCCATCTCTACTAAAAATACAAA
AAGTTAGCTGGGCATGGTGGCGTGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAAGCAGGAGAATCGCTTGAACCTAGAAGGCGGAGGTTGTGGTGAGC
TGAGATCGCAACACTGCACTCCAGTCTGGGCAACAGAGCAGACTCTGTCTAAAAAATAAAAATAAAAAAACTGAATTTGCAACTTTTAAGTGAACAGTTT
TCTACAGGAAATATTCTAAACAAGTACAGTTTCCTACAATGAGCTTTACAGCAATCGAAGTTTTCGTATTTCACAGAGATTTCAATACACTTTTTAAAAA
GTAGTTTGTCATAGTAGATCTTGCTGTAAACAACCTAGTCAGGAACTCAATTTCATGGGAAAATAGTGAATTGGTTGACATTTAAATTTAAATCATTATC
CTTCCTAACTAATGTTCTCTATATCGTATGGCTTGACATATAGATGTTCTTTGCTCTTTTCTATTACAAAAAGAAAAGATAAGTAGCTGGGCACTTTACC
TTAACAAAGTACTTGTGTCAATACATTTTTCTCTTAAAGTTTCTTGTTAGGTACCACTATAATTTGTGAGTTATTTTTATTTTTTTTTTGAGACGAGTCT
CGCTCTGTCATCCAGGCTGGAGTGCAGTGGTGCATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCACACAG
CTGGGACTACAGGCGCCCGCCACCACACCTGGCTAATTTTTTGTATTTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTGATCTCCTG
ACCTTGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCTATGACTTAATTTTTTTTTTTTAATTTACTA
AGTCTGAATTAAAGAAGTTGGGGCTTCTAATTTTCTGTATCTATACCAGTCTCTAGTTGAAACTACACAAGGGAAATGATTATCTCTTCCTTTTGAAAAT
ATTCAAGATACTTTAATATGTTGAAGATATTTGAGTATCTCCACCCTTCTAACTATGTCATTCTTCATTCCTTATGGCACATTCCTTGTTAATCAACTAG
AGGGTCAGATTCCCAAGCCTAACTATTGATTTGTTTCACCTACATAATTTAAGATCATTTCCTCATATTAATCATCTTCAGGCATAAACATGACTCAATA
ACCATTTCATAAAATTATTTCTTTAGAAATGATTATCTTGTATAGTTTAAGCAACCTCAGAGCATATACCATTTCTTCACATTTTCCATCTCGTAAAACC
TGCCTACTTTTTCATATTCTTTTAAAGTGTAATGTCCATGGCACAACCATTCTCTCTCTGACCAGTGGCTACCAGAAATGTGGCAGAAAGAAAGATCATG
ATCCTCGTTAGACTTAAAGGTCAGGGAGGTAAACCTCCCAAACATCTATGTAACCCACACTAAAACCTATTCTATATGTGTAATCCAGGAAAATTTTTAA
ACATTTTCTAAACTTTTATTTTTGACCTGTTTCACTTCTTGGGATTGTAACTGTCTGACGTGTTCTTCCTGCCTGTCATACAGACAAAACCAATTCCCTG
AGATCATGGTATATTGCAGTAAAGAAAGAGATGAATTAACACAAGGCCAGTCACGTGGAAGAACTGGAGTTATCACTCAACTCAGTCTCCCCAAGAACAC
AGGGGCTAGGGTTTTTATAGATCATTTGGTAGGAAGGGAGCTAGGGAATGGGTACTACTGATTGGTTGGGGATGGGGGTGTGGGAAATGTTCCTCATGTG
CTGTGTCCACCTCTAGTTGGGGGCCACAGGACCAGTTGAGTCATGAGTCACAGGTCCAGGTAGAGTCAGTCAGTTGCCAAATGCAAAAATCTGAAAAACA
TCTCAGAAGACCAATCTTACATTCTACAATAGTGATGTTACCTATAGGAGCAATTAGGGAAGTCACAAATCTTGTGACCTCTGGCCACCTGACTCCTGAG
CAGTAATGAATTATAAGAACTATGCCTATATTTTAGCAGAGTTCAGGTCCCTCTCCTAATCCTAATCTTTTGGCCTTTCATTAGCTTTCAGGCCCTGAGC
AAGGAGGGAGCTAGTTTTAGGAAGAGACTGTTATTATCCTTGCTCCAAAGTTAAATTATAAACTAAATTCCTTTCATGGTTAGCTTGGCCTACACCCAGG
AATGAGCAAAGCCGGCCCACCTGTGAGGCTGGAAGCAAGATGAAGTCAGTCACGTTAGATTTCTTTCACTCTCAGAATCTTTGCAAAGGTGGTTTCAGGA
TAGTGAGTGCATTTCTCTAACAAAACACCATTGATTTTCATGTTAGAAATAACATATAGCTAAAATTGGAAAAAAGAAGTAATAAACTTAAATAATCAGA
AGGCAGAGGTCCCTTCTTTTGGAAGGAGTTGGGCTAATTAATCATGCAGTCATACCTCCTTGAGTGGGTGTGGCCAATAAGCTAAGTCATTGTGGCTATG
TGAGGAGGGCCAATTATTCCTTATCTGGAGCTCAAGCTTTCCTCACAGAAAGAGAAGGGCATAAAGGGCCTCATGGCAAAGAAGAAGGAAGTCATGTGGG
AAACACAGAATATGAGTGGAGAGTATCGTAGTGGTCATCAAGTAAGAAGAGCCGTTTATCCTGGAGCTAAAAAAGACTGACAGATATAGAATAGTGTAGA
ACAAGATGGCCTGCTCTATGGGAGAGCCACAATCACACCAGGACTAGACAGTAGCAGGCTGATGTATATCTCAAACACTGGAGACAATTCAGAAACTGCA
TAAACAGTCTGAAGACTTACTAAGAAACTAAAATGAGGCTGGGCGCGGTGGCTCAGGCCTGTAATCCCTGCATTTAGGGAGGCCTAGGCGGGTGGACCAC
CTGAGGTCCGGAGTTGGAGACCAGCCTGGACTACATGATAAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCGGGCACATGTAA
TCCCAGCTCCTCAGGAGGCTGAGGCAGGAGAATCACATGAACCAGGGAGGCGGGGTTGCAGTGAGCCAAGATCGTGCCACTGCATTCCAGCCTGGACAAC
AAAAGCAAAATTCCCTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAGAAAAAAGAAACTAAAATAAGACAGAAATAGAAGTAATTCACACA
CAGAAATCATCTCACCTTCTTTAAAATGCTCCTCAAGGAGGCCTACTTTAACGATCCTAGTAAAGATGGTATGACTCGTATGACCCCCACCCCCACATTC
CCAATCTTTCTTATCCTGCTTTATTTTTTTGTATACTTATCGTTTATTATAATTAATTAAATAATTAAGTTTCTTGTTTATTGTCTCTCTCCCTCCATGA
AGTCGGGGATTTTTGTCCTGTCTTCACCAATGGATACATAACAAATCTAAACTGTCCCCGGAACAAAGAGAGTCTCAATAAATACTTATCAAATGAATGA
GTGAGCTAAACACTACTAAGAGTGTTACCACAAGGGGAAATTTCTGCTCTAATTAATTCTCTACCAAGTTAAACAGTGCATCTTTAACTTGTCCTAAGCT
TACTCCAGGTTTCAAGGCTGCTCCTTGTACTAATATACCAACTGTCTCAGTCTGTTGGTATAGATACTTGGGCAGTTATAACAGAAACTCCATAGACTGG
GTGGATTCAATAAGCATTTAAGCTGGGTGCAGTGGTACTCACCTATAGTCCCAGCTACTCGGGAGGCTGAGGGAGGAGTACTGCTTGAGCCCATGAGTAT
AAGGCCAGCCTGGGCAATATGGCAAGACCCCGTCCCTAAAAAACATTATTTCATTTCTAAAAACCAAGCATTTATTTCTCATAGTTCTGGTGGGTAGAGC
GTCCAAGATCAAGGCAACTGCAAATTCAGTGTGTGGTGGGACTCACTTTCTAGTTAATAGACTTCAATCTTTTCTTTGTGTCCTCACCTCAGAGAAAAGC
AGTGAGGGAGCTCTTGCGGGTCTCTTTTCTAAGGGAACTAGTCCCATTCACAAGGGGTCTTTGAGAAGTAATTAGATACTATAAATTTTCAACATATAAA
TTTGGAAGGATTCAAACATTCAGTCCATTGTACAAACACTGAATTTGATAAGCACATCTGCTTAAATGATATCACATGTGTTGATTTCATGTGCTTTTCC
ACCTTTGTTTCTAAATTCCGTTAACCCATCTCTGAATTCATTCAACCAAGACTCTCTCCCAGACAACTCTAGTCCAAAATAATGTCTGTCTTTGAAACTC
ACATTTCCTGACTATACTATTTTAAAAATAAACTGGGAGGAGCCAAGATGGCCGAATAGGAACAGCTCCAGTCTACAGCTCCCAGCGTGAGCGACGCAGA
AGACGGGTGATTTCTGCATTTCCATCTGAGGTACCAGGTTCATCCCACTAGGGAGTGCCAGACAGTGGGCGCAGGTCAGTGGGTGCGCGCACCGTGCACG
AGCCGAAGCAGGGTGAGGCATTGCCTCACTCGGGAAGTGCAAGGGGTCAGGGAGTTCCCTTTCCTAGTCAAAGAAA


SNP Information

Context             (SEQ ID NO:61778):
GTGGTGACCTACCACTGCAATCTTGGAAGCAGAGGGAGAAAGGTGTTTGAGCTCGTGGGTGAGCCCTCCATATACTGCACCAGCAAAGATGATCAAGTGG
K
CGTCTGGAGCGGCCCAGTCCCTCAGTGCATTATACCTAACAAATGCACACCTCCAAATGTGGAAAATGGAATATTGGTGTCTGACAACAGAAGCTTATTT
Celera SNP ID:            hCV25473514
SNP Position Genomic:     71437
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,8)   caucasian(G,15|T,25)   total(G,43|T,33)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,4)      total(G,4|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61779):
ATATATAACATTTTTTAATGAAAAATAACAATTTTCCAAAACAAAATAAAATTAGTGAGAATAGTGGCATTGTTCACATTTTTTGCACATCTCTTCAACA
Y
CTAACTTAAAGGAAGACTTGGATTTGGGCTGTTGTGTAATCACACAATATGTAGACTTTGGAAAATATCACTATACACTTCTGCCCGGCGCAGTGGCTCA
Celera SNP ID:            hCV26971185
SNP Position Genomic:     16763
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61780):
CTGAAACAGCTCGCTATTCACTCCTATTTTCTTCTTTAGATTTCAATTAAAAGGCAGCTCTGCTAGTTACTGTGTTTTGGCTGGAATGGAAAGCCTTTGG
R
ATAGCAGTGTTCCAGTGTGTGAACGTAAGTAATAGGAGTAACATTTCAGGCCAATCTCTCCTCTTCATCTGTTCAGTATTTGACCCATGACCTCCCCTAA
Celera SNP ID:            hCV25651821
SNP Position Genomic:     60123
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,32|G,8)   total(A,64|G,14)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61781):
TCAGACCAGTAGTCCTCAAAGATTTTTTGCCTCAGGGCACCTTTTACATTTTAAGATTAACAAAGATCCCAAAGAGGTTTCTTTTATGTGGGTTATATCT
R
TTGGTATTTATCATATTGGAATTCAAACTGAGAGATTTTTTAAATAAGTATTGATTCTTTTTGTTTTTGTTTTTGTTTTTCCTAAGAGAGGGTACCAGTA
Celera SNP ID:            hCV26971186
SNP Position Genomic:     16295
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61782):
CTGTTGAAAGCATTAAGAATGTAGTAATCATGAGAATTCATCCTTCACAACTGAGTGTCCCCTATTTAAATCTGCAAACTCTTAGAGTTAAAGTAGGGCT
S
ACAGAAATGAGAAATAGAATTGCCAACTAAAAATATGCTTGTATCCAGATGACTCTGTAAAGTGTGACCTGGTTAGCCTTTACCATCATGTTGAACAAAA
Celera SNP ID:            hCV1896451
SNP Position Genomic:     14401
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,7)      total(G,7|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61783):
CCCTCTTAATGCCCTAATCATTTCTGAAAGGCCCCATCACCTCTCACTGCTGTTACACTGGCAATTAAATTTCAATAAGAGTTTTGGTAGAGACAAACCA
S
ATTCAAACAATAGCAATAATACACTATAATATATAAACAAAGTGAGTCTTGGAGGAAAAGTGCACTGTGACCATGTAAGGCAGTTTCACTAAGAGTTTTT
Celera SNP ID:            hCV26971187
SNP Position Genomic:     15081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61784):
TTGAAAAACCTTATTTCTGAGACTGCTACAATGTGAAGCATCTCAAGAACAGGCACTGAGCACTCGGTAATAGCCTTTGTTCTGCAGGACTTTTAAAGTC
M
TAGATATTGGGGATACTGGACATTTAAGTGAAATGTGCTTTTAGAGAGTAAATGTAATTTTCATAGATTTTCTATTGCTATAACACAATACGTGAGACTA
Celera SNP ID:            hCV1896452
SNP Position Genomic:     14610
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,5)      total(A,5|C,5) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61785):
GTGAACTAAGTGTCCTCTTGGCTGAAACAGCTCGCTATTCACTCCTATTTTCTTCTTTAGATTTCAATTAAAAGGCAGCTCTGCTAGTTACTGTGTTTTG
K
CTGGAATGGAAAGCCTTTGGAATAGCAGTGTTCCAGTGTGTGAACGTAAGTAATAGGAGTAACATTTCAGGCCAATCTCTCCTCTTCATCTGTTCAGTAT
Celera SNP ID:            hCV25651822
SNP Position Genomic:     60102
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,40)   total(G,76|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61786):
GAAAAACCTTATTTCTGAGACTGCTACAATGTGAAGCATCTCAAGAACAGGCACTGAGCACTCGGTAATAGCCTTTGTTCTGCAGGACTTTTAAAGTCAT
R
GATATTGGGGATACTGGACATTTAAGTGAAATGTGCTTTTAGAGAGTAAATGTAATTTTCATAGATTTTCTATTGCTATAACACAATACGTGAGACTAGA
Celera SNP ID:            hCV1896453
SNP Position Genomic:     14612
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61787):
GTGTGCCACTACACCTGGCTAATTTTTTGTATTTTTAGTAGAAATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCTATCTCCTGACCTCGTGATCCGCC
S
GCCTCGGCCTCCCAAACTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCCAGTGTAGATAATTCACTTTACTAAAACTCACCTGGAACTTTGGGGA
Celera SNP ID:            hCV26971188
SNP Position Genomic:     11914
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,5)   total(G,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61788):
GATAGTGGGAGAAGGAGCAAGATGGTCAGGTTTCATTGCCATTTCACTTGTAGTCAAATACCATGAATTTCTGGTAATACTAATCTGGGCAGGGCTGTGG
R
TATGCGTGTACATTAGTTAATTTTTTGCAAGCAGGTGTGAATGTACAGAAGTTGAACAGTTCAGTGGATGCAGTGTAGATTTTTTTTTTTTTGAGACAGA
Celera SNP ID:            hCV26971189
SNP Position Genomic:     11594
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61789):
TGTGCAACTCTGCCACCTGCTGGCCTCAGGTCCTCAAAATCCTGAAATTGGGGCTGGGCCTTAGATTGTGAACTAAGTGTCCTCTTGGCTGAAACAGCTC
R
CTATTCACTCCTATTTTCTTCTTTAGATTTCAATTAAAAGGCAGCTCTGCTAGTTACTGTGTTTTGGCTGGAATGGAAAGCCTTTGGAATAGCAGTGTTC
Celera SNP ID:            hCV25651823
SNP Position Genomic:     60035
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,5|G,33)   total(A,10|G,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:61790):
GTCCTGCACTCCCCAGTGAGATGAACCCGGTACCTCAGTTGGAAATGCAGAAATCACCCGTCTTCTGTGTCGCTCACACTGGGAGCTGTAGACTGGAGCT
G
TTCCTATTTGGCCATCTTGGCTCCTCCCTCCTATTTTATTCTTTTCAGAGTGATCTGTTGACACCTTTACTGAGTTTGTTCCTATTGCAGGACTCTTTGA
Celera SNP ID:            hCV636861
SNP Position Genomic:     24637
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,8)   total(G,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61791):
TGGCACTTTGCATTACCATATAAAATTTAGAATCAGCTTGTCAATTTCCACAAAAAGAATCCTACTTGAATTTGTATTGAGTTTCTATTGACTTAGTACA
W
CAATTTGTAGACATTAACAAATTTAGTTTTGAAGTTTAAATTTATGAACATGATATATCCTCCCATTTTTGAAGTCTTCTTTAATTTCTTTTAAAAATAT
Celera SNP ID:            hCV26971110
SNP Position Genomic:     49532
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61792):
TCCTTCCCCTCTGCAGAGGGCAAGCCGGAGGCTGGTCTCAGCAGGAGCTAGGGCTCTCCTCAAAGGCTTTCTGACCTTGGGGCAGGCTTGACATCCCCAT
R
GCCCTGCATCCCTCATCCCTTTTCATGTCTACTGGAGGACAGTGAGCCATAGCTGCAGCAATCTTGTTTAAATTTAGGTAGTTGAATTTTTTAGAATTAA
Celera SNP ID:            hCV9502380
SNP Position Genomic:     20273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61793):
GTGGATGTCATTCCAGGGAGGTTCTGTTCCACTGGTTTATTTGCCATACATTGTGTTTTTGTTTGGTTTAGTTTTTTGCCATACTATAATGGCAAAAAAA
A
CTGTAGCATTACATTAAGATTTTAATTACTATAGCATGACATTAATATTTGATATCTGGTGGCATATATCTTCTAACTATGTGCATCTTCAAGATTTACT
Celera SNP ID:            hCV26971111
SNP Position Genomic:     49321
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61794):
TGGATAGGCAATTGATCTAATATCATTTATTAAATGTTGCACCATGGCCATAAGTCAGGTGACCTATATGTGGATGTCATTCCAGGGAGGTTCTGTTCCA
Y
TGGTTTATTTGCCATACATTGTGTTTTTGTTTGGTTTAGTTTTTTGCCATACTATAATGGCAAAAAAAACTGTAGCATTACATTAAGATTTTAATTACTA
Celera SNP ID:            hCV26971112
SNP Position Genomic:     49252
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61795):
TGCCTCTCTTTCCCCCTCACATGGAAGTCTTACTCCTGTTGTTTTATTTTTTCTTCTCGTGAAATCCTGTGATGACTTCCTGGGCCAACTCCCTCATGGC
Y
GTGTGCTGTTTCCACTTAATCTCCAGCTTGGGGCTAAGGTATCCTTTGTTTGTGATGAAGGGTGAGTGTGACCCAGTGTTGAGACCAAGGACTCAGTGTG
Celera SNP ID:            hCV26971040
SNP Position Genomic:     73680
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61796):
CCACATCTCAAAGGGAAGGATTAAAACATTTCACCATTAACCTGGTGTTTACAGTAGGCTTTTTGTAGGTAACCATTTTTGAATTAAGGACATTCTCATA
Y
ACTCTTCATTATTAAAAATTTTTTGTCTTTGAAACATGTTGAAGTTTATCGAGCACTTTAGTTATATGTATCGATGTAATCATATCTGTTTCTCTTTTTT
Celera SNP ID:            hCV26971113
SNP Position Genomic:     47271
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61797):
TTACTAACTATGAGGCCTTCAGCAGGCATAGGATATAGCAAAAGAAATTCCCCCATAACTAACAAGTACTCTGGAACTGTCCTTTCTACAATGTGTCAGC
Y
GCCTCCAGAAATCCTGCATGGTGAGCATACCCTAAGCCATCAGGACAACTTTTTACCTGGGCAGGAAGTGTTCTACAGCTGTGAGCCCAGCTATGACCTC
Celera SNP ID:            hCV26971041
SNP Position Genomic:     73411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61798):
GAATTTTCTTGGAAATATTAAAAAAAATTAGTAAAATAGAAAAAACAAACAATATAATAATACACCTATACCTATATCTATATTTTTATCTCTGTTTCTA
S
TTCTGTAAACTCTCTATACCCAAATCCTGGTAAATGGCTGTAAGTCTTCTTGGAGAAGACTAGGGGAAGATTTACAATACATGCTTTTGACTGCGTAGCA
Celera SNP ID:            hCV26971114
SNP Position Genomic:     46055
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,7)   total(G,5|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61799):
TAGAGTAACCTAAATATTTTAAACTATGGTTTGGAAATAATCTACTAGTAGGAAAAAGATGTGTTCAAATGACCATTACAAAGAATTCCCTAAGAAACAT
R
AAATAGCTATGCAGAATGAAAATAAGTATATCCATACACTGGCATGGTATTCAGCCATAAAAAATGATAGCATAAAGAAGCACTTAATGACTAGAAAGAG
Celera SNP ID:            hCV26971115
SNP Position Genomic:     45484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61800):
AAAATGTTATTATTAGGGGAAAATTGAGTAAAGTGTACCTGGGATCTTTCTGTGCTATTCCCTACAACTGCATGGGAATCTGATTATCTCAAAATAAAAT
W
TTTTTTTTTTTAAGTTACTACTAAATTTCCAAGGGGATGGGCTTCCTACCAAAGAATTGTATATTGTGAAATTAAATCATTCGAACTTAAAACAATTCAA
Celera SNP ID:            hCV12080020
SNP Position Genomic:     41411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61801):
TTATTTATATTAGTTAAAATGTTAGAGTAACCTAAATATTTTAAACTATGGTTTGGAAATAATCTACTAGTAGGAAAAAGATGTGTTCAAATGACCATTA
Y
AAAGAATTCCCTAAGAAACATGAAATAGCTATGCAGAATGAAAATAAGTATATCCATACACTGGCATGGTATTCAGCCATAAAAAATGATAGCATAAAGA
Celera SNP ID:            hCV26971116
SNP Position Genomic:     45462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61802):
CAAAATGTTATTATTAGGGGAAAATTGAGTAAAGTGTACCTGGGATCTTTCTGTGCTATTCCCTACAACTGCATGGGAATCTGATTATCTCAAAATAAAA
W
TTTTTTTTTTTTAAGTTACTACTAAATTTCCAAGGGGATGGGCTTCCTACCAAAGAATTGTATATTGTGAAATTAAATCATTCGAACTTAAAACAATTCA
Celera SNP ID:            hCV12080021
SNP Position Genomic:     41410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61803):
ATCACTTGAACCTGGGACGCGGAGGTTGCAGTGAGCTAAGATCACACGACTGTGCTCCAGCCTGGATGACAGAGTGAGATATCACCTCAAAAAAAAAAAA
A
CACAAAAAACAAGAAACAAAAATAATTTACATGTAATTGAAGCGGGCTTACAGGAGTATAAATACAGTTGCCTGCCAGGAGCTCATATGTTGCTGACTCT
Celera SNP ID:            hCV26971044
SNP Position Genomic:     72786
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61804):
TCTTGAAAGGCCCCATGCACTATAAACCTCAGAAGTGGGCATGTATTTTAACCTACTTCTTAGAATTTATACTTAGGAAATAATCACACACTTTTTAAAG
Y
AGTTTGGTATAAACTTTTCATTGCAGCATTATTTATATTAGTTAAAATGTTAGAGTAACCTAAATATTTTAAACTATGGTTTGGAAATAATCTACTAGTA
Celera SNP ID:            hCV26971117
SNP Position Genomic:     45333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61805):
AATCACTTGAACCTGGGACGCGGAGGTTGCAGTGAGCTAAGATCACACGACTGTGCTCCAGCCTGGATGACAGAGTGAGATATCACCTCAAAAAAAAAAA
M
ACACAAAAAACAAGAAACAAAAATAATTTACATGTAATTGAAGCGGGCTTACAGGAGTATAAATACAGTTGCCTGCCAGGAGCTCATATGTTGCTGACTC
Celera SNP ID:            hCV26971045
SNP Position Genomic:     72785
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61806):
GGACTCTCATGTACCACGAGATCAACACATCCTCTTGAAAGGCCCCATGCACTATAAACCTCAGAAGTGGGCATGTATTTTAACCTACTTCTTAGAATTT
R
TACTTAGGAAATAATCACACACTTTTTAAAGCAGTTTGGTATAAACTTTTCATTGCAGCATTATTTATATTAGTTAAAATGTTAGAGTAACCTAAATATT
Celera SNP ID:            hCV26971118
SNP Position Genomic:     45301
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61807):
AATCTCATGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGACGCGGAGGTTGCAGTGAGCTAAGATCACACGACTGTGCTCCAGCCTGGATGACAGAGT
R
AGATATCACCTCAAAAAAAAAAAAACACAAAAAACAAGAAACAAAAATAATTTACATGTAATTGAAGCGGGCTTACAGGAGTATAAATACAGTTGCCTGC
Celera SNP ID:            hCV26971046
SNP Position Genomic:     72761
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61808):
GAACCTGGACTCTCATGTACCACGAGATCAACACATCCTCTTGAAAGGCCCCATGCACTATAAACCTCAGAAGTGGGCATGTATTTTAACCTACTTCTTA
R
AATTTATACTTAGGAAATAATCACACACTTTTTAAAGCAGTTTGGTATAAACTTTTCATTGCAGCATTATTTATATTAGTTAAAATGTTAGAGTAACCTA
Celera SNP ID:            hCV26971119
SNP Position Genomic:     45295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61809):
AAGTTCTAAATAACACGCCCCTCAATTTGCATTGATGTGCCCCTTAACTTACCTGTAATTGGCTGGGCATGGTGGCCCATGCCTGTAATCCCAGCACTTT
K
GGAGGCCAAGATGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTTTACTAAAAATACAAAAATTATCTGA
Celera SNP ID:            hCV26971047
SNP Position Genomic:     72540
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,5)   total(G,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61810):
ATGAGTATTTGTTTAGGGGGAGGGATGTATGTTGAGGAGGGTGGGAAAGTAAGTTTTGGGGGAAGAAGCATGAAATTAAGAATCTGGGGTGTGCATGCAC
Y
CATGCATATGTGTCTTCATTTTGAAAAGCAAGACCTTAATTAGCCAAGAAAACTGGTATTTTGGACTCACCTATTAATCAATTGTCAGGGCAAAGTACCA
Celera SNP ID:            hCV26971048
SNP Position Genomic:     71822
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61811):
AGGAGATGAGTATTTGTTTAGGGGGAGGGATGTATGTTGAGGAGGGTGGGAAAGTAAGTTTTGGGGGAAGAAGCATGAAATTAAGAATCTGGGGTGTGCA
W
GCACCCATGCATATGTGTCTTCATTTTGAAAAGCAAGACCTTAATTAGCCAAGAAAACTGGTATTTTGGACTCACCTATTAATCAATTGTCAGGGCAAAG
Celera SNP ID:            hCV26971049
SNP Position Genomic:     71817
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61812):
CTTCTCCGAGAAGCCGGGAGCCTGTTGGGCAGCCGGCGCCCGGTCTCCCCTTCTGCTGCGGAGGATCCCTGCTGGCGGTCGTGGTGCTGCTCGCGCTGCC
R
GTGGCCTGGGGTGAAACGCTGGGGGGCGTGGGGAGGCGCCCGGGCTGACGAGGCACCCAGGGCCCCGCAGAGAACTCGCGTGCCGCGCTGGGCTGCGCTG
Celera SNP ID:            hCV25472431
SNP Position Genomic:     30427
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,26)   caucasian(A,9|G,31)   total(A,11|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:61813):
GTAATTCAAACTATTAAGGAAGAGACTGTTAGGAGGAGTTTAACAAGGAGGAGGCCCTTTAATGACTCAGAAAGTAGTTGAAGTAATTTTCATAGACCTA
R
AAATGAGTGGGAAGTGAGAAATAAAATTGAAATATGTAGATGTCAGAGTTTATGTTTTGTGGAAGCAAAAAAGGTTTTAAATAGATTGGATAGTGGGAGA
Celera SNP ID:            hCV26971190
SNP Position Genomic:     11405
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61814):
TTCTGTAGAATGATTATTTTCAATATGAAATTGATTACAATATATTCTTCACATTGTTTTGTGTTTGACAGCAGTGGACTTTGAGTACCAAATTTTTTTC
R
AATAGCTACTATGAGGGACATATTGTGCTGGGTGTTGTGGCCACATGGATGAATGGAGTCGGCCTTGTTAACTATTAAACTCAAAAACACGTGATAATTA
Celera SNP ID:            hCV26971192
SNP Position Genomic:     9859
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61815):
TGGGATTACAGGTGCGACACCATGCCAGGCTAATTTTTGTATTTTTAATAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTC
R
TGATCCACCTGCCTCAGCCTCCAAAAATGCTGGGATTACAGGCGTGAGCCACCATGCCTGGCAAAGAATGACACTGGGTGTATTAAAAAGTATGATAAGT
Celera SNP ID:            hCV27978335
SNP Position Genomic:     26519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61816):
TGTTCTGTAGAATGATTATTTTCAATATGAAATTGATTACAATATATTCTTCACATTGTTTTGTGTTTGACAGCAGTGGACTTTGAGTACCAAATTTTTT
T
CGAATAGCTACTATGAGGGACATATTGTGCTGGGTGTTGTGGCCACATGGATGAATGGAGTCGGCCTTGTTAACTATTAAACTCAAAAACACGTGATAAT
Celera SNP ID:            hCV26971193
SNP Position Genomic:     9857
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61817):
AGCTGCTTTTTTGGACAAAACCCCCGATCTCCTGTTGTGTGTGGTCTCTTCTGCCTATTTCAGGTGTTTTCCTTATTTTCAATGAAAGAAGCCAAGACCA
R
TAAGTTCTTATTGCTTCTTAGTTTCCTCACTCGGCATACTACAATGCAAAAAGAGCAGTCCATATCTGGTCACCTGCCAGGATACCAGAAGACTGGGAGA
Celera SNP ID:            hCV26971194
SNP Position Genomic:     9618
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61818):
TCTCACAAAGATAAGGTTTTGTAAGCAGGTGGTGCTGTGCATGGGAGACCTGCCCTCTCAAAGGTAGTTGCCAAATGGTTCCAGATAGCAGAAGGAAACA
T
GTGTCAAATTTCAGGCCAGTCTCATTCATTCCTCCAGAAGAGGAGCTGCTTTTTTGGACAAAACCCCCGATCTCCTGTTGTGTGTGGTCTCTTCTGCCTA
Celera SNP ID:            hCV26971195
SNP Position Genomic:     9474
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61819):
CGGCTGGCTTTCGGTTTCTCTGCTCACCTCCGGATAAATCACGGGGTCTCCCGCGCCGCTCATGGCGCCTCCCGTCCGTCTCGAGCGTCCCTTTCCTTCC
Y
GGCGCTTTCCTGGGTTGCTTCTGGCGGCCCTGGTGTTGCTGCTGTCCTCCTTCTCCGGTAGGACCCCGGGGTGGATTCGCGCGTCCGCGGCGAGGCTAGA
Celera SNP ID:            hCV25929188
SNP Position Genomic:     6162
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,40)   total(C,69|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61820):
TTTTCCTTAAATGAAGTTGTGGAGTTTAGGTGTCAGCCTGGCTTTGTCATGAAAGGACCCCCCGCACCGTGTGCAATGCCAGGCCCTGAACAAATGGGAG
M
CAGAGCTACCAAGCTGCTCCAGGGGTGTGTTTGCCTGAGGCCTAGAAGGGCCCTGCAAGTGACATGCATTGCTGTTGGATCAGGAGATGAGTATTTGTTT
Celera SNP ID:            hCV25473525
SNP Position Genomic:     71635
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,4)   caucasian(A,7|C,11)   total(A,33|C,15)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,6)   total(A,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61821):
AAGTACATACAGCCTGGGCATCATAAGGAGAGCCCACCTCTACAGAATATTAAAAACAAAAAATTAGCCAGGTGTGATGTTGCATGCCTGTGGTCCCAGC
Y
ACTTGGGAGGCTGAAGGGCGTGAAGGGGGAGGATCACTGGAGCCCCCATGGTCAAGGCTGCAGTGAGCCCTAATCATACCACTGCACTCCAGCTTGGGTG
Celera SNP ID:            hCV26971196
SNP Position Genomic:     8937
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61822):
TTCAAGTACCTCTTGTAATCACCCTTTTAAAGTGATCTTTTCTGTTCTCTGTCTCTCCCCATCAGAATGCAGGAATCTTCTGTCTTCCCCCATTTGTGGT
Y
CCAAAAGCCCCATTTGTTTGCTTCTGTATGAACCCTAACTCAGTATCCATATAGACATCTGTTAAATATCAGAAAATTAAATATACTATTTGGCTGGGGC
Celera SNP ID:            hCV26971197
SNP Position Genomic:     8429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61823):
CCTAGTGAGAAATTAGTATCCTAACAAAGGAAGGCAGATAATGTTAATCTTGTTTTCCCCTACAGCTCATAAACTGAAGCTTAAGGCCTATCCCACTGTT
Y
TGTATTTCATTGAATGGAATCAATATTTTTAAAAATGCATGCTAGGCCAGGCCCAGTTGCTCACACCTGTGATCCCAGCACTTTGGGAGGCCCAAGTTGG
Celera SNP ID:            hCV26971198
SNP Position Genomic:     7273
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61824):
CGAGCGCGGACTCTGCGGCTAGGGAGGGCATGTTGAGTGAGAGCAGGCTCTCAGTGCCTGGGGTTAGAGAGGTGGTAAGGGCGCACCATGCTTTTAGTGC
Y
TTCTGTGAACAGTGTCCGTGTTGCCTGAGATCGTATTGGTCTTGAATTTTAAGTGGCTGCTTTTTTGGGGGGTGGGTGGGCCATCGAGTCATCTTCCTGT
Celera SNP ID:            hCV26971199
SNP Position Genomic:     6945
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61825):
AAATTTCTTATTTTAGTAATGTTTGGTTGTGAATCAATGTGTACATCACCTGTCTTTGGAACTATCTGATCTGTCTCTGTCATTTTGTATTCTATGTTCT
M
TTGCGATAAATCCTATGGTCGTGTGCTTCTAGGTCAGGAGAGATTAGATAATGTGAAGCTTTTACAATTTGCTTTCTTTCTCTACTTCTTTTCTTTCTTC
Celera SNP ID:            hCV25651833
SNP Position Genomic:     60363
SNP Source:               Applera
Population(Allele,Count): african american(A,30|C,4)   caucasian(A,33|C,5)   total(A,63|C,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:61826):
ATGCTGAGCGTACCCAAAGGGACAAGGACAACTTTTCACCCGGGCAGGAAGTGTTCTACAGCTGTGAGCCCGGCTACGACCTCAGAGGATCTACGTATTT
R
CACTGCACACCCCAGGGAGACTGGAGCCCTGCAGCCCCCAGATGTGAAGGTGACTAGACTCTTATCTGGCTTGGTATTTTTAGCTTGCGTCTTTATTCTC
Celera SNP ID:            hCV25651834
SNP Position Genomic:     58503
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(G,40)   total(A,3|G,73)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:61827):
TGCACGCCTCCAAATGTGGAAAATGGAATATTGGTATCTGACAACAGAAGCTTATTTTCCTTAAATGAAGTTGTGGAGTTTAGGTGTCAGCCTGGCTTTG
K
CATGAAAGGGCCCTCCCATGTGAAGTGCCAGGCCCTGAACAAATGGGAGCCAGAGTTACCAAGCTGCTCCAGGGGTGAGTCTGACTGAGGCCTAGAAGGG
Celera SNP ID:            hCV25651835
SNP Position Genomic:     55550
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,38|T,2)   total(G,76|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61828):
AATCTTGGAAGCAGAGGGAAAAAGGTGTTTGAGCTTGTGGGTGAGCCCTCCATATACTGCACCAGCAAAGATGATCAAGTGGGCATCTGGAGTGGCCCAG
Y
CCCTCAGTGCATTATACCTAACAAATGCACGCCTCCAAATGTGGAAAATGGAATATTGGTATCTGACAACAGAAGCTTATTTTCCTTAAATGAAGTTGTG
Celera SNP ID:            hCV25651836
SNP Position Genomic:     55424
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61829):
TCCCAAGAATGTGAAATTTGGGAAGGTGATAGACAATTCTTTGACAAGTGGAAAATGTCCCTCTGAATTCTATAAGAGTGTAATCTCTGGAAGTAGTAAT
Y
TAATTGGGTAGTTGACCTGTGTATTTAGAATGTAACATTCCTTATTTTTTGCCTCTAGATACCGACTCATTGGTTCCTCGTCTGCCACATGCATCATCTC
Celera SNP ID:            hCV25473743
SNP Position Genomic:     44686
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,30)   caucasian(C,16|T,24)   total(C,24|T,54)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61830):
TGTGGAAGAACCTGGACTCTCATGTACCACGAGATCAACACATCCTCTTGAAAGGCCCCATGCACTATAAACCTCAGAAGTGGGCATGTATTTTAACCTA
Y
TTCTTAGAATTTATACTTAGGAAATAATCACACACTTTTTAAAGCAGTTTGGTATAAACTTTTCATTGCAGCATTATTTATATTAGTTAAAATGTTAGAG
Celera SNP ID:            hCV26971120
SNP Position Genomic:     45288
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61831):
TGTGACAGTGAGTTGAAATATGCATTCCTATTTCTTTTACCGATACATTCTAATTTTTCTCTGGAATAATAAAAATCTTAACCGAATTCCTTCTGTGCAA
W
CTGTACTTCACATGGCTGAAGACAGCCATAATGTTCTCAGATATTCCTATGGGGTTCCTGGCAACTCTTTCTTTAAGTTCTTTCTTATCCTGGGATGTGT
Celera SNP ID:            hCV26971121
SNP Position Genomic:     44924
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61832):
CACTGTGAATGGCCTACTTTGATGAATCTTACTGATAAAAGCCCATCCATGCATCCATATATTAATACTTATAAGGCATAGAAATACATACAACAGGACT
R
CATACACACATACATATGTATATATATGACAGCTTCCCTGCACTCAAGAAGCTTGTGTTGTCTTTTAAAAAAATGAAATTTATAGGAAAAACTGTAACTC
Celera SNP ID:            hCV26971122
SNP Position Genomic:     44396
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61833):
GGAGTCTTGCCATATTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCTATCCTCCCACCTTGGCCTCCAAAAGTGTTAGGATTACAAGTGTGAGCCAC
Y
GTACCCAGCCAAATTTTTATGTTCTTTTATCCCCTCACTTATCATAAACAATTTAGTCAGCTTGTTTTTTAGCCTGCAGTATTGAATGACATAGGGCTTC
Celera SNP ID:            hCV27935005
SNP Position Genomic:     76859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61834):
TAATCCCAGCACTTTGGGAGTCCTAGGTGAGCAGATCGCTTGAGCCCAGGAGGTCGAGACCAGCCTGTACAACATGGTGAAACCCTGTCTCTACAAAAAA
K
ACAAAAATTAAATGGGCATACTGGCACACGCCTGTAGTCCCAACTATTCGGGAGACTGAGAGGTGGGAGGATTGCTTGAGCCAGAGAGGTCAAGGCTGCA
Celera SNP ID:            hCV26971050
SNP Position Genomic:     70122
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61835):
TGCAGCCTCAATCTCCCAGGCTCAAGCGATCTTCCTGCCTCAGCCTTCTGAGTAGCTAGGACTACAGGAATGTGCCACCATGCGTGGCTTTTTAATAAAA
W
TTTTGTTGAGACAGGGTCTCACTATGTTGCCCAGGCTTCTCTCGAACTCCTGAGCTCAAGCAGTCCTCCTACCTCAGCCTCCAAACGTGCTGGGATTACA
Celera SNP ID:            hCV26971123
SNP Position Genomic:     44186
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61836):
AATGAGCAATTGCAAGCTAATAAGGAATATAAAATGTGTATAATCCTGGGTTTAGTGATGGTGTGAGGAAATCAGCAATTTCAAACCCATCTGGTGGGAG
R
ATAAGTGGGAACAAACTTTGTAGAAGGGCAATATACTGGCTGGGCACTGCCCTACAGTAGAGTAGGACACAGTATTCAGTTCTTCCAAGATCAGATGAAA
Celera SNP ID:            hCV26971051
SNP Position Genomic:     69724
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61837):
GGTCAGCTTGGATTGCCTTTGGTTCTAGTTATAAATCATTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTCTTTCTTTTTCTTTCTTTCTTTCTTT
Y
TCTTTCTTTCCTTCCTTCCTTCCTTCCCTCCTTCCTTCCTTCTTTCTTTCTTTCTCTTTCTTTCTTTCTCTCTTTCTCTTTCTCTCTCTCTCTCCCTCTG
Celera SNP ID:            hCV26971124
SNP Position Genomic:     43889
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61838):
ATAAAATAAGTGTTCAGTTCTTTTTGGTCAGCTTGGATTGCCTTTGGTTCTAGTTATAAATCATTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTC
T
TTCTTTTTCTTTCTTTCTTTCTTTTTCTTTCTTTCCTTCCTTCCTTCCTTCCCTCCTTCCTTCCTTCTTTCTTTCTTTCTCTTTCTTTCTTTCTCTCTTT
Celera SNP ID:            hCV26971125
SNP Position Genomic:     43864
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61839):
ACAATAGGTAAAGTTTAGGCTAGGCCTTAGACTTCTCCTATATTGTAATCCCTCTGGTTTGCCACATATGCATGCTGTCAGGAAGTTGATGAGGTATGTA
M
AGCACAATTATTTTCCATTTTTTGCCTTTAGGCACCGACTCATTGGTCACTCATCTGCTGAATGTATCCTCTCGGGCAATACTGCCCATTGGAGCATGAA
Celera SNP ID:            hCV26971053
SNP Position Genomic:     69021
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61840):
TAACATTTTAAGTATAAAATAAGTGTTCAGTTCTTTTTGGTCAGCTTGGATTGCCTTTGGTTCTAGTTATAAATCATTTTCTTTCTTTCTTTCTTTCTTT
Y
TTTCTTTTTTTCTTTCTTTTTCTTTCTTTCTTTCTTTTTCTTTCTTTCCTTCCTTCCTTCCTTCCCTCCTTCCTTCCTTCTTTCTTTCTTTCTCTTTCTT
Celera SNP ID:            hCV26971126
SNP Position Genomic:     43851
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61841):
AGCACTTTCATTATATAGTATGTTGTTTAAGAAACCACCCCCCTCAAATTACTGCAGCGTAGAAAATAAACCATATAAAAAGTTCCTTCATTATTATGTG
K
CTTATTAATTGCTATACAAAACAGTAACCCTTTCTTTTCCCATTTAGTTATTACTTAATTGGTAAAGAAATTCTATATTGTGAACTTAAAGGATCAGTAG
Celera SNP ID:            hCV25924469
SNP Position Genomic:     16030
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,7)   caucasian(T,30)   total(G,25|T,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:61842):
GAAATCTCCAAGAAATCTTTTTCTTGGCAATAGATTGCCTGGGTGAACATGAAACTGAAATTTGCCCTTATAATAGGTAAAGAAAGAAAATAATATGCCC
W
TGCATTCAAAACCGCAATGCAGAATTTTGACCTTGATTCCAATCTGTTTAGAAACTGGATTGAAAAAATCTCAAAATTATTTTCTTTTAGGAAAAACATG
Celera SNP ID:            hCV25931033
SNP Position Genomic:     13876
SNP Source:               Applera
Population(Allele,Count): african american(A,17|T,1)   caucasian(A,22)   total(A,39|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:61843):
GAACAATAGGTAAAGTTTAGGCTAGGCCTTAGACTTCTCCTATATTGTAATCCCTCTGGTTTGCCACATATGCATGCTGTCAGGAAGTTGATGAGGTATG
K
ACAGCACAATTATTTTCCATTTTTTGCCTTTAGGCACCGACTCATTGGTCACTCATCTGCTGAATGTATCCTCTCGGGCAATACTGCCCATTGGAGCATG
Celera SNP ID:            hCV26971054
SNP Position Genomic:     69019
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61844):
CCAGCTACTTGAGAGGCTGAGGCAGGAGAATCACTTGAATCTGGGAGGTGGAGGTTGCAGTGACATTGCACTCCAGCCTGGGCGACAAGAGTGAAACTCT
M
TCTCAAAAATAATAATAATAATAAATAACCAAAATGATATCGAAGTCACTAATAATTACAACATAATAGCTACTATAATGTAACAATGTGTCAAGTGTCT
Celera SNP ID:            hCV26971127
SNP Position Genomic:     43322
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,4)   total(A,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61845):
GTGAGAGCAGAAAAAGAAGTAGAAAAGCTGGGAACAATAGGTAAAGTTTAGGCTAGGCCTTAGACTTCTCCTATATTGTAATCCCTCTGGTTTGCCACAT
R
TGCATGCTGTCAGGAAGTTGATGAGGTATGTACAGCACAATTATTTTCCATTTTTTGCCTTTAGGCACCGACTCATTGGTCACTCATCTGCTGAATGTAT
Celera SNP ID:            hCV26971055
SNP Position Genomic:     68988
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61846):
CATAGTGGCGTGCACCTGTAATCCCAGCTACTTGAGAGGCTGAGGCAGGAGAATCACTTGAATCTGGGAGGTGGAGGTTGCAGTGACATTGCACTCCAGC
Y
TGGGCGACAAGAGTGAAACTCTATCTCAAAAATAATAATAATAATAAATAACCAAAATGATATCGAAGTCACTAATAATTACAACATAATAGCTACTATA
Celera SNP ID:            hCV26971128
SNP Position Genomic:     43299
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61847):
GGATCAAAAGCAACAAATCTTGTATTTATAAAAAACATGCCTCAAGTTAAATGGCATAGTATTACACACACACACACACACACACACACACACACACACA
Y
ATTAAGGGAATACGCAAACAAAAAATGGCAGAAATAATATGGGAAAAGACAGAACTTAAGAAAGAAATTGTCAAGCAGGTCTACAAAATGATTGTTTTAT
Celera SNP ID:            hCV26971056
SNP Position Genomic:     68696
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61848):
CATCACACTCCGGGGCCTGTTGGTGGGTGGGGGGCTAGGGGCGGGATAGCACTAGGAGAAATACCTAATGTAGGTGACCGGTTGACGGGTGCAGCAAACC
R
CCATGGCACATGTATACCTATGTAACAAAACTGCACATTCTGCACATGTACCCCAGAACTTAAAGTATAATAAAAATTAATTAATTGATTAATTAATTTT
Celera SNP ID:            hCV26971129
SNP Position Genomic:     42942
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61849):
CAGGATCAAAAGCAACAAATCTTGTATTTATAAAAAACATGCCTCAAGTTAAATGGCATAGTATTACACACACACACACACACACACACACACACACACA
Y
ATATTAAGGGAATACGCAAACAAAAAATGGCAGAAATAATATGGGAAAAGACAGAACTTAAGAAAGAAATTGTCAAGCAGGTCTACAAAATGATTGTTTT
Celera SNP ID:            hCV26971057
SNP Position Genomic:     68694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61850):
GCACTCCAGCCTGAGCGACAGAGCCAGACTCCGTCTAAAAAAACAAACAAACAAACAAAGCAAATCAAATATATAATTTATTTCAATCCATTTGGTTTAA
M
CTTCTTGTCAAAAAACCAAGTCTACTAGACAGGATCAAAAGCAACAAATCTTGTATTTATAAAAAACATGCCTCAAGTTAAATGGCATAGTATTACACAC
Celera SNP ID:            hCV26971059
SNP Position Genomic:     68564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61851):
ACATAGAATAAACGGGCATTTCAGTTGTGGAAACATAACTTGTTTGGGGGGCGTGTGTGTGTATGTGTATGTGTGTGTAGAGTCAAAAGTGGCTCTTGGG
Y
CTCCCTTTGTTGTTTGAGCTAGAGTGACACATTCCAAGTAGAGCTGTGTGGGGAGGCAATTGAATATGTAGTTTTGGCACCCCAGCTAGAGATCTGGGAT
Celera SNP ID:            hCV8828813
SNP Position Genomic:     10945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61852):
TCTTGGAAAAACCTTGATTACCCTGTCATATAAATACTGCTCTGGTAATGTGAAAAATGAATTGAATGAAAGGTGGCAAGATAGGTATGGAGACCTATTT
R
GTTATGTCGTGGTAATCCAGATAAGAAATGATAGTGGCTTGAATGAAAAGTAAAGGATACAACTACATAGAATAAACGGGCATTTCAGTTGTGGAAACAT
Celera SNP ID:            hCV8828814
SNP Position Genomic:     10780
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61853):
TTCCTTAAATGAAGTTGTGGAGTTTAGGTGTCAGCCTGGCTTTGTCATGAAAGGACCCCCCGCACCGTGTGCAATGCCAGGCCCTGAACAAATGGGAGAC
R
GAGCTACCAAGCTGCTCCAGGGGTGTGTTTGCCTGAGGCCTAGAAGGGCCCTGCAAGTGACATGCATTGCTGTTGGATCAGGAGATGAGTATTTGTTTAG
Celera SNP ID:            hCV25473536
SNP Position Genomic:     71637
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,3)   caucasian(A,11|G,17)   total(A,36|G,20)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61854):
GGTTATTCCGGAAGACCGTTTTCTATCATCTGCCTAAAAAACTCAGTCTGGACAAGTGCTAAGGACAAGTGCAAACGTAAGTAACTCTGGAGTGGGAACC
Y
CTCTGTTAGTCAAACATCTGTAAGATCTGATTCAATTTGTTCAAATTTTGTAACTGAGTTGCATACAACAATTAGTTTGCTAAGGTGCAATACATATGAG
Celera SNP ID:            hCV25651771
SNP Position Genomic:     38464
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:61855):
TTCCCATTGGGACATATCTGAACTATGAATGCCGCCCTGGTTATTCCGGAAGACCGTTTTCTATCATCTGCCTAAAAAACTCAGTCTGGACAAGTGCTAA
S
GACAAGTGCAAACGTAAGTAACTCTGGAGTGGGAACCCCTCTGTTAGTCAAACATCTGTAAGATCTGATTCAATTTGTTCAAATTTTGTAACTGAGTTGC
Celera SNP ID:            hCV25651772
SNP Position Genomic:     38426
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(C,1|G,39)   total(C,2|G,76)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61856):
GAATTCTATAAGAGTGTAATCTCTGGAAGTAGTAATCTAATTGGGTAGTTGACCTGTGTATTTAGAATGTAACATTCCTTATTTTTTGCCTCTAGATACC
R
ACTCATTGGTTCCTCGTCTGCCACATGCATCATCTCAGGCAACACTGTCATTTGGGATAATAAAACACCTGTTTGTGACAGTGAGTTGAAATATGCATTC
Celera SNP ID:            hCV25651846
SNP Position Genomic:     44750
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,2|G,38)   total(A,3|G,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61857):
CGTGGTGAGAGTTTGCCCTGTGTTCCCTTGGTGCCTTGGTGAGTAGGGTGTTCATTAGGGCTTGGACAGTACCCGCGGTAAGGGTTGCAGTGCGTCTGCT
K
TGCCCCATGGGCTGGGCTGGCCTGGGCTGGGCTGGGCGAGCAGGGGCCTGGCCAGGTGTTGCTGGGAGCGTGCTGTGCGCAAGTGGCCTGTGTGCGGAGT
Celera SNP ID:            hCV26971200
SNP Position Genomic:     6703
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61858):
CTGTATGTGGTTTCTGGAAACGAAATGATCATGGCATTTCCTGAACCATGGCTTAACTTTGTGAATCCACAACTCTCTCTTCCCCAGGAGATCCAAAAAG
R
TAGGGTAGGATGTAAAGGCTTCAATCTGTTTAAATGGATATGAGAGTCCCTGGCTCTCCTTAAAATAAGTAGCATGGATTTTGTCTCTCTGCCTTACTTC
Celera SNP ID:            hCV26971130
SNP Position Genomic:     42226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61859):
TCAAAGCACACAATCAGCCTTAACACAGATTAGACATTGCTCAAAGAAAGGGAAGGCCATTGAGCAGCTGTGTGAGAGAAATCTTAATGGTCATAGCACA
R
ATAGTTTGCTAGGGCTGCTGTAACAGAGTACTCCAAAACAGGCGGCTTAATACAAACAAAGTTTTTGGAGTTCTGTTCCGGAGGCTGGAAGTACAAAATC
Celera SNP ID:            hCV26971131
SNP Position Genomic:     39544
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61860):
GAACCAACATCTCTTGGTTCAAGGGTTCTAACACAGCCATACTACCTTCTAGTCACATCTCAGAAAGGACAACTAAACTATTACCATCTGCTCTTTAAAG
R
CTTCAACACAGGTGCTTAGCTCCTGACTGAAATGGACAAAGGTATGACAAGATCAGGGGGAAAATCATCTGTATCCTTGCTGGAAACCAAGGCAGAGCAT
Celera SNP ID:            hCV26971132
SNP Position Genomic:     39286
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61861):
TCAGGAGAATTGCTTGAACTCGGGAGGCAGAGGTTGCAGTGAGCAGATATTGCACCATTGCACTCCAGCCTGAGCGACAGAGCCAGACTCCGTCTAAAAA
M
ACAAACAAACAAACAAAGCAAATCAAATATATAATTTATTTCAATCCATTTGGTTTAAACTTCTTGTCAAAAAACCAAGTCTACTAGACAGGATCAAAAG
Celera SNP ID:            hCV26971060
SNP Position Genomic:     68505
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61862):
CTGGGGGTCTCCCACTTTCATGACTAAAATTAAGTAATGAATGACTTGGGACAAGAAAGAGAAGTGGATTAAATAACTAAAAGATGCGACAATCTTGGGC
Y
TTGAGATCTTTGGATTATATCAGTTGAATTGAATTACAGATAATAACGAAGTTTACATTTTTCTGGGAGGCATAATATGGGGATGAAACAGATCTGAAAG
Celera SNP ID:            hCV26971133
SNP Position Genomic:     38781
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,589|T,906)   total(C,589|T,906) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61863):
TGAGTATGAGCTTGCCTGACCTGCTGGACATTGAAATTGGGGTTAGGAATTAGTCCAAAAAGGGGAGATTTGATGTGGCTTAAAAAAAGACAGACAGACA
S
ACACACACACACACACACACAATCAGAGAGATGAACTTTTGAAAGTATATATAGGAAGAAAGGAAAGACACATATGGAACTAATAACATGAGATATGAAG
Celera SNP ID:            hCV25473107
SNP Position Genomic:     58848
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,32)   caucasian(C,5|G,31)   total(C,11|G,63)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,30)   caucasian(C,5|G,25)   total(C,9|G,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:61864):
TCACACATGGCTACCTGTCTCAGATGAGCCCTGTTATAGTAAATAAACTAGCCTTTTTTTTTTTGTTTTCTGCTTGCTCTAGAGATTTGCACACATTTTA
K
GGTACATATTCCACTATGGAGATGATGATTTTTTTTTCTTGTGAAATGAGGTTTAAGATAGCAATGCATTTTTGCAGACTTTGAGAAATTGAAATCTCCA
Celera SNP ID:            hCV25925707
SNP Position Genomic:     13685
SNP Source:               Applera
Population(Allele,Count): african american(G,11|T,3)   caucasian(G,10)   total(G,21|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:61865):
TGGCAATGTAATCATAATTTAGTAATAATCTCTGTGAAGTCATAGAATATATCAATAGAAGTAGAAAATGTGAGAAAGCAGGAAAAGGTAGGCTAGACTT
R
CAGAAAAGATGAGTAGACTGACTGTACAGAATTTGACTCTGAAATTGAGAAAATAGGTTTAAATATATGTATCAAGTGTATATATCTACAATATACATGC
Celera SNP ID:            hCV26971061
SNP Position Genomic:     67856
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61866):
GCTTTGAGTTCCTGGCACCTTCATTACAAGTTTATTTCATGAGAAACCGTCATTGCAGGACATGATTGAGGGAAAACCCCCATTCACTGGGGGTCTCCCA
Y
TTTCATGACTAAAATTAAGTAATGAATGACTTGGGACAAGAAAGAGAAGTGGATTAAATAACTAAAAGATGCGACAATCTTGGGCTTTGAGATCTTTGGA
Celera SNP ID:            hCV26971134
SNP Position Genomic:     38695
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,352|T,1133)   total(C,352|T,1133) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61867):
AAAAAGGAGAATGATGAATTCCTAAAGAAATCTCAATGAGATAGAAAAGTGGTAAAAACAAACAACAACAACAAAAAACCATAAACACAAAAACTGGCAA
W
GTAATCATAATTTAGTAATAATCTCTGTGAAGTCATAGAATATATCAATAGAAGTAGAAAATGTGAGAAAGCAGGAAAAGGTAGGCTAGACTTACAGAAA
Celera SNP ID:            hCV26971062
SNP Position Genomic:     67762
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,4)   total(A,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61868):
TCTTGTAGATCATACCTTGTTACTGCTTTGAGTTCCTGGCACCTTCATTACAAGTTTATTTCATGAGAAACCGTCATTGCAGGACATGATTGAGGGAAAA
Y
CCCCATTCACTGGGGGTCTCCCACTTTCATGACTAAAATTAAGTAATGAATGACTTGGGACAAGAAAGAGAAGTGGATTAAATAACTAAAAGATGCGACA
Celera SNP ID:            hCV26971135
SNP Position Genomic:     38671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61869):
ATACACATTAAAGAATAAGCAAAGACACAAAAATTGTACCATTTAAGTATGTTTCCCAGGCAATTAATAAGCAAATTTTTAAAAAGGAGAATGATGAATT
S
CTAAAGAAATCTCAATGAGATAGAAAAGTGGTAAAAACAAACAACAACAACAAAAAACCATAAACACAAAAACTGGCAATGTAATCATAATTTAGTAATA
Celera SNP ID:            hCV26971063
SNP Position Genomic:     67682
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61870):
GAGGGATCTAGGTTGCATGTTCCCTATGAGAATCTAATGCCTGATGATCTGAGTGGAACAGTTCCATCTCAAAACCATTTCCCTGCACCCTCCATTCACG
K
AAAAATTGTCTTCCACAAAACGAGTCTCAGGTGCCAAAAAGATTGGGGACCAAAGTTCTAAAGGAATCAATCTCTTTGCTATTATTGTTATTATTATTGT
Celera SNP ID:            hCV26971136
SNP Position Genomic:     37448
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61871):
CTTCTGTTGAGCCAAGCTAATATTCACATCTAGAGGCTCCAGATACACATTAAAGAATAAGCAAAGACACAAAAATTGTACCATTTAAGTATGTTTCCCA
R
GCAATTAATAAGCAAATTTTTAAAAAGGAGAATGATGAATTCCTAAAGAAATCTCAATGAGATAGAAAAGTGGTAAAAACAAACAACAACAACAAAAAAC
Celera SNP ID:            hCV26971064
SNP Position Genomic:     67640
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61872):
AGATACTTCTAAAAGCACACAAAATTAAAAAGCACAAATTGCAACCACAAACAATTATTGATATGAAAGGAAAAGGAAAGGGCCTGACTAGAAATTATCA
T
AGGGTGGGGCAGAGGGAAGTAGTTTAGATTCCAAATCCCTGAGAGGGTCAGGGAAGGCATCAGACTAGATTGGGTGCGTTCAGGGTGGTATGGCCATAGA
Celera SNP ID:            hCV26971137
SNP Position Genomic:     36152
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61873):
AGGCCGAAGCAAGAGAATCACTTGACCCCAGGACCTCGAGACCAGCCTGGGCAATAAGGCAAAACCCCATCTCTACAAAAAAGTATAAAAATTAGCTGGG
Y
GTGGTGGCGTGTGCCTGTAGTCACAGCTACACAGGAGACTGAGGTGAAAGGATCACCTCAGCCCGAGAGGCTGAGGCTTCAGTGAGCCGTGATGGCACCC
Celera SNP ID:            hCV26971065
SNP Position Genomic:     67154
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61874):
TAGATACTTCTAAAAGCACACAAAATTAAAAAGCACAAATTGCAACCACAAACAATTATTGATATGAAAGGAAAAGGAAAGGGCCTGACTAGAAATTATC
A
TAGGGTGGGGCAGAGGGAAGTAGTTTAGATTCCAAATCCCTGAGAGGGTCAGGGAAGGCATCAGACTAGATTGGGTGCGTTCAGGGTGGTATGGCCATAG
Celera SNP ID:            hCV26971138
SNP Position Genomic:     36151
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61875):
TATATGTAGTCAGTGTGTTTATATATTTCATTTCATATATGTGTCATATATATGTGTGTGTGTATGTATATATATATATATATATATATATATATATAAA
A
CACTGAATATTGCAGAAAATTAAAGCAAAGAGTAAGAAGAGTTAACCAAATTTTCCCTCAATGCAGTGGGAAAAGATGAAAAGGAGAAGATAGGTGGGCA
Celera SNP ID:            hCV26971066
SNP Position Genomic:     66921
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,6)   total(A,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61876):
ATAGATACTTCTAAAAGCACACAAAATTAAAAAGCACAAATTGCAACCACAAACAATTATTGATATGAAAGGAAAAGGAAAGGGCCTGACTAGAAATTAT
C
ATAGGGTGGGGCAGAGGGAAGTAGTTTAGATTCCAAATCCCTGAGAGGGTCAGGGAAGGCATCAGACTAGATTGGGTGCGTTCAGGGTGGTATGGCCATA
Celera SNP ID:            hCV26971139
SNP Position Genomic:     36150
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61877):
ATATATGTAGTCAGTGTGTTTATATATTTCATTTCATATATGTGTCATATATATGTGTGTGTGTATGTATATATATATATATATATATATATATATATAA
A
ACACTGAATATTGCAGAAAATTAAAGCAAAGAGTAAGAAGAGTTAACCAAATTTTCCCTCAATGCAGTGGGAAAAGATGAAAAGGAGAAGATAGGTGGGC
Celera SNP ID:            hCV26971067
SNP Position Genomic:     66920
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61878):
TGAATATATGTAGTCAGTGTGTTTATATATTTCATTTCATATATGTGTCATATATATGTGTGTGTGTATGTATATATATATATATATATATATATATATA
T
AAAACACTGAATATTGCAGAAAATTAAAGCAAAGAGTAAGAAGAGTTAACCAAATTTTCCCTCAATGCAGTGGGAAAAGATGAAAAGGAGAAGATAGGTG
Celera SNP ID:            hCV26971068
SNP Position Genomic:     66917
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61879):
AATGAATATATGTAGTCAGTGTGTTTATATATTTCATTTCATATATGTGTCATATATATGTGTGTGTGTATGTATATATATATATATATATATATATATA
T
ATAAAACACTGAATATTGCAGAAAATTAAAGCAAAGAGTAAGAAGAGTTAACCAAATTTTCCCTCAATGCAGTGGGAAAAGATGAAAAGGAGAAGATAGG
Celera SNP ID:            hCV26971069
SNP Position Genomic:     66915
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61880):
GAAATCTTTTTCTTGGCAATAGATTGCCTGGGTGAACATGAAACTGAAATTTGCCCTTATAATAGGTAAAGAAAGAAAATAATATGCCCATGCATTCAAA
R
CCGCAATGCAGAATTTTGACCTTGATTCCAATCTGTTTAGAAACTGGATTGAAAAAATCTCAAAATTATTTTCTTTTAGGAAAAACATGTCCATGTATAG
Celera SNP ID:            hCV25931048
SNP Position Genomic:     13887
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,2)   caucasian(A,22)   total(A,46|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:61881):
AAATCTTTTTCTTGGCAATAGATTGCCTGGGTGAACATGAAACTGAAATTTGCCCTTATAATAGGTAAAGAAAGAAAATAATATGCCCATGCATTCAAAA
Y
CGCAATGCAGAATTTTGACCTTGATTCCAATCTGTTTAGAAACTGGATTGAAAAAATCTCAAAATTATTTTCTTTTAGGAAAAACATGTCCATGTATAGG
Celera SNP ID:            hCV25931049
SNP Position Genomic:     13888
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,24)   total(C,52|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:61882):
GATTTAAAAGTCTCTAAGCTATGTTAGGAAGCCTTAGACATTATCCTGAGGTCATTGGAGAGCCATCGAAAGGTATCTGTCTTGGAAAAACCTTGATTAC
Y
CTGTCATATAAATACTGCTCTGGTAATGTGAAAAATGAATTGAATGAAAGGTGGCAAGATAGGTATGGAGACCTATTTGGTTATGTCGTGGTAATCCAGA
Celera SNP ID:            hCV8828824
SNP Position Genomic:     10701
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61883):
TGATTACATACTGTTTGACTCTGTGATTTTTGTTGCTTTAAATTAAATCTACAAGGCCTTAAGGGGCCTAGCTGAGTCTACTATATAATATGAAATATCT
R
TGAGAAAATACGTCTTCTTTATGGTAAAGTATAGCTTTAGTTGTTGAGCTTTGTTCACTCTTTGTGCTCAAGATTGACGTGGCGACAGACTTCCAACATT
Celera SNP ID:            hCV16136714
SNP Position Genomic:     36746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61884):
GGTGGCCTGGGGTGAAACGCTGGGGGGCGTGGGGAGGCGCCCGGGCTGACGAGGCACCCAGGGCCCCGCAGAGAACTCGCGTGCCGCGCTGGGCTGCGCT
R
CTCTGCGCGCCCGGGTCCAAAGGCAGCGCGATGGGTGGGCTGAGCGCGCTACCTGGCAGGGCGGCGGGTCTGGGATCCTTCTGCGCACTGGAGACCCTCG
Celera SNP ID:            hCV25651783
SNP Position Genomic:     30527
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(A,4|G,36)   total(A,5|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:61885):
TCTTTGCACTGCGCTTTTCCTCTTATCAAATCTGGTTTGTAGATGTGCTTCGGGAGGATGGGGGTCTCTTCTCCGAGAAGCCGGGAGCCTGTTGGGCAGC
S
GGCGCCCGGTCTCCCCTTCTGCTGCGGAGGATCCCTGCTGGCGGTCGTGGTGCTGCTCGCGCTGCCGGTGGCCTGGGGTGAAACGCTGGGGGGCGTGGGG
Celera SNP ID:            hCV25651784
SNP Position Genomic:     30360
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,38|G,2)   total(C,66|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:61886):
AATTTAGGGGCATGCCTGTCCCCAAACAGTATGACTGTACTTTAGTCATTGGTGTGCAATCAGAGAAATATGGGGAAATCTGTAAAACAGACTTGGTCTC
M
GGTGACAGTCTCATTACCTGAATAATGATGGTACAAATACCTCCCTAGGAAATATGTAGATGGAGAATCCACCAATACTAATAACTCCACACTGGATATC
Celera SNP ID:            hCV25651785
SNP Position Genomic:     73118
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,37|C,1)   total(A,71|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:61887):
ACACATATCAAAATTGTATTTCATCCCACATATCAACTAGAGGAAAGGTGAATGCATAACACTGAAAGTCACGGAACTGTTTTATTCGTTTTTTTTTTTT
T
ATACAGTGGTTCTCAAAGTGCTGTTATCTATCCAAATCAGCTGTGAAACTTTTAAAAAATATAGACTCCTGGGCTCTAACCCAGACCCACTAAATCAGAG
Celera SNP ID:            hCV26971140
SNP Position Genomic:     35749
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61888):
CAATGCATAAGACACATATCAAAATTGTATTTCATCCCACATATCAACTAGAGGAAAGGTGAATGCATAACACTGAAAGTCACGGAACTGTTTTATTCGT
K
TTTTTTTTTTTATACAGTGGTTCTCAAAGTGCTGTTATCTATCCAAATCAGCTGTGAAACTTTTAAAAAATATAGACTCCTGGGCTCTAACCCAGACCCA
Celera SNP ID:            hCV26971141
SNP Position Genomic:     35738
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,6)   total(G,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61889):
CGAATGAATATATGTAGTCAGTGTGTTTATATATTTCATTTCATATATGTGTCATATATATGTGTGTGTGTATGTATATATATATATATATATATATATA
T
ATATAAAACACTGAATATTGCAGAAAATTAAAGCAAAGAGTAAGAAGAGTTAACCAAATTTTCCCTCAATGCAGTGGGAAAAGATGAAAAGGAGAAGATA
Celera SNP ID:            hCV26971070
SNP Position Genomic:     66913
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61890):
AACTTCTTTCTTTCCAAGAATGGTTCATTATATTTGCTTTGTTGCTTTGATCTAGTTCTAACCTCTCATTGCAAGCTTTGTTGTGACGTTTACCCTCTCT
Y
AATACAGCTTTTGGCGCTAGGAGAGCTCCACTTGGAATCTCTTCCTTTGTCTAGCATCAATGCATAAGACACATATCAAAATTGTATTTCATCCCACATA
Celera SNP ID:            hCV26971143
SNP Position Genomic:     35580
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61891):
CACGAATGAATATATGTAGTCAGTGTGTTTATATATTTCATTTCATATATGTGTCATATATATGTGTGTGTGTATGTATATATATATATATATATATATA
Y
ATATATAAAACACTGAATATTGCAGAAAATTAAAGCAAAGAGTAAGAAGAGTTAACCAAATTTTCCCTCAATGCAGTGGGAAAAGATGAAAAGGAGAAGA
Celera SNP ID:            hCV26971071
SNP Position Genomic:     66911
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,1|T,9)      total(T,9|-,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61892):
AAGAGGGAAAGGAAACTACATCAAGCATTCTTTGTTGAAGGCTCATATGTTCCTTTTTTGGGCTACTATGCAAATTTATATTATTACCTATACTATGCAT
W
TACTACTATAAAGGTAAGAATATTAGGTAATTAAGGGGAAGGAACTTCTTTCTTTCCAAGAATGGTTCATTATATTTGCTTTGTTGCTTTGATCTAGTTC
Celera SNP ID:            hCV26971144
SNP Position Genomic:     35437
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61893):
TGCACACGAATGAATATATGTAGTCAGTGTGTTTATATATTTCATTTCATATATGTGTCATATATATGTGTGTGTGTATGTATATATATATATATATATA
Y
ATATATATATAAAACACTGAATATTGCAGAAAATTAAAGCAAAGAGTAAGAAGAGTTAACCAAATTTTCCCTCAATGCAGTGGGAAAAGATGAAAAGGAG
Celera SNP ID:            hCV26971072
SNP Position Genomic:     66907
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61894):
AGAACCAGCCACAAATTGAGGGATTGGTAATAAAGAGGGAAAGGAAACTACATCAAGCATTCTTTGTTGAAGGCTCATATGTTCCTTTTTTGGGCTACTA
Y
GCAAATTTATATTATTACCTATACTATGCATATACTACTATAAAGGTAAGAATATTAGGTAATTAAGGGGAAGGAACTTCTTTCTTTCCAAGAATGGTTC
Celera SNP ID:            hCV26971145
SNP Position Genomic:     35405
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61895):
TTTGCACACGAATGAATATATGTAGTCAGTGTGTTTATATATTTCATTTCATATATGTGTCATATATATGTGTGTGTGTATGTATATATATATATATATA
Y
ATATATATATATAAAACACTGAATATTGCAGAAAATTAAAGCAAAGAGTAAGAAGAGTTAACCAAATTTTCCCTCAATGCAGTGGGAAAAGATGAAAAGG
Celera SNP ID:            hCV26971073
SNP Position Genomic:     66905
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61896):
CAATTGAATATTACCCAGCAACAAAAGGAAACAATTTGTATATGTGCAGCAACCTAGATAGAACTCTAATTATGCTGTGTGAAGGCTAAAACATTTAAAA
M
AATCGGAGTGATTTCCTTTATATGATAGGATATAAACGAAGTGATTCGGGTTATATGAAATTTTAGAAAGTCAAATCAATCTGTAGTAAGAGAAAACAGG
Celera SNP ID:            hCV26971146
SNP Position Genomic:     34939
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,7)      total(A,7|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61897):
AGTTTGCACACGAATGAATATATGTAGTCAGTGTGTTTATATATTTCATTTCATATATGTGTCATATATATGTGTGTGTGTATGTATATATATATATATA
Y
ATATATATATATATAAAACACTGAATATTGCAGAAAATTAAAGCAAAGAGTAAGAAGAGTTAACCAAATTTTCCCTCAATGCAGTGGGAAAAGATGAAAA
Celera SNP ID:            hCV26971074
SNP Position Genomic:     66903
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61898):
AGTTCAACCGTTTCTTAAAACCTTACACACACACCTGTCATATTACTCAGCATTTTACTCTTAGGTTTTTACCCAAGAGAAATGAAATCATATGTCCACA
M
AAAGACTTGTACATGAATTTTCATAACAGTTTTGTTTGTAATAGCCAACGAGTGGGAACAATCCAAATGTCCCTCAACAAGTGAATGGATAAACTAAATT
Celera SNP ID:            hCV26971147
SNP Position Genomic:     34724
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61899):
AACGCTGCAACAAGCATGTCAGTTGGCATCATTTATCCAACAGTGTGTGTTGACTTCGTGTCTCTGTGTAGCATTTTGGTTATTCTCACAATATCCCAGA
K
GTTTTCATTATTATCATGTCTGTGATAGTGATCTGTCTTCAGTGATCTTTGATGTTACTATTTTCATTGTTTGGAGTCCCTACGAACTGCACCCATATAA
Celera SNP ID:            hCV27880129
SNP Position Genomic:     63051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61900):
TGAAACTAGCCATGAAGTTTGCACACGAATGAATATATGTAGTCAGTGTGTTTATATATTTCATTTCATATATGTGTCATATATATGTGTGTGTGTATGT
R
TATATATATATATATATATATATATATATAAAACACTGAATATTGCAGAAAATTAAAGCAAAGAGTAAGAAGAGTTAACCAAATTTTCCCTCAATGCAGT
Celera SNP ID:            hCV26971075
SNP Position Genomic:     66888
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61901):
GTGGAGAAGCTGGAATTATAATATACTGCTATTCGGCAGGTAAAATTACAACATAACTTTAGAAAATAGTTCAACCGTTTCTTAAAACCTTACACACACA
Y
CTGTCATATTACTCAGCATTTTACTCTTAGGTTTTTACCCAAGAGAAATGAAATCATATGTCCACAAAAAGACTTGTACATGAATTTTCATAACAGTTTT
Celera SNP ID:            hCV26971148
SNP Position Genomic:     34657
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61902):
ATTGAAGGTCAGATAATCTTTAGCATTTTTTACCAATAAACCATTTTTTAAAGTATGACCTTTTTTTCACATAATTCTATTTCACACTTAATAGACTATA
R
TATATTACAAACACAACTTTTAGACTCACTGAAAAATCAAAAAATTCATATGACTTGGTTTGTTGTGATATTTGTTTTATTGTGGTGTTCTGGAACTGAA
Celera SNP ID:            hCV26971076
SNP Position Genomic:     65663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61903):
ACAGACATGCCTAAGCAAAGCAAGTGCAAGTCTGTTCCTTAAAGGGTAAGTATGCAGAATGGAAAGCAGAGTGTACTTCGGGTTGACAGCTCATATTTGC
R
CAGACATGAAAGTGATGATGTGTTAATTGTGCGTATAGCACAGAATAAATCAGCTTGCTTTGAATGGAAGATCTGAACCAGGAGTGCATGAAATTGGGCT
Celera SNP ID:            hCV26971149
SNP Position Genomic:     34359
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61904):
AAAGAAAAGGAAAAAAAAATACATTTTGTAAGGCTATAGTTCCCACAGACAGTAATTCCTCTGATGGATCTGAACAAAGTAAGTTGAAAACTGCAGGAAA
K
AATTAATCATTCTACATACTGTTAAGAACACTCATGATTCATGGGAAGAGGTTAAAATATCAACATTAACAGGAGTTTGGTAGAAGTTGATTCCGACCCT
Celera SNP ID:            hCV26971077
SNP Position Genomic:     64943
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61905):
AGCTGCAGCAAGTTGTCCTGATGATCTAACTAAGATCATTGATGAAGGTGTTAAAATAAATAGCAGATTCTCCATGTAGACAAAACAGCCATCTATTGGA
M
CTTCATAGCTAGAGAGGAGAAGCCAATGCCTGGGTTCAAAGCTTCAAAGGATAGGCTGCCTTTTTAGGAGCTAATCTCGTTGGTGAGTTTGAGTTGAAGC
Celera SNP ID:            hCV26971078
SNP Position Genomic:     64105
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(A,1|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61906):
ACCTGAACCTAAGACCCAAATGATAGTCAAGGAGGAAATGGTAGTGAGGAAGCTGAGCATCTATTAGTGAAGAAATCAAGGGAGAGATGGGAATTGCTCA
Y
ACATTTGCTACCACTTTTTTTTTTCTTTAGGTTCTGATTAAAAGGCAGGTCTGCTAGTCATTGTGTCTTGGCTGGAATGAAAGCCCTTTGGAATAGCAGT
Celera SNP ID:            hCV29297886
SNP Position Genomic:     76156
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61907):
GCATTCAGGGTGGTATGGCTGTAGATCAGTATCCAGTTATTTGTATTACTTCTGAATCTGTAAGTATCATGTTTATTATATGTAATATTGTATATTTGTG
Y
TTGCTTTGTCTTTATTAGTTCTGCCAGAGCTTTTGTTCTTATTATTTAATAAAGATGTTATACTGGGCCAGGTGTGGTGGCTCACACCTGTAATCCCAGC
Celera SNP ID:            hCV29297887
SNP Position Genomic:     69931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61908):
CAGATTCTTGTCTTAGGAGCCATAGAACTCCAAAGGTTTATGGCTATAACTGTGTTTTGACATAATTGGCTTTCTTTATAGTCCTACGTGATTTACTTAT
R
CATTACAAAAAACAGCTCTGAGAAGGGATTCATAATTCTGACCAGCCAGGCAAAGGTGTATACATGATACATAAAGATATTAAGAACCCCTCATGACTAT
Celera SNP ID:            hCV29297889
SNP Position Genomic:     27212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61909):
GGTAGCAGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGCGAGCCGAGATCGCGCCACTGCA
Y
TCCAGCCTGGGCGACAGAGCGAGATTCCGTCTCAAAATCAATCAATCAATCAATCAATCAATCACTATACACTTATAAGGATGAGAGTGAAAAAAGACAA
Celera SNP ID:            hCV12081361
SNP Position Genomic:     17092
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61910):
TTCACTGTCCCTCTTCGGGCCCTGGGGAGGAGACTCCCAAAAGTCTAGACATGTTCACCCACATCCTGTATGTGGTTTCTGGAAACGAAATGATCATGGC
W
TTTCCTGAACCATGGCTTAACTTTGTGAATCCACAACTCTCTCTTCCCCAGGAGATCCAAAAAGATAGGGTAGGATGTAAAGGCTTCAATCTGTTTAAAT
Celera SNP ID:            hCV28021591
SNP Position Genomic:     42161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61911):
TTATTCTCATTTTTTCCTAACCCAACCACCTGGTTCAAGGCACATAGATTAAGAAGGAAAATGGAAATGGGACTAATATCCCAGGCTTCACTGTCCCTCT
Y
CGGGCCCTGGGGAGGAGACTCCCAAAAGTCTAGACATGTTCACCCACATCCTGTATGTGGTTTCTGGAAACGAAATGATCATGGCATTTCCTGAACCATG
Celera SNP ID:            hCV16136721
SNP Position Genomic:     42075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61912):
AGCCTGGGCGACAGAGCGAGATTCCGTCTCAAAATCAATCAATCAATCAATCAATCAATCACTATACACTTATAAGGATGAGAGTGAAAAAAGACAATAT
K
TTGGTGGTATTGTGAATCACCAATTTAGAAAATGGATATATTTAAAAATTGCAAAGGATTTCTCAGCTAGCGCTCAGTTAAGCATATTTTCTCATTAAAT
Celera SNP ID:            hCV12081362
SNP Position Genomic:     17196
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,5)      total(G,5|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61913):
ATATTTTCTGAATCTCATTATTTAAGGTTAACAATGTGCTAACCTAAACAATTCACAGGATTTGTTTTTTATTCTCATTTTTTCCTAACCCAACCACCTG
K
TTCAAGGCACATAGATTAAGAAGGAAAATGGAAATGGGACTAATATCCCAGGCTTCACTGTCCCTCTTCGGGCCCTGGGGAGGAGACTCCCAAAAGTCTA
Celera SNP ID:            hCV16136722
SNP Position Genomic:     42007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61914):
GAACACAGGTATTAACTCCTGATTGAAATGAACAAAGATAGGAGAAGATTAGGGGAAAAATCTGTGTCCTTGCTGGAAACCAGGGCAGTGCACACATAAA
K
AGTATGCCGTTCACTGGATGGGAAGGAAAAAAAATTAGGAGTATAGTAGTCAAAGCACACAAACAACCCTAACCCAGAGTAGACATTGCTGGAAGAAAGG
Celera SNP ID:            hCV25474714
SNP Position Genomic:     62703
SNP Source:               Applera
Population(Allele,Count): african american(G,21|T,11)   caucasian(G,16|T,6)   total(G,37|T,17)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61915):
CCCATTCATTTGGAGTTGGTGTCTTCCAGGTGGCTACCCTTAAGCTGTGTGCTCAAATAAACTCTATCCTTAAATATATTTTCTGAATCTCATTATTTAA
R
GTTAACAATGTGCTAACCTAAACAATTCACAGGATTTGTTTTTTATTCTCATTTTTTCCTAACCCAACCACCTGGTTCAAGGCACATAGATTAAGAAGGA
Celera SNP ID:            hCV16136723
SNP Position Genomic:     41932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61916):
GGCGCTTTCCTGGGTTGCTTCTGGCGGCCCTGGTGTTGCTGCTGTCCTCCTTCTCCGGTAGGACCCCGGGGTGGATTCGCGCGTCCGCGGCGAGGCTAGA
R
CTCTGCTCAGTCAGTCGGGCAGGAGGCGCGGGGCGAAGCTCACTGCACGTCGTGCCTGCTTGGGATAGAGAGCGAGGCCAGGGTTCTCCGAGGGGTGCCG
Celera SNP ID:            hCV25924703
SNP Position Genomic:     6263
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,24)   caucasian(A,17|G,23)   total(A,23|G,47)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61917):
CCCTGCTCTGCAAAGGGCAATGCCTTTCTAAAAGATCGCTGTCTAGCACCACTGGCTCATCCGTGAATTCTGTCCTGAGTGAGGCAAGAACCCTTCCAGA
R
TAAGCCCCAATTTAGGGGCATGCCTGTCCCCAAACAGTATGACTGTACTTTAGTCATTGGTGTGCAATCAGAGAAATATGGGGAAATCTGTAAAACAGAC
Celera SNP ID:            hCV25651795
SNP Position Genomic:     73009
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,8)   caucasian(A,13|G,15)   total(A,37|G,23)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61918):
TATGCATGCTGTCAGGAAGTTGATGAGGTATGTACAGCACAATTATTTTCCATTTTTTGCCTTTAGGCACCGACTCATTGGTCACTCATCTGCTGAATGT
R
TCCTCTCGGGCAATACTGCCCATTGGAGCATGAAGCCACCAATTTGTCAACGTGAGTTGAAATCTCTTTCCCCATTCACCCCACCATTTAACCCTAGAGT
Celera SNP ID:            hCV25651796
SNP Position Genomic:     69087
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,18)   caucasian(A,14|G,2)   total(A,16|G,20)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61919):
ATGCAGGTTGAGACCTTACGTACTGAAGAGAGTTCAGATTACTCTACCTGGCTCCAAAACATTTTCTTTCCCACAGGTAAATCATGTGAAACTCCTCCAG
W
TCCAGTGAATGGCATGGTGCATGTGATCACAGACATCCATGTTGGATCCAGAATCAACTATTCTTGTACTACAGGGTGAGTTGGCAGCAACATCTCTTGG
Celera SNP ID:            hCV25651797
SNP Position Genomic:     62416
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,29)   caucasian(T,34)   total(A,1|T,63)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61920):
CCTACACAGAAATACTGGGTGAAGATCACTTAATAAGACGAACTCCAGAAAACAAGAAAATGGCAGAGTTGACAATCCCTCTCACCCTCCCTGCAAAGAC
R
CATGTATACAAATTTCTTTTGTCAGAGACATTAAGAGAAACAAATGCTGTCAATCTAATCACAACTGATCACAACTTGATGAAACCAAAAAATCTAGAAA
Celera SNP ID:            hCV26971150
SNP Position Genomic:     33902
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61921):
TAATTCCAATTTGCTTTCTGTGCTTTGTGATGTATTCTGGTTTACATATGCTCGGATGAGTAGATGTATGATTTATATTATCTACTGTTATCTAAAATAA
W
CTTCACATTCGGACAGGCAACATCAAAACTGTCCTACACAGAAATACTGGGTGAAGATCACTTAATAAGACGAACTCCAGAAAACAAGAAAATGGCAGAG
Celera SNP ID:            hCV26971151
SNP Position Genomic:     33769
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61922):
TAGCTGACCTTCCCACACACATTCTTGCAAAGAGGAAAAGTCAAGCAGGGTGTTTGGAGGTGAGTTGCCATCATCCACCGCCTTTGTCTGGAAGGAAGCG
Y
AGGGCCTCACACGCGGGATCCATCGGAAGCCCAAGCATTGTCAAGCTCTGCTGCTGCACCTGGGTCAGCAAGGTGGGCTCTGCCAGCGAAACTCGTTAGA
Celera SNP ID:            hCV26971152
SNP Position Genomic:     30034
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61923):
CTAACTCTCTTCAATTCTGTGAAGGCTGACAGAGGTGAGGAAGCTGCAGAAAAAAAGCTGGAAGCAGCTGGGCACTGTGGCTCATGCCTGTAATTCCAGC
W
CTTTGGGAGGCAGAGGCAGGTGGATCACCTGAGGTCAGGTGTTCAAGACCAGCCTGACCAATATGGTGAAACCTCATATCTACTGAAAATGCAAAAATTA
Celera SNP ID:            hCV26971080
SNP Position Genomic:     63709
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61924):
GGCATTTCATTAGCTGACCTTCCCACACACATTCTTGCAAAGAGGAAAAGTCAAGCAGGGTGTTTGGAGGTGAGTTGCCATCATCCACCGCCTTTGTCTG
K
AAGGAAGCGCAGGGCCTCACACGCGGGATCCATCGGAAGCCCAAGCATTGTCAAGCTCTGCTGCTGCACCTGGGTCAGCAAGGTGGGCTCTGCCAGCGAA
Celera SNP ID:            hCV26971153
SNP Position Genomic:     30024
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61925):
AGGCCTCATGTGCCAAACAGCTAGCGAGTTGCAAAGGCAAAGCAAAAGTACTTGAAGGAAACTTAAAGTGCTATTCCAGTGAACACATGAATGATAAGAA
R
GTGAAACAGCCTTATTGCTGATATGGAAGAAGTTTTAGTGGTCTAGATACAAGATCAAACTAGACATATTTCCTTAAGCTAAAGCCTAATCCTGAGCAAG
Celera SNP ID:            hCV26971081
SNP Position Genomic:     63505
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61926):
TAACTCTTGATTGCTTTCTTCTCACTACTAACCTTAAGAAAGGAAGTAACCAAAATCCAATACATGAGCAACTGTTCATTCCATCTCCAATATCTTTGTT
M
ATTGTCCACTTTATCCACCCAGTCAGGGCCACCATCAAACCTCACTTGGATGTCAGCAAAAGCTCCCTGGCTGGTCTCCCCTCTCCATTATTGCTTTAAT
Celera SNP ID:            hCV26971154
SNP Position Genomic:     29649
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,8)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61927):
AAATGAACAAAGATAGGAGAAGATTAGGGGAAAAATCTGTGTCCTTGCTGGAAACCAGGGCAGTGCACACATAAAGAGTATGCCGTTCACTGGATGGGAA
R
GAAAAAAAATTAGGAGTATAGTAGTCAAAGCACACAAACAACCCTAACCCAGAGTAGACATTGCTGGAAGAAAGGGAAGGGCATGTAGCAGCTGTGTGAG
Celera SNP ID:            hCV26971082
SNP Position Genomic:     62728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61928):
AAACCTAAATACAGTCACTGATCTTGGGTACACAGTTGGAACTTGAAATGAATGGGTACGTATTTATTTGGAGGCAAAAGAACATAATTTTATAAAATGT
R
TGCTAGAAAAAAAAGATGAATGAGATGGAAATTGTTTGCCTCATAATAAGGCAAAGGTTGTTTTAGGAAACTTAAAACCAGTCAATAATGGAATCTGTAA
Celera SNP ID:            hCV12083905
SNP Position Genomic:     74126
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61929):
AGAATACTGGTTACCAGAGGTTGGGGTAGGGAGAGACAATGGGAGATGGAGAGAGATTGGTTAAAGGGCACAGGGTCACAGATACATAAGAATAAATTCA
Y
CCTTGAATACTTAACCCTCTGCCCTACATCTGTCACTCCTACATCCATATTCATTGCTAATCCTGGGGCTAACTCTTGATTGCTTTCTTCTCACTACTAA
Celera SNP ID:            hCV26971155
SNP Position Genomic:     29479
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61930):
TCTAAAAAAGCTCATCTCATAGAAGTAGAGAGTAGAATACTGGTTACCAGAGGTTGGGGTAGGGAGAGACAATGGGAGATGGAGAGAGATTGGTTAAAGG
R
CACAGGGTCACAGATACATAAGAATAAATTCATCCTTGAATACTTAACCCTCTGCCCTACATCTGTCACTCCTACATCCATATTCATTGCTAATCCTGGG
Celera SNP ID:            hCV26971156
SNP Position Genomic:     29446
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61931):
CTAAATCTAGATCTAGATAGATCTGGAGGGAAGGTCTTTTTGAAAGTGGGGCTTAGTAGGTGGCTGATCCTGAGGCTCTCTGATGAGTTTTCTCAAGGTG
S
CAAAATCTGTGGAACTATCAGAACTGCGTGTTTTCTTCAGGAAGCTACATGCAGGTTGAGACCTTACGTACTGAAGAGAGTTCAGATTACTCTACCTGGC
Celera SNP ID:            hCV26971084
SNP Position Genomic:     62267
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61932):
AATGTGGTATATATACACAAGGGAATACTATTCAGCCATAAGAAAGAATGAAATCCTATCATTTGCAGCAACATGGATGAATCTAGGGGATATTATATTA
W
ATGAAGTAAATCAGGCACAGAAAGACAAATCCTGTATGATATCAGTCATGTGCAATCTAAAAAAGCTCATCTCATAGAAGTAGAGAGTAGAATACTGGTT
Celera SNP ID:            hCV26971157
SNP Position Genomic:     29290
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61933):
AATGCTCACTTCATGAGAATGTTTCAAGGAATATTTGTAGAGAAAATCTTCATTCCTTATGGGAAAATAAATAATAAATGACTCTATATCAGGAAATAAA
R
ATTGTGTAGGAAGACAAATTCTGTTTGAATAACTAGGTGGGAAGAAATCCTTTGAAAACTTTATTGGTAGTAAATAATGCCATAAATGACCTTTACATTT
Celera SNP ID:            hCV26971085
SNP Position Genomic:     62036
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61934):
AGTGGGCACAAGACCTGAACAGACATCACTCAAAAGAAGACATAGAAATGGCCAACGAATATAAAACAAAATGCTCAACATTCTTAGTCATCAGAGAAAT
M
CAAAATAAAACCAGAGAGAGATATCACCTCACCCTAGTTATCAGAGCTCTTATCAAAAAGATAAAAGATAACAAATGCTGCTGAGGATGTGGAAAATAGA
Celera SNP ID:            hCV26971158
SNP Position Genomic:     28838
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61935):
GTGGGATAAGAGAAACCTTTTTTCAAAAGCGTTCAGATAGGTGGATGTAAGAGTTTTTCTTGCAGGTCGTCTTTGATTATTGCTTGAAATGCTCACTTCA
Y
GAGAATGTTTCAAGGAATATTTGTAGAGAAAATCTTCATTCCTTATGGGAAAATAAATAATAAATGACTCTATATCAGGAAATAAAGATTGTGTAGGAAG
Celera SNP ID:            hCV26971086
SNP Position Genomic:     61949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61936):
GCTAACACGTGTACTGAAATATCTGCTACATTATCTACTCAACCCTAATTCTACTCACCTTTCTACAGCCTTTGATATTTAGAGTTACTCCGTCCTCACA
S
AACTCTTTCCAACTCCAGCACTGGAAACAATTGACTCCTGTCTCTACCAAACTGTACGTCCCAGATTCTTGTCTTAGGAGCCATAGAACTCCAAAGGTTT
Celera SNP ID:            hCV26971159
SNP Position Genomic:     27050
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61937):
ATTTGAGAAATATTTCCCAAGAACGTAGGCCCCTTCCTCAGCACTGTGTCCCCAGGATCCTGATGAGTGGCTGACACAGGATAAGTGCTAAATTAAGAAA
K
ATTGACTAAATGAATGAGTAACCCTTCAAAACGGTTATTTTTCTTCTTCAAATGTTTTGCTACTTCATTAAAGTTGTAAAGTAAGTAAACTTGCATTGGA
Celera SNP ID:            hCV26971087
SNP Position Genomic:     61704
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61938):
CTCAGACTTTGATATTATTCCCTGTCCTTTTAGGGCAGCTTGAGCCCTTTTGTTTGACTTAGCACAACGTGACTCCAAACTAGGGTTGTTTTAATTTCCC
R
AGACACAGTAGTAGGCAATTTCTTGAGGACCTAATTGCAGATAGAGTTTGTCGGTCTCAGCATGTGGGAGCTCCAGATGAATGGCAGTAATGGGAAGCAG
Celera SNP ID:            hCV29297890
SNP Position Genomic:     10396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61939):
ATACATTTGAGAAATATTTCCCAAGAACGTAGGCCCCTTCCTCAGCACTGTGTCCCCAGGATCCTGATGAGTGGCTGACACAGGATAAGTGCTAAATTAA
K
AAAGATTGACTAAATGAATGAGTAACCCTTCAAAACGGTTATTTTTCTTCTTCAAATGTTTTGCTACTTCATTAAAGTTGTAAAGTAAGTAAACTTGCAT
Celera SNP ID:            hCV26971088
SNP Position Genomic:     61700
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61940):
GACAACAAAGAAGGGAGAGGAATAAATCACAGGGTGAGCAGTTCTAAAAAGCAACAGTCTTGTCAGGAATAAACAATCACCATCGTAAACTCAGACTTTG
R
TATTATTCCCTGTCCTTTTAGGGCAGCTTGAGCCCTTTTGTTTGACTTAGCACAACGTGACTCCAAACTAGGGTTGTTTTAATTTCCCAAGACACAGTAG
Celera SNP ID:            hCV29297891
SNP Position Genomic:     10307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61941):
TGATGATCAATATCAGTAAGTAATCAGTGAAAGTTTTCACCTATTTAAGATGATTAGCACACATATATACATTTGAGAAATATTTCCCAAGAACGTAGGC
Y
CCTTCCTCAGCACTGTGTCCCCAGGATCCTGATGAGTGGCTGACACAGGATAAGTGCTAAATTAAGAAAGATTGACTAAATGAATGAGTAACCCTTCAAA
Celera SNP ID:            hCV26971089
SNP Position Genomic:     61634
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61942):
TTACATCAGAGGCCTGATTCATTTCAAAACCTTCCTCAGAGCAAGGGGTAATTGCCAGGTACCCTTTAAAGCCAGAATTAATACATATAACCCATATTTA
Y
GCTGTCTCAAGACTAATTAGCATGGTGTTGCATGCTAGACAAATAAGTTCAACTCCAGAAAACATGTAAAAACTAACAGAAGTTTCAACTTGAATATCTT
Celera SNP ID:            hCV15929836
SNP Position Genomic:     81556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61943):
ATGCCACCACACCTGGCTAATTTTTTATATTTTGTAGAGATGGAGTCTTGCCATATTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCTATCCTCCCA
Y
CTTGGCCTCCAAAAGTGTTAGGATTACAAGTGTGAGCCACCGTACCCAGCCAAATTTTTATGTTCTTTTATCCCCTCACTTATCATAAACAATTTAGTCA
Celera SNP ID:            hCV28000118
SNP Position Genomic:     76818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61944):
CTTAAGCTTTCATATAAACTTTATTTAATTTTGCTTTCTATGTGACAAGTTATACTTCTAGCCAAACAACTCTTGGATGTTTTATGGAGACAGCAAAGAC
R
TAGAGTAAATAGAAATTGATATTGAAGGAAAGCATAACTACTTGCTATTTCTGACAATAAGTCTGTTGAAAGCATTAAGAATGTAGTAATCATGAGAATT
Celera SNP ID:            hCV25930198
SNP Position Genomic:     14238
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,2|G,32)   total(A,2|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:61945):
GGTGCGACACCATGCCAGGCTAATTTTTGTATTTTTAATAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCCACC
Y
GCCTCAGCCTCCAAAAATGCTGGGATTACAGGCGTGAGCCACCATGCCTGGCAAAGAATGACACTGGGTGTATTAAAAAGTATGATAAGTGACATGATCA
Celera SNP ID:            hCV27956811
SNP Position Genomic:     26529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61946):
CACACACACATATTAAGGGAATACGCAAACAAAAAATGGCAGAAATAATATGGGAAAAGACAGAACTTAAGAAAGAAATTGTCAAGCAGGTCTACAAAAT
R
ATTGTTTTATTTTGGTGCCAGGTACAGTCCACAATGAAGTCAAGATATTAAGAAGTAAAGTGGACCAGGAGAAGTTAGAGCAGAAATATCTCTTTTCAAT
Celera SNP ID:            hCV8822968
SNP Position Genomic:     68786
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61947):
GATTTCCATTATAAAATATGAAACGTAGTGAGCATTTTTTTGGTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGAT
Y
TCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCCCGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGCTACAGGCACCCGCCACCATGCCAGGCTAA
Celera SNP ID:            hCV26971160
SNP Position Genomic:     26010
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61948):
ACCCCAAGCACATTACTTTTATGATTTATTACTGGTTATCTTCTAGGATTTCCATTATAAAATATGAAACGTAGTGAGCATTTTTTTGGTTTTTTTTTGA
R
ACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCCCGCCATTCTCCTGCCTCAGCC
Celera SNP ID:            hCV26971161
SNP Position Genomic:     25964
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61949):
AAAGAGGAAGATGTAAATTATGTAGTATAATACCACTTAACAGTTTTTTAAAAAGATACATATGTTTACCCCAAGCACATTACTTTTATGATTTATTACT
K
GTTATCTTCTAGGATTTCCATTATAAAATATGAAACGTAGTGAGCATTTTTTTGGTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTG
Celera SNP ID:            hCV26971162
SNP Position Genomic:     25897
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61950):
GCAGGGCTATTGTTATCACTGAGACTGATGATCAATATCAGTAAGTAATCAGTGAAAGTTTTCACCTATTTAAGATGATTAGCACACATATATACATTTG
W
GAAATATTTCCCAAGAACGTAGGCCCCTTCCTCAGCACTGTGTCCCCAGGATCCTGATGAGTGGCTGACACAGGATAAGTGCTAAATTAAGAAAGATTGA
Celera SNP ID:            hCV26971090
SNP Position Genomic:     61609
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61951):
CGGAAGGGATTATTGTCCTGATTTCAGCACTGCTATCTCTGGTTTCACTTTCCTTGCAGCAGAAGCAAGAGACTAATTGTAGGAAGAGCATTAGCCTGCG
Y
AGACTATGCTTAATTAACATCATTTCTGTGGTCTTCAGTTTCCATTTAGTTTAATGAGATTGTTGAACTCAAATCTCAATCACTGGATTCTAATTTGTTT
Celera SNP ID:            hCV26971163
SNP Position Genomic:     25135
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61952):
CACTGTGGCAGGGCTATTGTTATCACTGAGACTGATGATCAATATCAGTAAGTAATCAGTGAAAGTTTTCACCTATTTAAGATGATTAGCACACATATAT
A
CATTTGAGAAATATTTCCCAAGAACGTAGGCCCCTTCCTCAGCACTGTGTCCCCAGGATCCTGATGAGTGGCTGACACAGGATAAGTGCTAAATTAAGAA
Celera SNP ID:            hCV26971091
SNP Position Genomic:     61602
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61953):
TGTGCTAGGGAGAATTGTGTTCTATTTCTCTACCTTTTACTAACTATGAGGCCTTCAGCAGGCATAGGATATAGCAAAAGAAATTCCCCCATAACTAACA
R
GTACTCTGGAACTGTCCTTTCTACAATGTGTCAGCCGCCTCCAGAAATCCTGCATGGTGAGCATACCCTAAGCCATCAGGACAACTTTTTACCTGGGCAG
Celera SNP ID:            hCV12083914
SNP Position Genomic:     73375
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,12)   caucasian(A,18|G,12)   total(A,36|G,24)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61954):
ATCAGCAGCTGTGCTTATGACTGGAGAGATTATTTTGATATGACGGAAGGGATTATTGTCCTGATTTCAGCACTGCTATCTCTGGTTTCACTTTCCTTGC
R
GCAGAAGCAAGAGACTAATTGTAGGAAGAGCATTAGCCTGCGCAGACTATGCTTAATTAACATCATTTCTGTGGTCTTCAGTTTCCATTTAGTTTAATGA
Celera SNP ID:            hCV26971164
SNP Position Genomic:     25092
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61955):
TCACTGTGGCAGGGCTATTGTTATCACTGAGACTGATGATCAATATCAGTAAGTAATCAGTGAAAGTTTTCACCTATTTAAGATGATTAGCACACATATA
T
ACATTTGAGAAATATTTCCCAAGAACGTAGGCCCCTTCCTCAGCACTGTGTCCCCAGGATCCTGATGAGTGGCTGACACAGGATAAGTGCTAAATTAAGA
Celera SNP ID:            hCV26971092
SNP Position Genomic:     61601
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61956):
GCAGGAAAAGTCCTTATTTACTGAGATGAAATAGAGGACTTTTTGCAGGGACTCCTGATCAGCAGCTGTGCTTATGACTGGAGAGATTATTTTGATATGA
Y
GGAAGGGATTATTGTCCTGATTTCAGCACTGCTATCTCTGGTTTCACTTTCCTTGCAGCAGAAGCAAGAGACTAATTGTAGGAAGAGCATTAGCCTGCGC
Celera SNP ID:            hCV26971165
SNP Position Genomic:     25035
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61957):
AGGAAGAGACTATTATAAACAAATCAGTAGATGCTAGAAAGGAGTAACAACTTGAAACCTGACCCAGAAAGTAAAAAAAGAAAATAAATCATCAACAGAC
S
TTGACATTTTCAAAAGCAAAGCAATCTGAATCCATTTGGAGTTTTTTATAATGGCCTGAATATGTTTCAATTCACTGTGGCAGGGCTATTGTTATCACTG
Celera SNP ID:            hCV26971093
SNP Position Genomic:     61429
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61958):
ATCTGTTGACACCTTTACTGAGTTTGTTCCTATTGCAGGACTCTTTGATTTTCTGGAGTGCAACCAGTTTGAGTCTTTTGATGTAACACATTTAAACAGG
G
AAATTTCTGCTGTCTGCAGAACACGACCTATATTTCTGTCTCTTCCCTGCCTGCAGTCTTCCACACCTCATAATGTTATTCTTTTTTTCTCTTTACTGGG
Celera SNP ID:            hCV26971166
SNP Position Genomic:     24790
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,8)   total(G,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61959):
ATTGATCACATACTTTGTGCCTCTGTTCATCTAGATACTGGAGTTATAGCAATGAACAAGATGAGTGAAGTCCCTGTCCCCATGTTGTTTTTACTCAGGT
R
GGGAGAAGGACAAGGAAAAAAATAAGCAAATTAAATGCTACGGATAATAGATCAAAGCAATGAAGAATGAGGGAAAAGTGGGGAGTAACATTAGACAGGG
Celera SNP ID:            hCV26971094
SNP Position Genomic:     60723
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61960):
TTTTTCAATTCAAGCAGGACTATCATGTGACCAAGCTACTGCATTTTGCCACTCTATATTGCTCCCTTCTGGAGGCTGTGATTTTTCCAGAATAACGTAG
Y
CTGTGCAACTCTGCCACCTGCTGGCCTCAGGTCCTCAAAATCCTGAAATTGGGGCTGGGCCTTAGATTGTGAACTAAGTGTCCTCTTGGCTGAAACAGCT
Celera SNP ID:            hCV26971095
SNP Position Genomic:     59933
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61961):
AAAATTAGCTGGGCATGTTGGTGCATGCCTGTAATCCCAGCCACTCAGGAGGATGAGTCAGGAGAATTGCTTGAACTCGGGAGGCAGAGGTTGCAGTGAG
Y
AGATATTGCACCATTGCACTCCAGCCTGAGCGACAGAGCCAGACTCCGTCTAAAAAAACAAACAAACAAACAAAGCAAATCAAATATATAATTTATTTCA
Celera SNP ID:            hCV12083917
SNP Position Genomic:     68448
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61962):
CTGTAGACTGGAGCTGTTCCTATTTGGCCATCTTGGCTCCTCCCTCCTATTTTATTCTTTTCAGAGTGATCTGTTGACACCTTTACTGAGTTTGTTCCTA
Y
TGCAGGACTCTTTGATTTTCTGGAGTGCAACCAGTTTGAGTCTTTTGATGTAACACATTTAAACAGGGAAATTTCTGCTGTCTGCAGAACACGACCTATA
Celera SNP ID:            hCV26971168
SNP Position Genomic:     24722
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61963):
GAGTTACGAAGGCATTGCATTAGAAGACTGGGTTTCTAATAATGACAATGAGTAATCAGTGAAACTCCAAGCCTGGGTCCTGGGTCAAGGAGATGGTGGC
Y
ATTTTGTGACCACCTTTTTCAATTCAAGCAGGACTATCATGTGACCAAGCTACTGCATTTTGCCACTCTATATTGCTCCCTTCTGGAGGCTGTGATTTTT
Celera SNP ID:            hCV26971096
SNP Position Genomic:     59818
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61964):
CAAGGCCGAGCACAGTGGCTCACGCCTGTAGTCCCAGCACTTTGGGAGGCCGAGGTGGGAGGGTCACCTCAGATCAGGAGTTCAAGACCAGTCTGGCCAA
M
GTGGTGAAACACCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGTTGGTGCATGCCTGTAATCCCAGCCACTCAGGAGGATGAGTCAGGAGAATTG
Celera SNP ID:            hCV12083918
SNP Position Genomic:     68316
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61965):
TCCCCAGTGAGATGAACCCGGTACCTCAGTTGGAAATGCAGAAATCACCCGTCTTCTGTGTCGCTCACACTGGGAGCTGTAGACTGGAGCTGTTCCTATT
Y
GGCCATCTTGGCTCCTCCCTCCTATTTTATTCTTTTCAGAGTGATCTGTTGACACCTTTACTGAGTTTGTTCCTATTGCAGGACTCTTTGATTTTCTGGA
Celera SNP ID:            hCV26971169
SNP Position Genomic:     24646
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61966):
CCAAAAGCCAGCACCCAGTAAGAGTTAGGAGGGCATCGGGGCCCAACAGACATTGAGAATTTTCAACAATTGCGTACAAAAATTATGTCCTCTCTTCTTT
C
CTTTTTCCCCTAGAATATTCGTGCTTACTCTTCAGCAGCCCAAATTGCCCTTTTGAGCCTTCTTCACGCCATCACAGATGTGGAGATGAAAGGACAATCT
Celera SNP ID:            hCV26971097
SNP Position Genomic:     59544
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61967):
TCCAAAAGCCAGCACCCAGTAAGAGTTAGGAGGGCATCGGGGCCCAACAGACATTGAGAATTTTCAACAATTGCGTACAAAAATTATGTCCTCTCTTCTT
T
CCTTTTTCCCCTAGAATATTCGTGCTTACTCTTCAGCAGCCCAAATTGCCCTTTTGAGCCTTCTTCACGCCATCACAGATGTGGAGATGAAAGGACAATC
Celera SNP ID:            hCV26971098
SNP Position Genomic:     59543
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61968):
CTCCAAAAGCCAGCACCCAGTAAGAGTTAGGAGGGCATCGGGGCCCAACAGACATTGAGAATTTTCAACAATTGCGTACAAAAATTATGTCCTCTCTTCT
T
TCCTTTTTCCCCTAGAATATTCGTGCTTACTCTTCAGCAGCCCAAATTGCCCTTTTGAGCCTTCTTCACGCCATCACAGATGTGGAGATGAAAGGACAAT
Celera SNP ID:            hCV26971099
SNP Position Genomic:     59542
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61969):
AAAATTAAACCCAGTATTTTTTCCCTAAGACTTGGGATAGATTGCTTAAGATACCAGTCCTAGGCCTTCCTAAAATGGAAGATGAGGAACTAACCTGGGG
Y
GGTGGTCCAGGCTTGGAGTGACATGCCATAGAGGGTTTTGAGACAGAATAGCAATCCAAAGAGAAAAAGGAACCTTTGAGTACTAGCATCAGAGCAGGAA
Celera SNP ID:            hCV15929843
SNP Position Genomic:     81305
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61970):
GACATCTTACTGCTTTGTAGTGAGAAGAGACAAAGAAAATTTCATGATCTTAGAGACTATCGAAACAGAAAAAATTAAACCCAGTATTTTTTCCCTAAGA
Y
TTGGGATAGATTGCTTAAGATACCAGTCCTAGGCCTTCCTAAAATGGAAGATGAGGAACTAACCTGGGGCGGTGGTCCAGGCTTGGAGTGACATGCCATA
Celera SNP ID:            hCV15929844
SNP Position Genomic:     81235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61971):
TTACTCTACCTGGCTCCAAAACATTTTCTTTCCCACAGGTAAATCATGTGAAACTCCTCCAGTTCCAGTGAATGGCATGGTGCATGTGATCACAGACATC
Y
ATGTTGGATCCAGAATCAACTATTCTTGTACTACAGGGTGAGTTGGCAGCAACATCTCTTGGTTCCAGAGTTCCAGCACAGCAATACTACCTTCTAGCCA
Celera SNP ID:            hCV25651808
SNP Position Genomic:     62454
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61972):
TAGAAACTGAGACACAGAGGGTTTAGGTAACTTGCACAAGACCACAGAATGGGGTAGCCTGGGTTCAGCCAAGCAATCTACTTATCTGTAGAGACTGTGC
W
CTTTAACAATAAATAAATGGTCAACGGACCTAAATATATAATTCAACAAGAGAGAATATTTAAGTACTGTCATAATGAAATGGAAAGCTATCAGGCAAGG
Celera SNP ID:            hCV15929845
SNP Position Genomic:     80789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61973):
GAAAGCCTTTGGAATAGCAGTGTTCCAGTGTGTGAACGTAAGTAATAGGAGTAACATTTCAGGCCAATCTCTCCTCTTCATCTGTTCAGTATTTGACCCA
Y
GACCTCCCCTAATGTGGTTCTTCAATTTTCTAATCTGAATTATTGATTTGAAAATTTCTTATTTTAGTAATGTTTGGTTGTGAATCAATGTGTACATCAC
Celera SNP ID:            hCV25651809
SNP Position Genomic:     60211
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(T,40)   total(C,3|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:61974):
TGTAACGAATATTGTTGTATATTGAAGGTACTATTGTAAATTGGCAAAATCTCTTATGAAAAACAATTATGCAATGTGTGTGGACAATAATACAAATATT
C
TGCCAGTTAGCCTCCTAGAACTGCAACCTAAGAAAATAGTGTAAAATATAAAATAGTTTATGCATTTTATTAAGGGTTTCATGAGAAAGAAAACTAGAAA
Celera SNP ID:            hCV26971023
SNP Position Genomic:     83681
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61975):
CTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGTCTTTTGTTGCCGTTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCC
H
ATGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAATGTTTAAGTCTTTAATCCATCTTGAATTGATTTTTG
Celera SNP ID:            hCV26971024
SNP Position Genomic:     83135
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61976):
TTTACTGAGAATGATGTTTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGC
M
ACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAATGCCACAATAAACATACGTGTGCATGTGTC
Celera SNP ID:            hCV26971025
SNP Position Genomic:     82434
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61977):
TTCACAAGAAGTCTCCATGCCATTTCTAAGGTAAATGGAGTTTCTTCAGTTCTGCATAGTTCGATGCAACACAGCCTTGAAAGTTTCTGCAGGGAAATGC
R
GAAACTATCTTAGGATGCAAGATTTAGAGAAAGGGTGTAAATATCTTTCTACTTTGGCACATAAATATACAGAAACTGTTTAACCTCACTAGAACTAAAG
Celera SNP ID:            hCV26971026
SNP Position Genomic:     81939
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61978):
GTGAAACTCTAATAGAACTTAAAAGCTCTTGTTTTCTTTCTAGAAATCTTTTGTCCAAATCCTCCAGCTATCCTTAATGGGAGACACACAGGAACTCCCC
Y
TGGAGATATTCCCTATGGAAAAGAAGTATCTTACACATGTGACCCCCACCCAGACAGAGGGATGACCTTCAACCTCATTGGGGAGAGCACCATCCGCCGC
Celera SNP ID:            hCV16119839
SNP Position Genomic:     78389
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:61979):
ATAAGCCCCATCATGTTTGGGTCAGGTCATTTTATTCATTGCTTTCTCCTCATCCTCATCATGGGACATCGTGAAATCATGAAAAAGGTAGTGAAAGAAT
K
ATGACAAGGCCGAGCACAGTGGCTCACGCCTGTAGTCCCAGCACTTTGGGAGGCCGAGGTGGGAGGGTCACCTCAGATCAGGAGTTCAAGACCAGTCTGG
Celera SNP ID:            hCV12083920
SNP Position Genomic:     68211
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61980):
TGTCCTGCACTCCCCAGTGAGATGAACCCGGTACCTCAGTTGGAAATGCAGAAATCACCCGTCTTCTGTGTCGCTCACACTGGGAGCTGTAGACTGGAGC
T
GTTCCTATTTGGCCATCTTGGCTCCTCCCTCCTATTTTATTCTTTTCAGAGTGATCTGTTGACACCTTTACTGAGTTTGTTCCTATTGCAGGACTCTTTG
Celera SNP ID:            hCV26971170
SNP Position Genomic:     24636
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61981):
GAAAGATTGACTAAATGAATGAGTAACCCTTCAAAACGGTTATTTTTCTTCTTCAAATGTTTTGCTACTTCATTAAAGTTGTAAAGTAAGTAAACTTGCA
Y
TGGATCTTTCCCATGTCTGCAAAAGCTTCTTATTGAATTTTTTCAATTGTGGGATAAGAGAAACCTTTTTTCAAAAGCGTTCAGATAGGTGGATGTAAGA
Celera SNP ID:            hCV12083921
SNP Position Genomic:     61800
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61982):
CTGTCCTGCACTCCCCAGTGAGATGAACCCGGTACCTCAGTTGGAAATGCAGAAATCACCCGTCTTCTGTGTCGCTCACACTGGGAGCTGTAGACTGGAG
C
TGTTCCTATTTGGCCATCTTGGCTCCTCCCTCCTATTTTATTCTTTTCAGAGTGATCTGTTGACACCTTTACTGAGTTTGTTCCTATTGCAGGACTCTTT
Celera SNP ID:            hCV26971171
SNP Position Genomic:     24635
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61983):
GGCTAGTCATGGGCTCTGGGCTCTGAGCTGGGGTTCTGATGGCTGCTGTTAATATTTCCAGCAAGGTCATTACCTTGTTTATGTCCACCTAGTGCTCTTC
R
CAGGGTGCACATCTCTACACGGGAGCTGACCAGCATGGGCAACAAAGCACCTGATCCCAAAATGTAACACAGAATCTTGGCAGGCTCCAAAAGCCAGCAC
Celera SNP ID:            hCV12083922
SNP Position Genomic:     59357
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61984):
TTGGAAAAGCACAGTATTAGGGTGGGAGTGACCCAATTTTCCAGGTGCCATCTGTCACCCCTTTCTTTGACTAGGAAAGGGAATTCCCTGACCCCTTGTG
M
TTCCCAGGTGAGGCGATGCCTCGCCCTGCTTCGGCTCATGCACAGTGCGCTGCACCCACTGTCCTGCACTCCCCAGTGAGATGAACCCGGTACCTCAGTT
Celera SNP ID:            hCV26971172
SNP Position Genomic:     24476
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,8)      total(A,2|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61985):
GAATAGATGTATGTTTGTTGCACCAGTGTGATAGGTGATGGAGGGACCTATTAGATGAGACATGGGCAGGGGCACTCCTTTATGGCCTAAAATGCAAGAC
K
AAATTGGTGATGCCTTTCTAGAAAGGAAGCATGGAGATATAAAAATCCATCATCCCTCCCAATTTTGTACTGGGTGAACAGTAATTGGAAGCATTCTAGA
Celera SNP ID:            hCV12083923
SNP Position Genomic:     57993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61986):
CCCCAGAGGTGGAGCCTACAGAGGCAGGCAGGCCTCCTTGAGCTGTGATGGGCTCCACCCAGTTCGAGCTTCCCGCAGCTTTGTTTACCTACTCAAGCCT
M
GGCAATGGTGGGCGCCCCTCCCCCAGCCTCACTGCTGCCTTGCAGTTTGATCTCAGACTGCTGTGCTAGCAATGAGCGAGACTCCGTGGGCGTAGGACCC
Celera SNP ID:            hCV26971173
SNP Position Genomic:     24225
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,10)   total(A,10|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61987):
ATACTGGTGAACTGCAAATGCTGCTGCCTGATCTTCCTTTGGAAGTTTTGTCTCAGAGGAGTACCCGCTGTGTGAGGTGTCAGTCCGCCCCTACTGGGGG
K
TGCCTCCCAGTTAGGCTATTTGGGGGTCAGGGACCCACTTGAGGAGGTAGTCTGCCCGTTCTCAGATCTCAAGCTGCGTGCTGGGAGAACCACTACTCTC
Celera SNP ID:            hCV26971174
SNP Position Genomic:     23953
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,8)      total(G,3|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61988):
GTGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCT
Y
GAGGAGTATCTTTGTGGTGTTCTCTGTATTTCCTGAATTTGAATGTTGGCCTGCCTTGCTAGACTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGT
Celera SNP ID:            hCV26971175
SNP Position Genomic:     23031
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61989):
CTAGTTACTGTGTTTTGGCTGGAATGGAAAGCCTTTGGAATAGCAGTGTTCCAGTGTGTGAACGTAAGTAATAGGAGTAACATTTCAGGCCAATCTCTCC
Y
CTTCATCTGTTCAGTATTTGACCCATGACCTCCCCTAATGTGGTTCTTCAATTTTCTAATCTGAATTATTGATTTGAAAATTTCTTATTTTAGTAATGTT
Celera SNP ID:            hCV25651810
SNP Position Genomic:     60185
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,32|T,8)   total(C,64|T,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:61990):
AAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAATTCTTT
Y
CTTTAAGAATGTTGAATATTGGCCCTCACTCTCTTCTGGCTTGTAGAGTTTCTGCTGAGAGATCCGCTGTTAGTCTGATGGGCGTCCCTTTGTGGGTAAC
Celera SNP ID:            hCV26971176
SNP Position Genomic:     22839
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61991):
GTGACAAAATCTCTCAGCATTTGCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAATTCTGGGTTGAAAAT
Y
CTTTCCTTTAAGAATGTTGAATATTGGCCCTCACTCTCTTCTGGCTTGTAGAGTTTCTGCTGAGAGATCCGCTGTTAGTCTGATGGGCGTCCCTTTGTGG
Celera SNP ID:            hCV26971177
SNP Position Genomic:     22834
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61992):
GTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAGGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCT
Y
GTTAGTTGATGCAGTTTCTTCCTAGCCTTGATGGTCTTTACAATTTGGCATGTTTTTGCAGTGGCTGGTACCGATTGTTCCTTTCCATGTTTAGTGCTTC
Celera SNP ID:            hCV26971178
SNP Position Genomic:     22602
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61993):
TGCACTGTGGTCTGAGAGACAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGTGGAGCGCTTTACTTCCAACTATGTGGTCAATTTTGGAATAAGTG
Y
GGTGTGGTGCTGAAAAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGGGTTCAATTCCTG
Celera SNP ID:            hCV26971179
SNP Position Genomic:     21981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:61994):
CTTGGCTTCAAATTTCTGTTTCTTTCCTGTAGGTAAATCATGTCGTAATCCTCCAGATCCTGTGAATGGCATGGCACATGTGATCAAAGACATCCAGTTC
R
GATCCCAAATTAAATATTCTTGTCCTAAAGGGTGAGTTGGCATCTCTTGAACCAACATCTCTTGGTTCAAGGGTTCTAACACAGCCATACTACCTTCTAG
Celera SNP ID:            hCV15751935
SNP Position Genomic:     39137
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:61995):
GCTCCAAAAGCCAGCACCCAGTAAGAGTTAGGAGGGCATCGGGGCCCAACAGACATTGAGAATTTTCAACAATTGCGTACAAAAATTATGTCCTCTCTTC
T
TTCCTTTTTCCCCTAGAATATTCGTGCTTACTCTTCAGCAGCCCAAATTGCCCTTTTGAGCCTTCTTCACGCCATCACAGATGTGGAGATGAAAGGACAA
Celera SNP ID:            hCV26971100
SNP Position Genomic:     59541
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61996):
AGGCTCCAAAAGCCAGCACCCAGTAAGAGTTAGGAGGGCATCGGGGCCCAACAGACATTGAGAATTTTCAACAATTGCGTACAAAAATTATGTCCTCTCT
T
CTTTCCTTTTTCCCCTAGAATATTCGTGCTTACTCTTCAGCAGCCCAAATTGCCCTTTTGAGCCTTCTTCACGCCATCACAGATGTGGAGATGAAAGGAC
Celera SNP ID:            hCV26971101
SNP Position Genomic:     59539
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61997):
AGACAGACAGACAGACACACACACACACACACACAATCAGAGAGATGAACTTTTGAAAGTATATATAGGAAGAAAGGAAAGACACATATGGAACTAATAA
Y
ATGAGATATGAAGAGGACACTGGGCCATATATTAACTGGCAAATTCAAAGACAAGTATAATTACTTGTTATTAATATATAGGTAACACAGTAAGTTTAAA
Celera SNP ID:            hCV26971102
SNP Position Genomic:     58935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:61998):
TGTCAACTCAGGAATCTTACTATGCCTGATTTAAAGTAGACAACCAAATGGGTGTTTGTAAAAAAATTAAAAAAAATTACTTTCCAAATTCATTATGAAC
R
TAGCTACCTGGATGGTCCAAAAACACTGTCTTTGGGCTTTTGCAATAGACTGTAATTTAGGTCTCACAACAGTTAGTTGCCTCTCAACAAAAGCCTTACA
Celera SNP ID:            hCV26971030
SNP Position Genomic:     78091
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:61999):
ATGAGCCACTGTGCCTGGCCTCTATGTTTTGCAGAGAAAATGTGCCTTAGAGAAATCGGATAACTTTCTAAGATATTAACTTGCAGACTGAAGACTGAAA
Y
GCAAGTCCACCCGACTCCAGAGACTTGGCTTTGCTAGTCAGCATCCAGTCAGGAAATCAAAACTTACTCTAGATACTTTCAAGGAGGGAGGGATTTCATG
Celera SNP ID:            hCV26971104
SNP Position Genomic:     56383
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62000):
ATCTCTTCCTAAATTCATATCAAATTAGAAGCATCAAGTGCTTTTAGGGAAGGAACTGTTCTAAACAGAAGAAAAGAAGGAAGAAATGATGGCTAATAAT
Y
TGGAAGAAAGAAAAAAAGCCTCTTTGGCACCATTTAATCTGTGTAAAAAGAGCCTTACCAATGTAGTCTGATGACACCACTGGAAATTTGGTATTGGTCC
Celera SNP ID:            hCV26971031
SNP Position Genomic:     77756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62001):
GGGCTCAAGCTATCCTCCCACCTTGGCCTCCAAAAGTGTTAGGATTACAAGTGTGAGCCACCGTACCCAGCCAAATTTTTATGTTCTTTTATCCCCTCAC
K
TATCATAAACAATTTAGTCAGCTTGTTTTTTAGCCTGCAGTATTGAATGACATAGGGCTTCCCATGTGCTAGGACTTTCCATGTGTAGAAAATGCAATGA
Celera SNP ID:            hCV26971032
SNP Position Genomic:     76898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62002):
AGGTGAGATCATGGCTTACTGCAACCGCCACCTCCCTGGCTCAAGCAATTCTCCTGCCTGAGCCTCCCAAGCAGCTGGGACTACAGGTGCATGCTACCAC
R
CCTGGTTAAATTTTTTATATTTTTTTTATAGAGATCGAATCTCACCATGTTTCCCAGGCTTGTCTCGAACACCTGAGCTGAAGCAATCCACCCACCTGGG
Celera SNP ID:            hCV26971105
SNP Position Genomic:     56156
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62003):
AGGGTCTTGATCTGTCACTCAAGTTGGACTGCAGAGGTGAGATCATGGCTTACTGCAACCGCCACCTCCCTGGCTCAAGCAATTCTCCTGCCTGAGCCTC
Y
CAAGCAGCTGGGACTACAGGTGCATGCTACCACACCTGGTTAAATTTTTTATATTTTTTTTATAGAGATCGAATCTCACCATGTTTCCCAGGCTTGTCTC
Celera SNP ID:            hCV26971106
SNP Position Genomic:     56122
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62004):
GCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCTATCCTCCCACCTTGGCCTCCAAAAGTGTTAGGATTACAAGTGTGAGCCACCGTACCCAGCCAAATT
Y
TTATGTTCTTTTATCCCCTCACTTATCATAAACAATTTAGTCAGCTTGTTTTTTAGCCTGCAGTATTGAATGACATAGGGCTTCCCATGTGCTAGGACTT
Celera SNP ID:            hCV26971033
SNP Position Genomic:     76875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62005):
TTATGGAGACAGCAAAGACGTAGAGTAAATAGAAATTGATATTGAAGGAAAGCATAACTACTTGCTATTTCTGACAATAAGTCTGTTGAAAGCATTAAGA
R
TGTAGTAATCATGAGAATTCATCCTTCACAACTGAGTGTCCCCTATTTAAATCTGCAAACTCTTAGAGTTAAAGTAGGGCTGACAGAAATGAGAAATAGA
Celera SNP ID:            hCV15843200
SNP Position Genomic:     14319
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,3)   caucasian(A,1|G,11)   total(A,2|G,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62006):
TTGAAAGTTCAATAGAGCTTATCTTTTTTTTTTTATTCTTACATGTTTGTTGGGTAATTCTAGCTTTCTAAATCTTTTTGAATGAATATTGGCAATTTAT
R
TTTCCATTTATATCATTTAGATTTTCAAAATATTTAACCCCCAGTAGTCTACAGTTTTATAAATATTCTCATATTCATAAAAATGTTTAAATTCCTTTTC
Celera SNP ID:            hCV26971107
SNP Position Genomic:     54704
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62007):
CTGATTAAAAGGCAGGTCTGCTAGTCATTGTGTCTTGGCTGGAATGAAAGCCCTTTGGAATAGCAGTGTTCCAGTGTGTGAACGTGAGTAGAAAGAACTA
Y
GTAGTTTGGATAGCTCTCCTTATTTTTGTTTTCCAGTGTTTTACTGCACGGAATCACTTGTCTGGATCTTTACTTAACTAAATTACTGATTAAAATACTT
Celera SNP ID:            hCV26971034
SNP Position Genomic:     76290
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,1)      total(C,1|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62008):
TGGATCCCCTTCTCTCTCTCTCTCTACGTTCCTCGCACTGACCAACCTCTTTGTGATCTTCAGGCGTGCCATACCCCCAGCCCGTAATAAAATCTTTACT
K
CCATCTTGTGTTTCTTGTAATGACTGAAGAGGTTTTCTCTATCATAAAGATCCTAAATGAAAACATACCCGCATATGAGCTCTTTCTGGTGTGTTTCCTT
Celera SNP ID:            hCV26971108
SNP Position Genomic:     53680
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62009):
AGGGAGAGATGGGAATTGCTCACACATTTGCTACCACTTTTTTTTTTCTTTAGGTTCTGATTAAAAGGCAGGTCTGCTAGTCATTGTGTCTTGGCTGGAA
Y
GAAAGCCCTTTGGAATAGCAGTGTTCCAGTGTGTGAACGTGAGTAGAAAGAACTATGTAGTTTGGATAGCTCTCCTTATTTTTGTTTTCCAGTGTTTTAC
Celera SNP ID:            hCV26971035
SNP Position Genomic:     76234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:62010):
GTAATATATTACATTGATTGATCTTTAAAGGGCAAACAAACTCTGAATTCCTAGAATCAACCTATGTTGCTTGTGATGTGTTATAGATGATTATCCTATC
W
ATGAAATGTGTGTGAGTGTGTGTGTGGTGTGTGTGTGCAGGATTGCTCATATTTTTATTGTAACGTTGTAACATTGATTTAATATTTAAAATCAGTCAAG
Celera SNP ID:            hCV26971109
SNP Position Genomic:     50226
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,9)   total(A,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62011):
TAGAAGGGTGAGGAGGGTGGAGAAGAGTTTTATTGAGTGACAAAACAGCTTCTCAGCAGAGAAGAGACACAAGGGTGGACCCCAGATGAAGTCAGGGGGT
Y
ATTCTCTCAGTGTGGCTGGTTCTGGAGCCTTTATGGACTCAGAATTGGAAGTGTGTGTTAATTGGTTGGTGAGTATGCAAAAAAGGCTAAAACAAAGCCA
Celera SNP ID:            hCV26971037
SNP Position Genomic:     75066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62012):
TAATCTAATTGGGTAGTTGACCTGTGTATTTAGAATGTAACATTCCTTATTTTTTGCCTCTAGATACCGACTCATTGGTTCCTCGTCTGCCACATGCATC
R
TCTCAGGCAACACTGTCATTTGGGATAATAAAACACCTGTTTGTGACAGTGAGTTGAAATATGCATTCCTATTTCTTTTACCGATACATTCTAATTTTTC
Celera SNP ID:            hCV12080015
SNP Position Genomic:     44782
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,34|G,6)   total(A,71|G,7)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62013):
TTTATAAAATGTATGCTAGAAAAAAAAGATGAATGAGATGGAAATTGTTTGCCTCATAATAAGGCAAAGGTTGTTTTAGGAAACTTAAAACCAGTCAATA
R
TGGAATCTGTAATAGTGTATGAATAACTATGTTTTAACCCAATTACATATCTTCATGTCAAGAATGGCCAGTGTAATTGTTTTGATGCAAGATTTTTCTC
Celera SNP ID:            hCV26971038
SNP Position Genomic:     74214
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62014):
CAGAGAGATTAATTTATGGAAGGGTAGTTTTGAAATAAGGGTAGGGACTAAGTGGCACCGCCTTCAGAAAACAATGAAAAAATGGCACATACAACTCAAT
R
TCAGATACAAACCTAAATACAGTCACTGATCTTGGGTACACAGTTGGAACTTGAAATGAATGGGTACGTATTTATTTGGAGGCAAAAGAACATAATTTTA
Celera SNP ID:            hCV26971039
SNP Position Genomic:     74017
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62015):
ACCTGGGATCTTTCTGTGCTATTCCCTACAACTGCATGGGAATCTGATTATCTCAAAATAAAATTTTTTTTTTTTTAAGTTACTACTAAATTTCCAAGGG
S
ATGGGCTTCCTACCAAAGAATTGTATATTGTGAAATTAAATCATTCGAACTTAAAACAATTCAAACTTATAGCTGGGAGAACTTTAAATTATTCTGAGCC
Celera SNP ID:            hCV12080017
SNP Position Genomic:     41447
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62016):
AAATGTTATTATTAGGGGAAAATTGAGTAAAGTGTACCTGGGATCTTTCTGTGCTATTCCCTACAACTGCATGGGAATCTGATTATCTCAAAATAAAATT
W
TTTTTTTTTTAAGTTACTACTAAATTTCCAAGGGGATGGGCTTCCTACCAAAGAATTGTATATTGTGAAATTAAATCATTCGAACTTAAAACAATTCAAA
Celera SNP ID:            hCV12080018
SNP Position Genomic:     41412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62017):
GTTGGTTTCAAAGAACATCTTTATTTCTGCTTTCATTTCGTTATGTACCCAGTAGTCATTCAGGAGCGGGTTGTTCAGTTTCCATGTAGTTGAGCTGTTT
Y
GAGTGAGTTTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGACAGTTTGTTATAATTTCTGTTCTTTTACATTTGCTGTGGAGCGCTTT
Celera SNP ID:            hCV26971180
SNP Position Genomic:     21846
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62018):
TGCTCGCTGCTAGTGCAGCAGTGTGAGATCCACCTGGGATGCTGGAACTTGGCTGGGGGAGGAGCATCCGACATTGCTAAGGCTTGACTGGGCGGTTCTA
K
GCTCACAGTGTAAACAAAGCGCCAGGGAAGCCTGAACTGGGTGGAGCCCACTGCAGCTCAGCAAGGCCTACTGCCTCTCTAGATTCCACCTCTGGGTGCA
Celera SNP ID:            hCV26971181
SNP Position Genomic:     20881
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62019):
TGCCTGGCTGGGGAGGTCCCACGCCCACGGAGCCTTGCTCGCTGCTAGTGCAGCAGTGTGAGATCCACCTGGGATGCTGGAACTTGGCTGGGGGAGGAGC
R
TCCGACATTGCTAAGGCTTGACTGGGCGGTTCTAGGCTCACAGTGTAAACAAAGCGCCAGGGAAGCCTGAACTGGGTGGAGCCCACTGCAGCTCAGCAAG
Celera SNP ID:            hCV26971182
SNP Position Genomic:     20846
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62020):
GTATTGTGAATCACCAATTTAGAAAATGGATATATTTAAAAATTGCAAAGGATTTCTCAGCTAGCGCTCAGTTAAGCATATTTTCTCATTAAATTGTCAG
Y
ATTTCTTGTGATAACTAGAAGAAAACTTAGCATGGCCTTGCAAATAAATATAGGCGTATTAGGCCGTTTTCGTATTGCTATAAAGAAATGCCTGAGACTG
Celera SNP ID:            hCV26971183
SNP Position Genomic:     17303
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62021):
ACTCTACCTGGCTCCAAAACATTTTCTTTCCCACAGGTAAATCATGTGAAACTCCTCCAGTTCCAGTGAATGGCATGGTGCATGTGATCACAGACATCCA
K
GTTGGATCCAGAATCAACTATTCTTGTACTACAGGGTGAGTTGGCAGCAACATCTCTTGGTTCCAGAGTTCCAGCACAGCAATACTACCTTCTAGCCACA
Celera SNP ID:            hCV27509956
SNP Position Genomic:     62456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62022):
ACCTAACTGATGACTTTGAGTTTCCCATTGGGACATATCTGAACTATGAATGCCGCCCTGGTTATTCCGGAAGACCGTTTTCTATCATCTGCCTAAAAAA
Y
TCAGTCTGGACAAGTGCTAAGGACAAGTGCAAACGTAAGTAACTCTGGAGTGGGAACCCCTCTGTTAGTCAAACATCTGTAAGATCTGATTCAATTTGTT
Celera SNP ID:            hCV25473441
SNP Position Genomic:     38405
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,32|T,8)   total(C,65|T,13)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62023):
GCGGAGCTTGCAGCGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGATTCCGTCTCAAAATCAATCAATCAATCAATCAATCAATC
H
CTATACACTTATAAGGATGAGAGTGAAAAAAGACAATATGTTGGTGGTATTGTGAATCACCAATTTAGAAAATGGATATATTTAAAAATTGCAAAGGATT
Celera SNP ID:            hCV26971184
SNP Position Genomic:     17156
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,1|T,1|-,7)   total(A,1|C,1|-,7|T,1) 
SNP Type:                 INTRON


Gene Number:                 356
Celera Gene:                 hCG2039569 - 208000027287686
Gene Symbol:                 FLJ39415
Protein Name:                hypothetical protein FLJ39415
Celera Genomic Axis:         GA_x5YUV32VSYK(1740379..1762251)
Chromosome:                  Chr7
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12516):
ATTTATTTATTTATTTATTTATTTGAGACGGAGTCTTGCTCTGTCATGCTGGAGCGCAATGGCACAATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTT
TGAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCGTGCAACCACGCCTGGCTAATTTTTGTATTTTTAGCAGAGACGGGGTTTCA
CCACGTTGGCCAGGCTGGTCTTAAACTTCTGACCTCAGGTGATCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGC
CTATATTTACTTTTAAATGGTCCTGACCAACTAAATGCATTTCATAATCTATTGAAAAATACTGACTAATGAACACATATATACTTGAATATTATTTTAT
GTCTTTCCTTGGGTTTCTCTCTGGTTTAAATAACATCAACACCCTTACTCTTTCCTAAGAACTGTTTTTAAACCTTTCAATAATTTAGCATGGTCTTTTT
CCAGCTTCTTGCATTGTCTCCAAACTAAGACTCTAAGAAAGTCTTGGTCGTTGCCAAGAGCATGTGGATTACTTCCCAGTACCAAGACTTCCAGCTCCAG
CTCGATCCAGCTCTTGCCCTCCATCAGTCAGATGGGCTTTCCAAATGACACAACTCCACATCCACCTGCCCTTGGGAATCTTCTATCTGTTTGGCCCCCA
AGTAATTCACTCTAGGATTAGAAAGGATGGCCAGGTGAGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCCGAGGTC
AGGAGTTGAAGACCAGTCTGCCCACCAATATGATGAAACCCCGTCTCTACTAAAAATACAAACATTAGCCGGGTGTGGTGCACATCTGTAATCCCAGCTA
CTTGGGTGGCTGAAGCATGAGAATTGCTTGAAACCAGGAGGCAGAGGTTGCAGTCAGTCGAGACCATGCCACTGCACTCCAGCCTGGGTGACAGAGCGAG
ACTCTGTCTCAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAAAAAAGGAATCAGTCCCTTCTCATAAAGCATTTACATTCGAGTT
GTAGTTTCAGGGTCCTTGTTTGTTTCCCATCTGTCTGTCTGTCTGTCTCTCTCTCTCGACCAACCTGTGTAGAGTGTTTTGCGAAAAACACACATGTACA
AGTTACTAGATTGACTCTTTTTTTTTTTTTTCTGAGGCAGAGTCTCACTCTATCACCCGGGCTGGAGTGCAGTGGCCATGATCTCAGCTCACTGCAACCT
CCGCCTCCCGGGTTGAAGCGATTCTCCTGCCCCAGCCTTCCAAGTAGTTGGAATTACAGGCGCGTGCCACCAATCACGGCAAATTTTTGTATTTTTTAGT
AGAGACGAGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTTCCAAAGTGCTGGGATTACAGGAGCGAGCCACCGCGCCCGGCCTATTAGA
TTGGCTCTTTATCCCTGCTGAACATCTCTAGTTCTTCTTCGACTCACTTTGAATCCTGGAAGCACCACTACATTAAATGTCTCTTCATACTAATAAGAAT
TTTCGTCCAAATCGCGCAATCACCTCCAGGGCCAGGAAAGGGGACCCCCGGTCGGGAGTGCGGACTGGGCGTGGTCACTGACCCCGAGCGTCCCCTCCTT
CTGGCTGACACGCGGCTGCAGACGCAGGAGCCTCCTGCTGGCGACTGGAGTGTCACTATAAATAATTGAGGCCAACACCCGCGGAGTGACATTCCACCCC
GGTAGGCCTGGCCTACAGCTCCCAGCAAGCCTCGCGCAAGCTCGTGGACTCCATCTCCCGGCGGGCCGGCACTGCCCTGCCGGGCGGTCAATGGCCCGCT
CTGAGTAGGTTTTTCCGTTTTTACCTGACAGCTGAGAATGTCTGGAAGCGGAGGGGCGGTAGCAGCCTGCCTGGGAATGGGCCACCCCGAATCCCGACCC
GAAATAAATGCACCAGCATGCTGACGCGGTAAAACAGGAGCCGCCGGCAATAGCAGTTTCACCCTCATCCCACTGAGGGCTCTATGTTGGCTCCCGCCCC
CATCCCGACAACCCCCTCGCGCCTTGGCGGTGATTGGTGAAAAGACACATCAATCTCACTTCAAGCTGTGATTGGAGGATATGTTGTCAGCCCCCTCCTT
TTGGAACTGTGATTGGAGGGAATCGCCTATCCGCCCGCCCCCTGCTCTGGGCGGAGCCGAGCAGGAAGTGGGCCTGGCTTTTGCCAGGTGCTCCTGTGGG
CTCCGGGTGACGTCCAAAGGGTGTGGCCCGACTGGCCCTCCAAGCTATGGAGTATCCATAGTAACGCGTCAGCCGCCGACCTCGGGCCATTTTCCCAAGG
CTCCAGGATCTCTAGATGTCCCGTCGTCTCAAGGGCGTGTAGAACGCGGGTTTTGGGGGAGGAATGAACAAAAATCGACTGGGAGTTTTTTCAAAACACG
TACATATGCCCTGCCACCCACCCCGCTCTCCTAGGTGCGTCAGAACTGCTGGGACATCTGTCACGTGAAGGGGTGGGTTGCCCCTCCACACCTGTGGGCG
TTTCTCATTAGGTGGAAGGAGAGACTTGGAAAAGAAAGAGACAGAGAGACAAAGTATAGAGAAAGAAAAATGGGCCCAGGAGACCGGAGTTCAGTTTACG
GAAGATCCACGCCGGCACCAGCCTCTGAGTTCCCTTAGTATTTATTGATCATTATCGGGTATGGCAGGATAATAGGATAATAGTGGAGAGAAGGTCAGAA
GGTAAACACGTGAACAAACGTCTCTGCATCGTAAACAAGGTAAAAAAAAAAATGCTGTGCTTTTGATGTGCATACACATAAACATCACAATGCCTTAAGA
AGCAGTATTGCTGCCAGCCTGTCCCACCTCCAGCCCTAAGGCGGTTTTCCCCTATCTCAGTAGAGATAGGCTTTACACCGAGACATTCCATTGCCCAGGG
ACGAGCAGGAGACAGAAGCCTTTCTTTTATCTCAACTGCAAAGAGGCATTCCTTCCTCTTTTACTAATCCTCCTCAGTACAGACCCTTTATGGGTGTCGG
GCTGGAAACCTTGGACAATACCTAGCTTTCCTAGGCAGAGGTCCCTGCAGCCTTCCGCAGTGTTTTGTGTCTGGGTACTTGAGATTAGGGAGTGGTTTGA
GATTAGGGAGTGGTTTGAGATTAGGGAGTGGTGATGACTCTTAAGAAGCATGCTGCCTTCAAGAATTTGTTTAACAAAGCACACCGTGCACAGCCCTTAA
TCCATTTAACCCTGAGTTGACACAGCACATGTTTCAGGGAGCACAGGGTTGGGGGTAGGGTTACAGATCAACAGCATCTCAAGGCAGAAGAATTTTTCTT
AGTACAGAACAAAATGGAGTCTCCTATGTCTACTTCTTTCTACACAGACACAGGAACAATCTGATCTCTCTTTCTTTTCCCCACAGTCACGTGTACTTGG
GGAAGAACTCCCCCGGTGATTCTGACACTCTTGCCCTACGCCTCAGCCATTGAGAACTATTGGTATGGAGGGCCTGTAATTTATCAAGGCGCGGCCTCAG
ATCTGTCTGCCTCGCAGATACCTTCCTCACCCGGGTCAGAATGACTTGCCTCAGGCTCCTGCCAAAGAGTTTGCACCACTCGTTTCTTCCCTGTAATTAC
TTGTTTGCGTATTTGTCTCCCCACTGGGCTGCAGCTTCTTGGGTAGTGGCTCTGTTTTATTCATCTGTCCTCTTCCCTTCCAAATGCTTGGCAAGGAAAA
GTGCCCTTTAAAATAAATCGACTTGAATTGGGAGTGGTGGTAGGGAGGCTGTCAATGAGAATGAATTCAGGGTGAAACTAGGTAGGACAATGTCCCAGGA
TTAGTTTGGGGTTGAGCTGGGGAGCTCTTGGTGTATGGGGGGGTCCTATTGTGACTATGGTGGAATAGCCACGATACTGAGTGACATTGGGCGAGTGAGG
TGGGGGAGAGACTAGACAACACCCCACATAACCCATCTTGACAGATGTCTCAGAAAGATTATGGGAATTTCCTGGCCCCTCTGCAATGTGGGATTCCATT
TTGCTACCTCTAGAAGGACAGGGTCTTGTTTTCATAGCTCTGCCTCCTACTCTGAGATAAAGGCATGCAAGACCTGAGCTACTACTACAATACCCCACAC
AGAAGGAGAAAATCAGGCACATCTGGATTCAAGTTTTGTGGGTGATTCCATGATTGCCTCCAGTGAACAATCTGGGAAGCACAGTGTCCATATCGCCATT
TCAGGGGTACTGGCCCCAACATCAGCCCTTAGGCCTAAGCCCTAGAGACCTTGACACCTGGTGGCTGAGTCAGTATCTCAGTAATGGGCTTTAGAAGGAA
ACCTGGTGATTCAGGGCCTCAAGAATGGCGTTGGGCAAGCCACCAGACCAGCTGCCTGGGTCTCCTCCTCCTTGTTGAGGTGACAACAAGGAACTCAGTT
CAGCTCCTCCCTGGGTATCCAAATTATCCTTCCAAGTCCCAGACTCACAGCTGTCCTCCCTTCTGATTCAGCCCTGATGCTTTTCAGGGGGTCCCAGAAG
TGGGATCCGGACTTGAGAGAATGTCACAGTTGAAAATGATAAGGATGCAAACGGAATGGAACTTTCAGAGAACCCCAATTTTCTACTCTAAGTTCTCCAA
ACCAACTCTCAAATCCAAGATAGCTGCCTTTCCTTTCTTCACCTCCTCTTCTTAGTTTTCCCCAACTTGGCTGCAAAGTCAGCCTCCCCTCTTCTCTTCC
TTAGCACCTCAGACCAATAAAACATGCAACCTTTTCTTATTCTTTTTAAAAAATTTATTTTTGACCAGGCGCAGTGGCTCACGCCTGTAATGCCAGCACT
TTGGGAGGCCAAGGCGGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCT
GGGTGTGGTGGCACACACCTGTAGTCTCAGCTACTCAGGAGGCTGAAGCAGAAGAATCACTTGAACTTGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGT
GCCACTATACTCCAGTCTGGGTGACAGAGTGAGACTGCCTCAAAAAGAAAAAAAATTATTTTGTTTGTTTTTTAGATTTTGTAGAGATGGTGTTTCCCTA
AGTTGCTCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCTCTCGCCCGGGCCTCCCAAAGTCCTGGGATTACGGGTGTAAGCCAACATGCCTGGCCC
CTTTACTTCTTCTTTTCTGTTTTGGTCACAAAACATTTCTCTGTTGATCACTGTAGTGTGTGTGTGGAGGGAAGTGGGGGAGGTACACTCTTAAGAAATG
AAATAGTTAACATCTTGGCCCTAAGATTTGTTGTAGAGATGGAGTCTTCTCATTCTGTTCCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGCAATCCTCT
TTCCTCGGCTTCCCAAAGTGCTGAGATTGATTACAAGTGTGAGGTACTGCGCCCTGCTACAATCCTTTAATAGGATGTTTTTGGGGGGGGTGGCAGGGGG
CAGGATCTAGCTCACTGTAACCTATACTGTTCCAGTGTAACCTGCACCAAGCCATCCTCCCACCTCAGTCTCTTGAGTAGCTAGGAACACAAGCACACAT
CACCACACCTGGCTCTAACACGATTTTGCTTTTTGCTTTTGTCATTTTGGCTGCTGTTCTTTTTATCTTTCATTCATTCAAGGTCTGAAGATGGAGATAA
TAGGAATCTTCTCATCTCAATGTGCTCTTTGGCCCCTCCTCTTAAACTGATGCCCCTCTCAGGCCCTGAGGGATTTGGCCTCAGGTTGCCCTGGAAGGGG
TGTGAGTGATCAGACAGGTGACTGAGAGCTGGGACGCCTGAGGCCTGCCTAGGCTGAGTCACCTAGTAATGTTGTTGTCATTGTTCCTGTTGAAGTCCCA
GCTCAGTGTCACAGACCTTTGTGGAAGCAACAACAGCTCCCATCCTTCCAACCTTTCTGGAGAAGCCGTGGCCTGATGGTGAGCCGAATGGGCTGGGRGG
GGAGAAGAAGGCGGCTGGGGCGGTGGGGAGATCTGGGGCCCGGATCGGTGCCCCTCCTCCCCATGCCACTGCCACCTCCTCCTCCTCCTTCATGCCGGGG
ACCTGGGGGAGGGAGGATCTCCATCTTCTCTCTGTCCCCTGCCCCTCATACAAGAAGCTCCCCCTCCTCATTTTCCCCTCCCACCGCAGGGCCCCCTTGC
TCAGTGCTACAGGGGACAGGGGCTTCTCAGTCTTGCCACAGTGCTCTCCCTATCCCAGCCACCCCCCCAACACAGGCTCAACCTGCAATGACACCTGCCT
CTGCATCTCCCTCCTGGGGATCCCACTCCACCCCACCCCTGGCCCCGGCAACCCCCACTCCCTCACAGCAGTGCCCCCAGGACTCTCCTGGGCTGCGGGT
AGGCCCTTTGATCCCTGAACAGGATTATGAGCGGCTGGAGGACTGTGACCCTGAGGGGTCCCAAGACTCACCCATCCACGGGGAGGAGCAGCAACCCCTG
CTTCATGTCCCTGAAGGGCTCCGAGGTATGTGTGTGGGTGTGGGTGGGAGAGGGTTAGTGGTGCCTGGGAGCTCCAGTACTTACCCCAGGCTGGGCCTCT
GGCAGCGGGTTGAGAACGTGGAGAATTGATCACATGCCAGGGGCTGACACTCTCCCCTCTGTGCCCAGGCTCCTGGCATCACATCCAGAACCTGGACAGT
TTCTTCACCAAGATATCCTTTGCGCTAGGCCTGCAGAGGTGGCATGGGAAGGTCCTCTTGGAGCTGGCACTGTTCTTGGCAGGGAGACTCCGTGAGGGCG
TCATGGGTGGGAGACTTGTTGGGGCTGAGGGGAGGTGTCCTCAGGAGAGGCCCCCCGTGCCTCAGGCTTGTTCCTTGACACGCAGCCACATCTACAGCTA
CCACCAGCGGAATGGCTTTGCCTGCATCTTGCTGGAGGATGTCTTCCAGCTGGGGTGAGACGCTTAGCCCGGGCCCGGAACTCRGTCCCCTGGGCCCATG
GCTTCCTTCTGTCATTTTGCTTCCTTAATTGTGCCAGCTGCTTCCATCCCATGCTTTCCYGAGCAGCCCAAGGGCTCAGCAGGGGCAGGGTCAGGGAGGA
TAACCATGGGCTGCTCTGGGGGCTGGGGCAGGAGCCCACCTGGCTGTCCCTGATCACTGCAGCATCCCGGYACCCCCMCTTCCTCCCGGCAGACAATTTA
TTTTCATTGTCACCTTCACAACCTTCCTCCTTCGATGCGTGGATTACAATGTTCTCTTTGCCAACCAACCAAGTAACCATACCAGACCTGGGCCGTTCCA
CAGCAAAGTGACCCTGTCAGATGCCATCCTACCCTCAGCCCAGTGTGCTGAGAGGTTAGTGACAACCTGGTGGGGCCCTGGGGGTGAAGCATGGGCAGTG
GGTAGAGGAGTAGAYGGGAGCCCCACTTTGTCCCGTCATCTAGATCAGCAGTTCTCAAAGCTTTTGGTCTTAGGACCAAAAATACACTTAATATACTTTA
AGTTGTACTTAAGTGTATTAAGTTGTACTTAAAGTGTATTAAGTATATCTTTTTTTTTTTTAAGACAGAGTTTCACTCTTGTTGCTCAGGCTGGAGTGCA
ATGGTGAGGTCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTATAGGCGTGCACCACCA
CGTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTGGAACTCCTGGCCTCAGGTGATCCACCCACTTTGGCCTCCCAAAGTGCTG
GGATTACAGGTGTGAGCCACTGTGCCCGGCCTTTTAAGTGTATCTTAATTACAGTGCATTAAGTGTATCTTAATACACTTAAAATTGGTTGAGAATCCTG
AAAAGCTTTTGTTTATGGGAGTCGTATCTATCCACATTTTACCTTATAAAAAATTAAAATTAGGCCGGGCATAGTGGTTCACACCTGTAATCCCAGCACT
TTGGGAGGCTGAGGCAGGAGGATTGCTTGAAGCCAGAAGTTTGAGATCAGCCTGAGCAACAAAGTGAGACCACATCTCTATAAAAAATAAAAATTAGCTG
GGCTTGGTGGTGCGTACCTGCAGTCCTAGCTAAGCCTAGTCAGGAGGCTAAGACAGTGACTGTCTCTGATCACTGCAGCATCCCTACACCCTCCTCCCTC
CCAGCAGACGATTCATTTTCATTGTTGCCTTCACAACCTTCCTCCCTGAAGCATGGATTGCAATGTTCTCTTTGCCAACCAACCAAATAACTGTTCCAGA
CCTGGGCCGTTATTTGGCAGGGAGATAGGAGCTATGTTTCTACTGCTGCACTACAGCCTGGGTAACAGAGAGAGACCTTGTTTCAATAAAAAGGAAAAAA
AAAAAAGAAGGAAATTGTAGCTGAGAACAACTTTAAAATGTAAGAGTGCGGCTGGGCGTRGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCGAG
GCGGGCGGATCACAAGGTCAGGAGATCAAAACCATTCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAATATACAAAAATTAGCCAGGTGTGGTGGCG
GGCGCCTGTAGTCCCAGCTACCCTGGAGGCTGAGACAGGAGAATCATTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAGATTGCGCCACTGCACTCC
AGCCTGGGCGACACAGCAAGACTCCATCTCAAAAAAAAAAAAAAAGAGTGTACAAGCACACATTTCATCAGCTGTCAGTGTGATGTGACATGTTCAYGTG
TCTTGTAGCCTCTGGAAAACTCCACTGTACTCTCAGAGTACAAGAATGAAAACATCAGAAAGCATTAGTATTATTTGGAAAAAGTTTGACTTTGCACATT
TGTGAAGGCCACTTCAGCACCCACCCCCTGCCCCGGGCTCTACCTTGAGAGCTGCTGGTCTASCTAGATCCCCCTCCTCATGATGGTTTTTCCTCACTCC
CGAAGTCTGGTCTGCCTCTTTCTCAGGCGCCCACCTTTCTCCCCCACTGCCCGCCCAACCCCATACAGGATCCGCTCCAGCCCGCTGCTGGTCCTCCTCC
TGGTCCTGGCTGCCGGCTTCTGGCTGGTCCAACTGCTTCGCTCAGTCTGCAACCTCTTCAGCTACTGGGACATCCAGGTGTTTTACAGGGAGGCCCTGCA
CATCCCCCCGGTGAGCTGGGTGGCTGTGTCTGTGCAGAGGGTGCCGTGAGAGGGTGGGCAGAGGAGAGGGGAAGAAGTGGGACTGTACAGGTGGAAGGGC
CAACTGGAAAGAGGGCAGAAAGAGCGAGGTCTTATTGACACCTGCCCTAGGCCCAGAATAATGTCAGGAGGGGGCTACCACCACCTAGAGAGCATGGCCC
TTACCCTAAGGGAGTTTAGTTTATTTAGATGGCTCATATAAGATGACATATAGTTACATGTTTGTGCTAAAAACATTGATTAGAGAAAAGAGAAAGGGCA
GTTATCTGGCTTTTCAGAGCTGGAGGAATTTGGGTTGGGCTTCGGAAGGGCAGGACAGGAGGGGAGGGGAGCACATTCTAAGCCCCAGTGCAGGAAGGTG
GGGAAAAGCCATGAGCTTTTGGAAGCTGCAGTGAGGAGATGGACCCATCAGCCTAAAACAGAGCCTTCAAAGCCATCCCCCGCATTGCAGGAAGCCACTG
CATTGGCCTGTCACTGTCCACTGCTTATGCTCTGCCCTTTGTTTCCTCACCATCTTGAGTCTGCTCCTCCCTCCTCTGTATCTAAGTTCTTTCTTTGAGG
CACAGCTTGAAAGTAGCCTTCTGCAGCTTGCTTCCCTTGCTCCCCTGGGAGGTCCGGAGCCCTCTGCACAGCCTTTATGTGCAGCAAGGGGAGAGGTCTT
AGAAGGCCCCTGAGCAGAGGAGAGGGAGGAGGCCRGGGAAGCAGAGGTGGTGAGAGCGGAAGCTGGACCTCGGATTGGCTCTGGCGGGAGACTGCTCACC
CGTCTCGTTCTCCTCCTCCCTTCTTTCCCCTCCTCCCCTGTTCCTTCCAGGGGAAGGGAAGGGAAGACACTGGGATGTACTGGAGAGGCCAGCCTGGGGG
ACTTGACTAACCTGGACTGGGAAAGCTGAGTGAAACTGGGCTGAAGTGAGGTTTGCAGCCTTCAAATGAGATCTGACAGTGCCCCACTGCCAGATGTGGA
CATAGCCCAGGTCCTGGGAAGGCTTCTGGTGACAGAGCCGAAGATGGCCTGGAGTCGGGTGGGGCTGGGAGTGTAAAGCATGCCCAGGCAGAAGGTGGGG
AGGATTCTGTTCCAGAGTTGGTGGGTGCACTGGAAATGGGAAGGAGAGATTCTCCCACGAACTGCCAGACATTCTGGTTTTTTGTTTTTTTGTTTGTTTT
GTTTCTTTTGAGACAGGGTCTGGGTCTTTCACCCAGGCTGGAGTGCAGTGCTGTGATATTGGCTCACTGCAGCCTCTGCTCCCCAGTAGCTGCAACCACA
GGTGCACACCACCACGCCCTGCTATTTTTTGTATTTTTAGTAGAGACAGTGTCTCACCATGTTGCCCAGGCTGGTCTCGAGCTCCTAAGCTCAGACGATC
TGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCCCCTGGCCAGCCAGTCTGTTTTGTGTGTACAACTGAGGGGGCCTCAGGCC
CTTAAGGAGCTGAGAAGCCAGGTCCAGCACCTGGAGGCGTCCCCAGGAAGTGCATGACTACTGGCCACATGAATGGCAGGGATGATGAACAGGGCAGTTT
AGAAGAGGATGAAGGAAGTAGGGCGCGCCCTTGTTAGTGACAGGGTTAAGGGAGGGCAGAAAGAGAAAGGTGGGAGAGGGGGACGATGTAGCTTGGTCAT
GGCGAGTTTGTGATCGCAAACTCAGTTTGCGGGTTTTCAGGCCGCACACTTAGGGGTGTGGAGCTTGAGCATCACTGTGGAGAGGAATGGGGGGTCGCTG
GCTCTCATCAGTGCCCCTTTCAGGAGGAGCTGAGCTCGGTTCCCTGGGCAGAGGTGCAGTCCCGCCTCTTGGCACTGCAGCGGAGCGGGGGCCTGTGCGT
GCAGCCGCGGCCCCTGACGGAGCTGGACATCCACCACCGCATCCTGCGCTACACCAACTACCAGGTGGCGCTGGCCAACAAAGGCCTGCTGCCGGCCCGC
TGCCCGCTGCCCTGGGGAGGCAGTGCGGCTTTCCTCAGCCGCGGCCTGGCGCTCAATGTCGACCTGCTGCTCTTCCGCGGTCCCTTCTCGCTCTTCCGCG
GGGGCTGGGAGCTGCCGCACGCCTACAAGCGCAGCGACCAGCGGGGCGCCCTAGCAGCGCGCTGGGGGCGCACAGTGCTGCTGCTGGCCGCCCTGAACCT
GGCGCTGAGCCCGCTGGTGCTGGCCTGGCAGGTTCTGCACGTCTTCTATAGCCACGTGGAGCTGCTGCGGCGCGAGCCTGGCGCGCTGGGGGCGCGCGGC
TGGTCCCGCCTGGCGCGCTTGCAGCTGCGCCACTTCAACGAGCTGCCGCACGAGCTGCGCGCGCGCCTGGCCCGCGCCTACCGCCCCGCCGCCGCCTTCC
TGCGCACCGCTGCGCCCCCCGCGCCCCTGCGCACGCTGCTGGCCCGCCAGCTCGTTTTCTTCGCGGGYGCACTCTTCGCCGCGCTGCTTGTGCTCACCGT
CTACGACGAGGACGTGCTAGCCGTGGAGCACGTGCTCACCGCCATGACCGCGCTCGGGGTCACCGCCACCGTCGCCAGGTGCGACGGCAGATGCCCGGGG
TGGTGGTGTGTGTTGGTTTCTCTGATCTGGGGCCATGTGAGGTTCCCCCCGAATCCTTACCTCTCCCACCACTGGGGCCCTCTAGCCCTACATCCCACCG
CGCGTCCTCCTAATCGCAGGCCCCTTCCCCCCACGGATCCCGCCTTTCAGGTCTTTCATTCCGGAAGAGCAGTGCCAGGGTCGTGCGCCGCAGCTCCTGC
TGCAGACAGCCCTGGCCCACATGCACTACCTCCCGGAGGAGCCCGGCCCCGGCGGCAGGGACCGCGCCTACCGGCAGATGGCGCAGCTGCTGCAGTACCG
AGCGGTGAGGGTGGGCGCGACGGCGGGCTGAGGAGGAAGTTGTGGGGTCTGTCTGCGCGGAGGGTCTGTCTGCGCGGAGGGTCTGTCTGGGAGAGGGCAT
GAGACAAACGGACTATACCAGGAGTCTAGGGAGTGACTGGGTGGGGAGGCTTCTTGCCCTGGCGAGGGTCGCTGGGGACTGCTTGGTCCTGATAACGCGC
GTGGGCCCCTCAGCGACCCCTGCTCAGCCTCACCGCTGCTTCCCCAGGTCTCCCTCCTGGAGGAGCTCCTGTCCCCGCTCCTCACCCCGCTGTTTCTGCT
TTTCTGGTTCCGCCCTCGTGCCCTGGAGATTATCGACTTTTTTCATCACTTCACTGTGGATGTGGCTGGGGTTGGGGACATCTGTTCCTTTGCCCTTATG
GATGTGAAGCGCCACGGACACCCTCAGGTCAGAGCCGTTCCCTGGCCCTGGGGGTTTGGGCTGGGTGGGAGTTCGCTTGCCTCTCRGGAGCAGACCTGAG
TTCCAGCCCTGGCTCCAYTGCTTGCTACCTGTGCCGTTGAGCGGGTCACTTCCCTTCCTGTGCTCTCGTGCCYTCGTCTGTCAGATGGCAACAATGGCAA
TGTGCTCTCCAGAGCACAGCCAAGGCCAGGCTTGTGAASACACAGATTATGTCTGTATAGCCTATRATGGAGTTGCTGGCACATAGTAACGTCAGTAAAT
GGGAGCAAAGACCACCTGGGGGTGAGGAATGGGCTTGGCCRGTGGGTGGGGCTGAGTAAGGACTGGTGCCTGGACCAAGGCTGTCAGGATCACCCTGGGC
AAAGCACTGAGGCTCAGCCCTATCCCCGAGCTGGCAATCAGTCCAGGGGTGACGAATAGATGACAGGCCCAGGTTCTGCACTGCTGCTGTATTTTTGGGT
GATGGTGAACAAGTCCCCATTGTGGTCTGTTTCCTTCACGTGGAAGATGGGGCAGTGTTTCCTGTCCCACCTGTTCCCATAAGGCTCAGTGTTCTTAGCA
CCTGAAAGACTGTCCTTGCTCACAGTGGCTCTCGGCGGGACAGACTGAGGCCTCGCTGTCTCAGCGTGCGGAGGACGGCAAGACTGAGCTTTCTTTGATG
CGGTTCTCCCTGGCGCATCCACTCTGGCGCCCCCCAGGGCACAGCTCTAAGTTTCTTGGGCACCTCTGGGGCCGAGTACAACAAGATGCAGCTGCCTGGG
GTGCCACCTCGGCTCGCRGCCCCTCCACCCCGGGGGTGCTCAGCAACTGCACCTCGCCCCTGGTGAGTCCCAAGCCTGGCCTCCCCTTCTGCCTTCACCC
CCACAACTCCTCTCCAAACCCTTCCCCTCTAGGCTCACCTTAGGTAGTAACCTGCCTCACCAGCCCCCGCCCCCAGCCTGCTCTCCTGCCTTCTTTAGGC
CTCTGCTTCCTCCCTACTCCRTTTCTGTCCTCTCTTCTGACTCCCTCTTTGGCTTTCCCTCTCCTCTTGCACCCAGCCTGAGGCCTTCCTGGCCAACCTC
TTCGTGCACCCTCTCCTGCCTCCGAGAGATCTGAGCCCGACAGCCCCCTGTCCAGCTGYGGCCACAGCCAGCCTCCTTGCCTCCATTTCCCGAATTGCCC
AGGACCCCAGGTGAGGAGTGGAGGCTGAGATGCAGGGGCATGTGGAGGGGGGTGGGCTGATCCTGTAGGAGTGGGGAGCTGGGGCGCTGAGGGGGGATTC
AGAAGGGGAGTCCTCTGGGGTGTGGCGGGAGGAGGGCATGACTTTTGACSTGCTTCATGTTATGTTCCAGCTCTGTGTCCCCAGGAGGCACTGGGGGCCA
GAAGCTGGCCCAGCTCCCAGAACTTGCTTCTGCCGAGATGAGTCTCCATGTCATCTACCTGCACCAGGTGAGTAGAGGGGTGCCCAAAGGAGAAATGTGG
AGAGAAGGCAGGTGAACAACATGGAGACTGAGGTGGGGTGGAGTCTACGGAAGGGTCTAGCAGAGTGGCAGGAGGAGGCTGAAAAGCCCTCTGCCTCTAG
CCCAGGTGCTTGGCCCTGCCCTCCTTGGGGTGCAGCCCTCATTCCTCCTCCTTTCCATGCAGCTTCACCAGCAGCAGCAGCAGCAGGAGCCGTGGGGTGA
GGCTGCAGCCTCCATSCTGTCCAGGCCCTGCTCCAGCCCCTCACAGCCACCCTCRCCTGATGAGGAGAAGCCATCCTGGTCAAGTGACGGTGAGGAGGGT
GGGGCCTGCAGGGGACAGAGCCTGGTGGACACTGGGCATCATGGAACTGCCCAGCTGATGGCCTTTTTCACCAGGCTCCAGTCCTGCCTCTAGCCCCAGA
CAACAGTGGGGAACCCAGAAGGCCCGGAATCTGTTCCCCGGAGGGTTTCAGGTGACCACAGACACCCAGAAGGAGCCTGACCGGGCCTCTTGCACKGACT
GAGAYGACTCCTCAGGGTCAGYATTGCCTCCTGTGAGGGGAGGGAGAAAGGACGGCATAGGTAGTTGGTTTGGAGTCCGACTTGAAGCGATGGGAGCAGT
GGTGGGAATTTGGGGTGATGGGAGGTGGTCATCTCTGGAATCTAGACCCCTGGACTGCTTGCCAAGAGCCGTCTCCTCCCACAGGTACCCTGGCTTCGGC
AGCCACAGGAGATTGGAGGGTGGAGTAGAAAAACACAAGGAGTCATTGTTAGAGGCCCCATAGATGACAGGCCCAGGTGCTTTAGTTGGGCAGGACCTGG
GAGTCAGTGAGGAACTCGCCCCGAGAACAGAGAAAAGGTAGGCAAGGAGAGGAGATGCTGATGGCATCTGGAAACAAGTCTTAGAGATGGTCTGCACCCA
GAGGGAATAAGGGGAGACATCCCCAACTGGAATGTGTCCTGGAGCAGCTGCCTGGGAAGAAGTCCTCGAGTTTCCTCAAGGTGGGGGACAGAGGTCAAGG
ATGAGGCCGAGCTAAATGGAAGGGCGACAGTGAGGCAGGTGGGCTTTAAGGCTGTGGATTCGTCATGCTGGCGGCTGCCAGCAGCACTTTCAGGTTCCTT
GGGGCTTGTAGGGGATGGGGACTTGTCAGTGGAAAGACGGGAGGGATGATGTTTTTGGACTTCAGTACGGGTGTGATGTCCCAGGAAGTGGGTGTGGCTC
CCCATCCTGTATGAAATAAGCAGTAAAGCTTGCTCATGGCTGTTGCACATCTCTGTGACTCTTGTTTCTGGCAGGCCCCACTCCTGGCAGCTGAGTGCTG
CACCTGCCTTCTCGATYACGAGCCTGAGAACTGCACGGGGGAGCAGCCCAGACTGGCTGGAAACCATGTTTTCAGAGTGCAGGGTCAAGTGGCGTGTAGG
ACTCTGTYAAAAGAATGACCCCTTTCCCCACCACATACCCACAACTGCACAGGTTAAAACAGAAATCTTGTCATTTTATAATTGTAATCCACGCCGGGTG
CAGTAGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGTTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAGATGGTGAAACCCC
GTCTTTACTAAAAATACAAAACCTAGCCGGGCGCGGTGGCAGGCACCTGTAATCCCAACTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACTTGTGG
GGTGGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCCGGGCGGCAGAGGGAGACTCCGTTTCAAAAAAAAAAAAACAAAAAAAAAAAACTG
TAATCCACATGAGCTGGGGTAGGCACTTTAGTAGTTCTCCTAACATCTGGCACAGTCCCTTATGGTAAATCTTCAATAATAAATACTTGATTTAGAGATT
AGACTTTACAGGTAAGATACTCCTGAGAGAGGCAAGAGGAATCTAACATTCGACTAAGAAACAGGAAGCGGGTGGCAGTAGGCCCTGGGGTACCGCTGCT
GGGAGGGGCCTTCCAGATTAAGGCGGACCCAGGCCCGAGGCAACAGGCCTAGAGAGGGAAAAGAGGCGTTTTGCTCCTTCCTGGAGGAATAATGCTGAAT
CCTTGCAGCCTCTGGACAGATGTGAGAAGGCACCACCTCAAGAGGGGAGGAGCGGGGCTGATCCTGGTCGGGCGGACCTGAGTCGGGCAGCCGCTCTCCC
GGAACTGGAAGGGAAAGCCAGGCGGCTCTCAGGGGCTGTTGGTGTCTGAGCCGGGAGGGTCGAACGCCCAGGGCACTGCGCCCCGCAACTGACGCTCCTG
CAAGGAAAAGCTCTGGGTGCGTATGCGGCTTGTCACCTCCTGGGTGCGCAGCGTGAGCCCGAAAATGTCTTCGTGGTAGCGTTGCTGATCCTGTCGGAAA
AGAGCACAGTGGATCAGAACCCGACTCGGAGACCTTAGCAGGAACCCCGCACGCTCAGGCCCGGCCCGCCCCTCCGCACCCGCAGCACGCCGATGACGTC
GCCGGCCTCGTCCAGCTCCATGTCGCCCTCCGTCGCCAGGATGCGCTGCACGGTCTGCAGGACGTTGGTTGCCATGGTAACATCGCCGCAGACAAACATG
TGGCCCCGCTCGAGGCACAGCACGCGGTGCACCTCCGCAGCCAGCTCCGTCCTCAGGATGTCCTGCACGTAGGTCTGCGGGGCGGCGGGGTTAGGGCGGG
CCCTGGTGGGGGTGGGCGCGGGGGCGCAGCCCGGGGCTGCTGGCTGGCCCTGGACGTGAAAGTCTCCGGAGCGGGCCTGGTGGGGCCTGCGTGCCCTGGG
GCGGTGTCAACAGGGGCAGAGCCAAAGGGGCGGGGCAGGGGCGGGAGGAGGCGGGCCTAGAGGGGCCGGGGCACAAGGGTGGGCCAGAGTGTGCAGGGGT
GGCTGAGTGGTCGTGGGAGGCCACGGGAGGGCCGTGGTTGGTGTGCCCCGCTGGAGAGCGCGAGTCCTCCCCTCTCTCCCTATCTTCAGGTTACCATTGC
GCCCTCAGGGTCTCACACCTTGGGGTTGTCAGGTTCCCGGGAGAAGGCGGTGAGGACTCGGCCAAACACCCCGCGCTGCTGGGCGTTCTGCACCTCGTCG
CGGTAGAGATGGTCAAGTTGGGAGCATCGGCAGCCGAACACCAAAGTCATGGGAGTGGGCTGCAGCCCTGCAAGCAACCCCGCGCTTGGGAAGGCTCTTC
TCCGGGGCACAGTGCTAGTGGGGCCTCCCCACAGGCCACCGTCGCCCAGCCTGGCAGCCCAGCGTTTTGGGCTGAAACCACCATTACTTTGGCTGTTTCA
TCTCTAAGAGAGTGTAGAATGCTTTCACAGAGACCCTGCACAGCCCTGATTTACAGAGGGAAGGGAAGCGCGGGTGAGGTGGTGGCCCCTGGTGGAGCTG
CGCTAGAATGCGCGGCTTCGGACTCAGAATTCCATGCCCTTTGCATTGTGTGACATCGCAGTCCCCTTCCCCGCTCCCACTTCATATTCTCCCATACTTA
TAACTCTCCTCCCAGTCACAGCCCTCTTCTTTTGATTGACAGACCACCCTGGGCACCCCATGCTCAATATGAACACCTTGTAGCATCCTTAGGTCTTGGA
CAGACCTCGGTCAGCTCTGGCACAGTCAAGAATCCACCTTGGGCAGTTCTTCTTTGAGTCTTAGCCCTAATCCCTTTGAAAATTCTATTTTCCTTTGTCC
TCAATCCAGTCAACACCTACTATGTACCAGGCACCAGGAAGCCAGAAGCTCAGGGCCCAGCCCTTGCCTTTGGTACCTGCCCTCCCCTTGGTCTCATGAG
CGTCTTTTCAGCTTTGTGGACTTTGTTTCCTGCCCTCTCTTTCCTATTTCCTGCCTTCCAGCCCCACCCCTCTGTCCCTAGATTGTGTGACTCCCTTCAG
GCAGTCCTTTAGTCCCCAGCCTCACCTTTGCTCTCAATGTCATGCAGCCGCTCCTGCCAGAATCCCCGGAAGGGGGCAATGCCAGTGCCTGGACCCACCA
GGATGCAGGGCAAGCTGGGATCGGGTGGCAGCCGGAAGGAGGGAGCCCTGGCAGGAGAGACACTCCATCAGGTCCCCTTTGCCTTTCCTGCTCCACCATT
CTCACCATGCAGGGTGGGTGGAGCAAGGAGGACCCAAGTTCTTCCCATCTCAAAAAAAAATTAAAAAAAAAACAAAAAACAAAAAACAACTCTACTTGCT
GAAACTCCTTGGATCTGTGGTTTCTGGAGATTGCACCAAAGGAAATATAGTTCATTTTGGATTGAAGAATACTTAGATGACTCAGGGGATTTAGAAAACG
TGGGAAGGGTGAAAGACACTTTCAGTTCATAATGGGTTCACTAAGTGTGTTTATTTTAAGTATCCTTAATAGTGGTATTTAGTTTATGTTCAGTAGATGG
GTACGGTTTATTTGTAGTTTAGCCACCTGGGTGGATTTGAATCACCAGGCCCAGCTGATGGCAGCCTAGGAACTGTTCTCAGTCCTACCAGGACTTTTGG
TTCCTGGCTGCGAGAGCGGGCAAGACTTCTGGACACAGCATGAAGGAAGGGTCTCTTAAAATCCTTCACCCTCGGTCCGGGCGCGGTGGCTCACACCTGT
AATCCCAAGACTTTGGGAGGCGGAGGTGGGAGGATTGTGAGGTCAGGAGCTCGAGACCAGCCTGGCCAACATAGTGAAACACCGTCTCTACTAAAAATAC
AAAAATTAGCTGGGCGTGGTGGTGGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATATTTTTTTTTTTTTTTTGAGACAGAGTCTGGC
TCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAAGCTCCACCTCCCAGGTTCACGCCATAGGAGAATCTCTTGAACCCGGGAGGCG
GAGGTTGCAGTAAGCCGAGATCGTACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCTGGGGGAAAAAAAAACCAAAACCTTCACCTTCT
TTGAGTCCTTGGTGACACCAAGGCCAAAGGGTGGTCTTAACCCTAACTAGTAGTTCTCCCTGGATTGAGTGAGGATTTAGTGACTGTAGTTCCCAGGTGC
CATGCTGCCCAACATCAGACAGCCCAGGGACATAGAGAGGAACACAGAAGCTTTCAGAAAGCCACAGGGCCAGCCGGTTTGATACCAGCTCTGGCTCTGG
GAGCTATAGTTTCAGGGCAGAACTCTGAGTCTAAATGAATGAGAGAGCCAAAGCTTAGCCAGAGTTCTGAAGTGACCTAATGACACCACACCCTTGACAT
GTTACAGAGCTCCTTCCTGTTTCCAGTGACACCCCTCACCAGTGACACTCCTCACCAAAGCTGCCACCCTGACCCTGGGCAGCTCCCCACCAAGTCCTCC
ATCTCACTTACCCCCGGATGAAGCAGGGCACAGGGTCTCCGGGCTTGAGCTGGCTTAGCCACGTGGAGCAGACTCCATAGTGCAGGGGGCCCAGCCCATC
TGGGGGTGGGAAGGAGAGGCCGGTGAGGGGCCAGAGAGGGGCCGGTCCCAACCCTGCTGTGGCCAGGCCTGCTCCTGCTTGTTGCCTCACCCTGAGTCCT
GTATGCCAGCACAGCTACAGTGAGGTGGATCTCTCCTGGGTGGGTGCTGGGTGCCGAGCTGACTGAGTAGTACCGGGGCTGGAGCAGAGGCAGCTGGGTG
AGGAGCAGTGGGGCAGGCAGCGCCACCGACGGGAACTGCTCCAGCACCTCCAGCAGCGTGGGGCAGCGGAACCACTTCCACTCCTCGTAGCGTCGGGGAT
CCTGGCGGGGCAGGATGCAGTGGGTTGGAGGCCCCATAGCCCTTCCTAGTAACCTCCCTTCTTGACCCCTCCCCCACTGAGCCTCTTTAGGGTTTCTCCC
TGCTCAGTTCAGGCCAATAGAGTTTTCTCTAAGACCTGGAGAATCCAGCCATGAATTCCTCCCTGAGGAGCTGGGTCTTAAAGCACCAGTGCATGTCAGC
CAGGAGAAGAAAGTCCAGGGGGGACTTTGCATGGGGGTTTCCTGCCACTGGGGTCCCCCCAGCTCATCCCGTCTCTCTAGCCCCTGTGCCTCATTGGGGT
GGCCCCCAACCTGGCTGAGGGCCTCCAGCTCCTGCTGTTCCCTGGGCTCTTCTGCCAAGGTGCTGAGCAGCCGCAAGAGCTGAGGGCTGGGTGGGGAGGT
GATGTCCAGGAAGAAGGTGAGAGCCTGGCGCAGCGTGCACGGGGGCAGCCGGGGGTCCCGCACCCAGCCGGGGGGAGGGCCACCTGGGGATAGTGCACAG
GGAGCTCTGAGGACAGGGCCCAGCAGGACTGCAGTACCTGGGCTGATGTTTGTGTTTTGGTGACTGTTAGAGAGCCTGCCCTTGAGCAGCGGGGTCGGCC
TGTCTAGGTAGCCTCAGTGTATTGTTCGGGGGCCCCTGGCCGGACTGGGTTGGTCTGGGCTCCTCTGCCTCTGACTCCACCCCCTTATTTTAAATAAAGC
CCAGGCATTGATGTGGCAGCAAATAGCCCCAGTGCCAGCTCCAGAGCAAGCTAGATTGCTAGGGGAGCCTTGGAGAGGAGCCCAGAGGGAGGGGACAGCC
TTTTGGTGGGGGTGCATTTGAGGGTGTGGGGATGGTCCAGCAACAAGGCCAGCCCGGCAGTGGGCAGCACAGCCAGCTCTGAGCCTGCCTGCTGAGCTGT
GGAGGAGGTGGCCACCCCCTGGGTCGGGTCCTGAGCTCCTGGAGGCCTGGGGCCGGGGGTGGGGCTGGGCATGGGGCTGGTGTGCCCTGTTGCTTCCCAG
GCTGCCCCTCACCAGGGCTGCCCTTCTCCAGCTGCTCTACTGCCACGGGCTCAGTGGGCGCCGGCGGGTCCTCCACGCGGCTCAGCAGCGCCTCCACAAG
GCCGGGCCGGTTGGGCGGGCAGACACCTATGTGGTCCCCCGGCTGGTACTGCAGCCCCTCCTGGCCTCCGGTGTCCAGGCGCACCAGGATGGTGGCCCTC
CTGGGGGTGGGGAGAGGGGCACTTATGGGGAGTCAGAGAGGGGTGGGGGCGGGAGAATGTGGGAGGAGGAGGGTCCAGGGTCAGGGTGTTCAGGACAGGG
GTTGGGGGGCGGTAAAGCCGTCGTCCTCACGTGGACTTGCTGCTTTGCAGGTTTTCCACTGAGCGGATTGTAGCCTGGAACATCTTCCGCCTGTGCACGT
GGATCAGACCTGGGGGCGGGGAGGGGCAAATGAGGCAGCCTGAGCTAGGGAGCAGGGCCTGGCCCCAGAGTGCTTTAGTCCCGGGGTGTGGGGGCCTCAG
AGAACCAGCCGGGTTAGGGTGAGGGCAGGGCCCACCTGGCAGCAACTGCAGGCCCTCGGCCTGGGCGCTCAGCCGGTACCTCTGGCGCTTCCAGCTCCGT
TTGGGGCTGAAGATGTCTCGGGCGGCGGCCTTGGCATCCTCTCCCACACAGAAGGTCTCACAGGCGGCCTGCGGGACAGGCCGGTGAGGGCTGAGGACCT
CCCGCCACCAGGGGTCGCCCTAGTGAGGCGCCTGGGCGGCTTCACTGCGTCTTGCTCCTGGGGGGTTGGCAGCCCCAGTGGCTGAGGCCGGCGCCAAGGA
CAGCACCTTTTCCGCCAGCCCATTTCATGGATTGGCCGCTGGGCCCAGGGACCCGGCTGGCTCTTTCTCTGCACGTCCTGATTGGTGCATCGTTCCTTAT
CTGGTGCGTGTTAATCCCGTGATCCGAGAAGCATAGTGCTTGGCACACGGTAGCTCTGTGAAGGCGTCTGTG


SNP Information

Context             (SEQ ID NO:62024):
AGCCACATCTACAGCTACCACCAGCGGAATGGCTTTGCCTGCATCTTGCTGGAGGATGTCTTCCAGCTGGGGTGAGACGCTTAGCCCGGGCCCGGAACTC
R
GTCCCCTGGGCCCATGGCTTCCTTCTGTCATTTTGCTTCCTTAATTGTGCCAGCTGCTTCCATCCCATGCTTTCCCGAGCAGCCCAAGGGCTCAGCAGGG
Celera SNP ID:            hCV25972374
SNP Position Genomic:     7084
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,34)   total(A,1|G,71)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,32)   total(A,1|G,69)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62025):
CATTAGTATTATTTGGAAAAAGTTTGACTTTGCACATTTGTGAAGGCCACTTCAGCACCCACCCCCTGCCCCGGGCTCTACCTTGAGAGCTGCTGGTCTA
S
CTAGATCCCCCTCCTCATGATGGTTTTTCCTCACTCCCGAAGTCTGGTCTGCCTCTTTCTCAGGCGCCCACCTTTCTCCCCCACTGCCCGCCCAACCCCA
Celera SNP ID:            hCV2951228
SNP Position Genomic:     9063
SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,24)   caucasian(C,11|G,25)   total(C,25|G,49)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,12)   total(G,12|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62026):
TCGCTTGCCTCTCGGGAGCAGACCTGAGTTCCAGCCCTGGCTCCATTGCTTGCTACCTGTGCCGTTGAGCGGGTCACTTCCCTTCCTGTGCTCTCGTGCC
Y
TCGTCTGTCAGATGGCAACAATGGCAATGTGCTCTCCAGAGCACAGCCAAGGCCAGGCTTGTGAACACACAGATTATGTCTGTATAGCCTATGATGGAGT
Celera SNP ID:            hCV2951309
SNP Position Genomic:     12773
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,17|T,17)   total(C,46|T,24)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62027):
AGGGCTCAGCAGGGGCAGGGTCAGGGAGGATAACCATGGGCTGCTCTGGGGGCTGGGGCAGGAGCCCACCTGGCTGTCCCTGATCACTGCAGCATCCCGG
Y
ACCCCCCCTTCCTCCCGGCAGACAATTTATTTTCATTGTCACCTTCACAACCTTCCTCCTTCGATGCGTGGATTACAATGTTCTCTTTGCCAACCAACCA
Celera SNP ID:            hCV25973533
SNP Position Genomic:     7271
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,34)   total(C,65|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62028):
TAAGCAGTAAAGCTTGCTCATGGCTGTTGCACATCTCTGTGACTCTTGTTTCTGGCAGGCCCCACTCCTGGCAGCTGAGTGCTGCACCTGCCTTCTCGAT
Y
ACGAGCCTGAGAACTGCACGGGGGAGCAGCCCAGACTGGCTGGAAACCATGTTTTCAGAGTGCAGGGTCAAGTGGCGTGTAGGACTCTGTCAAAAGAATG
Celera SNP ID:            hCV27466111
SNP Position Genomic:     15417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62029):
CACAGATTATGTCTGTATAGCCTATGATGGAGTTGCTGGCACATAGTAACGTCAGTAAATGGGAGCAAAGACCACCTGGGGGTGAGGAATGGGCTTGGCC
R
GTGGGTGGGGCTGAGTAAGGACTGGTGCCTGGACCAAGGCTGTCAGGATCACCCTGGGCAAAGCACTGAGGCTCAGCCCTATCCCCGAGCTGGCAATCAG
Celera SNP ID:            hCV526124
SNP Position Genomic:     12941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62030):
CTTCTCGATCACGAGCCTGAGAACTGCACGGGGGAGCAGCCCAGACTGGCTGGAAACCATGTTTTCAGAGTGCAGGGTCAAGTGGCGTGTAGGACTCTGT
Y
AAAAGAATGACCCCTTTCCCCACCACATACCCACAACTGCACAGGTTAAAACAGAAATCTTGTCATTTTATAATTGTAATCCACGCCGGGTGCAGTAGCT
Celera SNP ID:            hCV7599641
SNP Position Genomic:     15508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62031):
CTGCCCTCCTTGGGGTGCAGCCCTCATTCCTCCTCCTTTCCATGCAGCTTCACCAGCAGCAGCAGCAGCAGGAGCCGTGGGGTGAGGCTGCAGCCTCCAT
S
CTGTCCAGGCCCTGCTCCAGCCCCTCACAGCCACCCTCGCCTGATGAGGAGAAGCCATCCTGGTCAAGTGACGGTGAGGAGGGTGGGGCCTGCAGGGGAC
Celera SNP ID:            hCV25744169
SNP Position Genomic:     14316
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,3)   caucasian(C,38)   total(C,65|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:62032):
ACACCCTCAGGTCAGAGCCGTTCCCTGGCCCTGGGGGTTTGGGCTGGGTGGGAGTTCGCTTGCCTCTCGGGAGCAGACCTGAGTTCCAGCCCTGGCTCCA
Y
TGCTTGCTACCTGTGCCGTTGAGCGGGTCACTTCCCTTCCTGTGCTCTCGTGCCCTCGTCTGTCAGATGGCAACAATGGCAATGTGCTCTCCAGAGCACA
Celera SNP ID:            hCV25743725
SNP Position Genomic:     12718
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,33)   total(C,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:62033):
ACGCTTAGCCCGGGCCCGGAACTCGGTCCCCTGGGCCCATGGCTTCCTTCTGTCATTTTGCTTCCTTAATTGTGCCAGCTGCTTCCATCCCATGCTTTCC
Y
GAGCAGCCCAAGGGCTCAGCAGGGGCAGGGTCAGGGAGGATAACCATGGGCTGCTCTGGGGGCTGGGGCAGGAGCCCACCTGGCTGTCCCTGATCACTGC
Celera SNP ID:            hCV11436071
SNP Position Genomic:     7160
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62034):
CCATGCAGCTTCACCAGCAGCAGCAGCAGCAGGAGCCGTGGGGTGAGGCTGCAGCCTCCATCCTGTCCAGGCCCTGCTCCAGCCCCTCACAGCCACCCTC
R
CCTGATGAGGAGAAGCCATCCTGGTCAAGTGACGGTGAGGAGGGTGGGGCCTGCAGGGGACAGAGCCTGGTGGACACTGGGCATCATGGAACTGCCCAGC
Celera SNP ID:            hCV25744196
SNP Position Genomic:     14355
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,36)   total(A,1|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:62035):
CCAGACAACAGTGGGGAACCCAGAAGGCCCGGAATCTGTTCCCCGGAGGGTTTCAGGTGACCACAGACACCCAGAAGGAGCCTGACCGGGCCTCTTGCAC
K
GACTGAGACGACTCCTCAGGGTCAGTATTGCCTCCTGTGAGGGGAGGGAGAAAGGACGGCATAGGTAGTTGGTTTGGAGTCCGACTTGAAGCGATGGGAG
Celera SNP ID:            hCV25747411
SNP Position Genomic:     14596
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,29)   caucasian(T,38)   total(G,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:62036):
GAGCGGGTCACTTCCCTTCCTGTGCTCTCGTGCCCTCGTCTGTCAGATGGCAACAATGGCAATGTGCTCTCCAGAGCACAGCCAAGGCCAGGCTTGTGAA
S
ACACAGATTATGTCTGTATAGCCTATGATGGAGTTGCTGGCACATAGTAACGTCAGTAAATGGGAGCAAAGACCACCTGGGGGTGAGGAATGGGCTTGGC
Celera SNP ID:            hCV3219450
SNP Position Genomic:     12839
SNP Source:               Applera
Population(Allele,Count): african american(C,16|G,16)   caucasian(C,17|G,9)   total(C,33|G,25)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62037):
TCGTGCCCTCGTCTGTCAGATGGCAACAATGGCAATGTGCTCTCCAGAGCACAGCCAAGGCCAGGCTTGTGAACACACAGATTATGTCTGTATAGCCTAT
R
ATGGAGTTGCTGGCACATAGTAACGTCAGTAAATGGGAGCAAAGACCACCTGGGGGTGAGGAATGGGCTTGGCCGGTGGGTGGGGCTGAGTAAGGACTGG
Celera SNP ID:            hCV3219451
SNP Position Genomic:     12866
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,12)   caucasian(A,7|G,17)   total(A,27|G,29)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62038):
CTCCAGCCTGGGCGACACAGCAAGACTCCATCTCAAAAAAAAAAAAAAAGAGTGTACAAGCACACATTTCATCAGCTGTCAGTGTGATGTGACATGTTCA
Y
GTGTCTTGTAGCCTCTGGAAAACTCCACTGTACTCTCAGAGTACAAGAATGAAAACATCAGAAAGCATTAGTATTATTTGGAAAAAGTTTGACTTTGCAC
Celera SNP ID:            hCV25967545
SNP Position Genomic:     8897
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,25|T,1)   total(C,53|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:62039):
AGTGGGGAACCCAGAAGGCCCGGAATCTGTTCCCCGGAGGGTTTCAGGTGACCACAGACACCCAGAAGGAGCCTGACCGGGCCTCTTGCACTGACTGAGA
Y
GACTCCTCAGGGTCAGTATTGCCTCCTGTGAGGGGAGGGAGAAAGGACGGCATAGGTAGTTGGTTTGGAGTCCGACTTGAAGCGATGGGAGCAGTGGTGG
Celera SNP ID:            hCV25747431
SNP Position Genomic:     14605
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,38)   total(C,65|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:62040):
AGTTCTCAAAGCTTTTGGTCTTAGGACCAAAAATACACTTAATATACTTTAAGTTGTACTTAAGTGTATTAAGTTGTACTTAAAGTGTATTAAGTATATC
T
TTTTTTTTTTTAAGACAGAGTTTCACTCTTGTTGCTCAGGCTGGAGTGCAATGGTGAGGTCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCAAT
Celera SNP ID:            hCV26653821
SNP Position Genomic:     7650
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|-,8)   total(-,8|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62041):
GGGTAACAGAGAGAGACCTTGTTTCAATAAAAAGGAAAAAAAAAAAAGAAGGAAATTGTAGCTGAGAACAACTTTAAAATGTAAGAGTGCGGCTGGGCGT
R
GTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACAAGGTCAGGAGATCAAAACCATTCTGGCCAACATGGTGAAACCCTGT
Celera SNP ID:            hCV26653822
SNP Position Genomic:     8560
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62042):
TGAGACAGGAGAATCATTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGCGACACAGCAAGACTCCATCTC
A
AAAAAAAAAAAAAAGAGTGTACAAGCACACATTTCATCAGCTGTCAGTGTGATGTGACATGTTCACGTGTCTTGTAGCCTCTGGAAAACTCCACTGTACT
Celera SNP ID:            hCV26653823
SNP Position Genomic:     8831
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62043):
AGCAGGGGCAGGGTCAGGGAGGATAACCATGGGCTGCTCTGGGGGCTGGGGCAGGAGCCCACCTGGCTGTCCCTGATCACTGCAGCATCCCGGCACCCCC
M
CTTCCTCCCGGCAGACAATTTATTTTCATTGTCACCTTCACAACCTTCCTCCTTCGATGCGTGGATTACAATGTTCTCTTTGCCAACCAACCAAGTAACC
Celera SNP ID:            hCV3219447
SNP Position Genomic:     7278
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,22)   caucasian(A,6|C,28)   total(A,10|C,50)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,10)   total(A,3|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62044):
TCCTTTGCCCTTATGGATGTGAAGCGCCACGGACACCCTCAGGTCAGAGCCGTTCCCTGGCCCTGGGGGTTTGGGCTGGGTGGGAGTTCGCTTGCCTCTC
R
GGAGCAGACCTGAGTTCCAGCCCTGGCTCCATTGCTTGCTACCTGTGCCGTTGAGCGGGTCACTTCCCTTCCTGTGCTCTCGTGCCCTCGTCTGTCAGAT
Celera SNP ID:            hCV25743683
SNP Position Genomic:     12686
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,34)   total(A,3|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:62045):
CTCTCCTCTTGCACCCAGCCTGAGGCCTTCCTGGCCAACCTCTTCGTGCACCCTCTCCTGCCTCCGAGAGATCTGAGCCCGACAGCCCCCTGTCCAGCTG
Y
GGCCACAGCCAGCCTCCTTGCCTCCATTTCCCGAATTGCCCAGGACCCCAGGTGAGGAGTGGAGGCTGAGATGCAGGGGCATGTGGAGGGGGGTGGGCTG
Celera SNP ID:            hCV27503177
SNP Position Genomic:     13759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62046):
TGTCAGATGCCATCCTACCCTCAGCCCAGTGTGCTGAGAGGTTAGTGACAACCTGGTGGGGCCCTGGGGGTGAAGCATGGGCAGTGGGTAGAGGAGTAGA
Y
GGGAGCCCCACTTTGTCCCGTCATCTAGATCAGCAGTTCTCAAAGCTTTTGGTCTTAGGACCAAAAATACACTTAATATACTTTAAGTTGTACTTAAGTG
Celera SNP ID:            hCV3219448
SNP Position Genomic:     7515
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,12)   total(C,12|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62047):
CCTTGCTCCCCTGGGAGGTCCGGAGCCCTCTGCACAGCCTTTATGTGCAGCAAGGGGAGAGGTCTTAGAAGGCCCCTGAGCAGAGGAGAGGGAGGAGGCC
R
GGGAAGCAGAGGTGGTGAGAGCGGAAGCTGGACCTCGGATTGGCTCTGGCGGGAGACTGCTCACCCGTCTCGTTCTCCTCCTCCCTTCTTTCCCCTCCTC
Celera SNP ID:            hCV3219449
SNP Position Genomic:     10035
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62048):
CCAGCTCAGTGTCACAGACCTTTGTGGAAGCAACAACAGCTCCCATCCTTCCAACCTTTCTGGAGAAGCCGTGGCCTGATGGTGAGCCGAATGGGCTGGG
R
GGGGAGAAGAAGGCGGCTGGGGCGGTGGGGAGATCTGGGGCCCGGATCGGTGCCCCTCCTCCCCATGCCACTGCCACCTCCTCCTCCTCCTTCATGCCGG
Celera SNP ID:            hCV27848289
SNP Position Genomic:     6098
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,2)   caucasian(G,10)   total(A,2|G,12)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62049):
GCCCGGAATCTGTTCCCCGGAGGGTTTCAGGTGACCACAGACACCCAGAAGGAGCCTGACCGGGCCTCTTGCACTGACTGAGACGACTCCTCAGGGTCAG
Y
ATTGCCTCCTGTGAGGGGAGGGAGAAAGGACGGCATAGGTAGTTGGTTTGGAGTCCGACTTGAAGCGATGGGAGCAGTGGTGGGAATTTGGGGTGATGGG
Celera SNP ID:            hCV25747444
SNP Position Genomic:     14622
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,17)   caucasian(T,6)   total(C,1|T,23)
SNP Type:                 INTRON


Context             (SEQ ID NO:62050):
TCCACTCTGGCGCCCCCCAGGGCACAGCTCTAAGTTTCTTGGGCACCTCTGGGGCCGAGTACAACAAGATGCAGCTGCCTGGGGTGCCACCTCGGCTCGC
R
GCCCCTCCACCCCGGGGGTGCTCAGCAACTGCACCTCGCCCCTGGTGAGTCCCAAGCCTGGCCTCCCCTTCTGCCTTCACCCCCACAACTCCTCTCCAAA
Celera SNP ID:            hCV25768132
SNP Position Genomic:     13418
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,17)   caucasian(G,34)   total(A,1|G,51)
SNP Type:                 INTRON


Context             (SEQ ID NO:62051):
TGGCCCGCGCCTACCGCCCCGCCGCCGCCTTCCTGCGCACCGCTGCGCCCCCCGCGCCCCTGCGCACGCTGCTGGCCCGCCAGCTCGTTTTCTTCGCGGG
Y
GCACTCTTCGCCGCGCTGCTTGTGCTCACCGTCTACGACGAGGACGTGCTAGCCGTGGAGCACGTGCTCACCGCCATGACCGCGCTCGGGGTCACCGCCA
Celera SNP ID:            hCV11631013
SNP Position Genomic:     11768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62052):
CTTCCCCTCTAGGCTCACCTTAGGTAGTAACCTGCCTCACCAGCCCCCGCCCCCAGCCTGCTCTCCTGCCTTCTTTAGGCCTCTGCTTCCTCCCTACTCC
R
TTTCTGTCCTCTCTTCTGACTCCCTCTTTGGCTTTCCCTCTCCTCTTGCACCCAGCCTGAGGCCTTCCTGGCCAACCTCTTCGTGCACCCTCTCCTGCCT
Celera SNP ID:            hCV25768977
SNP Position Genomic:     13621
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:62053):
GGGTGGGCTGATCCTGTAGGAGTGGGGAGCTGGGGCGCTGAGGGGGGATTCAGAAGGGGAGTCCTCTGGGGTGTGGCGGGAGGAGGGCATGACTTTTGAC
S
TGCTTCATGTTATGTTCCAGCTCTGTGTCCCCAGGAGGCACTGGGGGCCAGAAGCTGGCCCAGCTCCCAGAACTTGCTTCTGCCGAGATGAGTCTCCATG
Celera SNP ID:            hCV27485338
SNP Position Genomic:     13950
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 357
Celera Gene:                 hCG2039614 - 30000054236235
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W5TR(48612863..48751773)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12517):
AATCAAGCTCATTTTTAGCACACTTGGTTGCGTTAGTTGTACTTTTCAATTTTCAATATTATACAAGGCATATATTATTCAACCTTTTCCTGAACAAGAT
AATACTAATATACTGCTTACGGACAGTTAAGTAATATATTTCACACTATTTGGTGACTTTTTTTTTTAACCTATGAGACTTACTGAAATCAGTACATTAT
GGTCACATAATTTAAAGCTTGGCTGGCTTTTTTTTTTTTCTTTGCTGATAATTCAAATTCTGTACTTTGGCAAGCAAAAGAGGTACAACATCACCTTGGA
GTTTTACAATTTAATAATGCATACTTTAAAATTCATGATAAATCATGGAACCCCACTATACTCACTAATTCAACTATTGATTTCTTTTTGAGCAACTGAC
TTTATGATTTATCCTTAAAAGTAAGGAAGTATACCAGAAGGCAAAAGGATAAATCCACCCATAAATACTAGAGTCTAAGTTATTTTCCTGAAAAGGTGAA
AAGGGAATTTCTGGTCTTTATCTTTTCCCTTATCACCTTCAATCACACACTTTACACTGAAATTACTTGTCTCTGTCTCTTCAACAATATACTCTGAAAC
TTTGTTTAATATACTTTTTGTCTATTTCTGCATATGGGAGACCAATCTTGGATTCCCACCAAAAATGGCCTGGTTACCAAAATACTTCTTCATTCAGTAG
TTTGGTGTAAGTGTTTGGGTGTATGTGTCTATATGTGCATTTTAACTCCAAAGAATGCTACCTTCAGAAATAACCAAGATGCAGTATGTATATAATAATT
CATTGGGCCCTTTAAGTCTTTGACTCAAAAAAATCTCCCAGAAGCTCCTGCATAGCCCACTACTCATGAAGAACCGCTGGGTATGGAGCACACCTCACCT
GATGGACAGTTGATTTATGCTCACCTTAAACGCTAATTGAGAAGCAGCACAAAAGAGGAACTGGAAAAAAACTGAATTTTACTCCTCATCTCCGAAGATG
TGAATATTTCTAAAATTTCAGCTTGCCTCTTGCTTCTTATTGGCAAGTTTCCTTGGCTTGTAAATTTTGGACAGCACTATCAAGGAGCTCCATGGACTCT
CTGAGAGTGACATTGACTTTAAATGACTTGGGTTTAATGGTTAGACCATAACTGAAATTCATTTTCGCAGGCTCATTTGGGTTGGCCCTGAAATCGCACT
GGTGAGCCAGGATGGAGATGAAGAGAAAAAGCTGCATCTTAGAAAGTTCTTCGCCAATGCACCGCCTTTTGCCCACTGAAAAAATCATCACTCTGCTGGT
CAGGTCCTTGTTGATGAGGCCATCCTTGTCCAAGAATCGAGCTGGATCAAAGTTCTCCGGGTTAGGCCACTTCACTGGGTCATGATTCACAGACCACTGG
TTGACAAAAACCACAGTGTCCTTGGGAATGTGGTAGCCCAAGACAGAGGTGTTGGCAGTGGTGGCATGAGGAATAGTGACAGGCACAAAGCTGGAGAAGC
GCATGGCTTCATAAAGGAAGGCCAGGACATAGGGCAGGTTGGGCTGGTCACCCATACAAGGCAGACGGTCCCTCCCCACGACCTGATCCAATTCTGCCTG
CACTCGAGTCTGCACATCAGGATACCTGTTTGGTGTTTAATGTGGAGAGAGAAAAGCAAGTGAGCAAAATTCTTATTTCATCTAGAAAGCACATTATAAT
TTATTTTAATTCCACTTTTTCTTAAATAGGCTATCTAGCTCAGTGACTAAATTAATATTTCTGGGAAAAAAAATCTAAAACAGCTTCCTAATTTCTCACT
AAATTACAAGATGGACTTTAAGAATTATATTTCCTGTAATAGGCCTTGCATGACTAATGCTGTCTTTCCCATTATAAGTCAAAAAACTCTTAAGTTTTCC
CAGCCTCAAAAAGCACAATAGTAGATAAGGCTGACTTTTCCATTGGGTACCGCAGGGACAGTGCCTAGGGCTCACAACACTTTTTAGGGGCCCATGAAAA
TATTTTTACGTCTTTTACAATCTTCAGACCTAAAAAAACTCACTTTTAGGTAGAAGAAAATATTTTCATACATCATTTTAATGCATTCATCTTTATATCA
GGGTAGTCATGAAATTTAATTTTTAATTTTTTTATAGTATAAGGAATCTACAAAGGCAAAAGCACCCAGGGCCCACGAAAGTTACAATGTGAAAGTAAAT
TTTTTTTCTCCCTCATTTCCCTGGACAATTCCAACAGACATGCTGTTCTCATTTTATACAAAGATAATTGGTGTCCTGATGGATAAAGCTACATACTGTA
TTTTTTAAATTTGAAAGCAAATACCCAATGTTCATAAAATTATGGTACAAACTGTAGTACTTATTCACTGTTGATGATACAAACTGATACAATCTTTTTA
AAAAACAAAATCTTAATACGAGGCAAGAGACATGAAGGTAACCTCTTCCCGCCTCATTTTAAACCCAGTAATCCATGCCTAGAAATGTATTTTCAGAAAA
TAATTTAAGAGATACAAAAATATGTAACCACAACAGGACCTAAAATTCTAAAAATTAGCCAGGCATGGTGGTACACGCCTGTAGCCCCAGCTACCTGCCA
GACAGCGGCGGGAGAACTGCTTGAGCCCAGGAGTTTGGGACCAGCCTGGGTAAGGTAGTGAGACCCTGTCTCTAAGGTAAGTAAATATATAAAATTAAAA
TAAAAATTTTAAAAATGCAATCAAGGCCAATGACCAACATTAAAGTTCAATAAATGATTATATATAACTATACATTATCATAGCAAAATACTATATAGCC
ATCAAAAATTACCAAAATAAATATTAAAAGATTAGAAATGTCCACTACCTTGAGTCAAAGTGTTAGAAGTCAAAAAACAAGTAACTGATTGTTTGCAACT
CCGAAAAAAAATGTATACACGTATGTGATGAAGTGGAGTTATTTTTAGAATCGCTTCTTCAACATTATATTGCAGGAGTCTGCCAACTTTTTTCATAGAA
ACATGTATGGTGGGGAGAGCCAGAGAGTATCTATTTTAGACTTTGTGGACCAAACCCTCTTTGTTGCACTACTCTGCTCTGCCTTGTGTTGTAGAGTGAA
CGCAGCCATCGACAATGTATAAATGAATGGGCATGACTGCGTCAATAAAACGTATATACAAAAACAGATCGTGTAATTTGCCAAGCCCTGTCATACGTCT
TTTCACTAAAAAGGAAAAAAAAGTATCAGCATATTGAATTGAAAGTGACCTCCAAATTGTTTTATTTCTTTTTGCCGCCTAATTGGAGTACTCGGAGAAC
TATTGTGGTTCTAATGAAAAACAAAGGCCGTTTCAAAAGTTAAAATGCCTATCTGCGGATGCACAAAAACCTATGGAACCTATTCCGGGATTTCCTTTTC
CCTGATCTCTGGTTGACTTTTCTTTATTCGATTTCTGCCTCTCCCTCACCCACCATGGGTGTTTCTATGATTTTAATACTAAAAAGCCATTTTAAGTATA
CAGAAACTTTTAATTTGTGAAGGTAGCTGTACAGTATCTAAGGAAATATAGATTGCAGTGGATTTTAATAAGGAAAGAGTCATTCTCTGCCTTCCAAACA
CCTTTCTGTGGCGCCTGCAGATTCAGCATCTCCAACTGCTCACTTGTGCTCCAAGAAATGACACAAAACCAGGATTTCTGGTCTCTTCGGCAATCAAAAT
TTGCCTTGCGAAACATTTGCCCCTAGGGATAGTGTTTCCACAGTAAATACTACAGGCCGCCCAGTTAAATATGGATTTCAGATCAACAAGGGCTAATCTT
TTAGTGTGAGTATTCCCGTGTAAAACTTACTTTTCTTTTGCCAAATCTGGCAACCCGACACCAGGGACCTGTTGAATCCGTGCTTAGTAGAGACCAACGT
GGGCATCAGGGGGTCCGCTAACTGAGCCAAGCGCAGGGGCCAGAAACGTCTGCAGGCGCCTCCTGGATATCCCATCTGCCTTTCTGAATGCTACTCTGCT
TTCGTAAAAGTGACTGCTTCTTGTCTTCTACCCCGGCATTTCTCAAACTCCTAGCGCGGAGGTTTTATAAACCTAGCGCTGCCCGCTAGTTGTGGCCGCC
TTCTGAAAGTTTCTGTGCGGGTTACCTGTCGGCTGGCCCGGCCTCCATGGGCTTCCTTGGCCTGGAACAAAGCCCTGACGGGCGGCCCGCTTTTAGCGCC
AGGGCTGGGCGGCCTCGGATGCACGCCGAGGACTAGCCTAGGAGAGGCTGCTGTGTTTAACATATTTATGACATTACCTTTTCTTTCGGAACTATTCCAG
TTCTGATTGTAATGCGCCAGGGAGAGAGATATCAGGGCTCATCTCCAAGCATTTAAAAACTCTTGTTTTTCCGGGGGGTGGAGGGGTCTTTGCAAATGTG
TTCTCACTCGCAAGCAGGGGAGGGGACGATAGAGACAAGATAGGAGACCGGAGGGGTCGGGGCACCGCTGGGTGGGGCGCGTGCGCGTGTCGCAGCCCTC
ACTGTGAGTCCCTTTACCGACGCGATCTTGGTTTTGAGGGGTGGGGACCTGGAGCGAAACCCCAAACCCGGGGCCCTGCTTGCAAACTCAGCATATTCTG
TCTCTACTCCGCCTTTTTCAGAGGAGAAAAGACCTGGCCCACGCCTCCCAGAGGCTTTACCTGGTGAAGAGGAGGAGCAGCCACTGCAGCGCGGTGGACA
GGGTGTCCTGGCTGGCGCCGAAGATGTCAGTGATAGTGGCCGGTACGTTCTCCAAATCCAGCCGCGCGCCACCACCGTGCGAGTCCCCGGCCGCCTTCTT
TTCCGCAGAGAGGATAAAGGCGTCCATCATGTCGCGGGGGGCGGCCCCGGGCCGAAGGCTTTCGCAGTGCCTCAAGAACTTGTCCAGGATGAAGTTGCTG
AAGTTGCGGTTGAGCTGCTCGAATTCGCGGAAAACGGTGCGCACCGGGTTGGGGAAGTACTGCAGCCAGGGCATCACGTCCACCAGGCTGCCCGCGCCCA
CCGTGCGCCCGAACTCTTCGTTGTGGCTGAGCAGCTCACGGAACTCGGGGTCGTCGTGGCTGTAGCGGCAGCCGAAACACACGGCACTCATGACGTTGGC
CACGGCCACGACGGTCAGCGGCCTCGGGTCGAGGAAGGCGCCGTCCGCGCTGCCGCGCACCAGCAGCGCCACCAGCTCGCGCGCCTCGCTCAGCACGTGG
CCCTCGAGGACTTGGCGGCTGCGCGGCTGGCGCGTGAAGAAGTTGCGCATCATGCTGTGGGCTGCGCGCCGCTGCACCTTCCAGTGCTCCGAGTAGTGGC
CGAAAGCCATGCTGCGGCCGCCGGACACCACACGGAAGGAGGCGAAGGCCGGCCGGTCGGCGAAGGCCGAGCCCTGCTGCACCAGGGCCTGGTGGATGGC
GCGCTCGCCATTCAGCACCACTATGGGGCAGCTGCCCAGGCGGATCTGGAAAACGTCGCCGTAGCGCCGCGCCAGGCGAGCGAACGAGAGGTGAGCCGCC
TGGCCCACCGCCGCCGCGTTTCCGATCAGTGGCCACGCAAACGGGCCCGGGGGCGCGGACCGGAGCTGCCGCCTCCGTTGCCTCAGCAGCCGCTGGCCCA
CATGCACAGTGGCCAGCACCGACAGGAGTAGCAGGAGCGTGGTCTGCTGGATGGACAGCGGGTTTAGCGGCCAAGGGTCGTTCGGGCTGAGGCTGGTGCC
CATGCTGGGGACAGAGAGGAGAAGGCGTGACACTCAGGGGTGCAGAGACAGGAGCGGGCGCCCCACGCCCCTACCCCAGCCTCTGGGGACTGAGTGCCGT
TGGGTGGAGAGGTCGGAGCTGACTCTCTGGAGAAATGGCCGAAGACGCCCCTTCCCATCCCCAACCCACTCTCCCTTGGAGAAGAGAAGGGGCGTGTTTC
CACCTCGCTGTAACCCAGCGCCAAACCCTTCCCCTCCCCGCAAGGCGCGTAACGGTTCCTGCAATCTGGGGACAACGCTGCGGGCATCGAGGCGGTGGCG
CTTGATTTCCTTTAAAGTACCTACCACGCCACCCGCTACCTGTAATAATCCATCTGAAGAGGTCGCCGGGCAGCGCCTCGGCAGACAGACTGACCTGCGG
GGAGGTGCGGTTTCCAGTGGCGCGGGACAGCCGGCTCCGAGAAGGAACTGGGACCTTTGCCTAGGGCAAGACGTCAACAGGAACCCGCAGGCCCGGCCTG
GACACCTGCTGCCCTCACTGGAAGCTTTAACTCCCACTCGAGTCTCTTGGCGTCGTCAGTGCCAGGAGCGCTTGGATTGGGATGGGGACGGAGAAGGGTG
CCTCGCTCGCCGAGCCCCGCTGCCCTTGGGGACCTGGCAAAGTCGAGGTTTCCTCACAGCGTTGAGATTGAGACTGGGGGTCGGTGAGTGGCGTCAATTC
CCATGCCCTTGCGGCTCTCACAACTGGAGTCGCAGAAGCGCTCGCTCCCACTCCCACTCCAGAGTCAAAGCGCGCCATCCCGCTCCTCCGGGTTTTAAGG
ACTGGGTAGAAGGAGGGCAGCGCGACCTGGCAGGGCGGGGCCTGCGGGGGGCGGGGCGCGCCGCACACCAGGCCGCTTTGACCCGGACTCCCGTCCAGGC
GCACCGGCCGGCCTCGGAGCTCTACCAGCAGGCTTTCATGGGAGCGGAGGTGCCCACGTTTCCATTGTGCGGTAACCGCGCTTCATCACAGCCACCTCCA
ATCRAGGCCGCACGGTGTCCCCAGAACCACGCTCGGTACAACCTGCCCCGGCCGCTGCKCTCGACTTGGGAGCGCGCCYCGCCCCGAGCGCACGACCTCC
CTTCCCTCTCCGCGRCTTGAGCTTGCTTCCCGGAAAGCCAGTGTAGTGGCAGCGGTTTGCCTCACAGCGCCCCTGGTTGGTTGTTTAAATTTTATCTTAG
GTTCTCGCAAACAAATTGCCACCTCAGTGGAGGCTCTTTGGCATGCTAAATTTTTTCCAGTTCTTGCGGCGAGATCAGGAATCCCTAAAAGTAGCCGCTC
CCCCGCCCCGGGGCCCCGACAGTGCTTGGGCACACAAAGGCTCCTGGGGCGCAGCTGGCCCTGAGATTTCCCGCGTAGAGGCCACTCCAGGTGGCGCCGC
CCGCTGGTGGGCGCGGGGCCGCCCAGGCTGCGATGGAAGCCGTTGGCGCAGGGCGGGGAGCCAAGCTGGGGCGACTGGGGGGGCCTGGGGGAGCTAGCGG
GGCGGGACCCGAGCGGGGCGGAGAGTGGCAGGAGGAGGCGAATCTCCGCGCYCCGGCGAACTTTATCGGGTTGAAGTTTCTSSTGTCGCCTCCCCTTTGC
GTGCGGAGCTGGGCTTTGCGTGCGCCGCTTCTGGAAAGTCGGCTCCAGTCATATCCCTGGGCGCTGCCTGCGGCCGCTCCTCCCGCGCTTCTCACGGCAC
CTGACACGCGGAGGCGGCGGCCGAGGGTGGGGTGCCGGCCACCACCACCCTTGGCGTGGGGTGCCGGCCGCCACCACCCTCGGCTGCGCACGCACAGTCG
CGCCTGCCAGGCCAGCGAGGCGGACGCTTGGGCCACCACCCGCAGGCCGAGCCCGGGCGCGTATCGCCACCTCSSTGCGCACCGGCGGCTCTGTGGTCTT
CCTGGGCGCGCTTGCGGTCGCGAAGGGGGCCCTCCCTTTATAAGGGAAGCCGGAGGCGCTYGGGCGGGGGTGGCTTCCCCCGCCTGGCGCGCCCTTTCCT
ACATGCTGATGCATAGGATTTTCAAGACAGCTAAGAGAACAAGGACTTCACGAGGCGGGGGGAAGGGCGAACTCGAGGGAAGAGGTGGGATGTATCTGGT
TAACCAGGTAGGAATTGTACTGGCTTCATCAAAGGATAAATATAAAAGTGATAGGTTCACCAGGGACAACCCTGCACTTTGAGCTCCACTCGCGCTGCGA
ATCTCGTGCTATTATTGACCTGTTTACAGATGAATAAACTAGGGTTCAGAGAGGTTGCGTGACTTAACCCAGGTCGCGCAGCCATCAAGAAGTGGAGCCA
GGGCTTGAAGCCACCAAGTCCCACTCCAGATCCTTCACATAAGTTTACACGGAAGAAAATTGCAGATAAGAGGCCCAAATGCCTTCTTTCCTGCCTCCCT
TAAAAAAAAAAATGCACGTGGGGCTAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTTAAGCGGGCGGATCACTTGAGGTCAGGAGTT
CGAGACCAGCCTGGCCAACATGGCGAAACCCCATCTACTAAAAATACAAAAGTTAGCCGGACGTGGTGGTGCACACCTGTAATCCCAGCTACTCGGGGAT
CAGGGGGGAAGGCAGCAGAATTGGTTGAACGTGGGAGGCAGAGGTTGCAGTGAGCAGAGATTGCACCACTGCACTACAGCCTGGGCAGCAGAGTTTAAGT
GAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAATCAGCTGGAAGAACTTTTTAATTATTGTTTTTGTTTTCATAATTGAGAATTCTGAGAATAGCAGA
GAAGAAATAGTATGCTAACCCTTTGCAATTAAATTGCTTATGAGGGAGGCCAGGGGAGTGTGCCTCATAGCTGACCCTGGAATGACTGATTACATTGTAA
AGAAACACAAAGGAGTGTCTGAARAGAATCTGACTTCTTGAGAGATTGAAACCAGCAATCAATTTGCTGACCTGATAAARAAATGTCTTTTCGTGATGGC
TTTTTTTATTTTTATTTTTATTTATTTATTTTTTTTGAGATGGAGTCTCACTCTGTCACCTGGGCTGCAGTGCAATGGCGTGATCTCGGCTCACTGCAAC
CTCCGCCTGCCAGGTTCTCCTGGCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCGCACCACCACACCCGGCTAATTTTTGTATTTTTCTAGTAGAGAT
GGGGTTTCACCATGCTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCAGCCTGGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCAC
CGTGCCCGGCCTGTGATGCCTTTTATTCGGTATCTTTTGAAGAGTTTTCTGGAAATGATTTCACACACCATGATGGGGAACTTAGATAGTGATGGAGTTT
TAGTTTTTGAGCAGTTGCATTGGTTTAATAATAAGCGTTGGTTTCCCAGAGGTGAGTTGGCCTACACAGCCTTTGAAATGAGTTTCATAGCAACCTTCCC
ATGTCCAGCTTTAGCAAGATCCTTGCCTAATAATTCAAGACTCTGGTGCATGCATCAATCTCTCATAGACTTTAATTTAGTAGACGGGAATTATCTATGA
GCTAATGCCAATCCTGAGCTGTTGACATTCCTGAAAGCCTTTATCACAATACCTCTGCCAGAATGAGAGCAGATGGAAGTTGCCTTTAAGTAAATTCCTA
TTTTTAAAAAGTATAAAACGAGGTTGTTCCTAAGACCGCCTGTCCAACTCCTCAATAATGCCATCTAGTTTTTAGATCAACTAGATGCATGCTTTCCTGC
CATCGCAGATAGATCAGATATATCCTCCAAGCTGTAGTTCCTTGGGCTCAGCTCTTTTTCTAGGACATGACTCAAAAATCAGAGGAASTAGGTTGGTAAG
TGCTGTCAGAAAGATAAGCCCTTATCRGTTATGGCAAACCAAAATGACTGGCTATGGTAACACTTTTTGCAGAGAATCTTCAAGCCTGGAGTTCTTAGGG
CTTTATGGTGCAAACTTCATTGAATGCCCCATCCGGTACCCTGATAAGGACTTCGGATAAATCCAGAGCAGCCTGTTGGCACCCCGACCCAACTCAAGGC
AGAGCCCTGCCTCTAGTGAGAATCTACGCAGGCTCTTTAATTATCATCACAACTTCTCAACCAAAGCAGGGACCTAAGGCCCAGGAATCTCCTTTCAATC
AACACAGAATATGGGCATTCTGCCCTCCCAAATCTCAAACTTGAATTGTTTGTTGCAAATAACTTTCAAAAAGAACAGCTAAGCTAGAGGGATAGTTTAA
AGTAGAGAGAGGTTTAAAATATCTTATMTTGTATTGACTCGAAGGAACAACTTAAGCTTGTTTAAGCAGAACAGGAATGCACTGGCCCATGTGCAGAGAA
GGATAACCGTGATGCTTCACAGGATACAAGGACCCAGGCCGCTCTACCGGCTCTCTGCCTATGCTGGTCTTTGCTTGGGCTTTCTCTCTTTGCATGGCAA
GGAAGCAGCTTAAAATTAACAAAACAAAGAGAAAGAGAACAGCTCTCTTCCAGGGTCCTAGAAGGACTCCAGGGGGCCAGGCTGGCATCAGGTTTTTACC
CTGTGGGCAAGGGCTTGTTCTGTCATCAGAAAAAAAGAGATGGCAGAACATGCTAGGAAGCCAAAGAGCTGACCCAGTCCACTCCATGTATACATGTCTG
CCCACTGGTTTCTTTGGGTTGGAGGATAACCTAAGGAAACCCAAAGCCATTATTGTTATTATTATTTTAAATCAGCAGATAYATGCATTGCCCTTAGAGC
CAGTAGCCCAGAAAGCTCTGCCCTTCTGCTGTCAGGCTGGAACTCAGTTTTCTTCATGGTCTTCCTCTCTAGTGTGACCCCTAAGTCAGTTTAATGGGTA
GCCACTGTGCTTTTCCAGTCATCTCCAAACACACATACCCACATGCACTGAGGAGAGTGGAGGAGAATAAGCCATCTCTGGYAGGCTCTTGACATTTGGG
TGGGCAGGATTCAGTCATCAGGCACATGCTGGTAGGCAAGAGGAGCAGAAATAAGGAGACACACCAAGTGGCTGAGGGTGCGATAGAGGGAGGAACTGTA
GGATAATGCACACCAGGGGCTGGACCATGAAAGGAATCTTAGGAATTGATACCAAAACCCTGTGCCTCACCTGAAATGCTCCACTTCCTTCCTCCTGGCA
ATACACAGGCAGAGAACCACAGAGCTAATAGAAAGGTATTTTATCTAATCTCAGAAGCCATCATTTGTAGGATGCACCCTTATTTTTATGTACTAACATA
AAGAAAGGAAGCTACCAATTATAATTGCATCATCGACTCTAAGATACATCCAGATTTCGGAGATGTAAAATGGAAAGTTGAGGGTATGATTTGGAGCTGA
CAAAGCATTATACATTTCATGCGCGTCCGTGTGAAGAGACCACCAAACAGGCTTTGTGTGAGCAATAAAGCTTTTAATCACCTGGGTGCAGGTGGGCTGA
GTCTGAAAAGAAAGTCAGCCAAGGGAGACAGGGGTGGGGCGGTTTTATAGGATTTGGGAAGGTAAAGGAAAAAGGGGGGTTGTTCTCTGGCGGGCAGGAG
TGGGGGTCACAAGGTACTCAATGGGGGAGCTTTTGAGCCAGGATGAGCCAGGAGAAGGAATTTCACAAGAAAATGTCATCAGTTAAGGCAGGAACAGGCC
ATTTTCACTTCTTTTGTGGTGGAATGTCATCAGTTAAGGCAGGAACCGGCGATCTGGATGTGTACGTGCAGGTCACAGGGGATATGATGGCTTTGCTTGG
GCTCAGAGGGCTGACATTCCTGTCTTCTTATATTAATAAGAAAAATAAAACTAAATAGTGGTAAAGTTTTGGGACAGCGAAAATTTTTGGGGGTGGTATG
GAGAGATAATGGGCGATGTTTCTCAGGGCTGCTTCAGCGGGATTAGGGGCGGTGTGGGAACCTAGAGTGGGAGAGATTAAGCTGAAGGAAGATTTTGTGG
TAAGGGGTGATATTGTGGGGTTGTTAGAAGGAACATTTGTCATTTAGAATTATTGGTGATGGCCTGGATACAGTTTTGTATGAATTGAAAAACTAAATGG
AATAAGAGAAGGAGAAAAACAGGTATAAAAGGTCTAAGAATTGGGACAACTCAGGACATCTGATTAGAGAGTGCCTAAGGAGATTCAGCACAGTCCTGCC
AGCAAAGATTATTTATTTACTTCAAGAGTTAAGAGTGGCAGTTTGGGGATAGCACCAGGAGATATCAGCTGTGATGGCTTGGAGAAACAGCGTAAACCGG
CAGTGTAAATAAGAGCAGGGCGTGTATGASTRGTTGAGAACGGTGAATAGGAGTATGACTAGACAGAAGATAATAGGGATGATAAGTTTTTTTGGGGCAC
AGTCTAAGTTGGTCTGGTGTCTGGAATGAGACTGGGGCCTAATAAAAAGGAGCGTCTATACAGGAGCTCAAATGGGCTGTACCTTGTAGCATTCTGAGGA
CAGGTCTGACTTCTGAGAAAGGAAAGTCGTAAAAGTATTGTCCAGTCCTTTTTAAGTTGGTRGCTGAGCTTGGTGAGGTGTGTTTTTAAAAGACCTTTAG
TCCGTTCTACTTTTCCTGAAGACGGAGGACCATAAGGGATATAAAGRTTTCACTGAATACTAAGAGCCTGAAAAWCTGCTTGGCTGATTTGACTAATAAA
GGCTGGTCTGTTATCAGACTGTATAGAGGTGGGAAGGCTAAACTGAGGAATTATGTCTGACAGAAGGGAAGAAATGACTGCGGTGGCCTTCTCAGACCCT
ATAGGAAAGGCCTCTACCTATCCAGTGAAAGTGTCTATTTAGACTAAGAGGTATTTTAGTTTCCTGACTTGGGACATGTTGAGTAAAGCTAATTTGCCAG
TCCTGGGTGGGGGCAAATCCTCAAGCTTGATGTGTAGGGAAGGAAGGGGCCTGAATAATCCCTGAGGAGTAGTAGAATAGCAGATGGAACACTGAGAAGT
TATTTCCTTGAGGATAGATTTCCATGATAGAAAGGAAATGAGAGGTTCTAAGAGGCGGGCTAGTGGCTTGTACTATAGCATAGCCTGCCTTTGCTGGTGT
GTGGCGATTAGGCCTGGTGGAACTGCCRTCAATAAATCAAGCGTGATCAGGGTGAGGAACAGGAAAGAAGGAAATATGGGGAAATGGGGTGAATGTCAGG
TGGATCAGAGAGATACAGTCATGGGGGTCAGGTGTGGTATCAGGAATAATGTGGGAGGCCGGATTGAAGTCCGGGCCAGGAACAATAGTAATTGTGGGAC
TTAACAAAGACTGAGTACAGCTGAAGGAGCYGGGGAGCAGAAAGTATATGCGTCAGGTRTGAGGAAGAAAATAGATTTTGGAAGTTATGAGAAATGTAGA
GAGTGAGTTGAGCATAGTTTGTGATTTTTAGGGCCTCTAAAAGTATTAGGGCGGCAGCAGCCGCTGCATGSAGACATGAGGGCTAGGCTAAAACAGTAAG
GTCAAGTTGTTTGCATAGGAAGGCTACAGGGTGCGGTCCTGGCTCTTGTGTAAGAATTCTGACCGCACTAACCATGCCTAGGAAGGAAAGGCGTTGTTGT
TTTGTAAGGGATTGAGGTTTGGGAGATTAATCGGACACGATCAGCAGGGARAGCACGTGTGTTTTTATGAGAATTATGCTGAGATAGGTAACAGATGAGG
ATGAAATTTGGGCTTGACTGAAGTAATGGGGGCTGTCTGTGAAGCCTTGCGGCAGTACAGCCCAGGTAATTTGCTGAGCCTAATGGGTGTCAGGGTCAGT
CCAAGTGAAAGCAAAGAGAGGCTGGGATGAAGGGTGCAAAGGAATAGTAAAGAAAGCATGTTTGAGATCCARAACAGAATAATGGATTGTGGAGGGAGGT
ATTGAGGATAGGAGAGTATATGGGTTTGGCACCATGGGGTGGATAGGCAAAACAATTTGGTTGATAAGGCATAGATCCTGAACTAACTTGTAAGGCTTGC
YTGGTTTTAGGACAGGTAAAATGGGGGAATGGTAAGGAGAGTTTATAGGCTTTAAAAGGCCATGCTGTAGCAGGCAAGTGATAACAGGCTTTAACCCTTT
CAAAGCATGCTGTGGGATGGGATATTGGCATTAATCGGGGTAAAGGTGGTTAGGTTTTAATGAGATGGTAAGGGATGCATGATCGGTCACCAAGGAGGGA
GTAGAGGTATCTTATATTTGTGGGTTAAGGTGGGGGAATATAAGAGGAGGACGCAAAGGAGGCTTTGGACTGGGAAGAAGGGCAGCAATGAGATGTAGCT
GTAATCCAGGAATAGTCAGGGAAGCAGATAATTTAGTTAAAGTGGCTCGCCCTAATAAGGGAACTGGGCAGGTGTGGATAACTAAAATGAGTGCTTAAAA
GAGTATTGTCTAAGTTGCCACCAGAGTTGGGGAGTTTTAAGAGGTTTAGAAGCCTGGCTGTCAATACCCACAACAGTTATGGAGGCAAGGGAAACAGGCC
CTTGAAAAGAAGGTAATGTAGAGTGGGTAGCCTCCGTATTGATTAAGAAGGGGACGGACTTACTTTCCACTGTGAGAGTTACGYGAAGCTCGGCGTCTGT
GATGGTCTAGGGGGCTTCCAAGGCAGTCGGGCAGCATCAGTCTTCAGCCGCTAAGCCAAGAAGATCTGGGAAGCAGTCAGAGAGCCTTGGGCCAGAGTTC
CAGGGGCTCTGGGAGTGGCTGCCAGGTGAGTTGGACAGTCCGATTTCCAGTGGGGTCCCACACAGATGGGACAYGGCTTAGGAGGAATCCTGGGCTGCAG
GCATTCCTTGGCCTGGTGGCCAGATTTCTAGCACTTGTAGCAAGCTCCTAGGGGAGGAGGTTCTGGAGGAACGCCTGGCCGCTGCRGTTCAGGCGTTTGG
AAGTTCTTGTGTGCTGGAGATGTGGCTGGGGTTTGTCTCACAGTGGAGGCAAGGAATTGCAACTTTTTTCTATTATTGTACACCTTGAAGGCGAGGTTAA
TTAAATCCTGTTGTGGGGTTTGAGTGCCAGATTCTAATTTTTGGAGTTTTATTTAATGTCGGGAGCAGATTGGGTAATAAAATGTATATTGAGAATAAGA
CGGCCTTTTGACCTTTTAGGGTCTAGGGCTGTAAAGCGTCTCAGGGCTGCTGCCAAAGGAGTCACGAACTGGGCTGGGTTTTTATGTTTGATGAAAACGC
TATCTGATTTGGGATAAAGAAAAAGGAGCATTAACCTTGACTGTGCCTTTAGCTCCAGCCACCTTTTTAAGAGTCAATTGCTGGGCAGGTGGGGGAGGGC
TAGTCACGAAACGAAACTGTAAGGCAGACCAGGTGTGAGGAGGGGAGGTGATAAAAGGATTATAGGGTGGAGGAGCGGAGGCTGAGGAAGAATTGGGACC
TAGCKGGGCCTGGCGAGGAGCAGCCTGGGGAGGTGGGGAGAGGTCAGATGGGTCCGTAGAAAAGGAAGATTAGAAAGCCTCAGCGACGCTTGGGGTTGGG
ACTGAGGGGACAGGTGGGAGGGAAAGAAGGAAGATTTGGGATGAGTTGCATTGGGAACAGAGACTAGAGAGGGACCGATGTGTAAAAGAATGCCTGGATG
TCAGGCACCTCAGACCATTTGCCCATTTTACAACAAGAATTATTTAGATCTTGTAGGATGGAAAAATTGAAAGTGCCGTTTTCCGGCTATTTGGAACTAC
TGTTGAGTTTGTATTGGGGTCAAGCGGCATTGCAGAAGAAAATAAGATGCTTAGATTTTAATTTAGGTGAGAGTTGAAGAGGTTTTAAGTTTTTGAGGAC
ACAGGCTAAGGGAGAAGAAGGAGGAATGGAGGGTGGAAAGTTGCCCATAGTGAAGGAAGCAAGCCTAGAGAAAAGAGAGAGTAGAGACATGGAGGGAAGG
GGTTTGGGGGTTCTTACCTTCCAGAAAAGCGGGAAAGGGGTTGGGGCACGGAGAAGAGGTTGGGGCACGGAAATAAGGGATGGGGGCACAGAGATWAGAG
GTTGGGGTGTGGAAATAAGGGATTGGGGCACAGAGATATAAGAGGTTGGGGCGCGGAAATAAGAGATTGGGCGCAGAGATAAGAGGTCGGGGCACGGAAA
TAAGGGATTGGGGTGCAGAGATACGAGGTTGGGGTACTTGCCCCTCCTCTAGAAAAGCAGGACTTGCCGCTCAGGGTGAAGGAGAAGGGGTTGGGGATTT
CTTGCCCCCCAGAAAGGAGGAGAAGGGGTAGAGACACGGAGAGAAGGGGTTGGGGTACTTGCCCCTTCCCCAGAAAAGCAGGACTTGCCGCTAAGGGTGA
AGGACCAAGGCAGGCGTCCCTGCATGGTCTGACACCTCTGAAACCTGGGTGAATAATCATTGCAGTCCCTGCAATGATTAAACACCAAGGGAAGGCTGCC
TTCCCAGTCCCTGACCGGCGCCGGAGTTTTGGGTCCACGGATAAAACGTGTCTCCTTTGTCTCTACCAGAAAATGAAAGGAATTGAAATTGAGAGAAGGG
AGAGATTGAAGAGTGGAAAGGAGAAAGTGGTTGAAGGACAGTGAGAGAGGTTGGAGAAGAGAGTAAGAAGAGGCCGCTTACCCGATTTAAAATTGGTGAG
ATGTTCCTTGGGCTGGTCGGTCTGAGGACCTGAGGTCGTAGGTGGATCTTTCTCATGGAGCAAAGAACAGGAGGACAGGGGATTGCCCTCCCAAGGGAGG
TCCCCCGATCCGACTCATGGCACCAAATTTCATGCATGTCCGTGTGAAGAGACCATCAAACAGGCTTTGTGTGAGCAATAAAGCTTTTAATCACSTGGGT
GCAGGCGGGCTGAGTCCAAAAAGAGAGTCAGCCAAGGGAGACAGGTGGGGCCGTTTTATATGATTTGGGTAGGTAAAGGAAAAAGGGGGGTTGTTCTCTG
GCAGGCAGGAGTGGGAGTCACAAGGTACTCAGTGGGGGAGCTTTTGAGCCAGGATGAGCCAGGAGAAGGAATTTCACAAGACAATGTCATCAGTTAAGGC
AGGAACAGGCCATTTTCACTTSTTTTGTGGTGGAATGTCATCAGTTAAGGCAGGAACCGGCGATCTGGATGTGTRCGTGCAGGTCACAGGGGATATGATG
GCTTWGCTTGGGCTCAGGGGCCTAACAATACAGGCTGACAAGGATTCTTTCTTTGTATTAAGCACTTTYTAGATTTCTTGGAGTGGTTAGCACCAWGGGT
ATTGGCTACCAATCCTCATTTCTATTAATATTATTTCATGTAGACAAATGTAGACAATTGATGTTTTCTCAATCCTATGTAAAGTTGGTGAGAAGGTGAT
TTAGAAGATTCTGCTATTTTTATTGACCTAAATTAATCTAAGAAAAGATAGTCACTTGCTAAGTAGTTGCAGCTTAAAACAAGTTTCCTACTCCTGCTCC
CCTTCCAATCTCRTTGCCCATGAGCTCTGTCTGGTATTAGTGAAAGTGACAGAAATACATGTAGTGAAAGCTACATGTATTCTAGTTCCTCACCAAAATG
CATATTTAGAGGTAAAGGGGTGTAATGTCTGCCACTTACCCTCAAATGGCTCAAGGAAAAAATAGAGGGGTTTGGGGAGAAGGAGAGGGAGAGAGAGGAG
AATGAGAAAGTAAGTGTGGTCAATGTTAATTGGAGAATCTGGGTAAATGGGAGTTCTTTGTGATTCCTTGAAACTCTTCTGTAATTATATCAAAATTAAA
AGTTAAATATAAGAACATAAAAAAAGATCTTCCCAACATTTTGATCTTACATTGCCTTCTTAGCTTCTCTTGAGGGTTTCTTGTAAGCAAGGACAGTGGA
AAGAAAGTGGGATTAGTCTGCTGTTCAGGGTCCTGCATCTGATGTGTCACTCCTGGAGTTCAGGACTAATAAAAAGTTTGTGCTCAATTGCAGTCTTTCT
CCTCAGCACTATGGATTATAACCTGTACTTTCTGTGCCGTCCTTGTTCTTTGAATGGCTTGAGTGTRTCTTGTCTCTTTTATCTTAGGSTTTCTTCAATT
CCTTTTGAAAGCAGAAGAAATATGATATAAGGCAGTGTCATGCCCTTAGTTCTACTGTGCCCCTGTGTTAAGGGGCATAATCTACTCAGGGTTCTATGTG
CTTCATAAATGCAGCAAATGGTGCTGTGCTTTAATGGTTTTTCCCAGCATCATTCCCAGTTCTTTCCTTTGGTTTGCTTCCTTCTGCCCTTTTCCTTCCC
CTTGCTTCATCCTTCTTTCTTCTCTCTCATTCTGTCTCTCATTTTCCCTTTCTCTGGGTCCACTCCTATCTTCCTCACCCTCATTCCCTCAAGACCTCCA
CTCTCGTCTCAGGTGCCCCCTTTTCTGTTCTGCTGTCTCCCTTCCTCTCTTCATTCTCTCTCACACAGAAGAGTAAAGAGTCAGGGCAGAGGGGAAAAGA
GTGAGGGAAATAAGAAGGGGGAGCAGAGAGATACAGCAACTAAGAAAAAGAAAAAGAAAAAAATACCCAGCCCTGGGGCTAAAAGATAGTCAYGGTGGTC
AGTCACTTTGTCTGGGCTCTCAACTGGTGTACTTACCTCTCCTGCTCAACGTTTGAGCATGTGCCTCTGCTGCTTAATATTTGTGGGGTGAAGCTCCCAC
CGACTTGGCACAGTGATGATTCCATACGAAGGGAAGGGACGCCAGGGTCTGTGGTTGTTTTTGTACGTTTGTTCTCTGAGCTTCTACTACCACCTACTCT
ACTTCCTGAAATAGACTTTTCTCTCCTCCTTTTCCTTCTCCTTCTTCTTTCTTTTTTTTTCAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCA
CCATCTCGACTCACTGTAGCCTCCACCTGCCATGTTCAAGCGATTCACCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGGGTGCACCACCATGCCTG
GCTAATTTTTGTATTTTTAGTAAAGGCAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACATCAGGTGATCCACCTGCCTCGGCCTCCCAA
AGTGCTGGGATTACAACCATGAGCCACTGCGCCCAGCCTGAAATCAACTTTTCTAACAGTGAAAGAGGGAGCCTACTGTCCACAACTTTGGTCAATAGGG
AAACACTTTACTTCCCTAATTCTTTGACCAACCATAGAAAACCTTTAGGCAGATRAAGGATACTAGTTTTCCTTTTTATTTTCATTTTCTAAAAATAAAT
ATTTACCAGGTTACCAAGAAAATACATAAAGCAACAAGTAAAACACCCCACCACCAAAAGAATGTACATTTGGGCTCAGCTAAGATCACAACATCTAGCC
ATGGACATGTTGACTGGTACAGCCTCCAGGTTTTTGGATGGTTAGCATCCAGATTCTAGTCTTTCTTTCTCTSTCTGTCTGTCTGTCTGTCTGTCTGTCT
GTCTGTCTGTCTSTCTCTCTCTCTCTCTCTCTCTCTCTCTCYCYCTCTCTCCCTCTCTCTCTCTCTCCCTCTCTCTCTCTCCATTCACCTCTTAGTTTTT
AGCATTAGATCTGCATTCCCTCACAGGTTTTTTTCTCTTTCCACAAATGGACCAAAATTCCGGTTGAAAACTCTGGGTGTATCCAGGGTTTGAGAAAATA
ATTGATAGTTAAATAACTTAAGTGGTTAGTCCTCCCCTGCATGATCCCAACGGAGAACACAAAGGCTGGATAGTTATACGTCAGCTTTTTTGACCATTGA
CTCCCAACAGGATTTTTCCCTTCTACTATTGAAGTGATCATTTCTCAACTGTTGTCTGTTCTATTGTTGGACTGCTTTGGTTAGAAAGCTGTAGATGCTA
GAAGGTTCTTCCCAATATTAAGAAAAATTCTGGAGTGAACTTTCTTGCCTTCTGGTAAATCTAGAGCTATTCTTTGGAGTGACATAAAGCAAGACTCATT
CTCCTTTGCTGTCACATGTTTGAAGATGGAATTGTGCTGCTTCTGAGCCATCCTTCCACCAATTAAAAATGCCCCAGTTCCTTATCTCTGCCTTCTGGAM
AATGTGCTTTTTCAGTATGTCCATCTGAGTATGGGCCTGAAACTGAACATAGTATCCCAAATATGACATTCTGTCTAGCCCAGGGGGGTGTGGTTACTTC
CCATTAGACATAGTGTTACTTTCAATGCAAACAAAGTTTTTGCCCTGTTTTAATATATTTGCATCCCACTATTAAAACATCTATATTCTACTAAGATTGT
GATAAGCAAAAATCTTCATCCTTTAATATAGGACTTGGTAGCTGGCTGAGTCTTCAGTTGTACTTGTATTATTGATTTTTCAAAAAAATACTACATGTGA
GATTTTACATTTATTTCTATTAAATGCATCTTGTGGCTTTAGGATGGTGTTCTGGCCTACAGAGGCCATGTTGATACTCCCAGGAGCACAGACTAGGACA
GGACAGGAAGACTATCCAGGGAAAGCATGGCCCAGTCTGGACTACTTCTAGGCAAAAATCTTTGGACTGCGGTTTATGTTATATAGTTGCATCATTATAC
ATCCAGAATATTATGCATATTAAATTATTTTTCTATTTTGGCCAGATATTTATTCTTAAAACACACACACGTAGTAACATAGATTCTTGTTGCAAGAGAG
TCAATCAGTATATAAAAATATGCAGAAAAATGAGAATAAAATGAGAAAACTCACACTCCCACCCCTTCCCAGAGTAACCATGGGTACCATGTGCCTTCTA
TTTATGTACATGCATACGGTTGTACATATAGAKAGATAGATAGATCTACTTCATGATTTTAAACTACTGCATGGTATGACCATGACATTATTATTGTCAT
TACTATTATTATTGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAATGCAGTGGTGTGATCTTGGCTCACTGCAACCTCCACCTCCCAGGCTCAAGCAA
TCCTCCTGCCTCAGGCTTCCAAGTAGCTGGGACCACAGGCTCGTGGCAGCATGCCTGGCTAATTTTTGAGTATTTTTTAGAGGTGGGGTTTTGCTATGTT
GTCCAGGCTTGTCTCGAACTCCTGGACTCAAGCCATCTTCCCACCTCAGCCTCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCGCCTGGCCAACATT
ATTTTTTCAACCATCAACGGCGACTTAGATGGTCATTTRTGTTGTTCTCAACTCTATTATTAGAGACTCCACTGCAGTGATTTCACTTTTCTGTGCAATT
CTGAATCCATTTGCAAATGTTCCCCCAGTATCGATTCTCAATAGAAATGCTTGAGCCATAGGGATATATGCATATATGCTACATCCTCACTGTCTTCTAA
AAAGGTTTGCCAATTCCCATCTCTATGAACCTTGGCTTTGTACCAAGTAGAATGTACCTAAATACTTTTCCTTCTATAAAGGATGGTTACTTTGACTTAG
STTTGCCAACATGGAACAAAACAAACAAAACAAAAATTTTACTTGTCTTTCAGACCTATTTCTTCTCTTAAAGAATACATATGCCTGTGTTCAGATTATC
TCCTCTTCCTGACAAATGAGGGAAATCCCCAGATGAAAGCTGATAAAACATTAGACGGGSGTRATTCCGGACCTCCACATCCCTATGGAACACATCACAG
AAGCCAGGATTGGAGAGCCAACTCCACACACCTCCATATCCCCTCTTAGATGAATGGCAATTCTTTACAGGCCGTGGGCGCAGGCCCAAATGCCTTCTGG
GCTTGTCTAATCCTCCAGAGGATATCAAAGGCAATACAGCCAGCATACCCAATCATTAGGAGTTTGGCTTCTGGGACCRGGCACTCTTGGGTGTGAGCAC
CAGCTSTCTTATTTATAAGCTGTAACCTTGGCCATGTTATTTAACCCTTCTGAGCCTGACTTTCCTCACTTGTACAAGACAGGTAATATACCAACCACAG
AGGGTGGTTTTGAGGATTAAATGAGATATTGATTGTAAGAAAACAAATAGCATAGTTGATGGCAGAGTGAGCACCCAATAACAGTTAGCCATTATCATTA
TTACTACTACTTACTAAGTCCTTACTTCTGTCCAGTAAAATCCAAGACATGGCAAGGACTTGAACCTCRCAGGAATAAAAACATGGCCCACTTGGTTCAG
CGTGACAGCTCTCAGGRTGGCGTGCCGTTACCCACCTGCAAATTCCTAACAGCCCAAAGTGGCACCAGTCACTTCCTCCTTGCGTTTCTCAGGCAGCACA
TTGAGTGGCTGCTAGCATCACTCCAGAGCCAGACTGAATCTGAATCTGGCTCTCCTACTTACACCGGAGTGACTTCCATGCTAGAAATCGCTTCTSTGGG
TCCAGCTTACACTTAAGTGAATGGAGATGTAAAATGGAGACGATACCAGTACCGATTATGCAGAGTTGYGGTGAGGACTGAATGAACTAATACATGTAAA
GCTTTTAGAAGGGTGCCTGGCATGTGGTGGGTGCTCAGGCATCATTAGCTGTTATCATTATTCTGTGGGAGGCCATTTGCCGCTGCCTTAAGAAGGCTGA
TCTCACAGAAACATCTGCTGTTGGCAGAAGAGCTCAGCACCAATAGCCAATTTGTGTTTCCCTCCAACTCCCAGATGGCAGCTCTGCAGCACTTTCTCCT
CATCTAATTTCTCCTCACCCAGACGCGCTCCACATCAGGACCCTTAGGTAGTACAGAGACAGTTCTTTAGGCAGGGGGATGCCATGTTCCCAAAAGAGCC
TGATGAGGCCATAGTAGGCCTCTTCCACCAAGCTATGCTTTCGGTCAGTCCCTCTGTGACTGTTACGGATGCTTTGTAGCCCTGTGGCAATGAGGCTCCA
GGACAACACTCATGCAATTCCCTGCTGAGGAGAGTTCAGAAAACTCCATGCTGTGCAGTGCAATTGGGAGGAAACTCAAGGGAGTGCTGTCGTGGGACCT
CCCGGTGGTGATTTGTACAAATGAMGCAACGCTATCCAGCTTCCCAGAAAACACCGCCTTTTTTTCTTACATTACAGCTCTGAGTCAAAGTGTACTGTGG
CCTCAGACCTGGGGCATACAGCYCATTTGACAGCCACAATGAGGGAAACAGCCTACTTCTGGAGCCTGTACCAGAAGGCAGAACGGGAGACTCCCAGCTC
TCCCTTACTAAAGGCCAGGGAGGAAATTGTCTCGAATGCTCTCCAGTCCAAAATGGAAAGTTAGATTCAATGGTCTGTACTCTTGGGCTGASTAACCTCC
GTTTTTCCTTTTCCCATTGTGCTGAGTCAGCCACGGGGGGTGGGTTGTGCATTTTAAGGGTTTGAATGCAGAAGGAAGGAAGGCTTCCCAGTTTCTGAGC
CTTGAGAAGGTGGCACTGTGGCCTCCAACCAGCAGCCATGCCCCCAGGCACCTCATTCTCCTACACTATTTCAGGGACTTTCTGGTGCAATAAGGATGTG
ACTGAGCCCTGAGCCCCCAGGTTACCAGCCACACCCCAGTGGAATCCCGGGAGCTACGGGGTAAAATGGAATCCTCTTCCACAGCAAGTGCACAGAAGGC
ACTCAGGGCTGGTGGGAACCTCCATTTCTGCCCTCATTTACTCTGGACTCTGAACCTAATACCTGAGGCTTCCTGCAGCAAATCAGAGAGGTGAAGAGCA
ACTTACACGTATCTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCTCTATGTTGCCCAGGCTGGTCTTGAACTCCTGGGTTCAAGGGATCCTCCTGCCTC
AGCCTCCTGAGTAACACATATCACTCAACAAGGAATAAACACCACAACAATTTTGAGTACCACAGTCGGAGCACTGTGTCCTGCTAAATGTGAGGAGCAT
TCTCCTCTCTGATGTTATCATCATAAGGCCAGGGCCTGTGGCTTAAGCTCCTCCRTTCCCTTAGAGTCTCCCACACCACACAACAAGTTTGGAGACAGAG
AAAGTAGCTAATATTTCCCCCTAAGTGCCAGGCACTGTTTTCTATTTTTTACATTGACAGTTTCATTTATTTCTCCCAATCATCCTAAAAATATTGGTAT
ATTTAGCCTGCTTTATATACAAAGGGATTAAGGCTCAGAGACAGTAAACTATTTGCCAAATGTCACAGAGGTTGCAAGTGAGAGGGGTCAGGATTTGAAT
TCAGGTCTGCAGGCACCAAAGCCCATCTATACCACACCAGTACACATTTGTTGACTCACTGCGTATCATCCTAAGTCTTACAGAAGCCCCACCCCTCTAA
CTACAGTAACTGTAGAGGTCTCTAGTACTGTTATGCCTATTAGGGACCTGGGCCACCCCACTGCCTTCTCCTGCCCTGTGAGCTGACTCCCTCCAGGAGC
CCAAGACCACAACAAGCAAAGCCATCTTGTTGCCAGAGCCTGATGCAACTCACACCCTCTTCCTCCCCTCCCCTTGCAGAATATCCTTGGTATCTGCCCA
GCAATTTAATCTCCACAATTTACAATCAAATCTTGGGATGGCTTAGAAAATCTTCCTTTAACACAGTGGCTGGAACATGCAGAGAGTTGGCATGCAGCCT
CCACATGGGCTTCATGACTAGATCTGCTACACTCAAACCCATTATATTGAAATTACCATAAAATTCACACTATTCCAATCCTCAGAAATGATGGTTTTAT
TTAGAAGTAAGTGAGCAAAAGCAATGATTTCATAGGCCCCAGTGCCAAAATCTTAGCTCAATGTTTCTCAAATGTTTTGTTTTCAGAACCTCTTCAAAGT
CTTAAAAAATATTGTAGAGTCCAAAGAACTATTGTTTAGCTAAGTATCTATCAATATTTATAATTCTAGAAATTAAAGCTGAAAAACTTATAAAATATTT
GTTAGTTCATTAAAAATAATAAACCTAATACATGTTAACATAAATAACATTTTATGGAAAATAACTAGTTTCCAAAATTACAAATATTTAGTCAGAGTGG
GCAGTTTTAAAAAATATTGTTACAAATCTCTTTAATTTATGACTTAACAGAAGATAGCAGGTGACTCACATCTGTTTCTGCAGAAAGACCCCCCAGTAAA
TTTGTAAGAGAATGAGAGTTAGAAATGCAAATAATGTTTTATTCCCACAGCTGTAACCTTGTGGGTTTCCTGGAAAGGGTCTCAGGGGCCATCCCGACGG
GGTGCCTGGACCACACTTTGAGAACCATTGTCTAAACTTAAGAGTGTGTTTTTTGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAG
GCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCTTGGCTAACACRGTGAAACCCCGTCTCTACTAAAAAATACAAAAAATTAGCCTGGTGT
TGTGGCGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCCGGAGGCGGAGCTTGCAGTGAGCCGAGAGAGCGCCACT
GCAGTCCGGCCTGGGCGAAAGAGCSAGACTCCGTCTCAAAAAAAAAAAAAAAGTGTGTTTTTTGTTTTTGTGTGTGTGTGTGTGTGTGTGTGTGAATGTC
TCTTCATCCAAGAAAAATCTAAATGGGCTATTGTCTTGGCGTAGGAAGTAGGTGAGGGTGCGGTGGATTTCAGAAAAAATAATGTCCCAGTTACTGATTT
TAAGAGAATAGCCCTGAGACAAGTGTGGGCGCATTGAAACACCACTGCAACCCTCTAAACTATTGCAGAGTTGCCACCACCAGGTGTCTGGCTAGAAAGA
TGTCATCTTCCCAAGACAGCTACCTGCCCAGATGATGTACCTTAGCCCCAGGAAGGAGGAGGAAGAAGAGGCAGRCAGAATGATGCCCAAACCCCTGCGG
CCCGGAGACGAGGTRGTGCCTGAGTCAGGAAGCTGGGAGAGCCCAGCTCAGTGGAAGAGGCATGTGGATCCTGGTTAGGTGTGAAGCCAGGAGGGCTTCT
TAGCCACAGCCTGAAATCGAAGCCCAGGATCGAGCCACAGTCTGAAWTTTTTGGATCGCAGCTCTGCCARTTAAACCAATGGTAACAATAATAATGTACT
GTCATATATGTAAGAACTGCCATATATGGAGCATTTTGAGCCAGGCAATGTGCCAAGCACTTGACAGAAATCATTTCATTAATCCCACACAGCCAACCCT
TTGAGATAACCATTGCCCTCATCCCTTTTTTACAGACAAATAAAGCAAGGCAGGAAGAGTTGGAATTATCAATCAAGGTCACACACACTATGTTGGTTGA
GCTGAAATTTGAATTCAGTTCCGCCGGGCTGCAAAAACTCTCTGCTGCTTCCCAGCTGCACCAGCTAGGCAAACTCCTGCCAGAGGAAATCTCACAGTTG
GAGTGCAGTAGGCATAGATTTCTCCTACTTAACTGGGGGGASGCTGTAGTCACAGCGAAGGGAATATTATTGTGTCCCATGGGAAGAAACATGAAGACGG
AGTGGACGCTTCATTCCTACTCCAATCAGCCATCTGGAGGGTTCAGGGCTGAACTGTAGTGGGGGCATCACAAAACTTAGGGAGGTGAGGAGCCTCCCTT
AGGGAGGTGACAGCCTGAGTACATGGCCCCCAAGCTTTCAGATCCCTTCCTGCACCCCTCCCCACCTAGCTCTGCACTTGGCATTGTTGCTACTAGCCAG
GAAGTCTGAGATCTGCGCAAACCCCGCCCTTCCCCGCCGCCCCCGTAAGCACTACCGTCCCTTCAAAGTTCAGACGTGGGGTCCTTTGGAGCCCTGCTCC
CTAGAGGGTCGCCTGGCACATGGCCACCTCCACATCCCGCCCCTTCTGAGCTCAGCCTCCCAGAGGTGTGAACTTCTTACAAACACACACTATCACCCAA
TTCCCTGGAAAAACAAACAGGACAATTGTGTGAAAATTCCATTCTAAGGCATCCTCCCTTCTCTGTAACCAGAGGCTCCAAGGAGTTCAGCATAGCACGA
GCTTTTAATTTGCGTGCAGACAAGCACAAAAGGCACAACCGGATATACCTGTTATTTCCCAATGACCTGAGAGCCCGAAGTTTATGTTAAGCCTTGGGTT
ATGGCACAGCTTGCACGCAAGGCYCTGCAGCTCCTGCAGGCAATTGAGAGGTGGTGGTGTACAGGACAGAGGAACAACTCTGAAGTGACAGCACATAATT
TAATTCCCCCTAAGCTTTCCAAGCATGCAGACTGTTCCTTTTTTGTCAGCGTATAACCTAAGTGATTTGTTCTACTCAGGCAAGAAATGTCTAATTTAAA
CCACATTGCAGCTAAGCCCTTAGTGAAGAAGGAGAACTCCTTGAGGCTTAGCCGTGCGTGGTTAGGCTGGTGGTAGCTGAGGCAAAGCAGACCTCTTTCA
GCCCCTGTATTTCTTACTCAGGTCATGACTGGAGATACGTGGGTTGGGGGGCTCTAATCACCACACTCACTCTTCTGTCTCACACTKCATCCCTCGTGAA
TGGGTTTAGTTTTAGTAAGAATGTTTACAGGAGAGTGTTGGCTACATGTCCCCAACATCCCGGGTTTGAGTCCCATCTGAGCCACCAGGAGTTGGGTGAC
TTCAGGGAAACCTCTTAAACTCTAACCATTGTTTTTTCTTCTCTGAGAAACAGGACAAATCGGTAGTGGGGGTGCACAGATTGGCACATTTTCGTGGCAA
GCGATCTGGCTTAGGAAGCAAGAGATCTGTGCTCCAGCCTAGCTTTGTTCCCAACTAGCAGTGGATTTGCAGCAAGGAACTTTTCTCTGGGCCTCAATTT
CCTCATCTGTAAAATAAGCAGGCTGGATGAAATGGTCTTTGAAGTTCCTTCAGCTATAAAATACTATGTATGTCTTAAATCACTTGGAGTTTGACAAAAT
AATAGTTATAATAATTTTAATTATTATTGTGATTTCTTCCTACAATCCCAAAGATTTCACTAGCCATGCAAATCTTTTAAAATTCTTCTTTAAAAGTACT
TTTCTTGGCCTTACTGACATGAAGCAAAGAAGGATTCTAGGCCCCCAGATGGTAGGATTTGGGGTAGACATTCTGTGTCTGTCTCATTCCCCATGGAATT
ATCAAATTTCCCCCCTAGCCACGCCAGACTGCTAAATGGTCTCTAAGTATAGCCTACATTTCAAGGCTGTTTCCTCAGCCAAAAATGCCCCTTCTCCTTG
TCTGCTGTGAAACTCCCTTCCTTTTACCCTCCTCTTTCCATTATGGGACAGTTTTCTCTTCTGGGCTCCCTTGAGCACTTCACACTATTATTCCATTGAC
TTCATGCTGTTATTTTTGGTTTTGTATTCAATATATCTTTGCTCAACTAGACCCTCAGGAACTCTGTCATCTGTACCACCCAGCCTCTCCTTCCCAGCCT
TCCCCAGCACCTGGTACACATTCATGGAAGAATTAACTTTTGAACCCTGTGGATTTCATCACAATAGGATAAGAATGCTGCATGGGTTTAGGATAGACGT
TCACAATCTGAGATGAGCAGTGCTAGCCCCAGTCCCCAAAGGAAACCTAGTTAGGGTGGTGATTAGAGACATTTTGAACAATTACTTCAGGAAAGGATCA
AATTCATTGAAAAGCTGCTTATCTTAGTGAAAATGTTGTAACTGTGGAAAGACATAAAAGACAAAATGTTCATAACTGTATCCTTGGAAGTGCCTTTCTT
TAAAGAATAGGAATCATCTCACCAAAGTATTTGAAGAAGAATGTGTGTGGTTGTTTGCATGTAGCTGCCTATACTTAAGAATGTTACATATTTCATTTCT
CCCAGGATCACTCAGCCTAAGAGAAGAATTCGAGGTTACTTTTAGGGAGGAAAGGACACTTACACTGGGAATTCAATCGATGGTAGTTAAGCGTCCTTTT
TCTTTAATAATTGGGATAAGTATGACACATACAACTTTACATAGCATGCTCGGGGAGTGAGGAGAGAAGCTAGAGAAGACTGAGATGAGTGAAATGCAGG
CTTGATTGAGAAACTAAGCAGAATTTCTACTAACAGTGAGSATTGAGGGAGAAGCGTTCCTGTAATGGAGGGGAAATGAATAAAACCTCGACTCCCAGCT
CGACAGGGACCTTTCTTCTCCTAGCCAGCTGGAATGCAAGCTTTAAAAAAAAAGGAAGTGTGGGGAGGGCTATTTTTTTTAATAAGAYGTCTCAGAAATG
ATCATGAACACAGTAAAGCTGGTTTTCAAAAAAGGAAAGTGAGAAAAGTAGTGACAACTTGAAGCTGGTAGTTGAGGAAGAAGGAGAACTTCTGAACCCA
TGAAGAGAGTATACCCGGTTTGGGTGGGCAGGACTCCAAAGCCTTTAGGATCGATGGACCAGAACAGAGAAATGAAAATGCAACAAGAACAGCTGTGGGG
AAAAGGCAGAAGGKGGGTAGGAAGCGAAGAGGGTGTGTACTTTTCCTTTCTGATCTGAGAAAGGGAAATTTTGTGCTGGGAAGAGTTACGCGGGAGGAGG
AAGGAAAGGCGCCAGGAATGCCTGGAAGGTATATGATGTCTGACCTTATGATCTCTTGCAACAATTTCTACACCGATTGTGTCCCTTCACCTCTGCTCTA
AAAATGTGGTTAGGTAAATATCTGTTTTATTAACATTGTGAGAAATTAGCCTCGTTTACAGAATTCCACAAAACAACTTGCAATAATGAGAGGCTGCTAG
GATGTAGGTGATACTAGGAGAAGCAATGCCTTGTCTGAACCCCCAGGGCTCTGGAGGCACCGCTTTGGGTTTAAAATCTTTCCTTAGTGACCTTGAACGT
AATGAAATAGGAGAGAACGTTGATCTTAGAGTAGTAATAGCACAAACCACAGCCTTAATGCCCAGCAGGCTTAGTTCGCTGGAATAATTAGCCTAGGAAA
TGCATGACTTAAGATGTCCCCACAGTGGCCCCCACAAAGTCTGAAGGGGAAACAAAGAGAAAGCCAGAGAGCCTTTCATAGAAGGGAACCAACTGCGTTT
ACATGCAAAAGATCCATCTCCTGTGGCTACCTAAGAGCAGTGACTCTCTGGGGGTGGAATAATTTATACATGTGTAAAAACATTTATTTTTCTACATATT
TACTTSAAGCATGTGTTAAAATATCTGCAAACAACTCCAGACCCCCTCCCCATCTTATTTTTATCCTAAAGGCAGTGTTACATGGATATCCAAATGTTTA
GAGAGGACAATCTTAAATATACAAAAGAATGATAAATAAATAAATAAATAAATAAATAAATAAAWAAAWAAAAGATTTCCTAATTTGTCACCACTTGCAT
GCTGGAAACCGACAGCGCTAACTTGGGTAATATCCTTTTAACTCTGATTGAATTATATGTTAATTCCTTGCGGTGGTCTTAGATTTCAGACGCTATTAGC
AAATTATGGAGGAAAAGCAAGATCRTATGATTCATGAAYTATCACAGCAGCAACAGTTTCTAATTTCCACCCATCCTCTGTGTCATGTGATATGTTTCAG
AAACTCACTTAAAATTGAGAAAATAAGCCATTCCTAATTGTACTTAAGTAAGGAAATAGCTCATTTATGAATCTAAGAAGATTAAAGAATATGGCTTTAG
TGTGTTTGTTTAGAATCTATGCCAAAATTTTTTTCCGAAGCATAAATCTGGTTTTTTTTCTTTTCCTTAAAAAAAACTTTAATAAAGCCAAAGAAAGAAA
GAAAGGAAAGAAAGAAAGAAAGAGGGCTCCACATGCAGTTTCAGCACTAAGGGATCCTGACAAGTAATTCACCTCTGCTTTGAATGTGGGATTTTTGCAC
TCTATGATATATACCTTTGGAGTGGTTTTGTTTTCTTTGTGGTTTTTTTTTTGTTTGTTTTTTGTTTTTTGTTYTTTTTGTGTGAGACAGTGGATTTTTT
TATCCATCATTGCATTATTGGAGTTTTATGTGATTTAATGTATAAAAAGTGAGGCTATTCTCCAACTAGTTGTTTGGGTTTCTGTAAAGTTCAATTTCCA
CAGTTTACCTCAAGAGGTCTTTTAAAAATGAAATTTCAAGCATGTTGCTTGATATTCTTTAACATGTTCTCAATTAATTTGCAATAAAGTCCAGCCCCCT
TCCTATTGCACACTATTGTACCCTTCCTGCCTTTTTCATGCACTGCTCTCCACCCACCCTGGCTTCCCGGCTTTGCCTCCAACGTCAGAGTGATTTCTGG
GCTTGCTTTTTTKTTTTTYTTTTGCCTGGAAACTTCTTCTCTGAAGAACTTTCAAATGGCTGCCTTCTTCATGTATCTCCTCTCGGAGCATCATTCCCTG
ACCTTCCTTTCTAGGGCTCTGAATCCACCCCATTGCTGTCTATCCAGTCAGTCTCTCTTTTCTAGCTGGCATCCATCACAAGCAATCTGCTTATCTTGTT
TTTGGTGAGTTTATATCTGTTTCTACCACTGGATTATAAATACTTCCAGGATAGAGATCTAGTTTATATCACTCACCATTCTCTTCCCTTAGTGCCTGGT
ATGTAGTAGGTGTTCAATAAATGTGTACTGAAAGAATGGATGAGTGATATGATATTGATCTGTACCTATTTTTTTCTTTTTAGTCTATCTTTGTTGAGTT
TTGGTATTGATTTTATGTGTCAGTACCTGAGAAGGAGAGAAGTCCTTGAGTTGTTTCGTAAATGTGGCTCAAGTGAGATGCTGAACAGTGCCAGCYATGT
GGACTCTGCCACAGTGAAGGAGGAAGGTAGAGAAAATGGGTTCCAGTGTGTGTGTATGTGGGGGTGGGAGGGGTGTGTTGATTTAGGGGTGTACAGAAAA
TGGTGGTGTGCTTCATGMCTTTTTTTTTTAAAGAATGAAACCAGGACATCAACTGAGCATATAAGAGGGGAAAGTGGTGCAGTAGGGTTAAGGCATAATG
AAAAGATTTAGAATTATCCTAAAAGAGTAGGAAAGCAAACCACGTAGAGATGTATAATAGAATTCCAGTGTTGAGTTTCCATTTTATCATCATGAATTTG
AAGTGAGACAGCTGGAATTTGGGATTTCCCTAACACTTGAGCTGGGAAGGTAAATTGTTAATCACTTTTATGGAGCCAGTGTCCTTTGACCAAGCAATCC
TAGTCTAGGAATTTATCCTAAAGACAATTGGACAAGTTTGAGAAAATGCATATACAAAGTCGTTTAACAAAATATTTTATTATAATTGACAACAAATAAA
TGGAAAGTACCTAAATATTCAGCAATATGGGATTGGATAAATTCTGAAACATACAATGGGATATTTTGCAGCTATTAAAGACTGTCTGTCTATATTCATT
GATATGATGAATAGGTATGATGAGTTATTGAGTGAAAAAAATGCAGTTTTCAAACTAGCACATAGTGTAAAACCCTTTTTTAAAAGTCGTTTACACTCAT
GTATTTTAGCATAAAGAAAGACATGGAAGGATGTTCACCAAAATGTTAAATCTTCTCACCCTCTTCTATGTATCTTTTTGAATTGGGTGAAATGTTCTAT
AATGAGTATTTGAAAACAGAATAAACAGAAAAAAAAAGATTTAATTAGATCCCATTTGTCAGTTTTTGCTTTTGTTATTGTTGTTTTTGGTGTCTTTGTC
ATGAAATCTTTGCTAGTTCCTATGTACAGAATGGTATTGCCTAGGTTGTCTTCCAGGGTTTTTATAATYTTGGGTTTTACATTTAAGTTTTTAATTCATC
TTGAGTTGATTTTTGTATATGGTGTATATGTAGTCTTCTACATATGGCTAGCGAGTTATCCCAGCACCATTTATTGAATAAGGAGTCCTTTCCCCATTGC
TGGTTTTTGTCAGTTTTGTCGAAGATCAGATGGTTATAGGCGTGCAGGCTTATTTCTGGGCTCTTTATCCTGTTTCATTGGTCTGTGTGTCTCTTTGTAC
CAGTACCAGGTGGYTGTGGTTACTGTAGCCCTGTAGTATAGTTTGACGTGATGCTTCCAGCTTTGTTCTTTTTGCATACAATTGCCTTGGCTATGTAGGC
TCTTTTTTGATTCCATWTAAATTTTAAAATAGTTTTTCTTTCCAGTTCTGTGAAGAATATCATTGATAGTTTGATAGGAATAGCACTGACTCTGTAAATT
GCTTTGGACAGTATGGCCATTTTAATGATATTGATTCTTCCTATCCATGAGCATGGAATGTTTTTCCATTTGTTTGTGTCATCTCTGATTCCTTTGAGCA
GTGTTTTGTAATTCTCATTGTAGAGATCTTTCACCTCCCTGGTTAGCTGTATTCCTAGGTGTTTTATTCTTTTGTGGCAATTGTGAATGAAATTGCATTC
CTGATTTGGCTCTCAGCTTGGCTGTTGCTGATGTATAGAAATGCCAGTGATTTTTGTACATTSATTTTATATCATGAAACTTTGCTGAAGTTGTTTATCA
GCTGGGATCTAATGAAACTTAAGAGCTTCTGCACAGCAAAAGAAAYTACCAACAGAGTAAACAACAATGATCTACAGTATGGGAGAAAATATTTGCAAAC
TATACATCTGATAAAGATCTAATATTCAGCATCTATAAGGAATTTAAATTTACAAGAAAAAAGCAACCCCATTAAAAAGTGGGCAAAGGACATGAACAGA
CACTTTTCAAAAGAAGACATACATGTGGCCAACAAGTGTATAAAAAAAGCTCAATATCACTGATCATTAGAGAAATGAAAATCAAAACCACAACGAGATA
CTATCTCACACCAGTCAAAATAGCTACTATTAAAAAGTCAAAAAATAACAGATGCTGGTGTGGTTGTGGAGAAAAGGGAATTCTTATACACTGTTAGTGG
GAGTGTAAATTAGTTCAACCATTGTGGAAAGCAGTATGGCAGTTCCTTAAAGAGCTAAAAACAAAACTACCATTCGACCCAGCAATCTCATTACTGGGTA
TATACCCAAAGGAATATAAATTCTTCTACTATAAAGACACATGCACACATATGTTTATTGCAGCACTATTCATAATAGCAAAGACATGGAATCAACCTAA
ATGCCCATCAGTGGCAGATCAGATAAAGAAAATGTGATACATATATACCATGGAATACTATGCTGCCTTAAAAAAAACCAGATCATGTGCTTTGCAGAAA
TATGAATGGAGCTGGGGGCCACTATCCTTAGTAAATTCACGCAGAAACAGAAAACCAAATACCTCATGTTCTCACTTATAAGGAGGAGCTAAATGATGAG
AACAYACGGACACAAAGAGGGGAGCAACAGACATTGGGACCTATTTGAGGGTGGAGTGTGGCAGGAAGGCGAGGATCAGAAGAAATAACTTTTGGGTACT
AGGCTTAGTACTTGGGTGATGAAATAATCTGTACAGCAAACCCCCATGACACAAGTTTACCTAGGTAACAAACTTATACATATACTCCTGAACCGAAAAT
AAAAGTTAAAAGAAAAAAGAAAGACCCATCTGTATAGKGCTCTCTCTCTCTTTCTCTTACTTGGTTTATTCTCTTCCTTATCCATTGCATGCATTAACCC
TTTAGAACTTCCGGTGTTCTGGGGACCCTGAAAGATCAGCTAGCAGGATTATTGCGGGGCTCAGTGCAGTGATGCAGAGGCCTCCACCAGCAATCCTGAA
GTTGAAAGAGAATATCCACCTCCCTTATGCATAAGGGATAGATTTGGGGGTGGCATTGAAGGTCTTTCTCTCATTTTGCTGGCAGCTGTAGCAATGCATT
GATTAGCAGGAGAGGTTTTCTCTCTAATGAGCCAGAAACTAACACTTGTGGAGTTCCTGCTATACACCAGCACTGTGCAGGGTGCTTTACATTTAAAAAA
TAAATCTGGGCCGGGCGCAGTGGCTCAAGCCTGTAATCCCAGCACTTTCGGAGGCCGAGGCGGGAGGATCACAAGGTCAGGAGATCGAGACCATCCTGTT
TAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATAGTGGCAGGTGCCTGTAGTCCCAGCTACTCGGCAGGCTGAGGCAGGAGA
ATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCRAGATTGYGCCACTGCACTCTGGCCTGGGCAACAGAGYGAGACTCCATCTCAAAAAAATAAAA
AAATAATAAAATAAAAATAAAAAATAAATCTGTTTAATCTTCACAATAATTCTACAACGAAAAAATTGTTATCTCCATTTTATAGCTGAGAAAAAAATGA
GGCACAATGAAACAAAAGCACTTGCATAGCACACAATATAGGAAGGAGTGGAGTGAGAATCTAAAGTCAAGTTTACAGCATGCTGTTTTCAAGGCAAAAC
TACTTTTGATTTAAAATCATATTCTTTTCTCTCCCCAATCTCCTCCAGCTAGCGTTTCATCCGTGTGGATTTGTCAGGAGACAAGGAAAATCAAATTTCC
AGCAATGCGTATCTAGTGTTTAACAATCACATCATTACACATGAAAAAAATTTGAAGCTTGTCAGATCACCATTGTATGAAATATTTCCCACTTGGGACC
ATACAGCTCTGTATTTTTCTGATCAGTTACAATTTTTAGGATCTAGTCTTTATCCCAGAGACCCAGATCTGTGTATTCTGTATTCTTTTGTACCCTGTGT
TATTGCTTCACCAAGAGTATACTCCAGGTGATTTTTTTGTGTGTCCTTAATTTTGTCATTTTGTGGTCATTAATAACATCAGTTAACAATAATATTATTA
WACTGTCCACTACAATGTGCGTTTGTGAGCACTGGCAACAATTTAGCAGAACAGAATGAGTTAGATTCCCAATTGTGGTAGATCACGTGTAGTAGCGAAC
AGAGCACAGAAACTCCGGATCYTAATTCTTGATTTCCTGGCAGTGATACCTTCCCATTCCATTACATAAGGTATAAGTGGCAGAAGATCAGGGAGAACCA
YAGGGCTGTAAGATATTTTATAAGTTGTTAAATAAGGGGACACTGCTTTATTTGGGGCATGTCACTCAATCTCTTCAACATTGTGTTAGGTAGGTATCAT
GAACTAAATTGTGGCCACCCAAAACTCATACCTCGAACCCCGGGTACCTCAGAACATAATTGTATTTGGATATGGAGTCTTTAAAGAGGTAATTAAGTTA
AAATGAGGTTGTTAGAGAGGGCTGTAATCTAATATGACTGGTATCCTTATAAGAAGATTGAAAACACAGATGTGCACAGAGCAAAGACCACGTGAAGACA
CAAAGAAAACAGCCATCTGCAACTCAAGAAGAGAGTCCCAGAGCACATTGTGATCTCTGACTTCTGGCCTCCAGAATTGTGAGACAATGAATTTATATCG
TTTAAGCCACCAGTCTGTTGTACTTTGTTATGGCAGCCTGAATGGGCCAATACAGTGAGGTTCCCTGGAAGACTTTCAGATGGGGACTTGCATGCAAGAA
GTTTAACAGGGAGAGCTCTCAAGAGCAACCCCCGGAGGGAGAGAGGGAGGAAAGGAAAATTGGGCAGAGAGAGAAGCTGACCTCTGATGCAGCTGCTACA
AGGTTCTCAGCTGATCCTAGGGTTCTCAGCTGATCCTACAGGGTGTTCTGGAGCTGGGATGGCCCCGTAGAGTTGCCTGGAATCAAGGCAGGGCCCAGGG
AGGGAGATAACCTTGGCAAAGGCAGCTTCCTTCAGCGGGGGAATTCCCAGTGAGGGACTCAATTGTGGCTGTTTGCAGTGGGCACTGGACAGCTGGGGAG
TGAGTTTCTCCGCCCTGACGAGGGGTCTGGGTGACATCTCACAGCATCCATCGCAGACCTGCAGCTCCTAGTCTGCAGACCAGGATAAGCACAATGCCTG
TGGTGCATTTCCCCGCAGGCGGCTGTGAGGAGCTAATGAGATAATGGATATGAAAATGCTCTGCAAACTGTGAAGACTATCAATATGCTGTTATGCATCA
TTCTCTGTTATTTGTTGCTATCCTGTCCTTTCACCTTCCCCAGGCCGGAATGATCACATTTTCTCTTTCCCTAGCTTTATTCCTGGGTCACTAGCACAGG
GAAAAAATAAGAAGAAAAATCAGAGTGGAATTCTAAAAAACAAAGGTCCTGTGCTTTTCTGCCTAAAATATGTACAATCCTCAGTTGGCACTGTCAGGAA
TGGGGACCGCCCTCATGGAGAAGTGGYACTTCCACTCCTARCCAGCCTCTGTGTGAGCTGGACTCTAAGGTCAGGAGAATGAGGAGGCCGTGAAGGTCTT
GGCCGTCTCTTTTTCCCCTCATCTCTACTGAGACATAGATCRAGACAGGGACCCATAAATCACCTTGGAGTTAAATCAGGGGAAAAAAGAAAAGCCCTCT
CAGGCAACAGCATTTCACAGCAGCAACAGGAAGTTGTAGGGAAAAGAGAAAAGTCAAAACTCAAGTGAAAATCTGAGTCATGGTTCAGAGAGGCCACAAA
TACCTTTCTTATGGAGAGTCAGAAGAGGGAACACAGAGAAAACTGAGAGGTTTTTTTTTTGTTTGTTTGTTTTGAACTTTTTAAAGGAGAATTTGTTTTT
AATCCTGTGAAGCTAGTAAACATCTCTTTAAAGAATGTGTGTGGTCACACAAGTTGAAGGGCTAGAAAATTACCTCCTCACAGCCCAGATGGTTTTAAGT
GGGAACAGATAGGAAGGAGCGTGAGTTAAAGCTCCCACCCACACTACAGGACCCTGCTGTTCCAGCCGCTTTCCTCTGCCACTAGCTCAGGAAGAGCGAG
GGCTGCCTCTCAGACACAGGGAGTTCCTGCAGGCTGACTTCAGGCACTCCAGAATGAGGTGTCCGTATTTTCCTAAGTGCTGAGGGTCACCCTACCTCCT
CCTCTTTTATTAAGATTCTCTGAACCACTCAGAGAATACACAAGTTAAAAATAAATTACTTCGGCAGATAGTGAGGGTACAGAAGTCCTCGGTAAGGTTT
TCCTTTTAATGAAAACCAGCCCCAAATACTTTTCCTTTCTAACAAAGAGCAGCCTGTGAAATCAAGCTACAGACATAGATGCCASCAGAGGAATACTACC
TGGGACTAGGCATGTTCAAAATGGCGGTTCCATCTTCTCTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGTTAGTTWGTTTGTTTTTGTTGTTGTTG
CTGTTGTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAATGGCATGGTGGAGGCTCATTGCAACCTCCACCTCCCAGGTTCAAGCGATTCT
CCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGAATGCACCACCGTGCCCAGTTAATTTTGTATTTTAGTAGAGACGGGGCTTCACCATGTTGGTCAG
GCTGGTCTTGAACTCCTGACCTCGTGATCCGCCTGCTTCGGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACCGCGCCCAGCCCATCTTCCTTTTC
TCAGTGCCAGCCACGTGTACATTAAGGAACAGACAACATGGCGCGGGTCAAGTGGAAAGCTCTTTTGCATAGTAAGATGAGGGTGAGGTAGCCAGCCTTC
CTCCTGCTATGTAAACATCACACCTAATCGAACTGATCTGTGGGCCCTATGTAAATCAGACACCGCCTCTTCAAACCTGCCTAAAAATTTGGAGAATTCC
GCCCCAGCAAGTCTTTCCCTTTCAGAAGCCCCGCTCTCTCGCTAKAGAGAAAGCTGTTCTCCTTTCTCTTTCTTCTGCCTATTAAACCTGCGCTCCTAAA
GGCCTCCTTTGTGTCCCTGTCCTAAATTTTCTTGGCGCCAGGTAACGAACCCTGGGTATTTACCCCAGACAACGAAGCCGCTTCAGAATGACAAAACAAC
AGACATGGGGACTTCTGGCAAACAATAAACCACAAATGAACAGAGAGAGATTAGAAAATAAATCTAATCACAGCAGAGGAGGAGGGGAGAAAATAGCTTC
TCTTCCCAGAAACACAGGAGAGACAGAAAGCAGGCTGCCCTGTTCTGCGCCTGCTCCATTCTCCAGTAACATACCGTCCTGGTGTAGTGAGACTTTTCGC
ATTATAGGGCCCAACTAGAGATCCAGTCATTTTTACTTACGCTGTGAGCCAAGATTCTGAGTAAATGGGTTTATCTTGATTGCAGTTAAAGTATCTGGTT
GGGCACATCCTAACATGAATATTATACCAACAATAAAAATCGTGGAAATGTGGGGAAATGTCCACGATATGTTCATAACTTAAAGTAGGTTAGCAGTGCA
TTGTCAACGTAAATAAAACAGTATATTGAGTGTGATTCCAATATTGAAAAACAAAATAAAGAGCACTAAATCTGCCAAGTTCAAAGACCAGAGTGCCAGA
TGCAAAATGTTTAATGTTTCTTTCTGTGATGGGATTATTTTTTTCTTTATATTTTTCTGTATTTCCTGATTTTTTTCTACAATAATCATGTTTCTACTGT
AATCTGAGATATAAAACATTAGAAAATTTGGTCAGATGAGTTGTTCCAGGATTGTGATTATTTCTCCACAAACAGATGCTCCTCAACTGATAATGGGATT
TTGTTCCTATAAGCCCATCATAAGTTGAAAATACCGTATGTCAAAAATGCACTTCATACACCTGACCTACTGAACATCATAGCTTAGCCTCGCCTACCTT
AAACATGCTCAGAACACTTAGATTAGCCTACAGTTGAGCAAAATCATCTTATGTAATTTATTGRCTACCATACCGAAAGTGAAAATCGAATGGTTGTGTT
GTTCGTTGAAGTATGGTTTCTACAAATACATATTGCCTTTRTGCCATCATAAAGTCAAGAAATTGTTAAGTCAAATCATGAGTGAGGKATCATCTGTACA
TTCATACACACACGGTATGAATACATGGGGGTGTGTGTGTGCATGTGTCTATGCATGTAAATGTGTGTTTCAAAGCTCTGGGGTCCTTCTTCCTTCCCAG
CTAGGAGCCCCTTTTCCTCTGCTGAGCTCTCGAATCTTGCATAATTGCTCACCACATTTCTGAAAAGACAATCTCTTGGTACAGCACCCCCAGCCTTCTA
CCAAGGGATTCCAGCAGATGTTCACTCCCAGCTCAGCTTGGATAGGGCCACCAAGGAGCCTGCCTTTGGTCTCCACAGTCACTTCCTGAAGTAAGATTGA
AGAGGGTGGGAGCACCATGGTTTGTTGACCTCCAGCTCTGCTTGTATCTCCTTTGGCAGAAGGGGTCCCAGGTGGTGCCTACATTCTAGATTTTAGAGAG
GACACCACCTCCAGAGAGCTGAACCCAAAAACTGATGAGCTCCAAAGACGTGAAAAAGGACAGACCCTGCCAGACGAGCACCCTTAGGTTGTTGGCACGG
AACTGAGGGAGGAAACTGGGACTACCCGCCTGATGTTGCAGCTTTTTTATTCTCCCCTCGTCACTGTGAGAGGTCTGGACTTCTTCTGACATAAACAGCC
TCCTTTCATCAAAGGATCGTGCCATCCTTTCTATTTTCTAAGCATTAAAAGGCAGTTTAAGCAGATCAGTGAATTAGGCAAAYGTTTATATTCTCCCTTG
CCCTTTTCTTTTTGCATCTGGTAGAATTTCTCCTGTTCTATTGTTGATCTCTTTGTAAAAGCCCGTACATTCTTAGCTGCCAGGGCATGTCTTTGGAAGC
ATTACCACATACCTGTGAATGATTAATAAGCTGTGTTTGGTTAATAAGCAACATTCAGCTCTCATATTAATCACAGATTTTTAAAGTTAGACACAGCTGG
TGACAATTTAGTGACACAGGGTCAGCTTAGCTTTTCTTGAGCATTAGCTGGGAGGAGAGGCTGAACGCTGCCAGATGTCACCAACCAAAAAAAAAAAAAC
CTAACTGGGTCCTCAGAGAGGACCTGGGGGATGCAAGTGCACACACACACAAGAGCAAGAGATCCCTGTTCTTTTCAAGAACTCCTTTTCTGGAGGACTG
TCACCTCCAGAGACCCCATGCTTCCTCCTCATGGTTATAACTTTCCCCAACTCTTCAAGTGTCTAGAGAAAGCACATTTTCTGAACCAAAAATCAGGGTT
TATTGATTGGCCATGAGTCTCAAATTAAGAATGCCCTGGAAAAACTGGAGAAAATATTGAGGCATTAGCGGCATTCTGCATAGGCTATATTTGTTCAGCC
ACATTGAATAACTTACTCTATGCTTAGTACCTCCAGAGAGTGGGGTTACAAAGAAGAATACCCCCTGTCTAGTGGGCCTTCACTGGTGTGTGAGGCTCCT
CTGGGCAGGAACTCAATTCTGACTTGTGCAGGTTGCAAGTGGAGGGTCGGCCGTGCTCAGCTGGGCTGATGGTTTCCCCTATTCGAGCCCTTCCTGGCAC
AGTGTGTCTCCTCTGATTTCTCGTTCCCAGAGCCTTTCCTCAAGTAGGGATTGCAGTTCTTGCTCTCAGTTCCTTCAGCTAGAGAAGCGAGGTCCTTTCA
CTGGCCCTCTTCAGATCCTGTTCTTGAGCTCAGTCCAACAGGACACCTGGCTTCTCTGTTCACATAGGATCTTCTTTGGGCCAGGCCAAACTTTCCTCTT
CCATCTCTCAAATTGGCCCTTCCCTCTCTCAAGAACTGGCTACTTCTCACGGCCCTCTTCTTCATCTCTTCATTACTCCCAGTCTGACAGTGGCTTTGCA
AAAATCTTTCACATTTCTCCTCACCATGGTCTCTCTATCGTAAATGAAGATCCAGAAACGTCTTAATTTATCTTTAATGGATAATATAGAGGGTGATTCC
TGTCTTCAATCAAAGAGAAAGAGGTATAAGGACAATACACCCAGGCCATTTCACCTACAAATGCTGACCTTACAAAAGACCAGTGGGTGGGGACAGGTGA
GTGAAGGTCCTAACCCAGGGCTTCTCTGTGCTGGGAAGTCACAGTTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTATGTGC
AGAAAATGCAGGTTTGTTACGTAGGTAAACATGTGCCGTGGTGGTTTGCTGCACCTATCTACCTGTCATCTAGGTTTTAAGCCCCGCATGCATTAGGTAT
TTTTTCTAATGCTCTCCCTTCCCTTGGCCCCCACTTCCCGACTGGCCCCAGTGTGTGATGTTCCCCTCCCTGTGTCCATGTGTTCTCATTGTTCAACTCC
AACTTATAAGTGAGAACATGAAGTGTTTGGTTTTCTGTTCCTGTGKTAGTTTGCTGAGAATGATGGCTTCCGGTTTCATCCATGTCCCTGCAAAGAACAC
GAATTCTTTTTTATGGCTGCATAGTATTCCATGATGTATATATGGCACATTTTCTTTATGCAGTCTATCATTGATGGCTATTTGGGTCGGTTCCAAGTCT
TTGCTATTGTAAATAGTGCTGCAACAAACATACATGTCCTTGTGTCATTATAGTAGAATGATTTATAATCCTTTGGGTATATACCCATTAATGGGATTGC
TGGGTCAAATGGTATTTCTGATTTTAGATCCTTAAGGAATTGCCACACTGTCTTCCACAAYAGAACTAATTTACACTCCCACCAACAGTGTAAAAGCGTT
CCTATTTCTCCACAGCCTCGCCAGCATCTGTTGTTTCCTGACTTTTTAATAATCACCATTCTAACTAACGTGAGATGGTGTCTCATTGTGGTTTTGATTT
GCATTTCTCTAATGACCAGTGATGATGAGCTTTTTTTCATATGTTTGTTGGCCACATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCA
CTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTGTTTAAGTTCCTTGTGGATTCTGGATATTAGCTCTTTGTCAGATGGATAGATTGCAAACATTTTCC
CCCATTCTGTAGGTTGCCTGTTCATTCTGATGATAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTGATTAGATCCCATTTGTCAATTTTGGCTTTTGT
TGCAATTGCTTTTGGTGTTTTAGTCATGAAGTCTTTGCCCATGCCTATGTCCTAAGTGGTATTGCCTTGGTTTTCCTCTAGGGCTTTTATGGTTTTGGGT
TTTACATTTAAGACTTTAATCCATCTTGAGTTAATTTTTGTATAAGGAGGGGGTCCAGTTYGTTTTCTGCATATGGCTAGCCAGTTTTCCCAGCACCGTT
TATTAAATAGGGAGTCCTTTCCCCACTGCTTGTTTTTGTCAAGTTTGTTGAATAGCAGATGGTTGTAGATGTGTGGTGTTATTTCTGAGGTCTCTGTTCT
GTTCTATTGGTCTATATATCTGTTTTGGTATCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCATGATGCCTCCA
TCTTTAATCTTTTTGCTTAGAACTGTCTTGGCTATACAGGCTCCTTTTTGGTTCCATATGAAATTTAAAGTAGTTTTTTCTAATTCTGTAAAGAAAGTCA
CTGGTAGCTTGATGAGAATAGCATTGAATCTATAAATTACTTTGGCCATTTTCATGATATTGATTCTTCCTATCCATGAGCATGGAATGTTTTTCCATTT
GTTTATGTCCTCTCTTATTCCCTTGAACAGTGGTTTATAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGTATTCCTAGGTATTTTATTATC
TTTGTAGCAATTGTGAATGAGATTCACTCATGATTTGGCTCTCTGCTTGTCTATTGCTGGTGTATAGGAATGCTTGGGATTTTTGCACATTGATTTTGTA
TCCTGAGGAAGTCATAGTTTTTCTATGTGCAGTTCCAAAGCCCCTGAAGAATGATTAAAGAGCAAATTACTTTCTCTTTTGAAGATTAAAAAGAGACTCC
TTTTTAGCAAGATCAGAGTTAACAAATTACTGGCCCCATGCCCTTTCCTACCCATGTGGAGTCCTCGCCTTGCATCAAAAAGGGAAGCTAACCTGCAACA
AGGGAGCAGCCACTGCCAGGAAGAAATGCCTTTGTGCCTTCCCTCTTCTTGCCCTGCTGCCTTCTTCCCAAGTCAGCACTCCTCTCTTCCCTTTCCACAT
GCTTCCTCTTTCCCCTCTTAGGAAAAAAATATAATATTGGATCGGCTGTGTGTCAAGCATCTGAGGTTCTAACCATAGCTCCATTACTACCAGTCCGTGT
GACTTGGGGAATGCTGCTTACCTTCTTTGAGACCCAGTTTCTTCATTACAAGATAAAGAGCTTGCTAGGTGAGCTCTGTGACTTCTTTCTACTTAAACAT
TTTGTGATTCTGCGTTCTTAGACTTTGTAATAATTCTCTCTTAAGGTATTTGTACATTAAGTTTTACATGTCATTGTGGAATGAACAGATTTATCTCTAG
TTACAGAATCCCAAACTTCAGCAGAAGGTGCAGGGAGAACCAAAGAGGTGAGGGATAAAGAAAGGGGCTCCGCCAAACCATATCTCTCATCTTGTTCTTG
AATTACCAGCCCTCTGGCAGTCAACTTTCTTAACTGGCTTCCTTCTGGAGCCCAGATTTGTTTTTCCTTGCTCTCTTAATCTCTGTTCACTATTTTCTAT
AGAAATTACTTTAGAGAGAAACCCTCTTCCAATTGTATTTAAATCCACCCCCCAAATATAATTTATTCTCTTATGAAGCTTTGAAATGGAAAMTTTTCCC
CAGAAGTAACCAGGCATTGTGCAAAGTCGCATCCATTTTGAACACCAAAGCAGCTGTAACAAATAAGAGATGACAAATGCCATTGTGTAATTTAGTTCTT
CATATCAGTTTGTCATTCTGACTCCTTTCTATTTAACTGGATGCTTTGTCAGACTTTGTAATCTAACCATGTGAAGGGCAGTGAATAAAGGATTAACGAA
ACCCTTTCCAGTTTTGCATGAGCATTTGATTTTTGGCTAACTTCCTAGCTCTGTTCCCATGGAAACCTGATAAAGGAAAGTACAAGTGGGCCCTGATTGG
TAAATCCTATCTGGATTGGGACAACTATAAATACCAGAGAAGAAGCCATATTTTCGAGTTTCCCTAAGTGCAGTGACCCTTGTAACTGGCATGACCTTGA
GAAGACCATGAAAGTTATGGCCATGGAGTTCCTCCAAGAGATATTAGCTGCTGTGAAATACAGGGCCTCTCATATAGTGTGGCCTCCACACCCCACTGAT
GTGAGTCTCATTTCTTCACAACTCAGTCCACATGGGGGCCAAAGAGAATAGCTTCTGCCCACTGTGTGGATGGCTTTGTGGTCTGCTGCGAGGTCCCGCA
GAAGAGGAAGTCTGGATGTGCCCTACTGACATGCTCTGCCTCCTGGCCTATGAATCTTCTGGGTCAACTGCTGTCTAGAGTGGGCCTTGGCAGTCTTGTG
AGTTTGCAGGTTTAATAGAGCCTTATGAGACCTCCTGGTGGGTCTTGTGGATGGAGGTTTTCACTTTTACTGGTTTGAATGAGTGCATTTGCCTGTGAAG
CTGTGAGCATGAGACAATGTCCAGTCTTATGGTTTTTACTAATTGCCAGTTTTTCTTTACAAATTAAAAAATAATTTTGTAATGAAAATTGGCAGGTCCC
ACTTGAGAATATTATACTAAGTGAAATAAGCCAGTGACAAAAAGACAAATACTTTTTTCCACTTCTCTGAGGCACTCAWATTCATAGACATGGGAAGTAG
AATACTGTTTGCCAGGGGCTGGGAGAGGAGGTAACGGAAAGTTGCCGTTTAATGGATGCAGAGTTCCACCTTTGCAAGATGGAAAGAGTTCTGGAGACTG
GTTGGACAACAACATGAATGCACTTAACACTACCGATTGTGCACTTGGTTTAAAAACTGCACATTTGTAAAATGGTTAACGTGGCAAACTTTATGTTATA
TGTATTTTACCATAATTTAAAAATTTTTTTTAATTGACAGTTTCCTCTAAATATCACACTTAAATCATGTTTTCAATACACAGACTAATTCTAAGTGTTT
CCAAATTTCCTTCTAAGTAATATAGGAAGATTTTGTGTTACTTTTCCAATTTCATCCTGCAACCACGGTTAAAAATCACTACTATTCACTTCTTACCATT
TGATCTGTTGACAGTTTCAGCCATCAGTCACTGCCGGCTCCCACTTCATTTAGTTACCATGYCCCTCACTAACACAAGATCGCCGTCTAGGGGCCAATCG
TAGAACTACAGGCTACACAGAGGAGAAGGGAGCCAGGCCACCTTTCCCATGCATCCCACTCCTTGAACAGAAAGAGCAACTAAAAAGGGAGGCAGGAGTT
CTAAGCACCATCTTTTTTTCACCAGTACAGTTTCCAAGATCTTGCTGCTATGAAAATAAAGATCTCCTAATATTTATAGTACTTGAGGTTAGAATAGTCT
TCTAGGTAGAGTACTAATATCTTGCTGATAAAGCTTTTGATGCTGAATCCTTGRTTATTCTCTTAATATAATATCTTCTGTGCGAATAAGGCTAAAATGC
TTGCATACACTCTTGTACTCACTTAGGAATGTAATAGAGCAGTTTGGGAGAGTGACTGAATGCTTCTGCTTTGGGCAAATTTGCCACAAAATCATATTAT
GCAATCACAGGGTCACAGAACATTAGAACTTAAAGAGCTTTAGAGGCCCGTGGTCTCTAGCAGATCCCTTTGAGAGTCTGATAAAAATTAGAGGTTTACG
TACCATAAAATGCTATTTTGCACAAAGCTTTGAATACCATTTTAAAATTTCATCATAGATGAAGAATTCCAGCTTGAATCCCACCCCATAATTTGGAAGT
GAAGTTTCTGAGAAGCATCCTGTGTGAAGAAGCAGCTAAACAGAGGGGAATGGGAGTCAGAACTGGATGTTGGAAAGAGATGTGATCCCACAGACAGTGT
AATGCTGGGTTGGAACCAGCCCTGGTCAAACCCATTCCCCCGAGTGCACATGTGTTCCAGGGAGAAGCTTGCTGGGGAAGAGAGCAGCAATTTGCCCACC
AGAGGCCCAGATCTCCTGGGAGAAATCAGCTGCCATGGAACAGGAGTTTTTCTTCATGCTAGAAAGGGAAAAGAACATGAATAAGTGGCAATCCAGGGAC
AGCCAGAAGGAACCTGGACAATGGCTCACCGGCTGAGCAGAGATAGAGTTGCACTGGKKGGGGGGGGCGGGGGTGGGGGGCAGTTGACAGCAGCCTGGAT
TGTGAGCAAGGAGTACGAAGAAATAATAATTGAAGTAGCAGAAGGTAGCAAGGGGTGCAGACCAAGAGCACAGGCACTGCAGAGAGAAGTCTGGATTATT
TGTGAGGACTTTCCCTAGGGACTTCTAGAAAGAAATCACTAGTGAGGTCTAAAAGAAGACTGGACTTCCAGTGTGGTGATAGGAACATTGCTCTTTGAGT
TCTTACTACAAATGAGGAACTTTGATTTGCCAGGAAACAAAGGGTTCAAAGAACCAATTGTGATATATTTTGGCTTAAATCCCCCCCACTGAAATATGAC
AGGAGTCAAATTGGGGTACCAGGTAAGTCTTGTGAAGGTGCTGCCTGGGGAGTACCCAGCTGTCTGGCACTTTCATAATATCTTTCTGAACCTCAGTTTC
CTCATCTACAAAATGGGATTAGGACTTGTTGAGCATCAAGGTTCCTTCCGACTTGAAAAATCTTCTGATTCTATGACCAAACTGGAAGGCCTGGGTTGGG
CTCTCTCAGTTCTGCAGATTTAAATGAGTCATTTCTGAACTGTTGGCWTAAGGCCTATCCTTTTCACTCAAATATTCCCTTGAGGCATCATTTTTTTTTT
TTTTTTCAAAATTGGGAAAGCGAAGGATACAAGAAGTTGGAAGGAAAGCCCATGAAAGAAAAAMACATTTACTATAATTAAGAAAGAAAATTAAACAGAT
GATGATCAGAACTGCGGTTATAAATTAAAGTTAACTGATTCCAAGAGTGTACGCCATCAGAATTCGCCCTCATAACTGGAAATTTAGAGGCAGGGCAAGC
TTCAAGTTTGCCTAATTCAGCAGTTCCAATCCCATTTCCTTGGGATTCTCAGCTCTGCCTCATCTGTGTTCAGTTTAATTCTCAGGCTGGGGATAACATG
GCTATTGCAATAATAGGGCCAAGCTTGACAACATCCAGAGGGAGAGACTCTCTTTTCCTATGGCTCTCTCTTAAAGGTGGAGAATTTTCCAGAAGCCCCA
GCAAACTTCCCCATAAATCTTATTAAACCTAATTGGTCCATATGCCTATTCCTGAACCTCTCACTGGCAGGGGGATGAGATTATACTTAGACAATTTAGG
CCTAACCTGGAAGTACAAAGACTGCAATGGGGAAGGGGTGAATATTTGAAAAAAATCAGGGTTTGTTGGAATGAAGTGAAGAATGGCTGCTGGGCAGACA
GTCAGCGGTATCTTGTCAGAATCAGCTGTTGAAATGCAGTGGGGCGTATGACCATGCTCCCCATTTAACAGATGGAGTAGTTAGGCCCAAGGTCACACAG
TTGGGTTAGAGCTAGGGACAAAGACCTTTCTACTCAAAACCCGAGGCTTCTCTATGTACATTTCAAAAGGCTTAAATTTTGGCTTATCTTTTTACCCAGA
AAGTCTACTTCTGGGAATTATTATAAGGAAATAATGAATGGGAATAAAGAGTTAGAAACAATAATTTTTAACCCAGTATATTTTTGTGAAAAAAAAATGG
GAATAATGTGAAAGTCTAATAGTATGCAGTTAGTGAAATCAATAATGRTACATACATACAATGGAATACTATGCAGCCATTACAATTATACCACAGAAGA
AAAGGCAATGGCCTGGAAAAATATATTGTTCATAATATATTGTTACATAAAAAGTAGGCTATAAAACTGTTGTTTAACAAAACAGATCTAGAAAGATTAA
GAGATGTATACAGCAACATTTTACCTGTAGTTTCCTCTGCATGATGGAATTGTAGATGATTTTAATCTCTTAGTTTGTGCTTCTTTTTTCCAGATTTCTT
TGGTTGAGGATATGTAACAAAGAATATCTTTGGTGAGAACATTGCAATCAGAAAAAAATGTCCGTGTAACCATTTTTTAARATTAATTCTATTTTCACTA
AGAACACTGATTTTCAGACATAGCTATAGGTATCACAGGGTTCTATATGGAATTTCTAGAAATACAGTGGGGAGTTCATGGCAACAGCCTTCTCAAGACC
TGTCTTCCATGCCCACGAATTCCTAGGATAAGAAACAACACTCGGGAGGTTTCTAAAGTTCCCGACCTCAACTGCCCTCAGAGAGGGGTCATTATATCCA
GGGCAATGTTAGTGAGCCACAGTATGTGCGTTGGGAACCATGTAGAGAACAGGAAACTACAGATGCTTTTTAAGACACTTATGAGAATTGTTCTTTCTAM
AGTTTAAAGTGCCTGGCACATATTTGGTGCCTAATACTGGCTAAATAAGGAGATGYTGGCTGTGCGCAGTGGCTCACGCCTGTAATTCCAGGACTTTGGG
AGGCCAAGGCGGGTGGATCACGAGGTCAGGAGGTTGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAACACAAAAAAAATTAGCCGGG
CGTGGTGGCGGGCGCTTGTAGTCCCAGCTACTCGGAAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGCGCC
ACTGCACTGCAGCCTGGGCGACAGAGTGAGACTCTGTCTCAAAAAAGAAAAAAAAAAAAGATAAAATTACCAGAAAATATTAAACAGGTAAGTATTTACC
TGTTTAAAAGAAAAATTACTAGAAAATATTAAACAGTGAAATGACCAGTGTGTCCTCAGCACAACACCTTCTACAAATTATATTAGGAGTAGCAAACAAG
GCAGTGGCTCACACCTGAAATCCCAACACTCTGTCTGGGAGGCCGAGGTGGGTGGATCACCTGAAGTCAGGAGTTCGAGACCAGCCTGGACAACATGGTG
AAACCCCGTCTCTACTGAAACTACAAAAATAACCTGGACATGGTGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGTGAGGCAGGAGAATCACTTGAAC
CCAGGAGGCGGAGGTTGCAGYGAGCCGAGATCGCGCCACTGCACTCCAGCGTGGGCGACAAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAA
AAAAAAGGAGTAGAAAACAGAATGACTCTCAGGGGCACTCCGCTTTTTCTGGAGTTGTTCCTGGGTCTCCTGACCACCCAAGTCTGACTGAGTTCTCCCA
CATTTATCCCAGCTGTCACGGATGAGAGGCACTTTCTCTTCTGCTGACCTTCTRGCTCCTGGTGATACTGTCTACWGCACAGATGGAAAGTACCCAGGAA
ACAGCATAACAACAACAACAAAAAATCACATTTTTTAGCTTCAAAGCAAACACCAAAGTTAAAAGCCCAACGCCTGAAGGAATTTAAGGACCAAAGTTAT
TTAGGGCAGAAGCTAAAAGGAGGTGGCCTACCCCCTACCCACGGACCCCAGGCTTCAAATAGGTGAAGGTTGGAGGCTGCCAGGCCCTGAGCAAGCATCA
TCAAAGAAGAGCACATCCAAGAGTACCCCAGTGCTCACTCTGCTTTGAAGACAAACAGCCCTCCTAATTAGAAACAGCTTCATTCACATGCCAGATGTCC
ATGCTTCCCTTCCAATTATTTTCAGAAACATCATAAAGAACCATTAGCGGCAGTGCAAAATATCCTGGGTTGTTTTTTAAAAGAATTTGTCCATTCTTAT
GAGTTCAGTTTGATATGAAGAAGATTGCAATCCGCCTATTCCTAAGAGGTTTTTGGAGCAGGAGAGGGACTCAAGATAAGGATGTGTAAGGATTTGATCA
CCAGAAATACTACCACATATTTGGTTTAAGCATAAAGAACAAGCATCTTACAAAAATGTTAGCCAAATGTCTCTTTACATCACACACACACACACACACA
CACACACACACACACGATTAGTACACCCTGAGCATTTATCTAAGAATAACATGAACAATCAAAAGTTTTTGGAAGCAGAGGATCTAGATCATGAGTTATA
GTTCTGAATTCTGTGTTGGTCAGACTACTTCGAAATACATTGTCCACTTCAGGAAACCACATCTGGAAAGGGACATTGACCAATTCAAGAAACCCCAGAA
AGTGGGAAGAGCACAACCATGGTGGACCATAGACTTCTTTAGGGCAGSGTCTGTGCCATGCCTTTGCTCACCCCCACTGCCCTGGCACAGTGCTTTATAC
ATAGACCATGCCGTAAGATATTTGTTGAATAAATGAGTAAATAATTCATATGTCATGCATAATTGTTGAAGGAAGTACAGTTGGTTAACTCAGAGAATAA
AAGGTACAGAGGACATGACAGCTCATGTCACATACCTAAAGGGGTACCACAGAGAATAGGGAAAAGATGTATTCTCTCTTGGTCTTTGGATCAGAATGAA
GACTATTTAGTGAAAGCTACAGGAAAGCAGCTTTGACCCAGGATTATTATTATTTTGTGTATCCACCATAAATAACTGTGTGAGGCTCGGGTACATTCTC
ACACTCAAACTTTAATTTGAGCATTAGAGGGATATAGAAAGAAATTTGGGCTTGTGGCCAGATTAATAACTTGTTCAAGAAATCTTTACTGAGATAGTGC
CAGAGGATGCTGAGAAGCAGGGTGAATAAGTAACCAAAAAGGCAGGGTTTCTTCCTTTTTGAAGCTTCCGGTCTATTCAGGAATGCAGACAAGTCAGCAG
GTAATCACGGTGTGCACAGGTGAGATGGACTGTGATAAGGGAAGTTCGGGCGCCTCCTGCAGTGGGTGCTCCAGCATCCCAGGGGGCTTAGATGAAGCAA
AAATGGGGGATGTGATAGGGGTGGAGGATGATCCAGCATGCATATGAGCTCTAAGGCAGGACAGAGTGGCACTTTGGAGAACCCTCCACCGTCCTTAAAC
CAGCCCCACTTCCCACTTCCAGTTCTACCCACTCTTGGCTTAGGAAATTTTCTCCTCTTTTTGCCCTGAAAATTAGCCTTGGTGGCTGAGTTTTGCTTTT
CAGGTTCTCATTGCTAGTGCTTATTTTGAYGCTTAGTGACCATCTCATTCCTACTAYTGGCCCGCAGTAGGGAATCAGACCTTTAGTAGACACGGAGCTC
TTCAAATACAGAGTGAACTTGGGGCATCTGATCATGTGGGTCAAGATGAACACTACAGAATACAACYGAGAGCCACATGTGAGTGAAGCTGTACTCGAGC
TGACAATACTGACATTCAAAAAGCAACAGGATGATGAGAATGTTCTGGAATTAGAGGGTAGTGATAGTTACACAACCTTGTGAATATACTACTGCACACC
TTAACATGGTGAATTTTATGGTACGTAAATTACATCTCAATAACATTTAAAAAAAAAAAAAAAAGCAGCAGCAGATGGCTGCTGGAGGAGGCTGAGCTTA
AATACCCCTGGTTACACTTCCTCCTTTCCTTGTATTTACTGGAAGGAGAAGGATTTGTCCTAAGATGAATAGTTTTTTCATCTTCAGAAATTCCTGACAA
GCTACTACCCTGTCAAGGCATGAAAAATTTCATTAGTGCTGACTTGGTACACAGTCTATTAATTAGTACCTAAATAATTGCATGTTGCCTCTGTGTCATG
ATTTATAATTGTATGCATGCTTTGATCTTTCTCATCACAGGCAGCACTGAGAAGTGAAGGAATATTTGGGAGGATCAGAAGCTTGGTCCTGATTTTGCCA
TCAACAGGAACTTGATGACTTCAAGGGAGTCCCCAAACCCTGGGTTTCTGTTTTCTCAACTCTAACATGAGGGGCTAGATGCATCTGGTTTAGTTAGTCT
CCATGATGGTTTAGTTCGTCTCCATGATCCTGTGAATTTCAGATGTTGAAAATCTTCGGAAAAGCCCTGAAAGATGAACAGGTAGGAGTTATTGTCTATA
TTTTACCCATGAGGAAACTAAGGACCTGGGAATCTAGAGGGCTCATTAGCTTTTGAACCAGTACTAGCAATGAGTTCATCTGAATTCTGGTCCCAAACTC
CTAGCATGAGAGAAATGTGGACCTTTCATTCCAGGAGTTTAGCATGTAGGAGGTATTCAGCTGGTGAGGGATTAAGGCAAGATTACAGGTTCTTGAGAAA
CATAAGCGACAGAGACAAGAACATCAGAAAGGGCCGCTGTGACTCGGGTCGTGGCTGCCGATGGAGCTCGTAAGTCAGGAGAGGTTGTTTGCTGAGAAGC
TTGCATTCCCTAGAGCCCAAGTGGGTGTTGCCAGGAAACCCTGAGTTTTCCAACTTGGCAATCAGTGCACAGCTGAGTTTTTATAGGAAATTGCCCAGCT
CTTTGGAAATTGTATGTGGTATAAATATGGTTTTGAAATTCTATATATTAGCTTAGCAAAAGGCGGAAATATTTTGAAACCCATGGATTTGGGAGATCTG
CCGGCATTGCTATTAAAATTACTTTCAGCAGAATTGTACAATATGACATTATATTGCTCAAAATGACTCAATTTTCTAATCTTTGAGACTTCTTAAAAAG
AAATGAACCCCAAGTAGAGTRAAGGTGGACTGCAAAAAACAGCTTAGTCTGAATGAAAAAAATTCATCCTTGGCTCTGCATCTAAGAAACTGGCTGTGTG
TCCTCAGACAATTCACTTAATGTCTCAGATCCTCAACGTCTTCAACTGCAAATAAAGGGGTTAGAGGAGATCATCTTTAAAGCCCAACTCAGCTCTAACA
TACTATGATTGGATACCATACACTTGTCCACATTCTTTTCTCTAGCACTTGGGGATTTCTGCTCTTCCAGCCTTTACAAATACAACCTTTCACTGTCACA
CTCATTCTTCCTTGTCCTTAAAACAGAAAGCCCAGGCATAGTCTGATGCCACTTCTGAGGGCTATAGCAGGTGGCATCTAGTGTCTCTATAGTAACTATT
TACACTCCTAGGGAAAATTATCTCACAGAAGCATAGAGAGCCTGACCTTGTCTATAAAGACAGTAAGGTAYAAWGATTAAAAGAATAGGCTCTAAAGTCA
GGCAGACCTGGGTAAATCTGCCACCTACTAGAGAGCTTGGGCAAGCAAGTTCACCATGCCTGGTACCTAGTGAGTGCTGTGGGCCTCTATTCTGGAGGGA
CAGCAGGGCCTTACGAAACCAGCATGAGATTGTAAATGCCTTGCAGGCTGGATTTTCAAGAGGAAATGCTACCCCCTTTTTCTCCAACATCTCTGGCAAA
ATTGCTAACCCAAAGGTACTAGGCCCAGCTAGTTATGAAGGGGATGGAAGTGATCTCTATCCAAGGGAAGAACATTTGAATTGATGTTTAAAGGAGTTGT
TTAGATTCTTATGAAGGAATAGAGGAAKAGTAGAGGCAAAGACAGAGAAGGGGATGGATGAGAATAAAGAACAAGAAAAGAAGCAGTAGGAGACAAATGA
GAAGGTTAAAGCTGATAATTTTTACTTTTATGATAAAAGGAATTTCTAAGCAAATTCTAACCATTTTATCAAGAAGAAACAAATTCACTAACTTATATTT
CTGCTTAAAGAAATGCATGGGCATTTTCTTCGCATGTGCAGTTTGTTTAAAAATTAGGCATTGAATGCTTTTTAAAAAATATCTAGATCTATTCTGGACA
TGCACATTCCAATTGATAGATAGATCAAAATGTCTGATTTTCTTACTGGTAACTTGGCACCAGTTGCCAGTGGCTTCATATGAACCTATCAGCTGCTGTG
GGATGGCAGAGCAGTTAAGAGTCCAAGACTAGTCCACGCAGGCCTGYAGCTCCCACATTCTGATGCATCAAAGCCACAGCAAGTTCCTAAAACATAGGCT
CTGGATCCAGATGCTTTTGGTTCAAATTTTCACTTCATTATTTCTCAGATGTGTGACTTATGGCAATTACTTACTTCTCTAAGGCTCACTTTCCACATCT
GTAAAATAGGGCTAATGATAGTATTTGCTTCATAAGATTGGGGATTGAATGGGATAATGCACTTAGCTCAATACTCACCCATAAACTTTTTTTTTTTTTT
TTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTCGTGCGATCTTGGCTCACTGAAATCTCCACCTCCCAGGTTCAAGCAA
TTCTCCTGCCTCGGCCTCCCATGTAGCTGGGATTTCAGGCACACACCAACACCCCYGACTAATTTTTTTGAATTTTTAGTAGAGACAGGATTTTACCATG
TTAGTCAGGCTGGTCTCAAACTCCTGGCCTCAAGTAATCCGCCCACCTTGGCCTCCCAAAGGGCTGGGATTACAGGCGTGAGCCACCACTCCCAGCCAAC
AATATTCAATTACATACTCAATTACTATGTTCTTTTTCTGGTAACTAGAATGTAGGATCTTATGATTGGCCCCAAGTTCAAAGATATGGGCAAGTAAGTA
TAATATAAGAGTGTAGATACAGATTTTGTAGGATATATGCCATGGCCTCTGTCCCATATCAGTTTAATACCTATTTTCCAATGTAATGCCCTGAAATCCC
AGAAGAGGAAAAAAGAATTTTTTTCTAACAATTAGAAACATGATAAAAAAWACTATCAAAGGTATATTCATTCAGCCATGCAAATTGTAAAACCATAGCA
ATCATTCTATTTGTTTGGTCACAGTTTAAAAAAGGAAATTTGCTATAAGAAAAATAAATACAAACAAACACAAAAAGAGTTGAATGCYACCTGCAGAAGA
AGCACCAATCCAACTATTTTACCCTGCCCACATTCACCATGTTTCTCACAATTGCCTATAAAAAGTAGTCACCATTTATTGTACCAGGCAGTGAGCTAAG
TGCTTTATGGACCCTGTCTCGTTTAACTGTCCCCAGAGTCCTATGAGTAGGTATGTTAGTGCCATGCCCATATCACGGATAAGGAGATATGCCAGGTCAG
AGAGGCGAGTTGGGATTCACACGCAGCAGACTTGCTCCAGGGCCTGTGTTCTCAACACTGCATGGTGCCGCTTCTGATCTGGATTGTTAAATCTCAGCAC
CCAGCACTCCTGGCTTGGGTAGAAGGGAATGGGCCCAGAGGTGCTGAGAATGGATCTCATGTACACCTAGGGTCGAAGTTGGAACAGAGAGTATGTGGAG
AGCCTGGGCTAAGACTGAAGCCGCCATGATGAAAACCAAACTCAAGCAGTCTYGTTTTTTAAAACCAATGGGAGTAGTAAAGTATAAATGTAAATCTCAG
TTATCTTATCATGCCACCCTATAGGTGTTTCCAGTAGTTACTTTAGAGCTATCAAAGATACATCTGAAATAACGGTACTGTGTATATACTTGAGTCCTCT
TCCCCAGCTTGACACTCCTAGGAGTCAGGTGTTCTCTGGGCCAGATCATTTGCCCACAAACATAGCAATATGCCTAGCCTTCTCATTATATAAGGTCCCC
CATTATATGGGGGACCTTATATAATTTCATCATATGGATGAAAAATGGGATTATTTTATTATTTGACTCTTCTCTCTAGGATTCAAAGTGCTTTTATTTA
TAGATTTTCATGATTTAACCAATTCACCCAAGAAGTAGGAAGAGGGCAGCTTTATTATTTTCAAATTGTGGACTGAGAAACTGAGATATGCAGAAAGAAA
TAAAGCTGCTCTGCAATTTGGAAAACCATCTGTGATGCTATAAAAACGTCTCACTGTACTCTCAACCACATAAATCACTATTTTTATTGCCTTCTCTCTG
GATGAGATGTGGCTTAATTTGAGAGAGCTGTTTATCATTTGGCAAGCTGAAAGAACCTAATTTCAAGTCTCCATTCTAGTGGGTGGTAAGAATAAAGGGA
ATTTGCTTTAAGGGAAGAGGAAATGATAAGAATGGGAAGGAAACGGTTAGACCTAAAAAAAATCGATTTTGAAACCCTTTGGATTATCATGGATTTAATT
TGCCAAGCATGGGTGAGGGGTCACATGGAATGGGTTTGAATTCTAAGCCACCATTATGACCACTCACTTAATGTTTCTTCCTACCACTCCCATTCTACAG
TGAGCCCATGATTAAGATAACAACAGCTTAAATGAGTTAGTGCATAGTATGGTTTGGCTCTGKGTCCCCACCCAAATCCCGTGTTAAATTGTAATCTTGA
GTGTTGGACGTGGGGCTTGGTGAGAGGTGATTTGATCATGAGGGTGATTTCTAATGGTTTAGCACCATCCCCACAGTGCTGCCTTATGATAGAGTTCTCA
GGCGATCTRGTTGTTTGAAAGCATGTAGCACTTCCRCTGCCCTTCTCCTGCTGGCCATGTGAAGGTGTGCCTGTTTCTCCTTTACCTTCTGCCATGATTG
TAAGTTTCCTGAGGCCTCCCCAAAAGCAGAAGCCTTTACAGCCCACAGAACTGTGAGCTGATTAAACATCTTTCTTTATAAATTACCCAGTCTCAGGTAG
TTTTTATAGCAATGCAAGAACAGACTAATGAAGAAAATTGGTACCAGAGAAGTGAGGCATTACTACAAAGATACCTGAAAATGTGGAAGCAGCTTTGGAA
CTGGATAATGGGCAGAGGGTGGAACAGTTTGGAAAGCTCAGAAGAAGACAGGAAGATGAGGAAATGTTTGGAATTTCCTAGAGACTTGTTTAATGGTTTT
GACCAAAATGCTCATAGTGATATGGGCAGAGATGGCCAGGCTGATGAGGTCTCAGATGGAGATGAGGAACTTATTGAGAACTGGAGTAAAGGTCACTCTT
GCTATGCTTTAGCAAAGAGACTGGTGGCATTGTGCTCCTGCTCTAGGGATCTGTTGAACTTTGACCTTGAGAGATGATTTAGGGTATCTGGCAGAAGAAA
TTTCTAAGCATCAAAGTGCTCAAGRTGTGGCCTGGCTGCTTCCAAAAGCCTAACTCATCTGCATAAACAAAGAAATGACCTGAAAAGGGAGGCAAAGCAT
AAAAGATAGATAGGAAAATTTGCAGCCTAGCCATGTGGTAGAAAAGAAAAACCCATTTTCTGGGGAGAAATTCAAGCCCAATACAGAAATTTGCATAAGT
AAAGAGGAGCCAAATATTAGCAGTCAAGACAATGGGGAAAATGCCTATGAGGCATTCCAGAGACCTTTGGGGCAGCCCCTCCCATCACAGGCCTGGAGGC
CTAGGAGGGAAAAATGGTTTCATGGGGCCAGGCCCAGGGCCCTGCTGCTTTGTGCAGCCTTGGGGCATGGCACCCTGCATCCCACTTGCTCCAGCTACAG
CTGTGGCCAAAAGGGCCCCAGATACTTCTCAGACTGCTGCTCCAGAGAGTGCAAGCCACAAGCCTTGGTGGCTTCCATGTGGTGTTAAGCCTGCAAGTAC
AAAGAGGATRAGAGTTGAGGCTTGGGAACCTCCACCTAGATTTCAGAGGATGTATGGAAAGGCCTGGATGTCCAGGCGGGAGTCTCCTGCAGGGGCAGAG
CCTTCATGGAGAATATCTAGTAGGGCAGTGCAAAGGGGAAATGTGGGGTTGGAGCCCCCACACAGAGTCCCCACTGGGGCACTGCCTAGTGGAGCTCTGA
AAAGAAGGTCATCCTCCTCCAGACCCCAGCTTGCACTGTGTACCTGGAAAATCCACAGGCACTCACATCAGTCCATGAAAGCAGCCACAGGGGATGTACC
CTGCAGAGCTGCCCAAGGCCTTGGAAGCCCACCCCCTCCATCAGCATGGCCTGGATGTGAGACACAGAGTCAAGATTATTTTGGAGCTTTAAGATTTAAT
GACCGTCCTGCTGGGTTTCGGACTTGCATGGGGCCTGTAGCCCCTGTGTTGTGGCTGAGTTCTCCTTTCYGGAAATGGAGTATTTACCCAATGCCTGTAC
TCCCATTGTATCTTGGAAGTAGCTAACTTGTTTTTGATTTTACAGGCTCATAGGTGGAAGGGACTTGCCTTGTCTCCGATTAGACTTTGGACTTGGACTT
TTGAGTTAATTCTGGAATGAGTTAAGACTTTGGGGGACTGTTGAGAAGGGATGGTTATATTTTACAATGTGAGAGGATATGAGATTTGGGAGGGGCCAAG
GGTGGAATGGTATGGTGGGGCTTTGTGTCCCTACCCAAATCTCATGTTGAACTGTGATCCCGAGTGCTGGAGGGAGGGTTTGGTGGGAGGTGATTGGATC
ACAGGGGTGGTTTTTAATGGTTTAGYGCCATTCCCCCAATTTCTTAGGAAATCTGCTTGTTTGAAAGTGTGTAGCATCTCCTTTGCCCCTCTCCTGCTGC
TAATGGCCTGTTTCCCCTTCACCTTGTGCCACRATTGTAAGTTTCCTGAGGCCTCCCCCAGAAGCAGAMGCCTGTACAGCCCACAGGAACCATGAGCTGA
CTAACCATCTTTTCTTTATAAATTACCCAGTTCTTTATGGCAAYGTAAGAATGGACCAATAGAGCACATCACTAGGGTAGCACAAAGGAGAGGGCCCAGA
AGCAGAGGAGAGATAAACAGCTCATTTTTTTCATCTTTCTCAATGTTTCTTGCTCACTCTCTGTTGTTTGCATCCATTTTTCATTTCATCCCATTTCCTC
TTTTTTCCCTTTCATTTCCTCATTTTGGGACAGCAAGAGGTCATGTTCTTGCTGCCAACAGTTACGACATTTTCAGTAGTCATGACAGCCACAAAGCCAG
GGCTGGACTTGTCCAGAAGTCTGATCTGCAGCAGGAGGGAGTCTGTAGTGTGCAGGGGCTCTCCAGCTGTCACTTAGATCCCAAGCTGCCCCTTCACTTT
TAATTTTGCTGATGGTGGCTTTTGTCAAAGGCAATTTAAAATTTAGGGCTAGGTAGTCTAATCTGTCAATCTTTTCTTTTCTTTGTGGTTTCCAGGTTTG
TGTCTTACTTAGGAGGGCCTTCCCAATGCTAAAATTATATATATAAACAGATATACCACAATTGCCTAAACAGAAATTTGGGCAAGCTGGCACATTTGAA
ACAGGGCTGTCTCCTAAAATTTGGAACGTGTGGATAGCGTGCATATGCTTGGACTCTAGGACTTACTTTCTCTGGAAAAATCCGTCTAGCTTCCTCACTC
ACTGCCTCTGCCTCCCAGCTCCAGCCTAGCCATTTCATCTTATGGTGGGGGAGCACTCAGTTGCTAGGGCCAGAAACCCACTCAGAGTAACTTAAGTAAA
TGGGGATTACTTGCACAGTGATAACGGAATACTGTGAAACCCAGTTTGAAGAATTGCACCTGGATCACTGAAGGGCTAGAGTCTGGAGCTGCCCTTCCTC
CTCCCTTTCTCTCAGTTATCTTTGTCTCTGCTCCATCCTCCCCCTTCGTCAAGCATACTCTGTTACCACATGACCTTAAATGACTGTCTAACTCAGTCCT
TGAGCCCACAGAATCTTGTGAGTCTAGCACTCACAGATAAAAAAACACCCTCAGGCTTTCTGTGTYCCAACTCCAAGTTCTAGATAAAGATGTCTGATTG
GTTAAAGTGGGTCATGTTTAAAGTGGGTCTACTCCCAATTCAGTTATTGGTGGCCAGGGCCATGAGCCACATGGTTGCCCCTTGGGGCAGTGGGCAAGGT
AAAGTTCACAAGATGTGGTGGGGAGGAAATGACCACTGTAACTCTGTGGTCCAGTTCCCACACCCATATTGTGATTTTTGCTCCCCTTCAAGTTTGCCCT
TGATGTTGTCTGTAACTGAATTCTGTTTTCTCCCATGGTTAGATTTATACCAGATCCAGGACCTTTTAGGGAGGGCTGTGGTCCTGTCCCCTTGGGGAGG
CTCTGATCTAAGACTGCTCCCTCATGGAAATTAAGGAGAAGGGGAAAGCCTAGGCTACAGATGGAGAAGGATGAGTCATTCCAGCAGCCATGGCCAAGGG
AACTCYTGGAGACGTAGGGACTGTTTATGTGGCCACTCACCATCATGCAGGCCCCCAATGGGGGTGAGGCAAGGAAGGACATAGAAAGACTGCTCAAGTG
CATTTCTGGTTTTGCTTCCTACCGCAAACGACTCTTGTCATATGACTGGGGGAGTGTGGTGGTGGCAATAAGCAGAAAAATTTGAGTCTAAGAGTTGCTT
TCTGAATTCTCTTATTAGGGTCAATGTAGTCTAAAGAAGTTGACTTTTGAGGAAATAAATCTTTTCTGTTTTCTGCAGCCAGACTAAGGATTTAGTGGTG
AATGGTAGGTGGGAACATAGTGGGACTCTGACTGCTCATACGGCCTCTGTGAGGCTCAATTCTTTTATCTCTAAAAGAGAGAACTGTCTACCTGGTAAGA
GAAGATCTTTTGGGAGCCCACTAAACTCTAACATAATGTTATTATACAGTAAGTTCTCACTTAATGTCATCGACAGTTTCTTGGAAACTATAGCTTTAAG
CAAAATGACATGTAACAAAAGCRTTTTTTTCTCATCAACGTTATAACAAAACGTTAAAGGAAGTGACATTATTTATGAACCTGCTGCATGTTGTTTTGCT
TAAAGTTACAGATTCCAAGAACCTATCGATGACATTAAGTGAGGACTTACTGTACTAGTATCATTTATAACTTATAAAAATGACTTAATTAATATACCAC
AAAATATGCAGCTTTCATGTTAGAGACCAGATAAATATGAATATTTTGTTAAAATGTCTCTCTTCTCTACTTTACCAGTCTTCACCAACCTCCTCCCTCC
AGAATATTCCTCAAGAATATAAAATGCCTCATCAACATGAGACAACAGCAGGAAGCACCCATTCGTAGTAATCCTCTGTATGGAGGAGGCTGTTACATAA
CCACAAAGGCACAAAGCTGCAGTTTTGAGAACATCTTCCCACGCCAGTTCTAAGCATTGACTTCAACTATGGTTGCTAACACAAGAATCGGCACTGGTGA
CTTTTGAGCCATCAATCATCCTTTCCTAACACATGAATCTTTTGGAAAAGTATGTGAGATTGGAGATTACCTGTGATGGTTTGGATTTAGATTTTGCCTC
CAGGTTTAGGCAATGGTAAATAGGCAGGAGTTTAATAGGAACTAAGGTTATTTGAKAATTCCTGGGCCACTGCAAATAGAAAGTGTTGGCAATTTTGTCT
TTTGGGCTGCCTCTGATTGAAGGCACAGGCCTGTTTCATGAAGTTCTGAAACATGAACCGGCTGTATCTGCGTCAAAGTCAGTGGTAACCAGGTTAATAG
CACTGACAACCATGTTCTTTTTACAGGAAACACAAACGTGAATCACTTGTTCTTACTTTTCTTTTACAGTGGTCTCAAATRGTCAAGACCCCCTGCTGGG
AGGAGCTTCTATCCTGCTCTGTGGAAGAAATGGGCATGCCAGATGCCTGGAAGATCAGAGGCTCACATTCCAGGTGGGTCACCCTGGTTCTTCTCATCAG
AATCAACTAGAGAGATGGGCTCCCTCTCCATCCCTACCCACGGGCATTGGTCAGGCTGAAAGCAAAGAAAGACAATCCATTGCCCCCAGGAGAACTGGTC
TTACTCTAAATCAGTGGCCTGCAAACTGTTTATGTGGATGTCYGGATAGTACATTTTTTGCCTGTGTGGGCCTTCCAGTCTGTCTTAGTTACTCAACTCT
GTGATTTTTGAGCAACCATTRGACAGTATGTAAATGAATGAGCATGGCCCCATCTGGCCCTCCACCCACAGGCCATAGTTTGCTGACTCCTGCAAGAGTA
AAACCCTTTATGAACTAGAGAGTTSCAGGCTTGAACATGGGTCCAGAAAATATGGGAAGGCAAACCTCACACATTTGTGGTTGTGTGCCTCCTAAGTGCT
TTGTGTCACTGTTGGCTTCCAATTCCTAGGAAGGGCCTTGGGCACCAACCGTATGTTGACCCAGGGAGAAAAGGACTTTTGGGAGTGAGAGTCAGAGAAT
GGGTACCACGTACCCTTCAGATCCCTCAGCTTTCAGATTGACACAGCAACAGATCATAGTCTCCTAAATTCTCTGGCTTAAAGCATGGAGCCACACTTAT
CCTGCCAGGCTGGGKCCCCAGTTCTTAGATGAGGCTAGCAGTAGCCATGAGGAGTGGGCATGTGGCTAGTACAAGAGAAGGAATGCTAGGTGGCACTTGG
TCAGCAACTTTCCAATATCATGTTTCTTAATTGTATCACCAAATGTGTATTATCGTCCTGTCTTTTTTTTTTTTAATTATTATACTTTAAGTTTTAGGGT
ACATGTGCACAACATGCAGGTTTGTTACATATATACACATGTGCCATGTTGGTGTGCTGTACCCATTAACTCGTCACTTAGCATTAGGTATATATCCTAA
TGCTATCCCTCCCCCCTCCCCACACCCCACAACAGTCCCCSGTGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGA
GTGAGAACATGGGGTGTTCGGTTTTCTGTCCTTGCAATAGTTTGCTGAGAATGATGGTTTCCAGTTTCATCCATGTCCCTACAAAGGACATGAACTCATT
ATTTTTTAGGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTAGGTTGGTTCTAAGTCTTTGCT
ATTGTGAATAGTGCCACTATAAACATACGTGTGCATGTGTCTTTAAAGCAGCATGACTTATAATCTTTGGCTATATACCCAGTAATGGGTCAAATGGCTG
GGTCAAATGGTATTTCTAGTTCTAGATCCCTKAGGAATCGCCACACTGACTTSCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGT
TCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTGTCTCATTGTGGTTTTGATT
TGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTGTGCCC
ACTTTTTGATGGGGTTGTTTGTTTTTTTCTTATAAATTTGTTTGAGTTCATTGTAGATTCTGGAGGTTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAAT
TTTCTCCCATTCTGTAGGTTGCTTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTCATTAGATCCCATTTGTGAATTTTGGCT
TTTGTTGTCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTT
TAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTT
TTCCCAGCACCATTTATTAAGTAGGGGATCATTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATATGCAGCATTATTTCT
GAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGGTTTGGTACCAGTACCATGCTGTTTTGGTGACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTA
GCGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCRATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAGTTC
TGTGAAGAAAGTCATTGGTAGCTTGATGRGGATGGCATTGAATCTGTAAATTACTTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCAT
GAGCATGGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGATCCTTCACATCCCTTGTAAGTT
GGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTTTGTCTGTTATTCGTGTATAAGAATG
CTTGTGATTTTTGTACATTGATTTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTGAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATA
TACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTAATTKCCCTGGCCAGAACT
TCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCCCTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCAGTATGATAT
TGGCTGTGGGTTTGTCATAGATAGCTCTTATTATTTTGAGATACATCCCATCAATACCTAATTTATTGGGAGTTTTTAGCATGAAGGGTTGTTGAATTTT
GTCAAAGGTCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGTTGAATTACATTTATTGATTTGCRTATGTTGAAC
CAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTAGATAAGCTTTTTGATGTGCTGCTGGATTAGGTTTGCCAGTATTTTATTGAGGATTTTTG
CTTCAGTGTTCATCAAGGATATTGGTCTAAAGTTCTCTTTTTTTGTTGTATCTCTGCCAGGCTTTGGTATGAGGATGATGCTGGCCTCATAAAATGAGTT
AGGGAGGATTCCTTCTTTTTCTATTGATTGGAATAGTTTTAGAAGGAATGGTACCAGCTCCTCTTTGTAACTCTGGTAGAATTCGACTGTGAATCCATCT
GGTCCTGGACTTTTTTTGGTTGGTAAGCTATTGMTTATTGCCTCAATTTCAGAGCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTC
TTGGGAGGATGGATGTGTTTGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCRTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTA
TTTCTGTGGGATCGSTGGTGATATCTCCTTTATCATTTTTTATTGCATCTATGCAGTTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCGGTCTATC
AATTTTGTTGATCTTTTCAAAAAGCCAGCTCCTGGATTCATTAATTTTTTGAAGGATTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATCTTAGTT
ATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTCTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTAGATCTTTCCTGCTTTC
TCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGTGTCCCAGAGACTCTGGTATGTTGTGTCTTTGTTCTCTTTGGTTTCAAA
GCACATCTTTATTTCTGCCTTCATTTCATTATTTGCCCAGTAGTCATTCAGGAGCAAGTTGTTCAGTTTCCATGTAGTTGAGGGGTTTTGAGTGAGTTTC
TTAATCCTGAGTTCTAATTTGATTGCACTGTGGTCTGAGAGACAGTTAGTTATAATTTCTGTTCTTTTACATTTGCTGAGGAGTGCTTTACTTCCAACTA
TGTGGTCAATTTTGGAGTAGGTGTGGTGTGGTACTGAAAAGAATGTATATTCTGTTGATTTGGGGTGGAGAGTTCTGTAGATGTCTATTCGGTCTGTTTG
GTGCAGAGCTGAGTTCAATTCCTGAGTATCCTTGTTAACTTTCTGTCTCGTTGATCTGTCTAATGTTGACAGTGGGGTGTTAAAGTCTCCCATTATTATT
GTTTGGGAGTCTAAGTCTTTTTGTAAGTCACTAAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGGTGCATATATATTTAGGATAGTTTGCTCTC
CTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTCTTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTCTCAGAGGCTAGGATTGCAAC
CCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCCTTTATTTTGAGCCTATGTGTGTCTCTGCACGTGAGATGGATTTCCTGAATA
CAGCAGACTGATGGGTCTTGACTCTTTATCCAATTGGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGCCCATTTACATTTAAAGTTAATATTGTTATGT
GTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTACAGTTTTTTCCTAGCCTTGATGGTCTTTACAATTTGGCATGTTTTTGCAGTG
GCTGGTACCGGTTGTTCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGTCTGGTGGTGACAAAATCTCTCAGCATTTGCCTGTCTGT
AAAGTATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAGATTCTGGGTTGAACATTCTTTTCTTTAAGAATGTTGAATATTGGTCCC
CACTCTCTTCTGGCCTGTAGAGTTTCTGCTGAGAGATCAGCTGTTAGTCTGATGGGCTTCCCGAGAGATCAGCTGTTAGTCTGATGGGCTTCCCTTGTGG
GTAACCCGTCCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGCTCTTCTGGAGG
ATTTTCTTTGTGGCATTCTCTGTATTTCCTGAATTTGAATGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCTGCAGAGTGTTTTC
CAACTTGGTTCCATTCTCCCCGTCACGTCACTTTCAGGTACACCAATCAGATGTAGATTTGGTCTTTTCACATAGTCCCATGTTTCTTGGAGGCTTGGTC
CATTTCTTTTTATTTTTTTTCTCTAAACTTCTCTTCTCGCTTCATTTCATTCATTTTGTCTTCCATCACTGATACCCTTTCTTCCAGTTGATCGCATCAG
CTACTGAGGCTTGTGCATTCATCACATAGTTCTCGTGCCTTGGTTTTCAGCTCCATCAGGTCCTTTAAGGACTTCTCTGCATTGGTTATTCTAGTTATCC
ATTCGTCTAATTTTTTTTTCAAAGCTTTTAACTTCTTTGCCATTGGTTCGAATTTCCTCCTGTAGCTCGGAGTAGTTTGATCATCTGAAGCCTTCTTCTC
TCAACTCGTCAAAGTCATTCTCTGTCCAGCTTTGTKCCATTGCTGGTGAGGAGCTGCGTTCCTTTGGAGGAGGAGAGGCACTCTGAGTTTTAGAGTTTCC
AGTTTTTCTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACCTTTGGTCTTCGATGATGGTGACGTACAGATGGGTTTTTGGTGTGGATGTCCTTT
GTTTGTTAGTTTTCCTTCTAACAGGCAGGACCCTCAGCTGCAGGTCTGTTGGAGGTTGCTAGAGGTCCACTCCAGACCCTGTTTGCCTGGGTATCAGCAG
CAGTGGCTGCAGAACAGTGGATATTGGTGAACTGCAGATGCTGCTGCCTGATCCTTCCTCTGGAAGTTTTGTCTTAGAGGAGTACCCAGCCATGTGAGGT
GTCAGTCCGCCCCTACTGGGGGGTGCCTCCCAGTTAGGCTACTCAGGGGTCAGGGACCCACTTGAGGAGGCAGTCTGCCCATTCTCAGATCTCAAGCTGC
GTGCTGGGAGAACCACTACTCTCTTCAAAGCTGTCAGAGAGGAACATTTAAGTCTGCGGAGGTTAGTGCTATCTTTTCATTTGTCTGTGCCCTGCCCCCA
GAGTTGGAGCCTACAGAGGGAGGCAGGCAGGCCTCCTTGAGCTGTGGTGGGCTCCACCCAGATCGAGCTTCCCGGCTGCTTTGTTTGCTTAATCAAACAA
CTAACTGGGCCACGGCTGGCGCCCCTCCCCCAGCCTCGCTGCCGCCTTGCAGTTTGATCTTGGACTGCTGTGCTAGCAATGAGCAAGACTCTGTGGGCGT
AGGACCCTCTGAGCCATGCGCGGGATATAATCTCCTTGTGTGCCGTTTGTTAAGCCCATTGGAAAAGTGCAGTMTTAGGGTGGGAGTGACCCGATTTTCC
AGGTGCTGTCTGTCACTGCTTTCTTTGACTAGGAAAGGGAATTCCCTGACCCCTTGCGCTTCCCAGGTGAGGCGATGCCTTGCCCTGCTTTGGCTCGTGC
ATGGTGTGCTGCACCCACTGTCCGGCACTCCCCAGTGAGATGAACCCGGTACCTCAGTTGGAAATGCAGAAATCACCCGTCTTCTGCATCGCTCACGCTG
GGAGCTGTGGACCGAAGCTGTTCCTATTCGGTCATCTTGGCTCCTCCCCCGTCCTGTCTTAAAGAGAAGAAATATGAGTCTCTCCTGCCTGACAGAAAGT
TCCAGGCAGCAGAAGCATGACCTTGGCATTATGGCAGACAGAGAGGTGTCCTTTGCTTGTGCCTTTCCTTCAACCTGCCTGACCCCGGCTCTGCTCAGCA
GTGACCCATGCTCTCTTGACCACTTGTCTCCAGCAGACCTGTGATTTGTCCACCTTGCTGCATCCTGGGCTGGTGGAACTACCCTGTTTGGGGCTTCTCC
TCCAGGGGTTCACCCAAGTTTAGAAAAGCAGTAAAACAGCCACCATGCAGACCAGCCTATCCTTTTAACAAACGTCTTTGAAGCTACCATGTTCTAAAAC
ATTTTCAGCATGTTTTGAAGCTTTTTATTATTACTATAGGGAACACTCTGAAACTAATGCTATGGTTATAAGGAACTCGGAGCCATCCCCAGTATGATTC
CATTTCCCAACAAGTTCAAGAAACAGAATCCAGGCACGTAGTATATGAACAATGCCAAAAGATGCAACCGATACAGTGAAACTTCATGGTGTTAGAGACA
GGAAGGAGGTTGGAAATTACCCTCTAAGTTTGTTCTTTTAGCTCATTATTTACTTTTAAAGTACTGCTTGTGCAGAACCCAAGGACAGCTGCGCATTTAT
TGCACATTTATATTCACTGCTTCCTGATGACATTAAATGTAAGCACCTGCAGCAGGGTATTGGTRAACTGTCCAGGGGAAGCACAAATTAGAAAAAATAC
AAAATACGCTTCCCTGAGCCCATGAATTTACCRTATCAGGAATATGTAAGATACATTAATTAGTTCATCAGTAGGCTCCAAGACAGACATTGCAGATGGT
GGGGAAGGTGGGGGTGGGGGCAGGTGGGTGGGCAGGCACCACTGACTCAAAAGTTATTGCGTGTGGGACACTTTGCCAAACTCTGGGGCCTGTGTGGGTT
GAGGCACATATGTTGGGGCCTCCATCAGGGCTGGGTGGAGGCCAGGGCAGGACACAGTGGTCTGGAGCTGAGGAGTACGACACACAACTCCACAGGAGCC
TCAGAGTTTAGCACGTGTGCAGGGTAGCATGTTTGGGCAATGTGTGTCTGTCTGAGAGTCTTCTACAGCTGAGAGCCTGGGGTCCCCAAGGAAATAGGGT
GATGTCAGCAGGGAAGAGCCCAAAACGCTCATCAGCCTTCAAAATTCAGCATACGCTAGGGACCTCATGATTCCAAGCAGAGAAGCTAAAAGAAATGCAG
TTCACCAAGGCATGTAGTTCAGGTGCCTTCTCCCAGGACCTATGTAGCATTGAGACTTCCCTGGGGTCCTTTAAATTATGCAATTATCAAGCCTTTTTTG
AAGATCTTTTTTAAAATGATTTTTCTTTTTGCATTGTCTTTTGGTTTTCAAGGAAACATAGGTTCTTTGGTGAACTGTTTTATAACTACAGCATTTGCTG
TAAGGAGGTGTTCATATTCTCTTAGTGTAATAACATCAAGAAGCTGAAAGAAGTCCGAGATCTCTAGGAGGGAAATGGCTTCAGAATATGCCTCTCAGGC
TACCATAGATCTGACACCCCAGAAATATTTGGAAGACAGACTGGAGTTAGATTCCATAACTCAGGCTATGTGGCCTACCTGCTGGGGCTCCTATGGCCTT
CCCTACCTCCACTCCCCAAGTTGTGGCAGAGAGCCCCTTCCAAATTGTCCTCGGTCTGATTAACCTCAGTATGTTAGAAGACAGGGGGTTGTCAAAGGCC
AGGATGTTCTTTGCTGTCTCTCATTGTGCTGCAGTTGTTGAAGCCTGGAGTACCAACCGGGATTTCAGACAGCTTGGATGATGTCCCTTCTGGTTCTGCA
ATGGGTTCTCTTATTTGATGGGTAGCTGAGAAAAAGAGAGGCAAGGGGGCTTTAGATCTTCTGGAAATCTTGATTCGTCAGAGTTGATTGACTYGTCTCT
TCCCTGGAGTCAGTGACAGGCAAATTCACAATTTCACTCAATGCTYGCACTGAATAGCTAAAAAATGGCCAGTATTCTGGGCTAGAACCTGATGACAGAA
AGAGATATGGAAGGAAAACAGTGTCCTACCACAAAGTAGCAAAGACACATTGCCTTGGTGTCAACACACTTATACTTAAAGCTTGGTTCTGCCATTTATA
ATGAAGTGACCTACTGCTAATTGTTAACTTCTCTGAGCCTCAGTTTGCTCATCCATAAAAATAATGCCTCAGTGTTGCAGTGAAGGCTTACTATAAAGTG
ACCAGCAGGCAAGCTAGACATAGTAAGTGGTTGGTGCAAAGTAGCTGCTGTTGGGCTGCTTTTCATTCGGTTTAAGTACTCATCTAGAACTGATGCGCTA
TTAGATCTATTTGACTGTCCTGTGAACAAAAGATAAATTGTTTCCTAGGAGTATTTTATTTTTCTAAGCTAAACACTTGGTGCATAGGAGCTTACCACTT
GCATGTAATTTTCTTGTTTTGTATAAAATAAACTGAAAAACCRGTTCTTTTTTTGGCTGAATTTAATCATCAAACCTATTTTTAAAATGCTCTTTGTGTA
CTTTCTTTCCTTTTTAGAAAATTCCTTTTGGTATTTAGGAAAATGTTTAATTTTGTTCTAATGGTTACCTTTGTAGTACTCTTTATTACCTTTTTAAGAA
TTTTTTAACCTTTTACCATATCTTTTGGCTATTACTTATAGTGTAAATTCAATGATCTTATTCTACGTTCTTACCCACTTCTCCCATTTTAAAAATTGTA
CTGTTTCKATTCTGTTAGAAAATGCAATGTTTAACTACCATTCTTATACCCATATCTCCAACCTTGTGTTAGTCCTAGATCTATATATGAAATATGTAGA
AGCCCACCTTCAATCCTCCTGCTGAAGTGTCTGCAGTCAGCTCTTAGTTGAATAAAGTACACTTAATTCTGCAGTGGATTCGTCAGAAAGGACACGTGGG
CACAGTATTCTTGTGTTCTTTCGTCTTCAAAACTGCTTTTCTATATTGTTAACATTTGAAGAACAGCTTGGCTAGATATAAAGTTCTTGACTTGCATTTT
CTCAAGCTTCTCAAAGAGCTGCTTCACTCACGTCTTGCTTTATATGTTGTTGTTGAGAAATCCAATGTCAGCCAAATCCTCTTCTCCTTTCAAGCTATTT
TATGTTTCCTCCAAAAGGCCATATGGATTTTTTTCTTTCTCTTTAAAGCTTAGCAGTTCTACTAGGATATGGCTCTGATATAATAATGCCAGGTCAACTT
TTATAATAATGCCAGGTCAACTTTTTCAAGTGAACCCTTTCACTTGTAGATTCAATTCCTGATTTATTTCCAGAAAGTTTTCTTGGATTATAATTTTAAA
TAATAGTTATATTCCATTGTTTTGCTCTCCTCGTTCAAGAACTCCAGTTGGACATCCTTGGCTGGTCTTCCACTTCGATCACTTTCCTCTGACCTTTTTT
CTTTTTTTCTTTACCTCCTTTTTGCTCTCTTGTTTTCTCCTGCTTTCCTTCAATGTCTTTTGTTAAATTTCCATTTAAATTTATTCTCCCTTGGGCCTCA
TAATTTTGTCTACATTTCTGGTATGATTTTGCCATTTTCTTTGATATTCTTCCTATGTTCAATGACTATCATTTCATTTCTTCCTTTTCTTCTTTCTTGA
TCTATTTGTGTTGCTGAGTTTTATATTTCTGATTCAGTTTTATATTTCTGATTCAGTTTTATATTTCTGATTCAGTTTTATATTTCTGATGCTTTTTACG
TATCTCCAAATTCTATTTTGAGGAAAATTAATTTTTGTGGGAGTATTATGTTACAGTTTTCCTCAGCTCATTGTTCCCCCCACCACACCCTGCCCCTGAG
GTGAGGGAGTATTTTCTTCAGCTGAATTACCTTGGTTCACTTTTTACGACAGTTTTATTTGGATATGACTGCGGTTTTTCTGTACCTCTTCATTCTGTGG
AGAGAGTTCATCGTGTGACATCAGCATTTCCTTTCAGTTCTGCCCTTTTCTGTGAAGTTTCTTTTATGGAAGATGTTGATGGTGAAGTTAGGAAGAAAAA
GAAAGGGACTACTGTGTCTTTCTTCCTAGAAACATTAATTTTATCTTTTCTTTTTTCTTTCCTTTCATTGCTATTTCACCGAGGAATACCACCACTTCTC
TGTATCTCATTCTCCCTAAGAAGCCGTGCTTCTCCAGGGCTGCCACTTCTGGGCCTCACTCATTTCAAATCTTTTCCCTGCAGCTGGTGGTGTGAACTGC
CAAGTTCCAAATTGCGTAGAGCATTTCTTAACGTAGTTGGGCTTTCTTTTGAGAGTGTGCATACCTTATGTAAGTCCTTAATGCCCTCTACTATTTTTGA
TACCATTCTTTAATACTTCCCTACTTCACTTTCCATATCCATAGGCTTGAAGCAGTAAGGCAAAAGGTAGCTGTTAGAATATGATGCATTTTTCTACTTG
CTGATCATTTACAACTTGTAGTATTCTCCAATTCTTAGTAATGCTAAAGCCATAATGTTATTTTCTATTTTCACTCTATTTATTTTAAGGGTTTTTAAAG
TTGTATGGGGAGATTTGAAGTCAAGCAGCTGCCATCATTTTCCATTCCTGTTTGGTGTTCATTGAACTTCTTGGATTTTCATGTTGATATTTTTCATCAA
ATTTGGAAAAAAATTTTGACTGCATATTTTTTCAAAACTTTTTTATCTCCAATCTCTATTCTTTTTTTTTCTCAAATCTCTCTCTCCTCTTTTTCTGGGA
CTTTAATTACATTAATATTTGAACCCTTAATACCATTTCACAGATAACAGAGACTACCTCTCTAGCCTTTCTTCTCTTAGCTTCAGTTTGGATAGTTTCT
ACTATTCTGTCTTCAAGTTCACTGATCCTTTCTTTTTCAGTGTCCACTGTGCTGCTAAGCCCATCCAGTGAACTTTTTATTTGAGATATTTTATTATTAT
TATCATTTTCATTTCTCTACTGAGAGTATCCATTTGTTTACTCATTAGGTTTATCTTATTTAAACCTGTAAACATATGCATAATGGCTGTTTTAAAGTCT
TCGTCTATTAATTCCAACATCTCTGGGTCTGTTTCTATTTTTTGTTAATTTTTTTTCCTGGACATAGGTAACATTTTGCTACTACTTCACATATCTAGTA
ATTTCTGATTGTGTGCTGGTTATTGTAAATTCTTGAAACTCCCTTCTCTTGGCTCCTGTGACACAATGATCTCTGGGTTTTCCTACTACTTCTTTGGGAT
TCTGTCCACCTTCTTTAACACTCATTATCTTCTACTTGATTTTTAAATGTCATAGATCTTCATGGCTCAATCTTATATTTGATCTTTTCTCACACTATAT
TTTCTCTTTAGGCAGTCTCATCTACACCCTATGCTTCAATCAATCACCACCTACACACTGATGATTCAAAATCATATAAATTCAGATGAGACCTCTTCTT
TGACTAACTTCAGACTAATTGCTACTTGTTTGTTTCAATAACACATCTATCTCACTATGTCCAGAACCAATATTGTGATTTCTCTGGCCTGCCTGCATGT
GCAAACACACACACACACACCCACAATATGAAATAGGAAACTTCTTCTAGTGATATAAATTTCAGTGAATTACACCACCATCACTTCAATTATGCATGTT
TGAAATACAGACACTTTGACACCTCTTCCTTCCTCATTCCCCATATACATTCCATCTTGCAATTTTATTGATTTTATACTTCCACTTGTCTCCATTGCCA
TCTCTCTCTGCCACTATCCAGTTTTTAGCTCCCACCACCTCTCACTTGCATTATGAAATAGCTCCAAATTTATTGTGCACCTCTAATCTTTCCCTGCTAT
AATCCATTCTCCAAATCATTGCCAGCATTACATTTTAGAAATGCAAATCTAATAATGCAAATCTAATTCATTCTCTCTCTGTATTTGTCTCTCTCTCTCT
ACATGCACACACACACACATACACACACACAGTTTTAAAGAAGGCTAAATTGTTGTCCATTGCTTTTTGGATGAAAACAAAAATCATTAACATGGGCTGA
TCCCTACCTGACTCATGTTACCATGCTTTCCTTGCTCTCTCCTATCCCTCTCTGTTGTCTTGGTCCTATATACTGTTCTGGATTTCCTGGAGTGTATCTG
CCTCTGGTCTTTGCCTGTGCTATTCCATCTGTATTAACTGCTCTTTTCTCTCCTCATCACCTCCTCCAAACCTGAAATCAATTGTCCTTTTCTTGGGGGA
AGCCTTCCCTGAATTCCTTGGCCAGTCAATCTCACACTTATGCTCACAGTGGCACAGTGTACCTCTCATTTGTAGTCCCTATAACATTTGTAATTTCACA
TCTATTTCCGTGATTCTTTCATTCAGGTATGACACCCCTACTGAATTATAACTGTCATGAAATCAAGAATTGTGTCTGTTTTGGCACACTCATATTTCTA
GTATCAATCATAGTGTAGATGTTTAATAAATATTTACTGAATCAGTGAATAATGAATAAAAAGTACTCTTCCATGAATCTTTCTTATACTCATGCTTAGC
TCTCACTCTACCTTTCTAACAAATGGCCTAAGCAGAGGAAGATGCTAAAGGGGCTGCTAAGGCAGCAAGAAAATCAAGTARCACAGAAACAGAGTCAGTT
GGTTCTTTGCACTTAGGATTCTCAGAAGAATTTTTTGCTTCTGCCTTCAAAATTAAACTGGAATATTAAAACTGATCTTTTGGTCCCTGGAAGATGAAGT
ACAAACCATCATCAAAAAGTATCTACTGTTGGGACTGGTGACTCACTTTGTCCTTCCCTCCTGTAAGCCATGAGAAGGAATCAGAATGATTCTGTCATCA
AGAGCATCACAAATCCTGGATCTTCACCTGATTAATGCTTCACGTCTAGCACAAGCACTTTCATTTTCAAGGGATTCCATACTGTATTGTCTAGCCCCTG
GCTGGGTTGGGATATAGTTATCTTGGTGGCATAGGATCAGCATGTGTAAGAGCGGGATATTATTGGGCGCTGTATTGAAAAGAGTAACCCTGGGAAGGTG
AGGGTGATTATTAAGACCAACTCTGAAGCGATGACTGGTGACCAGAAATGAGTTGATGTCAGAAATTTCTACAGAGATGGTGATAGCTTATAAAGGTGAA
AATCCAGTAAATAGTCTGGGGTTTAAAAACTCAAGTAAGGGATGAATCAAGGGATGATGCAGAAATTATGTGTAGTAGAAAAGGCAGATGTCAGGGGTAG
AAATACATCACCGGGCAAGTAAGGCCAAGTACGTGCCCATCTGGAACACAGGGCAGAATCTCTTCAGTAAGTTGGCTTTATTGGTTTTAGTCATTTTTAT
CTATTGCTGATGCTCATGTGATACTTTGTTTCTTGGGTGAATTTCGGTATCTCAGACAGACACATACAAGGAGAAAGAACAGAAGTTCTTAGGTAGTTTT
TTAGTAATAGAAGTTCTTAGATTTTTTTTTTTTTTTTTTTTTTTTTTAGTAAGAAAGAAAAGTGCTGGGAGAGATTGATCGTTCCTTATAAAAAGGCCTT
CATTCCTCACAAAAATACAACTTTCAGTCAAGAATTTGGTCCTTTAAAAAAGAAAGAGGAAGAAAAGAAAGCATGWGCTCTATCCCTCTTTTGACTAAAT
ACTACCACTGACTTTCCTGTTTAKAACTAAAGGCTGTCTCTTGTTCCACAGGTCAAATGCATACTTTTTAAAATGCCACTTGACCCCTTGGGTTCCCCAT
TCTCAGTAGAAAAACAAAATGGTCATTAATTTATTTTGACATGCAAACTCAGCTGAACATTTTKTGGTGATTCAACCCCACAGATGTAAAGTGAAAGAGT
GCCAGAAAAGCAAGTGAGAGCCATGAGATTACCACAAGTCTGTGAGCACATTTTTTTCAAGGCTTACAGAATCCCAAAGCTTGCCCTTGCTTCAGGAAAA
AGAACTGGTTGACACCTGAGAGGTTTTAAGCCACAAGAAGCTGAGGCCCGTTGTGAGGAGGGCAGGGACAGTGGGGCCAGGCCACACGCGACGCGTCACC
CACCTCCTGCCTCACCTCCCCCACTGAGATGTCTGCTGGGTGGGAGGAGGCTTATTGCCAGAGAACAGTCTGGTGTTTTCTGTTCCTGCTTCAGGAAGTC
CCCCTTCTCCCGCCACCCCCGCAGCTCCTCAGCCTGGAAACAACTTTTAGAGAGGAGAAGGGAAGCAAAGCTTTCAAAAGCAGATACCTGTGGGGTTTGA
AGGGAGGTGCCCCTTGTTCAAGTATTTCTCCCCCAAAATTGAAAGGACACTTCAGATTCATTCATTTTAGTTTTGATGTATCTTCAGTAATTAAGAAGCC
ACTAAGAAAACTGACCCTGGGAAGGCAAATTCCTGAAGCTGAGTCAGATACAGCCAGCTCTTACCATACCATCTGACCCTCAGTTCCCTCTGACCTCATC
TCTTCCCACCTCCTCTCTGTCTGACTCAGCAGTGAGGCCACACAGGCCTCCCTGCTGATTCGAGAATGGCTCCCACCTGAGGCCTTGGGCCCCCCTTGTT
TTCGCCCCCACATACCCATCTGGCTTCCCCTTCACTGCTTCCAAGGCTCTCCTCAGAGAGCATCCTGTCAGACCAGTCTTTCCTGGACATGCTGAGTGTA
CCTTTCCCCTATTTCATTTTCCTTCGTGGCACCTTTTACCACCTGATATGTTCAATGGCTCTATGTTTGTTTGTAGTAAGTCTCGCCTGACTAGAATATA
AGACCCATGGGAGAAGAGACTTTCTGCTCTACCCTTGGCACATACCGGGTGCTCAAAAAATATTCAAGTGCTCGCTTYGGCAGTACATGTACTAAAACTG
GAACAATACAGAGAACATTAGCACGGCCCCTTCACAAGGATGACACACAAATTTATGCAGCATTCCATAATTTCGAGAAATACAAATCAAAACCACAATG
AGATAACATCTCACACCAGTCAGAATGGCTATTATTAAAAAGACAGAAAATAAGAGTTGCTGGTGAGGCTGCAGAGRAAAGGGGAAAGCTTATATGCTCT
TAATGGAAACACAAACTAGTTGAGCCACTGTGGAAGACAGTTTGGAGATTTCTCAAGGAACTCAAAATAGAACAACCATTAGACCCAGCAATCCCACTAC
TGAGTATATACCCAAAGGAAAGTAATTCATCCTATCTTAAAGACACATATGCTCCTATGTTCACTGCAGCACCATTCACAATAGCAAGGACATGGAATCA
ACCTAAGAGCCCATCAACAGTGGATTGGAGAGAGAAAATGAGGTACAAATACACCATGGAATACTATGCAGCCATAAAAAAGAATGAAATCATGTCCTTT
CGCAACATGGATGGAGGTGGAAGGCATTATGACCTCCATAAATGACCTAATGTAAGAACCTAAAACAAAATATTGCATGTTATCACTTGTAAGTGGGGCC
TAAACGTTGAAGACACATGATCACGAAGATGGGAACAATAGGCACTGGGGATCACTAGATGGGGAAGGAAGGGAGCAGGGGGCATGGGCTGRAGTGCCAC
CTGTTGCGTCCTATACTTATTCCCTGGGTGATGGGATCATTGGGATCCCAAGCCTCAGGGTGATGCAATTTACCCATGTAATAAACCTGCATGTGTACCC
TTTAATCTATGATAAAAGTTGAAATTAAAACATAAACAAATAAAATCCTGAGTACTGTTTCAAAAAATATATTTGAGGAAAGAAGGAAGGAAAGAGGGAT
GGAGAGATGGAGGAAGACTAAAGGAAGGATCGTGGCCCTGAGAGAATAGAGCACAGGCCAGGGGTGAGATACAGAGTGAGATGGGAGCTGAATGGGGTCT
CTGAAACTAGACATGGAAGACACCAAAAGAAACATTCCTACTTCATCTTTCCCTGTGCCTGGGATAATTTACTCCTGGATGGTAAAGATATGTCTTGGTT
TCATCTGTGTTAAATAAACCTGCACGATGTTACAAGCTGGCATTGCTTCATAAGCTTGACCTTAGCTTTCAAATAGGACCTYGATCATTGCTCAATGACC
AAGTCACAAAGTTGCCTAATGATATTGGCCCACAGCCATGTTATTGCAAACATGGCAATGACTGGCCAAAACCAGGTGTGCTCCTTACATTTCTGCCCGG
GTGATACTCTCAGAGAGCTCCTCGCCATGAGAACTAAGTCASTCTCCCAGTGCCAGGAGCCAGGACAATTAYGGGGCTTTCCCTATTGTGTGTTCTTGCT
GCTAACCAGCTCCCAGGCCTAGGCTTCTGAGAAACAGTGYAGGCACACAAGCTGCAGATCTCTCCTCCCTTTATTCTCTCTCCCCTTCCCCAAACCCACA
ATAGCCTCTACCATAGTGCTTATTCTTTTGACCTGTTCTGATCTGCTAGCCTAACTATTCCCCARCACCTTTAGGAAGATAGGTCTTCCCTGACCCTCAG
TCTGAGGTCTAGAAGCCCTTCTGCCTTGCCTCACAGGCATCTTCCCTCCTCCCCCGTCCCCYAGACCAGTCCAACAGCAGCCCGTGCAGCCTCTGAAGTC
CACTCCCAGTGCTAGCTGATGGGAACCCCATGGGCTCCTGTCTGCTATACAAATGGAACAGACTTTCTTCAGAGCCAACCCCAGCTGCCCCACTGAAGCT
GGTTGCCACAGTGATTTTCAGTCTCATACCAGATTCTGATCTCTTCTCTTGCCCACCTTTGGTGCTGCAGAGTGGATCATCTTGTTTTATACTCAAGTCA
TCATTAAAATTTATAGAAAAAGAGAGAATTTAAAAAAAAAAACACTAAAAAATCACCTTGTACGCATATACCTCAGAAGRTCTTTGGCCTAATGGTAATC
TGTGACATTAAGGCAAATAACCAAAAATATGTAATTTTTCTATTTATTTCTTTGAGTGGGCTCAGTTGCAGATATATGAATCTGACCAGGGTCCTGATCA
CTTCCTGCTCCCAAAGACCACCCTTTGAGCCTGTAAGATCCAAAGTCAACTCAGTGGATTAATGTGCAAGTCTAGCCTGAGCCAGTAAGACATGGTTCCC
TCTAAGATGCCAGGAAAGGACCTAGGGCTTCCCTGGGCTGAGCTCTTAGGTAAGCCATGGCCTGGCCTGGCCTYTTAGAGGTTGTGCAAGACCAGCCTCT
GTGATCTGCGAAGGCCCTGAGTCCCAGACATCGTCTCCAACACTGACCTAGATCCAGTGCCAGCAGGACAAGAAAGWCCCCTCTGCTTTAACCTTTACAT
GAAAAGAAACTTTGAAATGACCAATCCACATTTTTTTTGTTTGTTTTTTTCTGCTTTCCACAGCCCTTTTCTGTCTGTAAAACCAACCTCCTCTTCTTGG
CTCATCAGAACACTCATTCTATTTTATGGAATAAAGTGCTGCCCAATTGTAGAATCAAAAATACAGCAAATTAATGTTTTTTATATAAAGTTTTTGATAC
ATAATAATTACACATATTTATGGGGTATCTGTGATATCTTGACACAGCCATAGAATGTGTAATGATCAAATCAGGGTATTTAGGATATCCATCGCCTTGA
ACATGTATCATTTCTTTGAGCTAGGAACATTTCAAATTTTCTCTTCTGGCTATTTTGAGATACTCAATATGTTTTTGTTAACTATAGTCACCCTACTTTG
AGGCTGAATACTAGCRCTTATTCCGTCTAACTATATGTCTGTACCTATTAACCAACCTCTCTTCATCCCACACACCCTTCATAGCCTYTAGTAGCTACCA
TTCTTTTCTCTACCTCCATGAGATCCATCTTTTTAGCTCCCACATATGAGTAAGAATATGCAATATTTGTCTTTCGGTGCCTGGCTGATTTTACTTAACA
ARATGCCCTTCAATTCCATACATGTTCCTGCAAATGATAGAATTTCATTCTTTTTTACGGCTTAATAGTATTCCATTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGKATCACATTTGCTTTATCCATTCATCTGTTGATGGACACTTAGATTGATACTGTATCTTGGCTATTGTGAATAGTGCTGCAATAAACA
TGGGAGTGCAGGTCTCCCTTTGATATATTGATTTTTTTTCCTTTGGATAAATACCCAGCAGTGGGATTTCTGGATCACATGGTAGTTCTATTTTTAATTT
TTTGAGAAACTTCCATAGTGTTTTCTATAATGGCTATACTGATAAATGAATTTAACAAGGTTGCAGAATACAAAATCAACATACATAATCAATAGCATTT
CTATATACCAATAATTAACTTGCTGAAGAAGAAATCAAGAAAGTAATCCCATTTAAAATAGCTATAAAAAATTAATTGTCTAGGAATAAATTTAATCAAA
TTTAATAAATTCTTTCCGATGAAAGAAATTGAAGAAGACACAAACAAATAGACGTTCCATGCTCATGAATTGGAAGAATTAATATTGTTAAAATGACCAT
ACTACCCAAAGTAATCTACAGATTCAATCTCTTATCAAAATACCAATAACATTCTTCACAGAAATAGAAAAATAATCCTGAAGTTTATATGGAACTACAA
AACACCCCAAATAGCCAAGCAATACTGAGTAGAAAGAACAAAGTGGTAGGCATTACACAATCTGACTTCAAAATATACTATATTTGGTTACATATAGTAA
CCAAAATGGCATGATATTTAGTATAAAAAGACATATAGACCAGTGAAACAGAATAGAGAACCCAGAAATAAATCCACGTATTTATAGCAAACTATTTTCA
ACAAAGGTGCCAAGAACATACACTGGGGAAAAAATACTCTCTTCAATATACGGTGTTGGAAAAACTGGATATCCATATCCGGAAGAATGAAATTGGATCC
CTATTTCTCACCATATACAAAAATCAACACAACATGGATTAAAGACGTAAATGTAAGATCTGAAACTATAACACTACTAGAGGAAAACACAGGAGAAATG
CTTCAGGACATTGATCTAGGCAAAGATTTTATGGCTAAGACCTCAAAAACACAGGCAGCAATTAAGATCTTTAAACCAAATTTGTTGTAATTTTGTCTTA
TGACACTAGCAACACAAGTGAATTTAGAACCATTTGTCTGGTCACTTACCGTAGAATTAACCACCTTCAAAACATGTAACGACTTTACCACTTAAACCCT
TACCATTTTGTTATGGTCAGGGATACTGTGGGCCAGGTATTCAATAAGGACACAGTAGAAATGGCTTGTCTCTGTTCCACAATGTCTTGGACCTTAGCTG
GAAAGAAGCAAAGGCCAATGGTTACTTGATGGCYGGRAGCAAATATCATCTCAAGGCTCCCTTCCTCACAGGTCTGGTTCCTATGCTAATAGGACTCAAA
GACGAGGATAGGTGACTCATTAMCTACCCATGGCCTCTATACATGGGTTGGTGTTTTCACAACATGGTGGCCTAGGTATTCAGACTCAAGGCTCCAAGAA
CTAGTGTTCTAGAAAACTAAGAGGAAGCTGCGTCACTTTTTATGATTGAGCCTCAGAAGTCAAGCAGTATCACTTTCCCTACTCTACTGTTTGAACAATT
ACAAGCCCACTCAGATTCAAGTGGACTCCACGTCTTGATGAGGGGGAACTAAGGTCACAACGTAGAAGAGCACAGACGATAGGAGACACTGGCCATCTTT
GGAAAATACAATTTGCCACTCATCATGTGTTAATGCACAGATGAGGAAGTGCTATCTGCTCTTCTCCCCTCCTCAGCTCACCCTGACTTCTGTGTTTCCA
GTCCTGATTATTTATAACACATGTTCAATATAACAAGGATGTTTTGAAGCCCAAAGGAGTGAATCCTTTCCTAGCCTTTCAAACCAAGATAAGGAAAAAG
TGGAAGAAGACATTAAGACATGCAGCTCTAAGGAACTATCCAAATTACACTAGGTAGATGCCCTGCAGATGTTTAACTTCAAGATTTCCAGAGGCCACGT
GTGTGTCAGTATCAGAGAATCAAGTTTACATTCTCAATAAGTAGATGTTGAGAATATACAGCTGATCCCCACTATTTGAAGATTTTTGCATTTGTAAATT
TGCCTACTGACTAAAATTTATTTGTAACCCCCAAATCAGTATTCAGAGTTTTTGCAGGCATTTGTAGGCATGCACCAAGTGGCAAAATATTGAGTTACCT
TATGTGCACGTCAACAGACGAAGGTGAACAAGGCAATACTCTGCCCTCTTGTTTCCATTCTCATACTGTAAACAAGTGACCTTCTGTGGTCAACCTAGTG
CCTTATTTTTCAAACTTTTGTGGTTTTGTTAGCAATTTCACTCTCTAAAAATGACCCTCAAGTCTAGTATTCCTAAAAACAATAAGGCTGTGATGTGCCT
TACAGAGAAAATACATGTGTTAGATACACCTTGCTCAGGCATGAGTTAAAGTGCTGTTGGCTGTGAGCTCAGTGCTGATGAATCAACAATATATATTAAG
TAAGGCATCTTTAATCAGAAACACACATAAAGTAAGGTTATCTAYTGATCAGTTGGCAAAAATGTAACTAGAGGCTCACTGGAACCTAAACCTGCATTTC
CCTTAGGAGCAGTGGTTCAATATTTGCTAATTCATTGTTTGCAGTGACTTTATAGAGCATAACTTATATTACAAATAATGAGAATCAACTGTACCGTAGA
TCAGGACTTTTATAAGCCCTGGAGATACAACAGTGACCAAGCAGACCAAAATCCCTGCTGTCATAGAGTTTATATTCTAGAGGAGAGGGGAAAACATAAA
TGAAATAAATAAATAAAAGATATGTATGTTAGAAGGTGATAAGTGCTATGGGAAAAAATAAAGCAAGTGATGGGAGGTGGGAGTGGGCATTCAAGGTGGC
CTTTTTTGTTGTTGTTACTATTGTTTTCTGTTTCTTTACCAAAAAAAATGGCCAGGGTGGACCTCAATAACAATCAGATAACAGTTGAGACAGCTGGKGA
AAGAGATGAGGAAGAACACTAAGCGATTTCCCGGAAGACAGCAGAAAGAACAACCAGTACACAGGCTGAGGATGTAAACAAACCCGCCATGTTGTGGAAA
CCAGGAGGAGGCTCATGTGCCCAAAATGSAGTCAGTAGGAGATAAGGTCAGAGAAGTAAGAAGGTGTCAACTCAATAGGGCCTGGCAGCCCATTGTAATG
ACTGGGGCTTTCACACTGAGTGAAAGATGGTAAGCATCCAAGGGAGAAACAGGASAGCAATTAAAAGAGTKGCAAAAATCTAGACTTGGAGAGTAATTAC
CACCGATTATAAGAAGTGGTCAGGTTCCAGATGTCTTCAAAGGCAGAGCCAACAGGATTTGCCGGTGGATTGCACGTGTAATTGTGAAAGAAATGATGAT
GTCAAACATGACTCCAAAGTTTTTGGCCTGAGAAGCTGGAAGTTGCCATTCTAAGACAGAAAAGACTGTAGATCAAGCAGGTTCTGGAGGGGATTTCAAT
TCTACTCATTTTAAGGTGAGATGTCTACTTAATATCCAAGTGGAAAAATAAGGTAGGCAACTGGATATACAGGGCTGGAATTCAAAGAAGTCCAAACTGG
TAATATACATTTTGAGTCCTCAGCATAAAGATGGAATTTAGAGACATGTAACTGAATGAGACCACCAAGGAATCGGTGTAGGAAGAGAAGAGGTTGAAGA
ATGGAATCCTGAGGCATTCCAGTGTCAAAAGAAGAAATTGAGAAAAGCAGATTGAGAAATGTGGCCTCCTGGAAGCTGGATGAAGAGAGTCTTCCTAGAA
AGAGTGAATGATTGTTATGTCAGCATGCCCAGAAGTGGGGTAGGATGAGGACTGGGAAGAGAGAAAGTCCTGATTTGTAGAGTTTGCCAATTTCCATGGC
GAAAATACTCCCACCAGAGTTGATTTCAAGCTGTTAATGTGATGTCATTGAATGCAGAGTTTAGAAGAGATGCACACAATTGGCTCTCAGGAGATATTGC
AAACTGATCTCAGCAGACATTGCAAGCTGATCTCAGCACACCCCTGACAGCTAATGATATCCATTGCCTCAGCAGGCTTTGGCATCCAAGAGGGAACTAA
CTGCCCAAGCAAGTCTGAACGTGGCATGGCTGAATCTCTGTCATCTGGACAGGGCCAAGCAACATTTATCTTCAATATGGTAGGCTGGCAACTTTCTCAG
AGGGCAGCCCAAGCTGGGCTGGGCAAGAGGGGCTCAGAAAAGGATGTCATGGTCCTTGCAGCCAGACTCATGCTAACTTTTAGCAGAGTGCATTTCAGTA
ATGAACAGCCTGAGGGATGGTCCCTCAGCCAACACAGAATGCAGACCTCTTTGCAGGCTTCCCAGATCTTCCTGAGCACATCTTTGGTGTCTGATTCAAC
AATGAGAGGGTCTGACTAGACAGATTTAAGTCTCAGATGGACTTACCGAGCAAGTACACTAAAGTAATCTGGACACTTTAACAAATAAAAGCATAATACT
CTCTCTCAAAGAGTTGTTAAAACAAAATCTGATGAGAAACCTTCTTGGAAATAAGTCTCCCGGCTTATGGGAACCTTGTTTCCAAATCTGTTAGTATTCC
CGCCCACATCCTGAGAATCCTTTTATGTTCTCTCAGACTCCAGACCCTACTTCATACATTTCCTGCTGCCTAGACTTTATCTTGACTGGCCTGATTACTG
ATACCATTTGGTTCCAGCCACTTAATTCCCAGCAGCCTGAAATGGCCACATCCCTAAAGCAAAATACCATCGGACTAGGAGGAACATCAACCTGCTTAAA
TTGTGGGCTCTGCCTTTCATTTACACACAGGAAGAATTTTCCAAGGAGGTTTTTTTTTCCCTTCCCTCTCTGGAAGTCTTTAAATGTGAGATTTTCATTT
TTCATAAAATAATAATTAACAAACATACATCGATTACCTACTGAATGCAGCGCACCATACAGGATTCTATAAAACATACAAAGAATAATTAGATGTCTAC
TTATAATGTAGTTGGGAAATTTGTCATTTTCTTAGATAAAATTCTGACCAATGTGAGTGCCCAGTGAATGTCTCAGAAACCAGGTACTGGAGGACAGTGA
GACACAAGAAGCCCACAAAGCTGCAGTCTACAGGATGGATAAGATCAAAGGAAAGGAAAAGGAATCTCCTATTTGCTTGCCACTTCTTTGTGCTAGAACT
GTTTTAGACACTACATCTGTTTAATTACATCGCAATACTTCCTATTGCTATAAAAAAGGATTTTCCTACTTCTATGAAAAGAGAGTGTCATTCCTTTTTA
CAAATGAATCACAGAGTGGTAAAGCACTTAACCAAAATCCACAGAGCCAGTCAGTGGCAGAAGTGGGACCCCAACAGAGGAAAACATCTCCAAAGTCCTA
TGTTTAACTCTTACTACCACTTCACATTGCTTCCCTTAGACTGAGGAGTCAGTCGAATTGTGCCGCCCCTCTTCCCAAAGATACGTCCGAGTCCTAAATC
CCTGTATCTGTAATGGGATCTTATCTGGAAATAGTATTTACAGATGTAATTAAAGTGTCTTGAGATGAGATTATCCTGGAGGTAGGGGCTGGACTGAGGA
GCCAAATCCAATGACTGGCATCTTTAGAAGAGAAGGGAAAACAGACCCAGAGACCCAGAGGGAGGGCCATGTGAAGATGAAGGCAGACGTKGGAGTTCTG
CACCCCCAAGCCCAAAACACCAAAGACTGCCAGCACCCCGCAGAAGTCTGGAGAAGGGCGTGGAATGAATTCTCCTTCAAGCCTTCAGAATGAACCAACC
CTGCCAACACCTTGATTTTTAGACTTTTGACCTTCTCAACTGTGAGAGAATAAATTTCTGTTGCTTTAAGCCACCAAGTTGTTGTGATTTATTATGGCTG
CCCTAGGAAACTAATACGGACAGTCAGGATGAGGTCAGTCTGCACAGAGACATGGGGGAAGAAAGAGAAGAAAAGATCACGAAATGTGACTTCTAAAGCT
GAGCCAAAATAGGGTTCCTGGGAAGAGGGAGCTATACTCTTTTTGCTGCCAGTGGCAAGTCCTGAACTCCCATGTCTTGGTTTGATTCCAACTAGCGTGT
CATAAACTATTCGGTTTGACTCTGAATGCTAACATCTAATCAGTTTCCTCAGCTTGCTGGTTTTGCTGGTTTCTATTGTTTGGGCAAGTTTGAGCTACAC
AGACACAGCTCCTGGTATACTTGTCCTCAAATATCAGAGAACATCGAATCATTCAGGTGCATCTTTGTGAGCACACTGAAGAGATAAGCTTCTAAGAAAT
AAAACTGATATCACTGGCAATGCCTACCATTGGTCAAAAGTAACTTCCTCAATAGCTCTTGGTGGTGCCTAGTTCTGTTTTTACATGGAGGCATCAGATA
AAATGCAATGATTCCAATAGGATTCAGCTATCATCACCCATTAACAGGTCAGTTCTRAGGGAAGCAGCTCTCTGGGGATTTATTGTGGAATGAGAGAGGA
GAGAAAACTTTATAGCCAAAGCAAAACGCAAAGAGATAGATCTATTTGAGAATCCTGGGCATTCAGGAATGTTAGCAAGGAATTGAGGAACAGACTGAAA
TGAAGATGACAAGGAATGAGAATAAATCATGGTTATGTCCAATTTTTTGTATGTTGGTGTTCAAGAACCATAAGTAGCCACTTACTGAATTCTGATTCGA
GCTTACTAAGGACCTACTAAGGACAATGTACCCCATTAGGTGGGTGTACTAGAGCTATAAGGATGAATGAGTTCATCTGCTCATAGCATAAGGAGGCAAA
CTTTGGGGGTTGGGGGAGGTATATGTTGGGAGTCAGAGTAGAGGAAAGAAAAATGATGCCATATCCCTCAGCTTCTGGGAGGTGATCCCATCAAGAGTGC
AGTGGAATTTTTAATGTTGAGAACTCCATGAAGTTCTGTAACCAAGTACCCCCCATTGTTTCTGAGATAGAGAATGAATTATTTTTTATTTTCTCTTCTC
TCTTTCCCCCTRCTCCCCTGTTCCCCACTTCCTATTTAGCTCTTTAGAAATGCAATGATGATAATATTTTACCTTCCCTCCACCAGACATCCCTACAGGG
CAAGCTTATCTGACTATGTGCTTACTTAAAAGCTCCAGGACAGAACTCTGTCCTACCAGGAGATTTCCTCAAAAGACAACAGTCAATACGCAACCTAAAG
TACGCCCACTATGAAACCCTCTCCCACCTGGAAAGTATCTCGAGACAAGGCCACTTTACAACCTAGTTCTGCCCGGGATGGTGCCAGCTCGACCACCTGG
TAGATAAGGCACAAATCGAGTCATGCAGACCCCCACCTGCTCACGCCCTCCCTTGCATGCCATTCATGCCAAGTCCCCTTTTAAAAGTTTCTGCTTTCTG
CTCCAAAAGCAAAGTGGTACCCATAAGGCAGGCAGCCTGTACTTCCCTAAGCTAGCTTTGGAATACAAAATCACATYCCTTATACCAGACTCCGCTCTTG
TTCATTGGACTAAGCAGGTGGCAAGTGACTAAACCTGTATTTTGGTTACATTTCTACTGAGAGGAATCCAGGGACACCAATAACAGGCTGAGAGTTGTCT
GGCTGCTCAGAGCTCCACACAAAGGTCGGGTATTTGTCAGAGGAGGAAAAGTGTGGCATCTTTATATAGACCAGGGCTCACCGGCATATACTTTGCCATT
TCCTGGGAAAGGAAGCTTCTGGCTCCTGGAAAAATGGCAGAMACTTGAACAGAGGATTGGTGAAGTCTTTTGGTTTATGTGGCCAGATAGTACAAGGTTC
CTATCAGGAAGAAAAGCACATAGTGTCTTTCTTCACTCCTTTGGGTTTGGGAAACAAAAAAAATACACCAAAGGCAGTGAGGCCACCATAAAACCCAGAG
TGGGGGCAGAGGACAGGATGCTGGGGAGTTCAGGGGAAGGGCTCTTCTGAGGTCTGAGTTTCCCTGTATCTGCGCATTTATCCCAACTGAACTTTTCCAC
GGGAGTGCTTCTGGCCTCCTCTCAGCCTAACCTCCCCACCTCTCCACATCCTGAGCAAAGGTTCCATGTGAATGAGCCCAGATGGAAAAACACTGGAGGA
GTTTTTCTTTGTCACTACAGGCAGGAAGAAAATGGCAAATGGAGACAATTATTTGCTGAATTTGGTCTCCGTAGACTCATACTTTTTGCTTAGTTTTCAT
TATTTGAGGATAAARATTGCTTTTAGGCCTAAGAGACTCAGCTAACTGGACAATTTTTCAGTTCATTTTTGAGAAGTAGGCATGGCCTTGGGAGAACATT
TTTTACCCTCTCCGCACTCTCATTCCATCTCACATACAAATACATYAAGAAAATGAAGCCAACTGAAGCAGAGGTCAGGAGTGAAAGAAAAGTTGATATA
AGAGCTTCAGCAACAGCAGCTGGCCCCAGGCACTAGCGGCTGATAAAGGAAACTCTGGGCAGAAGAGCCTGAGATGAATGGGATATTAGTGAGAGGAGCT
GAGCCGGTCACATAGCCAAGTTTTGCAGGAGGRAAAAAGAGAATGGGAAATTAATTATAATCAATTCCTACTAAAACCCTGAGAATTGGAGACAACACAT
AGGCTATTGAGAGGGCGATTTCTCCTAATTCTTTCTGCAAGGTCTWAGAGTGCTTCTWACCCACAACAGAAGGTACGAGAACCTCTGCCAAGCATATGGA
ATTGCCAACTTCAAGTCAGGAGAACTTACTTGTGAGCCTCCTGGAGATGGTTATGTGGACACAGATGATGGGTTTTCTTTCTGTTTAGTAAGGAGTTCAG
TAAGGAGTAAACCTATGTTTGTTTGGTTCTCATACTCGTCTCTACTCCCTGCTGATATTTCCCTTGGCAGAAAATGAGTGCACTGACCAAGCCAAATGCA
AGCAATAAATCCGGTGGCACTTTATATCGTATTAACTCCAGAGAGGAGTTAGAAGGCCTCAAGACAATCATGCCTATCGTGATATTGGAGGTTCGCTGTT
TGGAGGGCAGACCAAAACCTGGAGGGGTCTAGATATGAGGATCAGAGGCTGAGAAAGGGTATTGGGGTAGGGAGTGACTCCAACTTTGCTTTCAGCCACC
CTTCTCAGAGGACAGTGGGCAGACCAGCAAAACCATTCTGGAGGGAAAGCCAAAAAAATTAGGGTTCCAGGAAGGCTGAAAATGAAGGCGGCCTTTTCTA
ATAAAGTGAACAGGATCAAGAGGCTGCCAAATGCTGCTCACTCCAACCCCTTTTATTGGCAGTGAAGCAAGTCAAATACTTACTAGGAACACTAGCCCTT
TCTTAGAAGCGACTCTTGTTGAAAAAAACATCCTGTGCTTTGYGAAGTGATTTGTCCCTGAAGAACTCTATGAGTAAAAGAGACTCTAGCTGTGACTTTG
GCCAAGTCAGGTGGTCTTGCTACTGATGAGGGGGCTGAATCCTGAGCATTCTCTTTGATACGGAAAATAAAACGGACTAGGGGAGAAGGTATAGAATGTA
ACGCACTAGGGGTTTTTTGGAGGGAGGATAATCTCTGGGMAGTTCCCTACTCTTGAAACCTAGCCTGGAATGGGCTTTCACCTCTGTGCTATTTATACTA
AAACTGAATTGGCCTTAGGGATGGGATGGAAAGTAAKTAGGATTCCCTATTACCTGATGATTTTGAACCCAAACTATTCCCTTGTGGACACAAATGGGTA
TGGTGGAGTCAAATGCATTCCGTGAATTCTTCCCCTATTGTTTTAATCAAAGCACCGATTTTAGCACAGACTCATGTGCCAAACAAACTATTGAAAAACT
ACTGTGATACACATTTAATGAGATGATCTAAAGTGTTTCTGGGGGCTTGTCATGGGACTGCTGAGGTGGTCTCCAGGGATGCTTAGAGGAAGGATATGGG
AAGTGAGACATGTGGGTTGAATTGCCCCACTCCTAATAAGGCTGATAAATTGAAAAACCAAGGTATAGAAGTGACCTTTTACGTTCTGGGGCAACTTTTC
ATCTGTGCTTAACGAGAGAAATGAAAATCGGATGGATTTCCACTGAAAATTTCATGTCACGATTTCATGTGAATGATCTAATATCTAGCTTTCCCCAGGA
GCCAGTGAATTATATATCCAGCTGTGGAAACTGAAAACACCATGAGGCTGCTCATGTTAGGCACCTGCTGTAGAGAAAGACCTTTCGCATTTGGGAGGAG
GGGCAGAAGGCTTGTTTGTAAAACAGCCTGGTGTGATGCTCTTTTCTGAGCATTTTTCTCTTGCTCTCTCTGCCTTGCCTGAGTTGTCTCTTCTCAGTGA
CTTTAGGAGACATACCTTTGGGCTATCTTCATAAATCTTTTGCTATGAATCAGGATTTAAATCATTAGGGTTTTCACTCATGCCATTTAGGATACTGAAA
ACAAGTGTGCACTTTTCAGACATTCTGTCTTACACCTGTAGGTCACAAGTCTTTCATGCCTATGGTATTTTGTTACAGTCTATATGGTTTACTGTTGCAT
CTCTCAATCCATTGAAGTCTATTCCCTAAAAACTTCTAGGCATGGAGTAAATGTCAATTACAAATGACCAGAATTTAACAACAAAAAATTTCTAGGCAGG
AATGTTACAGCCCATCTTCAGTTCTGGAGGAAAGCTGGGATAGTTCATAAAATAATTCTGTCTGATTTGTTTCTATGAGAATCTGTGTTTAGGGTATTTT
CAGGAGAGAGGAATACACTTACTTGCTCTAAGGCCACACATCTTAAACCGAGATACATCTACTCTGGGAGGTTTGCAGCTGGAGTTTTCAGCTRAACTTT
TAAAAACTTTGTTTAAAATAAGTTGCTTTACATTGGAACTTAATATCCTCAGTGGATTGAGATCGACATTCTGGGAATTGAAATTGTGTCTGGAGAAGAG
AAAGGAGCAATGTTGCATTTTGCAGTAGAGGCAGATGGGCTAGGCAGGGATGGGGGAAGTCTTCTGAAAGGAAAGCAGTGAACAGTTGGGGAGGGGTTCA
GAAATGGAGCTAGGGGACCAACCACAGAAAGGGTGGCCTACTTTGGGATTTTTCTAGCTGCAGCATAAATCTAGTACATCTTTTTATATTGAAACTAAAT
ACAGATATGAAATAGAGCTTCATCTGGCAATGGCCTCATGAGTGTTGGGCAAAGCTGCCTTCTTCTGAGGCTGTTTCCTTCAGGCACGGGCTTGGGCTCC
TCTTCTCATTCCCTCAAGCCCCACTCTCTCAACTCAGGTGCCTTTGTCAGCTTGACATAAGATCCTTTAATAAACCTAATGGCAAACATCAACGGGAAGC
AAAAAATCCAGATCTCAACTATGGCATGAATAGTTGCAAAAGATCTAACTAAAGCCACCCAGCCACAGTGTGGCTTCCTTTCTGCACAAGTATTCTTGCT
TCCTAAAAAAGGACCAACCTGGCTGGGAACGCTGGCTCACGCCTGTAATACCAGCACTTTGGGAGCCTGACGTGGGTGAATCACGAGGTATGGAGTTCAA
GACCAGCCTGGTCAAGATGTGAAAMCCCGTCTCTACTAAAACTACAAAAATGAGCCAGGTATGGTGGCGGGCACCCGTAATCTCAGCTACTCGGGAGGCT
GAGGCAGGGAATTGCTTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAACCTGGGAGACACAGCGAGACTCCGTCTCAA
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGACCATCCTATACCCCATTCTCAGCACGTCATTCAGGTACTGGACAGACCTTAGTCTTAAAACCAGCA
TGCCTGGAGTGGGCTCTTACCCTCTATGGGCCTCAGCTATGGGGGGAAGAAAAGAAAAAAAAAAAAAAAGCGTTAAACTAGGGACTCACCAAGGGCCCTT
CCAGCTCTAGCTCTCTTCAATTCTACATACAGCATTAAAGAATTTCAGGATATATCTCCCTGGCTTGTTGTTAGTCTCTTTTTACTTTCTCCAACTTTCC
CTAAAGCAGGGAATAGCAAAGAATAGCAAAGAAACTTGGTGCTGATCTGCAGAGAGAGCCTCTCCTCAATCAGAGATTCTGAGCCAAGGGGTTTGTGTGA
CCTTTGGAACTCAACCACAAAGCCCTGGAAGAACTGGTTACCACCAGGACCCTAGAGAACAATCCCAATATAAGCCACACTTTCTCTTGTTGTTCTCCTA
TCTCCATTTTTGAACCTCTCCCCAACCTTTTACTGCCTTGCCATCTAAGTCTACTGTAAAAATACAACATTTCTCCTTTCTCCTCTCTGTCCCAGGCAAA
ATTTCTATTCCTAGGATGTTGATCTCAATCTGCTAAGAATATTATGTTCTAATGTAAAGCAACTCTTTTTAAACACAGAGCTCAACTCAAAACAATCTTC
AGTGATCTACCAAAAAGGAAGATATTTTGAATAAGAGACTTCCTTCAGATGAAATCAGTATAATTAATTCAAATCCCATCCATCCTCTCTTTATATAATC
AAACTTCACAGCAGGACAGAGATAATATGGGTTAGCCAAGAAGAGAAAAGTTTTCAGTCCTAGAAGAAAGAAGGTCTCTGCTATCACCTCATAATAGCTT
TGGGGCTACTCCCTCCAAGATCATAGAGCTYGTCAGCATAAATCATAGAGGAGCTGTTTGCATGCAGCAGAGGGACCCAGAGTGCCACCTGGCATGGTCC
AACCTAAGAACCTAGGTGAGAAGCATGGGAAGCCAGGGGTTGCCATGAGAATAAAGGTAAAGAGACACAGTTTGTCTAATTCTTGGGTTTGCTTGGGGTC
AGCTCTGCGTGTCGAAATACCCCCTTCCACCAATTTTCTAGGCTTGGCTTGACTCCACTTACACTCCCGTAGATTTCAGCTATCATCCCTGCTTCCCTCT
TGGGAGTTTTTTTTTTCCTCTTGGGAGTGTTATTTAGGCTGGGGAGAACTTAATGCAGTCATCATGTTGATTCATTTTCACAAATACTTATTAAATGTCT
GCTTTTGCACAGCTCTGTGGAAGGGCCAGAGTGGTATATAATGCATGATCTCTGACTTAAAGGAACTTGAAAGTAACCTGTGCCCTAACTTTGTTACCGA
CAGGGAATGATTTTGGAGGTTCTGGGAGAAGCAATCTGTTAGGTTGGTGCAAATGCAATTGCTGTTTTTGTCATTAAAAGTAATGGCAAAAACTGCAATT
ACATTTGCACAAACCTGACACTCCTGACACCTGAGAGCCAACTGCCAATCATTCCAGGATACACTGTGTGCACTTTGCTTTCTCACTGCAATCTTCTTTA
AGCATTCATCTATCTCTCAATTTCCATCTAATTGAAACTGTGGCAGCAGCATTAGCAGCTGGTGGTGGTGGAAGACCTCCTGATTCCAGAAATTTCCCAG
GGTGGCCCCCTACAGTTTGGATCTGCTGAGGAGCATGTGGAAATTCAAAGGCATGCTCTCTTATGGAGAACAGTTTGTTGGCAAAACATTGCCCGTTTGC
TGCACATCTGTAAACTGAAGTAGACCTGTCTTTCTCGACACATTAAAAACTGGTCAAAAGCTTCACTGGCTAATTAGGTTAGTGATATGGTTTAGCTGTG
TCCCCACCCAAATTTCATCTTGAACTGTAGCCCCCATAATCCCCACATGTCATGGGAGGGACCCAGTGGGAGGTAACTGAATCACAGTGGCAGGTTTTTC
CCGTGCTGTTGCCATGACAGTGAATAAGTCTCACCAGATCTGAGGGCTTTATAAAGGGCAGTTCCTCTGCATATGCCCTCTTGCCTATCGCCATGTAAGA
CATGGCTTTGCTCCTCCTTTGCCTTCTGCCATGATTATGAGGCCTCCCCAGCCATGTCGAAATGTGAATCTGTTAAACTTCTTTTTCTTTATAAATCACC
CAGTCTCGGGTATTTCTTCACAGCCGTAGGAAAATGGACTAATACAATTAGTTGCAAAATTAGGTTAATCACCTTCTCATTGAATGTAACTTCATCACAT
ATATATAAATGATATATAGTGTACTTCATATAAAAATGATTTGTTATATATACATACACACAYATATATATATATAATGGTTWGTGTACCTTCCCTGAGA
ATGTGGGCAACTGGAGAACTCTGGCCATGGGTGCAAAAGGGCCTCCCTTGCTGTTCCATGATGGTGCTCCCTCAGGCCCCTCTTCATCTCTCCTCTCCAG
CCCCTCACCCTCTGCCTGGGCTCAGGCCCTCATCTTCTTTTTCTTAGATTACCTATTCCAACAGCCTCCAAGCCTGTCTGCTGCAAATCCAGTCTGTTTA
CAACTTACATCTGACCATGTTTCTCCCCTGCCTCAGAGCTCCCTGAGACTCCCCATTCCCCAGAAGAGAACATCTGAGAAGCCTTACAAAGTGCTGTCTG
CCTCTTCAATATCACTTCTGCCAACCTGCTGCCTTGCAGATGGGCAAGAAGTCCCTCACACACCCCAAGCTGTTGCTCAGCTTTGTGGCTTTGCAACTGC
TGTCACCTTTTGCCCTCTGCCTATGCTTCATTTGGTTAACCCTACTCATCCGTGAAGGCTCGGCCAGGGGACTTCCCTGGCTGATTGCTCCCAAAATATG
CTGTGATGGATAGCACCATCAGTGYGCTTCCATGAGGTATCGTAACTAACTGTGCAATGGTTCTCTCCTCACCGAGGACTGTGAGATCCTAGAGAACAGG
GAATGGGTATTAGTCATCACATCCCCAACATTAAGGACAGTGATTTTGCCCCCCAGGGGATATCTGGCCATGTCTGGAGACTTTTTGGTTGTCATAACTA
GATGGGGGTACTACTAATACCAACTAAGTGGAGGCCAGGGATGCTGTTCAACAGCCTCCAATGCACAGGACAGCCTGCATAACCAAAAGTTATCTGGCCC
CAAACCGTCAATAGAAATCTTAATCTAGGACAAAGACTACAAACTTAACGCTGCTTAATGAATGATAAAGTGAATATATTTTACTGAATGAAACTCTGCC
CTTAAGTAAGGTCCACGTGACAATTGTTGGATCATGGGAAAGAATTCAAGTAAATGTACTCCTTCTTTAGAACAAGTAATGGCATAAGCCTAGTCTTTTA
TTGTGGATTTAAGTTTGGCTCCAGTTAACAAGGTATTTCACGTTATCAACTGAGCAACTAGGAATAATATACCGAAGGCTATTCTCTACATAGAGTAAGA
ATTTCTAGACTAAAATAAAGTCAGAATGTCAGAAATAAAACAGGTGTTAAAAATCATCCAACTYGAGCTACTGATTTTATAAATGAACACTCCAGGTCCT
GCATGATAAAGTGACTCCCCAAGGTCACCTAGCTAGGAGTGACAGGGCCTGGGGCCAGTGAAAAGAGAGCTTGTGTTATGACTTCACCAGAAATGAATAT
GAGACTACTGGGTCCATCTCTGGGATCCTAACAGAGATTAGGTCAGGGCTGGGGGTTTGGGAGAGGAGAAGAGAGAAATAGAGATAGCTGGGAGGTAGGC
TTTGTTACATGTCTTGGTTTCTTTCCTGAACAGTCGGACCTTTCCTCACATCTCATGGCTACTGAATTTGAGGACTGCCTAGTGCCAAAGTCTGTACCTT
GATACCTTAGATCACACACAATTCAAACTTTTCCACCTTCTGGGGTCTCTCACTGGCAACACTATTAAAATTTTGGGCAAGACGATTCTTGTTTGCAGGA
CTGACTCTTTGGAATACCTGGCCTTTGCTCACTAAATATCTGTGGCATCTCCAGGCATGATTATTAGAAAACAAGCGAGGATATTTTCAAATGCCACCTA
GGAGGGTGGTACTGCCTCATTTTCCTGTCCCTTCAATTGAGGATCACCAAAGACCAGTTGGCAGGGTTGCATTTGTGTTGAGCAAACTGCATCTTGGTCA
GCACAAGAAAGCAATCAGAATGATGGATGAGAATGGTCTTAATGACCACCTTCACCAAAATGACCTGTGTTGTCTGTTAAAAATAAAATTCTCAGGCCCC
ACTCTCAGGGAGTAGGATGCAAGAATATACATTTTTAATAGTCTCGCCAGGTGATTCTCATGCACACTAAAAGTTTAGAACCTCTGCCTTAGCAGTAGCA
CTCAACCCTGGCTCATATGAGAATTAATGTTTAAAAATGCCATTGTTCAAGCCCTACTGTCAGAGATCCTCAGTTTCAACTACAGTGAAGCCCTAGCCTT
GCATGTTTTAAAACCTGCCTAGGTAATTCTAATATTCATCTAAAGCTAAGAAACACTACCATTATGAAATCTTGCTAGTTAAGAGGAAACCACAAATTAA
TCCCCTCACTTTCGGGTTAAATGCAAGAAACTTAATGTTTTCAACCTTGGCTGCACCCTTAGTGAGATTTCTAAAATCGCAGTGCCACACCCCATGCCAT
TGATATCAGAATCTTCTGAACTAGGACCCAGCTTCAGTGTTTTTTAAAGCTCCCAGTTGACTCTAATGTGCAGCCAAGCTTGAGAACCATGGATTCAGAA
TATTTTCCTAAATTCTCCCATAAACCTCTGCTCTTGGCTTTTAGCTTTCCTCCTATCCCCTAGTTCAAAAGTTTGAGGTTGTGGGGGTCAGGGCAAGAAT
AATAAAGGGAGAAAGGACAAGATTCAATCCAATCCAGTTCTTTTCTCCACTTAATCCCTGGCTACCACTGACTYGGCACTCTGGGAGTAAAGAGCAGTGG
AGAAAGCTCTAGACCTATTGGTGTATATTTCCAAGAGGAAGATCCTTGGACCAGCATCAAGTTGGCTTTTTATCTTGATTCTTCCCTGAGGTTTCTAAAT
ATTGTTCCAGCATAGGAATTTCAGCTTTTATTCTTTTCCAACTTTTCATTTATATGGCATGCATGGGTCACAGAAGCAATGGAAAKTTGGAAACCATTGC
CTTCTAATTAGCAGATGTCTCAGTGGCTAACATTATTTGCCAGTAGCAGTGCCAGCGCAGCRCTGGGAAAGTTAATTACTGTCGACAGTCCTCGAGCCTG
TTTTCATAACTGGTAATGACTGTTAATATGTCACCACTGAAGTTAGAGAYTCAGAAAAGTCTTTTGTCCTAGGACTATTAAATGTCATGGAAGAATAACC
CCCAAATTTGCCTTTGGGTAGATAAAGTTCAATGGGACTGGCTGGGYGCGGTGGCTCACGTCTGTAATCTCAGCACTTTGGGAGGCCAAGGTGGGTGGGT
CACGAGGTCAGGAGTTCAAGACCAGCATGGTGAAACCCCAGCTCTACTAAAAATACAAAAAAATTAGCGGGGCACGGGGGCGCATGTCTGTAATCCCACC
TACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCGTTGCACTCCAGCCTGGGCAACAGAACA
AGACTCCAACTCAACAACAACAATAAAAAAGTTCAMTGTGACCTTTTTAAAAGAAATGTTAAATCTGACCCCAGTTGCTAAAGGCAGAAGAATAACACGA
GATTTGAGACCAAGCCAGTTCCTGTTTGACTATTTTGACCCCATTTATAGWCATGTCAAATGTCCCCCATTTCTGCTGGCTCCAGCCCCATCTTGTTGCT
GCTTCCTTGAGATGTGAGGAACAATCATTCTTTCTTCTGTTCTAGGCCAGGTCCCAGATGCTGACAATAAAACTGTCTAAGTCTGGAGTGTTATGGCTCC
TAGTGTTAGGTTCTTTCAACACACACCACACACACATGTTTTATGTAAGGTGCATCATTTGCAATGGGCTGGTGGACCCTGATATCGAGTTGGGGGTCAC
CAGTACATGTTCCCCTTCCCTAATGGTYAGTAGTCCTGCCCTGCCACATGGCCTTAGTTAGGACCAGATTTGACCATCAGATAGTTAAATAAATCAGAAC
TGCAAATCCATCAAGATCCTTTCTCCTTATGTGAGCTTATGTCTGCAAATAGATATGTGGTGAGGATGGGGGGAAGAACACAGCCTGACAACATACAACA
ATAGCATCCATGCCTCAAATCAAAAATGCCCTCCAGTGGGTGGATACTTGCCTGAAAACTGCAAGCCCCAAAAGAACCACTCAAATAGTTCTACCCAGAT
TTCCAGACATTTCCCAAGTGAAACAGCCTCTTAGAACTTAAAATGGGAACGTCAGAGACATTAATATCTCATTCCTACCACCTACCGCTTAATCAGTGTG
TTGCTAAGCCCCTTACATATGAAATCTTWCTCAGTCTTCACACAACCCACAGAGGGGGACAAGATATCACCATCCGTACTTAACAGAGGAAGAAATGCGC
TGAAGWTTACACAATTAGGACGTGTRAGGATATGATTCAGGGTGTGTSTGGATTCAGAACTGCACACTGCACCTGCTGTGCTTTATTGCATTAGCTGCTG
CTGCTGCTCTGACCTGGGCTGACGTTGCAGTGAGTCTGGAGAAACCCTTTGCCATGTTTCTGTGTTTTCATCACAGTTTCTGTCACTACTTTCTTGACCT
TATCACTCTTACAGTCCTGGTCCTATTCTGTCTGTGATGGGAGAGACCTTTGCCAACCAGCCTCTCTGCTCATTAATTAGATCTCAAACATGGTGTCTTT
GTGTTCTAGTCTTTCTATGGTGCCCTTGTATTATGAACATAAAAGTTAAGCTTCCAGATCTCTCACAGGTACCCCATTTTCTCCTCCCTGTGCTTCTCTG
AACTTGTTTCCCTAACCACAAACAGAACAAGTTCTCTAGAGGTTGAGTCAGAAGAATTTTTGTGGTAAAGARGACATTGAAAGGGGGTWGGTCTACTAAA
TGTCTTGTGTTAGGGTTCTCCAGAGAAACAGAGAAATATATATATATTTCTATATATATGTATATATATTTTTTATATGTGTGTGTATATATATATGTGT
GTGTGTGTATATATATATATATATGGAGATTGTTATGTGAATTAACTCATGCAATTACAGAAGCCAAGAAGTCCCACAATATGCCACTGCAAGCTGGAGA
CCCAGGATAGGTGTCATTCMGTTAGAGTCCTAAGGCCTGAGAACTGTCATGGGAAGACTTTGGATTCAGCCATGACTCAAGTGTACCAGTGGACTTTTCA
GTTACATGAGAAAATGCATTGTCTTTCTCTTTAAGCAGTTGGGTTCATTTTCTGTCACTTGGAGGTGAAGGTTCCTAAAGACTACAGCATTCTTCCCATG
GATCATTGGATGGCCTCATGCAAAAGTGTTGCCCGGACACTGTGTGGGACAGATGAACCCAAAAGCATTTCTTCCCTAATATGCACCCCAACACCCAGAA
TCTCATCTATGCATGAGAAACAGCTTTGTAAATAGTAAACTAGGTGTCAACATAAAGTCACATTCCTATAACTCAGTGTGAATTGACCTTCTTGATATGA
GAGCTGAGTGAAGACAGAGAATGTATGAGGCTTTGGGTACAGGTTCCTGAGGCGTGCTCAAATGTACGTTAAGAGAAAAGACTGGAATAGGGAAWGAGAG
AAGGAATTGATGGATGTTAAAATGAACATATTAATTTTGCCTGTGGGCATGTTTCCATTAATTGGCTTTTGGATCTGAACCAAGAATAGCAGAATTGAAA
ACCTAATAAAAACCAAACCCATGAAGAGAAGAAAAATTTTCATAATAGCCCAAGTGAGAGTAATGACGTGAGCTAATCCAATTTGAAGTATAAACAAAGA
AATTTCTTCACGCAAAGAGACTGACTTATTTTGTTTCAGAACTAAATACCACGMAGTAGAGGTTAGGTCAGGGAATCTGGCCTAAATATATGGGGGGGTC
AGGGAGATGGAGGTTAGTCATTCCATTGGAGGACAGAAGAAAAAGKAACAAGAAGTTCTTTTATAGTGACTGACCATAAAGTTTTGAAAAAAGAGGTATT
CAAATAGCACTTTAATCCACACTGCATGTTATGAGAGGCTATGGGGAGATGTACAATTTAAAAGCTCACTAAAAAATGGCAAATTAAATTTCATTTTCTA
CTTACGGTTGATAGACGTGACTTTTCAAGGTCAGGCATATTAATTGGCTTTCAGATATTAAGCACTGTAGAAAGAGGGGACATATTTAAACTTTCCTTTA
AAATAGTGGTTTCCATCATTTTTCATGTTATTATACACAAAGAAAGTGACAATTTTACGGCACTACGGTAAATAGACTAGGTCATTTGAGGCAGAGATTG
CTGGCCTGGGCCACCCCAGGTCCACCTAGGCTCCCCAAAGACTGAGGAATACCTATTTTGYATACAAGTGAGCTGCATCCACTAGTTAAGAAGCCAAATC
AAAGACTGTCTATGAGGCAAAACATATACTGCAGCCATTTGGGGGAAAGAACAAAGCACTGAACTAGAGGGCAAAGACCAACATTTTGGTTCTAGSTCTG
CCAAGTGTAGGACATTGGACTAGGCACTTAACTKCAGTAAGCCTCAGTCTGCTTGTGTACAAAACAGAGTAAAAGATTTCTTGCATTTCCTACTTTACAA
GGTCAACATGAGGATCAAGAATACCATGTTCATAAACATCATGTACAACCATAGAGTCCTATAGAAATGTGTGGCCTGATGATGACAATGAGTATGACAT
TTTTCTTCCTAGTCCTACCTCCATTTAGACCACCCTTCCTTTCAAGAGTCCCCTGCAATGGACAGGAGTTGACACCAAGGAGAACAATACAGCTGCTAAA
TCTCAAGTGGCTAGGAGCACAGAGTGTGGGAAGCTATTCTGCAGCTGTGTTTTTGAGTTGGGCCAAAGAGCTAGTGGGGTTTTGGCTTCCCAAGTACCTT
TGTTGAAACTCCCTGGGGAATTTTGCTTTATGAAATTTCCAGCAATTGGAGATCCCACTGGGTTGGTGAATAGAAGCCTAAAGGGCTCCCTGTTGGATGA
AAAAATGTGTTTGAAGTCTGCTGGGAAGAGCTGTAGGAGGGAGCTGAGGGTTCTTCCATGACTCCTACTGTGCATTGACAGAAGCTGTCCCTACCACTGT
TGATTGCCAATTATTTTTGTCTCCAGAGCCAAAGAAAATATATTTGAATTTGACCCATCTTTCACTAGGATCTACAGATGGTGAAATATTAATGAACAGG
TGGGTTGCACAATATTCCAAGATTGCGTTAGAATTGATTTTTRTAGGCTAAATTATTAACACCAGAGTTGCTGACATATATTCTCATATGATTAGCAAAC
CCAGAAGCCTTAATATCAACACAGAATACATTCAGAACCATCAAACACAACATCTACTTTGCTGGGAACAGAATACTAGGTAAAGGAATTGAGATCTCAC
ACAACACTCCTCTGAAAATAGGGACAGCTAATTTTGTAATGGATTGCCAGCAAAAGCTGTGACAATGCCTACTCTGGAAGTCTCTAAATTTCTTTTCAAY
CTGAGAAGGGTGTTCCATGATATTTACTGGAGTAAGAAGTGATGGAGGAGGTAGAATAGTTCTGGAAGTCAGGTCTCTAAATAGAACAAATCTTGGGATC
CTCCAAGTTTCAGTCTATGCATGGAATTATGTTTAAAGAGGCAATATCTAGTAGCTAAATAATAGCTAAAATTGTTCCAATCATGACTTGCACCTCTCAA
AGATCATTATTCAAGTAATGCTTCTATCCTTTCCTCCAGCTCAGTGTTTCCTGAACTTCCCCTGCACTGATGCTCTTGCTTACCTAAGCCTCTTCTTCAG
CCTCTTCTCCATCCCTGGACAATTCAATGCACTGCATGGACCTTGCTTAGATTCTGATTTGAGCAAACCAACTTTTCTTCTTCTCCTTCTCCTTCTCCTT
CCTCCTGCCTCCTTCCTTCTTCTTTCAGATAGCATCTCTCTCTGTTGCCCAGGCTGAATGGAGTGGTGCAATGACAACTCACTGCAGCCTCAACCTCCTG
GGCTCAAGTGATTCTCCCACGTCAACCTCCCCCAGTAGCTTGTACTACAGGCACTCAACACCGTGCCTGGCTAATTTTTGTATTTTTTGTAGAGACGGAG
TTTCACCATGTTGCCTGGGCTGGTCTCAAACTTCTGAGCTCAAAAGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCA
CACCTGGCCTCAAACCATCGTCAATGCAACACTTTGAAGACAATGAGGGAAATCTGAATTTGGATAGTGTATTAGATGATACCAATAACATATTATTAGT
TTTGATAGGTGTGATTAATGGTATTGTGTTTATGTAAGAAAACACCACTATTTTTAGCAATCAACACTTAGATACAGAAAGCTAAAATGACACARTTCTG
GGATTCGGTTATCATACATCAGCCAAAATAAAGGAGGAAGGAAGGAAAAATGTACAGAAGTAAAAGTAGGAAAATACTGATAATTCTGGAATTTAAGTGA
TTGATGTTTGAAGTCCAGTACTATATTCTCTATTTTTGTGTATGGTTGAAATTTTTCCTATTTCCTGGGAAAATTTTCCTTGAAAAACTTTTTAAAGAAT
TTTAAAACTTCTTTTCAAAAGAGAAAAAGAAGGACTGGGGTGGTGGATCATGCCTGTAATCCCAACACTTTGGGAGGCCAAGGCAGGCAGATCACTTGAG
GCCAGGAGTTCGAGACCAGCCTGGMCAACATGGTGAAACCCCATCTCTATTAAAAATGCAAAAATTATCCAGGCAAGTTTCCACACACCTGAAGTCCCAG
AGAATCTCTTGAACCCAGGAGCCGGAGGTTGCAATGAGCTGAGATGGCGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGAACTTGTCTCAAAAAAAAA
AAAAAAAAAAAGGGAGAAAGAGAAAAGCAAATGCAAATATCTTCAAACGTCATAAGAAAAGGCAAAAGTGAATCCGATAAATATATTTTAAAACAATAAT
AAAAGAGGCATTTTGYTGACAGATAAATTCATGAAACAAGACTGACTTTTTTGAATGCCATTCATAGAACTGCCAGGTCAGCTGTGTAGTGTGAGGTATA
TTTCAATGCAAAATACTGAAATTATAAAAACAGGATTATGCACACAAATGTTTCAAGCCTTTATAATTTTTTTAAGTCCAAATGGCATAGGTCCATTTAT
AAAATATTTTCTGAATTTATATTATGATTTMAACTAGCAATATCCTATTAATTAACTTATTTAAAATTCATAAGGAGACAAGTTATTTAAAAAAAAAAAC
ACTCTTGAACTGAGTAAAAAATAGCACGAAGTGAGGTTCAGCTCTGGGGAGAAGGGAAGTTGTGCTAAAACTTTTCAAAATGGAATTTAACCTCAGACTT
TTAAAGCATCACTTTCTTTAAGGATTCACGGCTTTCCTCCCACACTGTCTGGTCTGGGGCCAGTGTCTGGAGTAAAGTATTGCTACTCCTAAATGAGATT
TTAGAAAGTAGCATAGTTTCTGAAAGGAGCAGCCACTGGAAACCAAAAACTTTCTCAGGGTACTCAAACGGTTTGAAGAGAACTGATAYTTGAAAACGGA
AATCCTTCCATTTGTGACAACATGGACAAACCTGGAGAACATTATGCTAAGTGAGATAAACCAGTCACAGCAAGACAAATACTGCCTGATCTTTTGTATA
TGTGGAATCTAAAATAGTTAMTCTCCTAGAAGCAGAGAGTAGAATGGTGGTTGTCAGGGCTGGGGTATACAGGAAATGAGGAGATGTTGGTCAAAGGGTA
CAAAGCTTCAGCCATGCAAGAGGAGTTAGTTCTGGAGACCTAATATACAGCATAGTAACGACAGTTAACAATACCGTATTGTAGACTTGAAATTTGCTAC
ARGGGTAGATCTTAAGTGTTCTCACCACAAAAGAAAAGAGGCAGCTATGTGAGGTGATGGGTAAGTCAACTAGTTTGATTGTGGTGATCATTTTCCAATG
TATACATATATCAAAACATCAAGTCATATACCTTAAATACATGCAATTTCTATTTGTCAGTTATGCCCCAATAAAGCTGAAATTTTTTTTTTTAAATGAG
AACTGATGTTTGCATCCAGTTGCTGCTAAAGGCACAAATTTTCTTTAAAAACTATTGAATGATTTTCCAGCTCTTACAGACATACTGGGAAGAAAAAAGT
TAAAAACTATTTGAGAAATTTGGATTGAACTACCTCATCCTGTATGAGGTAAGGCCAATGTGCAATCTTGCATTGCTAATCACTCAAGCAGAGTGCTCAG
AAGCTGGGAAACAGGCTGCGGTTAAGAACATTGCTTAAGGAAGAATAATTAGATCCTTTCCGTGTCTCATAGCCACAATTTTTTTCCAGCTTTGGCTGTT
GTTTGAGCAAGACCTTGTGTATCAAACATTGATCTAGCCAAGTGGCTTAGTGGAGAATTTGCTCAAATTGGTTTTTTAGTATCTTGTTGGCAGGAGGGGA
AATGACTGCTTGAACGTTTCAGCCTTAATGCTGACATGTGGTGACTTGAAGCCAGGTGAATGAAGGTTCCTCCAGCTAGAGAGGTAAGATGAACATGCMG
GACCAGGAAGAAAGCAGGTCATCATGTTAGACAGGTGCAATTATGTGCAGAGACTATAAAAGAAGAGAAAAAGACATTTAGTCATCAGAGAGCAGCCATT
CAAGTAAGACCTTGAAGGAAAGGGAGGGTGAATCAAACAGAAAATATAATGTAAGCAAACGCACAGAGGCTATACTGTGGAGAGGATGTGGGGAAGAGGG
AAGTGGTCCATTTGACTGGAACAGAGGGTAAATTTAAGGCAGTAGGAGGTCATAAGACTTATGGAAAATTTGGAATGCCAAAATGGGACTGTTATGTGTT
AGGTTGATACTGGGTGGGGGCACTGAGGATTTTTAAAACGTGATCAGGGCTGCCTTGTTGAAGGTAAACCTAGCGGTGGTAAGTCAAATGAAAWGGAGTC
ATGAGAGAACAGGTGGTACTAATCACTACCAGTACTGAGTGCTTTGCAGATGCTACTTCATATACATAATCTGATTTAATTCTGATAGCAAGAACCGTTA
TTAGCCCACTTTACAGATGATAAAATTGAGGCTTAGGGTGATTAAACAACTTGCTCAAATTCACACAGCTAAAGCAGAAGAGGCAGTGTTTTAATCTAGA
CACAGGTACCTGCCCTTAATCACTATGCTTGACAGCTTCTTAAGCTAGAATGGGTGGTAGGTGACYGGGGTCTGAATTAGGAATTTGGAGGTAGTAATGG
AAAAGAGGGATCAAATTCTTAGAGGTAGGATAGGCAAGACTTCACCAACAGGAGCCTACGGAGGTCTGTGATTTGGTGGCTGCGTGAAAAAGAAGAATGA
TACTGTTACTAACCTAAATAAAGAAACCAGAAGAAAGACTTGGCATCGATTAAAAGATTATTAATATGGTTTTAGTTATATTGACTTTGAAATGCCATGA
GTAGATCCAGTGAAAATGTCCATCCAGCCATCGGAAATGTAGTTTGGTTGCTAAAGAGGGGAGATGGAGCTAGAAAGAGAAGCTGAGGCATCACGTGCAA
GCAATAGAGGGGCAAATACGCAAGGGAGGGTGGCAGAAGAAAATCATCCCAGGTGTTTCTTTTCTTCTTACTCAGCTCGGAATAGAGATGACTTCTGAGT
TTTTATCTACTCCCATTCAGGAATGAAATGGAGAAATGTAGGTCAAAATTTTACAAAATGGTCATGTAGAATAATTCTCTGACTTCCCATCTCTGGGAGG
AAGAGAGGCAGCTTTAGTAGAAGTGTGAAGATTCTAAGCAAAATTTAAGTAAAATTATTAATTTTTTTAGAGATGGAGTCTTGCTATGTTCCCCGGGCTG
AATTCAAACTCTGGGCTCATGAGATCCTCTCACCTCAGCCAAGTATCTGGAACTGCAGGTGTGCCTCACCACTCCTGGCTGTCTAACTAAAATTATGAAG
GGCAACCCATTATCTCTTTACTTTCTCTTGCCCCAGAATAAGACAAGAATGCCGAGGCCTGGTCAGTATCCCAGGGTACCACCGCCAGTGCTGGCCAGAG
CAGGCTCTGAGAGGCTAACRCAGGCCACAGAGCCTAGGGCCTTGTTTTGGAGGGTGAGGTGAGGCTTAAAGCTGGTAGGATAGGCGCCCTCTGAGATTCG
CCATCTGAGAAGTCAGTCAGTTCTTTATTAAACCATTCTAAACAACAGAAAGTGCAGTGGGTGGGCAAGATTCCACTGCTGAATTCTTCAGCAGGCCCTG
CAAATGAATGACATGGTGTCAATGGGAGGGAAAGTGAAGCAATAAACACAGATGGTGTTTGTGCAATCTCATCTGGGTCAAGGAAATCACCTCATCACTC
TTCTTTGATGGGCAGATTCCTATCTCTTAGTTTACCATTTTCCTTACTAATTCCCTCAGCTCCATCCAATGTGCATTCTTGTGTCAAATTGCATGTTCAT
GAGTATATTACATGTTCCTGTTGTGAGTATGCAGGGGTTACCATGGGATGACCCCTGTGCTATGAACTTGGAACCTCAAGAAATTAGATTGCCTTTTAAG
AATGAATCAGAGAAGAAATACAGGAAACCACTTTAAATAACAAATGTGTTCCTAGGATAGCAAGATTTGACTGGACCCTGACTGACGAGATTACTATACC
TAAAGAAAGAACGCATTCGTGAGAAGGAGAGTTCTGCTCAGTTATGAACAAAGCAACTGCATTCAATAAATATTTGTTGAGTACCTACTGTGTTCCAGCA
GAGAGCTCRCATTCTAGCTGGGGAGACAGAAAACAAATAAGTGCATTTATAATTGGATGTCTGCTTGTGATATGTGTGTATCCCAGGCAGAGGGTCCACA
GAACAAACARCAGCATCTAGTGTGGCTCGGAGATGTGCTCACTCAAGTTCTATGCCAGATTTGAGAAGCCTGCTTGACTCTAACATCCCAAATCTGCATT
TCCAGCACTTGGGTGACATTTTGACCTACCTAATAGCTCTCGGGTTGATTTCTCCTGTGTGACTTTCATGAAGACATACATAGAGGAAAAAAAGCACATA
TCAAAAGTACTCAGGTCAATGAATTTTCCAAAGTGAGCACACCTATGTAGCCAGCACCCCAAATCCCTCCTTATAGCCCCTTTTACCACCCYTACCACTG
AAATGTAACCACTATCCYGAGACCAGCACCATAGGTTTGTTTTGCCTTTTTCTGAACTTTATATAGATGGAAATATACAGTTCATACTCAATACATGCTG
CATAGATTCTTTGATTCAATATTACATCTGTGGGATATATTCATGTTGTTGTTTGTATTGGTGTTTTGTTCTTTTTTCATTGTCAGATTTCATGGTATCA
CTACATCACAGTGTATTTTATTTAAATGGACATCAGGGTTATTTCCACTATGCCACTATTCTTTTAACAAACTATTTTTCTGCAGGAATCTGTTAGAAGT
GGCTTCTGATGTTTGCAACTAAGAATCCTGCCTGATCCACATTTGTTTTAATTCTAAATTTGTATTGGGTTACCTAGGTTTTGTATTGATTAAGAAATCA
AGTGAAAATTTCGGGGTTTTTGTAGAAATTCTTCTTTTTAAACTACGCTTTTGAAGACATAGACATATTTTTCATGAGCTATTTGCCAACGAAGATCTGC
TTACTCTGTTTCAACAGTGAAGCCTAATGATAAAAAATAACATTCCATGTAGATAAAAGCTGTGACTTCCCAGCTTAAATACAGCACTTTCTGGAACTAC
AGCTATAACTTGTGTTCTCTTAGGTTGCTAAACAAGTTGGTTAGGAGCTTTTCTCCTCAGGGTTCAACCACATGACTGCTTCTGGGCAGTTCGAGTGGTT
TTCATCCTCATTGCACAATAGCAGAGGTTTTGAGGTTGTGTTTTTCTCCACATTGCCCATTTCCCTGGCGGCCACTCTCAGGAGCTGTGAAGAGCTCAAT
TTAAAGACAGTCATATCAGTTATTCATCAATTACTGGGATCTTTTCATTTTTTAAGCATATCATATCAACACCCCTTTTGTAGGACTATAGCCTGTCTGA
GCGGGGCTGTAGGAGAGAAGGGTATACCTCTCTGTCATTACATCATTTTCTTCTTTGTCCGGGCCATATCAATTGCCAATGCCTCATTCAAGGCCTGACT
TTTGAGCAATGAGATGGACCAGCCAGCAGTCATTCCTCTCAGTGACTCAAGGAGACTGACATTTGTAATAACAAGGAGTTACTGAGCACTTGGTATGTAT
GCCAAGATTCTTAGTATGGACACCAGGGATCTGCAGAGCAAGCATGTCCATTTCATTAAAACCAATCTCTCCACTCGTGCTCTGGATACCATCCCCTTGT
CCTTCCCAAAGACTTTCCTCCTGCAATAAACCCTTCTCTCCCTAACATGATCAATTTCTCTCTCCCTCCTGGATCATTTCCATGAGAAGGCAGATGTGTT
CTGGTGCCTACTTTCCAAAAAAAAACATTCTCTCACATCATTGCTCCCTCCAGACACAATCCTATTTCTCAACTCTTTCACAGCATGCCTTCCTGCAAAG
AATTGTCTGTAGTCACTGCTCCACTTCCTCACCTCCTTTTCTTAGCTCAGCCAACTCTGGTTAACTTCCTTCTCTCCATGCCCCTGAATCTGTTCATTTC
AAGGTCATGAATAACCTCTTTTGCCAAACGCAGTGGCCACCACTGTGTCTTCATCTTATTCAACTTTCGAAAATATTTGACATAGTTGATCACTTCCTCA
TTCTTAAAGCTGTCTCCTCTCCCAGTTTCCATGACACCACTTTCTCCCCTTTTCCTCTGACCTCACTGGCTGCATTGTCTCAGGCCTTTTTGCTCGTTTC
TCTTTCTCTGATCTCTCCTGGAATGACTCCAGGCTCTGTCCCAGATCTTCTTGTACTGTCCATCTATAAGCTCTTTGTAAGTGAGCTCATTCAGTCTCAT
GTCTCTAAATACCATCTACATACCGATGGCTCTCAAAATTAAAATTTCTGATCTTGATTTATCTGACCTATCCCCTAAGGTCAAGTTCTTATATCCTACT
GACTTCTCTATATCACTACATGGGTGTCTAAGAAGTTTCTCAAATGTAGTATAGACAAAGGTCTTGGTTTCCCAATGTCCATCTTTGCCTCTCTCTGTTC
TCCCTAGTAAACAGCAGCAATTTTCACCCATTGAAGGCAAACATTTAGAAGTCATCCTTAAGTTCTCTCTCCCTCACTTTCCCAAACGAATCATCGGCAA
GTCCCGTTGGCAACAGTTTCATGTCAAGAGTTAATTTTAAGAATCTTTTATTCAATTTAAACTGACAATTTTTAAAAGTTTGGAAAGTGGGAGAGAAAAC
ACCCATGTTTTCTCATAATCTTCATAATTATCATTTTAATAGCACATGCTGTATCATTGAGTAGACATATCCTAATTTACTTTACAGTCCCCCTAATGTT
GTATCTTTGGAGTCTTCTCACATTTTATTTCTATAAACAATTTTCAATGAATGTCTGCATGCCTATATAGATGTTTTATTTTTSTTTTTAAAGTAGAGAA
GCTGATTTTTGCTGTTGTTTTTGTTGCTGTATAAAAGATCACTGAGTGATTGCCTTAGTTATGCAACAATAGAGAAATAAGTGTCTATTATTCTGGTGTT
CAGGTAAAGTAGAATTCTATCAAAATTGTCACAAAATTGTCTTTGATGAGAGCCATCATAGTGCAAAGTTGATGACTAAAAGGAGATGGTTAAGTTGTYT
AAAGAGCAAGGCCATAGGAGAGAAGAAACTAATATTCAAAGCTTCCTCCCACAGTTCAAAGTTAGAGAAACCTGAGAGGGGTGTACTGGTATGACCACCC
GAGATCCCATCGCTGAGAAAGATAATGGCCCTGGAGACAAAGACTGATGAAGAAAGACAGTATCCAGCTGTGATGCAGATGAAACATGCGGCATGGTTGC
ACTCACTATGCAGCCAAGGCTGGAAGCCACTCTGGATCCAGCCACTCTGGCACAGCGTTCTTGCTCTAGGAAGAACAACTGAACATGGCCACACAGGCCT
CACAGCTGGCATATGGAGGCTGTTAATAAGCTGAGCTTGAGGCTTCAAAGGACTCTTGTAGCCTGTGCTGGATCTAGCAGTGACCAGTATGCCAGTGGCC
ATGGATGCCCAGGCCCATGTTCAGTAGTGAAGCAGGTGCTAGCAGCAGAAGCAATAGAAATGGAAACTGGGAGATCTGCTGTGGATGAATCTCATTATCT
TCTTTCTCTGACCCTCTTTGGACTAAATAAACTCCCAGTATTCTTGACCAACAGAGGTAGGGTTGGAACAGAACCTCAAAAGTCATCATYAGACTTCCTA
CTAATAGGGCATTGGAAGTTCAAGCGACTAACTAGGAAACAGGTTAGTATTTGTACCCCTACACTGTGCAACAGATTACATACCATTTGCTCTATTTGGC
ATCCTTTCCTTAGGCTAGATTCCCAGAAGAAAGATTACTGATTCGAAGGGCATGAACATTTTTATGACTCTTGGCCTAAATTACTAGGCCAAGGTTTTTT
CAAAGGGATGCACTAATTTTCACTATTTCCCCACACCCTTTCAGGTGATAAATAATTGACTTGATTTGTTTACACTGACGCCAAGAATTCTTGGGAAGAA
GGATCAAAGTGAAAAGTGGTAGCCCATGGTGGGGAGGCCACACTCAGTGCAGTTGTGAAGTCAGCAGCATTTTTAAGCCCATTCATTGCCAGTAGCCCTG
AGATGAGCATTCCCAAGCTGCTTCCCAGGTCCCTCCTCCACTCTCTCAGGGACATCCATTCTGTACCAGCCCCCTCAGATACTCATGCCCTTGCCCTCCC
TTCTCCATGCTCATTAAAACCAGCTTAAGAGCAGATATGACATCAGTCACTTACCTTTTCGTGTGGCTCTAAATCAAAGTGTCACCTCTCCCAAGCACAT
GCTTGCATCTTAGCTCTGATTGAGGAATGAAAAGCTTTGTTCTCTGTTAAAAGAACTTTGAGCTTAGATGCCCCAGACTGAGAAATCCACCAAAAGCTGG
ACCTTTGACTTGAGCGGCAAAGGACCCCCATAGTCAGGCTGTGATTTGAGGAGCATCAAGAGGCCAGAGTTTCCAAGTTGGGACCCAGAAGGTGGGGTTG
GCAGGGGGAGGGTAGGAGCAGCTGGAGACTCTGCTCTACCAGGGGAATACGGAGGTGGGGACCAATCCCAGGGTAAGGAATGAAAGTAGGAGCCCCAGAA
GCTGAAAACATACTTCACCGATGTCAGCATTTTACCCAGAGCCATTCCAAGGTGACCATAACTCACTTAAAAGCCTGAAAGCTGTTTTATGCCAACTAAT
AAAGTGCAGTTTAATAAAAAAGTTGTCAATCATTTTTATATAAAATGTATTTGGGGCATGAATGGTTTTGATCTTTTATAAAGTCAAAAGCTTTTAGTGC
TGCTCATGGTTATAATCACTGCGTGAGCCTGGGCAAGCCTCACAACCTTGCTGGCCTTGACTTTCTTATTTATGAGCTATAGACAATTACACCCAGCCTG
CTGCCTGGAGGGCTGGKGAGAGTGGTGAATTGAGTGTTCAAGTTGAAAGTAAGAGGTGGTCTTCAGCGGTTGACTCCAAGCATTACTTATGATCAAGGTC
TAATTTCTAAGAGTCCAAAATTAAATAACAGGTAGAATTGAATGCCTTGAGCTTGTCTAGTGATATGGAAGTGTAGCTAATAGCCTACAGCCTAACCGTG
TAAGATACAACTGGAATATAATACAAACCCCATGGAGAGTAAAGGACAAAGAGAAATTAAAGTAAGAGGCAGGAAATAATAAAACGATATTTAATTTGGA
CATGTGCCCCCAACGCATCTGTAGAAAAATCAACAAAGCATAAATACCAATGGGAAAACCTAGCCATAATTACTCTAAAAGATATAGAGACAGGAAATTG
GATAGGAGTTTGCAGTGTTGTTTTGGGCTGCAGGGATGCCCCTGTGTGCCTGCAAAGGGAAATGAGAGTTTATCTCTGAATAATCAGATGGAATTGTACA
TCAAATAAGGGTAAAATTGGTCATAGTCATCTCATGATTGCAGTGGTTTCTATGTTCTCCAGGTCAGTCCACCATCATTGAGGAGACGTGGGTGCGGAGA
AAGGGGTCAGGTATGTGGTCAGACATCTCTGTGGGATCTCTGCTGCTAACTAGCTATGCCACATTAAGTATGTTTTAACTTGTCTGACCCTCCAGTTTAG
CTCAACAAAATAGAAGAAAATCTCCCTTTCAAGGCTGTTGGAAGGACTACAGATGAAAAGTATATAAAGTTCCCAGCAGATGGAAAATATCAAATAAATG
TCAGCTAGTAGCAGCAGCAGGAGCAAAGATGAAGGCCGACTCCTGAGTTTTCAGACTCCACAGATCCCAGAATCCTTCTCTGCTCTGAGTTCTGAGTCCC
ACAGTTCTGATGCATCCACCTGTGCACCTCACCGGCAATCAGTGGGAGCCTGGGAATGGTTAACTAAGAGGGGCTTGAGAAGGCAATGAGAGAGGAGCAC
AAGGAGGTAACCAGCCACTCCACTGAAGCTGTGTTTAGGTGGTGGATATGATCTGCCAGCGGCCCCTCAGCCAAAACCACCAATACAAATCCAYGTAGAC
AGTTTCTTAAACAAACTTAGTAAAATCAAATCTAGAATATCTCCCCCTTTCAAACAATGCATTTTCCCAGTGCCAAAGTACAGCACTTTCTTAGCATCTT
CCTTCTACAAATGATGGCGCGATGCAGTTTAAACACATACCTTGCCAATTCTTTTTAAAATGTAGGCTTATATGATAATTTTAATCACATGCTTTCCCAA
TTATTACATGTGTATGTTTATATGGTAATGTTAACCACATGCTTTGCTACATGCTTGCTGTGAGTGATGTTTTATTTTATTTTTAGAGACAGGGTCTCAA
TCTGTCACCCAGGCTGGAGTGCAATGGTGATCATAGCTCACTGCAGCCTCGAATTCCTGGGCTCAAGTGACCCTCCCACCTCAGCCTCCCAAGTAGCTGG
GGCTCCAGGTGCACAACCACATGTTGCTGATTTTTAAATTTTTTGTAGGGATGGGGGGTCTCACTGTGTTCCCCAGGTTGGTCTTGAACTCCTGGCCTCA
AACGGTCCTCCCAACTTGACCTCCCAAAGCACTGGGATTACAGGCCCGAGAACCACACACAGCCTGCTGTGAGTGATTTTAAGAGAAGCTGTTAGAGATT
GGGGCCCTAGCATCTCATTRAATCACTGGTTGACACCACCACAGCCTCCCAGCTCTCAAGCAATTCCTAGGAAAACAGGAATTCATCGGGAAAATATTCT
TGATCCTGATACCAAAATTAACAAAGGGGGCTGCTTCTTGTGTTGTATTCTCAACAGCAGAAATGACAGTTGTGCCCATCAAAACCCCCAGAGACCCTGA
CCAGCAGGGAAGAGCAGTAGCAAGGAGATAGGAGAGAAGGGTGGTATAAAGAGTTTACCTTCTTTATTTTTCTCTGTCCACAGTTCCTTTAYGCGGAAAG
CTATTTACAGCAGCCACAGTCTCTGTTTGGTTTGGCATGACACTGACTTTCTATGGATAAGTCAGGATCTCATGTCCTCATCTAAAAATGGTACCATATT
GAATGACGCTTTACCTTCATTTCTCTCACTTCACTGGTTTTGGATGAGCATAGGGGCACCTTTGGGTCAGAGTACTTTTCAGAGAGGGACAGTCAATAAA
AAGCCTTCGTGTATAACTAGTCCATTTTCATGCTGCCGATAAAGACATACCTGAAACTGGGTAATTTAYAAAGAAAAAGAGGTTTAATGGACTCACAGTT
CCACATGGCAGGGGAAGCCTCACAATCATGGTGGAAGGTGAATGGCACGTCTTACATGGCGGCTGAGAAGACAGAATAAGAGCCAAGTGAAAGGGGTTTT
GCCTTATAAAACCATCAGATCTCATGAGACTTATTCACTACCATGAGAACAGTATGGGAAAACTGTCCCCATGATTCACCTATCTCCCACCAGGTCCCTC
CCACAACACGTGGAAATTAAGGGAGCTACAATTCAAGATGAGATTTGGGTGGGGACACAGCCAAACCGTATCAGTGTGCCCAGAGAGAGAGTGGGTAAGA
GGAATAGACCAAAACTTGAACTATGAGAAAGAGAAGTAAGACGGTAGGGAAGACTGTAGTTCAGAATCTGTAAGTTATAACTGACTTCTCACAGCCTGGC
AAAAAATTGGAAGCTGGAGTATAGGACATAAATTCATGAGCAGTAGCAATTTTAGCCAAGTCGAGAGAAAAGCATTGAACTTCAAATGAAAATAATGTTC
AAAGAGGTGAACATGAAGTTCATTCAAGATGTGGAGGGAATTATGAGCAGGGAGATGCATGCCAAGAGAAACTAGATGGTATTTGAAAAAAGTGAGATTC
AAATTAAGGTTCACACACAGAGAGAGAGAAAGAGGGATAAAACAAAAATATTTTAATGGTTTCCTTTTCCTGTGGTCTGCTTTAGAATTCACCCAAAAGC
CAATTGTTTCTGTGGTTATTCAAATTTTGTTTCTCTTCTCACTCCCTCCTCTTGTCTATCCTCTGATCSCCAGCATTTGGACAGAATAAGAGAGAGGAAG
TAAAACTCAAATCATTTTACTTTACTTTTTCTTGGCCATTTGGCTAAGAGATGTGTGGGGTGAAGAGGTGCTTGTGGCCAAAGTGTGATTTGTAAAATGT
GTGGGTATTTTTTGTTTGGTTGGTTTTGCTTTTAGCTGCTATACTTATGTTACCCCAGTTTACCACATCCAGTCCTCTTTGGGCACAAAGGGAAAGACTC
AACAAACATTTGTTGAGTGGCTTGACTCAGCTTTGCTCCTTCTCCTGAGTATTCCTCCGTGGAGTTTTAGCAACTTCCCATAGGAAATCCAGGCTAAGGT
CTGATTCATCCAGTCCTGAATAATGTGTTAATCATGAATTGGATAMAAATCATGAATTGGATACTACTCAAGAGGATAAGCTGTTTTCAAACATCTTAGC
AGTAAATATTTGCAAACCAACAAGAAACACACTAAATACAAATGGCGTTTCTCAATTCATTAGAGCAAGCCTGCAAGAACCTTGACCTGGGAGTAGTGAG
GCCACTTTCTCAGCSACTAGTTCATGCCATTATATATACATACCAGTTTTAACAATACATTATTTTTATAATTTTCAATGTTTGAGATTATTCATGAACC
TGAACTGCCCTTCAACCTGTAAATCTGAATAAGTGAGGTTTTACTATGATTTACAAAACCATAAAACAAGRCAGAAAGAGGTCTGTTCATCTAATAGTGG
CTGTTTGTTTCTCCTTTCCTTTTTGGAGAGGAGGGAAAAAAAGAGCAAATGTCTATCTAGCAAGATGACGTAGGGCTGGATAAAAAGATAAATGCCTCTG
AGGTGTGTAGGGATATTACAAATGTGATTTGGAAGAAAGACAAGATCTGAGGGGGTGGGAAGTTCAGTGTAGAAAGTCTCTTCTATCAGGACATGGATTC
TAATTCTCTCCTACCACACTGGGCATAACCATCAGGGAATTTAAAGTCCCTTCCATGCCAGGCATGCCCCATCACCTAGGAAGAAACTCAACCCATCAGC
AGGCATCCAAAAAGGCGTCAGCCAGGTAGGGTCCCAAAGAGCCCCACACCTYGGGTTATCTGGGAAAATCCCAAGTTATTTAGAAGACAGTGTACCTCTT
GCCTCTACCCTTGGTGGTAAACATTGCTTCAGAGTCACACACACACAAAAAGATAAGCTTTTTTCTCAATTGAAAACTGGAAAGTTGAAAGAGGAAGTAA
AGAGAAAAAGAAAGACATATACTATAWTCCAGGAGTCCCACATGTTCAGAAACTCTTCACCTGTGAATCTACATTTTACTGAGTTCACATCTGCCTTCTG
AAGGGTAACCACTCTTTACCCCCCAAATTCAACTCATTACTTGTTCAACTTTGACCAAGAGGTTTTTTTTTTTTTTTTTTTTTTTGAGATAGTCTCGCTC
TGTTGCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTATAAGCTCTACCTCCTGGGTTCACGCCATTCTCCTGCCTCAGTCTCCTGAGTAGCTGGG
ACTACAGGCGCCCACCACCACGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGGCAGGATGATCTCGATCTCCTGACTTC
ATGATCCACCTGCTTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCAGCCGACCAAGAGATATTTTTAAGAAAAGTCTCATAAAAG
CATAAAATTTTATATATGGCAAAAGCAATCAACATCTATAGAAAACTGATAAACACATATGACTCAGAGGAAGAAATTTCCCTCTATGTATTATTTACTG
TTAAACTTACTATGGCTTATAAGGCCTTGATCATCTAAACACTTGTTTCGATTTATCCATTCTCTTCCTCTCCTCTTCAGCCTTCTTGAGATTGTGGGTC
ATCTCCAGGGATACTTCTCCACAGTTCTACTATCAGTGTCTAAGGGATTCAGGTTAGGGCAACACACACAAAAAGTCAAATTCAGTTATTCAAGCACCAA
TTAGATAATGAACATCTGCCTGGGGTACTCACGACATTCTGGGCTAAATATTCCCCCAGAGAGAAGAATAAGGGAGTACTCAGTGGGTACTAATGTCTGG
TCTGTGACATGACAATGAAGTGAAGATTAAGTTCCATCTTTACCCCCATTCACCATTTATCTCCCAATCTCTCTTCCCAAGTCATTCTTTTTTTTTTTTT
TAATTATACTTTAAGTTTTAGGGTCATTCTTATCTTCTTCTCATCTCTTACCTGTTTTYTCCTGACCCTAATTCCTCAAAGAAGCTTAATTCACTTCTAG
ATCCCCTCCTTCCCCCATGAATATAAAGAAAATAACTATATCTAGTTCTTTTAGATGTTCAAATTGACTTGATTGCTAGCTGAAATCAAAATTGACCAGC
TGAAGTGGTTTTCAAGAATGTTAATTCTTATTCTGACCACTGGATTAGCACAATGGGCCATTGTACACATAAGTACACCCACAAGGCAGTCAGTAAAATA
GACAATGCCTAAAGCTGTAGATACACTATATACATGGCATGAATCTTTTATTCATTTGTTTAGTCTACAGCAGGAAGCCAACTGCCTCACTTCAGGCCAG
AGGGAGAATGCTGAGATATTGTACGAATACATGCAATTTTCCAAGCTTCAGGAAATTTGAACTGAAACATTGACAGGAAAGAGCCCATAGTACACTTGCA
TGTTGAGCTGGTGTTTAAACTCTTTTTCCCATGTAATGAGCTCATATCCAAAATGTTGACTCAACGTGCATGAGGACTTGGCAAGTCCTGTGGGGAGGAG
CGCCCTGTCACGGGAAACAGGAGAAAAACAAGGCCGGCTCAGCACATTCTCTCAGAGCACACAGGCCTTCATGGGCCAGAGTTTCTGTTATTAAAAATAA
GAAAAGAAAAAAAACAGAGAATGTCTCCTCTTAATCCAGCAATAACTCCAAGAAGATAATAAGTCAACAGTCACTTTTTTCATGGCTACCTACTACAGAG
TGTCCTAGTAAAATATATACTTGATACATTAATATACGCTTTAAAAAGAAYAGCAGTTAGACATTAACCAATATCYGTTTTGGTTATGTTAAAGTCACAA
ATGTTTAAAATGCCCATCGTTTCACAGTCAACCACATATAAGATATATCTTGCTTTATTAAGTGTATTTAACACCTAAAAGTGCCACACACTTTCCAGGG
CACACTCATCTGAGGGAGTTTGTAGAAGATGCAGTGCTCATGGGGCCCTAGGTTGTTAGCTCTGAGGCTGCCATGCTTCATTCACCAACATGTATTCCCT
TACAACTTGGGCCCAGCAACAACAGATTTACTATATAAGCCTCCAGTACTTCCTGAAAAAGTCCTTTCCAAATACCCTCAAAAACAAACAAACAAACAAA
AACAGTCCTCTTTCTGTGTTTCAATCAAGGCTATAAAAGTAACCCATGTTAAAAAGCCAGGATGGCTGCAATGAATGGAGCACACAGAAGGCCTCCTGAG
CAGTATAGACTTTATTTTTCCATCGTGGGGCTCCTGTAATTTTTAAAAGTCTGTTTGAAGATATTAATTTGGCAGGAATGAGGAAGATGGATTCAAGGGA
TTAGGAACTGTAGGGAGATGTAGCAAGTGGATGAAGGCCTGGACATGAATAATGTTCACAAGAATGGGAAGGAGGGAAAGATTAAAAGGGATATTTAGAA
AGAAGAACTGACAAGCCTTGGTAACGGAGCAGATATAGGAGATAATGAGGAGAGAGGAGTTGGAGTTGGAGTTGGTGAGGAGAGATGGAGTTGGAGTTGG
ATACAGYGACAACTTCGAAGTTTCTATCCAGAGGCTGGGAGTGTGATGGGCCATTGACAGAAATGGCAAACGGAGAGCTGGTTTGCAATGGATCAAGATG
AGGGTTGAACTCAGAGATTCTTAAATCTAAAACATCTCAGAAGGCACCAAGCCCAATTTTATACTTCCTTTCTGTATATTAGAGACTGAGGCCCACAGAG
GAGAGGATAAAGACCCGTTGAAGGTCTTAGTTAGTTGGCATGGAGCAGACACTAGTACCCAGTCTTTGGTCTCTTGTTTCTATGCCTATGATCATTATTC
AATGGTCCTGTGCCTAAGCTAGAAATCTTTTGATTGCGAGTGATGGAGAACCCAACCCAATTTGACTTGAATAAGTAAAGGAATTTATTGGCTCTTACAA
GTGTAAAGTCCAGAGGTTTCAGTTGAGGCATGGTCCAACAGCTCAACAKTTTCACTGAGCACCTAGTTTCCTTTTGTCTAATCTCTGCCCAATATTGTTC
ATAGTTCCAAGATGTTCACCAAGAGGTCCCTGAGCTGTGTGCTTTCTCATTTACATCCAGCAGGAAAGAAAGAAGGTTTTTGTTCTAGAATTCCAAGCAA
AAGTCCTGGGATTCACTCTAATTGGATTTGCTTGGTCATATGTCCACCCATGGCCAACCACATGGCTGGGGAGCCAAATGTGCTGGTCTGGGTCACATGT
TCCACCCCTGGAGCCCCAGGTAGAATCAGATTCCATAGAGCCAAATGGATTCCCAAACTCCAATGAGGGCTGCTAGGAAGAAAATAACAGAAGCTACAGC
ATCAACCAACAAATGTCTATTACACATTGTTTGGCTAAATCTCCTTCTGTTTTTTCCATAGCAAGTTTATGACTTTTATTTTTATTTTATTTTATTTTGA
GGTGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGTAGTGGCACGATCTTGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGC
CTCCTGAGTAGCTGGGACTACTGGTGCCCGCCACCACACCCGGCCAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCT
CGATCTCCTGATCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGACACCGCACCCGGCCTATGACTTTTATTGTTAGATA
CAATGATGAAGTGGTTTGTCCACAAGTTTTAAAAATATACAGAAATCAGAATTGCCATACTCACCATGGAAAAAAGGGAGCACAGCTTTAACAAGAACAT
TTTAAAGAGAAAGAAAAGTAATTAGGGTGAATAAATTCAAATTTTAGACAAAGTCAGTCATGGTGACATGTGCCTGTAGTCCCAGCCAGCTACTTGGGAG
GCCAAGGTGGGAGGATCCCTGGAGCCTAAGAGTTTGAGTCCAGCCTGGGCAACATGGGAAGACCTTGTCTCTTAAAAAAAAGAAAAAAAGAAAAGAAAAA
ATTGGTAAATGCAGCCAAGTCTTTGTCACTAAAATATATTCTAGGCAACATTCTTCAAAGCCAAGCAAAGTCTGTGGCTGCTGTGTGCTGGGGCTATTTC
CTCTCAATTCAATCATGGGTTGGGGTGATGGTTAATAACCCTGAAATTTAAGGTCTTTTGTCAGTCTGGCATCAATGATGAGTGGTGTGACAAGGCTTGG
TGTATCACTGATAATTGCTTAGAAATGACTCCACACTACCCAGTTTTTTGGTGTATTTTTCAGCAGTATTGCATAAGAAAGTCTTTAGCAGCCACTGGTA
CATGCTTCTGAGAAGCATTTGACCACAGAATATCTTAGATTCAAAACACATTGCTTTGTGGGAAGAAAGGCACCACCCAGCACACACACCCATCCTAATT
TTGAATGGACTTAATTTCTGAATTCTAGACACTGCCTCACAATGATATAAAAACAACAAGAGCCTCATTAAAACCCCAGAGGCTGAGCCCACAAACAGGA
ATTCATAGAGTCTCTAAGAGAAAGATATCTGGGCAACATTTCTAAATTTTGAGCTGTCTGGCTGGTTGAGACAGATGATCTGATGGCAAGAATGATTTGC
AAAAAATTCAACACTGACCAATCAGAGCAGACAGTCTAAATAAACAYCGATTCTTACAAGGCTACCTTCCTTACCAGTTAAATATCAGTCCTGCCTCAGA
GAAACATAAGATCTAAAGAGGAAAATCTACACAAGATTGTGTGTGGGCCAGAAAGGCCGCCGTGAATGGTGAGAAGGTGAGTCAATCCATCCATCCTAAG
TCAAAGAATCCAACCAGTTCCATGGAGGAGGCACAGAGGAAAAGAGGAAGGAACAAAGTGGAAGAAGAAGAGAATGAAGAGGTGGGAAGAGATGGGCAAG
GATGGGAGAGCAGAAGCCAATCAAGAGAAGAAGGAAAAGCAAACAGAAGAGAGTAGAAAGGAATGGGGGCCAGAAACAAGCAGGAATCATGAAGAGTGGG
GAAAGGAGAGACTTTGGAAATTCAAACAAGTAGAGGAGTGAAAAAAATAGTGATGAAAGGTAAGAAAGGTAAGGTAGGAGATGTGTGAAATTGCAATAAG
AAAAATGGCAGTGTTTATGCGTGATCATTGAGTCTTACTTGCATTACACTTGCATTACACTTACACTGTGTAATGCAGGGCTCAGAAAACTTTTTCTCTA
ACCAGTCACATGGTAAATAGTTTAAGTTTTGTGGGTGGTGCAGTCTTTGCTCAGCTACTCAGCTCTGGTGGTGTAGCATGAAGACAGCCATAGACAATAA
GTAAACAAGTGGGTGTGGCTGTGTTCCAGGAAGACTACGAATACCAGTGATGGGTCAGACTTGGCCCATGGGTCATAGTTTGCTGAATCCTGGTATAATA
TAAATCTTCTGCAGACAAAAGTGCTTCTTACATTTTTGGCACCCACAACACCTAGATACACAATACCAGGTATGTTACAACTGCATGGAAAAGCCACTTT
ATAGGCCAAATGGCAGCAATTTTCAATGGCTTTTTTTTTTTTTTTATAACTTTTGACCTACAAAATGTCAGTTTCCTGTGATGCCACCCTACCTGCTACT
AGACTGGCCATCTGATCCCCACTGGAGAAGCCACAATCATAGGGAAGGAATATTCCATTTGGGGACAGATAAAGTCAATGAAAAGATAGATGTTCTCAGT
ACAGCCCAGGCCAGCATGRGCAAAGGTGGATACTTAATGTCTAGTCAGCTTGCATGCCATGACAAAATACCACAGACTGGGGACTTAAACAACAGAAGCT
GATTTTTTCATAGTTCTGGAGGCTGGACACAAGATGAGGGTGCCAGCATGGTCAGGTTCTGGTGAAGTCTCTCCTCCTGGCTTCAGACAGCTGCCTTCTC
ATTAAGTCCCATATGGCCTTTTCCTCTCTCTCTTCCTCTTCTTATAAAGCCATTCATCCCATCATGAGGACCCTAATTTCATGCCCTAATCTAACCCTAA
TTACCTCCCAATAAATTTCATCTCCAAATACCCTCACACTGGGGATTAGGGCTTCAACATATAAGCTTGGGGAGGGGGAGATACAAATATTCAGTCCATA
ACCCTTAAGAAAGGCCTTTCATTGATTTTCATCTTAAACAAAAATATTCTTACCTGTTTTTTCTGGAAACGAATAACCAGCCTGTATGACACTCCTTGGG
CTCCACCTCTCACCTGGATATATTACAACACTGTGCATAGGAGAGATTCACCAGATAGCTGATAGAGAACTTTACATTCAGTACTTAAAGCTTTCCTATT
GTGAGRGAGAACTCCATCCAGCATAGGAAATAGCTCCACAGAGTTTTTATCTGAGCCACATACTGCCTCAGAGATCAGAACCCAAGCAAAAACTCTGCTT
CTTTAATTCATACSCTCCCTTATTTCCTCACCTTGGGCTCTTCAAATGCCCCCAGCTTGACTGTGGAGCTGGCTTCCTCTCCAACCATCATTAATTTCCC
AGAGGGGCCTGTGGTACTTGGGAATAGCTTCGGTGATGAGAGGCAACAAGGTCTAGCCAAGCACAGCTCTCYAGGTCTTGAAACATCCTTAAGGCCTAAG
CCTAGTATCATAGACACGGGCTTGTTCTAACCCCAAACTCAGACCTCTAACAATGACCTCACTTCCACTTGCTTCTTTTGTGATTTAGAAGAGCACCTTG
CAGCCTCTGAAATGCGCAGTTCTTGCTTGGTGAAGGGTTCCTGTTTTAGGAAGCCAGCACTACTATTTCATTGCCTCTAAGGCACAATGCAGGGCATTTG
AGGTTGATTTTGTGGTCGGTTTGTTTCCTTTATTTTCATTTGTTACCCAGCACCATGCCCATATTTCCAAGTTTGTCTTGGCTCCTGATTTCAGTCATTC
TTTGGGCACCAATGGCTTTCCCAAGTCATTTACCAGGGTAGCACAAGATGCCTTACAAATTACCAGAGTAAAGTAATGGCCCCAACAGGTATGCTTTTGA
GGCCACATGAGGAGATACACAGCTGCAGGATTCCCTATCAGCAAAGACTGAATGATGTCAAACGTTCAGAAAAGGAGAAACTAAGTGGGTGYAGCACAAT
CAATCACTTTGCATTTCAASGTGAACTTGCAGCTCTTATGGGGAGGGAATTCTCTATGTCATTTTCCACGTAAATAAAGTAATGAGACCACTTTGTTGTA
GCAAAGAAATTCAGTTTGTTTCTAGAAGCAGATGTGTGTGCATGGGTGAGTGGGCATGTGCATATTTGCTTWAAAACATTTTCCARTAACTGCTGACAAC
AGCAACCTGAAGCCTCCAGGCACCCAGTTTCTCCCCATCCTGAGATGATCTTTTTGCTCCTGGAGCAGCATTGACGTGTTCCATAGGATCATCCCTGTCC
TCACTGGCCTGGCCTCTTCAGTGACCTGAAATCTGCATTTCCTGACCCTTCTTCCTGGGCCTCTTCTTCTCAGTTTCTCTACTCTTGTCACACAAAGTTA
CTCAACACCCAGTAGGAGCTTATCAGAGCCACAGCACCACGTTCCAAGGGCAAAGAAGGAGAAAGAGCTCCACATTTACATCCCAGCCTTGGATTTAAGC
CTAGAGATCTTCCYTCCTCTACCCTCCCACCCCCATCACTTCCCCTTCCAGCACCCATCATTGCTCCCCCTGGTTGAACCTCGTCCTTGTGAGGTCCAAG
TGAAAATTTCCCCTTTGYCCTCTGAAGGTTTACTGAAAATCACAGACAAGAGGTAGATTAATAGGAGAAAAGGCATGCAATTTATTGTTAATGTGTACAC
GAGAGCCTTCAGAATGAAGACCCAAAGATGCAAAGAAATTGTCCATGTTCAACAAAGTATGATAGCTTAGGTTCAATTAAGTATGGACAGCCATGTAGAA
ATATGATTCGACAAAAAGGCTATAATCTAACGCTAATAGACTGAGTGGGGATCCAGCAAGGCCTGTCTGCCTAGGTTCCTCTTGGCCTCTGTTCAGCATT
CCTTCCTTCTGGTTATGGGCAGGACCCTCACTGGAATGGGGGTCTTATGACCTACAGTCAAACAAAGTAGGCCAGATAATTTCTTTGTGGCCAGTTTTTA
CGCAGAAAGGCAGGGGAATGTCAGAGTAATATTTTTAGGTTTTATGGCTGGCTTTGGAGAAAGGGGGTCCTGGTTTCTATGACTCACCTCGAAGATTCTA
GTTTCCATGGCTAGCCTAGGTGGAGACTGGGACTGAGACAGGAGGGCAGGATAAGGTCAGGGCAAAACTTGTGCTTCCTTTGGGGCACTGCTTTCTAAGT
CCAAACACTGTTTTCTGCAGCCCACTGCTCACCATTTTCCTTCATGAGGAGGAGAAAGTCTCAGTTTACTAAACTTTTCTAGCCTCTGTTCCTGCCTCTA
TAAATGGTGATAATACAGTTGTGCTGTGTGCTCGCCCGGGGCTATGGTGAGGAATCAATGAGGAAATATACAAAAGAGCCCTAGCACAGAACCTGATTCA
TCACTGATGCTCGGTGAGTGTTCATTATACACCCCCAACACCTCTACTAACCAYGTTGACTGTGACTAAAGTAAATGTAGATTGGCAAGTCACACTCTGG
AATAAAGCTTCCCAACCCTGACGCCTGACACAATCACCTGGGAGCTTTAAAAAGCACCATGCCTGGCCGCCACAATCATCTCTTGCCCTGAAATATCCTG
AGGGTTTGGCCTCCCTTGTTCCTTGTTTTGATATTAGGCAACATTCCTAGGCCACCAGAGCAGCTATTTGATTTTCTTTTTCTTGTCCTTCTCTTTCTCC
CTTTTCCACTAAGTTTTGGGGATAATCTGTTGCACTGCAATAGATACCTAATATAGTCCTCTTTTCACCACGTGGCATTCTGATGTCCCTGACTTTCATA
GCTATTTCATTTTTGCATGACTTTTCTTTCCCAGAAATAAAGTGTTCATTAAATTTGCATGTCCTGATGCATTCATGCATTATTCTTTAATTTTGATATA
TTGGCCTGATCTGTTAGCCTTCTTAAAAATGAATGTGGCCAGGCATGGTGGCTCACGCCTGTAATCCCTACACTTTGGGAGGCCAAGGCGGGCAGATTAC
CTGAGGTCAGGAGATTGAGACCAGCCTGACCAACGTGGTGAAACCCCATCTCTACCAAAAATACAAAAATTAACTGGGCATGATGGCAGGTGCCTGTAAT
CCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGTGGAGGTTTCAGTGAGTCAAGATGGCGCCACTGCACTCCAGCCTGGGTGAC
AGAGTAAGACTCTGTCTCGGAAAAAAAAAAAAAAAAAAGAACACTTTCTTTAGTAGTAGTTGCTTCTCATTAGTGGAGCCATGTTGAGATTTCATCTCTT
AAGAAATGAAAGATGACCTCCCTCCTTAGAATACTGAATAATTCATCAGGGCGGGGTACAACTGTGGAGCTCTCCTGCTACTCCTGATCTCTTGAGCCCC
ATTCCTTTCTAATTATTAAATGGCACAATGCCGAGGAATCCCTCCTGCTCCTGAAACAGACTTCTCCAGGGGCGTCATGGCTGACTCTYAGGTCCCTCAG
TTTATTCTCTCCTGCTTGTGCAGAACGAAACAAATACAAATCAATATTTTAAAACAGACATATACTTAATATTTTTTAAAAGCCAGAATATCTACGTATA
CTAATTTGCTTGTCTGTTATATTCACCTCTTTTTGTATGATAGCTATGTTTTTATACACTTATCTCATTAGAGTATTATACCAAACTCATAGCCTTTCAC
AAAAACAACTTGCATTAATGAAGCCGTGATTGCCTTTTATTTGATGTTCACATTTTCACAGTGGGGCTAGCAAAAACTCCTTTAAGTACTGCCTCTGATA
TTCTCGAACACTCCTTTTTTTCAGTCCACAACAAAAAGATGTTCCAAGCCATCCTCGCTTTTTTTTTCCCTAAGACTGCAATTAACTAACTTCCAMGAAA
ATTTGATTGCTTTGAGAAAAGAATAGCATCAGAAATCACAATTCAAGCTTCTCACCTGTGCATCAGCAGTGAAGAGAAATGCTGGTCCTTTCACTACCGC
CACTTAGGGCCTATTTTGTGACAGAGCCAGTAAAGATGTTTTTCAGAGTGAGGAATTCCTACTGATTTTCCTTACAGAATGTATTATGTTGCTATATATT
GTTTTAGTCAGCCAGGGTCTCTTAAGAAAAATAGAGTGAGTATTACTAGAAAATCTAAATGTGGGTAGATTTCCAGTCAAGCAGCTAGGCAGAGGCGTCC
AGAGACTCCCCGTGCTCAGCATAGCGTTGTGCAGCCTTGCAGGGGGATGCCTTGGGAGAAGGGAGCAGTAGCAGGGCTCACAGCTGGCTCCGTGGCACTG
CCTGTGGATCTGCATTGCCTTCTGTTAGGATTAATGCTTTGTCTCCAGTTTATTTTTTTTCTTTTTTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGCT
AGAGTGCAATGGCGCGATCTCCACTCACCGCAACCTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCACACCCAGCTAATTTTGTGTTTTTAGTAGAG
ATGGGGTTTCTCCATGTTGGACAGGCTGGTCTTGAACTCCCGACCTTAGGTGATCTGCCCACCTTGGCCTTCCAAAGTGCTGGGAGTATAGGCGTGAGCC
ACCGTCTTAGTCTCCAAATTTGTTACTGGACTCCGAGCAACCCTGATGCACTGCTGTAGAGTGCCAATCTCCCAGTTTGCTCAAGACTGAGGGGTTTTCC
AGGATCCAGAATTTTCCATTTTCAAGCTGGGATTGTCCTGGGCCGACTAGAATGAGATGGTCACCAGGTCACCAGTGAGCTAGTAGCAGAACCACTCAAG
GAGCTCATCACCTCCTGCACAGAGCAGGAAAGAGACACTCTGCCCTCTGCTCAGCAGAATACCAGAGGACAGAATAAAAATATATTTGGGACTTACTCAG
AATCAATGGGAACTTAAGAGTCCCGCTGCAGTGCAGACAGATTCAGATTCTTCAGTGCATAGGGCCAAGGTAATTACAGGCAAAGCTAAAAGAGGTTGTG
GTAAACATATAGCTGTGAACAATCGTCTTATTAACAAAGTCCTGGTCTAGCTGTAAAGCCTGGTTTTCCTTCCCTRTCTCAGAGAGCTCTGTGGAAGGTA
GTTGGTAGATCTGAAAGTCCACAAGCAGATTCTCCAGGTGCAAGGAGAAGTGTACAGAGGAAAGCCTTTGTAAATCCACACTCAGAAACTGGGCCTCACA
TTAGAGGTCAAGTTTAGGTGGGAGTGTATTCACAAGTACCCTCATGCATATTGGTTTTACTATTCTACACTCAGAGCCTTGGCTACCCAAGAGCCAAATG
TGTCCATGAACTCTGGGAAGATCCTGCGAAGGCCAGACAATTCCTGGGGCATTCTGTGAAGCTAGGAAGCCAGAGTTGGAAGGGTCCCACTCTGCCTCAG
CCCTCACATGACCTGGTCCAACAYTGCCTTACAGATGAGGAAAACTGAGGCCTAGAGAGGTAAAGAGACTTACCTAAAAGGCATGGTTGGCCACTGTTAA
AGTTGGGATTTAAAACCCAAATTTCCCAACTCTCTGCACTAAATAAATTCTGCAATGCTGCTTCCATTGCAATGAGAGTTTGAATACTGAGTGTGAGCTA
CTTTTCTGGGCTTCTAATTTCTGAGAACAAAGTTTAGCAGAGGAAGAGAATCGTGAAATAATTTAGTTCATTTCATGGGGCACCAATAGCATTCAAATAC
TTTCAGTCGAGGTCATGTTCATCCACAGCACAGCCTTGACCTTAGCAAGAGCAGCAGGCAGATTGAGTGGATTCAATTCCAAGATTGTCTCCTATTTTGT
CTCTTTAGGCTTAAATGCTTTAGCACCATTTCAAGGGAGAAAATTCACATCACAGAGGACAAAAAAAGCTGTCATTCTTTCTAAACACTAAACTTATTGT
CATCTTAAGGTCTTGACTGTTGGTGTTCCTTCTGCTTATTTACATTCACATGGCTTCTTCYTTGTCCTTGGTCAAGTCTCAACTCAAATATGATTCCCTC
CAAAAAGCCTTTCCTTGTTACCCCAATTATAGCAGTTTATAATCAGCCCCAATCTTAACTCATCTGTAGTGAATTAAATAACATCTCCCAAAAATTCACC
TCCACCAAAGCCTCAGAATGTGACCTGATTTGGAAATGCCATCTTTGCAGACATGATTAAGGTAAGGATTGGAATAAGATAATCCTGCATTAGGGTGGGC
CCCAGATCCAATGAGACTGTCCTTAAAGTCCTCCACAGCCTAACTCCAGGCTACCTCGCCAGTGTGGATTGTCTACACTGMCTGCCTGCTCCTGGAAAAC
TGATCTTCCTACCAACCAAACAGCTGGCTTCAGCTTCTCGCCATGCAAGTKYCTGCCACATGCCACTTCTCTACCTAGGAAGTTCTCCCTCCTTTCACCT
GAACCTGTCCAAATGTTACTCTTCCTTCAAAATAGGGCTCCAATCTCAAAATTTCTGCTCCCATGGGGTCTTTCCTGATGYCGTGCTGCCGGGCACAATC
TCAGGAGACTCCAGCACCACTGTTTACACCACCCTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAAGTGGACCTCCAATGGACTATGTGCTCCTACAG
AACAGGAGCTGTATTTTGAAGTTGTTTTGTTTGTCTACTTGTTTTGGTTTTGTTGTTAGTGTTCTTTTCTTTCCAGGCCTTGAATGCTCTATGGACTATG
TGACAATATGTAGAATAAAAGACAGATTGCTTGGTTACATGAACAGATTAATAGCATGTTACTTCGCTCCACCCTAAAGCAAGTCCTCTCAGCCACACCC
CACTGCAATGCAGTCTACATGTGACTTCTTGGCCATAATTACCAAATGGATTCAGAGGCAGAGAAGAGGGAAAATGGCAAGTCCCTTTTCTCAGGCTGCT
GAGATAATTTGCTTAGAGGACTTAAGAGGTAGCTCTTTAGGATTCCCAGAAATAATTGGGGAAATATTTGAGGGTCCCACACAATCAGGGAAGATAGTAA
AAAAATACTCACCACTTTACTTTGAGGTCACTGTTGCTGCCATCATCACCCCAGAGTTGTTTCCTACTCTTGGTTATCTGGAGTCACACTGAGCTCAAAA
CAGATGGCCCTGAAACTGCTCTCTGAAGCAGTGAGCACACACCGTCTAAACACACMAATATGCGCATGCACGTGCACACACACACACACACACACACACT
TGTATGTCACCACTGAACTAGTAACCCCAAGCAAGCTGACCAAGTGCTCTTCTCCTGAAGTTTCAGAGATTTCATTGCAGAAACACAATTTACTTTTATG
AGCAGCACTTCTGTCCCAAGGCCTCAGACTAAGCTGGTAAGTACTGATTCCAGGACAAAATGTGACCCACATCCCGAAGTGTCCTGCATTCCTCTTTCTG
CCCCTTATAGGTTCTTTACCTGCAAACTCTCTCCCTCTTGTCCAAAACATTTTACCTGCTCTGTCACYTTTGCATGATCACAGGTCCTTCGCGTTCCACA
ATCAGTTATTTCCGTACCAGGTTTGTTTTATCACTTTGAACCTTAAAACACAGGGAACAAAATTTTACCCACTGTCAAACTGAATCTGTCCATTGTGAGA
TGCTACACCACTGAATTTTGCTGTGCATCCGTCCAATTGGAAAAGGAATGAATGTGAAAGTTTCATTTAAAACACTCCTTCATGAAACTCTCTGTGCATC
AAATAACTGAAAGCCCAAACCACTGATCAGTTAGTAAAGCTGTGAAGCCCTCTCAATTGTCAGAAGCAATTTGAAATTGAACTGAAAAATATCTCACGGT
CTCTTAGAAACAGACACGAATTGTGGTTTGTAACCCAATGTGGAAATAGTTACGGAGAAAGTGACAACCTCTTGTGAGGTGTGTGCGCTYTTCCTCCAAG
TTCTTTGTTCTAAGGTCAGAGGGCTGATCACCTCACTGCTGCCCTACATAGTCCCCTCAGCRCCAGAAAATGCTCACTTACCACCAAATTTACTTCCAAA
CTGTAGTTTATCAGAATATAATTTTATTTTCTGAAAGAAGTGCTTCAACTTTGTGTATTGGCACAAGATAACTATAAACAATACCAAAGAAAACGGTCCC
CTATAATCTGGCCATTTATGGACACAGCACCAGAGGGAAAAAAACTTTAAACATAAATTAAGAAAGTTCTCTGTAAGAGCTCTTGTTGAATTATAGCTGA
CAACAGTACACACAGCACAGTCACGCCACTGAATTCTTTCCAGCTCCAGCTCCATAATTCACCTTCTCCCACATGTCCTCTATTCTTGAACTTAGAAGAC
TTTTCTCAATAAGGGTCACTAAGGGGATCCCAGTTGGGAATAGAAGAACAAAAAAGTTTAGTAACTATTCCAAGAGTCATAACATCGTAGGCAATAAATG
CTGCATTTAAAGACTACAGATTTAAGATTGTGAGCAGCTTCTACCAGACACTGCATTACCCTGGTAAAGTCACCTGCCTTCTTTGAGCTTCAGTTTTCTC
ATCTGGCAGTTGTTCAATGGGTTTAGTCATTTGCAATCATTTTTATTACCTTCTAARGTCCCCTTTAGGTACTGTGATGGAGAGGTAGACAGACAGAAAG
ATGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATGATAGATAGGTGGGAAAGCCTTAAAAACTCAAAAAAGTAAGGAAGGATGAT
CCCAAGAAATAAGAGGAACCAGAGCTCTTCTCCCTGGGTCTGAGAGAAGCTGGCCCAAGCCATCCTTCCCTGAGTCCTATCCTGCTCCTGCTTGGACTTC
CCAGGACAGAATCCTCCCTGCTATGTGTGAGGCAGCCCCAGGCCCTTTGTACTGCTCCAGAGGTCTGGGGAGCAGTGTTCGAATGGGAAGAAAAGCATCC
AAAAAAGAAAAACCAAAGAGCCAATGCCATAAATATGTAAATGCCCTTGAACTCTACTGAGAATTCCTCTGTGCCCCAATAGTTTCCTCCCCTCCATGTG
GGTTATATTCTATTTTCCCAGGCATGGAGTAAGGGAGAAGAATAAAATTGGAGCTGGGTGGTGGGGGAGTAGCCTGGAAAAGACACTTATGAATGCAAAG
AGGCCATAGATTTCATTACCAGGTGCATAGTATCATCAGCTCCCGGTCCAATGCTTACTCATAGCACAAGCTGATTAAATGGTTGTGGAGGAAGGGAGGG
AAGGAAGGAAAAAAAGAAGGAGAGAAGGAAGGAAGGAAAATTGGTTCTTATGCTTTCTACTGGAAACTTTTTATCTATTCAAGGAAGAATTAATTTTTGA
TGTTTACTGGCTATATATTTTGCACTCTCCACCTTGCCACCACCACATATTTATACTGTGACCAACCTAGCTGAAATGAACTTATATTTTAAATGAGTCA
TTTTGCAGAGCAAGTAATAAATCAGCTATCAGGAGTAAGGAGCTCTCAGCAGGCCATACTGCTCCATTGCCAGGAGGGATTATTTTAGTAGTATCACACT
AGGATTTCTGAATTTATGCCCTTAATTTATGAGACATTCATTGCAGGGGCTTTCCCAAGTGTTATTTTCATAAACAGCAGATTAATATAGGGGCTTTTTC
TTGCATTTCTTTGGAAAAATCTTGCCCCCATGTAGAATATTCAAGCTCTGCTACCTATAAATAAGCTAATGTCTTTCCTCTGGGCTGTTGTCCCTTAGCC
TTCAACATCTTCTAGTCTGAAGCAAAAATCATGCTTCAYTTTGTTTTGCTATCTTTCTAATACAGTAAGAGCTTCAGGTCAAAGAACTGAAGAGAATGTG
AGAGCTTGACCCTCTGTTATGTTTTTCGTTATTTGTAGATTTTCCTTATGCACTTGCCCTTCTGTGGAATCTTTCCTCTTCATTCCCTTATCCCTATTAG
GATTCTACCAATTTATTGTTCTAACCTTGAAGAAACAGCTTTTTATTTACCTTCAGCTGTAGGTGGCCCACCAGGTGTCAACAACTGTAGAGTTCCATCA
AGAGTCATCATTTTACAGTTACAAGTCGGAGGGGCCTTCACAGATCCGTCAGGCTCAACACTGCCTCCTYAGTGAGCCTGTGAACCACCCAAGACGGCTG
GTCATCAGTGTCATCCTCTTCCTTTTCCGGACAACTATCTTTAAAAGAAAAAAAAAGAGTGTCTTTGAATGTATCCATTTTATCCCCAAATAATCTTGTT
TAATAAATTCCTTATTAGGCCAAATCCAATGTGCTGAAATATCTGCCAAGCATGTCATTCTACACAAAAGGGATTTGCAAATAGCCAGTAGTTGGCGTGA
AGAAAGGACATGTGAAAGCGCTGGGTGTGGAATTTCCCATCCTCGGCCGGAGGTCTACTACAGCTCGCTGTTTGCAGATCTGGGCTGAGCTATGCATCAC
ATTGTTCATGAAAGAAAAAGCAACTGCTCTCCCCAGTGCCCCTTCCCCGCTCCACATGGCTGCGATCAGCAGCCCCAAGACCCTAATTGCCACAGCCTAT
TAGAAATAATGAGACTTACATGGCAGAAGCCAAGGGTAAAAGCGACATCTCGCAACACGAAAGGTTAATATCAACATATACAGCTAGTGAGTGCAAAGGG
CACCTCAGTTGGTGGCTCATTATGGCGGGCTGACCCATAGGGAAAGTGTCATTCTGCAGAGAGGCCTTTCTCAGGATGTGGCAGCAAAAGTTACAAAAGA
TAAGGACTTGCCTGTGAAACGCACTCAACTAATGAGAGCTGAAGATTGTTTGAAATATCCCGATGACCTCACAGATGGGGGATGCTGATTAAGATGGCTA
CAGGAGGCTCCTTTCTTGTCTGACAGCCCATTGAGAAGCTTTGGTGAGATGTGACTAACAGGCCGTGAAGGTGTCTCCATCTTCTCTGACATGGTCCATG
CTTTGGGCAAAACAAACATGAAAAATAAGTCTGAACTGACACACATGTTTGAATTTAGTTTTCAGAGCCATATTTGGGGGAAGGAGCACTGGTGGGGCCG
TCAGCGATGATTCCTTTATGGTAAAGGGTGTTCGTGACTACTTGCGTGACTAATCGCATGACTGCGCTGGGGGGTGAGCCAACGGCAAATTGAGGTCTTG
AACACTTGACAAAACAACCCCTGTTCTGTGGGTGAAATTCTATAGAGCTTCATGCGTAATTAAATGAAAGTTTCACAAGAGTCTACACCTCAATCATTTA
ATGCCGATATGTAGCACAAAGGAAGGATTTTTGCCACATCAAAATACATCCATGAAACAATGGAGAAATGTCCCAAGTTTTCAGAGTCAGAGATACTCAC
AGAAGAAACCCTGGAGTTCTCTTGACCTTCATTTAGTGCCTGGGACTCTGAAAAGAGATCACCATTATGCTCTCCTCTACCTCATACTAGAGGTGAGGAT
GAGAGCGCACCTCATACTGCATATCTTAATTCCTCTCCCAGGACAACTGGAAGGAACACCTATCCGTTTGCCATGTCACTAAAACAAAAATCACTCGTGT
CTTGCAAAAACAGTTCAGATCTTTCTATTTAAAGAGCTTATCACTATATTAAACAAGGTTATATTGGAGTTTTGTCATGAGATTTAAGAACATTTCTTTC
AAGTCTTTCTAACTAGTTGTTTTAGTTATTGATTGCTGAATAACAAATTAACTCAAAAATTAGTGACATCACAGTAGAAAATAAAATTACATAAAGATTT
TTATAATGAGATTTAAGAAAGATTTTTCAAGCTTTACTAACTAGCTGTACTAGTTAATTAATTGCTTTATAACAAATTGCCACAAAATATGGTGGCATCA
ATGACAATAAACATTTATTATCTCATATAGTCTCTGTAGGCAGCCTCATAAGGTTGCAGTGCAGATGTTGACCAAAGCTGTGATATCATGTGAAGGTTTG
TCTGGAGCTGGATGATCCCTCTCAATTTGGTTCGCTCACATGTCTGGCAAATTACTGTTAGTTTCATTCAGGAGGCCTCCGTTGCCACATCAGCTTCTCT
ACAGAGCTGCCTGCATATCCTCACGACATGGGAGCTAGCTTCCCCTACAGCAATAATCCAAGAGAAAAAAAAAACCCACAAATTCTTTTTTAACCTAGTG
TGTCCAAGGTCATGCCCCACCATCTCCACAATATCCTAGTGGTCACACAGGTCAGCTCTATTCAGTGTGGGAGGTGAATACACACAGGCACGAATACCAG
GAGGCAAGAATCTCTGGGAGCCATCTTGCAGGCTGGCTATCACATTTATTAAAAGTATTTCTTAAAGTATCTTCACCTGACCAAAAAATATAAAAACTAT
GATCATCGATGTGGTCGGCAAAAAGTCTGCAAGCGAGACAAAAATCAAAGAACTCTATGGTACACTTTGTAAAGAACGTATATTCCATTTGACTGAAAAT
ATTTTCTTCTACTAACTGATACGTGTTTACATGTGGCACCTGTAAGACCAAAGTGAAGACATGAATTAAGAGATTACTCAAGAGAAATTGATTTTAGTAG
ATAAACAAGGTTTTTTGAAACAATTTGCTCCCTTTTGATCACAAGAGCAGGATTTTTGGCCTAAAGCATCTAGAAAACTGCAGTCTTCCTTTTCAGTGCA
TATCCATGGAGTAGTCTACAACCATTCACCACTGTGCCAGGCATAGGGAATTCAAGAGCAACAAGGTGAAGAAAATCTTAATCAGCTGATTGAGAATCCA
TTTTATGGAAAGATCCACCTCTTTGGGGAAATGGACTTGATATTTAGAAACTAAAACAATATAAAAATTTTCAACAATAGAAGGACAGAAATAGGATATG
AATTAAACACCAAGCCTGTGGTAAATTTGCTTTCAGTGAAAAAGATGTAGAAGAGGAAAAAAAAAATAAGGAAGAGACGAAAGGAGAAAGAAGGAGCAGT
GGACGTAGCTGAGGAGAATTATTTCCAACTTTTGAAACCAACAGTTGAACAATTGAGACTTATGGTGGTTTAGCACTACAGTCAAAACATCTTGTCTCCC
ACCCCAACTTCTATGACCTAAATAAATGCAGAGAGATAGCATATTTATGGATTACAAAACTCTATATTGTTAAAATGGCAATGCTGCCCAAATTCCTCCC
AAGATTCAACACAATTCCAATCAAAATTTCTATAAGCATTCTTATAAAAATTGACAAGCTGATTCTAATATTTGTATGAAAATTCAAGGAACCTAGAATA
GCCAAAGTAATTCGAACAAAGAACATAGTTGAAGGACTTACTCTATTTGACTTCAGTACTTACTATAAAGCTATAGTAATTCGTTCTGTTTAATATTATG
GTAAAGGTAGGCATATAGATCAATGAAACAGAATACAGTCCAGAAATAGACCAGCTGAGTTTTGACAAACAAGCCAAGGCAACTCAATGGGGGAAAATAA
AGTCTTTTTAATAAATGTCATTCAATAAACTATCCATTTTTTTAAAAAAAATCAATCCTACTCCCTACCATACACAAAAATCAACTAAAAATATATTCCA
CATCTTAATGTGAAATGTGAAACTATGAAACTTCTAGAAGAAAACACAGGAAAAATATTTGAGATCTTAAGGCAAGCAAAGATTTCTTAGATGTGACACC
GAAATCACTATCCATAAGAGAAAAAATGTTGGTAATTGAACTTTATCAAAATTTAAAACTTTAACTCTTTGGAAAGCACCAATAAGAAAACAAAAGACTC
ATAAAAATATTTACAACATATTTATCTGGTAAAGAACTCACATCTAAAATACAGAAAGAATGCTTATAACTCGACAAAATGTAAACAGACTTTTGACCAA
AGTCAAGATATGAATGGACAATCAACACATGAAAAGATGTTCAACATCATTTGTTATGACATATGTATACACTGCAGATTAAAACCTTAATGAGATACCA
CTACACGCCCATTAGATTGCCTAAGATTAAAAAGATCGAATAATACAATGAGCCTGAGATTCACTTAAAAATAAAAAAAATAATAAAAAAAAAAGATCGA
ACATACTAATCTTTTTACCAAGTGTTTGTGAGTATGGGGAAGTGGAACTCATATACTAATGAGGGGAATATAAAATAGTACAATAATGTGGTTTGACTGT
GTCCCCACCCAAATCTCATCTTGAATTGTAGTTCCCGTAATTTCTACATGTCCTGGGAGGGACCCTGTGGGAGGTAATTGAATCATGGGGCGATTTTCCC
CATGCTGTTCTCATGATAGTGAGTGAGTTCTCACAAGATCTGATGGTTTTATAAGCACCTGGCATTTCCCCTGCTGGTACTCATTCTGTCTCCTGCTGCC
CTGTGAAGAGACCCCTTCTGCCATGACTGTAAGTTTCCTGAGACCTCCCCAGCCATGAGAAACTATGAGTCAATTAAGCCTCTTTCCTTTATAAATTACC
CAGTCTCAGGTATTTCTTCATAGCAGCATGAGAATGGACCAACACATCCAACCACCACCAAAACAATTTGGCAGCTTCTTAAAATGTTAATTATACACCT
ACCTTGCAACTCAGTCATTTCACTTCTAAGTATTTAACCAAAAGGAACTAAAATGTACGTGCACACAAAGATTGCACATGAGTGTTCTTAGCAGCTTTAT
TTATGATAGCCCAAACTGGAAACTATTTATCAACAGGTGAATAGTTAAATAATGGTATCATATCATACAATGGAATACTATTCGTTAACTATAGTGATGA
ACTATTGACATAAGCAAAATGGCCAAATCACAAAATCATTATGAGTAATGAAAGAAAACAGACAAAAACAGACAATACAGAGTTAACAATTCATTCCTGG
GCATGAACCCAGAGAATGCATATAACCACTAAAAACATTTACACAGGAATGTTCAAAGCAGCATTATTCATATCATCCCAACATGGCAAACCAACCAAAA
TATCCATCAACAATAAAATGGACTTTATAAATAGTGGTATGTTCCCATAATGGAATATTACACAGCAGGGGTCCCCAAACCCCAGGCCACACAGACCAGT
ACCAGTTTGTAGCCTATTAGGAACCAGGCTGCACAGCAGGAGGTGAGCAGTGGGTGAGCAAACATTACCACCTGAACTTCGCCTCCTGTCAGATCAGTGA
TGGCATTAGATTCTCGTAGGAGCACAAACCCTATTGTGAACTGCACATGCAATGGATCTAGGTTGCATGCTCCTTATGAGAATCTAATGCCTGATGATCT
CAGGTGGAATAATTTTGTTCCTAAACCATCACCTCCCCCAACCCACTGTCCATGGAAAAATTGTCTTCCACGAAAGTGGCCCCTGGTGTCAAAAAGGTTG
GGGACTGCTGTTATACAGTGAACAAACTACCTCTACATGCAAAAACATGGAACATTACAAACATAATGTTGAATGAAAAAAGATAGTCACCAAAGAGCAC
AAAAGTTCAACTACATTTATATAAAGTTCAAATACAGGAAAAACTAATTCATAATGTTAAAAATTATGATAGTGCTTACTATTGGGGTGAAGTGGATAGT
GACTGGAAAAAGCACAAGAGGTGTGTCTGAAGTGCTGGTGATGTTCTATTTTTTTTATCTTGGTGCTGGCTACAAGAGTGTGTTCGCTTTATGAAAATTC
CTCAAATGTACACTTATTATTTGGTACATTTGTCTGCATTTATGTTATATGTCAATAAAAAATGTACCCTGTAAAATCATGTTTTATGGTTAGATGATGC
AGTTGAAATTGAAAATGATGGGTTTTGTGGAAATACAGATGTTCAGCCAACAGGAAGAAAAGTGACGTATACTTGGAGTTGACAGGATATTACTGGAGAT
AAATATGTCATTCCTTACAACAGTCACAGATAATGATAAAGGCAAAGGGAAGAGAAAGCTAAAGAAGGAATCTTGGTGAATGTTTACCTGTAGGTGTTGG
AAGAAGAAAACAAAGAGATGGAAAAGGACCAAGACATGCATGCACATAGAAGCCAGGCTAAAGAATGCTTCAAAGAAGAGACAGGGGCAGCTAATCATCA
ACACAAAAGCAGCACAGTGGTTAAGAGTGTGGGCTTTGGAGCCAGAATTTCTGGATTCAAATCTTCCAATTTTCATCTATAAAATGGGGCTATTAGTTGA
TACTACTTCA


SNP Information

Context             (SEQ ID NO:62054):
CAGCTGCAGGATTCCCTATCAGCAAAGACTGAATGATGTCAAACGTTCAGAAAAGGAGAAACTAAGTGGGTGCAGCACAATCAATCACTTTGCATTTCAA
S
GTGAACTTGCAGCTCTTATGGGGAGGGAATTCTCTATGTCATTTTCCACGTAAATAAAGTAATGAGACCACTTTGTTGTAGCAAAGAAATTCAGTTTGTT
Celera SNP ID:            hCV27502400
SNP Position Genomic:     123820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62055):
AGGAGCTTATCAGAGCCACAGCACCACGTTCCAAGGGCAAAGAAGGAGAAAGAGCTCCACATTTACATCCCAGCCTTGGATTTAAGCCTAGAGATCTTCC
Y
TCCTCTACCCTCCCACCCCCATCACTTCCCCTTCCAGCACCCATCATTGCTCCCCCTGGTTGAACCTCGTCCTTGTGAGGTCCAAGTGAAAATTTCCCCT
Celera SNP ID:            hCV11162722
SNP Position Genomic:     124314
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62056):
AGTAAGAAGGTGTCAACTCAATAGGGCCTGGCAGCCCATTGTAATGACTGGGGCTTTCACACTGAGTGAAAGATGGTAAGCATCCAAGGGAGAAACAGGA
S
AGCAATTAAAAGAGTGGCAAAAATCTAGACTTGGAGAGTAATTACCACCGATTATAAGAAGTGGTCAGGTTCCAGATGTCTTCAAAGGCAGAGCCAACAG
Celera SNP ID:            hCV27983153
SNP Position Genomic:     84055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62057):
GGGTAATATCCTTTTAACTCTGATTGAATTATATGTTAATTCCTTGCGGTGGTCTTAGATTTCAGACGCTATTAGCAAATTATGGAGGAAAAGCAAGATC
R
TATGATTCATGAACTATCACAGCAGCAACAGTTTCTAATTTCCACCCATCCTCTGTGTCATGTGATATGTTTCAGAAACTCACTTAAAATTGAGAAAATA
Celera SNP ID:            hCV8810979
SNP Position Genomic:     30025
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,7)      total(G,7|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62058):
CCCGGTTTGGGTGGGCAGGACTCCAAAGCCTTTAGGATCGATGGACCAGAACAGAGAAATGAAAATGCAACAAGAACAGCTGTGGGGAAAAGGCAGAAGG
K
GGGTAGGAAGCGAAGAGGGTGTGTACTTTTCCTTTCTGATCTGAGAAAGGGAAATTTTGTGCTGGGAAGAGTTACGCGGGAGGAGGAAGGAAAGGCGCCA
Celera SNP ID:            hCV918810
SNP Position Genomic:     29014
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62059):
TCGACTCCCAGCTCGACAGGGACCTTTCTTCTCCTAGCCAGCTGGAATGCAAGCTTTAAAAAAAAAGGAAGTGTGGGGAGGGCTATTTTTTTTAATAAGA
Y
GTCTCAGAAATGATCATGAACACAGTAAAGCTGGTTTTCAAAAAAGGAAAGTGAGAAAAGTAGTGACAACTTGAAGCTGGTAGTTGAGGAAGAAGGAGAA
Celera SNP ID:            hCV918811
SNP Position Genomic:     28788
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62060):
ATAGCATGCTCGGGGAGTGAGGAGAGAAGCTAGAGAAGACTGAGATGAGTGAAATGCAGGCTTGATTGAGAAACTAAGCAGAATTTCTACTAACAGTGAG
S
ATTGAGGGAGAAGCGTTCCTGTAATGGAGGGGAAATGAATAAAACCTCGACTCCCAGCTCGACAGGGACCTTTCTTCTCCTAGCCAGCTGGAATGCAAGC
Celera SNP ID:            hCV918812
SNP Position Genomic:     28641
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62061):
GCAGACCTCTTTCAGCCCCTGTATTTCTTACTCAGGTCATGACTGGAGATACGTGGGTTGGGGGGCTCTAATCACCACACTCACTCTTCTGTCTCACACT
K
CATCCCTCGTGAATGGGTTTAGTTTTAGTAAGAATGTTTACAGGAGAGTGTTGGCTACATGTCCCCAACATCCCGGGTTTGAGTCCCATCTGAGCCACCA
Celera SNP ID:            hCV918813
SNP Position Genomic:     27087
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62062):
AAGCACATATCAAAAGTACTCAGGTCAATGAATTTTCCAAAGTGAGCACACCTATGTAGCCAGCACCCCAAATCCCTCCTTATAGCCCCTTTTACCACCC
Y
TACCACTGAAATGTAACCACTATCCTGAGACCAGCACCATAGGTTTGTTTTGCCTTTTTCTGAACTTTATATAGATGGAAATATACAGTTCATACTCAAT
Celera SNP ID:            hCV918740
SNP Position Genomic:     107892
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62063):
GAACGCATTCGTGAGAAGGAGAGTTCTGCTCAGTTATGAACAAAGCAACTGCATTCAATAAATATTTGTTGAGTACCTACTGTGTTCCAGCAGAGAGCTC
R
CATTCTAGCTGGGGAGACAGAAAACAAATAAGTGCATTTATAATTGGATGTCTGCTTGTGATATGTGTGTATCCCAGGCAGAGGGTCCACAGAACAAACA
Celera SNP ID:            hCV918741
SNP Position Genomic:     107509
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62064):
ATTTTCAATGTTTGAGATTATTCATGAACCTGAACTGCCCTTCAACCTGTAAATCTGAATAAGTGAGGTTTTACTATGATTTACAAAACCATAAAACAAG
R
CAGAAAGAGGTCTGTTCATCTAATAGTGGCTGTTTGTTTCTCCTTTCCTTTTTGGAGAGGAGGGAAAAAAAGAGCAAATGTCTATCTAGCAAGATGACGT
Celera SNP ID:            hCV1879040
SNP Position Genomic:     116071
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62065):
GACAGCTACCTGCCCAGATGATGTACCTTAGCCCCAGGAAGGAGGAGGAAGAAGAGGCAGACAGAATGATGCCCAAACCCCTGCGGCCCGGAGACGAGGT
R
GTGCCTGAGTCAGGAAGCTGGGAGAGCCCAGCTCAGTGGAAGAGGCATGTGGATCCTGGTTAGGTGTGAAGCCAGGAGGGCTTCTTAGCCACAGCCTGAA
Celera SNP ID:            hCV918814
SNP Position Genomic:     25515
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62066):
AACCAACAAGAAACACACTAAATACAAATGGCGTTTCTCAATTCATTAGAGCAAGCCTGCAAGAACCTTGACCTGGGAGTAGTGAGGCCACTTTCTCAGC
S
ACTAGTTCATGCCATTATATATACATACCAGTTTTAACAATACATTATTTTTATAATTTTCAATGTTTGAGATTATTCATGAACCTGAACTGCCCTTCAA
Celera SNP ID:            hCV1879041
SNP Position Genomic:     115915
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62067):
CACCACCAGGTGTCTGGCTAGAAAGATGTCATCTTCCCAAGACAGCTACCTGCCCAGATGATGTACCTTAGCCCCAGGAAGGAGGAGGAAGAAGAGGCAG
R
CAGAATGATGCCCAAACCCCTGCGGCCCGGAGACGAGGTGGTGCCTGAGTCAGGAAGCTGGGAGAGCCCAGCTCAGTGGAAGAGGCATGTGGATCCTGGT
Celera SNP ID:            hCV918815
SNP Position Genomic:     25475
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62068):
CAGGATTATGCACACAAATGTTTCAAGCCTTTATAATTTTTTTAAGTCCAAATGGCATAGGTCCATTTATAAAATATTTTCTGAATTTATATTATGATTT
M
AACTAGCAATATCCTATTAATTAACTTATTTAAAATTCATAAGGAGACAAGTTATTTAAAAAAAAAAACACTCTTGAACTGAGTAAAAAATAGCACGAAG
Celera SNP ID:            hCV918742
SNP Position Genomic:     103931
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62069):
CCTCCCAAAGCACTGGGATTACAGGCCCGAGAACCACACACAGCCTGCTGTGAGTGATTTTAAGAGAAGCTGTTAGAGATTGGGGCCCTAGCATCTCATT
R
AATCACTGGTTGACACCACCACAGCCTCCCAGCTCTCAAGCAATTCCTAGGAAAACAGGAATTCATCGGGAAAATATTCTTGATCCTGATACCAAAATTA
Celera SNP ID:            hCV1879042
SNP Position Genomic:     114020
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,12)      total(G,2|A,12) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62070):
GAAAGAGAAAAGCAAATGCAAATATCTTCAAACGTCATAAGAAAAGGCAAAAGTGAATCCGATAAATATATTTTAAAACAATAATAAAAGAGGCATTTTG
Y
TGACAGATAAATTCATGAAACAAGACTGACTTTTTTGAATGCCATTCATAGAACTGCCAGGTCAGCTGTGTAGTGTGAGGTATATTTCAATGCAAAATAC
Celera SNP ID:            hCV918743
SNP Position Genomic:     103716
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62071):
TCTCATTATCTTCTTTCTCTGACCCTCTTTGGACTAAATAAACTCCCAGTATTCTTGACCAACAGAGGTAGGGTTGGAACAGAACCTCAAAAGTCATCAT
Y
AGACTTCCTACTAATAGGGCATTGGAAGTTCAAGCGACTAACTAGGAAACAGGTTAGTATTTGTACCCCTACACTGTGCAACAGATTACATACCATTTGC
Celera SNP ID:            hCV1879044
SNP Position Genomic:     111090
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,10)      total(C,10|T,5) ;no_pop(T,-|C,-)   (C,-|T,-)   Caucasian(C,40|T,40)   African-American(T,38|C,42)   Asians(C,8|T,74)   total(C,90|T,152) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62072):
GTGCCATGTTGGTGTGCTGTACCCATTAACTCGTCACTTAGCATTAGGTATATATCCTAATGCTATCCCTCCCCCCTCCCCACACCCCACAACAGTCCCC
S
GTGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGGGGTGTTCGGTTTTCTGTCCTTGCAATAGT
Celera SNP ID:            hCV27000120
SNP Position Genomic:     62841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62073):
GAGTACCACAGTCGGAGCACTGTGTCCTGCTAAATGTGAGGAGCATTCTCCTCTCTGATGTTATCATCATAAGGCCAGGGCCTGTGGCTTAAGCTCCTCC
R
TTCCCTTAGAGTCTCCCACACCACACAACAAGTTTGGAGACAGAGAAAGTAGCTAATATTTCCCCCTAAGTGCCAGGCACTGTTTTCTATTTTTTACATT
Celera SNP ID:            hCV918817
SNP Position Genomic:     23555
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62074):
ATTAGTTTTGATAGGTGTGATTAATGGTATTGTGTTTATGTAAGAAAACACCACTATTTTTAGCAATCAACACTTAGATACAGAAAGCTAAAATGACACA
R
TTCTGGGATTCGGTTATCATACATCAGCCAAAATAAAGGAGGAAGGAAGGAAAAATGTACAGAAGTAAAAGTAGGAAAATACTGATAATTCTGGAATTTA
Celera SNP ID:            hCV918745
SNP Position Genomic:     103095
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62075):
TGCGATCTTGGCTCACTGAAATCTCCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCGGCCTCCCATGTAGCTGGGATTTCAGGCACACACCAACACCCC
Y
GACTAATTTTTTTGAATTTTTAGTAGAGACAGGATTTTACCATGTTAGTCAGGCTGGTCTCAAACTCCTGGCCTCAAGTAATCCGCCCACCTTGGCCTCC
Celera SNP ID:            hCV27000121
SNP Position Genomic:     54756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62076):
TCCCAGCTCTCCCTTACTAAAGGCCAGGGAGGAAATTGTCTCGAATGCTCTCCAGTCCAAAATGGAAAGTTAGATTCAATGGTCTGTACTCTTGGGCTGA
S
TAACCTCCGTTTTTCCTTTTCCCATTGTGCTGAGTCAGCCACGGGGGGTGGGTTGTGCATTTTAAGGGTTTGAATGCAGAAGGAAGGAAGGCTTCCCAGT
Celera SNP ID:            hCV918818
SNP Position Genomic:     22892
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62077):
TTTGAATTTGACCCATCTTTCACTAGGATCTACAGATGGTGAAATATTAATGAACAGGTGGGTTGCACAATATTCCAAGATTGCGTTAGAATTGATTTTT
R
TAGGCTAAATTATTAACACCAGAGTTGCTGACATATATTCTCATATGATTAGCAAACCCAGAAGCCTTAATATCAACACAGAATACATTCAGAACCATCA
Celera SNP ID:            hCV918746
SNP Position Genomic:     101943
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62078):
ATAGTTACACAACCTTGTGAATATACTACTGCACACCTTAACATGGTGAATTTTATGGTACGTAAATTACATCTCAATAACATTTAAAAAAAAAAAAAAA
A
GCAGCAGCAGATGGCTGCTGGAGGAGGCTGAGCTTAAATACCCCTGGTTACACTTCCTCCTTTCCTTGTATTTACTGGAAGGAGAAGGATTTGTCCTAAG
Celera SNP ID:            hCV27000122
SNP Position Genomic:     51964
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62079):
GACGCAACGCTATCCAGCTTCCCAGAAAACACCGCCTTTTTTTCTTACATTACAGCTCTGAGTCAAAGTGTACTGTGGCCTCAGACCTGGGGCATACAGC
Y
CATTTGACAGCCACAATGAGGGAAACAGCCTACTTCTGGAGCCTGTACCAGAAGGCAGAACGGGAGACTCCCAGCTCTCCCTTACTAAAGGCCAGGGAGG
Celera SNP ID:            hCV918819
SNP Position Genomic:     22723
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62080):
ATACCACGAAGTAGAGGTTAGGTCAGGGAATCTGGCCTAAATATATGGGGGGGTCAGGGAGATGGAGGTTAGTCATTCCATTGGAGGACAGAAGAAAAAG
K
AACAAGAAGTTCTTTTATAGTGACTGACCATAAAGTTTTGAAAAAAGAGGTATTCAAATAGCACTTTAATCCACACTGCATGTTATGAGAGGCTATGGGG
Celera SNP ID:            hCV1879047
SNP Position Genomic:     100646
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62081):
TATATGGAGATTGTTATGTGAATTAACTCATGCAATTACAGAAGCCAAGAAGTCCCACAATATGCCACTGCAAGCTGGAGACCCAGGATAGGTGTCATTC
M
GTTAGAGTCCTAAGGCCTGAGAACTGTCATGGGAAGACTTTGGATTCAGCCATGACTCAAGTGTACCAGTGGACTTTTCAGTTACATGAGAAAATGCATT
Celera SNP ID:            hCV918747
SNP Position Genomic:     99820
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62082):
CTACAAAAATAACCTGGACATGGTGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAG
Y
GAGCCGAGATCGCGCCACTGCACTCCAGCGTGGGCGACAAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAGTAGAAAACAGA
Celera SNP ID:            hCV27000123
SNP Position Genomic:     49621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62083):
ATATGAGAGCTGAGTGAAGACAGAGAATGTATGAGGCTTTGGGTACAGGTTCCTGAGGCGTGCTCAAATGTACGTTAAGAGAAAAGACTGGAATAGGGAA
W
GAGAGAAGGAATTGATGGATGTTAAAATGAACATATTAATTTTGCCTGTGGGCATGTTTCCATTAATTGGCTTTTGGATCTGAACCAAGAATAGCAGAAT
Celera SNP ID:            hCV1879048
SNP Position Genomic:     100295
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,3)      total(A,3|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62084):
CTTACTCAGTCTTCACACAACCCACAGAGGGGGACAAGATATCACCATCCGTACTTAACAGAGGAAGAAATGCGCTGAAGTTTACACAATTAGGACGTGT
R
AGGATATGATTCAGGGTGTGTCTGGATTCAGAACTGCACACTGCACCTGCTGTGCTTTATTGCATTAGCTGCTGCTGCTGCTCTGACCTGGGCTGACGTT
Celera SNP ID:            hCV918748
SNP Position Genomic:     99126
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62085):
ACTACAGATGCTTTTTAAGACACTTATGAGAATTGTTCTTTCTACAGTTTAAAGTGCCTGGCACATATTTGGTGCCTAATACTGGCTAAATAAGGAGATG
Y
TGGCTGTGCGCAGTGGCTCACGCCTGTAATTCCAGGACTTTGGGAGGCCAAGGCGGGTGGATCACGAGGTCAGGAGGTTGAGACCATCCTGGCTAACACG
Celera SNP ID:            hCV27000124
SNP Position Genomic:     48956
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62086):
AAGCCCCTTACATATGAAATCTTACTCAGTCTTCACACAACCCACAGAGGGGGACAAGATATCACCATCCGTACTTAACAGAGGAAGAAATGCGCTGAAG
W
TTACACAATTAGGACGTGTGAGGATATGATTCAGGGTGTGTCTGGATTCAGAACTGCACACTGCACCTGCTGTGCTTTATTGCATTAGCTGCTGCTGCTG
Celera SNP ID:            hCV918749
SNP Position Genomic:     99106
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62087):
TCAGTTCTGCAGATTTAAATGAGTCATTTCTGAACTGTTGGCATAAGGCCTATCCTTTTCACTCAAATATTCCCTTGAGGCATCATTTTTTTTTTTTTTT
T
CAAAATTGGGAAAGCGAAGGATACAAGAAGTTGGAAGGAAAGCCCATGAAAGAAAAACACATTTACTATAATTAAGAAAGAAAATTAAACAGATGATGAT
Celera SNP ID:            hCV27000126
SNP Position Genomic:     47306
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62088):
ATTGCCTTGGTTTTCCTCTAGGGCTTTTATGGTTTTGGGTTTTACATTTAAGACTTTAATCCATCTTGAGTTAATTTTTGTATAAGGAGGGGGTCCAGTT
Y
GTTTTCTGCATATGGCTAGCCAGTTTTCCCAGCACCGTTTATTAAATAGGGAGTCCTTTCCCCACTGCTTGTTTTTGTCAAGTTTGTTGAATAGCAGATG
Celera SNP ID:            hCV27000127
SNP Position Genomic:     42661
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3|-,4)   total(C,3|-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62089):
CCCCAGTGTGTGATGTTCCCCTCCCTGTGTCCATGTGTTCTCATTGTTCAACTCCAACTTATAAGTGAGAACATGAAGTGTTTGGTTTTCTGTTCCTGTG
K
TAGTTTGCTGAGAATGATGGCTTCCGGTTTCATCCATGTCCCTGCAAAGAACACGAATTCTTTTTTATGGCTGCATAGTATTCCATGATGTATATATGGC
Celera SNP ID:            hCV27000128
SNP Position Genomic:     41746
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62090):
TGCCAGCAGAGGAATACTACCTGGGACTAGGCATGTTCAAAATGGCGGTTCCATCTTCTCTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGTTAGTT
W
GTTTGTTTTTGTTGTTGTTGCTGTTGTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAATGGCATGGTGGAGGCTCATTGCAACCTCCACC
Celera SNP ID:            hCV27000129
SNP Position Genomic:     37680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62091):
CTTCTGACATAAACAGCCTCCTTTCATCAAAGGATCGTGCCATCCTTTCTATTTTCTAAGCATTAAAAGGCAGTTTAAGCAGATCAGTGAATTAGGCAAA
Y
GTTTATATTCTCCCTTGCCCTTTTCTTTTTGCATCTGGTAGAATTTCTCCTGTTCTATTGTTGATCTCTTTGTAAAAGCCCGTACATTCTTAGCTGCCAG
Celera SNP ID:            hCV8502435
SNP Position Genomic:     40083
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62092):
GCTATTTTTATTGACCTAAATTAATCTAAGAAAAGATAGTCACTTGCTAAGTAGTTGCAGCTTAAAACAAGTTTCCTACTCCTGCTCCCCTTCCAATCTC
R
TTGCCCATGAGCTCTGTCTGGTATTAGTGAAAGTGACAGAAATACATGTAGTGAAAGCTACATGTATTCTAGTTCCTCACCAAAATGCATATTTAGAGGT
Celera SNP ID:            hCV2064453
SNP Position Genomic:     17113
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62093):
GAATGGTTGTGTTGTTCGTTGAAGTATGGTTTCTACAAATACATATTGCCTTTGTGCCATCATAAAGTCAAGAAATTGTTAAGTCAAATCATGAGTGAGG
K
ATCATCTGTACATTCATACACACACGGTATGAATACATGGGGGTGTGTGTGTGCATGTGTCTATGCATGTAAATGTGTGTTTCAAAGCTCTGGGGTCCTT
Celera SNP ID:            hCV8502436
SNP Position Genomic:     39388
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62094):
TGATGGCTTAGCTTGGGCTCAGGGGCCTAACAATACAGGCTGACAAGGATTCTTTCTTTGTATTAAGCACTTTCTAGATTTCTTGGAGTGGTTAGCACCA
W
GGGTATTGGCTACCAATCCTCATTTCTATTAATATTATTTCATGTAGACAAATGTAGACAATTGATGTTTTCTCAATCCTATGTAAAGTTGGTGAGAAGG
Celera SNP ID:            hCV2064454
SNP Position Genomic:     16896
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62095):
CCTAAAGGCAGTGTTACATGGATATCCAAATGTTTAGAGAGGACAATCTTAAATATACAAAAGAATGATAAATAAATAAATAAATAAATAAATAAATAAA
W
AAATAAAAGATTTCCTAATTTGTCACCACTTGCATGCTGGAAACCGACAGCGCTAACTTGGGTAATATCCTTTTAACTCTGATTGAATTATATGTTAATT
Celera SNP ID:            hCV8810980
SNP Position Genomic:     29865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62096):
CTGAGGAGAGTTCAGAAAACTCCATGCTGTGCAGTGCAATTGGGAGGAAACTCAAGGGAGTGCTGTCGTGGGACCTCCCGGTGGTGATTTGTACAAATGA
M
GCAACGCTATCCAGCTTCCCAGAAAACACCGCCTTTTTTTCTTACATTACAGCTCTGAGTCAAAGTGTACTGTGGCCTCAGACCTGGGGCATACAGCCCA
Celera SNP ID:            hCV918820
SNP Position Genomic:     22625
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62097):
AGAATAAAATGAGAAAACTCACACTCCCACCCCTTCCCAGAGTAACCATGGGTACCATGTGCCTTCTATTTATGTACATGCATACGGTTGTACATATAGA
K
AGATAGATAGATCTACTTCATGATTTTAAACTACTGCATGGTATGACCATGACATTATTATTGTCATTACTATTATTATTGAGACAGGGTCTTGCTCTGT
Celera SNP ID:            hCV918821
SNP Position Genomic:     20433
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62098):
TCTTAGAACTTAAAATGGGAACGTCAGAGACATTAATATCTCATTCCTACCACCTACCGCTTAATCAGTGTGTTGCTAAGCCCCTTACATATGAAATCTT
W
CTCAGTCTTCACACAACCCACAGAGGGGGACAAGATATCACCATCCGTACTTAACAGAGGAAGAAATGCGCTGAAGTTTACACAATTAGGACGTGTGAGG
Celera SNP ID:            hCV918750
SNP Position Genomic:     99029
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62099):
TGTGCTTCTCTGAACTTGTTTCCCTAACCACAAACAGAACAAGTTCTCTAGAGGTTGAGTCAGAAGAATTTTTGTGGTAAAGAGGACATTGAAAGGGGGT
W
GGTCTACTAAATGTCTTGTGTTAGGGTTCTCCAGAGAAACAGAGAAATATATATATATTTCTATATATATGTATATATATTTTTTATATGTGTGTGTATA
Celera SNP ID:            hCV1879051
SNP Position Genomic:     99589
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,8)      total(A,8|T,3) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62100):
ACACACACATGTTTTATGTAAGGTGCATCATTTGCAATGGGCTGGTGGACCCTGATATCGAGTTGGGGGTCACCAGTACATGTTCCCCTTCCCTAATGGT
Y
AGTAGTCCTGCCCTGCCACATGGCCTTAGTTAGGACCAGATTTGACCATCAGATAGTTAAATAAATCAGAACTGCAAATCCATCAAGATCCTTTCTCCTT
Celera SNP ID:            hCV918751
SNP Position Genomic:     98628
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62101):
CCCCATTTTCTCCTCCCTGTGCTTCTCTGAACTTGTTTCCCTAACCACAAACAGAACAAGTTCTCTAGAGGTTGAGTCAGAAGAATTTTTGTGGTAAAGA
R
GACATTGAAAGGGGGTAGGTCTACTAAATGTCTTGTGTTAGGGTTCTCCAGAGAAACAGAGAAATATATATATATTTCTATATATATGTATATATATTTT
Celera SNP ID:            hCV1879052
SNP Position Genomic:     99572
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62102):
AAGAAATGTTAAATCTGACCCCAGTTGCTAAAGGCAGAAGAATAACACGAGATTTGAGACCAAGCCAGTTCCTGTTTGACTATTTTGACCCCATTTATAG
W
CATGTCAAATGTCCCCCATTTCTGCTGGCTCCAGCCCCATCTTGTTGCTGCTTCCTTGAGATGTGAGGAACAATCATTCTTTCTTCTGTTCTAGGCCAGG
Celera SNP ID:            hCV918752
SNP Position Genomic:     98351
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62103):
CACAGAGGGGGACAAGATATCACCATCCGTACTTAACAGAGGAAGAAATGCGCTGAAGTTTACACAATTAGGACGTGTGAGGATATGATTCAGGGTGTGT
S
TGGATTCAGAACTGCACACTGCACCTGCTGTGCTTTATTGCATTAGCTGCTGCTGCTGCTCTGACCTGGGCTGACGTTGCAGTGAGTCTGGAGAAACCCT
Celera SNP ID:            hCV1879053
SNP Position Genomic:     99148
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62104):
CCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCGTTGCACTCCAGCCTGGGCAACAGAACAAGACTCCAACTCAACAACAACAATAAAAAAGTTCA
M
TGTGACCTTTTTAAAAGAAATGTTAAATCTGACCCCAGTTGCTAAAGGCAGAAGAATAACACGAGATTTGAGACCAAGCCAGTTCCTGTTTGACTATTTT
Celera SNP ID:            hCV918753
SNP Position Genomic:     98236
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62105):
TGCCAGCGCAGCACTGGGAAAGTTAATTACTGTCGACAGTCCTCGAGCCTGTTTTCATAACTGGTAATGACTGTTAATATGTCACCACTGAAGTTAGAGA
Y
TCAGAAAAGTCTTTTGTCCTAGGACTATTAAATGTCATGGAAGAATAACCCCCAAATTTGCCTTTGGGTAGATAAAGTTCAATGGGACTGGCTGGGTGCG
Celera SNP ID:            hCV1879054
SNP Position Genomic:     97850
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62106):
GTCCTCGGTAAGGTTTTCCTTTTAATGAAAACCAGCCCCAAATACTTTTCCTTTCTAACAAAGAGCAGCCTGTGAAATCAAGCTACAGACATAGATGCCA
S
CAGAGGAATACTACCTGGGACTAGGCATGTTCAAAATGGCGGTTCCATCTTCTCTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGTTAGTTAGTTTG
Celera SNP ID:            hCV27000130
SNP Position Genomic:     37585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62107):
ATAATATACCGAAGGCTATTCTCTACATAGAGTAAGAATTTCTAGACTAAAATAAAGTCAGAATGTCAGAAATAAAACAGGTGTTAAAAATCATCCAACT
Y
GAGCTACTGATTTTATAAATGAACACTCCAGGTCCTGCATGATAAAGTGACTCCCCAAGGTCACCTAGCTAGGAGTGACAGGGCCTGGGGCCAGTGAAAA
Celera SNP ID:            hCV918755
SNP Position Genomic:     96064
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62108):
GCTACTCGGCAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGATTGTGCCACTGCACTCTGGCCTGGGCAACAGAG
Y
GAGACTCCATCTCAAAAAAATAAAAAAATAATAAAATAAAAATAAAAAATAAATCTGTTTAATCTTCACAATAATTCTACAACGAAAAAATTGTTATCTC
Celera SNP ID:            hCV27000131
SNP Position Genomic:     34675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62109):
GCTTCATTTGGTTAACCCTACTCATCCGTGAAGGCTCGGCCAGGGGACTTCCCTGGCTGATTGCTCCCAAAATATGCTGTGATGGATAGCACCATCAGTG
Y
GCTTCCATGAGGTATCGTAACTAACTGTGCAATGGTTCTCTCCTCACCGAGGACTGTGAGATCCTAGAGAACAGGGAATGGGTATTAGTCATCACATCCC
Celera SNP ID:            hCV918756
SNP Position Genomic:     95425
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62110):
GTTAGCCAAGAAGAGAAAAGTTTTCAGTCCTAGAAGAAAGAAGGTCTCTGCTATCACCTCATAATAGCTTTGGGGCTACTCCCTCCAAGATCATAGAGCT
Y
GTCAGCATAAATCATAGAGGAGCTGTTTGCATGCAGCAGAGGGACCCAGAGTGCCACCTGGCATGGTCCAACCTAAGAACCTAGGTGAGAAGCATGGGAA
Celera SNP ID:            hCV1879056
SNP Position Genomic:     93431
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62111):
TGGGCATAGTGGCAGGTGCCTGTAGTCCCAGCTACTCGGCAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGATTG
Y
GCCACTGCACTCTGGCCTGGGCAACAGAGTGAGACTCCATCTCAAAAAAATAAAAAAATAATAAAATAAAAATAAAAAATAAATCTGTTTAATCTTCACA
Celera SNP ID:            hCV27000132
SNP Position Genomic:     34645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62112):
AATGTAACTTCATCACATATATATAAATGATATATAGTGTACTTCATATAAAAATGATTTGTTATATATACATACACACACATATATATATATAATGGTT
W
GTGTACCTTCCCTGAGAATGTGGGCAACTGGAGAACTCTGGCCATGGGTGCAAAAGGGCCTCCCTTGCTGTTCCATGATGGTGCTCCCTCAGGCCCCTCT
Celera SNP ID:            hCV918757
SNP Position Genomic:     94883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62113):
AATTAGCTGGGCATAGTGGCAGGTGCCTGTAGTCCCAGCTACTCGGCAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCC
R
AGATTGTGCCACTGCACTCTGGCCTGGGCAACAGAGTGAGACTCCATCTCAAAAAAATAAAAAAATAATAAAATAAAAATAAAAAATAAATCTGTTTAAT
Celera SNP ID:            hCV27000133
SNP Position Genomic:     34638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62114):
GGTTAATCACCTTCTCATTGAATGTAACTTCATCACATATATATAAATGATATATAGTGTACTTCATATAAAAATGATTTGTTATATATACATACACACA
Y
ATATATATATATAATGGTTAGTGTACCTTCCCTGAGAATGTGGGCAACTGGAGAACTCTGGCCATGGGTGCAAAAGGGCCTCCCTTGCTGTTCCATGATG
Celera SNP ID:            hCV918758
SNP Position Genomic:     94863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62115):
CTAGCGGCTGATAAAGGAAACTCTGGGCAGAAGAGCCTGAGATGAATGGGATATTAGTGAGAGGAGCTGAGCCGGTCACATAGCCAAGTTTTGCAGGAGG
R
AAAAAGAGAATGGGAAATTAATTATAATCAATTCCTACTAAAACCCTGAGAATTGGAGACAACACATAGGCTATTGAGAGGGCGATTTCTCCTAATTCTT
Celera SNP ID:            hCV1879058
SNP Position Genomic:     89333
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62116):
AATGGAGCTGGGGGCCACTATCCTTAGTAAATTCACGCAGAAACAGAAAACCAAATACCTCATGTTCTCACTTATAAGGAGGAGCTAAATGATGAGAACA
Y
ACGGACACAAAGAGGGGAGCAACAGACATTGGGACCTATTTGAGGGTGGAGTGTGGCAGGAAGGCGAGGATCAGAAGAAATAACTTTTGGGTACTAGGCT
Celera SNP ID:            hCV27000134
SNP Position Genomic:     33805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,10)      total(C,4|T,10) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62117):
GTATTTTCAGGAGAGAGGAATACACTTACTTGCTCTAAGGCCACACATCTTAAACCGAGATACATCTACTCTGGGAGGTTTGCAGCTGGAGTTTTCAGCT
R
AACTTTTAAAAACTTTGTTTAAAATAAGTTGCTTTACATTGGAACTTAATATCCTCAGTGGATTGAGATCGACATTCTGGGAATTGAAATTGTGTCTGGA
Celera SNP ID:            hCV918759
SNP Position Genomic:     91594
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62118):
CTGGACAATTTTTCAGTTCATTTTTGAGAAGTAGGCATGGCCTTGGGAGAACATTTTTTACCCTCTCCGCACTCTCATTCCATCTCACATACAAATACAT
Y
AAGAAAATGAAGCCAACTGAAGCAGAGGTCAGGAGTGAAAGAAAAGTTGATATAAGAGCTTCAGCAACAGCAGCTGGCCCCAGGCACTAGCGGCTGATAA
Celera SNP ID:            hCV1879059
SNP Position Genomic:     89146
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   ;(T,-|C,-)   (C,-|T,-)   Caucasian(C,26|T,48)   African-American(C,7|T,77)   Asians(C,4|T,72)   total(C,37|T,197)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62119):
AGTGATTTTTGTACATTCATTTTATATCATGAAACTTTGCTGAAGTTGTTTATCAGCTGGGATCTAATGAAACTTAAGAGCTTCTGCACAGCAAAAGAAA
Y
TACCAACAGAGTAAACAACAATGATCTACAGTATGGGAGAAAATATTTGCAAACTATACATCTGATAAAGATCTAATATTCAGCATCTATAAGGAATTTA
Celera SNP ID:            hCV27000135
SNP Position Genomic:     33046
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,11)      total(C,4|T,11) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62120):
TTTATTCTTTTGTGGCAATTGTGAATGAAATTGCATTCCTGATTTGGCTCTCAGCTTGGCTGTTGCTGATGTATAGAAATGCCAGTGATTTTTGTACATT
S
ATTTTATATCATGAAACTTTGCTGAAGTTGTTTATCAGCTGGGATCTAATGAAACTTAAGAGCTTCTGCACAGCAAAAGAAATTACCAACAGAGTAAACA
Celera SNP ID:            hCV27000136
SNP Position Genomic:     32963
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,11)      total(G,4|C,11) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62121):
TTCTGCAATGGGTTCTCTTATTTGATGGGTAGCTGAGAAAAAGAGAGGCAAGGGGGCTTTAGATCTTCTGGAAATCTTGATTCGTCAGAGTTGATTGACT
Y
GTCTCTTCCCTGGAGTCAGTGACAGGCAAATTCACAATTTCACTCAATGCTCGCACTGAATAGCTAAAAAATGGCCAGTATTCTGGGCTAGAACCTGATG
Celera SNP ID:            hCV16102332
SNP Position Genomic:     70794
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,15)      total(C,15|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62122):
TTTTGTCGAAGATCAGATGGTTATAGGCGTGCAGGCTTATTTCTGGGCTCTTTATCCTGTTTCATTGGTCTGTGTGTCTCTTTGTACCAGTACCAGGTGG
Y
TGTGGTTACTGTAGCCCTGTAGTATAGTTTGACGTGATGCTTCCAGCTTTGTTCTTTTTGCATACAATTGCCTTGGCTATGTAGGCTCTTTTTTGATTCC
Celera SNP ID:            hCV27000137
SNP Position Genomic:     32514
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62123):
GGGGCTTTAGATCTTCTGGAAATCTTGATTCGTCAGAGTTGATTGACTCGTCTCTTCCCTGGAGTCAGTGACAGGCAAATTCACAATTTCACTCAATGCT
Y
GCACTGAATAGCTAAAAAATGGCCAGTATTCTGGGCTAGAACCTGATGACAGAAAGAGATATGGAAGGAAAACAGTGTCCTACCACAAAGTAGCAAAGAC
Celera SNP ID:            hCV16102333
SNP Position Genomic:     70846
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,19)      total(C,19|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62124):
CTTTTGTTATTGTTGTTTTTGGTGTCTTTGTCATGAAATCTTTGCTAGTTCCTATGTACAGAATGGTATTGCCTAGGTTGTCTTCCAGGGTTTTTATAAT
Y
TTGGGTTTTACATTTAAGTTTTTAATTCATCTTGAGTTGATTTTTGTATATGGTGTATATGTAGTCTTCTACATATGGCTAGCGAGTTATCCCAGCACCA
Celera SNP ID:            hCV27000138
SNP Position Genomic:     32269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62125):
AAATCATCTTATGTAATTTATTGACTACCATACCGAAAGTGAAAATCGAATGGTTGTGTTGTTCGTTGAAGTATGGTTTCTACAAATACATATTGCCTTT
R
TGCCATCATAAAGTCAAGAAATTGTTAAGTCAAATCATGAGTGAGGGATCATCTGTACATTCATACACACACGGTATGAATACATGGGGGTGTGTGTGTG
Celera SNP ID:            hCV8502443
SNP Position Genomic:     39341
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62126):
GATTGGATAAATTCTGAAACATACAATGGGATATTTTGCAGCTATTAAAGACTGTCTGTCTATATTCATTGATATGATGAATAGGTATGATGAGTTATTG
A
GTGAAAAAAATGCAGTTTTCAAACTAGCACATAGTGTAAAACCCTTTTTTAAAAGTCGTTTACACTCATGTATTTTAGCATAAAGAAAGACATGGAAGGA
Celera SNP ID:            hCV27000139
SNP Position Genomic:     31931
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,10)   total(A,10|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62127):
GACCTACTGAACATCATAGCTTAGCCTCGCCTACCTTAAACATGCTCAGAACACTTAGATTAGCCTACAGTTGAGCAAAATCATCTTATGTAATTTATTG
R
CTACCATACCGAAAGTGAAAATCGAATGGTTGTGTTGTTCGTTGAAGTATGGTTTCTACAAATACATATTGCCTTTGTGCCATCATAAAGTCAAGAAATT
Celera SNP ID:            hCV8502444
SNP Position Genomic:     39264
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62128):
TGCAGTCTTTCTCCTCAGCACTATGGATTATAACCTGTACTTTCTGTGCCGTCCTTGTTCTTTGAATGGCTTGAGTGTATCTTGTCTCTTTTATCTTAGG
S
TTTCTTCAATTCCTTTTGAAAGCAGAAGAAATATGATATAAGGCAGTGTCATGCCCTTAGTTCTACTGTGCCCCTGTGTTAAGGGGCATAATCTACTCAG
Celera SNP ID:            hCV15796105
SNP Position Genomic:     17689
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62129):
GGCTCAGCTAAGATCACAACATCTAGCCATGGACATGTTGACTGGTACAGCCTCCAGGTTTTTGGATGGTTAGCATCCAGATTCTAGTCTTTCTTTCTCT
S
TCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCTCTCTCCCTCTCTCTCTCTCTCCCTCTC
Celera SNP ID:            hCV15796106
SNP Position Genomic:     19073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62130):
AAATAAAGATCTCCTAATATTTATAGTACTTGAGGTTAGAATAGTCTTCTAGGTAGAGTACTAATATCTTGCTGATAAAGCTTTTGATGCTGAATCCTTG
R
TTATTCTCTTAATATAATATCTTCTGTGCGAATAAGGCTAAAATGCTTGCATACACTCTTGTACTCACTTAGGAATGTAATAGAGCAGTTTGGGAGAGTG
Celera SNP ID:            hCV16082680
SNP Position Genomic:     45954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62131):
TTCTTATACTCATGCTTAGCTCTCACTCTACCTTTCTAACAAATGGCCTAAGCAGAGGAAGATGCTAAAGGGGCTGCTAAGGCAGCAAGAAAATCAAGTA
R
CACAGAAACAGAGTCAGTTGGTTCTTTGCACTTAGGATTCTCAGAAGAATTTTTTGCTTCTGCCTTCAAAATTAAACTGGAATATTAAAACTGATCTTTT
Celera SNP ID:            hCV16082681
SNP Position Genomic:     75481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62132):
TCCTGAGCATTCTCTTTGATACGGAAAATAAAACGGACTAGGGGAGAAGGTATAGAATGTAACGCACTAGGGGTTTTTTGGAGGGAGGATAATCTCTGGG
M
AGTTCCCTACTCTTGAAACCTAGCCTGGAATGGGCTTTCACCTCTGTGCTATTTATACTAAAACTGAATTGGCCTTAGGGATGGGATGGAAAGTAATTAG
Celera SNP ID:            hCV918760
SNP Position Genomic:     90340
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62133):
CTACAGGCAGGAAGAAAATGGCAAATGGAGACAATTATTTGCTGAATTTGGTCTCCGTAGACTCATACTTTTTGCTTAGTTTTCATTATTTGAGGATAAA
R
ATTGCTTTTAGGCCTAAGAGACTCAGCTAACTGGACAATTTTTCAGTTCATTTTTGAGAAGTAGGCATGGCCTTGGGAGAACATTTTTTACCCTCTCCGC
Celera SNP ID:            hCV1879060
SNP Position Genomic:     89015
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62134):
CCAACCCCTTTTATTGGCAGTGAAGCAAGTCAAATACTTACTAGGAACACTAGCCCTTTCTTAGAAGCGACTCTTGTTGAAAAAAACATCCTGTGCTTTG
Y
GAAGTGATTTGTCCCTGAAGAACTCTATGAGTAAAAGAGACTCTAGCTGTGACTTTGGCCAAGTCAGGTGGTCTTGCTACTGATGAGGGGGCTGAATCCT
Celera SNP ID:            hCV918761
SNP Position Genomic:     90143
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62135):
TACTTGATGGCCGGAAGCAAATATCATCTCAAGGCTCCCTTCCTCACAGGTCTGGTTCCTATGCTAATAGGACTCAAAGACGAGGATAGGTGACTCATTA
M
CTACCCATGGCCTCTATACATGGGTTGGTGTTTTCACAACATGGTGGCCTAGGTATTCAGACTCAAGGCTCCAAGAACTAGTGTTCTAGAAAACTAAGAG
Celera SNP ID:            hCV1879061
SNP Position Genomic:     82223
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62136):
TAATCAATTCCTACTAAAACCCTGAGAATTGGAGACAACACATAGGCTATTGAGAGGGCGATTTCTCCTAATTCTTTCTGCAAGGTCTTAGAGTGCTTCT
W
ACCCACAACAGAAGGTACGAGAACCTCTGCCAAGCATATGGAATTGCCAACTTCAAGTCAGGAGAACTTACTTGTGAGCCTCCTGGAGATGGTTATGTGG
Celera SNP ID:            hCV918762
SNP Position Genomic:     89458
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62137):
GTATTCAATAAGGACACAGTAGAAATGGCTTGTCTCTGTTCCACAATGTCTTGGACCTTAGCTGGAAAGAAGCAAAGGCCAATGGTTACTTGATGGCCGG
R
AGCAAATATCATCTCAAGGCTCCCTTCCTCACAGGTCTGGTTCCTATGCTAATAGGACTCAAAGACGAGGATAGGTGACTCATTACCTACCCATGGCCTC
Celera SNP ID:            hCV1879062
SNP Position Genomic:     82137
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62138):
GGAAATTAATTATAATCAATTCCTACTAAAACCCTGAGAATTGGAGACAACACATAGGCTATTGAGAGGGCGATTTCTCCTAATTCTTTCTGCAAGGTCT
W
AGAGTGCTTCTTACCCACAACAGAAGGTACGAGAACCTCTGCCAAGCATATGGAATTGCCAACTTCAAGTCAGGAGAACTTACTTGTGAGCCTCCTGGAG
Celera SNP ID:            hCV918763
SNP Position Genomic:     89446
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62139):
CAGGTATTCAATAAGGACACAGTAGAAATGGCTTGTCTCTGTTCCACAATGTCTTGGACCTTAGCTGGAAAGAAGCAAAGGCCAATGGTTACTTGATGGC
Y
GGAAGCAAATATCATCTCAAGGCTCCCTTCCTCACAGGTCTGGTTCCTATGCTAATAGGACTCAAAGACGAGGATAGGTGACTCATTACCTACCCATGGC
Celera SNP ID:            hCV1879063
SNP Position Genomic:     82134
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62140):
TCTTGGTGGTGCCTAGTTCTGTTTTTACATGGAGGCATCAGATAAAATGCAATGATTCCAATAGGATTCAGCTATCATCACCCATTAACAGGTCAGTTCT
R
AGGGAAGCAGCTCTCTGGGGATTTATTGTGGAATGAGAGAGGAGAGAAAACTTTATAGCCAAAGCAAAACGCAAAGAGATAGATCTATTTGAGAATCCTG
Celera SNP ID:            hCV918764
SNP Position Genomic:     87257
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62141):
TCTGCTTTGAATGTGGGATTTTTGCACTCTATGATATATACCTTTGGAGTGGTTTTGTTTTCTTTGTGGTTTTTTTTTTGTTTGTTTTTTGTTTTTTGTT
Y
TTTTTGTGTGAGACAGTGGATTTTTTTATCCATCATTGCATTATTGGAGTTTTATGTGATTTAATGTATAAAAAGTGAGGCTATTCTCCAACTAGTTGTT
Celera SNP ID:            hCV27000140
SNP Position Genomic:     30474
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62142):
GGACTGAGGAGCCAAATCCAATGACTGGCATCTTTAGAAGAGAAGGGAAAACAGACCCAGAGACCCAGAGGGAGGGCCATGTGAAGATGAAGGCAGACGT
K
GGAGTTCTGCACCCCCAAGCCCAAAACACCAAAGACTGCCAGCACCCCGCAGAAGTCTGGAGAAGGGCGTGGAATGAATTCTCCTTCAAGCCTTCAGAAT
Celera SNP ID:            hCV918765
SNP Position Genomic:     86491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62143):
GGATCCTGACAAGTAATTCACCTCTGCTTTGAATGTGGGATTTTTGCACTCTATGATATATACCTTTGGAGTGGTTTTGTTTTCTTTGTGGTTTTTTTTT
T
GTTTGTTTTTTGTTTTTTGTTTTTTTTGTGTGAGACAGTGGATTTTTTTATCCATCATTGCATTATTGGAGTTTTATGTGATTTAATGTATAAAAAGTGA
Celera SNP ID:            hCV27000141
SNP Position Genomic:     30452
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62144):
GGCGGGGAGCCAAGCTGGGGCGACTGGGGGGGCCTGGGGGAGCTAGCGGGGCGGGACCCGAGCGGGGCGGAGAGTGGCAGGAGGAGGCGAATCTCCGCGC
Y
CCGGCGAACTTTATCGGGTTGAAGTTTCTGCTGTCGCCTCCCCTTTGCGTGCGGAGCTGGGCTTTGCGTGCGCCGCTTCTGGAAAGTCGGCTCCAGTCAT
Celera SNP ID:            hCV918692
SNP Position Genomic:     7252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62145):
TTGAGCTAGGAACATTTCAAATTTTCTCTTCTGGCTATTTTGAGATACTCAATATGTTTTTGTTAACTATAGTCACCCTACTTTGAGGCTGAATACTAGC
R
CTTATTCCGTCTAACTATATGTCTGTACCTATTAACCAACCTCTCTTCATCCCACACACCCTTCATAGCCTCTAGTAGCTACCATTCTTTTCTCTACCTC
Celera SNP ID:            hCV1879066
SNP Position Genomic:     80516
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62146):
AAGGCAGTGTTACATGGATATCCAAATGTTTAGAGAGGACAATCTTAAATATACAAAAGAATGATAAATAAATAAATAAATAAATAAATAAATAAATAAA
W
AAAAGATTTCCTAATTTGTCACCACTTGCATGCTGGAAACCGACAGCGCTAACTTGGGTAATATCCTTTTAACTCTGATTGAATTATATGTTAATTCCTT
Celera SNP ID:            hCV27000142
SNP Position Genomic:     29869
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62147):
GGCCTTTTTTGTTGTTGTTACTATTGTTTTCTGTTTCTTTACCAAAAAAAATGGCCAGGGTGGACCTCAATAACAATCAGATAACAGTTGAGACAGCTGG
K
GAAAGAGATGAGGAAGAACACTAAGCGATTTCCCGGAAGACAGCAGAAAGAACAACCAGTACACAGGCTGAGGATGTAAACAAACCCGCCATGTTGTGGA
Celera SNP ID:            hCV918767
SNP Position Genomic:     83798
SNP Source:               dbSNP
Population(Allele,Count): MOT_caucasian(G,1|T,56)   MOT_african_american(G,16|T,41)   MOT_caucasian_CEPH(G,2|T,293)   total(G,19|T,390) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62148):
AGAGGTTGTGCAAGACCAGCCTCTGTGATCTGCGAAGGCCCTGAGTCCCAGACATCGTCTCCAACACTGACCTAGATCCAGTGCCAGCAGGACAAGAAAG
W
CCCCTCTGCTTTAACCTTTACATGAAAAGAAACTTTGAAATGACCAATCCACATTTTTTTTGTTTGTTTTTTTCTGCTTTCCACAGCCCTTTTCTGTCTG
Celera SNP ID:            hCV1879067
SNP Position Genomic:     80077
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|A,6)      total(A,6|T,5) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62149):
AGCCTGAGCCAGTAAGACATGGTTCCCTCTAAGATGCCAGGAAAGGACCTAGGGCTTCCCTGGGCTGAGCTCTTAGGTAAGCCATGGCCTGGCCTGGCCT
Y
TTAGAGGTTGTGCAAGACCAGCCTCTGTGATCTGCGAAGGCCCTGAGTCCCAGACATCGTCTCCAACACTGACCTAGATCCAGTGCCAGCAGGACAAGAA
Celera SNP ID:            hCV1879068
SNP Position Genomic:     79974
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62150):
TCTTGTTTTATACTCAAGTCATCATTAAAATTTATAGAAAAAGAGAGAATTTAAAAAAAAAAACACTAAAAAATCACCTTGTACGCATATACCTCAGAAG
R
TCTTTGGCCTAATGGTAATCTGTGACATTAAGGCAAATAACCAAAAATATGTAATTTTTCTATTTATTTCTTTGAGTGGGCTCAGTTGCAGATATATGAA
Celera SNP ID:            hCV918768
SNP Position Genomic:     79680
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62151):
CCAACACCTTTAGGAAGATAGGTCTTCCCTGACCCTCAGTCTGAGGTCTAGAAGCCCTTCTGCCTTGCCTCACAGGCATCTTCCCTCCTCCCCCGTCCCC
Y
AGACCAGTCCAACAGCAGCCCGTGCAGCCTCTGAAGTCCACTCCCAGTGCTAGCTGATGGGAACCCCATGGGCTCCTGTCTGCTATACAAATGGAACAGA
Celera SNP ID:            hCV918769
SNP Position Genomic:     79362
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62152):
AAATCAAAGACTGTCTATGAGGCAAAACATATACTGCAGCCATTTGGGGGAAAGAACAAAGCACTGAACTAGAGGGCAAAGACCAACATTTTGGTTCTAG
S
TCTGCCAAGTGTAGGACATTGGACTAGGCACTTAACTTCAGTAAGCCTCAGTCTGCTTGTGTACAAAACAGAGTAAAAGATTTCTTGCATTTCCTACTTT
Celera SNP ID:            hCV27939669
SNP Position Genomic:     101196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62153):
GGCGTGAACCCCGGAGGCGGAGCTTGCAGTGAGCCGAGAGAGCGCCACTGCAGTCCGGCCTGGGCGAAAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAA
A
GTGTGTTTTTTGTTTTTGTGTGTGTGTGTGTGTGTGTGTGTGAATGTCTCTTCATCCAAGAAAAATCTAAATGGGCTATTGTCTTGGCGTAGGAAGTAGG
Celera SNP ID:            hCV27000147
SNP Position Genomic:     25152
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,13)   total(A,13|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62154):
CTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCCGGAGGCGGAGCTTGCAGTGAGCCGAGAGAGCGCCACTGCAGTCCGGCCTGGGCGAAAGAGC
S
AGACTCCGTCTCAAAAAAAAAAAAAAAGTGTGTTTTTTGTTTTTGTGTGTGTGTGTGTGTGTGTGTGTGAATGTCTCTTCATCCAAGAAAAATCTAAATG
Celera SNP ID:            hCV27000148
SNP Position Genomic:     25125
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,13)      total(G,13|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62155):
TGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCTTGGCTAACAC
R
GTGAAACCCCGTCTCTACTAAAAAATACAAAAAATTAGCCTGGTGTTGTGGCGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGC
Celera SNP ID:            hCV27000149
SNP Position Genomic:     24954
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,8)   total(G,8|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62156):
AATGAATTTTCCAAAGTGAGCACACCTATGTAGCCAGCACCCCAAATCCCTCCTTATAGCCCCTTTTACCACCCCTACCACTGAAATGTAACCACTATCC
Y
GAGACCAGCACCATAGGTTTGTTTTGCCTTTTTCTGAACTTTATATAGATGGAAATATACAGTTCATACTCAATACATGCTGCATAGATTCTTTGATTCA
Celera SNP ID:            hCV15848323
SNP Position Genomic:     107918
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62157):
AAAGCTTCAGCCATGCAAGAGGAGTTAGTTCTGGAGACCTAATATACAGCATAGTAACGACAGTTAACAATACCGTATTGTAGACTTGAAATTTGCTACA
R
GGGTAGATCTTAAGTGTTCTCACCACAAAAGAAAAGAGGCAGCTATGTGAGGTGATGGGTAAGTCAACTAGTTTGATTGTGGTGATCATTTTCCAATGTA
Celera SNP ID:            hCV15796116
SNP Position Genomic:     104602
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62158):
GGAGGAAAAGTGTGGCATCTTTATATAGACCAGGGCTCACCGGCATATACTTTGCCATTTCCTGGGAAAGGAAGCTTCTGGCTCCTGGAAAAATGGCAGA
M
ACTTGAACAGAGGATTGGTGAAGTCTTTTGGTTTATGTGGCCAGATAGTACAAGGTTCCTATCAGGAAGAAAAGCACATAGTGTCTTTCTTCACTCCTTT
Celera SNP ID:            hCV16082691
SNP Position Genomic:     88542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62159):
CTCCCTTTATTCTCTCTCCCCTTCCCCAAACCCACAATAGCCTCTACCATAGTGCTTATTCTTTTGACCTGTTCTGATCTGCTAGCCTAACTATTCCCCA
R
CACCTTTAGGAAGATAGGTCTTCCCTGACCCTCAGTCTGAGGTCTAGAAGCCCTTCTGCCTTGCCTCACAGGCATCTTCCCTCCTCCCCCGTCCCCTAGA
Celera SNP ID:            hCV918770
SNP Position Genomic:     79265
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   (G,-|A,-)   JBIC-allele(G,45|A,1442)   total(G,45|A,1442)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62160):
AGTGGGGCCTAAACGTTGAAGACACATGATCACGAAGATGGGAACAATAGGCACTGGGGATCACTAGATGGGGAAGGAAGGGAGCAGGGGGCATGGGCTG
R
AGTGCCACCTGTTGCGTCCTATACTTATTCCCTGGGTGATGGGATCATTGGGATCCCAAGCCTCAGGGTGATGCAATTTACCCATGTAATAAACCTGCAT
Celera SNP ID:            hCV1879070
SNP Position Genomic:     78392
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62161):
CACTCTCCCAGTGCCAGGAGCCAGGACAATTATGGGGCTTTCCCTATTGTGTGTTCTTGCTGCTAACCAGCTCCCAGGCCTAGGCTTCTGAGAAACAGTG
Y
AGGCACACAAGCTGCAGATCTCTCCTCCCTTTATTCTCTCTCCCCTTCCCCAAACCCACAATAGCCTCTACCATAGTGCTTATTCTTTTGACCTGTTCTG
Celera SNP ID:            hCV918771
SNP Position Genomic:     79140
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;(C,-|T,-)   JBIC-allele(C,33|T,1452)   total(C,33|T,1452)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62162):
AAGTCTCGCCTGACTAGAATATAAGACCCATGGGAGAAGAGACTTTCTGCTCTACCCTTGGCACATACCGGGTGCTCAAAAAATATTCAAGTGCTCGCTT
Y
GGCAGTACATGTACTAAAACTGGAACAATACAGAGAACATTAGCACGGCCCCTTCACAAGGATGACACACAAATTTATGCAGCATTCCATAATTTCGAGA
Celera SNP ID:            hCV1879071
SNP Position Genomic:     77678
SNP Source:               Celera;dbSNP
Population(Allele,Count): (C,4|T,5)      total(C,4|T,5)Caucasian(T,17|C,43)   Chinese(T,0|C,20)   Japanese(T,0|C,40)   Tfrican(T,7|C,53)    ;(C,-|T,-)   (C,-|T,-)   Caucasian(T,17|C,43)   African-American(T,7|C,53)   Asians(C,60)   total(C,156|T,24)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62163):
CCAGGTGTGCTCCTTACATTTCTGCCCGGGTGATACTCTCAGAGAGCTCCTCGCCATGAGAACTAAGTCACTCTCCCAGTGCCAGGAGCCAGGACAATTA
Y
GGGGCTTTCCCTATTGTGTGTTCTTGCTGCTAACCAGCTCCCAGGCCTAGGCTTCTGAGAAACAGTGCAGGCACACAAGCTGCAGATCTCTCCTCCCTTT
Celera SNP ID:            hCV918772
SNP Position Genomic:     79072
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   no_pop(C,-|T,-)   (T,-|C,-)   JBIC-allele(T,132|C,1351)   total(C,1351|T,132)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62164):
TATTGCAAACATGGCAATGACTGGCCAAAACCAGGTGTGCTCCTTACATTTCTGCCCGGGTGATACTCTCAGAGAGCTCCTCGCCATGAGAACTAAGTCA
S
TCTCCCAGTGCCAGGAGCCAGGACAATTATGGGGCTTTCCCTATTGTGTGTTCTTGCTGCTAACCAGCTCCCAGGCCTAGGCTTCTGAGAAACAGTGCAG
Celera SNP ID:            hCV918773
SNP Position Genomic:     79042
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;(C,-|G,-)   JBIC-allele(C,112|G,1389)   total(G,1389|C,112)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62165):
AAACTCTAACATAATGTTATTATACAGTAAGTTCTCACTTAATGTCATCGACAGTTTCTTGGAAACTATAGCTTTAAGCAAAATGACATGTAACAAAAGC
R
TTTTTTTCTCATCAACGTTATAACAAAACGTTAAAGGAAGTGACATTATTTATGAACCTGCTGCATGTTGTTTTGCTTAAAGTTACAGATTCCAAGAACC
Celera SNP ID:            hCV1879073
SNP Position Genomic:     60923
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62166):
GTAAAGATATGTCTTGGTTTCATCTGTGTTAAATAAACCTGCACGATGTTACAAGCTGGCATTGCTTCATAAGCTTGACCTTAGCTTTCAAATAGGACCT
Y
GATCATTGCTCAATGACCAAGTCACAAAGTTGCCTAATGATATTGGCCCACAGCCATGTTATTGCAAACATGGCAATGACTGGCCAAAACCAGGTGTGCT
Celera SNP ID:            hCV918774
SNP Position Genomic:     78882
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62167):
ATCTAAGACTGCTCCCTCATGGAAATTAAGGAGAAGGGGAAAGCCTAGGCTACAGATGGAGAAGGATGAGTCATTCCAGCAGCCATGGCCAAGGGAACTC
Y
TGGAGACGTAGGGACTGTTTATGTGGCCACTCACCATCATGCAGGCCCCCAATGGGGGTGAGGCAAGGAAGGACATAGAAAGACTGCTCAAGTGCATTTC
Celera SNP ID:            hCV1879074
SNP Position Genomic:     60406
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,12)      total(C,3|T,12) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62168):
CCACATGACCTTAAATGACTGTCTAACTCAGTCCTTGAGCCCACAGAATCTTGTGAGTCTAGCACTCACAGATAAAAAAACACCCTCAGGCTTTCTGTGT
Y
CCAACTCCAAGTTCTAGATAAAGATGTCTGATTGGTTAAAGTGGGTCATGTTTAAAGTGGGTCTACTCCCAATTCAGTTATTGGTGGCCAGGGCCATGAG
Celera SNP ID:            hCV1879075
SNP Position Genomic:     59966
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62169):
AGCATCCAGATTCTAGTCTTTCTTTCTCTCTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
Y
CTCTCTCCCTCTCTCTCTCTCTCCCTCTCTCTCTCTCCATTCACCTCTTAGTTTTTAGCATTAGATCTGCATTCCCTCACAGGTTTTTTTCTCTTTCCAC
Celera SNP ID:            hCV27000151
SNP Position Genomic:     19144
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62170):
TTAGCATCCAGATTCTAGTCTTTCTTTCTCTCTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTCTCTCTCTCTCTCTCTCTCTCTCTC
Y
CCCTCTCTCCCTCTCTCTCTCTCTCCCTCTCTCTCTCTCCATTCACCTCTTAGTTTTTAGCATTAGATCTGCATTCCCTCACAGGTTTTTTTCTCTTTCC
Celera SNP ID:            hCV27000152
SNP Position Genomic:     19142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62171):
GTGTAGCATCTCCTTTGCCCCTCTCCTGCTGCTAATGGCCTGTTTCCCCTTCACCTTGTGCCACGATTGTAAGTTTCCTGAGGCCTCCCCCAGAAGCAGA
M
GCCTGTACAGCCCACAGGAACCATGAGCTGACTAACCATCTTTTCTTTATAAATTACCCAGTTCTTTATGGCAACGTAAGAATGGACCAATAGAGCACAT
Celera SNP ID:            hCV1879076
SNP Position Genomic:     58869
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|C,10)      total(A,4|C,10) ;no_pop(A,-|C,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62172):
TCAGTCAAGAATTTGGTCCTTTAAAAAAGAAAGAGGAAGAAAAGAAAGCATGAGCTCTATCCCTCTTTTGACTAAATACTACCACTGACTTTCCTGTTTA
K
AACTAAAGGCTGTCTCTTGTTCCACAGGTCAAATGCATACTTTTTAAAATGCCACTTGACCCCTTGGGTTCCCCATTCTCAGTAGAAAAACAAAATGGTC
Celera SNP ID:            hCV918776
SNP Position Genomic:     76524
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62173):
ACTGGTACAGCCTCCAGGTTTTTGGATGGTTAGCATCCAGATTCTAGTCTTTCTTTCTCTCTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCT
S
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCTCTCTCCCTCTCTCTCTCTCTCCCTCTCTCTCTCTCCATTCACCTCTTAGTTTTTAGCATTAGATCTG
Celera SNP ID:            hCV27000153
SNP Position Genomic:     19113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62174):
CCCCCAATTTCTTAGGAAATCTGCTTGTTTGAAAGTGTGTAGCATCTCCTTTGCCCCTCTCCTGCTGCTAATGGCCTGTTTCCCCTTCACCTTGTGCCAC
R
ATTGTAAGTTTCCTGAGGCCTCCCCCAGAAGCAGACGCCTGTACAGCCCACAGGAACCATGAGCTGACTAACCATCTTTTCTTTATAAATTACCCAGTTC
Celera SNP ID:            hCV1879077
SNP Position Genomic:     58833
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,14)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62175):
TCCTAGGAGTATTTTATTTTTCTAAGCTAAACACTTGGTGCATAGGAGCTTACCACTTGCATGTAATTTTCTTGTTTTGTATAAAATAAACTGAAAAACC
R
GTTCTTTTTTTGGCTGAATTTAATCATCAAACCTATTTTTAAAATGCTCTTTGTGTACTTTCTTTCCTTTTTAGAAAATTCCTTTTGGTATTTAGGAAAA
Celera SNP ID:            hCV918777
SNP Position Genomic:     71343
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): Gaucasian(A,29|G,31)   Ghinese(G,1|A,11)   Japanese(G,2|A,38)   African(G,29|A,31)      total(G,63|A,109) ;(A,-|G,-)   ;(A,-|G,-)   (G,-|A,-)   (A,-|G,-)   Caucasian(A,29|G,31|G,36|A,40)   African-American(G,29|A,31|A,36|G,42)   Asians(G,3|G,7|A,49|A,71)   total(G,148|A,256)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62176):
TAATAAAAAGTTTGTGCTCAATTGCAGTCTTTCTCCTCAGCACTATGGATTATAACCTGTACTTTCTGTGCCGTCCTTGTTCTTTGAATGGCTTGAGTGT
R
TCTTGTCTCTTTTATCTTAGGGTTTCTTCAATTCCTTTTGAAAGCAGAAGAAATATGATATAAGGCAGTGTCATGCCCTTAGTTCTACTGTGCCCCTGTG
Celera SNP ID:            hCV27000154
SNP Position Genomic:     17667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62177):
TTTCCATTGTGCGGTAACCGCGCTTCATCACAGCCACCTCCAATCGAGGCCGCACGGTGTCCCCAGAACCACGCTCGGTACAACCTGCCCCGGCCGCTGC
K
CTCGACTTGGGAGCGCGCCCCGCCCCGAGCGCACGACCTCCCTTCCCTCTCCGCGACTTGAGCTTGCTTCCCGGAAAGCCAGTGTAGTGGCAGCGGTTTG
Celera SNP ID:            hCV25973373
SNP Position Genomic:     6759
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(G,33|T,1)   total(G,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62178):
TGCAATTAAATTGCTTATGAGGGAGGCCAGGGGAGTGTGCCTCATAGCTGACCCTGGAATGACTGATTACATTGTAAAGAAACACAAAGGAGTGTCTGAA
R
AGAATCTGACTTCTTGAGAGATTGAAACCAGCAATCAATTTGCTGACCTGATAAAGAAATGTCTTTTCGTGATGGCTTTTTTTATTTTTATTTTTATTTA
Celera SNP ID:            hCV8811012
SNP Position Genomic:     8624
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62179):
ACAGGCCATTTTCACTTGTTTTGTGGTGGAATGTCATCAGTTAAGGCAGGAACCGGCGATCTGGATGTGTGCGTGCAGGTCACAGGGGATATGATGGCTT
W
GCTTGGGCTCAGGGGCCTAACAATACAGGCTGACAAGGATTCTTTCTTTGTATTAAGCACTTTCTAGATTTCTTGGAGTGGTTAGCACCAAGGGTATTGG
Celera SNP ID:            hCV27000155
SNP Position Genomic:     16805
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,4)      total(A,4|T,3) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62180):
TTCAGGAAACCACATCTGGAAAGGGACATTGACCAATTCAAGAAACCCCAGAAAGTGGGAAGAGCACAACCATGGTGGACCATAGACTTCTTTAGGGCAG
S
GTCTGTGCCATGCCTTTGCTCACCCCCACTGCCCTGGCACAGTGCTTTATACATAGACCATGCCGTAAGATATTTGTTGAATAAATGAGTAAATAATTCA
Celera SNP ID:            hCV1879079
SNP Position Genomic:     50748
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62181):
CTTCAGATCCCTCAGCTTTCAGATTGACACAGCAACAGATCATAGTCTCCTAAATTCTCTGGCTTAAAGCATGGAGCCACACTTATCCTGCCAGGCTGGG
K
CCCCAGTTCTTAGATGAGGCTAGCAGTAGCCATGAGGAGTGGGCATGTGGCTAGTACAAGAGAAGGAATGCTAGGTGGCACTTGGTCAGCAACTTTCCAA
Celera SNP ID:            hCV918779
SNP Position Genomic:     62515
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62182):
CACAAGACAATGTCATCAGTTAAGGCAGGAACAGGCCATTTTCACTTGTTTTGTGGTGGAATGTCATCAGTTAAGGCAGGAACCGGCGATCTGGATGTGT
R
CGTGCAGGTCACAGGGGATATGATGGCTTAGCTTGGGCTCAGGGGCCTAACAATACAGGCTGACAAGGATTCTTTCTTTGTATTAAGCACTTTCTAGATT
Celera SNP ID:            hCV27000156
SNP Position Genomic:     16775
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62183):
AAGGTACTCAGTGGGGGAGCTTTTGAGCCAGGATGAGCCAGGAGAAGGAATTTCACAAGACAATGTCATCAGTTAAGGCAGGAACAGGCCATTTTCACTT
S
TTTTGTGGTGGAATGTCATCAGTTAAGGCAGGAACCGGCGATCTGGATGTGTGCGTGCAGGTCACAGGGGATATGATGGCTTAGCTTGGGCTCAGGGGCC
Celera SNP ID:            hCV27000157
SNP Position Genomic:     16722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62184):
GAAGGGGTTTGGGGGTTCTTACCTTCCAGAAAAGCGGGAAAGGGGTTGGGGCACGGAGAAGAGGTTGGGGCACGGAAATAAGGGATGGGGGCACAGAGAT
W
AGAGGTTGGGGTGTGGAAATAAGGGATTGGGGCACAGAGATATAAGAGGTTGGGGCGCGGAAATAAGAGATTGGGCGCAGAGATAAGAGGTCGGGGCACG
Celera SNP ID:            hCV27000158
SNP Position Genomic:     15696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62185):
AATCCTGGGCTGCAGGCATTCCTTGGCCTGGTGGCCAGATTTCTAGCACTTGTAGCAAGCTCCTAGGGGAGGAGGTTCTGGAGGAACGCCTGGCCGCTGC
R
GTTCAGGCGTTTGGAAGTTCTTGTGTGCTGGAGATGTGGCTGGGGTTTGTCTCACAGTGGAGGCAAGGAATTGCAACTTTTTTCTATTATTGTACACCTT
Celera SNP ID:            hCV27000159
SNP Position Genomic:     14586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62186):
ATTTATAATCCTTTGGGTATATACCCATTAATGGGATTGCTGGGTCAAATGGTATTTCTGATTTTAGATCCTTAAGGAATTGCCACACTGTCTTCCACAA
Y
AGAACTAATTTACACTCCCACCAACAGTGTAAAAGCGTTCCTATTTCTCCACAGCCTCGCCAGCATCTGTTGTTTCCTGACTTTTTAATAATCACCATTC
Celera SNP ID:            hCV11162694
SNP Position Genomic:     42061
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62187):
GCTAGAAAGGGAAAAGAACATGAATAAGTGGCAATCCAGGGACAGCCAGAAGGAACCTGGACAATGGCTCACCGGCTGAGCAGAGATAGAGTTGCACTGG
K
TGGGGGGGGCGGGGGTGGGGGGCAGTTGACAGCAGCCTGGATTGTGAGCAAGGAGTACGAAGAAATAATAATTGAAGTAGCAGAAGGTAGCAAGGGGTGC
Celera SNP ID:            hCV16014582
SNP Position Genomic:     46658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62188):
CTAGAAAGGGAAAAGAACATGAATAAGTGGCAATCCAGGGACAGCCAGAAGGAACCTGGACAATGGCTCACCGGCTGAGCAGAGATAGAGTTGCACTGGG
K
GGGGGGGGCGGGGGTGGGGGGCAGTTGACAGCAGCCTGGATTGTGAGCAAGGAGTACGAAGAAATAATAATTGAAGTAGCAGAAGGTAGCAAGGGGTGCA
Celera SNP ID:            hCV16014583
SNP Position Genomic:     46659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62189):
AGTGGTAACCAGGTTAATAGCACTGACAACCATGTTCTTTTTACAGGAAACACAAACGTGAATCACTTGTTCTTACTTTTCTTTTACAGTGGTCTCAAAT
R
GTCAAGACCCCCTGCTGGGAGGAGCTTCTATCCTGCTCTGTGGAAGAAATGGGCATGCCAGATGCCTGGAAGATCAGAGGCTCACATTCCAGGTGGGTCA
Celera SNP ID:            hCV918780
SNP Position Genomic:     61781
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:62190):
TTTTCTATAGAAATTACTTTAGAGAGAAACCCTCTTCCAATTGTATTTAAATCCACCCCCCAAATATAATTTATTCTCTTATGAAGCTTTGAAATGGAAA
M
TTTTCCCCAGAAGTAACCAGGCATTGTGCAAAGTCGCATCCATTTTGAACACCAAAGCAGCTGTAACAAATAAGAGATGACAAATGCCATTGTGTAATTT
Celera SNP ID:            hCV1879080
SNP Position Genomic:     44193
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|C,5)      total(A,4|C,5) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62191):
GAGATTGGAGATTACCTGTGATGGTTTGGATTTAGATTTTGCCTCCAGGTTTAGGCAATGGTAAATAGGCAGGAGTTTAATAGGAACTAAGGTTATTTGA
K
AATTCCTGGGCCACTGCAAATAGAAAGTGTTGGCAATTTTGTCTTTTGGGCTGCCTCTGATTGAAGGCACAGGCCTGTTTCATGAAGTTCTGAAACATGA
Celera SNP ID:            hCV918781
SNP Position Genomic:     61556
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62192):
AGAGCACAGAAACTCCGGATCTTAATTCTTGATTTCCTGGCAGTGATACCTTCCCATTCCATTACATAAGGTATAAGTGGCAGAAGATCAGGGAGAACCA
Y
AGGGCTGTAAGATATTTTATAAGTTGTTAAATAAGGGGACACTGCTTTATTTGGGGCATGTCACTCAATCTCTTCAACATTGTGTTAGGTAGGTATCATG
Celera SNP ID:            hCV1879081
SNP Position Genomic:     35501
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,10)      total(C,3|T,10) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62193):
TCAAGATTATTTTGGAGCTTTAAGATTTAATGACCGTCCTGCTGGGTTTCGGACTTGCATGGGGCCTGTAGCCCCTGTGTTGTGGCTGAGTTCTCCTTTC
Y
GGAAATGGAGTATTTACCCAATGCCTGTACTCCCATTGTATCTTGGAAGTAGCTAACTTGTTTTTGATTTTACAGGCTCATAGGTGGAAGGGACTTGCCT
Celera SNP ID:            hCV918782
SNP Position Genomic:     58370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62194):
TTTGTGAGCACTGGCAACAATTTAGCAGAACAGAATGAGTTAGATTCCCAATTGTGGTAGATCACGTGTAGTAGCGAACAGAGCACAGAAACTCCGGATC
Y
TAATTCTTGATTTCCTGGCAGTGATACCTTCCCATTCCATTACATAAGGTATAAGTGGCAGAAGATCAGGGAGAACCATAGGGCTGTAAGATATTTTATA
Celera SNP ID:            hCV1879082
SNP Position Genomic:     35422
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,11)      total(C,3|T,11) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62195):
TAAAACCATAGCAATCATTCTATTTGTTTGGTCACAGTTTAAAAAAGGAAATTTGCTATAAGAAAAATAAATACAAACAAACACAAAAAGAGTTGAATGC
Y
ACCTGCAGAAGAAGCACCAATCCAACTATTTTACCCTGCCCACATTCACCATGTTTCTCACAATTGCCTATAAAAAGTAGTCACCATTTATTGTACCAGG
Celera SNP ID:            hCV16014588
SNP Position Genomic:     55288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62196):
GCATCTAGTGTCTCTATAGTAACTATTTACACTCCTAGGGAAAATTATCTCACAGAAGCATAGAGAGCCTGACCTTGTCTATAAAGACAGTAAGGTATAA
W
GATTAAAAGAATAGGCTCTAAAGTCAGGCAGACCTGGGTAAATCTGCCACCTACTAGAGAGCTTGGGCAAGCAAGTTCACCATGCCTGGTACCTAGTGAG
Celera SNP ID:            hCV918783
SNP Position Genomic:     53574
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62197):
GATCTCATGTACACCTAGGGTCGAAGTTGGAACAGAGAGTATGTGGAGAGCCTGGGCTAAGACTGAAGCCGCCATGATGAAAACCAAACTCAAGCAGTCT
Y
GTTTTTTAAAACCAATGGGAGTAGTAAAGTATAAATGTAAATCTCAGTTATCTTATCATGCCACCCTATAGGTGTTTCCAGTAGTTACTTTAGAGCTATC
Celera SNP ID:            hCV16014589
SNP Position Genomic:     55753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62198):
GTGGCATCTAGTGTCTCTATAGTAACTATTTACACTCCTAGGGAAAATTATCTCACAGAAGCATAGAGAGCCTGACCTTGTCTATAAAGACAGTAAGGTA
Y
AAAGATTAAAAGAATAGGCTCTAAAGTCAGGCAGACCTGGGTAAATCTGCCACCTACTAGAGAGCTTGGGCAAGCAAGTTCACCATGCCTGGTACCTAGT
Celera SNP ID:            hCV918784
SNP Position Genomic:     53571
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62199):
CAGTCAGAGAGCCTTGGGCCAGAGTTCCAGGGGCTCTGGGAGTGGCTGCCAGGTGAGTTGGACAGTCCGATTTCCAGTGGGGTCCCACACAGATGGGACA
Y
GGCTTAGGAGGAATCCTGGGCTGCAGGCATTCCTTGGCCTGGTGGCCAGATTTCTAGCACTTGTAGCAAGCTCCTAGGGGAGGAGGTTCTGGAGGAACGC
Celera SNP ID:            hCV27000160
SNP Position Genomic:     14474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62200):
GTAGGGAATCAGACCTTTAGTAGACACGGAGCTCTTCAAATACAGAGTGAACTTGGGGCATCTGATCATGTGGGTCAAGATGAACACTACAGAATACAAC
Y
GAGAGCCACATGTGAGTGAAGCTGTACTCGAGCTGACAATACTGACATTCAAAAAGCAACAGGATGATGAGAATGTTCTGGAATTAGAGGGTAGTGATAG
Celera SNP ID:            hCV918785
SNP Position Genomic:     51767
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62201):
GGCAAGGGAAACAGGCCCTTGAAAAGAAGGTAATGTAGAGTGGGTAGCCTCCGTATTGATTAAGAAGGGGACGGACTTACTTTCCACTGTGAGAGTTACG
Y
GAAGCTCGGCGTCTGTGATGGTCTAGGGGGCTTCCAAGGCAGTCGGGCAGCATCAGTCTTCAGCCGCTAAGCCAAGAAGATCTGGGAAGCAGTCAGAGAG
Celera SNP ID:            hCV27000161
SNP Position Genomic:     14284
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62202):
CTTTTTGCCCTGAAAATTAGCCTTGGTGGCTGAGTTTTGCTTTTCAGGTTCTCATTGCTAGTGCTTATTTTGACGCTTAGTGACCATCTCATTCCTACTA
Y
TGGCCCGCAGTAGGGAATCAGACCTTTAGTAGACACGGAGCTCTTCAAATACAGAGTGAACTTGGGGCATCTGATCATGTGGGTCAAGATGAACACTACA
Celera SNP ID:            hCV918786
SNP Position Genomic:     51657
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62203):
ATTGAGGATAGGAGAGTATATGGGTTTGGCACCATGGGGTGGATAGGCAAAACAATTTGGTTGATAAGGCATAGATCCTGAACTAACTTGTAAGGCTTGC
Y
TGGTTTTAGGACAGGTAAAATGGGGGAATGGTAAGGAGAGTTTATAGGCTTTAAAAGGCCATGCTGTAGCAGGCAAGTGATAACAGGCTTTAACCCTTTC
Celera SNP ID:            hCV27000162
SNP Position Genomic:     13701
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62204):
CACCCTCGGCTGCGCACGCACAGTCGCGCCTGCCAGGCCAGCGAGGCGGACGCTTGGGCCACCACCCGCAGGCCGAGCCCGGGCGCGTATCGCCACCTCG
S
TGCGCACCGGCGGCTCTGTGGTCTTCCTGGGCGCGCTTGCGGTCGCGAAGGGGGCCCTCCCTTTATAAGGGAAGCCGGAGGCGCTTGGGCGGGGGTGGCT
Celera SNP ID:            hCV15895263
SNP Position Genomic:     7575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62205):
ACCCAAGTCTGACTGAGTTCTCCCACATTTATCCCAGCTGTCACGGATGAGAGGCACTTTCTCTTCTGCTGACCTTCTGGCTCCTGGTGATACTGTCTAC
W
GCACAGATGGAAAGTACCCAGGAAACAGCATAACAACAACAACAAAAAATCACATTTTTTAGCTTCAAAGCAAACACCAAAGTTAAAAGCCCAACGCCTG
Celera SNP ID:            hCV918787
SNP Position Genomic:     49876
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62206):
TGCTGAGCCTAATGGGTGTCAGGGTCAGTCCAAGTGAAAGCAAAGAGAGGCTGGGATGAAGGGTGCAAAGGAATAGTAAAGAAAGCATGTTTGAGATCCA
R
AACAGAATAATGGATTGTGGAGGGAGGTATTGAGGATAGGAGAGTATATGGGTTTGGCACCATGGGGTGGATAGGCAAAACAATTTGGTTGATAAGGCAT
Celera SNP ID:            hCV27000163
SNP Position Genomic:     13572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62207):
GTTGTTCCTGGGTCTCCTGACCACCCAAGTCTGACTGAGTTCTCCCACATTTATCCCAGCTGTCACGGATGAGAGGCACTTTCTCTTCTGCTGACCTTCT
R
GCTCCTGGTGATACTGTCTACAGCACAGATGGAAAGTACCCAGGAAACAGCATAACAACAACAACAAAAAATCACATTTTTTAGCTTCAAAGCAAACACC
Celera SNP ID:            hCV918788
SNP Position Genomic:     49854
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62208):
TAAGAATTCTGACCGCACTAACCATGCCTAGGAAGGAAAGGCGTTGTTGTTTTGTAAGGGATTGAGGTTTGGGAGATTAATCGGACACGATCAGCAGGGA
R
AGCACGTGTGTTTTTATGAGAATTATGCTGAGATAGGTAACAGATGAGGATGAAATTTGGGCTTGACTGAAGTAATGGGGGCTGTCTGTGAAGCCTTGCG
Celera SNP ID:            hCV27000164
SNP Position Genomic:     13351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62209):
CTGCTGCTTCCCAGCTGCACCAGCTAGGCAAACTCCTGCCAGAGGAAATCTCACAGTTGGAGTGCAGTAGGCATAGATTTCTCCTACTTAACTGGGGGGA
S
GCTGTAGTCACAGCGAAGGGAATATTATTGTGTCCCATGGGAAGAAACATGAAGACGGAGTGGACGCTTCATTCCTACTCCAATCAGCCATCTGGAGGGT
Celera SNP ID:            hCV1879089
SNP Position Genomic:     26042
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,8)      total(G,8|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62210):
ATAGATTTTGGAAGTTATGAGAAATGTAGAGAGTGAGTTGAGCATAGTTTGTGATTTTTAGGGCCTCTAAAAGTATTAGGGCGGCAGCAGCCGCTGCATG
S
AGACATGAGGGCTAGGCTAAAACAGTAAGGTCAAGTTGTTTGCATAGGAAGGCTACAGGGTGCGGTCCTGGCTCTTGTGTAAGAATTCTGACCGCACTAA
Celera SNP ID:            hCV27000165
SNP Position Genomic:     13171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62211):
GGGTCTTTCCTGATGCCGTGCTGCCGGGCACAATCTCAGGAGACTCCAGCACCACTGTTTACACCACCCTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
T
AAGTGGACCTCCAATGGACTATGTGCTCCTACAGAACAGGAGCTGTATTTTGAAGTTGTTTTGTTTGTCTACTTGTTTTGGTTTTGTTGTTAGTGTTCTT
Celera SNP ID:            hCV27000093
SNP Position Genomic:     129366
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62212):
CCGGATTGAAGTCCGGGCCAGGAACAATAGTAATTGTGGGACTTAACAAAGACTGAGTACAGCTGAAGGAGCTGGGGAGCAGAAAGTATATGCGTCAGGT
R
TGAGGAAGAAAATAGATTTTGGAAGTTATGAGAAATGTAGAGAGTGAGTTGAGCATAGTTTGTGATTTTTAGGGCCTCTAAAAGTATTAGGGCGGCAGCA
Celera SNP ID:            hCV27000166
SNP Position Genomic:     13059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62213):
GGGGTCTTTCCTGATGCCGTGCTGCCGGGCACAATCTCAGGAGACTCCAGCACCACTGTTTACACCACCCTTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
G
TAAGTGGACCTCCAATGGACTATGTGCTCCTACAGAACAGGAGCTGTATTTTGAAGTTGTTTTGTTTGTCTACTTGTTTTGGTTTTGTTGTTAGTGTTCT
Celera SNP ID:            hCV27000094
SNP Position Genomic:     129365
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62214):
GGTGTGGTATCAGGAATAATGTGGGAGGCCGGATTGAAGTCCGGGCCAGGAACAATAGTAATTGTGGGACTTAACAAAGACTGAGTACAGCTGAAGGAGC
Y
GGGGAGCAGAAAGTATATGCGTCAGGTATGAGGAAGAAAATAGATTTTGGAAGTTATGAGAAATGTAGAGAGTGAGTTGAGCATAGTTTGTGATTTTTAG
Celera SNP ID:            hCV27000167
SNP Position Genomic:     13031
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62215):
ACAACACCTAGATACACAATACCAGGTATGTTACAACTGCATGGAAAAGCCACTTTATAGGCCAAATGGCAGCAATTTTCAATGGCTTTTTTTTTTTTTT
T
ATAACTTTTGACCTACAAAATGTCAGTTTCCTGTGATGCCACCCTACCTGCTACTAGACTGGCCATCTGATCCCCACTGGAGAAGCCACAATCATAGGGA
Celera SNP ID:            hCV27000095
SNP Position Genomic:     122245
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,12)   total(T,12|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62216):
TAGAAAGGAAATGAGAGGTTCTAAGAGGCGGGCTAGTGGCTTGTACTATAGCATAGCCTGCCTTTGCTGGTGTGTGGCGATTAGGCCTGGTGGAACTGCC
R
TCAATAAATCAAGCGTGATCAGGGTGAGGAACAGGAAAGAAGGAAATATGGGGAAATGGGGTGAATGTCAGGTGGATCAGAGAGATACAGTCATGGGGGT
Celera SNP ID:            hCV27000168
SNP Position Genomic:     12828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62217):
AGAGTACTTTTCAGAGAGGGACAGTCAATAAAAAGCCTTCGTGTATAACTAGTCCATTTTCATGCTGCCGATAAAGACATACCTGAAACTGGGTAATTTA
Y
AAAGAAAAAGAGGTTTAATGGACTCACAGTTCCACATGGCAGGGGAAGCCTCACAATCATGGTGGAAGGTGAATGGCACGTCTTACATGGCGGCTGAGAA
Celera SNP ID:            hCV27000096
SNP Position Genomic:     114569
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62218):
GAGGTGTGTTTTTAAAAGACCTTTAGTCCGTTCTACTTTTCCTGAAGACGGAGGACCATAAGGGATATAAAGGTTTCACTGAATACTAAGAGCCTGAAAA
W
CTGCTTGGCTGATTTGACTAATAAAGGCTGGTCTGTTATCAGACTGTATAGAGGTGGGAAGGCTAAACTGAGGAATTATGTCTGACAGAAGGGAAGAAAT
Celera SNP ID:            hCV27000169
SNP Position Genomic:     12375
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,11)      total(A,5|T,11) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62219):
TGGGCTCAAGTGACCCTCCCACCTCAGCCTCCCAAGTAGCTGGGGCTCCAGGTGCACAACCACATGTTGCTGATTTTTAAATTTTTTGTAGGGATGGGGG
G
TCTCACTGTGTTCCCCAGGTTGGTCTTGAACTCCTGGCCTCAAACGGTCCTCCCAACTTGACCTCCCAAAGCACTGGGATTACAGGCCCGAGAACCACAC
Celera SNP ID:            hCV27000097
SNP Position Genomic:     113858
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,12)   total(G,12|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62220):
TTCAGGTAAAGTAGAATTCTATCAAAATTGTCACAAAATTGTCTTTGATGAGAGCCATCATAGTGCAAAGTTGATGACTAAAAGGAGATGGTTAAGTTGT
Y
TAAAGAGCAAGGCCATAGGAGAGAAGAAACTAATATTCAAAGCTTCCTCCCACAGTTCAAAGTTAGAGAAACCTGAGAGGGGTGTACTGGTATGACCACC
Celera SNP ID:            hCV27000098
SNP Position Genomic:     110499
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62221):
AGAAACAGAGAAATATATATATATTTCTATATATATGTATATATATTTTTTATATGTGTGTGTATATATATATGTGTGTGTGTGTATATATATATATATA
T
GGAGATTGTTATGTGAATTAACTCATGCAATTACAGAAGCCAAGAAGTCCCACAATATGCCACTGCAAGCTGGAGACCCAGGATAGGTGTCATTCAGTTA
Celera SNP ID:            hCV27000099
SNP Position Genomic:     99724
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62222):
CCGGCCGGCCTCGGAGCTCTACCAGCAGGCTTTCATGGGAGCGGAGGTGCCCACGTTTCCATTGTGCGGTAACCGCGCTTCATCACAGCCACCTCCAATC
R
AGGCCGCACGGTGTCCCCAGAACCACGCTCGGTACAACCTGCCCCGGCCGCTGCGCTCGACTTGGGAGCGCGCCCCGCCCCGAGCGCACGACCTCCCTTC
Celera SNP ID:            hCV15905163
SNP Position Genomic:     6704
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,26)   caucasian(A,13|G,21)   total(A,17|G,47)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62223):
GGGAGGTCCCCCGATCCGACTCATGGCACCAAATTTCATGCATGTCCGTGTGAAGAGACCATCAAACAGGCTTTGTGTGAGCAATAAAGCTTTTAATCAC
S
TGGGTGCAGGCGGGCTGAGTCCAAAAAGAGAGTCAGCCAAGGGAGACAGGTGGGGCCGTTTTATATGATTTGGGTAGGTAAAGGAAAAAGGGGGGTTGTT
Celera SNP ID:            hCV16014590
SNP Position Genomic:     16495
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62224):
AAAAGAAGGACTGGGGTGGTGGATCATGCCTGTAATCCCAACACTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGG
M
CAACATGGTGAAACCCCATCTCTATTAAAAATGCAAAAATTATCCAGGCAAGTTTCCACACACCTGAAGTCCCAGAGAATCTCTTGAACCCAGGAGCCGG
Celera SNP ID:            hCV8810808
SNP Position Genomic:     103425
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62225):
CTAAATGAGATTTTAGAAAGTAGCATAGTTTCTGAAAGGAGCAGCCACTGGAAACCAAAAACTTTCTCAGGGTACTCAAACGGTTTGAAGAGAACTGATA
Y
TTGAAAACGGAAATCCTTCCATTTGTGACAACATGGACAAACCTGGAGAACATTATGCTAAGTGAGATAAACCAGTCACAGCAAGACAAATACTGCCTGA
Celera SNP ID:            hCV16014594
SNP Position Genomic:     104289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62226):
GGAGCACAAGGAGGTAACCAGCCACTCCACTGAAGCTGTGTTTAGGTGGTGGATATGATCTGCCAGCGGCCCCTCAGCCAAAACCACCAATACAAATCCA
Y
GTAGACAGTTTCTTAAACAAACTTAGTAAAATCAAATCTAGAATATCTCCCCCTTTCAAACAATGCATTTTCCCAGTGCCAAAGTACAGCACTTTCTTAG
Celera SNP ID:            hCV15796066
SNP Position Genomic:     113394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62227):
CATGGACAAACCTGGAGAACATTATGCTAAGTGAGATAAACCAGTCACAGCAAGACAAATACTGCCTGATCTTTTGTATATGTGGAATCTAAAATAGTTA
M
TCTCCTAGAAGCAGAGAGTAGAATGGTGGTTGTCAGGGCTGGGGTATACAGGAAATGAGGAGATGTTGGTCAAAGGGTACAAAGCTTCAGCCATGCAAGA
Celera SNP ID:            hCV16014595
SNP Position Genomic:     104421
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62228):
AGGGCAATGTTAGTGAGCCACAGTATGTGCGTTGGGAACCATGTAGAGAACAGGAAACTACAGATGCTTTTTAAGACACTTATGAGAATTGTTCTTTCTA
M
AGTTTAAAGTGCCTGGCACATATTTGGTGCCTAATACTGGCTAAATAAGGAGATGCTGGCTGTGCGCAGTGGCTCACGCCTGTAATTCCAGGACTTTGGG
Celera SNP ID:            hCV918790
SNP Position Genomic:     48900
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62229):
CCTGGTTAGGTGTGAAGCCAGGAGGGCTTCTTAGCCACAGCCTGAAATCGAAGCCCAGGATCGAGCCACAGTCTGAAATTTTTGGATCGCAGCTCTGCCA
R
TTAAACCAATGGTAACAATAATAATGTACTGTCATATATGTAAGAACTGCCATATATGGAGCATTTTGAGCCAGGCAATGTGCCAAGCACTTGACAGAAA
Celera SNP ID:            hCV1879090
SNP Position Genomic:     25670
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62230):
GAAATGACTGCTTGAACGTTTCAGCCTTAATGCTGACATGTGGTGACTTGAAGCCAGGTGAATGAAGGTTCCTCCAGCTAGAGAGGTAAGATGAACATGC
M
GGACCAGGAAGAAAGCAGGTCATCATGTTAGACAGGTGCAATTATGTGCAGAGACTATAAAAGAAGAGAAAAAGACATTTAGTCATCAGAGAGCAGCCAT
Celera SNP ID:            hCV16014596
SNP Position Genomic:     105299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62231):
TTCTTTTTTCCAGATTTCTTTGGTTGAGGATATGTAACAAAGAATATCTTTGGTGAGAACATTGCAATCAGAAAAAAATGTCCGTGTAACCATTTTTTAA
R
ATTAATTCTATTTTCACTAAGAACACTGATTTTCAGACATAGCTATAGGTATCACAGGGTTCTATATGGAATTTCTAGAAATACAGTGGGGAGTTCATGG
Celera SNP ID:            hCV918791
SNP Position Genomic:     48581
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62232):
ACTTTCTCTTGCCCCAGAATAAGACAAGAATGCCGAGGCCTGGTCAGTATCCCAGGGTACCACCGCCAGTGCTGGCCAGAGCAGGCTCTGAGAGGCTAAC
R
CAGGCCACAGAGCCTAGGGCCTTGTTTTGGAGGGTGAGGTGAGGCTTAAAGCTGGTAGGATAGGCGCCCTCTGAGATTCGCCATCTGAGAAGTCAGTCAG
Celera SNP ID:            hCV3099981
SNP Position Genomic:     106820
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62233):
AGAGTTAGAAACAATAATTTTTAACCCAGTATATTTTTGTGAAAAAAAAATGGGAATAATGTGAAAGTCTAATAGTATGCAGTTAGTGAAATCAATAATG
R
TACATACATACAATGGAATACTATGCAGCCATTACAATTATACCACAGAAGAAAAGGCAATGGCCTGGAAAAATATATTGTTCATAATATATTGTTACAT
Celera SNP ID:            hCV918792
SNP Position Genomic:     48248
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62234):
GTGACTTCCATGCTAGAAATCGCTTCTCTGGGTCCAGCTTACACTTAAGTGAATGGAGATGTAAAATGGAGACGATACCAGTACCGATTATGCAGAGTTG
Y
GGTGAGGACTGAATGAACTAATACATGTAAAGCTTTTAGAAGGGTGCCTGGCATGTGGTGGGTGCTCAGGCATCATTAGCTGTTATCATTATTCTGTGGG
Celera SNP ID:            hCV1879092
SNP Position Genomic:     22069
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62235):
CATGGGTCACAGAAGCAATGGAAAGTTGGAAACCATTGCCTTCTAATTAGCAGATGTCTCAGTGGCTAACATTATTTGCCAGTAGCAGTGCCAGCGCAGC
R
CTGGGAAAGTTAATTACTGTCGACAGTCCTCGAGCCTGTTTTCATAACTGGTAATGACTGTTAATATGTCACCACTGAAGTTAGAGACTCAGAAAAGTCT
Celera SNP ID:            hCV3099982
SNP Position Genomic:     97762
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62236):
TCACTCAAATATTCCCTTGAGGCATCATTTTTTTTTTTTTTTTCAAAATTGGGAAAGCGAAGGATACAAGAAGTTGGAAGGAAAGCCCATGAAAGAAAAA
M
ACATTTACTATAATTAAGAAAGAAAATTAAACAGATGATGATCAGAACTGCGGTTATAAATTAAAGTTAACTGATTCCAAGAGTGTACGCCATCAGAATT
Celera SNP ID:            hCV918793
SNP Position Genomic:     47364
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62237):
AGTCCTTACTTCTGTCCAGTAAAATCCAAGACATGGCAAGGACTTGAACCTCGCAGGAATAAAAACATGGCCCACTTGGTTCAGCGTGACAGCTCTCAGG
R
TGGCGTGCCGTTACCCACCTGCAAATTCCTAACAGCCCAAAGTGGCACCAGTCACTTCCTCCTTGCGTTTCTCAGGCAGCACATTGAGTGGCTGCTAGCA
Celera SNP ID:            hCV1879093
SNP Position Genomic:     21817
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62238):
CTGAGGTTTCTAAATATTGTTCCAGCATAGGAATTTCAGCTTTTATTCTTTTCCAACTTTTCATTTATATGGCATGCATGGGTCACAGAAGCAATGGAAA
K
TTGGAAACCATTGCCTTCTAATTAGCAGATGTCTCAGTGGCTAACATTATTTGCCAGTAGCAGTGCCAGCGCAGCACTGGGAAAGTTAATTACTGTCGAC
Celera SNP ID:            hCV3099983
SNP Position Genomic:     97686
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62239):
CCGACTTGAAAAATCTTCTGATTCTATGACCAAACTGGAAGGCCTGGGTTGGGCTCTCTCAGTTCTGCAGATTTAAATGAGTCATTTCTGAACTGTTGGC
W
TAAGGCCTATCCTTTTCACTCAAATATTCCCTTGAGGCATCATTTTTTTTTTTTTTTTCAAAATTGGGAAAGCGAAGGATACAAGAAGTTGGAAGGAAAG
Celera SNP ID:            hCV918794
SNP Position Genomic:     47248
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62240):
AAACCCCCATGACACAAGTTTACCTAGGTAACAAACTTATACATATACTCCTGAACCGAAAATAAAAGTTAAAAGAAAAAAGAAAGACCCATCTGTATAG
K
GCTCTCTCTCTCTTTCTCTTACTTGGTTTATTCTCTTCCTTATCCATTGCATGCATTAACCCTTTAGAACTTCCGGTGTTCTGGGGACCCTGAAAGATCA
Celera SNP ID:            hCV15895271
SNP Position Genomic:     34038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62241):
GAGCACCCAATAACAGTTAGCCATTATCATTATTACTACTACTTACTAAGTCCTTACTTCTGTCCAGTAAAATCCAAGACATGGCAAGGACTTGAACCTC
R
CAGGAATAAAAACATGGCCCACTTGGTTCAGCGTGACAGCTCTCAGGGTGGCGTGCCGTTACCCACCTGCAAATTCCTAACAGCCCAAAGTGGCACCAGT
Celera SNP ID:            hCV1879094
SNP Position Genomic:     21769
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62242):
CCTTTTTAAGTTGGTAGCTGAGCTTGGTGAGGTGTGTTTTTAAAAGACCTTTAGTCCGTTCTACTTTTCCTGAAGACGGAGGACCATAAGGGATATAAAG
R
TTTCACTGAATACTAAGAGCCTGAAAATCTGCTTGGCTGATTTGACTAATAAAGGCTGGTCTGTTATCAGACTGTATAGAGGTGGGAAGGCTAAACTGAG
Celera SNP ID:            hCV27000170
SNP Position Genomic:     12347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62243):
TGAGGTTGTGGGGGTCAGGGCAAGAATAATAAAGGGAGAAAGGACAAGATTCAATCCAATCCAGTTCTTTTCTCCACTTAATCCCTGGCTACCACTGACT
Y
GGCACTCTGGGAGTAAAGAGCAGTGGAGAAAGCTCTAGACCTATTGGTGTATATTTCCAAGAGGAAGATCCTTGGACCAGCATCAAGTTGGCTTTTTATC
Celera SNP ID:            hCV3099984
SNP Position Genomic:     97474
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62244):
ACCACGGTTAAAAATCACTACTATTCACTTCTTACCATTTGATCTGTTGACAGTTTCAGCCATCAGTCACTGCCGGCTCCCACTTCATTTAGTTACCATG
Y
CCCTCACTAACACAAGATCGCCGTCTAGGGGCCAATCGTAGAACTACAGGCTACACAGAGGAGAAGGGAGCCAGGCCACCTTTCCCATGCATCCCACTCC
Celera SNP ID:            hCV918795
SNP Position Genomic:     45662
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62245):
CGCAGGCCCAAATGCCTTCTGGGCTTGTCTAATCCTCCAGAGGATATCAAAGGCAATACAGCCAGCATACCCAATCATTAGGAGTTTGGCTTCTGGGACC
R
GGCACTCTTGGGTGTGAGCACCAGCTCTCTTATTTATAAGCTGTAACCTTGGCCATGTTATTTAACCCTTCTGAGCCTGACTTTCCTCACTTGTACAAGA
Celera SNP ID:            hCV1879095
SNP Position Genomic:     21479
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62246):
AGGAGCTCAAATGGGCTGTACCTTGTAGCATTCTGAGGACAGGTCTGACTTCTGAGAAAGGAAAGTCGTAAAAGTATTGTCCAGTCCTTTTTAAGTTGGT
R
GCTGAGCTTGGTGAGGTGTGTTTTTAAAAGACCTTTAGTCCGTTCTACTTTTCCTGAAGACGGAGGACCATAAGGGATATAAAGGTTTCACTGAATACTA
Celera SNP ID:            hCV27000171
SNP Position Genomic:     12262
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,14)   total(G,2|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62247):
TTAAATGTAAGCACCTGCAGCAGGGTATTGGTGAACTGTCCAGGGGAAGCACAAATTAGAAAAAATACAAAATACGCTTCCCTGAGCCCATGAATTTACC
R
TATCAGGAATATGTAAGATACATTAATTAGTTCATCAGTAGGCTCCAAGACAGACATTGCAGATGGTGGGGAAGGTGGGGGTGGGGGCAGGTGGGTGGGC
Celera SNP ID:            hCV3099985
SNP Position Genomic:     69633
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62248):
GTAATGAAAATTGGCAGGTCCCACTTGAGAATATTATACTAAGTGAAATAAGCCAGTGACAAAAAGACAAATACTTTTTTCCACTTCTCTGAGGCACTCA
W
ATTCATAGACATGGGAAGTAGAATACTGTTTGCCAGGGGCTGGGAGAGGAGGTAACGGAAAGTTGCCGTTTAATGGATGCAGAGTTCCACCTTTGCAAGA
Celera SNP ID:            hCV918796
SNP Position Genomic:     45179
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|T,4)      total(A,4|T,4) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62249):
TTCTCTTAAAGAATACATATGCCTGTGTTCAGATTATCTCCTCTTCCTGACAAATGAGGGAAATCCCCAGATGAAAGCTGATAAAACATTAGACGGGGGT
R
ATTCCGGACCTCCACATCCCTATGGAACACATCACAGAAGCCAGGATTGGAGAGCCAACTCCACACACCTCCATATCCCCTCTTAGATGAATGGCAATTC
Celera SNP ID:            hCV1879096
SNP Position Genomic:     21263
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62250):
AGAGTGGCAGTTTGGGGATAGCACCAGGAGATATCAGCTGTGATGGCTTGGAGAAACAGCGTAAACCGGCAGTGTAAATAAGAGCAGGGCGTGTATGAGT
R
GTTGAGAACGGTGAATAGGAGTATGACTAGACAGAAGATAATAGGGATGATAAGTTTTTTTGGGGCACAGTCTAAGTTGGTCTGGTGTCTGGAATGAGAC
Celera SNP ID:            hCV27000172
SNP Position Genomic:     12032
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62251):
TGCTTGTGCAGAACCCAAGGACAGCTGCGCATTTATTGCACATTTATATTCACTGCTTCCTGATGACATTAAATGTAAGCACCTGCAGCAGGGTATTGGT
R
AACTGTCCAGGGGAAGCACAAATTAGAAAAAATACAAAATACGCTTCCCTGAGCCCATGAATTTACCGTATCAGGAATATGTAAGATACATTAATTAGTT
Celera SNP ID:            hCV3099986
SNP Position Genomic:     69565
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62252):
TATTGCTTCACCAAGAGTATACTCCAGGTGATTTTTTTGTGTGTCCTTAATTTTGTCATTTTGTGGTCATTAATAACATCAGTTAACAATAATATTATTA
W
ACTGTCCACTACAATGTGCGTTTGTGAGCACTGGCAACAATTTAGCAGAACAGAATGAGTTAGATTCCCAATTGTGGTAGATCACGTGTAGTAGCGAACA
Celera SNP ID:            hCV918797
SNP Position Genomic:     35301
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62253):
TTCTTCTCTTAAAGAATACATATGCCTGTGTTCAGATTATCTCCTCTTCCTGACAAATGAGGGAAATCCCCAGATGAAAGCTGATAAAACATTAGACGGG
S
GTGATTCCGGACCTCCACATCCCTATGGAACACATCACAGAAGCCAGGATTGGAGAGCCAACTCCACACACCTCCATATCCCCTCTTAGATGAATGGCAA
Celera SNP ID:            hCV1879097
SNP Position Genomic:     21260
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62254):
TAAGAGTGGCAGTTTGGGGATAGCACCAGGAGATATCAGCTGTGATGGCTTGGAGAAACAGCGTAAACCGGCAGTGTAAATAAGAGCAGGGCGTGTATGA
S
TAGTTGAGAACGGTGAATAGGAGTATGACTAGACAGAAGATAATAGGGATGATAAGTTTTTTTGGGGCACAGTCTAAGTTGGTCTGGTGTCTGGAATGAG
Celera SNP ID:            hCV27000173
SNP Position Genomic:     12030
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,9)   total(G,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62255):
CAAAGGTCCTGTGCTTTTCTGCCTAAAATATGTACAATCCTCAGTTGGCACTGTCAGGAATGGGGACCGCCCTCATGGAGAAGTGGCACTTCCACTCCTA
R
CCAGCCTCTGTGTGAGCTGGACTCTAAGGTCAGGAGAATGAGGAGGCCGTGAAGGTCTTGGCCGTCTCTTTTTCCCCTCATCTCTACTGAGACATAGATC
Celera SNP ID:            hCV3099987
SNP Position Genomic:     36741
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62256):
AAAGGTTTGCCAATTCCCATCTCTATGAACCTTGGCTTTGTACCAAGTAGAATGTACCTAAATACTTTTCCTTCTATAAAGGATGGTTACTTTGACTTAG
S
TTTGCCAACATGGAACAAAACAAACAAAACAAAAATTTTACTTGTCTTTCAGACCTATTTCTTCTCTTAAAGAATACATATGCCTGTGTTCAGATTATCT
Celera SNP ID:            hCV1879098
SNP Position Genomic:     21101
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|G,7)      total(G,7|C,3) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62257):
TAAGTCAGTTTAATGGGTAGCCACTGTGCTTTTCCAGTCATCTCCAAACACACATACCCACATGCACTGAGGAGAGTGGAGGAGAATAAGCCATCTCTGG
Y
AGGCTCTTGACATTTGGGTGGGCAGGATTCAGTCATCAGGCACATGCTGGTAGGCAAGAGGAGCAGAAATAAGGAGACACACCAAGTGGCTGAGGGTGCG
Celera SNP ID:            hCV27000174
SNP Position Genomic:     10682
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   SC_12_C(C,3|T,18)   SC_12_AA(C,4|T,19)   SC_95_C(C,37|T,150)   total(C,44|T,187) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62258):
TCCCACCTCAGCCTCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCGCCTGGCCAACATTATTTTTTCAACCATCAACGGCGACTTAGATGGTCATTT
R
TGTTGTTCTCAACTCTATTATTAGAGACTCCACTGCAGTGATTTCACTTTTCTGTGCAATTCTGAATCCATTTGCAAATGTTCCCCCAGTATCGATTCTC
Celera SNP ID:            hCV1879099
SNP Position Genomic:     20839
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62259):
GCCTGGGGGAGCTAGCGGGGCGGGACCCGAGCGGGGCGGAGAGTGGCAGGAGGAGGCGAATCTCCGCGCTCCGGCGAACTTTATCGGGTTGAAGTTTCTG
S
TGTCGCCTCCCCTTTGCGTGCGGAGCTGGGCTTTGCGTGCGCCGCTTCTGGAAAGTCGGCTCCAGTCATATCCCTGGGCGCTGCCTGCGGCCGCTCCTCC
Celera SNP ID:            hCV8834333
SNP Position Genomic:     7283
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62260):
CACAACACTCCTCTGAAAATAGGGACAGCTAATTTTGTAATGGATTGCCAGCAAAAGCTGTGACAATGCCTACTCTGGAAGTCTCTAAATTTCTTTTCAA
Y
CTGAGAAGGGTGTTCCATGATATTTACTGGAGTAAGAAGTGATGGAGGAGGTAGAATAGTTCTGGAAGTCAGGTCTCTAAATAGAACAAATCTTGGGATC
Celera SNP ID:            hCV8810814
SNP Position Genomic:     102200
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62261):
GTGTCCCCAGAACCACGCTCGGTACAACCTGCCCCGGCCGCTGCGCTCGACTTGGGAGCGCGCCCCGCCCCGAGCGCACGACCTCCCTTCCCTCTCCGCG
R
CTTGAGCTTGCTTCCCGGAAAGCCAGTGTAGTGGCAGCGGTTTGCCTCACAGCGCCCCTGGTTGGTTGTTTAAATTTTATCTTAGGTTCTCGCAAACAAA
Celera SNP ID:            hCV15905173
SNP Position Genomic:     6815
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,3)   caucasian(A,20|G,14)   total(A,47|G,17)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62262):
GGCCTGGGGGAGCTAGCGGGGCGGGACCCGAGCGGGGCGGAGAGTGGCAGGAGGAGGCGAATCTCCGCGCTCCGGCGAACTTTATCGGGTTGAAGTTTCT
S
CTGTCGCCTCCCCTTTGCGTGCGGAGCTGGGCTTTGCGTGCGCCGCTTCTGGAAAGTCGGCTCCAGTCATATCCCTGGGCGCTGCCTGCGGCCGCTCCTC
Celera SNP ID:            hCV8834343
SNP Position Genomic:     7282
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62263):
AGACCCTGACCAGCAGGGAAGAGCAGTAGCAAGGAGATAGGAGAGAAGGGTGGTATAAAGAGTTTACCTTCTTTATTTTTCTCTGTCCACAGTTCCTTTA
Y
GCGGAAAGCTATTTACAGCAGCCACAGTCTCTGTTTGGTTTGGCATGACACTGACTTTCTATGGATAAGTCAGGATCTCATGTCCTCATCTAAAAATGGT
Celera SNP ID:            hCV15796084
SNP Position Genomic:     114292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62264):
TCACCCTACTTTGAGGCTGAATACTAGCACTTATTCCGTCTAACTATATGTCTGTACCTATTAACCAACCTCTCTTCATCCCACACACCCTTCATAGCCT
Y
TAGTAGCTACCATTCTTTTCTCTACCTCCATGAGATCCATCTTTTTAGCTCCCACATATGAGTAAGAATATGCAATATTTGTCTTTCGGTGCCTGGCTGA
Celera SNP ID:            hCV15796085
SNP Position Genomic:     80588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62265):
CCCTATGTAAATCAGACACCGCCTCTTCAAACCTGCCTAAAAATTTGGAGAATTCCGCCCCAGCAAGTCTTTCCCTTTCAGAAGCCCCGCTCTCTCGCTA
K
AGAGAAAGCTGTTCTCCTTTCTCTTTCTTCTGCCTATTAAACCTGCGCTCCTAAAGGCCTCCTTTGTGTCCCTGTCCTAAATTTTCTTGGCGCCAGGTAA
Celera SNP ID:            hCV15796086
SNP Position Genomic:     38245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62266):
GAATGACTGATTACATTGTAAAGAAACACAAAGGAGTGTCTGAAGAGAATCTGACTTCTTGAGAGATTGAAACCAGCAATCAATTTGCTGACCTGATAAA
R
AAATGTCTTTTCGTGATGGCTTTTTTTATTTTTATTTTTATTTATTTATTTTTTTTGAGATGGAGTCTCACTCTGTCACCTGGGCTGCAGTGCAATGGCG
Celera SNP ID:            hCV11642658
SNP Position Genomic:     8680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62267):
CCAAGCTGTAGTTCCTTGGGCTCAGCTCTTTTTCTAGGACATGACTCAAAAATCAGAGGAACTAGGTTGGTAAGTGCTGTCAGAAAGATAAGCCCTTATC
R
GTTATGGCAAACCAAAATGACTGGCTATGGTAACACTTTTTGCAGAGAATCTTCAAGCCTGGAGTTCTTAGGGCTTTATGGTGCAAACTTCATTGAATGC
Celera SNP ID:            hCV11642659
SNP Position Genomic:     9627
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62268):
TCCTGAGGCCTCCCCCAGAAGCAGACGCCTGTACAGCCCACAGGAACCATGAGCTGACTAACCATCTTTTCTTTATAAATTACCCAGTTCTTTATGGCAA
Y
GTAAGAATGGACCAATAGAGCACATCACTAGGGTAGCACAAAGGAGAGGGCCCAGAAGCAGAGGAGAGATAAACAGCTCATTTTTTTCATCTTTCTCAAT
Celera SNP ID:            hCV8810903
SNP Position Genomic:     58944
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62269):
TGTCCCTACCCAAATCTCATGTTGAACTGTGATCCCGAGTGCTGGAGGGAGGGTTTGGTGGGAGGTGATTGGATCACAGGGGTGGTTTTTAATGGTTTAG
Y
GCCATTCCCCCAATTTCTTAGGAAATCTGCTTGTTTGAAAGTGTGTAGCATCTCCTTTGCCCCTCTCCTGCTGCTAATGGCCTGTTTCCCCTTCACCTTG
Celera SNP ID:            hCV8810904
SNP Position Genomic:     58726
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,11)      total(C,11|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62270):
TGGTAACTTGGCACCAGTTGCCAGTGGCTTCATATGAACCTATCAGCTGCTGTGGGATGGCAGAGCAGTTAAGAGTCCAAGACTAGTCCACGCAGGCCTG
Y
AGCTCCCACATTCTGATGCATCAAAGCCACAGCAAGTTCCTAAAACATAGGCTCTGGATCCAGATGCTTTTGGTTCAAATTTTCACTTCATTATTTCTCA
Celera SNP ID:            hCV8810908
SNP Position Genomic:     54347
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62271):
GGGAACGCTGGCTCACGCCTGTAATACCAGCACTTTGGGAGCCTGACGTGGGTGAATCACGAGGTATGGAGTTCAAGACCAGCCTGGTCAAGATGTGAAA
M
CCCGTCTCTACTAAAACTACAAAAATGAGCCAGGTATGGTGGCGGGCACCCGTAATCTCAGCTACTCGGGAGGCTGAGGCAGGGAATTGCTTGAACCCGG
Celera SNP ID:            hCV8810837
SNP Position Genomic:     92325
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(A,4|C,7)      total(A,4|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62272):
GTCCCATATCAGTTTAATACCTATTTTCCAATGTAATGCCCTGAAATCCCAGAAGAGGAAAAAAGAATTTTTTTCTAACAATTAGAAACATGATAAAAAA
W
ACTATCAAAGGTATATTCATTCAGCCATGCAAATTGTAAAACCATAGCAATCATTCTATTTGTTTGGTCACAGTTTAAAAAAGGAAATTTGCTATAAGAA
Celera SNP ID:            hCV15796093
SNP Position Genomic:     55151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62273):
AAATAAAGTAATGAGACCACTTTGTTGTAGCAAAGAAATTCAGTTTGTTTCTAGAAGCAGATGTGTGTGCATGGGTGAGTGGGCATGTGCATATTTGCTT
W
AAAACATTTTCCAATAACTGCTGACAACAGCAACCTGAAGCCTCCAGGCACCCAGTTTCTCCCCATCCTGAGATGATCTTTTTGCTCCTGGAGCAGCATT
Celera SNP ID:            hCV8810770
SNP Position Genomic:     123972
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62274):
ACTTTCAGCAGAATTGTACAATATGACATTATATTGCTCAAAATGACTCAATTTTCTAATCTTTGAGACTTCTTAAAAAGAAATGAACCCCAAGTAGAGT
R
AAGGTGGACTGCAAAAAACAGCTTAGTCTGAATGAAAAAAATTCATCCTTGGCTCTGCATCTAAGAAACTGGCTGTGTGTCCTCAGACAATTCACTTAAT
Celera SNP ID:            hCV8810916
SNP Position Genomic:     53121
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62275):
ATGTGTGCGTGCAGGTCACAGGGGATATGATGGCTTAGCTTGGGCTCAGGGGCCTAACAATACAGGCTGACAAGGATTCTTTCTTTGTATTAAGCACTTT
Y
TAGATTTCTTGGAGTGGTTAGCACCAAGGGTATTGGCTACCAATCCTCATTTCTATTAATATTATTTCATGTAGACAAATGTAGACAATTGATGTTTTCT
Celera SNP ID:            hCV1023790
SNP Position Genomic:     16869
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62276):
GGAAAAGAGTGAGGGAAATAAGAAGGGGGAGCAGAGAGATACAGCAACTAAGAAAAAGAAAAAGAAAAAAATACCCAGCCCTGGGGCTAAAAGATAGTCA
Y
GGTGGTCAGTCACTTTGTCTGGGCTCTCAACTGGTGTACTTACCTCTCCTGCTCAACGTTTGAGCATGTGCCTCTGCTGCTTAATATTTGTGGGGTGAAG
Celera SNP ID:            hCV11642687
SNP Position Genomic:     18193
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62277):
AACAGTGAAAGAGGGAGCCTACTGTCCACAACTTTGGTCAATAGGGAAACACTTTACTTCCCTAATTCTTTGACCAACCATAGAAAACCTTTAGGCAGAT
R
AAGGATACTAGTTTTCCTTTTTATTTTCATTTTCTAAAAATAAATATTTACCAGGTTACCAAGAAAATACATAAAGCAACAAGTAAAACACCCCACCACC
Celera SNP ID:            hCV11642688
SNP Position Genomic:     18855
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62278):
GCTAGTTATGAAGGGGATGGAAGTGATCTCTATCCAAGGGAAGAACATTTGAATTGATGTTTAAAGGAGTTGTTTAGATTCTTATGAAGGAATAGAGGAA
K
AGTAGAGGCAAAGACAGAGAAGGGGATGGATGAGAATAAAGAACAAGAAAAGAAGCAGTAGGAGACAAATGAGAAGGTTAAAGCTGATAATTTTTACTTT
Celera SNP ID:            hCV27484301
SNP Position Genomic:     53928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62279):
CCACCCTCGGCTGCGCACGCACAGTCGCGCCTGCCAGGCCAGCGAGGCGGACGCTTGGGCCACCACCCGCAGGCCGAGCCCGGGCGCGTATCGCCACCTC
S
CTGCGCACCGGCGGCTCTGTGGTCTTCCTGGGCGCGCTTGCGGTCGCGAAGGGGGCCCTCCCTTTATAAGGGAAGCCGGAGGCGCTTGGGCGGGGGTGGC
Celera SNP ID:            hCV16073651
SNP Position Genomic:     7574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62280):
GTATCGCCACCTCGCTGCGCACCGGCGGCTCTGTGGTCTTCCTGGGCGCGCTTGCGGTCGCGAAGGGGGCCCTCCCTTTATAAGGGAAGCCGGAGGCGCT
Y
GGGCGGGGGTGGCTTCCCCCGCCTGGCGCGCCCTTTCCTACATGCTGATGCATAGGATTTTCAAGACAGCTAAGAGAACAAGGACTTCACGAGGCGGGGG
Celera SNP ID:            hCV16073652
SNP Position Genomic:     7661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62281):
CCAGCCTCTGTGTGAGCTGGACTCTAAGGTCAGGAGAATGAGGAGGCCGTGAAGGTCTTGGCCGTCTCTTTTTCCCCTCATCTCTACTGAGACATAGATC
R
AGACAGGGACCCATAAATCACCTTGGAGTTAAATCAGGGGAAAAAAGAAAAGCCCTCTCAGGCAACAGCATTTCACAGCAGCAACAGGAAGTTGTAGGGA
Celera SNP ID:            hCV2948368
SNP Position Genomic:     36842
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62282):
GGAATTCTAAAAAACAAAGGTCCTGTGCTTTTCTGCCTAAAATATGTACAATCCTCAGTTGGCACTGTCAGGAATGGGGACCGCCCTCATGGAGAAGTGG
Y
ACTTCCACTCCTAGCCAGCCTCTGTGTGAGCTGGACTCTAAGGTCAGGAGAATGAGGAGGCCGTGAAGGTCTTGGCCGTCTCTTTTTCCCCTCATCTCTA
Celera SNP ID:            hCV2948369
SNP Position Genomic:     36727
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62283):
CTATTGTACCCTTCCTGCCTTTTTCATGCACTGCTCTCCACCCACCCTGGCTTCCCGGCTTTGCCTCCAACGTCAGAGTGATTTCTGGGCTTGCTTTTTT
K
TTTTTTTTTTGCCTGGAAACTTCTTCTCTGAAGAACTTTCAAATGGCTGCCTTCTTCATGTATCTCCTCTCGGAGCATCATTCCCTGACCTTCCTTTCTA
Celera SNP ID:            hCV11642696
SNP Position Genomic:     30813
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(-,3|T,6)      total(T,6|-,3) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62284):
TACCCTTCCTGCCTTTTTCATGCACTGCTCTCCACCCACCCTGGCTTCCCGGCTTTGCCTCCAACGTCAGAGTGATTTCTGGGCTTGCTTTTTTTTTTTT
Y
TTTTGCCTGGAAACTTCTTCTCTGAAGAACTTTCAAATGGCTGCCTTCTTCATGTATCTCCTCTCGGAGCATCATTCCCTGACCTTCCTTTCTAGGGCTC
Celera SNP ID:            hCV11642697
SNP Position Genomic:     30819
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62285):
TGACAACCTCTTGTGAGGTGTGTGCGCTCTTCCTCCAAGTTCTTTGTTCTAAGGTCAGAGGGCTGATCACCTCACTGCTGCCCTACATAGTCCCCTCAGC
R
CCAGAAAATGCTCACTTACCACCAAATTTACTTCCAAACTGTAGTTTATCAGAATATAATTTTATTTTCTGAAAGAAGTGCTTCAACTTTGTGTATTGGC
Celera SNP ID:            hCV29309528
SNP Position Genomic:     130762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62286):
TATCTCACGGTCTCTTAGAAACAGACACGAATTGTGGTTTGTAACCCAATGTGGAAATAGTTACGGAGAAAGTGACAACCTCTTGTGAGGTGTGTGCGCT
Y
TTCCTCCAAGTTCTTTGTTCTAAGGTCAGAGGGCTGATCACCTCACTGCTGCCCTACATAGTCCCCTCAGCACCAGAAAATGCTCACTTACCACCAAATT
Celera SNP ID:            hCV29309529
SNP Position Genomic:     130690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62287):
TGATCGTTCCTTATAAAAAGGCCTTCATTCCTCACAAAAATACAACTTTCAGTCAAGAATTTGGTCCTTTAAAAAAGAAAGAGGAAGAAAAGAAAGCATG
W
GCTCTATCCCTCTTTTGACTAAATACTACCACTGACTTTCCTGTTTAGAACTAAAGGCTGTCTCTTGTTCCACAGGTCAAATGCATACTTTTTAAAATGC
Celera SNP ID:            hCV8810879
SNP Position Genomic:     76476
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;(A,-|T,-)   Caucasian(A,3|T,55)   Caucasian, from CEPH families(A,36|T,238)   African-American(A,8|T,50)   Asians(A,3|T,57)   total(A,50|T,400)
SNP Type:                 INTRON


Context             (SEQ ID NO:62288):
ACAGGCAAAGCTAAAAGAGGTTGTGGTAAACATATAGCTGTGAACAATCGTCTTATTAACAAAGTCCTGGTCTAGCTGTAAAGCCTGGTTTTCCTTCCCT
R
TCTCAGAGAGCTCTGTGGAAGGTAGTTGGTAGATCTGAAAGTCCACAAGCAGATTCTCCAGGTGCAAGGAGAAGTGTACAGAGGAAAGCCTTTGTAAATC
Celera SNP ID:            hCV29309530
SNP Position Genomic:     127876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62289):
TGATATTCTCGAACACTCCTTTTTTTCAGTCCACAACAAAAAGATGTTCCAAGCCATCCTCGCTTTTTTTTTCCCTAAGACTGCAATTAACTAACTTCCA
M
GAAAATTTGATTGCTTTGAGAAAAGAATAGCATCAGAAATCACAATTCAAGCTTCTCACCTGTGCATCAGCAGTGAAGAGAAATGCTGGTCCTTTCACTA
Celera SNP ID:            hCV29309531
SNP Position Genomic:     126696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62290):
CGCTTCATCACAGCCACCTCCAATCGAGGCCGCACGGTGTCCCCAGAACCACGCTCGGTACAACCTGCCCCGGCCGCTGCGCTCGACTTGGGAGCGCGCC
Y
CGCCCCGAGCGCACGACCTCCCTTCCCTCTCCGCGACTTGAGCTTGCTTCCCGGAAAGCCAGTGTAGTGGCAGCGGTTTGCCTCACAGCGCCCCTGGTTG
Celera SNP ID:            hCV25972944
SNP Position Genomic:     6779
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,33|T,1)   total(C,60|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:62291):
CTCTTGAGCCCCATTCCTTTCTAATTATTAAATGGCACAATGCCGAGGAATCCCTCCTGCTCCTGAAACAGACTTCTCCAGGGGCGTCATGGCTGACTCT
Y
AGGTCCCTCAGTTTATTCTCTCCTGCTTGTGCAGAACGAAACAAATACAAATCAATATTTTAAAACAGACATATACTTAATATTTTTTAAAAGCCAGAAT
Celera SNP ID:            hCV29309532
SNP Position Genomic:     126289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62292):
TCTACCCTCCCACCCCCATCACTTCCCCTTCCAGCACCCATCATTGCTCCCCCTGGTTGAACCTCGTCCTTGTGAGGTCCAAGTGAAAATTTCCCCTTTG
Y
CCTCTGAAGGTTTACTGAAAATCACAGACAAGAGGTAGATTAATAGGAGAAAAGGCATGCAATTTATTGTTAATGTGTACACGAGAGCCTTCAGAATGAA
Celera SNP ID:            hCV29309533
SNP Position Genomic:     124418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62293):
CCTCTCACCTGGATATATTACAACACTGTGCATAGGAGAGATTCACCAGATAGCTGATAGAGAACTTTACATTCAGTACTTAAAGCTTTCCTATTGTGAG
R
GAGAACTCCATCCAGCATAGGAAATAGCTCCACAGAGTTTTTATCTGAGCCACATACTGCCTCAGAGATCAGAACCCAAGCAAAAACTCTGCTTCTTTAA
Celera SNP ID:            hCV29309534
SNP Position Genomic:     123006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62294):
GGGAAGTTCCCTACTCTTGAAACCTAGCCTGGAATGGGCTTTCACCTCTGTGCTATTTATACTAAAACTGAATTGGCCTTAGGGATGGGATGGAAAGTAA
K
TAGGATTCCCTATTACCTGATGATTTTGAACCCAAACTATTCCCTTGTGGACACAAATGGGTATGGTGGAGTCAAATGCATTCCGTGAATTCTTCCCCTA
Celera SNP ID:            hCV29309535
SNP Position Genomic:     90437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62295):
CCTTTTAAAAGTTTCTGCTTTCTGCTCCAAAAGCAAAGTGGTACCCATAAGGCAGGCAGCCTGTACTTCCCTAAGCTAGCTTTGGAATACAAAATCACAT
Y
CCTTATACCAGACTCCGCTCTTGTTCATTGGACTAAGCAGGTGGCAAGTGACTAAACCTGTATTTTGGTTACATTTCTACTGAGAGGAATCCAGGGACAC
Celera SNP ID:            hCV29309536
SNP Position Genomic:     88277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62296):
TAATGTTGAGAACTCCATGAAGTTCTGTAACCAAGTACCCCCCATTGTTTCTGAGATAGAGAATGAATTATTTTTTATTTTCTCTTCTCTCTTTCCCCCT
R
CTCCCCTGTTCCCCACTTCCTATTTAGCTCTTTAGAAATGCAATGATGATAATATTTTACCTTCCCTCCACCAGACATCCCTACAGGGCAAGCTTATCTG
Celera SNP ID:            hCV29309537
SNP Position Genomic:     87812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62297):
CTCAATAGGGCCTGGCAGCCCATTGTAATGACTGGGGCTTTCACACTGAGTGAAAGATGGTAAGCATCCAAGGGAGAAACAGGAGAGCAATTAAAAGAGT
K
GCAAAAATCTAGACTTGGAGAGTAATTACCACCGATTATAAGAAGTGGTCAGGTTCCAGATGTCTTCAAAGGCAGAGCCAACAGGATTTGCCGGTGGATT
Celera SNP ID:            hCV29309538
SNP Position Genomic:     84071
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62298):
GTTAAAGTGCTGTTGGCTGTGAGCTCAGTGCTGATGAATCAACAATATATATTAAGTAAGGCATCTTTAATCAGAAACACACATAAAGTAAGGTTATCTA
Y
TGATCAGTTGGCAAAAATGTAACTAGAGGCTCACTGGAACCTAAACCTGCATTTCCCTTAGGAGCAGTGGTTCAATATTTGCTAATTCATTGTTTGCAGT
Celera SNP ID:            hCV29309539
SNP Position Genomic:     83345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62299):
ACCAGGTGTCAACAACTGTAGAGTTCCATCAAGAGTCATCATTTTACAGTTACAAGTCGGAGGGGCCTTCACAGATCCGTCAGGCTCAACACTGCCTCCT
Y
AGTGAGCCTGTGAACCACCCAAGACGGCTGGTCATCAGTGTCATCCTCTTCCTTTTCCGGACAACTATCTTTAAAAGAAAAAAAAAGAGTGTCTTTGAAT
Celera SNP ID:            hCV918717
SNP Position Genomic:     132870
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:62300):
TACCCTGGTAAAGTCACCTGCCTTCTTTGAGCTTCAGTTTTCTCATCTGGCAGTTGTTCAATGGGTTTAGTCATTTGCAATCATTTTTATTACCTTCTAA
R
GTCCCCTTTAGGTACTGTGATGGAGAGGTAGACAGACAGAAAGATGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATGATAGATA
Celera SNP ID:            hCV918718
SNP Position Genomic:     131357
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62301):
CACATCCCGAAGTGTCCTGCATTCCTCTTTCTGCCCCTTATAGGTTCTTTACCTGCAAACTCTCTCCCTCTTGTCCAAAACATTTTACCTGCTCTGTCAC
Y
TTTGCATGATCACAGGTCCTTCGCGTTCCACAATCAGTTATTTCCGTACCAGGTTTGTTTTATCACTTTGAACCTTAAAACACAGGGAACAAAATTTTAC
Celera SNP ID:            hCV918719
SNP Position Genomic:     130268
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62302):
CAGCTAAAGCAGAAGAGGCAGTGTTTTAATCTAGACACAGGTACCTGCCCTTAATCACTATGCTTGACAGCTTCTTAAGCTAGAATGGGTGGTAGGTGAC
Y
GGGGTCTGAATTAGGAATTTGGAGGTAGTAATGGAAAAGAGGGATCAAATTCTTAGAGGTAGGATAGGCAAGACTTCACCAACAGGAGCCTACGGAGGTC
Celera SNP ID:            hCV8502263
SNP Position Genomic:     105966
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62303):
TCCCGGAAGACAGCAGAAAGAACAACCAGTACACAGGCTGAGGATGTAAACAAACCCGCCATGTTGTGGAAACCAGGAGGAGGCTCATGTGCCCAAAATG
S
AGTCAGTAGGAGATAAGGTCAGAGAAGTAAGAAGGTGTCAACTCAATAGGGCCTGGCAGCCCATTGTAATGACTGGGGCTTTCACACTGAGTGAAAGATG
Celera SNP ID:            hCV8502337
SNP Position Genomic:     83929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62304):
CACTACGGTAAATAGACTAGGTCATTTGAGGCAGAGATTGCTGGCCTGGGCCACCCCAGGTCCACCTAGGCTCCCCAAAGACTGAGGAATACCTATTTTG
Y
ATACAAGTGAGCTGCATCCACTAGTTAAGAAGCCAAATCAAAGACTGTCTATGAGGCAAAACATATACTGCAGCCATTTGGGGGAAAGAACAAAGCACTG
Celera SNP ID:            hCV8502264
SNP Position Genomic:     101061
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62305):
ACCTTTTACCATATCTTTTGGCTATTACTTATAGTGTAAATTCAATGATCTTATTCTACGTTCTTACCCACTTCTCCCATTTTAAAAATTGTACTGTTTC
K
ATTCTGTTAGAAAATGCAATGTTTAACTACCATTCTTATACCCATATCTCCAACCTTGTGTTAGTCCTAGATCTATATATGAAATATGTAGAAGCCCACC
Celera SNP ID:            hCV8810886
SNP Position Genomic:     71608
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62306):
CTTAATGTTTTCAACCTTGGCTGCACCCTTAGTGAGATTTCTAAAATCGCAGTGCCACACCCCATGCCATTGATATCAGAATCTTCTGAACTAGGACCCA
G
CTTCAGTGTTTTTTAAAGCTCCCAGTTGACTCTAATGTGCAGCCAAGCTTGAGAACCATGGATTCAGAATATTTTCCTAAATTCTCCCATAAACCTCTGC
Celera SNP ID:            hCV11162709
SNP Position Genomic:     97231
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,7)   total(G,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62307):
GCACAAAAGGCACAACCGGATATACCTGTTATTTCCCAATGACCTGAGAGCCCGAAGTTTATGTTAAGCCTTGGGTTATGGCACAGCTTGCACGCAAGGC
Y
CTGCAGCTCCTGCAGGCAATTGAGAGGTGGTGGTGTACAGGACAGAGGAACAACTCTGAAGTGACAGCACATAATTTAATTCCCCCTAAGCTTTCCAAGC
Celera SNP ID:            hCV11162639
SNP Position Genomic:     26724
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62308):
CTTTTTAAAATGCCACTTGACCCCTTGGGTTCCCCATTCTCAGTAGAAAAACAAAATGGTCATTAATTTATTTTGACATGCAAACTCAGCTGAACATTTT
K
TGGTGATTCAACCCCACAGATGTAAAGTGAAAGAGTGCCAGAAAAGCAAGTGAGAGCCATGAGATTACCACAAGTCTGTGAGCACATTTTTTTCAAGGCT
Celera SNP ID:            hCV29309540
SNP Position Genomic:     76664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62309):
TGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGGATGGATGTGTTTGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGC
R
TAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGTGATATCTCCTTTATCATTTTTTATTGCATCTATGCAGTTCTTCT
Celera SNP ID:            hCV29309541
SNP Position Genomic:     65463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62310):
GACCACTTTGTTGTAGCAAAGAAATTCAGTTTGTTTCTAGAAGCAGATGTGTGTGCATGGGTGAGTGGGCATGTGCATATTTGCTTAAAAACATTTTCCA
R
TAACTGCTGACAACAGCAACCTGAAGCCTCCAGGCACCCAGTTTCTCCCCATCCTGAGATGATCTTTTTGCTCCTGGAGCAGCATTGACGTGTTCCATAG
Celera SNP ID:            hCV15964321
SNP Position Genomic:     123986
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,192|A,1277)   total(G,192|A,1277) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62311):
GTTGTTTCCTACTCTTGGTTATCTGGAGTCACACTGAGCTCAAAACAGATGGCCCTGAAACTGCTCTCTGAAGCAGTGAGCACACACCGTCTAAACACAC
M
AATATGCGCATGCACGTGCACACACACACACACACACACACACTTGTATGTCACCACTGAACTAGTAACCCCAAGCAAGCTGACCAAGTGCTCTTCTCCT
Celera SNP ID:            hCV918720
SNP Position Genomic:     129956
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62312):
AGTATGTAAATGAATGAGCATGGCCCCATCTGGCCCTCCACCCACAGGCCATAGTTTGCTGACTCCTGCAAGAGTAAAACCCTTTATGAACTAGAGAGTT
S
CAGGCTTGAACATGGGTCCAGAAAATATGGGAAGGCAAACCTCACACATTTGTGGTTGTGTGCCTCCTAAGTGCTTTGTGTCACTGTTGGCTTCCAATTC
Celera SNP ID:            hCV29309542
SNP Position Genomic:     62225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62313):
TACCTCGCCAGTGTGGATTGTCTACACTGCCTGCCTGCTCCTGGAAAACTGATCTTCCTACCAACCAAACAGCTGGCTTCAGCTTCTCGCCATGCAAGTG
Y
CTGCCACATGCCACTTCTCTACCTAGGAAGTTCTCCCTCCTTTCACCTGAACCTGTCCAAATGTTACTCTTCCTTCAAAATAGGGCTCCAATCTCAAAAT
Celera SNP ID:            hCV918721
SNP Position Genomic:     129152
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62314):
GCAAACTGTTTATGTGGATGTCCGGATAGTACATTTTTTGCCTGTGTGGGCCTTCCAGTCTGTCTTAGTTACTCAACTCTGTGATTTTTGAGCAACCATT
R
GACAGTATGTAAATGAATGAGCATGGCCCCATCTGGCCCTCCACCCACAGGCCATAGTTTGCTGACTCCTGCAAGAGTAAAACCCTTTATGAACTAGAGA
Celera SNP ID:            hCV29309543
SNP Position Genomic:     62121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62315):
CTACCTCGCCAGTGTGGATTGTCTACACTGCCTGCCTGCTCCTGGAAAACTGATCTTCCTACCAACCAAACAGCTGGCTTCAGCTTCTCGCCATGCAAGT
K
TCTGCCACATGCCACTTCTCTACCTAGGAAGTTCTCCCTCCTTTCACCTGAACCTGTCCAAATGTTACTCTTCCTTCAAAATAGGGCTCCAATCTCAAAA
Celera SNP ID:            hCV918722
SNP Position Genomic:     129151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62316):
GGCATTGGTCAGGCTGAAAGCAAAGAAAGACAATCCATTGCCCCCAGGAGAACTGGTCTTACTCTAAATCAGTGGCCTGCAAACTGTTTATGTGGATGTC
Y
GGATAGTACATTTTTTGCCTGTGTGGGCCTTCCAGTCTGTCTTAGTTACTCAACTCTGTGATTTTTGAGCAACCATTAGACAGTATGTAAATGAATGAGC
Celera SNP ID:            hCV29309544
SNP Position Genomic:     62043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62317):
AATCCTGCATTAGGGTGGGCCCCAGATCCAATGAGACTGTCCTTAAAGTCCTCCACAGCCTAACTCCAGGCTACCTCGCCAGTGTGGATTGTCTACACTG
M
CTGCCTGCTCCTGGAAAACTGATCTTCCTACCAACCAAACAGCTGGCTTCAGCTTCTCGCCATGCAAGTGTCTGCCACATGCCACTTCTCTACCTAGGAA
Celera SNP ID:            hCV918723
SNP Position Genomic:     129081
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62318):
AAAGGGCCCCAGATACTTCTCAGACTGCTGCTCCAGAGAGTGCAAGCCACAAGCCTTGGTGGCTTCCATGTGGTGTTAAGCCTGCAAGTACAAAGAGGAT
R
AGAGTTGAGGCTTGGGAACCTCCACCTAGATTTCAGAGGATGTATGGAAAGGCCTGGATGTCCAGGCGGGAGTCTCCTGCAGGGGCAGAGCCTTCATGGA
Celera SNP ID:            hCV29309545
SNP Position Genomic:     57910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62319):
TGGCATTGTGCTCCTGCTCTAGGGATCTGTTGAACTTTGACCTTGAGAGATGATTTAGGGTATCTGGCAGAAGAAATTTCTAAGCATCAAAGTGCTCAAG
R
TGTGGCCTGGCTGCTTCCAAAAGCCTAACTCATCTGCATAAACAAAGAAATGACCTGAAAAGGGAGGCAAAGCATAAAAGATAGATAGGAAAATTTGCAG
Celera SNP ID:            hCV29309546
SNP Position Genomic:     57425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62320):
AAAAAAAGCTGTCATTCTTTCTAAACACTAAACTTATTGTCATCTTAAGGTCTTGACTGTTGGTGTTCCTTCTGCTTATTTACATTCACATGGCTTCTTC
Y
TTGTCCTTGGTCAAGTCTCAACTCAAATATGATTCCCTCCAAAAAGCCTTTCCTTGTTACCCCAATTATAGCAGTTTATAATCAGCCCCAATCTTAACTC
Celera SNP ID:            hCV918724
SNP Position Genomic:     128761
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62321):
GAGAAACAGAGAAATATATATATATTTCTATATATATGTATATATATTTTTTATATGTGTGTGTATATATATATGTGTGTGTGTGTATATATATATATAT
A
TGGAGATTGTTATGTGAATTAACTCATGCAATTACAGAAGCCAAGAAGTCCCACAATATGCCACTGCAAGCTGGAGACCCAGGATAGGTGTCATTCAGTT
Celera SNP ID:            hCV27000100
SNP Position Genomic:     99723
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,7)   total(A,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62322):
CGTGGGGCTTGGTGAGAGGTGATTTGATCATGAGGGTGATTTCTAATGGTTTAGCACCATCCCCACAGTGCTGCCTTATGATAGAGTTCTCAGGCGATCT
R
GTTGTTTGAAAGCATGTAGCACTTCCACTGCCCTTCTCCTGCTGGCCATGTGAAGGTGTGCCTGTTTCTCCTTTACCTTCTGCCATGATTGTAAGTTTCC
Celera SNP ID:            hCV29309547
SNP Position Genomic:     56809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62323):
CTGCGAAGGCCAGACAATTCCTGGGGCATTCTGTGAAGCTAGGAAGCCAGAGTTGGAAGGGTCCCACTCTGCCTCAGCCCTCACATGACCTGGTCCAACA
Y
TGCCTTACAGATGAGGAAAACTGAGGCCTAGAGAGGTAAAGAGACTTACCTAAAAGGCATGGTTGGCCACTGTTAAAGTTGGGATTTAAAACCCAAATTT
Celera SNP ID:            hCV918725
SNP Position Genomic:     128224
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62324):
AGACTCAGAAAAGTCTTTTGTCCTAGGACTATTAAATGTCATGGAAGAATAACCCCCAAATTTGCCTTTGGGTAGATAAAGTTCAATGGGACTGGCTGGG
Y
GCGGTGGCTCACGTCTGTAATCTCAGCACTTTGGGAGGCCAAGGTGGGTGGGTCACGAGGTCAGGAGTTCAAGACCAGCATGGTGAAACCCCAGCTCTAC
Celera SNP ID:            hCV27000101
SNP Position Genomic:     97947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62325):
CTCACTTAATGTTTCTTCCTACCACTCCCATTCTACAGTGAGCCCATGATTAAGATAACAACAGCTTAAATGAGTTAGTGCATAGTATGGTTTGGCTCTG
K
GTCCCCACCCAAATCCCGTGTTAAATTGTAATCTTGAGTGTTGGACGTGGGGCTTGGTGAGAGGTGATTTGATCATGAGGGTGATTTCTAATGGTTTAGC
Celera SNP ID:            hCV29309548
SNP Position Genomic:     56663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62326):
TGCTTTTGAGGCCACATGAGGAGATACACAGCTGCAGGATTCCCTATCAGCAAAGACTGAATGATGTCAAACGTTCAGAAAAGGAGAAACTAAGTGGGTG
Y
AGCACAATCAATCACTTTGCATTTCAAGGTGAACTTGCAGCTCTTATGGGGAGGGAATTCTCTATGTCATTTTCCACGTAAATAAAGTAATGAGACCACT
Celera SNP ID:            hCV918726
SNP Position Genomic:     123792
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62327):
ATTGGCAGTGAAGCAAGTCAAATACTTACTAGGAACACTAGCCCTTTCTTAGAAGCGACTCTTGTTGAAAAAAACATCCTGTGCTTTGTGAAGTGATTTG
T
CCCTGAAGAACTCTATGAGTAAAAGAGACTCTAGCTGTGACTTTGGCCAAGTCAGGTGGTCTTGCTACTGATGAGGGGGCTGAATCCTGAGCATTCTCTT
Celera SNP ID:            hCV27000102
SNP Position Genomic:     90155
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62328):
CACTCTTGGCTTAGGAAATTTTCTCCTCTTTTTGCCCTGAAAATTAGCCTTGGTGGCTGAGTTTTGCTTTTCAGGTTCTCATTGCTAGTGCTTATTTTGA
Y
GCTTAGTGACCATCTCATTCCTACTACTGGCCCGCAGTAGGGAATCAGACCTTTAGTAGACACGGAGCTCTTCAAATACAGAGTGAACTTGGGGCATCTG
Celera SNP ID:            hCV29309549
SNP Position Genomic:     51630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62329):
CCATCCAGCATAGGAAATAGCTCCACAGAGTTTTTATCTGAGCCACATACTGCCTCAGAGATCAGAACCCAAGCAAAAACTCTGCTTCTTTAATTCATAC
S
CTCCCTTATTTCCTCACCTTGGGCTCTTCAAATGCCCCCAGCTTGACTGTGGAGCTGGCTTCCTCTCCAACCATCATTAATTTCCCAGAGGGGCCTGTGG
Celera SNP ID:            hCV918727
SNP Position Genomic:     123114
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62330):
TTTTGAGCTGTCTGGCTGGTTGAGACAGATGATCTGATGGCAAGAATGATTTGCAAAAAATTCAACACTGACCAATCAGAGCAGACAGTCTAAATAAACA
Y
CGATTCTTACAAGGCTACCTTCCTTACCAGTTAAATATCAGTCCTGCCTCAGAGAAACATAAGATCTAAAGAGGAAAATCTACACAAGATTGTGTGTGGG
Celera SNP ID:            hCV918728
SNP Position Genomic:     121347
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62331):
AACCCAACCCAATTTGACTTGAATAAGTAAAGGAATTTATTGGCTCTTACAAGTGTAAAGTCCAGAGGTTTCAGTTGAGGCATGGTCCAACAGCTCAACA
K
TTTCACTGAGCACCTAGTTTCCTTTTGTCTAATCTCTGCCCAATATTGTTCATAGTTCCAAGATGTTCACCAAGAGGTCCCTGAGCTGTGTGCTTTCTCA
Celera SNP ID:            hCV918729
SNP Position Genomic:     119649
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62332):
ATTCCATACATGTTCCTGCAAATGATAGAATTTCATTCTTTTTTACGGCTTAATAGTATTCCATTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
K
ATCACATTTGCTTTATCCATTCATCTGTTGATGGACACTTAGATTGATACTGTATCTTGGCTATTGTGAATAGTGCTGCAATAAACATGGGAGTGCAGGT
Celera SNP ID:            hCV27000105
SNP Position Genomic:     80813
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,1|-,9)   total(G,1|-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62333):
TCTTTTCTCTACCTCCATGAGATCCATCTTTTTAGCTCCCACATATGAGTAAGAATATGCAATATTTGTCTTTCGGTGCCTGGCTGATTTTACTTAACAA
R
ATGCCCTTCAATTCCATACATGTTCCTGCAAATGATAGAATTTCATTCTTTTTTACGGCTTAATAGTATTCCATTGTGTGTGTGTGTGTGTGTGTGTGTG
Celera SNP ID:            hCV27000106
SNP Position Genomic:     80702
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62334):
TCTTCTCTTGCCCACCTTTGGTGCTGCAGAGTGGATCATCTTGTTTTATACTCAAGTCATCATTAAAATTTATAGAAAAAGAGAGAATTTAAAAAAAAAA
A
CACTAAAAAATCACCTTGTACGCATATACCTCAGAAGGTCTTTGGCCTAATGGTAATCTGTGACATTAAGGCAAATAACCAAAAATATGTAATTTTTCTA
Celera SNP ID:            hCV27000107
SNP Position Genomic:     79642
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,6)   total(A,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62335):
GAAATACAAATCAAAACCACAATGAGATAACATCTCACACCAGTCAGAATGGCTATTATTAAAAAGACAGAAAATAAGAGTTGCTGGTGAGGCTGCAGAG
R
AAAGGGGAAAGCTTATATGCTCTTAATGGAAACACAAACTAGTTGAGCCACTGTGGAAGACAGTTTGGAGATTTCTCAAGGAACTCAAAATAGAACAACC
Celera SNP ID:            hCV27000108
SNP Position Genomic:     77877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62336):
TCATGAGGGTGATTTCTAATGGTTTAGCACCATCCCCACAGTGCTGCCTTATGATAGAGTTCTCAGGCGATCTGGTTGTTTGAAAGCATGTAGCACTTCC
R
CTGCCCTTCTCCTGCTGGCCATGTGAAGGTGTGCCTGTTTCTCCTTTACCTTCTGCCATGATTGTAAGTTTCCTGAGGCCTCCCCAAAAGCAGAAGCCTT
Celera SNP ID:            hCV8502413
SNP Position Genomic:     56836
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62337):
GACTGGTGACTCACTTTGTCCTTCCCTCCTGTAAGCCATGAGAAGGAATCAGAATGATTCTGTCATCAAGAGCATCACAAATCCTGGATCTTCACCTGAT
T
AATGCTTCACGTCTAGCACAAGCACTTTCATTTTCAAGGGATTCCATACTGTATTGTCTAGCCCCTGGCTGGGTTGGGATATAGTTATCTTGGTGGCATA
Celera SNP ID:            hCV27000109
SNP Position Genomic:     75733
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62338):
CATTCTAGCTGGGGAGACAGAAAACAAATAAGTGCATTTATAATTGGATGTCTGCTTGTGATATGTGTGTATCCCAGGCAGAGGGTCCACAGAACAAACA
R
CAGCATCTAGTGTGGCTCGGAGATGTGCTCACTCAAGTTCTATGCCAGATTTGAGAAGCCTGCTTGACTCTAACATCCCAAATCTGCATTTCCAGCACTT
Celera SNP ID:            hCV11162713
SNP Position Genomic:     107610
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62339):
GTGAGAGTAATGACGTGAGCTAATCCAATTTGAAGTATAAACAAAGAAATTTCTTCACGCAAAGAGACTGACTTATTTTGTTTCAGAACTAAATACCACG
M
AGTAGAGGTTAGGTCAGGGAATCTGGCCTAAATATATGGGGGGGTCAGGGAGATGGAGGTTAGTCATTCCATTGGAGGACAGAAGAAAAAGGAACAAGAA
Celera SNP ID:            hCV8502275
SNP Position Genomic:     100554
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62340):
TGGTTACTGTAGCCCTGTAGTATAGTTTGACGTGATGCTTCCAGCTTTGTTCTTTTTGCATACAATTGCCTTGGCTATGTAGGCTCTTTTTTGATTCCAT
W
TAAATTTTAAAATAGTTTTTCTTTCCAGTTCTGTGAAGAATATCATTGATAGTTTGATAGGAATAGCACTGACTCTGTAAATTGCTTTGGACAGTATGGC
Celera SNP ID:            hCV8810966
SNP Position Genomic:     32617
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|T,8)      total(A,4|T,8) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62341):
ATGTGTTAGGTTGATACTGGGTGGGGGCACTGAGGATTTTTAAAACGTGATCAGGGCTGCCTTGTTGAAGGTAAACCTAGCGGTGGTAAGTCAAATGAAA
W
GGAGTCATGAGAGAACAGGTGGTACTAATCACTACCAGTACTGAGTGCTTTGCAGATGCTACTTCATATACATAATCTGATTTAATTCTGATAGCAAGAA
Celera SNP ID:            hCV16014600
SNP Position Genomic:     105694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62342):
TAACTCTGATTGAATTATATGTTAATTCCTTGCGGTGGTCTTAGATTTCAGACGCTATTAGCAAATTATGGAGGAAAAGCAAGATCGTATGATTCATGAA
Y
TATCACAGCAGCAACAGTTTCTAATTTCCACCCATCCTCTGTGTCATGTGATATGTTTCAGAAACTCACTTAAAATTGAGAAAATAAGCCATTCCTAATT
Celera SNP ID:            hCV11162645
SNP Position Genomic:     30039
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62343):
GCCATTTGGGGGAAAGAACAAAGCACTGAACTAGAGGGCAAAGACCAACATTTTGGTTCTAGCTCTGCCAAGTGTAGGACATTGGACTAGGCACTTAACT
K
CAGTAAGCCTCAGTCTGCTTGTGTACAAAACAGAGTAAAAGATTTCTTGCATTTCCTACTTTACAAGGTCAACATGAGGATCAAGAATACCATGTTCATA
Celera SNP ID:            hCV16014602
SNP Position Genomic:     101234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62344):
TCTCCTTTGCTGTCACATGTTTGAAGATGGAATTGTGCTGCTTCTGAGCCATCCTTCCACCAATTAAAAATGCCCCAGTTCCTTATCTCTGCCTTCTGGA
M
AATGTGCTTTTTCAGTATGTCCATCTGAGTATGGGCCTGAAACTGAACATAGTATCCCAAATATGACATTCTGTCTAGCCCAGGGGGGTGTGGTTACTTC
Celera SNP ID:            hCV1879100
SNP Position Genomic:     19700
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62345):
CTCAGTGGAAGAGGCATGTGGATCCTGGTTAGGTGTGAAGCCAGGAGGGCTTCTTAGCCACAGCCTGAAATCGAAGCCCAGGATCGAGCCACAGTCTGAA
W
TTTTTGGATCGCAGCTCTGCCAGTTAAACCAATGGTAACAATAATAATGTACTGTCATATATGTAAGAACTGCCATATATGGAGCATTTTGAGCCAGGCA
Celera SNP ID:            hCV29309550
SNP Position Genomic:     25647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62346):
GCACATTGAGTGGCTGCTAGCATCACTCCAGAGCCAGACTGAATCTGAATCTGGCTCTCCTACTTACACCGGAGTGACTTCCATGCTAGAAATCGCTTCT
S
TGGGTCCAGCTTACACTTAAGTGAATGGAGATGTAAAATGGAGACGATACCAGTACCGATTATGCAGAGTTGTGGTGAGGACTGAATGAACTAATACATG
Celera SNP ID:            hCV29309551
SNP Position Genomic:     21996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62347):
ACTGACAAGCCTTGGTAACGGAGCAGATATAGGAGATAATGAGGAGAGAGGAGTTGGAGTTGGAGTTGGTGAGGAGAGATGGAGTTGGAGTTGGATACAG
Y
GACAACTTCGAAGTTTCTATCCAGAGGCTGGGAGTGTGATGGGCCATTGACAGAAATGGCAAACGGAGAGCTGGTTTGCAATGGATCAAGATGAGGGTTG
Celera SNP ID:            hCV918730
SNP Position Genomic:     119207
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62348):
TCTAATCCTCCAGAGGATATCAAAGGCAATACAGCCAGCATACCCAATCATTAGGAGTTTGGCTTCTGGGACCGGGCACTCTTGGGTGTGAGCACCAGCT
S
TCTTATTTATAAGCTGTAACCTTGGCCATGTTATTTAACCCTTCTGAGCCTGACTTTCCTCACTTGTACAAGACAGGTAATATACCAACCACAGAGGGTG
Celera SNP ID:            hCV29309552
SNP Position Genomic:     21506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62349):
TTTTTCATGGCTACCTACTACAGAGTGTCCTAGTAAAATATATACTTGATACATTAATATACGCTTTAAAAAGAACAGCAGTTAGACATTAACCAATATC
Y
GTTTTGGTTATGTTAAAGTCACAAATGTTTAAAATGCCCATCGTTTCACAGTCAACCACATATAAGATATATCTTGCTTTATTAAGTGTATTTAACACCT
Celera SNP ID:            hCV918731
SNP Position Genomic:     118476
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62350):
CACGAAACGAAACTGTAAGGCAGACCAGGTGTGAGGAGGGGAGGTGATAAAAGGATTATAGGGTGGAGGAGCGGAGGCTGAGGAAGAATTGGGACCTAGC
K
GGGCCTGGCGAGGAGCAGCCTGGGGAGGTGGGGAGAGGTCAGATGGGTCCGTAGAAAAGGAAGATTAGAAAGCCTCAGCGACGCTTGGGGTTGGGACTGA
Celera SNP ID:            hCV29309553
SNP Position Genomic:     15105
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62351):
AGAAGATAATAAGTCAACAGTCACTTTTTTCATGGCTACCTACTACAGAGTGTCCTAGTAAAATATATACTTGATACATTAATATACGCTTTAAAAAGAA
Y
AGCAGTTAGACATTAACCAATATCCGTTTTGGTTATGTTAAAGTCACAAATGTTTAAAATGCCCATCGTTTCACAGTCAACCACATATAAGATATATCTT
Celera SNP ID:            hCV918732
SNP Position Genomic:     118451
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;(C,-|T,-)   (T,-|C,-)   (C,-|T,-)   Caucasian(T,18|T,28|C,38|C,50)   Caucasian, from CEPH families(T,124|C,164)   African-American(T,26|T,27|C,34|C,53)   Asians(T,10|T,11|C,49|C,70)   total(C,458|T,244)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62352):
CTCCATGTATACATGTCTGCCCACTGGTTTCTTTGGGTTGGAGGATAACCTAAGGAAACCCAAAGCCATTATTGTTATTATTATTTTAAATCAGCAGATA
Y
ATGCATTGCCCTTAGAGCCAGTAGCCCAGAAAGCTCTGCCCTTCTGCTGTCAGGCTGGAACTCAGTTTTCTTCATGGTCTTCCTCTCTAGTGTGACCCCT
Celera SNP ID:            hCV29309554
SNP Position Genomic:     10482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62353):
AGGAGGAAGGTAGAGAAAATGGGTTCCAGTGTGTGTGTATGTGGGGGTGGGAGGGGTGTGTTGATTTAGGGGTGTACAGAAAATGGTGGTGTGCTTCATG
M
CTTTTTTTTTTAAAGAATGAAACCAGGACATCAACTGAGCATATAAGAGGGGAAAGTGGTGCAGTAGGGTTAAGGCATAATGAAAAGATTTAGAATTATC
Celera SNP ID:            hCV918805
SNP Position Genomic:     31418
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62354):
CCAAATCTCAAACTTGAATTGTTTGTTGCAAATAACTTTCAAAAAGAACAGCTAAGCTAGAGGGATAGTTTAAAGTAGAGAGAGGTTTAAAATATCTTAT
M
TTGTATTGACTCGAAGGAACAACTTAAGCTTGTTTAAGCAGAACAGGAATGCACTGGCCCATGTGCAGAGAAGGATAACCGTGATGCTTCACAGGATACA
Celera SNP ID:            hCV29309555
SNP Position Genomic:     10028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62355):
GAGTTTTGGTATTGATTTTATGTGTCAGTACCTGAGAAGGAGAGAAGTCCTTGAGTTGTTTCGTAAATGTGGCTCAAGTGAGATGCTGAACAGTGCCAGC
Y
ATGTGGACTCTGCCACAGTGAAGGAGGAAGGTAGAGAAAATGGGTTCCAGTGTGTGTGTATGTGGGGGTGGGAGGGGTGTGTTGATTTAGGGGTGTACAG
Celera SNP ID:            hCV918806
SNP Position Genomic:     31296
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62356):
ATCTCCCAATCTCTCTTCCCAAGTCATTCTTTTTTTTTTTTTTAATTATACTTTAAGTTTTAGGGTCATTCTTATCTTCTTCTCATCTCTTACCTGTTTT
Y
TCCTGACCCTAATTCCTCAAAGAAGCTTAATTCACTTCTAGATCCCCTCCTTCCCCCATGAATATAAAGAAAATAACTATATCTAGTTCTTTTAGATGTT
Celera SNP ID:            hCV918733
SNP Position Genomic:     117659
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62357):
CATGCTTTCCTGCCATCGCAGATAGATCAGATATATCCTCCAAGCTGTAGTTCCTTGGGCTCAGCTCTTTTTCTAGGACATGACTCAAAAATCAGAGGAA
S
TAGGTTGGTAAGTGCTGTCAGAAAGATAAGCCCTTATCAGTTATGGCAAACCAAAATGACTGGCTATGGTAACACTTTTTGCAGAGAATCTTCAAGCCTG
Celera SNP ID:            hCV29309556
SNP Position Genomic:     9588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62358):
TAGCAATGAGCAAGACTCTGTGGGCGTAGGACCCTCTGAGCCATGCGCGGGATATAATCTCCTTGTGTGCCGTTTGTTAAGCCCATTGGAAAAGTGCAGT
M
TTAGGGTGGGAGTGACCCGATTTTCCAGGTGCTGTCTGTCACTGCTTTCTTTGACTAGGAAAGGGAATTCCCTGACCCCTTGCGCTTCCCAGGTGAGGCG
Celera SNP ID:            hCV27000110
SNP Position Genomic:     68574
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|A,8)      total(A,8|C,4) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62359):
ATTCAAGCTCTGCTACCTATAAATAAGCTAATGTCTTTCCTCTGGGCTGTTGTCCCTTAGCCTTCAACATCTTCTAGTCTGAAGCAAAAATCATGCTTCA
Y
TTTGTTTTGCTATCTTTCTAATACAGTAAGAGCTTCAGGTCAAAGAACTGAAGAGAATGTGAGAGCTTGACCCTCTGTTATGTTTTTCGTTATTTGTAGA
Celera SNP ID:            hCV1879034
SNP Position Genomic:     132539
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62360):
CTTCAGAGTCACACACACACAAAAAGATAAGCTTTTTTCTCAATTGAAAACTGGAAAGTTGAAAGAGGAAGTAAAGAGAAAAAGAAAGACATATACTATA
W
TCCAGGAGTCCCACATGTTCAGAAACTCTTCACCTGTGAATCTACATTTTACTGAGTTCACATCTGCCTTCTGAAGGGTAACCACTCTTTACCCCCCAAA
Celera SNP ID:            hCV918734
SNP Position Genomic:     116627
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62361):
TTTGCCATTGGTTCGAATTTCCTCCTGTAGCTCGGAGTAGTTTGATCATCTGAAGCCTTCTTCTCTCAACTCGTCAAAGTCATTCTCTGTCCAGCTTTGT
K
CCATTGCTGGTGAGGAGCTGCGTTCCTTTGGAGGAGGAGAGGCACTCTGAGTTTTAGAGTTTCCAGTTTTTCTGCTCTGTTTTTTCCCCATCTTTGTGGT
Celera SNP ID:            hCV27000111
SNP Position Genomic:     67736
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62362):
AGTTCTCCCTCCTTTCACCTGAACCTGTCCAAATGTTACTCTTCCTTCAAAATAGGGCTCCAATCTCAAAATTTCTGCTCCCATGGGGTCTTTCCTGATG
Y
CGTGCTGCCGGGCACAATCTCAGGAGACTCCAGCACCACTGTTTACACCACCCTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAAGTGGACCTCCAAT
Celera SNP ID:            hCV1879035
SNP Position Genomic:     129281
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62363):
TCCATGCCAGGCATGCCCCATCACCTAGGAAGAAACTCAACCCATCAGCAGGCATCCAAAAAGGCGTCAGCCAGGTAGGGTCCCAAAGAGCCCCACACCT
Y
GGGTTATCTGGGAAAATCCCAAGTTATTTAGAAGACAGTGTACCTCTTGCCTCTACCCTTGGTGGTAAACATTGCTTCAGAGTCACACACACACAAAAAG
Celera SNP ID:            hCV918735
SNP Position Genomic:     116452
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62364):
CAAAAGATCCATCTCCTGTGGCTACCTAAGAGCAGTGACTCTCTGGGGGTGGAATAATTTATACATGTGTAAAAACATTTATTTTTCTACATATTTACTT
S
AAGCATGTGTTAAAATATCTGCAAACAACTCCAGACCCCCTCCCCATCTTATTTTTATCCTAAAGGCAGTGTTACATGGATATCCAAATGTTTAGAGAGG
Celera SNP ID:            hCV918809
SNP Position Genomic:     29706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62365):
GTGTTTGAGGAATTTATCCATTTCTTCTAGATTTTCTAGTTTATTTGCGTAGAGGTGTTTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCG
S
TGGTGATATCTCCTTTATCATTTTTTATTGCATCTATGCAGTTCTTCTCTCTTTTCTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCTT
Celera SNP ID:            hCV27000112
SNP Position Genomic:     65515
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62366):
ATCAATGAGGAAATATACAAAAGAGCCCTAGCACAGAACCTGATTCATCACTGATGCTCGGTGAGTGTTCATTATACACCCCCAACACCTCTACTAACCA
Y
GTTGACTGTGACTAAAGTAAATGTAGATTGGCAAGTCACACTCTGGAATAAAGCTTCCCAACCCTGACGCCTGACACAATCACCTGGGAGCTTTAAAAAG
Celera SNP ID:            hCV1879036
SNP Position Genomic:     125254
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62367):
TGAGTATTCCTCCGTGGAGTTTTAGCAACTTCCCATAGGAAATCCAGGCTAAGGTCTGATTCATCCAGTCCTGAATAATGTGTTAATCATGAATTGGATA
M
AAATCATGAATTGGATACTACTCAAGAGGATAAGCTGTTTTCAAACATCTTAGCAGTAAATATTTGCAAACCAACAAGAAACACACTAAATACAAATGGC
Celera SNP ID:            hCV918736
SNP Position Genomic:     115746
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62368):
TAGTTTTAGAAGGAATGGTACCAGCTCCTCTTTGTAACTCTGGTAGAATTCGACTGTGAATCCATCTGGTCCTGGACTTTTTTTGGTTGGTAAGCTATTG
M
TTATTGCCTCAATTTCAGAGCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGGATGGATGTGTTTGAGGAATTTATCCA
Celera SNP ID:            hCV27000113
SNP Position Genomic:     65334
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62369):
GCTTCCTCTCCAACCATCATTAATTTCCCAGAGGGGCCTGTGGTACTTGGGAATAGCTTCGGTGATGAGAGGCAACAAGGTCTAGCCAAGCACAGCTCTC
Y
AGGTCTTGAAACATCCTTAAGGCCTAAGCCTAGTATCATAGACACGGGCTTGTTCTAACCCCAAACTCAGACCTCTAACAATGACCTCACTTCCACTTGC
Celera SNP ID:            hCV1879037
SNP Position Genomic:     123272
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   ;no_pop(T,-|C,-)   (C,-|T,-)   Caucasian(T,32|C,52)   African-American(T,28|C,54)   Asians(T,6|C,68)   total(C,174|T,66)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62370):
CCTGTGGTCTGCTTTAGAATTCACCCAAAAGCCAATTGTTTCTGTGGTTATTCAAATTTTGTTTCTCTTCTCACTCCCTCCTCTTGTCTATCCTCTGATC
S
CCAGCATTTGGACAGAATAAGAGAGAGGAAGTAAAACTCAAATCATTTTACTTTACTTTTTCTTGGCCATTTGGCTAAGAGATGTGTGGGGTGAAGAGGT
Celera SNP ID:            hCV918737
SNP Position Genomic:     115369
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62371):
TGTTGAATTTTGTCAAAGGTCTTTTCTGCATCTATTGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGTTGAATTACATTTATTGATTTGC
R
TATGTTGAACCAGCCTTGCATCCCAGGGATGAAGCCCACTTGATCATGGTAGATAAGCTTTTTGATGTGCTGCTGGATTAGGTTTGCCAGTATTTTATTG
Celera SNP ID:            hCV27000114
SNP Position Genomic:     64990
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62372):
CACTGCGTGAGCCTGGGCAAGCCTCACAACCTTGCTGGCCTTGACTTTCTTATTTATGAGCTATAGACAATTACACCCAGCCTGCTGCCTGGAGGGCTGG
K
GAGAGTGGTGAATTGAGTGTTCAAGTTGAAAGTAAGAGGTGGTCTTCAGCGGTTGACTCCAAGCATTACTTATGATCAAGGTCTAATTTCTAAGAGTCCA
Celera SNP ID:            hCV918738
SNP Position Genomic:     112317
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|T,4)      total(G,4|T,4) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62373):
CCACTGGAGAAGCCACAATCATAGGGAAGGAATATTCCATTTGGGGACAGATAAAGTCAATGAAAAGATAGATGTTCTCAGTACAGCCCAGGCCAGCATG
R
GCAAAGGTGGATACTTAATGTCTAGTCAGCTTGCATGCCATGACAAAATACCACAGACTGGGGACTTAAACAACAGAAGCTGATTTTTTCATAGTTCTGG
Celera SNP ID:            hCV1879038
SNP Position Genomic:     122419
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,17)   total(G,1|A,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62374):
GGGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGGACAATTTGACTTCCTCTTTTCCTAATTGAATACCCTTTATTTCCTTCTCCTGCCTAATT
K
CCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCCCTTTTCAAAGGGAATGCTTCCAGTTTTTGCCC
Celera SNP ID:            hCV27000115
SNP Position Genomic:     64686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62375):
ACAGTCCCCCTAATGTTGTATCTTTGGAGTCTTCTCACATTTTATTTCTATAAACAATTTTCAATGAATGTCTGCATGCCTATATAGATGTTTTATTTTT
S
TTTTTAAAGTAGAGAAGCTGATTTTTGCTGTTGTTTTTGTTGCTGTATAAAAGATCACTGAGTGATTGCCTTAGTTATGCAACAATAGAGAAATAAGTGT
Celera SNP ID:            hCV918739
SNP Position Genomic:     110284
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62376):
GCTTAGGATTGACTTGGCGATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAGTTCTGTGAAGAAAGTCATTGGTAGCTTGATG
R
GGATGGCATTGAATCTGTAAATTACTTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTTGTTTGT
Celera SNP ID:            hCV27000116
SNP Position Genomic:     64229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62377):
AGTACCATGCTGTTTTGGTGACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGC
R
ATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAGTTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCTGT
Celera SNP ID:            hCV27000117
SNP Position Genomic:     64147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62378):
ATGACTTATAATCTTTGGCTATATACCCAGTAATGGGTCAAATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTT
S
CACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGA
Celera SNP ID:            hCV27000118
SNP Position Genomic:     63253
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62379):
TGCATGTGTCTTTAAAGCAGCATGACTTATAATCTTTGGCTATATACCCAGTAATGGGTCAAATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCT
K
AGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGT
Celera SNP ID:            hCV27000119
SNP Position Genomic:     63232
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 358
Celera Gene:                 hCG2039662 - 209000071835837
Gene Symbol:                 TAPBP-R
Protein Name:                TAP binding protein related;FLJ10143;TAPBPR
Celera Genomic Axis:         GA_x5YUV32W234(6483959..6506221)
Chromosome:                  Chr12
OMIM number:                 185880
OMIM Information:            VESICLE-ASSOCIATED MEMBRANE PROTEIN 1;VAMP1


Genomic Sequence (SEQ ID NO:12518):
AAAAAAAGGTTTTTTTTAAACTAAGAAGTATAATATCTGCAGTTGTGCTTATGAATGCTGTTATTATTTCTCCATCTTCGCTACAATTTCAGAAACTACG
GCCAGTATACACTAGAATAGCAGGCTTTAAAGTGGCCCCTTTGAACAAATGTTCTCTAGCAAGACACTTTTTAGAACCAGGTAACTGTAACTATTAAACT
ACCTACTTGCAAAACGTGTTTGGTGTCACTGGGTCTCTTGGTACTGGGTTTTGTTTTGTTTAGTTTAGAGACAAGGTCTAGCTCTGTCACCCAGGCTGGA
GTGCAGTGGTGCAATCATAGCTCCCCACAGCCTTGAACTCCTGGGCTCAAGCAATCTTCTAGTCTCAGCCTCTGAAAGTGCCAGGATTACAGGTGTGAGC
TGTAGTGCCTGGTCCCGTAAAAACAAAAACAAAAACCAACACCAGATGTGGTGGCTCATGCCTATAATCCCAGCACTTGGGAGGCCAAGGCAGAAGGGTA
TTTGCATATTTTGTAGAGACTTGAGCCCAGGAGCTTGAGACCAGCTGGGCAACATAGTGAGACCTTGTCTCTAAAAAAATTGGCTGGTCATGGTAGTGCA
CCTGCAGTCCCAGCTACTTGGGAGGCTGAGATGGGAAGATCACTTGAGCCCAAGAGGTCCCCAAGAGGTCCAGGCTGCTCACATCACTGCACTCCAGCCT
GGGTAACAGAGCAAAACCCTTTTTCACACACACACACACACACACACAAAAAGCCAGAGCAGTGGCTCACACTTGTAATCCCAGCACTTTAGGAGGCCAA
GGCAGGCGGATCCCTTGAGCCCAGGAGTTTAAGAACACCCTGGGCAACATGGCAAAACCCTGTCTCTACTAAAAATACAAAAAGTTAGCCAGGCGTGGTG
GCACGAACCTGTAGTCCCAGCTACTCAGAAGGCTGAAGTGAGAAGATCACTTGAGTCCAGGAAGTGGAGGCTGCAGTGAGCCGTGACTGTACCACTGCAC
TCCAGCTTGGGAGACAGAGTGAGCAGAGTGAGACCCTGTTTCCAAAAAAAAAAAGAAAACAAAAGCTTTTCCATTGCAAATCAACCAAAAAGGAACGTCT
TTAATACACAAGAAATATTCTTCAGTCTACTTAACTTAAAAATGTAACTGTAATAGATGCTTTTCTCTTGACAGCGGCCCCGGCAGGGTTGGAACTTTTC
CTAGTCAAAACCCCCCTACTCACTCTGCAGACCCTTCCTGAAGGTCTTCGCCCCATACTGAGCCCATCTTCAGTCCCTTCACTTGTTCCAAACTAGCCCA
ATCCATGACCCTTCTCTGGGAGCTCAGCCAATAGATCCCAAAGTACCACAGCAGCACCTGGCTGCAGAAGGACCCCCGGGAAATGCAGTCAGGGGTGAGA
AGATGGGTGGGCTGAATGAGCTCGGCCCTCTCTGGGCCTTAGTGCTGGCATCTATGAGATGAGGACATGCCTGAAGTCAGCCTGGAATTTTGAGCCCAGG
TTATACCTGGTAAATAGAACTCCCAGGTCTCCGGATACTCACCACTAAAACAATAGCACCTCATTGTTTTTGTTTTGTTTTGTTTTGTTTTTTAATTATA
CTTTAAGTTCTAGGGTACATGTACACAATGTGCAGGTTTGTTACATAGGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCATCATTTACATT
AGGTATATCTCCTAATGCTATCCCTCCTCCCTCCCCACACCCCACGACAGGCCCCAGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTGTTC
AATTCCCACCTACGAGTGAGAACACATTGTTTTTAACCCTCCCCAGCAGCTTCTTTAACCCCTCCATTTCCCTTTTGGCGGAGACCCTTGTCATCACTCC
TCTCTACCACCAGTGCTCTCCCCTCCTGCACTGTCCCAGGCTTCCTCATTCTTCCCTTGCAGGTCCTTATCCAACATGGCTCACAATTCCTGGGAAGCCA
CAAGGAAACCAAATTCTAGTAGCAACTCAGAGTCAGCATTCATTAGCAGGTCACAGGGCCATAAGGATGCCAAGAAGGAATTTGTCCCTCTCCTTGTCCT
GACAAAAGGCATAAGTAGAAGAAAATTGTTAGGTTTGGTTATGACCTTTGACATTCTCTCTTTGACATCCTCCCTTTCTGCACCCCTCTTCCACCTGTCA
GGGCACCTAGGGCTCCCCGGGTCCCCACAAGTGTCTGCCCTAAGGCCCACCAGGCTTTCTTGCAGCCTGTCCCACATCTGGGTGTCACTGCCTTCCTCTG
AATCACCCTCCTCTCAAACCAGCCGCCAGCGAGCCCAGCCCAGCCCAGCTAGTGCCCTACCACACCCGCCCCCAGGATAATTAACACCCAGCCACCCAGC
ATCGGACCTCTACACTTGAGCAAAATGTATATTTTAAAGGCAAATTCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAGGT
CAGGAGATTGAGACCATCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCACACACCTGTAATCCCAGC
TACTAGGGAGGCTGAGGCAGGAGAATCACTTGAACTCAGGAGGCGGAGGTTGCACTGAGCCGAGATCGTGCCACTGCACTCCAACCTGGGCGACAAAGCA
AGACTCTGTCAAAAAACAAACAAACAAAATAAAGGCTAAGTAACTGTAATCAAGTAACTATTTATTATTTATTTATTTTAGTGTATCCACAGGTTGTGCA
GCCATCAACACTATCTAATTCTATAACATTTTCGTTACCCCAGAGAAACTTGTACCCCTTAGCAATGACTCCCCATTTCTTCCCCCCAACCAACCCCAGC
CCCAGCCCCAGCCCCTGGGAATCCCTAATATACTTTGTTTTGTTTTTTGTTGGTGGTGTTTGAGACAGGATCTCACTCTGTCACCCAGGCTGGAGCGCAG
TATCATGATCTCAGCTCACTGTAACCTCCACCTCCCGGGCTCAAGCGATCCTCCCACCTCAGCCTCCCCAGTAGCTTGGGCCTACAGGTGTGCACCACCA
CACCCAGCTAATTTTTGTATTTTTTGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGAGCTCAAGCAATCCACCCACCTCAACC
TCCCAAAGTGCTGGGATTACAGGCGTAAGCCACTGCACCTGGCTATTTTCTTTCTTTCTTTTCTTTTTTTTTTTTTTTTGAGACGGAGTTTCACTCTGTT
GCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACTTCCACCTCCCGGGTTCAAGCAATTCCCTGCCTCACCCGGCTATTTTATATTTGTTG
ATCTGCTGCTGGTTATGCCTGTGAGCCAAATTTGTACAAATTCTTAAGCTTTACAATCATGCGTGCCTCTCTGTACGTATATTATACTTTAATTAAAAGT
TATTAAAGTATTGGGGCCGAGCACAGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCTGAGGCTGGTGCATCACCTGAGGTCAGGAGTTTAATACC
AGCCTGGCCAATACAGTAAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCGCACACCTGTAATCCCAGCTACTTGGGAGGCTGA
GGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAACGAGCCAAGGTCACGCCATTGCACTCCAGCCTCGGCAACAAGAGCGAGACTCCATCTCAA
AAAAATAAATAAAAAATAAAAAATGTATCAGGGAGTACAAGAGAAAGTCATATAAGCTCTTTCTACTTTTCATGGTTTCTATGTCTGAACCCATGAATCT
TCCTTCTGAAAGGTCCAACTTTCTTCTTTAATAACAATAATAATGGCAAAGGCATTGGGGGACCGTGAGCAAAGGGCAGGCCTTTGCAGGGGTGGGAATG
GAAAGGGAAGCACGTCCCTAGAGGTGGGCCTGGGATGGGGGTTGGGGGATGAAGCAAGTGGACCTTGAAGGTCTCCACAGGTCTGAGTGTCCTATGCTCC
CTGGGCCTCTCTTCCCCCAGGTCTTCTCGTTCGCAACTGCACCATCACTGCCAATGCTGAGTGTGCCTGTCGCAATGGCTGGCAGTGCAGGGACAAGGAG
TGCACCGAGTGTGATCCTCTTCCAAACCCTTCGCTGACCGCTCGGTCGTCTCAGGCCCTGAGCCCACACCCTCAGCCCACCCACTTACCTTATGTCAGTG
GTAAGTTCCAGGCAACTCTCTGTGCCATCACGTGGGGTAGCGGTGATACCCCAACCAGTACTCCCCACTCCTACCCCTAGATAAGGTCAGCCTGTTTCTG
CCTTCCCATCCCATCCAGCACCTCTCAGGCCTTCAGATGTGCCCTATGGGGTCCCCTGCTGCTACTCATTCTGTCTCTGTTTTTCCAGAGATGCTGGAGG
CCAGGACAGCTGGGCACATGCAGACTCTGGCTGACTTCAGGCAGCTGCCTGCCCGGACTCTCTCTACCCACTGGCCACGTGAGTTTTCTCCTTAATCCCC
ACCGCTAGAGAGAATGCATACACGAGGGGCCAGGAGGGAAGCCAGACAGAAAGCTCCTAGGATTAGGGATAAGAGGAGGGGAAAAAGCAGAGTCCACTGT
TTAGGAGAGGAGTTGGCCAACGGTGGCGGGTGGGATAGAATAAGGTGGGGGAAAGGGGAGAGGCAAGGTGACAGGAGGGCTGGGCTGAGGGAGCCAAGGG
CTAGACCCTCCCCTAACCCCTGTGTGTCCCCTCCTATTACAGCCCAAAGATCCCTGTGCAGCTCCGATTTTATTCGCATCCTTGTGATCTTCTCTGGAAT
GTTCCTTGTTTTCACCCTGGCCGGGGCCCTGTTCCTCCATCAACGAAGGAAATATAGATCAAGTAAGAGACAGAACACAGGCCTCCGGTCCTGCCCCTGC
ACCACACCCCACTGGCTCAACCCCACTGCCCACGCCTGGAATCTCACTGAAACCCACCAGCTCCACTTCACCAGCCTTGGTCCTACCCCTTCTCTCCCCT
TAGCTGGCGTGCTCCTGACACCCCTCCCCCAAGCGCACCCGCCTCTACCCATCTCCTTCTCCCGTCTCCCCCTGCCCCCACTGCTGGCCAAGACTCATCG
GATCTCCTTCTGCAGACAAAGGAGAAAGTCCTGTGGAGCCTGCAGAGCCTTGTCGTTACAGCTGCCCCAGGGAGGAGGAGGGCAGCACCATCCCCATCCA
GGAGGATTACCGAAAACCGGAGCCTGCCTGCTCCCCCTGAGCCAGCACCTGCGGGAGCTGCACTACAGCCCTGGCCTCCACCCCCACCCCGCCGACCATC
CAAGGGAGAGTGAGACCTGGCAGCCACAACTGCAGTCCCATCCTCTTGTCAGGGCCCTTTCCTGTGTACACGTGACAGAGTGCCTTTTCGAGACTGGCAG
GGACGAGGACAAATATGGATGAGGTGGAGAGTGGGAAGCAGGAGCCCAGCCAGCTGCGCCTGCGCTGCAGGAGGGCGGGGGCTCTGGTTGTAAAACACAC
TTCCTGCTGCGAAAGACCCACATGCTACAAGACGGGCAAAATAAAGTGACAGATGACCACCCTGCAGCTCTCCAGCTTCCTCTCTGAAATCCCAGTCCCA
AAATCCAGTTTCCTGGCCGCCTCCTGGCTCAGGTCAGGATCTGGCAGAGGAGGTTTCTCAGCCGGTTATGTTGGGGCCTGCTTAAGGGCGGGGGTGAGAA
AGGTCCCCAGGCTACTGTGGATCCTGTGTCTGACTTCAGATCCCCTTTTCCCACAGTTATAGCTCCACTTTTTTGGGACAGGTGGGGAGCAAAAGGGTGC
AGAGGTCAGGTCTTGAAATCACCAGGGGATTTCCGGGTGAGGTGGGTGGTGAGAAAGGAAACAGCAAGCAGGGCTCTGGCAGCTGCTGCAGACGGCTTCA
CACAGGGACGCGGGCTGCCATCTTGCTCTAAGYGAAAGTGAAAGAAAAGTCGGCAGCAGAGGGAACAGGGAAGAAACCTAAAGGCTGCAGGCTGCCAGGT
GTGCTTGGAGAGCCCCCTTCTTCCGCCGGGCCTCGCAAGCAGCGTAGGACTGTGGAGAAGGGCGGTGGGCAAGGAGGGAACTCGAGAGCAGCCTCCATGG
GCACACAGGAGGGCTGGTGCCTGCTGCTCTGCCTGGCTCTATCTGGAGCAGCAGAAACCAGTGAGTCTGGGAGTCGGGGAGAGCTGGCTGGGAGAAGAGC
TACTGAAGCCCCAGGGTGCCACCCTCCCCGAGATTCCAGAAGAGCAAAGGGGCCGGGGATGACCCCATCGCCTTCTAAGCCCAACGGGAAAGGCTCAGCG
GCTGGCAAAGGAAGGAACCAATAGTGTGTGTGGAGGGAGGGTGGGGACTCCACAGGGAAAATGCTAAAGAGGGGCTGCCTCTGTGGCTGTGGTCAGGAGC
CACTGTCCTACAGAGAGGGCACTGGCCTGGGAGCTGACACTTCAGAAGAGGAAAGGACTCCCCAGGTGAGGAAATCACTTGGAAGGTGACCTTGAAGGCG
GGGGAGGGGAAGGCTACCCGAAATGGGAGAAAGCAGTGCAGGCTGTCAGTGCCCCAGCAACAGTAACTGTCCAGTCTCCTCTCTCTGCGGTGGCACTTGC
TTGTTTTCTGAGAATTCCTTTGACTGAAAAGATAGTCTTTTATTCAACAGTTGGAAATGCAAGCATAAACTCCTCTGAGCAAGGCAAATCCAGGACTTTA
ACTCTCACCAAGAAGTATTTGCCTGGACTAGCAGGTGCTCTCCARAAAGCTGGTTTGGGGATGACGGGAGAATAGAGGGACACAGAAACAGCTAGGATCT
TGGATGGCAACTTTTACCCTTTGATGACTCCACAGCTTGAGGGCGGGGGCAGGAAGCAAGTGTGGAGTAGCTTTCTGGGGAAGGCGGTGCTCACCCCAGC
CTTTGTCTGCAGAGCCCCACCCAGCAGAGGGGCAGTGGCGGGCAGTGGACGTGGTCCTAGACTGYTTCCTGGYGAAGGACGGTGCGCACCGTGGAGCTCT
CGCCAGCAGTGAGGACAGGGCAAGGGCCTCCCTTGTGCTGAAGCAGGTGCCAGTGCTGGACGATGGCTCCCTGGAGGACTTCACCGATTTCCAAGGGGGC
ACACTGGCCCAAGATGACCCACCTATTATCTTTGAGGCCTCAGGTAAAAGCCTTCYACCTGTGTCCTTGGTCCTCCCGGGCTCCCTCCACCAGGACAGCC
CAGGTCCCGATTACAGCYACACATACTGCCTCCCGTTGGCCCTGGTGTTCTCACGCTAATTTGCCCTCTGTGTGTGCCCTGCTTCTCCCCAGTGGACCTG
GTCCAGATTCCCCAGGCCGAGGCCTTGCTCCATGCTGACTGCAGTGGGAAGGAGGTGACCTGTGAGATCTCCCGCTACTTTCTCCAGATGACAGAGACCA
CTGTTAAGACAGCAGCTTGGTTCATGGCCAACRTGCAGGTCTCTGGAGGGGGACCTAGCATCTCCTTGGTGATGAAGACTCCCAGGGTCRCCAAGAATGA
GGYGCTCTGGCACCCRACGCTGAACTTGCCACTGAGCCCCCAGGGGACTGTGCGAACTGCAGGTAAGAAAATGAAAAGYAAGGCCAGGTGTGGTGGCTCA
CGCCTGTAATYCCAGAATTTTGGGATACCGAGGTCGGTGGATCACCTGAGGTCAGGAGTTTGAGATCAGCCTGGTCAACACGGTGAAACCCCGTCTCTAC
TAATACCAAAATTAGCCGGGCATGGTGGCGGGTGCCTGTAATCCCAGCTACGAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGAAGGCAGAGGTTG
CGGTGAGCCGAGATCACACCATGGCACTTCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAGAAAAGAAAAGAAAAGCAAGTCACAGA
AAGTTTTGCTTTTCTAAAGTGGTAAGATATGGGGSACAGAAGAAGAAAGGGAACAAATCCACCTCCATCCACACTGGTCACCTCAGGGCACCCCTAGGCC
TTGGTCCTTTCTTCCTAAAAACCCCTGAGTCAGGCCAGGTGCGAAGGCCCATGCCTGTAATCCCAGCACTTTGGGAGGSCAAGGCAGGTGGATCACCTGA
GGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCCTCTCTACTAAAATACAGAAATTAGCCGGGCATGATGGCAGGTGCCTGTAATCCCAG
CTACTCAGGAGACTGAGACGGGAGAATCACTTGAACCTGAGAGACGGTGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCAGCTGAGT
GAGACACCGTCTCAAAAACAACAACAACAACAAAAACCCTGAGTCCACAAGAGAATGCTTCGCAGCCCCTACCTGAASGTCCCCAGGCACACAGACAACC
TGTGTTATTTCCAAAATGGAGATCGTTCTCATCTCACTGGGCTGCCATGAGGAAATAAGACACATGATGCTATTCTGTACATGGGTGCTGTCCACTGTAG
TCTTATCGAGCCAAAACCCGGTTTTCTSCCAGTGAAATGCTAGGCTGCTCTGGTGCTTCAGGGGTAAAGCTCAGGGATGCATCATTTGTTCATGATCTTA
TTAGTAAACCCAGTACTTGCCCTCTCCAGCTCAGCACATCCTCGAGGGCACAAGAAATTGAGAACATGATGACAGGGTTCCCCAGAGCCCATTAATCCAA
TACTCTGTGCCCTGCTTCTTTGAGTCTCCAAGAAGAAACAGCCAAGTCCAGAGAAAATTAGGGGCAACCGTCCTATCCTTGGAAAACCCCAGAACACTCT
AACCTCTCTGTGGTCCAACCTAAATCTATCCTGACCCATTAGAAAAAGGTCTTCATGTCTGTCCAGTGTCTACCATACTCCTGGCATGCRTAGGTATTTC
TCTCTTTTTATTCCAAACCTACAAAAAAAGGTGAAATAATAATATAATGAACACCTATATACCCTACACCTAGATCCACCAGTTGTTAACAATTTGCCAC
ATTCTCTCTCCCCCGACTCCTCATGTGTGTATATGTGTACGTGTGTATTTTCCTCTGAACTGAGAGTAAGTTGCAGAAGATAACACTTGAACCCCAAACG
CATGTTTGAACCCCGAAACGCATGTTTRAACCCCAAATACATCCATAGCATGTATTAGTTTACAATGAAGGACAAGGATGTAATCCTTCATAGTTACAAA
GCCATCATGTCAGAAACAAACCAAAGTGGGGAAGTAGTCTACCCGTAGCGCAGGCAATAAGGGAGTGCAGACTGTAAAATATTTCAGAACAAAAATAAAA
TCAGCTAAAAGTCAGATGGCTTTATAGTCTCACCATCTCCCGACACTGGCAATTCTGAATATTATCAGTGATAAAATACTCCTCTCTGCTAGGGCAGACT
GTCCCTATCTCCCCACACGACTGCCTAGTATGCCACAGATCTTCATACTTTTAGATATTTTTTAATTGATATGATAATAGTCTCAACTATAAAGTCCAGG
GCATGGKGGTGCACACCTGTAGTCCAGCTACTCAGGAGACTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTGAGTCCTGTCTGGGCAACATAGAGAGC
GAGACCCTCTTTTTTTTTTTTTTTTTTTAACAGTCTCATTCTGTCTCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCCA
GGTTCAAGTGATTCTTGTGCCTCAGTCTCCCAAGTAGCTGGGATTATAGACGCCCGCCACCACACCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTT
TCACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCATCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACTGTGCC
CAACCTAAGACCCTTCTCTTTAAAAAATAATTAAATGTCTCCAAATTCAAATTTCTCCACTTGTCCCAATATTTTTTTTTTTACTGCTTTTTCTAAGTAC
ACAATTCAAACAAGAATCATGCAGTGCATTTAGTTGTGCTGTTCCTTGTTTTAATCTAGAACATGTTTCATAGAATTGACATTTTTGAAGGGTCCAGGCT
AGTGGTCTTGTAGAGTATCCCAACATTTAGATTTGTCTGATTGTTTTCCTCATTTCCTCATGACTGGATTTAGGTTAAGCATGTTTGGCACAGATACTAC
TATCACATGCTTTTTTTTTTTTTTTTCGATATGGAGTTTTACTCTTATTGCCCAGGCTGGAGTGCAATGGCTCGATCTTGGCTCACCACAACCTCCGCCT
CCTGGGTTCAAGTGATTCTCCACCTGAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACGACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGG
GGTTTCTCCATGTTGGTCAGGCTGGTCTCRAACTCCCAACCTCAGGTGATCCACCCGCCTGGGCTTCCCAATACCACGTGTGTTTTTTTGTTTTGTTTTG
TTTTTTACATTTTTTTTGAGACGGAGTTTCACTCGTCGCCCAGACTGGAGTGCAATGGCGCGATCTTGGCTCACTGCAACCTCCACCTCCCGGATTCAAG
CAATTCTCCTGTCTCAGCCTCCCAAGTAGCTGGAATTACAGGCACCTGCCACCATGCCCGGCTAATTTTTGTGTTTTTAGTAGAGACAGGGTTTTACCAT
GTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCCCCCAAAGTGCTGGGATTACCGGCATGAGCCACCGCACCCAGCCAC
CACGTACTTTTTAAACTATTGTTTCTAGTCTTCACAGCATCCTTGCTTAAGCAGGTGAGCTTGGTAACACCAAGTGACTTGTCAAAGGTCACGGAGCCAG
TAAGTGGAACAACCAGGGTTTCAGAGCTTTTTCTGCTACTCTAGTAGTTCTTACCTGAAGATTGATGGTAACTCTTAATTTTGCATGTGTATTTTTCCTG
GTGGGAGATCCATAGCTTTCACTAAATTATCCTAGAGTAAGTGATCCCAAAATGGTGATGGCCATCATGTGTACCATGCTACCTTTCCAGAGCCCCATTT
CTTTGTGGTTCCATGTGATGGAAAATAAGCTCAACCGGCCTGTCAGGCGAGGAAGAGGCAGGTGTATGCCCACAACATGCCCACAGCTTGGAGATCAGGT
GACCTCAAGGAGGAAGTAGCCCACAAATCACCCCTCTTTTCCTCTTCACAGTGGAGTTCCAGGTGATGACACAGACCCAATCCCTGAGCTTCCTGCTGGG
GTCCTCAGCCTCCTTGGACTGTGGCTTCTCCATGGCACCGGGCTTGGACCTCATCAGTGTGGAGTGGCGACTGCAGCACAAGGGCAGGGGTCAGTTGGTG
TACAGCTGGACCGCAGGGCAGGGGCAGGCTGTGCGGAAGGGCGCTACCCTGGAGCCTGCACAACTGGGCATGGCCAGGGATGCCTCCCTCACCCTGCCCG
GCCTCACTATACAGGACGAGGGGACCTACATTTGCCAGATCACCACCTCTCTGTACCGAGCTCAGCAGATCATCCAGCTCAACATCCAAGGTGAGGCCAG
GACATGGTTATCCCAGGGAAGGGGATATAACATGTCTACTGGGAGCGTTTCCAGATTGGGACCCAAATGCAAGAATGATTTCCTGAGAAGCAGGCTTCAA
TCCCACAACTTAAATGCCATCTTCACCATGGAAGCACAGATGGCATCAGATAAGGAGTCCCGTTGGACTCCAGGATAATTCCACCAAGAGATTTCCAGCC
CAGGATCCTGCTGCCCTGCTGTGGCTGGCTGTCTCCATCACCCCAGTCCTTTTGGACCACATCCTGAGGAGCAGCAGCAGCAAACCAAGGCAGAGCAGTG
GAAGCGGTTCTGACCATTATCACTGCTATCCTTTAAAATCTCTGGCTTAGAGGCCGGGCGCGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCGG
ATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATACGGTGAAACTCCGTCTCTACTAAAAATACAAAAAATAGCTAGGCATGGTGGTGCGCGCCTGT
AGTCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATCGCTTGAACCCCGGAGGTGGAGGTTGCGGTGAGCCAAGATCATGCCACTGCACTCCAGCTTGGGC
GACAGAGCAAGACACCATCTTAAAAAAAAAAAAAAAACTGGCTTAGAATGACAGTAAGAAGCCARCCAATCTTTAGTTGGCTTTACTATCTGTTTTCTGG
AAAATGTAACCCTGCCCCCTTACGGCCTGCATCCAGGTGGGCCCCTCACACACCCCCGCCTTGGTACACCACCAAGGGACACTGTAGCCTCCACAATCTA
CTCTCATCTTGGCAGGAAGAAAAGGCTTCAGGCTCCTCCGCTGTCCCCAGTTAGATCCATGTGTAAYCTTATTCCTCATTCTTTCTCCAGCTTCCCCTAA
AGTACGACTGAGCTTGGCAAACGAAGCTCTGCTGCCCACCCTCATCTGCGACATTGCTGGCTATTACCCTCTGGATGTGGTGGTGAYGTGGACCCGAGAG
GAGCTGGGTGGATCCCCAGCCCAAGTCTCTGGTGCCTCCTTCTCCAGCCTCAGGCAAAGCGTGGCAGGCACCTACAGCATCTCCTCCTCTCTCACCGCAG
AACCTGGCTCTGCAGGTGCCACTTACACCTGCCAGGTCACACACATCTCTCTGGAGGAGCCCCTTGGGGCCAGCACCCAGGTTGTCCCACCAGGTACTGG
GAGTGTCCTCCTTTTCCCCACCTCCACACTAGGGCTCATGGCTCTCCTGCCCCAGCTCATCTATGGCCTTGTTCTGCTGCCCATCCACTTTGTTCGCAGC
CCTGGCTTCATGCTCCTGCCTCTGCTCCTGACTATTTTCCCAAGGCGGCAGCTGCCACAGCTTCTACCACACATCCCCTGAGACTTCATTATACTCCAGC
CTCCAGGGTGTCAGGCAATGTGCTTAAGGCTGGAGATCACAGATGAATAATTCCTGATCATGCCCTCCAGGAGCTTAGTCCAGTAATAGAGACAAGACTA
AGTAGACAGAGAAGATGGCATTTGAGCCAAGTTAACTAGCTTAGAGGGAAGGGAACACTCAAGATAGAAACAATAGCATATATGAAAGCCAAATCATAAA
ACAGCCTAAAGAGAATTTGGAGAATTGCAAGTAATTCAGCACAGCTAGAGCYTAGGGTATATGGGAAAAAGGGAAAGTGGCTCTGAAGCTTCGGAGGTAA
TTCTATTTATTGAGCATTTACATGAATCAAGCAGTGTAGAAAGCACTTAAATGTATGATTTCATGGATCATGACTCCCATTTTACAGGTGAGTAAACTGG
CACTTGCAGATGTCAATGAATTTGCCCAAGGTCACCTATCAATCAATGGTAAAGAGAGAATGTGAAAAACAGGCAACCGGATTCCCCTTACGGGCTTAAT
TAAACCCTGTAGATCTCACTGGGCCTTCAAGCTGGAACTTCCTGAGAGCCATAGCATGCTGTTGAAAGGTTTTATTTATTTATTTATTTATTTATTTATT
TATTTATTTATTTTATTTTATTTTACTTTTTTTCGATACAGAATCTTGCTCTGTTCCCCAGGCTGGAGTGCAGTGGTATGATCTCAGCTCACTGCAACCT
CCATATCCTGGGTTCAAGCCATCCTCTTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCGCACCACCACGCCTGGCTAATTTTGCGTTTTTAGTAG
AGATGGGGTTTCGCCATGATGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGTCCGCCTCGGCTTCCCAAAGTGCTGGGATTACAGATATGAG
CCACCGCACCCTGCCTGTCGAGAGGTTTTAAGCAGGAAAGGGACAGGAAAGAACCCGCAACTTGAAGTGGAAACATCCAGGAGCACTGGGCATTATTTGG
TTGCTCATTAGACTGTGAACTTCCCCAAAACTGAGGTTTCACTTCAGCTCACATCATTCCCCAACTATTTACAAAATCCCAGTTAACTGGTGGTTTTTTG
TTTTGCTTTGTTTTATTTTGTTTTGTTTTGAGATAGGGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAACTCTGCC
TCCCAGGCTCAAGTGATTCTCCCACCTCAGCCTCCCAAGTACCTGGGACCACAGGCGCACACCAACATGCCCAGTTAATTTTTTGTATTTTTTGTACAGA
CAGGGTTTCACCATGTTGCCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTACCTCAGCCTCCCAAAGTTCTGGGATTACAGGCATGAGCCA
CTGTGTCCAGGCAAGTTAAGTGCTAACAAATAAACCCACCTAAATCTCACTTGCAAAGCAATTTTTAAAACCTTGTCCTTAGGTGGGAAGAGGTAGAGAA
TTCTGTGTGGAGTAACTCACAAGTATCCAGCAACCTTGAATAAGAACAAATGCTGCTGAGTGCCTTGTTCCAGGCTCCTCAACCAGGGACTCACACACAC
AATCCTTAGCTCCTCCTCCCTGGGGTGGACACTGCAGGTGAGGGCTCAGCTCATGATTCCTGYGCACGATGATCCCCRCCCACGTTGCTCTCACCTACAG
AGCGGAGAACAGCCTTGGGAGTCATCTTTGCCAGCAGTCTCTTCCTTCTTGCACTGATGTTCCTGGGGCTTCAGAGACGGCAAGGTAAGAGCCTGGGTGC
CCTTGGCTCTGGCCCTGGCCCACCTCACCCACTCTAACCACCYCCCCRCCCAGACCAGGGTGGAAGCCCASATGCCCCAAGCTCCAGCCACCCACCCATC
ACAGCCTCCTGCTTTTGAGTTTGCCCTAAATGAAAATGAAACCAGTCGTGTTCCCTCGTTTTCTCCTAGCTACCTCACTAAAGTCTGTCACTCTCCTGCC
TCAGAGTAGAAAGAAAGAGTAGTCACGTGCTCCCAGAAGGACTCTAAGTCAAGTCACAGAGCTAAAAATACATGAAGGTGGCACCAGCTCATGGGGCACT
GGGCCTGGCTCTGCAGAGGCCTCTGCCTTCCTTCACTGTGCACCCTGGGCTCATGCACCAAGGCAGAGAACAGGAAGAAGTGAGGGGACAAGAAGAAGGC
AGAATGTCCAGATGGAGGWTAAGACCAAAGAGCCAGGTTGGTGGTGTGACGGTAGGAAAACAAAGCTGGAGGAAATGGAGAAGGAACAAGTGAGGGACAA
TGAGGCATGGGTTGGGGCTGGGCTACCCCTCCCAAACTCAGCTCTGTCAAAATAAAAGGCCCTTGTGTCTGCTGCGACCAAGCTTTTCCACTTTCCTGTC
TTTCTCCACACTGGTCCCAACTGAGCCCTGTCACCAAGCCTAGCGGCTCCAACTTGCAAAGTGTTTAAGTATGAAACAAAGGCCCTCAGAGGCACCCCCG
KGGCTCCATCTCAGTTGCACCTCAGCTGCAATTAGGGTTCTGCTCCCTCGGGTGACTGCTGGGAGGTTCAGGATACCTGCAAATGCCTCACTCCCTCAGC
TGCAAGGAGAGACTTCTCCTTTTTATTCGTTTCTAAAATGTGCCTRATCAATACGGTGGAACTCAGCATACCAAAACTGTACGTGAGGATGATGGGGAAA
AGGGGGTAAGGGGGTGTTCACTGACAGCCTTATCTGGGCACATCCCCTGGGACAGGACAAGCAGGCCAAGGACCTAGGAAGGAGCACAGGAGGCAGATGG
AAGAGGCCTGAGGGAACCTGTGCTTGTTTGCCAGTGTGAGATGCCCACGCAACTTCCTGTCTTCACTTCCTCTTACCAGCACCTACAGGACTTGGGCTGC
TTCAGGCTGAACGCTGGGAGACCACTTCCTGTGCTGACACACAGAGCTCCCATCTCCATGAAGACCGCACRGCGCGTGTAAGCCAGCCCAGCTGACCTAA
AGCGACATGAGACTACTAGAAAGAAAYGACACCCTTCCCCAAGCCCCCACAGCTACTCCAACCCAAACAACAACCAAGCCAGTTTAATGGTAGGAATTTG
TATTTTTTGCCTTTGTTCAGAATACATGACATTGGTAAATATGCMACATGCCTTTGGTGGAAGTACAACTGTTGTTATTACTCTATACAAGTATGAGATC
AGGGTTAGGAAAAAAAGACAAAGAGGTGATGACAGACACACAGTGGAAACCCCACATCGTCTCATGGCAAACCGAAGAACGGGATGTGGGAAGCTCAGCT
TCATTTGACTGCAAAGTCCCAGGGTTTTGTTGCACATTTGCTCATGCACATGGGTGGTGGGAGGAAAGGGGGATAGCAGAGACACACAGAAGAGGGTACA
GGGTGGGTGAGAAAGAAAGTAGAAGGGCTAATACCCCCAAAGAACAAGGCCAACTACACCTGGTGAGCCTCAGAGGGACAGAAACCCAGGAATGATTCCT
GTGATAGGGCTGGGAGAGCCAAGAGGACGGATTCGCTCCAGGCTTGGGACACATCGAGGACAGTGGTGGTTCTTCTCCAGCGGTGACCCCCTGCATTAGG
CAAGGAGGAGCCCAGAGGAGAGTGGAGACCTTCGAGGGGGGCCGTTGGGAGGGTACTGACTGCTTTCTTCCAGCTCTTCAGTCCCGCCCTTGGGCAGGAC
GAAGGGAATGTGGGAAACAAGGGCGAAAGGAAAGGAAGGATGGTTTTGAGCAATGAAATGCTGCTGCATGGAAAGTGGGCATCCAGACCCTGCCCAGCAT
GGCCTCAGCCTCTTCCTGTTCGTGGACCGAGGGAAGAAGGAATAAAGGGCCATGGGCATTCTCCGCTCTGTTCCCAGCCTGCCCTCCTCCCCTTGCACCT
GGGCTTATCCCACATTAATAGCCCATCCTGAAGCTCAGCAATTGCCCCGAAGATAGGCTGAGCAGATCCCATCCTCAGGTTCCACTGTCTATACACACAA
ACCATGCAAAGAGGAGGAAGAGAAAGGAGGCAAAGTAGAATTCAGACAGGAAAGGGTGGTTCAAAGGGGAATATACTACAGGAAGAACAGAGAGGCGGCT
CTCAAGGAGAGGGCCCCATGACAGCACAGCAATACACAAGCACACCTGACACAGGCTGGCACGCCTCCCCCCAAGGTGGGGCTGGTGGGTCTACATGACT
TCTCTGCATCCTGAGGATCGGCCGGGCCCCAGGAAGAACCACTTGCCTCATCCCTGTCTTTGGCAAGTGCACGGGTGGTGTGGAGGAAAGGATTCCATGG
GTGTCCAAAGATCTCACACTGCTAACACCCTCACGCTCCTTCATCAACAGGAAGAGAGGAACAGGACCCTCTTTAACGAGGGCAAGGAGTGGCTTCCTCT
GAGCTTGTTACTTTCAAATTAAGCACTTGACTCACTGTTTCTCTATAACTAACAGGCAATCTCTCTCTTTATGCCAACAATTAACTGGGAGCTAGGTTAA
ATTATTTGGCTAGATAAAACTACCAGCTAGATGGATTTATTTGGTGCCCTCATACAGAATGCTGTAGAAAATGTAAAGAAGAGAAAGCTCCTTCCAGCTA
GAAGCACATGGGACTGCTTCTAGGATGGAAACAAGTCCTGCTATTTTCACAATCCCTAAGTGTTCTCCAGGCCTCTGGAGAACAAAGTAAAGTTGTAAGA
TCCCCAAAGACACGGAAAATCCTGGACGAACAGATTAGAAATAACTACAAAAAACAAGTTTTTACTTTCGAAAAGGGTACTGCACTGAAACCAAGTTGGA
CTTTGGTCCACCCCCAGGACCCTCTTCAGGCCTGGTCCAGGAAGGAAAGCTCCACATGACCAGGCAGTACTGAGTGAGCTGCCATCTTCCCAGCCCCTCC
CTAGCTCCTACCAGTGGCCAGGTTTTCTAGAAGTCACCATGGGCACCGATACTCTTCTCCTCCCAAGTCTGGGCAGCTTCATGGGTACTTCGCCTCAGCC
ACTCCCCTCCCTGCCCCTTCCCTTGGCCTCCAACTCTTTGGGGCTTTGGGGGAACTTGAGAGTACAGAAAAAGCAGGCAGGGAGGAGGCGCCAGCTGTTG
CTCTTCGGGTAATGACTTAGATTGTGCCACGAGCAGCATTTCTAGTGTTGAGGGACAGAGTGCAAATGAACGCAACGAAAAAGGAGGAATGGGTGATGGA
GAAGCCTGGGCTGGAATGGAGGACGGTGGGTGGGGAAGTGTGTTGAGAGAGCAAACAGAGGGCAGAGGACATGAATGTGGATGGCAATGGACAACAGGGA
AGGGGTGGTACATTCTCAAGTAAAAAAGTAGACTGGACACAGGAATCAGGAAGTCCCAGACGGAAAAGAGAAAGAGACAGGAGAAAACAAGAGGGTGAAT
TACACCAAGTTACCAGACATTCAGGTCTCTCCATTGTTAAGTGCCCCATCCCCATGGTCTCCCTCCAACCCAAGCCAGTGACACACAGCATAGCCCCACT
TCCTCAGAACAGGAGGCGCCATCTCCCTGCAATGCGTTGCAGGGGGAAGGCTTGTCCATCAAAGAAATCCCTTGTCTCTGCCCTTCCCCCGTCCCGAACC
AGGTGACGATCCCATAGCAGCGGTCTCCATACCTCAGTCAGAGCAGCCCCACTCCCCAGGCAGGCAGGCAGGCAGGGAGAAGACTCCAGGACCTTCCCAC
CTCTTCACCCCACCAGCAACTTCAGCGATACTTACTTACAATAACTACCACGATGATGGCACAGATGGCTCCCAGCATGATCATCATCTGAGGAAACATG
GACAAAAAATGAGCCCTTGGATTTCAGGAATGAGGAAAAGAGCCACATCTCTAGTGGGAAACAGAATTCCTTCCATCCTTGGGACAATGGAAAAAACCAC
CCATCACCCAGGAGACCTGCAGGCCTCTTAGAGAGGCCCTACCCTTCTGCTTCCCAGGGGATCATAACCACAGTATGTCTGTAGCTTTTCAGATTCATCA
CAGGACCTGCATTGAGCTCCTTTTTGCTTAGTTCCTGGTGTCTTGGGGCTTTAGAAGGCATTCCAATAGAGATACAGACTCTGGATATTTAACCAATTAG
TTCAATTTTCACTGTGAAGTGTTCAGCTCATTCTCAAAAGTTGCAGTTATTTAAAAATATATATTTCAATCTGAGAAAGCTGATTTAAAAGAAAAAGAAA
AAAGTATATATATATATAAATGTATATATATGTATATATATATATAAATGTATATATATGTATATATATATATAAATGTATATATATGTATATATACATA
TGTGTATATATAGTGTGTGTGTGTGTGTGTGTGTGTGTATGTATATATGCCTGAGCCATTGTGCTGATGTTGGGTGTGTCTGAGGATGAGACAGGTGAAA
TTTTTTGCAGGCAACTCCTTTGGGGTAAAGCTCCTTAACTAACCATTCCAAACTCCTCAGGGTATCACTTTTTCCCTGATAGCGGTTCTAAATACTCTAG
CCTACCCTGGTGGCCAATTCTGGGTAATGCAATCTCAAGAGGAGGCTTTCCAGATTTCCTCCCAAGCGTTATGCTGGTCAGAGAGATCCTGCACCATTAG
AGGGAAGAAATGTAGAAGCTGAGGGTTTTCTTGCCTTCTACCAGTGGAAGCCCAGGAAAAGATGGAGGAGGGGACAAGAAAATTCACCTTGCAGTTTTTC
CACCAATACTTCCTCTTTAGCTTGGCAGCACTGCTCTCAAATTGTGATGCTCCTGCCTGCAAGGCATCAGCTCGGTCATCCAGCTCTGACAGCTTCTGGT
CCCTCTCCAGGACCTTGTCCACGTTCACACGTATGATGTCCACCACCTGAGGAGGGCACAGAAACAAAGCTGCTAAGCTTCCTGCCAGAGACAGAGGAAA
GGACAACAACCAGAGAATCACAAGTCTGGCCCTGTGCAACTCTAAAGGGTGCTTTGCCTCTCAGGGCCTTTGACTATTCTCCTACGAAAAAAGGAGAAAA
GATAAGAAGTTCCCTTTTGTTTCCAAACTCCTAGATTTGGAAACTTTCAGAGAAACAGCTATCTACCTACCTCCTCCACTTGTGCCTGGGTTTGCTGTAG
TCGTCTGTTACTGGTCATGTTAGGAGGAGGGCCAGGGGGACCCCCACCTGGGGCAGTCCCTTCTGTCCCTTCAGCAGGTGGCTGAGCTGGAGCAGACCTG
TGGAAAGACATGTGCAGAGTACACAAAGTGACCAAGACAAGAAAGGAGCTGGGCGTGGTAGCACACACCTGTAGTCCCAGCTACTCAAGAGGCTGAAGTG
GGAGGAGCGCTTGAGCCCAGGAGTTCGAGGCCAGCCTGGGCATCATAGCGAGACCCCATCTCTAAAAAAACAGACAAAAAGAAAGGACTCACATGCATCC
TCACCCCAAACCACTTAAACAATTATGATTAGGCTATACAAAACTAGAATGGATTCTTGCTCCTTGGCAATCTGAAGTAGGGAGACAAACCATAGAGGCA
AGAAGTAAAAGATGAAAGACTCTGCAACAACATTTGGATGGGGTTCAGGGACATCCAGGATGGCATCAAGACATCTCATCTGGGGCTATCCTTTGACTCA
ACTCAAACAAGTCCTCTGCCATGATGGCTACAGGGACATATGGCCTAGCCTTGTCCTAAATGGCATTTCCCCGCTGATATGGTTTGGCTGTGTCCCCACC
CAAATCTCAACTTCAATTGTATCACCCAGAATTCCCACATGTTGTGGGAGGGACTCAGGGGAGGTAACTGAATCATGGGGCCCATCTTTCCGGTGCTATT
CTGGTGATAGTGACGAAGTCTCATGAGATCTGATGGGTTTATCAGTGGTTTCTGCTTTTGCTTCTTCCACATTTTCTCTTGCTGCTGCCATGTAAGAAGT
GCCTTTCACCTGCCGCCATGATTCTGAGGCCTTCCCAGCCATGTGGAACTGTAAGTCCAATTAAACCTCTTTTTCTTCCCAGTCTTGGGTATGTCTTTAT
CAGCAGCATGAAAACAGACTAATACAGTAAATTGGTACCAGTAGAGTGGGGTGTTGCTGAAAAGATACCCAAAAATGTGGAAGCGACTTTGGAACTGGGT
TAACAGGGAGAGGATGGAACAGTTTGGAGGGCTCAGAAGAAGACAGGAAAATGCGGGAAAGTTTGGAACCTCCTAGAGACTTGTTGAATGGCTTTGACAA
AAATGCTGTTAGTGATATGAACAATAAGGTCCAGGCTGAGGTGGTCTCAGATGGAGATGAGGAACTTGTTGGGAACTGAAGCAAAGGTGACTCTTGTTAT
GTTTTGGCAAAAAGACTGGCAGCATTTTGCCCCTGCCCTAGAAATTTGTGGAACTTTGAACTTGAGAGAGATAATTTAGGGTATCTGGCAGAAGAAAAGA
CGCAGTACTAAAGAAAAAAACCATTTTTTTGAGAAGAAATTCAAGGCAGCTGCAGAAATTTGCATAAGTAGCAAGGAACCTAGTGTTAGCCCCTAAGACC
ATGGGGAAAATGTCTCCAGGCCATGTCAGAAGCCTTCATAGCAGCCCCTCCCATCACAGGCCTGGAGGCCCAGGAGGAAAAAGTTATTTTGTGGGCCAGG
CCCAGGGTCCCCATGCTGTGTGCAGCCTAGGGACTTAGTGCCCTGTGTCCCAGCCGCTCCCACTGTGGCTGAGAGGGGCCAATGCAGGGCTCGGGCCGTG
GCTTCAGAGGGTGGAAGCCCCAAGCCTTGGCAGCTTCCACATGGTGTTGAGCCTGCAGATGCACAGAAGGCAAGAACTGAGGTTCGGGAACCTCCGTCTA
GACTTCAGAAGATGTATGGAAACGCCTGGATGTCCAGGCAAAAGTTTGCTGCAAGGGCAGGGCCCTCATGGAGAACCTCTGCTAGTGTAGTACAGAAGGG
ACATGTGGGGTTGGAGCCCCCACACAGAGTCCCCACTGGAACACTGCCTAGTGGAGCTATGAGAAAAAGGTCACCATTCTCCAGACCCCAGAATGGTAGA
TCCACTGGTAGCTTGCACCGTGCGCCTGGAAAAGCCACAGACACTCAATGCCAGTCCGTGAAGGGAGCCAGGAGGGAGGCTGTACACTGTAATGTCTGTC
AGCTCACCCCTTTTTATATTCAAGTTATTGGTTATGGTTATTGGTTTATATGCCCAGTTATT


SNP Information

Context             (SEQ ID NO:62380):
CCGGGTGAGGTGGGTGGTGAGAAAGGAAACAGCAAGCAGGGCTCTGGCAGCTGCTGCAGACGGCTTCACACAGGGACGCGGGCTGCCATCTTGCTCTAAG
Y
GAAAGTGAAAGAAAAGTCGGCAGCAGAGGGAACAGGGAAGAAACCTAAAGGCTGCAGGCTGCCAGGTGTGCTTGGAGAGCCCCCTTCTTCCGCCGGGCCT
Celera SNP ID:            hCV27837091
SNP Position Genomic:     6033
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,17)   caucasian(T,26)   total(C,3|T,43)
SNP Type:                 UTR 5


Context             (SEQ ID NO:62381):
CACCACCAAGGGACACTGTAGCCTCCACAATCTACTCTCATCTTGGCAGGAAGAAAAGGCTTCAGGCTCCTCCGCTGTCCCCAGTTAGATCCATGTGTAA
Y
CTTATTCCTCATTCTTTCTCCAGCTTCCCCTAAAGTACGACTGAGCTTGGCAAACGAAGCTCTGCTGCCCACCCTCATCTGCGACATTGCTGGCTATTAC
Celera SNP ID:            hCV15887501
SNP Position Genomic:     12567
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(C,10|T,24)   total(C,11|T,57)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   JBIC-allele(C,260|T,467)   total(C,260|T,467)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62382):
TGGGCAACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAGAAAAGAAAAGAAAAGCAAGTCACAGAAAGTTTTGCTTTTCTAAAGTGGTAAGATATGGGG
S
ACAGAAGAAGAAAGGGAACAAATCCACCTCCATCCACACTGGTCACCTCAGGGCACCCCTAGGCCTTGGTCCTTTCTTCCTAAAAACCCCTGAGTCAGGC
Celera SNP ID:            hCV16248279
SNP Position Genomic:     8035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62383):
CTCCCAGGGTCACCAAGAATGAGGCGCTCTGGCACCCGACGCTGAACTTGCCACTGAGCCCCCAGGGGACTGTGCGAACTGCAGGTAAGAAAATGAAAAG
Y
AAGGCCAGGTGTGGTGGCTCACGCCTGTAATTCCAGAATTTTGGGATACCGAGGTCGGTGGATCACCTGAGGTCAGGAGTTTGAGATCAGCCTGGTCAAC
Celera SNP ID:            hCV25985898
SNP Position Genomic:     7679
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62384):
CTTGCACTGATGTTCCTGGGGCTTCAGAGACGGCAAGGTAAGAGCCTGGGTGCCCTTGGCTCTGGCCCTGGCCCACCTCACCCACTCTAACCACCCCCCC
R
CCCAGACCAGGGTGGAAGCCCAGATGCCCCAAGCTCCAGCCACCCACCCATCACAGCCTCCTGCTTTTGAGTTTGCCCTAAATGAAAATGAAACCAGTCG
Celera SNP ID:            hCV2981220
SNP Position Genomic:     14948
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62385):
TCCTTCTTGCACTGATGTTCCTGGGGCTTCAGAGACGGCAAGGTAAGAGCCTGGGTGCCCTTGGCTCTGGCCCTGGCCCACCTCACCCACTCTAACCACC
Y
CCCCGCCCAGACCAGGGTGGAAGCCCAGATGCCCCAAGCTCCAGCCACCCACCCATCACAGCCTCCTGCTTTTGAGTTTGCCCTAAATGAAAATGAAACC
Celera SNP ID:            hCV2981221
SNP Position Genomic:     14943
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,28)   caucasian(C,9|T,21)   total(C,15|T,49)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62386):
TGAGCCAAGATCATGCCACTGCACTCCAGCTTGGGCGACAGAGCAAGACACCATCTTAAAAAAAAAAAAAAAACTGGCTTAGAATGACAGTAAGAAGCCA
R
CCAATCTTTAGTTGGCTTTACTATCTGTTTTCTGGAAAATGTAACCCTGCCCCCTTACGGCCTGCATCCAGGTGGGCCCCTCACACACCCCCGCCTTGGT
Celera SNP ID:            hCV2981222
SNP Position Genomic:     12365
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62387):
TCAGAGACGGCAAGGTAAGAGCCTGGGTGCCCTTGGCTCTGGCCCTGGCCCACCTCACCCACTCTAACCACCCCCCCGCCCAGACCAGGGTGGAAGCCCA
S
ATGCCCCAAGCTCCAGCCACCCACCCATCACAGCCTCCTGCTTTTGAGTTTGCCCTAAATGAAAATGAAACCAGTCGTGTTCCCTCGTTTTCTCCTAGCT
Celera SNP ID:            hCV16180527
SNP Position Genomic:     14971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62388):
CTTGGTTCATGGCCAACATGCAGGTCTCTGGAGGGGGACCTAGCATCTCCTTGGTGATGAAGACTCCCAGGGTCACCAAGAATGAGGCGCTCTGGCACCC
R
ACGCTGAACTTGCCACTGAGCCCCCAGGGGACTGTGCGAACTGCAGGTAAGAAAATGAAAAGCAAGGCCAGGTGTGGTGGCTCACGCCTGTAATTCCAGA
Celera SNP ID:            hCV12029078
SNP Position Genomic:     7616
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,7|G,29)   total(A,8|G,64)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,10|G,24)   total(A,10|G,58)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62389):
ATCTCCCCACACGACTGCCTAGTATGCCACAGATCTTCATACTTTTAGATATTTTTTAATTGATATGATAATAGTCTCAACTATAAAGTCCAGGGCATGG
K
GGTGCACACCTGTAGTCCAGCTACTCAGGAGACTGAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTGAGTCCTGTCTGGGCAACATAGAGAGCGAGACCC
Celera SNP ID:            hCV27469459
SNP Position Genomic:     9607
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62390):
TGCTGACTGCAGTGGGAAGGAGGTGACCTGTGAGATCTCCCGCTACTTTCTCCAGATGACAGAGACCACTGTTAAGACAGCAGCTTGGTTCATGGCCAAC
R
TGCAGGTCTCTGGAGGGGGACCTAGCATCTCCTTGGTGATGAAGACTCCCAGGGTCACCAAGAATGAGGCGCTCTGGCACCCGACGCTGAACTTGCCACT
Celera SNP ID:            hCV2981224
SNP Position Genomic:     7533
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,23)   caucasian(A,15|G,23)   total(A,28|G,46)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(A,116|G,190)   Chinese(A,15|G,45)   Japanese(A,4|G,14)   African(A,41|G,59)   (G,2|A,7)      total(G,2|A,7) ;(G,-|A,-)   (A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62391):
CCCACCTATTATCTTTGAGGCCTCAGGTAAAAGCCTTCCACCTGTGTCCTTGGTCCTCCCGGGCTCCCTCCACCAGGACAGCCCAGGTCCCGATTACAGC
Y
ACACATACTGCCTCCCGTTGGCCCTGGTGTTCTCACGCTAATTTGCCCTCTGTGTGTGCCCTGCTTCTCCCCAGTGGACCTGGTCCAGATTCCCCAGGCC
Celera SNP ID:            hCV2981225
SNP Position Genomic:     7318
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,33|T,7)   total(C,66|T,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62392):
CACCCGACGCTGAACTTGCCACTGAGCCCCCAGGGGACTGTGCGAACTGCAGGTAAGAAAATGAAAAGCAAGGCCAGGTGTGGTGGCTCACGCCTGTAAT
Y
CCAGAATTTTGGGATACCGAGGTCGGTGGATCACCTGAGGTCAGGAGTTTGAGATCAGCCTGGTCAACACGGTGAAACCCCGTCTCTACTAATACCAAAA
Celera SNP ID:            hCV15887458
SNP Position Genomic:     7711
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,13)   caucasian(C,23|T,15)   total(C,46|T,28)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62393):
GCCTCTGCCTTCCTTCACTGTGCACCCTGGGCTCATGCACCAAGGCAGAGAACAGGAAGAAGTGAGGGGACAAGAAGAAGGCAGAATGTCCAGATGGAGG
W
TAAGACCAAAGAGCCAGGTTGGTGGTGTGACGGTAGGAAAACAAAGCTGGAGGAAATGGAGAAGGAACAAGTGAGGGACAATGAGGCATGGGTTGGGGCT
Celera SNP ID:            hCV15887492
SNP Position Genomic:     15319
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,507|A,966)   total(A,966|T,507)   (A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62394):
CCTTGTTCCAGGCTCCTCAACCAGGGACTCACACACACAATCCTTAGCTCCTCCTCCCTGGGGTGGACACTGCAGGTGAGGGCTCAGCTCATGATTCCTG
Y
GCACGATGATCCCCGCCCACGTTGCTCTCACCTACAGAGCGGAGAACAGCCTTGGGAGTCATCTTTGCCAGCAGTCTCTTCCTTCTTGCACTGATGTTCC
Celera SNP ID:            hCV15887493
SNP Position Genomic:     14763
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,25|T,11)   total(C,61|T,13)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,523|C,972)   total(C,972|T,523) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62395):
TCCTGTGCTGACACACAGAGCTCCCATCTCCATGAAGACCGCACAGCGCGTGTAAGCCAGCCCAGCTGACCTAAAGCGACATGAGACTACTAGAAAGAAA
Y
GACACCCTTCCCCAAGCCCCCACAGCTACTCCAACCCAAACAACAACCAAGCCAGTTTAATGGTAGGAATTTGTATTTTTTGCCTTTGTTCAGAATACAT
Celera SNP ID:            hCV25985358
SNP Position Genomic:     16127
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,36|T,4)   total(C,74|T,4)
SNP Type:                 UTR 3


Context             (SEQ ID NO:62396):
GGAACACTCAAGATAGAAACAATAGCATATATGAAAGCCAAATCATAAAACAGCCTAAAGAGAATTTGGAGAATTGCAAGTAATTCAGCACAGCTAGAGC
Y
TAGGGTATATGGGAAAAAGGGAAAGTGGCTCTGAAGCTTCGGAGGTAATTCTATTTATTGAGCATTTACATGAATCAAGCAGTGTAGAAAGCACTTAAAT
Celera SNP ID:            hCV15887494
SNP Position Genomic:     13352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62397):
CTCAACCAGGGACTCACACACACAATCCTTAGCTCCTCCTCCCTGGGGTGGACACTGCAGGTGAGGGCTCAGCTCATGATTCCTGCGCACGATGATCCCC
R
CCCACGTTGCTCTCACCTACAGAGCGGAGAACAGCCTTGGGAGTCATCTTTGCCAGCAGTCTCTTCCTTCTTGCACTGATGTTCCTGGGGCTTCAGAGAC
Celera SNP ID:            hCV25750405
SNP Position Genomic:     14778
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,38)   total(A,2|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:62398):
GACAGAGACCACTGTTAAGACAGCAGCTTGGTTCATGGCCAACATGCAGGTCTCTGGAGGGGGACCTAGCATCTCCTTGGTGATGAAGACTCCCAGGGTC
R
CCAAGAATGAGGCGCTCTGGCACCCGACGCTGAACTTGCCACTGAGCCCCCAGGGGACTGTGCGAACTGCAGGTAAGAAAATGAAAAGCAAGGCCAGGTG
Celera SNP ID:            hCV16248280
SNP Position Genomic:     7590
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,13)   caucasian(A,16|G,18)   total(A,39|G,31)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,20)   caucasian(A,14|G,20)   total(A,26|G,40)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62399):
CCAGCTTCCCCTAAAGTACGACTGAGCTTGGCAAACGAAGCTCTGCTGCCCACCCTCATCTGCGACATTGCTGGCTATTACCCTCTGGATGTGGTGGTGA
Y
GTGGACCCGAGAGGAGCTGGGTGGATCCCCAGCCCAAGTCTCTGGTGCCTCCTTCTCCAGCCTCAGGCAAAGCGTGGCAGGCACCTACAGCATCTCCTCC
Celera SNP ID:            hCV8921247
SNP Position Genomic:     12687
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,33|T,7)   total(C,68|T,10)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62400):
CCTCGGGTGACTGCTGGGAGGTTCAGGATACCTGCAAATGCCTCACTCCCTCAGCTGCAAGGAGAGACTTCTCCTTTTTATTCGTTTCTAAAATGTGCCT
R
ATCAATACGGTGGAACTCAGCATACCAAAACTGTACGTGAGGATGATGGGGAAAAGGGGGTAAGGGGGTGTTCACTGACAGCCTTATCTGGGCACATCCC
Celera SNP ID:            hCV8921249
SNP Position Genomic:     15746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62401):
CCCCACAGCTACTCCAACCCAAACAACAACCAAGCCAGTTTAATGGTAGGAATTTGTATTTTTTGCCTTTGTTCAGAATACATGACATTGGTAAATATGC
M
ACATGCCTTTGGTGGAAGTACAACTGTTGTTATTACTCTATACAAGTATGAGATCAGGGTTAGGAAAAAAAGACAAAGAGGTGATGACAGACACACAGTG
Celera SNP ID:            hCV27465034
SNP Position Genomic:     16245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:62402):
CACCTCAGGGCACCCCTAGGCCTTGGTCCTTTCTTCCTAAAAACCCCTGAGTCAGGCCAGGTGCGAAGGCCCATGCCTGTAATCCCAGCACTTTGGGAGG
S
CAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCCTCTCTACTAAAATACAGAAATTAGCCGGGCATGAT
Celera SNP ID:            hCV27515732
SNP Position Genomic:     8179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62403):
CTCCCAAGTAGCTGGGATTACAGGCATGCGCCACGACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTC
R
AACTCCCAACCTCAGGTGATCCACCCGCCTGGGCTTCCCAATACCACGTGTGTTTTTTTGTTTTGTTTTGTTTTTTACATTTTTTTTGAGACGGAGTTTC
Celera SNP ID:            hCV26956514
SNP Position Genomic:     10530
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62404):
GTTAAGACAGCAGCTTGGTTCATGGCCAACATGCAGGTCTCTGGAGGGGGACCTAGCATCTCCTTGGTGATGAAGACTCCCAGGGTCACCAAGAATGAGG
Y
GCTCTGGCACCCGACGCTGAACTTGCCACTGAGCCCCCAGGGGACTGTGCGAACTGCAGGTAAGAAAATGAAAAGCAAGGCCAGGTGTGGTGGCTCACGC
Celera SNP ID:            hCV12029085
SNP Position Genomic:     7603
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,1)   caucasian(C,16|T,4)   total(C,39|T,5)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,25|T,9)   total(C,54|T,12)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62405):
TCTTACCAGCACCTACAGGACTTGGGCTGCTTCAGGCTGAACGCTGGGAGACCACTTCCTGTGCTGACACACAGAGCTCCCATCTCCATGAAGACCGCAC
R
GCGCGTGTAAGCCAGCCCAGCTGACCTAAAGCGACATGAGACTACTAGAAAGAAACGACACCCTTCCCCAAGCCCCCACAGCTACTCCAACCCAAACAAC
Celera SNP ID:            hCV25985253
SNP Position Genomic:     16071
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62406):
TTCTGGGGAAGGCGGTGCTCACCCCAGCCTTTGTCTGCAGAGCCCCACCCAGCAGAGGGGCAGTGGCGGGCAGTGGACGTGGTCCTAGACTGCTTCCTGG
Y
GAAGGACGGTGCGCACCGTGGAGCTCTCGCCAGCAGTGAGGACAGGGCAAGGGCCTCCCTTGTGCTGAAGCAGGTGCCAGTGCTGGACGATGGCTCCCTG
Celera SNP ID:            hCV12029086
SNP Position Genomic:     7073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:62407):
GAGTAGCTTTCTGGGGAAGGCGGTGCTCACCCCAGCCTTTGTCTGCAGAGCCCCACCCAGCAGAGGGGCAGTGGCGGGCAGTGGACGTGGTCCTAGACTG
Y
TTCCTGGCGAAGGACGGTGCGCACCGTGGAGCTCTCGCCAGCAGTGAGGACAGGGCAAGGGCCTCCCTTGTGCTGAAGCAGGTGCCAGTGCTGGACGATG
Celera SNP ID:            hCV12029087
SNP Position Genomic:     7065
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   (C,-|T,-)   Caucasian(C,7|T,77)   Asians(T,84)   total(C,7|T,161)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:62408):
CTGGACGATGGCTCCCTGGAGGACTTCACCGATTTCCAAGGGGGCACACTGGCCCAAGATGACCCACCTATTATCTTTGAGGCCTCAGGTAAAAGCCTTC
Y
ACCTGTGTCCTTGGTCCTCCCGGGCTCCCTCCACCAGGACAGCCCAGGTCCCGATTACAGCCACACATACTGCCTCCCGTTGGCCCTGGTGTTCTCACGC
Celera SNP ID:            hCV16180537
SNP Position Genomic:     7256
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62409):
CAACAGTTGGAAATGCAAGCATAAACTCCTCTGAGCAAGGCAAATCCAGGACTTTAACTCTCACCAAGAAGTATTTGCCTGGACTAGCAGGTGCTCTCCA
R
AAAGCTGGTTTGGGGATGACGGGAGAATAGAGGGACACAGAAACAGCTAGGATCTTGGATGGCAACTTTTACCCTTTGATGACTCCACAGCTTGAGGGCG
Celera SNP ID:            hCV16180538
SNP Position Genomic:     6845
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,377|G,1110)   total(G,1110|A,377) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62410):
TTTCTCCACACTGGTCCCAACTGAGCCCTGTCACCAAGCCTAGCGGCTCCAACTTGCAAAGTGTTTAAGTATGAAACAAAGGCCCTCAGAGGCACCCCCG
K
GGCTCCATCTCAGTTGCACCTCAGCTGCAATTAGGGTTCTGCTCCCTCGGGTGACTGCTGGGAGGTTCAGGATACCTGCAAATGCCTCACTCCCTCAGCT
Celera SNP ID:            hCV15887485
SNP Position Genomic:     15601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62411):
TGTATATGTGTACGTGTGTATTTTCCTCTGAACTGAGAGTAAGTTGCAGAAGATAACACTTGAACCCCAAACGCATGTTTGAACCCCGAAACGCATGTTT
R
AACCCCAAATACATCCATAGCATGTATTAGTTTACAATGAAGGACAAGGATGTAATCCTTCATAGTTACAAAGCCATCATGTCAGAAACAAACCAAAGTG
Celera SNP ID:            hCV16248272
SNP Position Genomic:     9228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62412):
CAGAACACTCTAACCTCTCTGTGGTCCAACCTAAATCTATCCTGACCCATTAGAAAAAGGTCTTCATGTCTGTCCAGTGTCTACCATACTCCTGGCATGC
R
TAGGTATTTCTCTCTTTTTATTCCAAACCTACAAAAAAAGGTGAAATAATAATATAATGAACACCTATATACCCTACACCTAGATCCACCAGTTGTTAAC
Celera SNP ID:            hCV16248273
SNP Position Genomic:     8990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62413):
CTCATCTCACTGGGCTGCCATGAGGAAATAAGACACATGATGCTATTCTGTACATGGGTGCTGTCCACTGTAGTCTTATCGAGCCAAAACCCGGTTTTCT
S
CCAGTGAAATGCTAGGCTGCTCTGGTGCTTCAGGGGTAAAGCTCAGGGATGCATCATTTGTTCATGATCTTATTAGTAAACCCAGTACTTGCCCTCTCCA
Celera SNP ID:            hCV16248277
SNP Position Genomic:     8628
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62414):
CACTCCAGCCTGGGCAGCTGAGTGAGACACCGTCTCAAAAACAACAACAACAACAAAAACCCTGAGTCCACAAGAGAATGCTTCGCAGCCCCTACCTGAA
S
GTCCCCAGGCACACAGACAACCTGTGTTATTTCCAAAATGGAGATCGTTCTCATCTCACTGGGCTGCCATGAGGAAATAAGACACATGATGCTATTCTGT
Celera SNP ID:            hCV16248278
SNP Position Genomic:     8478
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,5)      total(G,1|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Gene Number:                 359
Celera Gene:                 hCG2039736 - 208000027467693
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(39279348..39291753)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12519):
TGGTGTTATCGGGTTATTTTGCCCGTTAATTGATGCAGTTTCTTCACAGCATCGATAGTCTTTACAATTTGGCATGTTTTTGCAGTGGCTGGTACTGGTG
TTTCTTTCCATGTTTAGTGCTTCCTTTAGGAGCTCTTGTAAGGCAGGCCTGGTGGTGACAAAATCTCTCAGCATTTGCTTGTCTATAAAGGATTTTATTT
CTCCTTCACTTATGAAGCTTACTTTGGCTGCATATGAATTTCTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGCCCCCACTCTCTTCTGTC
TTGTAGGGTTTCTGCAGAGAGATCTGCTGTTAGTCTGATGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCTGTGGCTGCCCTTAACATTTTTTCCTTC
ATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGTTGTTCTTCTCGAGGAGTATCTTTGTGGTGTTCTCTGTATTTCCTGAATTTGAATGTTGG
CCTGCCTTGCTAGGTTTGGGAAGTTCTCCTGGATAATATCCTGAAGAGTGTTTTCCAACTTGTTTCCATTCTCCGCATCACTTTCAGGTACACCAGTCAA
ACGTAGATTTGGTCTTTCCACATAGTCCCATATTTCTTCAAGGCTTTCCTTGTTTCTTTTTACTCTTTTTTCTCTAACCTTGTCTTCTCACTTTATTTCA
TTAATTTGATCTTCAGTCACTGATACCCTTTCTTCCAGTTGCTCTAATCAGCTATTGAATTTTGTGCATGTGTTATGAAGTTCTTGTGCCATGGTTTTCA
GCTCCATCAGGTCATTTAAGGTCTTCTCTACAGTGTTTATTCTAGTTAGGCATTCATCTAACCTTTTTTCAAGGTTCAACCTTCCTTGCAATAGGTTCGA
ACATGCACTTTTAGCTTGGAGAGGTTTGTTACTACCAAACTTCTGAAGCCTACTTCTGTCAACTCGTCAAAGTCATTCTCTTTCCAGCTTTGCTCCATTG
CTAGCAAGGAGCTGTGATCCTTTGGAGGAGATGTGCTTATGCGCTATGGTTTTTAGAATTTTCAGCTTTTCTGCTCTAGTTTCCCCCCATCTTTGTGGTT
TTATGTACCTTAGGTCTTTGATGTTGGTGACCTACAGATGGGGTTTTGGTGTAGATGTCCTTTTTGTTGATGTTTATGCTGTTCCTTTCTGTTTGTTAGT
TTTCCTTCTAACAGTCAGATCCCTCAGCTGCAGGTCTGTTGGAGTTTGCTGGAGGTCCACTCCAGATGCTCTTTGCTTTGGTATCACCAGTGGAGGCTGC
AGAACAGCAAATATTGCAGAACAGCAAATATTGCTGCCTGATCCTTCCTCTGGAAGCTTCATACCAGAGGCGCACCCACCTATATGAGGTGTCTGTTGGC
CCCTACTGGGAGGTGTTTCCCAGTCAAGATACACAGAGGTCAGGGACCCGCTTGAGGAGGCAGTCTGTCCATTCTCAGAGCTCAAATGCCATACTAGGAG
AACGAGTGCTCTCTTCAGAGCTGTCAGACAGGGATGTTTAAGTCTGCTGTTCCCCACATGTTCAGAAGTTGTCTGCTGCCTTTTGTTCAGATATGCCCTG
CCCACAGAGGTGGAGTCTATAGCGGCAGTAGCCCTTGCTGAGCTGCGGTGGACTCTGTTCAGTTCCAGCTTCCTGGATGCTTTGTTTACCTACTCAAGCC
TCAGCAATGGCGGACACCCCTCACCCAGCCAGGCTGCCGCCTCACAGTTCAATCTCAGACTGCTGCACTAGCAGTGAGCAAGGCTCCGTGGGCATGGGAG
CTGCTAAGCCAGGCAGGGGAGAGAATCTCCTTGTCTGCCAGTTTATAAGACCTTGGGAAAAGCACAGTATTTGGGTGGGAGTGTCCCGTTTTTCCAGGTA
CAGTCTGTCATGGCTCCCCTTGTCTAGGAAAGGGAAATCCCTCACCCTCTTGCACTTCCTAGGTGAGGCGACGCCCTGCCCTGCTTCGGCTTGCCCTCAG
TGGGATGCACCCACTATCCAACCAGTCCCAATGAGATGAACCAGGTACCTCAGTTGGAAATGCAGAAATCATCCATCTTCTGCGTCGATCATGCTGGGAG
CTGCAGATCGGAGCTGTTCCTATTTGGCCATTGGTGCTGAAGCTTCCGTTCTCCTCTCCAACACCTCCTTTTTTTTTCCTTTTCTCTTCCAGTTTTTCAA
TGTGAACATATTCTCTAGAGTTAACTACATTGGCTCAAATCTTCACTATCATCTCAGTGGAGCAGAACAAATTGGGAACTGTGGCACAGGTCACTCTTGC
TATGCCCCTTAAGAATTCCACATTAACAAAGCTAATTTTCGAGTGTGGTAAAGAACAGGCTAGTGTATTTAGTAGTGAGTCCATTGACTGTTTCCCAACA
TGAGGTCACACTAGATTTAATATGGTTTGGCTCTGTGTCCCCCACCAAATCTCATCTTGAATTGTAATCCCCATAATCCCCACGTGTTGAGGACAGGACA
TGGTGGGAGGTCCCCACCTCCTAATCTCATCATAGTGAGTGAGTTCTTATGAGATCTGATGGTTTTATAAGGGGCCCTTATCCCTTCACTTGCAAGCTAT
TCCTCTTTCTCTCTTTCATGTAAGACGTGTCTTTGCCTCTCTCTCACTTTCTGCCAGGATTATAAGTTTCCTGAGGCCCCTCCAGCCACATGGAACTGGA
GTCAATTAAAGCTCTTTCCTTTATAAATTACCCAGTCTTGGGTATGTCTTTATAGCAGTGTGTGAATGGACTAATACAGTAAATTGGTGTCATGGAGAGT
GGGGTACTGCTATAAAACTACTTGAAAATGTGGAAGTGACTTGGAACTGGGTAACAGGCAGAGGCTGGAACAGTTTGGAGAGCTCAGAAGACAGGAAGAT
GTGGGAAAGTTTGGAACTTCCTGGAGACTTGTTGAACGGTTTTGACCAAAATGCTGATAATGTTGTGGACAATGAAGTCCAGGCTGAGTCTCAGATAGAG
ATGAGGAATCTGTTGAGAACTGGAGCAAAGGTCACTCTTGCTAAGCTTTAGCAAAGAAACTCGTGGCATTTTTGCCCCTGCCCTAGAGCTCTTTGGAACT
ACGAACTTGAGAGAGATGATCTGAAATTGGAACTTATGTTTAAAAGGGAAGCAGAGCATAAAAGTTTGGAAAATTTGCAGCCTGACCATGTGGTAGAAAA
GAAAAACCCATTTTATGGGGAGAAATTCAAGCCAGATGCAGAAATACTAGCTAAAGAAATTTGAATAAATAAGGAGGAACCAAATGTTAATCACCAAGAC
AATGGGGAAAATGGCTCCAGGGCATGTCAGAGACCTTTGCAGCAGACCCTCCCATCACAGGCCTGGAGGCCTAGGAAGGAAAAATGGTGTTTTAGGCTGG
GTCCAGGCCCCCACTGCTGTGTGCAGCCTCAGGACTTGGTGCCCTGTGTCCCAGTGGCTCCAGCCATGGCTAAAAGGGGCCAAGGTAGAGCTCAGGCCAT
TGCTTCAGAGGGTGCAAACCTCAAGCCTTGGCAGCATCGATGTGGTGTTGGGCCTGCGGGTACACAGAAGATAAGAATTTAGGTTTGGGAACCTCCACAT
AAATTTTAGAGGATGTAAGGAAATGCTTGGATGTCCAGGCAGACGTTTGCTGCATGGATAGAGTCCTTATAGAGAACCTCTGCTAGAGAAGGGTGGTAAA
GAAATGTGAGGTTGGAGCCCCCACACAGAGTCTCCACTGGGGCACTGCCTAGTGGAGTTGTGAGAAGAAGGCCACAGTCCTTCAGAACCCAGAAGGGCAG
ATCCAATAGCTTGCACTGTGTGCCTGGAAGAGCCACAGACATCAATGCCACCCTCTGAAAGCAGCCAGGACGAGGGCTTTACCCTGCAAAGCCACAGGGT
TGGAGCTGCCTGAGACCGTGGGAGCCCATTTCTGGCATCACCTTGATCTAGATGTGAGACATGAAGTCAAGGGAGATTATTTTGGAGCTTTAAGATTTAA
TGACTGCCCTGCCTGGTTTTGGACTTGCATGGGGCCTATAGCCCCTTTGTTTTGGCCAGTTTCTCCCATTTGAAATGGGAACATTTACCCAATTTCTGTA
CCCCCATTGTGTCTTGGAAGTTACTAACTTGTTTTTGATTTTACAGGCTCATGGGGGAAGGGACTTGACTTGTCTCAGATGAGACCTTGGACTATGGACT
TTTGAGCTAGTGCTGAAATGAGTTAAGACTTTGGAGGACAGTTGGGAAGGCATGATTGGTTTTTAAATGTGAAAAGACATGAGATTTGGGATGGGCCAGA
GGGCAGAATGATATGATTTGACTGTGTGTTTCCACCCAAATCTCATCTCATATTGTAATTTCCATAATCCCCATGTGTTAAGGTTGGTACCTGGTGGGAG
CTGATTGAATCATATCGGCAGTTTTCCCCATGCTGTTCTTGTCATACTAAGTGAGTTCTCATGAGAGCTGATGGTTTTATAAGGGACTCTTTCTCCTTTA
CTCACAAGCTTTTCCTCTCTGTCTCTCGCCTGCTGCCATGTGAGACATGCCTTTGCTTATCTCTCACCTTCTGTCATGATTGTAAGTTTCCTGAGGCCTC
CCCAGTCATGTGGAACTGTGAGTCAATTAAACCTCTTTCTTTTATAAATTACCCAGTCTCAGCTGCGTCTTTATAGCAGGCTGAGAATAGACTAATACAA
GATTGGTGGTGATTGAAGTTATACTGAAAGGGTTTAAAGGAGAGTCTGAGAAAAGGAAATGAATCTGCATTTATTGAGAAAGTTGATGAGAAAGTGGAAT
TAGAAATTCCTAGAAAGGTAAGTTGTTGTGTGAATTATTTCCCAAAATGGGGAAGTCTCTCTACCTGTTTGGAGACAGAAAGTGGAATCAGAGGAGAAGA
AGATGATGGACAGAAAGGATCATTCCCTCTTCCAGATGCTTTCCAGTGTGTGATGTAAGCTGAACTAAAATCAGCTGTGTTGAACTCCAGCCAGAAAAAA
TGTCCGGCATTTTGTTTTTTGGGACCCTAATGAAATGGTTACAGGTCTCCAGGTCTCTTGGGGCTCACAGGGTCATGCCTTTCCTTGCCCAGTGTACTTG
GTGAGAAGGTACAGGTGTTTCCATGGAGGGTGTTCATTTTAGGGATTTCAAGAGGGTCATCTTTGCACCACAGGAAATGCCCCCTTTTACACTCTGAAAA
CCTTATCAAACCGTTGTATAAAAGATGAATACCCACATAACAGGCTCTAGCACTGTTCTGTTTTTGAGCTGAGACATTTTAAAAGGAGATTTTTCAATTC
TAAAAATTCTTTAAATAAAATGCTCTTGCAGGGACAACATAGTAGGTCAACATTGTTCCCATCTCCACAAAAAGTTTTTTTTTTAATTAGCTAGGTGTGG
TAGCATTTCTGTAGTCCTAGCTACTGGGAATGCTGAGGAGGAAGGATCACTTGAGCCCAGGAATTCGTGGTTACAGTAAGCTATGATCTTGCCTAGGTAA
CAGCTACAGAGCGAGACCCTGTCTTTAAAACAAACAAGCAAACAGACAATCAAGCTTTACACTTCTATAAAAGCAACACTTTCCATTTATGACAGCACTA
ATCCAGGATATATCAAAACTGAACTTGTGTTTGCTTTCAACTGTTAAAACTAGCCAGAGTTGTTACAGACCCACTACCTCTGAGTGACACTGGTATGCCA
CTCTTTGCTGACCACTGAACAATGGGATTTATGTACCCAATTGTGTAGATACACACCAACTCATTCTACTCTACCCAGAGTAGTGATTTCCAACACACAA
AACCACAATGAAACTGCCCATGCCTTTCTACCACTTTGAAACTCCTTTCATCCCTGAACTGCTCCAAAAGCAAACCTACTCAGCAAACTACTCAGTGAGT
ATCTTCACACATGTAAGTTCCCTCGTCTGATGTACAAAAAACTGAACTCATTTTTCAAAAGCCTTAACAGTCTGTCTTATTCTGATACTTCTTTTATGGT
TATTGTATGAGAATCAACTACCCAGGCACCTCGGAGYATGTTGATTTCAGAGTTCAGTGTCAGACCCCATGAGCCCCTGTGGGATGGTGCCAGCTGACTG
CCATGTTCCTGCTGTTTATTGCTTGGGTGCCATTACATGCAGAGTGGACTCTGAGGGTTCTAGAGCATATCCAAACCCATATCACACTCTTTGTTGGTTA
ATGATGTGTTCAGGCCATGATTTTTCTGTAAAAAATTACCAGCATGCTGCTCTTAATTTTTTTCAGCCTATCCAGTTCAGTTGCCTTTTGCTCTCATGCC
TTATGCAAACCTTTCCTCAGAGGTGACCCTAGAAGAAGGGACCCTTTGTGATGGAAAAGGTCYTCATTTGGGGCATAACCTGTGCCAACAGAAAGGTACT
TTCTTGTTGTGTTTATGGTGCCTCACCCAAAAAATATTACAGATACACTTGGCTTTCATCAACCTAATTTGATATGTCCCAAGCATAGCAATAGGATAGT
TCTGTGTGGCCTTATGGAGATCCTTTTTTTACATTTCCAGGACCCACTGCCAAGACCAGCTTGGTCGTGGAGACCCTAACCCAGCAGCGCTAGACGAATT
AAAGACACACACACAGAAATATAGAGTGTGGAGTGGGAAATCAGGGGACTCACAGCCTTCAGGGCTGAGAGCCCCAAACAGAGATTTACCCACATATTTA
TTGACAGCAAGCCTGTGATAAGCATCATTTCTATAGATTATAGATTAACTAAAAGTATTCCTTACGGGAAACAAAGGGATGGGCTCTGGCTAATTATCTG
CAGCAGAAACATGTCCTTAAGGCACAGATGGCTCATGTTATTATTTGTAGTTTAGGAACACCTTAAGCGGTTTTCCTCCCTGGGTGGGCCAGGTGTTCCT
TGCCCTTATTCCAGTAAACTCACAACCTTCAGCATAGGCATCATGGCTATCATGAACACGTCACAGTGCTGCAGAGATTTTGTTTATGGCCAGTTTAGGG
GCCAGCTTCTGGCCGGAATTGGGGGCTTATCCCCAGCAACCTACCATAGTTGGAGAACCACGTTCAGGCTGAAGACAGTCCTAGTATACCACCGACCAAC
CATGTAACCCCAAGGTTTGTCCTCAGCCTTCAGAGGGAACATGCTTCCACCGATTTCAGCTCAGTGATATGGGATTCAAATGTCTGACCTCCAAAATATT
AAGATAATAAATGCATGTTGTTTTGAACCATCATTAAATTAAGCCAGAAGTATTGATATTATTTGTAGATTTCACCACTACACACTAAACAATAAAGTCA
AATGATTTAGAGCAAACCACCTGGCTCACACTTTCCCAACGGAAAAAGGTAATGCTCAAAGTGCTGAACTGAACATTCTGTCCTACCACTAGCAAATAAT
CATTGTCTGCCTCAGGCTTAAGTTTAATAAATAGCAAATTGCATACAGATATTTTACAACGATTGAAAGACAAACAGAGGTCCTATCCGTGTAGTCCCAA
CGATAAGAACAGGTGTTGGCATGAAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAAGTAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCC
TCCAGATGTGCTTAAAGTCAAATGTGGACTGGAATTACTTGGTGTCAATGCGGAGTAACTGCTCTTTGCTATTTATTATGAAGGACTTTAACTCAACTCT
CCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTGGTGGTGATTTTTTTACCATCAACTATTTCAGTGGAAGTCGACATGGACT
TGAAGCTGCCTGTCCCATCACTACCGTAGGACATGCAGAAGGAAGAAAGGCCCCCACTTCCCAGGGAGCCAAAGGAACGAAATCCTGTATCAAAAGAAGA
AAAAACACCCCCAAAAGCTGGAAATTCACTGAAGGCAGAGAAAAGGGGTGCAGACGCTCTGCTTCTGCTTCCCCAGCAGTTCCTCTGACCCCCCCAAAAT
ATTCTCCAGCGGGTTTCCCAAGAGGTCAAAGGAGAATGGGTCCTGGCCGCCGAAGAACTCCCTGAAGACGTCGGCTGGGTCGCGGAAGCTGAAGACGTAC
TCGAAGGGGTCCTCGAAGGGCCTGCCGCCTGTGCAGCCGCCCTCCGCCCCCGCCTCGCCATAGCGGTCATAGATATCGCGTTTCTTGGCGTCCGACAACA
CCTCGTAGGCCTCGGCCACCTGCTTGAATCTCCTCTCCGCTTCCTCCTTGTTCTCAGGGTTTTTGTCGGGGTGCCACTTGAGCGCCAGCTTGCGGTACGC
CTTCTTGATGGCCTCGGATGAGGCCTGCCGGGGCACGTCCAGCACCTCGTAGTAGTCCACCATGCTGGATGGCCAGAACGGCCCACCAGGCACTGGCACA
GCGAGCGGCAAGGCTGCCAGCACCCAGGCGCAGGCCCGAGTGCTCGGAGACCTGGGCCGCCTGGAGAGACGCCCCTTATGACGCAGCCACATCTCATTGG
TCGAGGCCTATGAGCGCCTCGCATCCCAAGATGCAGTGCTTCTGGGACTGGCCCTGCTCTCTGTGAGGCTCTGTGAGGCCCTGTGATGCTCCAAGACCAG
GCCCCGCCCACTCCGGCCTCCAACCAGCCATGGTCTCCAAAAAGGATGGGAAAAAGAGGTTGGGGAAAAGAGAGGGCCTTGACTTTGGCTGCCTGAAGAA
CTGTTTTTCTTAAAGTAGGCTTTATATCAGTCTTTTTCCTCGGCCACAGGAGGGAAGAGGGTGGTGGGAGTGAGTTTAGTCTGACTGGGGCTGAAGACAT
CCTGTTGTTTAGGACTGCAGTTCTCCAACGTTCCAGCCCCGGTGCCCATTTGCTTTTGTTCATGTGGATTATATCTATCATACGTACTGCATTAGAGATT
AAAACAGAATTAAAAAGACATATTAATTGGGCAATTTAGTAAGAATAAACCCATGACACAATAGCAAATCTTATTTTTATGTAAATTTTATTAAGACAAA
ATGTAGTGAGAAGAGTGGCATCGTTTTACAGTTTTTGCATCTCTCTTTAGTACTTGGCTCTATAGAGAGGTGGATTCTCATGTCAGCTTCTGTATTCAAT
CTACTGTGATATTACACATCACCCATGTAGCTTCTGGAAAACTCCACTGTACACTTGTGAGAGAATGACGGTGAAAAAATCAAGTAGCATTATTATGGAA
ATAGTTTTAACTTTGCAAAATTCTCCTGAAAAATTCTTGGGGATCCCTAGGATTTCCTGGCTCATACTTTGAGAATCGCTAGTCTAGCAGAGTAGTCCTT
GGTATTCTGAAGGGATTAGTTTAGGACAACCCTCCTCTCCATACCAAAATCTAGATGCTCAAGCTCCTTTTATAAAATGACACAGTATTTGTATATAACC
TACCAATATCCTTCTTTAAGCCTCTAGTCATCTCTTGATTACTTTTACCTAATAAATGTAAATGCTATGTAAATAGTTGTTTTACAGTATTGGTTTTTTA
TTTGTATTATTTGTATTGTTTTTTCATTGCTCTTCCCCCCAAATATTTTTAATCTGCTGTTGGCTGAATCTGCAGATGTGAAGCCCAAGTATATGGAGGG
TCAAATGTGCATGTTATTCACTTTTCTTGACTGCTAAAACAACCAGGGAGATCCTCTCAGACAAAAGGAAATACAGCACTATTTACTGTATCGAAACCAT
TAAGACTTGCAGGCCGTGTGTATAGCACTGGGGATAAACGTGGGATGCAGTGATTATTTCCACTAGAACTGCTATATCATGACCATGAATTTTGGGGGAA
TTTTTTTGAGATCTGAGTTCTCTTCACCTCCTTATTCTCTTTTTGACACTGGATTCTTTTCTTTGATAAATTGTGAGGCAATACACTAGTAAAGGTCACT
CAGTTCTAAGGGGAAAATGATTAACCAAAGAACATTCTAAGATTTCCTATAGGGTATTAGGTCTAATGGGGATGTGTTATGTCACCAGAACAAACTTCTA
AGTTTATATAGCCTCTAGTGACATAACCTGAGACCCGGACTTGGCACTTGGTAAGCACACAATGAACAGTCATAGAAAGCTGGCCGAGGGTAGAGTTCAG
TGTGAACAAAGCAATTTGGGAACATCAAAGCAAGTTTGGAGAACAACAAGTGATCCAGAATGGCTGGAGGGTAAGAGGCAGAGGGAGGGGGCAAGCAGAA
GGGGTGGAGAGGAGGAATGAGCTTAGACAGGGGGGCTGGGGTCTATCCCAGAGTTTTGAGAGCAAGGCAGAGGACTCTGAATTTTCTTCTGTGCCCAGGA
AGCTGCTGACCAAGGTTCCAGAAGTGTTGGTGGGGTGGCGTTTTTCAGGGAGCAGCTGAGGCAGTGATTCAGAAGGGACAGCTGGGGGTTGGGCAACTGG
GGGACAGGGGCCCTGAAATGGGACCATGACAGCTGGGTCTGAGAGACAGTGGTAGAAACATCCAGATTCAGCACTTACTTGCTGGCTTGGATGCAGGGTC
TAGAACGAAAAGAGAAGAGGAGTCACTTCTATACAGAAACATGTCCAGAGTGCTTACTGTCTGCAAAACTGTGGACTGGCACCTGAGTGATAGCATGATT
CCAAAGCCAAAATCTTGCCTGTAAGGAATATATGTATAGGATATAGCTATACTCTAATAGCAAGGACAGATATGCAAACTGCTAAAAGATACAAGGCAGA
ACAGAACAAAACGCTGTGGGGATTCAAGGAAGGTGGCTTTGTTTCCCTTGGAGGGCCCTGTAGATGATCTACAGGGCAATGGACATGTTTATGTTGCTCC
TTTAGTAACAAGTCCCTTCATTCTGATTTGATGAAAGGAGCTGGGAGTGTGTCCAATGGTGACCTATTAACTTATGTCTTCAGCTTAAAAAGAAAGTACC
TTCAAAAGGGTTCCAGAAACACTTTCCATGGACATGTCACTCTTTAGTAGCCCCCAAAGCAAGACCATCATATTGCTGCCCTGCTGTGTGACTTCTTAGC
CCCTAGAGCACCACACCCTGTAATTGCCTAGTTGTGAGTTTGTCTCTGTTCACCTGACCCCTCCTTTCAGGCAAGGACCATTTCTAACTTGGCTTTCTGT
CCCGAGTTCCTAGCATAGTAGGTAGGGCTCACACATTCCATAAATATTTGGTGGATAAGGGAATTAGCAATGGATTCTGCTTTGGTTCCAAAGCAGAGAT
TAATTGGATTGCTTAGTAGTGGTTTTCTGTTGTAATTCATGAGCGTGAATGTGGATTGCCTACTATTGCCTACCACTGTTGGGGACCTCTCAGACCTCAG
CTGCAGCCTGATAAACGTGGTTAACAGAGAAGTAGGAGGCTGTGACATGAAATGGGTTTCCACAGGCCTTTGTTGGGAATTGGATGAGAAACAAGAGCTT
GAACTTGGATGTTCCCCAGAGCGAGCGCAGGGTCAGATGAGTTTTTCAAGTAGGAGTGATCGGTCTTTCCCGAAGTGGGACCCATAATGAAAGACAATGA
TTGGTTAATCGGTAATAATTAACTAGGAGGAGAGCACTCTATCTTCCAATTACATGATGATTTGCTAAGTGGCTCAGTGACAAGGTAATTAAGATGAAGA
AAACAAATGTAGGAGGCACAGCGTGGGGTGGACAGTCAGCTGTCCGTGTCTTCTGCTGAGATGGCCACAGGACCCCAGGTTCCCCTGCTGTGGCTGGCCA
CAGGAGTGCTACTCCTTCTCAGTGCCCAGCCCTGGGCTGAGAGTGGGAAGGTGCTGGTGGTACCCATTGATGGCAGCCACTGGCTCGCATGCGGGAGGCC
GTGCGGGAGCTCCATGCCAGAGGCCACCAGGCGGTGGTCCTCACCCCAGAGGTGAATATGCACATCAAACAAGAGAAATTTTTCACCCTGACAACCTATG
CCATTTCATGGACCCAGGATGAATTTGATCGCCTTGTGCTGGGCCACACTCAACTGTACTTTGAAACAGAACATTTTCTGAAGACATTTTCTAAAAGTAT
GGCAATTTTGAAAAATTCATCTTTGGTCTTTCATAGGTCTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATGCTACTTCCTTCGAT
GTGGTTTTAATAGACCCAATTTACCTCTGTGGGGCAGTGCTGGCTAAGTACCTATCAATTCCTGCTGTGTTTTTTTTGAGGAACATTCCATGTGATTTAG
ACTTTAAGGGCACACAGTGTCCAAATCCTTCCTCCTATATTCCTAAGTTACTAACGACCAATTCAGACCACATGACATTCCTGCAAAGGGTCAAGAACAT
GCTCTACCCTCTGGCCCTGTCCTACCTTTGCCATGCTCTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGGGAGGTGTCAGTGGTGGAT
CTTCT


SNP Information

Context             (SEQ ID NO:62415):
TCAGCCTATCCAGTTCAGTTGCCTTTTGCTCTCATGCCTTATGCAAACCTTTCCTCAGAGGTGACCCTAGAAGAAGGGACCCTTTGTGATGGAAAAGGTC
Y
TCATTTGGGGCATAACCTGTGCCAACAGAAAGGTACTTTCTTGTTGTGTTTATGGTGCCTCACCCAAAAAATATTACAGATACACTTGGCTTTCATCAAC
Celera SNP ID:            hCV1432145
SNP Position Genomic:     6363
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:62416):
AAAAACTGAACTCATTTTTCAAAAGCCTTAACAGTCTGTCTTATTCTGATACTTCTTTTATGGTTATTGTATGAGAATCAACTACCCAGGCACCTCGGAG
Y
ATGTTGATTTCAGAGTTCAGTGTCAGACCCCATGAGCCCCTGTGGGATGGTGCCAGCTGACTGCCATGTTCCTGCTGTTTATTGCTTGGGTGCCATTACA
Celera SNP ID:            hCV28004368
SNP Position Genomic:     6037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 PUTATIVE UTR 5


Gene Number:                 360
Celera Gene:                 hCG2039737 - 207000009639026
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(39285009..39297875)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12520):
GTTACAGACCCACTACCTCTGAGTGACACTGGTATGCCACTCTTTGCTGACCACTGAACAATGGGATTTATGTACCCAATTGTGTAGATACACACCAACT
CATTCTACTCTACCCAGAGTAGTGATTTCCAACACACAAAACCACAATGAAACTGCCCATGCCTTTCTACCACTTTGAAACTCCTTTCATCCCTGAACTG
CTCCAAAAGCAAACCTACTCAGCAAACTACTCAGTGAGTATCTTCACACATGTAAGTTCCCTCGTCTGATGTACAAAAAACTGAACTCATTTTTCAAAAG
CCTTAACAGTCTGTCTTATTCTGATACTTCTTTTATGGTTATTGTATGAGAATCAACTACCCAGGCACCTCGGAGCATGTTGATTTCAGAGTTCAGTGTC
AGACCCCATGAGCCCCTGTGGGATGGTGCCAGCTGACTGCCATGTTCCTGCTGTTTATTGCTTGGGTGCCATTACATGCAGAGTGGACTCTGAGGGTTCT
AGAGCATATCCAAACCCATATCACACTCTTTGTTGGTTAATGATGTGTTCAGGCCATGATTTTTCTGTAAAAAATTACCAGCATGCTGCTCTTAATTTTT
TTCAGCCTATCCAGTTCAGTTGCCTTTTGCTCTCATGCCTTATGCAAACCTTTCCTCAGAGGTGACCCTAGAAGAAGGGACCCTTTGTGATGGAAAAGGT
CTTCATTTGGGGCATAACCTGTGCCAACAGAAAGGTACTTTCTTGTTGTGTTTATGGTGCCTCACCCAAAAAATATTACAGATACACTTGGCTTTCATCA
ACCTAATTTGATATGTCCCAAGCATAGCAATAGGATAGTTCTGTGTGGCCTTATGGAGATCCTTTTTTTACATTTCCAGGACCCACTGCCAAGACCAGCT
TGGTCGTGGAGACCCTAACCCAGCAGCGCTAGACGAATTAAAGACACACACACAGAAATATAGAGTGTGGAGTGGGAAATCAGGGGACTCACAGCCTTCA
GGGCTGAGAGCCCCAAACAGAGATTTACCCACATATTTATTGACAGCAAGCCTGTGATAAGCATCATTTCTATAGATTATAGATTAACTAAAAGTATTCC
TTACGGGAAACAAAGGGATGGGCTCTGGCTAATTATCTGCAGCAGAAACATGTCCTTAAGGCACAGATGGCTCATGTTATTATTTGTAGTTTAGGAACAC
CTTAAGCGGTTTTCCTCCCTGGGTGGGCCAGGTGTTCCTTGCCCTTATTCCAGTAAACTCACAACCTTCAGCATAGGCATCATGGCTATCATGAACACGT
CACAGTGCTGCAGAGATTTTGTTTATGGCCAGTTTAGGGGCCAGCTTCTGGCCGGAATTGGGGGCTTATCCCCAGCAACCTACCATAGTTGGAGAACCAC
GTTCAGGCTGAAGACAGTCCTAGTATACCACCGACCAACCATGTAACCCCAAGGTTTGTCCTCAGCCTTCAGAGGGAACATGCTTCCACCGATTTCAGCT
CAGTGATATGGGATTCAAATGTCTGACCTCCAAAATATTAAGATAATAAATGCATGTTGTTTTGAACCATCATTAAATTAAGCCAGAAGTATTGATATTA
TTTGTAGATTTCACCACTACACACTAAACAATAAAGTCAAATGATTTAGAGCAAACCACCTGGCTCACACTTTCCCAACGGAAAAAGGTAATGCTCAAAG
TGCTGAACTGAACATTCTGTCCTACCACTAGCAAATAATCATTGTCTGCCTCAGGCTTAAGTTTAATAAATAGCAAATTGCATACAGATATTTTACAACG
ATTGAAAGACAAACAGAGGTCCTATCCGTGTAGTCCCAACGATAAGAACAGGTGTTGGCATGAAGTGTTTATAAATTCTTGGGTACAGCTGTTCTGAAAG
TAAAGTTCACTTTCAATCCTAAAAAAAGTCCGCTATTCCTCCAGATGTGCTTAAAGTCAAATGTGGACTGGAATTACTTGGTGTCAATGCGGAGTAACTG
CTCTTTGCTATTTATTATGAAGGACTTTAACTCAACTCTCCATCTTCCTCCACTTCCACCCTTTCTTGGCCATTCTCAATGATTCTCTTGGTGGTGATTT
TTTTACCATCAACTATTTCAGTGGAAGTCGACATGGACTTGAAGCTGCCTGTCCCATCACTACCGTAGGACATGCAGAAGGAAGAAAGGCCCCCACTTCC
CAGGGAGCCAAAGGAACGAAATCCTGTATCAAAAGAAGAAAAAACACCCCCAAAAGCTGGAAATTCACTGAAGGCAGAGAAAAGGGGTGCAGACGCTCTG
CTTCTGCTTCCCCAGCAGTTCCTCTGACCCCCCCAAAATATTCTCCAGCGGGTTTCCCAAGAGGTCAAAGGAGAATGGGTCCTGGCCGCCGAAGAACTCC
CTGAAGACGTCGGCTGGGTCGCGGAAGCTGAAGACGTACTCGAAGGGGTCCTCGAAGGGCCTGCCGCCTGTGCAGCCGCCCTCCGCCCCCGCCTCGCCAT
AGCGGTCATAGATATCGCGTTTCTTGGCGTCCGACAACACCTCGTAGGCCTCGGCCACCTGCTTGAATCTCCTCTCCGCTTCCTCCTTGTTCTCAGGGTT
TTTGTCGGGGTGCCACTTGAGCGCCAGCTTGCGGTACGCCTTCTTGATGGCCTCGGATGAGGCCTGCCGGGGCACGTCCAGCACCTCGTAGTAGTCCACC
ATGCTGGATGGCCAGAACGGCCCACCAGGCACTGGCACAGCGAGCGGCAAGGCTGCCAGCACCCAGGCGCAGGCCCGAGTGCTCGGAGACCTGGGCCGCC
TGGAGAGACGCCCCTTATGACGCAGCCACATCTCATTGGTCGAGGCCTATGAGCGCCTCGCATCCCAAGATGCAGTGCTTCTGGGACTGGCCCTGCTCTC
TGTGAGGCTCTGTGAGGCCCTGTGATGCTCCAAGACCAGGCCCCGCCCACTCCGGCCTCCAACCAGCCATGGTCTCCAAAAAGGATGGGAAAAAGAGGTT
GGGGAAAAGAGAGGGCCTTGACTTTGGCTGCCTGAAGAACTGTTTTTCTTAAAGTAGGCTTTATATCAGTCTTTTTCCTCGGCCACAGGAGGGAAGAGGG
TGGTGGGAGTGAGTTTAGTCTGACTGGGGCTGAAGACATCCTGTTGTTTAGGACTGCAGTTCTCCAACGTTCCAGCCCCGGTGCCCATTTGCTTTTGTTC
ATGTGGATTATATCTATCATACGTACTGCATTAGAGATTAAAACAGAATTAAAAAGACATATTAATTGGGCAATTTAGTAAGAATAAACCCATGACACAA
TAGCAAATCTTATTTTTATGTAAATTTTATTAAGACAAAATGTAGTGAGAAGAGTGGCATCGTTTTACAGTTTTTGCATCTCTCTTTAGTACTTGGCTCT
ATAGAGAGGTGGATTCTCATGTCAGCTTCTGTATTCAATCTACTGTGATATTACACATCACCCATGTAGCTTCTGGAAAACTCCACTGTACACTTGTGAG
AGAATGACGGTGAAAAAATCAAGTAGCATTATTATGGAAATAGTTTTAACTTTGCAAAATTCTCCTGAAAAATTCTTGGGGATCCCTAGGATTTCCTGGC
TCATACTTTGAGAATCGCTAGTCTAGCAGAGTAGTCCTTGGTATTCTGAAGGGATTAGTTTAGGACAACCCTCCTCTCCATACCAAAATCTAGATGCTCA
AGCTCCTTTTATAAAATGACACAGTATTTGTATATAACCTACCAATATCCTTCTTTAAGCCTCTAGTCATCTCTTGATTACTTTTACCTAATAAATGTAA
ATGCTATGTAAATAGTTGTTTTACAGTATTGGTTTTTTATTTGTATTATTTGTATTGTTTTTTCATTGCTCTTCCCCCCAAATATTTTTAATCTGCTGTT
GGCTGAATCTGCAGATGTGAAGCCCAAGTATATGGAGGGTCAAATGTGCATGTTATTCACTTTTCTTGACTGCTAAAACAACCAGGGAGATCCTCTCAGA
CAAAAGGAAATACAGCACTATTTACTGTATCGAAACCATTAAGACTTGCAGGCCGTGTGTATAGCACTGGGGATAAACGTGGGATGCAGTGATTATTTCC
ACTAGAACTGCTATATCATGACCATGAATTTTGGGGGAATTTTTTTGAGATCTGAGTTCTCTTCACCTCCTTATTCTCTTTTTGACACTGGATTCTTTTC
TTTGATAAATTGTGAGGCAATACACTAGTAAAGGTCACTCAGTTCTAAGGGGAAAATGATTAACCAAAGAACATTCTAAGATTTCCTATAGGGTATTAGG
TCTAATGGGGATGTGTTATGTCACCAGAACAAACTTCTAAGTTTATATAGCCTCTAGTGACATAACCTGAGACCCGGACTTGGCACTTGGTAAGCACACA
ATGAACAGTCATAGAAAGCTGGCCGAGGGTAGAGTTCAGTGTGAACAAAGCAATTTGGGAACATCAAAGCAAGTTTGGAGAACAACAAGTGATCCAGAAT
GGCTGGAGGGTAAGAGGCAGAGGGAGGGGGCAAGCAGAAGGGGTGGAGAGGAGGAATGAGCTTAGACAGGGGGGCTGGGGTCTATCCCAGAGTTTTGAGA
GCAAGGCAGAGGACTCTGAATTTTCTTCTGTGCCCAGGAAGCTGCTGACCAAGGTTCCAGAAGTGTTGGTGGGGTGGCGTTTTTCAGGGAGCAGCTGAGG
CAGTGATTCAGAAGGGACAGCTGGGGGTTGGGCAACTGGGGGACAGGGGCCCTGAAATGGGACCATGACAGCTGGGTCTGAGAGACAGTGGTAGAAACAT
CCAGATTCAGCACTTACTTGCTGGCTTGGATGCAGGGTCTAGAACGAAAAGAGAAGAGGAGTCACTTCTATACAGAAACATGTCCAGAGTGCTTACTGTC
TGCAAAACTGTGGACTGGCACCTGAGTGATAGCATGATTCCAAAGCCAAAATCTTGCCTGTAAGGAATATATGTATAGGATATAGCTATACTCTAATAGC
AAGGACAGATATGCAAACTGCTAAAAGATACAAGGCAGAACAGAACAAAACGCTGTGGGGATTCAAGGAAGGTGGCTTTGTTTCCCTTGGAGGGCCCTGT
AGATGATCTACAGGGCAATGGACATGTTTATGTTGCTCCTTTAGTAACAAGTCCCTTCATTCTGATTTGATGAAAGGAGCTGGGAGTGTGTCCAATGGTG
ACCTATTAACTTATGTCTTCAGCTTAAAAAGAAAGTACCTTCAAAAGGGTTCCAGAAACACTTTCCATGGACATGTCACTCTTTAGTAGCCCCCAAAGCA
AGACCATCATATTGCTGCCCTGCTGTGTGACTTCTTAGCCCCTAGAGCACCACACCCTGTAATTGCCTAGTTGTGAGTTTGTCTCTGTTCACCTGACCCC
TCCTTTCAGGCAAGGACCATTTCTAACTTGGCTTTCTGTCCCGAGTTCCTAGCATAGTAGGTAGGGCTCACACATTCCATAAATATTTGGTGGATAAGGG
AATTAGCAATGGATTCTGCTTTGGTTCCAAAGCAGAGATTAATTGGATTGCTTAGTAGTGGTTTTCTGTTGTAATTCATGAGCGTGAATGTGGATTGCCT
ACTATTGCCTACCACTGTTGGGGACCTCTCAGACCTCAGCTGCAGCCTGATAAACGTGGTTAACAGAGAAGTAGGAGGCTGTGACATGAAATGGGTTTCC
ACAGGCCTTTGTTGGGAATTGGATGAGAAACAAGAGCTTGAACTTGGATGTTCCCCAGAGCGAGCGCAGGGTCAGATGAGTTTTTCAAGTAGGAGTGATC
GGTCTTTCCCGAAGTGGGACCCATAATGAAAGACAATGATTGGTTAATCGGTAATAATTAACTAGGAGGAGAGCACTCTATCTTCCAATTACATGATGAT
TTGCTAAGTGGCTCAGTGACAAGGTAATTAAGATGAAGAAAACAAATGTAGGAGGCACAGCGTGGGGTGGACAGTCAGCTGTCCGTGTCTTCTGCTGAGA
TGGCCACAGGACCCCAGGTTCCCCTGCTGTGGCTGGCCACAGGAGTGCTACTCCTTCTCAGTGCCCAGCCCTGGGCTGAGAGTGGGAAGGTGCTGGTGGT
ACCCATTGATGGCAGCCACTGGCTCGCATGCGGGAGGCCGTGCGGGAGCTCCATGCCAGAGGCCACCAGGCRGTGGTCCTCACCCCAGAGGTGAATATGC
ACATCAAACAAGAGAAATTTTTCACCCTGACAACCTATGCCATTTCATGGACCCAGGATGAATTTGATCGCCTTGTGCTGGGCCACACTCAACTGTACTT
TGAAACAGAACATTTTCTGAAGACATTTTCTARAAGTATGGCAATTWTGAAAAATTCATCTTTGGTCTTTCATAGGTCTTGTGTGGAGCTACTGCATAAT
GAGGCCCTGATCAGGCACCTGAATGYTACTTCCTTCGATGTGGTTTTAATAGACCCAATTTACCTCTGTGGGGCAGTGCTGGCTAAGTACCTATCAATTC
CTGCTGTGTTTTTTTTGAGGAACATTCCATGTGATTTAGACTTTAAGGGCACACAGTGTCCAAATCCTTCCTCCTATATTCCTAAGTTACTAACGACCAA
TTCAGACCACATGACATTCCTGCAAAGGGTCAAGAACATGCTCTACCCTCTGGCCCYGTCCTACCTTTGCCATGCTCTTTCTGCTCCTTATGCAAGCCTT
GCCTCTGAGCTTTTTCAGAGGGAGGTGTCAGTGGTGGATCTTSTCAGCCATGCATCTGTGTGGCTGTTCCGAGGGGACTYTGTGATGGATTACCCCAGGC
CGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGCCAACAGGAAGCCACTATCTCAGGTCGGTGTTCGTGCCTTCATCCAATCAATGTTCCA
GGCAAAACAGTTTTTAAAAATTGTATTTACTTACAATTGCTTCCATATCTACTTATCTTTCTGGTGCTTTTATTTCTGCTTGTCGTAATAGCCTTCAGTG
AGATAAACTGTTAAGGGGTCTCTAGTAGCGTATTTCAGGTTTTAAATGGTCAATGAGAGGAAGAAGAGGCAGACATGAATGTTTATCAAAGGATGGACTA
GGACTGATGTGACTCATGGAGACTGTTCGTTTGTAAAGGCACCATCTTCATGGTTGTGCATGTCCTTCATTGGGAAGGAGCAGGGACACTACATTGAGAC
TTGACCCATCTGGATTTTTTGTTTGCACAATTTTCAGGGGAAAGATGATGCAACAGCAAATTACAATTGTTAATGTGATAATTTTTAGTGGTCCTGTCTT
GCGAATGATAGAGAGGTGACCACAGGAGACCTAAGCACTCGCAGGAAGTAGAAGTGTTAAAGAGGTTGACTCAGTTCAGTGGAAGTAGAGCAACGAACGT
GGGATATATGTCTGTGATTATAGAATTACACACTGAGTTCAGTTTCCAGAGAGGGATCTGTGCTGACAAAAGATTTTTCTGGTCAGGATTTGGGGTCTGG
TGCATGATGTGGGGACATCTCAGAGTTCGGAAGGCATAGTTTTGGTTGCAGGTCAATTGGGTCTTCTACTTGGAATGCTGAAATTATCAAGAAATTGTGG
AAGGGTCTAGGGAGGAGATAAAACTGTGAGCGTATAAGCCCAGTTAAGCTGGGGACGGTGATGAATGGACATGTGTCCAAGAAGGGAAGTGTTTCTCAGG
TGAAGCTGAACATATCACCAAACCCACCCTATCCCACTCCAAGTTTCTATAGTGGGATCTACTTCTTTACCAACAATTTCAAAGGCAGCTTTCTTTAATC
CAGAATATTTGGGGTTCATTGATGTGGTACTCTGGGACCTGAATATTGTTTCTTATTCCTTGGTGTGCCATGTATTTCATGAGAGAATTCAGCCTTTTTA
TGTCATATTCACTGAATGCATATGAACTTCCATGACTTGATCCTTTTGTATTTTTATTTCTGTACTTCTTTTTATTAACATAGGTATTATTGCCAAACAC
TCTAAGCTTCATTTTTTAAAATCAAACCACATGATTTTTTTATTGGTGATTTTCTCCCTTATGCAGTGTAGTTATTCAATTATAAAATATGTGTTTATTA
GATTTGTAACAATGTTGAAAAGTGGGATGGAATTTAAATAGTGACTCTTGCCCTTTTCTTCCAGTTTTTCAATGTGAACATATTCTCTAGTGTTAACTAC
ATTGCTCAAAACTTCACTGTCATCTCAGTGGAGCAGAACGAATTGGGAACTGTGGCACAGATCACTCTTGCTATGCCCCTTAGAGAATTAGAGAACACTA
GCAAGGCTAATTTTCGAGTGTGGTAAAGAACAGGCTAATGTATTCAATAGTGAGGCCACTGACTCTGTCTCAACATGAAGTCACACTAGATTTATCATGA
TTTGGCTCTGTATCCCCCACCAAATCTCATCTTGAATTGTAATCCCCATAATCCCCACGTGTCAAGGACAGGATCTGGTGGGAGGTGATTGGATCATGGG
GGCAGTTTCGCACCTGCTGGTCTCATCATAGTGAGTGAGTTCTTATGAGATCTGATGGTTTTATAAGGGGCCATTGTCCCTTCACTTGCAAGCTCTTCCT
CTTTCTCTCTTTCATGTAAGACGTGTCTTTGCCTCTCTCTCACTTTCTGCCAGGATTATAAGTTTCCTGAGGCTCCCCCCTCCAGCCACCTGGAACTGTG
AGTCAATTAAAGCTCTTTCCTTTATGAATTACCGAGTCTTGGGTATGTCTTTATAGCAGTGTGAGAATGGACTAATATATTAAATTGGTGCCATGGAGAG
TGGAGTACTGCTATAAAGATACTTGAAAATGTGGAAGTGACTTTGGAACTGGGTAACAGGCAGAGGTTGGAACAGTTTGGAGAGCTCAGAAGAAGACAGG
AAGATGTGGGAAAGTTTGGAACTTCCTAGAGACTTGTTGAATGGTTTTGACCAAAATGCTGATAATGTTGTGGACAATGAAGTCCAGGCTGAGTCTCAGA
TGGAGATGAGGAACTTATTGGGAACTGGAACAAAGGTCACCCTTGCTATGCTTTAGCAAAGAGACTGGTGGCATTTTGCCCCTGCCCTAGAGATCTGTGG
AACTTTGAACTTCAGAGAGATGATCTGAAATTGGAACTTATGTTTAAAAGGGAAGCAGAGCATAAAAGTTTGGAAAATTTGCAGCCTGACCATGTGGTAG
AAAAGAAAAACCCATTTTATGGGGAGAAATTCAAACCAGCTACAGAAATACTGGCTATAGAAATTTGCATAAGTAAGGAGGAGCCAAATGTTAATTGCCA
AGACAATGGGGAAAATGGCTTCAGTGCACATCAGAGACCTTTGCAGCAGACCCTCCCATCACAGGCCTGGAGGCCTAGGAAGGAAAAATTGTTTTGTGGG
CTGGGTCCATGCTCCCCCTGCTGTGTGCAGCCTCAGGACTTGGTGCCCTGTGTCCCAGTGGCTCCAGCCATGGCTAAAAGAGGCCAAGGTAGAGCTCAGG
CCATTGCTTCAGAGGGTGCAAACCTCAAGCCTTGGCAGCATCGATGTGGTGTTGGGCCTGTGGGTACACAGAAGATAAGAATTTAGGTTTGGGAACCTCC
ACATAAATTTGAGAGGATGTAAGGAAATGCTTGGATGTCCAGGCAGAAGTTTGCTGCATGGATGGAGCCCTTATAGAGAACCTCTGCTAGAGAAGGGTGG
TAAAGAAATGTGAGGTTGGAGCCCCCACACAGAGTCTCCACTGGGGCACTGCCTAGTGGAGTTGTGAGAAGGCGGCCACCATCCTCCAGAATCCCAAATA
GTAGATCCAATAGCTTGCACTGTGTGCCTGGAAAAGACACAGACACTCAATGCCAGCCTCTGAAGGCAGCCAGGAGGAGGGCTTTGCCCTGCAAGCCACA
GTGTCCAAGTTGCCTGAGACTGTGGGAGCCCACTTCTGGCATCAGCATGACCTAGATATGAGACATGAAGTTAAAGGTGATAATTTTGGAGCTTTAAGAT
TTAATGACTGCCCTGCCTGGTTTTGGACTTGCATGGGGCCTGTAGCCCCCTTTTTTTGGCCAGTTTCTCCCATTTGGAATGGGAATATTTACCCAATTTC
TGTACCCCCATTGTGTCTTGGAAGTTACTTTTGATTTTACAGGCTCATGGGGGAAGGGACTTGCCTTGTCTCAGATAAGACTTTGGACTATGGACTTTTG
AGCTAGTGCTGAAATGAGTTAAGACTTTGGAAGATTGTTGGGAAGGCACGATTGGTTTTGAAATGTGAAAAGACATGAGATTTGGGAGGGGCCAGAGGGC
AGAATGATATGGTTTGACTCTGTGTTTCCACCCAAATCTCATCTCAAATTGTAATCTCCATAATTCCCATGTGTTAAGGATGGGACCTGGTGGGAGGTGA
TTGGATCATGTGTGCAGTTTCCCCCTTGCTGTTCTCATCCTACTGAGTGAGTTCTAATGAGAGCTGATGGTTTTATAAGGGGCTCTTCCTCCTTCACTCA
CAAGTGAACTCTTCCTCTCTGTTTCTCTCTTGCTTGCTGCCATGTGAGACATGACTTTGCTTATCTCTCACCTTCTGTCATGATTGTAAGTTTCCTGAGG
CCTCCCCAGCCATGTGGAACTGAGTCATTTAAACCTTTGTCTTTTATAAATTACCCCGTCTTGGGTATGTCTTTATAGCAGTGTGAGAACAGACTAATAC
AAGATTGGTGGTGATTGAAGTTATACTGAAAGGGTTTAAAGGAGAGTCTGAGAAAAGGAAATGAATCTGCATTTATTGAGAAAGTTGATGAGAAAGTGGA
ATTAGAAATTCCTAGAAAGGTAAGCTGTTGTGTGAATGATTTCCCGAGATGGGGAAGTCTCTCTACCTGTTTGGAGACAGAAAGTAGAATCAGAGGAGAA
GAAGATGATGGACAGAAAGGATCATTCCCTCTTCTAGATGCTTTCTAGTGTGTGATGTAAGCTGAATTAAAATCAGCTGTGTTGAACTCCAGCCAGAAAA
AATATCTGGCATTTTGGTTTTTTGGACCCTACTGTGATGGTCACAGGACTCCAGGTCTCTTGGGGCTCACAGGGTCATGCCTTTCCTTGCCCGGTGTGCT
TGGTGAGAAGGAACAAGTGTTTCCATGGAGGAAATTCATTTTAGGGGTCTCAAGAGGGTCATCTTTGCAACAGAGGAAATGCCCCTTTTTCCATTCTGAA
AACCTGATTTATCGAACCCTTTTATAAAAGATGAATACCCACATATAGGCCTCTAGCAGTGTTATGTTTTTGAGATGAGACATTTTAAAAAGCGATTTTT
CAATTCTAAAAATTCTTTAAATAAAATGCTCTTGCTGGGACAACATAGTGGGTCAACATCATTCCCATCTCTACAAGATTTTTTTTAAAAAAACATTAGC
TAGGTGTGGTAGCTGTTGTCTTAGTTACTGGGAATGCTGAGGAGGAAGGATCACTTGAGCCCAGAAATTCATGTTTACTAGTGGGGTATGATCTTGCCTA
GGCAACAGCTACAGAGAGAGACCCTGTCTCTAAAACAAACAAACAAACAAACAAACAATAACCAAACAAGCTTTACACTTCTGTAGAAGGAACACTTCCC
ATTTATGACATCAGTAATCTAGGATATATCAAAATTTGAACTTTGTGTTAGCTTTCAACTGTTAAAACTAGCCAGCGTTGTTACAGATCCACCTCTGAGT
GACACTGGTATGCCACTCTTTGCTGACCACTGAACAATGGGATTTATGTAACCAATTGTGTAGATACAAACCCACTCATTCTATCCTACCCAGAGTGGTG
ATTTACAACACAAAAAACTACCATGAAACTGTTCCCATGCCTTCCTCCCACCTCAAAACTCCTTTTATTCCTGAACGGCTCCATAAGCAAACCCATCCCC
AGCAAACTACTCAGTGAGTATCTTCACACATGTAAGTTCCCTTATCCGGATCACTAAAAAATGAACTCATTTTTCAAAAGCCCTGACAGTCTGTCTTATT
TTGATACTTCTTGTATAGTTATTATTTAAGAAGCAACTACCCAGGCACCTTGGAGCATGTTGATTTCAGAGTTCAGTGTGAGACCCCGTGTGCCCCTGTG
GGATGGTGCCAGCTGACTGCCATTTTCCTGCTGTTTATTACTTGGGTGCCATTCCATGCAGATTGGACTCTGAGGGTACTAGAGCATATCCAAACCCATT
GTCACAGTATTTGTTGGTTAATGATGTGTTCAGGCCATGATTTTTCTGTAAAAAATTACCAGCATGCTGCTCTTAATTTTTTTCAGCCTGTCTAGTTGTT
GCCCTTTTGCTCTCATGCAAACTTTTCCTCAGAGGTGACCCTAGAAGATGGGACCCTTTGTGATGGACTACCCCAAGGCAATATGCCCCAAAAGGTCTTC
ATTTGGGGCATAACCCGTGCCAACACAAAGGTACTTTCTCAATTGTGTGTATGGTGCCTCACCCAAACAATATTACAGATGCACTTGGCTTTCATCAACC
TAATTTGATATGCCCCAAGCACAGCAATAGGACAGTTTTGCGTGGCCCTTTGGAAACGCTTTTCTTTACATTTCCAGGACCTACCATAGTTGGAGAACCA
CGTTAGGGCTGAAGACAGTCCTAGTATATCATTGACCAACCACATAACCCCAAGGTCTGTCCTCAGCCTTCAGAAGGAACATGCTTCTTACACCGATTTC
AGCTCAGTGATATGGGATTCAAATGTATGACCTCCAAAATATTAAGAGAATAACGTGTGTTGTTTTAAGCCACCAAGTTTGGGTAATTTGTTACAGCCAT
GATAGGAAACGAATGCATCCACTTTGCCAGGTTTACCTGCTTTTATAAAGCCTGGGTTTAACCTTT


SNP Information

Context             (SEQ ID NO:62417):
CTACCCTCTGGCCCTGTCCTACCTTTGCCATGCTCTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGGGAGGTGTCAGTGGTGGATCTT
S
TCAGCCATGCATCTGTGTGGCTGTTCCGAGGGGACTTTGTGATGGATTACCCCAGGCCGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGC
Celera SNP ID:            hCV25973314
SNP Position Genomic:     6743
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,40)   total(C,76|G,2)   
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,2)   caucasian(C,12)   total(C,42|G,2)
SNP Type:                 UTR 3


Context             (SEQ ID NO:62418):
ATGGACCCAGGATGAATTTGATCGCCTTGTGCTGGGCCACACTCAACTGTACTTTGAAACAGAACATTTTCTGAAGACATTTTCTAAAAGTATGGCAATT
W
TGAAAAATTCATCTTTGGTCTTTCATAGGTCTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATGCTACTTCCTTCGATGTGGTTTT
Celera SNP ID:            hCV25968835
SNP Position Genomic:     6347
SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,17)   caucasian(A,3|T,5)   total(A,10|T,22)
SNP Type:                 UTR 3


Context             (SEQ ID NO:62419):
TTTTCTAAAAGTATGGCAATTTTGAAAAATTCATCTTTGGTCTTTCATAGGTCTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATG
Y
TACTTCCTTCGATGTGGTTTTAATAGACCCAATTTACCTCTGTGGGGCAGTGCTGGCTAAGTACCTATCAATTCCTGCTGTGTTTTTTTTGAGGAACATT
Celera SNP ID:            hCV29367992
SNP Position Genomic:     6426
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:62420):
TGGGCTGAGAGTGGGAAGGTGCTGGTGGTACCCATTGATGGCAGCCACTGGCTCGCATGCGGGAGGCCGTGCGGGAGCTCCATGCCAGAGGCCACCAGGC
R
GTGGTCCTCACCCCAGAGGTGAATATGCACATCAAACAAGAGAAATTTTTCACCCTGACAACCTATGCCATTTCATGGACCCAGGATGAATTTGATCGCC
Celera SNP ID:            hCV25970063
SNP Position Genomic:     6172
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,22)   caucasian(G,20)   total(A,10|G,42)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62421):
TGTCCAAATCCTTCCTCCTATATTCCTAAGTTACTAACGACCAATTCAGACCACATGACATTCCTGCAAAGGGTCAAGAACATGCTCTACCCTCTGGCCC
Y
GTCCTACCTTTGCCATGCTCTTTCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGGGAGGTGTCAGTGGTGGATCTTCTCAGCCATGCATCT
Celera SNP ID:            hCV11742273
SNP Position Genomic:     6657
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,23)   caucasian(C,7|T,33)   total(C,22|T,56)
SNP Type:                 UTR 3

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:62422):
TCTGCTCCTTATGCAAGCCTTGCCTCTGAGCTTTTTCAGAGGGAGGTGTCAGTGGTGGATCTTCTCAGCCATGCATCTGTGTGGCTGTTCCGAGGGGACT
Y
TGTGATGGATTACCCCAGGCCGATCATGCCCAACATGGTCTTCATTGGGGGCATCAACTGTGCCAACAGGAAGCCACTATCTCAGGTCGGTGTTCGTGCC
Celera SNP ID:            hCV258660
SNP Position Genomic:     6780
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,28)   caucasian(C,10|T,28)   total(C,20|T,56)
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,28)   caucasian(C,11|T,29)   total(C,21|T,57)   
SNP Type:                 UTR 3

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:62423):
ACCTATGCCATTTCATGGACCCAGGATGAATTTGATCGCCTTGTGCTGGGCCACACTCAACTGTACTTTGAAACAGAACATTTTCTGAAGACATTTTCTA
R
AAGTATGGCAATTTTGAAAAATTCATCTTTGGTCTTTCATAGGTCTTGTGTGGAGCTACTGCATAATGAGGCCCTGATCAGGCACCTGAATGCTACTTCC
Celera SNP ID:            hCV25968863
SNP Position Genomic:     6333
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,2)   caucasian(A,16|G,2)   total(A,44|G,4)
SNP Type:                 UTR 3


Gene Number:                 361
Celera Gene:                 hCG2039738 - 206000045182878
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWPT(39185722..39198822)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12521):
GAATCTTTTCTTTATCCTTGACCTTTGGGAGTTTGATTATTAAATGCCTTGAGGTAGTTTTCTTTGGGTTAAATGTGCTTGGTGTTCTCTAGCCTTCTCA
TACTTGAATATAGGTATCTTTCTCTAGGTTTGGAAAGTTTTCTGTTATTATCCCTTTGAATAAACTTTCTACTCCTATCTCTTTCTCTACCTCCACTTTA
TGGGCAATAACTATTAGATTTGCCCCTTTGAGGCTATTTTCTAGATCCTATAAGCATGCTTCATTGTTGTTTATTCTTTTTTCTTTTGTCTCCTCTGACC
ATGTATTTTCAAATGGCCTGTCTTCAAGCTCAGTAATTATTTCTTGTGTTTGGTCCATTCTGCTATTAAAGGACTTTGATGCATTCTTCATTATGCCGAT
TGCATTTTTCAGCTCCAGAATTTCTGCTTGATTCTTTCTAATGATTTCAATCTCTTTGTTAAATTTATATGCTGGAATTCTGAATTCCTCCTCTGTGTTA
TTTGGAATTTCTTTGAGTTTCCTCAACACAGCTATTTTGAATTCTCTGTCTGAAAGGTCGCTTATATCTGTTTCTCCAGCGTTAGTCCCTGGCACCTTAT
TTAATTCATTTGATGAGGTCATGGTTTTCCTGAATGGCGTTGATGCTAGCAGACATTCTTCAGTGTCTGGGCATTGAAGAGTTAGGTGTTTATTGTAGTC
TTCATTGTCTGGGCTTATTTGTAGCCGTCCTTCTTGGAAAGGCTTTCCAGATATTTGAAAGGACTTAGGTGTTGTAATCTAAGCTGTTTCTGCTTTAGGG
GGCACCCCAAGCCTAGTAACGCTGTGGTTCTTGCAGACTTGTAGATGTATTGCCTTGATGGTCTTGGACAAGATCCAAGATACTTCTCTGGATTCCAGCA
CATACTCTTGCTTTCTTCCCTTACTTCCTCCCAAAAATACAGAGTCTCTCTCTCTCTCTCACTCTCTCTCTCTCTCTCTGTCTCTCTCTCTGTTCTGAGC
CACCTCAAGCTGGGGGTGGAGTGACACAAGCATCCTTGTGGCCATCACCACTATGACTGTGCTGGATCAGACCTGAAACCAGCACAGCTCTGGGTCTCAC
CCAAGGCCTGCTGTAACCACCTCCTGGCTACTGCCTATGTTTGCTCAACGCCCTTGGGCTTTACAATCAGCAGGTGATACAGCCAGCCAGACCTGCATCC
CTCCCTTCAGAATGGCAAGGTCCCCCAGGCCCTGGGTGGGTCCAGAAGTGCCATCTAGGAGTCAGGGACTAGAGTCAAAAACCTTAGCATTCCACCTGGT
ATTTTATTGTATTGCAGCTGAGCTGGCACTCAAACCACAAGATGCAGTCCTTCCCATTCTTCCCTCTTATTTGCAAAGACAGAGGAGCCTCACCTTGTAG
CCACTGCCACCCCTGGCCATGGACAGTACTGCCAGACTTCTGCTGGTGTTCCCTTAAGGCCCAAGGTCTTAAGTCAACTTGTGGTGAATGCTGCCTGGCC
TGAGACTTGCCCTTCAAGGCAGTGGGCTCCCCTCTATCCCAGGGGAGCTCCAGAAATGCTGTCCGAGTCAAGTCCTGGAATCAGGGACCCCAAAAGCCCT
CTTGATGCTCTATCCCCCTGCAGCAGTGTTGGTACCTAAGTTATAAGGCAAAGTCCCCTTTACCTTTCCTTGTGCTTTCCTCAAGCAGAATGAGTTTTGC
TCCATAGCCATCACAGCTGAGAATGTGCTGAATCTCACCTAGAGCCAGTAAGTCTCAGAGGCTCACCAAGGCCCTTGACGTAGTACGAGGTTTCACTGCT
GGTATTCAGGTTCCAAGGTCTCTTCAGTTAGCAGGCGATGAACGCTGGCAGGACTGGGCCCTTTCTTTTAAGGCAGCAGGTTCCCTTCTAGCCCAGGGTG
TGTTCAGAAATGTCATCTGGAAGCTAGGGCCTGGCACAGGGGCCTCATGATTCTGACCAGTGCCCTATCCTGCTGTGGCTGAGCTGGTCTCCTAAATGCA
AGACAAAGTCCTCCCCACTTTTCCCTCTCCTCTCCTCAAGTAGAAGGAAAGGGTCTCTTTTGGAGCCGCAAGCTGTGCATCCTGGGATTAGGGGAGGAGT
GATGTCGGTACTCCCTTGGCTGCTTCAGCTAGTGTTTCAGTATGTCATACTCCCCTTTACCCAGTTCACTGTCTCTGGGCCTAGTACAGCCCTAGAACTC
ACCTAAGAGTTGCAATCTTTATGGACTAGACTGCCTTTCAAGTTTACTTGAGGCCAAGACCATTTTGGCCCTCGGTGGTGAGGTCTGTGGGCATTCAAGT
TCAGACCTCTGAGATCAGCAATTTCCCTCAGCCTAGGGCTGGTTTAAATGCTCCCTCAATGCTGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTAG
GGAGGCTGAGGTGGGTGGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCAATCTGTACTGAAAATACAAAAATTAGCCAG
GTGTGGTGGTGCATGCCGGTAATCCCAGCTACTCAGGAAGCAGAGATTCGCTTGAACCTCGGAGGCAGAGGCTGCAGTGAGCCAAGATCATACCACTGCA
CTCCAGCCTAGATGACAGAGTGAGACTCCATCTCAAAAAATAAGAATAAATAAATAAATAAATAAATAAACGCTCTCTCAGTGGGTGGGTGTCAGCTGAG
TTTGGTCTGGGTTTCCTTTCTGCTCTAACAGAATAGCACTGATTTCAGTGCCTCCCAATTGTCTCCCACCAGGGCTCAGGGATTCTCTTTATGCCACACC
GCCACTGTGGGTTCAGGGGGTTGGGTGACATAGGAGATGCAGAACTTTTTTTTTTCTATTTCTTCAGTGTCTCTGAGTTATATAAAATGAAAACCAGGTA
CTATGAGTGCTCACCTGAGTTTTGGTTCTTATGAAGGTGGTTTTTCCTGTGTAGATAGTTGCTAACTTGGTGTCTTCTCTGTCCAGATTCTTTTCCAGTA
TTGACAATCCTTTACATAGAAAACTGTGTGTAATGAGTTCTAAAGGTTCTTATGACCCCTGATTGAGAAGCTGAATTAGAGATATTGGGTTTGGGAGCAG
GTAGACCACTTTGACACCTTTAGGGTTCTGGGTGGCTAGGGACATTGTCCAATATCAAAAGAACTTTAAAAAACAATCCCTTACTGGCAATGCATTTTCT
GCCTTCAGGGACAAAGCATCGATGAAAGCAATCCAGAAAAATTGTTCTTGTTGACTAGGCTTCTTGAGAGACTTATTCACTATCAAGAGAACAGCATGGG
AAAGACCTGCCCCCATGATTCAATTTTCCCACCAGGATCCTCCCACAACAGTGGGAATTGTGGGAGTTACAATTCAAGATGAGATTTAGGTGGGGACACA
GCCAAACCATATGATTCCACCCTGGTCCCTCCCAAATCTCATGTCCTCACATTTCAAAACCAATCATGCCCTCCCAACAGTCCCGCAAAGTCTCAGCATT
AACTCAAAAGTCCACAGTTCAACGTCTCATCTGAGACAAGGCAAGTCCCTTCCACCTATGGGCCTGTAAAATCAAAAGCAAGTTAGTTACTTCCTAGACA
CAATGAGGGTACAGGTATTGGGTAAATACACCATTCCAACTGGGAAAAATTGGCCAATAAGGGGGCTACAGGCCCCATGCATGTCAGAAATCCGGCAGGG
CAGTCAAATCTTAAAGCTCCAAAATGATCTCCTTTGACTCCATGTCTCACATCCAGGTCTTGCTGATGTAAGAGGTGAGTTCCCATGGTCTTAGGCAGCT
CCACCCCTGTGGCTTTGCAGGGTACAGCCTCCCTTCCAGCTGCTTTCACAGAGTGGCATTGAGTGTCTGTGGCTTTTCCAGGTGCACAGTGCAAACTATT
GGTGGACCTACCATTCTGAGGTGGAGGGATGGTGGCCCTCTTCTCACAGTTCCACTAGGCAGTCCCCCAGTTGTTGCTCTGTTTGGGGGCTTCAACCCCA
AATTTCCCTTCTGCACTGTTCTAGCAGAGGTTCTCTGTGAGGGTCCTGCCCCTGCAGCAAACTTCTTTCTGGACATCCAGGCATATCCATACAGCCTCTG
AAATCTAGGCAGAGGTTCCCAAACCTCAATTCTTGACTTCTGTGCACCCACAGTCTCAACCCCACATGGAAGCTGCCAAGGCTCGGCACTTGCACCTTCT
GAAGCCATGGTGTGAGCTGTACTTTGGCTCCTTTTGGACACAGCTGGAGCAGTTGGGATGCAAGACACCAAGTCCCTAGGCTGCACACAGCAGGGGGCCC
TGGGCCTGTCACACAAAACCATTGTTTCCTCCTAGGCCTCCAGGCCTGTGATGGGAGGGACTGCTGTGAAGACCTCTGACATGCCCTGGAGACATTTTCC
CCATGGTTTTGGGGATTAACATTCGGCTCCTCATTACTTATGGAAATTTCTGCAGCCGGCTTAAATTTCTCCTCAGAAAATGGGATTTTCTTTTCTATCA
CATTTTCAGGCTGCAAATTTTCCAAACCTTTATGCTCTGTTTCCCTTTTAAAACTGAATGCCTTTAACAGCACCCAAATCACCTCTTGAATGCTTTGCTT
TTTAAAAATTTCTCACACCAGTTACCCTAAATCATCTTTCTAAGGTTCAAAGTTCCACAAATCACTAGGTCAGGGGCAAAATGCTGCCAGTCTCTTTGCT
AAAACATAACAAGAGTCACCTTTCCTCCAGTTCCCAACGAGTTCCTCATCTCCATTTGAAACCACCTCAGTCTGGACTTTATTGTCCATATTGCTATCAG
CATTTTGGGCAAAGCTATTCAACAAATCTCTAGGGAGTTCCAAACTTTCCTACATTTTCCTGTCTTCTTCTGAGCCCTCCAAACTTTGCCAACCTCTGCC
TGTTACCCAGTTCTAAAGTCCCTTCCACGTTTTCAGGTATCTTTTCAGTAGCAATCCACTCTACTGGTACCAATTGACTGTATTAGTCTGTTTTCATGCT
GCTGATAAAGACATGCCTGAGACTAAGGAATTTACAAAAGACAGAGGTTTAATTGACTTAGAGTTCCACATGGCTGGGGAGGCCTCACAATCATGGCAAA
AGTCAAGAAGGAGAAAGTCACATCCTCCATGGATGGCAGCAGGCAAAGAAAGAGAGCTTGTGCAGGAAAACTTCCATTTTTAAAACCACCAGATCTCGTG
AGACTTACTTACTACTATGAGAACATCACGGGAAACACCCAGCCCCATGATTCAATTATCTCCCTCCAGGTTCCTTCCATGACACGTGGAAATTGTGGGA
GTTCCAATTCAAGATGAGCTTTGGGTGGGGACACAGCCAAACCATATCATTATTGAATTTGATTTGCTGAAATATTGTTTTACATTTTCGTATCTAAGGT
CATGAGGATCTGTAGTTTTTGTATCTTGTCACATCTTTATCTGGTTTTGGTATTGTGGTAATGTTGGTCTCACAGAATGAATTAGGGCATTTCACATCCT
TCTGTTTTCCGGACTAGATTGTGAGAAATTGGTATTATTTCTTCCTTCAGTGTTTGGTAGAATTTATCAGTGAAGTCATCAGAACTTTACCGTTTTGTTT
GTGGGAACATTTGAAGTCAAAATTCAATTTGAATTTAAAAGGTACAGATTATGTCATTTGTGTTATTAATTTCTTCTTGTGTAAAGTCTGACAGCTTGTG
TCTTTTAAGAAATTTGTCCATTCCATCTAAGTTGTAGATTTTATTGGCATGAACTTGTTCATGTTTCTTATTGTTTTAATACCTGTAGAATTTATGGTGA
TACTACTGCTCTCATTCCTGATATTGGTAATTTATATCTTCTGTCTTTTTTCCTAATCAGTCTGGGTAGAGATTTATCAAGTTAATTGATTTGCCCCAAA
AGCTAGCTTTGGTGTCATTGGTTTTCTCCATTGTTTTTCTATTTCCTATTTCATTGATTTCTACACTGAAGTTAGCCTCCAGGGAAGGTAGATCACTCAC
TGCCCATGGATGGGAGCCACTGGTTCACCATGTGGTCGGTGGTGGAGAAACTCATTCTCAGGGGGCATGAGGTGGTTGTAGTCAGGCCAGAGGTGAGTTG
GCAACTGGGAAGATCACTGAATTGCACAGTGAAGACTTCTTCAACCTTATACACCCTGGAGGATCTGGAMCAGGAGTTCATGGCTTTTGCCAATGCTCAA
TGGGAAGCAGAAGTACGACGCTTATTTTCTCTATTAATGAGTTCATCCAAATGTTTAGAATTTAATTTTTCACATTGCAGGAGTTTGTTTAATGACTGAA
AATTAGTAGAATACTTAAARGAGAGTTCTTTTGATGCGGTGTTTCTGGATCCTTTAGATATGTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCTCTC
GGTGGTCTTCGCCAGAGGAATACTTTGACATTACCTTGAAGAAGGTGCACAGTGCCCTGCTTCTCTTTCCTACAGTCCTAGATATGTCTCAGGGTTTTCG
GATGCTGTGACTTTTTATTATTATTATTATTTTTATTTATTTATTTATTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGAT
CTCGGCTCACTGCAAACTGCACCTCCCGGGTTCACGCCATTCCTCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCTGCCACCACGCCTGGCTA
ATTTTTTTTTGTATTTTTAGTGGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTAACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAG
TGCTGGAATTACAGGGGTGAGCCACCACACCCAGCCTGGAYGCCATGACTTTTAAGGAGAGAGTAAGGAACCACATCTTCTACTTAGAGGAGCATTTATT
TTGCCCATATTTTTTCAAAAATGCCTTAAACATAGCCTCTGAAATTCTCCAAACACCTGTCATGGCATATGATCTCTACAGCCACACATCAATTTGGTTG
CTGCGAATGGACTTTGTTTTGGAGTATCCCAAACCTGTGATGCCCAATATGATCTTCATTGGTGGTATCAACTGCAATCAGGGAAAGCCAGTGCCTATGG
TAAGTCATTGCTCCTTTAGCACATTAAAAGTATTCTGGATTTGAATATTTAAAAAGATTCCTTACGGAACTGGGATTTGACATTTGTGTTTGTTGCATCT
AAAATTTCTTTTCTGTGTAAAAAATTATTTTGTGCCATCCACGTGTTTGTTGGTTAGCAACTTTTATATAATGGCCTCGTTAATATGTATGTGTATACGA
TTGGTTAATTGCTCATAATTTCCACTGCATTTTTAAAATTTTGAAACAGAGTATTGCTATGGTGCCCTGGCTAGACTCAAACTCCTGGGCTCAAGTGATC
CTCCTATCTAAGCCTTCCAAGCAATTATGACTTTTTTAGTATTTTTGGAAAAGTATTTAAAAGCACAATAAGAAATGAAAATTTCATTTTTAACTAACCT
GTACTACCTGCTGCAGTAAAATGTTCTTTGCAGTTTTGTATGCATGTGTTTCCATCTGTTGAAATTATATATAAGCATATATGTAAATATTTATACTTAT
TTTATGAAAATCAAATCAACTATCAGGCTGGACATGTTGTTCTTTACTATGCGTTTTTACTTGCCAGTAAACCAGAGACATCTTCACAGATTTGACATGT
TCTTTTAATAATTGCATAAAAGTCTTTACTTTGGATGCAACATAGACACAAGCTTTCCCAGGTGTTTTTCTGCTAAAGATTTGGCTAACTTCTTCAAAAC
AACAATGATAAGCAGATGTTATCTTTCTTTGACCCTGAAGAAAGTATAAAGCAGAATGCCCTTAGCCACCCAAAAAACTGTTACCATGATGTTTGGTCTT
GTCCAGTCTGCTTTTGATTTGACTGGATCACTTTCATCTCTTGGTAGCCATTGCTTTGCTTGTGCTTTGTCTTCATTATCATACTGGTAAATCTATGTTT
CATCTTCTGTTACAATCTTTGAAGAGATACTTCAAGGTTTTTTGTTTGTTTGTTTGTTTTGAGACAGAGTTTCACTCTTGTTGTCGAGGCTGGGGTGCAA
TGGTGCGATCTTGGCTCACCACAACCTCTGCCTCCTGGGTTCAAGCGATTCACCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCACATGCCACCAC
ACCCAGCTAATTTTGTAATTTTAGTAGAAGCAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTC
CCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTACCTGGCCAAGGTCTGGATCCCACTTGTTTATAATTTCCATTGAAGGGTTTGTTCTTGTCTGCAGC
TGATCTGGCTGCAATGATTTTGGCACCCAACAAGTAGAAAATTTGTTCAACTGAAATTTTTGTCAGAATTGTGTAAACTGTCCTGACTGAGATATCTATT
GTGTTGGCTATTGTTTCTGCTGTTAATTGTCAGTCTTCTTCAGTTAGAGCATGAGCAAGATGAATTGTTTCCTTGCAAATTGGTATGGATGGTCTGCTGG
TGTAGGCTTTATTTGCAACCTTGTCCTGTCCCTTCTTAAAAGGAATTACTCATTTGTAAACTGCAAATTTCTTTTGACCATTTTTCCCATTAACTTTTTT
TTAAAGCATCAGTGATTTCACCATTCTTCCACTCATATCTCAGCATAAATTTTATGCTATTGCTTCAATTGCTGCAGAATTCATGTTGTTTTGATGGGGG
CTTTTTTCCAACTGATGTCCTATCCTTCTTAGTGCCTCAAACTAGATCCTATTCAGACATGTTTTAACAAGTTAGTAAAAGTTTGTTTGGCACAAAGAAA
TTTGAAATCCATGCTTAAGTTTTTCATAATATGAATTTTCATGAATTGTTTGATGATCCCTCATCTATTACTTTTTTAGCAATGGACCATGCAATTTTGG
CTATGTTCTGGCTTCTTACAAGGTTCAGTAGACTTTGTAACACAGTTGTATGTCTCACACATCGGCAGCTGTTTGGTAAAGGATTGACTTTTAGCCAACT
CATGGGAAAATGAAATAATGTAAAAAACAGGAAGACTACAGTTTTAGACCTTTCAAGTGAGGCATGGCTTTCAGCTCTTGGCAAGAACAGGCGAGGAGAT
GCAAGCCTCTACAAGGCTAGACTTTTCAAAGTGCTTCTCTCCCCTTTACCCTCCTTCAGTTACAGCACCAAGCACCACCCAGGTATTACCTGCAGCCTCA
CCCTCTACCCAGTTGTGGGATCCTGCCACTTCCTGAACCCACACTGAGTTCCTTGTGGCTCACAGGGTCACCCAGAGGGCTTCCGAGATACGGAAAGCTA
TGTGTGATTTTATATCACCTATCATGTTAAGATATGTATAAAATAGGAAACATATTGGCCATATATCATTTTATATATTTTTGGTTTTACATGTCTAAAA
AATACATGTTTTTTTGTATGTATTAAAGGATAGGTATGTATAAGAGGTTTTATAGAAGTGGAAAGTTATATTTTTTGCATATCTTTATGAATTATAATAA
AGGAAGGAAAATTCTCAAAGAGGAATTCAGATATCAAAGAGTGCCCTTTGACAAAGAGCCTTGGTTACAACATACCTACAAAAGTGAACTGTCATTGAAA
GACCTATGGACACTGGATTTCTCTTTCCTTATTTAGAAGGGCAGGCTGTGTCTTGGAAAAGCATACAGTTTGTTGTATCTTGCTGGACAACAGGAGTCAT
AGTCTGAAGTGTCTGATGAGAAGGAAGCATCACTTGATGGAGTGTGCATCTGTGCCTGTGTGTGTCCACGCGTGTTTGTGTGTGTGCATGCACACATGTG
TCAGCATGCAGTGTCTCAGATCCTACATAGGGGTTTTTCCTGAAGGTCTCCAGTAGCAAAAACTCATTGAGTCTATCCAGGGGAATTACATCCAATGCTG
TAATTAAATACTTTAACAAAGATAGCAGATCATCATTCAAGAGAACATCAAGATAGTTTTAATTAAGAAAAAAAAAAGGAATCACTGCCAGGCTTTTTTA
GTTTTTGGTGAGTTCCAGCAGAATTGATGACTAGGTCCAGTAGGAAGGAATTCAGGATTACTCTTTACCATCCAGGGTGAGTGTAGCTCTGGAGAACTGG
GGATGGGAGGTGACTGCACAGCAAGAAAAGATCTGGGCTTCCCCCATTGCTCTAAGATCTGGTTCCATTGTGAGATTCAAATTAAGAGTAAGCTGTTAAT
GGGCAAGTCCAAGGCCTCTCACCAGGATTATTTATTTCAACTTTTTTTTGTCAAAGTTTTCAAATGTATAGCAAGGAGAGACTACAGTGTAATGAGCACC
CATATATCCATCTTTGTGTTACATAATTTTCAATATTTTATTATACTGATTCATGTATCTGCTCTTTTGTTCTTTTTTTAAAAATAAATTTTGGCTATAA
TTTTTTAATGGAAATGCTGGAGATATCATTCTATCCCCAAATACTTCACTAAATGTAAGAAATAAGGAAAAAAGGAAAATTTGTTACATAGCCACAATAT
CATTATCATTCCTCACAAAATCAATAACTCTTTAATATTGTCTCACTCATAATGCATAATGAAATTTCCCCTAATTGTCTCAAAAATGTCTTGTACATGC
AGATCAGTAGAACGGAGTTGAGAATCCAGATATAAACCCATACATCCTTGGCCAATTGATTTTTACTGTGGTGCCAAGACTGTTCAAATGGGAAAGAATA
ATCTCTTCAACAGAGGTCGCTGAGACAGCTGCATATCCACATGCAAAAGAATGAAGATGCACCCTTATATGCAAAAACTAACTTGAAATGGATCAAATAG
CTAAATAGAAAAGCTAGAAGTGTAAAAGTTTAGAAGGAAACATTTGGGGAAGTATTTATGACCCAGATTTGGAAATGGTTTCTGTGATGTGACACACACA
TTGTTGTGTATGAGAAACAACAACAACAAAAAACACAGACATCAAAATAAAACACTTTTGTGTGTCAAGGACACTATCGAGAGAGTGAAAAGTGAACCCA
CATGGCCTCTCTAAGATGTGCAAGTAAACATGTACGTGCCTGACATGGAGGCTCCTGGGAGGCAACCACAGTCCCAAAAGACCTGAAATTTCAAAATCCT
GAATGTTAAGAGCCTGAGAGATCAACGTCCTACAAATGTAATTCCAGAAAAAATAACTTTAAAAATTATTTATTTGAAAGATAATCTGTTTACGTTTTAA
AAGGGGATTTATTTGAAAAACATATAAAAACACGACAGACCACTTCATAGGCCACTTTACACCATAAAATAGGTAATAACAACATACAGGTATCTTTGCA
AGCGTAAACCCTCAGGTGTACTAATGACCTTCATATAGGTGTATCAATTGTGAGAAGATGAATCATATTCTTAAAGTAATAGGTTAAAAAAGGAAAAGTA
TCAATATTTATTACTGTGGTTGGTAATCTTGTGCACTCAGGTTTGCAGCTTTGATCATCTGAAATACCATGAAAAATGACCTGAGACTTATCATGAGGTC
AGTCAGAAACCTCTATGGGTCACCACCGCATACACAGTTGCTTAAAGTGCCCAAGTCTTGAGAAATTTTGTTTTGTTTTGTTTTTTTGAGACAGAGTCTC
GCTGTGTTGCCTATGCTGGAGTGCAGTGGTGCGATCTCAGCTTACTGCAACATCTGCTGCCCGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGGGTAG
CTGGAATTACAGATGCCCACCACCACAGTCAGCAAATTTTTGTATTTTTAGTAGACATGGGGTTTTGCCATGTTGGCCAGGTTGGTCTTGAACTCCTGAC
TTCAGATGATCTGCCCTCCTCAGCCTCCCAAAGTCCTGGGATTACAGGCATGGGCCACCACGCCCGGCCAAGAAATGTTATCTTTCACAGATGCAGATGT
ACAAAAGGGACATCTCTTCATTATTGAGGACATTTCAACATTTGTACGTACATGCCTAATGCTTACACACTTACTCTTGTGCTAATGCACTTCCATGGAG
TCAAATTTGTGAGCATAAAATGAATTAGAATTCTCCATAAGTCTATACACAGTCTCTGCCTTCAGTATTGGAAATGATATGAAGATGAAATACATAGCAT
AGCAAATTGTAAAAATAATGCTGACAATTTAACCTTGTGAAAAAACCTAAAAAGAAGAAAAAGTAAAAGAAAAAAAGGAAAAAAACCTCCAAATTAACCT
ATTCTGTGATTGTGATTTTTGGGATTTTAGCTGTTAGAGAGTTTAGATTTCAGGGAGTTAGACCTTAGGGATTTGGATCCTTAGGGAATCAATATTTCAG
AATTCAACCTTCAGGATTATGTGTTTTGGGGTTATGTCTTTCAGGATTGTGATCCAAACCCTATAGCATCTTGTTTCTTAGCATAACCTGTACTAATCGT
AGATATATCTCTGTACTCCAGCAGAGCATCATAAAATTAAGTAGTTTACAGCAGAGAGTCTCAACCTATCAGTGATTAAGGAATAGAAAAAAACGTTTTC
TGCAGTTGATTATATATTCATAATTGTTTGTAATATATAACAAAAATGAAAAGCTAGAAAGTGAAATGAAATAAACCACAGCCCTATAAAATGCAAAACT
ACTGATGATTGCTTGGCGACATAGCAACACCAATTGCTACAGGAATTTCTAAGCATTTCCTGCAGGGTCTGCACCCATGCTGAGGTGGTTAGGTAACACA
ACGAGCTGCAAACCACATCTTGAACAGACTGTTTTAGACCCAGTCCAGTGGCTCTATGTGAGTAGTGTTTAATCAGAAATAAGGCCCAGCACAGTGGCTC
ACGCCTGTAATCCCTGCACTTAGGGAAACTGAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGATCAGTCTGGCCAACATGGCAAAACCCCGTCTCTA
CTAAAAATACAAAAATTAGCACAGTGTATGGCGGGCATCTGTAATCATAGCTACTCGAGTCTGAGGCAGAAGAATCACTTGAACCTGGAAGATGGAGGTT


SNP Information

Context             (SEQ ID NO:62424):
AGGTGGTTGTAGTCAGGCCAGAGGTGAGTTGGCAACTGGGAAGATCACTGAATTGCACAGTGAAGACTTCTTCAACCTTATACACCCTGGAGGATCTGGA
M
CAGGAGTTCATGGCTTTTGCCAATGCTCAATGGGAAGCAGAAGTACGACGCTTATTTTCTCTATTAATGAGTTCATCCAAATGTTTAGAATTTAATTTTT
Celera SNP ID:            hCV11742091
SNP Position Genomic:     6170
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,34)   caucasian(A,4|C,34)   total(A,6|C,68)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(A,4|C,36)   total(A,6|C,72)   
SNP Type:                 UTR 5

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:62425):
GCTTATTTTCTCTATTAATGAGTTCATCCAAATGTTTAGAATTTAATTTTTCACATTGCAGGAGTTTGTTTAATGACTGAAAATTAGTAGAATACTTAAA
R
GAGAGTTCTTTTGATGCGGTGTTTCTGGATCCTTTAGATATGTGTGGCTTAATTGTTGCCAAATATTTCTCCCTCCTCTCGGTGGTCTTCGCCAGAGGAA
Celera SNP ID:            hCV25987165
SNP Position Genomic:     6320
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 UTR 5


Context             (SEQ ID NO:62426):
GTTAGCCAGGATGGTCTCGATCTCCTAACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGAATTACAGGGGTGAGCCACCACACCCAGCCTGGA
Y
GCCATGACTTTTAAGGAGAGAGTAAGGAACCACATCTTCTACTTAGAGGAGCATTTATTTTGCCCATATTTTTTCAAAAATGCCTTAAACATAGCCTCTG
Celera SNP ID:            hCV27155345
SNP Position Genomic:     6841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Gene Number:                 362
Celera Gene:                 hCG2040391 - 209000073575913
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY4T(1833385..1847200)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12522):
CAATCACAGATGACCTATGTGGCTGATCTTAGGTCCACACCCTCCCAGAAGTCAGGTTTTAACTTTAGCCTCTAGTTCTGGAAGTTTCTGGCCTATCATA
GATCACAGATCTATCATAGTTCGTATTTTTAGGCTGTCCAGTGGCCAAAGGACCCAAGCAAACAAAGACACTACCATTAGCAAGATATTCCAGAAGCCCA
GAGCTCACCCTCCATTAGCTTGAACACAAAGGCCAAAACTCCCTTTGTTCAATTATTTACTATACAATAAGGACTTGGCATTTTCTACAAGGTGAAAGTC
TAAAGGAAATCTGTAAACTCCAATCCAAGTCCTGTTCAGACAATATCACTTTCAACTCCCTGTCTCCAAATCTATATTCAAACACCAGTTCAGCTATCTG
TTCATTGAGAACCATTTGAAAGTCCTGGAATCCTGCCATATTCCCAGGATGTCTAGGTTTTATTCCAAGTTAAATCCAGACTGCCACAAGGCTGAAATTA
ACTTGTGTTGGTCCCTGTGTTTACTGTTTGCTTAGTCTATTCCGTAACAGTATATAAGGAGTCCTTCAAGAAACAGCCACAGGAAACCTGCATCTGAATT
TATGAGAAGGCTGCTATTCTGGACACCATCCACCACATCAACTCTAGGAAGAACCACTGAAGAAATTTCCTGAGACCAAAGTGCCATGAAATAATGGCAA
CCCCCAGGAAGTAATCTGTTTTATCTTCAAAAACAGGACATACCATGTAAATTATGATTTTCTTGTGACATTGGCTGTCAGAGATATTAGATGCAAGCTG
ACAGCTAATATAATCCACAGGATCCTCCAGCCATGCATGGTGTCACAAAATTCATAATTTAGTGTTAATGCTATGAACATTATATTCCTTATCCTACTAT
TTTGCATGATATTGAGTTTAAAAACTAAGCTTACTTCTCTCCAGATCCTGCTTTTTGAAATTTATACTTTTTATATTAGTGAAATTGATGTTTATAGGCT
TCTACAAATCTATTATGGAACAAAGGAAAGAATAAAACAAACCAAAAGTCAGTTACCTGGGCCTGGATCATTTTCTTCTGTTCTTGGAAGACAGCATTCA
ACTGGGATGGTCTGTCTTTGTATCTTCTGGCCTTCTCTTCAGAAGTCTCAGTTTTCAATCAAGTGTGCCCCAAGAAATGGTGAACCCCAAATCCACTTCC
TCCCTCTTCAGGTTATGTTTTTTGCTCCTGAGGAGTCAGAACCTGTGGGTTGAAGAGCAAATTCAATGTAAGTGGTACATTTTTTCCAGGCCCAGATACT
GTCACTGCTGCTAGGCACTCATCTTAAAGCAATGCCCCCAATATAGTTAACTATATACCTTTGTTTGGAGCCCCAGCGGATTTTATACCTGTGGCCAATA
ATGTCTAGGATTCTTAATGTGGTGGAGGTATGCCTTTCCTCTGTGACGTTTCCGTGGAAGGACTGTGAAGGCAGGTAGGAAATGAGACCCACCATAGCAC
CAGCCTCAGGAGATGGTGAACTCTTAGGCAGATTAGTTTTAGAAAAGAGACAATCAGCAAGGAGAGGACCTGGTCTTTGTTTTCCTTTAAATCATGTGTG
CTCCCACACCTCTTCAAAAGTCTTTGTACATACACCCTGTGAAGACATGTACTTCAGTTTGAAAGCCAATGTACTGGGCAAATCATAAGCATTGTCATAA
AAACAGTACTGACAATATTTTAGGAGGTTTTAAATACATAAAAAGCTAAAATACACAATAATTTACTGGATAATTAGGTGGTGAATAAAGTTGACGTGCT
CTAAGGTTTCTGTAGAATGGAAAAGTGCCAATTAGCAGAAGAATATGACAAAGGTTGCACACTACATGTAATCTCTAGTTACAATTAACACTAGTAAGTC
CAGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGATGCCGAGGCGGGCGGATCACCTGACATCAGGAGTCCGAGACCGGCCTAGCCAACATGGT
GAAACCCCATCTCTATAAAAATACAGTTATTCCAGAAGCTGAGGCAGAAGAATTGCTTGAATCCGGGAGATGGAGGTTGCAGTGAGACAAGCCTGTGCCA
TTGTACTCCAGTCTGGTCAAAAAGAGCGAAACCTCGTCTTAAAAAAAAAAAAAAAAAAAAAAACTAGTAATTGTTTTAAAGTACGTAAGTTCCATGCCAA
CAAAAGGGGGAAATGTAATAACAAGAAATTCATCCAAAAGAAGAGAATCAAAAACAGAGCAAAAAGAGCAAATACAATGCATTTAGATAGCTGTTTTAAA
ATAAAATGTACTAAGAAAATTACATTACATTAAGTATTTTATGCTAAGTAAAAACAGAGCATGGATCCCAGTTAATTACATTAAATATAAATGCCTCAAA
ACTGTCAGAATGGATTAAAAATTAAAATCCAATAACATCTGGGGTTTATTTTATTTTATTTTAATTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTG
GAGTGCAATGGTGTGATCTCGGCCTCCCGGGTTCAAGCAATTCTCTGCCTTAGCCTCCCGAGTAGCTGAGTTTACAGGCACCTGCTGCAGGGAGCCGAAG
GCTCGTGGCCCGTGGGACGTGACCAACTCAGCATTCCACTGGAGGCTACAGATCAAACAGCAAACTGTTTATCATGAATGCAGGATGTCAGCAAACTCAT
GACTGCTCCGGCTGATGAAGGTTTGCTGGAGGCAATCACTCCCTGGCGCCGTTATCTACTGCGACATCTAGAGAATGCAGTCTTGCAAGACTACTCTGGA
CCCCTGGCGCCGTTATCTACTGCGACATCTAGAGAATGCAGTCTTGCAAGACTACTCTGGACCCCTGGCGCCGTTATCTACTGCGACATCTAGAGAATGC
AGTCTTGCAAGACTACTCTGGACCGAGCAGCTGACCCCTTCTTCCACCTCCCCTTCTCACTGTCTCTTTTGCCTAATAAATATGAAGGGCTGTGTAAAGC
TCAGGGCCCTTGTCCCCTAGAGGCAAAGCGCCCCCGATCCCTTCTTCCAAATACACTCTTTTGTCTCATCTTTATTCCCGTGTTCACCCCACTTTGTTTA
GTCCACCTAGGTCCGTGCAGGTTACAAATGGCAACCAGAACAGGGACTCCAAGCACGCCCAACTAGCAGCATCCAAACATGGGACTTCAAGGACGTGAAT
GAAGAAGGTCTGCTGGAGCAGAGGAACTGAAATTGACAAGGCGAAAGGGGACCCTGGGAAGAGTCTGCCGGCAGCAGATATAAGGTCAGTGCCCTAAAGA
GGTACTGGGAGCAGTGCTTTAAAGAAGTACTGGGAAGTTTTCTGACTCAGGGTAACAAGGGAAAGAATTTGTCTATTGAAGAAAAACATTATGTGCAGTT
GCTTAAAGTTCTGTTGAGACAGTCTGCAGCTCAGGTTAATTCGCAGACACTAACCTCCTGCAGAAGCCACAAAAGGTTATTACACATAACCCATCGTTTC
CACAGGCAGGCACTCTTGATGTGGAAAATTGGGATACAGCAGGAGAAGGATTAAAACAGGCTCATCAAAAAGGTCTTAAAGTCGATTCTTCTGTTTTCTC
CACTTGGAGTTTAGTTCGTACTGTACTTCTGCCATTATCTCATTATTATTCTGCAGGACAGCAAGCTGAATCTAAAAATCTGAAAGAATTTGTTGACCCA
CCCACAGCTCCAATTAAAAATAAAAAACAGGAGAGGGAGGATAAAAATTGGCCTATACTGCCTCCTTCAGTTGCAGAAACATCTGTACTGCCTCCTTCGG
TGGCAGAAATAGAAACCCTAATACAAAGAATTTAATGCTCTGCTGCCATAGCTGGAGAGCCCTTAGGACATTGTGCTTTTCCTATTTCCATCAGGCCTGA
TCCAAAAAATCCACAGCAGGTTATTCATGAACACACCCCACTAGAGTTTAAGTTGTTGAAGGAATTAAAAGCAAGAGTGGTAAATGATGGCATACAGAGC
CCATTCACCTTAGGATTGCTAGAATCTGTGTTTGGTGCTATGCGTTTTTTACCCTTTGATGTGAGACACTTGGCGCGAACTTGCTTGTCTGCTAGTGCAT
ATCTGACATGGAATTTAAATTGGCAAGAAATGTGTGCAGACCAGGCTAAACAGAACCATGCTGCTGGACACGGAGACATTACAGAGGATATGCTGTTAGG
TCATGGCCCTTATTCAGATGTAGAACGTCAAATGGCACTCCCAGATGCTGCTTATCAGCAGTGTACACAGGCCGCTAAATGCGCCTGGGCCACAATCCTG
AAGAGGGAGTCCCTGTACAATCCTTTTTACATATCATGCAAGGGTTGCAGGAACCCTATGCACAATTTCTTGCAAGATTACATGAGGCACTGAAGCGTCA
GATTCCTCATACTGTGGCTGCAGAAATGCTAACCTTAACTTTAGCTTTTGAGAATGCAAACGTGTACTGTAAACGTGCACTGGCACCAGTGAGGTGTACA
AAAAACTTGGGAAATTTTCTCAGAGCTTGTCAGGATGTAGGAACTGAGATTCATCGATCTGCAAAGTTAGCATAAGCAATGGCTAATTTAGCAGTTGACA
AATCTAAAAGGAGCCAAGGGTCAAACCCTAAAGTGGGAAAATGTTGTAATTGTGGAAAAACTGGACATCTAAAAAAGGAATGCCGCCAGATCTCAGGACA
GAAAGGATATTACAATGCAGTTCACTCCCTAGCAGAAAAAACAGCAGGACTCTGTACTCGCCATAACAAAGGAAATCACTGGGCTACCCAGTGCTGCTCA
AAATTTCATCAGAATGGCACCCCATTGGTAAATGAGATGGGGGCCTGCACCCGGGCCCCTCAAACAATGAGGGCATTCCCAATGCAGACCACAACCCCAC
TTCAGGGATGGGTTCCTGGAGGCACATTGATTCCCTCAACCCAGGAACACCAGGAAGTGCAGGATTAGATCTACCCACCAGAGAAAGAATCACATTAGTT
AGGGGAGACAAACCTATTTGGGTATTTGGGGACCTTTACCGACAGGATACACAGGACTAATTTTAGGTAAAAGCTGCCTTAACTTGCAAGGCATCACTGT
AGTCCTAGGAATGACTGACTCCGATTATGAAGGAGAAATTCAAGTAGTTTTAATGTCACAAAATCTTTGGGTTTTTGAACTGGGAGAATATATTGCTCAA
TTATTGCTTATTCCCTGTGAATTACACCCTTCCCCATGAAAAGAGAAATGAGGAAATAAAGGGTTTGGGAGCACAACTACATGGGAAATCTATCTTTCCC
AACCCATAGCCTCTAATAGACCTACCTGTGTAGTACACATTAAAGGAAAGAAATTTTATGGGCTTATGGACATGGGAGCTGATGTGTCAGTCATATCTAT
AGGATGGGCACATCAAACATTACAACGCATGTTGAAAAAACAAAAAGGGGGTATAGGAGGCCAACTACCACCTCAATCAAAACTACATTTAGCCTTATTT
ACTTTAAATTTTCTGACTCCCGGTATGGATGGTAAGACTCCAGCAGAAAGACATTGGCAAGTGTTAGAGGAAAAAAGCAAAGTTTATCTGAAAGTGTTAT
GGAAATCCCCAGAAGGACAACAATGGAAAGGCCCGGTAGATTTACTGACCTGGGGAAGAGGGTATGCTTGTGTGTTTACAGGAGATGGGACAAGCCATGT
GGGTGCCCTCAAGGTGCATGCGACCATGGAATGGGAGACTGGAGGAACCCAGGGTGGCCAACCATGGGCCCAGTCCCTCCTGTACGAGCTATGAGTCAGC
TGAGCCTGAGTGCAAAGATGGAGAGAAGGCCAACCAGAGTCATGATGACATCAACCCCCATAACCTGGGGACAACTCAAGAAAACCACACAGGAAGCTGA
GAAACTACTGGAGTGTCAGGGACAGGCAAAACCCCTGATTCCATGCTCTTGGCCATGTTAGCCATAATGTCCTGTGCACTACGTTTTCCCTGTGCACAGG
CAAAAACATATTGGGCATATGTTCCCAATCCCCCAGCAGTATGGCCTATACTTTGGAGCTCACTCCTCCTGAGATTTATCACGATCAGGGAGAGTGGGCT
CCAGGACCCCTAACTCCCCGTGACATAGAAAAGTTAGACTCTCAGAACAATGTCATTAATTATACCACTCCACTGGAAGGACTCCCTTTGTTTATCACCA
CAAAGACGTCGCTCAGCCATAGCTGTCTTGCAATTCAAGCTCAAACATGGTTGAGTCACTATGGAAAAATTATGTACTTATTAGGTCTTGGTTCTATTAA
TGTAACTGGTGTGCTAACCAATCATTCCCAGTCCAGTCACCCTAATTGTGCTGATTATACAGAATGGATTCCATTCAATAGTTCCTACCCCACTCTGTGG
ACCCAGTGTCTTGATCCACTGGCTAGTAAACAATATATGTCAACTGAAGACACTGTGGATTGGGAACCTAAAGGTCAATTAGATGGAAAAGGTGAAAGTC
AGAAATCATGGCACAAACTTCACTGGCATTGGCGGCAAGCTTTTAATGCTTCTTCTTTATACAACAGCAGAATCCAATCCCAGTCTGCTGCTCAGATTGC
TTGGCATGGAGCAGGCTTTAGCCCACCTCTTCCTCAGTTGCATTATCTGGGGAGGAAAGGACCAATTCAAGAAACTATATGGAAGGCAGCACTCCCATTT
ATGAATGGCAACATCTGGATTGGAACACTGTCTAATAATAGCAATAGTAAGCAACACAGTCTTAATGTTGCATTTGTAAAGAATATCACCACTCAGTTTA
CAGTTTGTGTTTTTAATCCTTATGCCTTTTTGGCAGCTAAGAAGAACCAGCTTCAGGTAAACAATACCCAATTGACCTGTAAATCTTGCCAGTTATATCA
CACTGCATTAATCATAGCACATTACGAACACATAATATCTCTACTTTGATAATGTTGGGTTGCATCCCTGGGCTATGGATTCTTGTTAATCTGTCTGAGC
CTTGGGCTGCCACACCTGCTTTGCATTTTTGTAACACTTCTTCTAACTCASCTTACTCACTGTGTCCATAGAGCCTTAGGCATAATTTTTGCTATTGTTT
CCTTGGTCAAACTAATAACTTCTGTTGTGATATCTTCTGTAACTCTGCATAATTCTATTCAAACATCTCAGTAGGTGGAGAACTGGACACGCACAGCTGA
CCAAGCGAGGCTACTTCAGAATAAAATTAACACTGAGTTACAAACTGAAGTGGCAATGTTGAAATCCATGGTTCTGTGGTTAGGAGAACAGGTACAAAGC
TTGCAGTTGCAGCAGCAATTGCGTCATCATTTTAATCACATTCATATTTGCGTAACTAACTCAGAATATAACCAAAGTGAGTATCCGTGGGACCTTGTGA
AAGCCCATTTGCAAGGAGCTTTCACATCCAACATCACCTTTGATATTGGTGAATTACAAAACAAAATTATTGATTTAAATAGGCAAACTCAAGAATTTCA
GCCTTCTTTAGAAGAYTGGACCGAATTCCAGGAAGGCCTGGAGAGCCTCAACCCTTGGACCTATCTAAGGCACCACATTAACATCTTATATGTAGTTCTT
GGAATAATGTTGTTTTGTCTCTGTCTTCGGTTTATAGTCTGTAAAATCGGATGGACCACCAATTGGAGAATGAGAGCYKCCCAGCCCAGCCTTACATTCT
TTCAATTAATACATAAACAGAAAGGGGGATATGCAGGGAGCCAAAGGCCTGTGGGACGTGACCAACTCAGCATTCTGCTGGAGGCTATATGATCAAACAG
CAAACTGTTTATCATGAATACAGGATGTGAGCAAACTCAGGACTGCTCCTGCCAACATAAGGTTTGCTGGAGGCAATCACTCCCTGGCACCGAGGTTATC
TACTGCGACATCTAGAGAATGCAGTCTTGCAAGCCTACTCTGAACTGAGCAGCCGACCCCTTCTTCCACCCCCCCACCCTCCTATCTCTTTTGCCTAATA
AATACGGAGGGCTGTGTAAAGCTCAGGGCCCTTGTCCACTAGAGGTAAGGTGCTCCCTGACCCCTTCTCCCAAATATACTCTTTTGTCTCCTGTCTTTAT
TCCCACGTTCACCCCCATTTGTGCAGTCCCATGGGTCCATGTGGGTTACGGCCCGCCACCGCGCCTGGCTGATTTTTGTATTTTTAGTAGAGATCGGATT
TCAGCATCTTGGTCAGGCTGGCCTTCAACTCCGGATCTCATCACACACCCGCCTCAGCCTCCCCACATGCGGTTATTATAGTTGATATGTCTGAACCAAA
ATGATATGGGAAGCTTGAGAATAAAAGGTTGGAGACAATATGCCACAGAGAGAGTAACCAAAGATAATCTGTTATAACTATATCTCAGACAAAACTGACC
AGAAATCCTAAAGAATTAACAGAGAGAAAGAGAAACAATGCTCACTGAAAAGAGGTGAAATTTGGCTCTTCATTCATAGAAATACACCATATGTATACCC
CTAACAACAGTCTTGAAATGTATACAGCAAAAAATAGAACCAAAAACAAGAAATAGAAAATTCAGACTAAAGACTTTAACAGACCTTTCCTAGTAACTGA
CAGAACAGACCATCAACAAACAAAATAAAATTTATAAATGAGAAAGAAATGAATCTTTTATCTGAGGAATGTGACTCCCTTTAAATTATCAGGTCTAGAG
AGGCATTAAAATGTGACAGCAGTCTTTCTGATAGGGGTTCCCCTGAAAAAAAGAAAAAAGAAAAAATTAAAAACTAAAAAAAAAATTTAATGTGACAATA
GTCACATCTCATTTCCCCCTCAAGCTAAATAATTATCTCTTAAAGCCACTTGCTATGTAGGCTCTAGACTAACTCACACTGAGTAGCCATAAAATGCCAT
TCACTGGACATCCTAACTCATAAAACCCCATAGTTAACAATGTACAGCCAATTGTTAATTGATATTATTTCTGTAAACCAATGAGAATTCTTGCCAAACA
ACTTTATGTCAGCTCACGGTTTGTTCCCTTTTGACTTTAAAACCTGTTTCTAACAAAATCCTAACAGAGCACTTAACCAAGGCAACCTGAAAGTATTTTC
CCAGGCAGCTGTCCTCATTTTGGCTCAAGTAAACTCTTTAAAATTGTATTTTGTGCAGTTTCCTCTTTTAGGCTGACATAAACGATATCATTTAGAAGAA
CTCGAATATATTTTTAAAATTAGATTTACTGAGATAAATTTTAACAGTTTTAAATAAATGCAAAGATGTACTATAAAGATGGGCTGGAAAACAAAGCATT
TTAAAAATGTCAAGTCTCCCAAATCTACAGATTCAATGAAATCACAGTCACAATCCCAAACTGATACTGAAAAGTTTAAATAGCTATAAACTTTTTTTTA
AAGTTTGAAAAAAAAGTTAGAAGACTTGCCATATCAGTTATGAGGACTTATAAAGCTACTTTAATTAGGACAGCACAATATTAGTACAATAACAGGCAAA
TAGGACAAAGGAACAGAATAAAATCCTTATAAGCAGAATTAAGCACATATAGAGACTCAATGGCAATGATAGCACTACAGGGAAGTAGATAAAAGCTGTC
TTTTCAATAAATGGAACTAAGGGCGCCGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAAGCTGAGGAAGGTGTGGGGGAAAGAGAGATCAGACTGTTA
CTGTGTCTATATAGAAAGAGGAAGACATAAGAAACTCCATTTTAATCTGTACAAAGAAAAGTTCCTCTGTCTTGAGATACTGTTAATCTGTAACCCTAGC
CCCAACCCTGTGCTCAGAAACGTGTGCTGTGTTGGCTCAAGGTTTAATGGATTTAGGGCTGTGCAGGACGTGCTTTGTTAAAATGTGTTTGCAGGCAGTA
TGCTTGGTAAAAGTCATCACCATTCTCCAGTCTCAAGTACCCAGGGACACAATGCACTGCGGAAGGCCGCAGGGACCTCTGCCCAAGAAAGCCTGGGTAT
TGTCCAAGGTTTCCTCCCACTGATACAGCCTGAGATATGGTCTCGTGGGAAGGGAAAAACCTGACCATCTCCCAGCCCAACACTCGTAAAGGGTCTGTGC
TGAGGAGGATTAGTGAAAGAGGAAGACCTCTTTACAGTTAAAATAAGAGAAAGCCATCTGTCTCCTGCTCCTCCCTGGGAATGGAATGTCCCGGTATAAA
ACCCAATCATACATTCTATTTACTAAGATAGGAGAAAACCACCTTATAACTAAAGGTGAGACATACTGGCGGCAATACTACTCTTTACTACACTAAGATG
TTTGTGTAAAGTCAAACATAAATCTGGCCTACGTACACATCAAGGCACAGGACCTTTCCTTAAACTTATTTATAACACAGAGTCCTTTACTCACATGTTT
TCCTACTGACCCTCTCCCCACCATTACCCTATAGTCCTGCCACACCCCCCTCACCAAGATGGTAAAAATAGTAATCAATAAATACTAACAAAACTCAGAG
ACCAGTGCCGGTGTGGGTCCCCCATATGCTGAACACCAGTCCCCTGGGCCCACTTTTCTTCCTCTGTACTTTCTCTCTGTGTCTGATTTCTTTTCTCAGT
CTCTCATTTCCACCTTGCAAAAAATACCCACAGGTGTGGAGGGGCAGGCCCCCTTCAGGCAGGTGGACCACTTGAGCCAGAGTTGGAGACCAGCCTGGCC
ATCATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCAAGGTGGCACCTGCTGGTAATTCCAGCTACTCGGGAGGCCGTGGCACAAGAA
TCACTTGAGCCCAGAAGGCAGAGGTTGCAGTTGAGCCAAGCACGCCACTACACTCCAGCCTGGGCGACGAGAGCAAGACTCTATCTAAAAAAATTAAAAA
AAAAAAAAAAAATCAATAAATGGTACTGGGGATGGGGACAGAAAGTTAAAACCCCCCTCACAACATACACAAAAACCATTTTAGAATCAACTGTCAATTT
CAATGGTAGAAACATATCAATAAAGCTTTAAAGAACATTAATATAGGAGAATCTCTCAATGTTATTAGGGTATGGCCAGATATTTTAAAGAGGCCACATA
AAGCACCCTATAAAGCAAACTATATCCTGCTAGGGGAACTGTAAGTGGTACAACCACTTTAGAAAACAGTTTGACATCTATTTAGACGGAGTTTATACAC
ACTCTATGAAGCAGCAATTTTCCTCCGAGGTGCACATCTAGATATACATCTCTGCCTCCCCCATATGAGAGCACATATGAACCAAAAGACATTTACACAA
ATTTTCACACATGCATTATTCTTAATAATACAAGCTTTAGGTAATACAAATGTAATTAATAATAGAAAAAACTGCTATATTTTACATAATGGAATGTGAT
AGAAAACCTATTATACCTTTGGTCCAGCCTGCAAGAATGCTTTTTACATTTTTGAAAGACTGTAAAACAAAAAGCAAATTAGCATATGCAAGAGACCATA
TGTAGCCTGCAAGCCCTAAAATATTTACTGTAAATTCGCCTGATCCTTGTCATTGAGCAAAGAAAATATACTCAGATGCAACAGGAAAGACCCTCACCAA
TAATGAGCAAAAGAAGGCTGACACAAAAAAAGAGTGATGTACAATTCCACTGATATACAGAGTTTAAAATAGGCAAAACTGTATTAACTACAATGATAAA
TAATGATTAATTATATAAAGAAAAGCCTAAAATACTTTTCGGTGTGAGAATGGAAAAAGACTCACAGAACACCACTGGTGTGCTGACCATATTCTATTTC
TTGACCTGGGCAATGACTGCTTATACATATATTGCCTCCATGATAATTAAATTGTACATTTAAAATATATAAATGTAGAAAAATTAACAAAGTAAAGGAA
GAGATCAACCATACCAAACAGTTTACCTCCAGGAAAGGTGTTAACTCCAGACAACACAACGGGTGAATTTTACAGGTGGGTAATAAAACAAGAACGTCCA
CTAACACCCTATTTTCCTACTTTATACTGGAAAGTTGAGCCAATGCATTAAGATAAGAATGAATTATAAGCATTACAAAGTAAGACAGAAAATTAATGTT
ATTTTCAGGCGATATCATCACGAACATGGAAAAAGAGATTCAAGAAATTACATATTTAAAAAAGAAAATGCTCCCTCAGAAACTCCCAGGCAGATTTTCA
CATACATAGTTGGCTAGAATTGCACCATACGCCTAAGCTCATTTCCATGTCAAACCTATCACTAGCAATGGCAATTGGAACCAGCAAGATTGGCTAAGAC
CAACAAGGCCTTACTAAGAAACTGGGATTTGGGTCGCCTTGCCACAGGGATGAATACTTCACGAAATGGAGATTCTGTTAAGAAAGTGTGAATATAAGGC
GGGCAAGCAACACTCACTATATATTAAGAAGTGAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAAGCCAAGGTGGGCGGATCACC
TGAGGTCAGGAGTTCGAGACCAACCTGCCCAACGTGGTAAAACCCTGTCTCTACTAAAAATACAAAAACTAGCCGGGCGTGGTGGCGTGGGCCTGTAGTC
CCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGATTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGTCTGGGAGACA
AAAGTGAAACTCCGTCTCAAAAAATAAAAAAAATAAATAAAAAATAAAAGAAGTGAATGCAGAGGTTGGCAACATTTTCGATTTTGCCGGCCACGAGGTC
TCTGTCACAACAACTCAACCGCTGCCTTTGCAGCCATAGACAATATATAATCGGAGGGTATGACTGAACTTGACCCCCCGATCTGTAAATAGCCACCCCA
AGGATCAGAAGAGTAGATATATGGTTTCGAACTAATGCTGGGGGCTGTGTCGCCTTTTGCCCCAGTAACCGAGGTTCGAACCTCAACCCAGGACCCAGGG
CTCCAAAGTCTCGAAAGCTTCAGCCCTCACAAGCCTTTGTACCACAGACACTGGCCCCATGCCTCTTACTCATCCGAACCACGGACCAGACACTCTACAG
CGATGGACATCCTCCCAGACTCCAACATCACTGAGTTCCAAATTAAATCCTGAACCCGAAGCAGACGCCGCATCGATCCTAATCGCCACCTCCATCCTTT
ACAAGCAGAGTGATCCATACCTTGACAGTTAGGACACGGCCGTTGATCACTACAGACCCTTAGTCACTGTACTCACACCAAAGGCACGCGGACCACAGAC
AGGGGGATCACAGACTCCCACCAGGTACCTCCCAAATGCCTATACCCCGGCGCTCCCCAGTCTTCCTGCCAAAAACTATGTGGTCCAGGGTACACCACGT
CCTCAGATCTCCCAAACCTTCCACTGAGACAAAACCTGAACTAGGACAAAAAACTTTCAGGGACAAAACCACACACTGACCTCTATTTTCTCCAGATACA
CAAGAAGGGCCTCAACGTTACACTTCCGTAAACTGCTCCTACTTCTGGAGTCCTCGCACGGGTTTATGGTCCACCTACGGCGGCCGAGGAGAACCTAAAA
TGTTTAAAAGAGCAAGGACAAGCGCATTTACGGCATTTCCTACTCTGTAAAATGGCCGCGCCCATAGCCGTGGCTCCTGACGGCAGCCATGTTTGAAAAT
TGGACGCACAGAAGGCAGTGGCAGGTTTTTGAGCCAGGAGCCAGGGAAGAAGAGAAGTCACTGAAATCGCCTCGTTTCCTGGCACTTAAAGTCTTGCGAA
AGGGGGCAGATTTTC


SNP Information

Context             (SEQ ID NO:62427):
GAGCTTTCACATCCAACATCACCTTTGATATTGGTGAATTACAAAACAAAATTATTGATTTAAATAGGCAAACTCAAGAATTTCAGCCTTCTTTAGAAGA
Y
TGGACCGAATTCCAGGAAGGCCTGGAGAGCCTCAACCCTTGGACCTATCTAAGGCACCACATTAACATCTTATATGTAGTTCTTGGAATAATGTTGTTTT
Celera SNP ID:            hCV29188608
SNP Position Genomic:     7516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:62428):
TTAACATCTTATATGTAGTTCTTGGAATAATGTTGTTTTGTCTCTGTCTTCGGTTTATAGTCTGTAAAATCGGATGGACCACCAATTGGAGAATGAGAGC
Y
TCCCAGCCCAGCCTTACATTCTTTCAATTAATACATAAACAGAAAGGGGGATATGCAGGGAGCCAAAGGCCTGTGGGACGTGACCAACTCAGCATTCTGC
Celera SNP ID:            hCV29188609
SNP Position Genomic:     7678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:62429):
TAACATCTTATATGTAGTTCTTGGAATAATGTTGTTTTGTCTCTGTCTTCGGTTTATAGTCTGTAAAATCGGATGGACCACCAATTGGAGAATGAGAGCC
K
CCCAGCCCAGCCTTACATTCTTTCAATTAATACATAAACAGAAAGGGGGATATGCAGGGAGCCAAAGGCCTGTGGGACGTGACCAACTCAGCATTCTGCT
Celera SNP ID:            hCV29188610
SNP Position Genomic:     7679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:62430):
AATGTTGGGTTGCATCCCTGGGCTATGGATTCTTGTTAATCTGTCTGAGCCTTGGGCTGCCACACCTGCTTTGCATTTTTGTAACACTTCTTCTAACTCA
S
CTTACTCACTGTGTCCATAGAGCCTTAGGCATAATTTTTGCTATTGTTTCCTTGGTCAAACTAATAACTTCTGTTGTGATATCTTCTGTAACTCTGCATA
Celera SNP ID:            hCV1597647
SNP Position Genomic:     7051
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,10)   total(G,10|C,1) 
SNP Type:                 UTR 3


Gene Number:                 363
Celera Gene:                 hCG2040493 - 209000073576748
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W3E9(4255393..4272900)
Chromosome:                  ChrX
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12523):
CGATCTTTGTTATTTCTTTTCTTCCGGCAGCCATATGTTTGGTTTGTTCCTGTTTTCTAGTTTATTGAAATGTGACATTAGGTTGTTAATTTGTGATCTT
TCCATTCTTTTGATGTATGCATTTAATGCTATAAACTTTCCTCTTCAGACTGCTTTTTCTGTATCCCAGAATTTTTGGTATTTTGTGGTTTCATTGTCAT
TCATTTCAAAAAATTTTTGATTTCCATTTTTATTTTATCATCAATCAAAAGACGCTTCAGGAGTACGTTATTTAATTTCTATGTGTTTGTATAGTTTCAA
AAGTTCATTTTGAAGTTGCTTTCCAGTTGTGTTCCACTGTTGTTTGTAAGATACTTGGTATGATTTTGGTTTTTTTAACTTATTGGGATTTATTTTGTGT
GACAACATATAGCCTATGTTGGAGAATGTCCCACGTGCTGGTAATAAGAATGTATATTCTGCAGCTGTTGAATAGAATTGTCTGTAGATGTCTGCTAGAT
CCATTTGGTCTATTGTGCAAACTATGTTCAGTGTTCCTTTATTTTTCTGGATTATCTATCTAGGGCTGTCAATGAGGTGTTGAAGTCCCCTGCTATTGCT
GTATTGTTGTCTATATTTTTAGATATGGTAATATTTGTTATATAAAGTTGGATGCTCTGATGTTGGGTGCATTGATATATCCTCTTATTAAATTGATCCC
TTTATTATTATATAATTGTGTTATTTGTCTTTTTTTACTGTTGTTGATTTAAAGTCTGTTGCCTTTGATATAAGTATAGCTACTCTTCTTTACTTTTGTT
TCCTGTTTGCATGAAATAGATTTTTCCACTTTTAACTTCAGTCTGTTTCTTTAGCAGTAGGTTTGTTTCTTGTAAGCCACATAGCGTTGGTTTGTTATTT
TTATCCTTTATGCCAATCGATATATTTTAAGTGAAACATTTAATTCATTTACTACCAAGATTAATATTGATATGTGTGGTTTTGTTCCATCATAATGTTG
TTATCTGTTTGCTTTGTAGATTTACTAGTTCTCTATTCTGCCTCTGTCAATTTTTGTGGTTTGTTGGAGTTCTGTCATGCTGTTTTATTTATTTTTTTTC
TTTTTGAGATGGAATCTTGCTCTGTCATCCAGGCTGGAGTGCAATGGTGCGATCTCAGCTCACTGCAACCTCCACCTCTTGAGTTCAAGCGATTATCCTG
CCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCGTGCCATGATGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGATTTCGCCATGTTAGCCAG
GCCAGTCTCAAACTCCTGATCTTGTGATCTGCCTGATTAATTGTTACATGGAGTATGATACATGAAGCATTAATCTCCAAACTATCCCTATTATGACTTT
ACATTGTTACTATACAGAAAGTTTCGAAACACAGAAAATTTTATTATTTGGCCAATCAACCTTCAATAGTTCTGTGAAAACTCCAGCATAAGATCCAAAT
TCCCTTCATTATTTGGTACCTGAATTTTTTCCAGTCTTATCTCTAACACTCGTCAGTATCTATAATACACTATAGTCACATACACATAGAAAATGCTTTG
TGATCTAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGTACAGCAAAAGAAACTAACATCTGAGGGAAGAGGCAACCTAGAGAATGTGAGA
AAAATTTTGCAATCTACCCATCTGGCAGGGGTCTAATATCCAAAATTTACAAAATACTTAAACAAACTTACAAAAAAAAAAAAAAGAAAACACCACCATC
AAAAAGTGGGGAAAGAACATAAACAGGCACTTCCCAAAAGAAGACATTTATGTGACCAACAAACATATGAAAAAAACCTCCACATCACTGATCATTAGAG
AAATGCAAATCAGAACCACAGTGAAATACCATCTCACGCCAGTCAGAATGACAATTATTAAAAAGTTGAGAAACAACAGATGCTGATGAGGCTGTGAATA
AATAGGAATGCTTTTACACTGTTGGTGGGAATGTAAATTAGCTCAACCATTGTGGAAGACAGTGTGGCAATTCCTCAAAAACCTACAATCAGAAATACCA
TTTGACCCGGGAATCCTATTACTGGGTATATACCCAAAGGAATATAAATAATTCTATTATAAAGATACATGCACACATATGTTTACTGCAGCACTATTTA
CAATATCAAAGACATGGAACCAACCCAAATGCCCATCAATGGTAGACTGCTTAAAGAAAATGTGGTACATATGCACCATGGAATACTATGCAGCCATAAA
AATGAATGAGATTATATCCTTTGCAGGGGCATGGATAAAGCTGGAAGCCATCATTCTCAGCAAACTAACACGGGAACAGGACACCAAACACCACATGTTC
TCATTCGTAAGTGGGAGTAGAACAATAAGAACACATGGACACAGAGAGGGGCACAACACACTCTGAAACCTGTCAGGTGGTGGGGGCAAGGGGAAGGAGA
GCATCAGGACAAATAGCTAAAAACCTAGATGACAGGTTGTTGGGTACAGCAAACCACCATGGCACTCATATATATATATATATATATATATATATACCTG
CACGTTCTGCTCATGTATCCCAAAACATAAAGTAACAACAACAACAATAACAAAATGCTTTATGTAGGGGAGAAGTGTGTACGCGTATGTGTGTGTGTAG
TGTCACTGTTCAAATGAAAATCAGAAACGAAAATCCATTGGTGGGATTTTCTGAGCCATTTTAAAATAAATTTACATTTTTTTTAAATTTTGTTTTTCTG
TAAGTTATTGGGGTACAGGTGGTTTTTGGTTACATGAGTAAGTCATTTAGTGGTGATTTGTGAAATCCTGGTGCACCCATCACCCGAGCAGTATATACTG
CACCATATATGTTGTCTTTTCTCTCTTTTGCCCCTCTCCCATGCTTCTCCACAAGTCCCCAAAGCCCACTGTATCATTCTTATGCCTTTGTGTCCTCATA
GCTTAGCTCCCACATATCAGTGAGAACATACAATGTTTGGTTTTCCATTCCTGAGTTATTTCACTTAGAATTATAGTCTCCAATCTCATCCAGGTCATTG
CAAATGCTATTAATCATTCCTTTTTATGGCTTAGTAGTATTCTATTATATATATACGTATATGTATATATATATATATACGTATATGTATATATATATAT
ACGTATATGTATATATATATATACGTATATATATATATATGTATATGTATATATATGTATATATATATACGTATATATACGTATATATATATACGTATAT
ATATATACGTATATATATATACGTATATATATATACGTATATATATATACCAAAGTTTATCCATTTGTTGATTGATGGGCATTTGGGTTGGTTGCACGAT
TTTGCAATTGTTAATTGTGCCGCTATAAACATGCGTGTGCAAGTATCTTTTTCGAATAATAACTTCTTTTTTTCTGGGTAGAATACCCAGTTGTGGGATT
GCTGGATCAAATGGTAGTTCTACTTTTAGGTCTTTAAGGAATCTCCACACTGTTTTCCATAGCAGCTGCACTAGTTTACATTTCCACTAGCAATGTAGAA
GAAGTGTTCCCTGATCACCTCATTTACACCAACATCTACTGTTTTTTGATTTTTTTATTATGGCCATTCTTTCAGGAATAAGGTGGTATCGCATTGTGGT
TTTGATTTGCATTTCCCTGATCATTAGTGATGTTGAACATTTTTTCATGTGTTTGTTGGCCATTTGTATATCTTCTTTTAAGAATTGTCTATTCATGTCC
TTAGCCCACTTTTTGATGGGATTGATTGTTTTTTTCCTTACTGATTTGTTTGAGTTCGTTGTAGAGTCTGGATATTAGTCCTTTGTCAGATGTATAGATT
GTGAAGATTTTCTCCCACTCTGTGGGTTGTCTGTTTACTTTGACGACTGTTTTTTTTTTTTTGTCATTCAAAAGCTATTTTGTTGAATTAGGTCCCAGCT
ATTTATCTTTCTTTTTATTGCATTTGCTTTTGGGTTTTTGGTCATAAAATTATTGCCTAAGCCAATGTCTAGAAAGGTTTTTCCAGTGTTATCTTCTAGA
GTTTTTATAGTTTTAGGTCTTAGGTTTAAGTCTTTAATCCATCCTGAGTTGATTTTTGAATAAGGTGAGAGATGAGGATCCAGTTTCATTCTGCCACATG
TGGCTAGCCAATTTTCCCAGAACTATTTGTTGAAAAGGGTGTCTTTTCCCCACTTTATGCTTTTATTTGCTTTGTCGAACATCAGTTGGCTGTAAGCATT
TTGGTTTATTTCTGGGTTCTTATTCTGTTCCATTGGTCTATGTGCCTATTTTTATACCAGTACCATGCTGTTTTGGTGACTATGGCCTTATAGCATAGTT
TGAAATCAGGTAGTGTGATGCCTGCAGATTTGTTCTTTTTGCTTAGTCTTGCTTTGTCTATATGGGCTCTTTTTTGTTTCCATATGAATTTTAGAATTGT
TTTTTCTAATGCTGTGAAGAATGATGGTGGTATTTTGATGGAGATTGCATTGAATTTGTAGATTGCTTTTGGCAGTATGGTCATTTTTACAATATTGATT
CTACCCATTTATGAGCATGGCATGTGTTTCCATTTGTTTGTGTCATCTATGATTTCTTTCAGCAGTGTTTTATAGTTTTCCTTGATTTGATTCTCCACTT
GGTCACTGTTGGTGTACAGAAAAGCTACTGATTTGTGTACATTAATCTTGTATCCAGAAACTTTGCTGAATTATTTTATCAGTTCTAGGAGCTTTCTGGA
GGAGTCCTTAGGATTTTCAAGGTAAATGATTATATCATTAGTAAACAGGGACAGTTTGAGTTCCTCTTTACTGATTTGGATGCCTTTTATTTATTTCTCT
TGTCTGATTGCTCTGGCTAGATCTTCCAATACTATGATGAAGAGGAGTGGTGATATAGTGACAGTCCTTGTCTTGTTTCCATTCTCAGAGGGAATGCTTT
CAACTTTTCCCCATTCAGTATTTTGTTGACTCTGGGTTTGTCATAGATGTCTTTTACTACATTAAGGTATGTCCCTTGTATGCCAATTTTGCTGGGGGTT
TTAATCTAAAGCGATGCTGGATTTTGTCAAATGCTTTTTCTGCATCTATTGAGATGATCATGTGATTTTTGTTTTAAATTCTGTTTATATGGTGTATCAC
ATTTATTGAGTTGCATATCTTTAACCACCCCTGCATCCCTGGTATGAAACCCACTTGATTGTGGTGGATTACCTTTTAGATATGTTGTTGGATTCAGTTA
GCTAGTATTCTGTTAAGGACTTTAGCATCTATGTTCATCAAGGATAGTGGTCTGTAGTTTTCCTTTTTGGTTATGTTCTCTCCTGGTTTTGGTATTAGGG
TGATGCTGGCTTCAGAGAATGAATTAGGGAGGGTTCCTTCTCTATATATCTTGTGGAATAATGTCCACAGGATTGGTACCAGTTCTTCCTTGAATGTATG
GTAGAATTCTGCTGTGAATCTGTTTGGTCCTGGACTTTTTTTATGTTGGTAATTTTTAAATTATCATTTAAATCTCGCTGCTTGTTATTGGTCTCTTCAG
GGTATCTACTTCTTGCTGATTAAGCTAGGTGTAAGATTGTCCCCATGGCCTGAAAGCTTAAGGAGATATATAACTCCTCGCTTCTCAGGCCCAGTCCCAA
GGCGCAAGGCCACTTGCGTCAGCAGTGTGTGCGGCAGCATGCACCAGCAAGATAGCAGAGGCAGAAAAATAGCCAGTCAGAAGACACCTACCCCTGAAGA
TTGAGAAAGAGGCCATATGGGTAAAACATAGCAGTTACGTCAGACTAGGACACTTCCTGTTTACAGGAGACTGTAAAACATTTGTCCCATCCTCACTTGG
TGCTAACGCCATTTTAAGCCTCAGCCCGCCTGCACCCAGGCACTCATTAAGACAGCATGTTGCTCCACACTGCCTCGTGTTGTCTGTTGGTGCACTCTCG
GGGTTCAAACTGTTACAAGAACCTTATATTTTGGTGCTGAAATCTGGGAGGGGCTCAGGTCTGCATCCCCCATGGACCTAGCCCTCCACCCCAAAGAGCA
GGCCACAGCAGCTGGACAAAGGAAGGTCCTCAGCCTCCAGTCGCCTCTCTGTGCATGCAGTCGGTCACTGATCTCGCCTACTGGTAAGTTTCCCCAGAAG
CCCAGTTAACAGAGAAAAATCTGCACAGCCTCTCTTGGTTTCTCCAGTCCAAAGCCCCAACATTGGTCCAAGAAGGCTCTGGCATGTGCCAGGCACCCGA
TAATTATCTAGTCTTAAGGGGACGCCTCTAAGCCATTTAATCCTGTTCCAGGAACAAAAAAGGCAGCAGTGATGATGGCTCCTTTTATCTTCTCCCTCCG
GCTGTCCAGGATGGCCTCCTTTTCCCTGTTCTCCCAAGCCCACCCTCCCTTATGGGAAACTCCCGGTCCTCTGTTCCAAAAAAAAAAACAGTCCTCTAGG
CTGCCTCATAAAAAAACCTGCAAACATTAGGCCTCAAGCTAGATATGTGCCCTAAGCGCCTTGTCTTTTTTTTTTTTTTTTTTTTTTTTTGCAATTCAGT
CTGGCCACAATATGAATTAAATAATGGGTCCAAATGGCCCGCAAATGGAACATTCAACTTTGCAATTCTAACTTATTTAAGCAATTAATGCTGACGACTG
GAGAAATGGCAAGAAATTCCTTACGTCCAGGCCTTTTTACACTCAGATCACAACCTGTCCTCTGCAATTCTTGCTTATCTGTTCAAATCCTTCCCCTCCA
TTCTAGCCGCCCTAATCACCTTTCTCCTCCCAACCGTACCTCTTTTTTTCTCATTAAATCCAGCAGACTGCTGTCCACCCCTCCCAGCCCCTACCTCTTC
CTCTCAACCATCTTCTTTAACCCCCCAAGCCTCCTCATTGTCTTCTCAGCTGCCATCTTCCCAGTCAGCTGTATCCACTTATTTTTCTACACCGTCCCCT
CCTCAGRACAATTCTAATATTACCTATACCTATTCTCCTCCCCAACGCCCTCTCCTGAGGCTTGTAAACCTATCCTGCCACCTTACGCCTCTGTCTATCC
TCCACTGCCTATTAACTCAACCGCGCTTTCCCCTTCAAACCCTCAGAAGGAATCAGTATTTTAAACCTTCAGTTCATCTCCTAATCCACCCCCAATGTTT
GGCTCAAGCTCCAGAAGCTTGACGACGGCCGTCAAACCCCACAACAAGTCCTTCTTAATTTAGCCTTCAAAGTCTTCAACAATTGTAATGAGGAAAGTAA
AAGGCAAAAACAGGCAGAGTTTCAAATGCTTGCCTCCACCATCAGGGGCCCTGCAGGCCCACGGGGCCGCAGCTCCACACAGAAGCCTCCTAAAAATCCA
CCTCCACCTGGYGCCTATTTCAAGTGTGGCAATGAAGGCCACTGGTCCAGACAATGCCCAAACCCAGGTAAAGCCAGCAGTCCATGCCCCTCTCTGCGGA
GAACCCCACTGGAAGTCGGACTGTAAGCAGCTCCCACAAGGACTGCCCCCATCCCTTCCTGAGCTAGCCAAAACCTCCTACTTATATCTCATCGGCCTTG
CCACTGAAGAATGATGGTGCCCTGGAACAGACACCCTGGCAACTACCTTTGCCTCATCCAAGCCAARGGTAACCCTGATGGTGGCAGGTAGGCCAGTATA
TTTTTAAATTAATACCAGGCAACCTACTCTGCTTTACCTAATTTTTCAGGAACCACCCAGTCCTCCCAGGTGTCTGTTGTAGGAATTAATGGACAAGTCT
CCAAACCTCGAGTCCCCCCTCCACTTTTCTGCTCCCTTCACACCTTTTCCTTCACTCACTCTTTCTTAGTCCTGCCCTCATGCCCAACTACTCTCCTAGG
CAGAAATATCTTTCCAAAACTCCACACTACTTTCCACTTCCACATTCCCCATAGTACCCAACACATCAACCCAGACCCCTCTGGGGCTTCTAACTTTCTT
CTACTCCTCCAACCACCCACCTTAAAACGTGCAACTTTTTCTTGTCCCCCATCTGTAGTTAACCCCGCTGTTTAGGATACTTCCACACCCTCAGTCGCAG
GACACCACACCCCTGTCCACAATACCCTTAAATAGCCCACCCAGTTCCTATCACAGAAGTAGTATGCCATCCCCCAAGTAGCTCTCATAAGCCTAAAGCC
TATCATTTCTCGTCTCCTCTCCAGTCACCTACTCTGCCCAACAAACTCCCCTTTTAACACACCAGTTCTACCTGTGAAAAAGCTAGATGGAGCTTATCAC
TTAGTCTAGGACCTCAGGCTCATTAACCAAGCTGTACTCCCAGTATGTCCAGTAGTTCCTTACCCATATACTTTACTTTCCACAATTCCCTCCGATACCA
CTCATTTTTCTGTTCTAAACCTAAAGGATGCTTTTTTTTCATAATTCCTTTACACTCTGATTCCCAAAACCTCTTTTCCTTTATGTGGAATACCCCCGAC
ACCCACCTTTCATGTGAGCTCACCTGGTGCATACTACCTCAAGGTTTCAGAGACAGCCCCCACTTTTCTGTGTCCAAAAGGCCCTTGCTCATGACCTCTG
TAGCTTATCCCTAAAGCTGTCCACTCTCTTTCAATGTATTAATGATCTGCTCCTGTGTAGCCCCTCTCAAAAAAACTGCAACTACCATACTATCTCTCTT
TTAAACTTCTTCCCAAAATGCGAGTATTAGGTCTCCCCTAAAGAAACAAAAATATGCACCCCCCTCAGTCACCTATCTATGCCTAACTCTTACCCCATGA
ACCTGAGAGCTCACAACCGACCACATATCCCTCCTCCAGTCCCTCCTGCCTCCGCAAACTAAGCAAAAAAATCTCTCTTTTCTAGGACTAGTGGGATATT
GTAGGCTCTGGGTTCCCTCCTTCGCTCTATCTGCCAAACCATTATACCAGGCTGCTAAAGGCCCTCTCTATGTGCCATTAAACTCTGCACAGCCTATTAC
CCAACCTTTCCATCTACTCCAGAAGGCTCTCAYCTCAGCCTCATCCTCACTCTCCCAGACCTCACCAAACCTTTCTCCCTCTATATMGACAGATGATGTA
AAGTTGCATTATGTATTCTAACCCAGTCTAAGGGACCTACCGCCCAGGTTGTTGCCTACCTCTCTAAACAGCTTAAAGCCACCATTCTCCGATGGCCTGC
CTGCCTTCAAGCATTGGTGGCAGCTGCTGTCCTCACCCTTGAAAGCCTAAAACTATCTCTCCATGCCAACCTAACAGTTTATTCAACCCATAACATCAAA
AACATGTTAGCTCACTGCAGTGTACTAAGTCTCATCTCTGCCCCATGGCTCCTCCAACTGTATGCTCTATTCATAGAAAACCCCCTCCTACCAATCACCA
TACTAACCAGCTCCCGTCTAAACACAGCCATGCTCTTACCTGAAGTTACAACCGCCCAAGACCCTACACACTTCTGTGTAAACACTGTTCAAACCTTCCT
TATACCTTTTCCAAACCTAACAGAACAACCCTTTCCAGATGCCCCCTTTACTTAGTTTGTAGATGGCAGCTCCTTCCTACATCAAGGACGCTGGCATGCT
GGCTATGCTATAGTGTCACCCCACACACACACACTATTGAAGCCAATCTGCTCTTGCTAAGCACCACCTCTAAAAAAGCTGAACTCGTCGCTCTTCCTCA
AGCTCTCACTCTAGCAGCCAGACAACAAATCAACATATATTCAAATTCTCGTTATACATTCTACATAGTGTACTCACACTCGTCCATCTGGAAAAAACGA
GGCTTCCTAATTGCAAAAAACACTCCTGCCATAAATGGCTCTCTCATCAGCAAACTCCTTCAAGCTGCCAGGCTTCTACAGAAAGTTGCCATCATTTATT
GCAGGGGCCACCAAACCCCGGATGATCCTATATCAGCTGGAAATAGGCTAGCAGATCAGATAACCAAACAAGTAGCCCTCCAACCCATGCAAGGCCAGTT
TCTGTCCCTGTCCTTTTTCTCTCCTCTTTACTCCTCAGAAGAAAAGGAGGACTTCCAAGCCCAAAACCTTCAAAAGCAAGGACCATGGTATGTCAAGGAA
AGGTGCTTTATTCTTCCTCACTCTCAAAGCCTTCCTCACCTCCAAAGCCTCCACAACCCTTTCCATATCAGTTACAACCTCTCTTGCAACTTCTCTGCCC
TATTCTCACTTGCCCTCACCTTTCCAGCCATGTTTGAGAAATTACCTAGTCCTGCTCTGTCTGCCACTCAGTGTCACCCCAAGGCTCCTTCCAGCCACCT
TTTCCTACCCACCAAGCCCAGGGCCAGGTACCCAGGCAAAATTAACAAATGGACTTCACTCACATGCTGGCCAATAAACGGCTCCACTATCTTCTAGTCT
TTATCTGTACTTTCTCCAGGTAGATAAAAGCATTCCCAACAACTTCAGAAGGTATAAATGTCATCACACAAACTCTCTTCATGCATATAATTCTCCGTTT
TGGACTTCCAACATTCATCCAGTCCAACAACGGACCCTCCTTCATCAGCCAAATTATCCAAGGCATCTCTACATCCTTAGGTATAAAATGGGTTCTCCAC
ACACCCTATAGGCCTCAATTCTCAGGCAAAGTTGAAAAAATTACGTCTGTCCTTAAAGCCCAACTCACCAAGCTGGCTCTAAAAACTCACCAGTCGTAAA
CAAAAAATCTCCCTTTCACCCTTATAAGACTCCACACAACACCAAAAGCACCCTCTTTTTATAGTCCCTTTGAAATCATATATGGCCAAACTTTTGTCTT
GGGGTCTCCACCCTTACCAGACTCTGAGCCACTCAGATATTACCTCYCCTCCTTAATCCAGACATGGTCTTTCATTCGTGAAGCAGCAAATAAGGCCATG
CCTCTCCCTGTTAACACCTTTTTGTCCTCTGAACGTAACTGTCTTACAGGCACAGACGTGTTTCCAGACAATCCAGATGATGCTTCTGCTACAGCGACAT
GGTAAATACCAACCCGTCTCTCAACAATACCCCCAAAATTAAGATTTTCTTTTTCCAAGATGTCCACGTCACCCCCTATGTCATGCCTGAAGTAATTATT
GAGTAAGTGGTCCCTTTTCCCTTTTCTCTAACCAAATAGACAGGAATGTAAGATTCTCCCGGGGCCTGAAAGCTTAAGGAGATGAATAACTCCTCCCTTC
TCAGGCCCAGTCCCAAGGCGCAAGGGCCACTTGTGTCAGCAGTGTGCACCAGCAGCGTGYGCCGGCAAGATAGCAGAAGCATGAAAAGGGCCGGCCAGAA
GACACCTACTCTGGCTGGAAGACACGTACCCCTGAAGATCAAGAAAGAAGCTATCTGGGAACAATGTAGCAGTTACGTCAGACCAGGACACTTCCTGTTT
ACAGGAGACTATAAAACCTTTGTCCTATCATCACTTGATGTGGACGCCATTTTAGGCCTCAGCCCGCCTGCACCCAGGCACTGATTAAAACAGCATGTTG
CTCCACACTGCCTCGTGTTGTCTGTTGGCATGCTCTTGGGGTTCAAACTGATACAAGAACCTTACACTAGGAGGGTTGTGTTTTTCCAGGAATTTATTAA
TCTCTTCCAGATTTTCTAGTTTATGTGTGTAAAGGTGTTCATATTAGCCCTGAATGATCTTTTGTATTTCAGTGGTGTTAGTTGAAATATCTCCTGTTTC
ATTTCTCTGTGAGGTTATTTGGATAGTCTCTCTTATTTTCTTGGTTAATCTTGCTAATGGTCTCTCAATTTTATTTATCTTTTCAATGAATCAACTTTTT
GTTTCATTTATCTTTCGTAAAATTTTTTTTTTCAATTTCATGCAGTTCTTCTCTGATCTTGGTTATGTTCTTTGTCTGCTGGGTTTGGGTTTGGTTTGTT
CTTGTTTCTCTAGTTGCTTGAGGTGTAACCTTATATTGTCTGTATGCACTTTTTCAGACTTTTTGTTGTAGGTGTTTAGGGCTATGAACTTTCCTCTTAG
CGCCTCCTTAGCTGTATCCGAAAGTTTTTGATAGGTTGTGTCATTATTGTCATTCATTTTGAAGAATTTTAAAATTTTCATCTTGATTTTGTTTTTGGCC
CAATGCTCATTCAGGAGCAGGTTATTTAATTTCCATGTATTTGCATGGTTTTGAAAGTCCTTTTGGAGTTCATTTCCAGTTTTATTCCACTTTGGTCTGA
GAGAGTATTTGATATAATTTCAATTTTCTTAAATTTGTTGAGGTTCATTTTATGGCCTATCATATGGTCTATCTTGGAGAAGTTCCATGCACTGTTGAAT
AGAATGTGTATTCTGCAGTTGTTGGATGAAATGCTCTGTAGATATCTGTTAAGTCCATTTGTTCCAAGGTATAGTTTAAATCCATTGTTTCTTTGTTGAC
TTTCTGTCTTGATGACCTGTCTATTGCTGTCAGTGGAGTATTGAAGTCCCCCACTATTATGATTCTATCTATCTCATTTCTTCATTCTATTAGTAATTGT
TTTATAAATTTGGGATCTCTAGTCTTAGGTGAATATTTGTTTAAGATTATGCGGTTTTCCTGTTGTATCAGGCCTTTTTACCATTATATAATGTCCCTCT
TTGTGTCTTTTAACCACTGTTGCTTTAAAGTTCATTTTGTCTGATATAAGAATATCTACTCCTGCTCAGTTTTGGTGTCCATTTGCATGAAATGCCTTTT
TGTACGCCTTTACTTTAAGTTTATGTGAGTCTTTTTGTGTTAGGTGAGTCTCCTGAAGACAGTAGACGGTTGGTTAATTCTTATCCATTATGTGGTTCTG
CATCTTTTAAGTGGAGCATGTAGGGTATTTACATTCAATGTTAGTATTGAAATGTGAGGTACTCTTGCATTCATCATGCTCTTTGTTGCCTGTGTACTTT
GTTTTTGTTGTTGTTGTTTTAACTCGTGTTTTTGTTTTATAGGCCCTTTGTAATTTATGCTTTAAAGAGATTCTGTTTTGATGTGTTTCCAGGATGTGTT
TCATGATTTAGAGCTTCTTTTAGAAGTTCTTGTAATGGTGGCTTTGTAATGGTGAATTCTCTCAATATTTGTTTGTCTGAAAATCACAGTATCTTTCCTT
CATATATGATGCTTCATTTGGCTGGATAAAAAATTCTTGGCTGATAATTGTTTTGTTTGAGAAGGCTGAAGATAGGACCCCAATCCCTTCTAGGTTGTAG
GGTTTCTGCTGAGAAATCTGCTGTTAATCTGTTAGGTTTTCCTTTATAGGTTTCCTGGTGCTTCTGTCTCAAAACTCTTAAGATTCTTTCCTTCATCTTA
ACTTTCGATAACCTGATGACAATGTGCCTAGGTGAAGATCTTTTTGCAATAGATTTCCCAGGTGTTCTTTGTGCTTCTTGTATTTGCATGTCTAGGTCTC
TAGCAAGGCTGGGAAAGTTTTCCTTGATTATTCCCCTAAATATGTTTTCCAAGCTTTCAGAGTTGTTTTCTTCCTCAGGAATACCGATTATTCTTAGGTT
TGGTTGTTTAACATAATCCAAAACTTCTTGGAGGCTTTGTTTATATTTTCTTATTCTTTTTTCTTTGTCTTTGTTGGATTGGGTTAATTCAAAGACTTTG
TCTTCAAGCTCTGAATTTCTTTCTTCTACTTGTTCAATTCTATTGCTGAGACTTTCCAGAGCATCACACATTTCTAAAAGTGTGTCCAATGTTTCCTGAA
TTTTTAATTTTTTTTTTCTTTAAGCTATCTATTTCATTGGATATTTCTCCCTTCACTTTTTGTATTATTTTTTGGACTTACTTGCATTGGGCTTTGCCTT
ACTTTGATCTCTCCCTGATTAGCTTAATAACTGACCTCCTGCTTTCTTTTTCAGGTAAATCAGAGATTTCTTCTTGGTTTGGATCCATTGCTGGTGAACT
CGGGTCGGGGGGTGTTGAGGAGCCTTGTTTTGTCATATTACCAGGGTTGGTTTTCTGCTTCCTTCTCATTTGGGTAGACTCTGTCAGAGGGAAGGTCTAG
GGCTGAAGGCTGTTGTTCATATTATATTTTCCCACAGGCTGTTCCCTTTATGTAGTACTCTCCCCCTTTTCGTGTGGATGTGGCTTCCTGTGAACTGAAC
TGCAGTGATTGTTGTCTCTCTTCTGGGTCTAGCCACCCAGTGAGTCTACCTGGCTCTGGGCTGGTACTGGGGGTTATCTGCACAGAGTCCTGTGATATTA
ACTGTCTATGGGTCTCTCAGTCATGGATACCAGTGCCTGTTCCAGTGGAGGTGACACAAGGGGCAATGGACTCCATGGGGGTCCTCAGTTTTGGTGGTAT
AATGGCCTATTTTTGTGCTGGTTGGCCTCCTACCAGGAGGTGGCACTTTCCAGAAAACATCAGCTGTAGTAGTGTGGAGAGGGACTGGTGGTGGATAGGG
CCCTACAACTCCCAAGGTTATATGTCCTTTGTCTCCTGCCACCAGGGTGGGTAGGGAAGGACCATTGGGTGGGGGCAGGGCCGTGTCTGAGCTCAGACTT
TCCTTAGTTGAGTCTTGCTGTGGCTGCAGTGGTGGATGGGGGTGAGACTCCCAGGTCACTGGAGTTGTTTACCAAGGCAGATTATGGCTGCCTCTGCTGA
GTCATACAGGTTGTCAGGGAAGTGGGGTAAAGCTGGTAGCCACAGACCTTACTCAGCTCTCACTCAAACCGAAGGGCTGGTCTCACTCCCACCATGCCCT
CAGCAACAGCCCTGAACCTGTTTCCAGGTGAAGGGCCAGTCAGGCTTGAAAATTTTCCCAAGGTTTTCTTCACATTTGCAAATGAAAAGGGCTTTAGTTC
TTTCCCCACCTGTGAAGTCTGCAAACTGGATTCGCGCCCTCCCCTGAGTTCTGGCCTTGAGACTTCTCGCCCTGTTCAAATTGTTAGAAATTTCAGCTAG
AGAAGTTCTTCTCATTGTGGAGTTTTACCCCCTGCTCCTCTGGCCACCCTCCTGATGGATCCCTGTGGTGCCAGGCAGGAATTGTCTGCTTGGGGATCCA
GCGAGCTCCCAGTGCCTTTCTGCTACTTCCTCTATCCCTGTGTTTCGCTGGGTTTGGCTCTCTAACTTGACTCGGCTCCAGGTAAAGTTGGGAACTTCTC
CCACAAACAGACCTTCAGCTTCTCCATTGGGGATGTCTGTTTGGGAGAGGAGGGTCTCCCTTTTCCACTTCCATGGTTGGGGCACTCACAGTATTTAGGT
TGTCTCCCGTGTCCTGCAGGAGCAGTCTGCTTCCTTTAGAGGGTCTGTGGGTCCTCTCAGGATTGCTGGTCTGTTATTGCAGTCGATCTGGAGCTAAAAT
TCACAATGCAAGCCTCCGTATGCTGCTCTGTCCGGAGCTGCAATCTAGTCCTACCTCCCATCAAATTTACACATTTTAAAATACCATTTACTTCCTAATC
TGACAGGATATCAAACCAGGTTCGTCCAGCTTTCCTGTCTGACACCTCTTTAGTTTCCTTGGTAACAAAACTTTGCTCCATGATTCCGGTAACAAAACTC
TTTAGTTTCCTTGGTATCAAAACTCTGCTCCATGATTCTGGGGTCTGATTTTGAATAAATGCAACGTCAGAAGCAAGAGTGAGCTGAGTACTTTACAGCT
GTGGAACCTAAAGCAAAAAAAACAGACACAGCATCCCAATTCTAATTCTGACTCTGATTTGGATTCAGATCCATATTTCCCCCAGACTCTACAGACACAT
CACTTCTCCTCCTTTGTTCCCCTTCCAGTTCTGCTATGGAAGAAGCAACATCTAAGATGACGGAAATTATTTCAGAGCCCACAGTTACACTGGAAAATGA
GGTAAAAAAAAAATAGAATTCTGCTCACTACCTTACAGAAAAACAAGCCAGACAAAAGGGTGGAATGGTTAAGAGACAGTGTTGACAATGAGCACTTGGA
CTATCGCTCATCTAAATGCTGCTGCATTTATCAAAAGCCTCATGCCTTTGGTGAAAGCTCCTCAGAGAGTGAAAAAGAGGATGAAGAAAATTGTAATTTC
ATGCTATATTTCTGGGGTCATCACAATGGACGGCATCATTCCCTTCCCAATAGGGCTTCTAGTACTTTATCTAAAAAACCTTGAGACACATCTCATCCTC
TTCCTTCACCCATGAAGGGCTAAGCTTACTTTGCTTCCCCCATCCCTGAATGAGACTGGACTAAAATATATCCACGTTGCTATTCAGGGATTAAACATAT
TTTGAATCTTTTTTGATGTGTGTTCTATCTCTCTTCTGTCTGATGGAAAGGGTAGCAATGAAGGAAGACAAGGGGAGAGAAACAAAGGGATCAATAGAAT
ACCTGGAAGCCCTGGTACTGCATGACTACTATTCTACAATACACATGTCACATGTATATTCTTGTCTTTTTTAGAGATCTGGAATAACTTCTCCTATATT
TTCTTGGCTAGTCTATTATCATGACACCAAACCCCCACTTTCCACAGAGCTACCATTTTCTCTATACTTGTTACCCATAATAGTTTCTATCATCTAATGA
GTACCAGATTATTCTTTACCATTAATTGGAAGCTTTGTAATCTTGTCACCTGATATTTACCCATTACACTTTATTCTTGCTTTTATCCTGGGTGATTTCA
ATATCCCTGTAGATAAGATTTCATATAAACTAGGTATTTCTCCTCTACTTTTATTTAGGAACCCCACAGCCATAGTCATACCATGAAGCTAATGAGCACT
AGTACTATTCCACATCTAAGTTTTATAATTAGGGATCTTATTTTCTCATCCCAAACTCCTATCTTTTGACTTCTGTCTCATACTCGCTTACAACACTATT
TTGTGAATTCATGGAGACTCCTAGTCACCCAAATTTGTGCTGACCTCTCAATCAGTCAACCTTCTGGGTATAACTTCTTTTCCACCCAAACTTCTGACCC
ATCAACAGCATTCTTTCCCGTGTTCTTACTTCTTCACTCTTTTGTGAAACCTCTCTTGCCAATTCCAAATTATGACATGTGACTCAGGAAAACTAAAATG
AAGTGTTTGTGGACTTGGGGAAAGGTGGTATCAAAGAAACATCAGGAAACTATCAAGAGGTAGAATAGTAGTTTAAATTTATTACATGTTTTGTGTGTGC
CTAGCATTTTCTTCAAGGCTTTATGTATAATAACCCAGGAATTCTGGGAAAGTCTCAGTCTTTATCTCTTCAAATATATTCTGCTTCATTCTCTTTTTCC
TATTTCTTTGAGACTCCAATTTAAACCTATGTTACACTTCCTTCTATATTTGTTAATATTATCTTTATTTTTCTGTCTCTTTTAAACATCATTTGGATCA
TTTCTTCTTATCAGCATTTAGTTCACCAATATAGCTTGATTTATATCTAAAAAGCTATTAAACCCATCCACTTAATTTTGTTTCCTTATACTCTTCAGTC
CTAGAATTTCAACTTAGTACTTTTTCCCAATTGTTAGATCCCTTATTATGAGGACCTGAATAATTCAAATTCTCTGTAAGAAACTTTTGGCTTGACTTTG
ATTTCCT


SNP Information

Context             (SEQ ID NO:62431):
GCCAAAACCTCCTACTTATATCTCATCGGCCTTGCCACTGAAGAATGATGGTGCCCTGGAACAGACACCCTGGCAACTACCTTTGCCTCATCCAAGCCAA
R
GGTAACCCTGATGGTGGCAGGTAGGCCAGTATATTTTTAAATTAATACCAGGCAACCTACTCTGCTTTACCTAATTTTTCAGGAACCACCCAGTCCTCCC
Celera SNP ID:            hCV16029395
SNP Position Genomic:     7667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62432):
AGCACCCTCTTTTTATAGTCCCTTTGAAATCATATATGGCCAAACTTTTGTCTTGGGGTCTCCACCCTTACCAGACTCTGAGCCACTCAGATATTACCTC
Y
CCTCCTTAATCCAGACATGGTCTTTCATTCGTGAAGCAGCAAATAAGGCCATGCCTCTCCCTGTTAACACCTTTTTGTCCTCTGAACGTAACTGTCTTAC
Celera SNP ID:            hCV2226107
SNP Position Genomic:     10847
SNP Source:               Applera
Population(Allele,Count): african american(C,18)   caucasian(C,6|T,24)   total(C,24|T,24)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62433):
CGGGGCCTGAAAGCTTAAGGAGATGAATAACTCCTCCCTTCTCAGGCCCAGTCCCAAGGCGCAAGGGCCACTTGTGTCAGCAGTGTGCACCAGCAGCGTG
Y
GCCGGCAAGATAGCAGAAGCATGAAAAGGGCCGGCCAGAAGACACCTACTCTGGCTGGAAGACACGTACCCCTGAAGATCAAGAAAGAAGCTATCTGGGA
Celera SNP ID:            hCV2226108
SNP Position Genomic:     11260
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,39|T,1)   total(C,72|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62434):
ACCATCTTCTTTAACCCCCCAAGCCTCCTCATTGTCTTCTCAGCTGCCATCTTCCCAGTCAGCTGTATCCACTTATTTTTCTACACCGTCCCCTCCTCAG
R
ACAATTCTAATATTACCTATACCTATTCTCCTCCCCAACGCCCTCTCCTGAGGCTTGTAAACCTATCCTGCCACCTTACGCCTCTGTCTATCCTCCACTG
Celera SNP ID:            hCV26757746
SNP Position Genomic:     7007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62435):
AGGCAGAGTTTCAAATGCTTGCCTCCACCATCAGGGGCCCTGCAGGCCCACGGGGCCGCAGCTCCACACAGAAGCCTCCTAAAAATCCACCTCCACCTGG
Y
GCCTATTTCAAGTGTGGCAATGAAGGCCACTGGTCCAGACAATGCCCAAACCCAGGTAAAGCCAGCAGTCCATGCCCCTCTCTGCGGAGAACCCCACTGG
Celera SNP ID:            hCV26757747
SNP Position Genomic:     7412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62436):
GCACAGCCTATTACCCAACCTTTCCATCTACTCCAGAAGGCTCTCACCTCAGCCTCATCCTCACTCTCCCAGACCTCACCAAACCTTTCTCCCTCTATAT
M
GACAGATGATGTAAAGTTGCATTATGTATTCTAACCCAGTCTAAGGGACCTACCGCCCAGGTTGTTGCCTACCTCTCTAAACAGCTTAAAGCCACCATTC
Celera SNP ID:            hCV16029409
SNP Position Genomic:     9087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62437):
GCCAAACCATTATACCAGGCTGCTAAAGGCCCTCTCTATGTGCCATTAAACTCTGCACAGCCTATTACCCAACCTTTCCATCTACTCCAGAAGGCTCTCA
Y
CTCAGCCTCATCCTCACTCTCCCAGACCTCACCAAACCTTTCTCCCTCTATATCGACAGATGATGTAAAGTTGCATTATGTATTCTAACCCAGTCTAAGG
Celera SNP ID:            hCV26757748
SNP Position Genomic:     9033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 364
Celera Gene:                 hCG2040662 - 209000073578238
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(49278112..49290688)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12524):
TCTCATAGTGCGATTGTGAGTGACGCTCACAAAGTTCCCTCTAAGGCCTCAAGACACGACATCTACAATTCTTGGCCCTGCCATATCTCTGTACAGCAAG
GTAGACTCGTAGGCAAAGGGAATAATATTTACTGAGTAGAAACTAATTTGGGGTAGAGACTTAGCACGCAGGCCCTAGAAGAAGACTGCCTGGGTTCAAG
TATCATCAGCTCTAAACTTACTGTCTCACTTTGGGCAAGTAACTGACCTGCTTTAGGCCTCAGTTTCCCCATCTATATAGTAAGGATAATAACAGCACCC
ACTTCATTGAGTGGTTAAAAGGTTTAAGTGAGGTGATGCATATAAAAGGTGCCTGGCACATAGCATGTGCCCAAAAAGCATCAAAAATGGGGGAGAGGAG
AATTCCTCTCTTCTTGTATTGCTTGCTGCCGTCCACCTGGATTAATGCCTTATACTTTGGCTTTCAGATGGGAGAAATCCAGATCACATCCACCTACAGA
AGAAATGATTGGCTGCTATGGATTGTAGCTAAACCATAGGAAGAGTAGAGTTGTAGCTGGCCCCAGGGATGGCCAGAACCAAGAACTCAGATGCTACAAA
GGCCCTCTCTCGGTGCCCCATCTCTGTTGTGCTCTGCCTGCTGGCATCATTCTCTCTACTGCAAATGGCGGCTGCTTGAGGCTGGAGCCATGACCACCCT
TAGTAGCTCTGTGATTCACTCTCTCACCTTCACCACTAGAGAGATGACAATCTCTCTCCGTGACTCTAATTAGAAAAAGCCCATCAGAGGCCTCTGATTA
GTTTAGCTGGGGAATGTACCCATTCCTGGGGCCAAGGAGGTAGCCTCCACTAGAACCCCATGACTAGTTTGGGGACAATTCTCCAAAAGAAGGAATGTGC
TCAAAAGAAGTGAGGAGTCCTAGGCAGACAAAACAAAAGATGTCTACTGTGGATGAAAGAGAAGTAGGTGGACTGAATAATCAGGGCCACTCTCCCATGC
TATAAAGGAGTAGGTTTTTAAAGACCTGTGAGGAGTATCCATAGATCACTGTGTGAGTTATCAACCCAGAGTTGGTCTTGTTCTAGATCTGTCCTGTATC
CTTTCATAGGTAGCCAGGCATCCCCCAACCAGGCTGATCCCATTCTGTGTCTAATCATCTGACCACTGCCTGCCCACCTGCCCACTAGTCCATTGGGCTG
GGTGCTGACACTTCGCCTGGCTTTGGCAAGCCTCTGCCCTTGGGAGTAGATGCAGGCTCCGTGCTTATCTTCAGATGCTGGTGAAGTTCTATGGGTCATC
CAAGTCAGTTGACCTCCTGGACTTAGAACATCCCATGACCTAGAGATAAGTTGACTAGATCTATCCAGAATGAGGATCAACCCAGATTAGAAAAGACTCA
CCTGAATCTTTTAAACGTTGAAATTTAGATAACTTTTTCTCCTTCCTTCTTCCCTCCTCCTGCAATACTTGGCCTTGTTCCTTCCCAGTTGCTTCCTTAC
CCTAGCCCCAGCCAAGGGAGTTCCTAGACTACCAGTAGAGGCTAAACATATGAGCCAAGGGGTCAAACAAGCTTGAGTTCGAAGCCTGGCTCTGCCACTT
ATTGCTGTGTGGCCTTGGATAAATTAATCTCTCTTTTCACGCTTCCAGGCTTCCAGAGATGATGTACCCAAAGTATGATCATCATTTTTATTAAAATATT
GTGCTCACATCTGATTGATTAACAGTTCCTGGCACGAGGTCAGTGCCAAAGAGCCTTGGACTGACTGCTTATGGCCTGGCCTCCCTATCTGGTTTCTTAC
TATGTAGCGATCCAAGTGAATTCAGATGATTCCCTGGACTACCACCCTCCTTCCTGGGACACATCCATCCCTCAAACACTGTTCATCACTGGCCATCAAA
GCAGCAGCCACACTGCTCCAGCAACTCAACAGCTATTTATTGAGATGGGTGTGTGAGTACATGAGTGAGTGAATGAACTGAAAGAACGTAAGAGTGAATT
AACTGCTAAGTGAATTAGTGAATTAGTGACTTAATGAGTCAGCGAGTGAAGAAGAGTGTGCAGGATTGAATATATCATGTTCTTTTCCCTCAACAAATTG
AATATGCCGTGGTATAAAACTTTCACCCTCAAATGTGTCTTCTTCATTAACACAAGCAGGGGTTAAGAATGGCAGAAGAAAAGTTACAGACCAGCAGCCA
GAGGAGAAAGATACTGTGCTAGTTTCCTATTGCTGCCTTAACAAATAACTGTACATTTAAGGGCTTAAAGAACACAAATTTATTGTGTTATAATTCTGGA
GGTTAGAATCCAAAATGGGTTTCAGCAGGCCAAGATCAAGGTGTGGGGAGGACTGAGCCCCTCTGGTGGCACTAGGGGACAATCCTTTTGCTTGCCTTTT
CCAGCTGCTAGTAGCCACCTGCATTTCTTGGCTTGTGGCCTCTTTCCCTTGTCTTCAATATCAGCAGTGTAGCATCTTCAAATCTCTCTCCACCTCTGAT
CCTCTGCTTCTCTCATCACATCTCCTCTGACTGTGACACTCCTGCCTTCCTCTTACAAAGGCCATGTGATTCTATCAGGCCCACCTGATAATCCAGGATC
ATCTCCCTAGCTCTAAATCCTTAGAGTAATCTTATCTACAAAGTCCCTTTTACCAAGTAAGGAACAAATTCACAGGTTTCAGGGCTTAGGACGCCAGCAT
CTTTGGAGAGGCATTCTTCTGCCACTTGCAGATGCCTTGTTCAGAGGGTAAATGCAACCAGTGAGTCCCACTCCACAGAGGAAGGGGCAGGAGGGGGATG
AAGGAAGTTTCAAAGCATTTGACATACACATGCTTATGCCAGGTATGTTTGCTGTTGTTGCTGTGGCCTGAGCACTGAGGGTTTTGGAAAGCTTAGGTGA
TTCCATCATGCTGCAAAATCTGAGAGATACTTTGACAGAGATATGCTAAGAGCATATGCTGCTGTAATTGAGGGTAAAATCTGGCCCTGTGATTCCTGGA
GATGATGGATCAAGAGCAGGGTGTCTTTACCCTGGCTGCACATTGCTATCAACTGGAAAGATTTTTCTTTAAAAAAATGTTATTTTGAAATAAGAGTGCA
AAGATCATACAGAAATGTCCTGTATACCCTTCACCCCGATTCCCTAATGTTGGCATCTTACATAACCCTGGGTCATGCATAAAAACTAAGAAATCAGCAA
TGGTACAGTACTATTAACTAAATGAAACATTTTATTCAGATTTCCCCAGATTTCCACCAGTGGCCCACTTTTTGTCTGTCACAGGATTCAGTCTAGCATC
TCTCATTGCATTTGTCCTGTCTTCTTGGTTTCTTCCAATCTGCATCAGTTTCTTAGCCTTGCCCTGGTTTTTTAAAATCTTGACATTATTGAAGGGTACT
GATCAGGTATTTGGTAGAATGTTCTTTATTTCAGTTTGTCTAATGTTTTTTCATAGACCTTGGCTATGGATTTTTGGGAAGAATATCATGGCGGTGAGAT
GCTGTTATTATGGCAACACAGAAAGGGGTTCTGTGATCTCAACATGACCTGTTATTGATGATGCTTACTTTGATCACTTGGTTAAAGTGGTGTCTGCCAG
ATTTCCCCGCTGTAAAGTTACTATTTGTCCCTTTCCATGTTCTATTCATTAGTAGTGGGTGGCTAAGTCCAGCCCACACTGGAGAGGGGGAGTGCCATCT
GTTTTTATTCCTATCATTTCAATTTGTTTAATCCTCATGGCTTTATTATCACCTCACTACTTTTTAGAGATATGGTTGTAATGAGCTAGACTTGCCCAAA
GTTACTCAGCTAGTAAATGGCAAAGCTAGAATTTGAACTTATATGTGTCTGGCTTAAAAGGCCATGTTCTTTCCACTTCATGTTACTGCCACCAAGTAAA
GAGGATCTCACAGTCTCCGAGGCGGAAGCTCCCTCTCAGCTTGTCTGGACAGTGTTTTTCAAATCCATTCTTGGAGTGTGACCCATCAGTGGGTCATGAG
GTCAGTCTGTGGGTGGCATTTTAAATAACAACATAAAGTAAAGGTGACTACAACAGAGTAGAAAATAAGAGTATGTCACACAAGTAGAAATTTTTTATCT
CTATATCTTCTCTGTGCTTTGCTACCTTCATCTGAATTCACTTATCCTTGTATGGAGATAAAAATAGCCCTCCCATAGGCTTGTTATGAGGACTGAATGG
AATGAGGTACATAAAGTGCTTAGAAGAGAGACTGGCTCATATTAAGCATTATATAAATATTAAGTATGTATGTATGTAAACGAGTCATGATGTAAAATGT
ATTTCTTATTGCAGACTGCAATCAAGATGTTTGAAAATACTGAACTCACATCTGTAGACGAGGAGTTGGCAGATTTACGACCCCCAGCTTGCAGCCTATT
TTTTAAAAATAAGGTTTTATTGGAACATAGCCACACTCATTGGTTTAGGTATTTTCTATGGTTACTTTCGAGGTATAGTGGCAGAGCTGGGTACCTGCAA
CAGAAACCCTGTGGTTCACCAAGCCTATCATATTTACTACCTGGCCCTCTAGACCAATGCTCCTGCCTGGAGGTCATCTCATAATCTAGGGAATATTGGA
CACCTCTTCCCGGGCATGTGGTCTGGTCATGCTACTGTCCTTGCAGGCATGCTTGCTCTAGGCTGTGTGACTGCCAGGCACTTGGATCTCCAGAAGCTCA
TTACTCTTCTCTATTAAACTGATGCCTACATGGTGAAAGGCTAAAACCATGGTACTTTGGTCAGGGTCCCCGCAGGAAACAGATGGCCACTCAAATTAAA
ATGATTGGTGAGGGCAGAGTGTGGGAAAGTAGCAGAGACCTCAGAGGCTCATAAAAGTAGAGTTTTACCACCCTAGGCAGGAGGAGATAAAGAAAGGGGG
CAATGCCTGTACTGGAAGGAGAGAGTCATTTAGAGAGGACACCTTATGAGGACCAGTGACCTTCAGTCCAGGGACACAGAACCAGCTCCAAGTGACCCTG
GGGTGGGGATCCAGGAGAATAAATGCCTTGACTTAACTTTCCTCCATCTCTGATCTCCTGTGGAGGGCCCCATTGACCAAAGTGAGATGGAAATCAGAGG
GTATGGGATCCTCTGATGTGGCTCATACAGACCAGCTTCCCAGGCCAGAGAAGGTTGAAGAGAGGTTGGAGAAGGCTGGAAAGGGGATCTGGAAGGGCAA
CTCTTAGATACCCAGCACACAGCATTGATTTAGGAAGCCAGATTTATTTACCTTTCCTAAGCTCCCCTAAACAAGGACTTCCCCTGCTTCATCCTCCAAG
TTGGAACTTTGACAACACCAAAAGGTTGACATAGCTTTTCCCTTTTACTGCCTTTTCTTCTTAAATCTGCTAGCTTCCCGATAGCTATTGTGGGTTAATC
TTCCTGGATCTTATCATGAGAGGGATGGAAGGTTAAGAGGCACAGATAAGCTACTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTCTGAGCCTGAGCAGAGTCTGATGAATATGTGGACTTTCATTAAAGTTCTTCCTCATGTCCCATCTTTTGATCTCAGAAAGGAGCTGTGTCCCA
TTCATCTAGGCAGCCCTGCTCATGTCCAAAAAATGTGTGAGTCAACCTCTGGCCCCTTGGGAGAAAGAGCCAGGGGGAAAAAGGCTACCTAGGCTGAGAA
GTGTCCCCAGAGTAATCCGTTCCTTTGCGAGACCCCCTACTAGCCCAGACTTCCTTGATGGCACCTGATATCTTATAGGCCCCCAAATCCTGCCACACAA
CTACAGCTTGTCCCCTGGAGGGGCTTCCCTGGCCAGTCCAGAATGCTCAATTTATGAGAGATCATTGGCTCACAGGGAGGAAGGGGATGGCTTAGGTAGG
CCAGCCACCTTGCAGCAGAGCTGGGCAAGAATTCAGGATTGGAGACTCTTATTAGTTTCCATCTTTCTTTTACAGAAGATGAACACTGAAGTCTTGGAAC
CCTGGGAATGAACCTGGAAAAATTCAAAATATGGTCTAGTCTTAGGCAAGTTTCCTTGTCCRGCTCAGCTGCTGAGACCACATATCTGGACCCTCAGTGC
CCTGGCAACAGCTCTGTGCAGGCAGGATGAAGCACAGGCTTAGGTCAAGCAATCAGCYGTCAAAATCCACACTCTCACCTGTGAGTGGCTGTTCAACCTT
GAACATGTTACTTTTTATRTTAATGAAACTCAGTTTTCTAGTCCTATAAATTTGGGGCTATCATCAACCATTAAGTGATATTAAACCCAGTGCCACACAG
GCAAGTACCTAGCAGTGTCCAAAGGCCCCCAGAATGACACTTTTTCATCTTTTCTCTTCCCTCCAATTGAAAGACTAGTGGAATATCTGCAATTACTTTG
ACCAAAAGCCAGAAGCCGGCCAGTTTGAGTGTAGCTGTTACAGCTTTGTGTTCTAAACCTAAGAAATGGGGACCCCTCACATGAGAGTGGGGAGGCTTCT
GGATGTGCTACAAATTCCATTTCATTTTCATGAACTCCAGTGTTAATTAATAAAATCTCAAGGTTCTCCCCCCTCTTTCGCCTCACATTTCTTCAGAGAA
ATGAAGAGTTCCAACTCATAGCCCAAGTGCTCAGGTTTTAAATTAGACAACTTTGTCCTGACAGGAACCAAGTCACAGCTGTCATACCTGATTACTTTTA
GAGTTACTACTAAACCCTTTGTATGGCATGAGCTGCCACTGTTCAAGGCAAACAGAAACACTTCACATTTTATCATGACAGCCCTGGATCTATCCACCTC
CCCATGTTCATTATGCTCAGCCTGTCTTTGGAAGGGATGATGAGGCATCCTGAAAATCGTATAGTGAGGAAGGCAGACCCCATGGCCTGTCACTACAGCC
TAGGGATTTTAAGCCCCTAAAGTGCAGCAAAACCCACTGCCTCCAGGAAGCCAAGGAGAATTATTTCTGGGGGACATAGCTGCCTCATAGCCTACTATGA
ATGAACCATCATCTTTCATGAGAGGCAAACATTGACCCTCAAGTAACCAACCAATACGAGCACCTGTACACAAATGCCCACAGGTGTTGGCTGGGATTGG
CTGGCTTGTGGATGATGTCACAGTTTCCCTCCTCTGACTCAACAATGCCATCAGCACTGAAAAGGCTGAGCCCTGACTACAGCTCTTGCAGACAGAAAAA
TTCGCTGCAAGTACAGCACTTTCTAGATTGCTCCTGGAGTGTGGGAACAACAGTCTCTCCTGTCCACGTTACTGAATCCAGAAAAAAGGTGAACTTACGA
ACATGGGAAAAGAAATCCAGCTAAAGCCTAAGGCAAATGTCTCTTCTTACGTTCACTTTTTGCTGAATTACAGAAACAAATTCAAGGAGCAGCAGCCAAA
TACCTACGTTGGCTTTAAAGAGTTCTCTAGAAAGTGTTCGGAAAAATGGAGATCCATCTCAAAGCATGAAAAGGCCAAATATGAAGCCCTGGCCAAACTC
GACAAAGCCCGATACCAGGAAGAAATGATGAATTATGTTGGCAAGAGGAAGAAACGGAGAAAGCGGGATCCCCAGGCACCCAGACGGCCTCCATCATCCT
TCCTACTCTTCTGCCAAGACCACTATGCTCAGCTGAAGAGGGAGAACCCGAACTGGTCGGTGGTGCAGGTGGCCAAGGCCACAGGGAAGATGTGGTCAAC
AGCGACAGACCTGGAGAAGCACCCTTATGAGCAAAGAGTGGCTCTCCTGAGAGCTAAGTACTTCGAGGAACTTGAACTCTACCGTAAACAATGTAATGCC
AGGAAGAAGTACCGAATGTCAGCTAGAAACCGGTGCAGAGGGAAAAGAGTCAGGCAGAGCTGATGGATCCAGTTTGAAAAAACAAAATGCCATTCAACCG
TATTTCCTGTTCCTGGTCTCATGTGTGGCATTAGAGTAGCTGTGACTGATGCTTTGTGGAGGAGGGAGTGGCTTGGTAGAGGAGAGACTGATCCTGAGGA
GGGGAACGGAGAGGACGGGAAGGGAAAGAAGGGGAAGGGAGGAGAGGAGGGAGGGGAAGGGAAGAGAGGGGAAGGGAAGGGAAAGGAGGGGAATGGAGGG
GAGGGAAAGGGAGGGAAGGGCTGGCTTTGAGAGAAGTGTCAGCAGTAAACAAAAGGTGTGACTTGGGCCACTGGGTGGGAGCCTCCAGGTGTAAAGTAGC
AGCAGTCATGGAGGTAGAAGCACCGTGGTTCTGAGTGGTGATCCAGGTGAGAGGACCCTACTCAGTGTCAGGTTCAGGAACATGACGTCTGACTCTGCTA
AGCAGTGGCAGGACTGGGAAGACTGCCAGGGCTAGAAGGCCTAGAGTTCAAGCTCACACTTGAGGCCCCAGGAGAAACATATGGCATCTGAGTTGAGACA
GGCCTGAGGGAACCCAGGATTTCCAGCAACACTTAGATACGCTCAGTGGGGCCAGGGTGAACTCCCAGGGGTGTTCCCTAATCAGGAGGAGGCAAGGGGC
AGATTTTACCAAAAAAAAAAAAAAAAAGCAGGGGGCTGGGGAACCAGATCAATCGTTTTTCAGTGGATAGATGTATAATATGTGGCCTCCACTCCTCTTC
CTCTTGTTCATAGCACTCTGACTCCCTTTCGTGACCAAGGCTGGATAAGAGGGCAGGATCGCCTTGGCCACAGTCATTGGCTCAGTGGTGGGCATGTGAC
CCAAGTTGGTCCTATCAGGGTGGACCTCTGGACCTGTGTAAGGAGTCCTGGGGGACACCGCAGTCCAGGGAATGTGGACAGCCATTTGCCATCTCATAGG
GCCCAAGAAGGAGGCCGAGATGCTAGAATCCCTGTGGCATCAGAACAGTCTCCTAAACTTTTCATTGAAGATGAACAACACATTTCATTTTTTCCCTGAG
ATGGTTTGACTTAGGTTTTTTCCTACTTGACTATAATTTGACACAAATGGGATTGTGCTGTAAGTGTCTGTCTGGTAACTAGATTTTTCAGGCAAGAATA
TACTGTAGGCAACATTCCATACCAATCAATAAAGATTGAAATGGAATATTTTGAAATGGTTCTTCTGACTTCTTGACATCAAAAATACTGGGCCAAAATG
CAAAGCTGCTTTTTTGTCACCAGTTTATACATGCAACAGATCTCCCTAACTCCACCTCTAAGGACCCCTATTCCATGATAGAGGGACCTACACTTTCTAC
TCTACTGCGCTGAACAGTAAAAATACATATTTTTGAACAGTCTTTTAGAACTGCATGAGCCTTTAGGGGATGAGAGGTAATACAGTGATTTAGAAATTCA
GGGTCTGGAATCAAACAGGTCATTTGTGGAGGATTTTCATGTGCCAGGCCATTTGCTGGGTACAGGGAGGCACATTACGCACTACTGCTAAGTTCCCGCC
CTATAAAAAATTTCCTTCTGACAGGAGAGATGGACTTGGGCATAAATTGCAGCACTGCAAAGCAAGATGATGAAAGTGAATGCAGAAAGTAATGGGGGAG
GGACTGGGGACCACCCAGCAAGCCTGTGCTGCAGTCTTCATGAAGGAAGCAGCCTTATTCCACTTGACAACTTTGTAGGCATGCTGGCAAAATTCCCGTT
CCGCATTCCCCACAGCTGCTATTCCAACTTGGCTCTGCTTCTCTTCCCTCTCAGGAGACGCCCGCATTTTCTGCTTCATTGAGAAAATAGAGATCCTCAG
ATATAAGTGCTCTCAGTTTCCTTCATTCTTGAAATGTAATCCATACCAATCCTTTCCTCCTGGTCTCACCCCTCACGGAGAGCTATCCCCCTCCTGCTCT
TCCTGCCCCCTCCCTGCCTCCCTGGGGCCCTTGCTCCTTACTATAAGGGTGCTGGCCCTCCAGCCTGTACACTCATACAAGTTCACTTGATGCCATGATA
TGGTGGTCCCCACCTTAATGTTGGCAGAACTTAGGGCAAGTTCTCATTCCTCTGAGCCTCATGTTCTTATCTGTGCAAGGAGGATAATGCCTGCCTTACA
GGTTGTTTTAGCAATTAACTGAGGTAATACATGTAAAAGTATTTGGCACAGTCCTAAATCTAATAGGTAATATAGCGGATATACTCTAGGGTGGCTGTTC
CATAATCCTTTCCTCCTTTCTTGGTGTTCACACCCTTGTATAATCCCCTCCTATTAAGTGTGGGCTGGACAGGTGACTTTCTTCTAACCCATAGAATGTG
GCAAAGGAGATGGGATGTCACTTCTGTGATTATGTGATGATAAATAATACTATATATTGCTAGCCACTTTGCTCTAGGGATTCTCCTTGCTGCTTGATGA
AGTAAGTGGTCAAGTTTGAGAAGCCCATGTGGCAAGGAATGACAAGGAACTGTGGGAAATGTCTAGAAGCTGAGGGTGGCCTCAGACCATTAGCCAGTGA
GAAACAGAAGTTCTCAGTCCACCAACCACAAGGAACTTAATACTGCAGCAGCCACACAAGTGGGTAGGTGAATCCTTCCCCAGTCAAGCCAGCAGATGAG
AACTTGGCCCTGGCTGACCAAGGCCTGAAGCAATGCACACAGCTAAGCTGTTACTGGACTCCTGACCCCACAGAAACTGTATAAATGTAAGTTTAAAACT
ATAAATGTTTAAACCATATGAGTGTATTTTGTTTTAAGCCACTAAGTCTGTGGTAATTTGTTACACAGCAATAGAGAATACATTACTCAATAAATGCCCT
CTTCCTTATAATTCTAGAAGAGACTGTCTTTAATCTTGTTTCTATCTCCAGCCTCTACCTTCCCCATTTAATTTCCTTTCCTTTGTTACCAATCTCTTGT
TACCAACATCTTGAAGGTGGAGGGCCACCTCCCACCGTCCAGTGCTAATTAGATCCTGATTTGTATTACCCAGTAGTAGTTCCAGTTGGGTTGTCTTGTT
TCCAGCCTGAAATGTGGGCTCTTGGTGGGCAGCAGCTGTGTGATGTACCACACTCCTCTCTGGGAAGAGGGCCCCCACACAGCTAGGCCCCAGCTCTCAT
GCCACCCCTTTCTGGTTTCCTGTGTGATTAATTATGTGAATGTGGGTGGCCAAGTCAGAGTTTTGACAAGAGTTTGCAGTTCCCCTGCTGAAAACTAACT
CCATTAACAGTCCTTTATGAAAAAGACAATAGGAGGGTCTGAATCTGCTGGCTTCTAATGACTGTAATGTAATGACAATGGAGAGAGAGGGAGGGAAGGA
GGAGGAGAAGTTGGGGGAGCCTGGACCTAAGATAATGGGTGAGAGAAAAAGTAGATGGACAATCTGGTGTGGTGCCAGCATTCCAGGCCCACTCAGCTGG
CCTCAGGTGCTCCTGTCCTTGAGAAGAGGAAGGCAGGCCCATCACCATCTTGATGACTGAATCACTCAACTCTGATCCTTCTCTCCTCAACCGTTTTTCT
GTGTTCATGTAGTCATTAATTTACTTACTCATTCATTCAACAGATATTTACATAAATCTTATGCCTGCAATATAACAGCAACTATTCTGGTGCTGGGAAT
ACAACAAGGTTCCTCATCTCTCACGTTCCGGTGAGGAGAGACAGACAATTAAAAAAACAACAAATAGGCCAGGCGCGGTGGCTCATACCTGTAATCCCAG
CACTTTGGGAGGCCGAGGTGGGTGTTTCATGAGGTCAGGAATTTGAGACCAGCCTGATCAACATGGTGAAACCCCATGTCTACTAAAAATACAAAAATTA
GCCAGGTGTGGTGGCACGTGCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGCGAGCCCAGAT
TGCACCATTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTTAACAAACAAACAAACAAACAACACAAATACATATATCGAATCAGTTTTTGATAG
GGTAAAGTACTCACTAGAAAATAAACGTGGGTAATGAGATAAATGATGATAGATAGGATAGAGGGCACTTGAAATGGATGGTCAGAAGTTTTCTGCGGAG
CTGGCATTTGGGTTTGGATTTAAAGGGCAAGAAGGAGCCAGACAAGCCAAGGTGTAAGAGAAGAGTCCTCCAAGCAGCAGGGAAGCAAGTGCAAAGGTCC
TTGCAGAAGCGAGCTTGGCATATTAGAGGGACAGAGGGAGGCCGGAGCAACTGGAGGTGTGAACAAATGGGCGAGATGTGTTTGGAAGGGTGAAGGCCTT
GGCAAGGGGTTTATGTGGAAATCTAAGTGCAACTGAGAGCCACAGAGAGATTTCAGTAGTGGAGAACCACGTGCTTCCATCTCTGACTTTGTGTTACTCA
TCATTCTAGGGTCTTCAGAGACTATCAAGTGCCAACAAGGGGATTACCCCTCTGCCCCTCTAAAGGATTGCAAGAAAGAAGACACCAAATCCATGGCATT
TTTTCCCTTAGGAAAGAAGGGAGATAATGAGAAGCCTCCACTTGGTATTCCTTGGAGCAGCTGGAAGCTAAAAACCAAATGTGGGAACTGTGAATCCTAT
CTCTGGGATATGTTTTCTCAGGAAATGGAGGAAATGGGTGGGCACGGGTGGCAAAATATTCCAGGGGAATACTTCT


SNP Information

Context             (SEQ ID NO:62438):
GTCCGGCTCAGCTGCTGAGACCACATATCTGGACCCTCAGTGCCCTGGCAACAGCTCTGTGCAGGCAGGATGAAGCACAGGCTTAGGTCAAGCAATCAGC
Y
GTCAAAATCCACACTCTCACCTGTGAGTGGCTGTTCAACCTTGAACATGTTACTTTTTATGTTAATGAAACTCAGTTTTCTAGTCCTATAAATTTGGGGC
Celera SNP ID:            hCV9957292
SNP Position Genomic:     6158
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62439):
CAGGCAGGATGAAGCACAGGCTTAGGTCAAGCAATCAGCCGTCAAAATCCACACTCTCACCTGTGAGTGGCTGTTCAACCTTGAACATGTTACTTTTTAT
R
TTAATGAAACTCAGTTTTCTAGTCCTATAAATTTGGGGCTATCATCAACCATTAAGTGATATTAAACCCAGTGCCACACAGGCAAGTACCTAGCAGTGTC
Celera SNP ID:            hCV9957293
SNP Position Genomic:     6219
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62440):
TCTTTCTTTTACAGAAGATGAACACTGAAGTCTTGGAACCCTGGGAATGAACCTGGAAAAATTCAAAATATGGTCTAGTCTTAGGCAAGTTTCCTTGTCC
R
GCTCAGCTGCTGAGACCACATATCTGGACCCTCAGTGCCCTGGCAACAGCTCTGTGCAGGCAGGATGAAGCACAGGCTTAGGTCAAGCAATCAGCCGTCA
Celera SNP ID:            hCV16190497
SNP Position Genomic:     6062
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,25)   caucasian(A,18|G,22)   total(A,31|G,47)   
SNP Type:                 PUTATIVE UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,24)   caucasian(A,15|G,21)   total(A,27|G,45)
SNP Type:                 PUTATIVE UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,486|A,999)   total(G,486|A,999) 
SNP Type:                 PUTATIVE UTR 5


Gene Number:                 365
Celera Gene:                 hCG2040760 - 209000073579178
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VSLL(965996..978895)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12525):
TGAGGGAAGAGGGACTGGGGGCCCAGACTCCCAGATCTGAGGGAAGAGGGACTGGGGGTCCGGACCCCTGGGTCTGAGGGAGGAGGGGCTGGGGGCTGGG
ACCCCTGGGTGTGAGGGAGGAGGGGCTGGGACCCCTGGGTGTGAGTGAGGAGGGGCTGGGGGCTGGACCCCTGGGTGTGAGGGAGGAGGGGCTGGGGGCT
GGACCCCTGGGTGTGAGGGAGGAGGGGCTGGGCCTCTGGGGTCCTGGGGGAGGAGGGGTTCGGATGTCCTGTGCCACCATTCCCTCCCTCCATTTCCAGA
CGATGTACCTGTCCCAGCTCCAGCCGGTGACCAGAAGGAGGTGGACACTTCAGAAAAGAAACTTCTCGAGCGGCTCCCTGAGGTTGAGGTGCCCCAGCAT
CTGTGATCCTCCGGGACCCCAGCCCTCAGGATTCCTGATGCTCCAAGGCGACTGATGGGCGCTGGATGAAGTGGCACAGTCAGCTTCCCTGGGGGCCGGT
GTCATGTTGGGCTCCTGGGGCGGGGGCACGGCCTGGCATTTCACGCATTGCTGCCACCCCAGATCCACCTGTCTCCACTTTCACAGCCTCCAAGTCTGTG
GCTCTTCCCTTCTGTCCTCCGAGGGGCTTGCCTTCTCTCGTGTCCAGTGAGGTGCTCAGTGATCGGCTTAACTTAGAGAAGCCCGCCCCCTCCCCTTCTC
CGTCTGTCCCAAGAGGGTCTGCTCTGAGCCTGCGTTCCTAGGTGGCTCGGCCTCAGCTGCCTGGGTTGTGGCCGCCCTAGCATCCTGTATGCCCACAGCT
ACTGGAATCCCCGCTGCTGCTCCAGGCCAAGCTTCTGGTTGATTAATGAGGGCATGGGGTGGTCCCTCAAGACCTTCCCCTACCTTTTGTGGAACCAGTG
ATGCCTCAAAGACAGTGTCCCCTCCACAGCTGGGTGCCAGGGGCAGGGGATCCTCAGTATAGCCGGTGAACCCTGATACCAGGAGCCTGGGCCTCCCTGA
ACCCCTGGCTTCCAGCCATCTCATCGCCAGCCTCCTCCTGGACCTCTTGGCCCCCAGCCCCTTCCCCACACAGCCCCAGAAGGGTCCCAGAGCTGACCCC
ACTCCAGGACCTAGGCCCAGCCCCTCAGCCTCATCTGGAGCCCCTGAAGACCAGTCCCACCCACCTTTCTGGCCTCATCTGACACTGCTCCGCATCCTGC
TGTGTGTCCTGTTCCATGTTCCGGTTCCATCCAAATACACTTTCTGGAACAAATGCATGGCTCCATGCCTGTGTATCTGGACTGGTCCCTCCAAAACGCT
ATTGCCACGTCACCTGCCGGAGTCCTCATCTTTGAAGACTGGATTCAAGCATCACTTCTGAGAGGCTCAATCCTGGTATTTTTCCATCTGCCCCTGATGA
GTCTGCAGCCTTCACTCAGGGTCCCTTCAGCCACAAGGACAGAAAACCCAAACCTGGGATTAAGCAATTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTT
ACTCTGTCACCCAGGCTGGAGGGCAGTGGTGTAATCTCAGCTCACTGCAACCTCTGCCTTTTGGGATCAAGCGATTCTCCTGCCTCCGCCTCCCGAGTAG
CTGGGATTACAGCTGCCTGCCACCACGCCCGGCCTTCTAATTTTTGCATTGTTTTAGTAGTGATGGGGGTTTCACCATATTGGCCAGGCTGGTCTTGAAC
TCCTGACATCATGATCTGCCCACCTTAGCCTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACTGCACCTGGCCGGGATTAAGCAACTTTTAAAAGATGA
ATTTGGCCAGGTGCTGTGGCTCACGCCTGTAATCCCAACACTTCGAAAGGCCAAGATAGGGGGGATCACTTGAGGCCAGGAGTTCAAGACCAGCCTGGTC
AACATGGCAAAACCCCATCTCTACTAAAAATACAAAGATGAGCCGGGTGTGGTGGTGGGCACTTGTAATCCCAGCTACTCGGGAGGCTGAGGCAAGAGAA
TTGCTTGATCCTGGGAGGCGGAGGTTGCAGCGAGCCAAGATTGCACCACTGCACTCCAACCGGAGTACCAGAGCAAGATTCCATCTCAAAAAAAAAAAAA
AGAATGTACCAGGTATGGTGGCTCCACCTGTAGTCCCAGCACTTTAGAAGGCAGAGGCGGATAGATCACGAGGTCAGGAGATGGAGACCATCCCGGCTAA
CACGGTGAAACCCTTTCTCTACTAAAAATACTAAAAAAATTAGCTGGGCGTGGTGGCAGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGA
ATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTGAAAAAAAGAAGG
CTGAGGCAAGAGGATCACTTGAGCTTAGGAGTTTGAGACCAGCCTGGGCAACATAGCGAGACCCCGTCTCAGAAAAAGAAAAAAAATTAGCTGGGCATGG
TAGTGTGTGCCTGTAGTCTCAGCTGCTTAGGAGGCTGGTGTGGGAGGATCCCTTGAGCCCTGGAGTTTGAGGCTGCAGTGAGCCATGATCTATCACTCCA
CTGCACTCCAGGCTGGGTGACAGAATGAGGCCCTGTCTCTAATAGAAAAAAGAATAAATAAAAATGAATTATGATAAAAACCAAGATGTCCCAAGGCAGG
ATGACTTCAGGGAACCAGGTTCTCGCATCCCCTAGCTGTGCCAAGGATAGGTTTGGGGGCTGGACCCCCCCTCATGGTCCCAAGGTAGCTGCAGCTGCTC
CAGATGTCACCAACAGCCAGTGAAGGAAGAGGCCGCATTCTGTTCTGGGCATTGTTAAGTGGGAGAAAATCTGTCCCCGGAGTTCCCTCTCCTTTCAGCC
CTCTCCTCATGTTCCCTTATATCCCACTGGCTGTGAGGCACAGGTCAGTGACAGCTGCAGACAGATCCACCAAGCTGGCATCCACCAGTGGTGATTTCAT
CCTCACCTGGGATGGGGATGCTTTCCTTGGACCAAGTTGGGGTCTGGTAAAAAGCAAGCGGGGAATATTTGTTTTTGTTTTGTTTTGTTTTTGGAGACAG
AGTCTTGCTCTGTCTCCCAGGCTGGAGTACGATGACGCGATCTCGGTTTACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGTCTCCT
GAGTAGCTGGGATTACAGGTGCCCAGCACACACCCGGCTAATTTTTCTGTATTTTTAGTAGAGATGGGGCTTTCACCATGTTGGTCAGGCTGGTCTTGAG
AACTCCTGACCTCAGGTGATCCCCCCGCCTCGGCCTCCCACAGTGTTGGGATTACAGGCCTGAGCCACCACGCCCGGCCAGGAGTATTTGTTTAAATGAA
ATTCTGGCCAGGCACAGTGGTTCATGCCTATAAGCTCAGCACTTTGGAGGCCAGGGATGGGCAGGGTGGGGGGTTTCAGGAGAGGATGACAGGAGGATGA
CTCAAGCTCAGAGCTCAAGACCAGCCTGAGCAACATAGCAAGACCTCATCTCTAAAAAAAAAAAAAAAAAAAAAAAAAAAATTAGCCGGGTGTTGTGGCA
TGCACCTGTGGTCCCAGCTACTCAGGAGGCTTAAGGACAGAAGAATCGCTTGGCCACAGAAGGTTAAGGCTACAGTGAGCCATGACCACGCCACTGCACT
CCAGCCTGGGAGACAGGGCAAGACCCTTTCTCGAGAAAAATAAATAGGCCGGGCACAGTGGCTGATGCCTATAATCCCAACGCTTCAGGAGGCCAAGGAG
GAAGGATCCTTTGAGCCCAGGAGTTTGAGGCCAACCTGGGCAATATAGGGAGACCCCATCTCTATGTAAAAAAATAAATAAATAGGGCCAGGCGCAGTCA
CTCACAACTATAATCCCAGCACTTTGGGAGGCTGATGTGGGCGGATCACTTGAGGGCAGGAATTCAAGCCCAGCCTGGGCAACGTGAAACCCCGTCTCTA
CAAAAAAATACCAAAATTAGCCGGGCGTGGTGGTGTACACCTGTAATCCCAGCTACTCAGGGAGGCTGAGGCACAAGAATCACTTGAACCTGGGAGGCAG
AGGTTGCAGTGAGCCAAGATCACACTACTGTACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAGAAAAAAAAAAAAATTAGCTGGGTGTGGTGGC
ACATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGAAAGGATCGCTTGGGCCTGGGAAGCGGTGATTGCAACGCTGCACATCAGCCTGGGTGACCAA
GCGGGACTCTGTCTCAGAACAAAACAAAACAAAAATACATATTCCCAGATCCTGGAATGTCCTGGGAAGCTATATGTGTGTCATGCCCTCCCAGCTGCAC
CTGAACAATGAGCATAGCAAACATCAGCTGCAGCCTCTCTTTGCCTCTCTCAGAAAATGAGGGGAGTTGAGCTTCAGTGACCCAATCTGGAAAACGGGCC
TAAATGGTGTTCTTTGAAAGGTTCATATAGGCAAAGCGGTCCCCAAATGCCGAAGGAGCCAAGAAACCAAAGAATGAGGCCGACCCATCTAGTTTGTCAA
TACAGGGTGGTTTATTAGGGGGAAACTTAGAGTGTGGTCTTCGCCAGGCATGGTGGCTTATGCCTGGAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGG
CTCACTTGGGGTCAGGAGTTCGAGACCAGCCTGACTGACATGGTGAAACTTGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGTGGGCGCCTG
TAATCCCAGCTACTGGAGAGGTTGAGGCAGGAGAATCACTTGAACCCGGGAGGTGGAGACTGCAGTGAGCCGAGCTCACGCCACTGCACTCCAGCCTGGG
CTACAAAGCAAGACCCTGTCTGGAAAAAAAAAAAAAAGAAGTGTGGTCTTGGGCAGCAGCAAGACAGATAGATCACACCCTGCAACCCCCAGACACAGGG
CTTCTATCTCGAGGAAAGCATATCTGTGCTCTGGAAGAAACGCGTAGGTGGCTATGGGCGATACATCTTGTGATGGATGTGACAACATCAAGGCTTGTTC
TGGAGGAAAGGCTGGTAAGTACGTGTTTCTACATAAAGAGTAACACATCCGTTAGACATGTTGGAGGCATTCCCAGTTTCGGGTTAGTCAGAAGTCACAC
GGCAGGCTGGGTGCAGTGGCTCATGCCTATAATGCCAGCATTTTGGGAGGCTGAGGCAGGAAGACCGTTCGAGCCCAAGAGTTTGAAACCAGCCTGAGCA
ACATAGTGAAACCCCGTCTCTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTTGTTGCCGGTGGCTCGATCTCGGCTCACTGCAACCTCCGCCTCCCGG
GTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAACTGGGATTACAGGCGCCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCG
CCATGTTGGCCAGGCCGGTCTCAAACTCCTGTCCTCAGGTGATCTGCCCTCCTCTGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGCGCCCAG
CCAACCCTGTTTCTTTCTTTTTTTTTTTTTTTTTTTTTGATACGGAGTCTTGCTGTGTCCCCCAGGCTGGAGTGCAATGGCACAGTCTCGGCTCACTGCA
ACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTACAAACCCCGTCTCTTAAAAAAGGAAAAAATCACATGGCAG
AGTAGCATTTTAAAATAAAGTCACGAGGCTGGGCGCGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGATGCTGAGGCAGGCGAATCACCCGAGGTCAG
GAGTCTGAGACCAGCCTGACCTACGTTGAGAAACCCCGTCTCTACTGAAAATACAAAATTACCCGGGCCTGGTGGCGCATGCCTGTAATCCCAGCTGCTC
AGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCGGTGAGCYGAGATCACGCCATTGCACTCCAGCCTGGACAACAAAAGCAAAAC
TCCGTCTTAAAAAATAAATAAATAAATAACATTAAACTACGTCACTCAGCCTGTGAACAATGGCTCACGCTTATAACCCAGCAATTTGGGAGGCCGCAGC
AGGTGGATCACTTGAGGTCACGAGTTCGAGACCAGCCCGGCCAACATGGTAAAACCGCATTTCTACTAAAAATACAAAATTAGCTGGGTGTGGTGATGGG
CGCCTGTAATCCCAGCTACTCATGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAAGTTGCAGTGAGCTGAAATTGTGTCACTGCACTCCAGCCTGGG
TGACAGAGCAAGACTCCGTCCAAAAAAAAAAAAAAAAAAAAAGGGACCATGTTCTAGTGTAGGGGTAAGTGGAYTGTTTTGGCCCCAACCCCAAGAGGAT
CAAGGGAGACCACTGCAGCTGCCCGAGAAATTCTTGCCCTCTGACAAGAAACACCCTATCCRGTCTGGGGAATTTGCCAGTCCAACCCCTCCCCTTGGCT
CAAGATTCTGGGAAATCCTAAATAGTGTTTACCATTGGCCTTTTATCAGCTCCAGTATAAATGCRTCTGGCCAGACTTGCTTTACAACTATGCATAATGG
ATAGTTGGGCCAGGCTTGGTGGCTCATGCCTAGTGCTTTGGGAGGCCGAGGTGGGAGGATCACTTCAGCCCAAGAGTTGGAGGCCAGCCTAGGCAACATG
GTGAGACACCATCTCTACAAAAAAAAATTTTATTTTCTGTTTTTTTTTTGAGACGGAGTGTGGCGCTGTCACCCAGGCTGGAGCAACAGAGCCAGACTTT
GTCTCAAATAAATAAATAAATAAATAAAACCTGCAAAAAAAATTTTTTAAATGCCATTTTTCTTTCTTTCTTTCTTTCTTTTTTTTTTTGAGGCAGAGTC
TTGCTGTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATCCTCCTGCCTCAGCCTCCTGAGT
AGCTGGGACTACAGGCGCCCGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCT
GTCCTCGTGATCCGACCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTAAGCCACCGCGCCCGGCCATTTTTCTTTTTAATCAATCCTGCCACTTG
AAGATTATATGGTAAGGGAAATCTGCAGTCTATACACAATACTGAGTTGCTCCAAGCCCTTGAGGATTGTGAGGGACCCAGTGTTCTAATTCTTGCTAGA
GTGTCTACCTCCATGTTACCAGAGGCGAGTCTGACCGGGTACTGACATGTGATATACCATTAAGTGTGCAGTGGGTTCTTTTAGCCTTTCCCAAATGTCT
TTCCACATGGCAGCGCCCCACAGCATTTTCTTTTTCTTCTTTTTTCTTTTTCTTTTTTTTTTTTTTCTTTTTTTTCCTGGGCAACAGAGTCTCACTCTGT
TGCCCGGGCTAGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTCAAGCGATTCCAGTGCCTCAGCCTCCCAAGTAGCTGGGAT
TACAGGTGCACACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCCTGTTGGCCAGGCTGGTCTCAAACTCTTGACCTCAGGT
GATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTACGCCCGCCCTCTTTTTTCTTTTTTGAGACAGAGTCTCACTCTGTTGC
CCAGGCTGGAGTACAGAGGTGCCATCATAGCTTACTGCAGCCTCAACCTTCCCAGCTCAAGCGATCCTCCCGCTTCAGCCTCCCTAGTAGCTGGGAATAC
AGATGCACACCACCACACCTGGCTAATTTTTTGCAGGTTGGTCTCGAACTCTTGGGCTCAAGAGATCTGCCCGCCACAGTCTCCCAAAGTGCTGGGATTA
CAGGCATGTGCCACCGTGCCCGGCATATTTTCTTTTCAGTGTTTACCTTTTTGCCTCCTCTGAGGTGCTGGAGTGCAGCAATAAGAAAGTAATAATTTTA
GGCCGGGCGCCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGGCGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACACA
GTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGTGGGCGCCTGTAGTCCCAGTTACTTGGGAGGCTGAGGCAGGAGAATGGCG
TGAACCCGGGAGGCAGAGCTTGCAGTGAGCTGAGATCGAACCACTGCACTCCAGCCTGGGTGACAGAGCAAACCTTCATCTCAAAAAAAAAATATATATA
TATATTATATATATATATTTTTTTTTTTAGACCGGGTCTTCCTCTGTTGCCCAGGCTGGGGTGCAGTGGTGTGATCTCGGCTCACTGTAACCTCTGCCTC
CCAGGCTCACGCCACTCTCCTGCCTCAGCCTCCAGACTACAGGTGCCCGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACC
GTGTTAGCCAGGATGGTCTTGATCTCCTGACCTGGTGATCCACCCATCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCCGC
TGAGTAGTATTTTGTTGAATCCACTGGCAGCTTAAAGGACATTTGGGCTTGAGCTATGTACAGCTGCTAACACCTGTGCACTGGTTTGTGTGCAAACATG
TTATTTTTTCTTTCTAGGACAAATACCTGGGAGTATCAAAATTATTTTTTGATATTTATTATTAAATGATTTTTTCTTTTTCTTCATAGTAATGATATTG
TGTCCTATGTGGATTTCCCTCCCCCTAAACCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCTCTCTGTCACCCGGGCTGGAGAGCAGTGGTG
CGATCTTGGCTCACTGCAACCTCCTCCTCCCAGGTTCAAGCAATTTACCTGCCTCAGCCTCCCAAGAAGCTGGGATTGCAGGCGTCCGCCACCATGCTTG
GCTAATTATTTTGTATTTTTAGTAGAGATGGGGGTTTCACCATGTTTGCCAGGCTGGTTTCGAACTCCTGACCTTAAGTGATCCGCCCACCACGGCCTCC
CAAAGTGCTAGGATTACAGGCATGAGCCACTATGCCCTGCCCCCTCCCCCCACTTTTTTTTTTTGGTAGAGATGGGGTCTTGCTTTGTTGCCCAGGCTGG
TCTCAAAGTCCTGGCTTCAAGCATTCCTCCCATTTGGGCCTCCCACAGTACTGGGATTACAGGCGTGAACCACCGTGCCTGGTCCCATTTGTGTTTCTAT
TCAGCAGTTTGTGTAAACTTGAAGTCTGTGAATCCATGTGTGACACTCAGGTCTTAATTATTGTCTACCAAGTAAGAGAAAGTGACAATATCCTGCCCTG
TGTGAAGCTGGCCAGCCAGTTAGGAATTATCATGTCCCAACCAGCCTGGGAAACTTGGCAAGACCCTGCCTTGATAAAAAGTTTAAAAATCGACTGGACA
CAGTGTCTCATACCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTGCTTGAGCCCAGGAATTGGAGACCAGCCTGGACAACAAAGTGAGACC
TTTTCTGTACAAAAAATTGCTGGGCATGGTGGCTCATGCAGGTAATCTCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACCTGAGGTCAGGAATTCGAG
GCCAGCCTGGCCAACACAGTGAAACCCCATCTCTAGTAAAAATACAAAAATTAGTCGGGCGTGGTAGTGGGCGCCTGTCATCCCAGCTACTCGGGAGGCT
GAGGTAGGAGAATTGCTTGAAACTGGGAGGTGGAGGTTGCAGTGAGCCAAGATTATGCCACTGCATGATCACCCCAGCCTGGATGACAGAGCGAGACTTC
GTCTCAAAAACAAAAAACAAACAACAACAGCAACAAAAATTAGCAGGCTGGGTGCAGTGGCTCATGCTTGTAATCCCAGCACTTTGGGAGGCCAAGGCAG
GCAAATCGCAAGGTCAGGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCCACTAAAAATAAAAAAAATTAGCTGGGCATGGTGGAGGGCG
CCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCAGGGAGGCGGAGGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCC
TGGGGATAGAGTGAGACTCCGTCTCAAACAAACAAACAGACAAATAGCGGTAAGTGGGGCACATGCCTATACTCCCAGCTACTCAGGAGGCTGAGGCGGG
AAGATAGCTTGAGCCCAGGAGTACAAGGCTGCTGTGAGCTATTATCACGCCACTGCAGTCCAGCTAGGTAACAGAGTGAGACCCTATCTCTAAAATAATT
AATAAATAAAACAAAATAATTAGCCAGGTGTAGTAGCCAGTAGCTACTTTGGGTCCCAGCTACTGTAGTCCCAGGTACTAGGGTGGCTAAGGCAGGAGCT
AATTCCTTGAGCTAAGGAATTTGAGGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCTTCCTGGGCGACAGAGCGAGACCCTATATCAATAATAATTA
TAATAATACAGTATATTTTACATAATAGACCATAGAGCTCAATGAATCCTCCTCACAACCCTATGTAGGTAGATGTTATCATGATCTCTGCTTTCCAGAA
TAGAAAAGTGAGGACCAGAGAGGGCGACCTCTTGTCCAAAAGCAATACAGCCAAGAAGGGGCAAGGAGGGTTTTGAAACCAGTCGGCCAGGCTCTGGGGC
TCCTAACAAGCAAAGCAGCCTGGTTTCTAAAACTATAGCTTCTGGAAGCAGCCAATTCACAGGTCTTTACCTCCTGACTGTGAGACCTCCAAAAAATGAC
CAGGGATCTTGGAGTCTGTTTCCCCCTTTGTGAACTGGGGACAATAGAAGCTACTTCCCAGGTCTGCGGGGAGAAATTAGGAACGAAGAAGGTAAAGCGC
AGAGCTGAGGAGCTGGTCTACAGGTGCTCTATACATATTAGTAATAATTATTAAGTTTGCTGTTACAATCCTCTCTCTCTCTGTGAACAACCCCTAATGA
TGCGTGGCTTTGAGAGCAAAAAAGTCAGGGCAAAGTTTTGCCACAAAGTCCAGAGGGCAAGACATTAAATCTAACTCTCAAGGATTGGTGTTGGCAAGAA
AGCAAACCTCTCCTCCCCACGCTGTCCTTACCCCGCGTATCCGACGAGCCTAAAGTCATAGGTAAGAGATCTGTAGAAGCGACGTCAAGGTGTGGTTCCC
TCTGTAAGGCGGAGCTAAACGGTGCATTCGCCCAGCGGGGAAGCTAGAACTAAATGACCGCTCTGCCGACTGGAGCCAACGAGAATCGGCGTAGGCGCAA
TACGGGCGGAGGATGGGGACCCGCCCCCGGGGTGGGCGGGGCGTCAGGTACTTAATTCGCGCCTGGAGGGACCGAAGGTGCCGAGGGCTCCGCATCGCAA
CCATGGCGCTGCGCTGGGGCATCGTGTCTGTCGGCCTCATCTCCAGCGACTTCACAGCCGTGCTGCAGACGCTGCCTCGCTCTGAGCACCAGGTCTGCCC
GCCCTCCGGATTCTGGGGAAGAGGAGGCGGGGGGCGGGACTCCAGAGTCTAAAGGAGGAGGGAGTTTAGGGTTCAGGACTAGTGAGTGGGTCGTCATTGC
AGTGAAACGTCTGTTTCCTTGCTACCTCCTTCTCCATCTCTGTTCTGCAAACCTGTGGGGAAAAGAAAGATCAGATTGTTACTGTGTCTACGTAGAAAAT
GAAGACATAAGAAACTCCATTTTGAACTGTACTAAGAAAAATTGTTTCTGCTTTGAGATGCTATTAACCTGTAACTTTAGCCCCAACCGTGTGCTCACAG
AAACATGTCCTGTATTGAATCAAAGTTTAATGGATTTAGGGCTTTGCAGGATGTGCCTTGTTAACAATATGTTTGCAGGCAGTATGCTTGGTAAAAGTCA
TCGCCATTCTCCATTCTCTATTAACCAGGGGCACATTGCACTGCGGAAAGCCGCAGGGACCTCTGCCCAAGAAAGCCTGGGTATTGTCCAGGGTTTCCCC
CCACTGAGAAAGCCTGAGATATGGCCTCGTGGGAAAGGAAGACCTTACATCCCCTAGCCCGACACCAGTAAAGGGTCTGTGCTGAGGAGGAGTAGTGAAA
GAGGGAGGCCTCTCTGCAGTTGAGATAAGAGGAAGGCTTCTGTCTCCTGCTCTCCCTGGGAATGGACTGTCTCAGTGTAAAGCGGACCATTCCCATTCCT
TCTATTCTGAGATAGGAGAAAACCTACCTGTGGCTGGAGGCGAGATATGCTGGCAGTGATACTGCTCTGTTACTCTTTGCTACACTGAGATGTTTGTGTA
AAGTGAAACATAAATCTAGCCTACGTGCACATCCGGTCACAGCACCTTTCCTTGAACTTATTCATGATACAGATTCCTTTTCTACATAGACACAGTAACA
ATCTGATCTCTCTTTCTTTTCCCCACACAAACCTGAGTGTCTTGAGGTTTGGAAAGGCCTTGATGTAAGCTACTATGAAGATAATTTCAATATTGGGGGA
TTTAATAACGGCTTTCCCCCAGATCTCTCTTTCCCAGGGCCCAAATGTCCAGCCCCCGTCATCTCTTCCCCCAGGACCACGTCTCCCCTTCCCCTGGCC


SNP Information

Context             (SEQ ID NO:62441):
AATTGTGTCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCCAAAAAAAAAAAAAAAAAAAAAGGGACCATGTTCTAGTGTAGGGGTAAGTGGA
Y
TGTTTTGGCCCCAACCCCAAGAGGATCAAGGGAGACCACTGCAGCTGCCCGAGAAATTCTTGCCCTCTGACAAGAAACACCCTATCCAGTCTGGGGAATT
Celera SNP ID:            hCV25956990
SNP Position Genomic:     6474
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(T,20)   total(C,2|T,52)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62442):
CTGGGGAATTTGCCAGTCCAACCCCTCCCCTTGGCTCAAGATTCTGGGAAATCCTAAATAGTGTTTACCATTGGCCTTTTATCAGCTCCAGTATAAATGC
R
TCTGGCCAGACTTGCTTTACAACTATGCATAATGGATAGTTGGGCCAGGCTTGGTGGCTCATGCCTAGTGCTTTGGGAGGCCGAGGTGGGAGGATCACTT
Celera SNP ID:            hCV25971100
SNP Position Genomic:     6665
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,25)   caucasian(A,14|G,8)   total(A,25|G,33)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62443):
AAATTACCCGGGCCTGGTGGCGCATGCCTGTAATCCCAGCTGCTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCGGTGAGC
Y
GAGATCACGCCATTGCACTCCAGCCTGGACAACAAAAGCAAAACTCCGTCTTAAAAAATAAATAAATAAATAACATTAAACTACGTCACTCAGCCTGTGA
Celera SNP ID:            hCV3170887
SNP Position Genomic:     6056
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62444):
GGGGTAAGTGGATTGTTTTGGCCCCAACCCCAAGAGGATCAAGGGAGACCACTGCAGCTGCCCGAGAAATTCTTGCCCTCTGACAAGAAACACCCTATCC
R
GTCTGGGGAATTTGCCAGTCCAACCCCTCCCCTTGGCTCAAGATTCTGGGAAATCCTAAATAGTGTTTACCATTGGCCTTTTATCAGCTCCAGTATAAAT
Celera SNP ID:            hCV25956836
SNP Position Genomic:     6562
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,6)   caucasian(A,20)   total(A,48|G,6)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,5)   caucasian(A,22)   total(A,51|G,5)
SNP Type:                 MISSENSE MUTATION


Gene Number:                 366
Celera Gene:                 hCG2040788 - 209000073579448
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W0QP(43486514..43499218)
Chromosome:                  Chr14
OMIM number:                 113503
OMIM Information:            BRADYKININ RECEPTOR B2;BDKRB2


Genomic Sequence (SEQ ID NO:12526):
ATTGATGGCATTCTTCTCACAACCTGTGATATCGTGATATATTAGGAAATACATATTTGGTCTTTGACACCAGTTCCTGACACGGAGCTCCTAACTCCCT
TGACATTTCTAGATGATAGGCACATCTTTTGTTCTAATGAGGTGGCTCTTGGTGGTGGCTGGATAGGCTCAGGATGGGGGCTGTCATCAGAATGACCAGA
CCATGATACAAAGCTTGGAACTTTCACCCCACATCCTCCAGGAAGGGAAGAGGGGCTGGAGATTGAATTTATTATCCATCATGCCTATATGATGAAGTCT
CCATCAAAATCCCTAAAAGACAGGATTGGGAGAGCTTCCGAGTTGGTGAACGCAGGGAGGTGCTGAGCTGGTGGTGCCCCCAGAGACAGCACCGAAGCTC
CAGGCCCCTGCCCCACGTGTGGGTCTGTGCCTCTCTTCCACCTGGCTGTGGCTGAGTGGTGTCTTTTATTATAAGTCAGTAATGTAAGTAAATGTTTCCC
TGATGCTGTGAGCCATCCTAGCAAATTACTGAACCCGTGGAGGGGGTTGTGGGAACCCTGCCTTACAGCTGGTTGGTCAGAAGTGCAGGCCACTTGAGAC
TTGCGATGGGTTCTGAAGTGGCGGCAGTCTTGTGGGACTGAGCTCTTATCCTGTGCTGCCTCCGGGCAGATAATGTCAGAACTGAACGGAATTGTAAGAC
AATTTCTGAGGAAATAAACCCACACATTTAATCACAGTGGCATCGAAAGGATTGAGTGGGAAACTGTTTTCCCTACACAGAGCCCTCAACCCCTATGACC
CACTCAATCGTCCTTAATCCTTCCTCTCTCTCCTCTCCAGTGACCTTGGCCCCTTCTTTCTAGAGTCAGGCTTTCTGTCTGTCCCAATGTCCTTTGTCCT
TACCCAGCCTCTTCCTTGCTGCTCTAAACACCAGGACGCTCTGGTTCCCCACAAGCCCCCTTGCACCAACCACTCAAGCACCTCTAGCAAATCTTCCTCC
TCCAGGAAGCCTTTCCAGACAGCTGACTCTCCCCGGCAACCCCTCCCAAATAAACTCAGAACTCTGTCCTCCGGGTGTCTACTCAACCACACTGGTTCCA
AGGTCCCAGTGTAAATACTGTGAATGTCTGTTGACGTCTCCTGAGTCCTCGCATACCCTACTTGAGCGAGGGGCTAGGACTGTGCCCACATTGGTGGTCT
ACAGCCAGCAGGGCTCCAGACAGGACACCCACCATGAATAGCATCAGGACAATGCTGATGACGACAACGAAGCTGATGAGCTTGCACCAGCATTTACAGA
GCATTTCCCTGTTTACATTGCATTCATTCAACAAATTTATGAGTGCTTAGTCTGGGCCAGCAACCAGGGAATAATAATAGCTTCAGTTTTTGGAGGCTTA
CTATGAATGCCAAGCAATGTTCTAAGCACTTTCCATGAAATAATTCATGTAATCCACACCTATTTTAGATGCAGGCACTGGTACTATCCCAATTTTATAA
AAATTGGAGGAATAGAGCAGTGAGGTGACTTGTCCAGAGTCACACAGAGGTGGCTTGTCCAGAGTCACACAGCTGGTGATGGGTGGAGTTGGGATTTGAA
CCCCGGCACCTCACTGCATTATCTCTCTTTATAGGGGGATATAGTGGTGAAGGACAGATGGTGCCTGCCCTCAGGGGTCTCCCAGGTGGTGGGAAGTGTG
CCCAAGATGGGGACAGGAGGTGTGGGAGGCTTCGTGGGGGAGATGATGACCTGAGGCCATGGCTGTGTCCACGCACTCCAGGTAGCCTCAGTTGCATCCC
TCTCATATACGCTCTCAAGTATAGATCTCATCTTGGCTTTTGAGCCAGGATGCCTGGACATGGTCAAAGGTGGGGGGCAGTTGGCAAAATCTGGAAGCAG
GAAGCGAGGGGGCTGAGGCACCAGACCAGAGGCACAACGGAGGCCTCAGCCAGGTCTGGGGAGATGGAGGAAAAGGGATGGATTCCAGAGAGGGCCTTAA
AGGGGGTGGGGAGGGAGGGGCAGAGGAGGTGGCCCTCGGAGTCTCATGTTGGTACCTCCAGATCTGCAGGATCTCAGCCAATGACCCCAACTCCTTAGAA
AACGGACAAAAAGACCTTGATGATCTCATTTGTTCCCAAGCCTCCACTTCTCCCAAAGTAAAGATCTGTCAGCTTCCTTGTATTTTTGCTTTTTGTAATT
GATTTAAAACACTTCAGGGTCTATGTGTCATGGTGTGGATAAGCTCGTGCCTAGGAAACCTCCTCCAGCTCCTCCTGAGCTGCTTGAGGGACAAACTCAT
GCCTCTTTCACCTTTGAGACCCCTGGCATAATGTAGAGTCCTGATAGACACTTTTTAAAATAAATACCCCCGGCATTTCCTCTGACTTGCCCAGGACCAC
ACAACTCTCAGGGGAGGGGTGGGGGCTGGGACCTGGTACTTGGGCTCCTGTTGCTCTGCCCTATGCCCTTGGGGACTTCTGGACAAGGGTGCGCTTCCCT
GGGCTGACAGAGGAGACAGAGGTAGTGGGGTGCTGGTAAATGGTTAACAACGGGCTTTCTGGAAAAAAATGCCCTAACCGTAGCATTTGCAAATTTCTAT
GGTATAAATACTCTCGCAGTGACCAGTTTCAAGTCCAATGTCACAATGGCTCACTGCAATTGGCTCTAGGGTTGGTCGGCCAGAAAGGTCCCTGGACCAC
CTCCCTCTCCTGCTCCACAAAGGGCAGGAGCTCTTCCAACTCCTTCCAACTCCTACTCATCCTTCAGAACCTGCTTGATGTCACCTTCTCTAGGAGACCC
TCCCAGGCACCGTAGAGACACCCCAGCCCCAGTGCTCCTATATGGCTGTCAGCACACTTTATGGAAACAGCACACTTAACTTTCTGTCTTCCCTCCACTG
TGTCCCCACCTCTTAGCACTGGGCCTGGCCTACGACAGGGGCTCAGGAAATATTTGTTGAAAGGACAAGTAATGATGCTGATGCTGATAGTGACAGCAAA
TGCCTATATCATCTGCAATGTGCCAGTTCTAGTCTCTTTTTTTTTTTTGCTACAGTTAGGGCATTTTTTTCCAGAGAGCCAGTTGTTAACCATTTACCAG
CACACCATTGCCTCTGTCTCCTCTGTCAGCCCAGAGAAGCCCACCCTTGTCCAGAAGTCCCCAAGGGCATAGGGCAGAGCAGCAGGAGCCAAGTGCCAGG
TCCCGGTCCCCACCCCTCCCCTGTGAGCTGTGCAGCCCTGGGCAAGTCAGAGGAAACACCGGGGATATTTATTTTTCTCATAAGAGAAAACCCCATTTCT
CTTAAGGGGTTTTTGGTTCTTGTTTTTTGAGGCAGAGTCTCGCTCTGTCACCTAGGCTGGAGTGCAATGGCGCAATCTTGGCTCACTGCATCTTCCGCCT
CCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTTCTGAGTAGCTGGGATTACAGCAGCATGCTACCACGCCCTGCTAATTTTTGTATTTTTAGTAGAGACA
GGGTCTTGCCATGTTGGTCAGGCTGGTCTTGAACTCCTAGGCTCAAGTGATCCCTGCCTTGGCCTCCCAAAGCGCTGTGATTATAGGCGTGAGCCACCGT
GCCCGGCCGTGCCAGCTCTGTTCAAAGCACTTCACAGATATTAACTCATTTAATCCCCACAACACTCTAGATGGGTTTTTATTTGTTTTGGTTCGTTTGT
TTGTTTTTTTTGAAATGGGGTCTCGCTCTGTCACCCAGACTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACCTCCGTCCCCTGGGTTCAAGCAATT
ATCCTGCCTCAGCCTTCCTAGTAGCTGGGATTACAGGCATGAGCTACCACACCTGGCTAATATTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTG
GCCAGGCTGGTCTCGAACTCTTGACCTCAAGTGATCTGCCTGCCCTGGACTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGCTCTAGAT
GGGTTTTTATGTCCTTATTTTGCAGATGGGGAAACCCAGCCTCAGCGAGTCAGTGGCAGAGCAGGGCCTGGGATGCAGCTCAGAAAGCTCTCATGTCCTT
GGGCTTCCCTTGTCCTGTAAGATGGGTGGGGCCAGTAGCATTGCCCTCACTTTAAAAAAGCAAAACAGGCTCAAATTCCAGCGAGGGGCTTATGGAAGTT
TAGGTGAAGAGCCTTGGCTAAGGTCATCCCACTATGAAGTGGATGGGGATGTGGTAGAATTAGCACTTAGGGGTCTCAAGTGCAAAAGCGCTTTGTAAAC
CATCAAGGACCACAGACATGCTAGAGCCAAAGAAGTTGGAAAAATCTCACCATTTAGATATTTTTAGTCCAAGCTTAACAAGTAAGGAAACTAAACCTCT
GAGAGGGAGGTGACCTGTCCAAAGTCATGCACGAGCATCTCAACCCTGCCCCTCTGCACTTTCCACAATCCCAGAGTGGCACTCATTCCTTAGTGGCAGC
GGGCACTGCACTCGACAGCTCATGCCATGGTGGGTTTGCACGACAGTCCTTTCCCTGAGCCTCACGATTGTCCTGGAGGAACTTGTTATGCCCATTTACA
GGTGAAGGAACTGAGGCTCAGCAAAGGGAAGTGATTTATCCCATCTCACAGGCTCGTAAGTGGGGACCTGGGTGACTCTGCATACAAAACCACCAGAGAG
ATGAAAAGAACCGAGAAAGAGCCGGGTTGATTGTGGTCAAAAGCGTAAGGCAGACCTGGTTGGAGGAGCCTGGAGCCTGGGGCTCAGAAGGGACTTAGGG
ATCGCTGCCTGATTTTTGGTCATCCAGCAGTTATAGGGCCGCCTCCTTAGAGCCTGGGGGCTTCCTGGATGCATAGCCTGTCCCTGCCTCGGGGCTCCCA
AGACAGGTGCTCTGGCTGGCGCTACTGGGAGAGTGAGGAGGTGACAACAAGGTCTGGGATAGACCCCCAGCCCCCCACTTCACCTCTCTGAACTTGGGCT
TCCTCATCTGCAAGATGGGGGACCCAGTTGTTATGGCAGTGAAATGAGGTAGTGCCACCAGACGCCTAGCCCAGGGGCTGGCATGGAGCCAGCGTCCATC
TGGGACAGCTGCCCTCAGTGTTGCTATTGCTATGGTTATTTTTATTATTAGACTCAACAATATGCCTTTGAGCAGGTGGCTTTCACTCTTTGGGCCTCAG
TTTCCCCATCTCTAGGGCAAAGGAGGATGATAAGATAGATTATTTTGTAAAATCCTTCCAGCTGTGACCGTCTGCGGTGACTAGCTTTCTTAAATCTGTT
CATTCTGGTGCCAGGTGGGCCTCACCATTGTAGTGACTTCCTCTGAATACATACTGCAGTGTCAGTGTTTGCACATGCATGCACAGAGACACACATATGC
TGTCCTTTTTCTTCACACTATCTCGATTGTCACACACCATCAGTCCCTTGAGCACAGAACAGGGTGTTTGCTTATCTGAATCTCTGGTCCTGGGGAAGCG
CAGCTATCACTGAATGTTTGCTGAGCTGAGTTAGTTGCCTTTGGTAGTAGTTAGTTCCCTGTCACTAAAGGTATTCAAGTAAAGTCTAGGCAATGTTTCT
GGTGAATTTGGACCAGGATTACTTAAATTCTATAGATTTAAGCCCTAGGGCTATGTATAGCTACCCCACTCAATGCCACAGCCCCTCACTCCTTGGGCTT
TCTGGTTCAAGACACACATTTTACATTTGTAGGATGTGCCGATTGTATATCAGATGTGTGGGCCTAATTTTCCCATAATCCTCCAAACAGTGCTGTAGGA
TCTCCTCCTCCTCCTCCTCCTTCTTCTTCTCCTACTTCCTCCTCCTCCTCCTCCTCCTCCTTCCTCCTCCTCCTCCTCCTTCCTCCTCCTCCTCCTTCCT
CCTCCTCCTTCCTCTTCCTCCTCCTTCCTCCTCCTTCCTCCTCCTCCTCCTTCTTCTTCCTCTTCTCCTCCTTCTTTCTTCCTCTTCTCTCTTCTTTTTC
TTTTGTTGAAACAGGATCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTACAATTATAACTCACCATAGCCTCTACCCACCGGGTTCAAGCGATCCTCC
CACCTCATCCTCCCAAGCAGCTGGGACCACAGCTCCTGCCACCACAGCTCACTAATTTTTAAATTTTTTTTTAAAGATGGGATCTTGCCCAGGCTTGTCT
CGAACTCCTGGCCTCAAGTGACCCTCCTACCTTGGTCTACCAAAATGCTTCATTTACAGGCATGAGCTACCATGCCTGGCCTACTTCTTGCGGGGARGTG
SGAGGTACAGAAGAGTTCTGTTCCCTGTTATATAAAGGCCCACCCTCCAGGAACTGTGATTTGTAGCTCAGTTGGTAGGAGGGGTCTTGCAACCTGGCCC
GAGGCAGTGACTAAGGYACAGGCTATATGTGGGGCCCTGGGGTTTGTCATCTCTGCTGCTAACAAAGGTGGAAAATTCCTACTTCCTGAGCTGAGATTGA
GGATTCTGACATGCATGAGCTTGCCTACTTTCCTTGGTATTTCATTTTTGGAGCCAGAAACAAAATCCTCCCAGATGCTCTGCTTGGCYCCTGTGAGTCT
GACCTGCAGGCCTRTGTCTGGCAGAGGGCACGCAACAGTGGCTCACCTCCCACTCRCACTGCGCAGGGGCTGACACAGGGAGAACGGGAGTCATAGCTCT
GTGTCTGCGCTTACTGCAGTGCCCTTAACCTCTCTGAGTCTCAGTTTCCTTATCTGTAAGATGGGATAGATTATTGCTACTCAGTTTCCTTATCTGTAAG
AAGGGATTGATTATTAGTAGATGCCGAATCAATGTTAGGGATGACTATTAATAAGAAATTGCATCTGATGAGATGCCAGCTCCTCTGTCTCCAAGGACCT
GCCTTTTCTTCCTGTTTCTGATTCCTGCAGAAACTCCTGTAGCCAAGACAACATAAAAATAATCTAGTTTGCAAGTATTTAATGAGCCACTTACAGACTG
TGAGAGGAAAGCAGATGGCAGCTTCCAATGTCTTCTCTGAATAGGGTCAGACAGGAGGAGAGGGTTTAGTGGCTCCCAAACCTGTCTCTAGATCATTTAA
TATTTGGATAATTCAGTGAAGAAAACCCAGAACCTTCAACCCCCTCCCTTTTTTTTTTTGTTTGGCATTTTTGAAAATAATCAAAAGGACAGGAAAAGCT
TTATGCACAGAGATGTTCCTCATCATGCAGAAGAAGGGTCACAGGAAACAACCTAAATGTTTAGGACCAGGCAGTTGGTTAAATACATGATCTTATATCC
ATTCAACAAATGTCAAGCAGACATGAAAAAAGGATGCTTCTAAGAGTTCACCAAAAATGAGAGAATGTTTCTGATAACATGTTAGGGGAACAAAAAGCTG
GGTAACCAAATTGTACATACAACAAAGTTCAAAAGTTGAGAAGGCAAAATACCAAATTATTACTGGCGCTGGTTGTCTTTGAGCATGGGATCATAGGTTG
CTTTTGGGTTTTCTTTACTGTTTGTCATGGTATCCAAGTTTTCTGTGAAGAACATATATTCCTTTGGCAATAAAAATATTTAAATAAGCCAAGTGTTTGG
AATGAATTATGGGTTTATTTACGTAAAAAAGATAATCAGCCAATTTGTGCTTAAAGGAACTCTCTTAGGTCTACAGCTGCCCCCCTGGCAGCTCTGATGC
ATTCGCTGCTGCAGAAAAGCCTGAACCCAGCCTGATTTTTCTTGCTTTATGGATTGCCTGTCCCCGCCCCCACCAACTCCCCAACCTCCAGTCAATCTGG
ATGCTTATAGTATTTTCTTTTTCTCTTTTCCATTCAAAAGTGCTGTCAGATGTATTTAGGGGACACTGTCTCGTCTCACCCCTTTTCATAACCTGTGAGC
CGGGCAAGGCACCATTGCATAGGTGAGGGCTTGGAGGCTGGAGAGATGAGGGACTGGGACTCAAACCACATTTCGGGATTTGGGGACATCTCCTGGCTGT
GCCCTGAGGCCACCCCGACTCTGGCATGTGAGGCAAACCTGCTGTACAACGAAGGGGTCTGGACAAGGGAGTCTCACCAGGGGTGTTCAAATCCCAGCTC
TGCCGGTCACTAAGGGAGGGACTGTAAGTGTGTGGCCTCCTGTCAGAGCCCAGGTCCCCGCTTGTGGGATAAGGAGCATTGTCCCCGGCAGGAGGGCTGT
TGTGAGGATCCAGTGTGGTCATCCCTGGCACTCAGGAATCCTTCCTGTTGGTTCCCGTCCTCTCTCAGGAATGACAGTCGCCTCCTCTTTCCCCCAAATC
CACAGATTGTTCTGTCAAGTGATGGGCCTGGGTGCCCTCACCTCCACCCCCTCAGCCACAGACACCACAGTCCAAACAGACTCCCGGAAGATACGGCCCA
GACCACTTGCAGGGAAAGTCCCTGCGGCTGTACTCATCCTCATGGAAAACATGAGGACTGGCGGGGACTGGAGGGCAGGGAGTGAGGGGACATGCAGGGT
GCCCCCGTCACAGGGCAGAGGGCTCTGACTGGGGCTTTTGGATCACCGCCCACCATGGGGAGGCCCAGGCAAGGGACTCATGCTCCTACCCATCTCTCCA
GCCCCAGCTCCTCCTTCCCCTCCTGTCCCCTCCCTGCCCCACTGGTCTCCCCTGGCCCTGCCTGAGCATCTTTGGGAGTTCCCACCTCTCGACCTTTGCT
TATGTAGGGAGGCAGGATGCGATGGGAAGACCCAGGCCAGGCTCCAGGGCCAGCCCAGTCTCTAGCTAGCTCTGTCTCCCCTCTAGGGACCATTTCCTCA
ACTGTCAAGTGGAGACACAATGCCTACTTGGCAGGTTTGTCGGGGGGGATACTTGTGATTGTTTTGGGGGGCCAAGGGTGCCCTGGGGCTCAGGCATATG
TCAATGGCACTGGGCAGTCTCCCCTACCCTTTCTCTCCACTGTGCACCCTCCCTTACTTAGGGAGACCCTCTACTTTACCTAGGTCTAGGTCCTCCAACT
TGAAACCTGCCCACAATGACACATCAAACATTGTAGGTGTGTCATAAGCTGGTGTGAGGACATGCAGGCAGCAAAGAAGCAACTTGTGTGTGTACACATG
TGTGTGTGTGTGTGTGTGTGTGTGTTTGGGTCGGTCCAGACAGAGGCCCAGGAAGAAGAAGAGTGGAGATCCTGCCACATGGCTCCTGATGCTGGAGGCT
TAGGGACAAACCATCAGTGTGACTGTCCCAGTGTCCTCTGGGGATGGGACTTGGGGTTACAGATTCAGAGAGCTGTGTTAGAACCACTTGGGTCTCTGCC
TGTCTCTCCCACCAGGCTCTCAGCTCCTTGTGGGGAAAGATCTCTGAGCTGAGGGGAGCCCTGAGCAGTCTCTCAGTAAGTGGTTAGGGGAGGAAGGAAT
AAACCAGCTTCCTGAGTCTAGGCACAGTCTGGGTACTTTCATACACAGTCCTATTGTGTTGGCACAGCAGTAGTCTTTATCACACAGGTGAGAAAGGAGA
GGTTCGGAGAGGTCAGTGACCTGTCCTGGGTTACTCAGCAAGTAATTGGCCTAGTAACCTAACCCAGGACTGTTGAACAATCGGGCCAGTTGGTGCCAAT
TTCTAAATATTGACTATTAAAAAAATACTGGTGGCGAAATAGCTAGCACATCTGTGAGCCTGTTTGGGTTGTGGGCTCAGACCGAACTCCTATAAAGCAT
ATGAAGCAGAGATGGTAGAATCCCAGGCAGGGGCCATGGAATGGGGGAGGGGGCATTAACTCCTGCTATCCTACCTTTCTATAGGTGAGGCGCCTGCTGT
TCAGAGACACAGGAGCATCAGCAAAACCCATCAAAGAACTGGGGGCCAGGGTAGAAAGGAGACCTTTCTGGGGGTGCTGATGGAAACTCCTACCCAGGCA
AATCTTGCTTCCCAGGCATTCCCCCAGTGAAGACTGCACTGCTGTGCCCAACTTTGGCTGCAGGCTACTCTTTACCACCCAAGCGAGCCGCCACCCACTG
ATCTCTGCCATCAACTTATTCTAATTCTCTGCATAGCACATAGCACTTCCTGGGATTGCCCTTCTCCTGTCTGCTCTTCAAAGAGCCATCCTTAGATGGC
CTACTGACATTAATGCTTTTTACCTTTCTAACTTGTCATTTTGTTTTTGTAATTCTTTTCTTTCTTCTACTTTTTTGGATCATTATTATCTAGTTTATTG
AATTGAACAGTTTTTTTTGCAATCTTTTTGGTTTAATAATTTAAAAATTTAAAGGCATGACTCATCCCCTGACTATGGCTTTGGCTGCATCCCATAAGTT
TGGTAAGCAGTGTTCTTATAGTTAGTTGTTTCTCAAATATCTATAATTTCAGTTTTGATGATCTGTCTCTTTGATGTAACAGTGTTTTCTAAAATTTTCA
AGTAGTTTATTTCTATTCAAGTTTGTTTTGCTTTTTATATTTAAATTTTTGCAAAGAGATATGCATCCTCATGGTAACATTTCAGAGTGGGAAAAAGAAT
ACAGTGAGGGGTAGGTCTCCCTCCAGATTCTGTCCCTGCCTGTTGCCTCAAGAGACAGCCAGGCTCACTGGTGTCTCCTGTTGCTTTCCAGACATCTTCT
GAGCTTTCAGGAGCAGATGTGCACATATCCATGTATAAGGACGCCTGCAGAAGCACCCTAAATGCACCGCCGGCTGTGTCCTCACCTCTTTGCATTTAAC
AATCTGTCGACCCACCTTGCTTTTCAATAGCCTCACAGTATTTCAGAGTAGGACTGCCCTGTAATGCACCGGCCTTCGCAGGGAGTTCCCAGTTTTCGTA
GGTAGTTTGCAATTCTACTACTATTTATAGCTGAAGGAACCGAAGGATCCCAGAGACCACATCCCTTGCCCTAGGTCACACAGCAGGGGAGGAATGGGGT
GGGATTCAATCCCTGTGCCTGGCTTCCGAAAAAGGAGGAGCGGGAGGAGGAGGGAGAAGGGAAGTGGGTGGAGAGAGGAATCATCTTCACAGAGTCCATC
TCCCCAATGTGCTACAGTTCATTTGAGGAGTCCCCCCAGGTTTTCACTACTTTTGGCTATCACAAATGATCAGCACAGATCCCTCATCTGCAGGCCCTGG
CCCACGTGTGAGCACACCTGTAGCAGGTGTGCAGACCCTCTCCTGCCTCCCCTGACCTGTTCTTGTGTTCTAGCCATTGCTTTCTGGATCTTTCTGTTCA
AAGAAGACCAAGAGGTCCTTCTCTCACCTCTCACTTTGCTAACCGGCCAGTGGGCTCCAGAGTGGGGGTGATGTACCCCAGGTGCAGCAGCGCATGCACA
AGGTGCAATCTCCGAGGCTCCGGGAGAACCCCAGAGAGCCTCCCTCTGTGGTCAGGGAGTGACCCCTGCACTCTTAGAGCACAGCAGGTGCCAAGCATGA
GTGGGTGCTAGGGGCTGAGGGAAAGGCCCAGTCTTTTCCCTCGAGAGGATTCCTGTTTGGTAGGGATGGCGGGGCACAGCCTGATGCTTCCCGAAATGTT
TGGGCCCAAATCTACCTTGAAAGGAGCTGGCTGTGAGCTGTGTGCATTTAACAATCTGTCCATTTAAATTTTTGTGGAGATGGGCAGTTTGCTAATAACT
TGGATCGGGGAGGGTTTCTGTCCTTTCCTGAGGCAGCAGGCACATGAGCACAGGTGCCAGAGAGTGAAGAACAGGTTTGGGGTCCCCAAGTTTTTTGGCT
GGTGGGACTAGGAGGAAGGGCCTGAGGAGAGTGGCTTTTGGGTCCAGGACAGACCATTTGCTAAGGTAGCTTGTTTCAAAGTGTGGCTGAAATCCCCTGA
GATATTAGCAAGTCCTTGAGTACTGTAAAGGAAAACAGAAATCTTGGGACCCCCAAACTCTTTATGCCAAAGGGAAAGTTAAGCCTGGAGACTGAGTCAG
CCAACATTGTCATCCTTATTCCTAATGACAGCTGTTACTCCACAACCTTAGACATTAGCCAGACCCCCACAGAAAGGAAAAGGCCTCGGATATCTCCCCA
TGACTGCCCCCACAAATTGTTCTTTGCTGGGTGAAACCTTTCAAGATGTGGATCTTACCACAAAACAAGGACACATCAATTGTAACTTGAGGTCTGCAAT
CCAAGCCTAGCTCCTCACACTCAAGTCTGTTAGAGTCACGCTGATGGTGCTGATCTCCCCAGGTACAGCACAAAAGCAAGACAAAGGCAAGATGAGATCA
GGCCTCCTTCTGCCTAACCTCCTCTTCCTACATGCTTTCTCCACTTCAAGGACATGTGTAAATACTGTGAAAGAAAAATAAAATTAAAATCCCCAGACCC
CAAACGCACTAAGCCAAAGGGAAAAGTCTAGCTGGGAGCTGGGTCATGCAACCCGCCTCCCGTTTTGTGTCTAAATGGATAACTATTTACTTCCCTCACA
TTTTGCTCACAGTGAAATTCCTTGTGGGCCCCAGGATCTTTGCCTTCAAGCAGCTCTGTTGTATTTCACCCTCATGATATAAATTAACAGCTTAGCTTCA
CAGGTATGGAACAAAGGATAGAACCCAAAGTCATCCCTCTGCTCACCTGAGACGAGTGCATAGCTGACAGCTTCCTATATGCTATGATGATGATGATGAT
TATTATTATTATTATTATTATTATTATTTTGAGATAGAGTCTTGCTCTGTCACCCAGCCTGGAGTGCAGTGGTGTGATCTCAGCTCCCTGCAACCTCTGC
CTCC


SNP Information

Context             (SEQ ID NO:62445):
CATGAGCTTGCCTACTTTCCTTGGTATTTCATTTTTGGAGCCAGAAACAAAATCCTCCCAGATGCTCTGCTTGGCCCCTGTGAGTCTGACCTGCAGGCCT
R
TGTCTGGCAGAGGGCACGCAACAGTGGCTCACCTCCCACTCGCACTGCGCAGGGGCTGACACAGGGAGAACGGGAGTCATAGCTCTGTGTCTGCGCTTAC
Celera SNP ID:            hCV25934034
SNP Position Genomic:     6614
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(A,3|G,37)   total(A,11|G,67)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,24)   caucasian(A,3|G,37)   total(A,11|G,61)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62446):
GTCTCGAACTCCTGGCCTCAAGTGACCCTCCTACCTTGGTCTACCAAAATGCTTCATTTACAGGCATGAGCTACCATGCCTGGCCTACTTCTTGCGGGGA
R
GTGGGAGGTACAGAAGAGTTCTGTTCCCTGTTATATAAAGGCCCACCCTCCAGGAACTGTGATTTGTAGCTCAGTTGGTAGGAGGGGTCTTGCAACCTGG
Celera SNP ID:            hCV25935271
SNP Position Genomic:     6297
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62447):
AGCTGAGATTGAGGATTCTGACATGCATGAGCTTGCCTACTTTCCTTGGTATTTCATTTTTGGAGCCAGAAACAAAATCCTCCCAGATGCTCTGCTTGGC
Y
CCTGTGAGTCTGACCTGCAGGCCTGTGTCTGGCAGAGGGCACGCAACAGTGGCTCACCTCCCACTCGCACTGCGCAGGGGCTGACACAGGGAGAACGGGA
Celera SNP ID:            hCV15842495
SNP Position Genomic:     6589
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,13)   caucasian(C,25|T,15)   total(C,34|T,28)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,19)   caucasian(C,25|T,15)   total(C,44|T,34)   
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62448):
CGAACTCCTGGCCTCAAGTGACCCTCCTACCTTGGTCTACCAAAATGCTTCATTTACAGGCATGAGCTACCATGCCTGGCCTACTTCTTGCGGGGAGGTG
S
GAGGTACAGAAGAGTTCTGTTCCCTGTTATATAAAGGCCCACCCTCCAGGAACTGTGATTTGTAGCTCAGTTGGTAGGAGGGGTCTTGCAACCTGGCCCG
Celera SNP ID:            hCV1772933
SNP Position Genomic:     6301
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62449):
TCTGTTCCCTGTTATATAAAGGCCCACCCTCCAGGAACTGTGATTTGTAGCTCAGTTGGTAGGAGGGGTCTTGCAACCTGGCCCGAGGCAGTGACTAAGG
Y
ACAGGCTATATGTGGGGCCCTGGGGTTTGTCATCTCTGCTGCTAACAAAGGTGGAAAATTCCTACTTCCTGAGCTGAGATTGAGGATTCTGACATGCATG
Celera SNP ID:            hCV25933600
SNP Position Genomic:     6417
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,13)   caucasian(C,29|T,11)   total(C,54|T,24)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,5)   caucasian(C,27|T,11)   total(C,38|T,16)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62450):
AGAAACAAAATCCTCCCAGATGCTCTGCTTGGCCCCTGTGAGTCTGACCTGCAGGCCTGTGTCTGGCAGAGGGCACGCAACAGTGGCTCACCTCCCACTC
R
CACTGCGCAGGGGCTGACACAGGGAGAACGGGAGTCATAGCTCTGTGTCTGCGCTTACTGCAGTGCCCTTAACCTCTCTGAGTCTCAGTTTCCTTATCTG
Celera SNP ID:            hCV25935907
SNP Position Genomic:     6656
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,22)   caucasian(A,4|G,36)   total(A,6|G,58)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,4|G,36)   total(A,11|G,67)   
SNP Type:                 MISSENSE MUTATION


Gene Number:                 367
Celera Gene:                 hCG2040932 - 209000073580778
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(39909655..39927898)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12527):
TGCATTTATGAGCAATAGCCCATTCTCATTTTGAAATGCACCCATGCATAGCAGTCAAAGCAGAGACTGGAGCCCACCCAGGTACATGAGATGAAGCAAA
TGCCTTTCACACAGATGGTCCGTCATCCATAGACTAGGGATAACAGTAACTGCCTCAGAGGGTTTCGTGAGGATTGAATGAGTTGCAACATGGAGAAGGC
ACAGAACAGTGCTTGGCACATAGTAAGTGCTATATGAATATCTCTCTCTATTAGTATTATTCCTAACTCATGAACCTGGTTATTTACCAGCAACACAACA
AGGAATATCTAGTTTGCGCCTTTTTTTGTGCTAGGCACTATACCGGATGCCAAAAGGGGATAGAAAAAGCATTTTTTAAAGACAAGCCCCTAGGGATCTG
TTAGAGCAGAGGGCGAGAGAGTATGGCACTGGGACGTGGGGGCCACAGCTCGACCCCTCACACTGAGCAGAGCTGCCTGTGTCTCAGATCCTTCGAGAGA
TATCGGCGTTTGATGTCACCTACACCGCCATTGTCATCTCACATTCTGGACGCATGATGTTTGTGGGCACCTCGGTGGGAACCATTCGTGCCATGAAGTA
CCCTCTGCCTCTGCAGAAGGAATTCAATGAGTACCAGGCCCATGCCGGTCCTATCACCAAGGTGAGCAGGGCCCTCTCCCCAGGAACCCAGTCCCACACC
TGCCTGCTACGTGCCTTGTTCATCCCTTCAACCTCCCAATGTCTTTTCTCTCTCCTTCTTCTCTCTTATTTATTCATCCATCATTCATTGAATCACCATC
TATTGACTATGAATATACTCTTTGTTTAAACTACTTCCAGGAATTTAGCCTAGGAAATCATCAGAGATACACCTAAAAATGTATGTACAACGTTTTCACC
ATAATATTATGCATAATAAGGGGCCGTTTGGTGGATGCCGTAGCTGCCGTGAGTGTGGGCTGCACTTGACCACAGCTGCCTCCTCCTCCAGAGAATGCCC
CAGACTGAAAGGAGCCATAGCCCTGAAGATTGGCCCCTACCTCTCCCTGAGGGTACAAAAGGCCACCCCAGGGGCAATACCATGAGTACACATTTGTAAA
TTGTCCTTCCATTCACCCTTCTCATAAAGTAGTATCTATGTTCAACAGTCAAAATGTGGAAGCAACCAAGCATCCATCGACAGACGAATGCATAAGCAAA
AGATGGTATATCTATACAATGGAACAATACCCTGCCTAAAAAGGAAGGGAATTCTGCAATGTGCTACCACATGGATGAACCTTGAGGATGTTATGCTAAA
TTAAATAAGGCCAACCACAAAAAGATAAGTACAGTGTGATTCCACTTTTAGGAGATACTTAGAGCAGTCAGAATCACAAAGACAGAGTGGTGGTTGGCAG
GGGCTGCAGGAAGGGGGAATGAGGAATGATTGTTTCATAGGTATAGAGTTTTGGTTTTACAAGACAAAAGGATTATGGGGGTAGTTGGTGGCAATGGCTG
CACAACATTACAAATGTATTTAATAACATGAACTGTACACTTGAAAATGGTTAAGATAGCAAATTTTACAGAATATGTATTTTACGACAATTTTAAAAAT
GAAATAAAAAAGAATTATCTTGCACGCGAAATGGTTGCCAAGAAATCATAGCCAATAGTAAATTAAAAGTTATTCATAGTGCAAAAAAAAAAAAAAGTAA
TGTCTATACCTACACTGGACCCCCCAAAAAACAGGCACTGGGAAGGTATGTGTCTCTTCTTCCTTACTCTCTCTTTCTGCAGATTGAATGACACAGCACC
TGAGGTTTTGAGTTATATCCCAAACTCCTTAGTGGCTTACCTGCAACACTAGCTGTATTAAGAAAAGGTTTCTCATTATAAAACAGAACATTTCTGTACC
AAGCCTGGGCCTTGGGTCCAAAGTAAATTACTACAACATATTCCACCTCTTCCCTTCAGATCTGCTAAGTTTTGTGGATAACATATTTATTTTTCTGATT
ATAGAAGCAATGCATATTTATTTTAAAAATAAAAATCCTTGCCAGGCGCAGTGGCTCACGCCTGTAATCCTAGCACTTTGGAAGCCCAAGGCGGGCAGAT
CATGAGGTCAGGAGATAGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCACGTACCTGTA
GTCCCAGCTACTCGGGAGACTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTTCAGTGAGCCGAGATCGCACCACTACACTCCAGCCTGGGCA
ACAGAGCAAGATTCTGTCTCCAAAAAAAAAAAAAAAAATCCTCATAATGGTATCATCATTTCTTTGATGCATTTCCTTCTACATTTCCATGTGTGTGTGT
TTTAAATAAAATTAAGATCATACTGTGAGGCCAGTCTCGTGGCCTGCTAGTTTTTAACTTCACACTACTGTAAGCGTTTGTCCATACAATTAAATATTCC
TCAGAAGCATGATTTTAGTAGCTACACAAATATCCTATCCTATGATGGACTGTAACTTACTATTCTCTTGCAATTAGGCATTTAAATTATCTTATGATCT
ATAGTGAACAGCCCAGTTTACAAATTTATATGTGCATCTCTGATTCTCTCCTAAGACTAAATTCCTAGAGAGAGAATTCCTGAATTCAAGAGTATTGCTA
TTCTCAAGATTCTTGACACATACTGCTGATTGTGAGAAGACATTTTTCACAGTTAATCCTTTTGTTTTAACTTTTTATCTTGAAATACTTATAGGTTTAG
AGGAAATTTTAAAGATGGCACAGAGTTCCCGTGTATCCCTCAATCAGTTTCCCCCAGTAATTACATCTTCTAGAACTGTAGCAAAATATCAAACCAGAAA
ATTGACATGGTCCACAGTGTATGTAGTTCTGAATTATTTCTCACATGTACAGTCTGTGTAACCACCACTACAATCACACTATAGAACCGTTCCATCCCCA
CAAAGATCTCCATCTGCCCTTCAGAGTCCTACCACTCCTCCCGACTATCATCCCGAATCCCTGCCTACCACTAATTTGTTCTTATTTCCATAACTTTTGT
CATTTTGAGAACTGTATATGGAATTATACTGTATGTGGCCTTCTGAAAATGGCTTTTTTATTGATACGTAGTATTTGTACATATTATGAAGTACCTGTGA
TATTTTGTTACAGTCATAGAGCATGTAATGATCAGGTCAGGATATTTAGGGTTTCCATCCATCTCGCGTATTTATGATTTCTGTGTGTTGGGAGCATTTC
AAGTCCTGTCTTCTAGCAATTTAAAAATATACAATATATTGTTGTTAACTATAGTCACCTTACTCTGCTATCAAACATTAGAACTTATTTCTTCTTTGAC
CTGGCACGTGGGTCATGCCTGTGATCCCAACACTTTGGGAGGCTGAGGCAGCCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGATG
AAACCCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGTGCACGCCTGTAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATTGCTTGA
ACCTGAGAAGCAGAGATTTCAGTGAGCTGGGAGATCGTGCCACTGCACTCTTAGCCTGGGCAACATAGCAGACTCTATCTCAAAAAAAAAAAAAAAGAAA
GAAAGAAAGAAAAGAAAACTGATTTCTTCTATCTAATGTTTGTATCTGTTAGCCAATCTCTCTTTAGCACCCCACCAACCCATACACTCTTCCCTAGTAT
CTATCATGCCACTCTCTACTTCCATGAGGTCAACTTTTTTTTCTTTTTTTTGAGATAGAGTGTCACTCTGTCGCCCAGGCTTGAGTGCAATGGCATGATC
TCCGCTCACTGCAACCACCGCCTCCTGGGTTCAAGCGATTCTTCCACCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACATGCCATCATGCCCGACTAG
GGTCAACATTTTTTAGCTCTCACATATGAATGAGAACACACAATATTTGTTTTTCTGTACCTGACATATTTCACTTAACTTCACGACCTCCAGTTCCATC
CATGTTGCTGCAAAAACATGATTTCATTCATTTTTTACGGCCAAATAGTATTCCAGTGGGTATATATACCACATTTTCTTTATTCATTCATCCACTGATG
GACACTTAGGTTGATTCCATATCTTTACTATTGGTGGTACAATAAATATGGGGGGGTGGGGTGGAGCGCAGGTATCCTTTCAATCTGCTGATTTCCTTTC
CTTTAGAAAAGTATCCAGTAATGAGATTGCAGGATTGTATGGTAGTTCTGTTTTTAGTTTTTTTTAGAAGTCTACATACTGTTTTCCATAGTGGTTGTAC
TAATTTACCTTCCCACCAACAGTGTATAAGAGTTCTCTCTTCTCCACATTCTTGCCAGAATCTGTTATTTGTTGTCTTTTTGATAATACCTACTCTAATT
GGGGTAAGATGGTATCTCATGGTGGTTTTGATTTGCATTTCCCTGATGATTAGTGATGTTGAGCATTTTTTCATATACCTGTTGGCCATTTGTATGTCTT
CTTTTGAGAAATGTCTATTCATGTCCTTAGCCCACTTTTTTTTTTTTTTTGAGATAGAGTTTTGCTCTTGTCACCCAGGATGGAGTGCAATGGTTCAATC
TCGGCTCACTGCAACCTCCCCCTCCTGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACCGTGCCTGCCACCACGCCCAGCTAAT
TTTTGTATTTTTAGTACGGATGAGGTTTCACCATGTTGTCCAGGCCGGTCTCAAACTCCTGACCTCAGGTGATCCACCCTCCTCAGCCTCCCAATGTGCT
GGGATTACAGGTGTAAGCCACCACGCCCGCCCCTTAGCCCACTTTTTAATGAGATTTTTAGATTTTTTTGTTTGTTTAATGTTGAATTGTTTGAGTTCTT
TGGTATTCTGGATATTGGTCTTTTGTCAGAGCAATAGTTTGCAAATATTTTCTCCCATTCGACAGGTCGTCTCTTCAGTCTGTTGATTGTTTCCTTTGCT
GTGCAGAAGCTTTTTAGCTTAATGTCCTGATTGTGGCTTTTTCCACTCAGCTAAATCTTCAAATCCATCCAAGTTGTGTTGTGTATCAATCATAGTTTAT
TCCCTTTTATTTCTGAGTAGTATTCCATGAAAAACAAATCACAGTTTGTATAGCCATTCACCTATTGTAGGATATTTTTAATTTTTTCCAGTTTTCAGCT
ATTATAAATAAAGCTGCTGTGACCAATCATATACAGGCTTTTGTGTGGAAATAAGTTTTCATTTCTCTGGGATAAATGCCCAGGAGTATAATTGCTGAAT
CATATGGTAAGTGTATATTCAGGTTTGTTTTTTTTTAAACTGCCAAGCTATTTTCCAGAGTGGCTGTACCATTTTACATTCTTACCAAGAATGTATGAGA
CCCAGTTTCTCTGCATCATTGCCAGCACTTGGTGTTGTCACTGTTTTTTATTTTAGCTGTTCTAATGGGTGTGTAGTGATATCTCATCATGGTCCTAATT
TTGCATTTTCCTAAATGGCTAATAATGCGGAGTATCTCTTCATGTGCTTACTTGCCATCTGTGTATTTTCCCTGGTGAAATGTCTCCTTATCTTTTGTCT
ACTTTCTGATTGGATTGTTTGGCTTTTTTACTGTTGAGTTTTGAGAGTTTCTTGTTCGTTCTAGATAATAGCTGACTCTTCAGATTCCAAATCCACAGAG
AATGTAGACGTAACCTTACTTCTTCTATTCATTAACAGATGCCTGTGAGGGCTCCTCTCTCATTCTTACCTGGGATCAAGTTTACCTCCCTGTGAGGCTG
TGCCCAGGATTGCATGGGGGGAAGCCTTGCACAACAGCTGGCTCAGCCCTGGTCATCTGTGGCCTTGAAAGCTTCCTGGCCATGACCCTTTTTCTCTTCA
GATGTTGCTTACCTTTGATGATCAGTTCCTGCTGACTGCTGCTGAGGATGGCTGCCTGTTCACCTGGAAGGTCTTTGATAAGGATGGCCGGGGAATCAAG
CGAGAGAGGGAGGTGGGCTTTGCCGAAGAGGTGCTTGTGACTAAAACARACATGGAAGAAAAGGTAAGAACTGGATCTAATGAAGAGGGATATGGAATTA
CTTACCAGACTGCATTCAGATGCAGGTCCAGCACTGGGGCCCTCTACAGCCTGGCTACAYCCTATGCCCAGTGCAGACCCCCACGGCTCCCTGCACATCT
GCTGTCCCCACAACCAAGCTCTCCTCCTCATTGCCACTGTCCACCCGACTCTGCCTGTCTTTCTGCCATGTGATCATCTTGACTTACACTGTGCTTTGCT
TTTATTCTGTGATCTGGTTTTCTCTTCCTACTCTTTGAAACCAAGAATAATGAAACATACAGTTCTCTTATGACCAACAGTTCCTAGCACATGCTGGGCA
CATGGAAGACAATCAATAAATATTTACAAAAGTAAAGTATGTTCTCATTTAAATCTCACAACATCTCTATGAAGAAGATACTGTCATTCTCCCCATGTTT
CAAAAAACAAGTTAGGAGAGCTTGAGGGATGTGTTCAAAGTCAGTGTGCTAATAATTAATAGGACTAGAGTTCTAATCCAGATTTAATCCAGAGCCCCCT
CCCTTAATCACTATACCAAAGGGACATCCCTTCCTTCCTGTTGATGCAGTAAACATTCCATAAAGGTGTGTTTTGCAGAGATATGAGTGCATAGCTCTGT
GTTACGCTTCCTAAGGGAGAAGCTGAATGGATGATAAACACACAAGGCTCATGGAGGATCGCAAAGCTACACAGTCATTGCYGTTTGTCCAGAATCTTAA
GTGTGTTTATTGAACACCTACCATTTGCTAGGCACTGGGGATGCACAYGTGAAAAGACAGTTGTGGGCCCTGTGACATGACCAGGAAGCTTACAGTCAAG
TGAGGGATAGAAACAAGTAAAGCCATCAGAGCAGCAATACAACACTGCCACAAAGCACGGTGACAAGCCCCTGGCATTCGCTGGAGATCCCTYCCAGAGC
TCCCTAGAATTTTCTGCAGGAAAAGCAAAGAGGGAGAAGAGGATGAGGGAGGGGCCCGTGAGAGTGGGGGCCTGACCTGCTGCAGAAGGGACATTTCCTT
TTCTCTGTTATCTTTTCTGTTCTTCCCAGAGGGTAGGGGAAGAGGCCAAATAGGAGACAGCAGGCTGAACCAAAGGCCTGAAGGTGCCCAAGCTGGCTTC
TGACCACAGCCCCCAGATGGGCCTGACAGTACCGCTGCCAGGCTGGAAATGACTTGTGCATATACCGCTCCTTCTTGAAACTCCCTTCTGTCTTACCATC
CTTGTGACCACACTCTGTTCCCTGWAAACCTTTCTGACTCCTCCTCCCCGCTTCTGTCCTGKCTCTTCCTCCKCCTGTCCCTTAAAAAGCATGTTCCCAG
AATTCCCAACTCTCTTTATATTCCATTATAGTCTAARTAACTCTCAGGCCATGATTTACCTTCTCTGCCTAGGATTTACAGAGGGGTCTGCTGTGTACCT
GACACTATACTAAGGTCTGGGATTACAGAGATAAAAGACATAAAGCATCCTTTAGCTGATAGCCTGGGAAGAGGGCAGAGTATCACAAAGAAGGGAATTA
AACGTGCAGTGGAATGAAGTGTCATGAAAGAACGATGCTGTGGGAGCACAGGGGAAGGAACTTGGCTCAGGCCAGGTGGTGCCAGAGGACATGAGCCTTG
CTCAGATCCTTCCAGGACAAATGGACAAGGGCCAGTGAGCAATGAGCAGTGAGTGTGTGCAGAGGGATGAGGGAGTGGTGGTCTGCAAAGCTGCTCCTAG
TTAGGTTGTGCCAGAGAGAAGGGCTGAAGATGAAGCTGGAGAGAAACAGGTCAGGGGGGCCTTTTACACCCTGCATTAGGCTGGACATTGTTCATAAGGA
CCATTCATAAATTTAAGCTGGGGAATGACTTAACATGATTCGCATCTCGGAGAGAWTAATCTGCAGCAATGTGAAGAATAGATGGAGGAAGGACACTGAA
CAAGGACCTCAAACACAGCATGTCAAAGGCCGGGTCATTCCCATGGATAAATATATCCCACTAGCCAGGGCAGACCCCTGGGATCATTGATAAGTATTCA
TTCAGTGCTGACCATGCTGCTAGTTTTATGCTAGGTTCTGGGGATAAAGCAGAGAAGCAAGACAGGCCAAGCCCCACCCTCAGGTACCGGTCCTTCTACC
TAGGAGACAGCCTTCATCCATGATCCTTACCTCTCCACCCCACACCCAGTCAGGCACTATCCTCTCTAAACTCACTCTCTCCAACCTCTCCATTCCTCTC
TGGTCCCCTTCCCTACCTCAGTCCAAACCCTGTCTGTCTCTYGCCTGGTCTATGCAGTTGCCGCCCACCCACCCCAGCAACTCATCATCCTGCCTTTGGT
CCTTCCTTAATCTAGTCCGTGCTGCGTACCGCCATTGGAGAGATCTTTATAACACCAAAGTCAGCCTGATCGGGTTCGATGAGGACCTTTGGAAGCCCTC
TAAGATAAAATCCAAACTTCCTAGCATGGTCTACCGGGCCCCTGATGGTCTGACGCAGTCTTGGCTGCCCCTTCCTATACATCCAACCTGTGCCATATCA
CATGCAGTGAGTGCCCTGGCCAGGCATTCCTGCTCCATCCTCTCTGACTTTGCACGTGCAATTTGTGCTTATCCTTCTTCTCAGTACTTCCTGTGCACCA
GATCCTCRCTAGTCTGCTGGCCAGGAATGCAGAAATGTGCGTAATCCATTCCTTGATGTCAAGTCGTTCACAGGTGGTAGAGGAGACAGACCAGAAATGA
TGAGATAGGGATGCACGGGGTGTCCCCATAGGTAAGCAAGAAGAAAACACTGCATTCTGACCCACTCTGTCATCAACATTAACTTTTTAAGGAAATGAAG
GGTGTGTGTATTATAGTATTTTTAGAAAACTTTGGCATCATTGAGTACGATGGGAGAAGACACTAGGCCGGGTGCGGTGGCTCAGTCTGTAATCCCAGTA
CTTTGGGAGGCTGAGGCAGGAGGACTGCTTGAGCCCAAGAGTTCGAGACCAGCCTGGGCAACATAGTGAGATCCCCATCTCTACAAAAAATRTAAAATAT
AAAAATTAGCCAGGTGTGGTGGGGCATGCCTGTAGTCCCAGCTACTTGGCAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAGGTCAAGGCTACAGTGA
GCCATGATCACACCACCGCACTCCAGCCTGGGTGACAGAGTGAAACCATGTCTCAAAAAAAAAAGAGAAAAAAAGGAAGAATAAGAAGATACTAGGCATA
AAAACCAGCAAGACAGAAGAGTTAGGACCTATATTAAAGTAYTAAAAGTGAGCCTAAGAAGACATCAAGAGGGACAGATTGGCAGTACTGAGAACCACCC
AGCTTTGGGCACTTACCACAATTTGTAATAATGTGTTTGTCTGGCTGCCTCAGTAGACTCTAAGTTACATGGGGACAGCCATCATGCTTCAATAAATATC
TTCTGAGATCTTACTCTGTGTTAGACATTGTTCCCGTACTTGGGATATATCAGCAAACAAACCCTACAAAGATTCTGGTCTATGTGGAGCTTAAGTTCTG
ATGGGGAAAGAAGAATAAAAACAATAAACAAAATAATAAGTAAATTGTAGAAAGTGCAAGATCTAAGGAAATAAGAAGTAGAGCAGAGTAAGAGAGGTGA
TGGGTCCTGGGAATGGGAAGGGGTTGCAGAATTAAACAGTGTGGTGCAAGTCAGCCTCGTCAAGCAGGAGATGCTTAAGCYGACTTGAATGAGATGAGCG
CATGACTAGCACAATGTAGTAAAGATTTTTTGAGGATAGAGGAGGAAGCTCATATGTCTCCTCATTTTTAGCTGATGTGCCTTCTGGGGAAAAGATGACA
AGTTCTAGTTGAGACACATTGAGTTTGAAGCTAGGCAGAGCTGCAGGTCTCAGGTCAAGGCCGCAGGTTTAAATATTCTGAGTCACCCTTACTGTCAGTG
TTCTTGATCCTTCTGTCCTTCTCCCAAAGGCTCAGGTTATGTTGGAGCTAAAGACTCGTGTGGAGGAATTAAAAATGGAGAATGAGTATCAACTCCGACT
AAAGGACATGAACTATTCTGAGAAGATTAAGGAGCTAACAGACAAGTTCATCCAGGAAATGGAGTCCTTGAAAACAAAAAACCAGGTCTGTTTAAGAGAC
TGACCAACAAGCACAAATAACAAGAAATTTCCACTTTCAAGACAGGACTGGCATATACTGCCCAAGCTATGCTCAAACAGTAAGATATGTGAAAATGTCC
AATTTTAAAGCATAGTCGTTGATATCAGAAATGCTTACAACTGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCA
GACCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAATCCCATCTCTAGCCAGGCATGGTGGCACGTGCCCATAGTCCCAGCTACTCG
GGAGGTTGAGGCATGAGAATCATCTGAACCTGGGAAGTGGAGGTTGTAGTGAGCTGAGATCGCTCCACAGCACTCCAACCTGGGCAACATAGACTCTGTC
TAAAAATAAATAAATAAATAAATAAAAATAAATGCTTACAATCAATTGCTAAGTGAAAAAAAGCAGAATATAAACCACTTTATGGTGAATGGTATTAATC
GGTATTAGTGGTATTAACAGATTAATTAATCTGATCTATAGTAGTAAAATACATATAGAAAATAGATAACAGTATAATTATCTCTGGAAGTTGAGATTAC
AGATAATTTAAATTTTGTTTTACATACTTTTTGTAATTTCCAAATTCTCTACAATGAGAATTATGATTAGGAGAAACTTATTTTAAAACAAAATGAAAMG
ATAAGAAAAAGCAAAAAGATAAGAAAATCAAAGCATAGATGGAGAATAACTAGCAGAATACTGATTCCTGGATTGTCAGGAAGTTAAATAAAATTAGTCT
ACATGGCCTTTACATAGTTAGATTTGGTCTGGGACTCTCCCAGATTCTTTTCTTTGTTCTACACAAATCTGGACTCCTATCTAAAATCCCCACTGGGCAA
GGTGGCTCACCCCTATAATCCTAACACTTTGGAAGGCCTAGGCAGGAGGATCGCTTGTATCCGAGAGCTTGAGACCAGCATGGGCAACATAGTGAGACCC
TGTCTCTATGTAAAATAAAAAATGAGTCTGCCATGGTGGCATCTGCCTGTAGTTCTAGCTACTTGGGAGGCTGGGATGGGAGGACTGCTCGAGCCTGGGA
GGTGGGGACTGTAGTGAGTCATGATCTCTGCACTGCACTCCAGCTTGGATGACAGAGCGAGGCCCTGTCCCTCACCCCCTAAAGAAATCCCCAATTATGT
CCTTGAGGGATATTTGTTTCTTTAATGTCTATGGGTCATAAAGTTCGGCTAAAAAAAAAAAGAAAGAAAAACCTTGGCTATTAATTGTATTAATTAATTC
ACTTTATAATTTTATTCATTTAGCCAACAAACATTTATTTGGTGCTCTATATAAGCCAGGCGCAAAGTTAGGTCCTGAAGATGGCACACCACCTCCAACT
CGCCCCCCAAGCCTGAAAGCTTTCCTGCTCAGTTAAAGAAAACACTTCCTCAGAAGCTTACCCATGAGCACAGCCAAGGATTTTGTTGACAGCAATGTGC
TGGCAACAGAGGATTCAAATGAATCCCTACTTTTTCACCCAGAAGTCCTTTTGACACGTGTCCAAAACTGAACTCATCATTGACAAACCCATTTAGTAGC
AAGAATAGAAATAGGAACAGTATAGAGCTTTTAGAGCAGAATATAACATAAATGAAAAGTGACAATGTGGTTGCTGCTTCATAGAACAGTGCTTGGTGCA
AAATGAGGGCTTGAGAAATGTTTGTGAGTGAAGGAGGGTGTTACTTGTAAAATCAGTTCTTGCCCTAGTAGTGCTTTCAGCAGATGTGTGTAAATGAGGA
AATGTGACTCTGTTTTAGGTCTTAAGAACAGAAAAAGAGAAGCAGGATGTTTATCACCATGAGCACATAGRAGACCTCCTAGACAAGCAAAGCCGGGAAC
TGCAGGACATGGGTGAGCCCACAAGTAGAGGCCTCGTTGGTTAGGGTTGGAAGAGCTAGGTTATGGGGAAACACTCAAGAGTCCCCCAGACACAGTAGAA
GTCTCAGGGAATATGGCTCTGTCTAAAAACAGGCTACATGTATCCCCTGGAACTCACTGTGGTTTTCACTTCTGTGTTTTTACTCATTCACTAAGCACAT
TAAACACCTATTGCATGAAAGTAGGAGGCACGGAAAAGGTCAAGTTTGGAACCTGATAGTCTTGCCTTGGGTCCCAGGCTCACCACGTACTTGCCAGGTG
CTCTGGGGAGTCACCTAACCTTACCGAGCCTCACTTTGCCATAAAGCAGGAGTCCTAATACTTATTTTTCACACTCAGGATATTCTTCTTGGCCCTGAGT
CCCCAAATACCACTCTGTGCTTTCCTGGAAACTTTTCTTCCCAGAGCAGGCAGGCAGGGAGTTTGGCTACCTGATGAGATGATGGGATGAGGGGTTGGCA
GCAAGGAAGCTAGGCAGGCATTTGAATCTTGGCTCTGGAGGCAGCTGCTCCAGCTGGTGCTGGAAGGGATGGGAGAGCGCCCAAGGCTCCTGGGTGTCCC
TGAAGCAAGTGCTGCTCTCCCACCTTAAATACCATCCTTGCTTCTCTCCAGAATGTTGCAACAACCAAAAGTTGCTTCTAGAATATGAGAAGTACCAGGA
GCTGCAGCTCAAGTCCCAGAGGATGCAGGAAGAGTATGAAAAACAGCTCCGGGATAACGATGAGACCAAGAGCCAGGCCCTGGAGGAGCTGACTGAGTTT
TACGAGGCAAAACTGCAGGAGAAAACCACCCTTCTGGAAGAGGTACTCACAGGAAGCCATGCTGTGCCTCCCTTTCACAGAGAAAAGCCACCCATTCACT
CAGATCTCCATGGCATAGCCACTGTATGCCAGGATGTGTTATACACTGGGTCAGACATGGTTTCTACCCCCAAGGAACTTATATCAAATGGGAGAGACAG
CCAAATAACATCGCAAATAAATATAACATTATGACTGTCACAAGTTCTGTGAGAGAAAAATATAGGAAGGCTGGGTGTCCAGTGAACAAGACCAAAGGAG
AACAGGGATGGGGTGTTGGTAAGATTGGGGTTGAAGTGGTGGAGCATGAGGCCTGATTTGGTAGGAAAAGAGGGGAGGCAGGAAGACAGGACAGACGGGA
AGAAGGTGGACAGGTCAAGGGCCCTGTGGCCATGGTCTCCGTTTCTGGAATGACACTCGCCTTTGACTCCCTGGGACAGGTCCCCATGCTCATCTCACCT
CAAGCCCTGTTGGCACAAAGATGTGTGAGTCCCTTCTCCCCTGACCACACGCCCACTCTCTCTGAGCCAGGCACAGGAAGACGTCAGGCAGCAGCTGCGG
GAGTTTGAAGAGACCAAGAAGCAGATTGAGGAAGATGAAGACCGAGAAATCCAAGATATCAAAACCAAGTATGAGAAAAAGCTTCGGGATGAAAAGGAAT
CAAACCTGCGGCTCAAGGGAGAAACAGGCATCATGAGGAAGAAGGTAGCAGGCTGTTCTCCAAGAGACCTAGGGTGGGCGAGGGTGTTGCAGAGAAAGCT
GGGGTGGGTGGACTGACCGGCCTGGGGGTGCTGGCCAGGGTCCTGCCTGTCCCCATCTTCAGCGAGCAGGCTGGGAGAAGAGCACCAGCCAGTGCACCCT
CACGCAGATGGACCCTCCCCACCTCGTCCTTGGAAAGGCAGCTGCACGGGCTTCCCTGCTCTCCTTTTCACAGGATATTGGGGTTCCCTGTGTGCAGACA
GAGGCTTTCTAGTTTTCACTTACTGGCAAGTAGGATTCAGTTAATGTTTTCTGAGATAACCCTCCGATGGAAATGGAAATGGAAATAAGGTCTTCTGGGG
ATGAGATAGATGAAGTCTTGGCCGGGAGGCATCCTCGGGCTCTTGGTCCAGGGAGTCATGGGCGGCTCCTGTTCAGCACCACAGGTGGGAGAGGGAATGG
GGGTGTAGGATGCTTAGTTTACAAAGTGGGGAAGATGTTTTTAGTTCACTCACCATCAGGGGTGAGGGAGGATTCAACTCAGTTTCCCCAAAACATTTAG
CCCTGGAAAAGCTAAGTTCAAAGCAAGCTGAAGTTTCTTCCTATTAGAAAGCACACTAGTAAATCCAGGGAACAATCAGTCTTCCCTTCTTGGTCATGGC
TAAGATGGCTCATCAGTTAGGGCCCACTTTCTGTGACCTTGATGCAGTGTGGATCCCAGCTTTTCAAGATCAGTGTGGTCATAGAAGTCTCTGGTCCACT
TGGTGTACCGGTCTCTGGAACCTCTTGTGAAGACAGTCAGTCCTCTCATATGGAGAATGGGCCTGGATGTTATGGGACAGAATACTACATCATCCATTTG
GCCTGGGAAATTCCTGAACCGTCCCAAATGCTCCAGATATTCACTCCTAAAATCCCAGAAATGTTGAATGCTAAGTGTTTTCAGTCCACAGAAGGTGGCC
AGTGGTGGGGAGCCCCTTACACTGAGACAGTGGGAGGGATGGAGATGAGTTCTGACTTTAGTGGTCTTTGTTGTTGCTGTTCGCTTTTCTAGTTCAGCAG
CCTACAGAAGGAGATTGAAGAACGAACCAATGACATCGAGACCCTAAAAGGAGAGCAGATGAAGCTGCAAGGAGTCATTAAGTCTCTGGAGAAGGACATC
CAAGGCCTCAAGCGAGAGATCCAGGAAAGAGACGAGACTATTCAAGACAAGGTGCAGCTCTCCTTCTGTCCTCCCTCAGCTACGGCCAGATGGGCCAAGG
CGAGGAAGGCAAAGCTCAGGGGAGAGAGGGTCCCTAGCTTCTCAGGACGCATTTCTTTAACTTGATGGGGGAACCAGCCGTCAGTGAAGTGCCTGTTGTG
TGCTTGGCACTGGGCTAATCGCTGTCAACACATCACTTTCAGCTCTGCCAACAACCCAGGGGGCCTGAGAACCCAGTGTTATGGTTCGGGAAGCTGAACT
CCAAGAGGCTGGGTATCTTGCCCAGGGTCACACACTTCAATAGGTGACAGGCTGCAATAAGAACCGAGTCAGCTGACTCCACTGCTCCAGGCATCCTTGG
AGGTGCTTCCCCATGGGCTGGGGACAGCTCACTTGCCGCACTGACCACATGGTCCCCCTGTCGCAGAGGGACTCTCCTGGGATTGACCCTGTCCAGGAGG
CTGCCTCCACTTTTGGGATGCCTTTCTTACAAAACACTCAGACGTCAGAGACATCACATTCTGTGGGGCAGATACCTCAATACCCAGTATGTAGTATCAT
CCTCCTGAGCACATCCAGATTCCGTGCCCTCCTCTCCATCTCCCCTGCCACTACGGCCCAAGGCAGGTGGAATTCTCCAAGGGCCAAGGACGTGGGCTTC
AGTGTTAGGGAACTAGGTCTGGCACAGGTTCCATTTATTGACCATTGCACCTCGAGCAACTTCTCTAAGCCTTCATTTTCTCACCTATAAAATGGGGATG
ATAACCACCTCAAGGGGTCTTGTAAGGATCACATAGGATCATGGGATCATGCCTGGATGTCATTTCTGCATGTGAGTGTCGGTGTACATATCCAGGGTTT
TGTTTGTTTGTTTGTTTGTTTGTTTTTAGGGAAGATCCAAAGCTCTGTTCAGATTCTCAAAGGGGGCTTTGACAAGAAAGAGACAAAGGCCTCCTCACCT
AGAAAGTGGCAACAGCCTCCTAAGCAGTCTAATGGCCTCACTTCCCATCTCCCACCACCATGGACTGGCAGGGTACAGGTGCAATGCTGCCACTCTCCTG
CTCAAAGCCCTCACAGCTCCCCATTGCTACAGCAGGGGTCAGCACGCTCTTTCTGTAAAGACCTAGGTAGTAAATATTTTTGGCTTTGGAGGCCATGTGG
TCTGTCTCAACGAATCAACACCGCTGCTGTAGTGTGAAACCACCCATAAACAAAACATTAGTCAATTAACTTGGCTGTGTTCCAATAAAGTTTTACAGAA
ATAGACAGCAGGCCCAATGTGGCCCACAGGCTGGAGTTTGCCAACCCCTGGCCTAGGAGATAAATTCTGAACTCTTTCCCCCAACATGAAGACCCTCACC
TCCCTCCTCTATTTCCCCAGCCTCACCTCTCACTTCCCCCATGAACCACCGCTTGGCTCTCAAGCCAGTCATTCTCAGCACCCTCAATATATACTTTGCC
TTCTGTGCTTTACAACATTTATCACATTTTAGGCTTAGATTTGCTTCTGTGTCTTCTTTCCCAACTAGTGTTTTCTTTTAAGGGCAAGGGACTGTGTTGT
ATTTATATTTGGAAACCCAATACTTGACAAAAGATCTTCATTCAGTAAATGTTTGATGGATGGATATACTTATGTTCTGATTACTATCACCGTGCAACAA
ATTAACCTTAAAACTTACTGATTGAGGCCAGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCAGGTGGATCACTTGAGGTCAGG
AGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACCAAAAATATAAAAATTAGCCAGGAGTGGTGGCACATGCCTGTAATCCAAGCTACTC
TGGAGGCTGAGGCAGGAGAATCGCTTGAACTTGAGAAGCAGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCGCTCTAGCCTGGGTGACAAAGTGAGACC
CATCTCAAAAAGAAAAACTAAGTGATTGAAAGCAACTATTTTATTCTGCTTACAGGTGCTACAGATCTGGAATCTGGACAGGGTACAAAAGGATGGCTTA
TCTCTGTCCCCGATGTCTGGGGCCTCAGCTGGGAATACTGGGGGTGACTCAAAACAGCTGGAGGCTGGAAGATCAACATCCAATGTGGCTTCTTCAGTCA
CATGTCTGGCACCTTGGCAGGGGTGTCTGGGAGGCTAGGCTCAGCTGGGTCTTTTGATCAGAGCCCCTAATGTGCCCACCAGCCTGGATGTCTCAGTGTA
GTTGGACTTCTTACATAGCAGATGCCCTCCCCCAATGCAGGTGTCCCAAGAGAGCCAGATAAAAGCTGCTTGGCCTTTTTTGGCCTAGCCTTGGAAGCCA
CACAGTCTCCCTTCTGCTGCATTATTTGGGTTACGAACAAGTCACAAGTCAAGGCAAATGCAAGGGAAGGGGATTCGCTTCCACCTCCTGATGGAGAAGC
AGCAAGGTCACGCTGTAGAACAGCTGGAGTGTGGGGCGGGAGATGCTGTGGGGGCCATCGTTGGAAAATACCGCTGTTCACAACCTAATATGAATGAGTG
AGTGAATGCATGAGAGTCCTTGTACAGAGGCTGAGGGGTCTGTGCTGTAGCCCCATGGGGGGAGTGCCAGCCTCTGTACTGACGAAGGGAGGAGAGGAGT
CTCCTGGTTGACCTCTTCAACCAGGAGAGTCACAGGCTTCGTGCTCTTTTGCCCTAAAGGGCTGCAGTATACCAGGGCCTTACAATATCTCTCACTTCTC
TCTCATCTCACCCCCAGGAGAAGCGAATTTATGATCTGAAAAAGAAAAATCAAGAACTAGGGAAATTCAAGTTTGTGCTTGACTACAAAATAAAGGAGCT
GAAGAAGCAAATAGAACCTCGAGAGAATGAGATCAGGGTGATGAAGGAACAGATTCAGGAGGTAAGAAGCCATTTGCAACACTCTGGCCTCTCAGACCCT
CTGTCTCTTCTTCCACAATTGGCTAGCTGGCCTCAGGGACTGAGGAGAAGCTCTTCTCACAGTCCTCTCTGCTCCCAAGGTGTGTGCAGCCTCCAGTCCA
CAGGGGTGCAACAGGGAAGGCCGTGGCCCCGCTGCAGGCTCAGCTGTCCGAAAGCAAATCGCTTGGGAGTTAACTTGCCACGGGACCTGGAGATGGGCTT
TGGCCCTACCCGTGCCTCAGTGTGCGGTGTACTGTGCCCTCCTAAGGGAGATGCAGCTATTGGGCATTTGGCCACCAGAGGGCAGTGTGTACTCAGCCAA
CAGGCTATCCTTCTAGTTCAGCATTTTTTTCTCAAACTGGAAA


SNP Information

Context             (SEQ ID NO:62451):
TGGCTGCCTGTTCACCTGGAAGGTCTTTGATAAGGATGGCCGGGGAATCAAGCGAGAGAGGGAGGTGGGCTTTGCCGAAGAGGTGCTTGTGACTAAAACA
R
ACATGGAAGAAAAGGTAAGAACTGGATCTAATGAAGAGGGATATGGAATTACTTACCAGACTGCATTCAGATGCAGGTCCAGCACTGGGGCCCTCTACAG
Celera SNP ID:            hCV25930625
SNP Position Genomic:     6149
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,37)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62452):
GACAGTACCGCTGCCAGGCTGGAAATGACTTGTGCATATACCGCTCCTTCTTGAAACTCCCTTCTGTCTTACCATCCTTGTGACCACACTCTGTTCCCTG
W
AAACCTTTCTGACTCCTCCTCCCCGCTTCTGTCCTGGCTCTTCCTCCGCCTGTCCCTTAAAAAGCATGTTCCCAGAATTCCCAACTCTCTTTATATTCCA
Celera SNP ID:            hCV952560
SNP Position Genomic:     7425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62453):
ATACCGCTCCTTCTTGAAACTCCCTTCTGTCTTACCATCCTTGTGACCACACTCTGTTCCCTGTAAACCTTTCTGACTCCTCCTCCCCGCTTCTGTCCTG
K
CTCTTCCTCCGCCTGTCCCTTAAAAAGCATGTTCCCAGAATTCCCAACTCTCTTTATATTCCATTATAGTCTAAGTAACTCTCAGGCCATGATTTACCTT
Celera SNP ID:            hCV952561
SNP Position Genomic:     7462
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62454):
TCTTGAAACTCCCTTCTGTCTTACCATCCTTGTGACCACACTCTGTTCCCTGTAAACCTTTCTGACTCCTCCTCCCCGCTTCTGTCCTGGCTCTTCCTCC
K
CCTGTCCCTTAAAAAGCATGTTCCCAGAATTCCCAACTCTCTTTATATTCCATTATAGTCTAAGTAACTCTCAGGCCATGATTTACCTTCTCTGCCTAGG
Celera SNP ID:            hCV952562
SNP Position Genomic:     7473
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62455):
ACTCCTCCTCCCCGCTTCTGTCCTGGCTCTTCCTCCGCCTGTCCCTTAAAAAGCATGTTCCCAGAATTCCCAACTCTCTTTATATTCCATTATAGTCTAA
R
TAACTCTCAGGCCATGATTTACCTTCTCTGCCTAGGATTTACAGAGGGGTCTGCTGTGTACCTGACACTATACTAAGGTCTGGGATTACAGAGATAAAAG
Celera SNP ID:            hCV952563
SNP Position Genomic:     7537
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62456):
TGAGTGCCCTGGCCAGGCATTCCTGCTCCATCCTCTCTGACTTTGCACGTGCAATTTGTGCTTATCCTTCTTCTCAGTACTTCCTGTGCACCAGATCCTC
R
CTAGTCTGCTGGCCAGGAATGCAGAAATGTGCGTAATCCATTCCTTGATGTCAAGTCGTTCACAGGTGGTAGAGGAGACAGACCAGAAATGATGAGATAG
Celera SNP ID:            hCV3138266
SNP Position Genomic:     8808
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62457):
ATCCCAGTACTTTGGGAGGCTGAGGCAGGAGGACTGCTTGAGCCCAAGAGTTCGAGACCAGCCTGGGCAACATAGTGAGATCCCCATCTCTACAAAAAAT
R
TAAAATATAAAAATTAGCCAGGTGTGGTGGGGCATGCCTGTAGTCCCAGCTACTTGGCAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAGGTCAAGGC
Celera SNP ID:            hCV3138267
SNP Position Genomic:     9192
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62458):
AAAGGTAAGAACTGGATCTAATGAAGAGGGATATGGAATTACTTACCAGACTGCATTCAGATGCAGGTCCAGCACTGGGGCCCTCTACAGCCTGGCTACA
Y
CCTATGCCCAGTGCAGACCCCCACGGCTCCCTGCACATCTGCTGTCCCCACAACCAAGCTCTCCTCCTCATTGCCACTGTCCACCCGACTCTGCCTGTCT
Celera SNP ID:            hCV952556
SNP Position Genomic:     6260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62459):
GGGGCCTTTTACACCCTGCATTAGGCTGGACATTGTTCATAAGGACCATTCATAAATTTAAGCTGGGGAATGACTTAACATGATTCGCATCTCGGAGAGA
W
TAATCTGCAGCAATGTGAAGAATAGATGGAGGAAGGACACTGAACAAGGACCTCAAACACAGCATGTCAAAGGCCGGGTCATTCCCATGGATAAATATAT
Celera SNP ID:            hCV952564
SNP Position Genomic:     8056
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62460):
TATGAGTGCATAGCTCTGTGTTACGCTTCCTAAGGGAGAAGCTGAATGGATGATAAACACACAAGGCTCATGGAGGATCGCAAAGCTACACAGTCATTGC
Y
GTTTGTCCAGAATCTTAAGTGTGTTTATTGAACACCTACCATTTGCTAGGCACTGGGGATGCACACGTGAAAAGACAGTTGTGGGCCCTGTGACATGACC
Celera SNP ID:            hCV952557
SNP Position Genomic:     6882
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62461):
ACACCCAGTCAGGCACTATCCTCTCTAAACTCACTCTCTCCAACCTCTCCATTCCTCTCTGGTCCCCTTCCCTACCTCAGTCCAAACCCTGTCTGTCTCT
Y
GCCTGGTCTATGCAGTTGCCGCCCACCCACCCCAGCAACTCATCATCCTGCCTTTGGTCCTTCCTTAATCTAGTCCGTGCTGCGTACCGCCATTGGAGAG
Celera SNP ID:            hCV952565
SNP Position Genomic:     8442
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62462):
GTGCTTTCAGCAGATGTGTGTAAATGAGGAAATGTGACTCTGTTTTAGGTCTTAAGAACAGAAAAAGAGAAGCAGGATGTTTATCACCATGAGCACATAG
R
AGACCTCCTAGACAAGCAAAGCCGGGAACTGCAGGACATGGGTGAGCCCACAAGTAGAGGCCTCGTTGGTTAGGGTTGGAAGAGCTAGGTTATGGGGAAA
Celera SNP ID:            hCV25923770
SNP Position Genomic:     12171
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62463):
CTCATGGAGGATCGCAAAGCTACACAGTCATTGCTGTTTGTCCAGAATCTTAAGTGTGTTTATTGAACACCTACCATTTGCTAGGCACTGGGGATGCACA
Y
GTGAAAAGACAGTTGTGGGCCCTGTGACATGACCAGGAAGCTTACAGTCAAGTGAGGGATAGAAACAAGTAAAGCCATCAGAGCAGCAATACAACACTGC
Celera SNP ID:            hCV952558
SNP Position Genomic:     6948
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62464):
GAAACCATGTCTCAAAAAAAAAAGAGAAAAAAAGGAAGAATAAGAAGATACTAGGCATAAAAACCAGCAAGACAGAAGAGTTAGGACCTATATTAAAGTA
Y
TAAAAGTGAGCCTAAGAAGACATCAAGAGGGACAGATTGGCAGTACTGAGAACCACCCAGCTTTGGGCACTTACCACAATTTGTAATAATGTGTTTGTCT
Celera SNP ID:            hCV952566
SNP Position Genomic:     9442
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62465):
CAGTCAAGTGAGGGATAGAAACAAGTAAAGCCATCAGAGCAGCAATACAACACTGCCACAAAGCACGGTGACAAGCCCCTGGCATTCGCTGGAGATCCCT
Y
CCAGAGCTCCCTAGAATTTTCTGCAGGAAAAGCAAAGAGGGAGAAGAGGATGAGGGAGGGGCCCGTGAGAGTGGGGGCCTGACCTGCTGCAGAAGGGACA
Celera SNP ID:            hCV952559
SNP Position Genomic:     7093
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62466):
ACAGATAATTTAAATTTTGTTTTACATACTTTTTGTAATTTCCAAATTCTCTACAATGAGAATTATGATTAGGAGAAACTTATTTTAAAACAAAATGAAA
M
GATAAGAAAAAGCAAAAAGATAAGAAAATCAAAGCATAGATGGAGAATAACTAGCAGAATACTGATTCCTGGATTGTCAGGAAGTTAAATAAAATTAGTC
Celera SNP ID:            hCV952567
SNP Position Genomic:     10999
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62467):
GAGCAGAGTAAGAGAGGTGATGGGTCCTGGGAATGGGAAGGGGTTGCAGAATTAAACAGTGTGGTGCAAGTCAGCCTCGTCAAGCAGGAGATGCTTAAGC
Y
GACTTGAATGAGATGAGCGCATGACTAGCACAATGTAGTAAAGATTTTTTGAGGATAGAGGAGGAAGCTCATATGTCTCCTCATTTTTAGCTGATGTGCC
Celera SNP ID:            hCV8375404
SNP Position Genomic:     9881
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 368
Celera Gene:                 hCG2041265 - 209000073583863
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VYLS(24107604..24123093)
Chromosome:                  Chr15
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12528):
CCCCTGCACCCCCATGCTTATGTCTCAGAGATACTCACATGAAATAGGATGCCAGAAGACCCTGTGTTGGTCTTAAAGGGCAAGGAATCGTACTAAGCTA
CGTAAACAGGTATTACTGAGTCTATGTAGTGTCCCGTCTCAAAACATAACTGCATCTTAACCAGGGCCTTTGGAAACTCAAATCCAAAGGATTAAAGACA
TCTGGGCAAAAATACTCCCCGTCGTGGCTAAAAGGAGCAAAACTTAGGGACTCCTCCCTACCCTGCTATTTTTACCTTAAAGAAAGTTTATTTCATGCAG
ATAGTTGCAAGACGAAGGAAAAGAAGAATAAGTAAGTGGTTATGTATTGAGCATTAGAATAGCCCAGGACTATTGTAAACACTTGGCATCAATCAGCTCA
TCCAATGTGCTAGGGCCTTTCACACCCAATCCTGCATTTAACCTTCAAATGACCCTGCAAAGCAGGCAGCACAATCACCATCCCACAGGTGAGGAAACAG
ATCTTTTAAGACATTCTGGGCACAAATATGAGATCTGGGGGAGAGTAAAAGGGGCAGCCTGGGCTATGCAGGGGGAGGGGCGGGACCAGAGGGCTCCACT
GAGGCCCGGCATCTGGGATGGATTAGAACTGATCTCAACACACCAGGGGCCACCCCAGCAGAGCAAGGGCTCTGGGCACACCAGGCTTACAAGTCTTGAA
AGAAACTCCCTCTGAGAGGTCAGCTGGCCACAGCTGACCCTGTCTCTTCCCCCAGGCCACCCTCTGAGCTGTGGGCACACAGACCGATTTGCCTACTCCA
CCCCCCTTCAGCTTAACTTTGGAAAAACTCATTCACATTGAGGTGAATTAGGTGACAGAGTGCACTTCAAAAGAGATGTTATAAGAACAAGGCTTAACTC
AGAGCATAAGCAGCTCACAGGAATTTCTGGCAGCCTGGGGGAGTGGGTCCTCCCCCACACTCAGGCCTCCTCCAACCCTGCTCTGGCCATGCTCTGTGTC
TGAGGCCTTTGGAGCTTCAGGGTCAGGCATGTGAACTCAGCGCATTGTCCCTGTGCTACAATCCCAGGGCAACACCTCCTGAAACCACTAATGCCATTCC
TCCCAGGCCTGCACATAAACAAGGTCACAGGGGCCTCTCTCCACATCCCCGCTCCTTCCTCCCTCCTTCCCTCCGGTGGGGCTGCTGGGAGTCCCCAGCC
CTTCCTGCTTCAAATAAAATGATACACGAAAACATGCAATGCTCTCTGGCTGTAAGAGAAACACTACATAATTTTAGAGAATGCTAAGAGTTCATGTCTT
CACTGACATTTTTTCCATATGAAACAGCCCATTTCTTAATTGTTCGAAATAAAGTTGGCTCTGCTCTCTCCTACTCAGGTAGTGGGAAGTACCACCTCAA
ACAGGATAGGGGGACCACTCCTCATCTCTTGGGGTTCTGTAGTCCAGAACATTCAGGGAAGACTGCCAGGACTCAGTTCTTTTCAGGACTGCAGAGTGAA
GAGAAGCCAACAACTCTGAAGGCGGCAGGAGCCGGCTCCCACTGCAACTCCAAGCCTGCCCACCAGTCCAGTCCTCTCTGGCACCCACACTCTCCTCGCC
TGCAATGCCTATTCCCTCAAGGCCTGTGGGGGCTTGGGACTTCCCATGAAGTCATGGTCCACTCGGCTCTCCCCTCCCTGAGCCCCTCCATGCTTCCTCC
TCTCCTCCACCTCCATGCTACATTCAATGTATCCCCTCCCCTTCACCAGCCTCCCGCTTCGTCTGTACTGGCCTTTGGAGCTCAGAGGCATGTTGTGATA
CGGTTCAGCAGGTCCCAGGCCCTAGATCCACAGCCGCCCCTGGGGGCTGATCCTGGGGCCCTCCATGGCTCCAGGATGACCAGTTTGCTTCGCCCTTCTC
AAAGAGAAAACAAAAACCCTCTTGAATTTTTACATCTTGCTAATTATTATTTTTTTTCATGGTACTGGGAGAATGCAGAATATCAGAAAATTACAATTAT
CCAAAAACGTCCTTCAGTTATCCAGCTGCAAGAATGCCAGCATTTCAATGCTGAAAAATGTCAAGGATCATCTCTAGGGTAGTTTCCTCACTTTGCAGAA
GCTAAAACAGAACCAGAGACAGAGAGGTACAGGGAGCAGGCCAAGGTCACAAACAGTTCCAGGTGGAATGAGAACTAGAACTCAGATCTTTCTCCTCTGC
AAAATTGCTCAACAAGAAAAAACAGACAAAAAATTGGCGGGGCGCGGTGGCTCACGCCTTTAATCCCAGCACTTTGGAAGGCTGAGGCAGGCAGATCACT
TGAGGTCAGGAGTTTGAGACCAGCCTAGCCAACATGGCGAAACCCTGTCTCTACTGAAAACACAGATATTAGCCGGGGGTGATGGCACACACCTGTAGTT
CCAGCTACTCAGGAGTCTGAGGCAGGGGAATCGCTTGAACCTGGGAGGAGGGGTTGCAGTGAGCCAAGATGATGCCACTGCACTCCAGCCTGCTGAAGAG
AGCGAGACTCTGACTCAAAAAAAAAAAAAAAAAAAAATTAGCCCAGCATGATAGTGAGCCTGTAGTCCCAGCTACTTGGGAGGTGGAGGCAGGAGAATCT
CTTGAACCCAGGAAGCAGAGATTGCAGTGAGCCAAGATCACACCACCGCACTCCAGCCTGGGTGACAAAGTGAGACTCCATCTCAAAAAAAAAGAGTCCA
GACATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCCAGACCAGCCTGGCTAACATGGTGA
AACCCCGTCTCTACTGAAAATACAAAAATTAGCCTGGCATGGTGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGAT
TGCACCACTGCACTCCAGCCTGGGTGACAGATCGAGACTCCATCTCAAAAAAACAAACAACAACAAAAAATCTACCTCTGGCTCAAAGTAACACATGCTC
ATGTAGCCAGAAATGTTGAACCAATAACTAGGTGTATCTCATGCTAGTTTCCACAATAAGGCATTTATGAAACCACCAGCCCTACCTGTTCTAAATAAAT
GAATAAAAATGTGGATGCTAATTGAAGATTAGCATCATCTCCCATCCATGTTAATGTGCTTTTTGGTTATTTGCAATTCTCTTTTGTAAATCTGAGGTAA
ACATCATTGTCCAAATTAGCTCTTTTCACTCAGTAAAGGCCATATTAGCATTCTGAGGTTTGCGTTTGCCTACTGCTTATTTAGTAAGGTCAGATGAGAA
GCTAGTCAAATGACTTCCATTTCACTTAAGAGGCGTACCGAGTGGGGAGAACTCAAGCCTCCAAAGCCCGAACTCCCTGGCAGTGGCTCCCCAGGTCCCT
CCCCTCTCTCAGTACTGAGCCACAGCACTGCTGGGAGCAGCAACTACCACCACAGTGGTCTCCCGGGAAGGGCTGGCCCAGATGGGTGACACTGAGTCAG
GTGGTTGCAAGGTCCTCTGCCTGGATCTCGGTCCCCGTCCCCTCAGCGCTGCCGCCGTTATCATCAATGACAGCTCCAATGTCACCTTCTCTCTTGCCCC
ACTGAAGTGGCCATCATCCCCCAGGCACTTTCTATGCCACACTTTCACAGCACACGTCTCGGCATCCAGAGGGCTCTTTCATGTCTGCCTGGCTCCCCTG
CTGGAACCGAGCTCCATGACCATAGCAACCCTGCCCACTCACGCATCCCTGAAGCCCGGGTGCTGACACCACAGATGTTCAATATTTGTTGAAGGAATGG
AAGTAGGAAGGAAAGTCTGAGCTGGTCAGGGCTTCTGGAGTAACTCTAACAAGGAAAGCGGAGGCTGCACTTGTGGTCTCAAATCTTTTCCAAACTCCAC
TGCGTAAAAAAAAAAAAAAGTCTTTGAAACCAGACTCGCATCCAAATCCCAACTACTTTAACCAGTGGCAGGATCACTGGAGCAGATGGTTTAACCTCCC
AGAGCCTGTTTGCTAAACTGCAAAATGGGGGAAATGATACCATTTAGGTTAAGCGCCTGGCTCTTTCTAAATGTTGGCTCAAACGGTGGTGACCCTTCCC
AGACTTCCACCACTACTGGAAGTTTGCGTCCCAAAGCAGACACCCTCATCGCCTTGGCTCCGAATGCAGAGAGCTAGTTCCGAGAAGCCGAGGGGAAGCT
GAAGGCGCGCCCTGGCCAACCCTCCCCACGATCCCCCGCCGCAACCCCTGTCGGCCCCTTCCAGCCCACAGTGGGTGGCCCCAGGCCTCGCTAGGGTCAC
GTCTCTCGGGTCCCCGCGCAGGGAAGGGTCCAACCAGCGACTCGCAACCTTTTCGGGGTCCCGAGTCCAACACCCGTGGGAATCCCATGGGCACCATGGC
CCCTCGCTCCAAAAATGCTTTCGCGTCGCGCAGACACTGCTCGGTAGTTTCGGGGATCAGCGTTTGAGTAAGAGCCCGCGTCTGAACCCTCCGCGCCTCC
CCGGCCCCAGTGGAAAGACGCGCAGGCAAAACGCACCACGTGACGGAGCGTGACCGCGCGCCGAGCGCGCGCCAAGGTCGGGCAGGAAGAGGGCCTATTT
CCCATGATTCCTTCATATTTGCATATACGATACAAGGCTGTTAGAGAGATAATTAGAATTAATTTGACTGTAAACACAAAGATATTAGTACAAAATACGT
GACGTAGAAAGTAATAATTTCTTGGGTAGTTTGCAGTTTTAAAATTATGTTTTAAAATGGACTATCATATGCTTACCGTAACTTGAAAGTATTTCGATTT
CTTGGCTTTATATATCTTGTGGAAAGGACGAAACACCGTGCTCGCTTCGGCAGCACATATACTAAAATTGGAACGATACAGAGAAGATTAGCATGGCCCC
TGCGCAAGGATGACACGCAAATTCGTGAAGCGTTCCATATTTTTACATCAGGTTGTTTTTCTGTTTTTACATCAGGTTGTTTTTCTGTTTGGTTTTTTTT
TTACACCACGTTTATACGCCGGTGCACGGTTTACCACTGAAAACACCTTTCATCTACAGGTGATATCTTTTAACACAAATAAAATGTAGTAGTCCTAGGA
GACGGAATAGAAGGAGGTGGGGCCTAGGCAGATTCATCTCTGCGGTGCATTTTGCCTCTGGCCCTCGGGCCCTAGTTTGCGATCTTTCCCATCTTGCCTC
TGCTTCCCTCTGCACAATCCTGAGTATTGCAGTACCTTACACTTAAGGAAATTTCGTCTTGCCAAAGTTGATCCATTTCAGCTCCGAAACATAACAGGAA
CTAGTGCAACGATAAACGTATGAGGAACTTGCAATAAGAGTGACAGAATCCTTTGAATCAAAAAAAAAAAAAAAGCCACCACTTAATGAGTATCTACCAT
ATGTCAAGGGCTTCACCAATATTTCATTGAAATATTCCAGACCAAATAAATAAATAATAAAAGAAAAAAAGAAAAGGGGGAGGGGGCAGAAAAATAAAAT
AATGTTTAAAAAATTCCTGACAGCCCCACCCTGTGGGTTTTACTGTTTTACTGTCATCATTTTACACCAATCACTGAGAGGTAAAGCCTGATAAGACTTA
CAGAGGCACAGACCCTGAAAAGATCGGGACCCAGGTCTCAGGTAATTGAGTTACAAAAACACAGTCCCGAGTGGTAAGACAAAGAGGAAACAAAGTCCAA
CCACGTTCAGATTTCCTGCGATGACTTAGGCAATGTTTTCTGAAATATCTTTCCAACAGAAAAATGGTGCAACTGCTTTGCTAGTGCTTCAGCATGCACG
TGGGCCCTGCGGCCACTGGGACCTCAGTCGATCTGCCGGGAGCGGCCGCACAGCTCCCAGCCTCCAGGCGCGCCGCAGGAGGACTGTTAGGCTCGAAGCC
CCGGAGCCACCCAGGGACAGCGGCGGGTACTCTACCAGCGGGCGCTGGGAGCTGCCGGGCAGCATTCCATTCAGGACTCATTCCTTTTCTCTTCAGTGGA
AGTGAAATGATCCTTTCCAGGTAACAGCCGAGMATAGGGGACTGCGGGACATCTCCGCCTCTTCCTTGGCTCTGGGCCTTCGATGTAAGGCGTTAGAGGA
CAATCTTTGTTGGCTGGATTTCTGTTCTTCCCCTAGAGATATCTGGTTCTTTGGAGGCCACTTGGGCAATTGGGTGAGTAGTTTTAAATGTCTCCCTTGG
GATGCCAAATAAGAAAACGACCAATGTCGATGTGGCTCCCTCTCTTTCAGCACAGACAACCCATCAGACTGGAATATTATTAGTCTACGTATGTGGAAGG
GGGTGTTATGGGGAGTAAAATAGAATCCAAGAGTGAAGGACTTGGCCCAAAAAGGACTGTTGAGATTGTTCTAAAGAAACTGGTCGGGCGCAGTGGCTCA
CGCCTGTAATCCTAGTACTTTGGGAGGCTGAGCTGGGAGGATACCGAGGTCAGGGGTTCGAGACCAGTCTGGCCAACAAGGTGAAGCCCTGTCGCTACTT
AAAAGAAAAGAAAAGATTAGAACAGAAATTAGGAAARAGACAGGCAGTTCCTAGCCCCAGAAAATCCAGAGACCTGGCTGACTTCCTTTCCTCTGCACTA
ACCTGCTGAGGGAACTTGGGCAAGTCTTCGCCTCTTTGGACACATAGAGTCAATGCATTGGCGTTGCAGGATGCCCTTCCAACCTCTGTGCTTCTAGATT
CTTATGAATGTGTCTCCAGAAACTCAATAGTCCATGCATTGGCGTTGCAGGATGCCCTTCCAACCTCTGTGCTTGTAGATTCTTATGAATGTGTCTTCAG
AAAGCTCAATAGTCCAGGCTTGAAAAAGCACCGGTTTGTCCTCCTTTCTGGGCCCCCTTTCTGGGCCCCTGGAGGAGAGGAGGGTGATGGACTGGGGTAC
ATTTTGGGACTCTAAAAGCATTCCTGGCTTGAGTCTCAGGAAAGTGAATTCAGAGGGAGTTGTAATCTTTGCAAACACCAATACAATAGCACTTCTTGTA
TGCCAGGAGCTGTTCTCAGTGCTTTACATATATTAACAGAAAACAGTTCTATGAAGTAGGTACTGTTAATCTCCCTATGTTATAGATGAGGAAGCTAAGG
CACAGAGAGATTCAACAACTTGCCCAATGTCACTCATCAATGACAGGGCAGCATTGAGACCTCAGTAAATCTGGCTCCAGAGTTTGTGCTCTTAGCCAAG
CATCTGAGGATGGAGAGAGGAGATGAGGCTGTTTAGAATTCATGGGAAGAGCATGCAGATCCAGTTCTGCTTTTGTTGGTGTTCTGAATTCAAGGCAGGA
GTCACATGTTTGYAACGGATCAAGGCTTTAGAGCAGGGTAGCTACGAATGGGTGGACCTGTGTGCCAGTGACCTGGAAAAGTATGACGGAGTGAAGGAAT
ACCCCCTTTAGGACACAGTTGGAACAGGAACAAAGTTTTCCTTTTCTAGGTTAACAATCACTTAYCTGATACCTGCTCCCAAAACGAATCCTATTGATGA
AGGATCTTCTTTCTGAGCAGTAAACCTGTGTTTAATTAACCTTATGCAAATGAGCTTAATTGCTTATCAGTGGCTGTTGTCCAGAAGCACCTAGGGATTC
CTTCCCTCAGACATTTTCAGCACCTAGATGAACCGCAAAGTTGGAAGCCTTTCATCTACACATGTGTTGTGTGCCTGTGGAGCCCTGGGCCCTGTGTTGA
AGATTGCAAGGAAAAGCAAGGTGTGACCCCTGCTGTGGACTTACTTTCAGTCTTAGGGCAACAGACACTTACAACCAAGAATAACAAAGGGAGGTGAGTG
CCCTGCTAGCCTCATGAACCGAGTGCCACTAGAACACAGAGTCACCTGTGCTCCAGGAGTTAAGGGGTCTTCTAAGTGGTGCTTTTGCACACAGKTTACC
CTGATTTGCAGAGGAAATGGAGATSGGAAGGGACTTACTGCTTTCTCCCGTGGGGGTGAAAAATAAACCCACTTGATGCTGTCTCCAACGGCGGCTCCAA
CTTTGCTCAGTCTCTCACTCTGGATTTGCCAGAACAGGTGGGGATAGAGATCATCTTCCCACTGCGGATCCCAAGAGGGGCCCCGGCTTCCGTKCACTCT
TGTCCCTTACCCCAGACCTGGGACTCCAGAGCCAGACCTCCTGTAGGCACCGCTGGGGACCAGGCCAAACCAAACACTCCAGGAGAACAGCCCACAGGAT
ATTCTGTGTTCAACTGCCTCCTCCAACTTCCAGGCCCCACTTTTTCTCCCTGGGACCCCAGGCACCCTGGTCTGGGCCTTCGGGCGTTGGCTGTAATGCT
TAAAATCTGTCGCAAGGTGGCAACATTGTGGCGAGAAATAGACTTTTTTTAAATCCTGGGTTTTTTTTTTCAAAGCATATTTTCCCTATTAATGTTTCAT
TTAACTTAATTAGAATCTGGTAAACTAATTAAAGTAGCTACGAGCCCCGCAATCAGCAATAATTAGTATAATTATTGATAATTACATCCATACCAATCGT
TTGGTTATTAACATTTTTGGGGGGAACAAACCACTTCTGAAGGGACGCGAAGCCCGGGAGGGTTTTTGCGACTGAGCTTTCTGGGTCGGATCCGCCTACG
ACTCCAGTCCGCAGAGATTCCTGCCCAGATGGGGCGTCCCTTCCGGAGGGCCCCAGCTGCCTAGGAGCTTTTCCACTTTGGGGGGAGTTGGGAAGGAAGG
GTGGGAAGGAGCATTTGCCTGGCTCCTCTGTCGAGCYGCAGCCACGGAACTTCCTGCCTGGGTGGTAATGGTKATGCCCATTTTACAGAGAAGAAAAGTG
CAGCTTCCAAAGGTGCAATCCGCGGTGGGGAAAGGGGCCGGCAAACTCCCACACCCGCGCTGTCCCGCCCCGTCGCAGTTCCGCGGGCCCTGGCGCGGCC
TGGAGACTCCAGTCTCTTCCTCTCTGGACCTCAGTTTCGCCACMGGTCCAGCGGAAAGCGGATCTGGTGGGTCCCATGCATATGAAACGTTCCCGCTCCC
TAGAGGGGCCCTGCCCGGAGATGGCCTGTCCGGAGGCGATGCTTCGCCATTTGCCGGCGCCCTCTTCATTGTTATCTCCTTTGTGTCCGCTCTGGTCTTA
GCCSTCGGAACATCCTGGGACTCCAAGGCTCCGACCCCCAGCGCAAAGGACTCTAGGGACTGGCTTCCTGGCTGTACCGCGCAGCGGGACTCCTCGTCTG
CACAGCTTCGGGGAGGCCCAGAGCACGCCCCTACTAGCCGGCTCCGTCCAAGGCCCACCAAGACAACCCGCCACGAAACTTCCCGGCCCCCTCAGCCCAG
GGCTCCCGGTCCCGAGCTGCTGGCCGGTGGCGCGGGGCCTGCCGCCCGCCTTCTACGAGCCGCATGGACGGAGGCCTGCGTGTTATTTCATAGAGGCCGA
AACGGAGACCCAGGAAAGATAAAAGAAGGGCTCAACCCGGGACCCCCRCTAGCCAGCCGAGGGCGAGAAATGAAAGCCAAGGCTGAATGATTCCCTGTGC
CGTGAGCTCTCTCCCACTCCATCCACACTCTCCTCCCTGCAAAGAGTGTTCTGCAATTTGCAGCGTCGTCTGTAGCCCAAGCAGGAGGTGCGCTGTGGAA
ACTGAGGCCGCTGGGAGGCCTTGCCAACCGTGACCCGGACGTCGGACGCCCCAGCCGAGGCCCGGCGAGTCCTTAGCCCCTCTCGAACTAAAATGGACCG
AACAGAAAATGCGGACGGGGCTCCCTCCTTTCGGGTAGCGGCGGGGCAGACGGGAGGCCGTCTGTGACCGAGCTCTCCAAGTCCCGCCTTCCTTTCCAAG
CCTGCCCGGCGGAGACCACCTTACTCCCTGAGACCTCCGCCCTGCCGCAGCGCTCCCAGGCCAGGCCAGGCCGGCGGTGCCCGCGCCATCTAAAGGGACA
ATTCTGGTTGAACCTGGGATTCCCGGCAGGGCGCCCTGTCTGTGAGCGCCCCGGAGGTAACTTCCCCGGTGTGGCAGGCGTGGAAATGGGCATGGATGAA
CCCTCGGCGCCTTCGAGCTCTTGAGGAAAGAGCCCGGGACCGCTGCGCTAAGGACCGTGACGTAATGCCCCTCCTCCATCCCGGGCCCAAGGGAGGGTCC
TAAACGCGGAGAGGGAGTGCCCTGTGGGGGAAAACTGAGTGTGTCTGGAGGGCACAGTGGAGAGGTTGAGTGCTCGCTGCTGCCCACTTGAGCAGGCCCG
ATTCTGACCCTGGGAGCCCCAGAACCCGCGGGGCGGCTCCCACCCCCACCTGTTGCACGGTGTTCCGCCGCCCCGCTCCGCCGGTGCACTCCCACCTCCG
TAGCCCCAGAAGTGACATCTTTTATTATTATTATTATTATTATTAAAAACGAAAGTCACGGGTACAGGGTGGTCTCCCCAAACAGGCTCCAGGTGGTTGC
CATCTCGTGAGTCAGTTGTCGCCCTTTTAAAGTGCTGTTACATCAAGAGGTTACAACAAAAAATAGCCAAAGCAAAATCCAAAGGGGAATGCAAAACGGG
ACTGGAAGTGGGTCCAGGAGAAGGAAGCAAAAATAACTTACAGCATAAATAAATTAAAGTGAACCTAATACTGAACCGAGAGACTCACAGTACATTTATA
TCCATTGCACATAGCCACTTTGTCATTAGGAACAGGAGTTTCAGAAGTGGACGGGACGGGGAGTGCGGGGCAGGCGCCAGCGAAGTTGCTACATTGTATT
CACAATCGGGTTCAAGGCTATACAATGGGAGGGGGCGCTCTCCCCTCCCGCCCCCCGTCTGTCCAGTTAACCCCTTGAGGTCCGATGCCCTAGAGTTCAC
ACGGGGTAGGGGGATTTGAGGCGCGAGGCGGTATTTACACTTGGAAACCAAGCCGGGGCCCTGGACAGGGACGCCCGGGAGGGGGCGGGCAAGGCCGGGG
AGCCCGGGAGGAAGGCGGGCGGACGGGCGGCTGTATTTACATCGGTCGGGTCCGAATGGCTTGTTCCTCGCTCAGGGCCACCGCAGCAGCGGGTATTTAC
AAGGAGCAGCATGGCTTGAGGGCGCAGGGGTGCGGCCAGGCCGGCCCTAGGGCAACAGCGGTGGCTTGAAGGAGCAGTTGCCAGTGCAGTGGCGGGGCGT
CAGCATCTTGCAGGAGAAATGGTGCAGGGCGTCGTGGGCTTCTGGGGAGACAGTCGCGAGGGTCACTCTGGGCGCCTCTCCAGGCTCACCTCACCGCGCA
GTCCACCCTTTCCCCTCCCCGGCCTTACCAACCCTTTGGGGTCAGGGAATCTCAACCGAGCGGATCAGGAGGAGGCAGGAGGGTAGGACAAAAGCTGGTG
ATTCAGAACCACTGCTCTGGTTCAGTAGCCCCATTTTACAGAAAAGGAAACTGAGGCACAGTAAGAGAGGAGTCAACCTGCTCAAAGCCAGAATTGGTAA
TAGAAGGCAGATTTTTCTGACGTCCAAAGCCCAAGGGGCTCTTTCTTTTTACCCCCACCATCCTAGAATAATCTTCCCGTTAAAATCAGTTCCCACTTTT
CTCCCTCACAGATCCTGATCCACGTGGATCGTGGCCTTCCTCACTAGTCCCACTATTCATTCATTCAGTCGACAGCACGGCCGGCACCCAGCACCCCTCC
TATCTTTGTTTCCCGGCTTCCGCACCTTTCAATTTCTGCTGGATGGCATAGCGCGCCTTCCGCTCCTGGTCGAGTTCGTTACACAGGGTATCTGGAAGAC
AAGGGGAGGGGCCAGTGAGGAAACGCAGACCACCCTCCGAAAGGCCGGGGTCACAGCCCGGGCTTCCTCCTCTCCCCAGGGCTAAGCTCCGCGCAGAAAC
AACTCCAGGGATGGGGGAGGGGGTACCGGAGCTCCTAACTGCAGACTGGCGGAGGAAGGAAATGGCCTGGGATGGCGCTTAAAGGCAGATGGATCTAACC
AAAATTAAAGCAAACTTAGGCATTACTTCCCAGGTAATTTTACGCCTCGATTTTTAATTTAGAAACCATGGAAATTGCCGCGATAAGAAGTTCAATCACT
CCATGTAATGATGCCTGCAAGCCGTTTGCTGGGCTCGCTTGCCATTCTGAGGCTAATCAGAGTATACAAAGCATATTAAATAAAAAAATAATTGTTAAAT
TACCTTCAATTTAAATCCAAATGACTGAGCCAACATTGCGGCTCCTGCCAGACGAGAGGCAGTTACGGCCCGTGCACGAGCTCACCTGACTCCCGTCTTA
CCTCTGACAATTTGCAGCTGTTGCACCATTTCTTCTCGATAAGCCAATTCCCTCTTCATTTGATCCTGAAAATTATCTGTGCAAATTGATTAAGTGAGAG
CTGTTACGCACAGCCCCCTCTCCCGGCTCCACTTTCTCACTCCTGGCCCCCCCTTTCACCCCTACCCGCAACTCCCACCCAGCCATTCGCCTGCAGCCCT
GGAAAAGGACAGTTTCTTGTCTCCTGCAGGGCACCTAGTACCAGTTGCCTGGCACCCGGCTTTCGGAGTAGGTCGGGGCACCCTGGTGGAAGGCTCGGTG
ATGAGGTGGGGTGAGGCAGGATGGCAGTGGGTACCTTTGAGACTCTGAAATTCCCGTTCCAGCTTCTTGCGGAGCTCCATTTGTTCCAGGAGCAGTTTTT
GCAATTCCTCTGTGAAAGGGGAAAAGTGGGAGGTAAAGTGGGAGGTAAAGCAGGGTTATTTGGAGCTCAGGTTCTGCCTTGGCCAACAACCCTGAAAGGA
GAGTTGAGAAGGATGACCAGTAGGTGGAGGCCCTCCGCTCTCTGGCTTTACCAACTGCATTCAAAGGATTTGGGTGAAGAAACTGGGCTGTGGGTAGGAT
GCCCAGGAGAATAAATTCAGGACGGTGGAATCTAGGCCCTGGCTCCAGGAACTATGCAGCTGGGCAACTGCTTTAAGTTGTTCCTCACTCCCTAACCTAA
GAGGCTGGCCCACGGAAACTTGATTTCCCACTTCAAGTGACAGACCCCGCCCCCGCCCCGGCCCCGACCTCCCCCCCCCGCACCGCCGCCCTTTCAATAT
AAATCAGGGAGGCTTTGGTCAGAGCCTTGGACACCTTTCCCAGAAAAATACACATACAACAGTTTGCCTACAATTTCAGGAGGTCTGAAGACTGCCAAAT
CCATGCTAAGAACCCTCACTATAAAGCACCAGTGATTTTGAAGGTAATGGCATTTTCTGTAAATCTGTAACTAGGAAGAATGGAAGACCACCAATGCTTG
TCTTCCTCCTGCCACAAATTCCCAAGACCATCTATGGGCTAGTTGAGGGGCAGGGAGCTAGGTGTAGAGGCCTCTGTTAGTGCCCTCAGAACCAACTCCA
GAGGGATAGATGTGGCAACTGCCCTGACCATGAGGTCATTGGTATCTGGGCCCTCCTCCAGGAGAGGCTCCTCTGAAATGCAAGAATGGAAGGTAGAAGG
GCAAAGTGGGGCTAGGGACTCCCCTACTCTGCACCCCAAGCCATAGTCTCCTCCTTACAGGCTGAGCAGTAACACAGGGATCCCCATTCTGCAAACAAGC
TCCATCCACACTCCATTTAGGGTAAGGTGGAGGTGGTTATACCTCAATGCCAGGAGAAAGGAAAACACCTCTCACATTCCTAAAATAAATGCTTTCCTGC
AATCCTGCATTGAAATCCTGTTTTCCATTGAATTCAGCGGACCCAGACTGTCCTGTCTGATTGTCCACAGGCATCAAAAATTCTGATCATCGTTACTCAT
TTCTCTTTCTGGCAAGGCTATTCAGACAGACCCGGGCCTTGGGAACCCAAACTTCCAATAAACTTCTGGGGGTTTGTTTTACTCCCATGCTCTACCCACA
CATACATACCTCTGTGCCAGGGTAATGTGTCCAGAGGATCTTACTTTCCACCCAAAGAAAGGAAAACTCATGCCCCCAAGGCCTTGGTGAGTGTCTTTTC
CACACTCACCCCCTACAGGGATAACACCCCTCTACAGGAATGACCCATCACTCTCAAGCACAGCGTACACCTTTTTCACAAATTTATCCTCACCTCTGGC
CAGGTTCTCGATATCTTTCTCCACCAAATGAGTTCCTGTGACATCCAAGGTAAGCCCATCTTCGCCTGGGATACAGGGGCAGGTAAGAGGGGTTCTGTCC
TAGGAAAGCCCTTGAGAGGGGAGGGGTGAGCTTCCCAGGAACCACATCGAATCAGGGACCTACCCTAGACCTTCTGCCTTTAGAGGAGACAGTTACAGGA
ATCCAGTACTATCCACCTTCTAGGACATTACAGTAGAGAGTAGGAGAGTGACCCCTGGAGGAGACGGCCCAGGGAAGATGGGCCATCTAAGGGCAGGAAA
TGCCCTTTGACCTATTTTATGTGGGTGAGGACGTCCCTCCATTTCCTTTTAGTACATCCTCTGCCCTTACCTGAAAGAACCTCAAACCCACCAAGGAGGC
AGCAATTCAGAAAACCTGGCCTGCACCCTGCTCGCGTTAAATATTTATCTGCTCGCCGAGGAAGAAGACTGGCAGCCGCTTACACTTGATTAAAAGCCTT
TCTCGCAAGCCTCTGGGAACCTGGGCGACCTGGGTCCCAGCTCCTGGGTGCGGTGGAGAGCGATGGGTTCAAGGGCTGGCTCACCTCTGTCTGTATTTGC
AGGACTTGGCTGGGAGATACTCCTTTGGTCTGGATAGGATTTCCTCGTTTCCAAATCATCGGCGGGCGAGTGATTGTCTTCCTTATCTGGCTCTTGAAGG
CAACAAACCGAATTTCAAGAGAGGCAAAGAAACCGTGACCCGGATACTGCCGGAGCTGCCGCGGTCGGGGCGCCCCAGCCCTAATTAAAAGCGTCGTGGC
CGCCTCTGGTTCCCGGCTGTGCGCCCAGGAGCGCGCCCTGAGGCTTTGGGCCGGGCACCCCCCACCCCCGCGCCTGGTCTGCTCATCTCCGGGCTTCAGG
CCCCCGCCCCAGCCCCTTGGAAAAGAGCTAGGCGAGCAGCCGAGCCCACCAGGGACGAGCGACCTACATCGCGCGCAGATACTGGGGCACCGCGAGCGCG
CGTGGCCGCCGGGTCTGTCCGCCCGACTCCTGCTGAGAACGCGGCCCAGGCTGCGACCTTCGGGGTGGGTGGGGGGACATCGTCCGGGGTTCGGCTGCCT
CGACCTGCCCGATTTTCCGCTGCCCCCAACCCCTCCTCTGTGAGGAACCTGGTAAGGCGCGCAAGTGCAGGGCGGCCCCCACCACCCCGCGATGGGCCTC
AGCTACCCTGGCGCTTCTGGGGTACCCAAGCGCGCGGCCATGTGCCCCCATCCTCCGCCCCGATCCGGCCTAGCCAAAGGGGACCCCGCGGCCAAACACA
CTTGCTGAATAAATGAGAGGATTTGAAGGCCGTGTCGGGCGTGATTTTGTTAAGGGTTTAACGCCGTGTCTGGGTGTACTGCAGCATGTGTGTGCGTGTG
GTGGAGAGGGCGTTGTCACTGTTGTTTTTAAGTAACTAAAGATTGGAAGTTGTTGGGAGTACTAGCTTAGCTTCCTTGTTTTCATTATT


SNP Information

Context             (SEQ ID NO:62468):
GCCTTCTACGAGCCGCATGGACGGAGGCCTGCGTGTTATTTCATAGAGGCCGAAACGGAGACCCAGGAAAGATAAAAGAAGGGCTCAACCCGGGACCCCC
R
CTAGCCAGCCGAGGGCGAGAAATGAAAGCCAAGGCTGAATGATTCCCTGTGCCGTGAGCTCTCTCCCACTCCATCCACACTCTCCTCCCTGCAAAGAGTG
Celera SNP ID:            hCV3103991
SNP Position Genomic:     9448
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62469):
AACTCCCACACCCGCGCTGTCCCGCCCCGTCGCAGTTCCGCGGGCCCTGGCGCGGCCTGGAGACTCCAGTCTCTTCCTCTCTGGACCTCAGTTTCGCCAC
M
GGTCCAGCGGAAAGCGGATCTGGTGGGTCCCATGCATATGAAACGTTCCCGCTCCCTAGAGGGGCCCTGCCCGGAGATGGCCTGTCCGGAGGCGATGCTT
Celera SNP ID:            hCV9710597
SNP Position Genomic:     8944
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,15)      total(A,2|C,15) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62470):
CCACTTTGGGGGGAGTTGGGAAGGAAGGGTGGGAAGGAGCATTTGCCTGGCTCCTCTGTCGAGCCGCAGCCACGGAACTTCCTGCCTGGGTGGTAATGGT
K
ATGCCCATTTTACAGAGAAGAAAAGTGCAGCTTCCAAAGGTGCAATCCGCGGTGGGGAAAGGGGCCGGCAAACTCCCACACCCGCGCTGTCCCGCCCCGT
Celera SNP ID:            hCV3103992
SNP Position Genomic:     8773
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,13)      total(G,5|T,13) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62471):
GAGAGAGGAGATGAGGCTGTTTAGAATTCATGGGAAGAGCATGCAGATCCAGTTCTGCTTTTGTTGGTGTTCTGAATTCAAGGCAGGAGTCACATGTTTG
Y
AACGGATCAAGGCTTTAGAGCAGGGTAGCTACGAATGGGTGGACCTGTGTGCCAGTGACCTGGAAAAGTATGACGGAGTGAAGGAATACCCCCTTTAGGA
Celera SNP ID:            hCV9710598
SNP Position Genomic:     7313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62472):
GCTCCAACTTTGCTCAGTCTCTCACTCTGGATTTGCCAGAACAGGTGGGGATAGAGATCATCTTCCCACTGCGGATCCCAAGAGGGGCCCCGGCTTCCGT
K
CACTCTTGTCCCTTACCCCAGACCTGGGACTCCAGAGCCAGACCTCCTGTAGGCACCGCTGGGGACCAGGCCAAACCAAACACTCCAGGAGAACAGCCCA
Celera SNP ID:            hCV3103994
SNP Position Genomic:     8094
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,7)      total(G,7|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62473):
TACCAGCGGGCGCTGGGAGCTGCCGGGCAGCATTCCATTCAGGACTCATTCCTTTTCTCTTCAGTGGAAGTGAAATGATCCTTTCCAGGTAACAGCCGAG
M
ATAGGGGACTGCGGGACATCTCCGCCTCTTCCTTGGCTCTGGGCCTTCGATGTAAGGCGTTAGAGGACAATCTTTGTTGGCTGGATTTCTGTTCTTCCCC
Celera SNP ID:            hCV9710599
SNP Position Genomic:     6033
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 PUTATIVE UTR 5


Context             (SEQ ID NO:62474):
AGGGGCCCTGCCCGGAGATGGCCTGTCCGGAGGCGATGCTTCGCCATTTGCCGGCGCCCTCTTCATTGTTATCTCCTTTGTGTCCGCTCTGGTCTTAGCC
S
TCGGAACATCCTGGGACTCCAAGGCTCCGACCCCCAGCGCAAAGGACTCTAGGGACTGGCTTCCTGGCTGTACCGCGCAGCGGGACTCCTCGTCTGCACA
Celera SNP ID:            hCV26911481
SNP Position Genomic:     9104
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|C,6)   total(G,6|C,6) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62475):
GCCACTAGAACACAGAGTCACCTGTGCTCCAGGAGTTAAGGGGTCTTCTAAGTGGTGCTTTTGCACACAGGTTACCCTGATTTGCAGAGGAAATGGAGAT
S
GGAAGGGACTTACTGCTTTCTCCCGTGGGGGTGAAAAATAAACCCACTTGATGCTGTCTCCAACGGCGGCTCCAACTTTGCTCAGTCTCTCACTCTGGAT
Celera SNP ID:            hCV3103995
SNP Position Genomic:     7925
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,10)      total(G,10|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62476):
GAGGATACCGAGGTCAGGGGTTCGAGACCAGTCTGGCCAACAAGGTGAAGCCCTGTCGCTACTTAAAAGAAAAGAAAAGATTAGAACAGAAATTAGGAAA
R
AGACAGGCAGTTCCTAGCCCCAGAAAATCCAGAGACCTGGCTGACTTCCTTTCCTCTGCACTAACCTGCTGAGGGAACTTGGGCAAGTCTTCGCCTCTTT
Celera SNP ID:            hCV27896477
SNP Position Genomic:     6537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62477):
TGAGTGCCCTGCTAGCCTCATGAACCGAGTGCCACTAGAACACAGAGTCACCTGTGCTCCAGGAGTTAAGGGGTCTTCTAAGTGGTGCTTTTGCACACAG
K
TTACCCTGATTTGCAGAGGAAATGGAGATGGGAAGGGACTTACTGCTTTCTCCCGTGGGGGTGAAAAATAAACCCACTTGATGCTGTCTCCAACGGCGGC
Celera SNP ID:            hCV3103996
SNP Position Genomic:     7895
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,10)   total(G,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62478):
TCCCTTCCGGAGGGCCCCAGCTGCCTAGGAGCTTTTCCACTTTGGGGGGAGTTGGGAAGGAAGGGTGGGAAGGAGCATTTGCCTGGCTCCTCTGTCGAGC
Y
GCAGCCACGGAACTTCCTGCCTGGGTGGTAATGGTTATGCCCATTTTACAGAGAAGAAAAGTGCAGCTTCCAAAGGTGCAATCCGCGGTGGGGAAAGGGG
Celera SNP ID:            hCV11771040
SNP Position Genomic:     8737
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,17)   total(C,17|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62479):
CCAGTGACCTGGAAAAGTATGACGGAGTGAAGGAATACCCCCTTTAGGACACAGTTGGAACAGGAACAAAGTTTTCCTTTTCTAGGTTAACAATCACTTA
Y
CTGATACCTGCTCCCAAAACGAATCCTATTGATGAAGGATCTTCTTTCTGAGCAGTAAACCTGTGTTTAATTAACCTTATGCAAATGAGCTTAATTGCTT
Celera SNP ID:            hCV27829214
SNP Position Genomic:     7465
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,33|T,1)   total(C,71|T,1)
SNP Type:                 PUTATIVE UTR 5


Context             (SEQ ID NO:62480):
GTCTGGGCCTTCGGGCGTTGGCTGTAATGCTTAAAATCTGTCGCAAGGTGGCAACATTGTGGCGAGAAATAGACTTTTTTTAAATCCTGGGTTTTTTTTT
T
CAAAGCATATTTTCCCTATTAATGTTTCATTTAACTTAATTAGAATCTGGTAAACTAATTAAAGTAGCTACGAGCCCCGCAATCAGCAATAATTAGTATA
Celera SNP ID:            hCV11771045
SNP Position Genomic:     8370
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Gene Number:                 369
Celera Gene:                 hCG2041468 - 209000073585478
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W2NG(19756946..19769375)
Chromosome:                  Chr1
OMIM number:                 601013
OMIM Information:            CALCIUM CHANNEL, VOLTAGE-DEPENDENT, ALPHA-1E SUBUNIT;CACNA1E


Genomic Sequence (SEQ ID NO:12529):
AAAAGGCAGCATTACTGCCTGCTGATCAGGTGATGAGGAACCTGCAACCCTTCCCAAATTTATAAAGAAAACAGAGGAATTCAGTAAATTCTCTTTCTGC
TCTTGGAGTAGGACAGACCAGTGGTCAGTTCTGGGGACAGTGCTCCTGGTGTGGAGACAGTGTTGGCTGGACACACCCAGCTTGGGTGCACTGGGGTCAG
GTGGTCAGGTCTAACTGCATCCCCCTCCTGTCACTCCATCTCAACAATTCCCCAACCCAGTCCTACCCCATCTCAACCCTTCCTCAACCCAACCTCTCTC
CATCTCAAGTCCTCCCCATTTCAGCCACTATCCGTCTCAAGCCCTTCCTATGTCAACCCTTATCAATTAAACTCCTCCTCATCTGAACCCTTCCCTAACT
CAACCCAGCTCATCTCAACCCCTTCCCATCTCAACCGCTTCCCATCTCAGCCACTTCACAACTCAACCCCTTCACAACTCAACCCCATTCCCATCATGGC
CCCATCACAACTCAACCCCTTCCCATCTCATTCCCTTCAAAACTCAACCCCTTCCTGTCTCAACCCCTTCACAACTCAACCCCTTAACAACAGAACCCCT
TCCCATCTCAACCACTTCACAACTTAACCCCTTCACAACTCAATCCCTTCCCATCTCAACCCCTTCCCAACTCAACCCCTTCCCATCTCAACCCCTTCCC
ATCTCTACCCCTTTACAATTCAACCCCTTCACAACTCAACCCCTTCCCATCTCAACCCCTTCCCATCTCAACCCCTTCACAACTCAGCCCCTTCCCGTCT
CAACCCCTGTCAATCTCAACCCCTTCACAACTCAACCCCTTCCTATTTCAACCCCTTCCCATCTCAACTCCTTCCCATCTAAACCCCTTCACATGTCAAC
CCCTTCACAACTCAACCCCTTCACATCTCAACCCCTTCACAACTCAACCCCTTCCCATCTCAACCCTTCACAGCTCAACCGCTGCCCATCTCAACCCCTT
CACAACTCAACCCCTTCCCATCTCAACCCTTTCCCATCTCAGCCCCTTCCCACCTCAGCTTCTTCACATCTCTACCCCTTCCCATCTCAACCCCTTCACA
ACTCAACCCCTTCCTTACTCAATCCCTTCCTATCTCAACCCCTTCACAACTCAACCCCTCTCCATCTCAGTGTCTCCCCAACTTGACCCTTCAACATCTC
AACCACACTCATCTCAACGCCTCCCTATTTCACCCTCTCCCCATCTCAAGCCTACCTCATCTGAACTCTACCCATCTCACCACACCCATCTCAACCCTCA
CCCATCTCAACCTCTGCCCCATCTCAACCTCACTCATCTCAACTCCTTCCCTATCTCTACCCCTGCCCGTCCCAACCCCTCCCATCTCAATTCCACCGCC
ATCTCAACTCCTCCCCCATCTTAACCCCTCCTCACCTCATTCCTTCTCCATCTCAACCCCCTCCACCTCAACTTCTCCCTCATCTCAGCCTCTTCCTCAT
CCTAACCCCTCCCACCTCAACCCTTCCCCATCTCAAGACTTCCCCATCTCAACTGCTCTCTACCTCAACTCCTCCTCCATCTCAACCCCTCCCCAACTTC
AACCCCTCCCCCACCTCAACTCCTCTCCAACTTCAACCCTTCCCCCACCTCAACTCCTCTACCATTGCAACTCCTCCCCCATCTCAACTCCTCCTCCATC
TCAACCCCTCCCCCACCTCAACCTCTCCCCATCTCAACTCCTCTCTCATCTCAGCCCCTCCCCCAGCTGCCATCTGTTATGGTTGCTTCTTTCCCCTGTG
TTTATACTTAAGCTGGGAAAAATTCCCCCTCCCTCCCTCCCTCCTCCCCTTCCCTCTTTCTGTGATGAACATGAAATTATATTACACATATAGGTCTTTG
TTTTGCTCTTATTCTTTTAGTTTTTAAAAATTACAGGATATGGTGTGCATCTTTCTTTGGCCATTTCTGGAAAGATGTCCATAACATCTCTTTCACGCTG
CAGAGTATTCCTCAGCATGACTGAACCACAGTTTATTCCAGCAACCCTATCAATGGATGTTCCCAGTTGCTTTGCAGTTACCAGCTGTGCTGTAGTAAGC
CTCCCCTACATGCCTTTAGGATGTGCACTTTCATTTCTGTAGGGTCAAGTCCTAGAAGTGGGACTGTGGACAAGTCTTTCCCACGCTATGCCCTCACTCT
CCGGAGGACTGGCACTTCTCTCAACACCCCTCCTCAGCATCTCAGCCTCAAATTGAAATGTGAACTTTCACAGTCTGTGTTATCTCTCTGGCCCCACTGG
AGAGGCCCGATGAATTAATAATATGCCAGCAGGAAACAGAGAGATGGAGTTATTAATTGTCAGTCCATGAGCCCACCCTCTCAAGGTCCTAATTAGCATG
CTGACAGCTTCGGTTTTATCCAGAGCTAGGGCAAGGCTCTGGGGACACTGTGGCTCAGCTAGGGGCATCCGGCACAGAGTGGAGAGCCCTGGTGCCTTTC
TGGGTGGGGTGGAGGGGCGCTTGCAAGAGGCTTGTGAATTCAGAAGTTCCTTCAGGGATCCCTTTGTGCCTGCTGTGGGGTAGGGGAGAGAAACAGGCTG
GGAGTGGGGGCAGGAATGGGAGTTTTAGTGTCCAGGTGGTGGTGATGGTTGGTGTGTGCTGCTCTTGGGCCCCAGTGGTGGGTTTGTGATTCTGGTTCTG
CTGCAGGACAGTGACACTCACCAAGCTGTGTTGGGTGTAGTTGTCTCAGGGAGGTGCCTGCTTTCAAACCAAAGTTCCTTTGATGGGGAGGACTGACCCC
AGGAAGACTGATTGCGTATCAATATTACTCTAACCCATGGCCCTCTTTCATAACATGCACACTCCTGGAAAGGATATCATTAAATCTGGCATTGGTGCAT
GGCCAGGCTCACATAGGGTTGCTCAAGAAATGTTGCTGTAAAGGAGGCCGGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTTGAAGTGG
GTGGATCATTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGTGAAACCCCATCTCTACTAAAAATATAAAAATTAGCTGGGCATGGTGGCACAC
GCCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAAGAGAATCGCTTGAACCTGGGAAGCAGAGGTTACAGTCAACCGAGATCACAACACTGCACTCCAAC
CTGGGCAACAGAGTGAGATTCCATCTTAAAAAAAACAAAAAAGAATTGTTTCTGTAAAGGAAACTACCTATAGGAAGCTGCGTGACCTTGGCCAGGCCTC
TTCACCTCTCTGGGCCCTTTTTAATGTGGATTAGAGGTGGTCCTTATTTTGGTTTGCTCCATACTGGGCAGCCAGAACCATCTAGAACACCAGCCAGGAC
TTGCTCCCCAAGGGTGCTCCTCTGTTGCGGTGCCTGCCTCTCTGCCCAATCTCTCTCCACACAGTGGAGGCTCTGAGTCTTTCCTACTTTGAGCCCTCAT
CTCCACCAGCATCTATGCGTAGCTCTGCTGTCTCAGGCGCCTCTCAAGAAGTTTCAGGCAGCAGAGTTGGTGGAAGCTGAAAAGTCATTTGAATTAGTTT
GCCTGGGTCTATTGCTCAGGAGCCTGGGCACATCTCTTAACCTTTCTGGGGCTGAGGACACCAGCATTCAGGGTTGTGTGTGAGGTGCTTAGTATGATTA
TTACTCATGTTTGTTATTAGGCTCTGTCCTGCTTCCCCCAGGCTGTGGCCGGGAAGACAGAACAGCCATTTACACAGTAAGCTGCCCAATGACCCTGCCT
TTCCCATTCCCAGTCTGCTTTTAAAAAATATGGGTGTCTAGACCCCAACCCTCAAAGATTCAGATCAGTTCATCTTAGGTGAAGTTTTAACAGGAAGATG
TATATAGATGTATATATTTTACAAGCTCTTCAGGTGATTGATTAGTTTAAGAACCATTGATTGAGACCCATGGCAACTGGGCGGGCAGGTACCTTGTGCT
CATGGGGCCTGCCCAGCCAGACACAGCCTTTTTCAGGAGCAAATCCCCCTATCTCCCTTTTGGGACACAGCAGACTGTCTGAGATCATCTGATGACCTCT
ACATACTCTTTTCTGGGACTAAGCTGCCTTTCTGGATCAGTTAGAAGGCAACTGGAACATCTCTGAAAGGTTCTGGATCTCTGTGCACATACAGTAAGGG
GACAGAGCTCATTCTGTGACAGTCTTACCAATGCACCACAATGTAGCAGTCTCTCGTTGTAAGGCATCACCCGGAGTTCTTCGTTTCATGACCAAAAAAA
TTAAGGAGTGTGGACAAAGGGTGAGGTTAGAACGAAAGTTTAATAAGCAAAAGAAGAAAGTCCTCTGCCACAGAGGGGACCCGAAAGAGGGTTGCCTTTT
TACAGTTGAATTCAAAAGCTTTTATAAGAAACTCCCCTCATCTCTGTAGCTGTTTGTGTAATTCCCCTTATCTGTGCAGCTGCGGGCATGTCCTTAGGCA
AGCACAAAGCACAGCTTCTCTTGTTCGGGTTACTGTGGTTATGTTTTGGGTAGGTCCCCCACCTCCCTGTGCAAGTTCCCATGGAGCCCACTGTGTACAT
GCCCGAAAAGAGGAGGAAACCTTTCTGTGGGAGCCCACTGATTACACCAAGAACAAAGGCTGCTATGTTGGGCCTTACTTGCTTGTCTGTGCAGCTGCAG
CCTGAGTTTTCCCCAGGCTGCTCTATTTGTGCCTGTAGCTTGATTTTTCAGGCTGTCTTTCATTTTGAAAGAATTTTACCAAAGACAAGCTTTAGCTGTC
TGCCCAACTAGTTTTTCCTTTTCTCCTCCCTCAACTGGATCATAACTTATGACTCTGAGGCTGAGTCCTGGGATAGTTGGATGTAGAGGGGGCATTATCT
GGATTTGAACCCAGTAATTCTTAGCTGTCTGATATTACATAAGTTACTTAGCCTTCCTGAACCTCACTTTCACCATCTATAGGACAATATGTGCTTTGCA
ATAATAACATTAGATTTCTAGAAACACACACACATGCATAACACCAGGAACAAATTTTCCTATAACTTATTTTATTGATTTCTTTTACATATATGAAATA
GAAAAATGATATTCCAAAGAATTATACCTCTCAATTTTTTTTAGGAAAAATGTTTAAAAAATAAAAAAAAAAGAATTCAAATTGTGCAAGTAAAACAAAA
GGTAAATTGGAGCTCTGCTTTAAAGTAAATTTCAATAGAAGATTGTTGTTGTTTTCTTTAAGTAAGAAGCTGAAATTGCGGAGTGAGTTTTGATGTGGCA
GTGTGTATGCTGTCTTGGTTATCCAGCTGTTTTGACTCGGTTTTGATGGCAACATATACTGACCATGAAACTCAGAGGTAAGTAATTTCACCATTTTGAA
GACACCCACAGCTCTTGACATTTTCAAAGGGTGGTTCCCAAAATAGGAGTTCTTTTGAGATGGCATTGGTATATTCCAGGGTGATGGATGCCAGAGATTG
GCTGGGTGGCTTGATCTGGGTTGCAGACAGTTAAAAGTTAAAGAAAAGTAGGGTAGCTTCTACTTCCTTCATGACCTGGTCCAGGATATTAACAGACATG
CCAGTGGACCTGGGTGCTTGATGTTACTTAACACAGGTATCATTTCCACTTTTTCCCTCTGCTCCAAGCCACAGGGAAACTCAGCCATTTCCAGGGCCCT
TGGTTTCAGGAAGGTCTCTGCAGTTGCATGGAGCCTGCTTTGCCTGGCATTCTGCAGGATTCTTTAGTACAAGGATTTTGACTGGGTCAAATCAGAGATT
TGGGCAAATTCCTGCATTTTAAAATAGTCTTCTCCTAAAACCCTTTCATTCTATGTGATGGACAGATAAGAGATACAGGGCTCCTGTATCAGAAATTTTA
TTTGACTTTTGGAGTAGAGTGACCTGAAGAACAAATTGCAGTTTTATTTTTCTCATTACAGCAAGTCAGGAGGAGGCAGCCTGGGCCTGGTGGGGCACTT
CTCTGATGTCAACAGGGTCTGCCCACCCTGCCATCTTTAGTGTGGCTTCCTGCATCGCCGATYGACCAAGTGGCAGACCTGAGGGCAAAAGGAAGCCTGA
TATTGGAGTCAGCCCCCTTTGGAAGAACTTTCCCTACAGCCCACCTAGTAACTTCTGATGATACCTCCTTGGCCTGATTTAATTCAGTGCACCAAAAATA
TTATCATTTCAACACAAAACCAATGCAAACAAAGAATATGCCCCTAAATGAAATGGTGGGATCTAGTTTAATTTTTATCAAGAGACCTTCCTGAAGCCAA
GGGCCCTGGAAATGGCTGAGTTTCCCTGTGGCTTGGAGCAGAGGGARAAAGTGGAAATGATACCTGTGTTAAGTAACATCAAGCACCCAGGTCCACTGGC
ATGYCTGTTAATAAAAAAATTTTTTAATGTTTTCATTCATGTATCGTTTCAACTGAATCACATGTACCCTAAAACTTAAAGTATAATAAAAATAAATAAA
TAAAATAAAATAACAAAAAAATGTTTTCACAAAGACAGTTTTCAAAGTAACAAAGGACATTGAGAAAAAAAATCCTTTGGTTGTTCCAAGTGTACAGAAC
ATCAGATAAAAATAACATCAATTTTCCACAGAGAAACCAAATATGTCATTTAAATGCTTCCAGAATTAAACATTTGATGTGTATGTTGGGTGAGGAGGCA
ACAGGATTGGATAGGGTGGTGGGAAGTCTGAGTTTTGGTCTCCCCTCTCTCACTAACTAGCTGTGTGGCTTTCACTAAACAACTCCAGCCCCTTAACCTC
ACTAGCTCAGTTTTATCATCTGTAAAATGAAAGGATTGGTCTCGATCAGTGCTGTCCAATAAAAATAATATTTGAGCCACCTGTATAATTTTAAGATTTT
TAGTAGCCATGTTAAAAAAGCAAAAGGAAACAAGTAAAATCAATATATTTTATTTAATCCAATGCACCAAAAATATTATCATTTCAACACAAAACAAAAT
TATTGAGAAAGTATTTTACATTTTTTTGCACTAAGTCTTTGAATGCTGTGTATAATTTACCCTTCCAGCACATCTCAGTTTGGACTGGCACAGTGTCAGG
CGCTCAGCAGCTGCACACCTCTCCTGGCTACTGTTTTGAATGGTGCTGCCCTCCAGAGCTCCAAGGTTTCTTTCAGTCCTGACCCTTGAGGATTGTCACC
TTTTTTTCTTGACTCAGCTTTGAGTGTCTTGGCCTCTCTTTCCATCCCCCAACCTGGGGCTTCTCTTCAGGCATGGGGTGAAGGGATCAAAACCCTGAGG
GCCACCCCCACTCCATGATTTCTTTCTGCACTGTCTGCTCTCTGTCCTGTGCTTTCCTGATTTGGAATCACTTCCCTCGCTTTTTCTCAGGCTGAGATCC
CTCCCAGCTTGCCTTATCTCTGCCTGGTCCCTGAGGTAACCCATTTGCAGCCTCCCATTCCTGCTCTGTCTAGGCCATTTCATGTTCTCTTAATTTTGCA
TTCCATTGCCTTTAAAATCTTCAACCACTTAAAAATGTAACAATATACATTTTTTTCTTTCATTACAAAAGACGTGCTCATTGTGAAACAATTGGGAAAT
ATAGGAGCTTATAAAGAATAATATAAAAATCACTCATAATCCACTCACTCCAACCCAACCACTGCTAATGTTTTGATGTGCTTATCTTTGGTCTTTTTCT
AAGCATTACGTATACATGTAAATGTGTTTTAAATTTCTTTTTCTGGAGATTTTACAGAATATATAGTTTTCTATTCTATTTCTTTCACTTTTCATTATAC
TGTGAGCGTTATAACAATATCATTAAGTATCGTTTGAAAACATCATTTGTAATTGCTAATGGCTGAGGTTCAGGGAGAGATTTTGATAATATTATGTCAC
CATTAAGCTAGGGACTTAGATAAACTTAGTATCTGCCCTGCTTCTCATTCCTCCTTGTTGAAGAGCTCTTGACCAATGTAAAAAGCAATAGCCAAATGTG
AAATAAAGAACTACCTTATTAACAGCTCAGCAAGCACTGGAGACCGGCATGTTTGCATTTCCACGCTCATTGGTCTAGGTGAGGCTTCCTGGTCCCCATC
CCTGGAATCTAAGATGAGCTGGGCTTGTGGAGCAACCTTGGGCTTGACTTTCCTACTTGGCTCAGACTGGCTTTGGCAAATTGCTTAACCGCTCTGGGTA
TGTCCTTATCTGTAAAGTGGTGATTATAATAGTGCTCACCTCATAGGTCTGTTGTGCAAATTAAATGAGAGAGACATATAAAGTGCTTATCATAGTTCCT
GGCAGATAGTAAATGATCCATAAATGTTAGTTTTACCATTTCCCTATTTTTGGACACTTAAGTGGCTTAATTTTTTTTACTATTATAAATTAATCAGTTT
ATCAGTAACAAATATTTATTGAGTACTTACTACTGGCCAATTTTTTTTTTTTTTAAATACTAGAAATTACAGGGGTAACCAAGACCAGACAAGTGTCTGA
TCTCATGGAATTTAAATTTTAATGGGAGACATGATCAATAAGCAGGGTAAGTTTGGATATGGAAAAGGCTATCAATCACATACAACAAGATGATGCCCTG
AGCTTCAGGTAGGGTGGGCAGCGAGGAGCTTTCTGAGTTAGGTGATGTGTGAGCAGACATCTGAATGACAAGGGGGAGATCTGGGGAAGAGCAAGTTAAA
GACCTTGAAGTGGAAGTGAACTTGAGGAGTTCAATCAAAATTCAGAAGCAGGGAGCGCAGGGGGTTTGGTGTGGTGGGAGGAGCTACGGGAGGTGGGCAG
GAGCCACCTGGTCAGGGAACACTTCGGAGCTCAGGGTGAGGACTGTGGACTTCATTGCAAGGTGTGAGACATGCACTGGAGGCTTCCGTGCAGCGGAGGG
ATGCCTACTCAGTGGTGTGCTGGAGCGGGCTCATGGGAGCTTCTGAGAGCCTCTTGGCACGTCTCTTCCCAGCTCCTTATTCAGTGAAATCATGTTGATA
AGTGGCTTGATCTGGGTTGCAGACAGTTACAGATTCTCCTCGATTTATCAGGACACAATCTGATCAACCCATTGTAAGTGAAAAATATCATCAGTCAAAA
CTGCATTTAACACCATCTAAACCCTTCCTAAAGTCAAAAGATCATAAGTCAAACCATCATAAGCCCAGGACTGTCTATATTTATAACACAGGAGTTTATA
GCAGATGCTACTCTTCCCCTAGAGAGCTAGTTGTTAAATGTTTACCAGCACACCACTGGAACAAACTAATCTAGGTTTTAAAAAATTCTCTTTGCCTATG
CTCTGTGAAGAATGAATTACAGGGAGGCAATATGCAGTTTTGACTGTAGTTTTGAGAATTTCCTTAGGATAAATTACTGGAAGTGAAATTACTACAGAAA
ATTATCTAATTGCTCCCCCTACTGAAAATGTTCATCATTTATACCTCCACTAGCAGCAAGGTACCATTTCCTTGTACTCTTACTCACACTTAGCTTTAGC
CACCCCCATAGAATGTTCCTTCTATCTAGAACTTTGCATTCTGTTCTCTATGTGTAGCTGATTATTTATTTATTTATTTATTAATCCTTCAGGTCTGGTC
TCACATCTCTCTTCTCAGAGGACTTTCCTGACCACTCTATTTCATTGTAATTACTTATTTGCCAGAACCATGGCCATTTATTTATGTCTAGGACAGGGTC
TGCCACATAGTAGGCTCCCAATATATATTATTGAATGAATGAATGCATCCGCCTACCTTTCTGAATTCTCAAATTGATACTAATACAGTCAAAGGAGTTC
CTTTCCTTGGAATGTCTAGGATTGGCTTTTTTCAGCTTAATGATATTTCTGGAGTTGAGGTATATTAAGTCCAAAGAGTTCAATAATTGATAACAAAATA
CTGTGCAATAACCTAACATTATAACAAGATATTTTGCAATAAAATGCAGCTTTAAAACATCTGTTATCCAAGTGAAGTGATGACTCACAGAGAAAATATT
TCCAAACCATACATCTGATAAGGAGTTAATATTAAAAAGATATGAGGAACTCAAACGACTTAAGAGCAAGAAAACAAATAACCCTATTAAAAAATGGGCA
GGGGACCTGAACAGACATTTCTCAAAAGAAGACACACAGATGGCCAGCAGATCCATGAAAAGATGCTCAACATCACTAATCATCAGGGAAATGCAAATTT
AACCACAGTGAGATATCAGTTCACACCTGTTAGAATGGCTATAATAAAAGAGACAAACAATGAATGTTGGTGAAAATGTAGAGAGAAGGAAATTCTTATG
TATTGTTGGTAGAATGTAAATTGATACAGCCATTATGGAAAATAGTATGGCGGTTCTTTAAAAGCTAAAAACAGGACTACCATATGATCCAGTAGTCCCA
CTTCTGGGTATATATCCAAAGGAGATGAATCAATATTTTGAAGAGATATCCACACTCCCATGTTCATTGTCTCATTATTCACAATAGCTAAGATATGCAA
GCAAGCTAAGTGTCTATCAATGGGTTAATGGATTAAGAAAATATGGTGTGTATACACAATGAAATACTTTCAGCCTTAGAAAGAAGAAAATTGTCATTTG
TGACAACATGGGTGAACCTGGAGCATATTATGCTAAGTGAAATAAACAGGCACCGAAATGCCAATATCATATGAGCTCACTTATATGTGGAACCCAAGAA
AGTTGAACTCAGACATACAGAGTACAATGGTGGTTACAGAGGCTGGGGACGAGGGGGGTGGATGAGAAAGGGGTGAGGTTGTTCAAAGGGTACAACATTT
TAGTTAGACAGGAGGAATGTGTTTTAGAGATCTGTTGCACAGCATGTTACTATAGTTAATAATAGCAGATTGCGTATTTCAAAATTGCGAAAACAGTAGA
TTTTAAATGTTCTCACCACAAATAGGTATATGAGGTGATGGATATGTTAATTAGCTTGATTTTATCATGTAAAATCTACAATTTAAATATATATGAAAAC
ATCACATTAAACCCCATAAATATATACAATTATTATGTCAATTAAAATGAATTAAAATAATAGAAAACCCCCAAAAAAGCATGTTATCCATTAAAACACG
AAAAACCAAGAGCCGTCAATAACTGCATGTTTCTAGTGAGACTACAGCAATTTCTCTGTGCACTTGCCAGAGGCTTCTCTGACATGTGGTCACCCTGGAG
CCCATGCAACACCCTCTTATTGCCACAGACTTCTGTGCTCACTGCATGGCCAATATGTGTAGACTAACTTCTGACAGTTTTATATTCTCTTTTAAAATTT
TCCACATTTGCTCTTGATCTCATTCTTTCTTTTTTCTGTGCTATAAATTTCTCCAGCTCTACTAGATCATCCCACCAGTGTAAAAACATGCAATAGAATG
TCACATATAAGAACAAAACACAAGAATCCTTGCTACCTCATACGCCTCTTTATCCTCGGTCCCATTTCTCTGCTCTCCTGTATAGCAAAACTTCTCAGAA
AAGTGGCGAATGTTGTCCCCACTTTCTCATCTCCTGCCCCTCCTAACCACTCTAACAGGTGGTCTGCTCACAAAAACTGCTCTTGTTCAGGTCATTAGTG
ATGCCCACATTCCTGAGTCCCATGGTTCTTTCTCTGTCTTTATTTGATTTGACTTCTCAGAGTACTTAGACTCTCATTCTTGAAGCATTTGCTTCTCTGG
CTTTTGTGGTAGCATGCTGTTCTAGTTTTCCTATTTCACTGGCTGTCCCATTCCAGTCTCTGTTGCTGGTTCTTGCTCCTCTGCTATACCCCTGATGTAG
GTGTGCCCCAGGGCTGGCTTCTGGGCCCTCTTCTCTTCTCTGTCTATGCTCACTCCCAGGATCTCACCCATTTTTGTAGGTTTACATAAATCCACATGTA
AATGACTCCCACATTTATAGATTCAGCCTTCATCTCTCCTCTGAGCTCCTGAGGCTGAAATCCAGCTGTTCCCTTGACATCTTAACTCAGGTGTCTAATG
AGAGTCTTCAACTGAACAGGTCCAAGGAACTTTTGACTTATGCCATCCTCCAGTCTATTCCTCCTCATGTCTTCCTTTCCCCACAAATGACACTACCATC
TATGGTGTGGCTCCAATTCCAGATTATACTAAACAGTTAAGGGAGGTGTGTGGTGAGAATGGTGGCCATACTCCCTTGGGGTGCTGTCACCAGGACCAGT
CTTGAGCCCAGTTCAGCCCTCCTTGTTTAGTAGCATATGTCTCAGAACATGATATGCACGGCCACTTCCACCCACTGCTTTCACTTCCGGCCCCTTTTCT
TAGGAGTTTTGGTCTCATAATGGCTCTAGAAGCAGAGGAACTGAAGGCTAGAGTGGGCAAAAGTATTCTCTCTACTTCCAAAATTATATTCATGCAAGAG
AAGTTGACTTCCTGGTTTTCTGGGTAGTA


SNP Information

Context             (SEQ ID NO:62481):
AAGTCAGGAGGAGGCAGCCTGGGCCTGGTGGGGCACTTCTCTGATGTCAACAGGGTCTGCCCACCCTGCCATCTTTAGTGTGGCTTCCTGCATCGCCGAT
Y
GACCAAGTGGCAGACCTGAGGGCAAAAGGAAGCCTGATATTGGAGTCAGCCCCCTTTGGAAGAACTTTCCCTACAGCCCACCTAGTAACTTCTGATGATA
Celera SNP ID:            hCV25743513
SNP Position Genomic:     6063
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,32)   total(C,62|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62482):
AATGAAATGGTGGGATCTAGTTTAATTTTTATCAAGAGACCTTCCTGAAGCCAAGGGCCCTGGAAATGGCTGAGTTTCCCTGTGGCTTGGAGCAGAGGGA
R
AAAGTGGAAATGATACCTGTGTTAAGTAACATCAAGCACCCAGGTCCACTGGCATGTCTGTTAATAAAAAAATTTTTTAATGTTTTCATTCATGTATCGT
Celera SNP ID:            hCV7538750
SNP Position Genomic:     6347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:62483):
CCCTGGAAATGGCTGAGTTTCCCTGTGGCTTGGAGCAGAGGGAAAAAGTGGAAATGATACCTGTGTTAAGTAACATCAAGCACCCAGGTCCACTGGCATG
Y
CTGTTAATAAAAAAATTTTTTAATGTTTTCATTCATGTATCGTTTCAACTGAATCACATGTACCCTAAAACTTAAAGTATAATAAAAATAAATAAATAAA
Celera SNP ID:            hCV1673411
SNP Position Genomic:     6404
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Gene Number:                 370
Celera Gene:                 hCG2041789 - 209000073588423
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VU5C(8913704..8926621)
Chromosome:                  Chr22
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12530):
ATACAAAAATTAGCCAGGCATGGTGGGACGTGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCACGAGAATGGCTTGAAGCCAGGAGACAGAGCTTG
CAGTGAGCCAAGATCGCGCCACTGCACTCCAGCATGGGCAAGAGAGTAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAGAAAAAAGAAAAGAAAAGAAA
AGAAAAGAAAGAAGAAAGGAAAAGAAAAATCCGGCTGGAATTGGTTGGAACCAAGATGGCCAACCAGAATCTGTGCAGAATGAACTTGGTGACGTTGTAG
CCTGAATTTCCACCGCGTGTTTCATACTAATGCCCCTTAAATTTTGCACATGCGATCCATGAGGAGGCATGAAGAGATAACTGCACGTGCTCAAGGAATT
TTCTTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTGAGATGGACTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAAACTCGGCTCACTGCAACC
TCCGCCTCCCGGGTTCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCTCCGGCCACCACGACTGGCTAATTTTTTGTATTTTTAGTAGA
GACAGGGTATTGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTCAAGGACT
TTTCCAGACCTCCCCTTCCCTTCTTCCTGTCACCTACTAATCTCAGAATCTACCACCCGCACATTTTCTAATAAAAATACTGCCTTGAAGCCAGCACGGG
GAGACAGATTTGAGCTGGACTCCTGTCTCCTTGGAGTTGACGAGTTGACTTGCAATAAAAGCTCTTCCTCTTTCTTTCTTTCTTTCTTTTTTTTTTTTTT
TTGACAGGTTCTCACTCTGTCACCCAGGCTAAAGTGCAGTGGTGTGATCTTGGCTCACTGCAGCCTCAACCTTCTGTGCTCAAGTGATTCTCCCACTTCA
GCCTCCTGAGTAGCTGGGACAACAGGTACATGCCACCATGGCTTGCTAATTTTTTTGTTGTTTTTTGTAGAGATGGGGTTTTCACCACGTTGCTCAGGTT
GGTCTCGAACTCCTATACTCAAGCAATCAGCCCACCTCGGCCTCCCAAAATGTTGGGATTACAAGTGTGAGCCACTGTGCCCAGCTGCAATGAAAGTTTT
TCTATTCTCAAGAGCCCAATTAGTATTGGCTTCTAGCACACTGGGCAGTGAGCCCGTTTTGCTTGGTAACACTAGAAAATTCAGGTACCTCAACAGGATA
CAATCCTACCACCTAGATCATCGTTAACTAACATCTTAGTATTGTCATATCCAGGTGGCTTTTGCTAGACATACACATTAATATAATGTAGTTTTGTAAC
ATTCTATAACGTGCTTCTACAGTACTCTCTAGGCAGCTCTGTAGGTTGATACCTCTTTTGCATTTGTGATGGCACAGTAGTCTAGGAATGGAAGTAGGAG
AATTTAACCAGTCCCACATTGATAGACATTTGTGTTCTTCAGTTTCTCTGCTAGGTGACACCTCATTGCCACAGCCTCCTTTCATTTATTTATTTTTTTG
AAATGGAGTCTCGCTCCGTTGCCCAGGCTGGGGTGCAATGGCGCAATCTCAGCTCACTGCAACCTCCACCTCCCGAGTCCAAGTGATTGTCCTGCCTTAG
CCTCCCGAGTAGGTAGGATTACAGGCATGCACCACCACGCCCAGCTAATTCTTGTATTTTTAGTAGAGGCAGGGTTTCATCATGTTGGCCAGGCTGGTCT
CAAACTCCCGACCTCAAATGATCCACCCACCTCGGCCTCCCGAAGTGCTGGGATTACAGGCGTGAGCCGCCGTGCCCAGCCCAGCCTGCTTTTAGCAGCT
GAACACAGGCCTGCCTTGGGAAGTTAATGGCCGTGGAAGAATTTTCCTCCTTCCAAGCAGGAAAGGGAGGAGAGATAGGGCTGACAGCTTACTCTCTTCA
GAGTTTCCTGGGGAAGGGGACACCTATATGGTGGCCCGGCCCTGCTGAAGGTCAAGATGCTATAGTGTTATGGTTTAAAGGTAGGTGCAGGGTCTAGGGG
GCCTAGGCACTAACAGAACTAATCTCTCCTCCCCCCAACTGCTGTCCAGGTTCATGGATAGTCATGCTTGGTCTTGTCTTACTGTTCTTTCTGGTCTCAG
CCATACCCTTGCTTCCCCAGGCACTCCTGGCCTTTGTTTTCCTACCTCTGGACTCACCCTAGCTGTCCTGTACAACCTGCCCCGCACCTCTGGGCAGTCC
TGGGGTGCTCTTGGACCTCTCCTTCCCAGCCTCCTGCAAGATGCTGAAGGACTTTTTGCTGGTTGCACTGGCCTTCACTGGTGTCACTCTGTTGCTGCTC
CTGTGACCCTGAGGAAGGCACTCGAGGTCTTCCAGCCATCCTGCCCTCTCTGCAGCTTAAGAGGCTCTGTTTTGGTGCCCTGCCAGCTGGGAGGCCCACA
AGATGGGGCTGGTGACTTGCGCAACAGAGAGACTCTCTTCTGAGGAGGAAATTGATATGGAATCTCAGTCTATTTTGGAGGAAGACCTGGAGGCAGTGGC
CCCTTCAGAAGACAACGAAAAAATAACCCTTGTTTCTCTCTCTATATAATCTATAATAATATTATTATATATAATCTATAATAATATTATTATATATAAT
CTATAATAATATTATATATAATCTATAATAATATTATATATAATCTATAATAATATTATTATATATAATCTATAATATTATTAGATATAATCTATAATAT
TATTAGATATAATCTATAATATTACTATATATAATCTATAATATTATTATATAATCTATAATCCATAATATATATTATTATATATAATCTATAATATATA
ATATATAATAATATTATTATATATAATATATAATATATAATATATTATTATATATTATATATTATTGTATATTATATATTTTATATATTATAATATAATA
TATAATAATATATAATATATTATATTATTATATAATACATAATATATTATTATATATTATATAATAGATATATAATATATTATTATATATTATATAATAG
ATATATAATATATTATTATATATCATATAATAGATATATAATATATTATTATATATTATATATTATATAATAGATGTATAATATATTATATATAATATAT
TATATTATATAATAGATATACAATATATTATATATAATATATAATATATTAAATATTTAATATATAATATATTTAATATTTAATATTTAATATATATTAT
ATTTAATATTTAATATATATTATATTTAATATTTAATATATTATATTTAATATTTAATATATTATATTTAATATTTAATATATAATATAAATTAATATAA
ATATTAAATAATATAATATATAATATTTAATATATTATATATAATATATTATATATATTTGAGACGGAGTCTCTGTCGCCCAGGCTGGAGTGCAGTGATG
TGACCTCGGCTCACTGCAACCTCCACTTCCCAGGTTCAAGTGATTGTCCTGCCTCAGTCTCCTAGGTAGCTGGGATTACAGGCATGCACCACCACGCCCA
GCTAATTTTTATATTTTTGTAGAGATAGGGTTTCACCATGTTGCCAGGCTGGTCTTGAACTGACCTCAAGTGGTCCAGCTGCCTCAGCCTCCCAAAGTGC
TGGAATTACAGGCACGAGCCACTGCACCTGGCCTGTGTTGCCTTAACCTTGTGCTTTTTGGTACTAGTTGTTAGGGGAAAAACCTGATGTCTTAACTTTG
TGACATGCATTTGTGGTCTCTGAAGGGGCCAGTGTGGTGGTGGGTTCTTGGGGAAGGAGTAAGAGGCAGGGCTGGGGCCTCATTAGCACCAGCATAGTGT
TGCCCACCGGTGTCCCTGGCCTGAGGTCTACACGGTTGGGAGCCTCGCCTTTTGGCCTCAGCAGAAATTTGACTCCTCTATGGGAAATGGCCTGTGGCCA
CCAACTCTAGCTTCCCAAGAACAGTGAGACTTTTCCTTCCCTGGCTCTGCCTTGGCATTTCTGGGCTGTTGGAACAGGAACTTCTAAGTTAACTTTCCTT
CTCACACAATGGGGGGCCTGCAGGCCTTGGTTTTCCTGCCCTATGCTGCTAGCTTATCACTTCTGGAATGAGGGGGCTGTGTTAGTCCATTTTGTGTTAC
TATAAAGGAATATTGGGCCAGGTAAGGTGGCTCACGCTTGTAATCCCAGCACTTCGGGAGGCCAAGGTGTGTGGATCACCTGAAGCCACGAGTTCAAGAC
CAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCAGGCACATGTGTTCCCTGCTACTTGGGAGGTTGAGGTGGGAGA
ATTGCTTTAACCCAGGAGGTGGAGGTTGCAGTGAGCCTAGATTGCACCACTGCATTCCTGCCTGGGCGACAGAGTGAGACCCTGTCTCCAAAAAAAAAAA
AAAAAAAACAAACACCAAACACGAAAAAAGGAATATTGGAAGCTGGGTAATTTACAAAGAAAAGAGGTTTACTTGGCTCATTGTTCTGCAGGATGTACAG
AAAGCATGGTGCCGGCATCTGCTCAGCTTCTGGTGAGGGCTTCAGGAAGCGTTTACTCATAGCAGAAGAGGAAGGGGAGCCAGCGTGTCACATGGTGAGA
GGAAGGGAGCAAGAAGAGGGGAGGGGTGCCAGCCTCTTTTAAGCAATTGTAGAATAAGAACTCACTCATTATGGCGGGCAGGCACCAAGCCATTCATGAA
GGATCTACCGCCATGACCCAAACACCTCCCACTAGGCCCCACCTCCAACATCGGGGGCCACATTTCCTCCTGAGATTTGGAGGGGACAAATATCCAAACT
CTATTAGTGACCATTGGCCAAAGCTACAAAGTGGGTCTCTTTCCTTCCCCAATGCTGCCTCCTGGAGATTCAGGACTGGAGCTGAGCATCTAGACCCTGA
GTAAGACTGGAGGCTAGAAGCTGGAGCTTGGGAAGCCTGCCTCTTACTGGCTGTGTGCACACAGTGGGAGCTGGCTTGCCAGGGGTGGGCATCAGCGGAT
GCTGATGGGCACTTTGCAGATCTCAGCTCTGGCCCTGGCCTTAGGTTCTTTGCACTGCTCCACCTCCTGGTGCAAGTCCCCTCCACTCAGCTGCCACAGA
GGAGCTCTGGCAACAGCACTGCTCATCTTAGTCCCAAAGGCACAAAGGGTCCACACTCTCTACCTCAGACCCTGCTTCAACATCGAGGCCTTTCCTTTGG
TGGTCAAGGGTGAGACCACCCTGTCCCCCGACCCTGCATCACCCACACTAAGCCATCCTCTCCCAAGGATTCCATGACATCATTGGCCCAAATTGTGGGT
GCTGCCACCGTCTTCCAAGAAGGTGAACCCATCCCCCTCTTTCCATCCTCCTCCCTTTCCTCTCTCTTCCCTCCATCTTCCCTCATTGGTAGGATTGTCA
GATAAAATATAAGATGCATAGGTCAATTTTAATTTTAGATAAACAATGGATACATTTTAAGTATGTCTTTTTTTTTTTTTTTTTTTTTTTTAGATGGAGT
CTTGCTCTGTTGCTCAGGCTGGAGTGCAGTGGTGTGATCTCAGCCCACTGCAATCTCCACCTCCTGGATTCAAGAGATTCTCATGCCTCAGCCTTCTGAG
GAGCTGAGATTACAGGTATGTGCTACCTCCCCAGGCTAAATTTTGTATTTTTAGTAGAGACGGGGTTTCACCACATTGGCCAAGCTGGTCTCGAACTCCT
GACGTCAAGTGATCCGCCTGCCTTGGCCTCCTAAAGTGTTGGGATTATAGGCATGAGCCACTGCACCTGGCCATGCTTTTTTTTTTTTTTCCTTTCTAAA
TCTGACAACCCTCATTTTCTCTTCTCTTCCTTCCTTTTTCCTTTCTCCTTCCTCCTCCCTCCTCCTTCCCTGCCAGCTCAGGAAGAAGGCAGTCTTGTCC
CATTCTGACAAATTGTTATAGAAGAGTGGTGGGGGTGAAGAGGTGACGGGGTAAGGGGCAGCCTTAGCTCCAGGACTATTTCTGYCACCTGTAGGCTGAA
GATACAAGGCCAGTGCCTTTGGGAGCTCAGTTTCCCATCTATAAAGCAGATATCAGATTTTGCACCCATAAGTGCATGTGGGAAAGTGCTTGCTGCTGCT
GAATATTTGCTTGACTAGCCTGAGTCAGACCTCATAGCCTGCCCACGGATGAGCTCAGCCCTCCGTTTGTTTGTTTCCAAGGAGCCTCTCATGGCACCAG
CCTTTGGTTCCCATTCATCCCCATTCCCGGGTGTGATCCGGCTCCCCTGGCAAGAGTTGTGTCAGGGACTGGGGCTCAAGCCAGCCTCTTCACGTCCCCG
AATCACAGCAGAAAGTTGGRAAGGAAACTCTGGAGTCCTGGCCTTTGCCCTAGTCACCCAGGGTCATGGTGAGCGTCAGGGGGTTGTGCTTCACAGATGC
CATGTGAGCAGCGGACAGGATGCTGAGCTGAGGAACACAAGCCCTGCCCCACTCTGCTGTGARTTTCCTTGGACAAGCTGCTTCAGTATTGTGGGTCTCT
ATGGCCTATCACCTCCTCTACCCACAAACAGGGACTGGAGAGGGTGACATGCAGGACACTTCTACTGGAAGGTCTAGAACAAATAAATCATGCCTTCTCA
CTGCCTTTGTAAAAGTGGAATCTTAGGAGGTCATATTCTTACTATATTAMATTTTTTTGATAGAGATGTGGTCTTACTATGTTGCCCAGGCTGGTCTAAA
ACTCCTGGGCTCAAGCGATCCGCCCATCTCAGCCTCSCCAAGGGCTGGGATTATAGGCAGGAGGCRGTATTACAAGGCAACTGAGAGCAATGTCATTGGA
GTAAACAAAGCAAAAACAGGCCAGGCATGGTGGCTGAGGCCTGTTATCCCAGCACTTTGGGAGGCTGATGGGGGGTAAATCACTTGAGGCCAGGAGCTTG
AGACAACATGGGGAAACCCCATCTCTACAAAAAAATACAAAAAAATTAGCCAAGTGTGGTGATGCCCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGT
GGGAGAATGGCTTGAGCCCAAGAGGTCAAGACTGCAGTGAGCCATGATTGTACCACTGCACTCCAGCCTGGGTGGGCGACAGAGCGAGACCCTGTCTCAA
AAAACAAACAAACAAACAAATAAACAAACAAACGAACACCCCCTGCCCCAGGTCCTGGATCTGCCACCCAAGCTGTAAGATGTTGAGTGAGTAGCTTCAC
CCCTCTGAGCCTCCATTTCCTTATCCATAAAGGGCCTTGGGGATGGCATGAGAATAAAACATGCTAAACTCACAAAGCTCTTGGCACAGTTTCTGGTACA
CAGAGAGCACTCGCCAAATGATAGTTGTTTTCTTTATTATGATTATGCCAGATGTGACTGCCTTTGCTTCCAGGAAAGTCCCTAAAACATAAGCTATGTG
CAACAAGGGAAGTGGGTTAGGGTGGGAAGCTGAGCGTGCAAGTCAGACAAAGCCTGATGTAGGCAGCTCCTATCAGAGGCATGTGGCCTTTGTGGCTGGG
GCCCTCAAAAGACAGCCACTGCCAGAAATCTGGAGACTGAATTGTCTGGGTCTCCAGAAGAGAGTCCAACCCCACCACACATCTGCTCCTGTCCAAGGTG
CTGAAATCCACCCCACATAGGCTCCTCCTAATCATGTACAGCTGTTGAGTCACCTGCACCCTACCTTCTGGTCCTCCATTCAATGCCACAAATATACACT
GAGCATCTACTATATATAGGGAGTGGAAGTAAAAAGGATTTAGATATGTCTCCAACCCAAGTTGCTCACAGCCATACGGAAGGAATTCAAGCATACACAC
CTGCCTTAGGGTAGGTGAGGACAAAGGCTAGGGGATTCATTTTGCTATTTATTGAGTTTCATGACACCCACTTCTTGCCTTTACCCTTGCTTTTTCCTCT
TCTGCAACCTTGGTACCCTCCAAGGTTGTGCCTCTCATACCTTTCTTGATCTGACCACAGTAGATGAGTTTTCCCCAGGGCATCTCTTTCTGTACTCACT
AACGTCACAGAGTCAGGAGGACTAACAATCAATTTCAGGGAGGGAGGGAGTGTAGGATATAAACAGAGAAATCAAAGGGTTAGGAGGTCTCTGAGAAATG
AGGGAGCCACCTAGACAGGGGTGAGCTCCTTATCATATTTCTGCATGCCCTCGTCAGGGAGCAGGACCTCCACTGTGAAGCTGACCTTCTTGGCGTGGAC
AAAGCTATAGGTGTTGTCGAAGCGTAGGACATCTGGGGGACAGATGGAAAGAGGGGCATTGGGCTTGGCTTTACACACTCTTTTTTCCACCCCTGGCCAT
GGAGGAGGACAGGCTTGTGTTCCCACTGGCTTTGTTTGCCAAGCTGGGCCAAGCTCCCACCACGCCTCTTCCCTTCCCCATGGGAACTGCCAACCCAAGC
AGGTCCTGTAAACAGACACCAACCTCCTCTTGGCATGTGCCCAGGCATGGCTTTACTGGCATCGAGAACAATGGTCATTACATCCCATTGTCTCACACCT
GGAGACGCACATGACGGGGCTGTGAAGGCACATGGTTGGGTTCATCAGAGACCTCCCAGCCCCCTTGGATGAAGTGGGGTTCTGGGGCAGGCCTGCTGGA
CACTGTTTGCCTCCTCACAACCACCCCAAAAAGCAGGTGTTGGCCGGGCACAGTGGCTCACACCTATAATCCCAGCATTTTGGGAGGCCAAGGTGGGTGG
ATCACTTGAGGTCAGGAGTTCGAGAGCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAATTACAAAATTAAGTGTGGTGGCACATGCCTGTAAT
CCAAGCGACTCAGAAGGCTGAGGCAGCAGAATCGCTTGAACCCGGGAGGGGGAGGTTGCGGTGAGCAGAGATTGCACCATTGCACTCCAGCCTGGACAAC
AAGAGTGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAGAAAAAACAGGCATTGTAACTCCTGGCTCACAGGTGAGCAAACCAAGGGTCCTTCC
CAGATTGGTCAGACTTTTGCCCAGGACTATGTAGCTACCCTGAGGCTCGGGTGGGACCCTGGAACCACACTCAGCTTTGTGGCTCTGCACAAGTTGATTT
ATTTTTCAGAGCCTCGGTTTCCTCATGTGGAAAACTACACCTGCCCTATCACTTGTTGTCTGTGTTCTGTGGTCCAGGTGTCCCCAATTCCTTCAGGGCC
TGTATGTCTCTGGCTCCTGGTGCACAGTAGGTGCTCATGAATATGGACTGAGTGAGTGACTGTATGAATGAATGGTGCTAACCTAGGCTGTGTGTCCCTG
AATGGGGGAGGTGTGTCACTGCCCCTCTGTTTCCTTCTCTAAAGCATGGGACAGGTGGCTCTAGCCTTTCAGAGCCAGGTCCCAGCTGGGGCAGACTTAC
AGACGCCGGCCTCTGAGCAGGTGAGGTTCCCATCCTCGGGCACCATGTGGGCGTTATAGCGCTGGCTGGGTAGAACATCTGTCATCTCCCCTGCCCGCTG
TCGCTCCCCCATCTTGGTCTTCAGGAAAACTCCGAAGCCGATGTCCGCACCATCAGATGAGAACTGCCACCTGTCAGGGGGAGGGGGAGGAGACAGGTTG
CTGCTCAGCCTGATGGGTCTCTGAGGGGTTAGGGCCTGCCCCTACCTGAGAACGCAGCCTGGAAATAGGATCTCGTATTCCACTTGGTGTGATGAGCCGC
GGTTGATCTGCACCGAGTGCTCGTACTGAGTCTTCACCTGGTCCCGCACGTACATGGACTTGGGGATCTCCCCGCCATAGTTAATCTGCGGACATGGGAT
GAGATGGGCTTGCTTCCGTCTCCTGGCCATTGTTCATGTTTCTTCTGCCTGAGACACTTTCACCACCTCCTGGAAGTATCCTCTTCATCCTAGCCCCACT
CTCCCACCTCCTCAAGCCTTCTATGACCCTCCAAACTGGGCCAGTGCGTCTGCTGGGAGCTTCCCCTCCCAGCTCATCCCTCTGGGTTAAAATTCGCCTA
TTTCTTGTTTGCCTTTACAGCTGCTGAGAGCTCTGTAAGGGCGAGGGTTGTATTGACTAGCTTAACACCCAGTTCTTGGCATCTCTCTATAGGTAATTGT
GGATGAATGACTGAGTGGAAAGGGAATCCAGCTTAATTCTTGAACCTCTCTTGTCCCAGGGAAGGGCTCTTTGTACCTTGGTTAAACATTTGGGGTTCCC
ATCTGGGTCAGTCAGGGTGCCCCCAAACTGGGCAGGCAGTTCCTCAGGACTGATGAGTTTCAGCAAACCTTCCTTCCAGTTATCTGGGAGCAGTGGGATT
CAAGGGTGGTTAGCAAGCATGGGGGGCACCAATTAGCCTCCCACACCCACCAGGATGACCTGAACTGGGGGAGAAGCCCTATAGGAGGTAGGCTGCCAGG
ACCAATTCCCCAGTGTCCTAGGCCTGGGGCTACAGTAAGTGTCTTTCTCAGCATTGTGTTGCTGTGGAAATGTGTTTCCCGCCTTGATAGATGAATCAGC
ACTTTTTTTTTCTTTGAGACAGTGTCTCACTCTGTTGTCCAGTCTGGAGTGCAGTGGAATGATCATGGCTCACTGCAGCCTCGACTTCCTGGGCTCAAGT
GATCCTCCCACCTCAGCCTCCTGCGTAGCTGGGACTACAAGCATGTACCACCATGCCTGGCTAATTTTTATTTGGTTTTGTTTGGTTTTTTTTTGTAGAG
ATAGGGTTTCACTATGTTGCCCAGGCTAGTCTCAAACTCCTGGGCTCAAATGATTGTCTTACCTGGGCCTCCCAAAGTGTTGGGATTACAGGTGTAAGCC
ACCATCACCATGCCCAGCCTATGGCACATTCTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGGTCTCAGC
TCACTGCAACTTCCACCTCATGGTTTCAAGCAGTTCTCTACCTCAGCTTCTTGAGTATCTGGGATTACAGGTGCCCACCACCATGACTGGCTAATTTTTA
TATTTTTAGTAGAGACGGGGTTTCACCACCTTGGCCAGGATGGTCTTGAACTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTA
CAGGCATGAGCCACCACGCCCAGCCAACAGCACATTCTTGAAGATCTTCCAGTCATGAGCAGTGAAACTAAGAGTTATCTAATTGCCTCAAGGAGAGTTT
AGAGCTCAATGACGTCAACGGCCTTGTTGGGATCACTCTGTAAGTAAGTGGCATGCCCAAGTCAGACCTCCTAGTGGGGGATGGACAGCCCTGGGCTTTT
GGAGGGACCCTCCCCACTTCCCTCTGCCTAATCACCATGACCATAATGTTCTTCATGCCCTATGTAAAGCTCTAAGAGTTCTGGGTCCTGGCTGTTACCA
TGCCCCAGCCTTATGGCTAATCCAGGCTACCCGGTCCCCCAACCCCCTCACTTTGGCCATGGGAGGTTCCTTCTCTACAGTGGTATTAAGGGGAAGACCA
CAATGTGCCACATACCAGAGCCAAATGAGCAGAGTCACATGGGGCAGAGGCTGTGGACTTAAGGCCTGGACTGTGCTGGTAACCCACACTGCTCTAGGCT
TTGGAAGGCGTAGAAGGCATGAGCCTGGACCCTTCAAACCAGGCCCTCATAATCTATCAAGTTCCCCATCCCAGTGGAATTGGGTAGAGGCAGAGGCTCA
GGTACCAGGAAGAAAGAGAAAGTAAGGATTTATAAGCTCCCCCTCACCCCTGGATCCTCAGTTCTCCTAATTCTGTGATCTGACTATCCTGCTTGGGAGA
AGTTTTCCTCCAAGCCAGGGTCATTGGTTTGGGTTTAAGAACTATTTCCCTTCTCTCTCTTTCTCTCAGCCTGTCACTTGTAAACACAACTATTCTCCTA
TTTGTAAAATTAATACATATTATTATACAGTTTAGAAATCATAGACAATACAGGTAATAAAATTAAAAACCACACGATCTCTCACTATCAACAAAAAATA
TTTTGTTGTTTTTCCTTGTAGAAATATGTATTTATTGTACATATGTTTTCATAAAATAAGATTATACTTTTAGTTTAATCTTATTTTAGTTTATGCTTAT
GAAGATAAGTTTATAATCTACTTTTAAAAACTTAAAGACATTTCCATGGCATTAAATATTCACATATAGCCTTATTTCTCATGGCGGCTCCAGAATTCAT
CAAATGCATGCACCATTATTTATTTATCCAGTCCTTTCTTGTTGGGTCTCCTTTCTCTGAATTGTGACTACTCTTTCTGCTCGTCTGCCTCATCCTCTTC
TGCCAAGGTTGCCTTTGGAAGCACTAAGCTTATGAGTGTTGAAAAGAAACCGAGGCCTATATACCAGAAATTGACTGCAACCAAACTGAAACCAGTGAGG
TGGTAGGTGTGGAGGCCTTGTCCACCAAAGGGGTATGGCAGGGAAAAGAGCAAAGGTAACACTCTTTAGGGTAAAACCCACTTCACTGTTGGGAAGAAGG
AGCCTCTGACTAGGTGATGTGTAGAGTTCTGTTGTTTTTGAGATAGGTTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGAACACGACTCACTGC
AGCTTCATACTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCTAAGTATCTGGAATTACAGGTGTGCACCACCACAACCAGCTAATTTTTAAATTTT
TTGTAGAGATGGGGTCTTGCTATGTTGCTGTGGCTGGTCTCAACCTCCTGATATCAAGCAATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACATT
CGTGAGCCACTGCACCC


SNP Information

Context             (SEQ ID NO:62484):
CCCATTCCCGGGTGTGATCCGGCTCCCCTGGCAAGAGTTGTGTCAGGGACTGGGGCTCAAGCCAGCCTCTTCACGTCCCCGAATCACAGCAGAAAGTTGG
R
AAGGAAACTCTGGAGTCCTGGCCTTTGCCCTAGTCACCCAGGGTCATGGTGAGCGTCAGGGGGTTGTGCTTCACAGATGCCATGTGAGCAGCGGACAGGA
Celera SNP ID:            hCV27503631
SNP Position Genomic:     6420
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,52|G,1443)   total(G,1443|A,52) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62485):
GTCATGGTGAGCGTCAGGGGGTTGTGCTTCACAGATGCCATGTGAGCAGCGGACAGGATGCTGAGCTGAGGAACACAAGCCCTGCCCCACTCTGCTGTGA
R
TTTCCTTGGACAAGCTGCTTCAGTATTGTGGGTCTCTATGGCCTATCACCTCCTCTACCCACAAACAGGGACTGGAGAGGGTGACATGCAGGACACTTCT
Celera SNP ID:            hCV27839112
SNP Position Genomic:     6563
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,6)   caucasian(A,28|G,10)   total(A,56|G,16)
SNP Type:                 INTRON


Context             (SEQ ID NO:62486):
ATGTGGTCTTACTATGTTGCCCAGGCTGGTCTAAAACTCCTGGGCTCAAGCGATCCGCCCATCTCAGCCTCCCCAAGGGCTGGGATTATAGGCAGGAGGC
R
GTATTACAAGGCAACTGAGAGCAATGTCATTGGAGTAAACAAAGCAAAAACAGGCCAGGCATGGTGGCTGAGGCCTGTTATCCCAGCACTTTGGGAGGCT
Celera SNP ID:            hCV11157052
SNP Position Genomic:     6866
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,1)   caucasian(A,12|G,6)   total(A,29|G,7)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,1)   caucasian(A,8|G,10)   total(A,11|G,11)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62487):
TCTTACTATATTAAATTTTTTTGATAGAGATGTGGTCTTACTATGTTGCCCAGGCTGGTCTAAAACTCCTGGGCTCAAGCGATCCGCCCATCTCAGCCTC
S
CCAAGGGCTGGGATTATAGGCAGGAGGCGGTATTACAAGGCAACTGAGAGCAATGTCATTGGAGTAAACAAAGCAAAAACAGGCCAGGCATGGTGGCTGA
Celera SNP ID:            hCV11157053
SNP Position Genomic:     6837
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,23)   caucasian(C,13|G,21)   total(C,16|G,44)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,18)   caucasian(C,5|G,7)   total(C,5|G,25)   
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62488):
TGCAGGACACTTCTACTGGAAGGTCTAGAACAAATAAATCATGCCTTCTCACTGCCTTTGTAAAAGTGGAATCTTAGGAGGTCATATTCTTACTATATTA
M
ATTTTTTTGATAGAGATGTGGTCTTACTATGTTGCCCAGGCTGGTCTAAAACTCCTGGGCTCAAGCGATCCGCCCATCTCAGCCTCCCCAAGGGCTGGGA
Celera SNP ID:            hCV25933721
SNP Position Genomic:     6750
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,21)   caucasian(A,23|C,13)   total(A,32|C,34)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,22)   caucasian(A,14|C,8)   total(A,20|C,30)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62489):
GAAGGCAGTCTTGTCCCATTCTGACAAATTGTTATAGAAGAGTGGTGGGGGTGAAGAGGTGACGGGGTAAGGGGCAGCCTTAGCTCCAGGACTATTTCTG
Y
CACCTGTAGGCTGAAGATACAAGGCCAGTGCCTTTGGGAGCTCAGTTTCCCATCTATAAAGCAGATATCAGATTTTGCACCCATAAGTGCATGTGGGAAA
Celera SNP ID:            hCV27486134
SNP Position Genomic:     6085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 PUTATIVE UTR 5


Gene Number:                 371
Celera Gene:                 hCG2041823 - 209000073588748
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W3P1(8361071..8374720)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12531):
CTTGCCCTTGGCCTGGTGTGGTGGTTCATGGCTGCAATCCCAGCACATTGCGGGGCGGAGGCGGGAGGATTGCTTGAGCCCAGGAGTTCAAGACCAGCCT
GGACAACAAAGTAAGAATCAGTCTCTAAATTAAAAAATAAAAGTAATTTTTTTTTGTTTTTTTGTTTTGAGACAGAGTCTTGCACTATCACCCAGGCTGG
AGTGCAGTGGCACCGATCTCGGCTTACTGCAACGTCCGGCTCCCGGGTTCAGACGATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGATTACGGGTGCCT
GCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCTGCCCACCT
CAGCCTCCCAAAGTGCCGGGATTACAGGCATGAGCCACTGTGCCTGGCCATAAAAATAAATTTTTAAAAATAGAAGCAGGTCTTCCCTGACTACCCTGTC
TCACTTTTAGTACTGTCATTTGACACTATTTTAATTCTCTCCAATTGCATAAGTTTTATTTTTGTCTGTTGATTTTCTATTTTTCTCATCAGCGTTATTA
CTGGAGAACAGCAGAGTCCACCCATCTTGTTTACTCTTACATGCTCAGCAGAGAGGCAATGCCAGAATTACTAACAGTGCTAAAGTTACTAAGATAAGTA
AGGTGCTGGATATAAGAGGAATATATGAAAATTATTTTTTTCTGCACTAACAACTACTAGTTAGATACAGAAATGAAAAAGTAGGCCAGGTGCAGTGGCT
CATGCCTGTAATCTCAGTACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTAC
TAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGAGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGGGAATCCGGCAGGCAGAG
CTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAAAAACCAAAAAAAAAAAGAAAAGTAATCCCTAAA
ATGAAAAGATACCTAGGTACAAAATTTAAATGGTAACATAAAAATAAAAGATAATTTGAAGTAAATTAAATCTGAATAAATGGTGGATAACCTATTTTCT
GGTTGGAAGACTTAATATTATAAAAACAATATCACAAAGGAGTATCGCAAATGAGTTTATAAATGTCATGTTATTCCCATCAGAACCTCAGTGGGTCATT
GTTTTTGTTTTTTGGAACTGGAAAATAATGTGGCAAAAATCTTAGAAGTTCAATAACACATTGTGTTGATGAGACCGAAGAAAAATGAATCCTACACATA
TTGCTGGTAGGACTAAAAATTGATTGAACCCCTAGGGAAGACAATTTGGCAATATCTGTAAAAATTAAGGCATTTACTCTTTGACTCAGCTATCATAATT
CTGGGAATTTATGTTACAGATACAATTACACATTGAAAGGAAAATAAATCTTGGGGCCCCAAAATCACTAAGCCAAAGGGAAAAGTCAAGCTGGGAACTG
CTTAGGGCAAACCTATCTCCCATTCTATACCTGAAAAAGCCACTAAGATAAAAAAGCTACCTACCTTCCTCACAGGGAATGTCCTTGTGGACAAAGGACA
GAGAGAGGCAGGCGGATCACCTGAGGTCAGGAATTCAAGACCAGCCTGGCCTACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCA
TGGTGGTGCGCAGCTGTATTCCCAGCTACTAAGGAGGCTGAGGTGGGAGAACTGCTAGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCTCCAC
TGCACTCCAGCCTGGGCAACAAAGGGAGACTCCATCTCAAAAAAAAAAAGCCATCATCTGTTTTGGGGGTGTAATAAGATATATGTACTTCTGAACCATG
TAAGTATTTCGGCCGGGCGCCTTGGCTCACACATGTAATCCCAGCACTTTGTAAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGGCCAGCC
TGGTCAACATGGCAAAACCCCGTCTCTACAAAAAATAAAAAAATAAAAAAATTTAGCCTGGCGTGGTGGCGGGCACCTGTAATTCCAGCTACTCTGGAGG
CTGAGGCAGGAGAATTGCTTGAACCGGGGAGGTGGAGGTTGCAGTAAGCCGAGATCACGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCGTC
TCAAAAAATAAATAAAAAATAAGTGTGTCAATTCTAAAATTAAAAAAAATTTAAAAGTTTGCATGGAAAAACTAAGAATAGTCAACAGTATTTCTGAATA
AAAAATAGAATCGCGGCTGGGCGCGGTGGTTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACGAGGTCAGGAGATCAAGACTAT
CCTGGCTAACATGGTGAAACCTCGTCTCTACTAAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAA
TGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCCAGATTGTGCCACTGCACTCCTGGGAGACACAGATTCCGTCTCAAAAAAAAAAAAAAAAAAACC
ACACAATTACATGTGGTTTTGTGCCTCTTGGATTTCAGTTATTGGGGAAGAGTAGTGCTTACATCCTTCTTATTTTACTGTTATTAAGAATCCTGGCTGG
CACGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGAATCCTTTGAGCGCAGGAGTCCAAGACCAGCCCTGGCAACATAGCGAGA
CCTCATCTCTACGCATGGTAGCCTGCCCCCGTAGTCCCAGCTACTCGAGAGGCTGAGGTGAGAGGATTGCTTGAGCCTGGGAGGTCAAGGCTGCAGTGAG
CCCTGATCACACCACTGCACTTCAGCCTGGGTGACAGAGCGAGACCCTGTCTTGAAAAAAAAAAAAAAAAATCCTATTCCTGCCAGTAAAATTGGGCTCT
ATATTACCAATTTGTTTATATTGCAAATTAAAATCTGCAAGTCTGGACTTAAAAAAATGGAAATGTTTGTAATTAACTAAAGTTTCTGGAAGTGATAAGC
AGTATAGAAAGGAAAGATGTGTGGTAAAAATTGCTCAACTGATTTTGTAAGGATTTATTAAGAGTATTCACAGGATTTTCAACATTGCTTTTCTGTGCAA
TATGATAATTTGTGTGATTTTTAAAAACTGGGCTGGCTACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGATTTGCCTGAGC
TCAGGAGTTTCACACCAGCCTGGTCAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGACTGCGTGCGCCTGTAGTCCCAG
CTACTCGGGAGGGTGAGGCAGGAGAATCACTTGAATCCAGAAGGCGGAGGTTGCAGTGAGCTCAGATGGCGCCACTGCACTCCAGCCTGGGCGACACAGC
AAGAGTCCGGCTCAAAATAAAACAAACAAACAAAAAAAAAACTGTTATGAACTGTATCATTTCTCTATTGTGGCATAACAAATCATCCCAAAACTTGGTA
CCTTAGCACAAATATTATTTTATTATTATCTCTCATAGGTCTGAGAATTGGTGTGGTTCTCACACAGGGTCTCTCATGCAGTTGCAGTCAGATTAGGGGC
TGGGGCTGGAATCATTGTAAAGGTTTCCTCACTCAGAAGTCTTGTGGTTGATGTTGGCTGTAGGCCTGAACGCCCACACCTGGCCTCTCCATTGGCCTGG
ACTTCCTCAAAGCATGGGGGCTGGGTTTTAAGAACAAGTATCCCAAGAGAACTAGGTGGAATCTGTTTCACTTTTTATGACTTAGTCTCAGAATTCACAG
TGTCACTCCCTCCATAGTCACAGATTCAAGGATTAGGGATACAGACTCTACTTCTAGATAGAAGGAGTGCCAATGTTACATTGTAAGACTAGCACATAGA
ATGGAAGATCTTCCAGCATCTAGAAAAATTCAATTAGACACATCACTTGTTCTGTTCTTTGTTAATAAATATGTATAAATATAATTTGAACAGACTTCTT
ATAAGACTCCAATTTTTTAAATTGTTGCCATGTCCTGTTGAAAAAGAATTTGTGCTACATATTTTCTGTCTGCCCTGTTAGAACTACTCTCCATTGGTCT
CCATGTTCTGTGTCCCTGAGTGCTAGCCTGAATGAACTGCATCAGTAAACTCTCTTGCCCTCTACCTTCTTGGGTCCTGCCAATGCACAGTACCTACATA
AGATCAGAGGTTTGGAAGAAATGAGGTCAAGGTATTTATTCCCTGGCTGGATTACGGATTTGGTATATTTCCGTAGTCACCGCTTATGTCTGAAGACTAT
CTTCTATCCCTCCTGTCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCTGCCAACATGCCCGGCTCATTTTTGTATTTTTAGTAGAGACAGTTTCACC
TTGTTGATCAGGCTGGTCTCAAACACCTGACCTCAGGTGATCCACCCGCCTCGGTCTCCTAAAGTGTTGAGATTACAGGCGTGAGCCACCGCGCCCGGCC
TAACCCTATACTTTCTGGATTCCCATTGCTGCTCCCTTCTTTTGCCTCTTTTGGGGTAGTAGTAGTGAGGGATCCCCCTGTTGATAGCGCTGGTATGCTT
CACTCTGGTTGGTTTTTCTTACCCAGTCTACAACTTTGTAAACAGTCCCTTTATTAAGCTCTCCTTAATTACTTAGCATATGTAAGCCTAGTAACATAAC
TTTCAAAACCTGTAATTCTGATAAGTGATCTTACTGAAAATAATTTTATAATTGACTTTATTTTTAAAAGACAGGGTCTCATTATGTTATTTAGGCTGGT
TTTGAAATCCCAGCCTCAAGTGATCCTCCATCCTCAGACTCTTCCTCTGAGTAGTTGGGATTACAGGCATGAGCCACCATGCCTGGTTTATAATTGACAT
TTTTGTATTCTTAAAGAATGTAAATACCTGTAATATTGCTCTATCAAATCATCTATAACATAGAGAAAATTCCTGTTACTCTGCTATATTTGCTTTTTTT
TTTTTTTTTTTTTTTTTTTTTGAGACAAGGTCTTGCTCTGTTGGCTAGGCTGGAGGGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGCCTCCTAGAG
GATACTCCCATCTCAGCCTCCCGAGTAGCTGCGACTACAGGCACCTGCAACTATGTCCGGCTAATACTTCAATTTTGAGGGGCTGGCAGGGTCAGAGGTA
GGGGACGGGGTCTTGCTCTGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAGGTAATCCTCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGAGTA
AGCCACAGTGCCTGGCCAAATATTTGCTATTTTAATAGAGGTTAAGAAATGTCTCATTTAAATTAACTACATTAGGCCGGGCTCAGTGGCTTATGCCTGT
AATCCCAGCACTTTGTAAGGCCTAGGTGGGCGGATCACTTGAGGTCAGGAATTCCAGGCCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAAT
ACAAAATTTAGCCGGGCGTGGTGGCGGGCGCCTGTAATTCTAGCTGCTCGGGAGGCTGAGACAGGAGAATCACTTGAACCCAAGCGGCAGAGGTTGCCGT
GAGCTGAGATCGCGCCACTGCACTCCAACCTGGGCGATAGAGCGAGATCCGTTCAAAATTTGGGGTTCAAAAAAACCCCAAATTAACTACATTAAACAAG
CAACTCCACACTTATGTAATTACATGTATGTAAGTGCTGCAAAGAAGAAAATGTAAAAATGTATGAAGAGCTGTAACAGAGGAAACTGACTTTTAAAGTG
GTGAGCTGGCTTCCCTAAAGAAAGGCATTTAAGGAAATCTGAGGAAGGAGAGGGATAGTCTGCCTTCAGAGTTTTGTTTTTGAGATAGGTCTCACTGTCA
CCCAGGCTGAGAGGCTGAGATCATAGCTCACTKCGTCCTCGCGTCTCCAGCACAGGTCCGGGTTTCTCCACCCAATGCGCCTGCGCACAGGCCTAGCCCA
GTCGGACGCAGCCCAGSACTGCCAGGGGTGGGGATTRCCTGGGTCCCCCAGGAAGGGCCGGGTTACGTCCGGAAAAGTGAGGCCCGGGGTTCCAGTTAAT
TGTTACCGGAAGTGGAGGGAAGMGTTGCCAGGGGAGGGCGGAGACTGTGGCTGACAAGATGGGTGGCAGGCCCTTCCCTGGGGGTATCGAGGTAGGGACG
TTTGTGGCTACGTCTGTCCTAGAGGAGGAGACGATGCCAGGGGAGAGGGAGACGCAGACACTGGGACTGGGTCGCCAGCAGAGGGCCTCGGAAGCCAAGC
CACCCCGTCTGAAGACGCTTCTCCTTACGGAGCCCAGAAGCGCGAACGGAGACTGCGCAGATCCCGTGCGCTGCGCCGGAAACGGATGCATAGTCTCGGA
CACCAGCTCAGACCTGCCGCCTGGCCAGGTCCGTGCGCGTTTGTAGTTTGTAAAGAAATGTTCTAATGTGTATATTTCCACGTTTATCTGTATATTATTC
ACTTGGGTTGTCTTCTGTTTGTGTTTAATGTGAAGCCTAGAGTTGACCTTGGGAGCTTCAGAGGTAGGGTGCTAATTTTTCTTGCAAGCTATGTAGGTAG
TGAAAGGAAGGTGACAATGACTACAGGAAATTCACCCTAGTCCCTCTTCTTCCCCAGAAGTGGTCACAATTACAGGTGCTTTCCTGTTCCACGCTCTATT
GCATAGCCCAGGTGCATTTATGGGAACAAAACCATGGAGATAGACACTGATCTTTAATAACATTCTGTAAAATGCCATCCTTCAAAAACCAAATATCCTT
GTAAGAAAGTTAAAACATTTGGTGAAACTATTATTTTAGGCCAGGCACAGTGGCTCACGCCTGTAATGCCTACACTTTGGGGGCGCCGAAGCAGGAGGAC
TGCTTGAAGACCAGCCTAGGGTAACAGAAATCCCACTCATCTTTACCCCCAAAAAATTAGCCAGGTGCGATGGCATAAGCCTGTATGGTAGAGGCTGTGG
CAGGATTCCCTGAGCCCTGGAGTTCAAGGTTGCAGCAAGCTGTGACTGTGCACTACAGCCTGGGTGATGGAGCAAGAAACCCCTTCTCTAAAAAATAAAG
TGTCTATAAAAATCAGTCTTACTTAGACCAGCTGTCAAGATTCTCCAGTTCATAAAGTGTAATACCCACTTAAAATTTTATGTGCYTAACGGTCAGGCGC
AGTGGCTCACGCCTGTAATCCCAGCACTTTCGGAGGCCGAGGCTGGTGAATCCCCTGAAGTCAGGAGTTCCAGACCAGCCTGACCAACATGGACAAACCC
CATCTCTACTAAAAATACAAGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGATAATCGCTTGAACCCAGGAGGTGGAGGTTGCGATGAGCCAGGA
TTGTGCCATTGCACTGCAGCCTGGGCAACAAGAGCAAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAACGTGCTTCATATTCTTCCCAGCCGGGTGC
AGTGGCTCACACCTGTAATCCCAGCACTTCGGGAGGCTGAGCAGGGTGGATCACCCGAGGTCAGGAGTTCTAGACCAGCCAGGCCAAGATGGCAAAACCC
CGTCTCTACTAAAAATACAAAAACTAGCTGGGTATGGGGGCACATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGG
AGGTGGAAGTTGCAGTGAGTGGAGACTGTGCCACTGCACTCCAGCCTGGGTGACAGAGAGAGACTCGGTCTCCAAAAAAAAATCATTCCCAGTTACAGTA
GCACCAATACATTTCAAATTAAGAGTTTATTTAGAATACTTTGGCCGGGTGCAGTGGCTCACACGTGTAATCCCAGCTCTTTGGGAGGCCAAGGCGGGTG
GATCACAAGGTCAGGAGATCGAGACCATCCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCCAGGCATGGTGGCAGGCGCCTGTA
GTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGTGGAGCTTGCAGTGAGCCCAGATCGCACCACTGCACTCCATCTCAAAAA
AAAAGTTTACTTAGAATGCTTTTTTAAAAGCATAATAATTTTAACTATACCTCAGATTTTACAGCTTAATGAGGCATTCTATTCCTCCTCTTTCTGGCTT
AGTTTCTTGCCTTGAAGCCCAGTATTCCATAAATTTTTTAGGGCAATTTTTCAAGTTGAAGTATTGACCTCAGTTGGGAATATTGTTAAAATTCAGTTTC
TAATTCAGCAGGTCTAGGGTAGGGACTTGAGATTCAGCATTTCTCAAAATCTCAGGTAGGGCCAGTCAGCCTTGGACTTGGGATTAACAGGGCTTTAATC
AACACACACCACCTTATATCTCTACATTAAATAAAGATCCATTAGGTTATATATATACAATAAAGACTAAGAATGAAAACAAGAAATTTATTAAATATAC
AAAACAGGAATACAGTTCAATTACTGTGTCTAAAAAATTTCATTTTTACATAACCAAGACAATATTTACAACTATATACAAAAGACTCCCACCTGTGCAT
AACCTTTGGTCCATCTGTGCTATCTCTCATATCTGCAAGAGAAACCTAAAATGTTAATATTTGAGTGTTAAGTATTTACATCTTTTTGTGTTGGTTTTTA
AATGCACAAGTACCCCTGAATGGCTCAAAGGGATGGGATAATGCTAGAAACACTAACTTGCAATAAAGTGCAGTTTTCATGCAAACTTAGCCATCAGTTT
TCTTCTTTTAGATAGGTATCCACAGTCCATATGGACTTTTTTTCTGATCTATTTTTGGTGATCTTGAAGATGCCTCTTCTGTGGCAGCTTTAGCTGATTT
TTGTATTGGCTTTGCTACAGAATTCTGTAAAAGAACAAATTCAGTCAGCTTCCCAAACATACATTGTACACTTTTTTCACAAAAAAAAGTACATTAAATA
ATCCCATGTATGAGCCTTAGAGATATTATCAATTGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAGGCTGACACGGGCGGATCACGAG
GTCAGATGTAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCCTAAAAATACAAAAATTAGCCGGGCGTGGTGGCATGCGCCAGTAGTCTCAGCTACT
CGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGGCAGAAGCTGCAGTGAGCCAAGATTGCACCACTACACTCCAGCCTGGGCAACAGAGCA
AGACTCTGTCTCAAAACAAAAAAAAAAGGATTATCAACCAAACACATAGTGTGAACCTTAATTGTAGCTTGATTCAAAAAGTGAAGTGAAGATACTGGGG
CAGCAGGGAGACACTGGACATACACAAGATACACAAGGTATAATGATTTTGAGGCTTCGTTTTTGAAACTCTTATTTTAAAACATTGTGATTAAGGAGTA
TTCTAAAGATTTCCCTTTAAAATATTTCAATAAAAAAGGGGGGACACTTAAAAGAATGGCAAAATATCGGAACTAACGTGAATGTTATATATATTACAAA
CCCATTATAATGGCCACTTATAAAAGTGGCTCAAAAACAAATGATTTTAATTCTATTTAAAAAGTGTGTCAGTAGGCCCCCAACTATCACCACAAAGATA
AAAACACAAAGATGCAAAAATACATCCTAAATCCAATTTTTGAGTGTTCAATGCCTGGATATACTTACATTAGAGCTAAAAGCTATGCTTCTTTGCTGGG
TAGGTTTTTCATTGGGATTTCGAGTTCCATCTTCTGTTACCTTTTCCGACAGCTAGACAGGTTAAGAAAAAGTGTAATTTTAAAACACATACCCTTGGTT
TCTAAATCCTATATTAAAAAATAGCCTAATTGTAAACAAAATTTAGCTGTAGACACAAAAATCAACTTGGATCTAACAGCCTAAGTAACAGAACTATTGA
GTTTTCCCCTTAACAAAACTGATTTAATATTAGGCTTAAGACACTCTTCCCATAATTATTTTACTTCCCTGCTGGCAAATTTAAACTAATTTTTTAATCA
GTTTTCTCAGGTTGAATCAAGTTCACTTTTGAAATGTAAAGCCACATCAGAAAATACGTTTTAAGAAACTAAGGCATTTGCCAGTTAGGCACCTAATCGT
CTGAACAAAGACCTTGTCTACTAATACTGAGCAAACCCACATCTGGGCCCAATTACACAGATTCATTTAGATACAGCATTTTTTTTTTTTTAAGCCCCCG
AGACGGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGAAAAGTACAGTGCAATTTGCTAATGCACATCCTGCACATTTCTGGAGAATTATAATAAACTTAT
CTGCAAGTGAAGCAGGCCTCCTCTTCTGTAATCTCTCAAAACATCTGGAATATATTGCATATATTATGAAAGGGACATCTTTTTCACAGATGCCCCACCG
TTACAACGTGTACCTTTGCTTAGTTTAAAAATTGACTTTAATACTTTATGCAAATAGTGCCTGTCCCAAATTCTAGCATGCACATGGATCTACCAACAAA
AAAACTAAGTTTTCAGTGTGTGAACATAAACTTCAAATTAAACCTCTGATGCTTTAGCCCATGTATCAATTACCAACAGATTTTCTTCATCAATGTCTGC
AGACCACATTCATGATTTCTATAAGACAGAAATAGAGCAGATAAACTATACTGTATATGCTGAGTACAGAATTTGTGGGAACATAATGCTGCAAATGAAA
GCTACAAACACTCTGTAAATAGCTTAGAAAAACTAGTAATAGAAATCACCAAAGTACCAGCTAATAACGGTGTTATAAGAGTACACTGTTAACTGAAAAT
GAAAAAAATAAATGTATTTTTTGAGACAGGGTCTCGCTCTGCTGCCCAGGCTAGAGTGCAATGGTGCCATCTTGGCTCACTGCAACCTTAGCATCCTAGG
CTCAAAGATCCTCCTGCCTCAGCCTCCCAAACAGCTGGGACTACAGGCATGCACCACCATGCCTGGCTAATTTTTGTATTTTTTGTAAACACGCGGTTTT
GCCACATTGCCCAGGCTAGTCTTGAACTCCTGGACTCAAGCCATCTGCCTCATTACAGGCATGAGGCACCATGCACGGCCAAATAAAGCTCATTAATCTC
CCATTTTCATGGGTTTGACATTGCCTATCTTCAGATTTGCTACTTTGAATTTAGCACATTATATACATCTCTAGACTTCCCAAAAAGTATAGTCTAAGAT
ATAAGTGGCTAATCAGATTTGACAGTTGGCTTTCTGAAAGTTTTGTTCCGACAAACCTAGAATACTTACTTCAGGCTTTGCACCATTACTTGATACACCT
ATTCCACGGCTTGTTTCTTTGGCTGAAGGAACAGTTCTGAGACTAGCTGGCAAGTCAATGTTGGTTGTTCCTAGAGCTTTCGCTGCATTGGTTTTTGCTA
TTTCTAACAGCTCCATTCGATCTAAAAAAAAAAGAGAGAGATTTTAAAATACTCATTAATCTGGTAGTTATTTCCCAAGAGAACTCAGAATTACACAATA
AATATGTTATTTTGTGGTATTAAATATATTAAGTCACTTGTTTTATAATAGGTAAACTAAGGTTGCCCTTGAACACTAGTAGCTGCGCTGGTCCACTTTA
TACTTGTTTTTTCTCCCCCTTACTAAATGCAGATAGAAAGTACCACAGTGTTTGAGAGACTGTAAACCCCAAGTGTGCGCGAGGGTTCCATATGCATCCT
GGCACCAATCCCCCGAGTGAACAGAGGGACAACTGTGTAACTTTATTCACTGAAAATTCTATTCTCCAGCTCATTTCTTGCTGAAAAGAATAAAATTCTT
AAATTATCTCAACAATTAGTTTTGTTTTCTTGACTAAAGGCCTGAGCGTCCTATTATTTTGTCTTTTTGTTGTACTTAATTTTCTCTAGCTAATAGTGAT
ATTATTTTGCTTTCTCTTCAAAGATGTATTTCTGAAAACCAGGTTTTTCTGCTGTAGATTCTTTATATAATTATCACAACCACTGAACCAATACTGATAC
ACTACTAAAGTGTATTTCTACCACCACCCCCGGCTAATTTTTGTACTTTTACTAGATAGTGAGCTATGTTGGCCAGGCTGGTATGGAACGCCTGGCCTCA
AGTGACCCACCCGCCTCCGCCTCCGCCTCCCCAAGTGCTGGGATTACAGAGGTGAGCCGCCGCGCCCGGCCTCCTAGGTCACTTAGGATACTCGACAATC
CAATTTTATTCAGTAATAATGTCAACTAAAAGAAGGCGTGTTTTGATATTGTTCTTCCCAATCACGTTAACTTAGAACCTTTAACTTAATCATAACATTT
AAAAGGCTCCACCCACTAAGAACAGTCAGCCAATAGGAAAAAAAGTTCCCTACATCCTGAGCCATTTAACATCCAGTTGACCTTTAACCCTAAAGAGAAT
GCTGTCCACTTAAATACAGGTAATGTCCTCCCTCTTTCCTCCAAAAAGATTTCGGGCACTAAAGGAACTAATATTGAAACTACACAGCAACGTTGGTTCC
CTAGCCTACTCATATACTGCCACCATACATTACCACAAATGGAAAGGTAAATGACCCACCCACCTTTTTCACTTAAGCGAAAGGGGGTTCTGCTCCGCGA
CCTCGTCCTGGATCTGTCCCTCCATCTGCTGTGCTCCTCCGGGTACACTGTGCGACCAAAGCCGTAGTAGCGCTGTCCCCGCGCGATCGCGTACGCCCTT
CCGCAGTACGACCTTCCCCGAGAGCGCGACCTGCTACGGGACCGGGACCGGTACCGCGAAGGAGACCGGTAGTATCTCCTGGTGAACCCGTAGCGCCTCT
CTCGGTAACGGCGGCTGCGGGATCGCGACCGGCTCCGCGAGTATGACCGCGAGTAGCGCCTGTACTTCCGCTGGTGGCGCCTTCGGGAACGGGACCTGGA
CTTGCTCCTCCGACTCCTGGACGAAAACCGGCTCGAGACGCGGGAATGGGACCGAGAGCTTCTGGAAAAAGAGCGGCTCCTAGACCGCGACGACAGCCGG
CTGGACCCGCCCGACCGCGAGGTCGAGGGCGAATCCTTCTCCTGCGGCGAGCCCGGCCACATGTCGTTCACGTAGTTGGACATCTTCACCTGCGGCTTTA
GCCTGCGCTTTCTCCGGAAAGGATCCCGCAAGCCTCAACTCAGGACTTCCTAAAAAACCAAGAGAGAAAAAACAAGTCGAGTCGCGGAAGCCGGCGCCTG
GCCACCCGGAAGCCACAGTCGGGGAACCTCCGGGAGGCGGAGCCACGGCGCGGGCGGCGACCGCCGCGACAGGAACCGAGCCCTAGAAACCCCGCTCGGC
GCCCTGAGGCCGCGGCCTTGAAGCGAAACGCTGCGTTCCCCAAACGCGG


SNP Information

Context             (SEQ ID NO:62490):
CCTCGCGTCTCCAGCACAGGTCCGGGTTTCTCCACCCAATGCGCCTGCGCACAGGCCTAGCCCAGTCGGACGCAGCCCAGGACTGCCAGGGGTGGGGATT
R
CCTGGGTCCCCCAGGAAGGGCCGGGTTACGTCCGGAAAAGTGAGGCCCGGGGTTCCAGTTAATTGTTACCGGAAGTGGAGGGAAGCGTTGCCAGGGGAGG
Celera SNP ID:            hCV25974116
SNP Position Genomic:     6237
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62491):
GGAAATCTGAGGAAGGAGAGGGATAGTCTGCCTTCAGAGTTTTGTTTTTGAGATAGGTCTCACTGTCACCCAGGCTGAGAGGCTGAGATCATAGCTCACT
K
CGTCCTCGCGTCTCCAGCACAGGTCCGGGTTTCTCCACCCAATGCGCCTGCGCACAGGCCTAGCCCAGTCGGACGCAGCCCAGGACTGCCAGGGGTGGGG
Celera SNP ID:            hCV25956379
SNP Position Genomic:     6133
SNP Source:               Applera
Population(Allele,Count): african american(G,22)   caucasian(G,36|T,2)   total(G,58|T,2)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,38|T,2)   total(G,76|T,2)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62492):
GAGATCATAGCTCACTGCGTCCTCGCGTCTCCAGCACAGGTCCGGGTTTCTCCACCCAATGCGCCTGCGCACAGGCCTAGCCCAGTCGGACGCAGCCCAG
S
ACTGCCAGGGGTGGGGATTGCCTGGGTCCCCCAGGAAGGGCCGGGTTACGTCCGGAAAAGTGAGGCCCGGGGTTCCAGTTAATTGTTACCGGAAGTGGAG
Celera SNP ID:            hCV25974151
SNP Position Genomic:     6217
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,39)   total(C,1|G,77)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62493):
CAGGGGTGGGGATTGCCTGGGTCCCCCAGGAAGGGCCGGGTTACGTCCGGAAAAGTGAGGCCCGGGGTTCCAGTTAATTGTTACCGGAAGTGGAGGGAAG
M
GTTGCCAGGGGAGGGCGGAGACTGTGGCTGACAAGATGGGTGGCAGGCCCTTCCCTGGGGGTATCGAGGTAGGGACGTTTGTGGCTACGTCTGTCCTAGA
Celera SNP ID:            hCV25973486
SNP Position Genomic:     6323
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,39)   total(A,1|C,77)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,18)   caucasian(A,1|C,35)   total(A,1|C,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:62494):
CTCTAAAAAATAAAGTGTCTATAAAAATCAGTCTTACTTAGACCAGCTGTCAAGATTCTCCAGTTCATAAAGTGTAATACCCACTTAAAATTTTATGTGC
Y
TAACGGTCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTCGGAGGCCGAGGCTGGTGAATCCCCTGAAGTCAGGAGTTCCAGACCAGCCTGACCA
Celera SNP ID:            hCV25970936
SNP Position Genomic:     7386
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Gene Number:                 372
Celera Gene:                 hCG2041901 - 209000073589488
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W3P1(4706156..4722809)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12532):
GGATCACGAGGTCAGGAGATCGAGACCATCCTGGGTAACACTGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAATTAGCCGGGCTTGGTAGCAGGC
GCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCAAGGTCGTGCCACTGCACTCACTC
CAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAGAAAGAAAAGAAAAGAAACTGCCAGGAGTGGTAGCTCACACCTGTAATCAAACTAC
TTTGGGAGGCTGAGGCCGGAGGATCCCTTGAGCCCAAGAGTTTGAGACCAGCCTGAGCAACATGGCAAAACCCATCTTTATGAAAAATACAATAATTACG
GGGGCATGGTGGCAGGCACCTATAGTCCCAGCTACTTGGAGGGCTGAGGGGGAGGATCACTTGAGCCTGGGAGACAGGGGTCGCAATGAGTCGAGATGGT
GCCACTGCACTCCAGCCTGGGCAACAAAGTGAGACCCTGTCTCAAAAAATAATACATAGAAAAAGAAAAGAAACTATATGCATACATTCTGGCCAGGACC
AAGAGGAAACGCCTCATCTTGAACTGTACAATGCAGTGTTTTCCAGGTGTTATTTTCACACCACCTTCACAATTGTTGCCGTATCCATACTATTATTTCC
TTTTTTTTTTCTTTTGAGACAGAGTCTCGCTCTTTCGCCCAGGCTGGACTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCATGC
CATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACCGCAGGCACCACCACCGTGCCCGGCTAATTTTTTGCATTTTTAGTAGAGACGGGGTTTCACCGTG
TTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCATATA
CTATTATTTCCTAAACACTCCTTTAAATTGACATTTAAGCAGTCAGTTTTTAAATGTTCCCAGTACCACCTGAAGTCAATTTACATGTCTCCAGGGTGTG
CAAACCACACTTTGTTTTGTTTTGTTTTTATTTCCATAGGTTTTGGGGGAACAGGTGGTGTTTGGTTACATTAGTAAGTTCTTTAGTGGTGAGTTGTGAG
ATTTTGGTGTATCCATCACCTGAGCAGTATACACTGAATCTAATTTGTAATCTTTTATCTCTCATTCCCTTGCCACCCTTTCCCCCAGAGTCCCCAAAGT
CCATTGTATCATTTCTATGCCTTTGCATCCTCATAGCTTAGCTCCCAATTATGAGTGAGAACATACGATGTTTGATTTTCCATTCCTGAGTTACTTCACT
TAGAATAGTAGTCTCTAATCCCATTGCTGCAAATGCCATTAATTCATTCCTTCTGAATGAGTAGTATTCCATCATATTCATATATATATATATACACATA
CACATATACATGTATACACACATACACACAGTATATACACATACACCACAGTTTCTTTATCCACTCATTGATTGATGGAGATTTGGACTGGTTCCATATT
TTTGTAATTGCGAATTGTGCCGCCATAAACATGCGTGTGCAAGAATCTTTTCCGTTGAATGACTTCTTTTCCTCTGGGTAGATACCCAGTAGCAGGATTG
CTGGATCAAATGGTAGTTCTACTTTCAGTTCTTTAAGGAATCTCCACACTGTTTTCCATAGTGGTTGTACTAGTTTACATTCCCAACAGCAGTGCAGAAG
TGTTCCCTGTTCACTGCATCCATGCAACATCTATTATTTTTTTGATTTTTTGATTATGGCCATTCTTGCGGGAGTAAGGTGGTATCGCATTGTGATACCA
CCTTGATTTGCATTTCCCTGATCATTAGTGATGTTGAGCATTTTTTCATATGTCTGTTGGCCATTTGTGTATCTTCTTTTGAGAATTGTCTGTTCATGTC
CTTAGCCCACTTTTTGACGGGATTTTATTTTATTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTG
CAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTGTATT
TTTAGTAGAGACGGGATTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTATAGG
CGTGAGCCACCGCGCCTGGCCGTTTGTTTTTTTATTGCTAATTTGTTTGAGTTCCTTGTAGATTCTGTGTATTTATCCTTTGTTGGATGTATAGATTGTG
AAGATTTTCTCCCTGTGGGTTGTCTGACAAACCACACTTTGTTATCTTGCATTGGGTTTCCACGGAGACAGAACCTGAGACAGAACTCAGCACAAGCAGT
TTGTTTATTAGAAGAACCCAGAAAGCTGCACAAATTGGGGAATGAGGAAGCAAGACAGGAAAGGGAAGGATGTTGAGAAAGATGTGTTTTTAAACAGGTT
GCCACTGAGGCTGGCCAGGGCTCAACCCCACGAAGGACCTCTGGGAGATGGTGTGGGAGCGACACTTCAGAGATATCTCACCCAAGGGGCGAGGGAGCAG
GGGTATTTATTCTTCAACTCTCACCTCTCATTGGCCGAGGGCTGCTCCTGGGGAAATTAACACTGGCACTCCTGACCTTCCCCATGAAGTTCTGAGAGAA
AGCCTCCAGGCCTGGTGCTGGAACATCAACTGCTCAAAGGACACAAACCAGCAGCTTCTGTTGAACTTTGGGATACACTGCTGGGGTAGAAAGCGCAGGC
TGTGAGTCCGAGAGATGGAGGTCCACATCTCTGCTCCATCACTTTCTCAGTTCTACGAACTTGGGCAAGGGATTCAGCTTCTCTGACGCCCTGTGCCTAG
CGATGCCCAGCACGTAGTGAGGACTGAGTACCCCATTAGGAGCCAGGAGTTCCTCCTGCCCACACTCCAGGCTGTGGGATGACGTGTCCTTCAAGAAGCA
GAGATTGAGGTGCTCAGGCACCCATGGCTTCAGGGTCTCCCCACGCTCAGGCTGGGCCCTGGGTCACTCATCACCTTATATTTTAACTGCTGTGGGCCCT
GAGTCCTAATTGGAGCCGGGGTTCAGGCATAGGTCCCAGCTCCATTCACAACTAGGGCCGGTAGCCATGGACCTAGACCCTAAGGATGACAGTCCAGACC
CACAGCACAGGGATTTCTTTTGCCCTCAGATGCCTTCTCCCGGAGGAAGAACAAAGATGAGCTGACATGCCCTCTTGTATTCACTGAGATAACCCTGCCT
TCTGTTAAAGGTAAATTCAGAAAGCTCAATAACTTGACACCTGAGGATGTATTCTTACCTCCAACATCAGCGCCCCTGCTCAGGTGACTGGGACCCAGGA
TCTTTCCAGGGGTGGCTCTGCCACCCCCTGTAAGTTCTGGATGTCCTTCCTATCTGGCCAGCACCTTGATGGTGGGAACCACGCCTGCTTTTTAACCACT
TAATCCTGGAAGTGACATACATCACTTCCGCCCTTAGTGCATTGGCAAGAACCGGTCCTGTGATCCTTCCTGGATGCGAGGAAAGCTAGGAAATGCCGTC
TTCGCTTGGGCTACCGCTGCCACCAACACCAACACAGCAGGTTCTCATCCTGGGGGCAGAATCACCCCCACATCAGTTGAAAACCTCTGCTCTGTAGGAA
GGAAGAGGCGTGGGAGACTGGGATGGTCAACTTGGCTCAGGCTGGAGACATCCTCCAACTCACACACTCCCCAGCCATTGCTGAGCACGGGTGCCGTGTT
TTAAAACACTGAGGGCCAGGCACAGTAGCTCAGACCTGTAATCCCAGCACTTTGGAAGGCTCAGGTGGGTGGATCGCTTGAGCCTAGGAGTTGGAGACCA
GCCTGGCAACATAGTGAGACCTCCTCTCTACCCAAAAATGAACAATTAGCTGGGCATGGTGGCGCAAGCCTGTAGTCCCTGCACTCAGGAGACTGAGGTG
GGAGGATCACTTGAGCCCAGAAGGAGGAGGGTGCAGTGAGCCGAGATCATGCCACTGTACTCCAGCCTGGGTGACAGTGTAACCCTGTCTCAAAAAAAAA
AAAAAAAAAAAATTGGGAAATTCTCTATAAGATCTGGGATTCTGGCTTAAAAAAAAAAAGGGAGGCTGAGCGCAGTGGCTCACGCCTGTAATCCCAGCAC
TTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTTTACTAAAAATACAAAAAAAAAAA
AAAAAGGGAGATCCAGCTAGCAGTGGACCCCACATTTCTGCAGGGCAACGGTCAGTTGGAGCTGAGCGACAAGCTGTCAGGGAACTACACTATTCTGGAT
GCCACAGCCCCCAGCGTGTCCTGTATTCTGACAGACACTGGGCCTTCAGATGTATGTCACCTGTCTGGTCATGGTAGAGACAGCCTGTGGCCCCTGCCTT
ATTGAGTACCACGCCCCGTGCCGCAATCTTGCCCGGCCATGGACAAGTCCAAGGCTGTCCTCAAGTTCATATCTCATGACAGAGACTTACAGAGACCATC
CCAGTGTGTGTCGAAGCCAGGAGCTGTGGGGACAGGAAGGGAACATGGTGGGGGCGGGTGCACAGGGAACAGAGGGCAGTGAGTAAGCTGAGGCTTAACA
AAGGGAGGAGGAACCAGGGCGTGAGGCTACTGAGGGGAATTCAGAGGGAAACGCTGTGGGGAGAGGTGGGCAGAAGGGCCTCAAATGCCATTTGGAGAAG
CTGGGGTTGACCGTGAAGACCCTGGGGAGGCATGGAAGGCTCTGGAGCTAGGGAGTCAGCATTGTTTTTGAAAGATCATCCTGGCTGGGCGTGGTAGCTC
ACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACACCGTCTCTA
TTAAAATACAAAAATTAGCCAGGTATGGGAGGCTGAGGCAGGAGAATTTCTTGAACCTGGGAGGTGGAGCTAGCAGTGAGCCGAGATCACGCCACTGCAC
TCCAGCCTGGGTGACAGAGAGAGACTCTGTCTCAAATAAATAACTATCATCCTGGCCATCAGTTTCAAGGGCGCTTCAAGCAGAGAAACTGGAGGCCAGG
AGACCCGCCCAGACACTGCTATAATAGACCAGGCAGGAGAAACTGGAGCTGTGGAAATGGAGAGGGGAGGGACAAGCCCCAAATTTGACCCTGTGAATCC
CAGCTCCTGTTTATCAAGAAGGAAGCCGGCCCAGTAGGTGAATAAAAGGATTATGAGCAAATCTAACGCTCTGGGGTGGAGAGCAGGAGGCAGTAAGGTG
CCTACTGTGTGCCACATACCCTACTGAGTGCTGTGACCTAGCAGTGAAGTTGTCACCTTGGGGGTACATGTTCTATATCTCCCCATCGTCTGAAGTGGGC
ACCCTCCATTTCACAGATGGGAAAATCGAGGCTCGGCAGGATATAGTGACCTGCTCCTGGGCCCATGGCTTGTAGGTGACAGCCGAAAGTTGAACCCAGG
TCTCCCTGGCTCCCAGCTCATGTTCTTCTCCTTGTCTCTGGGGCTCTAATCTCTCCAAGGAAAACAACCCCAGCCCCATGAGCCACAGAACCATGGGCTC
CCTGGGCCCCCCAGAAGCCCAAAAGTGACCATGGGGGGTGATGAGACAGCAGCGTTTGTAATTAGCCCCGTGGCTGAACCGAAGACCTCCCACCAGGATC
CAGCCAGAGCCCGTCTCTGGGGAAGGCGGGTGGGGATTAAGTTCTCAGAAGAGGATTTGGGCTCCCGAGTGCCTGTGTGGCTTCCTCTGAGCCTCGCAGG
GACTCTGCCTTGATCACAGCGCCAGGGCCTTTTCTGGCTTCTCAGCAGTCTGTGTGAACCTTCAGATGGGGTGGGCACACGTGGCACCCCCAGCCAAGCA
GGGGACGGGCCGGACTCGGTCCTCCAGTGTCACCTCTCCCTCCTGCCACTGGAACCGAGGCTTAGAATCACTGAGGCGGTGGGAACATAGCTGTGGGCAC
AAGAGTGGACATTTCTACGGCGTTCCCTGCTGACCAGGCGCTGTTCTCACGTGCCTCACAGCACACATTAACTCATCTTCCCCGCAACCAGCCCTGGAGG
GCAGGGACTGTGATTTTCCCCATTTTACAGATGAAGAAACAGAAGCAGAAATGTTTAAACTTATGGGAAGATACACCACTAACAAGGGCTGGAGCCAGGA
CTCTAGCCATGCAGTGTGGCTGCAGAGTACAGGATTTTAATCACCCRTTGCATCCTCTGGCGTCGGGCAGGGCTGGACTTCAGGCTGGGTTTTCCCCGTT
CCCAGCTGCACCCACGTCGTGTCTCCTCCTGGAGTCTAAGTTTCCTGTGCTGTGACTGCAGGCGGAGAGGAGGGCCCAAYGTCTAGGGGTGAGTCACCAC
GTGCCGATTCTCTGCTCCTAGGGTCGGGGCCTGGCTGGTCACTGCCACCCACTGGCTGCAGTCCAGCGCCCTCATCTGCGGACTCCTTGATCTTGAAGCC
GCCGCCTCCCATGTGCTGTGGTGTGGGCAGGCAGGGTGCGGGGAGGGCTCGGAGGCCGTGGGTGGGGAGGAGTAACGAGGACGACTCAGGAATCTAACTG
CAAGGGTTGAGGTGTGGGGGTGGCGGTGGAGGTGGGGGTTCAGTGGCTGGGAATTCTGTCCTCCTGGACTGTAAACAGGGCACCCATGGCTGTGCCTTTG
ACCTGTGGGGAGTGCCCAGCAGCTTCCACCCACCCATGCCAGGGGGCAGCTCCAGGGTTTCTGGATCCCCAAGTCAGCCCGGGCTTGACCACGCTGCCTG
CAGGTGTGTCATCGGCCTCCAGCCCACTCAGGTCACCTGGTTGGGGAWAAATGGCAGTGAAGGGGCAGAGTGCTGGGTCAGGGTGAGAGAAGGGGCCTGG
GGCAGGGTCTGGAGGCCTTGAGGTGTGATCATTGCCCCTCTTGGCCTCCCAGAGCCCTGGGCCAAGGCCTGGCTAGCTGCTGCCTCCTCTCAGGTTGTGA
CAGGTGCCGTCATGACAACCAGCATCAGGAGAGTTTTGGTGCCAGATGGGCCCTTTGTGCTCTGAGCCCTCCACTGTCGAAGATTCTCCTGGGGCAAAGG
CCTCTTTCCACAGGTTCCCAGACAAAGCTCAGCCTGGAATGGCCTCGCTATGGTCCAGGGAGGAAGGYGGCCCAGGAAGGGTCAGCACCAAGTTGCAGCC
GCACAGTAAAATGGGCAGAGGAGCCCAGCTTCCATCTCCAGCAAAGGGTTCTCACAGCCTTCTGACCCTGGGTCCGGCCTGTGAGAAGGAGGGACTCACA
GGTACCCAGTGCCTGTCTGACTCTGGCACTTCAGCCCCCAGTCCCAACGGTCTCTTCCCACCCTCTTAACAACACCGGTGCCGGCCCCATTTTACAGATA
GGAAAACCAAAAGCCAGAGAGTGACTGGGGCACTGCTGTAGCTGGTGGTCAGGGAAGGCCTGTCTGAGGGAGTGACATTTGCAAGGACAATGCCTTGCAA
AGACCTGGAGGAACAACGGCTCCAGGCAGGCAATAGATCAAGTGCAACCACCTGGGGCAGAAATGAGGACCAGAAATAAGGTGATGTGGCTGGAACCCAG
AGAAAYGGGGATCAGTGAGTGGGACAGAGGCTGCATTATGGGATGTGGCATGAAAAGAGCTGGCATYTTCTTCTGGTCGCAGAGAGGAAGCCACTGGAGG
GTTAGAAGCAGGGGAGACAGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGAATCATGAGGTCAGGAGTTCGAGA
CCAGCCTGACCAATATGATGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGTGCGTGCCTGTAATCCCAGCTACTCAGGAGGCWG
AGGCAGGAGAATTGCYTGGAGCCGGGAGATGGAGGTTGCAGTGAGCTGAGATCACGCCATTGCACTCCAGCCTGGGCGACAGAGCGAGAGCGAGACTCCG
TCTCAAAAAAAAAAAAAAAAAAAAGAAGCAGGGGAGACAAGTGACTGGCTTGTGCTTTGATTACTCGAGTGGCTGGGGAGCAGAGGAGGCTGGGGAGCTC
CAGGAGCTGAGCCCAGAGCTCAGTCTGGAGCTTTCCCTGTCTGGGTTGGAGGTGGTGGTGGCTTGGACCAGGCTAAGTGTGGTGGTGGCGGGAAGGAGTT
GGATCCCAGACATGCTGGGAGGGAGGGCCAGCAGAGCTCCCTGGTGGACTGCACGTCGGGAGGGGAGGGAACAGGGGAATCGGGGCTGGGCACCTGGGTT
GATGGAGGTGCTGTTTACGGGTATGGGGAACCAGAAGTGGGGAGAAAACAGACAGTTGGGTTTGGATCACATTGGGCTGGAGGTGCCCACTGGACCTTGG
AGTGGAGACGCTGGCTGGGTAGGTAGGAGGAAAAGAGTCTGGAGTTCGAGGGAGGAAATAGAAAGATGAGGGTCAGGATGGTATTTATAGTTATGGGCTG
GAGAGAGCAAGTGACTTGCCCAGGGTTACAGACAGCCAGTGGTCAGGATTTGAACTGGGGTCTGCTAGGCTCTGAAACCCACAGGGGCTCTTTCCCGGAC
AGCTGGGAACAGAGAGGGCTTCATCCAAGGTACAGGGGGTGCCGCAGGACTCAGGGGTGGGGCAAGGAGAAGCCCCTGAGGAAAAAACAAAACCAAAGAA
AGAAGTAAAGTGAATGTAATCCTAATCAAAATCCTATTGGTCAGGCCAGATGTGGTGGTTCATGCCTGTAATCCCAGCACCTTGGGAGGCTAAGGCAGGA
GGATCACTTGAGCCCAGAAGTTCGAGACCAGCCTCAGCAACAAAATGAGGCCCCAATTCTAGTCCCGGGTGTGGTGGTGAGATGGGAAGATAGCTTGAGC
CCAGGAATTGAAGGCTACAGTGAGCTATGATCGTGCCACTGTGCTCCGGTCTTGGCGCCAGAGTGGGACACTATCTCAAAAACAAATAATAAATAGAAAG
ACAAGTCCCTGAGAATGAATGTGGGAATGACTGAGATCCTTCCAGCCTGGGCTGCCCACCTCCCATCCACAGCCTGGTCAGCTGGAAGAGCCCATGTCAA
GCACGAGGTTGTGTCCCCTGCCCATTGTACAGATGGGGAAACTGAGGTCTGAAGGAAGGCAGGGCTGGGGTCTAGGTCTTCTGTCTGCCAACCCCGACTC
TTCTGCCAGCCTCTAAGGTGGACTSCTGTCTGAGCCAACTCAATGGCTGGGTTGAAACCTTCCAACTGGGACATTCCTGAAGGGGGTGAGTGTCTCTCTG
GAGGTCCTCCTGTAGATGGACCTGGGGCCTGGAGTCTTCCCCTCCTGGGTCTCCCCAAGGCAGTGTTTGCCCATGCTGGCCTCTGCCCCTGGCCTGGCCC
CGCCGTGGCCTTCAGGACCCCTCTAGGTCCCTGGCAGGGCAGCCCCATGCCTGGCTCTGGTCACGGTTCCTGCCCTGTGGCCAGGACCAAGGCCCCCCCC
TGGCCCTTGCCCAGACCACCCAGCGCCAGGGCCTGGCGGAGCCCGGGTGGCTGGCGGGCAGTGCTCCCAGGCTGGCCAGCCGTGGTCTGGCCCCGCCTGA
GGGGCTGTGGCCTGGGAACCGTCAGCTGTCTCCTYGGGGAAGCGGCTGGGATCTCCAGAACAAACAGGGAAACCACAGGCTCCCCCACCACGCCCCCAAG
GAGGGGCACGGCCTCTGGCCTTGCCCGCCAACACCCCACTCTCCAGGCCTGKCTCCCCACTTCTGGGTGAATAGAAAGGAGGCCTGGTGGCAAGCAGGTC
CCAGAAGTGCCTGATCCTCAGGTGGTGAAATGACARGGAGTTCCCCAGACGGAAGCGCCCAGCACAGGGCACTGCACACGGGAGGCCCCTGAGAAACAGC
AGCCCTGGACTCATCCACCGCTGGCTCAGTGGGAGCCACAGCAATCCTGGGGGATTCCTGTACTTGGCAGGGCAGGCTGGGACAGCCGCCCTAATTCAGA
CCGGCTGGGGGATGGGGTGCATGTGACTCCACTAAAAGCYGCAATTAGAGCCCAATTTAAAGAAACGCTGTGTTAGTTCCTCCCCGGGTAGATGTGATTA
TAGGCTCGGAGCTAAACCGTTTCTAACAGGATGACACATGGAGAGGCCCCTTCTGGGCTCTGGCAGGATGCCCAGCCCAGCCCCCGGCTGCACGACTGGG
GAAACCAAGGCCCGGAATTCACACTGCAGGTGAAGAGGGGGCGAGGCTTCGGCTCCATCCCCACCTCTCACTTTTCTCTACAGGATTTCATGCTGCATCT
AGAAGCCAAAACGCTGACACCCCTTGAAAAGGAGGGCTGGGAACTGAGATGATTGACGCCCCAAGGGGAAGCGGGCGCTTCCCAGAACAGCCTCGGCATG
ACCTGGACATGGAGCCAGGCGGCTGCTCCTTGCCCAACCCATGGGGGCCTTGCAATGATTAATAATAATAATGATGATGATAATGGTGCCAGCAGCAGCC
GTGGCTCCCTTTGGAAGTGCTCCCGGGGGGCAGGCAACATCTCACGCATTCTCGCAATAATCCTGCCAGGGAGCTGCTAGTGTAGCCCCATTGCAGGGCT
GGGGAAACCAAGGCTCCGAAGGGTCAATGACTTGCCCAGTGTCATGCCAGGAGCCAGTGGTATGTTCCTGCTGGGATTGGACAAGCGCCTGAGATCCTGA
GCAGGGGGCAGAGTTCAGGGGGCGGTCGGGGGGTCATCTCAGTGAATGGCAACAATGAGTGAGTAAGCGAGCCTGTTAGCAAGTGAATGAATGAGTGAAC
GAATAAAAAGGCTGTTTAAGGAATTCTGCCCCTGGGGAGGCATGAAAGGGCCACAGGTCTCTCCCTAGTTGCCTCCCCCCGCCACCTCCAGGGAGACCCC
TGAGATTAATGGGCCACAGACAAAGGCCCAAGTCTCACCTGCCCAGAAACAAGGACCCCTCACTTCCCGGGTTCCAGGGGTCCCCTGTCTCGTCCAACAC
CCCGCTAGGGCACAGGGCACTGCACACGGGAGGCCCCTGAGAAACAGCAGCGTCACTGAGCAGTGCCCTCTGGCCTGCGCCCCCCCACCTTCATCCCAGC
CATCCCCAAATGCCACAAGGGTAGATCACCTGCCCTAGTCCCCACCACCACCTGCACCCTTGCCCAGGGCTGAATTCCCACATAGGATTGGGGTCTGGGG
AGGGGCCAAAATAAGGGAAAAGCTGATCTCTCTTTACCCACTCTGCCCCCTCCCGTCCCCTTTGCAGCTCATATTGGGGAGTCCCTGGGTTGGGGGTGGC
ACACACTTGGTTCCTAGGAGCTTGGGCAGTAGGGTACTACTGCCCCTCCATTCCCCGGATGCGCATCCCCCTCCATTCCCCGGATTCTTCATTCATTCAG
CAAATATTTATGGAGCCCCTACTGTGTGCAAGGTGCTGGGCTCAGCCATTCATGCACACACAGACCCTTCCTTCTGATGTCTCTGGTTCCATTAAGAAGA
CTGTGTGTCACGTGCCTCCCCACCACGTTCCCAAGGACTGTCCCCACACCAACTCCTGGTGGTCTGTAGCTGTGCCTCCCTCATCAGACTGGGATTTCTC
CAGGGCATGGTTGTGACACTGCCATCAGACTGGCCTGTGCAACCTGCCTTTCCTGAGAAACCTCTCCCTTCACTCCAAGAGCCTCCCTGGAGACGGTTGC
CAGATAAAATACAGGACGCTCAGTTAAATTTGAATCTCAGACAAACAAAGAATAATTTTTTAGTATAAGTATGTCCCAAATATCGCACAAGGTATACTTA
AACTAAAAATTCTTCCTTGTTTATCTGAAATTCAAATTTAACTGGGCACCGTGGGTTTCTATTTGCTAAATCTGGCAACCCTAGACCTGGAGCTCTTTCC
TCCTGCTGGAAGTGGGCCTGGCCAGATGGCCCAGGTCGTGTCTGGACTTGGCTCCTGCCTGCCCAGTTATAGCTCCTGTTGGTCCCCAGGACTAGTTCCC
TCCCTCGCTGGGCCGCACCTGAAACCCCAGCTCCTAGGTGGGCACAGCCGCCCACCACCCAGTGCACAGAGCCCAGCGTATGGACCCTTAGGAACACTGC
ATCCCGCCTCCTGTGTGATGGGTCCAGGGAGAGAGGGGGAGAGAGCCACAGCTGCAGAGAGGGACCACGAGACTCAGAGACAGAGAGAGGCAGAGACACA
GAGATAAAGGGACACCACAGAGACTGAGCACTGGAGACAGAGGGGGAGACAGCTGAGAGGGAGACAGAGAGCTTCCGGATCCCTGCCCAGAGCTGCTTCA
GGAGACCAGTGAAGCGGGTGGAGGGTCCTGAAAGCCCACTAGGATTTGCCTGAGTGGATTGGGGTGGAGGAGAGGTGGGGTCCCTGAGCCCCAACGTTGG
GCCCCAGACTGGCCGGCCCTGGGAGGCAGGGGTGGGAGTCCATTCAGAGGCCGGCCTCAGCCCCAGGGCTCTCCCCTCGCCCTGCCTCCCAGGGGCAAAC
ACAGGGACATTCATGGCTTCCCAGAACGGCCTATGGGGCAGCCAGAGTGGCTTTTAAAATTAGCCTCGCTAACCAGATCTGGTTATTTCAGGAGGCTCCA
TCCCCTTGGCAAGGCGGGAGCAGGGAAGAAGGGAGGGACCTCCACATTCCAGGGTCCCTGGCTGAGCACCCCCTGTGGCCTGAGCAGCAGAGAACGTCCA
GCTCCCAGTCCCCTGGCACAGCCGGCCCGGGCCTGCGGTCATCTCCTTGGCAAAGTTGCCCCAGGGTTGGCCATGGAGGTCCAAGAACACCCCAGCTGGG
GGTGGGTAGGGGAGGACCCCCTTGTATTGGGCACGGGTTCTGTGCCAGCAGCCATCCCAGGTACCTTAGAGGCCAAGACAGCCTCTTCAGAGCAATAGGT
AGGGGCCTTGTCCTCATTCTCCAGGTAAGGAAACAGACTCCTGGAGACAGGAGGCCCCTGCTGTGAGGTAGGGGAGATGGGGGAGGGCACGTCTTCCAGG
CACCCAGGTCCCTCCACGGGAGGCCTCTTCCCTCCTGTGTCTGGAGGAACCCCCCGGCTGCTGTTTCCACTACCAGAGTAATTTCTAAGCAGAGTCCAGC
GCTTCCCGGAGCCTGGTACCCCCCGCCCAAGTTCTAATTCCAGCCTCGAGTCAGAGTGTCCCGGCTCGCCCTCCCACCTCACAGCCCAGGGTGAGCACAG
AGCTGGCGCGGGCACAAGAGAAATAGCACCGGACACTTTGATCCCAGAGGCCCGATCCGTTGCCAGCCTCCCCTGACCCCACCTCGGAGCTTGGAGGGAT
GCGGTAGGGTGAAACCCAGCCCCAAGGCCTTCCTTCCCGCAGACGGCCTGGCACCAGCTGGACAGGGATGGGGCAAAGGCAGGTTCTGCCCACCAAGCTG
CCCACCTGCTCTGCCACAGCAGCCCCTGCTGCTCTGTCTCAGCTGTGGGATAGAGTGGAGTGGGGGTGCATTGCTAAGTACAGGGAGACAAGCCGGAGAC
CTCCCCCAGCTCTGTTATGGGAGCATCGTCACCCCAGGTAAACCTGGCAAGCTGAGGCCCAGGGAAGCACCTGACGCCGTCCATTCCCAAAGCCTCACAT
CTAGGCACCTGTGCTGGGCCCAGTGGCAGGTGGGCGTCCTCCACGCACTGAGCGGACCCCACGTGTTCTGAATTACGGACGTCATTGATCCCTTCCTGCG
GTATGCACACTCTCTTCTTTGAGCCCACCACGTGCTGGGGCTGCACCCAGAACTTTATGAGGTGTCACCTCATTTAATCCTCATGCCAGGGTGCCAGCGA
GGGCAGGGCTGTTAGCACCCCCACTGCACAGATGAGGAAACTGAGGCCCAGGGAGCCAAAATCATGTCTGCATGGTCATAGCGCGAGGAGGCGAAGCAGC
TCAGAGCTGATTCTGAAGAAGCTCTTAACCGTGGTGCTGAACTGTGATGCCGGCCCTGTGGAGGTGGGGCAGGAGGAGAGAGGGCAGAGGACTGCGGCGG
AGGGATAGGGAGCAGGGGTGCGGCTGATGGGTGGGCAGTTCACAGGGGACTCACTGGGCCCAGAGCAGCCTAGAGCCAAACCGAGTTGGGTGGGGCTGGG
GTTTGGGTGTGAGTCACCACCCATGGGTGGCCTGAGGCATCAGAGGGTCACAGAAGGGCCCTGTCGGGAAAAGTGTGGCACTCCCTGGACAAACCCCTGG
GGTTCCTTCAGCATCATCCTGGGAAGGGGGCAGGGCCAGCAGGGGATAGGGGGCACTGCCAAGCTGTCAGGGAGGCCAAGGCACGGCTCATCCCTTCGGG
GCCCAATTTGGTGCCTACTCCCAAATGTCCCCAAAGCCACCCCGCAGACCTGCTCTCCTCCGTGGTCCTGCCCCAGAGGGAGAGTCCCCTCATTCACCCA
ACACCCAGCCTGTACCCCCGGGAGCCACCCGATTCCCCCCTTAGCCCCACAGCCCATCAGGCGCTTGGTCCCCCTGCTCAGGCCCACCTGGTGTCCTTCT
CAGCGTCCTCCTGGCCACCCTCTTACCCCAGCAACAACCTCGTTGGTCCCCTCCTCCCTCCACTGGTGCAGCCTCCACCAGCAACTACCGCTCCTGCCTG
GGGCTCCCCCTGCCCTTGGCGCAGAGCCCTGGCCTCTCCGTCGGGAGTTCAAGGCCACATTGCCTCTGGCCTCATCCCTGCCCATCTCCCTGTCCCCTCC
ATTGTCACCTTCCCACCATTCAGAGCTGGCTGCCACCTTCCTGGTTCCAGGGGTGCTCTGCCTCCCCGCCCTTTACTCGAGGCCCCCTCCTGCAGGGTCC
CTCCTCCCTAGGCCTTCTCAGGAACGGGGAGCAACTCCAGGAACTTTCCCTGACGCCTCTCTCCCCAGGCCCTGCTTGTGCACACCTCTCCTGTCCCCGG
CTGCCCCTCATCACCCTTCGTCCTACTGTCCCAGCTGTGAGATCCTGGTAGAGGGACTTGGACTCATCCCCGTCTCCTGGGTCCCCATCGGGTCCCGTAA
GTGGTCCCTTGGCGCCGCCTTGTGGCCATATCAGGGGATTCACTGAATATGAGAACAGGGAGAAGGAAGTAATTAATTGAGCACCTAATGTGTGCCAGAC
ACTGTGCTGTATGTTTGATACGCACCAGCTCATTGAATCCTCACAACAAACCCTTGGGAGAAACACTACCACTCCTATTTTACAAAAGGAAACACTGAGG
CTCACGGAAGCTAGTAAGTTTCTCAACGCCACCCACCCAGCTAACAAGAGACGGTCCCAGGACTCAAACCTAGGTCTGCCTGACAGCACAGCCATGTTCT
TCCTGCAGTGGGGAAGGGGCCCAGGATGCAGGGAAGGACAGCACCCCGGGGAGGAAACCACGGGCGGTGCTCACAGAGCTGGTGGCTTGGCTTTGGAGGT
GTCCCCAGGCCCAGCAGCTCTGATGGGGACAGGCTTGCTCCCTGCCACCTTGACATCCCTGGACATCTGTCTGGGGTCAATCTGGCCACGGTTCACACAA
AGCCAGGCCCAACTCTGGGTACAATAGCGATAAATAGAATTTATTTTATACAACTGTTACCGACATCCACACGGCCACAGGGGCTTCCAAAATGGGTATT
GGGGCCAGGAGGCTGGCCTTTGGCGTGACGCCTAAAAAGTGTGACCAGACACACAAGGGCTCCCAGCAGCTGTGCCGGGCTGCCCCCTCCATGGCGGTCG
GGGGAGGCAAGGCCTGGACTCTCGGCCAGCTGAGACTCTTGGCCTGGAGGGCCCAGCATGGGATGGCAGGGGTTAAGCTGGGTGCTGGCTGAGGAGCCAG
GTAGGTCCCCATCCCCCATGAGGGGGTTACTTGTCTGTCATGTGTAGGCAGTGGACAGGGCATCGGCAGACCTGTGGCAGAACTGGAGGGTCCAGGAGGC
ATACTGGGCACAGCCGGCTCCCTGCCCCTCAGCCCACCTGGGGCTCCAGGGACCTCAAGAAGCAGGGTAGGGTGATAGGAGGTCCCTGGGAAGAAAATCC
TACCTTCTAAGGCAGGTGCATGTAATCACAGTCTTCAGTGACCTCTGAAATAATCTTGTCCATTTGTAGCAGACATGCCCAGAGAGGGAGAGTGACTTGC
CCAGAGTCACACAGCAGAACCCAAATTGGAAACCAGGACCCGGCTCCCAACCCAGTGCTCACTCCCCCACATATCACATCCTCCTTGTGCTGCCTCCAGG
GGCTAAGCTCTCCACACGGAGCTGTCTCAAACTCTCTCTCCCACCTTGTTCCCTCTGAGTCCAGAGGGATGCTCAGGGGTGATGGAGGCCCAGGGAGGGG
GCAAGCCAGACCCCCAGTCCTGCTTCCACTGAGCAATCCCTGCCCCAGCCCAGACCCCCAGGCTGGGGGTGGGGACGATGCCAGCAGCTTCCCTGATCCC
AGGTCTGGACGGCTCTGCCCTGCAGAGACAGCCCAGATGGGTGGGCCATGGGG


SNP Information

Context             (SEQ ID NO:62495):
GGCGGAGCCCGGGTGGCTGGCGGGCAGTGCTCCCAGGCTGGCCAGCCGTGGTCTGGCCCCGCCTGAGGGGCTGTGGCCTGGGAACCGTCAGCTGTCTCCT
Y
GGGGAAGCGGCTGGGATCTCCAGAACAAACAGGGAAACCACAGGCTCCCCCACCACGCCCCCAAGGAGGGGCACGGCCTCTGGCCTTGCCCGCCAACACC
Celera SNP ID:            hCV3135989
SNP Position Genomic:     9835
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62496):
AGAAATGTTTAAACTTATGGGAAGATACACCACTAACAAGGGCTGGAGCCAGGACTCTAGCCATGCAGTGTGGCTGCAGAGTACAGGATTTTAATCACCC
R
TTGCATCCTCTGGCGTCGGGCAGGGCTGGACTTCAGGCTGGGTTTTCCCCGTTCCCAGCTGCACCCACGTCGTGTCTCCTCCTGGAGTCTAAGTTTCCTG
Celera SNP ID:            hCV25993296
SNP Position Genomic:     6447
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,34)   total(A,2|G,72)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62497):
AGGAGAATTGCCTGGAGCCGGGAGATGGAGGTTGCAGTGAGCTGAGATCACGCCATTGCACTCCAGCCTGGGCGACAGAGCGAGAGCGAGACTCCGTCTC
A
AAAAAAAAAAAAAAAAAAAGAAGCAGGGGAGACAAGTGACTGGCTTGTGCTTTGATTACTCGAGTGGCTGGGGAGCAGAGGAGGCTGGGGAGCTCCAGGA
Celera SNP ID:            hCV26187959
SNP Position Genomic:     8205
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,7)   total(A,7|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62498):
TCAGGCTGGGTTTTCCCCGTTCCCAGCTGCACCCACGTCGTGTCTCCTCCTGGAGTCTAAGTTTCCTGTGCTGTGACTGCAGGCGGAGAGGAGGGCCCAA
Y
GTCTAGGGGTGAGTCACCACGTGCCGATTCTCTGCTCCTAGGGTCGGGGCCTGGCTGGTCACTGCCACCCACTGGCTGCAGTCCAGCGCCCTCATCTGCG
Celera SNP ID:            hCV25997728
SNP Position Genomic:     6580
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:62499):
TCTCCAGAACAAACAGGGAAACCACAGGCTCCCCCACCACGCCCCCAAGGAGGGGCACGGCCTCTGGCCTTGCCCGCCAACACCCCACTCTCCAGGCCTG
K
CTCCCCACTTCTGGGTGAATAGAAAGGAGGCCTGGTGGCAAGCAGGTCCCAGAAGTGCCTGATCCTCAGGTGGTGAAATGACAAGGAGTTCCCCAGACGG
Celera SNP ID:            hCV3135990
SNP Position Genomic:     9952
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,15)   total(G,15|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62500):
CCACTCTCCAGGCCTGGCTCCCCACTTCTGGGTGAATAGAAAGGAGGCCTGGTGGCAAGCAGGTCCCAGAAGTGCCTGATCCTCAGGTGGTGAAATGACA
R
GGAGTTCCCCAGACGGAAGCGCCCAGCACAGGGCACTGCACACGGGAGGCCCCTGAGAAACAGCAGCCCTGGACTCATCCACCGCTGGCTCAGTGGGAGC
Celera SNP ID:            hCV3135991
SNP Position Genomic:     10036
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,15)   total(G,2|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62501):
AGCTCCAGGGTTTCTGGATCCCCAAGTCAGCCCGGGCTTGACCACGCTGCCTGCAGGTGTGTCATCGGCCTCCAGCCCACTCAGGTCACCTGGTTGGGGA
W
AAATGGCAGTGAAGGGGCAGAGTGCTGGGTCAGGGTGAGAGAAGGGGCCTGGGGCAGGGTCTGGAGGCCTTGAGGTGTGATCATTGCCCCTCTTGGCCTC
Celera SNP ID:            hCV3135983
SNP Position Genomic:     7048
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,12)   total(A,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62502):
AGCAATCCTGGGGGATTCCTGTACTTGGCAGGGCAGGCTGGGACAGCCGCCCTAATTCAGACCGGCTGGGGGATGGGGTGCATGTGACTCCACTAAAAGC
Y
GCAATTAGAGCCCAATTTAAAGAAACGCTGTGTTAGTTCCTCCCCGGGTAGATGTGATTATAGGCTCGGAGCTAAACCGTTTCTAACAGGATGACACATG
Celera SNP ID:            hCV3135992
SNP Position Genomic:     10240
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,12)   total(C,3|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62503):
CCTCCACTGTCGAAGATTCTCCTGGGGCAAAGGCCTCTTTCCACAGGTTCCCAGACAAAGCTCAGCCTGGAATGGCCTCGCTATGGTCCAGGGAGGAAGG
Y
GGCCCAGGAAGGGTCAGCACCAAGTTGCAGCCGCACAGTAAAATGGGCAGAGGAGCCCAGCTTCCATCTCCAGCAAAGGGTTCTCACAGCCTTCTGACCC
Celera SNP ID:            hCV3135984
SNP Position Genomic:     7368
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|C,10)      total(C,10|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62504):
TGGAGGAACAACGGCTCCAGGCAGGCAATAGATCAAGTGCAACCACCTGGGGCAGAAATGAGGACCAGAAATAAGGTGATGTGGCTGGAACCCAGAGAAA
Y
GGGGATCAGTGAGTGGGACAGAGGCTGCATTATGGGATGTGGCATGAAAAGAGCTGGCATCTTCTTCTGGTCGCAGAGAGGAAGCCACTGGAGGGTTAGA
Celera SNP ID:            hCV7476291
SNP Position Genomic:     7806
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,16)      total(C,16|T,1) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62505):
GGAGAATTGCCTGGAGCCGGGAGATGGAGGTTGCAGTGAGCTGAGATCACGCCATTGCACTCCAGCCTGGGCGACAGAGCGAGAGCGAGACTCCGTCTCA
A
AAAAAAAAAAAAAAAAAAGAAGCAGGGGAGACAAGTGACTGGCTTGTGCTTTGATTACTCGAGTGGCTGGGGAGCAGAGGAGGCTGGGGAGCTCCAGGAG
Celera SNP ID:            hCV26187960
SNP Position Genomic:     8206
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,11)   total(A,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62506):
GGACCAGAAATAAGGTGATGTGGCTGGAACCCAGAGAAACGGGGATCAGTGAGTGGGACAGAGGCTGCATTATGGGATGTGGCATGAAAAGAGCTGGCAT
Y
TTCTTCTGGTCGCAGAGAGGAAGCCACTGGAGGGTTAGAAGCAGGGGAGACAGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCG
Celera SNP ID:            hCV3135985
SNP Position Genomic:     7867
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62507):
GACCAGCCTGACCAATATGATGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGTGCGTGCCTGTAATCCCAGCTACTCAGGAGGC
W
GAGGCAGGAGAATTGCCTGGAGCCGGGAGATGGAGGTTGCAGTGAGCTGAGATCACGCCATTGCACTCCAGCCTGGGCGACAGAGCGAGAGCGAGACTCC
Celera SNP ID:            hCV3135986
SNP Position Genomic:     8099
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,11)   total(A,2|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62508):
TGATGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGTGCGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGC
Y
TGGAGCCGGGAGATGGAGGTTGCAGTGAGCTGAGATCACGCCATTGCACTCCAGCCTGGGCGACAGAGCGAGAGCGAGACTCCGTCTCAAAAAAAAAAAA
Celera SNP ID:            hCV3135987
SNP Position Genomic:     8116
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62509):
TTGTACAGATGGGGAAACTGAGGTCTGAAGGAAGGCAGGGCTGGGGTCTAGGTCTTCTGTCTGCCAACCCCGACTCTTCTGCCAGCCTCTAAGGTGGACT
S
CTGTCTGAGCCAACTCAATGGCTGGGTTGAAACCTTCCAACTGGGACATTCCTGAAGGGGGTGAGTGTCTCTCTGGAGGTCCTCCTGTAGATGGACCTGG
Celera SNP ID:            hCV3135988
SNP Position Genomic:     9425
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,16)   total(G,1|C,16) 
SNP Type:                 INTRON


Gene Number:                 373
Celera Gene:                 hCG2041906 - 209000073589538
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W3P1(841641..884969)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12533):
TTTACAGCAAGGGAAACAAATGCTTTGCACTCTCATTGTTATTCTTCCTTGCTGAGCAGCAGTTGTCACCCCAGCTCTCCTTGGATTTTACATCCCAAGG
AGAACTTCAGTTTCAGGATCCTTCATCCCTGCAATACTAGACTGTTTAGAATCAGGGAACCCCTGATGTCTACCCTTAGGTCTTCTGGCTGCTCTCTGAG
GAGATGGAATGCAGATGGCTCCAATGAACTCAGCCCCATGGGATGACACCGTGCCAGGATGCAGGATGCATGGTGACAAATTTCAGGTACTCCAACCCAA
AGACCAGGTGGCTCAGAGGAGAATCTGTGGAAGGAATCAGGCTGGGAGCTGTTCAGGGCCAGAAACCTTCCTTCTCTTTTACAGATGGGGGAAACTGAGG
CTCAGAGAGGGATACAACTTGGTTAAGGTACCACAGTTGGTTGTGACTGACCTATGCCTGAACCCCAGCTCTCCTGACCCCTAAGCTGACAGTCTTTCCA
CCCACTGTGTGTGGCCAATGCGGCCTCAAGGTTGTTTAAATCTCCTCTGCAGCTGACCATGTTGGTAAATCCGGATCAGAGAGGAAACAGAATCATCCAA
CATGTACAGGCGCTGGCTCTACCCGTTATCTGCAGGCCCACACATCTGCACGCTGCCCTTCTTAGCACGTTCATGGGCCTTTCTGCGGGGTCGGAAGATC
TGGGTTCAAATGTTACATCTGCTACTCACCAGCTGTGTGACCTTGGCCAAATTCATCAACGCTTTGAACCCCAAAAGGAGCAGAGCAGCATGAGAGAAGC
TTACGAAAACCAGGCTTGAAAGGTTTAGCTAAAAGAGCCACTTTCCAAATGGACGCTCCAGGCTCAGAGAGGGGGGCTTCCGTTGTTTCACTTCAGTGAC
GAAAATAACTGCTCTGATGTATTGAGGGCCCACTATGTACTCCAGGCAGGTGCCAAATGCTTTATGTGTGTTTTCTGTTTTTTTGTTTTTTGTTTTTTTT
TGAGATGGAGTCTTGCTCTTTTGCCCAGGCCGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCCGCCCCCTAGGTTCAAGCAATTCTCCTGCCTT
AGCCTCCCAGGTAGCTAGGATTACAGGTGCTCACCACCACGCCCGGCTACTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGT
CTCGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTAGGATTATAGGCGTGAGCCACTGCACCTGGCCTATGTGTGTTTTCTTGC
TTAACTAGTGCTGGGAGGCAGAACTGTTATGCTCATTTTACAGCTGAGAAAACAGGCTGTCAGAAACCAGGTGACTAGACGCCCGTAGCACATGGCAAAG
CCAAGACTGAAGACCCGCTTGCTTCCAGAAACCATTAGGACAACATGGATTCCCTGGGTCCTTCAGCCTGCCGAGGATAAAATGCTTCTGGGCTGGGGGG
ACAGTGTGCCCCGGAGGCACTGCTGCCAAAGCCCATTCACCACTTCCTGGCTCCTGGTCCTCAGAGCTCAGCCCTCAGGATAGTTGCTCCTGGAAACATG
GTCAGCTCTGCTCTGATGAACTTCATTATCTTTATCAAATTAATTTACACAAGCCAGTGTGGCCACCTAATGAGGTCATTTCCCAGGGCCCTGTGCAGGC
TGCTTAATGAGGCAGGAGTGGCTGGACTCAGGTACCAAGTGTCCTGGAGTGGAGGAGAGTGGAGCTGTCAGCGTGACTGTGACTGCTGTGGGCTTCCCGC
TCTGTCCTCGTTCAGGGCTGTGAATGATCACCGCTGGTCATTTCCTCCTTCCCCCTGCGAAAGTCCTCACTTTGCCAGGTGCCAGTTTATCACTCCAGGA
CTTCTTGAGCAGGCGGATGTGCTGCGACCTGCAGTACCTGGGAGGCCTTTTTATTCTAGCACAGACAGATTCCTTGCTCCAAGCTCCTCCTTGTTAATTT
TGTAAGTGACTGAGATATGACTTTCTTTTGTGCCTGCTAATGGCTCAGCCCTGCAGCAGAATGCCCCCAATTTGGTAAATGAACTTCTTTTCTTTCTGTA
AATGAGATTTTTAAGATGGGAGGAGAAGACAGGCGAGACTGAAAGTTGAGAGGCCAATACGGAGCTGTGGCGGCTCCAGGTGAGCGAGGGTGGCTGTCAT
TATGGGAAGGAAGACAGGGAGCTGCCGGGAGGCCTGCTCCTTAGGAGGAGTGGGGGACGGGGTGCAGGTAGCCTCATTTCCGGCTTGAGCAACTGGACAG
AGAGTGGTCAGCCTTGCCAATTCATTCATTCATTCATTCACTCATTCACTCACTCACCAAATACACATGTGAATATACACACATATGCCCACCTATTGTA
TGCCAGGCCGTGGGTGCCAAGTACCGTTCATAAAGCCATGAACAAAACAGACCAAACCCCTGTCTTCACAGACCCAACATTCTAGTAAGAATTTAGGCTT
AAACTTCTCACTTAGAATCTTAAAATTTTGAGTCTTGGTTTCACCCAATCTTAAAACCAGAGACTCTTCACTGTGACTGTTATTAACTTGCACCCAGTGA
GCACAGACCTCATGCATCGTCTCCCTCAGTCCTCGCAACGACTGTGTGATGGATCCTAGGATTGTCCCCATTTTACAGATGATGCCATTGAGGCCTAAGG
AGAGCAAGTTACTTTGGCCAAGTTCACACGACCCTGCAGCCAGGATTTGGCCCAGGCCTATCAGACACCTCTGTCCCCCTTTGCTGCCTCTTTCATCTCA
CAAATTGGGGTAACTTTCAACAGGCACCCCAGAGTTGGAAGGGACTGTCCTCCCTGCCTGCAGAATCTGCTGTGGTATCTCTTGAATGAGGCCATGCAGC
CCCCACCTGGCTCCACGTTCATTCTTGTCCTGATCCTCAAGCACTCAGGGCCTCGCCTCTCTGCCCAAGCCCCTTCCTCACCATGCCAGCTACTTCCATC
CCCACTTGACTGGGTGCTTCTCTTCCTCACTCAGCCAGACTCTTGCAGCTGGCACCCCTGAGTCCCCCACTCTTTGCCTTCACCCCTTCTCCCAGCCTGC
TGGATCAGCTTATGTTGCGGTAGAGCCGTCCCTGGTCACAGGAAGGAGGGAATAATGACAGCAAAAACAATAGCTCTGTGGCAGGCTGAGCATACACCGT
GCCCTGCCTCACTGAATTCTCCCAGGTGAGTACTGTCATTATTTCCATTTGACAGTGCAGGGAATGAGGCTCAGGGAAGGGAAGTGTCTTGCCCAGGGGC
ACACAGATAGTAAATGGCAGAGGTGGGAATGGAACCCCGGACCGTGGCTCCAGAGTCCACATGCATAACCAGTGATGATGTGGGGAGTCTGGAAGCTGGG
CTTCTCCCAGGAGAACTCCCAACTCAGCGATGCTCCGTAAGATGGGCCCAGGTCAGACACAGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCAGG
AGGCAGAGGCAGAGGCAAGAGGATCACTGGAGCCCAGGAGTTCGAGACCAGCCTGGTGAACATATTGAGACCCTGTCTCTAGAAATAATTTAAAAAATTA
GCTGGGCATGGTGGCATGTGCCTTTAGTCCCAGCTCCTCAGGAGGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAAGTTTGAGGCTGCAGCGAGCTATGA
TTATGCCACTGCACTATGACCTGGGTGACTGAATGAGATCCTGACACTAGAGAAAAAAAAAAAAAAAGAAAAGATGGGCCTGATCTGTAAACAGCTGCCT
GATTTGCAGTGAAGGGAGGCAGGGAAGAAGGCTGGAGTGGCCTGCTGATGGAACAGCCTGCTGATAGAGTAGCTGGCCGCTGCTCAGCAGCAAAGAACTC
TGTGGCCAACGCCTCCTTCCTGAGGACTCAGGAGGCCAGAAGTCCCACAAATGTTACTGGAGTCTCATTTCACTGTGATTCTCCCATCTGAAGTAGGCTT
CCCTCCCAATCCCATCTTTCTCTCTTCCTTCCCTTCCTTCCTTCCTTCCCTTCCCTTCCCTTCCCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTT
CCTTCCTTCCTTCCTTCCTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCATCTTGCTCTGTTGCCCAG
GATGGAGTGCAGTGGTGCAATTTTGGCTCTCTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGACTCAGACTCCCGAATAGCTGGAATTACATGC
GTGTGCTACCACGTCCGGCTAATTTTTGTATTTTTAGTAGAGACAGCATTTTGCCATATTGCCCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCTGA
CCGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACCATGCCTGGCCTCAATCTCATTTTTCTATCACTGATCAGTATTAAAATTATCATGA
CTCTCTTGGTTTACTTTTTTTTTTTACTTGCGTGTTTTTTTTTCCCTTCCTCTAGAATGTAAGCTCCAGGAGGGCAAGGACTTCATCTTGTTCACTTGAA
GCTGAAGCCCCAGCATGTACAATCCCGTGCTGAGTTGCTGGTTCATCCCCAGCATGTACAATCCCGTGCTGAGTTGCTGGTTCATCCCCAACATGTACAA
TTCCGTGCTGGGTCGCTGGTTCACCAGCAGAGAGGAGCATTGATTCTCTTTGGAAAAGATAATCTATCTACACCCCTGGAACTGTGGCACAGTCTCACGG
AGGGCCTGCTTCCATTCGGGTCAACGGCGAAAAAACGAATAAACGTGAGCCGCCATCAGGTAGGGCGAGATGCCCCTTCTTTCTGTCCCAGCCTTAGTGC
TGCCATGGCTGCCTCCTGCTCCTCCACGCAAGCCCCACCTCTGTCTGTGATGTCAGCGTGGCTGCCCATGGGATCCCAGCCTGGTTTGCCTTTAAATTTT
ACAACCTTGTTTATGCAGCTCGAGGCCCATGCACTAAAGACCACACGCTCCATTGAACATTTATGGCTGCAAATGGCTCCTCCGTGCAGGCAAGGGAGGG
GGCTGCGCATGCTTAGGGTGAGGCGGCTGGAACGGGGAGGCCACCAGCTCTCAGCCTCCACTTCTTCCTCTTAGGATTCCTCCCTTGGCTGAGGCTGACT
CCCTCAGTCTTATTCCTGATGACATTGCTCTGTTCACACTGTCCAAGTCCATATCTGGGCACTGCTAGGCATGAGATAGAAGTGAACAGATGTTAGTCAC
TGTCTTAGGTGGCTGCAACGGGGCATAAAGATTTGGGTACAATCGGTGCTCCCAGGAGAAAGAGCAAGGGAGTAGGGAAAGTGGGGGAGGTGCTGGGGAG
GTGGGAGCAGCCAAGCCAGGGTGTGATTTCCAGAAAAGCCCCAGAGAGAGTGGCCTCAGCCTCATACCATAGGGCACTCTGGAGTTGGTCCTGACTCGGG
GGCCTGTCAGTCATCGGCCAAGGGCCAGGCTTTGGGGTGTCGACTCCCACACAGCTCAGCTCCCTGAAGATGTGGGCACGGTGGTGGTGGGGGCTGCTGA
AGAGTTGCAGATGCAGCCACTGGAGGGGAGGCTGAGGTCAGTAGCCAGGCTCACAGGGACGACAATGGGATGGGAAGCAACACCTGACGGGCTCAGCTAC
AGGTGCTGACGGATTCACAGGCAGGTGGCAGAAGGCAGTCAAATAAATGAGACAATACAGCGCCCTCCCTGCGACCACACACACCGCTCACGCCTGTGAG
TGTTCGGAATGCATTGGGTCTCATTCTGCGTGTTGTACGTGTCCCGTGACGCCTCATGAGGATGCTCTCTGGCAGGCACTGGTATTGTTATTCTTATTTT
ACAGGTGAGGACATGGAAGCACAGGGAGGTTATGCCACTCGCCCAAAGACAACTAATCAGTGACAGCTGAGACTTGGACTGCAGAACCTACACTTTATAA
CTATTTTACAGTTCTGGGCGTCACGGAATCTTGCATGAAGAGCCCCTAACCTGGCCCGGGTGGAGGTCAGGGAGGTCTTCCTGGAAGAGGGGGTTCTTGG
CAGCAACTTGCTGGATTTGGTGTTCCCTGTTGGTTGGTCAGTCGCTAGACAGTTATTCACTGAGCTCTGAGAACAGGCTGGGCCCTGCTCCAGGCCTTGG
TTGGACAGCAGGGAACAAGGCTGGGGGAAATGACTCCCGAGAAAATGGACATGTGTGACCCTGGGTTCTGGGAAGGCAGGGAGGGAAGACAAGTACCAGA
GGCACAGCGAGGGTCTCTCTGGAGCCACAGGGAGAGGGGAGGGATGCACAGGCCTGGTGTGCTGCAGGGCCTGAGCCTGTGGCTGCTTCTGGCCAGGAAA
GAAGCCAACGTTACTTAAAGAAGTTATTCATGTAACCAAATACCACCTGTTCCCCAAAACCCTATGGAAATAAAAAATTAAAAAAAATAAAAAAGAGTAA
GCAACAACAAAATAAATAAATAAATAAATTTAAAAAATAATAAAAAAAGAAACCCACATTACCAAGTGTTTGCGAAGTGCCAGGAGCCACCCTAAAAACA
GTCCTGTGGGGTGCAGCCATTGTCATCTGCAGTTTCAGATGAGGAGGCGGGGTTGCAGAGGTGAAGGTGCTGCTGGTGGTGTGGCTGGTTGGTGGCTGAG
CCGGGAAGGAACAGAGGAGACCCTGGGGGATCGATAGTTGTGGGGAGAGAGGAAGGCTGAGGAGGGGAAGGGACGTCAAGTTAAATTGCTTTTAGAGGTG
CTGGGTGTCTGCAGAGATGGTTCCCCCATCATCGCAAGGTGCTTGTAAATTGTCGCCTCTGCCTCCGATAGCCTCCTCGGAGGAGAGAGAGTGTCTGGCT
TCCTCACCTTGGTGTTTCTGCATCCTGAGAAACTCGCCGCCTGGAAGCTCCAGACCCTCCCCACCTTGTCAGACACAGGCTTTGCTGGGAAGGGCCTCCA
GCCTCGGGCTTTGCAGCAGAAGCTCAGAGCTGCCTGGGGGGACCAGAAGGTGGGAACAGACCTGGGATCTAACTTCTACAGAGCCTCCTGCTGGCTGGGG
AACAGGAACATATCATGCKCCTCTATAAGCCTCAGTTTCCTCATCCGTCCAATGGCTATGCTAAGCCTCTCAGGCCTGCCCTGGCCTTGCAGAGAGGGTA
GGAGACCAGGATTTCCCATCTCAGGCCTCAGAGACAAATGTGGGTGCCAAACACTGCCTGACTCAGTGTAGGCAGCCCTGGTCCCCATTGGGCAGGGCCT
TTGAGGGAGGGCGGGCAGAGGGGTGCCCAGCTGCCTATGTCCTCTGAGAAGGAGGCTCCTGGTGCCGGGAAAGAGTGTGGACTCTAAGTCTAATTGGCTT
TCTCTGCCCAGCTGTGGGGCCTTGGGTGAGCCACACAATTCTCGGAGACCCAGTTTCTGCAGTGGTTTTGCTGAGTCACCAGGAAGCCTGTTTTCTGGTG
TCCGAGGTGAGGGAATCCCCCTCAGTATCTCTTTTTGGATCAATTTCTGGAATATTCTAGGTCTTTCTAGGCCTTTTTAGGCCCTTAGCCACTGCCCCCG
CTGTGTGCTCACAGCCTGTGTGGGAGTTGGGAGGGGGCTCCTACTGGACCTAAAGGAACTGCCTTGAGGGGAGGATGTGAAGTCAGGGGCAGAGGCTCCT
CACCCTCCTGTCCAGCTTCCCAGGAGCCAGAGGCCGGAACCCCAGACTGAGAGGCCTCGACTCCTCAGCCTTTTCTCCCCCACCTGCCTAGGCCTCCTCC
TCACCAATCCTCTTGGCCATTTACTCTTCATCAGCTCCACCATTTCTTTCTCTCAAGCTGCAGCAACCAGAACTGAGGTCTAACTGTATATCAATCACGC
CAACAATAACCATAATGAAGTCGATGTTTGCTCCTGAACCCTTAGTCCTGTCTGCTCGGGGGGTTGCCTTTGTCACTTCTCCCATTGGGTGAATCACCAG
CTCACCGATGCCCCTCACCATCTTGAATGCCAGCTCAGGCCTGTGTAGAGAGCCTGGACCCTGGTGTCAGACAGACTTGGGCTCTGACGCGGGTCCTGGC
ACCTGCCACGGTGACCCTGGGGCCTTTGACCTCCCCATACCAGGCCTTAGTTTCTTCATTGGTCAAAACTGGAGCATGGTGATGGCCTCCTGCTGGGTGT
TATGCTTCTTAGACGCAGCAGGGCTTATGATTCAYGCATCTAGGAGAGTGTGGGGCACTTGGCCCATCTGCCCACTGCAGAGCTAAGCCATGTGTCCTCA
CTCCTGTCCTTAGAGAACTTGCTCCTGGGTTCAAGGAGGCAAAACACAAAACACAGTTGACCATTAAGTGATAATTCAGATCGGTGTGGTAGACACAGAA
GGCAACTCAAACCCTCCCCTACCCCCAAGGAGCTCATAGCCAAGCATGGGAGATAGGAAACAACATCTTTAATAAAATTACGGTCACAACATCTTTAATA
ATTACTAAATATTGAGTATTTATTACGGGCTAGGAAATGTAAAGAGCTTTACATGGATTTTATTTTAATTCTTACAAACGATGAGAAGACAGATGTTATT
ATCCTTAATTACAGCTAGGCAAACTGAGCCTCAGAGAGGTAMAGTCCCTTGCCCAGGTTCACACAGCAGAGCACAGAGCAGATGGAACTGAGCTTTGAAC
CCAGATCTGCCTGATATGGAGGCCCATGCTCTTAGTTTGCCTGCTCTATCCCTCTGTGCACAAGTCTGTGATCTTCCAAATGACATTTCTGTGSCAAACC
GGGCCCTGTTTTCTGCATTAATACCCATCCCGATTACTGCAGTTTTARTTGCAAATGTCAGAAAATCCAATTCAAAGGACTTAAATAATAAAGAGAATTC
ACTGGCTTACATAACTGAAAAACAGGTAGTGTCTGCTTCAGGCAAGGATTGATYCAGCTGCAATGCATTGATTGGTATGAATAGGACCAGTGAGTTTTCT
TTTTCTCCATTTCTAGGCTYTGCTTCCTCAGTGTCAGCATCATTCACAGCAGGCATGTCCCTCCTGCCTCCAAGAGAGTCACCAGCAGCTTCCTCCTCCA
CATCTGTGAGTAAATGAGAGGGTCTATTCCACCCAATAACTCAAATCCCAGTTTCAGGATTTGACCTGTGGTTGGTCAGACTAGGGACACAAGCCCATTC
CTGAGCCAATCACTGTGGCTGAAGAGGTGGGAGACACTGATTGGTCTAAGCCAGTCAAGCACTCTCAAGGCCAAAGTGCATGGGCAAGAAATTTAGGACA
AGGGGAGGAAGAAAGAAAAGAAAAGAGAATATCAAGGAGGCAAATGACAAATAAATASCCACTCCTTTCTTCCCACGAGAGAGATATTATTCCCCCCATT
TCATGGAGGAGGAAACTGACGATCAGAGCAGCCAGGAAACAGGATGGCGTTSTCTGCTGAGGGACGGTGTGTTCCCTGGAGAGGAGATCCAGCTTGCCAT
TGTGGGTTTCTTACAGCAAAAATCCTGTGTGTACACATATGCTGAACAAGGCGCACACAGTCTTCATACTTCTTTCCCCAAATCCACTGTTGTACCTCAC
TCTGGAAACCAAAGAATACAAATGGAGATGAGGCTAATTTTTGCCCCTCAAATTGGCAAAGGTGAATAAAACCATGTTTCTTGGGCTGTGTGTGATGGCT
CACGCCTGTAATTCCAGCACTTTGGGAGGCTGAGGTGGGTGGATTACCTGAGGTTGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCTTGTCTCT
ACTAATAATACAAAAATTAGCCTGGCATGGTGGCGCATGCCTGTAATCCCAGATACTCGGGAGGCTGAGGTACGAGAATCGCTTGAACCCTGGAGGCGGA
GGTTGCAGTGAGCCGTGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAACAAACAAACAAAGCAAACAAACAAACAAC
AAACCATGTTTCTTGATGCTGGGGAGTGTGGAGTGATGCAGGTTGTTTATTCCTGCCTGATAACATAGAAATTAATATGAGCTTTCTGGAAGTGAGAGCT
TCTACATTGTTTTAAGAGTCTTGAGCATTTTGTACCCTTTGACTTCCAGAAATTTTATTTCCAGGAATTCATGTTCAGATAATGGGAGAGATGGACATTG
AATGATATATAAAGCCATCCACGGCTGTGTTACTCATAGCGGGGAAAACCTGGCACCACCGTGATCTTGATTTTTTATGCTTACATGTCATTAGTATCCA
TCTCAGTCTGCCAACTGCCATGTGTAAGAAAAATGCAACCCTCTTTATTGTTCTAGAACTGAGTTTAATTTTTATTTCAAGACTCTGAGATGACCAAGTG
GCAAAAACCTAGTCTCTGTCAGCTCAGGGACCCCCACCACATTTCCCCCTTTGGACTGCATCTTGCACTGGCACCTATGAGGTTCTTGGTGTGGTGTGGT
TGTCAGTCTTTGATCTGTTTGGCCACCGCCTGTGCCTCTCCATTCCTGATCCTACAGGCTCTTCTGGTCCCACGGTTCTCTGTGTATAGAAAACATTCTC
TGTCTGGGTTGTGAGAATGCGGCAGGCAGTCAGGCCCTCTGCGTGGACCCCACAGGTGGTCAGGCAGTCTTTTCTTCTGCTCTCATGCTGTGCTGACGCA
GGGACTTTGGGGTYTCCTTGCTTCCTTTGGGATTGGCAGCATAGACTCCCTCTGTCTCAGATCCCCACGCTTTCATGGAGGTCTGGGGATTCCTTAGCTG
GCTTGTGGTAATAACCATTGCTTTTAAACGAACCTCCTGATTTCTTCCACATCTTCTGCCTGTGTCAGAAGCTAGGCAGTTAGCACAGAATGCCCCAGCT
TTCTGAACTTTTTGGGGGTGGGGTGGTACACGAAGAAGACTCTGGAGGAACCTTGGTTAGAACCCCAAATAAGAACAGCTAGTATTTATTGAGCATTTGC
TAGGTGCCAGACCCTATTCTAACTGATTTACGTGGATTTGCTCAGTTATTTGTTGTGAAACCTTCTTTGATAGTGGAAGAAACTAAAGCACAGACAGGGG
AATCACTCATCCAAGGCCACACAGTTGGGAACGGTAGGACGGGGCTTTGAACCTAGGCAGTCCAGTTCCACACTTTCTGCTCCCAATCATTCTCTCCCGT
GGCCAGCAGGGGCCKTGAGGGGTGTTGGTGCTGAGAGCRGGGCTGGAGAGGTTTGGGGGCTCAGAGCTGGTCTGGAGGARGAAAGAAGTTCAGGGTCAGC
CCCCTTTCCTGCTCCCTGCTGCTGTGAACTGCCTGCGCCTGGAAAGGGCTGAGCCACTCTGAGAAGTTCATGGGCCAATGTTCTGCTGCAGCAACTAAAT
CTCCAGCCCACTGGCCTTGACCTTGGCTCTGCCTGTGGAGTTGCTGAATGATCCACCTTGAGGCTTCTTGCAGCAGATGCATTTTGCATGGGGGCCTTGG
AGGCTAGCTAGCTCCTTCCATGGTGGGGCTGGGAAATCCAGCCTCCTTCCACCCCTACATCCAGCCCCACTCCTGTCTGAGGTGCGGGGTGGAATCCTGA
GCACCTACTGTTGTGTTCTCTCTCTATATGCCATCTCATCGGATCTTCCCACCAGCCCTATGTGATGATTCACCTTAAATAGTTGAGAAAACAGCCTCAG
AGAGGTGAAGACACTTACCCCCGTCACACAGCCAGTGAGAGGGGCAGCGTGGGGTTGAACCTCCCCGACTCATGCTCATCTCACTCCATTAGGGGGCGTG
AATAGGAGGTGTGGTCCCTGCTCTTAGACTTCTAGCACTGACAGGGTCCTTTGGGGAATGAGGCCAGAGTTTGGGTTATGAGGTTCGAGGTGAAGAGGCG
ACAAGGGCTTAGCTCTTTGCTAATGAATCCAGGAAAGCTTTCTGTAGGGATTCTTTTTAAAGGACCTGTTTGAGGCTGGGCAAGGTGGCTCACACCTGTA
ATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTACTAAAAATA
CAAAAATTGGCTGGGCCTGGTAGTGGATGCCTGTAATCTAACTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGA
GCTGAGATCGTGCCATTGCACTTCAGCCTGGCCAACAAGAGCAAAACTCTTTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGGACCAGTTTGAGTGAGA
AGGGAAAGTCTGCCATCGTGTTCCGAAGATAAACTTTGGAGTCGCACAGACCTGGGTTTGAATCCCAGCTCTACCCGTTTCCAGGTTTGTGGTTTTGAAG
AAGTTCCTTATCTTCTCTGGTTTTGGGCTTTGTATCTGAGCAACAGGTATAATAATGCCTCCTCTGACCCTAGAGAAGTAACAGTATACAATGTCCACAT
ACAGACTTAGCTGAATTCTTTGAGCTCTCACTATCTACTAGGCCCCAACCTAACTCTTCCCACCTCTAACTTCATYTGCTCCTCATCACACCCCATGGGG
TGGATACTCAGAGWTGAGTCACCTGCCTGAGGTCATGCAGCGTGGAGGTGGCAGAGCTGGGGTTCCGTGGCCTGCCTGAGCTCCTCTTGCCCTTCTCTTT
CTCAGTCCCGCTTGTGCTTGGCTATGGCTGCAGTAGTTCTGATCCTGCGAAGAGCTTCAAGGTGAAGCCGGATTCAGGATTTCCCAGGGATTCTCTAGCA
GCCTCCATTATTCCCCGGGGAGTGCGGGCAGCTGGGGACTCAGGGTGTGGCTCCTCTTGACTCTCTCCCTGAGGCATAAATAACCCTTTGTCTCAAAMCC
CACCTTTTGTTTTTGAGACAGAGTCTCATTCTATTGCCCAGGCTGGAGTGCAGAGATGCAATCTCAGCTCACTGCAGCCTCCGCCTCCTGGGATCAAGAA
ATTCTCCTACCTCAGCCTCCCAAGTAGCTGGGACTACAAGCCTGTGCCACCACGCCTGGCTAATTTTTTTATTTTTAGTAGAGATGGCGTTTCACCATGT
TGGCCAGGCTGGTTTTGATCTCCTGGCCTCAAACGATCCACCCACCTCAGCCTCCCGAAGTGCTGGGATTACAGGCGTAAGCCACCATGCCTGGCCCCTC
AAAGTTTTTTTAATCCCTCAAGCTTATAGAATCTTCCCTGCTGGGGCAATGATACTCTCCTGGAGCTTGCCAGGGAGCTGGGCTTCAGGAGTCATTCAGC
TGGTGCTCCCGGCCCACTCTCCACCTGCAGATGGTGCTCCCAGCCCCCTCTCCACCTGGTGGCTGGTGGTGTGGCCTGACCCTGAGATGGCCAGTTGGTG
GCTGTTGGTGGGCCCTGGGGTATCCCCAGAAGAATCCCTGTAAACCTGCCTGGCAGGCAGCACCAAAGGCACATCACCCTAGAGAATCRTTTCCTGGAGC
GTATCTCTCTCATTTTGGGGTCCCCCTCCCAAAGGCAGACCCCAAGACAGTGCTTGKTACAGGTAGTTTATGTAGGGCTTGATTCTGGGAACCAGGGGAR
GAGAAGAGAGGATTCAAGTGCTACAAGTTAGACTTTGGTGTGGGGGACAGTGCTCCCTCTTGCTGGAACATTCTGAGAAGCCTTAGGAAATGCATCTCTG
AACTGTCCACCAGGGGAGATGGAACRTTTACCCACCAGTCTGTGTCCCTGCCAGTAGAGGTGGCCCCACAGGTGTTAACTCCCCTGTGTCCGGACTGTGC
ATCTGTGAATCCCTCTGCTGCTTCAGAGAAGGAGTTCCAAGCACTGTGAGGTGACCCTTGCAAGATGTTGCTGGAGGTCTGTGTAGAATTGGTCCCTGCA
GCAGTGGCTGGAGAAGGCATGGCAGGGGCAGTGAGAGGATTTGCAGAGGGGTAGAATCCGCCAGTGTCCCCGGCTTTTTTGCTGTGTGCTGACCAAAAAT
CAGAGTGCCTTGACCCACGGCCTGTGACCAGGCCAGCTTCAATTTTTTTCACAGCACGTTTGAACCCAAACTAGGACCTTGAACATTCCTAGGCACTGCA
AAAGATATCTAGGGTTACTAGAAAGAAATTGGCCCAGCCCTTTAGCCAAACTCCTTAAGCCCTCATGTAAATTCCATACCTCACCCCCTCGCTGCTGACA
TAACCTCAGTAGATGCCCCTTTTCTCTCAMGGTCCCTCAGAGGATTGTCATAGCACTCTGTAAGTTCCCTAATGAGTRCTTTGCAYGGACTACCCTGGCG
TTTAGGGCTTCTTTCTTTGGAATCTCTGCCCTGTCCTAGTACAGCTTGGGGCACTCCTTTGCGCGAACTCCCCTGCCATTGTTTTTTGGGGTGATTCCAG
CTATGGATTTGCAGGGACGAAACAATAGGCGTGAAGGAGGGTGCACACCTGCATCTCTGCCTCGCTGGGTCACTCAGTCCCCAACCCCTGGCCTGGGAGT
GCTGAGGGGTACCCTGCAGTAATAGTCCCTCTCGGTCCCTAGACTCCAAGACCACAGCTGGACTTCCATGCTTTTGTGTCTTCCATGTTTTTTGGAGATG
GAGTCTCGCTCTGTCACCCAGGTTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCATGCCTCAGCCTCC
TGAGTAGCTGGGATTACAGGTATGTACCAACAGGCCTGGTTAATTTTTGTATTTTTAGTACAGTTGGGGTTTTGCTATGTTGGCCAGGCTGGTCTTGAAC
TCCTGAACTCAAGTCATCCACCCACCTCAGCCTCCCAAAATGCTGGGATTATAGGCATAAGTTACCATGCCTGGCCATTTTTGTGTCTTTCTTGATGAGC
AACTGCTCTGTTCCAGCCCTGTGCTGGGCATATTCACATCTTTTTCTTCTCTCTCTCTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTT
CCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTCTTTCCTTCCTTCCTTCTTCCTTTCTTTCTTTCTTTCTTTC
TTTTTCTTTCCTTCCTTCCTTCTTCCTTCCTTGCTTGCTTCCTTCCTTCTTTCCCTCCCTCCCTCCCTCCCTCCTTCCTTCCCTCCCTCCCTCTCTCTTT
CTCTTTCCTTCTTTTTCTTTCGACTGTGTCTTGTTCTGTTACCCAGTGTATTAGTCTGTTGTCACACTGCTGATAAAGACATACTTGAAACTGGGAAGAA
AAAGAGGTCTAATTGGACTTACAGTTCCACGTGGCTGGGGAGGCCTCAGAATCATGGCAGGAGGTGAAAGGCACTTCTTACATGGTGGTGGCAAAATAAA
ATGAGGAAGAAGCAAAAGCAGAAACCTCTGATAAACCCATCAGATCTCATGAGACTTATTCACTATCACAAGAATAGCATGGGAAAGACTGGCCCCCCAT
GATTCAATTACCTCCCCCTGGATCCCTCCCACAACACATGAGAATTCTAGGAGATACAATTCAAGTGGAGATTTGTGGGGGGACACAGCCAAACCATATC
ACCAGGCTGAAGTGCAGTGGCACAATCACAACTCACCRCATCCTTGAACTCCTGGGCTCATGTCGCCCTCTCCACTCCAAGCAGTGGGACTACAGGCTTG
AGCCACCATGTCTGGCTAATTTTTTTTTTTGAGAAGTAGGGGCTCTTGCTGCTTTGCCAAGACTGGTCTCGAACTCCTGGCCTCAAGCAGTCTTCCTGCA
TCCCTCCCAAAATGCTGGGATTACAGGCATGAGCCACCACACCCGGCCACTTTAACATCTTATTTGATCCTCCCAGTTCTACAAGGCAGTCGTTACTTCC
CTCTGCATTTTACAAGGGAGGAAACCAGACTCAAAGAAGTAAAGAAACAAGCCCCAGGTTACTTGGCTGGGCAGGAGTGGGGTCAGGATTGGCAACCAGA
TGTCCCCCCTGCCCCCTGACCCCCACCATCACGTCCCCTGCATCCCTACTTCCATCCCCTGCCTCTGCAGCTCGGCCTTCCAGGCCAGACCACCCAGGTG
AAAGGCAGGCACTATATTTTACAAGGCAGGGAGCCCTGGGGAGGCGCCGAGTGGGAGGAGATGAAATAGGTGGCCATAGCTCTGCCAGGTGGCGGCTGTG
CCCACTCTTAGTCCTGACAGCCCCCACCTCAAGCCATCCTGCAGCCCTCAGTCTTGTCTCTCCACCATCTCTTCCTCACCCGCCTAGACTCCCAGAAGGT
CCTCATGGCCCATCTAGTCTGGACTTCCCTTAAAGTAGTGAAATCCTTTGTGGAAATGACATCTTACAGGGACTCCCGGCACATCACACAGATTAGAGCA
GGTCTGGTCTGGTGGCAGTCAGGGTCAGGGACAGGGTGCCACTTTCTCTTCCTCCTATTTAAGATGCCCCTGAGGCCATTGTGGAGAACCCTGGGGTCCC
AAGGAATGTACTTTGAAAACCCCTAGTCTGGTCCATACCCCTCCTTGAGCAGGTGGGGGAAGGGGACCCAGTRAGGTCTCCTGACTTGTTCAAGGTCATC
TGAGGAGTCAGGGGCAGAGGCAAGGCCTGAGTTGCATGGTGTCCCAGGCACGTCTCCCCAGAGTCCTCTACATTGCCAGGGGGTCTCCATGGAGCCTTCC
AGAGCTGCACTTTGTGAAATCCCCTATGCAAATGCCACGCCTGCCCGGGTGCTGCGTTTGCTCACAGCTGCAGAGGCTGGTGCTTCCAAAGCCTTATCAC
TAAAGCGGGCATCTCATTCCGGGCCTCCTGCACCCTGCTCTCCAGGTGGAGATAAGGAGCATTATCTGTCTCAGAGAGCGGAGCTCCAGGAGCGGACTTA
ATAAATGGTGTTTGCCGTTGGGCGCTGTGTTCGGAAGAATCTCCTTGAAAAAAAACCCAGAAATAGCTCTGCGGGCTCCACATTCCCCAAGGCCTGACTT
CCCCAGAAGACACAAGGACCAGGCAATGTGAGACCGTGGAAGACCCCTGCTTTTATAAGGCCCCTTTCTCAGGGGGAGCACCCAGAGAGGCCCCCAACAT
GACTCAGGGATGAGCTGGGCTACCAGCTGGCAAGACGAGTACCCAGGGTCCCGTTGGCCTCCATCTGGCTGTGTGGCTCAGTTAAGTCTCTGCACCTCTC
CGGCCTCAGTTTCTCCATCTGTCCCAGAAGCCCTTGGCCTGGATAATCCCTGGTTCCTTAGTAGTTCAGGCAGCCTTTGTCTTCTGAACCCCATGCTGCC
TTGGGTTCCACGGAYGCAGGTAAGTCTTGGGGGTTCCCGCCCCACCTGCATGCTCAGGGAAGGCTCTCCRCTGCCGCATTCCCCCGCTGCCAGTGGCTCC
CACCTGCTCCCCTCCCAGAGGGCTGACTCCAAAGGAAGCCTGTCCTTTGTCAGCAGAGCTGCCTTGCCCGGCAAAGAGGCTTTCATCTCTGTGCATAGGA
CTTCCYGCCGCATCAGCAGAAACTTCTGGCTGCTTAGTGCAGGGACTAGGGGGTGGCTCAGTTGTTGAGGGCGCAAACTTTGGAGTAAAGCGACCCTGGC
CTTGAATTCTGGCTTTGCCATTTATTCTGTCTGACCTTGAGCTAGTTGCTTAACCTTCATCTGACTCCGCATCCCTAACTGGGATATGGAGACTAATAAC
AATATGTAATTAAATTATAGGAATGACTCAAGAAATAAATGATAACAAGTGTAAAACACCCAGCACACAGCCTGGTGCCTGGTGCCTGGTAGAGACTCTA
TTATGATAAACTGATTGCATTAACAACCTCAAGTTTTCAGTCTTTCCCATACCTAGAGGCTTTGCAATGAGACTTTGAAGTTGCTTTCACTCAAGAAGCA
GAGGTGATCTCCCCATCCTCTGCACCTGGTCTGGCTTTGTGATGTGCTGTGGCCATAGAATGTGGTGGAAGCAATGATGGGCCAGATCAGAGTCTAGGCC
TTGTACATTTCCACTGGCATGCTCTTGCACTTCCGTTGTCAGAAGAACATTCCTGGCTACCTAGTGGAGAGGAGACATGGGGAGGAGCTGAGTTGCCCTA
ATTGAAGCCAGCCCAGATCAGTCAACCAACCCCATGACACAAACCAGAGCCATYCAACTGACCCACAGACTCATAAACTTAAGAAATGCCAGTTGTTTCA
AGCCACTGAGTTTTGGGCTGGTTTGTTACACAGCATTGTTATGGCACTAGATAACTGATATAGATACTTGTATGATTTACTTTAGAATGACAGAGGTAGC
CCTGTGTACTAACTTGCTATGTGGCCTTGGGGAAGTCACATCTTTCTGAACTGTGAGTTCCTATTTGCTAAGTGGCAGTCTTAACACCCAGGGCTTTCGT
GGTGACAGTTCTCGCTAAGCTTCGTTGCTAGAATTAGACTGGGGTTTGAACGTTAGCTTCACCCCTTTCTTCATGCCTGAACTTGACTTATCACTTGGCC
TGTCTGAGCCTCATTTCCTTCCCTTGCTGGGTAATCAAGCCATCTTACAGGACTGTCGTACAGAYTACAAATTCTTACAGGAAGGGCTGAGTCCAGTGCT
TGGCACATATTAGGGACTTGTTCCAGTTATCTATTGCTGCATCCCAACACACCCCAACACTTTGAGGTTTAAAACAACAGCTATTGATCGTTTTCTTAAT
TCTATGGGCTAATGGGTTGAGTTTTCTGCTCAATCTGTGTTCCGTAGGGTRGTGGGGTAGGGGCAGGGGGGAGTGTTCCTGGGAATTGAAAACTGGGAGT
GTCCTAGGCCACCTGAGATGAGTTGGTCACCTTGTTATTGCCTGGATCATTCATGTAGCTGCAGCCGCTGTAGGCTTGCTGGGCTGGGGGGATCCAGGAT
GGCTTCAGTCATGTGGTTGGCAGTTGGTGCTAGCTGTGGACTGGGAGCTCAGCTAGTACTCTCTGCCAGGGCTTCTAGGTTTTTCTTTATAGCCTGGACT
TCCTTACAGCATGCAGTTCTCAAGGCAGCATTCCAAGAGGGAGTGTCCCAAGAGTGAAAGCCCAGCCGGGCTCACGCCTGTAATCCCAGCACTTTGGGAG
GCCAAGGTGGGCAGATCACTAGAGGTCAGAGTTTGAGACCAGCCTGGCTAACATGGCAAAACCGTCTCTACTAAAAATACAAAAGTTAGCCGGGTGTGAT
GGTGCACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATTGYACCACTGCA
CTCCAGCCTGGGTGACAGACAGAGACCCTGTCACTTACACACACACACACACACACACACACACACAAGGCCGGGTGCAGTGGCTCACGCCTGTAATCCC
AGCACTTTGGGAGGCCGAGGCGAGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACRGTGAAACCCCACCTCTACTAAAAATACAAAAAA
TTAGCCGGGCGTGGTAGCACGCGCCTGTAGTCCCAGCTACTCYGTCTCTACTAAAAATACAAAAATACAAAAGTTAGCCGTGCGTGATGGTGCGCGCCTG
TAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGTAGGCGGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCTAGCCTGGG
CAACAGAGCGAGACTTCGTCTAAAAAAAAAAACAAAAAACAAAAACAAAACAAAACCCAAGGAGTGAGCACCCATAGAGCACCCACTTGCTTCTGCTAGC
TAATGCCCCAAAGACCAAAGCAAGGGGCATGGCCTCCCCCAGAGTCAATGTGAGAGGGGACTTCAGGAGGGCAGAAACACTGAGAGGCATGGTTCACTGG
GACCACCAGCAGATGTGCTGGTCTGCCGCAGATCCATAGGTAGTTTGAGTTGTTACTGTGGTTATTATCCCTATAATGAAAGGCCTGGATTGATGATCTC
TGAGGTCACTCCCTTCCAGTGCCTGTATTCTGTGATTCAGGAGGATGAATGACTCACCCAGGGCCACATAGGGAGGTGGGAGAAGAACCAGATAAAYTGT
GGAAGTCACATAAACAGCACTATTGATAAAACAATCAGTAACTGAGAAATGACAGAAACATAAAACAWTCTATATCTAGCTGTTTGTTAGGAGTTTTAAA
TGTGGCAGKACCATCGCAGGGGCAAGCTGGTCTGTGCCTGCATCATTGCAGACAGTGATGGGCTGGGAAAAGAGTCAGAGGGACCTGAGGCCATGAGGGT
GATGCACACAGATCCTACTGAGCAAAGGCCTTGCCAGAGGGGACKTGCCTTCAAACCAAGAGTGAAAGAATGTGTACAAATTGAGGCTCAGAGAGCTCAA
GCCATTTGCCCAAGGCCACACAGCTAGGACATGGTAGAGCTGGGATTCAAACCAGCTGTATCTGGTTGCAAACTCCCAGGCTTATTTTTCAGGTCATACT
GACTCCAGTCTTCCTAAATCAGTAGCCCTGCTCCAGGGTGCTGGGTCAGGGTAGATAGATGGCCCTCGGCCCAGTGGGCCTACAGGTCAGGAAATCCCAT
TTCCTCGCATTCTTGATCGGAAAGCCTTTCTGACAGGCAGCTTGCTGCATGGTTAAGGTCAGACTTTGGATTGGGGAAACTGGAGTTTGAGGTTCAGATA
AGTCTCTTCCTGGCTGTGTGACTTTGGGCAAGGATCTTAACCTCTCTGGGCCTCAGTTTTCCCAGATAGCTATAAGGATGAAATGAGAGGGTGTACCCCG
AACCCTTAGTCGGGGGTCTGGCACCCAGTAAACCCTCCGTAATGCTCCCTGGTGTCCCAGCCCCAAACACCGCCATCCTCTGTAGCAGTAGTGGAAGGGA
CAGGATGACAGATGACCTCTCTAGGCCCATTTCAGACAGGATTCTTCCCCTCAAGGTCCAATAATGCGGGTGCAGATATGTCTGCCTCCTCCTCCATCCC
TCTAACCCTCCACCCCCCGGCCCCGACACCAGCACACGATTGAGAAGGAAACTCAAGCAAAATGAATCGGTTGGCCGGCAGGAGCAGCTGTTGATTTATT
TCTGGGAAGGGCCCGGYGTCCCCTGGAACGGTGACCTCTATTAATGTTGACATGTTCAAAGCCTCATATTGGGATGCAGCACGCCTCTCCTGTCCCTTTA
AAGAGCCCGCTGTTAAGTTTCAAAGACCCTTGCAGAGCATGAGGAGTGTCTGGGAGCACGATTCCTCAAGGAGGAATATTCCATCAAAYGCCGCGTGATA
AATGGGGACCCGCGTGGTTGTAGACCCTCACTTTGGACGCGAGTGGCCCAGCGCAGGCGACTTCACTCGCTGGGATAAAAGGAGATTCATTCCAAGCTGA
GAGCCTGAACAAACAGCCGGCGCCTGTGTGTATTTCGGCTGCCCCTGTCCTTTGCTGCAGCTAGTTTCTTGGCCTGGCCGGAGCTGGTTTGGGCTTGGAG
AAGGTCAGCTCCTCACCAGGAATCAGAAGCTCTGTACTAAGGCGTCTCTGTGTGCCCAAGATGTGCTGGGTGCTTTGCATAAGCTGTCTCACTGCATGCC
CGCTCTTTTTGGCCAGGTGAGAGTTATTATTCCCATTCTCCAGAAGAAGATGAGGCCCAGAAGATTTGGGGAACTTGCCTAAGGTCACACAACCTAATAA
TCAGGAAGCCAGGAATTTGACTCCTAAAGAATTTTCTTGGCTCGCGCCTGCCTGTAAATGCCAGCACTTTGGGAGACCGAGGCAGGTAGATCGCCTGAGG
TCAGGAGCTCTAGACCAGTCTGGCCAACATAGTGAAACCTCATCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGATGCGCGATTGTAATCACAG
CTACTCGAGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGCGCCACTGCCCTCCAGCCAGGGCGACGGAGT
GAGACTCAGTCTCAAAAACAAAACAAAAAACAACAGAAAAAGAATTTTCTTTGTCCTACCCAGAGTGTTAGCACCGATTGAACCCCTAAAGACAAGAACC
AACCATGGCATTTTACAGTTGGAAAACTGAGGCCCAGAGAGGGAATGTGACCTGCTCAAGATCACACAGCAAATTCGGCAAAGAGAAATTTTCTAGTGGT
CAACAGAGAAACAAACGGCAGCCTCTGACCCATAGTTGGCACTTACTAGGTTTAAGTTTGTTTCCTTCCCCCTCTCCCTCCCTCCCACCAAGGGAAGGAA
GGGGGTATTACAGTGAAGAGAACTAGAAAACCCAGGGGTTGGAGTGAATGGCCTGGGTCACACAGGGAGCCTGGACTGGAATCAGGTGGTGATAAACCTC
CCTTCTGTATCCAGGATTCCCTTCAACTCTCACCGAAAGGACTGTTGCCCAAGTGTCAGCTGCGGAGGTCGCTTTGTGAGTCAAGGATGGCTCCCTGCTC
TGTTGGACTCCCAGCAGAGGTCACAAAGCTTCCAGAAGGATAGACTGGGATCCTGGAGAATCTGGGGTTGCTTGGGGCCTCCCTGGAGCTCTGGATAACA
CCCTTCTCTTCCATGTCACCCGCTSTCCCACCCAGGCCCCACTCCAGAGAGACGGCCTAGAACTGATTCTTCAAAAGTACATAAGATAACACCAGGACCC
CTGCTCTCCCCCTGGCTCTTGTCCCACTGCAGAATGGCTGCTAAGCCCTGGACACACCCACCCTYTTTTCTGCCTCTGGCTCTTTTTCATGTTGTTCCCC
CAGCTGGAACACCTTTCCCTCTCCCTTCGTAGCCTAACAAAGCCCTTCCTCCTCTTTTGGGCTCAGCACAGTGGTTGCCTCCTCCAGGAAGCCCTCCTTG
CCTTTAGCCTGGGCTTGTGTCCCTCCCCTGGGTTCCTGCAGCCCCTGGGTTTGCTTCTCTCAGCATAGTAATCACCCAGGCAGTAACTCCCTATTTCATC
TATTTTCCAAACAGGGCTGTGARCCTCTTGAGGGCAGGGCCTGTCCCCCATTCCGGTCAGTGCMCCAGGGCCTGGCACTAGTAGGTGCTCTGTAAACAGC
TGTCCTGCAGYGATCGGTGGGACGTGGGCATGGCTCGGTGTGTGTGTGTCTGGGCAGGGGTCTCACATGCCAGCTGCTCCTGTGGGAAAAGGCCTCGGAG
TAGTGGTTTGGAGTGGCTTTCTCACCCCCACGGGTCCCACAGCCCCCGCTTCCCTGAGCCCCACTGCAAGGGGTAGCCTATGAGGGCTGGCCAGAGTCAG
GGCTCTTCACACCCTCCGWGCTCCCAATCAATCCCTGTTCCTAATGTGCCCTAGGATTGCTATTCTTCCTTGGCCTGGCCCAGGGCTGGATCGATTCYTC
TCTTAAAGGCACAGGCCTCCCTTTACAGCCATCAGCGGGCATTCTGCAGAGAAGTTTATTTACAAAAAAAGTCTTTTGTTTTATTCTTGACTCGGATGGT
GCCAGTTCTCATTCACTGACTGTGGACAGGGAGCAGGTGCTGGGCTTGGTGCTTGTTATGGATTATCTAGTTTAATCTCTAGGTAACCATCTGAAATGGG
GGTATTAGGATTCCCTTTTCAGGTGGAGACACCAGGCTCAGGTTGGTGTGGTAACTTTTCCAAGGCTGCACAGCCCCCGAGGGGCAGAGCTGGGACTGGA
ACCCATTTATCTGATGCTGGGATCCATATGCATAATGGAGAATGAACCCAGCTTGGGTGAAACTCTGACAGCAGCCCCTCCACCCCCACTACGGGTCTGG
GGATATCCCTGAAGCCCCCAGCACCCTGCTGCCTGCTGTACTGGGGCCGCCTCAGCCCCAGTCCCTGGTCCTGGGAGCAGGTCCCTCCTTTCCCATCCCT
CCCTCAGCCTCWTGCCTGCTTGATTGCAATTAAGGATGAGAACCATTGAATAGGGCTCGAATGGTGAATTAATAACCTTATCTCRCCCCAGCCAAATCTG
GGGCCATTGCGCACCTCTGGCCCAGGGTGGGGAGGGCTTCTTTATCAGGCTGCAGGCAGCGCTCAGATTTTCCTTCTCAGACAAGATGAAACAATTATCT
GGTCTGCTGGCTGCTTCCCCTCCCCACCCCCAGCTGCTGCTGCGAGTGCCCAGCCACTACCTGGAAATTCCTTAAAGCCCAGGGCTTCTGTTGGGAAATG
CACCCCGAGCTGCTTGTGTGAAGTCTCAGTGCTGGATTGGTTCCATGCAATGCATTGGTGCCTGCCTCTGTCACCAAGCAGGGAGTGACGGTGTTCCCCT
GGAAATGATGGTACTTTGTCTAGTTCGGGGTGGAGGCTGTGTCATGGCAAGGGCCACTTTTAGGCTATGAGCTCCCACCTGCAAGGACAAGGACTGGTGT
TGGCCTGGCAGGGAAGGGTCTCAGTACCTAATTTGAGAAAGAAAAGATGGCGCTCCCCTTGATCCTCTTTGGCTGTTGGCTCATTTTCCTCCTAGCCATG
GTGGAGAGGGGGGCTCTGTTTCTCGGGGGTACCCTGAGGGCTCTTGCCTCATAGGCAGTAGAGAGGTGAAACTGCTGTTGCCCTACCTAAAGTCTCTGCC
TCCTTGGCTGACTCTAGCTGGTTCACTTGCTCTGCTGGGAGACCCTTGTCATGGTAAAGGGACCCAGATTTGGCTGTGATGCTGGAGGGAGAGAGAAACA
GCTGACCCCTGTGACATGGGCCCACATTTCAGATGCTCACCACGGAGGTGGCTCAACACAGCTCAAAGAATGTGGAGGCTTGGTCAGACCTCGTGGCATC
CTGGCTCTGCTACTCGAAAGCCAGGGTCTCTGGGTGAGGAATCTGACTGTTCTTAGCCTCAGGTTCCTCCTCTGTGAGCTGGGGACACTGGCAGTAAGGA
GTACCAGGCGATTTTGAGAGGCAAACGAGTCAATCTGTGTGAGTGCCTAGAACCATGCCTGGCCCAGAGTCAGGGTTGTGTAAGCATTTGTGGTCATTCT
TCTATTTGATCTTCATGTGAGAACCCTCTGAGAGGTCATCAGAAAACTGAGGATTAGAGAGGGGAGGAACTTGTCCAGGGCCACATAGCTTTGAAGGGAG
AGCTGGGATTTATTTATTTATGCTAGAGACATGGCCTTGCTGTGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAATCAATCCTTCCCTCCTCGGCCTC
CCAAAGTGTTGGRATTACAGGCATGAGCACCGCATCTGACCTTAGAGAGCTGGGATTTAAATCTCTAAATCCTTCCACCTTATTTTGCGGACAGGGGCCC
AGGGCTCTGGGTCTCCCCTCTGTCCCTGACTCATCATGTGACCTCAGGCAAGTTACTTCACCTCTTTAGGCCTCTGTTGCTGCACCTTTAAGATGGTGAT
ATCCTCTGCTGAAAGAAGGCAGAGGATTGATTAGATGGAATGGAATAGACTCGAAGGGGCCTCAGAATCCATCCAGGCTCATTCTGTCCTTTTAACRCTA
TGGTCACTAAAGCATAGAGAAAAGGAGAGAGCTTCCAGAATTACACAGCGTTTGGGATGCAGCCAGGGCCAGAAGTTTCCAGCATCCAGAGCCCGGGTCC
AAGAAGTCACCTCTGGTGGCCTTCCTTGTTGAGACTTCAGGATCCTCCCCACCTGGTGGGTGGTGTCACCCACATCCCAGCTGCAGGTTCTGTGGCTTCT
TGGCTCAGCCCTCTTATGCCTCTTCTGATGGGTCTGGCCAGTTACAAACTGTGTCCATCTGTGGCACACCTTCCAAAAAAACCTGTGGAGGCCGGGTGTG
GTGGCTCACTCCTGTAATCCCAGCACTTTGGAAGGCAGAGGCGGGCGGATCATAAGGTCAAGAGATCRAGACCATCCTGGCCAACATGGTGAAACCGCGT
CTCTACTAAAAATACAAAAATTACCTGGGCATGGTGGTGCATGCCTGTAGTCACAACTACTTGGGACACTGAGGCAGGAGAATCGCTTGAACCCAGGAGG
CTAAGGTTGCAGTGAGCCAAGATCTCGCCACTGCACTCCAGCCTGGCGACAGAGTGAGACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAAACCTGKG
GAAACTGGCCCCATTTGGCAAATGAGTGGGGAARACAGGAAGGGATCCCCCARAAAGTGGARAGAAACAGCCTTGAAATAAACGATGCCCTGCCARACCC
AATATTGAAGGGGGATTGGATCCCATCTTGGGAGACTGATGCCCCAACCCTGTTGGTCTCGTAATGTTCCTATTGGATTACTGATACCCCARAAAGCGAA
TGCCCCAGGAATACTGATCTTTAAGGATTATTGGGACCTCAAGCTCTGGAAATTGTGATTGTAGGAGCATTAATTGCCCAAGAACACTGTTATTTAAGAA
GTACTGAGTGCCCATCTCAGGAAATTGATCCCCTGCAAGTATTGATTCTACTGTGCTGTTGATACCCCAGGAGCTTTGCTTTCTACTCTCCAGGCYCTCA
GCAACCTGACTTTCCCTGAGTTCATTTAGGGGCAGCAGGGGTCCCTGTGAGTGATTTCTTCCAGGAGGGAATTTGGAGGAACATTCCAGAGCTTGGCTCT
CACACTTGAGCTGCATCACAATCAGCTAGGGGGCTTTGTAAAACACAGCCTGCTGGGCCCACTCCCAGAGTTTCAGATTTAGCAGGTCTGGAGTAGAGGC
CAAGAATTTACACTTGTAACAAGTTCCAAGGTCTGTGAGGCCACACTGTGAAGACCACTGTTCTAGAGGTGAGATGATGGGTTCTCAGCCCCAGCTGCAC
CCGGGCATCGTCCATGAAGCTTTGAAAACTCTGTCAGGGGCCCCAGACCTCACTCCTAGAGGTTGACTTAATTGGTCTGGGATGGAGCAGGACATTTAAA
AGGTTCTCTGGGTGATTCTGGTGCAGTCATGAGCTGGGAATCAGCCAAGTTTGGGGTGAGGTGAGTGAGCACCTGTACCCTGCTAAAGGTTCTGAGATGG
GGGAGGCAAAAGACACACCTTGGGCTTAGCTCCCAGTGGGGAACCCCCAGACTCAGGGCCAGGCAGCGCAGGGGCCTCCCCTTGGAGCTACTGAGGTAGC
ACTGCTAGGGGGTCCATTCATTCATCTACCTGCCTGTATTCAGTAGACATGGCACTGTTCTAGACCATGGGGATGAATGAGGCAGACAGAGCTCCCCACC
ATCAAGCAGTTCATAGCATCAATGTGGCTATGGACCACACTGGACCACACTCATGGTCCAAAGGTGTCCTGGCACCCAAGGCTCCCTTTGTTCATACTCA
TGACTGTCAAGGTGATGGAAGCTAGATACTGGGACAGGCAGTGGAGTCAGGGCTGGGCAGGGGACAGCGGGTGGGCTCTCTGTATACCCTCTGGGGAGAT
TCTCCAAAACCAGCCAAGAAGGGGTTTGACTGTTTCTTGTTGGCAGACGTTGGTCAGTTTCTAGGCACCTCACGGTCACCCAGTCCAACTCCTGCCTGCA
GCAAAGATGGCAGCAGCCTCCCCTACTCATGGGCTTGTCTCCTGGTGGTGGTCTAGGAGCCCCTTCTATCTTAGGTCTCTGCCCCATTTTGTTCCTTCTT
TGGCTGACAGTCTCTCTCTCTCTCTCTCTCTTTTTTTAGAGACAGGGTCTTGCTTTGTCACCCAGGCTGGAATGCAGTGGCATGATCATGGCTCACTGCA
GCCTCAACTTCCCTGGCTCAAGGGATCCTCTTGCCTCAGCCCCCCAAGTAGCTGGGACTACAGGTGCATAACAGCATGTCAGGCTAATTTTTTAAAAATT
TTAATAGAGATGAGGTCTCTCTATGCTGCCCAGGCTGGTCTTGAACTCGTGGGCTCAAGCAATTCTCCCACCTCAGCTTCCCAAAGTTCTGGGATTATAG
GCGTGAGCCACCGCGCCAGGTAAGGGTTTTTTTTTTTTTTGTCTCCGGTTTTTGACCCCTTCCATCTCTGTTTCTCCTTTGTTTGCCTATCTCCACCCCT
CCAGCACCCAGTCGGACCACTGACACCTTAGGACAGTTGGATTTTTTTCTAGCTCTGTCTCCTTGGACAGCACCTTTCCTGGTTGGCTCTCTTCCCTGCC
CACACCCCCTTCCTCTTGATAAACACTTTCCAAACCTCAAGCTCCAAGACCCCTTTGGCAACTGCTTGACCTGTTTCCCTCCCACTACCTGTGGATATAA
GATTCCCTCCCTGGTGAGGGCACACGGAGCATCCCGCCTTTCCCCTCTCCCCAGGCTTGTGCACCAGGGGGCTACTCAAGGGGCAGAGCCCCCAATGGGC
AGGTTTCAATCTTGGTTGGGTCAGGAAGCGAGGTCCTCAAGCCTGGTCGGGGTGGTGGCTGTGGTTCATTCTCTGATCAATATTAATTTGGTGACAGGTA
TTGACTGCCTGTGGTGCTTCAGGCAGAGGGAGAGAGAAATAGTCACAGTCCTTACCCTGGTGAGTTAAAAGGATAATGCTTAAGATGCCATTCACCCACC
CTTCTATCCATTTGHCATTCATTCATTCATTCATTCATTCATTCATTCATGTATCCATTCATTTATTCGGTAAATAGCAAGCACCTACTACTGTATAGGA
GTAAACCCGAGACAATCTCTGCCCTCAAAGTCACCCCCTAGTGGGGAAAACAGACAAGCAGACAGACAACTGGGGGGCTCTGAGTGCAGAGCTCTCAGCA
GATTCCAGGTCTGGGTGGCCAGACCTCTTTTTGAGCAGACCCAGCAGCGGGCTAGGCTCGGACAATCGCTGCAGCCCTTGGCTCTGGCCTGGCTCAGGGA
CAGGTGGGGCTGATTGGACACAGCTCAGAAGGGTGGTCCTGGGATGCTACTAAGCCTCCCTGAGCTAGAAAGGGATTGGGGGCCACAGACCAGAACCTGC
TATAGAGTGCGCCCCTTAAAACCTCAAGGAGGTCGTGCATGAGAATGCAAACCGGCTGCCGGGGAAAGGGGAGGAAATCCATTTCCCAGCTTGGAAATTA
TTGAATATTTAGGAGCCGGAGCAGATCATTTAGAGGGGAAATGAATTTCTCCGGTTTCCTCTGGCCAAGATAAATCAGCCCGGATGCTCTTGTACTTTCA
TTTACCCCCACAGAACAGGTCTGGATGGGTGTTTATGCAGCGCTCAAATAATCATTCTTCCAGAAGTGGTAGCGATTGCTTCCAAAGCCATCGACTTTCT
CTTAATGCTGGTGTGGTGACCCGCTTGGTCAGCCCCTGCCTGTGCACATCCCTGGGGTGTGGAGCCCAAGAAGGGGAGGAGCAGGGCTGGCTGGTCATAG
GTTTGTCCKTAGTGCCATTGCCCTCCGGATGGTTGAGGTCTTGCAGGCTTGACAGGGCACTGAGCAAGCTCCAAGCCTTAACCAATAACAGCTAGAGACC
TACCAAAGTTGGCTAAGGGTCTGAGCTGGGAACAGGAGGATTAGGGGGTGCAGGATTTAAGTCAGATTTAAGAAAGAACTTCCTGGGCCCGGCTTGGTGG
CTCAAGTCTGTAATCCCAGCACTTTGGGAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGGGACCAGCCTGATCAACGTGGTGAAACCCAGTCTCTACTA
AAAATAYAAAAAATTAGCTGGGCATGGTGGTGCACACATGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGAAAGGTAGAGGT
TSCAGTGAATGAAGATCGCACCACTGCACTCCAGCCTGGGCAAGAAGAGCAAAACTCTGTCACAAAAAAAAAAAAAAAAAAAAAAAAAAGGAACTTCACC
TGCAGTAGATGGTTGTGGTATTGCTCTCCCTGGGTGAGTGGTCAGAGCAGAGACCCTCTTCTACGGGGCATGGAGGCAGGGGATGGACTGAATGGCTTCT
GAATCCTGAATGACCCAGGATTCTGTGATGTCCAACTAATCTTCACAAAGTGATGTTTTCCTAGACCAGGKTTCTGCAAACTTTTTCTGTAAGGGACCAA
ACAAGTAAATTATTTTGGCTTTGGAGGCCATATGATTTCTGTTACAACTGCACAACTCAACTCCACTGCTGTAGTGCCGAAGGAGCCGTAGGCAACGTGT
GAATGAGTGGAAGTGGCTGTGTTCCAATGAAACAGGGAGTGAGTGGCCTGGATTTGGCCCGCCTGCCATAGTTTGCTGGCTTTATTCCAGAGACTGAAAA
CTCTTTGGGGGTTTCTTAGAGGAATCAATGTTTCTGGCTCTTGTCTGTTTTTGAAACAACTCTCTTTCGCTTTCCTGATGAAAAAGTAACATTTGCTTAT
AGCAAAACATTAAAATAATACAGAAAGGTAGAAGGGGGAAGTCGTTGGTAATCTTCCCCTGCTCAAAGTTCACAGTTTAATGTCTGTATGTATTTTTGCC
CTAATATTATGTTCTATTTAAAGGCCATCTTATACAGACCGTATTTACAGAGGCTGTTGTATTTTGAGTCCCAAGTGGACTCCGGTTTAAAAAGGAAATC
TGGAGACGGCCGTTGGGAAATCAAGTCCAGGGTGATAGGAAATGGACAAAGTAGACTTCTCTTTCCTGGGGGTGTTCCCTCTGAGGGAGCTGCCTGATGC
CTCTGAGGGTGGAGGAGGGATGGGTGGAGGAGGGATGGGTTGAGGAGAGGCGGGGAGGGGAGGGGGCCGGGCCTGCTCCTGCTCCTGCTCCTGCTGGGAG
CTCAGAAGCTGCTGGGAACAACTTGCAAGAACCCAGCCATGGGGCAGGGACCGCGAGACCCCAAGATGCACATCCCAGTGGGTCCCGGACAGCTGCAAGA
TGAATCCTGAGCCGCACAGGGCTGGTTTTTGGCTGCCCTGAGGAGCTCTCAGCTTGGGCCTCTGGGCTTATCTGTCCACTTCTGGAGGGGAGGAGAGGCT
GTTTCCAAGAGGACCCCTTGAATGCTGTGGGAGGCTGCTCCTTCTCCTCCCCCACCCTCCACCTTGAGCAAAAAGACACTGAAGCATCCGAGCCCTGAAA
CAGAGGCCCACATCCCCATGCACTGGCTTATCTTCAGTCTCAGATCCGCAGAGGAGGACATATTTTTTTTCCCTAATGGTGACAGGATCAAGGAGAAAGG
AAGAGGACAAAAAGGCCACCTGAACCAGCTGTCCATCTCCACTTCAAGGCAGAGAGGAGGATTGGGGGGCAGGAATGGGGAACATCGCCCCCTGCCAAGG
CGAGACTTTTGCCCACAGTCCCCACTGTGGCCATCACACACCTTGGCCCTCACTCATTTCYGGCACTTGGCGTTCTAGGATCACAGGATCACACTCAGGT
CTGACCCTCGGCTCCTGGGGACAGGGAAGGGCCCAAGACACAGTGGTTTTCTGTCAGAGGCCGAACAGCCTGATGGTTCTAGGAACAGGTTTGGGAATCA
CTCAGGTCTGAGTTCAGGTTCCAGCTTTGTCACTTCCTCATCATGGGCCAGTTTGGCCCCATTTGAACCTCAGTTTTCTCATCCGTAAAATGGGTATAAA
GTTAGCACCCTAAGGATGACATGAGATGCTTCATTGTGTAAAGTGTCTACCCCAGTGAAAGATACAAGAGTGATTTTTCATTCCTTCCTGCATTTCTTTG
ATAAAATCTAATTGGGGACATCAATAAAATCTTGTACTAAACCTCAGGCTGATAGGAGGCTCTGGAGAAAACTGTTTTCTGTTGTTTTTGTTCTTTAGAA
TCTTAAGATTCTCAATGACAAAGSTGGGCTGCAAGCTCCTTGGGCAGAAACCCTGACCAGCACATTCACGGCTGTATCCCTCTCTAATGCCCAGCCAAGG
CCTGGCGCCCAGTAGGTGCTCATAAGCAGTTGTGGAAGAATGAAGGTATCAAAAGCTGCAGAAAGAAGGGCTTCCCCCTGCAGAGAGTGGAAGAGGCAGA
AAGGCTGAGCAGTCACCTTCCCACCCCCCACCCCCGGCAACCCGAGAGCTGATGGCCCAGTTTTCCATGCCCCTGTGTTATGCTACAAATTAGTTTCAGG
TCGGCCAGATCCAATTTGGTTCCTAAGGCTTTTTTTTTTCTCTTTAAAGAGGTGTAATTAAAAAACAATAACAACAATGGAACAGAAGTTCAGCTATCAC
AGTTGATTTTTCACAGAGGCTGGTGATGGGGAAGCTGGAGCAGCCCTGTGTGATTCTGGTAGCTGTGCCAGGCAGGGAGCAGGCGGGTGTCCCTGCCTCC
TTGAGCATGTGCTGTCCCAGGAGGGACACCGAGGCCGGGCATGTCTTCCCCCCGACTGGACTGCGGGGCAGACCTCACTGGCCTCACAGCCAAGCTAACC
TCTCTCTTTGTCCCTGTTTGTCTTCTGCAAGGCTGAGTCTCTGGTCAGCTTTCTGCAGTCTTGGCCTGCACTCCTCAATCTGTGACCCACCGCAGTCTCC
TCTCATGCAGGAAGGCTGCCCAGCCGCCCTGTCATGTCACAGCGGTGTGGAGCTGGGAGGGGCCTTGGAGCCTGGGCTCCTACTCATCATGACAGCCAAT
GCTCACAGCTAGCTGTGAATGCACACCTACTATGTGCCTGCATCTCCTCCTCCTCCTCATGACATGAGGTAGGTGATGTCATGTCCCCCTTTTATAGATA
AAATAACTGAGGCTTAGGGAGGTGAAGTTTCTTGTCCAAGGATAACAGCTAACAAGGGGCTAAGTTGGGGAAGACTGTGCCGGACGCCACCCTGCGGCAA
GTTGAGGACACAAAACCAGGCAAGTCAAGCTGTTGATGTCAAGCAGTTCAGAGACCTTGAACCAGGCTGGCTGGCTAGCTGGATGGATAGACAGACAGAA
AGCCAGATTTGGAGGCACAGAGAAAAACAGGTAATGAAGCCAGGCTGCACAGTGGATCTCTTTGTTCTCAATTTCATGGGCGATGAGTGAACAAGTCTCA
TTGGCCCTGATGCTAGCTTGCTGTGTGAACTTGGCGATCCATTGATTCTCTCTGAATGTAATGATGCCATCTGTGAAATGAGGGCTTAGATACCACAGCT
CCTAAAATCCCATTGGGCCTCAGTGTTCACTAATTTTCTAAATCTCCAAACTCCACAGTTGTAAGATCCACATTCATCCTGTAAATCCAAGGGAGTGGTG
TGGGCGGTGGTGGATGACATTTTAATTCTGACTTGCTGAAATTCTCTAAGAGCAGCAATTATAAGCTGGCAGCTGAGAATGAGACACAGGTATCTTTTGT
GTACATCCACAAATAGTATTTATTTCTTCTTAATTAGCAGCCAGCATTTAAAATCAGGTGATTTTTCAACTTTCTTTGGAAAACTGAAAGGTTAGGCAAC
ATGGGATCCTGCTCCCAGCACAGTGGCAGAGAGCCTAAGCTTTGCATTGAGCTTGATAGGTTCCAATCCCAGTGTTGCCGTTTTTAGCTGTTAGTCTTCC
GGGGAAGTGACTCAAACCCTTTGTACCTCAGTTTTCTTATCTGTGAAATGGAGATGATACCTGCCTCACTGAACTAACTTTGGGAGAAACTTAGTTTATA
GTTTAAACAAAGATGGTAACAGCCCTTTCCCAAAGCAGATCTCCTTGCCTGGAGACTAGATTGCCTTTGTAGGACTCACATTAGCCACAAGATTAGAAAT
TATGGTTTAGGGGTCATGCAGCTGGAGGTTACAAGATTCTGACCCTCCCTAAACTGCTCCTAAGATCAGGGCTTGAGATATTTTGCAGAACCTGCACTTG
ATGGATCAGCTGGCCTCCTATCAATAAACTGGCCCATCTGATCTTGTGGCCCCCACCCAGGAACTGACTGAGCACAAGAAGACAGCTCTGACTCCCTATG
ATTTCATCTCTGACCAGTCAACACTCGTGGCTCACTGGCCTCCCCCACCCAACAAGTTATCCTTAAAAACTTTGCTTCCTGAATGCTTGGGGAGACTGAT
TTGAGTAATAATAAAACTCCAGTCTCCTGCAAAAAAAAAAAAAAAAAAAACAAACAAAAAACCAAAAACAAAAAACAAAAAAAACCTGCCTCATAGGTTC
GTTTGTTGAGTAAATTAATCCATGTAGAGCCTAGAACACATTGAGGGCTGTGTACATGTTAACTTTTGTTACTGTTATTTCCCCCGCAGCAGATACTATG
GCAGCTAGGGCTGCCATTACTGTTCTGGAGGCTGGAAGTGCAAGATCAAGGTGCAGGCAGGGTTGGTTTCTTCTGAGGCCTCTCTCCCTGGCTTGCAGAT
GGCCACCTTCTTGCTGTGCCCTCACATGGCCTTTTCTCTGTGTGTGGGTCCTCCTGGTGTCTCTTCCTCTTCTCACAAGGACACCAGCCACACTGGATTA
GGGTCCCACCCTTAGGACCTCATTTAACCTTAATCACCTCCTATGAGGCTCTCTCTGYCAATGTAGTCACATTGGGGATTAGGGCTTCAACATATGGATT
TGGAGGGGGACAGGGTTCAGCCCATAACACCACATGGTAGCAATCGGCCCAAGACTGAGTAGCTGCTGCCCCCACAGGACAGGATATATATATTTTTTTC
TGTTCATGACAGTCCCACTTAGGCTGACCAACCTTTAGGGTTTGCCTGGGACTGAGGGGGTGCCTGGGATGGAACTCTCTATTTTAAAACCAGGCAAACC
AAGATGAATTGGTTGCTTTCTTTTTTTYTTTTTTTGTTGAGACCAAGTTTTACTCTGTCGCCCAGGCTGGAGTGCAGCTGTGCGATCTTGGCTCACTGCA
ACCTCTGCCTCCCAGGTTCAAGCGTTTCTCCTGCCTCAGCTTCCCGAGTAACTGGGATTACAGGCACATGCCACCATGCGCAACTAATTTTTGTATTTTT
AGTAGATAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTACCTGCCTTGACCTCCCAAAGTGCTGGAATTACAGGCAT
GAGCCACCACACCTGCTTGAATTTGTCGCTTTCATCCTAACCTCAACCCATTTCCATCATTTATTTTACCTGCCTGGCTCCTGAGTTTTGCCTCTGCCTG
GGAGTGACCACTAGACCCAGGAAGGCCGGTGGAGATGGGAACAGATGTGCTCTCGGTGCTTCCAGGAACTGGCAAGTGACTTGGCCAAGGGAGGGAGAGT
ACACAGCCCTGGGGACCCTTCAGGAGGCCGGGCTACTGAGGGTTAAATCTACCTCGAGAAACAACATCTAGCAACCACCAAGGGAGGGAACCAGMAAAAG
CATTATCATGATTAATGTTATTTCAAAGACTTAATTTTTCCCCCTCTTTCAGGAATGCTTGTCTGCAGTTGCACCGAGTGCTATCTCTTGATTCTGCGTG
TCCTTCCCCCAGAGTAATTTGGGACAAGGTCACTGTTCACCAGGCGCGCCTCCTTACCCCCAATCTACTTGCTGGCAGGCCTGCAAGGCTGAGGTGCTGG
GACAGCAGGAGGCTGCATGGTTGGGGAGCCACACGGGGCCAGTCTTGATGCGTTCAGGGCTGGGCCCAGGATGGCTGCAGCCTCACCTCACCCAGGGGCA
AACAGAGGCTCAGCCCAACGGAGTGGCGGGGGAGGAGTCTGGAGTGAGGACCCARACCCTTATTTTGGCTCTACCCCTTGTCGGCTGGGGAACTTCTCCA
AGCCTCAGTTTTGTCATCTGCAAAAGGGGGGCAAGAATAACGCTTCCCCTTCCAGATGATGTAAATGGCACTGTGCACACCAATCACCAGGGCAGGTGGC
GAGGTGGAGGTAAGATGGACTCTGGACTCTGAATTTTTTTTTTCTTTTCTTTCTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGACTGGAGT
GCAGTGGCACGATCTCGGCTCACTGCAAATTCCACCTCCTGAGTTCACGCCATTCTTCTGCCTCAGCCTCCCGAGTATCTGGGACTACAGGTGCCTGCCA
CCACGCCCGGCTAATTTTTTTGTATTTTTTAGTAGAGACRGGGTTTCACCGTGTTAGCCAGGATGGGCTCGATCTCCTGACCTTGTGATCCATCCGCCTC
GGTCTCCCAAATTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTGGACTCTGAATTTCTAACAAGTGCTCAGGTGACAGCCATGCTGCTGGTCCA
TGGGCCACATTTTGAAAGGCAAAGGTTGTGAAGACAAAATGCAAGGTAAGTTCTTAGCTTGTAGGAAGTGCTCAAAGTACACACTACTTATCATCATCAC
CACATCTGTCATCATCATCATCATCGTCACCATTTCATCTTCATCTCCATCACTGGCATCATCTTCTTTATCATCGTTACTGCCATCATCACTGGCTTCC
TTGTGGTTGGCAACATCATCATCGCCATTTCATCTTCATCTCCATCACCGGCATCATCTTCTTTATCATCATCACCACCATCATCATCACTGGCTTCCTT
GTGATTGGCATCGTCATCAGCTCTTGTCTTTTGTTTCCCTTCCTCACATTCTCCAGAAGAGGTAACCAAGACCCAGAGATGTTTGAGACTTGCACGAGGC
AATTTTATACAGAAGAGAAGTTGCCTAGGATTGAGGACTGAAGCAGACAAGAGCCTGGTGGCTGGAAGTCAGGAGACTGAGATTCAGGTCCTAGTGCTGT
ACCTGGCTCATTCAGCCTTTGAACTTTCTAAATGGAAAGGCCATTAAAGATTATCCAGTCTAAYACTAGCATTTGAGGAACCTGAGGCCAGACTGGGGAT
GGGGAGACAATATACAATCAAGGGTATAGATGTAGGAGCTAGACAGTTTGCATTCAAATCTCTACTCCATCACTTGCTGGTTACACGACCTTAGGTAAGT
CCCTTCATCTCCCTGAGTCTCAGCGTCTTCATCTGTGAAACTGGATGTGCTATCCAGCTTCCAAGATGGCCTCCAAAGAGTGTCATTCCCTGGTATTTAT
AGCCTTGGTCAATCTCCTCCCACATTGTCCCAGGGTTGTTCTGTGTGACCCATAGAATATAGCAGAATTGATGTTAGTATCTTTGGAGGTGAGGTTATGA
GAGATGCTGTGGGTTCTGTTTTAGGTTMTCTCTCTCTCTCTGGCCATTCACTGTGGGGGAAGTCAGTTCCATGCCCTGAGTCCATTCAGGCAGCTTGTGA
AGAGGCCCACATGGCCAATAGCCAGTGAGGAACTGAGGCCTGCAGTGACCACTTGGATGAGCTTGGAAGCACGTCCTCCAGCCCCAGTCAAGTCTTGAGG
TGAGACCACAGTCCTGGCCAACAGGTGACTACAACATCACGGGAAACCCARAGCCATTCAGCTAAGCCACTCTCAGATTGCTGATCCCCAGAAGCTGCAT
GAGATAATAAATGTTTGTTGTTTTAAGCTGCTAAGTTTTGGAGTAATTGACTACACAGTAATGGATAAATAACATGTGGGGATAACTATCTTGTAGGTTT
GTTGTGAGGATTAAATTCACGTAAGCACTTTGTATAGTACACGATGTATGTTGAAGGCTGTGTGAAATGTAAGAAAACAATGGCAGCATAGAAAATATCG
TCGATGAACCCCAGGGTCATGTAGCCAGGGTGTGACAGGGCTGATGATGCTGCAGTTCCTAGCTGCCCGGTTTTAACCATTTGTGCCCCCTAATCCTTAT
TGATTGTGGTGGGCACCACAGGCTTTGCCAGAAATGGAACAACAGTGTCAGAGGGTGGGGAGCAGAAGAGGAAGTGATGGTGCCAGTCAGTGGGCCCCTG
GGGTGGGGAGCAGCCCCAGGGTACTGGGGGTGGAAGACTGAGGCACAGGACTGGAGTGAGTGTGTGTGTGTGTGCGTGTGTGTGTGTGTGTGTGTATAGG
TCACCTCTGGAGACCCTTCCAGCCCAAGACTGGCTGATGATCTGATTTGCTGCTTGTTTCTGGCCCTGGTCTGTGTGGAAGACTCAGAAAAACCATGGCA
ACCACGGGATAATTAATGATCAGGGATGGAGGAGGCCAGGAACCTGGTGTCCCCGAGGCCACGTGGAGAGCAGCTTGGGAGGAAGGTCCACTGGGCTTTC
TCTCCGTGACCATGTGGGCTTCCTTGGAAGAGAGATATCAGAGAGGGTCCAGGTGGGAGATAAGCCCCTGGGCCTGTAGCCCTAACAGTCCAGGAAGCAC
AGGCCTCTCTGGGCCCAGTAGATGGTTCCTTTGGGGTCGTTGGCTCCCAGGCCCTGGACTGCTGAAATTAATGCATTGTTTTCAGGAGGCCGTCCATGGC
TTCCACCAGGTTCTCAGATGGGTCTGGGACCCAAACCATGGAGACTGTCTAGATATTACCCATTGTAAAGACATGGAAATGGAGGCACAGAGAGGTTAAG
AGACCTGTCCAGGCCATACAGCAGGCTGTGGCAAAGTCAGGCCTGGAATCCAGGCCTCCTTGCTGAACACTCTCCCAGGGTAGGACCCACAGTGGGTGGA
CCAGAATGTGCTGTGCATGTGGGCCCCCCTGGCTGGCAGAACTCCCGTCAGGACAGCTGGGTCACTCCTGCCCCCTCCCTGGGCCAGATGGGCAGCCCTC
TCCTCTGCTATTTTCTCCACCTTTGCCTTTTCACAGGGAGTGACTGGGGTGGAAAATTCTAGGGGAGCACAAAGTCTGCCAAGTTTAAACCTGGCACCAA
CCCAGGCACCTGGCTGCCAGGCACTTGGAAATAGAACTGGTAAAGGGGTCCCTGGGGGACTGGGCTGCTGGGAGCAGCTTGGCAACTGCCTCTCCTGGCT
CCTTCCAGACCTTCTATCCCAGGAATATTCCCTCCTCGCTAGAACCTGCTGCCATGTGCCAGGAACATCTGGAAGAGAGTTTTCTGGCAGGTCTGGGGGT
ACAGAAATGGGTTACAGGGGGCTTGGTCATGTATTATATCACAAACATCTACCGTGATAAGCGAACCAGTGTGCGTCTGCAGCGCCTGCTGCAAGGGACT
GAGCGAGGCCCCCGCACATCCTTCATTTCCCTTTGAATCACTCCTGTGATATGGGGTTCCCCATTTTACAGATGAAGAAACTGAGGCTTGGGAACTCCAG
AGGACTGCCCAAGTTCACCTAGCTTTTCAGTGGCAGTGCTGAGACTTGAATCCAATCTGTGTGACTCCAAAGCCTGCCTTTTTCCATGGTCTCTCCCTGT
GCCCTCTACACCCACCATGTCCAGGTACCAGTCTAGATGCTAGGGATATAGAGATAAACGAGCCATGAGCCTTGCCCTTAAAGCACCTGTAGTTTAGTGA
GTGTATTAGCTATTGCTGCTATGCTAATGCCCCATAACAAGCAGCCCCCAGCTCCCACATCTCAGTTGCTTGCAACCACAAGCAGTTATCCTTCTTGTTC
CCAGCTGGCTGGGTCGGCTGGGGTGGTTCTGCTTCAGGCTGCAGGTTGGCCAGGTTGGCTTCACCTGTCTCTCATTCTCCTTGCACCAGTGAAAAAGAAA
AATACTCAGGTCCTGTTTTCATGACTGGGAAGGAACACACAATGTCTCCTAAGGGTTCATCTTAGAACTGGGGTACTGTCATGCTGCCCACATATGGAGA
CAGGTTACACGGGCAAGGCCTACATCATCAGTGTGGTGGGGAAATACACTTTGCCTCCTCTGATGTGAGGCACTGCAAAATCACATAGCAAAAGCAAGGA
TGCCTAATTCTCTAACAGGGAGGCAGGAAGAATAGGTCACAATAATCCAATCACCCACAGTGTGGACGAGAGACTTATGATAATAATATTGTACTGCATT
CTATCAAACCTAAGCTGCAAGACACACCATTAATTTATGTACCACTAAGAAAGAAAAGTGGCTGTGAACGAAAGTATGGCATGATGCTTTCTTAGCCCAT
CATATTTTTATTTTATTCTTACTGAAAGAGCTATTTGATGCTGAGGCATGGAAGTGTCAACAATGGGAACAGTTGGAACCAGGTTTGCTCTTGCAGAGAC
AATGACGACTGTCACAACTGTCACTGTCCAAGGAGATTATGAGATGCCATCGATTGTAAAACACATTTTGACTTCAAGGATGTGAAAATGTGAAAATGTG
TGTCTTAGAACGGATGAAATTTGTCATTTACTGAGAGTAAGTGGTTGTTCTAGGGTGGACATTGTGGCTAAAATTTCTATGTGGACAGGCTCATTTGTAC
CTCAAGACAACCCAAGAGGAAAATATTATTATCCCCATTTCAAAGATGAGTAGGGCAAGATTCAGAGTGATCATGAGGTGGGAGGCAGGACTTGACTCCT
GATGTGGGGCTTGGACACCGGACCAAATGGCGGACTAGCTAAAATAGAGGGGGCAAAGCAGCTTTCTATAAGACACATCCACCAGTAGGCCATGTCAGTT
TACCATTGCCATGGCAACATGCAGGAGTTACCACCCCTTTCCATGGCAATGACCTGACAACCCAAAAGTTACCACCCTTTCCCTAGCAATTGCTGTATAA
ACCACTGCTTAATCTCCATGTAATTAAACATGGGTATAAATACGACTGTGAGGCTGCCCTGAGCTGCTGTTCTGCCTATGGGGTAGCCCTGCTCTGCAGG
AGCAGTCAAAGACTGGAGCTTTATCACTGGCCCTTCAATAAAGCTCTGCTTTCTTCTACACTTTCTTCTCGCCCTTGAATTTTTGCCTGGAGGAAGCCAA
GAACCCTCATGGGCTAAGCTCTGTTTTGGGGCCTGCCTGCCCTGCATCAGTCAGTTGTCCTGCCCAAGACTCATGGTTAGTAAGTGGAAGAGCTGAGATT
TGCACCTAGGATGGTCTGACTTCCAAGACAAAGTGATAAAGAGTGTGGGCCCTAGGACAAACTATACTTCAGTTTCTTCATCTGTAAAATGGGGATGATA
GGAGTAACTACCGCATAGATTATTGTCCTATGAGAGTTTGAAAAGAGTGTCAGGCACAGAGCACTCAAGACATGCTGGGTTCTCTGGTAGAAGCAGAGAT
TTTTGCCTCTCTGAAGCTAACATTAGTGTAATAAAAGCTGCAACCGGACTAAGAGGAGAGGACTATGGGAGCCCAGAAAAGCAGGCCAATAGCTTAGTAA
TTTGGGGGAACCATCAGAAATTTGCTGTGAGGGAGCAAAAAGAATGTGTGATTCATGTGTGCACTTATTTATTCAACAATATTTGTTTACCCACTGTATT
AGTCTGTTCTCATGCTGCTAATAAAGACATACTCAAATCTGGGTAATTTATAAAGGAAAGAGGTTTAATGGATTCACAGTTCCACTTGGCTGGGGAGGCC
TCACAATCAAGGTGGAAGGCAAAGGAGGGGCAAAGTCACGTCTTACGTGGCGGCAGGCAAAAAGCTTGTGCAGGGGAACTCCCGTTTATAAAACCATCAG
ATCTCGTAAGACTTATTCACTATCATGAGAACAGTATGGGGCAAACAGCCCCCATGATTCAATGATCTCCACCTGGCCCCACCCTTGACACGTGGGGATT
ATTAAAATACAAGGTGAGATTTGGGTGAGGACACAAAGCCAAACCATATCACCCACTGTGTACAGGTAGTACACAGTGACTGGATTTGAAACCAAGTTTG
GGGGCTAATTTTTAAAAATTGAGGTATAATTTATCTACAATGCAACACACAGATCTTAGTGTTCAGTATGATGAATTTTTACAAATGTATACAGCACCCC
AATTGCAATAGAGAGTATTTCCATTGCCCTAGAAAATTCCATTGTGCCCTCTTCCAGCTAAATACACCCATCTCCACCTGTTTTTTTTTTTTTAATTTCT
GTCACTGTAGGTTGCTTTGCCTGTTCTTGAACTTCTGTGAACAAATGTGAACCTGAAAGGGCCAGACCTTCAAGATGGATCCTGAGTGGCTAAGTGGGCT
AGGCTCCGCTGTTCTTGCTTGTAATCCCATCACTTTGGTAGGCCAGGGTGGGCGGATCACTTGAGCCCCTGAGTTTACGACCAGACTGGGCAACATACCA
AGACCCTGTTCTCTACAAAATAAATAAATACTACCCCCCCCCCCAAATAAGAATGGGTAAGTGGGCCTAAATTTAAAATAGAATGAAGCAGCCACTTGCT
GACTATGGTTACACAACTACCCTGACTTCCCCAGAAAACCTGCACCTTTTTATCTTTGGTACTTTCTCAGCTCACCTGAACCAACCAATCAGGGCTCAAG
TGTATAAACCAATCAGGGTTTGGCTGTATCAACCAATGAGAGCTCAGCTATATTGACCAATCAGAACTAAGCAAGTTTCAATCCTTCATTTGCACATCTT
GATCTGATTGGGAACCTGGGCAGGAACTTTTGCGCAAAACTTGATGCTTCCCTCATTCTTGGGAACTCCCCTTCATTTTCCAGTGGAGGGTGCATCTCCA
AGTTTGCAAACTGTTTTCTGTACTAAAGTCTCTTTCCTCTAAATTTCTTTTCAGAGAATTTTGTGCATAATGTAAATGGAAACTTACAGATTGTGCTGCT
TTGCGTCTGGTTTCTTTTACTCAGCATAATACGTATATGATTAATGCATTTGTTTTATGTATCAGTAGTTATTTTCTTTTTCACTGCTGATATTTCATTG
TTGCTGGTTGTCAAATTATTGCCTCTCCGCTCCACATTCACCCTTCTTGCCTGCTTGGTAAAAATGGATCTGGGCCCTTTAAATTTTCTCCCTGGCCAGC
AGGCATGCTGGGCTTTGCCAGTAGAGGGCGCTGGGGAGCCCCAGCAGCGGGGAGGTTCCGCTTCCTGCTTGCCACGTGCTCACAGAGTAGGCTGCGGCAC
CACGTGCAGCCGCTCTCGTGCAGGCGTTTGCAGTGTGCAGCTGAGTTCGGCAGCTCACACAGCACCCCTTTCAAGTTGTTTTGCAGTGGGTGCCTCTTGT
GAGACACTGTTTCTGAGAGCAGCTTTTGTGGCATCTTACAGGGCAGATTTCTGGTACGTTCTAAAAGTTGAATTTCTAACTTTGGCTGGTTGTGGCCCCT
GACTGTTTTTTTTTTTTTTTTTGTCCTTCCTGTGGCACAGCCATGCCCTCTTAAGCAAGGCCTGGCTGTCAGCCCCCAAGGGTTTGTGTGTGGGGCACTT
CTTTGTGGGGTTGGGGAGTGACAGGCTCTACCTCAGACCAAGGGCTTTTCCTTAGGGACTTGATTTCAGCTTTTGGAGGAGACTCTTCCATAGCGGCTGT
ACCTCAGCCACATGTGTGGGACTGGGGGCCCTTCCTTGGGGGCCCAAGCTTAGCCCCTTGTGGGGGCACCGCCTGGAGGGGGTTATCTCAGCCTGGTGGA
GGGTCCCTTCCCTGGGGTGAGGGGCTCTTTCTGGAGGTCTCTATCTCAGCCTGATATGGGGGTCTCTTTTTGGGGCTCTATTTCAGTCCTGGGGTGGGGG
GCTGTTCCTTGGGGGCTCCACGTCAGCC


SNP Information

Context             (SEQ ID NO:62510):
GCAGCCTTTGTCTTCTGAACCCCATGCTGCCTTGGGTTCCACGGACGCAGGTAAGTCTTGGGGGTTCCCGCCCCACCTGCATGCTCAGGGAAGGCTCTCC
R
CTGCCGCATTCCCCCGCTGCCAGTGGCTCCCACCTGCTCCCCTCCCAGAGGGCTGACTCCAAAGGAAGCCTGTCCTTTGTCAGCAGAGCTGCCTTGCCCG
Celera SNP ID:            hCV11644542
SNP Position Genomic:     17370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,10)      total(G,1|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62511):
CGGGTGTGATGGTGCACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATTG
Y
ACCACTGCACTCCAGCCTGGGTGACAGACAGAGACCCTGTCACTTACACACACACACACACACACACACACACACAAGGCCGGGTGCAGTGGCTCACGCC
Celera SNP ID:            hCV1619539
SNP Position Genomic:     19291
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,18)   total(C,18|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62512):
CCATCTGTCCCAGAAGCCCTTGGCCTGGATAATCCCTGGTTCCTTAGTAGTTCAGGCAGCCTTTGTCTTCTGAACCCCATGCTGCCTTGGGTTCCACGGA
Y
GCAGGTAAGTCTTGGGGGTTCCCGCCCCACCTGCATGCTCAGGGAAGGCTCTCCACTGCCGCATTCCCCCGCTGCCAGTGGCTCCCACCTGCTCCCCTCC
Celera SNP ID:            hCV11644544
SNP Position Genomic:     17315
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62513):
TAAATACCCACTCCTTTCTTCCCACGAGAGAGATATTATTCCCCCCATTTCATGGAGGAGGAAACTGACGATCAGAGCAGCCAGGAAACAGGATGGCGTT
S
TCTGCTGAGGGACGGTGTGTTCCCTGGAGAGGAGATCCAGCTTGCCATTGTGGGTTTCTTACAGCAAAAATCCTGTGTGTACACATATGCTGAACAAGGC
Celera SNP ID:            hCV8860082
SNP Position Genomic:     9452
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,8|C,9)      total(G,8|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62514):
TTTATTTATGCTAGAGACATGGCCTTGCTGTGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAATCAATCCTTCCCTCCTCGGCCTCCCAAAGTGTTGG
R
ATTACAGGCATGAGCACCGCATCTGACCTTAGAGAGCTGGGATTTAAATCTCTAAATCCTTCCACCTTATTTTGCGGACAGGGGCCCAGGGCTCTGGGTC
Celera SNP ID:            hCV3042040
SNP Position Genomic:     25213
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62515):
CTCCTTTCCCATCCCTCCCTCAGCCTCATGCCTGCTTGATTGCAATTAAGGATGAGAACCATTGAATAGGGCTCGAATGGTGAATTAATAACCTTATCTC
R
CCCCAGCCAAATCTGGGGCCATTGCGCACCTCTGGCCCAGGGTGGGGAGGGCTTCTTTATCAGGCTGCAGGCAGCGCTCAGATTTTCCTTCTCAGACAAG
Celera SNP ID:            hCV3042041
SNP Position Genomic:     23985
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62516):
TGTCTCTTCCTCTTCTCACAAGGACACCAGCCACACTGGATTAGGGTCCCACCCTTAGGACCTCATTTAACCTTAATCACCTCCTATGAGGCTCTCTCTG
Y
CAATGTAGTCACATTGGGGATTAGGGCTTCAACATATGGATTTGGAGGGGGACAGGGTTCAGCCCATAACACCACATGGTAGCAATCGGCCCAAGACTGA
Celera SNP ID:            hCV7541270
SNP Position Genomic:     34358
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62517):
AAGCCCCCAGCACCCTGCTGCCTGCTGTACTGGGGCCGCCTCAGCCCCAGTCCCTGGTCCTGGGAGCAGGTCCCTCCTTTCCCATCCCTCCCTCAGCCTC
W
TGCCTGCTTGATTGCAATTAAGGATGAGAACCATTGAATAGGGCTCGAATGGTGAATTAATAACCTTATCTCACCCCAGCCAAATCTGGGGCCATTGCGC
Celera SNP ID:            hCV3042042
SNP Position Genomic:     23912
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|A,10)      total(A,10|T,3) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62518):
CAGGGCTCTTCACACCCTCCGTGCTCCCAATCAATCCCTGTTCCTAATGTGCCCTAGGATTGCTATTCTTCCTTGGCCTGGCCCAGGGCTGGATCGATTC
Y
TCTCTTAAAGGCACAGGCCTCCCTTTACAGCCATCAGCGGGCATTCTGCAGAGAAGTTTATTTACAAAAAAAGTCTTTTGTTTTATTCTTGACTCGGATG
Celera SNP ID:            hCV3042043
SNP Position Genomic:     23398
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62519):
TTCTCACCCCCACGGGTCCCACAGCCCCCGCTTCCCTGAGCCCCACTGCAAGGGGTAGCCTATGAGGGCTGGCCAGAGTCAGGGCTCTTCACACCCTCCG
W
GCTCCCAATCAATCCCTGTTCCTAATGTGCCCTAGGATTGCTATTCTTCCTTGGCCTGGCCCAGGGCTGGATCGATTCCTCTCTTAAAGGCACAGGCCTC
Celera SNP ID:            hCV3042044
SNP Position Genomic:     23319
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|T,7)      total(A,2|T,7) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62520):
ACAGGGCTGTGAGCCTCTTGAGGGCAGGGCCTGTCCCCCATTCCGGTCAGTGCACCAGGGCCTGGCACTAGTAGGTGCTCTGTAAACAGCTGTCCTGCAG
Y
GATCGGTGGGACGTGGGCATGGCTCGGTGTGTGTGTGTCTGGGCAGGGGTCTCACATGCCAGCTGCTCCTGTGGGAAAAGGCCTCGGAGTAGTGGTTTGG
Celera SNP ID:            hCV3042045
SNP Position Genomic:     23111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62521):
CTCCCCTGGGTTCCTGCAGCCCCTGGGTTTGCTTCTCTCAGCATAGTAATCACCCAGGCAGTAACTCCCTATTTCATCTATTTTCCAAACAGGGCTGTGA
R
CCTCTTGAGGGCAGGGCCTGTCCCCCATTCCGGTCAGTGCACCAGGGCCTGGCACTAGTAGGTGCTCTGTAAACAGCTGTCCTGCAGTGATCGGTGGGAC
Celera SNP ID:            hCV3042046
SNP Position Genomic:     23023
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62522):
GATTCTTCAAAAGTACATAAGATAACACCAGGACCCCTGCTCTCCCCCTGGCTCTTGTCCCACTGCAGAATGGCTGCTAAGCCCTGGACACACCCACCCT
Y
TTTTCTGCCTCTGGCTCTTTTTCATGTTGTTCCCCCAGCTGGAACACCTTTCCCTCTCCCTTCGTAGCCTAACAAAGCCCTTCCTCCTCTTTTGGGCTCA
Celera SNP ID:            hCV3042047
SNP Position Genomic:     22765
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62523):
TCCCAGGGTTGTTCTGTGTGACCCATAGAATATAGCAGAATTGATGTTAGTATCTTTGGAGGTGAGGTTATGAGAGATGCTGTGGGTTCTGTTTTAGGTT
M
TCTCTCTCTCTCTGGCCATTCACTGTGGGGGAAGTCAGTTCCATGCCCTGAGTCCATTCAGGCAGCTTGTGAAGAGGCCCACATGGCCAATAGCCAGTGA
Celera SNP ID:            hCV778935
SNP Position Genomic:     37028
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62524):
AAAGCTTCCAGAAGGATAGACTGGGATCCTGGAGAATCTGGGGTTGCTTGGGGCCTCCCTGGAGCTCTGGATAACACCCTTCTCTTCCATGTCACCCGCT
S
TCCCACCCAGGCCCCACTCCAGAGAGACGGCCTAGAACTGATTCTTCAAAAGTACATAAGATAACACCAGGACCCCTGCTCTCCCCCTGGCTCTTGTCCC
Celera SNP ID:            hCV3042048
SNP Position Genomic:     22625
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62525):
TGGAGGCAGGGGATGGACTGAATGGCTTCTGAATCCTGAATGACCCAGGATTCTGTGATGTCCAACTAATCTTCACAAAGTGATGTTTTCCTAGACCAGG
K
TTCTGCAAACTTTTTCTGTAAGGGACCAAACAAGTAAATTATTTTGGCTTTGGAGGCCATATGATTTCTGTTACAACTGCACAACTCAACTCCACTGCTG
Celera SNP ID:            hCV778936
SNP Position Genomic:     29971
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62526):
CCTGTCCCTTTAAAGAGCCCGCTGTTAAGTTTCAAAGACCCTTGCAGAGCATGAGGAGTGTCTGGGAGCACGATTCCTCAAGGAGGAATATTCCATCAAA
Y
GCCGCGTGATAAATGGGGACCCGCGTGGTTGTAGACCCTCACTTTGGACGCGAGTGGCCCAGCGCAGGCGACTTCACTCGCTGGGATAAAAGGAGATTCA
Celera SNP ID:            hCV3042049
SNP Position Genomic:     21289
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62527):
GCCAGACCCAATATTGAAGGGGGATTGGATCCCATCTTGGGAGACTGATGCCCCAACCCTGTTGGTCTCGTAATGTTCCTATTGGATTACTGATACCCCA
R
AAAGCGAATGCCCCAGGAATACTGATCTTTAAGGATTATTGGGACCTCAAGCTCTGGAAATTGTGATTGTAGGAGCATTAATTGCCCAAGAACACTGTTA
Celera SNP ID:            hCV778937
SNP Position Genomic:     26292
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62528):
GGAAGTCAGGAGACTGAGATTCAGGTCCTAGTGCTGTACCTGGCTCATTCAGCCTTTGAACTTTCTAAATGGAAAGGCCATTAAAGATTATCCAGTCTAA
Y
ACTAGCATTTGAGGAACCTGAGGCCAGACTGGGGATGGGGAGACAATATACAATCAAGGGTATAGATGTAGGAGCTAGACAGTTTGCATTCAAATCTCTA
Celera SNP ID:            hCV11461088
SNP Position Genomic:     36664
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2|-,13)   total(C,2|-,13|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62529):
CTGTGGAAACTGGCCCCATTTGGCAAATGAGTGGGGAAGACAGGAAGGGATCCCCCAGAAAGTGGAGAGAAACAGCCTTGAAATAAACGATGCCCTGCCA
R
ACCCAATATTGAAGGGGGATTGGATCCCATCTTGGGAGACTGATGCCCCAACCCTGTTGGTCTCGTAATGTTCCTATTGGATTACTGATACCCCAGAAAG
Celera SNP ID:            hCV778938
SNP Position Genomic:     26196
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62530):
CTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAAACCTGTGGAAACTGGCCCCATTTGGCAAATGAGTGGGGAAGACAGGAAGGGATCCCCCAGAAAGTGGA
R
AGAAACAGCCTTGAAATAAACGATGCCCTGCCAGACCCAATATTGAAGGGGGATTGGATCCCATCTTGGGAGACTGATGCCCCAACCCTGTTGGTCTCGT
Celera SNP ID:            hCV778939
SNP Position Genomic:     26162
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62531):
AAACAGGTAGTGTCTGCTTCAGGCAAGGATTGATCCAGCTGCAATGCATTGATTGGTATGAATAGGACCAGTGAGTTTTCTTTTTCTCCATTTCTAGGCT
Y
TGCTTCCTCAGTGTCAGCATCATTCACAGCAGGCATGTCCCTCCTGCCTCCAAGAGAGTCACCAGCAGCTTCCTCCTCCACATCTGTGAGTAAATGAGAG
Celera SNP ID:            hCV25996177
SNP Position Genomic:     9020
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,40)   total(C,75|T,3)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62532):
GAAGCTCAGAGCTGCCTGGGGGGACCAGAAGGTGGGAACAGACCTGGGATCTAACTTCTACAGAGCCTCCTGCTGGCTGGGGAACAGGAACATATCATGC
K
CCTCTATAAGCCTCAGTTTCCTCATCCGTCCAATGGCTATGCTAAGCCTCTCAGGCCTGCCCTGGCCTTGCAGAGAGGGTAGGAGACCAGGATTTCCCAT
Celera SNP ID:            hCV26979250
SNP Position Genomic:     7119
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|T,10)      total(G,6|T,10) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62533):
ACCTTCCAAAAAAACCTGTGGAGGCCGGGTGTGGTGGCTCACTCCTGTAATCCCAGCACTTTGGAAGGCAGAGGCGGGCGGATCATAAGGTCAAGAGATC
R
AGACCATCCTGGCCAACATGGTGAAACCGCGTCTCTACTAAAAATACAAAAATTACCTGGGCATGGTGGTGCATGCCTGTAGTCACAACTACTTGGGACA
Celera SNP ID:            hCV26979251
SNP Position Genomic:     25868
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62534):
GGCTAAGGTTGCAGTGAGCCAAGATCTCGCCACTGCACTCCAGCCTGGCGACAGAGTGAGACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAAACCTG
K
GGAAACTGGCCCCATTTGGCAAATGAGTGGGGAAGACAGGAAGGGATCCCCCAGAAAGTGGAGAGAAACAGCCTTGAAATAAACGATGCCCTGCCAGACC
Celera SNP ID:            hCV26979252
SNP Position Genomic:     26099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62535):
AGCTTTGCTTTCTACTCTCCAGGCTCTCAGCAACCTGACTTTCCCTGAGTTCATTTAGGGGCAGCAGGGGTCCCTGTGAGTGATTTCTTCCAGGAGGGAA
T
TTGGAGGAACATTCCAGAGCTTGGCTCTCACACTTGAGCTGCATCACAATCAGCTAGGGGGCTTTGTAAAACACAGCCTGCTGGGCCCACTCCCAGAGTT
Celera SNP ID:            hCV26979253
SNP Position Genomic:     26572
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62536):
ATCCCTCTGTGCACAAGTCTGTGATCTTCCAAATGACATTTCTGTGCCAAACCGGGCCCTGTTTTCTGCATTAATACCCATCCCGATTACTGCAGTTTTA
R
TTGCAAATGTCAGAAAATCCAATTCAAAGGACTTAAATAATAAAGAGAATTCACTGGCTTACATAACTGAAAAACAGGTAGTGTCTGCTTCAGGCAAGGA
Celera SNP ID:            hCV1477234
SNP Position Genomic:     8848
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,40)   total(A,3|G,75)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,36)   total(A,2|G,70)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62537):
GCTTTGCTTTCTACTCTCCAGGCTCTCAGCAACCTGACTTTCCCTGAGTTCATTTAGGGGCAGCAGGGGTCCCTGTGAGTGATTTCTTCCAGGAGGGAAT
T
TGGAGGAACATTCCAGAGCTTGGCTCTCACACTTGAGCTGCATCACAATCAGCTAGGGGGCTTTGTAAAACACAGCCTGCTGGGCCCACTCCCAGAGTTT
Celera SNP ID:            hCV26979254
SNP Position Genomic:     26573
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62538):
AGCACTCTCAAGGCCAAAGTGCATGGGCAAGAAATTTAGGACAAGGGGAGGAAGAAAGAAAAGAAAAGAGAATATCAAGGAGGCAAATGACAAATAAATA
S
CCACTCCTTTCTTCCCACGAGAGAGATATTATTCCCCCCATTTCATGGAGGAGGAAACTGACGATCAGAGCAGCCAGGAAACAGGATGGCGTTCTCTGCT
Celera SNP ID:            hCV1477235
SNP Position Genomic:     9358
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,18)   total(G,1|C,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62539):
TGCTTCAGGCAGAGGGAGAGAGAAATAGTCACAGTCCTTACCCTGGTGAGTTAAAAGGATAATGCTTAAGATGCCATTCACCCACCCTTCTATCCATTTG
H
CATTCATTCATTCATTCATTCATTCATTCATTCATGTATCCATTCATTTATTCGGTAAATAGCAAGCACCTACTACTGTATAGGAGTAAACCCGAGACAA
Celera SNP ID:            hCV26979255
SNP Position Genomic:     28515
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|T,2|-,9)   total(A,2|C,2|-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62540):
AGAATGCGGCAGGCAGTCAGGCCCTCTGCGTGGACCCCACAGGTGGTCAGGCAGTCTTTTCTTCTGCTCTCATGCTGTGCTGACGCAGGGACTTTGGGGT
Y
TCCTTGCTTCCTTTGGGATTGGCAGCATAGACTCCCTCTGTCTCAGATCCCCACGCTTTCATGGAGGTCTGGGGATTCCTTAGCTGGCTTGTGGTAATAA
Celera SNP ID:            hCV1477236
SNP Position Genomic:     10714
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62541):
TCTGTAATCCCAGCACTTTGGGAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGGGACCAGCCTGATCAACGTGGTGAAACCCAGTCTCTACTAAAAATA
Y
AAAAAATTAGCTGGGCATGGTGGTGCACACATGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGAAAGGTAGAGGTTGCAGTG
Celera SNP ID:            hCV26979256
SNP Position Genomic:     29607
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62542):
GGCCACACAGTTGGGAACGGTAGGACGGGGCTTTGAACCTAGGCAGTCCAGTTCCACACTTTCTGCTCCCAATCATTCTCTCCCGTGGCCAGCAGGGGCC
K
TGAGGGGTGTTGGTGCTGAGAGCGGGGCTGGAGAGGTTTGGGGGCTCAGAGCTGGTCTGGAGGAGGAAAGAAGTTCAGGGTCAGCCCCCTTTCCTGCTCC
Celera SNP ID:            hCV1477237
SNP Position Genomic:     11215
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62543):
AAATATAAAAAATTAGCTGGGCATGGTGGTGCACACATGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGAAAGGTAGAGGTT
S
CAGTGAATGAAGATCGCACCACTGCACTCCAGCCTGGGCAAGAAGAGCAAAACTCTGTCACAAAAAAAAAAAAAAAAAAAAAAAAAAGGAACTTCACCTG
Celera SNP ID:            hCV26979257
SNP Position Genomic:     29702
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62544):
ACGGGGCTTTGAACCTAGGCAGTCCAGTTCCACACTTTCTGCTCCCAATCATTCTCTCCCGTGGCCAGCAGGGGCCTTGAGGGGTGTTGGTGCTGAGAGC
R
GGGCTGGAGAGGTTTGGGGGCTCAGAGCTGGTCTGGAGGAGGAAAGAAGTTCAGGGTCAGCCCCCTTTCCTGCTCCCTGCTGCTGTGAACTGCCTGCGCC
Celera SNP ID:            hCV1477238
SNP Position Genomic:     11239
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62545):
CCAACCTTTAGGGTTTGCCTGGGACTGAGGGGGTGCCTGGGATGGAACTCTCTATTTTAAAACCAGGCAAACCAAGATGAATTGGTTGCTTTCTTTTTTT
Y
TTTTTTTGTTGAGACCAAGTTTTACTCTGTCGCCCAGGCTGGAGTGCAGCTGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGTTTC
Celera SNP ID:            hCV26979258
SNP Position Genomic:     34628
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62546):
CTCCCAATCATTCTCTCCCGTGGCCAGCAGGGGCCTTGAGGGGTGTTGGTGCTGAGAGCGGGGCTGGAGAGGTTTGGGGGCTCAGAGCTGGTCTGGAGGA
R
GAAAGAAGTTCAGGGTCAGCCCCCTTTCCTGCTCCCTGCTGCTGTGAACTGCCTGCGCCTGGAAAGGGCTGAGCCACTCTGAGAAGTTCATGGGCCAATG
Celera SNP ID:            hCV1477239
SNP Position Genomic:     11280
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62547):
TGAGTTCACGCCATTCTTCTGCCTCAGCCTCCCGAGTATCTGGGACTACAGGTGCCTGCCACCACGCCCGGCTAATTTTTTTGTATTTTTTAGTAGAGAC
R
GGGTTTCACCGTGTTAGCCAGGATGGGCTCGATCTCCTGACCTTGTGATCCATCCGCCTCGGTCTCCCAAATTGCTGGGATTACAGGCGTGAGCCACCGC
Celera SNP ID:            hCV26979259
SNP Position Genomic:     35940
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62548):
CCGGCCCCGACACCAGCACACGATTGAGAAGGAAACTCAAGCAAAATGAATCGGTTGGCCGGCAGGAGCAGCTGTTGATTTATTTCTGGGAAGGGCCCGG
Y
GTCCCCTGGAACGGTGACCTCTATTAATGTTGACATGTTCAAAGCCTCATATTGGGATGCAGCACGCCTCTCCTGTCCCTTTAAAGAGCCCGCTGTTAAG
Celera SNP ID:            hCV3042050
SNP Position Genomic:     21117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62549):
ATTGGGGGGCAGGAATGGGGAACATCGCCCCCTGCCAAGGCGAGACTTTTGCCCACAGTCCCCACTGTGGCCATCACACACCTTGGCCCTCACTCATTTC
Y
GGCACTTGGCGTTCTAGGATCACAGGATCACACTCAGGTCTGACCCTCGGCTCCTGGGGACAGGGAAGGGCCCAAGACACAGTGGTTTTCTGTCAGAGGC
Celera SNP ID:            hCV27983231
SNP Position Genomic:     31261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62550):
ATTGCAGACAGTGATGGGCTGGGAAAAGAGTCAGAGGGACCTGAGGCCATGAGGGTGATGCACACAGATCCTACTGAGCAAAGGCCTTGCCAGAGGGGAC
K
TGCCTTCAAACCAAGAGTGAAAGAATGTGTACAAATTGAGGCTCAGAGAGCTCAAGCCATTTGCCCAAGGCCACACAGCTAGGACATGGTAGAGCTGGGA
Celera SNP ID:            hCV3042051
SNP Position Genomic:     20345
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,16)      total(G,2|T,16) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62551):
GAGAGTACACAGCCCTGGGGACCCTTCAGGAGGCCGGGCTACTGAGGGTTAAATCTACCTCGAGAAACAACATCTAGCAACCACCAAGGGAGGGAACCAG
M
AAAAGCATTATCATGATTAATGTTATTTCAAAGACTTAATTTTTCCCCCTCTTTCAGGAATGCTTGTCTGCAGTTGCACCGAGTGCTATCTCTTGATTCT
Celera SNP ID:            hCV27983232
SNP Position Genomic:     35195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62552):
CATAAACAGCACTATTGATAAAACAATCAGTAACTGAGAAATGACAGAAACATAAAACAATCTATATCTAGCTGTTTGTTAGGAGTTTTAAATGTGGCAG
K
ACCATCGCAGGGGCAAGCTGGTCTGTGCCTGCATCATTGCAGACAGTGATGGGCTGGGAAAAGAGTCAGAGGGACCTGAGGCCATGAGGGTGATGCACAC
Celera SNP ID:            hCV3042052
SNP Position Genomic:     20209
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,16)   total(G,16|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62553):
TCTCTGAGGTCACTCCCTTCCAGTGCCTGTATTCTGTGATTCAGGAGGATGAATGACTCACCCAGGGCCACATAGGGAGGTGGGAGAAGAACCAGATAAA
Y
TGTGGAAGTCACATAAACAGCACTATTGATAAAACAATCAGTAACTGAGAAATGACAGAAACATAAAACAATCTATATCTAGCTGTTTGTTAGGAGTTTT
Celera SNP ID:            hCV3042053
SNP Position Genomic:     20097
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,17)   total(C,1|T,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62554):
AGTGAGACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAAACCTGTGGAAACTGGCCCCATTTGGCAAATGAGTGGGGAAGACAGGAAGGGATCCCCCA
R
AAAGTGGAGAGAAACAGCCTTGAAATAAACGATGCCCTGCCAGACCCAATATTGAAGGGGGATTGGATCCCATCTTGGGAGACTGATGCCCCAACCCTGT
Celera SNP ID:            hCV778940
SNP Position Genomic:     26153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62555):
GATCGAGACCATCCTGGCTAACACAGTGAAACCCCACCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTAGCACGCGCCTGTAGTCCCAGCTACTC
Y
GTCTCTACTAAAAATACAAAAATACAAAAGTTAGCCGTGCGTGATGGTGCGCGCCTGTAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATCGCTTGA
Celera SNP ID:            hCV3042054
SNP Position Genomic:     19543
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,10)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62556):
CACTCCAGCCTGGCGACAGAGTGAGACTCTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAAACCTGTGGAAACTGGCCCCATTTGGCAAATGAGTGGGGAA
R
ACAGGAAGGGATCCCCCAGAAAGTGGAGAGAAACAGCCTTGAAATAAACGATGCCCTGCCAGACCCAATATTGAAGGGGGATTGGATCCCATCTTGGGAG
Celera SNP ID:            hCV778941
SNP Position Genomic:     26134
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62557):
AAGGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGAGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAC
R
GTGAAACCCCACCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTAGCACGCGCCTGTAGTCCCAGCTACTCCGTCTCTACTAAAAATACAAAAATA
Celera SNP ID:            hCV3042055
SNP Position Genomic:     19467
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,11)   total(G,3|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62558):
ACCCCAACACTTTGAGGTTTAAAACAACAGCTATTGATCGTTTTCTTAATTCTATGGGCTAATGGGTTGAGTTTTCTGCTCAATCTGTGTTCCGTAGGGT
R
GTGGGGTAGGGGCAGGGGGGAGTGTTCCTGGGAATTGAAAACTGGGAGTGTCCTAGGCCACCTGAGATGAGTTGGTCACCTTGTTATTGCCTGGATCATT
Celera SNP ID:            hCV3042056
SNP Position Genomic:     18751
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,14)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62559):
GGCCAGTTGGTGGCTGTTGGTGGGCCCTGGGGTATCCCCAGAAGAATCCCTGTAAACCTGCCTGGCAGGCAGCACCAAAGGCACATCACCCTAGAGAATC
R
TTTCCTGGAGCGTATCTCTCTCATTTTGGGGTCCCCCTCCCAAAGGCAGACCCCAAGACAGTGCTTGTTACAGGTAGTTTATGTAGGGCTTGATTCTGGG
Celera SNP ID:            hCV778943
SNP Position Genomic:     13489
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(G,-|A,-)   (A,-|G,-)   Caucasian(A,84)   African-American(A,42|G,42)   Asians(G,17|A,67)   total(G,59|A,193)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62560):
CTTTCTTCATGCCTGAACTTGACTTATCACTTGGCCTGTCTGAGCCTCATTTCCTTCCCTTGCTGGGTAATCAAGCCATCTTACAGGACTGTCGTACAGA
Y
TACAAATTCTTACAGGAAGGGCTGAGTCCAGTGCTTGGCACATATTAGGGACTTGTTCCAGTTATCTATTGCTGCATCCCAACACACCCCAACACTTTGA
Celera SNP ID:            hCV3042057
SNP Position Genomic:     18565
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,11)   total(C,11|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62561):
GCAGCCTCCATTATTCCCCGGGGAGTGCGGGCAGCTGGGGACTCAGGGTGTGGCTCCTCTTGACTCTCTCCCTGAGGCATAAATAACCCTTTGTCTCAAA
M
CCCACCTTTTGTTTTTGAGACAGAGTCTCATTCTATTGCCCAGGCTGGAGTGCAGAGATGCAATCTCAGCTCACTGCAGCCTCCGCCTCCTGGGATCAAG
Celera SNP ID:            hCV778944
SNP Position Genomic:     12898
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62562):
TGGCTACCTAGTGGAGAGGAGACATGGGGAGGAGCTGAGTTGCCCTAATTGAAGCCAGCCCAGATCAGTCAACCAACCCCATGACACAAACCAGAGCCAT
Y
CAACTGACCCACAGACTCATAAACTTAAGAAATGCCAGTTGTTTCAAGCCACTGAGTTTTGGGCTGGTTTGTTACACAGCATTGTTATGGCACTAGATAA
Celera SNP ID:            hCV3042058
SNP Position Genomic:     18154
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62563):
AGGCCATTGTGGAGAACCCTGGGGTCCCAAGGAATGTACTTTGAAAACCCCTAGTCTGGTCCATACCCCTCCTTGAGCAGGTGGGGGAAGGGGACCCAGT
R
AGGTCTCCTGACTTGTTCAAGGTCATCTGAGGAGTCAGGGGCAGAGGCAAGGCCTGAGTTGCATGGTGTCCCAGGCACGTCTCCCCAGAGTCCTCTACAT
Celera SNP ID:            hCV11461096
SNP Position Genomic:     16573
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62564):
CGTATCTCTCTCATTTTGGGGTCCCCCTCCCAAAGGCAGACCCCAAGACAGTGCTTGTTACAGGTAGTTTATGTAGGGCTTGATTCTGGGAACCAGGGGA
R
GAGAAGAGAGGATTCAAGTGCTACAAGTTAGACTTTGGTGTGGGGGACAGTGCTCCCTCTTGCTGGAACATTCTGAGAAGCCTTAGGAAATGCATCTCTG
Celera SNP ID:            hCV11461098
SNP Position Genomic:     13600
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,15)   total(G,1|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62565):
AATGTCAGAAAATCCAATTCAAAGGACTTAAATAATAAAGAGAATTCACTGGCTTACATAACTGAAAAACAGGTAGTGTCTGCTTCAGGCAAGGATTGAT
Y
CAGCTGCAATGCATTGATTGGTATGAATAGGACCAGTGAGTTTTCTTTTTCTCCATTTCTAGGCTCTGCTTCCTCAGTGTCAGCATCATTCACAGCAGGC
Celera SNP ID:            hCV25995526
SNP Position Genomic:     8954
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62566):
GCAGCACCAAAGGCACATCACCCTAGAGAATCATTTCCTGGAGCGTATCTCTCTCATTTTGGGGTCCCCCTCCCAAAGGCAGACCCCAAGACAGTGCTTG
K
TACAGGTAGTTTATGTAGGGCTTGATTCTGGGAACCAGGGGAAGAGAAGAGAGGATTCAAGTGCTACAAGTTAGACTTTGGTGTGGGGGACAGTGCTCCC
Celera SNP ID:            hCV11461099
SNP Position Genomic:     13557
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,15)   total(G,1|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62567):
TTTGAACCCAGATCTGCCTGATATGGAGGCCCATGCTCTTAGTTTGCCTGCTCTATCCCTCTGTGCACAAGTCTGTGATCTTCCAAATGACATTTCTGTG
S
CAAACCGGGCCCTGTTTTCTGCATTAATACCCATCCCGATTACTGCAGTTTTAGTTGCAAATGTCAGAAAATCCAATTCAAAGGACTTAAATAATAAAGA
Celera SNP ID:            hCV27842830
SNP Position Genomic:     8794
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|G,1)   total(C,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62568):
CCCTCGCTGCTGACATAACCTCAGTAGATGCCCCTTTTCTCTCACGGTCCCTCAGAGGATTGTCATAGCACTCTGTAAGTTCCCTAATGAGTACTTTGCA
Y
GGACTACCCTGGCGTTTAGGGCTTCTTTCTTTGGAATCTCTGCCCTGTCCTAGTACAGCTTGGGGCACTCCTTTGCGCGAACTCCCCTGCCATTGTTTTT
Celera SNP ID:            hCV3042060
SNP Position Genomic:     14286
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,14)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62569):
ACCTCACCCCCTCGCTGCTGACATAACCTCAGTAGATGCCCCTTTTCTCTCACGGTCCCTCAGAGGATTGTCATAGCACTCTGTAAGTTCCCTAATGAGT
R
CTTTGCACGGACTACCCTGGCGTTTAGGGCTTCTTTCTTTGGAATCTCTGCCCTGTCCTAGTACAGCTTGGGGCACTCCTTTGCGCGAACTCCCCTGCCA
Celera SNP ID:            hCV3042061
SNP Position Genomic:     14278
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,14)   total(G,2|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62570):
TGGCCCAGCCCTTTAGCCAAACTCCTTAAGCCCTCATGTAAATTCCATACCTCACCCCCTCGCTGCTGACATAACCTCAGTAGATGCCCCTTTTCTCTCA
M
GGTCCCTCAGAGGATTGTCATAGCACTCTGTAAGTTCCCTAATGAGTACTTTGCACGGACTACCCTGGCGTTTAGGGCTTCTTTCTTTGGAATCTCTGCC
Celera SNP ID:            hCV3042062
SNP Position Genomic:     14230
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,14)   total(A,2|C,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62571):
AGTTAGACTTTGGTGTGGGGGACAGTGCTCCCTCTTGCTGGAACATTCTGAGAAGCCTTAGGAAATGCATCTCTGAACTGTCCACCAGGGGAGATGGAAC
R
TTTACCCACCAGTCTGTGTCCCTGCCAGTAGAGGTGGCCCCACAGGTGTTAACTCCCCTGTGTCCGGACTGTGCATCTGTGAATCCCTCTGCTGCTTCAG
Celera SNP ID:            hCV3042063
SNP Position Genomic:     13726
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,12)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62572):
AAGAGCTTTACATGGATTTTATTTTAATTCTTACAAACGATGAGAAGACAGATGTTATTATCCTTAATTACAGCTAGGCAAACTGAGCCTCAGAGAGGTA
M
AGTCCCTTGCCCAGGTTCACACAGCAGAGCACAGAGCAGATGGAACTGAGCTTTGAACCCAGATCTGCCTGATATGGAGGCCCATGCTCTTAGTTTGCCT
Celera SNP ID:            hCV27854678
SNP Position Genomic:     8642
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,36|C,2)   total(A,72|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:62573):
CCATACCAGGCCTTAGTTTCTTCATTGGTCAAAACTGGAGCATGGTGATGGCCTCCTGCTGGGTGTTATGCTTCTTAGACGCAGCAGGGCTTATGATTCA
Y
GCATCTAGGAGAGTGTGGGGCACTTGGCCCATCTGCCCACTGCAGAGCTAAGCCATGTGTCCTCACTCCTGTCCTTAGAGAACTTGCTCCTGGGTTCAAG
Celera SNP ID:            hCV27895504
SNP Position Genomic:     8235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62574):
CATAGTAATCACCCAGGCAGTAACTCCCTATTTCATCTATTTTCCAAACAGGGCTGTGAGCCTCTTGAGGGCAGGGCCTGTCCCCCATTCCGGTCAGTGC
M
CCAGGGCCTGGCACTAGTAGGTGCTCTGTAAACAGCTGTCCTGCAGTGATCGGTGGGACGTGGGCATGGCTCGGTGTGTGTGTGTCTGGGCAGGGGTCTC
Celera SNP ID:            hCV29300577
SNP Position Genomic:     23064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62575):
AATTCTTTGAGCTCTCACTATCTACTAGGCCCCAACCTAACTCTTCCCACCTCTAACTTCATTTGCTCCTCATCACACCCCATGGGGTGGATACTCAGAG
W
TGAGTCACCTGCCTGAGGTCATGCAGCGTGGAGGTGGCAGAGCTGGGGTTCCGTGGCCTGCCTGAGCTCCTCTTGCCCTTCTCTTTCTCAGTCCCGCTTG
Celera SNP ID:            hCV11461101
SNP Position Genomic:     12614
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,11)   total(A,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62576):
AAGTAACAGTATACAATGTCCACATACAGACTTAGCTGAATTCTTTGAGCTCTCACTATCTACTAGGCCCCAACCTAACTCTTCCCACCTCTAACTTCAT
Y
TGCTCCTCATCACACCCCATGGGGTGGATACTCAGAGTTGAGTCACCTGCCTGAGGTCATGCAGCGTGGAGGTGGCAGAGCTGGGGTTCCGTGGCCTGCC
Celera SNP ID:            hCV11461102
SNP Position Genomic:     12576
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62577):
ACTTGGATGAGCTTGGAAGCACGTCCTCCAGCCCCAGTCAAGTCTTGAGGTGAGACCACAGTCCTGGCCAACAGGTGACTACAACATCACGGGAAACCCA
R
AGCCATTCAGCTAAGCCACTCTCAGATTGCTGATCCCCAGAAGCTGCATGAGATAATAAATGTTTGTTGTTTTAAGCTGCTAAGTTTTGGAGTAATTGAC
Celera SNP ID:            hCV25991471
SNP Position Genomic:     37251
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,11)   caucasian(A,8|G,8)   total(A,25|G,19)
SNP Type:                 UTR 3


Context             (SEQ ID NO:62578):
CAGGGCTGGGCCCAGGATGGCTGCAGCCTCACCTCACCCAGGGGCAAACAGAGGCTCAGCCCAACGGAGTGGCGGGGGAGGAGTCTGGAGTGAGGACCCA
R
ACCCTTATTTTGGCTCTACCCCTTGTCGGCTGGGGAACTTCTCCAAGCCTCAGTTTTGTCATCTGCAAAAGGGGGGCAAGAATAACGCTTCCCCTTCCAG
Celera SNP ID:            hCV3042033
SNP Position Genomic:     35555
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62579):
TGGTGTGGTGACCCGCTTGGTCAGCCCCTGCCTGTGCACATCCCTGGGGTGTGGAGCCCAAGAAGGGGAGGAGCAGGGCTGGCTGGTCATAGGTTTGTCC
K
TAGTGCCATTGCCCTCCGGATGGTTGAGGTCTTGCAGGCTTGACAGGGCACTGAGCAAGCTCCAAGCCTTAACCAATAACAGCTAGAGACCTACCAAAGT
Celera SNP ID:            hCV3042036
SNP Position Genomic:     29309
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62580):
AAGAAGTACTGAGTGCCCATCTCAGGAAATTGATCCCCTGCAAGTATTGATTCTACTGTGCTGTTGATACCCCAGGAGCTTTGCTTTCTACTCTCCAGGC
Y
CTCAGCAACCTGACTTTCCCTGAGTTCATTTAGGGGCAGCAGGGGTCCCTGTGAGTGATTTCTTCCAGGAGGGAATTTGGAGGAACATTCCAGAGCTTGG
Celera SNP ID:            hCV3042037
SNP Position Genomic:     26496
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62581):
TGATATCCTCTGCTGAAAGAAGGCAGAGGATTGATTAGATGGAATGGAATAGACTCGAAGGGGCCTCAGAATCCATCCAGGCTCATTCTGTCCTTTTAAC
R
CTATGGTCACTAAAGCATAGAGAAAAGGAGAGAGCTTCCAGAATTACACAGCGTTTGGGATGCAGCCAGGGCCAGAAGTTTCCAGCATCCAGAGCCCGGG
Celera SNP ID:            hCV3042039
SNP Position Genomic:     25497
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,9)      total(G,2|A,9) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62582):
ATGAGAATTCTAGGAGATACAATTCAAGTGGAGATTTGTGGGGGGACACAGCCAAACCATATCACCAGGCTGAAGTGCAGTGGCACAATCACAACTCACC
R
CATCCTTGAACTCCTGGGCTCATGTCGCCCTCTCCACTCCAAGCAGTGGGACTACAGGCTTGAGCCACCATGTCTGGCTAATTTTTTTTTTTGAGAAGTA
Celera SNP ID:            hCV7541269
SNP Position Genomic:     15638
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62583):
ATAAAATCTTGTACTAAACCTCAGGCTGATAGGAGGCTCTGGAGAAAACTGTTTTCTGTTGTTTTTGTTCTTTAGAATCTTAAGATTCTCAATGACAAAG
S
TGGGCTGCAAGCTCCTTGGGCAGAAACCCTGACCAGCACATTCACGGCTGTATCCCTCTCTAATGCCCAGCCAAGGCCTGGCGCCCAGTAGGTGCTCATA
Celera SNP ID:            hCV27939742
SNP Position Genomic:     31724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62584):
ATAGGGAGGTGGGAGAAGAACCAGATAAATTGTGGAAGTCACATAAACAGCACTATTGATAAAACAATCAGTAACTGAGAAATGACAGAAACATAAAACA
W
TCTATATCTAGCTGTTTGTTAGGAGTTTTAAATGTGGCAGGACCATCGCAGGGGCAAGCTGGTCTGTGCCTGCATCATTGCAGACAGTGATGGGCTGGGA
Celera SNP ID:            hCV11644540
SNP Position Genomic:     20168
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,16)      total(A,16|T,2) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62585):
GCTCCCCTCCCAGAGGGCTGACTCCAAAGGAAGCCTGTCCTTTGTCAGCAGAGCTGCCTTGCCCGGCAAAGAGGCTTTCATCTCTGTGCATAGGACTTCC
Y
GCCGCATCAGCAGAAACTTCTGGCTGCTTAGTGCAGGGACTAGGGGGTGGCTCAGTTGTTGAGGGCGCAAACTTTGGAGTAAAGCGACCCTGGCCTTGAA
Celera SNP ID:            hCV11644541
SNP Position Genomic:     17506
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 374
Celera Gene:                 hCG2041920 - 209000073589668
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VYAU(23727705..23741880)
Chromosome:                  Chr11
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12534):
ATAATTTTGTTTTTCTTCGAGGGTTGATGGCAGGTCATGAGATTTGAGAGACACACACAGTAGTCAACTGTATGGAAAATACTGAGGAAGTGTGTTTTCG
GATTACAAAACTAAACTGGGATCAACTTGGACTTTTTCAGTCAAGCTGTTAGAATGTGTGTCTAAAGTTGGCCTGCTTATCATGTGTTATAATATAATAT
TGGTTTGGTCAGACCCTCTGATTTGTCAAATCCTTGCCAAAAATGGGTCCCATAGAAGGCAACCTGGGATTAGAATGCTTTTCAATGTAAAGTCTCAGGT
TTCCAGGGTAAACCATCTTCACTTAGCAGAACTAATTCCTTTAACAAGCATTTGTTGATTCCAACTGTGTGTCGGGTACTGTGCTAGCCTGGAGCAGCAA
AGAAGGATAAAAAGAACCTTGTTTTAGAGGAGCTATTAAGTCAGATTCTGTCCCCAAACTGAACAGCTACACAAAGAGGTGATTTCTGTTTGAGGGGTTT
GTGTGATCATCTAACAACAAAGGAGCTGGGAACCAAGAAAGTTGGGTCAATAATAACAATGACTACATTAATCCAGTATCATGCCAGGTTCTATTCTAAG
CAATTTACATGTATTACTTAAGTATTTGTTTACATTTGCGGAAGTTTTCCTTGTCCCGGGCCCATTCAATGTGTTATTTTTATCTCTACGTTTAGAAACT
TTGACCTTTTTTGTTTTGTGGCTTGTCCCTTATTTGATTTAAAAAGTCATTATATGGCCAGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAG
GCCAAGGTGGGCAGATCACCTGAGGTCAGTAGTCCAAGACCAGCCTGACCAGCAAGGAGAAACTCCCATCTCTACTAAAATACAAAATTAGCCGGGTGTG
GTGATGCATGCCTGTAATCCCAGCTACTCCAGAGGCTGAGGCAGGAGAATCGCTTTAACCCTGAGGCGGAGGTTGCAGTGAGCTGAGATTCCGCCATTGC
ACTCCAGCCTGGGCAACAAAAGTGAAACTCCATCTCAAAAAAAAAAAAAAAAAAGTCATTATAATCACCTAGTAGCTTTAGATATGACTCTATATATAAT
GTATAGAACAGAGAAGAGTTGTTTGCTCCATAAACATGTACAATTATTTGTCAAAAGAGAAATACAAGTTATTCATATTAGTATTCACAGTCTTCCCTTT
AGTTTCTCACCGACTCAGTGTATCTACCAAGATTCCCTTGGTAATATCTGTCCCTCAGGTAGTCTGCTTGCCCAGTGGTAAGTCTTTCTAGGGTGGAAGG
ATTCTTTCTTACTGGGTCTTCTTCCAGGACTCTACTTCTTTCTAATAGGCTGAATGGAGCGAAAATGTAAAAATAGGGAAGACACGCTGAATCTTCTTAA
TAAAGAATTTTTAAGATAAAGGGGAAAGGGGAGAATGCAAATTTGAAACTGGTTTTGAAGGTTGGGAGTGGGGTAGGTTGGTGAATGAGAGACCCTTGAG
CAACTATATTATATGAGAGAATTGATTAAGAGATAAAAAGTGTGTTACGATTTTGATTTCTTCTCGTATCCATTGAGGAAAGCATGTAAAGACTGGAATT
ACTGTTTTTTCACTTTTGATTGTTGGACTTTCTACCCAGGACAGCCACTTAGATTGCTGGGGTTTATTCAGGTTATACATACCATGCCTCTCTATTTTAA
CTGGCTTTTTGTCCCTTTCCTTGCTCAGCAGTTTTTCTGCAAGTAGCTGATAAATCAGGAATTCTTAAATTCTTTTAAAGGGTTTTTCCTGAAAGATAAG
TTTTTTTAGAGAAGTAGAGTGGGCCTAGGGAATAATACCAACCTTAGATGTGGAACCTCTAGGGGCTGGTCAAATGTATTTGGCACACTTACTCTTTACT
ATGTCATCAACAAGACTTGGATGTCTTTCCTATTTACTGCCTTTGTCGTTGGAGCTACGATTCACATCTGTTCCAGAGGTCATGGAAACTCTTCATCTCT
CAGCATTTCTAGTGGGTATCCTTGGCAGGCTTAAAGCAGAGTCAGGAGGGTGAGAGCTCAGAGAGAGGCTAAGGTGAAAGCACTTTGTAAACTTATAGAG
GATGGTATTTTGTACAAAGCCTGGCACACAGCAGACATTCAGTAAAAATGCATAGAATTAAAAGAAAAGGAAAAAAAGCAGATACCTTTTACTCATAGCA
GTAATCTCTCTTCTGCTCCCCCTACCTTGGTCAGGATAAGAGTGCCTTGTGACATGGATTAACACCATACGAGTAATAGTTTATATTATTTAATCTCATT
TCTTAAACTAGCCCTACAAAATATAGTATGATTTTGATTTTATGTTTATGGGAATGAAGGTTTTAGAGGGTCTATGTCACTTGCCCAAATATTACCCTTG
TAATAAGAGATGGAACTGGGATTGGAATGTAAATGTGTCTAGCTTCAAAACCTTTTATTTATTTTTTTTCTACCTTTCTGGCCGGTACAGCTGTCAGACT
ATGTTTAGAAGTCTCATGGGTCCTTCAAGTGACTTTACTAATGGTCTTATGAAAAGCTGTCTCCCCTGAGAATTGGTGTTTGACGTTCTTGGTTCATTCA
GCAAATGTGTGCTTAGCCCCAGCTATAAGCATGAACTGTACTAGACAGCAAAGGTGGACACCAAAGAAATAATCCCATCCTCATGGAGCTGCCAGTGTAG
TGAGTGATCATAAATATAAACAATGTTGGGCAGAGTGATGTTAGCAGTATAACGTGAGGTTGTCCTGGAGGAACACGGAAGAGGGATTGAATGAGGGAAG
GAAAAGAATCAGCCCCTCTTATGTAAGAGGCAGCACTATGTCTGCCAGAGCCTAACATCTCTTTTAGCCACCTTAGCTCATTTAATCTTCACTATAACCA
TGTAATATCCTGATTATACAGATCAGCAACCTACTTGGCGTTTCACAACAAGGAGCAGATGGATAGGATTTTCAATCTCAGAACTGTCTGGCTGCAAGTC
CCTGCCCTTTTCATTAGACTACTGAGTATAGACTAAGTATAGGTTTTTCCTAATGTATGTTTTTTAAATACATGATAGTTAAAGTTCTATTCTGTATACA
AGGGTATGCGTTGTGTGAGACTCAGTGTGTCTATCGAGATGCCCTTGGTTCTGTCTGCACCTCAGGCAGTCTGCTTGCTCAGTGGTGAGTCTTCAGATGT
TGCTGCTTTTGCCACGTTTTCTAACAGTGCTGGCTGTCTCATCTTCCCTCTGTGAGGGTGGGGCTCTGGTTTGGTCTCTGTTAAGTCCATTGTGGAGAGA
ACTACAGCAACTCATGTGCCTAAGCCCCATTTGGCCAGACCCTGGCCTCTCCTACCACTTTCAAGTTCAAACGTGGGGTGTGTTCTTCCCCAGTGACTGT
CCAGAGTGGCTGGGTAAACACAGCCTGGAAGTAGGGAGTGAGGGCAGTTGACATCACTGACCAGAGCAGTTGGAAGCTGGAGAAGGGAAGGAGCCAGCAG
ACAAATTGCTTCGTGTCTGCCTGCCTTTCTCCTCCATTTACCCCTTACACACACACACACACACACATACACACACACACGCACACACACATACAATATT
AGTAGTTCCATACAACCCATCCTGTAACCTTCTAAATGAGCAGTTGTCTGTGTTTTCATGCTAAGCCGTAGCGGGTTTGTTGATGCATATAGCCTTGGTT
TCCTTTCCCTCCTATTCTTTCCTACCAGTCTTTCCCCACTCTCTGCTCTGAGATTGCAACACATGATAAACAGGTAAGCTTTGCTCCAGACTGTTTTCTA
GAACCTGGGCACAATAGTAGTCAATAAAAAACATCTTGCCCATCACAGACCCTTGCCCTGTTTGCCCTGTTTTATACCTTGTTATTTTTCACTTAGCATA
AATCAGGTAATATTTGAATACTACCATATGATTAATGTGCACCAAAATCCTGTGAGATAAAATAAACCATGAGTGTAGTTCCGTATTTGCATATATAGGT
CAATTGTATTTTCTTTTCTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGATCTCAGCTCACTGCAAGC
TCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAG
TAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGA
GCCACCGCGCCCGGCCAGTATTTTCTTTTTTAAAGGAAAGATTATTGCTTTTGTTAAAATGGTACATGTTCGTTATAAATCAAGAAATGCTAAAACAAAC
AAACAAAAAACCCCACGCCAGATGCCATCATCTGGTGATAACCTTTAGGTGAATAACGTTCTGGGGGCGCTCATGAAGCTCAGCTTTTCTCATTATCTTT
ATAGTAGTGTCCGAGTATACTACTGTAATTTAACCAACCTGACCAGTTGATAAGCAGTTACAGTATTTTATTTACTTAAAAAATGTGCTGAAATGACCAT
CCTTATAAATGCCTTTGGATTTTTTAAACTTGTTGGTATGTAAGATATATTTCTCCCCCTGAAAATTTTTATTCAGATACTACCTTGTGACCAACACACC
TGTTTTGCAGATGAAAGACTCTGGGCCAAAGCAAAACTAATAGCAAGATAATCTGCCCTTAGGCGACTCTTCTAATGAGAAAGAATGGGAACACAAAACA
CTGTATAAGGGATGCAAGTTTCACATCCCAGATTTTGGTAACCAAAAGAAACCATAGGCCACACAGCTGATCAGAGGTATATTTGAGCTATTCCATTACA
TTTTAGATTTTAACTTTGCTACAGTAAGTCATGGCTCAAATACAGTAGAGGCACTGATTGATCATTAAGTTTATATACACTGTAAACTAACCCAGTTAAA
AGGCAACAGCACCATATTTTGAAGACAGGGTGACCAAGTTTCTAATGCAATGATTGCCATTGATTAATACAATGAACTGGAGACCAGCAGGGATGATAAA
TTTTCCTGGCATTGAGAATTACTTATCTGACTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCTGTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTACA
ATCATTGCTCACTGCAGCCTTGACCTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACATGCCACCATGCCCGTA
AATATAAATTTATTTAATAAGTAAATTTATTAATTTTAAACAAATTAAAAAATTTTTTAATTTTTAAAAAATTTGTTTGTAGCGATGGGGTCTCGCTGTG
TTTCCCAGGCTGGTCTCAAACTCCTAGCCTCAAGCAATTCTCCCACCTCAGCCTCCCAAAGTGCTGGGGTTATAGGCATGAGCCGCCATGCCTGGACTTA
TCTGACTTTAAAGATGCTTTTCTGGGGTCTGAAGTTGAAGATTTAAACCTATAGAGTTTATTTTTGCTGTCTTGTCTTTTTTTTTTCAGTTTGTTAACAT
GCTGTGTAGTTCTGTTACAAACATATGTAGTGAAAGACCAGCTTTTATTAGGGTTAATTGTTCCTTTTCTCATTTGGTATGCACTAGTATTTAGTGAAAT
TCTTCCTTCGTGTAGTATGCTTTGTTTCTATTTTTATTAAAACATTTGTTTGTATTGTGACTATTTGTGTAGTAATTTATATATTTAATTTGTAGCTTGC
TTTTCAGCCATCAGTACTGTATTTCAGTGACTTCTGCACAAACGTGATTTAACTATAGGAAATTTTTTTGTCCAGGATAATTTACATAAAGTCCCTCACT
TGAGAATTTCAGGTGACAGAAGTTTACTATATTTCTAAATAGCAAGCCTATTATAGAGTAGATCAGAATTAATCATATTCATGAACAGTATTAATCTGTT
GAATAATCAAACCATCAAGGCAGATGCATTGGTTGAGTTGCTGTTCATGGACTTCCTGGTTGAACAAAATGGTCTTGCCATTCTTAGCAAAGAAATACCT
CAGCATGTGGCAACTCATGGATGTGGCCAGTAAGTGCTGTGAGAAGTGAACAAAGAATAGAAAATTAAGCACTGACRGCCGGGCGCAGTGGCTCACGCCT
GTAATCCCAGCACTTTGGGAGGCCRAGGCGGGCGGATCACGAGGTCAGGAGATYGAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAAT
ACAAAAAATTAGCCGGGCGCAGTGGCGGGTGCCGGTAGTCCCAGCTACTCSGGAGGCTGAKGCAGGAGAATGGCGTGAATCCGGGAGGCGGAGCTTGCAG
TGAGCAGAGATAGCGCCACTGCCTGGGGGGAAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGAAAAAGAAAATTAAGCACTGACATATTCT
GAGATGTTTTCTGAAGGAGCTCAGGCTAAATGCTCTCACCTCCTTAATACTGGCTGAGAGGCTGGATCTTCTGCCTGCAGCCCAGTAGCACTTGGTTTAT
AACACTATATGAAGTGACTGCATCTCTAAGCCAAAAATCATGATACATGTTCTAAGACAGATTATAGACTGGTATCTTTAGCCTGAATTCCATCTATAAA
GTGTTTTGCTTGGCCTGCAGTGTTTTAAACACTTTTAATTAGTCGTAGATTGTTAAAAGCTGAGATCTCTTACATAAAATCCGTAAAATGTCCAGCTTCC
AGATCTGGGAACACTGGGCCCAAATTTCTGCCTAGCAGCAATTAGCTGGAACTGGGTGGTAGCTTTCCATTTAAGCCAAAGCATATGCTTTCTAGTCTGC
TGTATCACATGCACGCACRCACACATACATGCACACACCAGTCACTCATATATGTACCTACCTGACCCTTTACACTTCCAGACCATATGCCCTTCGAAGG
CAGGATTTTTGTCTGTTTTGTTCATTGCTTTTTTCTCATGACCAGAATGTTGTCTGGCACAAAGTAGGTTAAAGGATATTGCTAGATGGAGGAAGAATGT
ATTTGTGACTCTTGGTCCAAGTTGATGGGGGAAAAGAAAACAGAAGTTTTCAATTTGGAGCTCCTCCAGATATTTGAGCTATGTTCCCCTTTACCCCTGA
GATACTGTATGGCTCAGGAATATACCTTAGTATCATAATTTTGTATATGACTTATCTCCCTTGCTAGATGGTAAATTCATTGGGTTCAGGGACCTGTCTT
GTATTTTTTTGCATCCTTAAGAATACCTTGCACATAATGGAAGCTTAAATACTCCTTGGATGGTTAGTGGGTTTTTAAAATTTCTCATGTAACTTTGTGA
ATAAAGATGGGGAGATTCTAATGAATATGTTGTTCTGGAGGATCATTTGAGAAGCAACCATTTGAGTTGCTTCTCCACTATATTTTCTCCAAGCCCTATC
CCCAATTACATTCTATTCGCCATCATAGTCTGGATGGGGAATAGAATGTAATTGGGGATAGGGCTTGGAGAAAATATAGTGAATATAGAAGGTTTTTGAT
AATCCTTAACCCCTGCTCTTTGGTAGCAGGGTAAATTAACCCCCCATCCTCACTTTGTGCATATTCTATTTTAGTACTCATCTTTTTTTTTTTTTTTTTT
TTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGCCTGGAATACAGTGGTGTGATCTCAGTTTACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCC
TGCCTCAGCCTCCCAAGTAGCTGGGACTACAGACATGCACCACTGTACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGAAATCTAATTTCGCCATGTT
GGCCAGGCTGGCCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCAGCCTATTT
TAGTACTCATCATATTATGTTAAAGAGCTTGTCTCCTACACTGGACTGTGATTTCCCTATCATTAAGAACTCGGTATGGTTTTTGTGCATCTAACAGCTA
ATACTTGATAATGTTTGTGTGCCAACTCTGTATAAACACTATTCTAGGAACTCAGTAAATGTTTGCATTGAATTGAGTTTGTGTTAGGAGTTGTATTAGA
ACTCTACACCACCTTATAGTTTATAAAACATATGTATATTCATTGTCTTATTTAATTTTGAAATCAACTGAGTGCTGCAAATGAGAAAAATCAAAGCCCA
GAGAAAACTGTAACTGGTCCATAATTACACAGCAGTTAATGGCTGAACATCCAGGCTGAACTTTGCCAGTTAGTGGCTGAATATTCACGAAATTCTGATG
CCTCCATAGAGCGGGATAGAATTATGGAGGACTTGTCATTCTGGACTGCGGAATTTGGACCTGTGTATTGAAACAAGAAGAGAAAGGGAAGTGTTTCTTA
AGTTATTTTTGGATGAAGGCTTTTTGCGATCCAAGGCTTCATCCCCTCAAGCTCAACAATAGCATTCCTTGGGGGAGTGAGAAGATGATGAATGGTCATC
AGTTTGCTTGCCTCACCCAGATTCCATTCCTACCTCCCAGAATTTTCCCTGGTCCCACCCAGCTCCACAGTAACAATCAATCCCAATCAGTGACTGTACT
TCATTTTTTGGATCAAGGAATACCCCTCCCTTTTCTGTCTTCCTCCTTAGGGCTTTGGATAGGAGCCCTTTAATTGATGTTGACTAAACTGGAGGCCAGC
CCCTGCATACCAGGAATGCCAGTGGCTTTGTTAGTTGAGGAGGGCGCTGCATTAGCACTGCCCTCTAAATCCCAGAGCAGGTGGAGGAAATCTAATTAGC
ATTTAGTAAGCCAAGGTGCCCTGGGGAGTTTCTGATAAAGAAAAGGTCACTGCAGAAGGAGAAGGGACACTGATAGGGAGACTTCATTTTCCTAGTGGGA
ACTTTCTGAAATGGACTGGCAATCAGGTGAGCTGGATTCTAATGCCTGCCTTACTGGTGGCTTTTTAATCACACTTAAGTCCCTCTGCTTATCTGAGATT
TCATTTTCTTGTCTGTGTCTAGTCCGTTACCAGACTCCTTTTCCTACACAAATATTTGTTTCATAACAGTGGAAGGGACCTCAGATCATTAAGTTGCTAT
CACCTTGGGGTGACAGGTACACTAAAATCTCAGAAGTCACCACTAAAGATCTTATTCATGTAACCAAATAACACCTGTTCCCCAAAACCCTGTTGAAATA
AAAAAAATGACTGCAGCCATTCCCACCCTTGTATTTCAAGCATAGCATTGCCACCTACTTGCAAAATACTATATAGACGTATATATATATATTTTTAAAA
AGGTGCTATTACCTGGGAAGCTTTTCCCAACATTACATATGTCCAAATCTCACTCTGTATCTACTGAATCTTCTGATATCAGTAGATATGTAGTAAATAT
GTATAGTTTGGGGAAAATTTCTCAGGAAAGTTTGATAAAATCCCTGGTTTATGCTTTTTTGAAGAACTTAAACACATATAGCAAACTCAAGGCCTATCAC
AGCATTTGCTATCATAGTTGTTAGTAATATGTTTGGAGAGGAATTTGGGGGGATGGCTATTAAGTGAGAAGCTAGAGGTAGAATAACCACTGCAAGCAAT
AAGCATTTTACAAAATGGGGATTGAGCTCTATTCGTAGGTGATGAAATCAATGGTAATGAGTTGCTACCAGTATTTTCAAAGTAAAATAGTATACAAAAA
GTAGCATGTATTGTGTCCAGTTAAGGATATTTATTGAAACTTTTAAGTTCATTGTATTTATAGATACTGTGCTACAATTTAAAAGACATTTCTTACTGAA
TTTTTGTCAAAATCCATTGACCTAGATAGGAATCTGTATTGGAGTAAAGATGGTTCTAAGGGGAAGGAGTGTAGAGAAGCAATGTGGGAGCCACATGCGG
TGGTTCATGCCTATATTCTCAGTACTTTGGGAGGCGGAGGTGGGAGGATAGCTTGAGGCCAGGAATTCCAGAAGCAATGTGGAAAGGACACTAGGGAATG
TAGGTTCTAGTCTTTATCCAAGCTCTTTGACTTCAAGCAAATCACATTTTTCTCCTGGACCTTACATTCTTTTTTCTCATTGCCCTTAGTACCTTCTGTC
TGACTTCAACCCCACATCTGCTTGACAAGAATTAACTCAAATATCTCTTCTTAACACCTACCTGATTCTGGCATACAGTAAGTGCTTATAAATATATGTT
AAATGGGTGAGAACCTTTCCCTTAGGTCTGTGGGTACTTTCACTGGGCTTGTATATCTACCACTCCATTTAAAACTCTACTTACAGCTTTTTAAGAAAAT
GTATTTCTAAGCCAGGCACAGTGGCTCATGCCTACATTTCCAGCAGTTTGGGAGGCTGAGGTGGGTGGATTTTGTGCTTGGAAATTCGAGACCAGTCTAG
GCAACGTGGCAAAACCCCATCTCTACAAAAAATACAAAAATTAGCAGGGTCATAGTAGTGCGTGCCTATAGTCCCAACTACTTGGGAGGCTGAAGTGAGA
GGATTGCCTAAGCCTGGGAGGTGAAGACTGCAGTGAGCTGTGGGTGTCCCACTGCACTTCAGCCTTGGCAACAAAGTGAGACCCTGTCTCAAAAAAAAAA
AAAAAAGAAAATATATTTCTATTTATCTTTTACTAGGTTGTGGTCCCCTGGAAAGCAGACATTTTTATTCATCTGTGTATTCTCAGTACTTAACACAGTA
CCTGGTATGTAATAGGTGCTTCATAGATGTTGGAGAGAATACATATTTTTAAGAGGAGTATTTTAGTAGATGACTCATAAAACATTTATTGAGCACCTAC
TATATACCAGGCAGTGTGGTAGGTATGGGAAGTGATACAAATGTGTGTAAGAGACCAACATCTTCCCTTGAGGAATTTAGAGATTAATTGAAGCATAAGC
ACACAGAATTGCTGACAAAGCCATTAGTGTTAGTCTCTAGCTATGTGGTTGCTTATGCAGCTCATGTGTAACTTCTCATTTCTGTGTTTGAATACTGGTC
ACCAGAACCAGACAGGAAGAATGTCTTTCCGTTCTGATTAATTTTCTTAGGAATTAAGTAAGAAATTGTGTATCTGATATGGTGATCTAGTTCCAAGGAA
GGTTAACTTGAGTTGGCAAAAGGAGCCTCATCTTTTTTATATTAGTTACTGGGAGGTTGTTTAAAAATCTCCCATTATGTAATGGACTTGTCACTTTCTA
CTTATAGTAATGGCAATTCTTGCTTTATATATTTCGAGGCCATATTACTAGGTACACATACTTTTTAGAAGTACATGACTTCTGGGCCTTTGAACCTCTT
ATCTTTGTGAAGTGCCTGACCCTCTTTGCCTTTTTACCTTAATATCTTTTTTTGCTTGGTAGTCATATACCTGCAGCAGCATTCTTTTGAGTAATGTATA
TGCTTTATGTAATTTTTTCCATCCTTTGATTTCAACCTACCTGTGCTCTTGTATTTTAGGTGTATCTTTAAAAAACAGTATGTAGCTAGATTATGTTTTT
GTTTAGTCTGGAAAGTCTTTCTTTTAACTTGAGAATTTAGTTAATTCACATTTATTGTGGTTAATACAGTGAGACAGGCTTTATCTTTTAAATGGTGAAT
TAAATTGATTTACATTTATTGTGATTATGGAAATGTTTTGATTTGTTGCAACCGTGTAGTGTTGTACCTTACCTTACACTGAAATTTTCTGTTGTTTTTT
TTAATCTTACCTTTTGGATTGAACATTTTGTTTCCTTTTTCTAATTTCCTTTTTATCCCTCTGCTTATTTGGAAGTTACACTCTAACTACTTCATTAGAA
GTTACTCTAGGTATTTTATTATGCATACTTATTAAAATGTTTAAATTTAATAGATAATACATGCACATGGCTTAAACACAAAATATTTGAAAAGTATACT
GTGAGAAGTCTCTTCTCTATCCTTCTGCCACCATCTGCTCATTTCTAATAACCTGGTGTATTTATCTTTATAATGTATGTTGGCCTGTTAACATATTAGA
TATGTTAGAATATATCTAATAGAGATTATAAATACGCATACAAATACGTATTAACTCCTCCATTTATACAAATAAAGGACAACTTTCTCTATACTTGCTT
TTTTTTTTTTTACTTCATAATATATCTTGATGCTCTTTCCATATTGATACATGAACAGTTTTCTTCCCCATGCCTTTTTAAAAAGCAGCTGAGTGGTAGT
ACATCAATTGGTGAAGGCATAACTAAGTCTTTACTGATGAGCATTTACATTGTTTTCAATATTACTCTTTTAAATAGATCCCAAAATGCACATATGTCAT
TGTGCACATGTTAGTTTATCTCTAGGATAAGTTTCTGGCATTGCCTGGTTAAAGGATATATACTCTTACACTTTTGGTAGATTATATGTAATTTTGCCAC
ATTGCTCTCCAGAGGGTTTGTAACTATTTACACTCCTGCCTCTTTTTCCACAGTCTTGCCAAGATGATTACCAAAGTTCTGTATGTTTGCCAGTCTAATG
AGAGAAAAGTAATATTTAAGTGTATTTTTAATTTGTATTCCTTTTGTAAGTCAACATTGATCTTTTCACATGTTTAAAAATCATTTATAGTTATTTGTCT
GTGAACATTTGCTTATTTTTCTGCAGGGTTAATGTTCTTACTGATTTGTAGGAGCTCTTTATGTAGGAGATTAGCCCTTTGTAATAGGAATTGTGAATTT
TAGCGAAATATTTATGACTTCTAACCCAAGTTACCATTTTTTTCCTTGCTTTGTCCATAGGCATTTGTGTGGGTGTGGGGGGGTGTGTCCGTGTTGCCAT
GCAGGATTTGAAAATAGTTTTCATTTTTAGATTTATAGGTTTCTGTGTAGTCACTATAACAATCATTGTTATGGTTTCTGGATTTTAGGTAATAGACTTT
CCCTCTTATAGGCTATAAAAGAAATGTACTATGTTTTATAATTTCATTTTATATTACATTTAAATCTGATCCAGTTGGAATTTTTCCTGATCTATGCTTA
GAGGTACAGGTTCAACTTTGTTTCAGCTTTATTTTTAACAGTGTCATTAAATCTTTCCCATGGATTTGAGGTGCTACTTCTATCATAATCTAAGCATTTT
ATGCATTAGTAACCATTTGTGAACTCACTAAGTATTAAATTCCATTAGTCTGTATACTTATAAAATATATATAGCAATACGCTTTGTTTTGATTAATGAG
GTGTGTTTTACCATATGGTTGTAATAGTGTCCTCTGCTATTCTTGTTTTTCTTTATGAACTTTACAATTGTATTCTCTTATTTAGAACAAATATGGTGGG
TTTTTTGTTGTTGTTGTTGTTGTTGTTTTTCTTTGAGACGAAGTTTTGCTCTGTTGCCCAGGTTGGACTGCAGTGACAAGATCTTGGCTCACTGCAACTG
CCGCCTCCTAAGTTCAAGCGATTCTCCAGCCTCAGCCTCCTGAGTAGCTGGGATTAACAGGGACATGCTACCACCCCCAGCTAATTTTTGTATTTTTAGT
ACAGACAGGTTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGCGATCCACCTGCCTCAGCCTCCCAAAGTGCTGTGATTACAGGCATG
AGCCACCACACCTGGCCAAAAAAATGGTGTTTTTACTGAGTTTATGTTAAATTAATAAATTCATTTAGGGAGATTTGAGCTCTTTATCAGCACATACATT
TTAATTTTTTAATTTGGCCTAAAGTATAGCAGTATATTTACTCTCTGTATTAGTTTCTTTTTTCTTTCCTCCTCCTCTTCTTCTTTTTTTTTTTTTTTAA
ATACAGAAACAGGGCTTCGTCATATTGTCCAGGCTGGTCTCAAGTACTGTGCCAGCTTTGGCCTCCCAAAATGCTAGGATCACAGGCTTGAGCTATCATG
CCAGGCCCTTAGTAGTTTCTTGTAGTTGCTGTAACAAATGACTACAAATTTGTTGGCTTAAGACAATAGAGATTTATCGTCTTACAGTTCAGGAGAGAAT
AAATCCAGGTGTTACAGCGCTGTGTTCCTTCTGAAAGCACTGGGGAAAATCTTTTGCCTCTTTTGGCTTCCGGTG


SNP Information

Context             (SEQ ID NO:62586):
GCCATTCTTAGCAAAGAAATACCTCAGCATGTGGCAACTCATGGATGTGGCCAGTAAGTGCTGTGAGAAGTGAACAAAGAATAGAAAATTAAGCACTGAC
R
GCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATTGAGACCATCTTGGCTAACACGGT
Celera SNP ID:            hCV7967493
SNP Position Genomic:     6177
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,25)   caucasian(A,26|G,10)   total(A,35|G,35)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62587):
CCCAAATTTCTGCCTAGCAGCAATTAGCTGGAACTGGGTGGTAGCTTTCCATTTAAGCCAAAGCATATGCTTTCTAGTCTGCTGTATCACATGCACGCAC
R
CACACATACATGCACACACCAGTCACTCATATATGTACCTACCTGACCCTTTACACTTCCAGACCATATGCCCTTCGAAGGCAGGATTTTTGTCTGTTTT
Celera SNP ID:            hCV29155958
SNP Position Genomic:     6919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62588):
AGAATAGAAAATTAAGCACTGACAGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGAT
Y
GAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCAGTGGCGGGTGCCGGTAGTCCCAGCTACTCGGGA
Celera SNP ID:            hCV7967494
SNP Position Genomic:     6254
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,20)   caucasian(C,9|T,29)   total(C,25|T,49)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62589):
GATTGAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCAGTGGCGGGTGCCGGTAGTCCCAGCTACTC
S
GGAGGCTGAGGCAGGAGAATGGCGTGAATCCGGGAGGCGGAGCTTGCAGTGAGCAGAGATAGCGCCACTGCCTGGGGGGAAGAGCAAGACTCCGTCTCAA
Celera SNP ID:            hCV25998850
SNP Position Genomic:     6351
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,31)   caucasian(G,34)   total(C,3|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:62590):
ATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCAGTGGCGGGTGCCGGTAGTCCCAGCTACTCGGGAGGCTGA
K
GCAGGAGAATGGCGTGAATCCGGGAGGCGGAGCTTGCAGTGAGCAGAGATAGCGCCACTGCCTGGGGGGAAGAGCAAGACTCCGTCTCAAAAAAAAAAAA
Celera SNP ID:            hCV25998870
SNP Position Genomic:     6361
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,30|T,4)   total(G,65|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:62591):
GGCCAGTAAGTGCTGTGAGAAGTGAACAAAGAATAGAAAATTAAGCACTGACAGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCC
R
AGGCGGGCGGATCACGAGGTCAGGAGATTGAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGCAGTGG
Celera SNP ID:            hCV25998087
SNP Position Genomic:     6225
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,36)   total(A,2|G,74)
SNP Type:                 INTRON


Gene Number:                 375
Celera Gene:                 hCG2042146 - 209000073593514
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VYQG(61903578..61920447)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12535):
TTTTTGAACTCTGCAAAAGTACATCTTTTTGAGTCCGGCCAACCTCTGCAGTGTTGATGTCTGACTGTGACAGGGACAAGTGACTGCAGGGACCTGAGAA
GGGCTACAGCCTGGATCGCAGCTCTGGCCATGCTTTGCCCTTTCTGGGAGTGATCACTTGCCTCAGTGTCAGGTGCTACTGGACACCCATCTGGGCAGCT
GTGCAGTGGCTGGTAGCCCACCTCCTACCCCCTCCTCGACAAGCTGTCCCAACTTTTCCAGAAGGCATATCCCATGAACTACCACAGCCTCTGGATACAC
AAGGGGAGGTTGAGGGGAAGGTGTTTCCTGAGGTAAAGAAGGACTGTTTGGGTTTGGCTGATGTGCAAGTGTTCCTGCTGTGTTTAGAGTTCAGCCTGGC
CCCTTCCAGCCTCCGTGTGGGTGAATTAGCAGAGCTGCGTGCCACTGGGACTGAAGTCTTAGTTCAGTGTAGGTCAGTGGCTCTCACACCCTGCAGCGGA
CAAGCTGGGGAACATTCCTGTGGGTTCCATCACCCCATCAGTGTGATGCCTAAACCCGCAGGGACCCTGGGCCACACACTCCCTCCGGCATGGGCATTGC
CAGCCACCTCCAGCAGGCTGCACTGGCTGGCCCCTGCACACCCACTTCCTCAGCCAGTCCTGGGAGGTGTGTGCAGATGCATGGGCTCTCAGTGAGGGCC
ACTCTCTCGCACACATGTACGACCTGGAGGTCCCAGCCAGCTCATGCCCTGGGGTCCATGTCTCTGTGTTGAGCAGCAGCGGCCAAGTTCTTCTCCAGCA
GCTGCGTCCCCTGTGAGGACATGAAGAATTTCCCTCGCCTGTGTCAACTGTGTGCAGGGAAAGGGACAGACAAGTGTGCCTGCTCCTCCCAAGAATCGTA
CTTTGGCTACGCGGGAGCCTTAAGTGAGTGAGACCCCACTGCTCCTCCTCCTCAGCCTGATGTTGGGGAGACAAAGGCACAGAGAGCGAACAGGGCCCAC
CCCAGGCCACCTAGAGCATCAGTGAGAAATCTGGGGTCCCAGGTGCCTCCCATGGCCAAGCCTTGCTCCTAACCATCCACAGAGCACTCTTCTGTGTGGG
AGCCCTGGCCTCCCCAGAGCTTGGGGTTTGCCCATGTTACCCTCCTAGACAAGGGAATGCTAGGGAGACAGACTCATGTCTAGGACTCTGAGATCTACAG
ACACAGGTCTGGGCTTTTGGCAGGGCCAAAGGTCAGGACCTCCCAGCTCACAACTTTCTGCTGAGCTGCTTCTTGTGCGTACCTCGCCCCATCTCCCTCT
CAGCCCCCTTGCAGGCACTTCTGCACACTCCATGCTCCATAAGAGAAATAGCTACTACTCCAAGGCTATCCAAAGTTATTAGTCTCCATGTAAAGGCTTT
AAGCCTTTAGTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTATTATTATTTTCATTTAAACCTGTTGCTTTTGGCTGCTTTCTAAGAGGAAA
ATGAGGATCCTTCTTTCCCATCCTGCCTCCTCAGAGTTGTCTGGTTTGGTGACTGCCAGGGCTCCTGGCTGCTTTTGGCCTGGGCTTCGCTGTGGGGTTC
AAAGGCCCTTCAGACAAAGCCGTCACCTCTGTGAGGAAAGACTGATACTCAGGAACTCTGGGCAAAGCCCTGTTAGCCAGCAGTCCGGGCTGACCCTCAG
AGGGGCTGCATGGGGGAGAAGTGAGGCCTGTGCCTGACTGTGGCTCTCCTGTCATGTGTCTGAAGGATGGTGTGGACCCCACCCTAGCCAGAGGAGCTGG
TTCTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCCCTCTGTCACCAGGCTGGAGTGCAGTGGCATGATCTCGGCTTACTGCAACCTCCGCCTCCTGG
GTTCAAGCGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACTACAGGCACATGCCACTACACCCAGCTAATTTTTGTATTTTTAGCAGAGAGAGGGTT
TCACCATGTTGCCCAGAATGGTCTTGATCTCTTGACCTCGTGATCCACCCACTTTTGTCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATCTCTA
GATATAAGTTGCCTTATATCTGATAGAAATTTAATTTGTTATAAGACCCAGAATCTGGAAACTCAAGTTGCCTTATATCTAGAGATGGGTGAAGCTCATT
AATGCCACAGGAGAGTTTCTATGTAAGCATTTCTTTTACAGTAATTCCCCCTTATCCACAGTATCACTTTAACACAGTTGGACTTGTGGCCAACCAAGGT
GCAAAAATATTACATCACTACTCTTGCACCTTGGGGCCATTACTAAGTAAAATAAGAGTTACTGGAACACAAGCCCTTTGATACCACAGCTGTGGATCTG
ATCACTGAGAAGGCTACTAAGTAACTAACAGGTAGGTAACGTAGACAGAGTGGATACAGCATTGACAAAGGGAGGATTCACAACCTGGGAGGGACAGAGC
AGAACAGTGCGAAATTCTATCACACTATCAGAACAGCAAGCAATGTAACACTTGTGAATTGCTTATTCCTGGCACTTCCCGTTTATGTAGCAGTGCCTTC
ACAAGAAGGGTGAGTATGGTATAAGAAGATATTTTGAGAGAGAGAGAGGCCATATTCACTTAACTTTTATTACAGCATATTGTTATAATTGTTCAATTTT
GGCTGGGCAGAGTGACTCATGCCTGTAATCTCAGCACTTTGGGAGGGTGAGGCAGGAGAATCGCTTAAGCCTCCAACCAGGAGTTGGAGGCTACAGCGAG
CTATGATCACGCCACTGCCCTCCAGCCTGGGCGACAGAGCAAGACCCTGTCTCAAAAAAAAAAATGGTTCTTTTTTTATTAATTATTGTTGTTAATCTCT
TACTGTGCCTAATTTATAAATCAGACTTTATCATAAGTATGTAGTATAGAAAAAAATACTATATTAGGGTTTGGTACTATCCGTGATTTCCGGCATCCAC
TGTGGGTCTTAGAACATATCCCCCTTGAATAAGGTGGGACTCTGCTGTATTTGTTCTTTCTTTAGTGCTCAGTTTGATTCATCTATAAATCTACTAAACA
AATTTTATGAACATTTAAACAATACTTACCATCTAATAAAACAAGTTGTAATAATCAATTCTCTTAGTCATTGAAATTTCAAATTTAATCACATTCTCCT
GAACATTTCATTATAAATGTCTCTCAACTGCTTCAGGCACCTTAAGCAAAACATACAAATTATTGTAAATATTTCAGAACTTATTAGCACATCTGCATTT
AAATCTGTTTCAAAAGCATTATTGCCATGGACAAAAGTGTACTTCTTCTTCTTTTTTTTTTTTACATTTATGAAAAAAACCCAAACTTTTTCAGAATTTT
GGACAGTTTACCACAAACAAACAAAATATTTCAGACTAATTGAGTTTCCAGATTCTGGGTCTTATAACAAATTAAATTTCTATCAGATACAGAACATTCA
AAACATTTGAAATACATGTATATATTCACTGTGCTAAGCTCATTTTTATAATGTCTGCTACTTGAGGAGAATTTTAGATCATCGCTTTTTACATGGGTCC
CAGTTCCTTACAACTTAATGTCTTTCCTAACATGAAATTGACTTCAGTGTCCTTTGTTCCCTTGTTCAGTTATTCACAATTCACTGTCTCCTCATTATTA
CACATTGACTATAATTATTACTCATTATTGCACTGGTTTGTTAGCATTTTGGCAATTGATGCATGTCTTATTATCCACAATTTTAATTAGTGGGGTCACC
TATGGGTCTCATCAAATTATTATTATTACACATTGACTACAATTATTACTCATTATTACACTGGTTTGTTAGCATTTTGGCAATTGATGCATGTCTTATT
ATCCACAATTTTAATTAGTGGGGTCATCTATGGGTCTCATCAAGTTGTTTCAAATAATTATTATGTCCTTTGGATGCTCAGGTTACCACACTTAATGATA
GTGGCAGCATCTTCTATCTCCCCCTGAAGTATTTGAAAACATCCTCACTTTATGGAAACGACAGATTGTCCCAGACCATCTTGATTTACCTTTGCCCAAA
GTCACTTGTGTGCTATTTTGTAAGATCTCTTCTTGCCTGGTAGGAGAATGTCATGAGACTATGACAATGAGTGGGGGTGGAGAGCCCTGGGCTGCTGCTG
CCCCCCTGGGCCTTTGAGTGGCCAAGGTGGAAAAGTGATTTATTTCTGAGGCCATTAGGTCATATTGATTCTCTAAATTTAATTCTAACATTACTAAATC
ATTTTGAAATTTTTCTTTTAATGTAAAGATTTAAAACGTATTTTCTAGAGAAAATACTAAATTAAAATTGTAACCACTCACAGCAGCCCTGATAACACTC
TTTCTCTTTCAGTTTGAGATTTTATCAACCCCAAAGACCATCTGATGCAGGAGAATAGGGATATAGGGTAATCAAGAGTTAAGGCATAAGCAATAGGGCA
GCAGGTGTAGTCAGTTAGTTCTAGGCAAGATTAGGCAGCATATAGGCCACATCCTCACTCCTGTGATAACAAGACTGTCTCCACTTCAGCCTCTAATTGG
CCATGGGCCAGTCCTTCATAGGGTATAACCAGCTGGAGGCCTCTAAACAGCACCTGGGGTGTTACCAAATTCTTTTTGCTTAATAAAAACCCTAAAGAAC
ACTGTGATCAAGGCTCTTGAGCTGCTCGCTGGAGCCTGCTCCCACTCTGTAGAGTGTACTTTCACTTCAATCAATCTGCGCTTTCATTGCTTCTTTCATT
GCTTCATTCTGTTGTTGCTTTATTTGTGCATTTTCTTCAATTCTTTGTTCAATGTGCCAAGAACCTGGACAACTCACAGTCAAGACTTTCCATCCAGTAA
CACATCTGTATTCGTTTTCTAGGACTGCTGTAGCAAAGTACCATGAACTGGGTGGTTTAAGCAACATAAATATCTTGTCTGGTACCTCTGGAGGCTAGAA
TTCCAAGATCATGATGTTGGCAGGGTTGGGTCCTCCTGAGAGCTGTGAGGAGAATCTGTTCCAGGCCACTGTCCTCGCTTCTGGTGGTTTGCTGCTGATC
TTTGGTGTTGCTTGACTCACAGACACATCACTCCAATCTCTGCCTTTATGTTCACATGGCCTGTGTGCATGTCTTCTGTGTCCAAACTCCCCCTTTTCAT
GAGGACACCAGTCTTTTTGGATTAGGGGTCCACCCTATCCCAGTGTGACCGCATCTTAACTAATTACATTTTCAAGGTCCCTATTTCCAAATAAGGTCAC
ATTCTGAGGTAATGTGGATTAGGACTTCAATATATGAATTTATTGAACCCACAACACTTTTCAATACCTAGACAATGGAATCAAAGAGGCTGTTTTACTC
ATAGGGTCTTTCTGGTTCATCTTTGTACCTGCAGGTTACCCTGACTGGGCCCCTAGACCTCCTTCCATCTCTCAACCCTCTCACCTTTTCCCAGCAGGCT
CTGCATCAAAGGGAATGTGGCCCCTTTAGTGGGGGACCTGGGCCATCTTGGCATGGTAATGCGTCAGCCCCAGACTAGTTACCTTAAGTCTCTGAGTCTC
AGTTTCTTCATCTGTAGAATGAGATAATCATATTACTGGCCTCTCCAAGTTGTTGTGAGGATTAAATGCAACAGAGCCTGGAGAGCCTTCAGCAAGTCTT
TGATGAGCTATGAGTGCACATTACACATTTGCTGTCACCATTCCTATTAGCAGAGCCAGGCAGTTGGAGGGCCCTGGGCCAGGCACACTGCCCAGCCCTG
TGTCTACCTGCAGTGAGATTGTGAACCAGCTGTTTCACTCCTGAGGCCTCTAGTCCTTATCTGTATAAAATGTTTTTGGAAAAAAATTCTCCCTCAGTCC
TCTTCAGGCCACATATTTGATGGTTCGGTGAGGGGCATGGGTCATCCTAACTATGGCTCATGGCTCTCCTGCGTTAGGCTCACCTGGGCTTTCCCTCCCC
AGAGAACCTGGCAAACAAGGCTGACAAGGACCAGTATGAGCTGCTTTGCCTGAACAACACCCAGAAGCTGGTAGTTGGATACAAGGACTGCCATTTGGCC
TGGGTCCTTTCTCATACTGTCATGGCCTGAAGTGTGGGTGGCAAGGAGGACTTGATCTAGAAGCTTCTCAACCAGGTCCAGGTATCCCCACCTGCCATCT
TCCCCTCTGGCTTAGTGCTCCCTGCTTGGATTTGGAGGGAGGTTAACTTCCTTGCCTTCTTGTCATTCTGGAAGTCCTGGTATGTTCAGGGTACAGTGGG
AGCCATGCCACATGTGATCCTCTTCACTGACAAGCCGCTCAGTCTATATGTGTTATATACAGCAGAGGAATAAAACCTCATCTGGAACCACGAACCTGGT
GGACTGAAGACTCTCTGCAGAAGTTCTTCTTGTCCCATTTAATTATTTTTCATTCTAAACAGGTCCTCAGGATGAGTTCACATGACCCTCTTCCTCCACA
AAGTCCTCCCCTGTCATCCCATGGCATGTGATCCTGCCCTCCTGACAACTCTGCCAACGCTCTCTCCTTAGCACTGGGGGACTCAGAGATGAACTTGGCA
AAGACTTGTCTTGAGTCATTCACAGATGAGTGTGGGAGGCACACGAGTATGGATTCTTACCTGATGGAATTGGACTACCTCATGGACATGGATGGCGTCC
TTTATGGAGGACAAAGGGACTGATTTGCAGGRTGTATCTGGGAAAGTTCCTGGGCCCTGGGGAGTAACTGTGTGCATCCTAAGGAGGTGGGGGGTGGGGG
TTGTCAGGGAGGGCAGCAGGTGGCATTTCATGTAGAGTCACTGCAAAAGCAAACACCAGCCAGCCATTTGAAAGAGCACGTCGGTAGGTGCTGCTGTGAG
CTATGTCAGGAGTGGCTTTGGGCCAGTCAACCGGAGTCATAGGCAAAGAGCCCTTTGGTTTTTGGAGGCCAGAAAGGGGAAGGAACCGTTTGGTGTCCCA
CAGCTGGTCCTTCAGTGGCAGGCTTGGCGTGGGGAGAAGAGGAGCTCAGGAAGTCTGATTGCAGCCCATGGTGCTGGATCACCAGCCTCTTTAGGATGGA
GACCGCCACGGGTGCTTAGGGTGATCAGATGGCTTGAGGGTGAGGCAGCCTTTGCTGAACTGCCCCATGGGAACACAGAGCCTCAGCCCACAGTGGAAAG
GGATGGATCTGGGGGGTGGCCCCTGGCAATTTCCCCGAGGCCACACCAGGCAGACAAGCTGGGATCTGAGGAGAGCTTTCCCTCACCATGAGCCAGGGAT
GCTGGGGAGCTTGGCCACCATCTTCACCCTCAGACACTCATATCTTGCTTTCTGTTTCCCTTGTCTGTTTTGGGGTTTGTTTTACCTTTACCTCTATGCC
GTCCTTCTTCCTTCACCATCTCTTTTGTCCTTTGAACAGGAACATTTTGGAAAAGACAAGTYGTCAGAATTTCAGCTCTTTGGCTCTCCTCATGAGACAG
ATCTGCTGTTTACTGATGYTGCCCATGGGTTTTTAATGGTCCCACCTAAGATAGATGCCAAGYTGTACCTGGGATATGAGTATTTTTCCGCGACTCAGGA
TCCAAAAAGAGGTATGTAAGGTCCCGGGAGGGACCTGGCCAGCTTGGGCAGCAGGGTGGGGTGGGGCCATCATGGGAGGCTTTCCAGGTGCCTGCAAGCT
TCACCCAAAGTTTATTGGCCTGCAGAGCCCAAGGGAGCTACTAACTGCATTGGGTTAATGAGGGGGTTTTCTGTGATTAGAAAGTGGCTTTAATGGCCTT
CATATTCTAGAAAACTTGAAGACATGATKGCCCTGGCTCCTTTTTATTAGGTGGGGTCATCCCACCCAGGGTGAGTCTATTCGACATGGAGTATAAAAAT
AGTCCATCTTAAACTGAAGTGGGAATGTGGCCACTACCACCATCCAGAGGTTTCTGGTCTGGCCATCTACTGGATCTCTATGGTTTATTTCTTCCTTCTT
TCCTTCTTCTAGCTTTGCCCTCCATTTAGTCAACCAGTAGGTATTTGCATCTACAGAAGGGCAGCCACTGTGTTAGACGTGGGCATATGGTGGTGAGCAA
AGACACTGGGTGAGGGGAGAGCAAGCAGGCCCACCCAGAACAGAACTCGTGACTGCCAAGTGGGACATGCTTCCTGGATGGGGAGCCCAGTCTTGCAAGA
GAAAACCCCAGAAGACCCTGAGCTGGGCTGGTGCTCAGAGAGGCCTCCCTGGGGAGGTGATGCCTGAGGAGCTGAGGTCAGGAGCAGGGGGAAGCTCTGT
CTTCACTGATTGATTTTTCTGAGAAGTGAGTTCCCCATTTCTCCTGGAGGGTGACAGGCAGGAATTAGCAGTGTCATGGGAATGAGACATGTCAGCTCTG
CTGCTGCCAGTGAAGGCCTTGTTGGACAGCCACTCTGCAGCGCTAAGCTCCCAGACCTACCTGGGGCTTCCTTTGGATCCCTCCACCCGGCCTAGATGTG
GAAGACTCCCCAGGGTGCGGTGGTGCKCAGTGGGCCACCATGAGAGGGCCAAGTGTGATGAGTGGAGTGCTGTGACTGGTGGTGCCTTGGCGTGCACCAT
GGAGGAGACCCCAGAGGACTGCATCACTGCCATCACAGTTGGAGGGCCCTGCTTTTAAGGCTGGGCTCAGACACTCAGACACACAGCACTTCTGCCAAAT
CTGGCATTGAAGCTCTCCTTCCCAAATGCCTCTTCCTCAGCCTCCAGGATAAGGACACCTGTTGTGTGCTGCCTCCCACCCACCCCACAGGCCCCTCCAG
CTCTGGGCAGGGCAGAAACACAGAGCCAATCCAAGAGCTGGACTCCTGGGGGGCTCAGCTCTGGAGTCCAGTTAGCTCAGGGGAGTGTCTTGCCTAGGAG
TCCCAGGAAGTAGGGTGACATTCCGGGCTATGGTCAGGGCTACTGTGAATTGTGAAAGCAGATCAACCTTTTCAATCCTTTAATTGTAAGTTTATTTTTT
CTGGTTATAAAATATTACAATAAATAAATAAAAATAGGGCTGCAGTGAGCCATGGTCACACCATTGCACTCTAGCCTGGGTGACAGAGCAAGACCCTGTC
TCTAAAAAAATCAGAAAGTAAAAATAAAATCATTCACAACTTCATCACTCAGAGATTATGTGATGATGATCTCTGAGTGACGAAGTTGTGAATGATTTTA
TTTATTTTATTTATTATGATCTCTGAGCAATGAAATTGTGTTGTTATTAACTTTATGAGCAGAACTATTTTTGTGATTAGGAAAAAATAAACTTATAAAT
AAAGAATGAAAATTTGACAAACTTAGAAGGCTATGCAACCATTTCATTTTGTTTTGTTTAACTTGAGAAGACCCTCATCTTGGTAAACCTTCCTAGCACC
AATTCCTAAGATTAAGATCTTGATGGTTATGTAGTCTACTAAATGTGTCAATTGTAAGGATTAAGTAAATCTCAGTACRTATAACATTGCCTGGYATATA
GTTAGCAGTAACTAAGTGTTAGCTGTTATTATTATTCAAAATCCCAGGGACAGTTGGTATATTTTCTTAAATAATGAAACACTCATTTAAATAATGGCTA
TGTAATATTCCACCAAGTATGTTAGCCTCCATTTAACCAGTTTCTCAGTGTTTATATTTGAGTTATTTCCAAATCCTTTGCTATTATAGACAATGTGGGA
TTGAAAAATCTTTGTATCTATAAATGCCTATATTTCTGAGTATATCTTTAATATTAATGGTAACTAATTTTTCTGGAGTTACTGTGTGACAAGCATGTTT
ATGAGCTCTTAAACTGTATTACTCATTTAGTCTTCATGATAAACCTATAGGGTATAATTTTTACCCAACTTATGGATGAAAACATGTAAATAGCATAGTA
TTGAGGGAAACGTGCTTTAGGGTAGACAGATCTTGGAGGCCATCTGGAATAGTGGTTACAAGGAATTAAATTGCCTAGGTTTAAGTCTTAGCCGCTGTTG
ATTGGACAAATTTAACCTTTCTGCTTTCATTTATAAAAGAGGGGAAATTCTAGTATCTAGCTTATTGAAGTTTGTGAGGAATATATGAGGTAATCACTGT
GAAGTGTTTAGAAAGGAGCCTGGCACATAATAAGGCTTGGTAAGTTTTTGCTGCTGTAGTCACTGTTTTTAGATTTCTAGAAGGGTAGTGAAAAGGTCAA
AAACAAAGAGCATGTATRTGCATGTTTTTATCTTGGTGACCTTATCTATAAGTATACTTTTTTACTCTATTAGAAAAATTAATTGATTAAAATAATAAGT
GAATTATTAGTGTATTATCTAGAGAAATGAATTATTTATTGAAAATCTTTGTTGTGCCAGGCACTGAGTACAGTGCTAGTGGGATTATGGGAACAGATTT
GAACTCCATTATCTGGAAGAAACATATCCCATAGAAACAGGTTAAATGCATTTCCTGAGTCTGGCCATGTTAATTGCTGGGTTGAGTGACTATAGCCACA
AAGAAGGGGTGGTGAGGTCATATCCAGGACGCAGCATGGGTCTCATCAGAGGACACAGAGATGTCCAGGGGGCATGACCTGGGTTGGAACTTGTTCCCAG
GTCAACAGGCCAAGAGCATGTCCAGTTTTCTAAACCCTGTGTTTACATGGCAGAAGCTTTGAGTGATCCACAATTGGTTAATCACAAGGATGTTTACATG
AAGCCAGTGAAATGAGAACCTCTGAGGGTCAGAGGCCCAGGAGACAGCTATTGTGCTATTGATTTGTTTCTTAACTTCAGAAAGGGGAAGCTGATGCCAT
GAGCTTGGATGCAGGATTCATCTACATAGCAGGGAAATGTGGTCTGGTGCCTGTCCTGGCAGAGAACTACAGTAAGTGGAGGGGAGTGTCCGTCTCCATT
TTTTCTGTCCACAGTTCCCCTGGGCTGTGGGCATAGAAAGATGAGGAAATAACTTAGTTTAGTGTTGAGATAATAACTATTGTTGGAATGTATGGAGCTA
GTAGAAAAAAAAAGTCTCCCTCTCCTGGAGCCAGAAACAATTAAGATATAGACAAAGGAATCAGGCAGAAAGAGATCAAAATAACACCTTTACTTCTGAG
ATTGTGATACTGGAGTGTGTGATGTAGAGCTGGCACGGGGCTGCAAGTCACCCTTACCTTAAAGTTGCCCACTAGTTCAGGAAAACGGGTCTGATGGCTT
ATGCCAAGACTAAGGGCAAAGGGAAACACATTTTATCATAGGTGAGAAGACCCAAACAACTCTCTCCCCATTGTCTTCAAGAAAGAAAGAGGGGCTGAGC
CACATGTGCTCATGATCCTTCACCCAGATGCACTGGGTGGTTGAGAAGGTGGGGCTGCAAGGTCATGTTCTTTAGTGGGGATCCATCCACATGGAAAAAT
GAAGCTGGTGTAAAAGAGGGTTTCCCTAATATCATTGATTACACCTCATCTGCTACATTATCTTTCAAAACAAAACGACTCTGTGAGGTAAATAGTGGTA
TCTCCATTTTATAGCTGTAAAAACTGAGGCTTAGAAAAGATAAGTGATGGGTCGGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGACACTGAG
GTGGGTGGATCACGTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCGGGGCATGGCAGC
AGGTGCCTGTAATCCCAGCTACAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCACTCC
AGCCTGGGCAACAACAGCAAAACTCCATCTCAAAAAAAAAAAAAAGGATAAATGATGTTTCCATTGTAGAATAAAGACTGAATCCAGATCTTTCTGACTC
CCTGGACTGGGTTCTTTCCCTCCCGTATAGCAAAAATAATGATTGCCTACCACAGTCTAAGACTCTGAAGGGAAGAAAGATATCAGGATGACTTATTACA
CAGCTAATGCAAAGGGATATGACCTCTCCCTCTCTTCCCCTTCAATGAGCACCTCCACTTTCTTTGCCTGCATCTGCTAGAGTACTGGGGAGATTTTGGG
ATGGAACCTATCTTCAAATAGGAAAGAGCAGAAGAGGGTAAAATGGGCTTGCAGAACCTTAACCCACTGATACCCAATGATACCTTGCTCATATTATTAT
TGACTATTGAGATTGAGAAGCTCCTGACTTTGGATGGAGTAATGTGAGGGTTTAATGTCATGTACCTTGATTGTTTTTCTTTTTCTTTTTAGAGCAGTTT
AGGTCTAAGTGTGTGAATTTACCCATGGAAGGTGAGTTAGAATCAGTAATACTGGCTCAAAGGTAAAGGCCCATTGTTGGGGAGAGGAAAGCTTAAAAAC
AAATAAAAATGACTGGAGGTGGAAAAAAATTCACAGTTAATTGTTAAGATGCAAACCTATCCTGGGGTGTAATAATACTATTTGCAGGGCACTTTATAGT
TGGCAAAGGACTCCTGTTTGCACTATTCCTGTTCCCTCTTCTCAGCAACCCTGGAGTATGTGGGCATTGTTGTCTCATGTTATGGAGCTGGAGTCTGAGA
CTCAGGGACTGAGTGACTTGCCCAGGGCCACACTGCCAGGAGGCGGCTGCACCTGGGTTTCAGAAGAGGAGGAATGGCTGGAAACCCCAGGCCCTTCCTG
GCACCACACTGCGCCTGAGCACATGCTGCCTGCCCATCTCTGTGTGAAGGTCCACACTGGGGCCCATTCCTGGCATTTCTGGACTAAGTAGAGACCTCAC
GAGAGAAGGAGATTCATAGATGCTGATAATGAAGATGAGGAGGAAAATAAAATCCACCTTTCAGCTTTTAGCCAGCTGGAGCTTGATGGCAGGGGAGTTG
ATCAGTCTTTAGAGTAGAAGACCACCACTAGGAGGCAAGTTCCTCCGTTTTGTGCCTCCAGATAAGCAGAGAGGGTCTGTCTCTAGTACCTACTCCTGGA
AAATGGATAGAACAGTGGTTCTCAGGTGTAGTCTCTGGACCAGCAGCATCAGCATCCCCTAGGAGTTTGTTGGGAACAAAAATTCTGGGGCTCCATCCTA
GATCTGAGTCAGAAGCTCTGAGGCTGGGGCTAGCAATCTATGTTTTAACAAATTTAATGCGCATTATGGTTTGAAAACTGCTGTGATAGAGAATTCCCTG
AGGTGAAAACCAAGTGCATACTTGGGTTTAGAGTTTCTTCTGAGGCAGGAGGGCTGGGGAAGTTGAGGGATTTAGAGCATCACAGCACAAGGAGCTGTGG
TCTCTGTCCCCTGCTGAGCACTGGGTCATAGGACCCTGCACAGCCCACCCTGCACAAAGGCCACTGGAGTGCAAAGTTGAGGCATCATTTCCCTGCTCAC
CTGCAGCAGCTCCCCTTCCTGTGTGGCAGGACCCCAGCCCGGGGATATGCTGTACCTCATCCCTCTCTGCTGTCATGTCTAAGAAGCCTTCTTTAAATTG
TGTCTTCATCCCTAATCCTGAAGTCCAGCAAACAATCTTCTATCTGCTATGTATTCTATTCTGATCATTTATAGTCAGAAACAACCCTAACTGCTTCAAG
AGTAGTTGACATATTCAGAAACTGCAATGATACACAAATGTAGATCAGCAAGCATACTTAGAGGATGGTTTAGTCACCAGCAGAGTGACTGACTGTGATG
GAGAAGGTGCCATCTGAGTAGAGAGGGGGAGAGTTAACCTCAGAGTCACACACACACACACACACACACACACACACACACACGCATGGAAAGATGGATG
ACAATAATGAATGCCATAGGTACAGAAATAGTGGCATTGAAGGAAGGCACTATGACAGCATTTGGCTACCAGACTGGTGTCATGGACCGCAGTGTGGTAG
GCAAGGGCTTGCCATGGCCTCAGGAGAACCTGCTTCACTGGGAGGGGCCTCCAGTCCTGCTTCTGCACTACTGCTGGAAAGCCACCTCCCTAACCTGCTC
TTCCCATTCCTGATTTGCCTGTGCTCATATCTGCACCTCTGATCCCCATCAGTCACTCCAGGAGGGGTTCCACTGCCACCATTTAACTGAAGAAAAATTT
AGGCTCCTAGATGATAAGGACGTGTCTGAGGTCACCTAAGAAGGACAAGACGGACCTTCCATCTGCCATGTTGACTCCCAACTTCTCCAAGTTTGAATTT
GTAGAGACCTGATCTACAACACAGAGAAAAGGTGTGTACGTGGGGAAAGCAGGGAGTGGTGAGCCGCATTATCGTCTAATTCTAAGAATTTATGATTCAA
ATCTTATGATTCTTTTCAGTTTGCAGTTCAACCTAACTCAACAAGCACAATTCAGTTATATAGTATTGGCACTGGAATAAATGAAATATTCATGATATTC
TCATTAGAATCAGGAGCAAGGCAAGAATGCCCACTCCCACCAAAGACATTCAGCATTATATTGGAAGTAAATGCAGTAAGATAAGAAAAAGAGTTGGGTT
TTTAAATATTGGGAAAGAGAAAAGAGATTAAATTGTCATTATTAGAAAATATTATTGTAAACCTAGAAAATCAGAGACTTAACATTAAAAAATAACTCAT
TAAAGCTTTCTTTTGAACTTATATTCAACAGAAAAACTTAAACAAGTGCATACTCATAATTACAAACATTTATAGAAATAAATGGGTTTTAGTAGGGGAA
AATGGGCCACAATAAAAATACCTACTAGTATAGATATGATACATCCATATATAATAAGATATAACTTAGATTCAGCCAAATAAAAGAATGATGTAGCCAT
ATCTATCACTACTGAATCAAAGAAGTGTCCACAATATATTATTGAGGAGGAATAAAGCAACTCACAGAAAATAATGCAGCAAGACTCCGTCTCAAAAAAA
GAGAAAATAATACATAGCAAGATTCTATTGAAAAAGTACGGTGTATGTAAATATATGTGGGTGCATGTATGTAGACATAGCTAGGGAGCAGTAGTGTTAG
TCTGTTTGGCTCAGTTCCTAATAATGGTAGCTATTGGGAGGGTCCTCTACTAGAGTAACATGAGGGGTTCAAGATATTCCCTCTCCCCAGGGAGAGTGAC
AGGCAGGGGCTAGCAGCAGTAGCTCTAAAATATATTTTCAGAGTGCCCTGGAGGTCTGATAATAGTATCTTGGCACCCCTTCCACTAATATATATATGTA
AATATGTGTGTGCAAACATATATATATAATTTATAATGTGTGTATTTATAAATATGTATACTTATATGTATATATGTATAAATACATAGTATATAAGTAA
ATACTATATGTATATATTTAAATGTATAGGTTTTTTTTTTTTCCGAAAGAGCAACTTGCTGCCAGCAAAGTCTTCTCTGAGATGGTCTTGCTGTCTGCTT
GAAAGGACAGACAGAGTACATCACTGAGGGGTCAGTAAAGAAATGAAGCACTATTTTAAGCAGGAAGGGATTTAATACAGGGAATTAAATGTTAACAAAA
AGTGGACACTAGGTTCCTGGAATGACTCCCACCCATAGTGAAAGAGAGCTGACTCCCTAGGAGACCTACTACCTGCAAGACCTCTACTAGTACAGTGATT
TCAAGACACATCCTGTAGCTGTGACCAAGGGATAGGAAGCCAGAATTGATAGTGGCTGCTGCTGCTGCATTTGCTGTAATAGCTTCTAATCCTCTAGGAT
GGAGAAGGGATACTAGAGATCTGGACAGAAAAACCTAACATCTCCAAGAATTTATTTCCTAGCAGAAAAGAGGTGAGGGGGAAGGCAAAGACCTCTATGT
GACTTCCACCTTCCAAATTTCACACATCCTTTTACACTAAGAACACAGCTGCAAGGAAACATTGGAAGTGTAGTTTCCATATTTCCAGCCAGAAGGGGGA
CAGGATGGAAATGGAGAATACCAGCTCCAGCATAGCCACCATATGGAGATGGCATTTAATGGCCCGGTGCAGGAGGGCTGGCCAGATCTCACTGGATCGT
ACATTCTTCCTCCTCCTTCCCCTTCTCTCCCTGAAAAAGAAGAAATTGCATCTTGGTATTTCAATTTCTAGGCTATTATGTCATGGCTGTGGTTAAGAAA
TCAGATGCTGATGTCACCTGGAACTCTCTTTGAGGCAAGAAGTCCTGCCACACTGCAGTTGGCACTTCTGCAAGCTGGAACATCCCCATGGGCTTAATAT
ACAATCAAACCGGGTCCTGTAAATGTGGTGAGTATGTTCTGGGAGGTGTTGTGGCAGTTCATTCCCTGTGCCTGTGCCTGGGTAAAGGAGAAATTCAGTT
TGATGAATGGCAGAAAATGCCATAAATGGGTGGTGAGCTTAAGAGCTTGACAGAAATTGTGGGCGAGCCTCACATCTCCTTGAGCAGGTCCTCCTCCTTC
TCATCCTTTTGCTTCTGAGGGAAATACCTTGGCCCAAAGGGCAGATCTCAGGGAAATAGCTCTATTTTTGATGTCTCACAAATGGCTCAGGGAACAAGCC
TGGGTTCGCAAAGCAAGACCAGCCTGGATGCGTTGGTGCGCGCGAGTGTGTTGTTTTCACATATAAACCGAAATGGCTGCCTTCTTAATTGGAAACCTTC
CACCAGTAAGTCCTGGAGTGCTGTTTTTCATGTTCATCCTCATCTCTCCCATCCAAGTACTAGCAAGGCCTGACCCTGCTTAGCTTCCAAGATCAGACAA
GATCAGGCGCATTCAGGGTGGTATGGCCGTAGACCATCCTCATCTCTCTTAGATGCATTCATCATTTCAGCTATGCTCATGCCACTACCTAAGAGGCTCC
TGCTCCTCTGCTTTCCCCAACTCTCTGAAAATCCCAGCCCTGACTGAACCCTATTACCTGCTCTCTTTT


SNP Information

Context             (SEQ ID NO:62592):
TGTCTGTTTTGGGGTTTGTTTTACCTTTACCTCTATGCCGTCCTTCTTCCTTCACCATCTCTTTTGTCCTTTGAACAGGAACATTTTGGAAAAGACAAGT
Y
GTCAGAATTTCAGCTCTTTGGCTCTCCTCATGAGACAGATCTGCTGTTTACTGATGCTGCCCATGGGTTTTTAATGGTCCCACCTAAGATAGATGCCAAG
Celera SNP ID:            hCV25959551
SNP Position Genomic:     7462
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,31|T,9)   total(C,60|T,16)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62593):
CTTGGTAAACCTTCCTAGCACCAATTCCTAAGATTAAGATCTTGATGGTTATGTAGTCTACTAAATGTGTCAATTGTAAGGATTAAGTAAATCTCAGTAC
R
TATAACATTGCCTGGTATATAGTTAGCAGTAACTAAGTGTTAGCTGTTATTATTATTCAAAATCCCAGGGACAGTTGGTATATTTTCTTAAATAATGAAA
Celera SNP ID:            hCV29035467
SNP Position Genomic:     9479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62594):
GCCTGGCACATAATAAGGCTTGGTAAGTTTTTGCTGCTGTAGTCACTGTTTTTAGATTTCTAGAAGGGTAGTGAAAAGGTCAAAAACAAAGAGCATGTAT
R
TGCATGTTTTTATCTTGGTGACCTTATCTATAAGTATACTTTTTTACTCTATTAGAAAAATTAATTGATTAAAATAATAAGTGAATTATTAGTGTATTAT
Celera SNP ID:            hCV29035468
SNP Position Genomic:     10218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62595):
GTCAGAATTTCAGCTCTTTGGCTCTCCTCATGAGACAGATCTGCTGTTTACTGATGCTGCCCATGGGTTTTTAATGGTCCCACCTAAGATAGATGCCAAG
Y
TGTACCTGGGATATGAGTATTTTTCCGCGACTCAGGATCCAAAAAGAGGTATGTAAGGTCCCGGGAGGGACCTGGCCAGCTTGGGCAGCAGGGTGGGGTG
Celera SNP ID:            hCV25960199
SNP Position Genomic:     7563
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62596):
AGCACCAATTCCTAAGATTAAGATCTTGATGGTTATGTAGTCTACTAAATGTGTCAATTGTAAGGATTAAGTAAATCTCAGTACGTATAACATTGCCTGG
Y
ATATAGTTAGCAGTAACTAAGTGTTAGCTGTTATTATTATTCAAAATCCCAGGGACAGTTGGTATATTTTCTTAAATAATGAAACACTCATTTAAATAAT
Celera SNP ID:            hCV28029645
SNP Position Genomic:     9495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62597):
CCAAGGGAGCTACTAACTGCATTGGGTTAATGAGGGGGTTTTCTGTGATTAGAAAGTGGCTTTAATGGCCTTCATATTCTAGAAAACTTGAAGACATGAT
K
GCCCTGGCTCCTTTTTATTAGGTGGGGTCATCCCACCCAGGGTGAGTCTATTCGACATGGAGTATAAAAATAGTCCATCTTAAACTGAAGTGGGAATGTG
Celera SNP ID:            hCV27903837
SNP Position Genomic:     7829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62598):
GTGGGAGGCACACGAGTATGGATTCTTACCTGATGGAATTGGACTACCTCATGGACATGGATGGCGTCCTTTATGGAGGACAAAGGGACTGATTTGCAGG
R
TGTATCTGGGAAAGTTCCTGGGCCCTGGGGAGTAACTGTGTGCATCCTAAGGAGGTGGGGGGTGGGGGTTGTCAGGGAGGGCAGCAGGTGGCATTTCATG
Celera SNP ID:            hCV26218232
SNP Position Genomic:     6732
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62599):
TCTCTTTTGTCCTTTGAACAGGAACATTTTGGAAAAGACAAGTCGTCAGAATTTCAGCTCTTTGGCTCTCCTCATGAGACAGATCTGCTGTTTACTGATG
Y
TGCCCATGGGTTTTTAATGGTCCCACCTAAGATAGATGCCAAGCTGTACCTGGGATATGAGTATTTTTCCGCGACTCAGGATCCAAAAAGAGGTATGTAA
Celera SNP ID:            hCV25960101
SNP Position Genomic:     7519
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,2)   caucasian(C,18)   total(C,40|T,2)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62600):
CAGCCACTCTGCAGCGCTAAGCTCCCAGACCTACCTGGGGCTTCCTTTGGATCCCTCCACCCGGCCTAGATGTGGAAGACTCCCCAGGGTGCGGTGGTGC
K
CAGTGGGCCACCATGAGAGGGCCAAGTGTGATGAGTGGAGTGCTGTGACTGGTGGTGCCTTGGCGTGCACCATGGAGGAGACCCCAGAGGACTGCATCAC
Celera SNP ID:            hCV428753
SNP Position Genomic:     8527
SNP Source:               Applera
Population(Allele,Count): african american(G,19|T,1)   caucasian(G,10)   total(G,29|T,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 MISSENSE MUTATION


Gene Number:                 376
Celera Gene:                 hCG2042233 - 209000073596793
Gene Symbol:                 DKFZp547F072
Protein Name:                hypothetical protein DKFZp547F072
Celera Genomic Axis:         GA_x5YUV32W0T1(742119..755052)
Chromosome:                  Chr8
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12536):
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNCAAGCCTCCCAGAGACCCCCGCCGAGGACCCCTGCCCGGCGGCCAAACCCCCGCGGACCGCCCCTCTCCGCCCGCGCCGGT
TGAGCGCGCCCGGGCGCTGGCCGCGGTGCTGCCCAGGCCGGCGCTGGCCGCGGTGCTGAAGCTGCCGGCGCTGCCGCTGCCACCGCGTTCTCCGGGCCCG
GCGCCGCCGCCCCCGGGGGCATGGGGGGCCGCTGACTGAGGCTCCGCCGCGGCGGCGGGGGGGGGGAGGGGAAGGGGGCCACCGAGCCGGGCCAGCCCTG
CACCCACTCGCAGCCTCCAGGCCCGGGACGGAGCCGCTCCCCCCCTCTCCGCCCCCCCAGCCTCCTCCCCCGCCTGTCCAGGGGCGGCAATGCGGGCTGG
GAAGCCGGGACCAGAGGAGGGAAGGAAGGAAGAGGAGAGGAGAGAAGAGGAGAGAAGGAAGGAAGGATTGAAGGAAGGAAGGAAGGATTGAAGGAAGGAG
GAAGAAGAGGGATCCGGAGGGGCAACGGAGGAGACGCAGGGCAGCAAGGAGAGAGGACACCACTCGCGCGGCAGCATCCAAAGGCCAGAGTGGGGACCCG
CGCTGCCTCCGCCGCTCCTCGGATGGTGACGGGGCCCTGCCGCCGCAGCCCCCCCAAGCCCCGGCTCCGCAGGCCCACAGCGCCGGAGCCCCGCAGGAAT
CATGCCCAGGTCCTTCCTGGTCAAGAAGGTCAAACTTGACGCGTTCTCTTCGGCCGACCTGGAGAGCGCCTACGGACGCGCCCGCAGCGACCTCGGCGCG
CCACTGCACGATAAAGGTGAGCGCTGGTCTGAGACCAGGGCGCGGGGCCTGGGGCTTTGCTGGAAGCGGTGGAGGGCCAGAGTGTGGGGGCGGAGGGCAG
GGCCCGGGGAAACAGACTGAAGGGAACCAGAAACGGCAAGAGTCTGTGGCTGGAGCCTGGACGGTAGAGGGGAGGAAGGGGAACACAGAGGCCAAGGCTG
GGCAGGGAGAGTGTCGACGTTGGACAGAGGGTGGGGAAGAGGATCAGGAACTGAGGTACCCAAACGCACACATGGACCCACATCCTGACCCATGCTGGGA
CAGACACAGCCGCATGGGCGCTGCCATGACGGGACCCAGCCATGCCGGCACACACAGACCTACACTCAAGAGACCAGGGCCGCCTCGCCACCCTCTCCTC
TTCCTTGACTGCACCAGGACACCTGCTAGGGTTAGCTGGGGAATGCAGGGAGCTCCAGGGAGTAGGCAGGGGGTCCAACAGGGCCGCCCACCTGTCAGAG
CAGAGGGCCAGCAGAGGCAGCAGCAGTCTCTTCCCTGAAGCCTGGGTCAGGGAGAGGAAGCAGGGAGGAGGCTGTGAGCAAGGGACGCCCAAGGTGTGGG
AGGCAGGGGGAGGCTCTTTGTGTAAGGGTGCCCAAGTTCAAGGACAACTGTCAGCATGCAGGAGAGGGGGACAGGAGTGCCAGCAGCATGGGGTGGCAGA
GCAAGTGTGACCTGCAGGAGTGTGAGCCTGTGTGGGTCCATGTGACTGTGTGTGGCCATGTGACCGTGTGCGCTTGTGTGTGACCCTGTGTGTGTGTGTG
CTTGCCTGTGTGCCACTACATGGGACCATGTGACTCTGAGGCCGCTGTGCACCATGTGACTTGAGAGTGTGTCCGGGGTGACTGCATGTGTGACCCTGCG
TGAGTGAGGAGGTGGTGAGTTCGGCACATCAGTGTGCAGCCCACCCTGTGAGGGCACACAAGGGCTGATCATGCTGGGAGACTGGGTGTAGCCCTGAAGG
AGGCAGAGCGTCGCGAGGGGCGTGCATTTGTGACTTTGAGGTTATGAGATCCATCTTGTGCCTGGGGAGCAACTGCAGCTACCGGTATAAGTGATGCTGC
CCTCCTGCAGCTCGTCCCTGTGAAAGTGGACGCCCTGGCCCTCTCTGCACAGTTCAGGGGCTTGGGAAGGCCCTGAAAGGGGTTAGGGTGTGAGCAGGAG
AGGGCAATGTTGAACAGGGTAGGACCCAAGGGTGCAGGATGGTGAGAGGGAGTTCGGAGGAGAAGCAGAGTGCATGGAGGAGCAGGGAGGGCAGGGTCAA
GTCCAGTGGGTGGCCGGAGAGCTGAGGGAGGTGCTGGTGAGGCCGGAGGGAACTGGGGGAGGGAGACGTCTTCAGGGCTTGTTGGAGGAACCAGAAGGCC
AGAGGGGGTCAACATCAAAATGGAGCGCACGTTCTGCAGGCCAGAGGGAGAGCCGGCCAGGACCCCGGAGAGGTGGGACAGACGGGGTCCCTGGGCCGGC
AGTCCTGGCTTTGTGCGCCGCGGGTCTGCAGTGTGTTGCATAATCAGGGAAAACTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNCCCGGACCCTGTCTCATCCTCTCCTCCCCTCTCTTCCCCTCCCTGCTGTCTCCATCCTCCCTGCCCGGCGGTCCCTCGGCCTCCTC
TCCTTTGTCCTCCTCCCTGTTCGCCTCTCTCCCGGACCCGGGTCTCCCGGTCCGCGTCTGCTGTCTCCCGCCCCCCCATCCCCCGTGTGTGTCCTGCCGC
CGCCCCATTCCCTTCCCGCTGTCCGTCCGCCTCCGCCCGCAGGGTACCTCAGCGACTACGTGGGGCCCTCGTCCGTCTACGATGGCGACGCCGAGGCTGC
GCTGCTCAAAGGGCCGTCGCCGGAGCCCATGTACGCAGCAGCTGTGCGTGGAGAGCTGGGTCCGGCGGCTGCAGGGTCTGCGCCGCCGCCCACCCCGCGC
CCGGAGCTGGCCACCGCTGCGGGCGGCTACATCAACGGCGACGCGGCCGTCAGCGAGGGCTACGCGGCGGACGCCTTCTTCATCACCGACGGGCGCTCGC
GGCGTAAGGCTTCCAATGCCGGCGCTGCCGCCGCTCCCTCCACAGCCTCGGCGGCGGCCCCCGACGGCGACGCCGGAGGCGGGGGCGGGGCGGGCGGGCG
CAGCTTGGGATCCGGGCCGGGGGGCCGGGGCGGCACGCGCGCGGGGGCAGGCACCGAGGCGCGCGCGGGGCCAGGGGCCGCAGGTGCTGGCGGCCGGCAC
GCGTGCGGCGAGTGCGGCAAAACATACGCCACGTCGTCGAACCTGAGCCGCCACAAGCAGACGCACCGCAGCCTGGACAGCCAGCTGGCGCGGCGCTGCC
CGACGTGCGGCAAGGTGTACGTGTCCATGCCGGCCATGGCCATGCACCTGCTCACGCACGACCTGCGCCACAAGTGCGGCGTGTGCGGCAAAGCCTTCTC
GCGGCCCTGGCTGCTGCAGGGCCACATGCGCTCGCACACCGGCGAGAAACCCTTCGGCTGCGCGCACTGCGGCAAGGCCTTCGCCGACCGCTCCAACCTG
CGCGCGCACATGCAGACGCATTCGGCCTTCAAGCACTTCCAGTGCAAGCGCTGCAAGAAGAGCTTCGCGCTCAAGTCCTATCTCAACAAGCACTACGAGT
CGGCCTGCTTCAAGGGCGGCGCCGGAGGCCCCGCGGCTCCTGCGCCGCCACAGCTCAGCCCTGTGCAGGCCTAGGGCGGCGGGGCCTCCCCCAGCCAGGT
CGGCTCTCAGCAATACGGCCCCCCAGGGAAGTCTTCGCTGGCGTCCGGGTGGAGGGGCCGGAGGGCGGGCCCCTCCTCACAGCAATAGGGGGAGGGGGGC
CCGGTCCCACCCCGCCCCGCCCGCCAGGGGCCTTGCCGGCCCCCTCAAGCAATAGGGTCCTGAGGGGAGACCAACCCTGAGCCCCCTCCCTTCCCTTCCA
GGGTGCCCCCGGCTTTCTCCCAGCAATAGGGTCGACGAGACCTAGAACCGAACCTCATCTCCGAGTTGGGTCTCTGAAGACGGGGGTGAGGTGAGGTAGG
GAGCGCCCTCCTTCTCCCGCCTCTGCGCCCCTGGATCGCGTCGCAGGGACTCAGGTCTTCCCCACCCCTTCCCAAGCCTTCTAGCGCAGGGCCTGCGGCC
CAGACGTCCAGGGAGCCGGCCCCTCCCCGGCAGCAGGCCGGGGCGGAGCAGGAGCGGGCGGGCCTGCAGGGACGCCCCTGCCTAGCAGCCTTCGCGGAAC
TCCCGGCAGTGTTAGACGCGTTGTGGGTCGGGGAGAGGGGCGGACGGCGGCACCCCCTCCCTCGGGTTGCTTCTGGGGCCTCAGTCGGAGCCGCCCTCCT
ACCCTCGCCTCGCATCCTCTGCCAAATCCGAATTCTTCCAGCCCAGCTTCCCGGGCTCTGTCCTCCATATCGAATAATAATGACACATATCGAATCGCAT
GGACTTATCCGACCTCCTCAGACCCCGCTTCCGCCCTGCCCCGGGCCCCCACCCCCCCCCCCGTACCCCAGGCATTCGTGTTGGAGGACGGATTCCCGGG
GCCGGCAGGCAGGCCTGGGCGCTGCCCTCTACACACCTCTGTCTTCGCTTTGCGGGTAAAGCCCCCTGGGGGGGTTGCGGACGCGTCGGGTTTCTTTTTC
TGTATTTGTACGTTTTATTTATGAACGGATTGCACTCGGGTCAGGGAGGGGGCGCTGAACCCCCATCTTGCCCGCCGACGCCGGGGGCCTGGGATGTCCG
GGATTACTTTCCACGCCCCGAGGCCCGCCCCTAGCTGGGAGCCTCTAGGGAGCCTCAGGCCCCGCCTCTCCGAGGCAGGCCCCTCCCCTGAGACCCAGGC
CCCGCCCCTGAGACCCAGGCCCCGCCCCCACTCGGTTGCCAACTTTCGCCCGTCTATGCCAAAGCCTCGGCGGCGACCCCGCCCCAAGGGCCCGCCCCAT
TGGCCGCCGCCTTTGTGACGTCACTGCATGCAGCCCCACCCCTCCTCCCGATCCTACCCGGGGCTGCCCGCTCCCCCTCCCTCTTAGGTAGTCCGAAGCC
GACTATAGAGCAATAATGCGCACTGCATGCGAAGCTGCCGCCGCCTCTAGAGTTACTGAGAATCAGGTATCCCCTCGCCCTACCCACCCCATAGGCCCCT
AGATCAGGGACGCTGCGCGGGGCCGGCCGCGCATACTTTCTCCCCACCCCTCCCCGACCCCCACGGCAGAGCCCGGCGGCTGTAATGGTTCCATGGGCGG
GGGTGGGGTGGTTGCCCCCAAGACCCCTCCTTCAGGCATTAATCATTCACTGACCGTTCATTGAGCACCTMCTATGTGCCAGGCCAATTGCTGAGTCCGC
CAGGAGCGCAGCCACCTGCTGGGAGGTGTGTTTGCAGGACAGGGGTCCAACCGGCTTGGGTGGGCCAGGGAAGAACGGCAGATGCAGAGAGACCAGGTCC
CTAGGTTCACATGCCCCCTACACTCCTCCCCACCTCAACCAGTCCCTGCTGGGCACAACTGGGCTCTACCTTTGAGTTAGGCCTTTTGACTCCAGCTGAG
GGGGACAGATCCAGGGCTCCTGGGCCCCCACACAGGTGGCCACTTCTCTGATCCTCTGGCCAACACACATCTGCCATGTCCAGCCAGGGGCAGAGCCATG
GCTGGAGAAGAAGGTGCCAGCTGTAGCCTATGGTGTGGCCAGCCTCACCCCCAGCAGCAAGCGTGGCTGCCCCCACAAGGATGACCCACCGCTCTGCACA
GCAGTGCCCACATCCAAACACCCTACACAACCAGGTGTGGTGCCTGCACAGCTCCCAAGCTGGGGCCTGCCCACCTGTGCCGCATGCACACGCACACACA
GGCGCCCCCACCTCACCCCACCCCATACTCCTGTCTACCTACCTAAGGAGAAAGCTGGAGGGCTGTGGGCCCGTCAGGGTCTCCTGCTTCCCCCTACACC
CCGCCGCCGTGGAAAGCCATGGGCCCCCTCCCTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNCCCGCATGTGCCCCGCCGCCTTGTACATATTCCCACCCGGAATAGGCCGGGATTTTTACTCGGGCCGTGCCCCTCTTC
CGCCCCCATTTGGGGCCAGGCCGGCCGGACAGACGGACGGACGGACAGACCTCCTTCCTAAGCACAATAGCACCAGCTCCCCGGAGCACCGCACCTCCAC
AAGGAGAATAAATGCCACTCTTGATAGAATTTGGAGTGTCGGGCTGATGTGTCCTGGGCTGGGCCCACGCTGTTGGGTGGCTGGGAGGGTCTTCCCAGTC
TGGCAGTACCTCAGAGGCTGGTGCTGCAAGGGTCAGCCTGAGGCCTTTCACAAGACGGCCCTCTTCTTCCACTGGGGAGGACAGGCTTGGCAGGCCCAAC
CACAGGAGCATCAGGTCTGAAGGCAAAGTAGTTGGCATTTCCCCTGGGGTAGGTGGATCTGCTCCACACCAGGAACAGGAGCACTAAGGGGTTCCAGTCT
AAAGTCAGGCCAAGCCCACGGTTGGACCAGAGTGGGCAGGGTAGGTATAGTAGGAGCTGCTGTTCCCCAGCCTGGGTGCCTTCGCTCTTCTCTCCCTGAA
GGAGCTTTATGCTGTGATGGAAGGCCTGATAGCCACCTCAAGCCCTCTGAGATGCTGTTGCAGGAAATGGGGACAGTGGAGAGTTCGAGGTCTGGCCCTT
TTCCTGTGGCCTGCTGCCCACATTCTGACCCCCAGGCTTCCCAGATATGCTCCCCCAGTGTCTGCGGATGCCTCCATGGATAGCTGGGTTGGACCGGTTC
CAGGGAGGAGGTGCCCAGGGGGCAGAGAGGCTTCTGCAACCATCGCCCAAGGGCTCTAGACAGAATGAGTAGTGGAGGAGATAAGGGACAGGGACCCTTT
GCCCAGCAATGTCCCCTGGTAACCAGGTAGGCAGGCATGAGCCGAGAGGCCCAAAGTCTTCGGGCACATACATTCAAACCAGGTCAGTCCTAGATCCAGG
GCCAGCAAAGCTGCCCACACCCTAGCAGGGACAGGGGACAGACCTGCCCAGACTCCACTAGGGTGGAGAGCAGGGGAACCAGGTCTGCAGCATGTCATGG
CCTGTGTGCCTGGCACTTGGAGGAGCTGTGGTGCAGGTGGGTGCTCTCTTTGGGAGAGCACTACCAGCAATGACAATGGCAGACAGCAATGGCCAGGAGG
AAGGCTCCTAGCCTCACTCCTTCCAAAGGACTCCAACAGCGACTGGCTGTTTCTACTTCTCCAGGATTCTGATGCGTAGAGTGGGTGGAAGGATGGAGGT
GGCCTCCCTGAGGCCTGGGATGAGCTCGACCCCCCAGTTCCTCCCAGCCACAGACACAAGTTTCCCTCTGAATGAGCAGCACAGGCCATAGACCACCACT
GGCTGTGAACTCTCCTGGGACCCTTGCTTCTCACAGGCCTTCTTGGCCCACCCATGGCCCCTAGGCCCTGGGATCAGCCTGAGGCCCCAACCCACTTCCA
GCCCTTTATTCCACTAGCCCTGGAAGGCAACTCGCTTCGGGCTTGGGCCCCCTCATTTGTTGCTGCCCCCAGCAGGGTGATCTGCATCATGCTTTCCTCG
ATGACCCAGCCATACACACCCTTGTCCCCAACCAACCTCACCTACCCTGACCATTCCCCTCACCCTAGATCCCAGGGTATAGGGCCTGTCTGGGCAGGGC
TTCACCCACCTCTGGAGCTGCTGCCCCGCCACGCCCCCACCCCCGGTGGCAAAGCCCTTCCTTAATGGCCCGCCCACAGCCAGTGCTTTCCCCATTGGCT
CCAAGCCTGGCTCTGCTCACCAGGCCCGACCCATCCTCCCTGGTGGTCCAGTCCACCCTCCCATTGTCTTTCTCCTGTGGCCACTTGCCGGCTTTGAGTT
GGGACGCGACCACAGGTTGAGTCGTTGATCTCCTCTGCCTAGCATGAGGTGCTCCGTGGCCAGGTCCAGACCTCTCTGAGCTTGCTGTCAGTCCATACTC
AGACAGGTCTGGGCCTACCTGGCCACAGAGTGTGTCTGCCAGCGACTGCATTCAACAAATGAATATTCTGAGAGACTGGGTAGGAGATGGGGCTGGTCCT
GACCGACCAAGGCCCATGTGTGAGGGGCTCTTGGGTCCAGTGAGGGCGGCCCCACTCGGCAGGCTACACAAAGGGCATCTGCCAGGTAGCTCCAGCCTGC
CTGATACCTGGTTGGCAGCAACCCACAGCGGCCTGTGGTGACAAGAATATGTCACCAGGGGGGCAACCAAGGGGGCAGCCCTGCTGGCCACTGTTGGTGG
AGGTGGTGGAAGAGGACGGAGCTCAGAGGCGAGGCTGTGACCAGCCCACGGGAGAGGACCCCACCTCAGGAGGAGCACCTGTTTGCTTCCAGAGAAGTGC
TGCTTGCCCCTGCTCACCCCAGAGGAATGAAGGTGTTTCTAGAGTCAGAGTCCTCAGTGAACCCTGGCATCCTGAGATCCAGGATGTTCTCACTCCATGC
CCTGTGCAATATGCACACCAAGCCAAGGTGGGCCGCAACTGTGGCTGTTACAGTTGATTAGTTGCTTCATTTAACATACAAGATGTCTGGGGCAGTGGCT
CATACCTGTAATCCCAGCACCTTCAGAGGCCGAGGTGGGAGGATTGCGTGAGGCCAGGAGTTCGAGACCAGCCTGGGCAGAATAGCGAGACCCCCATCTT
TAGAAAAAATAACAACAGGCCAGGCGCGGTGGCTTGCGCCTATAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATCGAGAC
CAGCCTGGCCAATATGGTGAAAGCCCGTCTCTACTAAAAACAGAAAAATTAGCTGGGCGTGGTGGCACGCGCCTGTAGTCCTGGCTACTCGGGAGGCTGA
GGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGACGAGATCGCGCTACTGCACTCCAGCCTGGCGACAGAGTGAGACTGTCTCAAAAAA
AGAAAAAAGAAAACAAAAAACAACAGGGCGGTTGCACAGGCCGTGCAAATGCACAGAAGCCTCTTGAGTCCCGGCGATCCAGCGGCCCAGACTTCTGACA
TCCTGGAGAGGCTGGCCCACGTTGGAAACTGGGAGGCCCTGAGAGTTGAGGGACGTGGAGCTCCTTGTGGAGAGAGTGGGTGGGCTGAGAAGACACCACC
AAGGGGCCTGCGCCCTCGCCCTCGCCCTCGCCCTCCTCTCGCCGGGCTCTGCAGGCCCGGAGGTGGAGAGCCTGGGAGTCGCGTGCAAGGCAGGCGTCCC
GGTGACGCAGGGCCTGGTGCATTTCTCCAGCTTGGTCTTCTGACCTGGCCCTTGTCTGACGTCCCCCTAAGGCGAAGAAAAGCAGGTTCCTGCCGGGGTA
ACCAGAGGGCTCGCGGAGCAGAAGCGCGCCAGGGACGTTACTGTAAGCTGCGTGCGCAGAAACCAACGCGCTGGGTGGCGGGCGACGCGAGCCGCCGCGG
ACACCGGCCCGGACAGCTGGACCGTGGCGCACTAGGCGCTTCCTAAATGATTGCCCGGAGTGACTCGCCGAGACCCCGTGTGTACACAAGTGGGACGAGG
GGCGGGCGCACAGCGGCCAGGAAGTCGGGGCCCAGCGCACCCCTCAGCGGACCATCCCGCTCCGTGGGGCCGGACAGGACCCCGGGACCACGCGGGAGCG
ATGCAAGGTCCGTTCCCGCTGCGCGCACTTGCGGCCCGCAGCCCCGGCCCTGGGAGCTGCCACGGCTCCCAGGGTGTTCTGCGCCGGTGCGGCCGCGGCG
ACTACGACTCCCAGGGTGCTCTGCGCCGGCGCGCCCGCGGCGACTACGACTCCCAGGGTGCCCTGCGCCCCGTCAGCCTCTCCAGGCCCCGCCTCAGGTC
GGCCGCGGACTACAAATGGACGAGAGAGGCGGCCGTCCATTAGTTAGCGGCTCCGGAGCAACGCAGCCGTTGTCCTTGAGGCCGACGGGCCTGACGCGGG
CGGGTTGAACGCGCTGGTGAGGCGGTCACCCGGGCTACGGCGGCCGGCAGGGGGCAGTGGCGGCCGTTGTCTAGGGCCCGGAGGTGGGGCCGCGCGCCTC
GGGCGCTACGAACCCGGCAGGCCCACGCTTGGCTGCGGCCGGGTGCGGGCTGAGGCCATGGGCGACCGCGGCAGCTCCCGGCGCCGGAGGACAGGGTCGC
GGCCCTCGAGCCACGGCGGCGGCGGGCCTGCGGCGGCGGAAGAGGAGGTGCGGGACGCCGCTGCGGGCCCCGACGTGGGAGCCGCGGGGGACGCGCCAGC
CCCGGCCCCCAACAAGGACGGAGACGCCGGCGTGGGCAGCGGCCACTGGGAGCTGAGGTAGCGGAGCGCCTGACCCCCTAACCTCTGACCCAAGGGCCCC
GCGACTTTCCGGGGTTGGCCGAAGCGCGAGCTCCGAGTCCGAGAACATGGGCCCTGGGCTAAGCGGGGATCGGTGTGCCCTATGGGCCCTGTGGGGAAAC
TGAGGCTTGGGGAGAGTCACCTGACAAGGTCACTGGGTAGGGGCTCTGGAGCTGGCCTTGGCCAGGCAGAGGGGAGCCGGCAGGTGTCCCGCATCCAGAT
CCTCTTGGGTCTGTGCATCCTCAGGGGCTCCTGAGGAGCTTTTCGAGGGGCGGGCTGGTGGGGGCCCGGCCCTGGACAGTGTCCCCTTATATGGAAGGAG
TCAGATAAGATCTGGGCAGTTTGTGGTGATAGGTTCCTTCTTGGTGCTATGAGCGGTGCCTTGCGGGTAGGAAAGGCTCCCAGAGGAGGGCTGGCCTGCC
AGGGAGGGGGCCAGAGGAGCCCAGGCCTGTCCGAGGACAGGGGAATCAGCAGCTGCCCCGGACAAGGGGCAGTGTTAGAGGCGTTCTTGTCCTTGCAGAC
CCTTCTGAGAGTGGCTGCGTGGCCCATTCATTGCTCCAGTGGTTAGGCTGGCCTGGAGCCCTGCCGATGTTGCCAGAGCCAGCGTCTGTTGTAGGGACAG
AGAGTTGGGTTCTGTGTTGGGACTTCCATCCTCCAGGTGGGGAGTGGGGTATGGGGGTGGTGGACACACCTGCAGGCGTGTGCCCTGCTCAGCTGGATGA
CTGACAGAGAGGGGTGGAGGGAGAGAACCATGGCCGATGGGAAGGACTTGGCCAGCCTGGGCATTGGCTTCCTCCACCAAGCTGGCCTTGAGCAATCCCC
TTGCCACCCTCCATCCCCCCTTTATGGCCTTTACCCTGGCCCAGGGGCCCTCAGGGCTTTGTTTTAGAGAGCAGCTGAGGGCCTAGAGGTTATCAAGGCA
GAAGTGGGCTGATTTTGGACATGTAGTTGGCAATGATTTGCTCTCTCAGTGAGCAAGAACAGAGCTTTCCTTCACGGGGCACCATGGGGAGGGGGTTGGG
GGAGGGCAGGCACTGTCGTGGCCCTCAGGGTGCTCAGTTCATCTGGGAGATAAGATAACCTCAGCAAGAGTCAGGCATGGAGCAACATGGACAAAGGTCG
GGCACGGAGGCCTTGAAGGGGCCGTGGGGAGGAGGGTGGCCCTCCTGAGAGGGGTGCTTGCCTGCTGTGGGCCTGGGGTGCTGGTGAGGGAGGCTGGCCT
AGGCACCTCCTACCTGAAAAGGAGGTGTGGCTCCTGGAGTTACCCTCTCTCCAGGAGGCAGGGGGATGGCTACATGACCTGTGGAGGACGTGGGAATTGA
GATTTCTTTTTTTTTCTTTTCTTTTTTTTTGAGACTAGTTTTGCTCTTGTTGCCCAGGCTGGAGTAAAATGGCACATTCTTGGCTCACTGCAACCTCTGC
CTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCC


SNP Information

Context             (SEQ ID NO:62601):
GCCCGGCGGCTGTAATGGTTCCATGGGCGGGGGTGGGGTGGTTGCCCCCAAGACCCCTCCTTCAGGCATTAATCATTCACTGACCGTTCATTGAGCACCT
M
CTATGTGCCAGGCCAATTGCTGAGTCCGCCAGGAGCGCAGCCACCTGCTGGGAGGTGTGTTTGCAGGACAGGGGTCCAACCGGCTTGGGTGGGCCAGGGA
Celera SNP ID:            hCV28970296
SNP Position Genomic:     6271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 PUTATIVE UTR 5


Gene Number:                 377
Celera Gene:                 hCG2042456 - 209000073605103
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VV34(37163523..37177343)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12537):
AATAAAATAAAAAAGGGAAATAACCAAACATTTGTTCTGCCTTTGTTGTACAAATTGTATTTCAGGGTAGCCAATGAGTTTTAAAGGAAAAGTCCTTTTG
TATAAAATATTTTCAACTAATAAATGTAAAAGAAATGATAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGA
TCACGAGGTCAAGAGATTGAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAGTACAAAAATTAGCTGGGCATGGTGGTGCACGCCTGTA
GTCCCAGCTACTTGGGAGGCTGAGGCAAGAGACTTGCTTGAACCCGGGAGGCGGAGATTGCAGTGAGCCGAGATCGTGCCACTACACTCCAGCCTGGGTG
ACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAGAAAGAAACATAACAATTGAATATAGTATGTGGATCTTTATTTCATAATCCAATTATTTAAAAA
TAAATTTCTGAGACAATGGGCAAATTTGACTATAGGCTGGATATTAAATTATATTAAGGAATTAATATTAATTACAGATTAATATTTCTGTCAGTGTCTT
AATGATACTGTGGTTGTGTTTTTGAAAACAGTTGGCCTGGTGTGGTGGCTCATGCCTATATCCCAGCAATTTGGGAGGCTAAAGCAGGCTGATTGCTTGA
GCCCAGGAGGAATTCAAGACTAGCCTAGGTGTCATAGCGAAACCCCATCTCTACAAAAAAATACAAAAATTAGCTGGTCGTGGTGGTGCACATCTGTAGT
CTTAGCTACACGGAAGCCTGAGATGGGAGGATCTCTTGAGGCTGGGAGGTGGAGGTTGCAGTAGCCCAGATGGAGTCACAGAGCAATAGAGTGAGTCCCT
GTCTCAAACAAGAAAATGGAAAAAAAAAAAAAAAGTCTTTTTCTGTTAGAGACATATACTGAATTATTTAAGGATGAAATTATACGGTCTCCAGTATTTC
CTTCAAAATACTTCAGAGGAGAGGAAGTGGCAGCACAGAAGATTAGGAGAGAGTCAATAAATTTTTTTTATTATTTTTTTTTGAGACTGAGTCTCGCTCT
GTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAAGTTCCGCCTCCCGGGCTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGG
ACTACAGACGCACGCCACTACGTGCAGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTCTTGGTCTCCTGACCTC
GTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCAGTCAATAAATATTAAGGCTTAGTGATGGGTACGCG
GGAGCAGGGGAGGAGCATAATACCATTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAAT
CTCGGTTCACTGCAACCTCTGCCTCCCAGGTTCAAGCTATTCTCCTGCCTCAGCCTCCCCAGTAGCTGAGATTACAGGTGCGCACCACCACACCCGGCTA
ATTTTTTTGTATTTTTTAGTAGAGACGGGTTTCACCACGCTGGCCAGGCTGGTCTCAAACTCCTGAGTGATCCGCCCACTTCAGCCTCCCAAAGTGCTGG
GATTACATGGGATTACAGGCATAAGTCACTGTGTCTGGCCTTTTTTTTTTTTTTTTTTTTTGTATGTTTGGACATTTTCGTAACAAGAAGTTAAATTTTA
AATAAGTAAATAAATAAAGGCTTTAATGCAATTTATGTCTGCACTTGGCTTATGCCCTGGGGAAGAGACTGAATGAATGAATCCAAAGAACTGTAATATC
GGGATCCCTGTACCACTTGGTTTTGAGTGCTCTTGTCTAAATGTGTAATCCTGAGGAAAAAGGCATCTCCCTTCCTTTTTTAGTGGAAGGCTTGAAGGAA
GGTGTACCAGTATCAGCCCCAGCGAGGACACAAATCTCAATCCAAGTCATTTCTTTCAGATGGCCTATGTGTTAGCAAGAGATCACAGTATTGGTAGCTG
GAACTTGGGTTTGAGATGGGCTGCAATTATTTCTGACTGGGGCTTTAGTAGACATAAGGATACTGTGCTGAAATCCTGTGGTCAGCAGTGGAAGTTGACA
AAAGGCATGGCTTTTCAAGGGTATAACTTTGACAAAGATATTGCTTTAAAACATTTCAGAATCAGCAGTGACACCGGGCTCTCAGCTTCTGCAGCAGCTA
GGGTGATACCTTCCAGAGCAATCAGCTGTGGTTGTGACCACTGTGACTCCTAAGCTTATCAGGGGAAGGAGGTTGAGCTAAGAGGGGAGAAGGAAAGGTC
TAGATTTTCCACTAATCTAGGCACATGCAGCTTGAGTTGACAAATGAAAGGCATCCTTATGGTGAGATGTCTTATGTTCCTCAGCTGATGAAGCAGGATT
TACTCATTACCTGTTCTTGAATTGTATGATTTTAGTATTATATTTTATGGAAACAACTTTTGACTATGATTCAGAGATGTGACTAGAGTATCTCTGCCAC
TCCCTTGTCACTTGTGTCATCTTGGGCAGGTTGATCTTCTTTAAATTAAGATAATAAGACCTTGCCTGTCTACCTCCATGGTTGTTGTGAGGATCATAAG
AGATAATATATAAAACTATAATTTTTGTAAACTAGCTGTATAAATCTAGGCATCATTATTATTGTAAGTGACTAAGTGATTTACATCTTAAAGCCCCTTA
TTTTCCTTGATTCTATGTTAACAATAAATGTTTAATTGGTGTGCTATAAAATTAGATAGTTCCAAAACAACTACAAAGAAATTTAGTGTATAGTATGATC
TTTCTACGTTCTGCAGTGTTACATAGGAATTCCTGGGAATAAGAAAAATTTTATCCAGTTGCTATTTTATAGTTATATCCTTGACTGTATTCTCATCAAT
TTAGGAGACAAATAAGTTACTTATTTATTCCATAAATAGTGCCAATTATTTTATAATCTCAATTTAAGAAGTCAATATTTATTATGTTCAATAATGTATA
ATCAGGCCAGGCACAGTGGCTCATGCCTATAATCCTAGCACTTTGGGAGGCTGAGGCGGGTGGATCATTTGAGGTGAGGAGTTTGAGACCGGCCTGACCA
ACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGCATGGTGGCACTTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGCCGAGATCGTG
CCACTACACTCAAGTCTGGGCAACAGAGCAAGATTCCATCTCAAAAATAAATAAATAAATAAATAAATAAATAAATAAAATACAAAAGTAAACATACAAA
AATTAGCTGGGAGTGGTGGTGTGTGCCTGTAATCCCAGCCACTTGGGAGGCTGAGGCAGGAGAATCACTTAAACCCAGGAGGTGGAGGCAAGATCGAACA
CTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCGTCTCAAATAATAACAATAATAATAATGTATAATCAATCAGAAGATTAGAGCGGAAGTTGGTAAAG
TGTGCCCCATAGAATGAATCTGGCCACTGTGGCCTGAAAACTAAGAATCATTTCGACATTTTTTAAATGGTCTTTTTAAAAAAATCAAAGAAGACTATAT
TATGACATGACACCTGAAAATTATGTAAAATTCAAATTGCAGTATCAGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTAGGAGGCCGAGGCA
GGTGGATCACCTGAGGTCAGGAGTTCGAGACTAGCCTGACCAACCCCGTCTTTACTAAAAATACAAAAATTAGCCAGGCGTAGTGGCATGTGCCTGTAAT
CCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCCCGCCATTGCACTCCAGCCTGGGCAAC
AAGAGTGAAACTCTATCTCAGAAAAAAAAAAAAAAAAAAAAAAAAGGGCCGGGTCGGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCC
GGTGGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCATATCTACTAAAAGTACAAAATTAGCCAGATGTGGTGGCACAT
GCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATCGCTTCAACCCACAAGGTGGAAGTTGCAATAAGCCGAGATCGCACCATTGCACCGCAGC
CTGGACAACAAGAGCAAAACTCCATCTCAAAAACAAAAACAAAAATTGCAGTGTCTATTTATTAAGACATGGCCACACCCATTCATTTATGTACCATCTG
TGGCTACAACAGCAGTTGAGTAGTTATGAAAGAAACCATGTGGTCCACAAAGACGAAAATATTTACTACCTGGCTCTTTATAGAAAAGTTTGCCTCCCCT
TAGACTAGACGATTCAAAGGGATAGAAATAAAAATGTTTTTCTAAGTTGCTAGCTCCCTGTTAGTATAAATAAACCTGGGATACAGGTACTCAAATGACG
CATATTTCAAAAACTCAGTTATGGTTTTTTAAATGAAATTACATTTAATTTTTTTTTTTTTTTTTTTTTTTTTGAGATAGAGTCTCACTCTGTCTCCCAG
GCCAAGCTGGAGTGCAGTGGCATAATCTCAGCTCACAGCAACCTCCGCCTCCTGAGTTCAAGGGATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGGTTA
CAGGCATGCACCACTACACCTGGCTAATTTTTGTATTTTTAGTAAAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACACCCCACCTCAGGTGA
TCCACCCGCCTCAGCCTCCCAAAGCGCTGGGATTACAGGCATGAGCTACCGTGCCCGGCCAATTTTTTTTTTTTTTTTTTTTTTGAGACAGGACCTCACT
CTTGTTAACCAGAGTGCAGTGCTGCGATCTTGGCTCACTGCAACCACTCCTTCCTGGGCTCAAGGGATACTCCAGCCTCAGCCTCCTGAGTAGCTGCAGA
TATGGTTTTAACATGCAATGACCAACTAAGCCAATTTTAAGAAATTAAAAGCCAATTTTGTTTTTGAGACAGTCTCACTTTATTGCCCAGGCTGGAGTGC
AGTGGCACAATCTCAGTTCACTGCAACCTCCATCTCCTGGTTCAAGCGATTCTCCTGCCTCAGCCCCCCAGGTTTCTAGGACTACAGGTGCACACCACCA
TGCCCAGCTAATTTTTATATTTTTTTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGATCTCGAACTCCTGACCTCAGATGATCCGCCCACCTCAGCCT
CCCAAAGTGCTGGGATTACAGGCATGAGCCATGGCACCCGGCCACGAAAATCTTATTTACAAAATGTAATAAATAAAATATGAATAAGTATAATGCAATT
AAATAATTTAAAAATTTCCCATTTTGCTCATTGATGGTGGCAGAAAAAAAGAGAATTGGGATTATATTAGTTCTCTGACTAACACACAATAGAAACTGAC
TCTGACTAAGGGAAGAAGGGGTTTATTGGAAAAAGGATTCTTGAGTAGTTCCAGAACTGAGGGAAGAGATAGAGATCATGACCTTTGGAAGGACAGGAAA
CTGGGAAGCTCCAGGTCCTTACCAGCAGGTGACCCTGGGCCTGCTCTCAGGGCACATCTATGAGACTTCAAGAGGCTTTCATTGGAGTTTCAAGTTTTAT
GGAGAAATAAATTGATGGGCCCAGTTTATGGCCACGTAGCCAAAGGGAGGGAATAATGTGATTGGTAACCTCCCTGGAGTCCCATGGTTGAAATGGAGAA
GGAAGAAAGGAGAGGTAAGTAGGATTAAGGGATGCCAGGCCGAGGAGAACCAACAGATGTGTGCACAGCTTGTCAGGAAACATGGGCTATAATCTCAACT
TCACCAAACGGGTGAATATACTGGGCTTCAGTATTATGTTCAATATGTAATAATTATATATTAGTATAAAACGAGGGGCAAAAGACCCATCTGCCATAAA
ATTATTCATTGGCCACAGTGCAGAGGATTTGGTTTTTTTGAGTTAAAGAATTTTTTTTTTTTCTTAAGAGACAAGGTCTCGCTCTGTCACACCGGCTGGA
GTGCAGTAGCACTATCATAGCTTACTGTAACCTCGAATTCCTGGCCTCAAGCCATTGTCCCGAATCAGCCTCCCAAAGTGTTGGGATTATAGGCATGAGC
CACCATACCAGGCCAAGAGCTTTGTATATTCATATACAGAATTCATAAACAGTTCACCTGATATACAGAATTCATAAACAGTTTACCTGAACCAACAAGA
AAAGACATCAAATAGTGCTTGACTTCATTACTTATTAGGCAGATGCCAAATACTTTTCTTTCTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTC
TGTCACCCAAGTTGGAGTGCAGTGGCAAGATCATGGCTCATTGCAGCCTCCACCTCCCATGCTCAAGTGATTCTCCCACCTCAGCCTCCCAGGTAGCTAG
AACTACAGGCATGTGCCACTGTAGCCAGCTAATTTCCTTTTATTTTTAGGAGAGATAGGTTTTCGCCATGTTGCCCAGGCTGGTCTCAAACTCCTAGTGA
TCCATCTGCCTCAGCCTCCCAGAGTGCTGAGATTACAGGTGTGAACCACCATGCCCGGCCTAGAGATACAAATTAAAACCACCATGAGATAATACTGCGT
ATCTACTAGAATAGGTAAAATGAAAAAGACAGACAATACCAAGTTCTGGTAAGGATGTGGGGCAAGTGGAAATTTCATACATTGTTTGTTTGTTTGTTTT
GGGACAGTCTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCATGATCTTGGCTAACTGCAACCTCTGTCTCCCAGGATCTAGCAATTCTCCTGCCTCA
GCCTCCCAAATAGCTGGGATTACAGGCATGCACCACCACGCCTGGCTAATTTTTGTATTTTTTTAGTAGAGATGGGGTTTCATCACGTTGACCAGGCTGG
TCTTGAACTCCTGACTTCAGGTGATCTGCCCGCCTCAGCCTCCTACAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCTACTTTCATACATTGT
TAAAAGCAGTATCAAATGATACAACCATGTTGGAGAACTCTTCAGCAATATACACTAAAGCTGAACACATTCATGCCCCAGAATCCATAAATTCCACTTC
TACTTATGTACCCAGGCACCTAAAATACTCTTCCTTAATGGGTTTAGGCCTGGGGCCACAAACTCAAATGCACACAGAAAGATTCTATCATATGATCAAT
TGTGGTAGACAGTAGGGAGTGTCAAGGACTGTGGTTAAACTGGAGAGCTCCCTATTAAGATTATGTTAAAAAAAAAAAAAAAAAAAAGACAGCCTGGCCA
ACATGGTGAAACCCCATCTCTACCAAAAATACAAAAATTAGCTGGGCTTCCTGGCAGGCACCTGTAATCCCAGCTACTCGGGGGCCAAGGTAGGAGAATT
CGTTGAACACAGGAGGCAGAGGTTGTAGTGAGCTGAGATTGCCCCACTGCATTCCAGCCTGGGCAACAAAGCAAGACCCTGTCTCAAAAAGAAAAAAAAG
AGAGGAGTTCTTATCTATACCTGTAGCCATTCTTTCCAAGGGCTCATTGCACTTTGTGCAGGTCTTCAGATGCAAGAAGACAGCCACAGCTGTGGCACAC
TGCAAACGCAGCAATCAAGGTGAACAGGCGGCCCCTGGAGATGATCGAGCTATACATACCAATATATGAGCTGCTGGAACCAGTTCTGCTTCCAGACAAG
GAGTGATTTGCTGGCATGGACGTGTCCATGTGAAGGGTGGTGATCACATGGCCTAGATATATGCTATCCATCAGTCCAGCCTCAAAGCCCTGGTGTCCTA
TTACCAGAAGTATATGGATGAGTTTTCCAAGGAGGAGATCAAAGACAAAGATCAAAGACATCCTCATACAGTACGACCAGATCCTGCTGGTGGCTGACCT
CCACCACCACTAATCCAAAAAATTAAGAGACGCTGGTACCCATGCTTGCTACCAGAAATCCTACCAATAAGCCCATCATGAGAATTGGGGTTTACTTGTA
TAATAAACAATGTTTGAGAGATTTTTAAAAAAACAGAGATGATCCTTTTGTAGTTCATGAGCATGATGATTGGGTGTTCCTGCCCACGTGTGAGATGAGC
CACCCTCGAACCTTGTTACCATGTTGACATATTACCTGACTGACGTGAGAAAAACAAAAAAAAAGGAGATTATGTTAAGTGCCTGGGAAATACTCTTCTT
ACTGAGGAAGAAACACCTGGCCAGTTGTACATACTGGCCAGGAGAGCATTTTCAGTAAAAGTTATTCAAGTGGGTACTATGGACACCATTTGGTATAACT
TCCCATCACTCTTGTACACTTTCCTCTGGAAATAGCCCTGCTGCCATGTCTAGACTTCAAGGTTTTGCCTCTCTCTCAATGGCTAATTGCTCTTGAGTGG
ACACCTTACCCAAGCCAGGAGCAGTGGATTCTGTTGGTGCTCTACCCAGATCTCCTTGACTAGGCAGTGCACCATCCCCCAGCTGCTGTGAATGTTGGCT
ATGAACACCTCACAGGTGGCTTTGCTATTGAATCATCTTCCCAAAAATGCTTGAGAAAGTATGTTCTCCCCCTCGAGGGAGAGGAACACCATTGCTTCAA
AGTGGGATAACTCAGTCATGTCATTCACTCTCCAGGTCCCACCACCGGATCAGGCTGAGGCTAGGCTTGCTTAGCTCTGTCTCCTGTACCACCCTGCTTC
CCTCACTCCCTTAATGGATTTCTCCTGAGAGCACTCTCCCCGTACATCACAACAGAATCCCTCTGCCTTTGGGGAACCCAAGCTAAGTCATAGGGCCCAT
GAGATCCTTTTATCCCAAAGAACCAGAGAGCCTGGGCACACTGAAACAGAATCATATCAATGGCAACACAACCATGAACTCCTGGTGCTCAGTTTCTTCC
CTTGCTGAGCTGTGGTTATCCAGCTTTCTTTTTGATTTCATCAAAGCCCACAGGAGCTTCCCAATAATCCTCCTTTTTGTTTAAGTCAGCCAAAGTTTCC
TTTTCTTCCCTGAAACCAATATAACCTTAACTAATGTGATGGGTAACCAAGGCCTGACCTAACGTGGCTTTGGAAATATGACCCAATACTTTATGGGACA
ACCTCAGTTGGAATCCTGAGGGAAAAATTAATTGATTGCCCTTCCTATCCCTAGGCATTAGTAACTAGAAATGTTGCTGGGATCACTCCCTGTCTTTAAT
CCTCCAGGAATTTGCCTTGCTGGGGAGCTAATTTGTTACTCATGGCTGTTTTCCTGAGACCTTGTGATTCCCTGGAGGCACAGGAGTTAAATTACTTCCA
CTGGCCGTCACACCCTTGCATCTTTTGTTGTTTCCAGTACTGTCAGGAAGGCTCTAACATCTCTCTGAGCCTTCTTGTTTCTGAAAAATGCTTTTCTTCA
TCTTTGTATTTCTCTGTGTGTGTATACATGTGGTACATTTGCACACATGTTAGGAAAGTAGAAGGAGGTCGGGGGAAGTCAGAGGAGGAGTGGTCAGATT
TCAGATCACTGAACCATGGGTTATAAATAAAGGGTGACACAACACAAGCCTGATTAGTTCCACTCAGAATTGCTCACTGATTCATCAGAAAATTGATCCT
TCTGACCTAGACACTCCTCTCTCAATAGTCAAAGGCAGCTTTTGTTTGAGTCAGTAATTGTGCCTCTATAGGAATTTTATGGAGTTTAGCCCAAGAAAAC
GTTCTATCCAAGCCAAATGTGGGTATGGTAGAATACTATTGAAGATATTAACCTACATTCTCCGATTGGCATGTCCTCCTCTTCTTTCCCTCCATTCAAG
CAGCCATGTGGTCTCAGGGAGACATGCCGCAGAGAGAAGAATGAAAAGTTGACAAGTTTTTCTGGCTTGTTTCTAATAATAGATGCCATAAACTGATAGT
TCACTGATCTTCGAACACCCACACATGAGTGCCACTGTTTTGGCCCACACAGTACTTTTTTAAAGTATGATGCTGTTCACATGAGGCTCAGCTCTCCAGG
TCACCACAGTCCCCAGCATTCCTTATTGTCTGTCACAATTGACATTACCTGCCTGGCCTCTTTCTGTGTGCACTTGATTCTGTGACCCCAGGCTTAAACC
CATTAAGGGAGTTTATATTAGGTGCCTAGGAAGCAAACATTCTTTCCTCTTAGGAAGACCCGGAAGATTAAGAGAGGGAAGGTTTCCCTCTTAAGAGGAA
AAACCCTAGGGTTATAGTCAATAATGAGCCAGGGCCTCTTCTTTGTATCACAGAGAGTGGAAATTCTGGACTCTCAGGCCCGGAACGCTGGGGTCCAAAT
GCCTGAGGAGATGGGGGAGTTACGGAAGGAGCAGTACTCCCAAGACAGGATAGAGGCAAAGAGGCACATGTGAGGGTCTCGAGTCACAGTGAGGAAATTC
TCCCTGCAGCCACCCATTAAGTCCCCTTCTTTTTCCCACATGATTCATCCACCAAACAGATACTTAGTAAGAGTTCACTGTGTTCACTGTGTGCCAGCAA
TGAACCAACATTTGTGGGCTTTTCATTATGTAATCTCTCTCTCTCCATCCATCCAGATTCTGAACTATTTCCAAGAAAATGTCACCACTTGCTTTACCTC
CTGAGGCACCTTGAATACCCCTTTGCCTTGAATGAGAGAGAGAAAATTGTTTTTCCTTCATTCATATAATTCTGGAATGATAGCTCTGAAAAAGCCATGA
GAGCTGATAAAGGCCTCCTATCTCCGAGAAAGAAAAGAAATTAAGAAGATTTGGTATCTTTGGTTCACCACTGTATCCCTAGCAGTGTCTTGAACAATGC
CTGACACATAGTAGGTTCTCAGTGTTTATTTGTTGACTGAATGAGCAGCTAAGCAGTTAAGGGCAGAGTGGGTCCCAGTTGCCACATGTCCTCAATCTTT
ATCCAGGCTCTTTCCCAAACTGCAGGTTAGCAGAGGGAAAGCCAATGTTTTTTTATAAGAGCCTTCTTTTTTTTCTGTTTGTTTTTGTTGTTTGTTTTTA
GAGACAGGGTCTCACTCTTTTGCCCAGGCTGGAGTGCAGTGGCATGATCATAGCTTACTGCAGCCTCAAACTCCCGGGCTCAAGCAATCCTTGTGCTGCT
AAATTAAAAAAAAATTTATATATATATATACATATATATGTGTATATATGTATATATATATATAATATATATAAATGGAGTCTCACTATGTTGCCCAGGC
TGGTCTCAAACTCCTAGCCTCAAGTATTCCTCCCACCTTGGCCTCCCAAAGCACTGGGATTACAGGTGTGAGCCACGGCACACAGCCCCCATAAAGGCTC
TTAATAAGAAACTAAGAGGGAAAAAAGAATCGTAACGGGAGATTTAATGGCAGTGACAGTTTTCAGAAGTGTATATGACCATGGTGGAAGTCTAGAAGAA
CCTGGCCTAATGGAGCCAGTCTTGAGCTGCAATTCTTTTAACTAATTCTCCCAGAACCTCTTGACTTAGTTGCTTTCACTGGAAAATAGGTGTATTCTGG
GGGTTAAAAAGTTCTCCAGGGAAAGCTTCCCACTTACCTCACTGTCTTGGTATCCCGCTCTTCCACCCAACATACAAACATGCAGCTGGTCACTCAGCCA
GTCCCTAAAACCTGTTAATTGGCCCATAGTTTGGCTCCGAGCAAACCTGTGGACTTAGGAGCCTCAGCTCTTGCCTCCCAGGAGTTTCTCAACTTTGGGG
GAAGGTAACATATGTGCTCTGAAGCAAGCACAATGATGGCTATGACAGGCATTTCGCAGCACACGTTTAAATAACAACCCTAGGTGAGGCAGGTCAGTGA
GAGGCCATCAATAGGGAAAATAGCAGTGTGAATCTAAGGCTTGAGAGAAGGGAGAGAAGGCTGTGGCCTTAGTGTCCAGCCTGCTCAGCATCCCTTCTCC
CCTCTTCTGGTAGCAGCACTTTTTTTTTTTTTTTTTTTTTTGAGGGAAGGTCTCACTCTGTTACCCAGGCTGGAGTGTGGTGGCACGATCTTGGCTGACT
GCAACCTCCACCTCCTGGGTTCAAGCGATTCTCGTGTCCCAGCCTCCCAAGTAGCTGGGATTACAGGTGTGCACCACCATTCCTGGCTAATTTTTGTATT
TTTAGTAGAGACGGGGTTTTACCATATTGGCCAGGCTGGTCTCAAACTCCTGACATCAAGTAATCTGCCCTCCTTGGCCTCCCAAAGTGCTGGGATTACA
GGTTTGAACCACTGCGCCCAGCCTTGTTGCAGCACTGTAATTATCCTTTAAGAAACTGTCCCCAACTAGTTGCATGTGGGTGGACTTGGCGGAACTATGC
ATTTTTTTTTTTTTTTTTTTTTTTTTTGAGACCGAGTCTCGCTGTCTTCCAGGCTGGAGTGCAGTGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCG
GGTTCACGCCATTCTCCTGCCTCAGCCTCCAGAGTACCTGGGACTACAGGCGCCGGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTGCAGACGGGG
TTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCC
TGGCCGGGACTATGAATTAAAGTGCTGTGGTCGATGGGTATGTGTGGCCCAGAGACCCAAACTAGGCCATTCACACTCTCTCTTCCAAGGATTTGAATCT
TTTTTTTTTTTTTTTTTTTTGAGACGGTGTCTCGCTCTGTCATCGTCCGGGCTGGAGTGCAGCGGCATGATCTTGGCTCACTGCAACCTCCGCCTCCCGG
GTTCGTGATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGACTACAGGCGCGCGCCCCGACCCTGGCTAATTTTTGTATTTTTAGTAGAGACTGAGTTTTA
CCATGTTGGCCAGGCTGGTTTCAAACTCCTGACCTCACGTGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCCCACCCGG
CCGGGATTTGAATCTTGAGTACAGGAACATAAGGGTGGAAAATCTATCCCGGATGGAAGCTCTCTGAAGGGACCTCCCATTAACTCCTGCTACTTGGACA
CCTCAGGTCCCCTAACTGCTCTTCCTGGGGCCTGCCGGCTCAGATTCTGTAAATTCTGTGAGCTTTCCCATATCATTCCAATAAGGTCTTTTAAGGGTCT
GCTTCTGTGATTGGCAACCTGAGAACCCTGCTTGGTACAACAAGGGTTCCTGGAAAATGTAGGAACGTGAACTGGCATGAGTAGCTGAAAAGGATGCAGA
ACTTATCCCAGTCCAGGAGAACATCATCTGTAAGGCCTCTCCAGAACTCTGCTTGGCCTAACTCAAGGGGAGATTCCAAAGGGGGAGGTATGAGAAGTTA
GGAGGGGGATGTGGAGTGGAGCCAGAGTGGACTGGAGGGTATGGCCTTTCTCCTAGAGCAGAGGTTCACACAATGTTGTTGGATACACTGCTGGGCCGTA
GTCGTGAGAGCTGCAGATGGAGGTAGAGCCAGCCAACAGACAAGTTGGCAGGATGCACTAAAAATTGGAGCTGGGCCTCAGAAGTGGGTTATGCTGGCCA
AATATCATCTGTCTAGTGTG


SNP Information

Context             (SEQ ID NO:62602):
ATACAGAATTCATAAACAGTTTACCTGAACCAACAAGAAAAGACATCAAATAGTGCTTGACTTCATTACTTATTAGGCAGATGCCAAATACTTTTCTTTC
T
TTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTCACCCAAGTTGGAGTGCAGTGGCAAGATCATGGCTCATTGCAGCCTCCACCTCCCATGCT
Celera SNP ID:            hCV26449727
SNP Position Genomic:     6463
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,11)   total(T,11|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62603):
TACAGAATTCATAAACAGTTTACCTGAACCAACAAGAAAAGACATCAAATAGTGCTTGACTTCATTACTTATTAGGCAGATGCCAAATACTTTTCTTTCT
T
TTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTCACCCAAGTTGGAGTGCAGTGGCAAGATCATGGCTCATTGCAGCCTCCACCTCCCATGCTC
Celera SNP ID:            hCV26449728
SNP Position Genomic:     6464
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,13)   total(T,13|-,1) 
SNP Type:                 INTRON


Gene Number:                 378
Celera Gene:                 hCG20450 - 104000117440049
Gene Symbol:                 ARS2
Protein Name:                arsenate resistance protein ARS2;ASR2;asr2
Celera Genomic Axis:         GA_x5YUV32VYJC(89556..115761)
Chromosome:                  Chr7
OMIM number:                 600011
OMIM Information:            EPHRIN RECEPTOR EphB4;EPHB4


Genomic Sequence (SEQ ID NO:12538):
ACAGAGTTTTGCTCTTGTTTGCCCAGGCTGGGGTGCAGTGGTGCCATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAG
CCTCCTGAATAACTGGATTACAGGCACACGCTGCCACGCTTGGTTAATTTTTGTATTTTTAGTACAGACGGGGTTTCACTAAAACCCCAGTTTGTTGGCC
AGGCTGGTCTCGAACTCCCGACCTCAGGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCCTGAGCCACCGCGCCTGGCCAAGGGGCTG
GTTTTGGAGCAGAGTCAGAGGTCTGGGACGTGGAATAGGTAAGGGCAGGGCAGTGCGGGGGAGCAGGATAGAACTGCCCATTGGGGCTGAGCGCGGTGGC
TCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCACGAGTTCGAGACCACACTGACCAACATGGAGAAACCTCGTCTC
TACTAAAAATACAAAATTAGCCAGGCATGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGTTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGA
GGTTGCGGTGAGCCGAGATCGCACCACTGCTCTCCAACCTGGGCAACAAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAACTGCCTA
CGGGCCCCTGGGCTGAGATGTTCTCAGATGAGCTTTCTAGCTGGAACTGCCTGGCCACCTTCAGAGACATTATAGCAGTCCCCAATCTTTTTGGCACCAG
GGACCAGTTTTGGGGAAAACAATTTTTCCATGGACTGGGGAGGGGGATGGGAGGGGGTGGGAGGGGGATGGTTTCAGGATGATTCAAGCACATTACATTC
ATTGTGCACTTTATTTCTGTTATAATAATAATAGAATATATAGTATATATAATTGTTTCGGTATATATTACAATGTATATTACAATGTAATATATACCGA
AACAATTATACAATTCACCATCATGTAGGATCAGTGGGAGCCCTGAGCTTGTTTTCCTGCAACTAGACAGTCCCATCTGGGGGTGATGGGAGACAGTGAC
AGATCATCAGGTATTAGATTCTCATAAGGAGCTTGCAACCTACATCCTTCGAACACACAGTTCACAATAGGGTTCATGCTCCTATGAGAATCTAACGCCG
CTGCTGATCTGACAGGAGGTGGAGCTCAGGCGGTAATGCAAGTGATGGGGAGCAGCTGTAAATACAGATGAAGCTTTGCTTGCCCATTGCTCAGCTCCTG
CTGTGTGGCCCAGTTCCTAACAGGCCATGGCCTGGCGGCTGAGGGCCCTGGTATTACAGCATCAGGAGCTAGAGTAGGACCGAGCCCCTGATTCCCACCT
TCCAGGTGCCCCTGAGCCAGCCTCCAGAGGATGAGCTGGATAGGCTGACGAAGAAGCTGGTTCACGACATGAACCACCCGCCCAGCGGGGAGTACTTTGG
TGAGCTGAGGCTGTGGGGTGGGTGGGACGTGGGAAGGGAGGCTGGGAGACAGAGGGGACAGTGGCTTCCTGGGTCTGTGAAGACTGATGCTGTTTCTCCC
TGTCCTCAGGCCAGTGTGGTGGCTGCGGAGAAGATGTGGTTGGGGATGGGGCTGGGGTTGTGGCCCTTGATCGCGTCTTTCACGTGGGCTGCTTTGTATG
TTCTACATGCCGGGCCCAGCTTCGCGGCCAGCATTTCTACGCCGTGGAGAGGAGGGCATATTGCGAGGGCTGCTACGTGGTGAGTGGCTGGGGCTGGGAG
GAGGGAGTCAGTGGCTGGATGCAGGGGGCTTCCATCCAAGGTGGTAACTAGAGCGTCCAAGACCAAAGGAGGAACGGTGCTAAAAGCCAGGCGACTGAAA
GTGATGTACAAACAGGGCGGAATTCTGCAAGTATCAAGCAAGTAGCTTAACACTGGTGGCTGAAGGGAAGGACGCAGCTCTTACAAGTGTGGAGCATCTT
ACAGTTAAAGAGAATGTGTTAGATTCCCATGACACCCCTGTGAGGCAGGTATTACTACTGATTCCTGGTTTTGTTTTTTGTTTTTTTTTGAGACAGTCTC
GCTCTGTTGCGCAGACTGGAGTGCAGTGGGGTGATCTCTGCTCACTGCAACCTCAGCCTGCCCTGGTTCAAGCGATTCTCATGCCTCAGGCTCCCGAGCA
GTTGGGATTACAGGTGCCCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGTTTTGAAACTCCTGG
CCTCAAGCAGTCCGCCCACTCTGGCCTCCCAAAGTGCTGGCATTACAGGCGTGAGCCACTGCACCCAGCCTGATTCCTGTTTTTCTCATAGTGTTTAAAT
ACCGTGTATAGTGCTGGGACCTGAACTCAGATCTGCTCAAGTCTGCCTTTCACCGAATCACATGCAGGAGGCTGCATGCAGGAGGCTGCAGAAATTAGAT
GGCTGGGTTGCTGGGGTTCCTGTTGAGCTGCCATGGCTCCCGCCCGCTCCCAGATCTTCCTGCCTTCCTTCCCAACAGGCCACCCTGGAGAAATGTGCCA
CGTGCTCCCAGCCCATCCTGGACCGGATCCTGCGGGCTATGGGGAAGGCCTACCACCCTGGCTGCTTCACCTGCGTGGTGTGTCACCGCGGCCTCGACGG
CATCCCCTTCACAGTGGATGCTACGAGCCAGATCCACTGCATTGAGGACTTTCACAGGTCAGGCCTGGCCTCCACCTTGTCTCACAATGTCTGACCTTTC
CTGTCTCTCTCATCTCTTCATGCCCCAGGACTGTCTCTTCCTGTTTCCAACCCTGGCCCTCCTTCGTTCTTTGTTATTGTTATTTTTTAGAGACGGAGTT
TCACTCTGTTGCCCAGGCAGGAGTGCAATGGCATGATCATAGCTCACTGCAGCCTCCAACTCCTGGGCTCAAGTGATCCTCCTACCTCAGCCTCCTGAGT
AGCTGGGACTACGGGTGCACACGCCACCATGCCTGGCTAGTTTTCTTCGTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGG
AGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCCACCACCTGGGTTCAAGTGATTTGCCTGCCTCAACCTCCCCAGTAGCTGGGATTACGGGCGCATG
CCACCACGCCTGGCTAGTTTTTTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGCTTTCATCATGTTGGCCAGGCTGGTCTCAAACTCCTGAGC
TCAAGCGATCCACCTGCCTCGGCCGCCCAAAGTGCAGGGATAGCAGGCGTAAGCCACTGCACCCAGTCTTCTTCTTTGTATTTTAATAAAGACAGCGTCT
TGCTGTGTTGCCTAGGCTGGTCTTGAACGCCTGGCCTCAAGTGATCCTCCTGCCTTGGCCTCCCAAAGTCGGGGGATTGCAGGCTAGAGCCACTGCACCT
AGCCTCTCTCATTCTCTTTGACATCGTCCCTTCCCCAAGACCTAAGGCCATACCTCTGGCCTCTCTGATTCCCTCCTGTGCCCCACCTTCTCTGGGTTCC
ATTGTTGGTGCCCTGCAACCCCAAGGCTTGATGGCCTTCTTGGTTCTCTTCCCCTGCAGGAAGTTTGCCCCAAGATGCTCAGTGTGCGGTGGGGCCATAA
TGCCTGAGCCAGGTCAGGAGGAGACTGTGAGAATTGTTGCTCTGGATCGAAGTTTTCACATTGGCTGTTACAAGTGCGAGGTCAGGGGCCCCCAGCACGT
GCAAGGGGCTGGCAGTGTCTAGGGTGCTGGGTAGAGCATGAGGGGGAACACAGAGGTCTGGGGTTGATGGAAACCTGTTGCTTCTTTCTTTTTTTTTTTT
TTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGATTCTCCTGC
CTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCTGGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTGGCCAGGCT
GGTCTTGAACTCCTGACCTTGTGATCCTCCTGCCTCGGCTTCTCAAAGTGCTGGGATTACAGGCGTGAGCCATCGCGCCCGGCCAATTGTTGCTTCTTTT
TCAACAGGAGTGTGGGCTGCTGCTCTCCTCTGAGGGCGAGTGTCAGGGCTGCTACCCGCTGGATGGGCACATCTTGTGCAAGGCCTGCAGCGCCTGGCGC
ATCCAGGAGCTCTCAGCCACCGTCACCACTGACTGCTGAGTCTTCCTAGAAGTACCTGCTGGGTTCTCAGTTCCAGTTCCCATCCTTTGATTGATCACTC
TCCCTGACATCCACCTGTATGACTTTGTCACCAAATGCTGTCTTCTCTTTCTCCAATCAAGAAATAATAATCCCTCGAGTTTACAAAACACTTCCAAGTC
TGTTGTCTCATCTGATTCTCCCAGTAGCCCATTACAGGCCCAGTCATTGTTACTGCCTGCATTTTTTTTCTTTTTTTTTTGAGACGGAGTCTGGCTCTGT
CACCCAGGCTGGAATGCAGTGGTGCCATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGAT
TACAGGCGCCCGCCACCACGTCTGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCACCACCTTGGTCAGGGTGGTCTTGAACTCCTGACCTCAAGTG
ATCTGCCCGCTTCACCCAACCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCCCTTGGCCACTGTCTGCATTTTTACATGTGAGGATGTCAGAGCTGAG
AGGTGACTCCCCCAGATTGCATGGTTCTTAAATGGTGGAACCTGGGTCTTTTTGACTCAGGTCCAGTTTTTTTTGACAACTCTTGTAATCCGTCACTACC
CTCCTCTCAGTGCTGGGAGCAAGCACGCCTCAGGGAGGAGGCAAGATTTCCTCTATGTATCTATTTTGAGACAGGGCCTCACTCTGTTCCCCAGGCTAGA
GTGCAGTGGTGCAATCAAGGCTCACTGCAGCCCTGAACTCCTGGGCTCAAACAGTCCTCCTGGCTTAGCCTCCCCAGTAGCTAGGACCACAGGGGCATCC
CACCAAGCCCAGTTATTATTTTTTTGTGTGTAGATGGGATCTTGCTATGTTGCCCAGGCTAGTCCTGAACTCTTGGGCTTAAGTCCTCCCTCCTCGACCT
TCCCAAGTGCTGGGATCACAGGTGTGAGCCAATGTGCCTGGCCCTAAATATTCTGTAAAGGGGCCTTGCTATGTTGCCCAGGCAGGTCTCCAACTCCTGG
GCTCAAGTGATTCTCCCACGTCGGCCTCCCAAAGCGCTGGGATTGCAGGCGTGAGCCATCTCAGCTGGTCTTCCTATTAAGTCTCACACTCAATTCACTG
AGAGGGGCCTTGGTGTTACTCCCGGGGGTGGTAATCCATTGAATCTGGGCGGTCCATACTCTGTTTAGGGCGTTAACTTACAGCCTATTTCATCCAAATA
CTGAGCGGGGTTAAGACTGAGATCTGCCAATTTTACTTAAAGACGGGGCGTCTTTGTCGAGGAAAAGCAGGAACGGCGGACTTTGCATTTAGTGCGCACT
GTGGCACCCAATTTTGGCTGGATATTTGGAGCAGAAAATGGTGGGATACGATGCTTTAAAATGGTTGCTTCCACCTTCCATCCCCTAAGCGCCTGCGCTT
CCCAAGCCCACGCCCTGCCCGAGGAGGGGACGAAATCACCCCCGGTGAGGTCAGGAGGCCCGTGGGGGGAACATGGCTGGATGAGAACCGTCTTAGGACC
CCGACACATCTGGGGTCGCGCGATCCTCGACTTCCGCTCTCCCTTCGCGCCCAGAGGGCTTGTTCGCCTCCCGAGGCCGCGCTTGGCCCAGCCGAGGTCC
CGTAGTTCCTAACGCTCGAGCCGTTATCGTCTCGAAAAGCCGCGCGAGACTTGCGAGATCCCCGCCCCTTTCCCATCACGCCCTGCTCTCCCCGCCCTTC
GCGCTCGGTTTGTTAGTTCCAGTTCCGGCCGCGAGGGTGGAGCTTTGTGCCTCGGAGGCGTGGGTGACGCAGGCGCAGCGCGGGCTGCGCGCGCTACTGC
CCATCCCCGGTTGTCCCACTTTTGTTCGCCTCTCTTCGGCCCTCTACTCAAGAGCTCCGTCTCCGTCTCGCCCTCCTCGAAGTCCTCGTCGCGCGCCCGC
GACCCAGGTCGCCCTGAAATCTAGCCCGTCCGAGCGCGAGTCCAACGGCCGCGGCCGCACCAAGGTGGGGGAGGGGAGGAGCCTGGGGGGCCCCGCTGGG
GCGGGAGAGGAACCGGGGTCCACGGGGGCGGGCGCGGAGAAACTCGGGGCGAGTGGAGGTGTTGGAGCCGCGTTCTCAGGCCTAGGATGGTGGGGGCCGC
GGAGGGCTGGCCTTGGCGGGAGGGAAGCGGGCGAGCTGCCCGCGAGGGACGGTCCCTTCCTCCGCTCGTCCTTTTGCACCACTCCTACCGCCTCTCCCCG
GTCCCCAGGCCCCCTCAGACCGTGCCATGGGTGACAGTGATGACGAGTACGATCGAAGGCGCAGGGACAAGTTCAGAAGAGAGCGCAGCGACTACGACCG
TTCCCGCGAGAGAGATGAAAGACGTCGAGGGGACGATTGGAATGACAGGTGAGCCGTTTTTAACTTCATCTTGTCCCCGTTTCATGCCGTTTCACTCCAC
CCGCGTCGCTTTTCTTTCTCCCCCTTGTAATTTTTATGAGGGCGAATCCTATGAAATGGCTCATTGGACCGTTTTCTGTGGTTCAGCCTATTTGCTGTTG
GCCAAATAACTAGCTGTGGCTTGGTTTTTGAAATTCTCTGCAGATCAGAGCTATAGAGCTAAGARTTTGAGTATGAAGAAGCACTGTTTATACATGCACG
AAAAGCGTGCTTTTTTGCTTTTTTTTGTTTTGTTATTGAGATGGGGTCTTGTTCTGCTGCCCTGGCTGGAGTGCATTGATGCAGTCGTAGCAGCCTCCAC
CTCCCGGGCTCAACCGAGCCTCCCGCCTCAGCCTCTTGAGAAGYTGGGACTCCAGGGGGAGGCCATCACGCCCGCCTAACTTTTAAAAATTATTATTGTT
ATTTCGAGACAGAGTCTTGCCCTGTCGCCCAGGCTGGAGTGCAATGGCGCAATCTTGGCTCACTGCAACCTTCGCCTCTGGGGTTCAAGTAATTCTCCTG
CCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCTGCCACCACGCCCGTCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCTAGGC
TGGTTTGGAACTCTCGACTTTAGGTAATCCACCCAGCTCGACCTCCCAAAGTGCTGGGATTACAGGCATGAGCCAGTGCTTGGTCTAAAATTATTTTTTG
TAGAGACAGCGTCTTGCTCTGTTGCCCAGGTTGTAAATTATATTTTAGGAGGATTGCTTCAGAAAAATAATAATATAGAGTTGATCTGACTGGAGAGGTC
GTCAGATTATTTCCCTGACAATATATGATTAGGTTTCTTGTCACTGTTTTGCCTAAAATCTCAGAGTTCATAGGGCGGTGCTGATTGGATTGATTATAAG
ATGYGGTTATTGACCTTAGGGTGTTACAGTGAGCTTGGCATGGGGGATCAGAATGGCAGTGGATGTATTCTGTAAATGAGTATATATAGTGGAAGTTATA
AAGAGGGTAAGCATTGAGGGAACAGATCTCTAAAGGAGGGGAGCGGTGCTGGAGGTTGTGTGTCAGGGACCCACTGGAAAGTGACACTTGGCTAGACTTG
GAAAGATGAGTGGGAATTCCCCAGACACGAGTGACATGAACAGCTTGGAGTTGTGGACATAACGTGTGATTTTAGCATATTCTAGTTTGGTTAGAGTCCT
GTTTCTCAGGATGTCCACAGACCATAGGGGGTCTCCGAGGCTAAAATTAGTTTTTGTGGTAATGTTTACATATTATTGCCATTTCCACTGTTGGTGCCAT
AGCAATGATGGGTAAAACCGCTGATGCTTTACCAAACATCAAGGCAGTGACAGCAAAGAGTTAAAAAAAAAAAGCCAGCCGGGCCCAGTGGCTCACACCT
GAAATCCCAGCACTTTGGGAGGCCGAGACGGGCAGATCACGAGATCGAGAGATTGAGACCATCCTGGCCAACATTGTGAAACCCTGTCTCTACTAAAAAT
ACAAAAGTTAGCCAGGCATGGTGGTGCGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGACAGGAGAATTGCTTGAACCCAGGAGGCACAGGTTGTAGT
GAGCTGAGATCACACCCCTGCACTCCGGCCTGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAGCCACTTCCATCAATGATTCTTG
ATGAAAGAGTAAAACATTTAAATTTGATTAGATTGGACTCTTGACTGTACGTCTTTTTTAAAAAAATTTTTTTTTGACACAGAATCTTGCTCTGTCACCC
AGGCTGGAGTGCAGTGGGGCGATCTCAGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTTGCTGGGATTACAG
GTGCGTGCCACTCTGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGCTGGTCTTGAACTCCTGACCTCACATATCCAC
CTGCTTCGACCTCTCAAAGTGCTGGGATTACAGGCCCGCGTTAGTTGTCTTGAGCAAGAGTACGCATGTGATTGAGTGAGCTGAACTAACAGCTTTTTTC
CATGGGATGTTATTTTTACTTGAATGAATGACAAACAGTGATTGTTCATACTTGGGTATTTGGCAGACATCTTGAAAATGAACTGAGAACCTGTTACTTC
AGTGTAAGCTGTTGGTATTTGTTGCCAGTGATGAAGTAGAACTTTCCAGTGAAAATTAAAATTTTGGGCCGGCGCAGTGGCTCATGCCTGTAATCCCAAC
ACTTTGGGAGGCGAAGGTGGGTGGATTGCTTGAGCCCAGGAATTTGAGACCAACCTGGGCAACGTGGTGAAACCTGTCTGTACAAAAAAATACAAAAATT
AGCTGGGGGTGGTGGCACATGSCTGTAGTCCCGGCAACTCCGGAGGCTGAGGYGGGAGGATGGCTTGAGCCTGGGAGGTGGAGGTGGGAGTGAGTCTTGA
TGGCACCACTGCATTCCAACCTGGGCAACAGAGAGATACCCTGTCAAAAAAAAAAAAAGGAAATTAAAATTTTGGAAAACTTCTACTAATGTGAGCTTGA
CAGCTTCCCATTAAGTAAAGACTTTCTTGGTGAGATAGGCAGTGATGCTGATGAGTACATTTTGATATTGGGTGAGACATAATCCAGGTCCATTGAAAGG
GAAAGATAGAACAGTGGATTTTAACGCAGCAGAGAAAGAAATATTCACTGATACTATTTCAGATTGAAGGTTCTAACTAGCCTGTGAGAAACTACTTCCT
TCTTGGACAAGGTAGCATAAAGAAAAGAAAAAAAAGAACCTACTTCTTGTTGAATTTTGGGTAGTATCCAAAATGAATATCTACAGTTAATCTGAAAAGG
CCTTTCCAACTCCTTATCAGTATGAGGCCTGATTTTCTGTTTTTTTTTTTGAGACGGGTCTTACTCTGTTGCCCAGGTTGGAGTGCAGTGGCACGATCAT
GGCCACAGATCACTGCAGCCTTGACTTCCCCAGGCTTAGGTGATCCTCTCACCTCAGCCTCCTGATTAGCTGGGACTACAGGTGTATGCCATCACACCCA
GCTAACCTACTTCCTTCCTTCCTTCCTTTTCTTTTCTTTTCCTTTCTTTTCTTTTCTTTTCCTTCCTTTCTTTCTTTTTCTTTCTTTTCTTTCTTTCTTT
CATTCTTTCTTTCAGATGGAGTCTCACTCTGCCCAGGCTGGAGTATAGTGGCGTGATCTGGGCTCACTGTAACCTCCATCTTCCGGGTTCAAAACGATTC
TCCCACCTCAGCCTCCCGAGTAGTTGGGATTACAGGTGCCTGCCACCACGCCCGGCTAATTTTTGTGTATTTAGCAGAGACAGGGTTTTGCCATGTTGGC
TAGGCTGGTCTCAAACTTCTGACCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCTACCACTTCCAGCCAGCCAGCT
AAGTTTTGTATTTTTAGTAGAAAGGTGGTTTCACCATGTTGCCCCAGCCTGGTCTTGAACTCCTGGGCTCAAGCAATCCACTGCTTCGGCCTCCCAAAGT
GCTAGCATTCATTACAGATGTGAGCCACCATGCCCGGCCTGCCTCATTTTTCAAGCAGAACAAAATATCTCAACAGATTCAGTGTAGAAGCTATCCTCTA
CAAAGCCAGAACTTGGAGAGATTGGTGACAATGTAAAAACAATGCCACTTTTTCTCACCAAAATTTTTCTGGAAAACGATTTTTCATAAAAACATGTAAT
GTGTTTCATCTTACTGTGTAATTTAAAAATGAAGGTTTTGGAACATTTYGTTTTAATTTTGAATATAGTAAGTATCGATAGATGTAACCCACATAAGCAG
AAACTCTTTGGTGTCCTCAGTCATTTTTAAGAGTATTAAGGGGCTGAGGCAGGAGAATTGCTTGAGCCCAGGAGGCGGAGGCTGTAGTGAGCCGAGAGTG
ATTGTGCTGCTGCACTCCAGCCTGAGCGACAGAGTGAGACTGTCTCCAAAAAAAAAAAAARAAGAAGAAGAAGAAGATGAGGATGGGGGAGGCTGGTGAT
TGGTTGGGAGGTTGGTGACTGGTGGAGAGGCTGGTGACTGGTCGAGAGGCTGGAGTGACAGCCAGGAGCCCAAGTTAAAACAATAGTGTTGCTTACTGAC
ATTGAAGTAACGGTGTGATGTGATGAGACTTGTGTTTGAGGAAGGTCTGCCTGCCAGTGGGGAGACAGAAGCGAGAGACCAGAAGCAGGCGGGCAGCCAG
GGCTGCAGGAGCCACACTGGCCAAGGACAAAGACTAGGACAGGGTGTGTGGGGATGGCAGAGAGTGGGACAGCTTTGATAGGCTTTGAGGCAGAGGATTA
GCAGGAGCAGTAATTAGCGGTGAGGGTAGTGAATGACAGCTGGCRAGAGATGCTGTTCCGTTGATACAGCAGAGTGGGGAGCGGGAGGAGGAAAAGACAT
TTGGGCCCATAGTGGTGGGATGAATAGGCTTGATTCTTTTTTCTTTTTTTGGTGGGGGGGATGAAGTCTTGCTCTGTCGCCCAGGCTGGCTTGCAGTGGC
GCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTCCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGGCTGCCACCACGCCT
GGCTAATTTTTTTTTGTATTTTTAGTAGAGACTGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCC
CAGAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCTGAATAGGCTTGATTCTGACAGGCTGAATTTGAGGGGGTGATGGACTTCTAGTAGGGGAT
GATTTTTAAAAAGTTTTCTGTTTTATTTTTAGAGACAGGGTCTCCCTCTGTCACCCGGGCTGAGTGCACTGGTGCAGTCGAAGCTTGCTGCAGCCGCGAC
CTGCCCGTAAGTGGGCCTGTAGCAGGGGTGATTCATGTGGGTCTGGAGCACAGGCGGAAGGCCAGGCTGGGAGAAGAGTTGGAGAACCATCAGTTCTTGG
GTATTGGCTGAACTCATGGAGTTAGACAAGAATCTTTGTTTTGTTTTGTTTTGAGACAGGGTCTCTGTTGCCAGGGCTGGAGTGCAGTGGCTTGCCCTGA
CTAGAGAAAAATCTTTTTCTGTTAGGAGCGAAGTTTTATAATTGTAGGCTTTTTAGTCTGGTATCTCAGGGTGTAAGAAGGGCCTGTTTAGGAATGTGGC
TGTGGCATATCCAGCTGTATCTTTAATTATTGTTACCTTTTTAAAAAATAAAAAATTTTTTGTAGGGATGGCGGGGGGCGGGGGGGGGTCTCACTATTGC
CCAGGTTGGTCTCGAACTCCTGGCCTCAAGTGTTCTCTGCCTCGGCCTCAAAAGTGCTTGGATTACAGGCATGAGCCACTGTGCCTGGCCTTTAATCTTT
GTTACTTGTTCTTACTGCCAGAGAGTGGGACCGTGGCCGTGAGCGCCGTAGTCGGGGTGAATATCGGGACTATGACCGGAATCGGCGAGAGCGCTTCTCG
CCACCTCGCCAMGAACTCAGCCCRCCACAGAAGCGCATGAGGAGAGACTGGTGAGATGGAGCGGTTTCCCTCTCCTCCCCTTTGCCTCAGTTCCACCTGG
GCCTCCCCTTTCTCCCCTCACCTGTGCCTAAATCTTTGTCATTTCCTTTTCTCAACTTCCCATCACCCATCGTTACTTTGTCMCTTGAAACCCTTGTCTG
GGAGACCATGCTGTGTGTACCCCCGTCTGTCCATCCTCCATGCTCTGGGGAGGTGACTCCCTTCTCTGCTTTACTTTTGTGTCCCCCACCTTCAGGGATG
AGCACAGCTCTGACCCATACCACAGTGGCTATGAGATGCCCTATGCTGGGGGGGGTGGGGGCCCAACTTATGGCCCCCCTCAGCCCTGGGGCCACCCTGA
CGTCCACATCATGCAGCACCATGTCCTGCCTATCCAGGCCAGGTAAGGGTGGGGCTTCTCAGAAGAGGGTTGGTAGGCCTGGGGGATGGATGGGGTTGCT
GAAGGCCATGGCTGAAGCCAGGGAGCGGGTCAGGCACACAGAGGCATGTCCCTGGGGTAGGGGTGGTAGCTGTTGGGGTTTGGGGTGATGTCCATGGTGG
ACAAAGTAAAGGGGCCCCAGCTACTTTGGCCCCTGTAGCCTCCCACCGTTCCCCAAAAACCAAGCCTTCCTGACCGGGGTCCCCTCCAGGCTGGGCAGCA
TTGCAGAGATTGACCTGGGTGTGCCGCCGCCCGTGATGAAGACCTTCAAGGAGTTTCTCCTCTCCCTGGATGACTCGGTGGATGAGACGGAGGCCGTCAA
GCGCTATAATGACTACAAGCTGGATTTCCGGAGGCAACAGATGCAGGATTTCTTCCTGGCGCACAAAGATGAGGAGTGGTGAGTGCCCCTACTTCCCTGG
ACCTCTGCCCTGGCATGTCCCCCTGGCCCCGCTGGTGGAGCCACAGCCCTGTCCTCTTCCCAGTTTTCCCTGTCCAGAACTTTCTGGGGGCGGGGGTCGG
GAAGTATGACAGCATTGGCTGATGGGGTCTCCCCCTCACTTCAGCAACTGCCACGGCCCCCGCCCCGCCCTGTCTCCTGTCCTGCTGTCCTCAGAGAGTG
GGACACCTCCAGGCAGCAGGCCAGAGCCACTTGGCCCCTTGGGGCAGCAGACAGACTGCTTCCCACTTGTTGGTGTTGGGTCATTGTCATCCCTGATCAC
CAGGACCCTGTGTGGCTGTGGCGTCCTCCTAAAGCGACGAGTGAATCCAGACAAGAAAAGCAAAGATCTCGGTCGTTTGACAGAAAAAGAATTTTAATTT
TTTTTTCCTTTTGTGGATGTTTTAATTTTAATCAACCATCTTTTCCCCCCTTCCTGCTCCTCCTCCTCCTCATCCTCTTTCTGCTCCTCCTCCTTGAAAA
GAGCCAGAACTGGGAACTACACCCGCTCATCGACGGAGCTCGGAGCAAACCCACCTCCACCCCCACCATACCCAGCCCATACATGAGCCCCTGGGCTGAG
CTGCGCGGCCCCGGCCAGGCAGACAGGCCAGGGCACTGCTGTGCACAATGCAGCGGTTTAGCTGAATGTGATTGCTCAGGCAGCTAGCCAGTCAGGCCCC
ACTGCGGAGTCCCGCGTGGGCATCTCGGCCGGGCGCCCAGCCAGGAGCCAGCCGGTGGCCCACCAGCCAGCATGGGCCCTGGGCGCCGCTAGTTAAATCT
TGAGCTCTGTTTGACCAAGCGGCCAAGGTAAAGATCCTGGAGGTGATGCCTGCGGCTTTCCTTTCCTCTTCTGCCCCACTCRTGGTTCTGTTCTGTCTTC
GCTGTCCCCTCTCTCGAATTGCTCTRTGTCTTTGTCCTAATCTCTCAGCACCTTCATTCTTCTCTGTTTCTGTTCTTGCTCCCTGCCTAACACCACCTTC
TTCCCTGTTGGTTTTTTTAGTTTCTCTCTCTGATCTTTAGTTTTTCCCTTTGTTTTCGGTTTCTGGGACTTTCTCACACTCTCCCCTTTCCTCCCTTTCC
CCTTTTCCTCATACTCCTCATTTCTTCTGTTTTCCCTCTGAGGTCCTATTTGAAATGTTTTATTTTTCTTCTCCCTAACCTTCCAGCCCTCTCCTCTCTC
TCCCCCTGTGGGCAGGACCTGAGGCTCTAAAGGGCACTCCAGTGTCTCCCTTCGGTCTTTCCTGTCCCTTCACCGTCTTGCTTATCTTCCCACGGGTGGA
GAAAGGTGCCCTGCCTCTGGGCTTTTGCTATCTGGCCCTCTGTCTTCCACCTCGGGGTGGAGGGAGTTGGCGGGAGCAGTTTTTGAATGACTGCAGTTTG
GGGTTGGTGAGGAGAGGGAGGTTCTTCAGGGCCTGCTATTTCCTGAGCCTTCCTCTCTGAAGCTTTGGGAAATGACACCTTTTTACTACGTTAGTGTTTC
CCAGAGATTTAAAGTGGTAAATCTGCCTCTCCTACCCTGGCGTCCCCCTGTAGTCATTGGTCTTCCCAAATCCAGAGCTCTTAGTTCCTGGTTCTCCCCC
AAATCTTCACAGAACACAACTTCTGGTTCCTTTTGGGGTGTTGGGTGGTTCTAGCGCACCCCTATCCCTTAATCTCTCTATTTTGATGACCTTTTGTGGT
TGTGAGAGGAAGGGGGATATGCCCTGTCTTTCCTGGGCCCCTTCCCACATCCTGGCCTTGGCTTCCAATAACTGTTTTGTCTTTCCCTCCCCCGCTTCGT
TCCCAGGTTTCGGTCTAAGTACCACCCAGATGAGGTGGGGAAGCGTCGGCAGGAGGCCCGGGGGGCCCTGCAAAACCGACTGAGGGTCTTCCTGTCCCTC
ATGGAGACTGGCTGGTTTGATAACCTTCTCCTGGACATAGACAAAGCTGATGCCATTGTCAAGATGCTGGATGCAGGTGTGCGGATTTGGAGGGGTGGCA
GGCATCTGGGCCCCATGGGGGTGGGGGTGTCTGGGGATCAGGTAGAAGCCGGTTGACAGGAGCCAGGGCCCTGGGGTCATGACCTCTGTTCCCTTTGTTG
GTAGCCGTGATTAAGATGGAAGGAGGCACGGAGAATGATCTYCGCATCCTGGAGCAGGAGGAGGAGGAGGAGCAGGCAGGAAAGCCTGGGGAGCCCAGCA
AGAAAGAAGAAGGACGGGCTGGAGCAGGCCTAGGGGACGGGGAGCGCAAAACCAACGACAAGGATGAGAAGAAGGAAGACGGCAAGCAGGTCCGAGCCCT
GGGTCTCCTAGTGTTGTCCCTGGCAGCCTGGGGGAGGGGGGCGGGTAGGGGTCCATAGGAGCTAGAAGTAGGGGGCTGGGGAAAATGAACCTGTGGCCTC
AGCTGTGGGGGTGGGGGCCCTCTGATAAAGGTGGGAGGGGAGGTTTGACATCCCCAGTGGTTGTCTCTTACCATAGGCTGAGAATGACAGTTCTAATGAT
GACAAAACAAAGAAGTCGGAGGGTGATGGGGACAAGGAAGAGAAGAAAGAAGACTCCGAGAAGGAAGCCAAAAAGGTGAGGTGTCTGTGGCCTGGGGTCA
GAGTGTTGGGGCTGGGGTTCTGGYACGCTGACTTGTCCCCTSTGCTGTGGCTYACACAGAGTAGCAAGAAGCGGAACCGGAAGCACAGTGGTGACGACAG
CTTTGACGAGGGCAGCGTGTCAGAGTCTGAGTCGGAGTCAGAGAGCGGCCAGGCTGAGGAGGAGAAGGAGGAGGCCGGTAGGGTTTCTTTTCTGCTTTAA
AGTGCGTTCTCCYAATGCGGGTGGGGAGGTGAGAGRTTGGCGACATTGACGGGAGGGTGGGTGGCTTTTAGGGGAAAGCTTCTGTATCCTCCCCACCACA
ATCAGTAATAAAAATGCACCAACTCCTTCCTACCCCCCTTCCTGCCTAGAAGAAGCGCTCAAGGAGAAGGAGAAGCCCAAGGAAGAAGAATGGGAGAAGC
CCAAGGACGCCGCGGGGCTGGAGTGCAAGCCGCGGCCGCTGCATAAGACCTGCTCCCTCTTCATGCGCAACATCGCGCCCAACATCTCCCGGGCCGAGAT
CATCTCCGTGAGTGGGGACCCGTGGAGTCAGGGCAGGGCTGATGGAGAAGTGGAGGGTAGAGGGAAGGCAGTGGGGCCCTGCCTGTGACAGATGCCCCCG
TTTCACCTGCTAGGGAGGCCCCTTCCCCAGGTTCCATGGCCTCCGAGGACTAGTCCTGATAGCGCCATTGGCTTTCAGGTGCTGGTGTTCTGAAGCCCTT
TAGTGGTTTTTCCCTGCCCAAGGATGGGAAGAGTGATAAGGCAGTTAGTCCCTAGGGTTCTGAGGGCAGTGGGGGATTGGAGGAAGAAGCGAATGAATCC
TTGAGTCACTGTGGGGCTGCTTTTCTGCTTCTTGCAGCTTTGTAAAAGGTACCCAGGCTTTATGCGGGTGGCGCTCTCAGAGCCCCAGCCAGAGAGGAGG
TGAGTAACTCGGTGCGTTGGAGGGAAAAGTGCAGGGGAACGTTAATGGCCAACACCAACTCCCTCGCTTGACTATGCTAACATTTTCTTTCTTGTGTAGG
TTTTTCCGTCGTGGCTGGGTGACCTTCGACCGCAGTGTTAACATTAAAGAGATCTGTTGGAACCTGCAGAACATCCGTGTGAGTGCTGGGGGTGGGACTG
TGGGGAAGAGGAAGGGAGACTCTGTGCCACACGGGACCTCTGTGTGACTTTGTTCATCTGATAGTTTGGTTGTTCTGCACACTCTTTGACCGTTTTGTCT
GGCTACGTTGTCTCTGGGCAAGGCTCTAGGGCGTTAGCATGGACGGAACCTATGTGGTCCCCGTCCCCAGGGAGCTCGCAGTCTGATCAATCGCTGGTGC
TCAAGAGGGAAGGGTCTTAGAGCTGCTGTTTCTCTGGCAAGCGGGGTAAGTGGGGTAAGCTGCTGATGATGTCTGCCCTCCAGCTCCGGGAGTGTGAGCT
GAGCCCTGGTGTGAACAGGGACCTGACCCGGCGCGTTCGCAACATCAACGGCATCACCCAGCACAAGCAGATTGTGCGCAACGACATCAAGCTGGCGGCC
AAGCTGATCCACACGCTGGATGACAGGACACAGCTTTGGGCCTCAGAACCAGGGACGCCTCCCCTGCCCACGGTCAGTGACTCCCCAAAGGACTTTGTCA
GAAGCAACTGGTAGTGCCTCTGCTGTGGGCACCTCTGACCTTACCTATCTGTAGCCTTGAACCCTTGCACCCACTCGCCTGCTCACTCATTTGCCCCTTC
GTGTGTGGGTAGCAGCACCTCCAGATTCCAGCAGAACTGGGGGGATGCTAGTGATCATTTGTGGCTGGGGTGGAACAAAAGCTAAAATAAAGACAAATCT
CAAGGGGGCAAAAGGTGCCATTTATGTCYGGTGAACTCCTGTCYCCTCGCTGCTCTTTCACTTGTGGAAAGTCTCAGGTTACCTCCTCTGAAGGTCKTCT
CTGCCTTACTTGCTTCTCTTCCTCCCATCAGAGCCTGCCCTCGCAAAACCCGATCTTGAAGAATATCACCGACTACCTGATCGAGGAAGTAAGCGCCGAG
GAGGAGGAGCTGCTGGGGAGCAGCGGGGGCGCTCCTCCTGAGGAGCCTCCTAAGGAAGGGAACCCGGCAGAGATCAACGTGGAGCGGGATGAGAAGTTGA
TTAAGGTGCCAGTGGCAGCGCGGGGCACGTGGGGGCTCGGGCGGTGAGGGCAGGAGCTGAACGCTCSCATTCACTTCCCTTAGGTCTTGGACAAGCTCCT
CCTTTACCTGCGCATCGTGCATTCCTTGGATTATTACAACACCTGTGAGTACCCCAACGAGGACGAGATGCCCAATCGCTGTGGGATCATCCACGTTCGG
GGGCCCATGCCACCCAACCGCATCAGTCACGGGGAAGGTGAGCTCCAGGTTCCCCTTTGTTCCCGGCTGCCCCTGGCCTTGGTCCTCCAGCCCCTTGCCA
CCATCCTTCCTTCTGGCTCCCTTGCCAACCTTYCTTCCTCTGTTCCCAAACCACAGTGCTGGAGTGGCAGAAGACTTTTGAGGAGAAGCTCACGCCGTTG
CTGAGTGTGCGGGAGTCACTCTCAGAGGAAGAGGCCCAGAAGATGGGGCGCAAAGACCCAGAGCAGGAAGTGGAGAAGTTCGTCACCTCCAACACGCAGG
AACTGGGCAAGGATAAGTGGCTGTGTCCTCTCAGTGGCAAGAAATTCAAGGTGTGGGATGTTGGAGAATGGCCGTGCTACGGTGGTGGGAGGTGGGGTTG
AGACAGGAAGCCCCCTGGGCAGGGGTGGGGGAACTGCTTACTGCACTGGCAGGCGGGAGCTGGGAATCCTTCCAGCTCGGGCCTGGGAGCGAGGCAACCC
TTATGTGGCTGTCCTGACCCCTCTCCTCTCTCCACCCAGGGTCCTGAGTTTGTGCGCAAACATATCTTCAACAAGCATGCAGAGAAAATTGAGGAAGTGA
AAAAGGAAGTCGCGTTTTTTAACAACTTCCTCACTGATGCTAAGCGCCCAGCTCTGCCTGAGATCAAGCCAGCCCAGCCACCTGGCCCCGCCCAGAGTAA
GATACGATCCATGAAGGTCGCATGTGCCCTCTTCCTTGASTAYCCRGGGACTCCTGTTTCTCTTTAACGTGTCACCCSGAGAAGTTTCTGCCCCATCCTC
AGGCCATAGCCCTAGAAGTCAATTGTACCCGTATCCCCCTCCCCGCCCCCGCAGTAATTCATGTCCCTGTCCGTGTTGTACTCCCCCCAGGTTTGACCCC
AGGACTCCCCTACCCACACCAGACTCCCCAGGGCCTGATGCCCTATGGTCAGCCCCGGCCCCCGATCTTGGGCTATGGAGGTAAGTACAGGAGGGAGATG
AAGGGGCTTGGTGAGTGTGTGGCTTTGGGAGAAGAAAACAGAGGATGGAATTGAGGACATAGTTTTGCAACTCAACACTGATCTCTGTCATAGCTGGTGC
TGTCCGCCCTGCAGTCCCCACAGGAGGCCCTCCATACCCCCATGCCCCGTATGGTGCTGGTCGAGGGAACTATGATGCCTTCCGAGGCCAGGGAGGTTAT
CCTGGGAAACCTCGCAACAGGTGAGGAGGGCRGACGCCCAAGCTTTGTTGMCGCCTGCAGACTCCCTTTTGGGAGCCCTCAGCTCTCATCCTGTACCTCT
CACYTCACAGGATGGTTCGTGGAGAYCCAAGGGCCATTGTGGAATATCGGGACCTGGATGCCCCAGACGATGTWGATTTCTTTTGAGCCGTCCCCCGTTC
CTCAGTCCTGTATCATCCATACTTGTACTACCTTGTCCTATGAAGCTCTGAGAATTTTTTGTACGATCAGCCTTACTGCTAATAAAAGCACTTCCMCAGG
GCTCCTGACTCTCGTGTGTTACATAACTCCTCCATCCTTCCAGAGTAACTCCTGAGGTGTTGCTCAGCCCTGCCACTTTTATTATTGATGTCAAAAGCGC
CAGGCTTTGCAGGGACACCAGTGGGAGGTACATAGGTGCGTGTCTGGGACCCGAGAATCTCAGTTCTGTAACTTCGTCCTCAGTCCAAGGTGCGCTGCTG
CTGTTGGGAGCTAAGGCTGGTCAAGCACAGGTTGTAGAAGGAGTTGGGGTCAAAGGCTGCACTCACCTCTTGCCAGCCCACCCACCCAGCAGCCTGTAGT
TCACTGGGGCTTTTTGGAGTGCCCCAGTAGTGAGGGTCCAATACCAGGACATAGGCTTCCGTGCCTGACCCTACGCAGACTCCCAGCAAGGCCTTGGACC
TGGCATCTGCGTCCCCCCCAACCATGACTGGGCCCCCACCCCCTGCGAAGTGCGAGTAAAGCCTCTCCAGCTCCCCGTGCAGCCCCACTCCCCGGGGTAC
GTGGCAGAGGCGTCCCTGGGGCCCTCCGAAGTGAGCGAGGCAGAGGCTGGCCTCCACGCAGCCGATCCAGTCCCGGGAGCCCCGGAAGCCGGGGGGCTTG
TCGCCCATGTCCTCCAGGGCCGCCTGTACGGCGGCCAGTCCAGGTACGCCCGCGGGCTGGCCCTCTGGCCACGAGCACAGCGTCTGCAGAGTGCGGTAGC
CGCAGCCCCAGCCGCGGTCGTCCAGGCCGTCGCAGCCGTAGTGGTAGTAGAGGTAGTGGCCCGAGAGCAGCGCCAGGCGGACAGGGCCGCGGCTCGGCGG
GGACAGGCCCACGTGGACGTCCCTCAGCGGCTCCAGGGCGGTGGGCGGGAGCGGAGGTCCCAGGCCAGGCACAGCGTCCTCCTAGCGGCGCGGAGCGACC
TCAGGCTCCAACACTTCCTTTCGGCTCCGGGTCTTGGGCCAGCTGCCGCAGGACCGGCGCGCAGACTGGGGACGCGCTCCCCGGGCCTCGTTGATCACCG
CAGGCCGCAATAGGCAGCCACCGACCGGCACCGACCGAGGAGCTCCCACAATGCTCCGCCGCGCCCCGCCCCGCCCCTCCCCTCCCCTCCCCTCCCCTCC
CCTCCCCTCTCCTCCCCTCCGCCGTGCCAGCTAGCCTGCCTGCGGGCCTCATTACGCAGGCGCGAGCTCCGCCCGGCAGGGCAGGGCTAGGGGTTGGCCT
TTGCCTTGCGCCCGCCTCGGAGCTCGCCTGTTTCTTGCCCTCCAGCCCCGCTCCTGCATAGACTCGGCCCCCGTGATTCCGGCGTTCTGCCTCTACCCCT
GGCTCCCTAGTCGCGCACACTCCCGTGGCTGTAACAGTTTATTGGCAGCCCAGAGGGGCGAAGGCACCGCGGGGGAGGGAGCTCAGCCTGAGACATGCAG
AGGACCGGGAGCCCCGGGGGACGTCGGGGTGGGGTGGGGATGGGCAGAGTCTGGGGCTCGTCTGTGTTATAGCCCAGCCCTGAAATAAATAGTATATACA
GCTAGGGGGCCGGGCGGAGCGGAGGACATGGGGGTCCCGCCGGGGTCACAGGTCTGAGCAGCGATCCTGCTTGCTGTAGTGGTCGAACTGGTTCTTCCAG
TGCACCATGTAGGAGCTCCAGCGGTGGAACTCGGCCTTCCACTGGCGCTCCGCCTCGTCGAGCGTGTCTGCGGCCAGGGCGCCCAGCGAGGCGGGAGGGG
AGGACGGCACGAGGAAGGTCGGGGATCGGACATTTGGGCGGGTTGAAGGGGGGGTATGAGTGCAGGGAGGACGCACGGAGAAATGCAGGCGACCACGTGG
GACGGTGGCAAGAGGATCAGGAGAATGTGCGAAAGACGAGAGGGAGGATGAGGGCAGAGGCGGGGCCGGAGAAGGACAGCAGGAAGGAGAGAGGAGGAGA
AAAGAATGACCGGAAGACGGGAACAGAGGGGACAGGAGGGGGAGGTTGGGGGAAAAAGAAGAGACAGAAATGGTTGACCGTTATAGCCCCAATGGGGGGT
GCTACCCCGTCCGGGGCCTCCCACTTCCCCCCAATGTCAGGCTCAGGTTCCAAAAGATAATTTTATAAAAGAATACTGGCTTTTCCATTTCCATTCAAAC
AACAAAGGCGTGGGGGTCCCTGAGAAGGGTGGGAGGCACGGCCCCCTCCTCCTGCCCTGTCCAGTGTGAGTCTCTCGGTTTGAGGAGGAAGGGAGCACTA
GGTCTGAGATCCCTGAGTGGGGCCCTTCCCCACGGTCCGACCACTCATTAGAGGAGGGGCCCCTGTGGCCGTAGGGGAAGAGGCCGTGTTCACAGCCGCC
GGAGGTGGGAGAGGAAGAGGAGGAGAAGCTGGTGGAGGAGGAGGAGGGGCAGGGGGAGGCCGGGCCTCCGAGCAGCCTCCCCATGGGTGAAGCCTGGGCA
GGTGCTGGGAGCCTCCGAGGCTAGGGGGAGAAGAGAGGGGTTACACCTGGCGGGCTCCCACTCCCCTCCTCCCAGCCGCTGCCCGCTGGCCCCTGCATAC
CGGTGGCGCTGAGCAATTTGGGGAGGAAGCGGTTCCAGAAGGCGCAGGCCTGGGCGCGCAGCCCCCGCCGCACCTCCAGCGGCCGCAGGTCCAGACTAAC
GTACTGCTGAGCCCCCGCCGTGTACGGGGGCCATTGTGGGGCCTTGGGGTCTCGGGGCTCATTGGGATCCCTGCGGAAGGAAGGGAAGGCTCAGTCCAGA
CGGGCAGTGGGAGGAGGTGGCCCCCAACTCCACGGGATCCCGGACTCTTCAGCTCAGCGGAGAGCCCCAGAGAACCCGTCCCCTCCCTCCCACCACTTTC
TCCAATGTGCGCGGTCATTGGGGTCTTCCCTTCCTCAAGCGCTCCGTCTCCTTCCGTTTCCCTCAGCTTTTCTGTTCCATCTTTGTTTCTCTCACTAAAA
AAATGGCTAGGATGTCTTGAGACTTTCCTAAATAACCAGGACGGGTCCTATGTCTACAAACATCACATTTTTTAACAACACCCATCCAATGCTAGATTTC
ATTGTCCTCTTCTCGATCCAGGTAAACTGGTGTGTGTGTGAGAGAATGTGTCACTGCTAGTGAATCATCACTGGTTTGACTTAATCCAGCTCCAACTCCT
TTGTCTTGGTCTCCCTTTTTTTTTTTTTTTTTTTTTTCCAGAGATAGGGCCACTCAGGCTGGAGTGCAGTGGTGCCATCATAGCTCACTGCAGCCTCAAC
CTCCCAGGCTCAAGCAATCCTCCTGCCTCACCTTCCCAAGTAGCTGGGACTAGAGGCACGAGCCACCGTGCCTGGCTAAGTTTTGTATTTTTTTTCTTTT
TAAGAGTCGGGGTCTTGTTATGTTGTCCAGTCTGGTCTCAAACTCCTGGCCTCAGGGGATCCTCCCACCTTGGCCTCCCAAAGGGCTGGAATTACAGGGG
TGAGCCACTGTGCCCCGCCCCCTCCATGTCTACCTCGTCTCCTCCTCACTTTCCTTTGCCTCTGTCTCTGCAAGACCCCCTCTGCCTTCTCTGTCTCCTT
TCTTTTTCTCTCCCCTTTTATCTACTTTGTGAGCATATCCCTCTCTGGCTGTTCTATCCTGCCCCTGTCCCACCCGTCCTTTCTGTCTCCGTGTGTCTGC
CTTTGTGTGTCCTCCCGCCCCCGACTCCTGTCCTCCCCAGCCTTCTCTCCCTCTGCACTGCTGACCCTGTGCGGGCAAAGTTGGCCCAGTATCGCATCAG
TCGCTGGGCGAAGATTTTCTCCTCTGCCGTGTAGTTTCGAGAGGGGTCCAGGGGGATCCCAAAGATGAACTCGATCTCGTAGCCGTGGGGCACCCCCATC
CACAGGGGCCAGGAGAGCGTGGAAGCACGGTGTTCAAAGACGTAGGCGTAGACCCGGGCACCCTGGGCAGCCAGTCGCCCAGCCAGCTGGGCCACGGGGC
ACACGACATTGTGGTCGCCCACCACATCGCTCAGGGCCTCCCTCAGGCGTGCCGGGTCCTCGGGATGCAGCCAGTCTGTGTAATGCAGGACCACAGCCTC
GGCTGCCAGGTCACTTACCTGGGGAACCCCGACCCGCACCCCGGCCAGGAACTCGGCCCGGCTGATGAGAGACTCGTTGTCTTTGCTGAAGCCTGGGGCC
CCGTAAACCAGAAAATACGAGCCCTCATCCTTCACCACACCCACCAGCACCTGGGGGTGAGGGAGAGGGGGGTGGGATGGAGCGACAGGCACAGACAGAC
AAGTAGACAGAAACAGATGGACAGACAAAGAGCCAGAGAGATGAACAGTTACAGACCCGGAACCATGGACAGAGAGAGGACGAGATCAGGGGAGGGATGC
AGAGAAAGAGAAAATAGACCCATGGTGGCTTTCCTGTCTGCCCTGCTGACCACCCTGGGATCTGAGCCCTCAGGGAGGACTTCTGGGACTTCTGGGAATG
GGCCTGGAGAAGCCCTCATGCCTGGGTCCCTGCAGGGAGGGGAGGGACCGTTGGGACCCAGAGGAGCCAGCTTCACGCCAGCTAGCCACTAGTTACCTGC
AGGCCGTGGAAGTCTCCCGCGTTGATGAGGGCCTCTGGGGTGTCACTGAGGAAGTCTCCATCTACCACAGGCACGAAGGAGAACCGGAAGACGCTTTCTT
GAGGCAGCACGTGCCATTCGTGGTTCACCAGGACCTGCGCTGGTCGTGTCCGAAGGCAGGCTACCAGCTCTGTGTCATTCCCACCAGTGCCGCCTGGAGG
ACAGCCCACAAGGTGGGCCAGCTGCGTGGCCCTGCGACGGGCCTCTCCCATGCCCACCGTGGCCCAGGGTCCATTGGGGGCACCGCTCTGCAGCACGGCC
CTGTGGAACAGGCCCCGGCTGGGCGGGGACAGCAGGTGCATGCCCACCGAGGCGGCTCCCGCGCTCTCCCCAAACAGCGTCACTGATGTCGGGTCACCCC
CGAAGGCTGCCACGTTCTCCTGCACCCACTGCAGGGCCAGCCTCTGATCCAGGAGACCCACATTGCCCGGGGCCTCTCGGCTCCCCGGCAGGGCCAGGAA
GCCAAAGGCTCCCACCCGGTAGTTCATGGACACCAGCACAGTCCTCTCGGCCTGTACCAAGAAGCGGCCATCGTACACGTCCAAGGAGGAGGCCCCACTG
TAGAAGCCACCCCCATAGATCCAGACGAGGACAGGGGTGGGGGATGTAGGCCGGGGGTATGGTGTCCACACGTTGAGGTACAGGCAGTCCTCGCTCAGCT
CACGGTTGGGGTTCCACATCTCGGTGCCCTCAAAACCTGGGTATAGGGTGTCCACATATTGGTAGCAGACACTCTGGAAGGTTGTAGCGTCTACCACCCC
TGACCAAGGCTGCTTGGGCTCCGGTGGCAGAAAGCGACGGGGTCCCATGGGTGGCTCCGCAAAGGGGATGCCCAGGAAAGCAGAGACAGGGCCCCCGGGG
GTCTTCAGGCGAATGCCCCGCAGCCGGCCCCCACGCACCGTCACCAGCAGCTCTGCATCCTCCCGGCCCTCAGCCCCCACTCCTCCACCCAGGAGCCAGA
GGAGGAGGAGAAGGAGTGGGGAAGCCAGGGAAGGCGTGTGCAGCAGACACTGCGGGGGCCTCATGGCTGCAGGGCAGGCGGCGTCTGCTGGGAGAAAGAA
AGGGAAAGGGTGAAGGGTCGGTCGAGAAGCCAGGAGGGAGGAGATTAGGGCACTGTCGGCCCAAGGGTTATCGCTCAGCTGCAGAGGAGGTGGGGCAGGT
TGGCAAAGATGAGGGGAGAGAGGGAGGGAGGGAAGGAGACAGGCAGAGACAAGGACACAGGCCAGCGGGCAGGAGGGGAAAGAGATCAGGCAGACACCCA
TATCCAGACAAATGCAGGGAACAGAGAGGAGCACCCTCTCTGCTCCGCAGGGGTCCACTGCCCTCACCTCTTCCCGGAACTGGGCCGGGCCCAGCTCGTG
CAGTGAGGGCACCAGAAGCCTCAGTCCACGAACAGGCCACCCGACAGGGGCGCGGCCTCACGGACGGGCAGCGCCGCTGGGGGAGCTTGCGGCGGCCTGA
AGGCGCAGCCCCGCTCTCCTGGGTCGGCCAGACCCGGGGCCCTGGGGGGCGGTGGGCTGGGCATTCAGGGTGTGGAAGCCTCAGGTCCCGGGGTCCCCCA
AATCCTGCCTAGTCCACTCCCCACCCAACCCTGCCCCTTCTCATCCAATGTCTGGCACCGAGCGCTGATGCCCGCGGGTTCCCATCAGCTGCGCACGCTC
CCAGCCCAGCCCCAGCAAACAGGCTCGCCAGCCCGCGTCCCCCAGGACTCGAGAGCCCCCCATCCGTCTGAAGCTGCCGTGCACGCCGCCGCCGGCGGAG
GGCAGTAGAGACCGAGAAAAGGTCGGCGCTCCCCGCCCCGAGCCAGGAGCCGGGAACTTGGGGAGGGGGCCTGGGGGCTCGAGGGCCTTGCAGAGCCGCC
TGAAGGGCGAGCCGGGACGCCTGCGTTCCCGGGACTCCGGAGATCCCCGGCTGCAGGGGCGGGGGCGCTATTTTGGGGGCAGCAGCTGCTACGGTTCCGG
CATCT


SNP Information

Context             (SEQ ID NO:62604):
ACCTGGGCAACGTGGTGAAACCTGTCTGTACAAAAAAATACAAAAATTAGCTGGGGGTGGTGGCACATGCCTGTAGTCCCGGCAACTCCGGAGGCTGAGG
Y
GGGAGGATGGCTTGAGCCTGGGAGGTGGAGGTGGGAGTGAGTCTTGATGGCACCACTGCATTCCAACCTGGGCAACAGAGAGATACCCTGTCAAAAAAAA
Celera SNP ID:            hCV11846577
SNP Position Genomic:     9253
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,6)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62605):
TGGATTGCTTGAGCCCAGGAATTTGAGACCAACCTGGGCAACGTGGTGAAACCTGTCTGTACAAAAAAATACAAAAATTAGCTGGGGGTGGTGGCACATG
S
CTGTAGTCCCGGCAACTCCGGAGGCTGAGGCGGGAGGATGGCTTGAGCCTGGGAGGTGGAGGTGGGAGTGAGTCTTGATGGCACCACTGCATTCCAACCT
Celera SNP ID:            hCV27168956
SNP Position Genomic:     9222
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62606):
GTAGAAGCCGGTTGACAGGAGCCAGGGCCCTGGGGTCATGACCTCTGTTCCCTTTGTTGGTAGCCGTGATTAAGATGGAAGGAGGCACGGAGAATGATCT
Y
CGCATCCTGGAGCAGGAGGAGGAGGAGGAGCAGGCAGGAAAGCCTGGGGAGCCCAGCAAGAAAGAAGAAGGACGGGCTGGAGCAGGCCTAGGGGACGGGG
Celera SNP ID:            hCV8786536
SNP Position Genomic:     15442
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62607):
AGTGGGACCGTGGCCGTGAGCGCCGTAGTCGGGGTGAATATCGGGACTATGACCGGAATCGGCGAGAGCGCTTCTCGCCACCTCGCCACGAACTCAGCCC
R
CCACAGAAGCGCATGAGGAGAGACTGGTGAGATGGAGCGGTTTCCCTCTCCTCCCCTTTGCCTCAGTTCCACCTGGGCCTCCCCTTTCTCCCCTCACCTG
Celera SNP ID:            hCV9182882
SNP Position Genomic:     12424
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,7)   caucasian(G,34)   total(A,1|G,41)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62608):
TGTGTGGGGATGGCAGAGAGTGGGACAGCTTTGATAGGCTTTGAGGCAGAGGATTAGCAGGAGCAGTAATTAGCGGTGAGGGTAGTGAATGACAGCTGGC
R
AGAGATGCTGTTCCGTTGATACAGCAGAGTGGGGAGCGGGAGGAGGAAAAGACATTTGGGCCCATAGTGGTGGGATGAATAGGCTTGATTCTTTTTTCTT
Celera SNP ID:            hCV9182883
SNP Position Genomic:     11245
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62609):
CTTGAGCCCAGGAGGCGGAGGCTGTAGTGAGCCGAGAGTGATTGTGCTGCTGCACTCCAGCCTGAGCGACAGAGTGAGACTGTCTCCAAAAAAAAAAAAA
R
AAGAAGAAGAAGAAGATGAGGATGGGGGAGGCTGGTGATTGGTTGGGAGGTTGGTGACTGGTGGAGAGGCTGGTGACTGGTCGAGAGGCTGGAGTGACAG
Celera SNP ID:            hCV9182884
SNP Position Genomic:     10861
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62610):
CGTTCCTCAGTCCTGTATCATCCATACTTGTACTACCTTGTCCTATGAAGCTCTGAGAATTTTTTGTACGATCAGCCTTACTGCTAATAAAAGCACTTCC
M
CAGGGCTCCTGACTCTCGTGTGTTACATAACTCCTCCATCCTTCCAGAGTAACTCCTGAGGTGTTGCTCAGCCCTGCCACTTTTATTATTGATGTCAAAA
Celera SNP ID:            hCV27465620
SNP Position Genomic:     19696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:62611):
GCAGAGATCAACGTGGAGCGGGATGAGAAGTTGATTAAGGTGCCAGTGGCAGCGCGGGGCACGTGGGGGCTCGGGCGGTGAGGGCAGGAGCTGAACGCTC
S
CATTCACTTCCCTTAGGTCTTGGACAAGCTCCTCCTTTACCTGCGCATCGTGCATTCCTTGGATTATTACAACACCTGTGAGTACCCCAACGAGGACGAG
Celera SNP ID:            hCV25992953
SNP Position Genomic:     18067
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,7)   caucasian(G,36)   total(C,1|G,43)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,7)   caucasian(G,36)   total(C,1|G,43)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62612):
CAGCAGAACTGGGGGGATGCTAGTGATCATTTGTGGCTGGGGTGGAACAAAAGCTAAAATAAAGACAAATCTCAAGGGGGCAAAAGGTGCCATTTATGTC
Y
GGTGAACTCCTGTCCCCTCGCTGCTCTTTCACTTGTGGAAAGTCTCAGGTTACCTCCTCTGAAGGTCTTCTCTGCCTTACTTGCTTCTCTTCCTCCCATC
Celera SNP ID:            hCV26000136
SNP Position Genomic:     17729
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,34|T,2)   total(C,42|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:62613):
GAAGAAAGAAGACTCCGAGAAGGAAGCCAAAAAGGTGAGGTGTCTGTGGCCTGGGGTCAGAGTGTTGGGGCTGGGGTTCTGGCACGCTGACTTGTCCCCT
S
TGCTGTGGCTCACACAGAGTAGCAAGAAGCGGAACCGGAAGCACAGTGGTGACGACAGCTTTGACGAGGGCAGCGTGTCAGAGTCTGAGTCGGAGTCAGA
Celera SNP ID:            hCV29373453
SNP Position Genomic:     15942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62614):
TGCCTCAGTTCCACCTGGGCCTCCCCTTTCTCCCCTCACCTGTGCCTAAATCTTTGTCATTTCCTTTTCTCAACTTCCCATCACCCATCGTTACTTTGTC
M
CTTGAAACCCTTGTCTGGGAGACCATGCTGTGTGTACCCCCGTCTGTCCATCCTCCATGCTCTGGGGAGGTGACTCCCTTCTCTGCTTTACTTTTGTGTC
Celera SNP ID:            hCV26000601
SNP Position Genomic:     12583
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,6)   caucasian(C,34)   total(A,2|C,40)
SNP Type:                 INTRON


Context             (SEQ ID NO:62615):
GGGTCTTGTTCTGCTGCCCTGGCTGGAGTGCATTGATGCAGTCGTAGCAGCCTCCACCTCCCGGGCTCAACCGAGCCTCCCGCCTCAGCCTCTTGAGAAG
Y
TGGGACTCCAGGGGGAGGCCATCACGCCCGCCTAACTTTTAAAAATTATTATTGTTATTTCGAGACAGAGTCTTGCCCTGTCGCCCAGGCTGGAGTGCAA
Celera SNP ID:            hCV9182901
SNP Position Genomic:     7144
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,9)   total(C,6|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62616):
TGGACCGTTTTCTGTGGTTCAGCCTATTTGCTGTTGGCCAAATAACTAGCTGTGGCTTGGTTTTTGAAATTCTCTGCAGATCAGAGCTATAGAGCTAAGA
R
TTTGAGTATGAAGAAGCACTGTTTATACATGCACGAAAAGCGTGCTTTTTTGCTTTTTTTTGTTTTGTTATTGAGATGGGGTCTTGTTCTGCTGCCCTGG
Celera SNP ID:            hCV9182902
SNP Position Genomic:     6965
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62617):
GATGCTAGTGATCATTTGTGGCTGGGGTGGAACAAAAGCTAAAATAAAGACAAATCTCAAGGGGGCAAAAGGTGCCATTTATGTCCGGTGAACTCCTGTC
Y
CCTCGCTGCTCTTTCACTTGTGGAAAGTCTCAGGTTACCTCCTCTGAAGGTCTTCTCTGCCTTACTTGCTTCTCTTCCTCCCATCAGAGCCTGCCCTCGC
Celera SNP ID:            hCV26000089
SNP Position Genomic:     17744
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,35|T,1)   total(C,43|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62618):
CCATACCCCCATGCCCCGTATGGTGCTGGTCGAGGGAACTATGATGCCTTCCGAGGCCAGGGAGGTTATCCTGGGAAACCTCGCAACAGGTGAGGAGGGC
R
GACGCCCAAGCTTTGTTGCCGCCTGCAGACTCCCTTTTGGGAGCCCTCAGCTCTCATCCTGTACCTCTCACTTCACAGGATGGTTCGTGGAGACCCAAGG
Celera SNP ID:            hCV25996667
SNP Position Genomic:     19432
SNP Source:               Applera
Population(Allele,Count): african american(A,8)   caucasian(A,31|G,1)   total(A,39|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62619):
TTACTGCCAGAGAGTGGGACCGTGGCCGTGAGCGCCGTAGTCGGGGTGAATATCGGGACTATGACCGGAATCGGCGAGAGCGCTTCTCGCCACCTCGCCA
M
GAACTCAGCCCGCCACAGAAGCGCATGAGGAGAGACTGGTGAGATGGAGCGGTTTCCCTCTCCTCCCCTTTGCCTCAGTTCCACCTGGGCCTCCCCTTTC
Celera SNP ID:            hCV12100556
SNP Position Genomic:     12412
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62620):
GAGGGCAGACGCCCAAGCTTTGTTGCCGCCTGCAGACTCCCTTTTGGGAGCCCTCAGCTCTCATCCTGTACCTCTCACTTCACAGGATGGTTCGTGGAGA
Y
CCAAGGGCCATTGTGGAATATCGGGACCTGGATGCCCCAGACGATGTTGATTTCTTTTGAGCCGTCCCCCGTTCCTCAGTCCTGTATCATCCATACTTGT
Celera SNP ID:            hCV8786528
SNP Position Genomic:     19526
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,3)   caucasian(C,30|T,2)   total(C,35|T,5)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62621):
TTTTTCTCACCAAAATTTTTCTGGAAAACGATTTTTCATAAAAACATGTAATGTGTTTCATCTTACTGTGTAATTTAAAAATGAAGGTTTTGGAACATTT
Y
GTTTTAATTTTGAATATAGTAAGTATCGATAGATGTAACCCACATAAGCAGAAACTCTTTGGTGTCCTCAGTCATTTTTAAGAGTATTAAGGGGCTGAGG
Celera SNP ID:            hCV9182891
SNP Position Genomic:     10649
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62622):
AGGTAAAGATCCTGGAGGTGATGCCTGCGGCTTTCCTTTCCTCTTCTGCCCCACTCGTGGTTCTGTTCTGTCTTCGCTGTCCCCTCTCTCGAATTGCTCT
R
TGTCTTTGTCCTAATCTCTCAGCACCTTCATTCTTCTCTGTTTCTGTTCTTGCTCCCTGCCTAACACCACCTTCTTCCCTGTTGGTTTTTTTAGTTTCTC
Celera SNP ID:            hCV27496824
SNP Position Genomic:     14226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62623):
AGCGCCCAGCTCTGCCTGAGATCAAGCCAGCCCAGCCACCTGGCCCCGCCCAGAGTAAGATACGATCCATGAAGGTCGCATGTGCCCTCTTCCTTGACTA
Y
CCAGGGACTCCTGTTTCTCTTTAACGTGTCACCCCGAGAAGTTTCTGCCCCATCCTCAGGCCATAGCCCTAGAAGTCAATTGTACCCGTATCCCCCTCCC
Celera SNP ID:            hCV25992905
SNP Position Genomic:     18943
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,33|T,1)   total(C,41|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62624):
ACTCCGAGAAGGAAGCCAAAAAGGTGAGGTGTCTGTGGCCTGGGGTCAGAGTGTTGGGGCTGGGGTTCTGGCACGCTGACTTGTCCCCTCTGCTGTGGCT
Y
ACACAGAGTAGCAAGAAGCGGAACCGGAAGCACAGTGGTGACGACAGCTTTGACGAGGGCAGCGTGTCAGAGTCTGAGTCGGAGTCAGAGAGCGGCCAGG
Celera SNP ID:            hCV27496825
SNP Position Genomic:     15953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62625):
TGATGGGGACAAGGAAGAGAAGAAAGAAGACTCCGAGAAGGAAGCCAAAAAGGTGAGGTGTCTGTGGCCTGGGGTCAGAGTGTTGGGGCTGGGGTTCTGG
Y
ACGCTGACTTGTCCCCTCTGCTGTGGCTCACACAGAGTAGCAAGAAGCGGAACCGGAAGCACAGTGGTGACGACAGCTTTGACGAGGGCAGCGTGTCAGA
Celera SNP ID:            hCV27475160
SNP Position Genomic:     15924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62626):
AGATTATTTCCCTGACAATATATGATTAGGTTTCTTGTCACTGTTTTGCCTAAAATCTCAGAGTTCATAGGGCGGTGCTGATTGGATTGATTATAAGATG
Y
GGTTATTGACCTTAGGGTGTTACAGTGAGCTTGGCATGGGGGATCAGAATGGCAGTGGATGTATTCTGTAAATGAGTATATATAGTGGAAGTTATAAAGA
Celera SNP ID:            hCV9182893
SNP Position Genomic:     7704
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62627):
CAGCGTGTCAGAGTCTGAGTCGGAGTCAGAGAGCGGCCAGGCTGAGGAGGAGAAGGAGGAGGCCGGTAGGGTTTCTTTTCTGCTTTAAAGTGCGTTCTCC
Y
AATGCGGGTGGGGAGGTGAGAGGTTGGCGACATTGACGGGAGGGTGGGTGGCTTTTAGGGGAAAGCTTCTGTATCCTCCCCACCACAATCAGTAATAAAA
Celera SNP ID:            hCV27475161
SNP Position Genomic:     16113
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,143|T,950)   total(C,143|T,950) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62628):
GCCCAGCTCTGCCTGAGATCAAGCCAGCCCAGCCACCTGGCCCCGCCCAGAGTAAGATACGATCCATGAAGGTCGCATGTGCCCTCTTCCTTGACTACCC
R
GGGACTCCTGTTTCTCTTTAACGTGTCACCCCGAGAAGTTTCTGCCCCATCCTCAGGCCATAGCCCTAGAAGTCAATTGTACCCGTATCCCCCTCCCCGC
Celera SNP ID:            hCV25992924
SNP Position Genomic:     18946
SNP Source:               Applera
Population(Allele,Count): african american(A,6)   caucasian(A,33|G,1)   total(A,39|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62629):
AGTCAGAGAGCGGCCAGGCTGAGGAGGAGAAGGAGGAGGCCGGTAGGGTTTCTTTTCTGCTTTAAAGTGCGTTCTCCTAATGCGGGTGGGGAGGTGAGAG
R
TTGGCGACATTGACGGGAGGGTGGGTGGCTTTTAGGGGAAAGCTTCTGTATCCTCCCCACCACAATCAGTAATAAAAATGCACCAACTCCTTCCTACCCC
Celera SNP ID:            hCV2607810
SNP Position Genomic:     16136
SNP Source:               Applera
Population(Allele,Count): african american(A,2)   caucasian(A,8|G,24)   total(A,10|G,24)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;JBIC-allele(A,23|G,1444)   total(G,1444|A,23)
SNP Type:                 INTRON


Context             (SEQ ID NO:62630):
ATCTCAAGGGGGCAAAAGGTGCCATTTATGTCCGGTGAACTCCTGTCCCCTCGCTGCTCTTTCACTTGTGGAAAGTCTCAGGTTACCTCCTCTGAAGGTC
K
TCTCTGCCTTACTTGCTTCTCTTCCTCCCATCAGAGCCTGCCCTCGCAAAACCCGATCTTGAAGAATATCACCGACTACCTGATCGAGGAAGTAAGCGCC
Celera SNP ID:            hCV2607811
SNP Position Genomic:     17797
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,7)   caucasian(G,5|T,31)   total(G,6|T,38)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|G,7)   total(G,7|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62631):
AGCCCTCAGCTCTCATCCTGTACCTCTCACTTCACAGGATGGTTCGTGGAGACCCAAGGGCCATTGTGGAATATCGGGACCTGGATGCCCCAGACGATGT
W
GATTTCTTTTGAGCCGTCCCCCGTTCCTCAGTCCTGTATCATCCATACTTGTACTACCTTGTCCTATGAAGCTCTGAGAATTTTTTGTACGATCAGCCTT
Celera SNP ID:            hCV16069074
SNP Position Genomic:     19574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62632):
GGAAGGTGAGCTCCAGGTTCCCCTTTGTTCCCGGCTGCCCCTGGCCTTGGTCCTCCAGCCCCTTGCCACCATCCTTCCTTCTGGCTCCCTTGCCAACCTT
Y
CTTCCTCTGTTCCCAAACCACAGTGCTGGAGTGGCAGAAGACTTTTGAGGAGAAGCTCACGCCGTTGCTGAGTGTGCGGGAGTCACTCTCAGAGGAAGAG
Celera SNP ID:            hCV2607812
SNP Position Genomic:     18333
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,20|T,18)   total(C,27|T,19)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,19|T,17)   total(C,26|T,18)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62633):
CTAAGCGCCCAGCTCTGCCTGAGATCAAGCCAGCCCAGCCACCTGGCCCCGCCCAGAGTAAGATACGATCCATGAAGGTCGCATGTGCCCTCTTCCTTGA
S
TACCCAGGGACTCCTGTTTCTCTTTAACGTGTCACCCCGAGAAGTTTCTGCCCCATCCTCAGGCCATAGCCCTAGAAGTCAATTGTACCCGTATCCCCCT
Celera SNP ID:            hCV2607813
SNP Position Genomic:     18940
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62634):
ATGGTGCTGGTCGAGGGAACTATGATGCCTTCCGAGGCCAGGGAGGTTATCCTGGGAAACCTCGCAACAGGTGAGGAGGGCAGACGCCCAAGCTTTGTTG
M
CGCCTGCAGACTCCCTTTTGGGAGCCCTCAGCTCTCATCCTGTACCTCTCACTTCACAGGATGGTTCGTGGAGACCCAAGGGCCATTGTGGAATATCGGG
Celera SNP ID:            hCV2607814
SNP Position Genomic:     19451
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,6)   caucasian(A,14|C,20)   total(A,16|C,26)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,7)      total(A,5|C,7) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62635):
CCACCTGGCCCCGCCCAGAGTAAGATACGATCCATGAAGGTCGCATGTGCCCTCTTCCTTGACTACCCAGGGACTCCTGTTTCTCTTTAACGTGTCACCC
S
GAGAAGTTTCTGCCCCATCCTCAGGCCATAGCCCTAGAAGTCAATTGTACCCGTATCCCCCTCCCCGCCCCCGCAGTAATTCATGTCCCTGTCCGTGTTG
Celera SNP ID:            hCV25993007
SNP Position Genomic:     18978
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,1)   caucasian(C,34)   total(C,41|G,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,1)   caucasian(C,24)   total(C,25|G,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62636):
GGGAAACCTCGCAACAGGTGAGGAGGGCAGACGCCCAAGCTTTGTTGCCGCCTGCAGACTCCCTTTTGGGAGCCCTCAGCTCTCATCCTGTACCTCTCAC
Y
TCACAGGATGGTTCGTGGAGACCCAAGGGCCATTGTGGAATATCGGGACCTGGATGCCCCAGACGATGTTGATTTCTTTTGAGCCGTCCCCCGTTCCTCA
Celera SNP ID:            hCV2607815
SNP Position Genomic:     19504
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,11|T,11)   total(C,18|T,12)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,8)      total(C,6|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62637):
GGCGCCGCTAGTTAAATCTTGAGCTCTGTTTGACCAAGCGGCCAAGGTAAAGATCCTGGAGGTGATGCCTGCGGCTTTCCTTTCCTCTTCTGCCCCACTC
R
TGGTTCTGTTCTGTCTTCGCTGTCCCCTCTCTCGAATTGCTCTGTGTCTTTGTCCTAATCTCTCAGCACCTTCATTCTTCTCTGTTTCTGTTCTTGCTCC
Celera SNP ID:            hCV15924993
SNP Position Genomic:     14182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Gene Number:                 379
Celera Gene:                 hCG20530 - 84000314054361
Gene Symbol:                 NDUFA10
Protein Name:                NADH dehydrogenase (ubiquinone) 1 alpha subcomplex, 10, 42kDa;CI-42KD;MGC5103
Celera Genomic Axis:         GA_x5YUV32VWPT(45480309..45558864)
Chromosome:                  Chr2
OMIM number:                 603835
OMIM Information:            NADH-UBIQUINONE OXIDOREDUCTASE 1 ALPHA SUBCOMPLEX, 10;NDUFA10


Genomic Sequence (SEQ ID NO:12539):
GATCTTGGGTTCCCACAGAATGCTCACCCTAGACGGCAGGAGTACAGGTGCGTTTCCAAGTGTAAACCTGTCCCTGGGCAATTCCCTTCTAGAAGTTTGT
TTTTCAGCCTGCAACTCTTCCATGAACTCGACTTGTCTAGCCAACCCCCTACACGTCACCATGAGGCTCTCCAGTAAGTGCCGCGCACCACGCCTCCCCA
GCACAGACTCCAGATTATTCGGCACCCACCTGGCCCTCTCCTAGTCTTCTCATCAATTTTTAGCATCCTGGGCCAGAAACCTGGGGTCACCCTCCCCAGC
TGTGAGCTGGTGGAAGTCTGCCATTCAACCCACCTAGACTGCCAATGAAAAGAACCACCAGATGCCCTGTGGGGCAAGGGGCTGTGGCTACCCTCTCTCT
CCCCCACCTGTGGACCAGGTCCCCGAGAGCCAGGCAGCCCTTTCCTGGGAGCCCTCCCTGCATTCCTCCGGCTGGTTAGCCCAGTTTGGGGTTCTGCCCT
GGTAGGCTGATAGCCCCTCACCTCATGCCGAGGCTGCTGCCCCGACTTGCAGGAACCCTCAGATGAAGGACCCTAAGGAGGGCCAGCTCTGTGTCCATGC
CCACTTGGATCTTGAGAGCTGCCCCAGGCACGTGTGGACTGGTAGTGCCCCTGGACTCAGAGCTTTGGGTTTTGCCCACCCTGGAGCTGCCCGGCTCTGT
TCCTCAGCATATACTCTCTTCCTCATTCCTACTTCATGGTTATATGTAAATGCAAGCACACAGAAGTTTTCTACTTTAAAACTCAGAAGATCAGCAGATC
ACTGCTCTCTCCTGGTGCTCTGGGGAGCCACGTGGCCTCTCTTTGCACCAAAACTCCCCATCCAAGTCCAGCTCCACTCTCTCTCTGCCTCAGCTGCCCT
GCAGCCCTTTCCTCTTGCTCTTTGATGTTTTGTAGGCCTGCAGCTCCCAAGCACAGAGGCATGAGTGGGGAGAATGTCACCAAGGTCAGCACCTTCATCC
TGGTGGGCCTCCCCACGGCCCCAGGGCTGCAGTACCTGCTCTTCCTCCTCTTCCTGCTCACCTACCTCTTTGTCCTGGTGGAGAACCTGGCCATCATCCT
CATCGTCTGGAGCAGCACCTCCCTCCACAGGCCCATGTACTACTTTCTGAGCTCCATGTCTTTCCTGGAGATCTGGTACGTGTCTGACATCACCCCCAAG
ATGCTGGAGGGCTTCCTCCTCCAGCAGAAACGCATCTCTTTCGTCGGGTGCATGACGCAGCTCTACTTCTTCAGCTCCCTGGTGTGCACCGAGTGTGTGC
TTCTGGCCTCCATGGCCTACGACCGCTACGTGGCCATCTGCCACCCGCTGCGCTACCACGTCCTTGTGACCCCGGGGCTGTGCCTCCAGCTGGTGGGCTT
CTCCTTTGTGAGTGGCTTCACCATCTCCATGATCAAGGTCTGTTTTATCTCCAGCGTCACGTTCTGTGGCTCCAACGTCTTGAACCACTTCTTCTGTGAC
ATTTCCCCCATCCTCAAGCTGGCCTGCACGGACTTCTCCACTGCAGAGCTGGTGGATTTCATCCTGGCCTTCATCATCCTGGTGTTTCCGCTCCTGGCCA
CCATACTGTCATATTGGCACATCACCCTGGCTGTCCTGCGCATCCCCTCGGCCACCGGCTGCTGGAGAGCCTTCTCTACCTGCGCCTCTCACCTCACCGT
GGTCACCGTCTTCTATACAGCCTTGCTTTTCATGTATGTCCGGCCCCAAGCCATTGATTCCCAGAGCTCCAACAAGCTCATCTCTGCCGTGTACACTGTT
GTCACGCCAATAATTAACCCTTTGATTTACTGCCTGAGGAACAAGGAATTTAAGGACGCCTTGAAAAAGGCCTTGGGCTTGGGTCAAACTTCACACTAAG
ACAACTAAATGTCCTAGAGTAAAATCTGTAGTGATGAAACAACATTGTATGTGGCACTTTGTGCTCTTTAAATTAATTTTTAAGTTAAATTTAACAAACC
TACAGAACTAAGTGAAATTTAACAAACCTACACAACTGTGCACAAGTAACAAGCCTTCGTCTGCATATGTTTTCACAAAAGGACTGTGCTCATGGAACCA
GCTCCCAGATCAAGAACTAGAAGCTGCCTTCACGCCCTCTCCCAGTCATTAACCCTTCTCCACAAAAAGCACTGTCCTGACTTCCAAAACCAGATGCTAG
CATTGGTGTTTCTGAGGGGCTTACACATAAAGTATGTGCCCTGTTATGTTCAGCTTCTTTCATTCACCGTGTTGCTTGAGTGAATCCTTGATGTTTTTGC
ATGTAACAATAATTCATGCATTCTCATTGCTATCCAATATTCATAATAAATAATACATTTATACTGTATAATACACAATGCATAATACATTCATACTGGG
ATAATACATATACTGGGATAATGCATATACTGTATTGTGTATTATATATACATAATACATTATGCTGGGTGAAACCCTGTCCCACCTGTCCCAGCAGGTG
TGAGCCACTGTGCTCATCCATAATTTATGCATCTAAACACAGATAAGGTAAGTCAAAATATAATGTCATAATCTTATGGGACCACCATCTTATGTGCCGT
TCAGTTCATCATTCACCAAATGTCATTGTGTGGTGCACTACTGCGTCAGTTGAGAATATTTGTGCTGGCTTATTTCTGGATCCTCTGTTCTGTTAAATTG
ATCTACGTATCTATCAATATCACACCCTCCATCCATACAACACAGTCTTGATTTATATGATTATGTAGTAAATCTTAACACTGGAAGAGTGACTCCTCCC
ACTTTATTCTTCTGCTTCAAAATTATTGTGGCTATTGTACAGCCTTTATATTTTTATATAAATTTTATAGTAAGCCTGTCAATGTCTACAAGAGAACCTC
GCTGAGATTTTGCTAGAAATTCCATTAAACCTAAAAATCAATTTGGGAAGAACTGACTTCATTACTCTGTTGAGTCTTTCAATCCATGAACATAGTAAAC
CCCTCCAATTATTGAGGTCTTCATTCTTTAAATCAGTGTTTTGTACTTTTTAATATGCAGATTCTGTGTGTGTTTTGCTGGATTTAGACCTAAATATTAT
ATTTTCTTTGAAGCAACTGTAAATGGTATTCCATCTTTTATTTCAGTTTCCTTCTGTTTGTTGTTAGTACATAGGATGCAGCTGATTTTCATATGTTGAC
ATTGCAGCCTGCAAACTTGCTGCGCTCACTCATTAGTTCCAGGAGGTTTTTGTAGATTCCTTTGGGTTTTCTATGTGAACAGTCATGTCAACTAAAAATA
GACAGTTTTATTTCTTCCTTTCTGATCTGTATGAATTTCATTTTTTATTTTTTGCCATACTGCATGGCCTATTACTAGAACTTCCAGTGCTCTGTTGAAT
AAGAGTGGGCAGAGCAGATATCCTTGCCTTGTTTCCTCCTTAGAAGGCAAGCATTCAGTCTTTCATGATTAAGTACAATGATGCAGAGTTTTCACGCATG
TGCTTTATCAAGCTGAAGCAGCTCCCCTTTAGTCCTTATTTGCTGAGAGCAGTTTTTGTTTTTATCATAAATGAGTATTTAATTTTGTCAAGTGATGCAG
AAAACTGCATCAGGCAATCTGGTCATAGATTTCGTCTTTCACCTGCTGGTAAGGTGTATTACATTGGTTGATTTTCAAATACCAGATTAGCCTTGCATCT
TCTGAATAAACCACCTTGGGTTGTGGTGTATGATTCATTTCATATAGTGTTGGATTCAATTTGCTAACATTTCGTTAAGGATTTTTGTGTCTAAGTTCAC
GAGAGATATTGGTCTATTGGGGTCTGAAGTTATTTTCATGCTGTCTAATATAGTGTGGACGTCAAAGCGACCTCCTAGAGAACATTCCTAGCTCTCAGAA
CGTTCTAGCTGGGGAGGGAAAACGGAAAAAGGGGGGCGAGAAGCGGAGGGACGGGGAAGTATATAGTAATACTTCCCTTGAACCAGTAAAACTGTAATGC
CCAACCTGGTTTTTACTAACTGTTTTCAGACTCTCCCTTTTCCTTTAATCACCTAGCCCTGTTTCCACCTGAATTGACTCTCCCTTAGCTAAGAGAGCCA
GACAGACTCCATCTTGGCTCTTTCACTGGCAGCCCCTTTCTCAAGGACTTAACTTGTGCAGGCTGACTCCCACCACATCCAAGAATGCAATTAACTGGTA
AGATACTGTGGCAAGCTACATCCGCAGTTCCCAGGAATTTGTCCGATTGATAACGCCCAAAGCCCCGGGTCTATCATCTTGTAATAGTCTTAAAGCCCCT
GCACCTTGAACTGTTTACTTTCCTGTAACCATTTACCCTTTTAACTTTTTGACTACTTTACTTCTGTAAAATTGTTTTAACTAGACCCCCCCCCCTTCCT
AAACCAAGGTATAAAAGTTAATCAAGCCCCTTCCTCGGGGCTGAGAGAATTTTGAGCGTTAGCCGTCTCTCGGTCGCCAGCTAATAAAGGACTCTTAATT
CGTCTCAAAGGTGGTGTTTTTCTAACTCGCTCAGGTACAACAAAACATCCACGCAAACAGGTTGTGAGAAGTTACGTCTGCGTGCTGTGATACCTAGAGG
AACCACTACGAAAACTATACATAATGATATTTCCCAAGACATTATCAGTAAATCAAGATGGAATTCTAAAAAAATGTACTGTATCCATTGGAAGGCACAA
AAAAAAAAAAAAAAATGCAAAGGAAACAAGGCAAAAAACAGCAGACATGAACCCTAAAGCTTGTTAAATGGATTTCAGGTGCCCTCCAGGATCTAAAAAC
CAGACCCTCCTGCGTTGGGGACCGGGAATCCGTATTTTTGACAAAAAGCAATTCTTCAATTATAGAAACATCCATAGAACCGGCCGTAGTTTACACAGCT
GCATTCCCACTGTTTTACAATCGCATGATCATTTCTGAAAAGTTGAAAACAAAGTTAAAGAATATTTAAGGGGTTAAGAACAAAAAGCCTGGGGAACACA
AAAGATTATAAAAACCCTTCCCAACAGCAGGCATACTTGGAAGGAAACCTCACATGCAAGGCTCCTTCGTGGAGCCCAGAGCCCAGGTCCTGACGGGAGC
ACATTTTAAGAGATGGACTTGCCGGCGCGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGA
CCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGCGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCT
GAGGCAGGAGAATGGCGTGAACCAGGGAGGCGGAGCTTGCAGTGAGCGCGATGGCGCCACCGCACTCCAGCCTGGGCGACAGAGCGGGACTCTGCCTCAA
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGATGGACTTGGAGCGTGTGCTTTTGTTTTCTATGCTATTCAATGTGTTCACAGCAGGTC
CCCTGGATGAGACCACTTAGCCTTCAGCTCCGGAGGCGACCCAGGCCGGCCTTGCCAGGTCCCTCTCCCTGACAGGCGCCCCGCGACAGGGGTCCCACCC
CGTCCCTCCGCTCCTCGCCCCCTCTTTTTCCACTTTCCCTCCCCAGCGAGAACGTTCTGAGAGCTAGGAATGTTCTCTAGGAGGTCGCTTTGACGTCCAC
ACCGCGCCTGGGGGATTCTGCGGGGAGCACAGGACCCTGGGACGAGACGCAGAAGTCGCTCCACGCCCTGGGCGGCCTCAGCTCCCGCGACACCGCAGCA
ACTCAGAACCCAGGCAGGGGCCGGGCAGCCAGCATGCTGCCCCCACGTTCACCTCCAACTCCCACCTCTCGGCCCTCGCCCCAACCCGCAGGACCCTGGC
AGCGCACTGGCTGTCTCCGCGGAAGCCCCCGAGGGCCTCGGCGCGGCCCCGCCCCCTGGAAGGTTCCCGACAGGCGCCGCGGGCACCCCGGCCGTGACGT
CACGGCAGCGCGCCGGCCGCGAGAGAGGGCCCCGTCGCGACCGCGTCCCCTTGGGTCCTTGATCCTGAGCTGACCGGGTAGCCATGGCCTTGCGGCTCCT
GAAGCTGGCAGCGACGTCCGCGTCCGCCCGGGTCGTGGCGGCGGGCGCCCAGCGCGTGGTGAGCGGGCGGCGGGGTGGCAGGGTGGCGGGGTGGCAGGGT
GGCGGGGTGGCGGGGTGGGGAGCAGTTCCACATCTCCCCCGGCCTCTGGCGGCGGCTCCCAGGTCGCTCTCCGGGTGGGTTTGGGGGACCCCTCCTGCCT
CCGGAATTGTTTGGTCTTTGGTCGTGGACAGACCTCAGGGGGCCACGAGCTTCTCCAGGCCATTTTATCTCAGCTTTAAGCAAAACGCTGGAGCGCGGAG
GTGATCAGGGCCCCGAGGCTGCCCTGATGCGGGAGGCCCGTGTGCAGGTGGCAGGCCGGGGGCACACGCGCTTGTCATTAGATAATTCACGTAGCAGCCC
TGTCAAGAGCCGTTTAAAGGTCGGGCCCTGCTGGGTGCTTGGGTGATGCCATGTTGAGCAGACACGGAGTTCAGTGCTTGTGTCCGCTTCCTTTTGCCTT
TACTCTGACTGACTACTCTCATTTCTTAGCATTTTGCCCCCACCTTCTTCAGTGAAATCGTTTCATACATTTGTAACACAGTTGGATTGCTTTGTCACAT
TCTGCCTTACATCTTGGGATCCTTCTACCTAATGCGTTTTTTAAAATGTGCATACATTGAGCGCATTCTTTGTGCTATAAGGTTCTATGGATTTTTTCTT
TGTGCTATAAGGTTCTATAGGTTTTGACACGTGTGTAATAGCATGTCTCCACCATTATAGGTTCGTACAGAGTAGMTTCACTGCCTTAAAAAATTCCCCT
CTGCTTTACCTATTAAACCCTTCTTTTTCTCCAACCCCTGACAACCACAGATCTCATTAACATTTCCATAGTTGCCTTTTCTGGAATGTCATATAATTAG
AATCATACAATATATTGCCTTTTCAGACGCCTTGAATACTTGGAAATATCTATGTAAGATTCACTTATGTCTTCGTGGCTTGGTAACTCATTTCTTTTTA
ATCACTGAGTAATATCTCATTGCATGGATGTACTTCAATTCATTCAGCAATTGAAGGGCATCTTGGTTGCTTCAAGTTTTTGGCAATTATGAATAAAGCT
GCTGTAATCGTGTACATGCAGATTTCTTTTTGGAAATACATTTTTATATCATTTGGGTAATACCTGGAAGAGYGATTACTCATGTAGTAAGACTAGTTTT
CTAAGAAGCTGCCAAGCCATCTTCCAGAGTGACTGTGCCATTTGACTCCCACCAGAAGTGAAGGCTCTCCTTGTTGCTCTGCGTGCTCGCCAGCATGCGG
GGCTGTCGGTTACTTTGGATTGCTATCCATTCTGATAGCTGCGTAGTGGTATCTTGTTTCAACTTTGGAATATCTCATGATATACAGTGTTCATCTTTTC
ATATACTTATTTGCTATCTGCGTTAATTTCATTTGCGAGAGGTGTTTACATCTTTTGCCCATTTTTAAATTGGGTTGTCTGCTTTGCCTTGTTTTGTAAC
TTGTTTCTTCCTTACTCTTCAGTTATCAAATCAAGATCGAAAAATATCTTGATATTTCATATTCTCCTGTTTTATTTAAATTTCACTATAAAGTATTTTA
ATATTTTTGTGTTTTTCTGAGTACTTAGTATTCCATAATATGGATATGCCTTAATTTTGTTTAACTATTCCTCCGTTGTTGGACATTTAAGGGTTTCTAT
TTGCATTTTTGGTGTTACATCATACTTCATTGAGCATCCTTATAGGTCAATCTTATGTATATACTCTTTGAATGGATTCCTAATGCTGTAGACCCAGCGT
CCTCTAGGTTTCATTACCATTAGCAGTTTAGGATGGTACTCATTGTCTTGTCCTAACTCTGTAATCATTTTTTAAATTATTTCTCATTTTGACACATGAA
AAACTAATGTTTCCTTGTTAATAGTCTTTTGTTTTTTTGTAGCAAGGTTGACCACTTTTTCATGTGGTTTTTGGCTATATTTTATAATTTTAAAATAAGC
TGTGTGTTTTTATTCTTTGTTTTCTTATTGTTCTGTACAATTTCTGTATATAGTAAGGTTATTACCCCATCATATCTGTTGAACTTCTTCAGTTTGTTTT
ACTTTTGGTTATGTTTCTTTTCTTTTTTTGGAAGGAATGTTCCCACTTTAGTGTGGAGAGTAAATTGGGCTGCTGGAGACAGGCATTGAAGCAGGTCTTT
GCCTTGTAGATGAGAGGTGTGAGGGTGCCGACAGAGTCAGCACATGGCATAGGGAGGCGATGCAGTGTCCAGAGAGTCTGAACAGTTAGGATTTTGTGTG
TAATTCTGCAGTTGAAGGAAGGAGAAAGGTATCAAAGACGACACTCAAATTTGCTCTCTTTTGCTTGTTAGGTAGTGGATATTCCTTGCTGTGAGGGAAA
GCAGACTTGGGGGCTAGGATATGGATGTTGCATTTCACCTTAGCTCTGTTACCTTCAGGTGCCTTCAGGACATCTAGGTGGAGCTGTTTAATAGGCAGTG
GGGTAACGAGGTCAGGACATGGGGACAGAAGCTTGGATTAGAGAAATGTTTTTTATTCCCTTCCCTTCACTCCTGAGCTTCCCTCCATCCCTGTCTTTCT
TCCTCCCGTCTGTCCGTCCATCCATCCATCCATCCACCCCTCCCTCCCTCCCTCCAATTTTTATTGAACATAGTAAACATATTTAATAAAAATTTCAGGC
ATTGTTCCAGGGCCTGAGGATTTAGCAGTGAACAAACAGACAGTATATCTGCCTTTAACGAAACTTACATGGACAGAGTGGTGGGGGATAGACAGATAAT
TAAACAAATTAATAGGCAATAAAGATGTAGATGTTGGCATTTTTATCACYAAGAGGTTTCTTGGTATTTTTACCTAATAGTTACTAATGCCTACAGGAAC
CAGAGTGGTCACAATGTGCTGCTGTGTGATTTTGTGTTTTTCAGAGAGGAATTCATAGCAGTGTGCAGTGCAARCTGCGCTATGGAATGTGGCATTTCCT
ACTTGGGGATAAAGCAAGCAAAAGACTGACAGAACGCAGCAGAGTGATAACTGTAGATGGCARTATATGTACTGGAAAAGGCAAACTTGCAAAAGAAATA
GCAGAGAAACTAGGTATGATTTTATGTTACACAGAATGATACCTTTTTCTCAGATATATGGTTGCTTATTTCACTGGTTTTTCTTCAATATTAATATTAA
ATAATATTAAATATTTAATAATTGGGCCTAAGGTGGGTATTTCACATTTTTGTTTATTGAAAAAGCTGTTTTATAAAACRAAACAAGAAAAAGCTGTTTT
TAATCTTTTATGTTTGGAAAATTTGTGAAAATCCATGCTGGTTGTCAATTTGAATTGGAATTTTATGTGGGCAGTGTAAGCAGGGCACTTCCACATAAAC
TGTCGTGTTTGAACTTTGTGACAGCCTCTGAAATAGAGCCGAGGATGGTACTCACTCACAGATGGGTGTACTCCTGAGTGAGCAGATGCCACATAGCTGG
GTCCCAAAGCCAAGGTTAGAGCCCCTTCCTGACTCCTGGTGCAGCTGAGTGTCCATTGTACCTTTCTGTAGCACCTGCATGACAGCAGCTGCCCGCTAGA
GGGGGCTCCTGTGGTTACAGGGAGCAGTCCTTTCAGGAGGAACCTGGATAAGGGCACTGTGCAAGCTCTTTCGCTCACATGCTTGCTTGTATATGTTGTG
TGTTCCCTTCATACGTGATGAAACCCAGGCATGTAGGTGACTTTCTCTAGGTCATTGGCTCCATCCCTGGCGGTGAGATTCGGGCGGGCTGTGTGTTTTG
GCTAGTCCCCACTGCTCCCTGCGGGGAGTGAGTGATGTGCATCAGACTGCATCYGACTGTTTCTCTTTTCAGGCTTCAAGCACTTTCCTGAAGCGGGGAT
TCATTATCCAGACAGTACCACAGGAGATGGGAAGCCCCTCGCCACCGACTATAATGGCAACTGTAGTTTGGAGAAATTTTACGATGATCCGAGAAGCAAT
GATGGCAACAGTTACCGCCTGCAGTCCTGGTTGTACAGCAGTCGCCTGCTGCAGTACTCAGATGCCTTGGAGCACTTGCTGACCACAGGTGCAGTATTTC
TGGGCAGTTAGATCTGTTCTGTACTTGAACACTATTCTAGAATTCAACCACGTTAAATTGCCACTGAGTCGAGCTTTCCTTTAAGGGTGTTTGATGAGGT
GAGTTCTGTCTTTCCAACAAGATCATGAATTTCTTGAGATTGTGTTATTTTTGCTTCAGAATTAATTTAATGCTGTTTCACTATGGATACTGGAGTGAGA
TTTATGGATTGTATAGAATTCTCAAGGCACTACTTTAAGCTTCTATACTTACATATTCATTTATATATGAAATGTGTCAAAACAAAGGGGTAAAGAGAGC
ACAGAAGTGTCCAGGAGGAAACGGGATCACACTTATGAAGACTGTGCATGTGCCATGCAGACAGAGATGTGGATGCCAACAACATAGGGTTGTCCCGGAG
GGCCCAGAGATAGGCCGGAATCACCATAAAGCCACGAGGCAGACGTGAATCTTGATAAGATGACGGGGGGAGGCAGAACACACAGGGTCCCATAGGCCAG
TGCAGTAGGGGAGGATGCTTCCCTTGAAGGTATCCAAAGCAGAAAGGAAGAGCTGTGTACTGGGGAGCCTGGGAGACGGAAACAGGGATCAGAAAGTATA
GTTAGGAGAGGAAGGGAAGGTGGATGAAAGGGCATGAACATGGACTACTTGTGTGCAGAATGAGGTTAGGGTCCAGCGACGGGTTACTGTAATCATTCTG
GGAAACAGCAGTGCATGCTAGACATCCTGAGAGTTGGACCGCAGATGCACTGCCAATTTTTGGTCAAAGCTACCATGCCACGGCGGTCCTCAGTTCACAG
GTAGCAGCAAATGGCACATCTGTGTGCGGAGAGAGGGAGATGGGTGGACTCTTAGGGCCTTCGTGTCTGTTTTATATTGCAGTGCTTGCTGCTTTYGTTG
ATTGGCAGTGCCCCTGATGAGCTTCTCACGCACAAGCTCAGCCGCCACTAGGGTTGGCTTCATGGGGTCTGAGCCGTGAGAACAAGAATGTGGTTTTCAC
TGGGAGTGGCCGGCTCACAGGCTTCTTCTCAGAGCTGAGCTAGGAGCCGCTGCCTATGCTCCTTCAGGTCTCCACGGATGCAGTGTGTGTCCATGACACG
TATCTACACAGTTGTACGGTGGTGGAGTTATTGTCTTGCTTTGAAAAAGTTGAAAACATTTTATTAGTGCTTCTTTTTTTCTTATATGAACGTAAACCCT
GATCTTGGTTAGTGTTACTCCTAAGAAAACAATGTGGTCTGCTGTTTCTGGTTTGAGGTTCTTTACCAGGAGCCAATCCAGGAGCTGATGTCGTAGCGTG
GACTTCACACTGACATCCAGGCTTACTCCACGTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAG
TGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCC
ACTACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTC
GGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTCCACGTTCTTTTTAAAGCATTCTTCAACCCTGTCTTCTGACTACTCATTTC
TTAAAATGAAAAAGAAACATTTTACTTGTTAAATAAAGCCTTGCTTTTTTTGGTGCTATAGTAACCTATTTCCCATTTAGAAAAAAAAAGTGCAGCTTGC
TCCCATCTCAGTATTCTTGGGGCAAATTGGAACTGGGTTAACGTATTCATTAAATATTTAGTGCATGTCTGCTGTGTGCCAGACCCATTCTGGGAGCTAA
GGGCGCCACAGGGAGGGAAGCCTGTGTTTTAGTAGAGGGATGAAGACTCGATGTGGAAACAGGAATGTCTTGCCCCAAGTGAGTGGTGGCTGCTCTGAGG
AAGGAGGCTGTGGGGAGAGGCTGGGTAGGAAGATTAGGGGAGGCCTCTGCCCAGACACAGCAGGGCTGACTGCAAGGAGGCTGGCTGGGGACCCTGGGGA
CTAGTGCTCTGAGCTGCACAAGTGTCCGTCGGGGCTGCTGTGATAGTAACACAGCCAGTGAGGCTGGGAGTGGACAGAGGTGAGGTTGAGAAGTAGCCCA
ACATCAGTAGATCTGACTGGAATGGTGGGGGCAGGAGCAGGATGGGGGTGGGCACTGTAGGGGTGGAATACGTTATTTAAAAACAAGCACTTTTTGTATT
AACCGGATGCTTTCTGTTATAGCTGACTTAATGAAACGATGTTATATTGCTCAAAACTGAAAAGATACTTCAGTTTTTGAAAATGGTTTCCCACTTACAA
ATATGTCTATGTTCTTTTCAGTATTTTGGTGTGGAAATGGAATTGTAAATGATTGTTATTTTCTTTTCTCTGRAATGCAGTGATCAGTTGACAGTGCTTT
GCTATCTGTCTGATTTTCAATTTCTGTTTGCCTATGTTTAAACAGGACAAGGTGTTGTGTTGGAGCGCTCCATCTTCAGTGACTTTGTGTTCCTGGAGGC
GATGTACAACCAGGGATTCATCCGAAAGCAGTGTGAGTCAGCATTGCAGACCCACTTCTGGGTGTGTGGTGCGACTTTGCAAGGGCTGTGATAGACTCAC
CTTGCACTTACTGTGTTTATGAATGTCTGTTAGATAGATGAATAAATGCCATTACTTAATCGGTCTCCGCTGGAAAAAGGAACTTCCTAAGTATCTTCCA
YCCTTTCTCCCTCCTGAAATAGGTGTCTTTTGTGCTGTCATGTCTCCCTGTGAAAGCAGATTGGAGCYCTGGACCTCAAACACACGCAGCTTAAAGTGCA
GCCCCCACAGCCTCCCGTTAGAACCTCCCCCGCTCTTAGCTTGCCCTAGCAATACCTAGGCTGTAGCTCTAATTGTAACAGACTTTCCAGTTTCTAGTGT
GTGATTTTGATGAATTGGGATGTTAGCCCTGCCAGTTGCCAGCATCATCACAGTGCTTCCCTCTGACACGCTGCCGTTTTTCAGGACAGTAGCTTTGTGT
TGCTGTATTGGGGAAGGTCTGACAAGTGGCAAATGGAAAGGAACAAAGACCCCCTGGTTTGAAGCAGGCTGACCTTGAGGAGTCAGGGTGGGGTTGGGGT
GTCTGTGACTAGGACTGTGTTGGGCGGTGGGTTGAATAGGCCTGGTGGACAGTCTGACTGACGGCATTTTCATCTGTAGACTGGGGTGGCTGGAGCCAGT
GGAAAGCTGGAATCTGGGAGCTCAGAGGAAGTACTGTTGATTAATGAAAGAGGAGGCCRAAGCAAGCCAGGTGACCATTCTGTGGAGGAGGCGCCTGCTT
CTGGCTGCTTGTGTGTCCTGGTGTTGCCGGTACTCCACCTGTGAGCTTGCCGCCCGCAAGAGCACTGCAAGCCCGTGCTTCTGATAGGGGCTGATCCTCC
CTGGACATGCTGAGCAGCGGGTCAGGTCACCAGCAAGTGTTTCTGGAGTGCCTGTGGTGTGGCAGGCTCTCTTAGGTGCTAGGGATATGAATATGAAGAA
ACTTAAGACAAGGCTCCCAYGGGCCCGGGGTTGGGGGCTGTTGAACCAATGGGGATGGTTCATTGTAATAAAGTGTACTTAGCACTCCTGAGCATTACTC
CTGGGTGCTTTGGGGGCACATAGGAGAAATGTGTAACCGGCTGGGAGATGGGATAGTGTCAGGGACAGCTGTTTTGATGAATGGCCTGTCATCTGTAGCG
CAGTGGGAGTGAGGGACGTGTGGGGATGGTGGAGAAGCCTGCGTGTGCCACAGGCTGGTGGTGGTGTCCTATAGTGAGGGCTGGGTGCTGGGGGAGAATG
ATGCTGGATGAGGCTGCACGAGGAAGGAGCTGCGCCTCGGCGAGGATGCTTGGCTTCTGTCCTGAAACTAGTGAGGGACCACTGGAGGATTTTTAGCATG
GCAGAGACATGGTTAGATGTGAGTTTAAAATGGTTGCAGGCCTTCATCTGAAGGATGCATTTGGTGAGGAGAGACGGAAGGGGAAGGAGCCTATCTGGGA
GGAAATTGGGGTGGGACAGGCGTGCACAGCAGGGAGGCTGCACTGGGCAGTGGGAGTTGCCGCTCAGGAGGGACACTGGGCAGGCCTGGGTGGGTGGTTT
CCTGTGTGCACAGTGGGGAGTGGCGTGGACCTGCCCTGGCTAGTGGGCCGCTAAGGGGGAAGGATGCACAGGGGCAGTGGACCGATGTGGCTTCATGTTT
GGGCGTTGGATTCCTGAGTGTGAGGTTCCCATGGCAAGGTGGCAGGAGATACCTGTCGGCATCTGCTGAGTGTYTGCTGAAGTCTGAGGACTGGCCTGGG
CTGGAGTCTGCAGGCGTTGGGGGTCCAGCACTGACCGTGAGCATGCTTTCCTTGGGAAAGCCCAAGGGGTGATGGGGGAGGGCTGAGACCAGATCCTTTG
GGGACCATTTCTGGGGTGATGAGACCCCCACTGAGGGATTGAAGCTGAATGATCAGAGGTGCACAGGAGGAAGCAGAGGGGATGTGGGGAGGGTTGGTTG
TTGGTGTCACATGTGCTGTGACTCTGATGGGAACTGAGAAGTGACTGTCACGTTTCACCTTTCGGGGGCTGGTGATGTTAGCCAGAGTCGTTTGAGTGCT
GGGCTGGGGGAAAGCAGATCATGTTGGCTAAAGGACAGGTGGCATAGAGCAAGGTGGGGACCACCTGAGAAGTGGGTGTACTGACAGGAGTAAGGGTGAG
GGTGGGAAGCAGGGTGAGAGCAGACTCGGTGAAGGGAGGTTTCACCTCAGCAGCAGGAGAGACCGGCCTGCTACCGGTCCAGCAGTCAGGAAGCAGACCC
GAGGTCCCGTGTGCTCTGCCTGGCTGCGGGTTTGTGTTTGTATGCTCAGGTGAACGGTACTCCACTGGCAGCCTCCGTCCTTTGCTTTGTCACACCTCCT
CCTGGGTGGTCTTCCTTGTTCTTTAGCTCGTGCCGTTCCTGACCCTGAGCCAAAGGCTCATCCCACAGTTGCCTCTAGAGTGAGGTTACTAGGAATGCTC
ACTGGAACTTTTTTTTTTAATTTAATTTTTAAAATTTTTATTTATTTATTTTGAGACTAGGTTAGGAGACTGGCTAATGTTTGTATTTTTGGTAGACATG
GGATTTCACCATGCTGCTCAGGCTGGTCCTGAACTCCTGGGCTCCAGTGATCTGCGCCCACCTCGGCCTCCCAAAGTGCCAGGATGACAGGCGTGAGCCA
CTGTGCCCAGCCCATTTCCTTTAAAGCAAAATAGTTGTCTTTCTGTGGACCCTAGCATGGCCATCTGTCACTTCTGGAAGGTTCCACACGTGAAAAGCTG
CAGAGGGGATGGCTTCTCAGCATGGCCTCTCCACATGCACTGGCGTGCACTCTCTGTTGGCTTCTGGGAGGTCGGGTGTGCATGAGCATGTGCAGGTGCA
GAGTGCTCTGAAGAGCGGCAGGGTTCCCTTGGGTGGCACGGGCCCTGCGGGTGCCCCCTGGATTATGCATTCTGTGTAGTGATCACTTTAGGAGAATTAT
TCCTCAGCCTTAGCTGCTTTCAATTTCATKTTGTCACTAAATCTGACTCAGTAGATACTTCTGTGCAGCTGATTATACTACTGAAMCGGGATAAATGYAG
CTTGATGATTTTCAGCTGAGTTATTTGAAAAATAAAGTATTTAAAGCTGTTCTTTATTCTTCAGAGAAGACCAGACTCTTGTATCTATTATTACTGTGAA
GAAATATAGTAGCATGTATACTATATACCTGCAACATATATACTGCAAGTATATGGAATATATTTCAGTTCAAAGATCACTGAACTGTGACCTCCATCTT
GCGTGACCTACGTCTTGCCTCAGGAGCAAAAGTGAACCCTTAAATGTGGCTAAGATGTGCTAAAGATCTGTCTTTTAGGATGATTAAGGTCACAGTTTAA
ATGCTGCTRTTTTACTCTGTGTAAGTAGCTTAATTTCTCTGGGCCTCAGACCTTTGGTTTGTAAATACAGTGGAGGCGACAAGCCCTGTTTTCAGGGTTG
TGGGCACCACAGCTGCTGTCTGCACATGCCCCGTGGCACCTGGAGCACAGTCACATGCCATGTGTGTGGTCAGTGCTTAGAACTGTGACCGAGATAGGGT
TTGTAGATTGGTACGTGGCTTTGAGAATTGCGTGTATGTTTGCCCTTTTATTCAAGGAGGAGTGTGTTTTGGAAACCCGTGTGGGGACTGGTAGGTGACA
GCGCCCCTTTCTCCTATGTGCCAGGTGTGGACCACTACAACGAGGTGAAGAGCGTCACCATCTGCGATTACCTGCCCCCCCACCTGGTGATTTACATCGA
TGTGCCCGTTCCAGAGGTCCAGAGGCGGATTCAGAAGAAAGGAGATGTAATGCAGTTTTCAATCAAAGGCCAAGCATCTCTATTTTGAATGYAGATCAGC
ACTAAAAGCCCTGTTTTAATAGYATTTATACTAATTCCTACCAGTCCTCACGAGGAGGGTGACACACACCCTGTTCCCACTTGAGAGAGGGCATCTKCAG
GGGTGGAGGGGAGACCCCATGGCTCGGCCTGGTGCCACAGCCTGCGGGCCTGCCGCCCACCAGTGCTCTGCGGTCCCACTGTGGTCCCCGAGTCCCCTCA
GCTGTTTAAACTTGGGAGGCTGGTGAGGGCCTCCTGGCAGAGCGTCCTCCATCCCTCTGTCACGTACCTTTCTGTTCTCTGATGAGGTTTTTGTGTCCTA
TCGTTTTCTTCCACATTGGAAGCAATTTCTAATATCCCTCATCACTTCAATCTATTTAACGCAAATCGTGCCTCTCCCCCTTTTTCTTACTTACCAATTC
TAGAACAGTAGAGCAGTGATATCCACACACATCCATTTACTCTTTGTAGTTTTCATTGGATCTTAATTAGGTGGCCTCGAAGCAACGCCTTTTGAAGTGA
CCCTGTGGCCGTTGGTAGCTCTGTTGGCGGCTTGATGGAGGATCCTGAGATGAAACAAAGACCGTCTTTGCCCTGTGGCGAGTTCTTTGTTTTTTTTTTT
TGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTC
AGCCTCCCAAGTAGCTGGGACTACAGGYRCACGCCACCATGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGCTTGTTTAATACTA
TGTTATTTTTTCCTGGAGGAGAATATGGTCTCCTTTTTGATACTGTGATGAAAATGCAGGGCTACCTGCCTGTTCCTCACTCTGATGCCCATCCTCAGTG
CCGGAATTCTTGTAGGTGCTCAGGAAATACCTCTCTGGATGGTGGGTTCTTGTCAGGGCAACAGTAAAGCTCTGGTTATTTTTTGCTGCTCCTGAAAGAT
CCATGGGACTAACTTTCCTTCTCTGTTGCAATAGTAGAAACAGCGAGATGTCTATGTATGCCTTTCTATTGCCACTCTGGAACTTTTATTGTTTAAGCAT
ATGCTTGTAAGTATGTTGTATAGCTAGACTTCTAAGAACCTTCCATCAAGTGGCAAAAGGAGGGAACTGCAAGTTCAAAATGTTTGTTTCTCAGTGGACT
AACTGGACACCTTTGCTTATTATGCTGACATTTATTGAGAAAAACAAAGTCATACATTTAACATTCTCTAGATAATTCTTTTGTTATCTGGGAAAACAGT
ATTTCAAAAATAATTCTGAGGTCTAAAGTAGAGCTGTCAACTTCTTAATTTTTCCAAGTAAAGTCTTCAATACTGTCATCAGGTAAAATTACCCCATTTT
ATAAAAGACATCACATTATCAGTAAGTCTGTGTTCTTATTTTGATTTTTATTTCAATGCAGTCTGTGTCTCAGTATTGCACCTTTTGGGAATAACTGATA
GGAATATCCGAAAACCATTTCTAGATTCTAAGAAAACAGTCAAAGTGATCAATAACTACATATTTTATCAAGTAACTTCAGGTCAGATTTCTGAGATGGT
TGTGTTATGTTGCATGTTATGGGCTTATATTACACTAGAGTTTCTTTTATAATCAGTTAACATTTAATCTTATTCTACTTGGCACATAGCTAATGATAGA
GATTTAGAATCATATCACCTCTTTTATACTTTTGTTGATTTCACTCACTCCTCTAATACAGAGCACCTCCTATATGCAAGGCGCCTGTGCCAGGCACCTA
GGAGGCTGCAAAGATGAACAAAGATGGTCTCTGCCCAGACACCAAGTCCTTATTGGAAAATAGAACTCCCAATTACTGCCTTTCCCCCTTTTGACAGAGC
AATGAAGTGCAGCATTGCCTGTATCATCCTTTCCCTGTGCCCCGTCGCATTACTGGAATTAATACATGTTCAGTAAATATTCTTTGAATGATAGGGTTTT
TCTTATTTTGAACAGCTTTAATGAGGTATAATTTATGCTCCATAAAATTCACCCATTTTAAGGGTACGACTGAATGATTTTGGGTAAATTTACCAAGTTR
TTGCCACTCTTGCCATAATCCAGTTTTAGAATGTTTTCATCATTTTGTAGGTTGAAACCGCAGGCCTATTCATTTCTTTCTTCCTTCCTCTCTCTCCTGT
AAGTGTTGATTGAGCATCCACCCTGTCCTAGACCCTGCTTGGTGCTAGGGACATACCAGTGAGCAGGGTGGATGAGGTCCTCACCCGTGAGCTCATATGC
TGATGGGGGAGACCTACAGCAAGCAAGGAGATAAATAAATACATCAAATAGAGGTAAATGATGTGAAGAAAACAAAACGGGCTGAGAAGATAGTGTGAGA
CTGTAAGGAGTTTTAAATTTTAAAACTTGCTACTCATAATTAGATATTCAAGTTTCTGAAATTCGCATAGTGCATTTCAGATGATGAGAGAGGTGACARC
CGTAGAAAGTGGGAGAAGTGGTTGCGGGGAGATGGGTGAGCGATGGAGGTGGCGAGCAAGTTGGAGAGATGCAGGGAGAGTCAGGTGACAAGAAGAGAGT
GTGCTGAGGACAGATGGCGGACAGACAGGCCGCTGCCCCCAATTTTTGGTGCTCTTTCATTCCTGCACTCAGGCACGAGGCAGACAGGAAAGACAGGCAG
TGCTGCTTCGTAACAGGCATCTTTCTTGCCCTAAGTATACATCTTAGAATGTGTGGAGAAAGTCACGCTATGGGAGCACTTGGGCAGGCTCAGGTGTTCA
CTGTAGTAGAAGGAGAATGACTCTAGCTGATGTTGGGACCCTTTGCTGTCACCCCGCAGTCCCCACAGTGCCCGGTGTGAGTTGTAAGAAAATGGTGGTC
AGTGATTGTCTTCGCATTTTATATACGCACAGGTCAAAGAGAATGAACTCTAAATGTTTCCCAGTTTGRTTTTTCTGCTTCTGTTTAGCCACATGAAATG
AAGATCACCTCTGCCTATCTACAGGACATTRAGAATGCCTATAAGAAAACCTTTCTCCCTGAGATGAGGTGAGCCAAACACACGACTGATTTACAGGGCT
AAAACTTCTTCGCCACTCGTTTCTTAGGCCCCAACAGCCCAGGGAGTTTTCTGTCTTATTTACTGCAGTGGATATTGTCTGAGATGTTTAATCTGATGTT
TATAAATAAGAAAAACAGGAGACATTTCAGTTTGATTTTTGTGGGGTTTATTGGTTTATTTGTTTTGGTTTGCTTATCTTGTCAGTACTTTTGCTCTGCT
ATATTTCTGAAGTTTTTTGATGCTAGAAGTAAACCAAGCTCTATTCCATGACAGGTTTTACCATAGAGAACTTGTGTATTTTTACTTCAGGTGGCAACTA
AACATTCGTGTTTACCTAGAAGGATTGATTGGAAGTGTATTCATGGAGAAAATTCATGAAAGATAACACTTTCTCTAGACATTCTTAATTGATGTCCTTG
AGAGATGTTTGGATTAGATGAAGGAAACACCACCAGACTGTTTTTCTTTCTTTTCCCCCTTTCTTTCTTTGTTGAAAGCACATGGAAAATGTGGTTTCAC
TCATCCTATGGCTTGTCATTCTGCGCTCCTTGGGTATATTCGTGTGTAAGGAATGTCTGCCACACTCATTCACGTCCAGTTAAACTCAGATTGTTTGAAT
AATGCTTGAATTGAAGATTTTTATACTATTTCTCATACTTTTTAAAACCCTAAGCCTCTTTCGGTGCCTAAAAATCTCATGTTCTTGTTGTTTAAAATTT
CAAAGTAACTGAAGTTGTGAATAAAAACAAAAGTATAGCAATTTTAGAAAAAAAGTTTTATTTTTACATTTATTTTAGTTAAATACTGAATATTTACAAT
GAACAGCCTTAGAAGATAATATTGTTAGACCATAGGTAATAATAAAATCAAAAGTGAATAAGAGAAATGTTCTATTCAGGGAGTTTTTTCTGTACCGTAA
GTATTAACGTTTATGTCATCTCTGCTTGTTTGTGGTGAGCGTTTCTTTCTTAGGTGGTAAGAAGACTGGGTGGCCTCTGGCTTCCTTTTAACCTGTTGTA
CTGCCCTATTTCCAAGGCCACAATACCAAGGGAAGTATCTAGAGCCAACGTGAATAAACAGCATAAACAGAGATAGTTGACCCTAGAGTTTCAGGCTCAA
AAATTACTCTTGGAGATCTTCTGGCTTCAAAAACATCACTGAGAAAGAGCTTTGTCATAATTTCTCAAATGGAGTTTCTAGCTACAACATCAGCAAAATA
ATGGCTGGTTTCAGCCTGTGCACAGGGCAAGAGTTTCTTTTACTTTGCCGCCCTCATAGACTSGTTAAGCCTCAAGCATTTATTTCTTACCACTTGGTCT
TGCTGTGTTTTTAACTCCTGTTTTAGGAACAGATACAGTCTCTGTTCATTGTTAAAGTAGATCTTATCTGACAGCTCAAGCCGTATGGATTGATGGGAGC
CACTTGWTGTAGGGGTCATTTGTCACACATTGAAGAAKGAGTACCAGATGTACTCTATGCAGTATGCATTATTTTAAGTGCTGAATTGTAGACCAAGATC
AAACTGCAGCTTTGTGATGGACTTGGATCTTAAAAGTTTTCTCATAGAAATTCACTATGAAATTTGGCTGAAACTATTTTTTGTAAAATTGCAAGAAACC
TATGACGAGTTGTATTTTAAAATTTATTGGCCATTAGCATTTTAGAATTCAGGAGTTATTTTCCAACAGAAACAATATTAGGTTTCCCGGGCTTGTATAT
TTAAACCATTGTTTAGTTAAATACTGAATATTTTTATTGTTAGATCTTAGGTTAGACCTTAGAAGACAATATTGTTAGATCATAGATAATTAATAAACAG
TAAAATCAAAACTAAATAAGAGAAATGTTTTTAGTTTTAATACTAGTATTTGAAATAAAGCAGATTGACCTGACAAGATGATGGCTCCGTTGAAGTTCTG
TGTCTCCTGTCTTTGAGCAGTTCCTCCTGTGTTAGCCCTTCTCTCTGTCACGTGCTGATACATGGTGATGCTTCACTGTTTTTGTATTTGTTGCTTRTGA
ATGCATAAAGAGCATTGCAGCCTTTTCCAAAATATTTGTATTGTGGGATTTTAAGAGGTACAATGAGCTAACTCTCATAGGAATGTGTATTTTCTGGCTT
TGTCAATATTTATGACCCAGATCTTAGGCGTACATGTCTTTCTCCTCATTACCTTAATTGTGAATGTGTTAATGAGTATCAACTTAGTTTCACCAACATT
TGGCCATTCCCGYGTTCAACATATACTTATTTACTCAGCTCCAACACTGCTAGCTCCCAGTGTCAGTGTTAGCTGAGACACAGAGGTACACAAGACAGRG
TAGGGAAGGCCTTTCTGAGAAAGAATCGTCACCTCTGAGATTTCAGAGACAAGAAGAGGAGCACTGAGTGACCAGCCTGACATGTAGCGAGTTTTGTAAC
TGTCTTTATTGTTTCAGATTGTTCTAAGGTGGGTGAGGAGCTGGGGAGGCTCTGGAAGTATTGAAATAACTTGGGGGTTCAGTAATACAGCTTGTGGCTC
TCCTCGGCCCTGAGCTACCTATAGGAATAACCACCATTGAGGTTGCACGTGAACTGCTGGCCCAGCCCTTTATGGGGGTTTCCTCCAGATCCCTGACTCC
ACACTTGATACCTTCTTATTTTAGGCCTCCTTTCACAAGGCAGTGGGAATGAGAGGCAGGTGTGACTGGACGGAGGCGGTTTTATTTGTCTGTTGCCGAG
GTTGTTAGCATGCTGAATGGAGGCGCACAGAAGATAGAAAATGGACTCTCCAGGTTGCTCTCATCAGGTAGTTTGGGGTCTGGAGCTCATTAAGGGCAGG
AGCCCTGTCTTCCCCACCTTCCATACCCCACACAGCACCTGGCTCCTGGTGGGGCTTCAGCTAATGTCTGTTCAGTTATGTGTGTTGAACGAAACTGTCA
CATCGTCCTGATCTCTCATGACCACTCTTGTGCAAATRTGTCAAATAGTTTGTGACCTTTCATATTGCTGTGTGAGAACAAATAATGTTTCTGTGCCAGC
CCTGTTCATCAGGGATGTTTAAGACCTCTGTCTCCTATACACTTCAGTTGAATATTCACTTAGGTGACTTGCAGAGGGAATTATTCTCCTTTGTCACTTT
GTGCCTTTCTCTTCGTATTAACAATGGGTAGCTGTAGAGGTTCAGGAAGCAATACAGCAAGTCCTGTAATTAGTGTGGCCTTTTCCTTGCCAGCCCTAAT
GGCAAATGCAGTAAGTTACTTTCCTCACTATGGATTTATTGTTCATTCTGCTTGCAGTTTCTGACCATTTATGTTGATCTTAAGGGTGCTGTGAGGAGTG
CAGTGATCTCGTTGCAGTAAGAATCTGTTATCCAGTTGTATGACTCTGAATTGTGAGTTATAGACTTGTGTGGAACAGATGTGTTACTGAGTGATTGTAG
AGCTTGAAGACTTTTTTCTTTTTCCTACACTTTGGAAGTGATGTGAGTCAGTAATGATGAGACTTAATAAAATACAAGCACTTTACCTGTACTACGTAAT
TTAATCAACCAGTGGTCTGTTGAAGATGGTCAGCAGAGTTGGTGAAGTTTGTTTGGTACCATTGTAGGGGTCAGATGCTGATTTCAGTATGAGAATAAAT
AGCTTGTACATTCTTGGAGTATTTACTTACCCTGTATGTTTACATCCTAAATGTGTGGAGGGTGCTCTGGTGTAAAGATGCCCTCTGTGCCTGTGCTCAT
TTAGGCCCTGCTGTGGAGGGTGCTGTGGTGTAAAGATGCCCTCTGCCTGTGCTCGGTTAGGCCCTGGGCTGTGGAGGGTGCTCTGGTGTAAAGATGCCTT
CTGCCTGTGCTCGGTTAGGCCCTGGGCTTCGTTGTCCTTCCGTGCAGCGGGCACTGCCTTTGGCGATGGTATGTGCAGCTGCTGACRTGGCTCATGTACC
TTGCTCCTGTGGACAGTGATGGCTGTGGTCTGTCAYGCCCTTGGCTTGGGGGCAGTGTAGTCAGGAGAAGGGAAACGAGGAAATGGTCCTGCTGTTGTCA
CTGTCAAGCCAKCCATGAGAACATTCTGGCTTTTAACATGTCCTCCTGAACCAGTCAAGCTCTAATGCACCCTCACATGCCCAGCACAATGCCCAGTGCA
GAGAATGTGAGGTTTTAAATTTGAGCAGGAGACTTTAGCGGTATGTATTCATTTGTACATTTAACTTCAGCTTGGAAAAGTTTACACTGAATTTCATCTT
GTTTTTYCTTACAGTGAAAAATGTGAGGTTTTACARTATTCTGCAAGGGAAGCTCAAGATTCAAAAAAGGTAAGAAAATGGTTGAAAAGTTGAAAGTTAT
TCCTACATTTGATTCATGTGTAAGGTTCTTGCAAATCAGATCGTCAGTTAGATTCCCACTGGTCTTAACAAACATCACTGTTTTATCACCYGAAAGCAGT
GCCAGTCAAACCCATCATCACACTCCCCTGGCCATGAGGTTTYGAGTTTCTTTCAAGTAATTCGGTTTCTACGATCTGAAAATTACAGATGTCACAGAAT
CTTGGGTCATCCACTCTACCATTTTTATTAAAGAGATGGAAAATTGAAAGTTGGATTAGTTAATGGGAAAGATTTACATGTAAAGATAACAGTTTTCCTT
AAATTMGTGTGTTTTGTGAAAGTCTAGTAAATCTTGGTGTAGTTTTCAGGGAACTTTATGAATAACAGCCAGACAAACATTAAAACATCTGAAGAAGAAT
AACGAAAGAACATTTGCCCTCTCACATACAAAAACAAACTATACGATTGTAGTAAGGAGAGCATTGTGGTGTTAATGCAAGAATTAATAAAGAGCTTAAT
GGAACAAAACAAGAGTCCAGAAACATGTATGCACCTGTGTGTAAGTATCTTCAGTTTGGCAAAGTTAGTTCCTTAAAGGATAATTAYAAAAATGAAGTAG
AGGAAAATTGTTTCCTAAATGGTACTGAGGCAACTGAGCATCCATTTGTTAAAAAACAAGTTTTTTATTTTGTATTTTATATATTAAGCATAAATTACTA
AAAACAAAACGAGGTGTAACAATTCTAGAAGAAAATACAAGTTTYAGGATCTGGTCTTGAAGTGTGAGTGGTGCCCGTGTAACAGAGAAGCTTTGCATAG
TTGGCTGCTGGGGTGACAAGCGTGCTTCAGTTGCCTCTCAGCATTGGGAGGGTGAGAAGAGGGAGGTTGACTGAGCTTTTCTGCACAGAGAGTAGCATTC
TCCTTGCAGAGGGAAGCCCTGCATTCTCGCCCAGGCTCTCCTACTACCAGTTGTAAAGTTCTTTTGAGACCTTGGTTTATTCTACTCAGACTGATTAAAT
TACATTTCATTTTCTCCTCCGCCTTCTGTTTCTGTTTTTAGAGTATTTATATACCTTTGAGAGACTGTTTAGGTGGCATGTATCTTAGAAGAAGAATAAT
ACGTTTTGTCTCCAATACTATGTTATTTGAGTTCATTTTTGAATTTACTCAAATTCCCGAAACTAAAGAGGGTTCATGAGTTTGGCCTGTTGTGAGGAGA
GAATGCGTATGGAAAGATTACTCCTCTGGAAAGTCAGACTGTGTAGACAGCCAGCCTTGAGGCCGGGCACCTAGATCATTAGGTCTCTCTAGGTAATGGG
TTTGTATCTTATTCTTTTGTCATTTTGAGGGGCTAGGTTTTGCCTTTTAGAAGGAACTTACTTGGGAAGAAATGAGTAGCCTGTCCTGAAGGCTGATTTT
TCTCCCCTAGTCTTCATTGTTCTCACCTGTCCTTTTCTCCCAGCCTGCAGGGTAATGTCTGTCCTACTTGATCCCTGAGTGTTAGCTAGGCAAGGCCATA
CTGTGATGCAACACTCAACCCCACCATTTCATTAAAGGTCAGCCAGCTTCACTTCCATTCTGACTGTTACGGTGTGATTCTTCCTGCCAAATATTCATAG
CTTATAATGTATTAAAATGTTACCTCTTGGCCAGCCATGGTGGCTCACGTCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATYGCTTGAGCCC
AGGAGTTTGAGACCAGCCTGGGCAACRTGGTGAGACCCCATCTCTACTAAAAATACAAACATCAGCCAGGTGTGGTGGCATATGCCTGTAGTCCCAGCAA
CTCGGGAGGCTGAGGTGCTGAGGTGGGAGGATTGCTTGAGCCCAGCAGGCCAAGGCTGCAGTGTGCTGTGATTGTGCCACTACTTTCCAGCCTGGATGAT
AGAGCCGGACCCTGTCTCAAAAAAAAGTTATTTCATTTAAATTTCTAAAATGGGGTTCTCTGTTTAAATTGGAATTTTTCCTGTCTTAGGTGGTAGAGGA
CATTGAATACCTGAAGTTCGATAAAGGGCCGTGGCTCAAGCAGGACAATCGCACTTTATACCACCTGCGATTACTGTAAGTGCATCTGTGTGGGGGCTGC
TGCATGTCTGGGGTCTACTTGCATGATGGGGAAACTTAGGGAAGTTTGAAATAATTATGTTTCAAGTTAGGTGTTAGCAGCACCAACCCAATACTTAGAG
GTATTTTTTCTTCCAAACAGCTCCTGAATCCCCTGGTCTGATACTTAATTTATTGAGTGCCATTATTRATTTAACAGGCATTTTGCTTCCACTATGTGCA
ACACCGTTCCAGATTTAAGAGATATAGTGTCAGATAAAATTCTTGATGTCTTTGAAAATGTGTTTTAGTAGGTGAGACAGAGTAAACAAATAGATAAAAC
TGCGTCAGGTCACAAAGGCCAGGGAGAGAAGTAACCCTGAGTAACAGGGTGGTGAGTAGCTAGGGGTGACAAAGGGCCTCTCTCGGGATGAGGCYTAAGT
GAGGCCAGGATTGGGTCCTGTGGGCCGTGGGGTGAGCAGAGGGCAGGGGCTTGGCAGGTGCAGAGGCTCTTCAGGCAGGAGTGTGGTGGGAAGGTGCGCC
CAGCAGCCAAGCCAGTGTGGCCAGAAAAAGTGTGGGGAGGGGAGGCCACAGCGGAATGGAGCAGGACTAGGAGAGGAGGCCATGGCGGAATGGGGCAGGA
CTAGGAGGGGAGGCCGCGGTGGAAGAGGGCAGGACTAGGAAGGGAGGCCACTGCAGAAGGGGGTAGGTCTTGGTGCGTTTGGTGGGTTTTCTTCTGATGA
GATGAGATGCCGTTTGGGGGTTTGAAGCAGAGGAGTAATACGATATGACTTATATCCATTCAGCTATTGTGTGGATTCTTTGGTATCTATTAAATGAAAA
ACAAAAACCATACCGATTAGGTAAGGTTGAAAAAAGCTGTCTTCATCTGCACCACTCTATTGAAACTGCTCCTGCCAAGGAGACGGCCTCGCCATTCCAG
ATGCGGCAGACCCTTGTCTGTCTTCATGCTGCTCCCTGGCCCTGGAAGCAGCACCGCTGCCCCTCTTCTCCACTCCCTTCTCCTGGTTCCATGCCCTCCT
CCTCCCCCACTCTCTCACTCCTCCACCAGCTGCTGCCTTCTGGGGCCGGGCTCTCTTTTTCTGGTTCCTTCTGCCTGCTGCTGGGCTCTGGCAGGCACAG
TGACCCCGGGCAGTGTCTCGTCCGTTGAATTCAGTTTCTTGAGGACGTACCTAGTCACACAGCTGTGGATAGCGTGGATACCACCGTAGGTCTTGGCCCA
GACCTTTACCCTGCACACCCAGCAAATATCCCTCGGCTGCCTCTTGCAGTGTCTCTGTGCATTGACCTTCCCACCGGTGATCCCCAGCTCTGCCTCTTCT
GTCCTGGCTGGTGCTGGCCACCCGGGAATCTCATCCTGCTTGGGTCTGTCCTCCACCACCCACCCCCTGCTGCTTCTCATCACTGCAACGCCCAGTTCCT
GGTARAGGCCTCATATCCAGCGTGCACTCAGGAGATGTATCTGGAGTGAGTGACTTTGATTTCTTTTAGGGCTATAAATTCTACAAAATTCAGAGATGAT
TTTGTAATGAGAAGTGCTGTTGTATCATAATTCTGATTATTTATAAATCAAGATTGGAGTAATTTGAGGGTCTTTGACTTGTGAAAATGCAGGAAACATG
AGTAGCTATTTGGGGATCTGCCTTTTGTGTTAAGTCTYGAGCCCTTGGCCTGAGCCTGCCCTGTGCTGCTTCCTGCCTCTACCCAGGATGCTCTGTGCAG
ACTGCACCAACACTTTGCCTCTCGAGGGCCYGGAGGCACAAGGATGGCMGGGGCACTCAACTTCCCTCTCCTCAACGTTTGGATGTAAATTAGGAAGTTG
GTGCCTACAGATGGCAGCTCTGTTCTTGGCCCTGTGATGTTGGTGTTCTTAGGCCGTTGGTGCTTACCTTCTTTCTCTRCCTGATGGGATGTGAGTGATA
CAGTAGTCTCCTAGGATGACCAGAGGGACAGCTGGCTCACTGCACATGTCACTAAAAGTTCACTGATCAAAATGTAAACAGAATGTGTAATAAGTTTACT
TCTGGCCAGGCAGCGTTCACGTCTGTAAACCCAGCACGTTGGGAAGCTCAAGTGGGAGGATTGCTGGAGCCCCGGAGTTCGAGACCAGCCTGGGCAATAT
AGTGAGACCCCATCTCTACAAAAAATTTAAAAATTATCTGGGTATGGTGGTGCATGCCTATAGTTTCAGCTACTTGGGAGGTTAAGGTGGGAGGGTCACT
TGAACCTGGGAGGTTGAGGCTGCARTGAGCTGTGTTCACGCCACGGTACTCCAGCTTGGGCGACAGAGACTCTGTCTCTCAAAAGAAGTTCACTTCTGTT
TGATGTTTTTAGTACAGCATTAATAAGCAAAAAATAGGTTTACATTAAAAAAAACTAGTCATTCTACTTAGTTTGTTAATTCCTGCCCCCCTGTTAAAAT
AGTATTTGCAAAATCAGTTTTCTAGTTAGTGGAATGGATACTGAAGGGTGAGCRAGGTAGGCACACTGTGGGGTCCTCATGTCAGACTGAGGAGACGGGA
AGGGTCAGGTCAGCCCTTAGCTGGCTGTGTGACTTGGGACAAGTCACTTTATCTGCCTGTGCCTCCATATGTAAGATTATGGCAGTGAGGTAGAGTGCTA
GGCCATGTGTATTGAAGGAAAAAACAAATATAAATTTCATATATTATATTCCATATACTGACTACTGTATAAAATGGTGTTAATCTAAAAGTAGCTTACT
GAAATGATTGGCTCTCTAGAAAGTCTTTTGAAAGGAATCTAGCAAATCTTCCATTAGAAAGTAAAACAAACAACAAAACCYGCTTTCCTTGTCTTTTTTT
TTTTTTTTTTTTTTTTTTTGAGTCAGAGTTTTGCTCTTGTTGCCCAGACTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCTGCCTCCTGGTTC
AGGCGATTCTCCTGCCTCAGCCTCCTGAGTAGATGGGATTATAGGCATGCACCACTATACCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCG
CCATGTTGGGCAGACTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCAGAAGTGCTGGGATTACAGGCGGGAGCCACTGCGCCGGC
CTTCCTTGTCTTTCTGAGCCATTACTAGGAGATGGAAGTAAAGCACAAAGCACTGCTTTTGGCCTCTGAATAAATATTCTGCATCCTGGAGACAATGGCC
AARGGTTACAGTGCCTACTCCAGGTGGACAACACATTTCAACCTGAGGGCCGTGAGTTTGCTGATTGACAGGGCGACCGACCAGAAATTAGAGGGGTCCT
CTGAGGTGTCTGAATGTAGAAGTTTCTCTGAGTCATTGAAGTCAGCTGATTATTCCCTGTGCAGCCATTTTTGTTGCAAAGTCAGTGTGTGCTTTGCTGT
GAACTGTGGCAAGGGCCATCAAACATTGGTTTATTCCGAGTAATTTTAACTTTAGGACAGGGATGCGTAGGTGATGGAGACCAAGAGGAGAAAATAAAAG
TATATTTCTGAGAAGAAAATGATTGTTGTAATACCAGAGACTCACCATTTCATAMCCAGGTCAGAAGGATCCCTTGAGAGGGACTCAGCCACTCACCTGT
CACTGTGCCCCTGGGCAAGGGGCCTAACCTCTCTGAGCCTCTGTCTCCTTGTTGTAAAGCAGGAAGAAAATAGAAGCTACCTCATAGGACTGTTGTGGGG
ATTAAATGTGGGAATAATTTGAAAGGCTCAGAACCATGTGTATATATCATAAGTACTAAAGTTTTAGGGACTATGTTATGATACTGTTTATGGTATATTA
TTATACTCTGATTGTAGATGCATGATGTGTTTACATTTCTCCATTAATATTTTTGTTCTTTAATACTAAGCTTTTTTTCTTTTACTTTTTAAGTAGTATT
TTTCTGATCTTAGAAATAATTTACATTAATTATCCTCAATTCACGCTTYATGGAAATCTACAGTGAAGTTGAACGAACCCACCTCCTAAAGACAACCGTG
TTGAAGATGCTATTCATATTTTTTTCTGTGCATGCCCCAGTGCAGTTGATTGTTGTAAGCCAGATTCCCAGTGTGCCCTGCCCCTTGGTGGGAGAGCTGA
CCTTCCGAGTGATGTGCTCACCACCCTTGCAGGATTGAGCACCACAGGGCTTAGCACTGCTTTGTGTATGTAGTTCTGTGTTGCTTAACGACAGGGATAT
GTTCTAAGAAAGGTGTCGTTAGGCGATTTCATCATCGTGAAAACATCATAGTGTGTGTTTACACAAGCGTAGATGCTATAACCTGCACACYTAGGTGGTG
TGGTGGAGCCTGTTGCTCCTAGGCCATAAACCTGTACAGCATGGTACAGTACTGAATACTGTTGGCAGTTGTAACACGACGGTAAGTATTTGTGTATCTA
AACATAAAAAATAATATGGTATAAAAGGTGAAAATGGTCCACCCGTCTGGGGCATGTACCGTGAGTGGAGCTGACGGGACTGGCAGTTGTTCTGGGTGAG
TCAGTGAGTGAGTGGTGGGTGAATGTGAAGGTCTAGGACATCACCGTACACTGTGGTAGACTTTGTAAACAATGTACAATTAGGCTACACTAAATTTATA
TAAAAAGTTTTTTTCTTCAGTAAGAGATTAACCTTAGCTTACTATAACTTTCTTTATAAACTTAAATTTTTTTCTTTCTTTATATCCTTATTCTAGAAGT
ATTTTCTGATTTTTAAAATTATTTATTTTTACTTTTTAAACTTTTGTTGTTGTTGTTGTTAGTTAAGATACAAACACAGTGGCCTGGGCCTACCTGGAGT
CGGGAGCATCTGTATCACTGTCTTCCACCTCCACACCTTTCTCACTGGAAGGCCTTCACGGGCAGTAACACGCGTGGAGCTGTCACCTCCTGTGACAATG
ATGCCTTCTTCTGGATGCCGCCTGAAGGACCTGCCTGAGGCTGTTGTACAGTTACTTTTTTAAATAAGTAAGATGAGTACTCTAAAAATCACGATGAAAT
GTCTAGTATAGTAAATAACCTAAAGCAGTAACATGGTCATTGATGAGAATATCAGGTATTCTGTACTGTACATAATTGTATGTGCTGGACTCTTCCACGA
CTGGCAGTGCAGTAGGTTTGTCAATGCCACATCACCGCAGACACGGGAGTCATGCGCTGAGCCACGGCGCTGTGACAGCTGCTGTGATAGGAAGYGTTCA
GCTCCACTAGAATCTTGTAGGACCACATTGTATATGTGACCTGTTGTGGATGGAAACGCCATGCTGTGCATAACTGGAAACCGGCAGGAACCTGTCACAT
GGTACAAACAACATGGGTTTCACAGGAAAGCCACGGGAAGGCTCTGTTGTGCACTCTCCATCAGTATAACTTTGTGAATTTGCCGTAACATTTCCATTTT
CCCAAAATTCAGCTTTAGCTGCAGCTGTCAGGTTCCTCGTAGGAAACAGATGGCACATTTGACCAGAGAACAGAAGAGAGTTACGTAAAGGAACCATTGA
TAAAGAGCAGGGCAGGGTTGAGGGAAGCAACAGGATGGTGAGACACCCAGGCCATCCACAGTGGGAAACTGGCAGTTGAGGGCGGGGGCACTGGGTTTTG
GAGTCCAGAGCTGCTGCTGCTGCTGCTATGGAAGAGGCTGTCCAGCATCAGATGGAGCCCGAGGGGGATGGGGAACCCGCATGCAGGGAACCAGCAGAAC
AATCATCCACCCAGCTGTGCTTGAAGTCAGAGGGCAGTAGAGCCCCTCGGATGCAAGGAGCCAGCCTCTGGGCACAGAGCACCTTGGAGGAATGGTAGAG
AGGAGATCTAAAGGGCCAGGTGGAAAACAGCCCCAGACTGTCCACCCAGAGAATGCAGAGGACGGTCGGCATTCACCGTTGTTCCCTGTCCAGAATGAAA
ACGTGCATCCCTACGTGAAACAGGGGCAGCCACCATGTCATTGTGCGGTGATGACCATTCATAGTCTTGAGTTGGTCACTGCAGGTGTTTTTCATATAAA
GTAGAGGGAGAAAGAAACAACCTGCCACAGARTTCCTGGAGTCCCCGCTTCTGTGGTGAGTTCGGAGACCCAAGTTCACTTTGGTAGCTTCCTTGGTTCC
CACAGCCTCCTCCCCTCTGCCAGCAGCTCAGCTCCATGTGGTCCTTACCTGGTGCAGCATCCTGAGCCTGTGTGCTGTGGGTTGGAGCCTTGGGGGCTCC
CTCTGTGGTAGCTGCCTATCTCTGTTCAGAATAAGATTTATCACAGTGAATGAGGACAGATACGCAGACAGATCAATACRAAAAAAGACATGTTGGACTC
TGGAGAAATCCATGCACAGGCTCTTCCTCCTGTGAGGGACACTGACACATTGATTGAGCAACTTTCTCAAGCAGTGAAAAATACAGTAACATATGGGCAG
TATTTCTGCCTGGAAAGCCCTTTAGACACTCACTGCCCGTAATTTTTACTGGGGGCTGGTCACGTAGGAATCCTCTGCTTCGCAACTACTCAGGTTCCAG
ACTCCCAGAAAGAAGGCAGGTGTTCTCCATAACTCCCATCGTACCCTGGTAGGGCTGAGTTTGCTGCCCAGCCTCATTAGCATGGGGCACTTTTTAGAAG
CTGAGTTTCCAGAAGCCAACMAAGGGCCAGCCTCGCAAGGAGGCCCTGCCACAGACAGCAGCATAGGCCTGCTCTGTGTGTGGCGAAGGAAAGGCTTTCT
GAGAGCGCAAGAGCTGTGCTTTTGGCAGAAAAACTTCAGGCAGGGGAGGCAAATCCGAACCTAGGAGATGTGGTTTTTTACCTTGGGCAGAGCCTGGGAT
TTTAACAGGACTGAGGTTTTGTAAGAGAGGGGCAAGGGAACTGAGCACAGACAAAATCGCATGTGAGTAGTGGTGAACCATGACGCTTAGTCTGGGTAAG
GAGGAAAGTGAAGGAGGGAGGGGTGAGGGGACTGAAATGACAAAGTGGATGAGAGGCCAAAGGCACACCCTCTTGGAAGAGAAAGTCGGGAACAAAGGTT
GAATATAGAATCAAATCACCTGCGCTTCTGCCACCACAGTGCCAGGATTAACAGTTGAATGCAGGTTCTTCCAGTCTTTAAATATTTGTGTGTGCATATA
TTTCTAAATATATCTTGTGTGTATTTTTGTATTCTACTTCCAATATTTTGAGCATGTTCCTGTTTTGTTAAACATTTTAAAATTTGATTTTTTCATGGCT
CCCCATATATGCTGCACTTACCATTGATTGAGATGCAAATCAGGGCTTGGCAAACTGTTTGGCCTGTGGGCCAGATCCAGCCGTCAGCTGCTAAGAATGA
TCCTTAACGTTTTTAAAGGATTGGAAGGAAAAGGAAGGATTATGTGATGGAAACTGTATATAGCTCTCAAAGCCTGGTATTTGCTATCCGGCCATTTACA
GAAAAAGTTTTGACTTCTCCGACACTACATAATCTGCATAATTTACTGTTTCTTTAAAATAGATCTCTTGGATTATTTCAGTTTCTTCATGTTCATAATA
CAGTAAAGAGCATGTAGTACCCCTTCTTGTTCAATTTCAGGTTACTTAAGGTATAAAAGTGGTCAGAGTRTATGAACGCATTTTACAGCTATTGAGTTTT
TGCAAAATGATTCTCCGGAATATGTGTACCAGWATTCATACTTGGACCTGGTTCTCTGAATTTCCCTATAAAGAATATAATTAAACAAAATGCAAACAAA
AACTTTCGATTCTGWTACCCATACAAGTATTTGTTTTACTTTGCATTTTATAAACACTAAACTTCAATTTATATTTTTATTGGCTATTTATTTGCTCTTT
GTGAATTTTCCCTTCATATTTATTAACTTTTTCGAAGAACCWGGTTTTTGTTTTGATGATTTATCCAGTTGTTTTCTGTTTTATTGATGTATACCCTAGT
TTTATTATTTTTTCTCTGCTTTCTTTAGGCTTCACTTGTTCTTTTTCTATAGATTCCTAAGCTTATTGACTTTAGATCTTTTTTCTTTTCTAATATAGTC
AGCCCTTTGTATCCCTGGGTTCCGCATCCTTGGATTCAACCAACCTTGGATCAAAAATATTTGGGAAAAAAGCCAATAAAAATAACACAGCAATAAAAAA
ATAATAAAAATGTAAAAATACAGTATAACAACTATTTATATAGCATTTACATTGTATTAGATATTATAATACTATATTATTGTATTACATTGCATTAGGT
ATTATACATACTCTAGAGATGATTTAAAGCAGGGGTGTCCAATCTTTTGGCTTCCCTGGGCCACATTGGAAGAAGAAGAATTGTCTTGGACCACACATAA
AATAACACTGACGATAGCTGATGAGTTAAAAAAAAAAAAAGGCAAAAAAACTCACAATGTTTTAAGAAAGTTTATGAATTTATGTTGGGCTGCATTCAAA
GCTGCCCTGGGCTGAATACAGCCATGGGTTGGACAAGCTTCATTTAAAGTGTGTGGGGAGTGTGTGCATAGTTTATATGCAAATACTGTATGATTTTATG
TAAGGGACTTGAGCATCCTCAGATTTTGGTATTAGTGGTGGTCTGGGAAGGAAGCCCTGGACAACAGAAGAATGGTTGCATATGCATCAGTGCTGTCAGT
TTCCCTGTAGGTGCTGCTTTTGCTGTATCACACAAATGTGGATAAGTTGTATTTTTATTTTCGTTCAAAATGTTTTAAAAAATATTTTGAGACTTTTTCT
TTGACCCACATGTTATTTAGAAGTGTGTTGTTTAATCTCCAGGCATGTAGGGATTTTCTAGGTATCTTTCTGTTGTTGATTTCTAGTTTAATTCTCTTGT
GGTCTGAGAATACACTGTGTATGATTTCTCTCCATTTACATTTATTAAGGTTTTCTATGGCCAGTGTTTCCTATCTTGATTAGTGTTCCAATTCAGCTTG
AGAAGAGTGTAGATTCTGCTGTTGCTGGAGTGTTGTATAAATGTCAGATCGAGCCGATTGACGGTGGTATTCAAGTCATCGGTATCCTTACTGATTTTCT
CTCTGCTGGGTCCATCGGTTACTCAGAGTTGGGGTCATCGGTATCTTTACTGATTTTCYCTCTGCTGGATCTGTTGGTTACTCAGAGTTGGGGTCATCGG
TCTCCTTACGGATTTTCTCTCTGCTGGATCTGTCGGTTACTGAGAGTTGGGTTTAAATTTCCAACAGCGCTGGATTTGTCTATTTCTCCCTTGGGTTCTA
TTAGTTTTTGCATCATATATTTTGAGGTACTGTTGTTAGGTACATAGTTTATTATCTTAGGTTATTATCTTCTTGAAGAATTGGCCGCTTTATCGTTATG
TAATGCCCCTCTTTTTCGCTGATGTTTGTCCTTGTTTGAAGTCAGCTCTATCTGAATTTAATATAGCCACTGCAGCTTTCAATTAGTGTGGGCATGGTGT
GTCTTTTTTCCTCTTCTATCTCGAGTCTTTAGTTTTCTTGTAGATAGTAAGTAGTAATTGGGTCTTGTGTTTTAATCTACTCTGACAGTCTCTGTCTTTT
AATTGCTGTATTTGGACCATTCATGTTAGAAGTGAGCGTGAAGATAATCAAGTTCCATTTTACCATGCTTTTCCCTGTTTTCTGTTTGCTGCATTTGTTG
TTTCTCCCTGCCTCTTTTTCTGCCTTCTCTGGATTTCATTGAGCATTTTATAAGATTCTCTTTTATCTTTTCCCTTAACATCTTGATTGTACTTTAAAAA
AATGTTTGTAGTGGTTGCTGTGGAGTTTCCAGTATACATTTACAACCCATCTAGGTCTACTTCGTGATGGTGCTGCTGCTCCATGGGGCTGCAGGTACCG
ACGGCACAGTCTTCTTGGCTCCTCCTGCTGTCACTGTGACATGGCTGCCATTCCTTCCACTTTTTTTTTTCTTTGAGACAGGGTCTTGCTCTGTTGCCCA
TCGCCCAGGCTGCAGTGGCATGATCTTGGCTCACTGCAGCCTCCCCTTCCTGGGTTCCAGCAGTTCTTATGTATCAGCCTCCCAAGTAGCTGATACTACA
GGCGTGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGGAATGGGGTTTTGCCATGTTGCCCACCTAGTCACAAACTCCTAATCTCAAGTGATCT
GCCTGCCCTGGCCTCCCAAAGTGCTGAGATTACAGACATGAGTCGCCGCACCCGGCCTCTTCCACTTTTTATAAGCTATAAAATCACTCAATTCATTGTT
GCTGTTAGTCCAGGAAAGGCCATTGATTTTCAGTTTTTTCTTATTGGAAGGATGGAAATTACAGCTTCCAGCCTTCACCCTTTGGAGCTGAAGCTGGAAG
TTCCCTSTTTGTTTTTTAAAACTCTGTTAACATTTTGGACTAGATGCCTATATTTGTGTGTGTGTTTGTAAATTTACCTAAATGATATACTCTATTATTC
AAAACTTTGCTTTAAAAAACCTCCACCTTCTCTTTAAACTGCTCTATTGCAGCGGTCCCAAACCTTTTTGGCACCAGGGACCGGTTTCATGGAAGGCAGT
TTTTACACAGACTGGGGCGGGGATGGGTGGATGGTTTCAGCATGATTCAAGTGCGTTACATTTATTGGGTACTTTATTTCTCTTATTATTACATTCTTAT
ATATAATGAAATAATTCTACAACTCACCATGATGTAAAATCAGTGGGAGCCCTGAGCTTGTTTTCCTGCAACTAGATGGTCCCATCTGGGGGTGATGGGA
GACAGTGACAGATCATCAGGCATTAGATTCTCATAAGGAGTGTGCAAACTAGATCCCTTGTATGCACAGTTCACAATAGGGTTTGTGCTCCTGTGAGAAT
CTCATGCTGCSCTGGTCTGACAGCAGGTGGAGCTCAGGCAGTAATGCGAGCAGGGGAATCGGCTATAAATACAGATGAAGCTTCACTGGCTTGCTTGCTC
ACCTCCTGCTGTGTGGCCAGGTTCCTAACAGGTTGCAGAGGTTTGTGGCCCGGAGGCTGGGGACAGGACCCTGCTGAACCGTGTTTTGCTGTTATGTCTG
AAATCTCATAGTTAACAGTAGATGTCAACACAGCGTCTGGAAGGTGTTTCGGAAATAATTTGTCTGTTCCACAGCACTTCTGTGGGGCGGGACTCCCTCA
TTTTACAAGGAGGAGACCATGACTCGAGAGCTCGAGCCTGCCAAGGTTGTGTGACTGTGTGGGGCRTCTCACCTCTCGGGCTGCAGGAGCTAGAGCTGCT
GCTCTCTGCATCCTCTGTGTGGTCCTGTGCCCTGGGCCATCTTGCCTTCCCTCCTGCCRTCTGTTCAGGCTTGAATCCTGGTGGAACCTTTGACTCCTCT
GTCAACCATAATCCTAGCTTGAACCYTCCTTTTTCCCTGCTGACCCCCTTATCCTCCCCAAAGTCACACCCTGCAGGTCAGTGTGCCACTTTCAGTGACT
TCTCTCCCTTGTCTCTAACACTGCTGCTCCCCTTGGTGTGTAATCCCCTGGTTCTTGGTCTCTGCTCCTCTGCCTCTTTATTTCTTCATCCCACTCCCAC
CAGGTTTATTTTTTTAAAAAGTCACAGTGACCCTGTTTTCTCTTTACTTGAATCTTTGAGTGGCCTATCTTCATTTAGTCATAGGTCTGAATTTCCTTTC
CCAGAATTAATTCAGAATCCCAGTCTGCCCTGGTTCTGCGTCTTCTACCAGGATACCAGGCAATCTGCCAGGCCCTTCTTCCACCACCACCTGCCCAGTA
GTTACCTAGAAATCCTAGCAGTCTTTAAAGCTTGGACGTAATCACCCTTTTTTCTCCCTGACACCTTCCCTTAACTCTTGTAGGCTGTTACTTATATGAA
TGTATATGGTATCCTTGTTTGTTAGTATTAGCTACTGCTGGGCATCATATGACATCTAACAAACTTACGGAGACAAGGGATTGTGTCTGACTTGACCTCC
CTGTGGTAACAGTGTCATTTTCTAAACACAGTGTGAAATGTGTGTTGGTTCGATTCTGCACCATTCATGTAGTTATTTAGTTATGTGCTTATCGGAGCAT
AGAGAAGGATCCTGTAATTCCCCCATAGTGTATCAATTATAGCATTCCGTTGTTTTAATCTAGCTCACTATGAATGGCTTTGTCCTTTTTTCTCCTGGTA
TTTTGCCTTTCTTCCTCCCCAAAGATGTTTCATAAGTTTACAATATCAATTGTGTTTATTTTCATTTGAGTACCATTTCTCAATTGAGGGACTCAAGTGA
TAATTATGACCAATTTTCTAACATAATTATTGTAAACATGYCGCTTACCAGTGACATTCATTTTATCCATAACCTGACCAAATTATTGGTTTAGAACATT
TCTGCACCATCTCAGTTACGTGTTGCCAGTGTCTAATTATGTGTATGTGTATAGCTATGCTTGTGCTGAGAGGCAGTAATTGTATTTTTCAGTCTTGTTC
ATATCCACATCCCTAACTGACTGGCGCCTGCTTGGGCTGGTTTCAGTCCAGTCAGGACCTCCGAGGACACGTCAGGCCTCCAGCTGTGCAAGCTCCTCTC
AGACCATCCCTGCTTCTCCAGAGCCCAGACCTTCACACCCACCTTCTTTTTGCTTAATTGCCAAGATTTTTACATGACTCCTGGAGCACGTCTTTTTAAC
ATGAAATTTCAGTGCTACAGAAACTGTAGCATGTGAGTTTGGTTTCAGAAGTACAGTGTTTCAGATAGAACTTTGCAATTCAGGAGAAACTGAAAAATAG
GGTTTGGAAATGTTATAGGACAAAGTGTTGACATTCAGTTAATTGGGAAACAGCTTGAGTCATAAAACACTATTTACAATTTTATTCTTTTTTCTGTGTT
CCTGCCTTACTCTTGTTTTAAAATACGTGTCCCAGCACCTCATATTGTAACCAAGCTCTAGTATATTTTATATTCTTCTTTAGACAGTGACTTATGATAT
TAAAAGGATATATTATCCTCAATCAGTTTTGAATTCTTCTTAATGAAACTAAGTGCTTTGTGAAGAGAATATTTTCTTTCACTGCCTTTTGCTTCCTGAG
TCATAAAATGATTCCTTGTATCTTTATTTCTTACTTAAATCTAGGAGTTTACTGGAGATATACCATGGACTCTTCCTAGTAGTCATCATTAAGCTCATAG
TAATAAATTGAAAGGGTAGTTTGGTTAGGTATAAATAAATTGTAGAATCATTGCAACAGATTCTTTTTTTAATCTTCAAAAATAGTTTGAAGCCTACTTG
TTAAAAGATTTTCCGGGACTACATGTAATGTTGCCAAATTAAGCATAGATGGCGCTGTTGCTCTCTATACTACACATGGTCCAGGCCACTGATTGCTTTC
YCATTTTCTAGCATTTTCTTAGGTTTTTCAAACTGTAAAGAGAACCATGTCACCTCCCTACATTGATATTTGTTAACATTTAAAATATGAACTTCATTTT
TAGTTGGAATTTCTTATTGTGAGATCACTTCAAAAATTATCCTTATATTTGTGTTAACAGTAAGAAGATACGTACTTGTAGATTATTGACACATGCATGG
AAGTGTTTAGATAGAATGCATAWGGAAAGCTAGCAGCAGTTTCCTCTGGAGAGGGAACTTGTAGTCTTACAATTAATGCAGTCTTACAAAATACAGCAAC
TTTATGCCCTTCACAAACTTTCTGTTTTGCTTGCTTGAGTTTTTAAAAAATATTTGCATATCTTTTGGCAAGTAAAACCAACTTAATAGTAAAACTAAGA
AAACGATCTTATCTGTAAGTATGTACATTACAGCCATTTGCCTACCCATGTGGAAACGCACATAAATACACTTAGGAAAGCAAACGATCATTGTTATCCT
GGCAGCAGTTTCTTGGAGGGGCATTTGCATTATTGGATCACTAACCGTGTATGAGCGACGCGGTTTTTACTAGGACGCTCCTGACGCTATACCTACCGTC
CACTCATCTTCAGCTTGCCGCAGGTTCGCAGCTCTGTGGCTGTCTGTGGAAGCATGATTCATGGATCCCGTGAGCCTTGGGTTCTGGTCAGGTTGTTCTG
TTTGTGGGAGAGCCTACCTGGGTACTGTGGGGAACAGGCCGTGGGTTTGCTCAGTGGGCCTGGACTGTCTCACAAAGTCTGGCCGAGAGCCAGATACACT
CACATAATTTCCATTTGAGCCATTACAAATGAGAAACGTCTCCTGCTTTTATAACTCAGTAATGGGAATGTGACTGTTGAAAATAATTATTTTCTTTGTT
TTGAGCCCTTAAGAAAAGAGACTTTATTTTAATGTTTTTTTTTCCAAAAGCTGAAAAAATGCTTTTTAAAAATCTTTAAGTATAGTGGTTATATTCAGAC
TATATTTAATTTAAAATAAGCAAATTGTAACAAAGTATAAATATTTTAACATTCAGCAAAATGAAATGATAAAGCTAAGAGACTATCCTATGATTTGTAT
ATTTATTGGTGCCAAGAAAAGTGGAGAATTAGACCTTTTACAAGCCGTGGTACAACAGACCATCCTATGTTGGCCTCAGCATACAGAACAGAGCAGTAAG
ACGCTGGCTGCAACCCCAGAGGGACTGAAGCTACTCACCGTTCCTGCCCCAAGATCCACTCATCTGGAAAATTGTTAATGGGGGCATGCTTTGTGTGTAG
CACTGTCATGTAACCATTTGCTTCTAGCTTTTTGTTCCTGCTATTCCTGTGTTTAAAGCACACTTTGCCTCCTTTTTCTATGTCTCCAAAACAGCATCCA
TTCCCAGAAGGTCGTCCTATGTAGGTACTGAGGCTTTTAAAAGATGCTACCTCAGGTTCTGAGAGTAATATTAAAAAGCAGCTCCAGATCGACCATGTGG
TCTTTGGGAGGAAGGCTTTGCTGCTGGGATGATTGCTTGGCAACGAATAGCATTTATTGGGATATATAGATTTTTTATATGGATGTTTAAAAAAAATCGG
ACTTACACTTCTTTTATTGTATTTATTTTGATGGTTTGGTGTGATCCACATGTGTCTTATTTTTTAGGGTTCAGGATAAGTTTGAGGTGCTGAATTACAC
AAGCATTCCTATCTTTCTCCCGGAAGTCACCATTGGAGCTCATCAGACTGACCGTGTCTTACATCAGTTCAGAGAGGTAAGACTGTGGAAATGGAGAAAG
CTGGCCRGTGGATGAGTCTGCAGCACCTGGGGACAATGCAGTCACTTCTCCAGAAAGGAGTTTTTGTTGTTGCTGTGTTTTGTTTGTTTTAGTGAAGGAG
CCTCTTTTTCATTGAAATAATTCTCCCTTTTCCCCGTATTTCTGTGTGGAAAGCTGATGAAGTCCTCAGATGACAGCCCCAGAGCAGAGATGTTCTTCTG
GAAGGTTCTTCATCAGGCATATTATCTTGATAGGAGAACACTCTGTTCATCAGCTGTTATGTCAGTTTCTTTACTGTCAGATGTTACTTCTGGTATTTTC
TTACTCTTTGTCTGTAAATAATGAGGGTTCCATTTCTGCAGAAGGCCCTTAGGCCATATGGGAGGACATAGGGAGGGCAGGCAGAGCTTGGGACAGACAG
CGAGGGTGGAAGTTGGTAGGGGCAACTGTGTCATTGATCTTCTTATCCAATTGCCATACCTTCTTAGTGAGTTATTTGTTCTGGCAAGATTCCATTAGGT
TCGAGGCGTGTGTAAGTTTCGCTGGGAACCAGCGGGTGAGTTGCAGCCTGCACTGCAAATCCCAATGTCAGTGGACTGGGAAGAGCACGATCCATATCCG
CGGCAGTGGTGGCTGTGGTTTGTTATGGGTAAAAGTGAAATAGTTGTATTAAATCAGAACTCCAAGCTATGCCTTCAACATGTAGATGAGTTGAAATCTA
AATCTTTTTGCATTACTATAATTGTCTGAGTTGATATGAGCAAATTGCCTGAAGCACCCACTGAAAGTCTGAGTAGATCCCCTTGCTTGCTTTCTTACTC
TACTTGGCATTTTCTTTTAAGTAAATTTTTTGGATTGTTTTGGAAGTGGTTTTATTCAGTGTGAGGATTTGGGGAAAACACATAAAACCATAAAGATATC
TCTCAGAGGCACCTGCGGTTAATAATCTGTGTTCACCTCCTTCTGTCTTTGTACACGTGTGTGAGTGTGTGTGCTGTTTCTCCCTTTGTCCTTGTATACT
TGTGTGAGTGCGCGTGCTGTTTCTCCCTTATCTGTCCTTGTACACGTGTGTGAGTGTGTGCTGTTTCTCCCTTTCTGTCCTTGTACACTTGTGTGTGTGT
GCTGTTTCTCCCTTTCTGTCCTTGTACACGTGTGTGAGTGTGTGTGCTGTGTCTCCCTTTCTGTCCTTGTACACGTGTGTGAGTGTGTGTGCTGTGTCTC
CCTTTCTGTCCTTGTACACGTGTGTGAGTGCATGTGCTGTTTCTCCCTCTTTGAGTGGGGCTCTGCGGATTTGCTGCTTCCCTGGCATCAACGCTGTAGC
TGGTGCTTTGCTTGCTGCTCTTGTGTAGGCCAGAAAACCCACACTTGGTGTTCGTTCCCTGTCTCTGCTTTTGTGAGTGGCCAGGTCCTGTTGCGTCTGT
TTCACAAGTGGCTTCGCTTCTTCCTGTTGACCTCCAGGCTGCCATCATTCCCACCTGAGCTTGTTCGGCGGCTTCCTCTTGGTCTCCTTGGGTTTAGTCT
CTGCCCTCAGTCCTTCTCCAGTAAGGCAGAAGCAGCCGTGATCTCAATGCAGAACCCACCATCTCAGTCCTGTGCCTGAAGTCCTTCCTTTCCTGTAGGA
GGTGTGTTAAAGTCTGCCACTCTTTGTGGATTTGTGCCCCCTTTCCGTTTTGTGAGATTTTGTCTCATGTATGTTTTAGGGCCGTATGATTAGATGCGTA
CCAATTTAGAATTGCCTTGTTAGGAGGGTCACCCTTTTCATGATGATGTTTTCCTCTTTACCTTTAGTGGTGCTTCTTACTGTAAAGTTTATTCAATATT
TATGTAGCATCTGAAACTTTCTTTTGGTTAGTATATGCATGATGTAACTTTTTCTATGTCCTTTAATTTCAAGCTTTCTGTGTCTTTATATTCAATATGG
ATACCTTGTAATTTGCAGTTATTTTTAAATTTTTTATTCTGAATATTTAGGATATTTATCTGTTCACATTTAATGCAATTACTGATATATTTGTAAATAG
TTATCTTACTGTTTTATATTTTTTCTACCTGTTCTATGTATTTTTTCTTCTTTTTTTTCTTTATTCCATTTACCCCACCTATTTCCCTACTACTAGTTAT
CATTCTTTTAATAGCTTTTTGTTACTAAACTGATAATTAAAATATTTATCTTTGGTTTAATGATGTTGAAGATCAATTAGCTTTCCAGTTCCAGAGCAGA
GTACCCACTCGCATGTTTTGCATGATCTCGGTCGTCTTAATTCTCCATACGTGTTAGTCCCACAGGCATCTGCGACTGTTCGGAGCTGTGCTCGGCAGCT
CTGCCTGCGCATTCGCCCCACGGCTGCCCACCCCTTCCCTGGGCGCTGCGCCTGCATGTAGCATCCTTGGCCTTCTGCCTGAAGAATTTTTTGCTAATAC
TAAATTCTCACACTTATTTTTTAAAATGGTCTTTATTTGATCATCATTTTTACCTATTTGTTTTTTTTTAGTTTGGGTAGTTTGGGATGTTCCAAACTAA
AAAAAGAAAAATAACTTTTCCTGAACCATTTAAGGTAAGTTATTAACATGATGGTCTGTTATCTTCAAACTCTTGAATGTGATGGTTCGCCGAGTGTGGT
CTCGGTGTCAGGATCATTTGAACTGCTGTTGGGAATGTAAGTTCTCAGGCTTCAGTCCAGGCCTCCTGGACTAGACACGCAGGGGATGGGGCCCAGACAC
GCATTCGAGCGAGTCCTCCTGTCGATGCACAGCGCCTGGTTTGAGAATCGTGGCTTGAATGTGTAATTCTCACAAACAAGGGTGTTCTCCTCCACAACCC
CAGGACAGCTGTCAGAGTCAGGAAATGAGCATCACGCGTTACTGCTGTCCAGTCCACAGGCCCTCTTCATGAGCATCACACGTTACTGCTGTCCAATCCA
TAGGCCCTCTTCATGAGCAGTCATTTATCCTAGCCATGTTCTTCTGAGCAAGAATAGCCAATCCAGGGTGATGGCCTGCATTGAATTGTTTCCTCTGCTA
CATCTCTTTGAATCTGGATCAGTTCCTCAGGCTTTTCTTGGCATTCAAGACCTTGACATTTTTGAAGACTACAGAACASTTACCTTGCTGAATATCCCTC
AATGTGGTTTTGAGGGATATTTGGCATATGGTTCCCATTTGTCCCATCACTGCTTTTGTTACCTTTATTGCTTGTTAAGGTGGTGTCTTCACTATAAAGT
TATCTTTTACTCTTAATATTTAGTCAGTATTTTGAGGGGGACATACTTTGAGAATATGTACATGTCCTCTTCCTCATCAAACTTTCACTCAGTAGTTTTA
GCATCCATTGATTTTCTTGGCTAAATTATTACTATGATGATTGCCAAATTATAATTTTCTGTTTCTATCGTTCTTTCTGTATGACCAGGTAGTGTCCTAC
TAGAAGCAAGTAGTTTCCCTTCTCCCCATTTATTTATTCATTGATTTCCATATATCACTATGGACTCCCAGATTCCTGTTTATTCAGATACATCTATACT
TGTTTCTGTGTTTCTATTTGTTGAAAACTGTGAATACACACCAGTGTCTTCAGTTCCAGTGCAACACATCAAGGTTCATTTTAGTGCTCTCGTGGTCCAT
ATCCTTCTCAGATGATGAGAAAGCCAGCCCCTGTCATCTAAGTGTATTTACCTGCCGGAATCCCACGGGGCGTAGCTAGTCTCCTGTCTCTGCTACCATG
GCGTCCCTAATCCCTGCCACCCAGGCAGGTGCAGGCAGGCATTCTCCAGTCCCGCAGAACAGCTTTCCATTTGAACTTGAAGGAAGGAAGGCTGTCTTCA
TTCCTGCAGGTTATTTTCATTGGGTATTGAGTTTTAAATTGCCAATATTTTCTTTCAGTGCTTCCAAACTTCACTGTTTTTTATACTTCTGGCTTTTGTG
TTTCTAATGGTAGTTCCTCTTCGGAAGATATTTCTTATTTCTCTGGCAGGTTTTTTCCCCTTCTTTTTAAAAGAGATTTTTCTGACTTGGTTTTATGCAT
TTATACTCTCTGGGGTGTGTGTTGTGTAAGTAGGTGTGCATGTGCGTCTGTACTCACTTGGCCTGAGGTTCATAACACTCTTTGAGCCTTTGGCTGGTGT
TCATTGTCTGTAGCACTTTTTTTTTTTTTTTTTTTTTTGAGACAGAATCTCACTCTTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCATTGC
AACCTCTGCCTCCCAGGTTCAAGCGATTCTGCTGCCTCAGCCTCCCGAGTAGTTGGGACTACAGGCATGCGCCACCATGCCCAGCTAATTTTTTGTATTT
TTAGTAGAGACAAGTTTTCACCATGTTGGCCAGGCTAGTCTCAAACTCCTGATCTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGTGTGTCTGTATCGC
TCTTGCCACATTTTCTGTCTGCCTTGGCGTCCCACAGTGTGTCTGTATTACTCTTGCCATATTTTCTCTCTGCTCTCTTTCGGTTCCAGTTGGTCATATG
TTGGACCTTTTCACCATGCACCATATTCTTCGTGTGTCTGCTCCTTTCTGTATATCTTGTCTTTTTTTTTTTTTTGAGTGTGCATCAGCCTAGATGTGTT
CTTCTAAACTGCCTTTCAAGTTACTAATCATCCTTTCAGCTCGTTCTAATCTGTTGTTAGACCTGTATTTCTTATATTTGAGTTTTGAATTTTCATCCTG
GTTTGTTTTTGATTCTAGAGTTTTCATTGTTATAATTTCAAGTTTACTGCTGATATTATTTTGTCATCTAATTTCTTAAACATATTCATCACAAAGTTAC
ACAGAATTATCTGATAATTGCAGTATCTGTGTCTTTTGTAGGCCTGTGTGAGTGGTCTGGTCCCTAACGTTTGGTTTGGGGTTGTTTAATCTTGGCGTTT
GGTGGCCTCATCATTGGTGTTTTGTTGTTTTCCAATGGCAGTCATTTTTTGTGGAGACTTTGCCTGGAGTCATCTCACCCTGGAGAGGATGCGCTTTACC
GTCTTCTGGCAGGCATGGAGGTCAGGGCAGGTCCCCTGAGAGCGCTCAGGAAGCAAGCTGGTGACGCTGGGCTTCCGTTTTGTGAGGTCTGGAGTGTTTC
TAGCTTGCGCTTACTGAGAGGCCATTTTTGCCAGGGTCCCTTCTTTTTGTTGGGTCCTGAACTGCATGTTTGGCCCCACAGTGCACTCCTGCTGCTGAAA
GCTCTGCCGGGCTTCTCAGCCCCCCGGCTCTGCTGGTGGGACCAGGGAGCGCCTCAGGGACGGGAACGTGCAGCCCAGCTGTGTTTGCTTCTTCTCTGGA
CCTTGGCATCCAGGGCCCTCCCTGCCCTGTTGCCTTTACAGCCTGATGTTGCCTTTGTAGAATTCTTTTCTACATTGTCCCCTGTTTGGTTGTTCAGGAG
GGGACAGATGTGTTAGCCGTTTTAACAGTTACATGGTGAGCTCACCTAGCAGTTTTTCAATCACTGTGTTTTATGTGGTTTTGTCTGCTTTTCAGTTTGT
GAGCATTAAAGAGAATCTAAGAGAATATATGATATTGGGCTTGTGGTTTGAATTAAATGTTTAGAAATGTTAAAATTTTGAATCGTATTTAAATGACTGG
GAAAATCCGATTTTTAAATTTCTAAGCATTTCAAAAAGTAAACTTGAATGTTTAGAACAGTTTTAGATTTACAGAAAAACCGTGACGGTAGTAGTGAGCT
CTCATATCTCACATCCAGTTTCCATTTTATTAACTTCTTCTGTGAGTATGGTACACTTGTTATAATTAATGAATTAATAATACTTACTGKGTTTTTGTTT
TTTGTTTTTTTTTTTTGGAAACCGATTGTCACTCTATCGCCCAGGCTGGAGTGCAATGGCATGATCTTGACTCACTGTAACCTCCACCTCCCGGGTTTAA
GCGATTCTTGTGCCTCAGCCTCCTAAGTAGCTGGTATTATAGGTGCCTGCTACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTGCACCA
TCATGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGGCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCAAATTCGGCCC
TTATTGTTAACTAAAGCCCACACTTTGAATTATTCAGATTACCTTAGTTTTTCCCTAATGTCCTTTTTCTGTTCCAATACCCCGTCTAGAATATCACATG
ACATTGGGTMCTCATGTCTCCTTAGGTACCTCTTGGTTGTAACATTTTCTCAGACTTTGTTTTTAATAAGGAGTGCTGGTGAGGTATTTTGTAGACTCTC
CCTCAGTTGAGGGTTGCCCRRTGTTTCTCTAGCGATTAGATTGGACTGTGTGTTTTGGGGAGGAATCCACAGAGGTGAAGCATCAGGGGCACTTGCTGTC
AGTGCAGCCTGGCACCRTGGCCCTGACCGTGGGCTCCTGGCTGAGGTCGTGCTTGCTGGGTCTCCACTGGAAGCTGCTCTTCCTCTTTCCAGAAAGCCCC
ATGCACACCACAGCCTTTATGTTCCTTTGTTGAGTAAGAATTGTCTGACTGTTTAGAGGATTTTGTTTAAGGAAATTCGGTTGCTTGATATTAAAAAATG
ATCAGTTGAAATTAAATAGTAATAAATAATAATGACCATTTCTGKAAATTCATAGAATTCCTTTTGTCCATCAGAGACATCAGCAGCAGTTCTCATTGCA
TTTCCTTCTGGAAACAGCATTGTGGGGATACCTGGAGGTGAATGAACAAAGCCCCTCTGGGTTTCATGTGCAGCTGTTTCAGATCTGGGAAGGTTTGTGG
CTTCTCACAAAAGGCTCTCTGCATGGGTTGCAGAGCTGCTTTCTAGATTGGCTTCTCTGGGTACTGGGGAAAGCTCCCTCCCCTCCGGTAGTCCCCTCCC
TCCTGAGCCTGTGCTCAGGGGGCCCCTCAGGGAGCTTCATTCTGACCTGAGTGACTTCGGTAGAGCCCTTAGCAGACAAGGAAGCGAATACTGAAATGTC
TTGTGTGAAGCCTTCTGTAACTCCTTGCACACACCCCTGAGAGAGTGCAGGCCTTCCCCAGGAGTAGGAGGAGATGGAGGGTTTTTATTWMTAACAAAAG
GCCCCACCCTGGTGAGAGTGGCTTCCTTTTATCTGGCCACCCGACAGACAGCTTGTGCTAGCAGCAATTTCCATCAGATGCTGAGCGGAAAAAACAACTG
TTGCTCTAAAAACACGTTAAAAATCAAACCCTAACTATAAAACCCATTTTCTCCAACTCTTTTCCTTCTTTTGAAAACAAATACTAATGGTGTAATAGGA
AGGCAAATGTTCATGAAAATGTAGTTTCTCTTGGATCATTTGTGTTTCAGGTTGCCTTCATCTCATTTCTGTCTAGTTCAGCTGGAGACAACAGGCATAG
CTAGAAAAATGGAAAGTGTATAGGAAGAGATAGGGCCTGGAGACAGGAATGTGTGCAGGTGGAGGTATGTCTGATCTCATCAGAACAGATGGAGAACATG
CCAGAGCCCAAGGAGCCATCAGTCTCTGACACCTCAACTCGCAGAGGCCACCAGGCAAAGACAGTTGAAGTTGTTTTTAGTTGGGTCACAGTTAGAGGTT
CTGAGGTTTAGCAAGAATTATTGTGATGTTTGAATTGCTAACAAAATTAAATGCTGTTTTCTATAATTACACGTTAGAAGAAACAGTAAATACAATCAAG
ACAAGAATCTTTTTAGAAAAGAGTTCAGGTTTTGCTTTATGAAAATTGCAAAAGACAAGTAACTAAAGAAAAGTAAAGTCGGCCTTTGTCAGAGGCGAGG
TGAACAGAATTGTTTCGTCTAACCTTGTAGCTGGGGATCCCCTACCCGCAGCGGGCTGTGCAGAGTACAAGAGAGGGTCCTGAAGTGCTTCTCACTGGTC
TTTGGAGGTGGGAAGACCTTCTCATCGGTCTTCAGGTACACGTGTCAGGTCACTGGTTTGCTGCAGGGGAGCAAACAGCATTTGAGGACATTCCACAGAA
CGTRTGACTATTAGAGCAGAAGGTAGTTGGCAGCCGGTTATTTCCTGGAGCAAGTGGAGGCCATGGATGCCTTTTCATGGCAGTGGTTCTTAGAAGCCCA
TTACCCTGCTAGGCAATTTCTCGCTTTCTGGGAGACTTTTTTTTTTTTAATGTTGAAAATATGTGTTTTAGCCAAATTCTGCCATTAACATGAGAATTTC
TATAATCCCAATTAATTTTCTAAAAATAATAAAATTACTAAAACTATGCCTTATAATTTCATGAGAAACTTAAAATATACTTGCACTGTGCTTCTGTAAA
TAGGTGGTCTGTGTATTGTAACATGCCCAGGACGTTGCATGCATGTTTTATGATGGGTATTGTCCTTGTTGATACCTGGAGGTTAGGAGTTATTAGGTAG
CACTTCTGATTCTTGGAAAACGAGTAATGCTTTGACCTTTATTCTTTAGATTAAGGATTATAGTCTTCGTTTTTCTTCCAGGATTTTCCTGATTTTTCTG
ACTTTAGTGTTTTTGTAGTTTTGTGAGATGGGTCTAGATTTGAATTTTTCTTTATGCCAGTGCTATTTGCATCTTGTTGGTAGGATCTTATTCCTTGTTG
GTAATTCCCCCATTGCTTCTCTCTGTAGACATTTTAAACCTAGTTATTTTATGCTCTGTCTCTGGAGCGCTGCTCTGGACGCTGTCTGATCTTGTTCGTT
GTTTCTTCTTTTTCTCACCCATGGTGGCTTCTTTTCTTGACTGTGTTGGAGACTTTGGGTACAGAGCTTCTGCCCTGTGGGGCTCCATCCATGGGCATTT
GRTGAGAGTGGGTCCCTCCTGAGTCAGGTTGCCAGATGAAGTACAGGATGCCAAGGTAAGCTTGAACTGAGAGCAGCTAGTATTTTAGTATAAGTATGTC
CCAAGGTTTTTAACCGGGTATCCTATATGATTTCTCAGTCCTGGCAGCCCTACTCCTGAAAGGACCCTTTGCTGCTGCCAGGCCTCAGATTCCTGAGGAG
CAGGGAGGGATTGATGGCACCTTTGTTGCTTGTGGTATTCCAGGCCCTGGAGGTAATGCAAATTTCAACCCTCGAACCTGTGTGGAGAGAAGCTCTGGTT
ACGAATTCCCAGTGGAGAATGGTTTCACCACTGGGTGCCAGCTGGGGTCTCCTTGCTGGCAGGAGGCCTTCTCCCYGCACTGAGGTGTGGCCCTTCAGGA
GTCACCTCACAGGGACACCAGGCCGTGTCTTGTGGCTCTCTGCAGCTCTTGGGCGTCCCGAGGGCASCGCGGCTTCAGCTCACCACTCTGGCTTTTCCAC
TCACTCTTCCTTCTTAGCCCTTTGTGATTTCTTGCGGAGCTCAGCTGTACATGTAGAAGCATTTCCAGAGGTTTTTATATCAAGAAGCTTTTCTGCATAT
TAGGGCTGCTGTTTTGCTAGAAATGGAAGGCTCCCCTATTTTTCTTTATAACTGGAAACCCTGTTTTGGTGCTGGTTCTTTCTGTAGCCATTCTGTGGAG
GACCTGTCTGAATTAGAAAGTCTACATTTTATATACTCAATAGGTATTTACCCARTGAACAGTCCCCCAGAATGCAGAATTGATTAAATCCCCAACCCCG
AAGGCACAGAAGGGAAACCTGGCTGATCAAAGAATTCTTGCCTTTTAATTTAATCTGAGTTCTATCCCAGAGATAGAGTCAGGCATCTTGGGAGTGCTAA
GGTAGTAGGAATGACAGTTTATCCCAATACCTGCTGCCAAGCCTGACATTTCAGACCCCCTGCCCGACAGTGTCATCCCAGTGTCCTACCACTTCTGCAC
TTAGCCCTGATTAGATCTTTATCGTGCCAGGCACTGTTGTAAGCATTGGGGCCACACCCGAGAGTGAAGCCAAGCCCTGCCCTCATGCAGCTCACCTCCT
AGTGGGCAGGGAGAACAGATGATAGACAGGTAACAGGGTGCCAGGGTCTTGGAGAAAGCACAGCGAGGAGGCTGCCATGTGGAGAGAGGTCTCAGGCACC
TGACGCAGGGGACTGAGGGATGTGGGGGTGTAGGGGAGCAGGCGCCACAGGGGAGTGAGGGATGTGGGGGTGTAGGGGAGCAGGCACCCCCCGGAAGGCA
GGAACAGGTGGACATGGTCTGGAGCTAGAGAAGAGCCCGTCATGGTGAGGTGTGATGCGGGTGGGGTGAGCTTGAGCAGGGAGTGAGCTGAAAAGGCAGC
AGGCCAAGGTCAGCCGGGGTCCGCAGCTGCCACGGGGACCTCAGTTCAGCGGTACTCCTGGTGAGGTGGTGGCGTTGGTGCGCCAGAGAGTGGCATCATC
TGGGTCTCAGGTTTAAAGGGTTGCTCTGCTTGCCACGTCGAGTATCAACTGTGGGGGCAAAGGCAGAGGGCCAAGGCGGTCAGGGAGGGTCCTGGTGGTG
CAGGTGAGAGTGCTGGTGCTATGGGCGGGGGCGCTGAGAGTAGGCACTGTCTCTTTTCCCGAGAGCCCCCACTTAACAGGGGCATTGTTGCCCCTCCTTG
CCCAGCCAAGTTGCTTCTTGCTTTTTAGGTTTTCAAAATTAAGCAGACTATTGCTGAAGGATTCCAGCAGAGGGAGTCAGGGAAGAGGTGCAGGGTGGGG
AGCGGGCTGCTGAGGGCCTGGTGGTGGCCTTTCCTCACCGGACGGTGGAGCCCTGGGCCTCTGCTGTGTTGCCTCTCCTGCAGAGTTGTGTGTGTGACTG
GAGGAGAGGGGTGGAGCSAGTTCAGCCAGCACTGGGGTCTAACTATAAAGCACAATAGAGACAGGTAGTGGCAGCTGGGTGGGGTGGGCTGTGGGGTGGG
GTTCTAAGATAGGAATTTGCCGTTTGTAACAAAGGAACTTTGGTGTAAAGGCTTTAATTTAGGAATCCCAGGCATACTTCCTCATGGATCTTTTCCTGAC
CCTTATGTTTAATTTAATTTACTGATGGATGGATGAGCCCAGAAAGGGTTACACAGGAGCRCACYTCTCAGGGAGTGGTGTGACGCTGGGGAGGCTCGCC
CACCCTGTGTCTGAGCTAATTTCTGAAATCTGTTTGGAGCTTATATATTGAAACAAAGCCGTTATTCTAACTTTCACATGAAAAGAGCTCCATGTCTTTT
AAGATACTTTTTTATTAGAGCTCAAGTTCTTTTATAAGCAGAAACTCCTTTTTTAGGTTTCTAAAAAGCATACAAACGGTGGGAAGACAGAATTCTTCCC
CAAATCACCTACAGGTGGTTCGCCCACACCTATTTCAATAGACCTTATTTTAGCGACTCACCTTCATCAAATGGTTCCAAAGTGTTTCAGCCTAGTTTTA
ACAGAACAGCAGCTCTTCCTTTTCAGACGCGTAGTTTTCATAACATTTAATTAAATTTTGCAATTGCAATGACAAGTACAACTGGCGTCGCTGCTGGGAA
ACAGACCACTGACTCATACCACTTGGTGGGAGGGACAGAAGTGCCTGTGGGCCAGTGGGAGCAGGTCCTGCCACTTGGTGTCCTGTGTAGGCTGGCTTGT
GAGTGATCCAATCGGGGTTGGTCAGAAGAGCTTTCTGCTGAAAGGAAGAAGAGCTGGTGAAGAGGACCAAGCTCGCCAGAGTATTAGGAGGCAGGCCAGA
CTGTGTGGGCCCTGGGCGCCAGCAGAGGAGCCTGTAGAGGAGCTTCAGTGTCTGTCAGAGGCCGCAGGAAGGTCAGGGGTGGTGAAGGTTGACCATGCCC
AGGATACTGCGTTGATGACCAGGTCATAGGTGAACCTTGAGAGAAGTGTCAGGAGACTGGTGGGAATTAGAGATTCCATCTTCTATAGCTTGTTATTTTG
TCTTGTTTTTAAGGGCTAAGGCATTCTCAGTGTGTTTATAGGCAAAAGGGTAAGTGCTTGTGGAAAGAGGGAAAAGATGCAAGAGAGGAATGGGACCGTT
GATGGAGCAGGGATCCCAGAGGCAGGGGGGCCTCTTGGCTCCTCAGAGATCCCRGTTCACCAAGCAGGGATCCCAGAGGCAGGGAGGCCTCTCAGCTCAT
CAGAGATCCCAGTTCACCAAGCAGGCGTGGCCAGGCCAGATCACTGTTTGTTTCATAGGACCCCAACCTAGTCTGCTGAGGGGAGGCTGGAGGGGTGGGT
GAGGGCTCTTTCCTCCCATGGGGAGACACTCTGTTGGATTGGCCATGTGTGGAGTGGAGGCACAGAACCTACATCCAGGGTGCTGCGAGCGTAGCTGAGA
AAGCCAGCTGACCCATGCTGGGTGGTTGACCAGGCCCAGTGACCACGTTGGCCATTGTCATTGAAGCATCTCATTCCTTGATTAAAATCCACTGGTGCTC
TTCACATCACAGGGCCAGTTCCAGACAGTAGATTACAGCCATTTGATGTGTCATATTTACGTTCTCCTAGCGTGAAAGCAGCAGTTTGTGTGCTTAACAT
TATAAATATACATGGTTGAACATCCTGGATGTGATGGCTAATGAGTCTCTCTGGAACAGATTGGTTTTGGAGATGTCTTGACTGGCCTTTAAGGGGCACG
GTCGTCCAGCTGTGGAGCACTCGTGGAGTCAGATCTCCACACAGTGGTTCAGGTCCCTGTGAATCCTCTCACCTGCRTGAAGGGCCTGGCTGCCTCTTCT
AGGTGTCTGGGAAGCMTGCTCTTTCCCATCAACTGCACCCTTAAATGGGGACTCCAGAAACAGGAGCAGTGTCAGGGGCGAGTTAGAGGGCCTAGCACGC
CATACTCAGGGACAGTGGCGGGACGCTGGCAGGAGCAGTGGCAGCTCATGGGGCTCCGGATCCCAGGTGCCTGTGCTCGCCCACCTGCACCTGCCAATGG
ATGGGTGACTTTGAACAACACGAGAAGACGGCAGTTGGGGTCCAGTGGCCTTCGTTACTGTTAGGAAGAAGGTCCAGTTGCCCATTCTAGACTTGCTGTC
TCTCTTGTCTGTGTTTCCTTATCCCTGAACCTGGCTTCCAGTCTGAGTTTAGGGAGATCTGCTTGGCGGGGGAAGGTTTCCCAGCTCTTCCTGTGGCTGG
ATGGAGTCAAAGGCACCAAGACCTGAGTCTGGGAGGGGTCCAGCCAACTCGTTTTTCTTCTTGGGGTTCTGTAATTTTTGCTTTGCTTGCCCTTGTGTAA
TTCTAAGAGGTGCACAGCTGCTGTTTGGGTTGCAGTTGTCTAAATCAGTGGTGCCCCAGAAGTTGCCAGTGTTCTGGGAGCTGCTCTTACTGAGAGAATC
ATGTCTTTTTACTGGAACTCCTTCCTAGGGCCACTCTGAGCGCTCTCAGCCTCTGCCACAGCTCATAGTTTCTGGCTCCGCATGGTGGAGTCGCCTCGCC
TTCTGCTGTGGCTCCTCCTTGTCACTCTTCAGTACACTCAAGGCTGTTCAGCCTGTCGGCGGGAGCTCCACCTTCCCTGTGCATTCGTCTGGCCCCCATT
TCACCGCACTCAGTGCCAGACACTGCACCAGGGCTGGAGACACAACCCAGTTTCCACACCCTGGAGACTCGGCAGAGACACGTGCGCAGATGATGCGATG
GAATCCCAGAGGCTGTGGGGACCCGTGAGAGGGTAGGGATGTGCGGTAGGTTGCTGTGTCTGGGGTCTCAAGACTCGCACCTCACAGGATGGGTATGAGT
TTGCCAAGTAGAGTCTTGGGGGGGGCAGTTGAGGGAGAAGGAGGATGGCTGTGAAGGCCGGAGGCTGCAGGGCATGGCCGGCAAGGGCCATGATGTGAAG
GGAAAGGAGACAGAACAGGTGGGGAGGGTGGCGAGTGGGGCGAGATCGCACAGGGTCTCAGGGTGGACCGTGGAGCTTACTTTCCATCCTAAGCCACGTG
GGGGTTACAGCAGGCATGAGATTAACCCGAGGAGTTCAAATATAGCAGAGTCAGAGGGCATTGCACATTGTTATGTAACCAAGTCTTGAATTGCAGTGTG
AAGAACTTCTCATCAGCGTTGATGGGATGATTAAGAAAGGTGGTCAGAGATGTTGGAATTTGAACCAGAATTTAAGATTCATAGATACTGAGGATTTATG
GGCTTTATTTAGAGTAACTTCTTGACTATTAGAAACCCTATCAGATAAATTTTAAAACAGAGACCCAGAGCTCAAGGTAGGACTACTAAATGGATGATGT
GGAGTGATGGTTAAGATGACATTTTCCTGGCTGGTGCTGTGGCTTTGGTTGGGAACAGCRAGAGATACAGAACCGACGGTCTGGGATCCAGGAGGGTGGC
TGGCAATAGGGAGGAAGTGTGGACGCTTGATCCAGGAGGCACTTAGGATTAATCTGGCAGCCATGGCCTGCGAGGTGGGGAGAGGCTGGTGGAAGGAAGG
ATTATGGGCTGGGGGCTGGAGTGTCATGGGCTGAATAGGACCTGACAAGAAGGGGAAAGAGCAGAGAGACTGAGGCTGAAGAGGGCACCACTTCTGCTGC
TGATCGCAGTGGTAACAATACCAGGTCACCCCGAGCACCTTCTGTGTGCTGGGCACTATGCTGTTGCCACAAGAAGACACTATTATTCTTATTCCCATTT
GCAAATGAGCAGTTKGACACAGTGGCTTTCTGAGGTCCTGCAGCTTCTGGGAGGGCAGGACTCACATTTGGGCAAGTGTGGCCGGGCGGCCATGCTGCTT
CCCATTTCCCTGCTTCTTGCAGGGCCCCTGGGGTGAGCACCATGCACAGACTAAGGTGTGGGGGTTGTATTAGGCTGTTCTCGCATTGCTATAAATAAAT
GTCTGAGACTGGATAATTTATTTAAGAGGGTTTTATTGGCTCACGGTTCTGCAGGCTGTACAGGAAGCATAGCAACTTCTGCTTCTGGGGAGGCCTCAGG
AAACTTACAATCATGGTAGACGGTAAAGGGGAAGCAGGTACATCCTAATAAGGCAGGAGCAAGAGAATGGGGCAGCAGAGTGTCACATATTTTTAAATGA
CCAGATCTTTGGTGGCAGAGTGTCACATATTTTTAAATGACCAGATCTTTGGTGGCRGAGTGTCACATATTTTTAAATGACCAGATCTTTGGTGGCGGAG
TGTCTGTCACATATTTTTAAATGACCAGMTCTTTGGTGGCGGAGGAGTGTCACATGTTTTTAAATGACCAGCTCTTTGGTGGCGGAGGAGTGTCACATGT
TTTTAAATGACCAGCTCTTTGGTGGCGGAGTGTCACATATTTTTAAATGACCAGCTCTTTGGTGGTAGAGTGTCACATAGTTTTAAATGACCAGCTCTTT
GGTGGCAGAGTGTCACATATTTTTAAATGACCAGATCTTTGGTGGCAGAGTGTCACATATTTTTAAATGACCAGATCTTTGGTGGCRGAGTGTCACATAT
TTTTAAATGACCAGCTCTTTGGTGGCGGAGTGTCACGTATTTTTAAATGACCAGATCTTTGGTGGTAGAGTGTCACRTATTTTTAAATGACCAGGTCTTG
TGTGAACTCAGAGTAAGAGCCTACTCATCACCAAGGAGATGGCCCAAGCCATTCATGAGGGATCMGCCCGCATGATCCAAACACTTCCCACCAGGCCCCA
CCTCTGACACTGTGAGTTACAKCTCAGCATGAGATTTGGAGGGGACATCCACACTCTCATTTGATGAACATGCTGGTGAYATGGGTACACAGACGAGTAA
AGAAAGACCTTTTCACAGCAGAGTGGATCTTAGATTTTCATATGAATAGAAGGGTTTATGATTTTTGGTTTTGTTGATCCTGTGACCTTGGAGTGTTTGT
CTTGTCACTTGTCTGGCTAGTGTCCTGATGGCTCTCAGGCACCTGTCCACACTCTAGGCGACACCCAGCGCTAGGGCACTGATGCCTCAGGAATCCAAGT
TTTCATCTAAAACAGCGTTTTCATTGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTTGAGGCGGGCGGATGACTTGAGGTCAGGAGTT
GGAGATCAGCCTGGCCAACATGGAGAAACCCTGTCTCTTCCTAAAAAACACAAGAATTAGCCAGGCGTGGTGGCGAGCACCTGTAATCCCACCTACTCGG
GAGGCTGAGGCATGAGAATCACTTGAATCCAGGAGGCGGGGGTTGCAGTGGGCCAGAATTGCCACTGTGTTCTAGCCTGGGCAACAGAGTGAGACTCCAT
CTCAAAAAAACTAAAATTAAATAAAAATAAATAAGTAAAGCAGCATTTTCAGTGGGGCATGTGTACCTGGGGTCTGAGCAATATATATGAACATGTTTTT
CCTTAGCGACCCTCCTCATTTTGTGCCCGGAATTGACCCTGTGTAAGTTCATGAAAATACTGAATGTGTGCAGGACAGGCTGCTGATTTTTTAAAGTCAC
GTTTTAAACATTGTATCAGGTCACTTTTTATTTCTGTACAGCCCTTCTTTGGATTAGACAAACTGTGATTTGGTTTCTATTTTACCAGTTCAGTCTCTTC
AATGGAAGGAAGCCAGATGCTGTTAAGATACTGTGCTCCCTCCTTGAAGCTGATCGTTCCCTCCTTGAAGCTGATCGTTCCCTCCTTGAAGCTGATCGTG
TCCAAGATAGTTGCTAGGACAACAGAATCTTCTGTTTTCTCGCCTGCTATTTTTGTTTCTTTTACTATCTCAAGTTGTTTTCATTTTCAGTATTGAGTTC
TCCCTTACCATTTTTTAAAACAGAGATGTTTTTATTAACTTTAATATGTTAATACTGTATGTTCTTGCCTTTATGAAATTCACCTTACAGAAAGGCACTA
GGATCAGTTTACCTAAACATGCGGGAGACGGAAGGCCAGACGTGACTGCTTTAGRTTCCTCATGACATTCAGACCTTACTTGGAACTCAGTTTGGTATCT
AGTTGTGTTAAAATACAAATTTTCAGTTTATAAGTTACTTAATTAAGTTTGAAAGTAAATGCGTAATGCCTTCAGTGTTCTCTCCACTTTGTGCCCTGCC
ACCTGCACTGTGGAAATTAATCATAGAAACTCGGCGTTAATCTGTATGCCCGAGTTATTTACATCTCTGTGTATGGAAAATTATCAGCATGTGTCCCTCG
AAGAAGATGATGAGCATAAAAGGTGATCTTTACCAGGTCCATTGGTTTGTATGTGATTGCTGTGGTATGTGGTATCTGCCTGTCTACTGATGGAAAGTGG
TAAGATACTGTCTTACATGCAATCTGGAAAATCAAGTGCCCTGACTTTACAGTGTGTTACATATGATTGTATTTACTTTAGAATTTTTAGAAAGCATACC
ATTTTCAGGTTTAAAACAAGCACTTAGGTTAGGAGCTTTTCTATTATTCACAGCTAATAAGAGTTAAGGAGGATTAAGACATTTGAACTATTGTTAATAC
TCATTGCAACAAATATGACAGCTAAATAATGATATATTTGTAGGAAGCTATAGTTTTATGTGTTAAAAAATAGAACACACATTTTCAAAATAAAAATATG
GTTTTTGAAAGTTGACTGTTAAAAGATTTTTTGAAAATTTATGCCAATTTTGTTACATTCGATTTGTGTTCTACAGTAATGGAAATTAAGGGAAATTGTG
TATCAGAGAAGTGTCTTTAATATCTATAGTGCTCTTCTTTAAAATTAATGAAAAACTCCAAGCAGAATTGATTAGCATTTATATGTTATAATGGAAAATA
GGAGTTGGAAACTGGAATTTCCAAATCACCCCAGAACTGTGCAGTATTTTGAAGCTCCTTAGTGCATCTAGAGAGAGGGGAGCCAGTCATGCTTGGCATA
ACCCATTGCTTGCCCCAGCAGAGTGAAGCCCACCCGGTACACAGGCCCTCACTCAATCGTTTTTTTGTTTAATTTATATATTTACAGTAATACAATAAAG
GGTTTGTTGCTGGAATATACACATATTTATTTATATGTATAATATTTATCAATATATTTACAAATATATGTATACATGTACACACACACACACACACACA
CACATCCTTCATGAAAACTCTTTCAGCTGGGAAACTGAGCATCCTTGAATGTCCCTGAGGTGACTACTAGGATATAAACATCCCCCAAGAGAAGTGCTTT
GAGTTACATACGAAAGGACCTGCAGAAAGATTGGAGTCACCTTTATCTGGGTAGAGTGGATTGTGGACCATAACCTAACAGACACCCAAGAAATCTCATA
GCTGAGACCTTGAGCAACATACCTTTACTATATATATGCTGATTGACAGATAAATGGAAAATTGGAGGGAATGAGGGGAATTCAGTAAAACCTCGTATAA
GTAGTATGTGATTGAGGAAAGAGCTTATTGTGTTATTTTTAAGAGTTAGCACACTAAAAGTTACAATTTAATTCAACGAATATTTACATGCTGTAGTGGG
AAAAAGATCCTGGACTTGATCATTAAAAGATCGGGGCTCCACTTTCAGCCTGCCACCAGCTAGCCACGTGACCGTAGGCAAGTCAAGTCTCTGAACACCC
TGTCTCTTTTAAAACAGAGACTGTGCCTTCCTTTACCTCATGCTGTCAGGGTCACAGGAAATAACACTAGTAAAAAGGTTTCTACTTAGAGGCTGCCCAC
TAATATCAGTAAGTGTATCAATGATTGCATTGGACATAACTTTGTGATGAGTACCAAAGAAAAGTCAAAGGATGAAGGGAGCTCTGAGAAGGAAGGGGCA
TTATTTCATGGCAGGATTCGAGGAGGCAGAGGTGGCTCAGGACAGCACTTCAAAAAGAGTGAGTGGCATAGGTGTTCAGTAGAGAAAAGCCATGGCCTTG
GCCAGGAATAGCAAGTCAGCTGCCACACTCAAGGAAGACCTACTTGGAGACCCTTGCGATGTACCTGGGCGGGGAGGTGCTTGTTCAGGAGGTTTCTTTG
GCTTTCTCCTGAATGACATTTCCTGAGATATATCTACTATCAAGTTAATCACATTCACTCACCAAATAAGTTCTTTTCTGCTTTCTTCTTACAAAGTAGC
ATTTGAGAATGTTTTTRTGTGGCACTTCTTTCATTACTGTAGTTCTCTGATAAGTAACTGCCTAGAGCAGTAGTAGGGCTGTTAAGTGTTAGAGGCTGTC
TTTGCAAAAACTGAAATAATGACACAGAGAAGCTTGTCCATAAAAATGAATGATTCAGTGACATCTGTTGTTATTAGCCAAACCCTGGATAGGAACTTTC
TTAGAGGGAGGTGAGGTGCCCTCTCTGGCTGAACTACCTGCTCATTCTTACCTTACATTTCAACCATATATAATAGCAGGTGAGATTCACATTTACATCT
TTTCCTAAGTTCTTTTTAGAATGGTTATGTACTGTAATTCCATCTTATTTCCTTTGTGGCCTTACGAGCTACCCCTCTTTATTTCATTTCTGATGATTGC
YGTAGGGTTTCACCACGGGCAACTCTAACTTGTCACAGTCAATCCACACCTTGTCAGCATTTAACCGCCTCACACAGAATGCAGGTATCTGGCCCGAGGC
CACAGCTGTTCCTGCCCTCTGTGTTCTTTGTGCTGTTATTCTCATATACTTTCACAGAAACCACACAATGGACTGTTGTGATTTTGGCTTTAAACAGTAA
GTTATCTTTTAAAGAGATTGAAACAATTTTTTAGTCTTTTAGTCTTTTATCCTTCCCTCTACCATTTCTGATGTGCTTCATTCCTTTGTGTGGACCTGAG
TTTCCACCCGGCATCATCTTTCTCCTGTGTGAATAACTTCCTTTAGCAGTTGTTATAGAACAGATCTGGGAGCAGTGAATTCTATTAGCTGTTGCTTTTC
TGAAAATATATAGTTCAACTTCATTTTGTTGAGTATTTTCTTTTGATATAGAATTCTAGGTTGACAGTTTTTTTTTCCCCTCCAACACATAAAAGATATT
CCATTGCCTCTTGGCTTGCATAGTTTCTAATGAGAAGACTGCAGTTCTTCCTAGCTTTGGTTCTTGTCCCTGATGAACCTTTTTTCCCTTTGGTTGTTTG
TAAGATTTTCTCGTGATCTTTTTCTTACTAGTTTTTCATAATTTAATTATGGCATGCATCTGCGTGGTTTTCTTGGTATTTATCCTGCCTGGGGTTTATT
GAGTTTCTTGGGTGGCAGGATTATCATTTTCAGAACACATGGAAAGTGTTTGGTTATCATTTCTTCAGATTTTTTTCTATCCTCCCCCTTTTGGGGACTC
TTATGTATCCATGCATTAGGTGACTTGCTATTTTCCACAGGTCCCTGTGACTCTGTCCATTTGTTTTTGGCCTTTTTCTTTCTGTGCCTAATTTTGGATA
GTTTCTGCTGCTCTGCCTTCAAGCTCACTTATCTTCTGTGGGTGTATGATATGCTGTTAATTGCATTGTGTTGGTTTAGGTCTTCCAAGAATCAGAAGCC
AAGAGATTAGATGTCGAAGAGGTCTGTTGGAAGAAAACACCTTTGAAGGATCGGGGAGAGGAAGTCTGAGATGGCAGGAGAGCCTTTGCTCTTCCTTGCG
GGACTGTGACAAGAGACAGGAAGAAAGAATCCAGGAAAGATTTGGCCAGGCTGATGAGTGTCCTAGAGCCAAAGATGCCTGTCAGGGAGTCCCATGTCCA
CAGGAACAGCTGGCACCAGAAGCTCTTCTGTGCTCCATCACTGACCAGGCACATTCTGTAACGTGCGTGGCCGTGGCATGAACAGGCAGCAGATCCTGAG
GGTCAGGAGCAKCAGGAGCGTTGCAGAGGAGCACACTTTCCTCCCTGCAGTAGGAGCTYGGCAGAGCACATTTTCATGGCCACCACACTTATCCAATAGA
ATTGTGTTTTAGGAATCCTGTTTTTTAGCTCTAGAAATTCTGTTTGGTGCTTTTTATGTTTTCCAGTTCTCTCCTTATGTTTTTCATTTAATTCTTAGAG
CATACTGAACATTTTTATAACAGCTGTTGTAATGTCTTTGTTTCCTAATTCATCGTCTTTGTCAGTTCTGAGTTGGCTTGATATTTTCCCCTTGTTATGG
GTTACATTTTCCTGTTTCATACGCCGAGAGATGTCTCATTGCTTTGCCATACGTTGCAAATTTTACGTTTTTGAGTGCTAGATCTTGTTCTATTCCTTTG
AACTGTGTTAGAACTTTTTTTCTGACAGCAGTTAAGGTACTTGCAAGTCAGTGTAAACCTTTTGAGGCTTGATGTTTCAGCTTTCTGGTGAGCCTGCAAT
GGGCTTTCTTCAGGAAGGGCTTAGCCCAGTATCAAGGCATGGCCATGGGGTCCCTGTTGAATGCTGCATGCGTGCAGCGAGAGGCCCCTCTGCTCTGGCC
AGTGGGAGCTCGCCGACTCTCAGCYCTAAGTGAACTCTGGGAGTCATCTGCTTGCAACTCCCTGGAAACTGTTCTTTCCCAGAAGTCGACTTTGTCCAGC
TTCATGGAGTTTTACCCCCTGCACACACTGATGGCTACTCAGCCAGAGACCGAGTGGGTCCCCTGTGCAGATTTCTGGAGCTCTTTTTCTGCCTAGGCCC
CACCCCTTTAGTGCTCTACTCCGTAAAATCTAGTCACTGTGTCCTGCCCAGAGTCAGATGCAACCACCAGACTCRGTTTCTCCAGTTTCTAAATGTATCT
GGCTGGGAGGCAAGTACAGACCCTGTTACTGCCTCATGAAAGGAAACTGTTGACTACTACTTGGCCTGGTGCCTCTCACTTAGGCCCTAACAGTATAACT
GATTGCCCAGGAGCTGCATAGTTCACGTTAACTGAAGTCTGAAGTGTATTTCGGGAGGGGGCATTTTTCCATGTCAGGGCTTCTTTAAGACCACAAAGCT
GAAGTCTGTGCTCGCTGCTCAGCGGAGGCCGTGCTCTGCGCATTGYGTGCATTTGCTGCCTCCTCCCTCCTCCTGAATGGCCACCTCTTCCCTGCTGATC
CGCATGCTGTCTGCACCTGAAGCCTCTYTCCGTGTTGGTCAGGTAGGATTTCTCCACCCTTTTCGCCCTCCATCACCTTCCATCTTCTACTTTGGGCTTC
TCCCACATTCCAACTCATTTCTAGGTTTTTCTAGCCAGAGAAGAGAGGACTGGCTTCGTTCATCTCTCTCAAAGTAGTTAGGACACAGCGTTTCACCAGT
AGAAGGAGTTTCCTCCATTAGAATGAGTGACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGKATATTTTTTTCCTTGACTGATTTCTGTGCGAACAGCTG
GCATTTGAAGCACTATATAGGGCATGTCTAAATTGTGCACCCAAGAGAAGAGCCTGGGAGAARCCTCATTGTGCGGCCTTGGCCCTCATGGCACAGATCC
CAGGTTGGCTGTAGCATTTAGAAGTGGACACTTTTCTAACATCAGAACTCATCCAGTCCTTACGTTGAATCACACAAACTCAGTGGCGTCACTTTGGATC
AAAGAACAGCACGTTTCAGCTGCCTCTGCGACCTCACCTGGAGCTGGAGAATCACCCTGTTCCCCGCTGTTGCCAGGCGCAGGACCTGGCACCTGTAGGC
ACTTAGCCGGCACAGGACCTCGTACCTGTGGGCACTTAGGAAGTAATTGTGGGCTAAGTGAACTTAAACCACRTCGTGGACTCAGCTTTACTGTCTTGTT
GTTACCTTCCTGTACTTTCTTAGGCCAGTGATCAGCAAAGGTTTCCTTTAAAGAGCCAGAGAGTAAAGGTTCCCAGCTCTGCGGGCCACACAGCCTCTCA
CAGCCGCTCAGCTCTGTGCTGTGTGAAAGCACCACCAGCCAGTGTGTAAATGCATGGGCCAGGTTGTGCCAGTGAGGCCTCATTTACAGAAGCAGTCAGY
GGCGAGATTTGATCTGTGGGCTACAGTTTGCCGACCCATGCATGAGGCAGTAAAAGGCCAAGAGCCTGGTATAAATTCATAACGAGAAACCAAGGCTCTG
AATCAGCCCCGAAGTGTAAGCAGCAGCATAATGATCTGGAGCAGCATCTTGGCGTTATTAAATTCAACCCATTCCGATGGCTGCRTCAGCATCTATTGCT
CTGTTTATTGTTTTTCCTTAAGCAAGCAGTTCCATTTCTAGAAATTTATCTCAAGCACATAAATCTAGAGGGGGCACATCGGTGTTATTTATGACGGGAA
AACTGGGAACAGACACAGCCCTAGGCTGGAAGAGGCACAGAGTGATGTACAGCATGGGCCAGTGGTTAGGAGCAGACTCAGGAGCCAGGGGACACGGCTC
CAATTCTAGCTCTGTGAACACACTGGCCGTGTGCCACCCTCAGCAAGTTACTTAATCTCTCTCTCTTAGGAAAAAAAAAAAAAAAAAAAAGAAATCCTTG
CACATGCTGTAAAATTCAAAAGATGAGAGATGTTCCTTCTTTGTTCCCCAGCCGCCCAGGGCCCCTCCCTCAGGCAGCCTGGTTCAGGTTTCTTTGTAGC
CTTCCGGTTGGTGGGGGAGAGGGTAGCACCTGTGTGTGTGTGCCATTCACYCTCTTAACTGTGAGGGTCAGGAAAATCATCATGTTAGTTTACATTAAGC
ATGGACTTCTGACACACAGATTTGCACRCAGATATTTGGGGGAAATCACGAGTGGGTTTGATGAGCGTGTCCAATACTGTCTCTTCTCCAGTCTTTCCTG
TATATGAATCAGGATGCACGGGTGGGAACAAGTCCGGTCCTGTGGGGTTTTCCGGGAGAAGAAAGTACAGATCCACATTCCCAAACAGGCTGGGCCACAT
CCCCAAGCAGGCTGGGCTGCAGTGTGCACACCCTCATGTGTCATTTTGTATCTGCTAGTACAAATGTGCACACCCTCTGCAGCCTGGAATGGAAGCCCAC
CCTGCTCATCCTCCATGTCTGGGCTCCATCGGGGGCCAGGGGGAGTTGTCATTTCCAGCCCAGCCCCCTGTGACCAGCAGCCCTTAGGGAAAGGAACTTG
GTTTGTACACTGAGTCAGCCCAGGTTGTCGGTGACTGGGCAGGGTGCCTCCCAGTGCACTGTCTAAAATCCCTTCCCAGCTCCAGGCCTCGCCCTGGAAC
ACTCCSGGTGGGCCACCAGGGACTGACACACGCCAGGGTCATGGGTGGAGGGCAGCTTAGCTGCTTGGCTCTGGAAGAGGACTTGGAATGTTTGGCTTTG
TAATTTATTGAGGTTTTTTTTCCCTTCAGTAAACTTCCTTTTTGATTTCTAATGGAAAATGGAATACAGGGAAAGAGCCTCCTGAAAGTGTTAAACTTAT
CAGAGCCCTGTGAATGTAATGAGTCCAAAATGCCTTGAATTTAGAGATCCAGYGAGGGAAACTCCGTTCGCATTGTACAGTAGAGGGGATTGCAGAGGAT
GAGCATTGGAGGGGTTTGTTCCTTTTTCTGTTAGGCGCTCTTTCTTCTTTTGCTCCTTAAGGATTCTTGGTTTGCTCACCCGGTGTATACTCGGCAGAAG
CCCTGACTTCTGACAGGAGGAAAATGATTTTCTTTTCATTTTAAAGTGGGTGTACGGCCTTGATAGTTCACCTGAGATAGTTCACCGCATGCCCTTTGCA
TCTCAACCTTTGGACGCACAGCCACACACATGGGTGTCACGCACCCGGGCACCGTGAACGAGCAGATCCGGGAAAGCGTGGCTCGGGAGGAAGGTCTGAC
GAGGCCCGTTGCGGCTCCCGGAGTGAGGCTGCCCTGCGAGGGAACGGGCTTTGCTGCTTTCCTCCCTGAGGCGTTATCATGCGCGTTTTCTCATGTGATG
AATGAGCACTGGGTTTTGGGGGTGGAAGGCTTATTTTAAATTAGCAGATACAGACGTGAAGTAGACATGTAAACAAAGTGGATGATTTTGCATTTTCCTG
GTGTGAGATGCTGCAAATGAACCCCTCCCCCCCCGCATGGTTCTCTGTTGGCCTAAAACACTGAAAAGAGACCCCAGGATCTGAGAACCCTCCTGGGTAT
CAAAGGCCAGTTAACTGCTGCCTGAGAAGTCCAGACACAAACTTTCCGAGACAATTAATGGCCACTGGCTGGACTTAGCAGGTTTGGTATTCTGCTAGTT
TCTATTATCTGCTCTGATTTAAAATTCTATTTGCAAAGATGAAAATGGAGCCAGACTGTCCCAAACCCAGCCCTTCCTCTGTCAGTACTGCTGTGAACAG
ACCTGCGTGGCTGGTCCTGTGTTTGGGTAAAACATTAAATGACAACTTTAATTGAAAAACCCTGGGGAAGCTGACCCAGGGCGTCTTAAGAGAGGCGCCT
GCTGGCCGTCGTGTGGGTTTGCAGCAGGTTGGTTAAACGGGAAAACCTTTCGGTGATCTTTTGTTCAGGTGTCAACTTTCTGTTCTTTGGGCTTAATTCT
GCAGTTGGTCCTTTAGGGAAAAAGAAATGAATTTCTGGCAGGACCACCTCTCAGATGTGGAACCAACTACAGCGTTACCGTTTCCTGGCTGCGGCAGTCG
TGTTTGAGTGTGGTTCTGCTGGAGGTGTCCTCGCCGGCAGTGTTCCTGGAGGGCCTTGCTGCTTTCACAGCTCTCTGGCCTGCCCCTCCCTCCGGGTTTG
TGTTCTTGGGGTTGACCCACACTCTCCTGCATCCTCGACCTGTTCCCCTGCACAGTTTTTTTCTTCCTGGTGTACAGATGTGACCCGGTATCTCCCATCA
TAAAAAGCAGACACCCGGCAGGAGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTTCCCCGCTAGTGTGGTCTTTTCCCACCCCGCTCCTCCTG
TCTTCGTGCAGAGCTAGTGGCCATCTGGTGACCGTGACGCGAGGCCCCGTATGTCACGCGTGGTCACACCCAGCTCCTCCGGTGGCCTGTGCGCCTCACT
CCTCAGTCCCTCTGCAGCCTCAGGCCTCAGCCATGCAGTGCTGCTCTTTGGCCTCTTCTCTTGTCCAGCACCCTGGATGGTCGGCTCACATGGCGCTGCC
TCCCTCAGTTACTGGGAGGTGGCTGCACAGCCCTGTCTTCTAAGCCACAGACGCAGGTTTCCAACTGCCCACGGGTCATCTCTATGGGGCAACCCGCCAT
GTAGCCCCCACACCCTGCACATATTCTATAAGCAGACCGGACACTTACCTTCCCTGGGGCTGACCAGCTCTTTCTCTCTSTCACCCAGGCCTTCCTGACC
CCGTCAGGCCCTTTGAGGCCAGCCCCAGGTGCCCGTCACTGCTCCCCGGTCTAGAAATAGCACCTACAGCCCGTCTGACACAGGTCACAACTTAGGCCAA
AGGTCTTGTCAGACTGTGAAGCCAGAAAGTCACGTCCCTCTCTTGCGGTCTTCCTGCCACTTGTAGACACCTGTAGTTCGAGCAGCAGTGTTGGGGGATC
CCCCTGGCCCTGGAGGGTCCCTCACTCTCCTGACGCCTCCCTGGACTCTGCCAGACTAGCTGCCTGCGCCCCCTCCTGGGATCCCACAATACCAAACCCC
CTGGGCTGTCTTGGCATCACTGGCTGAATGACCTGGGCTTTCATCTCAGTCTCTCTTCAGATTTCAAACTCCTGAAGGAGCTGGGTTTTTCTTTTTTYKT
GTGTGTCCCAGAATTCTCCTGGCACCCAAACAAAACCGTCTGTATCCACACTGTATCCTGGGCCAGAAAGCTGGAGGCTGGCTGTGCCACCCTCCCCCCC
GCCTTTAGATGGGCATTGATGTAGTTAGGATGTCTGTCCCTCCAGATCTCATGTAGAAATCTGATCCCCTGTTGGAGGTGGGGTCTGGTGGGTGGTGTTT
AGGTCATGGGAGTAGATCCTTCATGAATGGCTTGGTGCCCTCCTGGAGGTAATTAGTATGTTCTCACAGAGTGCRCGTCGACCTCTCATTTTAAAGTATA
TGGCAGCTCCCACCCSCTACCCGCCTCATGCTCTTGCTCTTGCTCCTACTCCCACTATGTGGCGTACCTGCCCCTGCTTTGCTTTCCACTATGATTGGAA
GCTTCCTGAGGCCTTCCCAGAAGCAGATGCTGGCACCATGCTTCCCACACAGCCTGCAGAACCATGAGCCAATTAGACCTCTTTTCTCTCTGCATTTCTC
AGCCCCGGGTATGTCTTTATAGCAGTGCAAGAATGAACTAACAGAGCACCGGCCCCTCCACTTCCAGGTCCCACTTCACAGCTGTGCACCTAGGAGAGGA
GAGGCTTTCTGGGGAGGAGGAAGGGTGGCTCCTGGGCCTTGAAGATCCTAGAGCTTTGCCTGTCCTGTGTGTGAGATGGCTGGTCTTGGGGCGACCTGTC
TGCTGCTTCATAGGATGCRTTGTGTGTTCGTCTGTCACTGCGTGGCCACTGTGGCAGAGGCCAGGCAAGGCACATTTCAGTGATTTGTGATCCAGGCAGC
CATGGCTGTGTGGATGGCTGTGAATGCCTGCTGCTGATTAGGATAAAGGAAAAGCTGATTCTTTTAAAAATGGTTTTAGTACCTGTTCTTAAGGGCAGAA
TTTGGAAGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTACACAAATTGACTGTGTGCCCATGCTGATTTGAAAATATGAAAAAACTCATCATTTTCCC
ACCTGCCATCGCTGGGCGACACACACCGTGCTGAGCGCTTTCTCCTGGCTCCGCAACGAGGTGGTCCTGCGGAGCAACACTCCTCTTTCCGTCTCAGCCA
GCCCTGTGCTGGCCGCCTACCCTCATGAACAGGCGTCTTTGTGCTGGCAGGGGCTCTTGTTGCCCCCCAGATCTCCCTGTGCCCTGTGAGGTTGGCCTYT
GTGGACCGCCACCTGAGCCCCTGATCTCTCCCAGATGGTGGGAGAAGTGGGGSCTGTAACATCCTTTCTGCAGCTCCRTCACTGCCAAGCTCAGCCCCCC
RCTGGCCTCTCTGGCAGCATCCGCTCCTCCTGGGCTCTGTCGTCCTGTCGCTCCTGGATGTTCAGTGGCTCCCGCTAGGGTCAGTCCTGCAGTGCTTCCC
CCTCCTTTGCTGGTTTTCCTGAACCCTGCCCATGTCTACTTAAAAGGCCTGGATGAAACTCACTTTCCTACTCCGCCAAGGGCCCCTTACAGCCAGCGGC
CCGGCCTCTGCAGGCCCTCTTCAGAGGGAATTTCACGCGGGGCTTTTTCAGAGAGAACTCGGTGTTTCAGTTGGTGAACTGTGGTTCCTGGGTCCCAGCC
CCACCCCTGTGTCTGCGTGGSTGTCCCTGCTCAGGGCCTCCCCTAAGTGCCACCCATTGCTCTCTGTCCCCCTCCTGTGGCTCTTGTCACCCTCCTGACA
TTAATGAGAACACTCAGTAGTTCGTTTCCATTTGTGGCTCCCAGCCCTAGGACAGAAGCTTCTGGCAGGCAGRGCTGGGTTGTGGTTTGTGTACCTGTGG
CATCCTTGCACTCACAGGAGACACCTGCCACAGATCATGTGCTCACCAGCATTGCTGAAGGAACTCATGAAGTACASGCATCTGCCGGGTAGACATTGAA
CTATGAGCTGGGGAAACATTCATTCACGTTAAACAGAATGCACCAATGCCTTTTTCCCCCACAGCTGCCGGGCCGCAAGTACAGCCCTGGGTACAACACC
GAGGTGGGAGACAAGTGGATCTGGCTGAAGTGAACGGGCCGCCTTCTGCTCCAGCTGCATCACAGTGATGGCCAAGCTGCATCAGCCGCACTCTCCTGGA
CGCCRTATAGCTTTAAGATCGGGGGAGGGTAAATAATGCAAAAATTGCACAGTGGAAGAAGGGGTCTCACAAAAAGCAATCCATCCTGTAGTATAGGTAA
TGGAGTTGGGGGAAGCAGCTTCCATTCTGGATGTTTGGAACCCTTTAGCTTTGTTTTGGAATGGCCCACCATTCTCACTGGAAAACAGTGGTCTGCTGTG
AAAGGCCAGCTCTCGGCAGCCCCTGTGGTTTCAGCGCTGCYGCTCTGTGTCATTCAGGTTGTGCACATTGTTTTTCTTCTGACTTCCAGAAATAAAAGTG
TTTCCATGGGAATTTCCCCATCGTACGTCTATGTGCGTGCGGGCACRTCGAAACTGCACACGTGCACACACGCTGCTCTGGGCCCTGTTTGGTGTGGTGT
GGTTTAATTGAGGCTTACATTATGCTGAAGAGTTTTTCTAAAGGCCTACTGTATTTATTTTAGTAATGTGCTACATTAGAGTAGAAAAAATAAGAACGTG
AAGAAGAAATAGCAAAAGGAGAAAATTACCACAGATTTACAGAACAATATGTTTTAAGAGAGAYGTTGAGAAAGATTCACGTGGCCGTCCTCAGCGTCTC
AAACTCCTTTGAAGGGAGATTTGAGCTTAGGCTGTTGATGACATAAGATGCAAAAGCAAAATAATATACTCTCTTTATTACCCAGAAAATCAAGTTGCCA
GTCAAAACTGAGAAATGAGAAAGAAAATCAGATTTCTTTATTCATCTCTGTTGAAGCCTAGAAAACCAAAACAAGCTGGTTGTGGTTCAGCATCATGGTT
TAGGAATCAAGCTGTCAGTTGTGAGTCCTACTGAACTGTGGGTTTTCCACTGTAAAGCTCCACTGTGTCCATTAGGAATCAGGCTGCCAGTTGTGAGTCC
TACTGAACTGTGGGTTTTCCACTGTAAAGCTCCACTGTGTCCAATATGGTAGCTCCTAGCCACATGTGGGTATTGAAATTTAAATGAGCTAAAATGTAAT
AGAGTTTAAAATTGGGTTCCTTGGTTGCACTGGCCATAGTTCAGGCACTCCACAGCCGCCTGTGGGCAGTAGTTCCAGTGCTGGTGCAGAGGACGATGCT
CTGCTCCCCGCGGAAGCTCTACCAGGCCTCGCTGCTGCGGAGCATGCGAAGAAGATGCACACTCCTTCCCTCCTTGCGTCCGCCTGCCTTTTTCCCTCTC
CCCTTCCTTCCCTCCTTCTTTCCTCCTCCTTCCCTCCCTTCCTTTCTTCCTTCCATCTGTCCTTGTTTTCCTCCCTTCCCTTCCTCCCTGCCTCTTTCCT
TCCCTCCTTCTCTTCCTTCCTTCCGTCTGTCCTTGTTTTCCTCCCTGCCTCTTTCCTTCCCTCCTTCTCTTCCTTCCTTCCTTCCGTCTGTCCTTGTTTT
CCTCCCTTCCCTTCCTCCCTGCCTCCTTCCTTGTTTTAAGAATTTGAAAATAAAGTTTCCCAGGAGTTTTGAATTGGAGTCGAGATTTAAGTGGCTGAAG
TTTTGCATTTCACTAGGAAACCAACAGCTTTAATCATGAAATGAAAGCACAGCTGGGCATTGGGCCAGTCACAGAGTGTCTTTTGCTCTGAGCACTTCAC
AAACCCATTGTGGAGGGGAGGAAAGAAAAAGAAAGCCATCTTTAATTATCTTAGCTGTTCCTAATGTCTTTGGCTGCAAAGAGCTAGCTGTTTCCTTCAA
CCTTGGTGGTTGCACGGGTAGTGTCCTCAGCAGTGAGAGGGCAGGTCTGCCCTGTGGTCAGGATTGCCCTTGTGAGGGGCAGAGCTCTCCAACCATGCAG
GGCTCCGTGTCGGCATGGTGTGGACTCGGGTGCTCTGATCATCCCCTGTGTTTGCGTCTGACCCTGTGTGGTTGCATTCCCTTGATGGARTGGGAAGTAT
GTAATTTGTAGTGCTGAGGACATTCGTCTGTTTGATTTTCTGGTGTTTTCAATGACATGCATGTTCAGCAGAGAAAGATGAATAAACACTGTCCAATTCT
TCTCTCCACATAGAAGCCTCAAGAAGAGGTGAGGAGATGCCCCGATTTCCTTATTTCAGAGCAGTACATGCGTTCGTCTCACGAAAGCTCTTACAACTAA
AACAACAGCACCAACAAACCAGGATCAAAATAATCGTGCATTTTCCAGGATTCCATGTTGGACTTCTCAGTGCTTTGGAGATCAGGAAATAATCATGCTG
TTGCAGCAGTATGGTTTTGTGTCTGGATTTTATTCATACAGGCATGTGTTTACAGGCATGAGAATTCTGTATTGAAAAGAAAGTCCTTGTTTTTTTCTAA
CGTATCTTTCTGTTCCATCAACTGTTAAAACCAAATTGTTAAGAACATTGAGCTTCTTAGGAGAGATTACATGCAGCTACTTAGGACCACCTCAGCAAAA
TGGAGTTGCCTGGGTAGATAGCAGCAGCAGCTCACCAGCCCCACGCTGCCAGGCTGCTGGCTGCTGTCCACCAGGCAGCTGTGGAACCTCCATGTTCTGC
CTAGGTGTTGTGGCAAGAACAGCAGGGAAACAGGCGGCCGCCTCCAGGCCACAGGTGGACCCAGGGACCTTCAGTTACGCCGCTTCAATTGAATTCGTGG
TGGTTTCTCTGCTACAGCAGAAGTGGAAGAAGCTCTTGTCTTGTTTGGCATTTGTCCCATTTTTTGGCTAATAATTGGCTTTGAATTTCTCTGTGCCCTG
CTTACCAATTATAGCTTTCTGGATTGGCTGTTCTTAGCAGTGCAAATGTCAATGCAAAGAAGCAAGCAGGCGGCTACTTTCTGGGAAGAAGCATAGTCCG
TGCTCACACTGGATATAAATCTGCAAGATTTGGGGGTTTGGCAAAATAGGGGTGGAGGGAAAGCTGCCATGGCTGTCAGAAATTGGGGCTTTTTGAAGAA
AAGCTTGTGTAGGCATCAGCCACTGGCTGGCCAGAATTCCATGAATGGAAGCAGGTGCCCGAGTGATCTGGGGCTTTACATGTGGATATAAATAGAAGCC
GGGAGCCTGAGGCTTTGCTTTAGGAAAATCATGAGCCAGAAAACAGAGGAGGTGATTGTCAGTAGTCACCTCACGCCGCTAGTGTTTTCTAATACTCTCT
CGAATTGTCAAAGCAAAGGACCTTATAACAGCAACACGTGTGTGACTCGAAGCAGCGAGCTTCCCTTGGGAAAAGGAGCCTCTTCTCAGCAGAGGGTCCC
AGCCTTTCTGTCCTTCCCCATCGGAATGCCAGGCTCTGTGAGTTTGGATGTTGGACATTGCCACCTGAATTCCAGGAGGCCGGGGAGCTCCAGTGATGGA
CTTGTCCCCAAAAGAGTGGTGCTGTTCTCAGAGCCATAAATGTTCCACTGAAAGTGTCTGTCCCCTGGCTCACGCTGGCTGCGCTTGCTTGAAGGAGGCT
GATTTAAGGGTTCTAATAGGAAGACAAATGAAACTGTCAAATTTTATCTTTAAGCATGTGAGTAAGTTTGCTCATTCGCTTTTACTATTGATGTATAGTT
TTAAAATTCTTAATTTAAAAATTATTTTAATAGTAAATTTTTCACAAGTGAACACTTTTTATCTTTAAATTAAAATTCTGAAGCTCCCTAGTTAGTTAGA
TCCAATTGCTGGTTACATTTTGGGAAGCTCTCATTTTAGTGCTATGTAGTTTCATTGAATAAACATGTTTTTAATGAGACTATACCTGGTGATTATATTA
AAAATCCCAGCTTTTAATTTGTAAAAAGCTGTTTCCTCTGGCATGTTACGCGTGGTCATGTGGGTTTTCTTACAGTGAACGTTGATGGGGCCTCCTGCAT
CCCGGGCAGCATCTCAGCGCTGGACACGTGGCAGTGAGAGCAGAAATGCTAGCAGTGGCTGAGGGGCGAGGCCCAGGTGGAAGCCCCTGATGCAGGGTTG
TGCATGTGCAGAATCTGAAAGCTGTGAGACTTGGCGAGCCCGCAGTGGAGGGGGGTGTCTGAGCCGCAAGGAGGGTCTGGCCTGAGCTGCAGGGCACCCC
CCAGAGCCCACTGTAGGTGTTGGAGGGCTGAGGAGAGTGCAGAGGGCCTGGGAGGCGAGGGAAGGAGTGAGGCGGCCAGGCTGGGTCAGGTGCTCCACAC
GCGTCAGGGAGAGGAGGACCTGCAGTGACTGTCGACATGACTTTGGCAAGCTCTGTGTCCGCAGAGCTGGAGCTGAGCTGGCTGGGGCAGGAGTCACAGT
GTGGGAATTAAGGAAAAAACAAGCAGGTAGGGTAGAGAGCCGGACTACCATCAAAGCATGAGTTTTCTGCTGCCCGGCTCCGCCGTGACGCCACTCCTCC
CACCAGAACGAGCGCGTTTGTCTCCACACTCTCCCCTGCTTGTCATTGAGCTTTGTTCGGTTTAGGAAGCACGAACAGAAAGGTGGCTGTGACAGGCAGT
GGGCTGGAAAGTGCATTTCCACTGGTCTGCCCTCTCCTGGGACAAGGTGAGCTTGGTGCTTAGCACTGGGCCGTCCCGACTCCAGGAGCAACGCCAGTCC
TCCAAGCACGGGAGGCTTTTCCTCCTCTCAGTATTGCAGCAGGCAGCGCACAGCCCTTCTGTCCAAATCTGGGAACCTGAAAGACCTTCGGAATCTTGCT
GTTTTAGACGTTGTAAGAGGAGCGGGTAGGACCCCACGTGCTCAGGCCCCACGCTTTGGATCTACCCCCTCTGCAGCCAGAGGGACAAGCAGCTGCTGTG
CTGGTCATGGCCTCATCCCGTGTGTGACGATGGCCACTCACGTCTTCTCATTCAACAGAAGTTATCACCGTGCGTCAGACTTTTATTTGGATTTTGTGCG
TCTTGCATGTATGGTGGGGATGACCGGCCCCACCTCCAAGTGTAGGCGCTGGAGCCCCTGGGGACGCAGCGCTGCTTGTTCCTGACAGATGGGTTGCACC
CGTGGGAGGGGTCCAGATGTGCTAGCTCTTGGGAGTCAGTGATGGGTGTACCGGGAATGGCCTGGCGTGCATTTCCATTCAGAAACTCCCAGTCCCTGCC
TGGAACCTGGCTCCTTTTGCTGTTTTTTTCCCCCTTTCCTGTCCCTTTCCTGGGTGGCTGGTCCCTGCTGTCGCCCCTGCCTCCCTGGCTGCAGAGCTTT
CCTCTGGAGGACTCGACACAGAGCCTGCGCCGTCTCTGACTCCGGGCTCTGCTGCCCTGCCCCACTTTGGTCTCTCAGGTTGGAGTTGAGGTTGCATCTG
CTGAGAGCCGTGCCCACAGGTGAGGTAGTATCAGGGTCCTGAGCCAGAGTCCACTGTCCCCTGGCCGTGGGTTTGGAGCTGCCAGCCATCCTTCCCTGAG
AACCCAGCCTATGACTCGGCTCCCCTTGGGCCTGCCCTATCTTTCCTTCCTGCCCTGGTCTGTCCTGCGGCCCCCTCAGTCCTCATGGCCAAGTCAGCCA
ACAGCAACCCACACACAGAGGCCACTTCTGGATGGGTGTCTGGCAAGGTGTGGGTCTGAATTCAGCCTTTTGCCTCGCGTGCCAACCCCCGTGTCCTGGG
CTCTCCAAGAGCCACCTTAGGAAGATGGGGAGTGGGTCTGGACCACTGAGCAACTGGTCATTCTGCATCAGCTCCTGAAAGTCCCTTGTGGACCAGGTCC
CTGATGAGGACAAGCTCTTAGCTCAGAACAACACAGAATCCAGCGCTGACCATAGGACGGCTGTCTAATGGTCCTTCTCTAGAAACCTCTCTGTGCCATT
CTGAAAGTGGAAAATGCCGGCATTGGTCATGCGACCTTGCATAGCTGACTATTTTCATGGTCTCTCCACCCACTCTGGCCCCTTCATGTTTTGTGGAGAG
AATAGCAGACCTCGCCCCCCGCCCCAGTGTTAAGAGGTGACTTAGACACCCTCACCTTGAAGTTTTCACATATTTTCTATCCATAGTATTTGTATACTTC
ACACGAAGACTTATTAGTGGATAAATATAATAAACTCCTTCCTATTGAAATAAAATTTGAGAAGAACATGGTATGTGCCAGCCAAAGCCCAAATTCAAAT
GAACCCTTCTGTGAAGGGGAAGAATCAGTCTTGTTGAGAGAAAGTAATTTAGATGCAGAAGGAATCCCAGCTGCCTAGAAATCCCCGTTGCCAACAGCAG
GCGAAAGGAACCACCCATGGGAGGGAATGTCGCAGGGCAGCGGCAGGTCGGGCGGCAGTGCAGCAGCCGTGAGAACGCAGGACTCACACTTCCGGGCTGT
GTCGCCAACATTGGCAACCAGTCGTCACCTGCCAACAGCGCCACCCACTTGGGGGAGCATGGATGGTATTGGTCGGGCTCTATCCAGCTGTTTGTTAGCA
GTGAGTACAAAAAAATAAAAAAATGCTATTTTTTAGCTGGTCAGAAATGACTTGAAAGACCTCAGACTGTTGAGTTAACTTAAAACAGCCCCTCCTTTGC
ATCTAACAAAGTAATAAAATTGTGTGTGTTCATCCAATGGGTAAATATGCAGCCTCTGCTGTTTCAAGGAAAGTGAAAGGCTCAGCAGTATGTGTTATCT
TGCCCTCCTTAAGGCATGCTTTTCCTCTGAATGTCCTTGGCTCAGAAAGCTGGTTGTCAGGGAGCTTCACTGGGGTCTCTGAGGGGACTTCTCCAGAGGA
GCTGGTGAAGGAGCGCGTGAGGACACAGGAGAGCAGCATCTCTGGCTGGCACTCTGCCCAGCCGGGCAGGTTGAGCCCACTTTCACAACCCTGAGGCGGT
CACAGCCCGACCGTCAGGGGGAACCCACTCTCACGGTCCTGGGGTGGTCACTCAGCTGGCCTGGCAGGTGGCACCCAGTCTCACAGCCCTGAGGCAGTCA
CAGCCTGACCGTCAGGGGGAACCCACTCTCACAGTCCTGGGGTGGTCACTCAGCGGTCCCGGCAGGGGGAACCCACTTTCACAGCCCCGAGGCGGTCGGT
CACTCAGCCTAGCCCAGCCCAGCAGGTGGAACCCACTCCCCACTGTCACAGCCCTGAGGCGGCGGGGGCGTCCTCCACCTCGCTCTTCCTGGAGAGACGC
CAGTGTGTGGGTTTGGAAGCGGAGTCTATTTTAAGTTTGCAGTTCCTGAAGGAGCCTGTGTTGGCTGTGCTGTCTCCACATGGTCACAGCCTTGAAGCCT
CCAGCCTTTTAAGGACAAGCCTCTGCCTGGCTGCCTGTGGTTGGGGCAAGCCGCTACTTACGTTCGCGGTGCCTGTTGCGTTTTCCCACCTAAGAGGGCA
CAGGAGGTGGTGGAAGGGGAGTGGAACTAAGGTGGGGGACTTGAGAGCAAACTGTGAGTGTCCAGAGCTGTAGGAGGTTCGGAGAAGACACCGAGTGCTC
CTCCTGCAGGGTGAGAAACCCTCCTGTTTCTGATTGCCTCATGCACCACCATGCTCAGGTCACCCGGCAGGCACCCCTCCCTGGGGCTGAGCCCAGATCA
ACGCGGAGCAGTTTCCTAGGGCTGCGGTAAGCAGCTGCCTTGCACTTTGCGGCTAAAGCAGCACAGATCTATTATCCTAAGTTCTGGAGGCCAGGAGGCC
TCCAATCAAGGTGTCAGCAGGGCTGGTCCCTCCTGCAGGCTCCTGGCCTTCCCAGCTTTCCTGGTTTCCTGGCCTTCCCAGCTTCTAGAGGCTGCCTGCG
TATATGGTCTTGTGACCCCTCCTCTAGTCACCTCTCCTCTCTGCTGGCCCCTGCTGCCTCCCTTGTGCAAGAACCCCTGTGATGACATTGGGCCACTCAG
TCCAGGAAACCCCCCATCAAGATCTTCAACCCCATTTGCTCAGCCCCTTTGCCACCCGAGGTCCCATGTCCCAGGAGCTGGGGATCAGGATGCGGCTGTC
CTTGGGGCCCTGTTCTGTGCACCACAGTCCCCACCTTGGGCCGACAAGAAGGCCCTGTGGAGACTGGCAGCCACAGGCCCTGCTCTGGGTGGCCCTTCAG
CTTCTTCTTACCTCCCACGTGGCTGGAGAGGAGGGTCTCACCCACCACAGAGATG


SNP Information

Context             (SEQ ID NO:62638):
ACCTGTGTGTGTGTGCCATTCACCCTCTTAACTGTGAGGGTCAGGAAAATCATCATGTTAGTTTACATTAAGCATGGACTTCTGACACACAGATTTGCAC
R
CAGATATTTGGGGGAAATCACGAGTGGGTTTGATGAGCGTGTCCAATACTGTCTCTTCTCCAGTCTTTCCTGTATATGAATCAGGATGCACGGGTGGGAA
Celera SNP ID:            hCV215638
SNP Position Genomic:     64728
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62639):
GGAAGGGTGGCTCCTGGGCCTTGAAGATCCTAGAGCTTTGCCTGTCCTGTGTGTGAGATGGCTGGTCTTGGGGCGACCTGTCTGCTGCTTCATAGGATGC
R
TTGTGTGTTCGTCTGTCACTGCGTGGCCACTGTGGCAGAGGCCAGGCAAGGCACATTTCAGTGATTTGTGATCCAGGCAGCCATGGCTGTGTGGATGGCT
Celera SNP ID:            hCV11527627
SNP Position Genomic:     69219
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62640):
TACACTGAGTCAGCCCAGGTTGTCGGTGACTGGGCAGGGTGCCTCCCAGTGCACTGTCTAAAATCCCTTCCCAGCTCCAGGCCTCGCCCTGGAACACTCC
S
GGTGGGCCACCAGGGACTGACACACGCCAGGGTCATGGGTGGAGGGCAGCTTAGCTGCTTGGCTCTGGAAGAGGACTTGGAATGTTTGGCTTTGTAATTT
Celera SNP ID:            hCV215639
SNP Position Genomic:     65206
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62641):
ACAATACCAGGTCACCCCGAGCACCTTCTGTGTGCTGGGCACTATGCTGTTGCCACAAGAAGACACTATTATTCTTATTCCCATTTGCAAATGAGCAGTT
K
GACACAGTGGCTTTCTGAGGTCCTGCAGCTTCTGGGAGGGCAGGACTCACATTTGGGCAAGTGTGGCCGGGCGGCCATGCTGCTTCCCATTTCCCTGCTT
Celera SNP ID:            hCV27996182
SNP Position Genomic:     55815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62642):
GAGCAGACTCAGGAGCCAGGGGACACGGCTCCAATTCTAGCTCTGTGAACACACTGGCCGTGTGCCACCCTCAGCAAGTTACTTAATCTCTCTCTCTTAG
G
AAAAAAAAAAAAAAAAAAAAGAAATCCTTGCACATGCTGTAAAATTCAAAAGATGAGAGATGTTCCTTCTTTGTTCCCCAGCCGCCCAGGGCCCCTCCCT
Celera SNP ID:            hCV26482430
SNP Position Genomic:     64470
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|-,6)   total(G,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62643):
TTTCTTCAATATTAATATTAAATAATATTAAATATTTAATAATTGGGCCTAAGGTGGGTATTTCACATTTTTGTTTATTGAAAAAGCTGTTTTATAAAAC
R
AAACAAGAAAAAGCTGTTTTTAATCTTTTATGTTTGGAAAATTTGTGAAAATCCATGCTGGTTGTCAATTTGAATTGGAATTTTATGTGGGCAGTGTAAG
Celera SNP ID:            hCV11471927
SNP Position Genomic:     9380
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,26)   caucasian(A,1|G,35)   total(A,5|G,61)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62644):
GTGAGGTTTTAAATTTGAGCAGGAGACTTTAGCGGTATGTATTCATTTGTACATTTAACTTCAGCTTGGAAAAGTTTACACTGAATTTCATCTTGTTTTT
Y
CTTACAGTGAAAAATGTGAGGTTTTACAATATTCTGCAAGGGAAGCTCAAGATTCAAAAAAGGTAAGAAAATGGTTGAAAAGTTGAAAGTTATTCCTACA
Celera SNP ID:            hCV25937914
SNP Position Genomic:     24007
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,36)   total(C,1|T,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:62645):
ATTGGCTCCATCCCTGGCGGTGAGATTCGGGCGGGCTGTGTGTTTTGGCTAGTCCCCACTGCTCCCTGCGGGGAGTGAGTGATGTGCATCAGACTGCATC
Y
GACTGTTTCTCTTTTCAGGCTTCAAGCACTTTCCTGAAGCGGGGATTCATTATCCAGACAGTACCACAGGAGATGGGAAGCCCCTCGCCACCGACTATAA
Celera SNP ID:            hCV25936829
SNP Position Genomic:     9954
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,36)   total(C,68|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:62646):
TGGCTGGTGCTGGCCACCCGGGAATCTCATCCTGCTTGGGTCTGTCCTCCACCACCCACCCCCTGCTGCTTCTCATCACTGCAACGCCCAGTTCCTGGTA
R
AGGCCTCATATCCAGCGTGCACTCAGGAGATGTATCTGGAGTGAGTGACTTTGATTTCTTTTAGGGCTATAAATTCTACAAAATTCAGAGATGATTTTGT
Celera SNP ID:            hCV29135920
SNP Position Genomic:     27605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62647):
GGGGCAAAGGCAGAGGGCCAAGGCGGTCAGGGAGGGTCCTGGTGGTGCAGGTGAGAGTGCTGGTGCTATGGGCGGGGGCGCTGAGAGTAGGCACTGTCTC
T
TTTCCCGAGAGCCCCCACTTAACAGGGGCATTGTTGCCCCTCCTTGCCCAGCCAAGTTGCTTCTTGCTTTTTAGGTTTTCAAAATTAAGCAGACTATTGC
Celera SNP ID:            hCV26482360
SNP Position Genomic:     51754
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62648):
TGGGAGACAAGTGGATCTGGCTGAAGTGAACGGGCCGCCTTCTGCTCCAGCTGCATCACAGTGATGGCCAAGCTGCATCAGCCGCACTCTCCTGGACGCC
R
TATAGCTTTAAGATCGGGGGAGGGTAAATAATGCAAAAATTGCACAGTGGAAGAAGGGGTCTCACAAAAAGCAATCCATCCTGTAGTATAGGTAATGGAG
Celera SNP ID:            hCV25937487
SNP Position Genomic:     70605
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,31|G,1)   total(A,65|G,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:62649):
GTCAGTTAGATTCCCACTGGTCTTAACAAACATCACTGTTTTATCACCTGAAAGCAGTGCCAGTCAAACCCATCATCACACTCCCCTGGCCATGAGGTTT
Y
GAGTTTCTTTCAAGTAATTCGGTTTCTACGATCTGAAAATTACAGATGTCACAGAATCTTGGGTCATCCACTCTACCATTTTTATTAAAGAGATGGAAAA
Celera SNP ID:            hCV29135921
SNP Position Genomic:     24243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62650):
GGGGGCAAAGGCAGAGGGCCAAGGCGGTCAGGGAGGGTCCTGGTGGTGCAGGTGAGAGTGCTGGTGCTATGGGCGGGGGCGCTGAGAGTAGGCACTGTCT
C
TTTTCCCGAGAGCCCCCACTTAACAGGGGCATTGTTGCCCCTCCTTGCCCAGCCAAGTTGCTTCTTGCTTTTTAGGTTTTCAAAATTAAGCAGACTATTG
Celera SNP ID:            hCV26482361
SNP Position Genomic:     51753
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,5)   total(C,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62651):
TCTGTGTCTCCTGTCTTTGAGCAGTTCCTCCTGTGTTAGCCCTTCTCTCTGTCACGTGCTGATACATGGTGATGCTTCACTGTTTTTGTATTTGTTGCTT
R
TGAATGCATAAAGAGCATTGCAGCCTTTTCCAAAATATTTGTATTGTGGGATTTTAAGAGGTACAATGAGCTAACTCTCATAGGAATGTGTATTTTCTGG
Celera SNP ID:            hCV29135922
SNP Position Genomic:     21797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62652):
GTTTTTAACTCCTGTTTTAGGAACAGATACAGTCTCTGTTCATTGTTAAAGTAGATCTTATCTGACAGCTCAAGCCGTATGGATTGATGGGAGCCACTTG
W
TGTAGGGGTCATTTGTCACACATTGAAGAATGAGTACCAGATGTACTCTATGCAGTATGCATTATTTTAAGTGCTGAATTGTAGACCAAGATCAAACTGC
Celera SNP ID:            hCV29135923
SNP Position Genomic:     21207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62653):
ACAGCCGCTCAGCTCTGTGCTGTGTGAAAGCACCACCAGCCAGTGTGTAAATGCATGGGCCAGGTTGTGCCAGTGAGGCCTCATTTACAGAAGCAGTCAG
Y
GGCGAGATTTGATCTGTGGGCTACAGTTTGCCGACCCATGCATGAGGCAGTAAAAGGCCAAGAGCCTGGTATAAATTCATAACGAGAAACCAAGGCTCTG
Celera SNP ID:            hCV11529808
SNP Position Genomic:     64000
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62654):
TGACGGCATTTTCATCTGTAGACTGGGGTGGCTGGAGCCAGTGGAAAGCTGGAATCTGGGAGCTCAGAGGAAGTACTGTTGATTAATGAAAGAGGAGGCC
R
AAGCAAGCCAGGTGACCATTCTGTGGAGGAGGCGCCTGCTTCTGGCTGCTTGTGTGTCCTGGTGTTGCCGGTACTCCACCTGTGAGCTTGCCGCCCGCAA
Celera SNP ID:            hCV29135924
SNP Position Genomic:     13559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62655):
CAAGTTTTTGGCAATTATGAATAAAGCTGCTGTAATCGTGTACATGCAGATTTCTTTTTGGAAATACATTTTTATATCATTTGGGTAATACCTGGAAGAG
Y
GATTACTCATGTAGTAAGACTAGTTTTCTAAGAAGCTGCCAAGCCATCTTCCAGAGTGACTGTGCCATTTGACTCCCACCAGAAGTGAAGGCTCTCCTTG
Celera SNP ID:            hCV29135925
SNP Position Genomic:     7273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62656):
TATAAGGTTCTATGGATTTTTTCTTTGTGCTATAAGGTTCTATAGGTTTTGACACGTGTGTAATAGCATGTCTCCACCATTATAGGTTCGTACAGAGTAG
M
TTCACTGCCTTAAAAAATTCCCCTCTGCTTTACCTATTAAACCCTTCTTTTTCTCCAACCCCTGACAACCACAGATCTCATTAACATTTCCATAGTTGCC
Celera SNP ID:            hCV29135926
SNP Position Genomic:     6876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62657):
GGGTTGTGGTTTGTGTACCTGTGGCATCCTTGCACTCACAGGAGACACCTGCCACAGATCATGTGCTCACCAGCATTGCTGAAGGAACTCATGAAGTACA
S
GCATCTGCCGGGTAGACATTGAACTATGAGCTGGGGAAACATTCATTCACGTTAAACAGAATGCACCAATGCCTTTTTCCCCCACAGCTGCCGGGCCGCA
Celera SNP ID:            hCV27520339
SNP Position Genomic:     70377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62658):
AGTAGTGAGCTCTCATATCTCACATCCAGTTTCCATTTTATTAACTTCTTCTGTGAGTATGGTACACTTGTTATAATTAATGAATTAATAATACTTACTG
K
GTTTTTGTTTTTTGTTTTTTTTTTTTGGAAACCGATTGTCACTCTATCGCCCAGGCTGGAGTGCAATGGCATGATCTTGACTCACTGTAACCTCCACCTC
Celera SNP ID:            hCV2125194
SNP Position Genomic:     47090
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62659):
ACTAAAGCCCACACTTTGAATTATTCAGATTACCTTAGTTTTTCCCTAATGTCCTTTTTCTGTTCCAATACCCCGTCTAGAATATCACATGACATTGGGT
M
CTCATGTCTCCTTAGGTACCTCTTGGTTGTAACATTTTCTCAGACTTTGTTTTTAATAAGGAGTGCTGGTGAGGTATTTTGTAGACTCTCCCTCAGTTGA
Celera SNP ID:            hCV2125195
SNP Position Genomic:     47510
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62660):
CCTTAGGTACCTCTTGGTTGTAACATTTTCTCAGACTTTGTTTTTAATAAGGAGTGCTGGTGAGGTATTTTGTAGACTCTCCCTCAGTTGAGGGTTGCCC
R
ATGTTTCTCTAGCGATTAGATTGGACTGTGTGTTTTGGGGAGGAATCCACAGAGGTGAAGCATCAGGGGCACTTGCTGTCAGTGCAGCCTGGCACCATGG
Celera SNP ID:            hCV2125196
SNP Position Genomic:     47620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62661):
CTTAGGTACCTCTTGGTTGTAACATTTTCTCAGACTTTGTTTTTAATAAGGAGTGCTGGTGAGGTATTTTGTAGACTCTCCCTCAGTTGAGGGTTGCCCG
R
TGTTTCTCTAGCGATTAGATTGGACTGTGTGTTTTGGGGAGGAATCCACAGAGGTGAAGCATCAGGGGCACTTGCTGTCAGTGCAGCCTGGCACCATGGC
Celera SNP ID:            hCV2125197
SNP Position Genomic:     47621
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62662):
CCCGATGTTTCTCTAGCGATTAGATTGGACTGTGTGTTTTGGGGAGGAATCCACAGAGGTGAAGCATCAGGGGCACTTGCTGTCAGTGCAGCCTGGCACC
R
TGGCCCTGACCGTGGGCTCCTGGCTGAGGTCGTGCTTGCTGGGTCTCCACTGGAAGCTGCTCTTCCTCTTTCCAGAAAGCCCCATGCACACCACAGCCTT
Celera SNP ID:            hCV2125198
SNP Position Genomic:     47717
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62663):
CTGACTGTTTAGAGGATTTTGTTTAAGGAAATTCGGTTGCTTGATATTAAAAAATGATCAGTTGAAATTAAATAGTAATAAATAATAATGACCATTTCTG
K
AAATTCATAGAATTCCTTTTGTCCATCAGAGACATCAGCAGCAGTTCTCATTGCATTTCCTTCTGGAAACAGCATTGTGGGGATACCTGGAGGTGAATGA
Celera SNP ID:            hCV2125199
SNP Position Genomic:     47945
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;(T,-|G,-)   (T,-|G,-)   Caucasian(G,24|T,56)   African-American(G,12|T,58)   total(G,36|T,114)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62664):
CAACCATGCAGGGCTCCGTGTCGGCATGGTGTGGACTCGGGTGCTCTGATCATCCCCTGTGTTTGCGTCTGACCCTGTGTGGTTGCATTCCCTTGATGGA
R
TGGGAAGTATGTAATTTGTAGTGCTGAGGACATTCGTCTGTTTGATTTTCTGGTGTTTTCAATGACATGCATGTTCAGCAGAGAAAGATGAATAAACACT
Celera SNP ID:            hCV28012810
SNP Position Genomic:     72490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:62665):
TAATCTAAAAGTAGCTTACTGAAATGATTGGCTCTCTAGAAAGTCTTTTGAAAGGAATCTAGCAAATCTTCCATTAGAAAGTAAAACAAACAACAAAACC
Y
GCTTTCCTTGTCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGTCAGAGTTTTGCTCTTGTTGCCCAGACTGGAGTGCAGTGGCGCAATCTCAGCTCACTGC
Celera SNP ID:            hCV11739739
SNP Position Genomic:     28981
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62666):
CATTGAATTGTTTCCTCTGCTACATCTCTTTGAATCTGGATCAGTTCCTCAGGCTTTTCTTGGCATTCAAGACCTTGACATTTTTGAAGACTACAGAACA
S
TTACCTTGCTGAATATCCCTCAATGTGGTTTTGAGGGATATTTGGCATATGGTTCCCATTTGTCCCATCACTGCTTTTGTTACCTTTATTGCTTGTTAAG
Celera SNP ID:            hCV2124973
SNP Position Genomic:     44379
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62667):
CAATATCAATTGTGTTTATTTTCATTTGAGTACCATTTCTCAATTGAGGGACTCAAGTGATAATTATGACCAATTTTCTAACATAATTATTGTAAACATG
Y
CGCTTACCAGTGACATTCATTTTATCCATAACCTGACCAAATTATTGGTTTAGAACATTTCTGCACCATCTCAGTTACGTGTTGCCAGTGTCTAATTATG
Celera SNP ID:            hCV2124974
SNP Position Genomic:     38441
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62668):
TGTGCCCTGGGCCATCTTGCCTTCCCTCCTGCCGTCTGTTCAGGCTTGAATCCTGGTGGAACCTTTGACTCCTCTGTCAACCATAATCCTAGCTTGAACC
Y
TCCTTTTTCCCTGCTGACCCCCTTATCCTCCCCAAAGTCACACCCTGCAGGTCAGTGTGCCACTTTCAGTGACTTCTCTCCCTTGTCTCTAACACTGCTG
Celera SNP ID:            hCV2124975
SNP Position Genomic:     37526
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62669):
GTGGGGCATCTCACCTCTCGGGCTGCAGGAGCTAGAGCTGCTGCTCTCTGCATCCTCTGTGTGGTCCTGTGCCCTGGGCCATCTTGCCTTCCCTCCTGCC
R
TCTGTTCAGGCTTGAATCCTGGTGGAACCTTTGACTCCTCTGTCAACCATAATCCTAGCTTGAACCCTCCTTTTTCCCTGCTGACCCCCTTATCCTCCCC
Celera SNP ID:            hCV2124976
SNP Position Genomic:     37459
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62670):
GTTCCACAGCACTTCTGTGGGGCGGGACTCCCTCATTTTACAAGGAGGAGACCATGACTCGAGAGCTCGAGCCTGCCAAGGTTGTGTGACTGTGTGGGGC
R
TCTCACCTCTCGGGCTGCAGGAGCTAGAGCTGCTGCTCTCTGCATCCTCTGTGTGGTCCTGTGCCCTGGGCCATCTTGCCTTCCCTCCTGCCGTCTGTTC
Celera SNP ID:            hCV2124977
SNP Position Genomic:     37366
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62671):
GATCATCAGGCATTAGATTCTCATAAGGAGTGTGCAAACTAGATCCCTTGTATGCACAGTTCACAATAGGGTTTGTGCTCCTGTGAGAATCTCATGCTGC
S
CTGGTCTGACAGCAGGTGGAGCTCAGGCAGTAATGCGAGCAGGGGAATCGGCTATAAATACAGATGAAGCTTCACTGGCTTGCTTGCTCACCTCCTGCTG
Celera SNP ID:            hCV2124978
SNP Position Genomic:     37011
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,5)   total(G,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62672):
CAGTTTCCATTTTATTAACTTCTTCTGTGAGTATGGTACACTTGTTATAATTAATGAATTAATAATACTTACTGGGTTTTTGTTTTTTGTTTTTTTTTTT
T
GGAAACCGATTGTCACTCTATCGCCCAGGCTGGAGTGCAATGGCATGATCTTGACTCACTGTAACCTCCACCTCCCGGGTTTAAGCGATTCTTGTGCCTC
Celera SNP ID:            hCV26482378
SNP Position Genomic:     47116
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62673):
ATAAAGAGCTTAATGGAACAAAACAAGAGTCCAGAAACATGTATGCACCTGTGTGTAAGTATCTTCAGTTTGGCAAAGTTAGTTCCTTAAAGGATAATTA
Y
AAAAATGAAGTAGAGGAAAATTGTTTCCTAAATGGTACTGAGGCAACTGAGCATCCATTTGTTAAAAAACAAGTTTTTTATTTTGTATTTTATATATTAA
Celera SNP ID:            hCV9093703
SNP Position Genomic:     24687
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62674):
ACCATGTCATTGTGCGGTGATGACCATTCATAGTCTTGAGTTGGTCACTGCAGGTGTTTTTCATATAAAGTAGAGGGAGAAAGAAACAACCTGCCACAGA
R
TTCCTGGAGTCCCCGCTTCTGTGGTGAGTTCGGAGACCCAAGTTCACTTTGGTAGCTTCCTTGGTTCCCACAGCCTCCTCCCCTCTGCCAGCAGCTCAGC
Celera SNP ID:            hCV11739744
SNP Position Genomic:     32232
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62675):
GTCATCCACTCTACCATTTTTATTAAAGAGATGGAAAATTGAAAGTTGGATTAGTTAATGGGAAAGATTTACATGTAAAGATAACAGTTTTCCTTAAATT
M
GTGTGTTTTGTGAAAGTCTAGTAAATCTTGGTGTAGTTTTCAGGGAACTTTATGAATAACAGCCAGACAAACATTAAAACATCTGAAGAAGAATAACGAA
Celera SNP ID:            hCV9093704
SNP Position Genomic:     24406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62676):
ACTAGTCATTCTACTTAGTTTGTTAATTCCTGCCCCCCTGTTAAAATAGTATTTGCAAAATCAGTTTTCTAGTTAGTGGAATGGATACTGAAGGGTGAGC
R
AGGTAGGCACACTGTGGGGTCCTCATGTCAGACTGAGGAGACGGGAAGGGTCAGGTCAGCCCTTAGCTGGCTGTGTGACTTGGGACAAGTCACTTTATCT
Celera SNP ID:            hCV3238774
SNP Position Genomic:     28654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62677):
ACTGAAATGTCTTGTGTGAAGCCTTCTGTAACTCCTTGCACACACCCCTGAGAGAGTGCAGGCCTTCCCCAGGAGTAGGAGGAGATGGAGGGTTTTTATT
W
CTAACAAAAGGCCCCACCCTGGTGAGAGTGGCTTCCTTTTATCTGGCCACCCGACAGACAGCTTGTGCTAGCAGCAATTTCCATCAGATGCTGAGCGGAA
Celera SNP ID:            hCV2125200
SNP Position Genomic:     48390
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62678):
CTAATAGTTACTAATGCCTACAGGAACCAGAGTGGTCACAATGTGCTGCTGTGTGATTTTGTGTTTTTCAGAGAGGAATTCATAGCAGTGTGCAGTGCAA
R
CTGCGCTATGGAATGTGGCATTTCCTACTTGGGGATAAAGCAAGCAAAAGACTGACAGAACGCAGCAGAGTGATAACTGTAGATGGCAATATATGTACTG
Celera SNP ID:            hCV3238775
SNP Position Genomic:     9074
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,24)   caucasian(A,12|G,24)   total(A,18|G,48)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62679):
CTGAAATGTCTTGTGTGAAGCCTTCTGTAACTCCTTGCACACACCCCTGAGAGAGTGCAGGCCTTCCCCAGGAGTAGGAGGAGATGGAGGGTTTTTATTT
M
TAACAAAAGGCCCCACCCTGGTGAGAGTGGCTTCCTTTTATCTGGCCACCCGACAGACAGCTTGTGCTAGCAGCAATTTCCATCAGATGCTGAGCGGAAA
Celera SNP ID:            hCV2125201
SNP Position Genomic:     48391
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62680):
GGAGGTGGGAAGACCTTCTCATCGGTCTTCAGGTACACGTGTCAGGTCACTGGTTTGCTGCAGGGGAGCAAACAGCATTTGAGGACATTCCACAGAACGT
R
TGACTATTAGAGCAGAAGGTAGTTGGCAGCCGGTTATTTCCTGGAGCAAGTGGAGGCCATGGATGCCTTTTCATGGCAGTGGTTCTTAGAAGCCCATTAC
Celera SNP ID:            hCV2125202
SNP Position Genomic:     49304
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62681):
TGACGGTGGTATTCAAGTCATCGGTATCCTTACTGATTTTCTCTCTGCTGGGTCCATCGGTTACTCAGAGTTGGGGTCATCGGTATCTTTACTGATTTTC
Y
CTCTGCTGGATCTGTTGGTTACTCAGAGTTGGGGTCATCGGTCTCCTTACGGATTTTCTCTCTGCTGGATCTGTCGGTTACTGAGAGTTGGGTTTAAATT
Celera SNP ID:            hCV2124981
SNP Position Genomic:     35259
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62682):
TAATGTGCTACATTAGAGTAGAAAAAATAAGAACGTGAAGAAGAAATAGCAAAAGGAGAAAATTACCACAGATTTACAGAACAATATGTTTTAAGAGAGA
Y
GTTGAGAAAGATTCACGTGGCCGTCCTCAGCGTCTCAAACTCCTTTGAAGGGAGATTTGAGCTTAGGCTGTTGATGACATAAGATGCAAAAGCAAAATAA
Celera SNP ID:            hCV204082
SNP Position Genomic:     71164
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:62683):
TGTGAGATGGGTCTAGATTTGAATTTTTCTTTATGCCAGTGCTATTTGCATCTTGTTGGTAGGATCTTATTCCTTGTTGGTAATTCCCCCATTGCTTCTC
T
CTGTAGACATTTTAAACCTAGTTATTTTATGCTCTGTCTCTGGAGCGCTGCTCTGGACGCTGTCTGATCTTGTTCGTTGTTTCTTCTTTTTCTCACCCAT
Celera SNP ID:            hCV2125203
SNP Position Genomic:     49922
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62684):
TGTTCTCCATAACTCCCATCGTACCCTGGTAGGGCTGAGTTTGCTGCCCAGCCTCATTAGCATGGGGCACTTTTTAGAAGCTGAGTTTCCAGAAGCCAAC
M
AAGGGCCAGCCTCGCAAGGAGGCCCTGCCACAGACAGCAGCATAGGCCTGCTCTGTGTGTGGCGAAGGAAAGGCTTTCTGAGAGCGCAAGAGCTGTGCTT
Celera SNP ID:            hCV2124982
SNP Position Genomic:     32821
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,7)      total(A,1|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62685):
GTGTCATTCAGGTTGTGCACATTGTTTTTCTTCTGACTTCCAGAAATAAAAGTGTTTCCATGGGAATTTCCCCATCGTACGTCTATGTGCGTGCGGGCAC
R
TCGAAACTGCACACGTGCACACACGCTGCTCTGGGCCCTGTTTGGTGTGGTGTGGTTTAATTGAGGCTTACATTATGCTGAAGAGTTTTTCTAAAGGCCT
Celera SNP ID:            hCV204083
SNP Position Genomic:     70947
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:62686):
TTTCTTCTTTTTCTCACCCATGGTGGCTTCTTTTCTTGACTGTGTTGGAGACTTTGGGTACAGAGCTTCTGCCCTGTGGGGCTCCATCCATGGGCATTTG
R
TGAGAGTGGGTCCCTCCTGAGTCAGGTTGCCAGATGAAGTACAGGATGCCAAGGTAAGCTTGAACTGAGAGCAGCTAGTATTTTAGTATAAGTATGTCCC
Celera SNP ID:            hCV2125204
SNP Position Genomic:     50102
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62687):
CCACGACTGGCAGTGCAGTAGGTTTGTCAATGCCACATCACCGCAGACACGGGAGTCATGCGCTGAGCCACGGCGCTGTGACAGCTGCTGTGATAGGAAG
Y
GTTCAGCTCCACTAGAATCTTGTAGGACCACATTGTATATGTGACCTGTTGTGGATGGAAACGCCATGCTGTGCATAACTGGAAACCGGCAGGAACCTGT
Celera SNP ID:            hCV2124985
SNP Position Genomic:     31395
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62688):
GAAACCCTGTTTTGGTGCTGGTTCTTTCTGTAGCCATTCTGTGGAGGACCTGTCTGAATTAGAAAGTCTACATTTTATATACTCAATAGGTATTTACCCA
R
TGAACAGTCCCCCAGAATGCAGAATTGATTAAATCCCCAACCCCGAAGGCACAGAAGGGAAACCTGGCTGATCAAAGAATTCTTGCCTTTTAATTTAATC
Celera SNP ID:            hCV11529751
SNP Position Genomic:     50855
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62689):
ACAGGGATATGTTCTAAGAAAGGTGTCGTTAGGCGATTTCATCATCGTGAAAACATCATAGTGTGTGTTTACACAAGCGTAGATGCTATAACCTGCACAC
Y
TAGGTGGTGTGGTGGAGCCTGTTGCTCCTAGGCCATAAACCTGTACAGCATGGTACAGTACTGAATACTGTTGGCAGTTGTAACACGACGGTAAGTATTT
Celera SNP ID:            hCV2124986
SNP Position Genomic:     30491
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62690):
CTGGTGGTGGCCTTTCCTCACCGGACGGTGGAGCCCTGGGCCTCTGCTGTGTTGCCTCTCCTGCAGAGTTGTGTGTGTGACTGGAGGAGAGGGGTGGAGC
S
AGTTCAGCCAGCACTGGGGTCTAACTATAAAGCACAATAGAGACAGGTAGTGGCAGCTGGGTGGGGTGGGCTGTGGGGTGGGGTTCTAAGATAGGAATTT
Celera SNP ID:            hCV2125207
SNP Position Genomic:     52018
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62691):
ATTTTTGTTCTTTAATACTAAGCTTTTTTTCTTTTACTTTTTAAGTAGTATTTTTCTGATCTTAGAAATAATTTACATTAATTATCCTCAATTCACGCTT
Y
ATGGAAATCTACAGTGAAGTTGAACGAACCCACCTCCTAAAGACAACCGTGTTGAAGATGCTATTCATATTTTTTTCTGTGCATGCCCCAGTGCAGTTGA
Celera SNP ID:            hCV2124987
SNP Position Genomic:     30149
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62692):
AGGAATCCCAGGCATACTTCCTCATGGATCTTTTCCTGACCCTTATGTTTAATTTAATTTACTGATGGATGGATGAGCCCAGAAAGGGTTACACAGGAGC
R
CACTTCTCAGGGAGTGGTGTGACGCTGGGGAGGCTCGCCCACCCTGTGTCTGAGCTAATTTCTGAAATCTGTTTGGAGCTTATATATTGAAACAAAGCCG
Celera SNP ID:            hCV2125208
SNP Position Genomic:     52261
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62693):
GGACAGGGATGCGTAGGTGATGGAGACCAAGAGGAGAAAATAAAAGTATATTTCTGAGAAGAAAATGATTGTTGTAATACCAGAGACTCACCATTTCATA
M
CCAGGTCAGAAGGATCCCTTGAGAGGGACTCAGCCACTCACCTGTCACTGTGCCCCTGGGCAAGGGGCCTAACCTCTCTGAGCCTCTGTCTCCTTGTTGT
Celera SNP ID:            hCV2124988
SNP Position Genomic:     29755
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62694):
ATCCCAGGCATACTTCCTCATGGATCTTTTCCTGACCCTTATGTTTAATTTAATTTACTGATGGATGGATGAGCCCAGAAAGGGTTACACAGGAGCACAC
Y
TCTCAGGGAGTGGTGTGACGCTGGGGAGGCTCGCCCACCCTGTGTCTGAGCTAATTTCTGAAATCTGTTTGGAGCTTATATATTGAAACAAAGCCGTTAT
Celera SNP ID:            hCV2125209
SNP Position Genomic:     52265
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;(T,-|C,-)   Caucasian(T,33|C,43)   African-American(C,14|T,54)   Asians(C,22|T,58)   total(C,79|T,145)
SNP Type:                 INTRON


Context             (SEQ ID NO:62695):
AACACTTCCCACCAGGCCCCACCTCTGACACTGTGAGTTACATCTCAGCATGAGATTTGGAGGGGACATCCACACTCTCATTTGATGAACATGCTGGTGA
Y
ATGGGTACACAGACGAGTAAAGAAAGACCTTTTCACAGCAGAGTGGATCTTAGATTTTCATATGAATAGAAGGGTTTATGATTTTTGGTTTTGTTGATCC
Celera SNP ID:            hCV29135944
SNP Position Genomic:     56880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62696):
GATCACTTCAAAAATTATCCTTATATTTGTGTTAACAGTAAGAAGATACGTACTTGTAGATTATTGACACATGCATGGAAGTGTTTAGATAGAATGCATA
W
GGAAAGCTAGCAGCAGTTTCCTCTGGAGAGGGAACTTGTAGTCTTACAATTAATGCAGTCTTACAAAATACAGCAACTTTATGCCCTTCACAAACTTTCT
Celera SNP ID:            hCV29135871
SNP Position Genomic:     39723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62697):
TCCTTGTCTTTCTGAGCCATTACTAGGAGATGGAAGTAAAGCACAAAGCACTGCTTTTGGCCTCTGAATAAATATTCTGCATCCTGGAGACAATGGCCAA
R
GGTTACAGTGCCTACTCCAGGTGGACAACACATTTCAACCTGAGGGCCGTGAGTTTGCTGATTGACAGGGCGACCGACCAGAAATTAGAGGGGTCCTCTG
Celera SNP ID:            hCV2124989
SNP Position Genomic:     29403
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62698):
TTAAAAGATTTTCCGGGACTACATGTAATGTTGCCAAATTAAGCATAGATGGCGCTGTTGCTCTCTATACTACACATGGTCCAGGCCACTGATTGCTTTC
Y
CATTTTCTAGCATTTTCTTAGGTTTTTCAAACTGTAAAGAGAACCATGTCACCTCCCTACATTGATATTTGTTAACATTTAAAATATGAACTTCATTTTT
Celera SNP ID:            hCV29135872
SNP Position Genomic:     39501
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62699):
GCTTCTTCTCTGGACCTTGGCATCCAGGGCCCTCCCTGCCCTGTTGCCTTTACAGCCTGATGTTGCCTTTGTAGAATTCTTTTCTACATTGTCCCCTGTT
T
GGTTGTTCAGGAGGGGACAGATGTGTTAGCCGTTTTAACAGTTACATGGTGAGCTCACCTAGCAGTTTTTCAATCACTGTGTTTTATGTGGTTTTGTCTG
Celera SNP ID:            hCV26482386
SNP Position Genomic:     46687
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62700):
TGCATTTTATAAACACTAAACTTCAATTTATATTTTTATTGGCTATTTATTTGCTCTTTGTGAATTTTCCCTTCATATTTATTAACTTTTTCGAAGAACC
W
GGTTTTTGTTTTGATGATTTATCCAGTTGTTTTCTGTTTTATTGATGTATACCCTAGTTTTATTATTTTTTCTCTGCTTTCTTTAGGCTTCACTTGTTCT
Celera SNP ID:            hCV281386
SNP Position Genomic:     34042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62701):
AGGCGGATTCAGAAGAAAGGAGATGTAATGCAGTTTTCAATCAAAGGCCAAGCATCTCTATTTTGAATGCAGATCAGCACTAAAAGCCCTGTTTTAATAG
Y
ATTTATACTAATTCCTACCAGTCCTCACGAGGAGGGTGACACACACCCTGTTCCCACTTGAGAGAGGGCATCTGCAGGGGTGGAGGGGAGACCCCATGGC
Celera SNP ID:            hCV25933296
SNP Position Genomic:     16723
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,26|T,12)   total(C,59|T,13)
SNP Type:                 INTRON


Context             (SEQ ID NO:62702):
TGCCCGGTGTGAGTTGTAAGAAAATGGTGGTCAGTGATTGTCTTCGCATTTTATATACGCACAGGTCAAAGAGAATGAACTCTAAATGTTTCCCAGTTTG
R
TTTTTCTGCTTCTGTTTAGCCACATGAAATGAAGATCACCTCTGCCTATCTACAGGACATTGAGAATGCCTATAAGAAAACCTTTCTCCCTGAGATGAGG
Celera SNP ID:            hCV25935259
SNP Position Genomic:     19669
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,39|G,1)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62703):
TAGCGGTATGTATTCATTTGTACATTTAACTTCAGCTTGGAAAAGTTTACACTGAATTTCATCTTGTTTTTTCTTACAGTGAAAAATGTGAGGTTTTACA
R
TATTCTGCAAGGGAAGCTCAAGATTCAAAAAAGGTAAGAAAATGGTTGAAAAGTTGAAAGTTATTCCTACATTTGATTCATGTGTAAGGTTCTTGCAAAT
Celera SNP ID:            hCV9093711
SNP Position Genomic:     24036
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,13)   caucasian(A,24|G,12)   total(A,45|G,25)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62704):
TTTGGCCATTCCCGTGTTCAACATATACTTATTTACTCAGCTCCAACACTGCTAGCTCCCAGTGTCAGTGTTAGCTGAGACACAGAGGTACACAAGACAG
R
GTAGGGAAGGCCTTTCTGAGAAAGAATCGTCACCTCTGAGATTTCAGAGACAAGAAGAGGAGCACTGAGTGACCAGCCTGACATGTAGCGAGTTTTGTAA
Celera SNP ID:            hCV9093712
SNP Position Genomic:     22099
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62705):
GTCTCTGTTCATTGTTAAAGTAGATCTTATCTGACAGCTCAAGCCGTATGGATTGATGGGAGCCACTTGATGTAGGGGTCATTTGTCACACATTGAAGAA
K
GAGTACCAGATGTACTCTATGCAGTATGCATTATTTTAAGTGCTGAATTGTAGACCAAGATCAAACTGCAGCTTTGTGATGGACTTGGATCTTAAAAGTT
Celera SNP ID:            hCV9093713
SNP Position Genomic:     21238
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,2)   total(G,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62706):
TACTCATCACCAAGGAGATGGCCCAAGCCATTCATGAGGGATCAGCCCGCATGATCCAAACACTTCCCACCAGGCCCCACCTCTGACACTGTGAGTTACA
K
CTCAGCATGAGATTTGGAGGGGACATCCACACTCTCATTTGATGAACATGCTGGTGACATGGGTACACAGACGAGTAAAGAAAGACCTTTTCACAGCAGA
Celera SNP ID:            hCV29135802
SNP Position Genomic:     56822
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62707):
GTGCTTGTGGAAAGAGGGAAAAGATGCAAGAGAGGAATGGGACCGTTGATGGAGCAGGGATCCCAGAGGCAGGGGGGCCTCTTGGCTCCTCAGAGATCCC
R
GTTCACCAAGCAGGGATCCCAGAGGCAGGGAGGCCTCTCAGCTCATCAGAGATCCCAGTTCACCAAGCAGGCGTGGCCAGGCCAGATCACTGTTTGTTTC
Celera SNP ID:            hCV2125210
SNP Position Genomic:     53254
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62708):
GGATTATTTCAGTTTCTTCATGTTCATAATACAGTAAAGAGCATGTAGTACCCCTTCTTGTTCAATTTCAGGTTACTTAAGGTATAAAAGTGGTCAGAGT
R
TATGAACGCATTTTACAGCTATTGAGTTTTTGCAAAATGATTCTCCGGAATATGTGTACCAGTATTCATACTTGGACCTGGTTCTCTGAATTTCCCTATA
Celera SNP ID:            hCV6777
SNP Position Genomic:     33770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62709):
TGGAAAATGGAATACAGGGAAAGAGCCTCCTGAAAGTGTTAAACTTATCAGAGCCCTGTGAATGTAATGAGTCCAAAATGCCTTGAATTTAGAGATCCAG
Y
GAGGGAAACTCCGTTCGCATTGTACAGTAGAGGGGATTGCAGAGGATGAGCATTGGAGGGGTTTGTTCCTTTTTCTGTTAGGCGCTCTTTCTTCTTTTGC
Celera SNP ID:            hCV29135808
SNP Position Genomic:     65453
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62710):
TTGGATGTAAATTAGGAAGTTGGTGCCTACAGATGGCAGCTCTGTTCTTGGCCCTGTGATGTTGGTGTTCTTAGGCCGTTGGTGCTTACCTTCTTTCTCT
R
CCTGATGGGATGTGAGTGATACAGTAGTCTCCTAGGATGACCAGAGGGACAGCTGGCTCACTGCACATGTCACTAAAAGTTCACTGATCAAAATGTAAAC
Celera SNP ID:            hCV2124991
SNP Position Genomic:     28079
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62711):
CCTGAGCCTGCCCTGTGCTGCTTCCTGCCTCTACCCAGGATGCTCTGTGCAGACTGCACCAACACTTTGCCTCTCGAGGGCCTGGAGGCACAAGGATGGC
M
GGGGCACTCAACTTCCCTCTCCTCAACGTTTGGATGTAAATTAGGAAGTTGGTGCCTACAGATGGCAGCTCTGTTCTTGGCCCTGTGATGTTGGTGTTCT
Celera SNP ID:            hCV2124992
SNP Position Genomic:     27949
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62712):
TTGGCCAGCCATGGTGGCTCACGTCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATCGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAAC
R
TGGTGAGACCCCATCTCTACTAAAAATACAAACATCAGCCAGGTGTGGTGGCATATGCCTGTAGTCCCAGCAACTCGGGAGGCTGAGGTGCTGAGGTGGG
Celera SNP ID:            hCV2124993
SNP Position Genomic:     25827
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,8)   caucasian(A,26|G,14)   total(A,54|G,22)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62713):
CTGTATGTTCTTGCCTTTATGAAATTCACCTTACAGAAAGGCACTAGGATCAGTTTACCTAAACATGCGGGAGACGGAAGGCCAGACGTGACTGCTTTAG
R
TTCCTCATGACATTCAGACCTTACTTGGAACTCAGTTTGGTATCTAGTTGTGTTAAAATACAAATTTTCAGTTTATAAGTTACTTAATTAAGTTTGAAAG
Celera SNP ID:            hCV2125214
SNP Position Genomic:     58055
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62714):
TTTGTTAAAAAACAAGTTTTTTATTTTGTATTTTATATATTAAGCATAAATTACTAAAAACAAAACGAGGTGTAACAATTCTAGAAGAAAATACAAGTTT
Y
AGGATCTGGTCTTGAAGTGTGAGTGGTGCCCGTGTAACAGAGAAGCTTTGCATAGTTGGCTGCTGGGGTGACAAGCGTGCTTCAGTTGCCTCTCAGCATT
Celera SNP ID:            hCV2124994
SNP Position Genomic:     24845
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62715):
AGTCCAGGAAAGGCCATTGATTTTCAGTTTTTTCTTATTGGAAGGATGGAAATTACAGCTTCCAGCCTTCACCCTTTGGAGCTGAAGCTGGAAGTTCCCT
S
TTTGTTTTTTAAAACTCTGTTAACATTTTGGACTAGATGCCTATATTTGTGTGTGTGTTTGTAAATTTACCTAAATGATATACTCTATTATTCAAAACTT
Celera SNP ID:            hCV26482463
SNP Position Genomic:     36507
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62716):
GCATGTGCGTCTGTACTCACTTGGCCTGAGGTTCATAACACTCTTTGAGCCTTTGGCTGGTGTTCATTGTCTGTAGCACTTTTTTTTTTTTTTTTTTTTT
T
GAGACAGAATCTCACTCTTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCATTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTGCTGCCTC
Celera SNP ID:            hCV26482390
SNP Position Genomic:     45438
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62717):
ACCTGTGTGGAGAGAAGCTCTGGTTACGAATTCCCAGTGGAGAATGGTTTCACCACTGGGTGCCAGCTGGGGTCTCCTTGCTGGCAGGAGGCCTTCTCCC
Y
GCACTGAGGTGTGGCCCTTCAGGAGTCACCTCACAGGGACACCAGGCCGTGTCTTGTGGCTCTCTGCAGCTCTTGGGCGTCCCGAGGGCACCGCGGCTTC
Celera SNP ID:            hCV8739027
SNP Position Genomic:     50476
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62718):
TAGGTGTTAGCAGCACCAACCCAATACTTAGAGGTATTTTTTCTTCCAAACAGCTCCTGAATCCCCTGGTCTGATACTTAATTTATTGAGTGCCATTATT
R
ATTTAACAGGCATTTTGCTTCCACTATGTGCAACACCGTTCCAGATTTAAGAGATATAGTGTCAGATAAAATTCTTGATGTCTTTGAAAATGTGTTTTAG
Celera SNP ID:            hCV8741595
SNP Position Genomic:     26368
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62719):
TGCATGTGCGTCTGTACTCACTTGGCCTGAGGTTCATAACACTCTTTGAGCCTTTGGCTGGTGTTCATTGTCTGTAGCACTTTTTTTTTTTTTTTTTTTT
T
TGAGACAGAATCTCACTCTTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCATTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTGCTGCCT
Celera SNP ID:            hCV26482391
SNP Position Genomic:     45437
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62720):
CCTTCTCCCCGCACTGAGGTGTGGCCCTTCAGGAGTCACCTCACAGGGACACCAGGCCGTGTCTTGTGGCTCTCTGCAGCTCTTGGGCGTCCCGAGGGCA
S
CGCGGCTTCAGCTCACCACTCTGGCTTTTCCACTCACTCTTCCTTCTTAGCCCTTTGTGATTTCTTGCGGAGCTCAGCTGTACATGTAGAAGCATTTCCA
Celera SNP ID:            hCV8739028
SNP Position Genomic:     50567
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62721):
TTACATCGATGTGCCCGTTCCAGAGGTCCAGAGGCGGATTCAGAAGAAAGGAGATGTAATGCAGTTTTCAATCAAAGGCCAAGCATCTCTATTTTGAATG
Y
AGATCAGCACTAAAAGCCCTGTTTTAATAGCATTTATACTAATTCCTACCAGTCCTCACGAGGAGGGTGACACACACCCTGTTCCCACTTGAGAGAGGGC
Celera SNP ID:            hCV2124999
SNP Position Genomic:     16692
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,26)   caucasian(C,12|T,26)   total(C,20|T,52)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;(C,-|T,-)   JBIC-allele(C,563|T,922)   total(C,563|T,922)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62722):
CAGCACTAAAAGCCCTGTTTTAATAGCATTTATACTAATTCCTACCAGTCCTCACGAGGAGGGTGACACACACCCTGTTCCCACTTGAGAGAGGGCATCT
K
CAGGGGTGGAGGGGAGACCCCATGGCTCGGCCTGGTGCCACAGCCTGCGGGCCTGCCGCCCACCAGTGCTCTGCGGTCCCACTGTGGTCCCCGAGTCCCC
Celera SNP ID:            hCV25933377
SNP Position Genomic:     16797
SNP Source:               Applera
Population(Allele,Count): african american(G,15|T,1)   caucasian(G,29|T,1)   total(G,44|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:62723):
CCCTGGGCTGTCTTGGCATCACTGGCTGAATGACCTGGGCTTTCATCTCAGTCTCTCTTCAGATTTCAAACTCCTGAAGGAGCTGGGTTTTTCTTTTTTT
K
TGTGTGTCCCAGAATTCTCCTGGCACCCAAACAAAACCGTCTGTATCCACACTGTATCCTGGGCCAGAAAGCTGGAGGCTGGCTGTGCCACCCTCCCCCC
Celera SNP ID:            hCV26333574
SNP Position Genomic:     68499
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62724):
TCCTATCTTTCTCCCGGAAGTCACCATTGGAGCTCATCAGACTGACCGTGTCTTACATCAGTTCAGAGAGGTAAGACTGTGGAAATGGAGAAAGCTGGCC
R
GTGGATGAGTCTGCAGCACCTGGGGACAATGCAGTCACTTCTCCAGAAAGGAGTTTTTGTTGTTGCTGTGTTTTGTTTGTTTTAGTGAAGGAGCCTCTTT
Celera SNP ID:            hCV25934824
SNP Position Genomic:     41307
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,36)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62725):
TGCCTTTAACGAAACTTACATGGACAGAGTGGTGGGGGATAGACAGATAATTAAACAAATTAATAGGCAATAAAGATGTAGATGTTGGCATTTTTATCAC
Y
AAGAGGTTTCTTGGTATTTTTACCTAATAGTTACTAATGCCTACAGGAACCAGAGTGGTCACAATGTGCTGCTGTGTGATTTTGTGTTTTTCAGAGAGGA
Celera SNP ID:            hCV25933952
SNP Position Genomic:     8950
SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(C,22|T,12)   total(C,48|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:62726):
CTTTGGTGGCAGAGTGTCACATATTTTTAAATGACCAGCTCTTTGGTGGCGGAGTGTCACGTATTTTTAAATGACCAGATCTTTGGTGGTAGAGTGTCAC
R
TATTTTTAAATGACCAGGTCTTGTGTGAACTCAGAGTAAGAGCCTACTCATCACCAAGGAGATGGCCCAAGCCATTCATGAGGGATCAGCCCGCATGATC
Celera SNP ID:            hCV27868804
SNP Position Genomic:     56677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62727):
ATGACCAGCTCTTTGGTGGCAGAGTGTCACATATTTTTAAATGACCAGATCTTTGGTGGCAGAGTGTCACATATTTTTAAATGACCAGATCTTTGGTGGC
R
GAGTGTCACATATTTTTAAATGACCAGCTCTTTGGTGGCGGAGTGTCACGTATTTTTAAATGACCAGATCTTTGGTGGTAGAGTGTCACATATTTTTAAA
Celera SNP ID:            hCV27868805
SNP Position Genomic:     56587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62728):
TCTCAAATGGAGTTTCTAGCTACAACATCAGCAAAATAATGGCTGGTTTCAGCCTGTGCACAGGGCAAGAGTTTCTTTTACTTTGCCGCCCTCATAGACT
S
GTTAAGCCTCAAGCATTTATTTCTTACCACTTGGTCTTGCTGTGTTTTTAACTCCTGTTTTAGGAACAGATACAGTCTCTGTTCATTGTTAAAGTAGATC
Celera SNP ID:            hCV27483727
SNP Position Genomic:     21063
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62729):
ATTTTTAAATGACCAGATCTTTGGTGGCGGAGTGTCACATATTTTTAAATGACCAGATCTTTGGTGGCGGAGTGTCTGTCACATATTTTTAAATGACCAG
M
TCTTTGGTGGCGGAGGAGTGTCACATGTTTTTAAATGACCAGCTCTTTGGTGGCGGAGGAGTGTCACATGTTTTTAAATGACCAGCTCTTTGGTGGCGGA
Celera SNP ID:            hCV27868806
SNP Position Genomic:     56329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62730):
AGGTCAAAGAGAATGAACTCTAAATGTTTCCCAGTTTGATTTTTCTGCTTCTGTTTAGCCACATGAAATGAAGATCACCTCTGCCTATCTACAGGACATT
R
AGAATGCCTATAAGAAAACCTTTCTCCCTGAGATGAGGTGAGCCAAACACACGACTGATTTACAGGGCTAAAACTTCTTCGCCACTCGTTTCTTAGGCCC
Celera SNP ID:            hCV9093720
SNP Position Genomic:     19731
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62731):
TATTCCTCAGCCTTAGCTGCTTTCAATTTCATGTTGTCACTAAATCTGACTCAGTAGATACTTCTGTGCAGCTGATTATACTACTGAAACGGGATAAATG
Y
AGCTTGATGATTTTCAGCTGAGTTATTTGAAAAATAAAGTATTTAAAGCTGTTCTTTATTCTTCAGAGAAGACCAGACTCTTGTATCTATTATTACTGTG
Celera SNP ID:            hCV2125000
SNP Position Genomic:     15898
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62732):
GACAGTGATGGCTGTGGTCTGTCACGCCCTTGGCTTGGGGGCAGTGTAGTCAGGAGAAGGGAAACGAGGAAATGGTCCTGCTGTTGTCACTGTCAAGCCA
K
CCATGAGAACATTCTGGCTTTTAACATGTCCTCCTGAACCAGTCAAGCTCTAATGCACCCTCACATGCCCAGCACAATGCCCAGTGCAGAGAATGTGAGG
Celera SNP ID:            hCV27483728
SNP Position Genomic:     23812
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,65|G,1422)   total(G,1422|T,65) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62733):
GAGCAAGAGAATGGGGCAGCAGAGTGTCACATATTTTTAAATGACCAGATCTTTGGTGGCAGAGTGTCACATATTTTTAAATGACCAGATCTTTGGTGGC
R
GAGTGTCACATATTTTTAAATGACCAGATCTTTGGTGGCGGAGTGTCTGTCACATATTTTTAAATGACCAGCTCTTTGGTGGCGGAGGAGTGTCACATGT
Celera SNP ID:            hCV27868807
SNP Position Genomic:     56257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62734):
GAGACCCAGAGCTCAAGGTAGGACTACTAAATGGATGATGTGGAGTGATGGTTAAGATGACATTTTCCTGGCTGGTGCTGTGGCTTTGGTTGGGAACAGC
R
AGAGATACAGAACCGACGGTCTGGGATCCAGGAGGGTGGCTGGCAATAGGGAGGAAGTGTGGACGCTTGATCCAGGAGGCACTTAGGATTAATCTGGCAG
Celera SNP ID:            hCV27868808
SNP Position Genomic:     55460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62735):
GACTGTAAGGAGTTTTAAATTTTAAAACTTGCTACTCATAATTAGATATTCAAGTTTCTGAAATTCGCATAGTGCATTTCAGATGATGAGAGAGGTGACA
R
CCGTAGAAAGTGGGAGAAGTGGTTGCGGGGAGATGGGTGAGCGATGGAGGTGGCGAGCAAGTTGGAGAGATGCAGGGAGAGTCAGGTGACAAGAAGAGAG
Celera SNP ID:            hCV9093721
SNP Position Genomic:     19199
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62736):
CTTTAGGAGAATTATTCCTCAGCCTTAGCTGCTTTCAATTTCATGTTGTCACTAAATCTGACTCAGTAGATACTTCTGTGCAGCTGATTATACTACTGAA
M
CGGGATAAATGCAGCTTGATGATTTTCAGCTGAGTTATTTGAAAAATAAAGTATTTAAAGCTGTTCTTTATTCTTCAGAGAAGACCAGACTCTTGTATCT
Celera SNP ID:            hCV2125001
SNP Position Genomic:     15886
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,4)      total(A,4|C,2) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62737):
TTCTTATTTTGAACAGCTTTAATGAGGTATAATTTATGCTCCATAAAATTCACCCATTTTAAGGGTACGACTGAATGATTTTGGGTAAATTTACCAAGTT
R
TTGCCACTCTTGCCATAATCCAGTTTTAGAATGTTTTCATCATTTTGTAGGTTGAAACCGCAGGCCTATTCATTTCTTTCTTCCTTCCTCTCTCTCCTGT
Celera SNP ID:            hCV9093722
SNP Position Genomic:     18800
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62738):
TGGGTGGCACGGGCCCTGCGGGTGCCCCCTGGATTATGCATTCTGTGTAGTGATCACTTTAGGAGAATTATTCCTCAGCCTTAGCTGCTTTCAATTTCAT
K
TTGTCACTAAATCTGACTCAGTAGATACTTCTGTGCAGCTGATTATACTACTGAAACGGGATAAATGCAGCTTGATGATTTTCAGCTGAGTTATTTGAAA
Celera SNP ID:            hCV2125002
SNP Position Genomic:     15830
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62739):
ATCCTTCATGAATGGCTTGGTGCCCTCCTGGAGGTAATTAGTATGTTCTCACAGAGTGCACGTCGACCTCTCATTTTAAAGTATATGGCAGCTCCCACCC
S
CTACCCGCCTCATGCTCTTGCTCTTGCTCCTACTCCCACTATGTGGCGTACCTGCCCCTGCTTTGCTTTCCACTATGATTGGAAGCTTCCTGAGGCCTTC
Celera SNP ID:            hCV11936006
SNP Position Genomic:     68816
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62740):
GGTCAGGTCACCAGCAAGTGTTTCTGGAGTGCCTGTGGTGTGGCAGGCTCTCTTAGGTGCTAGGGATATGAATATGAAGAAACTTAAGACAAGGCTCCCA
Y
GGGCCCGGGGTTGGGGGCTGTTGAACCAATGGGGATGGTTCATTGTAATAAAGTGTACTTAGCACTCCTGAGCATTACTCCTGGGTGCTTTGGGGGCACA
Celera SNP ID:            hCV2125003
SNP Position Genomic:     13820
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62741):
CCCTTTAGCTTTGTTTTGGAATGGCCCACCATTCTCACTGGAAAACAGTGGTCTGCTGTGAAAGGCCAGCTCTCGGCAGCCCCTGTGGTTTCAGCGCTGC
Y
GCTCTGTGTCATTCAGGTTGTGCACATTGTTTTTCTTCTGACTTCCAGAAATAAAAGTGTTTCCATGGGAATTTCCCCATCGTACGTCTATGTGCGTGCG
Celera SNP ID:            hCV11936007
SNP Position Genomic:     70841
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:62742):
TCCTGTGGCTCTTGTCACCCTCCTGACATTAATGAGAACACTCAGTAGTTCGTTTCCATTTGTGGCTCCCAGCCCTAGGACAGAAGCTTCTGGCAGGCAG
R
GCTGGGTTGTGGTTTGTGTACCTGTGGCATCCTTGCACTCACAGGAGACACCTGCCACAGATCATGTGCTCACCAGCATTGCTGAAGGAACTCATGAAGT
Celera SNP ID:            hCV27523562
SNP Position Genomic:     70273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62743):
CACAGGTAGCAGCAAATGGCACATCTGTGTGCGGAGAGAGGGAGATGGGTGGACTCTTAGGGCCTTCGTGTCTGTTTTATATTGCAGTGCTTGCTGCTTT
Y
GTTGATTGGCAGTGCCCCTGATGAGCTTCTCACGCACAAGCTCAGCCGCCACTAGGGTTGGCTTCATGGGGTCTGAGCCGTGAGAACAAGAATGTGGTTT
Celera SNP ID:            hCV2125007
SNP Position Genomic:     11096
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62744):
TCAGAGGGAATTTCACGCGGGGCTTTTTCAGAGAGAACTCGGTGTTTCAGTTGGTGAACTGTGGTTCCTGGGTCCCAGCCCCACCCCTGTGTCTGCGTGG
S
TGTCCCTGCTCAGGGCCTCCCCTAAGTGCCACCCATTGCTCTCTGTCCCCCTCCTGTGGCTCTTGTCACCCTCCTGACATTAATGAGAACACTCAGTAGT
Celera SNP ID:            hCV29072392
SNP Position Genomic:     70121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62745):
GTGGACCGCCACCTGAGCCCCTGATCTCTCCCAGATGGTGGGAGAAGTGGGGGCTGTAACATCCTTTCTGCAGCTCCGTCACTGCCAAGCTCAGCCCCCC
R
CTGGCCTCTCTGGCAGCATCCGCTCCTCCTGGGCTCTGTCGTCCTGTCGCTCCTGGATGTTCAGTGGCTCCCGCTAGGGTCAGTCCTGCAGTGCTTCCCC
Celera SNP ID:            hCV29072393
SNP Position Genomic:     69801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62746):
TGTGCCCTGTGAGGTTGGCCTCTGTGGACCGCCACCTGAGCCCCTGATCTCTCCCAGATGGTGGGAGAAGTGGGGGCTGTAACATCCTTTCTGCAGCTCC
R
TCACTGCCAAGCTCAGCCCCCCGCTGGCCTCTCTGGCAGCATCCGCTCCTCCTGGGCTCTGTCGTCCTGTCGCTCCTGGATGTTCAGTGGCTCCCGCTAG
Celera SNP ID:            hCV29072394
SNP Position Genomic:     69778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62747):
GCTCTTGTTGCCCCCCAGATCTCCCTGTGCCCTGTGAGGTTGGCCTCTGTGGACCGCCACCTGAGCCCCTGATCTCTCCCAGATGGTGGGAGAAGTGGGG
S
CTGTAACATCCTTTCTGCAGCTCCGTCACTGCCAAGCTCAGCCCCCCGCTGGCCTCTCTGGCAGCATCCGCTCCTCCTGGGCTCTGTCGTCCTGTCGCTC
Celera SNP ID:            hCV29072395
SNP Position Genomic:     69753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62748):
TGAAAGTTATTCCTACATTTGATTCATGTGTAAGGTTCTTGCAAATCAGATCGTCAGTTAGATTCCCACTGGTCTTAACAAACATCACTGTTTTATCACC
Y
GAAAGCAGTGCCAGTCAAACCCATCATCACACTCCCCTGGCCATGAGGTTTCGAGTTTCTTTCAAGTAATTCGGTTTCTACGATCTGAAAATTACAGATG
Celera SNP ID:            hCV25938680
SNP Position Genomic:     24191
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(T,32)   total(C,2|T,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:62749):
CAGCCCTGTGCTGGCCGCCTACCCTCATGAACAGGCGTCTTTGTGCTGGCAGGGGCTCTTGTTGCCCCCCAGATCTCCCTGTGCCCTGTGAGGTTGGCCT
Y
TGTGGACCGCCACCTGAGCCCCTGATCTCTCCCAGATGGTGGGAGAAGTGGGGGCTGTAACATCCTTTCTGCAGCTCCGTCACTGCCAAGCTCAGCCCCC
Celera SNP ID:            hCV29072396
SNP Position Genomic:     69699
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62750):
AGGCAGGTGTTCTCCATAACTCCCATCGTACCCTGGTAGGGCTGAGTTTGCTGCCCAGCCTCATTAGCATGGGGCACTTTTTAGAAGCTGAGTTTCCAGA
A
GCCAACCAAGGGCCAGCCTCGCAAGGAGGCCCTGCCACAGACAGCAGCATAGGCCTGCTCTGTGTGTGGCGAAGGAAAGGCTTTCTGAGAGCGCAAGAGC
Celera SNP ID:            hCV26482478
SNP Position Genomic:     32814
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62751):
ATCTCTCTCAAAGTAGTTAGGACACAGCGTTTCACCAGTAGAAGGAGTTTCCTCCATTAGAATGAGTGACTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
K
ATATTTTTTTCCTTGACTGATTTCTGTGCGAACAGCTGGCATTTGAAGCACTATATAGGGCATGTCTAAATTGTGCACCCAAGAGAAGAGCCTGGGAGAA
Celera SNP ID:            hCV26482479
SNP Position Genomic:     63362
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,5)   total(G,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62752):
GCAGTGGACCGATGTGGCTTCATGTTTGGGCGTTGGATTCCTGAGTGTGAGGTTCCCATGGCAAGGTGGCAGGAGATACCTGTCGGCATCTGCTGAGTGT
Y
TGCTGAAGTCTGAGGACTGGCCTGGGCTGGAGTCTGCAGGCGTTGGGGGTCCAGCACTGACCGTGAGCATGCTTTCCTTGGGAAAGCCCAAGGGGTGATG
Celera SNP ID:            hCV27501864
SNP Position Genomic:     14574
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,70|C,1425)   total(C,1425|T,70) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62753):
TGACCCAGATCTTAGGCGTACATGTCTTTCTCCTCATTACCTTAATTGTGAATGTGTTAATGAGTATCAACTTAGTTTCACCAACATTTGGCCATTCCCG
Y
GTTCAACATATACTTATTTACTCAGCTCCAACACTGCTAGCTCCCAGTGTCAGTGTTAGCTGAGACACAGAGGTACACAAGACAGAGTAGGGAAGGCCTT
Celera SNP ID:            hCV27501865
SNP Position Genomic:     22013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62754):
CCTTCCGTGCAGCGGGCACTGCCTTTGGCGATGGTATGTGCAGCTGCTGACATGGCTCATGTACCTTGCTCCTGTGGACAGTGATGGCTGTGGTCTGTCA
Y
GCCCTTGGCTTGGGGGCAGTGTAGTCAGGAGAAGGGAAACGAGGAAATGGTCCTGCTGTTGTCACTGTCAAGCCAGCCATGAGAACATTCTGGCTTTTAA
Celera SNP ID:            hCV27501866
SNP Position Genomic:     23736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62755):
GTGCAGTGCAAGCTGCGCTATGGAATGTGGCATTTCCTACTTGGGGATAAAGCAAGCAAAAGACTGACAGAACGCAGCAGAGTGATAACTGTAGATGGCA
R
TATATGTACTGGAAAAGGCAAACTTGCAAAAGAAATAGCAGAGAAACTAGGTATGATTTTATGTTACACAGAATGATACCTTTTTCTCAGATATATGGTT
Celera SNP ID:            hCV25936655
SNP Position Genomic:     9163
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62756):
GTAGAGTGTCACATATTTTTAAATGACCAGGTCTTGTGTGAACTCAGAGTAAGAGCCTACTCATCACCAAGGAGATGGCCCAAGCCATTCATGAGGGATC
M
GCCCGCATGATCCAAACACTTCCCACCAGGCCCCACCTCTGACACTGTGAGTTACATCTCAGCATGAGATTTGGAGGGGACATCCACACTCTCATTTGAT
Celera SNP ID:            hCV27974520
SNP Position Genomic:     56765
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62757):
GTATTTCGGGAGGGGGCATTTTTCCATGTCAGGGCTTCTTTAAGACCACAAAGCTGAAGTCTGTGCTCGCTGCTCAGCGGAGGCCGTGCTCTGCGCATTG
Y
GTGCATTTGCTGCCTCCTCCCTCCTCCTGAATGGCCACCTCTTCCCTGCTGATCCGCATGCTGTCTGCACCTGAAGCCTCTCTCCGTGTTGGTCAGGTAG
Celera SNP ID:            hCV26482480
SNP Position Genomic:     63046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62758):
CCCAGTATCAAGGCATGGCCATGGGGTCCCTGTTGAATGCTGCATGCGTGCAGCGAGAGGCCCCTCTGCTCTGGCCAGTGGGAGCTCGCCGACTCTCAGC
Y
CTAAGTGAACTCTGGGAGTCATCTGCTTGCAACTCCCTGGAAACTGTTCTTTCCCAGAAGTCGACTTTGTCCAGCTTCATGGAGTTTTACCCCCTGCACA
Celera SNP ID:            hCV26482481
SNP Position Genomic:     62525
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62759):
GGCACCAGAAGCTCTTCTGTGCTCCATCACTGACCAGGCACATTCTGTAACGTGCGTGGCCGTGGCATGAACAGGCAGCAGATCCTGAGGGTCAGGAGCA
K
CAGGAGCGTTGCAGAGGAGCACACTTTCCTCCCTGCAGTAGGAGCTCGGCAGAGCACATTTTCATGGCCACCACACTTATCCAATAGAATTGTGTTTTAG
Celera SNP ID:            hCV26482482
SNP Position Genomic:     61912
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,5|-,6)   total(G,5|-,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62760):
GCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGC
R
CACGCCACCATGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGCTTGTTTAATACTATGTTATTTTTTCCTGGAGGAGAATATGGT
Celera SNP ID:            hCV26482483
SNP Position Genomic:     17429
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62761):
GGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGG
Y
GCACGCCACCATGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGCTTGTTTAATACTATGTTATTTTTTCCTGGAGGAGAATATGG
Celera SNP ID:            hCV26482484
SNP Position Genomic:     17428
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62762):
CCCTGTGGCCGTTGGTAGCTCTGTTGGCGGCTTGATGGAGGATCCTGAGATGAAACAAAGACCGTCTTTGCCCTGTGGCGAGTTCTTTGTTTTTTTTTTT
T
GAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCA
Celera SNP ID:            hCV26482485
SNP Position Genomic:     17301
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62763):
TAAAACTGCGTCAGGTCACAAAGGCCAGGGAGAGAAGTAACCCTGAGTAACAGGGTGGTGAGTAGCTAGGGGTGACAAAGGGCCTCTCTCGGGATGAGGC
Y
TAAGTGAGGCCAGGATTGGGTCCTGTGGGCCGTGGGGTGAGCAGAGGGCAGGGGCTTGGCAGGTGCAGAGGCTCTTCAGGCAGGAGTGTGGTGGGAAGGT
Celera SNP ID:            hCV27974527
SNP Position Genomic:     26595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62764):
CCAGAGGTCCAGAGGCGGATTCAGAAGAAAGGAGATGTAATGCAGTTTTCAATCAAAGGCCAAGCATCTCTATTTTGAATGCAGATCAGCACTAAAAGCC
C
TGTTTTAATAGCATTTATACTAATTCCTACCAGTCCTCACGAGGAGGGTGACACACACCCTGTTCCCACTTGAGAGAGGGCATCTGCAGGGGTGGAGGGG
Celera SNP ID:            hCV26482486
SNP Position Genomic:     16711
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62765):
TTTCCTAAGTTCTTTTTAGAATGGTTATGTACTGTAATTCCATCTTATTTCCTTTGTGGCCTTACGAGCTACCCCTCTTTATTTCATTTCTGATGATTGC
Y
GTAGGGTTTCACCACGGGCAACTCTAACTTGTCACAGTCAATCCACACCTTGTCAGCATTTAACCGCCTCACACAGAATGCAGGTATCTGGCCCGAGGCC
Celera SNP ID:            hCV11529784
SNP Position Genomic:     60601
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62766):
TTATCATTTCTTCAGATTTTTTTCTATCCTCCCCCTTTTGGGGACTCTTATGTATCCATGCATTAGGTGACTTGCTATTTTCCACAGGTCCCTGTGACTC
T
GTCCATTTGTTTTTGGCCTTTTTCTTTCTGTGCCTAATTTTGGATAGTTTCTGCTGCTCTGCCTTCAAGCTCACTTATCTTCTGTGGGTGTATGATATGC
Celera SNP ID:            hCV26482487
SNP Position Genomic:     61454
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62767):
TAACGTGCGTGGCCGTGGCATGAACAGGCAGCAGATCCTGAGGGTCAGGAGCAGCAGGAGCGTTGCAGAGGAGCACACTTTCCTCCCTGCAGTAGGAGCT
Y
GGCAGAGCACATTTTCATGGCCACCACACTTATCCAATAGAATTGTGTTTTAGGAATCCTGTTTTTTAGCTCTAGAAATTCTGTTTGGTGCTTTTTATGT
Celera SNP ID:            hCV11529785
SNP Position Genomic:     61959
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62768):
GTTATCATTTCTTCAGATTTTTTTCTATCCTCCCCCTTTTGGGGACTCTTATGTATCCATGCATTAGGTGACTTGCTATTTTCCACAGGTCCCTGTGACT
C
TGTCCATTTGTTTTTGGCCTTTTTCTTTCTGTGCCTAATTTTGGATAGTTTCTGCTGCTCTGCCTTCAAGCTCACTTATCTTCTGTGGGTGTATGATATG
Celera SNP ID:            hCV26482488
SNP Position Genomic:     61453
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62769):
CGCTGGAAAAAGGAACTTCCTAAGTATCTTCCACCCTTTCTCCCTCCTGAAATAGGTGTCTTTTGTGCTGTCATGTCTCCCTGTGAAAGCAGATTGGAGC
Y
CTGGACCTCAAACACACGCAGCTTAAAGTGCAGCCCCCACAGCCTCCCGTTAGAACCTCCCCCGCTCTTAGCTTGCCCTAGCAATACCTAGGCTGTAGCT
Celera SNP ID:            hCV26482489
SNP Position Genomic:     13068
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,11)      total(C,11|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62770):
CCAGGCGCAGGACCTGGCACCTGTAGGCACTTAGCCGGCACAGGACCTCGTACCTGTGGGCACTTAGGAAGTAATTGTGGGCTAAGTGAACTTAAACCAC
R
TCGTGGACTCAGCTTTACTGTCTTGTTGTTACCTTCCTGTACTTTCTTAGGCCAGTGATCAGCAAAGGTTTCCTTTAAAGAGCCAGAGAGTAAAGGTTCC
Celera SNP ID:            hCV27868827
SNP Position Genomic:     63773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62771):
CCGGAATATGTGTACCAGTATTCATACTTGGACCTGGTTCTCTGAATTTCCCTATAAAGAATATAATTAAACAAAATGCAAACAAAAACTTTCGATTCTG
W
TACCCATACAAGTATTTGTTTTACTTTGCATTTTATAAACACTAAACTTCAATTTATATTTTTATTGGCTATTTATTTGCTCTTTGTGAATTTTCCCTTC
Celera SNP ID:            hCV29135903
SNP Position Genomic:     33915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62772):
ATCTCTTTGAATCTGGATCAGTTCCTCAGGCTTTTCTTGGCATTCAAGACCTTGACATTTTTGAAGACTACAGAACAGTTACCTTGCTGAATATCCCTCA
A
TGTGGTTTTGAGGGATATTTGGCATATGGTTCCCATTTGTCCCATCACTGCTTTTGTTACCTTTATTGCTTGTTAAGGTGGTGTCTTCACTATAAAGTTA
Celera SNP ID:            hCV26482417
SNP Position Genomic:     44402
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62773):
AATTTCAGGTTACTTAAGGTATAAAAGTGGTCAGAGTATATGAACGCATTTTACAGCTATTGAGTTTTTGCAAAATGATTCTCCGGAATATGTGTACCAG
W
ATTCATACTTGGACCTGGTTCTCTGAATTTCCCTATAAAGAATATAATTAAACAAAATGCAAACAAAAACTTTCGATTCTGATACCCATACAAGTATTTG
Celera SNP ID:            hCV29135904
SNP Position Genomic:     33833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62774):
AATATTCATAGCTTATAATGTATTAAAATGTTACCTCTTGGCCAGCCATGGTGGCTCACGTCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGAT
Y
GCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACGTGGTGAGACCCCATCTCTACTAAAAATACAAACATCAGCCAGGTGTGGTGGCATATGCCTGTA
Celera SNP ID:            hCV25940549
SNP Position Genomic:     25790
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:62775):
CCTGGCTCCTGGTGGGGCTTCAGCTAATGTCTGTTCAGTTATGTGTGTTGAACGAAACTGTCACATCGTCCTGATCTCTCATGACCACTCTTGTGCAAAT
R
TGTCAAATAGTTTGTGACCTTTCATATTGCTGTGTGAGAACAAATAATGTTTCTGTGCCAGCCCTGTTCATCAGGGATGTTTAAGACCTCTGTCTCCTAT
Celera SNP ID:            hCV27487387
SNP Position Genomic:     22738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62776):
TGTAAAGATGCCTTCTGCCTGTGCTCGGTTAGGCCCTGGGCTTCGTTGTCCTTCCGTGCAGCGGGCACTGCCTTTGGCGATGGTATGTGCAGCTGCTGAC
R
TGGCTCATGTACCTTGCTCCTGTGGACAGTGATGGCTGTGGTCTGTCACGCCCTTGGCTTGGGGGCAGTGTAGTCAGGAGAAGGGAAACGAGGAAATGGT
Celera SNP ID:            hCV27487388
SNP Position Genomic:     23687
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,6|A,1487)   total(G,6|A,1487) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62777):
CTTGCACTTACTGTGTTTATGAATGTCTGTTAGATAGATGAATAAATGCCATTACTTAATCGGTCTCCGCTGGAAAAAGGAACTTCCTAAGTATCTTCCA
Y
CCTTTCTCCCTCCTGAAATAGGTGTCTTTTGTGCTGTCATGTCTCCCTGTGAAAGCAGATTGGAGCCCTGGACCTCAAACACACGCAGCTTAAAGTGCAG
Celera SNP ID:            hCV26482490
SNP Position Genomic:     13001
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,10)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62778):
GTTTTTGAAAATGGTTTCCCACTTACAAATATGTCTATGTTCTTTTCAGTATTTTGGTGTGGAAATGGAATTGTAAATGATTGTTATTTTCTTTTCTCTG
R
AATGCAGTGATCAGTTGACAGTGCTTTGCTATCTGTCTGATTTTCAATTTCTGTTTGCCTATGTTTAAACAGGACAAGGTGTTGTGTTGGAGCGCTCCAT
Celera SNP ID:            hCV26482491
SNP Position Genomic:     12673
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62779):
CATTTCCTGAGATATATCTACTATCAAGTTAATCACATTCACTCACCAAATAAGTTCTTTTCTGCTTTCTTCTTACAAAGTAGCATTTGAGAATGTTTTT
R
TGTGGCACTTCTTTCATTACTGTAGTTCTCTGATAAGTAACTGCCTAGAGCAGTAGTAGGGCTGTTAAGTGTTAGAGGCTGTCTTTGCAAAAACTGAAAT
Celera SNP ID:            hCV26482493
SNP Position Genomic:     60217
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62780):
TACGTCTTGCCTCAGGAGCAAAAGTGAACCCTTAAATGTGGCTAAGATGTGCTAAAGATCTGTCTTTTAGGATGATTAAGGTCACAGTTTAAATGCTGCT
R
TTTTACTCTGTGTAAGTAGCTTAATTTCTCTGGGCCTCAGACCTTTGGTTTGTAAATACAGTGGAGGCGACAAGCCCTGTTTTCAGGGTTGTGGGCACCA
Celera SNP ID:            hCV11739714
SNP Position Genomic:     16209
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62781):
CTTGACTGGCCTTTAAGGGGCACGGTCGTCCAGCTGTGGAGCACTCGTGGAGTCAGATCTCCACACAGTGGTTCAGGTCCCTGTGAATCCTCTCACCTGC
R
TGAAGGGCCTGGCTGCCTCTTCTAGGTGTCTGGGAAGCCTGCTCTTTCCCATCAACTGCACCCTTAAATGGGGACTCCAGAAACAGGAGCAGTGTCAGGG
Celera SNP ID:            hCV1051308
SNP Position Genomic:     53877
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   (G,-|A,-)   Caucasian(A,9|G,73)   African-American(A,8|G,76)   Asians(A,22|G,56)   total(G,205|A,39)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62782):
AGCACTCGTGGAGTCAGATCTCCACACAGTGGTTCAGGTCCCTGTGAATCCTCTCACCTGCGTGAAGGGCCTGGCTGCCTCTTCTAGGTGTCTGGGAAGC
M
TGCTCTTTCCCATCAACTGCACCCTTAAATGGGGACTCCAGAAACAGGAGCAGTGTCAGGGGCGAGTTAGAGGGCCTAGCACGCCATACTCAGGGACAGT
Celera SNP ID:            hCV1051309
SNP Position Genomic:     53916
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   TSC_42_C(A,0|C,84)   total(C,84)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62783):
GGTTGGAGCCTTGGGGGCTCCCTCTGTGGTAGCTGCCTATCTCTGTTCAGAATAAGATTTATCACAGTGAATGAGGACAGATACGCAGACAGATCAATAC
R
AAAAAAGACATGTTGGACTCTGGAGAAATCCATGCACAGGCTCTTCCTCCTGTGAGGGACACTGACACATTGATTGAGCAACTTTCTCAAGCAGTGAAAA
Celera SNP ID:            hCV29135915
SNP Position Genomic:     32480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62784):
AGCAGACTCAGGAGCCAGGGGACACGGCTCCAATTCTAGCTCTGTGAACACACTGGCCGTGTGCCACCCTCAGCAAGTTACTTAATCTCTCTCTCTTAGG
A
AAAAAAAAAAAAAAAAAAAGAAATCCTTGCACATGCTGTAAAATTCAAAAGATGAGAGATGTTCCTTCTTTGTTCCCCAGCCGCCCAGGGCCCCTCCCTC
Celera SNP ID:            hCV26482429
SNP Position Genomic:     64471
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62785):
GCCGTGCTCTGCGCATTGCGTGCATTTGCTGCCTCCTCCCTCCTCCTGAATGGCCACCTCTTCCCTGCTGATCCGCATGCTGTCTGCACCTGAAGCCTCT
Y
TCCGTGTTGGTCAGGTAGGATTTCTCCACCCTTTTCGCCCTCCATCACCTTCCATCTTCTACTTTGGGCTTCTCCCACATTCCAACTCATTTCTAGGTTT
Celera SNP ID:            hCV29135916
SNP Position Genomic:     63128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62786):
ATTTAAAAATTATCTGGGTATGGTGGTGCATGCCTATAGTTTCAGCTACTTGGGAGGTTAAGGTGGGAGGGTCACTTGAACCTGGGAGGTTGAGGCTGCA
R
TGAGCTGTGTTCACGCCACGGTACTCCAGCTTGGGCGACAGAGACTCTGTCTCTCAAAAGAAGTTCACTTCTGTTTGATGTTTTTAGTACAGCATTAATA
Celera SNP ID:            hCV29135917
SNP Position Genomic:     28425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62787):
TAAGTCTCGAGCCCTTGGCCTGAGCCTGCCCTGTGCTGCTTCCTGCCTCTACCCAGGATGCTCTGTGCAGACTGCACCAACACTTTGCCTCTCGAGGGCC
Y
GGAGGCACAAGGATGGCCGGGGCACTCAACTTCCCTCTCCTCAACGTTTGGATGTAAATTAGGAAGTTGGTGCCTACAGATGGCAGCTCTGTTCTTGGCC
Celera SNP ID:            hCV29135918
SNP Position Genomic:     27931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62788):
TATTTATAAATCAAGATTGGAGTAATTTGAGGGTCTTTGACTTGTGAAAATGCAGGAAACATGAGTAGCTATTTGGGGATCTGCCTTTTGTGTTAAGTCT
Y
GAGCCCTTGGCCTGAGCCTGCCCTGTGCTGCTTCCTGCCTCTACCCAGGATGCTCTGTGCAGACTGCACCAACACTTTGCCTCTCGAGGGCCTGGAGGCA
Celera SNP ID:            hCV29135919
SNP Position Genomic:     27838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62789):
CTGGAGCTCTTTTTCTGCCTAGGCCCCACCCCTTTAGTGCTCTACTCCGTAAAATCTAGTCACTGTGTCCTGCCCAGAGTCAGATGCAACCACCAGACTC
R
GTTTCTCCAGTTTCTAAATGTATCTGGCTGGGAGGCAAGTACAGACCCTGTTACTGCCTCATGAAAGGAAACTGTTGACTACTACTTGGCCTGGTGCCTC
Celera SNP ID:            hCV215630
SNP Position Genomic:     62775
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62790):
CTCTATGGGGCAACCCGCCATGTAGCCCCCACACCCTGCACATATTCTATAAGCAGACCGGACACTTACCTTCCCTGGGGCTGACCAGCTCTTTCTCTCT
S
TCACCCAGGCCTTCCTGACCCCGTCAGGCCCTTTGAGGCCAGCCCCAGGTGCCCGTCACTGCTCCCCGGTCTAGAAATAGCACCTACAGCCCGTCTGACA
Celera SNP ID:            hCV11527620
SNP Position Genomic:     68080
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,8)      total(G,4|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62791):
CCCCTGGGCTGTCTTGGCATCACTGGCTGAATGACCTGGGCTTTCATCTCAGTCTCTCTTCAGATTTCAAACTCCTGAAGGAGCTGGGTTTTTCTTTTTT
Y
GTGTGTGTCCCAGAATTCTCCTGGCACCCAAACAAAACCGTCTGTATCCACACTGTATCCTGGGCCAGAAAGCTGGAGGCTGGCTGTGCCACCCTCCCCC
Celera SNP ID:            hCV11527621
SNP Position Genomic:     68498
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62792):
ATATTTTTTTCCTTGACTGATTTCTGTGCGAACAGCTGGCATTTGAAGCACTATATAGGGCATGTCTAAATTGTGCACCCAAGAGAAGAGCCTGGGAGAA
R
CCTCATTGTGCGGCCTTGGCCCTCATGGCACAGATCCCAGGTTGGCTGTAGCATTTAGAAGTGGACACTTTTCTAACATCAGAACTCATCCAGTCCTTAC
Celera SNP ID:            hCV215632
SNP Position Genomic:     63463
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62793):
AGAAACCAAGGCTCTGAATCAGCCCCGAAGTGTAAGCAGCAGCATAATGATCTGGAGCAGCATCTTGGCGTTATTAAATTCAACCCATTCCGATGGCTGC
R
TCAGCATCTATTGCTCTGTTTATTGTTTTTCCTTAAGCAAGCAGTTCCATTTCTAGAAATTTATCTCAAGCACATAAATCTAGAGGGGGCACATCGGTGT
Celera SNP ID:            hCV215634
SNP Position Genomic:     64185
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,7)      total(G,6|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62794):
GAGGTGGGGTCTGGTGGGTGGTGTTTAGGTCATGGGAGTAGATCCTTCATGAATGGCTTGGTGCCCTCCTGGAGGTAATTAGTATGTTCTCACAGAGTGC
R
CGTCGACCTCTCATTTTAAAGTATATGGCAGCTCCCACCCCCTACCCGCCTCATGCTCTTGCTCTTGCTCCTACTCCCACTATGTGGCGTACCTGCCCCT
Celera SNP ID:            hCV11527626
SNP Position Genomic:     68775
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62795):
GCCGCCCAGGGCCCCTCCCTCAGGCAGCCTGGTTCAGGTTTCTTTGTAGCCTTCCGGTTGGTGGGGGAGAGGGTAGCACCTGTGTGTGTGTGCCATTCAC
Y
CTCTTAACTGTGAGGGTCAGGAAAATCATCATGTTAGTTTACATTAAGCATGGACTTCTGACACACAGATTTGCACACAGATATTTGGGGGAAATCACGA
Celera SNP ID:            hCV215637
SNP Position Genomic:     64651
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Gene Number:                 380
Celera Gene:                 hCG20809 - 79000076113499
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRFTF0F9(20774633..20788247)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12540):
CACTTGATCGTGGTGTATGATCCTTTTAATGTGCTGTTGAATTCAGTTTGCTGGTATTTTGTTGAGAATGTTTGCATCTGTGATCACTGGGGATATTGGC
CTGTAATTTTCTTTTCTTATATTTTTCTTATCTGGCTTTGGTGTGAGGGTAATGCTGCTCTTGTAAAAGGAGTTTGGAAGTGCTCCATCTCCTTCAATTT
TTTGGAAGAGTTTGAGAAAAACAGATGTTATTTCTTCTTTAAATGTCTTGTAGAATTTACTGATGAAGCCATCTGACCCTGGCCTTTTCTTCCTGAGGAG
ATTTTTGATTGTTGATTCAATCTCCTTTCTCACTAATTGTCTATTCTGGTTTTCTTTCTTCATGATGCAGTCTTGATAGGTTATGTTTCTAGCAATTTAT
CCATTTCTTCTAGGTTACCCAATTTGTGGGTGCACAATTGTTTATAGTAGTCTCTCATGATCTTTTGTCTTTCTGTGATATCAATTGTGATGTCTTTCAT
TTATAATTTTAATCATTTGAGTCTTCTCTGTTTTTCTTCATTAGTCTACGTTTGTCAATTTTATCTTTCATAAAACCAACTCTTAGTTTCGTTTATCTCA
TCTATTGTTTTTCTAGTCTCAAATTCATCGATTATTTCTGCTTTAATTTTTATTATTTCCTTCCTTCTGCTGACTATCAACTTAGTTTGCTTTTTTTTTT
TCTAGTTCCTTGGGATTTAAAGTTACATTATTTGAGATCTTCCTTTTTTCTTTTGTTATTATTTATTTATTAGACTTAATGTTCTGCTGAATCTTTTTTA
ATCTAGGCATTTATTGCCGTAAATACCTGTCTTAGTCTGTTTTGTGCTGGTATAACAAATACCTGAGATTGGGTCATTTATAAATACCATAAATTTATTT
TCTCACAATTCTAGAAACTGAGAAGTTTAAGATCAAGGCACTGGCATTTGGTGTCTAGTGATGGCCTTCTTGCTGCATCCCCACATGGTGGAAGGCAGAA
GGACAAGCTAGCCAAATGGCACATGAAACCTCTTTTATAAGAGTAGTAATCCCATCGAGGTGGGAGGAGCCCTCGTGACCTAATCAACTCTTAAAGGCCC
ACCTCTTAACACTATCACAGTGGTAACACCTGAATTTTGGAGAGAACACATCTAGACAATAGCAACATCCTTCTTAGAACTGCTTTTGCTGCATTACATA
AGTGTTAGCATGTTGTGGTTCCATTTTGTTTGTCTCAAGATACTTTTTGCTCACCTGGCTTTGTATCCTCTATAAACTGATGATCCTGCCTTCTATGTCT
TCATCCAAGAAATCCATGTAAAATATGGACTATGAGAAGGCCAAGGTGAGAGCCTTGAGACACTTCATTAAAGGCTTATGCCAACATTGATATCAATTCA
TTAATTTGAATCCTCTAACTATGATTATTAGGTTATTTTATTTTAATTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCTAGGTGTACAATGGCATAAT
CTCATCTCACAGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGCTTTAGCCTCCCCAAAGTAGCTGGGATTACAGACATGCGCCACTATGCCAGGC
TAATTTTGTATTTTTAGTAGAGACAGGGTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCCGCCCGCCTCGGCCTCCCAGAGTG
CTGGGATTACAGGCATGAGTCACCGTGCCCGGCGATTATTAGTTTATTAATCCACCCAGTTGCCCTTATCCAGCCCATGTATTTCCATCTTCTCCACAAA
CATATGCAAAATTGTTGAAAATCTTGGAGTTGAGGTTATTGTATTCTCATACTTGCCAATTTATAACAGCAATTTAAAAAATAAAAATATACCGGGGAAT
TTAGTAAGCAATTTAAGGTTCTGATGAGCATCGTTTTTTTTGTCAGAATTTTCCAAATAGGCCCTCAAAAACTGTTGCTAGAATCTTGTACAGGATTGAT
ATTGGACTGGTATCGTCTTTGCAAAATAAACTATACTCCCCTCTTGACGTTTGTTATCTTTTGCCCATTTCTGTAGTCTAGACACCTTTGATAATGTCCA
TAATCTCTCAAAGGTCACAAACAATGGTCCAGTCCTCTCATTTGCAAATTGGTATCTGGGACTGTCATTCATGTAGATCAGGAAACCTGGGCTCACCGAG
AGCAGTTAGGACTCCCTGATGTTCGTTCCTCCCCTAACTAGTGTTTGTTCTCCCTGGTTAGTCTGAAAATCATTCCCTTTGCCAAAAAAGAAATACTCAA
TGCCCAAGCACCTAAGTTTCCATGGCACCTATAAAATACTGGAAGCTGACAGTATTTCTGATTGAATAGGTGATAGGAAAGGGGTAGGGGCCAGACACTG
GAGAGGACTGGAGAGAAAGAAAGAAAACTGTTTCTCTTTTCAGATGACATGAATGACTGTGCACGTAGTAAAGCTTTGTCTGCTATATCCAACATCTGGA
TTAGTTCAGAGTTTGTTTTTATTGACTGCTTTTTTTTCTTGAGCAACATTTTCTTGCTACTTTGCAGGTTGCACTGATGATTTTTGCTTTTTAAAGAAAA
CAAAACTAAAACAACCATTCCAAAGATTAATAGTTTAAAACAACAACCGTTTTATGGGTTCTTATAGATTCTGTGGGTCAGGAAATTTGGAGAGGGCACA
ATAACTATTGTCTGTCTCTGTTCCATGGCTGGAAAGACCAGAAAGTGGTGACTCAGTTCTTGGTGGAATGACATGGAGATTCCTTTACTAGCATGTCTGA
TGCCTGGGTTAAGATGATTTGATGTCTAGGCCCACTGACTTTACTACCCACATGTGGCTTGGCTTTCTCACACCATTGGCCTGAGTGGTCTGACCTAAAC
ATCTTCCAAAAGGCCTCACATCCCAACACTGTTGCATTGCGGATTAAGTTTCTGACACATGAATTTTGGGGGACACATTCAGACTATAGCACCCACCGAG
AATCAAGGGGAAAAGGCAGAGATTCTACCTCTTGATGGGAAGTGTGTCAAAGAATTGGCAGCCATTTTACAAAACCACCATACTGTCCAGAGATTTTTCA
TTATTATATCTTGACTATTATTGATGACACGTTGTAGAAACTCTGGATTCTGTTGTTTTCCTCTGAACTGTGTTGATTTTTGTTCCAGTAGGCAATTCAA
TGACCTGTTAACCATCTTGAACTTTAGAAGGCTTGGTTTTATGCTCTATTAGGTAGATCTGTGGAAAGTCCACGCAGTTCCTATGACCTTCTAAATGCAA
CTTCAAAACTCTGTCTCCCCTGCTCATCTTGACAGGGATTGATTTTAAGCTTTGTTGGGTAGATCTCACTCTGGGACGTGACCCTTATTTCTAAGCTATG
GCCTTAGGATGTTCATGGTGTTAATAAAGTATTAACAACATCTCTCCTCTCTGGCTGGGCTGGCCCCCAATGTCCTGCAACATGTCTCTGCCTCTACTAT
CTCTGTTTCAACCCCATAGCAGTGGTTCTCTGGCAAACTTCAGGAGGTCTCACTCTGAGCAAGCACTACTCGGCCAAGGACTCCCCCCACAGACTTCTGC
CCCTCCTCTCCACTTGGCAATCCCCTCTTTGGTGACCTGTCCTGCAAATTCCAGTCACTTTAGCTGCCCCAATCTCTGATCTCTGCCTTCTATGCTAGTG
AGGCCCCTGTGCTGTGTTTGGACTTCAGCTCATAGCACCATGGGGAACTGTCCCCGGCAGACAGTTGTAGGGCTCACCATGGGAATGTCCCCTCTCTCAA
GGATAGCAGTCTTGCACTGTCTGTTGTCCACTGCCTGACAATAGCTGCCTATTTTCTTTATTCCTGGGATGCAAGGTGGTTTAACATATGCAAAGTAATA
AATATGATTCACCACATCAGCAGAATTGAAAGCAAAAACCATATGATCATCTCAGTAGATGCAGAAAAAGCTTTCAATAAAATCCAACATACCTTCATGG
CAAAAACTCTCAACAAACTAGTCACTGAAGGAACATACCTCAAAATAATAAGAGCTGTCTGTGACAAACCCACAGCCAACATCATACTGAATGGGCAAAA
GCTGGAAACATTCCCCTTAAGAACAGCAACAAGACAAGGATGCCCACTCTCACCACTTCTATTCAACATAGTACTGGCAGTCCCAGCCACAGCAGTCAGG
CAAGAGAAACAAAGAAAAGACATCCAAATAGGAAAAGAAGTCAAGCTGTCACTCTTCACTGTCGACATGATAGTAACTAGAAAACCTTAAAGACTCTGCC
ACGAGGCTCCTAGAACTGGTAAATGATTTCAGTAAAGTTTCAGGATACAAAATCAATGTATACAAATTAGTTATTCCATACACCAATAATGTCCAAGCTG
AGAGCCAAATCAAGAATGCAGTCCCATTTACAACACACACACACAGACACACGCACACACACACCCCTAGAAGTATATCTAACCAAGGAGATGAAAGATC
TCTACAGGGATAACTACAAAATCCTGCTGAAAGAAATCATAGATGACACAAGCAAATGGAAGAACGTTCCATGCTCACAGGTTGGAAGAATCAGTACCAT
TAAAATGGCCATACTGCCCGAAGCAATCTACAGATTCAATGCTATTCCTATCAAACTTCCAATGTTATTTTTCACACAATTAGAAAAAACTATTCTAAAA
TTCATATGGAACTGAAAAACAGCCCCATTAGCCAAAGCAATCCTAAGCCAAAAAAAAAAAAAAAAAAAAAAAAGGGAGAGGCATCACATCACCTGACTTC
AATCACATCACCTGACTTCAAGCTATCCTATAAGGCTACAGTAACCAAAACAACATGGTACTAGTACATAGTGAGAACATGAAGTATTTGGTTTTCTGTT
CCTGCATAATTCACTTAGGATAATGGCTGGAACAGAAAACCCAGAAATAAAGCTGCACATCTGCAGCCATCTGATCTTTGACAAAACTGACACAAATAAG
CAATGGGAAAAGGTATTCCCTATTCAATAAATGGTGCTGGGATAGCTGGCTATTTATATGCAGAAAAATGAAACTGGACCCTTAACTTTCACTATATACA
AAAATCAACTCAAGATGGATTGAATATTTATTTATTTTTTATTTTTTGAGAAGGAGTCTCGCTCTTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCA
GCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGTCTCTCGAGTAGCTGGGATTACAGTTACCTGCCACCACACCCAACTAATTT
TTGTATTTTTAGTAGAGACTGGGTTTCACCATGTTGCCCAGGCTGGTCTCGAACACCTGACCTCAGGGGATCCACCTGCCTCAGCCTCCTAAAGTACTGG
GATTGCAGTTGAGGGTCACCACACCCAGCCAGATTGAAGATTTAAATATATGACCTCAAACTATAAGAATCCTAAAAGAAATTTTCAGAAATACCATTCT
GGACATTGGCCTTGGGAAACAATTTATAACAAGTCCTCAAAAGCAATTGCGACAAAACCAAAAGTTGAAAAGTGAGACCTAATTAAACTAAAGAGCTTCT
GCAGGGGAAAAAAAAAAAAAAAAAAAAAAACTATCAACAGAGTAAACAGGCAGCCTACAGAATGGGAGAAAATATTTGCAAACTATGCAGCCAACAAAGG
TCTAATATCCAGAATCTGTAAGAAACTTAAACAATTCAACAAGCAAAAACCAAATAACCCCATGAAAAAGTGGGCAAAGAACAGGAACAGACACTTCTCA
AAAGAAGACATACTAAGTGTCCAACAAACATGAAAAAATTCTCAGCATCACTAATCATCAGAGAAATGCAAAACAAAACTACAGTGAGATACCATCTCAC
ACCAGCCTGAATGGTGATTATTAAAAAGTCAAAAATTAGGTGGATTGCTGGGCGGACCCGTCACGGAGAAGAGAGGAGAGTCGCGGGCCACTGAATAAGC
TTCCAAAATGATGCCCACACTAGTTATCCTGTTGAAAGAGGGGACTGATAGCTCCCAAGRCATCCCCCAGCTTGTGAATAACCTCAGTRCCTGCCAGGTG
ATTGCCAAGGCTGTAAGAGCCACCCTGGGTGCCTGTGGCATGGACAAGCTTATTGTGGATGGCGGAGGCAAAGCAACAATATCTAACGATGTGGCCACAA
TTCTGAAACTTCTTCATGTTGTCCATCTTGCAGCAAAGACGTTAGTAGACATTGCCAAATCCCAAGACACTGAGGTCGGTGATGGCACCATCTCAGTGAC
CTTGCTGGCTGCAGAGTTTCTGAAGCAGGTGAAACTGCAGGTGAAGGATGGTTTACACCCTCAGCTCAACATTCGAGCTGTCTGCACAGCCACCCAGTTG
GTAGTTAACACGATCAAAGAGATTGCTGTGACTGTGAAGAAGGCAGATAAAGTGGAGTAGAGGAAGCTGCTGGAGTAGTGTGCCAGGACCACTCTGAGCT
CCAACTGATCTCACAGCAGAAAGCTTTCTTTGCTAAGATGGTGGTGGATGCAGTGATGACGTGTGATGATTTGCTGCAGCTTAAAATGATTGGAATCAAG
AAGGTACAGGATGGAGCCCAGCTGGTGTTGCATTTAAGAAGACTTTCTCTTATGCTGGGTTTAAAATGCAACCCTCCCAAAAATACCAAAATCCCTAGAT
TGCCCTTTTGAATGTTGAGCTYGAGTTGAAAGCTGAGAAAGATAATGCTTAGATAAAAGTCCACACGGTTGAGGATTATCAGGCGATTGTTGATGCCGAG
TGGAACATTCTCTATGACAAGTTAGAGAGGATCTATCATTTTGGAGCCAAAGTTGTCTTGTCTGAACTCCCCACTGGAGATGTGGCCGCCCAGTACTTTG
CTGACAGGAACATGTTCTGTGCTGGCCAAGTACCTGAGGAGAMTCTGAAGAGGACAATGATGGCCTGTGGAGGCTCAATCCAGACCAGTACGAATGCTTT
CTTAGCAGATGTGCTGGGTCGACGCCAGGTGTTTGAAGAGACCCTGATTAAAGGTGAGAGGTACAACTTTTTTACTGGCTGCCTCAAAGCCAAGACAGGC
ACCTTCATCCTCCATGGTGGTAGTGAGCAGTTTATTGAGGAGACAGAGCGGTCCCTGTGTGATGCCATCATGATCATCAGGAGGGCCATCGGGAATGAGT
CAGTGGTGGCTGGTGGCAGGGCCATTGAGAGGGAGTTCTCCAAGTACCTCCAGGATTCCTCAAAGACTATTCCAGGAAAACAACAGCTGTTGATTGGGGC
ATATGCCAAGGCCTTGGAGATTGTCTCATTCCAGCTGTACAATAATGCTGGCTTTGGGGCCACAGAGATTCTCAACAAGCTGCAGGCATGGCATTCCCAG
GGGCACGTGATATGAGGTGGACATCAACAACGAGGACATTGCTGACAACTTTGAGGCCTTCGTGTGGGAGCCAGCTTTGGTATGGATCAATGCCCTGGCA
GTGGCCTCTTAGGCTGTGTGCCTGATTGTGTCTGTGGATGAAACCATCAAGAAYCYGATTGACTGTGGATGCTCCCCCAGCAGCTAGCTGGGGCCGTGGT
CGTGGCCGCCCCCATTGAGAGGCACCCCGCCTATCACATGACTGGCTGGCAGGCTGGCTGCAGGGTGTGCTTACTCTCCTTGGTTTGGTTAATAGACTTT
ACAAGGAAGGGGTAGTCACTGGCCCACTCTGTTCTCACTGGAGGCTATTTAAATAAAACTTGAGACTTTGGGGGGAAAAAGTAAAAAAATAGCATATGGG
TGATGAGGCTATAGAGAAAAGGGAACACTTTACACTGCTGGTGAAAATGTGAAATAGTTTAGCCACTGCAGAAAGCAGTTCAGAGGTTTCTCAAAGAACT
TAAAACAGAACTGCCATTTGACCAGCAATTTCACTACTGGGCATATACCCAAAGGAAAAGAAATCATTCTAGCGAAAAGACACACATGCTCACATGTTCA
TTGCAGCACTATTCACAACAGCAGACGTAGAATCAACCTAGGTGCCCATCAATTGTGGATTGGATAAGGGAAATGTGGCACATATACACCATGGAATACC
ATGCAGCCATAAAAAAGAACAAAATTGTGTCCTTTGGATCAACATGGATGCAACTGGAGGCCATTATCCTAAGTGAATTAATATAGGAACAGAAAACCAA
ATACTGCATGTTCTCATTCTTAAGTGGGAGCTAAGCTTTGGGTACACATGGACATAAAGATGGGAAGAGTAGACACTGGGGACTATGAGGAGGGGAGAGA
TGGAGGGGCGAGGACTAAAAACTGCCATTGAGTACTGTGCTGCTGCTCACTACATGAGATCATTCATATCTCAAACCTCAGTGTCACACAATATATCCAT
GTAACAAAACTGCACATGTACTCCCTGAATCTAAAATGTTAAAATTATAAAAAAGAGAAAACCAAAATTACATTAACATGTTTCTCTTACAATCCTGTTT
TAAATATAACTAGAATTTTCTGTTACTGCATAGCTTTTTTCCTAGTTTGAAAATATAAAATAATAATGATAATAAAGAGGCCAGGCACAGAGGCTTATGC
CTGTAATCCTAGCGATTTGGGAGGCTGAGGCAGGGGATCACCTGAGCCCAGGTGTTTGAGACCAGCCTAGGCAACATAGTGAAACGCCCATATCTATAAA
AAAAATCTGAAAATTAGCTGGGTGGGATGGCTCATGCCTGTGGTCCCAGCAGTATGGGAGGCTGAAGCAGGAGGATCGTTTCAGCTTAGGAGTTCAAGGC
TGTAGTGGGCTGCGTTCACACCTCTGTACTCCAGCCTGGACAACAGAGCAAGACCCTGACTCAAAAAAAAAAAGACCCACAAAAAAAGCCCCCACCAAAT
CTATTGCAACATCAGTCAAAATTTTAGTTCTACTTATTAAATACAATTTTATTCTTATAGCAAGTATTTTAAAATTGTTATCTGTTTTTTTAAATATGTA
AAATATCTTCTTGTCGAAGCGACAGGTGCTTTGAATTGTTACCTTTATGTTTGTTGAAACTATGAAGAAGAGATTAGGAAGACTTTAGGTTTAAAATGGA
AGACAGATTACATATATTATATTCTTGTAAAACTATGAAAATAAAAATAAAGGAGTAAAAGTCAAAAAAATAGCTACCTATTTAATTCAGTTTCATGATC
ATAATAGAAGGGATAGTCTGAAAACAGAGTTGCAAATAAGTTTATAATTTGTAAAGATCTGATAAAAATTATCAGATGATAAGAATTTACAACCATATCA
TCACTGAGAATGGAGGAGAAAAAGAAAGATTTCCATATTACATTTATTTAGAAACATGTTTGGTGTGTCTATTTTAAAGTAAAATTAAAAAAAGTACACA
CACAATTTTTTTTTTTTTTTTGCATTCAGTGTTAAAGTGTTTATCAGAAAGAACTACTTGTGTCTGGGCTCAGTGGCTCATGCTATAATCCCAGCACTTT
GAGAGGCTGAGGGGGGCAGATCACCTGAGGTCCGTAGTTCGAGACCAGCCTGGCCAACAGGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCG
GGCGTGGTGGCTCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGGGAATCGCTTGAGCCTGGGAGATCGAGGTTGCAGTGAGCCGGGATCGCA
CCACTACACTCCAGCCTGGGAGATAGAGTGAGACTCTGTCTCAAAAAAACAAACAAACAAACAAAGAATTACTTGCACTGTGCTCACATAATTTATACAG
TCAGTTCTGCTATATCAGGTTGTTTGAAAACCGTACTTTATTCCAATGCAAATGATGTATTAGGGAAGAATTTCAGTGTAATGTGAATTGCACGTTTGCT
TATGAGTAACTTAGTCTGTGAGAAATGGTGAATGCAGAAAACTGCCTCACAAATGATTATACTACCTCTCAAATAATTTCCAACAACTCTTCTTCCTCCA
CTGCGTAGTAATCCACAAGCTGCTACTCTTCTAACTCCCGGGGATCCATGCCCTCCCCTCTGTTTAATTCCCCCAATTTCCTCTTATTTTCCATTTTTCC
TCTCTGTTCTTTGCTTATCTCTCTTTTCTCCCTCACTTTTCTTCTCTCCCTCTCACACATAGAGGAGGGGGTGTTAGAACCAGGTGGGCTGGTGGTAGGA
TCATAGGTCCACAATCTCACGAGCAAAGGCTCACTGCAGCTTCAGATTCCTGGGCTCAAGTGATCCTCCTGCCTAGGCCTCCCAAAGTGTTGGGATTATA
GATGTGAGCTGCTGTGCCCAGCCCTATCTTTTAAAAAATATGTACTGAAAAAAAATTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCAAGACTGGA
ATGCAGAGGCGCGATCTCCGCTCATTGCAGGCTCCGCCTCCACTTGACTCAGGGAACACACAGCAGTGGGAGCCAAGGCTGTCAGCGATCGAGGACCACA
GGTGAACAACTCTGCGCCGCCGTGGTATCACCTCTAGGTGGATCTTCTGCCTTTAGGAAGGAGACAAAAGAGTGCAGAACCCTGGGTCAGATCAGCTCAG
GATTGACCCCTCCGTGATCTCTCAGGACTCAGATCCCACCTCTCTCTCAGGGAGAGATCAGCCGCTATTGTTCACATTCTGCCTCTCTGTCATCTAGTTT
ATGATTGTTCACTTTCCGTTACTTCATCATTAGTTAGACCCAGACCCCAGCAGAGATTTTAGGGGTTCAGAGCCAAGGAAGGCAAAGTATCAGTGGGAAC
ACAGTGGGAAGGCCCACAGCGGGGGCAAGAGTCTTCCAGCTGTGGGCAAGGGTATCCCTGCGGCAGGTCCAGAGCACTGAGGGTGGGGCTTGGCACGACG
CCATTTGCCAGGATTCCTGTGTCAGGGGTGAACCAGAAACCCAGGTGTCAAAGGAATCCCACCTTCTAGTCCTTGCTGTCCTCACAGAGTGTCTAGGGTT
CACTTTCAGCCTTCCCTTCTGCTCACAATCCCCTCTCCCACGGTCTGTGTGGCCCTGCCTCCAGCCTGCTTTGTTGGAGCCCAGGCAGCCTTCTTCATTA
TGTCCTCCTAGGAATTAAACCTAGAGACCCCTCAACCTTTGGCATGTGATATACTTTCCCATGGTCAGATGGTCAGATCATCAAGCTGCTGCCCCACCCA
AAATTGTGTCTTGCCCACCCTCTGTGTTTCTGTCCATCAGACCACCCATCACATAGGCAACCCCTGGAGAGTGACCCTGGTTTAAAGCCCGACTTTGCCA
AACCGCTGTGGATGCATTAATTTGGAAAGGTCCCTGTTCACCTCAGGGCCCACTTGCAAAGCAGAGACAGTCCCCGAGACTCATTCAGCCTTTGCCTTTC
TCCTGTTGGCCAGGGACAGAGAGGGCTCAACTTGACCCAGAGCTAAGCCTCTCAGGTCGTGAATGCCCAGGCGATAAATGAAATTCACCTCATCTTATGT
CTATGGTGAGATTTGGCAGGGGTCTTGGGGAGACTTAGCAACCTCATTTCTCCCTGTCCTCATACAGGACAAGCCCTGCCCCTAATCCAGAGGCCAGTTG
GCCCCATCTCATACTCTGTTTTGCTCACAGTATACCTGATGCCCTCCCTCCTGACCTGTGATTGGGATTGAGCTGAAGATAGTCACTGACATGATTCAAA
GGATTAGCACTTGGTACAGGTAGGATGGTGGAGATGTGGTTGGGGACATGGATGGTTGAGGTGAAATGGAACAGAAGAGTGCAGGTTCTTGTCCAAGCTC
CATACCCAGGAGATGACCCTTACCTCCGCTGCCACTCAAGTCCTCACATGTCCTGAGCGTCTACTATATAGCAGCCATGATAGATTCTCAGGTTACAAAA
GTAATGTCCTCAAGTAAGCGCATCAATTTACTGACATACACCCAATCATAAAACAATGTGATAATTTTTCTGTGGTCAGAGTTTCTGAGCTACGAGTGGG
GGTAGTTAATTCTATCCAGGAAGAATGGTGACTTCTTAGAGGAGGTGACAGTTAAACTGGACTTGGATAGCTGTCTGGAATTCGGTCAGGTAAGAAAGAA
AATTCCAGGCAGAGATGAGCATGAGCAAAAAATTTGGCAGCAATGATGCACGGTGATTCAGAGATCAAAAAGTTCAGTGTGGATGCCTCTAGACATTTTC
TTATCTGTGTCTGATAGATTTTGATATTTTGTATTATCATTTTCATTCATTTCAAAATACTTTCTAGTTTTCCTTGTACTTTTTAATTTGATATATAGTT
ATTTGGAAGCATATTATTTGATATCCAAACATTTGAGGATTTTTCCAGATAGCTTCCTGCTGTTGATTTCTAGTTTATTTCCATTGTGCTTGGACAAGAT
GCTTCGCATGATTTTAACCCTTTACATATGTTGAGATTTATTTATTTATTTATTTATTGAGATGGAATCTCACTCTGTCACCCAGGCTGGAGTGCAATGG
CGCAATATCAGCTCACTGCAAACTCCGCCTCCTGAGTTCAAGCGATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGGCCCATGCCACCACACC
CGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAATGATCCACCCAACTTGGCCTCCC
AAAGTGCTGGGATTACAGGAGTGAGCTATCACGCCCAGATGAGATTTATTTTATGATCCAAAAATGGCCCTTCTTGGTGAATGTCCCTGTGTATTTGAAA
AGACACTCCCTGTCAACCCCTTTGCTCTGTCATTTAGCTTTGATCAGCTTTTTCTCTCTTCTGTCACTTCAGCAGAAACAATGCCCAGAAATGCCAGAGA
CAACAAAATAGGAATGTGTCATGGGCACACAAAGCTCTTTTTCCCTGGGTGCTGCTCTTCCCCGTGACAGAGAAATCCATGCGACACAGTGGGGAGGCCC
TCCCCAAAGGGTGGCAGATATATTTTTTTCCCCTTGAATTGTAATACACCTTTCCCCAGGCCCACTCTGCCTCCCACTTCTGTTCAGCTCAGCTGTGGGC
ACTGACCTCCACCGGCGCTTGATCCCTGCCTGCTCCTGCCCAGACAGGAAGCCCTTCAGCAGCCGACTCGGTTACCAGGATGAGGCTAGAGGCCAGGAAC
TCCCAGGTGTCTATGGAGGTCCCACCTCCTTTAAATCCCTACTGTTCAGACCCAGCTTCTAAAACTGTTCTTTTGCCTCCCTTCCTACTCACCAATCCCC
TTCACTATTGTCAATGGCACTGAAGTCCCAGCCTGCTTGGTTGGGGCAGTTAAGTCCTTCTCAGTCACCTTCCACCAGGGATTAAGGTGGGACCCCTTTG
CCTGCAGCTCTGTGGGTGGGACCCCTTCCTATCTCAGCATATTCACTCCCTGGGTTCCTGCTGCCATCACACCACCCACCACACGAGCCCCTTCTGGACC
AGTGGCCCTTATCTGACTCAAGCCATATCTTGCCAAGCCTGTTGTGACACCGATCTTGGCAAACTCACTTTTCATGTCAGGGCCCCTGCAAAACAGACAC
ATATCTGAGTCATG


SNP Information

Context             (SEQ ID NO:62796):
AGGCCTTCGTGTGGGAGCCAGCTTTGGTATGGATCAATGCCCTGGCAGTGGCCTCTTAGGCTGTGTGCCTGATTGTGTCTGTGGATGAAACCATCAAGAA
Y
CCGATTGACTGTGGATGCTCCCCCAGCAGCTAGCTGGGGCCGTGGTCGTGGCCGCCCCCATTGAGAGGCACCCCGCCTATCACATGACTGGCTGGCAGGC
Celera SNP ID:            hCV11415826
SNP Position Genomic:     7554
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:62797):
GGAGCCAAAGTTGTCTTGTCTGAACTCCCCACTGGAGATGTGGCCGCCCAGTACTTTGCTGACAGGAACATGTTCTGTGCTGGCCAAGTACCTGAGGAGA
M
TCTGAAGAGGACAATGATGGCCTGTGGAGGCTCAATCCAGACCAGTACGAATGCTTTCTTAGCAGATGTGCTGGGTCGACGCCAGGTGTTTGAAGAGACC
Celera SNP ID:            hCV3082501
SNP Position Genomic:     6943
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62798):
CTGGTGTTGCATTTAAGAAGACTTTCTCTTATGCTGGGTTTAAAATGCAACCCTCCCAAAAATACCAAAATCCCTAGATTGCCCTTTTGAATGTTGAGCT
Y
GAGTTGAAAGCTGAGAAAGATAATGCTTAGATAAAAGTCCACACGGTTGAGGATTATCAGGCGATTGTTGATGCCGAGTGGAACATTCTCTATGACAAGT
Celera SNP ID:            hCV27945869
SNP Position Genomic:     6722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:62799):
GTCACGGAGAAGAGAGGAGAGTCGCGGGCCACTGAATAAGCTTCCAAAATGATGCCCACACTAGTTATCCTGTTGAAAGAGGGGACTGATAGCTCCCAAG
R
CATCCCCCAGCTTGTGAATAACCTCAGTACCTGCCAGGTGATTGCCAAGGCTGTAAGAGCCACCCTGGGTGCCTGTGGCATGGACAAGCTTATTGTGGAT
Celera SNP ID:            hCV1803643
SNP Position Genomic:     6060
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:62800):
GCCTTCGTGTGGGAGCCAGCTTTGGTATGGATCAATGCCCTGGCAGTGGCCTCTTAGGCTGTGTGCCTGATTGTGTCTGTGGATGAAACCATCAAGAATC
Y
GATTGACTGTGGATGCTCCCCCAGCAGCTAGCTGGGGCCGTGGTCGTGGCCGCCCCCATTGAGAGGCACCCCGCCTATCACATGACTGGCTGGCAGGCTG
Celera SNP ID:            hCV11415822
SNP Position Genomic:     7556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:62801):
CACTGAATAAGCTTCCAAAATGATGCCCACACTAGTTATCCTGTTGAAAGAGGGGACTGATAGCTCCCAAGGCATCCCCCAGCTTGTGAATAACCTCAGT
R
CCTGCCAGGTGATTGCCAAGGCTGTAAGAGCCACCCTGGGTGCCTGTGGCATGGACAAGCTTATTGTGGATGGCGGAGGCAAAGCAACAATATCTAACGA
Celera SNP ID:            hCV8789059
SNP Position Genomic:     6089
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 5


Gene Number:                 381
Celera Gene:                 hCG22005 - 145000146735148
Gene Symbol:                 CLN2
Protein Name:                ceroid-lipofuscinosis, neuronal 2, late infantile (Jansky-Bielschowsky disease);LINCL;TPP I;TPP-I;TPP1
Celera Genomic Axis:         GA_x5YUV32VW1T(44252996..44271689)
Chromosome:                  Chr11
OMIM number:                 204500
OMIM Information:            CEROID LIPOFUSCINOSIS, NEURONAL 2, LATE INFANTILE TYPE;CLN2


Genomic Sequence (SEQ ID NO:12541):
AATGATGTGGACTCAGGACCCGTGCTGTGGTATGTGCTAAGCCCATCTGGGCCCCAGGATCCCTTCAGTGTTGGCCGCTATGGAGGCCGTGTCTCCCTCA
CGGGGCCCCTGGACTTTGAGCAGTGTGACCGCTACCAGCTGCAGCTGCTGGCACATGATGGGCCTCATGAGGGCCGTGCCAACCTCACAGTGCTTGTGGA
GGATGTCAATGACAATGCACCTGCCTTCTCACAGAGCCTCTACCAGGTATTGACACCCATGGATCCACCTACACCTGGGCCTGGGTTGTTCCTGTTGGAG
GGAAGTATCAGAGCTAGCAGCTGCTGAGGTGGGCTGGACGTTGGAGCTGATCTGGGAATGGGAAGGTCCCAAGTCCTGTGAACTACATCCTGGTTTTGCA
TCCTGTACCCAGAAAGGGGAGAAGGTGGGCATTTCCCATTCGAATACTTAGGAGTAGGGGCTCCAAGTTGGAATAGACGCCAAGCAGGGCACAAGGAACC
AAGCTCCAGAACAGGCTGCATGGACAGCAGGGCAAATGGGAAGCCTGGCAATAAGCACTTTTCCTCACACTTCAGGTAATGCTGCTTGAGCACACACCCC
CAGGCAGTGCCATTCTCTCCGTCTCTGCCACTGATCGGGACTCAGGTGCCAACGGTCACATTTCCTACCACCTGGCTTCCCCTGCCGATGGCTTCAGTGT
TGACCCCAACAATGGTGCGTCTTTCCCAGGATCTGCCCCTTGCCTTTGACTGTGTTGGGCTGTAATCTGACCTCATTCCTTGAATTTGTTACTCAAACTC
TTTAACTCCTGGATCTCTGGCCTAGGGAGGACATTTCCTCCCCTCTGTCTTCATTATAAGCCCCTTGTTGACTGCATGTCTAGAAGCTGTTCCCTAAGCT
GTGAATCCTTGAGGCCATCCCCTTGTCTCCCAGCAGATAGGCCATTCCCTGAGTCTGACTTCCAAAACCATTTCCTAGATCCTGAAGGGTCACTCTTCTG
TTCACTCACAGCCTTTGCTGAATATATTTCTTTCCCTTCCGTTCTCATCTCAGGGACCCTGTTCACAATAGTGGGAACAGTGGCCTTGGGCCATGACGGG
TCAGGAGCAGTGGATGTGGTGCTGGAAGCACGAGACCACGGGGCTCCAGGCCGGGCAGCACGAGCCACAGTGCACGTGCAGCTGCAGGACCAGAACGACC
ACGCCCCGAGCTTCACATTGTCACACTACCGTGTGGCTGTGACTGAAGACCTGCCCCCTGGCTCCACTCTGCTCACCCTGGAGGCTACAGATGCTGATGG
AAGCCGCAGCCATGCCGCTGTGGACTACAGCATCATCAGTGGCAACTGGGGCCGAGTCTTCCAGCTGGAACCCAGGCTGGCTGAGGCTGGGGAGAGTGCT
GGACCAGGCCCCCGGGCACTGGGCTGCCTGGTGTTGCTTGAACCTCTAGACTTTGAAAGCCTGACACAGTACAATCTAACAGTGGCTGCAGCTGACCGTG
GGCAGCCACCCCAAAGCTCAGTCGTGCCAGTCACTGTCACTGTACTAGATGTCAATGACAACCCACCTGTCTTTACCCGAGCATCCTACCGTGTGACAGT
ACCTGAGGACACACCTGTTGGAGCTGAGCTGCTGCATGTAGAGGCCTCTGACGCTGACCCTGGCCCTCATGGCCTCGTGCGTTTCACTGTCAGCTCAGGC
GACCCATCAGGGCTCTTTGAGCTGGATGAGAGCTCAGGCACCTTGCGACTGGCCCATGCCCTGGACTGTGAGACCCAGGCTCGACATCAGCTTGTAGTAC
AGGCTGCTGACCCTGCTGGTGCACACTTTGCTTTGGCACCAGTGACAATTGAGGTCCAGGATGTGAATGATCATGGCCCAGCCTTCCCACTGAACTTACT
CAGCACCAGCGTGGCCGAGAATCAGCCTCCAGGCACTCTCGTGACCACTCTGCATGCAATCGACGGGGATGCTGGGGCTTTTGGGAGGCTCCGTTACAGC
CTGTTGGAGGCTGGGCCAGGACCTGAGGGCCGTGAGGCATTTGCACTGAACAGCTCAACAGGGGAGTTGCGTGCGCGAGTGCCCTTTGACTATGAGCACA
CAGAAAGCTTCCGGCTGCTGGTGGGTGCTGCTGATGCTGGGAATCTCTCAGCCTCTGTCACTGTGTCGGTGCTAGTGACTGGAGAGGATGAGTATGACCC
TGTATTTCTGGCACCAGCTTTCCACTTCCAAGTGCCCGAAGGTGCCCGGCGTGGCCACAGCTTGGGTCACGTGCAGGCCACAGATGAGGATGGGGGTGCC
GATGGCCTGGTTCTGTATTCCCTTGCCACCTCTTCCCCCTATTTTGGTATTAACCAGACTACAGGAGCCCTGTACCTGCGGGTGGACAGTCGGGCACCAG
GCAGCGGAACAGCCACCTCTGGGGGTGGGGGCCGGACCCGGCGGGAAGCACCACGGGAGCTGAGGCTGGAGGTGATAGCACGGGGGCCTCTGCCTGGTTC
CCGGAGTGCCACAGTGCCTGTGACCGTGGATATCACCCACACCGCACTGGGCCTGGCACCTGACCTCAACCTGCTATTAGTAGGGGCCGTGGCAGCCTCC
TTGGGAGTTGTGGTGGTGCTTGCACTGGCAGCCCTGGTCCTAGGACTTGTTCGGGCCCGTAGCCGCAAGGCTGAGGCAGCCCCTGGCCCAATGTCACAGG
CAGCACCCCTAGCCAGTGACTCACTGCAGAAACTGGGCCGGGAGCCACCTAGTCCACCACCCTCTGAGCACCTCTATCACCAGACTCTTCCCAGCTATGG
TGGGCCAGGAGCTGGAGGACCCTACCCCCGTGGTGGCTCCTTGGACCCTTCACATTCAAGTGGCCGAGGATCAGCAGAGGCTGCAGAGGATGATGAGATC
CGCATGATCAATGAGTTCCCCCGTGTGGCCAGTGTGGCCTCCTCTCTGGCTGCCCGTGGCCCTGACTCAGGCATCCAGCAGGATGCAGATGGTCTGAGTG
ACACATCCTGCGAACCACCTGCCCCTGACACCTGGTATAAGGGCCGAAAGGCAGGGCTGCTGCTGCCAGGTGCAGGAGCCACTCTCTACAGAGAGGAGGG
GCCCCCAGCCACTGCCACAGCCTTCCTGGGGGGCTGTGGCCTGAGCCCTGCACCCACTGGGGACTATGGCTTCCCAGCAGATGGCAAGCCATGTGTGGCA
GGTGCGCTGACAGCCATTGTGGCCGGCGAGGAGGAGCTCCGTGGCAGCTATAACTGGGACTACCTGCTGAGCTGGTGCCCTCAGTTCCAACCACTGGCCA
GTGTCTTCACAGAGATCGCTCGGCTCAAGGATGAAGCTCGGCCATGTCCCCCAGCTCCCCGTATCGACCCACCACCCCTCATCACTGCCGTGGCCCACCC
AGGAGCCAAGTCTGTGCCCCCCAAGCCAGCAAACACAGCTGCAGCCCGGGCCATCTTCCCACCAGCTTCTCACCGCTCCCCCATCAGCCATGAAGGCTCC
CTGTCCTCAGCTGCCATGTCCCCCAGCTTCTCACCCTCTCTGTCTCCTCTGGCTGCTCGCTCACCCGTTGTCTCACCATTTGGGGTGGCCCAGGGTCCCT
CAGCCTCAGCACTCAGCGCAGAGTCTGGCCTGGAGCCACCTGATGACACGGAGCTGCACATCTAGCTGTGGCCCAGGCTGGGCCCCGACCTGGGATGCGC
ACAGTGTCCCCAACGCAGGCCCCACTCTGAGCCTGCCCTGGGCAGCCTCGGACTATGACTGGCTACGGGGAGGCCACCACCAGGCCCCAGCTCTCCACCC
TGAACTCCCCAGCCCCCTCAGAGTACTAGGACCACAGAAGCCCTGTTGCTCACTGACCTGTGACCAGGTCCAATGTGGGGAGAAATATGAAGGAGGTAGC
AGCCCTGGGTTCTCCTCAGTGAGGGATCCCTGCCCTGCACCAGCACCCTGAGATGGAGCTGAGACTTTATTTATTGGGGGTAGGGGGATGGAGGAGGTCC
CTCCAACATGTTTGGACCCAGCTCCTTTGGGTTCCACTGACACCCCTGCCCCTGCCCCTGCCCAGAACCAAGTGCCATTTCTCACTCTGGAGCCTTAATA
AACTGCAATTTGTATCCAGTCTCCAGCTTTGTTCTATAGGGATGACTGGAAGACACCTGGCAGAGTATTGTGGATACCTCAGGAGGCACAGAGGGGTGGT
GGGGTGGGGATGGCACTGGGAGCTCAGGAGCCTAGCCTGAGGCTGATGATCACATCTCTCTGCAGCTATTCTTTTCCCTCTAATATGGGCAAAGAGGCCA
GCAGGGCCTTGAGAGGGATCAGTTGGGTGGGAGAGGGGATCTTGGGGATGAGCAGCTCTGGGCCCGAAGTTCTTAAAATAAGTTGGGGTGGGTACAAGAG
CAGTCAAGTGGTTTATTTGTTCTTCTTGGGGGCCACTAAAAATCCACATTGTAAAAAGAGCTCAATTTGTTGAGCCTTTGTCATGTCAGGCTCTCTGCAG
GTGGCTGCCTTGCTTAATCTCAGTGTAAATTTTCACAGTCATACAAAGGGATTTGGGAACCACTGGTGTTGCCTGTTCTTTGGGGAGCCAGGCTGTGAGG
GAAAGGCAATTGGCCAGTGTTTGAGAAGTTCATGAGATTGAGGAAATTAGAAAAAAAAAAAAAAGTTGTGGTCAAAGGGAAATGTTTCTGAGCATGATGC
TAGTAAATACAGCTCTAGGATCCACGCTTAGTGGGAAACTGGAGGGATCAATGGACAGAGAGAAGTCAGATTAATAGGAGTGAGGAAAAACAATGGCTTG
AAAAAACAGAAGGTTATAGTCTAAGAAAGCATTCTATAATTATAATTTCAAAGGTAGAGCAGTTTTGAGAGATAGCAAGCCCAATGCAGCCATGGGACTG
GTTTGCTTAAGTGAAGTGAAGGTAATGCTCACTGGGTTTAATGAGATGAAGAAATGGAAGGTTAGGGTGTTGAATGGGTCTTTTACCTAGATATTTTGAT
CATCTAGGTCAAATGATCGCAGGAGTTGGGATGGACAGAAAGGTGAAGTGCCATAATCTTCAGTGTGGGAATATAATCTATAGGTTAATGGAAGCCAGTG
GCCTGTAGGACAACAGCAGGAGTAGAGGGATCTATCTAAAAAGTATTGAGGTCAGAACAAGGGATTTCACATGAGTATTGGATTAATGGTTTTGGAAGTT
AAAATGACACTGCTGACACCATCTTCCATATGGATTTTTGGGGGGAAAAAAAGGAAGACTGGAAGGGAATTGAATCCTCAGGGTTTTAACTCTCATTGAA
AATCCTCTTGTAATGACCCCAGTTGGAAGTAGTAAACTCAGACCTCCTTGTGGGCTTTGAGTTACCATTAGAAGAAGCAAAGGTCCGTTTCCATTTTATC
CACCTGAGCCCACTAAACAAGATGCAAGATTCCTCCATGGCCCTTAGAACAAAGTTGATTTCCTTGAAAACCTTGGGAACCCATAATAAACAGGACCCCA
GCTGATTGTAGATCTCCTGGGAAGCTACTTAAAACTGGAAACTGATTTGAATAAAAGGATCCTGGTCTTGCAAAAGCTTTACTCTGTTCATAAATGTAGT
CGTAAAATGAAGACAAAATTGATAATATGGGGACATAAAGGATAAAAGAGGAAAAAAATTTTTTCACTGCAATCTTTCGAGGCAGATCACTTTTATATAA
GTCTCCATATTGTAAATGCAGAAACCTAGGCTCTGAGAGGTTATTTTGCTGATGTCATACAGCTAGGAAGAACCCCAGTCTGTGGGTCTCTACAGCCCAC
TCACTTGTGGTGATTCCCAGGGGACCAGGCTCAGGACGCAGGTGGGGAGCCCTGGGCTTACTCAGTGCTTGACTGGCCAGAGGGGAGAATCCGGGTGGCG
GCCCCACCCTTGCCTAGCATTTGGGACCACCCATGCAAGGGAGGAGCCAGTACCGTCACTAGTTACTAGGCAGAGGGGTAGTGGTGGTGGAATATAGAGC
TCATGTGATCCGTCACATGACAGCAGATCCGCGGAAGGGCAGAATGGGACTCCAAGCCTGGTGAGAAATTGAGAGGGCTCGGGAGAAAGGGATCACGTTG
GAGGGAGCACACATTGGGAGGGTGGGAACACAAGGACAACGTAGCTCCCACTGAAACCCACCTGCTGCCCCTACAGCCTCCTAGGGCTCTTTGCCCTCAT
MCTCTCTGGCAAATGCAGTTACAGCCCGGAGCCCGACCAGCGGAGGACGTGAGTTGACTTAGCACAGACTGCCCCCTTCCCCATACCCTGTTCTGCCTCC
CACTGTCCTGGTCCTAGCTTCTCTCACCCCCGTGCCAGCTCCTAGTACGCACTCCATAGCTTCATCTCTATGTTCCTAGCCTCAGTCCCCTATCATTCAC
CTCATGTGATCTGTATCTGCTCCTAGGATCCTCCCCAAGGTCTCAGCTCCTAATCTGGAACCTTCCATGACCAATATTTTCCATCTCCACCCTAACCAAA
GCCATGTCCCTGACCCCTGACCCTACAGGCTGCCCCCAGGCTGGGTGTCCCTGGGCCGTGCGGACCCTGAGGAAGAGCTGAGTCTCACCTTTGCCCTGAG
ACAGCAGAATGTGGAAAGACTCTYGGAGCTGGTGCAGGCTGTGTCGGATCCCAGCTCTCCTCAATACRGTGCCTTTTGGGACTGAGGACAGGATGTGGGA
TGCGGTGGAGGGACACAGGGCTGGGTTGGGCATGGRATGGCGATCATGTCAGAGCCTGCCAAGACACTTGTGTTCCTCAGGCTAGAAACCTAAAAGGGGA
TGTGGTTCAGTATACAGGCTTTATGATCAAATACGAACTCAAATTCTGACTCTGCTACTTACTAGCTACCAGGCATCTAGTACAACTTACGTTCYTTCCC
CTACCCTCAAATCCATTCTAATTTCCTCTTTTGTTCACATACTAAGGCTGCCAGTTCTAACTCCCAAAGAGCCTTTGGATTAATCTCCTTCTTGCCGTCT
TTTGTTACGACCAACTCCGTTATTTATTCCCACTCCTGGACTACTGCCCAGCTCCCCAGCTGATCTGCAGTCTCCTCCCTCCACCCCACCCCTCACTGTA
CTCCCCCACTCTGCTTCAAAACAGTCTCTCCAACAGTCAAAATGGATTGGTTCCTTCTCCTGGTTAAAGCCCTTCACAGCAGGGGGAGTGTGTGCTTGTG
AACTGCAGAGGCTGGGGACGGGGCAGTGTGACACTAGTGTGCATGGCAGGAAACAGTGACTCACCATCGTGTTAAGCTTAAAATCAAMAAGTATGCAAAT
TTGAGCTAAACTGAATAACTGGTRCCGAAAGATTTGAAAACATTTACCGGACATAAGCTTAAAATTAAAATGGAAAATTTATATGTATTAACCTCATTCA
TTTTCATGATCATGGCAATACATGCTGTGGTGCGACATTTGCAACTTACTGGCCTTTAGGGTAAATCCATATTATTGGCCATGGCATTTCAAGTCTCTCC
AGCCTTTTCTTCCTCTGCTTCCCAAGTACACCCTACACCTGCACACATAGCCCTCCTTTACCCTGTTCCAGGSTTTGGGAAGTCCTGATGTCTCATAGTT
GAGGTCCAAAAGGGGGAGTTTGGGAAAGCAATGAATGAGGGCAAGTGCCTCTTCTGAATCCCTGCAGGAAAATACCTGACCCTAGAGAATGTGGCTGATC
TGGTGAGGCCATCCCCACTGACCCTCCACACGGTGCRAAAATGGCTCTTGGCAGCCGGAGCCCAGAAGTGCCATTCTGTGATCACACAGGACTTTCTGAC
TTGCTGGCTGAGCATCYRGTGAGAGGAAATGATTGCTCCATGGAGGGCACCAGTCATCCCATCAGTGAGATGGATGGGAGGGAGTTGAGAGCTTGCTGGG
GCTTGTGGGTGGGAGCTAATGCATGGGGAGACAGTGACTGACTGCCCAGGGATGCTCAGAGGTAGCTTCTTCTGTTCCGTTTTGAGCTTTCTGACCTCTG
TTCTCTGACCTCCAGACAAGCAGAGCTGCTGCTCCCTGGGGCTGAGTTTCATCACTATGTGGGAGGACCTACGGARACCCATGTTGTAAGGYCCCCACAT
CCCTACCAGCTTCCACAGGCCTTGGCCCCCCATGTGGACTTTGGTAACACCTATGGGGTGAATGGGGGWTGGGRCACACAGATCCAGGGGCTGAGGAAGT
TTAGATGCCATTGGGGACTGGGGGTGGGGTGAGTTGTAAGGTGGGCATTACAGTCTATAAGATCTCCTCAAGCCTGACTTCTCCCTACAGTGGGGGGACT
GCACCGTTTTCCCCCAACATCATCCCTGAGGCAAYGTCCTGAGCCGCAGGTGACAGGGACTGTAGGCCTGCATCTGGGGGTAACCCYCTCTGTGATCYGT
AAGYGATACAACTTGACCTCACAAGACGTGGGCTCTGGCACCAGCAATAACAGCCAAGCCTGTGCCCAGGTGAGCCAAGCAAAGAGCCCCAGGGTCCTCA
YAGCCTCCCCACAGTGTCCTCAATTCCTTACCACCCTGGGACTCACCCTCGGACCCACGATCTCTGCTCTGACTCCCTCCATAGTTCCTGGAGCAGTATT
TCCATGACTCAGACCTGGCTCAGTTCATGCGCCTCTTCGGTGGCAACTTTGCACATCAGGCATCAGTAGCCCGTGTGGTTGGACAACAGGGCCGGGGCCG
GGCCGGGATTGAGGCCAGTCTAGATRTGCMGTACCTGATGAGTGCTGGTGCCAACATCTCCACCTGGGTCTACAGTAGCCCTGGTACTACCAAGAGGACT
GGACAGTGGGGAAGGGGGTGGGAGATGGGTGTTGATCCCTGCTCCCTCAAGGGAATGCTATAAGCTGGAGAGAGATCCTGACAACCCCCAGTGACTATCT
TTGTGCCCATCCCTCAAAAAAAAAAAAAAAAAAATCCAGGCCGGCATGAGGGACAGGAGCCCTTCCTGCAGTGGCTCATGCTGCTCAGTAATGAGTCAGC
CCTGCCACATGTGCATACTGTGAGCTATGGAGATGATGAGGACTCCCTCAGCAGCGCCTACATCCAGCGGGTCAACACTRAGCTCATGAAGGCTGCYGCT
CGGGGTCTCACCCTGCTCTTCGCCTCAGGTGACCTCCTACCCTAAACTTAGACAAYGCTTACACCTCTGYAGCCTGGGWGCTTTGACTCCACAGTGATCC
CTGAGCCTGGTCTCTGACTCATAATCTGAACTCAGACCTTCCAGTAGGGACCACTGACCTGACCTCTACACTCTGACCTCCTACAGTAACAAATTTCCCC
TCTGACATCCGAACCCACATACTAAGCCCTAACCAATTAATATGAATGCTRCACTTGGTCTCTCTCAGGTGACAGTGGGGCCGGGYRTTGGTCTGTCTCT
GGAAGACACCAGTTCCGCCCTACCTTCCCTGCCTCCAGGTAAGTACTCTAGCCTACCACTCAGGTATAACCACCACCTTTCACTTGTGATCTCATGATGT
AGAACCTTTGTCTTGACCCCACCATGTGCTCCTGTGGTTCAGCCTTAAGCTTTGCCTGCCCTGGTTGCTGTACTCCTGTCTCTTCTTCCTGCAGGTCCCA
GGCCCCAAATCTCTTGTGTGGGATACAGCTCCCATTGTTCCTTTTCGTCAGTTCCCAGGCATTTKAGTGGAAGATTTGGTGGGTGTTCTGTASAGAAAAG
TGTGCACAGTCACCTCRGGCCATGCCTTGAAGGCTCAAAATCTCTTAGTCAATCCCATATACATGCTTCCCCASAGAGTCTAGTTCCTCCAGCAAGACCT
GGGCTATACTCACCCCTCCCCACATATCTTGGAGGTCCCCTTGGGTCCCCTACTATCCAAATGCTGTCTTCTCCCCTCAGCCCCTATGWCACCACAGTGG
RAGGCACATCCTTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGGCCTTCATACCA
SGTASRTGTGTTTGTGTGGATGGATGCAGGGTAAGAGTGAGGATGGGGGATCCTCAGTTCAGCTGACTGCTGGGCAGGCCACATGCCAATACTCACTCAA
AAATGCCTTTCAGGAGGAAGCTGTAACGAAKTTCCTGAGCTCTAGCCCCCACCTGCCACCATCCAGTTACTTCAATGCCAGTGGCCRTGCCTACCCAGAT
GTGGCTGMACTTTCTGATGGCTACTRGGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCCRGAACCTYGGTGAGAATCAGCCCATCTCCAAACTCTC
ACTCAGGAACTACCCTTACCCCCTAACACCTTGAACACCTTGCACCTAGAACCCCTGACTCCTTAGAGATGTCYGATACTTTAAAGCRTCACTCCCAAAA
AGTCCAATCACTCAGAACCCCTGACCTCTACTTGCACCTTCACTCTTGTAGGCCTCTACTCCAGTGTKTGGGGGGATCCTATCCTTGATCAATGAGCACA
GGATCCTTAGTGGCCGCCCCCCTCTTGGCTTTCTCAACCCAAGGCTCTACCAGCAGCATGGGGCAGGWCTCTTTGATGTAAGTATGGAAGGGAAGGGTGT
GGACGTTTTCAAACAACTATGGGGAGTGCTAAGGGGGACTTGGGGGCAGTTAGGGTGGTGTGGAATAGCCTTTGAAATGTGAGTACAGGGTGAGGAGATA
YACTCTTTAAGTACTGGTACTAGTAGGCCCAGATCTGATGCCAGCCTCCTCCCTAGGTAACCCGTGGCTGCCATGAGTCCTGTCTGGATGAAGAGGTAGA
GGGCCAGGGTTTCTGCTCTGGTCCTGGCTGGGATYCTGTAACAGGCTGGGGAACACCCAACTTCCCAGCTTTGCTGAAGACTCTACTCAACCCCTGACCC
TTTCCTATCAGGAGAGATGGCTTGTCCCCTGCCCTGAAGCTGGCAGTTCAGTCCCTTATTCTGCCCTRTTGGAAGCCCTGCTGAACCCTCAACTATTGAC
TGCTGCAGACAGCTTATCTCCCTAACCCYGAAATGCKGTGAGCTTGACTTGACTCCCAACCCTACCATGCTCCATCATACTCAGGTCTCCCTACTCCTGC
CTTAGATTCCTCAATAAGATGCTGTAACTAGCATTTTTTGAATGCCTCTCCCTCCGCATCTCATCTTTCTCTTTTCAATCAGGCTTTTCCAAAGGGTTGT
ATACAGACTCTGTGCACTATTTCACTTGATATTCATTCCCCAATTCACTGCAAGGAGACCTCTACTGTCACCGTTTACTCTTTCCTACCCTGACATCCAG
AAACAATGGCCTCCAGTGCATACTTCTCAATCTTTGCTTTATGGCCTTTCCATCATAGTTGCCCACTCCCTCTCCTTACTTAGCTTCCAGGTCTTAACTT
CTCTGACTACTCTTGTCTTCCTCTCTCATCAATTTCTGCTTCTTCATGGAATGCTGACCTTCATTGCTCCATTTGTAGATTTTTGCTCTTCTCAGTTTAC
TCATTGTCCCCTGGAACAAATCACTGACATCTACAACCATTACCATCTCACTAAATAAGACTTTCTATCCAATAATGATTGATACCTCAAATGTAAGATG
CGTGATACTCAACATTTCATCGTCCACCTTCCCAACCCCAAACAATTCCATCTCGTTTCTTCTTGGTAAATGATGCTATGCTTTTTCCAACCAAGCCAGA
AACCTGTGTCATCTTTTCACCCCACCTTCAATCAACAAGTCCTCAATCAACAAGTCCTACTGACTGCACATCTTAAATATATCTTTATCAGTCCACAAGT
CCTTCCAATTATATTTCCCAAGTATATCTAGAACTTATCCACTTATATCCCCACTGCTACTACCTTAGTTTAGGGCTATATTCTCTTGAAAAAAAGTGTC
CTTACTTCCTGCCAATCCCCAAGTYATCTTCCAGAGTAAAATGCAAATCCCATCAGGCCACTTGGATGAAAACCCTTCAAGGATTACTGGATAGAATTCA
GGCTTTCCCCTCCASCCCCCAATCATAGCTCACAAACCTTCCTTGCTATTTGTTCTTAAGTAAAAAATCATTTTTCCWCCTCCCTCCCCAAACCCCAAGG
AACTCTCACTCTTGCTCAAGCTGTTCCGTCCCCTTACCACCCCTGATAMAACTGCCAGGTTAATTTCCAGAATTCTTGCAAGACTCAGTTCAGAAGTCAC
CTTCTTTCGTGAATGTTTTGATTCCCTGAGGCTACTTTATTTTGGTATGGCTGAAAAATCCTAGATTTTCTAAACAAAACCTGTTTGAATCTTGGTTCTG
ATATGGACTAGGAGAGAGACTGGGTCAAGTAAGCTTATCTCCCTGAGGCTGTTTCCTCGTCTGTTAAGTGTGAATATCAATACCTGCCTTTCATAATCAC
CAGGGAATAAAGTGGAATAATGTTGATAACAGTGCTTGGCACCTGGAAGTAGGTGGCAGATGTTAACGCCCTTCCTCCCTTGCAYTGCGCCCCCTGTGCC
TACCTCTAGCATTGTAACGACCACRTAGTATTGAAATGGCCAGTTTACTTGTCTGCCTTCCTTTCCAAGACCGTTGGTGCCTARAGGACTAGAATCGTGT
CCTATTTAACTTTGTGTTMCCAGGTCCTAGCTCAGGAGTTGGCAAATAAGAATTAAATGTCTGCTACACCGAAAACCTCACGCCTCTCATTCGTTGTGAT
TTTTGCATATGTTGTTGACTCAGGCTGAAACTCCTCCTCCTCCTACAGCAGCACTGTGTGCCGCCCCACTGCTGCCCCCACCTCTCGGGGCAGCTGGCGG
AGAAGAGAGGGGGCTTTCCAAATCCACTATGAATCCTTAAAAGGCTGAATAAGGGAACTTGAAACGATGCAGACAGGCAGGCAACCCGTAGTCGAGGGAC
ATAGGGCCATAAACGTCGAAGCCAGGTCTTGAGCGTCAGACAGAATGAGGTGTCCCAGAGCGGCGGAGGAGAGCCAGACGCACGCTGGTTCCGGTCTGGA
CGGAATCGCCGCGGAGCACGGCAGAGGCTAGGGCGGAATGGCTACGGCAGCGCAGTTCGCCAAGGCTCGGTCTCCGCCCTGCAGCCTATTTCCTCTAACC
CGCAGATCCACTATGGGAGGAGGCGGGGAGCGGGCTGGAGAGCACTAACAGAGACAGGCGGGGCGAGTCGTGGGCGCGTGACGTCACCCCGGGGTGTGCG
CGGCGCGAGCGGAAGCGGAAGCGGCTCTGTTCGCCGCCTCTCCCACCGGCCCGATGAGCTGCAGCGGCTCCGGCGCGGACCCCGAGGCGGCGCCGGCCTC
CGCCGCCTCGGCCCCGGGCCCCGCGCCCCCGGTCTCGGCTCCCGCCGCGCTGCCCTCCAGCACCGCCGCGGAGAACAAGGCCAGCCCCGCGGGGACAGCG
GGGGGACCTGGGGCTGGAGCAGCTGCTGGGGGCACGGGACCCTTGGCGGCGCGGGCCGGGGAGCCAGCTGAGCGGCGTGGGGCGGGTGAGGGCCGGGACG
GGTGAGGGCGAGGGAAGCGTCTTGGGCTGGGTCCAGCGGCGGGTGAGGGCAGAGGGTATAGACAGACCTAGCTGGGGCCCTGCGCCTCCCACCTCTGTGT
CTCATTTTGCTGGTTCTCCTCCAGCTCCGGTGTCGGCGGGTGGCGCGGCGCCCCCGGAGGGGGCCATATCTAACGGGGTTTACGTACTGCCGAGCGCGGC
CAACGGAGACGTGAAGCCCGTGGTGTCCAGCACGCCTTTGGTGGACTTCTTGATGCAGCTGGAAGATTACACGCCTACGGTGGGCTTCCGCCCGAACAAG
GCCACCTAGCCTGCTGTCAAAACTTTCAGCCACATCGTGCTTTTCAGCGTTCTCTTCCATTTGCTCCCCTAGTCGCTCTTCTGTGTTTGCCCTCTGCTCA
CCCAAACTGTGAGCTTCCTGATAATCAGGCCTATCCATTTCCCTCACCCTCCTCCCGCTCTGCTGACAGTTCTCTTAATTGATTTCTCAGATCCCAGATG
CAGTGACTGGTTACTACCTGAACCGTGCTGGCTTTGAGGCCTCAGACCCACGCATGTGAGTAAACCCAGGGCAGGTTAGTTTTGGGTGCTTGTGCAGTAT
GTTGTCCATCTCCTTCTCATCTAAGTTTTTTCTCTCTAGAATTCGGCTCATCTCCTTAGCTGCCCAGAAATTCATCTCAGATATTGCCAATGATGCCCTA
CAGCACTGCAAAATGAAGGGCACGGCCTCCGGCAGCTCCCGGAGCAAGAGCAAGGTGTGAGGGGAGGCTTAATGAATCAGTAATTACCTTCCACAACAGT
GGAGGCTTATCCTGCCACCCCTTTGGGGAAACTGAATCGTAGGGGAGGTGTAAGACTTACTCAGGGTCACCCATCTGGGATTGAAGTCCGGGATTCCTGT
GCTCAGTTGGTGCTCTTCCCTCTTCCCTCAGGACCGCAAGTACACTCTAACCATGGAGGACTTGACCCCTGCCCTCAGCGAGTATGGCATCAATGTGAAG
AAGCCGCACTACTTCACCTGAGCCACCCAACCTAAATGTACTTATCTGTCCCCATGTCCCCACACCAGCCTGTTTTCATAATAAACTTTATTGTGACAGG
CGGGGCTGATCCCTCCCATGTTGGGAGACACCATGTGGCAAGTGACAAAGCTCTGAGCCCGCCCCTCTTGGGGCCACAGTGGTAGGGATGGGGGAAGGGG
ATGGACCCCATGGCTGGGGTAGTACCATGACTGGAGGCGGGGGAGGCAACCAGAGGCCTGCTGCTTTGGGGAGGTGCATTCCCCCAACCATGTCCCGACA
CCTCTGGAGTTCAGGCAAGGACCTTCCAGTCCTACTTGTCCTGCATCTTCTCAAGGATAGGCACAATCATGTCAAATTTGGGTCGCTTTGCAGGGTCTTC
ATTCATGCAGATCTTCATGAGCTTACACACATGAGGGGAAATACCTGGTGGGATGGTAGGCCGAAGGCCTTCCAATGCCACCTGCGAATACAAGAAAAAA
AGCAGCCTCACAATTTGAGTCTGTCATGTAGAGAGAAGCCACTGGCCCTTGGGACAGGATTACTGTATATCCGAACAAATATGTGAGGAGCCAAGGCCCA
CTACAGTTATTTTCACCATCACCAACCACTCCCGCAACACAAATGTATGCTGTTGTGCTCTCACCTTCATTCCAATCTCCATATTGGAGAGGTCAGCAAA
GGGTACCTCCCGTGTCACCAGTTCCCACAGAAGCACTGCAAAACTCCACATGTCTGCTGAGCGTCTGTTTGTGTCTTCAGGCTTCTTCTGCAGAGCTGGA
GAGATAGGGCTTGTCTGTTCTGGCCCCCTTGCCTGTCCTGTCTCTGCCCCCTTCCACTACTTCTGAGGTGGTCCTTTTTTACCTCCCGACATGATGACTT
CACTCACCTTCGGGGGCTACCCAGGCAGGTGCATACATGCGACCAGGACATTGGAAAGAGAACTTGACATCAGCCATGCTAATTCGGGCAGTCATGTCCT
CATCAATCTGAGGAAGAGAAAACAGATAGAAGGAGGTAAGTCATAGATAGGCAAAGGGCTTTTGGGGCCTGGGCCAGGAGTGAGCTTGTGGCCTCACCAT
TACACTACGGCTATTGAGTGCATGTCGTGGGATGAGGGGCTCTAGTGTGTGTAGGAAGGCCATGCCCCTTGCCATGTCCAAAGCAAACTTCACAGCCTGG
CTCTGGTCCACGACGAAATCTGAGAGGAGGCAAAAGTCAAATAGTTCAGAGAGGCTCCCTCTCTGCCATTTCCTCCCCAAGGAAATTCAACATCCCTACT
CACTGGTGCCTTCATGTAGTACATTGTAGAGGGATCCATACGGCATCCAGTGTGTGATGAGAGTAGGATGAGGAGCAGGTGGAGACTGGCAGGCACCTAG
CACTGGGAGCACATTTGGATGCGAGAAAATCCTAGAAGAGGGAGGGAGTGGTTGAGACCCAGTACAAAAGATCTCTTTCAGTGCTATTCAGGGTTCCTTG
GAACTAGCAGCTTCCAGGTTACGCCTTGCACTACCTGAGCCGGGGACACTCTTCATTGAAGTCCCTGCTCTTCCTTGTACTCCAGTCTCGAACCTTCAGC
ACCTTCACGACAATGTCATTGCCCTGCCAGCGGCCCTTCCATAGCTGCAGGACAGGTAGGGGTTAGGAGGCTTGAAATGTTGCTGCCACTTCCTTGCCCA
CTAACTGGAGGAAAAACTTAAAACAGGTACAAAGCAAGTAATTTATGGGGGTTTAGTGAGGGAAGGGCAAGAAGGGCAGGGGTCACCTCTCCAGAGTGAT
TCTCGTTGAGCTTCGTCAGGAAGTTAAGCTGTTTGAAGTCAATGCCAGAGTGTTTGTTCAGGGTTCCATTTCCTAAGAGTGTGGGCAGGTCAGGTACCCA
GCTTCACCCTAACCCAGCCCCAAGAGGCCAGGATTATTTCCTTTTACAACCCTTCTTCCCACAGTGGTGACTCACGGGGCCGAGTGCGGGTGGTCCCCTT
CCAGAATGTGTCCTTGTATGGAATACGGTTGAGATTCTGGCCCATCTTCTCTGCCCGCTCTAGGGAAGAAAAACAACCTAAGCTGTGGTACAGAGGGAGA
AGACAGGTGGGAAGGGACGAGAGGACACAAGCTAGGGGATGGGGAGATGGACCTCGGAGAAGCTCTCTCAGGGGTGCCTTGGCTTTGTCCACAGGCATCT
CTCCATACTTGTTACAGATGCTGACAAGGGCCCCATTTGCCACCAGGTCCTGGAATGAAAAGGCCATTATGATGAGAGCCACTGCTACCTCGCTGGCAGT
CACTGAACCAACCATGAATGCACAAATGTAGAACTTAATCCTGTAAGTGTCACACAGTAGTACTGACAGAATGGGTTGAGGGTTCCAAAATCTCCCACCA
AGGCTCAGACTTTACTTCCTACCCATCTCAGGAATTAAGGGCTGAGTACTCACCTCTGCCACTTGATCTTGGCCCCAAAAACAGGCATAGTGCAGGGGCA
CATTCCCGTGTTCATTCACTGCATTGATGTCTGCCTTGTACTGCAATAGCTGGACCCCATGGCCAGACAAAAAGAAGAGGCAGAAAGTACAGTCAGTTCC
AAATGAGATACTGGTGTCAGGGCATGGGAAAAGGGGGAAGAGCACACATGCTTTCTACTGTATGTTACAGTGCCTGTGACTGACCCTCATGGCATGTATG
TGATGTGGATGACGAAGGAGTTTGTACGTACCTTCTGTACAATATCACGGTGTCCATGACTGGCTGCCAGATGCAGGGGGGTGTCATCCCCACGGTTCAT
TACATTGATCCGTGCCCCCCGCATGATCAACATCTCAACCACAGCAGAGCGGCCCTCTCGGCAGGCCCAGTGCAAGGGGGAGAAGCCATGATCGTCCCTT
TGAGGAAGGGGCAATGGTCATTGAGCTGGAGGTGGGATGGGGCAAAGGTTTTGATTCCTGAAAAACTGATAATTACATACTCTCTGGGAAGGCTTACCTC
TCTAGGACTTTGATTCTCATTCATGCCAGCAACTCCCAAAGCTGTCCATTTCAGACCTTCCCCTGAGCTTCAAACCAAACCAACCACCTAGATATCTCAA
CAACCTCTATAAAAAAATGTGTTATCTTCACCATATCCCACATCTCATTTCCTTAGGTGGTAGTGCTCTTCCCCTGGTTTCTCTTGCACCCCTTCTGCAA
CATCTATTGGTCCTTTCTGTTTTCCACCACATCTTATATGTCCCCCTACTTCAGCACTTGTTGCACTGGATTGTAAAAATCTGTTAATGGACTGTCTTGT
CTGTTAGACCTTTAAGTTTCTTGAGGGAATGGATTGACAGCAGCTGTTCAGTGCATGTTAGTGGGGGAGAAGGGTGTCTTGGAGAAGGCAGGCCACAACT
TATAGAAGAGGGAACAAACTTACTATTTGGCTCTGGTACTGAAACTAACATCTAAAAATGGAATGGAATTTAAATGATGTTTTGGAAGGGTTTATGTTGA
AAAGGAGAAATGCTTTTGACTACTGATGAGGTAGATAACAAACCACCATGCAAAGCAGGATTCCCCTACTTAGCAATCCTGTGCATAGAAAACAGAAGAA
AATGAGAATGGCTGTTTTGGGATTAAAACTATACCTGATTTTTTTCTTTTCCAAGAAATATGTATTTTATAAAGTAAAGTATACAAACAAAACAAAACAA
TTGGTTTGGAGCTGGGCCTGCCTGACAGCCTGGGGCCATAAAAGGAAATTCCCTCCAGTTCGGGGCTGCAGATTCAAGGGGCGGAGCAGGGGGCGGTCCG
TGGTCTGGGCCAGCAGCCTCCGGATGCCTTAGTGTTGTGGTCACTTCCTGTGTGCGACTCTAGGCAAGGCCTGGAGCTGATCAGGGGTCTGGCCATCCAG
ATGCCCGTACAGCTGAAGGGGTTGGGGGGTGTGGCCTTTAAGTTAATCATTTTCCTCCACAACTTGCTCGCATCTGCTAACACAGAAATAGCCAAAAGCT
TTTCCTTGAGATGGGATTATCCCCAGGAAGCATTACGCCCCCTGTTTATCAGTTGGTCTTGCCTCCTAGACCTTTAATTTGTGCCCTGACTTATCAGCTT
CCAGTACTGCCTGTGGCGCCAGGGCAGGCCAAACTCGGGGGGCAAAAGTATGGGCACAAGGGTTCTGTTCACTATCAGGCTGCGTGCCACCTC


SNP Information

Context             (SEQ ID NO:62802):
TATTGGCCATGGCATTTCAAGTCTCTCCAGCCTTTTCTTCCTCTGCTTCCCAAGTACACCCTACACCTGCACACATAGCCCTCCTTTACCCTGTTCCAGG
S
TTTGGGAAGTCCTGATGTCTCATAGTTGAGGTCCAAAAGGGGGAGTTTGGGAAAGCAATGAATGAGGGCAAGTGCCTCTTCTGAATCCCTGCAGGAAAAT
Celera SNP ID:            hCV9599933
SNP Position Genomic:     7573
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62803):
TTGGGGGGATCCTATCCTTGATCAATGAGCACAGGATCCTTAGTGGCCGCCCCCCTCTTGGCTTTCTCAACCCAAGGCTCTACCAGCAGCATGGGGCAGG
W
CTCTTTGATGTAAGTATGGAAGGGAAGGGTGTGGACGTTTTCAAACAACTATGGGGAGTGCTAAGGGGGACTTGGGGGCAGTTAGGGTGGTGTGGAATAG
Celera SNP ID:            hCV9599919
SNP Position Genomic:     10568
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,5)   caucasian(A,37|T,3)   total(A,70|T,8)
SNP Type:                 SILENT MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(T,11|A,114)      total(A,114|T,11) ;(T,-|A,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62804):
GTGTGTGCTTGTGAACTGCAGAGGCTGGGGACGGGGCAGTGTGACACTAGTGTGCATGGCAGGAAACAGTGACTCACCATCGTGTTAAGCTTAAAATCAA
M
AAGTATGCAAATTTGAGCTAAACTGAATAACTGGTGCCGAAAGATTTGAAAACATTTACCGGACATAAGCTTAAAATTAAAATGGAAAATTTATATGTAT
Celera SNP ID:            hCV16038066
SNP Position Genomic:     7288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62805):
TGACCTCTGTTCTCTGACCTCCAGACAAGCAGAGCTGCTGCTCCCTGGGGCTGAGTTTCATCACTATGTGGGAGGACCTACGGAAACCCATGTTGTAAGG
Y
CCCCACATCCCTACCAGCTTCCACAGGCCTTGGCCCCCCATGTGGACTTTGGTAACACCTATGGGGTGAATGGGGGTTGGGGCACACAGATCCAGGGGCT
Celera SNP ID:            hCV27541618
SNP Position Genomic:     8092
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62806):
TCCGTTTTGAGCTTTCTGACCTCTGTTCTCTGACCTCCAGACAAGCAGAGCTGCTGCTCCCTGGGGCTGAGTTTCATCACTATGTGGGAGGACCTACGGA
R
ACCCATGTTGTAAGGTCCCCACATCCCTACCAGCTTCCACAGGCCTTGGCCCCCCATGTGGACTTTGGTAACACCTATGGGGTGAATGGGGGTTGGGGCA
Celera SNP ID:            hCV16038067
SNP Position Genomic:     8076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62807):
ACGAAGTTCCTGAGCTCTAGCCCCCACCTGCCACCATCCAGTTACTTCAATGCCAGTGGCCGTGCCTACCCAGATGTGGCTGCACTTTCTGATGGCTACT
R
GGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCCGGAACCTCGGTGAGAATCAGCCCATCTCCAAACTCTCACTCAGGAACTACCCTTACCCCCTAA
Celera SNP ID:            hCV27536056
SNP Position Genomic:     10226
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:62808):
CTGATGCCAGCCTCCTCCCTAGGTAACCCGTGGCTGCCATGAGTCCTGTCTGGATGAAGAGGTAGAGGGCCAGGGTTTCTGCTCTGGTCCTGGCTGGGAT
Y
CTGTAACAGGCTGGGGAACACCCAACTTCCCAGCTTTGCTGAAGACTCTACTCAACCCCTGACCCTTTCCTATCAGGAGAGATGGCTTGTCCCCTGCCCT
Celera SNP ID:            hCV27536057
SNP Position Genomic:     10835
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62809):
GAGGGAGCACACATTGGGAGGGTGGGAACACAAGGACAACGTAGCTCCCACTGAAACCCACCTGCTGCCCCTACAGCCTCCTAGGGCTCTTTGCCCTCAT
M
CTCTCTGGCAAATGCAGTTACAGCCCGGAGCCCGACCAGCGGAGGACGTGAGTTGACTTAGCACAGACTGCCCCCTTCCCCATACCCTGTTCTGCCTCCC
Celera SNP ID:            hCV25597539
SNP Position Genomic:     6201
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,40)   total(A,1|C,77)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62810):
TGAGGAAGAGCTGAGTCTCACCTTTGCCCTGAGACAGCAGAATGTGGAAAGACTCTCGGAGCTGGTGCAGGCTGTGTCGGATCCCAGCTCTCCTCAATAC
R
GTGCCTTTTGGGACTGAGGACAGGATGTGGGATGCGGTGGAGGGACACAGGGCTGGGTTGGGCATGGGATGGCGATCATGTCAGAGCCTGCCAAGACACT
Celera SNP ID:            hCV27861498
SNP Position Genomic:     6668
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62811):
CTGACCCTCCACACGGTGCAAAAATGGCTCTTGGCAGCCGGAGCCCAGAAGTGCCATTCTGTGATCACACAGGACTTTCTGACTTGCTGGCTGAGCATCC
R
GTGAGAGGAAATGATTGCTCCATGGAGGGCACCAGTCATCCCATCAGTGAGATGGATGGGAGGGAGTTGAGAGCTTGCTGGGGCTTGTGGGTGGGAGCTA
Celera SNP ID:            hCV27861499
SNP Position Genomic:     7818
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62812):
GGTCAACACTGAGCTCATGAAGGCTGCCGCTCGGGGTCTCACCCTGCTCTTCGCCTCAGGTGACCTCCTACCCTAAACTTAGACAACGCTTACACCTCTG
Y
AGCCTGGGAGCTTTGACTCCACAGTGATCCCTGAGCCTGGTCTCTGACTCATAATCTGAACTCAGACCTTCCAGTAGGGACCACTGACCTGACCTCTACA
Celera SNP ID:            hCV15871339
SNP Position Genomic:     9170
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,491|C,814)   total(C,814|T,491)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62813):
CTGCCCTGAAGCTGGCAGTTCAGTCCCTTATTCTGCCCTGTTGGAAGCCCTGCTGAACCCTCAACTATTGACTGCTGCAGACAGCTTATCTCCCTAACCC
Y
GAAATGCTGTGAGCTTGACTTGACTCCCAACCCTACCATGCTCCATCATACTCAGGTCTCCCTACTCCTGCCTTAGATTCCTCAATAAGATGCTGTAACT
Celera SNP ID:            hCV27850622
SNP Position Genomic:     11029
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,39)   total(C,1|T,75)
SNP Type:                 UTR 3


Context             (SEQ ID NO:62814):
CCGTTTTCCCCCAACATCATCCCTGAGGCAACGTCCTGAGCCGCAGGTGACAGGGACTGTAGGCCTGCATCTGGGGGTAACCCCCTCTGTGATCCGTAAG
Y
GATACAACTTGACCTCACAAGACGTGGGCTCTGGCACCAGCAATAACAGCCAAGCCTGTGCCCAGGTGAGCCAAGCAAAGAGCCCCAGGGTCCTCATAGC
Celera SNP ID:            hCV27529185
SNP Position Genomic:     8404
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:62815):
GACCACATAGTATTGAAATGGCCAGTTTACTTGTCTGCCTTCCTTTCCAAGACCGTTGGTGCCTAGAGGACTAGAATCGTGTCCTATTTAACTTTGTGTT
M
CCAGGTCCTAGCTCAGGAGTTGGCAAATAAGAATTAAATGTCTGCTACACCGAAAACCTCACGCCTCTCATTCGTTGTGATTTTTGCATATGTTGTTGAC
Celera SNP ID:            hCV9599903
SNP Position Genomic:     12619
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:62816):
TCTCCAAACTCTCACTCAGGAACTACCCTTACCCCCTAACACCTTGAACACCTTGCACCTAGAACCCCTGACTCCTTAGAGATGTCTGATACTTTAAAGC
R
TCACTCCCAAAAAGTCCAATCACTCAGAACCCCTGACCTCTACTTGCACCTTCACTCTTGTAGGCCTCTACTCCAGTGTTTGGGGGGATCCTATCCTTGA
Celera SNP ID:            hCV9599920
SNP Position Genomic:     10388
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(G,1|A,82)      total(G,1|A,82) ;(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62817):
TACAGGCTGCCCCCAGGCTGGGTGTCCCTGGGCCGTGCGGACCCTGAGGAAGAGCTGAGTCTCACCTTTGCCCTGAGACAGCAGAATGTGGAAAGACTCT
Y
GGAGCTGGTGCAGGCTGTGTCGGATCCCAGCTCTCCTCAATACGGTGCCTTTTGGGACTGAGGACAGGATGTGGGATGCGGTGGAGGGACACAGGGCTGG
Celera SNP ID:            hCV16070523
SNP Position Genomic:     6624
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,40)   total(C,74|T,2)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,40)   total(C,67|T,1)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62818):
AGGCTGTGTCGGATCCCAGCTCTCCTCAATACGGTGCCTTTTGGGACTGAGGACAGGATGTGGGATGCGGTGGAGGGACACAGGGCTGGGTTGGGCATGG
R
ATGGCGATCATGTCAGAGCCTGCCAAGACACTTGTGTTCCTCAGGCTAGAAACCTAAAAGGGGATGTGGTTCAGTATACAGGCTTTATGATCAAATACGA
Celera SNP ID:            hCV16070524
SNP Position Genomic:     6736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62819):
AGGTCCCAGGCCCCAAATCTCTTGTGTGGGATACAGCTCCCATTGTTCCTTTTCGTCAGTTCCCAGGCATTTTAGTGGAAGATTTGGTGGGTGTTCTGTA
S
AGAAAAGTGTGCACAGTCACCTCGGGCCATGCCTTGAAGGCTCAAAATCTCTTAGTCAATCCCATATACATGCTTCCCCACAGAGTCTAGTTCCTCCAGC
Celera SNP ID:            hCV16070540
SNP Position Genomic:     9693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62820):
TGAGAATCAGCCCATCTCCAAACTCTCACTCAGGAACTACCCTTACCCCCTAACACCTTGAACACCTTGCACCTAGAACCCCTGACTCCTTAGAGATGTC
Y
GATACTTTAAAGCATCACTCCCAAAAAGTCCAATCACTCAGAACCCCTGACCTCTACTTGCACCTTCACTCTTGTAGGCCTCTACTCCAGTGTTTGGGGG
Celera SNP ID:            hCV9599921
SNP Position Genomic:     10374
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,21)   caucasian(C,13|T,27)   total(C,14|T,48)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,30)   caucasian(C,13|T,27)   total(C,17|T,57)   
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(C,13|T,72)      total(C,13|T,72) ;(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62821):
GCCTACATCCAGCGGGTCAACACTGAGCTCATGAAGGCTGCCGCTCGGGGTCTCACCCTGCTCTTCGCCTCAGGTGACCTCCTACCCTAAACTTAGACAA
Y
GCTTACACCTCTGCAGCCTGGGAGCTTTGACTCCACAGTGATCCCTGAGCCTGGTCTCTGACTCATAATCTGAACTCAGACCTTCCAGTAGGGACCACTG
Celera SNP ID:            hCV29268171
SNP Position Genomic:     9156
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62822):
TGTGGGATACAGCTCCCATTGTTCCTTTTCGTCAGTTCCCAGGCATTTTAGTGGAAGATTTGGTGGGTGTTCTGTAGAGAAAAGTGTGCACAGTCACCTC
R
GGCCATGCCTTGAAGGCTCAAAATCTCTTAGTCAATCCCATATACATGCTTCCCCACAGAGTCTAGTTCCTCCAGCAAGACCTGGGCTATACTCACCCCT
Celera SNP ID:            hCV16070541
SNP Position Genomic:     9717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62823):
CACATCCTTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGGCCTTCATACCAGGTA
S
GTGTGTTTGTGTGGATGGATGCAGGGTAAGAGTGAGGATGGGGGATCCTCAGTTCAGCTGACTGCTGGGCAGGCCACATGCCAATACTCACTCAAAAATG
Celera SNP ID:            hCV27859726
SNP Position Genomic:     10005
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62824):
ACTGCACCGTTTTCCCCCAACATCATCCCTGAGGCAACGTCCTGAGCCGCAGGTGACAGGGACTGTAGGCCTGCATCTGGGGGTAACCCCCTCTGTGATC
Y
GTAAGCGATACAACTTGACCTCACAAGACGTGGGCTCTGGCACCAGCAATAACAGCCAAGCCTGTGCCCAGGTGAGCCAAGCAAAGAGCCCCAGGGTCCT
Celera SNP ID:            hCV27541460
SNP Position Genomic:     8398
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62825):
GATAACAGTGCTTGGCACCTGGAAGTAGGTGGCAGATGTTAACGCCCTTCCTCCCTTGCACTGCGCCCCCTGTGCCTACCTCTAGCATTGTAACGACCAC
R
TAGTATTGAAATGGCCAGTTTACTTGTCTGCCTTCCTTTCCAAGACCGTTGGTGCCTAGAGGACTAGAATCGTGTCCTATTTAACTTTGTGTTCCCAGGT
Celera SNP ID:            hCV9599907
SNP Position Genomic:     12525
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   POOLE|_CEPH(A,44|G,144)   total(G,144|A,44) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:62826):
TGCCTTTCATAATCACCAGGGAATAAAGTGGAATAATGTTGATAACAGTGCTTGGCACCTGGAAGTAGGTGGCAGATGTTAACGCCCTTCCTCCCTTGCA
Y
TGCGCCCCCTGTGCCTACCTCTAGCATTGTAACGACCACATAGTATTGAAATGGCCAGTTTACTTGTCTGCCTTCCTTTCCAAGACCGTTGGTGCCTAGA
Celera SNP ID:            hCV9599908
SNP Position Genomic:     12485
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   POOLE|_CEPH(C,86|T,102)   total(C,86|T,102) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:62827):
ACATCCTTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGGCCTTCATACCAGGTAC
R
TGTGTTTGTGTGGATGGATGCAGGGTAAGAGTGAGGATGGGGGATCCTCAGTTCAGCTGACTGCTGGGCAGGCCACATGCCAATACTCACTCAAAAATGC
Celera SNP ID:            hCV9599925
SNP Position Genomic:     10006
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,9)   caucasian(G,40)   total(A,1|G,49)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(A,3|G,160)      total(G,160|A,3) ;(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62828):
TTTGTTCTTAAGTAAAAAATCATTTTTCCTCCTCCCTCCCCAAACCCCAAGGAACTCTCACTCTTGCTCAAGCTGTTCCGTCCCCTTACCACCCCTGATA
M
AACTGCCAGGTTAATTTCCAGAATTCTTGCAAGACTCAGTTCAGAAGTCACCTTCTTTCGTGAATGTTTTGATTCCCTGAGGCTACTTTATTTTGGTATG
Celera SNP ID:            hCV9599909
SNP Position Genomic:     12149
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:62829):
ACAGTGGGGGGACTGCACCGTTTTCCCCCAACATCATCCCTGAGGCAACGTCCTGAGCCGCAGGTGACAGGGACTGTAGGCCTGCATCTGGGGGTAACCC
Y
CTCTGTGATCCGTAAGCGATACAACTTGACCTCACAAGACGTGGGCTCTGGCACCAGCAATAACAGCCAAGCCTGTGCCCAGGTGAGCCAAGCAAAGAGC
Celera SNP ID:            hCV27540481
SNP Position Genomic:     8387
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62830):
GGACGTTTTCAAACAACTATGGGGAGTGCTAAGGGGGACTTGGGGGCAGTTAGGGTGGTGTGGAATAGCCTTTGAAATGTGAGTACAGGGTGAGGAGATA
Y
ACTCTTTAAGTACTGGTACTAGTAGGCCCAGATCTGATGCCAGCCTCCTCCCTAGGTAACCCGTGGCTGCCATGAGTCCTGTCTGGATGAAGAGGTAGAG
Celera SNP ID:            hCV25597540
SNP Position Genomic:     10701
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,37)   total(C,1|T,73)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,35)   total(C,1|T,73)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,39)   total(C,1|T,75)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62831):
ATTTGGTGGGTGTTCTGTAGAGAAAAGTGTGCACAGTCACCTCGGGCCATGCCTTGAAGGCTCAAAATCTCTTAGTCAATCCCATATACATGCTTCCCCA
S
AGAGTCTAGTTCCTCCAGCAAGACCTGGGCTATACTCACCCCTCCCCACATATCTTGGAGGTCCCCTTGGGTCCCCTACTATCCAAATGCTGTCTTCTCC
Celera SNP ID:            hCV9599926
SNP Position Genomic:     9774
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(G,8|C,119)      total(G,8|C,119) ;JBIC-allele(G,175|C,1116)   total(G,175|C,1116)(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62832):
AAGCGATACAACTTGACCTCACAAGACGTGGGCTCTGGCACCAGCAATAACAGCCAAGCCTGTGCCCAGGTGAGCCAAGCAAAGAGCCCCAGGGTCCTCA
Y
AGCCTCCCCACAGTGTCCTCAATTCCTTACCACCCTGGGACTCACCCTCGGACCCACGATCTCTGCTCTGACTCCCTCCATAGTTCCTGGAGCAGTATTT
Celera SNP ID:            hCV9599927
SNP Position Genomic:     8501
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,21)   caucasian(C,1|T,21)   total(C,2|T,42)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(C,5|T,33)   total(C,6|T,64)   
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(C,55|T,196)      total(C,55|T,196) ;(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62833):
CAGCCCTGCCACATGTGCATACTGTGAGCTATGGAGATGATGAGGACTCCCTCAGCAGCGCCTACATCCAGCGGGTCAACACTGAGCTCATGAAGGCTGC
Y
GCTCGGGGTCTCACCCTGCTCTTCGCCTCAGGTGACCTCCTACCCTAAACTTAGACAACGCTTACACCTCTGCAGCCTGGGAGCTTTGACTCCACAGTGA
Celera SNP ID:            hCV25597541
SNP Position Genomic:     9097
SNP Source:               Applera
Population(Allele,Count): african american(C,4)   caucasian(C,19|T,1)   total(C,23|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62834):
AAGCTGGCAGTTCAGTCCCTTATTCTGCCCTGTTGGAAGCCCTGCTGAACCCTCAACTATTGACTGCTGCAGACAGCTTATCTCCCTAACCCTGAAATGC
K
GTGAGCTTGACTTGACTCCCAACCCTACCATGCTCCATCATACTCAGGTCTCCCTACTCCTGCCTTAGATTCCTCAATAAGATGCTGTAACTAGCATTTT
Celera SNP ID:            hCV16038074
SNP Position Genomic:     11037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:62835):
TTTCAGGAGGAAGCTGTAACGAAGTTCCTGAGCTCTAGCCCCCACCTGCCACCATCCAGTTACTTCAATGCCAGTGGCCGTGCCTACCCAGATGTGGCTG
M
ACTTTCTGATGGCTACTGGGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCCGGAACCTCGGTGAGAATCAGCCCATCTCCAAACTCTCACTCAGGA
Celera SNP ID:            hCV27529587
SNP Position Genomic:     10208
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62836):
TGTAAGGTGGGCATTACAGTCTATAAGATCTCCTCAAGCCTGACTTCTCCCTACAGTGGGGGGACTGCACCGTTTTCCCCCAACATCATCCCTGAGGCAA
Y
GTCCTGAGCCGCAGGTGACAGGGACTGTAGGCCTGCATCTGGGGGTAACCCCCTCTGTGATCCGTAAGCGATACAACTTGACCTCACAAGACGTGGGCTC
Celera SNP ID:            hCV25597542
SNP Position Genomic:     8335
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,38)   total(C,69|T,3)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,38)   total(C,65|T,3)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62837):
GCTTTGCTGAAGACTCTACTCAACCCCTGACCCTTTCCTATCAGGAGAGATGGCTTGTCCCCTGCCCTGAAGCTGGCAGTTCAGTCCCTTATTCTGCCCT
R
TTGGAAGCCCTGCTGAACCCTCAACTATTGACTGCTGCAGACAGCTTATCTCCCTAACCCTGAAATGCTGTGAGCTTGACTTGACTCCCAACCCTACCAT
Celera SNP ID:            hCV27833035
SNP Position Genomic:     10968
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 UTR 3


Context             (SEQ ID NO:62838):
GAAACCCATGTTGTAAGGTCCCCACATCCCTACCAGCTTCCACAGGCCTTGGCCCCCCATGTGGACTTTGGTAACACCTATGGGGTGAATGGGGGTTGGG
R
CACACAGATCCAGGGGCTGAGGAAGTTTAGATGCCATTGGGGACTGGGGGTGGGGTGAGTTGTAAGGTGGGCATTACAGTCTATAAGATCTCCTCAAGCC
Celera SNP ID:            hCV25762624
SNP Position Genomic:     8174
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,36)   total(A,1|G,67)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:62839):
GATGTCTGATACTTTAAAGCATCACTCCCAAAAAGTCCAATCACTCAGAACCCCTGACCTCTACTTGCACCTTCACTCTTGTAGGCCTCTACTCCAGTGT
K
TGGGGGGATCCTATCCTTGATCAATGAGCACAGGATCCTTAGTGGCCGCCCCCCTCTTGGCTTTCTCAACCCAAGGCTCTACCAGCAGCATGGGGCAGGA
Celera SNP ID:            hCV27859137
SNP Position Genomic:     10468
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62840):
ACTGACCCTCCACACGGTGCAAAAATGGCTCTTGGCAGCCGGAGCCCAGAAGTGCCATTCTGTGATCACACAGGACTTTCTGACTTGCTGGCTGAGCATC
Y
GGTGAGAGGAAATGATTGCTCCATGGAGGGCACCAGTCATCCCATCAGTGAGATGGATGGGAGGGAGTTGAGAGCTTGCTGGGGCTTGTGGGTGGGAGCT
Celera SNP ID:            hCV27861500
SNP Position Genomic:     7817
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:62841):
CAATACTCACTCAAAAATGCCTTTCAGGAGGAAGCTGTAACGAAGTTCCTGAGCTCTAGCCCCCACCTGCCACCATCCAGTTACTTCAATGCCAGTGGCC
R
TGCCTACCCAGATGTGGCTGCACTTTCTGATGGCTACTGGGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCCGGAACCTCGGTGAGAATCAGCCCA
Celera SNP ID:            hCV27537176
SNP Position Genomic:     10187
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62842):
ACTGCGCCCCCTGTGCCTACCTCTAGCATTGTAACGACCACATAGTATTGAAATGGCCAGTTTACTTGTCTGCCTTCCTTTCCAAGACCGTTGGTGCCTA
R
AGGACTAGAATCGTGTCCTATTTAACTTTGTGTTCCCAGGTCCTAGCTCAGGAGTTGGCAAATAAGAATTAAATGTCTGCTACACCGAAAACCTCACGCC
Celera SNP ID:            hCV27467410
SNP Position Genomic:     12584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:62843):
GTAACAAATTTCCCCTCTGACATCCGAACCCACATACTAAGCCCTAACCAATTAATATGAATGCTACACTTGGTCTCTCTCAGGTGACAGTGGGGCCGGG
Y
GTTGGTCTGTCTCTGGAAGACACCAGTTCCGCCCTACCTTCCCTGCCTCCAGGTAAGTACTCTAGCCTACCACTCAGGTATAACCACCACCTTTCACTTG
Celera SNP ID:            hCV27861501
SNP Position Genomic:     9386
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62844):
GCTGCTCAGTAATGAGTCAGCCCTGCCACATGTGCATACTGTGAGCTATGGAGATGATGAGGACTCCCTCAGCAGCGCCTACATCCAGCGGGTCAACACT
R
AGCTCATGAAGGCTGCCGCTCGGGGTCTCACCCTGCTCTTCGCCTCAGGTGACCTCCTACCCTAAACTTAGACAACGCTTACACCTCTGCAGCCTGGGAG
Celera SNP ID:            hCV27531993
SNP Position Genomic:     9080
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62845):
TAACAAATTTCCCCTCTGACATCCGAACCCACATACTAAGCCCTAACCAATTAATATGAATGCTACACTTGGTCTCTCTCAGGTGACAGTGGGGCCGGGT
R
TTGGTCTGTCTCTGGAAGACACCAGTTCCGCCCTACCTTCCCTGCCTCCAGGTAAGTACTCTAGCCTACCACTCAGGTATAACCACCACCTTTCACTTGT
Celera SNP ID:            hCV27861502
SNP Position Genomic:     9387
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62846):
CCAGCAAGACCTGGGCTATACTCACCCCTCCCCACATATCTTGGAGGTCCCCTTGGGTCCCCTACTATCCAAATGCTGTCTTCTCCCCTCAGCCCCTATG
W
CACCACAGTGGGAGGCACATCCTTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGG
Celera SNP ID:            hCV27861503
SNP Position Genomic:     9889
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62847):
CATGCGCCTCTTCGGTGGCAACTTTGCACATCAGGCATCAGTAGCCCGTGTGGTTGGACAACAGGGCCGGGGCCGGGCCGGGATTGAGGCCAGTCTAGAT
R
TGCAGTACCTGATGAGTGCTGGTGCCAACATCTCCACCTGGGTCTACAGTAGCCCTGGTACTACCAAGAGGACTGGACAGTGGGGAAGGGGGTGGGAGAT
Celera SNP ID:            hCV27859192
SNP Position Genomic:     8726
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62848):
GGGCTATACTCACCCCTCCCCACATATCTTGGAGGTCCCCTTGGGTCCCCTACTATCCAAATGCTGTCTTCTCCCCTCAGCCCCTATGTCACCACAGTGG
R
AGGCACATCCTTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGGCCTTCATACCAG
Celera SNP ID:            hCV27861504
SNP Position Genomic:     9901
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62849):
CGCCTCTTCGGTGGCAACTTTGCACATCAGGCATCAGTAGCCCGTGTGGTTGGACAACAGGGCCGGGGCCGGGCCGGGATTGAGGCCAGTCTAGATGTGC
M
GTACCTGATGAGTGCTGGTGCCAACATCTCCACCTGGGTCTACAGTAGCCCTGGTACTACCAAGAGGACTGGACAGTGGGGAAGGGGGTGGGAGATGGGT
Celera SNP ID:            hCV27859193
SNP Position Genomic:     8730
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62850):
GAGGCACATCCTTCCAGGAACCTTTCCTCATCACAAATGAAATTGTTGACTATATCAGTGGTGGTGGCTTCAGCAATGTGTTCCCACGGCCTTCATACCA
S
GTACGTGTGTTTGTGTGGATGGATGCAGGGTAAGAGTGAGGATGGGGGATCCTCAGTTCAGCTGACTGCTGGGCAGGCCACATGCCAATACTCACTCAAA
Celera SNP ID:            hCV27861505
SNP Position Genomic:     10001
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62851):
GTAAGAGTGAGGATGGGGGATCCTCAGTTCAGCTGACTGCTGGGCAGGCCACATGCCAATACTCACTCAAAAATGCCTTTCAGGAGGAAGCTGTAACGAA
K
TTCCTGAGCTCTAGCCCCCACCTGCCACCATCCAGTTACTTCAATGCCAGTGGCCGTGCCTACCCAGATGTGGCTGCACTTTCTGATGGCTACTGGGTGG
Celera SNP ID:            hCV27861506
SNP Position Genomic:     10131
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62852):
CAGTTACTTCAATGCCAGTGGCCGTGCCTACCCAGATGTGGCTGCACTTTCTGATGGCTACTGGGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCC
R
GAACCTCGGTGAGAATCAGCCCATCTCCAAACTCTCACTCAGGAACTACCCTTACCCCCTAACACCTTGAACACCTTGCACCTAGAACCCCTGACTCCTT
Celera SNP ID:            hCV27861507
SNP Position Genomic:     10264
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62853):
CCACTGACCTGACCTCTACACTCTGACCTCCTACAGTAACAAATTTCCCCTCTGACATCCGAACCCACATACTAAGCCCTAACCAATTAATATGAATGCT
R
CACTTGGTCTCTCTCAGGTGACAGTGGGGCCGGGTGTTGGTCTGTCTCTGGAAGACACCAGTTCCGCCCTACCTTCCCTGCCTCCAGGTAAGTACTCTAG
Celera SNP ID:            hCV25762919
SNP Position Genomic:     9351
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,1)   caucasian(A,38)   total(A,61|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62854):
TTCAATGCCAGTGGCCGTGCCTACCCAGATGTGGCTGCACTTTCTGATGGCTACTGGGTGGTCAGCAACAGAGTGCCCATTCCATGGGTGTCCGGAACCT
Y
GGTGAGAATCAGCCCATCTCCAAACTCTCACTCAGGAACTACCCTTACCCCCTAACACCTTGAACACCTTGCACCTAGAACCCCTGACTCCTTAGAGATG
Celera SNP ID:            hCV27861508
SNP Position Genomic:     10271
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62855):
AGGGGATGTGGTTCAGTATACAGGCTTTATGATCAAATACGAACTCAAATTCTGACTCTGCTACTTACTAGCTACCAGGCATCTAGTACAACTTACGTTC
Y
TTCCCCTACCCTCAAATCCATTCTAATTTCCTCTTTTGTTCACATACTAAGGCTGCCAGTTCTAACTCCCAAAGAGCCTTTGGATTAATCTCCTTCTTGC
Celera SNP ID:            hCV16070531
SNP Position Genomic:     6895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62856):
CAAGGATTACTGGATAGAATTCAGGCTTTCCCCTCCAGCCCCCAATCATAGCTCACAAACCTTCCTTGCTATTTGTTCTTAAGTAAAAAATCATTTTTCC
W
CCTCCCTCCCCAAACCCCAAGGAACTCTCACTCTTGCTCAAGCTGTTCCGTCCCCTTACCACCCCTGATACAACTGCCAGGTTAATTTCCAGAATTCTTG
Celera SNP ID:            hCV9599913
SNP Position Genomic:     12078
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:62857):
ATCCCCAAGTCATCTTCCAGAGTAAAATGCAAATCCCATCAGGCCACTTGGATGAAAACCCTTCAAGGATTACTGGATAGAATTCAGGCTTTCCCCTCCA
S
CCCCCAATCATAGCTCACAAACCTTCCTTGCTATTTGTTCTTAAGTAAAAAATCATTTTTCCTCCTCCCTCCCCAAACCCCAAGGAACTCTCACTCTTGC
Celera SNP ID:            hCV9599914
SNP Position Genomic:     12015
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:62858):
TTGCTGTACTCCTGTCTCTTCTTCCTGCAGGTCCCAGGCCCCAAATCTCTTGTGTGGGATACAGCTCCCATTGTTCCTTTTCGTCAGTTCCCAGGCATTT
K
AGTGGAAGATTTGGTGGGTGTTCTGTAGAGAAAAGTGTGCACAGTCACCTCGGGCCATGCCTTGAAGGCTCAAAATCTCTTAGTCAATCCCATATACATG
Celera SNP ID:            hCV16070533
SNP Position Genomic:     9665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62859):
CTACGGAAACCCATGTTGTAAGGTCCCCACATCCCTACCAGCTTCCACAGGCCTTGGCCCCCCATGTGGACTTTGGTAACACCTATGGGGTGAATGGGGG
W
TGGGGCACACAGATCCAGGGGCTGAGGAAGTTTAGATGCCATTGGGGACTGGGGGTGGGGTGAGTTGTAAGGTGGGCATTACAGTCTATAAGATCTCCTC
Celera SNP ID:            hCV9599931
SNP Position Genomic:     8169
SNP Source:               Applera
Population(Allele,Count): african american(A,9|T,23)   caucasian(A,18|T,12)   total(A,27|T,35)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,11|T,23)   caucasian(A,22|T,12)   total(A,33|T,35)   
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(T,45|A,88)      total(A,88|T,45) ;(T,-|A,-)   JBIC-allele(T,742|A,751)   total(A,751|T,742)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62860):
TATCTAGAACTTATCCACTTATATCCCCACTGCTACTACCTTAGTTTAGGGCTATATTCTCTTGAAAAAAAGTGTCCTTACTTCCTGCCAATCCCCAAGT
Y
ATCTTCCAGAGTAAAATGCAAATCCCATCAGGCCACTTGGATGAAAACCCTTCAAGGATTACTGGATAGAATTCAGGCTTTCCCCTCCAGCCCCCAATCA
Celera SNP ID:            hCV9599915
SNP Position Genomic:     11925
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:62861):
GAGGGCAAGTGCCTCTTCTGAATCCCTGCAGGAAAATACCTGACCCTAGAGAATGTGGCTGATCTGGTGAGGCCATCCCCACTGACCCTCCACACGGTGC
R
AAAATGGCTCTTGGCAGCCGGAGCCCAGAAGTGCCATTCTGTGATCACACAGGACTTTCTGACTTGCTGGCTGAGCATCCGGTGAGAGGAAATGATTGCT
Celera SNP ID:            hCV9599932
SNP Position Genomic:     7737
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): LINCL patients and families, other patients and controls(G,8|A,103)      total(G,8|A,103) ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62862):
TGAGCTCATGAAGGCTGCCGCTCGGGGTCTCACCCTGCTCTTCGCCTCAGGTGACCTCCTACCCTAAACTTAGACAACGCTTACACCTCTGCAGCCTGGG
W
GCTTTGACTCCACAGTGATCCCTGAGCCTGGTCTCTGACTCATAATCTGAACTCAGACCTTCCAGTAGGGACCACTGACCTGACCTCTACACTCTGACCT
Celera SNP ID:            hCV16020520
SNP Position Genomic:     9179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62863):
CAGTGTGACACTAGTGTGCATGGCAGGAAACAGTGACTCACCATCGTGTTAAGCTTAAAATCAACAAGTATGCAAATTTGAGCTAAACTGAATAACTGGT
R
CCGAAAGATTTGAAAACATTTACCGGACATAAGCTTAAAATTAAAATGGAAAATTTATATGTATTAACCTCATTCATTTTCATGATCATGGCAATACATG
Celera SNP ID:            hCV29268166
SNP Position Genomic:     7324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 382
Celera Gene:                 hCG22079 - 176000014541023
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x54KRFTF0F9(20733187..20750199)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12542):
GTGAACTCCCATTCACAATTGCTACAAACAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTATGAACCACT
GCTCAACTAAATAAAAGAGGACACAAACAAATGGAAGAACATTCCATACTCATAGATAGGAAATTGTGAAAATGGCCATACTCCCCAAGGTAATTTATAG
ATTCAATGCTATCCCCATCAAGCTACCACTGACTTTCTTCACAGAATTGGAAAAACTACTTTAAACTTCATATGGAACCAAAAGAAAGCCTGCAGAGCCA
AGACAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACTCTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAACAGCATGGTACTGGTAC
CAAAACAGATATATAGACCAATGGAACAGAACAGGGGCCTCAGAAATAACACTACACAACTACAACCATCTGGTCTTTGATCTGACAAAAACAAGCAATG
GGGAAAGGATTCCCTATTTAATAAATGGTGCTGAGAAAACTGGCTGGTCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTATACCTTATACAAAAATT
AACTCAAGATGGATTAAAGACTTAAATGTTAGACCTAACACCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGCAAAG
ACTTCATGACTAAAACACTAAAAGCAATGGCAGTAAAAGGCAAAGTACACAAATGGGATCTGATTAAACTGAAGAGCTTCTGCACAGCAAAAGAAACTAT
CATCAGAGTGAACAGGCAACCTACAGAATAGGAGAAAATCTTTGCAATCTACCCATCTGACAAAGGGCTAACATCCAGAATCTACAGAGAACTTAAACAA
ATTTACAAGAAAAAAAAAACAACCCCATCAAAAAGTGGGCAAAGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGCCGCCAACAGACATACGAA
AAAATGGTCATCATCACTGGCCATCAGAGAAATGCATATGAAAACCGCAATGAGATACCATCTCACACCAGTTAGAATGGTAATCATTAAAAAGTCAGGA
AACAACAGATGCTGGAGAGGATGTGGAGAAAGAGGAACGCTTTCACACTGTTGGTGGGAGTGTAAATTAGTTAAACCATTGTGGAAGACAGTGTGGTGAT
TCCTCAAGGATCTAGAATTAGAAATACCATTTGACCCAGCAATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATGCTACTGTAAAGACACATG
CACATATATGTTTATTGTGGCACTATTCACAATAGCAAAGAGTTGTCCATCAATGATAGACTGGATTAAGAAAATGTGGCACATATACAACACAGACTAC
TATGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGCAGGGACATGGATTAAGCTGGAAACGATCATTCTAAGCAAACTATCACAAGGACAGAAAACCA
AACACCACATGTTCTCACTCATAGGTGGGAGTTGAACAATGAGAACACATGGACACAGGGCGGGGAACATCACACACTGGGCCCTATTGGGAGGTGAGGG
GCTGGGGGAGGGATAGCATTAGGAGAAATACCTAATGTAAATGACGAGTTGATGGGTGCAGCAACCGAACATGGCACAAGTATACCTACGTAACAAACCT
GCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATTTTTAAAAATTATTTAAAAATTAAAAAATAAATAAATAAATAAATTTTAAAAAATAAAATA
AAAATCATATATCAGGTAAGGGACTGGTATTCTGAATATATAATATTGCAACAAAATATAATTGCAATTATATATTATATATAATATATAATGTTGCAAC
TCAACATTATAAAGTGAAATAACCCAATTTAAATATATGCAAGGAATTTGAATAGACATTTCTCCAAAGTAAGACAGGTATACTACACGGTGGTCTCAAA
AGAATAGAAAATTTTGGGCAGCAGTTTCAGGTGACTAGCAAAAGGAATCTGTTGAAATATGTGCAGAGGCTCTGGGCTGATAAGATGCTGAAAAACAGCA
TGTGGACCAAGCTGGCTAAGAATGACTGGACCCAACAAGGCCCTGCATTTGACCTAGGTTTCACCTAGGACCTCATTACATGCTGATTAACATACTAAAC
ACACACCAGCCAGCTCCTGAGCAGTTCTGAGAACACTTATATTTAGTGTAAAAATGCGCGGCACCACAGTTCTGAGAAATCTCTACCTTCTTCCAGGAAT
TTTCATGAATATTCCACTCCTTGGTTAAAGAAACCCAGAAAGGTGGCAGCCCCAAACTTGCACCTGCTTCTCTCTCGAGTTCCCCTGCACTCCCTTTACT
TGACTGTGTACTTTGCCTTTTACAATAAATCTCCGTCCTTTCTCTATTTCCTACTGGTCCTTGAATTAATTTCCCCGGCAATATCAAGAATCTGGACACT
GGCTGGAGTCGAGGTCCCACCGGCGTTTGGGGACCTCCCCTTGCCCGCTGGCATCAGAAGAAGAATGCAAATCGCAGTGAGCCCAGGAAAAGGTGTTCAG
TGTTCACAGCCCTCAGGGAAATGCCAATCGCACCCACAAGGGGACGCCTCACCCCGCTGAAATGGCTGATCCCAAACACAGTGAGGGTGGAGGGGGTGGG
GCCTGTGTTCCTTACTGGGCAGAGAGCAGGAGACGGAGAGTCGGTGGAGTGTGGGGGCTGTGCGCGTGTCCCCCTCTCCCCATTTTCGTGGTGGGGGTTT
CTCATTGTTCTCCGGCCCTGTTTCCTTCCTCTCCCTTTCTGCCGCCCTCCCTCCAATCCTTCTTTTCCACCTATCCCAAGGTTTTCTCCGCCTCACGACG
TCCATGCTAGGGCCTCCCAGACCAGCGGAGAAACCAGCAGCCCTGGACCGCAAGCGGCGGGGTCAGGGAGGCGACAACGGGAAGCCCCTGCCGGACCCTG
GACACTCAGGACCTAGTGCTGCCCGGGCGCCCTCCCGCAGCAGCCCCAGGGCGAGGAGGATGGGGGGGGTCCTCGCAGGGGCCACACTGTCGGAGCCCCA
CGGATCCGGGCGGGACGGTGAGGCCTCCACACTGAGCCGGTGGCAAAGTCCCCGCGAGGATGAAGGAGGAACCCCGTGCTCCTCACCCCACCAGGCCCCG
CATTTCCTGGCTCCTCCTGTCTCAGGAACCGCCTGTCCCTTGCCGCGACCGGCGAGTCCTTCCGGGTCTTCCTGAAACAGTTTCGTCCCGAGGCTCTGGA
TCTGGAAGCCCAGGGGCATCGTCCGGGAGCGGGGCACCCACTGTGGGTCTCCGCCAGCCAGCACTCAGGCCCGGAGCTCGGGGACAGCGGGCGCCCTGGG
AGGAGCACACAGAACCATATCAAGGCTTAGGTCCTGTCGAGCTCTAGAGGGTTTAGCAAATTCAGGTCTGTTTCAGACTGTGTCTCTGGTCATAAGGAAC
CCCCACGGTGCGTGGTGTGCAGACAGCAGGAGCTCAGGCATGTGCGGTCCTCACATTTGAGTGGGGCAGCAGATTGGTGGCTCCAGATGCTGTGTGTCAA
GGAGAAGGAGATTCCATCCACTGGAGAAGAGCAGAGGAACTGGGTGTAACCCCAGGAAGGAGAGGCTGCCAAGGACTGTGTCGACCCAGAGGACAATGCT
GGAGTTAATTCCCAGGGAAGGTGCCTGGGTCACAGCCTTTAAGGCAGACGCTGACTGAAAAGACTGTATACAAGTAGGAGGTCAGGTCTCTGGGAACCCT
CAGAATACGGCTCAGTCCTGGGGCAATGCCCCTGCCATCCGGCCTCCTGCACACTCCAGATTCTGGCCCTGCCTGGAGCAGAGCTGACTCGGAGACAGGG
GTACTGAGCTGCTCCTGGAGTTCCAAGGTCACTGCTGAGCTGGACCAGGAGTGGATGGGGCGGGGCAGGGACAGTCTCATTCAGAGCTTTGGGTACAGCC
CTAGGGTGAGAAGAGGCTGAGAGAGAAGGGGAAAAGAGGATATTGCCTGAGTGGCTGGGGGCAGAATGGGACCCAGGGGCTCTGTCCAGTCCTCACCCTA
AGCTAAGCCCTCCACAGCTGCCAGGAACCACTGGGACCCTCACCTGTCTCTGGTTTCTGCCACCACTTCCAGATGCCCTCATGATAATTAAGACAAGGAT
ACAATTGGGGTTTCCTTTTGAGGATGGCTGCAGGGACCGTCCAGGGACTGAGCAGAGGTGTGGGTGCAGCCATGGATCCAGGCATCAATGGTTGGCCACA
GATGGGTGTACTGCAAAGTGAGCTCCACGCACGCACAGACCCCTCCCTTGCCTCCTGCTCCCATGGGAAACACAATTGATCACATTCCAATTGAGCAACA
GTAGGCCACTAGGGCTTTTTTCCCTCAAAAGCTGTACACAGATCTAGTATAGTCTCAAAGACCTCATGCTTCTAGTAGAGAAGCAAAGAAATGTGTGAGC
ATTTGTCACACAGGGAGATCCGGATACGCTCCATCACTGTGGATCCAGGCCTCAGGGAGCAGGAGGGTGTTCCTTCATGTGGGAAGATGAGGGACACACA
TGGGAGGGGGTATTTGTGCGCGGCTTGGAAGGATGGCTGGTCCTTGCCCAGGGGGAACAGGCCCAAAGCAAGCGCTGGCAGTTAGTAGCTATGGGGAGCT
TTCATTTGAACCTGCTCTGCTGAGTCCCCTGGGCCATCCCCACACCTGGTGGGGCACTGTTCTAAGGGGAGCTCAGGGTCAATCTCTCTGATGTGCTTTC
TAAATCAGCAAGGTGCCTCACAGGTTGTGATTTTAGAGACAAGGTTTTCAATGCTTTGCATTAAAATGCAAAGATTTTAATGAGCAGAGTCTTTTTGCCA
ATCCGAATTGGGCAGATCCCAGCAAGACACATATTTTTAAGACAATTTTTAAAGCTGTTTAATTTTGGTAAAAAAGTAGAACATAAAATTTACTATCTTA
ACCAATTGTTTAGTGTACAATATCTTCTTTGAAGCCTCTGAAGACCTGGTGCTTCTGTAATAAAATCTAGCCCCGGGCCAGGCGTGGTGGCTCACCCTTG
TGATCTCAGCACTTTGAGAGGCCGTGTCGGGCTGATCACTTGAGCCCAGGAGTCCAAAGCCAGCCTGGGCAACATGGTGAAACCCCGTCTCCACCAAAAT
ACAAAACTTAACCGGGCTTGGTGGCGCGCACCTGTGGTCCCAGCTACTTGGGAGGCTGAAGCAGGAGAATCGTTTGAATTCGCGAGGCAGAGGTTGCAGC
GAACCCAGATCGCGCCGCTGCACTCCAGCCTGGGCGGCAGAGCGAGACTCTGTCACGAAGAAAAAAAAGAAAAGAAAGAAAAACCAACCAACCAAACAAA
CAAACCTAGCCCAGGCTATAACCACGTCCACTCGGGATTTGGGATGAGGCCGCGGGGATGGGACTGGGCTTGGATCTGCGCACAGGACGGTGGGTTGGGA
GCACTCTGCAACGCAGGGAGAGGGAAGGCGGGTGTCGCAGGTACAGGCGAGGACAGGGAGACCCTGTCGCGGCTGAACACTTCTGTGCATTTTCTTCACC
TTTCTGTGCATCGGTATCCACATTGGATTAATACAAAATGAAAAAATTGCGGTGATGATTACATGAGGGGGTCATGGAAAGAAGCCTTTGGCAGGACTGG
TCCCGGGCAGGCAGCCAGCAAAGTCTGACTGGCTGAAGCAGGGGGAAGTGCGCGAGCGCTGCAGTAGAAAGTGGGGTAGACTTGGATGAGCAACTTGGCT
GAGAGACACCTGATTGGCTAGCGGCTCAGCAAAGGGGGTGTGTTTCCTCCGAGGGGCGGGGCAGAAGGAGTGCTAGAGTTTAGGGCTTACTGGAGTTTAG
GGCTGCATTCAGACGGGCTGCATTCAGACAGCCTGCGAGCCGCCAGGTGATCCACGGGCTGGGCTTCGCTTCTGCTGTCCCCTGCGATCCAACTCCCCAA
TGGCAGCGGCCGCCAGCCCCGCGTTCCTTCTACGCCTCCCGCTTCTGCTCCTGCTGTCCAGCTGGTGCAGGACCGGGCTGGCCGGTGAGTTCGGGGATGG
AGCCTAAGCGGGGCGGAGGCCAACCGTGGGGGGCTGTGGACTGTGGGCTTCAGAGGAGGGGAGGCTTCTGGAAGGACCCGTGCGATCACCCCGGACTGCG
CCCCCGCTCAGTTTCCCTCCGCGTCTCCTTCCCGCCGGGTCCGTTCCCAGAGGCTACTTATCCTCCGAGGGGAGGAGCTGGTCAGAGAGGAGGCTGGAAA
GGAACCCCCGGAGAGTGGAGGGGCCAGAGGGCTGCAGAGGGCGACGTGGAGCGGGGATCCCTAGTGCAGCCCGGCAGTCCCACCCGCCCTCGGGAAGGAG
AAACCAGAGCCCCCAGAATCCGAGCTGGGGTCAGGACAGGGGTGAAGTGGGGTTGCACAGGGACACAATCACAGACACTCCCACCAGCCACCAGCCTGCT
CTGTTCTCACCCGCTCTCAACCACACAAACCYTCCAGCACCCCCAGGGCTGCGTGCCCTTGAATTTTTCCCTGCACTTTCCTGTAGACACTCACCTGCAC
CCAGCGGCTCAGCAGACACTTCCCACCCTCCCCTCACCATCCACTGCCACCACCCAGGTAACATCCTCTTACTCCCCACCTCAGCCCAGCTGGTCACCCC
AGAGGTCTCCCCATCCATGAAGGGGCCCTCGCGACCTCTTACACCACGTGACACCTTCTGCCTCTTGCCTGAGGACACACCCCAGCAAACACACCCCAAG
CTCCCCWCAGAACCTGTGCAGGGGGGATGGGAAGCACCATTTCCTCCAGGATGACCCTGGGAACTCTGGTGAGTAGAGGCACCCACTTCTGCCCTTGGGG
CCCAGACCTGCCTGTTCTTCCTACTGGGGCGCCAGCGTCATAGAGAATAGTCAGTGTGTAGACAGGGGTCAGCAAACCCTTTCTAGAAAGGGAGGAAGGA
TGCCCTGTGATCTTTGCAGGCCTTGGGTTCTCTGTCTCAGTGTCCAGTCCTGTCCCTTTGCAGAGCAACAGCAGGCAATGGCAACCTTCAAATAGGGGGG
ACCAGATTTGGACCCTGTCCTAGGTTGCTGACCCTAGATGAGGGGATTACAGTGTACCAGCAAATAGTACCCCATCCCCTATGGTGTCATCTCCAAGTGG
TGTCTCAGGTGTCAGTTGGAGAGTAGAAGGTGGTCCTACCTTGCCTGTGGCTTCTGGGTGGTGTGGATGTGATGGGAGTGGGGGTCCCATGGTTCAGGGT
CTACTCTCCCCTCCTTTGCTGCTGAGTGGCATCTATGGTCCACGGGGGCCATCAGTGACCTTCCCTGAAACCTGAGGTGTAAGCTGAGGGTAAGGGGGTG
CAGCCACGTGGTGTCCTGGGAATCGGGGCCAACTGCTTGTGCAGCTTCCCGGTTCCCTGTGGCCCTACTTCTGCCCATCCCAGGAGAACCACCTGTGTCT
TCTCACTGCCAGACCTCTCTTCCTAATGACCTAGAGGGTGAGGAGCCCACCCGTAATGGGCAKCTCTGAGGCTGGATGGTCACGGCCCTTCCATGGCTAA
AGGCCCCATCTCTGCCAAGGCCCAGTACTCTACAGGAGACACTTTTTAATGTTGAGATTTCCTTGCTGTGAGTGGCGTTGCCTTGCCTCTGAACATTCAC
ATGGAATCTATGTTGTGATTCTCCAATTAGACATTGGAACCACATGCACCTCTAGGATCTTAGGGGGTCTTGGGTCATTGGGCACTTAAGGCAGGTCCAG
CCTCGCTCATTCATGGATTGCCTGTGGCTGCCTTTGCGCTTCAACAGCAGAGCTGAGTAGTTACAATGGAGAATATATTCCCTGCACACCTTTACATGTT
TACAAAATTGCCCTTCATAGCAAACTCTAGTGGCCATAAATACGTTTGGAGAAGCCCACAAAGAATCATTGCACTTGTTGYGGGGTTAAAGGGTCCTTCC
TCACTGGAAACTGGTGTCTTCTTCTAGTCATGGGTTCACGGTCTGAGAAGTGGCTTTATTCTGCAAATTAGGCAAAGCAGCCTTGTTCTTGAAGGACTGG
CTACTTTCAGCCTCCTGGTCMTCCATCATTTGTTTTATCTCTGTTTCTTGTAATTATTTAAATCCAGCACTATTCAGGTTGGGTTTCCATCTCTTCTGGA
TCTTGGACCCCTTTGTTCTATGAGCCATGGGCATAGCTTTGTATGACTGAGGTCTCCAGCTGGCATTGTGACTTCTCTAATCATTTCCATCATTGCACCC
TCCTTGTTCCTGACAGTTGACAACCTCCACCTGGAATCTGTTATTTCGGGATTTTTCATCCCATTACTACTGGGAGCCCATTTCAGGAAGAGCATCTCCT
ACCCCCAACCCTGGCCTTCAGCAATAGGCATCCCTGAGCTTCATCCCATTCTGGTGCCTTCTCATGGGGCCTTCTTTATATGCCAGGTAAACAGGAGTCC
TCCAGGCTTCCCATGAGCACAGCAGATGGACATTGTTCTGGATTTTCACACTCAGACCCCTCCAGCCTGGGCACTTCTCTGAGCCTGTGATCCCTCCGTC
TACTGCCTGCCTTAGATTTTCAGATTTTTCTATTTCTTGCTGTGTGGACCATCCCTTTGTCCAAGGTTTCAGGAAGGCATCCTCATAGTAGATGAGCACC
ACCACCAGGGGCTTTGCCAACGTGTTAAATCCTGTGACCATGATAATTAACTCTTCTTTATCCAACTGGGTTCCATCCTCACTCCGTCCCACCATGCACC
AGTATCCTCAGGTGCAGCTCCCACACCCTGTCCCACCTCCCACAGTCCACGTGGGCTACTGCTGAAGATCCTCTGTCATCCAGGCCCTTCCTCCTCTAGC
ACTCCTGGCACCTCTCTAGCAAGGTCCTGTGTTGACCGATGTGGACAGAGGGGCAGTGGGACATGTCTGGGGACATGTGGTTTCTCAGCAGGCAGGGACC
TCCTCCTCCTCTTTGCCCTCATGGAAGTGGGGAGCACTCGCCTTAATCTTGYGGACACCACAGTTCTGGAGGAGGCACTCCTTGCTGGGCCAGCCCAGCC
CTCCAGAGGCTTCCTCTTATTGTCACAGTGTGGAGGAGGGGTATCTAGGGGTCTTTTCCTCCCCACCCACCCCTCACCTGCCTTTCTCCACAGACCCTCA
CTCTCTTTGCTATGACATCACCGTCATCCCTAAGTTCAGACCTGGACCACGGTGGTGTGCGGTTCAAGGCCAGGTGGATGAAAAGACTTTTCTTCACTAT
GACTGTGGCAGCAAGACAGTCACACCCGTCAGTCCCCTGGGGAAGAAACTAAATGTCACAACGGCCTGGAAAGCACAGAACCCAGTACTGAGAGAGGTGG
TGGACATACTTACAGAGCAACTGCTTGACATTCAGCTGGAGAATTACATACCCAAGGGTAAGTTTCAGATGGCCCAGGACAGCAGGGAGCAGATACAGTG
GTAGGTTAGAGGCATTTATAGTTTTCATGTAAAAATACAAATAGGAAGGTCATCTCACCCCGCAAGACGTCTAGAGGCAAGGCCAGGATGTGGCAGAGCA
AGTAAGACCAGGAAATTGCAAGTGGAAGAGGATGGGGGCTCAATATCTGTCAAGGCCAGAGCTGATCTCTCTTTGATGGGGGCAGAACCCCTCACCCTGC
AGGCCAGGATGTCTTGTGAGCAGAAAGCCGAAGGACACGGCAGTGGATCTTGGCAGCTCAGTTTCGATGGACAGATCTTCCTCCTCTTTGACTCAGAAAA
CAGAATGTGGACAACGGTTCATCCTGGAGCCAGAAAGATGAAAGAAAAGTGGGAGAATGACAAGGATATGACCATGTCCTTCCATTACATCTCAATGGGA
GACTGCACAGGATGGCTTGAGGACTTCTTGATGGGCATGGACAGCACCCTGGAGCCAAGTGCAGGAGGTAACAGGAGAAAAAGAAATGGGGATCTCCAAT
GAGATCAGAAATGGGGATCTCAAGAAACTAATTCTTGAGTTCAGCTTCAATCATCCCAGTGTACACGTTTATGTTAAAATGACCTCCTCGTGGGGTGCTC
CTCCTGGGGGTGCTGGCGTGCCTGTGCTCTCCCACCCTCCTCTTCCTTCTCCCTCCTGACTCCTCTTCCTCACTGCACTTGCTTCTGTTCCCCACACTGT
GGATTTCTCACCAGCCTCGAAACTGCAGGTGTCACTATTTTCAGGCCTTTCTCCTTAGTGTTCCCTCTTGAGAATCACTTTTCCTTTCCTCCTCTGGTCT
GTTTCTGGAAATCCATCAAAACCTCCTCCAAGGCCAGCCTCGTGACCCTCCCCTCCCGCACCCTGGAGCATCACCTCCTCTTCCGCCACAGCAGGAGGGT
GGGCTTTGCTGTCACCTTGCTTCCCTCAGCAGCTCTGTGAGCTCCCTGAGGCCAAGGGACACCCCCTCTCCCTTCCTACCCCAGGAACTCTCCCAGGGGC
TGCCCCATAGCAGAGGGGACAAAACCTCTGCCTTCCAGGATGACCTGGGTCAGCAGGAGCTGAGGAGGCATCTCCTCAGATTTGGGGCCTGGACAAGGGT
TGTCACTCTTGTGCTTCCATTTCAGCACCACCCACCATGTCCTCAGGCACAGCCCAACCCARGGCCACGGCCACCACCCTCATCCTTTGCTGCCTCCTCA
TCATGTGTCTCCTCATATGCTCCAGGCACAGTCTGACCCAAAGCCATGGCCACCACCCTCAGTCCCTGCAGCCTCCTCCTCATCCTCCCCTGCTTCATCC
TACCTGGCTGCTGAGRAGAGTCCTTTGGAGTGACAGGTATGGGGGCAGAATTGGGAGTGGAGCAAAGGGCAGGTGGGTGAGGAGGGAGGACAGGGATGGA
GAATTCCCAGAGTCCCACTCCCTATGGCTGGGACCTTCTCATCCTAACATGAGACAGGTGAATGAGACCTTGTGTTGCTTGTTGGAAATGACCTGGGCAG
CTCTGCCCTGAGTTCTGATGGATTCTCACCATCAAAGGCCAGAGGGAAAGGCGCAGTGGTGCCATACCAAGGCTCAGGGTCTGTTGAGCTTGAGAGGGTT
TAGCAAGTTCAGGCCTGATTCAGAGCAGGTTTCTGTTCAGGAAGGGTGTGTGGCCTGCAGGCAGCAGGAATTCAGACATGGGCAGTCCTCTTAATTGGGT
TAGGTGCATCAGGGTAGCTTTACATGAGGTATGACAAGGGAAGGGGGATTCCATCTCTGAGGCTAAGAGAGAGATATGTGTGGGCGGCAAGCCACCCAGG
TGCCAAGGCAAGAGACTGAAGGCACAAGCTGTTCCAGTATAATAAAGAAAATACTTAAAATAAGAATAGTTGTATTAGACGTAGAATACAGACATGATTA
TCTATGAATATTATCAATCATTAGTCTGTAGTGTTACTCTTTTTTCCAATGTTATAATAATCTCTGTTCCACAATTATAACCCAGGAAAAACCAGGCCAT
GCAGAGACAGGAGCTGAAGGGACACGGTGAGAAGTGACCAGAAGACAAGAGTGTGAGCCCTCTGTCATGCCCAGACAGGGCCAGTAGTGGGCTCCTCAGT
CTAGCAGTAGCGCCAGTGCCTGGGAAGGCACTTGTTACTTAGCAGACCGGGAAAAGGAGTTTCCCTTTCCCCGGGGGAGTTAGAGAAGACTCTGCTCCAC
CACCTCTTGTGGAAGGCCTGACATCAGTCAAGCCTGCCCGCAGCCATCCGGAGGCCTAAACGTCTCCCTGTGATGCTGTGCTTCAGGGTCACGCTCCTGG
TCCACTTTCATGTTCCGCCCTGTACACCTGGCTCCGCCTTCTAGATAGCGGTAGCAGAATTAGTGAAAGTATTGAAGTCCGAGAAATACATAGAAGAAAC
AATGACGTAAGCTGTCCTCTCTCTCTCCGCCTCAGCTACCAAATAGCGAAGCGCCCCTTGTCTGGTGGACACGTGACTCGCGTGACTTTACCTATCATTG
GAGACGACTCACACTCCTTACCCTGCCCTCTTGCCTTGTATACAATAAATAACGGCGCAGCCAGGTATTCGGAGCCACTACAGGTCTCCATATCTTGATG
GTTCCCTGGGCCCAGCTGTCTTTTCTTCCGTCTCTTTGTCTTGTGTCTTTATTTCTACGATCTCTCATCTCCGCACACGAAGAGAAAAACCCACAGGCCC
TGTAGGGCTGGTCCCTACAACTATGAGTGTAATCCCAGAAGGAGGGGGCTGGGAGAGCCTTGGTACACCTAATTGAAAAGGAGGGGGCGCAGGGCTGCCT
TCCCACAGAAAGTGGCTTGGGTTCCAGGAATTAAGGTGGAAGGCGAAGAGTAGAGGCTGCACATGAAAAAAATTTTTAAAAAGTCAGTCCCATGGACCCA
TGGGGTTCGAGTCCAGACCTTGAGGCAGCTCCCTTGCCATCACCTTCCTGCACACCCCAGATCCTGAGCCCGCTCATGGCCCTGCCAGGAGCAGAGTGGA
CTCAGACACGGGGGACCTGAGCTGCTGCTTAAGTCCATGGGCACCACTGGGCTGGACCAGGAATGAATAAGGTGGAACAGGGACAGTCACCTGCAGAGCT
ATGGGTGCTGATTGCAGTGTGAGGAGAGGCTGAGGAAGAAGGGGAAGGAGGAATATTTGCCTGCAGGCCCACCCAATGCCAAGGACACAGGAATACAGAG
CCCTCTCTTTGGATGGGCTCCCCCTACCCCTTGCCATGTTTTAGGCCTTCTCATCAGATGGTAGAGAGGGCCTTGAGTGAGGGAGCAGGCCCATCACTAC
CAGCTTCAGTCTTGCAGGCCCCTCCACTCCATCCCCTGGTCAGGTGCAGGGCCTGGGCTGACACTGTGATTTGACAAAGGAGGAAAGAGGCTGCTCCAAG
CTGCAGGTGCCAGGGTTGGGGCTCAAGGGAAAAACGGGTCCTTTAGTGCAGTGGGCTCTGAGACGTGGAGTGCCTAGGGAAAGATTGCCCTGCAAAAGTG
ATCCAGGTTCTCCTTCATCTCTTAAACCAACATTTGTGTCCTTTTTGAAAGTTAAAGATGATACCAAAAAGCCCCTGTGAGCAGGGTCTTGATCAAACTC
GCCCTTCTGTCTGGCCACCTGCCCACCACCTACTGTGTATGTCCAGTGGCCTCCAGCAGATCATGATGACACCATGGACCCAATAGCTCATTCACTGCCT
TGATTCCTTTTGTCAATAATTTTACCAGCGGTTATTCCTAACATCTTATGTTATTTTTTATTGGTGCTACCTGATGGAATTCCTGCAATTAAAGTTCTGG
CTGACTAAACAAGATATGTCAACATTTTCTTTCTTCTGCTTTTGTTTGAAAAATCAAGTACTTTTTGAATGATGACCTCTTTCTTCCAAATGATACAGTC
AGTAAAACAATCATGTTAGATTTCAGACCTCCAAGGTTTCTTTCCGCGTCCTGAAGGATAATTCTTTATTTAATAAGAAAAAATTACATTAATGATATTT
CCTCAGTAATTTATTGCTCTGTACTAATATTTCCACAAAGAGTTCTATTTCCCAAAAACCTACTGAGTTTAGAATTTTCTTGTATTACCCAGTAGAGAAT
TAATGTTATTTCATTTTTCCTCCATGGTGTGAGTAATAAATGAGTGATTCTGCTAGATTTTGTGTGGAAACAGAATCTACAAAACGTGGCTGAAAAAAAT
CAGGGACAATACAAATACATGGAAAAATAATTTATGCTCATGGGTTAGAAGATACAATATAGCTAAAATGGCCATACTTCCAAAAGCAATTTATAGATGC
AACACTATCCCTATCGAACCAACATCATTTTTCACAACATTAGAAAAATCTAATCTAAAAGTTATTTGGAATTAAAACAGAGCCCAAATAGCCAAAACAA
TCATACGCAAAAAAAAAAAAAAAAAAAAAAAGCCAGGGGCATCTCACTGCCAGACTTCAAACTATAATATAAGGCTACAGTGATCAAAACAGAATGGTAC
TGGTACAAAAATAGACACTTAGATCAGTGGAACACAATAGAGAACTCAGAAAGAATCCTTCACACCTACAGCCGTCTAACCTTCAACAAAATCAACAAAT
AGTGCTGGGATAACTGGCTAGCCATGTGTGGAAGAATGAAACTGAAGCCCTGCCTTTCACCATATAAGTAAAATAACTCGACATGGACTAAAGATTTAAA
TGTAAGTCCTAATACTATAAAAATCCTGGAAGATAACCTTGGAAATACCACTCTGGACATAGGGCCTGGCGAAGATTTCATGATGAAGACACCCAAAGCA
ATTGCAACCAAAACTGAAAATTGCCAAATGGGACTTCATTAAACTAAAGAGCTTCTGCAGAGCAAAGGAAACTAGCAACGCAGTAAACAGCCTATAGAAT
GGGAGAAATAGCTGAAAACTATGCATCTGGCAAAGCTCTAATATCCAGAATCTACAAGGAACTTAAACAACTCAACAAGCAAGAACAAAAAAACCCAGTT
AAAAAATAAGCAAAGAATATGAACAGACACTTTTCAAAAGAAGACCTGCAAGTGGCCGACAAACATGAAAAAATGCTCTTTCGGAGGCCAAGGTGGGCAG
ATCATGAGCTCAGGAGTTTGAGACCAGCCTGATCAACATGGTAAAACACCGTGTCTGCTAAAAATGGTAAAATTAGCCTGACACTGCTCATCTTTCAAAT
ATTTCAATAAACCCAGAGGGTTTGCTCACAGTGAGTTTGCACCATGAGCTCCTTGGCACACAGCTTGGGATCCACAGTCAAGGGCTACAGAGAAGACAAA
AGAGACGTTGACATCATGTCGAATGAGGAATCCATAAAGAGTTCATTTTTGAGGATTGGGGAAGTTCCTCCCACCATGCAGATCAAGATGCCCTGAGGGC
AAAGAGCAGAGCGGTGCGCTCTGGTGGCCCAGCAGTTCTGCCCCACGGGAGAGGTTTCTCTTCTGATGCAGTGAAAACTAGCAGGACACTGTTTCATCCC
AGAGCCAAGGAAACCAGGAAGGAAGGTCAGAGTGAGGAGGTGTCTGAGTGTTTCAGATCACACAGTGACATCCTGCTTGATGGCTTCAGGAATCCTTCAT
GAGCTGGGAGACAGCCCCCGAGGTGACAAGTGAGGGGGCAGGATGGGCCCAACACGACAACTCTTGAGATGACACCCAGTTTCTCCCATGTGTTTATGTG
TGTCTTTGTGTGTGCATGTGCGTGTCTGTGTCTGTATTTCTGCATGCATTTGTGTATGTGTGTGTGTGTGAATGTGTAAACACCTGTGTGGTGTGAGTGT
GTGTGAGAGAGACTGTGTGTGCATGTCTGTGTGTCTGTGTGTGTGTGATAACATGCATGTATGAATGGTGAATTGATTTCCTGGTTGATTTGCTGTGGAG
AGAGAAGGGACTCCAGGGTGGTTCCTGCCCTCCCCTCCTTCCCTGTCTTCCCTCCTGACATTTCCTCCTCCCTGTGGAAAGAGTCTACCCTAGTAACTGA
GGGTTCATTACTACAGACTTCTCAGAGCTCCCCAAAGTTCTATGATATTTGCACCCCCAGGCCTCCTCTTCATGCTTGTCCCTCTGCTGGGTGCCCTATC
TTCTCCTCCCACCTGGCCACGCTGTATTCTTCCTATTCCTACAAGAACAGTCTGAAATGCCACCTCCCAAGAAGCCTCCATGCAAATCCCCAGGCAGAAT
GAGTCACCCCCTCTTCTGTCCTCTGATAGCCCCAACCACCACAAGGACATCACATCAGCAGTAGCAGCCATGTGGGTGTTTGTTTCTGTCCCTGGACTCT
AAGTTCCTGGAGGACTGGACACATCAGTCACCACCTGTAAACCCAGCACCTAGCACAGTGGCTGCCATATGATAGGGTTTAAGACACGTGGGAGGAATCC
AATCATCAGACTACCCCAGGGCTACTAGAACTCAGAAAAGGATCTCCATAACTTGGGAGAATTGGACAAAGGTCTTCATTTCTGTTCTTTCCAGCACCAA
CCTCCATGGCTCCACTCATCCCTACTCATTCCTCCTGTTAAGATTGGCCGGTAAGGAGAGGGGTAGGGGCAGGAGCAGCTACATCTGGTCTCCTCCACCA
CCCACGGTGGGGAGCACCCTTGGTGGGACCTGGTGAGCATGACAGCCCCTGAGCCATGGGGACCTGGAGCCTCTGCAGCCCCATAGAGACCAGGAGGAGC
TGTTCAGCCACTTGCAGAGACAGCCAGAGAGTGCTTCAAGGACTGCATGAAGCTCTGGAGAAGCGGGGAGTTCAGGGCCCTCTTTTGTAGGGCATGAGAA
ATTTAGGCAGGATCATGTCTACAAAAGAGGCTGTCACTTTGGCTTATCAATGCTTTCACCTCCTTACCCCTTCCAGATCAGAGTGGGCACTTTACTTGTT
TTTATGGATTATTGTGTCAACCAAAATGAGAGGTCAGAATCACCCTAAACATTTGAAACTTCTTCAAGATTTGACAAATGCACATTTTAATACCACTTCT
ATTTTTAGGAAGCTGTGGCTGTAGAAAACATTTTCTAATACAGTATTGTCTAAATTATTTATACAGAATTTTAAAAGTCTACATAATGTCATACAACCAT
GTGAAAAGTAACTTGTTATTTTCAGAGTTGGAGATAAGCCATGGCAACATGGTGAGACCCTGTCTCTTCAGAAAATTTTGAAAATTGACCAAGTGTAGTA
GCATGTGCCTGTAGTCCCAGCCCCTCAGGAGGCTAAGGTGGGAGGATCACTTGAGCCTGGGAGTCTGAGGTTGCAGGCAGTTGAGGTGGTGCCACTGCAC
TCCAGACTGGGTGCAGAGTGAGAGCCTGTCTCAAAGAAAACAACAACAACAACAGAAATAAGAAAAAATAAATAAACATTGATAAGCTATGTTGACATAA
GAATTGTGGAACCCAAATGACCAAATCATGCAATTTCTTACCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGT
GGCACGATCTCA


SNP Information

Context             (SEQ ID NO:62864):
TATGCTCCAGGCACAGTCTGACCCAAAGCCATGGCCACCACCCTCAGTCCCTGCAGCCTCCTCCTCATCCTCCCCTGCTTCATCCTACCTGGCTGCTGAG
R
AGAGTCCTTTGGAGTGACAGGTATGGGGGCAGAATTGGGAGTGGAGCAAAGGGCAGGTGGGTGAGGAGGGAGGACAGGGATGGAGAATTCCCAGAGTCCC
Celera SNP ID:            hCV25963119
SNP Position Genomic:     10816
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,24)   caucasian(A,5|G,35)   total(A,11|G,59)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62865):
CAGGACAGGGGTGAAGTGGGGTTGCACAGGGACACAATCACAGACACTCCCACCAGCCACCAGCCTGCTCTGTTCTCACCCGCTCTCAACCACACAAACC
Y
TCCAGCACCCCCAGGGCTGCGTGCCCTTGAATTTTTCCCTGCACTTTCCTGTAGACACTCACCTGCACCCAGCGGCTCAGCAGACACTTCCCACCCTCCC
Celera SNP ID:            hCV11557930
SNP Position Genomic:     6532
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62866):
CTCCCCATCCATGAAGGGGCCCTCGCGACCTCTTACACCACGTGACACCTTCTGCCTCTTGCCTGAGGACACACCCCAGCAAACACACCCCAAGCTCCCC
W
CAGAACCTGTGCAGGGGGGATGGGAAGCACCATTTCCTCCAGGATGACCCTGGGAACTCTGGTGAGTAGAGGCACCCACTTCTGCCCTTGGGGCCCAGAC
Celera SNP ID:            hCV11557931
SNP Position Genomic:     6807
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62867):
GAGGAGGCATCTCCTCAGATTTGGGGCCTGGACAAGGGTTGTCACTCTTGTGCTTCCATTTCAGCACCACCCACCATGTCCTCAGGCACAGCCCAACCCA
R
GGCCACGGCCACCACCCTCATCCTTTGCTGCCTCCTCATCATGTGTCTCCTCATATGCTCCAGGCACAGTCTGACCCAAAGCCATGGCCACCACCCTCAG
Celera SNP ID:            hCV25962372
SNP Position Genomic:     10662
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,3|G,37)   total(A,3|G,69)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:62868):
GGCAGTGGGACATGTCTGGGGACATGTGGTTTCTCAGCAGGCAGGGACCTCCTCCTCCTCTTTGCCCTCATGGAAGTGGGGAGCACTCGCCTTAATCTTG
Y
GGACACCACAGTTCTGGAGGAGGCACTCCTTGCTGGGCCAGCCCAGCCCTCCAGAGGCTTCCTCTTATTGTCACAGTGTGGAGGAGGGGTATCTAGGGGT
Celera SNP ID:            hCV27394267
SNP Position Genomic:     9052
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62869):
CCTGCACACCTTTACATGTTTACAAAATTGCCCTTCATAGCAAACTCTAGTGGCCATAAATACGTTTGGAGAAGCCCACAAAGAATCATTGCACTTGTTG
Y
GGGGTTAAAGGGTCCTTCCTCACTGGAAACTGGTGTCTTCTTCTAGTCATGGGTTCACGGTCTGAGAAGTGGCTTTATTCTGCAAATTAGGCAAAGCAGC
Celera SNP ID:            hCV163000
SNP Position Genomic:     7981
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62870):
CTTCTAGTCATGGGTTCACGGTCTGAGAAGTGGCTTTATTCTGCAAATTAGGCAAAGCAGCCTTGTTCTTGAAGGACTGGCTACTTTCAGCCTCCTGGTC
M
TCCATCATTTGTTTTATCTCTGTTTCTTGTAATTATTTAAATCCAGCACTATTCAGGTTGGGTTTCCATCTCTTCTGGATCTTGGACCCCTTTGTTCTAT
Celera SNP ID:            hCV163001
SNP Position Genomic:     8121
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62871):
CCCTACTTCTGCCCATCCCAGGAGAACCACCTGTGTCTTCTCACTGCCAGACCTCTCTTCCTAATGACCTAGAGGGTGAGGAGCCCACCCGTAATGGGCA
K
CTCTGAGGCTGGATGGTCACGGCCCTTCCATGGCTAAAGGCCCCATCTCTGCCAAGGCCCAGTACTCTACAGGAGACACTTTTTAATGTTGAGATTTCCT
Celera SNP ID:            hCV162999
SNP Position Genomic:     7563
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Gene Number:                 383
Celera Gene:                 hCG22163 - 145000147752225
Gene Symbol:                 PRKAA2
Protein Name:                protein kinase, AMP-activated, alpha 2 catalytic subunit;AMPK;PRKAA
Celera Genomic Axis:         GA_x5YUV32W802(26419912..26495071)
Chromosome:                  Chr1
OMIM number:                 600497
OMIM Information:            PROTEIN KINASE, AMP-ACTIVATED, CATALYTIC, ALPHA-2;PRKAA2


Genomic Sequence (SEQ ID NO:12543):
CACTGAATCCATGCCAAGAGGGAAATAATTGATTTAACTGATCTAAAAGTGTGTTTGAGCTTTTTTTCAGACAAACTGTCAACACACACATGAAAGCAAG
ATTCTAAAAGTGCTGTCAGATCCATAATGTTTATACAGCAAAGCAAACAACCTTTGTTATTCCAATTAATGCATTTGCTCATGAAGGAAGTCTGATCCAA
AACGTTTTATTTTTTCTCAGCTGCACTGAAAATTATAATGTTGACTCATATTGAAGCAATTTAGAAATGTACTCAGCCACAAAATGAAAATGGATTAAGT
ATAATATTTGTTACTAGGGTACCTGCTAAAAATAACATCTCAAAATTATTTATTACATTTCCTTTAAAGGGTTTCAAGTATTGTCACGTGTATCTACTTA
TCTCTTTGAAGGGGGCTAGGCCCATAATAGTATTCTCTTAAACTTACAAACCAATGATGATAAATATTAGGAGATAAACTGTGTATAGGGAAAATAATGT
GGCAAGATCAGTTTGTTGAGATACCTTGGATGGTGACCTACAATACTTTACAGTAATTACTCTATCTTTTTCCCTCTATTGTTTAACTCTAAAACAGGGA
GTGGAGTTTGGGAGTTGAATGTCCCAACACCTGACAGGTACTTTAGTACTTTATAGTCTAGTTCAACACTATTAGTTTTACCAATAAGAAGTGAAATGAT
CTGTTTAAGGACACATTGCTAAGAGGCTAAGATGGAACATGAACTCAGGATATATATGTACATGTACATATACAAATATATACACATAGATAATATATAG
AGAGAGTATATGTACGTATATATACACATATATACGTACATATATACATACATACATACATATATGTATATACATGTATACACACATATTTAATTATACA
TATAATTTTGAGACAAGGTCTTGCTCAGTTGCCCAGGCTGAAATGCAGTGCTGTGATCTTGGCTTACTGCAATCTCTGCCTCCCAGGCTCAGGTGATCCT
CCCACCTCAGCCTCCCTAGTAGCTGGGACTACAGGCGCACTCCACCAGTCCAGTTATTTTTTTGTACAGACACATTTTCACCATGTTGCTCAGGCGGGTT
TCGAACTCCTGGACTCAAGAGATCCACCTGCCTCGGCCTCCCAAAGTGTTGGGATTTCAGGTGTGAGCCATTGCACCAGGCCATGATTTTTTATTCCAAA
TACTGAGCTTTCTCTACTACCTCTTGTGATCATGAATAATTATTGAGATAAATCCAACAAGATCGGGATATTCAACAGTTAAAATAATTCAATGTTTCAA
CTAATAGATGACATTTTTAAAAAAGAGTGGGAAGGGAAAACACTACATATTAAAACAGATGTATTGACAAAATGGTAAGTGTGACTTTTTTGATCCTGAT
GAGCATAAACCAACTGTAAAACTACATTCCTGAGACAATCAAGGGATATTCACCACAGAGTGGGTATTTCATAACAGTAAGGAATTAGTGCTAATTTTGT
TAGATATGTTAGTAGTAGTATGGTTGTGTTAAAAAGAAGTGCTTATCTGTTAGACCTATATACTGAAGTATTTGCCAGTGAAATAATCTGCTTATTTACT
TTAACATACTCCTGAAAATAAATTTTAAAAGTGCAGAGATAGATGGGTAAATGATGACAATTGTTGATCATCACAGATGCTAAGGTTATTTATGTTACTC
TACTTTTGTGTATGTTTGAAGTTTTTCACACAAAATTTTAAAAATGTAATTATTGAGCTTGTACTTCCTATAAAATACCATAAACATCCTTTATTATTCA
TTGAGTGTCCAAATTTTTTATTTTAAATTGGAGACAGCCATAGAAGCCCTATATCATGAATCTATAGACTTCAAAGGTGCTAACTCATGCCTCTCTAACC
TCACTAATGACTGCTGTGCTGAGATGTAAAATTATGCTTTGCCTTTAATATGTGTATACATAAAATAAAACTGCACTCTTCCCTGTATTGTTGTTACTTG
ATTCTCTAGCTTAGTAACTAACCCTTTCTAAAATTCAATTTAGCAAATATTTTTGGAATGATATACCAGGTTCCACTAGGCCCCAGAAACAGCAAGTGGG
GTATGAACATATCATTTGCATATATAATATGTAAATATAAATACATATATGTATCTATCTATATGTATGTATAATGTATATGATAATAGAATTGATAAAT
TCTATATTAGCTATATTAAACATGTACAATGGAAAACCTAAAAAGAAACATGTGATGAAAAACTTAATGAATCATGCTTAATGTCAGAATTATCTTTCTA
TTCTATTTAAAAATTTACAAAATATAAAGAGGTAATCAAAGAGTATACAGCCAGAAAATGTAGAAAACAGGTATTATAGAGGTATGTTAGATAATTAATT
TATAAAAATATTGTTATTTGTCTGGATTTGGGGATGTTTGTGGCATTTGTCAGCTTTTATAAATTTGTAGAGAGTTGTTTTTCACTTCAAATTCTCACTT
TCATACCCAATTTTGCATTTTTTTTTCCCTTAAAGAGATTCCCCCACACTGAATAAACTTCAGGTGCCACATTCTGAATCTGCTTGGATATCTATATTTT
GTCAGGCATTGTCCCGGGAGCTAAGGATACATCAGTGAACAAAATAGAGAAAAAAGGCCTCTCTTCTTTTGTGAAGTTTAGATTCTAATTGGGAGAAACA
GACAAAAATATAATAAGCACATAAATTAAATAGTATGTTACATGGCTAGTGCTATGTAAAAAAGTTGAGGAGGGTCAGGGGATGAGAGTGCAGGGCAGAG
AGCATGAGTGAGATAAAACTGCAATTTAGGCCTGGTGCGGTGGCTCACGCCCATAATCTCAGTACTTTGAGAGGCTGAGGCAGGACAATCACTTGAGTCC
AGGAGTTTGAGACCAGCCTGGGTAACATGGCGAGACCCTGCTTCTAAAAAAAAAAAAAAAAAAAAAAAAAAATTTAAAAAAAATTACAAAAAAAAAAAAA
AAAAAGAAACTGCAACTTAAATAGGGTGGCCAGGGTAGGGTTCACCAAGAAGGTGACTGTGAGCAAAGACTTGAAATAATTGGTTACTGATAATACCAAT
GGTGTCTAGTACAGTATATTAGTTTAGTGGTCTTGCATTAATGTCCTACTCAGGACTTATTTTAGAATATTTGAAGGTAAAACAACCCCAAAGTTTCAGA
AGCAGGAGGGTAAAGCAGCAATAGTTGGACCAGCGCTAAGAACTGAACACCTCCCTGGGGCACTGGTCTTAGAGATTGGTACTAAACAATAGCGGCGTGA
AACCTTCATTGGAAGATAATAAAATGGGAACATTGCATTTACCAGGTCATCTTTAGGGGTGAGACCTCCAAGAGGCATGACCCTTAAGGAGATCTACTCT
GATTAACTGTCGAGTTTTCTACTGCTGAGTAGGAAGAGGCAAATATGGAACCTTATCTTGAAGTGTCCAGGACAACAGAGGGCTGAGTACTGCCACCAAG
AGTTGTCCTTCTTACCCACTTACCATTCAACCTTTCCTCTAAATAAAAGTCAGAAAAACAACAAAAAGTAGTTTAAATACTTACAAATTTATAGGATATA
TTATTGGACTGCCCAAGAAATAATAAAAATATGAAAATGGAACCACAACTGTGACAATTTTTAACTTTCTTAGAGCACCATACTTTCTTTTGGCATAGGC
AGCTGCGGTATAGTAGGCAGACTGAAGGACAAGTCAGAACTGGATATGAGTTCTGACTCTGCCACTTTTTAGCCCTGGGCAAATCAGAAAGGGAAAAACT
AAGTTTTATCATCTATAAAATGGGAATGATAATCTTTCTTTTATGACAATTAAATAATTGTGTTTAAATGAACTTCTTAATCAACAAAGTATCATAGATG
TTTCACATAGTAACAAAACTATAAGGTAGTCCACAGTAGCTATGTAAGAATCATAGTTATGAAGTATATAATAATTTAACTTACAGTATTTATCAACAAA
TAGTTAAGACAGTACGAAATGCTTTGAAATCTCAATTTACAGTTAGTCTTTATGTAGCTTCAAGAAAGCAATCATCTAACTTCAAGTGAAGACTTTTCAA
CATCTTTTAACGGGATATTAGAGCAGAAGACATATACATCTCATACCTCAAAAGCAGAATAGGTCTTTTCTTACTCACTTGAATACTGAAGGAATGACCC
TTAACCAGATGAAAGTTCAGCACAAAAATAACTGGCTATTTTCTCAAAATTGCCAGCGAGGTAGAGTGATTCCTAGATGATACTTGTCAGCAAGAAAGAT
GATCTGAAGAATGAACAAAAATAGCCTCTGTTTAACAGCTGTGATATCTATAATTTATAAGCTGTGATCATCTCTCATCAGATTGTCTTGATGTTTGGAT
GAGAATGAATGTTTGAAATTTCTATATTTAGTACTTATCAGAAAACAAAGTTTTGTTGTGTCCTATTCTTTTTGATCAATACATTTCAATTTACATATAA
ACAGTGTTCAAGAGACTTCATGTTTGAGGAATGTGACCTTGAAACTCTACTGGCATGCAGTGCTATAAATGTTTGACTAATCCTTAATTACTTATCCCCA
AACAGAATTTTTTTTTACTGTTTTAAAATTTTTTATTTCATTGGCAAATAAAAATTGTATATATTTAGTATGTATATGTTTTGAAATATATTGATTGTGG
AATGGCTATAAGTCAAGCTAATTAACAAACATATTGTATACGAATCTTTTTGTGTGTGTGGTGAGAAGCAAATAAACTTTAATCACTGAAAGACAGAACA
ACATTAAAGAATGAGACAACATTAAAGGAAGGAAGGAAGGAGGGAAGGAAGGGCGGGAGAGAAGGAAGAGAGGCAGAGATAATCGCTTTATTACCTAATT
CTTTGCCAGTCTTTTTTCTTTTTTTTTGTGGGGGGAGGGTGGGGAGGTCAGTCTTTGAACACGCTGCCTAGGCATCATGCTTCTAATTTCCTCTTACCAC
TCTTTTCACTTCTATATCACATTTATTCTTCCTTTAATATGTGACCTTATACTGGCCTCGCCCTTCACAATTCCTCTGTCGCTTACGTATTTTACTTTCT
GTGGGCAGAACATTGTTTCCCTTTCCACGTCTTTCCCATTTCCTTCTTGTACAGCTGTATCACATTTCGGTACTATATGTTTATATAAGCGCGTGGTAAA
ACTACATATTTATATAAGCATGTGCTAAAAAACACTCGAGCAAATACCGTGACTGAGATTTTTTGGAAAACTGTGGGCAAATTAGTTAAAATTGAGAGCT
CTGGCGGAGAGGGTCTCTTCCATCTATAGGACAAAATAATTGGGAATTACAGAATAAGTAGAGGAGGACAATTCAAGAGAGCACAGAGCTGCGTGCATTC
TCCCTGTGCCGCGACCTGTATCCAAAAGCCTCAGACGAGACTTGAGGAGCTTCCTAGAGGCTCTCCTGCCACTGCCCCTTTGGCCAGGGCCCTTCCCGCA
GTCTCCCCTCCCGATTCTTCCCTTTTACAGCCCCTCGCTCCCGACATGCGAGGCCCGTCTCTTCTTCCAGTTTGACTTCCAAGTCTTTCCATTCCCTAGG
ATCGGGCCCCAGTCTCACCCCCTATTTTCACCCCCTTCGGTTTTCCTCAGAAAGGGCCTCCTGCCTCCCTCGGCACCCTCGCCTACCCCCCTCGCAGCAC
CTGTCGCCTCCGCCCCTCACTCGGACCCCGCGCATCTGGCGCAGCCCCTCCCGCACTCCCGCCCAGCGCCCCGCGTCCCCGGCCCCCGCTGTCGCTGCTT
CGGGTTCCGCCGCAGGAGCCTCTCACTCCCGGGAGCGGGCGCCTCGCGCTCCCTCCCTCGGCCCCGCCCCGCCCGCCGCTCGCCCGTTGCTTCCCACCTG
GGCCCGAAGCGCCCAGCGCCCTCTCCCGGGACCCCGCGCCCGCCCCGCGCCCCTCGCGGCTCGGGGTCCGCCCCCTCGCCCGCAGGGCCCGCTGCACTGT
GGGTAGGCGGCGGCGGCGGCGGCTACGCGGAGCGGCAGGCGGTGGAGCGAGGCCGCGCGCGCCGAAGATGGCTGAGAAGCAGAAGCACGACGGGCGGGTG
AAGATCGGACACTACGTGCTGGGCGACACGCTGGGCGTCGGCACCTTCGGCAAAGTGAAGAGTTGAGTACGCGCTCCGGACCGCTGTGCGGGGCTGCCTG
ACTTGCGGGAGGCCGAGGGGAGAGGCGGGAGCCCCGGGCCTCCGGCGGGCGCGGGGCTCGGCGGCAGGTGGAGCGGTCCCGGGTCGCGCGGAGCTGGGGC
CCCGGGAGGGTGGCGCGCACCGCCTCGCCTGGCACCGGCGCCCGGGCCCCACAGGGTCCAGGGAAGAGGGCGGGGGTGTGAGCTGAGGATGGGCGTCCTG
GGTTCCAGGTTCCGCGCCCATCTGCCTTTCTGGAGGTCGGAGCAAGGCACTTCTGTGTTCTCTGGACCTCAGTGTCCTCCTCTGCAAAATCGGGAGAACT
GGACTCGTTCTGCGAGGCGCCTTCCAGCTCTGAGCCTGTAGGCTTAGGGCGGGGATCATCCACGCTACTGAGGACTGAGGCGCCGTTTCGTGCCGGGTGC
CCTGTTAGGTGCTTTACATGGAATCTCATTGAATCCTCACAGTGACTTGGTCAACATGTTGTCCTCACCCTAAAGGTGAGAAAACTAGGACCCCTAGAGA
TGTAGTAACAAGCCCAAGGTCACACAGAAATGGTCAGTACCAGAGTGAAGTCTAAGATGTCCTCCAATTCTGGTCTTGCTGGGAGGTCCCTGCCATCCCC
AGATTCCTTCACGTTCCAGGACTCTCGGTTGTTGGGGGTGACTGTTTGGGGGATGCTCCAGGGGCCAGAGGTTGTGAGTCTTTCTTCCTGGGGTGTTGTT
TAACGCTGGAATGCAGCTGGATTGGGTCAGAGGTTAATTAAAACAGAGAGGTCTGAAGGTGTTTGTGTTTGTAAAATGGCTATGGGAAGACTTCTAGGGT
AAGGGAGAGAAAAAGTTTCCTTGGTGTTTGGAGGATTTGAGGCTGAGGAGGTCAGGACTGCTAAGGCATATTCTGCTAAGGTCTGTCTTCATGGAGATAG
GATCCCCTTTTGRATGTAGAAAAACAGGCTGCTTTTGAAATGTTATACTTTATTCGAGTTAAGTAACTAGTAAGAATAGTTAAGTATGGAACTTTCATTT
GTTTTCTTTTTTGTTAATTAGTCACATGKGATTTAATTAACCTGCCTTCTCTCCAGAATAGAGACAGTTGTTTATTAAAAATACTTTGTTGCAAATCCAG
AATTATAAGTGAAATATTGACCTTTATTTTTTCTCTTTGCTGAAGAAATGCTGGGTAGGCAGTCTGGAAATTTTATTCTGAGGTCTCTATTTCCTTGTAA
AATTCATATTTTAACCCCAAGTCAAGGCTGTTGAATGAGTAGAAGAGACTCATTTTTCATTCCTTTGGTAAGAATCAGCTCCTGTTTTCTTGCACATATT
TAATACTCATTCATGTGTTCAAAAAACGCTGAGCACCTGCAACGTGGTAGGCACTGTTCTAGGCAATGAGGATACAGCAAGGAAAAAACAGATCTTTTTG
TTTAGCTTTCTAGTAGGAGAAGGCAGACAGTAATCAGAWTATATATGTAAAAGGTATGTTTAATTTTATTGAGAAAAACGAATCAGGGAAGGGAAGATAG
AGAGTCTTGTGAGGTTGGCAGTTTTCAATAAGGTGGTCAGACAAGGTGGTATTTTTGCAAAGACCTAAAAAGTTTGTAAAATTCTTTGCTGTCCTGTGAG
GGTTATAAAGTCCTGGGTTATTTTTGAAAGACCTTATAAGTAGAGTGGATAGTTAGAATGTATTTAAGATGAATACAGGACAATCCAGGGATTGGATTAA
TGCCTGTAATGTTACTTGTCATTTAGTATTATTATTAAGGACTATTGTGTTACAACATTATACAGTTGCTCAAGCAAACAGCGCCTTTGACATTTGGACA
TGTACACRCAAAGTTATATAACTTAACCCTATGTCCTTTCATATTGTGTTAAAAGTTTTTGCTTGTCTTTTTAAGTTCATATACTGTAATCTGAATGTAG
AGTAGAATACTCATCAGATCAATCAGTCCATTGCCAAAGACAACTTAAATCTCTTGTATGTACTTTTGAATTGTTTCCAGGCACTGGCTTCTTAAAATAT
AAACAGAAAGAACTTTGATTTATGAGAAATTCTTTTCCTGGAGAACCTCTGTCCAATGAACAACCAGTTGAAGGAGTTTTCCTAACACTGTGTTAGATCC
TCTCAAAAGTGATACCATGGTTTCCTATCCAAGATTAGGATTAGTACAATTGTTACTCATATAATTCTTCAAGGGACAAGCGAAACAAAAAGTCATGTTT
TTTTTTTTTGTTAGAAAACAGCTTTATGGTTGGGCACTGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGTTCAATTGAGGTCA
GGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCCATGTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGTAGGCGCCTGTAATCCCAGCTAC
TGAGGAGTCTGAGGCAGGAGAATCACTTGGACCCGAGAGGCAGAGGTTGCAGTGAGCCAAGATTGCATCACTGCACTCCAGCTTGGGCGGCAGAGCAAGA
CTCCATCTCAAAAAAAAAAAAAGAAAAGAAAAGAAAACAACTTATTTAGGTATATTTTATATATGAAATTCATCCATTCTAAGTGTACAATTCAGTGATT
TTTACTAATTTTGCCRAATGTTGCAACCATCATTATAGATAGGTTTTAGGACATTTGAGGACACCACAGTAAGATTCTTTATACCCATTCACAGTTAATC
TCATTTCTACCCTCAGTCCCAGGAAATCACTAATCTGTTTTCTGCCTGTATAAATTTGCTTTTTCTAGGCTCTTCTTCATAAACGTGATCGTTCAATATG
TCATCTTTTGTGTMGAGCTTCTTTAACAATGCTTTTGAGATTCATGCATGACATAGCATGTGCCATTAATTTGTTCCTTTTTATAGTTGAATAATATTCC
ATTGTGTGGATATGCCACATTTTGTCTATACAAAACCAGTTGATGGTCATGGTTTCAAGTTTTGGGCTATTATAAATAATGGCACTACGAATATTCACAT
GTAAGTCTTTGTGTGGACATATGTTTTCATACACCTTGGGTAAATAACTAGAAGTAGAATTGCTGGGTCATATCGTAGTTTTATGTTTTACTTTTTGAGA
AACTGCAACACTTTCCCAAAATGGTCACACCATTTTATAACATTCCCATCAAAGATGTATGAAAGTTCCCTTTTCTGAGTATCTTTGCCAACATTTGTTA
TTGTCTGCCTGATTTATTATAGCCATTCTAGTGGGTGCGAAATAGTATCTCATTGAGGCATTAATTTTGYGTTTCCCTAAGGACTAATGATGTTGAACAT
TGTCTCACRTAATTACTAGTCATTTATGTATTTTCATTGATGGAATGTCTGTTTATATCTCTTGCTTATTTTCTAATTGGGTTACTTGTCATCTTATAAG
TTGAGTTGTGAGGATTCTTTGTAAATTGTGGATACAGATCCTTTAATGGATATATTTTGCAAATATTTTCTTCCAGTYTGTTGTGTCTTTTCATTTTCTT
GTGTCTTTTGAAGTATAAAAGTTTTGAATTTTCATGAGGTCCAATTTATTAGTTTTTAAAATTATTTTATGGACTATGCTCTTGATGTCATAGGCAAGAA
ATCTTTGCCTAGCCCAAGTCTCAAAGATTTTCTTTTATGTTTTCTTGTAAATATTTTATTATTTTAGCCCTGATGTTTAACTATGTGATCTATTTTGAGT
TAATTCTTATGTATGGTGTGAGATGAGGTTGTAAGGTTAACTTTTTCCATGTGGATAACCAATTGTCTCAGCAGTTTTTGTTGAATGCAGGTGCATTTTT
AATTGTTGTAGATTTTAGACATTGCAAAATGAATTTCTACTAAAAAAGCTAATAGGAGATGATGTAATTTTAAAAGCTTGGCCAGGTGTGGTGGTCCATG
CCTGTAATCCTAGCACTTTGGGTGACCAAGGCAGGAGGATCCCTTGAGCCCAGGGGTTCAAGACCAGCCTGGGCAGCATAGGGAGACCCTGTCTTTGATT
GATTGATTGATTGATAGAAAGATAGATAGATAGATAGATAGTTAGATAAATGGTTATAAAAACATGGAAATGGAGAAGTAAGGAACATTTTATGTGCTTT
CTCTCTTGACTTTTTTCCTTTTTCTTATTTGTTTATTAATTAGTTTTTTTTAGGGACTATGTTGACCAGGCTGTTCTCAAACTTGTGGCCTTAAGCAGTC
TATCTGCCTCAGCCTCACAGTGTTGGGATTACAAATGTGTCCCACCATGCCCAACTTTGACTGTTATGCTAATTATAGATTTAGAAATTTTAGGCCAGGC
ACGGCGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTAGGTGGATCACTTGAGGTCAGGAGTTTGAGAACAACCTGGCTAACATGGTGAAAC
CTCATCTCTACTAAAAATACAAAAATTAGCCAGCTGTGATGGTGCGCGCCTGTAATCCCAGCTACTTGGGAAGCTGAGGCAGGAGAATCACTTGGACCCG
GGAGGCGGAAGTTGCAGTGGGCCGAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTTAAAAAAAAAAAGAAATAAAGAAATTT
TAACTTCAGTTGTTGATATATCAATTTATGGACCAAAGTTAGGGACAAAAAGCAAAAATTGAAAATGGAATAGTTTTAACAGCAGTAGTTTTAATTTGTT
TTTTAAAAGTATATGGAAATCTTTGTATTTGTTAATAAAGCCTTATTTAAAATGTTTTAAATTTTGTCCTTCATTAGTCTATTGTATTATCAGGTTGMTG
AGGGACTGTTTTTGGAAACAGATTATATGGGCTGACAGAGTTTAAAAGTAATGCTTTTTATCTATTTAAAATTTTTCTCTATATTGACTGTTCAGGCTCT
CACTCTGGGTAGGGTAAAACTGTTAGAGAGTTCTTGTAATTAGACTTGTTCATTTCTTATCTAACTTCTCTAAAGGTGATAGAAATTCTAGAAGAATGGT
CCTGTTGTTTGTGTTATATAAAGACTGATTGAAGAAACAAAATTATAGTGCTAATTATTTATTTAAAAAGAAGCCTGCATTTTCAAGATGAGTAGTAGTA
TATATGTGGTTTATGATTTAAACAAATTTTTTTCAACATTTTACTCCAGAAATATGTTTACCCATATGTGGTTTATGAAATAAATATTCTTCATTGGAAT
TGTACACCAAGGGATACTTAGGTTCTTTCTTGTCGGCAAAGTCTCACGAAGAAGTTACCCTTTCCATTTTTCAAATAGTTACATGACTGGCCTACAGACT
GCTTTCAAGAAATTAAGTAAATATTTTACTAATTCCCCACTTGTTTTTGAGATAACAGGAAGGATAAACCAAAACTTAAACAAACAAACAAAAAGTGTTA
CCTTATTTTGAAATGTAAATATCAAGTCCTAAATGATAAATCAAATTTCACACAACTCTCCCATCAATTGATGGAGCTAAAAGTTATGTCTGTGGTATTT
TGGTCCCTTGCTTGACTTGTGTGCTAGTGTGGAAGCCCTGAACAATTTAACTCCCTGGGCCTTGTTTTCTTCCCCTCCTAAAGGATAACACTGGAGTAGC
GAATCTGTGAGGTCCTTTACAATGCTATCATTAAACCGATTTTTAAAAGATTTAACTCCAAAAAAATGGGTATATTTAATTATTCATCCTGGTTAATGAA
AATTTGAGTTCCTGAATCTGAAATGTAGATGTAATGTAGAACAGGGGAAAAGGAAACATATTTTCAATACTTCAGTGATAAAAGGTACAATTTGATTAAG
TTGTTACTATATTCTAATCACTGTATGATATATGCACTTGATTTTTTTTTATTCCCAGAGTAATCCTCTAAGTTTGGTATTATCTCCATTTAACAAATGA
AGAAATTGAGAATCAGATACTTTRAGTAACTTGTCCAAAGTTCCAGTGCTATTAAGTGGTAGAGCTAGCAATCAAATTCAGGGTTCTCAGACTGCAAAGT
CTCTGCTCTATGGACTGTAAAGTCAAAATGCCTAGTATGTTCTGAGTTTCAAACYTACAAGGATATAATTTTCTATGTCTGCTCATATTTATCAGAATTG
AGAAAATAAGATTTAAATGTCTTTCAGTCCATATTTAGAGATAAATAACGTTTTTTGAAATGCCATATATAGATGATTAAAATTTATATTTTTACTTTTC
CAACATTTACTTGGATGCCTCAATCTTTCATTTCTTATTATAAAATGTGCTGAATTCTACCAGTTTTAACCCATGTTTATTAGAAATACTAGTGATTTCA
GTGTGTTTACTGATATGAAAGTAATCTTTTTTTTTTTTTTGAGACTAGTCTGGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCTATCTCAGCTCACTGC
AAGCTCCGCCTCCTGGGTTCACGCCATTCTCTTGCCTCAGCCTCCCCAGTAGCTGAGACTACAGGCGCCTGCCACCACGCCTGGCTAATTTTTTTTTTTT
TTTTTTTTTTGGAGACAGAATCTTGCTCTGTCACCAGTCTGGAGTGCAGTGGCGCGATCTCGGCTCACTACAACCTCTGCCTCCTGGGTTCAAGCGATTC
CACTGCCTCGGCCTCCCGACTAGCTGGGACTACAGGCGTGCACCACCACGCCCTGCTAATTTTTTGTATTGTAGTAGAGATGGGGTTTCACCATGTTGGC
CAGGATGGTCTCGATCTCCTGACCTCGTAATACGCCCGCCTCAGCTTCCCAAAGTGCTGGGAGTAAAGGCGTGAGCCATTGCGCCCGGCCTCACCCGGMT
AATTTTCTGTATTTTTGGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTTGCTCTCTTGACCTCGTGATCCACCTGCCTCGGCCTCCCAAAGTG
CTGGGATTACAGGCTATAAAGGTAATCTTGACTAGTGATTGCCAGTAACCTTTAGTAACCAGACTAAAGAGAACTTGTACAAATGATTTGATGTTCTAGA
AGAAAACATTGGTATAAGAAGGTATTAGCTCTGGAATTAATTCCATTTCTACTACCAGTTGTCTCACCTTTGGGAAAAACCATTAGATGCTGAGCCTTTG
TTTCCTCCTTCGTAATATGGCAATGATCATACTTGTCCTGCCTACCTTCTGGAATAGTTATGAAGATCAAATGAGTTGAGGTATATAAAATGGCTTTGGA
AAAGATAAAATGCTATACAGATAGATGACACTTGTGGAGATGGTGAGATGCATGGCAATTGTAGGTAAATTCTGCACCCTGTGTTAGAAAGTACTTACTT
TCCATTGAAATGCCTTCAGTTCTCACACCAACATTGAGATAGAGCTGTAGTAATCTGCCCCTATTTTGTGGTTGCCTAGGTTGAAGAAAGCTCTTAATGA
CTACTTTATCTGTGCTTTATGATACTTATTAATGTTTATATTAAAAACAATATCCTGTATGACTAAGTCATGTAATTTGCTTTTTCCCAAATATGGAAGA
TGAATGAAACAAGAATGAAATGGAAGTAATAGTTAAATAAAAGTGAATGTACACACATTCACAGTAAATTGATTTTACTTTTGAAATTATGCAAATTCTA
AACAAGTGTTAAATWTTGGTTCCAAATAATGAAATTATGTTTCTTCTCAAATACTAGATTAGTGATTGAATTAAAATCAGTTGAATTATTCTCACAATTA
GGTAAATACGTGCTATTTAGGTTTCTCTTGCTGATATATATAGATATATATAATATATATATAATTTATATGATTTTTGAATTGTGTCCTTAATATCTGA
ATGGATTTTGTTCATTTGGTGTAGCCAGTTGATTGACTTTCAAAGGGTATTTTAAATAGGAAACAATGTTATAAATGGTAGCTATTTTCATAGTATGTCC
ACAAAGGCAGCCTGATGTAGTATAAATACTCTCTGTAGTATGTTGAACTTAGAAGACCTGGTGTGGAACCTTTGTTTTGTCATAAACCAGCTATGTGGTC
AAACTCAATCTGTAAAAATGGGAATAATACCATATGTTCTCTTCTAGTGTTGTGAGAAGTACATGAGAAAATGTACATAGATGAAAAAGCACTCAGAAGT
ACTTATGTACTTTTGTGTATGTAGACACCATTATGTACTTAAACCCACAATTAGCTGAACTATGAGAATAATCTGTGATCTGGTTCTGAGACCAGAAATT
TATTGATGAGAGAGAGGGAAGAATTCACTACCTCCTGTCTTGTTTTACTCTGGTCTTATTTCTGCAAATGAATGTGTTCAGAAACCTGTAATTCTCTAGA
AGCTGCTCACTTTTCACCATCTTCTGTGCATCACTTGGAAGGCACAAACACATTATATATATTTTGTATACATACATATATATGTATGTATGTATTCCAG
ATCCCATGGTATCCATCATAGAAACTCTTGGAGGAAAGAGGCATAAGCTGGGAAGGGGGAAAGTGTGGGCAGCAGATGGCATTTAGTATGAATGGGTCAT
TTTAAAGTCCTGGTCCACTTGTAGTAGAACCAAAATGAGGCTATACATATATTTTCAGTWCAGATAATACACTCTGAGCTAAAAATGCTTTTCTACCAAA
CTTTATCTTAACATATCCATATAAATTAGAAAGGATTTTGTAGTTTGGTCATATATTGAGGTAATTACCTCAGTTCCATGAGCTTTCTCCCTTTTTCATG
CTGACACAACCATGCTTTATCTTGCTTCTTTTTGTAAAAACATCCCAAAATGTCCACTTACCTTGTGGTCCATGTTAGCTTTCTTGAAAGCATTTGGTAC
TGCTTTGTAATAATAATACCACCCCATTTATTCTTCTGAGATTCCTGTGGTTTCCTAAATGATAGAGAAAATATTTTGTAGAGGAAGTATTAATAATKTT
TGAAGCCAAGCAGATAATTTAATTTGACCTAGCAGGAAGATCTAATCTCAAATCCTTTAAGAAATAATGAGTAAGTGGCTGGCACAAGACCCTTAAAGCA
TTAAATATGTTATAAAAATGAGAGCAAATCTACCTAGTGTATTTATCAACTACAAATATAAGAGAAATGTAAACCTTAAATCAGGCTTTTATTTTTATCT
GTTATTGAAGTGATTGAAATGCGTATGAAAAGCAATGTGTTTATTTTGAAATATGATGAACCTTTTTATTTTTAGTATGGTGTTATTAAGGAAAGAATTT
CAGGCAGTTATCTCTGCTAATAATAGAAGCCTTCTTCACCCCTTCAAGGGAACAGTATTCTTGCTTAAGTGGTGTCTTATGTTTGGCAGTGTTTGCCTCT
GATAAATTTTATGTATTTCTTTGGGTGGTACCTTTGTTTTTAAAATATTCATAATTCTCTTTTTAATCTGCCATTAGATCTTTTTAAACAGCCTTTTATA
TGATTAAAGATAATTTATAAAATCTTGCTATATGTCTCTTACTCTGAATGTTAGTATGTTATTAATATACTTTGTTTTWTCAGAATCATTTTTCTTCAGA
TTATATATACTATTAAAACAAGAACAGTGTGTTCTTATTCAACATCTCAGTTTCTAAATTRTAAATGAATTATAAGGTAAGTTAAACTGACTGTCATAAA
ACAATAGATCTAACATTTTTAAATATACCATACTTTTTTTTTTCTAAATGCTTGTTTTACTTGGGCAATATGATAAGTATAAGTTATTTTCATTTTCTTT
TTAAAAAAATCATTTTACTGTTTCTCACAATGTATGTATTTATATAYMTAYATATATATATATATATATATTTTTTTTTTTTTTTTTTGTAGAGACAGGG
TYTCACTGTATTGTTCAGGTAGTCTCAAACTCCTGGGCTCAAGTGATCCACCTATATTGGCCTCCCAGAATGCTGAGATTATAGACATGAGCCACCATGC
CCAGCTTTTTTTTTTTTAATGTGTTTGAGTATAAGTTGGAACTATATGGTGTTCCATAATTGATTCCAGTTTTTCCAGTCTTAATTAATGGAATAATACA
ATCAATATAAAGTATTTGCTGTGTTTAGTCATACGGGATTTTAAGCAAAATGTTTTTTACCAGTGTTCATCTGCTCATGAGGGATCTTCTCCTATGACCC
AAACACCTCCCATTAGGCCCCATCTCCAACATTGGAGATTAAATTTCAGTGTGAGATTTGGATAGGACAAATATCCAGACTATGTGAAGTGGCTAAAAGG
CAGAAGAACTAGGAAGAGTTTGAGTCTTGTGAGGCAACAGTTGGAGTTCGCAGTTTATCAAGGAGAGTCTGATAAACAGTTGGGTTTTTGGCTGCAACCC
TCTGAAGACGGATATCCTGCTTAGAATAAGCTTAATCTCAGATTGATCTGCCTCTTACCTTTCTTCTCTGGGGGAAGATAAAACTGTCAGAGCCTCTACA
GATTTTCATACACAATGTTCAGCATTCTAAGAGACAGGGTGAAGATAATAGAAACAGGTTTGTAGGGGATGCAGATAGTAAAGATATCAAACACAGAATT
TTAAATAACTGATACTTTTGTTTAAAGTGGAGAATATTAGCAGAGGACTGGAATCTATAAAAATAAAGGAAATTCTAGGACTGAAAAAATACAATAATTG
AATTATCTTTTAGATGATTAATAGCAGATTAGATTCCATTGAAGAGAGGATTAGTGAATTAGATGATGGGTCAGAAGAAAATACCCAGACTGAAAGATAR
ACAAAAGGATGAAAAGAAAGTATAAGACACATATGAGAACACAGTGAAAAGTCTAATACATGTATTATTGGAAGCTATATAGAAAAAGTTAATTGCAAAC
CTCCATTTTTCTTTTCTGTAAAATGGTAACCCCAGGTTTACCTTCTTTTAATAGAGTTTCTCTGGACATAGACTAAGATAAATGTGATTTATCAGTTCTA
TTGCCAACAACAGTATTTATTGTAAAAATGACCTGTGATTGGTTAACTGCATTTGGACTGGGAGGACTACAAATGGACATGTTATACTCCCAAGAGACTA
CATTATTCACCATTTCTACCAGCATAAAACTTATAGGGAAACAGACGTCCAGTTTCCCTTTAAGGTGTCTCTTCAAACTCAAGCACTTCCTGATGGGAGG
CTTAGAAGTTGCAAGAATGGGCTTATTTTATGAAGTATTTCTTGTTTGAGGCTTGTATATGCTGGAGTGTACTGTATCCACTGATACGGGCTTCCCAACT
TCATGTACCCCTGTGTGATGAGGAGGCATGGAAGTAGCAGCTGAATATTTTAAGGACTTCTGATGAAGATGTTTTTGGTTATGSCATCCTGACGTTCTGT
GTTTCTGTCCTAAGTTCTCATAAAAAGCTAAGTAAAACTGATGTAACATTACCACCTTTTGTATCCTGAGGTATGAATGTCATCTTGAATCCAAGACCAC
TGATGGTCATACACAGCAGGTAATACATAATTCCAGAAGAAGAGGACAAAGGGAATGGGGCAGAGGCAGCATTTGAAGAGATAATGGCAGAAAGTATTCT
AAAACTGATTAAATGCCTCAAGCCACAGATTCAGAAGCCCCCAGCAGAATAAATGTAAGAAAACCATTCCTAGAGATATCATTGTGCAACTGGTCTAAAC
CAATTCCCTTTTCTTGAGCCTCCCTTATGCTGGTGTAGACTGTATTTATCCTTGCAGAAATGGGAAAAAAATGTTGAGAATATCTTAAAAGCAGCCAGGG
GGTGGGGTAAAAAAAAGAAGTGTATTATCTTCAAAGGGACAGTAATAAGTTGACTCCCCAACTAAAACAGTGAAAACAAGGAAAAAATGGAATGGAATTT
TTTTTTACCTTCGAAGAGGTAAAAGAAACAAACTGCCAGCWTATAATTTTATGCCCAGCAAAAATGTTCTTCAAAAATAAAGGTAAGCTGGGCGTGGTGG
CTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGGATCACCTGAGGTCAGGAGTTTGRGACCAGCCTGGCCAACATGGTGAAACCCCGTCTTT
ACTGAAAATACAAAAATTGGCCAGATGTGGTAGCACACATCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCGGGGAGGCAGA
GGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCRAGACTCCATCTCAAAATAAATAAATAAATAAATAAAACTCCAGCCTG
GGTGACAGAGCAAGACTCCGTCTCAAAATAAATAAATGAATGAAAGAAGGAAGGAAGGCAAAATGCATTTTTATGCAAACACAAATTGAGACAATTTGTC
AACAGAAGACATATAACAAAGGGAACACCAAAGGCAATTTTTCAGGAGGAAAGAAAGTGACCCCAGGTGGAAGGAAGAAATGCAAAAAGAAATGAAGAGC
GTTGGGAAGTCTAAGTATGTGGGTAACTAAATAGATACTGACTATACAAAATAATATCTTGCGAGAYTGAGAATATATGTAGGAATGAAATGCAAGAACA
GAAAAGATATGAGAAAAAGTAGAGTTATAGTGTTCTAAAGTCCTTGCTTTGTTTGGGAAATGTAAAAACACAAATTTTTATTAGACTGAAGTTAAGGATG
CATGTTGTAATATCTGGGGTAGCCATTAAAATGAAACCTGAGGACTCTAGAGAAAAAAACACAGATCATGTTTCTTATTTTGTTTTGGAGAGAATTCTAG
ATCATTCCACAACTCTACTTTAAAAAGAAATTTTATGGAATGTAAAATTATGTAGTCAACAAGAAAACATTCAGAGGTGGTTAATGAGAATGGAAGGGGA
GTTGTTTGAAGACAGGAAAATAAAGGAGGACGAGTAAGAAGGAGATGAAGCATGTGGAATAAGAGAGACAAAAAGAAAATAGACACATAAGGACCAGAGT
TGGAAAGACATTAAGAGAGGGCATGGTTTATGACGCTTTGGGATAAGTGTTGCTGGCAGAGTCTACTGAATGCTAATACATTCTCCAACGGTGTTAAAGA
GTCTACTRAATGCTAATACATTCTCCAACAGTGTTGAAGAATTTATAATGGTAAATGTTGTTGTTKTTTTTTTTCTTCCCCCCCCCCGCCATTTTTTGTT
TGTTTGTTTGTTTTGTTTTGAGTCTGGGTCTCACTCTGTTGCCCAGGCTGGAGTATAGTGGCACAATCATAGCTCACTGTAATCTCGAACTCCTGGGCTC
AAGTGATCCTCCGTGATCCTCCTGCCTYCTTTTTTTTTTCTTTTTTGGAGGCAGAGTGTTCCTCTGTCCCCCAGGCTGGAGTGCAATGGCATGATCTTGG
CTCACTGCAACCTCTGTCTCCCGGGCTCAAGCAATTCTTGTACCTCAGCCTCTGCAGTAGCTGGGACTCCAGGTATGCTCCATCACACCAACTCCTGCCT
TCTCTTCCTGAGTGGCTGGGACTACAGGCGAGTGCCACCATGCCCGGCTAATTTTTAATTTTTTTTTTTTTTTGTAGAGATGGGGTCTTCCTATGTTGCC
AGGGCTGGTCTGAAACTCCTGGCTTCAAGCGATCCTCTCGCCTGGGCCTCCCAAAGTGCTTGGATTACAGGCATGAGCCACCATGCTTGGCTGTAAACTG
TATTCCTGACTCTATTTTTTAATCTTAAATGATGATGTAAAAATAAAGTTGATTTTCCTGTGGAATCCTAGATTAACTTAAATTTTAAAGAAGTATTTTA
TTGGCTGGGCACGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCAGGTGAATCACATGAGAGGCCAGGCATTCAAAACCAGCCRGCCAA
GATGGCAAAACCCTGTCTCTACTAAAAATACAAAAAATGAGCTGGGCATGGTGGTGCATGTCTGTAATCCCAGCTACTTCAGAGGCTGAGGCAGGAGAAT
CGCTTGAATCTGGGAAGCAGAGGTTTCAGTGAGCTGAGATCATGCCACCGCACTCTAGCCTGGGTGACAGAACAAGACTCTGTCTCAAAAAAAAAAAAAG
GAAAAAAAAAGGTATTAAATATTTTATTTATTTATTTTTCTTTTTATTGCTGCTGCACAAATTAACGTTTTAAAGAAATATTTTAAAGTTACAATCTAAA
GCCAGTATAAACACTTATTTTAAAAATAAAGCAGAGGTGTCATATCTCACTCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATTCCTTGAAC
CAGCCTGGACAAAATGGCGAAACCCCATCTCAACAAGAAACATAAAAATTAGCCAGCCATGGTGGCACGTGCCTATAGTCCCAGCGACTTGGGGAACTGA
GGCGGGAGGATCGCTTAGGCCTGGGAGGTTGAGGCTGCAGTGAGCTGTGAGCGTCCTACTGCACTCCAGCTTGTGTGACAAAGAGAGACCCTGTCTCTAA
ATAAATAAATAAAGCAGAATACAGCATATCACATAATTAAAGAAGTTAGGTGTAGAGCAAGTCTTTACTAAAATAAATTATTTTCATAAGTCTTTACTGA
TCTATGTAAAATAGCCCATTTTCCTGTCACCTTGTCACTCTGCTTTCTTCATGTATCATCATTACATCACTGTTTCTTCTATTAGAAAATTTCCTTATTT
TTTGTCTTCTAACACACCAAGCACAACTATAATGTTATATATTTGTTTATTATTTATGTTCTCCACCAGAAGGCAAGTTCCATTTATTTTCACAATTCAA
GGCAATGCCTAGTACACATCAGACACTCAGAACATATTTGTTAAATGAATGAATGAGCAAATGAATGAAAGACTTCAAGGATGTACAAGTTCATTCTCTT
AATAACATTTAAGTTCATTTTACATATTTTATTAGGGGATTTAGAGACTCTTAAGACTTTCAGTTCATGTGTTATTTTCTTGATTTTTCAGCACTTCTTG
ATGACTAACCTTAGTATATCTGATCCATACAAAGGCCACAGCCCTACCCCAGCCTTACTCTCTAACTGAACACAGCAATTCTCCATACTTGATTATTTTC
ATGCATTGTCCCTCCCTCCTTAGCCTATCACTACTAGACTCTATCCCTTCACTGTGACCTCATTTCTCAAATCTAATGCTAGAGATAATGCTTATCCTCT
TAAGCATGCAAGTGAGCACCCTTGATACGTTGTAATCAAGGAAACCTGATTATTGAAGGGTAAAATTATGTGAATTTTGAGCTTGGGCGTTAGAGGCAGA
TACACCATCCTGTCACTCACCAATTTCTAATTTCCAGTTTGCTCACTTGTAAATAGGGCATAATAATATTTACCTTGTGGGAGTTTTGGGAATTAAATAT
GTACATAAAGTACTATTTAATAAATATGGTACTTATTTAATAAGTTGTAGATAAAAAGGAAAGGAAGTCTCTTGCTTCCTTGTGAGAACCATCCTTTAGA
GAACTTTAAAGGATTTTCAGGGAAAGGAAATTTGGAGAAGAGCAATGAGATTGTTTTGTTTCACCAYGGGCAGAGGTGAAAGGAGCGTTGTGTTGTTTTG
GCAGGAGTCTGGGGATGGTAGGGGTYGGAACATATGTGCATTACATAACGCTGCTGATCACCAGAGTTACGGCTTTTGACATGAATGAGTTAAGGTTGCT
GACCACCCCATGAGGCCCAACTGGCTGATACATGTGTGATCTCTTGGCTCGTCACAGCTTAGGTATATAGTGTCCTCCAAATGTTCTTAACKTTTTTATT
GTACTCCATATACAAGAGTATACTGGCATCTTTTAYGTAAATTCTCAATAAATTTTCACAAACTGAACACATCCACGTAACCACCACTTTGATAAAGACA
TGGAAAATGACCAGTATCCCAGAAGTCCCCTTGTGTCCCATATCCCCTTGTTTCCAACCTCCACCCCACCAATGGGAACCACTATCCATGGATAGTTTCA
CCTGTTTTTGAACTTTATAGAGACAGAATTCTACTGTATCTGGCTTCTTTACATGGGATTATGTTTATGAGATCTATCCATGTCATTGCATGTAGTTGTA
ATTCATTCTCATTGCTATATAGTATTGCATTAAGACTATACTATTATTTGTCCATTCTATTACTGATGGAAATTTGGTAGTTTTTACATCTTGGTTGTTA
TGATTAATGCTATTTTACACATTCCTGTACTTGTCTTTTTTCTATTTTTATTATTTTAGAAAAACGTGAATTTAAAACCATATATATAAATATTATTTTA
GAAATATATTTTTTTCTACTGTCACATTTCAGATTCTTGTCATTACTGGGAGTATTTTTTCAGGTATCTACCATGGCTTTCTAGAATACCATATTTATTG
TTATTTAAGTTGTTTGAGATGCAATACTTTTGAATCCATACACAATACTGTAACAGGTACCTGCTAATAYAATGTTACAACCACAGGTGTTTTTTTTCAC
TTGTCTTTTTGAGTTATAATCTTCACTATGTTGTAACTATTTAGTATACTAATTTTTAAAGTAATCTTTAAAAGACTTTAAAATGATATTCTACATTTGT
ATGTGTGAAATCATTCTTCAGGGATAATTATCATATTACTATATCCTTGATAAGTATCTTTTTTGTTGTTACTGATTCCATCAGAAGTTTTCTCCCATGT
AGTAAAGATTGATACATTTGTTAGGCAAGTGTGTCTTACATATAGTCATTTGTCRTTCAAAATAATTTAGAAAGTGCCTTCTTAAGATGAAAGTGTCTTC
TTAAGATGAAAGATTTATRAGAACTTGAATTTAGGAAGAATCTCTTTTTTTCTGCAGTTTAACTTTTGATTAAAAAGGAAACATCAGATTATATTTGGGA
CTATATATCTTTGAGAAAAACATATGACAGCACTTCAAAAATTCATGGAAAAATGGAATTAAAAGATAAAAATAAAAAATATAAACATTTTTAATTTTTA
ATTTTAATTTCAATTTTTTAATTAAATAGAGATGATTTWAAAAAAAAATTAAATACAGACGAGGTCTCACTATGTTGCCTAGGCTCGTCTCAAACTCCTG
AGCTCATGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCTAGGATTGATTGCAGGCATGAGCCACCATGCCCGGCCAACTTTATTTTTTAGCATAAATGCC
ATCAAGGTCAAGATACTTTTGTAAGCAATGATAGCAGCCATTTAGTCCATTCCTAAAGAATTTACAGTCCTCAGAGTTTAACCATGTCAGTGCAGTCTTT
TTTACAYGAGTAACTAAAAGAAAATAGGTTTGTTTTAAAGGTGTGTGTGTGTTTTTTTTTAATATTAGGAAACAAAGTCAGAAGGAGCCACATCAGAACT
GTAAGTTGGATGCCTAATGATTTTCCTTGAAAATTCATGCAAATTGCCCTTGTTTGATGAGAGGAATGAGCAGGAGCATTGTCATGGTGGAGAAGGACTC
TTTGGTGAAGCTTTCCATGGGAGTTTTTCTGCTAARGTTTTGGCTAACTTTCCCAAAACACTCTAATAATCAGATGTTGTTGTTCCTTGGCCCTCCAGAG
AGTCAATAAACAAAATGCCTGAAGATCCCAAAAAACTGTTGCCATGAACTCTGCTCTGTTTTTTGTTTGTTTGTTGTTTTTTGTTTGTTTGTTGTTTTTT
AAGAGACAAGGTCTTTGTGTCACYGAGGCTGGAGGGCAGTGGCGCAATCATAGCTCACTGCAGCCTGGAACTCAAGTGATCCTCTTGTTTCAGCCCCCTG
AGTAGCTGAGACTGTAGGCCTGTGCCACCACACTTGGGTCATTTTAAACAATATTTTTGAAGAGACGGGGTCTTGCTATGTTGCCAGGCTGGTCTCGTCC
TCCTGGGCTCAAGCGATCCTCTCGCCCCTGTTTCCCAAAGTGTTGGGATTCACAGGTGTGAGCCACTGCGCCTAGCCCACCTTTGCTCTTCACCAGTCCA
CTGTACTTTAACTGGACCACTTCCACCTCTTGGTAGCCATTGTCAGGACTGTGCTTTGTCTTCAGGATCATATTGGAAAAGCCATGTTTCATTTCCTATT
ACAACTCTTCGAAGAAATGCTTCAGGATATTGAAGCTACCTATTTAAAATTTCCATTGAGAGCTCTGCTCTTGTCTGCAGCTGATCTGAGTGCAACAGTT
TTGACACCCATTGAGTGGAATGTTTGCTCAACTTTAACTTTTTAGGCAGAGTTGTGTCAAACTAAATCGATTGACATGCCTATGATGTCGGCTGTCATTT
CTGCCTGTCCTTTTCAATTAAGGCATGAACAATATTTAATTTTTTTTCTTACAAATCTGTGAGGGTGGTCTGCTGCTATGGGCTTCATCTTCAAAATCAT
CTTGTCAGCCAAGCATGGTGGCTAACCCCTATAATCCCAGCACTTTAAGAGGCAGAGGTAGGAAGATCGCTTGAGCCCAGGAGTTTGAGACCAGCTTTGG
CAACATAGCAAGACCCTGTCTCTACAAAAAATAAAAAATTAGCTGAGCATAGTGGTGCACGCCTATGGTTACAGTTTCTCTGGAGGCTGAGGTGGGAGAA
TCACTTGACACAGAAGGTCRGGGTTGCAGGGAGCAGTGATTGCATCACTGCCTTCCAGCCTGGGCAACAGAGTGAGACCCTGCCTCAACACAAAACAAAA
AACTCTTCTTGTCCCTTCTTAAAACAAATTACCTATTTGTAAACTGCTGATTTCTTTGAGTCRTTGTTCCCATAAACTTTTCATAAGGCCTCAATGATTT
CACCATACTTCCATTAATGCTTCGATATAAATTTGATGTTTGTTTTTGCTTTAACATTAGCAGAATTCATGTTGCTTTAATAGGGACTCTTTTTAAACTG
TTGCTTATCCTTCTTAGTGCCTCAAACTAGATCCTGTTCAGACATGTAATAGTTTATTTTGGTACAAAAGTTTTTTGATATCCATGCATAGTTTTTTCAT
AATATGCATTTCCATGAATTTTTTGAATTTTTTAAATATTTTTCTTTTTAGTTCAGATGTTGTTTCTGGTCTAATATTTACTTGTTTATATTTAATAAGT
TATTTTTACTTTAAAAATATTTTGATCTTTTTTTACATGCATGTTTGTGTGTGCAGTTTCTGGTGTATTTTTAACAGTAGCAATAGGACTGTTCAGGACT
CTTAGGAAATGCAAAGAGAGCAAATTTTTTTCCCCTTGAGACTTGCTTTGGAGATAGCAAGGTATAGCTTTGAATCACAGCTCCAAAATTGATTGCTTAT
ATGCAATTTGGTTAAGTGTCTTAAACTCTGCGAGCCTGGGTTTTCTCTTCTACARGAACTCTTGTAGAATTTAAATTAAAAAATATATAAAGTGCTTAAT
GCATTTATATACATAGAARCACATGTATGCATAAGTATATGTGTACACACACACACACACACACACACACACMCACACACAYATATACATACRTACAAAC
AGCYTGCTAAGTATGAGGCACGCATTACCATTACTATTAGCTGCCTTTCAGAATTACCTGTTTTCTATTGATATCATAACTACCTTTCCTCAATTGCTTT
ATCTTTTAGGCCCCAGAATTGTCTGGTCTTTCCTGCCTTGGATATCCGCTCTAGCTAGTTCCTATCTTTTTTTTTTTTTTTTGAGACAGCGTCCAAAAAA
AATCCAGGCCAGAGTACAGTGGCACTGTCTTGGCTCACTGCAACCTCCGCCTCCCCGGTTCAAACGATTCTCCTGCCTCAGCCTTGTGAGTAGCTGGGAT
TACAGGTGCCCACCGCCACACCCAGCTAGTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTTGYCATGCTGGTCTCAAACTCCTGACCTCAAGT
GATCTGCCCACCTTGGCCTCCCAAAGTACTGGGATTACAGGCTTGAGCCACCACACCCAGCCTAGCTAGTACCTTTCTAAAGTACAATGTACGAGTACTT
TTCTTTCCATTTCTTAGATCTTTGCTACCTAAAGTTTAAGTACATAGATTAGCAGCATTGAAAGCTTCTTATAAATACTTCAAAGCACTTGAGCACTTTT
AATTTATGCATTTCTGTTGGTTATAATACTTGGGAGTGAAATCACTGAGTCATAGAGTATATACATGTTCAGTTTTAGTAGTTACSCATTTTGCATCAAT
TTATTGTTTTCCCAAGTGTTTGCACTAATTTACATTCCYTCCAGCAACCTATAAAAGTTCCAGTTGCTGTATTTCTTGACTAATACATGGCATTGTCTGT
CTTTTTTATTGTGCTATTCTGGTGGGTGTATTATGGTATTGTATTGCATTGTGGTCTTAATTTACTTTTCTCTGATGACCCATGATATTGAGCACCTTTT
CATGTTTATTGACTATCTAGATCTCCTCTTTTCTAAATCTGTTTTCCTGTGAGACATATACCTTCTTTTGTAATGCCCGGACCTTGACTAAATTGTAGTT
CTGGTGCTGATGGTTATTATTTTTTCTTCTGATTCTTTTCCATATTTAGAAGCTTCTGGAATGCAGTACTACATAGGATTCTTTAGGACTTGGAATATAT
AGATAATAACTCTCTTTTGATAGGTGTTTGTTGGTTTGCTCAGATATGAGAGTGATTAGCACACCAAACTTACATACACCTCATATTCTAAAGCAGCAAT
ACTAGTAGATTGTGAAGCCTGTATCATATATTCACGCACCCCAAGTATTAGAGTTAGTCATGCATTTTTTTTCCATACAGTAAATAAATAGTTACTGAGT
GTTAGTTATGTGTTAGGTACTGTGCCAGATGCCAAGGATCAATGATAAATGAGACACAGACCCTGTTCTGAAGGAGCTAGCCACCGTAAAGGAGATCAGT
AACAACAACAGCAAAGTAGGTAATTACAGCACTTGATGTTAAGAGCCACCAGGAAGAGGAGCTGTGGGATTACATTAGAACATCACTTAATCAGACTGTT
GAGTTGGTGGAATGAGTTGGGGAATGGGGTGCTAGTTAGGGAATGCTTACTGAAAGACGGTACTTCATTTGAAAGACAAATGAGACATAGACATGTGATG
CATTGGAGATTTGGTGAATGGGAATTTAAATAGTTCACATATTTAATGGCATTTATGTATTCCATTGAATACAGTTCAACTGAAATTTGCTGAATGCTTA
TCATAAACTGGGCATGTGTTGGCTCTGAAAATGAGAGAAAGCACAGTCCTTATGGGAAGTTCCAAATAGTTCTAAATGACTGAAGTATAACATTTGAGGT
GAGGGAATAGTGAATGATGTTACAGGAAAGACAGGCAGAGACATATATATGTATTATATAAATACTTTATGTATACCTATAGCACTATATGAAGTCCTTT
AATATTCAACCATTCTGATTACCTTCTTACTCCAATTTTCCAATTAGGTGCATAACATGCTGTGAGTGTAGAATGGGTTTCAGCTTCCCAATATCAGTGG
AGCCTCCATTCTATATGGTACCATAATTTGTCCTGACTACCAGAGCTTCTGTCCAACACCATCGTACAAAATTCTTGAATCTTCCCCTTGGTTTTCATTT
CAGTCAGCTTGCCTTACCTGTAATTACAGGGTATACAGAAGACTAATCTTTCTTACTACTAAAGTATTTCATAACATATGGACACTTTGGTCAAAAGCAA
TTAGTGGAAAGAGAAGTGTTTCTGATTCAGGGTCTACAGAAAATAAGATAGTGGAGCTGGCTGAGGACTGATACACATGCCTTCCATCAGAGCCAAAACT
TATCTATGCTCGTTCCTCATTTCATTCATTCTTGCCCCCAGTGTTTTTTTCCCCCACCTCTTAAACTTAGGGCCAATTTAAAGGTCTGGCCTTCAGACTG
TTTAGGGTCGTGAGGGGAACATTGTAACTGGTAGCCAAAAATGCCATTCCAACTGGAAGGCTATATCTCTAGCATCTAAACTTGGAATTCTAAGTGTCAC
TTCTCCCAAACCCAAATTATTATTACATATGGTGTGTATTAATAAATTCTATAATACCTTTAATATGATAGCATTATTTYATATATTATGAGTTAAATCT
TTCGTTGGGTAACCACAGATTGCATTATAGTATAATCATTAGGAACATAGGCTTTAGAATCAGATAGATCTGGATTTAAATACTGATTTTGTCCATTACT
AGTCAGTTTGAATTTCTCTAAGTCTTAGTTTCCACATCTATAAAATTTCCTCATACAGTCATTAAAAGCTTAAATGAAACAATGTATATAAAATGTTAAA
CATGTATATATACATATAGATACACACCTGCTAAGGTATCCCTCACAGATTTGTGAGAAAGAATAATTAACTGTCATTAAATAACCCCTGCTACAAATCT
GGATTATAAATTGACTTCTGTAGACACCCTGAAGGATGATGTCCATTTCTTGGTAGTCTCTCTTGTGCCTTCACTTGGAGACCCTCCTGAAGGACTTAGT
GCACATTTTCTTTTTAGTCTAAATTTTAAGTCAGACCACCCCAAATATGTCCCAAAAGTTCTAAGAAACTTTTTAAGCTATGGTAATACAATGGTAGGCT
TGATTTTATTTATTTAGATAAAATACGATGATAGACTTGATTTTACTTATTATATAGACTAATAACTTCCTGGGAGCACTGTGATTGCCACACTTCCAAA
GAGAAGAAAAACTTTTCAAGCACCAAAAAAGTAGCTTAAAAACAAATTTTGTACACCAGTCAGGGACTCTTTAGAGTRCACTCATAGGTGGGAATTGAAC
AATGAGATCACATGGACACAGGAAGGGGAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAAGGGGGAGGGATAGCATTGGGAGATATACCTAATG
TTAGATGACGAGTTAGTGGGTGCAGCACACCAGCATGGCACATGTATACATATGTAACAAACCTGCACATTGTGCACATGTACCCCAAAACTTAAAGTAT
AAAAAAAAAAAAAAAGAAATACCACCTTCAGCACCTTGTCCAGTGGAGCATGTGAAATTAAGTACTTAGATTCTTTTTGTGGACTGAAGCTTCATTTTCT
TTGGGCTAGTTCAAATTATTATGCAGTATTTCCATAGCCTTTACATTTTGGCAACTCTTTTCTTTGATCCTAGCAGAAAAATAGGTTATAATTTTGGCCC
CAAAKAATTATTTTTTAATTGTTCCTTTTGTTTTATTAGATATGATAATATCCTAAACTATATAATATATTAAAATAGAATGAGGATGTATCTGATATGA
ATTACTATGGGATGATGTACAGATACAGAAGTGTTCCAAACTATGCCTTATGAAACTGTAGTGTCTTGCCTGTGGTAAAAAATGCTGGACTTCATATGGG
AATGATATTGGAAATTTGAAAACTTTTAATCTTTGTGTAAAACGATTGTGTATTTATACCTGTATAACACAGCTATGTGAAGTTCTGTGTCTTGTATATA
AAGACAAATGTGTCAAAACTGAAAAGCATCCAGAAAGTGGCAACCGAAATCGTCAAGAGGCAGGAGTGGCTTAAAAGCTTKATACCCTTCAATGTGGAAT
GATCCTCAGGGATATCATTAGGAAAGTCTTAGAGTTGGAAGGGGAATTAGCTTTGATCTACTCCAACCTGTTATTTAATGCAGGAATTTATCTTATGATA
ATCCTGATAAATGGCTGAGCTTCCTCTGTTTGAATACTGGATGATGCATTAAGAGTGCTGATTTTGGCTGGGCACGGTGGCTCACACCTGTAATGCCAGC
ACTTTGGGAGGCTAAGGCAGGCAGATCACCTGAGGTCAGGAGTTCCAGACCAGCCTGGCCAACATGGTGAAATCCTGTCTCTATTAAAAATACAGAAATT
AGCCAAGTGTGGTGGTGCGTGCCTGTAATTCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAGGTTGCAGTGAACTGAGA
TCGTACCACTGCACTCCAGCCTGGGTGACAGACTGTCTCAGAAAAAAAAAAAAGTGCTGATTTTGGGGACATGCTGCTTGGGTTTAAACCCAGCCCTGCC
TACTGGGATCTACCATGGTCACTCACCTACTAGTTGAGTGACCACAGGCAAATTCTTAACCTCTCTGCAAATTTTTACCCAGCCCCATTTCCTGGCTTAT
TATTGCCAGCATCTGTGTTCCTGACAATAGGCGAAGACACAAGGGATCTAGCCTCTGACCCCATCCCATCTAGCATTGAGAGATGAACTGAGAATCAAGT
AAATGTTTGCATTATACATCTGGTGGAAAAAAAGTATATTCAGCATATAGTAGTTACCTTAAAAAATGAAATTTTCAGCATAGACCAGAGTGGTGAAAAG
CAAGTTTAGGGGAGGCTTCATGGATCAGACAAGTCTGTTAGTTGAAGGAGAGTCTATTGACAGTTCCCAGTTCTGCCTTCTGGAACAACATAAATCAGTT
TAATTCCTTCTGTGTGACAATTCTTCACCTTATCAAACGTAAAATATAAAAGGCATAGTTCGGGTGAGTGTGGATTTTTCCCCTCTTAAAATTCCATAGC
TTTAGAGAGTGTTTTGTGTATTTTGGCTAAAATTTAGGAAAAACAAAATGAACCACTAATGGGTGATAATTTTGTAGAGCTCTTTAACTTTTTAATCCAA
AAAATTGTGTGGACTATAAATTAAAATTTRTTTCCATCAACTCATATATGGTTACTCAGCAAAATTGGAAATTTGAACTAGATTCCAAACCTTTTGAGTT
TTAAAATATTCTAAATAGTGTATTATTTAGATTCAGCTTTGAGTGACAGAAATATCCAAAATAAGAATGGCTTAAACAAATAGCAGTATTTTGCTGTCTT
GTAAAAGTCTGAGCAGGTGATGTAGACTGTTGTTATGTCTGATGGTGTCAAAAATATGGTTTTCTCTTTCCTGTTGCTCTCCCCTTCTTAAGTCTGGTCT
TGAGGTGCAAAATGGTGGCTTTGATAATTCTAGGCTTCAGGATGAAGGAAGGGATGAGGAATAAGTTGCCAGGGACATTTCTGCTTTATATCTCATTGGC
TGGAACATACTCAGGTGGCCACATCTATTAATAGTTACAAGAGAGGCTAAGATGCAGGCTGTACKCTGGGTAGCCATGTACTCAGTTGTAATTTGGGAGT
TTGATGTATGGGAGAAAGAAAGATGCAGAAGATATTGGGGGACAACCAGCAGTGTAATGTAATTAGTATAGCTACTTACTTGAGTAGGCCTTCATTAAAT
CGTTGTTCAACAGATGAATGTTTCTAATTGCTCCTGTCAAAGTAGGTATTGATCTGGATATTTACRTRTATACATGATAAATTATGGCAAGATTATTTAT
TATTGGTGTTTTTATAATTTTATTTCTCATCTACTCTTTATGAATATGGTATATCTGACAGTCTTCAGGCAGATGTAATACTGTACAAGATTTATTTCAG
TTTATTTATTGCRGTCTCCCCACCCCCCAAAACTTGGAGGCGTATTAAAAAATCTCTTCTCATGTGTCTGTCTATGATCAACGTTTCTTGCATATGCTCG
GCAAATGTTTTGAGATTGAATAAATGAATGGTAATAAAACTTTGAGGCATCCAAGCCTTTTCTTTTAATTTCTTTTGTTTCGATTTACACAAACAAAAGT
TTATATCTGTAATATACATAGAAGAAATTCTTGACCTTAAATCTGTATTTATTACAAGATTTTCAGGAACATTCATTCAGCTTTCRGGTGGAATGTGGTT
AGGTTTGGATTTAATTATGGTTAAGTACCAATTATGACGTTATTAGGCAAAAAAGGCTAAATCCCCATTGTAGGGATTTCAGTGCTAGTTATTTCATTGA
GGCTATTGGGGATTTAAGGAGAGAGACGTATTTGTTAGACCAGCCTGGCAAGGTGTTTGGGTCTTATAAAATTCCCAAAGATGAGTAATAAACTACCCAG
GTATCAAGAAACCATTTAACTTATTTTAATTGAATAGAAAGTTCCTAGAAATCGGTAAGGTTTTTCTGGAGTCCTAGAAACATATTTTGAAATGTTAGCA
AGTTATATTGCTTGAACTTGATATGTCTCACTTTGTTTGTTTTATATGCTGAGAAAGTAACTTTCAAGCTTCATTAAATTTTTTGACATAATTTACAGTT
TGCAAAAGTTATTAAGATAAAAATAATCTCCAGCGACAGAAACTCAGTTCTTCCTAAGTCATCGCATTACATGTTTGGAGTACTCTGACTGAGGGTATTA
CTCTGTGGCAGTTATGCTGGCTCTGAAGTCAGACAGCCCAGGTCAGATGTTATGCCATCACTTACTGTGTGACCTYGGGTGACTTATTTAGCTCCTCTGT
GCCTCAGGTTTCTCATCTATACACTGGAGGGTAATAATACTTCATAGAGTTGAGAGAGCAGGGAAGCTAGCACTTAGAATAAAGCTTAGTACATAATAAA
CAATAAATGTCATTAATGGTCACTTTTGTCATCATTATTAATGTTTTTCTCAAAATGAGTTAAAATATGACTCCAAGAAATATTTAGGAGATTATATCAG
TTGACTTTTTCATTTGTAGCATATATGCTATGTGCTACCAAGTGAAATAGAAGACACAAGTTTGGTGAAGAAGAGGAGGAGAATGCTGAATGTGGTTTTT
TTGTTTTTGTTTTTCATTTTTTTAGAGACAGGGTCTCACTCTGTCACCCAGGCTGTATTGCAGTGGCACCATCTTGGGTTACTACAACCTCCGCCTCCCA
GGCTCAAGGGATCCTCCTTCCTCACCCTCCTAAGTAGCTGGGACTATAGACATGTGCCACCACACCCAGCTAATTTTTTATTTTTAGTAGAGATGGGGTT
TTGCCATGTTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGTGAACCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTGTCATGCT
TGGCCCTTGAATTTAGTTTTGAATGTGTTGAACTTGAGTTRTTTCTGGGATATTAATCTTGAAATATGAATTTAAAGGAGGGACAGAGGTCACTGGCATA
TGGGTGATAATTAAAACTATGGGAGATGAATGACATAACATAAGGGTCTACCKTGGGCCTAGGTTTGAAACCTGGGGATACTAACCTTCAAAGAACAGGC
AGAGGACATAAAGGAAGCCATCTGAGAGTTAGTAGGAGRAACAGGAGAGAGAAATACCACCAAAAAGAGGTATGRTGTCTGATGAAATAGAGGTTATAGT
AATCTGAGAACTGAAAAGTATCCATGGCTTGTTAATTAATGGGTATTTTGTGACTGTTTGGTATCCGTAGAGTGGAGGTGGAAACCAGATAGCTGTGAAT
TTAGGGATGGTGATAAGGGAGGAAAAGAAGGCAATAAATGTAACTACTGTAACTACTCTTGAGAAATTTTAATGAGACAAGTTGGAAACTAGAGGAAGAT
ACAGGATCAATGGAAAAGTTTTGGAGGGTATATGATTTGGATAGGCTTAAGAGAAATAGCCATTAGAAAAGGAAAAAGGTTGAATATGAGGASAGTGTAG
AAAAGATGGGTTCAAGGCCAAAGTTGACGAGACTGGCTTTGAATAGGAGGAGGGATGTGGACAGAAGTAAGCCTTTAAGATAGAGGAAATTGGGGTTCAC
CTGTAATCCCTGCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGAGCAACATGGTGAGACCCCATCTCTACAAA
GATTTAAAGAAAAATTAGCTGGGGATGCTGGCACATTCTTGTAGTGCCAGCTACTGGGAGGCTGAGTCAGAAGGATCACTTGAGCCCAGGAGGTTGAAGG
CTGCAGTGAGCTATGTTCACTGCACTGCATTCCAGCCTGGATAACAAAACAATACCCTGTCTCAAAATAAATAAATGAAAAGATAGGGAAAGTCACTCCA
AATGACTTCCATGTTCTCTAAAGAAATAAAAAAGGGTGTTTGTCACTGAAAGGAGGGTTAGATAGATGTTTTGAGGAGAGTAGTGAAAGATTAGAATAGA
ATTGAGGAAAATGGGAGAGGTAGCTGACAAATTTGTTCTTCGACTGAGGGATTTTTCACCTGAACAGTATTTAAAGATATCACTGTTAGTGTGGATGCCA
TGAATGTGTTATATGAAAAAACAGAATGACTATATTTATCATAGAATATATTGATTTAGCACCTCTGTGTACAAAGCACTGTGCGCRTATACTTCCTGAG
AGATTCAGATGAGCACTGGTCATCTTGTCCAAGGAGAGTATGAGCTAATAGCTCAGGTCATGTGATTGTCACAAATGCAAATGTTTATAAAAGATTAAAA
ATGGTAAATGACACATGAGTTTTATAAACATACTATAACAGTTTGAAAGAGATAGAGATTCCATCAAATGGGGGAAAATAAGAGGACTTTATGAAAAAGG
CACAAAAAAGGGCTAGGTGTGAATTCTCTGTTGAAATAGTAATTAYTGTGAATTTTTGATTTATTACACTATTTATTCTTCTATGACTGGCATTAAACAG
AAGAAGAGAAACAAAGAGATTAATGAAACAGTGAGTTCTCTCCTGTCCAAACAATGTTCTAAAGTTGATTATGTTTTTAGTAAGAATATAGAATTCAGTA
ATCATTTTCACAAATATTCCACAAATAGGAACRTCTCTGTTAGGTGCAAAAGATACAGAGATGACTAAGATACAGTTTCTGTCCTCAGAGAGTGCATACT
CTAATAGAAGAAATAGAAGTAAAAAGAACTGTAGTTTTGTACAACAAGGGATATAAAGATGGTATATATGAGTAGAGAAGTTTAGGGCACAATGGAAGGA
AGCATGAATAAATGATTATGTTGATATGATAGCACATTTTTTTTCCTTTTTCTTTTCTTTAGTTGGAGAACATCAATTRACAGGCCATAAAGTGGCAGTT
AAAATCTTAAATAGACAGAAGATTCGCAGTTTAGATGTTGTTGGAAAAATAAAACGAGAAATTCAAAATCTAAAACTCTTTCGTCATCCTCATATTATCA
AACTGTAAGTATTTTTGTATCTAATAATACCAAAGAGACACCTATCTTAAAATGTTTTTTAGGAATTTTATAATAATTGTTAATTGTTAACCTTTTACAA
AGATTTTTTTTCATGTTCATATTCAGCAAGTGTTAATTCATTTAACCTTTATCAGTCCTTTTTTTTGCATACTCTTGGTTAGACTGAACAGACATTGTTT
CTAAATTAGTACTCAATTTATGTTTCTAAATTAGTACTCAATTTATGTTTCTAAATTAGTACATCAATTCTCAAGTGATGAATGAAGTTGATTCATCACA
TTTAGAAGTTGATTCTTATCCAACTTTAAATGTCATTCAGGGCTTTGACATTTCTAGATTCATTTTTATAATTTTTATCTAGTCAATTTTCACTAACATT
CAGGGTATTTTTTCCTTTGGAAAGATAGAAAGTATATGTCAAAGATTATTTCACATAGTATATTACTTGTAGAASTGAAAGTAGTACTATAACCATAAAG
CTTTTAGGAAGGCAAATGTGTTTTTTTCCCCTTGGAATAAATTATAAACTTAAAAGTTAGGTAAATATTGAGATAAATAAGATAAGTAATTGAAAGATAA
ATAKATTATTTTAAAATTGACTAGACCCTAGAAAATTTAAATATTCATTGTGCAATAATGTGTTTCTTTCAGTCATTTAAAGTTGCAGTTTAATATTTGT
TGGGAAAATGTAACGTGCTAGACACTGAAAATTGTCTTATTTATCTTTAAGCTTGGATACAGTTTTATAAAATAAGTATTGCTCTTACTTATTGAGTACC
TGATAGTGGTCAGGAACTGTACCAAGCATTTTTTTTTGTCAAGTTTCTGCTGAATGTGTGGAGCATTTTCCTTATTTAATTTAATATTATCTTCATGATC
AGTGTCTAAAGTAGGCTTACTTTATAGACAAGGAAACTGCATTATCTAAAAAGTAATAGCAGYTTATCCAAGGCCACACAGCTAGTAAGTCACAGAGCTG
GTAGTTGAGGTCAARCCTGATTCCAAATGCCATGCTGTTAATGCTCCAGCATTCCAGTTTTTCTTAAAACTGAGAGTTATATAAATTCCTTTTAAAGAAA
AAATAAATTTATGGATCCCTCATTTTGACTTAATTATTTTTAATATACCATTACTTAAGAAACAAAGCCCTATGTATAAACTTTATATGCATATAGTTCG
AATACAACTATGAAACCAAAAGAAATTCACAATTTAAATACAAAAAAACAATGGAATCAATGGGATTCAAAGCAGTATCAATAGTATAATGTGACAAATA
ACAGTGTTTTATAACAACCAAAATCATTGTTAGAGAGTTTAATAGTGGAAACAGTAGGAGGAGATCAAATACTAAATTTATATTGTGAGTCAAATAAGAT
TGGTACAGAGAAAGCATGTTCATATAAATATACTATTAAAAAAGAAGTATTAATAACTCTGAGATGTTATTTGCTAGTTCATTAAAATCAGGCATTATAT
TTAGGCTGAYCTTTGTCAGTGAGCAGTCTTTGAATGTCAGCATTAATGGGAACAACTTGATAACCCTGTGGAGTTATATTGTTTACTTGATGACAAGAGT
AGCATATAAGTGTGGTAAGCAGAGTAATACCTGCCCCCCATGTCTATTTCCTAATTCCCAGAATTTGTGAATATGTTAGGTTGCATGGCAAAGGGTAACA
TTGCTAAGCAGCTGACCTTAAACTAGGGAGGTTATCCTGGATYATGTAGGTGGGCCAAATATTAACACAGTGGTTCTTAAAAGTAGAGGAGAAGAGTAGA
AGAAAAGAGTCAGAGAAAAAGGTCTGAACATAGAAACAACATCAGAATGATAAAATGGGAGAAGGACTCAACTGGCCGTTTCTGCGTTTGAAGATGGAGG
AAAGGGAGCATGAGTCAATGAATGCAGGCAGTCTCTACAAGCTGGGAAATGCAAAGAAATTCTGCCCCAGAGCCTTCAGAAGGCAACACAGCTCTGCTGG
CACCTTGATTTTAGCCCACTGAGACATATGTCAAGCTTTTAAGATAAAGAACTGTAAGATAATACATTTGTGTTGTTTTAAGCCACTGAGTTTGAAGTAT
GGCAGCAATGGGAAACTAATACAGCATCATTCTTGAAATCCTTAAATAAATGGCTGGTCCAATTATTGTTGAGATTTGGAACATTCATTTAGTCTTTACT
GCTGTACTTATTGTTAGTGAACTGTGGCTTATTGGTATTTTTAATGAAGGGACCCATGTGGTGCATCTTACYGGCAGCAAGAGTATGCCACTGACTGTTC
AGAGCAGGCTTTTATGGGATTGGTGTGGATGACCGGTGATGACTCAGTTCTCACATCACTGCTAGGAAACCTTCATTCTTAGAGTAAGCTTCAATGTCAT
ATGATCTTCACTTGAAGTTCACTTAGTCATAAACATAAACAAAATGAGGTCCCTGAAATTGCATGGCAGTACTTGATTATAAGGTTATCATCCAGGACCT
ATGTATTAGATGGTCCAGAGTATGTATATAGAGGTTTTTAAAGATTGTCATAAGAATTAAAATTCYACCCATGAGCTTGGTRACTCACCTYTCCTATCCW
TTGTTTCTTTAACTTTAAAATGGGACACCTCATTTGAGGATTAAATGTGTTGGCACTGGTATAATGCCTAGTGTTTGATAAGCATTGGCCCAGAGCAGGA
ATTAGCAACTTATAAACTAATTCCAGTCCTCTTTCATTATTCCARATGGTTTTCACTTAACTGAAACAGTTAGTCTCTGACTTCAACTCYGTATTATTCA
TGACTTTGTTCTAGTTACTGGGTAACATCTAAGCTAAATCTCTTTGCTCTTCCCCACTGAGTGTCCACTTCCTATGAGAAGAGAAAGCTGAAATAGCCAG
ACTAAAAGTGTCATATGCTAGAATGAAAGTGGRGAAGGGAAAGATCTTTCCATATTTGCCTTATACCTTGACCTCATCACTTTTACAATGCCAACCCTGA
AAGACTTTGAGGAAATTTTACCCGTTTGGGTATGAGTCCTACTATCTGTACAGTTCCCAGTTCCTAAAAACACAAATCAGATTTTATCAATAAGCAGTTG
CAATTGTCATAATTGTCATGAGGATTCTAAGGCTTCTTTTCCTTTTTTTTTTTTTTTAACAGAGCCTAGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGC
AATCTTGGCTCACTGCAACCTTCGCTTCCCAGATTCAAATGATTCTCATGCCTCAGCCTTCCAAGTAGCTGAGACTACAGGCATGTGCCACCACACCCTG
CTAATTTTGTATTTTTTGTAGAGACAGGCTTTCCGCCATTTTGCCAGGCTGGTCTCGACCTCCTAAGCTCAAAACCATCAGCCTGCCGCAGCCTCCCAAA
GTGCTGAGATTACAGGCTTGAGCCACTGCGCCCAGGCCCGAAGACTTATTTTTGATGTCATATTTATCAGTGTTTTCTTGCCTYCATTTCTATATTTACT
TTCAATCATTTTATTTTTGTTTGACTGTCTCATCCTGATTATTTAATTATTTGCTRTTTTCTGAAGGAATTATAGAAGATTGTCAGAGTTGGTCAGAAAG
TAATTGGCAGAGGTGAATTTGCAGTTTAAAACTTTTGGCTTCCAGCCTTGAGATTAATTCATTCAGCCACATTGCCTCTTTAATTGTAGATCTGATCTTA
AAACAAAAAACAAACAAACAAAAAAACACTCATGTATTTTTGCTACAGAAGAAGCTTATTGACATCGTCTGTAACAGTGTTAGTGATTTAAACRGAGAGA
GCAACCTTACCCTTTCAGTGGTTTTCTTTTGTGTAGCCTTGGACTGTCAGGAATAGTTTCCTTATTGCAAAAGTGGGACTCTAGAATTAGCAAGAAAGTT
TGAGCATTGAATGCCAAGAATGAAGGATATTTATTGCATGATTTCTTTATTAACCCAAATTGAAAAAAAAATTACAAATGAATGACCTAAAACCCACTGG
TAGAAAATTAAAAGGCACAAATAGGATTTAAAGAAAAATCCAAACTTTCCTATGAAGTAGAATTTGTTGAATTGATTTTTGTCCTTTTTTTTCTTTCCTC
CATAATTCTTAATGCAACTTGATTTTACTTGGTCAAAAGATGCTTGTTAGTCTGGTAGAGATGATCTTGTCTAATTTTTTTTTTTTTTTTTGAGACAAAG
TCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTAGCATGATCTCRGCTCACTGCAACCTCCGCCTCCTGTGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGA
GTAGCTGGGACTACAGGCACACACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGCCTTGATCTCT
TGACTTCGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACGGGCGTGAGCCACCATGCCCAGCCTAATTCTTTTTAGTCTATCTTATTTAACC
TATGGCCTGCTTTTTAACATCATTAACCGCCAGCACCACCTTGAAATGTTGTCTCTAGGTTTCCATGACACCTCAGGCTTCTGTTTTCTTTTTTTCATTC
TTGTTTATTCTGAAAACTTTCCTTTATGGGCCCCGCTTTATCTTCCTGGCTGTTAAGTATTGATGCAGTCAAGTACACTGAGCTAGTGTAATTTTCTTAG
TGAACCCTCTTTTGATGATTTCATCTACTACCATGGTGCCATTTGCCATCTCTATGCTGAAGATTTCCAAATCTTTATGATTTCTGGCCCTTTTGTTTCT
CCAGATTTCTGAGCACATTTATCAAATTGTTTATCGGATGTTCACATTCTAAAGTCACAGAGTCACCTGAAGCTAAAMTTTTCTCTCTCTTCCAAATTTA
CTTCTCTGTTTTTGGAGGGTGYGGTGGGAGAGTGGAGGGAGGTAAATGAAAATACCATTCATGCAGTTTCCCAAGCCCCAAACTTGGGCAAAATCTTTAA
TTTCTTCTTTTCCCTCATTTCTTACATACAATCAATCATTAAGGTCTGCACTTCTTTTTCCTAAGTGTCCTCTGAATTTATCCATTTTTCTTTGCTCTGT
CAGGTTACCATCTTGCTTGTTGTACTTCAGCTGTTTCCTCTGCTTGGAATACTTTATCCACATCTCCCTTTCCCTAGGCTGCCAATTCCAACTTGTCTTT
TAAGTGCAATTACATTTGACCCTTGAACGGTATGGGTTTGAACCACATTGGTCTACTTATGMTTGGGTTTTATGCCRCCTTTGCTATCCTGAGACAGCAA
GACCAACCCCTCCTCTTCCTCTTCCTCCTCAGTCTACTCAATATGAAGATGACAAGGATAAAGACCTTGATGGTGATCCATTTCCACTTAATGAGTAGTT
GGTATATTTTCTCTTCCTTATGATTTTCCTAATAACATTTTCTTGTCTCTAGCTTACTTTACTATAAGAATACAGTAAATAATACATTTAACATGCAAAA
TGTGTGTTAATTATTTCTGTTATCTGTAAGGCTTCTGCTCAACAGTRGGCTATTAGTAGTTAAGTTTAGGGGTAGTCAAAAGTTAAACGTGGATTTTTGA
TGCACAGGGGTTGACACCCTAACCCCCACATTGTCTGAGGATCAACTGTACCCCTGAAAACCTACTTTACTCACTAAGACTAGGTTAGGCTCTAACTCCT
CTTTGCTCTCAAAGCACTCAATGTTCACCTTTTCCRAAGCCCTTAAATTGTGTTGTAATTGCACATTTTCTTATTGGTATTTCCCACAAGACTGAAGTAC
TTAGGAGCAGGAATTATGGTTTTTTTTTTAATTCAAAAAAAATTTTTTTATTATACTTTAAGTTCTAGGGCACATGTGCACAATGTGCAGGTTTGTTACA
TATGTATCCATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCCTCTCCTGCCACCCCAC
GACAGGCCCCGGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTCTGTC
CTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATATCCCTACAAAGGACATGAACTCMTCCTTTTTTATGGCTGCATAGTATTCCATGGT
GTATATGTGCCACATTTTCTTAATCCAGTCTATCACTGATGGACATTTGGGTTGGTTACAAGTCTTCGCTATTGTGAATAGTGCCACAATAAACATACGT
GTGCATGTGTCTTTATAGCATCATGATTTATAATCCTTTGGCTATATACCCAGTAATGGGATGGCGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAG
GAATCACCACACTGTGTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTCG
TTTCCTGACTTTTTAATGATCGCCATTCTAACTGGTGTGAGATGGTGTCTCATTGTGGTTTTGATTTGCATTTATCAGATGGCCAGTGATGATGAGCATT
TTTCATGTGTCTGTTGGCTGCGTAAATGTCTTCTTTTGAGAAATGTCTGTTCATATCCTTCGCCCACTTTTTGATGGGGTTGTTTGATTTTTTCTTGTAC
ATTTGTTAAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGGGTAGATTGCAAAAATTTTCTCCCATTCTGTAGGTTGCCTATTCACTCTGAT
GGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAG
ACCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTGATCCATCTTGAAT
TAATTTTTGTATAAGGTGTAAGGAAGGGGTCCAGTTTCAGCTTTCTACATATGGCTAGCCAATTTTCCCAGCACCATTTTTAAATAGGGAATCCTTTCCC
CATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATGGTTGTAGATGTGTGGTATTATTTCTGAGGCCTCTGCTCTGTTCCATTGGTCTATATCTCTGT
TTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGCT
TGTCTTGGCAATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTCGTTTTTTCCAATTCTGTGAAGAAAGTTATTGGTAGTTTGATGGGGATGGCA
TTGMATCTATAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTT
TATTTCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATTGTG
AATGGGATTTTTATTGAGCACCTACTATGGGTTGGGTGCTGTTCTAGGCATAGGGGATATAATCATGAAGGACAGAGTCTCTTTCTTGTGTTTTTTATGT
TCTGGACAGTAAGTAAACAAATTAACAAGATCATTTTAGGTAAAGATAAGTGCTATGAGAATGAAACATGGTGCTGTCACAGAGTGTGACTAGGAAAGAA
GAAGGGCTAATTTAGATTAGGTATGAGGAAGCCTCACTAAGAAGATAGGTTTGACCTAAGACCTAAAGGATGATGAAGATCTGACATGTGAAAATCTGGG
GACAGAATGTTTTCAAAGCAAGGGGAAGAGCAACATCAAAGAGGTGAAGCAAACTTCAAGTGTTGTAGGCAAAGGAAGATTATGTACTCTCAGGAGTGGA
GTGAGGAGAAGAGAAGTAGTTCAGGAATTCTAAGAGTAGATGGGGACCAGATAACAAAGGGATTTGAAGGCCTTGCTAAGAAATTTGATTGTGTTCTAAA
TAGGAACTTTTGGAGAGTTGGAGAAGTAACATGATATGAATATAGTGTAGAATGGGTATGGTGGCAGAAGTAGAAGCAGACAGACCAGTTGGGAAGCTAT
TGCTATAGTCTACCTGGGAGATTATGGTGGCTTTAACCAAAGTGATAATCTAGATTAGTGTTGGCTAATACAGTAGCCAGTGGCCACATGTGGCTGTGTA
AATTTAAATTAATTAAAATGAAAAATTTGGTTGTCTGGTCACACTAGCCACATTYCAAGTACTTAATAGCTGCATATGTTTAGTGACCACTGTGTTGGAC
AGAGCAGATAAAAAACATTTCTATCGTTGTAGGAAGTTCTGTTCAACAGTCCTGGTCTAGATGGAGAGAAATGGATGGATTTGATATGTATTTTGGAGGG
AGAACTAATGTATTACTGATGGGTTAGATAAGGAGGAGAAAGAAAGGAATTTTTTTTTTTTTTTTTTTTTTTTTTTGCTTAAGCAACTGGGATTTTGGGT
TTTGGCTTGAGCAAGTAGGTAGTGATAGTGGTGTCATTTTCTGAGATGGAAAGAATGGAAAAGAAACATTAGAGAGATGTGAACATTAAGGATATTGTTT
TGGCCATGATAAGCTAAGAATCCATTAGACATGTAAATGGAGATATCATCTATCATCTTTATCTCTCCTGCAACTAGCACAGTAGTAGGTATTCAATAAT
TACTTGTAGCTCCATAATGACATTTGAACAAGGTCCTGATGGCTCTAGGAGTCCAAGCAAGAACAAAAGAATGAAAGTGTRAGGAATATGGTGTATTGGG
AACAAACAGTCTGGTTTGTTTGGTGCACAGAGTATGTATAGGGAAGTGGAAAAATAAAGCCAGAAAGGCAGGTTGTTGGTTGATCCATTCATTCAACAGA
TGACACCATTTAGGCACTAGGGATACAGCAACAGACAAAAAGGCAACAACAACAAAATCCTTGCTATTATAGAGATTATATTAGTGTGTGGTGGAGGGGT
GGTRGGGAAATAKACAATAAATCCCTTATTATATGTYATATGTTAGACAGTGAAGAGGTGAGGGGATATGCCATGTAGATATCTGAAGKGGGTRAATGTT
ACACATAGAGGGAAGAGCAAATACAAAGGAAAGTAGAAATTCCTGCAGGTCAGAGATCAAGGGAGCAGAATGATCTAGGAAGATTAGAGTGAGAGATRAG
GTCAGAGACATAAAGGGCATTATAGGCCATTGTCAGGGCTTTGGCTTTTACTCTTGTCTAAGATGGGAAGCCATTGGAAGGCTTTGATTAGTGGTATGAT
GTGATCTGACTTACATTTAGACTGTAGGTGAGCAAGAGTTGAAGCAGGGAAACCAATTGGGAGTCAATTGCAGTGATCTGTAAAAGATGATGTTGGCTTG
AAATACAGCATAGTGTAGTAGTGTTTAGAAGTAAGCATGTTTTGTATGTACTTTCAAGATAGAGTCAACAGCATTTGCTAACAGATAAAATGTGAGTTGT
GAGAGGAAAGAAGTTAAGGATGACGCCAAGGCATCTGGCCTCGGCGAAAAAACAAGGATGGAGTTGCCAGTAACTGAAGTGGAGAAGATTGTAGGAGGAA
CAGGTTTGAGGTGGGATGTTAGGGGGGTGGTTTCAACAATTTAATTTTGGTTTTATGAAGTTGAAATGCTTATTAGACATCCAAGTAGAGATGTAAGTAG
GCTGTTGAATAAGTGAATCTGGAGTTCAGGGGAGAGGTGTAAGCTAGAGAGATAAATTTGGAAGCCATCAGCAGACAGACTGTATTTAAGATATTTAAAG
CCCYAAGACTGGRTGAAATCACCAAGATAAACAAGAAGTCCAAGGACTGGGCTCTAGAACACTATGATGCTAACATGTCTGAAAAATGAGGAGGAACCAG
TAAAAGAGAATGAAAATGATCAGTGAGGTGGGAGGAAAATTAGGGGAATCGGGTATCTTGAAGCCAAGAGAAGAAAGTGTTTTAGGAAAGATCACCAACT
GTCCCTTTTACTGGTGAATATTGAGTAAGATGATAACGGAGAATTGACTGTTGGATTTGGCAACGTGGAGGTTGCTGTTGTCTTTGAAAAGAACCAATTT
ATTGGAATGATGAGGGCAAAAACCTGATGTAAAGGGTTTAAGAGGGAATATGAGATAAAAAAGGGGAGATAGTAACTATMGGCAGGAGAGGAGAGACATA
GGAGTGGTAACCAGAAGGAAATGAGGAGTCTAAACAAGGTTAGCTTTTTAAAATGGGAGATATTGTAGAATGTTGGTATGCCAAAAGGAGTGATTCAGTC
AAGAGGAAGGAATTGATACAAAAGAAAGAGGGGCTAATTATAGAAGCCAAGTCCCTTCGTAGGTGTGGGAGATAATCCAGTGCATAAYTGGAGGAGTTAG
TCTTTGAAAGTATATGACCATGGAGTGGTTGGCTGTGTGTGGTGGAAGAAAAGATAATTAGAAATGAGGCATTCAAAGAACTTAAAGGCCATATGTTAAG
ATATTTTAAGCCTTAAGACTGGATGCGGTTACCAAAGATATGAGTACAGATAAACAAGAAGTCCAAGGACTGAGCTCTAGAGCACTATGATGTTAACATG
TCTGTTTATATCACAGATTATCTATAAAGATATCACTTACACCTRAAACAGTGACAGTAGTAGCAATGGGGAAAAAGACATTAATTCAGAATGAGAAGGA
GTTAGTAAGAAGATTGATTGATGACTATAATGTGAAAAGGTATGAGGAGGTATTATCTGATGGCCTGCACTTCAAAGACAATGAGATTTTTGAGGGAGGA
AGTTTTGGGTAAGAATTTCTTTTAGATCAGAATTCATTCATTACTAGACTATGCAAATTTGCCAGCATTTAAGATTTCATTAAATTAATGTGAATTAATG
CATCTAGGCTCTGATCAACAGTGGCTTCCAATGTGTCAGAAAAAGAGACACATTATATGCCTTTGGCTAGAGGTACACTACACTACTTAGTCTTTCAAAT
GAAAACAAAAATTGCAAAAATGAAACAAATCTGATCAAGTATCTAGATTTAAGAGTGGGTTAGAAATTGTGCATTTTGCTGCTATAAAGGATGGAACAAC
AAAATTCATACTGTGGAATCCTCTTTAACAAACTAACTGGTTTCTTCCACAAAAGAATGCAAGAAAAAAACAACAGAGATAGAGGAGCAACCTATAAATT
AGAAGAGACATAAGAGACAAATGAGCCAATTACAATATATTGATTGTGTTTGTATCAATAAATCTTCTGATTGGATATTTGATGACATTCATGGTTTTTT
AAATTTATGCATGATAACAATATTTTGCATATTGTGCATACACACATATATTTTTAAGTTATCCTTTAGAGATATGTACAGATTTATTTACAAAGGAAGT
GAAATCCAAATTCAATGTGAAATGATGACTGAAAACATATACTTTTACAAAGTTAATAACCAAGACATTAATTACCTTAGACTCTAGAATGTTATAGAAA
GTTTGACTTATTCTATATGTCCATACATAAATAAGAAAAGTACTGTCAACTCAATAARCATGGGCAAAAGACACAGCATTTTCTACGAAGAAATGTATAT
GGTGTTTTGCAACTGTTGGAGAATATATAAATCCACCAGTTTTCTAAAGATTTTAKCATTGCCAAACTTTCTTTGGAAAACTGTCTTTGGTATTATCTTT
TCAATTGGAACATACACAATAACTATGACTCAGCAGTTGCACTCATCAGTGTATATCAAGGAGAAAATCTTGCCATGTAGAAGAATGTTCGTGTTAGTCC
ATTTTTACATTACTATAAAGGARTACTGAAGGCTGGGTAATTTATAAAGAAAAGAGGTTTAATTGGCCCACAGTTCTGCAGGCTGTACAGGAAACATGGT
GCTGGCTTTTACTTCTAGTAAGGGTCTCAGGAAGCTTACAATCATGACAGAAGGCAACTGGCAGCCAGGGTGTCACATGGTGAGGGAGAGCAAGAGAGGA
AGGAGGAAGAGCCAGTCTCCTTTAAACAACCAGCTCTCTTATGAACTGAGCAAGAATTCACTTATTACTGAGGCAATGGTGCTAAACCATTCATGAGGGA
TGGATCTACCCCCATGATCCAATCACCTCCCACCAGTCCCCATGTTCAACATTGGGAATCACATTTCAACATGAGATTTGGAGGGGATGAACATACAAAC
CATATTAATGTTCACAGCAGCAAATAATAGCAACATTATAGAAACAACCTAAATACTCTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTGCCC
AGGCTGGAGTGCAATGGCGTGATCTCAGCTTACCGCAACCTCCRCCTCCCAGGTTCAAGCGATTCTCGTACCTCAGTCTCCCTAGTAGCTGGGATTACAG
GCATGTGCCACCACGCCTGGCTAATTTTTTATTTTTAGTAGACATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAGACTCTYGACCTCAGGTGATTCA
CCTGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCACCGCACCTGGCCAAAACTCTTTAGTGGTAGAGTAGATGAATAAATACAATAGGATA
TAACAATGGTCAAATCAAATAACTACAGCAAACACAACAATAGGATTGAATCTCAATAAAATAACTWCTAGAATATTACATAGAGCGTGATACCTGGTTT
TTAAAGCAAAGAACAGTTTAACATATATATGAATTTGAATTATTCATATATATGAAATATACATATGTAGAGAGAGGGGATACACACACATGCATATGTA
CATATATAAACTGTATAAAAGAGGTGGGGAGGAAAGGATAAACAGGGTGTTCAGGATGACAGCTGCATTGGGTGAGAAGCAATGGGATGGGGAAGGCGGA
TCCCTATATTAATTAGTTGGAAGCTGTTGTCAAGGTCTTGGCCTTTTTGTCTGAGTGATGGGTTTGTAGGTATTACATTATTAAAAATAGTAATTAAATA
AAAGGTCATTCATGGACTACTGAAGACAAGTGTCATCAACCAAGCATGATTGCTACATTTCTATGTAACTGAGTTCTAACTAAAGAAAAATCTTATGTGT
ATGTAGCTACATAAATAATATTCTAAAATCTCAATAGATTTTACCACCAAAAAGGTGTACTCATGAATGTTGATTTTTGGCTAACTTTGGAAAGATTTCT
ATTTTTTTTGATTTTCATATACTATTTTATGTGGCTATTTCCTAAAAATGCGTATAACTTGGTCAACTGGAAAATGCTTAGGATTTTTCTGGATTATTAA
TTTATTTTTACCAATTAGAAATGCTGTTTCTGAAAAATTTTTAAACTACATTAGTTTATTTCTCTGCTGTACTAGGAAAATAATACTGAGAAGTATGAGT
GATTCATGATTGAATKTCTTGTAATGCTTCAATATACTTGTATTTTAGACAGCACAAGAGATTTGACTTACTCAGGCCAGGCTTAGAATGTAATCCTGGA
ATTTGCCTTTTCCACTAAATCCTTAATGTAAAACTGTCTTTTTAAGACGTCTTCCTTCTGAAATTTGTTTCCCTTTGTCCCTACCCCATTGTGGTTAGGG
GTGGGGGACAAAGGGAAATTTTATTGGTTGAAGTTTTGCTGTAATTTTGCTATGATTTTTCAGTTTCAGATTACTCTGGTTTTGGCTCTAAGCACTCACG
TTATTTAAAAGTGCTAATTTATACATTTACTTAAATACCTACTTTGTTATAGGCACTTTACTAAATACATATTCATTAATCAAATTATTGTAATAATAAA
AACATATAATTACAAACTGAGATGCGTGGTCTGAAGCTCAGGAAAACGCATCTGTGAGTGCAAAAAGGCACCTCACCTGGACTTAGGAAGTGACTTTTAA
GCTGAGATCTAAAGGATGATTAGGGCTCACTCAGGTCATAGTATAGGATTCAGGTCAGTGAAAACAGCTTATACAAAGGAGCTGTAGCAGGAGGAGGTAC
AGCATGACTAACACTGAAAAATGTAGTATGACTCAGTGTTGTGACTCAAAGGTGAGACCAAACAACAGAGATGGCARGGGCCTGATTTATTCAGGACCTA
AGAGCAATGGGAAACCTTTGAAGATTCTAAATTGAGAGGCTACTGGAGATCATATTTGTGTTTGAAGAGAATCTTTATTTAATGTCTGTCTTTCTGGCTA
AACTGTAAGCTCCACGAGTAGAGGCACCAACTTTTGATCTCACCGAGTACAATACAAGTAGGTACTCAATAAATGTTGTGTCACCATTTAATAGCTTAGT
GCCTGGCAGACAGTAAGTGCTTAGTAACGTTATGATTTTCATTGCTCTAGACTGGCCTTTAGTGTAAGACAGTGGCTGCTAAGGATTTAGAGGTTTCATG
AAATAATTAATTCCAAGAATATCTGTTGAAGACCTGTGATATACTCAGAAATGGCAGCTAAATTTATTTATTAGAATGTCATCACTTCTTTTCTTTTGTG
CCCCATCTAGGATGTACAGAGCACAAAAGTGATTGAAAATTGTTACTAAATCAGACCAACCTACAGTGAGGTGCTACAGCAGATGCACCTGCCCTACAGT
ATTCAGTTTACGTGATCACTTTGGTGCTTGTAAAGATAGCTTTTATAAAACTATTTCTTCTAGAGTTCTCAGTATAATTACCTTTCCAAAGTTCATTTGA
AATAGTCTCAATTCTTCTTCAGTCATATTCGTTTATTTTATATAAATTAGAATACCTTGCCATGTTTCTTCCCAAAGACTAATGATTGCCATTCAAAATA
TTTCTTCTGGCCAGGCTTGGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGGCCAAGGCGGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTG
GCCAACATGGTGAAACCCCCCTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTCGGGAGGTTGAGGCAGG
AGAATTTCTTGAACCCAGGAGGTGGGGTRCGCAGTGAGCCGAGAGCATGGCCGCTGCACTCCAGCCTGAGTGGCAGAGCAAGACTCTGTCTCAAACAAAA
GAAAAAAAGTAACTAATTTTAACGTCTCCAAAACTTGGTTTGGTAAAATTGTGTATAGGGGTGTAAGTTGTAGTTTTTGGGAAAAAAATTTATTTTATCA
AATAAAGCTAATTTTTTTTCTTAGTTTTTAATGTGCCCAGCTTTGGATGCCTAGAAACACAGACASACAGACACACASACACACACACACACACACACAC
ACACACACTCTTAATTTTTCATGATGGGAATTGTTTAACATTTACAAAAGTAAMGCGGTGAAACCCCATGCATGTCTTATTCACCTTCAACAGTAGTCAA
TTCATTGTTTTATCTACGCCAGATTATTTTGAAGCAAATCTCAACATTATCTTTTTAATCTGTAAACTCTTCAGTATCTACTCTAGAAAATACTTTTTTA
AACTCTAAATAACATAAGCATAGTATCATCACATCTTTTTTTTTTTTTTTTTGAAGCGGAGTCTCGCTCTGTTGCCCATGCTGGAGTGCAGTGGCACGAT
CTTGGCTCACCGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCATGCCCAGCTA
ATTTTTTGTATTTTTAGTAGAGAYGGGGTTTCACCGTGTTTGGTTTAGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCTGTCCGCCTCGGCCTCCCA
AAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCTATCACATCTTAATTAAAATAATTAACAACATTATCCACCACTAATCAGCATGTAGACTTT
CCTGATTGTTTCATAAATGGTTTTTAAAGTTGGTTTATTTGAATCAGAATCAAAATAAGTCTATACAGCATAATTGGTCAATATGTCTCTTAAGTTACTT
TTAACGTATAGTTTATCCTTTCCCTTTTTTTCTTGCATTTTATTTGTTGAGGAAATGGTCATTTTTCACTTCCTGGATTTTGCTGAATGTATCCCTGTAG
TATCATGTTACGTGTCCAGGAAAATATATGTATGTTTTACAGAAATGAGGTCTTGCTATGTTGCCCAGGCTGGTAAAATACTGACTTTAGAAGATATATT
CCACTTAATTGCCAACATGAAGCCTATGCTTTTCAAAATCGGTTCCATAAAATCATGTTGAAGATCAGTTATTTTCTTTTCTTAGCACTTTCATGTATGT
TCTGTTTTAGTTTGTTTTGCTGTCAATTCCCCAAAACATTGCCCTGAGCTCAAGTGATTCTCCCACCTTGGCCTTCCAAAGTGCTGGGATTACAGGCATG
AGCCATAGTGTCTGGCCCAAGTATATTTTCTGTTTATCTTTAAATATGTGATACCTCATCTCCTTTTACTGTAAACAAATTTTTGTTTATATGGAAAAAT
TAGTTGTTGAAGAGGGAAAGATTTCAAAAATTATGTAAACTTGAAAGGGAGGATCTAAAGGAACGGCCGTGAGCCTCAAGAAATAGAATAATTTTGTAAT
GGTCCGTGTTTATTGCTCTGTGATTATTTTGATAACATGTAATTTGTTGCCATCTTAAAGTATTATAAAACATTGAAATATAAAATTGTAGCAAGAGTAG
ATATACCAGTTTGATTTTGGTTAAAGTAACATACTTTGTTAACTTTTTTTAATTAACAAAAAAGATACCAGGTGATCAGCACTCCAACAGATTTTTTTAT
GGTAATGGAATATGTGTCTGGAGGTGAATTATTTGACTACATCTGTAAGCATGGACGGGTGAGTAACATACTATCTGGTACACTAAATCTCTAAACTAAT
AAAAAGGAAAGTATTGGGACATAGAACAATGCAAAGATATCTTCAAGGTTGAAGTTGCTTTTATGGTAGTGCTCAACTAAACATGTAGAGTGTTAGATAA
ATTTTCTTTCTTAAAAAGCATTCCTTTTGAAATACTGATTTTAGAAAATATGTTTCACTTAATTGCCAACATGATGCGTATGCTTTTTAAAATCTGTTCC
ATAAAATCATGTTGAAGATCAGTTATTTCCTTTTCTTAGCACTTTCACATATGTTCTGTTTTAGTTTGTTTTACTGTCAATTCCCCAAAACATTGTGCAC
ATTTAATAATATTAATTGAAATTTAAATATTTCTGCTTAGCRACAAAGACAAACTTGTCTTTTGACATGTTGAGCTTTGACAAGCTTTTGGTTGGTTTAT
TTTGTCTGATTTGTTGAGAATTCCAACATAATTCTAGCTTGCTTAATTATATTTAGCCTAATTATGAAATTAAAACTCTTGTCAAATAGATGTCTCAGAT
TTTTTTTTTTTTTTTTTTTTTGAGACAGACTCTTGCTCTGTTGCCCAGGCTGGAGCGCAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCTGGTA
CAAGCAATTCTCGTGTCCCACTCTCCTGAGTAGCTGGAACTACAGGTGCATGTCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGAGTTTCA
CCTTATTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTAATCCACCTGCCTTGGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCCCAGATATTC
TTAATGCAGTTTYTTTTGTGCTTGATAGGTTGAAGAGATGGAAGCCAGGCGGCTCTTTCAGCAGATTCTGTCTGCTGTGGATTACTGTCATAGGCATATG
GTTGTTCATCGAGACCTGAAACCAGAGAATGTCCTGTTGGATGCACACATGAATGCCAAGATAGCCGATTTCGGTATGTAACTCCAGGGTTGTTCAGAAA
GGTACTAGCTACCTTTTAAAGCATAACAACTCATTGAACTAAGAACTTTACTTTTCAACCTTGTACGTTCTGTACCATGAAAAGGAATTARCTGAAATCT
CCTCAGTAGCTTTTTTTTTTCATTTAATTAAATTTTCATTAATTTTCATTAAATACACTTTAAAAATGCAGATACCTCTAGAGAAGTTAGAAGGTTGTCA
TCAAGATAAATCCATTCAATCTGCATTTTCTCCTAAGGAAATGATGCATAACTGTTTTTTTGTTTTTTTTTTTTTTGAAGAGAGGGGAGGAGTCCCAGAC
TTCTTTGAAAATCTCATGAAAGTATGGGCACTTTCCCTGATGAATGCATATAAACCAAGGTACCTGAAAATATGCATGCAGTTGGAAAAAAGCCCTTCTG
AACTGATCCACAAAGAGGTCCTTAGGTGTAACGTCTAATAACTTGATTAGAGAACAGTTTTTGTCAGGGGTAAAAGGTACATAAAATGTGATTTTTATAC
TCCAAACACTTTCTGGGATAAACATACGTGGAAAGGATGCCTTAATAGGGTATTTGAGAAAAAGACTAGGAAGTGAGAGATTAAAGAGAAAGAGATAGAA
AGGTACAGGCTATTGTTGCCTATTTGTGGTCTATACCTTGTCTTTAATCTAAAAACCTRGAAACTACTTTCTCTATTTCTCTTCCTTCTCTAAATCATGA
AACTTATTTATTACTATAGCTCAGCTAGATTTTTGGTTCAATAGATTATTTTTTCCATGTTGAATTAAATATTTCTAAATTAAAAACTTTTGGAACATAA
TCTCTTTATGAGGTGGGGCCCATCTGGTTTCTAATTACAGAATTTAAAGAGGCTTTTGAAAGCACAGGGCAAAAAAGTAGTAGTCTCTATTTTATTCTTT
CAACTATGGAAATAGGTAAATAATATTTTGATGYTTTCATGTTTGGGAAAGTTAATATGCTTCAGAATAACCTCATTTGTGATGGGAATCAACATTTTTA
TTTAGAAAGGAAATTTAGTTTCACTCATATATGTGATGTGCTTTAGCTTTTTGTTACAGTGTAAGCACTCTGAGACGGTCTCTTTCCAGTTAAATGCTTT
CCACTGCTTTTTTTTAATAACTTAAAAAAAAATGATATATGGAGGATCCAGGACTTGAAATTTTGCTCATATTTATATGACTTTATCTACTTTTAAAAAT
ATCTAGCACCAAGTAAACATTACTTTTATTTTTAGGATTATCTAATATGATGTCAGATGGTGAATTTCTGAGAACTAGTTGCGGATCTCCAAATTATGCA
GCACCTGAAGTCATCTCAGGCAGGTAATAATCAGTGAAGCATAAGCTTTTTGTAATCTTGTGTTCATTTTGATAACATTTAATTACAATATATTCTCTAT
GGAAGGTAAGATTTTAACATGGTAGAAATGGATTATTCATTTATTTTTCCACTGTTAAAGGGATAATGGTTATATCAAAAAATGTTAAACATTTCATTTA
GATGTCATTATAAATATACTTACGAAGTTTTCCCCATTAGAAAAATAACTGAAGTAGATCCTGATTTAACATATCTTTCATTTTACAAAAGTGCAGATAA
GAGAGTAAGAATTTGCTAAATTTAAGCTAGTGTCATTTATTTATTAGATATAGTTCTTTAATAATACCTTGCATATTTTCCAAAGTATATAGAGCATTGT
TTTATATTTTGTGTTTGGAAAAAYGAGATTTTGGGGGAAAATATTGTTTCATGAAATTACACAAGTAGAGATTGTGTAGTTACTCATAACTTATTCATTG
GTACATTATAAAAATGTTTATACAGATTGCAGTGGTAAACTCAAGTCTTTCTACAGTGATCAACGTGTGATTTTAAAAGTTAACAGAATCCTATAAGAGA
AAATATGGTTAAAGTATTATTGCAAATAGCAGATAAAGAATTATCTTAGTCCATTTGGGCTGCTATAAGAAAGATACAATAAAGGTGATAGCTTATAAAC
AACAGAAATGTATTTCTCACAGTTCTGAAGTCTGGGAAGTCCAAGATCAAGATTTGGTATCTGGTGAGGGTCTGCTTCCTAATAGACTACTGTATGCTCA
CTGTAACTTCACATGGTGAAAGGGACAAGGGATCTCTCTGGGGTCGCTCTTATAAGGGCACTAATCCCATTCATGAGAACTCTGCACTAGTGACCTAATC
ACCCCCCTTAAGTCCCCACCTCCTAATACTATCTCCTTGGGGGTTAGGATTTCAACACATGAATTTTGAGAGGACATAAGCATTCAGTCCATTGCAAGGA
GTTTGAACAATACAGCAAATGATGTAAACAATCACCATTTTTTATATAAACAGATTATATTCTTTTCATTAGAATAGTAAAGATTTACTTTGTTACCTCA
GACCCAGGTTTGAGTATGGTAATATGCTATCATGGGAATTGTAATGCTGTAGAAACGTAAGAGAAAAAAGGAATAATACTATAAGCATAGGTTATCTGGA
TCAAAGATGATTTTAGTCATATGAGTTAGGAAGTGATGAGAATAGAAATAGTAAGTACTCAGGATAATGTGATACAGGATAAATACTGTCTACACAGTAC
TAATTAAGTACTTTAATGTTTTAAATATCTCTCTCTMTATATATATGATATATTATATATATATATRTATATATTTTTTGTTTTGAGATAGAGTCTCGCT
CTGTCACCTAGGCTAGAGTGCAGTGGCACAATCTCAGCTCACTGTACCACCTCCTGGGCTCAGATGATYCTCCCACCTCAGCCTTCTGAGTAGCTGGGAC
TAAGATGTGCACCACCATCCCTGGCTATTTTTTGTATTTTTAGTAGAAACAGCGTTTCACCATGTTGCCCAGGCTGGCCTCAAACTCGTAGCCTCAAGCA
ATCCGCCCGCCTCAGCCTCCCAAAGTACTAGGATTACAGGTGTGAGCTACCGTGACCAGCCTTAATATTCTTTAAAGGTGTGCCAGGGGTAGAAATTCTA
TTATATGTATACATTATATATATGTTTTCTTTCTTGTAATAGTTCTTTGGGAAAAAGATTTAACCTATACACCATAGTATTTTTTCAAGTTTGTGGTCAT
CTACTTTGTTTCCCTCAAAAATCAACCACAGAAAGTATTATATGTTTTAATTCGTATGTTTCAGTTAAATGAATTTGTGACAAATAAAAATACCCTATTC
ACTTGGCAGGCTTGAATAGTAGTTGGCTAGCCCCATTACTCTCTTTGGGGAACAAACACTGAATATTGGGGAGCAGCCATGGACTTCATTAAAGACCTTG
GAAATGAATATGTACTGAATGTAGACTACCTATATATAGAAGTAGGRTACATAGAGAAAAAGTGATTCTTGCATTTCAGGTTTGTGTTGTCATCTTTTTT
CTTAGATTGTATGCAGGTCCTGAAGTTGATATCTGGAGCTGTGGTGTTATCTTGTATGCTCTTCTTTGTGGCACCCTCCCATTTGATGATGAGCATGTAC
CTACGTTATTTAAGAAGATCCGAGGGGGTGTCTTTTATATCCCAGAATATCTCAATCGTTCTGTCGCCACTCTCCTGATGCATATGCTGCAGGTTGACCC
ACTGAAACGAGCAACTATCAAAGACATAAGGTGATTYTTCTTTTTGTTTCTGTTCTGCATATTTTCTCATAGGAATAATAATGTTAATTAAATGATTCTC
CCAAAGTCTCATTTCCTGCCCTCACCACCTCACCCCAGTACTCATGCTTCAGCCACATTGAACTTGTCCTTGTTTCTCAAACCTAACATAGATTTTATGC
CTTCATGTCTTTGTTTATATTRTTCACTTTGCCTTGATGTCTTTTCTTGTTTCTTTTTTGACCTGATAGACTTCCATTCATCCATTAAAGTTCATGCCAC
CCCTTTTGTGATTTCCACACGTGCTTCCATTTCTGTTTTATCAACATTTTGTTCATGCTTTTATTATTTAATCCTCATCCTGTATCTAGTTATTTCTCAG
TGTGTCTTTTTTCTCTCTTAAATTATGATATCAGGGTAGAGAGTGTGTCTTATTCATCTTTGACTACACAATGCTAAAAGGCCTGGAAAGATGGTATGCT
TAGAAAGTGTCTGAAGAAATTTCAAATGGAGAAATAGGGTGAGATTTTGTATTTTACATATGGTTAAAGACATAAAGCATAAAAAGTTTTGCTAAGTTTT
TGAATTCAATAGCTGCTAGTCAGCTTACTGTGAAGGCTTTTTTGTCACTTGAGAAAGTTTGGAAAGTGCCATTGCTGATGCGCCTATGAATATGACCTTT
GTATATCCCACACCTGTGTATAGTAGCAAGATGATTCACTGCATCCTGCCTATGACTTATCAAGGCATGTTTYTTAGAGGTTTTTTCTTCTTACCTAAGA
TTTCATCCGTGTTTGTTTACAAACATGTTCTTTTGACATCTTTCCAGAACTCTTTCCCCTTTTCATCATTAGCCAGCAAAGAATTTTTTTTTTTTTTTTT
TTTTTTTTTTTTTTAAGGCAGGGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATCACAGCTCACTGTAGGTAGCCTCAACCTCCCAAGCTGA
GKTGTTCCTCCCACCCCAGGCTCCTGAGTAGCTGGGACTATAGGCACAAGCCACCACACCCAGCTAATTTTTTTTAATTTTTTTATTTTTAGTAGAAATG
GAGTTTTGCCATGTTGCCCAGGCTGGTCTTGAACTTCTGGGCTCAAGCAATCCACCCACCTTGCCCTCCCAAAGTGCTGGGATTACAAGTGTGAGTCGTT
GCACCCAGTTCCAGAAAAGACTGTTTTGAGACCTCTGACCTTTGGAATATTTAAATGATGGCTGAGATAGCTGTTTATGTGACTGCTGCTGATTTCATAC
AGGCAAGGACTGATGATTCTTTTTGCATTTATGTATCATTTTCTTTTCCCAGCCTTTCTTCAGTGTTCCAAACCTCATGTATAACAATGTAAAAGTGTAA
ATTAGCCACCAGATTTAATTATAAAAATGAACTTAGCAGGAAAAAAACTCTTTGTGTTTATAGTTCTWTAGCATATATACTTCTGTTAATGACTTTTCCT
TAGAAAATTAGACATGCTGATATATTTGCAGCTGCTCATATCAGCATATACATTTAGAATAGTAATAGGCTGGGGGCAGTGTCTCATGCCTGTAATCCCA
ACACTTTGCGAGGCTGAGATGGGAAGATTGCTTGAGCCCAGAAGGTCAAGACTAGCCTGGTCAACATAGTAAGCGCCCATCTATATTAAAATTTTTTTTT
TATTAAAAAAAAAGTCAAATGGTAATGATTCATTGCTTTAAAACAGGTGTTTGTATATTTATATACTTCAGAAGAAAAATGTAAATATATTTACTGGGAA
GAGTTAATTTGTACGTAGGTAGATGGCATGAAAGTATCATTCATCTCTATACTTTAATATGATAACTTGAATCTATAGTTTTCATCTTTTTAAATTTATG
TCATATATATATTTACTTATCTATATTCAATTTTTTAATGTTTGGGAATTCTCATTTTTTTAATTCTTTTTTTTTTTTTTTTTTAAAGAGATGGGGTCTT
GCTATGTTTACCAGGCTGGTCTTGAACTCCTGGCCTAAAGCAGTTTTCCCATCTTGGCCTCCCAAAGTGCTAGGATTACAGGCATAAGCCACCACGCCTG
GCCAATGTTTGGGAATTCTTGATTTGATAAAATATAGTTCAATAGGGAAAAGAATTACTAATCATGGAAAAATTACAAAATACCAAGCATTCTGCTTTAT
GGCTTAACTTATGTTATTGCATTGACTTTTCATATATAGCTATAAACCATTTTACAAACCATGAAACTGAAGCTCAGAAAGGTTACATCATGATTTATGT
ATCTGTTTGCCCCTATTAAATTATAAATTACTTTAAATTAGGGACCAATTATTAATTCATAGCAAAATGCACAAGGTCKAACACATATTAAATGTTAAGT
AAATCTGTGTTTGTTGAAAATTACACAACTAATAAGGAGCACAATGGGGCTCAACTTGGAACTTTACCTGAATTCAAAACCTGTGCCATTTATACTATTC
CAAATTGTTACATCAGTTCTGTGATATCTATCCTTTCAATCTATCATATTTTATTTATCTCTTATGCTACTACATACTTACTGTCTCAATATTATTTTTG
TACATCTATTATTTTCTTGTAAGATAGCCATTGGAAGTTCGGAAATATATCTTCATATTTATTTGCTTATTTAACCATTTTCGCTTTTATTCATTCAACA
AATATTTATTTCACATCTGCTCTGTGCAAGGTCTTGTGCTAGGTGCTGGTAATATAGTGGTAAACAAGATAGATATTATCTTCATGGAAAACACATCTTT
GTGTTCTCCAGGTATCTTAAGCTTAGTAATAGTATTAATGTTATCATAGTTAAAGTGAGCGGTCTGAAGTTCAACTGAGCACAAATCCCAGTGCATCTGT
TTATTAGCTATGTGCAACTTAGTTACTTCCCACATATATTAGAATTTTGGGGAGCGTAGTCATAGATCAAACCTTGTGAAATTGCCATTTAAGTAGGTCT
GAAAATGATTGAATATCAGAAACTGCAAATACTCAACTTAATATAATTAAAGCTTTTAGAACAATGTCTAGAACATAATATTAGCTATTATTATTTTTGA
GGGAATATTTGAAAACCTTTTAGCTGCACTTAAAGAAATTTGGGCATATCATGAGGTTTCTAAAATTTGATAGTCTTTATAATCTAACCTTAAGTCATAT
ATCAATTTCAGGTATCAGGTAGTAGTGATAGAAAAATATAATTTCTGATGCCTGTATAATAGCCCATGTGAAGTGAATTGCTTTTGTCTCAGATGAACCT
TCATAAACATCCTAGTTACTGCTCACTTTGGTAGAGTTAGTTCAGAAACTGACTCCTGAAAATCAAAAGCTAGAAAGATGGCTTTTAAAATTGTCAGTTA
TTACAAACAATTATGGCCATTTGACTAAATTAATGAATTAGAAATCAAATTTAGATTGTTTCCTTATTGTTTTTTAAAATTAATTTTTAAAATATAATTC
ACATATCATAAATTTATCCCTTTAGATTGTATAATTCACTRGCTTTTAGTGTATTCACAAAGTTCCATAATCATTACGGCCATCTAATTCCAGAACTATT
TTATCATCCGTGAAAGAAACTATACACACTAATAGTCACTCCCCATTTCCCCTTCCTCCTATCCCCTGGCAACCACTAATCTACTTTCTGTGTTTGTGCC
TGTTGTGGACATTTCATATAAATGGAATCATACAGTATGTGGTCTTTTGTATCTGGCATCTATCATTTAGCATAATGTTTACAAAGTACTTTCCTACTGT
AGCATGTATTAGTACTTCATTTTTTTTGCTTGAAAAATATTCCAGTGTATGAATATACTACATTTAGTTTATGCATTAGTTAACGAAGATTGAATTGTTT
CTAATTTGTGGCTTTTATGACTACTGTTTCCATGAACATTTACATACACAGTTTGTATGGCTATGCTTTCATTTCTCTTCGGTGTATATACCTAGAGTTT
ATAATTGTCGTATGTTGTTGCTGCTRCTTCTGTTTGTTTAGTGATTTTCCTGATCTGATTCTGTAAAATCTGTATTCTTTTTTATATATGGCTACTGAAA
TCTCTCTTTGGTTTGCTTAATGATCAGCTAGTGATTAGATAACAATTTCCTTAAATGCCCTGATCTAATAAGTCTCCCATCCTTTGCTAATGGGCTTTGT
GTGATATTGGGGTATATCCTTAGTGCTCCAACAGGCAGTTGTAACTCTGCCTTAGCCTTCACTTCCTGCTTGTGCAGAGCCTCAAAATCTGCCAGTGGTG
AGAAATTATGGCCCTTTCAATTTTTTCTCAGGCAAACACACAACTCTGCATTTGTTTCTGGCCTTTCTGAGTCCCAGAAATATATCAGAGCTTTCCAAAG
ACCCCTCTGGAAATTGTGTTTCCTAATTTTTCCTTTTAAGTGTTTTGGTCAGCTTTTCCTTTACCCAGCTTTCACTGCTGCTTCAGGCAGTTGCGATGTT
AGACAGTTGCCATTGATTTTTGTTTTTTCTTTTTTAACAAATGCCCTGGGGAGAAGGCTGTTTGCAGGAGTAAGCTCTGAGTCAGGTCACATAAAAACCA
GGCTTGTGAGTGGAGGTTTCCAGAGAACTGCTAGACATGTAAAATAATGACAGTTCTCTCATGGTAAGATTTTTGGGGAGCTCTAAACTATTCTGCTCCT
CTATTCTCCCCACCTCAATGCCCCAGTGATTGTTAAGCTCCTGTTTTCTCAGCTCTGTGATTATGAGGCTGTTGGTTTTCAAGGCTGCCCAGGAGCTGGA
CAAAGGGAAGCGGACTTAGGGCAACTTAAAAAGCCACAAATCTCACCTTTCTTATTGAGATTCAGCCATTTTTCTTGAATAAACAGTCTTCAGATTGTTG
CAAGCCTTTGGTTAATTTCCAGGGTTCTGAAAAAATTGATTTTCACAGTTTTTGGTTAATTTCCGGTGTTCTGAAAAAGTTGATTTTCACAGTTTTTGCT
GGTATTTTATTGTTTTATGGAATAATAGATTTTTTGAGTTTATTTTGAAAGTGCTTAACTTTTCTATTTGTCATTGATATTTAAAAAATATTAGACATGT
AACATAATTTTTTGCCTTCTTTTACTTCTTTTGTAGCTGGGTGTGGTGGTGTGCACCTGTAATCCCAGGTACTCGGGAGGCTGAGACAGGAGAATCACTT
GAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCGCTACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAATATATATAGA
AAAGATCTATCTCAAGTTATTTTTATTGCTGAACATTAATAGGTGCTTAATATTATTATATAGCCAATAAACACATGAATGAATTATTTTTTGTGTCCAT
ACTTTGTCTATTTATCATATATGCAGCATTTATTGAGCATTTACTCTACTAGGTAGTAGGGTAGAGCTAAATAAGGTATGGTCACTATTTCAAGAAGTTG
TCGCCGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGCGACCATCCTGGCTAACACGGTGAAAC
CCCRTCTCTACTAAAAAAATACAACAAAAAATTAGCTGGGCATGGTGGCAGGTGCTTGTAGTCCCAGCTACTCGGGAGGCTGAGGCCGGAGAATGGCGTG
AACCCAGGAAGCAGAGCTTGCAGTGAGTGGAGATTGAGCTACTGCACTCCAGCCTGGGTGACTGAGCGAGACTCTGTCTCAAAAAAAAAAAGAAGTTGTC
AGTTTACTGGGCAAGATTAAGAAAAAAATCAACAACTAAAAGAATGTATTGTGATAGAAAAGTCTAGTAGCTGTAGAAGTTTTATCTTTGTACATATCCT
CAGGGCCTGGCACACCAGTATTTCTTACTTGGACTATTGCAACTAGCATCACCATCATCATTTTTATCTTTTCTTTTTTTTTTTTTTGAGATGGAGTTAC
ACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCGGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCTAGTA
GCTGGGATTATAGGCATGTGCCACCACGCCCGGCTAATTTTGTATTTTTAGTAGAGACGGTGTTTCTCCATGTTGGTCAGGCYGGTCTCGAACTCCCGAC
CTCAGGTGATCCGCCYGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCRTGAGCCACGGCGCCCAGCATCATTKTTATCTTTTCAATTCATTTTCTATA
CCACAAACAAAATGATCTTTACAGAATGATAACTAGGTTATGCTACCCTGTCTCTTTAAAATCCTTCAATGATTTTCATCAACCACCAGTTCAAATCATG
AGATTTCCTTTTTATGGCCTACAATTCTTAGAAATATCTGATTTCATTTGGTACTCCATCTCATAACTCATTCTTCTTTCATGATGTTGAGCTCATTCCA
GTTCCTAGAGCACAGCATAACTCTTTCTTGTCTCATGGTCTTTGCACATATTGTTTCTTTTGCTGGGAATATCTGTTCTGCAACTCTTTGCATAGCTGAC
TTCAGATCATTCTAGTGTCAGCTTAAATATTACTCAGAGTGGCTTCCCTGATCACCTGCCTCTCATTCTAAATTATATACTCTCATTTTACTCTATGCAA
TTTCTCTTGCAATCTTTATCACAGGATTTGCATATTTGTATATTTGTAACTATATTTTATGTATATTTGTTTAATCTCTGTGCAGCTAAAATATAATCTT
TGGGAGGAATGGTTCTTTTTGTCCATAGTATGTCCTCAGTAAATATTCAAAAATAAATTAATCAGTGAATAGAAGACATTCAGTCAGAATATATCTTCAT
CTGAACTTAGGGGATGCCCAGTTCTACCAGGTAATAATGCCTAAACAATCTCGAAGGAGTAGTTTGTGTTAGATGAAAATGGTTTGGTATTCTAGGATAA
CAATAGTAACATCAAGCRCAAAGGCCCAGAAGTGTGAGAAAATAAGGCTTAGGAGAGCAGTTCTCAGACTTTTTGATTTTAAAATCTTGTAACTCTTAAA
AATTATTGAGGACCTCAAGGGGGATTTTTTAAAATGTAGGCTATTATCTATCAATATTTACTACATTAGAATTAAAACTGAGAAATTAAGAAAATATGTA
ATTTACTTAAAAATAACTATGTTAAATAATACATCTTTCATGAAAAATAACCATATTTTCCAAAAAAAATTGTGAGAAGAATTACTTTATATCAAAGACA
GCTAGGTTCTCATACCTTCTTCATTCAATCTGTTGCACTATTTTGTATTAGCTGAAGTGTGGTTTTCATACCTTCTTCATTCAGTCTGTTGCATTATTTT
GTATTAGTTGAAGTGTGTAAAGAAGGTCTGACCTCACTCAGATAAGTGGTTGGAAAAGAAAAAAAGCATATTTATTATTATTAACACCAACTTTATCAGA
AAGTCTTTAAGTATTGAGAAGCTGTTAAACTCACACAAATAATACAAAATTTGAAATTTTTGCTTGAAAGCTTGAATTTTATCATTGGCAACAAATATTG
CTGGTTGTTTTCCTTAAAGCGATGGGCTTGCKTTTTTCRTTTTTGAGAAAATGTTGTCCAAATGCCAAGTCTTAATAACCATAGTTATTCAAGGGTGGTG
GGTARTTAACTTGCTCAGGATCACATAGCTAGTAAGTGGCAGAGCTRGGTCTAGAGACCAGATCTTTTGATTATATTCTATTATATTGCCCTATGTCTAA
ATTATTTGGACTTGCCAAACCATGTCTTACAATAATGTATTGTGGTGTTTTTCCTAGAGAGCATGAATGGTTTAAACAAGATTTGCCCAGTTACTTATTT
CCTGAAGACCCTTCCTATGATGCTAACGTCATTGATGATGAGGCTGTGAAAGAAGTGTGTGAAAAATTTGAATGTACAGAATCAGAAGTAATGAACAGTT
TATATAGTGGTGACCCTCAAGACCAGCTTGCAGTGGCTTATCATCTTATCATTGACAATCGGAGAATAATGAACCAAGCCAGTGAGTTCTACCTCGCCTC
TAGTCCTCCATCTGGTTCTTTTATGGATGATAGTGCCATGCATATTCCCCCAGGCCTGAAACCTCATCCAGAAAGGATGCCACCTCTTATAGCAGACAGC
CCCAAAGCAAGATGTCCATTGGATGCACTGAATACGACTAAGCCCAAATCTTTAGCTGTGAAAAAAGCCAAGTGGCATCTTGGAATCCGAAGTCAGAGCA
AACCGTATGACATTATGGCTGAAGTTTACCGAGCTATGAAGCAGCTGGATTTTGAATGGAAGGTAGGAAATTATAATGTAATAAGATCATTTGTAGAAGC
CATTTTTCTATATTATAAGCTGCTCTGAGCTCCTGAGTTGAGYATTAAGCCCAACTTTTTCTAGTAATATGCTATGCACATTAAAAACAAAACAAATAAC
CTCTATAAGGATGAAAAGTGGTTGATACTGGGAACCAACATATTTTGAATTATAGAAGTGTTCTTGGTCAAGAAAAAAGTAATCAACTAGAAATCATCTG
AGAAAATAGCTTACCAGTTTCAGCATGCATCATAGCAATGAAAAATCATGAGTGTCTTCAAAGATAGTATGTTTTTACTTTCTCTTTTTTTTTTTAGGGA
GGTTATTTTTCTTTTCTCTTTTTTTTAGGTGACAGAGGCAGGTGGCTGTAATAGCTAGTGGTTGATACAAATTATATCATCAGGACATATTTATTCAGTC
AATAAACACTTTTCTCCAAGTTGTGATATTCTCTTTTATTTGGCTAGTGCTTTTAATACTTAGAGTACATTTTCCTTACTCTCAGCCCACAGTTTGCTTT
TCTTAAAAATTAGTGCTCAATTTCATTTGAGTTCTATTTGAATATATGTGTGGGGAGGGGCATTTTTTCTTTTCAGATATGCCTTTCACTCTTGTTCTTT
TCTTGAGGATTGTGAACTTTTAAAGGAAGAAGAAAAATGTGCAAACTTACCACATAAATATGCATTTGACGTGTTCAAATAAATCAGTCATTTTCATTTT
ATTATTTGTACATGAAATGAATATTTTCTTAAAATCATTTAAAAAACAGATCTCTCTGTTTTGGAGCAGTCTTATTTAGTTAAAAAAGAGACGTTAACAT
TTTTAAAATTCTGTACTGAAACATTTTGAAATTAGTACCACAGATGTTTTGAAAACCCAAAGCAGTGTTGTTTTTTTGTTTATTTTTTGTTGTTGTTGTT
GTTTGTTTTTTTGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCCAGGGTCAGGCTATCCTCTCACC
TCAGCCTCCCTAGTAGCTGGGACTACAGGCGCCTGCCACCACACTCGGCTGATTTTTTTTGTATGTTTTTGTAGAGATGGGGTTTCACCATGTTGCCCAG
GCTGGTCTCAAGCTCCAGGGCTCAGGCGGTCCACCCACCTTGGCCTCCCAAAGTGTTGGAATTACAGGCGTGAGCCACTGTGCCTGGTCCTCTTTGTTCC
TTCTACTCCATAATCATCCATGAACATGTTCAGGCAGAGACTGGACAACCAAATTAGAATTGATGTTTTAGAGTTGATGCTTATCTAGAGTGAAAGCTGG
ACCCTATGTAATCTCTGGGTTCTCTTTAAGTTTTTCCTTTATCTTTCACTTTTTTCTTCAGTACCCCAAATTTATTCAAGTAGCTTTTCCTTTAAATCTT
AATTGCCATACAGTACTGCTTAGTGGGGATTAAATAAATACTAAAGTGAACTACCAGTAATATAAAAAAATTATTCGTATTCCTTTCCTACCTCACCCCT
ATTAATTATTTGTTTTGACTTTTTTTGCATAAAAAGGTAGATATTTTGTAGTTTATTATTTTTATTGATTTTTCACTTTAGGTAGTGAATGCATACCATC
TTCGTGTAAGAAGAAAAAATCCAGTGACTGGCAATTACGTGAAAATGAGCTTACAACTTTACCTGGTTGATAACAGGAGCTATCTTTTGGACTTTAAAAG
CATTGATGGTAAGGAAGCTATGCATGCATGAGCTCTGAGAAGATAAAACTTGGCACTAGTTGACCAGATGTTAAAATCATCTCGAAGACATCCGGTGGGT
AGGTCCTGCACTGGTTTTTAAGCAATCTAGACTTAACCAAAATGTAAGTGAAGTGAAAAGGATGAAAGACATGTTGAATACCTCTTACCTGGCATCTTTC
CACAAGAAGTATCTCCGTGGCGTAAAAGAATCATTTGAAGTGTTGGCCGTGGAGCACAAGTAAGGAACAACAGGGAAGCAGGTTTTACTTTTCAAAATTA
ACTGACTTGTCAGATTCTTTGTCATATTTCTCCATTCATATTTTATTAGTTAGTATTATAGTGTCTAAACTTTCTCCTTCATCACCTTTCCTCATCCTGG
GTGGCCAGGGCGACCAAATAGGTCTCCATTGGGATTTGGGTTGGATTTAGGTACCCATGGCAATCAAGGAGCCAAAGGCGTCAGGGAAAATTGTCATGTC
CAAGAACTTAGTGTGTGCCAAGAATTAAACTTGGGTAAACCAAATCTGATTATTCATTTCAGAGGCCCAAGTGGGATAAAACCAGAATAAACTAAGGGTC
AGGTGCTGGATGGAACAAGAATGGAACGGAGTTTAGAGTTAGGGAAGTTGTTTTAAACGAAGCATTTAAATTTTACTCTTGAACTACCATCAACTATGTA
TGGTAGTGTTTATATGGATCCCAGACCTRTTTCATCGAAATTACATGTTGTTGTTATTAAAACGCAGATCCCTGGGAACCACTCCAGACCTATTAAATCA
GAATTTCTGGAGATTGGTCCTGGGAATCGTAGAAAATGCAGTTTTAACAAGATTTCTCTCACTTTGCCCTCCACCTCCCCAAGGCAATATATGATGGTGA
CTTTTGTTTTTACCTTAGTGATTTTTTTTGTTGATATGCTAGAAGAAAATAAGTTGTCAAGGATATGCTTTCTTCACATGCAGAGATATCAGTTTGATTC
CAATATCAATGCCGATTACTCCAATTTGAGCAGGACTTAGGGGCCACATTTTGACTGTGTGCAAGTCTTGTGATTGGTAGCGATGTTTGTTATGATTGTT
GGAAGGAAGAAGACTGTGTTTCTACAACACAGAAACATGACATTCATTATTAAGTTGCCCTTGCTCAGATGTGTTTAYTTAATATTCTGAATATCATAAA
TTCATAGGAAGGGCTTGGGCATATATACTTTCCATATAAATTGCTCTTCTTTGGTCCATTTCAGATGAAGTAGTGGAGCAGAGATCTGGTTCCTCAACAC
CTCAGCGTTCCTGTTCTGCTGCTGGCTTACACAGACCAAGATCAAGTTTTGATTCCACAACTGCAGAGAGCCATTCACTTTCTGGCTCTCTCACTGGCTC
TTTGACCGGAAGCACATTGTCTTCAGTTTCACCTCGCCTGGGCAGTCACACCATGGATTTTTTTGAAATGTGTGCCAGTCTGATTACTACTTTAGCCCGT
TGATCTGTCTCTAGTTTCTTTCTGTTATTGCACTATGAAAATCAGTTATATTCTTTAAATTTTTATCTTACTTTTGGATAATATCCACTGCAATACTAAT
TGAGAAACATGAATTATTTCCAGGGGCACACAATGCTATTGAAATTACTGAAAACAAAATATCTGACATCTTATTTACTTGTAGAAATCTGTAATTCTAT
TGTGCCTRTGATAAATTCACATAGGCAATATCTTTAATAGGTTAATATCAATGAAGATTTTTAATTACAATAATGAGTTCACTACAGACGATTAACACAC
CACACTGGCGAACCATCTCAATGTAAGGGTGGTTTGGCAACACCTCCTTGCTTTGCTGTTTGGTGTAGGTAAATCTAGTTTACTTCCTAAATTTCAGTAG
GCTTTATGCTGTGTTTATGCCCCCAATTTATTTTAACAAAAGAAGATTAAAAAGTAAAAGAACCACGAGTAAGATATTATTTAAATGTTGAAATCTTAAA
AACCTGCCTCCAAGATTTCAGAAGCCAAGTTTTTCTAACAGTATTTGTACAAATACTGCCTAGTGTATTCAACAGAAGGACTGTGGTCATGTAACAGGTA
ACCACAATTTTCAGGTTTCTTAAAAACAGCTGTAACTAACTCAGGATTTTTATCTTGAGATTTCCCTGAATAATATATTTATCTTAAGAGCCTTCAAGTT
TCAAATTAATATTGGAACATCTGGAATTGCAACAACTTTTGTCTTTTACATAAACTTACGTCATTTAAAAAATGTCTTCAAAATCTACCTTTCTCAAATT
CTTTTTGCCTCTATTTATTTTTGCATTTCACCAACAGTGATAAAATAGTTAAATGAAACAAAGCAAAGTATCAACAGTCCCTTAAATGAGAATCCTTATC
TTTGATCTTTATTTTCTGTGTTAGGTGTTAGGGTCCTGGTGCAGCTCATAATGCTAATTCTTCATTGGAAGCCACTCCCTTCACCTCACCTCACCTAGTC
ACTATTGTCTTTGTTCATTGTTTGATCCTGAGTGGTTGATTGATATAGCTTTGAATCTTTTCTAGTCCAAGTTTGAAAACACTGTTCTGGCCCTAAGGGC
TGGCTATGACCTTTACTGTTGAACCTGATAGGGCAGGGAAGCTTTGAACATCAAGAAAAAATTTTTATCTTAAATAAATAAATATATATATTCACACACC
AGTGCTTTTAAGCAAAAACCAGTTTTTTTGTTTGTTTGTTTTGCTTTGTGCAGGTTTTCTTTAAGATTAAAAAAACACAAACTATAGCAGGGTAGATAAT
AGTTTATTGATTATATTTTGTTTTAGTAAAAGTATTTAATTTTAAATTCTGTGTAATTTATCTAATTTGTATTTATTCATTTGTTATTTTTATGTTGTAA
TTAACACTTATTTACCTGGATTACCCTAAAAAAATTAAGCTCTTGAAAACAAAAAAATGACATTACCTTGACAGGCTTCTCTTTGCCAAAAGTAATGTAT
GTTCTGCCAAGAAGCAAATGAGAATGTTAGACTAAGTTTCTCCTGTGTTAGTGGAAAACAAGTGTGTCTATCTTTAAATATTCTTTGAATCAGGAGTTTG
CGTTGTGTCACATCATATGGCTTTGCAGATCTTTTAAAAACTGATGTTAAATAACTTATAAGTCCAACTTCTTAATATCAAGATAAATGAATAGTTCACC
AATTTGGGAAGGAGGGCGGGTTGCAATTTGAGATAGTTTAAGGTTTAATTATTGAAAGACTGCCATCTTGTGGCCCCAAAAGGTAATTTTTACATGATTA
TTTGTATAGTGATAAGCAGTCCTGCTGTGTTAGCCTGGTCCATTATAGATATGGCATAGTTTTGGGTTCTCTAAATGGGTCCATACCTCTTTTGGGAAAA
AACAGGGCCACCTCATAATATTTGCCTGATTATGAATGGAATTACCTTAGAAATAAGGAACTAATCAGATTACTTAACCCCAATGACAAAATCCACAAAA
ATTTTGAAGGCAGAGAAACAGAAGGAATCCAGTGATGTTTTAGCTCCATTAGTCTAATAGGTCAGATATTAAAAAATTGTTCATATCAAAATTACCTTAT
ATGGATTATTGCCATGTTTTTTGAGAGTTAATTATTTACTGTTTTCTAATTCTTGCCAGTATTTATGAACAGCTGTAGCTTGATATTTACCTACTGAATT
TTAGGAGAACTAATGGTCACAGTTTGGGTTCTTTTATGTGTATGTTTTTAAAACAGCTATTTTGTGAATCTAGGTGGTTGGTTTTTAGAAGATTTCAGGA
GATGCAGTCCAGCACAATTAGAGCTGGAACATTGTTACAGCAGGCTTTTTGTTGCTCATGGGCAGATAGAGGGAAAGAATCAGTTGTTAGCCCCAAATTT
CCACATTTCAGTGTTGTAAACTCTGAATGTGATAGGTAGATGTGGGCTAAGAATAATTTCCTCCAGTGAAGACACGGGAGAAGAGCTTCTATTATGAGGT
TATAGATAAGGCCTTAGTTATATCATGGAAATGGACTCCATGTAGTTCTAGAACTGCATTTCCCAAAGTATATCCTGTGAGATGCTCCACAGAAAAAATG
ATTGCATGGACTAAGTTTGAAAAATGTTGCATGCTACTCTTCCCCTCGAAGATGACAGTGGATGTCAGCATTAAAGACTTTGACAGGTCTTTCTGTGAAA
AAAAGAAAGCCACATAACTTTGTTGAACTTTGCCCAAATTAATTTTTCATTTTAAAAAACTTAATAGCCCATGAAAAGCAAATTTGGGAAATACATTTTT
TAGGAAAATACTGTCCCAGAATGCCATAATTAGGGTAGTTAATAATTAACACTTCCATTTCTCTTACTGGTTGTTGGGAGAATCTGATTGAAAATTAGAA
TTACTTTGTTTTAACTTGCAGACATGTTCATCGTGAGTGAATGCTGGATTAAATAGAATTTTCTGTGTCTGCAACTTGTTTCATGACACCTTGGTTTTCT
TAATCATCTTGTATTATTATTTGAGTGCAACATTATTCTTATGCATGGGTGACTGAAAAACCTGAAACAAGATTACTTGTTAAAAAAAAGTCTAAGAGAC
TAATGACTCATGCTTATGGCTCAGTGGGTAATGAATCAGTGTCACTGATTCTTACTTTTAAAATGTGTAGTCAGTGAACATTTTCTAAATACTTTTCTTT
GGGATACCATATGAAGATCTAATTCCTTATGTTTCAGTGTAGGAACAGCTACCTTCTCAAATAGAATATGCAGGGAGGGAAGTAGGCAAACCATTTACAA
GTTGGGTTTTTGTTTTGATTAACCTGTTAAGAGACACTTTTGTAATCTCTAGTGTTTACATTCCTTTATACTAGCTATCTATAAAGAGAATCCAGAAGGC
TAAATTAATCAGAAATAATTATATTTCTATGTCAGGGTATTGGCTATATGTAGCATGAACAATTCTCCATTTTCTGCAAATGGGTTTTTCAGGACAGTTT
TATAATTCTGAGTTTGCTTTTTCTTATTCCCTAGACAGTTTGTACTCAGGGAATACAAATTGATTTTTACTGTTAAATGAGACATAGTTTAGAAAAAATC
ATAAGCAACTATTGTAGATTTTTGATCTGTTTGGATTTATCTGTAGCATTGAATAATGTGCAGTGTACTGAGTTAATGTAGGCACCTCACTTTGGATTTA
TAAAATGTAAAAACCTGGAACATGCCTGCCACAGACACCACTTTGTCTATTCACCGGGTACTAATTTACATCCTATTAATGGTTGTAAAAGCTGAGTGTC
TAAATGCTAGACATGTTCACAATTTTGTCTGTTTTTGTTTATTTGTTTTTAAGACCCAAAACTTTTCAATCTTGCATTTATTTACTTGGTTCTCCTGTGT
CACCCTGTGGCTTTTTAAATAGGGAATGTAATTTATTTTAATAGTAGTTCTCAAAGACTCTATTAAAAACTCTGGACGAGGGATATGTGCAATCTGTTGG
TAAGTCACATCCTATGTTTGGCCTCATTTTTATAACTCCTAAAATGAGAAAGGTAGATTTTAACACTTCTAAGGTACCTTTGAGCTTTAAAGTTCTTTTC
TGCTTTTCCATATGATTTGTGTTAGTGTTCACTTTTTATATATTTAGAGTTTTTATATGAGTGTGAATGTTTCTGTTTTGATTTGGTGAGGCATGTCAGA
GGTATATACTTGAATATTTTTCTAAATACAGCTGCTGGAGGAATGCAAATGGCAAAAATCATCCAGAAAACCAAACACGGTGAAACATCACATCCATTTG
GCATGAAGCAAAGCATTACAAATTTGGAGTGATGAAAGTGTTCCATATATTTTTTATAGTGATTTTTCGATCTAGAGACCCTTCATATTGTTTACTTACT
ATTACAATAACTTTGAGAGGTAACCAGAGAAAGCATTTTTGCCATTTCCAGATGAGGAAGCAGGACCAGAAAGCTCTTCATAAAGCTTTAACACCATACA
AGTATCCAGCAGTGATCAATTGCTCTTTATAGGAAACCACCTTTCCTCTGGGGAAGAACAGTCTGAATTAATAAAACATCAGAGTGGTTGAGTAGTAAAA
ATAAACACAGATGTATTGCTTTCAAGTCTTAGAGTGACATAAAGTAGTCTTAAATAAATAGTTCTTAGTTTATTTTAAGCAGTTGATTGTACTAACGAGA
TGTAATTATCTGAAGTATTTATGATTAGCATATTGGTTTTTATAAGTATTTCTGAGTTATTGAGGGTGCTTAAAAATGCTGAAGAAACTTTAAAACATGA
TTCTTCTTATAATTTTATGTGATTCTTATAGCACAATCATTTTTGAAAAAGGAAAACTAGGCTGGGTGTAGTGGCTCATGCCTATAATCCCAGCACTTTG
GGAGGCCAAAGTGGGTGGATCACCCGAGTTCAGGAGTTCGAGACCAGTCTGGCCAACATGGTGAAACCTCGTCTCTACTAAAAATACCAAAATTATCCGG
TGTGGTGACAGGCTGCTTGTAATCCCAGCTACTCGGGAGGCTGAGGCACGGGAATCTCTTGAACCTGGGAGGCAGAGATTGCAATAAGCCAAGATCATGC
CACTGCATGCCAGCCTGGGTGACAGCACAAGACTGTCTCAAAAAAAAACAAAAAAAGGAAAAAGAAAACTAGCCCCAGTCCCTGTCTAAATTGTTATAGT
TTTTGACTATTATCTGAATTAGTCTTATCCAAATTTCATATGCAGATTGATTTTTCATTTTGTATGTATATTACATGATATAACTATTTTCATAGAATAT
ATTTCTAATTTACAAACACTGAATTATTAGCTTGATAGAGTTTCTCCCAAACCTTATAAAACTTTGAAATGTACTTATGTTTGAGCTTTAAAAATTATAA
AAACTTCATTTAAACAAGTTGCTGGCATCATTACTAGCCTTTCCACCTATAATTATGATGCATTTGATGCCACTGAACAGTAATAGCACAAAGAACAGGT
CACACAGTCTAGACTGGATTGAGTTTTAATTAAACTTCTTCATCCATAGCCTGATAAGAATCAGGCTGGGTCTAGAAGAGTTATCAGACTGTAGGCCTGT
ATTAATTTTGCAAGCTAATGTTAATGTTTACTGCCAGCCTTGCATAGCAATGCCAGTTTGCAGTTGTGACTATGATGTGACTTTTGGTAAAAATGGTTTA
TATCTAAAGTAGTTTAGATTTTATGGAAGTGGCTCTTGATTGTTTGGACAAGCAGGGTAGGTAAATTTCAATTACGTTTGAAGTGTAATTAAATCCTAGA
ATAGAGCACTCTCCAGAAAAAAAAATGAAAAAAGAATTTGGAGAATATCCTGGCATGAAAACTTTTTTGAATAATACGTAGAATTTTGACAAGGTTCATA
CAGTGCATACAGTGTGACCTTTTCTGAGGTGGGCAGGGAGGGTTGCTACGTTGTGTTGATTTAAAATTTCAAGGAGGAACAAAAACATTCTAGCCAAGGA
GAATTGCATTGTTATTTTTTTTTCTACTAATTTAAACGTGCATTTTTCACAGTTACACATTTAAGTTTTGCTACCAAAAATGGCCATTTTTCTAGACAGA
TAACATTTTCCTAAAGTGGAAGAGAGATCCACTGTTCTAAAAAAAAAAAAAAAAAAAAACACTAAATTGTGCCTTCTCCCTTAAATTATAAGAAGAGTAA
TAGTAAAAACTTGTTTAAACTATATTTTCTTTTTTTCTAATCCCTCTCAGTTCTCCTTAGATCTGCCTCCTACAAATGATCATGTTGTTTGCATCTGCCT
GATTGAGTTCCCTTGGTCAAACCTCTCCCTATCACTATCAGAAGTTGTTCACTAAATGTATTTTCCTATTTCTTTCATGTTGATTGACTTTATAAGTCAC
CTTGGTAAACATAACATTTGGCTACCTTCTCATGCTTTATAAATGAATTTGATGAATGGCAGTTTTTATATTTTAACCCTTTAAAAAGTTTGTCAAGGAA
ACAACTCAGAGCTAAGAACAAAATCTAACTTGGAATCAGTTTCTTCCTTTGGCTGCTGAAGCAGCAGCAAGTCACGTAACCTCATTTAGTTTTTTGATTT
ACAAAATGTGGATAATAACCTACCTCACAGATGTGTGTGAGCAACTGTTTGAAAGCCCTTGTTTAAATACAGGGTTTATATCCCCACATTCAATGTAAAT
TCCTTTTTTTAAAAAAAATAAGTATCTTTGATACTGATAGGATGAGTATCTTGATTTTT


SNP Information

Context             (SEQ ID NO:62872):
CCAAACCTCATGTATAACAATGTAAAAGTGTAAATTAGCCACCAGATTTAATTATAAAAATGAACTTAGCAGGAAAAAAACTCTTTGTGTTTATAGTTCT
W
TAGCATATATACTTCTGTTAATGACTTTTCCTTAGAAAATTAGACATGCTGATATATTTGCAGCTGCTCATATCAGCATATACATTTAGAATAGTAATAG
Celera SNP ID:            hCV9583671
SNP Position Genomic:     58268
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62873):
TCTATTTCCTAATTCCCAGAATTTGTGAATATGTTAGGTTGCATGGCAAAGGGTAACATTGCTAAGCAGCTGACCTTAAACTAGGGAGGTTATCCTGGAT
Y
ATGTAGGTGGGCCAAATATTAACACAGTGGTTCTTAAAAGTAGAGGAGAAGAGTAGAAGAAAAGAGTCAGAGAAAAAGGTCTGAACATAGAAACAACATC
Celera SNP ID:            hCV2378152
SNP Position Genomic:     36943
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62874):
TTTATATACATAGAAACACATGTATGCATAAGTATATGTGTACACACACACACACACACACACACACACACACACACATATATACATACATACAAACAGC
Y
TGCTAAGTATGAGGCACGCATTACCATTACTATTAGCTGCCTTTCAGAATTACCTGTTTTCTATTGATATCATAACTACCTTTCCTCAATTGCTTTATCT
Celera SNP ID:            hCV16120240
SNP Position Genomic:     25604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62875):
AAGGTTACATCATGATTTATGTATCTGTTTGCCCCTATTAAATTATAAATTACTTTAAATTAGGGACCAATTATTAATTCATAGCAAAATGCACAAGGTC
K
AACACATATTAAATGTTAAGTAAATCTGTGTTTGTTGAAAATTACACAACTAATAAGGAGCACAATGGGGCTCAACTTGGAACTTTACCTGAATTCAAAA
Celera SNP ID:            hCV9583672
SNP Position Genomic:     59179
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62876):
GAAAGCATGTTCATATAAATATACTATTAAAAAAGAAGTATTAATAACTCTGAGATGTTATTTGCTAGTTCATTAAAATCAGGCATTATATTTAGGCTGA
Y
CTTTGTCAGTGAGCAGTCTTTGAATGTCAGCATTAATGGGAACAACTTGATAACCCTGTGGAGTTATATTGTTTACTTGATGACAAGAGTAGCATATAAG
Celera SNP ID:            hCV2378153
SNP Position Genomic:     36710
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;(C,-|T,-)   Caucasian(C,42|T,42)   African-American(C,39|T,43)   Asians(T,25|C,55)   total(C,136|T,110)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62877):
TGCTTAATGCATTTATATACATAGAAACACATGTATGCATAAGTATATGTGTACACACACACACACACACACACACACACACACACACATATATACATAC
R
TACAAACAGCCTGCTAAGTATGAGGCACGCATTACCATTACTATTAGCTGCCTTTCAGAATTACCTGTTTTCTATTGATATCATAACTACCTTTCCTCAA
Celera SNP ID:            hCV16120241
SNP Position Genomic:     25593
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62878):
AATATATAAAGTGCTTAATGCATTTATATACATAGAAACACATGTATGCATAAGTATATGTGTACACACACACACACACACACACACACACACACACACA
Y
ATATACATACATACAAACAGCCTGCTAAGTATGAGGCACGCATTACCATTACTATTAGCTGCCTTTCAGAATTACCTGTTTTCTATTGATATCATAACTA
Celera SNP ID:            hCV16120242
SNP Position Genomic:     25582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62879):
TCTTAAACTCTGCGAGCCTGGGTTTTCTCTTCTACAAGAACTCTTGTAGAATTTAAATTAAAAAATATATAAAGTGCTTAATGCATTTATATACATAGAA
R
CACATGTATGCATAAGTATATGTGTACACACACACACACACACACACACACACACACACACATATATACATACATACAAACAGCCTGCTAAGTATGAGGC
Celera SNP ID:            hCV16120246
SNP Position Genomic:     25519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62880):
GATCCCAAAAAACTGTTGCCATGAACTCTGCTCTGTTTTTTGTTTGTTTGTTGTTTTTTGTTTGTTTGTTGTTTTTTAAGAGACAAGGTCTTTGTGTCAC
Y
GAGGCTGGAGGGCAGTGGCGCAATCATAGCTCACTGCAGCCTGGAACTCAAGTGATCCTCTTGTTTCAGCCCCCTGAGTAGCTGAGACTGTAGGCCTGTG
Celera SNP ID:            hCV16120247
SNP Position Genomic:     23824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62881):
CATGCAAATTGCCCTTGTTTGATGAGAGGAATGAGCAGGAGCATTGTCATGGTGGAGAAGGACTCTTTGGTGAAGCTTTCCATGGGAGTTTTTCTGCTAA
R
GTTTTGGCTAACTTTCCCAAAACACTCTAATAATCAGATGTTGTTGTTCCTTGGCCCTCCAGAGAGTCAATAAACAAAATGCCTGAAGATCCCAAAAAAC
Celera SNP ID:            hCV16120248
SNP Position Genomic:     23636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62882):
GTTTCCATGAACATTTACATACACAGTTTGTATGGCTATGCTTTCATTTCTCTTCGGTGTATATACCTAGAGTTTATAATTGTCGTATGTTGTTGCTGCT
R
CTTCTGTTTGTTTAGTGATTTTCCTGATCTGATTCTGTAAAATCTGTATTCTTTTTTATATATGGCTACTGAAATCTCTCTTTGGTTTGCTTAATGATCA
Celera SNP ID:            hCV9583679
SNP Position Genomic:     60826
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62883):
AATGTTACTTGTCATTTAGTATTATTATTAAGGACTATTGTGTTACAACATTATACAGTTGCTCAAGCAAACAGCGCCTTTGACATTTGGACATGTACAC
R
CAAAGTTATATAACTTAACCCTATGTCCTTTCATATTGTGTTAAAAGTTTTTGCTTGTCTTTTTAAGTTCATATACTGTAATCTGAATGTAGAGTAGAAT
Celera SNP ID:            hCV28035317
SNP Position Genomic:     8008
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62884):
GGGATACTAACCTTCAAAGAACAGGCAGAGGACATAAAGGAAGCCATCTGAGAGTTAGTAGGAGAAACAGGAGAGAGAAATACCACCAAAAAGAGGTATG
R
TGTCTGATGAAATAGAGGTTATAGTAATCTGAGAACTGAAAAGTATCCATGGCTTGTTAATTAATGGGTATTTTGTGACTGTTTGGTATCCGTAGAGTGG
Celera SNP ID:            hCV2821530
SNP Position Genomic:     33375
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62885):
CATAAGGGTCTACCTTGGGCCTAGGTTTGAAACCTGGGGATACTAACCTTCAAAGAACAGGCAGAGGACATAAAGGAAGCCATCTGAGAGTTAGTAGGAG
R
AACAGGAGAGAGAAATACCACCAAAAAGAGGTATGGTGTCTGATGAAATAGAGGTTATAGTAATCTGAGAACTGAAAAGTATCCATGGCTTGTTAATTAA
Celera SNP ID:            hCV2821531
SNP Position Genomic:     33339
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62886):
CAGTCCCAGGAAATCACTAATCTGTTTTCTGCCTGTATAAATTTGCTTTTTCTAGGCTCTTCTTCATAAACGTGATCGTTCAATATGTCATCTTTTGTGT
M
GAGCTTCTTTAACAATGCTTTTGAGATTCATGCATGACATAGCATGTGCCATTAATTTGTTCCTTTTTATAGTTGAATAATATTCCATTGTGTGGATATG
Celera SNP ID:            hCV8992289
SNP Position Genomic:     9014
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,10)   total(A,3|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62887):
TTAATCTTGAAATATGAATTTAAAGGAGGGACAGAGGTCACTGGCATATGGGTGATAATTAAAACTATGGGAGATGAATGACATAACATAAGGGTCTACC
K
TGGGCCTAGGTTTGAAACCTGGGGATACTAACCTTCAAAGAACAGGCAGAGGACATAAAGGAAGCCATCTGAGAGTTAGTAGGAGAAACAGGAGAGAGAA
Celera SNP ID:            hCV2821532
SNP Position Genomic:     33253
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62888):
ATGAAATGGAAGTAATAGTTAAATAAAAGTGAATGTACACACATTCACAGTAAATTGATTTTACTTTTGAAATTATGCAAATTCTAAACAAGTGTTAAAT
W
TTGGTTCCAAATAATGAAATTATGTTTCTTCTCAAATACTAGATTAGTGATTGAATTAAAATCAGTTGAATTATTCTCACAATTAGGTAAATACGTGCTA
Celera SNP ID:            hCV1119975
SNP Position Genomic:     13815
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62889):
AGTGAACCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTGTCATGCTTGGCCCTTGAATTTAGTTTTGAATGTGTTGAACTTGAGTT
R
TTTCTGGGATATTAATCTTGAAATATGAATTTAAAGGAGGGACAGAGGTCACTGGCATATGGGTGATAATTAAAACTATGGGAGATGAATGACATAACAT
Celera SNP ID:            hCV2821533
SNP Position Genomic:     33141
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62890):
GAAACACAGACACACAGACACACACACACACACACACACACACACACACACACACTCTTAATTTTTCATGATGGGAATTGTTTAACATTTACAAAAGTAA
M
GCGGTGAAACCCCATGCATGTCTTATTCACCTTCAACAGTAGTCAATTCATTGTTTTATCTACGCCAGATTATTTTGAAGCAAATCTCAACATTATCTTT
Celera SNP ID:            hCV16153674
SNP Position Genomic:     50654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62891):
GTATAGCTACTTACTTGAGTAGGCCTTCATTAAATCGTTGTTCAACAGATGAATGTTTCTAATTGCTCCTGTCAAAGTAGGTATTGATCTGGATATTTAC
R
TATATACATGATAAATTATGGCAAGATTATTTATTATTGGTGTTTTTATAATTTTATTTCTCATCTACTCTTTATGAATATGGTATATCTGACAGTCTTC
Celera SNP ID:            hCV2821534
SNP Position Genomic:     31466
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62892):
AAATTTAGGAAAAACAAAATGAACCACTAATGGGTGATAATTTTGTAGAGCTCTTTAACTTTTTAATCCAAAAAATTGTGTGGACTATAAATTAAAATTT
R
TTTCCATCAACTCATATATGGTTACTCAGCAAAATTGGAAATTTGAACTAGATTCCAAACCTTTTGAGTTTTAAAATATTCTAAATAGTGTATTATTTAG
Celera SNP ID:            hCV15926672
SNP Position Genomic:     30830
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62893):
GGCAACAGAGTGAGACCCTGCCTCAACACAAAACAAAAAACTCTTCTTGTCCCTTCTTAAAACAAATTACCTATTTGTAAACTGCTGATTTCTTTGAGTC
R
TTGTTCCCATAAACTTTTCATAAGGCCTCAATGATTTCACCATACTTCCATTAATGCTTCGATATAAATTTGATGTTTGTTTTTGCTTTAACATTAGCAG
Celera SNP ID:            hCV2821537
SNP Position Genomic:     24863
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62894):
TCTTTTTAAACAGCCTTTTATATGATTAAAGATAATTTATAAAATCTTGCTATATGTCTCTTACTCTGAATGTTAGTATGTTATTAATATACTTTGTTTT
W
TCAGAATCATTTTTCTTCAGATTATATATACTATTAAAACAAGAACAGTGTGTTCTTATTCAACATCTCAGTTTCTAAATTATAAATGAATTATAAGGTA
Celera SNP ID:            hCV15926745
SNP Position Genomic:     15679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62895):
GTCAAGATACTTTTGTAAGCAATGATAGCAGCCATTTAGTCCATTCCTAAAGAATTTACAGTCCTCAGAGTTTAACCATGTCAGTGCAGTCTTTTTTACA
Y
GAGTAACTAAAAGAAAATAGGTTTGTTTTAAAGGTGTGTGTGTGTTTTTTTTTAATATTAGGAAACAAAGTCAGAAGGAGCCACATCAGAACTGTAAGTT
Celera SNP ID:            hCV2821538
SNP Position Genomic:     23407
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62896):
TAGCAAGGTATAGCTTTGAATCACAGCTCCAAAATTGATTGCTTATATGCAATTTGGTTAAGTGTCTTAAACTCTGCGAGCCTGGGTTTTCTCTTCTACA
R
GAACTCTTGTAGAATTTAAATTAAAAAATATATAAAGTGCTTAATGCATTTATATACATAGAAACACATGTATGCATAAGTATATGTGTACACACACACA
Celera SNP ID:            hCV15926674
SNP Position Genomic:     25455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62897):
ATTTTATTGGCTGGGCACGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCAGGTGAATCACATGAGAGGCCAGGCATTCAAAACCAGCC
R
GCCAAGATGGCAAAACCCTGTCTCTACTAAAAATACAAAAAATGAGCTGGGCATGGTGGTGCATGTCTGTAATCCCAGCTACTTCAGAGGCTGAGGCAGG
Celera SNP ID:            hCV2821539
SNP Position Genomic:     19995
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62898):
AAAAAGACTAGGAAGTGAGAGATTAAAGAGAAAGAGATAGAAAGGTACAGGCTATTGTTGCCTATTTGTGGTCTATACCTTGTCTTTAATCTAAAAACCT
R
GAAACTACTTTCTCTATTTCTCTTCCTTCTCTAAATCATGAAACTTATTTATTACTATAGCTCAGCTAGATTTTTGGTTCAATAGATTATTTTTTCCATG
Celera SNP ID:            hCV16072689
SNP Position Genomic:     53859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62899):
AGTTTAGGGCACAATGGAAGGAAGCATGAATAAATGATTATGTTGATATGATAGCACATTTTTTTTCCTTTTTCTTTTCTTTAGTTGGAGAACATCAATT
R
ACAGGCCATAAAGTGGCAGTTAAAATCTTAAATAGACAGAAGATTCGCAGTTTAGATGTTGTTGGAAAAATAAAACGAGAAATTCAAAATCTAAAACTCT
Celera SNP ID:            hCV27855892
SNP Position Genomic:     35079
SNP Source:               Applera
Population(Allele,Count): african american(A,30)   caucasian(A,28|G,2)   total(A,58|G,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:62900):
AAATTCATGGAAAAATGGAATTAAAAGATAAAAATAAAAAATATAAACATTTTTAATTTTTAATTTTAATTTCAATTTTTTAATTAAATAGAGATGATTT
W
AAAAAAAAATTAAATACAGACGAGGTCTCACTATGTTGCCTAGGCTCGTCTCAAACTCCTGAGCTCATGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCT
Celera SNP ID:            hCV16120252
SNP Position Genomic:     23139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62901):
GCAACGTGGTAGGCACTGTTCTAGGCAATGAGGATACAGCAAGGAAAAAACAGATCTTTTTGTTTAGCTTTCTAGTAGGAGAAGGCAGACAGTAATCAGA
W
TATATATGTAAAAGGTATGTTTAATTTTATTGAGAAAAACGAATCAGGGAAGGGAAGATAGAGAGTCTTGTGAGGTTGGCAGTTTTCAATAAGGTGGTCA
Celera SNP ID:            hCV28013545
SNP Position Genomic:     7639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62902):
TGTTAGGCAAGTGTGTCTTACATATAGTCATTTGTCGTTCAAAATAATTTAGAAAGTGCCTTCTTAAGATGAAAGTGTCTTCTTAAGATGAAAGATTTAT
R
AGAACTTGAATTTAGGAAGAATCTCTTTTTTTCTGCAGTTTAACTTTTGATTAAAAAGGAAACATCAGATTATATTTGGGACTATATATCTTTGAGAAAA
Celera SNP ID:            hCV16120253
SNP Position Genomic:     22919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62903):
TATCTTTTTTGTTGTTACTGATTCCATCAGAAGTTTTCTCCCATGTAGTAAAGATTGATACATTTGTTAGGCAAGTGTGTCTTACATATAGTCATTTGTC
R
TTCAAAATAATTTAGAAAGTGCCTTCTTAAGATGAAAGTGTCTTCTTAAGATGAAAGATTTATGAGAACTTGAATTTAGGAAGAATCTCTTTTTTTCTGC
Celera SNP ID:            hCV16120254
SNP Position Genomic:     22855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62904):
GGCTGCCAATTCCAACTTGTCTTTTAAGTGCAATTACATTTGACCCTTGAACGGTATGGGTTTGAACCACATTGGTCTACTTATGCTTGGGTTTTATGCC
R
CCTTTGCTATCCTGAGACAGCAAGACCAACCCCTCCTCTTCCTCTTCCTCCTCAGTCTACTCAATATGAAGATGACAAGGATAAAGACCTTGATGGTGAT
Celera SNP ID:            hCV16120182
SNP Position Genomic:     40477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62905):
ATCTCCCTTTCCCTAGGCTGCCAATTCCAACTTGTCTTTTAAGTGCAATTACATTTGACCCTTGAACGGTATGGGTTTGAACCACATTGGTCTACTTATG
M
TTGGGTTTTATGCCGCCTTTGCTATCCTGAGACAGCAAGACCAACCCCTCCTCTTCCTCTTCCTCCTCAGTCTACTCAATATGAAGATGACAAGGATAAA
Celera SNP ID:            hCV16120183
SNP Position Genomic:     40462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62906):
AAAAAAAGAAAAGAAAAGAAAACAACTTATTTAGGTATATTTTATATATGAAATTCATCCATTCTAAGTGTACAATTCAGTGATTTTTACTAATTTTGCC
R
AATGTTGCAACCATCATTATAGATAGGTTTTAGGACATTTGAGGACACCACAGTAAGATTCTTTATACCCATTCACAGTTAATCTCATTTCTACCCTCAG
Celera SNP ID:            hCV8992290
SNP Position Genomic:     8816
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62907):
AAGGTTGCTGACCACCCCATGAGGCCCAACTGGCTGATACATGTGTGATCTCTTGGCTCGTCACAGCTTAGGTATATAGTGTCCTCCAAATGTTCTTAAC
K
TTTTTATTGTACTCCATATACAAGAGTATACTGGCATCTTTTACGTAAATTCTCAATAAATTTTCACAAACTGAACACATCCACGTAACCACCACTTTGA
Celera SNP ID:            hCV16120258
SNP Position Genomic:     21892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62908):
CCAGTTCTACCAGGTAATAATGCCTAAACAATCTCGAAGGAGTAGTTTGTGTTAGATGAAAATGGTTTGGTATTCTAGGATAACAATAGTAACATCAAGC
R
CAAAGGCCCAGAAGTGTGAGAAAATAAGGCTTAGGAGAGCAGTTCTCAGACTTTTTGATTTTAAAATCTTGTAACTCTTAAAAATTATTGAGGACCTCAA
Celera SNP ID:            hCV9583689
SNP Position Genomic:     63818
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62909):
TGTCATATTTATCAGTGTTTTCTTGCCTTCATTTCTATATTTACTTTCAATCATTTTATTTTTGTTTGACTGTCTCATCCTGATTATTTAATTATTTGCT
R
TTTTCTGAAGGAATTATAGAAGATTGTCAGAGTTGGTCAGAAAGTAATTGGCAGAGGTGAATTTGCAGTTTAAAACTTTTGGCTTCCAGCCTTGAGATTA
Celera SNP ID:            hCV11739239
SNP Position Genomic:     38756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62910):
ATTAATATACTTTGTTTTTTCAGAATCATTTTTCTTCAGATTATATATACTATTAAAACAAGAACAGTGTGTTCTTATTCAACATCTCAGTTTCTAAATT
R
TAAATGAATTATAAGGTAAGTTAAACTGACTGTCATAAAACAATAGATCTAACATTTTTAAATATACCATACTTTTTTTTTTCTAAATGCTTGTTTTACT
Celera SNP ID:            hCV2821541
SNP Position Genomic:     15761
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,8)   total(G,5|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62911):
TACTGCTTTGTAATAATAATACCACCCCATTTATTCTTCTGAGATTCCTGTGGTTTCCTAAATGATAGAGAAAATATTTTGTAGAGGAAGTATTAATAAT
K
TTTGAAGCCAAGCAGATAATTTAATTTGACCTAGCAGGAAGATCTAATCTCAAATCCTTTAAGAAATAATGAGTAAGTGGCTGGCACAAGACCCTTAAAG
Celera SNP ID:            hCV2821542
SNP Position Genomic:     15098
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,10)   total(G,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62912):
ACCATGGCTTTCTAGAATACCATATTTATTGTTATTTAAGTTGTTTGAGATGCAATACTTTTGAATCCATACACAATACTGTAACAGGTACCTGCTAATA
Y
AATGTTACAACCACAGGTGTTTTTTTTCACTTGTCTTTTTGAGTTATAATCTTCACTATGTTGTAACTATTTAGTATACTAATTTTTAAAGTAATCTTTA
Celera SNP ID:            hCV15926684
SNP Position Genomic:     22570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62913):
GTGATCTCTTGGCTCGTCACAGCTTAGGTATATAGTGTCCTCCAAATGTTCTTAACGTTTTTATTGTACTCCATATACAAGAGTATACTGGCATCTTTTA
Y
GTAAATTCTCAATAAATTTTCACAAACTGAACACATCCACGTAACCACCACTTTGATAAAGACATGGAAAATGACCAGTATCCCAGAAGTCCCCTTGTGT
Celera SNP ID:            hCV15926685
SNP Position Genomic:     21936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62914):
GGAAATTTGGAGAAGAGCAATGAGATTGTTTTGTTTCACCATGGGCAGAGGTGAAAGGAGCGTTGTGTTGTTTTGGCAGGAGTCTGGGGATGGTAGGGGT
Y
GGAACATATGTGCATTACATAACGCTGCTGATCACCAGAGTTACGGCTTTTGACATGAATGAGTTAAGGTTGCTGACCACCCCATGAGGCCCAACTGGCT
Celera SNP ID:            hCV15926686
SNP Position Genomic:     21726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62915):
AGCTGGATTTTGAATGGAAGGTAGGAAATTATAATGTAATAAGATCATTTGTAGAAGCCATTTTTCTATATTATAAGCTGCTCTGAGCTCCTGAGTTGAG
Y
ATTAAGCCCAACTTTTTCTAGTAATATGCTATGCACATTAAAAACAAAACAAATAACCTCTATAAGGATGAAAAGTGGTTGATACTGGGAACCAACATAT
Celera SNP ID:            hCV9583690
SNP Position Genomic:     65243
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,6)      total(C,1|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)   JBIC-allele(C,344|T,1143)   total(C,344|T,1143) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62916):
AGGAAGATACAGGATCAATGGAAAAGTTTTGGAGGGTATATGATTTGGATAGGCTTAAGAGAAATAGCCATTAGAAAAGGAAAAAGGTTGAATATGAGGA
S
AGTGTAGAAAAGATGGGTTCAAGGCCAAAGTTGACGAGACTGGCTTTGAATAGGAGGAGGGATGTGGACAGAAGTAAGCCTTTAAGATAGAGGAAATTGG
Celera SNP ID:            hCV16120264
SNP Position Genomic:     33693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62917):
TGGAGTACTCTGACTGAGGGTATTACTCTGTGGCAGTTATGCTGGCTCTGAAGTCAGACAGCCCAGGTCAGATGTTATGCCATCACTTACTGTGTGACCT
Y
GGGTGACTTATTTAGCTCCTCTGTGCCTCAGGTTTCTCATCTATACACTGGAGGGTAATAATACTTCATAGAGTTGAGAGAGCAGGGAAGCTAGCACTTA
Celera SNP ID:            hCV16120265
SNP Position Genomic:     32476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62918):
TGCCGCAGCCTCCCAAAGTGCTGAGATTACAGGCTTGAGCCACTGCGCCCAGGCCCGAAGACTTATTTTTGATGTCATATTTATCAGTGTTTTCTTGCCT
Y
CATTTCTATATTTACTTTCAATCATTTTATTTTTGTTTGACTGTCTCATCCTGATTATTTAATTATTTGCTATTTTCTGAAGGAATTATAGAAGATTGTC
Celera SNP ID:            hCV11739240
SNP Position Genomic:     38684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62919):
GCAGTACTTGATTATAAGGTTATCATCCAGGACCTATGTATTAGATGGTCCAGAGTATGTATATAGAGGTTTTTAAAGATTGTCATAAGAATTAAAATTC
Y
ACCCATGAGCTTGGTGACTCACCTCTCCTATCCTTTGTTTCTTTAACTTTAAAATGGGACACCTCATTTGAGGATTAAATGTGTTGGCACTGGTATAATG
Celera SNP ID:            hCV11739241
SNP Position Genomic:     37766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62920):
GATCTTAAAACAAAAAACAAACAAACAAAAAAACACTCATGTATTTTTGCTACAGAAGAAGCTTATTGACATCGTCTGTAACAGTGTTAGTGATTTAAAC
R
GAGAGAGCAACCTTACCCTTTCAGTGGTTTTCTTTTGTGTAGCCTTGGACTGTCAGGAATAGTTTCCTTATTGCAAAAGTGGGACTCTAGAATTAGCAAG
Celera SNP ID:            hCV16120194
SNP Position Genomic:     38994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62921):
GCTAAATCTCTTTGCTCTTCCCCACTGAGTGTCCACTTCCTATGAGAAGAGAAAGCTGAAATAGCCAGACTAAAAGTGTCATATGCTAGAATGAAAGTGG
R
GAAGGGAAAGATCTTTCCATATTTGCCTTATACCTTGACCTCATCACTTTTACAATGCCAACCCTGAAAGACTTTGAGGAAATTTTACCCGTTTGGGTAT
Celera SNP ID:            hCV16120195
SNP Position Genomic:     38133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62922):
GGCTGGTCTCAAACTCCTGACCTCAGGTAATCCACCTGCCTTGGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCCCAGATATTCTTAATGCAGTTT
Y
TTTTGTGCTTGATAGGTTGAAGAGATGGAAGCCAGGCGGCTCTTTCAGCAGATTCTGTCTGCTGTGGATTACTGTCATAGGCATATGGTTGTTCATCGAG
Celera SNP ID:            hCV27920678
SNP Position Genomic:     53013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62923):
GTCTCTTGCTTCCTTGTGAGAACCATCCTTTAGAGAACTTTAAAGGATTTTCAGGGAAAGGAAATTTGGAGAAGAGCAATGAGATTGTTTTGTTTCACCA
Y
GGGCAGAGGTGAAAGGAGCGTTGTGTTGTTTTGGCAGGAGTCTGGGGATGGTAGGGGTTGGAACATATGTGCATTACATAACGCTGCTGATCACCAGAGT
Celera SNP ID:            hCV15926696
SNP Position Genomic:     21667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62924):
AGTTCTGTGTCTTGTATATAAAGACAAATGTGTCAAAACTGAAAAGCATCCAGAAAGTGGCAACCGAAATCGTCAAGAGGCAGGAGTGGCTTAAAAGCTT
K
ATACCCTTCAATGTGGAATGATCCTCAGGGATATCATTAGGAAAGTCTTAGAGTTGGAAGGGGAATTAGCTTTGATCTACTCCAACCTGTTATTTAATGC
Celera SNP ID:            hCV27970077
SNP Position Genomic:     29681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62925):
GAATTATCTTTTAGATGATTAATAGCAGATTAGATTCCATTGAAGAGAGGATTAGTGAATTAGATGATGGGTCAGAAGAAAATACCCAGACTGAAAGATA
R
ACAAAAGGATGAAAAGAAAGTATAAGACACATATGAGAACACAGTGAAAAGTCTAATACATGTATTATTGGAAGCTATATAGAAAAAGTTAATTGCAAAC
Celera SNP ID:            hCV27970078
SNP Position Genomic:     16900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62926):
ATACGGGCTTCCCAACTTCATGTACCCCTGTGTGATGAGGAGGCATGGAAGTAGCAGCTGAATATTTTAAGGACTTCTGATGAAGATGTTTTTGGTTATG
S
CATCCTGACGTTCTGTGTTTCTGTCCTAAGTTCTCATAAAAAGCTAAGTAAAACTGATGTAACATTACCACCTTTTGTATCCTGAGGTATGAATGTCATC
Celera SNP ID:            hCV16072631
SNP Position Genomic:     17484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62927):
CTGATTTATTATAGCCATTCTAGTGGGTGCGAAATAGTATCTCATTGAGGCATTAATTTTGTGTTTCCCTAAGGACTAATGATGTTGAACATTGTCTCAC
R
TAATTACTAGTCATTTATGTATTTTCATTGATGGAATGTCTGTTTATATCTCTTGCTTATTTTCTAATTGGGTTACTTGTCATCTTATAAGTTGAGTTGT
Celera SNP ID:            hCV16228631
SNP Position Genomic:     9509
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62928):
TTCCAACATAATTCTAGCTTGCTTAATTATATTTAGCCTAATTATGAAATTAAAACTCTTGTCAAATAGATGTCTCAGATTTTTTTTTTTTTTTTTTTTT
T
GAGACAGACTCTTGCTCTGTTGCCCAGGCTGGAGCGCAGTGGCATGATCTCAGCTCACTGCAACCTCTGCCTCCTGGTACAAGCAATTCTCGTGTCCCAC
Celera SNP ID:            hCV11302169
SNP Position Genomic:     52721
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62929):
AGTAGAGACGGTGTTTCTCCATGTTGGTCAGGCCGGTCTCGAACTCCCGACCTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGC
R
TGAGCCACGGCGCCCAGCATCATTTTTATCTTTTCAATTCATTTTCTATACCACAAACAAAATGATCTTTACAGAATGATAACTAGGTTATGCTACCCTG
Celera SNP ID:            hCV26467800
SNP Position Genomic:     63050
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62930):
ATGTGCCACCACGCCCGGCTAATTTTGTATTTTTAGTAGAGACGGTGTTTCTCCATGTTGGTCAGGCCGGTCTCGAACTCCCGACCTCAGGTGATCCGCC
Y
GCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACGGCGCCCAGCATCATTTTTATCTTTTCAATTCATTTTCTATACCACAAACAAAATGAT
Celera SNP ID:            hCV26467801
SNP Position Genomic:     63016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62931):
GCCTCAGCCTCCCTAGTAGCTGGGATTATAGGCATGTGCCACCACGCCCGGCTAATTTTGTATTTTTAGTAGAGACGGTGTTTCTCCATGTTGGTCAGGC
Y
GGTCTCGAACTCCCGACCTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACGGCGCCCAGCATCATTTTTATCTTT
Celera SNP ID:            hCV26467802
SNP Position Genomic:     62983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62932):
CCGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGCGACCATCCTGGCTAACACGGTGAAACCCC
R
TCTCTACTAAAAAAATACAACAAAAAATTAGCTGGGCATGGTGGCAGGTGCTTGTAGTCCCAGCTACTCGGGAGGCTGAGGCCGGAGAATGGCGTGAACC
Celera SNP ID:            hCV26467803
SNP Position Genomic:     62404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62933):
TTTTTTTTTTTTTAAGGCAGGGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATCACAGCTCACTGTAGGTAGCCTCAACCTCCCAAGCTGAG
K
TGTTCCTCCCACCCCAGGCTCCTGAGTAGCTGGGACTATAGGCACAAGCCACCACACCCAGCTAATTTTTTTTAATTTTTTTATTTTTAGTAGAAATGGA
Celera SNP ID:            hCV26467804
SNP Position Genomic:     57802
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62934):
TGCTGATGCGCCTATGAATATGACCTTTGTATATCCCACACCTGTGTATAGTAGCAAGATGATTCACTGCATCCTGCCTATGACTTATCAAGGCATGTTT
Y
TTAGAGGTTTTTTCTTCTTACCTAAGATTTCATCCGTGTTTGTTTACAAACATGTTCTTTTGACATCTTTCCAGAACTCTTTCCCCTTTTCATCATTAGC
Celera SNP ID:            hCV26467805
SNP Position Genomic:     57573
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62935):
ACATATGGTTAAAGACATAAAGCATAAAAAGTTTTGCTAAGTTTTTGAATTCAATAGCTGCTAGTCAGCTTACTGTGAAGGCTTTTTTGTCACTTGAGAA
A
GTTTGGAAAGTGCCATTGCTGATGCGCCTATGAATATGACCTTTGTATATCCCACACCTGTGTATAGTAGCAAGATGATTCACTGCATCCTGCCTATGAC
Celera SNP ID:            hCV26467806
SNP Position Genomic:     57456
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,12)   total(A,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62936):
GCATTTTCCTTATTTAATTTAATATTATCTTCATGATCAGTGTCTAAAGTAGGCTTACTTTATAGACAAGGAAACTGCATTATCTAAAAAGTAATAGCAG
Y
TTATCCAAGGCCACACAGCTAGTAAGTCACAGAGCTGGTAGTTGAGGTCAAACCTGATTCCAAATGCCATGCTGTTAATGCTCCAGCATTCCAGTTTTTC
Celera SNP ID:            hCV9583635
SNP Position Genomic:     36163
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   SC_12_T(C,10|T,13)   SC_12_C(C,10|T,13)   SC_12_TT(T,6|C,17)   SC_95_C(C,89|T,92)   total(C,126|T,124)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62937):
CCAGAGCAGGAATTAGCAACTTATAAACTAATTCCAGTCCTCTTTCATTATTCCAAATGGTTTTCACTTAACTGAAACAGTTAGTCTCTGACTTCAACTC
Y
GTATTATTCATGACTTTGTTCTAGTTACTGGGTAACATCTAAGCTAAATCTCTTTGCTCTTCCCCACTGAGTGTCCACTTCCTATGAGAAGAGAAAGCTG
Celera SNP ID:            hCV16120204
SNP Position Genomic:     37990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(T,627|C,856)   total(C,856|T,627) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62938):
GATACAGGATAAATACTGTCTACACAGTACTAATTAAGTACTTTAATGTTTTAAATATCTCTCTCTCTATATATATGATATATTATATATATATATATAT
A
TATTTTTTGTTTTGAGATAGAGTCTCGCTCTGTCACCTAGGCTAGAGTGCAGTGGCACAATCTCAGCTCACTGTACCACCTCCTGGGCTCAGATGATCCT
Celera SNP ID:            hCV26467807
SNP Position Genomic:     55871
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62939):
ATGTGATACAGGATAAATACTGTCTACACAGTACTAATTAAGTACTTTAATGTTTTAAATATCTCTCTCTCTATATATATGATATATTATATATATATAT
R
TATATATTTTTTGTTTTGAGATAGAGTCTCGCTCTGTCACCTAGGCTAGAGTGCAGTGGCACAATCTCAGCTCACTGTACCACCTCCTGGGCTCAGATGA
Celera SNP ID:            hCV26467808
SNP Position Genomic:     55867
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62940):
ATGTGTTGGCACTGGTATAATGCCTAGTGTTTGATAAGCATTGGCCCAGAGCAGGAATTAGCAACTTATAAACTAATTCCAGTCCTCTTTCATTATTCCA
R
ATGGTTTTCACTTAACTGAAACAGTTAGTCTCTGACTTCAACTCCGTATTATTCATGACTTTGTTCTAGTTACTGGGTAACATCTAAGCTAAATCTCTTT
Celera SNP ID:            hCV16120205
SNP Position Genomic:     37945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62941):
TCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGA
Y
GGGGTTTCACCGTGTTTGGTTTAGCCAGGATGGTCTCAATCTCCTGACCTTGTGATCTGTCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAG
Celera SNP ID:            hCV26467809
SNP Position Genomic:     51024
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62942):
TCCAGGACCTATGTATTAGATGGTCCAGAGTATGTATATAGAGGTTTTTAAAGATTGTCATAAGAATTAAAATTCCACCCATGAGCTTGGTGACTCACCT
Y
TCCTATCCTTTGTTTCTTTAACTTTAAAATGGGACACCTCATTTGAGGATTAAATGTGTTGGCACTGGTATAATGCCTAGTGTTTGATAAGCATTGGCCC
Celera SNP ID:            hCV16120206
SNP Position Genomic:     37791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62943):
AGGTTATCATCCAGGACCTATGTATTAGATGGTCCAGAGTATGTATATAGAGGTTTTTAAAGATTGTCATAAGAATTAAAATTCCACCCATGAGCTTGGT
R
ACTCACCTCTCCTATCCTTTGTTTCTTTAACTTTAAAATGGGACACCTCATTTGAGGATTAAATGTGTTGGCACTGGTATAATGCCTAGTGTTTGATAAG
Celera SNP ID:            hCV16120139
SNP Position Genomic:     37782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62944):
TGAGTGAGAACATGCGGTGTTTGGTTTTCTGTCCTTGTGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATATCCCTACAAAGGACATGAACTC
M
TCCTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCACTGATGGACATTTGGGTTGGTTACAAGTCTTCG
Celera SNP ID:            hCV29130159
SNP Position Genomic:     41368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62945):
TAAAAATACAAAAATTAGCCGGGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTCGGGAGGTTGAGGCAGGAGAATTTCTTGAACCCAGGAGGTGGGGT
R
CGCAGTGAGCCGAGAGCATGGCCGCTGCACTCCAGCCTGAGTGGCAGAGCAAGACTCTGTCTCAAACAAAAGAAAAAAAGTAACTAATTTTAACGTCTCC
Celera SNP ID:            hCV11302171
SNP Position Genomic:     50329
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62946):
GAGGGGTGGTGGGGAAATAGACAATAAATCCCTTATTATATGTTATATGTTAGACAGTGAAGAGGTGAGGGGATATGCCATGTAGATATCTGAAGGGGGT
R
AATGTTACACATAGAGGGAAGAGCAAATACAAAGGAAAGTAGAAATTCCTGCAGGTCAGAGATCAAGGGAGCAGAATGATCTAGGAAGATTAGAGTGAGA
Celera SNP ID:            hCV11302175
SNP Position Genomic:     44394
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62947):
AAAAAGGCAACAACAACAAAATCCTTGCTATTATAGAGATTATATTAGTGTGTGGTGGAGGGGTGGTGGGGAAATAGACAATAAATCCCTTATTATATGT
Y
ATATGTTAGACAGTGAAGAGGTGAGGGGATATGCCATGTAGATATCTGAAGGGGGTAAATGTTACACATAGAGGGAAGAGCAAATACAAAGGAAAGTAGA
Celera SNP ID:            hCV11302176
SNP Position Genomic:     44337
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62948):
TGGGAAAAAAATTTATTTTATCAAATAAAGCTAATTTTTTTTCTTAGTTTTTAATGTGCCCAGCTTTGGATGCCTAGAAACACAGACACACAGACACACA
S
ACACACACACACACACACACACACACACACTCTTAATTTTTCATGATGGGAATTGTTTAACATTTACAAAAGTAACGCGGTGAAACCCCATGCATGTCTT
Celera SNP ID:            hCV26467810
SNP Position Genomic:     50578
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62949):
AGTTGTAGTTTTTGGGAAAAAAATTTATTTTATCAAATAAAGCTAATTTTTTTTCTTAGTTTTTAATGTGCCCAGCTTTGGATGCCTAGAAACACAGACA
S
ACAGACACACACACACACACACACACACACACACACACACACTCTTAATTTTTCATGATGGGAATTGTTTAACATTTACAAAAGTAACGCGGTGAAACCC
Celera SNP ID:            hCV26467811
SNP Position Genomic:     50566
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62950):
AGTAGCTGGGATTACAGGCATGTGCCACCACGCCTGGCTAATTTTTTATTTTTAGTAGACATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAGACTCT
Y
GACCTCAGGTGATTCACCTGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCACCGCACCTGGCCAAAACTCTTTAGTGGTAGAGTAGATGAA
Celera SNP ID:            hCV26467812
SNP Position Genomic:     47784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62951):
ACAACCTAAATACTCTTTTTTTTTTTTTTTTGAGACAGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCAGCTTACCGCAACCTCC
R
CCTCCCAGGTTCAAGCGATTCTCGTACCTCAGTCTCCCTAGTAGCTGGGATTACAGGCATGTGCCACCACGCCTGGCTAATTTTTTATTTTTAGTAGACA
Celera SNP ID:            hCV26467813
SNP Position Genomic:     47644
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62952):
AGTGGTAGAGCTAGCAATCAAATTCAGGGTTCTCAGACTGCAAAGTCTCTGCTCTATGGACTGTAAAGTCAAAATGCCTAGTATGTTCTGAGTTTCAAAC
Y
TACAAGGATATAATTTTCTATGTCTGCTCATATTTATCAGAATTGAGAAAATAAGATTTAAATGTCTTTCAGTCCATATTTAGAGATAAATAACGTTTTT
Celera SNP ID:            hCV115817
SNP Position Genomic:     12255
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62953):
CTTGGCAATGTGGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTCGTTTTTTCCAATTCTGTGAAGAAAGTTATTGGTAGTTTGATGGGGATGGCATTG
M
ATCTATAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTATCCATGAGCATGGAATGTTCTTCCATTTGTTTGTGTCCTCTTTTATT
Celera SNP ID:            hCV26467814
SNP Position Genomic:     42604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62954):
GCTTACTTTATAGACAAGGAAACTGCATTATCTAAAAAGTAATAGCAGTTTATCCAAGGCCACACAGCTAGTAAGTCACAGAGCTGGTAGTTGAGGTCAA
R
CCTGATTCCAAATGCCATGCTGTTAATGCTCCAGCATTCCAGTTTTTCTTAAAACTGAGAGTTATATAAATTCCTTTTAAAGAAAAAATAAATTTATGGA
Celera SNP ID:            hCV9583642
SNP Position Genomic:     36215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62955):
TATGATATATGCACTTGATTTTTTTTTATTCCCAGAGTAATCCTCTAAGTTTGGTATTATCTCCATTTAACAAATGAAGAAATTGAGAATCAGATACTTT
R
AGTAACTTGTCCAAAGTTCCAGTGCTATTAAGTGGTAGAGCTAGCAATCAAATTCAGGGTTCTCAGACTGCAAAGTCTCTGCTCTATGGACTGTAAAGTC
Celera SNP ID:            hCV115818
SNP Position Genomic:     12124
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62956):
CTTGTTAGTCTGGTAGAGATGATCTTGTCTAATTTTTTTTTTTTTTTTTGAGACAAAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTAGCATGATCTC
R
GCTCACTGCAACCTCCGCCTCCTGTGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACACACCACCACACCCAGCTAATTT
Celera SNP ID:            hCV26467815
SNP Position Genomic:     39443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62957):
ATAATACAAAATTTGAAATTTTTGCTTGAAAGCTTGAATTTTATCATTGGCAACAAATATTGCTGGTTGTTTTCCTTAAAGCGATGGGCTTGCTTTTTTC
R
TTTTTGAGAAAATGTTGTCCAAATGCCAAGTCTTAATAACCATAGTTATTCAAGGGTGGTGGGTAATTAACTTGCTCAGGATCACATAGCTAGTAAGTGG
Celera SNP ID:            hCV25473058
SNP Position Genomic:     64439
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,8)   caucasian(A,19|G,7)   total(A,41|G,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:62958):
GTTTTTTAAAAGTATATGGAAATCTTTGTATTTGTTAATAAAGCCTTATTTAAAATGTTTTAAATTTTGTCCTTCATTAGTCTATTGTATTATCAGGTTG
M
TGAGGGACTGTTTTTGGAAACAGATTATATGGGCTGACAGAGTTTAAAAGTAATGCTTTTTATCTATTTAAAATTTTTCTCTATATTGACTGTTCAGGCT
Celera SNP ID:            hCV115819
SNP Position Genomic:     10998
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62959):
GAGTTCTCTCCTGTCCAAACAATGTTCTAAAGTTGATTATGTTTTTAGTAAGAATATAGAATTCAGTAATCATTTTCACAAATATTCCACAAATAGGAAC
R
TCTCTGTTAGGTGCAAAAGATACAGAGATGACTAAGATACAGTTTCTGTCCTCAGAGAGTGCATACTCTAATAGAAGAAATAGAAGTAAAAAGAACTGTA
Celera SNP ID:            hCV26467816
SNP Position Genomic:     34833
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,11)   caucasian(A,18|G,14)   total(A,33|G,25)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,16)   caucasian(A,20|G,14)   total(A,36|G,30)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62960):
CTATGACTCAGCAGTTGCACTCATCAGTGTATATCAAGGAGAAAATCTTGCCATGTAGAAGAATGTTCGTGTTAGTCCATTTTTACATTACTATAAAGGA
R
TACTGAAGGCTGGGTAATTTATAAAGAAAAGAGGTTTAATTGGCCCACAGTTCTGCAGGCTGTACAGGAAACATGGTGCTGGCTTTTACTTCTAGTAAGG
Celera SNP ID:            hCV16120214
SNP Position Genomic:     47123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62961):
AAAGAGATAGAGATTCCATCAAATGGGGGAAAATAAGAGGACTTTATGAAAAAGGCACAAAAAAGGGCTAGGTGTGAATTCTCTGTTGAAATAGTAATTA
Y
TGTGAATTTTTGATTTATTACACTATTTATTCTTCTATGACTGGCATTAAACAGAAGAAGAGAAACAAAGAGATTAATGAAACAGTGAGTTCTCTCCTGT
Celera SNP ID:            hCV26467817
SNP Position Genomic:     34646
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,16)   caucasian(T,30)   total(C,2|T,46)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62962):
TACAGATAAACAAGAAGTCCAAGGACTGAGCTCTAGAGCACTATGATGTTAACATGTCTGTTTATATCACAGATTATCTATAAAGATATCACTTACACCT
R
AAACAGTGACAGTAGTAGCAATGGGGAAAAAGACATTAATTCAGAATGAGAAGGAGTTAGTAAGAAGATTGATTGATGACTATAATGTGAAAAGGTATGA
Celera SNP ID:            hCV16120215
SNP Position Genomic:     45945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62963):
ACTGTGATTGCCACACTTCCAAAGAGAAGAAAAACTTTTCAAGCACCAAAAAAGTAGCTTAAAAACAAATTTTGTACACCAGTCAGGGACTCTTTAGAGT
R
CACTCATAGGTGGGAATTGAACAATGAGATCACATGGACACAGGAAGGGGAACATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAAGGGGGAGGGATA
Celera SNP ID:            hCV26467818
SNP Position Genomic:     28878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62964):
TTAGGAAGGCAAATGTGTTTTTTTCCCCTTGGAATAAATTATAAACTTAAAAGTTAGGTAAATATTGAGATAAATAAGATAAGTAATTGAAAGATAAATA
K
ATTATTTTAAAATTGACTAGACCCTAGAAAATTTAAATATTCATTGTGCAATAATGTGTTTCTTTCAGTCATTTAAAGTTGCAGTTTAATATTTGTTGGG
Celera SNP ID:            hCV16120143
SNP Position Genomic:     35804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62965):
CTCCTGCCTCAGCCTTGTGAGTAGCTGGGATTACAGGTGCCCACCGCCACACCCAGCTAGTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTTG
Y
CATGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGTACTGGGATTACAGGCTTGAGCCACCACACCCAGCCTAGCTAGT
Celera SNP ID:            hCV26467819
SNP Position Genomic:     25970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62966):
TGGTGGAGGGGTGGTGGGGAAATAGACAATAAATCCCTTATTATATGTTATATGTTAGACAGTGAAGAGGTGAGGGGATATGCCATGTAGATATCTGAAG
K
GGGTAAATGTTACACATAGAGGGAAGAGCAAATACAAAGGAAAGTAGAAATTCCTGCAGGTCAGAGATCAAGGGAGCAGAATGATCTAGGAAGATTAGAG
Celera SNP ID:            hCV16120144
SNP Position Genomic:     44389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62967):
AGTAGTAGGTATTCAATAATTACTTGTAGCTCCATAATGACATTTGAACAAGGTCCTGATGGCTCTAGGAGTCCAAGCAAGAACAAAAGAATGAAAGTGT
R
AGGAATATGGTGTATTGGGAACAAACAGTCTGGTTTGTTTGGTGCACAGAGTATGTATAGGGAAGTGGAAAAATAAAGCCAGAAAGGCAGGTTGTTGGTT
Celera SNP ID:            hCV16120145
SNP Position Genomic:     44081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62968):
TTATCTAGTCAATTTTCACTAACATTCAGGGTATTTTTTCCTTTGGAAAGATAGAAAGTATATGTCAAAGATTATTTCACATAGTATATTACTTGTAGAA
S
TGAAAGTAGTACTATAACCATAAAGCTTTTAGGAAGGCAAATGTGTTTTTTTCCCCTTGGAATAAATTATAAACTTAAAAGTTAGGTAAATATTGAGATA
Celera SNP ID:            hCV29130160
SNP Position Genomic:     35675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62969):
TACACAAACAAAAGTTTATATCTGTAATATACATAGAAGAAATTCTTGACCTTAAATCTGTATTTATTACAAGATTTTCAGGAACATTCATTCAGCTTTC
R
GGTGGAATGTGGTTAGGTTTGGATTTAATTATGGTTAAGTACCAATTATGACGTTATTAGGCAAAAAAGGCTAAATCCCCATTGTAGGGATTTCAGTGCT
Celera SNP ID:            hCV29130161
SNP Position Genomic:     31886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62970):
TTAGTGTTGGCTAATACAGTAGCCAGTGGCCACATGTGGCTGTGTAAATTTAAATTAATTAAAATGAAAAATTTGGTTGTCTGGTCACACTAGCCACATT
Y
CAAGTACTTAATAGCTGCATATGTTTAGTGACCACTGTGTTGGACAGAGCAGATAAAAAACATTTCTATCGTTGTAGGAAGTTCTGTTCAACAGTCCTGG
Celera SNP ID:            hCV16120149
SNP Position Genomic:     43555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62971):
CATGAATTATTTCCAGGGGCACACAATGCTATTGAAATTACTGAAAACAAAATATCTGACATCTTATTTACTTGTAGAAATCTGTAATTCTATTGTGCCT
R
TGATAAATTCACATAGGCAATATCTTTAATAGGTTAATATCAATGAAGATTTTTAATTACAATAATGAGTTCACTACAGACGATTAACACACCACACTGG
Celera SNP ID:            hCV25599418
SNP Position Genomic:     68608
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,206|A,1283)   total(G,206|A,1283) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:62972):
TAGCGATGTTTGTTATGATTGTTGGAAGGAAGAAGACTGTGTTTCTACAACACAGAAACATGACATTCATTATTAAGTTGCCCTTGCTCAGATGTGTTTA
Y
TTAATATTCTGAATATCATAAATTCATAGGAAGGGCTTGGGCATATATACTTTCCATATAAATTGCTCTTCTTTGGTCCATTTCAGATGAAGTAGTGGAG
Celera SNP ID:            hCV25599419
SNP Position Genomic:     68078
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62973):
CTTTCACATATGTTCTGTTTTAGTTTGTTTTACTGTCAATTCCCCAAAACATTGTGCACATTTAATAATATTAATTGAAATTTAAATATTTCTGCTTAGC
R
ACAAAGACAAACTTGTCTTTTGACATGTTGAGCTTTGACAAGCTTTTGGTTGGTTTATTTTGTCTGATTTGTTGAGAATTCCAACATAATTCTAGCTTGC
Celera SNP ID:            hCV15839885
SNP Position Genomic:     52542
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62974):
CACCATTTAGGCACTAGGGATACAGCAACAGACAAAAAGGCAACAACAACAAAATCCTTGCTATTATAGAGATTATATTAGTGTGTGGTGGAGGGGTGGT
R
GGGAAATAGACAATAAATCCCTTATTATATGTTATATGTTAGACAGTGAAGAGGTGAGGGGATATGCCATGTAGATATCTGAAGGGGGTAAATGTTACAC
Celera SNP ID:            hCV11302180
SNP Position Genomic:     44304
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62975):
TCACCACCTCACCCCAGTACTCATGCTTCAGCCACATTGAACTTGTCCTTGTTTCTCAAACCTAACATAGATTTTATGCCTTCATGTCTTTGTTTATATT
R
TTCACTTTGCCTTGATGTCTTTTCTTGTTTCTTTTTTGACCTGATAGACTTCCATTCATCCATTAAAGTTCATGCCACCCCTTTTGTGATTTCCACACGT
Celera SNP ID:            hCV25473200
SNP Position Genomic:     57022
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,4)   caucasian(A,37|G,1)   total(A,67|G,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:62976):
GAGTTTAGAGTTAGGGAAGTTGTTTTAAACGAAGCATTTAAATTTTACTCTTGAACTACCATCAACTATGTATGGTAGTGTTTATATGGATCCCAGACCT
R
TTTCATCGAAATTACATGTTGTTGTTATTAAAACGCAGATCCCTGGGAACCACTCCAGACCTATTAAATCAGAATTTCTGGAGATTGGTCCTGGGAATCG
Celera SNP ID:            hCV2821507
SNP Position Genomic:     67629
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62977):
GGTCAGGCCGGTCTCGAACTCCCGACCTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACGGCGCCCAGCATCATT
K
TTATCTTTTCAATTCATTTTCTATACCACAAACAAAATGATCTTTACAGAATGATAACTAGGTTATGCTACCCTGTCTCTTTAAAATCCTTCAATGATTT
Celera SNP ID:            hCV2821508
SNP Position Genomic:     63075
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62978):
GTTGCCAGGGACATTTCTGCTTTATATCTCATTGGCTGGAACATACTCAGGTGGCCACATCTATTAATAGTTACAAGAGAGGCTAAGATGCAGGCTGTAC
K
CTGGGTAGCCATGTACTCAGTTGTAATTTGGGAGTTTGATGTATGGGAGAAAGAAAGATGCAGAAGATATTGGGGGACAACCAGCAGTGTAATGTAATTA
Celera SNP ID:            hCV11302185
SNP Position Genomic:     31265
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,10)      total(G,10|T,5) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62979):
CTCTACAAAAAATAAAAAATTAGCTGAGCATAGTGGTGCACGCCTATGGTTACAGTTTCTCTGGAGGCTGAGGTGGGAGAATCACTTGACACAGAAGGTC
R
GGGTTGCAGGGAGCAGTGATTGCATCACTGCCTTCCAGCCTGGGCAACAGAGTGAGACCCTGCCTCAACACAAAACAAAAAACTCTTCTTGTCCCTTCTT
Celera SNP ID:            hCV2956322
SNP Position Genomic:     24720
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62980):
AGTGGGTGCAGCACACCAGCATGGCACATGTATACATATGTAACAAACCTGCACATTGTGCACATGTACCCCAAAACTTAAAGTATAAAAAAAAAAAAAA
A
GAAATACCACCTTCAGCACCTTGTCCAGTGGAGCATGTGAAATTAAGTACTTAGATTCTTTTTGTGGACTGAAGCTTCATTTTCTTTGGGCTAGTTCAAA
Celera SNP ID:            hCV11302187
SNP Position Genomic:     29115
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62981):
CACTTGAGCACTTTTAATTTATGCATTTCTGTTGGTTATAATACTTGGGAGTGAAATCACTGAGTCATAGAGTATATACATGTTCAGTTTTAGTAGTTAC
S
CATTTTGCATCAATTTATTGTTTTCCCAAGTGTTTGCACTAATTTACATTCCCTCCAGCAACCTATAAAAGTTCCAGTTGCTGTATTTCTTGACTAATAC
Celera SNP ID:            hCV11302188
SNP Position Genomic:     26286
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,5)      total(G,5|C,4) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62982):
ATTAAAAAATATATAAAGTGCTTAATGCATTTATATACATAGAAACACATGTATGCATAAGTATATGTGTACACACACACACACACACACACACACACAC
A
CACACATATATACATACATACAAACAGCCTGCTAAGTATGAGGCACGCATTACCATTACTATTAGCTGCCTTTCAGAATTACCTGTTTTCTATTGATATC
Celera SNP ID:            hCV26467820
SNP Position Genomic:     25575
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,6)   total(A,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62983):
AATTAAAAAATATATAAAGTGCTTAATGCATTTATATACATAGAAACACATGTATGCATAAGTATATGTGTACACACACACACACACACACACACACACA
C
ACACACATATATACATACATACAAACAGCCTGCTAAGTATGAGGCACGCATTACCATTACTATTAGCTGCCTTTCAGAATTACCTGTTTTCTATTGATAT
Celera SNP ID:            hCV26467821
SNP Position Genomic:     25574
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,6)   total(C,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62984):
AAATTAAAAAATATATAAAGTGCTTAATGCATTTATATACATAGAAACACATGTATGCATAAGTATATGTGTACACACACACACACACACACACACACAC
M
CACACACATATATACATACATACAAACAGCCTGCTAAGTATGAGGCACGCATTACCATTACTATTAGCTGCCTTTCAGAATTACCTGTTTTCTATTGATA
Celera SNP ID:            hCV26467822
SNP Position Genomic:     25573
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3|-,8)   total(A,3|C,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62985):
GTCTCACTCTGTTGCCCAGGCTGGAGTATAGTGGCACAATCATAGCTCACTGTAATCTCGAACTCCTGGGCTCAAGTGATCCTCCGTGATCCTCCTGCCT
Y
CTTTTTTTTTTCTTTTTTGGAGGCAGAGTGTTCCTCTGTCCCCCAGGCTGGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTCTGTCTCCCGGGCTC
Celera SNP ID:            hCV26467823
SNP Position Genomic:     19428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62986):
CTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCGGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGC
R
AGACTCCATCTCAAAATAAATAAATAAATAAATAAAACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAAATAAATAAATGAATGAAAGAAGGAAG
Celera SNP ID:            hCV26467824
SNP Position Genomic:     18353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62987):
GAGTGATTCAGTCAAGAGGAAGGAATTGATACAAAAGAAAGAGGGGCTAATTATAGAAGCCAAGTCCCTTCGTAGGTGTGGGAGATAATCCAGTGCATAA
Y
TGGAGGAGTTAGTCTTTGAAAGTATATGACCATGGAGTGGTTGGCTGTGTGTGGTGGAAGAAAAGATAATTAGAAATGAGGCATTCAAAGAACTTAAAGG
Celera SNP ID:            hCV16120222
SNP Position Genomic:     45688
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62988):
TGTTCTTCAAAAATAAAGGTAAGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGGATCACCTGAGGTCAGGAGTTTG
R
GACCAGCCTGGCCAACATGGTGAAACCCCGTCTTTACTGAAAATACAAAAATTGGCCAGATGTGGTAGCACACATCTGTAATCCCAGCTACTCGGGAGGC
Celera SNP ID:            hCV26467826
SNP Position Genomic:     18165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62989):
GTCTTTGAAAAGAACCAATTTATTGGAATGATGAGGGCAAAAACCTGATGTAAAGGGTTTAAGAGGGAATATGAGATAAAAAAGGGGAGATAGTAACTAT
M
GGCAGGAGAGGAGAGACATAGGAGTGGTAACCAGAAGGAAATGAGGAGTCTAAACAAGGTTAGCTTTTTAAAATGGGAGATATTGTAGAATGTTGGTATG
Celera SNP ID:            hCV16120223
SNP Position Genomic:     45480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62990):
AGTGGTAGAGTAGATGAATAAATACAATAGGATATAACAATGGTCAAATCAAATAACTACAGCAAACACAACAATAGGATTGAATCTCAATAAAATAACT
W
CTAGAATATTACATAGAGCGTGATACCTGGTTTTTAAAGCAAAGAACAGTTTAACATATATATGAATTTGAATTATTCATATATATGAAATATACATATG
Celera SNP ID:            hCV9583654
SNP Position Genomic:     47967
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:62991):
TGAGGATCAACTGTACCCCTGAAAACCTACTTTACTCACTAAGACTAGGTTAGGCTCTAACTCCTCTTTGCTCTCAAAGCACTCAATGTTCACCTTTTCC
R
AAGCCCTTAAATTGTGTTGTAATTGCACATTTTCTTATTGGTATTTCCCACAAGACTGAAGTACTTAGGAGCAGGAATTATGGTTTTTTTTTTAATTCAA
Celera SNP ID:            hCV16120150
SNP Position Genomic:     40936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62992):
TAAAAAAATCATTTTACTGTTTCTCACAATGTATGTATTTATATACATATATATATATATATATATATATTTTTTTTTTTTTTTTTTGTAGAGACAGGGT
Y
TCACTGTATTGTTCAGGTAGTCTCAAACTCCTGGGCTCAAGTGATCCACCTATATTGGCCTCCCAGAATGCTGAGATTATAGACATGAGCCACCATGCCC
Celera SNP ID:            hCV26467827
SNP Position Genomic:     16002
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62993):
CTCTAGCTTACTTTACTATAAGAATACAGTAAATAATACATTTAACATGCAAAATGTGTGTTAATTATTTCTGTTATCTGTAAGGCTTCTGCTCAACAGT
R
GGCTATTAGTAGTTAAGTTTAGGGGTAGTCAAAAGTTAAACGTGGATTTTTGATGCACAGGGGTTGACACCCTAACCCCCACATTGTCTGAGGATCAACT
Celera SNP ID:            hCV16120151
SNP Position Genomic:     40747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62994):
GTTACACATAGAGGGAAGAGCAAATACAAAGGAAAGTAGAAATTCCTGCAGGTCAGAGATCAAGGGAGCAGAATGATCTAGGAAGATTAGAGTGAGAGAT
R
AGGTCAGAGACATAAAGGGCATTATAGGCCATTGTCAGGGCTTTGGCTTTTACTCTTGTCTAAGATGGGAAGCCATTGGAAGGCTTTGATTAGTGGTATG
Celera SNP ID:            hCV16120224
SNP Position Genomic:     44498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:62995):
AGTTATTTTCATTTTCTTTTTAAAAAAATCATTTTACTGTTTCTCACAATGTATGTATTTATATACATATATATATATATATATATATATTTTTTTTTTT
T
TTTTTTGTAGAGACAGGGTCTCACTGTATTGTTCAGGTAGTCTCAAACTCCTGGGCTCAAGTGATCCACCTATATTGGCCTCCCAGAATGCTGAGATTAT
Celera SNP ID:            hCV26467828
SNP Position Genomic:     15982
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62996):
ATGATAAGTATAAGTTATTTTCATTTTCTTTTTAAAAAAATCATTTTACTGTTTCTCACAATGTATGTATTTATATACATATATATATATATATATATAT
A
TTTTTTTTTTTTTTTTTTGTAGAGACAGGGTCTCACTGTATTGTTCAGGTAGTCTCAAACTCCTGGGCTCAAGTGATCCACCTATATTGGCCTCCCAGAA
Celera SNP ID:            hCV26467829
SNP Position Genomic:     15970
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,8)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:62997):
GAAAATGTTGTCCAAATGCCAAGTCTTAATAACCATAGTTATTCAAGGGTGGTGGGTAATTAACTTGCTCAGGATCACATAGCTAGTAAGTGGCAGAGCT
R
GGTCTAGAGACCAGATCTTTTGATTATATTCTATTATATTGCCCTATGTCTAAATTATTTGGACTTGCCAAACCATGTCTTACAATAATGTATTGTGGTG
Celera SNP ID:            hCV25599420
SNP Position Genomic:     64547
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,35|G,1)   total(A,68|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:62998):
TTGTTTTCCTTAAAGCGATGGGCTTGCTTTTTTCATTTTTGAGAAAATGTTGTCCAAATGCCAAGTCTTAATAACCATAGTTATTCAAGGGTGGTGGGTA
R
TTAACTTGCTCAGGATCACATAGCTAGTAAGTGGCAGAGCTAGGTCTAGAGACCAGATCTTTTGATTATATTCTATTATATTGCCCTATGTCTAAATTAT
Celera SNP ID:            hCV25599427
SNP Position Genomic:     64505
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,36)   total(A,69|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:62999):
ATATCCCAGAATATCTCAATCGTTCTGTCGCCACTCTCCTGATGCATATGCTGCAGGTTGACCCACTGAAACGAGCAACTATCAAAGACATAAGGTGATT
Y
TTCTTTTTGTTTCTGTTCTGCATATTTTCTCATAGGAATAATAATGTTAATTAAATGATTCTCCCAAAGTCTCATTTCCTGCCCTCACCACCTCACCCCA
Celera SNP ID:            hCV25599428
SNP Position Genomic:     56837
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,39)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:63000):
GAAATCAAATTTAGATTGTTTCCTTATTGTTTTTTAAAATTAATTTTTAAAATATAATTCACATATCATAAATTTATCCCTTTAGATTGTATAATTCACT
R
GCTTTTAGTGTATTCACAAAGTTCCATAATCATTACGGCCATCTAATTCCAGAACTATTTTATCATCCGTGAAAGAAACTATACACACTAATAGTCACTC
Celera SNP ID:            hCV2821510
SNP Position Genomic:     60341
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63001):
GGGGAACAAACACTGAATATTGGGGAGCAGCCATGGACTTCATTAAAGACCTTGGAAATGAATATGTACTGAATGTAGACTACCTATATATAGAAGTAGG
R
TACATAGAGAAAAAGTGATTCTTGCATTTCAGGTTTGTGTTGTCATCTTTTTTCTTAGATTGTATGCAGGTCCTGAAGTTGATATCTGGAGCTGTGGTGT
Celera SNP ID:            hCV2821512
SNP Position Genomic:     56547
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,39)   total(A,1|G,73)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63002):
ATATATTTTTTGTTTTGAGATAGAGTCTCGCTCTGTCACCTAGGCTAGAGTGCAGTGGCACAATCTCAGCTCACTGTACCACCTCCTGGGCTCAGATGAT
Y
CTCCCACCTCAGCCTTCTGAGTAGCTGGGACTAAGATGTGCACCACCATCCCTGGCTATTTTTTGTATTTTTAGTAGAAACAGCGTTTCACCATGTTGCC
Celera SNP ID:            hCV2821513
SNP Position Genomic:     55969
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63003):
AACCAAGACATTAATTACCTTAGACTCTAGAATGTTATAGAAAGTTTGACTTATTCTATATGTCCATACATAAATAAGAAAAGTACTGTCAACTCAATAA
R
CATGGGCAAAAGACACAGCATTTTCTACGAAGAAATGTATATGGTGTTTTGCAACTGTTGGAGAATATATAAATCCACCAGTTTTCTAAAGATTTTAGCA
Celera SNP ID:            hCV15926721
SNP Position Genomic:     46858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63004):
CTGAATGCTAATACATTCTCCAACGGTGTTAAAGAGTCTACTGAATGCTAATACATTCTCCAACAGTGTTGAAGAATTTATAATGGTAAATGTTGTTGTT
K
TTTTTTTTCTTCCCCCCCCCCGCCATTTTTTGTTTGTTTGTTTGTTTTGTTTTGAGTCTGGGTCTCACTCTGTTGCCCAGGCTGGAGTATAGTGGCACAA
Celera SNP ID:            hCV15926722
SNP Position Genomic:     19266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63005):
TACAGGATAAATACTGTCTACACAGTACTAATTAAGTACTTTAATGTTTTAAATATCTCTCTCTCTATATATATGATATATTATATATATATATATATAT
A
TTTTTTGTTTTGAGATAGAGTCTCGCTCTGTCACCTAGGCTAGAGTGCAGTGGCACAATCTCAGCTCACTGTACCACCTCCTGGGCTCAGATGATCCTCC
Celera SNP ID:            hCV2821514
SNP Position Genomic:     55873
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63006):
ACATTAAGAGAGGGCATGGTTTATGACGCTTTGGGATAAGTGTTGCTGGCAGAGTCTACTGAATGCTAATACATTCTCCAACGGTGTTAAAGAGTCTACT
R
AATGCTAATACATTCTCCAACAGTGTTGAAGAATTTATAATGGTAAATGTTGTTGTTGTTTTTTTTCTTCCCCCCCCCCGCCATTTTTTGTTTGTTTGTT
Celera SNP ID:            hCV15926723
SNP Position Genomic:     19208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63007):
TATGTATTAGATGGTCCAGAGTATGTATATAGAGGTTTTTAAAGATTGTCATAAGAATTAAAATTCCACCCATGAGCTTGGTGACTCACCTCTCCTATCC
W
TTGTTTCTTTAACTTTAAAATGGGACACCTCATTTGAGGATTAAATGTGTTGGCACTGGTATAATGCCTAGTGTTTGATAAGCATTGGCCCAGAGCAGGA
Celera SNP ID:            hCV15926650
SNP Position Genomic:     37800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63008):
AACGGTGTTAAAGAGTCTACTGAATGCTAATACATTCTCCAACAGTGTTGAAGAATTTATAATGGTAAATGTTGTTGTTGTTTTTTTTCTTCCCCCCCCC
C
GCCATTTTTTGTTTGTTTGTTTGTTTTGTTTTGAGTCTGGGTCTCACTCTGTTGCCCAGGCTGGAGTATAGTGGCACAATCATAGCTCACTGTAATCTCG
Celera SNP ID:            hCV11302193
SNP Position Genomic:     19287
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63009):
AGATTTGGAACATTCATTTAGTCTTTACTGCTGTACTTATTGTTAGTGAACTGTGGCTTATTGGTATTTTTAATGAAGGGACCCATGTGGTGCATCTTAC
Y
GGCAGCAAGAGTATGCCACTGACTGTTCAGAGCAGGCTTTTATGGGATTGGTGTGGATGACCGGTGATGACTCAGTTCTCACATCACTGCTAGGAAACCT
Celera SNP ID:            hCV15926651
SNP Position Genomic:     37472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63010):
ATTACAGAATTTAAAGAGGCTTTTGAAAGCACAGGGCAAAAAAGTAGTAGTCTCTATTTTATTCTTTCAACTATGGAAATAGGTAAATAATATTTTGATG
Y
TTTCATGTTTGGGAAAGTTAATATGCTTCAGAATAACCTCATTTGTGATGGGAATCAACATTTTTATTTAGAAAGGAAATTTAGTTTCACTCATATATGT
Celera SNP ID:            hCV2821517
SNP Position Genomic:     54134
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   ;JBIC-allele(C,348|T,1145)   total(C,348|T,1145)
SNP Type:                 INTRON


Context             (SEQ ID NO:63011):
TGTTCAGAAAGGTACTAGCTACCTTTTAAAGCATAACAACTCATTGAACTAAGAACTTTACTTTTCAACCTTGTACGTTCTGTACCATGAAAAGGAATTA
R
CTGAAATCTCCTCAGTAGCTTTTTTTTTTCATTTAATTAAATTTTCATTAATTTTCATTAAATACACTTTAAAAATGCAGATACCTCTAGAGAAGTTAGA
Celera SNP ID:            hCV2821518
SNP Position Genomic:     53291
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63012):
AAAGTGTGGGCAGCAGATGGCATTTAGTATGAATGGGTCATTTTAAAGTCCTGGTCCACTTGTAGTAGAACCAAAATGAGGCTATACATATATTTTCAGT
W
CAGATAATACACTCTGAGCTAAAAATGCTTTTCTACCAAACTTTATCTTAACATATCCATATAAATTAGAAAGGATTTTGTAGTTTGGTCATATATTGAG
Celera SNP ID:            hCV11302196
SNP Position Genomic:     14760
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|A,11)   total(A,11|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63013):
TAATAGTTAAATAAAAGTGAATGTACACACATTCACAGTAAATTGATTTTACTTTTGAAATTATGCAAATTCTAAACAAGTGTTAAATATTGGTTCCAAA
T
AATGAAATTATGTTTCTTCTCAAATACTAGATTAGTGATTGAATTAAAATCAGTTGAATTATTCTCACAATTAGGTAAATACGTGCTATTTAGGTTTCTC
Celera SNP ID:            hCV11302197
SNP Position Genomic:     13827
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63014):
GCCAGGATGGTCTCGATCTCCTGACCTCGTAATACGCCCGCCTCAGCTTCCCAAAGTGCTGGGAGTAAAGGCGTGAGCCATTGCGCCCGGCCTCACCCGG
M
TAATTTTCTGTATTTTTGGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTTGCTCTCTTGACCTCGTGATCCACCTGCCTCGGCCTCCCAAAGT
Celera SNP ID:            hCV11302199
SNP Position Genomic:     12999
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63015):
CACACAAATAATACAAAATTTGAAATTTTTGCTTGAAAGCTTGAATTTTATCATTGGCAACAAATATTGCTGGTTGTTTTCCTTAAAGCGATGGGCTTGC
K
TTTTTCATTTTTGAGAAAATGTTGTCCAAATGCCAAGTCTTAATAACCATAGTTATTCAAGGGTGGTGGGTAATTAACTTGCTCAGGATCACATAGCTAG
Celera SNP ID:            hCV25473070
SNP Position Genomic:     64432
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,19)   caucasian(G,5|T,17)   total(G,12|T,36)
SNP Type:                 INTRON


Context             (SEQ ID NO:63016):
ATATGATAAGTATAAGTTATTTTCATTTTCTTTTTAAAAAAATCATTTTACTGTTTCTCACAATGTATGTATTTATATACATATATATATATATATATAT
A
TATTTTTTTTTTTTTTTTTTGTAGAGACAGGGTCTCACTGTATTGTTCAGGTAGTCTCAAACTCCTGGGCTCAAGTGATCCACCTATATTGGCCTCCCAG
Celera SNP ID:            hCV26467830
SNP Position Genomic:     15968
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,8)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63017):
CAATATGATAAGTATAAGTTATTTTCATTTTCTTTTTAAAAAAATCATTTTACTGTTTCTCACAATGTATGTATTTATATACATATATATATATATATAT
A
TATATTTTTTTTTTTTTTTTTTGTAGAGACAGGGTCTCACTGTATTGTTCAGGTAGTCTCAAACTCCTGGGCTCAAGTGATCCACCTATATTGGCCTCCC
Celera SNP ID:            hCV26467831
SNP Position Genomic:     15966
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,8)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63018):
CTTGTTTTACTTGGGCAATATGATAAGTATAAGTTATTTTCATTTTCTTTTTAAAAAAATCATTTTACTGTTTCTCACAATGTATGTATTTATATACATA
Y
ATATATATATATATATATATTTTTTTTTTTTTTTTTTGTAGAGACAGGGTCTCACTGTATTGTTCAGGTAGTCTCAAACTCCTGGGCTCAAGTGATCCAC
Celera SNP ID:            hCV26467832
SNP Position Genomic:     15951
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63019):
TAGAAATGCTGTTTCTGAAAAATTTTTAAACTACATTAGTTTATTTCTCTGCTGTACTAGGAAAATAATACTGAGAAGTATGAGTGATTCATGATTGAAT
K
TCTTGTAATGCTTCAATATACTTGTATTTTAGACAGCACAAGAGATTTGACTTACTCAGGCCAGGCTTAGAATGTAATCCTGGAATTTGCCTTTTCCACT
Celera SNP ID:            hCV9583661
SNP Position Genomic:     48716
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63020):
AATGCTTGTTTTACTTGGGCAATATGATAAGTATAAGTTATTTTCATTTTCTTTTTAAAAAAATCATTTTACTGTTTCTCACAATGTATGTATTTATATA
Y
ATATATATATATATATATATATATTTTTTTTTTTTTTTTTTGTAGAGACAGGGTCTCACTGTATTGTTCAGGTAGTCTCAAACTCCTGGGCTCAAGTGAT
Celera SNP ID:            hCV26467833
SNP Position Genomic:     15947
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,4|C,8)      total(C,8|-,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63021):
ACTTGGAATTCTAAGTGTCACTTCTCCCAAACCCAAATTATTATTACATATGGTGTGTATTAATAAATTCTATAATACCTTTAATATGATAGCATTATTT
Y
ATATATTATGAGTTAAATCTTTCGTTGGGTAACCACAGATTGCATTATAGTATAATCATTAGGAACATAGGCTTTAGAATCAGATAGATCTGGATTTAAA
Celera SNP ID:            hCV16120231
SNP Position Genomic:     28180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63022):
AAATCACTGAGTCATAGAGTATATACATGTTCAGTTTTAGTAGTTACGCATTTTGCATCAATTTATTGTTTTCCCAAGTGTTTGCACTAATTTACATTCC
Y
TCCAGCAACCTATAAAAGTTCCAGTTGCTGTATTTCTTGACTAATACATGGCATTGTCTGTCTTTTTTATTGTGCTATTCTGGTGGGTGTATTATGGTAT
Celera SNP ID:            hCV16120232
SNP Position Genomic:     26339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63023):
AAGCTAGTGTCATTTATTTATTAGATATAGTTCTTTAATAATACCTTGCATATTTTCCAAAGTATATAGAGCATTGTTTTATATTTTGTGTTTGGAAAAA
Y
GAGATTTTGGGGGAAAATATTGTTTCATGAAATTACACAAGTAGAGATTGTGTAGTTACTCATAACTTATTCATTGGTACATTATAAAAATGTTTATACA
Celera SNP ID:            hCV9583663
SNP Position Genomic:     54924
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63024):
TGGGTTACTTGTCATCTTATAAGTTGAGTTGTGAGGATTCTTTGTAAATTGTGGATACAGATCCTTTAATGGATATATTTTGCAAATATTTTCTTCCAGT
Y
TGTTGTGTCTTTTCATTTTCTTGTGTCTTTTGAAGTATAAAAGTTTTGAATTTTCATGAGGTCCAATTTATTAGTTTTTAAAATTATTTTATGGACTATG
Celera SNP ID:            hCV26467837
SNP Position Genomic:     9678
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,8)   total(C,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63025):
CTTTTCTGAGTATCTTTGCCAACATTTGTTATTGTCTGCCTGATTTATTATAGCCATTCTAGTGGGTGCGAAATAGTATCTCATTGAGGCATTAATTTTG
Y
GTTTCCCTAAGGACTAATGATGTTGAACATTGTCTCACGTAATTACTAGTCATTTATGTATTTTCATTGATGGAATGTCTGTTTATATCTCTTGCTTATT
Celera SNP ID:            hCV26467838
SNP Position Genomic:     9470
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,6)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63026):
CTGCTTTTGAAATGTTATACTTTATTCGAGTTAAGTAACTAGTAAGAATAGTTAAGTATGGAACTTTCATTTGTTTTCTTTTTTGTTAATTAGTCACATG
K
GATTTAATTAACCTGCCTTCTCTCCAGAATAGAGACAGTTGTTTATTAAAAATACTTTGTTGCAAATCCAGAATTATAAGTGAAATATTGACCTTTATTT
Celera SNP ID:            hCV26467839
SNP Position Genomic:     7229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,7)      total(G,3|T,7) ;(G,-|T,-)   Caucasian(G,39|T,39)   Asians(G,23|T,55)   total(G,62|T,94)no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63027):
AGGAGCTGTAGCAGGAGGAGGTACAGCATGACTAACACTGAAAAATGTAGTATGACTCAGTGTTGTGACTCAAAGGTGAGACCAAACAACAGAGATGGCA
R
GGGCCTGATTTATTCAGGACCTAAGAGCAATGGGAAACCTTTGAAGATTCTAAATTGAGAGGCTACTGGAGATCATATTTGTGTTTGAAGAGAATCTTTA
Celera SNP ID:            hCV2821523
SNP Position Genomic:     49377
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63028):
AAACATGGGCAAAAGACACAGCATTTTCTACGAAGAAATGTATATGGTGTTTTGCAACTGTTGGAGAATATATAAATCCACCAGTTTTCTAAAGATTTTA
K
CATTGCCAAACTTTCTTTGGAAAACTGTCTTTGGTATTATCTTTTCAATTGGAACATACACAATAACTATGACTCAGCAGTTGCACTCATCAGTGTATAT
Celera SNP ID:            hCV2821524
SNP Position Genomic:     46956
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63029):
GTGGAAGGAAGAAATGCAAAAAGAAATGAAGAGCGTTGGGAAGTCTAAGTATGTGGGTAACTAAATAGATACTGACTATACAAAATAATATCTTGCGAGA
Y
TGAGAATATATGTAGGAATGAAATGCAAGAACAGAAAAGATATGAGAAAAAGTAGAGTTATAGTGTTCTAAAGTCCTTGCTTTGTTTGGGAAATGTAAAA
Celera SNP ID:            hCV15926733
SNP Position Genomic:     18667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63030):
GTGAATCTGGAGTTCAGGGGAGAGGTGTAAGCTAGAGAGATAAATTTGGAAGCCATCAGCAGACAGACTGTATTTAAGATATTTAAAGCCCTAAGACTGG
R
TGAAATCACCAAGATAAACAAGAAGTCCAAGGACTGGGCTCTAGAACACTATGATGCTAACATGTCTGAAAAATGAGGAGGAACCAGTAAAAGAGAATGA
Celera SNP ID:            hCV2821525
SNP Position Genomic:     45113
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63031):
TAGTGTGGATGCCATGAATGTGTTATATGAAAAAACAGAATGACTATATTTATCATAGAATATATTGATTTAGCACCTCTGTGTACAAAGCACTGTGCGC
R
TATACTTCCTGAGAGATTCAGATGAGCACTGGTCATCTTGTCCAAGGAGAGTATGAGCTAATAGCTCAGGTCATGTGATTGTCACAAATGCAAATGTTTA
Celera SNP ID:            hCV15926661
SNP Position Genomic:     34387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63032):
GTTGAATAAGTGAATCTGGAGTTCAGGGGAGAGGTGTAAGCTAGAGAGATAAATTTGGAAGCCATCAGCAGACAGACTGTATTTAAGATATTTAAAGCCC
Y
AAGACTGGATGAAATCACCAAGATAAACAAGAAGTCCAAGGACTGGGCTCTAGAACACTATGATGCTAACATGTCTGAAAAATGAGGAGGAACCAGTAAA
Celera SNP ID:            hCV2821526
SNP Position Genomic:     45104
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63033):
AGTAATAAGTTGACTCCCCAACTAAAACAGTGAAAACAAGGAAAAAATGGAATGGAATTTTTTTTTACCTTCGAAGAGGTAAAAGAAACAAACTGCCAGC
W
TATAATTTTATGCCCAGCAAAAATGTTCTTCAAAAATAAAGGTAAGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGG
Celera SNP ID:            hCV15926734
SNP Position Genomic:     18041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63034):
TATAATTTTATTTCTCATCTACTCTTTATGAATATGGTATATCTGACAGTCTTCAGGCAGATGTAATACTGTACAAGATTTATTTCAGTTTATTTATTGC
R
GTCTCCCCACCCCCCAAAACTTGGAGGCGTATTAAAAAATCTCTTCTCATGTGTCTGTCTATGATCAACGTTTCTTGCATATGCTCGGCAAATGTTTTGA
Celera SNP ID:            hCV15926662
SNP Position Genomic:     31613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63035):
GGCACTAGGGATACAGCAACAGACAAAAAGGCAACAACAACAAAATCCTTGCTATTATAGAGATTATATTAGTGTGTGGTGGAGGGGTGGTGGGGAAATA
K
ACAATAAATCCCTTATTATATGTTATATGTTAGACAGTGAAGAGGTGAGGGGATATGCCATGTAGATATCTGAAGGGGGTAAATGTTACACATAGAGGGA
Celera SNP ID:            hCV2821527
SNP Position Genomic:     44313
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,10)   total(G,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63036):
ATGCTTGTTTTACTTGGGCAATATGATAAGTATAAGTTATTTTCATTTTCTTTTTAAAAAAATCATTTTACTGTTTCTCACAATGTATGTATTTATATAC
M
TATATATATATATATATATATATTTTTTTTTTTTTTTTTTGTAGAGACAGGGTCTCACTGTATTGTTCAGGTAGTCTCAAACTCCTGGGCTCAAGTGATC
Celera SNP ID:            hCV15926735
SNP Position Genomic:     15948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,4|A,8)      total(A,8|-,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63037):
ATAGCTACTTACTTGAGTAGGCCTTCATTAAATCGTTGTTCAACAGATGAATGTTTCTAATTGCTCCTGTCAAAGTAGGTATTGATCTGGATATTTACGT
R
TATACATGATAAATTATGGCAAGATTATTTATTATTGGTGTTTTTATAATTTTATTTCTCATCTACTCTTTATGAATATGGTATATCTGACAGTCTTCAG
Celera SNP ID:            hCV15926663
SNP Position Genomic:     31468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63038):
TCAAATTGTTTATCGGATGTTCACATTCTAAAGTCACAGAGTCACCTGAAGCTAAAATTTTCTCTCTCTTCCAAATTTACTTCTCTGTTTTTGGAGGGTG
Y
GGTGGGAGAGTGGAGGGAGGTAAATGAAAATACCATTCATGCAGTTTCCCAAGCCCCAAACTTGGGCAAAATCTTTAATTTCTTCTTTTCCCTCATTTCT
Celera SNP ID:            hCV2821528
SNP Position Genomic:     40122
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63039):
TGATTTCTGGCCCTTTTGTTTCTCCAGATTTCTGAGCACATTTATCAAATTGTTTATCGGATGTTCACATTCTAAAGTCACAGAGTCACCTGAAGCTAAA
M
TTTTCTCTCTCTTCCAAATTTACTTCTCTGTTTTTGGAGGGTGCGGTGGGAGAGTGGAGGGAGGTAAATGAAAATACCATTCATGCAGTTTCCCAAGCCC
Celera SNP ID:            hCV2821529
SNP Position Genomic:     40078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,7)      total(A,7|C,4) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63040):
AAGTTTCCTTGGTGTTTGGAGGATTTGAGGCTGAGGAGGTCAGGACTGCTAAGGCATATTCTGCTAAGGTCTGTCTTCATGGAGATAGGATCCCCTTTTG
R
ATGTAGAAAAACAGGCTGCTTTTGAAATGTTATACTTTATTCGAGTTAAGTAACTAGTAAGAATAGTTAAGTATGGAACTTTCATTTGTTTTCTTTTTTG
Celera SNP ID:            hCV26467840
SNP Position Genomic:     7113
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63041):
GCTAGTTCAAATTATTATGCAGTATTTCCATAGCCTTTACATTTTGGCAACTCTTTTCTTTGATCCTAGCAGAAAAATAGGTTATAATTTTGGCCCCAAA
K
AATTATTTTTTAATTGTTCCTTTTGTTTTATTAGATATGATAATATCCTAAACTATATAATATATTAAAATAGAATGAGGATGTATCTGATATGAATTAC
Celera SNP ID:            hCV8999251
SNP Position Genomic:     29305
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63042):
TGAGAATAGAAATAGTAAGTACTCAGGATAATGTGATACAGGATAAATACTGTCTACACAGTACTAATTAAGTACTTTAATGTTTTAAATATCTCTCTCT
M
TATATATATGATATATTATATATATATATATATATATTTTTTGTTTTGAGATAGAGTCTCGCTCTGTCACCTAGGCTAGAGTGCAGTGGCACAATCTCAG
Celera SNP ID:            hCV9583670
SNP Position Genomic:     55837
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Gene Number:                 384
Celera Gene:                 hCG22177 - 104000117816515
Gene Symbol:                 ITGB3BP
Protein Name:                integrin beta 3 binding protein (beta3-endonexin);HSU37139;NRIF3;TAP20
Celera Genomic Axis:         GA_x5YUV32W802(19529614..19694837)
Chromosome:                  Chr1
OMIM number:                 605494
OMIM Information:            INTEGRIN, BETA-3, BINDING PROTEIN OF;ITGB3BP


Genomic Sequence (SEQ ID NO:12544):
TCACTGAAGCCTTGACCTCACAGGGTGAATGTGATCCTCCTACCTCAGTGTCTCAAGTAGCCGAGACCACAGGCGCCCGAAACCACACCAGATTAAGTTT
TTTTATTTTTTGTAGACAAGGGGTTTCACCATGTTGTCCAAGCTGGTTTGGAACTCCTGGGCTCAAGTGACCCACTCAAGTGCGGTAAGCCACCATGCCC
GGCCCCACCATAATTAAAAAGTGGTTTTTTTTTTTTTAAAGTGGGGGTTACAGCATGTTAAAAAGTGACTTGGGCCGGGTGTGGTGGCTCACGCCTGTAA
TCCCAGCACTTTGTGAGGCCGAGGCGGGCGGATGACGAGGTCAAGAGATCCAGACCATCCTGGCCAACATGGTGAAACCTCGTTTCTACTAAAAATACAA
AAATTAGCTGGGTATGGTGGTGCACGCCTGTAGTCCCACCTACTCAGGAGGCTGAGGCAGAAGAATCACTTGAACCCAGGAGGCGGAGGTTACAGTGAGC
CAAGATCCTGCAACTGCACTCCAGCCTAGGGCAACAGAGCAAGACAGTGTCTCAAAAAAAAAAGTGACTTGAAGGTGTTTCTCTGCCAAGTCATCCCTGC
CCCAGGGATATAAGGTTTAAAGTTAAGGTAGCAAGGTGTCTCCACCTAACTCCAACTACCCAAGAGTCTCAAAACCTTCCCCTTCCTGCTCAGTGTTCTT
TTATTTCCTTTTCAAGAAATGTGAACTGCTATAGCCAGAAACATGTTCCTTCAGCAGTGTTTGCAGATGGATCTCATGAAAGTTCAGAAAAGGGTGGTTC
ACTTCAAGCGGGAGACAGTGGAGTTCCTCCACTATAAGGCGAAGTTTGCAAAGTCCCACTAGTTTGCTCTGAGAACATGAGACCCTTAACCTCTGGGTCA
TGTGTTTGAGGTCCATTTTGGTGCAGGCATCACCTGATGCTAAAAAAGGATCATTGTTTAGTGTGGGGTTCTTAACTTGGGATGCTTACATCCCCTTCCC
CTACCTCAAGAGGTCCTTGGGTAGAATTCAATGGGATCCATGAATATGAATGACAAAATAAACAAAACAATCTTTATTTTCACTAACATCTAACTGAAAT
TTAGCACCTCCTTTTATTATAAATGTAGGAAGCAAACCACAGTATTATTACTACTACTGCTACTATTACTACTACTACCTAGGAATTTATCATCAATAAA
AATTATATTTTCATATCCTATTATAGTTATCTCAAAATACTGAGATTGCAGACGTCTCAAAACATCATTTATACTCACCACTACTTTGAAGTAAGGCAGT
ATTAAATCCTCCACAAATCTTCCTATGTCAGTAAAGAAGCATTATCTTGATATATCACAAATCTGGTTTTTTAATATTTTGATTATACTTCAATATAATT
TTGCTTCCTTTGTAATGGTTTGTATTTTGTTTTATTCACTTAAAAATAAAAATACTCTGCCCGGCACGATGGCTCACACTTGTAATCCCAGCACTTTGGG
AGGCAAGGCCGAGGCAGGCAGATCGCTTGAGCCCATGAGTTCGAGATCAGCCTGGGCAACTTGGTGAAACCCCATCTCTACAAAAAATATAAAACAATTA
GCCAGGCATGGTGGCATGCACCTGTAGACCCCAGCTACTTAGGAGGCTGAGGTGGGAGAATCAACTGAACCTGGGGAGACTGAGGCTGCAGTAAGCCACG
ATCGCGCTACTGTGCTGCAGTCTGGGCAACAGAGTAAGACCATGTCTCAAATTTTTAAAAATATATATTCTGAGAAGGGGCTCCACAGTTTGCACAAATG
AGTAGCAAAGGAGCCGTGACAAAAGAATCCCTGTAACTTGACAACAACAACAACAACAAATACCCTCCTTGCTCATAAGTTCCCACAAAGGTATTTATTT
TATTTTGCTTAGGGTGGTGATAAATCATCCTTCAAAACATGCACACATTCATTTGTGAGCTTAAACTCTCCTCAATTTCTGATGCTGGTCATTTGCAGAT
CATTAGACCCAGAAGTGATTTTTAGAGACCAGGAATAGTTTCAACTAAAGAATTCGTTGGGATTCTCTTGGACTTTTCAGTAACATGGGCCAATAAAATT
CCTTTTTCACTTGGAGTAATCCAAGTAAGGTTTTTGTCATTTGTACCCAATTGGGCTCTGACTAACACGGAACCCCTCTATATTGGTTGAGGCTGTTGAG
GATTAGAGGAAGGTGGGAGACCATCTGGGTGGCTCATATCTGCATCACGTTGGATTGTGTCCTAATACCAACAAAACATTGATAACACACCTATCATTCG
AACAGTTTCCAAGTGAGGTACTTGTAAATATGTTGTTTCATCTAATCCTCACAACAGGCTCTTCAGGTATGTATTATTCCCAACCTTTGTGGATGAAACA
AAAAAGGACTAGAAATTTGTATTTGTATCTAATCTAAACTCCCTCAATTTGTATTCATTCTGCTAAGAATTCCTCCTACCAGACAAACCCACTCTGGGAA
CTCCAAGTCATTCTTTAAGACTCAATTCGGCTACCACCCCTCTATGGAGCCTCCCTCCCTTCATCTTCCCCTCCCAAGTACAGCCCCTCAGGTTAAAGAC
ACCTGCACATCCCTCCATCACAACACCTGACACATTGTGCTGTCTGCTTACTCCTGTATACCACCCCTCCCAGACTATGTCTTTCCCAAGGGCAAAAATA
TTTTGTATCTCAAGTACAATGTCTGAGGCAAAGCAAGCACATAATAAATGTTTGATGTGAATAAATTTATTGGTCACCAGCTACATGCTGGCTTTAAATC
AAGTGCTAGAATACAAAAGTGACTCACAGTTCAGAGCAAATAAACAAGAATTCATTGAATGCTACATAGTCCTAGGCATTGCAGATACAGGTAAAACACA
GGTCTGACTTAAAGAAGCTTACTCTCTAGTTGGAGGCCGTTGACATGTAAACGGAAAATTTCACTAGAATTTAATATATATATTCTAGAATTATCTATGG
GAAAGGAGCACTTAATAGGTGGAGAAGAGTGGTAGGGATGGGGTGTCAAGAAAGGTTTCTGAAGATGCCATCTGGACTGAATCATATCACAAGAGAAAGA
GTAGCATATTTAAATCCCGAGTGAGTAGAGAGAGTGAACAAAATCAGAGAACAACCTGAGCGTAGAAACCTAGGGAATAGGCCAGGCGCAGTGGCTCACG
CCTGTAATCCCAGCACCTTGGGAGGCCGAGGAGGGTGGATCACCTGAGATCAGAAGTTCGAGACCAGCCTGGCCAAGATGGTGAAACCTCATCTCTACTA
AAAATATAAAAATTAGCCAGGTGTGGTGGTGCATGCCTGTCATCCCAGCTACTCAGGAGGCTAAGGCAGGCGAATTGCTTGAACCTGGGAGGCAGAGGTT
GCAGTGAGCTGATTGCGCCACTGCACTCCAGCCTAGGCGACAGAGTAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAGAAGAAGAAAAAAGAAAGA
AAGAAAGAAGAAAGAAACCTAGGGGATAGTCAATGTGCAGCCCATGAAGGAACTTCCAAAAAGTGTGAGTAGAATCAGGAGAGTAAGCAAGGCCAAGGGA
GGAAGAACTTTACAAGAGTACAAAATCAGCACTGCCAAATGCAGCAGAAAGGCCAAATAAGATTAGACCAGAGTGTATTCCATGAATTTAGCAACTGGCA
AGTCCCTAGTAACTTTGGCAAGAGCAATTCTACTGGAGTAGTGGAGGGGGCAGAAGCAGTGAAATGGCGAGTAAACCGGAGGTGAGAATGAGAAATAGTG
AATGCAGAAAGCTTTTACAAAGGTTGGCTGAGAGAAGAGCAATAGGGCAATGGCTAAAGGGTGATGAAGTTTTAAGAACTTTTTTTTTTAGTCTTAACTA
ATTCTTTCCTTCCCACCCCACACTACTCCCAAATGGACAAATTTCCATCTGGGCACCTAAAATTCCCACTCTGCTGTAAGCTCCTTAAGGACAACTCTTG
GGTCTGCATCATCCTTTTAGTCCACACATTTCTCTGAACATGGTATTCAACAGGATCTGTTGAATGACTGACTGAATAAATGAATGAATGAATGAAATGC
AAATTCAGCACAGGTGGTAACAGGGAAATGATCTACTGGGATACAGCTATTGTCTGTTCTTCTTTCATGGGAATTTGCGCTTGTCTGAAAATTCAGGACC
ACAAAGTAAACAAATCCAGGCAATCTTCTCTCACTGATGCTTATAAATGTTTGGCCCAGGAAGGCAGATGTAGATAGAGCCCAGTTTAGATTTTGGAGCC
TGGAAAACAGATCTTCAAGATCAAGGGCTGTTCATTCTTCATTCTCAGGAGCTGTTCAAGTTCTTGGGATTGGCAGATCTATATTGGACTCTTAGTGCTG
CCATTATAGTTTTTGTAAATTATTTAACCTACCTAAGCTTCAGCGTCCTCGTTGGCAACTTGAAGATACCCATAATAGCATCTACCTTATAGGGCTGCAG
GAGGATAAATGAGACCCAGAAATGAAGCGCTTACCATAGTGCTTGGCAAATAGTACTCAATGTCAACAAAATAAGATAAATAAAGTACTATTAAAATGAA
TAAAAATATCCATTTCAGGGGATGCGTTCCAGAAGAATTGGGCATAAGTCAAATCTCACTTAAAATATAGAAAGAAAACTTGGTCCTCAGAACTCCTTAG
AAATGTTTTACAAAAGTAAGTGAATAATTAGCCCCAACTTATCAATCCACTTTTTTTTTCTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCC
GAGGCTAGAGTGCAGTGGCGGGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACTACA
GGCGCCCGCCACCACGCCTGGCTAATTTTTTTTTTTTTTTTTTTTTTTTGGATTTTTTAGTAGAGACGTGGTTTCACCGTGTTAGCCAGAATGGGCTCGA
TCTCCTGACCTCAGGTGATCCACCACCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCGGCCCCACATTTCCATATATCAGATT
TACTGAAAAACTTTTTTTTTTTAATTTCCCCTATCCGAGTGGACCCGCCCAATCAAGTCAGTTAACTTTCCTTGGCCGGGGGCGGAACCAAGGTGTTGCG
GTAATTTCCTGGCCTGCCACGACTGCTTGCTTGCGTAAGGGCGTCTTTGGGTATGTTGCCATTCTAATGAAAATTCAGCTCCAGCCCCGTCGGTGGAACA
GATCCCGGGCACCACTGGGCAGAGACTAGATGTTTCAAACGCCTGCCCCCCAGCAAGCAGGCCGCGCAAAGGGCAGGAGTTCGGAACCAAGGCAAACTAG
GGGGCGGGGAGAAAAGATTGGCACCCGCCTGCTGAGATCTGCCAACCTGACGCCCCAGGGGGATGGGTGCTCTCGCCACCCTTGCCCCACAGTGTCGGGC
TCCGAGCCAGCGGGAAGCGCCAGTCCTAGCCGAGAATAGCAGAGGAGCGGGCGGGATGCGAGGGGGCTCTGGGCGAGGCGGCGGCAGTCTAACCTTTCCT
GCTTAAGGCGACAGCACTCTGCGCCGTAATCGTATCTTCCAAGGCTGCAAGGTTAGGGCAAATGTCAGACGCCTCGGGAGGGGCGGGGGACGGGGAGAGG
GAAGGCAGCGGCTAGAGACGGAGAGTCGGGCGTGACCTTGGGAGGCTCCGCGCCCGCACCTCCCCGCGCCCCGGGAGTCAGGCGAGCAGGTCTGCCGGGT
CCCGTGGCCACTTTCCCCAGCCCGGCGACCTCCGTCGGGCCTCCAGGCCAGAAGAGCGAGCGCGAAGGAGAGGGAGGAGCGGGAGGTGGAAACCGAGGCG
GCAGCGCGCGGAAGCGGCCGGCCCCGAGCGAGGGAGGGCGCCGCGGGCCGCACGTCGCACACGCGCCAGGGTGCACAGCGGCGCGGGGCCGCGCATCCCT
TACCCCGTTGGCGGCAGCGATGCGAGCGATGAGCTGGATGGCCTCCTTCATGTAGAACCGGCCGTCCCCGCCCACCACCAGCGTGGCCTCCTGCCGCTGC
GCCGGCTCCACGGTGGAGATGATACTCTGGATGAAGTTCTCCGCGTAGTTGGCGCTGCTCTGGAACACCTTCACCCGCTTCCGCAGCCCGCTCGTGCCCG
GCTTCTGGTCCTGGTACGCCTGGGTCTTAACTGTCACGATCTTCACCATGGTGGCGACTTGCTGCCGGGGGTCAGAGCGGCGGACTTGGCTGGCGGAGGG
GCGGCCGGCTGAGGCTGCAGCTGCTCTGGGGTGAGGGCACGGCGGGTGGGGGCTACGCCGCACTCTAGGCCGGCGTTTGGCCCTCCTCCTTAAAGGGACA
GGGGACAGGGCCCTCCCTCCGCGCCAGCCCACCTCCTGGCAGGTCCGGCGGGAGGGGAAAGGGGAGCGCCGGTCTCTAGGCCTCCTGTGAAATGGGTGGA
GCCTTACTGATTTACTCTCCCCTTCGGAATCCTATCCACTGTAAAAAGAGGCCCGCAACTCCTCCTCTAAGTGTTGGGGCAGAGGTTGGGGTAGGAACCC
GGTCATAGGGCAAGGACGTGAGGCAGGGTGGAAAAAAGTACAGGGTAGAATGATTTCCAGTGGTTTGGCGAATGCATCGTGTGTAAATAGCTTTCTGGAA
ACCTGTTGGGAGGGTCAGAAGTGCCAGCCCCAGCTCGATTTCATGAGTCGTAATTCTTTCTATTTCTCCCTAAATGTGAGGGCATTTGAGTTCCGTAAAG
GAGTCGACTCCAAATGTTTCCTGCTGCACCACACACTTGACTACCATTGGTGACGGTGACTTAGCTATGACTTGCTGAGTGTAGCGTTTCTAAACCTTAC
TAAACTCTGGGTTTTATTTTTCCCCTTTTTATGCTTACAAAACTGAAATTCAAAGAATAAAATGCCTTGTCTCATTGCCACACAGCTAAGTCCATGCGGG
AGGCCAATTCAGGTGGTCTGGCTCCAAAACCAGGGCTCTTCCCATGATTTGCCCGCTGTGACACCAGGTTGGCAACTAGGAAATGTACAAGCAGGACTTG
ACAAATGTAGGAGCAAATATATGGTAAGGATAAGTATGAACACCATCAAAATTAGCCAGTTACTCATGTAATAGAAATAAAGTGAGGAGATCAACAAACA
AGGACTGACATGGCTGGAAAAGTTTCACGGGGGATAGCAAGGTCAACCAAGGGGATTTGATTATTAAGTAGGAATCTTYAGTCTTTCTTGCTTTTCGGTT
TAGTATCTCCCTTAATTTGATGAGAGTGRTTGTCTCCTCTGTTCAAGAAACCTGTCATTTTGGTAAAGTGGCAAAAAACTTGGCTTTACAAGRTGTGTGC
TCTTGGGAAAGTTAGTTAATGTCCGTGGGCATCAATTTCCTTACTGTAAAATAAACATATCACCTACTTTGGAATATTTTTGCAAGATTTAATGGGGTTT
TGTATGTCAGAAATTCTCAGTCATGGATACACAGTAGAATCCTACTGTGACCCATGCTCACAGTAGAATTACTTGAGGTGGTTTCTAAATGACCCAGTCC
AAACAAATTCAATCATAATCAGCTGTTAGAAGTAAATCATCTAGCCTGGTGCCTGAAACATAGAGGCCTTCAAAAATATTAGCTCCCCTTCCCCAATTCC
AAAACCAGAGCATATCATTCACCTGTGAATTATATTCTTTTGGTAGTTAATTGGTATGTCTTGATCAAGCAGGGAGGCGAACAGACCCATAAGAGTGCAG
ACTCTCACAAACCAAGTGTTGATATACATGCTCATATAGTACATGCTATGTAGATACAGTGTGTTGATGTAGTCACTATAGATGAGTTTCGGTGGCAAAT
ATTATGTGAAAACGGAACCCTGGACTGCTAGTAATGAGTTCTAATATTTGCACAGGAGTTTACAGAGCAGTGTAATCTTGTGAATTAAATAATATAATCA
AGCCCATTTTATAGACGAGAGAATTGAGGATTGGATGGTGAATGTAATCAAGGTTATCTAACTCCACAAAATGAAAATATAGCATAGATTCACTGAGCCT
TCAAAATACCTACCTTAGAGTTGTATGGTTTAGATAGWSAATATACAGCTCCTACCACAGTGCTAATAAGTAAGTCATCAATAAATGATAACTTGTAAAG
TCACGGGCCCAAATTCAGATCTCATGCCCTTTCTATATTCTTCAGTATCTTTGGAAATATGATGGAGCTTTTCATTTAAGAGGAATTGATCTATACTTCT
CTCACCCCAGAAGTTGTAACAATTAGCTTTAACTGCATAACACACCAGTCTAAATCTGAGTGGCTTAAGACAACCCCCATTCATGATTATAGTTCATGAT
TCTATGAGTTAACTGGCAGTTCTGCTGTTCTGGACAGGGTTACTGTGGCCCCTTATACAGACCTAACATGATCCCCATGTTCCTTGCCTCCTGATAATCA
TGCCTTTATGCAATCCCCTTGTATTACAGATTGAGTATCCCTTATCCGAAATGTTTGGTACCAGAAATGTTTCAGATTTTAGATTGTTCCGGATTTTGGA
ATGTTTGCATTACAATGGTTGTGCATCCCAAATCCAAAAATCCCAAATTCAGAATGTTCCAATGAGCACTTCCTTTGAGTGTCATGTTGGCACTCAAAAA
GTTTTGGATTTTGGAGCATTTTGGGTTTGGGATTTTTGGATTTGGGATACTCAACCCGTACTTTTCTACTGCTGTATGACAAATTACCACAAACTCAACA
GCTGAAAACAACACCCATTTATGATGTCACAATTCTATAGATAAGAAGTCCCAATTCTATAGATCAAAAGGTTTGGCCAGGTTCAATCCTGGTAATCACG
GATATATAACAGCTTATAAACATCAAGGAGAAAGTATTTTGACCTTCATTAMATTCTTTTTAAGGCAAGCATACCTGTTTAAACTGATTTGTCTATAGCC
AGTTGGTTTAATTTCATTGAATTCTTCCCAGAGCCTCAAGATAAGAACCCACCCAAGCTTGGTGCGTTCTTATCTGGAGCCTCTGGGAAGAACACCTTGA
TTTGAAGTCAAGAGCCAAGCTGGCTTCTTATCTGGAGGCTCTGGGAAGAATTTCTTTCAAGTGTTAAAGATAAATAAAAATAGAGGCTCCAGTTTAGATA
TTTTAAGTCCAACCACCCATAGCCAGGTAGCCAAAACTTAAGTCATCCTTATTTCCCTGAAACACTTGCTCTAGACATAAACAAAACACAAAATGTCCTT
GACAGTGTGAGTCAATGAAATTAAACCAATCAGCTATAGACAAATCAGCTTAACAGCTCTACTCGCCTTAAAAAGAATGTAACGAAGGTCAAAATACTTC
TTCCTCAATGTTTATAAGCTGTACTGTAACTGCTGTGAGCTGGGCTTCTTGCCACTTTTGGTTAGATGTCTTCCAGTTTGTAAACTGTTCTTTGTATGCA
TGCTAAACTTTTAAAAATTTTTAAAGTTTGATCTGATTTTAACACAGCGCATTCAGATTGCTGGCAGGATCTATTTCCTTGCAGTTGTAGGATTGAGGTC
CCCATTTCTTAGATTAGACCTACCTGGATAATCTCCCTTTGTAACGTGTTCATAGGAGTAATGTATCATCGTATTCACAGGTTCTACCCACGTTCAAAAA
TTGACTTGCAGAGATTTCCAAGTTGTAGTATTTATGAAAAGCAAGAGAAGGAGTCTTATTCCCCTGTGGGTAGCACTGAAATCGGGAAAGAAGCCATTGG
AAATATACCAAGATATGCAACAATGATTACCACTGAGTTGCAAGATAGGGCAATGTTTATTTTCTTTATATTTTATCTGGATTTTCCAGGTTTTCTATAG
GGAATTTGTATTATTTTTAAAATGATAAGTACATATTATGTATTTTCCTTTTCTTTGAAATACCTTTTAAGTGGTAATCCTTACTTTTTTTTTTTTTTTT
TTTTTTTTGGAGACAGTCTCACTCCATCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTTCCACCTCCACCTCTGGGGTTCAAGCAATGCTCG
TGTCTCAGCCTCCCAAGTAGTTGGAATTACAGGCACATGCCACTATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGCGTTTCGCCATGTTGGCCAT
GCTGGTCTGGAACTCCTGACCTCAAGTGATCTGCCTTCCTCGGCCTCCCAAAGTGCTGCAATTACAGACATGAGCCGCCACACCCGGCCCTCATTATTTC
ATTAATGAATTATTCTTTACCATTTAGATGTATTCGTTCGTGTATTGATTCATTAACTCTATAAATATGTTTTGAACTTGTACTAAATGACAGCTCTTTG
AAAGGTGTTTGATGAATAAGACAAAATAGTCTCGGCCGGGCGCGGTGGCTCACGCCTATAATCCTAGCACTTTGGGAGGCCAAGGTGGGCGGATCATGAG
GTCAGGAGATCGAGATCATCCTGGCTAACAGGGTAAAAACCCATCTCTACTAAAAATACAAAAAATTAGCCAGGTGTCGTGGCAGGTGCCTGTAGTCCCA
GCTACTCAGGAGGCTGAGGCAGGAGGATGGCGTGAACCCGGGAGGCGGAKCTTGCAGTGAGCCAGGATCGCACCACTGCACTCCAGCCTGGGCAACAGAG
CGAGACTCCGTCTCAAAAAAAAAAAAAAAGCAAAATAGTCTCTGGTCTCACAGATCTTGCAATATGTTGCAGGAGACAGATACTGAATAATAAATCATAA
TTGTGATAAGTGCAACAAAGAAGTATAGGTGCTGTTAGATTGTAAATAGAAGGATCTATCATTGGAGAGAGTCATGGACAATATCCTGGAGAAAGTGCTA
TGTAAGCTGAGGGATAAAACAATGAGTAATAGTACCTGGCCAGGTGAAAAGAGAGGAGGAGCATTTCATTCCAGAAAGAACGTTAAGGGAAGTTTAAAGT
AAGAAGGAATCTAGTGTCATCAATAACTTGAAAAAAGACAGTTAGTGTAACTGGAGTATAAAAACCTCGGGGTGGAATGGTAGGTCTGATCATATTGGGC
CTTGTAGGGGATGTCAGGTGTTGAGATCTTTATCATAACAGCAGTGAACAAACAAAAGCATTTTGTTTTCATTGTGGCAAGACATACGTAATGAAATTTA
CCATTTTAATGATTTTTAAGTGTACATTCAGTGGCACTAAGTACATTCACATTGTTGTGCAACCATTGTACCATCCATCTCCAGAACATTTTCATCTTCG
CAAACTGAAACTCTGTACCCATGAAACAGTAACTCCCCATTCCCTCCTCCCTCCTACCCCTGAAAACCACTATTCTGTCTCTATGAATTTTACTATTCTC
AAGTACAATCATATTTATCCTTCATTTGCATTCCAATTGCAATGATTTAAAGAAATGTATTTACTATAGGATAGCAATCTTTGATGACTGCAACAAATAA
TCAATGGTATGTATGTGAAATTTATAATAAAAAAGATGTATGGAGTTTATAATGAAAATACTGGATGGTGAAGTGGGTGATATAGTGGCATTAACATTTA
ACAGTTATTAGTTACATGGCTTATATAGAAACCAATTATCAAAGTGAGAAATATTGAAAAGTAATTCATTAACAACATATAGACAAAGCCTTAGCAGGCA
CCTATTTGGCATACAATAAAAGCATGTATCATGTTATTGTTAAAAACAAAACAGCTCTATATCTATGTATCCTCATCTTCCTGTCTGGTGGTGTCAAGTA
ATGGTGGAATAATCTATATTGAGGAATATTGAGGATGTCTMCAGTTTAGGACTAGAATGTCCTAAACTAGTCTCTAACTAGAGACTAGTCTCTCAGTTAA
CAGAGCTCTAATAGAGTAAGTCAGTTGTAAATAATCTTCTATAAGAATGTACAGTTATTTGTAACTGGAAAATAATTGACAATTCCATATCAACCCAAAT
TAATGCTGAACAATATTGCAAATGTCATTTTAGTTCATTTATGCAGTCTAAATCATAGGTTCTTCTTGACTGCAGATTCAGTTTATTAAATCCTGATCTA
TTTGTAATTTGCTGAAATGACTAGTTCCTACATATGGAAGCAATATGAAACCGATGTCCGTTTGTATCCATAAGTTATTCAGGTGTTTAAAACTTTTACT
TGAATAAAAGTTAATAGATATCTGCATGCTGTGATTCTGAAGTTTGTTCCTGTGCCAAAATAATAATAGTTTCTGAATTCATGTTTCAGTGTCAAGTGGT
TATTCATGAGGCTATGTGTGAAAAGGATTGATATATGTGATAAATTGGACTTTTTCCTTAGAATTCATTTTTGGAATCTTCTATAAAGGATATCAGTCTG
AATTAATTTATATGAATATTTGATATGCAAATATTAATATTTCAAATGGCAAAAGATAAGATTTTTAAAAATACAGATTGTGAAGGACATTTTTCAAGAG
ATAATGAATGTCTTCATTTTTCCATTTCATCAGTATTCTTGATTCCTTGTTAGATGCTGTGGTAGGTTAAATAATGGCTCCTAAAAGTTATACATTTCCT
AATCCCCAGAATCTGTGAGTGTTACCTTATATGGCATAAATGAGTTTGCAGATATAATTAAGAATCTTGAGATGGAAAGATTATCCTGGATTGTCCAAGA
GGGCTCTAAATGCAATTACAAGTGTCCTTAGAAGACAGAGAAAGGGGGACATTTGACTGCAAAAGAGGAGAAGGCCAAGGAGGCAGATTGGAGTGATGTA
GTCACGAGCCAAGGAATGCTGGCAGACACCAAAAGCTGGATGAGACAAAAAATGCAGTCTCCTTTAAAACTTTCCAAGGAAGCACCACCCTGTCGTCACC
TTGATTTTGGCCCAGTTATACTGATTTTGAAATTCTGGCCTCCAGAACTGTGAGAAAATAAATTTCTGTTGTTTTAAGCTACCAAGTTTGTGGTAATTTG
TTACAGCACTTATAGAAAACTAATACAGATTGATATGGTTTGGCTGTGTCCCCACCCTAATMTCATCTTGTAGTTCCCATAATCCCCACATGTCATGGGA
GGGACCTGGTGGGAGGTAATTGAATCATAGGGGCAGTTAACCCCATGCTGCTGTTCTTGTGATAGTGAGTGAGTTCTCACAAGACCTGATGGTTTTATAA
GGGGCTTCCCCCTTCTGCTGGGCACTCATTCTCTCTCTTGCCGCCCTGTGAAAAGGTGCCTTCTGCCATGATTTTAAGTTTCCTGAGGCCTCCCCAGCCA
TGCAGAACTGTGAGTCAATTAAACCTATTTTCTTTATGAWTTACCCAGTTTCAGGTATTTCTTCATAGCAGCATGAGAACAGACTAATACACAGATGCTT
TAATTTTATGGAGGGCTATGAGCCACAAAACTTATGGCTTGATCCTCTGGAGGCCTAAAGCATGATTTCAGGTGACAGCAAGAGACAGAATAAGGAAAAA
AAAAAAAAAAGGCTATCCTAAGGCTCTACAATCAATAAACACCAGAGAAATATATATCAAGTGTAGCACGAGTGAAGGAAGGAATCAAGAAAATCACGGA
GGTAAATATCTCCAAATTATTATCTTGCTTAAATTATCTGAAAAACTAAGGTCAAAAATGTTTTTTTCCTTGAATTGTCTAGGAAACATAGTTCTTTGTT
TATTCACTATGTAGAATTGCTGCAGTGTACTGGGAGTGTTCTGTATGCCACCTTGAGATTCTGAACGCAGTCTATCAGAACTAGTTTAGAATTGGCTGGT
ATTAGCAATTTTTCCTCATGACAGAACTGTTTTTCTTTTTTCCCTTGATATCACTTCCCTGGATATGATTCTTAGGTTCTGTTATTTTTCTTAATTTTGA
AACCTTCTTTGAAATACTTTTATTCATACCTTCACTTACTCTCCCTTTCACCCATCTGTTCCTTTTCAAACCACCTATCAAATTTTTACTAAGCACACAG
TACAGGATAGTCAGTTAGGTCCCAGATTAGCCAACCAAAATAAGATCCCTGCACTCCAGAACATTAAAATAGGGAAATCTAGACATGTACACAAATTAAT
AAAATATACRAAGTATAAGCTACAAAAAGGTACTGATTTTTAAAGCTAATATTAAAAAGCAAGATCTTAATAATCTAAGCTTCTACCTTAAGAAACTAGG
AAAAGAACAAGTAATCCCAGGGTAAGCAGAAAGAAGGAATGAATAAAGGTAAGAGCAGAAATCAACAAAATTAAAAACAAAAAAAGAGAAAATCAATAAA
ACTAAATAAAATCAATAAAACTTTTCTTTGAAAAGATCAATAAAAATGACAAACCTCCAGCAAGACCAACAGAGAAGACACATTTTATTAATATCAGAAA
TGAAAAAGGGATATCACTACAGACTGCATTGACAATTTTAAAAAATTCTATGCACATAAATTTGACAACTTAGATAAAATGGACCAAATGCTCAAAAACT
ACAAACTACCAAAACTCAACCAAGAATAGGTAAACTGAATATCCTGTAGCTGTTAAAGAAATTGAATTTGTATTAAAAAAAAAAAAACCTCTTCCAAAAT
AAATCTTCATGCCTAGATGTTTCTAATGAGAAATTCAAGTGAACATTTAAAGAAATAACACCAATTTTACAGTCTTTTCCAGAAAACGAGAAAGCATTCC
CAACTCATCTTATGAGGCCAGAATTACTCTGATACCCAAACAAGACAAAGACATTTCCAATTAAGAAAACTACAGACCAACATCCATTTTATGCAGTCAC
AAAAATGCTCAACAATGTACAGTTGACCCTGAAATAATATGGGGGTTATGAATGCCAACCACCCCCACAAGTGGAAAATCTATCCATAACTTTTGACTCC
CCCCAAACTTAACTACTAATAGCCTATGTTGACCAGAAGCCTTATGGAACATAAACAATAAAGTTAGCTAGAGAAAGGAAAATGTTATTTGTTACCATAA
GAGAACATATATTTACTGTTCATTAAGTGAAAGTGGATCATCATAAGTCTTCATCCTCATTATCTCCATGTTGAATAGAAGGTGGAAGAAGAGAAGTTGG
TCTTGCTGTCTCAAGAGTAGCAGAAGCAGAAGAGGCAGGCACACTTGGTGTAACTTGGAAATACACTGTAATTTTTTTCTTTTTTCAAGACAAGATCTTG
CTCCATTGCCCAGGCTGGATTGYGGTGGTGCAATCATAGCTCACTGCAGCCTCGAACTCCTGGGCTCAAGTGATCCTCTGGCCTCAGCCTCATGAGTAGC
CGGGACTACAGGTGTGTGCCACCATGCCCAGCTAATTTTATTTTTTGTAGAGACAATGTCTTACCATGTTGCCCAGGCTGATCTTGAACTCCTGTCCTCA
AGCAATCCTTCCACCTCAGCCTCCCAAAGTGCTGAGATATAGGCATGAGCCACCACACCCGGCTACACTGTAATTTTTGTCTGACTTTTTTGCTTTCTCA
TTTCTCTAAAAATGTTTCTATACAGTACAATCCATCTTCCACTGTTTGCTTTAGTTTCCATGTTGCAAAAGAAGTCAAAAGTGATCTTGAATAATCAGAA
CCCTTATGCCAGACTGTCTCATGTCATTTTGTTTCCTGGCACTGCTTCTTCTATGTCTTCTTCCACATCATTTGGCACTGGTTCAGAATCACTCAACTCT
CTCCTGTTGTCTTAACTCCTCTGGTGTGGTGTCTTGAATTTCTCCAAGATCCATATCTTAAAACCTTTCACCTCCCACTTTTTTTTTTTTTTTTTTTTTG
GCCATATCCACGTCTTTCATTTCTTTGATTAGGTCTGTCATAAATTCTGTGAAATGATGCACAACATCTGGACACAGTTTTCTCCATCAGGAATTTATTG
TTTCAGGTTTGATGACTTTCATGGCTTTTTCTGTAGCATAATCAATGGTATTATCTTTATAGACTTTTATGATGTCCTTTTGTTATTGTTGTTTTAATCT
TTCAGTCTTTTATTTTTATATAGTTTTCTTTTCTAAAAGGCCATCTCGGCTTCATATCATGGTTTCTCTCTATTGGGGGTTCTCATCCATAGCGTTGACA
TTCCTTTCCACAGAGTACCTCCCACGTGAAATGAGACTTAAAGGCCCTCATGACCTCCAATCTATAGGTTGAATTAGGAACCTTGTTTTGGGGAGCAAGT
AGACCTCATTGACACCTTCAGTGTTGAATCATGGGGTTCCGTGTGGCCAGGGACATTGTGCCAGATCAAAAAAACTGTAAAAGGTGGTCGCTTACTGGCA
AAGTACTTCCTGACTTCAGCGACAAAGCATTGATGGAACCAATCTAGAAAAAGGGTTCTCATTGTCCAGACCTTCTTGTTGTACAACCAAAAGACTGGCA
GCTGGTGTTTATCTTTTCCCTTCAAGGCTGCGGAGGGTAGGGCATTGAAGGGGGAGAGTTTAGCACCTTTATAGATAAGGGCAATCTTGATCATAAATGT
GACTGCATTCATAAAATGGTAGAGTTTGTTATCCCTTCCTGCCTTAAATCCTGGTGCTTGCTTCCCTTACTTACTAATAAATGTCTTCTGTGGCATGTTT
TTCCAGAATAGGGCACATTAGTCTGCATTAAAAACCTGTTCAGGCAGATATCATTCCTCCTCAATGATTTTCTTAATAGTATCTGAGAACTCATCTGATC
CTTCTTTGCTGGCAGAAGCTGCTTCTCCTGTTATCTTGACACTTTTTAAGTCAAACCTCTTTCAAAAATTATCAAACCATCCTTTGCTGGCACTAAACTT
TTGAGCTTAATATCCTTAAACTTCCTTTTGCATGGCTGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATTACCTG
AGGTCAGAAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTTTACCAAGAATACAAAAATTAGCTGGGCATGGTGGCATACACCCGTAGTCCC
AGCTACTCGAGAGGCTGAGGCAGAATTGCTTAAACCCAGAAGGCAGAGGTTGCAGTGAGCTGAGATGGCACCACTGCATTCCAGCCTGGGAGGCAGAGCG
AGACTGCATCTCAAAAAAACCCAAAAAACTTCCTTTTGCTTTGTCATATAATGACTTCACTTTTTTAAAAATCCTGTTAATTTACAGGTATGACTTCCTT
ATAGCAATCCTGTACCCACATAAAAGCTGCATTTCCAATATGAGATGAAAAGGTATTTTGCAAAAAGGGCAAGGTTCTCATGCCTGCTGGCATAGCTGCA
GCAACGGTGTTATGAATTTCCTTTTCTGTTTTTACAATGGTCCTTATGTTTTCTTAATTTATCTTGAAATGGCAGGCAACCACATCTGCAAACCTCAATC
CACAATGCATATCAAGCAATTCAACTTTTTCTTGTAATGTCATKACTTTGCTATGCTTCTTAGGAGCACTTCCGGCATCACTAATGTCACTAGTGGCATT
TTGAATGGGTCCCATAGTGTTAGACAAGGTTTACAATATTCCATTAAATACAATGAAAAATACATAAGAACTATGAGATCATTTCTTTACTTTGATATGC
AATTTACTGGAGAGACAAGCTGCTCTCACAGTTTAGCATCACAGCATGCRGTGTTTTCAGTGGATACTCACAACACTTGAGTTTACTGCAATAGCAGCAG
GAGGTAGCTATGAAATTATTACAATACTGCAATATGTACTACAGTTAATTTTATACAGTTATGATTTAATACTGCATATTTACGTTTGTTTACGTTTGTC
TCGACTATGAATGGCACCATGTGTAGTCTGTGTTTATGTGCCTAAATTTTGATAAATTTTAACTTTTTATAATAGATTTTATGTATGTGTAGATTTTATG
TAGTAAATGATAAAACAGGCCACTATCTACATATATTTTATGCATTCATGACATACCTAACTTTTTCTTGCTTTTTTGGTTATTTCTAGGCTATGCAGTG
AGTTTTTTCAAAATGTCACAAATCTCCAAAAAATTTTCCAATTTATTTATTGAAAAAATCCACATATAAGTGGACCCATGAAGTTCAAACCCAATGTTGT
TCAAGGGTCAACTGTATTAGCAAACTGACATCCAAAATATATAAAAAGAATAACATATCACAATTAAGTGGAATTTATCCTAGAAATGAAAGGCTGGTTC
AAATTTGAAAATCAGTCAGGTTTCAGATCAGAAAATAAGGTACCATATTAACAGTCTAAAGAAGAAAAMCCAACCATACAACCACATCAATTGAAGTAGA
AAAAAATATTTGACAACATTGAGCATCCACCCTTTTTTTTTTTTTTTTTTTTTTAAGAGACGGGATTCTTGAATGCTCAGGCTCAAGTGATCCTCCTGCA
TGAGCCTCCTGAGTAGCTAGGACCACAGCCAGAAGCCACTGCTCCTGGCTCATCATCCATTCTTAATAAAAACTCTCAGCAAACTAAAGAGAAGTAACTT
CTATAACCTAATTAAGGGCATCTACAAAAACATCCACAGCTAACATAAAATAGTGGTAAAAGACTGAATGCTTTCCCCACTAAGATTGTGAGCAAGGAAA
GGATATCCACTGTCATTGKTCTTATTTGATATCTTAATGGGMAGTCTTAGCCAATGCAATAAGGCAAGAAAAAAGACATAAAAGGCATATGGATAGGAAA
GAAAGAAATGAAACTGTCCCCATTTGCAGATTACATGCTTTTCTAAGTAGAAAATCCCAAGGGATATATAAAACACAATAAAAAAAAACCTTCCTAGGAC
AAATAAATGAGTTTAACAAGGGTCTCAGGATATAAAGCCAACATATAAAAATCAATCATATTGTTACATATTAGCAATGCACAGCTGAAAACAAAAATAC
AAACAGCTCATAAAAATAAAATATTTAGGTATAAATCTAATAAAGGATATATAGGAGCTGTATGCTGAAAACTACAAAATGCTGATCAAAGAAATAAAAC
CTACATAAGTGGAGAGCAATACTATGTTCATGAATTGGAAGAGTCAACATAATAAACATGCCAGTTCCCCCCAAATGATCAATACAGTTAACACAATACC
AGTTAAAATCCCAGCAGGATTTATTTTTTGTAGATATAAACAAGCCAGTTCTAAAATTTATATGAAAAGGGAARGAAACTAAAATAGCTAAGATGATTCT
GGAAAAGAACARTACCAYTGGGGAAATCATGTTACCTGAATATAAGACTTACAATGAAGCTACTGTMATCAGGACAATGTAGTATTAGTGAAGGGAAAGA
CACATCGATCAATGGAACAGAATAGAGTTCAGAAATAGACTCATGCAAAGATATGGTTCTATATGACCAGTGAATTTTTCAACAAAGGTACAAGAGCAAT
TTAATGGAGAAAGGATAATCTTTTCAACCGATGATATTGGAATAACTGACATCCATATGAAAAAAAATGGACCTCAACCTAAACCTCAGAACTCATACAA
AAATTAACTCAAAATGCATCACACATATAAATGTATGAAGTAAAACTATACAACTTTTAGAAGAAAGCAGAAGAAAAATCTTTGTGACCTGGGGTTAGAC
AACGACTTCTAACTTGACACCAAATGCATAATCCATTAAATGAAAAACTGATTAATTGGACTTCATCAAAATGTAAAACTTTCACTMTCTATACGATCCA
GTTAAGAGAACAAAAAGACTATCTACAGAAGAGAAGAAAATACTTTCAAATAACATATCCAATAAAAGRCATATCCAGAATTTATAAAGAATCAAATGGT
AAGAAAATGAAACTCAAAACTCAACAGTAAGAAAACAAATAACCTAATTTCAAATGGGCAAAAGGCTTGAAGAAGCACACCATCAAAAAGTATACTATGT
ATGCAGATGACAAGCCTATGAAAAGTTGTTCAACATCATTAGCCATTAGGGAAATACAAACTAAAATCACAATGAGATACCACTGCACATCTATTATAAT
GGCTAAAATAAAAAACGCAGACAATACCGAGTACTGATAAGGTTGCAGAATAACTGGAATTCTCCTACATTGCTGCTGGAAGTGCAAAATGGTACAGCCA
ATCTGGAAAACACTTTGGCGGTTTCTTAAAAAGTCAAACATATATTTACCATATGATCCAGCAGTACTACCTGTGGGTATCTACTATAGAGGAATAAAAA
CTTATGTTCATGTAAAAATCTGTAGATGAACTTTATAGCAGTTCTATTAATAGTTACCAAAAACTGGAAACCACCCAGCAGATGAATGCATAAACTGTAA
TACAATCATATAATAAAATACTACTCAGCAATAAAGGGAACTATTGATACATACAATTTGGATGATTGTCAAAGGCATTATGCTGAATAAAAGGATTCAG
TCTCAAAAGGTTACATACTGCATGATTCCACTTATACAACATTCTCAAAAACAAAACTATAGTGATGAGAATAGAATAGTGGTTTCCAGGGGATAGGAGT
ATGCACAGGGGTAAGGTCATGGGGATGTGACTATAAGAAATAACGTGAGGGAGTTTTTTAGTGATGGGACTGCTCTGTATCCTGATTGTGGTGGTGGTTA
TATGAATCTATACATGTGTTACATTAATAGAACTGTGAAAGCTTCCCCCCAACCCACCAAAAAAGGGTCAAATTTACTGTATGATTTTTTTTTTATCTGA
AATAAAAACCCCACAGGAAAAAAGTACTCGTTTTAAAATAGAAGTTCAAGAAGTAGAACAGTTTCTTCTGGGCTGAGAAAAAAATTAAAGGTTTCATGAA
GGATGAGGTATTTAAAAAATGTATGTTACAGGTACAGACTGTAATACTTGTTCACAATCTGTCTTCTCTGATAGACTATGTATAATGAGGGCAGGAGCAG
CGTCTGGCTTGTTCACCTCTATATAAGCAATAATTAAAGCAGTACTTTGCACACATTAGGGACTCAATTTATATATGATTGATCTATTGCTTGTGAGGCC
GGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAAATCGAGACCGTCCTGGCTAACACGGTAAA
ACCCCATCTCTACTAAAAGTACAAAAAATTAGCCGGGCGTGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAACAGTGTTAAC
CCGGGAGGCGGAGCTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGGATGACAGAGCGAGACTGTCTCAAAAAAAAAAAAAAAATGTATGTTA
GAGGTACAGCCTGTAATACTTGTTCACAATCTATCTTCTCTGACAGACTATRTATAATGAGGGCAGGAGCAATGTCTGGCTTGTTCACCTCTATATAAGC
AATAATTAAAGCAGTACTTTGCACACATTAGGGACTCAATTTATATATGATTGATCTATTGCTTATGATATTAATAGGCAAAGATACAATAACATTCTAG
GAAAAGTGAAAAACATTAGAAAATACCTTAAATTTTCATTTCCTCTCCTCTTTCTAAATCCCTCCTATCTCTTCAAGGTCACTTAAAGTTCAGTTACAGA
ATCAGGTTCCCCTGATTCTTCCAGCCCACATTCATTTTTCCAACTTGTCCAAACTTGCTCTAACACTGTCAAACTTAATCTAACATTTTAGTGTAGTACT
ACTTAGTATTTTAAAGACTATGCCTCATTTCCTTTAATAGTTATTAAAATGTGTCCTCTTTTTATATTATTTAAATTTTAAAATACATTATATTACATGA
GTAAAAACAAATCAAAGCACTACTTAGCTTCAAACTAAACTTCATTCCTTCAGTCCTCCAACAGATTTTCATCTACTTTCATCTACATCCTCTAAATTGG
TCAAGCCTTCCCCTCCTCTTCTGTTTCCATATTCACATCATTAGTTTAATGCTTAATGACTGGCATTTATTAAGATTTAATATTATTCCCTAACAGGTTA
ACATGTAACTCATTTCCTTAGCTTTCTTGTCCTGAGGACAGAGATGACACCTACTACTTATTTATTTTAACTAATTAATATGTAATAGATACATGCTAAT
TGGATGTCCCTGTGTACTATTCCCTAGCCTAGTCTACTCCTATTTTTACTTCTCTACTAAGAAAAAACTTTTTTTTCAAAAGCCAATTCTGGATACTTTT
GTAATGGATATTTAAAAAGGCAGAGAGAAATTTACTTTTTAGTAATTCCGCATACTATATCAGAAATTGCCAGAAAGCTTACAATACTGGCATTCTGGAA
CGATTTCATTTTCATAACATGCTGACATTAGCCTGAATCAGATAACTGAACTTAAGCTGGCCTTGAATTTAACTTGCTTACTCTTGTATTCAATTGGAAA
GGTAAGAATACAATTAAGAATATGTATTAAATGTTGAATATTTATCAACTGTGTCTAAAAGAAGTTGAAAAATATTTAATTTTTGAGAAATGGAACCATA
CTCCAACTCCTTTATCATATGTAAGTCTTTTTTGTTAAATATTCATATATATTTTTAGAAATGTATTGGGTGAAAAAAAAAAAGTACTCTTTTTTTTTTG
AGTCTTACTCTGTCACCCAGGCTGGAGTCAGTGGCAGATCTCAGCTCACTGCAACCTCAGCCTCCTGGGTTCAAACGATTCTCCTGCCTTAGCCTCCCAA
GTAGCTGGAACTACAGATGCACACCACCACACCTGGCTGATTTTTGTATTTTTAGTACAGATGGGGTTTCACCATATTGGCCAGGCTGGTTCGAACTCCT
GATTTTGTGATCCGCCTGCCTCGGCCTCTCAAAATGCTGGGATTACAGGCATGAGACACAGCACCCGGCCAAGAGCACTTATTATTATTTATTTATTTAT
TTGAGACAGAGTCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGGGTGATCTCAGCTCACTGCAAACTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCT
CAGCCTCCCGAGTAGCTGGGATTATTACAGATGCCCGCCACCACGCCCAGCTAATTTTTTTTTTTTTAATTTTATTTTTAGTAGAGACGGGGCTTTCACC
AGGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGAC
AAGAGTACTTATTATTAAAGTACTTTGTTATTTTTTGTTTTTTTGTTGTTGTTGTTTTTGAGACAGTCTCACTCATGTCGCCYGGGCTGGAATGCAATGA
TGCGATCTCAGCTCACTGAAACCTCTGCCTCCAGGGTTCAAGCGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGCGTCCGCCAGCACACC
TAGCTAATTTTTATATTTTTAGTAGAGACAGAGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCAGCCTCGGCCTCCC
AAGTGCTGAGATGACAGGCGTGAGCCACCGTGTCAGGCCTACCCCTCAGACTTTCAATAATGATTCCTAGAGTTCCTGGCTCACACATTACCTCACCACA
TGAATCTCATCTATATCCTCTRAATCAGGTCCACTATTTGCTTTATTTTTCCTCAAATCATTACAGTTCTTTTTTCCCCCAGAAATTAAGCTAGGCTGAG
CATCAAAGATAGGCTTTATAAGACTACGTAAAGATAGCAGGGCTAACTTTGAATGCTCTTAAACTTGCAAACTCATGAAGACTCATTAGGAGAAGAAGAC
TTAGTATCCCCATTATAAATTAGAATATGTTCTCTAATAAGAATGGGTGTTGGCTGGGGGCAGTGTCTCATGCCTGTAATCTCAGCACTTTGAGAGGCCA
AGGCACCAAATCGCTTGACCCCAGGAATTTTAGAGCAGCCTGGGCAACATGGCAAAACCCCACCTCTACAAAAAAAAAATATGAAAACSAGCTGGGTGTG
GTAGCGTATGCCTGTAGTACCAGCTACTCGGAAGGCTGAGATGGAAGAATCACCTGAGCCCAGAAAAACAAGGCTGCAGTGAGCTGAGAGCACCACTGCA
GTCCAGCCTGAGTGACAGAGCAAGACTCTGTCTCAAAAAAAATGGGTGTTATATGCCTGAATATGCATATAGCCATAGTGTCCAATACAGTTTGCCAAAA
GCAGTCTTAGAAGTCATAAAGGACCTAACACAGTGCAGAGAAATATAATACTATCCATCTCTCTAATAAATAAAATAATATGCTCACCCTCTGGTGGCCA
AAATGGGAAATACACATCCATTTTCTTGGATTATATCCAAAATATTAGTGTAGTATATAATATATTAAGTTTCTGCTTCATATTTAACCTAAACCAAAAA
GATTTTAAAAGGCCACTGACTTTTTTAAAAAAAAGTCTACCCCAATATCTAATATAAAATCAATAAAATTACTAAATATAGTAATTTAAGAATATGTCAT
GACTCATATATATATAACAGTACTTGATACTTAAACTTTAAATTTGTTTTAAAATATTAGAACTATAAAACTTTAAAGTTGGAAGGAGTTACAGTGATCA
TGTAAGTCTATAATTTAAAACTGCATGTTAGATAATTAGTTTTTTTAATTTGCTAATGAAATAAAAACATCTGGGTAAACAGAACTGAATAGTAATGAGA
CTTAATTTTTATATTTCTAGTTTTAATTTATAAATATGCTAAAGAATTCAGAAATATTCATACATGTAAATTCATTTTAATTTTCCACTCATTTTATCCA
ACTATCCTTCCAAGAGAGAATATAGTATATACTTTCTGCCCCGCTCCACTACCTCTCAGCAAGCTGAACTCRCTGCCTTAACTCGAGACCTCGCTCTCGC
AAAAGGACTAYGCGTCAATATTTATACTGACTGTAAATATGCCTTCCATATCTTGCACCACCATGCTGTTATATGGGCAGAAAGAAATTTCCTCACTATG
CAAGGGTCCTCCATCATTAATGCCTCTTTAACAAAAACTCTTCTCAAAGCCGCTTTACTTCCAAAGGAAGCTGGAGTCATTCACTGCAAAGGCCATCAAA
AGGCATCAGATCCCATCGCTCAAGACAATGCTTATGCTGATAAGGTAGCTAAAAAAGCAGCCATCAAAAGGCATCAGATCCCATTGCTCAGGACAATGCT
TATGCTGATAAGATAGCTAAAAAAAGCAGCTAGTGTTCCAATTTCTATCCCTCATGGCAGTTTTCTTCCTTCTCATCTGGCTACTCCCACCTACTCCCTC
ACTGAAACTTCCACCTATCTCTTCCCACACAAGGCAAGTGGTTCTTGGACCAAAGAAAATACCTCCTTCCAGTCTCACAAGCCCATTCTATTCTGTCATC
ATTTCATAACCTCTTCCATGTAGGTTACAAGCCATTAAGCCYGCCTCATAGAACCTCTCATTTCCTTTCCATCATGGGACTCTACCCTCAAGGAAATCAC
TTCTCAGTGTTCCAGCTGCAATTCTACTACCTCTCAGGGATTGTTCAGGCCCCCTCCCTTCCCTACACATCAAGCTCGGGGATTTGCCCCAGCCCAGGAC
TGGCAAATTGACTTTACTCACATGCCTCCAGTCAGGAAACTAAAATACCTCTTGGTCGGGGTAGACACTTTCATTGGATGGGTAGAGGCCTTTCCCACAG
GGTCTAAGAAGGCCACCGCGGTCATTTCTTCGCTTCTGTCAGACATAATTCCTTGGTTTGGCCTTCCCACCTCTATACAATCCGATAACTGACCGGCCTT
TATTAGTCAAATCACCCAAGCAGTTTCTCAGGCTCTTGGTATTCAGCAAACTGATGGTCTTTTAAAAAACACCTCACCAAGCTCAGCCACCAACTTAAAA
AGGACTGGACAATCCTTTTACCACTTTCCCTTCTCAGAATTCAGGCCTGTCCTGGGAATGCTACAGGGTACAGCCCATTTGAGCTCCTGTATGGATGCTC
CTTTTTAGTAGGCCTCAGTCTCATTCCAGACACCAGACCAACTTGGACTGTGCCCCAAAAAACTTGTCATCCCTACTRTCTTCTGTYTAGTCATACTCCT
ATTCACCGTTCTCTACTCATAAATGCCCTMCTCTTGTTTACACTGCCGGTTTACACAGTTTCTCCAAGCCATCACAGCTGATGTCTCCTGGTGCTATCCC
CAAACGGCCACTCTTAACTCCCTCTTAAAGTAAACAAATAATCTTTGCTGGCTGGGCTATGCTGAACCTCCTTGGGCACTCTCTAATTGGATGTCCTGGG
TCCTCCCAATTCTTAGTCCTTTAATACCTGTTTTTCTCCTTCTCTTATTCCGTTTAGTTTTTCAATTCATACAGAACTGTATCCAGGCCATCAGCAATAA
TTCTATAAGACAAATGTTTCTTCTAACAACCCCACAATATCACCCCTTACCATAAAATCTTCCTTCAGCTTAATCTCTCCCACTCTAGGTTCCCACGCCA
CCCCTAATCCCACTCGAAGCAGCCCTGAGAAATATCACCCGGCATTATCTCTCCATACCACCCCCAAAAATTTTCGCCGCCCCAACACTTCAACACTATT
TTGTTTTATTTTTCTTATTAATATAAGAAGACAGGAATGTCAGGCCTCTGAGCCCAAGCTAAGCCATCATATCCCCCGTGACCTGCACGTACACATCGAG
ATGGCCGGTTCCTGCCTTAACTGATGACATTCCACCACAAAAGAAGTGAAAATGGCCTGTTCCTGCCTTAACTGATGACATTACCTTGTGAAATTCCTTC
TCCTGGCTCAAAAGCTCCCCCACTGAGCACCTTGTGACTCCCGCCCCTGCCCGCCAGAGAACAAACCCCTTTGACTGTAATTTTCCTTTACCTACCCACG
TCCTATAAAATGGCCCCACCCCTATCTCCCTTTGCTGACTCTCTTTTCGGACTCAGCCCACCTGCACCCAGGTGAAATAAACAGCCTTATTGCTGAGAAA
AAAAAAAAGAAAAAGATTTCCTACTAAATAAGAACACCACACAATGAAAGCATTATTTATAKTTTAATAATAAAGTACATACCATGGACATAAAATGAAA
ATGCATATAAATTGAATAGATTATTATTTAGGTACATCAGTTAAGTAGCATTTAGYTGTTTAATAAATAACAGACTAAATCTGAAATAATTCTTAGTTTG
GTAAGTTCTAAGTATAATTATTTAAGAAATAAGAGAATATATACAATAATATATCCATTCTTGTCGTTCATTCAAAGGCATTACATGTTGACAAACCTGC
AMATAAAAATAGAAAGCTTTTACTCTCTTTTTATATATTGTTACTTTTGGCTAATTTTTAAACAGGACAACATTTCTAGGCCTTGTATAAGAATATCCCT
GTACAGATAAAATTCTACAATATTTGTCCTTAGCAGAGACTAGCAATCTATGATCTGAGGTCTAACAGGATAATCCAGTCTAAATTCTACCCTAACATAG
TAGCTGTCAGTTGGTGTGTGTGAATGTGGGTAAAGAAGAGTGGTGGAAAGAGGAGAAAATATCCTTTCCTTGCTAAACCTAGAGCGTTTTCTAAAATCTT
AATTGGAGAAACAGAAAAGATAATCTCTTTATCCTGTTCTGGAATGTTTTAGGATTTTATGGACAGTATGGAGAAAGAAAGGGTAAGAATAGGAAGCTTT
TTCCTTTCTCCCTTCACTTGCCCAGTAGGTAGCTCTATTGATCTGTCCCTGCCTTTGAACCCCTGGCTAAATCAGAAACCCAGAGTTCTGCTAACACCAG
AACTACAGCTTTTTCTAGCTCTTGACTTACTTGCTTATTTAAAACTCAGAGGCATTGTCCCTCTCAGGATACTTTAGAAAATCTTAATAATGCAGATAAA
AGCATTTTGGGTTATCAAAATTATTGTTACTATTAATACTTTACATTTCTATATGATGTAAAAAGTACTTTCATGTACATACATCATTTTATTTTTATCC
TTACTTTAACTTTGTGAAGTACATAAAACTAGTGATATTATCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTTGTCGCTCAGGCTGGAG
TGCAATGGCGTGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGRATTACAGGCGTCTGCCACC
ATGTCCGGCTAATTTTTGTATTTTTGTAGAGATGGGGTTTCACCATGTTGGCTAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCTAGTGATATTATCYTAATTTTACATTTAGAGAGACTGGAACATAGAAATAAATGAA
CTTCCCATAGTCACTCAACCAAACAGTGACAGAACTGGATTAGAACCAAAGTCTCCTGTCTCTGAGTATAGAATGATACTGATACAAATATCATACTTAA
AATAATTTTCCACTCCATTTTATATTTACATTTTACTCATAGCATTAATAGCAAATTTTTTTCAAAGAYATAAAACAAAAGGCTTTAATTAGAAAATAAT
ACATTACCATTGTAGATTTGGGTCCCACTTCTACTGCAAATATGTTGAGTCCTCTGTTGTTTATGCAGTTTTTACTTAGCTCATTGCTGATGTGAATAAT
CACTTTCTCATCTGACTATTAAAAAAAGATTTCATAAGCTGCTATTCCTTTCTTTAATAATTACAGACAAATATAAGCCTCAGAATAAACCCTGAAATTC
TGTTTTAACATCATATAGTGCACTACAAATTCATACAAATTGGCTACTTCTTTCAACTTTGTTACTTTTTCTCATTGATTTTCTTTCCAATCTGTCACCA
TTTATATAAACTTTTTCTTTTAAATGTGACTTAAACTTACTTACCTTTTAATCTTCATTCCCAGGGTATTATGGACACTAGGGTCACATTATTTCATCCT
TGACTTATGATAGCAATAGTGTCTATTTCTTTTGTTGTTATCTCTAGTTTTTTCAACTTCCATTCATTTTAATACTACCTTCCAACTAATATGTCTAAAA
CATCTTTTTACTCCTTCATTGACAATATATAAACAAATATATTTATTATCAACTTTGTATCAGGCATTGTTTTAGGGTCTAGGTGCACTGAGATAAAAGA
TAGAATTACTGACTCCTAGCTCACACTCTAGGGGAGACAGACAAATAAAATGACAATTACAAAACACTTTGCTGAGTCTTGTAACAGAGGTATTTAGAAG
GATCTATAGAAACACAGAAGATGAACATTAGCTCGGACTGGGGTTTCAAGAAAGACTTTATGGAAGAAGTGACAACTGAGATAAAAGACAATGGCCTCTA
GGATGGATAGGGAGCAAGGGAAAGCAGAATGACACTGATAAATGGAGAAAATGCAGGAATAAAAATATTCCCCTACTAAGAATCTGCGATCATACCCTAA
TGACTATAAAGGGGGTAGTATAATGTTAGACTACCTGAATTTATTTGTCAACTCTTCTACTACTTAGCTGTGTAATCATTTGCAAGTTATTTAACTGCTC
TGTGCTTCAGTTTCCTGTTTGTAAAATGAGAATAGCACTTATGTCATAGGGTTGTTGTGAGAAGTAAATGCTCTAATATATGTAAATGCCTGGCAAACAA
TAAGGTCTAAAATGTTCACATTATTATCACATTTTGGTGAAGAGAGTTGAATTTTCCTTGAGGAAAAAGGAGGCAGAGAATTGAGAACTAATAGGTGGTA
GCAGAACAGAGGGGTTGGGGTAACGTAGTAACTCCCTTCACCTTTTTAACCCTAATAAAACATAGAGGGCAGAAAGGGAACCATGATGCATCTTAGGAAT
CACCCTCTGAGGCATGATTGGTCCATTTGAAAACTGCAATCTACTAGGTGGGGACCCAAGCTTAGTTAATCAAGTCTAAACTCCTCTATCTCGTTTTCAA
GATAACATATATAATTTGGATCCATTCTGTATGTTATTTACCTCCTAATCCTCCTCCAAATAAAGCTGTCTATTGCTGCAAAGCAGATATTCTCACTCTT
TCCTTTATACTTCATATATACCCTTCGCCTTGTTTCGCCTTACACTGTTTCCCCTGCTTCTAAAGGCTGTCTGTCTGCATATCTAAATCCTAGTCATCCT
TCAGTGCTYAAATCCCATATCACAGTTCCCTTGCCCCTCGTAACAAATCCTTCCCCAACYTCTATGGTCCAAATTAACAACWACTACAAGAGAAACAGAA
TAAAACCCCTATTGCACACACAAACAGTACTACATTATGTAACGTTTAATTATTCTCTGATGTCTTTCAAGAGTATTAATTTTGTCTTTCCAATTATAGC
CCATAAACTCCTTGAACGCAGAGATCAAGTTTTACACTTTCTGGTTGCTCCTATTGTGACTAAAATAGTTACATAATATATTCTCAGGTTGACTAAAAAC
GCTGCCACATCTTAAGTATTTTAAGAAATTTATGGCAGGCATAAAAATATGTCTCACGTAGGACCTAAAAGAAATAAGTCAACAGTACTGAGCACCTAGC
CATCTTATATAAAGTTTTATGAAAATTTATAATTTCTAGAGAACTGGATATTTCTGACTAAGAATTTATGCTCGTATTCTCTTGACCTGTAATATCAATA
GTATTAATAGCAGGGAAGAGAGCCAAAGGTAGAAATAATCAGCTTGATGAAAGCAGGTCTTGGGACAGTAGAATACATTTAGTTATATTAAATAATAATA
ATTTATAGGATCTCTGCAACGTTAGTGTAAAACGCTGGGTTGAAATTTTTCCTTTGCTTATAATATTTCTTTAAAACATGATATMTATTATTAAAATAGC
TATGTATACATAAAAACTTTTAGAAACAAACTAAATAAWATACTTTGTACCCAGATTGTGCTCTATATTCACTAATATCCAAATGTTTAATTTTCCTAAT
ATTTTAAGAGAAAAAATTGGAAACCTTTAAAAATCATATAAAAATTACCACTCCCAGTTTGAGTTAGAAACCTGAGGAGAAAAAATAATTATGCATTATA
AACATTATTAATGTGATGGGATACTTAATTACCACATACGAATAGAGTAAGGAATAAGATGAAATATATTAGTAAGCTTTGTAGCAAAATGAGGAAAACC
ACCTCATAATTGATACCTTGTTTTCAATAACTGACGTTATCCAGGTGTCACAACTGTAAGTATGCACGATTATATTTTCATAGCCATCCATTACTTTGGC
ATCACCGTTGCTAAGAACAGATTTACAAATGGCCTTCTCAAGTTGTCCACTACATGCCTCCATATGGACAGCTTTAATTTTTGGCTTGCATTTTTCTGCA
TAGATATCAATGACAAATGGACATGCCTGATAGGAAAAAAAAATCTTGTTTCAGCCTTTTGATAGAATTTTAAATAAATTATTAATATGTTACCATATAA
GAAGATATGCTATACCTTCTAGCTTGTCCTTCTAATAAACTTTTAGAGGAAAATTTTAGTACTATGAATTGAGTAATAAGCAAGCATGAAATCCTGACTT
TTTGGTAGCATATTAACTGATAATGTTCATAGAAAATAAAAGAAAATAATAACCTCTAGCAAATCAGTAATATACCACCTTCTTTAAACCATAATACCAT
CTCTTCATTTGGTTCAATGCTAACAAATACCATGTTATTTAATTTTCTTTTCTAAAGTGAGGGTTACAGAAAGAATTCATCAAAGGTTTCTACAGAAATT
ATTACATTTACAATTGAAGCTTACTGCATGGATACAGAGCACTGACTAAACGTTTAGTCTAAAAACACCTTTAAAATATGAGACTTAAAAATATTTTCTG
CATTCCGAATGAAATTTTTCTAATATCTACCTTAGTCTTTTTACCACAGCCTACAATGTGGTAAAAAGCCAATGTGGTAAAGAGCCTTTGCCTCTCCATC
CAACCTGGTCTCCTGTGTCTCTATGCAACAGCTATCCTGATCTTTCAGATCCTAGAGCAAATGAAGCCCTTCATACGTAGTGTTCTCTCCACTGGGAAGA
TTATCCTTATGTATTTTCACATAGGTACCTTGTCTTCCTGCTTCAGGTTAAAGCTTAAGTGCCACCTCTGCAGAGGGATCTGCTCTGGCCCCCCAATCTC
CCTCACTCCCCCACTGTTCTCTGTTCTCTACTTCAGCCTTTGAGTTGTTTCAAAACACCTTTGAAATAATTTTTTTTTTTTGGAGATGGAGTTTTGCTCT
TGTCGCCCAGGCTGGAGTGCAGTTGGGTGATCTCAGTTCACTGCAACTTCTGCTTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGC
GATTACAGGTGACCACCACCACACCCAGCTAAGTTTTGTATTTTTAGTAGAGACAAGGTTTCACCATGTTGACCACACTGGTCTTGAACTCCTGAACTCA
GGTGATCTACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCGATATAATTTTATTTTAATTAATTAATCATTCTCC
TTCATGAAATATAAATTTCATAAGGGCAGGAACTTTGACTATTTTATTCATCTTTGTATCCTCAGTGCCTCTTTCCTGCAGTTATCACATAGTAGGTATT
CAATAAGTATTTGTTGAATAACTGAATAAATTCACAAATTGGTGGTCATCTTTTAAGAAAATAAAAGAAAGAAGTCTGAAGTTAATTTTAGTAGACTATA
AACAGAAATTTGTGTTTTAAAAAATATTTTAATAATATAAAATAAATAAATATAAAATAAAATAATTATAAAATATTTGTATAATAAAAATATTTTAATC
ACTTCAACCTTTGGCAATAATAAATTTGCCTTTTTAAGAGAAATAGTAGAATGAAAAATCATTGGACTAAAAAGTAGAAGACCTGGGTTTATTTTTCATA
CACATCACCTTTGTAAAAATTTTTAAAGATTATTTATAATAATTATGAGTATGGCATTTTTAAAGGTTTATTTGTTCAGTACTGGTAAATTCTGGTAATA
TTCTGCCATTTTTTAAGTCATGRYTATCAGTTTTATTCAACCAAAGAGGATCAATATTTGAATATTCACTGAAAGCAAAACATCTTAAAAGGTCCATGTT
AAAACATATTCTCTAATTTTTTTTCTTTTTTTTTACACTTTTAAGTTCAGGGGTACATGTGCAGATTTGTTACACAGGTAAACGTGTGTCATAGGAGTTT
GTTGTAAGATTATTTCATCACCCAGGTAGTAAGCCCAGTACCCATTCGTTATTTTTCCTGATCCTCTCCCTCCTCGTACTCTTCACCCTCTGATAGGCTC
TAGTGTGTGTTGTTCCCCTTTATGTGTCCATGTGTTCTCATCATTTAGCTCCCGCTTATAAATGAGAACATGTGGCATTTGGTTTTCAGTTCCTGCATTA
GTTTGCTAAGGATAATGGCTTCCAGCTCCATCCATGTCCCTGCAAAGGACATGACCTCATTCTTTTTTATGGCTGTATAGTATCCCATGGTGTATATTTA
CCACTTTTTCTTTATCCTGTTTTCCACTGATGGGCATTTAGGTTAATTCCATGTCTTTGCTACTGTGAATAGTGCTGCAATGAACATACATGTGTATGTG
TCTTTATAAAACAATTTACATTCCTTTAGGTGTATATCCAGTAATAGGATTGCTGGATTGAATGGTATTTGTCTTTAGGTCTTTGAGGAATCACCATACT
GTCTTCCACAATGGTTGAACTCATGTACACTCCCACCAACAGTGTATAAGCATTCCTTTTTCTCCACAATCTCAACAGCATCTTTTATTTTTTGACTTTT
TAATAATAGCCATTTGGACAGGTGTGAAATGTGGTTTTGATTTGCATTTCTCTAATGATCAGTGATGTCGAACTTTTTTTCATATGATTGTTGGCTGCAG
GTATATCTTCTTTTAAAGCGTCTGTTCATTTGCCCATTTTTTAATGGAATTTTTTTCTTGTAAATTTAAGTTACTTATAGATATTGGATATTAGACCTTT
GTCAGATGCATAGTTTGCAACAATTTTCTCCCATTCTGTAGGTTGTCTGTTTACTTTGTTGATAGTTTCTTTTGCTGCACAGAAGCTCTTTAATTAGATC
CCATTTRTCAATTTTTGCTTTTGTTGCAATTGCTTGTGGCATCTTCACCATGAAATCTTTCCCCATGCCTATATCTTGAATGGTATTGCCTAGGTTGTCT
CTCAGAGTTTTTACACTTTTGGGTTTTACATTTCAGTCTTTATCTTAAAATTTTTTTKTTGTTGTTGTTTTTTTTTTTGAGACGGAGTCTCGCACTCTCG
CCCAGGCTGGAGTGCAGTGATGCCATCTTGGCTCACTGCAAGCTCTGTCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTA
CAGGCRCCTGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAMAGACGGGGTTTCACCAGGATGAAGCCAGGATGTTAGCCAGGATGTCTTGATCTC
CTGACCTTGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCRTGAGCCATCACACCCAGCCCTAGTTAATTTTTGTATATGGTGTAAGG
AAGGGGTCCAGTTTCAATCTTCTGCATATGGCTAGCCAGTTATCCCAGCAACCATTTATTGAATAGAGAATCCTTTTCCCATTATTTGTTTTTGTCAGAT
TTGTCAAAGATCAAACAGGTGTAGGTGTGCAGTCTTATTTCTGAGTGCTCTATTCTGTTCCATTGGTCTATATGTTTGTTCTTGTACCAGTACCATGCTG
TTTTGGTTACTGTAGCCCTGTAGTATAGTTTGAAATTAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTTGCGTAGGATTGCCTTGGCTATTCGGGCTCT
TTTTTTGGTTCCATATGAATTTTAAAATTTTTTTTCTAGTTCTGTAAAGAATGCCAATGGTAGTTTAGTGGGAATATCATTGAATCTATAAATTGCTTTG
GGCAGTATGACCATTTTAACGATATTGATTCTTCCTATCCATGAGCATCAAATGTTTTTCCATTTGTTTGTGTCATCTCTGATTTCTTTGAGCAGTAGTT
TGTAGTTCTCCTTGTAGAGATTGCTGGCCTCCCTTGTTCACTGTACTCCTAGGTGTTTTATTCTTTTTGTGGCAATTATGAATGGGAGTTCTTTCGTGAA
TTGGCTCTTGACTTGACTATTGTTGGTGTATAGGAATACTAGTGATTTTTGCACATTCTAAAATTTTTAAATTAAAATCTTATCACATCTAAAAGAACTG
CCCTATAGTTTTATTTTTTCTTTTCATGGGCTTGATCTTTTATTTACTTATTTTCTTTATCCTACTAACTTAATATAGGAAGCAAACAACAAGCAAGAAA
ACTATTAACTGTAAATTATTCATTGTAAAATTATTAACAATATATGTGATAAGGAAGAYGGGGAAGACTGCAATAATAAAACCTAGATTATGGGATGTTA
CTTAAATTTAGCACAATATTTAGCTCTCAACTACCTGTTAACMYATACAAAAGGGAAATAAAAAGTTATGTAGTGCTTAAACTCTAAAAAAGAAAGTAAA
TTTTCCCAGTTCTGAATCTAGAAAGAAATTAATATCATGAAATTCTATTTTAAAAAGGAAAACAGAAAAAAAAGGGGGGCAAAACTAAACATGTAAGTTT
YACTTCTCAAATTCAGTAAAAGAGCAACTATTCAATTACAGTATATAGGGGCAATGCCCTTATAAAGAAGTTATATTGCTCTTTAACAGAGGATCTTCAT
AGGCTGATACAGGGAATGTGTAATCAGTAATTCTACAGCCTAAATTAGAGAATTTAATAAGGAAAAATAAAGAAATAAGTAATAAGAATKTAATAAGAAA
CAATAAAGAAATTTAGTAAGAAAAAAGATTTTAAATCTGTTCAACTGATGAGGAACAGCTCCACTTCAATTAACACACTTATGTTAGGCAACCAGTGTCA
GCTCCTCAGTTTTGAAAGTCAGGCAATCAGAGATGGATTCACATCAGTAAATACACTGCTTAGTGCCAACCAATCAACAGTCTCATCCAAGTAACCATGC
TTCCCCAGATAGTATTAACTCATTTATGCCTCTAAAAGCCAGGCAATCCTTGAATTCCATACCTCCCCAAAACCCTATATAAATGAGCATTCTGCTCTTA
GCCGAGAGACTGTGCCTGATCAGCATAGCTCTCCTTTATAGTAAGCAATCAATTCAGCTTTGTCTTTTTATTTCAGTTACTGAGTGGCAGTCTCATCATC
TATTGATACTTTCCAATGTATACTGTATTTTTTTTACCTTTTGAATTTAAATGATACAAATAACCTACTCAATAAATAAATGAAATTTAAATTAAATTAA
ATGTTAGCTCAGAAATCCTTCTTGCTTATAGTTTCAAAGGTAAATGACATCAGTAACTGTGGTAAAAAGTCTTAAATTGCTCTTAACTAATTTCCCTAAT
AAGCAACAACATGGGTAGCACAATCAATATTGTTCCTAGATTAGATGCTGATTTTACACATGGTTAAAATGTGGGAGTCACTGACTGTTAGGCTCAAGTA
GGATATAAATAGTTACCATAACTATTCACCTCCTATTTCTAAAAATGGGGAAAGAATAGAGAACCTCTCACCAAACAGGTTAATGAAGGTTTTGAATGAT
GTCAAAACTAGGAATTAAACCAAAGTCTAAATGTATCTAAAATAAAATTTGTCAAAGTTAGTATTGCCCTCCTAAGTTGATTCAAGTATGGAAAAAGGAC
AAATACTATTTTTAATTTTAAGAGTATAAACAAATGTACTGTTATGTAACTTGTGGCCTGAAACTGAAACTCTTAAATTCTATATTTTAAATCTGACATA
AAATATAGAAATTAGCCTGGGTAAAACAGTGAGACCCCCATCTCTACAAAAAAAAAAAAAGTTAAAAAATTAGCTGGGCGTGGGGGCATGCACCTGTAGT
CCTAGCTACTCAGGAGGCTGAGGCAGGAGGCTTACTTGAGCCCAGGAGGTTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCAGGGTGAC
AGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGTTTTAKATATATATATATATATATATATATATATATATAAATTAAGAAGGCCTAATTTTTAAA
TTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAACTTCTATACCTATCATGTTAATGATAATAATGATGATAATAGCTGATACATACACAATGCT
TTGTATGAGCCAGCCACTGTTCCAAGTGTTTTACAAGTATTAACCCCAAAAGTACCCTTTATAAAAAGACCAGAAATCCAAGTTCTAATGCAGACACAKT
CTCCTTATTCTAAGAGAGCCTTTAAACTGTTAAGACAAAGTGTTTCCCTATAGAAATGAGACTTTAGTAACTCAAACTGCCTTTTCCAATTTTAATTTTT
TTAATACCAAATTTTTTTCCTGCATATTATATGCTTAGACTCTTTTGTCTTTGAATTATTTTAATGTTGGCAGTAACTAAATTTCAGGTGAGAACAAGAA
CTTGTATAAACTAACAGAAACATGTTGTTGCACCCAGGATTCATTCATATACTAAAGTTCAAAGATTTGGGTGCCCAATTCGAAAGTTATATGTCAGGAA
AATGTTCATAAAGTAAAATATTATGTACATTAAACCCATTGGCAAAAGTTTAAGAATACTTTACCTCTGTCAACTCCAGAGCTTTATTGTAGCCCATAGA
GTGTAGAGTTACCCAAAGGTCACAAGGATCTCCTTCTCGATCATTAGCTTCCATTAGATTCAAATCCATAAATCCTTGTCTTGTTAGTTCATTCCTCTTT
GTATCAAAATTCTCTGTTTAAACAACCAAAAGTTKTTTCTTACATAATTTAAAAATTCATAACTTTAATAAAATGTCTATGATATATTATTATTCATAGA
TATTTATTTTAAAAGAGGCCTATGAATCTATGAGCAGGATAAAAGTGGAATAAAAATGGCTCAAAACATTATTGAGAGCTATTCTTCTAGTTTCCCATAA
CTCAGCATAGATATATCGTAGTACACAATTTCATTTTTCAAAAAATCCTAAAGTTATAAATAGTGCAAATATATTCTAAAATTAGAGGAAACTGTAATAW
TTCTGGGTAAATTCCAATCTGCCTGGTTATTTAGAGCATACGTTGTTATATATTTCAAAGAATTAAAATGCTTCATATGTATTTGCCACTTAAAGCCAGC
AGAAACTGGATGAATTTGATATAATACTCCCCAAACTACTGAGTTTCAGAAAGAAAAAYGGGAATAGTGTCATATTTAAGGAGATTACTATATGCCTGAT
TCCTCTAATTTTAGCTAAATTGTCCCCAAGTCTTGAAAGACTGACAGATAATGGGGAGCACTTTGGAATCCATGAATCAACTACATTTTCCCAGGTAAGT
CTATGCCTGTTTTAACACTATTTATGAGCAAAACTAAATTTACCTAGAAGTATCTAGACATGCATAATTCCTGAATTTGTCTGTAACATGGATAATAAGT
CGTTATTTATTATGGATATTTTGTTAGCTATCCTACAACAGGGAAGATTTTATTTCCTAACTTCCATCTATAATATATCCAAGGGAAATGGGTAGTCTTA
TTTGAGATGGCATCTCTTTTGTGTGCATTATTGTGAGAAAAGCAGCAGAGACATAACTGTGTAAAACCGGTTGACTGATTAATAGCTTAAAACATTTAGA
AGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATAGCCTGAGCTCAGGAGTTCAAGACCAGCCTGGCCAACAT
GGTGAAACCCCATCTCTACTAAAAATACAAAAAATAAAATTAGCCCGGCATGCTGGCATGCACCTGTAGTCCCAGCCACTTGGGAGGCTGAGGCAGAGAA
TCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGTACTACAGCCTGGGTGACAGAGYGAGACTCAGTCTCAAAAAAAAAAAAA
AAAAAAAAGTTAAGAGTTTAAAGTTATTCATAACTTTTTCAAGGGGAAAAAATAAATGCAGATTAAATTCAATCATGAAGAGAAATGGTAGCCACAAAAA
TCGAGGTTAGAGCTACTATGTAGAAACGATGAAAAAAATATTTGACATATAATACAAATACATTAAGAAACCTATCTAGATACTGTACTATAGAGACTAT
CAAAAACRAATCTACTTTTTAAAACTTAAAATTCTCAATCCTCATTAATTTTTAAAAAATTAACACTTGGGCCAGGCGCAGTGGCTCACGCCTGTAATCC
CAGCACTTTGGGAGGCTGAGGCGGGCAGATCAYGAGGTCAGGAGATCGAGACCATCCTGGTTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAA
ATTAGCCGGGCGTGGTGGCGGGTACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGAATGGCGTGAACCCGGGAGGTGAAGCTTGCAGTGAGCCAAGA
TCACGCCACTGCCCTCCAGCCTAGGCAACAGAGCAAGATTCCATCTCAAAAAAAAAAAAATTATTAACACTTGACTCCAAGACTTACTATAAAGCCACAG
CAATCAAGACAGTGTGGTAATGGTGAAATAATGATGAATAGATCAATGGAACAGAATAGAGAGCCCAGAAATAGACCGACATAAATATATTCAACTGATA
TTTGACAAAGGAGCAAAGGCAATTCAATGGAGAAAGGATAGTCCTTTGTAAATGATATTGTAATGGTGGATACATGATGTTACATATTTGTCAAAACCCA
TAGAACTGTACAAGACAAGAGTGAACCCTCCAGGGGTTTGAGACCAGCCTGGGCAACATGGTGAAACTCATCTCAACAAAAAAATACAAAAATTAGCCAG
GTGTGGTGGCACACACCTGTAGTCCTAGCTACTCAGGAGGCTAAGGTGAGAGGATCGCTTGAGCCTGGAGGCAGGGGTTGCAGTGAGTTGAGATTGCACC
ACTACACTCCGTCCTAGGCTAACAGTGACTCAAACAAACAAACAAAAAGACTGAACCTAATGTAAACTATGAACTTTAGTTAATGATTATGTATCAATAA
TTCACTCATCAATTGTAACAAAGGTATCATACAAATGCAAGATGTTAATAATAGGGAAAACTTGTGGGTGAGGAGGAATATATGGAAGATTTCTATTTTT
TTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGCAGCATGATTTTGGCTCACTGCAACCTCCACCTCCCAAGCTC
AAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTATAGGTACCTGCCACCACACTTGGATAATTTTTGTATTTTTAGTACAAGTGGGGTTTCAC
CATGTTGGCCAAGCTGGTCTTGAATTAMTGACCTCAAGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCCAATTTTTTTTTTTTTTTC
TTTTTAAGAGACAATTTGCTCTGTTGTCCAGGCTGGTCTTGAAATCCTGGCCTCAAGTAATCCTACTGCCTTAGCCTTCCAGAGTGCTAGGATTATAGGC
ATGAGCCACAGCACCCAGCCTGTTTTTTCTGTAAACCTAAAATTGCTCTAAAAATAAAGTTTATTAGGAGGCAGTGCTTGCAGTGAGCCRAGATCACGCC
ACTGCACTCCAGCCTGGGCAACAGTGTGAGACTCCATCTCAAAAAAATAAATAAATAAATAAACAAAATAAAGCTTATTAATAAACAAAATAAAAATAAA
GCATCTTTAAGTGTAAAAAAAGTTTATTAAAATAATCTTACAGATAAACAGTACATTTTCTTATTATTCAGGGGAAACATTAAAACCTTAAAAGCTCTCA
TTTCTTTGCAATATTATTAATGTTGGTAAAGTAGACATTCCTCCAAATCATTTTTCAAGTCAATAACTCTTGGAGACTTTTTGATAGCATTGAGTTCAAA
GTTCTGGAGCCTATCTGTGAAACTTTCTTGCTGTGTAGCCTTGGTCAGGTTACTTAACCTCTAATTCTATTTCCTGATTTATAAAGTGAGAATAATAAAG
TACTACTTCATAGAGTTGGTGTGTAGAAGTGCATAGATCAGCAGCTGGTACATGGTAGATGGTAAGCTATCAAAAAATGTTAACCGTCAACTCTGCCAAT
TCAATTAAAATTTTAAATTAGAATTTTACTTATCACAAACTTTACCATCAGAAAGCCACAAATTCACTCTTATGGAATGTTCTCTAGTGCCAATTAAAAG
ATTATATCATTAAAGTTACAAGATAATTACATCTTCCTATAGGTAATACTCTATTATGTATATTATGAATTTTATTAATCACAGTTTAATATTATAAATC
AATATACATGTATTGCTGTTGATTATATTAACTTTCAGCTAAAATAGAAATACTGAAAGATTCCTTTATATAAATAATATACTTCTCTACCCTACTTGCT
GTCTAGGTAAACAGACTCCCAACCTGGCTCACTTTGCCAAGCTTAGACCATTTTAAGACCCACATATAGCTATCCCAGTGAAAGCATACGTGAGTTAATC
TCTCTTGACTGAATTCTGGTCTCCTCATACCTCTTGTTCTGTGATCTATAGTTGGCTATGGCTTTTTGGTTTTCCCTCGACCTTGGGGTCTTTGGCTTAA
ATATGCAAGTATGTCTTCCCAGACTCCTTCTAAGTGATAACTGACTTTGCCTCATTCTCAGTGATTTTCTTTGTCCATCTTGGCATTTTTGGCTTCAATA
TTTCCATAAATGGACTTTTTAAATTCAACTCAAATACGAAAAGCACTGAAGAATGTTTAACATGTATAATATAAGCAACTTCCTGGAAACCTTAATTTGT
GAGTAAAACTCTAGCTTTTTGGCTTTTTGCTGCCCTCTCCTGGTCACAGTTTGTGGTTCTTGACCACTTCAGGCCCAGTGGTATCAAGYGCAAGGACAAG
TTTTTTGTCTTCTAAACCCCGAAGAGTAGAGAATCAAAACTAAAATTATGATTAAGTAATTCACACTTTCTTTTAACTTGAGTATTATACCAACTATCGG
TTTAAGAAAAATAAATGTTTAAGTTTTTATGATCTACAAACAATACTACTTTCAAACTGTCCTAAATGCTATAATAATATTTCATGCAGAAGTTTGACTT
CTCATTTCTTAGAGATGAAAAGGTGCTATATATATATTTTTATACATCTGTTAAGGAAAAGAAAAGTGCTTACCTCTGCAGACAGCCCAAGCATCTTCAT
CACATTTCTCACCACTTGTTCTCAATTCAAAAAAATTATATTCTTCAAGGCTAAGAAGACCATTTCCATCTAAATCAATTACTTCAAATATATCTGATAA
AGTAGACCTAAAATTATAAAAATAGCTAGTTATTTCTTGTCACTAAGGCAACTACGCTGAAGAAGGGTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTC
TGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCACCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGG
GACTATAGGCGCCCGCCACCACACCTGGCTAATTTTTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCTCTACTAAAAATTTTAGCCAGGATGGTC
TTGATCTCCTGACCTCGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCACCGCGCCTGGCTGAAGAAGGGTTCTATGAGGA
TAACATTCAAAAGGAAGTAATATAGCGTTACACAATTTCTGTAAACTATAAAGTTAATGTAACCAAATACAGTTTTGGCTCAGTCCAGTATTACATGAGA
TAAAAAAGCTTCTAGAACAACCACAGTATCTCAACACACAGTAAGAACTCAATGAATAGTAGTAGTTCCCTTCTTTTTTCCTTTCTCCAATCTACTTTCT
TCTTCCTCTCTACCAATAGGGAGAAATTGTCGATGTTTGACTGAAGTTGACTTGCCAAATGTGTAGAACCCACAAGTAAATGAAAATCCCAGATCTGCAA
ATGGAGGAACATTTTCAGATGCCTAGAGAATGAGCTGTTTTGTTTTGATATATATATTTATGGTGTACAATGTGATTTTTTGATATATGTAGACAATGTG
AAATGACTAAAGCTAATTAACATAGCCATTATCTCATATATTTATCATCTTTTTTTCTAGTGGGAACATTTAATATCTATTCTCTTAGCAATTTTCAAGG
ATACAATATATAACTATAATCACCATATTGTCAACAGATCTCCTGAACTTATTCCTCTTATCAAACTGAAATTTTGTATCCTTTCACCAACATATCCCCA
ACCCCCCCACTACTTCCAGCTGCTATAACCACTCTTCTACTCTCTGTTTCTATGGGTTTGACTTTTTAAGATCCCACATATAAGGCTGGATGTGGTGGCT
CACACCTATAATCCCAGCACTTTGAAAGGTTGAGGCAGGATGCTCGCTTGAGGCCAGGAGTTTGAGACCACCCTGGGCAACATAGCGAGACTCCCATCTC
TTTAAAAAAATTAGCCAGGCATGCTGGCAAGCCCCTGTAATCCCAGCTACTGCTACTCAAGAGGCTGAGCTGGGAGGATCACCTGAGCCCAGGATTCTGA
GGCTTCAGTGAGCAATGATTGTGACAGTGTACTCCAGCCTGGGTAACAGAGCAAAACTCTGTCTCTATTTAAAAAAAAAAAAAGTTCCCACATATAAGTG
AGATCATGCAGTATTTATCTTTCTGTGCCTGGCTTATTTAACTTAGCAGAACATCCTCCAAGTTCATACAGGTTGTTCACAAGAGTTGAATTGGTGAATT
AGAATCTGAGGATGGGGGTGGGAGCTGGCCAAAGGGAGTAACACAGGCTATTAATATCTATCCAGTCTAGATGTTATAATTCTAACATTAATAAACAAAA
CTTACTTAAATTCCTTTGTAAGGAATAATTCCCCTGTTTCATCTCTATATACAAGTTGGGCTTCATCTGTTACTGGTTTTATTTTTTTCCTCAGCYTACA
GCCAGTTGTGGAAGGAATTAACCAGTAAATTCCAGGTCCTAGTTCACCAGTCCATCCAAACACCTTTTCTCAAAACAATGAAATAAAACAATCATCAGTC
TTAATCTTTTCATCTTTTAATTTAAAGCTTTTAATATTTCTTCTGAAAGGGACACATTAGAAATGATTTTTAAATCAATATTTACAAATTCTATTATAGT
CCTATCAGTCTTTTTACAGGTTTCAAATTCTTTTTGTTAATGGTAATCCCATTATGAGATCATTAGATACAGCAGTTCTTTATATATTTTTGAAACAAAT
GCCTAAAACTGTAATAGGTAAGTTATATATCTTCTAAATCTTCCCCAACAATCTTCAAAAATATCTGTGATGCAAATACCTTCAACAGGAAGCAAAGATA
AATCGTAGGGTAATTTTTTAATGCAAATACTGAGCTCCTTTGAAAAAAAGTAATAATATTCTAGATTATGGTTTCCTAATTTGATTCAAATATATGATAT
CTAAATCAGATTTCAATGACATAAAATAAAAATTAAATATATTTTGAAATGGTTTACTATTTGTATAAATTAATCACATTTGTAAGAGCTCAATTATGTG
GATGAAAGCACTGGAACTTCACTTTTTTTAATGTAATATGGACTATAAAATAAGACACAGAATCCCAAATAAACCAGCTTTATATGAAATTCTGTTTCCT
ATCAAATGTTGGATATTTATCATGGGTACCAGAACATTTGTAYAGGAAAACATTTTATTCTCCAGTTCTATAAAGAAAGCAGGCTGGGCATGGCGGTTCA
CGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCATTTGATGTCAGGAGTTTGAGAACAGCCTGGTAAACTTGGTGAAACCCCACCTCTAC
TAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGCGCCTATAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCYGGAGGTGGAGGT
TGCAGGGAGCTGAGATCGTGCCATTGTACTCTAGCCTGAGTGATAGAACGAGACTCTGTCTCAAAAACAAAAAAACAAAAGAAAGAAAGAAAGCAAATGG
TATCTCTCTATGTACCTCCTAAGAGCTTTTTGGAGCCCAAAGGTTTCCTATAAAAGCTAGCAGCTGTCTCTGTTAAATATATTAAATCTAAACAATTCTT
AGTTGTGTGTAATAGCTAAGTGCCCTTCAGCACAGACTAACCCAAGAGAATCCTTTCACGTATTATGTCCAAAAATTCCTTTTAAAACCCAGGTATAAGG
CCAGACACGGTGGCTCATACCTATCATCCCAGCACTTTGGGAAGCCAAGGTGGAAAGATTGCTTGAAGCTAGGAATTGGAGACCAGCCTGGACAACATAG
CGAGATCCTATCTCTAAAAATAACAACAATAATAATAATGCATCTATAGTCCCAGCTACTTGAGATGCTAAGGCAGGAAGATCATTTTCACCCAGGAGTT
CAAGGTTACAGGGAATTGCATCACTGCACTCCAGCCTGGGCAGCAGAGTGAGACCCTATCTCTAAATAAATAAACAAACAGACAAACAAAAACCAACTTA
GGTATATTTTAGGTCATTCTGGAGACTCATATATGAAATAATGTTGCTCATCTAAGTTCTGGGTTTAGTTCCATTTCTGCCCTGGCAACTCAGAGAAATC
ATAATCTTCTTAAGGTCACCAGGTCCTATTTTGATACAAGAAGAAATCCAATATAACCGAAAGTCATTTTTAAGACTAAATGTTGGCCAGGCTGGTGGCT
CAAGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCATGAGGTCAAGAGATCGAGACCATCCTGGCCAACATGATGAAACCCTGTCTTTAC
GAAAAATACAAAAATTAGCTGGGCATGGTGGCACACGCCTGTAGTCCCAGCTACTTGAGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGASG
TTGCAGTGAGCAAGATCGCACCACTGCACTCCAGCCTGGCGACAGAGCAAGACTCCGTCTCAAAACAAACAAACAAACAAACAAAAATGAAATGTTTACC
AAATCCATCCTTTGAAAAGCATAACCTTTGAAATTGGCTAGATGTAGACTCAGGAGTGAAAAACCAGATCTTGCTGCTTCCTAATATATATTATCCCATG
ATCCTTCCTTATCTCCACACATAACCTTGCACTGCCACTGTGGATGACAAATGGAAAGTTTTTTCATGGGCACAAAACTCATCTATAAGAAAATAATTGT
GAAAGTATAAATACAAATAAAAAATCCTTTGTAAATACAACATATTACAGATAAACAGAAGCCTATAAAGAGGTAAATAGAAACTCATGCAAACTCTATT
ATAATTTTGCTATATACTAATTTTTTTACACATGCAATCTCATAAGAGAGTAATTTTACCCAAAACAAAGTGGAAACAGCTACTGTTTTAGACAATGCTT
TATCTTGAACTTAACTTTGTAGTCAGTTCTGAAGAAGAGTTTAGTCAAAACATTAACTTCAGCCAATTTTATTTGTTTCTTGCCTATTCTTGTCTGTAAG
GAAGCCTACAAAAAAGACTTTTATATAACATTCTATCAGGGAAATGTTTGTGTGTCATTGAGCCTATATAAAGATTAAATATGATAYTGTAGTAAGCCCT
TAAATAGCATTATTTCTGTTTTGTGTAGCAGATGTATTTTGTAGTCCTCATAAAATAAATAGCCACATTTATGTATTGGCTTCACATATTTGGCCTCTGA
GTAAATATACTATTAGAAAAGATCAGAACAACCCCATGGGCAACATATAAAAACATTTAAAAGCATTTTTTCATATCAATCTATTTTTGAACCCTATAAA
ATAAGTCAAGCCTGAGGATAGTAATCTTAAGTTTTTCTGTTTTGCRGTAGTAGTATAAGTAAGACAAACGTCTACAGCAGCTTTTCCAAAGTCTTGAATT
GCTTGCATTTAGGGAAAAAAAATGTACTGGCATCAACCTTTTTTATTGAGTATATCAAATGTTCACACATGAGGCATCAGGGCATTTAGAAAAGATGAAA
GTAAGGTACAATATTATACAACTTAAAAGGTATAAGCCAAGACTCAAGACTGCCAACCAATCCTCAATTCTTTATTTAAATTTTTTTTTAGAGACAGGGT
CTGGTTATGTTGCCCAGGCTGAAGTACAGTGGCTATTCACAGGTAMGATCATAGAATAATAYGGCTTTGAACTCCTGGGCTCAAGTAATCCTCCTGCTTC
AGTTTCCCAAGTAGCAGGGACTTCAGGTGCATGCCACCATGCCCAGCTCCTCCCATCCTTAATTCTTAAGAAATCGCAGCAAACAAGAAAAAATCCTTAT
AATTATTTAATTTAATTTAATATGATTAAATTAAAAACATATAATATCTATAGTGTTTAAGTGCTGTTTATACCTTAATTGGAAGGTATATGAAAGCTTA
AAAAATAAAATACAGAAACATACTTTCCCCAAACTGCAGTTCATACTATATTTAAAAATTAAACATTAGAAAATAAATATGTATACTTCTCTATTTCGTA
GTTCGGTAAAACACACAAGCTGTAGATTTGCTTGACTCTCATTTTCCTTGAGAATATACAAGGCAGTATCAACGGATAACCAAGGGGATGGTTTTCCTAC
AAACAAAAAAAAAAGCCCAAACACCTTAAAATAAGCAATCACTATCTATTCTTTCCTATATAAAAAATAAGTTACTAGTTTCTTCTTGGATATTTTCTTT
AGAAATACATATTCCATGTTTTTTTTTTTCAAGACGGAGTCTCACTTGGTCACCCAGSCTGGAATGCAGTGGTGCGATCTTGGTTCACTGCAACCTCCAC
CTCCCGGGTTCAAGCGATTCTCCYGCTTCAGCCTCCTGAGTAGCTGAGACTACAGGCATGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGA
CGGGGTTTCACCACATTGGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCTGCCTGGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACC
ACACCCGGCCCATATTCCATTTTTATGTGTAAACATGATAGCATTTGCAATAAGGCACAAACCTAAATACAGCAACCTTGTGAGAAACATTTTCTATATA
CTCACTTTCTAAAAATCATAACTTTTCTTGAACTCATCAAAAGCTGAGGTTGCAGGGCAACCAATTAGCCTGAAATCCAAGGAAAAACAGAGATTTTCAG
AAAAAAAAGAGGATTTAAGTACTGGCTTACCTGTGGTGGAGCACACGAGGAAGAGATGCCAGACATCTATGTGCTGACAACCCCAAAATTTATATCTTTA
GGATCTTTCCTCTGAATGTTAGACCCATATAACTGTGTATTTAACATTTCTACCTAGATTTCTATTTCCAAAACTGGACTTCCCTAGTCTTTTTTTAAAA
CGCTGCCCATCTCAGTTAATGGTAACTCAGTCTTTCCAGTTGCTCAGGTCAAAAATCTTGGAATCTTCTTTAACTCTTTTCTTTTCTCACATACCAAGAC
CAATCCTTAGGAAATCCTATGGTTCTGCCTTCAAAATATACCCAGAATCTCTACTACCCCATCTCCCACCAACATCCTGGTTCAAAGCATTGCCAGTCCT
CTTCTAGAATTCTACAATAATGTCCCAGCTGGATTCCTTGCTTTCTCCTGCGTATCCTTCCATCTACTTTCTTTTTTTTTTTTTAATGTTTCAAATCTAT
TTTTAATGTTGCTTGTCGAACATTAACATTTTCACAATTCCAGAAATGACATTAATAAAAATATAAACAAATTGATATAAAAATCTGTGTAGACTAAGCT
AGAATTTACAAACTCTTAATAAAAGGTGTATCTAAGTTTCTCAATTATGGGACAACAAATAATAGACTTCATTGCTTCATACTAAAATGGTATTTTTGAC
TAATCACAAGGAAACTTAAACTACTGTATAGTTATAATCATAGGTATTCAGTCCAAAGAGGAAAAAAGTTTTAGTAGTACTATGAGAACCTGTATCTCTG
AAAATGTTAGCTCCATAAGTGTAAGCACTCCCAAAGATTRTAAGATAATAAAATGTGGAAACAGGCAAACTATGGGGCGATTTAAAGTTTCTACCACTTC
CTAAAGATTTTCTTCAATAGAATCATTCGTGCTAAGTGGATAAAAGTTACAAATTACAAAAGAAAGATACAGAATACATCCAATAACAAATTAATCAGAC
TAAGGAATATTTAGTGTAAAACTGGCTTAAAATTTTTTGTCAGAAGAATTTCTCAACATCTAACCCTATAGCAAATAATACAAATAACAAGGAAATTCTT
CAAGCAGTTGGCATTTCTTCAAAACACAAGGGTCCAACTATAAGAAAAATATCACATTATTCAAAGTCCTACAGAATTAGAGGAGAATCTGTACTACTCA
TGTTTTTTGCATAAATTCCATGATTTATAAATAAATAAACCCAAAATATAAATTATAAACATTTAATTTCAGTATAATGTAGACAAAAACAGCAGCTAAC
TTGTCATCTTTCACAGTAATTTTAACATAAAAGGTTTAAATATTTATTTTGCCAATATATTTTTCATTGCATATAGGCTTAAAAAAAAGACAATGGAAGT
TATAAGTAATCCCTTGACATGTGTAAAATAAAATTTTTTAGTAGATGGGRATGTATTGATGATAGTCTCTTATTTCTTCTCCCAGATATGCAAGCGATAT
ATCTAAATACTTACTAGAGCCAAATCTGTCTCAAAAGTTTAGGTCATTTTTTTTTCCTTTTTGATAGTATTCAAYGAGAAATAACACTTTAAATAAAACT
TTTTCCATGAGGAAGGTACAGTAATTATCCACCTCCTGGATACTCTCCTGTAGTCCTCTGAGTAAGCTCCAAACTCAATCCATACTCCAAGTAACAGACT
TAAGATGTTCAATATTGGAACTCTTTGGCATCAACTAAAAAAGAAACCTTGGTAAAAGCAGAATTTACAAACATTTTGTTCCTTGCAGTACACCTTTCAA
AAGACATCTTCATCAAATAGGTAAGAAAGGTAAGAATTGCTGAGGTAAGTAGWGGTCTCTTTTATTATGGTCTTCATTCTATCATTATTAAACCTTAATC
TCATGTCCTGTTCCAAAGCATTATGTGAGTATTCAATCAAAGAAGTGAGGCTGTTCTCCAGAATTGGTTCTCTGCTACAGGTCAAAACCGACTGCGCCAG
CCTTGGCGAAGCKCCGCCTACTGCCCTTTGCTCCAAGTAATTTTTGGCGATTTTTAAAGTAATTTTTCCGGCGGAGTCATAGTGGCSCTATACTCTTGGA
TAGGTTATCCTGTCTCTTCCGCTAGATTGATGAGATCAGGTATCACTCGAAAATGGCGCCGAAAAGTGCTGAGGCTCCTCATTCAAATTCGTTAGAGCCA
ACCCTGCCTTCTACCTACTTTCAATACAGTAACCTAACTGCTCTTGTTAAAATATAAATCAGATTATGTCCTGCCTTCTACTCAAAACCCTCTAATGGAG
CAGAGTTGGGAGAATATTGCTCCTTTCCTAACAATAAGAAAAAGTTAATGAACTACAAAATCATAACTTTTCTTGATCCCATCAGAGCTGGGGTTACAGG
ACAACTATAAGCTTAAAATCCAAGGAAAGACAGATCTTTCCCAGGAGAGACGAGATGCAAGCACTGGCTTACCTGTGGTGGAGCAGAACAGGAAGAGATG
TCAGGTACCATACAAGTGGAAGAAGAAGAAAGAGGGCAGAAGAAATATTTGAAGAAATAAGGCAGAGGATTTTCTAAAAATAATGAAAGGCAACAAGCCA
CATATCCAAGAAGCTCAGAGAACCCCAAGCAGGATTAATACCAAAAAACAAAAAAACCCAGGCAACAGCATCAACAACAAAAACAAAAACTACCTAGACA
CACAGTCAAACTGCTGAAAATGAAAGATTAAGATAAAATCTTGACCTTATATATGGAGAATAAAACTCACAAAAAACGAGGGGGAAACCTCATTTCTCTG
ATCAAAAGCCCAAGTCCTAATTATGGCAAAAAGAAACCTCTTCCTGATTTTGTCCTTGTTTCTCCCTGGTTTCATCTCCTACAACTCTCTCCTCACTTAC
TCCATTTGAGACACTCTAGCCTCTGTTCTTTTAACACCAGTACACTCTCACAGAGCCTCTGCACAGAGTATTCTGTCTACCTGGAATACTCTGCCACCTC
CTCCACTCTTCACCCATCCCTTCCAGCACCATACACCCACAAGGCTTACTCCCTTGCCTTCTGTGGAAGACAGCAAAAATGGCTGTCCCCCTCAGTATCT
ACAGCCTTTTGCAATGTGACTTTGCAGCTTTTCCATCAAGAGATCAAGTCTATTTCCCCAGCCTATGAATCTGGACTTGCCTTGTGACTTTCTGTGAGCA
ACAGAATATAACGAAGTAACATTGTGCTGGTTCTGAGCCCAAACCTCAGGAGATCCTATTGTGCCAAGAGAACAGGTCCAGGCTAGTTTACTGAAGGATT
ATTAAAGATCATATGAGGCTGAGTCAAGTTGTCCCAGATGGGACTTCATACGTAAGAAAGAACYCAGCCAAGATTAGCAAAGCCAGCCACCAGCTAACCT
GTAGCTAACCATAACTGTGTGAGCAAGCCCTATAGAGAAAAAACAAGCCTGGCTCAGACTAAGAACTAACAGATCTACTGATTCATGAGTGAACAAATGT
TTAATTGTTTTAAGCCACTGAGTTTTGGGGTAGTTTTTTATGTAGCAGTTGGTAACTCATACATCTCTTTCAAAGTCTTTATTCATATGACACCTTCTTA
ATGAAGCATATACTAACCACTCCATTTCAATGGCAACCCACATTCCCTCAGCACTCACTAACCCCCTTTCCCTCTGATTTTCCCATAACACTTATCACTT
TCCTACATACCATGTCATTTACTATTTATTATGTTTATTATGTATTGTTTCCCTCACTAAAATTTAAGTTGACGAGGGCAGGGATTTTTGTCTTTTTTTA
ACTCTAATGTATCCTAAACACCTAAAYTGATGTCTGGTATATAAGGCCCTCGATAACTATTTGATAAATAAATGAATAAAGGAATCTTGTTAATAAGAAT
ACAGAGAATTAACAACTACACTGAATTTGCAGGGYTATCTTGATTCCTCTCTCTGAAAAATAACTATTGTTATTGTCATTTAAAAGTATCATCTGCCAAA
CATTATAYGTATCCCACAAGAGATGCAGTGAAAACTTTCAAAATCTCTACTTTAGGAGGGAAAAAGAATGGGGAGGTGGGAATCCTTTAGTAAGAAAATG
CTTGTATGTAAACATTATAAAAGAAAAATAAATATTGATTTAGAACAGCCAACATTAAAAAAGGTTATCTAGGGAAATCACCCTTATAGATAGATATCTT
TCATTGCTTAAAAATTACATAACCATTTTAGACACTAGAAAAGTATTTTTATCTAGAATATTACCATGAATACAAAGATTATTAATAAATATTGTCTAAG
TCACAGACAAAGGGTTTTGAAGGTATTTAAAAATACTTTCAGCTTCATATTGTTCCAAATTATCCCCTTGCAGTACTTCTCTTTGACATATTAATTTTAA
AAATTGACAAATGGAAAAAGCTAAGATTAATTAGCAAATAAAAACTTAGTTCTGGCTGGGCAYGGTGGCTCACACCTATAATCCCAGCCCTTTGAGAGGC
CGAAGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGATTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAGATTAGGCGGGCGA
GGTGGTGTGCACCTGTAGTCCCAGCTACTCGGGGAGGCTGAGGCAGGAGAATCACTTGAATCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCGAGCCAC
TGCACTCCAGCCTGGGCAACAGAGGGAGACTCCGTCTCAAAAAAAAAAAAAGTTAGTTCTATATCATGAGGAAACCAGTTAACATTTTTTTTCTTTTATT
TTCTTCTATCTTAGCTGTAGAAAAGTTTGGAAAAAGTTCTTATTTTTAATAAAACATGCTTTAAACATATAAAGCAATCTACTTGCTTTTCATATGATTA
ACACAGTTCATGTATAAGCCAACACTTTCTTGAAATGTAACCATAAATTCTTACTTAGGCAGATTATTTTCTTCCCTAACTAGGACTATGGAATACTTAC
ATAAGTACTTTCAAGGAGGGTACAAATTGACATTTTAAAAATATACAAAAAACTTAAACTTGCCTTCAACTTGACTCAGGTTTAATGGCTTAATTGTTAG
ATAAACCATGGACCTCTGAGCTATWTGCATCCTGYACTGATGACTAATGATTTCACCATCTTCTTCTAAGAAGAAGCAACCTTTTGATTGCATGTGTTGC
CAGTCCTGAAATGAAGGAAAAAATTATTTCAAACAATATTTATTAAATGTTTCCAGTATGCATAGTAATGAGGAGAAAACACAGGGGGATATAAAAGAAA
TGTCAAATATAATCATTGCTCTCCAGGAATGTGCAACATAGTTAGGAGGTAGAAAACAGACATAACAAAATCCTATTATACACAGGGCATGGTGGCTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCCAACGTGGGCGGATCATCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCGGGCGTG
GTGGCACATGCCTGTAATCCCAGCTACTCAGGAGACTGAGGCAGGAGAATTGCGTGAACCTGGGAGGCAGAGGATGCAGTGAGCCGAGATCGCGCCATTG
TACTCCAGCTTGGCAACAAGAGGGAAACTCCGTCTCAAAAAAATCCAATTATAATTGGCAGTAATATATGGTTAACACAAAAAGATAATTATACATGGAA
AATAATTTACTATAATCTAAGTTCCTAAAATAGTGCCTAACACATTGGCTCAACAAATATTTACTGTCTAATTGATTGGGGTTGGGGGACTGATGTAAAC
TGAGTGTGCAACTGATGAATTATATCATGAAGAATAGATAGCATTTCAATAATGAAAAGTTAGGAAAAGATATAAGGTAAAGAAGAAGTAAGAAAAATAA
AGTTGGCTGGGCACGGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCATGAGRTCAGGAGTTCAAGACCAGGCTGGCCAAC
ATGGTGAAACCCTGTCTCTACTAAAAATACAAAATTTAGCTGGGCATGATGATGAGTGCATGTAATTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCA
CTTGAACCAGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACACCATTGCACTCTAGCCTGGGCAACAGGGCAAGACACCGTCTCAAAAAAAAAAAAAAAG
AAAGAAAAGAAAAATGAAGTATTGAAAAAAGTAATAAATAAATATGTTGCTGTAATAGAATGAGATTAGTGCTAGGAGCACAGTAAGAAGGAAGAATTAA
GGATTGCTAAAAGAAATATATTGAAAGAAAAAATGACTTTAAATGTAAGAGCAAAATAATTGCTTCAAGTGTAGATAACTAGAAGCATGCTGAATAAAAG
TTTCACAGCTGGCCGGGAGCGGTGGCTCACGCCTGTAATCCCAGCCCTTTGGGAGGCCAAGGCGTGTGGATCACAAGGTCAGGAGTTCAAGACCAGCCTG
GCCAACATGGTGAAACCCCGTCTTTACTAATAATACAAAAATTAGCCGGGCACGGTGGCGTGCGCCTGTAGTCCCAGCTAGTCAGGAGGCTGAGGCAGGA
GAATTGCTTGAATCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAGAA
GTTTCACAGCTACAGAACAATGCCGATGAATATAAAATATCACTTTTGAGAAAGACTTTTCTATATTGGCTTTACCATTTCTTGGTCTAGCCAAATCCCT
TCTTGTCTGAATTCATATATGGGATCTCATAACTAGAAATGAGTAAAACTTGGCCAGCCACAGTGGCTCACACCTGTAACCCCAACACTTTGGGAGGCCA
AGGCGGGTGGATCACTGGAGGTCAGAATTTCAAGACCAGACTGGCCAACATTGGCAAAACACCATCTCTACTAAAAATACAAAAATAGTTGGGCGTGGTG
GCGCACACCTGTAATCCCAGCTACTCCGAAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGATGGAGGTTGCAGTGAGCCRTGATCATGCCACTACAC
TCCAGCCTGGGAGACAGAGTGAGCCTCTGTCTCAAAAAAAAAAAAAAAAGAAAAAAGAAAAAAAGAAAAGAAAAGAATAAAACTTGAAAATGGCATCTTG
GACACAAAGTAGAAGATTCTTTATTGAAGTTATGAGAAAATTGTGTCATTACCATAGCTATGTGCAAAAATGCTTTTCACTTTATTAGTAGGCTTGCCTA
CCTGAAATGTAAGTAAGMATATTTAAATAATAAGTTCAAGGCTTTAATAATATTGATAACTACTGAAAAGGTGTATGCTAGCTGTATAATAATAACATCA
TAAATGTTTTCTAATTCATTATAGAAAGATTTATTATATCACTGCAAAGGCAAAAATAATTTACATTGAGATCGGTTTCATGCTCACATTTTTAAGAGAA
GACTAAATTATCCTAACATACTTACATCTCATTTTTCTATTTTATGTCACAATTATTTTCATATTTTATTAAAAATCTCTATAATTCTAATGCCCTACTT
AGATTTTCATGTAATCCTTTCTAATACTGACCTTATGTAGAAACCTATTTTTTACATTTTAATAAACACTGCTTTATGTTCTGCTTTTAAAAATTAATTT
TATATCCAAAATATTTTGCTGTTGAAAAYGAATAAAGCTAGAGGACTCAGACTTTCTGATTTCAAAACTTACTACAAAGATACAGTAATCAAAAGGGTGT
GGTACTAGCATGAAAACAGACATACAGAACAATAGAACAGAATGGATAGCCCATAAATAAATCCTTGCCTATATGGTCTAATGATTTTCAAAAAGGGTGC
CAAGATCATTCATTGAGGGCAAGGACAGTCTTTTCAACAAATGAGGCTGGGAAAACTGAATATCCATCTGCAAAAGAATAAATTTGGGCTCTTATCTTAT
GCAACACATAAAAATTAACTCAACCTGAAGACCTAAATATGCTAAAATTATAAAACTCTAAGAAGAAAACATAGGGGGAAAGCTGACGCTGGATCTGGCA
ATGGTTTCTCAGATATGACAACAAAAGCACAAGCAACAATCAAATAAATTGGAATTCATCAAAATTAAAAACTTTTGTGCATCAAAGGACACTACCAACA
RAATGAAAAGGCARTTCATGAAATGGGAGAAATTATTTGCAAATCACATATCCAAAAAGGGATTAATATATAGAGCATATAAAGAACTCCTACAATTCAA
CAACAAAACAAACCACCAGATTTTTTAAATGGGCAAAGGAATCATCAAATGATCACCTCTCTAAAGAAGATATATAGAAGGCCAATAAGCAAATGAAGAG
ATGCTCAACATCACTAATCATTAAGGAAAGACAAATCATAACCTCAATGAGATACCACCTTACACCCATTAGGATACCTATTATCAAAAAAACAGAAAAC
GACAAGTATTGGTATGTGGAGAAATTGGAACCCTTGTGCATTGTTGATAGGAACATAAAATGCATAAAATGGTGAAGCATTGTGAATAATAGTATGGTAA
TTTCTCAAAAAAGCAAATCTAGAATTCTATATGACCTAGCAATTCCAGCTTCTAGGTATAGAACCAGAAGAATTAAAAGCAGAGACTCAAACAGGTATGT
ATGCCAATGTTCATAGCATTACTGCTCACAATAGCCAAAAGGTAGAAACAACCCTAATGTCAATTGACAGAAAAATAGATAAACAAAACATGGTAAATAC
ATACAAGGGAATATTATTCAGTCTTAAAAAGGAGTAAAATTCTGGCACATGCTATACATGAATGAGTCTTGAAGACATTATGCTAAGTGAAATCAGCCAG
ACACAAAAGGACAAATATTGTATGATTCCACTTATATGAGGTTTAAGTGAATTTGACCACTTCAAATTCAGAGAGACAGAAAGTAGAATGGTGGTTGCCA
GGGGCTGTGGGGAGGGGGAAATGGGGAGTCATTGTTTAATGAATAGAGTTCCAGATGAAAAAGTCCTGGAGATGTATGGTGGTGGTATTGATGGTTGTAC
AACAGTGTGAATGTACTTAGTGATACAGAACTGTATACCTAAAAATGAGTAAAATGGTACATTTTATGTTTTGTATATTTTACCACAGGAAAAACCATTT
TGCTATGCAATATTCAAAATTTCAATTTAAATGGTTCTATGATTAAAAATTGTGTTGGGGCTGGGCATGGTGGCTCACTCCTGGAATCCCAGCACTTTGG
GAGGCCAAGGTGGGTGCATCACCTGAGGTCAAGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGG
TGTTGTGGTGGGCACCTGTAATCCCAGCCTCAGGAGGCTGAGGTAGGAGAATTCCTTGAAACCGGGAGGCGGAGGTTGCAGTGAGCTGAGATYGTGCCAC
TGTACTCCAGCCTGGGTAACACGGCAAAACTCCGTTTCAAAAAAAAAACAAAAACATTGAGTTGGTATACCATTATTTAGTTAACTATTTCTAAAATGTT
AGACATTTAGGTCATTTCTAATTTCTTATCACAATATTAATAGAATACTGTTTTGTCTAAATGCTTTTCTTCTGATGAATAATTTCCTTGAGAACTTCTA
GGCAAAAATGTATGTATATTTTTAAAGCTATTGACATGTGTTCCCATAGTGCTTTATAAAACAGTACTGCCAATTTTACAATACCACCAATGGTATATAA
TGTAATAATTTTACCATTATTTGGTTAGTATTGTTTTATAAAAAAATTGGGTGATGTGGGATGATTTCATAAGCAAGGTGTGGGTACATAAAGCATTCAT
TATGGTATTCCATATATTTGTATATGCCTCAAGTATTTGATAGTAAAAATGGTATTGTAGTAACTTTTGCATTAATTTGAATTTCTCTGATTATTAATAC
CAAGGCTGAACATTTCCCTCATGTGTTTATTATTTATTTTGTATAAATTACCCATTCTCCTATTCTCATAACTCTGTTGCAGACTTAGCATTTTTCTTAC
ATATTTTAATAAATTCTTTTGACTATTTTAGATATTAACCACTCTGTGAGTGTTAATGAATGTATTTTCTCTATTTCCTTTTATTTTCATTTTGGTTATT
TCTCAATTTATACAAGTTTTCTATTTTTATCTTTATCTTTTCTTTGGAAATTTCTTCTTAAACTKCATTTTAAGATTTTATCATTATAAACTGAACTATA
CTCAAGCTTTCAGTCAGTCATTAATCACCTGCACTGTCACACCTTTGGGGTATACAAGATATGTGTATTTTTAATTCTAAGAAATTAAGATGTGACCTTA
ACTTACTGAAATTTATCTTGTTAAGTATATTGCCCATGACAGAAAGAAGTCATTATATATAATATTTCAACAACATCACTATGAGGCAGTATGGGGTAGA
TATGAATTAAGTCATTTTAATAAACAGAAAAATTGAGGTAGCCAGAGATTATATGGGTTCAGAGTTTTATAAGGAGTTTGTAGCAATATTAGGTCTAGAG
TCCAAGACATTTGGCCTCTACATTTAGAMCAAGTTTCTAAAAGAAAATGTACTCAGGGTACGAATTCAAATTTTTTATTATCTGTGATACAATGAGGTTC
AAAGTTGGGCTTGTGGCAGAAGTTGAAGTTCAACTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGC
GCCATCTCGGCCCACTGCCACCTCCACCTCCCAGGTTTAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGGGCCTGCCACCACACCC
AGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCGCCCACCTCGGCCTCCC
AAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCCCAAGTTCAACTATTAATGATGARTAATGATACACAGACTTTCATTTAGCTTCCCTGTAAA
TCTCTTGGATGGGCATATATATGGACTAACAACAGATGCTGGCATTACCTCAGACCCAATTGCCCTTAACATAATCAACATGACCTTGGATGGTGATGAC
TGCTAAAGAATAGAAATGAAAGAAATGTTATACAGCATTTAGACAAGTTACACTTTGAGACAGTTTGAATTATGATTCTGACATTAAATGGAAAACATTT
AAATGCTTTCAATCAGTTTTGATTATAGCATCAGATGGAATTTCATCCAATATATTTTATATTTTTTATATTTACCTATTTGGAATGGTAAAGGATAATA
CTTTAGAATTACAGACTTATAAAAGTAGAAGAAATCTAAAAAGCAGTCTAGTCCAGACTTCTCTTTTGATTGACAAAAAAGTCTGAAAAATAAAGTGATA
TATGTGAACAGCTATAGTTCTCAAYTGACTGCAGAACTAGAACCAAAAGCTAGGTCTCCTTACTTTCTCTCCAGTGTGTAAGTTATATTCTAAGTTCTGT
TCTATTTCACATTTAAATATCTGCAGTGATTTTTTAAGCCAGTTTTTAAAATAAACTTTATGAATATATTACAATAAAGTATGGTAAGGCATTATCAATC
GGGATTCCATACTTTTAAGGGTTAAGATAAACTTAATTATTTGGTTTTCTTACTTTAAAAATGTAGAATTTAGTAGCTGCAAAATTTCTTAAATTTGTAC
TGTAATCATCAGCACAGCAGCCCTACCCCCAGCTTTAAAAAAATGGTTAAATTAAGCTTTAAAAGATAATGTACTTTGCCTGGTACACTGGTAGTAAACA
TAATTTGTGCCATTTAGGAAACTCAAAGATTTCGGAAGAATTTTTCAATGTGCTGATGCTACCTCTGGGGCAGTGCCACAGATTAACAGGACATAGCTTT
ATAAAATTTAACTGGGGAACAAGTTAAACATTTTTATTATAAGTCTTTCCTAAGTACCATGTCTAGAAAATAATGCTATAATAGAAGAGAATTTGTGAGT
TTCTTTGGAAAGACAGCCAAACTACATACTATAACATTAAATATGGATTAATATAGCTGGAAAATGGTAGAACAACAGTTATTAAAGTAAGACAAATACC
ACATTATTTATATCAACCAAACTTCAGTGTAATATACAGATCAATTTGAATTCTAAATAACTTCACTAGGAGAACTTATAGCTCCTACTGTTCAAAAGGA
AACATTCAACTTAAGATCTGCCAGAGTTATTAAACATACAATGCTTACTCAACTTAAAATTTCTTTTCAAGGCTGGGTGCGGTGGCTCACGCCTGTAATC
CCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACGAGGTCAGGAGTTCAAGACCACCTGGCCAATGTGGTGAAACCCTGTCTCTACTAAAACTACAAAA
ATTAGCCAGCGTGGTGGTGCACACCTGTAGCCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTCGAACTCGGGAGGCGGAGGTTGCAGTGAGCCAA
GATGGTGCCACTGCACTCCAGCCTGGGCAATAGAGTGAGACTCCATCTCAAAAAAAAAAGAAAAAGAAAAAAAAATACCCTTTCAAACAAATAGACTTTC
AATCATACAAAGCTTTTTCTCTAGGACCTAGACTAAAATGTTATGAACTAAAAGAAAAAATTACTGACAAATTGGCTGGCTCATTCAAATAAATCAGTTT
GAAAGGATTATAGATTAAGCTGACAGTTTGAGTATTAAGAGAAAAATGAAAGAAGGTTGAGTTTTGAAAATAATTTTAGAATAAGAGTAAGAAATTCCAT
GTATGATATAATTTTTTGACATTATAAAGCAGAAATAAAATAATAGCTTGTAATTCTTATATAGGGCATGAGGTGGTGCTGTATTCTACCAATTCAGGTA
AATTCATATAAGTGCAAACTGAACTGTTATTTCCTTTATTTGTCATATACAAATTTTACTTATTTTCATTCATAATATATAACGAAATGCTGAAAAGTAC
AAAACCAAATACTAAAGCAAAAAATTCTTGTTATCAAAACAAATACATCAGTATAGTCMCATTTTTCTTGGAACACTGTAGTGAATGAAAATGATTTGTT
TTAACATACAAATTCTGTATTATTAAAATTTTCAGTGAGAAAGAATTATTAAGCAGTAGATCTGCCATAGATTTAGTCAGAGGAGGAACTCATCACTATC
ATTATCATCACTACTGCTTTTTATAAAGATTTCCTATGTCACATACTTATTAGGAAGCTATTTGCTTTGGGGTATGATAAGACAGGTAGGTAACCAGTTG
TTGCACTTTTTGTTATTAAAGAATTGTAAACTATACATACTTAAAAAATAAAAGGTTAAATAGATAATTTATGGAGGGTAAAATTGATGTGGCCTGAAAT
CTAATTGACAGGTTGAACTGATCAACATTTTGAAAATGTGAGAAACTTATAAGAAAATTATTATCTGGAGCTTTCACAAAAAACAGATAATGAACCATTT
GGAATTTCAAATGTTTTTATTTGTATTGCCATATATAGACATACACATAACATATAAATGGTATACAATGTAGATGCTATATATGTTTTGACATTTATAA
TATATAGGTTGTACAACATGTGTGTGATGTGTGTGCATATGTTGTACTATATATGAATAAAACATAAATGTAGGCATACTCTAAGAATCTGAATATAGGA
AGTATTGCATCTCTGGAGTTTACAACTGATAGTTTGGGGCTTACTCTAATTCTAGACATGACTGGTCTTAGCAAGGAAGGTGAAGCTATTCCTCTCTGAA
AGGAAAATTCCTGACATTCCTTGACCATCACAGAAYCTAAGTAAATGGATAGAATTCGGGATTTTAAAAAGAATAATAATGCAGTAACTAAGTATGGCCA
ATGGAAAGTAATATGCGTATAGTACCTGTAAGGATCTTATTTTCCTTTTGTAATTCAAGTCCTTTACCAATTGTGTGGTTTTGTGGTTTAAAACATGGCT
TACCCTTATCTATCACAACAATTTTCTAATTTCTGAAAAGTCCCTCCTTCTCTGTCCCAATTCCATACTTTTCTGTTCCACATGAAGTTGAGATACCCAA
ACTTGTTTAAAATAAATTTAAAGTATCTGGAAAATTAATTTAACAATCCTTTCAGTAATTTATTCTGTACATTCACAACCAAGTACTTTTCAGAATGGTT
ATAAAACCTCAGGAATATATGAAATTTATGAAATAAAAAAAGAAAACTTCAAGTATTACWGTTCTTTTAGAATTTGTCTAGCAGGTTCTCTGTTTTTCCA
GAAAACCACCCAGGAAGAAACAAGACTTAAAGAAAAATGTGGCCAGGCGTGGTGGCTCACATCTGTAATCCCAGCACTTTGGGGGGCCAAGGCAGACGGA
TCACTTGAGGTCAGGAGCTCGAGACCAGCCTGGCCAACATGGTGAAACCTCGTCTCCACTAAAAACACAAAAATTATCCAGGCATGGTGGCATGCTCCTG
TAATGCCAGCTACTTGGGTAGCTGAGGGAGGAGAATCACTTGAACCTGGAAGGTGGAGGTTGCACTGAGCCAAGATCCCACCTGCATTCCAGCCTGGGTG
ACAGAGTGAAACTCTTGTCTTAAAAAAAATGCATAAATAAATAAAGAAAAGAAAAATGTAAACAAAGAACTGAATGCTGCTGAATAACAAAAGAGTCACT
TACTTAAAAAAATAATAATTTCAGCTCATCTAAGAAATAGATAGCAAGCAACAGTGGGCAATATCAAGATCCGAAACAGGATATTAAAAGGTAAGATATA
CAGAGCTATCAATTATTTCCAAAAGACATTACATTTTATATGAAACTCACAGTATTAAAAAGTTGACAGTATGCCCTTTTCTTTTAATCATTAAATTATC
TTWGTACCTTTTACCTAATTCCCAATTATCATCCACACCATTCCCTGCTCTTGACTTACATACAAAACTTTAGTCTCTTTGTTAAATAATCGTTATGACT
TACAGACTAATTTTGGCATTTTTCTATTACACCTGCCCCTATCGTATTACATTAAGTACTATCCTAGGCCAAGTTATCATCACTTTATATTTGGAAAACT
CTATCGGCCTCTTAGATGGTGTCTCTGAGGTCTCTATATATAACACAACAGTAGATTAACTTTTCTTAAACTATACTTTCATCATGTCGTTCCCATACAA
GCATCCAGTTATTTCTTCGTTCTATAATAATATTAATACTAGTATTTATTAATGTCCTTTGTATATAATAAATAGTATTAACATTATTAACACTATTCTT
TATTAATGTCCTTGGCATTGTGCTAAATGCTTTACATATGTTTACATACGATTTAAATCTTTCCAAAGCACACTAAATATAATTACTCCCTATTTATAGG
TAAGAAAACTGAAACTCTGAAGGGCTGCTGACAAATTCACCCAAGATCACACAGTTATTAAGTGATAAAGCTAAGATTCAAGCCCAGGTAGATCTCTACC
CAAAACTCTAGATCACTAATCTAATCAACATCTAGAACACTGGCACACAGTAGTCATTCAATAAATATTTGTTGAATAAATGAATGAATAAATACTATGC
TATAGTGTAGCATATACCAAGGTAGTCCTTGGTATACTGTTAATAGTCAAATGAAAATTTATATTTTTAAATTCAAGCTCATATTTTACACTAAGCAAAA
TAACTGGCACACATTACATGCTTAGTGAATATTTGTTGAATTGAACTAAATTTTAAAAATTATATTGGTATGAGCCCAACTAATGACACAGAGACAAAGT
CTTACTATAACTTAACATAATCCACATTAATATTTATTTATATCTCTCTTTACAGTGGCTAAAATTACATTTATTTGTGCTTTTGAATCAGGTAAACCAT
AATTATTTAACTAAGTTAATTTTATTAATAATTAATTTAGTTGCAAAATACAAAAAGGTTCCATTGGTGGAAAGTAATATTGTTGGAACACTAAATATTG
TGTATGAACATGTTGGACATGCACACCAAATTGCTTAGGGTGTATAGATTCCTAAACAGTCTGAACAAAATTCCTTGGAGATAATGTTTTAAAATTTTAA
TATAGAACAAATGTCACTCTCTAGCAATTTAAAGATATAAGGGACTTCAGAGTTCAATAACAAATACAGAGTTGTTATTTGAAACAAAAATGTGGCTCTT
GAGAGCAATCAGTTCAGTTTTCTAACAGCAGTTATAGTATGTGGTCATAACCATTTTTTCCCCTTTTACAGAGGTCTCTAGRTGCACATTTTTAATGTAT
CCTAGCAGTTTCCAGTTAATGTTTTATATTTCTGTAACTATTATTTTCTGTTGAAAGAAAACTAGTAAAGGTTGAGTCTAGAAAGGGAAAACAAAGAAAG
AAGATCAATATTAACACTCTACAAATATTGACTTAGCAAAGTGACTTTGTTGTCATTCTCTCACAGGAATTGAAATTGAATGAATGATTTATTTATATGA
AACACCTATGGTGAATATTTGTTAAACAAAACAAAAAATTTGCTTCCCAAAGTATATAACTTGATAATCTACTCATCAGGTTATAAAACTTGAGTGTTAC
CATTTTCAAACTGAAGACCTTATAATAATATTCATCATTTTTAATTTAAAAGTATTACACTAGCTTACAGGTAGAAATTACACAGAAAAACCTCAAATTA
CTTCATAAACTTTACTGGTTCCCTGTAGACACTGCACAGTTATTAATAAACTTAATGTCAAATTTTTTTCAGAAAAAGTCATCTGTTAACTTAAAATACT
RTACCTTTATTAAATTTGGCTCCRTTAACTTTGAGTTTCGGTTACCATTAGCCCCCATGGTAACTRTGAAGGAAACAGATGTTTTGAACTTCCTGGTTGC
TGACAGTAAAGAACTCCTGGTGTCACCTGCAACAAGTAATGATTATTTGGTCTGACATTATGAAAAGTTGTCAATAGGAGTTTTTTCCAAACACAGTGCA
GTATAAAAGATCTACTGTATTACTTTGATTCTCTTTGTTCTCCCTATTGAAATAAAGTCAGAAGTTTTATATTTATCAGGCTTTAATGATCCCTAATTTA
TGGGCTTCTAATAAGAATTCTTATTTCAATATGTCACCTTTCAGTCTGAAATTTTAGTTTTAATAAAATATAATGAGCATAGCTAAGTCAAGTTCCATAA
TAAAATTTTACTTCAATMGATTTTTACAGCTGAAAGAGTCTAGAAATAGTAGCTAACAAAAGTTAGATTCTCATTTGTTTTATCACTGATAAGCTGAAAT
GGAAGGAAAAATTTATCTGAATATGACTCTTCATTTCTGATCAAGAAATTCTTAGTGTTAAAAGTAAATACCTTTATTTAAGAATGTTTCTGGATCAGTT
TTTCTTGTGATTTTAGGTGATGGTTTTGGTACTGGTGATGGGTCCCTTTCAGGGGACCCTTCGATGTGGTTTCCAAACTGGTGACGCATCAATTTACTGT
CAACYTCTAGTTTTTCTAGTGTAGTCTTGAGACATTGCTCGTTGGTTGTCATATATAATTTACAAAACTACAGGAAAAAAAAAGTCCARTGGGTAAAACA
TTCARTCATACACTGGGGAAGAGGAGAAAGCAAATGCACATTAGTAGGCAAGGAACAGACTGATAGATGGAATATATTTCCTATTGATGGTTACGCATTT
TATTKTTTTGAATCAGATTGACCAGCCTCAAGTGACCTAGTGAAATGTAGCCGTGATTCAATGAGGAGTTCATACTCTGTGTGAAAATAAAATGTTACAC
AAGGAGAGGTGATTTATTATTATTTTTTTACAAGATGTGTAGGCTTGCATTTGTTCAAAATAATTTTTATGATTCTTCCACCCCAGAAAAAGTACATTTC
TGAGTAGAGTCTCTATGTTTATGTGTGTATCTGTCCGTGTGTGTGAGCACACATGTTTTTTAACTTGGTTATATTATTTTAATGTAGTCATCAGATTGCA
ATTATGGGACTGGAAAAATTAAATTTCATGCACAATATTTAAGGATGTCATTGCCAATATTAAAAAGATGCATCCCTTTAAAAATAATTTGCTGACATGT
TAATTAGTTGACATGTTAACTGATTTAATTGTTTCACAATGTATACATATATCAAAACATTGCATGTACACTGTAATGTCAATTATACCTTAATAAAGCT
GGGGAAAAATAAAAACACTTTTCCAACACAGTATGTAAATTTACATCAATGTGAGCTTATGTACCTTGATGTAGTCAAATTTGCCATCAGCATTTACATC
AGCCAAATTTATTATGGCATTTACTTCTTCTCGAGTCATCTTCTCACCTCTCTGAAAAAAAAAAACAAGATTTATTTTAAAGCAACATGATTACTCCTTT
GTTATTCATGGGGACAGTGGAAGCACATTTTAATCTTTTCCACAAGTAAGTCTGAATGTATTGCTTCATTATAAATCATGAGTATTATATATAAAGAAAG
AATGAGGCGGCTATATAAATTTCACAATTTTATTAAATTTTGTGAAAGTGTGCTGAATTTCAGTTTACTAAATAGTAACTAACAATTGAATAGTATAGAG
TCAGTTATAACTGCTATTGAGTTTAGGGGAATGATATTTTCTAACATTGTATCAAAAAACAGAATGGATTCCTAATCCCATTTATATTTGGTTTTCCTTT
TACTTATCACATATGGAACTATCACTGATTTTCAAAGAGTTCTGAACAGGAACCAATTAAATAGGAGAACAAGGGGATGGTAACATAAGCTCGATTTTAT
ACTTTATCTTTTATTTACAAAGAACATTTCATCCAGAAGGATTCCTAAGTACGTTATAAATAACATGTAAGTAATTCATTTAACCTCTCAATGAAATACT
TATTTTTAATGTGGACTTTGGTAGTCAAAGCTAGATTCCAAGCTGTTTTAGAAAATATGCACATTACAAAACAGTTTTACAGATCTTACCTTTGTTAGAA
ATTTATAAAGGTCAGTGTGTAAAATACAGCCATCATCATTTACATCTAATTGCTTAAAWGATTTTAGTAGTTCTGCTTTTGAAGTAGGTTTTTCCTTCCT
TAAAATTATACAAAAATCATCAAAATTCAGTTTGGCAGTTTGAGGAGTCCAATACTTATTAATGGTCTTTTGGGATGGATTTCTTCCTGCATGCTGAAGA
GCTGCCCAACAAGACAAGTATTATTTGTGATTGTAACACCTGGAATTTGTACTTAAGCGCATTTTTTTCTTCAAATCATTATGTATTATGATATTTACAA
AACACTATACATATACCAGTACATTACTTTGGTGTTGACTTATCTAGTGATACCAAGATAGGCCTGACTTTGAAAAACAAAAATATTTATGCCACCACCT
AAACATTCTTTAATTATTAATACCAGAATTAAATAGATTTTCCTTATTCTGACAGTTTGGTTCTCAACCTACATGGTTTAAATAACTAACAATATCTGAT
TACTTAAGAGCTTCTAAAAGCTTCTAAAGGAAATACAAGATTAAAAACAACCATCCACTTAATTGTTTGGGGGACAAAAGGATAACACAAAAAGTATAAA
TTAGTACTTTTTCTGGCTAAATAAATACCTTAATGACTATTCAGCCATAAAGAAGGAGGAAATCCTGTCATCTGCAACAACATGGATGAACCTGGAGGAC
AACATGTTAAGTGAAATAAGCTAGACGCTGAAGACAAATACAGCGTATCTCACTTGTGTGGAATCTTAAAAAAAAAGTTAATATCCTAGAAGTAGAGAAT
AGATCAGTGGTTACCAGAGACTGGGAAGGGGAACTTAAGTACTATCTAAGTACTCTGGGGGTAGGGGAGGATGGGGAGAGGTTGGTCAATGGGTACAAAG
TTACAATCAGATAGTGGGAAATAGGTTCTGCTATTCTATTGCACAGTATGGTGACTATAGTTAGCATTAAGGTACTGTATATTACAAAACAGCTAGAAGA
GAGGCTTTTGAATGGTCTCACCACAAAGAAAAGATAAATGCATGCAGCGACGGATATACTAACTACCTTGATTTGATCATTATACAACATATAAATGTAT
TGAAATGTCAAATTGTACCCCATAAATACATACAATGTGTGAATTTAAAAAACAAATATCTTAATGAAATGAGAAAATCATTCATTTAAGAATACCAATG
TCAATAAGGCACGATATCTAAAATGTTCATCTTTGCTAGGTACTAAGCTTTCAAAAACATTAATCATGTTCCAAATGTCAAATATATGCACATAAAGTAT
CCCTTTGCAGGCATGGTCCTGCTAAAAATCAAGAATGTCAATATACTGTGAGAGAAGATTATTATAGAGATGCTATGGTCAAACTACTCTTCATTTTTAA
CCATATCCTTCTATCTATGAAGAGCAAAGAAGTACATGTGAGAAAAGCTTTGTATATTTATGTATGTCATATCACTCTAAAATAAAATGGTTAAAGCAAC
TGCAGATATTTTGAACAGTTGAATAGAAGTAACTTGGTAATTTGCAAATAAATCTCTGCATACTGAAATATAACATTTTCTAAAATGAACCAATGATAAA
TTTCCTAAGCACCACAGAAGGAATTAACATAATTTTAAAAGATACAATTGTCCTGAATTGTACTGCCAAATTCTATTACAAAATCTTATATTGGATAGTT
CCAACTATCTTTATAGAAATTCACAAGATCTGCGCATCACCAATCAGCATCAAAAAATGATAATCTGGATATTGTACAATTTAATGTAATAAGGACCAGT
AAGTATAAAACAATTTCACTAAAGAAATATCCTCATGGAAATAGAAACCAGATCAGGGTAATAAATACAGATATAAGTGAGTCAGTTATATTGAACATTA
TTGTGCACAAGTATAGTATAGGGTGATTTTTGTTCATCAATACAAACTTTTTAGTTCCAAAGAAATTTTATATTCTAGACTGGCGTGGTGGCTCACACCT
GTAATTTGGGTTTACAATTATACTTTGGGTGGCCGAGGTGGGCAGGTCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTGTC
TCTACTAAAAATACAAAAATTAGCCGGGCCTGGTGGCCTGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGC
GGAGACTGCAGTAAGCCGAGATTGAGCCACTGTGCTCCAGCCTGGGTGACAGAGGAAGACTGCATCTCAAAAAAAGAAATTTTATTTTATTATTATTATT
ATTTTTTGAGATGGAGTTTGGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGTAATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTC
CTGCCTCAGCCTCCCGAGTAACTGGGATTACAGGCATGCACCACCACCCCCAGCTAATTTTGTATTTTTAGTAGAGACGTGGTTTCTCCACGTTGGTCAG
GCTGGTCTCAAACTCCCGACCTCAGGTGATCCGCACGTCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGCGCCTGGCAAGAAATTTTAT
AATCTAAATAGGAAGTCTACATCTGACTGTAAAATTGCTATCTATGGCCATAACTCATGGGTTATAACATATTAAAAATCCATAAATAAAATTCTCTTCT
CCTCTAGATTATGCCAGTGACTTTCAGAGCTAACAGAAGTTGTAGTTGTGGTAACCGCCATCTTCCATATACCTATAAAGGCTTTGTGGAAATTCATTGC
ATTGGAGATAATATAAATGTTTTTATTCCCACAGTTTTATTTTGGATGTCGACAAAAGCCCTGATTACCATGCTGCCCTAGCAACAACAGGTAAGTAAGT
ATTTTGCCTAGTGTGTAAATGAACTATTCCTTAATTCAGCTGTTTACAGAATCAAAGAAATGGCAATATGTGTTTTAGGATTCCAACCCCAGCCAGCTCC
TACCCTTTAAAAGCTGGGAATACAAGTAGATGTAAATGAAGTTGTAATTTTTTTTTTGCCTCTAAAATATTTTTATTTTAAAAAGGCTTAGTGTGCAAAG
ATGTTTATCATATTGCTACACTACTGCTACTAATAATAAAGGAAACAATGTTCAAAGAATCAAGGAGTGGTTAACTGAATCATGGTACATATACAGAACR
CATTTACACAACTACTAAATTATTTTTATGACAATGAATATTATATAAAATTTCCTGCAAAATTTCTTCCTTATTGTTAAGCCTAAAGTGCCTTTTTTCT
AAGGTTCTTTTTTTTAAATCTTTAATTTTTGGAGATACATAGTAGGTGTATAATATGAGATTTTTTGATACAGGTATGCAATAATTACATCAGGGTAAAT
AGGGTATCTGTTGCCTCAAGCATTTATCCTTTGTTTCAAACAATCCAATTATACTCTAATTATTTTAAAATGTACACTTAAATGATTTTTTTTACTAGTG
TCACCCTGTTGTGCTAGCTAAATACTAGGTCTTATTCTTTCTATTTTTCTATTTTCTATTTTCTCCCCCTACCCCCACTACCTTTCTCAGCCTCTGGTAA
CCATCATTTTACTCTCTATCTCCATGAGTTCAATTGTTTTAATTTTTAGCTCCCACAGATAAGAAAGAATGTGTGATGTTTGCCTTTCTGTGCCAGGCTT
ATTTCACTTAACATGATGACCTCCAGTTCTATCCATGTTRTTGCAAATGACAGGATCTCATTCTTTTTTATGATAGCTGAATGGTASTCCACTGTGTATA
TGTACCACTTTTTTTATTTTTATCCATTCATCTATTGATGAACTCTTACGTTGCTTCCAAATTTGGGCTATTGTGAATAGTGCTGCAGTAAACATGGGAG
TGCAGATATCTCTTCAATATGCTGATTTCCTTTTGGATATATACCAAGCAGTAGGATGCTAGATCCTATGGTAGCTGTATTTTTAGTTTTTTGAGAAGCC
TCCAAACTGTTCTCCACAGTGGTTGTACTAATATACATTCCTACCAACAGTGTAAGAGGGTTCCCTTTTCTCCACATCCTTGCCAGCATTTGAAGTCCAC
ATGAAAGAAAATTATATCTTCTGTTCAGTTTTGAGAAAAAAGGTATGTAACTTTTTCTCACAAGTGGTAGCTTAGCATATGCTTGCTGCTATCTTTAGTA
ACAAAGAAAATATTGTTTTAAAAAATGTACTGGTAATTAGAMAAGAACAACTTTCTCAGAATAAAATTAATTATGCCAAAACATGTACTCAGTAAGCAGA
TGTCCCCATAGCTAAGAAATTGATACAATCTATTTCCTACTAACTTTAATCTCTAGGTTTAGAATTAGCTGGATCTAATGATTAAGTTTGATGATAGTAA
AAATATCACGTAGCTGTAGATRTTTAAATTTTGACACCATGATATGGATCTTTTGCCAGGGTTTACTTTAAAGTTCTGACATGCATCTATAATGCCTGTA
TTATTTATAAATTGACAAAAAAGGAACTTAAAGCTATAGTAATGCTACCGCTGTCTCTGACCTTAAAATGGAAATGCACDTAAGTGGCAGAAGGATATAG
ATGAAAGGTGTAGCAAGAAGCAGCAGCTCTAGTTCATGTTACTCCTTTTTAAAAAATAGTTTATCTAAAATCAATTATTACAACGTTAAGAGAGTATTCC
ACCCTAAAACCAAAAGTGTATATAACACTGAAGAGACAAACACTGTATAGTTATCCTCCCAGATAATTTCATAAGATTGATAGCACCTTAGTAATACATA
CACATTGATTCACAAACTAAATGCCATAGTAGTGGAAGGCATGTTAAACTTTTAAACTTAGCAGATTCCTTCTCTTAGTATATTTTCAAAACAGTAACAA
AAAAAAACTCGGATTATTTTAGAAATWATGGCAAATTAGAAGTAATTTTAATTTATTGGCCAGGCGTGGTGGCTCACGCCTATAATGCCAGCACTTTGGG
AGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGCTCGAGACCAGCCTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGC
ATGGTGGCGTGCAACTGTAATCTCAGCTACCCAGGAGGCTGAGGCAGGAGAATCGCTGGAACCCAGGAGGCAGAGGCTGCAGTGAATCAAGATCGTGCCA
CTGCACTCCAGCCTGGAAGACAGAGCAAGACTCCRTCTCAAAAAAAAAAAAATTTATTGGATGTCTGCCTAAACATTTAATGTATATGAATTAAACACAA
ATACTTAAAATTCAAAATAGAGCATTTTAGTAATTTTAAAATTATGTAAATCAAAATTAAACATGACTTTAAAAGTCAGTCATGTGCATTTGCATTTAAA
CTACTTTACAAATAATGTATTTTATTTAGACATCAAATAAATTTTAATCTTGTCAATTCTTGTATTCCTCAAAATACATTTCCTCAAATAGATCTTATTG
GATACAAACTCAAGACACTGCTGCACAAATATGTCAGGGTTTTGGTTTAAGAAAATTCATTATAAAATTGGCAAAATAACTCAGTTTCTCTACCCATAAA
GTTATTAGCCTTGATGAAACTGACATGAGTAGTCAGTGTTATCTAGTACTGTTGTTTACTACTCTCTCATGACTAAAGATGTCCAAATCATTTGATACTC
CTGGAAAGAACCAAATTTGGTGGTTTTGGGGACCTTTGTAATGAGAGGAATTTTTAAATGTGATAAAGGACAGAAGCAATAAAAGACAAAACAAAAAATA
AAAATAAGAAATAAAAAAACCCCAACTCAATTCTCTTTTAAAAGTTCACTTATCTCTCAGTACTTCACTTTTTCAGACATTCCACCCATTTTTACACATC
CTTTACACTTTCCTCAGTATGGGTCAAATTCAGGCTAGTGACTTAAGAGGCCAAAAGCGTTTTAATTTTATTATGATAAATCTTAAAGCACCAAAATGAG
AATTAAAAGTATCTTAAGCAAGTAGTAATTGATAGAAGCTTTCAATTACCCATCTAGTTTGTATAAACATTGAAAGTTTTATTTTGTAGTTCCTAGAATA
TGTAACTATATGATATGACATAATAGCTTACTGTAGTTCCATTGCTCAAGCTTCACTAAGAAACTGGGATGATTCAACAAGGTAATTCTAATTTCAGTCT
TTYGGACCTATTTATTAACTTTCAACAAAAAGGTGAAAGATTTAAAAATTTTAAAAATTTACCTAAGTAAAGTTGATCTTTAGAAATAATGTTTTCCAAG
CTGCTTTTGAAGACAGTTAAGTAGGCAGCTCTACAATTCATATAAAATATTTCCTCTTCAGTTAGTGGAAWTTTCTTTGTTCGAGGACTCTCTGAAGGTG
TTGATTTCTGACTGGAGAAAGTTGCRTCGCTTCGTGGACTGATCGCCATTCTATTGGAAAATAATTTAAAAATGTGTTTGTCAATGTGAGTCACTAAAAC
ACAAATGTCACCATGTCTTTCAAATACAGGGAGGAGAATCAAGATTTTATACGTAGAAGAAAATTTATAACATATATGAAAAGATCAAGATATTAAAAGT
TTTATATGTGGAAGTAAAAGACGAATACTATAGTTGTATATGGACGTATTATATATTAAACAAGAATAAGCCTTTGGCAGTTAATTTCTAATTTTAGATA
TATACATATGTATATATATAATTGTTCAAATATGTGATAATAGCCAAAAGAACAAAGATATACACAAGAGAAGAATCACTGAACAAAGGAAGAGCACACA
TCTATTCTCTCAAAATACGAAAGTCAGATGACAGTCTTCATCAGGTTTTTAAGAGGAGCAAATCAGTTAATACATGTGAAGCATATACAATATTGCTTGA
CACGTAGTAAGTGCTAAATAAACTGCAGATAATGAGAAACTCCAGAATAATGAGAATCGGGATATGAGTGGTAGYTGACACCCATCTTCCACAGCAGGAT
CAACAAGATCATTTCATTAACATCTCAATAATGCAGCCCCACATTTCAAATAGCTATATTTTAAAAGTCTTATTTATAGCATTATCATAGTTTTACTGTG
TTCCTTTATTAATAACAATATTTGGGGTTTGTATAGCACCTCTGTAYATAAGAGCTTAAAGAACTGTCATACATCTTGTCTTATCCCTRTTACAGCGGTC
AGGTATTTTTTTGTCCGTTTTACAGATGAGGAAATTGAGGGGTAGCAATGTCACCCAGCTAGCAGTAAGTGGCAAAAAGCCGTAAATTTCACGAACAGTT
TCTTCTTTGTTAATGTGGATATAGTACTGAACAATGGTTACTATGGGGTATTAGATTCTACTGGTGGTCTAACAGCTTCCARTATTACTCTACCCAGCTT
TGACTTCTAAAAATAGATCTCCAACCTAATAAATTGAATATTTCAAGTTCAATAATAAGATRACACAGGTAGGGTCCCCTTCAGGACTCATTGCATTCCT
ACTCAGGAGGCCTAAATCACTTGCACCTTTTCGAATTATATAGATCATTTACACTTGGGAAAGAAAGATAATAATTGCTTATCATGGATGAAGTACCCTA
TTTATAATACGCAGGCCGCCTGCCTGACACTTTCATATTACACCAGATTTAGAAGGACCCCACAGGGATGTGGTGTCACAGTCTGGTTACTGCAAATTGG
TAATACTATAATTAAGCATCAGAGTTCTAAACACATATGTGTGCATGCATCTCCTCACAAATGTGAAAGAAAACTGTTTCAAGAAGTAAGGGAGAATGAA
TTTCACTTTGCAATAAGCAATTTTAAAATATAAGTATATTTTAGGATCGTCCTCAAATATTCTTTCCAAACAAGGCAACTCCCTCACATGGAAATCCCAA
GGCAGAAATGTGCCAGAATTTTATTCTTTTCCTTTCTGTGACGAGAAACCAAACTAAAGCTTAAATAAACATATAATTGCACCCCCCGCAGGCTTGGAAA
CCTCCCTTACTTAAAACTCCGGCCCGAGACTGAGACAGGGGCCTAGAGAGTACATTGCAGCAAACRGCTCCATAAATAACCAGCCACACAATAGCAAGAA
AAATAAACTGTTAACAAGCGCCTAAGGCTTCTACAGGGCCAAGTGAAAACAGAAAGCCGTCCAGTCACCGTCCCTACACAGTGAAATACCGTCACAGGTA
ATCTCGGRCACCATCTCTCTATTTTTGTATTCCTCTGGAAATAAAACCGCATTTACATGTACATTTTAGGTACATACATGGACCAAATGTTTATGACAGA
GAAGTAGACAAAGCAGAGGAAGGAGAAGCAGCTGCACAGAGAGGGACAGAGGGAGCGAAGAGAYAGAGACAGCGAGCTGTTTGCTACCTAATTCTARCTC
ACAAACAAGGAAGCGCAGCCAATTCTCTTCGGCGATTCAGCGTTCCTCTCACCGCAGCTGGACAGATCTCGGCCTTTCTCTAATCACCATGGCAACTGCA
CCTCACCGCCACCGGAAATAAGATGCAGAGCCCTTCTCCAAACGATCCGGCTAGAAATCTAGGAAGCGCTGATCCGGAGCGCACAGAGACAGCTGTGTTG
CTCCTCTATCGCGGGGGTGGTATGGCCAGAGTAGTGAGAGAAGGTGCTCTGTTACACCAGCAGGAAATAGGTGCTGTCCTGGGCCTAGAACTCCCCGCTC
GCTCCTTTGCTCGCGCACACCCGGATCCTTCGTCGYGGGGAGGATGTTTCCGCCCGGCCGCGGTGGGCTTGACGCAACGTCCAGCGCGYGCTTTTCATKC
CTTGGCKTTTCCTTTGGCGGATTTTCTGTTTTCGGAAGTTGCTGGGTTCGTTTTATTCAGCGGCAGTGGTGCTTTCCCGAATCTCAGAATGCCGTAGGTA
TCTCCTCCCCAGGTATTGCTGTTTTGGGGGCCCTCTGCAAGAAGAGAAGATATTATGTGGCCCAGTAGCCTTTCTCGTTTTCCTATTTTTTCGGAGTATG
AACTTGTCTCCTCTGTCCACAGGCAATTCCCTTCGCTTGGTACCCTCAACTCTACGTCTCCTCCAGCGGTACTCATACGATAGTCCTCCTTCGCTTTCTG
TTTCTACGATGCTTTTGACAGATTTCGTAAACTGTGGGCTGTATTTAGGTGATGTCTAACTTGAAATAACATAAATAAGGTTGACACACAGGATGGGACA
GAGTAGATAAAAACACGCCTTCGTAGTTTGTCAGTCCCTTGCCTTCATTAATGTGGCGCGTTCGTGTAAACCCGTGGGAGAACTCATGGACTGAGTGGGT
CTAGATACCTGGATTCCAGATAAGACTCTTTCACTGTTGGGCAAGTCACTTATCGACCCTGAGCTTCGTTTTTTTTTACTTACACAAATAAGTTTGTACT
GCATGATCTCTAAATTCCCATCTATGACCAATAATCTGATTATTGAGAATGACCATAGTGGGAATAGGCATTGTGCTAGATAAGATTCATCTGTTTTTCA
TATCCTTCATCCATCCTATATTGAGATGCATAAAATAGTTGCTACCCTATAGAAACTTAAAAAAGCCATTAAAGGTTGGGGGAGTGGGGTGGATATCAAA
CACCTGTAATTTCTCCTTGGCCGTCCTTGTCCTCAGGTTGATTTARGTACCCCCTCTAGTGTAACCTGTTCCTTAGTTTATTTCAGGATTAAGTAAAATG
CAAAGTAACACAGCTGGGGAAATTTTTGTATCAAATAGGAATTGACATGAAAGGGGAAAGCTGTACAGAAATGATAACCTATATTTATTGAATCTTGAAT
TACAATGTGGGTGCTGTATTAATCAATTTATCTACGTTTTTTCATTGAATCCTAAAATACTTTAGGGGATGGGGGCTGCTATTATCTTTACAGATAAAGA
AACCCATCACCTAATAGGGTGTTCAACACAGCTGCCAATAAATGCATGTTTTACTGATGCCCTTAAAAGTTATGGATTATTGAGGAGGTTTTCCTTTCCC
CAGAATTAAGCAAAGAGACTTGTTTCCCTACTCTTGCATTAGAAAAATCATCCAGTTCTCAAATAAACAAAGCTGCAAAGATAATGTCACACAATCACAC
ACACAAAATCCCTAAGAATACAGTGAAAACAGAGGTGTATTTGCCAAACAAGTGGTAATACCTCCTGAACTGTGTGTATCTGTGTATAGGAGTGGGGAAC
CAAAAAACTATGAAAAGTGGAACTTTTTTTTTCTTTTTTTGAGGCAGAGTCTGGCTCTGTTGCCCAGGCTGGAGTGCAGTGCTGTGATCACAGCTCACTG
CAGCCTCTACCTCCTGGGCTCCCACATGCCACCATGCCTAATTTTTTTATTTTGTAAAGACAGTGTCTCCCTGTGTTGCCCAGCCTGGTCTTGAAGTCCT
GGGCTTAAGTGATCCTTCCACCTCAGCCTCCCAATGTGCTGGGACTATAGGAGTTAGCCACTGTGTCAGGCCTAAAAGTGGACCTTTTTGACAACTGTCT
TCCTAACATATGCACACAAGATGTTATATTAGGCTTTTAGATAAGTATATTCTGGTAATAAATACACAACCTTAAAGTTGAGGTTAACATCTCACATATA
TAGCTAATATATATGTGAAACTAGCAATTACTTTGCTAATTTTCTAAGTTTTAGCAAAGTGATTTAAGACTAAATCAACAGTTAAGTAATGCATAAAACG
TAATGGCATGTTAGTAGAGAATCTCCATCATTGTTAGTAAATTAAGTGTTTTTTTTTTTTTTTAATGTGGTTACTGGTGAGGTCATAAATGAGTGGTGCA
AATAGTTATCTTGGCAAGTTACATATGCRGGTGGATTCATTTTTAAGTGATGTTGAAATGGTGACTATTTGGTATGTATTTGGAAGACTAAATGTGTAAT
ATAACTTATGGGAGGGTGTGATCTATCTTTTTTCTAATTTCTTAGAACCTTGAGCGGAAAAAACTTCAATACAACAATGAGTAGTTGTGAAAATATATAT
GGTCCAAATGAATCTAAAATAAATAAGAAACAGCAAATGTTCAGTGACAATAGAGCGGATGGATGAATCTTAACATAATGAGTGAAATAACCAATTTGTA
TGAGACTACATTTGTTATCCTTATAAAACTTAAGAACAYGCAAAAATAAGCTACTTATGGTTATATATGTATATGATAAGATTATTGTTAAAAGGCAGAG
AAATGATAAATACAGAGAAATGATAAATACAGTTTAATAGATGCCTTTTGGGGGAAGCMAATAGATGCATGTATACCCAGTCATATTGGTAATGATCTAG
TTCTTAAATTATGTGGTGAGTTTATGCGTGCTTATTTTCTAATGTTTTATAACTTGCACAGCTTACATTTTTTCATTAGTATCCATTATTCATTAGTATT
ACATTTATTCATTTAGTATGTACTACTTAAAATGTTTTTTAAAAGGATTTAGAGATTACCTATCTTAAGTCCTCCCTAAGTGTAGCTTTCTCTGCCTTCT
CTTTGATCCTTTGGAGGAAACAGATGAATTAGATAAATGCTGCTGTTGGTTTCATTAGGCTAATCATCTTCCCTTCCAATCTTGCTCCTCTTTCTGTGTA
CATTCTGAAATTAGTGGCACAGTCATTTCTCTATCTAGGTTGAAACCTTCACTTTTTAAAGATTTGAAGTGGAAAAATCATGGACTTTGGAGTAAGACAA
ACCAGGATTTGAATCTTGAGTCTGTTAACCAGCTGTGTGCTCCTTAGATTGTTACTCAGTGTCCTCATTGATAAAATAGTTGCTCAATAAGTATTTATTA
ATTDGATAAAGTTGCTACTTTGGAAAGATTTCATTCTATGTAGACAGATACATGTCTTTTTAGTAGCTCTTGCTGTAAGTAATCAAATCCCATTCTAGAC
CTTTTTTCTTCTTCTACCTTTTCTTTATAAAGCTTCCTTTAAAAAGTACCATTTGTTTAGTCTTGCTAATTAGTGTACATCATCATGCTAATTCAGCCAA
AGATACTCTCTACCAGAGTTAACTTTATTCTGTTCCAAGCTATGACTGAACTAAAGCTATAAAGTTGGAATAGCATTAGTGTTGTAGAAAAACTATTCGT
AACAGTAACAGTGGGGGCCATTCTGCTGCTGTATTTATAGTCTGAGAGTTTTCTGAGAGAACTTTAAAATGTGCTATATTTTTTCCAAGATAAGGGAAAA
TGAATATAAACATATTCTGGATCTTTATTGTGCCTATATGCTGTAATCATTTTGATGCTACTGCCAGGTACAATGATTTTTATTTTGTGGGTTGATTATA
AAGAAGTAGGTGGGTGGAATGATGTGTCAGGCCAAGTAAAAGTTAACCATTAAATAAACATCCTTTGAATTATAGTAGATATTCAAAGTTATATAATTTC
TTTTATAAATAAAGTGTCCTGCATTTTAAAAGAAGATTGGTGAAATTTTTAGTACTTGATATAAGAAAAATATGAAATTTAAATGCAATTCTTTCCTGCT
TGTAAAAGTCAGTAAAGTCTAATAGAGGAAGGTATAATAGAGCCTTTTTGGCTGAGCGTGGTGGCTCTCACCTGTCTATTTAACTTAGAATTTTTTGACT
TCATAATAGTGTGAAAGCARTATGCATTCAGTAGAAACTACTTTAAGTACCCATACAACCATTCTTTTCTTTACTTTCAGCACAATATTCAATAAATTAC
ATGAGATGTTCAACACTTTATTTTAAAAGAGATTTTGGGTTAGATGATTTACCCAACTATAAGTTAATTTAAGAGTTCTCAACATGTTTAAGCTGTGATG
TTCAGTAGGTTAAATGTGTGAAATGCATTTTCAACTAACATTTTCAATTTACAATGGGTTTGTTGTAACATAATCCTGTTGTAAGTCAAGGAGCATCTAT
ATATTTTTTGCTTGCAACTTCTTAAAAAGGTGAGAATGTTTAAAGCAAAAATTAAACACTATTATGGGGTTATATGTAGACATAATATATATGATACCAG
TGGCACAAAGTGTAGAGGGAGTTGACTATAATGTTGCAAGATTCTTCTCTTTTACATGAAGTAGTACTGTATTATTATAACTCTAGATAGACTGTGGTAT
GTTAAAAAGGCATACTGTAATCCCCAGAGTAACCTCTGAAAATGCAGAGAGGCATACCTAAAAAACAAATAGAGGAATTGAAATGATATATTTAAAAATA
ATGTTAATTCAAAAGAAGGCAGGTAAAAAAGAACAAAGGAACAAAAACAGATGGGACAAATAGAAAACAACTATCTAAATGGTAGCCCCAACCAGATAAT
TACAAGTTTAAGTGCAGTAAAGACATCAGTGAAAAAGGTAGAGAATATTATAAGGCTAGATTTTTTTTTAAAGCAAGTCCTAACTCTTTACTGTCTATAA
GCAACAAAGTTGAAAGTTAAAAAAAAAAAAGAAAGAAAAGAAAGGGAAAGGTAGATATAACAGTCTAACAGGAGAGAAAACAAATGATCAATATCCAGAA
TGAAAGGGTAAATTGTACTTAGATGAAAGAGAACATAAACTATCAATATCCAAAATGAAAGAGCAGAATACCACTAAAGATGCTATAGATATTGAAAGAG
GTAATATCATTAAAGCCTTTATTCCAGTAAACTTGACAACTTATACAAAATTGACAAATTCCTTGAAAAATACAACTTAGCATGATGGCATAAGATGATA
CAGAAAATCTGCATAATTAAGGAAATAGAATTTGTTACTAAGAATCTTCCCACAAAGACCCAGACGATTTCATTGGTTGATTGTACAGAGAACATACCCA
TTCGTGAGAAAATAAAACCCTCAGCAAACTAGGAATAGGAGGCAACTTCTCATTTCTTTGAAAAACCTATAGATAATATATTTAGTATCGAAAACTTTTT
TAAGATTAGGAAAAAGGCAAGAACGTGCCCTCTCACCACTTCTATTCAAAAAAGCACACACAGAAAAACACCCATAGTGTTAAAAAGGAAAAAGTGGGGC
CAGGCCCAGTGGCTCATGCCGGTAATCCCATCACTTTGGGAGGCTGAGACAGGCAGATTGCTTGAGCCCAGTAGTTCAAGATTAGCCTGGGCAATATGGC
AAAACGCTGTCTCTATGAAAAAATATGAAAATTAACAAGGTGTGACGTTACGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGGATCACTTG
AGCCGAGGAAGTCAAGGCTGCAGTGAGCTGTGATTGTGTCACTTGCATTCCAGCCTGGATGACCCTGTCTCAAGACAAACAAAAACAACAACAACAAAAA
AGGAAAAAGTAAAATTAATGATTCAACAATGACATCATGTATGAAGAAAATCCTAAAAAATCTATAAAACAATTTTCAGAACAATTTAGCAAGGATGTAG
GATGCAAAATCAGTGTACAAAGATCAATATATTTCTATATTTCAGGAATAAACACCTGGAAATTGAAGTTTAAGATTTTTCATTTATAATTACATAAAAA
CATATAATAATTTAGCATAAGACATGCAAGACCTCTACAGTGAAAATTACAAAATGTTCCTTAGAGAAATTAAAGATGAAGATAAATGAGAGTATTTTTA
TTTATTTTTTATTTATTTTTATTTATTTTTATTTTTTTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATATATA
CATGTGCCATGCTGGTGAGAGTATTTTTAASTGATAAATGTGGTATTATTAAAATGTTAGTTCTCACCAATGTTTAGATTTAATGCAATCCCTGTCATAA
TCCTAACAAACATTTCTTTTTAAGTTTTGCTCYTTTTTTATTTCTACTGTTTAAAATGGATCTTTTTTAAAAAAAGTTAAGTGGATGAAAACTTGTATAA
TAGTATTTGGTATTATCTTTATCTTTTCTGTTTTATATTTCATTTTTCATGTAATCTAATTTTCCTTCTTTGTACTTTCTTTTTTTGAGTATGATCATTT
ATACCTAACTTATTTGTTTTTATTTTTTATAGACTCAGGGTGTATATGTGCAGATTTGTTACAAGGATATATTGCATAATGGTGAGGTTTGAGCTCGTAG
GTGCCCATCACACAAATAGTGAACATTGTACCCGAAAGATAATTTTTCAACCCTCACCTTCCTCCCATACTTCCTCCTTTTGAAGTCTCAGTGTCTATTA
TTTCCCTCTGTATGTTCATATGTACCCATTGTTTAGCTCCCACTAATAGATGAGAACATGTGGTATTTGCTTTTCTTTTTTTTTCTTTTTTCTTTTTTTT
TTTTTTTTCATGAAACAAGGTCTTACTCTGTCACCCAGGCTGGACTGCAGTGGCATGAACATGGCTCACTGCAACCTTCACCTCCTGGGCTCAAGTGATC
CTCCTGCCTCAGCCTTCCAAGTAGCTGGGACTACAGGTGTACACCACCACACTGGCCTAATTTTTAATTTTTTTGTAAAGACAGAGTCTCATTATGTTGC
CCATGTTGATCTCAAACAATCCTCATGCCTTAGCCTCCTAAAATGCTGAGATCACAGGTGTGAGCACTGCCACACCCAGTTGATTTTCTTTGCTTTCCTT
TCCTCTTTTTTCTCTTGTTTTCTTTCTTTTCTTTCCTTTTCCCTTCCCCCCCCCTTCTCCCCCACCTTCCCTTCCCCCGCTCCGCTTCCCTTCCCCTCCC
CTCTCCTCTTTTTTTTTTTTTTTTTTTTGAGACATGGTCTTGCTCTGTCACCCAGGCTAGAGTGCAGTGGTGCAGTTTGCTCACCACAACCTCTGCCTCC
CAGGCTCACTCTGGACTCAAGCAATCTGCTCAGCTCAGCCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCACCATGCCTGGCCTAATTTTCTGCTTCTG
AGTTATTCCAGTTAAGATAATGATTTCCAGCTCTATTCATGTTGTTGCAGAACAACACGGTATCATTCTTTTTTATGGCTGCATAGTGTTCCATGGTGTA
TATATACCACATTTCTTTATCCAGTCATCCATTGATGGACACAAGATGATTCCATGACTTTGCTGTTGTGAATAGTGCTACAATAAATGTACAAGTACAT
TTGTCTTTTTGATATAATGATTTATTTTCCTTTGATAGATACCCAGTAGTGCGGTGGTTGCTGGGTAGTTCYTTTTTTTTTTTTTTTTTTTTTTTTAAGT
TGGAGTCTTGCTCTGTTGTCCAAACTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGAGTTCAAGTGATTCTCCTGTCTCAGCCT
CCTGAGTAGCTGGGACTACAAGCATGCACCACCATGCCTGGCTAATTTTTGTATTTTTAGTAAAGATGGGGTTTCACCATATTGATCAGGCTGGTCTTGA
ACTCCTGACCTTGTAATCTGCCCACCTCAGCCTCCCAAAGTCCTGGGATTACAGGCGTGAACCATCGTGCCTGGCGTTGAATGGTAGTTCTATTTTTAGT
TCTTCAAGCAAACATTTTTTAGAAATTGAAAACTGATTTCAAAATTTGTATGGAAAGGCAAGTGACTTGCAGTAGCCAAAACAATTTTGAAAAAAAAGAA
TGAAGTTGGAGTATGTACACTAACTAGACATGGCATAAAGTGTTGGTAATGAACTCAATGTGGTTTGGGCATATAGAGAAATAGGTAAATAGAATAGAAT
AGAAAGTCCAGAAATAGACCCACAAAGGTACCAAAGCAGCTCAGTGGGGATAACAGAAGATTTTCTTCCCAAGTGGTGCTGGCATACCCAGTGGGGAAAA
AAACAAAACACCTTGACCTTCACCTTATATTACATACAAAAATTAATTTGAGATACATTTTAGTCCTAAATGTAAAAAGGAAAGTTTCTGGAGGGAAATA
TTTGAGAATATTTTTACAGTCTGAAGTAGGTGAAATTTCAGGCAAGACGCGGAAAGCAATAATTATAAAAGAAAAAATGATAAATTATGCTTCATCTAAC
TTTTAAACTTTTGCTCATCAAGAGATACCGTTAAAAAAAGTAAATTTTCTGTTTTTCTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCAGG
CTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCCGTCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCCGAGTAGCGGGGACTACAGGTG
TGCACCACCACACCCAGCTAATTTTTGTATTTTTAGGAGAGATGGGCTTTTACCATGTTGACCAGGATGGTCTCAGTCTCTTGACCTTGTGGTCTGCCCA
CCTTGGCCTCCCAAAGTGATGGGATTAGAGGTGTGAGCCACCATGCCCAGCCAAAAAAAGTAAATTTTCAAACAACTGACTGGGAGAAAGTATGTAACAG
ATATATATCAGACAAAGGATTTATATTTAGGATAAGAAAGAACTCTTACTAATCAACAGTAGAAAGACAAAAATGTTATTAAAATAATGGCCCAAAGATT
TGAACCAATAGTTAATAAAAGAAGATACACAAATGAACCATAACATGTTGCTAGACATTTTGGCAGTTTCTTATGAAATTAAATAAATATACACCTACCC
AATGATCTAGCACCTCTACTTCTAGGTATTTATTTATCCAAGAAAACTGAATGCAGTATAGCTAAGGAAAACAAAACAAAACAAAAAAACTTGTAAAAGG
TGTTCTTGGAAGCTTTACTCATAATGGCTAAAAACTAAAACCAAGTGTCCATCAACAGGAAAACAAATAAATGGCTTATTAAGATAGAATATTAATTAAA
AATAAATGATCTACTGATGTGCAACAACCTGGGTGAATCTAACAGTTATGCTGAGCAGAGAAAATAGACACAAGTACATACTGTATAGTTCTATTTATAT
GAAATTCTAGAATAGGCAAAAGTAATCTATGCTGGAAAAAATTAGAAAAGTAGTTGTGTATGGTATAGATTATGGACTTGGAGGGAGCCTGAGGTACCCT
CCTCATATGATTCAAATATTCCATATCTTGATATGGATGTGAGTTTCAGGGATATAGTACATGTTTGTTAAAACTCGCATCTATACACTTAATATTTGTG
CTGCTTGCTATATGTAAATTTTACATTAAAAATATTAGGCAAATACTGAACTTGAGTAAGAGATTTGCTTTCCATGGTAGTATGTGTTAGCACTTCTGAA
ACTAGTTTTTATGTGTTCTAGGCTTGGTCAAATGAGTAAGTGTATTGTGGATGATGGGAGCCAGTTTCTCACCTTTGGATGGAGGAATTTCAAATTTCTT
GACTTGGCATTGGAGATGTCAATATGAAATCATAGTTTTTAAAAATATACATATTAAAGATAGAGGTAGATAGAAATGTTTTTGTGTGTGTGTGTGATGT
GTGTTCCAGCTCTGTCCTCTGAGAGAGACTGTAAGCGATGACGTAAGTAACAGTGAACACATTTAGTGCCCAGATTTTGGTGTCTAAATACCATTGTCCA
CTAAAAAGAGCTAGGTCTCATTGGAGAAAAAGCTGATTCCAAAGCTGGTGCAGAGAAAACTTTTTGTGTATGCTGGAAAGGTAGGAAGTGCTCAAAGCGT
TATGGGTACATAGGTTAAACAGGAGCCAGGGTGAAGGGGAAGAATGGTCCCATTGCCAAATTTGGGACAGTTAAACATCAAAATAAATAATGATAGGAAT
GGCTTAAAATCCATTGGCTAACATAAAAATCTGTGACACTGTAGTGATATAAATGAATAAAGGAAGGAGAACTGAAAGGCTTTTCTTGGAATGTAATGCT
AACTAATAAATATAAAAGGAATGATCATTAGTGGCTCTTTATAAGATTTCTTATTTACTACATTGGAGAAAACTGGAAGATAATATCTTAATGGTCAAAA
TTTATATCACTGATATTACAATACATCAAGATCAAGTGCCTCAAGTTATGCTCTCAGAAGGATGCAACATCACTTCTGTGATATTTATGCCAAATATGCA
TAACCTAATCATGGGGAAATATCAGATAGGCCCAAATTGAGGGATAGTCTACAAAAATAAAAATAAAAATGGCCTGCAGTCTTGAAAAATGTCCAGGTCA
AGGAAAACAAAAGGTTTACATTTAAGGAGTCACATGGAATGTGAATTTGGCCATTGCCTTTCATCAAAGGATTTCTAAGAATCTCACAAGCATACTCAGT
AATACTCTAAACACTCCTGTGAAGTTGTAGCTGGCAATATTATCATCTCTATTATAGTGTGGAGTAAATGGAAGCACTGAAATACTCAGTGATATTTTTA
TCTTCCACTCAGAAATTTCTTACTACTTTACAGGCCTGTGTTATTATCAACTTTATGAAGCTTAGTGAGATTATGTGATTTGCCCAACCTTAGGGAAGAA
TTTGGCATAGCATGAAGGCTCCCTGAGTCTTAACTGCTTTACTAAGTTTATTCTTTACCCCCCATTCTTCCCCTCAGTCCTGTTATTCAAAATTGTATTT
AAACTAATGTTTTAAAAGTTCTATAAGAGAAGCTCAAATCATAAAATTTTGTGATTTTCTGAGGTGTCATTCCTGGTTTTTTATTAGGAATCAAATGATA
GGGTTTTTTTTYCCTAGAATAATTTCTTTAATACTGTAACTGATGTTAGTCARTAACATTGTGTAATAAAACTCATCTGCTTTTTCTGTTCTGATGAACC
AGAGAATCCTATTCAGGATACTACCATATGTTAAGCTAAATAGAAAAGAGGTCARTCTTAGAGAATAATATAATTATACAAACATAGTTACTCTCTCTAT
AAAATTGCATGTCAMATGCTTTCTATCTTTTTAAAATTCTCAACAGCAGTATTTCTGGTAGCAACCAGAATTTTGATCCCAGTGAATCTAAACCTAGTAT
ACCTAGAAATATAATATAACTTGTAAATTACGGGCATAGGTGGAAATTTGGGTAAGTTGGAAGTTAGAAGTCATCCACAGAGAGGTTACCTGTAAAAGGG
AGGTAATTAGGACACAATAAGTAGATATCCTTTAAAAAAATTATCTATTTTTAAATTGTGCTAAATTATATATAACAAAATTTACTATTTTAATCATTTT
TTAGGTGTCCAATTCAGTGACATTAAGAATGTTTACCTTGTTGTGCAACCATCACCACCATTCATTTCTAGAATTTTTTTTCATCTTGTAAAACTGAAAG
TCTGTACCCATTAAACAGTAATTTCCCATTCCTCACTCCCTCTAGCCCCTGGCAACCACCATTCTATTTTTTGTCTCCATGAACTTGACTACTCTCCTAT
GAGTGGAATAATACAATATTTGTCCTTTTGTGACTGGCTTATTTTACTTAGCATAATGTCTTCAAGGTTCATCCATGTTGTAGCACATGTCAAATTTCAT
TTCTTTTTTTTAAAGCTGAATAAGATTTTGTTTTATATATATATCACATTTTGTTTATCGGTTCATCTGTCAGTGGATATTTGGGTTGCTTTTCTACCTT
TTGGCTATTGTGAGCARTGCTGCTGTGAACATTGGTGTACAAATATCTGTTTGTGTCCCAGCTTTCAATTATTTTTGGAAGTGGAATCATGGAATCATAT
GGTAATTCTATTTTTAATTCTTTGAGGAACTGCCATACTGTTTTCCATAGCTGCTAAACCATTTTACATTCCCACCAGCAGTACACAGGGATTCTAGTTT
CTCTACATCCTCACCAACACTTATTTTCTGTTTGTTTTTTTTGTTTTGTTTGGTTTTTTAATAGTAGCCATCCTAATAGGTTGTGAAGTAATATTTCATT
GTGGTTCTGATTTGCATTTCCCTAATGATTAGAGATGTTGAGCATCTTTTCATGTGCTTATTGGTCATTAGTATATCACTTTGGAGAAGTGTATATTCAA
GTCCTTTGTCCAATTTTGTGTGCCCACTTTTTTAAACCAAGATAGTAGCCACAGGAGCTGCTTATAACTTTACAGAACTACCAGATAGATATCACTTTTG
TTAGCTAATACTGGTAACAAAAGAGTAAATATTTTAGGAAAATATCCCATATATCTAATCAAATTTTACCTATTCTTCCTTCATATGTTTCATCCGTCTC
TTCTATTCCTACTAACAGTAAAGTAATCAATTTAGTATATTCTCGTCATTGTGTTGTAAAAGAGTGGTTGGGCCCAGTTCTAATATAATATTAAGAATAG
ATGGTCATAAACTCTGTAGTGGGTTTGCTCTTCTCTTCCCTTCTTTAATTYCCTTCCCCTCAATTCCATAAAGATTTATTATGCACAGGGCCTGAGATCT
GAGTTTCTCTCCCTCAAGATGTGTGACAATAGGCAAGTTGCACAAACTGTTTTCCCTATTGGCTGAACTAAGTGATTTCTTAGATTTCTTCTAGTCTTGT
CTATTATATCTTTTAAGGATTCTTTTAAGTATTATAACTTTTGGTTATTAGATGTCCGAATTATCTGAATAGTACACTACCCTCAGTAAATAATATTTTT
AGATTGTCACCAAACATAAAGTGGGAGATGACAGCCTATTTTAACTCAGCTTACTTTCTTGTTTACTATTTTTTACGTATTTCCTTGGGTTTCTTAGATC
AACCTGGGGCCTAATCTGTAAACTTTTTAAAAGCAAACATTTAGTTACTTTGTCTAAGAATTAACCATTGATAACAAAGCAATATTTTGAACAGTTAATA
TCAGGATGGAATATGTCTCCTTCTAAAAGATACTATTGCATCTTAATAGCATTTAGAAACAAAGGATAAGAAATGCTGTACTGTTTAACTTTAGTTTTTT
AATTTCTATTTTCTTTTTCTTTTTTTTTTGAGACAGTTTTGCTCCCGTTGCCCAGGCTGGAGTGCAATGGCACGATTTCCGTTCACTGCAACATCTGCTT
CCCGCGTTCAAGCGATTCTCCTGCCTCAGCCTTGGGAGTAGTTGGGATTACAGGCACGCACCACCACGCTAGGCTAATATTTTGTATTTTTAGTACAGAC
AGGGTTTCACCATGTTAGGCTGGTCTCGAACTCCTGACGTCAGGTGATCCACCCACCTCAGCCTTCCAAAGTACTGAGATTACAGGCACGAGCCACCACG
CCTGGTGTAATTTCTATTTTTGAAGTGTTATAAATACCAGAACATCTTACATACCCAAATAGGGCAATATGTATTCCAAAGCTAAATATAAATTTTAAAA
AATTATCTGCATTTTAGTTTGTTTGTACCTCTGTTTTCTTCTTGCCTCATTGGGAAATCAGATTAAATTGATATTAAGTAGATTTCTAAAAGCATAAATA
ATTCTTTAAACCAGTTTAATCTCAAGAAATAATGTTGTGATAGGGTAATGTGGATATAGTAGCAAAATAATCTTTTAGATAGATTAAATTTCTGTACTGT
ATATTTACTGTTCAATGATTTTCTTAGATTGACCATCTCTTCTATTTTTTCTTATTCCTGTCCTTTGTAAATCAATAGTTACTTACGAATAGTCATTTTC
TAAGATCAATACAAACTTTTGGGGGATTTCTGTAATATAACATAGTACAATCTTTTTGCTTTATGCTCTAATTCTTTAATATTTTAATTCTATTTCTATT
TCTCAAGAATCAGGAAGATACTTTTAACACTGCATTTGTCACTGAAAAAACTAGTTTTAATTTATATTGACCTTTTTCTCCTTTGAACATTTAGTCTGCA
TTSAATAAAATGTTGATGACTGCTCTTTAGAAGACAGCTGTATGAAATAAAGTATTATAAATATTCAGCTTCCCTTTCTAAGCATTGTCACCAACAGCTG
GGCATCCAGTTTAGCAGAACAGATTTTGCACACAGAGAGCCTGGCATATTCCTGAATCAGTTTAGTGAAGGAAACAAAAAATAGTTTCTTATGGATTGGG
GACTTATAAAGACATAGAGCATCTGTTCCTCAGTTAAGTCATAGTCTGGTTGCACTGAATCATGTTTAAAGCTAGAATAATGTGCAAAACTTTTTTTCAC
CATGCTCATACCTTTAACACCTAGTGCACTGTTTCTGTACTGTACTTTCAACATCTCCACTGAAAGTGTATAAATTATTTTGCTCTTATATATGATATTG
TAATAGTGGTATTTTAAAGCAGACAAACATACTAACTTTTTTATAAGAGTTTTTATAATATAGGACTGATGTTTAAATTGTAYGGTAGTCCTTGTATATA
TAACTGCATATATTTTTTAAAGAAACTCATTTAAATATTTAATTATGATCCCATTTAGAGATATGCAATTAGAATCAAACCTGTCATCATAAATAATTGC
TTTCTTCATATGGTATTCTGCTTTAATACATAATATAAAAATTGGTTGGTAGAACTAAGAATCTTTGTTTATATATCTTCCCTTAATTATTGGGCTACTT
TAAATAAAGCGTGTCAAATCTAAAATTTCTTTAAATTTTTTGTTTGTAGYGTTAAAAGATCACTGAAGTTGGATGGTCTRTTAGAAGAAAATGTAAGTAT
TTGCTTAAAAGTTTGTCATTGAATAAGATTGTGTTTTCAGTTTTTAACTACTGATTTATCTCGTTAAATATTAAAATTATCTTGATAATTTTAATTATAT
CACAGTGTGATATAATTGTGATTGGTACACCATTTTCTGCATATAAGATATTTTAGTTTTTGTGAATCTAATATGTGGAAGTTCCTGGCCAGCTTGAGGT
GTTCAGTTAAGAAGCAAATTAATTATTTAAAAACCTTAATGAAATAATTTAGTAGAAATTAATTCACTATTTGTGGAAAAAAATAGTCTGCCACTTAAAT
GTACAAGAAACAATATGGGACAATGGCAGTACTTTTAATCTGCATACTATAATCTGCTAAAATGAAATGAAAACATTAGTAGCATTTTTATATCAAAAAT
GTAATTACCTTCCTCAGCTATGCTGGCATGGATTAAACAGCATAATACTAACACTGTAATAAATTGCACCACAGTTATCACAATGAAAATTAAATTGTAC
TGTTGCCATTACTTTTTGTAAATTGAGTTGTAGCACATTCCCAGTGCCAGCATATCATGACATATGTTAGTTTATTATCTTTTCATACCAACTATGGATC
TAGATAGAAACACTAATACTGAGATACTTATGACCTCAGTAATCTTAAATGCAGGTAAATTGGTGAGAAAGTAAATTAAAACAAATMGCTAGTCAATAAG
TAGGCTCCTCCAAATTCACATATGAATGCCATTTCARTAAATGGGTTTTATATGGAATTTTTCTTTGGAAGACACACTGGTATTTAACAAAACAGAAATT
TACCATTTAGAAAACTTGCTACATGCTTTTTAAAAATTTTTAAACAAAGGTGGCAAAGTACTGCAATGACACTTAAAAAATCATTAACAGTATAATTAGC
AATTTAGAATACCATTATCCAACTTGTTCTGTGCAGAATGCAGCTGTGACTGTAATTCTGCATCTGTTTCTTTGGTCAGAATGGTTTTTTGGTAGATGAG
TAGTCCAGCTTGAAATGAAATACTGTTCTTTCCTACCCCAAAGCTGTTCTTTGGGAGATGGTMACATTGTTTAAATGGAAAAGAATGACCGTTTCAGAAC
CCGTTCTCTTCATGAAGTAAATTGTCATCATGGCAGGCCTTCTTTGTATTTTTTCTTCAGATGAAGATGTGTCAAGGTAGCCAGTGCCACAGCTGACATC
CTGTATTAGAAAAATACATTGTTATGTTTGGCCCAGTTCTGTACCTTTCAACAGAACTTAAATTGATTTAAGCTTGTACCAACTGATTTAGTAGTACCAG
TTGATTTAGCTTGGTACTACATGACCACATCTGCCCGAAGGAGGTTCCTAGCATACTAGCTTGGGCATTTCTATTTCCTGACCAGTTTCTGGTATTTTCA
GCTTTGTCCTCTTGCCTTATCATTTGTTTGAAGCTCTGTATTTACATCTTAGAGCTAACAGCTTTTGTTCTGTTCTGGTGTTAAGTCTGGGCTTCTCTCC
ATGGCTACATACACACTTCATCTACTCTAGTAACAACTTAGCCCTGAAGCAACCTGGCTCCCAATTATATACTCACATGGCCTATGGCCCCATTGAGGCT
GCCTTAGCCCATGCAAAAGGAAATTGGACATTCAAAATATATACCTACAATTTTAGGAGTACTTAATTGTTGTGAAGCTATATTGGAACTAGTAGTAACT
TTGTGGTCATTTTACCTTACCAATATGTTGCTGAAGGGGGAAGGCTCTGGTTTCTAAGGGAAAGAGATGGCCCTTATATGCCAGTTGGTTGAAGTGGAGC
CTGTTCATCCTAAGCAATGGCCATATCCAGAGATATTTGGAACTCCTAACTCCCAGTGTTCCTAATGCAGCTACAGATCTTCATGGAGATTAATGCTTCA
TGATGTTTGGGCAAGGTTCAAATGCCATTTGCTTATGGCTCTTGATATGGTTTCCTGTGTCCTCACCCAAATCTCATCTTAAATTGTACTCCCGTAATTC
CCACCTGTTGTGGGAGGGACCCAGTGGGAGATAATTTGGATCATGGGGGTGGTTTCTCCCATACTGTCCTCGTGGTAGTGAATAAGGCTCACTAGACCTG
ATGGTTTTATCAGGGGTTTCCACTTTTGCATCTTGCTTATTTTCTCTTGCCACTGCCAATTAAGAAGTGCCTTTTGGGCAGGGGTTGCAATCCTAGTCTC
TGATAAAACAGACTTTAAACCAACAAAGATCAAAAGAGACAAAGAAGGTCATTACATAATGGTAAAGGGATCAATTCAACAAGAAGAGCTAACTATCCTA
AATATATATGCACCCAATACAGGAGCACCCACATTCATAAAGCAAGTCCTTAGAGACCTAGAAAGAGACTTAGACTCCCACACAATAAAAATGGGAGACT
TTAACAACCCACTGTCAACATTAGACAGATCAACGAGACAGAAAGTTAACAAGGATATCCAGGAATTGAACTCAGTTCTGCACCAGGCGGACCTAATAGA
CATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTCTTCTCAGCACCACACCACACTTATTCCAAAATTGACCACATAGTTGGAAGTAAAGCA
CTCCTCAGCAAATGTAAAAGAACAGAAATTATAACAAACTGTCTGTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAAACTCACTCAAAACC
GCTCAACTACATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGGTATATAATGAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACCAACGAGAA
CAAAGATACAACATACCAGAATCTCTGGGACACATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAAAGCAGGAAAGATCT
AAAATTGACACCCCCTAACATCACAATTAAAAGAACTAGAGAAGCAAGAGCAAACACATTCAAAAGCTAGCAGAAGGCAAGAAATACCTAAGATCAGAGC
AGAACTGAAGGAAATAGAGACACAAAAAACCCTTCAAAAAATCAATGAATCCAGTAGCTGGTTTTTTGAGAAGATCAACAAAATTGATGGACTGCTAGCA
AGACTAATAAAGAAGAAAAGAGAGAAGAATCAAATAGATGCAATAAAAAATGATAAAGGGGATATCACCACCGATCCCACAGAAATACAAACTACCATCA
GAGAATACTATAAACACCTCTACGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTCGACACATACACCCTCCCAAGACTAAACCAGGAAGA
ATTTGAMCCTCCGAATAGACCAATAACAGGCTGTGAAATTGAGGCAATAATTATTAGCTTACCAACCAAAAAAAGTCCAGGACCAGATGGATTCACAGCC
GAATTCTACCAGAGGTACAAGGAGGAGCTGGTGCCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTGATGCATTTTATGAGC
CCAGCATCATCCTGATACCAAAGCCTGGCAGAGACACAGCAAAAAAAGAGAATTTTAGACCAATATCCCTGATGAACATCGATGCAAAAATCCTCAATAA
AATACTGGCAAACCGAATCCAGCAGCACATCAAAAAGCTTATCCACCATGATCAAGTGGGCCTCATCCCTGGGATGCAAGGCTGGTTCAACATATGCAAA
TCAATAAATGTAATCCAGCATATAAACAGAACCAACGACAAAAACCACATGATTATCTCAATAGATGTGGAAAAGGCCTTTGACAAAATTCAACAACCTT
CATGCTAAAAACTCTCAATAAATTAGGTATCGATGGGACGTATCTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCACACTGAATGGG
CAAAAACTGTGAACATTCCCTTTGAAAACTGGCACAAGGCAAGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAA
TCAGGCAGGAGAAGGAAATAAAGGGTATTCAGTTAGGAAAAAAGGAAGTCAAACTGTCCCTGTTTGCAGATGACATGATTGTATATCTAGAAAACCCCAT
CGTCTCAGCCCAAAATCTCCTTAAGCTGATAGGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAGCATTCTTATACACCAAT
AACAGACAAACAGAGCCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGAC
CTCTTTAAGGAGAACTACAAACCACTGCTCAATGAAATAAAAGAGGATACAAAGAAATGGAAGAACATTCCATGCTCATGGGTAGGAAGAATCAATATTG
TGAAAATGGCCATACTGCCCAAGGTAATTTATAGATTCAATGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAA
GTTCATATGGAACCAAAAAAGAGCCTGCATCGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCCAGAGGCATCACGCTACCTGACTTCAAACTATACTAC
AAGGCTACAGTAACCAAAACAGCATGGTACTGGTACCAAAAGAGAGGTATAGACGAATTGAACAGAACAGAGCCCTCAGAAATAATGCTGCATATCTACA
ACCATCTGATCTTTGACAAACCTGACAAAAACGAGAAATGGGGAAACGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATACGTAGAAA
GCTGAAACTGGATCCCTTCCTTACACCTTATAAAAAAATTAATTCAAGATGGATTAAAGACTTAAATGTTAGACCTAAAACCATAAAAACCCTAGAAGAA
AACCTAGGCAATACCATTCAGGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGGCAACAAAAGACAAAATTGACAAATGGGAT
CTAATTAAACTAAAGAGCTTCTGCACAGCAGAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCAATCTACTCATCTG
ACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAACCCCATCAAAAAGTGGGCAAAGGATATGAACAGACACTTC
TCAAAAGAAGACATTTATGCAGCCAAAAGACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCARATCAAAACCACAATGAGATATCATC
TCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACAGTGTTGGTGGGACTG
TAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCAATCCCATTACTGGGTATATAC
CCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCAGCACTATTCACAATAGCAAAGACTTGGAACCAAGCCAAATGT
CCAACAACGATAGACTGGATTAAGAAAATGTGTCACATATGCACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACAT
GGATGAAGCTGGAAACCATCATTCTCAGCAAATATCGCAAGGACARAAAACCAAACACCGCGTGTTCTCACTCGTAGGTGGGAATTGAACAACGAGAACA
CATGGACACAGTAAGGGGAACATCACACACCAGGGCCTGTTGTGGGGTGGGGGGAGGGGAGAGGGATAGCATTAGGAGATATACCTAATGTTAAATGACG
AGTTAATGGTTGCAGCACATCAACACGGCACATGTATACATATGTAACTAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAGTATTAAAAAAAAA
AAAAAAAGAAGTGCCTTTTGCCTCCCGCCATGATTCTGAGGCCTTCCCAGCCTTGKGGAACTGTAAGTGCAATTAAACCTCTTTTTCCTCCCAGTCTCAG
GTATGTCTTTATCAGCAGCATGAAAACAGACTAATATACCTCTTCTAATGARGGAAGCAGAGATATGGACCATACCCTGTGTTCTTCCTATAATATACGG
GATGTRTACTGCCAGTACCACAATTTGCTAAACCTCACAAATTGTTGGGTGTTGTAAGGAGGTGAAGAAAGTTCCAATTTATAATCATCTACTGTATTTG
GCCTGCTTGAGTTGTTGCTCTCCAAGCATTGTTCCTAGGTAGATTTTCAGGAATGAAGATGAATTATATATTACAAACTGTTGCCGATGGCAGTCCAGAT
GAATTTATATGGACAACTGGCTACCTGGCCATATACCAAGCCAGCTTGACCCAGTCTTTTTCAGGCCACTTCAGAGAGAGAATAGAAGATGCTACGGTTG
GGAAGAGAAGAGCATACTTCTTACCAAGGCCAGCTCAATAGGCTTCCTGCCAGAGGAGTAGTGGTGCAGGTTTTGTTGGGGAGGTTTGCTGATTTATATA
TAGATATCCAGTCAAGGGTACTCCATAACTTATTAGTAAGACACTTTTTTTTTTTTTTCGAGACAGGGCCTCACTCTGTTGCCCAGGCTGGAGTACATTG
TTATGATCACAGCTCACTGCAGCCTCAACCTTCTGGGCTCAAGCAATCGTCTTACCTCAGCCTCCAGGGTAGCTGGGACTACAGGCACAGGCCTCTATGC
CCAGCTAATTTTTTGTATCTATTTTTTTTTTAGTTTTGCCATGTTGTCCAGGCTGGTCTCAAACTCCCGAGCTCAAGCAATCTGCCCATCTCGGCCTCCT
AGAGTGCTGGGATTACAGGTGTGAGCCACCATGCCTGGCAGTAAGACACTTCTAAGTCAGATTATTCCCATTGCCTAACTTAATCTCTCCAATCCTAGAA
CATTTCTCTCACCCCAAAAGGAAACCCCATACCTATTAGCAGTTAGTCTCAATTTCCTCCTCTCCCCCTCCCCCTGGAAACCACTAATCTACTTTCTGTC
TGTGTAGATCTTCTTCTGAACATTTCATRTAAATGGAGTCTCATAATTTTGTGTCTGGCTTCTTTCATTTAGCATAACATTTTCAAGATTCAATTTACCT
GTTTCTTTCTTTGATTGTCCTTTTGATGTCATATCCGAGAAACATGTAACCCATGGAAACACAGGTTTTTATCTACGTTTCTAAGAGTTTTATAGTATTA
ACTCTTTCATTTAGGTCTTCCATTTTGAGTTAATTTTTGTACATGGTTCAAGGTAGGGACTGGATTCATTATTTTGCATGTGTATAACCAGTTACTGAAA
CAGATATCCACATGTAAAAAAATGAATCTAGTCCCTACCATTTGCTGAAACGACTATTTTTTCCTTTATTGAACAGCCTTGGCACCTTTGTTAAAAATCA
AGTGATCATAAATGTATGGATTTATTTCAGAATTCCCAGATAAATTCCATTTGTCTATCTATATATATGTGTTTATGCCACTACCATGCGGTCTTCATTA
CTGTAAGTTTCTAAGATTAAAAAACGTTTTGATTGTAAGTTTGAAATCAGGAAGTATGAGTCCTTCAACTTTGTTGTTCTTTTTCAAGATTGATTTGGCT
ATTCTGTATCCTTTGTAATTCCATATGAATTTTGGGATCAGTTAGTCCACTTCTGGAAAAAAAAAGGCATTGGAATTTTGATAAGGATTACATCAAATTT
GCAGATTCAGTTGGGAAATTTGCAATCTTAACAATAATAGTAAGTCATCCAAACCATGAATGTGAGATATATTTCTGTTTATTTAGATCTCGCTTATTAT
CTTTCAATAATGTTTCATAGTTTTCAGTATACAAGTCTTATAGTTTTCTGATTAAATTTATTCCTAAGTATTTTATTCTTTTTATGCTATTAATGGAATT
GCTTTATAATTTCATTTTTAGATTAGTCACTGCTAATGTATAGAAATACAACTGATTTTTACATATGGATCATATATCCTGCAGCTTTGCTGAACCCATT
TATTAGCATTAATAATTTGGAGATTTTCTTTTTTTTTTGTTTTGAGACAGAGTCTTGCTCTTTTGCCCAGGCTGGAGTGCAATGGCGCRATCCCAGCTCA
CTGCAACCTCCGCCTCCTGGGTTCAAGCAGTTCTCCTGCCTCGGCCTCCCAAGTACCTGGGACTACAGGTGCACACAACCACGCCCAGCTAAATTTTGTA
TTTTTAGTAGAGACAGGGTTTCACCACATTGGCCAGGCTGGCCTCGAACTCCTGACCTCAGGTGATCCGCCCGTCTGGGCCTCCCAAAGTGCTGGGATTA
CAGGCRTGAGTCACAGCCCCCCCGCCCTACTTAGGGTATTCTATATATAAGATCAGGTCATCTGCAAGTAGGGATAGTTTTACTTCTTCTTTTGCAATCT
ACGCCTTTTATTTCTTTTTCRTGCCCATTGCTTTGGCCAGAACCTCCTGAAAAATATTAAGTAGAAGTGGCAAGAGCAGACATTCTTTTCTTGTACCTGA
TCTTAGAGGGAAAGAATCCAGTCTTTCATCATTAAGTATGATGTTAGCTCTGAGTTTTTCATACATGTCTTTTATCAGATTGAGAAAATTCTGTTCTATT
CCTAGTCTGTTGAGTGTTTTTATCATGAAAGGATGTTAGATTTTTGTCAGTTACTTTTCCTGCATAATTGAGATGATCATGTGTGCTTTTTTCTTTTATT
CTCTTAATATAGTGTATTACATTGATTGATATTTGTATGTTGAACCAACCTTGCTTTCCTTGCATAAATTCTGCTTGGCTATGACATATAATTCTTTTAT
GCTGCTGATTTCAATTTGCCAGGATTTTTACATCTGTATTTATAAGKGATTTGGGTCTGTAATGTTCTGGTATCAGGATAATACTGGCTTCAAAGAATTA
GGAAGTGTTTCCTCATATTTTTGGAGAGTTTGAGAATACTTGGTGTCACTTCTTTAAATATTAGTAGAAAGGCTGGGCGCAGTGGCTCACACCTGTAATC
CCAGCACTTTGGGAGGCCCAGGCAGGTGGATCACCTGAGGCCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCCTTCTCTACTAAAAAATAC
AAAATTAGCCAGGCATGGTGGCACATGCCTGTAATCCCAGCTGAGGCAGGAGAATTGCTTGAACCCGGGATACGGAGGTTGTGGTGAGCCGAGATCGYGC
CATTGCCCTCCAGCCTGGGCAACAAGAGTGAAACTACATCTCAAGAAAAAAAAAAAAAAAAAACGCTAGTGGAATTCACTTGTGAAGCTACCTGGTCCTG
GGCTTTTCTTTGTTGTAAATTTTTTGAATATTAACTCTTATGTCTTTACATGCTGTTGATTTATTAAGATTTTCCTGTTCTCCATAATTCAATCCTGGTA
TGTTATGTGTTTCTGGAAATTTGCCTATTTCATCTAGATTATCTAATTTGTTAGCATGCAGTTGGTCATAGTAGCCCTTTATGATTTCTTTTATTTCTGC
AAGGCCAGTAGTAACATCCCTTTTTCATTCCTGATTTTATAATTTGACTCCCCATCCCTTCCTTCCTTCCACCCTCCCTCCCTCCTTTTCTTCCTTCCTT
CATCAGTCTAGCTGAAGATTTACCAATTTTGTTGATCTTCTCAAAATACTGACTATTGGAATCACCACCACTAATATCTGTTGTTTTTTCTCCATTTCAT
TTGTTTTCTCTTTAATTGTCTTTTTTTTTTTCCTTCTGCTTGCCTTGGGTTTAGTTTGCTTTTCTTTTTCTGGTGTCTTAAAGTAGAAGCTTAGGTTATT
GATATGAGAGCTGTCTCTTTTAACATAGTTATTTGCAGCTATAAATTTCCCTCTGAGTACCACTTTCACTACATCCCATTAAGTTTTTCTATGTTTTGTT
GCGTTTTGTTCTTAATGTGTTTTTTAAGTTTTAAAAAAATTCCTTCTTTGACCCATTGGTTATTTAGCAGTATGTTGTTTGATTTACACATATTTGTGTA
TTTTCTAAGTTTTCTTCTGTTATTTTTATTGTCATTCTATGTGACCAGAGAACATTCTTTATGAGAACATTGTATTATTTTCCTCTTTTTAAATGTGTTG
AGACCTGTTTTGTGGCCCAACATGTTGTTATCCTGCCAAATGTTTTATGTGCACTTGAGAAGAATGTGTATTCTGCTGTTGTTGGGGGAGGTTTCTATAG
ATGTCTGTTAAATCTAGTTGGTATATAGTTTTATTCAAATTTTCTGTTTCCTTGCTGATTTTCTATCTAGGTTTTCTATTCATTATTGAATGYGGGGAAT
TGAAGTTTCCAACTATTATAGTTGAATTTTCAATCTCTCCCTTCCAATTCTGCCAGTTTTTGTTTTATGTATTTTGGGCCTCTCCTGTTAGATATGTTTA
TGTTTATAATTGTATATCTTTTTTTGTTTTTTGTTTTTTTCCCCAATACCAATAAGTATTTATTCATTGTATTTTCTTGGAAAAAAGAAAAAGAGGGGGA
AAGGAAAAGCATGTGTTACAATAGTGCAACAGAAAAGAAGTGCCCAGTACAGCAAATTGACCATCAAATAAACACACCCCAGTGATAAAGTCATCAGAGT
CCAAGGGAGCTCAGTCTCCTGCAGTTCAGGAAGACGGGGAAGGGATCAAGAAAAGAACAGACAGGTACACACTCAGCCTACCTTCTGTCCTTCCCTCTTC
ATGAATTCAGACTTTTGCACAAAGCTTTAGTTTCTATCAGTAAACATCGAGCTGCATTTGTCCTTCTCTTGTCTTGTGGCCACTTTGACATACATTTTTT
GCACCTATATAAAAGCTCCTGAGTGACTTAGATACATTTATCTTCCTTTTCTTAGTCTCCCCCCCAGGATGAGACACATGTCACCCAATACATTCTATTT
GCCCTGTTTGAACAAAGGGATGTAAGTTTATAGTGCTTTTACGGCAGGTAAATGAAACTCCCTTTCTCTTTAGCTACTATGACTCTACAATCACTACTGC
AACAATRYAGGACAGTGGCTCCAGATACTATTAACAAAAGCCCTTGGTAATGGGTCTAGGTCTCTAAGTCCAGAATGTTCAAAAGTTAAGGATTTTTTGT
TTTATTTTATTTTTTTAGAATAGGGATCTCATTCTGTCATCCAAACTGGTGTGCAGTSGTATAATCATGTTTCACTGCAGCCTCGAACTCCTCGACTCAA
GTGATCCTCCCAACTCAACCTCCCGAGTAGCTAGGACTGCAGGCACATGCCACCACACCTGGCTAGAAAAATTAAGAATTTTTGTCTTTGCTTCATACAT
TTATTCCTGGGCAACACAGATGGGTACAGGCATTTCATTTAAAAAACCTATGCTTACCAGCTCATACTTTCAGACACACACACACACACATCTTAATGTG
CATGGTAGATTTAGTTTAATCTCAGTGAAGGATAGATCTGGTGTGTGAAGCAAGTCTAGTACTCTAGGATTAGAGACTTGGAATAGGAATCCTTTATTGC
ATATGTAGACAACTTCATCTAACCTTGTTCCTCTCTAGGCCTTTCACCTGGCCCAGGCTCTAACCTTTCAGCACCACCTTCCTATTCATACTCATGTCCA
ATCTTCCAGTAAAATGAGATCAAGTCATGGGACAAATCAACTAAAACCAAGTATCCCAAGAAACATTATCAAGCTGGAGGAGCTTTAAGAAGACATTGCA
GTAGAAAAGCCAGCCCTTATTGACATAAATGAGATAGTCCAATAGGCTGTATACTCCAAGTAGCTGTTTTTTGTGGTGATAATTTAACAACAACAAAAAG
TATTCCTGCTTTGCAGACCTGGAGCAGCTGTCAAATTATCCCTGAGGTTGCCTGTGTACCTCACAACAAAGTATAAAAATAAGGACCTTAGATTAAAATA
TATAAAAATATTTTTATTAAGGAAAAAAGTTAAAATTCACAAGATACATCATTTGCACACATCAAGTTCAGTTGGCCTGCTGGAGAAAGTAAGAACCAAG
GTACAGTTGTTCAAAGGAGCAAATTATAGTGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCTGGCAGATTGCTTGAGCT
CAGGAGTTTGAGATCAGCCTGGCAACATCACAAAATCCTGTCTCTACCAAAAGTACAAAAAATTAGCCAGGCATGGTGGTGCGCACCTGTCGTCCCAATT
ACTCAGGAGGCTAAGGTGGGAGGGTCACTTGAGCCCAGGAGGCGGACGTTGCAGTGAGCCGTGATCGCACCACTGCACTCCCGCCTGGGTAACAGAGCCA
GACTGTGTCTCAAAAAAAAAAAAAAAATTGTAGTGGCCCAGAATGAAGTAGGAGTAAGCTTAGGAGTTGCAAATCTGCAGCTGTTTCCTCAACTGCCCCT
TTTGCCCATAATCATACCCGTTGCTTGGAATAGTTCCCGGCTCCCTATCTCAAGAATGGGTTATGAGTAGACACATGGAAAAGCCCTGCCCTAATCTACC
TGAGAGATTCCCTCCCACAGAATGTTGTGGCTTCTTGGTTGGGTCCATGAATCTGGTTTCATGCTGAATCTTTTCATTCTGGTATAGGAAATATTATTAT
ATATCCTTGTTTAAAAGGAAAAGGGGTTGCCTAGAGTGGAGCCTAAGATAAAGCATCCTGGTTCTAGGGAGATTTTCCACAAAAGCCCTCACTTTTTTTG
CTTGAATAGCATGGTTAGAATTAATTTGCCTTCACCCCCACCCCCACCTTCCTCCACAAGGGAAGAGAGAGTGATTGCCATGGATCCTGGCCTGAGATAC
ATGGCAGTGCCAGCTGCCCCCTACCTGCCCCATCCTACTTTCTTTGCTCTTTGCTAGTTGAGTGAGGGAATATATTAGTTAAGTGAGGAAACTGAAATTC
AGATGAGTGGTGTGTCCATGATAGCATAGCTGGGGAGCAGCAAAASCATTATGTGAGCCCAGGCTTTCCAATGTTAAGTCTGCGGTTCCTTCCATATACC
ACAGCTATCTTTCCTTTAGTGTAATTGTTTAAAGACTTCATGATTCTTCATTCTCTTTGGAAAATCTTATTTCTAATACTGTTTTTGGTTCATATTTTTA
TATTATCTTTAGCAGTTGACTAAATTTGTTAAACGTTTTAAAATACTGGGTCAATTCATTGGGGAAAAAGAAAGTCTTTAATAAATGGTAACCATCTAGA
AAAAAATTCACTTCATATACAAAATTCATATGCACTTCATATCTCACTTTATTTACAAAATTTATTCCAAGAAGGATCATAGGCCTAAAGTAAAGCCAAA
CCATAAAGTCTCTAGAAGCCTGCATGGTGGCTTCTGGCTGTAATCCCAGCTTTGGGGGAGGCTGAGGTGGGAGAATTGCTTGAGGCTAGCAATTTGGGAC
AAGCTTGGGCAATGTAGTAAGACCCTGTCTCTAAAAAAATTTTGTTTGTTAAATAAGCTGGCATGGTAGTGYGTGCCTATAGYCTCAGCTACTCAGGTGG
GTAAAGTGGGAGGATCACTTGAGCCCAGGAGTTCAAGGCTGCAGTGAGCTGTGATAGTGCCACTGCACTTCAGTCTAGGCGACAGAGAAAGACTTTGTCT
CTTAGGAAAACAAAATTACAGTGTAAGAGAATGACAGTAATGATACTTTTATTATTAAAATTAATATCTTAATATCTTTAAATTGTGAAAAAATAATTAC
TACAAATAGAAAAACCAGTGCATCAACGTTTTTAGCCAGTATTTTATTTTTCTTGTCAGGGTGAAATTTGCATATTATTAATTTCAAAGATCTCGAGTGT
ATAATTCGATGAGTTTTAGCAAATGTATAATTCAGTATCATAGCTCTAATATATTGGTCATATTCTTTCCTTGCTATCCCTGTAAGATCACTAAGATAAG
TTCAAAATGTTTCTGTTCTCCATGGCTACCATAAAAACAAAACCCCAAGATTTTTAGAACCATTAAGGTTGATAATTGTAGTAGCTGATAAGAAGGTAGT
TGGGGTTGGTTGTGGTATCTCACACCTATAATCCCAGCACTTTGGGAAGCCAAGGCGGGCAGATCATTTGAGGTCAGGAGTTGGAGACCAACCTGGTGAA
CATAGTGAAACCTTGTCTCTACTAAAAATACACAAATTAGCCGGACGTGGTGGTGGGTGCCTGTAATCCCAGCTACTTCRCTTGAACCCGGGAGGCAGAG
GTTGCAGTGAGCCAAGACCGTGCCACTGCACTCCAGTCCGGAAGACCCAGCAAGACTCTGTGTCAAAAAAAAAAAGAAGGTTGTTGGTTGGTATCTAGTA
CTCTTCTAGGCACCTTAGGCCCAAATTGTGAAACGTCTCTGAGGCAGCTAATGCTAGAGTTTTCTAATGTAAATTTCATAATTAGTACTAGTAATGCATA
TTAATTATATCTTAGGTGGGACACTCCAATAGCCTAAATAACCAGCATAAGTTTATGAAGAATTATCTCCTTCTAGCTGCCCTTTTGTTTCTAGTTGACC
AGACACTACAGTATCTGTATTATAAATATTTTAGCATAGGCTGACAGTTCAAAATAGTGATAAAGTATCCTTTAAATCCCATATTTTATCCTGCAAGAAT
TTTTAGTTAGTACTCTCTAGACTGTTTATAATAGGTTTAAAAAAATCAGTAAAATGTAGGCACTTTTTTGGTAGTGTATGCTTTAAACAAGGTGACAAAG
TAAGCTACAATTTGTGAAAGAAATTGAAGGAAGGAAAGGAAAATATCATATCTATTTGAAATTATTGAGAGAACATTGATTTTTTTTTCAGGCAGAAAAA
TCGATGCCCAAATTTTAGTTTTGCTAATGTACAAGATTAGACCTCCTTATAAAAAGTACAGTAGCATTTGGGTGGGGCTGATTGCAGCATCTTAGAATGT
GGCATTTCTTTTGTTTAGAAATGGTGTTAAATAACTCTAAGGAGTCAGGAATTATTACAAGCAGGTTKGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTT
GTTTTTTGAGACAGAATCTCCCTGTGTCGCCCAGGCTAGAGTGCGGTGGYGTGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTCCAAGTGATTCTCG
TGCCTCAGCCTCCTGAGTAGCTAGGACAACAGGCGCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGCCAGGCT
GGTCTCCTACTCGGCCTCAAGTGATTTACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTGCCAGCAGTTGTAAATTATTATAGAAGTG
GTTGTGACATCTATTTTCTTSCGCGCGCGCGSGYGYGTGTGTGTGTGTGTGTGTGGTGTGATCCACAGCTCACTACAGCCTCAACTTCCTGGGTTTAAGT
GATCTTCCCACCTCAGCCTCCAGAGTAGCTGGGACCACAGGCATGCACCACTATGCCCAGCTAATTTTTTGGTACTTTTTGTGGAGACGGGGTTTTGTCA
TGTTGCTCAGGCTGGTTTCAAACTCCTGAGCTCAAGCAATCCTCCCACCTTGGCTTCCCAAAGTGCTGGGATAACAGGCATGAAATGCCCTGCCCAGCTG
ACATCGCTCTCTTTCTTTCTTTCTTTTTGTTTTTTGTTTTGTTTTGTTTTKTTTTATTTTGTTACATCCTGAGTCCTTGCTTTTTTCTAGCCAAATCTAG
CCCTCTTACTCTTTCTTCCTGTTTTTCTAAAGGGCTCATAGGTAGCACTCATCCTTGCTGAATGGAAGGATTGCTGACTTCTCAGTTAGTAGYTCAGTCT
TCTCTCAAATCCCAGTATTCTTAATTCTTCCTTTTGTGGGAGACTAATGAGTAGGCCAAGATCTTCAAAGTTTGGGAGTTGGCAGAATGGAAATTCTCAG
ATGGATTCTAGGATTACTTTTAAACCTCTTCAGAGATTAAAAGTTAGAGGAACTTGGTACAACCTTGAGGGAAAGAAAACTTAGGGAAGTAGGGTTATGC
CTTTGTGTGTACCAGTAGGGAAGATAAACAAAAGTGCATATTTACTGAAGAATATTTAGTGGTATAGTAGGGAAAGGGTAGCTTTTCAATTTTCCTTCTG
TGTATAGTAGTTGTAGATAGACATTTTTCTTTTTAACAAACACAAATGACCAAAAAAATAAAAAAAGAGAGAAGCCTCAGTATTTTTAAAGTGAGGCAAA
AATACACACACACACACACACACACACACACACAGAGCACATGCACACTCACAGAGTTATTTTCTGAAAGCTGGAAAATTGTTTCCAAGGAGAAATGTAT
GATCTACAGTTAAAATGTTTAGACATATGGCAATTGGATAAAATAATTTTTTGGTGAAAATAGAAAAACAGATAGATATAGATGTACATTAGGGTAGTGA
CTTTCATTCCTTGTACATACACAGTGAAGTAGTTCTGGGCAATAAATTCTTGGAAAAGTAGAGTAGGGATTGGATAAATGTCATAGTTTATGACTGTGAA
TACATACAAACAGGTAAAAACTCAAGATGGAGAGGTAATAATAACCACCCGATAAAGAGACTTAAAACCCTTTCACTGTACAAAAAAAAAGATTGCTTTA
GAGTTATAACTTGATATTATAGTTTGATTTTTTAAAAGATATTCATCGCATTTGTGGCCACTATGGATACATAAAATAAACAATGCCTTTCATTTCTCAA
TATAATTAAATATTGTTTCCTAATATTTAAAATCTTAACTGTAAAAAAATTTTTTTTGAATGCTATAGATTCTGGAACTAATATTAAGATTACTAAAAAA
GATGACACAGCCACTATTTCTTCCATAGGTCTCTTAAAAATAAAGGATAGTTGACCAGGCAGAGTTAAGGAACTATTTCAAATCCTCTACCAAGCTATAT
CCAGTATGTTGGCAATGTATGAGCCATCAGACCTTTCCTATATCCCCCAGATCCATCCTATGCTGTCTGTTCCACCTCTTATTTCAGATTTCTCATGCCT
TTTTCTGTGACAGACTACTGCAGCCAACTTTGAATTTTTCCTCTTCTCTGAATTTCGTAGCATGCATACTAATTTAAAACCTCTTTGTTGTTCTTCTAAC
TTTTGGTAGATACTCCTTAAGGCCAGAGCAATTTGTTATATTTCTTTGTACACATTAGTACACATTTAGCAGTGCTGGTGGGTGATCAGTAAGCTTATGG
AAAGCAAGTTTTAAGGGAATTCAGGAAAGGGAACAATTAATAGTATGATAATGGATGTTTGAAGGAAGGGGATCATGAATGAGGACCTAAACTAAGGAAA
GTCTAGGTCTTGGGGAAGATAAAAAAGAGGATGTTCCAAGCTGAGATCACRAAATGATCTGAGGCCCAAATGCACATAGCCTAGTGACTGAAGCTGTAGG
TAACAGTGAATAATTGGATGTATGAACCAGTGAACAAATTAGTATATTCTGAGTAGAGCAAGATGGCCAAATTTACTGGACTGTTCCTTGTAAGTCATTC
GTTCCTCACACATTTTTTAGTTCTCTAGGATATAAAGATGAAAAGATAATATTTATTTTCAGGAGCAAATTCTAATGGAACAGACAGAACTTATTAAAAT
ATGTTACCTGAAATAAGAGGTATGCCCAACACCTATGGAAACACAAAGGAGGAAGCTGCTAAGAGGAAATTTGTAAGACAGGCCAAATCCTCAAAGGCCT
TAAATGCCTGACTCAACTGTTTGGACATTATTTTGGTGATTATTGAAGCAAGATGCTACATCAGACCACTTTGTGAAGCTGTAGGACAGCAGTGATCCTT
CCTAAGGTTTCTGTGTGAGGCTTAGTAATAGGCACCTCTGAGAGTTTTCCTGCCCTGGCCCCATAATTATACTTCAAGTTCAGCTGAAAGCAAAAGTCAG
GGTRTGGTTGGGAGAGTTGGCCATCTCTAACCTGTTTGGAAATACCATCTCAGAAGGTAGTAACCCTTTAATGCTAAAATTTAGTAAATATCAAATTGAG
ATGTTCTAGTTATTATAGAGACCTGAAATATCTACCTTGAAAGAATAGTGTTTACTTTGAGAGTGATAGTTGAGTATATTTGTAATCTGAAAAGCAAGAG
CAAGGAAACAAGTTTGAATTTTGCTGATTTTTTWATGGTATATAATTTCAAAGATCTATAACTAAACATAGCTATTTCTGTCCTTAATTATTATTTATTT
CCAGTCATTTGATCCTTCAAAAATCACAAGGAAGAAAAGTGTTATAACTTATTCTCCAACAACTGGAACTTGTCAAATGAGTCTATTTGCTTCTCCCACA
AGTTCTGAAGAGCAAAAGCACAGAAATGGACTATCAAATGGTTAGTTGAACATTCTTTTCTACTTATTGTAAGGTTTTTCTAGTTATTGGCCAAATCAAA
ATTGTGATTTAATTATGTATGGATCTTGCTACAGCTGATTTTTCTCTTCTCTCAAATAATTTAATACCTTAATATAGGTATTACTTTGGACATAAATRTR
AACTTTTGGCACTTATTTTAAAATGCAACTGCAGGCTTTGTTCCCTTACTATCCCATCCATTAAATAGAAATTATGGCCTGACTTGCCTTCAGCTACTAT
CAATTATAATGGTTACAGATATGCCCCTTAACAAGCTATCCATCATGTGCATAAATTAAAGGGAGCATAATTCAGGTGCTGCTGCACTACAACTTAAGAG
TGATACTTCTAAATGTTATTTTTATCCATGGTTTCCATTGAGTTTTACCCACATTTAGTATATCTTTATATAGCTTATCTTTATTTATTATATTTCATTC
CCTTCTTTTTCTTGACTATTTCAAATGTATTTACAAAAGGTTTGTAGAATTTTTCCATAGAGAAAAATCTAATTTTAAKATGAAATTCTTTATTTTAAAA
TATTATTAGTTTAATTTTAATTTTGACCATACATATTTGTTGTCCTCTGGTAGTTCATTGCTAAAATATTGATTTAAAAACACAAATCTCGATTCCGTGG
GGTTTTTTTTTTTTGAGAAAGGTTATGAATCAGTGACATGTAGTTTTATAATTAAAATTTTAAATAGGCTCAAATTTAATAGTGTATCCTTTAGATATAC
TGTGATTAGCCTAATTCACATTTTATTGTTTAACATTTAATGAGTGCTAAGCATATACTAGAAGCTACCCAGAAAAAAGAAGTCTCATTTTACCTGATTT
GTTATAATGTAACACATAATGAGATCTTAAAGTTTTGAATGTCTTTAATTTTACTTTAATCAAATGCTTTTTATCCTAAAGCTGTTACTATTAGGTTCTC
TTTCCCTAAAATGTATGAAAATGTATACACTTTAAGTTTCATAGTTCTATTTTTATATGCATGATATATCTTTTTAATTAAAAATAAATGCCTTAGAGAT
TGTACATCCCTATACTGAAATGTGAATAGATTTTAAGTTGATATGTACTCAATTTCCATATTGAAATTAAGTATGGACTTAAGGGGACATTCCTTTTGCC
CATAAAAAGATTGGTCACATGATTTCAGTTGGCATTTAAGTAGATAATTATCACAGATTATAGTCCTAAGTAAGCTCTTTTTTAAAAAGTCAGATAGCAA
GGGTTTCAGAGGTGCTGGCAATGTTCTGTTTTTTGACCTACATAGTGGTTACACTGATTCACTCTAGTTATTCATCAGACTGCACATACATGTTTCATAT
GTRCTGTAATATATATATCTCACATATAGAAGTCTCGAAACAGAATTTTGTCCAGAATTCTGTATGAGATTATGTCATTTGTAATCATTACRTTGCTTAT
CCTAATATGTCATCTTGTACATGTTTTAAAAATAAAAAAGCTTGATTTTTATGAAGTAACTTAAGTTCAAAATAAATGAGAAAATATGACGTATGAAGTC
ATTTAAATTCTAAATGAGGTCATAATCTCTTAACAACTCCCACTTTTAAAATATTATACAAAACATAATATAAAATTTAAATTACATTTTCAAGGACATT
TTTGGTGTTACTCACTTCCCATCACACTTATGATAAGATCCAAAACMCTTATCATGACATGGAAGGCCATATATCCATCTAACACCCAAACACCTCATCT
GCCTCATTTTCTACCCCTTTTTTACAYTACTTTAGCCACTCTTACCTTCTTGCTATTTGTCAGTCATGCTGAGCCCCTTCTTGCCACAAGGTCTTGCAGT
TCTCTCCACCTGGAATAATCTTCCTCCAGATATTTATATGTACTTTCTATGTACATTTGAACCATGTACTATGTGAACAGAAGACTTAATATTATATTTA
AATCCATTTGTAGTTATAAAAGGATGAAAAATTTAGTTCTATGTCTTCCTTCTACTTAGATTCTACATTGGCCAAACATGGGATTTGTTTCAACTCTTTA
GTTTATACATTTAACAGATGCGTTCATGCAGCACATAATAACATTTCAGTCAGTGACAGACTGTATACACATCAGGGGTCCCCCAAGATTATAATGGAGC
TGAAAAATTCCTATTGCTTAGTTGCCCGGTAGCCGTCATAACATTGTAGCACAACACGTTACTCACATTTTTGTGGTGATGCCAGTGTAAACAAACCTAG
CTCGCTGCTAGTCATATAAAAGTGTAGCATGTACAATTATATGTAGTACATGATATAGTCGTGTACTACATAATGATGTTTTGTTCAACAAATGACCACA
TACAATGATGGTCCTGTAAGATTATAATACCGTATTTTACTGTGCTTTTTTATGTTTAGATATGTTTAGATAAACAAATACTTACAATATGTTACAATTG
CCTACAGTGTTCAGTACAGTAATATGCTGTACAGGTTTGTAGACTAGGAGCAATAGGCTATACACTAGGTGTGTGGTAGGTTATACAATGGAGGTTTGTA
TAAGCACACCTACGATGTTTGCACAACAATGAGATCACCTCATGATGCATTTCTCAGAATGTATGTCCATAGTTAAGTGACACAWAACTCTATATGTATG
TGTGTATGTTATGTATCATTTATGTATTTTTTAATTTGTATGTACATTATTTTGCTGCCCTCCTCCAACCCATAGCAAGTTTCTCCAGACTATTACAGTT
GACCCTTGAACAACATGGGTTTGAACTGCACAGGTCCACTTACATGAAGATTATTTTCAAATAAACATACTGGAAAATTTTTTGGAGTTTTGTGACAATT
TGTAAAACCCTGCAGACAAACTTTATAGACTGTAAATATAAAAAAAAAAGTTGGCTATGCCATGGATGCATAAAATATATGTAGCTACTAGTCTATCATT
TACCATAAAACATACACAAATTTATTATAAAAAATAAAATTTATCAAAACTAATGCATACAAACACTTAGACCCTACACAGTCCCATTTGCAGCTGAGAG
AAATGTAAATGAATATAAAGATGCAGTACTAAATCATAACTGCATAAAATTAACTCTAGTACATACTGTGCTACTGTAATAATTTCATAGCTACCTCCTG
TTGCTATTGTAGTGAGCTCAAGTGTTGCAAGTATCTGCTTGACCATGTGATGCTGATAATCTCTGCACAAGTAATGTGTCTCTCAAGTAAATTGTGTATT
GCAGTAAAAAATGATCTCATGGTTCTCGTATGTTTTTCATCATGTTTAGGGCTATGCTGGAAACCTTGACTAACACCATGAAACCCACATAAAGTGCCAC
TAGTGATGCTGGAAGTGCTCCCAATGAGCAGAGAAAAATCATGACATTACAAGAAAAAGATGAATTACTTGATATGTACTGTAGATTAAGGTCTGCAGCT
GTAGTTCCTCACCATTTCTGACAGTTCATCTTGTAAACAGATGACAAGCTTATGGTATTAATACTTTACAATACTGTAAATATTTTATCTTCCTTATGAT
TTTCTTAATAACTTTTTTCTCTAGCTTTATTGTAAGAATACACAATATAATACATATAACACACGAAATATGTATTAATTGACTTTGTGGCATCTGGTCA
ACAGTAGGCTATTGGTAGTTAAGTTTTTGGGGAGTCAAGAGTTATACTTGGATTTTTGACTACATGGGGGATTTGGCACTCCTAACCCTCGAGTTCCTCA
AGGGTCAGTTGTATGCATTTTAGAAAAGAAGAAAGAGAAAATTTTTCCCCTTTCCTCCCATGAACACTTCGGACTTGTTATTTAATAATGAAAGTAGAAG
AATAAACAACAAATTTGCATAGTCGAAGAGAGTACTTGTTAACTGGACAATAGATCTGTAAAAATCACTCAGACTATAACAATATAATAGTACAGAGAGA
TAAAAGGAGAATGTGATAAAACAATAAAGTGAAATGATAGGCAGAATAAGACTCTCCAACATCTGCCAAATTGGAGTTCTACAAGGAGGAAATACAGAGA
ATGGTCCATAGGCAGTATTCTAAGATATAAGGACTATCAGTTTTTCATAATTAAGGAAAGATAAGAATTTGCAAATTAGAGTAGCATGCTAAGTCTGGGC
AGGATAAAGTAAAACAGATCCACATCTAGTTATATCATGATAAAACTGTATGTAGAACATCAAAGACAAAATTTTAAGGGCAACCAGAGAAAAGATAGTA
CCTACAAGAGAGTAACAGACTGATAAACTTATCTATATCAGTAGACTCCAGCAGAAAATGCAATAATAGTATCAATTAAGAATCACAGTTGAGTTTTTAT
CCAGGAAGTGAGGATGAAATACAATTTTTCAGACAAAGTCTCAGAGAGTTTGCCACTCACAGATTCTCTTAAAATAACTACAAAATAAGTTACTTCTCTA
AGAGGTAAAGTGAACCTCAGATAAAGGAGTGGAATTGCAAAAAGCAATGAYGAAAAAGTGAATTAGCAAACATGTTAATCTAATTACAAGTTTTGCTGAC
TATAAAGCAAAAGTCAAACAATTGGAGGGCGGGTGAAAAAAAAATTGGAGGGCAGGTTAAAAACAAACAATTGGAGGGCGGGTGAAAAAAAAAAGTCAAA
CAATTGGAGGGCGGGTGAAAAACTATCATGGAAGGTGAGGAGGCAACAGATAAGAGTTACGATGTTTTAGACAATATTTTAAGGTCCTCGTATTTTCAGG
CAGACAAGATATCTATCAGTTGACTTCTTCATTGTATTTTTTGTTTTCTTGCCTGTAAAATGGGGAAGATAGTAATTCCTACCTCAGAATTGTGAGGATT
AAATGAATTAATACACAGAAAGCACTTAGAATGGTACTTGACGTATATTAATAGTATATGTTCCATACATGTTCTAGCCATTTTCATTAATAGCATTATT
AATTAGACTTTAAGAAAAGACATAAGACAATTAAATCTGAAGGAATAGAAAAAGAAAACAAAGCAAATACTAGCTTTTTAAAAAAAGCTAGTAGTTGATA
CAAAAATAGAAAGGCTGAAATAGACTTTATGCCTAAAAGGATTTATTGAAAATAATGAGGCTCTTTACATAAGAGATAGAGAAAGATTCACCACTACAAA
AATAAAAGGATCCTGAGCCATATGTGCATCTAAAAAACTCAAAACATAATGAAATATGACAGGATAACAAGGGAGAAACTGATAAATCCACAATCATTGT
AGGAGATTTTAAACTACCTCTTTCAGAAACTGATGAAGCGGTTAAAAAGGAAGGAYATAGACAAGTTGTACACAATTAGCAAGTTTATCTAATGAGCTGT
GGTCAAAAAGATATAATACCCATATAATAAAGCACATGTAGAATGTTCACAAAAATGTAACCAGCTTGGAGTTACAGAGGAAGTCTCACTGTACTAAAAA
TTACAGTCATACAGCTCACACTCTAAAATTTCATACAATTAGGAATCAATAATGAAAAGGCAGCCCTCCAAAAATTTTAACCTGTATGTTTGGAAACCAA
GAAACTTCTAAATAATTCATTGATCAGAAAAATTATAATGGAAAGTATAAAATATTTAAAATTGAATGATAATGAAAACATGTCAGCACTTAGAGGAAAA
ATTTATACCTACATTATACTAAAGCAGTTCTTGGTGGAAGCTTTATACAGTCGTCCCTTCCTATCTGGGGGATTGGTTACTGGATCCCACTCAGTTTCCA
AGATCCACAGACTCTCAAGTCCCTTGTAGAAAATAGTATAGTATTTGCATATAACCAATACACCCTCCTATATACTTTAAATTATCTCAGGATTACTTAT
ATACCTAATACAATGTAAGTGCTATGGAAATAGTTGTTATACTGTATTGTTTAGGGAATTATGACAAGGAAAAGTCTGTATATGTTCAGTACAGATGCAA
CCATCCTTTTTTTAAACAAAGTATTTTTGATCCATGGTTGGTTGAATCCACAGATGTGGAATCCACTAATACAGAGGGCCAACTGTACTTACAAATGCAT
ATACAGTCCTGTGTCACTTAACAATGGGGATACCTTCTGAGGAAAGCATTGTTTGGTGATTTTGTCATTGTATGAACATCATAGATTGTACTTACACAAA
CCTAGATGTCATAGCCTACTACACATTTATGCTATATGGTATAGCCTTTTGTTCCTAGGCTGCAAACCTATACAGTGGACTACTGAATACCATAGGCAAT
CAAAACATAATGGTATTGGTGTATTTAAACATATCTGAGTAGAAAAGGTACAGTAGAAATATGGTGTTTATAATCTTATGAGACCACTGTCATATATGTG
GTTTGTCACTGACCAAAATGTTGTTATACTGCTCATGACTGTATTTAAAAAGGAAGAATGATTGAAAACTATTGAGTCAAGCATTCAACTCAGAATGACT
GAAAAGGAACAACATAATGAACCCCCCAAAGTAGAAAGGAAATAATGATATGAAGATAAATTACAAATTGAAAACAGGGCAATAATAAAGAAAAGCAACA
AATCAAAAGCTGGTTCTCAGAAAAGTCTAATGAAATGTTAGCCCTCTGGCAAGACTGATTTTTTTTCAAGTAGCAGAAGGAGCAAACAATATGTAAAAGA
GCTGATAAACTAATATACTATCTCCTTAAACCTGTGATGAGCAATCTGAGGTGTGGGCCAAATGCTAAACATTTTTATTATTGTGAAAGAACTAGTCAAA
TATCTTACCTGTAAAATGTAGATCAATAATATTAATCTCAGTCTTTTCATGGAAGGGCTTATGCTTTTAAATACTTTTCAGCTTTTAAATATGACAAGGT
TTAATATTTCTAAGAATAACACTTAAATCAGTTATCAGACTGTCAAGTACCCAGTCAACACAAAGTAATCTGAATGAAAGATGTAAAAACCTGTATTTTT
GTTACTGCTTCCCAAATATTACTGTTTTAGTAGATTAAAAAGTGATTTCAATTTTCTCAGCGATAACCTTCTATTCAATAATGTAAGTAATATTTTAAGA
ATATTATTATATTTCTATCTATGGGACTTAATAAAGGTATTTTCATTTTGAGTGAAAAAGAACCATTGAGCTGGGCGCAGTGGCTCATGCCTGTAAATCC
CAGCACTTTGCGGGGCTGAGGCGGGCAGATCACCTGAGGTCAGGAGTTTGAGATTAGCCTGGCCAACATGGCAAAACCCAGTCTCTACTAAAAATACAAA
AATTAGCCAGGCGTGGTGGTGCACGCTTGCAGTCCCAGCTACTCGGAAGGCTGAGGCAAGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCA
GAGATCGCACCACTGCTTTCCGGGCTGGGCTGGCAAAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAATTAACATTGTTATTTTTTGTGAGTTGA
TCCTCCAAAGAGGTTATTTACCCTCCACTCTATTAATATTAATTTGGTTTATTAAAAGAATAGCAGGACTGTATCAGTATCTCATTCACCTCTTTGCCTA
CAGGCCTCAACTTGATCTACATGCAAGTAACCTTTTTAGAAAGAAGTTACTAACTTTTGTTTGACCACCTTGAACAAATCACTTGAACCTCTGTGGATCA
AGGTTTTTCCAACTCTTAACTTTTGGTTTGAGACCAAAATGATTGCCTATAGTATTTATCAACTATAAAGTATGGGTACCTAGAAGCAGCATGATACCAG
CCTAAACCTGTTTGGGCTTTACATTAATCTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGAT
CTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGTCTCAGCCTCCCAAGTAGCTGAGATTATAGGCACACACCACCAGGCGCGGGTA
ATTTTTTGTATTTTAGTAGAGACAGGGTTTCACGGTGTTGACCAGGCTGGTCTGAAACTCCTGAGCTCAGGCAATCCACCTGCCTCAGCCTCCCAAAGTG
CTAGGATTACAGGCATGAGCCACCGCACCCAGCCTACATTAATCTATTAATAAGCATTGCATCATGGTTAAGAGCACAGTCTTCAGCTAAATGTCTGGGT
TTCAATCCTCACTCACTAACTTTATGGGCTGGGATAAGTTTGTAACCATTCTGTACTTCTATTTTCTCATCTGTAAAATGGGAACAAGAGTGACTATATC
AGAGTTGTGCAAGTTAATTAGATATCATATGTAACATATTTAAAGCAATGCCTGGCCCTAATTAATACCATGTGTTAGCCGTTGTCATCACTATTGATTG
TGCTTCCAAGTATTAACAATTTGTTGAAAGCTATCTTCATTTGTTAGGGAAAGAGCTCCCTGGAGCCTTACCAGAAAGCTCAAATACAATTATGAATGTA
GTTCAGATTCAGTGATGGTACATTTATCACCAATGTTTTGTGAAACTGCACTTGAAGAGAGTCAAATACACAAGTGTTTGGTCACTTTTACATATAATCT
CACAAGAAAAATACCATATAGACTCTATAGTGCTTTTGTATATTTTCATTGTGCTTACTTTTTTTAATAGAATGGAATGAAATAAAGGAAAGTAATTATT
AAGTAACTGGAAACCTCATTTACTACATTTACTACTCAATATGTTGTATTACTCAACAGTCTAGTAACTGATCTAAGTATTACTCTTAGAAATATTAAAA
CTCTTCATATTTAACAGCTGAAAATTATTTAAAATCATAAGTCCTTCCATGAGAAGACTGAGGTTAATACTRTTGATCCACATTTTTACAGGGTGAGATA
TTTGACTAGTTCTCTTATAATAAAAATATTTAGAAAGGCATTGAATACCTAGTGAAAATTCAAATAACATTCTTTACTATTTATTACCTAACATTTTTTG
CTATTAGTGCTGAAATGTGAAAATGAATTACAAGTTAAAGGAGCAAAGTAATTTTAATACTTAATTTTGGAGCCTTACTGAATGCAAACAGCATAGTACA
AAATTCAGGAAACTAGTATTGACCTTTAGGCAAAGATTTTCTGAAATAAAGGTTTAAGGTACAATTTGGGTTTTCATTTGTGGTTTTCCACAAAACATTC
ATTTTCAGCTTTTTTTTAGAGACAGATTTTAATTTATTACTCCAAAACTCTCTAAAATCATAATATATTGTTATTCTTTTCCCCTTACATTCTTTACTAA
ATTTTTAACCATATTAATTTATTCTGTTTGGAACTTAAGGATAAAGACTTGTCAAATAAGGCATAGTTCATAAACAAGAGAAATAACTAGTGCTTTAACA
AAATTTCTGTAAGTTTTTTCTCCTTTTGCATTAGAGACTATTTTGGGGTAACAATTTAATTGTGATAGGGTTTTTTTTGTTTTGTTTTTTTTGAGGAAGA
CATAGGTCCAAAGTAACAATGAGAGGAATTAYTATTAATCAGTTTCTGAACCAGTGGACTCAATGAAATTGAGTTTCGTTTGACTGTTTTTCATTAGTGG
TGAACAGTTTGGGTTATTCATTCATTTGCTTGTTCATTCATAAACATCAAAAGCCRGTATATTTAAGACACTGAAAATCTTAACTCTACTAATATGTGTC
CTCAAATACTTGCTAATTATATATCAAATGTGTTTAAAGTACATAGTGTATATGGTAGTATAAAGTACTCTAGAACAAACAACTAAATAGCTCATAAAAC
AGTTATCTACTTGACCATTGATAAGTACAAACATTATGTTCTACTAGAGCTATAAAATCAAACAMACTTACATTTCAACCCAGTGGGCATATGAAGGATT
ATGACTTAGTTACATCCTATGTCTTCACGTGTGCATCTGTCAATTTGTGAAACTTGTAAAAGTTTAGATAAGCCATGACCTTGGATAACTACATGGCATT
TTAAATGGAAGGTARCCATTTATTTATTTTATTGTTATCTTAAATAAATAATGAGTGATATACTTAGATCTTTCCAAGGATTTACTAAATAAATATGCAT
TTAAAGATTCAGGTCCTCAAAAAATTTAAATAAAACTACCATATGACCCAGCAATCCCACTACTGAGTATATATTCAAAGGATATTAAATCAGTATGTCA
AAGAAATATCTGGACTCCCATGTTCATTGCACCATTATTCACAATAGCTTAGATACTGAATCAACCTAAGTGCCCATGAACACATGAATGGATAAAGAAA
ATATGGTATATATACTCAGTGGAATGCTCTTAACCTTTAAAAAGAGGGAAATCCTGCCACTTGGGACAACATGAATGAACCTGGAGAATATTATGTTAAG
GGAAGTAAGCCAGGCACAGAAAGACACATACCACATGATCTCACTTATAAGTGGGATCTAAAAAAGTCAAAATCATAGAACAGAAAATAGAATGGTGACT
ACCAAGTTCTGCTGGTCGGGAGGGCCGAGTGATTGGGAACATGTTGACCAAATGATAAAAAATTTCAGCTAAACAGGAGGAACAAGTTCAATTATTGTAT
AATTGACTGTAATTAATAACAACATATTATATACTTGAAAATTGCTGAGAGAGTAGACTTTCAGTGTTYATACCATAAAAAATGATAAGCATGTAAGGTA
ATAGATATGTTAACTAGTTTGATTTAGCCATTTCACAATATATACATATTTCAGAACATGTTATACACTGTAAATATTGTGTCAGTTTAAAAATAAAATT
AAAAGGTACTTTTACCCCTAAAATCAAATTTATTTTACAATGATATTACGAGGAACTTAACTATTTTCTGAGTATCGGTATCACCAATCCCTTGTTGTTA
ACTTGAGAAAAAAAATAAAGGTGGAATAATGCAAACTGGAAGCCTTTATATGATATCATTGATTAAAATATTTGATGAAAGTATCCTTTATCTAATAAAG
TTTACTAATGCRTTTTAACCTAATTATAGAATYATATTTGATTTCTCTTTAATATACCAACCTTCAGTGGAAATTTTATTCAAAAGATTATTTTTTCTTA
TATGGTATTGTGAGTAAGAAATTAGGAAAATGGGAAATGAAAAAAAACAAAATAGGATACTTTTTCTTTGCCCACCTCCCTTCCATTTGTCCTTTTTRCT
TTCTATTTAAAATTTGACAAACTAAATTCTATTTAAAATTTGATGATTTCTCCTTTAACTTTATGTCCTTTTCTTTATTACACATATATAGAAAAGAGAA
AAAAATTGAATCACCCCAGTTTAACTGAAAGCAAAGAATCTACAACAAAAGACAATGATGAGTAAGTTTGTTATTTTTGAAATTATATATGTGTATCTTG
CAGAAAGACGTTCATATTTGTTAAAGTGACCGTTTAAAAGCATTTATTTGTAGAAATTAATAGTTTATACCTGACCTGAAATATTCTTTCTTAAGTAAGT
AGAATACCTTAGTTGTGATGTGGTTTGTGATGTTCTRTAATGGTTATATATGATGCCTTAATTTTAATACTCATTGAGCCCTGTTCTCCGAGCCTATGCG
TAATAGACCAGCGCAGGGTAAAACTGAGGAAGACACTTATTTCAGATTTACATGGATGGAGAAGTAATGCGTGGTTTAGGAACAAAGTGTCTTAACAAAT
AGCTGGTTCAGGATGGAGCTAGAAACAGTGAAGCCAGCAGAGTGAGAGATCTAGAGGAACCTGGAAGGCCTACATGCGAGCAACCAATCTTTTTCAAATT
GTCCTGCTGGTGGTTCCTTTGAATGAAGACATTATCTGCAGAAAGTCTACGTAGGAAAAATCTGGGAAGAATACAGATGGCTCTCCATGTCTGTGTATTA
CACATTTGTGGATTCAACCAATGACAAATTGAAAATATTTCGAGAAAAAAATGAATGGTTGCATCTGTCCTGAACATATACAAACTTTTTTTTCTTGCCA
TTATTTCCTAAACCAATATAGTATAACAACTATTTATATAGCATTTACATTGTGTTAGGTATTATAAGTAATCTAGAGATGATTAAAGTATATGGGAGGA
TATGCATAGGTTATATGCAGATACACCATTTTATATAGGAGACTTGAGCCTCCATGGATTTTGGTATCTGCAGGAGTCCTGGAACCAATTCTCCACAGAT
ATTGAGGGACAGCTGTATTTGTATCTTCTTCCTGGAAGGATTGAATTAAGCAGAACAGGGGTTAAATTTTCAAAGTAGTGCATATGTTTAGCTCATTTAC
CATTTCAGTGTATCTTCTATGTACCACACCAATGGACACTAAAGAGTAAAGAGAAGGAAAATGAAGTTTTCCCCATTGGGAGCTTATGATCTTTTTTTTT
TTTTTCCCTGAGAGTCTCACTCTGTTGCCCAGCCTGGAGCACAATGGTGTGATCGCCATTCAGTGCAGCCTTAACCTCCTGGGTTCAAGCAATCCTCCCA
CCTCAGCCTCCTGTGTAGCTGAGACTACAGGTCCACGCCACCACGCCCTACTAATTTTTGTGTATTTTTTCGGAGACGGAGTTTCGCCATGTTACCCAGG
CTAGTATCGAACCCCTGGGCTCAAGCGACCCACTCGCCCAGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGATACTGCATGCAGCCTGGGAGCTTATG
ATCTTATGCTGTAAGTTAATATACCTTCCTCAATTTAGAAATGGGTTATGTTTACAAATGTTTTTGGAGTCATTTACATGGAACTCAGAATGCATTTTCC
ATGCAAATAGTGTTATAATCTGTGGCTACAGCCCCAAGTCAGGGCACAGATCTATTTATTTCATAATATAGCTGAACTATATAGTTTTGGTAGTAGTCCA
GATTAAAAGATGTGGAAACTGAGTGCCATTTAAAATACTTTAGGGACAAAGAGAAGAGTTTTTCAAAGAAGCCTCATTGTTTGGCATCTCCTCCATCTGT
CCTCTGTTTGCTTTTAGTAGCTGTTTTCCCTCGACATGCTGCTCCTCCAGCTCCAAATATTTGCGTGTTTCAGTCTTTTCTGCCCCACAAATATTTTTGT
TGTAAATTATTTCTTCCTACTCCTAATCAAAGCTTTTGTTTCCTCAGTGAACTGATCTCAACTAGATATTAACAGGAAAGCATTCTTTTTTGTTTAACTT
ATTTAATGTTTTTTAACATAGGAAATATATGTACACAGGAAAAAGTTCAAATTATACAAAAGGATATACAGTGAAAGCAAGTAGCAAGTAAAAATTTAAA
AATTACAGATAATCTTGTATTTGACAGCAGGTGCCTGCTAAACCAAATTAATTTCTGGTGCAGTTATATAAAATGTAAATAGGCAGCAAAGGAGGAAATG
TTGTTGGACAAAAGTGATACCAGATAATCAAGCCTGTTGTTTTTCTCCCTGAATCAGGTCCACTTAAACTTAATAGTGTCTTTCCTTCTTTCTTCTTGTA
AACCCATCAATTTATTTAGAGCTTAGACTTTTAAAACAATAGCTCCCATGGCAGTGGGCTTCAAGGAGCAAGGGAAGAGCAAGAATCATTGTTATGAGTC
ACATAGGAATTTGCCTATGTTTACTTAATTTATTAATTTCTCTCCATATTTGTTTCTAAAGATCTCTGTTATTTAAGTATATCACTCCATGAATTGGTGT
TATAATTAGTGAGTTTAAGTAAGAGCTGAGACATTTTACAACATATAAAAATAATAGGCCGGGTGCCCATTATTATCTACTAAAAATACAAAAATTAGCT
GGGCATGKTGGCAGGCGCCTGTGGTCCCAGCTACACAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGATGGGGAGGTTGCAGTGAGTTGATATCGT
GCCACTGTACTACAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAGTATTTCTATCAGGAGACTGAGGAAAGAAGATTGCTTGAGACCAAG
AGTTCAGGGCTGTGGTACACTGTGATCCCTCCTGTAAATAGCTGCTGCACACCAGCCTAGGTAACACAGTGAGACCATCTCTTAAAAAAAAAAAGAAAAT
GATACGTTTCTTTTTTTTTTTTTTTTGAGACAGTGTCTTGCTGTGTCACCCAGTCTGGAATGCAATGACACAATCTCATCTCACTGCAACCTCCGCCTCC
TGGGCTCAAGCTGTTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGATTACAGGCACCCGCTACCATGCACGGCTAATTTTTGTATTTTTAGTAGAGACCGG
GTTCTGCCTTCTTGGCCAGACTAGTCTCGAACTCCTAACCTCAGGTGATCTGCCCGCCTCAGCCTCCTAAAGTGCTGGGATTACAGGCATGAGCCACCGC
ACCTGGCCAGGATGCATTTCTGATTGTTTTTTTCATTCATTAAAATAACTCAGTTCTAGCTAATAAAGCCATTTTTATCTTTAGTAATAGSTTCTTTATT
CCATTTGTTTAGATTTCTTTTATTTTTTAAAACCACTGCATAAAGACTTGGATTTTTTGTTTTTCTTAAGAAACAGAGTCATGCTCTGTCACCCATGCTG
AAGTGCAGTGGCACAATCATAGCCCACTATAACCTTAACCTCTTGGGCTCGAGTTATCCTCCCACCTCAGCCTCCTGAGTAGCTAGAAGTACAGGTATGT
TACTACCCCTGGCTAATTCTTTTATTTTTTTGTAGAGATGTTTTCTTGCCATGTTGCCCAGGCTGAACTTGCACTCCTGGGCTAAAGCGATCCTCTTGCC
TCAGCCTGAAGACTTGGATTTTGTAAATCTCAAATTAAATGGAATATTGCCAGGCATGGTGGTTCATGCCTGTAATCCTAGCACTTTGGGAAGCTGAGGC
AAGCAATTTGCTTGAGCCCAGGAGTTTGAGACCGGCCTGGGCAACATGGCCAGACCCTGTCTCTACAAAATTTTTTTTTAAATTAGGTGGGTGTGGTTGT
GCACACCTGTGATCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCTAGGAGGTTGAGGGTGCAGTGAGCTGTGATAATGTCACTACTCTC
CAGCCTAAGCGACCGGGTGAGACCTCATCTCAATCAATCAGTGAATCAATCAATAAACAACATTTCACATTTGTGGATCAGTTTTTGTTTTTGTTTTTGT
TTTTTTATTTTATTTATTTATTTTTTTTTTTATTGATCATTCTTGGGTGTTTCTCCCAGAGGGGGATTTGGCAGGGTCATAGGACAATAGTGGAGGGAAG
GTCAGCAGATAAACAAGTGAACAAAGGTCTCTGGTTTTCCTAGGCAGAGGACCCTGCGGCCTTCCGCAGTGTTTGTGTCCCTGGGTACTTAAGATTAGGG
AGTGGTGATGACTCTTAACGAGCATGCTGCCTTCAAGCATCTGTTTAACAAAGCACATCTCGCACCCTTAATCCATTTAACCCTGAGTGGACACAGCACA
TGTTTCAGAGAGCACAGGGTTGGGGATAAGGTCACAGATCAACAGGATCCCAAGGCAGAAGAATTTTTCTTAGTACAGAACAAAATGAAAAGTCTCCCAT
GTCTACTTCCATCCACACAGACCCGGCAACCATCCGATTTCTCAATTTCTTCCCCACCCTTCCCGCCTTTCTATTCCACAAAACCGCCATTGTCATCATG
GCCCATCCCCAATGAGCCGCTGGGCACACCTCCCAGACGGGGTCGTGGCTGGGCAGAGGGGCTCCCCACTTCCCAGTAGGGGCGGCCGGGCAGAAGCGCC
CCTCACTACCCGGTAGGGGCGGCTGGCCGGGCGGGGGGCTGACCCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGGA
GAGGGAGAGGGAGAGGGAGAGGGAGAGGGTGGATCAGTTTTAAATGATCATAACATTTTATGTTTTGTTTTGGCAATATTCTTTTTTTTTTTCTTTGCAA
AAATATCATAGCTAGGAGAGATACCAGAGACGAAGCAAGGCATCTGCTTCTAGAATAATTCCTGTAGCTTCAGTACCTTGATGGAGTCACTGTAGATTCA
GTGTTTGGTCCTACACTATACAAATTTAGAAACTCACCATGAGATGTTGAAGCATAAGGAATTAATGAATACTAATCAGCCTTAGGACAAACCGAAAAAT
AATGGAAATGCCAATTTATTATGAGAACTTTATTGATATCAGTAGTTTTCTCAGGACAGCCTCTTCTGAAAGTCAGTCTGTTCAGATTTAAAAAAAAAAA
AAAAAGTTATTCACTTTGGGAGGCTGAGGCGGGCGGATGACGAGGTCTAGGAGCTTGAGACCAGCCTGGCCAATATGGTGACACCCCATCCCTACTAAAA
ATACAAAAATTAGCCAGGCGTGGTGGCTTGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATCCCTTGAACCCAGGAGGCGGAGCTTGCA
GTGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAGAGTTATTTAAAGATATTCCACAATCTAAGAAG
TAGAATTAAGGGAGTAAGAAGTTTTAACAGATACCTTCATTTAGCTGAATTAGTTGTATATATCCTTTTCTCTACAAAAGATAGCACTGTTATTTGTTAT
CAGCATGGGAAAAATTTTATCTGGACCCTTACCCTCACACCATGCACAAAAATCAATTCCAGGTGGATTGGAAGTCTGAATATGAAAGGTAAAAGAATAA
AACTTTTAGGGGCTGGGCACGACGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCATGAGGTCAGGAGATAGAGACCATCCTG
GCTAACACAATGAAACTCTGTATCTATTAAAAATATAAAAAAATAGCCAGGCATGGTGGCGGGCRCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGA
AGAATGGCGTGAACTTGCAGTGAGCCGAGATCGCGCCACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAACT
TTTAGAGGACTGGACCTTGGATTAGGCAAAATGCCAACAATAAAAGGGAAAAAATGGATAAATTAAACAGCTTTAAAAGTCCTTTTTATAAAAAGAAACT
TTTTAGAGTGTGAAAGTACAGCCCAGCGTGAAAAGATTTGCAAGACAATCCAATAGAAAAATGGGCAAAAGACTTTAATTGGTACTTCACAAGAGCAGAT
TTTCATGTAAACCAGCAAACATATGAAAAGGTACTCAGCTGGAAAGTGTCATCTGGGAAAATGCAAATTAAAACCTCCATGAAGCACCACTACATCCTCA
CTAGAATGCTGAAAATAGAAAAGAAGGAAAATACTGGGTAGATCTTCTGGAGTGAGAATGTGGAACAACTGGAACTCAAATAAACTGCTGGTGGGAGTAT
AAGTAGATGAAAACCACTTTGGGAAACTGTTTGGCAACATCTAAACCAGGATATATGCATACCTTATGGCACAGAAATTCCACTTCAGGGTATATACCCA
ACAGAAGTGTATACATATATTTACCCAAAGACAAATACCATAATGATCATTGCAGTCTAATTCCTAGTCACCTCAAATTTGAAAATATCCAGATGTCCAT
CAACAGTCAAATGGATAAACAAATTATGGTATTTATCTAATGGACTACAGTGAAAATTATCTRTAGCTAACAACAATGGCTGAATATCACAAACATAATG
TTGGATGTGGAAAAAACTAGACACAAAAGGTTTCATAGTGTATAATTCCATTTGTATGAAGTATAAAAATAACCAAAACTAATCAATACTGCTAAAAGTT
AGTAGTTATTCTTAGTTTCTGGGATGTTGTCAGTGTTCTCTTTCGTGATCTGGGTACTAACTGCAAYTGAATGAGCTGTACACTTATGTGTACCCTTGTC
TCTTCTTTTATTTCTATACTAATAGACTCCCAAACTCTCATGTAAATGAAGTCTTGTGCCGAGACCAGCTCGGTCGGGGAGACCCTAACCCAGTGGYGCT
AGAGGAATTAAAGACACACACACAGAAATATAGAGGTGTGAAGTGGGAAATCAGGGGTCTCACAGCCTTYAGAGCTGAGAGCCCCGAACAGAGATTTACC
CACGTATTTATTAACAGCAATCCAGTCATTAGCATTGTTTCTATAGATATTAAATTAACTAAAAGTATCCCTTATGGGATGGGCTGAATTAAAGGAATTA
AAGGAATAGGTTGGGCTAGTTAACTGCAGCAGGAGCATGTCCTTAAGGCATAGATCGCTCATGCTATTGTTTGTGGCTTAAGAATGCCTTTAAGTGGTTT
TCTGCCCTGGGCGGGCCAGGTGTTCCTTGCCCTCATTCCGGTAAACCCACAACCTTACAGCGTGGGCGTTACGGCCATCATGAACATGTCACAGTGCTGC
AGAGATTTTGTTTATGGCCAGTTTAGGGCCAGTTTACGGCCAGATTTTGGGGGGCTTGTTCCCAACAGTCTTGAACAACACCAGCAATTTTTTCAGACAT
GTTATATGATTAAGTAGATTTTTAACTTTTGGACTGCATGGCCTTGCCTGGGACATTTTCCAAACTGTGTTCTATAGGACATTTGTATCTTTAGATATGC
CCATAAGTGTTCATGGGGTTAAAACATAATTTTGGGTCAGGCATGGTGGGTCACGCCTGTAATCCCAACACTTTGGGAGGCCAAGGCGGGCAGATCACCT
GAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTAGTAAAAATGCAAAAATTAGCTGGGCATGGTGCCCATGTCTGTAATCCC
AGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGTGGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAATAAG
AGCAAGACTCTGTCTCAAAAAAAAAAATAATAATAATAATAATAATTTATGGTCAAATAGGTATAAGTAAAGGAGATATCTTCATCTTAAGGATTTACAA
AGCATAGTAAGTAAACATGGGTAATAATAGCTAGTAATTATTGAATATTTGCCATGTCTTAGGCATATATTATCACATTTAATCCTCTTAACAACCCAGT
GAGGTAGATAATGTTATTGCCCTAACAACGGTGAAGAAACTGACTTTAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNACACACCACCACGC
CCACCTTATTTATTTATTTATTTATTTATTTATTTTGAGACAGAGTTTTGCTCTTATTGCCCAGGCTGAAATGCAATGGCACGATCTCTGCTCACTGCAA
CCACCACCTCCTGGGTTCAAGTAATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCAACCACGCCTGGCTAATTTTGTATTTTTAG
TAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCCTACCTCAGGTGGTCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGAGT
AAGCCACCACGCCTGGCCAATTTTTTGTATTTTTAGTAGAGACGGGCTTTCACCATGTGGGCCAGGATAGTCTYGATATCTTGACCTTGTGACCTGCCTG
CCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCTGCAGACTTCTTTTAATCATTGTACTAGAGTAACTGACACTATGGTTTA
CTATCTTATTTTGTCTGCCCAGCATCTCTTCCTGCTGGGATTAACATTCTTTAAATCACTCGTTACCCCATTCCAATAATGTGGCTCTTTATTTAAAGAC
TACCAAAGTCTTACATGACCCTACCCTGGACAGTTGATTGGTCCAGGGGTAGGCACCTGACCTAAACACAGTCAGTCAGTTATTTCACAGAATTTATAAA
ATTGGAAGTAGGAAAAGAGACTACTTCTCAGATGGAGATCTTCAAGCACAGATGATACTGGCAGCCATGTTTTTTACTATGTATTAATAGATGAACTGGT
TTGCAGTGAGAGAGAAAGAAGCCCATAGCCAGAGAGAAGAGAGGCATTAGGCAGGGTCCTGTTTGTCTTCTGGCTTCTTTCTGTTGCTCCTTAAGCCTTG
CTCAACCTCAGCTTCCCTTTGATTATGGGAGATACTCTAGTATCCCTCCAATAAGTGCCCCCTTTTTGTCTTAAAAGATAAATATGTTTACCTTCAGTCA
TTTACCAATAAAAGAAGATACAGTATGTAAGATTACTTCAGGGTTTCTCAATCTCAGCACTGTTGACATTTGGGTTGGGTAATTCTTTTTGGTAGAGGCT
GTCCTATACATTATAGATTGCTTAACAACATCCTTGGCCCCTACCCATTAGATAAGTTGTTAGAACACAGTGTGGTATTATGATGGCCAGTATGACCTAT
AGATATGTCTAATAGAGTCTATAAAACTAGAAGATACAGTGGCTCATTTCTGTAATCTCAGCATTTTGGGAAGCCAAGGTAGGAGGATCGCTTGAGCCCA
GAAGTTCAAGGCCAGCCTGAGCAACATAGCGAGACTCCATCTCTACATTCAAHCAATCAATCAATCAATCAATCAGCAAGCAAGCAAGCTGGATGTGGTG
GTGTGCCTGTAGTCCCACTACTCGAGAGGCTGAGGTGGGAGGATCACTAGGGCCCAGGAGGTGGAGGCTGCAGTGAGTGGTGATCATGCCAATGCACTCT
AGCCTGGGTGACAGAGCGAGACCCTGTCTCAAAAAAAGAAAAAAAAAACCCTAGAAAATAACTATAATTTAGAAAGCAAGATGCTTTTAAAATACATTCT
TAGCCAGTTAGAACAAATAATCTATTTTCTGATATGAGAACACTAAATGTTAATGATTATAAACTACTACAAAACAAGTTTCTAAATAAATTTTCTTATT
TGCAAAAGCTAGTGAATAGTCAATATCCATCACTGGCCTGTAATCCCAGGACTTTAGGAGGCCAAGGAGGGAGGATCACTTGAGGCAAGGAGTTAGAGAC
CAGCCTGGGCAACAAAATGAGACCCCATCTCTACAAAAACTAAAAAAATGAGCCGAGCATGGTAGTGTGCACCTGTGGACCCAGCTACATAGGAGGCTGT
TTGGAGAATCATTTGAGCCCAGGAGGTGGAGGCTGACATCTGCAGGCCGAAAGAGCCATGGCCTTGGAAGGGCCATAAATTCCACCACACTCTTGGTGGC
TCTCACCCTGCAGCTTGGAGAAGGCGCAATACTCCATTACCACTAATATAAATAATGTTTGTAAAATTCTTACCTAATAAAACATTTAGGACAGGCATGT
CTGCTTACAAGTAAGGTATTTTTTGTCTGTTAAAACTAGTCTGTAGCTTGTTTCATGAATGCTTTGTCAAATTATGGAAGTTAAAGTGCAATGATAWTTG
AAGACTATAAGTGATGGTGTATCTTGTTTCTAATAAGATAAAACTTTTTGCCTTTGTTTTATCTTATTAGGGAATTATATGTCAGTGTTTGAAACATGCT
GTGTGGTATAATAGGTTTAAAATAAATTCTTTAAAAGAAGAATACTGAAACTAGCCTTGTAGATATGTCTGGTGCACGTGATGAAACGTACAGCTTTATT
GGGGTTGGTGGCAATGCCCTGCTGGCTAACTTTCAAGTGACTGGGTTTTTTAAGTTTGGCAAGTACAAAATTCTAAAATTGGGTTTTCCTTTAGAAATGT
GTAGGGTCGGGGGAGGATGTCCTAACCGTATGTTGTCGTCATATGTAGTTTCATCCAGTGTTCCACATGTGTGACTGCTGTTTCTGAGAGAAGTTTCCAA
AATGTCACCATTTCTCAGAACTGAATAAACGTATTGCCAAGAGGCTTTTCTTAGGAATGAAACGTATCTGGGTAAATGTAAACAAAATTGTCTCTGTCTT
GACAGTACCAAAGTTCACATAAAAGGTGAAAGCTCCTGGATCAATGCCATGGCTCCATGGAAGGCGATGGATAGTAGATACATATTAAAATATCTATCTG
TAACACTAATTTGTTACCATTATGAATCCTTTCRGCTGCATTTGAGGAAAAAGTAGTTGGCTATTTAGAAGTGTGTACATCATTGTTAGTCATTCTTACA
GATAAAAACATCTTGGGTCAGCCCACTCTGTCCACTCTTATAGGCTACAGAGAAAAGTCATAATTGGTGTCAATACAAGTTGATGGTTTCCAATCTTAAA
AAAAAAATTTAATTAAAATAAATAAAAAATAAATGTTAAATGCAGTAAAACTACGAATTTGAATAGAAACATGACTCAAATCATTTTTACAAATACATAG
TTTTGTTTATTCAAACAAAAATCTTGAGACCCTTAAAAACACAAAATTTATGAAGTAGAGTTCATGGAGAAAAGATGCTTAAGAACTGCAAACAAAATTT
CCCACTGGGGCTGGATGTGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGTCAAGTCAAGCAGATCACTTGAGTTCAGGAGTTCAAGCCTGAGCAA
CATAGGGAGATCCCATCTCTACAAAATTTTTTTTTTTAATTAGCAAGCCTGGGTGGTACATGCTTGTAGTCCCACTACTGAGGAAGCTGAGATGGGAGGA
TCACTCCAGCGCAGCAGATTGCACTCTAGCCTGGGAGACAGAAAAATACCCTATCAAGAAAAAAAAAAAGAAAAAAATCCCACGGGTAAAATATCTATAA
ATACCTTTTGTAAGCTTTTAACAGTTTAGAGACATTTTTTAAACTTTAGATTCTTAAATAATTTTAAATTTACAGAAAATTTGCAAGAATATTAAAAAGA
ATTCCTGAACACTCCCCCAGAGTCGCAAATTGTTAACATTTTGTCACATGTACTTTCATTCTCTCTTTCACACATGTGCACACACATACATAGGTACTCA
AACTTTTCTGAATATTTGAGAAGTTGCAGACATCCTTTTTTACTGCTAAATCCTTCAGTGTGTATTTCCTAAGAATAATATTATTTAACCGTAGTAAAAA
TATTAAAATCAGGAAATTTAACATTGATATAATTACTGTTATCTAGTGTATAGTCCAAATTCAAATTTTCCTAGTAATGTTCTTTATTGCAATTTTTCTC
TTGATGCAGGATTCAATCCAAGATTACATAAATAGTTCTTAAAGTTTCCTTCAATCTAGAACAATTTTTTTAACCTTTTATTGTCTTCTCTGACAGTGAT
ATTTTTAAATAGTGTAGACTGTTTTTTGTACGTCATTCCTCAGTTGTGTTTGCCTGATATTTTGTCATTATTCATGTTATGTATTTTGGGGCAAAAATAT
AGAAGAATGTTGAATTACATCAAGAGATATTTTGTCCTATTATTGATGAATTTTAATCATTTGATTACAGTGATGTTYACCAGGTTTATCTATATTAAAA
GTAATCATTTTCCCTTTGTAATTAATAAATACTTTGTGGGGAGGTACTTTGTCATGTTTCACCCAGTAGTTTTAACATACATTGATGATTCTTGCCTGAG
TCAGTTATTACTGTAATGATTGCCATAGTCATAATTTTCTAACTCCATCATATCTATATTTATTAGTTGACCTTCTGCTGGTTGGCCATTTAAAAATTCA
TCTGTTCATAGTGATACAAGGTTTTTCCTTGACTTCCCCTTTTCCATATTTCTATCCCATCTCAAATCTAAATCTCTGTCTCCTAAGAGCAGCAATAAAT
TTGCACATTTGCTTAATCCTACATCATACACAAAATACTTGCAGAATTCCCATGCTCACAGCACTGCTAAAAACAAACCTGYAAAGCATTCAAGATTTGT
TTGCAGTTTTTTGTCTCTAAAGATATATAGTCAAATTACTGTTTTCAAAAATTATTTGGATTAGTTCTTCATTTGAAGAAGTATTCATTTGAAATAGGTT
TTCTTGTYCGTGAATTTTACTTTTTTCTCATCCTTTTTGACTTTTTAAAATGAGATAAGCCATCATTATGGTTCTAAAAGTCAAAACTGTTGCCAAAAAA
GGATACTCAGAGTAGTGTTAATCCCTCCCTCATTCCTTCTACCTATTTCTTGTGGGTAACCAAATTCATTAGTTTCTTATTTACCTTTCCTATGTTTATT
TCCATAAAATTAAGCAGTTTCATTTATTTTTTCTTATTTTTTTATACAGATAAGGTGGCACACCATATGTACTCTTTTCACTTTGCCTTTTTTACTGATG
AATACGTCCTGAAATCAATTCCTATTGATCAATTTGGAGAATTTTAAATGTAAGAATCCTCTCAACAGGAAAATACAGTTCCATGTTCTAGGTTTAAAAA
TGTTTTTTTCTTCACAAAACAAGTAGTTAATGGCATGTCAATAAAGCCCATTTGTAAAAAAACAGCTACACRTTAATATTTTATGTGAACTTCCATATCC
TTTATGTTTTGCAAGGAATATATATAATTTACTGCGATTGGCTTTTCTTCCTCTTGGCAATTTGCTGCTGCTGTAGCTGGCATTGCTATGAAAATGCAGT
AATGGTGACTGTCCTGTAAGTTTTATTTTCAGATAATTGTAGATTTACTTGCCATTGTGAGAAGTAAAACAGAGACATCATGTGTATTGTTTTCCTAGTT
TCCCAACATAACATCTTACAAAACTGTAGTACAATATCACAACCAGGAAATTGACATTGACTCAATCCACTGATCTTATTCATATTTCCTGTTTTGCAAT
GAACTCATTTGTGTGTGTGTATTTAGTTCTGTGCAATTTTATCACGTGTAGATTCTTGTATCTACCACTGTAGTTATGTTACAGAACAGTTCCATCACCG
CGAGGATCCCACCTGTTGTATAGGACTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCGCTCTTGTTGCCCATGCTGGAGTGCAATGGCATGATCT
TGGCTCACTGCAACCTCCACCACCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAGATAGCTGGGATTATAGGTGCACGCCACCACCATGCCTGGCT
AGTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGGTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTTCCAAAGTGCTGGGAT
TATAGGCATGAGCCACTGTGCCCAGCCTAGGACTTATTTTTAGTCACTAGCTCATTCTCTCTTACAGGCAGAAGAGTAACTTTTTTAGATGTGTATTTTT
TGTTATTTCTGCACTAACCCAAATAAAATCTTTTTAATAGTAGTGAGTTATGCCAGAACTGGTTTTTTAAAAATTTTTGTTGTTTTGTTTTGCATTATGT
ATGCAATTTAATTGTGACAACCACTGGTCAGTATTCTAAATTCCTCTTAACTGCTCAAATGATGGTCTCTAGGGATAAGTTAGTTGAAAATGTTTATCAG
AATCTTAGGATGAAGATATAAGCCTATATTCCATATTAGGCCTATTCTGTAGGTGAGCAAAGGCTAAGAGGAAAGCCAATCTTAAAAAGAGAATTATTTT
CAACTGTTTAAAATTTTAGATATGGAAGACTGAAAGCTTTCCCCTAAAGATCAGGAGCAAAACAAGGACACCAGCTTTCACCACTGGTGTTCAACATTGT
ATTGGAAATTCTAGCCAGAGCAATTAGATAAGAAAAAGAAATAAAAGTCATTTAAATTGGAAGGGAAAAAGTAAAACAATCTTTATTTGAAGACAAGATG
ATTCTCTATAGAGAAAATCCCAAGAGTGCACAAGAAGCTACTAGAGCTAATAAACAGAGTCAAAAAAAGTTTCAGGGTATAAGATCAACACACAAAAATC
AGTTTCCATATACCTGTAATGAATTTGAATAGGAAATTAAGGAAGCAGTCCATTGCAGTAGCATCTGAAAGGATAAAATACACAGGAATAAATTTAACTA
AAGAGGTAAAAAACTTGTACACTAGAAACTACAATTCATTTTTGAAAGAAATTAAAGAAGATCTAAATAAAAGGAAAGATATTCTGTATTCATGGGCAAG
AAGATTTAATATTGTTAAGATGTTAATGCTACTACCCAAAGCAATCTACAGATTCACTGTAATTCCTATATTTCTTTTGCAGAATGATTAAACAGCATTT
TTTGCAGAAATGGAAAAACCTGTCCTTAAATTCATATGAAGCTACAGGAGACCCTAAATAGCCAAACAATCTTGAAAAAGGACAAAGTTGGAAGACTCAT
ATTTCCTGATTTCAAAACATACTACAAAGCTACAGTCATCAAAACAGTATGGCACTGGCGTTAACAGTAGCCATAGAGACCAATGGAATAGAATTGGGGG
TCCAAAACAAATGCATACATCTATGGCCAGTTGGTTTTTGACAAGGAGGCCAAGTTTATTTAATGGAGAAAGAATAGTCTCTTCAATAAATGTTGCTGGG
AAACAGGATTTCCTTACAAAAAAGAATGAAGTTGGATTCCTACCTCACAGCATATGTAAAAATTAAATCAAAATGGATCAGTGACCTAAATATAAGGGCT
AAAACCATTTATAACTATCTTAGAGGAAAACATAATGATAAATCTTCATGACCTTGAATTTGTTGATAGATTCTTATATAACAACACCAAAAGCACAATG
AACAAAAGAAAAAATAAATTTGACTTTATCAAAAGTAAAAGCTTTTGTGTTTCAAAGTACACCATCAAGAAAGTGAAAAGGCAAAGCACAGAATGGGAGA
AAATATTTTCAAATTATATATCTAATAAGGGTTTAAGGTCCAGAGTAGATCAAGAGCTTCCAAAACTCAACAAGAAAAAAGACAATCCAATTTTAAATAT
AGGCAAAGACTTGAGTAGATTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCT
TACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCGGCCTCAGCCTGCTGAATAGCTGGGACTACAGGCACCCGCCACCATGCCTGGCTAACTTTTT
TTTTTTTTTTTTTTGTAGTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGAGTGGTCTCAATCTCCTAACCTCGTGATCTGCCCACCTCAGCCTCCC
AAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCAGGCCTTGAGTAGATATTTCTTGAAAGAACTTATATAAATTGCCAATAAACACATGAAAATATAT
TAAATATCATTAGTCATTAAAGGAATGCAAATCAAAACCACAGTGAGACCTTACATCTTAAACCTTACATCTACGAGGATGTCTATTTAAACAAACAATA
AAAATGGAAAATAACAAATATTGGCAAGGATATAGAGAAATTAAAACCCTTGTACATTGTAGCTCCTGTGGAAAACAGTCTGGCACTTTTCTCAAAAAGT
TAAACATATAATTACCATAAGACCAAGCAATTTCACTCCTAGGTATATGCCCAAAATAAATGAAAACAGTGACTCAGATATTTATATACCAATGTTTATT
CCATCATTATTCACAATAACCAAAAGACAGGAAACAACCCAAATGTTCATCAGCAAATGAATGGATAAAGTGTGGTATGTACATGCAGTGGAATATTATT
TATTTATGAAAAGGAATGAAGTTCTGATACATGCTACAACATTGAAGAATCTTGAAAGCATTATGCTAAGTGAAATAAGCCAGACACATAAGGACAAATA
CTGTAAGATTCCAGTTGTATGCAATGTCTAGAATAGACTAATTCAAAGAGATAGAAAGGAGATTAAAGGTTACTAGAGGCTGGAGGTGGGAAGCATGAAG
AGTTACTGCTTAATGGTTATACAGTTTCTGTTTGTAGTAATAGAAAACTTTTGGAAATAGATAGTGGTGATGGTTGCACAACATTGTGAATGTAATTAAT
GTCACTGAATTGTACATTTAAAAATGTTTAAAATGACAAATCTTGTATATAGTTTATCACAATAAGAAATTTTTTTAGAAAAAATTTTAAGCTGAACGGA
ATGCAGAAAAGCTCCTTGAGACAGCCTGTAAAAATGTAATGAAATAAATAGAGCTAAACACGGGGGGGAATTTTTTTTTTTGACAAAGAATGTCAATTTT
ATTTATATTGACCAGATTTTTTTGTGATCAGTCTTCAGGAAAAATGTTTTTAATTAATTTTTATGTGCATAAGAATTGCCTGGAAATGCATATTTCTGAC
CTTCTCTGTTAGTAGTTCTTGGATGCAGCCCAGAAATTTGTATTTTTAACCATTTACCAAGGAATTCTGATGCCAGTTGTAACTGAATTACACTTTTGGA
AATATTATATAATGGTTGAGAACATAGGTCAAACACACCTGGGTTCAAGTCCTGACTGTGCCCCTTGTTATAAAACCCGGATAATTAAATAATTTATTGG
TACTTCAGTTTTCATAGCTGTAAAATGGAGACAGTATTTCCCACAGACAGTTGTTTTGAAAATTAAGTAAGATATAGTTTGTAAAGTAGTAAGTATAGTG
CCTTAAACTAAGAAAGCATTAARAAAAWGTTAACAATATATTTCATTGTTTTCATAATTCAACTGTCATCCAAAATTATCAGTTTAGGTCAAGGGAGATG
GAGATTCAGTGACCTATTTACCTTTTTCTGCGTGAATCATAGTATTGTAAAGATAAAGAAAACCTAAGGAATTCATCCCTGTTATGTACATTTTAATGCA
CAAGTCTTGAGATTTATAAAAGTACAATTTCTTAGAGGTAATAACTTTCAGATAATAGCTTTTAGTAATAGAATTAATTAGTAGTGTATTTGTGGCCTTT
GAGAATGCTGTATTAGAATACTAAGGCAGAAATCTAAATACAAGAGTTTAATTTTAATATGGAGGAAGTGGAGATTGGGTTAGGCTGTCATGTTGAGCAG
AAATTTGTGAAAGAAGATTCATTAAATTAGGTACATGGAGAGTTAAGCARCATTGGGTGCTCAGCAAAATCATACTTCTAATATTGACTGTCAATTCTAC
TGTGAGACTTTTTTTTTTTTCCATAGTACTGACAGCTTAGACTAGGAGCAATGAAAACAAATAGGGACATCCAGGGTTACATGTGAGAAAGACATATGTG
GTGGAAAGTTAGGGAACTGAATTAATTAACTTTGTCAGCAATATAACTGATGAATCATGGAAAATATATAAGACAATATGAGAAGGAAGTAAAAAAATGA
GAAAACTGCAGGATGGGCATACTTCACTTGAATCTAGGGATGGATGGTCACTGGACCAGGTCTTTTTTATTCTGTTCATTGATCCATCAAATAGTTACTG
GGTCCCTCCCATAACTGCAGGCACTTTATTAGTTAACACAGGTTGTAACARTAAATAAGGTAGATACCGCCCTTGCCTTCACGGAACTTACAATATGGTA
AGGGAGACCTATGTCAAACAATTGGAAGTTACAAAAAAGGAGGGAAATCAAAAATTTTTTCAGGCCATTATCATGGCTTTTACAGGGTTTCACTCTTCTT
CCACTATATCCACAATGCCTACACAGTACAGTAGATACCATGGCTTGCATCCGAGGGAATCTATAAATCACTGGGTTCCTTTTTCATCTGCTCTACTCCT
TTGCTTCTCATTCTTTCACATCTAGGATGGCACAGCAGGAGCTGAGTTAATGCTTGCTAACACCTGCTTCAATAAATCTGAATTAGAAGCACCAATTTAA
TACAATTTCTCTTTGTTCTTTTAGTTCTCTCCTCAGAATACATCTGAGGAACTTAATAGAGAAAAAGTAAATGATGAAACTACATTTGAAGCTAAGAATG
GAAAATAATTGAAAGAATTGAAAGTGGCCAAGATAGGAAGAACCCAGAACTGGTACAGAATGATAGTTTTGAAAGTCAAGTTACACCTGACTTGAGACTG
AAGAAGTTAATGTAGAAGGAAGGAAAAGCAGAATTAATGGATACATCCAATGCTTCTCATGGATTTTATTTGGCTGATGCACCTAATTTCAGTTGTTTTT
CAGAATAAAGACTTTTTCTTTGAGGAATGTGAGAGAACTCTGAATTTCACAATGCAACTCTTCTAAGCAAATTGGAAAACTGCACTGAAAATCCTGAATT
TTGACATGTAGCTCCCTCAAGAGAAAAACTACGAGATGCTTTAAAAAAATGCTGCTGGGTTTTTACTCTACGATGAAAAAGAAGGTTAATTCAAGGAGGA
CCAAGACTTCAGATTTCTTAGGTTGTGCTACAGTAGTCTTTGACCACAATGCAGATTTGATTAAATCTTGTAAGGATGCCGTAAAACTGGCAACAGTCAC
TGGATACCTGGATGTAGTGGCCCATTGACATCTGGATGGCTCAAAGGGTCATTATAAGATAAAGGATTTGGTCCAATTTAGTCTAGCGAGAGGCAAATCT
ATTTGAGAAAGAAATACTATTCTGCAAAATATGAATGGCACCCAATGATGATACTTTTACTCACCAACTTGAAAGAGCCACAATAACTTTGAAATTTTGT
ACCATAATGAACTTGAGAAATATATTCTTCAGGCAGCTTGAAAGAAATGAAAGATCGTTGGTTTTCAGGAATAAACAAATTAGTAAAGGAACATCAAGAT
GATATTAAAAACCAAGGGACTGTATGCAAACCATAATGCTATGTTAGGGCAACAAAGTGAAATTTGAACCATGCATTGAAAATACAGAAAAGGGCTCTCA
GTAGCAATGCATATCTACTTTTCAGCACAAGTAGGATGTTTATGAGAATTCCATTTTGTCTAGGATGAAGAAAGTGGTAGAATTATTTCTCCCAAAATCT
GCTCAGCAAATAGTTTATCTCCAAAGATTATGAAGGCTTCTTCAGTGATTCAGAAAGTGTGGAAAAGAATGCCTTGAAAAAAAAGAATTTTTCAGGATTT
AACAGTTGTATAACACTTAAAAAACCATTCATGGGAATTTGGTTGCCTTCAAGGTGGGAAAAAGGTGATTTCGTCTAGGGAGAAGAAAAGGAGGAGGAGA
GGAAAGGGAATCAAAATAGTAATAAGAAGAGCAATGGCATGTCTACTAGTCCTACTACTTGATCCTGCAATGGATACAAGTGTCCTTGAGAAAGCACCTT
CAGCATATCAAAGATGTTTTGAAAACAACTTCCCCAGATAATTGATATTTAATCCATACAAGTCTCCAAGATTGTTAAAACAGTTTGTTTTAGCTTAGCC
CCTCAATTACTATCTTAATTTAGGAGAGCTGCTAGTAGGTCCTTTGGGGATGCTACATTATACAACTTTGGGGGGCACCATTTACATCTAACTCTATGTG
AACAGAGCCCCTTGGAGACATTCAAGATGGCAGTCCTGCGGGACCTAATCCTTCCCACACAATTCCCTATGGGTTAACAGGGAGTACCATCAGCTCATTA
AGATAGGGTAAGACAGTTTGAAAAGGCTCTACTATTCCAGTTCTCCCAGGAAAGGGATGCAAGGTATAAGGCAACAAGCCCCTCAGATTATTTCTCGTAG
CAAAGTAACTTATTTGCCTCCACTTTGTACTCCTAGGGCACTCAGTAGGCTTTGGCATCATATATGAGAAGCTAGAGGATCCAGCCTTGGTGGGAGTCCC
TTAAGTCCTTGTTTCTTCAGGTCTTTGGATCCAATTTGAAGAAGCAGGAATTCCTTTATGATACCATCTCTCAAACTGAGGTTCTCCTGTTAAGCAATCA
GGGCCTCAGACAGATGACTTCTGATTGAAAATACGTAATAAAGGAAAACTTTTAAAGAAAAAAAACACCCAAAATTCCACTGTCCTCATAATTTTTAGCT
TTTTCATAATGCTATCAAAAGTCTCTTGTTTCTTGTTCGCATACTTAGATAAAATTTTACTTAGTTGAAACTTACTGTACATATACRTTGTATATCAAAA
TTTTAACATATTTGTCTTATTTTTAATAACAAAAATGTCAATGACTAACACTGATGTAATCTTGAAAAAGCATTTAAATAGAATTTCTGGTTTCTCTCAT
AAAATCTATATGGATTTATGCTGTTTGAAACAGTACGCACTAGCCATACATGGCTAATGAGCACTTGAAATGTGGCTAGTATGAAATGAGATGTGCTGTT
AATATGTAAAGTATACCTGGATTTGAAAAAAGTATAAAATATCTCAATAATTTTTATATTCATTATATGTTGAAATATTTTGAATATATTGATTTAAATA
CTTAAACATGAAAATTATTAAAGAAAATTTACCTTTTTATTCCYTTTAGTGTGGCTACTAAAAATTTTAAATTACATATATGGTTTACATTATTTTTCTA
TCAGACTGTGTTGATATAGATTATCACAAACAGCTGTGGGGTCTTAAAATTGGAAAAGCAACTAAAATTTTAACAATAAGGGAATGTTTAAATCATTTTT
AGTATGTTTACTAAATAGAATATTGTGCAGCCTTCAATATGTGGCCCCCCAAAATGTATATAATATTGTATTAAGTAAAGAAAGCACAGCCAGACACCAT
GGCTCACACCTGTAATCACAGTGCTTTGGGAGGCCAAGGTAAGAGGATCGATTGAACCCAGGAGGTTGAGGCTGCAGTGAGCCATGATCACACCACTGCA
CTTCAGCCTGGGTAACAGAGGTAAACCCCATTTCTTTATAAAAAGGAAAAAAAAAGTATGATAACAAAGTTACACAATTTTTTTTTTTAAACTAGAAGCA
TTTTTCCAAAAAGCTAACTGGAGATATGTTCAGAAGATTGAATTCCAAGTGATGTTTTCCTCTTTTCCTTTTCTTTATTTTCATATTTAAAATAAAGTCA
TAAAACTTTTTTTATTTTAAAAAGAAGTTACTAGGTGATACTGATTCATAGACTCAGATCAAGGTAAATGAAGGAATGGTGGTGTATTAGTGTTCTCAAT
GTGGCATTGTGGAGAAAGGAACAGCCAACTATGTCTTCCATCCCACTGCTCAGTGGGAATCGGAAAGTAAAACTCCAAAAGAGGGGACAGTTGATAATAT
ATATTGTGTTTGTAAAGAATGAAAGAACCTAAGTCTAAGGTCCTTTAAAAAGAGTTAAAGCTCTGAAAATGATTTGCCATGTTTAAATGCTTCCCCTTGC
TAAGTATTGTCTTTTTCTTTATTACTAGATTCATGATGTTGCTATCAAAAGTTGAGAAATTGTCAGAAGAAATCATGGAGATAATGCAAAATTTAAGTAG
TATACAGGTTTGCATTTTTTCATACTTCTACCCTGTTTGAAAAGGATAAAATSAAAGAAGTGTCCCAGATTGGAGAATCCAATCCAGGAAAGAGTTTGCA
TAGAGTATGTTTAATTTACTTTTCATGGGAATTTTTTTTTTAATAGGAGAACACTATTTAACCATAATATTTTAGTAATATCTTGCTTTTCACATTTAAA
CATAAATTTATAGATTACATTTAGTCTTTTTAGTTAATTATAAATTGTTTTTTTTCAGGCATTTTTGGGCTTGAAATAGTTGGCCTGCCAGAAACAGTTA
AATATCCTAACATAAAGTTTAAGTTTTTCAAATGAAGGAAACAATATACTGTATTTTCACTAGACATGTCAGTAATCTCATGTGTGTAGAGAACTTAACT
CATTCAAGATGACTTTCTTGTAGGCTTTGGAGGGCAGTAGAGAGCTTGAAAATCTCATTGGAATCTCCTGTGCATCACATTTCTTAAAAAGAGAAATGCA
GAAAACCAAAGAACTAAGTAAGAATTTTTGAGTTTTCAATGACAGTAATTTTAAAGATAAACCTATTAATTTGTCTCATTTACATTTGATAGACTTCTTT
ATATATACCATTACTGGACATGTGATAAAAATACTATTACCTTCTTTAAATAAGAAGCCACATGTCTTTTATCAGGATGTGTTATTTTGGGGATTCTTCT
TGAATGTGAATGAAAAGAATGCACCTTGGAAACTGGTAGTAGGCATTTCAAATGTAATGCCCATTTTTATAATATATAATAAGGTATTATATTTTATATT
TGGTACTTATAAATATGTATTATTTTGAATTATTTTTTTCTCATGAAGTTGTTTGTTGCAAGTATTGAGAAATTATCCATATTCTATGTTAATTCTTGAC
ATGGGATTTTTACTTCTTTTAGTGACAAAAGTGAATAAACAAAAACTGTTTGAAAAGAGTACAGGACTTCCTCACAAAGGTAAGTAGTTGTGTTTTAGTT
TATTACATAAAGATGCTTTCATCCCATTTTGCCAATTAAAACTAATCATCATGAATCCTTTTTAGTGGTTTTCTTTTTTCCTCAGAGATCCCTGTTCTGA
AGTATGTTCTTTTARAAGATCACAAATCTCATTTGAAAAGCTTTATATTGCATTTAGCAGAAGATGATATCTGATGAGATCAACTTCTCTGATGATTGAA
CTTTTTAAATGTCTTTTGAAATGCAATCTTCAACATAAGATTTGAATTTTGTCTTTTTATTAAAATTTCTTTTTGAGAATACAAATAGGAGCAACAATGC
ATTAATATACTGCAGTTTTTAGTGTTGCACTAGAAGCATTGAAAGTTACTTTCTAACTAGTATTCTGGAAACTTTCAGATCATTAATATGCTTTGTTCTA
CTATGAACTCTTATGTCTGAGCATTTCACAGTATGGAAAACTAAATAAACAGTTTTTAGGTTTCCATAGGAAGTACACATTCACACCTTCACACCTCAAT
AAGCAAAGTAATCATGAACTGTAAAATACCAAAACCTTTAGACTAATACAGGAGTGATTAATAGTACCTACATGWATGCCATTTAGCAATTTCTGCAAGT
GGAATTAGGCCTTAAAATGGGTGGCCGTGTTTTCAGCCTACCACTTTTAAATACCGATGACTGCCATTTATTGAGTAACTATAATTACAAATATTCTGAA
TACTAGGATCAGCAAATCTTTACAGCAATGTGGAAAGATAGCTACACTGTATTATCATTGTCATTATAGACAAGGAACGAAGACACAAAAAATATTAAGT
AACTTGCCCAAGACTTCTACTTAGGTAACAGAGCAAGGATTCCAACCAAAGACCAGTCTGGCCTCAAAAACTCTGGTCTTTTCATTATTCTGTGTTATCT
CTTCCTAAAACAAATGAAATCATCCAATCATCTTAGCTTTTAGATTCAAACATGGCACATAATTGAAACTGCTTCACCCAATCTGGTATGTTAGCCTGGG
TTTAGAACCTTTAATAAGCCAGTGATCGGTTGGCAATGGAAAGTGCTGGGATTGCCAGCCAGTCAGATCTAAAGGCCAGCTGGGTCATGGCAGGGCTGCA
GCCATGGCAAGACTCCTCCAAAGCTCATGTGGGAAGGGAGCTGARTAGGCTTCCTGAGCTTTTCAGTTGAACAACTAACRTCTACTGTGATGCCAAGAAT
TTAAGAACATGAAAGGTGGCTTTTTCTTGGATGTGGCTTGGGATCTTTTTAAAAAAAAAAAAGAAAGAAAGAAAAGAAAAAGAAAAAAGAAAAATTTAGA
GGCAGGATTGTACCCTGTCACCCAGACTGAAGTGATGATTAGTGAAGTGGGATTACAGGCATAAGCCAACACGCCTGGCCTCTTGTCTGTTACTTTAGTT
GTGTMATTTGATTAGAATGTGTAACTGGGTTTCAGTGGTTTCAATCTCTCCTAAGTTGACAAGTTTTAGAGGATCACAATAGGAAAGCAAAATGTTTATT
ATTTCCCAACTGGAAGAAATCTTGCTTCTATATATTCTACACCAATAGTGTGATTTCCTTAAAAATCTGTAACTTCCTAGAACTAACTAGAATTAGGCTT
AATATAGTTGGCCTTTGCAAACAGCTTTGAGAAATAAGGAAGAGGAAAACTCTGGAATAAATAAGTGAACTGTCAATGCTAATAATATAAAGAAAAATTT
TTTTAATTTATATTTCATTAAAATATTTTTCCTTCCAGGGGAAACTTTTTTCATTTCCTTATGGACATCTAAAATACATAACTTCATTGTGTGTTTATGC
ATGATCAGCCTTAAAACTGTTTTCTATTATTTTAGGCATTAAGGCTGACTTGCCCATTACCAGATTTTCCCAAAGGACCGAGTTCCTGCATAGAGGAGAC
TGTTATCACTAAACCATGTTTGTAAATTTCTAATAATCATTGATTTAAATGAAAACTCAGTTTAAAAAATATATAATACATAGTATCTATATAAGTATGT
TATATACTACTGTGTGTTATATTCTATTCTACGTAGTCATTGTCCAATTCTGTTTCTTGGCAGGAGCTACATTAGCTCTTTATATTTCCTGAGGTATTAA
AAACTTCATTAGCTTTTTAACTAATTTTGGGAAATTCATATTGCCTAAAAAATAGATTAAAGCTTATTTTTGTTGTAATTTGATTTTGAGCTATATAGTT
TTCCTGAGTGCTTTTCCTACCTCTTTCTCTGGTTCCTAACATACATATTAGTTTTGGGGGTTTTTTGTTTGTTTTGTTTTTTGGTTAATGATTATGTACA
CACAAATGTGCACACACATGCAAATTTTTTGTACTAAGCTAACAACTTTTACCCTTTTCTGCTCATACATTCATTTTAAGAGGATTTTGCTAATTCTTTT
GACATCTCAAACTAGTTTGCTTTATATGTCCCTCATTTTGCAATCTGGCCTTGAAATTTCCACTTTCTTTTATTTATTTATTTTTATTATGCTATTACAC
AGAATTGTTTAAATTTTAAAATGTTTTGGGAGTTTGTCATAATATTAGAAAATAAGTAAAATAAAAATCATCCCTATAATATGTATAGGATTTGTTAAGG
TAATTATGAAAATTAGAATAAGCCAATTACTTGTTTCACTATCAAAAGAATGTCCTTCAGATTCTTCTGGGTTTTTGGTGGGTTTTTTTGTTTGTTTGTT
TTTTGGTCTTTCAGATTCTTAAAAAATTTTCCTGGAATAGTTAAAATAGACAATACCATGAGAATTTCAATATTTATGCTATCATTGCCTCTTCTAATTG
GTCTTTTAGTTCTAGTAATATTTATTTTTTCATTTCAGTGGGAATTTCAGTTAATGTCAGTTACAGTCTTTATTACAGGAAGAGTAGAATTATRAAAATA
ACACTCTAGTGTTTTAAATAAATAGACATCTGACACACATTCTTAAGGCTTTATATAACTTATTCAAGAGAAATTTAAAACATACACAATAAAATTAAAA
GGCACACTGAGATTTTCATAGTGTCATAAGAACTGGACCTGGTAAATCAGGGGATGCCTTGATGAGAGTATATGAATAAAAGAGGATCTCCTCTGCTAAA
CACAGATTTCTTAAACAAAGGAAGGCTTCTTTCTTTCTTCAGTTACTTAGGAAATAAGCCTAATTTTGCTTTCTTCAATAACACTGGCTTTATGACTATT
AGGAAAATAATGAAATGAAAGGTTCTTTTTCTGTAAGATTTGGATGTGAATTTTCATAATTATTTTAAATTTGTTATGCTGAAGACTTAAGACATATGAC
CATTCAGTGGGCTGATACAGATGAAATGTCACATTATCATCACATGGTGAGGCATGAAATTTATTTACTTTACATAATCAACCTCTACTTAAAACAACTT
GTTACAGATATTCCTTAGTCAATAGATGGCATTATATAGTAGTTAATATTTTCAGTTTTTTCTGAAGATAATTAAAAATACCATCGTTAGTCTATGACTA
GTACTTCCAATAAACAAAATGTTTTTGAAAAGAATGTAAGCAAATTGTAGAGCAGTTGCCAAGATATGAAATCTAGACACTTAGCTTCAGTCCAAAACAT
ATTTTATCTGTTTTGAGAATAATTGTGTAGGTTGCAGTATGCATATTTTAAATGAAATGGAACCATCTGAACTTTACATTGTTCAGTGTTYCAGCTGTTT
GTAATAGAAAATATTTCAGAATTTCCAACTTTGGTCTGTTTTAAAAAGCATAAACTACAATGTTCCTGTATTCTTTAGTTAACTTTCTGTATTCTTACAT
AGTAAAATTCGTCTTGGTTATAGATTTTAAAGTTATCAGATTCTTARACAACAGGACAAATTTAAAACTCTTTCTGTTCTAACACTATAAAATAGTTTGA
TATTGCCTCTTCATTYTAACCACCCACTGAAGTATTTTTTAAACATAAAAATATGTTGTTCTTTCCCCAACTCAGGCTTGAAAAAGTATTCATCATATCA
GCTGAATAATTTCACTCCCAGAAGACTACTACCCTTTTAGTTTTCTATTTTATCTTAACATTAAACAATATATTTTTTTCAAACAGATACTTCAATTTTA
AAAGCACTGAGGTTTGAAGTTTAGACGTGACGACTTTTAGGAGAAACAACAGAAATTCCCCCTATGCTTTAACATTCTGGGTTTATCTGGAGATAAAAAA
TGAAGCCATTAATTTTGATAGCACAAATAYACATTAATGTACAACTATAGTCCTCAGCTCTTTATAATGATTCAGCTATCATGTATGCCATATGTGAATC
ATAACCTTTCCTATTAATAATGTTAATGCTCTTGTTTTACACGATTCGTCATTGTTTTGGGGTATGCATTTCAGCTGCTAAAAATGCTTACTTGAGATTT
GTCTAGGATTTAAGTAAAAATAAACTGATTTATTACTTTTCAAAGCCTTTTAAATAATTTCTTTCATGATTTAAATTTTTTATACTTTAACAGAAGTATG
ATAATTTTTCTTTCAAATAAAATCAGTAGAAAAAATTTTAAACTATAGATTTGGACTCACTTAATAGCAATTAGGTGTTTAAGAGGTGTAAATAACTTGC
TATCAGACATTACAAATATCCAGGTGCTCAGTATGTGCTGATGACAACAAAATTGAAAAGAAAGACTGTAATAATTCTGACTGGTTTTCTCTGCAGAAGA
TATTGATTATTTGTGTGTGGTGAGAGATTTGGAAAATTCAATTAAAGGAGTTGTGCAAAGGTTTCATAAATTTTCCTTCTACAGCGTGTACACAGACATT
GTTGCGTATTAAATCAGTGCAGCACTTCACAATATATTTTCTTTGAAACATAAAAATAAATAACATTTAAACAGTTCTGCTTACTACAGAAACAAATTTT
ATTTTCTGTGAAGCATTTAGTCATGTGCTATCACTGACTCATACACATTTGCCAGCTGTAACAAATTTTATAGACATTTTCCCCAGAGACATATCTCACA
TACTATGAATTTTTAAATGAGCAAACGGTGAAGAAGGGATGTCAGCAATATAAAAATTGATCAGTTAAAAGATAAAAGCATAAGTAAAGAGATTTGTATG
GTAGTCTTAATAGGTTTTATTAAATAAAAATACTGTAAAAAGACAGTAATGAATAGACTGAAGACTATTCTTGAGGTGGAGAAAAATTATTCTGGCACAT
TTAGTAGAAATTGGTTTTGTGTCACCTGACAGGTGAACTTTTTTTTCCCATTTTTTACTCTCAGAGTAGTCAAAAAAGCCCCACAAAAAAAGAGTTAGAT
AAATTATCTAAGTGGTTTACATATTTTAAACACAATAAAGCAAATGTTTATAGTATTATATAACTAGTTATATAGTTAAAAGCAGGACTTGGTAATTATT
AAATATTAGGTGATTTTTCCTCCAGTTCAGACCTCAGATAAGAGGAGGGTAGTCAYTTTTATTCATACTATTCACACCAAGTGCTTCAGCCCTCTGGAAC
CTCTCTTTCAGGACCCCAGAACACTTTGCTACCTTTCCCTCTGCCTAGATTGCTTTTTTTTTTTTATTTTTTATTATACTTTAAGTTTTAGGGTACATGT
GCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTAATGCTAT
CCCTCCCCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGA
ACATGCGGTGTTTGGTTTTTTGTCCTTGCAATAGTTTACTGAGAATGATGATTTCCAATTTCGTCCATGTCCCTACAAAGGACATGAACTCACCATTTTT
TATGGCTTCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACTTTTGGGTTGGTTCCAAGTCTTTGCTATTGTG
AATAGTGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATG
GTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTC
TCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCTTTTTTCTCTGTCTTACAAACTCCTGCTCATCCTTTAAGGTCAGCCTCAGAT
GTCACAACCTCTGTGAAGCTCTCCCCAGCTCTCCTAGGTAAAGCTAAATTGCTTCATCTTTGAGGCTCCCACAACACTTGTCTGAATATTTTAAATGTAT
CATGTTGTAGTGCATTGTAATTGCCTGGTTACAGGACTCTTTCTGGGCTCCTCTTTGGCAGACAAACAAAAAGTCTTATCTATGTATGATAGTTCCAGAG
CCTAGCACAGTGCCTGGATAGAGCCTGGAAAGAAGTTCCACATGCAGTACAGCCAATGTGTGATGAATGAAAAGAACTTTTTTTAAAGAATTATCTAAGT
ATTTTCAAATACTTATAAATTGCTATTTTCTTACCTCATTAATGTTTATTGAGTGCCTACCATGCTCCAGGCATTATTCTAGCATTGGGAACACACTGAC
AAACAAGGCAGACATAGTCCTGCCCTCAGGGATATAGAATCTAGCACAAATGACAGTCATTTTAGTAACCATAAAGAGTGTACTAACAATGGTAATAAGC
ATGTATTGTAATAAATGTCTTGGAAGTTTTCGTAATAAATTTGAAAATGTATATTCTGAAATAGAATCAGGCTAACTATAGCATGTTGAAATGAGAATTT
ATAGCCTTAGAGCTGCTATTAGTATAAAACAAGACTTCAGGTTGTTTTAATTTCATTTTGCTTCAACATTTATTCTGCATCATATACTGTGGCAAGTTGC
TTTGAATTGTTTTCTGAAAAAAAAAAMCTTTCTTCTTTCATATAGCATCACGTCATCTTGACAGCTATGAATTCCTTAAAGCCATTTTAAACTGAGGTAC
TGTTTCACCTTTCTAATTTAGTTTAACCTTGTGAAATTTCACTGTGTTTTGTTCAGGTGGAAACATTTTATTTACATTATCAGATTTGGTATTGTCTTCC
TGTAAGAAAATAGGGATATAGCTTTGGAGCTTTAGTTGAACTTATATTAATCTAGTCTTATCAACAACAGGAGGGCATCTGACATCAGTTAGAGGCTGAT
TGGAAAGAACTGTTGAGCTGACGACGCTAACTTTAAAAGTCAGAGAGGACACATTTTTAACTGAGTGTAAAAGGGTCCTTAATCAAGCATCTTTCATATA
AATAGCTAAATAGACTAGCTAAATAGATGCTGACAAGTGGACTATAGTTTCTGTAGGACACATCTGACTGAACAAGATATAACTAGTCTGTTAAATTTGG
AAATGTGCTAAATTAAGTAAATAAATCTATATTTATTAGTTATACCTTGCCTTCAGAACAATTCCTATTGATTCAGCAATACAAGTAAAAATGATGTGTT
TATAAATAGCTTATTATAACAAATAAGCCAAAAGCAATATGAGTCATGATATATTAGTGTTTAGTATACCTATAACTGAAGGTTCACATTAAGAACTGAC
ATTGGCTGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGACCACTCGAGGTCAGGAGTTCGAGACCAGCCTGGCCAA
CATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGCTAGCTTGCGCCTGAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTG
AACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCGACTGAGTGAAACTCTGTCTCAGGAAAAAACAACAACAAAA
ACTGGCATTAGGGGCTAGGCATGGTGATTCATGCCTGTAATCCCAGCACTGTGAGAGGCCAAGGTGAGAGGATCGCTTGAGCCCAGGACCAGCCTAGGCA
ACACAGTGACAGACCATGTCTCTACAAAAAAATAGAAAAATAAGCTGGGTATGGTGGCGCATGTCTGTAGTCCCAGCTACTTAGGAGGCTGAGTTGGGAG
GATCACTTGAGCCCACGTGGTAGAGGCTGTAGTCAGCCATGATCACTGCACTCAGCCTGGGTGACAGAGCGAGACCCTGTCTCCAAAAAAAAAAAAAAGA
ATTCTTAGCTTACCAGGTGTTTTGCCTGCTATCTCTTAGGGGAAAAAAAATCAAAGCACAATTAAAGAATTATATTCTACCTCCAAGATRCTTTTCTTTG
GAAATGGTATCTCAAGTGATTAATATTAGCTTCCTGACAAGCTAGTCTTAATATTTGCAAAGCATCTTATATAGAAAATTGTGTCCGTTTTTTATGAAAA
CGTTTATTCTGTTGTATGYAGTAACAATAGCTTATATTCTGTTGTTTGCAGTGAGTAATAGCTTATAATAATAGCTAATATTTATTGAGTACTTTCTGTT
GTTTTGTTTGTTTGTTTTTTGAAATGGAGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGAAACCTCCACCTCCTGTATT
CAAGTGATTCTCCTGCCCCAGCCTCCCGAGTAGCTGGGATTACAGTTGAGCACCACCATGCCCGGCTGATTGTTTGTATTTTTATTAGACATGGGGTTTC
ACCATGTTGGCCAGGCTGGTCTTGAACTCCTAACCTCAAGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGCAATTACAGGAATGAGCCACCGTGCCCA
GCCCTATTGAGTAATTTCTATGTGCCAGCAGTGTTATAAACACTTTATACGTATCCCATTTAATCTTCACAACAACGTATGAGGCAAATACAGTTATTAC
TTTTATTTTATAGGTAAGGCAATTGAGGCACAAACGAGGTTAAGTACCTTGTCCCAGAATCACCTAAAACAGGGCCAGGATACTAAACTGAGTAGTCTGG
TGCCAGTGCCTGTGCTCTTGCCACYACCCAGTAGTAATCTGTGAATGTCAGGTTTCACTACTGGCCAAGGTTTTTATATCCTGTTAAGTAAGGATAATAT
ATAAATATTATCCTTATAAATCCTATATGTAATAGGAGATATATATATATTGTAATAGGAGATATATATATATCTCCTATATGTAATAGGAGATATATAT
ATATTGTAATAGGAGATATATATATATCCTATTATGTAATAGATTATATATGTCCTATATGTAATATCCTACATATATGTACATATATACATATATATCC
TATATGTAATATATATATCCTATATGTAATATATATATAGGATATATATATCTTATATATATCCATCCACATACACTTATATTCATTCATTATAAGGTTA
CCATTTTACAAAATTTCTGACCCATGAAAATCCAACAGAGAACATATTAGGTGGTGATCATAGATACATCGTCACAGTTACACATTTAGTAAATGAACGT
GCAACATTTAGTGTTTGATAATCTCTGTAATAAACTTRCAGGGAATTCAGAGTACTGAGAATAGCTTTGTGTTAATGGATTTTAGTAAAGATAACCACAT
TTTGGGGTGTTCTTTTGAGTCTTTGAGTAATACTTTCAAGAAACTGGAAAGAATTAAGGTTGAGCTACCAGTCAACTTCCCTTTCAGTGAGAAGCAAAAG
AGCAATGACAGTGAAATTAAGTGACTTCACCTTTGAGGCATTTCCCTCAGTTCTGCCTTTCACCATGTTTTCATCTCACTTTGAGCATTTCCTTCATTAT
CTCCTTCGTTCCCTGACTTTTCACTTTAGTGTATATGGTTTCCAAATTATTATAGTCTCCTGGGCTATAAACCCACAATCTCAGCTGCCATACAATGTCC
CCCAAGTATACTGATTTCATCATTTCCCCTCCAAAGATGTTTTTCTTCTACCTTTCTAGGGATTATATCATTCCATTGGTCAAATTCTCTCTCTCTTTGT
CCCCACATCCAAACGCTGCCAGATTATATTACTTCTGAGAATGCTTAATTCTCCTTTCCACACCCACTGTACCAGTTTATTTCTCCATTACCTCTCTTCC
AGATTATCATTGTCCCTATTGTAACCTACCTGTCTGCACTTTGGTCCCTTTCCCCTACAGCCTATCCTGCTACTGGACAAATGTATGCTTTAGAAGGTAT
CACTCTACCATATGTATGATAAAATCCAAATTTAAACTGACATTCAGGAGTCTCCCTGATCTGCCCACAGCTTACCTTTCCAGTTTCTTCATTGTGCCTT
ATTCATTCCAGATTACTTGCCATTTCTCAGACACCTTCCCCAGAAAGTGCCTTTCTCATGTCCTTACCTTGGGTCTTGTCTGCTCAACCTAGCATGCCTT
TTCCCTCATTATTGTCAAAATTTTACCCGTCTTTCAAAACCTGCTTAGAACTCATCTTCTGCATAAGCTTCCCCAARTCCCTCTCCCCCATATTCTCTCA
TTGCTCTTTTGTATATTTGTCATAGCTGCCTGACTGGTATGCGTAAGGGAGGATGTGAATGAAACTCCTGATTTTGTCCTTATGCCCTAGAAACCTGACA
GTACTCCTGATATCACCGTGGCCAACTTCCCTACCTGCACAACTGCTCCAGCCCTCTGTCACACTTCAGTGATTATTCCTCTTGACCTGTAATTGTTCAG
TGGGGAGGACTGTCCCATACARATTCACTCCCAGAGCCTTTAAAAAGTGAAGCCTTTGTGAAACAATGCTAGAATAAGAGAGAAAGTAAGGGTGACAGCA
ACCCAGAGGCCACAGCCAGAGTGCTAAGACCATCAAAAGATGGGAAGAGAAAAACATTTTGGCTAATGATAACGGGATATTGGGATACTTTAGTAACAAT
GTGGATGAATCACTTGGGTAACACAAGGATGAGGCTTAGTATGAACAAAGCGCTGTGTATTATGACAGTTTGAAACCTAATAAGGACACAAAATATAAGG
CAAGTTATGATAAATGATACAAGTTCAGACTCTTCTAAGTTCTGGCCAATAACAAGTACAAACAAGGATTGTGCATCCAATGAGGATCAAAGTATCAACT
TGATTGGTGGTGGAATTGATAACCCCCAACATGGCAGGCTCTCTAGTAGAAGCTTGGGGTAACTAAGGTAGATTGCCTTAAAGCAGAAATGCAACCTCTT
CTTTCTCACACTAAGTTTAAATCTTGAATTCTGTGCACTTTACTGAACCTAAAAGCTGGATCTTTTAAATAGACCCCCAAGTCCGTGTGACTGTTAATGC
TGTGAAGACCACAAGCCTGCCTTTTACATGCTTGACTGCAGGTCAGCACAATAGAATGGGTTGGTCTCCCTACTACATGAAATTAGGAAGTATTATAATA
AAAAAGGTCCACTGGGATTGAGAGTAGACAGTGATAGGGAAACTACAAGGAGGGAAGAATTTGTGTAATGTTACTAGTAAAATGTAGACCAATGAATGTT
CTGGACTTTGGCCAATCAAATTTGTCACACTTCCATGGAGTACAGAGGAAGAGTTGACAGAAGTTTCTTCCCCTTCAGACTGAGAAGTATAAACATTATT
CTCTACTGTAAGTACCAAATGAAGAATAAGCAGTGTTATGGGAATTCACAGCAGACAGATCACCTCAGGATGGGATTATCTGTTTGTTTGTTTTTGTTTT
TTAAAGACAGGGTCTCGTTCTGTCGCCCTGGCTGGACTGCAATGGTGCAATCATAGCTCACTGCATCCTTGACCTCCTGGGCTCAAGCAGTCCCTCTGCC
TTGGCCTAGGAGTACAGGCATGAGCCACCACCCCCAGCCTTATTAGGTCATTTTTAAAGAWCTCTTCCCACATGCCCTGTGGTAATGTATGCCATTAGTT
GCCAAAGGCTGCTTCCTTCAAGGGCTTTCTCTCACAGAAGGRTTCTAAGGCTGAAGAGACATGAGCCTCTACCACCACTAGGAGTCCCCAGAGGGACATA
TTCTGAATAGGAATCTGTCATAGTAAATACTGTCTTTTGGGCGGGGGGCAGCTGTTGGAGGAAACACCTGCTGAAAGGCCCCTAAGGCTTATAGACAAAG
GCATGTAAATAAGTTTTCTGTAGGCCCTGTTGGAGTTTTAAAATTCTCTGAGAAGTATCTCATGTAAGTATGGTCACATAAGGTAAAGAATACTGAGTGC
TATGTCAGAGTAGTCATATTGACAGTTACTAGTGAAGATAATCAAAAAGCAAATAAGGCCGGGCACAGTGGCTCATGCCTGTAATCGCAGCACTCTGGGA
GGCCGAGGTGGGCAGATCACGAGGTCAGGAGTTCRAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTG
GTGGCACACACCTGTAGTCCCAGCTACTCAGGAGACTGAGGCAGGAGAATCACTTGAACACGGGAGGCAGAGGTTGCAGTCAGCCGAGACCATGCCACTC
CACTCCAGCCTGGGGGAGAGTGAGACTCCGTCTCAAAAGAAAAAAGCAAATGAGAGGTTGCCAGCAGCATCTAACTAAACTAKGTACCAAACTAGATTGT
TATTAGGTGTTAAAATCACTTCTTAAGTCATGTATGACGTGCATGTTAACTAATTCTTGATAATATAATTATCTTTTATATCTCACAGGCATTAAGAAGA
AATGCACTCACCATGAGCACCAACTTCTGCATCTGCCTGATCATATTTAAAGGAACAGAGAAATATTTGTAATTAATCTGCCCAGTAAATACCAGCTCGT
AGCAGTTGGCAGGTGCATGTCTAGATAAAATTTCTTGCAGCTAATTTAAACTTTCTACACGCACCAGTAGATAATCTCAATGTAAATAATACATTTCTTC
TTGGCTCTTTAATGTAAGCCAACATGGAGAGGAAGATCTTGACTTATATTCTGTACCACATACACTTCTGTGGACTTTTAGCATTTGTGGGTAGACTTAA
TAAAGCATGTATAAAAGTGGCACCTTTGGTAGAACTCTGTGTTTTTCTGAAATTCAGATTAAATGTAATGATGAGTGGAATTAAGTACCAGTTTTCCCAT
TTAAAGCCCCAGCTGCTTATTAATTTATAGATTCTGTAGAAATTTTTTTAAAGATTTATCTAGTCTATTGTGTAGCCTCTATCTCAGGAGTGAGTTTTTA
TTTTCCTATGCTTATAGAGAAAAAAACATTTTCAAGGTTTTAAAATTTTACACCATTTATAAAATATTAGAGTGTATTTTTTCAGTACAAATGTTTAAAA
TATGAAGTTTTTTTTGAACTAAACTACAAAGAGTACTGAATTTAAAGAAAAGACCTTTATTAAGGGGCAATATGTGATCCATTCCAAATTATTTTGAAAT
ATTAAATTTCAGTTATTCTGTGGTGTTTTCTGTCATCATCATGTTTTTGTTGTCACTCCCAAAATAAAGGGGAGGAGGGAATCACAGAGTATGTTATCTT
GATAGTGAAACCTCTGCTTTTCTTGACCATTTCTGTAAGGAAAACTGCTACTCCTTTGGTACTTGCCCTAAGTTTTAACAAAATTAGTAGAAAATATTAC
CATGTCATTTGAATATATCATGAAAAATGAAAACTACATGAAAATCTGAAACAAAATATAACAAGTTAAGGTTGAAAATTTTCCACTGCGTGCAATGGCA
CAAGCCTTTAATCCCAGCTACTACTCTGGAGGCTGAAACAGGAGGATTGCTTGAGCCCAGGAGTTTAAGACCAGACTGGGCAACACAGCAAGACACCTAT
CTCAGAAAAAAAGAAAATAATTCACTTTCCACTTAGAGAAATTTTAGATTCACCTTTTTAAAATGAAAGGTTTTTAAAAACTGTTACTATAAATTATATA
AATTACCTTCATTAATTATGTTCTTCATACTGTTTAAGAAATTTATTCTGATACAGTGCTTATAATAGGATGTTACCAAAAATATACTAAAAAAGGATTA
TTATAGCATTGAAAACTAACCTTAGGTTATAAGCCAAAACATTTTATAAAGTAATCTATGTTAGTCAGGTAATACAGAGTTAAGAAGTAGATTGGTTTCA
TATATAATTCAAGTTATATAGGTATGTGCTTAATGCTATTAAACCAGTTACTGTATGTTTGACCTCTTGATATACTAAGCTTTTGCCTTTTAGAACAGCT
GGGTCTGCTGAGAATCATTTCCCAGTTCTTTTCATTGTAGATCAGATGACTCTCACTTTATCACCCTTGGAGGCCACATGAAGGACAAAGCAGAAAGATC
CACACACACAACTAATGTTTATATGAGGGGAGGGGGAGTTGCAGGGGATATACTTGCCCTGATCTTCCAATGAACATAACAGAAGAGAGACCAATTGAGA
CTTGAAACCATTGCGTTACTTTAACCATTATTTAGTTATATCCTATCCATCTCTTTCTCTCTGTTGAACAGAGAGGTTCCTTTGGCTGCCCTGACTTTTG
TAAATGTTTCACTCAATTTGTTGTGGTTTATCATTTGGACAGAATGCTACATTGGGGATTTTTCGCCCCCACTAAGTCCTCAAGGGAAAATGACTTCTGT
ATGCCTCATATATGATACATGAACATACACCCTATTCTCTTCATTTTAAGAAGCAAACCTAAGTTTTTTGGCAGCTGAGAAAACTGCATTTCTCAGAAAT
ACCTCCTCCATCTAAAACGTACTTGAACATAACTTTGAAGGGCTTATTTTTTGACAGGTATATTAATGAAGAAAGTGAGGAATCTATCTTTAATATTTTT
GCATAACCTATATGTATTTATATGAAAACATCCCTATAGCCCTGAGTTTAGCTAAGAGAAATGCTTTGGACCTTGCCTACTTCTGTGATAATTCATCACT
GGATATTTTTGATATTTTGCTTTTTTTTGAGATGGTGTCTCACTGGTCTCAAGCGATCATCCTGTGTCAGCCTCTCAAATACAGACCGCTGTGCCTGGCC
TCTGTTTCTGGTATTTTGTTTTGGTATTTTGGAACCTAATCCCTCTAAGTTCAATATAAACTCTTAAACCGGTTTTTAATAGATACGAGGGATACTTATA
AGATAACTGCTACAAGTCTCTATAAAAACTATAGTGCAACTCAGTATGATTAGATTAAATCATCTGAAGAATGATTTAAGAATTTACCTATATGGTACCT
TACAGAATTTACCTAGATGATACCTTGAATCAGGTGCATTTCATTTTACTAATATATGTACATAATACTTTTATTTCCAAATAATAAAGTTATGCTACTC
CAATTATTTATAACTTCCTCATCATTTATCTAAGTCAACATTCTATGTTAAACACAAGTGTACTATTACAAAAAATATTTTTAAAAATAAAGCTACACCA
GCCAGCCAAGATGCTGACATTTGGGCACAGTGATTACAGATGGTGACCATGGACAGCAATGTTCTTGCTGATTCGGCAGTGATTCAAGGCTGCTATTCTG
CGTTGACCTGCCCTTTGAGTCTTTATGCACATTTGCTTTGAGAAAGAAACCTTTCTAGATTTTTGCTTTGTCTAAACCCACTTCCTTTACCAGACTTAGA
AACACATACCTTCTTATATCAGCCTGTGACTGTCCGTGTCTAGAACCAGTTTTTTTTTGTATGTGGTTTGATTTGCACTATATTAAAATATACCACCACT
TAATATAGTTTAATGGCTATCTTATGAAAGAAGAAATATATTCCTTAAAAAATGTTGATGGGAAAATGATTATCTTTATTACAGAGGCTAAAGAAAACAT
ATCTTTATATGAGAAACTGCAACATGGATATCATGTATTATTTTTACCAGTTGAATACTATAATAAATATTGGCTTCTGCTAATACAGGGTGATACAGTA
TTAATAGGATGAAGTTAACATGAATCAATGCTCTGGCAGTGGTAACCCTGAACCATGTCAATAATAATAATATATATATAATGTTTAATTAAACAGAATG
GTTCTGGAGGTTTAGAACCAGTGATTATGTGTAATTTAGAAGACTTCACTCAAACCACTTAAAGTTAAGTTAAAGCTTACATTTAAATTCAGGAAAATTC
ATTTTTAATTGTATTAAAATATGCATTCTTGGAAATAAATAAGATTATGGTTTATTTGCCTTGTTAAAACAATCAAATTTGCATGTGTAATAAGGCATAT
TCAAACTTCAAGCAGTTTAAATTGCCTTCTCAGTAATTAAAAAGATTATCACAAATTTAATTCCCTAAGATATGACTTCTAAACAGTGAAATACACACTA
CTTGCATTCTAAAATGTAAGTTTGAATACCAAAATTAGTGATTTCCATTAAAAAGAAGGGGCTCAATTCTCCCATGAAGCTCACTATATGGTCTGATGAA
GGAAGTAGGTTTAGACAAAGCAAATATCAAGAAATATTTCTCAGTTTTTTAAAGACATTTAAAAAGTGCATTTCCTGAGTAAACAATGGGATTAAGGACA
TGTTTCTCTTTTTTCCCCACTTGAATAGCTGTGAATAATAAAACCACATGTTTTGGCCAAGCAGTACTTAGACAAGCCTCCATTGGTCTTTGGTCTCCAT
ATACATTTATTTTGTGTAGACAACAATGACTTTTCACCATTTCCTTTCCTGTGGTTCCATGGTTCTCAAAATGGTAATTTCATTTATACATAGCAAAAAG
TTCACAAAACCTTTCAGCACTGTTCACATTTTCACATTTGTTTAGGAAACAATTTGTTTAGGAATACAGCTAGCTGATTTTCTTCTGATTTCTTCCACTT
TTGGAATCCCACATAATAATAATGTTAAAGTATACCAAGAAGAACAGGAAGTTCAAGCAAGATACAAAACACACCAATACAGAAAACAAGTCCGGTAGTT
TCTGAGGAGGATCCAGTGTGACAGTCATCAACGTCAGAAGCACCATAGTGATGACTGAGATAAGAAACTGCAAGGAAAAAAAGGATTACTGAGTAGTATA
AAAGGTGAAATTTAAATGTGCTGGAAACATTGACTTGTAGCTATTAAATGAGCAGAATTAAAGGTGAGGGTTGAGGGTCTAATTTATTCTGGTGTATCTC
AACTTTGACTTCCTATTAGAATCATATGAGGAGTTTTTAAAATCTCAATGCCCACATCACACCCCAGACCAATTAAATCAGGCCTCAGTACTTTTTAAAG
CTCTCCAAGTGATTCCCATGTGTAGCCAAAACCTGAGGACCCCTGTCTTCTTATACTTCCTACCACCAAGGCACTGAACAAAGGTATCTGGGACAAATAT
TAATGCTAGTCAGGGTTAAATTTATAACATCCCCTGGGGTCCAACAGGATATAAAATTCTAAGCTAATGGGTACAAATGTATAGGTAGCTAGAAGAAATA
AAACCTAGTGTTTGGCAGGTCAGTAGGCTGAATATAGTTAACATTAATGTACATTTTAAAATAGCTAGAAAATAATAAGTTGAATGTTCCTAGCATAAAG
ACATATTTTTAAGGTAATAAATAGCCCAGTTACCCCGATTTGATCTTCATGCATTACATGAATGAATAAATGAATCAAATTATCACATATACCCCCAAAA
TATATACATCTATTCTGTATCAATTTTTAAAATTCTAAGCTAACCTTGAGAACCCATCTGTGAAAAAGTTTTCCATGGCAAATGGAAAATTACATTTCAT
ATTCGCTAAATGCTTTCAATGAGTAAAGCACACGAAGGCACATGAAAGAAAATGAGGTCCTCTGGCCTCAAAGAGTTTTCCATCTACTGAGGGGAATGTT
AAATAAAATCACAAAGTCACACTGGCTTAAATACCAAGCTGAGTAGTAAAAATAATTAGCACATTTATTGTAGTTGTGTGGTCATCAGTTAGTGTGGTCT
TCTCTAGGCCAATGTGCTATACAATAGAACTTCCTGCAGTAATGAAAATGTTTTGTCTGCACTCCAGTATAGTAGCTGCTAACCACATGTGGCTATTGGG
CATTTGAAATGTACTTACTGTGACTGAGGAACTGAATTTTTATTTAAATTTAATAAGTTTAAATTTATATATATGTCTAGTGGCTACCGTACTGGACAGA
CTGTGACTCTAGACTGTGAGCTCCTTTAAGACAAAGACCAGCAAGATCTTACTCATTTTATCCCTAGCACAGTACACAGGTATACAAAAGCAGTATAAAT
AAATGTAGAAAGCAGTGAGAAACAGTAGTGACTTCCATGAAGTGGGTGGGACACAGAACCCTAAAGGATGCCTTAACTGCTGGCTACATTATGACAGTAT
TGGTAAGATCTAAATAGAGAGTAATGCAGTGATCATTCCAAATGGAAAAGCGAGGATAGGCGCCAAGAAAGCTTACAAGCAGATACAAACAAAGGCTGCC
AGTGTCGTTAAAGGAAAAATTCCTGAGGCAACCTTAGTGGGAAGTGCAAACATCTGGAATGAAATCTTTAAAATAAAAGTTTCAAACTTAAGAAATATGG
GACTGGTTGAAATGTCATAATACCACGATCTTGAGTCAGTGTTAAACAGAACAAAAACCCTCTCTTGCTCCAACTATTACCCCATTTGTCTGCTCCTATT
TACACTTGTTTCCCAAAACAGTTGCCTATAAACATGCTGTGTCCAGTCTTCATCCCATTCACTAGTGAACCCATACCAATTGGGCTTTCACCCTAATCAC
GATGAAACTGCTATAGTCAAATATCCATAATGACCTCCAGTGTAGTAAATCCCATGGTCAGTTCTTACTGCCTTACTTGATTCTCTCATTAGCATTTGAA
ATCACTCTCCTCTCACTGAAACACTTCGTTCACTTGGCTTCCATGACATCATACTCTTCTGGTTCTCCTATCTCACCCAGTTAATTCTTAGACATCTTTG
CTGGTTCCTCATGTCCCCTACGTCTGCATTCTGGGGCTTCGTACCTATTCCTCTTATTAATCTATACTCATACCCTTAGTGAGTCATCCAGTAATATGAC
TTTAATTACCAACTATATGTAAA


SNP Information

Context             (SEQ ID NO:63043):
TTCTTATTTCAATATGTCACCTTTCAGTCTGAAATTTTAGTTTTAATAAAATATAATGAGCATAGCTAAGTCAAGTTCCATAATAAAATTTTACTTCAAT
M
GATTTTTACAGCTGAAAGAGTCTAGAAATAGTAGCTAACAAAAGTTAGATTCTCATTTGTTTTATCACTGATAAGCTGAAATGGAAGGAAAAATTTATCT
Celera SNP ID:            hCV11281678
SNP Position Genomic:     65918
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,4)      total(A,4|C,1) ;no_pop(A,-|C,-)   JBIC-allele(C,585|A,878)   total(C,585|A,878)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63044):
ACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTGCCAGCAGTTGTAAATTATTATAGAAGTGGTTGTGACATCTATTTTCTTGCGCGCGCGCG
S
GTGTGTGTGTGTGTGTGTGTGTGGTGTGATCCACAGCTCACTACAGCCTCAACTTCCTGGGTTTAAGTGATCTTCCCACCTCAGCCTCCAGAGTAGCTGG
Celera SNP ID:            hCV27033610
SNP Position Genomic:     106632
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,1|-,3)   total(G,1|C,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63045):
CTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTGCCAGCAGTTGTAAATTATTATAGAAGTGGTTGTGACATCTATTTTCTTGCGCGCGCGCGGG
Y
GTGTGTGTGTGTGTGTGTGTGGTGTGATCCACAGCTCACTACAGCCTCAACTTCCTGGGTTTAAGTGATCTTCCCACCTCAGCCTCCAGAGTAGCTGGGA
Celera SNP ID:            hCV27033611
SNP Position Genomic:     106634
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63046):
TGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTGCCAGCAGTTGTAAATTATTATAGAAGTGGTTGTGACATCTATTTTCTTGCGCGCGCGCGGGTG
Y
GTGTGTGTGTGTGTGTGTGGTGTGATCCACAGCTCACTACAGCCTCAACTTCCTGGGTTTAAGTGATCTTCCCACCTCAGCCTCCAGAGTAGCTGGGACC
Celera SNP ID:            hCV27033612
SNP Position Genomic:     106636
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63047):
TGGCTTCCCAAAGTGCTGGGATAACAGGCATGAAATGCCCTGCCCAGCTGACATCGCTCTCTTTCTTTCTTTCTTTTTGTTTTTTGTTTTGTTTTGTTTT
K
TTTTATTTTGTTACATCCTGAGTCCTTGCTTTTTTCTAGCCAAATCTAGCCCTCTTACTCTTTCTTCCTGTTTTTCTAAAGGGCTCATAGGTAGCACTCA
Celera SNP ID:            hCV27033613
SNP Position Genomic:     106951
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63048):
TGAAATGCCCTGCCCAGCTGACATCGCTCTCTTTCTTTCTTTCTTTTTGTTTTTTGTTTTGTTTTGTTTTTTTTTATTTTGTTACATCCTGAGTCCTTGC
T
TTTTTCTAGCCAAATCTAGCCCTCTTACTCTTTCTTCCTGTTTTTCTAAAGGGCTCATAGGTAGCACTCATCCTTGCTGAATGGAAGGATTGCTGACTTC
Celera SNP ID:            hCV27033614
SNP Position Genomic:     106981
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63049):
AAATCTAGCCCTCTTACTCTTTCTTCCTGTTTTTCTAAAGGGCTCATAGGTAGCACTCATCCTTGCTGAATGGAAGGATTGCTGACTTCTCAGTTAGTAG
Y
TCAGTCTTCTCTCAAATCCCAGTATTCTTAATTCTTCCTTTTGTGGGAGACTAATGAGTAGGCCAAGATCTTCAAAGTTTGGGAGTTGGCAGAATGGAAA
Celera SNP ID:            hCV27033615
SNP Position Genomic:     107093
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63050):
TAGTGACTTTCATTCCTTGTACATACACAGTGAAGTAGTTCTGGGCAATAAATTCTTGGAAAAGTAGAGTAGGGATTGGATAAATGTCATAGTTTATGAC
T
GTGAATACATACAAACAGGTAAAAACTCAAGATGGAGAGGTAATAATAACCACCCGATAAAGAGACTTAAAACCCTTTCACTGTACAAAAAAAAAGATTG
Celera SNP ID:            hCV27033616
SNP Position Genomic:     107795
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63051):
AGTGACTTTCATTCCTTGTACATACACAGTGAAGTAGTTCTGGGCAATAAATTCTTGGAAAAGTAGAGTAGGGATTGGATAAATGTCATAGTTTATGACT
G
TGAATACATACAAACAGGTAAAAACTCAAGATGGAGAGGTAATAATAACCACCCGATAAAGAGACTTAAAACCCTTTCACTGTACAAAAAAAAAGATTGC
Celera SNP ID:            hCV27033617
SNP Position Genomic:     107796
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,6)   total(G,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63052):
CTAAAAATACAAAAAATTAGCCAGGTGTCGTGGCAGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGGATGGCGTGAACCCGGGAGGCGGA
K
CTTGCAGTGAGCCAGGATCGCACCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAGCAAAATAGTCTCTGGTCTCA
Celera SNP ID:            hCV27033545
SNP Position Genomic:     10650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63053):
ATGGATGTTTGAAGGAAGGGGATCATGAATGAGGACCTAAACTAAGGAAAGTCTAGGTCTTGGGGAAGATAAAAAAGAGGATGTTCCAAGCTGAGATCAC
R
AAATGATCTGAGGCCCAAATGCACATAGCCTAGTGACTGAAGCTGTAGGTAACAGTGAATAATTGGATGTATGAACCAGTGAACAAATTAGTATATTCTG
Celera SNP ID:            hCV27033618
SNP Position Genomic:     108651
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63054):
CTTTATTTATTATATTTCATTCCCTTCTTTTTCTTGACTATTTCAAATGTATTTACAAAAGGTTTGTAGAATTTTTCCATAGAGAAAAATCTAATTTTAA
K
ATGAAATTCTTTATTTTAAAATATTATTAGTTTAATTTTAATTTTGACCATACATATTTGTTGTCCTCTGGTAGTTCATTGCTAAAATATTGATTTAAAA
Celera SNP ID:            hCV27033619
SNP Position Genomic:     110179
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63055):
TAAAAGGCATATGGATAGGAAAGAAAGAAATGAAACTGTCCCCATTTGCAGATTACATGCTTTTCTAAGTAGAAAATCCCAAGGGATATATAAAACACAA
T
AAAAAAAAACCTTCCTAGGACAAATAAATGAGTTTAACAAGGGTCTCAGGATATAAAGCCAACATATAAAAATCAATCATATTGTTACATATTAGCAATG
Celera SNP ID:            hCV27033547
SNP Position Genomic:     18779
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,13)   total(-,13|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63056):
GAGCCACTGCACCTGGACAAGAGTACTTATTATTAAAGTACTTTGTTATTTTTTGTTTTTTTGTTGTTGTTGTTTTTGAGACAGTCTCACTCATGTCGCC
Y
GGGCTGGAATGCAATGATGCGATCTCAGCTCACTGAAACCTCTGCCTCCAGGGTTCAAGCGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAG
Celera SNP ID:            hCV27033548
SNP Position Genomic:     23283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63057):
CTGTATGGATGCTCCTTTTTAGTAGGCCTCAGTCTCATTCCAGACACCAGACCAACTTGGACTGTGCCCCAAAAAACTTGTCATCCCTACTGTCTTCTGT
Y
TAGTCATACTCCTATTCACCGTTCTCTACTCATAAATGCCCTACTCTTGTTTACACTGCCGGTTTACACAGTTTCTCCAAGCCATCACAGCTGATGTCTC
Celera SNP ID:            hCV27033549
SNP Position Genomic:     26087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63058):
ACAATGGAGGTTTGTATAAGCACACCTACGATGTTTGCACAACAATGAGATCACCTCATGATGCATTTCTCAGAATGTATGTCCATAGTTAAGTGACACA
W
AACTCTATATGTATGTGTGTATGTTATGTATCATTTATGTATTTTTTAATTTGTATGTACATTATTTTGCTGCCCTCCTCCAACCCATAGCAAGTTTCTC
Celera SNP ID:            hCV1582890
SNP Position Genomic:     112285
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63059):
TGCCACTCACAGATTCTCTTAAAATAACTACAAAATAAGTTACTTCTCTAAGAGGTAAAGTGAACCTCAGATAAAGGAGTGGAATTGCAAAAAGCAATGA
Y
GAAAAAGTGAATTAGCAAACATGTTAATCTAATTACAAGTTTTGCTGACTATAAAGCAAAAGTCAAACAATTGGAGGGCGGGTGAAAAAAAAATTGGAGG
Celera SNP ID:            hCV1582891
SNP Position Genomic:     114151
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63060):
TCTAAGTATTACTCTTAGAAATATTAAAACTCTTCATATTTAACAGCTGAAAATTATTTAAAATCATAAGTCCTTCCATGAGAAGACTGAGGTTAATACT
R
TTGATCCACATTTTTACAGGGTGAGATATTTGACTAGTTCTCTTATAATAAAAATATTTAGAAAGGCATTGAATACCTAGTGAAAATTCAAATAACATTC
Celera SNP ID:            hCV1582894
SNP Position Genomic:     118472
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63061):
TAGAGACTATTTTGGGGTAACAATTTAATTGTGATAGGGTTTTTTTTGTTTTGTTTTTTTTGAGGAAGACATAGGTCCAAAGTAACAATGAGAGGAATTA
Y
TATTAATCAGTTTCTGAACCAGTGGACTCAATGAAATTGAGTTTCGTTTGACTGTTTTTCATTAGTGGTGAACAGTTTGGGTTATTCATTCATTTGCTTG
Celera SNP ID:            hCV1582895
SNP Position Genomic:     119132
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63062):
GGACTCAATGAAATTGAGTTTCGTTTGACTGTTTTTCATTAGTGGTGAACAGTTTGGGTTATTCATTCATTTGCTTGTTCATTCATAAACATCAAAAGCC
R
GTATATTTAAGACACTGAAAATCTTAACTCTACTAATATGTGTCCTCAAATACTTGCTAATTATATATCAAATGTGTTTAAAGTACATAGTGTATATGGT
Celera SNP ID:            hCV1582896
SNP Position Genomic:     119256
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63063):
GTACTCTAGAACAAACAACTAAATAGCTCATAAAACAGTTATCTACTTGACCATTGATAAGTACAAACATTATGTTCTACTAGAGCTATAAAATCAAACA
M
ACTTACATTTCAACCCAGTGGGCATATGAAGGATTATGACTTAGTTACATCCTATGTCTTCACGTGTGCATCTGTCAATTTGTGAAACTTGTAAAAGTTT
Celera SNP ID:            hCV1582897
SNP Position Genomic:     119465
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,2)      total(A,2|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63064):
TCCTATGTCTTCACGTGTGCATCTGTCAATTTGTGAAACTTGTAAAAGTTTAGATAAGCCATGACCTTGGATAACTACATGGCATTTTAAATGGAAGGTA
R
CCATTTATTTATTTTATTGTTATCTTAAATAAATAATGAGTGATATACTTAGATCTTTCCAAGGATTTACTAAATAAATATGCATTTAAAGATTCAGGTC
Celera SNP ID:            hCV1582898
SNP Position Genomic:     119615
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63065):
GGCAGATCATGAGGTCAGGAGATAGAGACCATCCTGGCTAACACAATGAAACTCTGTATCTATTAAAAATATAAAAAAATAGCCAGGCATGGTGGCGGGC
R
CCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGAAGAATGGCGTGAACTTGCAGTGAGCCGAGATCGCGCCACCACTGCACTCCAGCCTGGGTGACAGA
Celera SNP ID:            hCV1582899
SNP Position Genomic:     128565
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63066):
TCTAAATCCTAGTCATCCTTCAGTGCTCAAATCCCATATCACAGTTCCCTTGCCCCTCGTAACAAATCCTTCCCCAACTTCTATGGTCCAAATTAACAAC
W
ACTACAAGAGAAACAGAATAAAACCCCTATTGCACACACAAACAGTACTACATTATGTAACGTTTAATTATTCTCTGATGTCTTTCAAGAGTATTAATTT
Celera SNP ID:            hCV29321532
SNP Position Genomic:     30282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63067):
TTAAAAATATACAAAAAACTTAAACTTGCCTTCAACTTGACTCAGGTTTAATGGCTTAATTGTTAGATAAACCATGGACCTCTGAGCTATTTGCATCCTG
Y
ACTGATGACTAATGATTTCACCATCTTCTTCTAAGAAGAAGCAACCTTTTGATTGCATGTGTTGCCAGTCCTGAAATGAAGGAAAAAATTATTTCAAACA
Celera SNP ID:            hCV25962273
SNP Position Genomic:     53735
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:63068):
TGCCAATATATTTTTCATTGCATATAGGCTTAAAAAAAAGACAATGGAAGTTATAAGTAATCCCTTGACATGTGTAAAATAAAATTTTTTAGTAGATGGG
R
ATGTATTGATGATAGTCTCTTATTTCTTCTCCCAGATATGCAAGCGATATATCTAAATACTTACTAGAGCCAAATCTGTCTCAAAAGTTTAGGTCATTTT
Celera SNP ID:            hCV29321533
SNP Position Genomic:     50050
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63069):
GTTCAGTGACAATAGAGCGGATGGATGAATCTTAACATAATGAGTGAAATAACCAATTTGTATGAGACTACATTTGTTATCCTTATAAAACTTAAGAACA
Y
GCAAAAATAAGCTACTTATGGTTATATATGTATATGATAAGATTATTGTTAAAAGGCAGAGAAATGATAAATACAGAGAAATGATAAATACAGTTTAATA
Celera SNP ID:            hCV29321534
SNP Position Genomic:     78839
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63070):
TCAAGAATCAGGAAGATACTTTTAACACTGCATTTGTCACTGAAAAAACTAGTTTTAATTTATATTGACCTTTTTCTCCTTTGAACATTTAGTCTGCATT
S
AATAAAATGTTGATGACTGCTCTTTAGAAGACAGCTGTATGAAATAAAGTATTATAAATATTCAGCTTCCCTTTCTAAGCATTGTCACCAACAGCTGGGC
Celera SNP ID:            hCV29321535
SNP Position Genomic:     90403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63071):
AAGGTTTCTGTGTGAGGCTTAGTAATAGGCACCTCTGAGAGTTTTCCTGCCCTGGCCCCATAATTATACTTCAAGTTCAGCTGAAAGCAAAAGTCAGGGT
R
TGGTTGGGAGAGTTGGCCATCTCTAACCTGTTTGGAAATACCATCTCAGAAGGTAGTAACCCTTTAATGCTAAAATTTAGTAAATATCAAATTGAGATGT
Celera SNP ID:            hCV29321536
SNP Position Genomic:     109204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63072):
ATGACAGGATAACAAGGGAGAAACTGATAAATCCACAATCATTGTAGGAGATTTTAAACTACCTCTTTCAGAAACTGATGAAGCGGTTAAAAAGGAAGGA
Y
ATAGACAAGTTGTACACAATTAGCAAGTTTATCTAATGAGCTGTGGTCAAAAAGATATAATACCCATATAATAAAGCACATGTAGAATGTTCACAAAAAT
Celera SNP ID:            hCV29321537
SNP Position Genomic:     114956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63073):
CTAAACAGGAGGAACAAGTTCAATTATTGTATAATTGACTGTAATTAATAACAACATATTATATACTTGAAAATTGCTGAGAGAGTAGACTTTCAGTGTT
Y
ATACCATAAAAAATGATAAGCATGTAAGGTAATAGATATGTTAACTAGTTTGATTTAGCCATTTCACAATATATACATATTTCAGAACATGTTATACACT
Celera SNP ID:            hCV29321538
SNP Position Genomic:     120269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63074):
CATGCATCTATAATGCCTGTATTATTTATAAATTGACAAAAAAGGAACTTAAAGCTATAGTAATGCTACCGCTGTCTCTGACCTTAAAATGGAAATGCAC
D
TAAGTGGCAGAAGGATATAGATGAAAGGTGTAGCAAGAAGCAGCAGCTCTAGTTCATGTTACTCCTTTTTAAAAAATAGTTTATCTAAAATCAATTATTA
Celera SNP ID:            hCV11281684
SNP Position Genomic:     72280
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2|A,2|-,5)   total(G,2|A,2|-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63075):
AAAATAAAGGTGGAATAATGCAAACTGGAAGCCTTTATATGATATCATTGATTAAAATATTTGATGAAAGTATCCTTTATCTAATAAAGTTTACTAATGC
R
TTTTAACCTAATTATAGAATCATATTTGATTTCTCTTTAATATACCAACCTTCAGTGGAAATTTTATTCAAAAGATTATTTTTTCTTATATGGTATTGTG
Celera SNP ID:            hCV29321539
SNP Position Genomic:     120612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63076):
TACAAGTTTTGCTGACTATAAAGCAAAAGTCAAACAATTGGAGGGCGGGTGAAAAAAAAATTGGAGGGCAGGTTAAAAACAAACAATTGGAGGGCGGGTG
A
AAAAAAAAAGTCAAACAATTGGAGGGCGGGTGAAAAACTATCATGGAAGGTGAGGAGGCAACAGATAAGAGTTACGATGTTTTAGACAATATTTTAAGGT
Celera SNP ID:            hCV27033620
SNP Position Genomic:     114285
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63077):
TTTATATTTTAATAATAAAGTACATACCATGGACATAAAATGAAAATGCATATAAATTGAATAGATTATTATTTAGGTACATCAGTTAAGTAGCATTTAG
Y
TGTTTAATAAATAACAGACTAAATCTGAAATAATTCTTAGTTTGGTAAGTTCTAAGTATAATTATTTAAGAAATAAGAGAATATATACAATAATATATCC
Celera SNP ID:            hCV25960312
SNP Position Genomic:     27156
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,19)   caucasian(T,38)   total(C,1|T,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:63078):
ACACCAGACCAACTTGGACTGTGCCCCAAAAAACTTGTCATCCCTACTGTCTTCTGTCTAGTCATACTCCTATTCACCGTTCTCTACTCATAAATGCCCT
M
CTCTTGTTTACACTGCCGGTTTACACAGTTTCTCCAAGCCATCACAGCTGATGTCTCCTGGTGCTATCCCCAAACGGCCACTCTTAACTCCCTCTTAAAG
Celera SNP ID:            hCV27033550
SNP Position Genomic:     26130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63079):
GAGCCACCGCACCTGGCCAGGATGCATTTCTGATTGTTTTTTTCATTCATTAAAATAACTCAGTTCTAGCTAATAAAGCCATTTTTATCTTTAGTAATAG
S
TTCTTTATTCCATTTGTTTAGATTTCTTTTATTTTTTAAAACCACTGCATAAAGACTTGGATTTTTTGTTTTTCTTAAGAAACAGAGTCATGCTCTGTCA
Celera SNP ID:            hCV27033623
SNP Position Genomic:     124091
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63080):
TCTTGTCGCTCAGGCTGGAGTGCAATGGCGTGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGG
R
ATTACAGGCGTCTGCCACCATGTCCGGCTAATTTTTGTATTTTTGTAGAGATGGGGTTTCACCATGTTGGCTAGGCTGGTCTTGAACTCCTGACCTCAGG
Celera SNP ID:            hCV27033551
SNP Position Genomic:     28181
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63081):
TTTCCCCATGCCTATATCTTGAATGGTATTGCCTAGGTTGTCTCTCAGAGTTTTTACACTTTTGGGTTTTACATTTCAGTCTTTATCTTAAAATTTTTTT
K
TTGTTGTTGTTTTTTTTTTTGAGACGGAGTCTCGCACTCTCGCCCAGGCTGGAGTGCAGTGATGCCATCTTGGCTCACTGCAAGCTCTGTCTCCCGGGTT
Celera SNP ID:            hCV27033552
SNP Position Genomic:     34358
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,7)      total(G,4|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63082):
GCTGGAGTGCAGTGATGCCATCTTGGCTCACTGCAAGCTCTGTCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGC
R
CCTGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAAAGACGGGGTTTCACCAGGATGAAGCCAGGATGTTAGCCAGGATGTCTTGATCTCCTGACC
Celera SNP ID:            hCV27033553
SNP Position Genomic:     34506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63083):
TGTCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTA
M
AGACGGGGTTTCACCAGGATGAAGCCAGGATGTTAGCCAGGATGTCTTGATCTCCTGACCTTGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATT
Celera SNP ID:            hCV27033554
SNP Position Genomic:     34546
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63084):
TGAGCCCAGGAGGTTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAA
G
TTTTATATATATATATATATATATATATATATATATATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTC
Celera SNP ID:            hCV27033555
SNP Position Genomic:     37237
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63085):
GAGCCCAGGAGGTTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAG
T
TTTATATATATATATATATATATATATATATATATATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCA
Celera SNP ID:            hCV27033556
SNP Position Genomic:     37238
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63086):
AGCCCAGGAGGTTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGT
T
TTATATATATATATATATATATATATATATATATATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAA
Celera SNP ID:            hCV27033557
SNP Position Genomic:     37239
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63087):
GCCCAGGAGGTTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGTT
T
TATATATATATATATATATATATATATATATATATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAAC
Celera SNP ID:            hCV27033558
SNP Position Genomic:     37240
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63088):
ACTCAGCATAGATATATCGTAGTACACAATTTCATTTTTCAAAAAATCCTAAAGTTATAAATAGTGCAAATATATTCTAAAATTAGAGGAAACTGTAATA
W
TTCTGGGTAAATTCCAATCTGCCTGGTTATTTAGAGCATACGTTGTTATATATTTCAAAGAATTAAAATGCTTCATATGTATTTGCCACTTAAAGCCAGC
Celera SNP ID:            hCV25959273
SNP Position Genomic:     38300
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,29)   caucasian(T,28)   total(A,3|T,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:63089):
CCCAGGAGGTTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGTTT
T
ATATATATATATATATATATATATATATATATATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAACT
Celera SNP ID:            hCV27033559
SNP Position Genomic:     37241
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63090):
TTTTAGGTACATACATGGACCAAATGTTTATGACAGAGAAGTAGACAAAGCAGAGGAAGGAGAAGCAGCTGCACAGAGAGGGACAGAGGGAGCGAAGAGA
Y
AGAGACAGCGAGCTGTTTGCTACCTAATTCTAGCTCACAAACAAGGAAGCGCAGCCAATTCTCTTCGGCGATTCAGCGTTCCTCTCACCGCAGCTGGACA
Celera SNP ID:            hCV27846868
SNP Position Genomic:     76064
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,36)   total(C,72|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:63091):
GGATTGTACCCTGTCACCCAGACTGAAGTGATGATTAGTGAAGTGGGATTACAGGCATAAGCCAACACGCCTGGCCTCTTGTCTGTTACTTTAGTTGTGT
M
ATTTGATTAGAATGTGTAACTGGGTTTCAGTGGTTTCAATCTCTCCTAAGTTGACAAGTTTTAGAGGATCACAATAGGAAAGCAAAATGTTTATTATTTC
Celera SNP ID:            hCV27517051
SNP Position Genomic:     147505
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,439|A,658)   total(A,658|C,439) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63092):
AGGATTTGAATCTTGAGTCTGTTAACCAGCTGTGTGCTCCTTAGATTGTTACTCAGTGTCCTCATTGATAAAATAGTTGCTCAATAAGTATTTATTAATT
D
GATAAAGTTGCTACTTTGGAAAGATTTCATTCTATGTAGACAGATACATGTCTTTTTAGTAGCTCTTGCTGTAAGTAATCAAATCCCATTCTAGACCTTT
Celera SNP ID:            hCV11281696
SNP Position Genomic:     79504
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2|A,2|-,4)   total(G,2|A,2|-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63093):
CAGGAGGTTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGTTTTA
K
ATATATATATATATATATATATATATATATATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAACTTC
Celera SNP ID:            hCV27033560
SNP Position Genomic:     37243
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63094):
TGCATAGTTTGCAACAATTTTCTCCCATTCTGTAGGTTGTCTGTTTACTTTGTTGATAGTTTCTTTTGCTGCACAGAAGCTCTTTAATTAGATCCCATTT
R
TCAATTTTTGCTTTTGTTGCAATTGCTTGTGGCATCTTCACCATGAAATCTTTCCCCATGCCTATATCTTGAATGGTATTGCCTAGGTTGTCTCTCAGAG
Celera SNP ID:            hCV9753980
SNP Position Genomic:     34207
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63095):
AGGAGGTTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGTTTTAT
A
TATATATATATATATATATATATATATATATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAACTTCT
Celera SNP ID:            hCV27033561
SNP Position Genomic:     37244
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63096):
GAGGTTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGTTTTATAT
A
TATATATATATATATATATATATATATATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAACTTCTAT
Celera SNP ID:            hCV27033562
SNP Position Genomic:     37246
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63097):
GGTTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGTTTTATATAT
A
TATATATATATATATATATATATATATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAACTTCTATAC
Celera SNP ID:            hCV27033563
SNP Position Genomic:     37248
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63098):
TTGAAGCTGCAGTGAGCTATGATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGTTTTATATATAT
A
TATATATATATATATATATATATATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAACTTCTATACCT
Celera SNP ID:            hCV27033564
SNP Position Genomic:     37250
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63099):
ATTGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGTTTTATATATATATATATATATATATATATATA
T
ATATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAACTTCTATACCTATCATGTTAATGATAATAATG
Celera SNP ID:            hCV27033565
SNP Position Genomic:     37271
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,8)   total(T,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63100):
TGTGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGTTTTATATATATATATATATATATATATATATATA
T
ATAAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAACTTCTATACCTATCATGTTAATGATAATAATGAT
Celera SNP ID:            hCV27033566
SNP Position Genomic:     37273
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63101):
TGCCACTGCACTCCAGCCAGGGTGACAGAGTAAGACCTTGTCTCAAATTAAAAAAAAAAAAAGTTTTATATATATATATATATATATATATATATATATA
T
AAATTAAGAAGGCCTAATTTTTAAATTTTTATTACCCCTATGGTTTATTACGAGCCCTGTTCAACTTCTATACCTATCATGTTAATGATAATAATGATGA
Celera SNP ID:            hCV27033567
SNP Position Genomic:     37275
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63102):
AGCCACTTGGGAGGCTGAGGCAGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGTACTACAGCCTGGGTGACAGAG
Y
GAGACTCAGTCTCAAAAAAAAAAAAAAAAAAAAAGTTAAGAGTTTAAAGTTATTCATAACTTTTTCAAGGGGAAAAAATAAATGCAGATTAAATTCAATC
Celera SNP ID:            hCV27033569
SNP Position Genomic:     39174
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63103):
ACCTTGAAAGAATAGTGTTTACTTTGAGAGTGATAGTTGAGTATATTTGTAATCTGAAAAGCAAGAGCAAGGAAACAAGTTTGAATTTTGCTGATTTTTT
W
ATGGTATATAATTTCAAAGATCTATAACTAAACATAGCTATTTCTGTCCTTAATTATTATTTATTTCCAGTCATTTGATCCTTCAAAAATCACAAGGAAG
Celera SNP ID:            hCV25996085
SNP Position Genomic:     109434
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,1)   caucasian(A,32)   total(A,65|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63104):
GTAAATTTCACGAACAGTTTCTTCTTTGTTAATGTGGATATAGTACTGAACAATGGTTACTATGGGGTATTAGATTCTACTGGTGGTCTAACAGCTTCCA
R
TATTACTCTACCCAGCTTTGACTTCTAAAAATAGATCTCCAACCTAATAAATTGAATATTTCAAGTTCAATAATAAGATGACACAGGTAGGGTCCCCTTC
Celera SNP ID:            hCV27856639
SNP Position Genomic:     75082
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,37|G,1)   total(A,73|G,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,24)   caucasian(A,26|G,2)   total(A,50|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:63105):
AGTTTTACTGTGTTCCTTTATTAATAACAATATTTGGGGTTTGTATAGCACCTCTGTACATAAGAGCTTAAAGAACTGTCATACATCTTGTCTTATCCCT
R
TTACAGCGGTCAGGTATTTTTTTGTCCGTTTTACAGATGAGGAAATTGAGGGGTAGCAATGTCACCCAGCTAGCAGTAAGTGGCAAAAAGCCGTAAATTT
Celera SNP ID:            hCV27833266
SNP Position Genomic:     74889
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63106):
TAAACATATAATTGCACCCCCCGCAGGCTTGGAAACCTCCCTTACTTAAAACTCCGGCCCGAGACTGAGACAGGGGCCTAGAGAGTACATTGCAGCAAAC
R
GCTCCATAAATAACCAGCCACACAATAGCAAGAAAAATAAACTGTTAACAAGCGCCTAAGGCTTCTACAGGGCCAAGTGAAAACAGAAAGCCGTCCAGTC
Celera SNP ID:            hCV27833267
SNP Position Genomic:     75766
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:63107):
GGTTTCACCAGGATGAAGCCAGGATGTTAGCCAGGATGTCTTGATCTCCTGACCTTGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGC
R
TGAGCCATCACACCCAGCCCTAGTTAATTTTTGTATATGGTGTAAGGAAGGGGTCCAGTTTCAATCTTCTGCATATGGCTAGCCAGTTATCCCAGCAACC
Celera SNP ID:            hCV27894813
SNP Position Genomic:     34653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63108):
TATAAAAACATTTAAAAGCATTTTTTCATATCAATCTATTTTTGAACCCTATAAAATAAGTCAAGCCTGAGGATAGTAATCTTAAGTTTTTCTGTTTTGC
R
GTAGTAGTATAAGTAAGACAAACGTCTACAGCAGCTTTTCCAAAGTCTTGAATTGCTTGCATTTAGGGAAAAAAAATGTACTGGCATCAACCTTTTTTAT
Celera SNP ID:            hCV1270800
SNP Position Genomic:     47246
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63109):
TTTTTTCAAGACGGAGTCTCACTTGGTCACCCAGGCTGGAATGCAGTGGTGCGATCTTGGTTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCC
Y
GCTTCAGCCTCCTGAGTAGCTGAGACTACAGGCATGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCACATTGGCCAGG
Celera SNP ID:            hCV1270802
SNP Position Genomic:     48224
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,10)   total(C,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63110):
TCTTCTCCCAGATATGCAAGCGATATATCTAAATACTTACTAGAGCCAAATCTGTCTCAAAAGTTTAGGTCATTTTTTTTTCCTTTTTGATAGTATTCAA
Y
GAGAAATAACACTTTAAATAAAACTTTTTCCATGAGGAAGGTACAGTAATTATCCACCTCCTGGATACTCTCCTGTAGTCCTCTGAGTAAGCTCCAAACT
Celera SNP ID:            hCV1270803
SNP Position Genomic:     50175
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63111):
ACCGACTGCGCCAGCCTTGGCGAAGCTCCGCCTACTGCCCTTTGCTCCAAGTAATTTTTGGCGATTTTTAAAGTAATTTTTCCGGCGGAGTCATAGTGGC
S
CTATACTCTTGGATAGGTTATCCTGTCTCTTCCGCTAGATTGATGAGATCAGGTATCACTCGAAAATGGCGCCGAAAAGTGCTGAGGCTCCTCATTCAAA
Celera SNP ID:            hCV1270804
SNP Position Genomic:     50687
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63112):
TCCCCTTGCAGTACTTCTCTTTGACATATTAATTTTAAAAATTGACAAATGGAAAAAGCTAAGATTAATTAGCAAATAAAAACTTAGTTCTGGCTGGGCA
Y
GGTGGCTCACACCTATAATCCCAGCCCTTTGAGAGGCCGAAGCGGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGATTGGCCAACATGGTGAAACCC
Celera SNP ID:            hCV1270805
SNP Position Genomic:     53063
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63113):
TCTTTATTGAAGTTATGAGAAAATTGTGTCATTACCATAGCTATGTGCAAAAATGCTTTTCACTTTATTAGTAGGCTTGCCTACCTGAAATGTAAGTAAG
M
ATATTTAAATAATAAGTTCAAGGCTTTAATAATATTGATAACTACTGAAAAGGTGTATGCTAGCTGTATAATAATAACATCATAAATGTTTTCTAATTCA
Celera SNP ID:            hCV1270808
SNP Position Genomic:     55918
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,8)      total(A,4|C,8) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63114):
TAGCCGGGTGTTGTGGTGGGCACCTGTAATCCCAGCCTCAGGAGGCTGAGGTAGGAGAATTCCTTGAAACCGGGAGGCGGAGGTTGCAGTGAGCTGAGAT
Y
GTGCCACTGTACTCCAGCCTGGGTAACACGGCAAAACTCCGTTTCAAAAAAAAAACAAAAACATTGAGTTGGTATACCATTATTTAGTTAACTATTTCTA
Celera SNP ID:            hCV1270809
SNP Position Genomic:     58093
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63115):
TGTAGACACTGCACAGTTATTAATAAACTTAATGTCAAATTTTTTTCAGAAAAAGTCATCTGTTAACTTAAAATACTATACCTTTATTAAATTTGGCTCC
R
TTAACTTTGAGTTTCGGTTACCATTAGCCCCCATGGTAACTGTGAAGGAAACAGATGTTTTGAACTTCCTGGTTGCTGACAGTAAAGAACTCCTGGTGTC
Celera SNP ID:            hCV25957183
SNP Position Genomic:     65524
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,16)   caucasian(A,31|G,9)   total(A,53|G,25)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63116):
CTGAGGCAGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGTACTACAGCCTGGGTGACAGAGCGAGACTCAGTCTC
A
AAAAAAAAAAAAAAAAAAAAGTTAAGAGTTTAAAGTTATTCATAACTTTTTCAAGGGGAAAAAATAAATGCAGATTAAATTCAATCATGAAGAGAAATGG
Celera SNP ID:            hCV27033570
SNP Position Genomic:     39188
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63117):
TGAGGCAGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGTACTACAGCCTGGGTGACAGAGCGAGACTCAGTCTCA
A
AAAAAAAAAAAAAAAAAAAGTTAAGAGTTTAAAGTTATTCATAACTTTTTCAAGGGGAAAAAATAAATGCAGATTAAATTCAATCATGAAGAGAAATGGT
Celera SNP ID:            hCV27033571
SNP Position Genomic:     39189
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,8)   total(A,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63118):
TAGAGCTACTATGTAGAAACGATGAAAAAAATATTTGACATATAATACAAATACATTAAGAAACCTATCTAGATACTGTACTATAGAGACTATCAAAAAC
R
AATCTACTTTTTAAAACTTAAAATTCTCAATCCTCATTAATTTTTAAAAAATTAACACTTGGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTT
Celera SNP ID:            hCV27033579
SNP Position Genomic:     39408
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63119):
CTCTTATATATGATATTGTAATAGTGGTATTTTAAAGCAGACAAACATACTAACTTTTTTATAAGAGTTTTTATAATATAGGACTGATGTTTAAATTGTA
Y
GGTAGTCCTTGTATATATAACTGCATATATTTTTTAAAGAAACTCATTTAAATATTTAATTATGATCCCATTTAGAGATATGCAATTAGAATCAAACCTG
Celera SNP ID:            hCV11726946
SNP Position Genomic:     90883
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63120):
TGGTGGTCTAACAGCTTCCAATATTACTCTACCCAGCTTTGACTTCTAAAAATAGATCTCCAACCTAATAAATTGAATATTTCAAGTTCAATAATAAGAT
R
ACACAGGTAGGGTCCCCTTCAGGACTCATTGCATTCCTACTCAGGAGGCCTAAATCACTTGCACCTTTTCGAATTATATAGATCATTTACACTTGGGAAA
Celera SNP ID:            hCV27841000
SNP Position Genomic:     75162
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,40)   total(A,1|G,71)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63121):
CAGAGAAGTAGACAAAGCAGAGGAAGGAGAAGCAGCTGCACAGAGAGGGACAGAGGGAGCGAAGAGACAGAGACAGCGAGCTGTTTGCTACCTAATTCTA
R
CTCACAAACAAGGAAGCGCAGCCAATTCTCTTCGGCGATTCAGCGTTCCTCTCACCGCAGCTGGACAGATCTCGGCCTTTCTCTAATCACCATGGCAACT
Celera SNP ID:            hCV27841001
SNP Position Genomic:     76097
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,36)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:63122):
CAAATAGCTATATTTTAAAAGTCTTATTTATAGCATTATCATAGTTTTACTGTGTTCCTTTATTAATAACAATATTTGGGGTTTGTATAGCACCTCTGTA
Y
ATAAGAGCTTAAAGAACTGTCATACATCTTGTCTTATCCCTATTACAGCGGTCAGGTATTTTTTTGTCCGTTTTACAGATGAGGAAATTGAGGGGTAGCA
Celera SNP ID:            hCV27850837
SNP Position Genomic:     74847
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63123):
GTAGAAGAAATCTAAAAAGCAGTCTAGTCCAGACTTCTCTTTTGATTGACAAAAAAGTCTGAAAAATAAAGTGATATATGTGAACAGCTATAGTTCTCAA
Y
TGACTGCAGAACTAGAACCAAAAGCTAGGTCTCCTTACTTTCTCTCCAGTGTGTAAGTTATATTCTAAGTTCTGTTCTATTTCACATTTAAATATCTGCA
Celera SNP ID:            hCV1270812
SNP Position Genomic:     60125
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63124):
CTTATTTTCATTCATAATATATAACGAAATGCTGAAAAGTACAAAACCAAATACTAAAGCAAAAAATTCTTGTTATCAAAACAAATACATCAGTATAGTC
M
CATTTTTCTTGGAACACTGTAGTGAATGAAAATGATTTGTTTTAACATACAAATTCTGTATTATTAAAATTTTCAGTGAGAAAGAATTATTAAGCAGTAG
Celera SNP ID:            hCV1270813
SNP Position Genomic:     61759
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,5)      total(A,5|C,5) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63125):
TTATTCTGTACATTCACAACCAAGTACTTTTCAGAATGGTTATAAAACCTCAGGAATATATGAAATTTATGAAATAAAAAAAGAAAACTTCAAGTATTAC
W
GTTCTTTTAGAATTTGTCTAGCAGGTTCTCTGTTTTTCCAGAAAACCACCCAGGAAGAAACAAGACTTAAAGAAAAATGTGGCCAGGCGTGGTGGCTCAC
Celera SNP ID:            hCV1270814
SNP Position Genomic:     62960
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,4)   total(A,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63126):
GAGCTATCAATTATTTCCAAAAGACATTACATTTTATATGAAACTCACAGTATTAAAAAGTTGACAGTATGCCCTTTTCTTTTAATCATTAAATTATCTT
W
GTACCTTTTACCTAATTCCCAATTATCATCCACACCATTCCCTGCTCTTGACTTACATACAAAACTTTAGTCTCTTTGTTAAATAATCGTTATGACTTAC
Celera SNP ID:            hCV1270815
SNP Position Genomic:     63603
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,9)   total(A,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63127):
TTTTCAGAAAAAGTCATCTGTTAACTTAAAATACTATACCTTTATTAAATTTGGCTCCATTAACTTTGAGTTTCGGTTACCATTAGCCCCCATGGTAACT
R
TGAAGGAAACAGATGTTTTGAACTTCCTGGTTGCTGACAGTAAAGAACTCCTGGTGTCACCTGCAACAAGTAATGATTATTTGGTCTGACATTATGAAAA
Celera SNP ID:            hCV25957263
SNP Position Genomic:     65566
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(A,9|G,31)   total(A,13|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:63128):
CTCTAGTTTTTCTAGTGTAGTCTTGAGACATTGCTCGTTGGTTGTCATATATAATTTACAAAACTACAGGAAAAAAAAAGTCCAGTGGGTAAAACATTCA
R
TCATACACTGGGGAAGAGGAGAAAGCAAATGCACATTAGTAGGCAAGGAACAGACTGATAGATGGAATATATTTCCTATTGATGGTTACGCATTTTATTT
Celera SNP ID:            hCV1270817
SNP Position Genomic:     66305
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,10)   caucasian(A,27|G,13)   total(A,47|G,23)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63129):
GCACATTACAAAACAGTTTTACAGATCTTACCTTTGTTAGAAATTTATAAAGGTCAGTGTGTAAAATACAGCCATCATCATTTACATCTAATTGCTTAAA
W
GATTTTAGTAGTTCTGCTTTTGAAGTAGGTTTTTCCTTCCTTAAAATTATACAAAAATCATCAAAATTCAGTTTGGCAGTTTGAGGAGTCCAATACTTAT
Celera SNP ID:            hCV1270818
SNP Position Genomic:     67759
SNP Source:               Applera
Population(Allele,Count): african american(A,9|T,29)   caucasian(A,9|T,31)   total(A,18|T,60)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63130):
GATGTTTATCATATTGCTACACTACTGCTACTAATAATAAAGGAAACAATGTTCAAAGAATCAAGGAGTGGTTAACTGAATCATGGTACATATACAGAAC
R
CATTTACACAACTACTAAATTATTTTTATGACAATGAATATTATATAAAATTTCCTGCAAAATTTCTTCCTTATTGTTAAGCCTAAAGTGCCTTTTTTCT
Celera SNP ID:            hCV1270819
SNP Position Genomic:     70900
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63131):
TTATATAACTAGTTATATAGTTAAAAGCAGGACTTGGTAATTATTAAATATTAGGTGATTTTTCCTCCAGTTCAGACCTCAGATAAGAGGAGGGTAGTCA
Y
TTTTATTCATACTATTCACACCAAGTGCTTCAGCCCTCTGGAACCTCTCTTTCAGGACCCCAGAACACTTTGCTACCTTTCCCTCTGCCTAGATTGCTTT
Celera SNP ID:            hCV15971306
SNP Position Genomic:     151556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63132):
ATTAGGTCATTTTTAAAGATCTCTTCCCACATGCCCTGTGGTAATGTATGCCATTAGTTGCCAAAGGCTGCTTCCTTCAAGGGCTTTCTCTCACAGAAGG
R
TTCTAAGGCTGAAGAGACATGAGCCTCTACCACCACTAGGAGTCCCCAGAGGGACATATTCTGAATAGGAATCTGTCATAGTAAATACTGTCTTTTGGGC
Celera SNP ID:            hCV15971307
SNP Position Genomic:     158142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63133):
AGTAGCTGGGATTATAGGTACCTGCCACCACACTTGGATAATTTTTGTATTTTTAGTACAAGTGGGGTTTCACCATGTTGGCCAAGCTGGTCTTGAATTA
M
TGACCTCAAGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCCAATTTTTTTTTTTTTTTCTTTTTAAGAGACAATTTGCTCTGTTGTC
Celera SNP ID:            hCV27033583
SNP Position Genomic:     40628
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,4)      total(A,4|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63134):
TCGGCTCACTGCAAGCACCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTATAGGCGCCCGCCACCACACCTGGCTAA
T
TTTTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCTCTACTAAAAATTTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCGCCTCA
Celera SNP ID:            hCV27033584
SNP Position Genomic:     42833
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63135):
ATATAAAAAATAAGTTACTAGTTTCTTCTTGGATATTTTCTTTAGAAATACATATTCCATGTTTTTTTTTTTCAAGACGGAGTCTCACTTGGTCACCCAG
S
CTGGAATGCAGTGGTGCGATCTTGGTTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCTTCAGCCTCCTGAGTAGCTGAGACTACAGGCA
Celera SNP ID:            hCV27033586
SNP Position Genomic:     48158
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,7)      total(G,7|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63136):
ATAGGTATTCAGTCCAAAGAGGAAAAAAGTTTTAGTAGTACTATGAGAACCTGTATCTCTGAAAATGTTAGCTCCATAAGTGTAAGCACTCCCAAAGATT
R
TAAGATAATAAAATGTGGAAACAGGCAAACTATGGGGCGATTTAAAGTTTCTACCACTTCCTAAAGATTTTCTTCAATAGAATCATTCGTGCTAAGTGGA
Celera SNP ID:            hCV27033587
SNP Position Genomic:     49440
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63137):
TATTATGTTTATTATGTATTGTTTCCCTCACTAAAATTTAAGTTGACGAGGGCAGGGATTTTTGTCTTTTTTTAACTCTAATGTATCCTAAACACCTAAA
Y
TGATGTCTGGTATATAAGGCCCTCGATAACTATTTGATAAATAAATGAATAAAGGAATCTTGTTAATAAGAATACAGAGAATTAACAACTACACTGAATT
Celera SNP ID:            hCV27033588
SNP Position Genomic:     52427
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63138):
ATAAGGTAAAGAAGAAGTAAGAAAAATAAAGTTGGCTGGGCACGGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCATGAG
R
TCAGGAGTTCAAGACCAGGCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAATTTAGCTGGGCATGATGATGAGTGCATGTAATTCCAGC
Celera SNP ID:            hCV27033589
SNP Position Genomic:     54572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63139):
GCTTTCATCCCATTTTGCCAATTAAAACTAATCATCATGAATCCTTTTTAGTGGTTTTCTTTTTTCCTCAGAGATCCCTGTTCTGAAGTATGTTCTTTTA
R
AAGATCACAAATCTCATTTGAAAAGCTTTATATTGCATTTAGCAGAAGATGATATCTGATGAGATCAACTTCTCTGATGATTGAACTTTTTAAATGTCTT
Celera SNP ID:            hCV16132518
SNP Position Genomic:     146215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63140):
AAAGCATTTATTTGTAGAAATTAATAGTTTATACCTGACCTGAAATATTCTTTCTTAAGTAAGTAGAATACCTTAGTTGTGATGTGGTTTGTGATGTTCT
R
TAATGGTTATATATGATGCCTTAATTTTAATACTCATTGAGCCCTGTTCTCCGAGCCTATGCGTAATAGACCAGCGCAGGGTAAAACTGAGGAAGACACT
Celera SNP ID:            hCV25990433
SNP Position Genomic:     121137
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63141):
GAGAACATATTAGGTGGTGATCATAGATACATCGTCACAGTTACACATTTAGTAAATGAACGTGCAACATTTAGTGTTTGATAATCTCTGTAATAAACTT
R
CAGGGAATTCAGAGTACTGAGAATAGCTTTGTGTTAATGGATTTTAGTAAAGATAACCACATTTTGGGGTGTTCTTTTGAGTCTTTGAGTAATACTTTCA
Celera SNP ID:            hCV9583571
SNP Position Genomic:     155738
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63142):
TGGAATTTATCCTAGAAATGAAAGGCTGGTTCAAATTTGAAAATCAGTCAGGTTTCAGATCAGAAAATAAGGTACCATATTAACAGTCTAAAGAAGAAAA
M
CCAACCATACAACCACATCAATTGAAGTAGAAAAAAATATTTGACAACATTGAGCATCCACCCTTTTTTTTTTTTTTTTTTTTTTAAGAGACGGGATTCT
Celera SNP ID:            hCV762422
SNP Position Genomic:     18269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63143):
CTAATTGGTCTTTTAGTTCTAGTAATATTTATTTTTTCATTTCAGTGGGAATTTCAGTTAATGTCAGTTACAGTCTTTATTACAGGAAGAGTAGAATTAT
R
AAAATAACACTCTAGTGTTTTAAATAAATAGACATCTGACACACATTCTTAAGGCTTTATATAACTTATTCAAGAGAAATTTAAAACATACACAATAAAA
Celera SNP ID:            hCV9583572
SNP Position Genomic:     148994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63144):
TAATTTTTAGCTCCCACAGATAAGAAAGAATGTGTGATGTTTGCCTTTCTGTGCCAGGCTTATTTCACTTAACATGATGACCTCCAGTTCTATCCATGTT
R
TTGCAAATGACAGGATCTCATTCTTTTTTATGATAGCTGAATGGTACTCCACTGTGTATATGTACCACTTTTTTTATTTTTATCCATTCATCTATTGATG
Celera SNP ID:            hCV1270820
SNP Position Genomic:     71440
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63145):
GGTATGTAACTTTTTCTCACAAGTGGTAGCTTAGCATATGCTTGCTGCTATCTTTAGTAACAAAGAAAATATTGTTTTAAAAAATGTACTGGTAATTAGA
M
AAGAACAACTTTCTCAGAATAAAATTAATTATGCCAAAACATGTACTCAGTAAGCAGATGTCCCCATAGCTAAGAAATTGATACAATCTATTTCCTACTA
Celera SNP ID:            hCV1270821
SNP Position Genomic:     71942
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63146):
GATACAATCTATTTCCTACTAACTTTAATCTCTAGGTTTAGAATTAGCTGGATCTAATGATTAAGTTTGATGATAGTAAAAATATCACGTAGCTGTAGAT
R
TTTAAATTTTGACACCATGATATGGATCTTTTGCCAGGGTTTACTTTAAAGTTCTGACATGCATCTATAATGCCTGTATTATTTATAAATTGACAAAAAA
Celera SNP ID:            hCV1270822
SNP Position Genomic:     72122
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63147):
TAGTAGTGGAAGGCATGTTAAACTTTTAAACTTAGCAGATTCCTTCTCTTAGTATATTTTCAAAACAGTAACAAAAAAAAACTCGGATTATTTTAGAAAT
W
ATGGCAAATTAGAAGTAATTTTAATTTATTGGCCAGGCGTGGTGGCTCACGCCTATAATGCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGG
Celera SNP ID:            hCV1270824
SNP Position Genomic:     72627
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,8)   total(A,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63148):
GAGGCTGAGGCAGGAGAATCGCTGGAACCCAGGAGGCAGAGGCTGCAGTGAATCAAGATCGTGCCACTGCACTCCAGCCTGGAAGACAGAGCAAGACTCC
R
TCTCAAAAAAAAAAAAATTTATTGGATGTCTGCCTAAACATTTAATGTATATGAATTAAACACAAATACTTAAAATTCAAAATAGAGCATTTTAGTAATT
Celera SNP ID:            hCV1270825
SNP Position Genomic:     72935
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63149):
TAACTATATGATATGACATAATAGCTTACTGTAGTTCCATTGCTCAAGCTTCACTAAGAAACTGGGATGATTCAACAAGGTAATTCTAATTTCAGTCTTT
Y
GGACCTATTTATTAACTTTCAACAAAAAGGTGAAAGATTTAAAAATTTTAAAAATTTACCTAAGTAAAGTTGATCTTTAGAAATAATGTTTTCCAAGCTG
Celera SNP ID:            hCV1270826
SNP Position Genomic:     73903
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,22|T,6)   total(C,53|T,9)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63150):
CAGCTCTACAATTCATATAAAATATTTCCTCTTCAGTTAGTGGAAATTTCTTTGTTCGAGGACTCTCTGAAGGTGTTGATTTCTGACTGGAGAAAGTTGC
R
TCGCTTCGTGGACTGATCGCCATTCTATTGGAAAATAATTTAAAAATGTGTTTGTCAATGTGAGTCACTAAAACACAAATGTCACCATGTCTTTCAAATA
Celera SNP ID:            hCV1270827
SNP Position Genomic:     74126
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,9)   caucasian(A,20|G,8)   total(A,41|G,17)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63151):
AAAGTGAGGAGATCAACAAACAAGGACTGACATGGCTGGAAAAGTTTCACGGGGGATAGCAAGGTCAACCAAGGGGATTTGATTATTAAGTAGGAATCTT
Y
AGTCTTTCTTGCTTTTCGGTTTAGTATCTCCCTTAATTTGATGAGAGTGGTTGTCTCCTCTGTTCAAGAAACCTGTCATTTTGGTAAAGTGGCAAAAAAC
Celera SNP ID:            hCV1270756
SNP Position Genomic:     7279
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,12)      total(C,12|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63152):
TTTGAGCTCCTGTATGGATGCTCCTTTTTAGTAGGCCTCAGTCTCATTCCAGACACCAGACCAACTTGGACTGTGCCCCAAAAAACTTGTCATCCCTACT
R
TCTTCTGTCTAGTCATACTCCTATTCACCGTTCTCTACTCATAAATGCCCTACTCTTGTTTACACTGCCGGTTTACACAGTTTCTCCAAGCCATCACAGC
Celera SNP ID:            hCV9754017
SNP Position Genomic:     26078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,12)      total(G,12|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63153):
TTTCGGTTTAGTATCTCCCTTAATTTGATGAGAGTGGTTGTCTCCTCTGTTCAAGAAACCTGTCATTTTGGTAAAGTGGCAAAAAACTTGGCTTTACAAG
R
TGTGTGCTCTTGGGAAAGTTAGTTAATGTCCGTGGGCATCAATTTCCTTACTGTAAAATAAACATATCACCTACTTTGGAATATTTTTGCAAGATTTAAT
Celera SNP ID:            hCV1270757
SNP Position Genomic:     7393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,10)      total(G,4|A,10) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63154):
GTGAATGTAATCAAGGTTATCTAACTCCACAAAATGAAAATATAGCATAGATTCACTGAGCCTTCAAAATACCTACCTTAGAGTTGTATGGTTTAGATAG
W
GAATATACAGCTCCTACCACAGTGCTAATAAGTAAGTCATCAATAAATGATAACTTGTAAAGTCACGGGCCCAAATTCAGATCTCATGCCCTTTCTATAT
Celera SNP ID:            hCV1270758
SNP Position Genomic:     8138
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,31)   caucasian(A,9|T,27)   total(A,12|T,58)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,11)      total(A,4|T,11) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63155):
TGAATGTAATCAAGGTTATCTAACTCCACAAAATGAAAATATAGCATAGATTCACTGAGCCTTCAAAATACCTACCTTAGAGTTGTATGGTTTAGATAGT
S
AATATACAGCTCCTACCACAGTGCTAATAAGTAAGTCATCAATAAATGATAACTTGTAAAGTCACGGGCCCAAATTCAGATCTCATGCCCTTTCTATATT
Celera SNP ID:            hCV1270759
SNP Position Genomic:     8139
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,25)   caucasian(C,8|G,30)   total(C,17|G,55)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|G,9)      total(G,9|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63156):
AAATAGTTGGGCGTGGTGGCGCACACCTGTAATCCCAGCTACTCCGAAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGATGGAGGTTGCAGTGAGCC
R
TGATCATGCCACTACACTCCAGCCTGGGAGACAGAGTGAGCCTCTGTCTCAAAAAAAAAAAAAAAAGAAAAAAGAAAAAAAGAAAAGAAAAGAATAAAAC
Celera SNP ID:            hCV27033590
SNP Position Genomic:     55683
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63157):
ATGGTTTCTCAGATATGACAACAAAAGCACAAGCAACAATCAAATAAATTGGAATTCATCAAAATTAAAAACTTTTGTGCATCAAAGGACACTACCAACA
R
AATGAAAAGGCAATTCATGAAATGGGAGAAATTATTTGCAAATCACATATCCAAAAAGGGATTAATATATAGAGCATATAAAGAACTCCTACAATTCAAC
Celera SNP ID:            hCV27033591
SNP Position Genomic:     56801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63158):
TATGACAACAAAAGCACAAGCAACAATCAAATAAATTGGAATTCATCAAAATTAAAAACTTTTGTGCATCAAAGGACACTACCAACAGAATGAAAAGGCA
R
TTCATGAAATGGGAGAAATTATTTGCAAATCACATATCCAAAAAGGGATTAATATATAGAGCATATAAAGAACTCCTACAATTCAACAACAAAACAAACC
Celera SNP ID:            hCV27033592
SNP Position Genomic:     56814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63159):
TTTTCTCTATTTCCTTTTATTTTCATTTTGGTTATTTCTCAATTTATACAAGTTTTCTATTTTTATCTTTATCTTTTCTTTGGAAATTTCTTCTTAAACT
K
CATTTTAAGATTTTATCATTATAAACTGAACTATACTCAAGCTTTCAGTCAGTCATTAATCACCTGCACTGTCACACCTTTGGGGTATACAAGATATGTG
Celera SNP ID:            hCV27033593
SNP Position Genomic:     58865
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,6)   total(G,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63160):
AAACAAAAATGTGGCTCTTGAGAGCAATCAGTTCAGTTTTCTAACAGCAGTTATAGTATGTGGTCATAACCATTTTTTCCCCTTTTACAGAGGTCTCTAG
R
TGCACATTTTTAATGTATCCTAGCAGTTTCCAGTTAATGTTTTATATTTCTGTAACTATTATTTTCTGTTGAAAGAAAACTAGTAAAGGTTGAGTCTAGA
Celera SNP ID:            hCV27033595
SNP Position Genomic:     64982
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63161):
TCTGTGCCAGGCTTATTTCACTTAACATGATGACCTCCAGTTCTATCCATGTTGTTGCAAATGACAGGATCTCATTCTTTTTTATGATAGCTGAATGGTA
S
TCCACTGTGTATATGTACCACTTTTTTTATTTTTATCCATTCATCTATTGATGAACTCTTACGTTGCTTCCAAATTTGGGCTATTGTGAATAGTGCTGCA
Celera SNP ID:            hCV27033597
SNP Position Genomic:     71487
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63162):
ATTTTTTTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATATATACATGTGCCATGCTGGTGAGAGTATTTTTAA
S
TGATAAATGTGGTATTATTAAAATGTTAGTTCTCACCAATGTTTAGATTTAATGCAATCCCTGTCATAATCCTAACAAACATTTCTTTTTAAGTTTTGCT
Celera SNP ID:            hCV27033598
SNP Position Genomic:     82431
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63163):
GATAAATGTGGTATTATTAAAATGTTAGTTCTCACCAATGTTTAGATTTAATGCAATCCCTGTCATAATCCTAACAAACATTTCTTTTTAAGTTTTGCTC
Y
TTTTTTATTTCTACTGTTTAAAATGGATCTTTTTTAAAAAAAGTTAAGTGGATGAAAACTTGTATAATAGTATTTGGTATTATCTTTATCTTTTCTGTTT
Celera SNP ID:            hCV27033599
SNP Position Genomic:     82533
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63164):
GGTTATAGATTTTAAAGTTATCAGATTCTTAGACAACAGGACAAATTTAAAACTCTTTCTGTTCTAACACTATAAAATAGTTTGATATTGCCTCTTCATT
Y
TAACCACCCACTGAAGTATTTTTTAAACATAAAAATATGTTGTTCTTTCCCCAACTCAGGCTTGAAAAAGTATTCATCATATCAGCTGAATAATTTCACT
Celera SNP ID:            hCV15868162
SNP Position Genomic:     150016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63165):
TTGTGATTTTAGGTGATGGTTTTGGTACTGGTGATGGGTCCCTTTCAGGGGACCCTTCGATGTGGTTTCCAAACTGGTGACGCATCAATTTACTGTCAAC
Y
TCTAGTTTTTCTAGTGTAGTCTTGAGACATTGCTCGTTGGTTGTCATATATAATTTACAAAACTACAGGAAAAAAAAAGTCCAGTGGGTAAAACATTCAA
Celera SNP ID:            hCV25972089
SNP Position Genomic:     66205
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63166):
TATGTATTTTGGGGCAAAAATATAGAAGAATGTTGAATTACATCAAGAGATATTTTGTCCTATTATTGATGAATTTTAATCATTTGATTACAGTGATGTT
Y
ACCAGGTTTATCTATATTAAAAGTAATCATTTTCCCTTTGTAATTAATAAATACTTTGTGGGGAGGTACTTTGTCATGTTTCACCCAGTAGTTTTAACAT
Celera SNP ID:            hCV9583582
SNP Position Genomic:     135278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63167):
CTCCCAAAGTGCTGGGATTACAGGAGTAAGCCACCACGCCTGGCCAATTTTTTGTATTTTTAGTAGAGACGGGCTTTCACCATGTGGGCCAGGATAGTCT
Y
GATATCTTGACCTTGTGACCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCTGCAGACTTCTTTTAATCATTGT
Celera SNP ID:            hCV11864649
SNP Position Genomic:     131474
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63168):
CAATTCTATAGATCAAAAGGTTTGGCCAGGTTCAATCCTGGTAATCACGGATATATAACAGCTTATAAACATCAAGGAGAAAGTATTTTGACCTTCATTA
M
ATTCTTTTTAAGGCAAGCATACCTGTTTAAACTGATTTGTCTATAGCCAGTTGGTTTAATTTCATTGAATTCTTCCCAGAGCCTCAAGATAAGAACCCAC
Celera SNP ID:            hCV1270760
SNP Position Genomic:     8952
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63169):
TAAAAACAAAACAGCTCTATATCTATGTATCCTCATCTTCCTGTCTGGTGGTGTCAAGTAATGGTGGAATAATCTATATTGAGGAATATTGAGGATGTCT
M
CAGTTTAGGACTAGAATGTCCTAAACTAGTCTCTAACTAGAGACTAGTCTCTCAGTTAACAGAGCTCTAATAGAGTAAGTCAGTTGTAAATAATCTTCTA
Celera SNP ID:            hCV1270761
SNP Position Genomic:     11841
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,11)      total(A,3|C,11) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63170):
GCCGCCCTGTGAAAAGGTGCCTTCTGCCATGATTTTAAGTTTCCTGAGGCCTCCCCAGCCATGCAGAACTGTGAGTCAATTAAACCTATTTTCTTTATGA
W
TTACCCAGTTTCAGGTATTTCTTCATAGCAGCATGAGAACAGACTAATACACAGATGCTTTAATTTTATGGAGGGCTATGAGCCACAAAACTTATGGCTT
Celera SNP ID:            hCV1270762
SNP Position Genomic:     13340
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,12)   total(A,4|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63171):
AATGATCAATACAGTTAACACAATACCAGTTAAAATCCCAGCAGGATTTATTTTTTGTAGATATAAACAAGCCAGTTCTAAAATTTATATGAAAAGGGAA
R
GAAACTAAAATAGCTAAGATGATTCTGGAAAAGAACAATACCATTGGGGAAATCATGTTACCTGAATATAAGACTTACAATGAAGCTACTGTAATCAGGA
Celera SNP ID:            hCV1270763
SNP Position Genomic:     19174
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63172):
GATTTATTTTTTGTAGATATAAACAAGCCAGTTCTAAAATTTATATGAAAAGGGAAAGAAACTAAAATAGCTAAGATGATTCTGGAAAAGAACAATACCA
Y
TGGGGAAATCATGTTACCTGAATATAAGACTTACAATGAAGCTACTGTAATCAGGACAATGTAGTATTAGTGAAGGGAAAGACACATCGATCAATGGAAC
Celera SNP ID:            hCV1270765
SNP Position Genomic:     19218
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63173):
TTATATGGTATTGTGAGTAAGAAATTAGGAAAATGGGAAATGAAAAAAAACAAAATAGGATACTTTTTCTTTGCCCACCTCCCTTCCATTTGTCCTTTTT
R
CTTTCTATTTAAAATTTGACAAACTAAATTCTATTTAAAATTTGATGATTTCTCCTTTAACTTTATGTCCTTTTCTTTATTACACATATATAGAAAAGAG
Celera SNP ID:            hCV25999670
SNP Position Genomic:     120798
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,34)   total(A,68|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:63174):
ACCTGGGGTTAGACAACGACTTCTAACTTGACACCAAATGCATAATCCATTAAATGAAAAACTGATTAATTGGACTTCATCAAAATGTAAAACTTTCACT
M
TCTATACGATCCAGTTAAGAGAACAAAAAGACTATCTACAGAAGAGAAGAAAATACTTTCAAATAACATATCCAATAAAAGACATATCCAGAATTTATAA
Celera SNP ID:            hCV1270766
SNP Position Genomic:     19687
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|A,8)      total(A,8|C,7) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63175):
AAATGTAAAACTTTCACTATCTATACGATCCAGTTAAGAGAACAAAAAGACTATCTACAGAAGAGAAGAAAATACTTTCAAATAACATATCCAATAAAAG
R
CATATCCAGAATTTATAAAGAATCAAATGGTAAGAAAATGAAACTCAAAACTCAACAGTAAGAAAACAAATAACCTAATTTCAAATGGGCAAAAGGCTTG
Celera SNP ID:            hCV1270767
SNP Position Genomic:     19769
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63176):
TGGATGACAGAGCGAGACTGTCTCAAAAAAAAAAAAAAAATGTATGTTAGAGGTACAGCCTGTAATACTTGTTCACAATCTATCTTCTCTGACAGACTAT
R
TATAATGAGGGCAGGAGCAATGTCTGGCTTGTTCACCTCTATATAAGCAATAATTAAAGCAGTACTTTGCACACATTAGGGACTCAATTTATATATGATT
Celera SNP ID:            hCV1270768
SNP Position Genomic:     21352
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,11)      total(G,11|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63177):
TTGCTCGCGCACACCCGGATCCTTCGTCGCGGGGAGGATGTTTCCGCCCGGCCGCGGTGGGCTTGACGCAACGTCCAGCGCGCGCTTTTCATGCCTTGGC
K
TTTCCTTTGGCGGATTTTCTGTTTTCGGAAGTTGCTGGGTTCGTTTTATTCAGCGGCAGTGGTGCTTTCCCGAATCTCAGAATGCCGTAGGTATCTCCTC
Celera SNP ID:            hCV25993860
SNP Position Genomic:     76507
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,38)   total(G,75|T,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63178):
TCGCTCCTTTGCTCGCGCACACCCGGATCCTTCGTCGCGGGGAGGATGTTTCCGCCCGGCCGCGGTGGGCTTGACGCAACGTCCAGCGCGCGCTTTTCAT
K
CCTTGGCGTTTCCTTTGGCGGATTTTCTGTTTTCGGAAGTTGCTGGGTTCGTTTTATTCAGCGGCAGTGGTGCTTTCCCGAATCTCAGAATGCCGTAGGT
Celera SNP ID:            hCV25993865
SNP Position Genomic:     76499
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,38)   total(G,75|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63179):
ATGTCTGCTTACAAGTAAGGTATTTTTTGTCTGTTAAAACTAGTCTGTAGCTTGTTTCATGAATGCTTTGTCAAATTATGGAAGTTAAAGTGCAATGATA
W
TTGAAGACTATAAGTGATGGTGTATCTTGTTTCTAATAAGATAAAACTTTTTGCCTTTGTTTTATCTTATTAGGGAATTATATGTCAGTGTTTGAAACAT
Celera SNP ID:            hCV11864653
SNP Position Genomic:     133297
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63180):
TGTCTGCTCAACCTAGCATGCCTTTTCCCTCATTATTGTCAAAATTTTACCCGTCTTTCAAAACCTGCTTAGAACTCATCTTCTGCATAAGCTTCCCCAA
R
TCCCTCTCCCCCATATTCTCTCATTGCTCTTTTGTATATTTGTCATAGCTGCCTGACTGGTATGCGTAAGGGAGGATGTGAATGAAACTCCTGATTTTGT
Celera SNP ID:            hCV29130033
SNP Position Genomic:     156677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63181):
TTTGAGAGGCCAAGGCACCAAATCGCTTGACCCCAGGAATTTTAGAGCAGCCTGGGCAACATGGCAAAACCCCACCTCTACAAAAAAAAAATATGAAAAC
S
AGCTGGGTGTGGTAGCGTATGCCTGTAGTACCAGCTACTCGGAAGGCTGAGATGGAAGAATCACCTGAGCCCAGAAAAACAAGGCTGCAGTGAGCTGAGA
Celera SNP ID:            hCV1270770
SNP Position Genomic:     23989
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|C,7)      total(G,6|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63182):
TCATTTTAATTTTCCACTCATTTTATCCAACTATCCTTCCAAGAGAGAATATAGTATATACTTTCTGCCCCGCTCCACTACCTCTCAGCAAGCTGAACTC
R
CTGCCTTAACTCGAGACCTCGCTCTCGCAAAAGGACTACGCGTCAATATTTATACTGACTGTAAATATGCCTTCCATATCTTGCACCACCATGCTGTTAT
Celera SNP ID:            hCV1270771
SNP Position Genomic:     24872
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,13)   total(G,1|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63183):
CAAGAGAGAATATAGTATATACTTTCTGCCCCGCTCCACTACCTCTCAGCAAGCTGAACTCACTGCCTTAACTCGAGACCTCGCTCTCGCAAAAGGACTA
Y
GCGTCAATATTTATACTGACTGTAAATATGCCTTCCATATCTTGCACCACCATGCTGTTATATGGGCAGAAAGAAATTTCCTCACTATGCAAGGGTCCTC
Celera SNP ID:            hCV1270772
SNP Position Genomic:     24911
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63184):
CTTCATAAACTTTACTGGTTCCCTGTAGACACTGCACAGTTATTAATAAACTTAATGTCAAATTTTTTTCAGAAAAAGTCATCTGTTAACTTAAAATACT
R
TACCTTTATTAAATTTGGCTCCATTAACTTTGAGTTTCGGTTACCATTAGCCCCCATGGTAACTGTGAAGGAAACAGATGTTTTGAACTTCCTGGTTGCT
Celera SNP ID:            hCV25968430
SNP Position Genomic:     65501
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,31|G,9)   total(A,66|G,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63185):
TGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCTAGTGATATTATC
Y
TAATTTTACATTTAGAGAGACTGGAACATAGAAATAAATGAACTTCCCATAGTCACTCAACCAAACAGTGACAGAACTGGATTAGAACCAAAGTCTCCTG
Celera SNP ID:            hCV1270777
SNP Position Genomic:     28358
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,11)   total(C,3|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63186):
TAGAATGATACTGATACAAATATCATACTTAAAATAATTTTCCACTCCATTTTATATTTACATTTTACTCATAGCATTAATAGCAAATTTTTTTCAAAGA
Y
ATAAAACAAAAGGCTTTAATTAGAAAATAATACATTACCATTGTAGATTTGGGTCCCACTTCTACTGCAAATATGTTGAGTCCTCTGTTGTTTATGCAGT
Celera SNP ID:            hCV1270778
SNP Position Genomic:     28569
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,12)   total(C,12|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63187):
ACTTCATATATACCCTTCGCCTTGTTTCGCCTTACACTGTTTCCCCTGCTTCTAAAGGCTGTCTGTCTGCATATCTAAATCCTAGTCATCCTTCAGTGCT
Y
AAATCCCATATCACAGTTCCCTTGCCCCTCGTAACAAATCCTTCCCCAACTTCTATGGTCCAAATTAACAACAACTACAAGAGAAACAGAATAAAACCCC
Celera SNP ID:            hCV1270779
SNP Position Genomic:     30209
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63188):
TAGAACTAAGAATCTTTGTTTATATATCTTCCCTTAATTATTGGGCTACTTTAAATAAAGCGTGTCAAATCTAAAATTTCTTTAAATTTTTTGTTTGTAG
Y
GTTAAAAGATCACTGAAGTTGGATGGTCTGTTAGAAGAAAATGTAAGTATTTGCTTAAAAGTTTGTCATTGAATAAGATTGTGTTTTCAGTTTTTAACTA
Celera SNP ID:            hCV25998887
SNP Position Genomic:     91150
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 UTR 5


Context             (SEQ ID NO:63189):
CTAAAGGCTGTCTGTCTGCATATCTAAATCCTAGTCATCCTTCAGTGCTCAAATCCCATATCACAGTTCCCTTGCCCCTCGTAACAAATCCTTCCCCAAC
Y
TCTATGGTCCAAATTAACAACAACTACAAGAGAAACAGAATAAAACCCCTATTGCACACACAAACAGTACTACATTATGTAACGTTTAATTATTCTCTGA
Celera SNP ID:            hCV1270780
SNP Position Genomic:     30260
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,9)      total(C,6|T,9) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63190):
TCTCGATCATTAGCTTCCATTAGATTCAAATCCATAAATCCTTGTCTTGTTAGTTCATTCCTCTTTGTATCAAAATTCTCTGTTTAAACAACCAAAAGTT
K
TTTCTTACATAATTTAAAAATTCATAACTTTAATAAAATGTCTATGATATATTATTATTCATAGATATTTATTTTAAAAGAGGCCTATGAATCTATGAGC
Celera SNP ID:            hCV25957373
SNP Position Genomic:     38035
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,29)   caucasian(T,38)   total(G,3|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:63191):
ATATTAAATAATAATAATTTATAGGATCTCTGCAACGTTAGTGTAAAACGCTGGGTTGAAATTTTTCCTTTGCTTATAATATTTCTTTAAAACATGATAT
M
TATTATTAAAATAGCTATGTATACATAAAAACTTTTAGAAACAAACTAAATAAAATACTTTGTACCCAGATTGTGCTCTATATTCACTAATATCCAAATG
Celera SNP ID:            hCV1270781
SNP Position Genomic:     30885
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,15)      total(A,2|C,15) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63192):
TTAAAGATTATTTATAATAATTATGAGTATGGCATTTTTAAAGGTTTATTTGTTCAGTACTGGTAAATTCTGGTAATATTCTGCCATTTTTTAAGTCATG
R
CTATCAGTTTTATTCAACCAAAGAGGATCAATATTTGAATATTCACTGAAAGCAAAACATCTTAAAAGGTCCATGTTAAAACATATTCTCTAATTTTTTT
Celera SNP ID:            hCV1270783
SNP Position Genomic:     33123
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63193):
TAAAGATTATTTATAATAATTATGAGTATGGCATTTTTAAAGGTTTATTTGTTCAGTACTGGTAAATTCTGGTAATATTCTGCCATTTTTTAAGTCATGG
Y
TATCAGTTTTATTCAACCAAAGAGGATCAATATTTGAATATTCACTGAAAGCAAAACATCTTAAAAGGTCCATGTTAAAACATATTCTCTAATTTTTTTT
Celera SNP ID:            hCV1270784
SNP Position Genomic:     33124
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63194):
GAAGCAGAAGAGGCAGGCACACTTGGTGTAACTTGGAAATACACTGTAATTTTTTTCTTTTTTCAAGACAAGATCTTGCTCCATTGCCCAGGCTGGATTG
Y
GGTGGTGCAATCATAGCTCACTGCAGCCTCGAACTCCTGGGCTCAAGTGATCCTCTGGCCTCAGCCTCATGAGTAGCCGGGACTACAGGTGTGTGCCACC
Celera SNP ID:            hCV8904924
SNP Position Genomic:     15223
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63195):
ATCCTACTAACTTAATATAGGAAGCAAACAACAAGCAAGAAAACTATTAACTGTAAATTATTCATTGTAAAATTATTAACAATATATGTGATAAGGAAGA
Y
GGGGAAGACTGCAATAATAAAACCTAGATTATGGGATGTTACTTAAATTTAGCACAATATTTAGCTCTCAACTACCTGTTAACCCATACAAAAGGGAAAT
Celera SNP ID:            hCV1270786
SNP Position Genomic:     35559
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63196):
GTCAGTTAGGTCCCAGATTAGCCAACCAAAATAAGATCCCTGCACTCCAGAACATTAAAATAGGGAAATCTAGACATGTACACAAATTAATAAAATATAC
R
AAGTATAAGCTACAAAAAGGTACTGATTTTTAAAGCTAATATTAAAAAGCAAGATCTTAATAATCTAAGCTTCTACCTTAAGAAACTAGGAAAAGAACAA
Celera SNP ID:            hCV8904925
SNP Position Genomic:     14110
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63197):
TATGTGATAAGGAAGATGGGGAAGACTGCAATAATAAAACCTAGATTATGGGATGTTACTTAAATTTAGCACAATATTTAGCTCTCAACTACCTGTTAAC
M
CATACAAAAGGGAAATAAAAAGTTATGTAGTGCTTAAACTCTAAAAAAGAAAGTAAATTTTCCCAGTTCTGAATCTAGAAAGAAATTAATATCATGAAAT
Celera SNP ID:            hCV1270787
SNP Position Genomic:     35643
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|C,8)      total(A,6|C,8) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63198):
ATGTGATAAGGAAGATGGGGAAGACTGCAATAATAAAACCTAGATTATGGGATGTTACTTAAATTTAGCACAATATTTAGCTCTCAACTACCTGTTAACC
Y
ATACAAAAGGGAAATAAAAAGTTATGTAGTGCTTAAACTCTAAAAAAGAAAGTAAATTTTCCCAGTTCTGAATCTAGAAAGAAATTAATATCATGAAATT
Celera SNP ID:            hCV1270788
SNP Position Genomic:     35644
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,8)      total(C,8|T,6) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63199):
AAATGGAGACAGTATTTCCCACAGACAGTTGTTTTGAAAATTAAGTAAGATATAGTTTGTAAAGTAGTAAGTATAGTGCCTTAAACTAAGAAAGCATTAA
R
AAAATGTTAACAATATATTTCATTGTTTTCATAATTCAACTGTCATCCAAAATTATCAGTTTAGGTCAAGGGAGATGGAGATTCAGTGACCTATTTACCT
Celera SNP ID:            hCV26466615
SNP Position Genomic:     140423
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63200):
TTTTCCCAGTTCTGAATCTAGAAAGAAATTAATATCATGAAATTCTATTTTAAAAAGGAAAACAGAAAAAAAAGGGGGGCAAAACTAAACATGTAAGTTT
Y
ACTTCTCAAATTCAGTAAAAGAGCAACTATTCAATTACAGTATATAGGGGCAATGCCCTTATAAAGAAGTTATATTGCTCTTTAACAGAGGATCTTCATA
Celera SNP ID:            hCV1270789
SNP Position Genomic:     35801
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63201):
GAGACAGTATTTCCCACAGACAGTTGTTTTGAAAATTAAGTAAGATATAGTTTGTAAAGTAGTAAGTATAGTGCCTTAAACTAAGAAAGCATTAAAAAAA
W
GTTAACAATATATTTCATTGTTTTCATAATTCAACTGTCATCCAAAATTATCAGTTTAGGTCAAGGGAGATGGAGATTCAGTGACCTATTTACCTTTTTC
Celera SNP ID:            hCV26466616
SNP Position Genomic:     140428
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,9)   total(A,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63202):
ATTTCTGTTGTTTTAAGCTACCAAGTTTGTGGTAATTTGTTACAGCACTTATAGAAAACTAATACAGATTGATATGGTTTGGCTGTGTCCCCACCCTAAT
M
TCATCTTGTAGTTCCCATAATCCCCACATGTCATGGGAGGGACCTGGTGGGAGGTAATTGAATCATAGGGGCAGTTAACCCCATGCTGCTGTTCTTGTGA
Celera SNP ID:            hCV599219
SNP Position Genomic:     13062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63203):
CCCTTAATTATTGGGCTACTTTAAATAAAGCGTGTCAAATCTAAAATTTCTTTAAATTTTTTGTTTGTAGTGTTAAAAGATCACTGAAGTTGGATGGTCT
R
TTAGAAGAAAATGTAAGTATTTGCTTAAAAGTTTGTCATTGAATAAGATTGTGTTTTCAGTTTTTAACTACTGATTTATCTCGTTAAATATTAAAATTAT
Celera SNP ID:            hCV25999407
SNP Position Genomic:     91180
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 UTR 5


Context             (SEQ ID NO:63204):
AACTCCCCGCTCGCTCCTTTGCTCGCGCACACCCGGATCCTTCGTCGCGGGGAGGATGTTTCCGCCCGGCCGCGGTGGGCTTGACGCAACGTCCAGCGCG
Y
GCTTTTCATGCCTTGGCGTTTCCTTTGGCGGATTTTCTGTTTTCGGAAGTTGCTGGGTTCGTTTTATTCAGCGGCAGTGGTGCTTTCCCGAATCTCAGAA
Celera SNP ID:            hCV25993888
SNP Position Genomic:     76489
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,29|T,9)   total(C,64|T,12)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,31|T,9)   total(C,64|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:63205):
AGCATAAACTACAATGTTCCTGTATTCTTTAGTTAACTTTCTGTATTCTTACATAGTAAAATTCGTCTTGGTTATAGATTTTAAAGTTATCAGATTCTTA
R
ACAACAGGACAAATTTAAAACTCTTTCTGTTCTAACACTATAAAATAGTTTGATATTGCCTCTTCATTCTAACCACCCACTGAAGTATTTTTTAAACATA
Celera SNP ID:            hCV16195566
SNP Position Genomic:     149947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63206):
AGAATTAAAATGCTTCATATGTATTTGCCACTTAAAGCCAGCAGAAACTGGATGAATTTGATATAATACTCCCCAAACTACTGAGTTTCAGAAAGAAAAA
Y
GGGAATAGTGTCATATTTAAGGAGATTACTATATGCCTGATTCCTCTAATTTTAGCTAAATTGTCCCCAAGTCTTGAAAGACTGACAGATAATGGGGAGC
Celera SNP ID:            hCV1270790
SNP Position Genomic:     38459
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63207):
TGAGAAATTGTCAGAAGAAATCATGGAGATAATGCAAAATTTAAGTAGTATACAGGTTTGCATTTTTTCATACTTCTACCCTGTTTGAAAAGGATAAAAT
S
AAAGAAGTGTCCCAGATTGGAGAATCCAATCCAGGAAAGAGTTTGCATAGAGTATGTTTAATTTACTTTTCATGGGAATTTTTTTTTTAATAGGAGAACA
Celera SNP ID:            hCV25995993
SNP Position Genomic:     145153
SNP Source:               Applera
Population(Allele,Count): african american(G,4)   caucasian(C,3|G,7)   total(C,3|G,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:63208):
GAGGCACAAACGAGGTTAAGTACCTTGTCCCAGAATCACCTAAAACAGGGCCAGGATACTAAACTGAGTAGTCTGGTGCCAGTGCCTGTGCTCTTGCCAC
Y
ACCCAGTAGTAATCTGTGAATGTCAGGTTTCACTACTGGCCAAGGTTTTTATATCCTGTTAAGTAAGGATAATATATAAATATTATCCTTATAAATCCTA
Celera SNP ID:            hCV16195567
SNP Position Genomic:     155225
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63209):
GGGGGATAGCAAGGTCAACCAAGGGGATTTGATTATTAAGTAGGAATCTTCAGTCTTTCTTGCTTTTCGGTTTAGTATCTCCCTTAATTTGATGAGAGTG
R
TTGTCTCCTCTGTTCAAGAAACCTGTCATTTTGGTAAAGTGGCAAAAAACTTGGCTTTACAAGATGTGTGCTCTTGGGAAAGTTAGTTAATGTCCGTGGG
Celera SNP ID:            hCV8904932
SNP Position Genomic:     7329
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,8)      total(G,6|A,8) ;(A,-|G,-)   no_pop(G,-|A,-)   JBIC-allele(G,579|A,906)   total(G,579|A,906)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63210):
TCTCAATCCTCATTAATTTTTAAAAAATTAACACTTGGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCA
Y
GAGGTCAGGAGATCGAGACCATCCTGGTTAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGTACCTGTAGTC
Celera SNP ID:            hCV1270794
SNP Position Genomic:     39533
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63211):
CTAACATGATCCCCATGTTCCTTGCCTCCTGATAATCATGCCTTTATGCAATCCCCTTGTATTACAGATTGAGTATCCCTTATCCGAAATGTTTGGTACC
A
GAAATGTTTCAGATTTTAGATTGTTCCGGATTTTGGAATGTTTGCATTACAATGGTTGTGCATCCCAAATCCAAAAATCCCAAATTCAGAATGTTCCAAT
Celera SNP ID:            hCV11281615
SNP Position Genomic:     8563
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,12)   total(A,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63212):
ACTCCTGACCTCAAGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCCCAAGTTCAACTATTAATGATGA
R
TAATGATACACAGACTTTCATTTAGCTTCCCTGTAAATCTCTTGGATGGGCATATATATGGACTAACAACAGATGCTGGCATTACCTCAGACCCAATTGC
Celera SNP ID:            hCV27939508
SNP Position Genomic:     59663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63213):
CAAAACTTACTTAAATTCCTTTGTAAGGAATAATTCCCCTGTTTCATCTCTATATACAAGTTGGGCTTCATCTGTTACTGGTTTTATTTTTTTCCTCAGC
Y
TACAGCCAGTTGTGGAAGGAATTAACCAGTAAATTCCAGGTCCTAGTTCACCAGTCCATCCAAACACCTTTTCTCAAAACAATGAAATAAAACAATCATC
Celera SNP ID:            hCV1270797
SNP Position Genomic:     44296
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,29|T,9)   total(C,58|T,12)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,11)      total(C,11|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63214):
ACAATGAAAAATACATAAGAACTATGAGATCATTTCTTTACTTTGATATGCAATTTACTGGAGAGACAAGCTGCTCTCACAGTTTAGCATCACAGCATGC
R
GTGTTTTCAGTGGATACTCACAACACTTGAGTTTACTGCAATAGCAGCAGGAGGTAGCTATGAAATTATTACAATACTGCAATATGTACTACAGTTAATT
Celera SNP ID:            hCV11281618
SNP Position Genomic:     17650
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63215):
ACCCCACCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGCGCCTATAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACC
Y
GGAGGTGGAGGTTGCAGGGAGCTGAGATCGTGCCATTGTACTCTAGCCTGAGTGATAGAACGAGACTCTGTCTCAAAAACAAAAAAACAAAAGAAAGAAA
Celera SNP ID:            hCV1270798
SNP Position Genomic:     45288
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63216):
CATCTACAAAAACATCCACAGCTAACATAAAATAGTGGTAAAAGACTGAATGCTTTCCCCACTAAGATTGTGAGCAAGGAAAGGATATCCACTGTCATTG
K
TCTTATTTGATATCTTAATGGGAAGTCTTAGCCAATGCAATAAGGCAAGAAAAAAGACATAAAAGGCATATGGATAGGAAAGAAAGAAATGAAACTGTCC
Celera SNP ID:            hCV11281619
SNP Position Genomic:     18619
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,13)   total(G,3|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63217):
AAGGGAAAGAAACTAAAATAGCTAAGATGATTCTGGAAAAGAACAATACCATTGGGGAAATCATGTTACCTGAATATAAGACTTACAATGAAGCTACTGT
M
ATCAGGACAATGTAGTATTAGTGAAGGGAAAGACACATCGATCAATGGAACAGAATAGAGTTCAGAAATAGACTCATGCAAAGATATGGTTCTATATGAC
Celera SNP ID:            hCV599220
SNP Position Genomic:     19267
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63218):
TTCTTGTCTGTAAGGAAGCCTACAAAAAAGACTTTTATATAACATTCTATCAGGGAAATGTTTGTGTGTCATTGAGCCTATATAAAGATTAAATATGATA
Y
TGTAGTAAGCCCTTAAATAGCATTATTTCTGTTTTGTGTAGCAGATGTATTTTGTAGTCCTCATAAAATAAATAGCCACATTTATGTATTGGCTTCACAT
Celera SNP ID:            hCV1270799
SNP Position Genomic:     46987
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63219):
GTTGAAATTTTTCCTTTGCTTATAATATTTCTTTAAAACATGATATCTATTATTAAAATAGCTATGTATACATAAAAACTTTTAGAAACAAACTAAATAA
W
ATACTTTGTACCCAGATTGTGCTCTATATTCACTAATATCCAAATGTTTAATTTTCCTAATATTTTAAGAGAAAAAATTGGAAACCTTTAAAAATCATAT
Celera SNP ID:            hCV599222
SNP Position Genomic:     30939
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|A,8)      total(A,8|T,7) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63220):
AGGATCTTCATAGGCTGATACAGGGAATGTGTAATCAGTAATTCTACAGCCTAAATTAGAGAATTTAATAAGGAAAAATAAAGAAATAAGTAATAAGAAT
K
TAATAAGAAACAATAAAGAAATTTAGTAAGAAAAAAGATTTTAAATCTGTTCAACTGATGAGGAACAGCTCCACTTCAATTAACACACTTATGTTAGGCA
Celera SNP ID:            hCV599223
SNP Position Genomic:     35990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63221):
CTTTGTATGAGCCAGCCACTGTTCCAAGTGTTTTACAAGTATTAACCCCAAAAGTACCCTTTATAAAAAGACCAGAAATCCAAGTTCTAATGCAGACACA
K
TCTCCTTATTCTAAGAGAGCCTTTAAACTGTTAAGACAAAGTGTTTCCCTATAGAAATGAGACTTTAGTAACTCAAACTGCCTTTTCCAATTTTAATTTT
Celera SNP ID:            hCV599224
SNP Position Genomic:     37499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,7)      total(G,4|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63222):
GGATTATAGGCATGAGCCACAGCACCCAGCCTGTTTTTTCTGTAAACCTAAAATTGCTCTAAAAATAAAGTTTATTAGGAGGCAGTGCTTGCAGTGAGCC
R
AGATCACGCCACTGCACTCCAGCCTGGGCAACAGTGTGAGACTCCATCTCAAAAAAATAAATAAATAAATAAACAAAATAAAGCTTATTAATAAACAAAA
Celera SNP ID:            hCV599225
SNP Position Genomic:     40890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63223):
CTATAAAATAAGACACAGAATCCCAAATAAACCAGCTTTATATGAAATTCTGTTTCCTATCAAATGTTGGATATTTATCATGGGTACCAGAACATTTGTA
Y
AGGAAAACATTTTATTCTCCAGTTCTATAAAGAAAGCAGGCTGGGCATGGCGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATC
Celera SNP ID:            hCV599226
SNP Position Genomic:     45043
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63224):
AAGACTGCCAACCAATCCTCAATTCTTTATTTAAATTTTTTTTTAGAGACAGGGTCTGGTTATGTTGCCCAGGCTGAAGTACAGTGGCTATTCACAGGTA
M
GATCATAGAATAATACGGCTTTGAACTCCTGGGCTCAAGTAATCCTCCTGCTTCAGTTTCCCAAGTAGCAGGGACTTCAGGTGCATGCCACCATGCCCAG
Celera SNP ID:            hCV599227
SNP Position Genomic:     47546
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,20)   caucasian(A,16|C,20)   total(A,22|C,40)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63225):
CCTCAATTCTTTATTTAAATTTTTTTTTAGAGACAGGGTCTGGTTATGTTGCCCAGGCTGAAGTACAGTGGCTATTCACAGGTACGATCATAGAATAATA
Y
GGCTTTGAACTCCTGGGCTCAAGTAATCCTCCTGCTTCAGTTTCCCAAGTAGCAGGGACTTCAGGTGCATGCCACCATGCCCAGCTCCTCCCATCCTTAA
Celera SNP ID:            hCV599228
SNP Position Genomic:     47562
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,4)   caucasian(C,30|T,8)   total(C,52|T,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63226):
CCTAGTCACCTCAAATTTGAAAATATCCAGATGTCCATCAACAGTCAAATGGATAAACAAATTATGGTATTTATCTAATGGACTACAGTGAAAATTATCT
R
TAGCTAACAACAATGGCTGAATATCACAAACATAATGTTGGATGTGGAAAAAACTAGACACAAAAGGTTTCATAGTGTATAATTCCATTTGTATGAAGTA
Celera SNP ID:            hCV1582900
SNP Position Genomic:     129363
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63227):
CCAAGAGAACAGGTCCAGGCTAGTTTACTGAAGGATTATTAAAGATCATATGAGGCTGAGTCAAGTTGTCCCAGATGGGACTTCATACGTAAGAAAGAAC
Y
CAGCCAAGATTAGCAAAGCCAGCCACCAGCTAACCTGTAGCTAACCATAACTGTGTGAGCAAGCCCTATAGAGAAAAAACAAGCCTGGCTCAGACTAAGA
Celera SNP ID:            hCV599229
SNP Position Genomic:     51964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63228):
TGTCTCTTCTTTTATTTCTATACTAATAGACTCCCAAACTCTCATGTAAATGAAGTCTTGTGCCGAGACCAGCTCGGTCGGGGAGACCCTAACCCAGTGG
Y
GCTAGAGGAATTAAAGACACACACACAGAAATATAGAGGTGTGAAGTGGGAAATCAGGGGTCTCACAGCCTTCAGAGCTGAGAGCCCCGAACAGAGATTT
Celera SNP ID:            hCV1582902
SNP Position Genomic:     129697
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63229):
TCGGTCGGGGAGACCCTAACCCAGTGGCGCTAGAGGAATTAAAGACACACACACAGAAATATAGAGGTGTGAAGTGGGAAATCAGGGGTCTCACAGCCTT
Y
AGAGCTGAGAGCCCCGAACAGAGATTTACCCACGTATTTATTAACAGCAATCCAGTCATTAGCATTGTTTCTATAGATATTAAATTAACTAAAAGTATCC
Celera SNP ID:            hCV1582903
SNP Position Genomic:     129770
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63230):
TCTTTATCAGCAGCATGAAAACAGACTAATATACCTCTTCTAATGAAGGAAGCAGAGATATGGACCATACCCTGTGTTCTTCCTATAATATACGGGATGT
R
TACTGCCAGTACCACAATTTGCTAAACCTCACAAATTGTTGGGTGTTGTAAGGAGGTGAAGAAAGTTCCAATTTATAATCATCTACTGTATTTGGCCTGC
Celera SNP ID:            hCV9753692
SNP Position Genomic:     97406
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63231):
CTTGTGGAACTGTAAGTGCAATTAAACCTCTTTTTCCTCCCAGTCTCAGGTATGTCTTTATCAGCAGCATGAAAACAGACTAATATACCTCTTCTAATGA
R
GGAAGCAGAGATATGGACCATACCCTGTGTTCTTCCTATAATATACGGGATGTGTACTGCCAGTACCACAATTTGCTAAACCTCACAAATTGTTGGGTGT
Celera SNP ID:            hCV9753693
SNP Position Genomic:     97352
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63232):
TCCTGGATCAATGCCATGGCTCCATGGAAGGCGATGGATAGTAGATACATATTAAAATATCTATCTGTAACACTAATTTGTTACCATTATGAATCCTTTC
R
GCTGCATTTGAGGAAAAAGTAGTTGGCTATTTAGAAGTGTGTACATCATTGTTAGTCATTCTTACAGATAAAAACATCTTGGGTCAGCCCACTCTGTCCA
Celera SNP ID:            hCV1582907
SNP Position Genomic:     133934
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63233):
CCTAAGAGCAGCAATAAATTTGCACATTTGCTTAATCCTACATCATACACAAAATACTTGCAGAATTCCCATGCTCACAGCACTGCTAAAAACAAACCTG
Y
AAAGCATTCAAGATTTGTTTGCAGTTTTTTGTCTCTAAAGATATATAGTCAAATTACTGTTTTCAAAAATTATTTGGATTAGTTCTTCATTTGAAGAAGT
Celera SNP ID:            hCV1582908
SNP Position Genomic:     135682
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63234):
TTTTTGTCTCTAAAGATATATAGTCAAATTACTGTTTTCAAAAATTATTTGGATTAGTTCTTCATTTGAAGAAGTATTCATTTGAAATAGGTTTTCTTGT
Y
CGTGAATTTTACTTTTTTCTCATCCTTTTTGACTTTTTAAAATGAGATAAGCCATCATTATGGTTCTAAAAGTCAAAACTGTTGCCAAAAAAGGATACTC
Celera SNP ID:            hCV1582909
SNP Position Genomic:     135808
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63235):
AACATAAAATAGTGGTAAAAGACTGAATGCTTTCCCCACTAAGATTGTGAGCAAGGAAAGGATATCCACTGTCATTGTTCTTATTTGATATCTTAATGGG
M
AGTCTTAGCCAATGCAATAAGGCAAGAAAAAAGACATAAAAGGCATATGGATAGGAAAGAAAGAAATGAAACTGTCCCCATTTGCAGATTACATGCTTTT
Celera SNP ID:            hCV11281620
SNP Position Genomic:     18642
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,12)   total(A,12|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63236):
CAGCAGGATTTATTTTTTGTAGATATAAACAAGCCAGTTCTAAAATTTATATGAAAAGGGAAAGAAACTAAAATAGCTAAGATGATTCTGGAAAAGAACA
R
TACCATTGGGGAAATCATGTTACCTGAATATAAGACTTACAATGAAGCTACTGTAATCAGGACAATGTAGTATTAGTGAAGGGAAAGACACATCGATCAA
Celera SNP ID:            hCV11281625
SNP Position Genomic:     19212
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63237):
GCTGGTTCGAACTCCTGATTTTGTGATCCGCCTGCCTCGGCCTCTCAAAATGCTGGGATTACAGGCATGAGACACAGCACCCGGCCAAGAGCACTTATTA
T
TATTTATTTATTTATTTGAGACAGAGTCTCTCTCTGTCACCCAGGCTGGAGTGCAGTGGGGTGATCTCAGCTCACTGCAAACTCTGCCTCCCGGGTTCAA
Celera SNP ID:            hCV11281628
SNP Position Genomic:     22885
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,11)   total(-,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63238):
TGGTATATAAGGCCCTCGATAACTATTTGATAAATAAATGAATAAAGGAATCTTGTTAATAAGAATACAGAGAATTAACAACTACACTGAATTTGCAGGG
Y
TATCTTGATTCCTCTCTCTGAAAAATAACTATTGTTATTGTCATTTAAAAGTATCATCTGCCAAACATTATATGTATCCCACAAGAGATGCAGTGAAAAC
Celera SNP ID:            hCV599230
SNP Position Genomic:     52535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63239):
ATTAACAACTACACTGAATTTGCAGGGTTATCTTGATTCCTCTCTCTGAAAAATAACTATTGTTATTGTCATTTAAAAGTATCATCTGCCAAACATTATA
Y
GTATCCCACAAGAGATGCAGTGAAAACTTTCAAAATCTCTACTTTAGGAGGGAAAAAGAATGGGGAGGTGGGAATCCTTTAGTAAGAAAATGCTTGTATG
Celera SNP ID:            hCV599231
SNP Position Genomic:     52608
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63240):
GACCTTATGTAGAAACCTATTTTTTACATTTTAATAAACACTGCTTTATGTTCTGCTTTTAAAAATTAATTTTATATCCAAAATATTTTGCTGTTGAAAA
Y
GAATAAAGCTAGAGGACTCAGACTTTCTGATTTCAAAACTTACTACAAAGATACAGTAATCAAAAGGGTGTGGTACTAGCATGAAAACAGACATACAGAA
Celera SNP ID:            hCV599232
SNP Position Genomic:     56329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63241):
AAACTGGAAGCCTTTATATGATATCATTGATTAAAATATTTGATGAAAGTATCCTTTATCTAATAAAGTTTACTAATGCATTTTAACCTAATTATAGAAT
Y
ATATTTGATTTCTCTTTAATATACCAACCTTCAGTGGAAATTTTATTCAAAAGATTATTTTTTCTTATATGGTATTGTGAGTAAGAAATTAGGAAAATGG
Celera SNP ID:            hCV8904877
SNP Position Genomic:     120633
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63242):
TCTGTAATCTCAGCATTTTGGGAAGCCAAGGTAGGAGGATCGCTTGAGCCCAGAAGTTCAAGGCCAGCCTGAGCAACATAGCGAGACTCCATCTCTACAT
T
CAATCAATCAATCAATCAATCAATCAGCAAGCAAGCAAGCTGGATGTGGTGGTGTGCCTGTAGTCCCACTACTCGAGAGGCTGAGGTGGGAGGATCACTA
Celera SNP ID:            hCV26466566
SNP Position Genomic:     132449
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63243):
AAAATTGAGGTAGCCAGAGATTATATGGGTTCAGAGTTTTATAAGGAGTTTGTAGCAATATTAGGTCTAGAGTCCAAGACATTTGGCCTCTACATTTAGA
M
CAAGTTTCTAAAAGAAAATGTACTCAGGGTACGAATTCAAATTTTTTATTATCTGTGATACAATGAGGTTCAAAGTTGGGCTTGTGGCAGAAGTTGAAGT
Celera SNP ID:            hCV599233
SNP Position Genomic:     59229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63244):
CCTATAGAAACTTAAAAAAGCCATTAAAGGTTGGGGGAGTGGGGTGGATATCAAACACCTGTAATTTCTCCTTGGCCGTCCTTGTCCTCAGGTTGATTTA
R
GTACCCCCTCTAGTGTAACCTGTTCCTTAGTTTATTTCAGGATTAAGTAAAATGCAAAGTAACACAGCTGGGGAAATTTTTGTATCAAATAGGAATTGAC
Celera SNP ID:            hCV8904878
SNP Position Genomic:     77346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63245):
CTGTAATCTCAGCATTTTGGGAAGCCAAGGTAGGAGGATCGCTTGAGCCCAGAAGTTCAAGGCCAGCCTGAGCAACATAGCGAGACTCCATCTCTACATT
C
AATCAATCAATCAATCAATCAATCAGCAAGCAAGCAAGCTGGATGTGGTGGTGTGCCTGTAGTCCCACTACTCGAGAGGCTGAGGTGGGAGGATCACTAG
Celera SNP ID:            hCV26466567
SNP Position Genomic:     132450
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,8)   total(C,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63246):
GGGGCTTACTCTAATTCTAGACATGACTGGTCTTAGCAAGGAAGGTGAAGCTATTCCTCTCTGAAAGGAAAATTCCTGACATTCCTTGACCATCACAGAA
Y
CTAAGTAAATGGATAGAATTCGGGATTTTAAAAAGAATAATAATGCAGTAACTAAGTATGGCCAATGGAAAGTAATATGCGTATAGTACCTGTAAGGATC
Celera SNP ID:            hCV599234
SNP Position Genomic:     62536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63247):
TGTAATCTCAGCATTTTGGGAAGCCAAGGTAGGAGGATCGCTTGAGCCCAGAAGTTCAAGGCCAGCCTGAGCAACATAGCGAGACTCCATCTCTACATTC
A
ATCAATCAATCAATCAATCAATCAGCAAGCAAGCAAGCTGGATGTGGTGGTGTGCCTGTAGTCCCACTACTCGAGAGGCTGAGGTGGGAGGATCACTAGG
Celera SNP ID:            hCV26466568
SNP Position Genomic:     132451
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63248):
GTAATCTCAGCATTTTGGGAAGCCAAGGTAGGAGGATCGCTTGAGCCCAGAAGTTCAAGGCCAGCCTGAGCAACATAGCGAGACTCCATCTCTACATTCA
A
TCAATCAATCAATCAATCAATCAGCAAGCAAGCAAGCTGGATGTGGTGGTGTGCCTGTAGTCCCACTACTCGAGAGGCTGAGGTGGGAGGATCACTAGGG
Celera SNP ID:            hCV26466569
SNP Position Genomic:     132452
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,8)   total(A,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63249):
ATCATACACTGGGGAAGAGGAGAAAGCAAATGCACATTAGTAGGCAAGGAACAGACTGATAGATGGAATATATTTCCTATTGATGGTTACGCATTTTATT
K
TTTTGAATCAGATTGACCAGCCTCAAGTGACCTAGTGAAATGTAGCCGTGATTCAATGAGGAGTTCATACTCTGTGTGAAAATAAAATGTTACACAAGGA
Celera SNP ID:            hCV25965059
SNP Position Genomic:     66405
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(G,1|T,39)   total(G,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:63250):
AATACAGTTCCATGTTCTAGGTTTAAAAATGTTTTTTTCTTCACAAAACAAGTAGTTAATGGCATGTCAATAAAGCCCATTTGTAAAAAAACAGCTACAC
R
TTAATATTTTATGTGAACTTCCATATCCTTTATGTTTTGCAAGGAATATATATAATTTACTGCGATTGGCTTTTCTTCCTCTTGGCAATTTGCTGCTGCT
Celera SNP ID:            hCV1582910
SNP Position Genomic:     136272
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63251):
AGTTGATCTTTAGAAATAATGTTTTCCAAGCTGCTTTTGAAGACAGTTAAGTAGGCAGCTCTACAATTCATATAAAATATTTCCTCTTCAGTTAGTGGAA
W
TTTCTTTGTTCGAGGACTCTCTGAAGGTGTTGATTTCTGACTGGAGAAAGTTGCATCGCTTCGTGGACTGATCGCCATTCTATTGGAAAATAATTTAAAA
Celera SNP ID:            hCV25971549
SNP Position Genomic:     74071
SNP Source:               Applera
Population(Allele,Count): african american(A,31|T,3)   caucasian(A,38)   total(A,69|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:63252):
AATTTTAATATGGAGGAAGTGGAGATTGGGTTAGGCTGTCATGTTGAGCAGAAATTTGTGAAAGAAGATTCATTAAATTAGGTACATGGAGAGTTAAGCA
R
CATTGGGTGCTCAGCAAAATCATACTTCTAATATTGACTGTCAATTCTACTGTGAGACTTTTTTTTTTTTCCATAGTACTGACAGCTTAGACTAGGAGCA
Celera SNP ID:            hCV1582912
SNP Position Genomic:     140850
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63253):
TTATGTTTTCTTAATTTATCTTGAAATGGCAGGCAACCACATCTGCAAACCTCAATCCACAATGCATATCAAGCAATTCAACTTTTTCTTGTAATGTCAT
K
ACTTTGCTATGCTTCTTAGGAGCACTTCCGGCATCACTAATGTCACTAGTGGCATTTTGAATGGGTCCCATAGTGTTAGACAAGGTTTACAATATTCCAT
Celera SNP ID:            hCV1582840
SNP Position Genomic:     17444
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,10)   total(G,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63254):
CTGGACCAGGTCTTTTTTATTCTGTTCATTGATCCATCAAATAGTTACTGGGTCCCTCCCATAACTGCAGGCACTTTATTAGTTAACACAGGTTGTAACA
R
TAAATAAGGTAGATACCGCCCTTGCCTTCACGGAACTTACAATATGGTAAGGGAGACCTATGTCAAACAATTGGAAGTTACAAAAAAGGAGGGAAATCAA
Celera SNP ID:            hCV1582913
SNP Position Genomic:     141251
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63255):
CATAATTTTTAGCTTTTTCATAATGCTATCAAAAGTCTCTTGTTTCTTGTTCGCATACTTAGATAAAATTTTACTTAGTTGAAACTTACTGTACATATAC
R
TTGTATATCAAAATTTTAACATATTTGTCTTATTTTTAATAACAAAAATGTCAATGACTAACACTGATGTAATCTTGAAAAAGCATTTAAATAGAATTTC
Celera SNP ID:            hCV1582914
SNP Position Genomic:     143787
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63256):
TCAATAATTTTTATATTCATTATATGTTGAAATATTTTGAATATATTGATTTAAATACTTAAACATGAAAATTATTAAAGAAAATTTACCTTTTTATTCC
Y
TTTAGTGTGGCTACTAAAAATTTTAAATTACATATATGGTTTACATTATTTTTCTATCAGACTGTGTTGATATAGATTATCACAAACAGCTGTGGGGTCT
Celera SNP ID:            hCV1582915
SNP Position Genomic:     144144
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63257):
ACACATTCACACCTTCACACCTCAATAAGCAAAGTAATCATGAACTGTAAAATACCAAAACCTTTAGACTAATACAGGAGTGATTAATAGTACCTACATG
W
ATGCCATTTAGCAATTTCTGCAAGTGGAATTAGGCCTTAAAATGGGTGGCCGTGTTTTCAGCCTACCACTTTTAAATACCGATGACTGCCATTTATTGAG
Celera SNP ID:            hCV1582916
SNP Position Genomic:     146675
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63258):
GAGCCACCGTGTCAGGCCTACCCCTCAGACTTTCAATAATGATTCCTAGAGTTCCTGGCTCACACATTACCTCACCACATGAATCTCATCTATATCCTCT
R
AATCAGGTCCACTATTTGCTTTATTTTTCCTCAAATCATTACAGTTCTTTTTTCCCCCAGAAATTAAGCTAGGCTGAGCATCAAAGATAGGCTTTATAAG
Celera SNP ID:            hCV656998
SNP Position Genomic:     23622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63259):
TGTGAAGCATATACAATATTGCTTGACACGTAGTAAGTGCTAAATAAACTGCAGATAATGAGAAACTCCAGAATAATGAGAATCGGGATATGAGTGGTAG
Y
TGACACCCATCTTCCACAGCAGGATCAACAAGATCATTTCATTAACATCTCAATAATGCAGCCCCACATTTCAAATAGCTATATTTTAAAAGTCTTATTT
Celera SNP ID:            hCV1582843
SNP Position Genomic:     74675
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63260):
CTGTTAACAAGCGCCTAAGGCTTCTACAGGGCCAAGTGAAAACAGAAAGCCGTCCAGTCACCGTCCCTACACAGTGAAATACCGTCACAGGTAATCTCGG
R
CACCATCTCTCTATTTTTGTATTCCTCTGGAAATAAAACCGCATTTACATGTACATTTTAGGTACATACATGGACCAAATGTTTATGACAGAGAAGTAGA
Celera SNP ID:            hCV1582844
SNP Position Genomic:     75908
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,9|G,29)   total(A,13|G,61)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63261):
GCTGGGATTGCCAGCCAGTCAGATCTAAAGGCCAGCTGGGTCATGGCAGGGCTGCAGCCATGGCAAGACTCCTCCAAAGCTCATGTGGGAAGGGAGCTGA
R
TAGGCTTCCTGAGCTTTTCAGTTGAACAACTAACATCTACTGTGATGCCAAGAATTTAAGAACATGAAAGGTGGCTTTTTCTTGGATGTGGCTTGGGATC
Celera SNP ID:            hCV1582917
SNP Position Genomic:     147245
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,331|A,1138)   total(G,331|A,1138) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63262):
CTGGGTCATGGCAGGGCTGCAGCCATGGCAAGACTCCTCCAAAGCTCATGTGGGAAGGGAGCTGAATAGGCTTCCTGAGCTTTTCAGTTGAACAACTAAC
R
TCTACTGTGATGCCAAGAATTTAAGAACATGAAAGGTGGCTTTTTCTTGGATGTGGCTTGGGATCTTTTTAAAAAAAAAAAAGAAAGAAAGAAAAGAAAA
Celera SNP ID:            hCV1582918
SNP Position Genomic:     147280
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,333|A,1144)   total(G,333|A,1144)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63263):
CATTGTTAGTAAATTAAGTGTTTTTTTTTTTTTTTAATGTGGTTACTGGTGAGGTCATAAATGAGTGGTGCAAATAGTTATCTTGGCAAGTTACATATGC
R
GGTGGATTCATTTTTAAGTGATGTTGAAATGGTGACTATTTGGTATGTATTTGGAAGACTAAATGTGTAATATAACTTATGGGAGGGTGTGATCTATCTT
Celera SNP ID:            hCV1582845
SNP Position Genomic:     78529
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63264):
GGTTATATATGTATATGATAAGATTATTGTTAAAAGGCAGAGAAATGATAAATACAGAGAAATGATAAATACAGTTTAATAGATGCCTTTTGGGGGAAGC
M
AATAGATGCATGTATACCCAGTCATATTGGTAATGATCTAGTTCTTAAATTATGTGGTGAGTTTATGCGTGCTTATTTTCTAATGTTTTATAACTTGCAC
Celera SNP ID:            hCV1582846
SNP Position Genomic:     78959
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63265):
TAATAGAGGAAGGTATAATAGAGCCTTTTTGGCTGAGCGTGGTGGCTCTCACCTGTCTATTTAACTTAGAATTTTTTGACTTCATAATAGTGTGAAAGCA
R
TATGCATTCAGTAGAAACTACTTTAAGTACCCATACAACCATTCTTTTCTTTACTTTCAGCACAATATTCAATAAATTACATGAGATGTTCAACACTTTA
Celera SNP ID:            hCV1582849
SNP Position Genomic:     80320
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63266):
ATAGTGCTACAATAAATGTACAAGTACATTTGTCTTTTTGATATAATGATTTATTTTCCTTTGATAGATACCCAGTAGTGCGGTGGTTGCTGGGTAGTTC
Y
TTTTTTTTTTTTTTTTTTTTTTTTAAGTTGGAGTCTTGCTCTGTTGTCCAAACTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCCG
Celera SNP ID:            hCV11281700
SNP Position Genomic:     83872
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2|-,3)   total(C,2|-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63267):
ACCTTAATTTGTGAGTAAAACTCTAGCTTTTTGGCTTTTTGCTGCCCTCTCCTGGTCACAGTTTGTGGTTCTTGACCACTTCAGGCCCAGTGGTATCAAG
Y
GCAAGGACAAGTTTTTTGTCTTCTAAACCCCGAAGAGTAGAGAATCAAAACTAAAATTATGATTAAGTAATTCACACTTTCTTTTAACTTGAGTATTATA
Celera SNP ID:            hCV25972782
SNP Position Genomic:     42189
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,30)   total(C,57|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63268):
TTCTTGGACCAAAGAAAATACCTCCTTCCAGTCTCACAAGCCCATTCTATTCTGTCATCATTTCATAACCTCTTCCATGTAGGTTACAAGCCATTAAGCC
Y
GCCTCATAGAACCTCTCATTTCCTTTCCATCATGGGACTCTACCCTCAAGGAAATCACTTCTCAGTGTTCCAGCTGCAATTCTACTACCTCTCAGGGATT
Celera SNP ID:            hCV11281630
SNP Position Genomic:     25442
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63269):
AACTAAATAAAATACTTTGTACCCAGATTGTGCTCTATATTCACTAATATCCAAATGTTTAATTTTCCTAATATTTTAAGAGAAAAAATTGGAAACCTTT
A
AAAATCATATAAAAATTACCACTCCCAGTTTGAGTTAGAAACCTGAGGAGAAAAAATAATTATGCATTATAAACATTATTAATGTGATGGGATACTTAAT
Celera SNP ID:            hCV11281633
SNP Position Genomic:     31029
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,13)   total(A,13|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63270):
ACCAACTATGGATCTAGATAGAAACACTAATACTGAGATACTTATGACCTCAGTAATCTTAAATGCAGGTAAATTGGTGAGAAAGTAAATTAAAACAAAT
M
GCTAGTCAATAAGTAGGCTCCTCCAAATTCACATATGAATGCCATTTCAATAAATGGGTTTTATATGGAATTTTTCTTTGGAAGACACACTGGTATTTAA
Celera SNP ID:            hCV11281706
SNP Position Genomic:     91887
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63271):
TAATCTCAGCATTTTGGGAAGCCAAGGTAGGAGGATCGCTTGAGCCCAGAAGTTCAAGGCCAGCCTGAGCAACATAGCGAGACTCCATCTCTACATTCAA
H
CAATCAATCAATCAATCAATCAGCAAGCAAGCAAGCTGGATGTGGTGGTGTGCCTGTAGTCCCACTACTCGAGAGGCTGAGGTGGGAGGATCACTAGGGC
Celera SNP ID:            hCV26466570
SNP Position Genomic:     132453
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3|A,3|-,8)   total(A,3|C,3|-,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63272):
AAATAACCAAAACTAATCAATACTGCTAAAAGTTAGTAGTTATTCTTAGTTTCTGGGATGTTGTCAGTGTTCTCTTTCGTGATCTGGGTACTAACTGCAA
Y
TGAATGAGCTGTACACTTATGTGTACCCTTGTCTCTTCTTTTATTTCTATACTAATAGACTCCCAAACTCTCATGTAAATGAAGTCTTGTGCCGAGACCA
Celera SNP ID:            hCV11850796
SNP Position Genomic:     129567
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63273):
TCCAAAACATATTTTATCTGTTTTGAGAATAATTGTGTAGGTTGCAGTATGCATATTTTAAATGAAATGGAACCATCTGAACTTTACATTGTTCAGTGTT
Y
CAGCTGTTTGTAATAGAAAATATTTCAGAATTTCCAACTTTGGTCTGTTTTAAAAAGCATAAACTACAATGTTCCTGTATTCTTTAGTTAACTTTCTGTA
Celera SNP ID:            hCV1582924
SNP Position Genomic:     149791
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63274):
ACGACTTTTAGGAGAAACAACAGAAATTCCCCCTATGCTTTAACATTCTGGGTTTATCTGGAGATAAAAAATGAAGCCATTAATTTTGATAGCACAAATA
Y
ACATTAATGTACAACTATAGTCCTCAGCTCTTTATAATGATTCAGCTATCATGTATGCCATATGTGAATCATAACCTTTCCTATTAATAATGTTAATGCT
Celera SNP ID:            hCV1582925
SNP Position Genomic:     150330
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;JBIC-allele(C,140|T,1325)   total(C,140|T,1325)
SNP Type:                 INTRON


Context             (SEQ ID NO:63275):
CTGCACCCAGGTGAAATAAACAGCCTTATTGCTGAGAAAAAAAAAAAGAAAAAGATTTCCTACTAAATAAGAACACCACACAATGAAAGCATTATTTATA
K
TTTAATAATAAAGTACATACCATGGACATAAAATGAAAATGCATATAAATTGAATAGATTATTATTTAGGTACATCAGTTAAGTAGCATTTAGTTGTTTA
Celera SNP ID:            hCV25960993
SNP Position Genomic:     27062
SNP Source:               Applera
Population(Allele,Count): african american(T,20)   caucasian(G,2|T,36)   total(G,2|T,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:63276):
GATTTTCTGAGGTGTCATTCCTGGTTTTTTATTAGGAATCAAATGATAGGGTTTTTTTTTCCTAGAATAATTTCTTTAATACTGTAACTGATGTTAGTCA
R
TAACATTGTGTAATAAAACTCATCTGCTTTTTCTGTTCTGATGAACCAGAGAATCCTATTCAGGATACTACCATATGTTAAGCTAAATAGAAAAGAGGTC
Celera SNP ID:            hCV1582854
SNP Position Genomic:     87353
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63277):
CCAACTTCCCTACCTGCACAACTGCTCCAGCCCTCTGTCACACTTCAGTGATTATTCCTCTTGACCTGTAATTGTTCAGTGGGGAGGACTGTCCCATACA
R
ATTCACTCCCAGAGCCTTTAAAAAGTGAAGCCTTTGTGAAACAATGCTAGAATAAGAGAGAAAGTAAGGGTGACAGCAACCCAGAGGCCACAGCCAGAGT
Celera SNP ID:            hCV1582928
SNP Position Genomic:     156922
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63278):
AACATTGTGTAATAAAACTCATCTGCTTTTTCTGTTCTGATGAACCAGAGAATCCTATTCAGGATACTACCATATGTTAAGCTAAATAGAAAAGAGGTCA
R
TCTTAGAGAATAATATAATTATACAAACATAGTTACTCTCTCTATAAAATTGCATGTCACATGCTTTCTATCTTTTTAAAATTCTCAACAGCAGTATTTC
Celera SNP ID:            hCV1582855
SNP Position Genomic:     87455
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63279):
CTGCATCCTTGACCTCCTGGGCTCAAGCAGTCCCTCTGCCTTGGCCTAGGAGTACAGGCATGAGCCACCACCCCCAGCCTTATTAGGTCATTTTTAAAGA
W
CTCTTCCCACATGCCCTGTGGTAATGTATGCCATTAGTTGCCAAAGGCTGCTTCCTTCAAGGGCTTTCTCTCACAGAAGGGTTCTAAGGCTGAAGAGACA
Celera SNP ID:            hCV1582929
SNP Position Genomic:     158061
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,6)   total(A,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63280):
AGGATACTACCATATGTTAAGCTAAATAGAAAAGAGGTCAGTCTTAGAGAATAATATAATTATACAAACATAGTTACTCTCTCTATAAAATTGCATGTCA
M
ATGCTTTCTATCTTTTTAAAATTCTCAACAGCAGTATTTCTGGTAGCAACCAGAATTTTGATCCCAGTGAATCTAAACCTAGTATACCTAGAAATATAAT
Celera SNP ID:            hCV1582856
SNP Position Genomic:     87515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,3)      total(A,2|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63281):
TGAATAAGATTTTGTTTTATATATATATCACATTTTGTTTATCGGTTCATCTGTCAGTGGATATTTGGGTTGCTTTTCTACCTTTTGGCTATTGTGAGCA
R
TGCTGCTGTGAACATTGGTGTACAAATATCTGTTTGTGTCCCAGCTTTCAATTATTTTTGGAAGTGGAATCATGGAATCATATGGTAATTCTATTTTTAA
Celera SNP ID:            hCV1582857
SNP Position Genomic:     88217
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63282):
GTGTTGTAAAAGAGTGGTTGGGCCCAGTTCTAATATAATATTAAGAATAGATGGTCATAAACTCTGTAGTGGGTTTGCTCTTCTCTTCCCTTCTTTAATT
Y
CCTTCCCCTCAATTCCATAAAGATTTATTATGCACAGGGCCTGAGATCTGAGTTTCTCTCCCTCAAGATGTGTGACAATAGGCAAGTTGCACAAACTGTT
Celera SNP ID:            hCV1582858
SNP Position Genomic:     88951
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63283):
TCTGTTTCTTTGGTCAGAATGGTTTTTTGGTAGATGAGTAGTCCAGCTTGAAATGAAATACTGTTCTTTCCTACCCCAAAGCTGTTCTTTGGGAGATGGT
M
ACATTGTTTAAATGGAAAAGAATGACCGTTTCAGAACCCGTTCTCTTCATGAAGTAAATTGTCATCATGGCAGGCCTTCTTTGTATTTTTTCTTCAGATG
Celera SNP ID:            hCV1582859
SNP Position Genomic:     92263
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63284):
AGCCAGACTGTGTCTCAAAAAAAAAAAAAAAATTGTAGTGGCCCAGAATGAAGTAGGAGTAAGCTTAGGAGTTGCAAATCTGCAGCTGTTTCCTCAACTG
C
CCCTTTTGCCCATAATCATACCCGTTGCTTGGAATAGTTCCCGGCTCCCTATCTCAAGAATGGGTTATGAGTAGACACATGGAAAAGCCCTGCCCTAATC
Celera SNP ID:            hCV11281710
SNP Position Genomic:     103696
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,8)   total(C,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63285):
GTTTTGGTTACTGTAGCCCTGTAGTATAGTTTGAAATTAGGTAGCATGATGCCTCCAGCTTTGTTCTTTTTGCGTAGGATTGCCTTGGCTATTCGGGCTC
T
TTTTTTGGTTCCATATGAATTTTAAAATTTTTTTTCTAGTTCTGTAAAGAATGCCAATGGTAGTTTAGTGGGAATATCATTGAATCTATAAATTGCTTTG
Celera SNP ID:            hCV11281640
SNP Position Genomic:     35000
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,8)   total(-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63286):
ACGAAAAATACAAAAATTAGCTGGGCATGGTGGCACACGCCTGTAGTCCCAGCTACTTGAGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGA
S
GTTGCAGTGAGCAAGATCGCACCACTGCACTCCAGCCTGGCGACAGAGCAAGACTCCGTCTCAAAACAAACAAACAAACAAACAAAAATGAAATGTTTAC
Celera SNP ID:            hCV11281645
SNP Position Genomic:     46299
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,8)   total(G,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63287):
TAAAAGCAGAATTTACAAACATTTTGTTCCTTGCAGTACACCTTTCAAAAGACATCTTCATCAAATAGGTAAGAAAGGTAAGAATTGCTGAGGTAAGTAG
W
GGTCTCTTTTATTATGGTCTTCATTCTATCATTATTAAACCTTAATCTCATGTCCTGTTCCAAAGCATTATGTGAGTATTCAATCAAAGAAGTGAGGCTG
Celera SNP ID:            hCV8904890
SNP Position Genomic:     50453
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63288):
AAACAAGACTTCAGGTTGTTTTAATTTCATTTTGCTTCAACATTTATTCTGCATCATATACTGTGGCAAGTTGCTTTGAATTGTTTTCTGAAAAAAAAAA
M
CTTTCTTCTTTCATATAGCATCACGTCATCTTGACAGCTATGAATTCCTTAAAGCCATTTTAAACTGAGGTACTGTTTCACCTTTCTAATTTAGTTTAAC
Celera SNP ID:            hCV26466584
SNP Position Genomic:     153127
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,7)   total(A,5|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63289):
GCCGAGACCATGCCACTCCACTCCAGCCTGGGGGAGAGTGAGACTCCGTCTCAAAAGAAAAAAGCAAATGAGAGGTTGCCAGCAGCATCTAACTAAACTA
K
GTACCAAACTAGATTGTTATTAGGTGTTAAAATCACTTCTTAAGTCATGTATGACGTGCATGTTAACTAATTCTTGATAATATAATTATCTTTTATATCT
Celera SNP ID:            hCV1582931
SNP Position Genomic:     158783
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,7)      total(G,7|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63290):
TCAATTTACTGTCAACCTCTAGTTTTTCTAGTGTAGTCTTGAGACATTGCTCGTTGGTTGTCATATATAATTTACAAAACTACAGGAAAAAAAAAGTCCA
R
TGGGTAAAACATTCAATCATACACTGGGGAAGAGGAGAAAGCAAATGCACATTAGTAGGCAAGGAACAGACTGATAGATGGAATATATTTCCTATTGATG
Celera SNP ID:            hCV25971498
SNP Position Genomic:     66289
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,30)   caucasian(G,40)   total(A,2|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:63291):
ATACCTATTAGCAGTTAGTCTCAATTTCCTCCTCTCCCCCTCCCCCTGGAAACCACTAATCTACTTTCTGTCTGTGTAGATCTTCTTCTGAACATTTCAT
R
TAAATGGAGTCTCATAATTTTGTGTCTGGCTTCTTTCATTTAGCATAACATTTTCAAGATTCAATTTACCTGTTTCTTTCTTTGATTGTCCTTTTGATGT
Celera SNP ID:            hCV1582860
SNP Position Genomic:     98329
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63292):
GCTGAACCCATTTATTAGCATTAATAATTTGGAGATTTTCTTTTTTTTTTGTTTTGAGACAGAGTCTTGCTCTTTTGCCCAGGCTGGAGTGCAATGGCGC
R
ATCCCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAGTTCTCCTGCCTCGGCCTCCCAAGTACCTGGGACTACAGGTGCACACAACCACGCCCAGC
Celera SNP ID:            hCV1582861
SNP Position Genomic:     99389
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63293):
TAAGTTCTAAGTATAATTATTTAAGAAATAAGAGAATATATACAATAATATATCCATTCTTGTCGTTCATTCAAAGGCATTACATGTTGACAAACCTGCA
M
ATAAAAATAGAAAGCTTTTACTCTCTTTTTATATATTGTTACTTTTGGCTAATTTTTAAACAGGACAACATTTCTAGGCCTTGTATAAGAATATCCCTGT
Celera SNP ID:            hCV25970697
SNP Position Genomic:     27302
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,14)   caucasian(A,9|C,29)   total(A,15|C,43)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63294):
AGTAGAGACAGGGTTTCACCACATTGGCCAGGCTGGCCTCGAACTCCTGACCTCAGGTGATCCGCCCGTCTGGGCCTCCCAAAGTGCTGGGATTACAGGC
R
TGAGTCACAGCCCCCCCGCCCTACTTAGGGTATTCTATATATAAGATCAGGTCATCTGCAAGTAGGGATAGTTTTACTTCTTCTTTTGCAATCTACGCCT
Celera SNP ID:            hCV1582862
SNP Position Genomic:     99606
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63295):
GAGAGAAGGTGCTCTGTTACACCAGCAGGAAATAGGTGCTGTCCTGGGCCTAGAACTCCCCGCTCGCTCCTTTGCTCGCGCACACCCGGATCCTTCGTCG
Y
GGGGAGGATGTTTCCGCCCGGCCGCGGTGGGCTTGACGCAACGTCCAGCGCGCGCTTTTCATGCCTTGGCGTTTCCTTTGGCGGATTTTCTGTTTTCGGA
Celera SNP ID:            hCV25994504
SNP Position Genomic:     76436
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63296):
CCCGCCCTACTTAGGGTATTCTATATATAAGATCAGGTCATCTGCAAGTAGGGATAGTTTTACTTCTTCTTTTGCAATCTACGCCTTTTATTTCTTTTTC
R
TGCCCATTGCTTTGGCCAGAACCTCCTGAAAAATATTAAGTAGAAGTGGCAAGAGCAGACATTCTTTTCTTGTACCTGATCTTAGAGGGAAAGAATCCAG
Celera SNP ID:            hCV1582863
SNP Position Genomic:     99721
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63297):
AACCTTGCTTTCCTTGCATAAATTCTGCTTGGCTATGACATATAATTCTTTTATGCTGCTGATTTCAATTTGCCAGGATTTTTACATCTGTATTTATAAG
K
GATTTGGGTCTGTAATGTTCTGGTATCAGGATAATACTGGCTTCAAAGAATTAGGAAGTGTTTCCTCATATTTTTGGAGAGTTTGAGAATACTTGGTGTC
Celera SNP ID:            hCV1582864
SNP Position Genomic:     100147
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63298):
TACAAAATTAGCCAGGCATGGTGGCACATGCCTGTAATCCCAGCTGAGGCAGGAGAATTGCTTGAACCCGGGATACGGAGGTTGTGGTGAGCCGAGATCG
Y
GCCATTGCCCTCCAGCCTGGGCAACAAGAGTGAAACTACATCTCAAGAAAAAAAAAAAAAAAAAACGCTAGTGGAATTCACTTGTGAAGCTACCTGGTCC
Celera SNP ID:            hCV1582865
SNP Position Genomic:     100498
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63299):
TTCTATAGATGTCTGTTAAATCTAGTTGGTATATAGTTTTATTCAAATTTTCTGTTTCCTTGCTGATTTTCTATCTAGGTTTTCTATTCATTATTGAATG
Y
GGGGAATTGAAGTTTCCAACTATTATAGTTGAATTTTCAATCTCTCCCTTCCAATTCTGCCAGTTTTTGTTTTATGTATTTTGGGCCTCTCCTGTTAGAT
Celera SNP ID:            hCV1582866
SNP Position Genomic:     101593
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63300):
TTTGAACAAAGGGATGTAAGTTTATAGTGCTTTTACGGCAGGTAAATGAAACTCCCTTTCTCTTTAGCTACTATGACTCTACAATCACTACTGCAACAAT
R
CAGGACAGTGGCTCCAGATACTATTAACAAAAGCCCTTGGTAATGGGTCTAGGTCTCTAAGTCCAGAATGTTCAAAAGTTAAGGATTTTTTGTTTTATTT
Celera SNP ID:            hCV1582867
SNP Position Genomic:     102307
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,8)   total(G,8|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63301):
TTGAACAAAGGGATGTAAGTTTATAGTGCTTTTACGGCAGGTAAATGAAACTCCCTTTCTCTTTAGCTACTATGACTCTACAATCACTACTGCAACAATG
Y
AGGACAGTGGCTCCAGATACTATTAACAAAAGCCCTTGGTAATGGGTCTAGGTCTCTAAGTCCAGAATGTTCAAAAGTTAAGGATTTTTTGTTTTATTTT
Celera SNP ID:            hCV1582868
SNP Position Genomic:     102308
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63302):
AGGTCTCTAAGTCCAGAATGTTCAAAAGTTAAGGATTTTTTGTTTTATTTTATTTTTTTAGAATAGGGATCTCATTCTGTCATCCAAACTGGTGTGCAGT
S
GTATAATCATGTTTCACTGCAGCCTCGAACTCCTCGACTCAAGTGATCCTCCCAACTCAACCTCCCGAGTAGCTAGGACTGCAGGCACATGCCACCACAC
Celera SNP ID:            hCV1582869
SNP Position Genomic:     102458
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,11)   total(G,11|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63303):
GAGGCAAGAGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCAGAGATCGCACCACTGCTTTCCGGGCTGGGCTGGCAAAGTGAGACTCTGTCTC
A
AAAAAAAAAAAAAAAAAAAATTAACATTGTTATTTTTTGTGAGTTGATCCTCCAAAGAGGTTATTTACCCTCCACTCTATTAATATTAATTTGGTTTATT
Celera SNP ID:            hCV11281722
SNP Position Genomic:     117053
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63304):
AAAATTGTGATTTAATTATGTATGGATCTTGCTACAGCTGATTTTTCTCTTCTCTCAAATAATTTAATACCTTAATATAGGTATTACTTTGGACATAAAT
R
TAAACTTTTGGCACTTATTTTAAAATGCAACTGCAGGCTTTGTTCCCTTACTATCCCATCCATTAAATAGAAATTATGGCCTGACTTGCCTTCAGCTACT
Celera SNP ID:            hCV15960101
SNP Position Genomic:     109798
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,22)   caucasian(A,10|G,24)   total(A,20|G,46)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63305):
GGTGGCGCATGTCTGTAGTCCCAGCTACTTAGGAGGCTGAGTTGGGAGGATCACTTGAGCCCACGTGGTAGAGGCTGTAGTCAGCCATGATCACTGCACT
C
AGCCTGGGTGACAGAGCGAGACCCTGTCTCCAAAAAAAAAAAAAAGAATTCTTAGCTTACCAGGTGTTTTGCCTGCTATCTCTTAGGGGAAAAAAAATCA
Celera SNP ID:            hCV26466590
SNP Position Genomic:     154353
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,7)   total(C,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63306):
AAAAAAAAAGAATTCTTAGCTTACCAGGTGTTTTGCCTGCTATCTCTTAGGGGAAAAAAAATCAAAGCACAATTAAAGAATTATATTCTACCTCCAAGAT
R
CTTTTCTTTGGAAATGGTATCTCAAGTGATTAATATTAGCTTCCTGACAAGCTAGTCTTAATATTTGCAAAGCATCTTATATAGAAAATTGTGTCCGTTT
Celera SNP ID:            hCV26466591
SNP Position Genomic:     154490
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63307):
ATTAATATTAGCTTCCTGACAAGCTAGTCTTAATATTTGCAAAGCATCTTATATAGAAAATTGTGTCCGTTTTTTATGAAAACGTTTATTCTGTTGTATG
Y
AGTAACAATAGCTTATATTCTGTTGTTTGCAGTGAGTAATAGCTTATAATAATAGCTAATATTTATTGAGTACTTTCTGTTGTTTTGTTTGTTTGTTTTT
Celera SNP ID:            hCV26466592
SNP Position Genomic:     154619
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63308):
TTTATTCTGTTGTATGTAGTAACAATAGCTTATATTCTGTTGTTTGCAGTGAGTAATAGCTTATAATAATAGCTAATATTTATTGAGTACTTTCTGTTGT
T
TTGTTTGTTTGTTTTTTGAAATGGAGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGAAACCTCCACCTCCTGTATTCAA
Celera SNP ID:            hCV26466593
SNP Position Genomic:     154703
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63309):
TTATTCTGTTGTATGTAGTAACAATAGCTTATATTCTGTTGTTTGCAGTGAGTAATAGCTTATAATAATAGCTAATATTTATTGAGTACTTTCTGTTGTT
T
TGTTTGTTTGTTTTTTGAAATGGAGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGAAACCTCCACCTCCTGTATTCAAG
Celera SNP ID:            hCV26466594
SNP Position Genomic:     154704
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63310):
TATTCTGTTGTATGTAGTAACAATAGCTTATATTCTGTTGTTTGCAGTGAGTAATAGCTTATAATAATAGCTAATATTTATTGAGTACTTTCTGTTGTTT
T
GTTTGTTTGTTTTTTGAAATGGAGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGAAACCTCCACCTCCTGTATTCAAGT
Celera SNP ID:            hCV26466595
SNP Position Genomic:     154705
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63311):
ATTCTGTTGTATGTAGTAACAATAGCTTATATTCTGTTGTTTGCAGTGAGTAATAGCTTATAATAATAGCTAATATTTATTGAGTACTTTCTGTTGTTTT
G
TTTGTTTGTTTTTTGAAATGGAGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGAAACCTCCACCTCCTGTATTCAAGTG
Celera SNP ID:            hCV26466596
SNP Position Genomic:     154706
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63312):
AAGATAATCAAAAAGCAAATAAGGCCGGGCACAGTGGCTCATGCCTGTAATCGCAGCACTCTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGTTC
R
AGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACACACCTGTAGTCCCAGCTACTCAGGAGA
Celera SNP ID:            hCV26466597
SNP Position Genomic:     158535
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,11)      total(G,11|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63313):
CCAAAGCATTATGTGAGTATTCAATCAAAGAAGTGAGGCTGTTCTCCAGAATTGGTTCTCTGCTACAGGTCAAAACCGACTGCGCCAGCCTTGGCGAAGC
K
CCGCCTACTGCCCTTTGCTCCAAGTAATTTTTGGCGATTTTTAAAGTAATTTTTCCGGCGGAGTCATAGTGGCGCTATACTCTTGGATAGGTTATCCTGT
Celera SNP ID:            hCV27508700
SNP Position Genomic:     50613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63314):
GCTCTTTGCTAGTTGAGTGAGGGAATATATTAGTTAAGTGAGGAAACTGAAATTCAGATGAGTGGTGTGTCCATGATAGCATAGCTGGGGAGCAGCAAAA
S
CATTATGTGAGCCCAGGCTTTCCAATGTTAAGTCTGCGGTTCCTTCCATATACCACAGCTATCTTTCCTTTAGTGTAATTGTTTAAAGACTTCATGATTC
Celera SNP ID:            hCV1582871
SNP Position Genomic:     104246
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,7)      total(G,2|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63315):
AGAATTGCTTGAGGCTAGCAATTTGGGACAAGCTTGGGCAATGTAGTAAGACCCTGTCTCTAAAAAAATTTTGTTTGTTAAATAAGCTGGCATGGTAGTG
Y
GTGCCTATAGTCTCAGCTACTCAGGTGGGTAAAGTGGGAGGATCACTTGAGCCCAGGAGTTCAAGGCTGCAGTGAGCTGTGATAGTGCCACTGCACTTCA
Celera SNP ID:            hCV1582872
SNP Position Genomic:     104772
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63316):
AGGCTAGCAATTTGGGACAAGCTTGGGCAATGTAGTAAGACCCTGTCTCTAAAAAAATTTTGTTTGTTAAATAAGCTGGCATGGTAGTGCGTGCCTATAG
Y
CTCAGCTACTCAGGTGGGTAAAGTGGGAGGATCACTTGAGCCCAGGAGTTCAAGGCTGCAGTGAGCTGTGATAGTGCCACTGCACTTCAGTCTAGGCGAC
Celera SNP ID:            hCV1582873
SNP Position Genomic:     104783
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63317):
GTTGGAGACCAACCTGGTGAACATAGTGAAACCTTGTCTCTACTAAAAATACACAAATTAGCCGGACGTGGTGGTGGGTGCCTGTAATCCCAGCTACTTC
R
CTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGACCGTGCCACTGCACTCCAGTCCGGAAGACCCAGCAAGACTCTGTGTCAAAAAAAAAAAGAAGG
Celera SNP ID:            hCV1582874
SNP Position Genomic:     105480
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63318):
AATTGACATTTTAAAAATATACAAAAAACTTAAACTTGCCTTCAACTTGACTCAGGTTTAATGGCTTAATTGTTAGATAAACCATGGACCTCTGAGCTAT
W
TGCATCCTGTACTGATGACTAATGATTTCACCATCTTCTTCTAAGAAGAAGCAACCTTTTGATTGCATGTGTTGCCAGTCCTGAAATGAAGGAAAAAATT
Celera SNP ID:            hCV25962255
SNP Position Genomic:     53725
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,35)   caucasian(T,40)   total(A,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:63319):
TTAAAAGTTCTATAAGAGAAGCTCAAATCATAAAATTTTGTGATTTTCTGAGGTGTCATTCCTGGTTTTTTATTAGGAATCAAATGATAGGGTTTTTTTT
Y
CCTAGAATAATTTCTTTAATACTGTAACTGATGTTAGTCAGTAACATTGTGTAATAAAACTCATCTGCTTTTTCTGTTCTGATGAACCAGAGAATCCTAT
Celera SNP ID:            hCV27033600
SNP Position Genomic:     87312
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63320):
CAGTAATCTTAAATGCAGGTAAATTGGTGAGAAAGTAAATTAAAACAAATAGCTAGTCAATAAGTAGGCTCCTCCAAATTCACATATGAATGCCATTTCA
R
TAAATGGGTTTTATATGGAATTTTTCTTTGGAAGACACACTGGTATTTAACAAAACAGAAATTTACCATTTAGAAAACTTGCTACATGCTTTTTAAAAAT
Celera SNP ID:            hCV27033601
SNP Position Genomic:     91937
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63321):
ACTATAAACACCTCTACGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTCGACACATACACCCTCCCAAGACTAAACCAGGAAGAATTTGA
M
CCTCCGAATAGACCAATAACAGGCTGTGAAATTGAGGCAATAATTATTAGCTTACCAACCAAAAAAAGTCCAGGACCAGATGGATTCACAGCCGAATTCT
Celera SNP ID:            hCV27033602
SNP Position Genomic:     94507
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63322):
GGGCAAAGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAGACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCA
R
ATCAAAACCACAATGAGATATCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAA
Celera SNP ID:            hCV27033603
SNP Position Genomic:     96475
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63323):
ATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAGCTGGAAACCATCATTCTCAGCAAATATCGCAAGGACA
R
AAAACCAAACACCGCGTGTTCTCACTCGTAGGTGGGAATTGAACAACGAGAACACATGGACACAGTAAGGGGAACATCACACACCAGGGCCTGTTGTGGG
Celera SNP ID:            hCV27033604
SNP Position Genomic:     96946
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63324):
CACGTTGTGCACATGTACCCTAAAACTTAAAGTATTAAAAAAAAAAAAAAAAGAAGTGCCTTTTGCCTCCCGCCATGATTCTGAGGCCTTCCCAGCCTTG
K
GGAACTGTAAGTGCAATTAAACCTCTTTTTCCTCCCAGTCTCAGGTATGTCTTTATCAGCAGCATGAAAACAGACTAATATACCTCTTCTAATGAAGGAA
Celera SNP ID:            hCV27033605
SNP Position Genomic:     97256
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,12)   total(G,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63325):
TTGGGTGGGGCTGATTGCAGCATCTTAGAATGTGGCATTTCTTTTGTTTAGAAATGGTGTTAAATAACTCTAAGGAGTCAGGAATTATTACAAGCAGGTT
K
GTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTTTGAGACAGAATCTCCCTGTGTCGCCCAGGCTAGAGTGCGGTGGCGTGATCTTGGCTCACTGC
Celera SNP ID:            hCV27033606
SNP Position Genomic:     106268
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63326):
AATTATTACAAGCAGGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTTTGAGACAGAATCTCCCTGTGTCGCCCAGGCTAGAGTGCGGTGG
Y
GTGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTCCAAGTGATTCTCGTGCCTCAGCCTCCTGAGTAGCTAGGACAACAGGCGCGCCACCATGCCTGG
Celera SNP ID:            hCV27033607
SNP Position Genomic:     106350
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63327):
GTGATTTACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTGCCAGCAGTTGTAAATTATTATAGAAGTGGTTGTGACATCTATTTTCTT
S
CGCGCGCGCGGGTGTGTGTGTGTGTGTGTGTGTGGTGTGATCCACAGCTCACTACAGCCTCAACTTCCTGGGTTTAAGTGATCTTCCCACCTCAGCCTCC
Celera SNP ID:            hCV27033608
SNP Position Genomic:     106621
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,1|-,7)   total(G,1|C,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63328):
CACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCTGCCAGCAGTTGTAAATTATTATAGAAGTGGTTGTGACATCTATTTTCTTGCGCGCGCGC
G
GGTGTGTGTGTGTGTGTGTGTGTGGTGTGATCCACAGCTCACTACAGCCTCAACTTCCTGGGTTTAAGTGATCTTCCCACCTCAGCCTCCAGAGTAGCTG
Celera SNP ID:            hCV27033609
SNP Position Genomic:     106631
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,3)   total(G,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63329):
AGTGAGTTTAAGTAAGAGCTGAGACATTTTACAACATATAAAAATAATAGGCCGGGTGCCCATTATTATCTACTAAAAATACAAAAATTAGCTGGGCATG
K
TGGCAGGCGCCTGTGGTCCCAGCTACACAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGATGGGGAGGTTGCAGTGAGTTGATATCGTGCCACTGT
Celera SNP ID:            hCV177685
SNP Position Genomic:     123408
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63330):
AATTGTGATTTAATTATGTATGGATCTTGCTACAGCTGATTTTTCTCTTCTCTCAAATAATTTAATACCTTAATATAGGTATTACTTTGGACATAAATGT
R
AACTTTTGGCACTTATTTTAAAATGCAACTGCAGGCTTTGTTCCCTTACTATCCCATCCATTAAATAGAAATTATGGCCTGACTTGCCTTCAGCTACTAT
Celera SNP ID:            hCV1582884
SNP Position Genomic:     109800
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,8)   caucasian(A,19|G,15)   total(A,45|G,23)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63331):
GTTTCAGAGGTGCTGGCAATGTTCTGTTTTTTGACCTACATAGTGGTTACACTGATTCACTCTAGTTATTCATCAGACTGCACATACATGTTTCATATGT
R
CTGTAATATATATATCTCACATATAGAAGTCTCGAAACAGAATTTTGTCCAGAATTCTGTATGAGATTATGTCATTTGTAATCATTACATTGCTTATCCT
Celera SNP ID:            hCV1582886
SNP Position Genomic:     111003
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63332):
GTTTCATATGTGCTGTAATATATATATCTCACATATAGAAGTCTCGAAACAGAATTTTGTCCAGAATTCTGTATGAGATTATGTCATTTGTAATCATTAC
R
TTGCTTATCCTAATATGTCATCTTGTACATGTTTTAAAAATAAAAAAGCTTGATTTTTATGAAGTAACTTAAGTTCAAAATAAATGAGAAAATATGACGT
Celera SNP ID:            hCV1582887
SNP Position Genomic:     111092
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63333):
TAAAATATTATACAAAACATAATATAAAATTTAAATTACATTTTCAAGGACATTTTTGGTGTTACTCACTTCCCATCACACTTATGATAAGATCCAAAAC
M
CTTATCATGACATGGAAGGCCATATATCCATCTAACACCCAAACACCTCATCTGCCTCATTTTCTACCCCTTTTTTACACTACTTTAGCCACTCTTACCT
Celera SNP ID:            hCV1582888
SNP Position Genomic:     111347
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63334):
CTTATGATAAGATCCAAAACCCTTATCATGACATGGAAGGCCATATATCCATCTAACACCCAAACACCTCATCTGCCTCATTTTCTACCCCTTTTTTACA
Y
TACTTTAGCCACTCTTACCTTCTTGCTATTTGTCAGTCATGCTGAGCCCCTTCTTGCCACAAGGTCTTGCAGTTCTCTCCACCTGGAATAATCTTCCTCC
Celera SNP ID:            hCV1582889
SNP Position Genomic:     111427
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63335):
GTAATGATACACAGACTTTCATTTAGCTTCCCTGTAAATCTCTTGGATGGGCATATATATGGACTAACAACAGATGCTGGCATTACCTCAGACCCAATTG
C
CCTTAACATAATCAACATGACCTTGGATGGTGATGACTGCTAAAGAATAGAAATGAAAGAAATGTTATACAGCATTTAGACAAGTTACACTTTGAGACAG
Celera SNP ID:            hCV11281675
SNP Position Genomic:     59763
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,4)   total(C,3|-,4) 
SNP Type:                 INTRON


Gene Number:                 385
Celera Gene:                 hCG22499 - 145000146859721
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6W6(25231050..25243601)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12545):
GCATGGGCTTCAGAGTCAGAAGTCCAGGGTCTGTAACTCAATTCCAGGACTCTTAGAAGCTATGACTCTGTTTCCTCAAAAAAAAAAAAAATGTGAAGAT
TAAATGAGATGATCCATATAAATTATGAAGAACACTGGCAGCATATGATAAGTATCCAATACTGGCGACTCTTGCTAACTCTATATTGTACTACACAGTG
GACTAGACAGATGTGGAATTTACACTCATATACCTTGTCTTGACAAACTGCTATGGCGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGATGGAGTCT
CACTCTGTCGCCCAGGCTGGAGTACAGTGGCACAATCTTGGTTTACTGCAATCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTTCCGAGTA
GCTGGGATTACATACGTGCGCCACCACACCTGATAATTTTTTGTATTTTTAGTAGATATAGGGTTTCATCATGTGGTCAGGCTGGTCTTGAACTCCTGAC
CTCAAGTGATCTGCCCACCTCGGCCTCCCAAAATGCTGGGATTACAGGCCTGAGCTACCGCGCCTGGCCTGCTATGACTTTTTTTTTAAAAGATGCCAAC
TTATATTAGAGGGTCTTAGATAACTTCCCAAGCCTACCAATCACATATTTAGGGTTCTTAAGTAAATTCCTCCTTTGTGTTTTCTCTTTCCTCTTCTGTG
TCATACTCACTGAATCACTATTAATTTTCATTATGAAAACTTTTAAATACATACATTGGAGTTATATGACTTAGCAATAATTACAATGCTTCTAACAAGT
CATTATTACATTTGCTTATATATTCTTAGAGTATATTAGAAAATTCTTTTACATCTCTTTAAACACTGGATTTTCACAACTACCTGGTGAGGTAATCAGA
GCTAGTATTAATTATCCCAATTAGACAGGTGAAAGAGTTCTGTCCCAGAGGGAATAAATAACTTGATTGGGTTCACCAGCCTATGAGTACCAGTCTGGGG
ACTCAAACCTAGGTGTCAGTAGTCAGTGCTATTGTCATTGAAGGTCATTTTTATTATTACCAACATTAATCTTAGTTTTGTCTCATTAGAAGAGCTAAGT
GTTTTAGGTAATGTGACAGCTGTACTAGATGTGCATAAGTGTTGTAGGTCACATAGCTCGTTATCAGGAAATCAGATGATGTCTGCAAATACTCCAATTT
GCTCCACAAAGCTTTTGATCTGAAACTGTAGATTTTAGTGGTTATGTAATACAAAGCAGGGGCTCTGAACCAGGCTGTTGCTGGTTCTTAAGAATGATTT
AAACAGCACCTCTCAGAGAAATCCAGAGCATGACTTGAACTCTTATATGCCACCTATAAAGCAGATGAATAGATATCGCTCTCAATCTGTATAATAGGGG
ACAGGGGCAAGGGAAAGCACCAGGTGAAGGTGAGCTGTAACAGGACAACAACCTTCTCAGCCTAGCTTTGCACCTCACTCTAATGTGAGCTCACCTGAGC
AACCTGAACATCCATCCTCTATACTCACCAGCAATGTGTGGACACATGTAAGCATGCACCTGGCCAACCTCTAGGTCCATGAGAATTTGCCTCAACTACT
TATTGAAGATGTCCTATCTGCCTGCACCTCTCAACTTCTAATCCTATTCCAATGCTCCTTGCACTGTTATGTTTCTTGCTGACAACCCAACAGATTTCTT
TAAGGAAACTAGAATTAGAAATAGCTATGGAGCACAAAGCTACCCAACAGAATTGCTTGGATGCAATGGCTTTAAATTCACAAATCTTGCCTCTGAACCA
AAGAAAAGCATACTGTATGTGGAGACAGAAAGCTTAGATTGGTGTACCAGTTCTTGTGCTTACAGTATCCAGCAATGTTAAATAAATAGCTTAATTGAGC
TTTTGTTCATCTGTATAAAGTGGAAAGTATTCCCATCTACTTCAGTGGATTGATCAGAATTTCCAGGACAATAATAACAATATTAATATGAACAGTTAAC
ACTTACTGAATGCTTTCTCTATCATTATCAGTCGTTGTTTATTAGAATGGCCAAATTAACTGAAAATTAAGCATACACAAATCTGCCAGTACAGAGTATA
GACTCATTTATTCTCAAAGATATTAATTAATCCTCCCAATAAATGCCATGAGAAAGATGCCATTGTTATCCCCACCATACAGTTGAGGAAACGGAGGCAC
AGAGAAGATAAATAACTTACCCAAAAATCCTACATTTAGCAAGCAGTGGAGCCAGGTCTGCCTGACATCAAAGCCTATGCCCCTAAATATGGCACTTTGC
TGAGCTACATGTAATCTTTAAAATAACACATAAATATAAAATAAAACATACCATTGCTATATGCCATGAACCTTTTATGATATTCAAGCTCTTTTAAGTT
GTATGGCTTGTAAAAGGAGAAAAAAAGGAAATTATCTAAGCCAATAATATGATGCAGGATTTCCTAACCCCTGTTTTCATGTACCTCTATAGTAAATTCT
TCTCAGGCCTTATCTGACTAATGTCAGGCAAGATTCCAGACCTGCTGGGGCTAGATTTTCATTGCATTAACATCTCTCTTTCCTCCAAGAAGAATGAGAT
GGTACAAAATAAATAAATAGCAATCAGAGACATGGGAAATTTCCCTTCTCTAGGAGCTGTCCAAAGTCAACACTGGGTGATTTCATTTCTTCCATCCAGG
GCACTCCTGTAATCTCAGGGGAATCATTAAACCTCTTGAGGCCCCAGTTTCCTTGGTTAAAATGTATATGTACATAATCCCTAAAGTGCTGGCCAAGCTC
CCACCATGAGATAAGAATTTCAGGCCAACCTGACTCTATAATGGATGGCCACAGGAAAGAACATGCTAGTTGTCTGTGATGCCAAGGACTGCACACACTA
ACACCACCTGGGCACACACTAACACCACCTGGGCAAAAGCCATTGGGTGAGGAGCTGCATTTTTTTTTCTTTGAGACAGAGTCTCGCTATGTCACCCAGG
ATGGAGTGCAGTGGCGTGATCTTGGCTCATTGCAACCTCCGCCTCCCAGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCA
ACTGACCCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCAAGTTAGTCAGGCTGGTCTCAAACCCCTGACCTCAAGTGATCCACCCACC
TCAGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCACCAGGCTCGACCTAATTTCTGTATTTTTAGTAGAGACCGGGTTTCGCTATGTTGGTCAGGCT
GGTCTCGAACTCCTGAACTCATGTGACCCGCCCGCCTTGGCCTCCTAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCTGGCCAGGAGCTGCATTTT
TATGCCATTATAACTTTTCTAGTTATTTTTTTCTTTTTCTCCACCAGACAGGAGTCAAAATTAAAGTCATCTCTGTTTTTTAAGAAGTAATTCCAAAAAG
ACCCCAATCAAACCTAATTCCTTAGGATTCTGTTTTCTGAAATCCTAGGCATGACAGTCCTTAAACCAGAATGATTGCTGCTACTCACCATGGCTGGGCC
ATGCAGGGTCTTCACTGTCATGTTGCGCTGGTGGCTTACTTTGTGCAGGAAGCTCTTTCTGTGAATGTATCTTCCTGTGTATGCCTGTGTTCTATCAATG
AGAGTACCTGTTAGTTTTATAGCAATCATTGCCCCTGTTTCGATTGACCTGCTTACTGTCTTTAAGTTGTGGTTGACCCGGAGTTACTGACGAATGCAGG
GGTTTTTTTTTTTATTCCATTTCCCGAAGGGGAACAAAAGGGGGACCCTAAAGAAAGGGATGACAGGAAAAGGACCAAATTTTTCTTTCCTTCTACCCTA
CTTCCACCCCCATTGCCCACAAATCAGAGCAAAATTTTTAATTTACTACAGAGATGAACCAAGTTAGAAATTGTTGTCAAATCTTTTTTGTTCTTCCACA
AATTGCCAACACCCTTGTCACGGACCATATGTTCTACTTTCCAGTCACGCAATATGAATCGTGATTTAAATGGGAGAAAACTCATCCTTAGAGGAGCCTT
GGTACTAAACTATCTTTACCTCCATTTTATGAATGGGAAAACAAAACTAAAGAAATGAATGACATAAGTGAAAAATTCAGAAATGATATACCCTGGTAGT
TTTGTTATCTCCCTGAACTAATTATTTTTTAACCCCATGGTTAGACTCCTACTGGTGCTTAATAAATAATCACTATTCATTGTGTTGATAAAACAAACTG
TTTTCCTCTGCTCTCACACCACAACCAGCAACACAAAAGATTTCCATGACCATGTATGTGGGCATTTATCTCCATCAACCAGCAAGCAATCAATTCTGCA
TCCAACGCCAGCTAAGCATCTTCTAATCCAATTCAATTCTGACGCTATCTCCAGGTAGGTAGAGTCAGATCCCACAGGCTGAAGGCTCAGTCCCACAAAA
CTGCTCCCACTTTAAGCACCAATCACAGGTCCAAGCCTCTGGGACTTCTGACTGACTGGCCTCAAGTTCAGGTTCCCACAAACCGCTTGAGTTTGATTAG
GCTTGATTAATTTGTTAGAACAGCTCACAAAACTTAGGGAACACTAATTTATATTTACCAGTATATTCTAAAGGATATTTTTAAGGATACAAGTCAACAG
CCAGATGAAAAGGTACACAGGGCAAGGTTTGAAAGGGTCACAAGCACAGAAGTGTTCTTTCCCATGGAGCTGGGGTGCACCACCCTCCCAGCACAGGGAT
GAGTTACTGTTTACCTTTCTTAGAACTTCCACAAGTTCAGCGGTCCAAAGGCTCTTTGTATCCCATCCTCTTGGGCCTTTTATGGAGTCTTCATTGGGCA
GACATGATTACAACATGGAAAACTGTAAACAAATGTGATTGGATAAAAAGGGTATAACCTGATATTAACAGGTTGAATGAGGAAATTCAGCCAGGCCTGC
CTGTTCAGATTTTTCTTGGCCTCTCTGAGCAGCCTTCCTTCCTCCTGGGTAGAGGGGAGGACCCTTCCTGAATTGAGGGTCTTATGGCCTATGATTAGAC
AAGGTAAATCAAAGAATTTCTTTATGGTCAGCTCCAAGACAAAAGGTGTGGGGGGTGATGTTAGATGACAGGATATTTTCTGTTTCTATGGTCTTGGGGA
GAAAAGGTGGGCAGGAGAAGTTCAGAGAGGGAGATTCTTTTTTCTGAGGCCTATTTCTTAGGCCTAAAGTGCCCCAACATTACAATAAAAGACTGTCTTT
TTCACCTTTATTGCTCTGAAGCTGTCTGAAGCTGCTTCAGGAAACAAAGACAAAAAAGCTAAATACCCTAACAAAAGATATGCTTATTATTTTTATCACT
TAGGATATAACGAGGGCTGTGGGAGTTATGAACCAGGAGCCATGGACAAATATACATATATGTAAAATCACATTGATGCAACACTTAAATGCCCATTACC
TTGGCTATCTCTAAGAATGGTTTTTTTTAACCAAAATTAATTAGCAAGTAGAAGCCTTTAAATGCAAGATTGGCAGCCCTGGCACTGCAGCTGGGGCAGC
AGAGCCAGGACGGCCCAGGAACTGACAGACTGAGGGATAGGCAGACTGACCATAGCCGACCAGCCAAAGCCCATCAGCCTGCTCAAGAACCTGCTGGCCA
GTGGCTTTGGTGGCATGTGCCTGGTGTTCATGGGGCACCCTCTGGACACTGTCAAGGTCCGACTGCAGACACAGCCACCGAGTTTGCCTAGACAGCCTCC
CATGTACTCTGGGACCTTTGACTCTCTCCCAAAGACTCTTAGAAGGGACATCACAGGGCTATATAAGGGAATGGCTGCCCCTATCATCGGTGTCACCCCC
ATCTTTGCTGTGTGCTTCTTTGGGTTTGGTTTGAGGAAGAAACTATGACAGAAACACCCAGAAGATGTGCTCAGCTATCCCCAGCTGTTTGCAGCTGGGA
TGTTATCTGGTACATTCACCACAGGCATCGCGACCCCTGGAGAACCCATCAAGTCCTTGTTACACTTTCAGCCTTCTTCAGGGGAAACCAAGTACACTGG
AAYCTTGGACTGTGCAAAGAAGTTGTACCAGGAGTTWCAGATCCGAGGCATCTACAAAGGGACCGTGCTTACCCTTATGTGAGAYGTTCCAGCTAGCGGA
AYGTATTTCATGACAAATGAATGGCTAAAAAATATCTTCACTCCGGAAGGAAAGAGGGYCTGTGAGCTCAGTGTGCCTTGAATCCTGGTGGCTGGGTGCA
TTGCAGGGATCTTCAACTGGGCAATGGCAGTCCCGCAAGATGTGCTCAAGTATCCCTTCCAGAYGCACCTCCTGGGAAATATCCTAACAGTTTTGGAGAT
GTGCTGAGGGAGCTGATCTGGGATGAAGGAATCACATCCTTGTCTAAAGGGTCTGATGCAGTGATGACCCGAGCCTTCCCAGCCAATGCAGCCTGTTTCC
TTGGCCTTGAAGTTGCCATGAAGTTTCTTAATTGGGCCACCCCCAACTTGTGAGGCAGAAGGCTGCTCAAGACTTCTGGATGCTGGAACTGTTGCTGAGA
AGGAAGAGTAGTGGGCAGAACTAAGCAGACTTGGAGAATGAGGGGAGGAGACGGTGGGATCAGAGCTCTGCGCATGGACTTGGTGAGACTGTTGCCTTAA
TGACATCCTCTACCTTGTATAAGTTGGTGTGTCATTTCGCAACTTGAATTCATTCTTGTCAATGTAAGGGACCTTAAGAGGATTTGGAGATCTAGTAGTT
TCTAGACCAGATACTACCTGTGGCAAGAATACTGCCTACCAGTTGACGGTTGGCCCTACCACACCCAAAGTGTTTCTCATTAAAGAGGTAATCTCAGCTT
CTCACTGGAGGCACTTTGGATGCTTTCAACCAGCTGACCAGGGGCTGAGATCATCTTCAATCCCTAGCCAGGAACACCCACTTGATTTCCAGGGTACCAC
CTAATCCTGGGCTGCACATGGGGATTTGGACTTGAGCCCCACATCTGTGTCCAACTGGACTGGGCATATATGCTTAGGAAGAGATAACCTATTAGCTATT
GATTTTTGCCTTTTTTTTTTACACAAGTAATCAAAAGTAAAACTAGAGTAGAGTAGCCTAATTTCCCAAGAATGGGTGAAAAACTTTCCTTTCTACACAG
TGAGGACAGTCCCAGCCTGCTGGGATAAGTGAGAAAACCCAGGGTGAAGGAAGGCTCTTTCTGCACAATCTTTTCTCATGAGAGCGCCATATTTTTGTTT
CCAATTTTTGAAGGAAAAAAATTAAGCGTTTAAATGCTCTGACATGAAATTTAAATGATCTGCAAAAAGTTAATTTGTCTCAGTTCAGTTCAGGTTGTCA
AACATTTGTTAAACACATTCTATGTGTCAGGCATTGTGCCCTAGAGATACACAGACATTCCCCAAAAAACAGTAACTTATCTTTTTTTACATTCATTAAG
ATTGGGTAAAATTACACATCATCTTTTCATAAGGCAGGACACATTCTAGCAGGGCAAAGTTATTTTCCTCTAGCGTAACATGTTCGAACAACTCTTTGCC
ATTTTCTTCACATGAAGAAAATGAAGAGAAAGTTGTTCTTAGGTTCATTGGAAGGCCCTGAAAAACCGATCAAAATTCTGTGATCACAGGCCTTCCATCC
ACCCTGCTCCCCTCCATGCCTGTGCAATCCTCTGCAGCTCTCTCTGGAACAACCAGAAGTGTAACTTCTACAAAAAGATTTCCTCAAATCACCCTTTCAG
GCATTGTTCCCTTCCTCAACCTCTTGTGCCAATACTTGTGTATCTTGCCCTCACATACATGTTTTAGGATAGTTCCCTGGGATCTTCATATATTTGGGTA
ACTTTACCCTGCTTCCCAATAATCTCTACCAGCCTCCTTCTCCAAATATACATCCTCAAATATACAATCTAGATTAAACAGTGTATTCTATGCAAAGACA
GACTCAAGTCCCCTGGCCAACCCCTTCTAGCCAGACTGAACCCCCTAAGCCCATCTTATGGAGAATTTTCAAGGCCTCCCCAGGAGTGACCTTCCATGTG
CACAGTGAAGGTAGCTCCATGAAATCAAGAGCCATGTTTTCATCTTTGCTTATATCACTCATGCTCCCAAAGCAACATGTGCAATAGACCTTTAAATGTG
TACTAAATTGAGTGGATTGAGTCACTCATTTTCTTCAGTGATCTCTTTTCCATTCAGAGCTGTACCTCAATGCATAGAAGAATATACCAGCTCTCTTGAA
AGAAAGAATGAATAAATCAGTTGGAACCAAGAGTACCGAATTCAAAACAAGAGGATTTGCTAGATTGCAGGGGAGAACAAAATGGTTCTTTATGTAAGCA
GGAGGCAACACTGACCTTTGGTCACAGTTTTCCCCCTTGGGGTAAAAACAACTCTTATCAGGATGCCAGACTGGTAACTGGCTATCACTGAGTTCAAACT
AAATCAACAGATCCAGATTCTTATCTCATCTAGCATTCATTGAGCACTTCCTATAATGTAAATCATGTGCTAATACCAGGGACACACTAATGAACATATG
ATGGGCACACGGCTGACTATGGTGGAACCCTTCACTGACTGGCTCTATACCACTCATGATCTAAGCTGTCACCAGCTTTAAGAGTTTCAATAATGCATTG
GAGCCATTATTCAACACACTGACAGCGAGATGACTACAGTCAACTCCAAGAGCCCACAAAAAGAGATACCAAAAGACTCTGTTGTCTTAGCAATGAGTTA
CACACAGCCTCAAATGTGGTAAAATACTATACTTCTTCAAACATCCAAATCAGCAAGATGTTTTCATGCCCTCATATGTGCTTGGAGCCATGATACATTT
TGTTGGGGCTAGTAGCACAGGCAATAGACTGTATTATTACAGTCTCTACCTTAATGAGCTTAAAATAGTCATGGAAAAAAGTGAACACGCACATATAAAC
CAGTAAGATAATAATATGAGATTGCTGGGAATAATGATAAAATAAATGTACACATTTAGTTTAACAAATACAACTTTTAAAAACTTTTATTCTCATTTTT
AAAAGGGGTATCTAGCCAGGTGTGGTGGCTCATGCCTGCAATCCCCACACTTTGGGAGGCCAAGGAGGGCAGATCACTTGAGGCCAGGAGTTTGAGACCA
GCCTGGGCAACATGGCAAAACCCTCTACAAAAAATACAAAACTTAGCTGGGTGTAGTGGTGCACACCTGTAGTCCCAGCTAATTGGGAGGCTGGGGCCAG
AGGATCACTTGAGCCCAGCTACTCAGGAGGTTGAGGCTGCAGTGAGCAGAGATTGTGCCACTGCTCTCCAGCCTGGGTTACAGAGTGAGACCCTCTCTCA
AAAAGAAAAAAGAAAAAAAGTGCATCTAATCAAGATATACTACTGCAACATGACAGTATATCTGCAGTTACAGAAATTTATGCCTTGAAGTAAAGTGCTA
TCATAACAGAAAGCATGAAACAGTGGTCAGGTAGCACGCCATAGGCTGGACAGACGATAATCCATGCTCTACAATGGCAAAACATTTAGTTAAACCATTG
CCTGCAATAACTTGAGAGGCAGATCTTGTACCTAATAAACTTGAAGCTCTAGAGAAAGAGATTAGAAAACAGAATGTTAGTTGCATGTGTTTGGATACTG
TTGTCTGCATTTGGCCAAGTAACACATAAAAGAGATGAGCTCAGGAAAGAGTTGGCAGGTTGATAAACAAAAATGAAAGGAAATGAAGACAGTTCAGAAA
TTCAGAACCCTAATTACCCAGGCGTGGCGGTGGGCGCCTGTAATCCCAGCTACTGTGGAGGCTGAAGCAGGAGAATCACTTGAGCCTGGAGGCAAAGGTG
AGCCGAGATTACGGCACTGCATTCCAGCCTGGGCAACAGAGCAATTGACTCTGTCTCAAAAAAAAGGAAAGAAATTAAGAAATTCAGAGCCCTGTAAGGT
TGCAACAGAAGATTGAAAAAGCCTTTGAAAAAGAAATGCACAATAAAACCTTTCAACCAAGTAAATTACCGAAGGGCAAGAATTAGAATGAAGCATCTGG
AAAAAAATGTTTAACTGGATAAAAGGACTCAATTAAAAGTGTAAAAGTATAGTTCTAGTAATCTGCCATCAAATCAAGACAGAGTTATAGGAATGAAGAA
ACAAAGAAATAGAAATGTTCTGGGAATTATGCCTCAAAAAGAATTGACTCAGATTAGAAGTTCACTAAGTTTTTGAGAGAGCTCTAGAAATTAATCAGGA
ACCAATCCTCAGTCCCCCAACCATCAAGGAACAAGAATTAAAGCTCTAAGAAAGGTATATTCACCAACACCATGTCAGATGTGACCAAAGAGATTACAGG
GAGAAAAAATAAATTTTTTAAACCTTCCAAGAAGTGGAGCCAGGGACCACAGAGTAAAAAGGAAGTGAGCCTCTCCCAAAAAGCAGAAAACTACAGACCC
CACAAACTCTACATCATTCTTGGGGTTTTTTTTTCCTTTTAATGCAAAACATTTCCAGTTTCAGACTTTTTTGAAACTACTAATTCAATGTTTCGTATTT
GTTTGAGTCAAATATTCAAAACCATTATGCACTTTCTAGAATCTCCACAAAATCACAATTCATAGAAACTAACCCTTCTTTTTAAATGTAATGATTAGGT
ATGAGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAGGCCGAGGCGGGTAGATAGCTTGACCTCAGGAGTTGGAGGCCAGCCTGGGTAACATGG
TGAGACTTTGTCTCTACAAAAAAAATACAAAAATTAGCCAGGCATGGTGGTGCACACCTGTAGTCCCAGCTACTCAGGAGGTTGAGATGAGGGGATCACT
TTAGCTAGGAAGTCAAGGCTCCAGTGAGCTGTGATCGTGCCACTGCACTCCAGCCTGGACAACAGATCGAGATCCTATCTCAAAAAAAAAGAAAAGAAAT
GATTATTTGTCAGATGAAAATGCTGTGCTAGGGTCTTCATATGCCAATATTTGTGAGAGTAGAAATTACTTGGGGTATAGGTAAACAAAACATAAAAAAC
ACAGAAGTCTTCCTTTCCCTTCTGTCTCTGTAGTTGTCTCTCATTCATTCTCTCTCTCTCTTTCTCAAAGCATGCAATTTCTGATCTTCTGATGAAAAAA
AAGCCGGGAGAGATGGCAGTGAGAGAAGGGGATCAGAGGCAAAAGCTGAGAAAAGAAAAGTAAGGAGAAAAAAATACTTCGGAAAGGAGTTTCCCCAGAG
TGCTGTGTGAGGATCCCGGACGGAATACAGTTTAAGTGGCTGGACAAAGTTCCAGATCGCATGAGGGACCTCTCAATTCTGAATCTATTCTGTGGACCTG
TGAAGGCTTTTGCATTCAAGTTTTATCTACTTGTTAGCGGAAACATCATTTATTAAACACTCACTCTGTACCAGTCTCTGTGCTGGGTAACAGGAAGAAA
AAGTGCTACCAAAAAAAAAATTGCCATAACAGTTTTCTCCTTCCAAGAGAGCTGCAAATTTTATATCAGACCAGATGGCACTTCTGTCTTGAAGAGAACT
TACCTTTTTGGAAGTGTAAAGACAGAGCCTATTCCAGGGTAAAGACAGGGAAATTGCTACACATAAAAAATAATATGGTCAGGCACAGTGGCTCATGCCT
ATAATCCCAGCACTTTGGGAGGCTGAGGCGGGAGGATCAATTGAGGCCAGGAGTTCAAGACCAGCCTGGGCAACACAAAGAGGCCTCCATCTCTACACAA
AATAAAAAAAAAAATGCTGGGCATGGTGGTGTGCACCTGTAGTCCCAGCTACTTGAGGGGCTGAGGTGGGAGAATCGCTTGAGCCTAGGCAGTCAGGGCT
TCAGTGAGCCATGATCCTGCCACTGCTCTCCAGCCTGGGTGACAGAGCAAGATCTTGTCTTCAAAATAATTATAATAATAGGAATTTCAGTTAACCCTAG
AGAGAAGAGAAATGAGAGCTGCCATCCAGAAACTCCTAGTATCTGAGATGACCAGGGAACTAAGAGTCATGAGCTTTATATTCAAATTGTTTCAATGTGT
ATGTTGTGCTTTAATTCTTTAATTAATTCTTTAATTCTCTTCCATTATTTCCATGTCTAAGGTAAACCTCTTTATATACAAAACAGGTTTATGATGTCTA
CATGGAGCATATATATATATATATGGAGAGAGAGAGAGAGAGAGAGGACAACAGCCTCAGGAGGGGAGGCAGCACGTATGGATAGAGCAAGATTTAGAAT
GAGAAAGTTGGCTCTTTCTTACCCCTCAATCCTGCAATCTAGGAGAATCTTACTGCTCAAAGTTTGGTCCTGGGAACAGCAGCATCTAGCTTGTTCGCAC
CTGGGGGCTTGTTAAAACTGGAGACTCTCCAGCCCCCATCCCAAACCTACTCAATCAGGCTGCATTTTCACAAGATGCCTAAATGATTCATATCACATGA
AAGCCTGGGATGCACCTCATTAGGGAACATTAGGGAAGGTGCTGAACTTCC


SNP Information

Context             (SEQ ID NO:63336):
CTGGAGAACCCATCAAGTCCTTGTTACACTTTCAGCCTTCTTCAGGGGAAACCAAGTACACTGGAACCTTGGACTGTGCAAAGAAGTTGTACCAGGAGTT
W
CAGATCCGAGGCATCTACAAAGGGACCGTGCTTACCCTTATGTGAGACGTTCCAGCTAGCGGAACGTATTTCATGACAAATGAATGGCTAAAAAATATCT
Celera SNP ID:            hCV25942150
SNP Position Genomic:     6137
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,1|T,39)   total(A,1|T,77)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63337):
ACCTTGGACTGTGCAAAGAAGTTGTACCAGGAGTTTCAGATCCGAGGCATCTACAAAGGGACCGTGCTTACCCTTATGTGAGACGTTCCAGCTAGCGGAA
Y
GTATTTCATGACAAATGAATGGCTAAAAAATATCTTCACTCCGGAAGGAAAGAGGGTCTGTGAGCTCAGTGTGCCTTGAATCCTGGTGGCTGGGTGCATT
Celera SNP ID:            hCV2488903
SNP Position Genomic:     6202
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,7)   caucasian(C,21|T,19)   total(C,48|T,26)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,20|T,14)   total(C,51|T,21)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;JBIC-allele(T,473|C,1020)   total(C,1020|T,473)   (C,-|T,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63338):
GGGACCGTGCTTACCCTTATGTGAGACGTTCCAGCTAGCGGAACGTATTTCATGACAAATGAATGGCTAAAAAATATCTTCACTCCGGAAGGAAAGAGGG
Y
CTGTGAGCTCAGTGTGCCTTGAATCCTGGTGGCTGGGTGCATTGCAGGGATCTTCAACTGGGCAATGGCAGTCCCGCAAGATGTGCTCAAGTATCCCTTC
Celera SNP ID:            hCV25940263
SNP Position Genomic:     6259
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63339):
TTATCTGGTACATTCACCACAGGCATCGCGACCCCTGGAGAACCCATCAAGTCCTTGTTACACTTTCAGCCTTCTTCAGGGGAAACCAAGTACACTGGAA
Y
CTTGGACTGTGCAAAGAAGTTGTACCAGGAGTTTCAGATCCGAGGCATCTACAAAGGGACCGTGCTTACCCTTATGTGAGACGTTCCAGCTAGCGGAACG
Celera SNP ID:            hCV25942191
SNP Position Genomic:     6103
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,39|T,1)   total(C,72|T,4)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63340):
AAACCAAGTACACTGGAACCTTGGACTGTGCAAAGAAGTTGTACCAGGAGTTTCAGATCCGAGGCATCTACAAAGGGACCGTGCTTACCCTTATGTGAGA
Y
GTTCCAGCTAGCGGAACGTATTTCATGACAAATGAATGGCTAAAAAATATCTTCACTCCGGAAGGAAAGAGGGTCTGTGAGCTCAGTGTGCCTTGAATCC
Celera SNP ID:            hCV25940363
SNP Position Genomic:     6185
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,10)   caucasian(C,27|T,7)   total(C,47|T,17)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,29|T,5)   total(C,58|T,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:63341):
GAGCTCAGTGTGCCTTGAATCCTGGTGGCTGGGTGCATTGCAGGGATCTTCAACTGGGCAATGGCAGTCCCGCAAGATGTGCTCAAGTATCCCTTCCAGA
Y
GCACCTCCTGGGAAATATCCTAACAGTTTTGGAGATGTGCTGAGGGAGCTGATCTGGGATGAAGGAATCACATCCTTGTCTAAAGGGTCTGATGCAGTGA
Celera SNP ID:            hCV25939890
SNP Position Genomic:     6364
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,34|T,4)   total(C,72|T,4)
SNP Type:                 SILENT MUTATION


Gene Number:                 386
Celera Gene:                 hCG22633 - 103000085275058
Gene Symbol:                 KCNAB2
Protein Name:                potassium voltage-gated channel, shaker-related subfamily, beta member 2;AKR6A5;HKvbeta2;HKvbeta2.1;HKvbeta2.2;KCNA2B;KV-BETA-2
Celera Genomic Axis:         GA_x5YUV32VY08(2729696..2851398)
Chromosome:                  Chr1
OMIM number:                 601142
OMIM Information:            POTASSIUM CHANNEL, VOLTAGE-GATED, SHAKER-RELATED SUBFAMILY, BETA MEMBER 2;KCNAB2


Genomic Sequence (SEQ ID NO:12546):
GCACAGAGCTGCCAGAATGCCCGTAGCTCAGCCCCTGCAGTCCTCACTGCCAGGCTGAAAGCGGGCCATGCTGAGCCATGCACAAGGCCACCTGGCTCAC
AAATAACCCAGGAAATCAGAGTACTTGGGTTTTTAAATTGCTCCACTGTGGGCAGAAAGAAACCCTACCCAGAGTCAAAAGTGCTGACCATGTCATTGAA
TCATAGATTCTCTTTGCTGATGGGCCACTTTGCATCCGAATACTGCCAAGGCCCAAGGTAATGGGTATGGTGGTATAAGACTCAAACGAGTAAGTGAAAA
TCAATACAGATGCTCTTTGACCTATGATGGGACTCTATCCTGTTTAAGTTGAAAATGTCATAAGTTCAAATGCATTTAATACCCTTAACCTACTGTACAT
CAGAGCTTAGCGTGGCCCAGCTTCAACATGGTCAGAACACTTGCATGTTCCTACAACTGGGCAAAGTCATCTAACACAAATCCTATTTTTAAATAAAATG
TTGGGTATCTCCTGTAATATATTGAAAACAGCACTGAAAGTGAAAAACAGAATGGCTATATGGGTACCACCATAAAGTAGCAAAATCAAAAATCAAAGCA
TCGTAAGCCAGGGACCATCCATCTGTTAACTGGAAGCCTCATGTCAGCTAAGAGCAATAACACGCATTTGCTAACAGCACATTTTGTTACCTGCCTAATT
ACCGGTCCGTCCAGCCACTTGAGGACACACTGGAATGCCGTGGATTCCTTCCAAGGCTGGCGCGCTCTCTGTGGGTGGGGAGGGACAAGCACGTTTTGGG
TGAAGATCCTGTGCCAGTCGTTCATCCTGCCCGCCTGAGGGTCCCGTGGGCTTCCCGGATGATCTGTGCCAGTCGTATTCAAATAAAGAGAAGAGCTGTG
AGGGCTAGAGTGGTCACAGCAATCCTGAAGGCTTCTGCCTCCCACTAAATCCCAGAGGAACCTCCATCCCCCAAACCCACACTCTGCAAACCCCAGAAGA
GTGGACTTTGTTGCTGGCTGGCACCCATGCTGCCTCCTCTAGGAAGTACCATTTGCATTTCAAAAAGGAAAAATAAACGTAGATATATTTATTTGTATTT
GCTTAGAATTTATGAAAGCTGTACAATAACACACTGTATCTAGGGTGATACACCAGGTACCTGGGGTCAACATGGGATGATTCACTTTTCCTGTGTATCC
TTGTCAACTTTGAACTATGCGAATTACCTTTTCAGAAATAAAAATAAAATGGAGAAATAAAATCTACCTCCAGAGAACCCTCCGCCCCACCCCTACCCCC
GTGGGCCAGACTCAGGGCACGACTCTCCTGACCTCTGTGGCTGGTTCCGGATGGGGACATGAAGGGATGTTTTATTCAGCTGTGTAAGTTGGATACCACA
CAAGGACACCAGGGGTGGGTGGCTGCTGAAATACAGTCCTAGCGTTAAGACTGTCTTGTAGGGGACCCAGGGAGCATGAGAGAGGGAATACAGCCCTTGG
GCCAAGAGGTGGTCAGCCTGAAACTGCCCGGGGCCACCTTAGGACACACATAAAAACAAGCAGAGAGGAAAAGGTAGGAGTGAGGGCCACTGGGTCCCCA
TGTCATTATTAGAGACCTCAGTTGGTCACCCCACGACACTTCAGCTACATGAACAAAGTCTCTTGTTGCTAAAGCCATTTGGGGACAGGTTTCAGGTGTT
ACCAGCTTCTTGGTGGGTCTTGGCCCGTTTTGAGTGTTATCTGATCCTGTCCAGCCAGACCGGGATCTAAATCTTCTCTAGCCAACACAGAATCCAAAGA
TCTGAACCTCAAGAAGAGGTTGAATTCCGTAAACTAAAATGGCGAGTAAGGAGAAAAAGAAGTGGGTTTGGCCTTCTAAGACAGCAGCTCTCTAAGTACA
TTCCCCAAACCCAAGGTTCAACAGGATCCTGTCAGGGGCTCTACAAGGTCAAAACTATTTTCATGACACCCAGGTGTTATCTCTTTCACCATGGTGGCAT
GGTGGGGCAGAGGCAGCAGCAGGGAAAGCCACTGGGGCCTCACTCAACCCAAGGCTGGTTGGGTTGAGTGAGGTCCTCCCAACCTCTCACAGAAAAGAAC
AAGGCAGCTTCAAGTAAGAACATCCTTGGTGAAGCCGGAAAAACTATTAATCTTATTACTTCTTGACCTTTGAGTACACACGTTCTTAATTTTGTGAGAC
GAAATGGAAAATACACAACAAGCATTTCTGCTGCAAACTGAAAGGCAACAGTCATCCCCGGGGAAGCCTGGCTGTGACTGGGCTGCATGCTGAACACACC
GCTTTTATTATTCAACACCATTTTCACTAAGAAGAATGACTGAGAGACAAACATGGGTACTTGGCAGACATCTTCTCAAACGTGAACAAAGTTAGCATGT
CACTTCCGGGAAAACAACTGCAACAAAAATGGAGTTTCCAAGCAAAAATGAGAATTAAGAACATTTGTATCCTCTACCATGAGCCTACTAGCTTCACACT
TCTTCAAGACTTTCCTGATGAGAGGGGCAGTGATATAACGTGATCTTCTAAGGTTACACCATTAAATGTGTCAATAGTTGGAAGGTCTGCATGACTCCGT
GAACCAATATTTTCTGAACAATGCGTAATGGTACAAAATCCTGCAAGAAGAAAACATCCACCCAAAGTGCAAGACAGACCAAAGGAGTTTAATGTCAGAG
CACGAAGAGTTCATTCACATGGTGGAGACTCTGCTTTAGAACAAATCCTTAAGAAACTTCTGCTCGTAGGGTTTCAATGCAGCAGCAAAGAATATCCACA
ATGACCCAAGAGACTCCTCCCTAACTAGATCGGGATGGATTTCCTTCACATACTTCAACCAAGGCAACACAAGGCAACAGACTGAGTACAGAAGCAAACA
GGAGCCTTCAGCTGTCCTCTCTTAAGGAGACTGTAAAGATATTTGCAAGAATGCAAAAGAATCCCACTCTTCTAAATTTTTTTTTGTTTTGGATAATATA
GTTGGTTTTTGTAAAAAATGTTTTTATGTTAACATGTCACAGCCTTATTTTTAAATAAATTAATATTTTTAACATTTCTCAGTTTTAACTTCTATGGCAG
TAAACATTGGTAGATATAACTCACATAAACAAAAGTTCTTTGGGGTCCTCAATAATCTTTTAAAGGGTAAAGGGATCTGAGACCAAAAAGTTTGAGAAGG
GTTGTGCTAATGGTTCACCCCCTGCATGCTCCCGGCATGTGTGGGAACCGAGAGGACATGACCAGGCAGCCTGAGAGGGGCCTTGGCCCAGGGTCCCGCC
TCCACCCACAGTGCACCCAGACGCTGCATCCTTGGCCCAGGGTCCCGCCTCCACCCACAGTGCACCCAGACGCTGCATCCTTGGCCCAGCGTCCCGCCTC
CACCCACAGTGCACGCAGATGCTGCATGTGGGCCAGGTATTCCTGAGGACCAGACTCAGTCTGGTCCTGTGTGAATCCAGCAGGCACACATGCTGGTTTG
TTCCTTTTTGTTCTCTGTGGGCTATTTTTGTCGCTCAACTTCCCTTGTTTTGTGGAGGACCCTGACCCAATTCCATGTATGGGGAGAGCTGCTCCCCGAT
TCCAGCCAGAGACTGCAGTGATTGCTTCAAGGAGGAACACATGGCCCACACTGAGCCATCAGTCTTCCCCGGGAGACTTGAGCCCAGGATGTCTCTCCTC
CAATGCCCACAACTGCCCACACCATGCCAGCCCAGAGCCCCAGGAGCCACCACAGGGAGAGCCGACTTTGGACTTCTGACCGGCCTAACTGGAAAAGAAC
AAATTTGTGCTACTTTTAAGCAACCAAGTCTGTGGGACTTTCTTACAGGAGCCACAGGAAATCATACAGCTGTCCACGACTTATAAGCAGAAGACACCTG
ACCAATACCAGCTCAAGGGCCATCTCCCCCAGGAGGGCTTCCCAGGTGCTCCCAGGGTCCAGGCCCCAGGCTCACATGGCCCCTGTGCTTCCCTTGGTCA
CATCATTCGTCACCTATCTTGTGTTGAATTGCTCGCTGGCCAAGTTCTTGAAGAAAGAAGCCTCATTCCTCCTGTGTTCTTGGTACCGTCACAACTCAGT
AAATGGTCACGGAACCAAACAGAAGCTTTAGCAAAGCTACCCTCAAGCTTTTCTTTCCCACTGATGTTTTATAACATTCAGAAATGTATTCACACACAAT
GCAGGCCGTGATGGCCCCAGGTGGGGATTTCAGAGAGGAAGTCTCTCCTGACGCAGATGCCCATGCTCCTCACCTGCCCCAGATTTCTGACCCGGTGCCT
CCTGCCCTCTCCCTGGGTGTCTGCAGGACTCAGTGCCACACTTGGCCCAAGGACACTGCTGAAGGACGTGCATACGCCAGTCGACCCTCACAGGGAGCAT
GAAGCATGCCGGCCCCCTGCTGTACTAGGAGGGCAGACACTAGGCGGAAGGGCATCCATTCCGAAAGCACCTGCCACCCACACGGAAGTCCTGAGGCTCG
GGATGTGGAGGCAGGGCAGTCCTAGTCTGAGGGGCCACGGAGGCCGAGGTGACACCTGAGACTCTGCAGGTGGGAGCCCAAGCGCCCGCAGCAGCTCTCA
CTGCCATCCCAGCACCTCACAAACCTCTCCGGGTGCCCTTCCACCTGCTCCTTGCTCCTTTCCACCTCTGCTCTGGCCTCTAGGAGTCAAACCAAATGCT
CCCTCCTCAGAGCGAGAGCCCCATCCCCCACCTCCGGCTGCTCCCACACAGGGCAGGTGACAGAAGAGCCACCACGCTTCACCAGGGCTGTGCTGTAGTC
CTGCGAGACTGTGAGCTCCATGACACCAGGCTGGGTCTTCAGCAAAAGTCTTTTAAGGATGAAATACAAATGCCCTGGAGGAAGTGCAGAGGGGCCTTTG
GGGCCAAATCAACAATAAAAGAGAAAATCGAGAAGGCTCCAGGTCTTGAACCCAAGAAAAGGGTACAGTGGGCTCTCCAGGGGAAAAAAAAAAAGAAGAA
GAAGAAAATACACCCACTTTTAATGAGCCCCTGATGCAAGACAGGAACTCACATTCTATGGTTACTATTCCAACAACTCTGCCAAATGAGAATCATCATT
ATCGCCATCTTACAGATGAGAACACTGAGACTCAGAAAGGATAAACAGCCAATCCAAGGTCACACAGCTAGCTATTATAACTAGCTATTATAATAGTATT
ATAGATATAATACTGTAAGCTATTATAACTACCTCCCACTACCTCAATCAAGGAGGCCAGGAGAGGCCAAGGGAGAAGAGAGGCCCAGAGGGAAAAAGTA
AGAGCACCAAAGGAACCCAGGGCTAATGCTGTCTCCTCTTTAACTTCAGGACAGATTCGCAGCCTCCCCACCTGTTTCCAACCTCCAAAATGAGAGCTGT
GAAATCTCCTTGAGATCTCTGCTTCTGCTGATCTATTCAGCAACTATTTCCCGAGCACTTGTGTTCCAGTGCATAAGAAGGCTGTCAAATGTGCTGTCTT
CAAGCATCTAGAAAGCCAGTGGGGGAGAAAGACAAGAAAGTGACTGTGAGCAGCAACAGGCCCCCGGGAGGGTGCAGAGGTGAGCAGGGCTGAAGGAAGA
TGCAGGGGGTGGGAGGCGCTGTCAGGGTCCGGGAAGCCTCCTTCCCGGAATGGAAAATGTGTAATGCCTGAGACCCAGATGCCTTGGGGAGCTTTTGGGG
AAGCAGAGGTCTGATTAAGCACTGCCTGGAATTCCCTCATTCATGAGCATTCTTTCAGCACCTACCCTGCGCCCGGGAGAAACGGTCTTGAACACAGCAG
ACAAGCTCGCTACCCCCATAGAATGTAAAGAAACGGGGCACAAATTAGCATACAAAAAGACACAAGTGTGACCTACGGAAACTGCACAGAGGAGGTGCAA
CGAACGGAGCCCTGGGTTAGGACCGGGAGGCGCTGCCCACCATCAACAGAAATACTCCTCCTTTTGCCAACTACACACGCGAGAGGCTGGATTTCCTTCA
CAGACGTCCACCAAAGCCACACATCGCGACACACGGAGGCAGAAAGCAGCGGTCTCCTAAGAAGTTAGACACGAGGAATCTCGGGCAGCGAGGTGCCTGC
AAGCCCGGGGGCGGGCGGGAGCAGCCTGCACGCGTGGGGAAGGGCACGCGGGAGCGGGTGGCGCCTTCCGGGCCGGGTCGGCCGGGAGGTTCCAAGGCAG
GAAAGGGGCGCAGAAGGCCGGGACGGCGCCGGGTACAAAGCCTCGCAGGGACGCCCGAAGGCCGCAGAGCCACCGCGGGGAACTGACAGCCGGAGCCGGA
GCTGGAGCCGGGGGGCGGGGAGGAGGGGCGGAGGGGCGCGGCCAGGCGGGGTCCGCGGACTCCGGCCTGGGAAGGATGCGCGCGGACTAGGGCGCGGGSA
GCCAAGGCCCAGAACATCGGTACCGCGCTCCCTTCAGCCGAGGGGCTGCAGAGAGGCCAGGGGGCAGGGGGCAGGGGGCAGGGGGCAGGGGGCAAAGGGC
AAGGGCAGAAAGGAACCCACGTAGCCAAACGGCACCCAGCGGCCCCGACCCCAAGTGTCCCGACGASGGGGGACGCCTGCGACTAACGCGGGGACAGCCC
CCGCCGCGCGCCACCGCCGCACCCCAGGCACCGGGCCCCCACGCAGGGACGGCGTGGACCACCCTACCCCCGAACCCCGAGGCTCTGGCCAACACTGAGG
CCCCCTGTGCCTCGAGGCCGCGTCCAACCTCCCCCGCGGCGCCGGCCCACATGGTTCCGCCCGCCGCGGGCCGCGTTACCTAGGAGACCGACCCGCCGCG
GCCGCGCCGGAGGCCACGGAGCCCACGCTTTTCAGAGAGTCTCCACTCGACGGACCCAGAGGCCCGGCGGCCGGTGCTCAACGGAGCCACAAGCCTGAGG
ACCGAGGACTGGCCGAGGGGCGCGCCCCGTCCGCTGCCACCCGCGGGAGGAGCCTCGGAAGGCGGCGCACCGCGCCGCACACTCAGTCCAAGAACCCGCC
TCGCGTCACTGTCGCCGTCAGGGCCGCGGAGCCAATCAGAGCCCAAGTCGAGGGCTRCGCTTTGCGAGCGCCAGCCAATCGGTGCGGCGGCGGGCCCATC
CTGATTTGCATGTCCGACGACCCCTCAACCAATGGTAATGTGACTGGCGTGAACAATAGCCAATCAGAAGCTGGAAGAGGCGTGGCCCCGGGCGTCCCAC
GAGGTGAAGATGCTGCTGGCGGAACCTGCAGGAGCTAGCGGGATTCGGGGGCGCTAAAGTCGCAGGGGCAGGGCGGGAAGGAAGATCCGGCGCGGGGCAC
AGGATCCGGAGCTGGAGCCCCCAGGTGAGTACCGGGGAGACCCCGGCGGGGCGCGCTTTCCACCAAGCTGCTCCGGGACGGCGGCGGCGGGTATCCGCGA
GGCCCGCGCTGCGGCAGGCGCCGCGGTCCCGTCTCCATCTCTTCTTCCCCGGCCCTGCGTCCCTGCCTCCGCCGCTGTCTCACCTCCTCTCCAGCCTCCT
CACCTCCTTCTCCATCGTCTCCCTTCCCCCATCCCTTTCTGTCTTTCCTTCCCTGTCCTCCCGCCCGCCCGACCCTTCAGCTCGCATCCCTGACCCCTGC
CCCTGCCGCCGTCCCTCTTCCCGGTGCACCTCTTCCCCATCTCTGCCCGCTCCGGTCCTAGCAGCCTCGCCCTCCCCTTTCCTCCATCCTCCTCTCATCC
CCTCTCCCGGCCTCTGCGCAGCCCCACCGGGGCGCTGCTGTTCCCGGTCCTCCCCATCTCTCCTCCTGATCGCTTCTCAAGGCTCATCCGTCGTTCTCGC
TGCCTGTCCCTGTGTCGCTCCGGTCCCTTTCCCCACCCTCCCATTCTGCCCCCAGCCCCTCCGACCTCTCCCCGCGGGCACGCTCTCACCACCTTACCCT
GCTCCCCAAGACTGTGACCCTGCTTCCTGCACCAGTTCCTCGGGCTGTTTACAGCACACACACCGCCACTTCTGACCCTGAGCCCCTACTCCTATCTTAA
GCTTCTCCCTCCTGCCAGGCCTTGGCRCAAAGCACTTCCGCACCTCCCTACCTGCTGCTGCTCCCAGGATGCAAAGACCCCACTGCTGCACCGCGTCCTG
CGGCAKTAGCAGCAGCCGGGGTACCTGCCCRCCTTCCCACCCCGCCAACCAGCCGCATCCTGGTGTCCCTCCTCCTGGCATTTGTCCTGGGGGCTCTTAC
AGGGACTGTGCTTTGCCCGCAGCATCCCGGGGTGCTCCAGGTGGAAAGCCCCTTAGCACCTTTCCTCCCTGGCCACCGTCTCCTTCCCTCCCCACCCCCA
CTTTCCTGCTCAGCCTCACTTTGTGATTCAGCATTTTTGGGGTTGGTAACTTTCTTGCTTCCTGTCGTGATAGGGACCTGGCTACGGAGCTGAAGGCAGG
GGTCTTGACCCTGCGGTTAGCAGGGCCACCTTAGGAACCAGACCTGAGCTGCCTGGTTGGGAGGGGGCTGAGGAGCTGGGGACCGCCACTGGGGGTTGTC
TTTTCCTCCCTTTCATTTGTCTGCCCTGTGYTGAACTGTGTCCAAGGGGAGATGACATAAGTAATAGCTCTTGGGGAAGTGGGCTATTAGCATTTATGGA
AATTAATACATCCACATCCGAGGAGCAAGAACACCAAGTTCAGGCCACAGCTGTCCCACTGTCTGTCGTTTCAGGATTTTTTCTTTCTCTGCAACTTCTC
CTCCCCGACAAAAACCCCAGCCTCACCCCTCCCCTTTCCCCMAGTGCCAAGAGTAAGCTCCTGCTCTGCTAAGGAAGCCGCATTCAGGCCCCGCGTTGCA
GGTTGCAGGGTTTGGGGACCTACGTGTGGAGAGTCACATCTGCCCACCTGATTCTCGCCTGGCGGCCGTGTCTGCTGCAGAGCCCTGTGCAGCTCCTGGC
CCTGTGCTCTCGCAGTGTGGGGCCCTAAGAGTGCACTTGGTCCTCCAGGTCCTGTCATTGTCTCCACGGCCACACTCGGCCTCAGTGGCACTGACAGTGT
TCGGGCCGCAGCACATCCCTCGAGAGCAGCATGGTAGGGGCTTCCCTGTTGACACCCAGGGCCATTTTTTTTTTCCCTGCGCCAGTCAGCAAATGCTTTG
KAGGTGCTAGTCAACACCTGGGGGCTGAGCCAGGCACTGGAGTTGGGGGGTGTCGTGAAAAAGYGTGAAACCCTTTTCGTGTGTTTCTTGGTTGAGAACC
GTCTTGGGTCTGGATTTGGAGCCTGGATGGGAAGCAGTGTGCACAGAAGCCATTGCACCCGGGAGGTGGGACGTGGGCCATGGCGCTAGAGAGCTGGAAA
GGCCGAGGGTGCCATGGGCTGGCCAGCTAGAGAAGGCTTCCTCGCTTTCATTTTTCAGTCATCTTCTAAGACCCAAATGGTTCAGGAGGAAGCGAGTGCC
ACACAGTTTTGATTTGGCAGTTTCCGGCCTGGGCTTGGAGGGAGGGGCCTCCCCTAGACCTTCCTGTGTGTTGGTGCTCTGCCGTGGTAACTGGGAACAC
ATCATCTGTGTGGAAGGAGAGCCTGCTCCCTCGCGAGAACCAGGGGACCGTGCTTCTGTTTCCAGGGACTCTGGCCAGGTGCGGTATGTGTCTGGTCCTC
GGCTAAGTTCTCAGTGATATTCACGCCGCCAGAGGTCCCAGAGTGAATGTTTTCCTGGCGTCCCTGAATAAGGAGGCAGGACAGTGGGCAGCTCGGGGCG
GCAATTCGAGAAGGATTGATGCCAGAGGTGTCTAGGGCCATAGACCCCATGTTCCCGCCAGTCCCCCTCCCACCACCAGGAGGACTTGGGTCTTGGCACC
CAGCAGCCGGTCATCCTTGCTCTCAGAGGACTAAACGGAAGGACAGGCTTCTCCAGGGTCAACAGAGGCAGTGACGGAGCTGGGTTGGACCCCCTACTTC
CTACTTATTTGAGCCCAGTTCATGCCTTGGCTGTCCGAGCTGGGGGAAGCCAGCACCCCGAGGACATGACCGGCTGTCCCTTCAGAAGGCCACTTGGAGG
CATTGCTGACATTCATGGGCGCAGCCAGTGCCCTTGGGTGTGTCCAGGTCACTGGAGGGGCTTTTGGGACTGGGAGGTGCCACTACCATGGAGATTTCTC
AGCGACTCAGTCCTGCCTGGCATGCAGGCCCTGGTGCAAGGGTACTGTTGTTCGTGGCCTTCAAAGAGATGGCCCCATAGTTAGAGAAGAGTGAGGGCAC
CAGGTCCGTGGTGGGATGAAGGAAAGGAGGGACCCTCCCCACACTGGAACTACACTCATGACCTCAGTTCGCCTCCGGCACTTGTAAACAACCCTGTRAG
GGAGGCTGGATAGGGAAACTGAGGCACAGAGCAGCAGTGAAACTGATCCTGGCCTCCCAGCTAGTGAGGAAACCTTGATTCTGTTCCTGCCCTGCCAGAA
CTCTGTGAGAGGTGCCCCCTCCGCCATCACCTGAGCTCCATCGAATGCCTGAAATCCTCACCTCTGCAGGAGTGAGTCTCCCAAGAGGCCCTGGAGGCCC
AGGCCCAGACCCTGGGGGATATGGAAGCACTCCTTTGTCGTGGCGTGGGAAGCCCCACACTGCTCTTTCCTTGGTGACGGGTGACCCGCCATGTTCAGGC
CCCTCCTGGTCTATCTTCGGGTGAGTCTATTAAGGGATACACCRTCTCCGCTCAGCCAGTCCCGAGGAGGCAAAGGGAACAGGACCCTCTTCCCCAGGAG
AGAGCACACTGGGGGAGATGGGGTGGCACACCTGGGCTTCGTCCTGTCACTGCCCACTGGCTCGAGGCTTTCCTGCCTGCCTGGGCTTGGSAGATGCGTG
AGACTCCCTGTCTCATGGGCCTGAGCAGATGCTGGGCCCTCTTGTCCTCTGCCACATCCTGGGGAACTCAGATGAAGGCCAGCCTCCCTCTTCCTGCACA
CCCACCATGGGATGAGCCCTGGGCTCAGGCCCCTCCCTGCCTGAGGGTGCCCTGCCACTGCCACACCCAGGTTTCCACTCAGACCCCTGCTGGCCAGCGT
CTCAGGAGGCTACTCCCTGCTCTGCGCAGTGACCACATGGTTAGCCCCAGAGACCCAGGTTCTGCGTGTCTTCAGTGACAGAGCAACCCCATGCCCACCC
TGCCGGCTTCCCCGGCACCTGTCTCCTTGCAGGCAGCCTCCTCCACTTCTCCAGCACACAGGTACCCACAGAGCTAACTGCTTTGACGCCATGCTGGTTG
TAGACAAAACAGGATTGGGAAAAGGGGAAAAGTGGAGAAATGGTGGGGACCACCTTCCTGGCCGTCCGCCTTTACCTGGACCCAGTGAGAAGGCTTTCCT
GGCTGTGATCTTGAGCCCTGACTGCCGAGCAGCCGAGATCTATCATCCAACTCCATGGCTGGGAGCTGGGCACAGGTTTCTTCTCAGACCCCGCACCAGA
TTCAACCCATTCCACGTGGGCCAGTTTTCTGGAGCAACTTCCTGGGTCCTGTAGACCCCTGAGGTCTGGTCCGCAGGGGTCCTGAGTCACCAGCCTGGGC
TGTTTCCCTGCCAGAGACTTAGCTCTCTGAGTCTCTGGCTCTCTGGCCTGCTAAGCCACACGGATCATTCGTGTCTCCCTCTATCTGAATGGGTGAACTG
GTGCCTCAATGGTAGGAGCCTGGGGCTTCCCTGGCACACAGTGGGTGCTGGATAACTGTCAGTTCCCCCTCTTCCAGTCGGACGAGGCGCCCCAGCCACC
ATCCTGCCTGGAGCTCAGGTGGTTCCTGGGCAGCCCAACGGAGCCCCCAGGAAAACCGGAGCAGAGGAACCTGGCTTTCCTTCTGCGTGGTTTCCTGGGA
CCTCTTGGCAGTCTCTCAGCTGGAGAGCCCTGCTGAGTGATTTCACAGTGGAGAAGGATGGAGGGAAGGAAGGGGAAGAGAGGGCAGGAGGGGAGAGCCC
GTTGCCCTGGTCTGCAGGGAATAGCCTCCCTCTGAGGGAGGGACACTCCTTGCCCTATTCTCCCTGACCTTGGGCCTCGTGGAGGGCCTGCAAGCCTGCC
AGACCCCCACTGCACACCTGCCCACCTGTCTGTCTGATTCCAGCAGCCCCTGGGCACCGAGTGGGTTGCAGAGCCATGCTCTGAGCATGCTCCCCCTCCT
TCACCATGAATGTGTTTTCATTTTCCACCCCCGGGCAGCTTCATGATCTTTCATTGCAATCTYAGGCCCTGGTATCCACAGGCTCTCAATGCAGCCTAGG
ACAGAAGACTCTAGAATTCTGCCTCGGAGCCCTGTGATCCCAAACACTCAGCCGTGGCAGGGGCTCTCTGAAAGTGATATTCTTGCCACCCCTCCCAGAT
GCAGGAGGGTAAGGAATAACTAGAATGCATGGGCAAGGAGATTCAGCTCGATCTATTCATTATAAAACAAATTTAAATTTAAAACATTGCTTAAAACCTA
TACATGCCAGTGAAGGGCGAAGGTCTTAGCAGCAGACATTTGAAGGACCAAGAATGAGCAAGACCCACCTCCCTCCTCTAGGGCTGAGACCCAGGAAAGG
GATGCAGTGACCACATGCCTGGAATGGTCAGAGAAAACCCTGCTGATAGGGAAGGAGAGACGGGGGCAGTGGGGACATTTGACCTGGACCTTGAAAGACA
GGCAGGTTGTGATAGGCAGAGCTAGGAAAGGATGGTCTGGAAAAGGGCTCTGCATGGGCAAGGTCACAGAGGGAGGACCAGGCAGGCTGGATGATGGCCA
GAGGCCCAGTGCGGTCACAGGCTAGGGCATGAATATGGGTGAATAGGATAACTAGGGGAGGGCATCAGGGCCAAGGCCACCATGGGCTGGACAGTGATGG
GGAGGGAGGGAAGAGGAGAGCCCTGGAGCCCCCCAAGCTTTTCTGGCTGGGTCCACCTGGGCTGCACAGACTGAAAGAGGCAGAGCCAGAATCGGGGCCT
CTGGATGGGGAGGACTGGGCTCGGTTGACCTTGGGTTTCGAGGTCTGTGTCTTGGACAGCAGTGCCCACTGACATTGAGAAGGTAGGGCTGGGGTTCACA
GGAGAGGTGGGACCTGGAGGTGACTGCCACCTACCTACTGGTCACAGCCCTGACAGTGTCACCTGGGGGTAGTGCCAAGGGTCGCCAAGGGTACGGGTTT
GAGAGGGAAGATGAAGGTCAAGACAGACAGTAGGGAACCCTGGATTCTTCCAGAGCCCGGGGAGGAGAGGAAAATAGAGGATGAGGCAGGTATCTGCTGC
ATCCRGTGGGCCAGCTGCTGCCAAGGAGGCAGCCTCTGTTGAGAGGGGAAGCAGAGCTGGGCTCCCAGGAGCAGCGAGGGGGCGCAGGACCCCAGATTCA
GCACYACCAGCTTCCAAGCACTCGCCAACCAACTTATACCCATCTGACTGAGGCAGAAACACTGAAAGTCAAAGTGGCTTCCCTAAGGCCTCCAAGCTAC
TAGGCGCAGGAGCCAGGACCCCAAGCCAGAGTCCCACCCTGGTGACCTTTGGACTTTGCCGCCAATGGCTCTGGAGAGATTTGACCGTGAAAGGAGGAAA
AGGAAGGTGAGGGCACAGGGTGGCTCCGGGGCTGGCGGGCGTAGACGAAGCCGCTTTGCTGCTTAACCGCAACTGCCAGCAGCACCCTCTTTCGTCCGCC
CCTTTAGARACGATTTCAACGGCGCATTCTTCCATTTCCTGCCTTAATGGGGGGCATTTCTGGGGACACCCGTGAACTGCGGGCTGGGGCTTAGCCTTGT
TGGTKGCCCTGCATAGGTTGGCTGCGTAGTGCTTTACGTTCTGTGTAAGAATTGTGGAGTCTTGGGGCCTGGGTGGGCCGAGGGTCCTGAGATATCGRTG
TGCCCAGCAGGCTTGTAGGGTGTGGCACCTGCCCAGCCCTCAGGGGTCCTGGTGCAGCTTAGCAAGCTCCTTGGCCACCAGTCCCTGGTGACTCAGATCA
GGGGTTCCAAGARCATGCTTTGAGAAACACTCCCTAGCCCTAGCCGTTTCAGTCTGTCAGTGAACCTGCCCACCTCTACTTCTTAAGGAAGCACACGAGG
AAGCTGTTTGTGATGGTTGAAAGCTCCGGCGAGAAGGGCTTTGCGGGGGTTTCTGTAATTCTTGGGAACATGTGAAGCCCACATTCTACTGGAATGACCT
GCTGCACTTTTGTGAGCTTCAAATCTGAGATGTGCTTTCATCCTCCCGTGTGTGGCAGGGCGCCTTGTTAGTGTCCAGGCCTCTTGGAATGTGGTTTGGT
TCAGGGGTACTGATGGCCCGAGTGCTTGCCCACGGCAGAGGAGGCCAGGGGTCAGTACAGGAGCCAGTCCTCGCCACCCTGTTCCTGACCATACAGAGTC
TGTCACCTGCCTGTGCCCTGATTGTACCCCATCTGCACCGTGTCTGCACCCTGCCTGCGCCCTGTCTGTACCCCATGTGCGCCCCATCCGTACCCTGCCT
GCGCCATCTGCGCCCTCTCCGCACCCTGTCTGTGTCGTCTGTGCCCTGTCTGTGCCCCGTCCGCATCCCGCCTGCGCCCTGTCTGTGCCCCGTCCGCACC
CTGCCTGCACCCCATCCATATCCTGCTCTGCTGTCTGCACCCTCTCTGCACCCTGTCTGCGCCGTCCGTGCCCCGTCTGCACCTTGTCTGTGCCCCGTCC
ACACCCTGCCTGCACTCTGTCTGTGCCCCATCTGGGCCCTCTGCACGCCCTACCTGTGCCCTGTCTGTCTAGATAGATCCTGCAGCGCCTCCCGCCTCTG
CTCAGCCAGCCCCCCGCACCCCCTAGAGGGTATTGCCTTTCCATGGAAATGAGTAGCAGGTATTTTTAGTCACCCAGACCAGGAGGTATTCAGGTGTCAC
AGACACAAGGCCCGGAGCCATGTTGTCCCTTTGCTCCTACAAAGGAAACAGGATGCCCAAAACAGGACTTGTAAATCCCAACTCAAAACCTCCCCGTTCC
GCAGGGACACAGGGTGCTTTGCTCCTTGAAGGAGTAGTGGATGCCTCCTTATTTACATCCTTCGTGCTTACAAGGCAGTGGGGGTGTCCAGGGGACATCA
GCCACCCTGTGCTGGGGCACTTCAGAGGCTCCGGGGAGCTGCCATGCTCTCTCTCCATCCCAAAAGATGGGTCTGGGGAGGCCACTGGGGCAGGCGAGCC
CGCTCCTGTGAGGAGTGAACCCCACCCCCCGCCGCTCTGCTGGTGTGAGTGACAGTTATCAACAGACCCTGAATGGGGGCTTCCCAGAAAAGAAAAAAAA
AAAAAAAGAAAACAGTGATATCCCTGGGAGAAAGGGGCCTGTTTACATGAAGCCTATAGGCCGTTGGAATCTGAAGTAGCACCTGGGGGTCCTGGTGACG
CCAGCACAGACAGCCCTCTCCAGGGCAGTGCTACAGTGAGACCAGGGTCTGGGGAATGTCACTTGCTCCTCATTAACTCATGAATCGGGAGCCAGGATAA
GGTCGCTGCCCTCAGGGCCAACATCAGAGCGGGAGGAGGTGTATGGTCCAGGGCACCAAGGCGTCACTCAGGCCACCACCAAAGCATCACACCAAAGCAT
TGACAGCGTCCATCTCACATCGTCAGGAAAGGGGGAAGCACTGGATGGCTGTGGCCTCACAGGCAGGGAGAGTGGGGTCCAAAGGCGCAGAGACAGCATG
GGGTGTCAGGGCACTGCAGGGAGAGGGACAAGGGCAGGTAAGGAGGGACCTTGGAGGCCGGAACATCTTTCACGGAGGCCTCCTGCTTCCTCTGTGCTGC
TGAGCTGGGCCATTCATCTGGCCTGGGTGGAGGGAAGCTGAACAGGGTCCCTCTGCGACCTGGAGGCCCCAGGCCCTACCCTGAGCCCTTGGTGCTCTTG
GAGCCCTGAGCTGCTCCAGCTGCATGTGATCACCACACACACACACACACACACACACACACACTCTCCCAACACACACACAGACACACAGAGCCTGTGC
CACCAGCCCTCATTCTCTGCCTCACCCAGGGCCGGAAGGTTCTGGCTAAGCCTCCGGGGGTGCCACTGGGAGGGATGCCTAGGAGAGGGTCTCCCCAACC
CTCTAGCAACCTGATAATCATGATCACCGGTTGTTGGAGTGGCCTGGCCACCTGCTGGGCTGTATGGGTGCTGAGGGCCTGGCTGAGCCCCGTGATACAC
CCATGGGGGTGGGTCTCTGARGAGCAGTCTGTGTGAGCAGCAGGAGAGGTGGCACCTCAGGTCAGGGGACGCTTCCCCCCAGGCTCTGGAGGGGACAGGA
TAACACCTGTCCCCAGGCTTGGCGGAATTCCTGGTCTCTAACGCAGCCCGGAACACACAGAGAAATGATCCAGTGTGGGGCAGTGTTGCTCACATGGTGG
TAGGACTGGGTCCTAGGCTCCTGGAGCCAGCGGCCTCAGAAAGCCCCTCTAGGTTCTCTGAGTCTTTGACACTGTGCAGCCCAGACTCCTCATTTTATAG
ACAGGGAAACTGAGGCCAGATGACTCATCCTTGACAGAGCCGGGATCATGGTGCAGCTCTCTGACTGAGCCCCCTCGATGTCCTGTAGTCTCTCCAAGCA
TGCCCTGCAGTGGTCATGACTGCTGACATCTGTCCCTGCCTAGACTGTGGGCCTCGTGAGGACAGAACATGCCTGCTGTCCCCATCACCTCTGTCCCCCA
GCTCAGCCTGACTGGTAATGCCCCGGCCATGTCATGAGGCCTTGGAACCAAGCCTAAGCTTCCTACAGGCCAGCAAACATCGTCCCCAGCACTGGCTCCC
TGATTTCATCTCCCCTGGCCGTGGCAGGCAGAGAGAAGCCTTCAGAACCAGGGAGGACCAGAGGGCTCCTGGCCCAACGGAGGCCAACTGTGACACCAAG
GGATCCTCCCCAAGGGGTCTTCCCCGCCAGATACAATCCTGCTCTGAGCACCCTGAACAACAGGCAGTGCCCAAGGGAGGCCAGAGACAGCCGTGGCCTC
TGGGGCCTGGCACTCAGCCAGAGCTGGCAGGAGGCGGGGATGCACCTCCTGCAGCTGAGGTTGAGACAAAGCCAGGTGCCTGCCACGGCAGCTGTGGCCT
GAGCTGGCATCRGTGGCTGATGGCCACAGACTCCCTGATGCCTGTCATCTGTACTGAGGGCTCTGTCCCAGCCCCTGAACCGTACGTGATGCCCACACCA
CCGATGAGGACACAGCTTGTGTTTTTACAAACGAGGCACTTAATTATGTGGAGGTAAATCCTTTGAACTGCAGAAACCATCCCAGCACGTCCCCATCAGG
TGTTCCCAGGTGGCAGGCAGAGAAGGCCAAGGTCCCTTGAGTGGATTTCCAGGGGAGCTGAAGGGCTACRGCCCTGCCAGGACTGGGAGGTACTGGGAGG
GGCTGGACAGCTGAGAGCGGCTGCCCCCCTGCAGGAAGAGGAGGCAGGCGCTTCACCCGACTCTGGACGACGCTGACAGCAGTGTCAAGGACTCTGCCGT
CACTGTTGTCCTTTGAGTTGGCAGCTGCCCTGTGTTGCAGATTTGCTCTGGCTCTGGCCCCCTGCTTCGTCCCCTCCACACATTTGTTCTTAGTCCTCAG
CTCCTCCCGTCTCTGTGTCCCGGGTGAGAACAGGTCCTAGACCTTGTCTCAGGTCACACAGCTACCAGAGGACAGAGCTAGAACATGACCGCAGCAGACG
CCTGATCCTGCGCCCCAGGCGACCCGTTCACGGGGCGGGCGCTCGCCCTTGGCCTCGCTCCTGAGCCACAGTCACCAGGGTGCCAGGTAAAGGGAAACCA
CATGGGGGCGAGGCCAGCGCACAGCCCCAGCAGCCTGGCCCCTGCTGGCTGCAGGGGCTCCAGAGCCTGTGCTACAAGCCCGGGTGGCCGGAGCCTCCTG
CGGGATTCCCCATCCCACCCCTGGAACTTGCTTTCCCTGCTTCCCACACACAGATCCTCCCCACCAGAGCAGGGTCATGGGGTCAGAGGCAGGGTCCGTG
TGGTGTGGAGCAGGGGTTCCTCCCCACTCGCTCGCTCGGCTGCCTTCAGCCCCTGCAGACACGCAGGCACCGTCCACCTTCTCCACTCTTAGCGCGAGCC
CTGCCCCAGCCAGGAGCACTCACTGAGTGGCCACATTATACCCTCCCGTTTGTCTATAGTTCACTTAAACATTATTTCCTGGGAGATCCGGCAGCTCTTC
ACTCTTCCGAATCAGGCTGTGGGAAACRTTTGTGTGCATCTCGCTTTATTTCCTCTCTTGAACTATTAGGATAAAGTCACAGAGGTAGGATTCCTGGACC
CCAAGCTCTGGACCTCTACTACCCAATTTCAAAAAGGTCGTAGTATATAGCTCATGTCCCAGAACCAGCCACGTCTCCTCGTCGTCGTTTCACYGCAACC
TCGCCAGCAATGAGTATTTTCATTTAAAAATGTTTTTGTCTGCTGGCTATGTGATTGCAGAGGCATGGCTGGCCCCAGCTTGCAGCGGTCGCTTCTGCAT
CTCTTTTTATTCAGCGGGGCCTTTAATGGATGTGGTGGAGTAAAGCTGCCTTTCAAATTGCTGCCGCAGCGCTGCCTGGCAAGATGTTAATCGTTCATGC
CCTGTCACGTGGTCATGGGACGGTAATCCTCTTTGAAGCCATTTGTTATTTATTCTTACAGTCCCCCGGAGAGCAGGGAGGAGCCCCCAGTGCCTGGATC
ACAAACGCAAATACAGAGAGGGCTGCAGACATTTCAGCCTCGAGGTTGGAGCAGAAGCAGGGCTGGGGCCCACCAGGGTCCAGACCCCTAGTAAAGAGGT
CACTTCCCACAAAAGAAGGTTGTTTGTCTGCTTCTCATAGAACCTGCTCTGGTTAGAGGGTTTTTTTTTTTTTTTAAGAGACACGATCTTGCTGTGTTAC
CGAGTCTGGTCTGAAACTCCTGGGCTCAAGTGATCCTCCCGCCTTGGCCTCCCAAGTAGCTGGGACTGCAGATGGGCATTGCTGCACCCAGCTTGGTTAG
AGGGTTTTTAAGCCTAGGGGGTGCATTTGTTTCCTAGTACCACAAGCAGGGTGGCTTGAAACAGCATTATTTATTCTCTCATGGATCAGGAAGCCAGAAG
GCAAGGTGTGGGCAGGGTTGGTTCCCTCTGGAGACCGAGGTAGCATGTGTTCCAGGCCTCGCTCCTGGTTCCTGGTGGCTGCCCGTAGTGTTCCTTGGCT
TGTAGAAACACCCCCCCGAGATTCTGCCCCCATCGCCACATGGCCTTTTCTGTGTCTGTCTCCTCTTTTTATATGGACACTTGTCATTGGATTTAGGGCC
CATCCTAATCCAGGATGGCCTCATCGCAGGATTTCCACCTTAATTACATCTGCAAAAACCCTTTTGCCAAATAATTCCACATCGACAGGTAACTGGGATT
ATGACTTGGGTGGATCTTTCAGGGAACACAGTCCACCCCACACAATAGGTTTCTACCCCCGAGTCCCACCTCCAGCCCCGTCTCCCTCCAGAGTCTGGCT
GCTTCTTCCTCATCAGACAGTTCCTTCCCTCTGTAGGGATTGCATACAAGTGTTGCTGGCTGAGGGGTGAGGGTGGAGTGGGGGGATGTGGGAGCTGAGC
TGAGGGATGAGGGTGCAGGCAGAGATCTGGGAGCTGAGCTAAGGGGTGAGGGTGGAGTAGGGGGACGCGGGGGCTGAGCTGAGGGGTGAGGGTRKAGTGG
GGGACATGGAAGCTGAGCTGAGGRGTGAGGGTAGAGTGGGGGGATGTGGGAGCTGAGCTGAGGGGTGAGGGTGCAGTGGGGGGACGTGKGAGCTGAGCTG
AGGGGTGAGGGTAGAGTGGGGGGATGTGGGAGCTGAGCTGAGGGGTGRGGGTGGAGTAGGGGGACGTGTGAGCTGAGCTGAGGGGTGRGGGTGGAGTTGG
GGGATGTGGGATCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGACATGGAAGCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGGATGTGGGAGCTGAGCTGA
GGAGTGAGGGTGAACTGGGGGATGTGGGAGCTGAGCTGAGGGGTGGGGGTGGAGTTGTGGGTTGTGTRAGCTGAGCTGAGGGGTGAGGGTGGAGGCGGGG
ACGTGGCAGCCCAGCTGAGGGCCTTGGAGCACACCTGGTAGGAAGCCAGCCTGTGGACCTGGAGCCGACTGAGGGTCCCCCCTACCCCCCATGAGTAGGA
GTGGGATCCAACCTGGGTCCCCTCTCTCCCCTCCTGCTGGTGTATTTGTAGTTGGAAGGCAGCACACCCTCCTGGCTCAGAGAGATGGGTTTAGTGGCCC
GGGGAGGCACGGAAGCCCAGGTCTGTCTTTTCCCAGCGGTCACTGTGAGGATGCAGGGCCCCCACGTGGGGAGACAGGGCACAGCCTCCCATTGGGGCAG
ATGGGGGTCTCCCTGCCCAGGATGCCGGCCGGAGTTTCCCCTGGCAGGGACCACGGGTGCTGTGACTGGAGGGAGGTCCCAGGGCTGGCACCCTGGGGCT
CTGTTCTGATGTTCTGATCCATTCCACCCTCACCCCTCAGCTCAGCTCCCACATCCCCCCACTCCACCCTCACCCCTCAGCTCAGCTCCTACATTTCCCA
CTCCACCCTCACCCCTCAGCTCAGCTCCTACATTTCCCACTCCACCCTCACCCCTCAGCTCAGCTCCCACATCCCCCCACTCCACCCTCACCCCTCAGCT
CAGCTCCTACATTTCCCACTCCACCCTCACCCCTCAGCTCAGCTCCCACGTCCCCCCACTCCACCCTCACCCCTCAGCTCAGCTCCCACATCCCCCCACT
CCACCCTCACCCCTCAGCTCAGCTCCTACATTTCCCACTCCACCCTCACCCCTCAGCTCAGCTCCTACATTTCCCACTCCACCCTCACCCCTCAGCTCAG
CTCCCACATCCCCCCACTCCACCCTCACCCCTCAGCTCAGCTCCTACATTTCCCACTCCACCCTCACCCCTCAGCTCAGCTCCCACGTCCCCCCACTCCA
CCCCCACCCCTCAGCTCAGCTCCCACATCCCCCCACTCCACCCTCACCCCTCAATTCAGCTCCTACATTTCCCACTCCACCCTCACCCCTCAGCTCAGCT
CCCACGTCCCCCCACTGCACCCTCACCCCTCAGCCCCACTCCACTCCCACCCCTCAGCTCAGCTCCCACATCACCCACTCCTCCCCTACCCCTCAGCTCA
GCTCCCACATCCCCCCACTTCACCCTCACCCCTCAGCTCAGCTCCCACATCCCCCACTTCACCCTCACCCCTCAGCTCAGCTCCCACATCCCCCACTTCA
CCCTCACCCCTCAGCTCAGCTCCCACATCCCCCACTTCACCCTCACTCCTCAGCTCAGCTCCCACATTCCCCTACTCCACCCTCACCCCTCAGTGCTCTG
TCAGAAGCGCTACCTGACCACATCCCTCCTCTGGGCTCTGAGTTCCCCTGTGCAAGTGGAACCAATCTTTCCCCTCAACTTCTTCCAAGGGCCGTGATTG
AAACCCACCTAAAATACAATGATAAGAGCTGTTGTCGAGGGATCAGACAGCAGCCTGTGTAAGATGAGCACTGGGTTCTGGGGAAGGACGGTAAACAGTT
CGCCTTATTCTGTGCTGGGCACTGTGCTTAAGCCCAGCAGCGGGCCCTGGCTGGACTCAGTGTCCAGAGTGTCTCTGCTCAGGGCTGGCCGAGAGTCAGC
GCTTTCTGTCCCTGTGGCGGACAGTCCGACCTCTCCGAGGCTGCCATAGAGACTCATATCAGCCAGGCGAGCTGGGAGCGCCACCACTCCCCAGATAGTT
ACTGCCCGGGCCTCCCTGCCCAGTCACTGCATGGGGGGGGGCTCAGCTCCTGGGTGTGAGTTTGTGCCAGGCTCCAGAGAGGTGGGGACCCCAGCCACAC
CCAGGGACAGGGCCAAGTGGCCAAGAGACCACTTAAATGCCAGCGTGGCCACCCCATGTAAAGCAATGATCTCTCTGAAATTGCTCATCTGGTATACACC
AGGACACTGGCCTCTTCTTCCTTCTCCCATCCTGGGATTTAAGAAGTTAAAACCCACCCCCTCTGCCCAGGAAGCCGAGGCAGCAGCTTGGAGCCAGAGC
CGGAGGCAGAGCGGCTCCATCCGTGGGGAGCCGCGCCACCTCTGCGCCTCCTCCGCGCCTCCTCTGCGCCCCGCGCCGTGCTGAGTCAGGCTCTGAAACG
CAGTCATCATCSGGAAGTGGTTCTTGCTGTGGCCCCATCCCCCTGTGTGATTTTCCTACCTTGGCTCACTTAAAATTTCAATCTGGCTCTGAGAGGAGAC
TCAGCATTTCCTTTATCTCCTTTTACTGTGGATGCTTGGAAAGGAGTGGGAGAAGCTGGGCGCCGCAGTGTGTGCGCGTCACTGTTGCCCTTACCCCCGA
AGGAGGGGATGGCCAAGAGAACCTGGAACCTCCCCTCCCGTCCCTGTGCCCGCCGCTTCCCTTGGCCCTCACTGATGAGCCCAACAGATGCAGAGGCTCC
TTCTCTCCCTGGCACTGCAGCCAGGTAGAGGCAGCTGCAGCCGCAGCCCTGAGAGGGGCTGGAGACGCTGAGGCAGGGGCAGTGGTGGGGTCTGGCTCCC
CTCAGTTCAAAGTGGCCTGCAGATGCTGCCTGGAGCTGTCTGGTTTGACATGGCTCCCTCTGAGGGAGCTGATGAGTGAGGGCCAGGAGCACTACTTCAT
CAGGCATCCCCTCACCTGCACCAATGGGGAGGCGAACCTGGAGCTGGGCCATTAAGACCCACAGATTGTTTTCTCCATGTTGCGAAGGGCAGGGCTTGGA
TTTCACGAGGCAGATGGTGAGCCAAGTCCGGTTCCGCTGCGCTGGGTCCCCCATGGCAGAAAGGACCCGCCCCCCCATCACCCTGACAGTGGCTTGCATG
CCCAAGAGCAGCCAGCAYCCAGGACAGGCTTCCCTCGTTCCTCTGTTCATCCTCTTTAAGAATCACTCAGAGCCAGGCACGGTGGTTCACGCCTGTAATC
CCAGCACTTTGGTAGGCCAAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACACGGTGAAACCCCGTCTCTACTAAAAATACAA
AAATTACCCAGGCATGATGGCGTGCACCTGTAATCCCAGCTACTCGGGAGGCTGAAGCAAGAGAATTGCTTGAACCCGGGTGGCGTGGTGGAAGTTGCAA
TGAACCAAGATTGCACCGCTGCACTCCAGCCTGGAGACGGAGCGAGACTGTCTCAAAAAAAAAAAAAAAAGGATCACTCAGGACACCAACATGGGCTGAG
AAATGCTCCTGGTATCAACAGAACTGCAGCAGATGATGAAAACAAGGCTGTGATCAGGGAAGTGGCTGAGGGAGTGAGGCCCCCGAACCRCCACCCCAGA
GCTCTGTCCCAGGCCCCTGGGGTCTCATGCTGTGACCTCCTGCGCCACATGGGGAGAGGTCACCTGGGGGACTTGTTTCCGTGGGAACCTCAGGCCTTGG
GCCTGAGTGAGGAGATGTCTGAAGCCTCTGGCCTGGGCSGAGAGTGAGACCCCAGAGCAGCCCTGCCCATTCCTCTGGGAGCAGCCTCAGTGAAAGCTGT
AAAGCAGGGAAATTGGACACGTCCAGGCCAGAAAGAGCAAAGCAAAAGTGCCCCTGGGTGCACTGCACCCCACAGTCCAACCCTTCTCCCCCAGGAGCTG
CAGGCCACGCTCTGAGCCTCTGTTTGAAGTGGTCCCTGACTGGACATTCTCATCTCGGGACATGAGCTAGGGTCACCCAGCACCACTATGCAGCTCTCCA
AGTCCCCCTGGCCACCCCGCCCTCTGTAGGGGTGCTGGGCCTTGCTCTGCACCTATCCCTTGGAGTATCTGCTTTCCAGAGCGGCAGGAGGCCCGCCTGG
TATGCCCATGGGGGCATCCACCTGTGCAGAGTGTGGCCTCTCCCCAGCAGATCGCTGGGTACATGAGCAGGCAGCAGACCATAAGCAGGCTGGCTAACGG
GTGGAGGGGGCCCGGTGGTGTCCGTGTGCGTGTATGTGTGCACACGTGTGCATATGTGTATGCACACACCTGCACACACACCTTCAGATGCACGTCCCCT
GTCTAGACCCCATCAAAGCCTCTTGCCAGGACTGGCCTGGAACACACTGTCCAGCCTGATTCTGTTCTCTCCCTGGCTTCTCTTGATCAACTTCCTGTAA
TGGGAGGAACTCTGACACACTTCACAAAAGGGTGTCAAATTAGTTTTAAAGGGAAAAAGAACTGCAGCATGATCTGGAATTCGCTTTCTGCCCTGCGGTT
CCACTGTGAAGGCAACACGCCTTCGAGGAGTTGGGGGATGAGGCAGTGGGGCCCTGTGAGGCCCTGCGGTTTCTATCGGAGTGCTCTCTGACCCCCGGTG
TTCCCTCTCTGTCTCTCTATGTCTTTASCAGGTGTTTCCCACACTTTAGTCATTGGCCTTTCATCTCATGATTTGGGTCATCTGTGCTATTTCTTTTCTT
TTTTTCTTTTTTTTTTTTTTTCCGACAGGGTCTCACTCTGCCGCCCAGGCTGGAATGCAGTGGCGCAATCTTATCTCACTGCAACCTCCAACTCCCAGGC
TCAGGCGATTCTCCTGCCTCGGCCTCTGGTGTAGCTGGGATTACAGGCACACATCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGAAGGGGTTTC
GGTTTCACCACGTTGGCCAGGCTGGTCTCAAACTCCTGGCCCCAAGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGCATTACAGGTGTGAGCCACCG
TGTCCAGTCATATGTGCCATTTCTTAGCTTGCATTTCCTTTTTAGTTAGTTAAACTTATTTCTTAAATAAGCTTATTTTAAACTGAAACTTGATGTCCCT
GCAATAAAGAACCAGCATTACTTGTCATCAATAAAAGGTAACTGGAGGCAGGCATGGTGGCTCACACCTGTAGTCCCATCTGCTTTCGAGGCTGAGGCAG
GAGGATCTCTTGAACCCGAGAGTTCAAGTTCAACCTGGGCAACATAGCAAGACCTCCGGCCCTTAAAAAAATAAAAAGTAACTGGAAAAATAAGTGGATC
AATATTAACTTCAAGGCCTGTCTCAAGTGTGGCCAAGGCTGTCTCAAGGCAGCACAGGCCTTGCTCTGAACAGCCCTGGATGAGCCACAGCTGTGTCTGG
GGATTGAAGAGAGTGCCCCTGGCCCCTCCCTGCTCCGGTCACCCCCAGTTCCTTTAGTTCACAGCCCTCCATGTTGTCAAGGGCTGAGGAGTCCCTCCTC
GTCCCTGCTCAGGTGAACACAGGAAATGGGGAAGCCCAGGGTGGGGTGGGCCGCCCCATCTTCCCCTTAGCTGATGGGCAGGCTGGATGGGCAGGGAGGG
TCTTTCCTGGGAAGGTAGTGGCCCGGGAGCTGGGCTGGCCCTYGAGTGTTGAAGATTTAACTTGAAAGCCATGAGGGCGCTCTTCCCCAGAAATCATCGT
GGAAGCGGCGAATGAGTGGCAGGAGGTGCATGGASAGTCCTGGCTCTGCAGGCGAGCAGCCTGCCCCAGCTCTTTCCTCCTTARAATTGTGTGACTTTAG
CCACATCATTTAGAAGACACAGATGATAGAGGTGGTAGAAATGGAAAGTGCAACTCTCTACCTGCTGTTGCCCACCACCAGGACGACCACTGCAAATAGT
GTGGGTGACCCGTTCAGACCTGGGACTCAGCCACACATTGGCCCCTGAGGCAGATGAAGTCCCCAGCAGATGGGGAGATGCAGCATTGCTCTGAGGGAGC
AGCAGGAGTGAGGACAGGAGCTGCCACGTGCACAGGAGCAGGAGGGAAACAGGCAGGCAGCTGTGCCCAGGGCCAAGTGTGCAGGAGGCGAGGCAGGCAG
CTGTGCCCAGGGCCAGGTGTGCGGGAGACAGGCAGGCGGCTGTGCCCAGGGCCAAGTGTGCGGGAGACAGGCAGGCGGCTGTGCCCAGGGCCAGGTGTGC
GGGAGGCGAGGCAGGCAGCTGTGCCCAGGGCCAGGTGTGCGGGAGGCGAGGCAGGCAGCTGTGCCCAGGGCCAGGTGTGTGGGAGAGAGGCAGGCACGTG
TGCCCAGGGCCAGGTGTGCAGGAGGAGAGGCAGGCAGATGTGCAGGGGCAGAGGGGGTTGAAGGATGGAAAGGTAGACAGGAGAGGCTGTGAATGGCTCT
GGATGCCGAGCTGAGGCACTTGGACGTCATGCTGACAGCCCTGGACCTCCACGAAGGGCTTTTGAGAAAAGCATGGCATGAAAAGATCTGCTGTTGAGAA
ATAGAAACGGGGCTCTGGTGGCAGGTTGACAACCATGGTCCAGGCAGGRGCTTCCAAGGCAAGTGGTGGAGGTGGGCGAGAGGGAGAGTTCCAGGGATAT
CCGCGTGGATGGAGCCAACACCTGGAGCCCAGGGCAGGGGGGTGGGCTGAAGGGGCACCTGTGGGGCCCTTGCCTGTGGAGGTGAGAACTGCAGCTTGGA
GAGCAGCAGAATTGCCCCCCGGAAGGTTGCTAGGGGAAGATTCCCAGAGAAGCTGAAAGCAGTAGTGCTCAGAGGACAATGAGCTGGCCTAGGATGGTGG
AGGTGGAGGTGATGAAGGCAGAGGGGGCAGAGGCCATGGTGGTGGTAGAGGTGGAGGTGATGGAGGTGAAGGTGGAGGTGGTGGGTGGAGGTGATAAAGG
TGGAGGTGATGAAGGTGGAGGTGATGAAAGTAGAGATGATGGGTGGAGGTGATGAAGGTGGAGGTGACGGGTGGAAGTGGAGGTGATGAAGGTGGAGGTG
GTGGGTGGAGGTGGAGATGGAGGTAATGGTGGAGGTGATGAAGGCGGAGGTGATGGGTGGAGGTGGAGGTGATGAAGGCGGAGGTGGTGGGTGGAGGTGG
AGATGGAGGCAGTGGTGGAGGTGATGAAGGCAGAGGTGGTGGGTGGAGGTGGAGATGGAGGTAGTGGTGGAGGTGATGAAGGCGGAGGGTGGGTGGAGGT
GGAGATGGAGGTAGTGGTGGAGGTGATGAAGGCGGAGGTGGAGGTGATGAAGGCGGAGGTGGTGGGTGGAGGTGGAGATGGAGGTAGTGGTGGAGGTGAT
GAAGGCGGAGGTGGAGGTGATGAAGGCGGAGGTGGGTGGAGGTGGAGATGGAGGTAGTGGTGGAGGTGATGAAGGCGGAGGTGGATGAGGTGGGTGGAGG
TGGAGATGGAGGTCAGTGGTGGAGGTGATGAAGGCGGAGGTGGAGGTGATGAAGGCGGAGGTGGTGGGTGGAGGTGGAGATGGAGGTTGTGGTGGAGGTG
ATGAAGGTGGAGGTGGAGATGGAGGTAGTGGTGGAGGTGATGAAGGTGGAGAGGGTAGAGGTCATGGTGGAGGTGATGGGGGAGGAGGAGGTGATGGTGA
CAGAGATAGAGATGATTGAGATGGAGGGGCAGAGATCATGGTAGAGGTGGAGGTGACAGCAGTGGTGGTCGTGAGCTGTGTGTGTGTTTCTGTGCAGGTG
CTCACCCATGCACGCATGCCCATGAGATGCCTGGCTCTCCACACACGCCCTGTGAGCCAGGCATCCTCTCGGTCAGGGATATAAGCCTGGGCCTGTGCAG
GCTGCCCTCTCCCACTGTGGATCCCCTTGGAGGAGACTGCTGCAGCTGCAGGGCACCCTCTGTCGCCCTAAGAGGAGCAGCAGAACATGACCTCCCATCG
CTCCRCTTCCCACTGCTCTGCTTGGCTTCAGCCTCATGCTGGCATCTGTGTTATCTATAAGCAGAAAGCTGCTTGTTCAGAGCGGGCTGAGACACCTTCG
TGCGTTCATCAAAAGCGTGCTGGGCACCAATGAGGTGTCAGTTCCTGTTCCGGGCATGAGGGATTCAGCAGGAAACGAGACAGACCCACCCCCTGCCCTC
AGTGTCCCGCTGGGGCCAGTCAGGTGAACAGTCACACAGGCTGGGGTAGGCGCTTGGCAGAAGACACACTTGTGACGCTCAGAGCTCTCTGGAGCAGCCT
CTCCGAAGAGATGAAATTTKAGCAGGAACCCCAAGGAACAGCATCCSAGGTAGAGGGATCTGAGTCTGCAAAGGCCCTGGGCACAAAAGAAACAACCACS
CAATCCAGGGCTGGGGARGAGCCCTGTCAGAGGACAGCACCAGCCTCCCCACGTGGATGCCCGACCAGCATCTGAGGYCAGACACAGCCGCCACTGGCTC
CAGGGCTCCCCCACACCACTGCACCCACAACTCCCCTGTTTCAGAAACTGACCACTCACCTCTGGAAACCCAGGAGCCACCTGCACCCCTGTCTTCCCCC
TACACCCCGCATCTGTCCGAAGACCCTGCGGTCTCAGCCTCTTGGATTGCCAGCCACTGGTCACCTCTGTCTCCCCGCCCTTGCCCAGGTGGCCCCAGCT
CACACCTGCATTGCCTCGGAGACTCCTGACRACACCCACCCCCTGCTGCTGCCCRGGCCCCCCCAGCAGTCGGTTCTCAGTGATCTTGAGAAGCACCACT
CAGCTCACCCTACGAGGAGGCCTTTGGCTGTTCCCGTATTTGTCTCTGGACTTCTCTGCTGGCCATAGAACAAGACTGTGCTTTAGAGGGTGGACTCCCA
GAACTGCCACTCACCAGGTGACCAAGGCAGGCCAGCTTTACCTCTCCAAGCCTCAGTTTTCTCAGCTGTCATTTGTGCCTAAAACATAGTACTAACCTCA
TAGGATTATGGGGCAAAAATTACGCTGAATGAACGCACGGGAAAGCCCTTATCCCGAGGCCTCATTCAGACTGCACTGGGTCGCCAGCAGCTCTGACATC
GCTGCCCACACATTAATACAGCCCAGGGCTGCTGCTCAGATGGGTGTCCTTCTCCTGCACCCACTGTACTGGGAGGGCACTTCCTGGATGTCCCTGGACC
CCCGCCATCCAATGTCCAGCTTCAGCGTAGGACTTGGTGTCCGCAAGAATGAGGCCCACATCCAGGAGCAGGCCAGTTTCACRTGAAGCCCAGGGCTGAA
GCCAGAGGCCACGCRGCACCACGTCGGACAGTGTTTATCTGTGCTAATCATGAAGTAACACAAGTGAGGTTTAAAAATACTACGCTTATTTCATTTCAGT
GCAGGAGGGAGAAAGAACACACAGTCTGTATGAGCAACTCAAATCAAAAATAAATGAGGCAAAAGAGTCACCAAAAATAGTGTGGCATTAGARACAGCAG
CCTGCGTGGCTCGGCCAGCTGTCCTCGGCTCTCTGCCGGCAAGCAGCACCACAGAGAGGGCTGCGAGGATGCCTTGATGGTGTTTACTCCAGAGAAGATG
AACCTGATGCCTGCGATCTGATGAGAAGTCACAGTTACCAGCAGGGAAGGTAGCACTGAGGGGACACACAGGGCACCCAAAGGTCTCTGGCATCCTCTCC
TCCTCCCGTCACCCTCGCCAGGCAGTGAGGTCAGAGGCTAGGCTCGCAGGCAGCATGGGAACCACTTGGCCAGAAGTTTCCTCTTTGACCTGAAGGAGTT
CCCCCTTCCAGACTCAGAGTGTCCCCACAGAAGGGCAGGGCTGTGGCTTGGACCCATGTGGGGCTCCAGCCCCCAGAGGAGCAGGACAGCATGTGCTGTA
CACAGCAAGAGGATTTGCACTTTTGCCTTAATTTTATTACAGACGGGGTCACCTTCCYTTTTTTTTTTTTTTTTTTTTTTTTTTGTTTTTTGAGATGGAG
TCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGGGATCTCAGCTCACCACAACTTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTACCAA
GTAGCCAGGACTACAGGTGCCCGCCACCATGCCCAGCTACTTTTTGTATTTTTAGTAGAGACGGTTTCATCATGTTGGCCAGGCTGATTTCGAACTCTTG
ACCTCCGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTCAGATTACAGGCGTGAGCCCCTGTGCCTGGCCTCACCTTCCTTTTTTAATGTGTCAGAGGT
CTGCAAATTATGGCCCAGGGGCCAGATCAGGCCCACCGTTTGTTTTTGTAAATAAGGTTTTATTGGAACACAGCCACGCCCTTCATTTACATATTTGCTG
CTTTTGCACCCAGAGTTGAGTAATCGTAATCGAGATGGACTGGCCCGAAATGCCTAAAATATTTACTGTCTGTCCCATTGCTGCAAAAGTTTGCCCTTCC
CTGCCATAGCTGCGTAAGCACCCTGGGGAAGCGTCCTGTCCGCTGAAGACAGCTCCAGTGTCGATGGGGCTTGGGTCAGTGTTGGGTTTGCTATGCTAAT
ATTGATTTGGAGCTTTAGAGATTTTTGGTTGATTGGTTGGTTGGTTGGTTTTTGGGGGTTTTTTGAGACAGGATCTCGATCTGTCACCCAGGTTGGAGTG
CAGTGTCGCAGTCATGGCCCAGTGCAGCCTCCACCTCCCCGGGCTCAAGTGATCCTCCCACTCAGCCTCCCAAGTAGCTGGGACCACAGGCATGCGCCAC
CACRCCTGGCTAATTTTTGTATTTTTTTGTAGAGACGGGGTTTTACCATGTTGCCCAGACTGGTCTGGAACTCCTGGGCTCAATCTGCCCACCTCGGCCT
CCCAAAGTGTTAGGATTACAGGTGTGAGCCATCACACCCAGCCCCTAGAGATGTTTTTATTTAAAAAAGAAAGGAGATTCTGCAATAATGAGGTTTCTCT
GATGCAAGGAACATCTTTTGTCCAGAGACATTTAGTCACTCGATGGGCCTCAAACCCCACCGTAAAGGAAGCACTACATTCCAGCCACCAGCACCCACCT
GCTGCCTGCTGCCTGCTGACAGCTTCAGCTTTCAGAGCGAAGGAGGCTTCCCACGGACTCCCAGGGGCCAAGCAGGGTCCCCCAGACCACCCTGCTGGGC
CACCCTCCAACATCTCCGAGTGAGGGGTGGGTGGGACTCCACAGGCCAGGGCTCAGGGAGGACCTCGCTCCTGGCGGGTCCTTTCCTGGGATGCACTGAC
GTCCCTTGGCTCTTCCCCAGCTTCCATGAGTCACAATGGAGCTATTTAAACCTGGGGCTGTGAGAACATGTCAATGTGTCCACCCCCTTGAGACCACAGG
GCTTTCAAGACAGAGCATCCTTTCAATAGACCGTGGAGCCAAGTACTGAATTTGATGAGGCGTTTTCACGAGGCCTGTGTGAAACACTTAAAAATTGTGC
ATAACATGTGACTGGACAGGCGTCTACCAGAAAACAGTGCAAGGAGCTTTTAAGCCATGAGGTTTGCATCTGTAGGAAGGCTTTGGGGTGCTGCTCACAC
GCGGTGTGACTCGGGCGGGGCAGGCAGTAGACGGCAGCGGTGACACTGCAGTGACGCTATGGAGCATGGACACTAATACGTCCCACTGGACTTCTGCGTG
RGCCCCAGACAGGAGCTTGACCAGCGTCAACTGGACCTGCTGCATCTGATCCTCTCCCAGAGTGAGGTTTTGAACAGAGATGGGCAGAACACCACTAATC
ACACCGCTGCTGAAATAGGTCTGCCTTCTGGGTACCGGTTATGAAAGCGGATTTGTGTGTCACATCCCCAGGAGAGGAGGTTATGGTCTCACAAGAGGAA
AACCCAGCAGAATCCCAGAGTTGGCTGGAAAGTCAACAAACCRCCTAAAACTCACCCACAAAATACCGTGACCAGGAGTATGCATGGAGACAGTGCCGAG
CTCCGTACAGGCCGTCTGACTTCAGTGAGACCCCCTCCCCACCAAGACAGAGGAAAAGTCCTAGACTCAGGCCCACAAGGATGGGCAAATAGGGCTGGGG
ACGCAGGGTGCGTAGAGCAGAGGTGTAGATTCTGCAAGGGTGTGTGCAAAGCAGATAGGGGAGCACAGGTGTCTGCAGGGGAAGCATGGCCTTCTTATTG
AGCTTTTTTTGAGATGAGGTCTCACACTGTCACCCAGGATGGAGTGCAGTGGCACGATCTTAGCTCACTGCAACCTGAGGCTCAGGCCATCCTCCCATCT
CGGCCTCCCAGGTTGCTGGGACCACAGGTGCACATCACCATACCTGGCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTAGTAGAGATGGGTTT
TCAGTATGTTGCTGGGCTGGTCTAGAATTCCAGGGCTCAAGAGATTTACCCACCAGGCATGGGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCCG
AGGCAGGCAGATCACTTGAGGTCAGGAGTTCGAGACCATCTTGGCCAACATAGTGAAACCCCATTGTAAAAAATACAAAAATTAGCCGGGCATGGTGGCA
GGTGCCTGCAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATAGCGCCTCTGCACTGC
AGCCTGGGCGTCAGAGCAAGACTGTCTCAAAAAAAAAAAAAAACTTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCACACCCAGCCAGGCGT
GGCCTAAAAGGCTGTGTTCCTGGAGGAGATGTTGTCCTGGAACAGGGTTCAGCAAAAAAAAATTTYTTTTTAGACAAGATCTCACTCAGTTGCCTAGGCG
GGAATGCAATAGTGTGATCATAGGCGACTGCAGCCTTGACCTGCCAGGCTCAAGCAGTCTTCCCACCTGAGCCTTGCAAGTAGTTGGTACTACAGGCACA
CACCTGTAATCCCATAGCTGTAAACCACACCCAACTAATTTTTTTTGTAATTTTGTAGAAAAGGTGTCTCACTGTGTTGCCCAGGCTGGTTTTGAACTCA
GCTCAAGCAATCCTCCCACCACAGCCTCCCAATCCCAAAGTGCTGGGATTACAAGCATGAGCCACTGCGCCCAGCCAGGCAAATGTTTTCATAGAGGACC
AGATAGTCGATGTTTTCAGCTTGCAGGAAATTCAGTCTCTATTGCAACTACTCAGGTCTGCCATAGTAGCGTGAAAGCAGCCCCGGGCAATATGTAAATA
GGTGCTGTGTACTGAATGTTTCTGTCCCCCAAGATTGATAGCCCTAATCCTCAATGTGATGGTATTAAGAGGTGGGGCTCTGGGGGTGATAAGGTTTAGA
TAAGCTCAGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGAGTGATCATGGCTCACTGCAGCCTGGGCCTCCTGGGATCGCTCAAGCGATCCTCCAA
CCTCAGCATCCCAAGTAGCTGGGACCACAGGTATGCACCACGACGCCCAGCTAATTTTTTTTATTTTGGGATAGAGGCCTCACGACAGGACTAGTGCCTT
GGTAAGAAGAGGAAAAGGCCAGAGCTCCCTCCCTACCCTGTGTGGACCCAGCAGGAAGGAATTCTGTCTGCAAGAGAGAGCCCTCACCTGGAACCAAATC
AGCCAGGACCCTGATGTTGGATTTACCAGCCTCCAGCACCGTGAGACAGAAACGTCTGCTGTTTCAGCCACCCAGGTTGTGGTATTTCATTATGGCATTC
CCAAGCTCACTAAGATAACAAGATAGCTTGGCTACCTGGCAATAAAACTTTATTTATGGATGCTGAGATTGGGAACTTTATATAAATTTTGTGTGTTATG
AAATGTTATTCTTCTTTTGGTTTTCTTTCGTTTAAAACTGTAAAAATTGGACTGGGCACAGTGGTTCACACCTGTAAGCCCAGCACTATGGGAGGCTGAG
GCAAGAGGACAGTGTAAGGCCAAGAGTCTGAGACCAGCCTGGGCAACATAACAAGATTCTGTCTCTATAAAAAATTATAAAATTAGCCGGGGGTGGTGGC
ACACACATGTAGTTCCAGCTACTTGGGAGGCTGAGGCAGACGGATCACTTGAGCCCAGGAGTTCAAGGCTGCAGTGAGCTGTGATCATGCCACTGTACTC
CAGCCTGGGCAACAGAGTAAGTTCCCTTCTCCTAAAAAAAATTAAATGAAATAAATAAAACTGTAAAAACTRTTCTTAGCTCGAGGGCTGCACAAACACA
GGTGACAGGCTGGCGCAGCAGTTTTCCAACCCCTGTCCTACAGCAAGGAGGGAAGCCGTCACACTGCACTCTCTGCTGGCCAGCCGGTGTGCAGTGTTGC
TCAGGTTCTGGGTGCCTCTGTCATTTAGGAAGGAATCAGCACCATTAAAAGAGAGTGGCAGGGTGCTGATGTTCCAGAGAGAAACTGTGCCGAATGATGG
CTAATTAAGGCTCTGGAGTTGGGCACTGGAGCACCGGACTCCCTGCTCTCCAAAGCCCAGCTTGCCAGCCTCGACCTGAGCGTCTTCACTGATACAGCAC
CAACCCGAGGCTGGCCTGTAAGGTTTGGCGAGGGTCCAGTGTCACAGCCCACGTGCAGCACGTGCTGCACAGTGTCGGCCAAAATTATATTCATGGCTTA
AGTCAGAAACCTTGTGTGGAAGGAGGGAAAGAAGCAAGGTTTGCTCTCAAGAACAAAGGGCCCGGTTGTAGATGGGGTGAGCTATGGCAGGTGTCCTCAG
ATGCTCCAGGGATTGTCCTAGACAGAGGGACTCACTTCGTTGTCAATCTCCGGAGGGCGGAGCAGGCCCAGCAGGTGAAAGTTATGAGGAAGCTGGTTTC
CAATCAGCATGCAAAGGACCATGTTGTCATTTCAGTTGTCCCCAGTGGGATGATCTGCCTAGAGTTTCCCACAGGTGGAGGTCTTGCGGAGGGGGGTCAT
GCATCCCCCGGAGCCCTGTACCTGGGGTCCCGTCTCTGCATGCTCGGAGGCTTCACGACATGTAAACCTAGTTATCTTGGTAACACTTGGGGGATGTGCC
CCCTCCCCACAGTCCTGGCCCAGAGGAATGAAGTTACATCAAAGCAAATTGATTCGGTCGTTGATCCTTATGTTGTAGAAATAGCTAGAAGCTATAAGGA
GAACCACTGTGAGGTCCCCATTAAAGGAGAAGAATTTTGGTGGTCCCCAGACAGGGCTGGCTCGGGATCTCGTTCTGTGGTCAGGACCACCTGCTGCAGT
ACAGCCTCCCACCTCAGCCTCTCAGACTGCCACCTTCTGCCCCCAATCCAGCCTGAGATGCCCCCAGCACCACCCCTGCTGAAAACAGAAGCAGAACCTG
ATACTCAGCCTCTTCCATGACAAGAACACACCAGGATCGCGTCCCTTTCCAAGCAGAATTTTCCCGAAGCCCCACCCTCCTGGACTCGGGTTATGGACCG
CCACAGGCCACCCCAGCTGGAAGAAAATTCAGGAAATATAGGGGTCATGGGTGACAGGTGGGCCAGCCAGCAACCGTATCTACCACATTTTTAAAATTTC
TATTTTTATTATTTATTTATTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAATAGTGCGATCTCGGCTCGCTGCAACCTCTGCYTCCTG
GATTCAAGTGATTCTCTTGCTTCAGCCTCCTGAGTAGCTGGGATTACAAGTGCCCACCAYCATGCCTGGCTAATTTTTGTGTAGAGATGGGGTTTCACCA
TGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCATGTAATCCCACCTGTAAACC
TGTAAGGCCACCACACCCAGCCTAAAATTTTTATTTTCATATATATTTTTTGAGACAAAGTTTTGTTCTGTCACCCAGCTGAAGTACAGTGGCACAATCA
CAGCTCACTGCAGCCTCGACCTTCCAGGCTCAAGCCATCCTCCTGCCTCAGCCTCCCAAGTAGCCTGGACTGCAGGTRCACATCACCATGCCCAGCTAAT
TTTTTTATTTTATTTTTTGTAGAGACAGGGTTTCTCCATGTTGCCCAGGCTGGTCTTAAGTTCCTGGGCTCAAGCGATCCACCCACCACGGGCTCCCAAA
GTGCTGAGATTACAGAGATTTCAGGCACGAGCCACCATGTGCCATGTTTATTGAGCCAGCTTAAATATTTGGCTTAAACACATACACCCAAATGTGGAGC
TGCTGTTGACTCCATGATGCAGAAGTTTCTTTTTCTTTTTCTTTTTTCCCAGTTTTTTCTATTGTGGTAAAGGTACATATAAAATGTGCCATCTTAACCA
CTTTTAAGTGTACAGTTTAGTGGTATTAAGTATAAAATTCAATAGTATTAAGTGTATAGTTCAGTGGTATTAAGTGTACAGTTCAGTGGTATTGAGTATA
CAGTTCAGTGGTATTGAGGGTAAAGTGCAGTGGTATTGAGGGTATGGTTCAGTGGTATTGAGTATACAGTTCAGTGGTATTGAGTATACAGTTCAGTGGT
ATTGAGGGTAAAGTGCAGTGGTATTGAGGGTATGGTTCAGTGGTACTGAGTGTGTAGTTCAGTGGTATGAGTGTGTAGTTCGGTGGTATTGAGTGTACAG
TTCAATGGTATTGAGTGTACAGTTCAGTGGTATTGAGTGTACAGTTCAGTGGTATTGAGGGTAAAGTGCAGTGGTATTGAGGGTAAAGTGCAGTGGTATT
GAGGGTATGGTTCAGTGGTATTGAGTGTACAGTTCAGTGGTATTGAGGGTAAAGTGCAGTGGTATTGAGGGTAAAGTGCAGTAGCATTGAGGGTATGGTT
CAGTGGTACTGAGTGTGTAGTTCAGTGGTACGAGTGTATAGTTCGGTGGTATTGAGTGTACAGTTCAGTGGTATTGAGGGCACAGTTCAGTGGTATTGAG
TGTGTCATTCAGTGGCATTGAGTGTACAGTTCAGTGGTATTAGGTGTATAGTTCAGTGGTATCGAGTGTGTAGTTCAGTGGTATTGAGTGTACAGTTCAG
TGGTATTGAGTGTCTAGTTCAGTGGTATTGAGTGCGTAAATTCAGTGGTATTGAGTGTACAGTTCAGTGGTATCCAGTGGGTAGTTCAGTGGTATTGAGT
GTATAGTTCAGTGGTATTGAGTGTACAGTTCAGTGGTACTGAGTGTATGGCTCAGTGGTATTGAGTGTACAGTTCATTGGTAYTGAGTGTACAGTTYGGT
GGTATTAAGGATACAGCTAGTTGGTATTGAGGGTACAGCTCAGTGGTATTGAGTGTATAATTCAGTGGTATCGAGTGTGTAATTCAGTGGCATTGAGTGT
ACAGTTCAGTGGTATTGAGTGTGTAGTTCAGTGGTATTGAGTGTACAGTTCAGTGGTATTGAGTGTACAGTTCAGCGGTATTAAGTACATTCATAATATA
TGCACTACCATCACCACCATCCATCTCCAGAACCTTTTTATTCTCCCAAACTGAAATTCTGTCCCCATTAAACTGGAACTTCCCATTCCCCCTCCCCTGC
CCCTGAGGGCCACCATTCTGCTTTCTGTCTCTAGGCACGTGACTACTCTAGGGACCTCAGATCATTGGAATTGTACAGTATTTGTCATTTTGTGACTGGC
TTATTTCACCTAGCAGAATGTTCTCGAGACTCATCCGTGTTGTACCATATGTCAGCATTTCCTTCCTTTGTATGACTGAGGGATGTTCCCTTGCATGTGT
GTGCCACATTTTGCTTATCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCGCTGTCACCCAGGCTGGAGGGCAGTGGCGCGATCTTGGCTCACTG
CAACCCCTGCCTCCTGGGTTCAAGTGATTCTCATGCCTCAGCCTCCTGAGCAGCTGGGATTACAGGTGCCTGCCATGACACCCAGCTAATTTTGTATTTT
TAGTAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGA
CATGAGCCACCATGTTCAGCCTTTGCGTATCTTTTTATCCATCAGTGAACCTGGGTTGTTTCCATGTTTTAGCTATTGCAAATCATGCTACTGTGAACAC
ACGGGTACAAATATCCCTTTGAGACCCTGTTTGCAATTATTTAGGGTATATCCCCAGAAGTGGAATTGCTAGATCATATAGTAATTCGACTTTTAGTTTT
CAAAGAACCACCATACTGTTTTCCATAGTGGCTGTACCATTTTACATTCCCACCAACDGTGCACAGGGTCCCCATTTCTCCACATCTTGCCAACCCTTAT
TATTCTGGGCTTTTTTATAGCGGCCATCCTAATGGCTGYGAGRTAGTATCTCACTGTGGTTTTGATTTGCATTTCCCTAATGGTTACTGACGTTGAGCAC
CTTTTAATGTGTTTATTAGCCATTTGTGTCTTGTCTTTGGAGAAGTATCTATTCAAGTCCTTTGCCGTTTTTGTAATTGGGCTGTTTGGTTTTCTGTTGA
ATTTTAGTTCTCTATGTATTCTGGATATTAATTCCTTATCAGATATGGGATTTGCAAGTATTTTCACTCACTCTGGGTTGCCTTATTACTGTTGATAGTG
CCTTCTATTTTTCTTTACCTATTTATTTATAGAGGTGGGTCTTCTTATGTTGCCCAGGCTGGAGTCCAGTGGCATGATCATAACTCACTGTAGCCTCAAA
CTCCTGGGTTCAAGGGATCCTCCCACCTCAGCCTCCTAAATAGCTGGGACCACTGGCATGCACCACCATGAATGACTAATTTTTTTTTTTTTTYCGAGAT
GGAAAGTTTCACTCTTGTCTCCCAGGCTGGAGTGCAATGGCACAATCTAGGCTCACTGCGACCTCCRCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGC
CTTCCGAGTAGCTGGGATTACAGGCGCCCACCACCATGTCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTCTC
GAACTCCTGACCTCAGGTGATCCACCCATCTCGGCCTCCCAAAGTTCTGGGATTACAGGCGTGAGACACCATGCCCAGCTGCCAGGCTAATTTTTAAATT
TTTTGTTAGAGATTGGGTCTCACTATGTTGCCCAGACTGGTCTCGAACTCCTGGCCTCAAGCAATCCTCCCACCCTGGCCTCCAAAGTGCTGGGTTACAG
GTGTGAGCCACCGCACCCAGCCAGTAGTGTCTTTTAAATGAAGTATCTCTAATTTTGCCACTCAGCATTTACCAGTCACCTGCCTTCCTGGTCCAAAGAA
ACTTTTTAAAAAAAGAGTTGGCAAATATCTGAAAATACAATTTATTTTTAAGAGCCAGGAATGAAGCTGAGGTTTGAGGGCTGGTTCAGTGTGTCTGAAA
CTGCGAAGCAGCCAGTGAGGTTACTTTCGCATCCCCTAGCTTTTACCTCTGCTCGTGAGATTCAGCATCTGCAGCTGTGGTCTGTGATAGCCGTGAATAC
AGTCTGTGTTTGGAGACCCACAGAGTCAGGGCAACATCTCCGTGCTGGGGGCCAAGAGGATAACGGCTGTTCTCTGGCTCTGGGAGGCAGCAGAGGTCAC
CTGTCCAGAGCCAGAGTTCCATGGGGGGCTCCAGGGCAGGAGGTCAAGGTATGTGTGAGGAAAGAACCCCAATTTCGAGCTGGACACACCTAGGCTCTGG
TTCCAGCTTTGCCACTAATTTCACCAAGCGACCTTGGATGTTATTTAATATTCTTGGGCCTCAATTTCCCCATCTGTAAAAAGCATGTCATAGTCAGGGT
TGGGAGCAAGGCCCAGAGCTGGCTCAACATGGGTTGCTGTCCCCCAGCTCTCCGTCATGGCGCCTCGCTCTTTCTTTTTCATTTTCCCATTCGTTCGCCT
TCCTCCTTCTCCCTTCTCCCTCCTGTTTGTCTCTCGACACCTCTACTTTCCTAGTGAGCACCCAGACTATTTTATTTTCCCTTCCTTTTCCTCTTTCTAC
CTCCCCTAACCACTGTCTTTATCTTTATCCTGCCGGGAACACACAGCAGCACCCCTGGTGTAGGCTTCAGAGCTGTGTACCTATGCCAGGAGAGGGGGTG
CCAGCCTCCCTCCTGGAATCACACACACGGGKGTGGCCTGGGACCAGGGACTCAACACGGTGCAGGTGGCYGGCACCATGGGAGATGGAATGTTCCACCC
GAGTCCTCCCTTTGCCTGGTACCCCAAAGAGCTTGGGCTGTGCCCAGAGTGAGTCACCAGAGAGCCTGGCCCCAGGCTCAGCAGCTGGCGTAGGAGGGAG
GAGGGGCCTCCCCAAGAAGGAATGAGGGGCCTCCCCAAGAAGGAATGGCAGAGCAGGGAGAGGCCGCGGGGAGGGAGAAAAACCCCGCAGAGGGTGCTCT
TACCTCTGGCCCGTCCTCCCCAGGGCCACCTGTCCCCTCAAGGCGGCTGCCCCCTCTGTGTCCTGGCACAAAGTTGGGAGATGGAGTGGCAGAGCCTGCC
CTGGGCTTCTCAGCAGTGCACAGCTCAGAGCACACTTTAGAGTCAGCCAGCCCTGAGTCCAGGGCTCTCTGACCCTTCGTGTTGTCACCTGTAGCATGGG
GGGGCAGCAGTACCCCTTCCCAGGGCAGCAGGGAAGATAAGATGAGGGAGCGCAGGTAAAAGGTGGGCAGCCCACCCCAGCACACAGCCGATCCCGGCAC
ACAGCCGATCCCGGCACACAGCCGATCCCGGCACACAGCCGATCCCGGCACACAGCCGATCCCGGCACACAGCCGATCCCGGCACACAGCCGATCCCGGC
ACACTGCTGGCAGCAGTGAGGGGAGCTCTTCAACATCACCAGAACCCTCTGCCCTGAGAAAGGGGCTCCTGGGCCGACAGGGAAGGTCTGCCTCCTACTC
TGGAGGGGCCGCTTGGGGACAGGCCCGGGCTGTCTCCTCACAGCCACCTGCTTCCTGTCCTCTGCCTGTCTCCTGCCCCATCTGGCCGCTGCTCATCCAG
GAAGGTCGGAGATGTCGGGCCCTCCCACCTGGGTCACGCGCTAGGCATGCCTGAGAGCAAAGGCCACGCCCCGACACCCCACGGGGCCCTGGCGCGCCAG
GCTTCTCAGCCCTGCGGCGGCAGTGCATAGCTCTGGCACGCGCTGCACCAACTTCCTGTTGGGTGCTGTGGTCCCAAGGCGCGTGCTTTGCAGCAGATGT
GTGACCTGGCGTTCCCCTGAGTGCTCGGAAAATGGCCTTGTCTCCGGTCGTTCCCGTTCAGGAGCAGGTACCTGGGGTGCTCCGGGGATCCCGTTGTCTA
GGATGGGTTTTCTGTCTGACGGGTGGGCAGCCTCAGCTCCCTGAGCAGGGCTTAGGTCCCCCGTAATGTCCAGGGTTAATTGTGCCAGCCTGAACCCCTG
AGCCCCGCATGCCCGCCTAGGGATTGGCCTCAGCCTGGGGTGAGCTGACCCCAAAGACACCCTGCCCAACGCAGCCCGGCCCTTCACTGCTTCCTGTTGC
TGCTGCTGGACAGAGTGGGCCTGGCACCCAGCAGAGATGTCTGACGGCCGCACATTCTCCCCTGGCTTCTGCCTTCATCCCTGGGATGATGTTGAGGGAG
ACGCCGGAAGATGGAGAGCCATGTGGGGCCACCTCTGTCCCTCTGCAGGGGGCAGGGCTGGCAGCTCCTGGGGAGAGCCCTGCCCATCTTGTCTGCTGTC
TCTCGGGAGGCCCTGGCCTGGGGATTCCCATCTCTGAGTGGAAGGCGCGAAGGCCCCTGCCTTGAACATGGATGGCGTGGGTCCCCAGTCCCTCCTCTCT
CCCCTCCCCCTTGGGGCTGAGCACAGGGCAGTGGTGGGGGATAAAGACCCCTCAGAACACTTCCCCACCCTGCAACCCCTTGCACAGCCCTGAGTCACTG
TCCCAGAGGGGAGGGCAAGGGGCTCCCTGGTGATGGCTTCCTGCGTCCCCTCTCACTTGCCTCCTCCATTTCCCCTGGGCAGGATATGGGTGCAGGGTGT
GGTCTTGGAGGGAGGAGGCTGTAAGCCTCCTGGGGGACACAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGACGGCTGAAGGGAGGAGGCCGGGGG
CCTGGGTGTGCGGCTATGGGGACTGAACTGTCGAGGGCTCCTGCTGCCTCCGCAGGGGACAGGCCCTGCCAGCTACTGAGTGAGCAGCCTGCGGCAGCCC
TGACTCACTGCGGGTCGTGCCGTCTGTGCAGCACTGGGGTACCCACCACCCAGTGCCAGGTGAGCGGCCCTGCACGGCACCGTAGTTTCCACCTGTGGTC
ACTGAGAGGCAGGATGGAGCTAGGGCAGGCATGGGAATTTTTTGGCTGTGGTCTATTTTTTGTTCATTGCAGCATTGATTACATGTGAATGTGGACTGTT
CTTGCAAAAGTCTAGACCTGTCGTATTTGTAATCAGGGAACAGGCATTGAACGTTGCTTTGAAGAGATTGAAATTTCTAGCTTGTGATCTTCTTGAAAAT
TGTTAATGAGGCGTTGATGTGATGTACCATCAAATGCTCCGTTCGGCAGTCATGACCTTGGGCACCGTGGTTAGGTCCCAATGCTTCTGCTGTTGACTGA
ACCATGTGACATCTGTCGCCGTGCCACTGGTCCCCTCGGCTCAGGCCTCAGGAGATTGGAGGAGAGACTGAGGTTTCTCTGTGACAAACACAGGGAATCC
TGACTGGGATCTCCAATCTCTAGTAAGGTTTGCACAGTTCTTCTCCTCRCATTTCTTTGGCTGCATCTGAGCCAAAGTCTGGATGGAGCTGTCGGGGAAC
TGGGTTATGTTGACCTCCCAACCCCTGCCCACCCTCTGGGGTGTCCTTCTGACAAATGGGCCTTTCTTCCAGATCCCCATCATGACCCACCAGGCCAACG
GCCCCCTAGGGTCTTGACCCCAGTGCACTCAGAGTCAGCACCTGCCTTCGTTGCAGCATTGACCCTCTGCCATCAGATCCCACCCAGGGAAGGAATGGGC
TCCTGTGTGGGCKCCTGGCTTCTGGGTGAGAGGGGAAGTGTGTGTTGTGTAAGTGCCCTTCTGTGTCATGCGGTTTTGAGCAGTTATACCTCTTCCTGTC
TCCGCTGGAAGCACAGTCACTGCCATGGCTCCTCTAGGCTCTGGCACGCAGAACAAGCAGACCATGGTTTTGTGTTATACAGTAGTCACGGCAGATACTT
CGGGGGCTTGGCAGGGGGGACCTCCGGGGTTCCAGAAGCAACATGCAAAATAACATCAGTTCAACAAGCAGGTGCTGGAGTCCTCGCCCCGAGGCCTTCC
GGAAGACACCCAGGACGTCACACCTAGCCCAGAACAGCCCCCCTCTCTCCATCCCTTCTGCGATGTTCACTAGGCATTACCACATGCTGGTGGCCGCTCT
GGGTGCGGGGKTACATCCGTGAAGGAAAGAGATGAAGCTCCCTGCCCAGAGGAGCTGACCTCCCAGCAGTCTTACAGGATATGGTTACAGAGGTGAATCT
GGGGGAGAGTCCATCGTTGGTGTTGCTCCACTGACCTCCAGGATGGCCTCCAGGGACCCCGCCTCCTGGTGGCCACTGTCCCCATCGTATTAGAGTTGGC
CTTTTGAAAGCTGTGAGTCCAAGTTGCCTGGCAAATAGATAAGGAATACAAGGTGATCATTCTTAAGACCTCGGGGATCTGCAAACCAGCCTTCTGGAAC
CTTTGAGCTTCCAGGATGATTCGGAATTTGGATGCAGCCACAGAAAGCCTAAGCGCCACAAGTCCCGCCATGACGCCCTGAGGCGTGGGTTCACACTTGG
GTGTGGCTGGTCACGTCTATAAAAATGAGCCTTCACTTTGGGAGGCCCAGGCGAGTGGATCACAAGGTCAGGAGATCAAGACCATCCTGGCCAACATGGT
GAAACCCTGTCTCTACTAAAAAATACAAAAAAATTAGCCAGGCATGGCAGCGTGTGCCTGTAGTCCCAGCTACTCAGAAGGCTGAGGCAGGAGACTTGCT
TGAACCCAGGAGGCAGAGGCTGCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCCCGGGCGACTGAAGAGACTCCATCTCAAAAAAAAAAAAAAAAAAA
AGATGAGCCTTTTCTGGGAAAGTGGAAAAGACAGAGAAGCCTCCTGACAGCCAAGGAGACCAGCAGCCAGTAGAGCAGGTGTTGTAACAAGGCCGAGGAC
CCTCAGACACCAATTTTKCTGGTAAGACCGCTGCCCAGGATGCACCGTACAAGAGCAGCTTCACCTGCCTTCATGCAGATGGCACAGATGTCCAGGAAGC
AGCTGTGGTCAGTGACTCCCCAGGAGTCACACCCAGACCTGGGGCCAGAGCCATCCCTGCACCTCTGCCTGATGTGACACCAGGGCGGGGCACAGGCTAG
TCCCAGCTCCTGCAGCCCCCGCTGCACACCCCTACCTGTTAGCACACTGAGTCCTCCCTCATTATCATCCCATTTTACAGATGGAGAAACTGACACAGGG
AAGGCTGAGAGAATTGCCCAAGGTCATAGACCAGCACATGGCAGAGCCAGTGCCAACTCCAAAGCCCAGATCCGAACCACTGAGTGGGCCTAACCTCCTT
CCCAGGAACCCAGACTGATCRCCTCAGGTCACCCAAAGGGGATGGAATAGTGTCATCAACCAGCTCCCAAAGAAGATCAGAGCATGTGCAGTCAGCACTG
GCAAGATTTCAGCTTAGAGAGAGATCCTCTCCAGCCTCAAAGTACCGACTTTGGATCAAGACTTCTCACTAAAGGAAGGTTCCGGCCAGCTCAAATTTTT
TGTACTCCAGAATCTGCAATAAAGAGACAGATAATGTCTTTTGCAGAAACTGGAAGTAGGTTTCCAGGTACCCACTGGACTTATAATTCAATGTTTATAA
GTATGACCCTGGAGATTAAATCAAAGCAGAACTTGCTCCCTGGAGCCCTGGGGTTAAGCGCTAAGATGAATTCTGTATAATGATGCTGCTGGTAGCTACA
GCGAGCATTTATTTATCATGCACTCATGGAGCAGCTGGTTCCATGTCACAGAGAAGCTGGGGTTGCCTGGTCCAGGTGGGGTGGCTCTTGCATATGTAGC
AGGGTGGACTGGGGCGTGCCTGTCCCATGATCATGGCAGAGGTTCAGGGGCAAGTCTCCTGTGACTGAGACATCTGATCACCTTCCGGTGGCCAAAGCAA
GTCACATGGTTGCACAGGAGCGCAAGGCTAGGAATTCACCCCTCCAACKTGTGTGTGTGTGTGTGTGTATGTGCATATGTACGTGTGTCTGTGCATTGTG
TATATGTGTTATGTATGTATGTGTGTAKGTGTGTGTACATATGTGTGTATGTGTGTATGTCTATGTGTGTATGTGTGTAGGTATGTTTGTATGTGTATGT
ATCTGTATGTGTGTAGGTATGTGTGTATGTGTGTGTAGGTATGTGTATATGTATGTACGTGTATAGGGGTGTGTGTATGTGTGTTTGTGTGTATGTGTGT
GTGTATGTGTGTAGGTATGTGTATGTTTATGTGTGTTTATGTGTGTATATGTGTGTATGTGTACGTGTGTGTAGATATGTGTGTGTATGTGTGTAGGTGT
GTAGGTGTGTGTGTATATGTGTGTATGTGTAAGTATATGTGTGTAGGTATGTGTGTGTATGTATGTGTAGGTGTGTGTATGTATGTGTAGGTGTGTGTAT
GTGAATAGGTATGTTTGTATGTGTAGGGGTGTGTGTGTGTGTGTGTGTGTTGGGAGAGGCAGCAAAGTCACACAGCAAAGGACATGGATGCTGGGAGAAG
TGAGGCATTGGGTGTCAGTAACTCCACCTCCCATACCCTTATGCCCTCCCTATGCAAATCAGGTGCCAGCTCCATCAACCAGAACATGTGGGTAACCATA
ACAGGTTGTCCCCACACCAGGTCAAATCAGAAAGTGTCTTCTATTATTTTGTGTCTCTGTCCTTGACTCCTGGGCTCAGTCCTGACCTTTCCTTGTGGTT
TCTTGGCTTAAGCCATTCATTTATTTCCTTCTCTCACCTGGGTGCACTGACTTCTTCCCATCTCATGCAAGCAGCTCAGGTGGCTCCGACAGGGTACAGA
TTCCCTTTGATGCTGAGGTTGAAGGAATCAGAGACAGTGCCCCCAAAGCTCCTACTCAGACCTCCCAGGGCACATTTGCGCCCAATATAATAGTCATTTA
CCATTAACTCCAACAGAGAAATTGTGGTCCCAGGCCCCCCATTCTGCAGATGAGAAAACTGAGGCTCCAAGAGAGGCCCTCGCCTTGGTTGGCTGTGCCC
CCGGGAGTTTTGCTCCATTTATCCATTTAGTCTGGGGCTGCTCTTCCTTGTGTGTCCTTGCCTAGAATTATGTATGGGTCCACCTTTTCCAAAAATCTGC
CAGCCCTGGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAACCCTTTGGGAGACTGAGGCAGGAGGATGGCTTGAGCCCAGGAGTTTGAGACCAGCCTGG
GCTGCAGAGTAAGGCCTCATCTCTATTAAAAAAAAAAAAAAATAGCCAGGCTGGGTGGCACACATCTCTGATCCCAGCTAATTGGGAGGCTGAGGTGGAA
GGATCCCTTGAGCCCCATAGGTCAGGGCTGCAGTGAGCCRTGATCATGCCACTGCACTCCAGCCTGGGGAACAAAGCAAGACCCTGTCTCAAAAAAAGAA
AGAAAGAGAGAGGGGCATGGGGCAGCGTGGAGAGGAAACTGCCAGCCCTAAATCTCATGACTTAGGCTTGCCCCAGGAGCCAGAGTCCCATAAAGGGGCA
CTATGGGCCTTCCATCAGTCCCTGAAAGAGTCTCACCAGCAATGCCTTCCTGGGGCTATGGCTTTGATGACAGTTCAAGACCCCCAGGATCCCTTTCTGT
GTTTAAACAAACTTGGCTTCCTGTCCTCTCACCAACTCTTGCATTCAGAGCTCAAACTGGCAACATACTTGGCCTTTCTAGAAAAACTGCAGTTGAGAAA
ACACCTCCACTGAGGGGTCATAGGGGAACCGAATATTCACACAGCCTTCAAGAACCTCCCCTGTGATTCCTGGTTAATCATGAAAAAAAGAAAGAGCAGT
GGCCGGTTGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACAAGGTCAAGAGATTGAGACCATCCTGGCCAACATGG
TGAAACCATGTCTACTAAAAATACAAGAATTAGCTGGGCATGGTGGCACGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAA
CCCAGGAGGCAGAGGTTGCAGTGAGCYAAGATCATGCCACTGCAGTCCAGCCTGGCAACAGACTGAGACTCTGTTAAAAAAAAAARAGAGAGAGAGAGAG
AAAGCAAGCAAGAAAGAAAGAGAAAGAAAGAAAAGGAAGGAAAGAAGGAAGGAAAAAGAAAAGAAAAGAAAGAGCTATGCCCTGGCAGACACCACCTTAA
CCAAATGGCCAGACCTGGTCTTGCCCTCGATGGGCAAACTTGCTTGTTCGCCCCTGCCTGGACGCATGAAAAGGAAAAGACCTCCCCAAAAAGGTTCAGC
TAAATTGAATCCTGAAGCTACAATCAGACAAATCCAAAGCAAGGGACTGTCAGCAGGACAGATGACCTAAACGTTTCAAAAAAGGTCAATGTCATAAAAA
ACAAAAATGAAAAATATGGGGGGTTGCTTCTAGATTGAGAGAGATGAGAGAGAAATAACCAATGCCATTTGTGAGCCTTGAATGGATCCCAGATTTTTGT
AAAGCTGTAGGAGTTATTTTTGGAATAATTGGGAACACCTAATAGAGGATCAGGCGATATTGAACTAAGTATCTTAGGTACAATGCTGGTGCTGTGGTTA
AGACAAAATTCTCAGATGAGTGCTGAGGTATTGAGGGGTGGAGCTCAGGGGATTGCTACGCACTTTCAAACAGTTCAGAGAAAAGTGTGTGTGTGCATGT
GCGTGTGTGTGCATGTGGGTGTGTGCGCATGTGTGCATGTGGGTGTGCGTGTATGTGTGTGTGTGCCTGTGTGCATGTGCGTGTGTGGGCATGTGGGTGT
GCATATGTGTGTGTGCATTGCATGTGTGCCTGTATTGTGCATGTGTGTGTGTGCGTGTGGGTGTGTGTGCATATGTGTGCGTGTATGTGTGCATTGCATG
TGTGCCTGTATGTGTGCATGTCTGTGCATGTGGATGTGGTGTGCGTGTGTGTGCCTGTGCATATGTAGGTGTGTGCCTGTGCATGTATGCATGTGTATGT
GTGTACATATGTGTGTGGAGAGAGGAAAAGGGGAAGAGAGGAGCGGGAATGCATACAAGTGAGACAAGAGGTAAACAATTGGTGTATGATTGCGATCAAG
AGTATATGGGTATTTATTGCTATTCTAATTATTTCCACTTTTATGAGGTTTGAAAGTTTTCAAAGTAGTGAGTTGGYAGGAAGAAAGAAAATGCCCAAAG
AGGGAGCCTACCGACCTTCCTGGGTCCCCTGTCCTTGTCAGCCAACCACGTAAAGGGAAAGAGCTAGGATTTAATGACCGGATTCCTTCCTGGGCTCCAA
GCATTTTCACATCTTGCTTCTCATTGCTCCGTGAGAAGTTGGGCAGGCCTTTCTAAATGCTCCATGCTTCAGTTTCTCCAAATCTAAATCCGGAAGATTT
GCTCCAGGTCACACGCAGACCAAGTGGAAGTGGAGCTGATGGGAGGGACCTAGCCTGTGGGCTCCCTGCTTGGACCCTGGGCCCTGCACCCCGTCAGCTG
CTAGGCTCCCCTCTTGGGTCTGGTGTGTTKGTTTCTGAAGCCTGTTCTCCCAAGTCCCGGAGGTGTCAGGGATCCCRGGGCCACCCAGCTTAGCTGTGCC
TGCCTCCCTCTGCGCTAAAGGAGCCACTGTGCCAGCCTGGAACTCACGGCATCCCCTTTAGGATGTTGGCTCCACAGGGATTGGCTCCTTGGCAGATGCA
GTCGCTCCTGATTGGACAGTGGTGTCTGCAGCTCGACAAGGTGGACTCTGGGCCAGTCGGCTCTGCCTGTGTGTCTTGCGTCCTGAAATGCAAAGCAGGG
GCTGTGGGGAAATCTCACCAACCCCTCCTCCCCTGGGAGGTGGCAAAGGTGGTGGACTGGGCTGCTGGGACCCTGGGGAGGAATGAAACAGAGGCTGTGT
TGATGGCCTGCAGTTCCTTGTAATGTGGTCATCAAACGGTGTACAGTTCCCGTCTGTGGCTGCAGGCTGGAGAGCTGACTGCTGGCACAGATACAGCCTG
ACCTCGGGTCAACACTTCTCGGAGTCCAGAGGGGTKGGGAGTGGGACAGGTGGCCTCCCAGGGACGCCTCCCTGAGTGGCCAGTGGTGCCGCTTGTCCCT
GCACCTGTAGCTGCCCTGAGCACCCCCACTGGACACAGTGGGCATTGCACCCTCCGGAGAAAGCTGCCCTTGTTCCACGTGCGAGCCCTGTCCCCAGCGC
CATGGGCTGTGCTACCTGCAGTAACGCAGACTGCGAGCCCCGGCTGCCTCTCYAGTGCTCTCTCTCCTCTGGCCTTCAGCAGGCTGGGTCACAGAGGTAT
CCATCCACTCATTCATTCACTCAACAAATATCTGTTCCATGTCTACTAGGTGCCAGGCACAGCTGGGAACCAGCAGACAAAACTCCCTGCTTTCCCGGAG
CCGGCATCTTGGTGGGCAGACAGCATAAGCGAGACGAGTAGGTGGAGGAGAAGGCGTGTGAGCAGGTGACAGGCGCTGGGGAGAAACAGCCCAGGGGAGG
GACCAGGGAGTGTGGGGGAGACGGGGACTGYGATGAAAGGGAGGCGTCCAGGGAAGACCTCCATGAGAAGGTGACCTTGGCATAAAGAGGCAAACGTGGG
AGCATGCTCAGGCAGACCACGGTGGTCAGAAGTTGAATTCRGGCCGGAGGAGGAGGAGTGCATGAAGCCCTGAGGTGGGAGTGAGTCTGTCTGCTGGGTT
CACAGACCCCCCAGGGAGCCAGTGTGGCAGGGGCCAGTGTGTGAGGGGCTCAGCGGGGGATGTGGCTAGAAAGGTTGTGGACCCACTGTTGAGATTGGAC
TTTGGCTCTGAATGGAATGGAAGCCATTGGAAGGTTTGGAGTGAAGCAGTGACATAATCTGACTTATGTTCTGGGAGGATCACCCTGGCCGCGTAGAGTC
TGCCGGCGGGGGTGGAGGTGGGCGCAGGGAATGCTGTGAGGAGCAGCATGAGAGCCGGTGGCAGCTGGGCAGGAGAGGAGACAGGGAGAGGCACGGGGCC
CCTGGCCCAGGGATGGATTGGATGTGGGAGGCGGGACGTGGGAGGAAGGGAGGAGTCRGGGTGACTCCCGGGAGTGGGACTGACACCTGGGAGGGTGGGG
AGCTCGTTACTCATCTGGGGCCACCCTGGGAAGAACTGGGCTGGGGGTGAGGGCAGTCGGGAGCTCAGTGTCTGACCCAGGAATCCGAGGCACACGTTCC
CCACCCTCATAGCTGAGCCACACAGGCAGGAAATAAACAGCTCTGGGGTTCAGGGGAGTGGTAGAGGGGGTGGGGTCTGCAGCATGGGGACGGGGTTCAG
AGCCACGAGATGGGTGGAAATCTGAGGGGCTTTGTGGGGATGGAAAAGAATATATTCAAGAGCTGAGCAAGGGCAGCCACTGGAGGACAGCGATGAGCAG
GAAGAAGCCCAGGAGACTGAGAAGGAGTGGCTGGAGGGATGAGAGGGGAGCGTGGAGTCCTGGGAGCTGGGGAAGCCGCAGGCAGCACCTCTGTCACCCC
GATACGATGGGCACCGCTGGACCTAGCAACGAAGAGGTCACCGCAACCTTGGCAAGTGCAGTTTCCACGGAGTGGTGAGGGCAGAGGCTGATTGGAGTTG
GTTTATAAGCCGGAAGAAGAAGAGGAATCGCAGATAAGTGAAGGAAAACTTTTTGAGGAATTTTCTCAAATGGAAGGCRAGAAACAGTGGAGAAGAAAGT
GGGTCTAAGAAACTGCTTTTTTAGGCCGAGTGAGGTGGCTCACATCTGTAATCCCAGCATTTAGGGAGGCCGAGGCGGGCGGATCACTTGAGGCCGGGAG
TTGGAGACCAGCCTGGCCAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAACTTAGCCAGGCATGGTGGTGCAYGTCTGTAATCCCAGCTATTTGG
GAGGCTGGGGCATGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGTACTCCAGCCTGGGTGACAGAGTGAGACTCT
GTCTCAAAAAAAGAAAAAAGAAACTGTGTTTTTTGTTTTCTTTGGAGATGAGAGAAATAATAACTTATTGGGTGCAGCTGGCAGTGCGTCCTGAAGAAGG
AGGAATGGGCTTGGGATGCCCTTGAGTGGGTGTGGGGCTGGGGACAGCCAYGTGACCATGGACACTGTGGGGCCGGTTCACTGGGTAGCCACAGGAGGGA
AGGCAGGTGGCTTTGAGCACAGATCGTGTCGCTGTGTGTGGAAGGTGGCTTCTGATTGCTTGTGTTTTCTCAGGGGTCTGGGAAGCAGCAGTGGCAGCTG
AGGGTGGGGTGGGAAGGGAGGAGCAGCGAGGTGTCCCCTGAACCTGGGAGAGAGGATGCCGTAGAGCAGGTGCCCATAGACTCTTTCTGTAAAGGACCAG
ATAGTAAATAATTTAGGCTTTGCCAGCCAGCCAGTCTCTGTTGCAGCTCCTCAGCCCTGCCCTTGGAGCCCAGAAGCAGCCTGAGAGGATTCGTAAACAG
GCATGGAGGTGTTCTAATGAAACTTTATTTACAAAAATAGGCAGCAGGCTGGCTCTGGCCTGCTTAGACTCCTGGCCCTCAACCTCGCCTCTAGGCCAGG
GGTCTTCAAAGCATGGTCCCTGGGCCTGCAGCATCAGCGTTACCTGGAACTTGTGGGAAATGCAGATTCTTGGACCCCCACCCTATGTTCATGGARCCAG
TGACTCAGTCCCTGCACTGTTTTCCAACCCAAGTTGAGTTTGTGATTCCGGAATTCTGGAAGTTAGCTCAGCACCTAGACCCAAGAGAGAGTGAAGTGTG
GGGTGGGCTACATGCCCTGTTAAAGGCACAGGCATCCCAGCCCCCATCCCCTTCTGCAAGGCTGTGTGAGGACATCCTGCCTCCCGTGGGCCRTGTTTGC
TTATGCAGCATCCATGGGAGGGCTCCCTGSGGACGGGCTGTGGTGATGACTCTGCTCTCAGCAGAACCCTCCACTCTGAAGCCCTGGTTTCCTGTCCACG
TCCCTCAGCTACTCAGGGGAGCCTGGGGGCAGGAACTCCATTGCTTGTAGGGGAGCCTCCCACAGCAGCAGGGCTCAGCCAGTGTTCCATGCAAGAAGAA
ATGCACTGTCCTCCGATCGAAAGCACAGCATCTTTAGGAGTTTAACGACAGTTTTTTAACGACTTTAGTGAGATGATTTGATTTCCTGCCTCTGAGTCAT
CTAAGAGCAAAATGCGTGAGCTGCTAATGGGCTCAAAGAGAGGCTGCCTTTGAGGCCCCTCCAGCCCCCCAGTGCTGCAGGGATTCAATCACCCCAAAGC
CAGGTAACCAGCCTTGGCCTCCCAAAGTTCTGGGATTACAGGCATGATCCATCGTGCCTGGCCTGAATGAGGGTCTTTTTTTTTTTTTTTTTTTTGAGGC
GGGGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGAACTCGGCTCACTGCAAGCTCCGTCTCCCGGGTTCACGCCATTCTCCTGCCTCACCCTC
CCAAGTAGCTGGGACTACAGGCGCCCGCCATCACACCCAGCTAATTTTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCT
CGATCTCCTGACCTCGTGATCCACCCACCTCAGCCTCCCAAAGTTCTGGGATTACAGGTGTGATCCACCATGCCTGGCCCAAATGAGGGTCTTTAAGAAT
AAAACTCCRGGGGATCGTCACCAAGCCCCACCACTTCCTCTGAGGTTAGCATAGTGCTGGATCTTCTCTGCATCTTCTGTCCTTGTTTTTGGTTTTCATT
TTGGTTTACTTGAAACAGGATCTTGCTCCATCACCCAGGCTGGAGTGCAGTGACACGATCATAGCACTCTGCAGCCTCAATCTCCCAGGCTCAAGCAATC
CTCCCACCTCAGCCTCCCGAGTAGCTGGGATTACAGACATGCATCACCACGCCCAGCTAATTTTTTTATTTTTTAATTTTTTTGTAGAGACTGGGTCTCT
ACAAAACAAATGTCTCTGTGTTGCCCAGGCTGGTCTCAAACTCCTGTGCTCAAGCAATCCTCCTGCCTCGGCCTCCCGAAGTGCTGGTATTCCAGGCTGG
TCCCATTTTACCAGCAGGTCTACACATGTGCTCACATCGCTCACTCAGAGGAGACCTCCGTTATTAGGGGGACCTAGACCTGTGCTGCCTTGACCCCAGG
GACAGAGGTTGTTTGGGAATCCCCTCCCTTACTTTGATTTCTTCCGAGGAAGCCGGCTTCCTGGTGACGGGAGGTCACTGTTCTGGGGAAAAAGAGTGGG
AAAAACAAAGCCAATCAGCCACTTGGCTAAGTGTCAGGTTTCCCAACAACTTCATGGGTTGCTGTGGATGGGCGGGGCTGTTTTGAGCCCAGACCATCCC
TTTGCCTGTGGGTGTGGGACCACGTGATTTTGGATCAGGGGTCATTTGTCCTTCCAGAAGCCAAGCCCTGTTCCAGGCATGGGGGTGCAGCAGTGAGTGA
GACCCACAGAACCACTGCCCTCCTGGAACACACCCCCCCCAGAGAGGGAACTGGGGCACCACAGACCCGTGTGCAGGCAGCAAGGGCGTGGTGTCGGCCG
GGGAGCAGCAGGGACCCCTGAGCCCCACAGTCGGGGCTCATGGCGCTGAGAAGCACTGCAGCAAGGGCGCAGCCAGTAGGAGAGGAGCYGCAAGCGCAAG
CATCCGCAGACAGTGTGAGCTCAGCGTGCTGGGAAGGCGGGGGCCTGGGTCAAGGGCCAGGCGGCAGAGCATAGGGGCCTGRGGGGGCAGTGCCTAGGAG
TGGGAGGAAAGAGCATGGGACCAGATTCACTTTGGAAATAGAAGCCCCCAACCAGCAGCCAGCCAGGTGGAGGAAGGCRTGCAGAGCTGAGAGGGTTCAG
GAGGCGGTGGGGGGAGCCACTGGGAGGGGACCCAGGGGTTCAGGTGAAAGACAGCAGTGGCTCAGCCCAAGGGTGGCAGCCAGAGATGTGGGTGGACGGC
TGGATATTGGCAGCCATACTCATTATCAATGCTGCTGTAACAGYTCATCACAAACCCTGCAGCTTCCAACTGCCCAGAGTGAGATCTCCTGGTTCTTGTG
GGTCAGGCATTGGGGCAGAGCAGGGCTGGGTCTGCTGTTTTGGGACCCCTGAGCTGCAGTCGAGGTTCTTGCCGGGACTGGGCTCACCTTGGAAACCTCT
GGTAGGAAAGGATCCACTTCCAGGCTCCCTCGTTCGTTTGAAGGACTCCTTTCTTTGGGCTGTTGGGCTGAGGGCTCAGCTTCTCGCCAGCTGTCGGCCC
GAGGCTGCCCTCAGTTCCTGCCCCARGGGCCTCTCCAACACCACAGCTTGCTTCATCAGAGCCAGGAGGGACAGTCTCTAGCAAGACAGAAGTGACAGTC
TTGCCATTACCTTTGCCGTGTTCTGCTGGTTAGAAGCGACTTGCTAGGTGCAGCCCACACTCCAGGACAGGGGCTGCCCAAGGGCAGGAATCCCAGGAGC
TGCGGACATCAGTGGCATCTGAGAAGCTGCCTGACTTAGGAGCTCAATGGMAGCACCAGGAAGCTGCACTGGGCTGGAGTCAGGGCAAGGGACAGTGTCA
GCGATGACCCTGGGGGACAGCAGTGCAGTCAGGAGCTCAGAAAGTACACAGATGCCCCCTGGGCGGTCTCTTCTGCACCATGTGGGCAGCAGAAACTACA
CCTAYGGTTTCAGAACAACAGTTGGGGTGGTGTGGAAGGACCTCCACGACATATARGGTGGGAGTGTGGAGTGATGGAGTGTGGAAACCCTTCTCACAGT
TGTCACCTGCTCTCCAGCCCCTCCTGAGCCCRTGGACCTGCCTGCCTGCCGTGTGTCTGTCTGTCGTCTGTCTGTCTGTCTCTCTGCTGAGGGGCTCCCC
RATGCCCTGAACCCAGACAGCCTCCTCAGCCTTTGTGATCCCAGAGTCTCCCGGCCAAACCTGGTTGATCTTTTTTAACCACCACCCTCTTCCCCTCCCT
TATTTTGCTTTTCTTCCAGAATTTTCCCACTGTAAAAAACCGAGCAAGTCTGGATAAGTGAGGCTGGCTCCATGTATCCAGAATCAACGACGGGCTCCCC
GGCTCGGCTCTCGCTGCGGCAGACGGGCTCCCCCGGGATGATCTACAGGTGACCCCCTGCCCCCTCAYCCAGGCCCCCTCCCAGGGTCAGTCCTGCTTCG
AGGACGGGTTCCCAAGGCCACTGTCCTCCCCTCTGGAGGTGGAAGGGCCCAAGCAGGGCCCACAGGCTTCTGCCTTCCACGGGGTTTTGAGGTGCACGCT
GGTGAGCGTTTTCTCCAAGAAAGGAGCAGGGGCTTTAAAAACCCAAGTGGGAAAGAAAAACCAAAACTTTTCCAGGGCGTTTGAGCCAGAGTAGACTCCT
TTCTTGTCCCTGACCCTTCCGAAATATCTCGTTTGAGGTTAACAGAGCGGCCGGACAGTGAGTGCACGGCCAACCCCGGCATCCTGTTCCTCCCACTTTA
TACATCGCAGCCCCTGTGGCCCTGCCAGTTTCTCCTGAGCGAGGATGACRACCTTGCAGGCCTTTGGGGAACCACGTCTGCCGGTTTCCCAACACTGGAG
GGAGTGGGGGCGGCCAAATGCTCCTGGGGCATCCTGACCCCCTCCTTGTGGAACTCACTTCCGCTTGCAGCCCTGGGTGTTTCTGTCTGCACCATAAACA
GCGCTGAACATCAGCGACAGCTGCGGAGGGCGTTCAGTGAGAGCTGAGCCTCTGGGGACAGAGCATAGAACCCACGAAAGACGCAGGCACAGGCAGTACC
CCAGCAGCCCATCAGTCTTGGGAAGCCAGACCTTTCCGGATAATCACTGGGGCCTGAGCCAGAGCCCGTGTCTGTGACAGCCACAGGGAAAGGCAGTGTC
TGTCCTAAGAAGAGCCAGGCGGGCAGGTGCGGGTTTGCCAGCACGCGGGTGCTCTGCACGTCTGGGTTGGAGGGTTTTCAGCCATTGCCCACAAGCATAT
TGCAAAGCAAGTCCTGAAGCACATTCAATCCAAACCAACCCTCACTCGGAGGTTCACCACGGAAAACAGGGCCTGGCATGGAAGGAGCCCTTGGTGTCCA
GGAAACTGGCTCCGGGTCTCTGCCCCGTGGCCACCGGGTGGCGCTGCTGCAGAGCACTTGGCACCGGCTGCGCTTCCTCAGAGACTGCCCTGAGCAGGCG
ACTGGTGGGGGCCYGGGGGCATGGGACATTGGTGGTTCTTTCTGACCTGCACCTGCTKGGGTTGATGCCAACTGTGGACTCTCTCTCTTCTCTCCCTTTC
TCCTTTTTCTCTTTTCTCCATTGCTGTCCGAAGTACTCGGTATGGGAGTCCCAAAAGACAGCTCCAGTTTTACAGGTAATGAGTCTTCATTCTCCCTAAA
ACCCAGCGAGCCGAAGGCCAGGGAGCGGGTGGGAGGACTGCACCCTTGCCGAGCAGGGTGTGCTGGTGTATTCTCTGAAGCCAAAGCCCCCGAGACCCCC
AGGCTCTGCTCATCACCCTCTGTGCCTACCCACAGGATGCTGTGCAATGTCCTGATGGAAAATGTGAAGTCAGGTTAATTGTATGTGTTGGTCTGCCAGA
AGTTTGCTTTGATTTGAGCAAATGGGCTTTTGATGACTGCCAAGCTCTCAGCCAAATCTACCGTTAAAGCTTCACTCATCAGGCAGTGAGGGAGATGTCT
TCCTGTGGTCACCAGCTTGCCCTGCTTCCATTATCAGAGTACAGGACGTGGCGAGCCCATCCGTTCCCCCTTTGCCTGTGGGTTTGACCTGATCTGGAAC
TCACAGAGCTCCTCAGGCTCATTGAAGGTTAATGCCTGCTTGGGGGTGTGCAGTACTGATAYGACGTGGATCAGTGACATCTTTCTGATATGTTTTTCTG
TTGGTGAATTAACAAACCGGGCACCTGGCGAGAGACTGTGCCCCAGCAGGATGTGACATCAAGATGCCAGGCTTAGGGCCCTGCAGGGTGCTCTTGGGGA
GACCCGTTCCTCTCTCTGGGCTGCCTCTCCCTCACCTGTAAGGYAGGGGATGCATGTTCTTGGTGCAGCCTCCAACCCTAGGAAGTAAAATGTCAGGGCT
GCCTGGAGCCCATGGGCAGCAGCCTCCCCATGCCTTGGGACTGTTTGGGGAATTGGCACGGCTTCTGGCAGCAGGTCCCTGGTATGCATTGCTGCATCTT
GGCGGTCAGGCCGGGAGGTCTCTCTATTCGGACCCGGACATCTGGTAACAGTGCTTTGGGGATCGTTGCCAATGTGCCAGGCAGTGGTCATGGAGGTGGC
AATGTATTTCCATGTAGCTTTTCTCTCCCCGCGCCCCCACTCCCCACCCCCCCCCCCGTTTGCCAGCCATAGCACCTCTGATGGGGACCGTGGACCTAGA
TGCTCAGAGTGATCTGTGCCACGCCTTCAGTGCCTCCTCGGAGGTCCTGCTCCTTACAGGGAGCTCTGAAGACATGGCCAACTCTTAGAWCCTACTGAAA
TTTTGGTAGATAAGATTTTGCTTAAGATAGTTAAATCTGAACTCCGGCTTGCAAATGCTTTCCCTGGATGAAATGTTTGTATTGTGATGTATGTACACAT
GGTATAACAGATCCTAACAAACATATGCCGCTCATCCCAGGGGATTTCATCAGTGAAACAAAACATGTACCTGAACTGCATCCTCAGAGAGCCGGGAGCA
GCCTCAGTCCTCAGAAGGGAAGGGGTGAGGTCTGATGAGCAGRCAGGAAAATCCCAGGTGCAGACCTGCCAGCTCAAAAGGGCTGCCCACAGGTACAGAC
CATCCAGCTCCAAGGGCCTGCCCCTAGGAGGGGCCAAGTAAATTATCCAGTGACCAAGTGAGAGCCTTCCAGCCCACTCAAGGCCCTCAAAACCCCACAG
GCTCAACATGTTGTCCCCCCCGCCGGGATCCCTGTGCTTAAGAACCTTCATTTCCAGGTGGCCTTCCTGGCCCCAAGGGAAGCTCTGAAGCTTACCCTCT
AGGCTCTCAGCCCCAATTCTGGTGCCCACAGGCTCTGGCCATCCTACCCGTTGGATCTCCAGGGGGTCACTTGGGTGTCTCTTGTGGGGGCTCTGGAGAT
GACCTCTAAGGGCTAGGGTCTTTGTTTGTTAACAGGCTGGGGGCCACTCCTAGTAGGGCACCCTCATCACACCAAGCATACCACTAAACATGGCTATTGG
ATGGTTCTTTCAGTTACTTAGGCCTGGCCCTCTCACAGGGCAGAGGCGTTCAAGGCATGTGCCCTGCCCCCATGCAGCTCCCAGGCAAGGAATTGGCATA
GGACACTGTGCCAATCAGCTGTCCACCAAGTGCTGCATAACAAACAACTCCAAAACTCAGYGCCACGCAGCAATCAGCATCTCTTCCTTGCTCCCGTGTC
TGCGGGTTGACCAGGCAGCTCGTCTAAGCTGGCTTGGCTGGGTTYGTCTCCAAGCTGCAAGTTGGATCCCCRTGTCCTCCATCTTCCCATGCTTAACTGG
GGCCTAYCCCAGGCATGTCCTTCCCATGGCAAAAGTACCAGAGGAAAAGCAGAAACATGCAGGGTCTCTTACGGCCTATGGTTGGGGTCAGAGCGCTGTC
ACCTCTGCTCACGTGCTTTTGGCCAAAGTAAGTCTCAGGAACCAGCCCACAGTCAAGGGGCTGGAAATATATYGCCCCCACCAGTGGGAGGAGCTATAAA
GTCACATGGCAAAGGGCATGGGTACAGAGAGGGGTGAAGGATTGGGAGCAATACTTCCATGTACCCCAGGTCTCAAATAGCCCTGATGATCTCCAGAAGG
CAGAGCACGTCACAGGAGAAGCCCAAAGAGCATTTGGGGTCCAAGGAAGGAGGGGCCACAGCCAGCTGAGAGCCAAGAAGACTTCACGGAGAAGGCAGCA
GGGGCTTGGATCTGGTCCTTGAAGGCTGGGCAGGATTCAACGCAGAGGCTGGGAAGCATATTCCAGTAGATACAACAGCCTGAGCCACAGCTCAGAGGTG
TGCACAGAGAACAGGAAGTGACAGTTACCCAGCCTGGGCCATCAGGGACATGATGGAGAATAAAGAGAGGCTGGCTGTAGAGGTGGATGTTGGTGGGGGG
CCTCGAATGCCTAGCGATGGGGCACAGATGCACTCAGAGGGCACTGGGGAGCCATCTRTGGTGTTTGAGCAGGGCAGGGGTCAGAGATCTGCTCTAGGAA
GGAAGCCTGGTAGCAGGGAGTAAGACAGGGAAGAGAGAGGCTAATGCAAGGAGACCAGACAGTGCCCAGGAAAGGTGCAGGACGGCTGAGCTCCAGGAAC
TGCACAGAGAGAGAATGAAGGGGTGCAGGGCCTGAAAAAAGGACGTCAGAAGCCACGTCCACAGGGCTTGGCCACTGATGGGCAGGTGCTGAGACAGAAA
GGGACAGAGAGGAGCAGTGGACCCAGGGAAGGAGAGGGCCTCATTCGGAGCATGTTAGGCTGCAGCTACCACCCAGTAGTGAGGCGCAGGCCCCCCGACC
AGGGCGACATGTGGGGATCTGACAGAGTGGGCTTGGGCCTTTGGGGACAAAYCATTTCAATTGCCAAGGCCTTCGCAGCTAGTCACCCGCAGCCAGRCAC
CTCCAGACTCTACGTGCTCTCCCAGCCTCCCACTTCATTTACCTTCCACACTGCGACTGGGGCACTGATTTCCTGTCCCCCACCTTCCCCCATGGCAGCT
ACCACTGTTTGCTCATTCATCATGGGGGGACGGTTCTGCCTCCATTCAAAATCCCACATTCACTGGCGCGCTTTCTCAGCCGGAAGATGATGTCACGCTG
GGACTTTGCTGGCATCCTGTGACACGCAGTGACCCTGGGGGTCATGACCCTGGGGTTGGGGCTCAGCACTTAGCCTCATCCCAGAGCTCAGCCTTGTTTG
GCCTAGTCTCAAAGCATTTCCCAAACCCCAGGTCAGGACATGTGCCGTGGAGAAGGGCTCCTGTGTCCCTGCCTGGAGTGAGTGGCAGTGTGGAGTCCAA
ATAGCAGGTTCTGGGGCCTTCCTGCCATTTATAGCTACCGGTAGTATCAGATATACCCATCTCGGGTGTATCCCCAGAGGACAGGAGGAGCATGCGCGTG
TGCTGAGCAGAGGCCTCTCCAGACCCCCTTGGCTGTGGGTGGTGGCCCCATACGACGGGGCCCCCAGCTCCCCTGCTGCAGACACAGTTCAGAGTTGAGT
GGTATGCGGAAGCCACAGGCTCTGTGTCCCGCACTCAGATACCAAAGAGCAAGGCCTGCCCCTTTCGACCTGTGGGTCCAAAGGTTTGTGTTTCTGGCAC
GCGGGGATGGTGGAGGCAGCAAGGGTAGGCCTGAGGGACGGGCAGGACCTCCCCCTCACCTTGGGCTGCACCCCAACCCCACGCACCGGGAGTCAGCCTT
GCCAGGTTGCAGCACGGAACTGCACTTCCCGAGCTTTTAGGGGAAGAGGCACTCGTGAATAATTCAGCCTCTTTCACTGAGATGAAAACGCCCTAATAGA
ACTAATGGACTCGCTGCCTCAAAACTCGACTCTGGTGGGACTCATCTCATTCACCAATTGCTTCTGACGTCCTGCAGTGACACTCCCTAATGAAAAAGCC
GCTGTGCCAGATCCTTAGAGTGTCTGGTGATCCCTAATAAACCAGACTGTGGCCTTTTTAACGAGCAGACGCCCCCACGAAGGCAGGTGAGTCCTCCCTT
CAGCCGCTACCTTCCTAGTGGAGATGCCGCTTGGGGGCACGCATCCGCGGGAATGAAAAATAACAGAGGAGACCATATTTTGGGGTGGTTTTGTCTGATC
CGGAATTAGACCCTCCGTGTTTTTGCAAAGCAGAAGACCTTAAAAAAGAGCCAGCCTGAGGTAAACTTGGAATGACCGTGATGGATGGGGTGGTGGGSGG
CAGGTTTCAGCCGGGCAGCACCTCTCGCTTGAGTCTGCTCACAGCCCAGACCTGCCCAAGGCTGACTGTTTTCCCATCTGCCGGAGACACGGGCGTCTAG
CTCGTACCTCGCTGTGTTCACCATTGATTAAGATTCAGCATTTTCCAGTTTTGCCCAGAGCGCTGTCAGGGAGGTTTGGTCTTGTCTGAAATGTCTGTGC
AGGAAGCACGTGCTGAGGGAGCCAGGGGCTGCTTGTTTGGGCCTCAGTTTGCTGATTGTCCTTGAGCGAAAATCATTCTGTGTTTGCACTGAAGCAATGC
CGTGTCTTGTAGAGCCGCACCCCGGAATGGTAGCAGCTCCCCTTCCATTTCCGCTTTGGAGAACTCTGGCTGGGCTCTCTGCTCTCTGGACAGGTGTCAC
CATTCAGAAGAGATGCTCAGGGTTCCTTCTCAATCTCAGGTTGTATGCTTTGTTGGCTTTCAGTAAACAGAACAATTCAGAAATTCCAGGTAGAGGAGTC
TGGGGTGAGGTAGTGATTCCTACTGACTTAATGAGGTTAACATCTTCCTTGCATTTTTCCATGTCACGGTGTTAATTCACGTGAATTCCCCTGGGCCCCT
GATCTACAGGAATAGATTTGCACCAGGCAGGCCCAGCCCAGGAAAGAACTTGTGGGTTCCACGTAATTAGCAATGGCTRTTGAGGAGGGGCTCGTTTTTC
TTGGTACCAGGGTGGTGAGGGAGTGTCAGGGCTCAGAGACCCTCACTCTGGAAAGCGGCCGGGATTTGGGATATTTTGAATTGGAAGTCAGGGGTCACTG
TGCTCTTGAGCACAGGAGAAGTGGGGACCCTGAGGCAGGAGCCCGGCAGTGGGGCCACTCTCTCCTCCCTGCAGTGTCTTACCGGGGGGCCCTTCGTCCA
AGGACCTGACGCTGCTAGAGTCTCGGCAAAAGCCCAGAATAGAGCCCCAGTGTGAGGGAGTCCAGAGGTGTCCTCTGTCCCCAGGCACCGCTGGTAACGG
GCAGAGCCTCTTTGCCTTCTGCCTGTACCTATCCTTCTTCCCCTGGGGCAGCCCTCCCAGAGTCATGAGCCTTCAGGACCACAGGGAGCCCCCGCTGTAC
AGAGTCCTGGCATGGGAGTCCCCCCCACACAAGAGAGGGTGACCTGCAAAGAGCTGCTGGGTCTGAGGTAGGAAGCCAGCCCCGCCCCCACCAACAGCTG
CCTGGCACTGCCAGGAAATGCCCAGGTATAGCCCTGGTTGGCCTTTTGGAGCCTGGGCCTTGGTTACTGTTCTACAAATATCTGAGCCCCTCCTCTGTGC
ACGGGACACTCCCGTGGGCACTGGTCAGGGGGCAGTGGCAGCAGGCAGAAGAGTCCTTGCCCTCCTGGACCCAACCTTCAGGGGAGTCCAGCGGCCATGG
GCTCCTCATGGCACCAGCCCTGCTCCTCACCCCACCACCCCATGCCAAAGGCTGCCATTTCTGTGCCCGCAAGTTCCCTGGCCCAAGCCCTGCCCTGGCA
CCATGGGGACAAGCTCGTAGCAAGAGGCTCTGGGCTCCCTCCGTGCCGCAGGGCTCCCACCTGCAGGTCTGCTCCCAGGGCTGCAACATGAGCTCTAAGG
AAAGATTGCAAGCGGGCCCCCACAGGGAGGGACGCCCTCTAAATCCTGGCCACAAAACCCATTCTGTCCTGCCCTCTCTCCCCTCTCCCACTCACATCCC
CAAACTCRGCCTTCCACCATCTTGTTGTGAAGGGGGCGATTATTCACATCTGTGTTCTCTTCCCTTAAGCATTTTCTAGGGAGATTTGGTGTCTGTGTGG
CTCACTCCTCTCACTCAAACCTGTGGTCACAAGTTCCTTCCCGCCCTGCCTGCTGGCCCCTGGTGGTGGATTTTTCTTTCCACAGCATTTATCATAATTG
GTGTCTTATCCCACGCCCCMCAACAGACTGTCTTCTGGCTGCGTCACCAACTCCCACCCAGTTGTCCAAAGCCTCATCTCATGCAGCCCACAGCAGCCTG
GTACAACAGGCCTCTGCCCAGCCTACCTCACAGATGTGGAGGCTGAGGCCGGGAGCGGTCAAGGTGCCTGCCTGGGCCACACCATGAGCAGGTGACAAGC
AGAGCTGCCCCTGTCCAGAAGCTGGGCACTCAGCCACCCCGTCCTCCAGCCCCGGGGCCTTGGCTATATTTCTAGAGCCAAACCAGACCCGGATTGCTTT
TTGTGAGTAATGTCTTGAAAGCTAATGGCTATTGATCTCAGCCTGGTCGGGCCAGGCAGGGAACTTGCGTGTCTGAGGCTGGTCCTGCCTTTCAGAAAGA
GCCCTGGGGCTACAGCCTGCCCAGCTGGCCTTCTTTCTAAACACAGACCTCAGGGAAGTGAGGGTTGGCCCCCATTTGCCCCACACCGGACTGGCAGCTA
GCCACRTGGCCACCTCAGAAGCAGCTGCCTGCCACGCGCATGGAGGGAAGGGAGTGGCCGGCCAGTAGGCAGGGAAGGGAAGCTGGTGCTGCTGTCTGTG
GGTGCCAAGGGCCTCATTTCCTAAGGTGAACCTCTCCTGGAGTCCGGGCCTCTCTGCCCTCCAGAGCGATTCTCCTGGAAGGCAGACGGCTTTCCATGCC
AGGGTACCCGCCTGCTTTAGCGTCCAGAGGTCCAGCAGCCACCACCCCTCCCAGCATAGAAATGAGCAGTGGTGAATGCAACTCCTGGCATGGGAACCCC
CCAGCAAGAGAGGACGACCTGCAAAGAGCCACTGGGCCTGAGGCAGGAAGCCAGCCCCGCCCCCACCAACAGCTGCCTGGCACTGCCAGGAAATGCCCAG
GTATAGCCCTGGTTGGCCTTTTGGAGCCTGGGCCTTGGTTGCTGTTCTACAAGTATCTGAGTCCCTCCTCTGTACACGAGGGGCACTCCCATGGGCACTG
AGCAGGGGGCAGTGGCAGTGGCAGGAGGCAGAAGGGTCCCTGCCCTCCTGGACTCAACCTTCAGGRGAGTGAATTCAGCACACAGGACAGCTAGAAAGGA
ATCAGCAAGGTGGATGATGGCGAGCGCCATGGAGACAGATCACAGCAGGAAAGAGGCACATGGTGTGGTTTGTGTGGGACAGAGGGTAGGATGGGAAACG
CAGCCCCCCCACCCCCGGGAGCCATGCCCATCAGACAGAGGTGCAGAGGTGCAGACAGCACAGCAGGCTCCCCAAGGACGACTGGTTGCTCGCCTTTAGG
GAGGGGGCCATCCAGCCCTGACCAGGGTGGTGGGGCCAAGGCCTGTGTGGACACTGCTACCCAGCTCCCTGTAGGGGCTCCTCGGGGGCTCCTTGCCTGC
TGGTCTCTCTTTAGCTCTTCTCTGAGCCCACCTTCCCTACCTCAATTGCATGTTCATGCAACAGGCATTTGTAGGCTCTGCTCTGAGCTAGGCCTCATGC
TGGGCACAACAGGGCAGACATGAATGAAGGTCCCTGCAAATAAGATACAGACGAATACTTGCAGGGAAACCCCCATGAAAGAGGCAGCTGTGGGGCTCCT
GGAGGTGGCCCCCCTCTCTGGGTGCACATATAGGCAGAGCAGTGAAAGGTCAGCAGGCTGGTCACCCATTCTGGAAGGACCCCAGCACATGGGGCTCATC
ACAAACTCCTGCCCCTTGTGGGTCTTTCCTTTGGCCCCTGGAGCTCACCCCAGGAAAGGCCCAGCCTGGGGCAACTCCAGGACATCTCAACCCCCTTCAA
GGACCGTGCTAAAGCCTCTGTAGCTGCCTCAGCTCCCAGGATAGCCCTCCCAGCTCCTTCCCAGGGATAATCGAACTTTTCCTCTCTTGGGGCAGAAGGT
GGGGACAGTGCTGGTTCCTTTCCAGCTCCCAGGCCAGGTTCCAGGATCCCACTGTGCAGCTGACCCAGCTGAAATGGTGACTTCCCCTCTGCACCTTCTC
TCTCTGGTGATGATGCAGAGCTGCAGTGCAGGCCACCTGGGCCATGGCCGAGGCTGCAGTCAGGTGGGGTGAGGGTCACTGGACTGGGGACCTCCTTTGT
GTTGAGCCTGCCTCCATGTCCTCATTGCGCTGTCACAGACTCTGCAGGGTGAGGACTCAGCCCCGAGGCTGCCCTCACTGGTCCACTCACTGTTGTGCAC
ATGAATTAACACCAGTGGTTGCGTTCTGGACACACGCTTTCTCCCTTGGCCTTTTAATTGTCCACTATCTCTCAGGGCTCACTCACTCACTATGTTGAGA
TGCCTCATTCTTGACAGCAGCACAAATTCCCACTATGTGGATGGACTGTCACTTAGGTAACCAGTTTCCCTACTGATGGACATTTACATTGCTTTTAGTT
TCCAAGAATGTGCATTCATCATTTCAGCTATWTTTCAGTGGTTCTTCACATAGAAACTTTGAAACTCCCCTGTCCCAACTAAGCCTATTTCCCCAGGCCA
CTCTCCTCCGCAACCTGCTTAAATGCATTCTGCTCAGTTTTTCTTTTGCAAAAAGCATGAAGCCCAAAGATCTCTGCGGTGCAATGATGCGTTCAACAAG
CAGGGAATGTGTTGTATAGATAGCATTTCCCTTTACAAGGCTAAGAGCAAATAGGACCTTCCCATGTTGGGGCCACCTGGCATGCGGGGGTGAGGTGCCT
CCCTGGCATAATTACAGGAGAGTTTACTTCAGCAACAGGTGTGCCCTGCGCTGCTTTCCCAGGGACAGCTTTTGACCCAGTTTTACCCTGGGAACCACCT
CAAGAGACCACCATGACATGGTACCGCAGTCACCACGGAACAGCAACCCTGGTCTTCAGCATTTGGGGGGCTCAGGCTCTGCATGCTCTCTGTGCTCCCG
TTTTCATTTGGACACTTGGGGTGCAGCTGTCCTGCCTGGAATGCAGCTTTGCCTGTGCTTGTCTCACAGATGCAGGGGRCAGAAAAGGGCAGCTTAGCCA
GAGTTCCTGGCAAGCACTGCTTTGCGGACTGAGAATCTCATGCCAAGAGGTGTTTACATCCAGGGGCCGGGTCCCACTCCTAGACACCAAGACCTGGTGG
TGGCACTAGTTAAAGGATGTTTCGCTGCAGCTGCCCCCTGCCCCAGGGCCAGCCATCCAGCCTGGGGCACGTGGGGCATTGGCACACTGTCTAACTCATC
ACCGTCTGGACAGTGGCAGCTCCCAAGCCAGGCGGCACCATGCTGTCCATGACGTACAGCGAGAGTCTGCGGAGCGTGAGCAGCAGGTGCCACTCTGAAT
GGGCCCTGCACCCCGTCCGCCAGACGGACACGCTGGAACTGCAGCGGCTGCGGGAGGTGCGGGCGGCTGCCCAGGCCAGGAACATGGAGAGCTTCCTCCR
CATGCACGGCCTTTCCCTGGACGGCTGCACCGCCCAGCGCACAGGCATGAAGTATCGGTAAGGGCCGGGCAGGGGGGCGGTGGGGTGGGAAGTCTGATTT
CAGCCATATAAATATGTATAAAAGGGCTGGGCACGGTGGTTCACACCTGTAATCCCAGCACTTGGGGAGGCAGAGGCGGGTGGATCACCTGAGATCAGGA
GCTCGAGACCAGCCTGGCCAACCTGGTGAAACACCACCTACTAAAAATACAAAAAATAGCCAGGCATAGTGGGGCGCACCTGTAGTCCCAACTACTCAGG
AGGCTGAGGCAGAAGAATTGCTTGAACTCAGGAGGCAGAGATTGCAGTGATCCAAGATCATACCACTGCACTCCAGCCTGGGCGACAAGAGTGAGACACT
GTCTCAACAACAACAACAAAAATGTATAAAGGAAGAAAATGAGGCCAGGCACGGTGGCTCATGCCTGTAATACCAGCACTTTGGGAGGCCGAGGTGGGTG
GATTGCTTGAGCCCAGAAGTCTGAGACCAGCCTAGGCAACATGGCAAAACCCCATCTCTACCCCAAAATACAAAGAAATTAGGTAGGCATGGTGCCATGC
ACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATTACCTGAGCCCAAAGAATCTGATGCTGCAGTGAGCCGTGATCGCACCACTGCACTCCAG
GCTGGGTGACAGAGCGAGACTCCATTGCGCAAAAAAAAAAAAAAAGTTTAGTAAATTCTCCATGGGGTAAAAATGTGTGGGTGTGTTTCTCCATGGGGAA
AAATGTGTTTCTGGGTGTTGGAGACCCCTGCTCTTAATGATAGGCACGTAGGTCTGAATTTTCTTGGAACCTCCAAAGGACATTCTTTTTAGTGCGCTTG
TCTTTGAATTCAGCACCTCGGACAGCGCTCTGCTAGCCACCGTTCTCTGGCTGGTGTAAATCCCTCTCAATTGCAAATTGACAGCTTTATCTTCTGTGCC
TCTCAGGAACATGCCCTTGTGAGAGCCATTCAGCCAAAGAGGACCCTCCCCACCCAGTCCTTGTAGAGTTGCCAGTTAAATTTGAAGTTCAGATAAACGC
GTAACTTTTTAGCATAAATACGTTCCATGCAATATTTGGGTCATACTTATACTAAAAAGTTCCTCATTGTTTATCTGAACTTCAAATTTAACTGGGCGTC
CTGTGTTTTATCTGGCAACACTAAATATCTGGCTTCCGTCTGAGACAGACCCTAGGGATCATCTGCGTGCTCTGTGCAGAGTGGAGTGCAGGCCAGGACC
GCTCCTTTAACGTTTTCTCCTGTGGACGGCGTGTTTGGTCCTTCAGCCCATTGTTTGAATATGTGGTTGTAATTTAGAAACAAAACACTTCTCCTGTGAG
TCCATTAGATGGCAGTGTTTTTCAGGCTTTGTATCCTAAATCCAGCTGTAAAGGAAGGACAAAGGGTCCGCTAGTTTGGCCACAGCTGACCTCCTTGTTC
TGCTGGAAATTTCTCAAGAAGGAGACGCTGGGCATTCATGAGGGGCTGGTCATTGATTCCTTTTGTTTATTCAGTAAATGTTTATTGAGAGTCTGCTTGG
CACCAGGCGCTGAGCCAGATCCTGGAGCTGCTGCATGAACAAGAGCAACCAGGTCCCCAACCTCACGGCAGCCATGGCCTGGGGGTGTGGGGGGCAGAGA
AGCAGCGAGCTTGCACGGAGACAAGTTCCAACAGCGACCACTGGCCGAGGCAGCAAAGCAGGACAATGCAATGAAGAAAGACCAGGGAGGCCRAGGGGGA
ACCCTCTGAGAGAGGGATCATCTGAAGATGTGGAGAACATTCCAGCCCAAGAGGAGAGGGGTCTGGAATGGATGCCTCTCTCAGCTGGAGGAGCGAAGAG
AAGGCCCAGGCGGCTAGGCTGGAGGGAGGAAGGTGGAGGACACAAGGCGATGATGCAGGAGGGGCCAGACCCCATCCTCCAAACTCAGGGAAACCTCAGC
TCTCTCCTATGTGGACAGGATTTGTGATGGAGGATAGTTTAGTGGGTTAAATCAAGACCCCCCAAAATTCACATTCATCCTAAACCTCAGAATATGACGT
TAGGCTGGGTGTGGTGGCTCACGCCCGTAGTCTCAGCACTTTAGGAGGCAGCCTGGGTAACATGGCGAAACCCCATCTCTAAATACAATCAAAAAATTAG
CCAGGCATGGTGACACATGCCTGTGGTCCCAGCTACACAGGCGGCTGATGCAGGAGGATCACTTGAACCCAGGATTTCAACGCTGCAGTGAGCCCTATTT
GTGCCACTGCACTCCAGCCTGGGCGGCAGAGTGAGACCCTGTCTTAAAAAAAAAAAAARAAGAAGAAGAAGAAGAATGTGACATTATTTGGAAATAGGGT
CATTGCAGATATCATTAAGATGGGGCAATGGGGCCATACAAGACTAGAATGGACCCTAATTCCTACGACTGGTGTCCTTATAAGAAGGCCATGTGGTGAT
AGAGAGTGGAGTGACGGGTCCACAACCCAAGGGACTCTGAGGAGTCTCGGTGTTACCGGTGGAGGGTGTGCAGCCAGGTTCCTGGCATCTTGAACAAAGA
ATTGGACAAAACGCACATACAAAGCAAGGAAAGAATGAAGCAACAAAAGCAGCCGGGTGAGGTGGCTCACGCCTGTAATCCCAACAGTTTGGGAGGCCAA
GACGGGTGGGTTACATGAGGCCAGGAGTTCGAGAGCAGCCTGGGCAACATGGCAAAAGCCTGTCTCTACTAAAAATACAAAAATTAACCAGTCGTGGTGG
CGGGCACCTGTAGTCCCAGCTATTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGYGGAGGTTGCAGTGAGCCAAGATGGAACAAAAGTACA
CTCCACAGGATGGGAGTGGGCAAGCGGCTCAAGAACCTGGATACAGAATTTTCTGGGGTTTAAATACCTTCTAGAGGTTTCCCATTGGTTACCTGGTGTA
CATCTTATGTAAATGAAGTAGTGGCCTGTGATCATTCTGATTGGTTGCAGAAAGTGACCAATTAGAGGCTGAAATGAAGTTACAAAGTTACACTTCTATG
CAAATGAAGACTTGGCCCACAGCCAGCCTGATTGGTTGCGGGAGGGGACAAATCAGAGGTATTTTCCATTTTTCGTCTGCCACACAGAAAAGGGGGCGCC
ATGCAAAGAGAGTAGCCTCTGGTTCTTTTGTTACTTGGGCGTGGAAAGTTGGGGTTTTCCTTTTGACTTAGTTATAGGAAATCAGCGGGAATTGGCCTTC
AGTTCCCTGCCTCCAGACCCTGGTCTCCTGCCCCAACAGGAGCCACGAGATGCTGGAAGGGACAGGAAAGGACACCTCATGAGGGTGTTTGGAGGGAACA
CTGCCCACACCTGGACTTCAGACTCCAGAAGTGGGAGAGAAGACATTCCTGTTGTTGTAAGTCCTCTAATTTGGGGATCTTTGTAATGGCAGCCGCAGGG
AACTAACACAGGTGGAGAGAACATATCTTTTATTTGCCTGAAGCCCCGAGGAAAATGCCTGAGCAGCCTCGGAGACACTGCAGGTCCCACTGTGGGGCTG
AAACGCCCTTGGGGATCTCGCTTCTCAGGGAGTGGAGGAGACCAGAAGACAAACGCTTTTTTTTTTTTTTTTTTTTGAGTTGGAGTTTCGCTGTATCGCC
CAGGCTACAGTGCAGTGGCACAGTCTCGGCTCACTACAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTGCA
GGGATGCACCACCATGCCTGACTAATTTTTGTATTTTTGGTAGAGACAGAGTTTTGTCATGTTGACCACGCTGGTCTCAAACTCCTGACCTCAGGTGATC
TGCCCACCTTGGCATCCCAAAGTGCTGGGATTACAGGCATGAGCCATCTCACCCCACCAACAAAGTCCCTTTAGCAGTTGATGGGCCAGAGGTTGTTGTT
ACACCCAGGTCAGGGTGAAGGTGGGGCGGGGAGGGTGGTGGCCTCACTCTATCTGGTGAATTTCATTTTGCTGCACCAGGGYTGACGGGGTGGGTGGGAT
GCTCCGTGACTCAGACCACCAGTTATTAAAGATCCCAGATAAATTTATTCTGTGCTTACCTCTTCTCCGTCAGCGACTGGGCTGGGTCACCATTAAACTT
GGTCTTAAATATGAATATAGAAAAGATGATACCTGGGGATAGGCACTGCCCGGTGCCGCAAGAAACCAGCTGTGCCCCTGGCCTGGGCATTTCATCAGCT
GAACTGAGCTGTAGCTGATGGAGGTGGACGGCAGCATGCCTGTTACACTTCCCCAGTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGT
GCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCGAGCCA
CCATGCCCGGCTATTTTTTGTATTTTTAGTAGAAACGGGGTTTCACCACGTTGGCCAGGCTGATCTCAAACTCCTGACCTCAAGTGACCCACTCGCCTCG
GCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTACACTTCCCCATTGTTTAAACTGTCCTCAATTATTGCTGTTAAAAAGAATTT
TAAGATGAATTTTTAAATCCACACAGCCCCTGTGTAAGCATGAGGGAGCAGGGTGAGGGCAGCTGGCCTAGCACACACTTCCCCTCCCCTGTGGACGTTA
GGGTTCAGAGATGTGGCCTCAGAATGGCAGGCCAGAAGCTGTGGCCGGGCCCACACTGTGCTGACTGGACACCAGCCCTCAGTTCAGCTGTGTTTTCCTC
TGCTCCCCATGGTGCTGGGAGTGAACCCAAACTCCCCGCAAGGCTCTACGTGGCCCTAGCCTGCCTCCTTGGTTTCAACTCGGACCCCTCTCCCTCCCGC
TCAGGAGGCTCTGGACGCCGCCCCTTCCTTCTGTATCCCCAAAGGGGAACTCATTCCATCCACAGGGTCATCGCACTTTCTGTTCCCTCTTCCTGGAGGC
TGCCTCCCCAGACGTGGCCTGGTTCCTTCCCATTGTCACATCTAAGCTTGGTCCCCAAAGAGACTGTCCCAAGCACCCACTCTAAACAAGCACCTATGAA
GTCATCAGAAGCCCCTCTCCTGAGTGAGTGTCTTCCTCACCCCTCCTCCATCTCGGTTGCCTTGCTCTTTGCCCATCTGCACTGCTTTGAGATCAGAGCT
TTGTCTGTCCCTGGCACCCGGAACACCCCCAGCCTCTGTGAGTTTAGGTCGGAAGGCGCTGCGTGGTCTTGGTCTTAATCTACTTTCCAAAGCACATGTC
TCGTTCGGGCTGCRTCCTAGATGGTGGGAAGACAGGACTGACTGGAAGCTGGTCTGAGGCTCTCTCTGCAGTCCAGATGTGGATGGCAGGGAGCCTCTGC
GGTCCTTGGGCACTGACCCTTGGTCATGAACTCCTGGCAGGGCAGGAGTCCTGATTTCCTGTGCTTTCTGACTCTAGATCCCAGGCTCTTACCACAAGCT
CAGGTTCACCAGGAAGTACTTGGTTGGTTGCCAGGTTCATTGAGCAGACTGTAGTTGCTCAGTTAACCATAGGCCATCACTTCCAGCTGGGAAGAGCTGG
GAATCCAGGTGTGTCTTAAAGGACAGGCGGGAAGGAGGGCACTGAGGGCAGGAGGAGGGGAAGGAGAAAAACAGCAGAGACCAGGGGGGATGGCAAGTTA
ACCTGTCTACAAGGCCAAGTGCATCCTGGGAAAGAGGGGTCCCCAAGGAACGGGGTCCATCTTGGGAAAGATCCTGTTTTACTTTCCTGAGGCTGCTGTA
ACAAGCTGGGTGGTTTACAACAGAAGCTTTTTCTTTCCCAGTTCTGGGAGGTGAAAGTCCAACGGCCAGGTGCAGCCGGGCCATACTTCCTCCGAAGGCC
CCAGGGAGGGTCCTTTTTGCCTCCCCCAGTTTCTGGTGGTGCCGGCAGGCCTGGGCATTCCTCAGCTTGTGGCCACATCGCTCCAACCTCTGCCTCTGCC
GTCCCATGGCCATTTTCTCTCTGTGGGCCTCTGTCTCCAAATCTCTCTCTCCTTATAAGAACACCAGTCATGGCCAGGCACAGTGGCTCATGCTTATAAT
CCCAGCATCTTGGGAGGCTGAGGCAAGTGGATCACTTGAGTCCAGGGGTTCAAGACCAGCCTGAGCAATGTGGCAAAACTCTGTCTCTACAAAAAATGCA
AAAAATGGCCAGGCATGGTGGCAAGTGCCTATGATCCCAGCTATTCCTGAGGCTGAAGTGAGGATCACTGAGCCCAGGAGGCAGAGTCTGCAGTGAGCCG
AGATCGAACCACTGGCACTCCAGCCTGGGTGACAGAACAAGACCCTGCCTCAAAAACAAAAAGCAAAAAACAAAAACCCAGTCATTGGATTGAAGGCTGA
CCCTAATCCAGGACCATCGCATCTTAACTTGATTACATTTGCAAAGACCTTGTTTCCAAATAAAGTCACACTCACAGGTATCAGGAATTAGGATCTCAAC
TGTCTTTTGGGGACACATTTCGACCTGCCACAGGCCCCAAGGATTGACTCAACACCTTGAGCCTGCGGGGACATCCCTGAGTGTCCTGGGAGGAACCCGG
GCTCCCACCGGCTACCTGTGTGACCTCAGACAAGTCCCCTGGCCTCTCCATGACTCGATTTCCTTACCCGGAAAGTGGAGACCGGGGTCACTACAGCAGA
ATTGTCCTGAGGACTAAATAAGCTCCAGGTGACATAACTCAAAGCTCCAGGCTTGGCTCATTGTGGGAGAGAAATGCAGGCCCTTCCCGTCCCTGGAAAA
GGGACCTTCCCACACAGCAGTCGCTGTCCAGGCACYTGGACTGTCCCCTGTCTATCCATCTTGGGGTCTCACTCGTGCACCTAGTCTCACTTAGAGATGT
AGTTCAGTGCCGCGCAGACAAGGGGCGGAGGCATCAGGAAGGAACAGGAGGAGGGAGGGAGGCGAGCAGCCAGTCATTCCGGAAGAGCTGCCGGGCCAGA
CGCAGGGGCTGGGAGAAAGCCAGCTGGCAGGCCCAGTGCTCTCCTTGAGGGCCTGCCCAGGACCACGGCTGGCAGCTGTGTGGGGCYTGGGTCGGGGCTG
GGAGGGCTTCTGCTGGCAGCGGGCACCACATTGGAGCCTCGGTGGTCATGGTCATCCCAGGCCTGGAAACAGCATCCGTCTGCAGCCCCAGCCTCTCCAG
CCCCAGCTTCCCTAAAGGGACAGAACAGCCCTTCCCTCCCCCACAGGGCTGCTGCAGGAGAGGTGGGAGGAAAGGCAGAGAGACCCAGACTCCTGCACTG
GGTGGTTGCCTTGTAACCGACTGATGATGTGCTAGGTGTTTCTGGAGCTGACCTGGCCACAGGAATCACGGGCCATACCTGTTTTTCCTGTTTTTTGTTG
TTTTTTGTGTTGAGACAGCGCCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCATAGCTCACTGCAGCCTCAGCCTCCTGGGCTCAAGTAATC
CTCCAGCCTCAGCCTCCCTAGTAGCTGGGACCACAGGTGCGCACCACCACACCTGGCTAATTTTTGTGCTTTTTGTAGAGATGAGTCTCACTAGGTTCCC
CAGGCTAGCTGGGAACCCCTGGGCTCAAGCGATCCACCCACCTTGGCCTCCCAAAGTGCTGAGATTATAGGCATGAGCCACTGTGCCCAGCCACACCTGT
TACACTACCGATCCCCAGGCCCCTTCCTGGAGGTTTGGGGCATCTTCCCCTGGAGGCTCTTCGGACAAGCAAGGAGAGGGAGCACCACCCATGTGCTGGC
GCCGTGGTCATTGTTGTTGGTCTTGTTACGTCTCAAAGGGTGCTTCTGAGGACAGAAGGAGGAAGAGAAAGAGAGGTGCTCGCTTGGGGCTGGAGAGTTG
CATGGGAAACAGCAGCAACTCAGAGCAGAGCCGGCCATCTCACAGCCRCGGGCCTCTCTCCCCTTTCTGGGCTCCTAGAGTTGGAAGTGAGTGGGGCCAT
GAGGTCCTGGTGAGCAAGAGGAAGGAGGAGGAACTGGCTTTGCAGACCGTGCAAAGCCGGTTCCCGGGAAGCACACACATGGCCTGCAGGAGGCCTTGTC
CTAGCATCACCTGCAGCTTCAAGCACAGTCCACTCAGCCCAACCACAGAATGGGCCCCGCCAGTGGGATGTGCGCTCTGGGCAAGGCTCACATGTCCTGT
CATCGGTCCTGTGGCCTCCTCCTTCCCTCGGCCTCCCACTGTCCCTCCGTGTCAAGTCTCCCACCATCTGATGCGCCCTCTGGCAAGGCCAGTGAGTCAC
CCTACTCCAGACACAGAACCTGCTGCTGCCTCACAGGCTCCCGCCATCTGCCCTCCTGCCTCTGCTCTCAGGAGAAGGACACTCCTGGAATTCCACATGG
ATCCCACCTTCTCCCTGGAGCCCTGCCATACTCCTGGGCACCGCTGATGYGCTCTCCTGCTGGCTGACTTGGCCTTGAACACGGGTGGCTCAGGCCTTTC
CCAGGGACCCTTGCTTCATGCCCCAGCTGGAGGAAGCCACACTCACAGCACTTAGCCCCTATGGGGTCTTCAGCTCTTACTCTCCTGGTGGACTCCTCCT
CCAGGAAGGCCACCGGCCCTGCCTCCCTTTGTTCTTAGAAACTGCTCCTTTGGGGCAGCCCCTCAACTGTTCAACATCCTCTGCCCTTCCTTGGGCAAGA
AGCCACCTTTGGGTGTAAACCACACTCCGTTCAGCACGGACAAGGCGGTCTCTGCAGGATGCAGACCCTCAGTCTCACTCTCGGAGGAGCTGCTGGAGGC
TGTGCTTTTAAAAGCCATGTCAGGCCAAGCGTGGTGGCTCACGCCTGCAATCCCATTACTTTGGGAGGCCCAGGCAGGTGGCGGATCACAAGGTCAAGAG
ATCGAGACCATCCTAGCCAACATGCTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCACGTGCCTGTAGTCTCAGCTACTCAG
GTGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGGTCGCACCACTGCACTCCAGCCTGGCAACAGAGCAAGACTCCG
TCTCAAAAAAAAAAAAAAAAAAAAAGCCATATCTAAAACCTTCTCCAGACCTTGAGCCCTCCACAGGCCTCGTTCTGTGCATGAGAGGGCATCCGCCCCC
TTCCACTGCGAGCCTGTTGCCATTGTAGGGGAGGAGCTGGCCGGCCCCAGCTTTCCAGCCTCTCCAGGCCCAAGGGGGAGGAGTGGACCCCAGGCACTGA
GCCGGAAGCCTCCGCTACAGCAGGGATGCTGTCTGTGGTGCACTCCAGGGACACAGAGCAGAGCTTTTAATGGGGGTGGCTGCTCTCCAGTGAATCACAG
CAAGAGCTAGCTGCTTCATCTTATCAACAGCAGGTACCGGAGAGACAGAAAAAGAACCAGAAATGGGTTGTAGGTTGAAGTCAACCAGCCACGCTCCATG
CCTCTGACCAAAGCCTACCAGCACTGGGCCGGGCGGTGGCTCACGCCTGTAACCCCAGCACCGGGCCGGGCGGGGGCTCACGCCTGTCATCCCAGCACCG
GGCCGGGCGTGTCCCCACACATGAATGTTCCAGGCTTCCCTTGTCTGGACGATGTGATCAGGGAGACACCATCCCAGATTCTGGCTGGTAACAGAGCAGG
CCTCCTCAACCCTGGYACCATTGACACTTGGGCTGGACAATTCTCTGTCATGGGGCAGCATCCGTGGCCTCTGCCTACTGCCAGTAGCACCTCCTGCCCA
GTTGGGACAACCAAAAATGCCTCCCTATGCTGCCCAGTGTTCCCTGGGGAACAAAACCCCTCCCAGGTAACATGCACTGATACAGAGTAATCATCTCTGC
CACCAATTTTCACAGATTATAACGGAATATAATGTGCATAATGCAAAAATTATATTGAATTCTTTTTAAAATTACCCTCCACCCCACCTTATTCCAAAAA
GGATTGTAGGTGACGTTGTTAAATTAATCTGCTACCATGAAATTTTTAAAATAAATAATAGCAAATATGGGGAAAATGGAAAATAAGGGTAGGTCAGTAA
AATAAGTCGGTGGTAAAAATAAAATACCAAATTCACCCACTAGATGACCAGGCAGTGACTGGTGAGGGCTGTGTGTTTTATACAGACTTTCCGGCAAAGA
ATAAACCCACTGATTGCTTAGAAGTCCAGTGTCAGCCAAGCGCGGTGGCTCACGCCTGTAATCCCAGCATTTTAGAAGCCCAAGGCAGGCGGATCGCCTG
AGGTCGGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACTCTGTCTCTACTAAAAATACAAAAAATTAGCCGAGCGCGGTGGCACATGCCTGTAATCC
CAGCTACTCGGGAGGCTGAGGTAGGAGAATCACTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCAAGATTGCACCATTGCTCTCCAGCCTGGGCAACAA
GAAAAAAAAAAAGAAGTCCAAAAAAAAAAAGTCCAGTGTCTCTAAAATTTCTACCTTGGGTTCTCAAAAAAGAACACAATGTGAGCTAGGAAACGCCATT
CCCCCAGTAAGTGGGCATTTGTCTAGCAGCTGTTTGTGTCCCTTAGTATCATATCATAAGGAACATAAATTAGTCTTTCCTGGGTCCATTGATCCAATAT
TTATTGAAGGCTTTTGGGCACGTGACATGGTGCTGGACGGTGGAGACACCAAGATGACCACATGCAAACTGCTCCCCACCCCCTGGTGTCCCTGGGAAGA
ACATGGTCAGTGGCGCTCGGAGAAGGGAGGGGTTACTTGTGCTGGGGGCCTAGCTTCATAGCGCACACACACTGTCTGAGCTGATGTCACAAGTGACTCC
GAGTTCAAAGGCAGAGAAACAGGAAAGGCACTTCCACAGGGAACAGCAGGAATAGAAGCCCAGAGGGTTTTCAGGCAGGTGACTTTTTTGGGGGAGATGG
GAACAGCTTTATTGAAATATAATTCACGTGCCATACAATTCATTTAATGCAATTATATGGAATTAAGTGCAATTCAGCAGTTTTCATGTATTCAGAGCTG
TGCAAACATTGCCACAATTTTAGGATATGTTCATCAACCCCAGAAAGAAGCCCCATACCCTTCAACTCTCACTCCCCATTCCCACCCCCTGCAACCACCA
AGCTTTCTGTCTCTACGGATTCGCCTATTTGGATTTTTTTTTTTTTTTTGAGACGGAATCTCACTGTCGCCCAGGCTAGAGTGCAGTAGCGCAACCTCGG
CTTACTGCAGCCTCCAGGTGCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCCCACCACCACACCTGGCTAATTTTTTATTTT
TATTTTTAATAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCACGATCCACCTGCCTCAGCCTCCCAAAGTTCTGGGATTA
CAAGTGTGAGCCACCGTGGATATTTCATATGAATGGAATCATACGTGTTCTTTCATGACCGTCTTTAACTTAGCATCATGTTTTCAAGGTTCATCTGTGC
CTGTGCCAGTAATTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCCCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCAC
CTCCCGAGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGCATTACAGGTGTGTGCCACCACAGCCAGCTAATTTTTTGTATTTTTAGTAGAA
ATGGGGTTTCACCATGTTAGCCAGGCTGGTCTCAAATTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCACAGTGCTGGGATTACAGGCATGAGCC
ACCACACTGGACACTTCCTTCTTTTTATGGCTGAATAACACTTCATTTTCTGGAGAGGGCTAYATCCTGTTTCTCCATTTGTCGGTTGATGGGTGTTTGG
GTTGTTTCCAGTTTGGGGCTATTGTGAATAAGGCTGCTGTGGACATTTGTGTTGAAGTTTTTGTGTGGGCGTATGTTTTCAGTTATTTGAGGACATAGCT
AGCGGGGGGATTGCCTGGTCATGTGGTGAGGCCGATGACATTTTACACTTGGTGACTGAAAGTCTCGTGAGTCTCCCTGAACTCTGTGCTGCTTAACGTG
CACCACTGGGGTAAGAACACCCCTGGGGAAGAGTAAGATGCCAGCCATTGTGGGATCCGATGTTGCCAGCCTTTGTGGGATCCGACGGTTTACCAGAGTG
CAGAGAATGCGTAAGGAAGAGGTAGAGGATTTCTGCGTCTCACTAGGCCAGCATGCGTAGCACCACTTGAAGCTCTTGGTAGAAACGCCGCCTTCCGGGC
TGAACACCGCCTTCTGGGCTGGGCCTCAGAGCCACTGATTCCGTAGGTCAGGGGGATGCCCAGGACCCTGCCTTTGTAATAAGTTCCCCTGACATGATCA
GATGTTGAACAGCCCTGTCCTAGACGGTGAGCGCCATGAGAGCAGGTGCCTTGTGATACACAGTAGGCACCCAGAGGCTCTTTGAACAAATCAATGTGAT
CCTTTTTATAAATAGGGAAGGGGGCTGTTGAAAAATTCTGTTAGATAGTCTGAGCAAATTCCATCTTGGCCCTGGCTTTGCACATTTAGGGGAAGTAGGG
ATGCTAAGATTTGCTGCTGGTCACACCCTATAAAGAGCCTCCAAGTAGGGAGAAGGGTAGGGGGCAAAAGACTTAACCTGAGCCCTAGGTAGGGGCCAAA
GGTGGAATGGTTGCCATCTGTGCCTCTTCAGCAGCCCATGAGCTCCCGGGAGGCCAGGGCTGTGGCCTTTGAATCCTGGGGTCCAGCCTCAAGGAGGGGT
GGGCTGTGCATAGGGTTGCCTATCCCCCGTCACCCCACCACCTTCCAGTGCCCTTAGTACCTCCTGGCAGGACAAGAGGGGGCCCAGAAGGCAGCTCTGA
CCAGGGTCCACCTGCAGGGTGTGAGGGGGACACTTGGGATCAGAGGGCAGAGCCAGCCCCTCCGGATGCTGAAGAGGATGAAGTAAAGTAGGGCAGGGGC
TTCATTCAGCCATTCACTCACTGATTGCAGAGTATGTATTGAGCGTCTGCTGTAACCTAAGTTTTACTGGGAGTGTTGGAATCTCTCTGTCCCTTTGACC
CCCGCGTTTCCTTCCTTGGGCCATCTKTGTCATAACCATCAAGACGCAGTGGCTTCTTCACATTTCTGGTGATGTTGCTTCTCCATGTGCCAATCCCCCA
GCGGATACCCCACTCTCCGGAGGGAGAACCCCAAGCAGGTGCCGCTGGGCATGCGCCAGGGAGGCTGTGACCGGAGCARGCACTGCCTTGCTTGGAGCTG
GCTGCCTACAAGCTCAGACATCCAGCCCGCAGAGTCCACCCTGGCTGCAGCGCCTGCCCAGGCCTCAGGCCAGTCCTGGCTCAGCAGCTGTCAGCCCGGA
GCAGCCAGCGATGGCCTCAGGGGACCAGCCAAGGCAGGCGGCTTGTGCATCCTGCTTCATTAATAATGAATGGCCAGACGCTGCCCGCGCCTCTCCCTGG
TCGCCTCATTGACATGGTGGGAGCCTCAGCCGCCCACAGCGCGCAGAGCCAGGAGCTGGATCCCAGGCCCCCTCAGAAAGACTCAAGAAGCCCCGAGAAG
CAGCTGCTCCCCAAGACCCCCTGAGCTGCTGCCCCAGAAGAGCAGTCACAGCGGCCCTGCGCAGCCCCCCAGGCCATCACCTCCGGCTCCACAAGTGACA
CCAGAGAGAGCCCTCCCTTCTCCAGTCCAAGGAAGGYGGGTGTGCTCATCACCCGTCACTCATCATCAGGAGTAACTCACAGCCCAGCCCTGCCCAACAC
TTTTGGAGACTGTTGGGCTGAGGACTTGGGCAGCCAGGGCTGGTTGAGGGTGGGGACAGAGGAAGGACCTGCAGAGACGAGAGATGTGAGGGGAGGAGAA
AATGCGCACCCCCCAACCTCCAGCCGCGCTTCCAGCAGGTCTTCTGTACCTCGGGCCTGGAAATGTGACTCCCTCCCTCAGAGCTGTGCAGCCTTCTTCC
CCACCGTTGCCTTCGGAAATCCTCACTCCTCAAGGAATGCCTGCAGCTTCCTTGGCTTCTGGATAAAGTCTCGTCCTGGTCGGGGGAGAAGAGTTTCTTG
GGGACAGATGGCTCCTGAGCCCAAGGGGACAGGGGACGCAGCCAGGATCTGAGCACCCGGCCTCAGCATGCAGGTGTCCTTCGTTTGCTCGGAGCACAGC
CTCAAGGGCCGGGGCCCTGAGGATCGGCTGGGCCGACCGGCGGCCAGCAGTCCCAGCCTGGGCTCCCGAGGCCGCTTCCGCGCCGTGGCCATGGTGGCCC
GGAGCCTGGGACAGCTGTCGGTGCAGAGCCTCCCGTGTGCCGGTGACACCAGCGTGAAGCAGCAAAGGATGAAATATAGGTACGGGGGCACACAGCTTTG
CAGGGTGGGGGCTGACCTCCCGGCCTCCCCAACTCCCCACCTCCTCACTTTCGAGAGCGCATAAAATCTGCAAATCCCCATTTGTCAGACTTGGGCAGTT
TGTGCTGAGGGCCRGGAGGGGCTGTGCTTAGTGCTTGGTAGATGATGAGAAACAGCGTGGAGAATCCGGTCAGTGCTAAGTTTCTTTCTTCCCAGTTTCA
GGGGGAGATGGTGAGGGCGCCGTCTTCCTTCCTTCTGCCTCTGTTTTCTTTCTGAGGGTCGTTTACAATAGCCAAGCCACCAATGCTCCCTTTTCCTGGG
GAACCCTGAGGCATGGGCCACAGGGCCCCCCCAACATCCTCCTGCCCTCCCCTGGGCACACAGGCTCCACAAGATGCCCTGGGGGTGGTCTGATATCTTT
CCAGCCAGGCCACCATGACAAACATCCGTTTGATAGTGAGGGACTGTGGGGTGAACCCTGTGATGGAATGAATCTTCCCTCCTCCACCTGAGCCAGGCCC
AGGGCCCAATTCCTCTAGCAGGCGGGACTCTTGCTCCAGCAGGCACAGGCAGCCAGGCCGCATCTGGAGTTTCCCGATGGTCAGCCCAGGCACCTTGCTT
CCCTCCACCCGGGCTCAGCCCCCATCTGGCTCCCGGTGCTGTGACTTGTATGTGGGGAGGATGSCGACCACTCATGTCAGGAGCAGGGCCTCCCTCCTCT
TCCCTGCCGGGGCCTTTCTCCAAGGCTGGGTGAATGTGCCCAGGATGGAAAAGGGAGGGTCCCAGCTTTGTACAAAGGGTCCCGGGAGCAGGGTTCTGGG
GCACCCTTCTGGGGGCCGGCCTTCCTCACTCCCCATGTAAGTCTCTGAGTCCAGAGCCTTGATTGCGTCCAGAACCATCCTCCAGGCATAAAGGAAGTCT
CCACAACACGTGGTCTACAGAAGCTGGAAAAGCTAAATTARGTCTCTGGTTCCCAGGTTTCCTGGGAAAGTTTTCCCAAAACAGGAACCGAACTGGGGAC
AACTCTGCTTTTCAGTGACCTGAAACTGGAGTGCAGGCCACCAGCCTCAGAAACAGCCACAAACTGTTCTCATTGCATTTGGGAATCTTCTGGGTTTATA
GCTGGTATGGGTGCCAACCTGAAAAGCATTGTGAGTCCATCCTGATGCCTGAGCTGTGTGGCTTAAACCTCTACAAAACCAATGCCTGAGAGTTGGGCCT
CGTGTGAAAACCGTGTCATCTAAGCCAACCCTTGCTGGAGGTGAATTCTGGGATGACTCTGGGGGTCCTGCATCCACATTCGTGTCTCTTCCTTCCCTGC
GTCCTGGGAGGGTGAGACATGCTTTAATGAACCTCTGGGCTGAAAGTGTCCAATCCTCTAAGCTTAATGACAGTCCAGAATGGAATTCTCTGTTCTAGAA
GCTCTGGGGTTTACATCTTTTGTTAAGTAGGGATCAAAAGCTAAAATTAGAGCCAGGAGAGGTGGCTCATGCCTGTGATCCCAGCACTTTGGGAGACTGA
GGAGGGTGGATCACTTGAGCTCAGGAGATCAAGACCAGCCTGGCCAACATAATGAAACCCTGTCTCTACCAAAAAATACAAAAATTAGCTGGGCATGGTG
GTGTGCACCTGTAGTCCCAACTACTTGGGAGGCTGAGGTGGGAGAATTACTTGAACTCAGGAGGCAGAGGTTGCAGTGAACCAAGATCACGCCACAGCAC
TCCAGCCTGGGTGACAGAATGAGAGCCTGTCTCAAAAAAAATAAAGCTAGGAGTAAACCGAACATGTATATGTATATTTTTTGGTTCAGATACCTATTGC
CTTCTGCAACTTTTATGTCAGTCCTAGGATCTCAAAGGAGTTAAAAGCGGGACTATTTCTAAACATAAGGCACTATGTAATTGGAAAGTGTGGCTGTTAA
CACTGTTTCCCTCCTAAAACTCATTGAGGAGTGGCTCTCAGAGGGTGAATGCTCACCACGCCCATGTGTGTGCTTATGTGTGCATGCACACACGTGCGTG
CTGGAGGCAGGGAGGGCAAGACAGGGCAGTGAAGGGGGGTGTTCATCAGGCTGGCAGGTTTGCAGTCTGTGGACCAGAGTTCAAATCCCAGCCCTGGCAC
TCTCTGACTGAGGGCGGGTTTGCAGTCTGCAGACCAGAGTTCAAATCMCAGCCCTAGCACTCTCTGACTGAGGGACCCCCATCTCTCCAGTGGAGTTGCA
AACACCGCCTTATACCTGGCCAGGCCTGGGAGCTTTCCTTGCTGCTGTCACGGCGGGAGGGTAGGTTCATAGCCCTGTAGGATGAGGTGCAGTTTCACAG
GGGCTGAGATGGGCCTTAGAATCCAAAGCCTGTGCCATCGGGCACCCCCGCCCCGGGCCTCTCCCATCCCACTCATGCGGTACCTGCGTCATGAGTTGCT
GCACAGGGACTGTCCCAGGGCCACAGCCAGGGTGCAAGAGGGGGGCAGCAGGGACTGAGGGGGAGCCTGATCCCAGCCTCCCTGTGACTCTGGCCTCCTC
CCTGGGAAGCTGGCCCTTCCCAGTGGTGTGCTCCAGGCACAGCTGTCCAGTGACACGCACAGTCCACAGGTACTAGGAAACTAAAGGTGCATGGCCAGTA
CCAGGCGCCACATTCTTGCCCAAGGGCCTAAGGCGTGCTCAGTGTAGGATGGCGGGAGGCCAAGCCTGATAAGTAAGGGAGGGGCCAGCACTTGGTCCCG
AGAGTCTGACCCCAGGGCCTGGGCTTCTCACCCCTGAATTACTACCCAACATCGTCCCAAACAAGCACTCCCTGGGACCCTGCCACTGCCAGCTCCAATT
AGAAGACAAAGACTGGAAGCCCAGCCTGTCCTTAGGGAGCCTGGAATCTCGGAGCAGGGCAGGCGTGCAAACATCATCACTGCACGGAGCAGACAGGCGA
GCAGGGCACTAACAGGAGCCACCCCATGTGCCTTCCTCCGCAACCAGCTAGCCAAGGCCACGGTGCTTGCCCTTCACCTGATCACAGTTTTGTCCTCTGC
CCAGGTGGCTCCAATGAAAGGCCCCAAACTCCTCTTTGTAAAATGACCTGTCATTTCCCGGAGCCTTCCAGCTCCGGCCCTTCCCAAGTCTGAAGTGCAG
TTTTTAGGGGTGTGCAGCAGCCGGGGGCTCCACGATGGGCATCAGTGCTCCCCTCCGGCAGAGGTTATGTCTGTGAGTCCTCACTCCAGGAGTCCAGACC
CCAGGAGAGACATGAGGCAAATTAATGAAGACCGACAGTATTTGGGTTTCGAGATGTTGACCACCTGCTTCATTAGGATGTCAGGTTTCAACGATGGGGA
AGAAATCGGTAGAAAATGATCTCTGTGTCTGGGAAGTTTCAAGTACAGCAGGGAGCAGCCCCATCCAGACCCGGCTGAGACGTGTGCTCCCCACCCCACA
CGCAGCAGCCATGCTTACAAAGCGTTCAGCCTGGAGGCGCCCTGTCCCTTCGCATCCCTTCTCCCGAGGCCTGGCAGYGGATGGCAGAACCAATACCATC
ATTTTCRCAGGGAAACAAGTTGAGCAGGGTAATTGYGGCATCACGTGGTGCCCTAGTTTTGTTAAATTAGTCCTGTGGGTGGTGGGTGGAAGAGCGGCTG
AACCCAGAGCCCACTCGGGGAAGTGGGCCCATTTCCCAACACTCAGACCAGGAACAGATATGGAATCAGGGGCAGGGGCACCTTTTGCCAGCCCTCCCCA
AACTGGTGACCAAGGGGTGCCTCTTCTCTTCAGCCCTGACCTGGCCTTCAGCAGAGCCTTTTCAAGCAACTGTTCCCCACAGTCACTCGTGGAGGTGGTT
TTGCAGAGGTGGGGGCCAGGCCTCCCTTCTCGATGCCCAGACATATCTAGACCAGTGGGGTCCAGGGCTCTGTGAACACCCAGACATTGCAAGCAAGGTT
CGTTCTGAGGGCATTCGTATCTAGGCATATTTCCAGGCTTTATCTGTTTTTGCAAAGGGGTTATGACCCCAAAGCAGCTGAGAGGCACTGATCAGAACCT
CCAGCCCTTTGCTTCATTATTGGACTCCTACTAAGCATTTATAATTTCTTACCACAGTTACTTTCTAGCCAGCATGGGGGAAATTACSTAAACTTCTAAA
CTGACCAGGCTTATGTGGAATGTATTAGTGGTACAGTTGGGCTGTTCTCCCCAGCAGCCACAGACACGAGTTATTCTGGGTTGGAACATGCCAGCAATTC
AGAGGGTACTATCAAGAGTATTTCACTGATGTATAAGGAGGAAAAAGGAAACTTCAGTTCCTTTTTAACATGGTAATAGTTAAAGCTTATTTGATTTGTC
CATTGTTTTTGAATAAAGAAAAGGTTACCCTCCTGCTCTCTTTGGGAAATGAGACACATGTGAGTCAGTGTCCTGTGGCCTTCTATCCTCATGGATCTTC
TTCTGTCCTCGTGGCAGCCACCGTGAGAAAGGCAGCCTCGTGAGCCCATTCTGCAGATGAGAACACTGAGGCWTCGGGCCACTCCATAAAATGCCCGGTG
TCCTCCAGCCAGGAAAGTTGTACCAGGATTTGGGCTCTGGCTTCAGAGCCTCAGCCCATAGCCGCCACCCGGTGCGCCCCTTTCCTGAAAGAAAACTCAG
CTTTTCTTATGTTCTCCTTTAGGGAAAATCCCAGCTCTGCCTACAGGAGCAATAKTGCTGGCAGCTGGAGTGGTTTTAATAGGAAATTGAAAAATAAACC
TAGGCAATTTTAAAGTACCTTCAGTTTGGTGACACGTTCAACTGTTTTCAAGCTGCTTACAAATATTATATCCACTCATGAGTTAGGAGTCCAGGAGCCT
TATAACCAGGGAAACCGAGGCTGAGAGGGACAGAGTGGGCTCGTGTCAGAAGTCGGGGGTTCAGAATGAGGCTTGAGCCCCATGCCGCCTTCCCAGGGGC
CAGGCTTGGACAGGAAAGAGGATAAACTGAGGACATCGCATCCTCCGAAGTTGGAAGTGTCATGGCCCCAGGGAAATGCAGGGCCCTTGGGCCAGGAGGC
TGGGCCTCACCCGCTGGTAACTCATGGCTCTCACTCCCCACCGCCTAGAACCAGCTGCCCCTTGACCAGATGCTGGCAGCTGGATTCCACAAGGGAAGTG
GAATCTGACCCCAGATGGGTCAAGGCCTGGCTGCAGCTGTGAGATCCACCCGGCCACTTGTCAACCTCACCATCTGGGCAGATCACGCCCTGCTTAACAG
GCTGGGGTGTGGGATGCATGCCACCATGGTGGGGAACGTGAGCTGGCAGCCAACTGCCTGGGTGGGATCCAGCTCCTCCGCGTGCTGGGCAGGTATCGTA
ACGTGGGAATCGATGTCACGACAAGCAAGGCGCCTGCTGCGTAGGGCACCTGCCGCTTAGGACTCCTGCCACCGCGTAGGGCTCTGCTGCGTAGGACTCC
TGCCGCCGCATAGGGCTCTGCTGCGTARGACTCCTGCGGCGAGGGCTCCCTCCTGCCGCGTGGGCTCCTCCTGCCGCGTGGGCTCCTCCTGCCACRTAGG
GCACCTCCTGCCGCGAGGGCACCTCCTGCCGCATAGGGCACCTCCTGCCGCGAGGGCACCTCCTGCCGCGTGGGCTCCTCCTGCCGCGTAGGGCTCCTCC
TGCCGCGTAGGGCTCCCGGGAGGATCCGGGGACAGGATGCCTGGGGACYGCCTGGCCTGCTGCAACCCTGCAGGCTCCTAGGCAACCTGTGCCAGGACAT
ACGGGCATGCCRGTCCTCAGCAGAGGGCTGCCACCCTCCTTCACCTCCTAAGGACAGTCATGATGGCCCAAGGCCTGTTCCTGTGGACCCTGGGATGCAC
CACAGTGGGCAGGTGCCTCAGTGGCCCCGGGAAGGAGCCCGGGCAGCTGTGCTTGGTTAGGAGGCCTACGCTGCCAGGCTCTGCCGCTGCTGTTGGGCCT
GGCTGTGGCTGTAACAAAGGAAGGGCTGGCCTTGCTTGAGAACTGGCAGCCCYACCATGGAGCTCCCCGCACCCCGAGGGACAGATGCACAGGCCATGTG
GTCCAGTGAAGTGGGACGATCTCCTGCCCCAGTCGCTGGAGACAGGAAGAAGAGACACAAAATCACAAATGCAGCCTTAGAGAGGARGGAAGAAGGGGCT
TCTCTGCAAGGGGCGCCGCATGGATGGTGCCATGGGGGTGAGACCAGTCCAGTTTCGCCATAAAACAGACAGCGTCCCTGTGCATTTCCATCTGTCCTTG
AGACCACTCTGCAGACCCCCACTGGGCACCAGCAGGGCCCRTGCCAGCAGCATGGTGTGGGCCGGGGGCAGTTGGCACTTTACCCCCGGGGTGGGTGAGC
AGAGGCACCTCTCTGAAGGTCCCCGGTGCCTTTCGGAGCCTCCAAACACACATTGACTSTTGGGGGAGTGGGTGGGGGGCTGGCCCTGGCGGGAACTGAG
CCTGGCTGGCAGGGTCCTGCCTGGGTGCTGAGAACTCACGTGGCGTTTGTTTTTCAGGAACCTGGGCAAGTCTGGCCTGCGGGTCTCCTGCCTGGGACTT
GGTGAGTGTGGGGGTCCCCTCCGTCCCACCAGGGAAACAGGCTGTGGGGAGGCCGGGCATGGACTGAACTGGACACCCCTTGGGAGGCAGGGTGGCCCAA
ACCTTGGCACTCCCCAGGGAGTAGCTGCACCCAGAGCCCAGGATTCAGGGGGGCTCGGTTGCCATGGCAACAAAGAGGCAGGTGGGAGSGGGGCTGGGAT
AGAGGGAGAGAGACACAGTCTCAGCAGAGGAGGTGAGGCGGATACTAGGGGCCCCTCCACACATGGTCCCCACCCCACACCACAAAATCAGAGGCCCTTA
GGGCCCCGGGAGTGCAACGAAGACACCTTACCTTCCAAGGCAGGCTCAGCTCGTGAGTCCCTCCTGGAGCGCCATTGGATTTGGCCCTTTTTCCTCTCCT
GTCAGATACAAGGCCTGTTTCCAGAATGTGCAGTCCCCACCTCCCCTCTGCATGCAGTACACACACCCCCACACACACACCGCCCACTGCAGTACACACA
CCCCGCCCCCCACCAGCACCCACTGCCCTGACACCGCCCTCCCCGCTCTGTCCCAGCAGGAGCACGCAGACGCGGCTGTCAGACCTGGTGTGTTTTCAGA
GAGGCATCCCTTGTGCCATTTCTTGCGGCATGTCCTTGGAACTAGAGCTGCCTCAGTACAGCTCTGACCAGCATTTCAAAAGCCCCAGACCTCCTGGACC
CATAGCCAGCAGCCCGCTCTAGAGACTTTTGTCCCCTCAGTTTATTGACCCCAGGAGAGCAGGACTTTCTCTGAAGGCCAGCTGTCCACACACACTAAGG
ACACCCTGGCCACAGAGCAGCACAGAGGGACACCTGTGGCTGCYCCCTGTGCCCTACAGCCTGAGGTCTGAGCACCGACGGGATAATCTGGCTTCCTGCC
AGGTTCCTAACTTGAGCCCCTGTGTCTCCTTCCAGGAACATGGGTGACCTTCGGAGGCCAGATCACCGATGAGGTAAGATGGGGCTCTCCCAGCACCCCA
GAACCCAGCACGRGCTCGCCAGAGCACATGGTTAAGTCTGCCGCGTGGACCAGTGAGCACGTGCTCCCGGGAGCCAGCGCAGCAGCCTCCCTCCCTCTTT
CTGTTTTGTGAGGGCGCCCTGCCCCAGGGGAGAGTAGAAAGGTGAGCCAGGTGGCCATGGCCAGAGGGGATGCCGAGTCTGGTGCCATCACCCAGCAGTG
GATGCCTCGGGCCTCAGCATGTCCCTTAAGCTCCCCAGGACTCAGATTTCCCACACGCGTGACCCCCATTCCACAGTTAACGAGGAGAATTCAGGGTGCA
CACGCTTCCCAAATTCTGAAGCCGGATGCAGGTCCTAGCTGCCCCCATGGAGGCTCCAGTAACTGTCTGTCTTGGTCATTGGGAATGCAGCCCCTGCAGT
GTCACAAGCTGAAGAACCTGAGATCTGCATTTCACCCAACATCCACTGTCCATTTCCCAGCTGCCGCGAACCGTGCGGATCGCAGTCAGATGTATTTGCT
GGGGCTCATGTCCCCACAATTGGAACAAGAAAGTGAACACTAACAAAAAGCCAGCTTGTATGCCGCCAGCGCCTCTGGGTCTCTCGGAAGGACAGGGACG
GCACACGCCCAGACATGTGTGCTTCTGGACAGTGAGGCAGCATCTCAGAAATGAGAGCAGTGGCATTTGCTCAGACAGCTCTGGGCATCTGCACAAGAAG
CAGTTTTCACATTTATCCTACTTAGCACTAGAAAGGTTGCGTTTAAAAATTGATCAGCGAATTGATGTGAGACCTTGTTAGCTGCGATTGCTCAGTTTCC
AAGGGAAAGCTTTGCTTCTATCAAAATTTAAATGCGTACAGTTTGTGTTTGAGGTCACTTTTATCTTTAAGACACTAGCTGGCCGGGCGCGGTGACTCAC
ACCTGTAACCCCAGCACTTTGGAAGGCTGGGGCGGGCGGATCACCTGAGGTCAGGAGTTCCAGCCTGGCCAACATGGTGAAACCCCATGTCTACTAAAAA
TACAAAAATTAGCTGGGCGTGGTAGGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGAAGGGGGAGGTTGCAGT
GAGCCGAGATCATATCACTGCACTCCAGCCTASGCCGTAGAGTAAGACTCTGTCTCGAAAAAAAAAAAAAAAGACAATAGCTGGTTATAGAATGATTTGC
CCCTTGCTTTGAAGTTGCTGGATAGGCGCTATCTCAGGGTGAAGTCTGGAGTTATTAAGGCAAAAGGAATTGCCTTACCTCAGCCCACCAGATTGGTTCA
GTTGGAGCCCTGGGGCCCATATGGTTCAATCTGAATCAGCCTTGCCTGACTTGGCCTCGTTTCCCTTTCGATGTGGTTTCTAAACCAGGATGGGAGAATT
CTGTAGAACGGCATAACTTCATTTCCAAACAATATTAGCTGGGTGGCCTGTATGTCCTTGTGGGAAAGATAAAAACAAGCAGACAGACTAGACCCATCCA
ATGAGATGACGTTTTCACCAGCAAACCAGGCATACCCTTAGAGCATTAATGAATGGCCCAGTGGCAGCCCCGCTGGCCCAGGCCTCTGCAGTGTCTCCAT
CAGGAACACAGTGATGGACATGTGTGAAGATATTGGAGGTCATTTCTAGATGACACCAAGCTGGAAGGACAGAGAATAAAATAGATGGCAGTGTCAGGGT
TCTGAATGGTTGTGGCAGGTGAAAATGGCTTAGCAAAGGAGCAAGACAAATTTTTGTATTAATCCTATAGTTAGTGTCAAAAAAGAAATCAATACATCTA
GAAGGGGGGGCCCGCCTGGCTGCGGTTCAGATGAAAAGGGTTTGTGCACTTCAGGTGCTGCGGCTCAGTCCGAGCCAGCAGGGAAGCAAGGACCGTCCTG
GACTGCTTTTTTTGTTTTTCAGTTTTTTATTACATATATGAAACATAAAATTTGCCATTTTAACCATTTTTAAGTCTACAGTTCAGTGGCATTAAGTACA
TTCACATACTGTGCCACCCTTACCAATATCTGTTTCCAAAATATTTCATCACCCCAAACAGGAGCTCTGCACCCTTAAACAACAACTCCCCATCCCCTGG
TCACCTCTAGTCTACTTCCTGTCTCTATGAACTCTGCACACTGTTTGTATAAATAAAGTTTTATTAGGACATAGCCACGCCCATCATTTACACATAGTGG
CTGCTTTCACTCCACAAGGGCAGAGCTGAGTAATTGCAACAGAGACTCTCTGGCCCACAGTGCCTGAAGCATTTACTATGTGGCCCTTTACAGAAAAGAC
TTGACGTCTCCTGTTCTTTGGGCCGCAGCAGCTGTACCCTGCACTATCTGCAGGGCTGCTGTGTGAACTGCTCAGCCCAGTTCTATGCCATGCCAGGGAC
AAAATGAAAGCTTGCCCAGGGGTGGAACAAACCACCTGGTGAGGCAGGAATGACAGCCACCCTCACATGGCACAGGGCAGAGTCCACAGTTTGTAGGACA
CCATCACACTCTCAGCCAGTGCTCACAGGAGCCCATGAAGGGATCAAACTATGCTAGGAACCCTAAAATGACGTAATGCCTGTCGGAGCCACCACGGTGG
TTTCAGGTCTCCAGCCCTCCCATTGTTAGGTGCCCTTTCTGTGGCCTCACACTCCCCATTAGAAGCATGTGTTCAAGACAAGCTGGACAATAAAAATTTA
ATAGATGTAATGGTTGAGAACCTAACACTTATTATCTCACCTAATCCTCTATCAACCCAGGGAGGCAGGTGCTATTCCCAGTTCAGGGAAGCTGAGCCTC
TGGCTATAAACAGGTGCAGGGGYCTCACCTGGCCKCTGGCCACAGGGGGTTCCACCTGGTGCTCTTTGCCTCAACGCTTGCGGCCAGTGCTCAGCTGTGG
GGTAACCGTACTGGGGTAGGGACAGATTCCTTGTCCCCCCAGATGAGGGTGACAGGGAGGTGGCCTGTATGTCTCCTGAGCTTCCTTCTGACTTCAGTGT
CTGGGACCCAGATACTGGAAGGAACCAAAAAGTCACAACATAAAGGCTGCGTAAACTGAACCAGGATGCAGCCACAGAGCRGAGGGCTTTAGAAGTCATG
TTTTAGGTCTAGGGGCGGTGGCTCATGCCCGTAATCCCAGCACTTTGGGAGATTGAGGCGGGTGGATCACAAGGATAGGAGTTCGAGACCAGCCTGGCCA
ATATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCGGGGCGTGGTGGCAGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGA
ATTGCTTGAATCTGGGAGGCGGAGGTTGCAGTGAGCCATGATCGCACCACTGCACTCCAGCCTGGATGACAGAGCGACACTCCATCTCAAAAAAAAAAGA
AAAGCATGTTTTGAAGAACAGCATGGGAAAGGCCCGTGACAGCCAATGGAAAATGCAGCCAGCATAGACAGCAGTCTGTGGAGTAGAGCTGCAGTTTTCT
AGGGAAAGGGCAGAAAAACCTGGAAGAGAAAGTACAGCAAAATCAKAGCCGTCAAAACATAAATAAATAAAATAGTGAGAAAGCAGAGCCCCACAGTGCC
GTGAGTCGCTCCCTCTCTTTCCTGCCTCTGGTCCTGCCAATCCCAGGCGCCACCCTGGATGTAGCTGGAATTGTATGGTGGCTTCGTTTTTGCTGAGGGA
CAGGTGAGGTTAGGGTTGGTGTCTGCAGTGCCGGACCCTGCTGATCCGGCTGTCTGCACGCCTTCGGGGGTCTGTGATGACCACAGGTTTCTGTGATTGG
CCGGGCTTTCCTCCCAGGAGGGAGCCAGGTGTGTTCAGGGCCACCGTGCTCCGGAGCGGAGAGCGCCGAGCCCTTTGTTCTTAGTCTATGAGCAGGAGTG
GGAGGCCTCCCGGTGGGCAGAGCAGAGCCAGGAGCATCCGGGGCCCCGCCTCAGGCTTGCGGAGCCCCTGCCTAGCGCCAGCTCCCTGCCTGCTTCCAGC
CTCTTCCCAGTCACTGTCTTTCTAGAGAGGGCGACAGGGTAAAGAGGCAGGCAAGACACCGTCTCCAGTGGTCGAACAGCATGCTGTGGAGAGGGTGCGA
GCTGCCTGTGGCTGCTGTAACAAATAGCCACCAATGCGCGGCTGAAAACAGCAGCAACGTATTCTCTCACAGCTCTGGGGTCCAGAGATCCAAACTCGGT
ACCCCTGAGCCTAAGTCCAGGAGTCAGCCGGGCCGGGCTTCCTTCTCCCGGCCAGGACCTTTCCCGGCCTAAGTCCAGGAGTCAGCCGGGCCGGGCTCCC
TTCTCCAGGCCAGGACCCTTCCCAGCCTCTTCAGCGTCTGGCGCTGCTGGCCTTCCTTGGCCTGTGCCCGCATCCCCCAGTCTCTGCCCCTGTGGATACT
CTCCGTCCTCCTCTTCTGTCAGTCAAGTCTCCGTCTGTCTCGTCCTCATAAGGTCACCTGTGATGGCACTGAGGGCCCACTTAGCTAAGCCAGGACATTC
TCCCCACTGCAGAGTACTCACGTTAATCCCATCTGCAAAGTCCCTCTTTCTACCTAAGGTCACATTCCCAGGTTCCAGGGACGTGATACCTTTGGAGAAC
CATTATTTAGTTGACTGCAGAGAAGAAAGTAGAAAAAGGAGGGCAGGGGGGCGGGGGTCCTGACGACAGGGTGGTCAGGAAGCAGAAGCGAGCAAGGAMG
CCACGTGGTGGTCCAGAGAAAGAGCCTTCGGGGGCCAAGGGGACAACCAAGGCACAGCCCTAAGGCCGAGTGTTGGGGAGAAGGGGATGCAGGGGATAGA
GCTGGGGGTCAGGGTGCAGATCTGGTGGAGACTTTGGCTTTGACCCTCTGCGAGATGGAAGCCCCTGGAGGGCTTTTGCATGGAGGAAATTTGACCTGAT
TTAAAAGGTCTGCCAAGGCTCGCCCTGGCTGCTGCACTGGGAATGGCGAGTCATGAGGATGTCCCAGAGTTCAGCGTGTGCACGATCCCATGTACTCGGA
AGGCACATCCTGATGTGGCAGGGCTGTCGTGGAGCCTGGGAGGCCGCATTTCTGATCTCATGCTGATGCTGGCCCATGGACCACSCTTTGCCTGGGGAAG
GTGCAGGGAGAGAGGATGGAAGCAGAGAGCTAGGAGGCTATTGTGAGAAACCACCCAAGAGCCGCTGGAGGCTCAGAGCAGGGTGGGCACCRTGGAGGTG
GGGAGACGGGTCAGATTCTGGACTAATTTGCAGGGGAAGCCGCGGCAGGGGCTGAACTTCAGGCTCCAGTGATGGGAGGATTAGTCAAGGAGGGCTCCCC
AGGGTTTGACCKGAGCACAGGTGAGCGAGACCTCCCGGGAGCTGATGCTGCCGCAGGCTGCCCTCCCTGGCCCACACCAGCCCCAGGGCCTAGAGTGCCC
CTCCCCCACCCACYCTCTCCTTGCCTGCCTGACAAACTCCTAAACACCCTTCAAAACCCAGTCTTTGTCGGCCGCACTTTGGGAGGCTGAGGCGGGCAGA
TCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCTCATCTCTACTAAAAATAGAAAAATCAGCTGGGCTTGGTGGCATGCACCTG
TAGTCCAGCTACTCAGGAGACTGAAGCAGGAGAATCTCCTGAAGCCAGGAGGCAAAGGTTGCAGCGAGCCAAGATYGTGCCACTGCACTCCCGCCTGGGC
AACAGAATGAGACTCCATCTCCCAAAAAAAAAAAAATAACCCCAGTCTTGGATATTCTGGACATGTGATACCCCTTGGATGAACCTTGAACCTTGAGGAC
ATTACACTCACTGAAACAAGCCACAAAAAGGACACACGGTGTGACTGCATTTGTCTAAGGTGCCTAGAGTAGTTAAATTCATAAATAYCAGAGAATGATG
GGTGCTGGGGCTGGAGGCAGGGAGCGGGGAAGGGGAGTTACTGTTCAATGGGTACAGTTTCAGTTTAGGAATATGACAGGGAGATGGATGGTGGTGATGG
TTACACAACTATGCGAATGTACTTACTGCCATTGAACTATGCTTGAAAAAGGTTAAAATAGTAAATTTCATCATATATATTTTACCACAACTTAAAGTCT
CTTTGATAAATGCAGTAATGTTTTAATTAAACAAAAAGAATGAAAGGGATCTTCATGAGCAGGTGTGGATTGGTTTYTAGGATGTATTGTGAGTGAAAAA
ATCAAAGTGCAGAAACATATGGGTAGTGTGCCACCCCTCCTGGAAGAAAGATGGGGGATAAGAAAATACATGTGTCTGAAATAYAAAAACAGAAAACGGA
GCCCTGGGTCCCCTCCTCTGAGAAGCCCTGCCAGGAGCGTGAGTGCCCTAACCACAGACTTAGCCCCTTCGGGGCCCAGCGCACCGTGCCCTCCTGGGCT
CTCTCCTCCTGGGCCTGGATGTGGGAGGCATCTGRGAAAAGTCAGGAGGAAGACGAGGAGGAAGCAGTGAGCAGGTGAACAAGCCACCCGTCTGTCCGTG
CTGGAGCCCTGGTGCTGGGAAGGAAAGTGCTAGAGGTGGGGAGAGATTCCTGGGCTCTCCCTGGGTGGGCACATCCGGGAGGAGGAGGCTGGGGGGGCAG
CAGCAGGTCCCTCGGGCGGCGGATGCATTTGATGCATGGATGCATTTGATACCTCAGGGCAGTTGAGCTGCAGCAGGAAGACARCAACAGAGCCCCGRCA
GGTGGATCCTGAAAACCGACGGCCTCCACCCCCGGGCTTCCTGACTCAAATCACAGCCGCTCACTAACCGGGGCTCAGCTTCAGCTGTGCTGTATTTCAG
TGTCTGAGATGTTTGGGGATGAGTGCCAGYGTCGCCAGGCTGCCGGCCAGATTTCCATACACCCCCCACCCACAAACATGCTGCCTTTCTGGCTTCTCTT
GAGAGGTTGGCAGATCTCTAGCACCAGGTCCGCCTTCCCACGTGCAGCATTTGGGCATGGGCCTTCTCCCATGGGTGCCCCCCAGTGGTGGCTACTCCGT
CCTCACTCTCCATACCTCCTGGCCACAAGGGCTTCTGAGTTCAGAAAGGAGAGACGCAGCCCTGTGAAGCCACCCCTGGCTGGTTTTCTGTCCTRTGGTT
TTTGAGGGTTATTAAGAATTATTCACCCCACGCTGGGCTTGTTGCTGGTGAGGCCCAGTGCTCTGAGCCGCACCTGGGGAAGCGTGACACTCAGAGGGAA
GCAGCCCTGTYCGAGAGCCAGAAGCTCAGGGGCACCTTTCTCTCCGGCCTCTTGGAGGGAGCTGTCACTTGCAGAGGGGCTCCCCTCGCTCCATGAGTCC
CACCCCACGACCAGTTCTTTGCTCATGGAGCACAATCGCGTCCTGACAGCAGCCATGGAGCAAAGTCTGATGCACAGCGCATTTAGCTCGGGCAGTCATT
CATCSATCTTGCCCATGAGGCAGCCACCACCACAGCAGTGCCGCTCAGGGCCGGGAGTATGTGCCGTTRGAGAAACACTGGACAAGAGGCCAGAATGGAT
GTCACCCACCATGCACCAGCTGTGGGATGTCAGTTGCTCCATCTACAAAAATAACAATTCAGTCCTCATGTGCAGGTGCTGGGAAAGATTCAATGAGRTA
CAACTGAATACACCGCCCTGGCTTTAAGGACATAGACTCATCCCAGCAACRTCCACAGAGCCCCTGCTGGGGACTGCCTTGGTTTCCTAGGACTGCTGTA
ACAAAGTAACATAACCTGGGGGCCTGAAACAACAGACACCGTTCTGTCACCTTCTGGAGGCCAGAGGTCTGATACCAAGGTGTTGGCAGGGCMAGGTTCC
CTGTAAAGGCTCGGGGGAGGGTCCGCCCCATGCCTCTTTCAGCTCCTGGGGGTTGCCAACAGTCCTTGGCTTGTAGACGTGTCACTCTGGTCTCTGCCTT
CGTAGTCTCATGGACTTCTGTGTCTGCATTTTCTCTCCTTGTAAATCACCAGTCACATAGGGTGTAGGACCCACCCTAACACAGTACGACCTCATCTTCG
CTAATTACATTGAAGAAGGCCCTATTCCCAAATGAGGTCACCTCTAAGCTTCTAAGTAGACATGAATTCTGTGGGGATACTGTTCGACCCAGTACAGGTG
CTAAGCCCTGTGATGACCCCAACTGATGGGGTCCCTGCTCTCAAGAAATTCACAGTCCTTGGCAGTTTCTTCATTCCTTTTGCCTTCTTTATTCTTCTCA
ATGGGTTTGTTACTGAGAGCTGCCTCCATCCCTGTCCTGTGGCAGGAGAGGGCAAGGAGACAGCCCACAGGGGAGCCTGTCGGGCCCGGGAGGGCAGGGC
CTGGACACGGGGAGGCCTCCCAGGCCGAGAGGGTGGTGCTCCAGAGCCTCTGGGCCCCACCCCCGGCTGGCAGGACAGTGTCGGTTTTCTCGTTTCAGAT
GGCAGAGCAGCTCATGACCTTGGCCTATGATAATGGCATCAACCTCTTCGAYACAGCAGAAGTCTACGCAGCCGGCAAGTACGTGTCTTTTCACACGGGA
AAAMGTGGTTCAGAATGCCTGGGCAGAGCCGGAGCTACAGGGATTCCTGCCGCTCGCGTTCCCAAGAGTGCTCACAAATGCAYCTTGCACCCTGCTTTCA
TTTTTAAACTCTGAATGGCTTTAGGAGGTGCTATTTTCATGGGGCTGGAATTGCAGAACACTTGGACACTGATCACTTGCTGAACTCCCCGTGGAGCCAC
CAGGGGGACCACAGTCCCTCTGGTGCCAAAGATGCTGTGCTGGGTGAGAGGCGCRATGGAGCTGCTGTCCTGGGCTCTCCTGATGTGCCTGACATTTTGA
CATTTCATGTCTCACTTGTGCAACTAGGGCTGCAGGGCCTCAGAGCTGGGGAGGGCAGGCTCCGGCCRAGTGCTGTGGGGAGCACTTCCCATCTTGGCGG
TGAACTTTCCTGCTCAATTATGTAAAAGCTCAGCCTTCTTCAGCCAGGCTGTTGGCTTCAATTTTAAAGACTGGCTGTAATCAAATCATCCACTCTCCTG
CATCGGGTTTCCAGAAGTCAGCTTTTGTTTGTGAAATCATTTGTTGGCCCTCTCTTCATCCTCCTTCTGCCCYCCTCCTGCCTGGGGCCAGCCAAGTTCC
CGTCAGCCGGGCAGGCTGCAGGCCTGGGCTGCTGTGCACCATAGCTGCTTGGCCCGCAGCTGCTTCGTGGGCCCTGGGTGGTTACCTGCAACTGCAGCGG
GGCCCAGAGCACCCGGCGGCAGGGAACCCAACTGGGCCCTGCTCAAGTTCCCACCCAGAGCCTGGGGAGCGCACAGCCCTGGGGGCTGCYGCTGGGACCC
TCAAACCGCCTCCAGCCCCCATCTGCAGCCCTTTTGGCCCTCCGGATGGCACAGCCCCCTCCCACTCCCTCCATACTGGCAGCAGCTTCCCATCAAAGTG
AACYGCTTTCCAGACAGATGAGCCCAGCGGAGGGGTCTGAGGTCAAAAAGCCCAGTGCAGATGCCAAGCCGAGAGGCACCTCCCGTCCCGAGCCCCCCAC
CTCTYCGCTGCCTGCTTTGGCCTGGGTTATGCTGCCCTGAAGAATGTGTGGGAGGCAGCTCCGTGCAGCCTCCGTGGATGAGGCCGGGCACACCCCATGT
CACAGCAGCCACACTCCGTCCTCTGTCACTCGCAGTTTCCATGTTCCCCTGTTTAACTGGACACCCAGAGCTGGTGAGCTGGGCAAGTTCCCTGGGTCTC
CGGCAGCCTCGGGCCTCTCGGAAGCCGCTTGCCAGAAGACCGGGGAGTCAGGGAGCAGCTTCCCCTCAGGTCGCCGTTTCTGTGGAATCCCCTGCCCTCT
GCTCCTGGGCCGGCCACTGCGGTCCCTCTGTCCAGCTCAGAGCTGAGCCCCCGGTGGACGCCCATCAGTGCCCTCACAGGGGAGCTGGGCGCTGCGTGCC
GGGGATAGGCAGGGAGAAACTGCTTTGGGGAGTTTGGGGGAGGCTGAGAGGCAGCTTGCAGGGGGCCAAACCCGTATCTTCCCGAGGCCCCTTGCTTCTC
CTGCTGACACTAATTTGCACGCTTCTCAGAGAGCTGCAGGATTTCTGTGTCCCGCGAACAGATGTGAGTCCTACCAAATCACAGCCAGAGCCACAAGCCA
CAGGCTTAGATAACTCACTGTCTGCTGCTCCTCTGCCCCAGAGATCGCTGCTAGCTTTTCTCTCTTCCTCCTCCTTTCCTGATCCCCAAATCAGGGACCA
AGGAATAAAAGGAAGAGGCCTAGGGCTGAGTGAATTTTCTGTGTGTCTTGACCATAAATGAGGAGCATTCAGAGCGCATGCTAAACAGCTTGCAAATCAG
AGCCCATTATTTCTGAGTGGATGACTCAGGCGCTTTTATAATTGGAATGTAGCACAGAGTATGGATCATTCTCCGTCTGTTGTTTTGCTCAGAAACATTT
TGCTACAAGCAGAAAGTTCTTCAAAGTTAATCCAGTGCTGCAGTGCCAGGCAAGGCTGGGACGGCCGCCCATGCCCCCAGCTGGCCTGGGTTTGGTGCAG
GACCCAGTGATGCCAAACAGGACAGACAGTGGTCCGCCTAGCATCTGACTCTGCCGTTCAGTGCAGGAAATGAGAGGGACACGTGCACCCACACACATGC
ACACATGTATACACACACATATACACAAGCATGCACAGATCTGCTGGAAATCCAGCCCTTGACCCTGAGTACATGTTGATTGTCTCTCAAAACAGAGCGT
GACTTGATGAATAATTTACCTTTGAAAAAAGATACTTGTCCCGGCGCGGTGGCTCACGCCTGGAATCCCAGCACTTTGGGAGGCCRMRGYGGGCGGATCA
CTCGAGATGAGGAGTTCGAGACCAGCCTGGCCAACATRGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGRCGTGGTGGCAGGTGCCTGTAG
TCCCAGCTACTTGGGAGGCTGAGGCAGGAGAACTGCTTGAACCCAGGAGGCAGAGGTTGCAGAGAGCCGAGATCTCGCCACTACATTCCAGCTTGGGTGA
TAGAGCGAGACTCCATTTCAAAAAAAAAAAAACAAGATACTTCTCTGGAAATTTTGCCCACCTAATGTTGCCAGGCATTTTCCCTGGTGAATTTTCAGCT
GACTAGGAAATGGGATGCTCGACAGCAGCTCCTTCCTTCTGTGTGAGAGCTGGGGCCGCCACTGCTTARACACGTGTCTGCAGGGGAACATGCCACAGCC
ATCCTAGTGGGGGGCAATAACACAGCTGCTCCCACTCCCTCGGGCCAACCCTGTCTGTGGAATGAGCTACTGAGCCAAGGCGGGTGTTAACAGCCTGGCT
CTCTGGCCCCAGTGACATTTTCACAGAGGGAACCAAGTGGCCAGTGGCCACAGTGGGTCTGGGTTTGATTTTTCTGTTTGGCTGTGATGAGAGCTCGGTG
TCTTGTTTTGCAGGGCTGAAGTRGTACTGGGAAACATCATTAAGAAGAAAGGATGGAGGTAACGGCCCTGCTCTCTGCGGCCTGTCCCTGGGGTGGGTGC
GGGCGAACTATCCCRGGGTCAGCCTCGTYRGCCTGTCGTGCAGTGTCGTAAGGCCCRCAAGTCCCCACATCTTTCTTGCTGGGAAGTGGAGAGGAAAATT
CAGTTCTCCAAGAGGAGGAGGTGACTCTGCTTGAGAAAGAAGTTGAAGGGAGGCCGAATACACTGTCCACCCCCACCCTAGCCTGCCCACTCCGCCTCTG
TCCCAACTCATCCACAGAGACCCAGAGCACCAGGGTCCCTGCTTGCAAAGTGTCAGGCCAAAAAGAGCTTGGCGTGAGAACGGGCCTGGGTACAGCAAAG
GCGTGCTGCTACAGAAGATGTGGGTGCAAAGCRCTTCCACTTCTTTGGCTGGAGCACTTAGGGTCAGGGGAGCCAGGGGGCCAGAGAAGGGAGTGGCTCA
GAGAGCTTGGGGGCCTGGGGTTGGATCCCACCCTGCACCTTGTCCACAGGATCTTCGCGGCRTCTCAGCCTCTCCGGAGCTCACTGTTCCCATCTGTAAG
AGGGTGTGTGTGGGACCGTTCCGGCAGGGCYATCCTGAGGGTCAGTGGCCCCAAGTCTGTAAATCACCCACCCAGCTCAGGGCGGGACGTGTCACACTCC
TCTGGGAAGTGGTCCCCTCCAGCACAGACCGGGGAGCGGTCCCCGGGTGTGATGGAGCCCAAAGGTCGCAGATCGGGGGCCATCCACCCTTCTCTCCCAG
GAGCCTATGGGCCCTTCCCAGGCCAAGGTCCTCACCCACCTTGGGACCAACTGGGCTGAGCACTTGCCTACATTTTGAGGCTCCCCAGACCCCTGGACAC
AGCTTTATCTGAAGGTGCTGACAAGCCCCGGGGCCCTGTTCCTTAATAAATGCGTCTTTATTTTCAGAAACATCAGAAGCAGTTATAAAGTTGGGCCTCC
CTCCTCCCTCCCCTCGAAATGCCACTCAGAATCCCAGTGCCAAGGGGAGCCCCCGCCCCCTCCCCCATGGATTCCTGACACCCCTTCCTCTTGTCCCATC
AAATTTGTTTTTTGGCAACTCTGATCCCAAAACAAATTCCTCCTCACCCTGTAATTAAACGAAATTGCACGTATTAGCAAATCCCCTGATCACGTCTTTG
GCGAATGTGCATGGAGGTGGTGTGGGGTGATCCCCCTTCCTGGAGGTGACGCTGCCTCTGCCAGAGCTCTGTGGCCGATGCTTCGGGGCAGAGGAGGCCT
CCTACTCCAGCCTCGTGAGCTGCTTCCCTGAGCAGCCCGGGACCCGGGTGGGAAAGAAGCTCAGCCATGGGGCACCAGGAGGTCATTGTCACCCCCTGGG
TGGGAAGTACTCCCTCCTCTGGGAGGGGTCAAGGTCAAACGTGGCTGGGAGGGGCCATCATTATCCCCCATCCCACCAGGACAAAGCCACTGGTATGGGC
ATTTGTCTCGTGTGGACTTAGAGCAGAAGAACGAATTACTTCCCTTTGCGCTGCTCAAGCCCAAATCCTCAGAATTCTCTGCCTCAGCTACTCAAACCCA
GAACCCCACTGGCCTGGCCACACTTGGGCTCCCTATGCCTCCCCTCCCTCCTTTGGTGCCCCCCAAGTTACCCCGACCAGGCCGTCCTTATGCCTCCCCT
CCCTCCCTTGGTGCCCCTCAAGTTACCCCGACCAGGCCGTCCCACACAGATTTTCTGCAACACGTGTCACATTCTGTAGGGAACGTTGCAGAGAGCTTCC
CTGCCTGCCTCCCACCTACATCTTTCCATCCTCAACTCCTGCCAGATCCCCCCAGAGCCCGCCCCTGCCCCCTGGCCCACACCSGGCCTCCTCCAGCCTT
GGCTCTTGCCACTTCCTCTACCTGGATCAAATCCATGCACCCCTCATAGTCCCTGAGCCAGGCCCCCCTCCCACATCCTGGGCGGAAGGCATCTCCTCCR
GACTCCGGTCACACTAGGCCCCCCACTGTCCAACTCCCACTGCCTGAYTCACAGTTACTGCCTCGGTGGCTGCCTCCTGGCTCCATGAGGMGCCCACGCA
CCCCGGCTGGGCACGTGGTACACATCATATGATGGAGAAGTGCCCATTTCATGCCCYAGGCTCCTGGGTGGGAGGGCTTTCAGGACCTCTGTGTGAGAGA
TGAGGACGTCGGGGATGAAGGAGGACCCCCCAGGGGCCGGGCTTATCACACCCCTTCTTTCTCTTCTGTTCCACAGGCGGTCCAGCCTCGTCATCACCAC
CAAGATCTTCTGGGGCGGAAAGTAGGTGCAACAGCTGGCGATGCTTCCAGCCCCGGCCCAGCAGCCACGGCCCCGTGCTCCCCAGAGACCCCTGACCTAG
AAGGCTCCTGGGGTGGCGGGAGGACAGTCCTCCTTGAGAAGGGAGAGTGGTCGGGGTCTGTCCTGGACAGGCCCCGGCCCAGTGCCATTTCCTGTCCCCA
GCAGGGGCAGAGCTGGTGTTTCTGCAGCCATCAGCTATGCCTGGTGCCTGTCCCTGTTAAGGGACGTCAAATCCAGAAAAGAAGCTGTGGCCGAGTTTGC
CTTTTACAAAAACCTCGCTTAACTTTCCTTTTWACTCACATGGATTATTTTTTCCTGGTCACTATGGTAACATCATAAAAATTATAGAGAAAACAGAAAA
TTTGTGAACTGCCCAAACCCCCAAAGCACTCCAAATTCCCTGGGCCGCCTGTCACCCCTGCAGGTCTCCAAGTGTCTAGCTCCATAGTTTCTGGGCTGGA
CACACTTGGGCTCATAGGAATTATAACTACGATTCATTCATTCATTCTTTTTTTTATTTTTATTTTGTTTTTATTTTTTATTTTTTTGAGACAGGGTCTC
GCTTTGTAATCCAGGTTGGAGCGCAGTGCCACAATCACAGCTCACTGTAGCTTCAAACTCCTGGGCTCGAGCGAGCCTCCCACCTCAGCCTACAGGGATG
AGCCACCATGCCTGACTAATTTGTCCTTTTTCTCTCTCTCTCTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTTTGTCACCCAGGCTGGAGTACAGTGG
CGTAGTCCCAGCTCACTGCAGCCTCAACCTCCTGGGTTCAAGTGACCTTCCTGCCTCAAGTAGCTGGTTCTACAGGCACATGCCACCATGCCCAGCTAAT
TTTTTTATTTTTATTTATATTTTTATTTTTGTATTTTGTAGAGATGGGGTTTCATCATGTTGTCCAGCCTGGTCTCAAACTCCTGAGTTCAAGTAATCTG
CCCACCTCAGCTTCCCAAAGCACTAGGATTGCAGGCGTGAGCCACCACGCCTGGCATTAATTTGTCCTTTTTTAAGATATGGGGTCTCACTATGTTGCCC
AGGCTGGTCTTGAACTCCTGGGCTCAAGTGATCCTCCTGCCTTAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCAGCCTGATGTGTT
CTTAATTTAAAAAATAATAATAATAATAATAATAATAAGTCCAAATCAAACAGACGGGTTAGGTTGAAAATCAAAGCCCCCCACCCCCTGCTGCTGCCCC
CCTCCCCTCTGAGCCCTGTGACCAGGCCTCTCCCTGGGCCTCTGGGAGTTCAGCCCTGTAGCCTCGGSTCCCTACCCCCAAAGTGGAATCCGACTCCACA
CGGCATTTGCTGACCCTGTTTTTGCGTCTAACATTGCATCGTAAACGTTTTTTGGGAGGGGCCAGGGTGCCAAAACCGCTGGTGACATCACACGCGGTYG
GCCTGTTTTCCAGGGCGGAGACGGAGCGGGGCCTGTCCAGGAAGCACATAATCGAAGGTGAGGACGCRCTCGGGCACCTCAGGGCCCCCATACCTGTGGG
ATCATCCTCGGAGGCCAAAGTGATGGCAGCACAGGGCCCGACCCCCCCAGTTAACCCACTGAGGGCCCAATCCCGGGGCACCCGGTGCTCTGGCCTGACC
TTCTCCTTCCACCCAGGTAGCACAGCGGGACCCTGCAGAGAACGAGGGCAGCCCGGTGGCTGAGCACAGACCACAGACCAGCCTGGGTTTCAATCCAGGT
TTGGCCCCACACTGGCTGAGTGGGTCTTCAGCAGGGGCACCCTGCCCCATGCCTCTGCCACAGTATCTGTGCAATAGGGACAGTAAGAGCGCACCCGGCG
AGGGTGGCTGGGATGCCYGCAGCGCCCAGGAGAAGGTGCCACACAGCCYGGGGCTCAGCACTCGCAGGCACCGGAGCAAGGCACCGGGGTGTCTGGCTCT
TGCTGTATCTTTATTGTCTTCATGCCTTTCCTGTCCGTGTTCATTTTCTTCGAGGTAATAGATCATTCCATTGAAAATCACCTGGCGGGGCAAGCCACCC
ACTCCCATCCTCCCCACCCCAACCCAGCGTTTCACTCTGCCGGCTGTGTGTCCTGAGCTGCTCTAAGCACCAGCGGGTGGCTTGGGCGTTTTAGACACTA
TTGCCATTGTTTTTGTTTTTGAGATGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAGCGGCACGATCTTGGCTCACTGCAACCCCCACCTCCTGGGT
TCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCACCACCACATCTGGTTAATTTTTTTTGTATTTTTAGTAGACACAGGGT
TTCACTATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCCTCAAGTGATGCGCCCGCCTTGGCCCCCCAGAGTGCTGGGATTACAGGCATGGGCCACCACG
CCCGACCATAGACACTATTGCCTTTGATGGGACGGGCAGCAGGTGTAGCCCTCCCTCCACATGTGATAGATAAAGTCATCTCCCTGTTGTAATACACAGT
GGCCTCAGAGGAGGGTATATTGTCTGAGGGAGGAGGGGCTTCCCCTTCATTTAGWCAAGGACACGTGGCCTGTGGTCCCCCGATGTCCTCCTGAAGGGAA
GATCCCCCCACTCCCTGTGGGATGTGCCCCCACCTCTGCCGTGGCATTTCACSACCTCCATCAGCTTCTGGAAGCTTCCAGATGCCAGAGGCCTCTTCTC
CATCTCTTGTTCCCTGAGCCGGGCATGGATGGGCCCAGGTGCCTGTGGAGATGGAGCCACAGCAGTGACGCCCCCCCACCTGGTCCTCCCCCAGGTCTGA
AAGCTTCCCTGGAGCGACTGCAGCTGGAGTACGTGGATGTGGTGTTTGCCAACCGCCCGGACCCCAACACCCCGATGGAAGGTAGGTGGTCTGCGGCGGC
GCCACCGGTTAGGCCTGGGCGGGGTCTGAAGGGTCTGAACCTGGGGTTGTAGAGGCCGCCAGCATGGGCCCTGCTGGGCACCYGGGTGAGCCGTGAGAGG
AGGCCGGGTCCAGGGTGGGGGGCGAGGGGGCAGGCCTCCCCTCAGTAGGGGGTGAACTCAGCCTCTGGCTGCAGACCCCTCGCCAGGTGCACCTGGCACC
TCCAGGCTGAGTCCCTGTCCTGGCTTTGGACCCAGGCCGATCCGCCCTCCGAGTCAGAGCCGCAGTGGAACTGTCCCCTCCCCTCTGCGGCTGCTATTTT
GCAGCTAAGTGAAGTCGCAGTGTGGGGACTCCAACTGCAGTGTTCTCTCCAATCACCATCCATTGGGAAGCTTGGGGGGACTTTTTTGCTCTGGGGGATA
AATTACTACATAGAGGAGAAGAAGCGTTCAGCGCTTTGAAAATCGGTTTTGGTTACTTTGGCGTTTTTTATTCTTTCTACTCCTGCGATCTCAGCCCCCT
CCGCTCCCCCATCCTCCTGCTACAGGCGTCTTTCCATGTGTGCTTTGCTGCTGCAGGGACTTGAAAGTTAAATTGTGTTCCAGTTATTGTTTTTTATTTG
TTCATATACAGCACGCACGTGCGTGTGTTGATATATTTTTTTCCTTTTTAACTAAACGCGTGTTCTGCACGGTGATTTGTGCCTCCCCGCTGTGCCTTCG
TCGTGCCACGCCTCTCAGTGCTCCCAGCTATCAACTCTGGTCTCTTTAAATCTTTCTTCTATCACCAGGGGACCCATTTAGTTCCTCCAAGTCAAGGACA
TTCATCATAGAAGGTACACAGTGCCCCCAGCCTGACTATTGACTTCTGTGTCCAAGCTGCATTTTATGAGACAGTATTTTTATTTACATGATTCTTTTAC
CCCATGAGAAACTTCTCCATAAAATGCATAAAGAGGGGAAAGAGCACCCTATGAGAACACCTTGCAAGTGAAGGAAAAGCAAAGTGGTGTTGGAGCCCCT
CGCCCCCAGCCCCCCATCCCCTYGTTCCTCCTTCCTCCCGTGCATGGCCCCCACCCCTGGGCTTGCACTGCTGAGCTCCGCGGCGGCCGGGGGTCCTCTT
GATCTGAGGATGCTGTGATCCCCACCTGGAGCCTTGACCCTGGATGGTGCCATGGGAAGGGTTGGGGAAGACCAGGTTTCCACAAGGAGCAAAGCCATCA
GGGACCCCAAAACACGCGGCCCCCCACCGAGTCTTAGCTCCTCCATGGTTTATGTTTGCTAAGCTCCTGTCTCTCCTGGAGGCAGAGATCACCTGGCTTG
TCACGCTGCCCCGTCCACAGCACGCTGCTCCTCGGACGGCATGCTGGCTGCGTGTCCCCTCTCACCAGGTTGCCAAAGCGCTCCATCAACGTGGAATCAT
TTTCCTCCTGAAAGAATAACCACAGGAGCCGGCAGCCTTCTGAAACCAGGGGGTGGCCTCTGGCCACGCACAGTCTCTCTGCCCTCCCCACAGCTAACGG
CCCCAGGACCCCACCCCAAGGGCAGGTGTCGATCTCCCTGGGCCTGGGCCCCTGTCTGCCAACTGGTGCTGCCACCTGAACCCCCATGTATTATTTGTGA
TGCGGCAGGAGATGCTGTGAGTTTTGGCAGCAGCTAGAAGGATTCAGTCTTCCTACTTCCGTTCAACCCCATTAAATATTGAGGTGAAGGACAGTTGTCC
CTAATTGTCCCTGGGTCTGGGGCCACTGATATCACACTTGGGCACAAGTGCAGGGTGCTCCCTCATGTGGGCTCCCTGTCCAGCCTGCTTCTGCCCAGAT
CCTCCAGGGAGCCCAGGGGCCTTTGCCTAGGACTCCCCACCTCAGGACAGCCAGAGGCTCCTGCCCCGTCAGCCCCGTCTCTCCATCACTGCATGGAAGG
GGCGCCGCAGGGCAGCATGCGGTTTCACTGGCTGGGACCTTGGAGACCTGAGACAGCTGCCGGGGAGGGAGAGTGAGGGAACGGGGCTGGCCTTGGGGGC
CTTGGCTTCCCTCTGTCTGGCATGTGGACCTAAGCCTTGGCTGAGAAGAATCGGGAACTGATGCTGCATGCTCACAGGTGCCCCGAGAGTGTTTCTAAAA
AACCACAAGGCCGGGCAGGCCAGGAGCCCGGACCTGGGCAGGATGTAGTCAGAGATTCTCCTGGGACCCTCTAGGTTCTCCTCAAACTTTCCCAACCAGG
CACTTCCTGAGGGTCTATCGGAGTTGGCAGTTAAAGCAGGTGGCCCAGGGAGGTGGCCCAGAGAGTTCAGACTCCCTCCCAGATCTCCACCCCCAGGAGG
GGACAGAGAGGATTCCCAGGAGCTACAACCTCTGACCTTGGAAGTAAGCAGAGAGCAGGGCTGGGCCTGCAAGCGTGGAAGCCAAGGGTGGTTTGCCAGG
GGTCCTGGGTGAGTCTGCCGAGACCACCACTCCAGAAACCCCAGTGGCCTCAGCTCTAGCCTTTAGGAGGCCCCAGGTTCTGCTCAGGGTGGACCTCAGT
AAAGGGGCACTCAGGGAGCGACCCCCAAAACAGAAGTGGACGGGAAGCCAGCACTGCCACTTTGTGGCCTCGTTGCCATTCCAGGGGGGAGCCTGCAGAA
CAAACCCAGCATCTTCCATCCTTCCTTCCTTCCCATCAGCCCCACTCCCAGCATTTTCAGGACCTCAGCTTCCACGCAGCATGGGCAAAGGACAAGCAGG
CACTGAGGGAGAGCCAGGGCTTTTCCAGGGTCAACGTTGTTGCTGTCTTTAGAAACACTTGCACTCCCACTCACTCCCACACTGCCTTTGGCGGTCGAAC
TTGCAAGCACTGTATCCGACCCGTGAGAAGCCTAGCGCCATAGTCCCTCGCYCTGCAAAGCTCAGAGGCTTCTGAAATTTGAAATTTCGACGCCAAGTTC
TGTTTTTAAAATCACAATATCCCCATGAGGCTGAGAGGGAGCTATAACCAGCAGATTGCTGTGTCTCAAARCCATGTTTGAATATTGGGAAGAATCCACT
GTGTCGCTGGGGCGAGGGTCCCTCCTCTCTTCTTTAAAAGGCCAGCGTGAAGTCTCCGCGATTTCATCCTCAGGGCCTTAGGAGTCTCCGCCGTCCACGA
TTCAGGTTGTTCCCAGGGCTCATGGAGCCTCAAAACTGTCCTACTCCAGGCCCTGGCCCCTCACAGGAGGAGCACCCAGACCCCTGTGGCCCTGGGACCA
CCCCTTGCCAGGGGACAGGCGGGTTGGGACTCTGGCCTGGTGCTGGGCTGGTTTGAGAACCTGGGCCATGGTCTTACAAGGCTTTCCACGCCCACTTCTC
AGTCTCCTGGACATGACAGGAAACATGAGCTCAGCCCCGAAGCCCTATTCTCCGGGACCATATGGCGCCCCAGGTCCTGCCACATCTCCTTATCCAGCCC
ACTCTCTGTTCCAATTAGACTTTGGAATAGCCCGAAGTAGGAGACCAGAAACGCAAAAACACATGTCCCTCCTGCCGCCAATCTGACTGTAACGTTCATG
CATTCACCTGGTCCTTCCTGAGTGATCGGGGCCCTCGAATCTTCCCCAGACCAGAGAACCTCCAGTTCTAGAGTCCAGAGCCACATTCTTTGATTGTCCC
CTCTAATCTACCATAGAAACATCACGGTCCATCCATAACCCATTTTTCAACATTTCCATAGGCCTGTAACCAGTCGGGGAAATTGTTTTCACGACCAACT
TCTAGGATTGTGGTTCACTTTTCTCTTTCATCCCAAAAAACCCCTCCCACACCCAACTTCAGAGCCAGGAAGTACACTGCTTGCAAGACATCTTCGCAGC
CCCTGTCCCTCCTCCCAGCGTCCTGCCTGTATTTGCAGAATGTCCCRAGGCTGGCCCTGAGCYCTGGCTGCCCCCCACCTGCGGTTTCCCTTTCTCTCAC
GACAGAGACCGTCCGCGCCATGACCCACGTCATCAACCAGGGGATGGCCATGTACTGGGGCACGTCACGCTGGAGCTCCATGGAGATCATGGTACGGTGG
CCGCGCAGCATGTGTGTGTCCAGGCACAGACTCCCGGCACCGGCTGCGTATGGAGACCCCAAAGCTCTGGCGGGGTCTGTGCCTTTGGTCCCAACTGCAC
CGATGCCTGGGTGCTAAGGGAGGGACAGGATGGTGGAGTGTGGTGGTTATGTCTGTAGGCCTTGCAGACGGGGATTCTGCATGGATCCCAGCGCTGTGTG
GCCCTGGACAAATGGCTTAACGTCTCTGAGCTTGTTTCCCCACCTGTAGAACACATCTGCTAGGTGAGCCCCCATGGGGCCATTCTAAGGAGTCCCTGAG
AGAGCCAGTGTGAAGCTCTTAGCAGATGCCCTGGAGCTCAGCAAGCACTCTGGGGTGACAACACCGTCAGCTGTTTCCACTGGGCTCCTGAGACGTGCCC
GGTGCTGTTAGGGTCAAGGGTTCCACAGGGACCCTCTCACATGCAATCCTCACCGGTGCCTTTACCAGGTGAGTGCCGCAGGCAGCCCATTTTTCAGATG
TGGACACTGTGGCACAGAGAGGTTCAGTAACATGCCAAGGTCACACAGCTTGGGCCAAGATTAACATCCAGGCTGTGTGGTTCAGAGCCTGGGCTGCTCA
TAACTGGACCCTCCGGCCTGGGGGTCCCACCACCCACCTCCTTTTCCCAGCTCACCAGGGCCTGCCTGGCTCCCAGGGAAGCTATGAGTGTGAGCAGTGG
GGAGCCCGGGCTGCAGCTGCTGGGCCAGCCTGCTCCGGGGACACCTTGGTGCCCTCTCCATGGCTGCCCCGGCAGCCYCCCGCCTGCTCACAGGCAAGGG
CCCTCGGGGTCCCTTTCTGCCTTCACAGGAGGCCTACTCCGTGGCCCGGCAGTTCAACCTGACCCCGCCCATCTGCGAGCAGGCTGAGTACCACATGTTC
CAGCGTGAGAAAGTGGAGGTGCAGCTGCCGGAGCTGTTCCACAAGATAGGTGGGCACCCTCGGGCCCCTCGCCCCGCCCCACCCCACCCCTGCTCTCGGG
CCCAGGGCTTGACTCCACCTGCTTTTCCTCTTCAGGAGTGGGCGCCATGACCTGGTCCCCTCTGGCCTGTGGCATTGTTTCTGGCAAGTACGACAGTGGC
ATCCCACCCTACTCAAGAGCCTCCTTGAAGGTGAAGGAACAGCCTGGTGGGGAGGGACGGGCAGGGGATAGGCATTTTGGACGGGTGGGACCTTTGGGCC
GACTGCTTTGGTGCTGGGCAGGGGTTCCGGGAGCTGCAGCTGTTCCCACCTCGGTCTGCTGGGGGCGGGCTCCTTGGCGTGAGAACATGGAGCCCCTCCT
GGCCTGATCCCATGTGTAGAGGGGCTGCCCAGCCTGTGGCACAGGCCCAAGTGGAGAGGCCCTTTCACATCCCCCCCCCTGCCCCCACCACATCCCCCCA
TCTCTACCCCCTACCACATCCCCCACCTCTGCCCCCCACCACAGCCCAGCATTCAGAACTCTGAGACCCCTGGGCCTGGGCTCCGAGATGGGGGCTGCAA
AGCCACATGGAGGTGACCCTGGGAGAGGCGCCCCTCCCCACCACACAACCTCTGAGTGGGGACTCAGGAGGGTCCCCAGACTGCAGGATCTGGAGAACAA
GGAGCAGGCCAAGAAAGTCTGCCCAGCCAGCAGTCTCAGCACTGGGGCCCACAGCCCTGGGTTCCAGGGCAACGTGGCCTGGCCCCCGACTCCTCCCATC
CCATGGCAAGGTCAGGGCCCCCCTCCAGGAGGCCCTGCAATCCTCTGGGGGGGATGGCCAGGGGAGAGAGCACTCCCCTAGGGCCAGGAGGTTCTTCTGG
GCCACGGGTGGCAGCCGAGACCCCAGGCTGCCAAGTTTCCTAAGAGAAGGAAGGCCAGCACCTCGCCTCCTTGTCCTGACTTGGGGTTGGGCCAGCACCA
CAGTCTTTGCACTTCAGAGCCTGGACAGGCCCCGCTCATCCACCAGCCCGTGCCCGGCCCACTGCCCACTCTCCCCTACTTGAGAGGCCTGGGGCAGGGG
CACTGCCCTGGCTTCAAGATGAGAAGAGCCCCTATGAGGGAGAAGGGTCCAGAAGGAATGAGCCCATCGGCCCCCTGCACGTGGGGGTCCAGGTGACCTG
CTCTCATCTGTAGCTGTGCTGCTCCCCTCCCCCGCAACCAGGGCTACCAGTGGCTGAAGGACAAGATCCTCAGTGAGGAGGGCCGGCGCCAGCAAGCCAA
GCTGAAGGAGCTGCAGGCCATCGCCGAGCGCCTGGGCTGCACCCTGCCCCAGCTGGCCATAGGTAACGGTGGGGTCGCCATGGGGCCAGTGCCCCTGGGG
AGAACCTGCCCCARCTGGCCGTAGGTAACAGGGTGGGGTTGCCATGGGGCCAGTGTCTCCRGGGAGAGAGGGAAGGGATCCCTGGACATCATCCCCCAGC
CAGCCTCGGGTAATCGGGCTCTAAGGGGCATGGTTGGGACCCCATGCCTCTAGGGGGATGTCAGGAGTCCCTGAGGACCTGGGCCACCCCCTCCATCTGC
CAGCCATAGGTAATGGGGCTCCCGCTTTCATGGGAAGAGGATGGGGAGCGCTAAGCACTTGGGCCACCTCTCCATCAGGGAGCAGCGGGCTCCCCCATGC
CTCCTCCAGCCACCTCTTAGACAAAGCCCGTGCCCAGCACTGCAGGGCTTCCTAGACCCCCTCAGAYCCCCAGACCAAGATGCTGGGTCTCTCGGCCCAG
TCAGAGGCAAGGCAGACCCATCAGGGGYYCCTGTGGTGGGTGYTTCTCCCTCACCTTGGGTCTCGCCGCCACAGCCTGGTGCCTGAGGAATGAGGGAGTC
AGCTCCGTGCTCCTGGGGGCCTCCAATGCGGACCAGCTCATGGAGAACATTGGGGCAATACAGGTAAGAGTGAGAGGCCYTGCTGGGCAGAGGGCCCATC
CCAGCCCGAGCCCCGTCCAGTGCATCCTCCCAGGCTCGTCCTGCGTGCCAGGCTCTGTTCTAGGCACTCAGGATGYGCCCGTGAACCATCAGAGTTGTGC
TCCTGGAGAGCTTGCTTTCCAGCAGGAACAGACATGAACACTAACTGCACGAAACAAGGAGGTTAGAATGTGTGTCAGGGTGGACGAGCGCTGTAGGAGA
GAAGCCAGAGATAAAGGGAGGGAGCTGGGGCCAGGGACGGTGGCGCTGCAGACTCAGGTTCAAGGGGGCCTGTCAGGTGGGCTTGTTGAGAAGGTGGTGC
TTGAGCAGTCTTGAGAGATGCGGAGTAAGTCACGCAAATGCCTGCGGGAAGAACCTTCCACCAGCAGGAAGAGTTGATGCAAAGGCCCAAAAAGGCCTGG
AGCAGAGGGGCAGATCCTGAGAGGCACGAAACACCTCCAGGGACTTCTGAGTGAGACGGGAGCCGTGGCAAAATTGTGGGCAGAGGAGGGCGAGCTGCAG
CTCAGCCTGGAAAGGGAGGCTGCTCTCCGGCTGCTCCAYCGGGGAGGCTTTGGGAAGCAAAAGTCGAAGCAGAGAGCCCTGGTGGGAAGTGGCAGCTGCG
GGTCCGAGACGGGAGTGGTGGTTGGATCCTGGATGTTTGGGAAGGTGGGGCCCCCGGGACTGGCTGACAAACTGGATGTGGGGGTGAGAAGGCGAGGTGG
AAGTCGGTCCCCGGGTGTGTCACCCGGAAGGGTGGCGGTGCTGTATGCTGAGGCAGGCGCAGCTGGAAAAAGCAGTCACGGACATGGAAGTCCAGCATTT
GGCCTGGAGTTTCCATTTTATGTCACTGCTGCCACCACCCTTCAGGAAGGTTCTAGGGCACCTTGACATTTGAGAGGGAGTGCACAGACCCAGGCATGCT
TCCTCTCTGCCCCAAACCTTCTGAAACACAAAAGCAGCGTGGCCTCCATCTGCCTCAGATGGAGCCCAGATGTGATGGGGCAACCCGGGCCTGGCCAGCC
GACCATCTGGAAGAGCCTGGCCCCACCTCCTCCCCAGGCCAGGCCCGTCTTGTTGGTGGGATTCTGATTTGTTGTTGTTCTTGCACGCAGGTCCTTCCGA
AACTGTCRTCTTCCATTATCCACGAGATTGATAGTATTTTGGGCAATAAACCCTACAGCAAAAAGGACTACAGATCCTAAGCCGCCCCCGCCCRCCTGCT
CGGACAGTTTCCGTTCCCTCCTAGTCTCTGTTCGCTYGCTTAAGCTGTTTTGAAGCCAAGTGAAGAGTGTGGTTTGCATCCAAGAGAAAACACCACACTG
TGATGTCATCGGGAAATGATCTCCCAAGTCGCTGCCAGACACCACCCACTGCTTCGCCGGACAATGTCGAAGTCCAGTCTGTGCCGGGGAAGGCACTGGT
TAGGAAGGATGTTCAAACGGTCCCACCCAAGCCTGTCACCTCTGCTCATCCTCCAAGACCACCCAGCTTTCTCCCAGCCACAGCCAAGATTCCCAAAGTC
AAGGCCCAAAGATTTCCAAGGTTCCCAAAGTCAAGGCCAGRCCAAGGCCTGGTTGGGTCCTTGGGGCGGGCAGGGCCRGCCTCTCCTCTGCTGAGAATCC
CCACTTGGTGTAGGGGGAGAGGGGAAAGGGGTCTGGCCCATCGAGGGGCCCCTTCTGCCAGGGCCTTGGTTGCTGGGGCAGGGCCTCCCCACTGGGGGTC
TTCCTCCACCTCCCACTTTCCAAGGGCTCCAGGAATCTGGGGCCTGACCACAGATTCCTCTCCCATCCTTTTCTGCTCCAACCTGCCCCACTGGGTCCCG
GCAGGGGCCATGCCTACCAAGCTCGAGCTGGCCCTTGACCCCCACCCACCCCCACCCTTGCTGGCAGGGGCAGGGACCCCAGGGGGATTGACTCTGCAGT
TTGGGAGCCACAAAAAGCGTAGCGGTGTGATTTCTAGCTCAGCCTCCCACCGTCTTCCTCCTACACACCAATGATGAGCCTCATGCCAGTGAGGCCCGGA
GCGCTTGGGAGGGGTCCCAGTGGGGCAGGCCCCTCTGTCTGGCCACCCCTCTGTCCTGGCCCCGGAAGGCCCTGTGGTCATGTGCTCCTAGCTGCACGGT
GGCTGCTGGCCACACCACGGCAAGTGGCAGCAGGGGCCGGCCCTGTGCACAAGGATGCACTCCTCTCGGCCCCTGTAGACTTTCTCTAAAGCCGCCCGCC
AGCCCAGGCCGCTGCTCTGCACCGAGCTGGTGGGCTTGGGTTTTGTGGAGCGCATGCTTGGACCCTTTCAGTAAGGAAGGGTCTTTGGGGTTTTCTGTGC
CCATGACTTGGGGGCTGCACCCCCACAGCACCCCCACAATGTAGGAAAAGACCTCAGGGAACCTCTCCCTGGAAAGACGGGCAGGGCTGGTTAGCCCCTC
CCACTGCCTGACACCTGGGACAGGCTGGGCAGAGGGGAGAGAGGGCAGGACAGGCCAGAGTGACGCCCCCGTGCAGCTTGGGCCGGAGGGCAAGGGATGC
CAGTAAGTCTGCAGGTGCGGGGTGCCACCTACAGGCCCAGGCCTGTGTCCCAAGCAGTACCCAGGCTTTGCAGACCACGCGGGGCAGGGCTCCACTGAAG
CCACCCCCACCCCTCGCCAGCTAGCTCCATAGGGAAGCCTGTGTCTCCTGCCCCCAGGGCRCACCCTCAGTGCAGGCACCTCTGTTCCCGCTTTGCCCCT
GGAGGAGCCACTATTCCAGAAGGCTCCACCCTGCCGTCCTGCGGGAGCCTGCTGTCCAGTCCTGGCCGGGCCAAGGCCTGGGAAACTGTGAAAGTCAGAA
AGGCCAGCGGGGAGAGGCTGGGGCGAGGGGAGGAGGGGGATCAGCTTCTGCTATTACCGACCCCCCTTCATGCTGCCCCTGGCGCCTAGAACCCTTGCCC
CTCCTCATAGACCAAGTCCCGGGGGTCTCCACTCAGTCCTGCTGCCTGCTTCACCAGAAGCAGCCCTGTGAGTGTGGGGTGGGGAAGTCCCTTCCCAACG
GAGGTCCCAGCCTATGGCCCTGGGCCCAGGTGGGGGTCGCCTGCTTCCTTCCCGGACAGGGTCCTGCAGTGGCCAATGGTGCCAGAGGGCAGGTGGCCCA
CCCTCGCCGTCAGGGAGGGTGGCTGGCCCCATCCCCACTGCCACCCAGCCCCACYCACTGTTGGAAGAGGGACCAGCGCGAGGTGGTGCCCAGGGTGGGC
ACTGCTGCTTAATGCGAGGCACACCTGGGGCAGCTGAGCCCCCCGAAGGCTGCGGGTTTGCCAAACACAGAGAGGCCAGGCCCCAGTGTCAGGATGCAGT
CAGCCTCTGGCGCAGCTCTTTCCACGACCTGGTTCCTGGATGTCCTGCTTGCTCCACACCCATCTACAGGGAGGATGTGAGGGGGCTCTGCCTCCTAGGG
CCAGGTCCCCCCTCTCRGGAGGRGGTATTGGGTAGGACCATCCAAGAAAGGGCAGAAGACCAAGGGCAGTCGGGGTCTAGAAAGGAGGGCGCTGGCCCTG
CTGGRCGCTTCGGAGCCCCCACTGTTTCCCACTCAGCTTTGTGCTCAGATCCCAGGTCCCAAGGAGTGACAGGGGCTTCCTCCCACCTTCTGTCCTTGTC
CAGTCATGTAAATAATGTGCTWTTTCTCTCCCCGAGTCTTTTTTTTTWAACCTACCGTGGTTCCTCAGCTAACTGCATTCCCTACCCAGGCAGAGACTGT
CCTATGCCTCGAGCTTCCAAACGAGACTCAGACCGCGACACAGCCMCCGTATTTATGGAATGACAAAATAAATAAAGCCCAAACCCATCGGTCTCTGTGA
CTTTTTGCTCCTCTCATTTCCTCAGGGTCAGGGCTGGGCCAGGGTGACACGGGAGGGGAGGAAAAGGCTGCCAGCAGCAGGGCCTGGGGCATCCCCCAAA
CCGGAGCCTGCAGCCAAGGGCAGGTGGGTTGGAAAGGGCCCGTGGAGAGAGAGCGGGGACAGAGAATGGGGACAGGGTGGTCAGAAGACCTGTCCCCCAT
CTCTCCCAAGCGATTCAGCCAAGGGAGGGTGCGTGCCTCCCCTGCCGCCCCCAACACACACATTCTCTTTCACCAACTCTGAGGGCCCAAAGCTGCTTGC
TGGGAGGCTGCTGTCCCTCTGGGGACCTGGCTGGCTGCTGTTCTCATAAGGACAGAGGTCCAGGCCTGGGGAAGCTCTCATGGTATGTGTTTGGGGTACA
GGTGAGAGGGGCCTCACCCCAGCACACCCCTGTTTCGGGCTCCCCTCCTTCCCAGTGAGCCCCTGCACCCGTGAAATGACCATCCCAGGCAAGAGAAGGC
TTCCGGACACGCCCCCACCCCCCACCACTCCTCCCTGGCCCCAGCCCCCACCCCCATTCTAAATCTTGAATCTTAAAAAGAAAAAGCCTCTGATTAAATC
CTTTCCCAAAGGATTTATTAAAACACAGAAAACCAAAACATACACACAGAGTACAAAGTAAAGGTGATTGTGTTGGCTACAGCCTCTGTCCAGCCTCCCG
TGGGCGAAGACCAGACAAGCCACGGCTCACAGGGGAGCCTGGCTTCCAAAGCTGGACCCGCCCCCGCCGGGGCCACCCTGGCTGGGACTCCTGGCGCGCC
CTGCACCCAGCCCAGGGCCCTCCCTTTGCCAGCCTGGGGCTGTGCCTGGGGAAAGGGGTCGGCCCCCTCTTAGCTGGGCCTGGGCCGGTGGAGTCTGCTC
CCTCCACACCCCTGAACTCAGACCCCACGGGCCAGTGGGGACCCTCCCTTCCTCTCCAGGGGTGCTTGGGCTCCAATCGCTGCTTGAGGAGTTCAGGACA
CACACACACACCCAACGGGCCCTTTCTGGGTTATCGCACCTAAAAAAATACTTTGTTTAAAAAAAAAATCTGAAAATTAAAGAAAAAAAAAACACAACGC
CAGTGAGTTTGGGCTGATGCACCACAACCTGTAAACTTTCAGACACAGAAAACAGGACAGGAACCAGCTGCCGAGGCCGAGGCGGGCCTTGCACAGAAGA
GACTTGGGGGAGGGGCCGAGGCCAGGTCACCAAGACGGTGAGGGCAGAGGGGCGTGCCAGCCTCGGCCCCCACCCACGCCCTGTCCCCTGCCCACAGACC
CTGACGCACACTGGAGGCTCCAAGTGACCGACACTTGACCAAGTCCATCTGGCTTCTGGCTCCCATGTACCCGAGCCCACTCTCCACTCCACCTCCTTGG
GCCTCAAGTGTCCTGGGATGACAGGAGTGAGGGCTGCAGGTGTCACCGGGCCAAGGCTTGGTCAGCTCCTGACCTCGGCAGGGGAGCACCCGGGGGACTC
TGGGAAGGCAGCCCCCAAAAGCAGGAGGACTTCAATCATAGGGGGCAGGGAAAGTCCAGCCTGCCCCTGGGGGAAGCCAAGTTTGCAAAAAACGCAGGAG
CTTCGGAAGGTGGCTTTCACGGGGGACGCTGCTTCTGCCTCAGGCGTGTATGAGAGGGCCCTGCAGACGTGCTCACTCCACCCCGAGTCACCTGAGCCCA
TGGGGCAATGCCTTCCAAGACCTTGGCTCAAACATGGCTCTGCAGAAGCCCTACTCAGCACTGGCTTAAAGTGGCTGGAAATTTCCAATCGCAGACTGGC
ACTTTGGGCTCGCGTTCATGCCCGAGGACCCTGATTCTACCAGCAGCAAAAACCAAACCCAGCCCAAAGACGCCAAACATACGGACACCACCATCACCAC
TTTTGGCAGAGATGACTGACAAACCAAGAAGGACATTCTCAGATCTTTTCTCCTCTCCCAAACTGGTCAGCCCCAAACCCGCTCTGACTCTAGTAGCCCA
CCCCTCCCGGGCCCCGGGGTGCTGGCCACGGACAGCACCACCCCTTCTGGACCAGGCAGTGCAGGGGGCCCAGGCCCAAAGGAGCCCTGGCCAGGCTTTC
CTGGGTGCCCGAGTCTAACCAGGCAGAGGAGAAGGGAGCCCTGGCGAGGCCTGGGAGGGAAGCAGAGAGGAAGGGACAGAGCAAGCCTGCCTGAGAGGAA
GGCGCACAGGGGAGGGACCATCAGCCCTTGGGGTGGAGACACAGACCCCTGCCCTGACCGCCACAGGCCTCCAGTCCTGCTGCTCGGGACCTATCTGCTG
TGGGCCAAGGAAGGTGGGCACTGCTCCCAACGAGGGCCAACCCCAGTGCTTGCCACTGCTTGTTTGGGGACGAGGGCACGGGAGTGAGCTTCTGACCCGA
GCCAGGACCCTTTGCCAGGAGGCACCGCAGAGCACACAACACGCATGTGGATGAACCATAACATGTGAGCCCGCTGACAATCATCTCCACTCCAGGGTGC
TCCCCACTACGCCCACGTGCAGTGTCAGGGTCGGGCTGGCCTTGCAGACCTGGATCCAGACTGGAGTGTGGGAATGCGCCAAGAGGAAGGACTTGTAGGT
CCCGCCCTCCGGGGTTCAGAGACAGCCTCATTATGAGTGAGGCATATAGGGCTTAGGGAGGGCCAGGCAATTGCTCCAGTGTCTGCAACACAAGCTGGTG
AATCCTGACCCAGCCCTGGCCCCCTCAGTCCCAGGCAGGCCCTCTCCAAGGAGCTGAGCCCCAGCCCGTGTGCACCTCCACCCCAGGCCCAGCTGGGTTT
TTCACGCAGCCCTTTCCTAACATTCCCAGGATTCTGCACCCCAAGGCACCTTCCCTGGGAAGGTCCCAGTACAAGACTCAGAAACGCCTTCCAGGTCGAC
CTGGGGCCAGGAGAAGGATCACACACAAACAGGCCTAGGGAGGGCCTGACCTGCTCCCCATCTCCGTCCCCAACTTGGAGGGGCAGGGTCCGGGGGAGTG
GGTGGGATTCCAACAACCCACATGTGGGAAGATGGTTTTGGGATGTCAGGGCGCTCCTGGCAGGAAACAAGGCAGCAAGCCCTTGGTGCTGCGGCTGGGA
GGGGTCTGCAGAGGGCACTGGGTCCAGTCCCCCTCCAGGCAGAACTCTCCCCACGCCTTCCAAGAGTGCAGCCTCAGGCAAAAAGCCCCCGGGAAGGCCT
TTCCAGGGACAGGGGAATGGGACAAGTCCAGGCCCCCAGGGGCAGCCCGGTTCCACCTCCGGAGGTGGGCAGGGTAGGCATCCCAGGGCACAGGGCAGGG
GGCCAGGGTCTCCTGGGCCAGCTCAGGGCCCATGACCCTCCTTGCTGGGGCGCAGCTATCACTGCCCTTAACCACACCTCTGGCAGAAGGCAAACCCAAC
GCAGCAGTGGCTCCGAGGCAAGTGCTGCCCCCCCCCCAGCCCACCCTCCCTGGGATCATACGCTTCTGCCTGCTGTGAAGAGCCGGGGCCACAGGCCCCC
CACTGGTAACAGAGTCCAGGGCCTTCAAGATGCGCTGGGCCGGGGACAGACACCTGCTGGCAGAGGATCCACCTCCCCACAAGGAGAGAGCAAACACCTG
GCGGCCTCCAGCCTTGGCAGGAAGGAGGGGAAATGTCAGCCAGGGTCTCACCATAGGGCTGGACAGCGGCTCCCCAAACCTGCCCTGTCTGGTGCTGGGA
GGCTCCAAGCGGGCAGGGGGCCAAATCAGAAGGGGCTGTCACACAGGTGCAGACAGGTCAGGTAGGGGACACTGAGGGCTCCTAGGGCACCGGGCGCCAT
GTCCTCCCCAGCTGGGCTGAGTCCACAGGGCAGTGCCAGGACTACCTTGGGTCTGGAACCCATCGGTAAAGAGACATCAGTGCTGCAGGTTCGAATCTTC
CATACGTCATCCAACTTTTATCAAGACAAACGTGTTCAAGTCTTCAATAGGAAAGTGCAAAAGATGTACAAATAAATGAAATCTCTTCTAAGAAGTCGTC
TGGAAAAGGTGGCGAGGGGGCACGTCCGGCGTGGTTGTGGGGGCAACGCTGTGTGGAAGAACACTTGAATTATGATGAGGTGGCACTTCTGGGCTCTGGC
CCAGCTGAGCTGGGCCTCGTCCTCCATGTGATGGCATTACTAGGTTTCCCTTTTTGTCCCAAGGTGGCGCTGGCTCCTAAAAAGGTGGCAGCTTTTCTCT
CCCATGTGGGTCGGGCAGGTGGCCCGGCAGGCGTGGCTGCAAAACGCAAATCAGTGGGTTAAGCAGGTGGGCAGTTATAGGGGGCATCAGGGTGGCACCC
AACAGCCTGTAGCTGCTTCTCCACCTATCACAACCAACTATGATCGGGGTGCCCCCCAGCCATGACCTCCCAGCCACAGGCTGCCGGGCCAGGCCATGAG
CTACACCCAGAGTGCCGAGAGCACCCAGGAAGCAGCAGTGGGCAGGGGCAGCCAGCCAGGAAGCCCCTCTGGAGCCTCCTCCAGCAAGACACGGTTCCCA
CAGGGACAGACACAGCGTAGTGGAGGCTGGTGGCCCCAGAGAAGACCAGAATGAACTGGCAGTTTCTCTGAAATAAGCCCCCTCTCCTGGCCAATAGCCC
CCACAAAACCCTCAGCCACCCTCCTGGTCCTGGGCAGGAAGTGAGGGTGTAAGACAAGATGTGATGTCTGCCACCAGCAGGACAGCAGGGGCAGGACAGG
GCTCCAGGCGGGGGCAGCAGTCTCTGACTTCCGCTGGGAACATGTGTGCAAATGAGAACACATGTGCACACACAGGAGCTCACCCAAGTCCACCGACCCC
TTCATGTCCTGCCACCCCAGCCTCCCAGTGGACAGACACGCTGGCCACAAGGTGGTCCCAGGGCCAAGGGGGCAAGGTAGAGGGGCTCCAGGCAGGTGGG
TGGCTCTCAAAGCCGCCGGAGGCAGTAAAAGCTCCAGGACTTAGGGACGGGAGTCAAGTGCAGGGGCAGGGCTGACTGTGGCCAGGCCTGGTTTGCCAGC
AATGGGGTGGCGGGGAGGAACACAGCACCCAGCAGCCCTCACCTCAGCTGGAAATGAGCGCTGCAACACAGGGAAGTCTCGAGGACGGCTAGATATCTGT
CAAAAAAAGAGGAGAGCCGGGCTTGCCTGACGTTGGCAGCAGCAGGCAGGCCGGGCCCGGCGGGCACCCGTGTGCATGCTGCCCGGAGCGGACGGGCACC
TACCGGTCACATAGGGCCCCAGGGGCATCTGGTTGTAGTTGACAATCCCTCCCGGTCCAGGGCCCCGGAAGTTGGGCCCAAAGTTGTTGCTGTACATCTG
GGAGGAGCCGAAAGCGCCCTGGAGGCAAGGACTCAGCTTCACAGGTGGTCTCAGGCCCCCCACCCAGCCTCCACCCAGGGGCACGCCAGGGGGCTCGGGC
CGGGGCACACAGGCCGAGCCTGACCTGCTGGATGGTGGGGTCCCCGGCGCGGTTGGTCAGGCGGCTCAGGATGCTGCGCTCCGACATCTGCAGCCGGGCG
GCCACCGGGGGGATGCGGGACAGCATGGATGGCAGCCGGGTCACGTCGGCCTTCATGTCGCTCAGCAGCTCCTCCAGCTGGTTCAGGACTGTGGTGGGAG
GCGGAGGGATGGTAGGATGCAGGGATGGAGGGGTGGAGGGATGGAGGAGTGGAAGGATGGAGGGATGGAGGGGTGGAGGGGTGGAGGGGTGGAGCAGTGG
AAGGATGGAGGGATGGAAGGATGGAGGGATGGAGGGGTGGAGGGGTGGAGGGATGGAGGAGAGGAGGGGTGGAGGGGTGGAAGGATGGAGGGGTGGAAGG
ATGGAGGGATGATGGAGGGATGATGGAGGGATAATGGAGGGAAGATGGAGGGATGGAGGAATGATGGAGCGATGGAAGGATGATGGAGGGGTGGAAGGAC
GGACGAATGGAGGGGTGGAAGGACGGAGGGATGGAGGGATAATGTAGGGATAATGGAGCGAAGATGGAGGGATGGAGGGAAGGTGGAGGGATGGGGGAAG
AT


SNP Information

Context             (SEQ ID NO:63342):
AGTCAAGGACACGTGGCCTGTGGTCCCCCGATGTCCTCCTGAAGGGAAGATCCCCCCACTCCCTGTGGGATGTGCCCCCACCTCTGCCGTGGCATTTCAC
S
ACCTCCATCAGCTTCTGGAAGCTTCCAGATGCCAGAGGCCTCTTCTCCATCTCTTGTTCCCTGAGCCGGGCATGGATGGGCCCAGGTGCCTGTGGAGATG
Celera SNP ID:            hCV25999476
SNP Position Genomic:     104753
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,33)   caucasian(G,32)   total(C,1|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:63343):
GCAAGCGGGCCCCCACAGGGAGGGACGCCCTCTAAATCCTGGCCACAAAACCCATTCTGTCCTGCCCTCTCTCCCCTCTCCCACTCACATCCCCAAACTC
R
GCCTTCCACCATCTTGTTGTGAAGGGGGCGATTATTCACATCTGTGTTCTCTTCCCTTAAGCATTTTCTAGGGAGATTTGGTGTCTGTGTGGCTCACTCC
Celera SNP ID:            hCV8880407
SNP Position Genomic:     62608
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   SC_12_A(A,4|G,11)   SC_12_C(A,9|G,9)   SC_12_AA(A,3|G,18)   total(G,38|A,16)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63344):
CACACATGAATGTTCCAGGCTTCCCTTGTCTGGACGATGTGATCAGGGAGACACCATCCCAGATTCTGGCTGGTAACAGAGCAGGCCTCCTCAACCCTGG
Y
ACCATTGACACTTGGGCTGGACAATTCTCTGTCATGGGGCAGCATCCGTGGCCTCTGCCTACTGCCAGTAGCACCTCCTGCCCAGTTGGGACAACCAAAA
Celera SNP ID:            hCV1255691
SNP Position Genomic:     76016
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63345):
GCCCTCCTGCCTCTGCTCTCAGGAGAAGGACACTCCTGGAATTCCACATGGATCCCACCTTCTCCCTGGAGCCCTGCCATACTCCTGGGCACCGCTGATG
Y
GCTCTCCTGCTGGCTGACTTGGCCTTGAACACGGGTGGCTCAGGCCTTTCCCAGGGACCCTTGCTTCATGCCCCAGCTGGAGGAAGCCACACTCACAGCA
Celera SNP ID:            hCV1255693
SNP Position Genomic:     74750
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63346):
AACTCAAAGCTCCAGGCTTGGCTCATTGTGGGAGAGAAATGCAGGCCCTTCCCGTCCCTGGAAAAGGGACCTTCCCACACAGCAGTCGCTGTCCAGGCAC
Y
TGGACTGTCCCCTGTCTATCCATCTTGGGGTCTCACTCGTGCACCTAGTCTCACTTAGAGATGTAGTTCAGTGCCGCGCAGACAAGGGGCGGAGGCATCA
Celera SNP ID:            hCV1255694
SNP Position Genomic:     73136
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63347):
CTCTACTAAAAATACAAAAATTAACCAGTCGTGGTGGCGGGCACCTGTAGTCCCAGCTATTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGG
Y
GGAGGTTGCAGTGAGCCAAGATGGAACAAAAGTACACTCCACAGGATGGGAGTGGGCAAGCGGCTCAAGAACCTGGATACAGAATTTTCTGGGGTTTAAA
Celera SNP ID:            hCV1255695
SNP Position Genomic:     69064
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63348):
TTAGGAACCAGACCTGAGCTGCCTGGTTGGGAGGGGGCTGAGGAGCTGGGGACCGCCACTGGGGGTTGTCTTTTCCTCCCTTTCATTTGTCTGCCCTGTG
Y
TGAACTGTGTCCAAGGGGAGATGACATAAGTAATAGCTCTTGGGGAAGTGGGCTATTAGCATTTATGGAAATTAATACATCCACATCCGAGGAGCAAGAA
Celera SNP ID:            hCV26333905
SNP Position Genomic:     8531
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63349):
GCTGAGCTGAGGGATGAGGGTGCAGGCAGAGATCTGGGAGCTGAGCTAAGGGGTGAGGGTGGAGTAGGGGGACGCGGGGGCTGAGCTGAGGGGTGAGGGT
R
GAGTGGGGGACATGGAAGCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGGATGTGGGAGCTGAGCTGAGGGGTGAGGGTGCAGTGGGGGGACGTGGGAGCT
Celera SNP ID:            hCV26333906
SNP Position Genomic:     19594
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63350):
GGCAGAGAAGCAGCGAGCTTGCACGGAGACAAGTTCCAACAGCGACCACTGGCCGAGGCAGCAAAGCAGGACAATGCAATGAAGAAAGACCAGGGAGGCC
R
AGGGGGAACCCTCTGAGAGAGGGATCATCTGAAGATGTGGAGAACATTCCAGCCCAAGAGGAGAGGGGTCTGGAATGGATGCCTCTCTCAGCTGGAGGAG
Celera SNP ID:            hCV1255697
SNP Position Genomic:     67993
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63351):
CGTTCCCCCTTTGCCTGTGGGTTTGACCTGATCTGGAACTCACAGAGCTCCTCAGGCTCATTGAAGGTTAATGCCTGCTTGGGGGTGTGCAGTACTGATA
Y
GACGTGGATCAGTGACATCTTTCTGATATGTTTTTCTGTTGGTGAATTAACAAACCGGGCACCTGGCGAGAGACTGTGCCCCAGCAGGATGTGACATCAA
Celera SNP ID:            hCV27947591
SNP Position Genomic:     56862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63352):
TGGGCCCTGCACCCCGTCCGCCAGACGGACACGCTGGAACTGCAGCGGCTGCGGGAGGTGCGGGCGGCTGCCCAGGCCAGGAACATGGAGAGCTTCCTCC
R
CATGCACGGCCTTTCCCTGGACGGCTGCACCGCCCAGCGCACAGGCATGAAGTATCGGTAAGGGCCGGGCAGGGGGGCGGTGGGGTGGGAAGTCTGATTT
Celera SNP ID:            hCV1255698
SNP Position Genomic:     66200
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63353):
CTGAGCTGAGGGATGAGGGTGCAGGCAGAGATCTGGGAGCTGAGCTAAGGGGTGAGGGTGGAGTAGGGGGACGCGGGGGCTGAGCTGAGGGGTGAGGGTA
K
AGTGGGGGACATGGAAGCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGGATGTGGGAGCTGAGCTGAGGGGTGAGGGTGCAGTGGGGGGACGTGGGAGCTG
Celera SNP ID:            hCV26333907
SNP Position Genomic:     19595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63354):
GCAGAGTATGTATTGAGCGTCTGCTGTAACCTAAGTTTTACTGGGAGTGTTGGAATCTCTCTGTCCCTTTGACCCCCGCGTTTCCTTCCTTGGGCCATCT
K
TGTCATAACCATCAAGACGCAGTGGCTTCTTCACATTTCTGGTGATGTTGCTTCTCCATGTGCCAATCCCCCAGCGGATACCCCACTCTCCGGAGGGAGA
Celera SNP ID:            hCV27947592
SNP Position Genomic:     79527
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63355):
CCCTGCACCTTGTCCACAGGATCTTCGCGGCGTCTCAGCCTCTCCGGAGCTCACTGTTCCCATCTGTAAGAGGGTGTGTGTGGGACCGTTCCGGCAGGGC
Y
ATCCTGAGGGTCAGTGGCCCCAAGTCTGTAAATCACCCACCCAGCTCAGGGCGGGACGTGTCACACTCCTCTGGGAAGTGGTCCCCTCCAGCACAGACCG
Celera SNP ID:            hCV27476337
SNP Position Genomic:     100331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63356):
GATCTGGGAGCTGAGCTAAGGGGTGAGGGTGGAGTAGGGGGACGCGGGGGCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGACATGGAAGCTGAGCTGAGG
R
GTGAGGGTAGAGTGGGGGGATGTGGGAGCTGAGCTGAGGGGTGAGGGTGCAGTGGGGGGACGTGGGAGCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGGA
Celera SNP ID:            hCV26333908
SNP Position Genomic:     19624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63357):
GGGAGCTGAGCTGAGGGGTGAGGGTGCAGTGGGGGGACGTGGGAGCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGGATGTGGGAGCTGAGCTGAGGGGTG
R
GGGTGGAGTAGGGGGACGTGTGAGCTGAGCTGAGGGGTGGGGGTGGAGTTGGGGGATGTGGGATCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGACATGG
Celera SNP ID:            hCV26333909
SNP Position Genomic:     19748
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63358):
GGGTCCCTGCTTGCAAAGTGTCAGGCCAAAAAGAGCTTGGCGTGAGAACGGGCCTGGGTACAGCAAAGGCGTGCTGCTACAGAAGATGTGGGTGCAAAGC
R
CTTCCACTTCTTTGGCTGGAGCACTTAGGGTCAGGGGAGCCAGGGGGCCAGAGAAGGGAGTGGCTCAGAGAGCTTGGGGGCCTGGGGTTGGATCCCACCC
Celera SNP ID:            hCV27476338
SNP Position Genomic:     100133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63359):
CTCCACATGTGATAGATAAAGTCATCTCCCTGTTGTAATACACAGTGGCCTCAGAGGAGGGTATATTGTCTGAGGGAGGAGGGGCTTCCCCTTCATTTAG
W
CAAGGACACGTGGCCTGTGGTCCCCCGATGTCCTCCTGAAGGGAAGATCCCCCCACTCCCTGTGGGATGTGCCCCCACCTCTGCCGTGGCATTTCACGAC
Celera SNP ID:            hCV26000176
SNP Position Genomic:     104655
SNP Source:               Applera
Population(Allele,Count): african american(T,22)   caucasian(A,1|T,31)   total(A,1|T,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:63360):
GTGGAAGGACCTCCACGACATATAGGGTGGGAGTGTGGAGTGATGGAGTGTGGAAACCCTTCTCACAGTTGTCACCTGCTCTCCAGCCCCTCCTGAGCCC
R
TGGACCTGCCTGCCTGCCGTGTGTCTGTCTGTCGTCTGTCTGTCTGTCTCTCTGCTGAGGGGCTCCCCGATGCCCTGAACCCAGACAGCCTCCTCAGCCT
Celera SNP ID:            hCV27843887
SNP Position Genomic:     54832
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,34)   total(A,2|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:63361):
GAAGTGTGGGGTGGGCTACATGCCCTGTTAAAGGCACAGGCATCCCAGCCCCCATCCCCTTCTGCAAGGCTGTGTGAGGACATCCTGCCTCCCGTGGGCC
R
TGTTTGCTTATGCAGCATCCATGGGAGGGCTCCCTGGGGACGGGCTGTGGTGATGACTCTGCTCTCAGCAGAACCCTCCACTCTGAAGCCCTGGTTTCCT
Celera SNP ID:            hCV8880416
SNP Position Genomic:     51893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63362):
GGGAGCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGGATGTGGGAGCTGAGCTGAGGGGTGAGGGTGGAGTAGGGGGACGTGTGAGCTGAGCTGAGGGGTG
R
GGGTGGAGTTGGGGGATGTGGGATCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGACATGGAAGCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGGATGTGG
Celera SNP ID:            hCV26333910
SNP Position Genomic:     19788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63363):
GGGTAGAGTGGGGGGATGTGGGAGCTGAGCTGAGGAGTGAGGGTGAACTGGGGGATGTGGGAGCTGAGCTGAGGGGTGGGGGTGGAGTTGTGGGTTGTGT
R
AGCTGAGCTGAGGGGTGAGGGTGGAGGCGGGGACGTGGCAGCCCAGCTGAGGGCCTTGGAGCACACCTGGTAGGAAGCCAGCCTGTGGACCTGGAGCCGA
Celera SNP ID:            hCV26333911
SNP Position Genomic:     19968
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63364):
AGACAGCAGCCTGTGTAAGATGAGCACTGGGTTCTGGGGAAGGACGGTAAACAGTTCGCCTTATTCTGTGCTGGGCACTGTGCTTAAGCCCAGCAGCGGG
C
CCTGGCTGGACTCAGTGTCCAGAGTGTCTCTGCTCAGGGCTGGCCGAGAGTCAGCGCTTTCTGTCCCTGTGGCGGACAGTCCGACCTCTCCGAGGCTGCC
Celera SNP ID:            hCV26333912
SNP Position Genomic:     21545
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63365):
CTCCGAGGCTGCCATAGAGACTCATATCAGCCAGGCGAGCTGGGAGCGCCACCACTCCCCAGATAGTTACTGCCCGGGCCTCCCTGCCCAGTCACTGCAT
G
GGGGGGGGCTCAGCTCCTGGGTGTGAGTTTGTGCCAGGCTCCAGAGAGGTGGGGACCCCAGCCACACCCAGGGACAGGGCCAAGTGGCCAAGAGACCACT
Celera SNP ID:            hCV26333913
SNP Position Genomic:     21733
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,4)   total(G,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63366):
CTCTGTCTCTCTATGTCTTTAGCAGGTGTTTCCCACACTTTAGTCATTGGCCTTTCATCTCATGATTTGGGTCATCTGTGCTATTTCTTTTCTTTTTTTC
T
TTTTTTTTTTTTTTCCGACAGGGTCTCACTCTGCCGCCCAGGCTGGAATGCAGTGGCGCAATCTTATCTCACTGCAACCTCCAACTCCCAGGCTCAGGCG
Celera SNP ID:            hCV26333915
SNP Position Genomic:     24407
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63367):
GTGGCACGATCTTAGCTCACTGCAACCTGAGGCTCAGGCCATCCTCCCATCTCGGCCTCCCAGGTTGCTGGGACCACAGGTGCACATCACCATACCTGGC
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTAGTAGAGATGGGTTTTCAGTATGTTGCTGGGCTGGTCTAGAATTCCAGGGCTCAAGAGATTTAC
Celera SNP ID:            hCV26333918
SNP Position Genomic:     31949
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,2)   total(T,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63368):
TGGCACGATCTTAGCTCACTGCAACCTGAGGCTCAGGCCATCCTCCCATCTCGGCCTCCCAGGTTGCTGGGACCACAGGTGCACATCACCATACCTGGCT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTAGTAGAGATGGGTTTTCAGTATGTTGCTGGGCTGGTCTAGAATTCCAGGGCTCAAGAGATTTACC
Celera SNP ID:            hCV26333919
SNP Position Genomic:     31950
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,2)   total(G,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63369):
CCCTCTCCCACTGTGGATCCCCTTGGAGGAGACTGCTGCAGCTGCAGGGCACCCTCTGTCGCCCTAAGAGGAGCAGCAGAACATGACCTCCCATCGCTCC
R
CTTCCCACTGCTCTGCTTGGCTTCAGCCTCATGCTGGCATCTGTGTTATCTATAAGCAGAAAGCTGCTTGTTCAGAGCGGGCTGAGACACCTTCGTGCGT
Celera SNP ID:            hCV15811108
SNP Position Genomic:     27605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63370):
AGAACACTTGGACACTGATCACTTGCTGAACTCCCCGTGGAGCCACCAGGGGGACCACAGTCCCTCTGGTGCCAAAGATGCTGTGCTGGGTGAGAGGCGC
R
ATGGAGCTGCTGTCCTGGGCTCTCCTGATGTGCCTGACATTTTGACATTTCATGTCTCACTTGTGCAACTAGGGCTGCAGGGCCTCAGAGCTGGGGAGGG
Celera SNP ID:            hCV27511172
SNP Position Genomic:     97055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63371):
GACAGGGTCCTGCAGTGGCCAATGGTGCCAGAGGGCAGGTGGCCCACCCTCGCCGTCAGGGAGGGTGGCTGGCCCCATCCCCACTGCCACCCAGCCCCAC
Y
CACTGTTGGAAGAGGGACCAGCGCGAGGTGGTGCCCAGGGTGGGCACTGCTGCTTAATGCGAGGCACACCTGGGGCAGCTGAGCCCCCCGAAGGCTGCGG
Celera SNP ID:            hCV27516836
SNP Position Genomic:     115055
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,356|C,573)   total(C,573|T,356) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:63372):
GAAACACTTGCACTCCCACTCACTCCCACACTGCCTTTGGCGGTCGAACTTGCAAGCACTGTATCCGACCCGTGAGAAGCCTAGCGCCATAGTCCCTCGC
Y
CTGCAAAGCTCAGAGGCTTCTGAAATTTGAAATTTCGACGCCAAGTTCTGTTTTTAAAATCACAATATCCCCATGAGGCTGAGAGGGAGCTATAACCAGC
Celera SNP ID:            hCV27516837
SNP Position Genomic:     107852
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,248|C,1235)   total(C,1235|T,248) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63373):
ATGGAAAATGCAGCCAGCATAGACAGCAGTCTGTGGAGTAGAGCTGCAGTTTTCTAGGGAAAGGGCAGAAAAACCTGGAAGAGAAAGTACAGCAAAATCA
K
AGCCGTCAAAACATAAATAAATAAAATAGTGAGAAAGCAGAGCCCCACAGTGCCGTGAGTCGCTCCCTCTCTTTCCTGCCTCTGGTCCTGCCAATCCCAG
Celera SNP ID:            hCV27516838
SNP Position Genomic:     91846
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,531|G,928)   total(G,928|T,531) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63374):
TTGGTTAGGAGGCCTACGCTGCCAGGCTCTGCCGCTGCTGTTGGGCCTGGCTGTGGCTGTAACAAAGGAAGGGCTGGCCTTGCTTGAGAACTGGCAGCCC
Y
ACCATGGAGCTCCCCGCACCCCGAGGGACAGATGCACAGGCCATGTGGTCCAGTGAAGTGGGACGATCTCCTGCCCCAGTCGCTGGAGACAGGAAGAAGA
Celera SNP ID:            hCV27516839
SNP Position Genomic:     86753
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,592|T,883)   total(C,592|T,883) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63375):
CCAGGGGTCTTCAAAGCATGGTCCCTGGGCCTGCAGCATCAGCGTTACCTGGAACTTGTGGGAAATGCAGATTCTTGGACCCCCACCCTATGTTCATGGA
R
CCAGTGACTCAGTCCCTGCACTGTTTTCCAACCCAAGTTGAGTTTGTGATTCCGGAATTCTGGAAGTTAGCTCAGCACCTAGACCCAAGAGAGAGTGAAG
Celera SNP ID:            hCV8880426
SNP Position Genomic:     51696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63376):
AGAGAAATAATAACTTATTGGGTGCAGCTGGCAGTGCGTCCTGAAGAAGGAGGAATGGGCTTGGGATGCCCTTGAGTGGGTGTGGGGCTGGGGACAGCCA
Y
GTGACCATGGACACTGTGGGGCCGGTTCACTGGGTAGCCACAGGAGGGAAGGCAGGTGGCTTTGAGCACAGATCGTGTCGCTGTGTGTGGAAGGTGGCTT
Celera SNP ID:            hCV8880427
SNP Position Genomic:     51151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63377):
GGCACGATCTTAGCTCACTGCAACCTGAGGCTCAGGCCATCCTCCCATCTCGGCCTCCCAGGTTGCTGGGACCACAGGTGCACATCACCATACCTGGCTG
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTAGTAGAGATGGGTTTTCAGTATGTTGCTGGGCTGGTCTAGAATTCCAGGGCTCAAGAGATTTACCC
Celera SNP ID:            hCV26333920
SNP Position Genomic:     31951
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63378):
GCACGATCTTAGCTCACTGCAACCTGAGGCTCAGGCCATCCTCCCATCTCGGCCTCCCAGGTTGCTGGGACCACAGGTGCACATCACCATACCTGGCTGT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTAGTAGAGATGGGTTTTCAGTATGTTGCTGGGCTGGTCTAGAATTCCAGGGCTCAAGAGATTTACCCA
Celera SNP ID:            hCV26333921
SNP Position Genomic:     31952
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,3)   total(G,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63379):
AAGTGGAATTGCTAGATCATATAGTAATTCGACTTTTAGTTTTCAAAGAACCACCATACTGTTTTCCATAGTGGCTGTACCATTTTACATTCCCACCAAC
D
GTGCACAGGGTCCCCATTTCTCCACATCTTGCCAACCCTTATTATTCTGGGCTTTTTTATAGCGGCCATCCTAATGGCTGCGAGGTAGTATCTCACTGTG
Celera SNP ID:            hCV26333922
SNP Position Genomic:     37958
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2|T,2|-,9)   total(G,2|A,2|-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63380):
TTGGCACCGGCTGCGCTTCCTCAGAGACTGCCCTGAGCAGGCGACTGGTGGGGGCCCGGGGGCATGGGACATTGGTGGTTCTTTCTGACCTGCACCTGCT
K
GGGTTGATGCCAACTGTGGACTCTCTCTCTTCTCTCCCTTTCTCCTTTTTCTCTTTTCTCCATTGCTGTCCGAAGTACTCGGTATGGGAGTCCCAAAAGA
Celera SNP ID:            hCV25998260
SNP Position Genomic:     56258
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,39|T,1)   total(G,74|T,2)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,8)   total(G,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63381):
ATAACTCACTGTAGCCTCAAACTCCTGGGTTCAAGGGATCCTCCCACCTCAGCCTCCTAAATAGCTGGGACCACTGGCATGCACCACCATGAATGACTAA
T
TTTTTTTTTTTTTTCGAGATGGAAAGTTTCACTCTTGTCTCCCAGGCTGGAGTGCAATGGCACAATCTAGGCTCACTGCGACCTCCGCCTCCTGGGTTCA
Celera SNP ID:            hCV26333923
SNP Position Genomic:     38480
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,8)   total(-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63382):
CCTCAAACTCCTGGGTTCAAGGGATCCTCCCACCTCAGCCTCCTAAATAGCTGGGACCACTGGCATGCACCACCATGAATGACTAATTTTTTTTTTTTTT
Y
CGAGATGGAAAGTTTCACTCTTGTCTCCCAGGCTGGAGTGCAATGGCACAATCTAGGCTCACTGCGACCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGC
Celera SNP ID:            hCV26333924
SNP Position Genomic:     38494
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63383):
TGACCCTGGGGGACAGCAGTGCAGTCAGGAGCTCAGAAAGTACACAGATGCCCCCTGGGCGGTCTCTTCTGCACCATGTGGGCAGCAGAAACTACACCTA
Y
GGTTTCAGAACAACAGTTGGGGTGGTGTGGAAGGACCTCCACGACATATAGGGTGGGAGTGTGGAGTGATGGAGTGTGGAAACCCTTCTCACAGTTGTCA
Celera SNP ID:            hCV27841931
SNP Position Genomic:     54705
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63384):
CATGAATGACTAATTTTTTTTTTTTTTTCGAGATGGAAAGTTTCACTCTTGTCTCCCAGGCTGGAGTGCAATGGCACAATCTAGGCTCACTGCGACCTCC
R
CCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTTCCGAGTAGCTGGGATTACAGGCGCCCACCACCATGTCCAGCTAATTTTTGTATTTTTAGTAGAG
Celera SNP ID:            hCV26333925
SNP Position Genomic:     38567
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63385):
GGCAAGTCTCCTGTGACTGAGACATCTGATCACCTTCCGGTGGCCAAAGCAAGTCACATGGTTGCACAGGAGCGCAAGGCTAGGAATTCACCCCTCCAAC
K
TGTGTGTGTGTGTGTGTGTATGTGCATATGTACGTGTGTCTGTGCATTGTGTATATGTGTTATGTATGTATGTGTGTATGTGTGTGTACATATGTGTGTA
Celera SNP ID:            hCV26333926
SNP Position Genomic:     44949
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3|-,5)   total(G,3|-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63386):
CTAGGAATTCACCCCTCCAACGTGTGTGTGTGTGTGTGTGTATGTGCATATGTACGTGTGTCTGTGCATTGTGTATATGTGTTATGTATGTATGTGTGTA
K
GTGTGTGTACATATGTGTGTATGTGTGTATGTCTATGTGTGTATGTGTGTAGGTATGTTTGTATGTGTATGTATCTGTATGTGTGTAGGTATGTGTGTAT
Celera SNP ID:            hCV26333927
SNP Position Genomic:     45028
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3|-,5)   total(G,3|-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63387):
GGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCACTGCAGTCCAGCCTGGCAACAGACTGAGACTCTGTT
A
AAAAAAAAAAAGAGAGAGAGAGAGAAAGCAAGCAAGAAAGAAAGAGAAAGAAAGAAAAGGAAGGAAAGAAGGAAGGAAAAAGAAAAGAAAAGAAAGAGCT
Celera SNP ID:            hCV26333928
SNP Position Genomic:     47076
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63388):
TCCAGCTTCAGCGTAGGACTTGGTGTCCGCAAGAATGAGGCCCACATCCAGGAGCAGGCCAGTTTCACGTGAAGCCCAGGGCTGAAGCCAGAGGCCACGC
R
GCACCACGTCGGACAGTGTTTATCTGTGCTAATCATGAAGTAACACAAGTGAGGTTTAAAAATACTACGCTTATTTCATTTCAGTGCAGGAGGGAGAAAG
Celera SNP ID:            hCV27990972
SNP Position Genomic:     28915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63389):
GGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCACTGCAGTCCAGCCTGGCAACAGACTGAGACTCTGTTAAAAAAAAAA
R
AGAGAGAGAGAGAGAAAGCAAGCAAGAAAGAAAGAGAAAGAAAGAAAAGGAAGGAAAGAAGGAAGGAAAAAGAAAAGAAAAGAAAGAGCTATGCCCTGGC
Celera SNP ID:            hCV26333929
SNP Position Genomic:     47086
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63390):
CTGAGGGGGCAGTGCCTAGGAGTGGGAGGAAAGAGCATGGGACCAGATTCACTTTGGAAATAGAAGCCCCCAACCAGCAGCCAGCCAGGTGGAGGAAGGC
R
TGCAGAGCTGAGAGGGTTCAGGAGGCGGTGGGGGGAGCCACTGGGAGGGGACCCAGGGGTTCAGGTGAAAGACAGCAGTGGCTCAGCCCAAGGGTGGCAG
Celera SNP ID:            hCV27990973
SNP Position Genomic:     53879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63391):
TTTTGGGCAATAAACCCTACAGCAAAAAGGACTACAGATCCTAAGCCGCCCCCGCCCGCCTGCTCGGACAGTTTCCGTTCCCTCCTAGTCTCTGTTCGCT
Y
GCTTAAGCTGTTTTGAAGCCAAGTGAAGAGTGTGGTTTGCATCCAAGAGAAAACACCACACTGTGATGTCATCGGGAAATGATCTCCCAAGTCGCTGCCA
Celera SNP ID:            hCV25991652
SNP Position Genomic:     113137
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,2)   caucasian(C,40)   total(C,66|T,2)
SNP Type:                 UTR 3


Context             (SEQ ID NO:63392):
ACTCAGCCAGAGCTGGCAGGAGGCGGGGATGCACCTCCTGCAGCTGAGGTTGAGACAAAGCCAGGTGCCTGCCACGGCAGCTGTGGCCTGAGCTGGCATC
R
GTGGCTGATGGCCACAGACTCCCTGATGCCTGTCATCTGTACTGAGGGCTCTGTCCCAGCCCCTGAACCGTACGTGATGCCCACACCACCGATGAGGACA
Celera SNP ID:            hCV27918473
SNP Position Genomic:     17012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63393):
ATTTCAGTGCAGGAGGGAGAAAGAACACACAGTCTGTATGAGCAACTCAAATCAAAAATAAATGAGGCAAAAGAGTCACCAAAAATAGTGTGGCATTAGA
R
ACAGCAGCCTGCGTGGCTCGGCCAGCTGTCCTCGGCTCTCTGCCGGCAAGCAGCACCACAGAGAGGGCTGCGAGGATGCCTTGATGGTGTTTACTCCAGA
Celera SNP ID:            hCV27918474
SNP Position Genomic:     29093
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63394):
CTGCATGCTCTCTGTGCTCCCGTTTTCATTTGGACACTTGGGGTGCAGCTGTCCTGCCTGGAATGCAGCTTTGCCTGTGCTTGTCTCACAGATGCAGGGG
R
CAGAAAAGGGCAGCTTAGCCAGAGTTCCTGGCAAGCACTGCTTTGCGGACTGAGAATCTCATGCCAAGAGGTGTTTACATCCAGGGGCCGGGTCCCACTC
Celera SNP ID:            hCV27918475
SNP Position Genomic:     65779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63395):
TGGGCCAGAGGTTGTTGTTACACCCAGGTCAGGGTGAAGGTGGGGCGGGGAGGGTGGTGGCCTCACTCTATCTGGTGAATTTCATTTTGCTGCACCAGGG
Y
TGACGGGGTGGGTGGGATGCTCCGTGACTCAGACCACCAGTTATTAAAGATCCCAGATAAATTTATTCTGTGCTTACCTCTTCTCCGTCAGCGACTGGGC
Celera SNP ID:            hCV27918476
SNP Position Genomic:     70282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63396):
AGGCTGGCAGGTTTGCAGTCTGTGGACCAGAGTTCAAATCCCAGCCCTGGCACTCTCTGACTGAGGGCGGGTTTGCAGTCTGCAGACCAGAGTTCAAATC
M
CAGCCCTAGCACTCTCTGACTGAGGGACCCCCATCTCTCCAGTGGAGTTGCAAACACCGCCTTATACCTGGCCAGGCCTGGGAGCTTTCCTTGCTGCTGT
Celera SNP ID:            hCV27516840
SNP Position Genomic:     82948
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63397):
GAATAAAGAGAGGCTGGCTGTAGAGGTGGATGTTGGTGGGGGGCCTCGAATGCCTAGCGATGGGGCACAGATGCACTCAGAGGGCACTGGGGAGCCATCT
R
TGGTGTTTGAGCAGGGCAGGGGTCAGAGATCTGCTCTAGGAAGGAAGCCTGGTAGCAGGGAGTAAGACAGGGAAGAGAGAGGCTAATGCAAGGAGACCAG
Celera SNP ID:            hCV27516841
SNP Position Genomic:     59158
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,486|A,983)   total(G,486|A,983) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63398):
ACTGCCTCGGTGGCTGCCTCCTGGCTCCATGAGGAGCCCACGCACCCCGGCTGGGCACGTGGTACACATCATATGATGGAGAAGTGCCCATTTCATGCCC
Y
AGGCTCCTGGGTGGGAGGGCTTTCAGGACCTCTGTGTGAGAGATGAGGACGTCGGGGATGAAGGAGGACCCCCCAGGGGCCGGGCTTATCACACCCCTTC
Celera SNP ID:            hCV27918478
SNP Position Genomic:     101857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63399):
CAGCAGGATGTGACATCAAGATGCCAGGCTTAGGGCCCTGCAGGGTGCTCTTGGGGAGACCCGTTCCTCTCTCTGGGCTGCCTCTCCCTCACCTGTAAGG
Y
AGGGGATGCATGTTCTTGGTGCAGCCTCCAACCCTAGGAAGTAAAATGTCAGGGCTGCCTGGAGCCCATGGGCAGCAGCCTCCCCATGCCTTGGGACTGT
Celera SNP ID:            hCV27516842
SNP Position Genomic:     57044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63400):
ATGCCTCTGCCACAGTATCTGTGCAATAGGGACAGTAAGAGCGCACCCGGCGAGGGTGGCTGGGATGCCCGCAGCGCCCAGGAGAAGGTGCCACACAGCC
Y
GGGGCTCAGCACTCGCAGGCACCGGAGCAAGGCACCGGGGTGTCTGGCTCTTGCTGTATCTTTATTGTCTTCATGCCTTTCCTGTCCGTGTTCATTTTCT
Celera SNP ID:            hCV27918479
SNP Position Genomic:     103949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63401):
GGGCAGAGGCTGATTGGAGTTGGTTTATAAGCCGGAAGAAGAAGAGGAATCGCAGATAAGTGAAGGAAAACTTTTTGAGGAATTTTCTCAAATGGAAGGC
R
AGAAACAGTGGAGAAGAAAGTGGGTCTAAGAAACTGCTTTTTTAGGCCGAGTGAGGTGGCTCACATCTGTAATCCCAGCATTTAGGGAGGCCGAGGCGGG
Celera SNP ID:            hCV8880435
SNP Position Genomic:     50679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63402):
ACGGTGTACAGTTCCCGTCTGTGGCTGCAGGCTGGAGAGCTGACTGCTGGCACAGATACAGCCTGACCTCGGGTCAACACTTCTCGGAGTCCAGAGGGGT
K
GGGAGTGGGACAGGTGGCCTCCCAGGGACGCCTCCCTGAGTGGCCAGTGGTGCCGCTTGTCCCTGCACCTGTAGCTGCCCTGAGCACCCCCACTGGACAC
Celera SNP ID:            hCV8880436
SNP Position Genomic:     49036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63403):
CTGGGCCCTGCACCCCGTCAGCTGCTAGGCTCCCCTCTTGGGTCTGGTGTGTTGGTTTCTGAAGCCTGTTCTCCCAAGTCCCGGAGGTGTCAGGGATCCC
R
GGGCCACCCAGCTTAGCTGTGCCTGCCTCCCTCTGCGCTAAAGGAGCCACTGTGCCAGCCTGGAACTCACGGCATCCCCTTTAGGATGTTGGCTCCACAG
Celera SNP ID:            hCV8880437
SNP Position Genomic:     48577
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63404):
CTCAGGCAGACCACGGTGGTCAGAAGTTGAATTCAGGCCGGAGGAGGAGGAGTGCATGAAGCCCTGAGGTGGGAGTGAGTCTGTCTGCTGGGTTCACAGA
C
CCCCCAGGGAGCCAGTGTGGCAGGGGCCAGTGTGTGAGGGGCTCAGCGGGGGATGTGGCTAGAAAGGTTGTGGACCCACTGTTGAGATTGGACTTTGGCT
Celera SNP ID:            hCV26333930
SNP Position Genomic:     49707
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63405):
GGCGGATCACTTGAGGCCGGGAGTTGGAGACCAGCCTGGCCAACATGGTGAAACTCCGTCTCTACTAAAAATACAAAACTTAGCCAGGCATGGTGGTGCA
Y
GTCTGTAATCCCAGCTATTTGGGAGGCTGGGGCATGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGTACTCCAGC
Celera SNP ID:            hCV26333931
SNP Position Genomic:     50878
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,2)      total(C,2|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63406):
GTGTTTCTGGCACGCGGGGATGGTGGAGGCAGCAAGGGTAGGCCTGAGGGACGGGCAGGACCTCCCCCTCACCTTGGGCTGCACCCCAACCCCACGCACC
G
GGAGTCAGCCTTGCCAGGTTGCAGCACGGAACTGCACTTCCCGAGCTTTTAGGGGAAGAGGCACTCGTGAATAATTCAGCCTCTTTCACTGAGATGAAAA
Celera SNP ID:            hCV26333933
SNP Position Genomic:     60388
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,10)   total(G,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63407):
TCACTTGAACCCAGGATTTCAACGCTGCAGTGAGCCCTATTTGTGCCACTGCACTCCAGCCTGGGCGGCAGAGTGAGACCCTGTCTTAAAAAAAAAAAAA
R
AAGAAGAAGAAGAAGAATGTGACATTATTTGGAAATAGGGTCATTGCAGATATCATTAAGATGGGGCAATGGGGCCATACAAGACTAGAATGGACCCTAA
Celera SNP ID:            hCV26333934
SNP Position Genomic:     68559
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63408):
CTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGGTCGCACCACTGCACTCCAGCCTGGCAACAGAGCAAGACTCCGTCTC
A
AAAAAAAAAAAAAAAAAAAAGCCATATCTAAAACCTTCTCCAGACCTTGAGCCCTCCACAGGCCTCGTTCTGTGCATGAGAGGGCATCCGCCCCCTTCCA
Celera SNP ID:            hCV26333935
SNP Position Genomic:     75405
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63409):
GTGTCTTTTCACACGGGAAAAAGTGGTTCAGAATGCCTGGGCAGAGCCGGAGCTACAGGGATTCCTGCCGCTCGCGTTCCCAAGAGTGCTCACAAATGCA
Y
CTTGCACCCTGCTTTCATTTTTAAACTCTGAATGGCTTTAGGAGGTGCTATTTTCATGGGGCTGGAATTGCAGAACACTTGGACACTGATCACTTGCTGA
Celera SNP ID:            hCV25991156
SNP Position Genomic:     96883
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,34|T,6)   total(C,70|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:63410):
TGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGGTCGCACCACTGCACTCCAGCCTGGCAACAGAGCAAGACTCCGTCTCA
A
AAAAAAAAAAAAAAAAAAAGCCATATCTAAAACCTTCTCCAGACCTTGAGCCCTCCACAGGCCTCGTTCTGTGCATGAGAGGGCATCCGCCCCCTTCCAC
Celera SNP ID:            hCV26333936
SNP Position Genomic:     75406
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63411):
ACCGTGGATATTTCATATGAATGGAATCATACGTGTTCTTTCATGACCGTCTTTAACTTAGCATCATGTTTTCAAGGTTCATCTGTGCCTGTGCCAGTAA
T
TTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCCCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCTCCCGAGTTCAA
Celera SNP ID:            hCV26333937
SNP Position Genomic:     77913
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63412):
CCCATAGCCGCCACCCGGTGCGCCCCTTTCCTGAAAGAAAACTCAGCTTTTCTTATGTTCTCCTTTAGGGAAAATCCCAGCTCTGCCTACAGGAGCAATA
K
TGCTGGCAGCTGGAGTGGTTTTAATAGGAAATTGAAAAATAAACCTAGGCAATTTTAAAGTACCTTCAGTTTGGTGACACGTTCAACTGTTTTCAAGCTG
Celera SNP ID:            hCV26333938
SNP Position Genomic:     85455
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63413):
GCCAGTGCTCACAGGAGCCCATGAAGGGATCAAACTATGCTAGGAACCCTAAAATGACGTAATGCCTGTCGGAGCCACCACGGTGGTTTCAGGTCTCCAG
C
CCTCCCATTGTTAGGTGCCCTTTCTGTGGCCTCACACTCCCCATTAGAAGCATGTGTTCAAGACAAGCTGGACAATAAAAATTTAATAGATGTAATGGTT
Celera SNP ID:            hCV26333939
SNP Position Genomic:     90915
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63414):
CCACAGCCAAGATTCCCAAAGTCAAGGCCCAAAGATTTCCAAGGTTCCCAAAGTCAAGGCCAGGCCAAGGCCTGGTTGGGTCCTTGGGGCGGGCAGGGCC
R
GCCTCTCCTCTGCTGAGAATCCCCACTTGGTGTAGGGGGAGAGGGGAAAGGGGTCTGGCCCATCGAGGGGCCCCTTCTGCCAGGGCCTTGGTTGCTGGGG
Celera SNP ID:            hCV27918480
SNP Position Genomic:     113478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:63415):
TGAGCCCCTGTGTCTCCTTCCAGGAACATGGGTGACCTTCGGAGGCCAGATCACCGATGAGGTAAGATGGGGCTCTCCCAGCACCCCAGAACCCAGCACG
R
GCTCGCCAGAGCACATGGTTAAGTCTGCCGCGTGGACCAGTGAGCACGTGCTCCCGGGAGCCAGCGCAGCAGCCTCCCTCCCTCTTTCTGTTTTGTGAGG
Celera SNP ID:            hCV25999585
SNP Position Genomic:     88313
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,27)   caucasian(A,1|G,35)   total(A,6|G,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:63416):
CAGGACGTCACACCTAGCCCAGAACAGCCCCCCTCTCTCCATCCCTTCTGCGATGTTCACTAGGCATTACCACATGCTGGTGGCCGCTCTGGGTGCGGGG
K
TACATCCGTGAAGGAAAGAGATGAAGCTCCCTGCCCAGAGGAGCTGACCTCCCAGCAGTCTTACAGGATATGGTTACAGAGGTGAATCTGGGGGAGAGTC
Celera SNP ID:            hCV8880446
SNP Position Genomic:     43111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63417):
CTTGACCCCAGTGCACTCAGAGTCAGCACCTGCCTTCGTTGCAGCATTGACCCTCTGCCATCAGATCCCACCCAGGGAAGGAATGGGCTCCTGTGTGGGC
K
CCTGGCTTCTGGGTGAGAGGGGAAGTGTGTGTTGTGTAAGTGCCCTTCTGTGTCATGCGGTTTTGAGCAGTTATACCTCTTCCTGTCTCCGCTGGAAGCA
Celera SNP ID:            hCV8880447
SNP Position Genomic:     42713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63418):
AGCTGGGCTTGGTGGCATGCACCTGTAGTCCAGCTACTCAGGAGACTGAAGCAGGAGAATCTCCTGAAGCCAGGAGGCAAAGGTTGCAGCGAGCCAAGAT
Y
GTGCCACTGCACTCCCGCCTGGGCAACAGAATGAGACTCCATCTCCCAAAAAAAAAAAAATAACCCCAGTCTTGGATATTCTGGACATGTGATACCCCTT
Celera SNP ID:            hCV26333941
SNP Position Genomic:     93976
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63419):
AAGCAGGAGAATCTCCTGAAGCCAGGAGGCAAAGGTTGCAGCGAGCCAAGATTGTGCCACTGCACTCCCGCCTGGGCAACAGAATGAGACTCCATCTCCC
A
AAAAAAAAAAAATAACCCCAGTCTTGGATATTCTGGACATGTGATACCCCTTGGATGAACCTTGAACCTTGAGGACATTACACTCACTGAAACAAGCCAC
Celera SNP ID:            hCV26333942
SNP Position Genomic:     94024
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,6)   total(A,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63420):
GTATTGTGAGTGAAAAAATCAAAGTGCAGAAACATATGGGTAGTGTGCCACCCCTCCTGGAAGAAAGATGGGGGATAAGAAAATACATGTGTCTGAAATA
Y
AAAAACAGAAAACGGAGCCCTGGGTCCCCTCCTCTGAGAAGCCCTGCCAGGAGCGTGAGTGCCCTAACCACAGACTTAGCCCCTTCGGGGCCCAGCGCAC
Celera SNP ID:            hCV26333943
SNP Position Genomic:     94584
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63421):
CTCCTGGGCTCAAGTGATCCTCCTGCCTTAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCAGCCTGATGTGTTCTTAATTTAAAAAA
T
AATAATAATAATAATAATAATAAGTCCAAATCAAACAGACGGGTTAGGTTGAAAATCAAAGCCCCCCACCCCCTGCTGCTGCCCCCCTCCCCTCTGAGCC
Celera SNP ID:            hCV26333944
SNP Position Genomic:     103215
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63422):
GAGTGGGTCTTCAGCAGGGGCACCCTGCCCCATGCCTCTGCCACAGTATCTGTGCAATAGGGACAGTAAGAGCGCACCCGGCGAGGGTGGCTGGGATGCC
Y
GCAGCGCCCAGGAGAAGGTGCCACACAGCCCGGGGCTCAGCACTCGCAGGCACCGGAGCAAGGCACCGGGGTGTCTGGCTCTTGCTGTATCTTTATTGTC
Celera SNP ID:            hCV26333945
SNP Position Genomic:     103918
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63423):
TAGGTGGTCTGCGGCGGCGCCACCGGTTAGGCCTGGGCGGGGTCTGAAGGGTCTGAACCTGGGGTTGTAGAGGCCGCCAGCATGGGCCCTGCTGGGCACC
Y
GGGTGAGCCGTGAGAGGAGGCCGGGTCCAGGGTGGGGGGCGAGGGGGCAGGCCTCCCCTCAGTAGGGGGTGAACTCAGCCTCTGGCTGCAGACCCCTCGC
Celera SNP ID:            hCV26333946
SNP Position Genomic:     105083
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63424):
ATTGACCCCAGGAGAGCAGGACTTTCTCTGAAGGCCAGCTGTCCACACACACTAAGGACACCCTGGCCACAGAGCAGCACAGAGGGACACCTGTGGCTGC
Y
CCCTGTGCCCTACAGCCTGAGGTCTGAGCACCGACGGGATAATCTGGCTTCCTGCCAGGTTCCTAACTTGAGCCCCTGTGTCTCCTTCCAGGAACATGGG
Celera SNP ID:            hCV25997483
SNP Position Genomic:     88144
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,13)   caucasian(C,37|T,1)   total(C,60|T,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:63425):
AATGCATAAAGAGGGGAAAGAGCACCCTATGAGAACACCTTGCAAGTGAAGGAAAAGCAAAGTGGTGTTGGAGCCCCTCGCCCCCAGCCCCCCATCCCCT
Y
GTTCCTCCTTCCTCCCGTGCATGGCCCCCACCCCTGGGCTTGCACTGCTGAGCTCCGCGGCGGCCGGGGGTCCTCTTGATCTGAGGATGCTGTGATCCCC
Celera SNP ID:            hCV26333947
SNP Position Genomic:     106023
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63426):
ATTACAGGCATAAGCCACCACACCCAGCCAGGCGTGGCCTAAAAGGCTGTGTTCCTGGAGGAGATGTTGTCCTGGAACAGGGTTCAGCAAAAAAAAATTT
Y
TTTTTAGACAAGATCTCACTCAGTTGCCTAGGCGGGAATGCAATAGTGTGATCATAGGCGACTGCAGCCTTGACCTGCCAGGCTCAAGCAGTCTTCCCAC
Celera SNP ID:            hCV15935170
SNP Position Genomic:     32466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63427):
GCCCTGCCCCCATGCAGCTCCCAGGCAAGGAATTGGCATAGGACACTGTGCCAATCAGCTGTCCACCAAGTGCTGCATAACAAACAACTCCAAAACTCAG
Y
GCCACGCAGCAATCAGCATCTCTTCCTTGCTCCCGTGTCTGCGGGTTGACCAGGCAGCTCGTCTAAGCTGGCTTGGCTGGGTTTGTCTCCAAGCTGCAAG
Celera SNP ID:            hCV27522845
SNP Position Genomic:     58361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63428):
GTGGGGCTCCAGCCCCCAGAGGAGCAGGACAGCATGTGCTGTACACAGCAAGAGGATTTGCACTTTTGCCTTAATTTTATTACAGACGGGGTCACCTTCC
Y
TTTTTTTTTTTTTTTTTTTTTTTTTTGTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGGGATCTCAGCTCACCACAACTTC
Celera SNP ID:            hCV15935171
SNP Position Genomic:     29558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63429):
TGCCAAAACCGCTGGTGACATCACACGCGGTCGGCCTGTTTTCCAGGGCGGAGACGGAGCGGGGCCTGTCCAGGAAGCACATAATCGAAGGTGAGGACGC
R
CTCGGGCACCTCAGGGCCCCCATACCTGTGGGATCATCCTCGGAGGCCAAAGTGATGGCAGCACAGGGCCCGACCCCCCCAGTTAACCCACTGAGGGCCC
Celera SNP ID:            hCV16177674
SNP Position Genomic:     103568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63430):
ACAGAGGGAACCAAGTGGCCAGTGGCCACAGTGGGTCTGGGTTTGATTTTTCTGTTTGGCTGTGATGAGAGCTCGGTGTCTTGTTTTGCAGGGCTGAAGT
R
GTACTGGGAAACATCATTAAGAAGAAAGGATGGAGGTAACGGCCCTGCTCTCTGCGGCCTGTCCCTGGGGTGGGTGCGGGCGAACTATCCCGGGGTCAGC
Celera SNP ID:            hCV25994077
SNP Position Genomic:     99723
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,37)   total(A,1|G,69)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63431):
CACGGCATTTGCTGACCCTGTTTTTGCGTCTAACATTGCATCGTAAACGTTTTTTGGGAGGGGCCAGGGTGCCAAAACCGCTGGTGACATCACACGCGGT
Y
GGCCTGTTTTCCAGGGCGGAGACGGAGCGGGGCCTGTCCAGGAAGCACATAATCGAAGGTGAGGACGCGCTCGGGCACCTCAGGGCCCCCATACCTGTGG
Celera SNP ID:            hCV16177675
SNP Position Genomic:     103499
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63432):
AGCCAGGAAGTACACTGCTTGCAAGACATCTTCGCAGCCCCTGTCCCTCCTCCCAGCGTCCTGCCTGTATTTGCAGAATGTCCCGAGGCTGGCCCTGAGC
Y
CTGGCTGCCCCCCACCTGCGGTTTCCCTTTCTCTCACGACAGAGACCGTCCGCGCCATGACCCACGTCATCAACCAGGGGATGGCCATGTACTGGGGCAC
Celera SNP ID:            hCV16188740
SNP Position Genomic:     108863
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,7)   caucasian(C,29|T,5)   total(C,56|T,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63433):
AGCTGTGTACCTATGCCAGGAGAGGGGGTGCCAGCCTCCCTCCTGGAATCACACACACGGGGGTGGCCTGGGACCAGGGACTCAACACGGTGCAGGTGGC
Y
GGCACCATGGGAGATGGAATGTTCCACCCGAGTCCTCCCTTTGCCTGGTACCCCAAAGAGCTTGGGCTGTGCCCAGAGTGAGTCACCAGAGAGCCTGGCC
Celera SNP ID:            hCV8880455
SNP Position Genomic:     39871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63434):
GCCGGGAACACACAGCAGCACCCCTGGTGTAGGCTTCAGAGCTGTGTACCTATGCCAGGAGAGGGGGTGCCAGCCTCCCTCCTGGAATCACACACACGGG
K
GTGGCCTGGGACCAGGGACTCAACACGGTGCAGGTGGCCGGCACCATGGGAGATGGAATGTTCCACCCGAGTCCTCCCTTTGCCTGGTACCCCAAAGAGC
Celera SNP ID:            hCV8880456
SNP Position Genomic:     39832
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63435):
TGGGCACAAAAGAAACAACCACCCAATCCAGGGCTGGGGAGGAGCCCTGTCAGAGGACAGCACCAGCCTCCCCACGTGGATGCCCGACCAGCATCTGAGG
Y
CAGACACAGCCGCCACTGGCTCCAGGGCTCCCCCACACCACTGCACCCACAACTCCCCTGTTTCAGAAACTGACCACTCACCTCTGGAAACCCAGGAGCC
Celera SNP ID:            hCV11398403
SNP Position Genomic:     28078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63436):
GAAAGCGGATTTGTGTGTCACATCCCCAGGAGAGGAGGTTATGGTCTCACAAGAGGAAAACCCAGCAGAATCCCAGAGTTGGCTGGAAAGTCAACAAACC
R
CCTAAAACTCACCCACAAAATACCGTGACCAGGAGTATGCATGGAGACAGTGCCGAGCTCCGTACAGGCCGTCTGACTTCAGTGAGACCCCCTCCCCACC
Celera SNP ID:            hCV8880461
SNP Position Genomic:     31543
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63437):
GCGGTGTGACTCGGGCGGGGCAGGCAGTAGACGGCAGCGGTGACACTGCAGTGACGCTATGGAGCATGGACACTAATACGTCCCACTGGACTTCTGCGTG
R
GCCCCAGACAGGAGCTTGACCAGCGTCAACTGGACCTGCTGCATCTGATCCTCTCCCAGAGTGAGGTTTTGAACAGAGATGGGCAGAACACCACTAATCA
Celera SNP ID:            hCV8880462
SNP Position Genomic:     31301
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63438):
TGTCGCAGTCATGGCCCAGTGCAGCCTCCACCTCCCCGGGCTCAAGTGATCCTCCCACTCAGCCTCCCAAGTAGCTGGGACCACAGGCATGCGCCACCAC
R
CCTGGCTAATTTTTGTATTTTTTTGTAGAGACGGGGTTTTACCATGTTGCCCAGACTGGTCTGGAACTCCTGGGCTCAATCTGCCCACCTCGGCCTCCCA
Celera SNP ID:            hCV8880463
SNP Position Genomic:     30404
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63439):
GGTCAGGGGAGCCAGGGGGCCAGAGAAGGGAGTGGCTCAGAGAGCTTGGGGGCCTGGGGTTGGATCCCACCCTGCACCTTGTCCACAGGATCTTCGCGGC
R
TCTCAGCCTCTCCGGAGCTCACTGTTCCCATCTGTAAGAGGGTGTGTGTGGGACCGTTCCGGCAGGGCTATCCTGAGGGTCAGTGGCCCCAAGTCTGTAA
Celera SNP ID:            hCV27494318
SNP Position Genomic:     100262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63440):
AGGGTGGCCCAAACCTTGGCACTCCCCAGGGAGTAGCTGCACCCAGAGCCCAGGATTCAGGGGGGCTCGGTTGCCATGGCAACAAAGAGGCAGGTGGGAG
S
GGGGCTGGGATAGAGGGAGAGAGACACAGTCTCAGCAGAGGAGGTGAGGCGGATACTAGGGGCCCCTCCACACATGGTCCCCACCCCACACCACAAAATC
Celera SNP ID:            hCV27513392
SNP Position Genomic:     87489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)   JBIC-allele(C,532|G,949)   total(G,949|C,532) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63441):
GGCCCTGCTGGGCAGAGGGCCCATCCCAGCCCGAGCCCCGTCCAGTGCATCCTCCCAGGCTCGTCCTGCGTGCCAGGCTCTGTTCTAGGCACTCAGGATG
Y
GCCCGTGAACCATCAGAGTTGTGCTCCTGGAGAGCTTGCTTTCCAGCAGGAACAGACATGAACACTAACTGCACGAAACAAGGAGGTTAGAATGTGTGTC
Celera SNP ID:            hCV8880398
SNP Position Genomic:     111976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63442):
CTGGGGAAGGTGCAGGGAGAGAGGATGGAAGCAGAGAGCTAGGAGGCTATTGTGAGAAACCACCCAAGAGCCGCTGGAGGCTCAGAGCAGGGTGGGCACC
R
TGGAGGTGGGGAGACGGGTCAGATTCTGGACTAATTTGCAGGGGAAGCCGCGGCAGGGGCTGAACTTCAGGCTCCAGTGATGGGAGGATTAGTCAAGGAG
Celera SNP ID:            hCV8880399
SNP Position Genomic:     93492
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63443):
GGGCCGGGGGCAGTTGGCACTTTACCCCCGGGGTGGGTGAGCAGAGGCACCTCTCTGAAGGTCCCCGGTGCCTTTCGGAGCCTCCAAACACACATTGACT
S
TTGGGGGAGTGGGTGGGGGGCTGGCCCTGGCGGGAACTGAGCCTGGCTGGCAGGGTCCTGCCTGGGTGCTGAGAACTCACGTGGCGTTTGTTTTTCAGGA
Celera SNP ID:            hCV25992701
SNP Position Genomic:     87159
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,38)   total(C,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:63444):
GGAAACATCATTAAGAAGAAAGGATGGAGGTAACGGCCCTGCTCTCTGCGGCCTGTCCCTGGGGTGGGTGCGGGCGAACTATCCCGGGGTCAGCCTCGTC
R
GCCTGTCGTGCAGTGTCGTAAGGCCCGCAAGTCCCCACATCTTTCTTGCTGGGAAGTGGAGAGGAAAATTCAGTTCTCCAAGAGGAGGAGGTGACTCTGC
Celera SNP ID:            hCV25994817
SNP Position Genomic:     99830
SNP Source:               Applera
Population(Allele,Count): african american(G,22)   caucasian(A,1|G,29)   total(A,1|G,51)
SNP Type:                 INTRON


Context             (SEQ ID NO:63445):
GTGAAAGACAGCAGTGGCTCAGCCCAAGGGTGGCAGCCAGAGATGTGGGTGGACGGCTGGATATTGGCAGCCATACTCATTATCAATGCTGCTGTAACAG
Y
TCATCACAAACCCTGCAGCTTCCAACTGCCCAGAGTGAGATCTCCTGGTTCTTGTGGGTCAGGCATTGGGGCAGAGCAGGGCTGGGTCTGCTGTTTTGGG
Celera SNP ID:            hCV27497671
SNP Position Genomic:     54044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63446):
CGTGCCCAGCACTGCAGGGCTTCCTAGACCCCCTCAGACCCCCAGACCAAGATGCTGGGTCTCTCGGCCCAGTCAGAGGCAAGGCAGACCCATCAGGGGC
Y
CCTGTGGTGGGTGTTTCTCCCTCACCTTGGGTCTCGCCGCCACAGCCTGGTGCCTGAGGAATGAGGGAGTCAGCTCCGTGCTCCTGGGGGCCTCCAATGC
Celera SNP ID:            hCV25997229
SNP Position Genomic:     111729
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,1)   caucasian(C,19|T,3)   total(C,42|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:63447):
ACTATGTGGATGGACTGTCACTTAGGTAACCAGTTTCCCTACTGATGGACATTTACATTGCTTTTAGTTTCCAAGAATGTGCATTCATCATTTCAGCTAT
W
TTTCAGTGGTTCTTCACATAGAAACTTTGAAACTCCCCTGTCCCAACTAAGCCTATTTCCCCAGGCCACTCTCCTCCGCAACCTGCTTAAATGCATTCTG
Celera SNP ID:            hCV592963
SNP Position Genomic:     65232
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,11)      total(A,11|T,3) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63448):
CCTGTGGTCACAAGTTCCTTCCCGCCCTGCCTGCTGGCCCCTGGTGGTGGATTTTTCTTTCCACAGCATTTATCATAATTGGTGTCTTATCCCACGCCCC
M
CAACAGACTGTCTTCTGGCTGCGTCACCAACTCCCACCCAGTTGTCCAAAGCCTCATCTCATGCAGCCCACAGCAGCCTGGTACAACAGGCCTCTGCCCA
Celera SNP ID:            hCV592964
SNP Position Genomic:     62820
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63449):
CCACACCCAACTTCAGAGCCAGGAAGTACACTGCTTGCAAGACATCTTCGCAGCCCCTGTCCCTCCTCCCAGCGTCCTGCCTGTATTTGCAGAATGTCCC
R
AGGCTGGCCCTGAGCCCTGGCTGCCCCCCACCTGCGGTTTCCCTTTCTCTCACGACAGAGACCGTCCGCGCCATGACCCACGTCATCAACCAGGGGATGG
Celera SNP ID:            hCV16188776
SNP Position Genomic:     108847
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63450):
TCTCCGAAGAGATGAAATTTGAGCAGGAACCCCAAGGAACAGCATCCCAGGTAGAGGGATCTGAGTCTGCAAAGGCCCTGGGCACAAAAGAAACAACCAC
S
CAATCCAGGGCTGGGGAGGAGCCCTGTCAGAGGACAGCACCAGCCTCCCCACGTGGATGCCCGACCAGCATCTGAGGCCAGACACAGCCGCCACTGGCTC
Celera SNP ID:            hCV592965
SNP Position Genomic:     28000
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63451):
AGGTAACGGCCCTGCTCTCTGCGGCCTGTCCCTGGGGTGGGTGCGGGCGAACTATCCCGGGGTCAGCCTCGTCGGCCTGTCGTGCAGTGTCGTAAGGCCC
R
CAAGTCCCCACATCTTTCTTGCTGGGAAGTGGAGAGGAAAATTCAGTTCTCCAAGAGGAGGAGGTGACTCTGCTTGAGAAAGAAGTTGAAGGGAGGCCGA
Celera SNP ID:            hCV16188777
SNP Position Genomic:     99857
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,519|G,908)   total(G,908|A,519) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63452):
TAGGCGCTTGGCAGAAGACACACTTGTGACGCTCAGAGCTCTCTGGAGCAGCCTCTCCGAAGAGATGAAATTTGAGCAGGAACCCCAAGGAACAGCATCC
S
AGGTAGAGGGATCTGAGTCTGCAAAGGCCCTGGGCACAAAAGAAACAACCACCCAATCCAGGGCTGGGGAGGAGCCCTGTCAGAGGACAGCACCAGCCTC
Celera SNP ID:            hCV592966
SNP Position Genomic:     27947
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63453):
GGGAAACATCATTAAGAAGAAAGGATGGAGGTAACGGCCCTGCTCTCTGCGGCCTGTCCCTGGGGTGGGTGCGGGCGAACTATCCCGGGGTCAGCCTCGT
Y
GGCCTGTCGTGCAGTGTCGTAAGGCCCGCAAGTCCCCACATCTTTCTTGCTGGGAAGTGGAGAGGAAAATTCAGTTCTCCAAGAGGAGGAGGTGACTCTG
Celera SNP ID:            hCV16188778
SNP Position Genomic:     99829
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,1)   caucasian(C,30|T,2)   total(C,51|T,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63454):
TCAGGTGAACAGTCACACAGGCTGGGGTAGGCGCTTGGCAGAAGACACACTTGTGACGCTCAGAGCTCTCTGGAGCAGCCTCTCCGAAGAGATGAAATTT
K
AGCAGGAACCCCAAGGAACAGCATCCCAGGTAGAGGGATCTGAGTCTGCAAAGGCCCTGGGCACAAAAGAAACAACCACCCAATCCAGGGCTGGGGAGGA
Celera SNP ID:            hCV592967
SNP Position Genomic:     27920
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|G,9)      total(G,9|T,2) ;no_pop(G,-|T,-)   ;(G,-|T,-)   TSG_42_G(G,33|T,45)   total(T,45|G,33)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63455):
GGGGTGGGCCGCCCCATCTTCCCCTTAGCTGATGGGCAGGCTGGATGGGCAGGGAGGGTCTTTCCTGGGAAGGTAGTGGCCCGGGAGCTGGGCTGGCCCT
Y
GAGTGTTGAAGATTTAACTTGAAAGCCATGAGGGCGCTCTTCCCCAGAAATCATCGTGGAAGCGGCGAATGAGTGGCAGGAGGTGCATGGAGAGTCCTGG
Celera SNP ID:            hCV592968
SNP Position Genomic:     25343
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63456):
CATGGGCTGAGAAATGCTCCTGGTATCAACAGAACTGCAGCAGATGATGAAAACAAGGCTGTGATCAGGGAAGTGGCTGAGGGAGTGAGGCCCCCGAACC
R
CCACCCCAGAGCTCTGTCCCAGGCCCCTGGGGTCTCATGCTGTGACCTCCTGCGCCACATGGGGAGAGGTCACCTGGGGGACTTGTTTCCGTGGGAACCT
Celera SNP ID:            hCV592969
SNP Position Genomic:     23290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63457):
TCCCTCGTTCGTTTGAAGGACTCCTTTCTTTGGGCTGTTGGGCTGAGGGCTCAGCTTCTCGCCAGCTGTCGGCCCGAGGCTGCCCTCAGTTCCTGCCCCA
R
GGGCCTCTCCAACACCACAGCTTGCTTCATCAGAGCCAGGAGGGACAGTCTCTAGCAAGACAGAAGTGACAGTCTTGCCATTACCTTTGCCGTGTTCTGC
Celera SNP ID:            hCV27478804
SNP Position Genomic:     54326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63458):
TCTTTCCACGACCTGGTTCCTGGATGTCCTGCTTGCTCCACACCCATCTACAGGGAGGATGTGAGGGGGCTCTGCCTCCTAGGGCCAGGTCCCCCCTCTC
R
GGAGGGGGTATTGGGTAGGACCATCCAAGAAAGGGCAGAAGACCAAGGGCAGTCGGGGTCTAGAAAGGAGGGCGCTGGCCCTGCTGGGCGCTTCGGAGCC
Celera SNP ID:            hCV27486756
SNP Position Genomic:     115317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:63459):
AGAGCAGCTCATGACCTTGGCCTATGATAATGGCATCAACCTCTTCGATACAGCAGAAGTCTACGCAGCCGGCAAGTACGTGTCTTTTCACACGGGAAAA
M
GTGGTTCAGAATGCCTGGGCAGAGCCGGAGCTACAGGGATTCCTGCCGCTCGCGTTCCCAAGAGTGCTCACAAATGCACCTTGCACCCTGCTTTCATTTT
Celera SNP ID:            hCV25991859
SNP Position Genomic:     96804
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,40)   total(A,75|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63460):
GCAGAAACCATCCCAGCACGTCCCCATCAGGTGTTCCCAGGTGGCAGGCAGAGAAGGCCAAGGTCCCTTGAGTGGATTTCCAGGGGAGCTGAAGGGCTAC
R
GCCCTGCCAGGACTGGGAGGTACTGGGAGGGGCTGGACAGCTGAGAGCGGCTGCCCCCCTGCAGGAAGAGGAGGCAGGCGCTTCACCCGACTCTGGACGA
Celera SNP ID:            hCV592970
SNP Position Genomic:     17270
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;WICGR7_african_american_pooled(G,18|A,82)   WICGR8_asian_pooled(G,37|A,46)   total(G,55|A,128)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63461):
ATTTTTTTTTTCCCTGCGCCAGTCAGCAAATGCTTTGTAGGTGCTAGTCAACACCTGGGGGCTGAGCCAGGCACTGGAGTTGGGGGGTGTCGTGAAAAAG
Y
GTGAAACCCTTTTCGTGTGTTTCTTGGTTGAGAACCGTCTTGGGTCTGGATTTGGAGCCTGGATGGGAAGCAGTGTGCACAGAAGCCATTGCACCCGGGA
Celera SNP ID:            hCV592971
SNP Position Genomic:     9164
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;(C,-|T,-)   Asian (pooled) - WICGR(C,3|T,81)   total(C,3|T,81)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63462):
GCTGAAGTGGTACTGGGAAACATCATTAAGAAGAAAGGATGGAGGTAACGGCCCTGCTCTCTGCGGCCTGTCCCTGGGGTGGGTGCGGGCGAACTATCCC
R
GGGTCAGCCTCGTCGGCCTGTCGTGCAGTGTCGTAAGGCCCGCAAGTCCCCACATCTTTCTTGCTGGGAAGTGGAGAGGAAAATTCAGTTCTCCAAGAGG
Celera SNP ID:            hCV16188788
SNP Position Genomic:     99815
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,23)   caucasian(A,9|G,23)   total(A,14|G,46)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63463):
CTCCATGTATCCAGAATCAACGACGGGCTCCCCGGCTCGGCTCTCGCTGCGGCAGACGGGCTCCCCCGGGATGATCTACAGGTGACCCCCTGCCCCCTCA
Y
CCAGGCCCCCTCCCAGGGTCAGTCCTGCTTCGAGGACGGGTTCCCAAGGCCACTGTCCTCCCCTCTGGAGGTGGAAGGGCCCAAGCAGGGCCCACAGGCT
Celera SNP ID:            hCV16188789
SNP Position Genomic:     55168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63464):
TTGACCAGGCAGCTCGTCTAAGCTGGCTTGGCTGGGTTTGTCTCCAAGCTGCAAGTTGGATCCCCATGTCCTCCATCTTCCCATGCTTAACTGGGGCCTA
Y
CCCAGGCATGTCCTTCCCATGGCAAAAGTACCAGAGGAAAAGCAGAAACATGCAGGGTCTCTTACGGCCTATGGTTGGGGTCAGAGCGCTGTCACCTCTG
Celera SNP ID:            hCV1255700
SNP Position Genomic:     58507
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,11)      total(C,11|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63465):
CAACTCCAAAACTCAGTGCCACGCAGCAATCAGCATCTCTTCCTTGCTCCCGTGTCTGCGGGTTGACCAGGCAGCTCGTCTAAGCTGGCTTGGCTGGGTT
Y
GTCTCCAAGCTGCAAGTTGGATCCCCATGTCCTCCATCTTCCCATGCTTAACTGGGGCCTACCCCAGGCATGTCCTTCCCATGGCAAAAGTACCAGAGGA
Celera SNP ID:            hCV1255701
SNP Position Genomic:     58445
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63466):
CCTGGATGTCCCTGGACCCCCGCCATCCAATGTCCAGCTTCAGCGTAGGACTTGGTGTCCGCAAGAATGAGGCCCACATCCAGGAGCAGGCCAGTTTCAC
R
TGAAGCCCAGGGCTGAAGCCAGAGGCCACGCAGCACCACGTCGGACAGTGTTTATCTGTGCTAATCATGAAGTAACACAAGTGAGGTTTAAAAATACTAC
Celera SNP ID:            hCV27969382
SNP Position Genomic:     28883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63467):
GGGTCTCTGCCCCGTGGCCACCGGGTGGCGCTGCTGCAGAGCACTTGGCACCGGCTGCGCTTCCTCAGAGACTGCCCTGAGCAGGCGACTGGTGGGGGCC
Y
GGGGGCATGGGACATTGGTGGTTCTTTCTGACCTGCACCTGCTGGGGTTGATGCCAACTGTGGACTCTCTCTCTTCTCTCCCTTTCTCCTTTTTCTCTTT
Celera SNP ID:            hCV1255703
SNP Position Genomic:     56214
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,34|T,6)   total(C,70|T,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63468):
GACCAGGGCGACATGTGGGGATCTGACAGAGTGGGCTTGGGCCTTTGGGGACAAACCATTTCAATTGCCAAGGCCTTCGCAGCTAGTCACCCGCAGCCAG
R
CACCTCCAGACTCTACGTGCTCTCCCAGCCTCCCACTTCATTTACCTTCCACACTGCGACTGGGGCACTGATTTCCTGTCCCCCACCTTCCCCCATGGCA
Celera SNP ID:            hCV27969383
SNP Position Genomic:     59597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63469):
TCGGGCCGCAGCACATCCCTCGAGAGCAGCATGGTAGGGGCTTCCCTGTTGACACCCAGGGCCATTTTTTTTTTCCCTGCGCCAGTCAGCAAATGCTTTG
K
AGGTGCTAGTCAACACCTGGGGGCTGAGCCAGGCACTGGAGTTGGGGGGTGTCGTGAAAAAGTGTGAAACCCTTTTCGTGTGTTTCTTGGTTGAGAACCG
Celera SNP ID:            hCV29072447
SNP Position Genomic:     9101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63470):
CCCCTGGGCGGTCTCTTCTGCACCATGTGGGCAGCAGAAACTACACCTACGGTTTCAGAACAACAGTTGGGGTGGTGTGGAAGGACCTCCACGACATATA
R
GGTGGGAGTGTGGAGTGATGGAGTGTGGAAACCCTTCTCACAGTTGTCACCTGCTCTCCAGCCCCTCCTGAGCCCGTGGACCTGCCTGCCTGCCGTGTGT
Celera SNP ID:            hCV1255704
SNP Position Genomic:     54756
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,8|G,26)   total(A,10|G,62)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63471):
CACCAGGTCCGTGGTGGGATGAAGGAAAGGAGGGACCCTCCCCACACTGGAACTACACTCATGACCTCAGTTCGCCTCCGGCACTTGTAAACAACCCTGT
R
AGGGAGGCTGGATAGGGAAACTGAGGCACAGAGCAGCAGTGAAACTGATCCTGGCCTCCCAGCTAGTGAGGAAACCTTGATTCTGTTCCTGCCCTGCCAG
Celera SNP ID:            hCV29072448
SNP Position Genomic:     10298
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63472):
GAGGAGCCGCAAGCGCAAGCATCCGCAGACAGTGTGAGCTCAGCGTGCTGGGAAGGCGGGGGCCTGGGTCAAGGGCCAGGCGGCAGAGCATAGGGGCCTG
R
GGGGGCAGTGCCTAGGAGTGGGAGGAAAGAGCATGGGACCAGATTCACTTTGGAAATAGAAGCCCCCAACCAGCAGCCAGCCAGGTGGAGGAAGGCGTGC
Celera SNP ID:            hCV1255705
SNP Position Genomic:     53782
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,1)      total(G,1|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63473):
GGTGGGCCAGCTGCTGCCAAGGAGGCAGCCTCTGTTGAGAGGGGAAGCAGAGCTGGGCTCCCAGGAGCAGCGAGGGGGCGCAGGACCCCAGATTCAGCAC
Y
ACCAGCTTCCAAGCACTCGCCAACCAACTTATACCCATCTGACTGAGGCAGAAACACTGAAAGTCAAAGTGGCTTCCCTAAGGCCTCCAAGCTACTAGGC
Celera SNP ID:            hCV29072449
SNP Position Genomic:     13305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63474):
GAGGCGTCCAGGGAAGACCTCCATGAGAAGGTGACCTTGGCATAAAGAGGCAAACGTGGGAGCATGCTCAGGCAGACCACGGTGGTCAGAAGTTGAATTC
R
GGCCGGAGGAGGAGGAGTGCATGAAGCCCTGAGGTGGGAGTGAGTCTGTCTGCTGGGTTCACAGACCCCCCAGGGAGCCAGTGTGGCAGGGGCCAGTGTG
Celera SNP ID:            hCV1255707
SNP Position Genomic:     49641
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63475):
GAGACGAGTAGGTGGAGGAGAAGGCGTGTGAGCAGGTGACAGGCGCTGGGGAGAAACAGCCCAGGGGAGGGACCAGGGAGTGTGGGGGAGACGGGGACTG
Y
GATGAAAGGGAGGCGTCCAGGGAAGACCTCCATGAGAAGGTGACCTTGGCATAAAGAGGCAAACGTGGGAGCATGCTCAGGCAGACCACGGTGGTCAGAA
Celera SNP ID:            hCV1255708
SNP Position Genomic:     49531
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63476):
TCCGGAGAAAGCTGCCCTTGTTCCACGTGCGAGCCCTGTCCCCAGCGCCATGGGCTGTGCTACCTGCAGTAACGCAGACTGCGAGCCCCGGCTGCCTCTC
Y
AGTGCTCTCTCTCCTCTGGCCTTCAGCAGGCTGGGTCACAGAGGTATCCATCCACTCATTCATTCACTCAACAAATATCTGTTCCATGTCTACTAGGTGC
Celera SNP ID:            hCV1255709
SNP Position Genomic:     49253
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63477):
CCAGGCTTTGCAGACCACGCGGGGCAGGGCTCCACTGAAGCCACCCCCACCCCTCGCCAGCTAGCTCCATAGGGAAGCCTGTGTCTCCTGCCCCCAGGGC
R
CACCCTCAGTGCAGGCACCTCTGTTCCCGCTTTGCCCCTGGAGGAGCCACTATTCCAGAAGGCTCCACCCTGCCGTCCTGCGGGAGCCTGCTGTCCAGTC
Celera SNP ID:            hCV1255637
SNP Position Genomic:     114561
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:63478):
CCTCTCCATCAGGGAGCAGCGGGCTCCCCCATGCCTCCTCCAGCCACCTCTTAGACAAAGCCCGTGCCCAGCACTGCAGGGCTTCCTAGACCCCCTCAGA
Y
CCCCAGACCAAGATGCTGGGTCTCTCGGCCCAGTCAGAGGCAAGGCAGACCCATCAGGGGCCCCTGTGGTGGGTGTTTCTCCCTCACCTTGGGTCTCGCC
Celera SNP ID:            hCV15953078
SNP Position Genomic:     111667
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,208|C,1283)   total(C,1283|T,208) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63479):
TCTGCTCATCCTCCAAGACCACCCAGCTTTCTCCCAGCCACAGCCAAGATTCCCAAAGTCAAGGCCCAAAGATTTCCAAGGTTCCCAAAGTCAAGGCCAG
R
CCAAGGCCTGGTTGGGTCCTTGGGGCGGGCAGGGCCGGCCTCTCCTCTGCTGAGAATCCCCACTTGGTGTAGGGGGAGAGGGGAAAGGGGTCTGGCCCAT
Celera SNP ID:            hCV1255638
SNP Position Genomic:     113441
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:63480):
TGGAAGAGCCTGGCCCCACCTCCTCCCCAGGCCAGGCCCGTCTTGTTGGTGGGATTCTGATTTGTTGTTGTTCTTGCACGCAGGTCCTTCCGAAACTGTC
R
TCTTCCATTATCCACGAGATTGATAGTATTTTGGGCAATAAACCCTACAGCAAAAAGGACTACAGATCCTAAGCCGCCCCCGCCCGCCTGCTCGGACAGT
Celera SNP ID:            hCV1255639
SNP Position Genomic:     113008
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,18)   caucasian(A,21|G,19)   total(A,33|G,37)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;JBIC-allele(G,483|A,986)   total(G,483|A,986)   (G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63481):
AAACAGAGCGTGACTTGATGAATAATTTACCTTTGAAAAAAGATACTTGTCCCGGCGCGGTGGCTCACGCCTGGAATCCCAGCACTTTGGGAGGCCACAG
Y
GGGCGGATCACTCGAGATGAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCAG
Celera SNP ID:            hCV27486767
SNP Position Genomic:     99090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63482):
CAAAACAGAGCGTGACTTGATGAATAATTTACCTTTGAAAAAAGATACTTGTCCCGGCGCGGTGGCTCACGCCTGGAATCCCAGCACTTTGGGAGGCCAC
R
GTGGGCGGATCACTCGAGATGAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGC
Celera SNP ID:            hCV27486768
SNP Position Genomic:     99088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63483):
GTGGCAGCTGGGCAGGAGAGGAGACAGGGAGAGGCACGGGGCCCCTGGCCCAGGGATGGATTGGATGTGGGAGGCGGGACGTGGGAGGAAGGGAGGAGTC
R
GGGTGACTCCCGGGAGTGGGACTGACACCTGGGAGGGTGGGGAGCTCGTTACTCATCTGGGGCCACCCTGGGAAGAACTGGGCTGGGGGTGAGGGCAGTC
Celera SNP ID:            hCV28034536
SNP Position Genomic:     50058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63484):
GCTTTCCAGACAGATGAGCCCAGCGGAGGGGTCTGAGGTCAAAAAGCCCAGTGCAGATGCCAAGCCGAGAGGCACCTCCCGTCCCGAGCCCCCCACCTCT
Y
CGCTGCCTGCTTTGGCCTGGGTTATGCTGCCCTGAAGAATGTGTGGGAGGCAGCTCCGTGCAGCCTCCGTGGATGAGGCCGGGCACACCCCATGTCACAG
Celera SNP ID:            hCV27486769
SNP Position Genomic:     97805
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,381|T,1086)   total(C,381|T,1086) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63485):
GCCGGACAGTGAGTGCACGGCCAACCCCGGCATCCTGTTCCTCCCACTTTATACATCGCAGCCCCTGTGGCCCTGCCAGTTTCTCCTGAGCGAGGATGAC
R
ACCTTGCAGGCCTTTGGGGAACCACGTCTGCCGGTTTCCCAACACTGGAGGGAGTGGGGGCGGCCAAATGCTCCTGGGGCATCCTGACCCCCTCCTTGTG
Celera SNP ID:            hCV28034537
SNP Position Genomic:     55550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63486):
GTCTCTGAGTCCAGAGCCTTGATTGCGTCCAGAACCATCCTCCAGGCATAAAGGAAGTCTCCACAACACGTGGTCTACAGAAGCTGGAAAAGCTAAATTA
R
GTCTCTGGTTCCCAGGTTTCCTGGGAAAGTTTTCCCAAAACAGGAACCGAACTGGGGACAACTCTGCTTTTCAGTGACCTGAAACTGGAGTGCAGGCCAC
Celera SNP ID:            hCV28034538
SNP Position Genomic:     81741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63487):
TTAAACCTACCGTGGTTCCTCAGCTAACTGCATTCCCTACCCAGGCAGAGACTGTCCTATGCCTCGAGCTTCCAAACGAGACTCAGACCGCGACACAGCC
M
CCGTATTTATGGAATGACAAAATAAATAAAGCCCAAACCCATCGGTCTCTGTGACTTTTTGCTCCTCTCATTTCCTCAGGGTCAGGGCTGGGCCAGGGTG
Celera SNP ID:            hCV27471054
SNP Position Genomic:     115646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:63488):
AGGCATCCCAGCCCCCATCCCCTTCTGCAAGGCTGTGTGAGGACATCCTGCCTCCCGTGGGCCATGTTTGCTTATGCAGCATCCATGGGAGGGCTCCCTG
S
GGACGGGCTGTGGTGATGACTCTGCTCTCAGCAGAACCCTCCACTCTGAAGCCCTGGTTTCCTGTCCACGTCCCTCAGCTACTCAGGGGAGCCTGGGGGC
Celera SNP ID:            hCV29072450
SNP Position Genomic:     51930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63489):
GCTGCCGGGCCAGACGCAGGGGCTGGGAGAAAGCCAGCTGGCAGGCCCAGTGCTCTCCTTGAGGGCCTGCCCAGGACCACGGCTGGCAGCTGTGTGGGGC
Y
TGGGTCGGGGCTGGGAGGGCTTCTGCTGGCAGCGGGCACCACATTGGAGCCTCGGTGGTCATGGTCATCCCAGGCCTGGAAACAGCATCCGTCTGCAGCC
Celera SNP ID:            hCV29072451
SNP Position Genomic:     73387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63490):
AGACGTGTGCTCCCCACCCCACACGCAGCAGCCATGCTTACAAAGCGTTCAGCCTGGAGGCGCCCTGTCCCTTCGCATCCCTTCTCCCGAGGCCTGGCAG
Y
GGATGGCAGAACCAATACCATCATTTTCACAGGGAAACAAGTTGAGCAGGGTAATTGCGGCATCACGTGGTGCCCTAGTTTTGTTAAATTAGTCCTGTGG
Celera SNP ID:            hCV29072452
SNP Position Genomic:     84278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63491):
TAACACTTATTATCTCACCTAATCCTCTATCAACCCAGGGAGGCAGGTGCTATTCCCAGTTCAGGGAAGCTGAGCCTCTGGCTATAAACAGGTGCAGGGG
Y
CTCACCTGGCCTCTGGCCACAGGGGGTTCCACCTGGTGCTCTTTGCCTCAACGCTTGCGGCCAGTGCTCAGCTGTGGGGTAACCGTACTGGGGTAGGGAC
Celera SNP ID:            hCV29072453
SNP Position Genomic:     91123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63492):
TCTCACCTAATCCTCTATCAACCCAGGGAGGCAGGTGCTATTCCCAGTTCAGGGAAGCTGAGCCTCTGGCTATAAACAGGTGCAGGGGCCTCACCTGGCC
K
CTGGCCACAGGGGGTTCCACCTGGTGCTCTTTGCCTCAACGCTTGCGGCCAGTGCTCAGCTGTGGGGTAACCGTACTGGGGTAGGGACAGATTCCTTGTC
Celera SNP ID:            hCV29072454
SNP Position Genomic:     91135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63493):
GTGGAGCTGATGGGAGGGACCTAGCCTGTGGGCTCCCTGCTTGGACCCTGGGCCCTGCACCCCGTCAGCTGCTAGGCTCCCCTCTTGGGTCTGGTGTGTT
K
GTTTCTGAAGCCTGTTCTCCCAAGTCCCGGAGGTGTCAGGGATCCCGGGGCCACCCAGCTTAGCTGTGCCTGCCTCCCTCTGCGCTAAAGGAGCCACTGT
Celera SNP ID:            hCV1255710
SNP Position Genomic:     48530
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63494):
AATTGGTGTATGATTGCGATCAAGAGTATATGGGTATTTATTGCTATTCTAATTATTTCCACTTTTATGAGGTTTGAAAGTTTTCAAAGTAGTGAGTTGG
Y
AGGAAGAAAGAAAATGCCCAAAGAGGGAGCCTACCGACCTTCCTGGGTCCCCTGTCCTTGTCAGCCAACCACGTAAAGGGAAAGAGCTAGGATTTAATGA
Celera SNP ID:            hCV1255711
SNP Position Genomic:     48177
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63495):
GAATTAGCTGGGCATGGTGGCACGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGC
Y
AAGATCATGCCACTGCAGTCCAGCCTGGCAACAGACTGAGACTCTGTTAAAAAAAAAAAAGAGAGAGAGAGAGAAAGCAAGCAAGAAAGAAAGAGAAAGA
Celera SNP ID:            hCV1255714
SNP Position Genomic:     47027
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63496):
AAATAGCCAGGCTGGGTGGCACACATCTCTGATCCCAGCTAATTGGGAGGCTGAGGTGGAAGGATCCCTTGAGCCCCATAGGTCAGGGCTGCAGTGAGCC
R
TGATCATGCCACTGCACTCCAGCCTGGGGAACAAAGCAAGACCCTGTCTCAAAAAAAGAAAGAAAGAGAGAGGGGCATGGGGCAGCGTGGAGAGGAAACT
Celera SNP ID:            hCV1255715
SNP Position Genomic:     46340
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63497):
TGCCTGAGGAATGAGGGAGTCAGCTCCGTGCTCCTGGGGGCCTCCAATGCGGACCAGCTCATGGAGAACATTGGGGCAATACAGGTAAGAGTGAGAGGCC
Y
TGCTGGGCAGAGGGCCCATCCCAGCCCGAGCCCCGTCCAGTGCATCCTCCCAGGCTCGTCCTGCGTGCCAGGCTCTGTTCTAGGCACTCAGGATGCGCCC
Celera SNP ID:            hCV1255642
SNP Position Genomic:     111880
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,23)   caucasian(C,14|T,6)   total(C,25|T,29)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63498):
CAGGGCTTCCTAGACCCCCTCAGACCCCCAGACCAAGATGCTGGGTCTCTCGGCCCAGTCAGAGGCAAGGCAGACCCATCAGGGGCCCCTGTGGTGGGTG
Y
TTCTCCCTCACCTTGGGTCTCGCCGCCACAGCCTGGTGCCTGAGGAATGAGGGAGTCAGCTCCGTGCTCCTGGGGGCCTCCAATGCGGACCAGCTCATGG
Celera SNP ID:            hCV1255643
SNP Position Genomic:     111743
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,28)   total(C,2|T,62)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63499):
CCGTGCCCAGCACTGCAGGGCTTCCTAGACCCCCTCAGACCCCCAGACCAAGATGCTGGGTCTCTCGGCCCAGTCAGAGGCAAGGCAGACCCATCAGGGG
Y
CCCTGTGGTGGGTGTTTCTCCCTCACCTTGGGTCTCGCCGCCACAGCCTGGTGCCTGAGGAATGAGGGAGTCAGCTCCGTGCTCCTGGGGGCCTCCAATG
Celera SNP ID:            hCV1255644
SNP Position Genomic:     111728
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,12)   caucasian(C,19|T,7)   total(C,37|T,19)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63500):
AGGTCATAGACCAGCACATGGCAGAGCCAGTGCCAACTCCAAAGCCCAGATCCGAACCACTGAGTGGGCCTAACCTCCTTCCCAGGAACCCAGACTGATC
R
CCTCAGGTCACCCAAAGGGGATGGAATAGTGTCATCAACCAGCTCCCAAAGAAGATCAGAGCATGTGCAGTCAGCACTGGCAAGATTTCAGCTTAGAGAG
Celera SNP ID:            hCV1255718
SNP Position Genomic:     44321
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63501):
CTGATCAGAACCTCCAGCCCTTTGCTTCATTATTGGACTCCTACTAAGCATTTATAATTTCTTACCACAGTTACTTTCTAGCCAGCATGGGGGAAATTAC
S
TAAACTTCTAAACTGACCAGGCTTATGTGGAATGTATTAGTGGTACAGTTGGGCTGTTCTCCCCAGCAGCCACAGACACGAGTTATTCTGGGTTGGAACA
Celera SNP ID:            hCV27486770
SNP Position Genomic:     84888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63502):
CAGGCCATCGCCGAGCGCCTGGGCTGCACCCTGCCCCAGCTGGCCATAGGTAACGGTGGGGTCGCCATGGGGCCAGTGCCCCTGGGGAGAACCTGCCCCA
R
CTGGCCGTAGGTAACAGGGTGGGGTTGCCATGGGGCCAGTGTCTCCGGGGAGAGAGGGAAGGGATCCCTGGACATCATCCCCCAGCCAGCCTCGGGTAAT
Celera SNP ID:            hCV1255645
SNP Position Genomic:     111314
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,36)   total(A,3|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:63503):
GAAAGTGGAAAAGACAGAGAAGCCTCCTGACAGCCAAGGAGACCAGCAGCCAGTAGAGCAGGTGTTGTAACAAGGCCGAGGACCCTCAGACACCAATTTT
K
CTGGTAAGACCGCTGCCCAGGATGCACCGTACAAGAGCAGCTTCACCTGCCTTCATGCAGATGGCACAGATGTCCAGGAAGCAGCTGTGGTCAGTGACTC
Celera SNP ID:            hCV1255719
SNP Position Genomic:     43918
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63504):
GAAGCTATGAGTGTGAGCAGTGGGGAGCCCGGGCTGCAGCTGCTGGGCCAGCCTGCTCCGGGGACACCTTGGTGCCCTCTCCATGGCTGCCCCGGCAGCC
Y
CCCGCCTGCTCACAGGCAAGGGCCCTCGGGGTCCCTTTCTGCCTTCACAGGAGGCCTACTCCGTGGCCCGGCAGTTCAACCTGACCCCGCCCATCTGCGA
Celera SNP ID:            hCV1255646
SNP Position Genomic:     109778
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63505):
GAAGAGCAGTCACAGCGGCCCTGCGCAGCCCCCCAGGCCATCACCTCCGGCTCCACAAGTGACACCAGAGAGAGCCCTCCCTTCTCCAGTCCAAGGAAGG
Y
GGGTGTGCTCATCACCCGTCACTCATCATCAGGAGTAACTCACAGCCCAGCCCTGCCCAACACTTTTGGAGACTGTTGGGCTGAGGACTTGGGCAGCCAG
Celera SNP ID:            hCV27486771
SNP Position Genomic:     80137
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,19|C,1466)   total(C,1466|T,19) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63506):
TCTGAAATTTGAAATTTCGACGCCAAGTTCTGTTTTTAAAATCACAATATCCCCATGAGGCTGAGAGGGAGCTATAACCAGCAGATTGCTGTGTCTCAAA
R
CCATGTTTGAATATTGGGAAGAATCCACTGTGTCGCTGGGGCGAGGGTCCCTCCTCTCTTCTTTAAAAGGCCAGCGTGAAGTCTCCGCGATTTCATCCTC
Celera SNP ID:            hCV1255647
SNP Position Genomic:     107971
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63507):
ACGTGAATTCCCCTGGGCCCCTGATCTACAGGAATAGATTTGCACCAGGCAGGCCCAGCCCAGGAAAGAACTTGTGGGTTCCACGTAATTAGCAATGGCT
R
TTGAGGAGGGGCTCGTTTTTCTTGGTACCAGGGTGGTGAGGGAGTGTCAGGGCTCAGAGACCCTCACTCTGGAAAGCGGCCGGGATTTGGGATATTTTGA
Celera SNP ID:            hCV27486772
SNP Position Genomic:     61579
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63508):
ATCCGGAATTAGACCCTCCGTGTTTTTGCAAAGCAGAAGACCTTAAAAAAGAGCCAGCCTGAGGTAAACTTGGAATGACCGTGATGGATGGGGTGGTGGG
S
GGCAGGTTTCAGCCGGGCAGCACCTCTCGCTTGAGTCTGCTCACAGCCCAGACCTGCCCAAGGCTGACTGTTTTCCCATCTGCCGGAGACACGGGCGTCT
Celera SNP ID:            hCV27486773
SNP Position Genomic:     60898
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,29|C,1456)   total(G,29|C,1456) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63509):
AAATCAAAGCCCCCCACCCCCTGCTGCTGCCCCCCTCCCCTCTGAGCCCTGTGACCAGGCCTCTCCCTGGGCCTCTGGGAGTTCAGCCCTGTAGCCTCGG
S
TCCCTACCCCCAAAGTGGAATCCGACTCCACACGGCATTTGCTGACCCTGTTTTTGCGTCTAACATTGCATCGTAAACGTTTTTTGGGAGGGGCCAGGGT
Celera SNP ID:            hCV1255649
SNP Position Genomic:     103368
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63510):
GCTCCCGGGAGGATCCGGGGACAGGATGCCTGGGGACTGCCTGGCCTGCTGCAACCCTGCAGGCTCCTAGGCAACCTGTGCCAGGACATACGGGCATGCC
R
GTCCTCAGCAGAGGGCTGCCACCCTCCTTCACCTCCTAAGGACAGTCATGATGGCCCAAGGCCTGTTCCTGTGGACCCTGGGATGCACCACAGTGGGCAG
Celera SNP ID:            hCV27497199
SNP Position Genomic:     86512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63511):
GCACAGGCCATGTGGTCCAGTGAAGTGGGACGATCTCCTGCCCCAGTCGCTGGAGACAGGAAGAAGAGACACAAAATCACAAATGCAGCCTTAGAGAGGA
R
GGAAGAAGGGGCTTCTCTGCAAGGGGCGCCGCATGGATGGTGCCATGGGGGTGAGACCAGTCCAGTTTCGCCATAAAACAGACAGCGTCCCTGTGCATTT
Celera SNP ID:            hCV27483291
SNP Position Genomic:     86887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63512):
CGCGAGGGCACCTCCTGCCGCGTGGGCTCCTCCTGCCGCGTAGGGCTCCTCCTGCCGCGTAGGGCTCCCGGGAGGATCCGGGGACAGGATGCCTGGGGAC
Y
GCCTGGCCTGCTGCAACCCTGCAGGCTCCTAGGCAACCTGTGCCAGGACATACGGGCATGCCGGTCCTCAGCAGAGGGCTGCCACCCTCCTTCACCTCCT
Celera SNP ID:            hCV27483292
SNP Position Genomic:     86449
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,449|T,826)   total(C,449|T,826) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63513):
TGGTGTCGGCCGGGGAGCAGCAGGGACCCCTGAGCCCCACAGTCGGGGCTCATGGCGCTGAGAAGCACTGCAGCAAGGGCGCAGCCAGTAGGAGAGGAGC
Y
GCAAGCGCAAGCATCCGCAGACAGTGTGAGCTCAGCGTGCTGGGAAGGCGGGGGCCTGGGTCAAGGGCCAGGCGGCAGAGCATAGGGGCCTGAGGGGGCA
Celera SNP ID:            hCV27483293
SNP Position Genomic:     53689
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63514):
AGGGACTTCTGAGTGAGACGGGAGCCGTGGCAAAATTGTGGGCAGAGGAGGGCGAGCTGCAGCTCAGCCTGGAAAGGGAGGCTGCTCTCCGGCTGCTCCA
Y
CGGGGAGGCTTTGGGAAGCAAAAGTCGAAGCAGAGAGCCCTGGTGGGAAGTGGCAGCTGCGGGTCCGAGACGGGAGTGGTGGTTGGATCCTGGATGTTTG
Celera SNP ID:            hCV11398382
SNP Position Genomic:     112439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63515):
GGCGCCCTGTCCCTTCGCATCCCTTCTCCCGAGGCCTGGCAGCGGATGGCAGAACCAATACCATCATTTTCACAGGGAAACAAGTTGAGCAGGGTAATTG
Y
GGCATCACGTGGTGCCCTAGTTTTGTTAAATTAGTCCTGTGGGTGGTGGGTGGAAGAGCGGCTGAACCCAGAGCCCACTCGGGGAAGTGGGCCCATTTCC
Celera SNP ID:            hCV11398385
SNP Position Genomic:     84336
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63516):
AGCCATGCTTACAAAGCGTTCAGCCTGGAGGCGCCCTGTCCCTTCGCATCCCTTCTCCCGAGGCCTGGCAGCGGATGGCAGAACCAATACCATCATTTTC
R
CAGGGAAACAAGTTGAGCAGGGTAATTGCGGCATCACGTGGTGCCCTAGTTTTGTTAAATTAGTCCTGTGGGTGGTGGGTGGAAGAGCGGCTGAACCCAG
Celera SNP ID:            hCV11398386
SNP Position Genomic:     84307
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63517):
TCCCCAGAAATCATCGTGGAAGCGGCGAATGAGTGGCAGGAGGTGCATGGAGAGTCCTGGCTCTGCAGGCGAGCAGCCTGCCCCAGCTCTTTCCTCCTTA
R
AATTGTGTGACTTTAGCCACATCATTTAGAAGACACAGATGATAGAGGTGGTAGAAATGGAAAGTGCAACTCTCTACCTGCTGTTGCCCACCACCAGGAC
Celera SNP ID:            hCV8880582
SNP Position Genomic:     25484
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63518):
CTGGCCCTCGAGTGTTGAAGATTTAACTTGAAAGCCATGAGGGCGCTCTTCCCCAGAAATCATCGTGGAAGCGGCGAATGAGTGGCAGGAGGTGCATGGA
S
AGTCCTGGCTCTGCAGGCGAGCAGCCTGCCCCAGCTCTTTCCTCCTTAGAATTGTGTGACTTTAGCCACATCATTTAGAAGACACAGATGATAGAGGTGG
Celera SNP ID:            hCV8880583
SNP Position Genomic:     25435
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63519):
CCTGCGCCACATGGGGAGAGGTCACCTGGGGGACTTGTTTCCGTGGGAACCTCAGGCCTTGGGCCTGAGTGAGGAGATGTCTGAAGCCTCTGGCCTGGGC
S
GAGAGTGAGACCCCAGAGCAGCCCTGCCCATTCCTCTGGGAGCAGCCTCAGTGAAAGCTGTAAAGCAGGGAAATTGGACACGTCCAGGCCAGAAAGAGCA
Celera SNP ID:            hCV8880586
SNP Position Genomic:     23439
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63520):
CGGCTCCATCCGTGGGGAGCCGCGCCACCTCTGCGCCTCCTCCGCGCCTCCTCTGCGCCCCGCGCCGTGCTGAGTCAGGCTCTGAAACGCAGTCATCATC
S
GGAAGTGGTTCTTGCTGTGGCCCCATCCCCCTGTGTGATTTTCCTACCTTGGCTCACTTAAAATTTCAATCTGGCTCTGAGAGGAGACTCAGCATTTCCT
Celera SNP ID:            hCV8880587
SNP Position Genomic:     22112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63521):
CAGGAGATTGGAGGAGAGACTGAGGTTTCTCTGTGACAAACACAGGGAATCCTGACTGGGATCTCCAATCTCTAGTAAGGTTTGCACAGTTCTTCTCCTC
R
CATTTCTTTGGCTGCATCTGAGCCAAAGTCTGGATGGAGCTGTCGGGGAACTGGGTTATGTTGACCTCCCAACCCCTGCCCACCCTCTGGGGTGTCCTTC
Celera SNP ID:            hCV1255720
SNP Position Genomic:     42449
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63522):
TACATTCCCACCAACAGTGCACAGGGTCCCCATTTCTCCACATCTTGCCAACCCTTATTATTCTGGGCTTTTTTATAGCGGCCATCCTAATGGCTGCGAG
R
TAGTATCTCACTGTGGTTTTGATTTGCATTTCCCTAATGGTTACTGACGTTGAGCACCTTTTAATGTGTTTATTAGCCATTTGTGTCTTGTCTTTGGAGA
Celera SNP ID:            hCV1255721
SNP Position Genomic:     38043
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63523):
ATTTTACATTCCCACCAACAGTGCACAGGGTCCCCATTTCTCCACATCTTGCCAACCCTTATTATTCTGGGCTTTTTTATAGCGGCCATCCTAATGGCTG
Y
GAGGTAGTATCTCACTGTGGTTTTGATTTGCATTTCCCTAATGGTTACTGACGTTGAGCACCTTTTAATGTGTTTATTAGCCATTTGTGTCTTGTCTTTG
Celera SNP ID:            hCV1255722
SNP Position Genomic:     38039
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63524):
GAGTGTATAGTTCAGTGGTATTGAGTGTACAGTTCAGTGGTACTGAGTGTATGGCTCAGTGGTATTGAGTGTACAGTTCATTGGTATTGAGTGTACAGTT
Y
GGTGGTATTAAGGATACAGCTAGTTGGTATTGAGGGTACAGCTCAGTGGTATTGAGTGTATAATTCAGTGGTATCGAGTGTGTAATTCAGTGGCATTGAG
Celera SNP ID:            hCV1255724
SNP Position Genomic:     36897
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63525):
AGCTATGCCTGGTGCCTGTCCCTGTTAAGGGACGTCAAATCCAGAAAAGAAGCTGTGGCCGAGTTTGCCTTTTACAAAAACCTCGCTTAACTTTCCTTTT
W
ACTCACATGGATTATTTTTTCCTGGTCACTATGGTAACATCATAAAAATTATAGAGAAAACAGAAAATTTGTGAACTGCCCAAACCCCCAAAGCACTCCA
Celera SNP ID:            hCV1255651
SNP Position Genomic:     102333
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63526):
AGTTCAGTGGTATTGAGTGTATAGTTCAGTGGTATTGAGTGTACAGTTCAGTGGTACTGAGTGTATGGCTCAGTGGTATTGAGTGTACAGTTCATTGGTA
Y
TGAGTGTACAGTTCGGTGGTATTAAGGATACAGCTAGTTGGTATTGAGGGTACAGCTCAGTGGTATTGAGTGTATAATTCAGTGGTATCGAGTGTGTAAT
Celera SNP ID:            hCV1255725
SNP Position Genomic:     36883
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63527):
ATCTCCTCCGGACTCCGGTCACACTAGGCCCCCCACTGTCCAACTCCCACTGCCTGACTCACAGTTACTGCCTCGGTGGCTGCCTCCTGGCTCCATGAGG
M
GCCCACGCACCCCGGCTGGGCACGTGGTACACATCATATGATGGAGAAGTGCCCATTTCATGCCCCAGGCTCCTGGGTGGGAGGGCTTTCAGGACCTCTG
Celera SNP ID:            hCV1255652
SNP Position Genomic:     101791
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63528):
AGGTAACGGTGGGGTCGCCATGGGGCCAGTGCCCCTGGGGAGAACCTGCCCCAGCTGGCCGTAGGTAACAGGGTGGGGTTGCCATGGGGCCAGTGTCTCC
R
GGGAGAGAGGGAAGGGATCCCTGGACATCATCCCCCAGCCAGCCTCGGGTAATCGGGCTCTAAGGGGCATGGTTGGGACCCCATGCCTCTAGGGGGATGT
Celera SNP ID:            hCV15953093
SNP Position Genomic:     111361
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,2|G,26)   total(A,2|G,56)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,274|G,459)   total(G,459|A,274) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63529):
GCTGAAGTACAGTGGCACAATCACAGCTCACTGCAGCCTCGACCTTCCAGGCTCAAGCCATCCTCCTGCCTCAGCCTCCCAAGTAGCCTGGACTGCAGGT
R
CACATCACCATGCCCAGCTAATTTTTTTATTTTATTTTTTGTAGAGACAGGGTTTCTCCATGTTGCCCAGGCTGGTCTTAAGTTCCTGGGCTCAAGCGAT
Celera SNP ID:            hCV1255726
SNP Position Genomic:     35678
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63530):
AGTCCCTGAGCCAGGCCCCCCTCCCACATCCTGGGCGGAAGGCATCTCCTCCGGACTCCGGTCACACTAGGCCCCCCACTGTCCAACTCCCACTGCCTGA
Y
TCACAGTTACTGCCTCGGTGGCTGCCTCCTGGCTCCATGAGGAGCCCACGCACCCCGGCTGGGCACGTGGTACACATCATATGATGGAGAAGTGCCCATT
Celera SNP ID:            hCV1255653
SNP Position Genomic:     101748
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63531):
GCAATAGTGCGATCTCGGCTCGCTGCAACCTCTGCCTCCTGGATTCAAGTGATTCTCTTGCTTCAGCCTCCTGAGTAGCTGGGATTACAAGTGCCCACCA
Y
CATGCCTGGCTAATTTTTGTGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCA
Celera SNP ID:            hCV1255727
SNP Position Genomic:     35360
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63532):
TGGCTCTTGCCACTTCCTCTACCTGGATCAAATCCATGCACCCCTCATAGTCCCTGAGCCAGGCCCCCCTCCCACATCCTGGGCGGAAGGCATCTCCTCC
R
GACTCCGGTCACACTAGGCCCCCCACTGTCCAACTCCCACTGCCTGACTCACAGTTACTGCCTCGGTGGCTGCCTCCTGGCTCCATGAGGAGCCCACGCA
Celera SNP ID:            hCV1255654
SNP Position Genomic:     101700
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63533):
AATTTCTATTTTTATTATTTATTTATTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAATAGTGCGATCTCGGCTCGCTGCAACCTCTGC
Y
TCCTGGATTCAAGTGATTCTCTTGCTTCAGCCTCCTGAGTAGCTGGGATTACAAGTGCCCACCACCATGCCTGGCTAATTTTTGTGTAGAGATGGGGTTT
Celera SNP ID:            hCV1255728
SNP Position Genomic:     35295
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63534):
CGTTGCAGAGAGCTTCCCTGCCTGCCTCCCACCTACATCTTTCCATCCTCAACTCCTGCCAGATCCCCCCAGAGCCCGCCCCTGCCCCCTGGCCCACACC
S
GGCCTCCTCCAGCCTTGGCTCTTGCCACTTCCTCTACCTGGATCAAATCCATGCACCCCTCATAGTCCCTGAGCCAGGCCCCCCTCCCACATCCTGGGCG
Celera SNP ID:            hCV1255655
SNP Position Genomic:     101584
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63535):
CAGTGAGCTGTGATCATGCCACTGTACTCCAGCCTGGGCAACAGAGTAAGTTCCCTTCTCCTAAAAAAAATTAAATGAAATAAATAAAACTGTAAAAACT
R
TTCTTAGCTCGAGGGCTGCACAAACACAGGTGACAGGCTGGCGCAGCAGTTTTCCAACCCCTGTCCTACAGCAAGGAGGGAAGCCGTCACACTGCACTCT
Celera SNP ID:            hCV1255729
SNP Position Genomic:     33872
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63536):
TGCCAGGCATTTTCCCTGGTGAATTTTCAGCTGACTAGGAAATGGGATGCTCGACAGCAGCTCCTTCCTTCTGTGTGAGAGCTGGGGCCGCCACTGCTTA
R
ACACGTGTCTGCAGGGGAACATGCCACAGCCATCCTAGTGGGGGGCAATAACACAGCTGCTCCCACTCCCTCGGGCCAACCCTGTCTGTGGAATGAGCTA
Celera SNP ID:            hCV1255656
SNP Position Genomic:     99469
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63537):
GGAGGCCACAGTGGGCGGATCACTCGAGATGAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGG
R
CGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAACTGCTTGAACCCAGGAGGCAGAGGTTGCAGAGAGCCGAGATCTCGCC
Celera SNP ID:            hCV1255657
SNP Position Genomic:     99179
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63538):
GTCCCGGCGCGGTGGCTCACGCCTGGAATCCCAGCACTTTGGGAGGCCACAGTGGGCGGATCACTCGAGATGAGGAGTTCGAGACCAGCCTGGCCAACAT
R
GTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAACTGCTT
Celera SNP ID:            hCV1255658
SNP Position Genomic:     99138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,2)      total(G,2|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63539):
AACCGCCTCCAGCCCCCATCTGCAGCCCTTTTGGCCCTCCGGATGGCACAGCCCCCTCCCACTCCCTCCATACTGGCAGCAGCTTCCCATCAAAGTGAAC
Y
GCTTTCCAGACAGATGAGCCCAGCGGAGGGGTCTGAGGTCAAAAAGCCCAGTGCAGATGCCAAGCCGAGAGGCACCTCCCGTCCCGAGCCCCCCACCTCT
Celera SNP ID:            hCV1255659
SNP Position Genomic:     97704
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63540):
ATGTTAGGCTGCAGCTACCACCCAGTAGTGAGGCGCAGGCCCCCCGACCAGGGCGACATGTGGGGATCTGACAGAGTGGGCTTGGGCCTTTGGGGACAAA
Y
CATTTCAATTGCCAAGGCCTTCGCAGCTAGTCACCCGCAGCCAGGCACCTCCAGACTCTACGTGCTCTCCCAGCCTCCCACTTCATTTACCTTCCACACT
Celera SNP ID:            hCV27486784
SNP Position Genomic:     59552
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,502|C,995)   total(C,995|T,502) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63541):
GGCCTATGGTTGGGGTCAGAGCGCTGTCACCTCTGCTCACGTGCTTTTGGCCAAAGTAAGTCTCAGGAACCAGCCCACAGTCAAGGGGCTGGAAATATAT
Y
GCCCCCACCAGTGGGAGGAGCTATAAAGTCACATGGCAAAGGGCATGGGTACAGAGAGGGGTGAAGGATTGGGAGCAATACTTCCATGTACCCCAGGTCT
Celera SNP ID:            hCV27486785
SNP Position Genomic:     58673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63542):
GTGGACCTAGATGCTCAGAGTGATCTGTGCCACGCCTTCAGTGCCTCCTCGGAGGTCCTGCTCCTTACAGGGAGCTCTGAAGACATGGCCAACTCTTAGA
W
CCTACTGAAATTTTGGTAGATAAGATTTTGCTTAAGATAGTTAAATCTGAACTCCGGCTTGCAAATGCTTTCCCTGGATGAAATGTTTGTATTGTGATGT
Celera SNP ID:            hCV27486786
SNP Position Genomic:     57490
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,474|T,1025)   total(A,474|T,1025) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63543):
AGACCAGTCCAGTTTCGCCATAAAACAGACAGCGTCCCTGTGCATTTCCATCTGTCCTTGAGACCACTCTGCAGACCCCCACTGGGCACCAGCAGGGCCC
R
TGCCAGCAGCATGGTGTGGGCCGGGGGCAGTTGGCACTTTACCCCCGGGGTGGGTGAGCAGAGGCACCTCTCTGAAGGTCCCCGGTGCCTTTCGGAGCCT
Celera SNP ID:            hCV25993488
SNP Position Genomic:     87041
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,40)   total(A,2|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:63544):
ACCATTATTTAGTTGACTGCAGAGAAGAAAGTAGAAAAAGGAGGGCAGGGGGGCGGGGGTCCTGACGACAGGGTGGTCAGGAAGCAGAAGCGAGCAAGGA
M
GCCACGTGGTGGTCCAGAGAAAGAGCCTTCGGGGGCCAAGGGGACAACCAAGGCACAGCCCTAAGGCCGAGTGTTGGGGAGAAGGGGATGCAGGGGATAG
Celera SNP ID:            hCV11675908
SNP Position Genomic:     92999
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63545):
AGGGTAGAGTGGGGGACATGGAAGCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGGATGTGGGAGCTGAGCTGAGGGGTGAGGGTGCAGTGGGGGGACGTG
K
GAGCTGAGCTGAGGGGTGAGGGTAGAGTGGGGGGATGTGGGAGCTGAGCTGAGGGGTGAGGGTGGAGTAGGGGGACGTGTGAGCTGAGCTGAGGGGTGGG
Celera SNP ID:            hCV8880592
SNP Position Genomic:     19689
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63546):
TTGTAGGGTGTGGCACCTGCCCAGCCCTCAGGGGTCCTGGTGCAGCTTAGCAAGCTCCTTGGCCACCAGTCCCTGGTGACTCAGATCAGGGGTTCCAAGA
R
CATGCTTTGAGAAACACTCCCTAGCCCTAGCCGTTTCAGTCTGTCAGTGAACCTGCCCACCTCTACTTCTTAAGGAAGCACACGAGGAAGCTGTTTGTGA
Celera SNP ID:            hCV8880594
SNP Position Genomic:     13913
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63547):
GGAAGGCGGCGCACCGCGCCGCACACTCAGTCCAAGAACCCGCCTCGCGTCACTGTCGCCGTCAGGGCCGCGGAGCCAATCAGAGCCCAAGTCGAGGGCT
R
CGCTTTGCGAGCGCCAGCCAATCGGTGCGGCGGCGGGCCCATCCTGATTTGCATGTCCGACGACCCCTCAACCAATGGTAATGTGACTGGCGTGAACAAT
Celera SNP ID:            hCV8880595
SNP Position Genomic:     7057
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63548):
CACTGGTCACCTCTGTCTCCCCGCCCTTGCCCAGGTGGCCCCAGCTCACACCTGCATTGCCTCGGAGACTCCTGACGACACCCACCCCCTGCTGCTGCCC
R
GGCCCCCCCAGCAGTCGGTTCTCAGTGATCTTGAGAAGCACCACTCAGCTCACCCTACGAGGAGGCCTTTGGCTGTTCCCGTATTTGTCTCTGGACTTCT
Celera SNP ID:            hCV1255731
SNP Position Genomic:     28355
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,15)   total(G,15|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63549):
GTCTCAGCCTCTTGGATTGCCAGCCACTGGTCACCTCTGTCTCCCCGCCCTTGCCCAGGTGGCCCCAGCTCACACCTGCATTGCCTCGGAGACTCCTGAC
R
ACACCCACCCCCTGCTGCTGCCCGGGCCCCCCCAGCAGTCGGTTCTCAGTGATCTTGAGAAGCACCACTCAGCTCACCCTACGAGGAGGCCTTTGGCTGT
Celera SNP ID:            hCV1255732
SNP Position Genomic:     28331
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,15)      total(G,15|A,3) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63550):
TTGAGCAGGAACCCCAAGGAACAGCATCCCAGGTAGAGGGATCTGAGTCTGCAAAGGCCCTGGGCACAAAAGAAACAACCACCCAATCCAGGGCTGGGGA
R
GAGCCCTGTCAGAGGACAGCACCAGCCTCCCCACGTGGATGCCCGACCAGCATCTGAGGCCAGACACAGCCGCCACTGGCTCCAGGGCTCCCCCACACCA
Celera SNP ID:            hCV1255733
SNP Position Genomic:     28018
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63551):
AACTGCAGCGGGGCCCAGAGCACCCGGCGGCAGGGAACCCAACTGGGCCCTGCTCAAGTTCCCACCCAGAGCCTGGGGAGCGCACAGCCCTGGGGGCTGC
Y
GCTGGGACCCTCAAACCGCCTCCAGCCCCCATCTGCAGCCCTTTTGGCCCTCCGGATGGCACAGCCCCCTCCCACTCCCTCCATACTGGCAGCAGCTTCC
Celera SNP ID:            hCV1255660
SNP Position Genomic:     97590
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63552):
CCACGAAGGGCTTTTGAGAAAAGCATGGCATGAAAAGATCTGCTGTTGAGAAATAGAAACGGGGCTCTGGTGGCAGGTTGACAACCATGGTCCAGGCAGG
R
GCTTCCAAGGCAAGTGGTGGAGGTGGGCGAGAGGGAGAGTTCCAGGGATATCCGCGTGGATGGAGCCAACACCTGGAGCCCAGGGCAGGGGGGTGGGCTG
Celera SNP ID:            hCV1255734
SNP Position Genomic:     26249
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63553):
GGCTGTAATCAAATCATCCACTCTCCTGCATCGGGTTTCCAGAAGTCAGCTTTTGTTTGTGAAATCATTTGTTGGCCCTCTCTTCATCCTCCTTCTGCCC
Y
CCTCCTGCCTGGGGCCAGCCAAGTTCCCGTCAGCCGGGCAGGCTGCAGGCCTGGGCTGCTGTGCACCATAGCTGCTTGGCCCGCAGCTGCTTCGTGGGCC
Celera SNP ID:            hCV1255661
SNP Position Genomic:     97373
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63554):
TCCTGGGCTCTCCTGATGTGCCTGACATTTTGACATTTCATGTCTCACTTGTGCAACTAGGGCTGCAGGGCCTCAGAGCTGGGGAGGGCAGGCTCCGGCC
R
AGTGCTGTGGGGAGCACTTCCCATCTTGGCGGTGAACTTTCCTGCTCAATTATGTAAAAGCTCAGCCTTCTTCAGCCAGGCTGTTGGCTTCAATTTTAAA
Celera SNP ID:            hCV1255662
SNP Position Genomic:     97168
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;JBIC-allele(G,395|A,906)   total(G,395|A,906)
SNP Type:                 INTRON


Context             (SEQ ID NO:63555):
GAGTTGGGGGATGAGGCAGTGGGGCCCTGTGAGGCCCTGCGGTTTCTATCGGAGTGCTCTCTGACCCCCGGTGTTCCCTCTCTGTCTCTCTATGTCTTTA
S
CAGGTGTTTCCCACACTTTAGTCATTGGCCTTTCATCTCATGATTTGGGTCATCTGTGCTATTTCTTTTCTTTTTTTCTTTTTTTTTTTTTTTCCGACAG
Celera SNP ID:            hCV1255736
SNP Position Genomic:     24328
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63556):
GGGCCCCACCCCCGGCTGGCAGGACAGTGTCGGTTTTCTCGTTTCAGATGGCAGAGCAGCTCATGACCTTGGCCTATGATAATGGCATCAACCTCTTCGA
Y
ACAGCAGAAGTCTACGCAGCCGGCAAGTACGTGTCTTTTCACACGGGAAAAAGTGGTTCAGAATGCCTGGGCAGAGCCGGAGCTACAGGGATTCCTGCCG
Celera SNP ID:            hCV1255663
SNP Position Genomic:     96752
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,23)   caucasian(C,3|T,25)   total(C,8|T,48)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63557):
TGAGCCAAGTCCGGTTCCGCTGCGCTGGGTCCCCCATGGCAGAAAGGACCCGCCCCCCCATCACCCTGACAGTGGCTTGCATGCCCAAGAGCAGCCAGCA
Y
CCAGGACAGGCTTCCCTCGTTCCTCTGTTCATCCTCTTTAAGAATCACTCAGAGCCAGGCACGGTGGTTCACGCCTGTAATCCCAGCACTTTGGTAGGCC
Celera SNP ID:            hCV1255737
SNP Position Genomic:     22818
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63558):
CTGCTGTAACAAAGTAACATAACCTGGGGGCCTGAAACAACAGACACCGTTCTGTCACCTTCTGGAGGCCAGAGGTCTGATACCAAGGTGTTGGCAGGGC
M
AGGTTCCCTGTAAAGGCTCGGGGGAGGGTCCGCCCCATGCCTCTTTCAGCTCCTGGGGGTTGCCAACAGTCCTTGGCTTGTAGACGTGTCACTCTGGTCT
Celera SNP ID:            hCV1255664
SNP Position Genomic:     96093
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,6)   total(A,2|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63559):
ATAACAATTCAGTCCTCATGTGCAGGTGCTGGGAAAGATTCAATGAGATACAACTGAATACACCGCCCTGGCTTTAAGGACATAGACTCATCCCAGCAAC
R
TCCACAGAGCCCCTGCTGGGGACTGCCTTGGTTTCCTAGGACTGCTGTAACAAAGTAACATAACCTGGGGGCCTGAAACAACAGACACCGTTCTGTCACC
Celera SNP ID:            hCV1255665
SNP Position Genomic:     95951
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63560):
GATGTCACCCACCATGCACCAGCTGTGGGATGTCAGTTGCTCCATCTACAAAAATAACAATTCAGTCCTCATGTGCAGGTGCTGGGAAAGATTCAATGAG
R
TACAACTGAATACACCGCCCTGGCTTTAAGGACATAGACTCATCCCAGCAACATCCACAGAGCCCCTGCTGGGGACTGCCTTGGTTTCCTAGGACTGCTG
Celera SNP ID:            hCV1255666
SNP Position Genomic:     95898
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63561):
CCACGACCAGTTCTTTGCTCATGGAGCACAATCGCGTCCTGACAGCAGCCATGGAGCAAAGTCTGATGCACAGCGCATTTAGCTCGGGCAGTCATTCATC
S
ATCTTGCCCATGAGGCAGCCACCACCACAGCAGTGCCGCTCAGGGCCGGGAGTATGTGCCGTTGGAGAAACACTGGACAAGAGGCCAGAATGGATGTCAC
Celera SNP ID:            hCV1255667
SNP Position Genomic:     95705
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63562):
CTCCGTCCTCACTCTCCATACCTCCTGGCCACAAGGGCTTCTGAGTTCAGAAAGGAGAGACGCAGCCCTGTGAAGCCACCCCTGGCTGGTTTTCTGTCCT
R
TGGTTTTTGAGGGTTATTAAGAATTATTCACCCCACGCTGGGCTTGTTGCTGGTGAGGCCCAGTGCTCTGAGCCGCACCTGGGGAAGCGTGACACTCAGA
Celera SNP ID:            hCV1255668
SNP Position Genomic:     95395
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63563):
CCCCGGGCTTCCTGACTCAAATCACAGCCGCTCACTAACCGGGGCTCAGCTTCAGCTGTGCTGTATTTCAGTGTCTGAGATGTTTGGGGATGAGTGCCAG
Y
GTCGCCAGGCTGCCGGCCAGATTTCCATACACCCCCCACCCACAAACATGCTGCCTTTCTGGCTTCTCTTGAGAGGTTGGCAGATCTCTAGCACCAGGTC
Celera SNP ID:            hCV1255669
SNP Position Genomic:     95130
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,6)   total(C,6|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63564):
TGACCTCGTGATCCACCCACCTCAGCCTCCCAAAGTTCTGGGATTACAGGTGTGATCCACCATGCCTGGCCCAAATGAGGGTCTTTAAGAATAAAACTCC
R
GGGGATCGTCACCAAGCCCCACCACTTCCTCTGAGGTTAGCATAGTGCTGGATCTTCTCTGCATCTTCTGTCCTTGTTTTTGGTTTTCATTTTGGTTTAC
Celera SNP ID:            hCV27512872
SNP Position Genomic:     52709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63565):
TCAAAACAGAGCGTGACTTGATGAATAATTTACCTTTGAAAAAAGATACTTGTCCCGGCGCGGTGGCTCACGCCTGGAATCCCAGCACTTTGGGAGGCCA
M
AGTGGGCGGATCACTCGAGATGAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGG
Celera SNP ID:            hCV27501514
SNP Position Genomic:     99087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63566):
CTCAAAACAGAGCGTGACTTGATGAATAATTTACCTTTGAAAAAAGATACTTGTCCCGGCGCGGTGGCTCACGCCTGGAATCCCAGCACTTTGGGAGGCC
R
CAGTGGGCGGATCACTCGAGATGAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTG
Celera SNP ID:            hCV27501515
SNP Position Genomic:     99086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63567):
GATCCCAGGTCCCAAGGAGTGACAGGGGCTTCCTCCCACCTTCTGTCCTTGTCCAGTCATGTAAATAATGTGCTTTTTCTCTCCCCGAGTCTTTTTTTTT
W
AACCTACCGTGGTTCCTCAGCTAACTGCATTCCCTACCCAGGCAGAGACTGTCCTATGCCTCGAGCTTCCAAACGAGACTCAGACCGCGACACAGCCACC
Celera SNP ID:            hCV8880311
SNP Position Genomic:     115548
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,3|A,3)      total(A,3|-,3) ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:63568):
GATGCACAGCGCATTTAGCTCGGGCAGTCATTCATCCATCTTGCCCATGAGGCAGCCACCACCACAGCAGTGCCGCTCAGGGCCGGGAGTATGTGCCGTT
R
GAGAAACACTGGACAAGAGGCCAGAATGGATGTCACCCACCATGCACCAGCTGTGGGATGTCAGTTGCTCCATCTACAAAAATAACAATTCAGTCCTCAT
Celera SNP ID:            hCV27501516
SNP Position Genomic:     95769
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,432|G,1041)   total(G,1041|A,432) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63569):
ATTAAGAATTATTCACCCCACGCTGGGCTTGTTGCTGGTGAGGCCCAGTGCTCTGAGCCGCACCTGGGGAAGCGTGACACTCAGAGGGAAGCAGCCCTGT
Y
CGAGAGCCAGAAGCTCAGGGGCACCTTTCTCTCCGGCCTCTTGGAGGGAGCTGTCACTTGCAGAGGGGCTCCCCTCGCTCCATGAGTCCCACCCCACGAC
Celera SNP ID:            hCV27501517
SNP Position Genomic:     95511
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,20|C,1481)   total(C,1481|T,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63570):
ACTCCTGCCGCCGCATAGGGCTCTGCTGCGTAGGACTCCTGCGGCGAGGGCTCCCTCCTGCCGCGTGGGCTCCTCCTGCCGCGTGGGCTCCTCCTGCCAC
R
TAGGGCACCTCCTGCCGCGAGGGCACCTCCTGCCGCATAGGGCACCTCCTGCCGCGAGGGCACCTCCTGCCGCGTGGGCTCCTCCTGCCGCGTAGGGCTC
Celera SNP ID:            hCV27501518
SNP Position Genomic:     86296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63571):
CTGGACCCCAAGCTCTGGACCTCTACTACCCAATTTCAAAAAGGTCGTAGTATATAGCTCATGTCCCAGAACCAGCCACGTCTCCTCGTCGTCGTTTCAC
Y
GCAACCTCGCCAGCAATGAGTATTTTCATTTAAAAATGTTTTTGTCTGCTGGCTATGTGATTGCAGAGGCATGGCTGGCCCCAGCTTGCAGCGGTCGCTT
Celera SNP ID:            hCV1255742
SNP Position Genomic:     18294
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63572):
GACCTCCCGGCCTCCCCAACTCCCCACCTCCTCACTTTCGAGAGCGCATAAAATCTGCAAATCCCCATTTGTCAGACTTGGGCAGTTTGTGCTGAGGGCC
R
GGAGGGGCTGTGCTTAGTGCTTGGTAGATGATGAGAAACAGCGTGGAGAATCCGGTCAGTGCTAAGTTTCTTTCTTCCCAGTTTCAGGGGGAGATGGTGA
Celera SNP ID:            hCV27501519
SNP Position Genomic:     80914
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63573):
TGGCCACATTATACCCTCCCGTTTGTCTATAGTTCACTTAAACATTATTTCCTGGGAGATCCGGCAGCTCTTCACTCTTCCGAATCAGGCTGTGGGAAAC
R
TTTGTGTGCATCTCGCTTTATTTCCTCTCTTGAACTATTAGGATAAAGTCACAGAGGTAGGATTCCTGGACCCCAAGCTCTGGACCTCTACTACCCAATT
Celera SNP ID:            hCV1255743
SNP Position Genomic:     18128
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,7|G,7)      total(G,7|A,7) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   WICGR7_african_american_pooled(G,34|A,66)   WICGR6_caucasian_pooled(G,45|A,50)   total(G,79|A,116)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63574):
CAGCAGCAGGTCCCTCGGGCGGCGGATGCATTTGATGCATGGATGCATTTGATACCTCAGGGCAGTTGAGCTGCAGCAGGAAGACAACAACAGAGCCCCG
R
CAGGTGGATCCTGAAAACCGACGGCCTCCACCCCCGGGCTTCCTGACTCAAATCACAGCCGCTCACTAACCGGGGCTCAGCTTCAGCTGTGCTGTATTTC
Celera SNP ID:            hCV1255670
SNP Position Genomic:     94998
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63575):
TGATCACCGGTTGTTGGAGTGGCCTGGCCACCTGCTGGGCTGTATGGGTGCTGAGGGCCTGGCTGAGCCCCGTGATACACCCATGGGGGTGGGTCTCTGA
R
GAGCAGTCTGTGTGAGCAGCAGGAGAGGTGGCACCTCAGGTCAGGGGACGCTTCCCCCCAGGCTCTGGAGGGGACAGGATAACACCTGTCCCCAGGCTTG
Celera SNP ID:            hCV1255744
SNP Position Genomic:     16121
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63576):
GGAGGCTGGGGGGGCAGCAGCAGGTCCCTCGGGCGGCGGATGCATTTGATGCATGGATGCATTTGATACCTCAGGGCAGTTGAGCTGCAGCAGGAAGACA
R
CAACAGAGCCCCGGCAGGTGGATCCTGAAAACCGACGGCCTCCACCCCCGGGCTTCCTGACTCAAATCACAGCCGCTCACTAACCGGGGCTCAGCTTCAG
Celera SNP ID:            hCV1255671
SNP Position Genomic:     94984
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63577):
GAGCGTGAGTGCCCTAACCACAGACTTAGCCCCTTCGGGGCCCAGCGCACCGTGCCCTCCTGGGCTCTCTCCTCCTGGGCCTGGATGTGGGAGGCATCTG
R
GAAAAGTCAGGAGGAAGACGAGGAGGAAGCAGTGAGCAGGTGAACAAGCCACCCGTCTGTCCGTGCTGGAGCCCTGGTGCTGGGAAGGAAAGTGCTAGAG
Celera SNP ID:            hCV1255672
SNP Position Genomic:     94735
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63578):
TGTTGGTTGCCCTGCATAGGTTGGCTGCGTAGTGCTTTACGTTCTGTGTAAGAATTGTGGAGTCTTGGGGCCTGGGTGGGCCGAGGGTCCTGAGATATCG
R
TGTGCCCAGCAGGCTTGTAGGGTGTGGCACCTGCCCAGCCCTCAGGGGTCCTGGTGCAGCTTAGCAAGCTCCTTGGCCACCAGTCCCTGGTGACTCAGAT
Celera SNP ID:            hCV1255746
SNP Position Genomic:     13798
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63579):
CTGTTTCCCACTCAGCTTTGTGCTCAGATCCCAGGTCCCAAGGAGTGACAGGGGCTTCCTCCCACCTTCTGTCCTTGTCCAGTCATGTAAATAATGTGCT
W
TTTCTCTCCCCGAGTCTTTTTTTTTAAACCTACCGTGGTTCCTCAGCTAACTGCATTCCCTACCCAGGCAGAGACTGTCCTATGCCTCGAGCTTCCAAAC
Celera SNP ID:            hCV8880319
SNP Position Genomic:     115522
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|A,5)      total(A,5|T,1) ;no_pop(A,-|T,-)   ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:63580):
TAGAGACGATTTCAACGGCGCATTCTTCCATTTCCTGCCTTAATGGGGGGCATTTCTGGGGACACCCGTGAACTGCGGGCTGGGGCTTAGCCTTGTTGGT
K
GCCCTGCATAGGTTGGCTGCGTAGTGCTTTACGTTCTGTGTAAGAATTGTGGAGTCTTGGGGCCTGGGTGGGCCGAGGGTCCTGAGATATCGGTGTGCCC
Celera SNP ID:            hCV1255747
SNP Position Genomic:     13705
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|G,6)      total(G,6|T,5) ;no_pop(G,-|T,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63581):
ATATTTTACCACAACTTAAAGTCTCTTTGATAAATGCAGTAATGTTTTAATTAAACAAAAAGAATGAAAGGGATCTTCATGAGCAGGTGTGGATTGGTTT
Y
TAGGATGTATTGTGAGTGAAAAAATCAAAGTGCAGAAACATATGGGTAGTGTGCCACCCCTCCTGGAAGAAAGATGGGGGATAAGAAAATACATGTGTCT
Celera SNP ID:            hCV1255674
SNP Position Genomic:     94477
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63582):
GAGGGCACAGGGTGGCTCCGGGGCTGGCGGGCGTAGACGAAGCCGCTTTGCTGCTTAACCGCAACTGCCAGCAGCACCCTCTTTCGTCCGCCCCTTTAGA
R
ACGATTTCAACGGCGCATTCTTCCATTTCCTGCCTTAATGGGGGGCATTTCTGGGGACACCCGTGAACTGCGGGCTGGGGCTTAGCCTTGTTGGTTGCCC
Celera SNP ID:            hCV1255748
SNP Position Genomic:     13609
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63583):
GAACCTTGAGGACATTACACTCACTGAAACAAGCCACAAAAAGGACACACGGTGTGACTGCATTTGTCTAAGGTGCCTAGAGTAGTTAAATTCATAAATA
Y
CAGAGAATGATGGGTGCTGGGGCTGGAGGCAGGGAGCGGGGAAGGGGAGTTACTGTTCAATGGGTACAGTTTCAGTTTAGGAATATGACAGGGAGATGGA
Celera SNP ID:            hCV1255675
SNP Position Genomic:     94188
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63584):
GGGAAGATGAAGGTCAAGACAGACAGTAGGGAACCCTGGATTCTTCCAGAGCCCGGGGAGGAGAGGAAAATAGAGGATGAGGCAGGTATCTGCTGCATCC
R
GTGGGCCAGCTGCTGCCAAGGAGGCAGCCTCTGTTGAGAGGGGAAGCAGAGCTGGGCTCCCAGGAGCAGCGAGGGGGCGCAGGACCCCAGATTCAGCACC
Celera SNP ID:            hCV1255749
SNP Position Genomic:     13205
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63585):
AGCACAGGTGAGCGAGACCTCCCGGGAGCTGATGCTGCCGCAGGCTGCCCTCCCTGGCCCACACCAGCCCCAGGGCCTAGAGTGCCCCTCCCCCACCCAC
Y
CTCTCCTTGCCTGCCTGACAAACTCCTAAACACCCTTCAAAACCCAGTCTTTGTCGGCCGCACTTTGGGAGGCTGAGGCGGGCAGATCACTTGAGGTCAG
Celera SNP ID:            hCV1255678
SNP Position Genomic:     93714
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63586):
CAGATTCTGGACTAATTTGCAGGGGAAGCCGCGGCAGGGGCTGAACTTCAGGCTCCAGTGATGGGAGGATTAGTCAAGGAGGGCTCCCCAGGGTTTGACC
K
GAGCACAGGTGAGCGAGACCTCCCGGGAGCTGATGCTGCCGCAGGCTGCCCTCCCTGGCCCACACCAGCCCCAGGGCCTAGAGTGCCCCTCCCCCACCCA
Celera SNP ID:            hCV1255679
SNP Position Genomic:     93612
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63587):
TGTCACCTGCTCTCCAGCCCCTCCTGAGCCCGTGGACCTGCCTGCCTGCCGTGTGTCTGTCTGTCGTCTGTCTGTCTGTCTCTCTGCTGAGGGGCTCCCC
R
ATGCCCTGAACCCAGACAGCCTCCTCAGCCTTTGTGATCCCAGAGTCTCCCGGCCAAACCTGGTTGATCTTTTTTAACCACCACCCTCTTCCCCTCCCTT
Celera SNP ID:            hCV11675928
SNP Position Genomic:     54901
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,13|G,23)   total(A,23|G,49)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63588):
CAGCCCACACTCCAGGACAGGGGCTGCCCAAGGGCAGGAATCCCAGGAGCTGCGGACATCAGTGGCATCTGAGAAGCTGCCTGACTTAGGAGCTCAATGG
M
AGCACCAGGAAGCTGCACTGGGCTGGAGTCAGGGCAAGGGACAGTGTCAGCGATGACCCTGGGGGACAGCAGTGCAGTCAGGAGCTCAGAAAGTACACAG
Celera SNP ID:            hCV11675929
SNP Position Genomic:     54551
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63589):
GAGGACAGAAGGAGGAAGAGAAAGAGAGGTGCTCGCTTGGGGCTGGAGAGTTGCATGGGAAACAGCAGCAACTCAGAGCAGAGCCGGCCATCTCACAGCC
R
CGGGCCTCTCTCCCCTTTCTGGGCTCCTAGAGTTGGAAGTGAGTGGGGCCATGAGGTCCTGGTGAGCAAGAGGAAGGAGGAGGAACTGGCTTTGCAGACC
Celera SNP ID:            hCV27501520
SNP Position Genomic:     74248
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(A,546|G,929)   total(G,929|A,546)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63590):
GCACCCGGAACACCCCCAGCCTCTGTGAGTTTAGGTCGGAAGGCGCTGCGTGGTCTTGGTCTTAATCTACTTTCCAAAGCACATGTCTCGTTCGGGCTGC
R
TCCTAGATGGTGGGAAGACAGGACTGACTGGAAGCTGGTCTGAGGCTCTCTCTGCAGTCCAGATGTGGATGGCAGGGAGCCTCTGCGGTCCTTGGGCACT
Celera SNP ID:            hCV27501521
SNP Position Genomic:     71614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63591):
TCCTCTGTACACGAGGGGCACTCCCATGGGCACTGAGCAGGGGGCAGTGGCAGTGGCAGGAGGCAGAAGGGTCCCTGCCCTCCTGGACTCAACCTTCAGG
R
GAGTGAATTCAGCACACAGGACAGCTAGAAAGGAATCAGCAAGGTGGATGATGGCGAGCGCCATGGAGACAGATCACAGCAGGAAAGAGGCACATGGTGT
Celera SNP ID:            hCV27501522
SNP Position Genomic:     63866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63592):
GGGGCTACAGCCTGCCCAGCTGGCCTTCTTTCTAAACACAGACCTCAGGGAAGTGAGGGTTGGCCCCCATTTGCCCCACACCGGACTGGCAGCTAGCCAC
R
TGGCCACCTCAGAAGCAGCTGCCTGCCACGCGCATGGAGGGAAGGGAGTGGCCGGCCAGTAGGCAGGGAAGGGAAGCTGGTGCTGCTGTCTGTGGGTGCC
Celera SNP ID:            hCV27501523
SNP Position Genomic:     63306
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,337|A,754)   total(G,337|A,754) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63593):
AATCAGCATCTCTTCCTTGCTCCCGTGTCTGCGGGTTGACCAGGCAGCTCGTCTAAGCTGGCTTGGCTGGGTTTGTCTCCAAGCTGCAAGTTGGATCCCC
R
TGTCCTCCATCTTCCCATGCTTAACTGGGGCCTACCCCAGGCATGTCCTTCCCATGGCAAAAGTACCAGAGGAAAAGCAGAAACATGCAGGGTCTCTTAC
Celera SNP ID:            hCV27501524
SNP Position Genomic:     58472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63594):
GTCCCCCCTCTCGGGAGGGGGTATTGGGTAGGACCATCCAAGAAAGGGCAGAAGACCAAGGGCAGTCGGGGTCTAGAAAGGAGGGCGCTGGCCCTGCTGG
R
CGCTTCGGAGCCCCCACTGTTTCCCACTCAGCTTTGTGCTCAGATCCCAGGTCCCAAGGAGTGACAGGGGCTTCCTCCCACCTTCTGTCCTTGTCCAGTC
Celera SNP ID:            hCV8880320
SNP Position Genomic:     115405
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:63595):
GATTTCATCAGTGAAACAAAACATGTACCTGAACTGCATCCTCAGAGAGCCGGGAGCAGCCTCAGTCCTCAGAAGGGAAGGGGTGAGGTCTGATGAGCAG
R
CAGGAAAATCCCAGGTGCAGACCTGCCAGCTCAAAAGGGCTGCCCACAGGTACAGACCATCCAGCTCCAAGGGCCTGCCCCTAGGAGGGGCCAAGTAAAT
Celera SNP ID:            hCV27501525
SNP Position Genomic:     57743
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,59|G,1438)   total(G,1438|A,59) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63596):
CACGACCTGGTTCCTGGATGTCCTGCTTGCTCCACACCCATCTACAGGGAGGATGTGAGGGGGCTCTGCCTCCTAGGGCCAGGTCCCCCCTCTCGGGAGG
R
GGTATTGGGTAGGACCATCCAAGAAAGGGCAGAAGACCAAGGGCAGTCGGGGTCTAGAAAGGAGGGCGCTGGCCCTGCTGGGCGCTTCGGAGCCCCCACT
Celera SNP ID:            hCV8880321
SNP Position Genomic:     115323
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:63597):
GGGTTGCAGAGCCATGCTCTGAGCATGCTCCCCCTCCTTCACCATGAATGTGTTTTCATTTTCCACCCCCGGGCAGCTTCATGATCTTTCATTGCAATCT
Y
AGGCCCTGGTATCCACAGGCTCTCAATGCAGCCTAGGACAGAAGACTCTAGAATTCTGCCTCGGAGCCCTGTGATCCCAAACACTCAGCCGTGGCAGGGG
Celera SNP ID:            hCV1255750
SNP Position Genomic:     12163
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63598):
TCCCCAGGAGAGAGCACACTGGGGGAGATGGGGTGGCACACCTGGGCTTCGTCCTGTCACTGCCCACTGGCTCGAGGCTTTCCTGCCTGCCTGGGCTTGG
S
AGATGCGTGAGACTCCCTGTCTCATGGGCCTGAGCAGATGCTGGGCCCTCTTGTCCTCTGCCACATCCTGGGGAACTCAGATGAAGGCCAGCCTCCCTCT
Celera SNP ID:            hCV1255751
SNP Position Genomic:     10791
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63599):
CGTGGGAAGCCCCACACTGCTCTTTCCTTGGTGACGGGTGACCCGCCATGTTCAGGCCCCTCCTGGTCTATCTTCGGGTGAGTCTATTAAGGGATACACC
R
TCTCCGCTCAGCCAGTCCCGAGGAGGCAAAGGGAACAGGACCCTCTTCCCCAGGAGAGAGCACACTGGGGGAGATGGGGTGGCACACCTGGGCTTCGTCC
Celera SNP ID:            hCV1255752
SNP Position Genomic:     10644
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,5)      total(G,5|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63600):
ATCCCATGTACTCGGAAGGCACATCCTGATGTGGCAGGGCTGTCGTGGAGCCTGGGAGGCCGCATTTCTGATCTCATGCTGATGCTGGCCCATGGACCAC
S
CTTTGCCTGGGGAAGGTGCAGGGAGAGAGGATGGAAGCAGAGAGCTAGGAGGCTATTGTGAGAAACCACCCAAGAGCCGCTGGAGGCTCAGAGCAGGGTG
Celera SNP ID:            hCV1255680
SNP Position Genomic:     93385
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,5)   total(G,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63601):
AGGCCACAGCTGTCCCACTGTCTGTCGTTTCAGGATTTTTTCTTTCTCTGCAACTTCTCCTCCCCGACAAAAACCCCAGCCTCACCCCTCCCCTTTCCCC
M
AGTGCCAAGAGTAAGCTCCTGCTCTGCTAAGGAAGCCGCATTCAGGCCCCGCGTTGCAGGTTGCAGGGTTTGGGGACCTACGTGTGGAGAGTCACATCTG
Celera SNP ID:            hCV1255753
SNP Position Genomic:     8742
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63602):
CTTCCTTCTGACTTCAGTGTCTGGGACCCAGATACTGGAAGGAACCAAAAAGTCACAACATAAAGGCTGCGTAAACTGAACCAGGATGCAGCCACAGAGC
R
GAGGGCTTTAGAAGTCATGTTTTAGGTCTAGGGGCGGTGGCTCATGCCCGTAATCCCAGCACTTTGGGAGATTGAGGCGGGTGGATCACAAGGATAGGAG
Celera SNP ID:            hCV1255681
SNP Position Genomic:     91381
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63603):
AGCACTTCCGCACCTCCCTACCTGCTGCTGCTCCCAGGATGCAAAGACCCCACTGCTGCACCGCGTCCTGCGGCATTAGCAGCAGCCGGGGTACCTGCCC
R
CCTTCCCACCCCGCCAACCAGCCGCATCCTGGTGTCCCTCCTCCTGGCATTTGTCCTGGGGGCTCTTACAGGGACTGTGCTTTGCCCGCAGCATCCCGGG
Celera SNP ID:            hCV1255754
SNP Position Genomic:     8131
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63604):
TCCCTCCTGCCAGGCCTTGGCACAAAGCACTTCCGCACCTCCCTACCTGCTGCTGCTCCCAGGATGCAAAGACCCCACTGCTGCACCGCGTCCTGCGGCA
K
TAGCAGCAGCCGGGGTACCTGCCCACCTTCCCACCCCGCCAACCAGCCGCATCCTGGTGTCCCTCCTCCTGGCATTTGTCCTGGGGGCTCTTACAGGGAC
Celera SNP ID:            hCV1255755
SNP Position Genomic:     8106
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,6|T,7)      total(G,6|T,7) ;no_pop(G,-|T,-)   ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63605):
TGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGAAGGGGGAGGTTGCAGTGAGCCGAGATCATATCACTGCACTCCAGCCTA
S
GCCGTAGAGTAAGACTCTGTCTCGAAAAAAAAAAAAAAAGACAATAGCTGGTTATAGAATGATTTGCCCCTTGCTTTGAAGTTGCTGGATAGGCGCTATC
Celera SNP ID:            hCV1255683
SNP Position Genomic:     89433
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63606):
CTGCACCAGTTCCTCGGGCTGTTTACAGCACACACACCGCCACTTCTGACCCTGAGCCCCTACTCCTATCTTAAGCTTCTCCCTCCTGCCAGGCCTTGGC
R
CAAAGCACTTCCGCACCTCCCTACCTGCTGCTGCTCCCAGGATGCAAAGACCCCACTGCTGCACCGCGTCCTGCGGCATTAGCAGCAGCCGGGGTACCTG
Celera SNP ID:            hCV1255756
SNP Position Genomic:     8027
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63607):
AGGCGCCTGCTGCGTAGGGCACCTGCCGCTTAGGACTCCTGCCACCGCGTAGGGCTCTGCTGCGTAGGACTCCTGCCGCCGCATAGGGCTCTGCTGCGTA
R
GACTCCTGCGGCGAGGGCTCCCTCCTGCCGCGTGGGCTCCTCCTGCCGCGTGGGCTCCTCCTGCCACATAGGGCACCTCCTGCCGCGAGGGCACCTCCTG
Celera SNP ID:            hCV1255684
SNP Position Genomic:     86228
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63608):
CTTCCGAAACTGTCGTCTTCCATTATCCACGAGATTGATAGTATTTTGGGCAATAAACCCTACAGCAAAAAGGACTACAGATCCTAAGCCGCCCCCGCCC
R
CCTGCTCGGACAGTTTCCGTTCCCTCCTAGTCTCTGTTCGCTCGCTTAAGCTGTTTTGAAGCCAAGTGAAGAGTGTGGTTTGCATCCAAGAGAAAACACC
Celera SNP ID:            hCV25991041
SNP Position Genomic:     113094
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,26)   caucasian(G,40)   total(A,2|G,66)
SNP Type:                 UTR 3


Context             (SEQ ID NO:63609):
GGGGGCAGGGGGCAGGGGGCAGGGGGCAAAGGGCAAGGGCAGAAAGGAACCCACGTAGCCAAACGGCACCCAGCGGCCCCGACCCCAAGTGTCCCGACGA
S
GGGGGACGCCTGCGACTAACGCGGGGACAGCCCCCGCCGCGCGCCACCGCCGCACCCCAGGCACCGGGCCCCCACGCAGGGACGGCGTGGACCACCCTAC
Celera SNP ID:            hCV1255757
SNP Position Genomic:     6567
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63610):
CTGTGGCCTTCTATCCTCATGGATCTTCTTCTGTCCTCGTGGCAGCCACCGTGAGAAAGGCAGCCTCGTGAGCCCATTCTGCAGATGAGAACACTGAGGC
W
TCGGGCCACTCCATAAAATGCCCGGTGTCCTCCAGCCAGGAAAGTTGTACCAGGATTTGGGCTCTGGCTTCAGAGCCTCAGCCCATAGCCGCCACCCGGT
Celera SNP ID:            hCV1255686
SNP Position Genomic:     85273
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63611):
GAGCTGGAGCCGGGGGGCGGGGAGGAGGGGCGGAGGGGCGCGGCCAGGCGGGGTCCGCGGACTCCGGCCTGGGAAGGATGCGCGCGGACTAGGGCGCGGG
S
AGCCAAGGCCCAGAACATCGGTACCGCGCTCCCTTCAGCCGAGGGGCTGCAGAGAGGCCAGGGGGCAGGGGGCAGGGGGCAGGGGGCAGGGGGCAAAGGG
Celera SNP ID:            hCV1255759
SNP Position Genomic:     6399
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63612):
CTGGAGTTTCCCGATGGTCAGCCCAGGCACCTTGCTTCCCTCCACCCGGGCTCAGCCCCCATCTGGCTCCCGGTGCTGTGACTTGTATGTGGGGAGGATG
S
CGACCACTCATGTCAGGAGCAGGGCCTCCCTCCTCTTCCCTGCCGGGGCCTTTCTCCAAGGCTGGGTGAATGTGCCCAGGATGGAAAAGGGAGGGTCCCA
Celera SNP ID:            hCV1255687
SNP Position Genomic:     81464
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63613):
TTCTCCATGTGCCAATCCCCCAGCGGATACCCCACTCTCCGGAGGGAGAACCCCAAGCAGGTGCCGCTGGGCATGCGCCAGGGAGGCTGTGACCGGAGCA
R
GCACTGCCTTGCTTGGAGCTGGCTGCCTACAAGCTCAGACATCCAGCCCGCAGAGTCCACCCTGGCTGCAGCGCCTGCCCAGGCCTCAGGCCAGTCCTGG
Celera SNP ID:            hCV1255688
SNP Position Genomic:     79679
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63614):
CTCAGCCTCCCACAGTGCTGGGATTACAGGCATGAGCCACCACACTGGACACTTCCTTCTTTTTATGGCTGAATAACACTTCATTTTCTGGAGAGGGCTA
Y
ATCCTGTTTCTCCATTTGTCGGTTGATGGGTGTTTGGGTTGTTTCCAGTTTGGGGCTATTGTGAATAAGGCTGCTGTGGACATTTGTGTTGAAGTTTTTG
Celera SNP ID:            hCV1255689
SNP Position Genomic:     78263
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Gene Number:                 387
Celera Gene:                 hCG22868 - 79000076181081
Gene Symbol:                 CTPS
Protein Name:                CTP synthase
Celera Genomic Axis:         GA_x5YUV32W802(42117770..42162637)
Chromosome:                  Chr1
OMIM number:                 123860
OMIM Information:            CYTIDINE 5-PRIME TRIPHOSPHATE SYNTHETASE;CTPS


Genomic Sequence (SEQ ID NO:12547):
CCACCAGGCTCAGCTAATTTTTTTGTACTTTTTGTAGAGATGGGGTTTTGCCATGTTGCCTGGGCTGGTCTGAACACCTGCACTCCATCAATCCACCCAC
CTCGGCCTCTCAAAGTGCTGGGACTACAGGCGTGAGCCACTGCACCCAATCTACTAAGTCTTATTCATTCTTTCTAACTATATATTTTTTGTACCCATTA
ACCACCACCTTCCCCTCTGCCTCCCTTAAAATATAATTTGGTAAGTGCTATGCTCTGGGACGTCCCAGCAGCAATAAAAGAATGGGAGAGAAGTGCTAAC
CCCAAATGAGGGAGAGAGTCTGCCCAAAAAAATTACTTTGGGGAAGTGAAGACCAAGTTGAGATGTGATGTGATGTTAGCAAGAAAAAGGCAGGAAGCAG
GGGGGTAGGTGAGAGCCAGCAGAGGTCTATGCAACGATTCATATGTGGAAAAGAATACATGGCATGTTCAGAGAACTGAAAGAATCATTGTGGCTGGAGC
ATGGGGTGGGTGATGTGGCTAGAGAGGTAAACTGAGGCCAATTTTTGCATGGCCTCATACATCACAGTGTGGTTTTGACTTTATCCTGAAGGTAATGGAG
TGTCATTAAGATGAAAAATTCCTATTCTTCCTTTCCTTTGCCTCATTTTTTGCTCACATTTTGTAGACACACACACAAGTGGCTTTAAATCCTTTCTTGA
ACAAAGTGAGGACATAAACCAACAAATTCACTAAATAACATAATTACAGCTAGCTCAAGTGATGAAAATCCAACATCATACAGTCATATTAAAATAACAT
ACAGCCAAAAAGAATATCTACATATGCACAGAGTGTGCTTGAAGGATAAACCAGAAACTGGTAATAGTGGTTGCTTCTGGGAGGAAACTTGGGTGGCTGG
GGAACAGGTATGGAAGGAGAGCTTTTACTGTGTATTCCTTTTTAACACTCGAATTTTACGCCATTTACATATCTATTAGAAACTAAATAAAACATAAATA
GCCCCAATCTGGGAAAAAAACAACAAATCTATCACTAGTTGTAGGCTCCCTCCTGCCCCATTTCTCAACCAGATAATCCATTAGAATGCCAGACTAGAGT
GACAGCGTATTCATATAAAAGTAGAAAGCTCGAGGAAGTCCTGGAGAAGAAAAAATAAGCAAGACTTGATGATGGGCAGAATGAGGGACAGAAACAGAAA
GACAATCCAAAGCAAACCTTCGCGTGTGCTCTCAGGAAGGTGTTTACATGTGTTCAGTCTTGGCTCCATCGTCTGTAATATAGTAATAATGACAGCATTT
GCATTATAGGGTAGTAGTGGGAGTTACAGATGCTAGATGCTGGTTACTAAAAGGTCCACAAGACGTACTTGATAAGGAAAGTGACACACAGAAAGGCTAA
GTAACCTCAAAGAGATTCCAATCTGGTATGGAGGAGACAGATAAGTGAACAGGCAATCTCAGCAGGCTGTGATAAACGCCTCAGAGGAAGCACTGGGTGT
GCCACGGAATGTGCGGGAGGCACCCTGTCTTAGCCTGGGTTCCCTAGGAAGAAAGCCGGAGGTAGGTTCTTGAGTCAGCGAGTGACTGAGGAATAACCTC
AGGTGAAGACTGTGAGGGAGCGAGGGGAGCATGGGGCGGGGAAAAAGTGAGACAAAGATATGTGTTTAGCTCAGGAGTTGGCACATTTTGGCCTTCAGAC
CCAAGCTCTATTTCTGTAAAAGAGTATTTTGTGAACACAGCTATAGTTCTATTGAAATAAGTCACATTCATTTAATCGATATATTATCTATGGCTACTTT
TGCACTATGAAGGCAGAGTTGAGTGATTGCAAGAGACCATATGGCCCACAAAGCCTAAAATACAGACTGGTTCTTTTCAGGAAGTTTGCCTCAGCCTGAT
TCCACGGGGAGCTCTAGAGCACCAATGGGATCATAGAGTTGGCCCACGTGTAGGCGAGGCGCCTGGCTCACCTCAGGACCTGGGCTTGGAAGAGAACTTG
GGGTTCAGGACACATCCAGCCTGGGAACATCAATTTGGGAGTAGTCAGAATAAGGATTTTTTTTGTTTGTTTTGTTTTTTAGACGGAGTCTTGTTCTGTT
GTCCAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACTACAACCTCCGCCTCCAGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATT
ACAGGCCTGCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGACGGGATTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACATTGTGATCC
GCCCACCTCGGCCTCCTAAAGTGCTGAGATTACAGACGTGAGCCACTGCGTCTGGGCCAGATGGTTTTAATGACTAGATAATGACTTTAGAGAGAAGGGA
TCCTAGAACTGAGGCTTGGGGCAATGTTTATAGTTCAGGATAGAGGAAAAGGAAGAGGATCTAGGTAGGGAGATCTAGAAGGAGAAACCTGTGAAATAGG
AAAAAATGAACAGCAAGTGGTTTCCTAGAAGCCAAGTAAAGGACACCCACCTTTTAAGGAGGAAATGATCAGCTGTGACAAATGCTCTTAGGGAAGTGGT
CAGTTTGGGGGCAGCTCTGGGGCTGTATAGCTGCACCTAGGAGCCCAAAAGGAGACTGGGCCTATGGTGGGGGAGAGAAGCAGCCCAAATATGTAAATAC
ATACACATGCGCACGTGCACACACACATATGCATTCATGCCATGCACATACAGCCACACTGTTGTCTATTTTTTTTTTTTTTTGAGACGGAGTCTCGCTC
GTCGCCCAGGCTGAAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGG
ACTACAGGCGCCTGCCACCACGTCTGGCTAAGTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTTGCAAACTGGTCTCGAACTCCTGACCTTGTG
ATCCACCCATCTCAGGCTCCCGAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCAGCCCACTGTTGTCTTTATTTGGGACTTACGGACATTAGAGAT
TGGAGTCTAGGCTGATGTACAAAGAAGAGGTCTGAGAACATGGAGGTTAATTTTTGACGAGATCAGTTTCAGTGAAATTATATGAGCAAAATATCCAGAT
TGGAATGAGTTCAAGAGAGGGAAGAAATTGAGACAGCAAAGTACAAACAACATTTTTTAGGAGTTGTGCTGAAAAGTGAAACAGAAATGGAGGGGGAGCT
AGAGAATGGCATAGAGTCAGGAGAGGGGTTTTAAGATGGAACAAATTGCAGCATGTTTGCATCACGGTAGTGGAAAAGATCTACTAGACAGGGAAAGACT
GATGACGCAGGAAGGGACACTCTACTAGACATTCTTGAGTTGATGAAAGGATATGGCACTTGCATACTAGACATTCTTTGAGTTGACAAATGGATATGGC
ACTTGGAGCAAAGAGGAGGTTGACCTCTGGGAGTGTGGGCAGTTTGTCCACAGTAACAGGAGACAACGCAGAGCTTGTGCGCAGATAAAAGTGGTTGGTG
GATATGAAAAATCTACTGATGGCTTCTATTTTCTCGTGAAATGGGAAGCAAGACCACCAGCTGAGGAGAATATGGGGGAGGAGATGGAAGAGCTTTGAGG
AAGAAGACAATGTCAAGTGGTCATTCAGAGGAGTGGTTGGGTGAATGGCTCATTTTTCCATCTCCCATAGCATCTTCATTACCTCAGCAAGTATGTTCTC
AGCATCTGTTATGTTCCAGGCACTTTGATAAACATCAAATGCTTCTTGAAAGAAGATGTGGCTGTAGAGTACCTTCAAAGACAACCCAAACTTTTTTTTT
TTTTTTTTGAGATAGAGTCTCACTCTGCCCAGGCTGGAGTGCAGTGGTGGGATCCTAGCTCCCATTGGCCTTGAATTCCTGGGTTCAAGCATTCCTCCAG
CCTCAGGCTCTGGAGTAGCCAGGACTACAGATGCGTGCCACCATGCTCAGCTAATTTTTGTATTTTTTGTAGAGATGGGGTCTCACTATATTGCCTAGGC
TGGTCTTGAACTCCTGGACTCAAGAAATCCTCCCACCCTGTGTCAGCCTCCCAAAGTGTCAGGATCACAAGTGTGAGCCACTATGCCTGGCATTCCAAAC
ATTTTTTAGATTTGGAGCTGAATGCAGCATGGGCAGGTTGTCAGGGTTGAAGCACTGGTGATCCAGATCTGGAAGGAGCCAGAAGCCTCTAAAAGAGGCC
ACTGCAGGAGCCTCCTGACCTGGTTTCTGGGAATCCATCTGCTTCAATGATTTTCCTAAAACACAAATCTGATCCCATCACATCTTTTTTTTTAAAACTC
CTTCAGTGAAGATAGTTAAGAACTTGTGGCAGACTGCTTCTAGAGAACAAAACAGGAACACTGGGGTACAGAAATAAGAGATTTACTTTTCATGGATACC
CTTGTGTAGTGTTTGGGGAAAAATTATAACCATGTACATATATTCACTATTCAAAGGAAGGTCAAAAGCCTCTCAAAAGTTTCTACAGCTTTCCACTATC
CCTAGGAGAAAGAAAAGCCTTTACTTGGTCTATAATGCTCTTCACCGTATGGCCCTACCCAACTCTTCAACCTAATCTCATGTTAATCTCGCTTCCTGTG
GCCCTTGTGGACTTGGCTAGACTGGCCTTCCAATTCAGCTGTGCCGGCCTCTTTGGGCTTGTACACAGGCTTTTCCTTCTGCCTCACTTTTAAAAAAAAA
TTATTATTACTATTTTTATTTTATTTATTTATTCTTTGAGAAGGAGTCTCGCTCTGTCGCCCAGGCTGGAATGCAGTGGTGCAATCTTGGCTCACTGCAA
CCTCCACCTCCCAGGTTCAAGCTATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCCACCACCACGCCCAGCTAATTTTTGTATTTTTA
GTAGAGACGGGGTTTCACCATATTGGCGAGGCTGGTCTTGAACTCCTGACCTTGTGATCCGCCTGCCTCGGCCTCCCAAAATGTTGGGATTACAGGTGTG
AGCCACTGCGCCCGGCCTACTATTATTATTTTTATAAGAAACGGGGTCTCGCTATGTTACCCAAGTTGGTCTCGAACTGTTGGGCTCAAGCATGTCTCAC
TTTCTTATCCCCGCCTCTCCCTTTCCCATCTTTGCCGTCTACTTAGGTCTCTGCTTCAAAGTTACTTTTTCAGGGCGGGCTTCCCGCCTGAATTCCCAAT
CACCACCGGACTTGGGTCAGTCCCCGCGCTGGGCACTCACTGCCCCGGCACCAGCATCTCTGCAGCAAGCACCCATAACAACCATAAAGTGTAATGAGCT
GCTCAGTGTGCCTCCCTACATCGTTAGTCCGAGGAGAGGGTCCCTCGGTGCCCAGCACAGTGCGTGGCACAGTCGGTGCTCAGGGAGCGATAGCTAGATG
AAACCGTACTTTTCGGGATCCTAGTCCATCCAAAGCAGCCGCCTTCGGGGCAGGTGTGGGGAGGAGGGAGGCCGACGAGGAGCCAACGCCGCGCGACCCT
CCGCACTTCCGTCTTGGAGGCCAGGGTGGCGCTGCCGCCGTCCCTCGCCCGGAGGCAGAGATGCGCTGGCGCATCACCGCCAGGAGCCCACAGTGAAAGA
CCATCGGATGGAAGGCGACGCCCAGAACTCCAGGAGACCGCTGTGGGAGGACGCGAGGCCAGGTGACGAATAGGCCAGGCGTGAGTTCCCAAACAGCCTC
CTCCCCTTCAAGAGAGTAAGCTTGGGCCACAGGCTGGGACGGAAGCAGAGGGGCAGACACGCCACCACCCGCCCGGCCTCGAACCTACGGCGGCACAGTT
CAGCGGAGGCGGCCCAGCGGTCCTGTCCCGCGCCTGCGCACTCCAGGCCCCGCCCCGCCCCGCGCCCTCCAGGCCCGGCCCGCCCTCCAACCTCTGCGTG
CGCACAGCCTAGAGCCCGCCTCCGTGAAAGACTGCCGGGCGCATGCGGTCGGGGKTGTTCACTGGCTGTCCGGGGCTCCGCGCGCGTCGCCGGCCCAGCT
CTGTCGCTGACGGGAGGATCTGAAGCCGGCCGCAGGTAGGCTGACTCCAGGGATCCCGGGGGGGATCTGTTCTCCCGCGCAGGAGTCAGCGGCGCGAGCT
GAGCCCGGCGCCGAATAGCCCCGCCGCCGCGGTGACGGACGTCGCTCCTACCAATCAGGGGCGAGGTGACTCGGCGTCCTGCCCAATGGGCTGTGTGCCT
AACGGGAGTGGGGCGGGCGCCCCGGCCGGCGAGCTGCCGGCTCCCGCGCGCGGGCCTCGTGGCCGGGCGGCGCTGGGGAGAGGGGCCAAGCGGGGCGCGG
GGCGGCTTCAGAGGCTGCGGGGCCTGCGCTGCCGCGCTGGGCCGCGCCGAATCAGCTCGGCCGGGCTCGTCGGACGGAGAAGGCCGTAGGGGAGTGGAGC
GGCGCCCCCCCCCACACCCTCCGCCCTTGCTCTTCGTCTGCGAGGAAGCCCGGCAGTCGCCCATCCATTCAAGCAGTGCGGGCCTCGGGCCTCCGGCCTC
GGCGCGGGCTCAGCCGCCCGGGGCTGGGCGCGGCAGCTCCGCGCCGTAGGACGAGGGGGCCTGCGAACTCGCCGGCCCTGGGCCCCGCGGCTGGCCTTTG
GGCCTCACGGCTTCCTCCCTTCCCGGCGGCCGGGGGTCGGGGCGCTGGCGGTGTATAGAGCTCACCACGTTTGCGTGGCGCCCTTCCGTCCACGCTCGTT
ACAGTTTCGAATCCTCAGCGGCCCTGTGACGCGGGCGGCGCAGAGATTCTCACCCCCATTCCCCGAGGTGAGAACCCGCGTTGCAGGCAGCTCAAGTGAC
ATGATTGAGGTCTGCACACTAGTGATGGGGGCTGGCACTTCATCTCATAACATTGAAAGAAAAAGCATTTCCCCCCTCAGTCTTTGTTGAATTTCTCTGA
TGCGTCTTGATTTACGTTACTTCTGTGCCGGAAAACCTTCTTGCGCCTTCCGTCACCTTCAGGATTAAGTTCAGATTGGGCATGCCAGTTTGCACATGAT
CTGGCCCTTGCCTACCTTTCCAGTTTATCTTCCACTGTATATCCCTGCTTCCCCGCCTTCCCCCTCACGGCCTTACCTCTGTTCTCTGTAGCTGCCCTGC
ACCTGCCTGTTCACCCTGTTCCCTTTCCTGTGCTCTGAGTCGTGCAGTCAGTCCTTCAAGGCCCATTGCAAGTCATATCTACAAAACAGGAGCCGCCTGG
ATCCGCCCACTACCCCCAGGACTTGTCTCACCTTCCTCTGATGGCCATGGTACTGAAAGCGTCTGCTCTCATCGTCCCCCTTTATAGTCTAAACATGTTT
TCTGTCTGCTTCCACCGTCACTGAATTACTCATTTATTTGTTAATGTTTCATCTCTCCAACTGGACTGCCAGAAAGTTGAGATATGGGCCCAAATCTGAT
TAATGTTTGCAGTCCCCAAGCACAGTAGCTGTCATGTAAGTCAGTAGCCCATAAGGATGAATGAATGAGYCTCCCGCCTGATCTTTATGTACACTGGCAT
ATGTATTGCCAGGCACTGAGACTGCAAGAATCTAAAGAGAGAAACTAAAGAACGTAAAGAGAGATGTTAAACTCTTAGAGTAAAATTGGGACAAATCAAA
TGTAATTGGATGAGATGAATCTTTTGTAGAAGTAACTCACTCGGTGGCAGAGGAATTTCTAGGATCATCCAAAACTTAGGGAGACCAGGGTATAGTCTCA
GTAAGGTATATGTCTGGTTAGAACATATCTAAAATGTACCTAAGACTGATTTTCATGTGTCAATAAGGAACTGTAAAGTGAGAGACTTAGGGTCAGATAA
GCTTGGAGACACCGCATACTGTATAGCAGTGATCACAGTGCGAGTTTACTTGCTAAACACTCCCAGGATTCTTGCGTTAAATGACTTGGTTTAATCAGCR
TTTCTCTGATTTATATCCATAACACCCTTTTTGAGAATCCCATGTGCATTTTGTTGAAACCAGGGAGCATGCTTTTGGAAATGCTGCAGCAGAGGATGCA
AAGAGCCTTTGGAGCGGGGAAGACTTCTGAGCATTCTTCCTTCCCTGCCAAGTGTGTTCTTTCTTGCTCTRGGGAGGGGGTGGGGCGGGGGAATGCTTCG
AGCACAACTCCTTAGTTTTCTTGTTCCTTAGTTTATTTTTATCATAATTTGGCTTCACATGGAACGTTCCTGAGGAGGAAAATGTCCTGACCATGCCAAA
GTAAGCATTTTCTGCTACTTTCTAATTGTGTTTTTCATTTTGGTCACATTTGGGTTTGCTGACCAAATGGACGATCCTGGACCTCTGAAGCTGGGGACCA
GTGATAAATCCTCCGTGGTGAGCCTGTCACGGTCTCCTCACCTCTTGTCGATGCTGTTTTCACCTGCATCTTGACTCTGCTGCCCTTATATCTTATTTCT
CCTTTCCCTGCCACCGTGGCACTGCTTTTTGGATTTAATCTCATCTCCCCTCTCTTTGAGTCCTCTGCCCGTCATGTGCTTCAGACTGGTTTCTTATCTG
ATGTCCCTCTCCCCCAGTATTTACAGTCTCTCTTCATTGCATGCCTGGGAGAGATTTCTGACAAGGAGCAAGTTGTTGTTAAATTATAGAAGAGAACTAC
TTTTTTTTTTTTTTTGAGGTAGTCTTATTCTGTCGCGCACGCTGGAGTGCAGTGGCATGATCCCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCGA
TTCTCCTGCCTCAGTCTCCTGAGTAACTGGGACTACAGGCGTGCGCCATCACAGCCGGCTAATTTTTGTATTTTTAGTAGAGATGCGGTTTCCCCATATT
GGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCTCCTGGCTCTGCCTCCCAAAGTGCTGGGATTACAGGCATGARCCACCATGCCCAGCCAGAGA
ACTACTTTTAATTAAAGGAATTTTGGTTTAGCTGCAACCACTTTTAAATGTTGATGTTCTTTCCTTTTAGTCTATCTTTTGTAACCTAGAGGAGCTGTGT
TTTCTTGATGATATGTTGTAGTTTAGCCAAAGACATTATTTATTTCCTGGAGAACTGGAGTACTTATCCAAGTTTGAATTTTTTTCCCATGTAGGGAAAA
TAATGAGGCACCTGCCTGGTATCCCAGTGTCTGGCAGTGATGTCAGCAAACATTTGGGGTGTAGTGTTCTATCAGCCAGCTTAGAGCTGGTTTTATTAGG
TTGACTCTGAAGGTTATTAGAAGTCAAAGCTTTAAACAAAAGCTGTGTTATTAGAGTAGCAGTTGTTTTTCTACACGTATTTGACTAAAGCCATTCAGTG
ATCCAAGAAATGTTTGTTTTGATCCTATTTAAACCTGACGAGAACCTTCTGAAGTCCTGTGACAGAGAAACTGAGGCTTCAAGAGGGTTCATAGCTAATA
ATTGGCAGAGCCAGTGTTTGAACCCAGATGAGTTTGGTTTGTTGAGATACATTTATATCATCTGTAATTTTTCCTTCTTCCAGGTCAAAGAGTAAAATGA
AGTACATTCTGGTTACTGGTGGTGTTATATCAGGAATTGGAAAAGGAATCATTGCCAGCAGTGTGGGCACAATACTCAAGTCATGTGGTTTACATGTAAC
TTCAATCAAAATTGACCCCTACATTAACATTGATGCAGGAACATTCTCTCCTTATGAGCATGGTAAGCACAGTGGATTTCTTCATAATAATTGCATGTGG
CAGAACATGTCAGCACTTGGGAATTATGTGCACGGTTTGCATAACTTTTATTTTCTGCCTTCTAACAGGTCCCTTAATACAGCAGAATGATACTTTTCTC
ACCTAGAAAGGAAGAAGCAGAATTCTTTTTTTTTTTTTTTTTCTTTGAGACAGGATCCCACTCTGTCCCTCAGGCTGGAGTGTAGTGGTGTGATCATGGC
TCGCTGCAGCTTCCACCTCCTTGGCTCAAGCGATCCTCTCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTAAATCACCATGCCTGGCTAATTTCT
AAATTTTTTGTACAGGTGGGGTTCCACTGTGTTGTCCAGGCTGGTCTTGGGTCCTCCCACCTGTAATCCCAAAGTGCTGGGTTTTATAGGTGTGAGCCAC
CATGCCCRACTGCCTTTTACTTCTTTGTTGTTATTGAGAACCTGTCAATGGTGTGACATACARCTGTGGCTGTTACTTCAAAGATTAATTGCTTAAAACT
GGGAGAGATGTTAAAACATACCTCTTAAGTTTTAAAATTCTGCATTCGTACTCCTACTCTCTAGCGTTGAGGTGAAAATATGCAAGCATTAAATGTCACT
AGTGCAGAAATCCTCGTAACAAATGGCAWCAGGAAAAGATCCATATACCTGAGTGATATTTAATACAGAATTCTTGAGCAGAGGATGAGTTACCTCTCTG
AGGGAGAAAATGAGACTTTTTTTCCTTTCCTGTGTTTGAGCTTGTCTCCTATTGTGATGGTAGGAATGAATCATTCTGGGCAAAATTTCTAGAGTGAAGT
TTCATGGAATGAATGTGCAACAAAAGAATGGGGTAAATATGTGCAGTTTCACAAAGTTGTTTAGAACAAAAGCAGAGCTCGGAAGCTGATTTTTATAATC
AGCACAAGCTTAATATGCATATATCCAGGTTTTGAATCAAATATTGTTATCATACTTTAAACCATATTATGCTCAATTAGGAGACGTTTCTGAAGGTTCT
TTTTCCCTAAGCAGCAGATGCTGTATACTACTGTAAAGTCCTGTATGCACAGCCCACTGGGCTGTCATTTCTTCCCATCCCATGCTATTTTATAACTCTT
CTTAAGAATGAGTTTGTTGACAGGCTAGAAGTATGAGGTTACCTTTTAGAGAATAGCTGGTAATTTTTCTTTTTGTGTGTCATATTTAGTCTTCTAGAAG
TGAATTTCTGTGCTTCCTATTAYGTAATTGCACACCTTGTTAATGAGTGTTTTATTTCAGGATTGCAGTTGTGCCATGGTATAGGTATTTTTCACTTAAC
GTAAATGGTTTCTCTGTTCACTGCAGGTGAGGTTTTTGTGCTGGATGATGGTGGGGAAGTAGACCTTGACCTGGGTAACTATGAGCGGTTCCTTGACATC
CGCCTCACCAAGGACAATAATCTGACCACTGGAAAGATATACCAGTATGTCATTAACAAGGAACGGAAAGGAGATTACTTGGGGAAAACTGTCCAAGGTA
ATACTGGATTTACCTTTAAAGCTTAAAAGTCTTAACCAGTTTAATTTCTTCTCCCTCCCACCTCTACACAGATGTGTAATTCCCTTTTGAGTACAGAAGT
TTACATTGTATGTGATTTCAGCATGAAACTCTCAAGGTATTGTTACTGAAATATGCCTTCAGTTGAAAAATCAGAATTATATTGTTGTTTGCTAAAAAAA
ATAATTTGAAGAACTACTTCTTCGTTGAAGCTTGTCAATTCTGCYAAGGCAGCATGATACGAGTCCAGAGAGCTGTTGTTTTTACACAGTAATGAGTGTG
AAAGTGGTAAAGGCAACTCGATTAGGGCATTAAGCCAGATGGCATGTATGTGTGCATCTGGGACTTACTATGTATAGAAGTGAGAAGGAAATGAACATCT
ATTGTGTATACTGGTTTCCAGGCCGTTCATCAGTGCCATATGGCCTAGGAGGAGCCTGAGAAGTGGGTTTCTGGGTCCTCCCAAGCTTTCACTGGCACAG
CTTCGCTTACATCTATTTGCTGTTTTGGGGTTTTGTACAAACATTCATTTAAGGAAAATGTTTTGCTGCTTTAAAAAGGTGGGGATGGAAAACTACTGAT
CTAGTATAATGGCAGTGGCCCAAATTTGGAGAGGTTGCTGAAAAGTGGCTTTAATCTGAGTTATGAGAGCAGATCTGCTTTTGGCTTTAGACTTTACTGG
CCTGAAAGCTGAGGGTCACACTGACAGCTGGCTCTGGTCTGGGGCTGCCCTGGCAAGATTCTGGGCTAAYTGGGTCATGTTTGGATCTTAGCTTCCCCTC
TCACCAGCTTTGTGAACATGGGCAAATTAACCTCTTCAAAATGTGGATTCCTTTTCTGTAAAATGGAGACAATAACAACACCTACCTCTCTAGGTTGTTA
GGAAGATTAAAGAAACTAAAAGTCAGTGAAGTGTTTCCCTGACTTCCTGACACATAGAAAGGAATCAGTTAGGAATTAGAATGGTTTTGATCTTACAGTT
TGCTGTTTATTTATTCATCATCCATCAAATTTGCATTGAATGCTCACTGCAGTCAGACCCTCACTGGTGCTGGTGATGCATGTGATGAGCAAGACCAGAG
AAGTCATTGCCCACATGGAGGTTACCTGTGGGGGAGGCAAACAACAAACATGAAACAAAACGAGACGTCTGTCAGAAGCTGTGAAGAAACCAAGTGGAGT
GAGGACAGAGTGACTGGGGAAAGCCACTTTGGGCAGGTGGTCGGGGAGTCTCCCAAGAGAGGCCATTTGAGCTGAGAGGCCAGTCACAGCGAGAGTGGAA
TGAGAAGTGCGGAGGCGCAGGGCTACGAAGGCGTGGTTGGTCCGGGAATGGAGGGGAGGCCGGCATAGCTAAGGCAGAGTGACTGAGGGAGATGGTCAGA
GAGCGGGGGTGGTAGCCACAGCCAGGTTCTACCCAGTCGCTGGGCCGCAGCAAGAAGCTAGGAGTGTACTCGGAGGAGTGGGAAGCCACCGAAAAGTTGA
AGTGTGGGAGTGRTGAATTCTGACTTGAATTTTAAAAGATCACTTTGACGCCATGTGTGGAGTAGATAATGAATATTCTTCTGCGTGAGGCAAATGAATA
TCCTTGTGCATGAGGCATTGCTGTAACTGGAGTAACCTGGAGTTAAACAGTAATCTTCACCTTTTAGGAACTTGCCATCTGTGCCCAACAACTATGATTT
TTGAAGTGTTGAGCAATTGCTGGCATTCTTTGAGCATTGACATGGCAGGCACTTTACCGAGCATTTTACAGGTGCTGTCTCACAAAATTTCCACAGCTTA
ACAGGTGGGGAAAACAAGCTTAAAATGGTTCTATAATTGGCCCAAAGATCCACAGCTAACGAGTCATGAGACTAAGGTTTGAATCCAGACATTCTGACCC
CGGGTGCTGTGCTTCTAACCACTCTGCTGTGCTGTGCTGGCTCACTGCAGTGGATTGTCTACCCTTTGGTAAACTGGAAACATATGGAACAGGGTCCCAG
AAGTCTCTTGTTCCTGGAAGTGCACTGAAGTGTAATGTGCCTACCTTCAGCTGTGAGCAATAGGGTTGGCTATACTGGTGTGTGGCCAAAAGGGTAGACT
CTGCACAGGGGCACGTGCGCCTGTGTGGCTCAGGACACTGCTGTCAGCCTTGCTCTGTTGCAGGGCTTCCAGCAACAACTTAGACATCTGGCTGCAGGAA
GTGTGAGCTCAGAGATTTGTTGAGGCCAGTTAAAGGGGGCCTCAAAAGTATTTTTATGACCCTATTGCTACTCTCTCCAGGCAAAGAGTGCTGCAGTTTG
TTTTCACAGTAAGTGCATTTGTCTCAATCAATGTAGATGGACAAGCGTAAGTTCCCTGTTTGTTTTCTTTTTCCCAGTTGTCCCTCATATCACAGATGCA
ATCCAGGAGTGGGTGATGAGACAGGCGTTAATACCTGTAGATGAAGATGGCCTGGAACCTCAAGTGTGTGTTATTGAGGTTTGTATGATTCCTGCACATG
TGAACAAGTGTACTCATCTCCTTAGTCAGCCATCAATAACTGATAAGACAGTTCCCAGTGGAGCCCTTGGCCTTCCTATCTCTGGTGCAGTATGTTGCAA
TGTGGCAGGTAAGGGCACAGTAACAGTCATGTGGAATGGCCACGCAAGGGAAAACCGTAGTTTGCCCAGTGTTCCTTTTTTGTAGCATTTATGGTACAAT
CACTTAGTACTGATTGTCCCCATGAGTAGTGTGACACATTTTCATCTGTCTCTTGAGCAAGTCAGCAGATCTTTTGCTTTCGTCTKGCAAGAGCATTCGT
CTCCGAATGAGCTTCATTTGGTTTCAGTATCTGTACTCCTGCTGTGCTGATCCTAGCTGTTGGATCTCAGTGTTCCTCAGATAACAGGAGACTCAAAAGT
TCCAGCAGTTTGTTTATAACTAATACTTTTTTTTTGAGACAGGGTCTCACTCTGTCACCCAGGCTGGAGTCCAGTGCAGCAGTCATGGCTCACTGCAACC
TTGACCTCCTGGGCTCAAGCAGTTCTCCTACCTTAGCCTCCCAAGTAGCTGGGACTACAGTGCGCACCACCATGCCCGGCTAGTTTTTGTACTTTTTTGG
GAGAGGCAGGGTTTCGTCATTTTGCCCAGGATGGTCTCTAACTCCTGAACTCAAGCCATCTGCCTGCCTTGGCCTCCCAAAGTGTTAGGATTACAGATGT
GAGCCACCGTGCCCAGCCAACTGATGCTTTTTCAGTACAAAAATTATTTATGGTTAACTAAGGAGATAAGATTTAGGTTTTTCTTTTTTTTTTTTTTTTA
CTTTGTCACTGTGATAGAGATAACATTCCTGGCACCTCTCTCATCTGACCTTTTTCTTGAAATGATGTGGAAAGTTCCATAATAACCTTTGGGAAGGATG
AGCCTGTCCAAAAGAATAACCTTTTAGTACAAAGAGTTGTCTAATTCCTGTTAACTGTTAACTAACATTATACAGGGTTAGAGAGTCCGTGTTACATAAT
TACTGATACTGAATCAGGAAGACAGAACAGTTGTTAGAAAACTAAACTGCCAGAGAAGGGTTTAGTGCCTAACCTCTGAAACAACTTTGTTCTTCTAGCT
TGGTGGAACCGTGGGGGACATAGAAAGCATGCCCTTTATTGAGGCCTTCCGTCAGTTCCARTTCAAGGTCAAAAGAGAGAACTTTTGTAACATCCACGTC
AGTCTAGTTCCCCAGGTAAGTAAGACATTGAAAGTTTTACTTTGGGGGAGATGGAGARGAGGGAGGAAAGGTAAACCGGAATGATTTTCACTCATTGTCT
AGTAGTTTTCACTTGAGGTGCAGGAAGCAGAGAATAAAGAACTTTGTAAGTTTAAATTTGTTACAATCATACTTTTTTGAAAAGATCAAATAGAAAACAT
TTGAAAAATCAGGGCAGTTGCATTTGCAGATGTAGATTGGCCGTGTGCATTTGTCTTTACTATATGGTGGAACTAGAGTAAAGAGGCTGTTTTTAAAGAC
AAATCTTGTGGAGAGGAGTCAATAGTAACAAAAATTGGGAAGCCGGAAAGCAGATGGATGCATAGAACCGACTAAGCTGACCTTGAGTGCCGGATCTTAA
GCCCGCAGCAGTGAAAGCAGAGAAGCAGCCCTGTTTGCCCTGCAGAACCCCAAAAGCTCAGGAGTGGGATGAGGGTGGGCCTCATGTAACTACTGCTTCA
GAAGACTCAGACCCTGACATCTTTTTCCTACAGTGCACAGTTGGGCGTTAGCCTCCTCCCACCTTGGCAGAAGACTGGAGGCTTGTTCTCTRGGGAGGGT
TCCTGGATGAGCAGACAGTAGGGACAGTTGAGGGCAGTAACACTGGACTACAAACATGGGGTTATGTGTAATGTTAACGCTGTTGACAGTCCTTGCCTTC
TTCCACCATTTGGTTCCCAGAATCATCATGTTTAGGCTTGGCCATTCCACGTAGGAGGTTGTAAGATTGTCTTCTGGGGTATGGATAGCCCAGGATAAAA
GACACTGGCTCTGGCGGCTCCCCATGAAATAAGCCAGCCAGATTTTCACCATGACAAGCCTACACACTCACACATAACTTATAGGTAGCATTTAAGCAGG
CCTCCATACACTTGGAGAAAGCATCTGATAGGTAAGAGACCAAACAACAGAAAGAAAGAAACTTACAGGGAACTGAGGCGCTACAAGCAGAGGAAACTTT
AAAAAAACACCAAAAAACCAAAAATGACCTGTCATTACTATTCTTAGAAAATTAGAAGGAGATAAGCTATATCCGTTAGGTAAGAACTGGATGCTATAAG
AAAGAAACATTGAGAGAACAGAAAAGAATCCTTGGAAATTAAAAATTAGATAGCAGAAATGAAAAAGTTAAGAGAAAGTAAGTTGAGGAAATACCCAAGG
AAGTACAGCAAAAAGACCAAGAGATAGAAAATAGGAGAGAAAAGGTAAAATTAGAGGACTGGCTCAGAAGTTCTAATGTCCAAATAATAGGAGTTCCAAA
AAATAAGAACACAGAAATGGAGGTATAATCTGAACCCCAGGGGTCAGCAAATGATGGCCTATGGGCCACATGAACCTACCCCCCCGTATTTGGAAATCAA
GTTTATGGAAATACAGCTGTGTCTGCTTGTTTATGTGCTGTCTGTGGCTGCTTTTGCTCTAGAACAGTAGAGTTGAATACTTGTGGCAGAGACTGTGTGG
CCCACAAAACCTAAAATACTTACTATCAGGGCCTTTACAGAAAAAATTTTCTGACCCCTTATCTGAACAATTCAAGGAAATTTCTAGACATCAGTTTCTG
GGTTGAAAGGGCCCCCTTGGTGCCTATCATATTGGATGACAGATGACCTACACCAAGGCATATTRTTGTGAAGGTTCAGACTAATGGGGCAGAAGTTCTA
AAAGGCTCTGAAGAGAAAAATCAAGAATCATTGTGCCACTGGACCCCTTAGCAACAATACTGGAAGCTAAAAGACATTGATGCTATTTCATTAAAAATTC
TAGTGGAGGCTGAGCATGGTGGCTCACACCTGTTATCTCAGCAGTTTGGGAGGCAGAGGTGGGAGGACTGCTTGAGCCTATGAGTTTGAGACCAGCCTGG
GCAATGTGACAAGAGCCTGTCTCGATTTAAAAAAAAARAAAAAGTCCAACAGAAAATGATTTCCATCCTACAAGTCCATGTGTAACGTGTATCTGTTAAG
TGTGAGAGAAGAATAAAGATGATTTAGTACAGAAAGGAAAAGTGTGGCACATGGTTTGGGAACAGTATTTAAATACTTAAAAAGTATGTAAACCCAAAAG
AGGACTGCAGGCACAGGAAAGTGTCTAATGGGGGCAGGATCCTCATTTAACAGGGAAATCAATAGAAAATGCCTCCAAGTAAATGKGGAGAAGTAGCACA
CCAGCAAGATCAGTTAAGAGTTGAAGAGCGGTTGTTTCTAGGGATTGGAAAGGGGAGAGTGGGTGAGGGCCGATACTGCTTACAAGCTCGGTTAGAACCA
TTTGATTCTAAAATGCATGCAYGTGTAACTTTGACAAACATAAAAGCTAAATTACACAAGTGACCAAATGATCTATTTCCTTATTAAAAGAGGTTCAAGG
AAAAGTCATACTTGAAAATTCCTTATCAGAGGGAAACTAACTTTTTTTTTTTTTTTCTTTTGTGAAATAGCCAAGTTCAACAGGGGAACAGAAGACTAAA
CCTACCCAGAATAGTGTTCGGGAACTTAGAGGACTTGGGCTTTCCCCAGATCTGGTAAGATTTCCTGATAGCTGGTTGCAGTGTAATCTTTTATGTCTAG
TTAAGATCACTCTATCATGACAGACAAGACCTTTGTCTTGTTGGGTTGCTTTTGATAATTGATGATGGAGAAAATAGGATTAGTTCTTTGAACCGGGCTG
TAGTTTGCAAGATGTTCATACTTAGAGCGTGTTAGGTCTTGTACTCCCCAGACCTTATTTTTCCTCTCAGTCTTTTTACTCTCATTTTTACTCCTACTTG
GGAACACTAATGGAGGAAAATCCCAGAGCTCTTGTAGTTCATTAATGTATTCATTTGTACTGCCATTCTCTTATGTTTCTCCAGTTTGGCGTTTACGGAT
TTTAGCTTTGAAACGAGTCATAATATTTTTATGGATTATGTGCCTGGTGCTGAGAGTTAACGTTTTCGTTCATCTTAACAATGTGATGTCTGTTTTAATT
TCAGTCAGGAGAAACCCCTACTTCTGTCATTTTTTCCTTCTGTCTAAGCCATCTTGTTCTCTACTGCTAGGTTGTATGCAGGTGCTCAAATCCACTTGAC
ACATCAGTGAAGGAGAAAATATCAATGTTCTGCCATGTTGAGCCTGAACAAGTGAGTAGAAATTCCCATCTCTAATAAGTTGTTTTTTGCTTCTAATTGT
CCTAAAGCCTCTTGATCAGTTTCGTGAGGCTTGTTATTTTCTAATTAGAGATAGTGGGCTGTTCCAGAAGAACCCATTGCCATCGGCCATTCCCTGCCTC
TCCTGGTTCCCCAAACAACACCTGTGWCCCTCCTGCCTCTTCTCCGTGCCTCGTTGTACTTTGTGCTTCAGCCGGGTGGAGTATCTTTCGGTTCCCCTAG
TACCCTCCACTCTCCCTATGATTGTACTTTTTCACTGGCTAATTTCTGTTAAGAACCCATGTCCCCCTCTTCCTGTTGGCTTGGCAGTCTCCTACTCACT
CTCATCCTTCAGGTTCTAGCGAAGACATAGTGTTGTCTGAGAAGCTTTAACTGCCAAACCTCCTGGCCCTTGGCCTTCAGGGTTAACTGCGTCCTTCACT
GGGCTCCTGTGTGGTGTCGCATGTATGCTGCTGATGGGCCCATCTTTCTGGTGTGTGTGTGTGTGTACATGTGTGGTGTGTATCTCCCTTCACAGACTCT
AAGCTTCTGGAGGGCAAGGGCCACCTCATTCAACTTTCTGTTTCTGGTGCCTGGTGTCTAGGGTGTTGTAGGCTGTCACAGAGATCTTAGTGTTTTTGTT
ACTGTACCTATGATGCAGGAAATCCAAAATTTGGAACCTGTAATGTATCTAAGTGTGGTGCTTAGTATGGAAATTCTAGTGGTGATACATTGAGCATGTA
GCTTTGGCCAGGTTTTAGATATTTCTGGCCTAGCAAGTGAAGGAAATTCAATTCTGTAGCAGAATAGGTTGTCATTAAAATTGTTCAATTTTTTTTTTTT
TTTTTTTTTTAATTGAGACAGAGTCTCGCTGTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTTTTTGGCTCACTGTGACCTCCACCTCCCAGGTTCAA
GCGATTCTCCTACCTCAGCTTCCCGAGTAGCTTGGATTACAGGTGTGCACCACCACTCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCATTA
TGTTGGCCAGGCTGGTCTCAAAGTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGGGCGCCCGGCCTTAAA
AATATTCACTATTAAAAATGTAACAAGTATTTCCACATTTAAGTTTAAGTTTCAGATTTTTTGCTTTTTTTTTGAGATGGAGTTTTCACTTTTTCATCCA
GGCTGGAGTGAAGTGGAGCAATCTCAGCTCAGTGGAACCTCCACCTGCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAATAGCTGGGATTATAGG
CACCTGCCACGATGCCGAGCTAATTTTTGTATTTTTAGTAGAAATGGTGTTTTGCCATGCGGGCCAAGTTGGTCTGGAACTCCTGACCTCAGGTGAGCCA
CCCGTCTTGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCTACCACGCCTGGCCTTGCCTTTTTTTTTTAAGAGACAAGGTCTTGCTGTGTCACCCTG
ACTAGAGTGCAGTGGTGCTGTCACAGCTCACTGCAGCCTGGGCTTAAACAGCCCTCCTGCCTCAGCCTCCTGAGTAGCTRGTACCTTAGGCGGACGCTAC
CATGTTCAGCTGTTTTATTTTTTGTAGAGATGAGGTCTTGCTATGGTTGCCCAGGCTGGTCTTGAACTCTTTGGGCTCAGGCAGTCTTCTTGCTTCAGTC
TTCCAAAATGTTGAGATTACAGGCGTGAGCCGGCAATGCCCAGCCTTACTTACTCTTTTAATTGGAATGTTTATCTTACTGAGTTGACTTGATATAGTCT
GAATACAAGTCTTTCATCAGGTATGTGATTTTCACATATTTTCTCCCTATCTGTGCCTTGTCTTTTCATTTTCTTCTCTCTTTTTTTTTTTTTTTTTTTT
TTGAGATGGAGTCTTGATCTGTTGCTCAGACTGTAGTGCAGTGGCATGATCTTGGCTCACTGCCATCTCTGTCTCCCGTGTTCAAGCGATTCTCCTGCCT
CAGCCTCCTGAGTAGCTGGGGCTACAGGCATGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTTGCCAAGTTGGCCAGGCTGG
TTGCGAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCTGGCCTTCATTTTCTTAATAG
TGTCTTTTAGAGCACAGACACTTTTAAATTTCGATGAAGTCCAATCTGTTTTTTTCTTTTATGGATTGTGCTTTCACTGTCGTGTCTAAGAACTCCTTGC
TCTTAACCAAGGTCATGAAGATTTTCTTGTAAAAGTTAGTTTTAGGTCTTACATGATCCATTCTAGGTTAACTTTTGTGTGTAGTGTGAGGTAAGGGTTG
AAATTTTTACATGTGGATATCTACTTGCCTCAGCCCCATTTGTTGAAAAGACTATCCTTGGATACTATTCTGTACTTTTTAAAAATAAAGGTACATTATA
GATTTACTAATCTTCATAAAGTTGTTTAGACTTATTTATAGCTATTCATAATTTTTATTACTACCGTGTATTTTTAAAAATTATATTTTCTGATTAGATA
ATACCCCATGTGTAGGAGACCCTGCTGACCTCTGTCCATTCATCTACAGCCTAGCAACCTTACTAAAATTCTATTAGTACTGATTGTTTACCTGTAAATT
CTTTTGGTTTTTATGGATAAGCAGTGATATTGTATGCATTATTCAGTGGCAACCGCTTCTTGTTTTCTGGTTCATTTTTTTTTCTTATCTAATGATAATG
GCTAATATCTTCAGTACATCATTGAATAGAAGTACTGAAAGTGGCCATTCTGGCCTTGTTCTGGACTTTAAATAGTAAACATTAATATTAAACCATGTGA
TGTTTACTGTGGGTTTTTTATATTGCCAAATTTTCCCTAATCTTAATTTACCAATAATTTTTATTATGAATTTGGTTTTGAATTTTTATCAAGTCTACAT
CTACTGAGGGAATTGTTTTCCTCCTTAATCTGTTTTCTATTTATGTGGTGAATTCCACTGTTAAATTTCCTAACACAGTAGTTCTCAAACTTGACTGCAC
ACTGGAATCACTTGGGGAGCTTTAAAAATACTGATGCCTGCCTCCTACCCCACAAGATCCTAATTCAAGTGGTCTGGGGTGCAGCATGGGCTTTTGACCT
TTTATAAGCTCTGAATRATTCCAATATGCAGCTGAGTTTGAGAACCACTGTTCCTAGTTAAGCCATTCATAGGTTCGTGGACATGATTTTTTTAAAGCTA
CATTTGTGRTTTGGATCATGAATTATTATTATTATTATTTTTAAGACAGGTTCTGGCTCTGTTGCCCAGGCTGGAGTACAGTGATGCGATCTTGGCTCAC
TGCAACCTCCAACTCCCAGGCTCAAGTGATCCTCCCACCTCAGCCTCCCGAGTAGCTGGGACCATGGGCACATGCCACCACACCCAGCTAATTTTTTGGG
TGTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGACTGGAGTGCAGTGGCACAATCTCAGCTCACTACAGCTTCAAGCTCCCAGGCTCAA
GTGATTCTCCCACCTCAGCTACCCCCCAGTTAGCTGAGACTACATGCACATGCCCACCATGCCTGGCTAAATTTTGTATTTTTTTGTAGAGACAGTGTTT
TACCATATTGCCCAGTCTGGTCTTGAACTCCTGAGCTCGAGCAATCCTCCTGCCATGGGCTCCCAAAGTACTAGGATTATAAGCATAAGCCACCTTGCCC
AGCCATGAATTTTTTTTAAAGGACTTTTGCATCCATGTTCATAATAGATTGGCCACTAATTTTCTATTCTATTCTTGAGTCTGTTTTAGTAGTTTATCTA
GAAAATTGTCCTTTTTTCTGTTTTCAAATACATAATATTTTTACAASGTCACGTAGCTAGTAGGAGGCTGTAAGCCTGGTGAGTTTTTGCTTTTATTTAA
TAACTTGCTTTTTTCTAAACAGGTGATCTGTGTCCACGATGTCTCATCCATCTACCGAGTCCCCTTGTTGTTAGAGGAGCAAGGGGTTGTAGATTATTTT
CTTCGAAGACTTGACCTTCCTATTGAGAGGCAGCCAAGAAAAATGCTGATGAAATGGAAAGAGATGGCTGACAGGTTTGCCTGCAATGAGGAGCTGGGAG
TGCTAGCCTCCTTTACTCTTTTGTAGGGCTGGTGAAGCCGACTCTAGCCCTAGCACTTTTGTACTTTTGCACTTCTGCCATCCACTCATTAGAAGAGCCT
TTGTAGTAAGAGATGTTCAGAAAGGATCTTAGCTGTCACGTAGCTGTGGCACAGATGAGGAGATCCTGATAGGGCCAGGCCAGGTGCCGGGCCTCCAGAC
AATGAGTTCGGGTTATGTCTTAACACGCTTGTCTCTTACCAACTAGATCAGTGCAGATGGGCGTCYTGGTGGCAGCGGGTGAGTGTGCATATCCAAAGCC
CACACGAATGGCTGACAGTGGCTGGAGCACTCCTGGGTACCACTCCAGAGTTCTGAGCTGTGTTTGGGAATGTGTCTCACCCCACACCAGAAAGGGATCA
CATTAGGACGGGGATGTGTTGCTGCCTACTCCACTACATCCTTTTAAGGCTCGGTGATGCTGTCACATTCCTTCAGAAATCTTCACTTCGTGTCTTAGAG
CAATGGGCAGGCCTTATCTTAGTTGCAAGATCAATATGATGGCCTAGAAGCATTTGGAGAGGGCATACTCATTCCGTTGCTCTGTGAGAATCATTTTTCA
TTTCAACATTTTCCTTTCAGTCTTTGTCTGCTTACATATAGCTATCAGAATGGCAGTTTTATCATCCTTTTTCATAAAACATTATAAGCATTTTGCTCTG
TTATTATATTTTACAATGAAAACTTTTAATGAGTGTGGACTTTTCTATTTTGTGAATGTCCCATAATTTGTTTGACACTTGCCTTCACCCCATTAATTCT
TGTGAATTGTCTATGTCTGTTATTTTTTTTGGTCTTTGGTATGAAAAAAATTTTTTGTAGGCAAATTTGTGTGAGACGTTGAAACTCTTTGTAAGTTTCA
AAACAAAAACAAAAAAAAAATTTTTCTTTACAAAGCCTGCCATGTTGATCTGAAAATTACTTCCTCTTTACTGGTCTGTACACAGAACTCAGATAATAGC
TATTCCCGTTATATTCTTCCCAGGTGTGTTTTTGTTGTTTTTTGTGGGGGTTTTTTGAGGCAGGGTCTCACACTGTTGCCCAGGCTGTAGTGCAGTGGTG
CAGTCAGCTCACTGTAACCTCCAACTCCTGGGCTCAAGATCCCCCCGCCTCAGCCTTTCAAAGTGCTGGGATTATAGGATTATGGGCGTGAGCTCATCCT
GGCCAGACGTGGTTTTTTTYCCCTTGAAATAGCTATTTTGGTCTCATGATAGCGTGTACCTTCTGAGTAATTGGGTTTTTCTTGACGTTTATTTGATAGA
TATGATCGCTTGCTGGAGACCTGCTCTATTGCCCTTGTGGGCAAATACACGAAGTTCTCAGACTCCTATGCCTCTGTCATTAAGGCTCTGGAGCATTCTG
CACTGGCCATCAACCACAAATTGGAAATCAAGGTAAGGAGGGTGGCACAGGTACAGCCAAAGGATGAGCAGGGAAGCAGTCTGTAGTCTCGTAGGTGCTG
TGTCATATCTGCTTTCTGTTTGGAGCTCAGAATTACTTTTTAAGGAATTACTTTTTAAGGATTAAAAAGATTTGTGGTTGCTTCGTGGCTTTGAGAAGAC
AGTAGAGCATTTTCAGGAATTAATGAAGGGGAGAGATGGCTAGAGGAGAGGGTGAGAGAGACTTGAGTTCTTGGCTATGACTATCAGGTAACCAAATAAA
ATGCCCTGTGGAAATGGGGACCACTGATGGACCACAGGCATGCTGCACAGTTGATAGCTGGAGGCTCTTGGAGACTTTGTTGGCATGTGGGCTGCCTTTC
CTAACCTGTGCTTATCACTTATTGCAGAGTGGGAATGACAGTATTGACCTCACGGAGCTGTGAGGTTTCTCTGGGATGCAGGGCAGGCACTCAGTAAATG
GTAGTTACTGTGTTCTGGTCTGTGCCATGGCGGGCAGCAGCTGAGCTGGTGGAATGGTGGGGCATGGCCCTGCTTGTCTGTGGGTGGCAGTAGAGTGTCA
TGGTTAAGAKCATGGATGCCGTGGCTAGGCGCGTTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGATT
GAGACCGTTCTGGCTAACACGGTGAAACCCTGTCTCTACTTACAATACAAAACATTAGCCAGGCATGGTGGCATGTGCCTGTAGTCCTAGCTACTTGGGA
GGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCTCTGCACTCCAGCCTGGGCAACAGAGTGAGACTCTGT
CTAAAAAAAAAAAAAAAAAAAAAAAACATGGATGCCTGAGCCCGGTGACCAGGGCTCAGATTCTAGCTCTGTCATCTACAAGCGGTGAGACCTAGACAAC
TTACTTAACCCTCTTTGTGCCTCAGTTTCCACATTGTTAAAAAGGGATGGTGATGGTGCCTTCCTCCTAGGGTTGTTGTAAGAAGTTCATGAATACAAAG
TGCTGAGAATTATGCCTGGCATATGGTAAGCACTATGTCAGCTGTCGTTAAACCCTCCCTTCTGCCTGTCCCCTTTATTCCTTTTCTTCCTGGCCCATCA
GCTGAAGCTTTTCAGGAAGAGATGAAGGTCAGAGGTAAAGTTGGGGCTCAGTGCTGAGGTTGTTAAACRGGCCCCATGTAGCTGTCMCCACATTGGGGTT
TGCTTTCTACTTCCCAGGTGTTTCTCAGCGTGAGAGTTTAGTTTGCTTTGTGCTGCTGGACAGGTTCCTGCAGAATGGCCTGTTGTACGAGTTTTAAGAA
TTTAAATCCCATTACACAGCCCTGACTTCTTATTTGCTAGTTCTTTCCATCATTCATTTATTTTATCCACTTGGAGTTAGTCTGTGGCTGCCATGTGTTT
GTCAGGTGGCAGAGGATGAGAGATGGATGAAAAGGCAACGGTCTCCGCCTTTAAGGAATATTGAGTCTCTTAGGAAGGAAGGAGCACATAGGAGAGGCTG
AACCTGCTGTGGCAGACACATGAGGAAGGCAGACTTCCTCATGGAGGGACACCAGGTTGGGTTGGGTAGGATGGAGAAGGCTCGGAAGGGGCATTCCTGT
TAGAATAGATAGAGCACGTCCAAGGGCTTGGAGATGTGGAGCAGTTGGAAACACTGTGGATGGAAATTGTGAATTGGAGGCTGTCTGGAGACAGGCTGGT
GAGGGCCTGCCCACAATTCCATGAACTGGGCCAAATCTGGGTCTTACCCTGAGGTTCAGGAAACTAACTGCAGGGTTTAGGTAGGAGATTGTAGAAAAGT
GGTGAACACCCTAATTTAAAAAGTGGGCACGAGATTTGAACAGACACTTCCAAAAAAAGATGTAGGTGATAAACACGAAAAGGTGCTCAACACCTCTAGT
TAGGGAAATCAGTGCASATGAAGTCACAATGAGATAGTGACACAAACCCCCTAGAGCGGCTGAGTGTTAGAGAGGCTGTGGAGCTCTTACCTTGCTGCCG
GGAGTGTAAAATGGCACCACCACACTAGAAAACAGTCTGGTAGTTTCTTATCAAGGTAGAGACGTGTGATCCAATAAGTCCATTCCCAGATACTCACTTG
AGAGACTTGAAAACGTCCACAAAAAAAGATTTTTATTCAAATGGACAAATTATTCGTAATAGCTGAAATCTCGAAACAACCCAAATATTTATAGCCTGTC
AATGGATCAATTTGTAATGGTTTATTTATATAGTAGAAACCACTCAGCAATGAAAAGGAAGAAACCAGGCTGAACACTGACTGGCTCAAGCCCATAATCC
CAACACTTAGGGAGGCTCTGCTGTGGGAGGATCGCCTAAGACCAGTAGTTCGAGAGCAGCCTGGTCAACATAGCGAGACCCCCGTCTCTGCAAAAAAAAG
TTAAAAAAGAAAAGGAACAAACAACTGATAAACACAGCAACATGGATGAACTTCAAAAACACTAAGCAAAAGAAGCCAGACACAAAAGGTTATATACTAT
TTGGCTCCATTTATATGATGTTCTATAAGAGGCAAAACGAATCTGTGATGATAGAAATTGGATCTGAGGTTGTTTGGGGTAGGAGGTAGAGGGGCACATT
CTGGGAAGATGGTAACTTATGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTGAGATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTG
GCATGATCCCAGTTCACTGCAACCTCTGCCTTCCAGGTTCAAGCAGTTCTCCTGCCTCAGCCTCTTGGGTAGCTGGGACTACAGGTGCATGCCACCACAC
CCAGCTATTTTTTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTTGCCAGGCTAGTCTCGAACTCCTGACCTCAAGTGATCCACCCGC
CTCGGCCTTCCAAAGTGCTGGGATTATAGGTGTGAGCCACCACGCCCRGCTCATTCTATATCTTGGTGTGTATGTTTGACAAAACTCTTCAAAGTATGCA
CTTAAAATGCTTGTATTTTATTGTATGTGAATTATGCTTCAATATGGTAGAAAGAAAAAGAAAAAACCCACAAAAGCTGGGCGGAAGATGGGCTGAGGAG
GCTGTCATTGAACAGAAAGCCCTCTAGAGTCTGCTGCAGAGGCTTAGCTGAGACCCGATCCTGAACACAGTAGAGTGCAGAAAGAGAGAGATTTGGGART
TTAATGATTTTGAAGGAAACTGTTGTATTTTAAAACCTCATATTTAAAAAATGTTTAAGTTATTAAATATATTAAGWTGATCACTTTAAAGCCAGTATTA
AGATGATCACTTTAAAGCCAGAATCAAGAAAGACAACTTTGATAAAATGATAATATTATTTAAAAATTAAGAACGCACAGCCTGGGGTCACGAGCCTGCT
TTTCTCCCCTGTCTGAATAACATCCAGTACATAGATTCTGCGGACTTGGAGCCCATCACCTCGCAAGAAGAGCCCGTGCGCTACCACGAAGCTTGGCAGA
AGCTCTGTAGTGCTCAGTGAGTAGAGTTCRCTGCCTTGGGTTTCCAGAGTTCTTTTGGTTTGTTTTAATGAAAAAGTCCTCTTGTTTTCATGTGCCAGTA
GTAGGTAATTGACTTGTTAAAATATTTTTTAATTGTTGAAAAGACTACATGCCATCTGATTTAATCCTTAAAAAATGCAGCTTGTCAATATCATTGGATC
TGAAAAGCTGCTCTGATTTTGATATTGTTTGCCATATGCATCTATTGATGAGGCTCATTTAAGGATTTTTCATCCAGAACATTTGATGAGTACCCATCAG
TAGAGTCTCATCAGTTGTTTTGGCAGCTGTTATTTATAATAGTAAAACATTAGCAAGAATTTCTGGTTCACTAGAACAGTTGAATATTACGGAGGTGTAC
ACCTTCTTCTGAGTGTCTTGGTCAGTACGGCACACAGAGCTGATGAAGAAAGGCCCCCTTAGGGGAGCATTTTAAGCCAAGAGGTAAGATAAATTGTTAA
TATTAATATATGTATTTAAAATTTTGGGCTGGGCACAGTGGCTCATGCCTGTAATCCTAAAACTTTGAGAGGCTGAGGTGGGAGGATTGCTTGAGCCCAA
GAGTTCAAGACCAGCCCAGGCAACATAGGGAGACCCTGTTTCTACAACAAAAACAACAAAACCAGCTGGGTGTGGTCCCAGCTCCTTGGGAGATCAAGGC
TGCAGTGAGCTGTGATCACACCACTGCACTCCAGCCTGGGTAACAGTGTGAGACCCTGTCTCAAGAAAAAAAAATTGTGAACAACTCAGTACCAAAGATA
GTGCAGTGGCAGTATTACAATTATGTATACTATCTTTTTCACTTGCAATAAGCATGTTCTTAAGTTACTAAGAAAAGTCCATAGTTTCATATGCAGTTTC
TAAGTTGATAGTGTTTACATACAATTCATTGTCACAGTAGCACAATGTATGGGGTTAATTCATGGCTTCAGTGTCTTGGTAATGGCCCGTTAGGCGATTA
TTGCAAGTTGGACTGGTAGAAAAGGGGAATTGCCTTTGTGGTTTGTTCTTTTGTGCAGTGGAGTGCTGGTTCCAGGAGGATTTGGTGTTCGAGGAACAGA
AGGAAAAATCCAAGCAATTGCCTGGGCTCGGAATCAGAAAAAGCCTTTTTTGGGTAAGGAGCTCTGCAGTGCAGTCTTCACTTAAGAGTAGGAAAGAGTG
GGGAACGGTGCCACGTGGGAGCCTATGAACAAAGTGGGGGGATTACTGAAACATGCTGTCTTTGTGGATAGGAGCTCAAGTAGAAGCCTTCATGTTTTCT
CTTTAGAGACAAATTCAGTCTTGGAAAGCTTATTTATGCTTATGAGCTACATGTAGATGTCRTGGAATTTTGAGAGAATGAATTGTGAATTCCTGTCCAT
TTAATGAACCCAGCTGTTTGTAGCACACGTGAGGTTGAGTTTTATATCTGCTCACTTGGCACAACAGCTGACTGTAATTGGACAAAATGATTTTGCATGC
CTCCTGGTGCTGTACATTTTAGTAATTTTCAACTTGAACAATTATAAATAAAAACTTAATGAGAGAGGGTAAGAAAACTTGAATTTTAAAGTACTGAGGC
TAGGCACGGTGGTTCACACCTGTAAACCCAACACTTGTGGAGGCTGAGGCAGGAGGGTTGCTGGATCCCAGAAATTTGAGGCTGTAGTGAGCCAAGATCT
CTCCACTGCACTCCAGAGTGGGCAACAGCAAGACCCTGTCTGGGGGGAAAAAAGTACTGAATAGAATATCACTTACTTCTAAAATCGGATAACTTTGCAA
ATCTAGAATTTTCATCTACTTTACATGCAGTTTTTGAAATCTAATACAAGTAAAGTGTAACAGCAGAGAGTACTTGTTCATAGCAGGAAGTTATGAGTTT
GCAATTATAATTCTCCAAATAAAGGACACAAAGGCCATTGCAGAGGCTGCTGGGAAAAGTAGGAGCTGCCTTTTCAATGGAGTTTTGTTTGTTTTTTCCC
CCCGACTGGAAGGCGTGTGCTTAGGGATGCAGTTGGCAGTGGTTGAATTCTCAAGAAACGTGCTGGGATGGCAAGGTAAGCGTGCATTAAGACACTCATT
CAATTCCCGCTTGTGTATTTCTGGAGGATATGAGGCCTGTTGCCGCCTGGGTGATCAGGAGCTTTGGAGAAGGGCAGGCCTGGGTTCCTAGCACCTCATG
GTGTGCCGTAAGGGAGCTGCCTTGCCTCTTGAGGAACAGCACGGCTCCTCCATGCAGGAAGGAGGGAGCRCAGCCAGACTCCCTCCTTTGCCTTCTGCCT
CTGTGTTCCTGTTCTTGAGATTCTGTCACTTTGATCACCGTGGCCACCATCCTGAAGCTGGTGCCTGGTGTGAAGTCCTTGTCCTAAGTGAGGCTTGGGC
AGTTATTATGAGAACCTGGGCTCTGGAGCTATTGAAACTGGGCTCAGATTCCAACCTTACCGCTTATGGGTGATTTTAAGCAATTTACTTAGCCTTTATG
GGCCTCCGTTTTTTCTGTAAAATGGGAGTAATAAAGGTACGTACTTCACATGATTAAGGGAGAYAATGTATGTAAATAGTCTCTAGTAGTGCCTGGAAAA
TAGGGAAATGCTCAGATAATATCAGCTCTTYGCCTAGCTGTGTATTACTATGTGACAGACCTCCCTAAAGCTCAGTGGCTCCCAACAGCAGTGACTTCTC
ATCTCAGTATTCTGTGGTTTGGCTCAGTGCCTGGGTTTCAGCTGCACGTGGTGTACTATCTGAGATGGCACACTCCTGCCTTGTGTTCAGCTGTGAGCTC
GGCCCAGCCGGGACGTCAAGATGCTGTCTCCACCTAGTGGCTCATCATTCATTAATCCAGCCCAAGCTTCCTCACACAGGGTGGGCAGCTGGMCTCCAAA
ATGACAGGCCTGTTATGCAGGCACTTATCAGGCCTGCTGATGTCCCGTTGGCCAAAACAAGTCACGTGGCCAAGCCCCGAGCCGGCAGGGGAGGAGAACA
CACATGGGTGTGAAGACTGAGCATGCTGCACTGGGGCCACCCTGGAATGGTCCACCACAGCCCATTTATTCTCTGTAGCCCACCCGACAAATACTAGATT
TTCAGAAAGACCTTGTAAATTCTGTGGAAAATAAAGTAACCTGAAGGAATGTAAAAGCAGTTTGACTTTATAAAGAACAAGTGACTCTGGTGGCCAGCAT
ATGGTTTAGGGCTGGGTTTCATTCACCCTTTCCCTGAGAGGCTGCTTCACAGTGACCTGGCGGTGTGGCTTAGTTTGGTAGACAGCATGCCCTTGAGTGC
TGGCTTCTGAGTCCTGAGAGGCACTGTCTTATCACCCRCCACCCCAGAGCTGGCTTTCTGGTCTCCCTGGATCCTTCACAGCCCCAGACCTCTGCCTCTC
ACTTAGGTTCCCAAATGGGTAGGTGCTTTGGTGATGAGCTTACACTTCAGTTGAGACTGGACCCTGGTTCAGGCCAGGAGGAGAACAGTGCCCAGCGTTC
ACATAGTACCAGGAACTTGGTCCTTTGCCTTTTGGTCTTTAGTGGTTTTGCTTTGGTTAGACGGTAAGTTCAATGAAGGTTAGAAAGGTTGAGTTGAAAT
CAGTTCATTTCTGACTGAGCTATTGAGTGAAACAGTTGAGTAGGGCTTTGTATTAGCTGCTGAAGATGAAAGAAGTATAGAAGAAATAGTACTTGTTTAT
CTCAGAGAGACAAGAGTCTGAAACATTAAGACAATATAAAAACTTGGCTGGGCATGGTGGTTCAGGCCTGTAATCCCAGCACTTTGGGAGGCTGAGTTGG
GTTAATCACTTGAGGCCAGGAGGTCGAGACCAGCCTGGCCAACATGGAAAAACCCCATCTCTACTAAAAATACAAAAAATAACCAGGTGTGGTGGTGTGC
GCCTGTAATCCCAGCTACTTGGGAGGCCAAGACATGAGAATCACTTGAATTCTGGAGGTGTAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCATT
CTGGGTGACATAGTGAGACTCTTGTCTTAAAACACAAACAAACAATATAAGAACTGTCACAGGCGGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTT
TGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAGTTAGCTG
GGCATGGTGGTGYATACCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAGACCTGGAGGTGGAGGTTTTGGTGCCGAGATCACGCC
ATTGCACTCCAGCCTGCCCACACTTGTTGCCCACAAGTGTGAAATTCTGTCTCAAAAAAAAAAAACTGTCAAAGATACAGTATCTAATTAAAAATTACTA
GGTTATGCCATTAGTTTTGATTTTCCCATTTTGTACTGATTGACTTTCCAGAGAGTTATACTTAACGTAAAAAAATTCACGTGTGTGTGGGTTGAGTATT
TTATGTCTTAAAAATGCTATTTATTGCCGGTCTGGTGGCTTGCACCTGTAATCCCAGTACTTTGGGATGCCAAAGCAGGAGGATTGCTTGAGCCCAGGTG
TTTGAGACTAGCCTGGCAATATAGCCTTTGTCTCTCCAAAAAATGAAAAAAAATTAGCTGGATGTGGTAGTGTGCCCCTGTAGTTTGACCTTCTTGGGAG
GCTGAGGCTGGCGGATTGCTTGAACCTGGGAGTTCAAGGCTGCAGTGAGCTATGATCGCACCACTGCACTCCAGCCTGGACAACAGTGAGATCTCGTCTG
GGGATGAGGTCAGGGGGATGCTATCTTTAGTTTTTGTTCTAATCACTGATCTTAAACTGAGGAGGGAAGTTGTGTTTAGAGCTTAGCAATGAAACTATTA
ATCACTTTCGTTTGTAACTATTTTCRTAACAAGTATTTTGGTATTTCAGATGCCAATTCTACAGAGTTTGACCCTACGACCAGTCATCCCGTGGTGAGTC
AAGTGTTTGAACCTCCACAGGGCTTAGAAGGGTGTAGAAGGGGCATTTATGAACGTGATTGATGATTAGAGACAAGAAGTGAGACTGCTTGAGTCCATCC
CAAAGAACCCTGAGGTTTTGGGCACTCAGACCTACCAGAGAGGAAAAACTTTTCTTTTTCATTATGTAATTCCTCCCTAATCTTTCATTGACCACAGAAA
GTTTTTAAGACAGGTACCAGCCCAGGAAACTGGAGGGGATTCCTGATTAAAATTCTTCTCCATCCCTACTCCCCTCAACTCCCAGAACACAGTATAGATA
CTAATATGAGACCCTGGCATGTGTACTTACTGTGTGCCAGCCGCTGCTCTCACTGCTTTCATATGTATATTTTATATTARTTCATGGGATCCCCAGCCAT
AGTCCTGGGAGAACTGCTGGGTTGGAGCACTGGTTGGCTTAACCGTATCCAAAGATTTTCCAGGCTGGCGTACCTTGCGTTAGATTTCATGCCGAGGGCA
TGTGGCATTCTCAGCCCGCTGTACTGTTAGGCACATGGAGGAGGGACGATGCCTTTAATCACCTTTGAATTCCCAGCCCAGGGTGACAGGGATGTAAAGG
GAAGGGCACTTATTTACGTTTTTCAGCAGTCAGCAAATGTGAATGCGTACTATATGCTGGGACTGCCCTTGTCACTGAGGACACCGTGCTAAATGAGACG
GACAAAGTTCTTGATCTCACGGCACTTAGACAGCATCACTGTGTTTGTTGACCTGAAATTGAACTTTGCTGATACTAAGGCCTCAGGAGTGGACCAGCAA
ATGTTTTGCAGCATGGGGCTTTGGGGTCAGGAGGAACAGGGCACAGAGAGCCTGGAATCAGAAGGTGCCTGGGAACGCTGGGCTGAGAGGTGGACTGGGC
CATCAGTGCATGGCCCACCCAGTCCTCAGATGCTTGCTAAGCTGCAGGGTGCTAGCCCTGCATCCCTTGCCTTTGAGCAGTCATCAGGCTAGCTGGGGCG
ATGACAGACATGTTATGACACATCCAGTCCGTGTCTGTGCTACTGTATCAGTCTTTCTAAGGAAGTGATGCTTACCGTCCACAGTGCTGGGGCGGGACTA
GCCTGAGGAGGGGCTGCTGTGGTCCTGTCTGCAGATCAGGAGGACAGGCTGAAGGACGGAGCCTCCACCCAACCGAGGTTACAAATGCCAACTGGGAGGC
ATTTTCTTCTGTGACAAAATGTCTCATAAGGAAAGCCTGGAGAATTAGAGCTTACTTACAAGCCTTTGCCACCCACTCAGCGAGGGAGGTTTCTCTCTAG
CGGAAGCAGAGTTCTGTAGTTGGTGTCTGTTTTCTGAACATCTCCAGGTCGTAGACATGCCAGAACACAACCCAGGGCAGATGGGCGGAACCATGAGGCT
GGGCAAGAGGAGAACCCTGTTCCAGACCAAGAACTCAGTCATGAGTAAGAGCTGCCTCACGCTGGCCCAGCCTTTGGCTCTGCGTGCCCAGGACGCGTGT
CTTAGGGTGRTGCTGTGGCTTCGAGGAGCAGGCTGGCTTTTTTTGGTTTCGTTCTTGCTTTTGAAGTTCATTCTTTCCTCTCTTATTCATACCCTTTTAG
GATGCACTGTGATAGCCATAGAAGCAGTGTGGGTCTTAGAAAGGACACTGGCAGTGCAGTCAGACTCCTAGGCATGGGCGCCTCAACAGAATGAGGCAGT
GAGGTTACATTCATCCTTATCGGTTACTTTCCTATTAAGACCAGCCATATCAATTGCTGATGTTTGGCAATTTTTGTCACACAAAGATGGCAATTTCATA
TGATTCAGCCTAAGTAGATTCTGTTCTAATAAAGTACTAATAGATGCTGAAGGTTTAGGGTAGTTTTCGGAGGAAAATAGTTAAGAAAATGACTATTACA
CAGATTTCCTTCTTGTCTACTGGGAAAATTCTGCCTTTACTGTATTAGCAGAGGCACCCTTGTGTCTGTCTGGGCGTTCTGTAGCAGCATAGCTGGAGTC
ACTTGAGTATCGGATCTTTCTCTTACCAACTCTGATGTTCTGTGGATTTGGGGATCTCGAGGCAACTGTGAAATGAGTCAGTAGAGCAGCCCGTTCGCAA
ATGTCCAGCTTGTTCACATGCAGCCACTGAGGGCTGATGACCTTTGATGACCATGATTGGAACTGAATGATCATCAGAGGTCATCTGTGCAGCTCTTAAA
ATGCCTCCCATCCTGCCACGTTCCCAGGGCCTTGCCGTTTCGTACATCCTGATTTGCTTTCCAAGGCAGTTTTCTAGCAGCAAAGTGCCCATACTTTGCA
ATCATGTGTTTGAGGGTGGTGGTGAGAGTCTTGTTTCTGTTACAGCTTTCTGTAGTGTTGTCAGAAAGAGTCAAAAGCCCAAGAATTAGTCTAAACTGTG
TTGTTAAGAGCAGGTGACCTTAGCAGATTCATAGAAATAGCCCTCAAAAGACCTGGCTGTGTGGATGATGAAAAGTAAAGCAGGAAGGAGGATGTCTTTG
TGAACGCATCAYCCTGTGAGATAAAGTTCTTTACATACAGCCCGTTTGTTTTGCCAGGGAAACTCTATGGAGACGCAGACTACTTGGAAGAGAGGCACCG
CCACCGATTTGAGGTGAGGATTCCAGSTTGCTGGTACTCTGGAAAGATAGTGAGCTGAGAGACCAGCAGAATTATTTTTCATGCCTCAACAGGTGAATCC
AGTCTGGAAAAAGTGTTTGGAAGAACAAGGCTTGAAGTTTGTYGGCCAAGATGTTGAAGGAGAGAGAATGGAAATTGTGGAGTTAGAAGGTGATTATTCG
GGCAGTTTTATTTAATGGAAAACTTAGTAAAGTTTTCTTGGCATATGGGAAAATATAAAAATGTTATCTTGTTGCTCCTGACCTAACAGAATTAGGAAGC
AGCACTGTCTCATGAGGGAAGGGGTCTTGATAAACATGGGGTCYGGACTCTAGRAACTTCTTTCTGGTACATGGCCTTCCTCGGGGAGCCATTTAACTTC
TGGCCGCAGTTTCTCCTTCTCCAAAATGCTTGGAGTTGGTACTAAAGCCACTTCAGCCCTCTCCTGAACCGCAAGACTCAGTCTACAGAAATCCTGGGAG
CCAGGGTCTTGGGCGGGACCCTGGACAGGAGGCCTTCAGCCAGGAGGGGACAGCACAAACCGTGCTGAGAAAGGGTATCAGATCACTCATGCTTTGAGGT
TCCCTTTATCTAGATTCAAATGAGAAAGTCATTTTCAAATTATTTTAGGGCCTATGGAAACAAACATTTAAGCAGATTTTGTTCTTTTACACTTTGTGCA
TAACCTTCACARTGAAGCTGTTTCTTTTGAATCTCTATTTCAGATCATCCCTTTTTTGTTGGGGTTCAGTACCACCCTGAGTTCCTGTCCAGGCCTATCA
AGCCCTCCCCACCATACTTTGGCCTCCTCCTGGCCTCTGTGGGGCGGCTCTCACATTACCTCCAGAAAGGCTGCAGGCTCTCACCCAGGTAGGCGCACTC
TTTGCTTCAGTAATCCATTAGTCTTCTCTAGTCCTTTAGGTGGTCGCTGATTCATTACAGCAACACGTCACAGTCAGTCATAAGAAAAAAAAGCCACAGG
CGCCTGGGGTGAAAGTTTCCTCTCCTTTCCCGGAGCTTTCTCACGGTGTTTCCCTGGCATATTGGCCAGGTCCCCCTTTCTGCAGCATCTGAGCTCTGGT
GGTGCTGACCAGATCACACTTGGCGTAGGACCCTCTGGTCCATGTTAAGGGGAACTAGTTTTTCCTGGGAAGTAAGCCACAATGGGTAGGTTTATGTCCC
ATTGCCACCTTTATCCAGAACCAGTACTCAGAGTTGGTGGTAGGGTGTGTGACTGAAGTATAAATGGAATGTATATCTTTTGTAGCTAGAAGAAGGAAAT
CTTTCTGCAGTTTCATGTTAAATATATTATGTAGCAAACAGTCTTTGTGATTCCTGCCATGTGCAGGCAAGTGTCCCTGTAGGAACCGTGGTTACAAAAA
CAGGGACGTAAAGTGAGTTTTTGGTGGGAGATGATGCGTAAACCATCTGAATTCTACAGGGACACCTATAGTGACAGGAGTGGAAGCAGCTCCCCTGACT
CTGAAATCACCGAACTGAAGTTTCCATCAATAAATCATGACTGATCTTGTAGCGTAAGTGGTACTTTAAAGTTTTAGTTTTTAAAAACATGGTGATAACA
CACTGCGATTGCAAGAATATCATGGAAGTTTAGGGCTGAAAATTTTTATCTGCCAGGAATGAAAGTGGTGAGGTCTTGAATATAATCCAGAGGTTGAGAG
AGAAAAGAAAGTAGTGAGGTCATTGTGGGTATCAAATGGGCAGYCCTTYCTCCAAGTTGCAGTGCACCTCCCAGTCCTGCCCTGGGGATGACAGCTTGGG
GAGCATGGTCACTGGGCAGTTGTCTCAATACTGATTACTACATTCTGGTGCCAGTCTGACCAGTTCTGGGGCGGGGAAGGGGAGGGTCTGAATTCTTAGA
CCCTATTGTTTGATGTAGCTGTAAATTTTGGAGATCTTGAAGGAAGGGACAGATACAACAATGTGGCACTTGTCATTTCTGCAGAGCCTCAGGTTTTCAT
CAGGAAGTACTTTAAAACTGACACTGCTTAGAGAACTTTTTTTTGTTGATTGCTGCTTATTCTGGAATTCCTTCAAAGTTGGAACAATTGCCAAATAGAC
GTCGAATGTTTGTCTATTAAGTGACAGGGTTTGTAGGTTCATAAAGTGCAATAACTGTGGGCACTGCCACGAAATGTAAATGTCCTTTGAGATAACTGTG
TGGACTGTGTTGGCAGAAGTACGCATTCTGCTGGTGAGGTATCAAATGAGGGAGTGTCAGTCATCTGGGGTCTGGAATAAGAACCAGGGGTATGGGTGTG
TGGTTCCACCGCTCCTGCCCTAAGGCCTGGGCAGGGGGACCTCCCTGAATCCTGCACACCGTGTGTTCATCACCAGTGGGCCTCTGGTGCTGGGTCAGTG
CCGGTCTGACCTGCTGATCCCAGCTGTTTCCCCTCCTGCCTTGGTTGGTTGACCCCCTGTCCTGGCATAGCCTAAGTAGGTGGTGGGTAGGCATGAGAAG
TTAGTATCAGGAGGAGGGCCTGTGTGCTAGGTAAGCGTTTAACACGGATGGACTCATTAATCCCCTGACCAGGGAGTTTGCTATAGGCTGTTTCACAGTC
TTAAGGAGCTGATACAACAAGAACTGTTACCAGTGAAGGAGGTAGATATTTGGTCAGTTACATGGAATTTCTGACTGCCTCGCAAGTGGAGAATTGCCCG
TTAGTGACACTGTTACGAGGTGCTGTGGAGAAAGAATGCTTGCATTGGGTGGTTGTAGAAGTCGATGTGTGAGGTCTTGAAAAGGTCTGATTCTGTAGGA
ATTATAAATTTAGCGTCTAATTATTCCCAGTAGGCTCCTTCTACTGCTCTGCCATGAAAAACAGGCTTAGTTTCCCATGGCAGCTGACTAGAAATTCTAA
CTTTTCTACTTTAATGTACATCATATAATTCCCACTTTTTTTTTTCTTTTAAACAGGGATGATTCTTCAAGAGACCCTTCAAACTTGGGTAGAGTTTACA
GCTCTGACTTTACACTCGGCTTTGGAGACTTTCTTTAAATTATGTTTTTATTAAGATTATTTTATTATGCGGAAAGGTATTTGGGAAACTTGTCACTTGC
ATGTCCCATCACGTGTACTGGCTCCTCTGTGGTGTCTGCCTGTTGCGTGACACTCTCCTTGCAGTTCTTGAGTTGCGGCAGAACATCGCGATGGGAACCG
ATGGTGGGTGGGGCTGCAGAGTGCCCCATCGGTCACCTTGTTTCTCAACTACCTCGCATCATTGCAGATGCTAGCGCGTTGCCTGTCGCTTTCCCTTGGA
TACCTAGACCGTTATAAAGTGTGCCACATGGACTTACCGAGCATGGAGAGAGGATTTTAGCTAGGATTTGAACACTTGGTGCTGGGAACCTCAGGGTATT
GCTTGCCACTAAGCCATGAAACCAGAGACAAAATCTCTATACTGCCCTGAGTTGGGGGGAATTCTCAGTGCCAACTGTGGCTGGTCCTCATTCAAAGGGA
CGGTCAGTTTGGTGTCAACATGAAACACCAAGATGTCTGTCTCTGAAGCGTGATTTTAAAATCCCCATGCCTGTGGCTGCGCTTCCTATTTCTAGGGCTG
GGAAACACTCCTTGCATCAAGGGGTCACTTACAGAACAAAGAATCTTTTGGGGGAAACTTCCTCTAAAACCCTCTCATATATAGACAGCTTTGACTGGAG
GGTCCATTTTTCTTCCAGGATGGTGTTACTGCAGTTGAAAGGGCAATATGAAGTTACTTTCTTAATGTGACCTAGCAATAGGCATAGCTACGTGGCACTA
TATTCTGGCCAGACTCGATGTGTACTCTAACTTAAGAAATAAATCAGTAAGGCAGAACAAGAGACATGCTTTGCTTCTCATTCTCTTTATGTCATTGGCC
AGATGGGAAGCGTCTGAGCACGTTGCTGGCTTGCTTGTGTGCAGTCAGCTGAATTGTCAGTGCCGGGTGCTCCTGCAGGTGAGCAGCCTTGACTCAGCAG
ACAACCTGAGAGTTTGTTTAAAAACTAAGAAATGAGGCTTTCTTTTTAATAGGAACCAGAATTTTTCATAAAGCTTCAAATACAGGTTCTCAGCATGTAG
AGCGAGATGAAAAGGTGCATGGGTGCTATTATGGTGCTATTTATGACTGAGAAAGGGGAGGGATAAGCATGATTTAGGAAGGTGGTCCTTTCCTCTGCCA
GGCACTGGACGTGGGTACCCCATATACACAGCCAGTGAGCAGTGGGCCAGACTGTCTTCACCAGCAGAACTGCTTGTTATGGTACTTTGAACGTGGCTGA
TTGAGCATAATTCTAACCTCTTCTCCCACCTGGTGGTACCAGGAGATTGTCTTCATTTTAAATTTTATTTATTTATTTATTTATTTTTTTGAGTCAGGGT
CTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAAGCACGGCTTGCTGCAGACCTCCTGGGCTCATAAGATCCTCCCACCTCAGCCTTCCAAGTAGCT
GGGACTACAGGTTCACATCACCACGCCCAGCTAATTAAATTTTTTTTTTTTTTAATAGACAGGGTCTCGCTGTGTTGGCCAGGCTGGTCTTGAACGCCTG
GCCTCAGGCGATCCTCCCATAGTGCAGGGATTATAGGCATGAGCCATTGCACCTGGTCAATAGTCTTTTTTTTGAGATGGAGTCTCACACTGTTGCCTGG
GCTGGAGTACAGTGGCGTGATCTTGGCTCACTGCCACCTCCACCTCGCAGGTTCAAGTGATTCTGTTTGCCTCACCTTCCCAAGTAGCTGGGATTACAGG
TGCCTGCCACCACGCCCATCTAATTGTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCTAGGCTGGCCGTGATCTGCTCATCTCAGCGTCCC
AAAGTGCTGGGATTACAGGCGTGAGCCACCACGTCTGGCCCGTTTTTTTTCAAACATTCCCCAAACTGAGGGTCTGACACGCCCGTTGTTGACATCATGG
TCCCCCACAATGGCTGGGTGTGTGGGTGGTGTGAAAAAGCCTCCCAGTAATTAAGTTCCTGCCCCTATGTTTAAGATCACTTTGGCTGATCACTTGTCAA
GTGCTGGCCACATAATGTAAGGTTTCTGAAAAAAGAGATCCCAGATGGCTCTCCAGAGCTTGCAAAGCTCGAGCAGCCCCGCCACGCTGGCTGTGGCAGA
CAGGATAGGGCTGAAGCTGGATTTACAGGAGGGCAACCTGTGCCCAGTGTTTACTGACCCGTCCCCGGAGGCTTCTCCCTCATGGGGAGGAAAGCTGGTC
ACATTCCTCGTTCCTTTCTTAATGTGACCTAACAATAGGCACAGCTATGTGTAACTTCCCTTCAGTAACTTCCTTCAGTCCAGGGAACTTCCCTTCAGTC
CAGGGGATCTGGGCAGTTCTTAGCAGTCTGGAGCAGCTGGGCTGAAGCCTGACTTCACCCTTCCTTTGTAGAAATCTGCTCTTTTCCCCCGAAAAACATT
TCCGAGGATTGTGGTGCCTGGACTAGCATTTAGCATGGTACCTGGACCGTGGAAGGTGCTCAGAAATGCCACTCCTCCTTCTTGAGTAACACATTTGTGT
AGTTTTCAAACAGTCTTGGTGACCTTGGGGCAGCTCGGGGGGTGAGCAGCAGGAGTTTGGTAACCTGCCACCATATAGGTGTCTGTGATCACATTGGTCC
CTAACCAGCATGAATGGCAGCCGAGGCAGGGGTTGTGTGCTCTTTGCTAAGTGGGAAAACCAGGTCTCAGAGCAGTTGTGATCACCCAGAAAATGTCACC
TGGCTGGTGAGTGGAGGGGCTGGGGGTTCCAAAGTTCTCATCTGTGTCTGCTGTGGATGTGGCCAGGGTCTTCAAGTTTTAGGGGATCAACTGAAGTGTG
TTCTGTGGAACACTAGTCCTGTGAAATGCCCTGTTCAACAAGGTTTGGTGATTTTCTGGTGGCTCAGACCCCAAATTTAGGAGTATCCTTAATTGTCTCA
CCAGCAGGTATTTATTGGGTGTCTACCATATGCCAGCCATACCCAAACCCCTGTCCCCCAGAGCAGTTATTCAGTGGGGGAAGCACCAAATATAAGCTAC
AGAGTGTGGTAGTTCATAGATGGAGACCAAGGGTGGAAGTGAGCAGGGGAGTGGCAGTGCTGGGAGGTGGTGTCTTTAAAATAGGGTGGGTGGGAAATTA
AGCATGGACTTGAAGGTGAAGAGGAAAGGAAATAGGCCGCTATGTAGCGCAGAGGCCCCGAGGCAGGAGTGCAAATGAAACAAGTTGGTGGGCGTGGCTG
AAGTGGCTTACATAAGGGGCGGAAGACATTGAGGTTGGGTGGGCTAGGTGGTGGAGAACCATGTAGGCCATCAAGTTTGGGCTTTGCTCTTGAAGAATTT
GGAGGGCTATGGGTGCAGGTGCGGCATGAGTGTGATCAGACTCTGGCTTTGCAGCCTCTGGCTCAGCTGGTGGAGACAGCAGGAGAAACGGCCAGAGGCA
GGAAGCAGCTGGAGGAGTCTGGTTTTTTTTGTTTGTTTTAAGCTAACGGTCTTACTGGACCAGAGGGGTCTTGGAAAGGAACTGAGACCCTTAGTGTGAG
GTGCTGCTCTGTGCCACAGCTGGCGTAGACACAGGGCACTGGCCCGATGGTGACAAAATGCCCCTGGCCATTGTCACTGTCTTATAGATGAAGAAACTGA
AGCACAGAGGCATAGCACTTTGCCCCACGGTCCCTGGTCTTTAAGACAGAGCTGGACTGGAGTCTGAGGGGCTGGGCTCCCTGCCCTTGCAGGTCTGTCC
TCTGCCTCCTGGACAGAGGTGGGCTGGGCCTGGGACTCATGACCCTGCAGCATCTGACCGGCTGACCCAGTGTCCTAGAAAGAACCATTCTTGTCCCAGG
TGCATGTAATTTATTAATGGAGCTTTGACAGTCACAAGTTCCAGCAAGTCAGGGGTGGGGGCTGCAGGGTGGCCTCTTGCCCTGTAACCACAGTCATCAA
ATATGCCTCGCCATCTTTGAGGGGCTTTCCTGAGATGACAGATTCCTTTCTGGCACTGTGTAGCCAACTGGAGTCACAGACCTCAGCCTGGGCCAAATGA
GCATTTTAGGGAGAAGGACAATCCCTTATAGCTTAGCCCTAGGGGAGCTCTGGGCAGGGTTTTACACATTCTTTCTGAAAGTAAGGTCATTTGGGGACAG
GGCTGAGAGCAGTTTCTTGGCTACACAGATGGGTCTGTCAGGGTTGAAGCCACATGGGTGCCTGCTCATGTGCCATGTTGAAGGAGTCCCTGTCCGCCTC
TCAGCAGCCCGCATGGGCTTTACTGGTTGGCCTTACACTCAAACAGGAAATCCCTGGGTCTCAGGTGGAGAGTGCCGTGCCGTCCTGCCTGCTCCCCAGG
GCCCTCACAGGACACAGCAGGTGCAGGACACAGGCCCGTGCTGCTGCAGCTGCTGCTGGAGCTGCTCCTTCTCCATCATCAGCGCCTTCATCTTCTCTTC
CAGCTTGCCCAGCTCCACCAGCCACCTCTGAGGGGACATGGGAAAAGCATGTGGCCAAGCCCGCCTGGTCTCGGGCCTGTCCGTCCTCCACCTGGGGCCA
AACTGAGGGAGGAAGGCAAAGCCCAGGAGCCTGAGAGCTTTCTCAGCTAGGGGAAAAGTCAGGCCCCTCGGCCTGCTGCCACCTTCAACCGTGTCAGCCT
GAGGGAAGCTGCCGGCTGCCAGCCATGGAAGGGAGCCTCCTCCGTGCTGGGCAGGCCATGTGCCTCCTCACTGTTGGTCCCTTGTCCTCCATTCTCTGTT
TCCCTCTTGAAAAAGCTCTTCCTTGGGACTGTGTCTTGCCCCCTCTGCCGCTTTAGGGCCTCCCCTAAAATGCAGTGTATAGTCTTTGGGGTTTTCTGGT
GACATCTCAACATTCCAGTCTCTCTGCTCCCTCACTCAAGATCGAGTGTGTTAACTGCCCAAGTAGAGGGTGAGGGGTTTCAGGCACCCCTGAAGGGAGG
ATACTGCATAGGATTTTTTTTTTTTTGAGATGGAGTCTCGGTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCGCTTCC
CAGATTCGATCGATTCTCCTGCCTCACCCTCTCGAGTATTTGGAACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGAG
GGTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCTGTTCGCCTCATCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGC
CTGGCCACTGCATAGATTTTTAAAAGGAGAGAGCTTGGGCCTCTTCCTTCCCACCAGCCACCTACCCGCGGAGTATGGGATGTGGTGTGATTGTATTCCA
ACCCCTTGGGTTCAACGGGGTGATGCAGGACCCAGGGAACCATGGTGGCTTGCCCTGGGCTGCTCAGTGGGTGGCTGAAGGGGTCTGGGGTCAGCTCCGC
TCCACCCCACCCACTGGCCTCAGCTTCCGTACCTGCCTGCACCACTCCTGGATGGCGCTGGCAGACAGCGGGCCCTGGATGCTCCCGTCGCGCCGCAGAA
ACACCTCCCCCTGGTCTGTCTGGTAGAGTTGCGGCTGGCTCTGGGCCTTGGGGGTGTGCACGGTCAGGCGGATCACCTTGGTAGGGGCAACAGCAGCTCT
GGAGGCGCCGCCCCTCACGGTCGGCAGCCCCCATCCTGCCAGGCTGCTCAGCATTGCTCACTGATTCCTTAGGGCAGGCCAGCAGGGCTGGCACAGGGGC
CATCCCCAGCCTCTTCTCCTGTGGCCCCCAGTCCCGTCCCTGCCCCAGCACTGCCTGGCAGGAGTGCAGGCCATCGTCTTACTGAGTGATGACAGATGAC
AGGCCCAGAGGCCCTCCTGTCCTGCAGGCTCACCTTGAGGGGGACGCTGGTCTCCGAGGTACTGATCACAGGGATGAAGGTGAGAGTGTAGGCATCGGGA
AAGATCTGAGGCTTGAAGCCCTGCAGGATGGAGTCCACCAGCAGGCGTGCGCGGTCCTCGTCACGGTGGCTGCAGCGGATGCCCTGCACCAGGCCGCTGT
CCTCTACTCCCACGAGCAGGCTGCCGCCCTCGCTGTTGAGGAAGGCGCACACGTAGCGCCGCACGTGGTGCTTGAAGGCCAGGCTGAGGTACTCGCCGCT
ACCCCGCTTGAACTCCATATTGCGGGTCTCGCTGCCCAGGAAGGCACCCTGGAAGAGCTGGTCCTTGCCCACGATCTGCTGGTGCACAATGGCACTGTCG
GAGCACACGCCGCTGGGCCGGCCCTGGCAGCTCTGCAGCTGCTGGGCCTGGGGCCTATCAGGCAGCGTGTGTGTAGGCCAGGTGGGCAGCGGGACACCAG
AGCCTGGACTGGGGCCAGGGCTCAGGCCACTGTCCTCCTCCTCCTCCTCCTTCTCCTAGGGTGGTAGTCAAGAATGAATGTATGGGTCCAGCCAGGAAAT
GGGAGCCCTGACCCTGAGAAGGACTGCAAGAACCCCCAGTCAGGCCCCTGCTGCAGCCTGACTCTTACGGACATCCTGATGCCCCTCACCAGGCCGAGGG
GCCCAGTTCTGCCCACCCTCCTGCAGCCGAGGCAGGAAACCCTGCTGGATCGAGGGTTCCAGTCAGCGCTCCTTTCCCTGCCAAGCTGGGCCCTTCCCAG
GTGAGCTGTGGGATGCCTGGTGGGGAAGAAGAGATTTCTGCTTCTCAGGGCTGGGTGCTGGGACATGTGTGGGCCCATTTTTTCTTACTTGGGTTGCAGA
CAGGCCCCTGAGGCCCAGAACCAGATCATTCCAGCAGGTATCTCAGCACCCTGTGACAGAGCTGCAG


SNP Information

Context             (SEQ ID NO:63615):
CCGCCCCGCGCCCTCCAGGCCCGGCCCGCCCTCCAACCTCTGCGTGCGCACAGCCTAGAGCCCGCCTCCGTGAAAGACTGCCGGGCGCATGCGGTCGGGG
K
TGTTCACTGGCTGTCCGGGGCTCCGCGCGCGTCGCCGGCCCAGCTCTGTCGCTGACGGGAGGATCTGAAGCCGGCCGCAGGTAGGCTGACTCCAGGGATC
Celera SNP ID:            hCV27833851
SNP Position Genomic:     6055
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,23)   caucasian(T,4)   total(G,1|T,27)
SNP Type:                 UTR 5


Context             (SEQ ID NO:63616):
GAGCTTTAAAAATACTGATGCCTGCCTCCTACCCCACAAGATCCTAATTCAAGTGGTCTGGGGTGCAGCATGGGCTTTTGACCTTTTATAAGCTCTGAAT
R
ATTCCAATATGCAGCTGAGTTTGAGAACCACTGTTCCTAGTTAAGCCATTCATAGGTTCGTGGACATGATTTTTTTAAAGCTACATTTGTGATTTGGATC
Celera SNP ID:            hCV489499
SNP Position Genomic:     21417
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63617):
GAGGCTGCTTCACAGTGACCTGGCGGTGTGGCTTAGTTTGGTAGACAGCATGCCCTTGAGTGCTGGCTTCTGAGTCCTGAGAGGCACTGTCTTATCACCC
R
CCACCCCAGAGCTGGCTTTCTGGTCTCCCTGGATCCTTCACAGCCCCAGACCTCTGCCTCTCACTTAGGTTCCCAAATGGGTAGGTGCTTTGGTGATGAG
Celera SNP ID:            hCV463795
SNP Position Genomic:     30738
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63618):
GTGAGCTCGGCCCAGCCGGGACGTCAAGATGCTGTCTCCACCTAGTGGCTCATCATTCATTAATCCAGCCCAAGCTTCCTCACACAGGGTGGGCAGCTGG
M
CTCCAAAATGACAGGCCTGTTATGCAGGCACTTATCAGGCCTGCTGATGTCCCGTTGGCCAAAACAAGTCACGTGGCCAAGCCCCGAGCCGGCAGGGGAG
Celera SNP ID:            hCV463796
SNP Position Genomic:     30293
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|A,6)   total(A,6|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63619):
TTATGGGTGATTTTAAGCAATTTACTTAGCCTTTATGGGCCTCCGTTTTTTCTGTAAAATGGGAGTAATAAAGGTACGTACTTCACATGATTAAGGGAGA
Y
AATGTATGTAAATAGTCTCTAGTAGTGCCTGGAAAATAGGGAAATGCTCAGATAATATCAGCTCTTCGCCTAGCTGTGTATTACTATGTGACAGACCTCC
Celera SNP ID:            hCV463797
SNP Position Genomic:     29964
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63620):
AAGGGCAGGCCTGGGTTCCTAGCACCTCATGGTGTGCCGTAAGGGAGCTGCCTTGCCTCTTGAGGAACAGCACGGCTCCTCCATGCAGGAAGGAGGGAGC
R
CAGCCAGACTCCCTCCTTTGCCTTCTGCCTCTGTGTTCCTGTTCTTGAGATTCTGTCACTTTGATCACCGTGGCCACCATCCTGAAGCTGGTGCCTGGTG
Celera SNP ID:            hCV463798
SNP Position Genomic:     29670
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63621):
AGATTCAAATGAGAAAGTCATTTTCAAATTATTTTAGGGCCTATGGAAACAAACATTTAAGCAGATTTTGTTCTTTTACACTTTGTGCATAACCTTCACA
R
TGAAGCTGTTTCTTTTGAATCTCTATTTCAGATCATCCCTTTTTTGTTGGGGTTCAGTACCACCCTGAGTTCCTGTCCAGGCCTATCAAGCCCTCCCCAC
Celera SNP ID:            hCV7773800
SNP Position Genomic:     35712
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,10)   caucasian(A,18|G,20)   total(A,44|G,30)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63622):
ATAAAGGTACGTACTTCACATGATTAAGGGAGATAATGTATGTAAATAGTCTCTAGTAGTGCCTGGAAAATAGGGAAATGCTCAGATAATATCAGCTCTT
Y
GCCTAGCTGTGTATTACTATGTGACAGACCTCCCTAAAGCTCAGTGGCTCCCAACAGCAGTGACTTCTCATCTCAGTATTCTGTGGTTTGGCTCAGTGCC
Celera SNP ID:            hCV26064265
SNP Position Genomic:     30031
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63623):
TTTTATCTGCCAGGAATGAAAGTGGTGAGGTCTTGAATATAATCCAGAGGTTGAGAGAGAAAAGAAAGTAGTGAGGTCATTGTGGGTATCAAATGGGCAG
Y
CCTTCCTCCAAGTTGCAGTGCACCTCCCAGTCCTGCCCTGGGGATGACAGCTTGGGGAGCATGGTCACTGGGCAGTTGTCTCAATACTGATTACTACATT
Celera SNP ID:            hCV27908687
SNP Position Genomic:     36744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63624):
TCTTCTGAGTGTCTTGGTCAGTACGGCACACAGAGCTGATGAAGAAAGGCCCCCTTAGGGGAGCATTTTAAGCCAAGAGGTAAGATAAATTGTTAATATT
A
ATATATGTATTTAAAATTTTGGGCTGGGCACAGTGGCTCATGCCTGTAATCCTAAAACTTTGAGAGGCTGAGGTGGGAGGATTGCTTGAGCCCAAGAGTT
Celera SNP ID:            hCV26064266
SNP Position Genomic:     27905
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63625):
GTGTTCTGGTCTGTGCCATGGCGGGCAGCAGCTGAGCTGGTGGAATGGTGGGGCATGGCCCTGCTTGTCTGTGGGTGGCAGTAGAGTGTCATGGTTAAGA
K
CATGGATGCCGTGGCTAGGCGCGTTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGATTGAGACCGTTC
Celera SNP ID:            hCV27908688
SNP Position Genomic:     24410
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63626):
TATAAAAATGTTATCTTGTTGCTCCTGACCTAACAGAATTAGGAAGCAGCACTGTCTCATGAGGGAAGGGGTCTTGATAAACATGGGGTCTGGACTCTAG
R
AACTTCTTTCTGGTACATGGCCTTCCTCGGGGAGCCATTTAACTTCTGGCCGCAGTTTCTCCTTCTCCAAAATGCTTGGAGTTGGTACTAAAGCCACTTC
Celera SNP ID:            hCV28009531
SNP Position Genomic:     35354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63627):
TGTTTCCCCTCCTGCCTTGGTTGGTTGACCCCCTGTCCTGGCATAGCCTAAGTAGGTGGTGGGTAGGCATGAGAAGTTAGTATCAGGAGGAGGGCCTGTG
T
GCTAGGTAAGCGTTTAACACGGATGGACTCATTAATCCCCTGACCAGGGAGTTTGCTATAGGCTGTTTCACAGTCTTAAGGAGCTGATACAACAAGAACT
Celera SNP ID:            hCV62245
SNP Position Genomic:     37525
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63628):
TTCTTCTGAGTGTCTTGGTCAGTACGGCACACAGAGCTGATGAAGAAAGGCCCCCTTAGGGGAGCATTTTAAGCCAAGAGGTAAGATAAATTGTTAATAT
T
AATATATGTATTTAAAATTTTGGGCTGGGCACAGTGGCTCATGCCTGTAATCCTAAAACTTTGAGAGGCTGAGGTGGGAGGATTGCTTGAGCCCAAGAGT
Celera SNP ID:            hCV26064267
SNP Position Genomic:     27904
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63629):
ATGTAAACCCAAAAGAGGACTGCAGGCACAGGAAAGTGTCTAATGGGGGCAGGATCCTCATTTAACAGGGAAATCAATAGAAAATGCCTCCAAGTAAATG
K
GGAGAAGTAGCACACCAGCAAGATCAGTTAAGAGTTGAAGAGCGGTTGTTTCTAGGGATTGGAAAGGGGAGAGTGGGTGAGGGCCGATACTGCTTACAAG
Celera SNP ID:            hCV27908689
SNP Position Genomic:     17186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63630):
GTAATCCCAAAGTGCTGGGTTTTATAGGTGTGAGCCACCATGCCCGACTGCCTTTTACTTCTTTGTTGTTATTGAGAACCTGTCAATGGTGTGACATACA
R
CTGTGGCTGTTACTTCAAAGATTAATTGCTTAAAACTGGGAGAGATGTTAAAACATACCTCTTAAGTTTTAAAATTCTGCATTCGTACTCCTACTCTCTA
Celera SNP ID:            hCV27535743
SNP Position Genomic:     10263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63631):
CAGAAAGTTGAGATATGGGCCCAAATCTGATTAATGTTTGCAGTCCCCAAGCACAGTAGCTGTCATGTAAGTCAGTAGCCCATAAGGATGAATGAATGAG
Y
CTCCCGCCTGATCTTTATGTACACTGGCATATGTATTGCCAGGCACTGAGACTGCAAGAATCTAAAGAGAGAAACTAAAGAACGTAAAGAGAGATGTTAA
Celera SNP ID:            hCV278106
SNP Position Genomic:     7570
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63632):
TTCTTTACATACAGCCCGTTTGTTTTGCCAGGGAAACTCTATGGAGACGCAGACTACTTGGAAGAGAGGCACCGCCACCGATTTGAGGTGAGGATTCCAG
S
TTGCTGGTACTCTGGAAAGATAGTGAGCTGAGAGACCAGCAGAATTATTTTTCATGCCTCAACAGGTGAATCCAGTCTGGAAAAAGTGTTTGGAAGAACA
Celera SNP ID:            hCV62246
SNP Position Genomic:     35027
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,35|G,5)   total(C,72|G,6)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,31|G,5)   total(C,66|G,6)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63633):
CTTCTTCTGAGTGTCTTGGTCAGTACGGCACACAGAGCTGATGAAGAAAGGCCCCCTTAGGGGAGCATTTTAAGCCAAGAGGTAAGATAAATTGTTAATA
T
TAATATATGTATTTAAAATTTTGGGCTGGGCACAGTGGCTCATGCCTGTAATCCTAAAACTTTGAGAGGCTGAGGTGGGAGGATTGCTTGAGCCCAAGAG
Celera SNP ID:            hCV26064268
SNP Position Genomic:     27903
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63634):
TTCCTGGCCCATCAGCTGAAGCTTTTCAGGAAGAGATGAAGGTCAGAGGTAAAGTTGGGGCTCAGTGCTGAGGTTGTTAAACAGGCCCCATGTAGCTGTC
M
CCACATTGGGGTTTGCTTTCTACTTCCCAGGTGTTTCTCAGCGTGAGAGTTTAGTTTGCTTTGTGCTGCTGGACAGGTTCCTGCAGAATGGCCTGTTGTA
Celera SNP ID:            hCV26064269
SNP Position Genomic:     25087
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63635):
TTTAGTGCCTAACCTCTGAAACAACTTTGTTCTTCTAGCTTGGTGGAACCGTGGGGGACATAGAAAGCATGCCCTTTATTGAGGCCTTCCGTCAGTTCCA
R
TTCAAGGTCAAAAGAGAGAACTTTTGTAACATCCACGTCAGTCTAGTTCCCCAGGTAAGTAAGACATTGAAAGTTTTACTTTGGGGGAGATGGAGAGGAG
Celera SNP ID:            hCV25601220
SNP Position Genomic:     14961
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,32)   total(A,69|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63636):
GTTTTAAAATTCTGCATTCGTACTCCTACTCTCTAGCGTTGAGGTGAAAATATGCAAGCATTAAATGTCACTAGTGCAGAAATCCTCGTAACAAATGGCA
W
CAGGAAAAGATCCATATACCTGAGTGATATTTAATACAGAATTCTTGAGCAGAGGATGAGTTACCTCTCTGAGGGAGAAAATGAGACTTTTTTTCCTTTC
Celera SNP ID:            hCV27530532
SNP Position Genomic:     10429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63637):
GCTTTTGGAAATGCTGCAGCAGAGGATGCAAAGAGCCTTTGGAGCGGGGAAGACTTCTGAGCATTCTTCCTTCCCTGCCAAGTGTGTTCTTTCTTGCTCT
R
GGGAGGGGGTGGGGCGGGGGAATGCTTCGAGCACAACTCCTTAGTTTTCTTGTTCCTTAGTTTATTTTTATCATAATTTGGCTTCACATGGAACGTTCCT
Celera SNP ID:            hCV27829926
SNP Position Genomic:     8171
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,34)   total(A,2|G,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:63638):
GGCTAGAAGTATGAGGTTACCTTTTAGAGAATAGCTGGTAATTTTTCTTTTTGTGTGTCATATTTAGTCTTCTAGAAGTGAATTTCTGTGCTTCCTATTA
Y
GTAATTGCACACCTTGTTAATGAGTGTTTTATTTCAGGATTGCAGTTGTGCCATGGTATAGGTATTTTTCACTTAACGTAAATGGTTTCTCTGTTCACTG
Celera SNP ID:            hCV25601221
SNP Position Genomic:     11023
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63639):
GAGATGCGGTTTCCCCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCTCCTGGCTCTGCCTCCCAAAGTGCTGGGATTACAGGCATGA
R
CCACCATGCCCAGCCAGAGAACTACTTTTAATTAAAGGAATTTTGGTTTAGCTGCAACCACTTTTAAATGTTGATGTTCTTTCCTTTTAGTCTATCTTTT
Celera SNP ID:            hCV376229
SNP Position Genomic:     8980
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63640):
TATGGGAAAATATAAAAATGTTATCTTGTTGCTCCTGACCTAACAGAATTAGGAAGCAGCACTGTCTCATGAGGGAAGGGGTCTTGATAAACATGGGGTC
Y
GGACTCTAGAAACTTCTTTCTGGTACATGGCCTTCCTCGGGGAGCCATTTAACTTCTGGCCGCAGTTTCTCCTTCTCCAAAATGCTTGGAGTTGGTACTA
Celera SNP ID:            hCV25472451
SNP Position Genomic:     35344
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,28)   caucasian(C,4|T,26)   total(C,6|T,54)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(C,6|T,34)   total(C,9|T,69)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63641):
TTTAGTTTTTGTTCTAATCACTGATCTTAAACTGAGGAGGGAAGTTGTGTTTAGAGCTTAGCAATGAAACTATTAATCACTTTCGTTTGTAACTATTTTC
R
TAACAAGTATTTTGGTATTTCAGATGCCAATTCTACAGAGTTTGACCCTACGACCAGTCATCCCGTGGTGAGTCAAGTGTTTGAACCTCCACAGGGCTTA
Celera SNP ID:            hCV25601244
SNP Position Genomic:     32326
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,37|G,1)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63642):
CACCATGTTTGCCAGGCTAGTCTCGAACTCCTGACCTCAAGTGATCCACCCGCCTCGGCCTTCCAAAGTGCTGGGATTATAGGTGTGAGCCACCACGCCC
R
GCTCATTCTATATCTTGGTGTGTATGTTTGACAAAACTCTTCAAAGTATGCACTTAAAATGCTTGTATTTTATTGTATGTGAATTATGCTTCAATATGGT
Celera SNP ID:            hCV7769350
SNP Position Genomic:     26848
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63643):
TTGTGGATAGGAGCTCAAGTAGAAGCCTTCATGTTTTCTCTTTAGAGACAAATTCAGTCTTGGAAAGCTTATTTATGCTTATGAGCTACATGTAGATGTC
R
TGGAATTTTGAGAGAATGAATTGTGAATTCCTGTCCATTTAATGAACCCAGCTGTTTGTAGCACACGTGAGGTTGAGTTTTATATCTGCTCACTTGGCAC
Celera SNP ID:            hCV25601245
SNP Position Genomic:     28762
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,2|G,38)   total(A,3|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:63644):
AGCTTGGAGACACCGCATACTGTATAGCAGTGATCACAGTGCGAGTTTACTTGCTAAACACTCCCAGGATTCTTGCGTTAAATGACTTGGTTTAATCAGC
R
TTTCTCTGATTTATATCCATAACACCCTTTTTGAGAATCCCATGTGCATTTTGTTGAAACCAGGGAGCATGCTTTTGGAAATGCTGCAGCAGAGGATGCA
Celera SNP ID:            hCV27851394
SNP Position Genomic:     8000
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,24)   caucasian(A,10|G,28)   total(A,22|G,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:63645):
TAGCCACAGCCAGGTTCTACCCAGTCGCTGGGCCGCAGCAAGAAGCTAGGAGTGTACTCGGAGGAGTGGGAAGCCACCGAAAAGTTGAAGTGTGGGAGTG
R
TGAATTCTGACTTGAATTTTAAAAGATCACTTTGACGCCATGTGTGGAGTAGATAATGAATATTCTTCTGCGTGAGGCAAATGAATATCCTTGTGCATGA
Celera SNP ID:            hCV28972837
SNP Position Genomic:     12813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63646):
ACTGAAATATGCCTTCAGTTGAAAAATCAGAATTATATTGTTGTTTGCTAAAAAAAATAATTTGAAGAACTACTTCTTCGTTGAAGCTTGTCAATTCTGC
Y
AAGGCAGCATGATACGAGTCCAGAGAGCTGTTGTTTTTACACAGTAATGAGTGTGAAAGTGGTAAAGGCAACTCGATTAGGGCATTAAGCCAGATGGCAT
Celera SNP ID:            hCV28972838
SNP Position Genomic:     11545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63647):
CATAGATTCTGCGGACTTGGAGCCCATCACCTCGCAAGAAGAGCCCGTGCGCTACCACGAAGCTTGGCAGAAGCTCTGTAGTGCTCAGTGAGTAGAGTTC
R
CTGCCTTGGGTTTCCAGAGTTCTTTTGGTTTGTTTTAATGAAAAAGTCCTCTTGTTTTCATGTGCCAGTAGTAGGTAATTGACTTGTTAAAATATTTTTT
Celera SNP ID:            hCV7769338
SNP Position Genomic:     27430
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(A,14|G,26)   total(A,20|G,56)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63648):
AGGTCTTGCTGTGTCACCCTGACTAGAGTGCAGTGGTGCTGTCACAGCTCACTGCAGCCTGGGCTTAAACAGCCCTCCTGCCTCAGCCTCCTGAGTAGCT
R
GTACCTTAGGCGGACGCTACCATGTTCAGCTGTTTTATTTTTTGTAGAGATGAGGTCTTGCTATGGTTGCCCAGGCTGGTCTTGAACTCTTTGGGCTCAG
Celera SNP ID:            hCV11304101
SNP Position Genomic:     19780
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63649):
CTCTGAATGATTCCAATATGCAGCTGAGTTTGAGAACCACTGTTCCTAGTTAAGCCATTCATAGGTTCGTGGACATGATTTTTTTAAAGCTACATTTGTG
R
TTTGGATCATGAATTATTATTATTATTATTTTTAAGACAGGTTCTGGCTCTGTTGCCCAGGCTGGAGTACAGTGATGCGATCTTGGCTCACTGCAACCTC
Celera SNP ID:            hCV26064270
SNP Position Genomic:     21509
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63650):
TCAGCAGTTTGGGAGGCAGAGGTGGGAGGACTGCTTGAGCCTATGAGTTTGAGACCAGCCTGGGCAATGTGACAAGAGCCTGTCTCGATTTAAAAAAAAA
R
AAAAAGTCCAACAGAAAATGATTTCCATCCTACAAGTCCATGTGTAACGTGTATCTGTTAAGTGTGAGAGAAGAATAAAGATGATTTAGTACAGAAAGGA
Celera SNP ID:            hCV26064271
SNP Position Genomic:     16938
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63651):
CATTTATGGTACAATCACTTAGTACTGATTGTCCCCATGAGTAGTGTGACACATTTTCATCTGTCTCTTGAGCAAGTCAGCAGATCTTTTGCTTTCGTCT
K
GCAAGAGCATTCGTCTCCGAATGAGCTTCATTTGGTTTCAGTATCTGTACTCCTGCTGTGCTGATCCTAGCTGTTGGATCTCAGTGTTCCTCAGATAACA
Celera SNP ID:            hCV26064272
SNP Position Genomic:     14086
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63652):
CAGATCTGCTTTTGGCTTTAGACTTTACTGGCCTGAAAGCTGAGGGTCACACTGACAGCTGGCTCTGGTCTGGGGCTGCCCTGGCAAGATTCTGGGCTAA
Y
TGGGTCATGTTTGGATCTTAGCTTCCCCTCTCACCAGCTTTGTGAACATGGGCAAATTAACCTCTTCAAAATGTGGATTCCTTTTCTGTAAAATGGAGAC
Celera SNP ID:            hCV26064273
SNP Position Genomic:     12070
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63653):
TCTGCCAGGAATGAAAGTGGTGAGGTCTTGAATATAATCCAGAGGTTGAGAGAGAAAAGAAAGTAGTGAGGTCATTGTGGGTATCAAATGGGCAGCCCTT
Y
CTCCAAGTTGCAGTGCACCTCCCAGTCCTGCCCTGGGGATGACAGCTTGGGGAGCATGGTCACTGGGCAGTTGTCTCAATACTGATTACTACATTCTGGT
Celera SNP ID:            hCV27540036
SNP Position Genomic:     36749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63654):
GTGAGCCACCGTGCCCAGCCAACTGATGCTTTTTCAGTACAAAAATTATTTATGGTTAACTAAGGAGATAAGATTTAGGTTTTTCTTTTTTTTTTTTTTT
T
ACTTTGTCACTGTGATAGAGATAACATTCCTGGCACCTCTCTCATCTGACCTTTTTCTTGAAATGATGTGGAAAGTTCCATAATAACCTTTGGGAAGGAT
Celera SNP ID:            hCV11850954
SNP Position Genomic:     14599
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63655):
TCCAACTCCTGGGCTCAAGATCCCCCCGCCTCAGCCTTTCAAAGTGCTGGGATTATAGGATTATGGGCGTGAGCTCATCCTGGCCAGACGTGGTTTTTTT
Y
CCCTTGAAATAGCTATTTTGGTCTCATGATAGCGTGTACCTTCTGAGTAATTGGGTTTTTCTTGACGTTTATTTGATAGATATGATCGCTTGCTGGAGAC
Celera SNP ID:            hCV459478
SNP Position Genomic:     23620
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63656):
CTGATAGGGCCAGGCCAGGTGCCGGGCCTCCAGACAATGAGTTCGGGTTATGTCTTAACACGCTTGTCTCTTACCAACTAGATCAGTGCAGATGGGCGTC
Y
TGGTGGCAGCGGGTGAGTGTGCATATCCAAAGCCCACACGAATGGCTGACAGTGGCTGGAGCACTCCTGGGTACCACTCCAGAGTTCTGAGCTGTGTTTG
Celera SNP ID:            hCV459479
SNP Position Genomic:     22666
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63657):
GCAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAGTTAGCTGGGCATGGTGGTG
Y
ATACCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAGACCTGGAGGTGGAGGTTTTGGTGCCGAGATCACGCCATTGCACTCCAGC
Celera SNP ID:            hCV464350
SNP Position Genomic:     31613
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63658):
CAGTATTTACAGTCTCTCTTCATTGCATGCCTGGGAGAGATTTCTGACAAGGAGCAAGTTGTTGTTAAATTATAGAAGAGAACTACTTTTTTTTTTTTTT
T
GAGGTAGTCTTATTCTGTCGCGCACGCTGGAGTGCAGTGGCATGATCCCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGT
Celera SNP ID:            hCV11850957
SNP Position Genomic:     8715
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63659):
GCAGAAAGAGAGAGATTTGGGAGTTTAATGATTTTGAAGGAAACTGTTGTATTTTAAAACCTCATATTTAAAAAATGTTTAAGTTATTAAATATATTAAG
W
TGATCACTTTAAAGCCAGTATTAAGATGATCACTTTAAAGCCAGAATCAAGAAAGACAACTTTGATAAAATGATAATATTATTTAAAAATTAAGAACGCA
Celera SNP ID:            hCV463801
SNP Position Genomic:     27177
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63660):
AGGCTGTCATTGAACAGAAAGCCCTCTAGAGTCTGCTGCAGAGGCTTAGCTGAGACCCGATCCTGAACACAGTAGAGTGCAGAAAGAGAGAGATTTGGGA
R
TTTAATGATTTTGAAGGAAACTGTTGTATTTTAAAACCTCATATTTAAAAAATGTTTAAGTTATTAAATATATTAAGATGATCACTTTAAAGCCAGTATT
Celera SNP ID:            hCV463802
SNP Position Genomic:     27099
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63661):
ACTGCTTCAGAAGACTCAGACCCTGACATCTTTTTCCTACAGTGCACAGTTGGGCGTTAGCCTCCTCCCACCTTGGCAGAAGACTGGAGGCTTGTTCTCT
R
GGGAGGGTTCCTGGATGAGCAGACAGTAGGGACAGTTGAGGGCAGTAACACTGGACTACAAACATGGGGTTATGTGTAATGTTAACGCTGTTGACAGTCC
Celera SNP ID:            hCV376234
SNP Position Genomic:     15592
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63662):
TAAAAAGTGGGCACGAGATTTGAACAGACACTTCCAAAAAAAGATGTAGGTGATAAACACGAAAAGGTGCTCAACACCTCTAGTTAGGGAAATCAGTGCA
S
ATGAAGTCACAATGAGATAGTGACACAAACCCCCTAGAGCGGCTGAGTGTTAGAGAGGCTGTGGAGCTCTTACCTTGCTGCCGGGAGTGTAAAATGGCAC
Celera SNP ID:            hCV11304095
SNP Position Genomic:     25817
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,8)   total(G,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63663):
GAACAATTCAAGGAAATTTCTAGACATCAGTTTCTGGGTTGAAAGGGCCCCCTTGGTGCCTATCATATTGGATGACAGATGACCTACACCAAGGCATATT
R
TTGTGAAGGTTCAGACTAATGGGGCAGAAGTTCTAAAAGGCTCTGAAGAGAAAAATCAAGAATCATTGTGCCACTGGACCCCTTAGCAACAATACTGGAA
Celera SNP ID:            hCV376235
SNP Position Genomic:     16665
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63664):
TCCCCTTTATTCCTTTTCTTCCTGGCCCATCAGCTGAAGCTTTTCAGGAAGAGATGAAGGTCAGAGGTAAAGTTGGGGCTCAGTGCTGAGGTTGTTAAAC
R
GGCCCCATGTAGCTGTCCCCACATTGGGGTTTGCTTTCTACTTCCCAGGTGTTTCTCAGCGTGAGAGTTTAGTTTGCTTTGTGCTGCTGGACAGGTTCCT
Celera SNP ID:            hCV11304096
SNP Position Genomic:     25069
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63665):
AAAGATAGTGAGCTGAGAGACCAGCAGAATTATTTTTCATGCCTCAACAGGTGAATCCAGTCTGGAAAAAGTGTTTGGAAGAACAAGGCTTGAAGTTTGT
Y
GGCCAAGATGTTGAAGGAGAGAGAATGGAAATTGTGGAGTTAGAAGGTGATTATTCGGGCAGTTTTATTTAATGGAAAACTTAGTAAAGTTTTCTTGGCA
Celera SNP ID:            hCV25601232
SNP Position Genomic:     35143
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,36)   total(C,1|T,71)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63666):
AGGTGACCTTAGCAGATTCATAGAAATAGCCCTCAAAAGACCTGGCTGTGTGGATGATGAAAAGTAAAGCAGGAAGGAGGATGTCTTTGTGAACGCATCA
Y
CCTGTGAGATAAAGTTCTTTACATACAGCCCGTTTGTTTTGCCAGGGAAACTCTATGGAGACGCAGACTACTTGGAAGAGAGGCACCGCCACCGATTTGA
Celera SNP ID:            hCV25601233
SNP Position Genomic:     34912
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,26)   total(C,1|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:63667):
TGAAGAGCGGTTGTTTCTAGGGATTGGAAAGGGGAGAGTGGGTGAGGGCCGATACTGCTTACAAGCTCGGTTAGAACCATTTGATTCTAAAATGCATGCA
Y
GTGTAACTTTGACAAACATAAAAGCTAAATTACACAAGTGACCAAATGATCTATTTCCTTATTAAAAGAGGTTCAAGGAAAAGTCATACTTGAAAATTCC
Celera SNP ID:            hCV376237
SNP Position Genomic:     17322
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63668):
GAGAACCCTGTTCCAGACCAAGAACTCAGTCATGAGTAAGAGCTGCCTCACGCTGGCCCAGCCTTTGGCTCTGCGTGCCCAGGACGCGTGTCTTAGGGTG
R
TGCTGTGGCTTCGAGGAGCAGGCTGGCTTTTTTTGGTTTCGTTCTTGCTTTTGAAGTTCATTCTTTCCTCTCTTATTCATACCCTTTTAGGATGCACTGT
Celera SNP ID:            hCV25601234
SNP Position Genomic:     33910
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,34|G,2)   total(A,69|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:63669):
GATTGGCCACTAATTTTCTATTCTATTCTTGAGTCTGTTTTAGTAGTTTATCTAGAAAATTGTCCTTTTTTCTGTTTTCAAATACATAATATTTTTACAA
S
GTCACGTAGCTAGTAGGAGGCTGTAAGCCTGGTGAGTTTTTGCTTTTATTTAATAACTTGCTTTTTTCTAAACAGGTGATCTGTGTCCACGATGTCTCAT
Celera SNP ID:            hCV11304099
SNP Position Genomic:     22147
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63670):
AGGCTTGTTATTTTCTAATTAGAGATAGTGGGCTGTTCCAGAAGAACCCATTGCCATCGGCCATTCCCTGCCTCTCCTGGTTCCCCAAACAACACCTGTG
W
CCCTCCTGCCTCTTCTCCGTGCCTCGTTGTACTTTGTGCTTCAGCCGGGTGGAGTATCTTTCGGTTCCCCTAGTACCCTCCACTCTCCCTATGATTGTAC
Celera SNP ID:            hCV25474699
SNP Position Genomic:     18327
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,29)   caucasian(A,5|T,29)   total(A,8|T,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:63671):
CCAATTCAAGGTCAAAAGAGAGAACTTTTGTAACATCCACGTCAGTCTAGTTCCCCAGGTAAGTAAGACATTGAAAGTTTTACTTTGGGGGAGATGGAGA
R
GAGGGAGGAAAGGTAAACCGGAATGATTTTCACTCATTGTCTAGTAGTTTTCACTTGAGGTGCAGGAAGCAGAGAATAAAGAACTTTGTAAGTTTAAATT
Celera SNP ID:            hCV25474224
SNP Position Genomic:     15058
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,10|G,24)   total(A,20|G,52)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63672):
TCCCAGAACACAGTATAGATACTAATATGAGACCCTGGCATGTGTACTTACTGTGTGCCAGCCGCTGCTCTCACTGCTTTCATATGTATATTTTATATTA
R
TTCATGGGATCCCCAGCCATAGTCCTGGGAGAACTGCTGGGTTGGAGCACTGGTTGGCTTAACCGTATCCAAAGATTTTCCAGGCTGGCGTACCTTGCGT
Celera SNP ID:            hCV27501205
SNP Position Genomic:     32780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63673):
TTGTACAGGTGGGGTTCCACTGTGTTGTCCAGGCTGGTCTTGGGTCCTCCCACCTGTAATCCCAAAGTGCTGGGTTTTATAGGTGTGAGCCACCATGCCC
R
ACTGCCTTTTACTTCTTTGTTGTTATTGAGAACCTGTCAATGGTGTGACATACAACTGTGGCTGTTACTTCAAAGATTAATTGCTTAAAACTGGGAGAGA
Celera SNP ID:            hCV27540098
SNP Position Genomic:     10208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 388
Celera Gene:                 hCG23117 - 146000220816918
Gene Symbol:                 MYCBP
Protein Name:                c-myc binding protein;AMY-1
Celera Genomic Axis:         GA_x5YUV32W802(44260520..44283670)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12548):
ACATAATAAAGTCAATGGAAAGTTTCTCTATTTCAGGAATACAACTATATTTTAGAAGGTTGATGCTTTTGCAAATCGTATTAACAGAGCCGGGCGCGGT
GGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGAGGATCACGAGGTCAGGAGATCGAGATCACGGTGAAACCCCGTCTCTACTAAAAATA
ACAAAAAAATTAGCCGGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACCCGGAGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGC
AGTGAGCCGAGATCGCGCCACTGCACCCCAGCCTGGGCGACAGGGCGAGACTCCGTCTCAGAAAACAAACGAACAAAAAAAACAGAACAAAGGCTGAAGA
AAGGAACTAAAGACTCTAGAACTAGTTATTTAAAAAGCCAAAGCTATCACTATTTTACATTCCTAAATTTAAATGATTAAACTTAAGAGAAAACAGATAA
TCTCTTAATGTTTCTTTCCGGCAAATTTGAAGTTTGCTTACAGAGGAAAAATAATAGTTTAGTAAAAAATTTAAGGAGCTGACTCTAAAGCCACAATGAT
TGGGTTTGAATGCCAGCTCCAGCTGTGTGACCTCAGGTAAATTAAGGTGTGCTTCCGTTTCCTCATCTGTAAGATGGGGGAAACAACATACTTACCGCAT
AGGATTTTAGTGATGAACACATCTTGTATCTTAGTAGTTTGTTTGATTGTGTAACAGTTCCCTTTATATAAAGGGGACAGGACATACATTTATATTTTAA
ATGAAAAATAATGAAAATATTCACTTTTAAAATCTTTCCTTTGGGGTATATTTCCTCTGAGATAACCTGGGATACCAACCTTAATATGCAATCTGCCGGC
AAATAATCCAAGCAGCTAAATTATAACTTGCCCCACTGCTTCCTTCAAGAGAGCAGCTATATGTCTTAAATAGGTCAAATACTGCTACAGTGAAAGTTTC
CATAATACTACCACCATACCAGTGAACAATCTATTGCAAGTAATATCTATAATGAGATTCTGGTACCATAAGGCCGGGCGCAGTGGCTCACGCCTGTAAT
CCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTTGGGAGTTCGAAACTAGCCTGACCAATATGGAGGAACCCCATCTCTACTAAAAATACA
AAATTAGCTGGGCATGGTGGCGCATGTCTGTAATACCAGCTACTCTGGAGCCTGGGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCGGTGAGC
CGAGATTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGGGAAACTTCGTCTCAAAAAAAAAAAAAAAAAAAAGATTCTGGTACCATAAAATAGTTGAGA
ATTTTTGGAGTTCTTTTTGTTTTCTGAGACAGAGTTTCTGCTCTTGTCGCCAAGGCTGGAGTGCAATGGCGCGATCTTGGCTCACCGCAACCTCTGCCTC
CCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGGTTACAGATGCCTGCCACCACACCCAGCTAATTTTTTGTATTTTTGTAGAGACAG
TGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCATCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCT
GGGCTTGAAGTTCATTTTAACGTAAGAATTTACAAAATTTGGGCTGGGCGCGGTGGCTTACTATGGGAGGCCGAGGCGGGTGGATCACTCAAGGTTCAGG
AGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAACAATACAAAAATTAGCCAAGCGTGGTGGCACTTGCCTGTAGTCTCAGCTACTT
GGCAGGCTCAGGCACGAGAATCACTTGAACCTGGGAAGTGGAGGTTGCAGTGGGCTGAGATCCTGCCACTGCACTCTAGTCTGGGCAACAGAGTGAGACT
CTGTCTCCCCCCACCAAAAAAAAAGAAAAAAAGTATACTTTTTCATAGTAAAGTATAATAAGTACTTTATACATATTCATAAATATTACTGAGATGAATT
TCTGAAAATGTTCACCAATTGCCAGGAAGAAACCAGAATTTATTTCAAATTTATTTCAATTTGGATTAAAAAAACTAATCTAAATTCCTATGACAGCCAG
ATCTGTTTCCTCTGGTTTCACTGAATGCCATATCTTACTGAATTATCAAATGAAGCATATTCGTTTTCCTATGTGTATAAATGAGATTTAAAAATCACTG
ACTTTTTGACCGGGCACGGTGGCTCATGCCTGTAATCCTGGCACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGATCATCCTGGCC
AACATGGTGAAACCCCGTGTCTACTAAAATACAAAAAATTATCCCGGGGGGTGTTGGCAGGCGCCTGTAATCCCAGCTACTCAGGAGGATGAGGCAGGGG
AATCGCTTGAACCCAGGAGGCGGAGGTTGCAATGCGCCGAGATTGCGCCACTGCACTCCAGCCTGGCGACAGAGCAAGACTCTGTCCCAAAAGAAAGAAA
GAAAGAAAAAAAAATCACTGACTTTTCAAGCCAGTAATGGCATGTTGGGGAAAAAGAAATTGACTTTGTTATAACTTTTATATCAAATAATCTTAATAAA
TAAGGTTAAGATCAGGTTACTAGTTTTAGAAACCTTTCCAAAAGTTCTGTTGAAAAACAACAATAGGCTGGGCATGGTGGCTCACGCCTGTAATCCCAGC
ACTTTGGGAGGCCGAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGAGAAACATCATCTCTACTAAAAATACAAAATTA
TCCGGGCATGGTGGTGCATGCCTGTAATCACAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCGGTGAGCTGAGAT
CATGCCATTGCACTCCAGCCTGGGCTACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAGAATATAATTTTAGGCCATGCGCATTGGCTCATGCCT
GTAATCCCAGCACTTTGGGAGGCCGAGGTGGCCAGATCATCTGAGGTCAAGGGTTTGATCTCAGCTCACTGCAACCTCTGCCTTCCAGGTTCAAGCGATT
CTCTTGCCTCAGCCTCCCGAGTAGCTGGGACTACAAGCGCCTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGGCGGGGTTTTACCATGTTGG
CCAGGCTGGTCTGGAACTCCTGACCTCAAATGATCCACCCACCTTGGCCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCACCCCGCCCAGCCTATATTC
TTAATAGAGAATATATACACTCCTCCTCCAGGTATCATGTTTTTTTCATTGTATTGTGATGTCTAAATATAAGTGATTTTAAATTCCTGACATTTAAGTA
TATTATTGGTAACAGATTCACACTTTGGCCAGGTGTGGTGACCCACACCTGTAATTCCCACACTTTGGGAGGTGAAGGCAAGAGGATCACTTGAGTCTAG
GAGTTTAAGACTAGCTGCAGCAATAGAGTGAGACCCTGTCTCTACAAAAAAATAAAAAAAATTATCTGGGTGTAGTTGCACACACCTGCAGTCCCAGCTA
CTCAGGAGGCTGAGAGGGGAGATGATCGCTTGAGTCTGGGAGGTTGAGGCTGCAGGGAGTTGTGGTTGCAACACTGTACTCCAGCCTGGGCAACAGAGGG
AGACTCTGTCTCAACAAACAAACAAACAAAGAAAAAACCCCACAGCTATCTAGGGAAAAAGTAAAGCAACCAGCATATAGAAGTGACATATTGTTATATT
TTCACCATAGGTTTGCTTTAAGAAATAGTGCTCCCTTCAGAATGGAAGAATTTATCTGCCTCTTATTTGATGTGGATCAGAGCTAAGATGGCTGACTAAA
TAAACATGGGGGACTGGAATCTCCTTGGAGATACTCTGGAGGAAGTTCACATCCACTCCACCATGATTGGAAAGATCTGGCTCACCATCCTGTTCATATT
TCGAATGCTTGTTCTGGGTGTAGCAGCTGAAGATGTCTGGAATGATGAGCAGTCTGGCTTCATCTGCAATACAGAACAACCAGGCTGCAGAAATGTATGC
TACGACCAGGCCTTTCCTATCTCCCTCATTAGATACTGGGTTCTGCAGGTGATATTTGTGTCTTCACCATCCCTGGTCTACATGGGCCATGCATTGTACC
GACTGAGAGTTCTTGAGGAAGAGAGGCAAAGGATGAAAGCTCAGTTAAGAGTAGAACTGGAGGAGGTAGAGTTTGAAATGCCTAGGGATCGGAGGAGATT
GGAGCAAGAGCTTTGTCAGCTGGAGAAAAGGAAACTAAATAAAGCTCCACTCAGAGGAACCTTGCTTTGCACTTATGTGATACACATTTTCACTCGCTCT
GTGGTTGAAGTTGGATTCATGATTGGACAGTACCTTTTATATGGATTTCACTTAGAGCCGCTATTTAAGTGCCATGGCCACCCGTGTCCAAATATAATCG
ACTGTTTTGTCTCAAGACCAACAGAAAAGACAATATTCCTATTATTTATGCAATCTATAGCCACTATTTCACTTTTCTTAAACATTCTTGAAATTTTCCA
CCTAGGTTTTAAAAAGATTAAAAGAGGGCTTTGGGGAAAATACAAGTTGAAGAAGGAACATAATGAATTCCATGCAAACAAGGCAAAACAAAATGTAGCC
AAATACCAGAGCACATCTGCAAATTCACTGAAGCGACTCCCTTCTGCCCCTGATTATAATCTGTTAGTGGAAAAGCAAACACACACTGCAGTGTACCCTA
GTTTAAATTCATCTTCTGTATTCCAGCCAAATCCTGACAATCATAGTGTAAATGATGAGAAATGCATTTTGGATGAACAGGAAACTGTACTTTCTAATGA
GATTTCCACACTTAGTACTAGTTGTAGTCATTTTCAACACATCAGTTCAAACAATAACAAAGACACTCATAAAATATTTGGAAAAGAACTTAATGGTAAC
CAGTTAATGGAAAAAAGAGAAACTGAAGGCAAAGACAGCAAAAGGAACTACTACTCTAGAGGTCACCGTTCTATTCCAGGTGTTGCTATAGATGGAGAGA
ACAACATGAGGCAGTCACCCCAAACAGTTTTCTCCTTGCCAGCTAACTGCGATTGGAAACCGCGGTGGCTTAGAGCTACATGGGGTTCCTCTACAGAACA
TGAAAACCGGGGGTCACCTCCTAAAGGTAACCTCAAGGGCCAGTTCAGAAAGGGCACAGTCAGAACCCTTCCTCCTTCACAAGGAGATTCTCAATCACTT
GACATTCCAAACACTGCTGATTCTTTGGGAGGGCTGTCCTTTGAGCCAGGGTTGGTCAGAACCTGTAATAATCCTGTTTGTCCTCCAAATCACGTAGTGT
CCCTAACGAACAATCTCATTGGTAGGCGGGTTCCCACAGATCTTCAGATCTAAACAGCGGTTGGCTTTTAGACATTATATATATTATCAGAGAAGTAGCC
TAGTGGTCGTGGGGCACAGAAAAAATAGATAGGGGCAGCTCTAAAGACCAGCTGTTAAGACAGACAACTGCAAACTCATTTAAGCAAGAGAAAAACAGCT
CTAATTCGAGATTGTGAAGCAACACTTCTAAATTCAAAGACATAGAGTTGTCAAATCAGGATTTTTTTTTTTTTTAAATGATATCCTTTCGAATGTAACT
GATTTTGGGAAAATCACATGTTCAGAATTGAGGCTAAATGGTTTGATCAGGTTTTCTCTTTGAAGAGACCACAGCCTTAGGAAATGGTTCTTGATCTATA
CAATTCCACCTTGGACACTGGGTTAATTCTGTTTGCCCCTGGAACACAATCACGTAAGTTTCCTTCTAGACTGGCATCCTGATGTGTCTTGAGTATAATC
ACATGTTGCTACCTAGTAAATAAAATCTTAAGAAGATCCGTGGCTTTCCTTCACCAGTTCATAGCATCGTGATTCATTGCCCGGATTGGACTCGRCTCTA
CTCACTGGACATCTAACCACTCCACTTAATTAACAATACCCACCCTACAGGGGTGTTGTAAGGATTAAAATTTAAAATACCCGTGTTTTCTACAGTGCCT
GGCTCAAAAGCTACTGCAAGCTCGTTACTGCTCATCCTCCAGAGGCCCACATCAAGTCAGCCACGACTCAAGGAGACTCCAAAGATAAAAGCTGAAGCCA
AAATATATGATTCTAAACACCCTCCTCRGCTACTGCAAAGCACTGTGAGCACTTTCTCAGGACGAGAGCCAAGAAGCCCAGCACCTATGGGTCACCACAG
TTTCCGAGGTCCCAGATGAAAAAGATGCGCTCGCTACCACCGTGCGGCGGTCCTTTCTCTCGCAATAGTCTCAATGCTCCCGGGCCCTGCCTCCGGACGC
CAGGACAGAGGTACCAAAATYTCACCTCCTGCAAAGAAACCTAATTGCTACGGGGGCCGGAAGAGGAAGAGGTGCGGCTCCGACAGCCAGAGGGGCGGGC
ATACGCAGCCTCCCTCGGCTCAGCCTGCTACTGGGGATGCAGAGCGTCCTGGTCGCCATGAAAACAGGCCACACCTCGGCGATCCCGGCCSGTGGTTTGC
AAGTGCGCAGGCGCGCGCCCCCTTCCGCGCATGAGCAGTGCTGCTCCCAACCCGCCAGTCGCGGTCTCCSGCGCCAGCTACGCCGCTGCCGCTGTCACTA
TGGCCCATTACAAAGTGAGGGGGGCGCGGCGTGGCTGGGGGCATGCGGGCGGTAGCAAGCCGCTGGTCGGCTCTGGGTGGGAGTGGGGTCGCGCGCGCAG
GTTTGGGCGGGAGGGCCCCGAGGTAGTGAGGCGGAGGCGGGGTTGCCGGACTCCCAGCGCCTTCTTCCTGCTCGGCTCCCGGGCTCTGGCCACTGACCCC
CGGTGTCTCTTCAGGCCGCCGACTCGAAGCGTGAGCAGTTCCGGAGGTACTTGGAGAAGTCGGGGGTGCTGGACACGCTGACCAAGGGTGAGCCTGGGCT
AGGAGAGGGTACCTCGTGCCCTCGTCGTGCTCCCCGGCGCTGCCCCGTTCCCCAGCGGGCCGTAGCGTGGGGAAGGAGGGGAAACAGATGGGGCCCGTCC
GGGGTCCAGCGAGGTGGGCCTCGGGGTTCAGCAGGGACCTGGCTGCTGGACGCCGCCCGGGTGGGGTAGCCTAGCTCCGCTACCCTTCTCCGCACCGGGA
GTGAAACTCTTGCAGCTGTTGCAAAGTCTCTTCAACTTCCGTTGCTTTGCCTCCAGCAGCCGCAGTGGACATGTTTGCCAAGGACCTTCAGATCCCAATT
CCTCCCACCTTACGGTTTTTATGGAGTCCTCAGAATCTTGTTAAGAAAGTTTCCCTCCAACAAAGAGCAACTGGAAAAATGACCGAATTTCCAAGTGGGC
TATGAAGTAGCTGAGTGAGCCTAATCCCCAAAGTAGGAGATTCATAGCGAATTTGGCTGTGGCTTTTCAGCCCCCATTCCTTAGTCTGTCTGTGTCAATT
CTTATTTTGTGTATATTTCATAAAGTAGAATTACAGCTTAAAGAGCTCGAGGGCATATCAAGGTGGTTACATTGTTTTCACTTTTTAAAATGAAAGCTTA
CTGTTAACGCTGTATCTCTTCATTCGTGGCTTCAAGATCTAAGTTAAGTAGATGAGTAAAGTGTTGGAAACAGGAGGATTTCAAGGGGTAGGGTACAGTT
TACTTTATTGGCTTAGCACTAATTTGAATGCCTGCTATGTGTCACTCAACTCACTGGGATATTCAAGGGTGTAGAATGGAATTGTTCGCAGGGATGAGGA
CTTGGGTCATATGAAACTAGGAAGTTTGGGAAGTGGGAAATAAATTGGTAACTGCCCTTTGGACAGAAGCAAAGTTTAGAGGAAAATTCTAGGAGCATAA
CTCCTGGGTCTTAGAAGAAAGAAGGCTAGTAATTTTGAATTGCTACCTATTTGGGGTTCAGATAATAGTTTACCTCTTTGCAAATAAACTTCAGCAAGTC
TTAAGGGACTACTCTGTGAAAGTACTGTGCTATGTTGTCTCTGAAAGTGTCACAGATGCTTTGAATGTCATTCCGTCTAAAAACTCCTTACGTTCATTTC
TTTCATTTAATAATTTTACTCAGGTGTCTGTTCTGCACACTGGAGATAAGCAGGGGAGGATAAAAGTCTCGGCTCTCATAAGCTTATATCCTAGTTGAGG
GAGAGAAATACATAAATAAATATGTAGTGTCAGCTAGTGGTAAGTGGTACAGATAAAAATACAGCAAAGTTAGGGATAAAGAGTAACAGGTGAGGCCAGG
CACGTGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCTGAGGTGGGTGGACTGCTAGAGGCCAGGAGCTCAAGACCAGCCTGGGCAACATGGCAAAAC
TCCCATCTCTTAAAAAAAAAAAAAAATTGCTGGGCATGGTGTGTGCCTGTAATCTAGCTACTGTGGAGGCTGAGGTGAGAGAATCACCTGAGCCCAGGAG
GTCAAGGCTGCAGTGAGTTGTGATTGTGCCACTGGGCAACAGTGACACTCTGTCTCCAAAAAAAAAAAAAAAAAAAAGTGACAGGTGGGATGTGTGTGTC
ATTTTATATAGGGTGATGGGGGGAAGGCCTTTCTTAAGAAGTAACTTTTGACCAGAAACCTGAAAGAAACAGAGTTTCAGGAAGTCTAAGGAGGCCAGAG
TGGTTGGATGGAGCAAGTGAAAGACTGAATGGTAAAAGGCAGAAAAATGACAGTTGTAGGCGGTAACTGACTACACAGAAGATGTTGCCCAGGCTGGAGT
GCAGCGGCATGATCTCGGCTCACTGCAACCTCCACCTCCGGGTTCAAGCGATTGTGTTGCCTCAGCCTTCCAAGTAGCTGGGATTACAGGCATGTGCCAC
CATGCTTAGCTAATTTTTTGTATTTTTAGTAGAGAGGCGGTTTCACCACATGGGCCAGGCTGGTCTTGAACTCCTTACCTCAGGTGATCCGCTCACCTCA
GCCCCGCAGAGTGCTGGGATTACAGGTGTGAGCCACCGCCCTCCACTAGAATTTAACCTCTCAATCTCCTTAGATTTCCAGGCTCCTAAATAACATCAGC
CAACACAGTATTGATGTGATTTATTAAAAATTTGATTTTCAGCTCCAAACATAGGTGCTTTACACAATTCTATTTGTTTTTTTTTTTTTTTTTTTTTTTT
TTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGACTGCGGACTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCTTCCCGGGTTCACGCCAT
TCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCGCGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTT
AGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTCTATTT
GTTTTTACTTTTTATTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGAATGCCTGGCCTCAAGTGATCCTTCTGCCTTAGCTTCCCCAAGTGTTGAC
GTTACAGGCGTGACCCACTGTGCCCAGCCTCACAAATTTAATTTACATATATATATTTTTTCGAGACAAGGTCTCTGTCGCCCAGACTGGAGTGCAGTGG
TGCAGTCATGTCTCAGTGCAGTCTTAATCTCCCAGGTTCAAGCAATTCTCCCACCTCAGGCACCCAAGTAGCTGAGACTACAGGCACGCACCACCATGTC
CGGCTGATTTTTAATTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTCTGCTCACTGCAAGC
TCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTRCAGGTGCCTGCCACCATGCCCGGCTAATTTTTTTTGTATTTTT
AGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCTTGACCTCATGATCTGCCTGCCTCGGCCTACCAAAGTGCTGGGATTATAGGCGT
GAGCCATCATGCCTGGCCAATTTTTTTTTTTTTTGTAGAGTTGGGGTGTTGCCCAGGTTGATCTCAAACTCCTGGGCTCAAGMAATCCTCCTGTCTTGGC
CTCTCAAAGTGCTGGAATTTCAGGAATGAGCCACTTTGGCCTAAATTTTTACAGCTTATTTCCAAGATGATTTGAAATAGTTTATAACATTAAAACACTA
TGAAAGGATGGCTAAAGATGATAAATCATTTGGAAGCTGAAGCATTTTAGCTATTTTGAGCGCTATATCAACCTCTAAAAATCCTGGCTGCGAAGGCAAA
AAGGGGAGCATGATTGGGTATAGAGTTCTTGTCTGATTACAAGGAAGTGCATTTCATCTATAGAACAGCACAGGAAACTTTGTATTTACAGTATCTTCTG
CAACTATCAACCTTTCAAGTACCAGTGACAAATGAGAAGCTGAAAGAAATGGGGTGGGGGAATAAGAGGAGGAGAGAGTAGAGTATTAATATTCATGTCT
TATAAAATGAGGATTTGGCCAGGTGTGGTGGCTCACACCTGTAATCCCAGAACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGCTGGGAGTTCGAGA
CTAGCCTGACCAACACAGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGCACATGCCTGTTATCCCAGCTACTAGAGAGGCTGA
GGCAGGAGAATCGCTTGAACCTGGGAGGCGGGGGTTGTGGTGAGCCAAGATTATGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTATCTCAA
AAAAAAAAACAAAAAAAAAAAACCAAATGAATTTCTCAAAAAATAGTGATTTTTTCATACTGTATATTATTTTGGTAAGTTATTAAAACTCTAAAAGAAC
AAAAGGGAAGTATGTAAGTTGGTTTACAACAGGACTTAACTTGGGGTCTAGATATCTATCACTGTTTTTTTGTTTGTTTGTTTTGTTTTTTTGTTTTTGA
GACAGAGTCTTGCTCCATCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTGACGCCATTCTCCTGCCTCAGC
CTCCTGAGTAGCTGGGACTACAGCCGCCCGCCACCACGCCTGGCTCATTTTTTGTATTTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTC
TTGATCTCCTGACTTCGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCCAGCCACATTTTTTTTGTGTGTGTT
TACTTTTTTTGCTTTTATTAGATTTTTCAAAGGGTTCCATGCACAAAAAGGCCAACCACTGATTTAGAGTTTTTTATCTAAGTAGTAAATTCTAGGAGGA
ATTTGTTCCATAGATGAAGAGCAAGGCAGTGCTCATATGAGTGATTAGATATGAAACCACTCAAGTATATCTTATTTTAATGTTGATTTGAGCATGTTGA
CTACTGGTAAAGTTTTTGGTTGGTGGTTATTTAGCAAAACAAACTTAATTTTTAAGACCATTTTTGAATTCAGAGCTTCTTCCGGTAATTACCATAGTCC
TGTTGATTCTTTCCTAAATTCTCGAATTTCTTTCTTCTCACTGTTCTCTCACTCCCATCACTCTACTGCAGGTTGCTGTCTTTTTAAACTGGATTACCAC
ATCAGCCTTTTAACTGTTCTTCCTGTCTTTATCCTTGTCCCACTCCAGCTGGTCCACATAGCAGTTAAGAGTGGATCCTGTCACTCCCTTCCTTTAAACT
KTTTAATTATGTGCCAACCAAATTTGCATGACTCTCCCTAATCTGGCCATGACCACCTTTCCAGCTTCCTTTCCTGCCAAATTACATCTCCAGCCATACT
TGAATTTTCAGTTCCTCAATACATTGTTTTCTTGCTCCTGGGCCTTCCCATTTTATCTGAAACACTCAACCCCTAGGTATCAGGTCTTTGCCTTCCTTTA
GGAAGCCTTCCCTGATGTCCTAGGTTTGCTTAGGTGTTCTTCCAGTGTGCTACTGCAACCCATTATCCAGTATTCCTGCTTGATACCCTCTGTCTAGTTC
CTTGCATATCTTTTATGCTTGACTGTAAATTTGTTGAGAACAGGGACCTTGTCTGTCTTGTTCAGCATTGTATAGTCTTTGCAATGTGCTCAGCGTATAG
TTGGCACCTAATATTTACTGGGTAATGGAACATAATTTCAGCCATTCAAATTTAATACGTCAATTGTTGCTTTTTCTGCTTTTTGATTTGCAGTGTTGGT
AGCCTTATATGAAGAACCAGAKAAACCTAACAGTGCTTTGGAGTATCCTTTCAAGTCAGAAAAAGGCTTTATTTTGAAACTCTTATTTTTTTAGATAGAT
AATAACCTTTAAAATACTTCTGAATATTGAGAAAGTTACTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGTACTGTCACCTGGTGGGGAATGCAGTGGC
GCAATCTTGGCTTACTGCAACCTCCGCCTCCTGGCTTCAAGCGATTCTCCTGCCTCACGTCTCCCAAGTAGCTGGGATTACAGGTGCCCACCATCACACC
CAGCTAATTTTTTTTATTTTTAGTAGAGACGGGGTTTCACTATGTTCATCACGTTGGTCTCAAACTCCTGACCTCGTGATGTGCCCACCTCAGCCTCCCA
AAGTGCTGGGATTACAGGCGTGAGCAACCGCACCTGGCCAAGAAAGTTAGTTTCACTTGAGTTTTTGGATGGTGATCTCTGGGTAGATATTGGTGGTAAA
GTGGGTGACTCTGGTCAGGGATATTGATACTACTCTGTGCTATTTCATTAGTTTCATTCATGTCTAAGAAGTAAGTTCTTAACATTGATAATAGTTTTTT
AAAGCATCACTTAGGAGCTGCTACTCCAGAAAATCCAGAAATAGAGCTGCTTCGCCTAGAACTGGCCGAAATGAAAGAGAAGTATGAAGCTATTGTAGAA
GAAAATAAAAAACTGAAAGCAAAGGTAAATTTTTAAAAAGAATTCATATTCAAATAATTTTACCTGTAATAATTGTATGATGAAAACCTCACTGAAATGG
ACAGGAGGGGAGGGAGGTGGGTGAATATCAATTTGAATTAATTACAATGTAAGGCCAAAGTTATGCCCTGTCAAGAAAACCACAAGACGGGCCTGGCACG
GTGGCTTACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTAGATCACRAGGTCAAGAGTTCGAGACCAGCCTGGTCAACATGGTGAAACCCTGT
CTCTACTAAGAATACAAAAATTAGCCGGGCATGGTGGCATGTGCCCATAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGCAGA
TGGAAGTTCCAGTGAGCCAAGATCGTGCCACTGYGCTCCAGCCTGGGTGACAGAACAAGACTTCATCTAGGGGGGTTAAAAAAAAAAAAAGAAAACCGCA
AGACATACTGGAAATAGGACAAGCAAAGAAGCAAAGTGTGGTCAAGAAGAGGTTCTGGCTGGGTGCGGTGGCTCACGCCTATAATCCCAGCACTTTGGGA
GGCTGAGGTGGGCAGATCACCTGCGGTCAGGTGTTCCAGATCAGCCTGGCCAGCATGGAGAAACCCCGTCTCTACTGAAAATACAAAATTAGCCAGGCTT
GGTGGTGCATGCCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGTGGAAGTTGCAGTGAGCCGAGACTGTGCCACT
GCACTCCAGCCTGGGCAACAAGAATGAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGGTTCTTAGGAACCTGTATTACTAAAAGGATG
AGAATATTGGTTAATGTTCTTTATAAGTAAATGGTCAGTTCTGAGGTTCTTAAGCAGTTGATTTTAAGTAGGCCAATATGGGGCGACTGCTTTGTAAATG
GCACTTCTTAGAATTTGTATGGTTCATAGTTTGCAAGGCCATATGTAGCGGCCCTCTGTAAATTTGTTAGGACTTAATTTTATCTAGTGCTAAAGTTTTT
TCTTTCTTTTTTTGAGACAGGTTCTCTGTTACCCAGGCTTGTGTGCAGTGGTGCAGTCATGTCTCACTGCAGCCTTGACTTCCCAGGCTCAAGTAATCCC
CCCACCTCTGCCTCCTGAGTAGCTGGGACTGCAGGCATTTGCCACCATGCTCGGCTAATTTTTAAACTTTTTGTAGAAATGGGGTCCCATTATGTTGCCC
TGGCTGGTCTCAAACTCATGACTCAAACGTTCCTCCTGGCCTGGCCTCCCGAAGTGTTGGGATTATAGGCATGAGCCACCTCACCCAGCCAGTTTTTTCT
TTTTTCAAAGTCCTGTGAGAATTTTCATGAACTTCAAATTAGTCAACTCTTAAGTCTTTCAGGTCTTACCACATTCTTAATCACATAATGTATTTTACAT
TACTCTAAGTATTTCTCATAATATATTTTATCTTCTCAACAACTTTGTGAGATAAGTGAAACAAGTACACAAGCCACTTTATAGGTGAGGAAACGAAAGC
ACAGTGAAGTCTAATAAGCTTCTCAACTCCAACAGGTAGTTGGCAGAACCCTAATGTTAGCCTAGTGTTCTTGCAAGGAACCACACTTAGCATAAAAGAA
AATGCAGTTATTTTAAATTATCCAAGATTCCACAATGTGTAGTGCTAGTTAACTCTTTGGAACCTTTTAACTCAAAGACATTAGTAGTTGTTTATTGGCT
GGTTAAGTTAAGACATGTCACTTAACTCTTTATCTACTTTTCAGTGGGTATTTTCAGTAAACTTTTGCTGGAGAGGAAGAAAGTTCCTTATAAGCAAATG
AATCTTTGGGAAGATATAGTTTATTGCATATCAAGTATTTGAACAGTGCAGTCATGAACTGGAATGAAATTTTAGTTTCAAAGCAATTTTAAAGGTTTAT
ATRAAAAGGGCTTTCATTAGATTTGATTGTATTAAATCTTAAATYACTGAATGATTTAAAATGGATAGTTATAGAAACTGATATTAATACAATTTACTGA
CAGTAACTAAGTTGAATATAACAGTTACCTTGTTTTACTATTTTTTACTCAATTTAGAATAAAATTCACCTAAATTCCTCTGTYTTTGCCCCATAGCTTG
CTCAGTATGAACCACCTCAGGAGGAGAAGCGTGCKGAATAGGATTCTTCTCAKTTTGAAAGACAATGAAAAATGGTTTTGTATGACTTGAATAGTTTGTA
TAGTATATAATCTTTTCTGAACAGATGCTATAGAACTCTTTTAATATGTTTAATTCACCTATCACACTCTGTTAAAAACACATAGAATCATCAATAAAAA
CTCAATATAACTTTCTTTGGGTCTTAAAGCAGGAGAATCCAAAGTAAATCCTGAACAAAACCTAAACACAGCCATCTAACTCATTACCTTAAAAGACATT
CTGTTTATTAGTCTGATTAGGAATGATGGCACTGGTTGTATTTTAGCCAAGACAGTTTAGCATGGAGCTAKTCCTTGGTGCAGTTCAGGATATGAACACA
GGTACAGTCATTCTTTGAAGGTGACACTGTTCTGTATATTCCCTATAGGCAGCTGGAGAGATCTGTGTGACACAAGATGCTTTTGTACGGGTTCCCATGA
ATCTTCTGCTCTTGTTTGTGTGACATGRAACAAATAACTTCTTTGCCACCACTTTGCCTTAGATAACTGTGTGTGTGTGTGCCAGTTTGAACTCTGACAC
CACATTTTCCTTCTATGCAATCATGCCTGTCTGATAATCTTGCATTGCTTTCCTCTGAGCTTTRGTGGGTCCTAGTTGCACAMTGGCCTTTCTGTGCTGT
TTTTCAATTTGCCTAATAATAGCAGTTACCCTGATTGTAATTTATGTAACTTTAAACAGGATCACACTGTACCCCCTGCCTGCCTTATTTGCTTACTGAG
CACAGGACAGAGGCAATATACAACTCTGGGTTCACACACAAGCTGAGATGAGAAGAGGAATGAGCCATATATTGGGGAAAAYCATAGTTTGTAGGTATAA
TTATATAGTGCTTTTCTCCCTCAAAGTATTTTTSTAGCCTTGAATTCATTTTATCTTCATTATCCCTGTGAAGTAGGTGGGACAAGTATAAGGGGAAGAG
GGGTGCTGAATTTTTAGGCCAAAGACTGATATTAATACAAATCACTCMCTAACTGTAGAGCCTTGGGCATTATCAGTGAACTRCTYTGAGATTTACTGTC
TTCATCTGTTTAATGAGTAGAATGTCCGTGATGCCTACCTCACAGGGTTGTTGTGAGGGTCAAATGAGAATGTATGTGAAAGATTTGTAAATGGTAAAGC
ACTATATTCTTGTTTGTTAGTCCTTTTTCCTTTCTTTGGGTAGACCTACAGTCAGATGTTTTGTTTTATGGATCACTTATTTTCCTTACTGGTAGACTGT
CGTTTTATAGACATATTCCTATTTCATATATTCTCTCCCTGTTGTTAGAGAACCTATCTTTGTTTTTGGTCAAAACACACATAGAAAACAAAATGATCCA
ATGAAAACTGGTTTAACTAGCAAAAGCCTTGGCACCTGTTGGAGACTATGACCAAGCCAATAAAAAGGGCATTTAAATCAGCCCTGTTAGTAGGAATGTG
GCTATGGCTGGTGCCTCTTCTAGTCACAAGTTTGTTTTTGGAGGGGGTCCAGAAGATCATTCCCTTGCATAGATTTCTCTTTTACCAATTTGAGTGCCTC
CTACATGGGCAGCAGTGGACTAAGTGCTGGGTGTGATAAAGAGGAATGACTTAATTATGAGACTGTATATAATCAAATACAGTGTGGGTTAGGACCTGTG
GCAGACCATTATAATAAAGCATGGCCCCGTGAGGGTTTTGAAAGAGAGAGAGACTTGGCTTCCTTAGTTGGTATGATAGTTTCTTGGTAGATACAGGTTG
AAAATTTTTTGTGGCAGCCAATCCTCATGGGCTTTTTACTCATTTGATTAGTATTAATATTTATGTCAGTAAGCCAGGTGACTGTGACTGTCTTTGGTAC
CATCCTTTTTGAACAGAAAGGCAACATGTGGGTTGGATAATCACACTTTTAGGTGAAACTGACTTGCTTAAACTGTAACAGTCAGTGCTATTTAAGAATT
CAGGATAAGCTTAGCCTCTAGAGGTCCTCTTCAACATTTCTGTCAAGGATTTGGATGAATACAACAAGATGCTCCATGGAAGAGAAAATGGATAAATGGA
TCCCACCAGTTAAGCTCCTATTATGCTTCAGCTGCTTTGTCTATAAAATATCGACTTCACATCTTGCCTATCTCACAAGTTGGTTGTAAGAATCAAATTA
AATATAATGGATGTAAAAGTGCCTTGCAAACTGTAAAGGATTACATACAGACCAGATGGTGGTAGTGCCAAATCTGTAAGTGACACAAATTGGAAAGTCT
GGTTGGAAGACTATATTGAAACAAGCTTTAAAATGATTAACCACGTGGAATACCCAAACTGCTGGGCCTAAACCAAAAAGTTGAAGTATCAAGTCTTACA
TTTAGGTTAAAAAATGCAGTTATACACATTTAGGCACTAGGATTGCTGACAAAGTATTAGTTACAGTGATTATCAATGTGACCCACCCTATGGATGCTTA
AAAAAAATTACATTCTGGAAAGCAGGAATAGAAATACTGTCTAGGTGTTAAATGGTCATTCTGAAAGTTGTACTGTTTAGTATTGCTTTGTAGGAGTCAG
ATGTTTGATGGATATTGACAAGCTGGAATGCATATAAAGAGTGACCAATAGAGGATTTGAATATATAAGGCTGGGCTCTCCGATTTGGTACACACTAGCT
GCAAGTGGCAGTTAAAAATTTAAGTTCCTGGTGGGGTGCCGTGGCTCACACCTGTAATCTCAGCATTTTGGGAGGCCATGGAGGGTGGATCTTGAGGTCA
AGAGATAGAAACCATCCTGGCCAACATGGTGGAACCCCGTCTGTACTAAAAATAAAAAAATTAGCCGGGTGTGGTGGTGGGCACCTGTAGTCCCAGCTAC
TCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTAGAGGTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGCGACAGAGCGAGAC
TCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTCCTCAGTTACACTAGCAACAATTCAAGTGCTTATTCCTCATAGGACTAGCGGCTACATGTT
TGACAGTGCAGATAAAGAACATGTCTATCATGTATATCAGTTGTATTGAACAGCACGATAGGAATGGTTGAAACTGAGGATGTTCAGCAAGGAACAGAGA
AGACTTAGTGGGTAATGAATACTGCAATCTGGTATTTGAAGGGCTGTCATGAAAAAGGTGAAGACTATTCCTATTTTATTCTATTATAGGCTTCAGGGAG
TGTGGTTTGGCTTTAAGACTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCAAGGCTGGAGTGCGGTGGCGCGATCTCGGCTCACTGCAAGCT
CCGCCTCCTGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTTTA
AGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAAGCGT
GAGCCACCGCGCGGCCGGCTTTAACAATTTTTAAACAAAGGTTTACCACAGTGGAGTTGGCTGCCTTTCGAGATGGTGAGCTCTTTTACCTTCGAACTAT
TTAAGTGCATTCTGCATGTCTATTAGACACTATAGAGTTGGTTCGTTTTAGGTGAGAGGTTGGGCTAGATGACCTCTAAGGGTGTATCCTACCTCTAACT
TCTGGGTTCAGACAAAACCAAAGTCCCAGACCTGCCCGCATGTGCGAATTTTTCCTTCATAATCAAGAAGTCAGTCTCCTTGGAGGGCTGGGAGCACCCC
CACTCCTGTACTTTAAAAAGTGTATAGGGCTGTGCTTTAAGAGGATCCTCTTCTCAAACTTCCAGTTCTAGAGCCTGATTATCAAAAATAAAAATTCCTC
TAGATTTCTCGGACATATTTGGTGACAAGCATTTGCTTTTGTTTGCTTTCATTATTCAATACTTTGGTCTCTAATCTGAACGAGGTCATAGAAGAGGCAG
TGTTCTATGGGGGATGGAATTCCTAGAGTAGACTTTGACAAGGCGGGAAGGAGGGCAAATTGAGTCCCGTTGGGTTTGAAGTGGCAGCAGTATCCACTAT
CGGCGACTTACTGAAGAAAGAAGATAAGATGTTCTAGCTTGGCTGCATCTGCTTTCCCATCAGGGTCCAGCTACCTGCTAGAACAAACTATCACGGTGAC
CCATGACTCTGCCTTGGTTGAGGTTTGCCCTCAGTGTGGCTGGCTCCCCCATACCTTTGCACATCCCAATCTATCCATCCACCTAGATCTGCTCAGACGC
TTTCTCATTCAACTCCCGAGCATTATTTATCCGTGACCTTCCCACATAATATTTCGTAGCGAGGTTACTTACGCAGAGGTCCGATCTCTCTGTTCATCTT
CAAGCAACCTGAAGGCAGGCAGGGTCTGCGTCGGATCCAGTTCTGTGCCCCTTGGTAGGCACCCAGGACACTGCAGGCATCAATAAATATCGGTTGGGCA
AGTACAGTTGCAGGATGAGGACAATCAATTCTTCCTCAAATGCCGGGAGAGCATCTCCATAGCGGTGCTCTGGGAGCCCGGAAGAAGGCAGGGGAGCGGT
GCAGACAGCGTTGTATGCGGGCCGGGGCGGAGGGCTGAGGGCCCGAGCCGGGGCTAGAGGCGCGGCCGGGCCGCCCTCCTCGTGACTCCTCCTCCCCCCT
CCGCGGCTCTGAGTCAGGTGATTCCGGCACGTGACGGGGCACCACCTACCCTGCTGCTCTCGAGTAGCAGCTCGGGCGGCCAATAAGCGGCTGGGCTTCG
GCTCGGGGCCTATGAGAGCCGGGCTCCGGGGGGCGGGCCGGACTGTGGCGGCTGCCGGGGGCGGTGGCGGTGGTGCGGCGGCGGCGGAGGCGGACTGGGG
AGGCGGCGGCCTGGCTCGGCCTGCCTGGCCTGTCAGGGCGCGGGCGGCGGCGGCTCCAGCACCATGTCCCTGCAGTACGGGCGGAGGAGACGCCCCTCGC
CGGCAGTTACGGCGCGGCCGATTCGTTTCCAAAGGACTTCGGCTACGGCGTGGAGGAGGAGGAAGAGGAGGCGGCGGCGGCGGGCGGAGGGGTTGGGGCA
GGGGCAGGCGGTGGCTGTGGTCCGGGGGGCGCTGACAGCTCCAAGCCGAGGATTCTGCTCATGGGACTCCGGCGCAGCGGCAAGTCCTCCATCCAGAAGG
TGAGCAGGGCTGCGCCCAGTCCCCCGCCCCCTCCCCGGTTCTCAGGTGGCCGGTAGCGGGGACGCCCGGGAGGGCGGCGGCCGGGGCCCGCCTGCGCTCC
GTCCCTCCGCACTTTCTCTTCCACTCTTGCGAGCGCACAGGCGCGGCCCGCGCGGGGACCCCGACCTCTGTGTCCACGCCCAAGTCAGCTGAAGCCAAGT
GGAGCGCTGAAGGCGAAACTGGTTGCCGGGAGGCAGGTGCCCGGTGGCACCGCCCAAGACCTCCGCCCCCTGGGACCCAGCTCCTGTGTCATTTACGAAA
CTGAGACGTACTCTCCAGTTCTCACTTGGAGAACTTCGTGGACTCCCTCCCCTGGCCCGTTTTGATTTGTTCTCACTTCAGGTGACCTGAGTGTTTCGGG
ATTCCCAGCAGAGCCCCAGGGAGCAGCGTCAGGAAGAGTTGTGACTAAGACACTGGGCGTTGTAATTCTCGCTACTGATGTGAAGGAGACTTCGCTGTAG
CATTACTGGGAATTGGGTAGTGAGATTGCACCCATTTCAGTAGTTGTGGCCTGGTGAATGTAATTACTGGTGCTGTTCCCCCTGTAGGGGTGTGTTTTTA
AAAATCTGAGACTTTGAGAATATTTTGCAGACCTAGTCTGTTTGTTTTCACTTTTGGGCCTTCATGAACAAATGGAGGGCTGTACACGTTTGTTTGTTTA
TGTTTTTGAGACGGAGTCTCTCGCTCTGTCGCCCAGGCTGGAGAATGCAGTGGTGCAATCTCGGCTCACTGCAACCTCCACCTCCCTGGTTCAAGCAATT
CTCCCGCCTCAGCCTCCCGAATAGCTGGGATTACAGGCGCGCGCCACCACGCCCGGCTAATTATTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGG
CCAGGGTCATCTCGAACTGCTGACCTCAAGTGATCATCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACCACGCTGGCCTACACTGTT
TAGTGAGGGTTAAATAGAGGCAAGGTTGACTTCCTCCATCAGCCAAACCCATTATACGCGGAGTGAGCTGGTAATAAAACTAGTATCAGCAGGCACCTGG
TCTTTTCACCTCTCCACTCTGTTGCAAAGGCCTATCCAAAATAAATCTGTGATTTTTTTTTCTTTCTGAATCTGTGATATTTTGTAGATGGGATCTTTTT
AAAAAGCAGCGTTCTTCCAGGTTTGCTGGAGTACTGTGTTTTATTTACCTTGATTTTCACCTCTACAGCAAAACTTGGGTACGTTGACTGTAGGTTTTTA
GTAAACTAATTTCAGTTATTCACATTTGTTACTGAGAAAACCTTGAGAGTAATTGTTCACTTTTCTCTTCTAGACAGTAAGAGGCAAAGTAGTTTTATGT
TAGAACTGTGTAGGTTGTGATTATTGTGATCCTTTTTTTTTTGTTTGTTTGTTATGGAGTCTTGCTCATCGCCCAGGCTGGAGGGCAGTGGTGTGATCTT
CACTCACTGCAGCCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGACTACAGGCGTGCACCACCACGCCCGACTAATT
TTGGTATTTTTAGTGGGGATGGGGTTTCACCATATTGGTCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCGCCCGCCTCGGCCGCCTAAAGTGCTG
GGATTGAAGGCGTGAGCCACCGCACCCGGGCCGATTATTGTGACTCTTAACAATTGCCTTTACGTTTCTTTTCTCATGAGAGCTATCTTTTCCCTGTCAG
TCCCCGTGGCCTCCCCCTGGACGTTTTCACTTTCTACTTGGTATAGTTACTGCCCTTCTTAGACTGCAAAGTCAGTGAGGGCAGAGTCCAGTCTGTTTCA
CTTTTTAAATTACTCCTCAGAGCCTGAGGTAGGCATTCAAGTAATTTTTGAATAAACCAGACTTCTTAAGCTTTAGCTGTAAGACTTTTATAATCTTAAA
GCAGATTTTGGTAGAATTAATGTTAGCTTTCCCCCAGAAAAACTAATGGAGGTGATAGAGATTGCTACTATTAGTACTGAGTATGGTGCATAGAACATAG
GAGAAAAGATTTAGCTCCAAAATAGATTTAATGGAAATTAATTTGGTGTCTTCTTTTGTCAAAAATAAAGGGATAGTGAATACCAATGGATTCACCATTC
AGTTTCTACTTTTCAAAAAAAATTTTTTTTTGTGGGATCAAATGTTTAAATGTTAAACCAGGGTGGAATTTTAAATTTAAATTCTGAAGTTTAATAGTCA
TAAAATTGCCTGTTTTCTTTTAACAGGTGGTGTTTCATAAGATGTCACCCAACGAGACCCTCTTTTTGGAAAGTACCAACAAGATTTATAAGGATGACAT
TTCCAATAGCTCCTTTGTGAATTTCCAGATATGGGATTTTCCTGGGCAAA


SNP Information

Context             (SEQ ID NO:63674):
AAAGATGCGCTCGCTACCACCGTGCGGCGGTCCTTTCTCTCGCAATAGTCTCAATGCTCCCGGGCCCTGCCTCCGGACGCCAGGACAGAGGTACCAAAAT
Y
TCACCTCCTGCAAAGAAACCTAATTGCTACGGGGGCCGGAAGAGGAAGAGGTGCGGCTCCGACAGCCAGAGGGGCGGGCATACGCAGCCTCCCTCGGCTC
Celera SNP ID:            hCV15752802
SNP Position Genomic:     6521
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,32|T,8)   total(C,64|T,8)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,30|T,8)   total(C,57|T,9)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,32|T,8)   total(C,63|T,9)   
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,171|C,1318)   total(C,1318|T,171)   (C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:63675):
GTGGCATGTGCCCATAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGCAGATGGAAGTTCCAGTGAGCCAAGATCGTGCCACTG
Y
GCTCCAGCCTGGGTGACAGAACAAGACTTCATCTAGGGGGGTTAAAAAAAAAAAAAGAAAACCGCAAGACATACTGGAAATAGGACAAGCAAAGAAGCAA
Celera SNP ID:            hCV1976624
SNP Position Genomic:     13634
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63676):
TCTTTGGGAAGATATAGTTTATTGCATATCAAGTATTTGAACAGTGCAGTCATGAACTGGAATGAAATTTTAGTTTCAAAGCAATTTTAAAGGTTTATAT
R
AAAAGGGCTTTCATTAGATTTGATTGTATTAAATCTTAAATCACTGAATGATTTAAAATGGATAGTTATAGAAACTGATATTAATACAATTTACTGACAG
Celera SNP ID:            hCV16141752
SNP Position Genomic:     15203
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(A,1|G,31)   total(A,1|G,57)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63677):
ATAATCACATGTTGCTACCTAGTAAATAAAATCTTAAGAAGATCCGTGGCTTTCCTTCACCAGTTCATAGCATCGTGATTCATTGCCCGGATTGGACTCG
R
CTCTACTCACTGGACATCTAACCACTCCACTTAATTAACAATACCCACCCTACAGGGGTGTTGTAAGGATTAAAATTTAAAATACCCGTGTTTTCTACAG
Celera SNP ID:            hCV1976618
SNP Position Genomic:     6095
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:63678):
GTAATGGAACATAATTTCAGCCATTCAAATTTAATACGTCAATTGTTGCTTTTTCTGCTTTTTGATTTGCAGTGTTGGTAGCCTTATATGAAGAACCAGA
K
AAACCTAACAGTGCTTTGGAGTATCCTTTCAAGTCAGAAAAAGGCTTTATTTTGAAACTCTTATTTTTTTAGATAGATAATAACCTTTAAAATACTTCTG
Celera SNP ID:            hCV26167533
SNP Position Genomic:     12522
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63679):
CTGCTCATCCTCCAGAGGCCCACATCAAGTCAGCCACGACTCAAGGAGACTCCAAAGATAAAAGCTGAAGCCAAAATATATGATTCTAAACACCCTCCTC
R
GCTACTGCAAAGCACTGTGAGCACTTTCTCAGGACGAGAGCCAAGAAGCCCAGCACCTATGGGTCACCACAGTTTCCGAGGTCCCAGATGAAAAAGATGC
Celera SNP ID:            hCV1976619
SNP Position Genomic:     6328
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,19)   caucasian(A,19|G,21)   total(A,28|G,40)
SNP Type:                 UTR 5

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:63680):
TAACTGTGTGTGTGTGTGCCAGTTTGAACTCTGACACCACATTTTCCTTCTATGCAATCATGCCTGTCTGATAATCTTGCATTGCTTTCCTCTGAGCTTT
R
GTGGGTCCTAGTTGCACACTGGCCTTTCTGTGCTGTTTTTCAATTTGCCTAATAATAGCAGTTACCCTGATTGTAATTTATGTAACTTTAAACAGGATCA
Celera SNP ID:            hCV27830083
SNP Position Genomic:     16064
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,36)   total(A,69|G,3)
SNP Type:                 UTR 3


Context             (SEQ ID NO:63681):
TTAATACAATTTACTGACAGTAACTAAGTTGAATATAACAGTTACCTTGTTTTACTATTTTTTACTCAATTTAGAATAAAATTCACCTAAATTCCTCTGT
Y
TTTGCCCCATAGCTTGCTCAGTATGAACCACCTCAGGAGGAGAAGCGTGCTGAATAGGATTCTTCTCAGTTTGAAAGACAATGAAAAATGGTTTTGTATG
Celera SNP ID:            hCV25967218
SNP Position Genomic:     15384
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,29|T,7)   total(C,60|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:63682):
ACCCAGGCTGGAGTGCAGTGGTGCGATCTCTGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACT
R
CAGGTGCCTGCCACCATGCCCGGCTAATTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCTTGACCTCATG
Celera SNP ID:            hCV11263073
SNP Position Genomic:     10057
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63683):
GTATAAGGGGAAGAGGGGTGCTGAATTTTTAGGCCAAAGACTGATATTAATACAAATCACTCACTAACTGTAGAGCCTTGGGCATTATCAGTGAACTACT
Y
TGAGATTTACTGTCTTCATCTGTTTAATGAGTAGAATGTCCGTGATGCCTACCTCACAGGGTTGTTGTGAGGGTCAAATGAGAATGTATGTGAAAGATTT
Celera SNP ID:            hCV26167553
SNP Position Genomic:     16486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:63684):
TGCTGGGATTATAGGCGTGAGCCATCATGCCTGGCCAATTTTTTTTTTTTTTGTAGAGTTGGGGTGTTGCCCAGGTTGATCTCAAACTCCTGGGCTCAAG
M
AATCCTCCTGTCTTGGCCTCTCAAAGTGCTGGAATTTCAGGAATGAGCCACTTTGGCCTAAATTTTTACAGCTTATTTCCAAGATGATTTGAAATAGTTT
Celera SNP ID:            hCV11263074
SNP Position Genomic:     10283
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63685):
GCCATCTAACTCATTACCTTAAAAGACATTCTGTTTATTAGTCTGATTAGGAATGATGGCACTGGTTGTATTTTAGCCAAGACAGTTTAGCATGGAGCTA
K
TCCTTGGTGCAGTTCAGGATATGAACACAGGTACAGTCATTCTTTGAAGGTGACACTGTTCTGTATATTCCCTATAGGCAGCTGGAGAGATCTGTGTGAC
Celera SNP ID:            hCV16095790
SNP Position Genomic:     15771
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,9)      total(G,1|T,9) ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:63686):
CAGTTTGAACTCTGACACCACATTTTCCTTCTATGCAATCATGCCTGTCTGATAATCTTGCATTGCTTTCCTCTGAGCTTTAGTGGGTCCTAGTTGCACA
M
TGGCCTTTCTGTGCTGTTTTTCAATTTGCCTAATAATAGCAGTTACCCTGATTGTAATTTATGTAACTTTAAACAGGATCACACTGTACCCCCTGCCTGC
Celera SNP ID:            hCV27847628
SNP Position Genomic:     16083
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,27)   caucasian(A,6|C,26)   total(A,13|C,53)
SNP Type:                 UTR 3


Context             (SEQ ID NO:63687):
GCCTTATTTGCTTACTGAGCACAGGACAGAGGCAATATACAACTCTGGGTTCACACACAAGCTGAGATGAGAAGAGGAATGAGCCATATATTGGGGAAAA
Y
CATAGTTTGTAGGTATAATTATATAGTGCTTTTCTCCCTCAAAGTATTTTTCTAGCCTTGAATTCATTTTATCTTCATTATCCCTGTGAAGTAGGTGGGA
Celera SNP ID:            hCV27833997
SNP Position Genomic:     16282
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,36)   total(C,1|T,69)
SNP Type:                 UTR 3


Context             (SEQ ID NO:63688):
AGGGGCGGGCATACGCAGCCTCCCTCGGCTCAGCCTGCTACTGGGGATGCAGAGCGTCCTGGTCGCCATGAAAACAGGCCACACCTCGGCGATCCCGGCC
S
GTGGTTTGCAAGTGCGCAGGCGCGCGCCCCCTTCCGCGCATGAGCAGTGCTGCTCCCAACCCGCCAGTCGCGGTCTCCGGCGCCAGCTACGCCGCTGCCG
Celera SNP ID:            hCV27855487
SNP Position Genomic:     6691
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,26)   caucasian(G,38)   total(C,2|G,64)
SNP Type:                 UTR 5


Context             (SEQ ID NO:63689):
TGTTCTGTATATTCCCTATAGGCAGCTGGAGAGATCTGTGTGACACAAGATGCTTTTGTACGGGTTCCCATGAATCTTCTGCTCTTGTTTGTGTGACATG
R
AACAAATAACTTCTTTGCCACCACTTTGCCTTAGATAACTGTGTGTGTGTGTGCCAGTTTGAACTCTGACACCACATTTTCCTTCTATGCAATCATGCCT
Celera SNP ID:            hCV8858924
SNP Position Genomic:     15928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:63690):
CACACCTCGGCGATCCCGGCCGGTGGTTTGCAAGTGCGCAGGCGCGCGCCCCCTTCCGCGCATGAGCAGTGCTGCTCCCAACCCGCCAGTCGCGGTCTCC
S
GCGCCAGCTACGCCGCTGCCGCTGTCACTATGGCCCATTACAAAGTGAGGGGGGCGCGGCGTGGCTGGGGGCATGCGGGCGGTAGCAAGCCGCTGGTCGG
Celera SNP ID:            hCV27855488
SNP Position Genomic:     6770
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,27)   caucasian(G,38)   total(C,1|G,65)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63691):
ATTTTATCTTCATTATCCCTGTGAAGTAGGTGGGACAAGTATAAGGGGAAGAGGGGTGCTGAATTTTTAGGCCAAAGACTGATATTAATACAAATCACTC
M
CTAACTGTAGAGCCTTGGGCATTATCAGTGAACTACTCTGAGATTTACTGTCTTCATCTGTTTAATGAGTAGAATGTCCGTGATGCCTACCTCACAGGGT
Celera SNP ID:            hCV8858925
SNP Position Genomic:     16448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:63692):
AGTGCAGTCATGAACTGGAATGAAATTTTAGTTTCAAAGCAATTTTAAAGGTTTATATGAAAAGGGCTTTCATTAGATTTGATTGTATTAAATCTTAAAT
Y
ACTGAATGATTTAAAATGGATAGTTATAGAAACTGATATTAATACAATTTACTGACAGTAACTAAGTTGAATATAACAGTTACCTTGTTTTACTATTTTT
Celera SNP ID:            hCV25966569
SNP Position Genomic:     15245
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,36)   total(C,66|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:63693):
CAAGTATAAGGGGAAGAGGGGTGCTGAATTTTTAGGCCAAAGACTGATATTAATACAAATCACTCACTAACTGTAGAGCCTTGGGCATTATCAGTGAACT
R
CTCTGAGATTTACTGTCTTCATCTGTTTAATGAGTAGAATGTCCGTGATGCCTACCTCACAGGGTTGTTGTGAGGGTCAAATGAGAATGTATGTGAAAGA
Celera SNP ID:            hCV27857377
SNP Position Genomic:     16483
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,12)   caucasian(G,20)   total(A,10|G,32)
SNP Type:                 UTR 3


Context             (SEQ ID NO:63694):
TTACTATTTTTTACTCAATTTAGAATAAAATTCACCTAAATTCCTCTGTCTTTGCCCCATAGCTTGCTCAGTATGAACCACCTCAGGAGGAGAAGCGTGC
K
GAATAGGATTCTTCTCAGTTTGAAAGACAATGAAAAATGGTTTTGTATGACTTGAATAGTTTGTATAGTATATAATCTTTTCTGAACAGATGCTATAGAA
Celera SNP ID:            hCV16107173
SNP Position Genomic:     15435
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,10)      total(G,1|T,10) ;no_pop(T,-|G,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63695):
ACACACAAGCTGAGATGAGAAGAGGAATGAGCCATATATTGGGGAAAATCATAGTTTGTAGGTATAATTATATAGTGCTTTTCTCCCTCAAAGTATTTTT
S
TAGCCTTGAATTCATTTTATCTTCATTATCCCTGTGAAGTAGGTGGGACAAGTATAAGGGGAAGAGGGGTGCTGAATTTTTAGGCCAAAGACTGATATTA
Celera SNP ID:            hCV27837894
SNP Position Genomic:     16334
SNP Source:               Applera
Population(Allele,Count): african american(C,5|G,19)   caucasian(G,30)   total(C,5|G,49)
SNP Type:                 UTR 3


Context             (SEQ ID NO:63696):
TTTAGAATAAAATTCACCTAAATTCCTCTGTCTTTGCCCCATAGCTTGCTCAGTATGAACCACCTCAGGAGGAGAAGCGTGCTGAATAGGATTCTTCTCA
K
TTTGAAAGACAATGAAAAATGGTTTTGTATGACTTGAATAGTTTGTATAGTATATAATCTTTTCTGAACAGATGCTATAGAACTCTTTTAATATGTTTAA
Celera SNP ID:            hCV25967759
SNP Position Genomic:     15453
SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,6)   caucasian(G,38)   total(G,62|T,6)
SNP Type:                 UTR 3


Context             (SEQ ID NO:63697):
ATCAGCCTTTTAACTGTTCTTCCTGTCTTTATCCTTGTCCCACTCCAGCTGGTCCACATAGCAGTTAAGAGTGGATCCTGTCACTCCCTTCCTTTAAACT
K
TTTAATTATGTGCCAACCAAATTTGCATGACTCTCCCTAATCTGGCCATGACCACCTTTCCAGCTTCCTTTCCTGCCAAATTACATCTCCAGCCATACTT
Celera SNP ID:            hCV1976622
SNP Position Genomic:     12001
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,3)      total(G,3|T,3) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63698):
GCCAAAGTTATGCCCTGTCAAGAAAACCACAAGACGGGCCTGGCACGGTGGCTTACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTAGATCAC
R
AGGTCAAGAGTTCGAGACCAGCCTGGTCAACATGGTGAAACCCTGTCTCTACTAAGAATACAAAAATTAGCCGGGCATGGTGGCATGTGCCCATAATCCC
Celera SNP ID:            hCV1976623
SNP Position Genomic:     13454
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Gene Number:                 389
Celera Gene:                 hCG23175 - 104000117844844
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(39876814..39908663)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12549):
GGGGTGCCAGTCTGCCCGGTGACGCCTGTACTCTGGTAAGCCCAGTAAAGAGCCAGGTGGAGATCAGTCCAGGGCCAGGGGGCCCAGAGAGGGTATGTCC
TTGTGACAATGACTTTTTCCCTGGCTTCTGGGATGAGAAAGGATGCCCCCAGCTGACCACAGACCTGCCTCCGCTGGGCCTCCTACCATTCTTGAGTGCT
TTCAGGGCCCCAAAATGGCAGCTGTCGTCCTTTCGGGGTGCTATAACAAAATACTTTAGAAGGGATAATTTATGGCCAACAGAAATGTATTGCTGAAAGT
ACTGGAAGCTGGAAAGTCTAAGACCAAGGCTCCAGCAGATTTGGTGTCCAGGCCTGTTCCTCATAGATGGCACCTGCTATGTGTCCTCATGTGATGGGAG
GGCAAAAGGGGGCAAACAAGCTCCCTCCAGCCTCTCGTACAAGGGCACAAATCCCATTTGTGAGGGCTCTGCCCTCGTGACCTGATCACCTCCCAAAGAC
CTGACCTCCTAATCCCATCACTTTGGGGGTTAGGTTTCACCATTGGAATTTGGGGTGGAGGGCACCAACGTTCATCAGACCATAGCAGCCTGAGAAGATG
AGAGGAAGAGCAGAGGCCCCACCCACCTGGAGGGCCAGCACACCACAGGCCCCTGGAAATCACTGCCCCCTTTCTCCTTCCTCATTTGACACATTTGTCA
GCTGCATTTCAGGTCGGGTCCGTTGTTTGCTAATGGTCAGCTTACTTTCCCCACCAGCACACCTGGGGGGACCATTCATCTTCTCTGGCAGTAACAGGGG
CCAACCGTGGCCTTGATGCTCAGCAGGGAATACACTTGCACCTTGGGAGTGATTCCAGCAGGATCCCTCCTACCTCCTTTCGCTGGTGCCAGTTGCTGTC
AGGACTGATACCTGGGCCTGGGTGCTTCTGGGAGCCTCTGACCTTGGGGCTTCCCTCTGGGGGTCATAGACACCTTTGGTTCATGCACTGTGGATCTCCT
GTAAAGGTCTTTTTCTCCCAGGAAGGAAGCCTCAAGCCCTTGGCTCATTTGTAGAGCTGCAACTTCTAATAACACTTCCTGATTCAGGTACCCGCCCTCA
CATACTCTTTTTCCAACTTGGCTCTGATGATCCAAGGGTCCCTTTGCCCTGCCTAGGGGAGAGGTTTCCCGAGGCTTGTCGTTTTAGTTTACACTCATTT
ACTAGGGCAGGGTTTCTCAAGCTCAGCACTACTACTATTTTGAGGTAGGTAATTCTCTGTCATGGAGGGTCTGTCCTGTATATTGTAGGATGTTTAGCAG
CGTCCCTGGTCCCTACCTGCTAGATCCCAAAAACACCCCCTATCCAGGATGTTAAAACTAAAAAATGCCTTCAGACCTTGCCAGAGGTCCCCTGGGGGGT
GCAAAATGCTTTCTACCCTCCTGCCTGAGCCCCATTGAGAATCTCTGAGTGTGATGAAAAACACATGGAAAAGTAGATGGATTTTCCACACTGGGAAAAG
ATGCTTGTTTCCACATAAGGGGCTAGGCTTCTGGCTATCCAGCCAGCTACTCAAATTTGACCTATTTCCCAATTTTTCTATAAACAGATTATTTTTATTC
TCAGAGTAGTATGAGTCTTTGCCTGGGGGAAAAAATGAACAGAAGTAAACAATATACTCCTGTATGCCCTCTCTGCTAACCTCATCTGTCACTGCTGGCC
TGAGATTTAGAGAATGAGGCACTCAGACATGATCTTCGGGAGCCCCGCAAACAGAAGCCCCCTTTCTCTCTTCCAGCTGCCATTGCCTTGGCCTAGGACG
CTATCATCTGCCTCCTCAGCCAAACTGGCAGCCTCCTGACTGGTCTGCCTGGCCCCCGTCTTGCTCTTTTCAGCAGAACCTCTGCATCAGGCCCTCTAAG
ATGCAAATTACATCATTCCACTCCTGGTCTAAGCCTTCAGTGGCTCTCTGAGCTTTCAGGATAAAGGCAAACTTCTCACCATTTGAGCCTCTGCCCTTGG
ATCCTGCATGACCTAGCTCAGCCAGCCTCTTCTCCCTCCCCTCTCCCCCCTCTTCAAATCCCTGCTCCTGCAGCCACCCTAAGCCACTTGCAGCCTGCAG
AGATGCGCCAGGCTGCCCATGCCTCTGGTCCTCTCTGTGTGCAGGCTGTTCTGTCTGCCTGGAATTCTTTCCCCTTTTGTCCTCTAATACTTATTCTTCC
TCCCAAATCCAGTGGACGCATCCCATCTTTTTGGGTGCTGCCTGCTCACCTCCTCTGTGTACACACAGTGCTTTCTGCCTTAACTGCAGTGTTTATCCTA
CTCCACCTGAATTTCTGATTTACTTCTTTCTTATCCTTGCAGACCTGAGGCCTCTTGAAGGCAGAAACTACTTCTTAATCAGCCTTAGATCTCTAAGTCT
ACAACAAGCTGGGCGGCCCTTTCTAATGGGCACATTCTTTAGCTGTGCAAATACCCACACTCAATGTGTATCCCCTACAAGGTGGTTCTATATAACTCTG
CCAACACTGCCTTCTTATCTTGTCATTCCTCTTCCAGAAGCAGGGTGTTTCAGGCTCTTTTCGTGTCCCTCACTATTGCTCTCCTTTGTCCACCACACTT
GCCATTATTCGTTCATTCATCAAATATTTGAGTGCCACCTTTATGCCAGGCTTTGGGTCAGAGGGCTATTCTGTCTATACAAAATGCTTCCAGTAATGAG
GAAAACCTTCTAAAAGCTGCCCTTTTGTGTCTAGAACATGGATGTGTTCATTAGGGCCTCCTGGCACCCCCCAGAAGGTTACCAAGAGCCTTGAAATTTG
ACCAAAGGGCCTGGGATAGACTAGAGGGGGAGGGTCTACTCTACCTAGCCGTGAAAAAATCCAGTGAATGATCCCATTCTCCCAAAACAGTCAGCAAACC
TCCCTCTTATCAGAAATACTAGTGTCCACCAGATATAGTCCATAAGTCATTAGGAGTTAGGTCAATGAAAGCTCATGCACAGCTAGTCTCATCCTAATTG
GACACTCCAGTTGTCATTCCCATGACTTTGGTTAATATAAATGCAAAAATGAATTTTTAAAAAATCTTTCAGCCCGGGCGCAGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAAGGCGAGGTGGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGACAACATGGTGAAACCCTGTCTCTCCTAAAAATACA
AAAAAAAAAAAAAAAAAATTAGTTGGGCATGGTGGCAATTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCTAGAAAATTGCTTAAACCCGGAGGCGG
AGGTTGCAGTGAGCCAAGATAGAGATCGCACCACTGCACTCCAGCCTCGGCAACAGAGCAAGACTCCATCTAAAAAAAATGTATTTCAGAAGCTCACTGG
TGGTTTCTTATTTTTCTTGTGAAGACAGGACACTTCTCAGTTGTACTTTTTAAGACCTTTCAACAGAATGATGAGGCTGAGGCCCCTTCTCAGCTTCCCC
TTTCCTGTTTTATGCCTTAGATGGGTGGTGCCCACATGTTGGTCCCTCCAAACTTTCTGCTTTAGAATGACCCCATTCTAAAGTGGCCCCAGAGGGTCGA
GATTCACTTATACAACTTCAGAAAGCAGGTGAGGAAGGTGCTTCTCTGGGGAACCCTGCCTCAGGTGAGAGTTGAGGTTCTAGTGCTTGGGTGTCACCAA
TTTATAAGGAATTCAAGAAAATAAAATAATCAGCATGGTTGAAGGAAAGGGAAAGTGACTCAGAGGGAAAACTTCCCAGCCTGGCCGTGGAAACACATGA
TGCTGGTTTAGCATATCAGTCTAGGGGTGGGGAGCTGTTAGGAAAGCAAGTAGAAGAAAGGTTTTGATCCAGAGGACACAGAAGGGGATGAGAAAAGAAA
TGCCCGGGTGTCAGGGGTGGCATCCCCACTGAAAGACTACAGTTCTCAAATACAGTTTTCATTATCTAACTTTCTTCTTCTTGACTCTTTTCCCTTGTTG
TCTACAGATGGAAGCTGAACTGGAGAATTTCCATAAGCAGAACACTCAACTGGAGCTGAACATCACAGAATTGTGGCAGAAACTGAGAGCCACCGATCAG
GAGATGCGCAGAGAGAGACAGAAGGTGTGAGGGTTTCAGAGTCTGGCAGTTCTTGGATTCGGGATCTGGCACCTATCTGCAATGGGCAGCTGGCTTCCAA
GAGGCAGAGCCAGCCCACTGCGAGGATATGTTTCCCATTTTAACTCACATTCTTTACTTGCTCCCAGCCCTGCCTGATTTCAGGCCCATGTAGATTTACA
TCACTGAACTCATCTGAGACTATAAAATGACTTTGGGTAAGTGATCAAGGAGGTGGGAAGCCAGCATGGCAGGAATATTTGTAGCATTTGGCTTCTTTGG
AGGAGGAAAGTACGTGCTCAGAGAGGCAATTTGTCGCCGCTGGTTTAAGGCTTTGATGACCGAAAAATTGCCAAGGCCAGGGGAACCTCAAAGGTCATTG
ATTCCCATTTCTCCATGTTATAAATAAGAAAAATTAGGCCCCAAAAATTGGGAGGTTAAGAAACTTCACCCAGCACCCACAGCTAGGTAGTACACACAGA
GCTAATAATGGAATCTAGGTTTTCTGGATGTGGGCCAGGACACAGTTGTGCCCTCCTGCCTAGCACAGGCCACTCCTTAACATTTGTTGAATAAGATTGG
AACTTTCCGTCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGTTCGAGACCAGCCTGGC
CAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGCGGCACACGCCTGTAGTCCTAGCTAACTGGGAGACTGAGGCAGGAGA
ATTGCTTGAACCTGGGAGGCGGAGGTTGCCGTGAGCCAAGATTGCAACACCGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTAAAAAAAAAAAAA
AAGATTGGAAATTTCCATCTTCTGCAGTAAGCATTAACTAACTCTGCACTAGGTAACACCAGCAGCTGCAGAGCTATAAACGAGAACTGATACAGATCCT
GCCATTTCCATGCTGAAGAGGATGACTGGTGATTTGTGGCATGTGCATAATAGTTATATTGAGAGGTAGAAAACGATGGAACATGTAGAAAGGGCCATGG
GAGCAAGGAGAAATGACTTTCTCTAGGTCAGGGTTGGGGAAGACAGGTAAAAGCATGATGAAGAGGGGACACTAGCCCAACTGTGTAGATGAACCAACCT
GCCCACTCACAGCAGCGCTCCTGACTATCGGGAAGGGTAAGCACTGGATGAGCTAACACGGGGGACGTGGAAGCCCTGGCCAGGAATCTGCAAGAGAGAA
ATGATGCCATCTGTCTTGGCTCTAAAGGGATATGGGTGACCACATGAGCTTCCTTTTATCTTTTAAGGCCTGTGGTCCTGAAAGGGAATCAGAGTCAATA
AAGGAGCCCATCTGTGTGGCCTCTTAAGGATGAAGCCCCATGTAGGCTGTTCAGGCTGGGTGTCCAGCCGAGGGCAGGTGCACAAGACTTTTCGTGCCTC
CACCTGTTGGCTGTGTGCCCGTCTAAGTTTCTATGCCCAGTGTGGCCCCTGGCAGTCAGCTGTAAGTCCCAGATGAGGCATCTCTTTTCCCTTTCTGTGC
CATTAACCTCTGCCTGCAGCCCCCGCCCCTCCACCGAGAGCACCCTACAGCACCAGAAGGAAATGTCTCTGATTGCAGGAGCGAGACTTGGAAGCGCTGG
TCAAAAGGTTTAAAACAGACCTCCACAACTGCGTAGCCTATATTCAGGAACCGCGGCTGCTGAAGGAGAAGGTTCGAGGTCTCTTTGAGAAGTACGTGCA
GCGAGCAGACATGGTAAGCTCAGCCTCCCCTCCTGCCATGCACTGACCTCCGGGGTCTCCTCTCCCTCGCTGAGAATCTCCTGGGCCCCGTCAGGTGGAG
ATCGCAGGGCTGAACACAGACCTGCAGCAGGAGTACACCCGGCAGCGGGAGCACCTGGAGAGGAACCTGGCCACTCTCAAGAAGAAGGTGGTCAAGGAGG
GCGAGCTGCACCGCACAGACTACGTCCGCATCATGCAGGTACCTGCATGCTCCCCTCAGCCCCTGTGGAGGCCAAGCCATCCAAGATGAGAGATCCCATC
AAGGGTCCCTCTGAGACCACCTGTCTTCAGGGCTCCCCAGGTGTCTGGGGGCCCAGTAGCTCCCCCTAAAGTCTTATTTTGGCTCCTCTCCTYTGAGCTC
GTCTTGGCTSTGACTGTGGCTGAGAGCTCACCTAGGAGGTTTTCTAGGCACTTCCATGCTGCACCCTGGCCTCCACCCCACCCAATGCCCACCTCCCTTC
TCCACATACCCGATTCCTCTTTTCTACACCATCTTTATCCAGAGCACACCTGTGTCCCCTGCCTCACTCCTCTCATCAGCCCCTTGGCCCTCTAGACCTT
CATCCACATCATCTTACCTCTCCTGAGCCACTTTCCCTTCTCTCTTCCATTCCCAACTCTCATTTCACCTGACTTTGTTTTGCTCCTTTGTATTCTGCTA
CCCATATCTCGTGGCCACGCCTCATCTGATTTTTCTGGTGCCTCAGGTCCCTACCCTTATCTCTTGTGTCCCAAGTTAGCCACAACGTCCCAGAGCTGGC
CTCACTCTGGTTTAATAAGCGCCTCACACCCACCTCCCTGGATCCTTCATAGGCTGTTCAGAGAGCCTGACCCCATTACTGCCGCCTCCACACAGGCACG
TTATCAGGACTGCCAGTCGGGATTCTTCTGCCAGATTTCTGTTTGGGTATCAGTATCATCTGAGGCAATTAATGTGAATTAGTATCAAAAGGGAACATCA
GAATCACATTTATAAAGCACGTACCTTTTTATGTTCACATTTCTTTATTGCCATAATTAAAATACTGGAATGGGAACAGGTTGCAGTTAGATTGAAACAA
ACCAGTTCCCAGCTTGGCCAGTTCATACASAGCTGGGCAGAGCGCACTGTGATTCAGGCCAGACCCAGGCAGGGCTGGTCTCATGTCATCTTACGACCAG
TCCCTGCTGAAAAGCAGCCCAGTCCATCTACCCTTTGCCCTACTCCTTGGCCATGAAAGCCATCGGAGGCCCAGAGATAGAAGTGCCTCCAGCTGGTGGA
GCCCTGAGACACCAGCAGCCGCACACKGAGCCACTGCTTAGGGCCTGGAGTACCTAGAGCATGGAGAGCCCCCTGGGGCTCTGGAGTGCAGTGAGCAGGG
AAGGGAAACCAGGATGACAGCAGGAGCAGTTGTCAGCTGCTGACATCACCTAGCACCCTCTGTGCCCTGTCACCAGAGTACAGGCCTGAGGAACTGGGTC
CCTCTCTCCATGCCAAGCAGCCAAAGCAAACATCGATGTAGGAGGAGGAAGATCACAGGCTAGCCAGAGGGTGTGAGCGTCAGCATGAGGCTGCTGGGGC
GGGCATCCTGTCCTCTTCTGCTTCCCTATGCCCCGGAGGGTGCTGGGCCAGGGTGGGGTAGAAAGCAGAGGAGACCCAAGCGGGCCTCCTGCCCAGCCCT
GCCACTCCCTRATGGCTGGCAGAGGGAGCCATCAACAAATGAAGTCCCGGGAAGAACATTTTCTCCAGCAGCATTGTAACCTATGTGCTAGGGAGTCCTG
TGGATCCAAATAAGTAACTCCAGCAACTGCAGGGAGTAAGAAGGGGCCCAGGGTGGGGGGTGTGTGGCAGGGGGTGCGGGTCTCCGGGTCCCTACCCCTT
CAACCAGAAAGAGACTGCTTGCTGCTAACAGTGGAGCTCTTTTTGTTGGAAAAAAGTCTGGAAGATTTAAAAAAAAGAAAAGTTTTCAAAACCACTGTGC
CGACCCTGGTTTACCCTGCTCCACCACTCCTCTGCCAGGAGACCTTGGGTAAATTCCTTAACTCAAGGAGCCACCTTGCCTATATGTAAAACAGGGAAGA
AAACACCAACCTGAGAGTGGGGGGTTCCTGCAAGATTGAATGGGACAACCACATAAGGCACTAGGCACTGGCCTGGTACAGAATAAGTGCTAAAAAAAAA
AAAAAAAAAAAAAAAAAAGGCAATTTCCAGCCGGGCGCAGTGGCTSACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCRTGAGGTCAG
GAGATCGAGATCATCCTGGCTAACACGGTGAAACCCCATATCTACTAAAAATACAAAAAAATTAGCCGGGCGTGTGGTGGGCACCTGTAGTCCCAGCTAC
TCTGGAGGCTGAGGCAGGAGAATGGCATGAACGTGGGAGGCAGAGCTTGCAGTGAGCCAAGATCGGGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGA
CTCCATCCCCCCCCMAAAAAAAAAAGGCAATTTCCATCCTCTTCATCCAAGCAAAGGACCTATCCAAGAACCAAGGTAGAAATCCAGTGGGAAAGCCTAG
AAGCCCATCACAGGATGGGCCACGGGTGCCTGTGGACTGCAGGTGGCAGGGGTGGAGGGTGGAGGGTGGATGGCACAACTGATTCCAGACCCTCAGTTGG
TGACCTTGGTGTGTGCTGGTCAGGAGCCAGCTGGACCTCATCTTCAGTTGCCATGGCCCTGGCACTTCAATCCAAAAAGGCTGAGGAAGGCCACAGCAAA
CATGGCATCTAAGAGTAACTCATTAGAAAATAACAGAAAATGAGGTCACTGTCTCATTTGTTTATTCAGACAGGAGCTCAGCCTCCCCACTCCATTCCTC
AGCACACTGGCAGATATGAAAATAAGAGTTGCTATGAGATACAAACATCTAGGACATGCATTTTATTCATTCAGTACACATTTTTTGAGGGCTTCTTGTA
CAGCAAGCTCTGTGTCAGTCACTGAGGATTCCAAGATGAACGTGATAGTGTTCCTACTCTCAAGGAGTTAATCATTGGGAACCTGGACCAGATACAAATA
ATTACTGCTCAACTCATTGTATGCAGTGCTGTGGGCTCATCCTGGAAATGGGGTTCAGTGATGCCTTCAGGACTTGTGGAAGGTTTCTGGGGCAAGGGGC
ATTTGAGCTGAGCCTTGAAGGGTGAGTAGAGGTTGATCGTGGAACAAGTCAGGGAAGAGACTTCCAGGCTGTGGGAACAACCTGAGAAAAAGCAGAGAAG
AGTGAGGCCTGTGAGGTGCTTGGAGACCCAAGAGTCCACGAGAAGAGAGTCCAAGTGGAGAAGAACCCACTGAAATGGTTGGTGGCTGAGGGTCATGTTG
GAAAGGGCGTCCATGCCATGCCAAAAAGTACAGTTTGTCCTGTAAACAGGCTCCACCCAAGGTTTCTTAAGTAGGGGTGTCTTTGTTTTGAAAAGACAAA
ACACTCCATTGGCAAGGTGGGAAGACTGGTGGGGAAAGAGGCAGGTGGCAGAAAAACCCATTAGGAAATGACTGTCATGTTAAGGGTAGATGAGAAGTAC
TTGGAAAGGGGAAAGTTGTGGTGTCAAAAGGCATTTCAGAGTAGAAATGACAAATAGAAATGTCAGGTTAGACATGGGAGGAAGGTTGAAAGAACGGAGA
AGGATTCCAGGATGGCTCATTTGTGCAGTTAGGCAGATGGTGAGCCCACTGACTGTGGGTTCCAGAAAGATGTCACTGATGCAAGGATTCCAAGTCCATG
GAATAAATCTGTTGCCTGCTTTTTCCAGGCTGTGAGGTACTGCCATATTCTAAAGGCATCGACTCAGGCCATGCCATTAGGGGGTGCTGTAGGCATTCCC
TTCTCTTCTCTGCTCAATACGGAGGTCGGAAAGACCTGCCAGGGTCATCAGTCAGTTCCAAAGGCCAAAGGCAGTCCTGGACAGCTTGGCAGAGCCCCTT
TGCTTAGAAAGCTTTTTACATAAACAGTTTCACATCCCCCAAGACTTGGCACGTTGGTGGACCCCAGGTCAGATTTCCTCTGCAGCTGTGTAGACCTGGG
TGGGGGTCTGGAGGATTGGAGGGGATTTTGGAAGTCAAACTGACAAGGGAGAGATCAGGAAGAGAAGGCTCGGCAAACCCATTGCATTCACATTTTTAAT
CCACAAAGCCATCCAAAGCAAAAACGGTCGACCTCAATGTGACCTCGGGACCCCTCGGAACACAGGCCACCCCAGAAAACATTTTGCAGGTAGCCCAACT
TATACTTATTGGGAGTGTCCTTGGCCATCATACTATGTGAGATATTGGAATGGAGGTGACATAAATGTGAGGGGGGACAGCAGAGCCTGGAAAGCAGTAG
TCACGGAGGAGCAGGGCTCTCTGGATGGAGGCACGACAGGGTTCAGACACCAGCTCTACCACTGAGATACGGCCTCAGTTTCCTCACAAGGTTGGTGTAA
GGATGAACTGAGGGACTGTATGCATGCTGTTTGATACATTTGCAGTGATCCAATCAACCCTTGCAATTGTGGTTACTCTTATTATCRTTATCATCAAGCT
CTTCCTGCCTTAGGTTCTGCTTGCCGCCTCCTGGCTCTGGGCCTGGAACACTCTTCTCCTCTGTCTCCCCTGGGGTTGCACACTGTCACACTGGGTTGGG
CAGGGGCCCAACCATGCTTCAGCCTCTCATGGCAGCTCTGCAGTGGAGCCAAGCGGGACCTCCCATGCCTGGCACAGTGACCAGTATAAGCTTTCAGGAA
CTGGTTCTTAGATTACTTTTCTTACATGAATACGTGAATGAATGAATGAATGAATGAACAGAACAAGAGAGTCAGGCTGCACTGAGTGGTGGGCCTCAAT
CATACTCCAAAAAGGATCAAGCCCTGGAGACCCATTTAGGTAAGGGAGCATCATGAAGATGTCAGAGGTTGGCAGGGGGGTCAGGAACAGGCATTCACAC
CAACAGGTACCAGGAGCCAGAAATCCCAATCACAGTGACAGGGCTGTAGAGGGTGGAGGGGGTGGGGAGAAGCCAGGGCAGGGCTCCACTTGCCGGGGGG
CCTTTACAGCAGAACAAGGGAGAACACTGAGAGCTGGTGACAAACCAGCAGGAAGGATGAACATCAGAATCAACTCAGACACAAAATCAATAGGACTCAG
TGACAGAATGGATGGAGATGACCAAAAAGAGGAAGCAGCTAAAGATGCAAACTGTGAGAGAACTCGAATTGTGCTTTCAGTTTCTAGTGCTTATTCTGAT
GATTGTTATTGAGTTATTTAATGAGGATCAGGAGAAGTGAAGCTTAGCGAGGCCTACTGAAGGGAGAAATGGAGAGAGACCTCAAGCAAGCAAGCTTCCC
CCTGTGGCTCTAAGACCTTCCCTTCTGTTCTGGTCTCTTTCACCTGTCCCTTATCCCTTGGTCTGTAACTTCCTTATTAGTAAGAATCTCATCTTATTCG
GTTTGGTATCCACTGCATTAGTTATACATTTTCTCATCCATTTCACAAATATTTAATGAGCACCTCTAACATGCAAGGCAGGGTCCAAGGTCCATAACCC
AATAAATATGTATTGAATTGATCATGTCATGATATAAAGTCTGCAAGGAGAAGGTCCATGGGAGGATCTAGCAGAGTTTTACCAGGCAGCATCTGGAAAG
GAAATGCGGGAAACCTATCACTGTTATGAGACAATTTGGAACTGTAATGTTCCCCACCCTCCCTCCCAAACTGGGGAGACCGAAGAATGACAAGTCCAGC
TTGGTGAGTAGATGAGTTTATTTAGGTCTTCCATGTGGGGCACTCCTGGGCAGCAGCAGGACAGCTCTAGAGACCTGCTTTGCCTCACATCGCTAAGCTG
CTTTTAAGCTAATTTTCTGGCTCTTCACCTACTGTGTATGTGCCATGGGACTGTTTTCCTTAGTAGGTTTTCAGATATCTTCTAGGATGYTTGGATTCTC
AGGGACACCTGCTCCACAGCTGGGCACCATGGCCTTGACTAACTGCCTGGCCTTGAGGGTTCAGACAGTGAACATACACCCTTAAGTAACCTGGTGGGGG
ACCCATCACACTACAATCAGCAAGGCCTGGGTTGGTTCAAAGGGTAAAGCATTCGATGGAGAAAACATCTGATTCAGAAACACAAGTACAAATCCTAGCA
TGAAGAATGAGGGGTTGACAATGAGGACTGGGCATTTCATCCGAGACAGAGAGATTTCATTACTATAAAGGAATACCTGAGGCTGGGTAATTTATAAAGA
AGAGAGGTTTATTTGGCTCACAGTTCTGAGGGCTGTACAGGAAGCATGGCACCAGCATTGCTTCTGGTCAAGACCTCAGGAAGCTTTCACTCATGATGGA
AGGCAAAAGAGGAGCAGGCGTGTCACATGGCGAAAGAGAGAGTAGGAGAGGAGAAGGGGCCGGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACG
ATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAGTACAGGCACCCGCCACCAYGCCCGGC
TAACTGTTTGTATTTTTAGCGTAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATGATCCACCTGCCTCGGCCTCCCAAAGT
GCTGGGATTACAGGTGTGAGCCACCGTGCCCAGCCGAGGCCAGGTTCTTTTAAAACAACTAGTTCTTGCAGGAACGAATAGAACAAGCACTCATTACTGC
GAGGATGGCACCAAGCCCTTCATGAGGAATCTGCTCCCATGACCCAAATACCTCCCTCTAGGCCCCACCTCCAACACTGGGGATCAGTTTTCAACAGGAG
ATTTCGAGGAGACAAACATCCAAACTATATTGTAAGGAATACTGAAATTAAGTAATATACTGGAAGTCTAAAGGTGTAGATCTGTGCTTTAGATGAAGCA
TTTCTGGAGGAAAAGAATCATTGCGGTGTCTCTAGCCCRACCCCTGCTCCCTTCTGGGYTCCACAGGTACCTCCCCACAGCAGAGGACCGTTTGTCACAG
CTCAGGGAGAACAGTGCTTAAGACCATCCTGTTCTCTGGGCTCTGACTCCRTAGCCACCACTCGTGAGATAATGTCCCAAGTAGAAGCACAGTTTGTTCC
TGGCACAGGTCCATTTTATGTAGATTTGGCCTGCAACTGCCTTTTCTGGTATACAGACCCTCAGGTGCTTTGCAACTGAAAGTGTGGTCTGGCCTGCAGA
CCAGCAGCAGCATCTCTTGGAAGCCCAGTGCAGGATTTCAGGGCCCATTCCAGACCTATGAGTCAGAGGGGCATCTAACAAGGTGGTCAGGTGATGTATT
TGTATGGTCATACACGAGGAACTGCTGTAGACAAGCTGACTACTGTGGCTGTGGGCTCTAAGAGCAAAGTGGCCAGTCTCTTTGGGMCCTTGGGGATGGG
GCTCCTCCTTGGGGTACTTGTGCTGGGTGTGAAATGGAAGGCAGAGATTTGAGGTGTGGGAAAAGAGGAAAGAGACTGTTTGGTCCCAGGGTGCAGAGCC
TGCACCACCTGGCCCCCAGCAAGCTTCGTCCTCACTCCTGTCGACTCCCCTCCTTTCACTCTGCATTCCAGTGATGCAGGACTGTTGCAGGTCTCCCCCA
CCCCCATCAGCTGTGTCACATTCTGTGCCTTTGCTTCTGCTGTTCTAGTTGTCTGGGACACCCTTTACCCTCTCCTTGGTGACTCCTTCAAGCCTCAGCC
CAGGGGTCAATTCCTAGGAATCCACCCTAGTCATTCAGGCAGAAGGAAGCATCTTTCCTCTAGGCCCACTCCTCCATCACAGCAAGGTGGCCACCATGTT
AAACTGTACCCACACCCCGCACTAAACTGTAAACTCCTCAAGAGCAGAAGCTAAGATTTACACTCTCTATACTCTAGGATTAACATAGTATCTCCATAAT
ATTGGATGACTACATTATAGGTACTCAATAAACATTTATTAGATGAATGGTTGGTTGGATGGATGGATGGATGGATGGATGGATATTTGTCAAACACAAA
TAAGAGAAGTGAGCTTCCAATGGATGCAGCAGATGTTAATTATCCATTTACTTTTCTGTTTTACTCACTAAATAGCATGCTGCTAAGGGCAGACCATATC
CTATTTCTGTTTGCACTTTATGGACTTACCAGATAGCCTATAAATGTGGGTTCAGCAAATGAATGAAAAATGAATGAAGTATAGCACAGTGCTTACGAAC
TCTGGAGCCAGACTGTTGGGGTTGGAATCCTGACTCTACCACTTGCTAGCTGTGTAACTGAGCAAGTCATATACCTCTCTGTGCCTCACTTTTCTCTTCT
GTAAAATTGTGATTATAATAACAATTTATAATTGTTTTTGTGATTATAATAGCCATATAATTATATATATATAATATAATAGCCATATAATAGCCAATAA
TTKTGATATAATAATAGCCATAGGGTTATTATGATGCATTTAAACTCATATAAAAAGTGCATGGAAAAGCATTGTTGTTGCTGTTGACRTTGCAACAAGC
ATGGGTGGATGTGAATGGTGCTGAGTCTACCCGAAAGTAAGTTAGCTGGTTCCTTAAGAGGCTGAGCAATAGGCTGGAATAAAGGCTCAGGCCCCAATAG
AGGATCCAGAGTTCTGGATCCAGACCTAACCCTGCCCATTCCCCATACACTCAGCCCAGGAGGGTATGCCTTGTGCCCACTGACCACTCATCCATCCACC
CTCCCTCTCTCTTCCCCCTTTTCTGCAGGAAAATGTCTCTCTGATCAAGGAAATTAATGAGCTCCGCAGGGAGCTGAAGTTCACTCGGTCCCAAGTCTAT
GACCTTGAAGCAGCTCTGAAACTGACCAAGAAAGTCCGACCACAAGAAGTTTCAGAGACAGGTAATATCACCAGTGGCCAGGGGAGATGGGCACTGGGAC
GAAGGGATTGATGGCAGCTGCAGGCAGGTCTCCCTTTGGCTTCCTTCTGTATCAGGTCCCATCTACACATGGCCTTCTGGGATCCTGTCCGGGGCACACA
CCTGCTCTTTGAGGAATCCATGAGGGCCTTCCCACACTCCGACACACACAGGTCCACAGTCCCCTGGCTGACATCCTTGAGGTTAGCTACCGTTCAGAAT
GCAGACTCTTTTAGATTTTAGAAAGCGAATACTTTATATAACATTCCCAGAGGGGTCTGGGGCAGTGCCCTAAAATCAAACACTTTAGTATTTCTGTAGT
GACATATGAATATTCACACTAAGCTTCCTGAATTTAAAAAAGCACTCTGTTTTTAGATCTTCTTGCATTTTAGAATAGTGAATAAGGGATTGTGAACCTG
TACAATTAAAATGAAGACAAAAAGCAAGATGAGGAGCTATTTAAAGGAAGAGGGGAAATAATTACATAAATATTAAATGAGTCAGTTACTGCAATTATAT
CCTAAAGTTCCTCTGAATTTCTGACGGCCAAGGCAAAAAGAGAAACAAAGAAATATGATCGTTTATATCATGCTCATTGTATGGCAAAAGGGAGCTTTTT
TTCTGGAGAAACAAACGTTTCCCTGGCAATAAATTCTCTGAGAAACTTACCACATGGATCCTTACAAAAGGAATGTGGAGTAACAATGAACAGCCTTTAA
TTACATATGCCGCTTTCAGGCCCCAAAGAAGCATTTTTCAAGTATCCACTCCTTATCTGGACAATCGATAAAAACCAAGAGATTAAGGCATCTCTATGGC
AAATTAAGCCAACATGGTTCAAGTTTTTGTTTTCTGGTGGTTTACATTAAGGAATAAAGATTAGAGGCTTGAACTGAAACATCCCATAGCTATGGATKGG
GTCTCTGAAGTGTCAGTTGTCTCTTGTCCCATGGTCACATAAGCTTATGATGGGGAAAAGTGGCTGAAAGGTACACAGGAACCTTGTACTATTTTTGCAA
CTTATTGTTAGTCTTCAACTATATAACTATATACATTTAATTACAAAATTAAATACATATATAAGATTTTATGTATATGTATATAATTTTGTTGTCTTGT
GCACTTTTGGCTAGGGTTGAAGTTGAAACAAGAGTAAACCCTGAGTAGTACCTGAAGTGGCAATACCAGGCCTACAGGGTTGATGTGAGAGCATAGCGTG
TGTCATAAAGACTGAGATACTTGGGGCCAGGTGCGGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACAAGGTCAAGAGA
TCGAGACCATCCTGGCCAACACTGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCGCGGGCCTGTAGTCCCAGCTACTCGGG
AGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTCAGATTGCACTACCRCACTCCAGCCTGGACAACAGAGTGAGACTCCA
TCTCAAAAAACAAAAAACAAAAAAACAAAAAAACCTGACATGCTTGACTTCTCAGAGGTGAAACCATCTTCTCTTGAAAATAAAGCACAGATGTGAACAA
TTGCAAAACTTCTCTTAAAAAATGTTTCAGGCCAGGCGCCGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGAGCGGAACGCTTGTGCC
CAGGGTTCAAGACTAGCCTGGGCAACATGGCGAAACCACATCTCTACAAAAAATACAAAAATCAGCCGGGCATGATGGCATATGCCTGTAGTCCCAGCTA
TTCGGGAGGTTGAGGTGTGAGGATTTTAGAGTAAAATTGATCACCTGAACCTCAGAGGTTCAAGGCTGCTGTGAGCCATGATCACGCCACTACACTCCAG
TCTAGGTGACAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAAGTTTTAAATATATCCAAGTATCCTAACAAATATTCATTTGAGACCTCCTCAGGATG
CCATGTGATATAGCCAGGGTCTTCATATTACTATCTTGGAGATTTCCAGACATATACAAAAATTGAGAGAGAAGTCTAATCAATTCCTGGGACCCCAGTC
CCCTACTTCCAACAAATATCAACTCCTGTCACTTGTGATTCATCAACATACCCCCACCCCGACCCAGAAGCCAGAGTGGTGAACCTAGAAGAAATCCAAT
GTATGCCACAAAACCCTCAAAAGGCTCAGGAATGATCAGAAGCAGATATCTCTGGAGGTGGAAGTGAAGGTAGGGCTGAAAACAGAAAAAAATCTGTTTA
AGAAGCTGTTAGATCCACCTACTATCCAACACAGTGGCTAAAAACAGACCCACATCAAGTCCATCATCTTGAAATTTCAGAACACCAGAGTATGAGGAAA
GAACTCCTCCAGACTTCCAAAGGAGTTAAGGAAAATTTTTATACAAAGGATCAAAAATCACAATTACAGGATACAAAATCAATGCACACAAAAATGTTGC
AATTTTTATATACTAACAATGTACTATCCAAAACGGAAATTAAGAAAACAATTGCATTTACAATTGCATCAAAAAGAATAAAATACTTGGGAATAAATTT
AACTGAAGAAGCAAAAGACTGAACACTACAAAACATTGCTGAAAGAAATTAAATACCAGTAAGTGGTGGATTGGAAGACTTGTCGTTAAGATGTCAGTAC
TACCCAAAGTGATCTGCAGATTCACTGCAATCCCTATAAAAACCTCAATGACATTTTTGCAGAAACAGAAAAATCCATTCCAAAATTCATATGGAATATC
AAGGTACCCTGAATAGCCAAAACAATCTTGAAAAAGAAGAACAAGGTTGGAGGTCTCATACTTTCTGATTTCACAACCTGCAACAAAGCTATAGCAATCA
AAACAGTGTGATACTGGCGTAAAAACAGACATACAGACCAATGAAATAGAATATAGAGGCCAGATATAAACCCTCAAATAAATGGTCAAGTGATTGTCAA
CAAGGGTACCAAGATCATTTAGTAGGGAAAGGACAGTCTTCTCAACAAGTAGTGTTGGGAAAACTGGATATACACATACAAAAGAATTAAGGTAGACACT
TACCTTACACCATATACAACAATTAACTCAAAATGAATCAAAGATCTAAACAGAAGAGCTAAAACTATAAAACTCTTAGAAGAAAGCATAGAGGAAAAGC
TTCATAACATTGGATTTGGCAATTATTTATTTGGCGAATGACACAAAAAGCACAGGCAACGAAATAAAAAATAGATAAGTTGTTTGTGAGATTTGCAGCA
ATGTAAGCAATGCAGGCATGTATGTGAGATTTGGCTCCATACTAAATCTGGCATCATGCTTAATTGTATTAAAAACCTGAACATATTTTGTTTTCGAGTA
CATACATGACGGCCCATCAGTGATAAACAGCTTGAGATTAAAAATTACTAGAAAGTCTCACCTTTTTTATTACTACTTAATCCAAGTGAATGTCACTTTA
AATTAGTTTGAGAGAAATTCTAATCAATATAATTTCCTTAAGGACAAGGCCAATGTTTCCTGAACATTAAAACTTTGTACCCATATCACAGTTCTTCTTC
ATTAAAGGAAAAGATCTAAAACCAACACAAACTATTGATTCAAGTGACTCACACTAGAAACAAACACCACTCAAACAGTTCCACTTYCATCCACCTCTCC
AAACAACAATATATAATGTACTATTTCTGTTCAGAACTTATAAAAGCCTTCCACTAGAAACTAAAGAACATGGATGATTTTATACATATGCATACACAAG
CAAAACACAAAAGAGAACAAACAGCAAACAAATAAAAATTAGAAGCAAAACAAACAGGAAACCAACCCCAACATTTCCCCACTCAGTCTACCCTGGAGAC
TACCATGTTACCCAGAGCCCAAAAAACCACATGATGAATATTTTATTCTTCATACACAATTCAATATCCTTAAGTCCACCAATATCACCATACATCCTGT
GCAATCAAGAAATTCACCCTAGGTACATGACCTATTAGTAAGTACTCCAGTGCCAGCACTATTGATGCAAAACAGCAAACATAGTGTGAAGCAATACAGG
CATGTATGTGAGATTTGGCTTCACACTAAATCTGGCTTCATGCTTAACTGTATTAAAAAAGAACTGCCAAACCGCCAATGCATTTGTTTAAAATATTTCT
TATTTTGCCTTCATCAAGACTAAGAATTTTAACTATGAAAGTGTTAATTAYCCAAATTTCTCCAATTCTTTATAAGGTTTTAAAGAATATTTTATTATCT
AAACTTTCTAATTTCTCTGTATGTGCAAAGAAACAAACAAACGAAAACTACATATGACTTACACAGACCATGCGTGACATGCTTAAGCTTTCCATCCAGT
CCCAGATTTTATTCTTCTTCATTTTTCTTTAAAGAACCAGTCATTTGGCCAGGTGCGGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCCAACGTG
GGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCAGGC
ACCTGTAGTCCCAGCTACTCGGGAGGTAGCCACTCAGCTACTGAAGCAGGAGAATGGCGTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCAAGATTGCAC
TGCTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAACAGTTATTTTGCTCCAGGACAAAAATTCATCATACAAA
ATTCTTTCTCATACAAACTTACTATCTTCTCTTTATAACCTTCCTTACCAAAAAATATATCTTCATATCCATAACTTTCTTCACATCTCTCTCCCCTACA
TTGTTTCATAAAAAAATTTTCTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAA
GCCCTGCCTCCCGGGTTGACACCATTCTCCTGCCTCAGCCTCCCTCGTAGCTGGGACTACAGGCACGTGCCACCAGACCTGGCTAATTTTTTTTTGTATT
TTTAGTAGAGATGGGGTTTCACCATGTTATCCAGGATGGTCTTGATCTCCTGACTTCGTAATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGA
CATGAGCCACAGTACCCGGCCATAAAAAAATTTTCATGTCCATAATTTGAATTAACTTTTAATAACTTCTAAATTAGACAAAATTATTTTTTTCTCACTA
ATAACATCTTTTGGCCCATTTCATATACAGAATTATATATTAACTATAATTATTATCCTTAATAACCTTAAATTTTAGTGAAACCCTAAAAAGCAAGAAA
TCCTGAACTATCAGATATGAGCATTTTATACATGAGAACAATTCCACAACTTTTAGAAACATATTTCTCCATATCATAACCTTTTTTTTAATTTTATTTT
TTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCAGTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCT
CAGCCTCCCGAGCAGCTGGGACTACAGGCACCCACCACCACTCCCAGCTAATTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACGAGGTTTCACCAT
GTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCACCTCGGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCTGCCGTGTCCAG
CCCATAACCCTTTCTTAATTGGAAATGACCCAGATACCCACATAGCCAATGAGCATCAAAAATAATTTTAAGATTTTAAGTTACACAAAAAGTTTACCTA
AAACATTTATCCCATTGACATGTATTTGGTTTCTTCATTTTTAACAGTTTATCTAGATTACTTCTGAAAACTGAGATATTAGACACAATTATACAAAGTT
AGTTATTTCCTTCTTAACCATTTCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTGTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCT
CGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACACGCCACCACACCCAGCTAAC
TTTTTTTTTTTTTTTTTTTTTTTTTAGTAGAAATGGGRTTTCACCGTGTTTGCCCAGACTGGTCTCGAACTCCTGAGCTCAGCCAATCCGCCCACCTCGG
CCTCCCAAAGTGTGGGGATTACAGGTGTGAGCCACTGCGCCTGGCCCAACCATTTTCTTAATAGCCAGTGAACATCAGGTGCTCACCTAAATAAGAGGCT
CAAAGTTAAATACATAGATATTTTTGCCAATAACTCAGAAGATTCACCTAACAACATTAAATTAGTCTCATCTGTCAAAGAAGGCATACCAAAATCATTT
TGTTTTGGCTAGATTAACAGCTTTATAACCTTCTATGCCAAACACTGAAACCTCAAAATATCTAGCAGAGACATATATAAAACCCAAACAAAAATGTATG
CTGACAATTTCATTCTACCAATAATTTTAAAGCCGGTTTGTTTAGTAAAGATTTACATAAGTCACGTGAACTTGAAAATTGCTTGGACTTTTTCACCTAA
CGTATGAGTGCTCTTTTACTTATAAGCCAGTTTGGTAGACACAACATGTAACAATAAGTGTACATACAAATAGACACATACAAGTAGACACACACACAAA
CGAAAATCCAATAATTTTACCTTAGAACTCTAGCCATGAAATGCCAATACAAGCGTACTGGTTTTACATGGTTATACGTTGTTTGCCCCAATAGTTAATC
CAGTGAAGAATGTGAACCAAAATTTTGGGTAAAGCAGTGTCCATGGCAGTTTGATTTTTAAAGGCCAAACTTCCCCGGACTCCAAAGAACACTGGGGCTA
AACAGCACCGAAGGAAAACATCACATATTAACCAGGCCCAACTCTGCTTAGAACAGCAGCACAAAAGCCTGGATCCATGCAACTCCATCCCACTTTTCCA
TTCAGCAGCAAAGTCCAGATTCCAAACAAGATTGGGGCCAAATAGTATTGCAAAAGAATATCAAGTTGGCTAAATTCTGATTTCCCATGACTATATCAAA
CACACACAATCACCAAAACACTATCCAACTGCTGCAGCAACAAACAAGCCCCTAGTGTCCAAACTGAAACAGCCAGAGTGCACCCTTTCTCTACTGGTTG
GGCTTGATCGACCTGCAAATGGAAATTCCATAAAGAATTTCCCAAATTGAGAGGAGCTGATCCCACTGTCTGGTACCCAAAAGAGACACTCACTTGCCGG
GACACAACACACAATTACAAACAAGTCCTCAAGAGTGTCCATACTGAAACAGTCAGGGTGCTTCCCTCTCAGTCAGTTGGTCTTGTTCCACCTACAAATG
GAAATTCCTTTAAAATTTTCCCAAATTGAGAGGAGCAGATGCTGCTCACCTATCTGTGTACAGATGTCAAATTTCAAAGGCAGTTCTTCCAAGGCAATCA
GGAACAAAGTTGGGGCTGGCTGTGGCAGGGCCAGAGAGAGACGGAAATTCACCTCCAGCCAAAATTAGGTGGGCAGCTGCTTAGGAGGGCTTCTGAGACT
CCCAGMCCACAGCAACCGAGCTGCCATGAGCAAGACATTCCCGGTCAAGGAAACAAAATATATTGCTGAAACACCAGGAGTTTGGTCAAGGTCCTGGTGC
TTGCAGCATAGAAAGCCAATCACTGGGAGGACAAGTATTACCAAGGAAGAAGGCTTTAATCAGGTGCTGCAGCCAAGGAGATGGGAGCTCAGTCTCAAAT
CCATATCTCTGACTGACTAAAACGGGGAGGGTTTATATACCAGGGAAGAAATATTACATGGGTAAGAAAACAAGAACTAGGGAGGGGCCAAGGGCCACCC
GGTGCAGTGATCTGGTGAGTTTCAGTTCTTTGACATTTCCTTTTTAAGGAGCCTGAAGGTCCTTTCCTGAAGAACGAACTCAGATAAAACAAATACAGGT
TTCAGGCTTTAAGAGAAGAAGGGTAAATTTCTATGTTTATTCAAAAACAACTGTCTATGGAACTATTGAGACAGTTTCATTAGCAATATGGACATATAAA
ATTTCACAAATGAAAAAACAAAGCAATTATTAACTTTAGGAAACACAAATTATTGTATGGAAAAGAGAAATGAATCATTGTATACTACATGGCTCAACTG
TGACCAGCAATTATATAAATCATAATTAAATTCTGACTATTGATCTACTCAAAATTAGGAGGATGAAAGGACGGGAATTTGCAGGGGCAGGGGAAGGTGC
TGAAGGAAAGCTAAATCCTCGTCTTTCATAGAGAGAAGTCAATAGAGAATGCCTAAAAATGATAAGTCAAAGAGGCAACGTAAGTACATTAATCAAAGCA
GAGTATGGAAGTAGATATAAAGGAATTAGCTAAACTAATTGAAATTGTTGCCTCTGAGGATTGAGAAATTGAATGGAATGTAGAATAAGAGATACTGTTC
TTTGTAATAAGCCTTATAGAGTTATTTGACTATGAGCATATATAATTTTCATAAATAAATTAATAAAATATTAGGAAAACTTTGCTTTCCTTCCAGTTTA
CTATTGCAGGCACATTTTTATTTTTCTCCCCTTATGCATATGGGAAAACTGACAAGGATATCTGTTTTAAAAACAAAGAAAAGAAAAGAAAGAGTCAAAG
CAAAATAGAACGAATTAAGAAACTAAAGGTTGACTAGAGGAGAAAACTTATCTTGCATAAGAAGATGGGTGAGAAACTGTTTGTGTCAATCTTGGCTCTG
GATGAAGGAAAGAAAAAACTTCAGACAAGGTCTCTGCATGACAATTTCTAACCAAAAGTCCCTACTCAGACAAGTTTTAGTCTAGAATTTGCATTCAATT
TGTGGCTTRAGGCGATCTTGGCTGAAAATTTACCTTAAAAGGACCCCACAGTAGTAGTGTCCCTAGGCCCCAAGCAGAAGCAAATGCAAATTTTCTCTGG
AGGAGTACCTTTTAAATATAGGCTTCAAAGAATTCCCATAAATAGTGTTCTGAGGAACATGAGCTCACAATCAAAAGTCATTAAATACTTGAAAAAATAA
ACCACCAGAAGTGAAAAYCAACAACAACAAAAAAATCAAACTACAGAATAAAACCAACAAAGACTCATAGCTAGTATGATTATTAAAATAAGAAAATTTC
ATGTCTGAAAAAATAAAAAAGGAATTTGAAAATAAGACAAAAAAGCAAAAGTCTTCCAAAATTGCATAGGCAGATTTGAAAAGGAACCAAATAATACTTC
TAGAAATGAAAACTATTATAATTAGAAGCTCAATGGACAGATTGAACAGTAGATTAGACACATCTGAAGGGGGAATTTGTGAGCTAAAAGAATAAATTGC
CCAGATTGCAGCCCAGAGAGATAAAGATATAGTAAAAGACAAAGAGGAGGGAGTGGGATAATGCAATGTATGTCTAATTGAAGTTTGAGAAAGAAAGAAT
GAGGAGAGGCAACATTACAATAAGGTACAGCCAAGAGTTTTTCCAGAATTGATGAAAGATGCCAATCATCAAATCCAGGAAGCCCAGTGGATCCCAAGCA
GGGCGCATGGGACAGGAGGACAGGGCAACTAGAACACTGAGGGTGCTGTTGGGAAGATGGAGGAAGAAACTCACTGGGGTCTAGCTGGCCAGAAAAGGGA
GTAAATCTAAAAGGAGCCAATTTGGTAGGCAAGAAATTGAGTTGTCCAGGAAGAGAGGGTTCTCAGTTCAGTCCAAGATCATGTGTGTCATGCACAGAGC
AGTTACAGCAGTTGTGGTCAGAGAACAGTGCTAGAGTGAAAGACCTAAAGCATGGCATCAGGGGAAGCCACAGGAGTGGGTGCTGGCATGGCGTGGAGGC
CAAGGTCACTAATGCTGCAAGTTCAGCCTTGCGGGGCAGGGGTGAGCCGTGGACCCTGGTGGACACTGCCATTGCCCAGGATGATGCCAGCACCTGAGAC
AGGGAGGATGACTCAGGGGAGAAAGTTCTCAAGGAACAAGGTATGAGTGGACACACCTGGAGAGGCACGAAGGGGTCTGTCTCCAGGAGCAGGGGTTTTG
CACAAGGAGAAAGACTGGCAGTTCAGAAGCCAACATAGGTCAGGAGAAGAGTGCCATCCTGCTAGGATGTGGAGAATGGGAGAAGGGGCAGCCTCCATGG
KTGGGGGCCTCTGTGCAGGCGGATCTGGGGGCTCAGGAGAGGGGCTGGGCTGGGGTGGTTCTCAGTATTCACCTCATCACTCTGAAGTATGCTGCTTCAC
TTCTCCATCTCTCTGCGAGACAGCAAAATGGCTTATCACTGTACCTCCAGCATCTGGGATTGAGTGCTCCACAGTAGGTGCCCAATAAATGTTTGAGGAA
GCAGGGAGGGAGGAGGGGAGGATCGGCTCTGCAGCAGTGCAATGGACAGGCCCACATGAGTCCTGTTGTCTCTTACAGAACCCAGCAGGGACATGCTCAG
CACAGCTCCCACCGCAAGGTTGAATGAGCAAGAAGAAACTGGGAGGATCATTGAAATGCAGCGCCTAGAAATCCAGCGCCTCAGAGACCAGATCCAAGAG
CAAGAGCAGGTCACAGGGTTCCACACCCTCGCTGGAGTTCGGCTTCCTTCCCTCTCCAACTCCGAGGTAGACTTAGAGGTGAAGACCAACTGACCCCCTC
TGGTGAGCCATCTCCAGCCACAGCCAGAAGAAACACAGCATGTCTGTCCCCAAGCCAGACTTGCGGTTGGAGTCTGTATGGTCCCTGCAGCACTGACCCC
AGCAACCTCTTTCTCTTGCCCTGGGGAATTTGGGACACAGAATAAAGGTGTTTGCCCACACCTTGTCTAACTTCTGCTTAGCTGGGGGGCCAAGGCCAGA
AGAGGGAAAGAGAGGAGGCTGAGGACTGGGGGCTCCAGCTCATCTGAAGCCACCTCTGCTTGTCCCTTTCTGGGCACAGGACTGCCTGGCACTGAGAGAT
CACACTGGACTTGGGCTCTCTCCTCTGCCAGCTCAGGCAGGACCAAAGCCTGTTCATTCCTATCTCCTTCAGGAAATGCAGCGAGGCTTTCTAAGGACTT
TTTTTTTTTTTTTTTTTGAGACGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAATAGCGCAATCTCGGCTCACTGCAAGCTCCACCTCCCAGGTTCACG
CCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGTGACTACAGGCGCCCACCACCACACTCAGCTAATTTTTTGTATTTTTAGTGGAGACGGGGTTTCACCA
TGTTAGCCAGGATGGTCTCCATCTCCTGACCTCGTGATCCGCTGGGATTACAGGTGTGAGCCACCGCACCCAGCCACACTCAGCTAATTTTTGTATTTTT
AGTGGAGACGGGGTTTCACCATGTTGGCTAGGTTAGTCTCGAACTCCTGACTTCAAGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGCATTACAGGC
GTGAGCCACCATGCCCAGCCTCTGAGGGTTTTTTTTTTTTTTAATCTGTGTAAAGAAGAAGGAAAAGATGACAGTAAAATAACAGACATGGGAAGTGTTG
GAAAAATTCCCCAAAGTCTTACATTATCTGCTGACCCTGTTCTTGGAACTGTAAGTAGAGCCCTGCCCTCATTTCCCTTGCCTCCATGTCATTCTAGACT
TGTCATCTTTGTTCTGCAGGGTCCTGCTCTGCTCCTCCATTTCTGGAGTGAGAGAGGATGCACTTCTCCCTCTGGTTATTCCTCTCAGGCGCCATCCTGG
GAGACCCAGCCACACACAGGTACCGGGAGAGATAGTTCTTTATGCATTAAAGAGCAAAAGAATATAATCCAATGTCCCTCTCTTCTCCCACCTGCAGAAG
CCAGATGCCCCTCTAATACCCAAATAAGAAATATTTAAGCCCACAGTCCCTGCTGGTCCCTGCTGGTCACCTATGGCTGTCTTAAACCTGGCATTGTCCC
ATCTTTCCCTAATCACTTTACTGAAAGTCTGGGCACTGCTCATGGGTTGACTTTCACAGAGAGCTGAGGCTTGGCAGTCACATTTGGCAAGGTCTCCCAA
AGGCTGGTGTAGCAGAAGGAGCATGCAGGCAAAGGCCTTGGAGCAAAGGGTTCCACAGGGTCTGCAGGAGACTCTGTCTGCTGAGCAACAACCCCGACCC
AGCCTGCACCCTGTCACAGCAGCCAGCCCCTTCCCCCCTGCTGGCATGTTCTTCACATGTACTCGCCCCACTGGGAAGCCAGATCCAGAGAGCAGGGAAG
GATCCAGGCACCCCCAGAGAGGTTCAGCTGCAAAGATGACAGCCCATTACATTATTATGATGGGTAGGTGGGATCTTCCAGGACCCAGATTCCTCCACTC
CAAACTAGCATGCTGGCTTCACCTTTGAAGAAGAAACGGACTTGAAATGAGACTGGGGATGAGGGGCCAGCAGGGGCAGATTGTGCAGGACCGTGAAGGC
ACACAGAAGCTGTGGGCCACCCAGAGGCCAATGCTAAGCCGCTGGGAGTCACCGCCACTGCTCACCAAGCTCTTGCCACATTGGCGTCCTTTCAGTTCGT
ACAAGAGGCCGAGGTCTTTCCTGCCTTCATCTCTTTCCACATACAGTTTCCTCTGCCCCCTCTGCTCTTGCCCCCACACCTCACTTTGTGAACTTCTATT
TATCCTTTAGATCTCACCTTAAAGGGCACTTCTTCAGAAAGGCAGTCCTTGACTCCCTCCTATCTAAACTGCACCCACCACATCGTTTTTCTTCTTAATC
ATCACGGTAACATGTCTGTCTAGTTGCTTAATATTTGTCTGTCCTGCTAGGAGAGTTCTACAGGGTAAGGGATGCAGTAGTGGACACAAGGGATGTTGTG
GTTGCCCAGGTGAAACAGGACAGTGGCTTGGACCAGGATGATGGCAGTGGGGAGGAAGACACGTGAACTCTTCGGACTTAAGGACTGGTGAGGGTTAGCC
AAACCAAGGTGCATGGAGCAGGGGCCTGGGAAGAAGAAAAATGCACTAGAGACTGGAGCTTTCCTGAAGACCAGAAGGAAATTCTTAATGGCTAGGACAT
ATCAATATTCAAGTGATAGATTTTTTAACTGCAAAATGACTTAGAATCGAGATGTCACATTCCACGTACAAGATGGACCTTGGTTCTCAGACAAGGAAAT
CCAAACCAAAGAGGAGTAAAGTGACTGGCACGTAGTCACACAGGCAGGGGTGGGGCTGCAGGCCAGTCGGCCCAGTGACTCCAAAGGTGCTGCTCTTACG
CACTGCACTGGAGAGATGCCCAAACAAAACACTGTAGGCCAAGTGAAGGTTATAGGAACTTGAAACCCTGAGAGTCTAAATCAGAAGTTAAAGGAGTGGA
AACTCCCAGGCTAAGCTAACCTAAGCCTAACCTAAACCTGGATGCTGTCCAGCTGGTGAGGAGGAAGTATGGGCCAAGGGAGGGCCCCACCCTAGCAGAA
CCTGGCACCTTGGCCAGCAGGTCAACAAGGTCTTTTCTTGGCTGCACAGGGGTGCACACAGCTTCTTGTTAGTAAATGTAGGGCCAGAGGTTCAATCTTG
CTTATGTCTCCATGTTCTGTCTTCAGTGCTTGCTCCTAATCCACCCATCGGGAGGCATTGGTTCTCTAGCATCTGAGACCTCCCTCTACTTTTGTCTATC
CAGACTCCGTGGGGAAACTGAAGGCATTCACCCCATTGGTGCCCCCTTTTCCTTCACGAGTCTCTTCATCCAGTTTACTGCTTCAGCCCCGACAGTGCTG
GAGTGGGCCTAGCAGTCACCTCCTCCTGTAAGCAGCCTTAGGGCCCCTGCTGGTCACTCAAGTGACTAGGCATTGGCACACAGACTCCACTCTTGCTCTC
CCGGTTGCAGTCCATCATTGAGCTCTAGGTACTCATTCAATTCTGGTGTGATGACTGGTGCCTTTGGGGAGTGCTGTGCCTCTTTGGTATAATAGCCTCC
AGAATTCCTCACTGGGCCCTCTCACCTTCTAGAGTTTTGGCATCAGCTGTGGCCAAGCAGTGTGGGCTACCTAGCTGAGGCTCCCCTGGTGTCCTGCTAT
CTCAACACTGAAAAGCCTGCCCTACAGAAGGTTCTAGCATCACTGTCCTGCTTCTTATACAAAATATGGCCAGCCATTGCTGGTCCCAGGAGGTACCTGA
GGGCCTGGGAACATCTGTGTGCCCAGGCAGGACCCCCTTATAATCATTCCTCTGCATTCGGAGTGAGAAGTGAAAGGGAAGACATCTTAGGGCCAGGAAC
GGGGGTTCACTCTTTCTGAACTCCCATGGGGTGAGCTCTCCTAGACCACTGGGGTTCAAGGGCCTACTTAGGCTTCAAGCATGTCTAAGATGTGCCCAGA
CTGCCCTGAGCTGAGGTAGGCTGGGGAGCAGATTTCCAAGAAAATAAGCCTGCCCTGTGCACCTGGAAGCAGGAGGGACTAGCATGACTAATCACCTACG
ATGACCAGTAGAATACAAGAATTTGTATATGTTGCTCGTCTGCTATGTGTCACATGGTGGGATTTGGCAGGGGCTACAAATAGGAATTAGTGCTAGCCAC
CTAATGCATGTATTAATATATTAAGTGTATTATAAGTGGAACTATGAGAATGTTAGGGAAACACCCGAGGTTTGGTCCAGGTCCTGCTGCTCACCACACG
GAAAGCCAATCACTGAGAAGACAAGTATTGCCAAGGAAGAAGGCTTTAATCAGGTGCTGCAGCCAAGGAGATGAGAGCTCAGCCTCAAATCTATCTCCCT
GACTAAAACTAGGGGTTTATGTTACCAGGGAAGAAATGTAACAATGTGTAAGAAAACAAGGACTACAGAGGGGCAAGGAGGCATCTGGTGCAGTGATCTG
GTGAGTTTCAGTTCTCTGATACTTTTTTTAAAGGTCCTTTCCTGAGGAAGGAACTCAGATAAAACTAATACAAGTTTCAAGCTTTAACAGCAGAAGGATC
AATTTCTATGTTCCTCCAAAAGAACAGTCTGTGGGAGTCTTGGGCCAGTTTCCGTGCTCACTTTCTATTTGTCAATTGCTCAATCATGAGGAATCTGGCT
GTCGATCTTCCTGGCTGCTTCATGCTGAGGAGGGGTGTCATAGGCAGCTCCATACCATGAGTGACCATGTGGCCACTGAGGAATCAAAGATTAAGCTAAT
ATAGAGTTTTCTTCTGAAACACAATCTTTCTGTCTCCAGTCTGCCACTTCCACCAAAGACGAATCACAGCAGGACCAATCTACCTGCAAGATAGGCTTCG
GTCCCGTATGCTTGACCTGATTATCTACACAAAGTGCAGCAAGAATCATTGCCAACATAAGCTCTCCAAAATTGGCTTTGCTGGAACCTATCATAAGGCC
ATTTCAGTCAAAGCACTGGGAAAATAACCAGTTCCTCCAAGTGTGTCCCATTACAAAAGAAAACAGGTTCTTATTAAATGTATGAAAAGAAACACATTGC
CATGAATTAAGAATATTCGGCTGGGCACGGTGGCTCATGCCTGTAATCCTGGCACTTTGGGAGGCCAAGGCAGGCAGATGACGAGGTCAGGAGATCGAGA
CCATTCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATCAGCTGGGTGTGGTGGCAGGCACCTGTAGTCCCAGCTACTCGGGAGGC
TGAGGCAGGAGAATGGCATGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGATCACGCCACTGCAGTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTC
AAAAAAAAAAAAAAAAAAAAAAAGTACAAAGAAAGCCGAGCACGGTGGCTCATGCCTGTAGTCCCAGCACTTTGGGAGGCAGAGGCAGGTGGATCATGAG
GTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAATTTAAAAAAAAAATCAGCCGGGCATGGTAGTGGGCCCCTGTAGT
CCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGTTGTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCAAC
AGAGCAAGACTCCATCTCAAGGACAAAAAAAAAAAAAGAATATTCACAAATAGTTTCCATATTCTGGAGAAATTAGGCAGCGAGAGAAACATGTTTCAAA
TTCTGCTTACAAAAGTATACTCAATACACTTAAAGTATATTTCAAGGATATAAATAACTCAAAAGAAAAAAATTCTCCAGACTCTGAAAAACAAAAGGAA
TCGGCAATATTTCAAACAACAAAAGCCATTAAAAAATTATTTCAGTCCCTTATTAGTTCAGTCCATGCAATCAACTCCTGCTCTGCCTCATATTGGGATA
TGAACACATTAGCCTTTCAATAAGGGCCCTGAAAGTTTTCTCTCTAATCCAATGGCACAATCTCCAAAGTTATCAGAAACCTGCTTTCAAGAGTGCAGTG
TGGCACCATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGAGATTCTCGTGTCTCAGCCTCCCAAGTAGCTGGGAGGCATACAACACCACACCCA
CCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTGGCCAGTGTGGTCTTGAACTCCTGGCCTCAAGTGATCCACTACTTCAGTCTCCCAAA
GTGCTGAGATTACAGGCATGAGCCCCCATGCCTGGTCCCAATTTTCTATTAAAGAGCAGATCAATACTCCAAGACAACCCTGTCATTCCAAAACATGGGC
CCAGACGCTGGCCTTGCATCACTGTCCTGAGGATTTGACTGGAATCAAT


SNP Information

Context             (SEQ ID NO:63699):
TATGTTCACATTTCTTTATTGCCATAATTAAAATACTGGAATGGGAACAGGTTGCAGTTAGATTGAAACAAACCAGTTCCCAGCTTGGCCAGTTCATACA
S
AGCTGGGCAGAGCGCACTGTGATTCAGGCCAGACCCAGGCAGGGCTGGTCTCATGTCATCTTACGACCAGTCCCTGCTGAAAAGCAGCCCAGTCCATCTA
Celera SNP ID:            hCV8375432
SNP Position Genomic:     7030
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|G,10)      total(G,10|C,5) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63700):
TCGCTAAGCTGCTTTTAAGCTAATTTTCTGGCTCTTCACCTACTGTGTATGTGCCATGGGACTGTTTTCCTTAGTAGGTTTTCAGATATCTTCTAGGATG
Y
TTGGATTCTCAGGGACACCTGCTCCACAGCTGGGCACCATGGCCTTGACTAACTGCCTGGCCTTGAGGGTTCAGACAGTGAACATACACCCTTAAGTAAC
Celera SNP ID:            hCV8375441
SNP Position Genomic:     11890
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63701):
TCCTCTTCTGCTTCCCTATGCCCCGGAGGGTGCTGGGCCAGGGTGGGGTAGAAAGCAGAGGAGACCCAAGCGGGCCTCCTGCCCAGCCCTGCCACTCCCT
R
ATGGCTGGCAGAGGGAGCCATCAACAAATGAAGTCCCGGGAAGAACATTTTCTCCAGCAGCATTGTAACCTATGTGCTAGGGAGTCCTGTGGATCCAAAT
Celera SNP ID:            hCV8375433
SNP Position Genomic:     7611
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63702):
AATAGCCAATAATTGTGATATAATAATAGCCATAGGGTTATTATGATGCATTTAAACTCATATAAAAAGTGCATGGAAAAGCATTGTTGTTGCTGTTGAC
R
TTGCAACAAGCATGGGTGGATGTGAATGGTGCTGAGTCTACCCGAAAGTAAGTTAGCTGGTTCCTTAAGAGGCTGAGCAATAGGCTGGAATAAAGGCTCA
Celera SNP ID:            hCV8375450
SNP Position Genomic:     14489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63703):
CTTCTGGGCTCCACAGGTACCTCCCCACAGCAGAGGACCGTTTGTCACAGCTCAGGGAGAACAGTGCTTAAGACCATCCTGTTCTCTGGGCTCTGACTCC
R
TAGCCACCACTCGTGAGATAATGTCCCAAGTAGAAGCACAGTTTGTTCCTGGCACAGGTCCATTTTATGTAGATTTGGCCTGCAACTGCCTTTTCTGGTA
Celera SNP ID:            hCV8375442
SNP Position Genomic:     13051
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63704):
GGCAAATTAAGCCAACATGGTTCAAGTTTTTGTTTTCTGGTGGTTTACATTAAGGAATAAAGATTAGAGGCTTGAACTGAAACATCCCATAGCTATGGAT
K
GGGTCTCTGAAGTGTCAGTTGTCTCTTGTCCCATGGTCACATAAGCTTATGATGGGGAAAAGTGGCTGAAAGGTACACAGGAACCTTGTACTATTTTTGC
Celera SNP ID:            hCV8375451
SNP Position Genomic:     15798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63705):
ATACTGAAATTAAGTAATATACTGGAAGTCTAAAGGTGTAGATCTGTGCTTTAGATGAAGCATTTCTGGAGGAAAAGAATCATTGCGGTGTCTCTAGCCC
R
ACCCCTGCTCCCTTCTGGGCTCCACAGGTACCTCCCCACAGCAGAGGACCGTTTGTCACAGCTCAGGGAGAACAGTGCTTAAGACCATCCTGTTCTCTGG
Celera SNP ID:            hCV15969183
SNP Position Genomic:     12939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63706):
AAAGTTGGGGCTGGCTGTGGCAGGGCCAGAGAGAGACGGAAATTCACCTCCAGCCAAAATTAGGTGGGCAGCTGCTTAGGAGGGCTTCTGAGACTCCCAG
M
CCACAGCAACCGAGCTGCCATGAGCAAGACATTCCCGGTCAAGGAAACAAAATATATTGCTGAAACACCAGGAGTTTGGTCAAGGTCCTGGTGCTTGCAG
Celera SNP ID:            hCV27900596
SNP Position Genomic:     22606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63707):
TCTGAGACCACCTGTCTTCAGGGCTCCCCAGGTGTCTGGGGGCCCAGTAGCTCCCCCTAAAGTCTTATTTTGGCTCCTCTCCTCTGAGCTCGTCTTGGCT
S
TGACTGTGGCTGAGAGCTCACCTAGGAGGTTTTCTAGGCACTTCCATGCTGCACCCTGGCCTCCACCCCACCCAATGCCCACCTCCCTTCTCCACATACC
Celera SNP ID:            hCV25968711
SNP Position Genomic:     6310
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,37)   total(C,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:63708):
CACAAGGAGAAAGACTGGCAGTTCAGAAGCCAACATAGGTCAGGAGAAGAGTGCCATCCTGCTAGGATGTGGAGAATGGGAGAAGGGGCAGCCTCCATGG
K
TGGGGGCCTCTGTGCAGGCGGATCTGGGGGCTCAGGAGAGGGGCTGGGCTGGGGTGGTTCTCAGTATTCACCTCATCACTCTGAAGTATGCTGCTTCACT
Celera SNP ID:            hCV952580
SNP Position Genomic:     25201
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63709):
GTGGCACGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAGTACAGGCACCCGCCACCA
Y
GCCCGGCTAACTGTTTGTATTTTTAGCGTAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATGATCCACCTGCCTCGGCCTC
Celera SNP ID:            hCV3138275
SNP Position Genomic:     12493
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,10)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63710):
TTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACACGCCACCACACCCAGCTAACTTTTTTTTTTTTTTTTTTTTTTTTTAGTAGAAATGGG
R
TTTCACCGTGTTTGCCCAGACTGGTCTCGAACTCCTGAGCTCAGCCAATCCGCCCACCTCGGCCTCCCAAAGTGTGGGGATTACAGGTGTGAGCCACTGC
Celera SNP ID:            hCV26468316
SNP Position Genomic:     21138
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63711):
TATTAAAAAAGAACTGCCAAACCGCCAATGCATTTGTTTAAAATATTTCTTATTTTGCCTTCATCAAGACTAAGAATTTTAACTATGAAAGTGTTAATTA
Y
CCAAATTTCTCCAATTCTTTATAAGGTTTTAAAGAATATTTTATTATCTAAACTTTCTAATTTCTCTGTATGTGCAAAGAAACAAACAAACGAAAACTAC
Celera SNP ID:            hCV15928280
SNP Position Genomic:     19151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63712):
TCAGGTGATGTATTTGTATGGTCATACACGAGGAACTGCTGTAGACAAGCTGACTACTGTGGCTGTGGGCTCTAAGAGCAAAGTGGCCAGTCTCTTTGGG
M
CCTTGGGGATGGGGCTCCTCCTTGGGGTACTTGTGCTGGGTGTGAAATGGAAGGCAGAGATTTGAGGTGTGGGAAAAGAGGAAAGAGACTGTTTGGTCCC
Celera SNP ID:            hCV3138276
SNP Position Genomic:     13387
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,7|A,8)      total(A,8|C,7) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63713):
AAAGAAAAAACTTCAGACAAGGTCTCTGCATGACAATTTCTAACCAAAAGTCCCTACTCAGACAAGTTTTAGTCTAGAATTTGCATTCAATTTGTGGCTT
R
AGGCGATCTTGGCTGAAAATTTACCTTAAAAGGACCCCACAGTAGTAGTGTCCCTAGGCCCCAAGCAGAAGCAAATGCAAATTTTCTCTGGAGGAGTACC
Celera SNP ID:            hCV3138277
SNP Position Genomic:     23909
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63714):
GGTGGCGCGGGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTCAGATTGCACTACC
R
CACTCCAGCCTGGACAACAGAGTGAGACTCCATCTCAAAAAACAAAAAACAAAAAAACAAAAAAACCTGACATGCTTGACTTCTCAGAGGTGAAACCATC
Celera SNP ID:            hCV26468317
SNP Position Genomic:     16368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63715):
AAAATTGTGATTATAATAACAATTTATAATTGTTTTTGTGATTATAATAGCCATATAATTATATATATATAATATAATAGCCATATAATAGCCAATAATT
K
TGATATAATAATAGCCATAGGGTTATTATGATGCATTTAAACTCATATAAAAAGTGCATGGAAAAGCATTGTTGTTGCTGTTGACGTTGCAACAAGCATG
Celera SNP ID:            hCV15928281
SNP Position Genomic:     14403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63716):
TAAAAAAAAAAAAAAAAAAAAAAAAAAAGGCAATTTCCAGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATC
R
TGAGGTCAGGAGATCGAGATCATCCTGGCTAACACGGTGAAACCCCATATCTACTAAAAATACAAAAAAATTAGCCGGGCGTGTGGTGGGCACCTGTAGT
Celera SNP ID:            hCV26468318
SNP Position Genomic:     8191
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63717):
ATAGGCTTCAAAGAATTCCCATAAATAGTGTTCTGAGGAACATGAGCTCACAATCAAAAGTCATTAAATACTTGAAAAAATAAACCACCAGAAGTGAAAA
Y
CAACAACAACAAAAAAATCAAACTACAGAATAAAACCAACAAAGACTCATAGCTAGTATGATTATTAAAATAAGAAAATTTCATGTCTGAAAAAATAAAA
Celera SNP ID:            hCV3138278
SNP Position Genomic:     24118
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63718):
CAACCACATAAGGCACTAGGCACTGGCCTGGTACAGAATAAGTGCTAAAAAAAAAAAAAAAAAAAAAAAAAAAGGCAATTTCCAGCCGGGCGCAGTGGCT
S
ACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCGTGAGGTCAGGAGATCGAGATCATCCTGGCTAACACGGTGAAACCCCATATCTACT
Celera SNP ID:            hCV26468319
SNP Position Genomic:     8146
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63719):
CAGGAGAATGGCATGAACGTGGGAGGCAGAGCTTGCAGTGAGCCAAGATCGGGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCCCCCCCC
M
AAAAAAAAAAGGCAATTTCCATCCTCTTCATCCAAGCAAAGGACCTATCCAAGAACCAAGGTAGAAATCCAGTGGGAAAGCCTAGAAGCCCATCACAGGA
Celera SNP ID:            hCV11871670
SNP Position Genomic:     8415
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,10)      total(A,10|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63720):
TCTACCCTTTGCCCTACTCCTTGGCCATGAAAGCCATCGGAGGCCCAGAGATAGAAGTGCCTCCAGCTGGTGGAGCCCTGAGACACCAGCAGCCGCACAC
K
GAGCCACTGCTTAGGGCCTGGAGTACCTAGAGCATGGAGAGCCCCCTGGGGCTCTGGAGTGCAGTGAGCAGGGAAGGGAAACCAGGATGACAGCAGGAGC
Celera SNP ID:            hCV11871671
SNP Position Genomic:     7227
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,6|G,8)      total(G,8|T,6) ;no_pop(G,-|T,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63721):
ACTGGAAGTCTAAAGGTGTAGATCTGTGCTTTAGATGAAGCATTTCTGGAGGAAAAGAATCATTGCGGTGTCTCTAGCCCGACCCCTGCTCCCTTCTGGG
Y
TCCACAGGTACCTCCCCACAGCAGAGGACCGTTTGTCACAGCTCAGGGAGAACAGTGCTTAAGACCATCCTGTTCTCTGGGCTCTGACTCCATAGCCACC
Celera SNP ID:            hCV952579
SNP Position Genomic:     12959
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63722):
ATCCCATCAAGGGTCCCTCTGAGACCACCTGTCTTCAGGGCTCCCCAGGTGTCTGGGGGCCCAGTAGCTCCCCCTAAAGTCTTATTTTGGCTCCTCTCCT
Y
TGAGCTCGTCTTGGCTGTGACTGTGGCTGAGAGCTCACCTAGGAGGTTTTCTAGGCACTTCCATGCTGCACCCTGGCCTCCACCCCACCCAATGCCCACC
Celera SNP ID:            hCV25968754
SNP Position Genomic:     6293
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,11)   caucasian(C,40)   total(C,67|T,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:63723):
CCTGAACCTCAGAGGTTCAAGGCTGCTGTGAGCCATGATCACGCCACTACACTCCAGTCTAGGTGACAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAAA
A
GTTTTAAATATATCCAAGTATCCTAACAAATATTCATTTGAGACCTCCTCAGGATGCCATGTGATATAGCCAGGGTCTTCATATTACTATCTTGGAGATT
Celera SNP ID:            hCV11871668
SNP Position Genomic:     16844
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,12)   total(A,12|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63724):
CAAGGTTGGTGTAAGGATGAACTGAGGGACTGTATGCATGCTGTTTGATACATTTGCAGTGATCCAATCAACCCTTGCAATTGTGGTTACTCTTATTATC
R
TTATCATCAAGCTCTTCCTGCCTTAGGTTCTGCTTGCCGCCTCCTGGCTCTGGGCCTGGAACACTCTTCTCCTCTGTCTCCCCTGGGGTTGCACACTGTC
Celera SNP ID:            hCV12109062
SNP Position Genomic:     10487
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63725):
CACAGTTCTTCTTCATTAAAGGAAAAGATCTAAAACCAACACAAACTATTGATTCAAGTGACTCACACTAGAAACAAACACCACTCAAACAGTTCCACTT
Y
CATCCACCTCTCCAAACAACAATATATAATGTACTATTTCTGTTCAGAACTTATAAAAGCCTTCCACTAGAAACTAAAGAACATGGATGATTTTATACAT
Celera SNP ID:            hCV15970874
SNP Position Genomic:     18587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 390
Celera Gene:                 hCG23738 - 84000313902457
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W45C(10942143..10983384)
Chromosome:                  Chr12
OMIM number:                 123805
OMIM Information:            PHOSPHODIESTERASE 3A, cGMP-INHIBITED;PDE3A


Genomic Sequence (SEQ ID NO:12550):
TGTTGAATCTGGTAGCCACAGTCACATGTGGTTATTGCATCCATGAAGTGTAACTAGTGTAACTGAGGAATTGAATTTTTTAAAATTTGATTTCATTTCA
TTTAATTGAAATTGCTACATGTGGCAGATAGTCATTGTATTGATCTGTGTTGCTAAAGAAGATTGTGTAAAATGGTTTTCATAACTTTGGGGTAGCAGTT
GGCATTTTTATGAGACTAGGAAGTATATGATTATGTAGTGTTGTAGTTTATGTGACTAAATGTGGCTCCTTATGGAGGAGTTCTTTAACTTTGCCATACT
TATAAAGATAGTTATTATTTATTCTCTCTACTTATATTTTGAAAGTCCCTCTCTTAAAGCAAGTAGATATCATGGAGTGAGTCTGGAAACTCCTGTTACA
GAACACCAGGAGTGGCCAAATTATGACTGGTGCCCCCTGGAGTTGTGCACACAGAGTCTGTGGCTACCCCTATAAGCTGAGTCACATCTCAAGGCAATGT
CATATTCACTTTTATGTCTACAATGCTTGGTATGGAATTGATTACTGACAAATCTTTGTTAAGTAAGGAATATATATCTCAATTTTGATATCCGCAATAA
TAAAGGATAGTGAATAAAAAATATTTTACTATGTGCTCATAGAACACATTGTATGAATTTGCCCTTTGATGTATATATTCATTAAGTTCTACATTTATGA
AGTACGCTTTGTGGAAAGTATTAATTTAAGTATTTAATACGAATATAATTCAGACACAGTATGTCTACTGCTGATTAATGAAGAAGGGAATGTAAAAATA
TGTGCTGCATCATAAAGTAACTGCACTAATGAACATATGTGCAAGATGTAGTTCCCAATAGCAAAGGAAGAGAAAGGGATTTTTGTTTGGTTGATTGATT
TTCTCAGTCCTGTGGCAGAACAAAAAAGGCACATCAGAGAAGGAAGGCTGCCATCAGGGAAATGACTTTTGAGGCGGGTTTTGGAAGATGAGCTGGAGCT
AGCAGAGGGGTGGTGAGGAAAGTAAGGCCTGTGCTGCTCCAGGTACTTTGCTAAGGGACATCATCTCACATCGGTTTTCTCCATACTCCTCCAACGTAGA
TGTCCTTAATCCTCATTTCAATGATGATGCAGCTGATTCGGATTTAAAGAAGTTTGCCTAAGGTGACATCGCTATTCAGTGAGGGTACTAAGCTTTGAAC
CTAGGTATGTTTAACGCTAAAGCCTGTGAATTGCACCATAGTCATTGGTATCAGTAATGAAAAATCCAACGTGTTTGGTGAAATTCAAGTAGTGTAGTAT
CGCCAAGCACATGATACAAAGAGAAGCAACTGAAGTGCTGGAATGGAGGCATGTGATAATAAAAAACCATCTATGCCATGACAAATACACTGGACTTTTT
TCTGTAAGTAATGTGGAGCCCTGGGTGGGTTAGTTTTAGGCTGGCAATGACATCATGATTCCTAAAGAAATTCAGGAGCTAAAATCAACAGCATATTTAG
CTAATTATTTGACTTGAATTTCCATTCAAATTGGCTTTATTTTTTCCTGAATACGCAGTTGCTTAGAAGTGGTTGAGTTCCATCCTGGTGCGTGCTGGCT
ATCAACCAACATAGGAGTAAAAATTCACCATGAGTAGTCAGCCAAAAGACACATGCAGATGCTTAGGAAAATAAATTATAAATATTTCTTATGTCTGCCA
GTAGCAATGAGAAGATTTTGCTATATTGTGTTTTTTGATAGTTGGCTTGTTTTACTGTATGCTTATGAAAACATAAAGTAGCAGGACAACAGATCACATT
GCCAAATGATTTCTAGGATTTGGCCCAAGGTTTGATGATCCCTCTGCCGCTTCTTGGCTTTGTATGCTCAGAAGCACCCACCATCAGCTGTCAGCCCTGT
GGCAAAAGGAGGAATGGGGTCAGAGTCAGGCAAACAGAAGCCAGAGCCAAGTGTTGTTCTGAGAAATACTAGCATCTGTTTAGTGCAGTGAGTTCTCTGC
TTTGTACTTGGCAACCCACTTGGGACTCATGCTGCAAAGGGGGCTGATGATTTAAAACTGAGGGAGGAGATCCAGAGGGGAGACCTTGGCTCATGAAACA
TCCTCTTCACCTCTGTGATGGGCCGTTCTTCATGTCCTACAGTTTGAACTAAAGAATGGCCTCGGCTTCTCCTGTGGATGTAAACATATTTTGTTGCAAG
TGCCATTCGTTTTATTTGTTGTATACCTTTTCCTTCAAATATATTCCTGGCTAAACTCCTGGCTGTCTCTCCTGGAGTGTTTTTTTTTTTTTGTATTCTT
GGGGTTGTAAGAATCAGGTTCATGTGGAGGTGTCTAGAAACAGGCTGGCTGGACAGGAAGGAAATAGGTGGATATAGTTTTAAATTTATACACATCTTTT
GGAGCCAGGAACTTCTACACAATCTAGCTTCTATGAGATAAAATTTGTGGTACGAAAGAGGAGTGGTAACATGAATAATAAGAGATTTTTTTTAAGTCTA
GAAAACCTTAGATGTTGGGAGTGTAATCAAGCATTTTAGCCAGTCATTTTGAAAGGTAAGTGAGTTTAAATGAATTGAATACTCAGTTGTGAATTAGTGA
TACTGAACATGTACACTGTCTTATCAGTGTGTTTCATAGTGATTGGTAATGCCCAGATTTCCAATTTGATACACAGTCCATTTTAAAAAGATATATGTGT
GTATTTTATACGATGCTTTGTAGTTTTGAAGTTTTGAGATAAATTATTTAGAATCAAATGCTCATGGAAATGTCTGTAATATTAAAATAGGTTTATTTCA
AGATTATTAATTCATTTGTTCAACGAGTGTTATTGAGCGTCTGTTGTGCCGAACCCTCATTAACCTCAATAGGGAAGGTACTAGGTTCAAGAGGCTGAAG
AAGAGACCCCGAGCCAACAAAGGAGACATGGAGTTTCATTAGGAGCTTACATACAGTGGAGAGAGTCAGTGGCAGTGGGCTGGACAGGAGAACCAACTTA
CCTACAGAAATGATCCAGTGGTGGCAGGCTGGGCAGGAAAACCGCAACCACTTGCAAACAGCATGCAGTTTATGTAGCATTTTCACTTAACACTCTCTCC
TTTATGACCTCCACCTGGCAACCCTCATTAACCCCAAACTCAGGGCCTCATTCCTCTGTATGGCCCATGTTCCATGGGATGGGATGGGGTTTCAGATGTT
CCTCACAGACAAAGAACAAATCTTCGGGCTGTCCACTAGATTCCCTAGCTTGGGACACACTTTCAGGTGTGTCTACTGTACAGGGTCATTCTAAGGGTTT
GCTTAAGTTTACCCTACAGCATCATTCACGTCTGCTCTCTCATGTGCTTGCGATACAGTGACCATCAACACAAGGGCCCTGGTCTCCAGGAACTTACACT
CTGTAGAGCAGTGTTTTTCAAAGTGTGGTTCCCAGATCATTAGTATCAGTGTGCTGGGAATTGCTAGAAATGCAAATTCTCAAGTCCCCGGCCTAGACCT
ATTGAATCTGAAACTCTGAGAGTGGGGTTCAGCAATTTGTCTTTTAACAGGTGATTGTGAAAGTTTGAGAACTACTGCAAAAGACAGATAAATTAACTGA
TGATTATTAAGTATGCCAGAAAAGGCTGAGTTTTACAAAGAAAATAAAACAGGGAAAGAAGATGGACAGTGTAAAAGTGTGTAGCTTTTGGGGTGTTGTC
TTTGTCTTTGAGCACTTGACTGATGTGAGAATATCTGGGAGGAAAGCTTTGTGGTTATCTCGGTTAGAGATTTTAGTGAGTTGAGGCACGGTTGGGAATT
GTGATGTCTTTAGAAGGGCTGAACCTCCAGAATTTGCTGTTGAATAAATTGGAAATGGTGATGTGAGAGGGCAGAATGATCCTAAAGGTTGTTGATGGTA
CCTACTGATCTCTGATGTTACCTCATAGTAAGATGGGAAAAAATGAAATGGGGTGGGGCAGGGAAAAGCAGACTTTGGGGGAAGAATAACACATTTTATT
TTAGAAAAGTTGTTTCAAAAGCTCATTAGCCATGTGTGAAGCTATATTTGTGAGTATGCCATTCATGGGGAAGGTTGGCACTGGGAATATTAACTGGGGA
GTCATGGTCATATAAATGGTATTTTAAAAAACTAGTTAGCCTGAGATCACCAAGGGAATGAATGCACATGGAGGAGGTCTAAATACCAAGTCCTGGGGTA
TACCTGGGGGGTGGGGTGGGTGGCATTAGGCTAAAGATAGTGAAAATTCTAATGAATGATAAGTAATATTTTGCTATGTTGATCTTGAGATTGATATGTT
GAAATGGCAGCATCCTAGACCAATCCCAAGTTTAATGCCTTCCTTGAAGTTGCCATGTTTCTGTTTCGGAGTCCTTGGTGCCACAGGTCCCTCTTGACTT
TCACAGGCCAGGGCTTCTTGCCATACAGGTAAGTGTTCTCCCTTCCCAGCTTATGGGATCCAGACTCATCAGCTGCCCGCTGTAGGTTGTCCTTAAAACT
TAGAGAATATGCAGAGAGCATACACAATTCTGCTTAGAGGAGGAGCACTCTCCTTTTCCTCTTGTCTCAGTTGTGATCTTGTCTTCTTTCTCTAATTTCC
TTTTCCTCTATTGAACTTTCAACAGGCAAATTCTTTGGTCTGCAGAGCCAAAAGAATAATTGTCTTTCTTTTTAAGTTAATAGTACTTAGATCATTTTGA
CAGTTGTCTTATTTATTACCACTTACACAGAGGCATTTCTTAATGTTGAATTCAAATGTTGATTTTTAGTGTCCTAGACCTTGATATTTTCTGATTTGAA
TACCCTGAGCTGTTGACCAAAGCAACAATGAAATTTATAATTTCTTAACGGGTGTGTGATTCTTGGGATTTCTTTCAGAAAACAATACTTCCCTGATGTA
GGAATGTATCACTTAAAGTAAAAAATGTTTTTAAAATTTGAATTATAGAAGAGAATAATCAGTGGATGATTCACTTCGTAGAAAAGTTCTTTGCTTTAAA
ATGACTCATCAAGTGCTATTGGGAACATTTAAAATGTTATTTCAATTGCACATACTCTTTAGGAAGATACAAGTTTATTGCTTTATATGTGTGTATCACT
GATAAAAGGTATTTTCATATATTTAACAAAAATTTAAAGGGAGGAATGGTTAAATGACTGTCTAAGGACTCATACCTCTTTAGTGGGCAACCAAGTCTTG
AACCCTAGTTACCAGTTGTCATGTTTACTTGTAGAACTACCATCACGGCCCCAGGGGAACAGCTTAAGAAAGGGATAGGAGGAATAAAATGGAAGCACTC
TATAGAATAAGTCTTCATCTGTACTCCTGATTTAACAAATTCTGATATTACCCACTGTGTTTAGGTTTCAGTGACAAGTTTTCGTAGCAGTTGCGGCTGC
ATTTAGCTCTTCACATCCTCCCAATTCTAAAACTGCAAGGTATTGTAACGATAATCTGTCCCATTTCCTCGTTTTTGAATGAGAAAACCACAGCCTAGAG
TAGCCATTACTTGCCAAAGCTTTTTTTCTTAGAAGAGAGGGGGGATCTTCAGTTATCTTCTAGAATGTGACAAAATTTTGCCAAGATCATGGTGCGTGCT
CACTAAAAGATGATGAAGTTTATTGCCTAAATCTCAAATTCAGTCAAGATGCTACTTAGGCCAGCTTTTAAAATTTGTATAATAGCTAGTTTTTTATTTA
AATTTTTAAATTGTGAAACAGATCACAAATTAAAGAGCACATATAACATATATAGTATTACATATGCATATCATTTAAAAATATTTTATATATAGCTATA
TATCTTATGTATGTTATTTTTACTATAAGAATAATAATAAAATATAAAATGAACACACAGGCATCAACCATTGAGTCTAAGAAGTAACCATTCCACAATC
TTGGAAAGCCCCTGTGGGTCCCTAATCTGTCTCACCCCATTCCTTGCCCTCAGAGGTAACCTCTGTGCACTACCCTCTTGTGGTTAGAAGATGGAGCTAG
GCCGGGCTCGGTGGCTCACGCCTGTAATCCCAGCAYTTTGGGAGACTGAGGCGGGTGGATCACCTGAGGTTGGTAGTTCAAGACCAGCCTGACCAACACG
GAGAAACCCCGTCTCTGCTAAAAATACAAAAAGCCAGACATGGTGGTGCATGCCTGTAATCTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAA
CCCAGGAGGCGGAGGTTGTGGTGAGCCGAGATCCACCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCCAACAAAAAAGAAGATGGAGCT
ACATTACTGCTCCGGAGCCTTGGGCAAGTTATTATTCTCCCTGTGCGTCAGTTTCCTCATCTGTATAAAAGGAATAGYAATATATGTGTTGTGAGGACTG
AATGAGGTCACCCAGGAAGTGTGCTTACAAAAATATGTTGTGTAGTCATCATCGTTTACTATTCTTGTTACTATCATCATGTTCAGTTTTACATTTGAAG
GACTTGTAATGTTGCCAACAAGATGGAGTTTGAGGGACTAAAATTGATTTTAAGAATAATAATGTTGTTGTTCCTTTTTCAAATCTTTTAACATGGAAAC
ATTCTGATTTGRTTGGGGGGGGGRGCTTTTGACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGARGCAACA
AGAAAATTGTTTTGAACAAAGACCCTTTAGYGTCAGTCACTATTTCAGAATATAACACCAGTCATTGTTTATATGATTTACTCTTAATAGGATTTTGATA
TTCTGCTGTGTAACGTTGCTGCTGACTGAATGTCTTTGAAGACAGTAAAATTTGACCGACTACAAAATATTACTTCATTTTTGGGGGGTTTAGTCTGTTT
GGTAAGGTTACTAAAGAGTACTTCTAAAAGTATGAGAGGATAAAGGATTGAGATATAAGAGAAAAGTTGACAAAATCAGAAAACTGTGCAATGAGGTAAT
GAGTAACCAAAACTTGCTATCTTATCAGTACTGAGAACTGCAGAAAAATTTCTTACTTGGAGATTTGTGCTTTTCTTTGAGTATTCATAAATAAGAGTGA
AAAACAATAATCACTTTTCTCAGTAAAAGAAAACAACCTTATACTTGAGGACTTTTGTTTCAAAGTTGGTAAGGCTTTGGATACTAATATAAAATTCACC
AGTAAAGTATTTTGAAACTCTTAATGCCACCTGTGCTTCTGAATTCATATGAAGATTATTGTTTGAGACCTCTGTGGTGACATGGACATCACACTTGAGG
GGTGAGACATATCTTCACCTTCTTTACACACTGGCTCATCTTCTATTTAGTTGATACTATTGTTCCTCAATAAAATTATTTTTCTCTCTATTGATATTAT
TTTCAAGTTGACTTCTAGTCAGCAACTCTGTAAGTATCTTTTTATTGGCTTTTAGATTCTGTATTTTAAATGAGCCAGCAATATTTCAATTTCATTGAGA
TTGCATTATATCATTTTGAAAACTTATTTGCCTGTGATTAAATTTTTGAACAATGTCTGGGATCTAAAAACTCACTTGAAAATCATTTTTTAAATCAAAT
TTTTTTAAAAAAGTGTTACAATTATAGCAAGTCATCATGGAAAAATAAAGTAATATGGGTATGTATAATATGCCTTCTAAACCTCTAAGCATCTGGAAGC
AGAGATCCATGTTCTGTGAATGACCTACTAATCTTCTTAATGAGTTCATAGCAAGGCATGTGGTATTTGCGATAGAAAAGACTCAGTAAAAGCTGTCTTC
CATTCAGTTTTTGAAAAGTGAATGGATRCCAGTTTATGTTATTTCCTATAGTGCCTATCTTAAACTGATTTTTTTTTTTTTACTTGCTGAATCTCATTTC
ATGTCAATATGAGTTTTGTATTGGTAATATAGTGTTTGTAATTGATGATGTAGCCAACTCCTTTATTGAAGTAAACTGTGAAGCTAATAAAACATCTTCA
TGTTTTAAGGCCATTAGGAGACATTTTTTTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGAGACCAAGTCTCACTCTTGTCCC
CCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCGGCCTCAGCCTCCCGAGTAGCTAGGATTAC
AGGCGCCTGCTGCCATGCCCGGCTGATTTTTGTATTTTTAGTAAAGAGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCCAACTCCTGAGCTCAGGTGAT
CTGCCTGCCTCGGATTACAGGGGTGAGCCACTGTGCCCGGCCGTGTTTTTTTGTTTTGTTTTTGTTTGTTTGTTTTTTAACATAATGAATACTACAACAG
AAACATAATTAAATAGCTTCTAAACATTTGAGAAGATGAATGGATCACTCGTTTCTAAATGGATAGCCAGGAGAGTTAGTTAAGTATTTCTGATCTTATA
GTGAATGATAATGTTTGTACAACCTAATAGTTGCCCCTTTTCCTTTCTTTTTCTTCTCTAATARTAATAGCAAAAACATTGTTTCTGGCATTCAGTGAGT
GCCAGATAAATAGAAAGGCTATGAGCTTGATGCACAGTTTCTTTTCTTTTTCCTGGGTCCTCTCTCCTCCCAACCTACATTTCTTGGCATCTTTCCGCTG
TCTGTTTGTTAGAGTTCTGACTCTGACGTCAAGGACTCACAGTGAGTGACCCCCGTGGCAAACCTGTAAAACATTATACAACATGAATAAGAACTTTCTT
ATTAGATCTGCAGCTGGCTGAGTACAGACATATGGCAGCAAGGATGTTTTGGAAGAAAGGCATTGCTTGACAAAGAACCCAGTCTCTTGAATAAAGGTTT
ATACTGGCACTCTTTGATGTTTATAATACCCGATGCCAGGGGCAAAACTTTTTTCCCCCCATTATATTGTTATTTTACTGTTTAAACCCCATCATTTTAT
ATGTTGCGGTGGCTAAAATGTAGAAGCAGACATTTTATGTGTGTCTGTATAACTTTAAAAGGAAAAAAAAAAAAAAGCAAAACTCAAAAAACTTTCTCAG
GCTCTGTCTACCCGGCTGTAAGTGTTCGATTTTCTGAGGCTGAGACTCAGATTGAAAGTGAGGGAGTTTGTAAGAATGGGCCCAGTCCTTTTGAGCAGGT
TTTAAAAGGATGATTAAAGGGTACATAGGCTTTGTAATGCCCTGACAACTTTAATTGTTTCTTTTGGTGGTTGTCCTTTTTATCGTGAGTAGTTGTTCTC
AGTTGCTAAAAATTTAGGCTGGGAATAATTTCCAACCTAGGAGGTTGTCACACTGATTTGCATTTGGTTTGTTATTTCTTAGTCTTTTCAATGCAGCCCT
GCTTTCATCTTACTCCCTTTCTCAAACCCCAGCTACTGACATTATGTACATGGTTGTGTTTTGTGATCTGTGCTAGCACACTGGTGTTGAATAATATATT
GTGAAATATTCTGATGGTGACAATTCGGTAGTTGCCCCAGGAGGAATGATGACACTTTGAATCAGAGGCACAAGGACAGAGAAGTTCAACCTAGTGGAGA
GCCAAGGTAAATGAATGAAAGCTTCTGCCTCCACAAGGAATATCTAAGTCCTTTTAGCATGGTTCTTTGCAACCTTGATTATGTTTATAATGTTCAAAAT
CTTTGATGAGGCCATTGTCTTCCTAGTACTTACTGCATCTACAATAATTTAGTCATAAGATATTGATAAATAAGGTATGCCCATTGGACATGCCTGATGG
GATTTTAATTAACATCTGCCTTTGACAACTGAAACAACTGAAGGGAGGGAGAGGTACATGACTTTTGCAGAGCACATATTATGACAGACGCTAGGGGTAT
AACATCTAGCAAATAGGTACTTGATGACATTTTTATGAATACTATGATTTATCAAAATAAGTATATCCTGAGAAGTATATATTTATAGATGAAACRGTAT
TTACAGAGAATAGACTCTAGTTTAGAGAAACTGAAGAGCATTAGTAAAAGTGTTAATAAGAATAATATTTTAAGTACTATGAGGGACTTTTTTCCTGGTT
TTTAGGTTTTCATGTTAAAAATTCATGAGCAGGACAGATATGTTTGTCTTGTTGATTTTATCTCTATAACGGGAATTCAAATTTTAAATATGTTCTAGAA
TCATGAAAGTCATGGCTAGAAAGGTCTTGGAGATTATCTAATTGAGGAGTCCCAAATCTCTAAATAAAATCTACCAGAAGAATCATAGGTCAATTACTAC
ATGTATAATTGTTCCAAATAGGTTTTTCCAGAAAGTGCAGAAGGTAGCACAGTCCTCACCAAGTTCTTTCATTCAGCAAGTGCTATCAATACCACTTACC
AAGCATATATTTTACTTGGAGAAAATGAAAATTGCTCCATCCATAATTGGTTGAGAGCCCCTTTAGGTATAATAATAATCTTCCCTATTATGTAGTTGAG
AAAACTGAGACCCATATACTAAGAGTTGAATTGTGTTTTCCCCAAAAGATATGTTGATATCCTAAGCCCTAACACCTCAGAATGTTACCTTATTTGGAAA
TAGGGTCTTTGCAGAGGTAACCAAGTTAAAATGAAGTCATTATGGTGGGTCCTAATTCAACATGACTGGTATCATTATAAAAAAGAGAAATTTGGACACA
GACACCCCTGGAGGGCAGATGGCCATCTGAAGACAGAGAATTCTAATGATGCATCTACAAGCCAAGGAACCCCAAGAATTGCCAGCAAACCAAACAGAAG
CCAGGGAGAGGCAAGGATTCTTCTCTTACAGATGTGAGAGAGCATAGGCCTGTTGACATCTAGATTTCAGACTTCCAGCCTCTAGAACTGTGAGATAATA
AATTACTGTTGTTCTAAACCACTGAATTTGTTTACCTAGTTATGACAGCTCTAGCAAACTAATACATCATAGATATTAGTAGTCATGGTCTCCTGGAGAA
GTAATTAGCAAGGTAGTCAAGTCTGGAACCCAGTTTAATTCCCAGGTTCAGTGCTCAATGCCTGTCTCTAGAAATAAAACTTTTTAATTTCTTTTGCTGT
AAAGATAAATGCACCGTAATTCACAAATTGTTATGAGGACTATTTTTCTGTTGTCCATTTTTTTGGTTATCTTTTTACTGACTTATTTCATTTATAACAC
AATCTTGAAGTCTGATAATTTCAGGTACAGACTTCATTTATTAAAATAAAAACTCAAACTTGAGGAGACGAAAGTTATTCGATCATTTCTTTCACTTCCC
ACAGTTGGTTAATGAAATCTGGAGAATAATATAATTGTTATATCTTTTTCTTTGCTTAGCGTAAACACTCAAACTATAAGTTATAGCTGATAACACTCAA
ATTATAACTTATAAGCTGTACCATAATTCATAGTAGTCAATGAATTAGTCAGCTAAACTTGAACATATTACTACAACTTATGGGCATACCCAACTCCAGA
TAGTAGAAATAAGACTCAGAGTATACATTTCATGAGATAAATCTAATGTGAGTATCCAATAATAGATTCAAATATTTTTCAAGAATTGACTATGAGTCTG
TGAATATATATTAATGACTATACAATACTTTTTTTTTTTTTTTTAAGAGATGGGGTCTCACTGTGTAACTCAGGCTGGACTCTAGCTCCTGAGCTCAAAT
GATTTTCCCACTCTTAGCTCAGCCACACTCTGCGTAGCTGGAACTATAGGTGTATGCCATCACGCCTAGCTTAAAATATATTTTATTAAGAATTGGTGCT
ATGGAAAAGTATTGCTTCAACCATTTCCCCCTTTTCAAGCTAAAATTAATTAGTAATTTAAAAAGAGACATGAACATCAACAAATTAAACAATGGAACAA
GGATCATTCAAGTCCTCCTATAGGCCTCTTGATCTGTACATTAATTGGAATAATGGTCTGTTCTTTTTGTAGAAATTAATCATGTTCTTAAACACCTCCA
TKCAGTGTAAGTTCTGACTGTTTAATTAAAACTTTATAGTAAGCTCAAACTGGGATCCTGAAAATGAAAAGATATTTTTTGTTATCTGGTTCAGGTTTTT
GTTAGGATGAGCACTCTCCCTTATGATAATCCAGAGGTCTGCTCCTTTGAAATGTCACCCCAAAGTAGGTTGCTTGAAGTTCCCAGAGGCTAAGAGGGTT
CCCCCTATCAGGACATAGTTATGACACCTACACAGCTCCCCTCTTAGCTTCATCCCTCTTAGAAGAGTTTCTATTTATCTTCATATTCTGAGACGAAATT
GTTCCATTTATTCTACTAACCTCAGCAAAAGCTGGTTATGTTAAAAACAAACAAACCAAAAAACCTAACTGCATCTAGGTAAACATTTTCCCATATTTGT
TCTTGCAAGATGGCTGATAAGGCATTATAAGTGGTGATCCCTTTATTCCATCATTACAGGAAAAAATAATGTTTATTTGATGTGAAGGGGAAAAATTAAA
ATTAAAGATAATTCTATACTTCGGATACTTGACCATATTAAATTTACAAAATGTATAGTTGAGTTTTAAAATCACAATATAAGTAGATTTCTTCTACTCA
CAATCATTATATTAGATAAGAAGGTACTCCTCTTGATCTCTCCTTTGCTCCATCATAAAATCCTTACTAGATGGGTAAGACGGTAGTTGTGATAAGACAG
TAGTAGCCTATCCTGTCTTATACGTTTCTGTGAAGCCCAGAGAGGTGACATGAATTTCTGAAGGTTGCAGAACTGAGACTTAAAACTTAGTGTGAAATTT
ATTCTGTTGGAAAAAAAAATTGCACTGTAACTATTTCTTTGAACTTTGGGAAGTATATCCTTATTAGAGAATTACAGTGTCAAGACATTGCGCTATTATT
AAACAAATGATACCACTATTTTGACAAGAGTGGTACTTTCCAAAATACCTAAGAAGTTAATTGAAGACTTGGAATTATCAGAGGATTTATTTTATGTTGA
AAATTCTGACTTATTTTTAAATTGTTTATTCCATCTCATAAACTTCTATTTGTTATTTAATTTTAGGAACTTTGAAATAAAAGTTTTTTTTTTTAATATA
TCTTATGTCCTGTGTGCAAGTCTAATGGATAGATCTGTACCTTGAAGTTCCAACTTCTGCCCTCAGAGATGAAAGTGACAAACAGCAAAATATGGAGCAG
ATACATTGAAAACTTTAAGAAACTTAATTTTTATTTAGTTTGTGCTTATTTACTAATATGTTCTCTGAATGCAAAGTAAGTATACATGTAGAGTCATCTT
TATGAAAAGCTATATAAAGAGCTATAAATAAAAGGGATAGATAGGTAAGACAAAAAAAGGCACACTGACAAAATCTGCGGTAAGAAATATAATGAGTTAG
ATTCTAGGCATTTGTCTTATTTAACATGGAGTAATTTGTGGATATATATATATTGTGTGGGTATTTGAAATTTATGTAGTTATTTTAAATCATGTAATTT
ATTTATGCAATTATTTTATATTTATGTTAACTTATTTATGTAATGATTTTACATTTATTAAGCTGACGATTATGGTATATGGAACTTAAAGGTATAAATA
TACCCATTTATGGTATATGGAACTGAAAGGAATAAATCTATCCATTTACCAATCAGTCTGAGAGATTCTCTGGTTTCTTACAAATACAGATTGGCAACAC
CGATGTGGTTAAACATGACAGGCAAATAACTACCATTCAATGTGAATATTAGCAATACTGACAAGAGAAATAACATTTGGGTTGAATAGATACATTTATG
TCAGGTTTTTGTGTATTAGTTTCTCTCTCTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGC
TCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGAGCTGGGACTACAGGCGCCCGNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATATTAAGCGTCCCATGCTATATTGAGATAACTTTCAAACATAATACAATTAT
GGTAGTAATAATAATTTGGAACTTCAACTATACTACTTGACATTTTAGCATTTATGTAATTAATTAGTTAACTAACTTGTAGGTGCCAGGCACAGCTAGG
CCTACCATTAAGGAGTTTGCATTTTTTTCAAGATAGTTATTTATAGTACAGTATGAAAAGTACACAAATTTTGAGCAGTATTTTCCTTTTTTCATGGCTT
CCCTTATTCAACTTCTTTAAGTAAGTAAAATTCCACCTCAGAAATGGTTATCCATGTTCCCTATCTCCTCCATTCCTATTGTCTCTGCCTTGACTCAAGA
CCTCCTTATCTCTTGCCTGGATTATAGAACTGTGTCATAACAGGTCTTTCTGCTTGGAGTTACCCACCTTCACTTGACCACAATCTGTGATACCCAGTTT
CTTTTTCTTTTTTTTTTTTTTTGTTTTGAGACGTGGTCTCGTCCTGTCACCCAGGCTGGAGTGCAGTGGCGCCATTTCGGCTCACTGCAAGCTCCGCCTC
CCGGGTTCCCGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGAGTACAGGCGCCACCACCACACCCAGCTAATTTTTCGTATTTTTAGTAGAGATGG
GGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCCGCCCCCCTTTGGACTCCCAAAGTGCTGGGATTACARGCATGAGCC
ACCGCGCCCGGCCCCCACTTTCTTACACTGTATCTTTCTAAAGAATAAGTCTGAACAAAGTAGTGACTATTTTAAACCAATAGTATACATTTACTAAATT
CTTAGCCTGCCTTTCAAAATTACATTCAGATTTTTCCACCATTTTCTTTTTAGTGCATCTTAAGTACAGGTCATCCGTGCGCCCGTCTTTTTTCTGAGCA
AATCACCTGTGTACTTTCACATTCTTAGCATCTGCCAGGGGTGTTCCATATACCTGGCATGATCCTCCAGCCCCCACTACCCGACCTACTTTATTTCTTC
CTGGTAAAACCCTCTTCAACCTTCAAGCCACACGTTATGCAGCCTTTCCTCGCACTGAGAAACAGATACTTTAAGGGTTATGATATTTATTATATTGTAA
TTATTTACATGTTTTGTTTCCCTCTAGAGAATGAGAGTTCCTCCAAGGTGGAGACTCATTCAGCTTTTCGTCTCTCTTACATAACCTKTGCCTGGCAGGT
TGTAGGTACCCAGTGATTATTGAATTAGTTAATATACGCAATATGGATTTGCTTGTCAGAGCATGAGTATCCATGGCTTTCTGAAGTCCTTCAACCTTTG
CTTGTGCTACTTCCTCTATTTTGGTCCTCTTCAATAGGCGAGGTGATTATGATCTACCTCTAATGGGTCACAGTGACCCCAAAGGCAAAGCAATATATTG
ATCTCCCTTAAAAGGATGTATGCCACGAAATAAGTGTTTTTATCTTCTCATCCATATTCACATTTATACTTTAAGTGCAATGTCCTGAGTGAGACAAACC
TTCACACTAATCTGTGTAATTAAAAATATTGAAATCTCATTGCTTGGCAACCACTCTAGACCTTTGGACACATTTTCTGGCGCTGTTAAGGGGGCTCAGG
CTGCAATTGAGATATAGATTACCTATTTAAAGGAATCATATTTTTCCCCTTTGAAATGTCTGTCCTTTATCTCCTTTTGATGGATTTTCTAATTTATTAG
GCTTTGCTTTTTTGGGAAGTAAATTATACCTGTTGACACAGTTGCATCCTCATGCAAAAACAAAGATGATATCATTAATATTTTATGGCTTAATCATTAA
ATGTGAAAGGGTGAAATGCTTGTATTGCAATTGAAATGAATCTTGAATTGACCAGGTCTTTCTCTGTGGGAATAAAAAGAGAATAGGTATGAACTTTAAT
AAAAAATGGTGTTTAACTCTACATTTAGCAGAGGTCTTCTAAGTAATTTTGCCATCAGTTTTCTTCCCACAAATTCTCCCATTACATAAATAATCTGCTA
TTATGTTGATAGACTCATCTTTCTGAAATATAGACATGTTCATATAATTCATAGTTTGAAGTGTCTGATGTCTCCTCTTGCCTTTAAAGAATACCCTGAA
CTCTTAAACTTCACGTATAAGGTTCCATCTGTCTTGACCCCAATCTACCTAGGATTTCTCCTCATCCCTGGTAATCTATACATACCTTAAAACCCAACTC
AAGCATTACATGCTTTCTTTAGCTCAGTTTTCACTGATGCCCCAGCCTCTTAGGGAAGAATTCATTGTTTCCGTATTTGTGAATTATAGCACCTACCCAT
TCATATGTGGAGGAATAAAATGTAGAGAGTAAGAGTTAGTGTTTCAAAGGCAGACCTTCTGGCTGTTTGCATTCTGTCTGTGGGACCTTCAGAGGATTCC
ACGGAGTAAAAGCACTCTATGTGTCCCAGTTCTATCATTTATGAGAGAGGGGAAATAATACTGCTCCAGAAGGTTATTTTGAGGATTTTTAAAATAATGC
ATGAACAGTACTTAGTACATGCCTGGTACACAGTAAGGACTCAACCACTAATAAAAAAAATGTTTTGTGTGCTTACATTTTGTTTTGATATGCTTACATA
TTTTTCTTCCCTATTAAAATGAGATGGCCAGAATTCTGTCTTCGTTGTACAGGCAGCATCCAACAGCTCTCAGCATATAATATTGGATATGTGATTATTA
ATATATGTAAAGGGTAACATATTGGTCAAAACATTAATTATTTGGAGAATTATTCGATTAATAAAATATGTTTTATACATATTAATGCTGAAATCTCTGC
TCAAGTGTTTTAAGAGGGGATTTACTCACAGAAAATAAAGGAAAATGAAAGCTACTAGGTGAACTATAGTTTAAAATAACAAATCCAAAAATGTTAGATA
TTGCATCTCTTCAGTGGAGTATTATGCCTGGAGCCAATTTTGAAATAAAAACAATGTAAGTACTTACAAAATCTCCATTTGGTTCAGACTCTGCAGGTGG
AACTAATGTAAGTGGAAAGATTCCTAAATAATTCCAAAGTCACTATGAATAGGAATAATGATCATCATACATATACTTATCACTTCTATTAGAAATAAGC
CATGCTTATACATATTGTTTAATATAGCCAAAATATCTTACACATAAAGAAGTTAGTTATAATTCCCTACTCTATTCCTCAATATTTTTAACAGTGCTTC
TCAAATTTAAATAGGGATGACAAGACTGATGTTTATCAGGTTTTCCTCAAGGAGATCCTTTACTGTGAGGTGTGTGTGTGTGTGTGCATAGAGGTATTAT
TGAAATATGATTCACATACCATGTGATTTATCCACTTAAAGTATACAATTCATTGTTTTTTAGTATATTCACAAAGTTATGGAGCTATCGCCACTAATCC
AGAACATTTTCATCATGTCCCCTAAAACACCTATGCCTGTTAACAGCCACTTCTCATTTCACCTACCTCTCTACTACTTCCAGGCTTAATCAATGACTAA
TCTATTTTCTATCTTTATAGATTTGCCTATTCCAGACTTTTCTTATAAAAGTAATCAAAATATTTGCAGTCTTTTGTAATTACCATCTTTCACTTAKCAT
AATGTTTTGAAGGTTTATCCATGGTGAAGTATGTATCAGTACTACTTCATTTCTTTTTGTTGCCAAATAATATTCCATTGTATGGATATACCATTTTTGT
TTATCCATTGATTAGTTAGTAGACATTTTAGTTGTTTTTGCTTTTTGGCTATTATGAATAATGCTGCTATGAACATTTGTGTTCAAATTTTTGTGTGGAT
ATTTGTTTTCATTTCTCTGGAATATACATCTAGAAGTGAAATTGCTGGATCATATGGTAAATCCTTGTTTATAAGTTTGAGAAACTGTCAAATGGTTTTC
CAAAGTGAATGCATCACTTTGCATTTCCACTAGCAAATTATAAAGGTCCTCATTTCTCCACATCCTCAACAACACTTGTTATTTTCTATGTGTGTGTTTT
AAAAATGGTTTTTATAGCCATACTGATGGGTATAAGATGGTATCTCACTGTGGTCTTGATTTGCATGTCCACAGTAGCTAATGTTGAGCATCTTCTCATG
TACTTGATGACCATTTGTATGTCTTCTTTGGAGAAATGTCTATTTAATCCTGTGCCCATTTTTCAGTTAGATTATTTTCTTTTCATTATTGAAGTTTAAG
AGTTCTGTATTTCATATACAAGCTTTCTGGTATAAGTCTCATATCAGATTTATGATTTGACAATATTTTCTCTCAGTCCTTGTATTGTCTTTTCACTTTC
TTAATGCCATTGTTGTGTGTGCTTATTTTTAAAACAAAATCTGATGACAGATTATTCTAAAGGCTAGATTTTAAGGTTGATATTTGTTTTCATGATGCAT
CTACTATTATTTATTTTCGTATTTTCTGAAATTATTAGTTTTTTAATTACAGCTATAACATTTTGAACAATAAAATTCTTAATTTTAGTGTTTTCCAAAC
CGTGCTCTGTGGTACACAAGATGCTCCATGACTAAGGTAGATTGAGAGATGTTGTTTGCTTTATTTCTTACTCTGAGCACACAATATTAAAGGCCATATG
ATATTCTATTTTAAAAATAACATGTCTAGCCCAGCATTTCCAAAAGCCGTTTTAATCTTTTTCCCTGAAACAGCTATTAAACCCAAGTTCTGTAATATAT
ACTTCAGAAATATTGTTTTAATCTATTCTCTGAACTAGTTTTACCTGGCTTGTAGGACTATCTGCCTTTGTTCTTAAAAAAAAAAAAAAAAACTTGTGAG
AGTCTTTTTAAAATTCTATAGTCAGATCTATGACAACAAAAGAGACTGAGACAWCCACAAGTTATTTCTACCATGTTTGTTTAACTCAGGAGATTGAATT
TGATGTGTTATATACATGGTATGAACCAAACGCATAATAGAAATTGGGTCTTCTCTACCAATCAGATAGTTAGAAAGATATGCTTTTACTTCAGAGAAAA
TTCAAAGTCAGCTAAAGTGTGTAGGTCTGTTTCTTTTCAATTTCCAGGGCCTTTTCCATTATGTATTTGCTGCCTACCATTATTGCTACTATTCCATGAA
AAATCGCACTCTGTGTGTGTGTGTTTAGATTTGTATATGTCTGCTCAAATAGAGCTTAATGGTGACATTTTTATGGCTTCAGGATGTTGGGGTGGAGGGA
ATTATCTTCCCCTCATGGTCGCTTTGTGTCAGATGATCATTGCTTCATCTCTAGAATCCTATATTGCTTCTGGACAGGGAAAATAGGAAGGCAGAAAGGC
AAAAGAGACAAGCTAGCTGAGTTTTCCCCTTTTTAAAGACTTTCCTTAGAAGCTTCACACAGTGACTTCTGCCCGTATCTCATTAACCAGGACTGTGTTC
CATGATCTCCTGATCTGTAAGGGAGTTAAGGTTGGGGGAAATAGTTTCCTAGCTGGACCCATTGCCATCTCTATGAGAACCAGGGTTCTGTGAATAAGGA
AGAAGAATACGACGTATTATAGGATGGACAACTAGCATTTTTGTCACACAAGGCATGGGATGACAGAAAATTCTGAGAGTGAAGAGCTAAAAATTCTTTA
CTACTTGTGTATTCAACAGTAGAATTTTAAAAATCAACTCCTTATTGTAGCCTAAACCACCTGGGTTCAAGCAATCCTCCTGCCTCAGCCTCCCAAATAG
CTGGGACTATAGGTGTGTGTCATCAGGCCTGGCTAATTTCTAAAATTTTTTGTAGACGTGAGATCCCACTACATTGTCCGGGCTGGTCTTGAACTCCTGG
ACTCAAGCGATCCTCTGGCTTTGGCTTCCCAAAATGTTGAGATTACAAGTGTGAACCACCACACCTAGCCTTATTTTTTTTTTTTCCTGGACAACACCAA
TCAGTTATTCTTTTTAAAAAGCATGTATTGAATCCCTTAACACGTGCCAATTATATTCCACATAGCAAATAAGATCCATAAGGTTTCTGCTATCCTGAAA
CTTACTTTCTAAAATGGAAGATAGACAAAAGCAAGTACCGGTTGAGAATCCCTTATCTAAAAGGGACCAAAACTGTTTGGAGTTTGGAATTTTTCAGATG
TTCAAATATTTGCATATACATAATGAAATGTCTTGGGGATGGGACCCACGTCTAAAACACAAAATTTATTTATGTTTTATGTCTACCTTATACACATAGC
CTAAAGGTAATTTTATACATTTTTTAAATTTTCTTTATAAAACAAAGTTTGTGTACATTGAACCATCAGAAAGCCAAGATGCCACTATCTTAGCCACCCA
TATGGGCATCCTGTGGCAAAAAAAGTTTCAGATCTTGGAGCATTTTGGATTTTTGGACTAAGGATGCTCGAACTGTAATGAAATAATTACACAAGGTTAT
TTCAGATTGCAGTAAATGCAGGAAACACACTTGGTCATATGCTGAAGAGTGACAAGAGAAGATGAGGGTAAGACTGGCCACTTTTGTTCACTTAATAAAA
CCCAGCACCTAATACCATGCTTGGTGCAGGATAGGTGCTCAGTAAACGTTTGTGTTGGATGAATGGATAGATGGATGGATGGATGATCAGTCACAGAAAG
TGTCCTGAGGAAGTGTTAYTTGAAGTGACACCCGAAGAATGAAAATGAGCTGACAATGCTAAGAAAATGGGAAAATGTATTCTAGGCAAGATGAACGGCA
TCCAAACCTTTAGGTTATATCAGTGAAATCAAATTTAATTCTAAAACAAATGAGAAGCCATTGAAAGGTGTTACATTGATTATCTCATCTGGGCTTCACA
AAAATTACGTGAAGTAGGTAGTCTTATTATTTCCATTTTGCAAATGAGGAAACTTAACCTAGAAATTATAAAATATCCAGATTCACAGAGCTGGTAAGAA
TGAAATTGGGATTTGATTATAAGAAATTCAGCTCGAGTCCACCCTTAACCACTGTGCAATGTTGTAAACTATAAAAGTAAACTGTAACAGGACTAGATTG
TTTAAACAGCAAGTAAAAGCCTGAAAAGAAGATATCTGCCAATTTAATGGATTCAATTTTTAACCACATTGTCTATTAGTGACTCTTATGAATTGAATAC
ATAGCACAGTTTCTCAGAGCCTCCACTGACCATCTTTCTCTTTCAAAGTAAAAATTGTCTTTGTATATTACATTATGGACTGGATTATTATAAAAGATCT
AGTTTCTGGTTCTAATGAACGCTGAAATATGGAATTGCTAAAAAGTAAATTTAGTTAGAATAACAATAGCTTGATAGAGGAAAATCATTACAAACTCAAG
CGGAGAATTCCAGTTTAGCTATGCCCTTGAAGTTGTTATTATACTTTGCATATAATTTATTGATTCTGAAAAGTTGGATTTGCCATCTTCTGAGAATATT
ATCTTGGGCATATGGGGCACACCCTGCAACCAGAAACAGCACAGGAATAGTCATTCCTTCATGACAACTTCTACGAAAGTGTAAATTGAGGCTAACAGGR
AAATCACCCTATTACTCCTGTAAAGTGACGATAGCTTTCAGTTTTCAAATGCGACTTTCTGATCATGTTTGAATGTGTTTCTGTTCATGTTTATGGAGAA
ATTTAAGAATTAGAATTGTGATTCTTAATTCTAATTCTTAAATTTCTCCACAAGTAATAGGAAACTAAAGAATTTTTCTGTGGTAATTTCATTAGGAAAA
CTTTGGCTAGGACATGGTGATAATGTGCAGATATTTTGTTTGCCATGTCACATTCTTCCCCTTCTTTTCTGGAATGCAATCAATGGTGAAACATGTTTTA
CGGTAAAACATTTAATACTCCAAATTGTGAATAAAGCAAAGAGAATGTGTTTAATRTATTTTTTAAATCATATACTTTCTTTAAGACCCTCTCACTCCTA
ACATAAGCTAGAGTTTTCCGTTTCAATATATAATCAAAAAACCAAGTATCCTATTAAGTGTATATTRTTGACTCAAATTGACAAGGACATTGGTAACCTT
CCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCCCTCTGTTATCCAGGCTGGAGTGCAGTAGTGCAATCGTAGCTCACTATAGCCT
CGAACTCCTGGGCTCAAGCAATCCTCTTGCCTCAGCATCTAGAATAGCTAGGACTACCAGGTGCACAACACCACACCTGGCTAATTTTTAAAATATTTTT
TGTAGAGACTGAGGTCTCACTATGTTGCCCAGGATTGTCTCAAACTGCTGGCCTCCTCAACTGATCCTCTCACCTCAGTCTCTCAAAGTGCTGGGATTAC
AGGCACAAGCCACCATACCTACCCCTCTATTTATTTAGTTTTTGCCTTCAATCAAGGATACAGTACATCGCATTTGCTTGAAATAGAAAAAAAGAATGAG
CAAGTCTCTCGGTTCTTGTACTTGTGGTAGGAATAGAGACAGAGAAGTACCTGGTTAATTATTTCTGCACCTGCAATTCTAACGACCTCAGTTAACTACA
GTTTTAGGTCATACTTTACTCTTCCTTTTTTTCTATTTCTTCCTTTTTCCTTGCCACATCATCTATTCCACTTTATTTTCTTTTATTCCTAAATAGAGGT
CTGCATAATATATCACTAAGAGGAATACATTTGCAATAAAACTTTTTTCTGCAAAAAAAGCATTGGTTTTATTGTAAACAAACCTCTGAAATTACTTTCA
ACATATCAAATGGGTCATGGACCCGTGAAGAATTGAGGGGGAAGGTCAAATTTAGGGGCAGAGATGTACTGTAAACTTAGTCAAAAGAATATCTTCAAGT
CTTATAATAAATTACTTTCTTCAGCATTTAAGAACTTGAACACAAAATGCACATGTCTTGTTAAAATCTAATTGAAAGTGGAACTAAAGTAATTTTTGGC
ACAAATCGGCTTTAGAGGACAAATAAGAAAGCCAAGGGTCGCGTAATGGGGCTAGTATATATTGTAGTCCGTCTATGCTTTTCTCAACAACCTCCCAAAG
TCTAGCTGATTGGGGAGTAAGAAATAAGTAGCAGGGAAAATGTTTGGAATTTTGTCTTTTGCTGAAGGTTTCTTGGCACTTATGAAAACTTCATTGAATG
AAATAAGACTTTAAAAATTTTGTAAAAGACTTTTTGGAAAAACGTAACTTTCACATTAAAATTATATAAAAACCAATTCAGTATTTTTCTCATTTATAAG
ACTTAAAAATGAATTCAATGTTTTAAGTCACACCAATTACTGAGATATATTTTTTAAAATTACCTATTTATCAATTTTAAAGACCATTTCTAAAAAAGGA
GTTTAAGTAGAGAATATTCCTTTGAGTTAGATAGTTTTTGGTATACGTAACAGCATACACACACACACACACATACACTTTTAATTTTCTTGGACTTATA
TATTTTAGGCCCATAAATGTAAACCATTTGGATATCAAAGCAATGTTTATGTTTTTCAGCACGTAATTTTAATGCTACAGTCTGAGAAATTGTATGTTGT
TTAAATGCAATACATCACAATGTTTGATAAATAAAAATAAAAACCGTTAAACCTATCCAAATGCAAGAACTCMTAAATATTGTTGAGTTAAAGCTTTTGA
TGCAGCTGAGGCTATGTCTGGATTTTATTATTTTCCCTAGGATTTCCAATTTTTTCTAAGAAAGGAGATCAATTTTATAGATTAGTCTCCTGAAGTTGTG
CCAGTGGGTTCGTCTGAGTTTTAATAATTTTCTGTAGAAAATAGCCTTGAATGTGTCTTTTCACGGGGCATGGTATGAATGAAACCTAAATATATAGGGA
AACAGAGATATTAGCATGATCCAGTCATAAAACAACAGGTGAAGAGCTAGAAATAATAAATGAGGCCTTTATTTTATTTTTTATTTCCTACTCATTTACT
CAAATTGACATAAATAATGCAAGAGGTAGTTTGACAAACTGTACAATACAGATTTATAGTCACATTAATTGGTGCTTAGGGGTTTGGGTTTCACCTGAAG
TTAAGTTCATATAGTTAATAAAGTCATAATGCCTTGTTTAAATATTTCATGAGAAAATTGCATTTTGTTTTGTCTACTCAGAACCTAAAATCTGTTTTAT
TGTGGTTATTTTATAAATATTTGCATGGAATTTTTGGAGTAAGTTTATTTGGTTTGTTTGTTTTTTTTTTAAACAGGCCTAACTATCAATTGCATTGGAA
ATTTGATTGTGTTTCCAACTAACAAATAATAATACACCTGGAAGTGCAAGTCCTTTCCATATTGAACAGACTCTCTCTAGCTTTTCCTTAGCTGATCTTT
TCAAACGTTTGCTATTTGGGCCTCTCTGGCCCCAAAGAGTAGCCTTTTGCTACTCTTTACGCTTGAGGAAGATTAAGCTATCCCAGGCCTCTCATAACCA
AGGGGATCCATTAATATTAAAATTTAGATTTTTCCACTGTTAATGCAGAAAACCATTGATTCAGTAGACTTCATGGTCATGCACATGCGTTACATGTTAC
TCTGAGTAATGCTGCATGAAGTTTTAATTACAGATTGATCAAATTCTATAAATTGTGTTTTGGCGTGGCCAAGGAATGGGTTTTTCCTATTCTAGTTTAA
TAGAAAGTCATAATATATATCATGTGAATTTTACGTTTCTCAATGAATTAGATTGCAACAATGCCTAAGTTTGATTATATACTTATTAATAGTGATAACA
ATTATAGCTCACATTTAGTAAGTCCTTACTATGTACCAGGTATATAAGGCTTTTTAAACCTAATGATTCATTTAATGCTTACAAAACCATACAAATTGGA
TGCTATTATTAGCTAAGTCATGGAGACATGAAACTGAGGCACAAAGACATTATATAACTTGTCAAGATCAAGTATCTGGTAAGACTGAATATCAAGTCAG
AATTGGGATTTGAACCAGTCTGGACTCTAGAGCTAACATGCATAACATATAGCCTACACTTTTTAATTATTCAGAAGGTACTTCAAGACTCCTGTGGTGC
CTTTGGGTTGGCAGTTTCAGTATTTTTTATGCTTACATAGAGCATAAGATATATAAATATAAAACATTATATATAATATATATTCAAATATATATTTTAT
ATGTGTATATATATTTCCCTAATAAATATTGAAAGAATGCACACATGAATGAGTGGATGGGTGAATACAGAAATGAAAAATTTGTATTGAGATGTGCTAA
TAGAGAATTTGGTATAACTAAACATCTGATATATAATTTATATTTTGAGGTAACTCTTTAGCCAACATTTTAAARTATGATTAATTTATAGTACTTACGA
AGGATTTTCAGAGACATTACATTTTTCTGTTATTTCACTGTTTTAAACAAGATGGAGATTAGAGGGTGGAAAATGGATTCTGGAGAAATAAACCCATCAT
ATTAACTATAACCATGAGTTCCTTGAAGACAAATCAAATCTGATGTCTTTTCTTTYTCCTTATGAATATACTTCAGTACGAAGGACCTGATACTTAGTTT
GGACCCAGTAATTATTTATTGTTGTAAGTAGCACAGTAAGAATAAAAACGTTTATGATTTGCAACCAGCCAACCTATATTTTAATCCATATTTAACCACT
GGCTGGGTTATGTTACATTTCTCCTCTCTTAACTCATTTCCATATCCATAAAATATGGAGCATATGCCTCTATGGTTTCTTGGTGATGAAATTATGTATT
AAAAATTATAAAACTGTAAAAAATATATCTCAAAATGTGTTTGTGTTCCATGGAAAACTGTAAATCTCTCTTGAAACAAAAAAGTTTCTATAATCACATA
CTTCTAGAAATATTTCATCTGAGTTCCTTTAAAACTTCCTCAAGCTTTAACATGCTAACAGGTACTGGGACTATCCAAGGAGGGATGATATTTTGCAGAA
TTTCACAAGCTTATTTTACTTTATTACCATTTTTCATAAAATACCTCACAGGAAAACTTAAGCATGAGACTGATGTGATTACATTATTATTAATAGTCTC
CAAAATTCAAATTAGCAATAGAAGTTGTAAAAATTTCAAGTAATCAGGATAAACCAGATGTATTAAATGAAAATAATGGAAGCTTTGTAAGATTAGTGGC
AGCATATAGGTTTAGAGGAATTATTATCATTGTGATAACAGGGACAGATACAGAATTATGGAAACATTCTAAAGCAGTATATAGGAAGATCATTATCAGA
AATAGATAGAGAAATTGTAGTAGAGAGGCTAGAATTTCAAACTCCAGAATATCTGAATTTGCCTCTATCTGAAGCCTTCTCATTCCCAGTGCTTATGAAA
TTTACACTGGCTGCTATATTGAAATGCTAAGAATCAGAATCAGGGATTTAGTATCAATCAAGTGGATGGAATTTAGCTAGTTATCACCAACTGTGAAAGG
AAAAATATCCGTTAAATTCAGTCACAATGCTATATATCAGGCTCTCAGTGATTTTTTAAAGGAGGGTCAATTTTAAGAATTCTAAGGAATCTCTTTGTTC
CTGCTAATTTGTCYGAAGGTTTACGAGGAATACAGGAGAAAGCTAAATTGTTTGGGGAACAGTAAGAGATTTAGATTCTGAGAAAGATCCTGGAGGAAAA
GCTGGGGCCAGTATGCTGAAAAAGACACAGTCCTCTTGCCCTACCCCAAGAGTAAAGGGCAAGAGGTAGTGGCTGCCAAAAAAAAAAAAAACAAAACAAA
ACAAAACAAAAAAACCTGAAAAAACAAAAAAGTTTTGTGGAGAGATATCGAATGGATATTTATATGGCTTTTTGCTGTATTTTGTATAATGTAATGATGT
CCTCTTGTCTCCCCATGAAATCGTCAGTGAAATCAACATCACTTGCTAATACATTGTAGAGTGGGATTGATTTGAGGAGCGGGGAGATGTGATGAAGTAG
CTGTAATAGAGGTATTGTGTTTATGAGACTGTGGCTGCTAGTCACATCTGTTTTACCCACACGAGGCTGATGTGGTCTTCTAGTTTGTAAATTATGATAT
GCAGGCGGTTCCTGCCAGCAGAGATTTAAAAAAAATTATGCAGGTGGGTAAGTCTTTTTCAGCACCACCTGTATTAGGTCTTTCTAGATCCCAAATCCCA
GTATTGACGACTGGAGGGCTGATAAACAGTATATGGCAACCCCAGGAATTCTGTTAGCTTCTTTGGCCTAAGCCCCGGACCAAATGCAGACTTCCACTCT
TACTTTTCTGAAGAGTGCAAGGTAATTTTGACATTCTTACTCCGTTAATAAGAAGAGACCCAGGAAAGGACCACCAAAAAAAAAAAAGAACAATTTCCCA
AAATGACTAGACAGGTGCTGAGACTGGCCTAAACTATCAGAGATCTTCCCAATCCAGAGCACTGACCTCTGCTAGAGCCTGCAGTCAGGGGAGACATACA
GTTCAGGCTCATCTTCTCACATGGAATGCTGCAGAGAGCAAATATAGGTAGCATAGAAATTAAGGAAAAAGAGTATGCCAAGGAARGAATCCAATCAAAC
ATGCCCAGGTTAAAGAAGTGCTTTTAGTTTCTTATCAAATCAAAAACCGTGTGCTCATCAGAGTAAATGTGGTTCTAAAAGGCAACCCCTGCTCTCATGC
ATTTTGTGACTCTTGAAAAACAAAACCCATATGTAAAGGGACAATAAAATTGTACTATTTAGTATGACTAATATAAGGGTGTCTTTGTGGCATGTGGTGC
ATATTCTATAAATTCTTGTTGTATTGAATGGAATTAAGTAAGAGTTTGGGGACAGAAGAATCCCTGGTGTATTAGTATTTCCCTAGATAATTTTTTCTTG
TAATTTTGAATTAATGAAGCTAATAATTAACTTGTAGACCAATTTTATACTAAAGGAAAATAGTAAATACCAAATATATAGCTATGATCACAAAGATCCA
ATCCCTTTTTAAATTTAACATAGAGATGCTTTGCTGCTCCTAAGGTACCATTCCTGCTCCCGCCTCAGAGCCTTTACATCTTCTATTTCCTCTGTCTGGC
ATGCATTTCCCCCAGGTTTGTGTGTCTGGCTCTTTATACAATTATCTGATAAAATGTCACTTTTTTCAGAAAGGACTTTTTCGATCTACTGTACTTATAT
AAACTTACCTCTGCTTCCAGCCCCTACCATCCATTACCCCCACTTGTTCTCCCTTCGTTTATTCTATTCTAAGCTTCTTTATAGCTTTATCATCACCTGG
TATACTATGTTTCTGTGTTTRTCTTCTTCCTTCACTAAAATATAATAGCCAGGAGGCAGAGATACATCTTGTTTTGTTCAATGGCATACAGTTTGTGCCT
AGAACAGTGCTTTGCACATAATATGCATACAATACATATTTACTTAATGAGTACATGATGAAATAGAAAGTGGACTGTGTGGTAACCTTTACATCCTTAT
ATGTATATTAGTTTTATATGTCTTCAGAAATATGTTTTAGCCATCTTCAGCTGCTGTAAAAGAATAGTTTTCTTGAGAGTAGTGCAAAGATAACTGTGGT
GACTATTACTTTCCATCGTTATCCTCTTTTTTTCATATCTAAAACTTCTCACCTCTTTAAGGTACACACAAATAATAATTTTTTATTTCCCATCTAGTTA
CAGTCCTCCTTCAGCTTTCATCCCTTTAGTAATAGTTGTGGTGAATTTTTTCTCCCGAGAAGCYCCTAAAAAGGCGTTCATTTTTACGTAAACAAACAAC
AGGAGAAAAACATATAAACATGAAAGCAAAATATTTTACCTACAGAAATATATTTTCAGCAATCTATTTCTCATGCTATTGTTAAAAATATCTCTRCTTG
GATAGAACCTTTTTGTTTCCATGCTGACTTCTTCTTTGCTTCTCCTGTGAACTTTTTAAATTCTGTGTTTGGCAGCAGTTTTGTTTTCCTTGGAGCTAAG
TACTGTGTAACATACTGTTAGCTGAAGGCTGTGATGTAGAAATTTATTATTAAAAATAAAAGACGGAGAGAAGAATTTATTCCATAAGGATCAAAATGAC
TTAGTGTCAAAGCAGTTAGGATTTTCAAAATGCTTTCTATAACAGATTGTGTTTCTTTTCAAGGAAGTTTACTTTGTTTGCCAGGAATAAATTTAAGGGT
CTTCATTGTGCCTATCTTGGTTAATGAGAACTGAGAAGAGAAGAAACATTCTCTTTTAAAAAAAATTTTTTTTAGAGAATTTCTTCATCAGACGGARAGA
TTTTATTTGCCATTTGCAGGCATAACCTTGGTGACCTATATATCCCCAGACCTTCTGGTAAGATGCTTATTAAAATGTCATTACCCAGAGGAGTAATCAT
AAACTAGCCAGAGGGTATTTTTTATAGATGGTGAGAGACAAACATTTTTTTTCTCCCTGAATTAAGTAGTTATGTACTCTTATCAACTAGAATATATTTA
AACTTACTTTTATTTATTTTTCCAGTCTCAATCTCTCCCTCTCTGTTTTATGTTTCTAGCAACTTTATGTAACTAATCTTAAAATCATTAGCATTCCTTC
TCCAAAAAGAGTATCATATCATCTTAATAAAGTTTCTCTTTTCCCAGAATTGCTTAAGTAGCATGCTGCTATTCATTTCTCTTGAAAKTTTAGTCAAAAT
GAATTATTTTGCAAAAAGGAAAATTCCACAGTTTCTATTTCTTTTCCTCATTGTCTGTGGCCCATTAACGTCTTTTATCTGCTACTATGATAATGTCAAA
TGATTACTTTGGTCATCTGCAACTTAACACTAATCTTATCTGTTTAATTGAAAGGATGTTTTGACTTTCTCTTTGAAATAATATCAACATCATTTTGCAC
TTAATTCTGAAATTCATTGACCTCAATGTGCAAGCTGTCTTCTTTACTATTTATTGTGAATAACCATTTTTTTTTATTTGTTGTAATCACACATCARGAA
AGGGCTAGGGAGATGTCTTTGTGAAACATTTATCCCTATGGTTCTGTTTAATAGGAGTACTTACCAGTAGCTAAATGCCTCATTTTATTTTAAATAATCT
GTAATATTAAGTCAGTTTATCACACTATGAGTAGTTTTTTTTAATGGATTCTGACAATATGCTGCTTATTGTAGTCTTTCATCCTTTATCTGAGAACWAT
GTTTTTATGACAGTAAAATATTTTTTATACAAATAGGATAAAAATTCATATGCTGTCATGCGCTAATATGAAGTTTATCCTTACATCTCCCACTCTCCAC
CCCATGCCCCATCTAGTGGCCAGAATGCTGTAATCGTGGGAAGGAATAAAGCTCTGACACTATGCAGTCCCTACCCCCATCATTGCCTCTTTCTTTGCAT
TAAAAAAAAAAAAAAGAAAATACACTGAAATAATAAATGCTAAATTTTGGCTCAGATTATTTTAATTAGAAATGGAAGTTTAATGATAAACACTTTGTAT
TCTTCAAATCCAAAAGGAGAAATATCCTGTTTACTTCCTTTGGTGCTCTTATTGACTGTAGAACATTACAGTATCTCATTTGTCATATGCAGAGTTCATT
CTTTTTGAATATATTTCACATAGGATGTAGATTTCTGTAACATTTTTTATTACTTTGAAAAAAGTAGCCATAGTGTACATTTTAAAATACTACCACATTC
TTGGTCAGCTCATACCTTTCAAATATAATATAAAGATGATATTAATATATAAATAAGAATGGAAAAGAATTTCTTTGCCCTGCATATTTCTCAGTTTGTT
ATATAATGCTAGGAAATAACTCTCTGATACATAACACACTTGGCAAATTTTACTGTTTTATGCTTTAAAAGAAAAAGTCAAATTTAGATAGTGAATTTTT
TGAAATGCATCTTACAAGCTCTGATTTGCAAATTACCAAATTGATCTTATCTTCTGGAGTAAATGATGACCCAAATTAGTCTACATTTTGAGTGTTTTTG
TTCTTTGACTAAAATCGTCATCGTTAAGATAATTAATGGCAGAAGGCAGTGAATTACATGCTTTCCTCATTTTAATTCTGGTCCTACAAAAATGTTTCCT
TTTTGACTTACTGTCATCATGAAATATTCTCTCTTAAATCAATATATTGTGGATTATAACTTGTGTTTGTAAGATTTATTTACCTCTTTTAGTTGTGATA
GGAGAATTTACCACCTTATTTTGATCCTGTTAGTTTAAACTCATTAGCAAGGAGGATAACAGTGTTAATAGTCAGCATTTTGTAAATCTTCCAGAAGATT
TTGATAAATCATTTCACTAGAAGCCTATTGCTCAATTTATTGCCACTTTAAAGTTGCCAAAAATAATGAGCTCATCTTCCTATTTTAATGTAAGGTATTG
TCAATGTTTGAAATGTGTCAAGAATTGTTTTTGATAGTTCTAGTGAACAACTAATGTTTCTAAATCATACTACTTATTTCATTAGTTAATTATTGCTTGT
GAACCATATTATAATCATCTTTAGTATCAATAAATATTTTTGAGATGATATAATGCCARTAAATCCATAAATTAAAAAATTAAAGCATTAAAGAAATAYC
TACTATGTAAGCATTCAATTTTATATAATGATTATCTGGGTCAGTGTACCCAAAATTGTGTGCTAGCCAAACTACAATTAAATCATCATGATAATTCCAA
GGCTTAAAACAATTGACTATGTCTGTTAAAAATGAGTAGCTTAAAATTCATTAAATTACTTTGTTATGTTTTTTACCTATTATACTGTGAACATTTCACA
TGTTCTTTTTTATAAAGGCCTTGGAAGCCAAATTTTAATTGCTCTATGGTATCAYTTTGTATACCGTAATCTATTGAGTAATTTCCCTTTTGTTGGATAA
ACAATTAGTAGCACATTATAGTTACTGGATTTTTAGATCTTAGTTTACTGGTTCAAAGGGTATGAATTTTTAATAATATATGTATTATATATATTTTATA
TGTGTGTAAATATATATATACAATGTGTATAAATATATATTTGTTATATAGTAGCAATATATATGCTTAGTTTACTCCCTGTTTTCCAAATATTCAACAT
TATTAATTTGCAAATATAATAGGCAATAGTAGTATCTTGTCATTGTTTATATTGAATTTCTTTTACTTCCAATAAAGTTAAATGTCTTTCCATAGATCTA
TTTATTTTGTAAGTTGTTCTCACTCTTCCCTCAGTTTTTTACTAGGGTTGGGATTCTTTCAAATTTGTAAGAACCCTTGATATCTTGAAGATATTATTCT
TTACCTAAGTTTACTACAGATATTTTACCAATGTGACATTTGTGCAAATACTCTAAAGTTTTATATAGCCAGATCAATTTGTCCTCTTTTGTAATAAAAA
AAAAAAGTCTTTAAAAAAAGATTTACGGACAGGATTGACAGATTGATAGCTCTTTCTCGATTCCGTGGGTGGTGGTGCATGGCCGTTCTTAGTTGGTGGA
GCGATTTGTCTGGTTAATTCCGATAACGAACGAGACTCTGGCATGCTAACTAGTTACGCGACCCCCGAGCGGGTCTGCGCCTGCCACCTGTGCGGGGGCC
GGCAGGACCCCGACAAGCAGCTCATGTGCGATGAGTGCGACATGGCCTTCCACATCTACTGCCTGGACCCGCCCCTCAGCAGTGTTCCCAGCGAGGACGA
GTGGTACTGCCCTGAGTGCCGGAATGATGCCAGCGAGGTGGTACTGGCGGGAGAGCGGCTGAGAGAGAGCAAGAAGAAGGCGAAGATGGCCTCGGCCACA
TCGTCCTCACAGCGGGACTGGGACAAGGGCATGGCCTGTGTGGGCCGCACCAAGGAATGTACCATCATCCCGTCCAACCACTACGGACCCATCCCGGGGA
TCCCCGTGGGCACCATGTGGCGGTTCCGAGTCCAGGTCAGCGAGTCGGGTGTCCATCGGCCCCACGTGGCTGGCATCCATGGCCGGAGCAACGACGGAGC
GTACTCCCTAGTCCTGGCGGGGGGCTACGAGGATGACGTGGACCATGGGAATTTTTTCACATACACGGGTAGTGGTGGTCGAGAGCTTTCCGGCAACAAG
AGGACCGCGGAACAGTCTTGTGATCAGAAACTCACCAAYACCAACAGGGCGCTGGCTCTCAACTGCTTTGCTCCCATCAATGACCAAGAAGGGGCCGAGG
CCAAGGACTGGCGGTCGGGGAAGCCGGTCAGGGTGGTGCGCAATGTCAAGGGTGGCAAGAATAGCAAGTACGCCCCCGCTGAGGGCAACCGCTACGATGG
CATCTACAAGGTTGTGAAATACTGGCCCGAGAAGGGGAAGTCCGGGTTTCTCGTGTGGCGCTACCTTCTGCGGAGGGACGATGATGAGCCCGGCCCTTGG
ACGAAGGAGGGGAAGGACCGGATCAAGAAGCTGGGGCTGACCATGCAGTATCCAGAAGGCTACCTGGAAGCCCTGGCCAACCGAGAGCGAGAGAAGGAGA
ACAGCAAGAGGGAGGAGGAGGAGCAGCAGGAGGGGGGCTTCGCGTCCCCCAGGACGGGCAAGGGCAAGTGGAAGCGGAAGTCGGCAGGAGGTGGCCCGAG
CAGGGCCGGGTCCCCGCGCCGGACATCCANNNNNNNNNNNNNNNNNNNNCGGGTCCCCGCGCCGGACATCCAAGAAAACCAAGGTGGAGCCCTACAGTCT
CACGGCCCAGCAGAGCAGCCTCATCAGAGAGGACAAGAGCAACGCCAAGCTGTGGAATGAGGTCCTGGCGTCACTCAAGGACCGGCCGGCGAGCGGCAGC
CCGTTCCAGTTGTTCCTGAGTAAAGTGGAGGAGACGTTCCAGTGTATCTGCTGTCASGAGCTGGTGTTCCGGCCCATCACGACCGTGTGCCAGCACAACG
TGTGCAAGGACTGCCTGGACAGATCCTTTCGGGCACAGGTGTTCAGCTGCCCTGCCTGCCGCTACGACCTGGGCCGCAGCTATGCCATGCAGGTGAACCA
GCCTCTGCAGACCGTCCTCAACCAGCTCTTCCCCGGCTACGGCAATGGCCGGTGATCTCCAAGCACTTCTCGACAGGCGTTTTGCTGAAAACGTGTCGGA
GGGCTCGTTCATCGGCACTGATTTTGTTCTTAGTGGGCTTAACTTAAACAGGTAGTGTTTCCTCCGTTCCCTAAAAAGGTTTGTCTTCCTTTTTTTTTTT
TTATTTTTATTTTTCAAATCTATACATTTTCAGGAATTTATGTATTCTGGCTAAAAGTTGGACTTCTCAGTATTGTGTTTAGTTCTTTGAAAACATAAAA
GCCTGCAATTTCTCGACAAAACAACACAAGATTTTTTAAAGATGGAATCAGAAACTACGTGGTGTGGAGGCTGTTGANNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGCAAGTGCCTTTGATTCGTTCCTTCTTTCTAAAGACGACAGTC
TTTGTTGTTAGCACTGAATTATTGAAAATGTCAACCAGATTCTAGAAACTGCGGTCATCCAGTTCTTCCTGACACCGGATGGGTGCTTGGGAACCGTTTG
AGCCTTATAGATCATTTACATTCAATTTTTTTAACTCAGCAAGTGAGAACTTACAAGAGGGTTTTTTTTTTAATTTTTTTTTCTCTTAATGAACACATTT
TCTAAATGAATTTTTTTGTAGTTACTGTATATGTACCAAGAAAGATATAACGTTAGGGTTTGGTTGTTTTTGTTTTTGTATTTTTTTTTTGAAAGGGTTT
GTTAATTTTTCTAATTTTACCAAAGTTTGCAGCCTATACCTCAATAAAACAGGGATATTTTAAATCACATACCTGCAGACAAACTGGAGCAATGTTATTT
TTAAAGGGTTTTTTTTCACCTCCTTATTCTTAGATTATTAATGTATTAGGGAAGAATGAGACAATTTTGTGTAGGCTTTTTCTAAAGTCCAGTACTTTGT
CCAGATTTTAGATTCTCAGAATAAATGTTTTTCACAGATAAAAATAAAAAAATAAAAAAAAATAAAAAAAGATTTAGATTTATTTAATTTTTTTTTTATT
TCCCAAGATAGGTTGAGTATTTACCTGGATTTTATTCTATTTTATATTTACAGTTTTGTCTTTTTAAAAATTTGTCTTTTAAATCTATAATTAATATTAC
CATTTATTATAAGGTTAGGCTTTAATTATTTTTTACCCTCAAAAGTCTATTTTTCTTTTTCTTTCTTTTTTTTTTCTTTTTTTGTGAGACAGGGTGTCAC
TCTGTCATTCAGGCTGGAGTGCAGCAGCGCGATCTCAGCTCACTGCAATCTTGGCCTTTCAGGTTCAAGCGATTCTCCTGCCTCAACCTCCCAAGTAGCT
GGGATTATAGGCGTGCCCCACCACGCCCACCTAATTTTTGTATTTTTAGTAGAGAAGGGGTTTCACCATGTTGGCCAGGCTGGTCATGAACTCCTTTTTT
TCATTAGTTGAATAATTCATCAAATACAAAATATTTTTGATGTTTTCTTGCTTATATTTTGTTAGCACACATACGTATATTTATTCCAAATTATTTCATT
CATTTGCATTTTTAATGCTAAACCATTATCCCCAAATTTGGTTAAGTTTTATAATATATCTTAATAACCAGAAAGGTATTTTCATCACTTGTAACATTTT
CTAATGGATTCCTTTCTTTTGAGATGGAGTCTCACTTTGTCTCCCAGGCTGGAGTGCAGTGGCGTGCGATCTTGGGTCACTGCAACCTCTGCCTCCCAGG
TTCAAGCAATTCCCCCGCCTCAACCTCCCAAGTAGCTGGGGCTACAGGTGCACACTACCACGCCTGGCTAATTTTTGTACTTTTAGTAGAGACAGGGTTG
ACCCGTCTGGTCTCGAACTCCTCACCACAGGAAATCCGCCCGCCTTGGCTTCCCTAAATACTAGGATTACAGGCATAAGCCACTGCGCCCCGGCCTCTAA
TGGATTCTTTTTTATTGTATATACTTGAGGTGTACAACATAATATTTTGATGTATATTTACAATGTAAAGTAATTACTAAGGTCAAGTAAATTAACATCG
ATCGTCTCTCATAGTTTTAACTTTGTGTTTGGTGAAATCACCGAAAATCTACCCTCTTAGCAAACTTCAGCACACTGTATAACATCATGAGGTATAGTTC
TCATATTCTGCGTTGTATCGCTACACTTATTCATCTGACATAACTGATTATATATGTTTATACTCTCCAATGAAATTTATATTCTTTCAAAATTAAAAAT
ACTGTTAGCTTTTGATTGAAATCTAGTTAAACCTGAAATCTAGTTAAATTTGTTTGAGTAGAATTGAGCACTCAATAGTTTATAGAATTAAGTCTTCTTT
ACCAGTAGCACTGTATGTCTTCAGTAAACTTTTACCATTTTCTGTATATGGTTATCAAACATTTCTTGATAATATTCAAAGGCATATTATTTTTGTTGCT
ATTGTGAACAGTTGTTTGTTGTTAAGTCTACTTAGGAGTCATTGCTGCTATACAGAAAAGCTAATAACGTACATAAATTCATTTATAGTCCATCTTATTG
GTGTGCTAGCTTATTAGTTGTAAATACTTCTTCAGCTGGTACTGATGACTAATAAGATTACTGACAGATGAATGGAGTTTCATTTCTCTGAGTCAATATC
TTTTATTTCCTTAATATTCTTAATGTTAAATGTTATTTTCAATAAGTAAATATTCTTCTTTGTAAGCAAGGTAGCTCAGGGCTATTACCACCATAGGAAT
AACGTGATGATATTTTATAGGTTATTATTAAAAATCTACGTTTTGTGACTATGTGGGCATATTTCATATTAAATATTTAATAATTTTACTCTTTAGAACT
CTCAAGATTTTTATAGTTTTGAAGGAGGATTAAAAATTATTGAACTGATTTGGCCTTCTGGTTCTTATCATTTGCGGCAGTAGATTTAACTGCAGTAGTC
ATTTACCCAGAATATTTTCTTAAAAAGCTAAAGGCTTAATAATATGCAAATAAAGCTTTACATGGTTTAACATCTATCTAGGATGTTCCTGACAGAGCTA
CACAGTAGCTTCTTTTATCACACAGTGATATTAAAATACTCTCAAAATGATTAGAAGTTGAAATATTAGCTATCAAACCAGGAGTTTGCTACTAATTTAG
GTATGTTAATTTATTCATGATAGCTATTTAATATATTACTAATAAAGATTGGAACAACCTGATTATTCTTTAAAATAAAGAAGAAAAATGTTTGTCAGGT
AAAATAATCATTTAACTTATTATAATTTTCATCTTTCCAGCTCATGGGGCATTCAGAATGGGACCACAAACGAGGGCCAAGAGGATCACAGGTAAGTTTC
TTTTCCTTTTCTTTTTCACGTTTCGTTTCGTAACACTTTCAGCCACGGGTTTTCTAAAACTCAAGAGATAATAAAATGTAGAGCGAGGAAGAGGCAAAAT
AACCATGCCATTTGTTTTTATTTAAGTTAACTATAATTAAAGTCTGGATTTCAAATCCCAAAGGCAGATGCCAGGATATTCCTTCTAAGAGCTTTCTGGT
ATCCCAGATTGGTTGTGTTTATATGAATATAGATTTTATATTCATCTTGTCTCGGCAGAATACATTTTGATCAGCAACCCACTCTCTTTATTCATTTCCT
TTGACAATTTTTCCGTGTATTTTCTTTTTTCTTCAGCTTCCTGTTTTTGGTTAAATATTTTGAAATATAATCAGACTAAACTCTGAACTAATTACAAGAT
TTTGTCTCTAAATTAACTCTCTTCATCTGAGGGAAACAGAAAGATGAAAGGACCTATTATTTTTGAAAAGAAACAAATTCTAAGTCTTTCTGTATTACCA
GAGTGTTTTCATTGTCTTGCTTTATGTCTTAGGCAAAGAGAAAAGCTTCCATGACGCATTTATGCTTTTTAATGACCTAATTAGACAATGTGGATTTGTT
TTGCTTTCATAATTACTTTCCCTGATGGAATAAAGGCTGAGCTTTACACTGAGAAAATTATTTCTCCTCCTAGAGCACTTTGTGAAGAAATGTAAAAATA
ATTTCTCTCATGGCAGGCTATGGTTACCTGACTGTAAACATGCAAAATAAAAATTAAGTGGGTGGAAATTTTTGCTTCTATTGCACACATTTTGCATTTG
CTACTAAAAAATATATAAATTACAAAGGGCAGTTGAATGTGCAATACTGTAAATGAAAGTTCATTGGAAAGTGGGGGCTTCTCCCAAGTGTTTACAAAGC
TGATTTGTTCTTGTGTTGTCATTAAACTTGTGTGAATAACTCTATTTAATTCCGGTCACTAGGAAAACAAAACCAAGTCAATCAATTGTTTTAGTTCACA
TTTTAATGACTGATTTTATTTCTGTCCAGTATCAATTTGATTAGTAAATAATGTAAACCAATTAAATTAGGATCATCTAAAAGAATTTATGCCTTACTTT
ATTTCCCTCATTCTTATCTCCCCTTCATTTTCTCTGAAAACTCTTCCTCTGTACACATCTATAAAATTTTAAATCAAAATTTGCTGCAAGGTCAGTAATG
AAGGGATTAAATTAACATAGAGTAAATTCTTCATGATTCGAAACCAGTAAAAATGTAAAGATAAGTGCAAATAAGAAGGTCCATGGTTTCTGATGATTGC
CACCAAAACATTTTGATATTCAAAACATGCCAAGCAAGTTGTTGAGGACATGTCTCTTCAAAGCAAGGGTAGTGTTATATATAGAAAATTATTGTTTAAG
ATATACATCATTTACTCTCTATTTTGCTTACTTTGGTATAATTTATCTTCAGGTTTAGATTGGTCACTATGTCAATATAAATTGACAAAANNNNNNNNNN
NNNNNNNNNNAAAAAAAAAAAACCTCACAATTGTACAGTATGGTTTTTGTTAACTTTCAGTATAAAAAGGACAAAATTTTTAAAATTCCAAATATTGCAT
ATAGCTAGAAAATGTGAGAATTCCACATATAAACAAAAGCTATTTTCATAAATAAAATTTGATTATATTTGAAAGCCTGAGGTGGTTCTAAAAAGCAAAA
GCATTAAAATCGGCTTGCATGAATTACCATTATCAACATCAAGTCTTTTTTGGATCTCTTAACCAGCAAAATAGCTATTCTAAATATAGTATACCTTTGT
CCCATTTTGATTCCTCAACTCAGATGAAAACTGTCAAAGTAAAAAACAAACACAACACACCAAAAGATAAGAACAATAAGAACCATAGCAAAAAACATTA
AAAAGAAAGAGAATTTCCAAAGAATTTGGAAATTTCAGGTAGATAAATTAAGTCTTAAGTAATAACCTCTTATCTGATTTCAATTCCCTGCTGACGAAAT
AATAATAATAATAATAATAATAATAACAATAATGTTTTCATGTTTTGGATAATTGATCCCTTCTTTTATTGCTATTATCTCCTTGGTCAATATGTCTAAA
GCCTTCCAGCTTTTCAAGGGGAACTTCAGACAAGTTGCACTTGAACACAGACCTCTTAATAGTTTACTCCAAAGCCTTGCTCAAGTCCCATCTTAGTTAA
TTTAGAACTGGTTTCTAAGCACTTCCTATGTTTACAGCACTGTGGTGGGTCTAACTGAAGACAACTGAAAAGACAAGTATACTGCTTTCCAAGAGCTCAC
AAATTATGGTTGGAAATACAGCAATATTTGTATATATAATTCACATATAAGGCAATCTGATAGACGCAACATTACATACAGTATGTGGTGCATGATGACA
TATCTGTGAATGACAGTATATATGATGGTGGTCACATAAAATTATAATACCATGTTTTCAGTATGCCTTTTCTATGTTTAGATACACAAATACCATTTGT
TACAATTGCCTACATTTTTCAGTACAGTGACATGCTGCACAGATTTGTAGCCTAGTAACAATAGGCTACAGCATATAGCCTAGGTGTATAATAGGCTATA
CCATCTGGTTTGTGTAAGTATACTCTATGATGTTCCCACAACAAAATCCCCATCATTAAGTGACATATATACAAAGTGTAATAAGACTATATATATATAT
TGGGAGGCCGAGGCAGGCAGATCACCAGAGGTCAGGAGTTTGAGACCAGCCTGTCCAACATGGTGAAACCCCGTCTCCACTAAAAATACAAATAATGATA
ATAATAATAATAATAATAGTAATAATAATAAGCCAGGCATGATGGTGGGTTCTGTAATCCCAGATACTCGGGAGGTTGAGACAGGAGAATCTCTTGAACC
CTGGAGGCGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAACGAGACCCCATATCAAAAAAAAAAAGACTGCATATATA
CAAAGTGAGATAGGATTTAGGTGGAAGAGTATTTCTTACTCCCTAGTAGACTAGGAAATACCTCTGAGAAGTGATGATGTCTGAGGTGTGGCTTTAAGGA
TGGGTAAGCTTTCGAAAGTACAGAGGAAAAGGTGGATGAAAAAGCTTTGGTAAAAGTCTGAACTGAGAAGAGTGTGGGACACCTTTGAATATATGTGAAT
TTTTTTATAACTTCTGTATAAATGCTTTTGGATGGCAACTCTTACAGCAATTACTGTGAAGGGATAATCTGGAGAATGCTATACTTTATTGACTAGATAG
GCAGAGGAAGTTAAGAGGGTCAAGAGTTTGAAACTGAGTACTCTAAGAATTAGGACCATTAACACAGAACAGTTTAGATGAAAGATGATGACTTCAGGGT
TGGCAATATTAAGTGACAAGTGAAGGTGACAATTCCAAAATGAAGTTTCAGGCACATACTCGAGGCCTGATTAGAACAAAGGGTGTCAGTTTGGGAATGC
TAATCATACAGGAGATAATTGAGCTCCTCCAGTAGATAGGCTTCCAGAAAAATATTAAAAGAAAAAACAGAATAAAAGTCTGATTTTTGGAAAATATGCT
ATAAAGACTAGAAACAAGCTGAGGAGGGAGTTAATATGAGT


SNP Information

Context             (SEQ ID NO:63726):
ATCATATACTTTCTTTAAGACCCTCTCACTCCTAACATAAGCTAGAGTTTTCCGTTTCAATATATAATCAAAAAACCAAGTATCCTATTAAGTGTATATT
R
TTGACTCAAATTGACAAGGACATTGGTAACCTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCCCTCTGTTATCCAGGCTGGA
Celera SNP ID:            hCV422560
SNP Position Genomic:     22067
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63727):
GAAAAATTTGTATTGAGATGTGCTAATAGAGAATTTGGTATAACTAAACATCTGATATATAATTTATATTTTGAGGTAACTCTTTAGCCAACATTTTAAA
R
TATGATTAATTTATAGTACTTACGAAGGATTTTCAGAGACATTACATTTTTCTGTTATTTCACTGTTTTAAACAAGATGGAGATTAGAGGGTGGAAAATG
Celera SNP ID:            hCV422561
SNP Position Genomic:     25375
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63728):
AAATTCAGTCACAATGCTATATATCAGGCTCTCAGTGATTTTTTAAAGGAGGGTCAATTTTAAGAATTCTAAGGAATCTCTTTGTTCCTGCTAATTTGTC
Y
GAAGGTTTACGAGGAATACAGGAGAAAGCTAAATTGTTTGGGGAACAGTAAGAGATTTAGATTCTGAGAAAGATCCTGGAGGAAAAGCTGGGGCCAGTAT
Celera SNP ID:            hCV422563
SNP Position Genomic:     26614
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63729):
CAGGGGAGACATACAGTTCAGGCTCATCTTCTCACATGGAATGCTGCAGAGAGCAAATATAGGTAGCATAGAAATTAAGGAAAAAGAGTATGCCAAGGAA
R
GAATCCAATCAAACATGCCCAGGTTAAAGAAGTGCTTTTAGTTTCTTATCAAATCAAAAACCGTGTGCTCATCAGAGTAAATGTGGTTCTAAAAGGCAAC
Celera SNP ID:            hCV28030910
SNP Position Genomic:     27586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63730):
CTAATCTTCTTAATGAGTTCATAGCAAGGCATGTGGTATTTGCGATAGAAAAGACTCAGTAAAAGCTGTCTTCCATTCAGTTTTTGAAAAGTGAATGGAT
R
CCAGTTTATGTTATTTCCTATAGTGCCTATCTTAAACTGATTTTTTTTTTTTTACTTGCTGAATCTCATTTCATGTCAATATGAGTTTTGTATTGGTAAT
Celera SNP ID:            hCV422549
SNP Position Genomic:     7828
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63731):
ACACACAAATAATAATTTTTTATTTCCCATCTAGTTACAGTCCTCCTTCAGCTTTCATCCCTTTAGTAATAGTTGTGGTGAATTTTTTCTCCCGAGAAGC
Y
CCTAAAAAGGCGTTCATTTTTACGTAAACAAACAACAGGAGAAAAACATATAAACATGAAAGCAAAATATTTTACCTACAGAAATATATTTTCAGCAATC
Celera SNP ID:            hCV422565
SNP Position Genomic:     28764
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63732):
ATTAAACCCAAGTTCTGTAATATATACTTCAGAAATATTGTTTTAATCTATTCTCTGAACTAGTTTTACCTGGCTTGTAGGACTATCTGCCTTTGTTCTT
A
AAAAAAAAAAAAAAAACTTGTGAGAGTCTTTTTAAAATTCTATAGTCAGATCTATGACAACAAAAGAGACTGAGACATCCACAAGTTATTTCTACCATGT
Celera SNP ID:            hCV12098986
SNP Position Genomic:     18876
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,2)   total(A,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63733):
TGCTACAGTCTGAGAAATTGTATGTTGTTTAAATGCAATACATCACAATGTTTGATAAATAAAAATAAAAACCGTTAAACCTATCCAAATGCAAGAACTC
M
TAAATATTGTTGAGTTAAAGCTTTTGATGCAGCTGAGGCTATGTCTGGATTTTATTATTTTCCCTAGGATTTCCAATTTTTTCTAAGAAAGGAGATCAAT
Celera SNP ID:            hCV28030911
SNP Position Genomic:     23673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63734):
ACAACAGGAGAAAAACATATAAACATGAAAGCAAAATATTTTACCTACAGAAATATATTTTCAGCAATCTATTTCTCATGCTATTGTTAAAAATATCTCT
R
CTTGGATAGAACCTTTTTGTTTCCATGCTGACTTCTTCTTTGCTTCTCCTGTGAACTTTTTAAATTCTGTGTTTGGCAGCAGTTTTGTTTTCCTTGGAGC
Celera SNP ID:            hCV422566
SNP Position Genomic:     28896
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63735):
GGGTCTTCATTGTGCCTATCTTGGTTAATGAGAACTGAGAAGAGAAGAAACATTCTCTTTTAAAAAAAATTTTTTTTAGAGAATTTCTTCATCAGACGGA
R
AGATTTTATTTGCCATTTGCAGGCATAACCTTGGTGACCTATATATCCCCAGACCTTCTGGTAAGATGCTTATTAAAATGTCATTACCCAGAGGAGTAAT
Celera SNP ID:            hCV422567
SNP Position Genomic:     29297
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63736):
GCACTTAATTCTGAAATTCATTGACCTCAATGTGCAAGCTGTCTTCTTTACTATTTATTGTGAATAACCATTTTTTTTTATTTGTTGTAATCACACATCA
R
GAAAGGGCTAGGGAGATGTCTTTGTGAAACATTTATCCCTATGGTTCTGTTTAATAGGAGTACTTACCAGTAGCTAAATGCCTCATTTTATTTTAAATAA
Celera SNP ID:            hCV422569
SNP Position Genomic:     29997
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63737):
ATGAGGTCCTGGCGTCACTCAAGGACCGGCCGGCGAGCGGCAGCCCGTTCCAGTTGTTCCTGAGTAAAGTGGAGGAGACGTTCCAGTGTATCTGCTGTCA
S
GAGCTGGTGTTCCGGCCCATCACGACCGTGTGCCAGCACAACGTGTGCAAGGACTGCCTGGACAGATCCTTTCGGGCACAGGTGTTCAGCTGCCCTGCCT
Celera SNP ID:            hCV28948107
SNP Position Genomic:     33857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63738):
ATCTCTTGCCTGGATTATAGAACTGTGTCATAACAGGTCTTTCTGCTTGGAGTTACCCACCTTCACTTGACCACAATCTGTGATACCCAGTTTCTTTTTC
T
TTTTTTTTTTTTTTGTTTTGAGACGTGGTCTCGTCCTGTCACCCAGGCTGGAGTGCAGTGGCGCCATTTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTC
Celera SNP ID:            hCV12098914
SNP Position Genomic:     14508
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63739):
TGGAGTTTGAGGGACTAAAATTGATTTTAAGAATAATAATGTTGTTGTTCCTTTTTCAAATCTTTTAACATGGAAACATTCTGATTTGGTTGGGGGGGGG
R
GCTTTTGACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGAAGCAACAAGAAAATTGTTTTGAACAAAGACC
Celera SNP ID:            hCV26023360
SNP Position Genomic:     6624
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63740):
CTAATCTATTTTCTATCTTTATAGATTTGCCTATTCCAGACTTTTCTTATAAAAGTAATCAAAATATTTGCAGTCTTTTGTAATTACCATCTTTCACTTA
K
CATAATGTTTTGAAGGTTTATCCATGGTGAAGTATGTATCAGTACTACTTCATTTCTTTTTGTTGCCAAATAATATTCCATTGTATGGATATACCATTTT
Celera SNP ID:            hCV12098915
SNP Position Genomic:     17697
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63741):
GATCATTCAAGTCCTCCTATAGGCCTCTTGATCTGTACATTAATTGGAATAATGGTCTGTTCTTTTTGTAGAAATTAATCATGTTCTTAAACACCTCCAT
K
CAGTGTAAGTTCTGACTGTTTAATTAAAACTTTATAGTAAGCTCAAACTGGGATCCTGAAAATGAAAAGATATTTTTTGTTATCTGGTTCAGGTTTTTGT
Celera SNP ID:            hCV28030073
SNP Position Genomic:     12002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63742):
TGGACCATGGGAATTTTTTCACATACACGGGTAGTGGTGGTCGAGAGCTTTCCGGCAACAAGAGGACCGCGGAACAGTCTTGTGATCAGAAACTCACCAA
Y
ACCAACAGGGCGCTGGCTCTCAACTGCTTTGCTCCCATCAATGACCAAGAAGGGGCCGAGGCCAAGGACTGGCGGTCGGGGAAGCCGGTCAGGGTGGTGC
Celera SNP ID:            hCV28966450
SNP Position Genomic:     33139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63743):
CTGAGAAAGATCCTGGAGGAAAAGCTGGGGCCAGTATGCTGAAAAAGACACAGTCCTCTTGCCCTACCCCAAGAGTAAAGGGCAAGAGGTAGTGGCTGCC
A
AAAAAAAAAAAAACAAAACAAAACAAAACAAAAAAACCTGAAAAAACAAAAAAGTTTTGTGGAGAGATATCGAATGGATATTTATATGGCTTTTTGCTGT
Celera SNP ID:            hCV26049267
SNP Position Genomic:     26778
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63744):
TGAGAAAGATCCTGGAGGAAAAGCTGGGGCCAGTATGCTGAAAAAGACACAGTCCTCTTGCCCTACCCCAAGAGTAAAGGGCAAGAGGTAGTGGCTGCCA
A
AAAAAAAAAAAACAAAACAAAACAAAACAAAAAAACCTGAAAAAACAAAAAAGTTTTGTGGAGAGATATCGAATGGATATTTATATGGCTTTTTGCTGTA
Celera SNP ID:            hCV26049268
SNP Position Genomic:     26779
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63745):
TAGCCAGGAGAGTTAGTTAAGTATTTCTGATCTTATAGTGAATGATAATGTTTGTACAACCTAATAGTTGCCCCTTTTCCTTTCTTTTTCTTCTCTAATA
R
TAATAGCAAAAACATTGTTTCTGGCATTCAGTGAGTGCCAGATAAATAGAAAGGCTATGAGCTTGATGCACAGTTTCTTTTCTTTTTCCTGGGTCCTCTC
Celera SNP ID:            hCV422550
SNP Position Genomic:     8564
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63746):
GTGAACCATATTATAATCATCTTTAGTATCAATAAATATTTTTGAGATGATATAATGCCAGTAAATCCATAAATTAAAAAATTAAAGCATTAAAGAAATA
Y
CTACTATGTAAGCATTCAATTTTATATAATGATTATCTGGGTCAGTGTACCCAAAATTGTGTGCTAGCCAAACTACAATTAAATCATCATGATAATTCCA
Celera SNP ID:            hCV26049269
SNP Position Genomic:     31599
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63747):
TCTGTAATATTAAGTCAGTTTATCACACTATGAGTAGTTTTTTTTAATGGATTCTGACAATATGCTGCTTATTGTAGTCTTTCATCCTTTATCTGAGAAC
W
ATGTTTTTATGACAGTAAAATATTTTTTATACAAATAGGATAAAAATTCATATGCTGTCATGCGCTAATATGAAGTTTATCCTTACATCTCCCACTCTCC
Celera SNP ID:            hCV422570
SNP Position Genomic:     30198
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63748):
TCTAAATCATACTACTTATTTCATTAGTTAATTATTGCTTGTGAACCATATTATAATCATCTTTAGTATCAATAAATATTTTTGAGATGATATAATGCCA
R
TAAATCCATAAATTAAAAAATTAAAGCATTAAAGAAATATCTACTATGTAAGCATTCAATTTTATATAATGATTATCTGGGTCAGTGTACCCAAAATTGT
Celera SNP ID:            hCV422571
SNP Position Genomic:     31559
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63749):
GTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCCGCCCCCCTTTGGACTCCCAAAGTGCTGGGATTACA
R
GCATGAGCCACCGCGCCCGGCCCCCACTTTCTTACACTGTATCTTTCTAAAGAATAAGTCTGAACAAAGTAGTGACTATTTTAAACCAATAGTATACATT
Celera SNP ID:            hCV422555
SNP Position Genomic:     14791
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63750):
AGGACTATCTGCCTTTGTTCTTAAAAAAAAAAAAAAAAACTTGTGAGAGTCTTTTTAAAATTCTATAGTCAGATCTATGACAACAAAAGAGACTGAGACA
W
CCACAAGTTATTTCTACCATGTTTGTTTAACTCAGGAGATTGAATTTGATGTGTTATATACATGGTATGAACCAAACGCATAATAGAAATTGGGTCTTCT
Celera SNP ID:            hCV422557
SNP Position Genomic:     18954
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63751):
TATCTTGGGCATATGGGGCACACCCTGCAACCAGAAACAGCACAGGAATAGTCATTCCTTCATGACAACTTCTACGAAAGTGTAAATTGAGGCTAACAGG
R
AAATCACCCTATTACTCCTGTAAAGTGACGATAGCTTTCAGTTTTCAAATGCGACTTTCTGATCATGTTTGAATGTGTTTCTGTTCATGTTTATGGAGAA
Celera SNP ID:            hCV422558
SNP Position Genomic:     21600
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63752):
TTCCCCTTCTTTTCTGGAATGCAATCAATGGTGAAACATGTTTTACGGTAAAACATTTAATACTCCAAATTGTGAATAAAGCAAAGAGAATGTGTTTAAT
R
TATTTTTTAAATCATATACTTTCTTTAAGACCCTCTCACTCCTAACATAAGCTAGAGTTTTCCGTTTCAATATATAATCAAAAAACCAAGTATCCTATTA
Celera SNP ID:            hCV422559
SNP Position Genomic:     21956
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63753):
GACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGAAGCAACAAGAAAATTGTTTTGAACAAAGACCCTTTAG
Y
GTCAGTCACTATTTCAGAATATAACACCAGTCATTGTTTATATGATTTACTCTTAATAGGATTTTGATATTCTGCTGTGTAACGTTGCTGCTGACTGAAT
Celera SNP ID:            hCV12103600
SNP Position Genomic:     6731
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63754):
TGGAAACATTCTGATTTGGTTGGGGGGGGGGGCTTTTGACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGA
R
GCAACAAGAAAATTGTTTTGAACAAAGACCCTTTAGTGTCAGTCACTATTTCAGAATATAACACCAGTCATTGTTTATATGATTTACTCTTAATAGGATT
Celera SNP ID:            hCV12103602
SNP Position Genomic:     6694
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,7)      total(G,3|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63755):
TTGCCAACAAGATGGAGTTTGAGGGACTAAAATTGATTTTAAGAATAATAATGTTGTTGTTCCTTTTTCAAATCTTTTAACATGGAAACATTCTGATTTG
R
TTGGGGGGGGGGGCTTTTGACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGAAGCAACAAGAAAATTGTTT
Celera SNP ID:            hCV12103603
SNP Position Genomic:     6612
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63756):
CCAACAAAAAAGAAGATGGAGCTACATTACTGCTCCGGAGCCTTGGGCAAGTTATTATTCTCCCTGTGCGTCAGTTTCCTCATCTGTATAAAAGGAATAG
Y
AATATATGTGTTGTGAGGACTGAATGAGGTCACCCAGGAAGTGTGCTTACAAAAATATGTTGTGTAGTCATCATCGTTTACTATTCTTGTTACTATCATC
Celera SNP ID:            hCV486002
SNP Position Genomic:     6378
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63757):
CCCATTCCTTGCCCTCAGAGGTAACCTCTGTGCACTACCCTCTTGTGGTTAGAAGATGGAGCTAGGCCGGGCTCGGTGGCTCACGCCTGTAATCCCAGCA
Y
TTTGGGAGACTGAGGCGGGTGGATCACCTGAGGTTGGTAGTTCAAGACCAGCCTGACCAACACGGAGAAACCCCGTCTCTGCTAAAAATACAAAAAGCCA
Celera SNP ID:            hCV486003
SNP Position Genomic:     6036
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:63758):
ATTACTTTGTTATGTTTTTTACCTATTATACTGTGAACATTTCACATGTTCTTTTTTATAAAGGCCTTGGAAGCCAAATTTTAATTGCTCTATGGTATCA
Y
TTTGTATACCGTAATCTATTGAGTAATTTCCCTTTTGTTGGATAAACAATTAGTAGCACATTATAGTTACTGGATTTTTAGATCTTAGTTTACTGGTTCA
Celera SNP ID:            hCV26049270
SNP Position Genomic:     31855
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63759):
AGATTAGAGGGTGGAAAATGGATTCTGGAGAAATAAACCCATCATATTAACTATAACCATGAGTTCCTTGAAGACAAATCAAATCTGATGTCTTTTCTTT
Y
TCCTTATGAATATACTTCAGTACGAAGGACCTGATACTTAGTTTGGACCCAGTAATTATTTATTGTTGTAAGTAGCACAGTAAGAATAAAAACGTTTATG
Celera SNP ID:            hCV12099001
SNP Position Genomic:     25556
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63760):
GGTATAACATCTAGCAAATAGGTACTTGATGACATTTTTATGAATACTATGATTTATCAAAATAAGTATATCCTGAGAAGTATATATTTATAGATGAAAC
R
GTATTTACAGAGAATAGACTCTAGTTTAGAGAAACTGAAGAGCATTAGTAAAAGTGTTAATAAGAATAATATTTTAAGTACTATGAGGGACTTTTTTCCT
Celera SNP ID:            hCV26023356
SNP Position Genomic:     9996
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|-,3)   total(G,1|A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63761):
TTCATGAGATAAATCTAATGTGAGTATCCAATAATAGATTCAAATATTTTTCAAGAATTGACTATGAGTCTGTGAATATATATTAATGACTATACAATAC
T
TTTTTTTTTTTTTTTAAGAGATGGGGTCTCACTGTGTAACTCAGGCTGGACTCTAGCTCCTGAGCTCAAATGATTTTCCCACTCTTAGCTCAGCCACACT
Celera SNP ID:            hCV26023357
SNP Position Genomic:     11629
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63762):
GATTTATTTTATGTTGAAAATTCTGACTTATTTTTAAATTGTTTATTCCATCTCATAAACTTCTATTTGTTATTTAATTTTAGGAACTTTGAAATAAAAG
T
TTTTTTTTTTAATATATCTTATGTCCTGTGTGCAAGTCTAATGGATAGATCTGTACCTTGAAGTTCCAACTTCTGCCCTCAGAGATGAAAGTGACAAACA
Celera SNP ID:            hCV26023358
SNP Position Genomic:     13084
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63763):
CCCCTACCATCCATTACCCCCACTTGTTCTCCCTTCGTTTATTCTATTCTAAGCTTCTTTATAGCTTTATCATCACCTGGTATACTATGTTTCTGTGTTT
R
TCTTCTTCCTTCACTAAAATATAATAGCCAGGAGGCAGAGATACATCTTGTTTTGTTCAATGGCATACAGTTTGTGCCTAGAACAGTGCTTTGCACATAA
Celera SNP ID:            hCV27907532
SNP Position Genomic:     28321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63764):
CCAACAAGATGGAGTTTGAGGGACTAAAATTGATTTTAAGAATAATAATGTTGTTGTTCCTTTTTCAAATCTTTTAACATGGAAACATTCTGATTTGGTT
G
GGGGGGGGGGCTTTTGACATCATCTGTTTCACCTTATCACTGTGTACTTTCAAAATATCTTCAAGATGCTTTCATTGAAGCAACAAGAAAATTGTTTTGA
Celera SNP ID:            hCV26023359
SNP Position Genomic:     6615
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63765):
TATTATATTGTAATTATTTACATGTTTTGTTTCCCTCTAGAGAATGAGAGTTCCTCCAAGGTGGAGACTCATTCAGCTTTTCGTCTCTCTTACATAACCT
K
TGCCTGGCAGGTTGTAGGTACCCAGTGATTATTGAATTAGTTAATATACGCAATATGGATTTGCTTGTCAGAGCATGAGTATCCATGGCTTTCTGAAGTC
Celera SNP ID:            hCV27535598
SNP Position Genomic:     15288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63766):
GCTTGGTGCAGGATAGGTGCTCAGTAAACGTTTGTGTTGGATGAATGGATAGATGGATGGATGGATGATCAGTCACAGAAAGTGTCCTGAGGAAGTGTTA
Y
TTGAAGTGACACCCGAAGAATGAAAATGAGCTGACAATGCTAAGAAAATGGGAAAATGTATTCTAGGCAAGATGAACGGCATCCAAACCTTTAGGTTATA
Celera SNP ID:            hCV27907533
SNP Position Genomic:     20719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63767):
TTAGCATTCCTTCTCCAAAAAGAGTATCATATCATCTTAATAAAGTTTCTCTTTTCCCAGAATTGCTTAAGTAGCATGCTGCTATTCATTTCTCTTGAAA
K
TTTAGTCAAAATGAATTATTTTGCAAAAAGGAAAATTCCACAGTTTCTATTTCTTTTCCTCATTGTCTGTGGCCCATTAACGTCTTTTATCTGCTACTAT
Celera SNP ID:            hCV12099008
SNP Position Genomic:     29688
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Gene Number:                 391
Celera Gene:                 hCG23813 - 83000099046843
Gene Symbol:                 CLN6
Protein Name:                ceroid-lipofuscinosis, neuronal 6, late infantile, variant;FLJ20561
Celera Genomic Axis:         GA_x5YUV32VYLS(24476061..24510807)
Chromosome:                  Chr15
OMIM number:                 601780
OMIM Information:            CEROID LIPOFUSCINOSIS, NEURONAL 6, LATE INFANTILE, VARIANT;CLN6


Genomic Sequence (SEQ ID NO:12551):
ACCCCAAATAGCATGTACATTTGCTTCTTCTGGGTGCCAGGGTGTTGACAAATACAGAGCTATGTTAGCCTCTGTCAGTCAGTGTCTGGTTAGGAAAACA
GAAGCCCTGTGCCCTATGTATTCCATCGATTAATCGATATATATATATATATATATATTTATTTTTATTTTTTTTTTAGACACAGACTCGCTCTGTCACC
CAGGCTGGAGTGCAGTGGCACGATCTCGGCTCAATGCAATCTTTGCCTCCTGGGTTCAAGTGATTCTCCTGCTGTGGGTCTCCTGTAGCACTCTAATAAG
TCATTAAATTCCACAATTTGACTATACAGAGCTCAGGTTGACAATTCTGAAACAATTTCAAAGCAGATATTACTCGTGGCTCACCGTGGCTGTGGAAAGA
CCTCCCTCCAGCCTCCATGGCCTCTCCGTTCAGGCAGTTGTGTGGTGGTTTTTGGAGAATGCAGGTCCCAGAGGCAGGCTGCCCAGGTCCACCTGTGACT
ACACCATGGACAGGCTGTGTGGTTTGGGGTAGATGACTCAGCTTCTTTGTACCTGAGTTAACTCATCTATAAGCAGGAGCCAAGGTTAGCGCTATCCCTT
AGGGCTACTGTGAGGATTAAATGAGATAATACACATTAAGCACTGAGATCAGGGTTTAGCACACAGGAATTGTACAATAAATGTCTATTGGTTTTGTTTG
TTTTGTTTTATTCTTTTTTTGTTTTGTTTTAGACAGAATCTCACTCTGTCACCCAGGCTGGTGTGCAGTGGCACAATCTTGGCTCACTGCAACTTCCGTC
TCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCTGCCACCATGCCCAGCTAATTGTTGTATTTTTAGTAGAGAC
GGAGTTTCACTATGTTGGCCAGGCTGGTCTCAAACTCCCGACCTCAAATGATCTGCTCACCTTGGCCTCCCAAAGTGCTGGGATTACATGCGTGAGCCAC
CGCGCCCGGCCTTTGTCAACTGTTAAGAGTGAAAGAAATTATAAGGAAAAAGAAATGATAAGGAAAAGAGTGGAGGGCTCTGGGAGCCTCTCAGCTTCTC
CTAGCTCTCAGCAGCAGACGGGAGGGGAACGGGCTAGCAGAGAGCAATTCAGCTCTGGGCTGTCATGGGGACAGCAGGCTTCTAGGCAGGGTCTGAATTT
ATAGCCACATGTAAAAGGCAGTGATCTCTTCCATTAATGGGTGGAAATAGAGCCCTATATTAGGGCTTTTGTTCAAGTTGCAAACTCAGGGCCGTGAACT
ATACACTTCTCCTTCCCTTGGCTGTCTGGTTAGAGAAGGAGCAGCCATATCGGTACACTGCCTGGCTCAGGGTGGGCACTGGCTCAAGCCATCCAATCAG
AATCCCTCCGCGGGAATTTTGAATTGGGCCCAGAAGAGGCCACCCACATTCTGCTTATCTCTTGGATGGAAGAAAGATAAACTTGGGAGCTGCTGACTGA
GGCCGTCGGCTGCTGTATTTCCTGGAAAGCCAGGAAAGCCAGTCTGCAGGGAGAAAGAGAGAAGGATGACATGGAAACAGTGTTGTGGGTGGTGCCTTCC
TGGGCTCCCAAAGTCCCAGCACCATTCTCAGTTCCTGAGGCCCAACTGCATCCTTATGCTTAGGTTCCCTAAGACACCCCTAAATCCTTGTAATAGAAAT
CCCCTTTTGTCATCAACCTGTCCCCCGTGGCTTCTAGTAATCACAACCACAAGAATCTGAATTAAACACAACCTGGGGACCTTCTCTCTCCCCACAGTGT
GACTTCTGGTCACCCTCCCAGCTTCTTCAGCCAGATGGGGAGTGTCCTGCAGGCAATACCAGTTGACACAGAAAGACAGTCTCCATCTTCCCCCAGTGCC
CCAGTCCCTTGCTGTCTGTCCTTGTGCAGCCTTCTCACTGTGCACAGTCTTGTTGCCCACACTTAGAGATCCCCTAGTCAGGCCCCTCCTGGCTGCCTCT
CTCCAAAGTAACTGAGTTTTCCTGGTCCCACTTCGTCTGTCTGCCTTCTGGAGTCCCAGCCTCTGGATCCAGGATTCTGTGTGTCATGTCTCTCAGATGG
TAGCTGCAGTCTAGCAGGGGCCTTCAAAGCCTTCTGGTGGCAGGGCAGTGTGGGAAGATGTTTTGAAGAAAGAGAAATTTTCAAAAGCTCTTAAGAGACT
GGATAGAAAGGGTACTGGATTAGGAGTGGAGACTGGATTCTGGCCTGGCTTGGCTTCTAACTCGCTGTGTGGCTTTAGGCTTCATTTTCCGCAGCTGCAG
AATGATGAAATTAGGCAAGATCAAAGGCTTTCCAGGGAGCCCTTTGGAGGTGACTTGGCCACGGCCTTGTAACCATAAGGGGAGAAGAGATGGCACCTGG
GACCCTGCTTCTCTTCACTCAGGGCACCACCCCCCCCACCCCCCCGTAGGTGTTTCATACATTGAGCATGCTGGAAAGATCTTTGTCTTAGCCCAGGTTT
CCAAAGAAGCAGAGCAGGGCAGCATGTATGCTAACACTGTATTGGGGAGTGTGGTGGCTGGGAAGGGGAAGTGAGGACAAGGGGGAGTGAGACAGAGGAG
AAGGGAGGGCACACAAGAGAGTGCACTGCGGAGCTGGCCACCACTCCGTCTGGAAGGATGCTAGACCTTACAGGACCTTCTTTATTATTTATTTATTTAT
TTTGAGACTGAGCCTTGCTCTGTCGCCCAGACTAGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCATGCAATTTCTCCTGC
CTCAGCCTCCCAAGTAGCTGGGATTACAGGCACATGCCACGACACCCAGTTCGTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCT
GGTCTTGAACTCCTGACCTCACGTGGTCCACCCACCTTGGCCTCCCAACGTGCTGGGATTACAGGTGTGAGCCACTGCGCATGGCCCAGGACCTTCTTTA
AAGTGGCTGTGTGAACTCGGAACTCAGGCCAGTCTGTCCAGAAAGAGGAAGAGAGAAAAATTTATTTGCTAATCCCTGTCTCTTGCTGGTCAAAGTTCAC
TCCATGGAGTGTCCAACACTCCTGCACTTCTGAGGCCAAGGGTGTGGGGCCAAGGGGAGAGGAGGTGCAGTTGACTTCTGCCTGGGTGAAGTCAGTTGTC
ACAGCAGCTGGACAAAACAAGTGGCAAGGAGCTGGAAGACTGGTGTGTCTAACGGATCTTAGGCGATACATTTAAAAGTATCTGATACAGGCCTGGTGCA
GTGGCTCACGCCTGCAATCCCAGCACTTTGAGAGACTAAGGCGGGCAGATCACAAGGTCAGTAGATCAAGACCAGCCTGGCTAACATGGTGAAACCCCGT
CTCTACTAAAAATATAAAAAATTAGCCAGGCGTGGTGGTGCATGCCTGTAGTCCCAGCTACTTGGGAGGGTGAGGCAGGAGAATCACTTGAACCAGGGAG
GCAGAGGTTGCAGCAAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAATATCGGATACAGC
TATAATTGAAAAGTAGTGGGAACCTCTACTAAAAGAAAAGTCAAAACCACCAAGATGCATAATACCAAAGGACCTTCTCAGCTGAAAGATTTCTTGATGC
TGGCCACTGAAATTGCAGCTCAGAGAGCTGAGACTAGACTCCCTTCTGATGTGCAGGGCCCATGTTCTCAGATAATCACAAACAAGATCCTGCAAATGTG
TACCCCTCAGCTTTACTCTATCCTCCTCCCCCAAATTTCCATGCAATTTAAAGAGCTAATGAAGATGGTGTTTTTAAAGTGTCCTGGTGGGATGGGAAAG
AGAGGGGGCTGATAATCCCACCGGACAGGGAGAATTCTCATCTTGTTCATTCAGAAAGGCCCAGCCCCCTGCCAGGTTGGACTCCCCTCCCCTCAAGGGG
CAGCAGCGGACTCCAGAAAAAAGGCAGATGTGTTTGTATTTAAGAGATTGGAGGATTAAATGAGCTAGAGAGGCTCCCTCCACACGGCCTCATCCTCTGA
TGGCTGGAAGCCCACCTCTGAGTGTTATTAAATCGATGATGACATCATGGGCACTGCATGCCCCTCCCTCTGGAGCCCAGCAGGCTTGCAAAGCCTGCAG
AGGATAAGAAATTGGGGTCAGAGCGGGAAGCCTCAATCCTTCTTCTCTGGTGTATACCGAGATCGATGTGTAGATCAGATTCACCAGAATTAAATCTGGG
GCCCCGTCTGAGTGCTGTCCTTGGCTGACCCTTGGGCACAGTACTTCAGCTCAGGGCCTAGGTTTTTCTCTGCTACAAAACAGAGACAATCACCTGTTCT
CCTTACGACCTGGTGTGTGTGGATCAAATGAAACAAGGAAAGCTTTAAAGCAAATGTGTTCTTCAGGGGACCAGGGGCGGAGGGGGGGGATTGAGGTGTG
GCCTGTGGGCTGCTAGAGCCCAGGATGGGGCTGATGGAAAATGACTCCCAGGCAGGCAGTCCTAGCCTCCCACAGCCAAGAAAGGACATGCAGGTTCTGA
CCAAAGGGGAAAGAAATAAATCCAATAAACATCTCCCAAGAAGAAAGACAGGAAAGAAAATAGAATGGAAATAGGCATAGCTCAGACCCCTCATGGTCTG
GGAAGCAGACCAAGGATACTGGGCAGGGGAATGGCACATTGCATTTGCATCTGAGGCACATCCCTTCCAAGAGGCACATCCCTTCTGCAGCGGCTTGAGG
GCTGGGTGAGAGGAGACAGGACTGGAGACCTGCACATGTCGTGTGCGCCTGGTGTAGCACGGGGGTGGTGGGGAGAATGGGAGTTGGTTGCAGTTGTTCT
AGTTAGCGGCCTGGGCTGCTGACAGTGACCGTGGGGAGGAGAGAGTTTGTGACATTGACAGTGGTGTGGAAGGTAACCTTTCTGTGGAGGGAAACCTCAG
GTCTCGAGACGGGCTATTGTAAATAACTTAGTCCACCAGTGCTGGGCTCTCTGCTAAGAGTTTCATATAGTCATCACAACTCCAATGTAGTAGATGCAAT
AGGCATCTTCTTGTTACAGATGAGTAAACTGAAGCTGTGAGGGGTTGAGCCATTTGCCCGCATCACAGCTAGTTCAAAGTGGTACCACTAATGAAGTCCT
GGCAATCTGCCCTGCAGGCTGTTCTCAGGTTTGACCTTTGGTTCTGTTTTTCACTTGAGGATGCTGTCCCCTTAGGTTCTGTCTGTCTTGTATGCTCCGG
TGACTCACGAGCCTGTCCACTGGGTTCCCAGGTCTCGCCTCAGCTTCAGACCACCGGTCCAACAGCCTTCCTGACCCACCTCAAGCTTAATGCGTTCAAA
GATGAATCTTTATTTACACGAAATCTGCTCTAGCCCACTTCCCGGGGGGTGCCTCCACTATCCACCCAGGGGCAGAATCCGGCCACTGCCTGAACTCTTC
TCCCCTCACCCCCCACATCCAGAGTCCCAGTCACCATACCTCTCACACGACTCTAGATGTCACCAACTCGCTCCTTCCCACTGTCACCGCCAGCCCCTCA
CTAGAACATCTGCAACCCACGTGCTGCACCACGCGGGTGCTACACGTGCAGGTCTCCAGTCCTGCCTCCTCTCCTCCACCCGTAAGAACAAGGGAAATCC
CACAGAACCCTCTGCCCCGGGGAGCATTTAAATCAGCTTAGTCTATCTCCAGGTCGCTACCCCGCCCCAGCCCAACACCCAGGCCTCAGTCACCCTAGAC
AGAGATTCCCGTACCCAGGCAGGCAAGGGACCCTAACACATCCCAGCCCGCTGGTGGTCACGCGCGCAGCCCGGACAGGCCAGCAGCCCCCGCCCCGCGA
GGACGCCACACTCGCAGCGCCCGGCCCTCCCCTAGCGGAGCCCGCCCCGTCTCCCTCCGCCCCGCCTCCCTCCGCTCCGCTCCGCTCCGCTCCGCCCCGC
CCCGGGTCCGCAGCCCCGCCTGTTCCTCCCGAGGGCCGCGCGCTCTCGCCGGCCCGCCCCGAACCGCCCCGCGCTGGGAATTTGCGGCGGCCTCCGCCGG
GGCAGCCGAGCTGAACCGGTCTCTTCCTCGGAAAGGCAGGGCCGAGGGGCCTGCGGGGCAGCCATGGRGGCGACGCGGAGGCGGCAGCACCTGGGAGCGA
CGGGCGGCCCAGGCGCGCAGCTGGGCGCCTCCTTCCTGCAGGCCAGGTGGGCGCGCGCCGGGGTGAGAGGGCGGGCTAGGCGCCTGTGCGCTGGGGCCTC
GGGACCCGCCACGTGACGCTCCTAGGGCTGCCGGGCGGGAACCTCGTGTGCGGCGCTGGCCGGGGCGGAGCGGAGCGCGGGGGGCTTGGAGGCGCGCTAC
CGTGGCGGCGGTGCCCCCGCGTTTCCTTCTCTGTCTGGGGAGCCTGGGGCCCAGCGGGGCTCGGCCTCCCCGCTTCGCCGTTGCTCGGGTGGGAGGAGCG
CCCGCCCGAAGTTTGGGGTTTTCCTCCCTTCCCGCGTTCCAGCGACCCGGGCTGGCGCCGGGACAGCCGCTGCGCTGGGAGAGCTCCCCAGGGCGGTGGG
TACACACACCTCGTCACTCGGACCCCCAACTTATCCGCAAGTTCCGGGCGCCACCTCCGCGTTCTCGGGGTCCCTCCAGCCCTGAGTAGGACTTGATTCT
GTCATTTATCAGGAGGCTGTCTGCTTGACCTGGGGCACCCAAGAATGTGCGAATGTAATGGAAGAGACMGCGGGGAAGGGCGGAAGCTGCCGTCCAGAGA
ATGAATGAGGAGCCCTTCTCAGTTTTTGGTTTATCTCGTTGGGCGAGCAGAGCTCCATTCTACCTTCGTCCCGTTTTACTGACCAGAAACATTCACTGCA
TTCAGCAGGCATTCTTTAAGCGCCTGTGGTATGCCCAGCGCTGTGCCAGGCAGTAAGGGGGTAGGCAGGGTGAAGGTGGGAGAGGCTTACSGTCCTGTAG
GGATCAGGAGAGACAGAGCCCAAGTGGGAGTGAGCGGTCATCTTGGAGGGCTTCATGGAGGAAGTGGCACTTGAGCTGAGTCTCAGAGGACTTGGTAGGG
GACCCAGGGAAGACAGGCTGTTCCATCCAGGGAAACAGTGGGGAAGGGCAAGGAGTTTAGTGGTGCTGGAGCTTTCCGGCTGTAAAAGAAAGTGACAGGA
GGATGCAGACTGATTGTGAAGGGCCTTTAATTGCAGCAAGTCTAGGACTCGAGTTGAGGACCTAGATTGCAAAACTTAGGGGTAGGCGCACTGCCGTGAC
CGTGAGTGCCGCCTCAAATGTTGGGCCTTGGAGGCCTTGCTTGTCTCACCCTAGTTCCTGTCCTAGGTGACAGGTTAAGGACACAGTCTTTATCCCATAG
GCACTGGGGAGTCGTGAGAAGTTTCTGAGCACTAGCATGCGCAAAGTCCTTGTTAGGAAGTTTTTGGTACGACCTGGATGAAGGGAGAAGTCTGAGCGCT
TGGGCTGAGGTGAGGGATGGCTCGTTTCTGCTGCTGCGGACATGCGGGCTGAGCAGCTGCGGACTGTGTCCGTTTTCACTTAGAAACAATGTACTGGCCA
TAGACCGCATACTGTAGCTCACCTGTCTCCCTCGGCCTGTGAGTTAAGTATTATTTTACTGATGAGGAAATAGGCTTAGATGGGCTGAGGAGCCTGACTG
GCTGAGTCCCCGGGCTGTCTGCCCCACGCCGTGTCCAGTGGTTTCATCTCTGCTGTGACCCAACCCATTTACCAGCTCCCCTCTTCCAGGCAGCCTCTTC
TGCCTGCGGGATGTCTCTGTTCCGAATCCTTGCCAAGTTGGGGGTCACTGACTGCCCTGAACTGTGACAGCCCAATGGGAACAGCCTGTGGGTCTCAGAT
AGGGTCACCACTTTATCTCCTGTGTGGGGCTCCCATGTCTAGCATCTTACTCAGTCTTGACAATGAGCTGCCAGATGTCACTTCCAATGTACAGATGGGG
AAATGGAGGCCCAAAGAGGTTACATCATTTGCTGGCAAGAACCAGGGCCTAAACCCAGGGTTTCTGACTTACGGGCTCTGCTCTTACGACTCCACTTTGG
CTGCTAAGGAGTCATGTCCCTCTTCCCCTGTGTGAGCTCCCCACCAGCCAGGGTATTCCCAGGGGGGTGGTGTGAGGGTGGGAGCTCTCTGTCTCCCAGG
GTGTCTCTGCCCCCYACAATGTGGCTTCAGYCCATTCCCAGTATCATTGCTGCTCAAGAGAGTAGGCAGAATCATCCTGTCCAGTTCCTAGGATGCTTGG
ATTTCCTCTGCTGCATCCGTGCTTTGCTCACTACCTCTTAAGGTAACCCATTCCAACGTCCACCTGCTTTGTTGCCAGTTTTTGTATTATAATGAAAGTG
TTACAATTAGGCCGGGTGCCATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGTCCAGGAGTTCGAGACCAGCCT
GGCCAACATGGAGAATCCCCGTCTCTACTAAAAAATACAAAAATTATCCAGGTGTGATGGCCCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAC
CAGGATCCCTTGAGCCTGGGAGGCGGAGGTTGTAGTGAGCCGAGATGGCGCCACTGCACTCCAGCCTGGATGACAGTGAGACTGTCTCAAAAAAAAAAAA
AAGTAAAAAAAGAAAAGAAAAGAAAGTATTATAATTAGTGCCCGTGATAAATCAAATAGCAAAGGCTTCAAGTTTTAAAAAGTAGTAATCCCTGTCCCAC
TCTTCCCTAGCACCAGAGACAATCACCCTAGCTTCTTTTAGCTCTTTTTTCCAGAGTCAAATTCCTATTTCCAAATAATATGTTTATAACAATAAAAAAC
ACTATGTAGCACTTTTTATGGATCAGGCCCTGCTCTTAAGTTTTTGCATGTATTAATTAAACCACGACCCTTGAGATACGATCTACTGGCCAGGTGTGGT
GGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGATGGGCGGATCAGGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACCCTGTCT
CTACTAAAAATACAAAAATTAGCCAGGCATGGTGTCATGCGCATGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTACTTGAACTCAGGAGGCG
GAGGTTGCGGTGGGCCAAGATCGCGCCATTATACTCCAGCCTGGGCAACAAGAGTGAGACTCCGTCTCAAAAAAGAAAAAAAAGGGATAGGATCTACTAT
TATCTCCATTTTACAAATGAGGACATTAAGGCCCAAGAAGTTAAGTGACTTGCTCAAGATCTGGTTAGTGGCAGAGCTGGGATATGAACCCAAACAGTCT
CCAAAGTCCAGACTCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACACTGTTACCCAGGCTGGAGTGCAGTGGCATGATMTCAGCTCACTGCAATCTC
CGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCTCGGCACCACGCCCAGCTAATTTTTTGTATTTTTAGTA
GAGACGGCGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTTCTGACTTTGTGATTCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGC
CACCGCGCCCAGCCAAGTCCACACTCTTAAAAACTACACTCAACTGCTATTTCTTGGTTTATTTTATTTTATTCTTTTTTTGAGAYGGAGTTTCACTCTT
GTCCCCTAGGCTAGAGTGCAGTGGTGCCATCTTGGCTCACTGCAACCTCCACCTCCAGAGTTCAAGCAATTCTGCCTCAGCCTCCCGAGTAGCTGGGATT
ACAGGTGCCCACCATCACGCCCATCTAATTTTTGTATTTTTAGTAGAGATGACGTTTCACCGTGTTGGCCAGGCTGGTCTCTAACTCCTGACCTCAGGTG
ATCCACCTGCCTTGGCCTCCCAAAGTACTGGGATTACAGGCATGAGCCACTGCGCCCAGCCTTTGATTCCTTTTAGAAAAAAGGAAAAATTTTAAAAATT
AGCCATGTGTGACAGCACATGCCTTTCTGTGGTCCCAGCTACTCAGGAGGCTGAGATGGGAGGATTGCTTGAGCCTGGGAGGTCAAGGCTGCAATGAGCC
ATGACTGTGTCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCTTGTCTCCAAAACTAAAATAAAAAGATGATATTAGTCCCCTACCCTAAACTTTAGC
TTTCCTCACCCCTTCCTACAATTTCTGTCCTCTGTTTTCATGTTATCAAAGTAGACTATAATTATCTGCTGCTTTAAAACCGTAATTATCTTCCATGTTT
TATCTGTGGATTGACTCTAAACATTGAAAATTAATATAAAATGTGTATGTTATTTAAGCCATGTATTTAATAAATATTGTTCCAACAGAGCCAAATAATG
TTTAACAGTTACATTTGCTTTCTTATGTTACTTTTGTTTTTCTTGGAGTTTCTAGTTGCCTTTCTTTATTCTCTCATTATATTTGCCTTCATTTCCTTAG
TTTTTTTTCTGTTCAAGCTTTTCATTGTCTTGTATGTCACCATTCTTTAAATAGAAGCAAAATTAGTCTCTCTGTGGTCCCCATTTGTGGGTTACCGCTT
GACTTGTTCAGGATGAAACCCCTTCCTTTTCTGCCAGGCAGCCCTGCAGATGCTGCTGACTGCCTTGAGGATTTTAAGTGTATGGCATGCACTCCTCAAC
TGTCGTGGTGTCATTGTCCCCATATGGTAGACTTGGAAAGCTGGGAAGGAGAGAAGAGTCTAACCTTGTTTCAGGTTAYCTGCCATTGTGCCATCACCAT
TGTTTTCAGCAGCATTTGCTAGTGATTGAGACCTAGCTGGCACAGGCTGGGGGCTCAGTGTGCTAAGTCTGTGGAGCCAGGAACTTGGGACAGGGTTGAG
GTTGCTCATCCTCAGGACATGAGCTGGGGGAGAGGATGCCTTTACCATTCCATGATCTGCCTCCCGTGGGCAGAGTTCCAGGAGAAGAAAACCAGGCAGG
TGCTGATTAATCTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTTTTGTATTGCCCAGGCAGTGCAGTGGTGCCATCTCAGCTCACTGCAACCTCTGC
CTGTGAGGTTCAAGCAATTCTCATGCCTCAGCCTCCCCAGTAGCTGAGATTACAGGTGTGCACCACCATGCTGGGCTAATTTTTGTATTTTTAGTAGAGA
CGGAGTTTCRTCATGTTGGTCARGCTGGTCTTGAATKCCTGGCCTCATGTGATCTGCCCAGCTCACCCTCCCAAACTGCTGGGATTACAGGCATGAGCCA
CTGTGCCCAGTCTAATCTTGATTTGCAAGCTGGTTGCTGAGTGTCCACTCTGTGTGCCTGCTTTTTTTTTTTTTTTTTTTTTTTTTGCAATAAGGTCTTA
CTCTGTCACCCAGGCTAAAGTGCAGTGGTACGGTCATAGCTCACTGCAGCCTTGACCTCCCAGGCTTAAGTGATCATCCTGTTTCTGCCTCCTGAGTAGC
TGGAACTACAGATGTGTGCCACCATACCCAGTTAATTTTTAATTTTTAATTTTTAATTTTTTAGAGTTGTTTTTTGTTGTTGTTGTTGTTGTTGTTGTTT
TCTTTTTGAGACAGTTTCACTCTTACTGCCCAGGCTGGAGTGCAATGGCGTGATCCTGGCTCACTGCAACCTCCGCCTCCCAGGTTTAAGTGATTSTCCT
GCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCACACCACCAAGCCTGGCTAATTTAGTATTTTTATATAGAGACAGGGTTTCACTGTGTTGGCCAGG
CTGGTCTCGAACTCCTGACCTCAGGTGATCTGTACACCTCAGCCTCCCAAAATGCTGGGAGTACAGGCATGAGCCACTGGGCCCAGCCCCCCTCTTTTTT
TTTTTTTCCTGTCCTACTAAGTTAGGCTGGACTAATGACAGGGATTCTCATTGACCAAGGTGCTTCCTGAGGTGGAGGAGGAGGTAGTCACTGAGCCTCT
AGTGTATGCTGGGTACACATAACTTCCAGATACACACATCTAAGTGTTCATGCTTCCAAAATCCCTTTATTCCTCGTACCGAACATCCTACTTTTTGCCA
AGTTTGGAGGTATCAGAGCAAGAAACTGAAGGCTGTTACCTCTTTCGCCACCCAAGTTCTCTGGGCCTGGAGGTTATCACTCTCTGCTTTTTGAGGCCTT
ACCCTGATGGCTACTGAGGAAGGAGCTGGGTGGGGCCTCTGTGTTGGTCACTCGTCTCAGACCACTGAGCAGTCCTCAGGGTTACTGGCTATCTGTCCAG
TCTGAAGATCGAGCCGCCCGTCCCTTCTCTTTCTCTGGCTCCAGTAAGCCAGGCATCTCAGCTCCATGCAGAACCTTCTTCACTTCCACCTCCAGGCCTT
TACCCTGCTTTCCTGCTTTTCTGCCTAGTTAGATTCATCCATCCGTGCTTTGAGGCTCCCTTCCCTCATGCAAGCTTTGTGTATTGCCCTAGGCCACGCT
GATCCTTTTCTTTTTTTTTTTCAGTATTTATTGATCATTCTTGGGTGTTTCTCRGAGAGGGGGATGTGGCAGGGTCATAGGATAATAGTGGAGAGAAGGT
CAGCAGATAAACACGTGAACAAAGGTCTCTGGTTTTCCTAGGCAGAGGACCCTGCAGCCTTCCTCAGTGTTTATGTCCCTGGGTACTTGAGATTAGGGAG
TGGTGATGACTCTTAACGAGCATGCTGCCTTCAAGCATCTGTTTAACAAAGCACATCTTGCACCACCCTTAATCCATTTAACCCTGAGTGGACACAGCAC
ATGTTTCAGAGAGCACGGGGTTGGGGGTAAGGTTATAGACTAACAGCATCCCAAGGCAGAAGAATTTTTCTTAGTACAGAACAAAATGGAGTCTCCTATG
TCTACTTCTTTCTACACAGACACAGTAACAATCTGATCTCTCTTTCTTTTCCCCACATTTCCCCCTTTTCTTTTTGACAAAACTGCCATCGTCATCATGG
CCCATTCTCAATGGTCGCTGTCTCTTCGGAGCTGTTGGGTACACCTCCCAGACCGGGCGGCCGGGCAGAGGCACTTCTCACTTCCCAGACGGGGCGGCTG
GGCAGAGGCGCTCCTCACTTCCCAGACGGGGCGGCCAGGCAGAGGTGCTCCACACCTCCCAGACGGGGCGGCCGGGCAGAGGCRCTCCTCACCTCCCAGA
CGGGGCGGCCGGGCAGAGGCGCTCCTCACATCCCAGACGATGGGCAGCCGGGCAGAGACGCTCCTCACCTCCCAGACGGGGCGGCCGGGCAGAGGCGCTT
CTCACCTCCCAGACAGACGATGGGCAGCCAGGCAGAGGCGCTCCTCACTTCCTAGACGGGGTGGCGGCCAGGCAGAGGTGCTCCTCACTTCCCAGATGGG
GCRGCCAGGCAGAAGGGCTCCTAACCTCCCAGAYGGGGCGGCTGGGCAGAGGTGCTCCTCACCTCCCAGATGGGGCGGCCGGGCAGAGGGGCTCCTCACC
TCCCAGACGGGGCGGCCGGGCAGAAGGGCTCCTCACATCCCAGACGGGGCGGCCGGGCAGAGGGGCTCCTTACTTCCCAGACGGGGTGGCCGGGCAGAGG
CGCTCCTCACATCCCAGACGATGGGCAGCCGGGCAGAGGCGCTTCTCACCTCCCAGACAGGGCAGCCGGGCAGAGGGGCTCCTCACTTCCCAGACGGGGC
AGCTGGGCAGAGGCGCTCCTCACTTCCCAGACGGGGCGGCCGGGCAGAGGCGCTCCTCACATCCCAGACGATGGGCAGCCAGGCAGAGGCGCTCCTCACT
TCCTAGACGGGGCAGCTGGGCAGAGGCGCTCCTCACTTCCCAGACGGGGCGGCCGGGCAGAGGCGCTCCTCACATCCCAGACGATGGGCAGCTGGGCAGA
GGCGCTTCTCACCTCCCAGATGGGGTGGCCGGGCAGAGGGGCTCCTCACATCCCAGACGATGGGCGGCCAGGCAGAGACGCTCCTCACTTCCTAGATGGG
GTGGCGGCCGGGCAGAGCCTGTAATCTTAGCACTTTTGGAGGCCAAGGCAGGCGGCTGGGAGGTGGAGGTTGTAGCGAGCCGAGATCACGCCACTGCACT
CCAGCCTGGGCAACATTGAGCATTGAGTGAGCGAGACTCCGTCTGCAATCCCAGCACCTCGGGAGGCCGAGGCGGGCAGATCACTCGAGGTCAAGAGCTG
GAGACCAGCCTGGTCAACACGGCGAAACCCCGTCTCCACCAAAAATACAAAAACCAGTCAGGTGTGGCGGCGTGTGCCTGCGATCCCAGGCACTCGGCAG
GCCGAGGCAGGAGAATCACGGGAGCCCGAGGCAGGGAGGTTGCAGGGAGCTGAGATCACGGCAGTACAGTCCAGCCTCAGCAACAGAGGGAGAAGGAAGA
AGCGAGGGAGAGGGGGAGGGGTGGGGGAGGGGGGAGGGAGATCCCTTTCTAACCTGATCTCCTGATAAGCCTAGTAATCAAAAACAGAATAGCAAGCTGT
TGGCCAGACATGGTGGCTCACAGCTGTAATCCCAGCACTATGGATGGCTGATGTGGGTTGATTATTGAGCCCAGGAATTTGAGGCCAGCCTGGGCAACAT
AGTGAGAYCTCATCTCTACAAAAAATAATAATAATAATAATAATAATAAAATAAAATTAGCTGGGCATAGTGGCATGCACCTGTGGTCCCAGTTACTCAG
GAGACTGAGGTGGAAGGAATGCTTGAGCCTGGGAGGCCAAGGCTGCAGTGAGCTGTGATCACACCACTGTACTCCAGCCTAGGTGACCCTGTCTCCAAAA
AACAAAACAAAAAAACAGAATAGCAAGCTATTAAGAGCACAGGTCTTGAATTAACATAAACCCAGGTTTGAATTGTGTGTGTTATTCAGGACGACTGGGT
TGCAAGTGACAGAAAGCCAGTGTGAACTGCACCATCCTTAGCAAAAAGGAATGTGTTGGCTCATATGGCCAGATCATGAACTGGCAACATGAACACTGTC
AGCACTTTTTCTCCCCCTTTCCCTGATCCTCTCTGCGAGGCTACTTCATTCTTACCTGGATGTCCCTTGAGGGTGGAACCTTGGCTGTAGGCAGTCCTGG
GCTTGCACCCTTAGAACCCAGCACTATAAAGGAAGGAGCTCTTTTCCTCACCTGCAGTTGGAAAAGTCCCACTGGGCCAGTCTAGATCACTGGCCCTTCC
TGTGGCTAAGAAAATATCATGTCTTACCAGAAGAAGCAGTGGGTGGGAAATAGGCTGACAAAAGGAATTGTTGCCACAGCTCCTTACTACACGGGTGGCT
TTGGCTAAGCACCTAATCCCTCTAAGCCTCAGTATMCTCATCTGTAAAGCAGATGYGTGGATTAGATGAGATAGTGCAGGTAAAGACCTAGCATTGCACA
TAGTTGGTGTTCAGTGAGGGGGTGGAAGATACCGAGTAGAGGGGACAGGAAGACTTAGCTGACCTAGGGAAGGCCTACCCAACCTGTCTTGCCTGCCACT
AGAAAATGAGATTTCTCCCAAGAGCTTGCCTCSCTGTCCTGGGGTACTCTACCAGCCAGTATGGATCATCCTTGGAACTGGCAGGAAGGGATCTCAGAAA
ATTAGGGAAGCAACAGCAGTATCGACAGAAGACAGTCTTTGCAGTGCCTCTAAGCTAATGTTTGCCACTACAAAAGGAGTAACTGGTCGTTGTGACTGTT
TTAATCAGCCAGTAGTTGCTGAGCATGGACCAGGGCCTGAGCTCAGAACTCTGGAGGAATACAGATTTGTGGTCCATGGCGCCTGTTCTTGGCACAAACG
AGACGATGAAACCCACACCTCAGTCCTCTTAGGATGTGGCTGGCTGCTTGTCCCTGGAGGTGTGCAAGTAATTGCAGGGACTCTGTAAAGAGGATTTGGA
CTCTGATAGGGAGGTGGGTGAGTTGGGAGAACCTTAAAGGTCACCCCTGTTCTCGAGGGTCTAGATGGGAGAGTACAGCTCCAGCCCCATTATGCCAGAC
TGGGTTGGYGTTGAAATGCTCCCTGCAGTGGGCTGGTGGGGCTTTGGGAAAAGCTTCATCAGGGAAGCCTTCCCAGAGGAGGCAGCACTGGTCCTGGAAC
TTCAGTGCATCTGTGAACAGCAGATGACCAACTGTTTAGTGAGAGGGACAGGCCTCCAAAGATGTATCGTGAGGCAGTACTCCACTTCCTGCTGTGTCTC
TCACATCACCTTGCTTCTGCTGGCTCCTTCTCAGGTTCTACTGTGGACTGCTGAGAAGAGGATTACCAGCAGCCCAACCTGACCTCCTCACAGTGCTGGA
ATCAAGCGAGCAGGAGGCCCTATCCATTTCAGTCTCTCTAARGCACATTTCATTGGAGGGCTCTGATTGGCCAAGCTCTGGTCACATGCCCATCCCATAG
ACCAATCCTGATGGACCCAACTATGGGATGGAGGTTAAAAGTATAAGCTCAGGAGCCCAATCATTTGGGTTCAAATCCTTAGCTGTGTGACCTTGAGCAA
GTTATTGAGCCTCTTGGGCCTCAGTTTTTTCGTTTCTAAAATGGAGGTAATATTTCAGCCTTGAAAGGTTTCTGTGAGGATTAAATGAGATAATACATGT
AAACAGCTAACAGTAGTGCCTGGGATATAGTAAGTGCTCAACTAAGGTCAGCTGCCATGATCCATCATCAAGTTTCATGCTTTTCAGCCACGATTGCGTC
CTTTGCCTTTCTTGATTTCCTCCATCTTTCAGTAGCGGAGAAACCCCAGCAATTACACCTGTTCAGCTGTTTCCTTCCTGAATCAGAGAGAAGCTAAGGT
CGGGGCAGCTGAAGTCCACCTTCTCCTTGACCACAGGGCCAGACCCCAGTATATCCAGCAAAACCCTATCCATAGAACTCAATTATGTGTGTCTCCTCCT
GTCCTCAAGTCCCCAGACCTCTTTGTGGCTAATCTCAGGGGAAGATTTTGGTGGAGGAGGAGAGAAGAGCTGACTTCTCTCGTCTGGTTCCTTCCCAGGC
ATGGCTCTGTGAGCGCTGATGAGGCTGCCCGCACGGCTCCCTTCCACCTCGACCTCTGGTTCTACTTCACACTGCAGAACTGGGTTCTGGACTTTGGGCG
TCCCATTGCCATGGTGAGTGTGAAATGGTGCACAGGGCTCTGACCAGCACTGAGGACACTTAGTGTGGCTTGAATTTGCCGAGTGACCTTAGACAAGTCA
CTTCTCCTTTATCTCCYAGTAAACTGAGAGAATAGGCCTGGATGCCTTCATATCCTTAGCTCTATGACTTGGCCCGTCAGGCAACTGCCAGCAAGTGGGG
GGCCTGAAGAGTCATACTTTGCCCCAACTCTCATGGGGGAACTGGTGGTCCTGAACAGTCATACTGTAATACTGTAACCCCCTCTGGCCTGTGTCTGGAA
GCAGGTGAACCAGGTTGAACCAAATCACCAAGACAGACAAAGGGGTATAGGAAAGGAAGTGGAGCACCGCACCCCCACCYCCGTCTCCCCTGTCCTTCCC
CATTACCTTGGGATAGTATTATTTTTTCTGGAGTTGAAGGGCGTAGGCTGATTTTGCATATTATATATGACTGTGAGCCATGGGTAATTTTTAATGCCAT
CCAGTGAAACCATCCCCTGCCTTCCAAGGCTACTTCATGCTTTAGTATCCAGTGGTGGCCTCCACAGACAAGATTAATGCTGGGAGGGCACCAGTGCCCC
TTGCTTGTAGTGGGAGGATGGAAGATAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGATAATTGACAGATGATAGATAATAAATAGACG
AACGTGAAGAAAATTAAGTGAGATATCACCAGGTATCAAGTCATTATTTGGTAGTGGGGGCACAGTGTGACTATTCATGGCCCCCAGACCCCTCCCACCC
AACTTGCTGACAGTTGCCTGACGGGCCACAGTCATAGAGCCAAAAGATATGAAGGCATCCAGGCCTATACTCTCAGTTTACTGGAAGATAAACGGGAAGT
GACTTTTCGAAGGTCACTCAGCAAATTCAAGTGTAAAAATAACAATATCCAGTGCTGAAACTGGCACTTTGTACATACTAGTGATCATGCAAATTAGCAA
AGCCCTTTTGGGGCCGGGCATGGTGGCTCATGCCTATAATCCTAGCACTTTGGGAAGCTGAAACAGGAACATCACTTGAGCCCAGGAGTTTGAGATCAGT
CAGGGCAATATAATGAGACCCTGTCTCTATAAAAGATTTGTAAATTAGCTGGGTGTGGTGATGTGCACCTGTAGTCCCAGCTACTCAGGACTGAGCTGGG
AAGATCTCCTGAGCCTGGGAAGTTGAGGCTGCAGTGAGCCGTGATCACACCGCTGCACTCCAGCCTGGGCAACACAGTGAGACCCTGTCTCAAAAAACAA
AACAAACAAAAAGCAAAGCCTTTTTGGAAAGCAGTAATAATTCATAAGTAACAACTTGGCAAGATTAGTACTTAGAATAGTGCCTAACACAATAAGTGTT
TAATGCATTTTTACTGAATGAATAATAATTATAGCAAAGTTAGAATAGTGGCTAACATCGAATGTTTACTCTGTTCTAAGCTCTTTATGTGTTTCAGTTT
ATTTAATTCTCATATCAACACTATTGCTGATCTCAATGTTATAGATGAGGAAACTTGAGGAGAGAGAGAATAAGTAACTGGCTCGAGGTCAAGCATAGAG
GCCAGCATCTGCCCAGGCATTCTGGCCCTGGAGCCCCTTTCTGACAAGGTTGAATTCTCTGTCACATAAATATCCAGAATCCTAATATATTCATCCCTCT
GACCCAGTAATACCCTTCCGAGAATCTGCCCGTAGGGATATAATCAGCAAGAAGACAGCAGTTTCCTCTAACTCAAAGATGTTCATTGCAGTGGTGTTTA
TGATAGCCAAACCTTAGAAGTGACTTGCGTGTCCAGCATTAGGGACTGGGTAAATCAGTTTTGCTATGTCCATTATAGAGAATGTTTCCTGGCAATTAAG
CAGAAATTATGGATACTATAGAGCAACCTGGAATATTTAAGGAGAAAAAAGGTTCCTAAATGACATGCAGACTGACTAATTGCAAGTCAATAACGAGCTT
GTCTACCTGGGATCAAAGACTTGATAGGTGTAAAGAAAAGCTGTCCTGGCAATGCTGTCAGGGAGTGATGGTGGGTGCTGGTTCTCCTTCCTGCAGTCTT
TTTGAAGGTTGCCTTTTAAATGTGGAAAAATAAGAGGAATTGAGCCAAGAGTTGGGGCATCTGGTTGGGTTTGTGGGTGACCTAGGGCAAGTCACTGTCC
TGGGCTTCATTTCTCTCTCCAAGAAGACTGGCTGGWCTGGCTGCTCTGAACCTTCTTCTAGCATGAAGGAACCACATACTGGGGGCCAAAGAAGCTGCCC
ATCAAACTGGTGCTAGAGAGAGAGATGAGGCCAGGAGTGGGCTCGTGGCTCCCYTCACTCACTAGGACCCAGCTTCTACTGGCATAACAGGGTCTCCTAT
TGGGCAAATCACTTCCCCCATCCTGCTTAGAGCTGCTGTGACCACTGTAACCCTAAGTAGGACTTGGTGGAACGTAGACATTTGAAAAGCTCTTGTATAC
GCTAGAGATTTTCAAATGTATGCATAATAGTTGCAAATTTGTTAAAAACAAAAACATTTACAAGTTATAAAAGTAACATGTCATAGATGTAACATAGTTG
TAACATAAAGAAGTGTTAGACTCTCCCTACCCCTTTCCTGTCCCACTGCTGACAGTTTCGGGAACACCCCTTTCACTCTTCTCTGCTTGTACAAACACAT
ATATACATCCTTTTCCCTTCTAACCATAATGGGATTTTGCTTTATACTTTATTTTGCAACCTGCTTGTTTTCCTTTAGAATATATCATATGGTGGGCATG
GTGGCATGTAATTCCAGCACTTTGGGAGGCCAAGGCAGGAGGATTGCCTGAGGCCAGTCCTGGCAACATAGCAAGACCCTGTTTTTACAAATAATTTAAA
AATTAATGGTGCTTGGTGCCTGGCACCTGTAATGCCAGCACTTTGGGAGGTCAAGGTGGGAGGATCGCTTGAGCCCAGGAGTTTGTGACCAGCCTGGTCA
ACATAAGGAGACCTCATCTCAATAAAAAAGAAAAAAGAAAAAAAAATATAGCTCTCTCTCCATGTCAGTACATATAAGGTGTCATTTCTGTTAATGGCTA
CTTAACCTTCCATGGTAAGAAGTACTATCAGGGATTCAACTGGTCCTGTTTGATTGAAGAGTCAGCCTATTTCTGATGTTTTGCTATCACAGAGTATTTT
AGCAAGTATATATATGATGTAGGTAAAGAGGCAGATAAACACATGCACACTGAGTAAGAGAGAGAGAGAGAGAGACTGAGATTGCTGCATTCTGTGAGTT
TTATTTCTGCGGGTTTAGTTTATCCAATATGGCATTTCTGTGTTAAAAGAGAGAACCATCTAAATCCTTCCTTGAAACTTGTGGGCCTTATGTGTGTTTT
CAATCAACAGATACTAGAAGTACAGTTTGGGGGTTGTGAAATGCTTTAACCCCGCATAGGGGTTTTCACACTGGCCTGGACAAGGCCAGGGCTCAGAAGA
GAGAGCATTGCAGAAGGAGGAACTGCCCCTGGCCTGCCTTCCTCTCTCTGGGAAGGAAGAGTTGCAGCTACTTTGTAGAGCATTCYTGTTTTCTCCTTTG
TCTCCTAAYGTGTACTTTGAACCTGGTTTGGAAGCAGTCCCTCCACATCAGGGCCTAGCACTCAGGAGACTGATCTGGCACTCAGGAGCGCCAGAACCCG
AACGGTCCAAGTAGGCCCTCTGGGCCACCTCTCTTGTGTTATAGATGGGGAAACCAAGGCCCAGAGAAGGGAAGTATTAGCCCAGGGTCACCCAGCAAGT
TGRTGCCACAACGGAGTCCCTGAGAAGCCTACCAACTCCCAAGCTGGCATCAGGGTCATTTATTTGGTATCTGCTGGGTGAGGGGCACAGGGTCAGGCCT
TGMCTGGAATTGCATCTGCTCTGTGTCTGGGGACAAGTCCGTTACCTCCTCTGGGACTCAGCTTTCCTGTCTGGATAAACCTTTGTCCCAAGGCTGCCGA
GAAGGTCCAGCGATCACAGGAAGAATTAAGTGTACATGATGGGGTGGGGGGTGAAAGGAGTTGGGGTGGGYGGCATTAGGGGCAGACTCCCTTGAGGCCC
GAGGGCCGCGTGGGGCTGTGCCCAGGTGAGCCCATTCTTCCATTTGCTCCGCAGCTGGTATTCCCTCTCKAGTGGTTTCCACTCAACAAGCCCAGTGTTG
GGGACTACTTCCACATGGCCTACAACGTCATCACGCCCTTTCTCTTGCTCAAGGTACTGTCCCAGGGCCCCCACTCTCTCCTGTCATCCCCATTCTTTGC
ACACCTGGCAGGAAGGTGATGCTAAGCCCTGTGTCCTGACTCAAGCACGCTCCTGCCTGCTGCTGGGGGGTGAAGGCTGTGACAGAGCAGCATGTCCAGG
GCCTGSGGCCYGGGGAAGGCGGAGCTGCCGGTGGCCTGGAGGGATGGAAAATATGCCCCAAGAAAGGGCTTTTGATTTGAGCCTCAGCCTGGCGTGCCAG
TGGGGGAAGCAGAGAGGTGTTCAGGTAGAAGGACCTAAAGACAAGGCTGTGCTTGGGAAACCGTAAAACATTTGGGGAGGCTGAGGCAGAAGTGACTGGA
GGTCCAGGGAGAGGTCAAGGACCCACTGGGAAGAGAGGAAGAAGCCAGGTGGCAGGAGAGGCAGCAGCAGCAGCTGAACTCCATCCTCTGCCCTGGAGAG
CCCTGAGATGTCACTGGGAGCACKAGCAGGAACTGCTGGCTTTGCACTTTGCCAAGTAAGGCCTTTAAAACTACTATAGGTTGAGCATCCCTAATCCAAA
AATCTGAAATCTGAAATGCTCCAAAGGAGTCTGAAATTTTTTAAGCACTGGCATGATACTATAAGTAGAAAACTCGGCCAGGCGCGGTGGCTGGAGCCTG
TAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGGTCAGGAGCCTGGCCAACATGGTGAAACCCCCGTCTCCATTAAAAATAGAAAAAAT
TGGCCAGGCGCAGTGGCTCATGCGTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACCTGATGTCAGGAGTTCGAGACCAGCCTGGCCAACA
TGGTGAAACTCCATCTCTACTAAAAATACAAAAAAAAGTAGCCGGGCATGCTGGCAGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCCAGAGAAT
CACTTGAACCCGGGAGGTAGAGGTTGCAGTGAGCCAAGATCACGCCATTGCACTCCRGCCCGGGCAAGACAGTGAGACTTCATCTCAAAAAAAAGAAAAA
GAAAAAAATACAAAAAACTTAGGGCCGGCATGGTGGCTTACGCCTGTAAGCCCAGCACTCTGGGAGCCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTT
CGAGACCAGCCTGGCCAACATGGCAAAACCTCATCTCCATTAAAAATACAAAAAAGTTAGCCAGGTGCGGTGGTGTGCGCCTGCAGTCCCAGCTACTTGG
GAGGCTGAGGCAGGAGAATCACTTGAATCCAGGAGGTAGAGGTTGCAGTGAGCCGAGATTCCACCACCGCACTCCAGCCTGGGCGATGGAGCAACACTCT
GTCTCAAAAAAGAAAATTCTACACATATGTACTTAACACAAACTTTKTTTCATGTACAAAATTATTTAAAATGTTATATAAAATTAACTTCAGGCTGTGT
ATGTAAAGTATATAGGAAATATAAATGAATTTTTCCAGGCATGGTGGCTCACACCTGTAATCTCAATACTTTGGGAGGCTGATACAGGAGGATCRCTTGA
GGCCAGTAGTTTGAGACCAGCCTGGGCAACATAGTAAGACCCTATCTCTACAAAAAATTTAAAAATTAGCTGGGCATAATGGTGCACACCTGTAGTTCCA
GCTACTCTGGGGGCTGAGGTGGGAGGATCTCTTGAGCCACTATACTCCAGCCTGAGTGACAGAGTGAGACCCTGTCTCAAAGAAAAATGAAAGAAATGAA
TTTCATGTTTAGACTTGCATATGCATTCCCAAGATATCTCATTGTGTATATGCAAATATTCCAAAATCTGAAATYTGAAACATTTCAGATAAGGGATGCT
CAGCCTGTATCACCATTTACTATCACCATCATTTTGTATTGAAGAAAGATACTTCAAATCTCCAGAAGTAGGAGGGGTATAATCCCAGAACTCCGGTGTG
TTTTCAGTTAAACAGTGGCATTTCAGAAGCACCTGCCCCCATCCCTGACATTTTCTTCATGTTTGCTGGGACCACTCAGAAATCAGAAGGTGCCTTCAGC
AGGCTGGGCCAGCCACCCAGGGACACAGCCAGGGACAGTGGGAGGGCTGGGCCTGAGCCTGGACTCCTGCACTGAAGGCTGGGCTGTCCCCTCCAGCCTA
CAGCTCATGTGTGACTTTGGGAAAGGAGTTGGGCCCTCTGGTCTTTTTGCTCCCTGGGTAAAGTCAGCGGGGGGTGCTGCTCCACATTCCCTCCGGGGTT
CATAGGGGTCACGGGAGGATCTGGAGGCTGGGCTGGCCTGCTAAAGGGACCAGCCACTTTTTGGAGTGACATTCCAGCTGGAAGCGTCCATCCCACCCCA
GGTGTGAGGGGGGAAGCAGAGGGTGTCACATACTGTGACAGAGGTGGGGTCATGCTGCCAACCCCACTCTGAACCCCAGCTCATCGAGCGGTCCCCCCGC
ACCCTGCCACGCTCCATCACGTACGTGAGCATCATCATCTTCATCATGGRTGCCAGCATCCACCTGGTGGGTGACTCTGTCAACCACCGCCTGCTCTTCA
GTGGCTACCAGCACCACCTGTCTGTCCGTGAGAACCCCATCATCAAGAATCTCAAGCCGGAGACGCTGGTGAGGCCACCTCCTGCTCCCTGCCTGTAAGC
CCTAGGAGCACAGTCTGTYCTGGGAGGCTGAAGAAATGGCCCCCACCCCTCGCCGCACCTGTCCTTTCACCAAAGGCATTCTGCTAGGTGAGGGCACTGT
CGCCTGCCCCAAGCTAGGATGCTCAAGTGTTCTTAGGAAGTGGTGCACAGACTGCCTCCCACCTGGGCCCCTGTAACAGAAGGCRAGGCCCCGGGTAGGG
AATAAGGCAGTGGGGGAGGCCTGGGACTGGGAGAAGGGTGGTCAGAGGGGATGCTTGGGGCCCCAGCACCTCCCTGGACTGACATCGACATCCCCCGACT
CTGCCCTGCCCGTTCCTCCCTCAGATCGACTCCTTTGAGCTGCTCTACTATTATGATGAGTACCTGGGTCACTGCATGTGGTGAGTGATGGGCCCATCTG
TCTATCCCAGGGGCCCCAACTACCGGCTAGCCCTGTCACTGGCTCAGGGACACACTGAGCAAGGCTGTCTGGGCTGCGGGTCTCCATGTGTTGAGTCTCA
TCCCCTGTAAAGGCACTGTGAGCTCAACCTCCAGTGAAGTTGTCCCCGAGGTTGCCCGGGAGACCCAGCTGCTGTCCCAGGCTCCAGGCCCCGGCTTCCA
GCCAGCATCCCCCCAGCATCGCCACCCCCGCCCAGCCCTCAGTGCCCGCTGTGGCCAGCAGAGGGCAGCGAGTGGCTTTGGTCCTTCCTCGCCAAGCCTG
AGCCCTGAGGGTGGGGGAGGAGGACGCGTCCCTGATAAACAACCCCCAGATGGTGATGGCAGGGRGTGGGGGCACAGCCAGGGACCCCCACCCGTGTCGG
GCCTGCTCTTTGGGAGTGGAGGAAGCTGCGGGGAGCCAGCTGGATCAGGCTGGGGAGGGGCGTGCTGTTTGCGCTCCCCCCTCTTCAGAACTCCCAGAGG
GGCACCTTTTCCTACCTACCCCGTCCCTCAGTCGGGGGAGACCTCAGAAATGTGGTCTCAGCCTCAGGAGATCCCGGGCCCAGGCTGGGAGGCTTCATCT
GTTCCACCCTCCCATCTTACCCAGGAGAAACTGAGGCCAGAGGGAGGAGGGCTCCGAAGGCTGCAGCTGGGAGGTGAGGGCCAGCCCTGGACCCGGCTCA
CTCCTGAGTTGGTGCTCACAGCACACGCACCCTGCACGGGCATTTCCAGGGTGTTTCGGGCCCTGCGATGTCAATCCTCCTGGCTCAGCTGGTCCAGGGT
CCCTGGACAGGCCTCCTGCCATCTTTCCCTGGCCTTTGCCAGAGCCTCTTCCCACAGAAGGTTGGGGAAGGGTGGAGGGGCTAGGAACAGAGAGCTGGAG
CCCCAGCAGGAAGGGGGTGTGGGTGAGAAGAGGCAGGCGGGTATACTGGTGAAAGCACAGGTGGGAGAAAGGGAGCYGGTGTGTGGAGAGGGGAGAGGGT
AGTATTTTGGGGTGAGGTGTCTGAGGTGGGGGTGGGGCTGTGTGCTGAGAGTGGGTGCAGTGCTTCACCAAGAGGCCCCTGCAGGTGCTGTTCTCTTTTT
TAACATGTGGACCTCCATCCTCAGCCCGGGAGGTGCCTCTGTCTCCAGGCTAGTGTGGTGCTGGGCTGCTGGTGTCTGCGGTGCATGAGACAGACAACCC
CCCAGACACCCCTTACCCCCACGGAGTGAGTGAGGTGCCCTGGGCGGTGTGGATGCCTCTGGGCCTCTGACTCACACGTGCGTTGCCTTCCTGTTTCTGT
TTCTGTCCCACCTTTGACGCCCAGCACAGGCAAGGTTGGGTGGAGAGGAGCGCCTCTCACCCAGGCTAGGCGTTTTGTAAACTGTGACGTGGCACTCCAT
GAGACCCCATGGGAGTGGTTGCAGAGGTTGTGGGGAAGAGGGCCGCTGAGCAGGCCTCTAAGACACTGGCCTTCCTGTCACAGGTACATCCCCTTCTTCC
TCATCCTCTTCATGTACTTCAGCGGCTGCTTTACTGCCTCTAAAGCTGAGAGCTTGATTCCAGGGCCTGCCCTGCTCCTGGTGGCACCCAGTGGCCTGTA
CTACTGGTGAGTGGACATCAGCATGGGGGCAGAGGCAGGGGCACTGAGAGAGCCACGGCAGCAAAATTCTGCACTTGCCAATGGACCTGCTGTGTGGCCC
CAGGGAGACTGGCCCTCTTTGGGCCCGTGCTTCTTCTTGTGTCTAGTGGGGACTGTGACAATGCCCTGTGGTGGCCTCTTTGTTTCCATGAAGCCCAGGC
CTGGGTGTGGCAGGGAGGTGGGAGGAGAGGGCGAGGTTGCACAGTCTGTCTCCATCCTCAAGCCCCTCTCRCTCTGTGCCCCATCTCAAGAACCCCAGTG
TTGCCCTGGGGCCGGTACAATCCACCTCCGACACCAAGCCCTGTAGTGGGCTGYGGTTTCCACCTCTGTGAAGTGGGGATGATGGTACCTGCCTGTCTGC
CTCTCAGATGATGAGGATGCTGAGGACAGAGAGGGGCTTTGTCAAATGTAAAGCACTATGGCGAGGCCAGACTGGGGGGTTTCATGGCGTAGGGGCTTCT
GGCCTTGGGTCTTTGTTCCCTCTGGCTCTCTCTTCTTCCCATTGCAGAGGACTTAGGCCTCAGCCAGTCTCCTAGCCCTCGTCTGTCACTTCTGCCCTGG
AGACAGGTCACCCTGGGATTGTGGGTATCATGGGAAGGACAGGGTCGGGGCAGGACTGGACCCTTCTCTGATGGGAGGCCTCCCTCAAAATGAAAAGGGC
CTCCTTTCCTGGGCCAGCTCTAGATCCTCTCCCCGGCCTGTCCCCTATGTGGCTGAGATGGCCCACTGGGGCTCATCTGTATGCTCTCTGGGGATTAAAA
AGAATGGGTGGCAGCTACAGTGAGCGGGAAAGACGTTAGGGGAGCGCTTCCTGCTGGTTCTTACCCCGGCATCCTGCCGCGGGGGTGGCTGCCGTCGTAA
TGGCAATTGTTTGTTGCTTTCTCCTCTAGTCAGTTTTTGTTGTGTGGAAGTATAAACTTAATGTGACCAGAGAAGCCAGAAATATACATTTGTAGGTATT
CTGTTATTTAAATATTGGCAACAAACTCAACATTTAAAAAACAGTAACTATACCAGCTAAATCAATATGCTGCCCATGGGCTGTGGCTTAGAGCGGCATA
GTTCTCTGAGCCCTGGCACCAGAGGACTCTTCTGCCTGCCTGGAGGGCAGCCTGGCTCTCGCACACAGGAAGGGATGCCAGGCAGGACGGGGTTGCCACG
GCAGCTGCCTCACTCACCCCTGGCCTTTCCAGGTACCTGGTCACCGAGGGCCAGATCTTCATCCTCTTCATCTTCACCTTCTTCGCCATGCTGGCCCTCG
TCCTGCACCAGAAGCGCAAGCGCCTCTTCCTGGACAGCAACGGCCTCTTCCTCTTCTCCTCCTTCGCACTGACCCTCTTGCTTGTGGCGCTCTGGGTCGC
CTGGCTGTGGAATGACCCTGTTCTCAGGAAGAAGTACCCGGGTGTCATCTACGTCCCTGAGCCCTGGGCTTTCTACACCCTTCACGTCAGCAGTCGGCAC
TGAGTCCCTGGCACCAGGCTCTGGCGCTCTGCTGGGTGGGAGGGTGGGCCATGGAGGGCATCTGAATACAGGAGTAGGGGGGGTGTGGGTGTGTAACCAG
AGACCGAGAGCATGAGTGGGGTGTGCCTCGTGTGCGTGGATTCGTGTGTGTGTGTGTGTCTTGTATATGTGTGCGCAGAGTGCATCATTTTCAGACTCTA
CTATTTCCGTCAAGTTTCTGTTTGATTTGGATCATCTCAGGATCGGATTCTGTTTTAGAGTGTTTCTGGGCCAGGATCCGGGCCCCTGCCCTCCTCTGCA
CCTGACCACACTCCCTACTCAGGGCTAGTCTGTTCTTCCCGGACATCTTCTGGTAGCCGTGCAGGAGAGGGCTGGGTGGGGCAGAGGCCAGGAGGGGACC
TGGTGTGTCACCTGCCCACCACCTGGCTCATCCCTCAGGCCCACCCTGACCCTACATTACATAGGTTACGTCAGCCTACTGTGGCTGTTGAGCAAAGCAT
TTCTCCTTTCTGGGCCTCATTTGCACTAGATGGGCCTGTGGTCCCAAAGTAGGTCAGTAGGTTGGGGTTGCTGACACCCCTTGGGTGCAGCTTTGGGACA
GATGAGTGGCTCTGTCCTGTCACTGCCCTCTCCCTGCCTGGGGGCTATGTGCACTCCAGACCCCTGCCCAGGCTCAGGCCCATGAGGTRTGGAGACACCC
TGGCCCCCAGGAGCTGGAGGCACCGCCCACTCCCCTGGCATTCCAGCTTTGCAGGTGACCCTCCTCTACCCAAAGCTCTGTCCCCCTGCTCCCACTCCAG
AAGAACTGCGGCACGYGCTTCGGGCAGCCTAGCCACAGGCTTTGAGCGCCTGCATTCCTGGGGGCTGGAGGGTGGGGTGCCAAAGGCCCTGAGCAAAAGC
CAGAGCTCCTCTCATCAAAGCCTTTACAAGGTGCTGGGCCCAGAGGCTTTGCCTTGACAGAGTGGCCCAGGGTTTCAAGGGAGGAGGAACCTCCCCCTAC
CTAGGACCCTTCCYGTGGGGGGTCTACAGAGTCAGGGACAGAAGGGAAGGGACCCACAGGAAGTCACAGTGGTGCCCAGGGATGTGTCAGCCCCCAGCCA
CGGGGACGCGGGATTCAAGAATGAAGTAAATACRGTCACAGCCCCAAGTGGTGTTAGAGGTGTTTTTTGTCTTTTCTCCCTTTCGTGCTGAGGTGTAGCA
CACACGGTGCGCCCTACAGCATGGTGAGTTGCTGTATCGTGAACCCTCACGCAGCCATTGCCCCACGCTGGTGTTTTCCATCTGTGCGTCACCCCCGGAG
ACACCTACACACATAAGGAGGGAGTTGGCCGGGGCACCCCAGCACACACTGGCCTAACTCCAAGGAGGCACCTCATCTCTTCTGGAGCCCCTTCCCACAG
GCAAGGGGATTCAGAGGGAGCATGTTGGCCTGGCCGCCTTCAGGCTTCCAGAGTCCCAAGTGACTTTCCTTGATGTCCTTCTCTCCATCCTCTGCACAGA
GGCAGCCTTCCCTCCTCTTATCCCTGCCATGGGGTTTGGGAGGGGGAGCCTCAAACTCTGACAGGGAGGAGTCGGAGTCCCCAGCTAAAATTCTCTGGGT
CTAGAAACAGGTGTAAAGCGATTCTGGGGATGTGATTTGGGAGAAAAGCACACTTTCCACACAGAGGCGGTCAGGAAAGGAGCGGGGAGGGGAGAGTGGG
GCACAGGCAGCGCCTCCCGTCTATGCGCCTGTGTGCAAAGTGGCACAATGCCCCCCTTCCTATTGGCAGTGCAGCCCCTGGCCAGCAACCACTCGCACCT
GGGCTGGGGGCCTTTGTGTAGGGCACACCTGTGCAGCCACACCTACTTGTAGAGCCTCATAGACTCAGCTGTGGACAAAAGCCTCACGCCCCAAACAGGG
AAATGGGATCTCAAGGGGAAGAAGCTGGGGAGGCCTCACACCCTGCCCCCATTTCCTCCTATGTGGGGGAGGGGAGCAGCACGAACTCCTGAAGACTTGG
GAGCGTCAGCAGCTTCTGCGGAAGGGGTGGGGCTGAGGGTGGAGAGAGGAAGGGAAGGAAGAAAAGGGGAGCCTTCCTGGCCAGGGTAACCGGCACTAAG
AGGCCTCACTCCAAGCCCCCGAGGAGCCTGTGGTGGGGCTGGAGACCCGGCTCAGGCCCCTCCACCACCCTTAAAGTCCTCAGAAGGTGGGAACTGAACT
GGCACAGGCTGGGAACCGGCTGTGCGCTGGCCACTTGATTTTGCCAGCTGCCCTGTAATTCAGCTGGTGAGGAAACTGAGGCACAGACTGAGGTAGAATG
ATTCGCCAGTCACTCAGCAAGTCAGCAGACGGGGAGGACTGAATCCCAGCCTGAGAGCACCGAAGCTTGTATCCCTGCAATACCGAGCCCCAAGCCTGCG
AGCCCCGGTGCCCATCTCTGAGTTGGGCCGTCTTGGAAGGGTTCCCTTCCTCCTACAAGATGGTGTGTGAGGAGCCTTCAATACGACCCGGGGTGTAAAG
TGTCCAACTCTAGTAGGGGCCTGATGGCATCCCCGCCGAGTCCCAGGAGAGAGAGAGAAGACCCCTTCCTGGAGTCCAGGGCTCCCGGGAAGAAACACTG
GCATTTGTCCCTTTGCTTCGGCTTCTGGAGGCAGAGACTCTGAGCCCAGGGAGAGCCTTCTGCAGCCCCATTTCCTCAAAAATCCAACCTGCCCAGGTGG
CGGGTCATGAGCTGTGCTCAGGAAGCTGGAATCTGACCCTGGTGGCGTCGGGCCCAGTCTCCATGGCAGCCGAGCATTTATTACCCGGGCCTCCACCCAG
CTTGGCAGACTTTAGACTTGAGGCTGGAGGAAAGGGAACTGAACGCGGTTCTGGGAGCAGCAAGCCCACGGGTAGCAGCCGAGGCCCCAGAATGGTGAGT
GTGAGGGTCTGTGTCGGCCTGGCCAGGGCTGGGGGCGTGAACCTCAGGTGGAGCCCTCCCCTGACTGTTTTCCTTTCTCTGCTGCAGGCCAAGTTTCTTT
CCCAAGACCAAATTAATGGTAGGTTGGGTTTGTTCTTTGATTAGCAACTCAGCAAAATATGGGTCTCATTAGGCAATTTGCTCTGCTCATGTTTTCTTGG
TGGGAAGGAAGGTGGCTGTGGGAGAGCTGGGCCCACCCAGGGCCAAGAGCTGCGGGGAGGCTGCTGTTGGCGGGGTGGGGGTTGGGGGTAAGCCTCCAAA
ATAGACATGTGGCTTTATACTTGTCAGTGTGACTTACAAGCCAGGGCGCTAAGACAGAACTTACTAGGTTTCCCTCCAGAACCTGACCAGTTGGATTTGG
GGACTGAGGGGACTGGGGATGGAGAGAGAGACCATTAAAGGTATGGCTGGCAGCAGGGAAAGAGGAGGGGCTTTGTAATTGAGACAGAACAGAGGCCAGG
TCTGCACTCTCTGGCAGGATGCGTCTACTCTCTGCGCCTCAGTCTCCCTATCTGTAAAATGGAGGGTCCACTGAGCCCCCTTTGCCCTGGCATCAAGCCT
GGTTTGGGCGTGAGCACTTTATTCCCTGGGTCCCCTACTCTGCCAGCCCTCGACCAGGCTTCAGTTTCACACCGTGCAGGGTTCTATTTCCAGAAGGCCA
AGAGCAAAGAGTTGCGTTACAAAGAACTTGGGGGCCCAGACCTGAGCCAGGGGAGCCTCATGGCTGCAGCCCCCCTGCACCTGGCAGGAGAGGCCCAGGA
GGCACAGCCAGCTGCTGCTTGAGGTTGTGACCCTGAAACCTGTCCCAACAGTGGACGTCAATGGGCCTGAGAGTCCCCCGAGGCATCCCATTCCTCCAGG
TCTTTGCTGAAACATCGCCTTCTCAGTGAGTCCTTCGCTGACCACTGGAGATAAAATTACAGGCACCTTGGGCCCTTGTGATCCAGGGTAGGGTCCTGAG
AGCCCAGCCAAGTGGGGTTAGGGTTACCTGGGCAGGAGTTCCAGAGTTCTGGGTATTCTGAGCTTGGTCCAGAGGGGCAGGAATTGTGAGCTCCAGGTGG
GCACCTCCACGTAGAACCCTGGAACTCTTTATCCCAAGAGGAGGGCCAGGGCAGGAGCAGGGACTTTTAAAACACAGGGCCCGGGGCAGTGCCCTCTTGT
CCAGGTCTAACGGTGATAATGAATGGTGGACTGAGGGCTGGAGTCCAGCCTTCAGCCTCAGCATCCTCCCACCCATGCCTGGTTTTGAGGCTCACTGACC
CTCCCTCCTGGGATAGCCAAAGCTCCCAGAAGGGAAGAAGGTAAATTGTCTTTGTATCCCAGTATCTGACACCAAGAAAGTGGCCACCAGTGTTTAATGA
GTGTGTGAAAGACTGGATGGGGTGGCCTAGCGAAGTGGGAAGAACAGGGGCTTTGGAGGCAGCAGACCTGAAGCCTAATCACCCTTGAGCCTCGGTTTTC
TCACCTATGAAGTAGGATATGCCACCTTACCAGGCTGCTGCGAGCCACGGACAGAGGGGAATAATGTCAGTTACATGCTGGACGCTGGGCCAGGCATAGC
CAGGTGTCACCCACATGTGGGCTGGGGCTGGCTCACTACAGCTAGCAAGAGCCATAGTTTTAGGAATTTTGCAAGCAGGATGTTAAAGCCAGCCATTATT
AAATAATGTAGGATCAAACAGTGTGTCAATCCCTACATCTATCTGTACAAAAAGTTAAAAAGACAGCCCTATTGTGATCAGTGGAGATGGAGATTTGAAA
GAAGTTTCAATTTAATGAATGTATTTGGTAAAAGGGTGAGAAATAGTTTAACAGTAGATCACATCAGGTTTAATGACCATTCATTCATTGGAAAAAGAAT
CGCACTCATTGGCGCGCAGCTTCATTTGTCAAATCATGGTTGAATCGAAACTATAGGTTGGCAATGGATATAAGAGTTGGCAAAACTTGGGCCGAGTGCA
GTGGCTCACGTCTGTAATCCCAGCACTTTGGGAGGCCGAGGCATGTGGATCACCTGATGTCAGGGGTTTGAAACCAGCCTGGCCAACATGGTGAAACCCC
ATCTCTACTAAAAATACAAAACTGGCCAGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGACCGAGGGAGGCAGATCACCTGAGGTCAGGAG
TTTGAGACCAGCCTGGCCAACATGGTGAAACCCTATCTCTACTAAAAGTACAAAAATTAGCCTGGTGTGCTGGCAGGCACCTGTAATTCCAGCTACTCAG
GAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAACCGAGATTGAGCCACTACACTCCAGCCTGGGCAACAAGAGCGAGACTC
TGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGCCGGTCATGGTGGCACATGCCTATAATCCCAGCTTCTTGGGAGGCTGAGGCAGGAGAATCACTTGAACC
TGGGAGGTGGAGGCTGCAGTGAGCTGAAATTGTGCCATTGCACTCTAGCCTGGGCAACAAGAGCAAAACTCTCTCAAAAAAAAAAAAAAAAAAAGTTGGC
AAAACTCATTTGTGGTAATCAAGTGGCTAGATGGAATTTATTTATTTGAGACAGAGTCTTGCTCTGTGCAATGGCATGATCTCCGCTCATTTCAACCTTC
ACCACCCAGACTCAAGGGATTCTCCCACCTCTGTCTCCTGAGTAGCTGGGACTACAGGCATGCACCACCACACACAAAACATTTGTAAATATTTTGTAGA
CATGAGGTCTTACTATATTGTCCAGGCTGGTCTCGAACTCCTGGGCCCAAGCGATACTCCTGTCTCACCCTCCCAAAGTGCTGGGATTACAGGCGTGAGC
CACTGCACCCAGCCCTAGATGGAATTTATAATAAAGAATAGTGTACATTTCTGTATTATTTGTAAATTGTGTGCTACACATCCTTTATGTTTGTACAGTG
CAGAGGACACAAGTACATTTATGATCAGAGCTGGTGGTTAAACATCCAGCACAGCTGGTGTTATCCTAGGCCTTGCACAGGTCTCTTTCTTGTCCTGGGG
GATTTGCATTTTCAAAGAGAAGACTTAAAGGGGATTTTTAATCCAATTCATTTAACCCAATTAATCCTTTCATTCAACAAATGTTTGTGTCCCTTCTTTG
TGCCTGGAGCTACATACAACAGTGAACTCAAAGACAAAAATCCCTTCCTCACAGGGGGTCACCATCGAGGGAGGGGAACGTGGTGAAATATATGTGCTAG
TATGTTAGAGGGCCGACCTGTCAGGAGAAAAAGCAGGAAGGAGAGCCAGGAGGTGAGGAGGGAGAGTGAAGAGATGGTGGAGGAAGGGGCCAGCAGGAAG
CCCAGCTGGGTCTCCAGCACCCTGTTGTCTTGTTCCAGTGCAGGAATGCAAAGTTCAGATGTGGCCTTCCAGGTCTTTAAAGGCGTCTGAGGCAGGGAGA
CAGCACGTATCTGATGTGAAGGTTTGTGAGGAGGTGGGCCTCTATTTGAGCCCTGGCCCTGCTGCTGGCAAGGACCACAGGCCCCCAGTGACTGACAGGG
CTTGTCGGGGAGTAGTGAAGTGCCCCCATCTGCAGATCCAGGCTGATTCTGGACCCCAAGGGTGTGATGAGCACCTTCCAGCACAGGTCAGGCAGGGAGA
GCAGTGGGCCTTGGGCCCACCCTCACCCAAGGGCAAACCCAGACAGAAAGACAAGGTGAGGGTGGCCATGAGAGGTCCCCAGGGGTACCCCCTGTAGTGC
TAAGGTTAAGCTCTGTGATTGGGGCAGTCCTCTCTCTGTCCCCCTGACGTGAGGTGATGGCATTGTCCCCTCTGGCACTGGGCCCTCTTGCAGGCAATTG
GGTTTTATGGGAACTAAACCTGGGGTCTTAGGCCAGGCTCTGGCCCTGCTTCCCCTGGGCCTTTTTGGCCCCTGCCACCTGGTCCTGACTTTGGTTTGCC
CCTTCGGAAGCTCAGGCTCTGGAATGTTCTGAAAGGGCAGTTGTGCGGGGCTGGGGCTTTCCTCTCAGTCTCTCCACAAAGGCCGCGAATTTGTCTCTAA
ATGGTACATGGCGATCTGCCTGTCTTTAGTGACCCCCCTGAAATCCTACCAGGGAGGCCTGAGTGCCTTCATTAGGGAATATGAAGGGACCCCTGGTCTG
GGCTGGGGATTTGGGGGGCTCCTTCTGCATCCTCTCCCTCACCCTA


SNP Information

Context             (SEQ ID NO:63768):
TCTTCTAGCATGAAGGAACCACATACTGGGGGCCAAAGAAGCTGCCCATCAAACTGGTGCTAGAGAGAGAGATGAGGCCAGGAGTGGGCTCGTGGCTCCC
Y
TCACTCACTAGGACCCAGCTTCTACTGGCATAACAGGGTCTCCTATTGGGCAAATCACTTCCCCCATCCTGCTTAGAGCTGCTGTGACCACTGTAACCCT
Celera SNP ID:            hCV169725
SNP Position Genomic:     19554
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63769):
AGAGGCGCTCCTCACTTCCTAGACGGGGTGGCGGCCAGGCAGAGGTGCTCCTCACTTCCCAGATGGGGCGGCCAGGCAGAAGGGCTCCTAACCTCCCAGA
Y
GGGGCGGCTGGGCAGAGGTGCTCCTCACCTCCCAGATGGGGCGGCCGGGCAGAGGGGCTCCTCACCTCCCAGACGGGGCGGCCGGGCAGAAGGGCTCCTC
Celera SNP ID:            hCV16064227
SNP Position Genomic:     13534
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63770):
AGGGACAGAAGGGAAGGGACCCACAGGAAGTCACAGTGGTGCCCAGGGATGTGTCAGCCCCCAGCCACGGGGACGCGGGATTCAAGAATGAAGTAAATAC
R
GTCACAGCCCCAAGTGGTGTTAGAGGTGTTTTTTGTCTTTTCTCCCTTTCGTGCTGAGGTGTAGCACACACGGTGCGCCCTACAGCATGGTGAGTTGCTG
Celera SNP ID:            hCV11668487
SNP Position Genomic:     28734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:63771):
CCCGCGCTGGGAATTTGCGGCGGCCTCCGCCGGGGCAGCCGAGCTGAACCGGTCTCTTCCTCGGAAAGGCAGGGCCGAGGGGCCTGCGGGGCAGCCATGG
R
GGCGACGCGGAGGCGGCAGCACCTGGGAGCGACGGGCGGCCCAGGCGCGCAGCTGGGCGCCTCCTTCCTGCAGGCCAGGTGGGCGCGCGCCGGGGTGAGA
Celera SNP ID:            hCV27510512
SNP Position Genomic:     6168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63772):
AGTGTGAAATGGTGCACAGGGCTCTGACCAGCACTGAGGACACTTAGTGTGGCTTGAATTTGCCGAGTGACCTTAGACAAGTCACTTCTCCTTTATCTCC
Y
AGTAAACTGAGAGAATAGGCCTGGATGCCTTCATATCCTTAGCTCTATGACTTGGCCCGTCAGGCAACTGCCAGCAAGTGGGGGGCCTGAAGAGTCATAC
Celera SNP ID:            hCV122542
SNP Position Genomic:     17317
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63773):
CTGTGTATGTAAAGTATATAGGAAATATAAATGAATTTTTCCAGGCATGGTGGCTCACACCTGTAATCTCAATACTTTGGGAGGCTGATACAGGAGGATC
R
CTTGAGGCCAGTAGTTTGAGACCAGCCTGGGCAACATAGTAAGACCCTATCTCTACAAAAAATTTAAAAATTAGCTGGGCATAATGGTGCACACCTGTAG
Celera SNP ID:            hCV477283
SNP Position Genomic:     22995
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63774):
TGTGGACTGCTGAGAAGAGGATTACCAGCAGCCCAACCTGACCTCCTCACAGTGCTGGAATCAAGCGAGCAGGAGGCCCTATCCATTTCAGTCTCTCTAA
R
GCACATTTCATTGGAGGGCTCTGATTGGCCAAGCTCTGGTCACATGCCCATCCCATAGACCAATCCTGATGGACCCAACTATGGGATGGAGGTTAAAAGT
Celera SNP ID:            hCV122543
SNP Position Genomic:     16442
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63775):
GGGAGGTGGGTGAGTTGGGAGAACCTTAAAGGTCACCCCTGTTCTCGAGGGTCTAGATGGGAGAGTACAGCTCCAGCCCCATTATGCCAGACTGGGTTGG
Y
GTTGAAATGCTCCCTGCAGTGGGCTGGTGGGGCTTTGGGAAAAGCTTCATCAGGGAAGCCTTCCCAGAGGAGGCAGCACTGGTCCTGGAACTTCAGTGCA
Celera SNP ID:            hCV122544
SNP Position Genomic:     16109
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63776):
TCAAGCAATTCTCATGCCTCAGCCTCCCCAGTAGCTGAGATTACAGGTGTGCACCACCATGCTGGGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTC
R
TCATGTTGGTCAGGCTGGTCTTGAATGCCTGGCCTCATGTGATCTGCCCAGCTCACCCTCCCAAACTGCTGGGATTACAGGCATGAGCCACTGTGCCCAG
Celera SNP ID:            hCV11477630
SNP Position Genomic:     11310
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63777):
ATTACAGGCCTGAGCCACCGCGCCCAGCCAAGTCCACACTCTTAAAAACTACACTCAACTGCTATTTCTTGGTTTATTTTATTTTATTCTTTTTTTGAGA
Y
GGAGTTTCACTCTTGTCCCCTAGGCTAGAGTGCAGTGGTGCCATCTTGGCTCACTGCAACCTCCACCTCCAGAGTTCAAGCAATTCTGCCTCAGCCTCCC
Celera SNP ID:            hCV11477631
SNP Position Genomic:     9786
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63778):
CGGTCCAAGTAGGCCCTCTGGGCCACCTCTCTTGTGTTATAGATGGGGAAACCAAGGCCCAGAGAAGGGAAGTATTAGCCCAGGGTCACCCAGCAAGTTG
R
TGCCACAACGGAGTCCCTGAGAAGCCTACCAACTCCCAAGCTGGCATCAGGGTCATTTATTTGGTATCTGCTGGGTGAGGGGCACAGGGTCAGGCCTTGC
Celera SNP ID:            hCV27484893
SNP Position Genomic:     21003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63779):
ATATGAACCCAAACAGTCTCCAAAGTCCAGACTCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACACTGTTACCCAGGCTGGAGTGCAGTGGCATGAT
M
TCAGCTCACTGCAATCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCTCGGCACCACGCCCAGCTAA
Celera SNP ID:            hCV11477632
SNP Position Genomic:     9482
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1)   total(A,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63780):
TGTGAGCTCCCCACCAGCCAGGGTATTCCCAGGGGGGTGGTGTGAGGGTGGGAGCTCTCTGTCTCCCAGGGTGTCTCTGCCCCCCACAATGTGGCTTCAG
Y
CCATTCCCAGTATCATTGCTGCTCAAGAGAGTAGGCAGAATCATCCTGTCCAGTTCCTAGGATGCTTGGATTTCCTCTGCTGCATCCGTGCTTTGCTCAC
Celera SNP ID:            hCV11477633
SNP Position Genomic:     8231
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63781):
TGTCCCTCTTCCCCTGTGTGAGCTCCCCACCAGCCAGGGTATTCCCAGGGGGGTGGTGTGAGGGTGGGAGCTCTCTGTCTCCCAGGGTGTCTCTGCCCCC
Y
ACAATGTGGCTTCAGCCCATTCCCAGTATCATTGCTGCTCAAGAGAGTAGGCAGAATCATCCTGTCCAGTTCCTAGGATGCTTGGATTTCCTCTGCTGCA
Celera SNP ID:            hCV11477634
SNP Position Genomic:     8215
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63782):
ATCAAAGCCTTTACAAGGTGCTGGGCCCAGAGGCTTTGCCTTGACAGAGTGGCCCAGGGTTTCAAGGGAGGAGGAACCTCCCCCTACCTAGGACCCTTCC
Y
GTGGGGGGTCTACAGAGTCAGGGACAGAAGGGAAGGGACCCACAGGAAGTCACAGTGGTGCCCAGGGATGTGTCAGCCCCCAGCCACGGGGACGCGGGAT
Celera SNP ID:            hCV29277114
SNP Position Genomic:     28614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:63783):
TCTCAAAGAAAAATGAAAGAAATGAATTTCATGTTTAGACTTGCATATGCATTCCCAAGATATCTCATTGTGTATATGCAAATATTCCAAAATCTGAAAT
Y
TGAAACATTTCAGATAAGGGATGCTCAGCCTGTATCACCATTTACTATCACCATCATTTTGTATTGAAGAAAGATACTTCAAATCTCCAGAAGTAGGAGG
Celera SNP ID:            hCV26911688
SNP Position Genomic:     23275
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63784):
AGCTTTGGGACAGATGAGTGGCTCTGTCCTGTCACTGCCCTCTCCCTGCCTGGGGGCTATGTGCACTCCAGACCCCTGCCCAGGCTCAGGCCCATGAGGT
R
TGGAGACACCCTGGCCCCCAGGAGCTGGAGGCACCGCCCACTCCCCTGGCATTCCAGCTTTGCAGGTGACCCTCCTCTACCCAAAGCTCTGTCCCCCTGC
Celera SNP ID:            hCV29277115
SNP Position Genomic:     28289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:63785):
AGTGAGCCGAGATTCCACCACCGCACTCCAGCCTGGGCGATGGAGCAACACTCTGTCTCAAAAAAGAAAATTCTACACATATGTACTTAACACAAACTTT
K
TTTCATGTACAAAATTATTTAAAATGTTATATAAAATTAACTTCAGGCTGTGTATGTAAAGTATATAGGAAATATAAATGAATTTTTCCAGGCATGGTGG
Celera SNP ID:            hCV26911689
SNP Position Genomic:     22847
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63786):
CTGGATAAACCTTTGTCCCAAGGCTGCCGAGAAGGTCCAGCGATCACAGGAAGAATTAAGTGTACATGATGGGGTGGGGGGTGAAAGGAGTTGGGGTGGG
Y
GGCATTAGGGGCAGACTCCCTTGAGGCCCGAGGGCCGCGTGGGGCTGTGCCCAGGTGAGCCCATTCTTCCATTTGCTCCGCAGCTGGTATTCCCTCTCGA
Celera SNP ID:            hCV29277116
SNP Position Genomic:     21271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63787):
GTGCCACAACGGAGTCCCTGAGAAGCCTACCAACTCCCAAGCTGGCATCAGGGTCATTTATTTGGTATCTGCTGGGTGAGGGGCACAGGGTCAGGCCTTG
M
CTGGAATTGCATCTGCTCTGTGTCTGGGGACAAGTCCGTTACCTCCTCTGGGACTCAGCTTTCCTGTCTGGATAAACCTTTGTCCCAAGGCTGCCGAGAA
Celera SNP ID:            hCV29277117
SNP Position Genomic:     21103
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63788):
CCAGGGCTCAGAAGAGAGAGCATTGCAGAAGGAGGAACTGCCCCTGGCCTGCCTTCCTCTCTCTGGGAAGGAAGAGTTGCAGCTACTTTGTAGAGCATTC
Y
TGTTTTCTCCTTTGTCTCCTAACGTGTACTTTGAACCTGGTTTGGAAGCAGTCCCTCCACATCAGGGCCTAGCACTCAGGAGACTGATCTGGCACTCAGG
Celera SNP ID:            hCV29277118
SNP Position Genomic:     20786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63789):
GGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCCAGAGAATCACTTGAACCCGGGAGGTAGAGGTTGCAGTGAGCCAAGATCACGCCATTGCACTCC
R
GCCCGGGCAAGACAGTGAGACTTCATCTCAAAAAAAAGAAAAAGAAAAAAATACAAAAAACTTAGGGCCGGCATGGTGGCTTACGCCTGTAAGCCCAGCA
Celera SNP ID:            hCV55229
SNP Position Genomic:     22457
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63790):
ATGCCTCAGCCTCCCCAGTAGCTGAGATTACAGGTGTGCACCACCATGCTGGGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCGTCATGTTGGTCA
R
GCTGGTCTTGAATGCCTGGCCTCATGTGATCTGCCCAGCTCACCCTCCCAAACTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGTCTAATCTTGATT
Celera SNP ID:            hCV514019
SNP Position Genomic:     11323
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63791):
CCCTCTGGCCTGTGTCTGGAAGCAGGTGAACCAGGTTGAACCAAATCACCAAGACAGACAAAGGGGTATAGGAAAGGAAGTGGAGCACCGCACCCCCACC
Y
CCGTCTCCCCTGTCCTTCCCCATTACCTTGGGATAGTATTATTTTTTCTGGAGTTGAAGGGCGTAGGCTGATTTTGCATATTATATATGACTGTGAGCCA
Celera SNP ID:            hCV29277119
SNP Position Genomic:     17580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63792):
GGAATTGAGCCAAGAGTTGGGGCATCTGGTTGGGTTTGTGGGTGACCTAGGGCAAGTCACTGTCCTGGGCTTCATTTCTCTCTCCAAGAAGACTGGCTGG
W
CTGGCTGCTCTGAACCTTCTTCTAGCATGAAGGAACCACATACTGGGGGCCAAAGAAGCTGCCCATCAAACTGGTGCTAGAGAGAGAGATGAGGCCAGGA
Celera SNP ID:            hCV1713050
SNP Position Genomic:     19436
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,5)      total(A,4|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63793):
ATTCACTGCATTCAGCAGGCATTCTTTAAGCGCCTGTGGTATGCCCAGCGCTGTGCCAGGCAGTAAGGGGGTAGGCAGGGTGAAGGTGGGAGAGGCTTAC
S
GTCCTGTAGGGATCAGGAGAGACAGAGCCCAAGTGGGAGTGAGCGGTCATCTTGGAGGGCTTCATGGAGGAAGTGGCACTTGAGCTGAGTCTCAGAGGAC
Celera SNP ID:            hCV238004
SNP Position Genomic:     6991
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63794):
ATCCTCAAGCCCCTCTCACTCTGTGCCCCATCTCAAGAACCCCAGTGTTGCCCTGGGGCCGGTACAATCCACCTCCGACACCAAGCCCTGTAGTGGGCTG
Y
GGTTTCCACCTCTGTGAAGTGGGGATGATGGTACCTGCCTGTCTGCCTCTCAGATGATGAGGATGCTGAGGACAGAGAGGGGCTTTGTCAAATGTAAAGC
Celera SNP ID:            hCV9143857
SNP Position Genomic:     26454
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63795):
GCGGCATTAGGGGCAGACTCCCTTGAGGCCCGAGGGCCGCGTGGGGCTGTGCCCAGGTGAGCCCATTCTTCCATTTGCTCCGCAGCTGGTATTCCCTCTC
K
AGTGGTTTCCACTCAACAAGCCCAGTGTTGGGGACTACTTCCACATGGCCTACAACGTCATCACGCCCTTTCTCTTGCTCAAGGTACTGTCCCAGGGCCC
Celera SNP ID:            hCV27859727
SNP Position Genomic:     21370
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:63796):
TCATGCTGCCAACCCCACTCTGAACCCCAGCTCATCGAGCGGTCCCCCCGCACCCTGCCACGCTCCATCACGTACGTGAGCATCATCATCTTCATCATGG
R
TGCCAGCATCCACCTGGTGGGTGACTCTGTCAACCACCGCCTGCTCTTCAGTGGCTACCAGCACCACCTGTCTGTCCGTGAGAACCCCATCATCAAGAAT
Celera SNP ID:            hCV27859728
SNP Position Genomic:     23950
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63797):
GCAGCGAGTGGCTTTGGTCCTTCCTCGCCAAGCCTGAGCCCTGAGGGTGGGGGAGGAGGACGCGTCCCTGATAAACAACCCCCAGATGGTGATGGCAGGG
R
GTGGGGGCACAGCCAGGGACCCCCACCCGTGTCGGGCCTGCTCTTTGGGAGTGGAGGAAGCTGCGGGGAGCCAGCTGGATCAGGCTGGGGAGGGGCGTGC
Celera SNP ID:            hCV97568
SNP Position Genomic:     24865
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63798):
GGGGCTAGGAACAGAGAGCTGGAGCCCCAGCAGGAAGGGGGTGTGGGTGAGAAGAGGCAGGCGGGTATACTGGTGAAAGCACAGGTGGGAGAAAGGGAGC
Y
GGTGTGTGGAGAGGGGAGAGGGTAGTATTTTGGGGTGAGGTGTCTGAGGTGGGGGTGGGGCTGTGTGCTGAGAGTGGGTGCAGTGCTTCACCAAGAGGCC
Celera SNP ID:            hCV97569
SNP Position Genomic:     25477
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63799):
TGGCAGGAAGGTGATGCTAAGCCCTGTGTCCTGACTCAAGCACGCTCCTGCCTGCTGCTGGGGGGTGAAGGCTGTGACAGAGCAGCATGTCCAGGGCCTG
S
GGCCCGGGGAAGGCGGAGCTGCCGGTGGCCTGGAGGGATGGAAAATATGCCCCAAGAAAGGGCTTTTGATTTGAGCCTCAGCCTGGCGTGCCAGTGGGGG
Celera SNP ID:            hCV15969164
SNP Position Genomic:     21606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63800):
TGCAGAAGGAGGAACTGCCCCTGGCCTGCCTTCCTCTCTCTGGGAAGGAAGAGTTGCAGCTACTTTGTAGAGCATTCCTGTTTTCTCCTTTGTCTCCTAA
Y
GTGTACTTTGAACCTGGTTTGGAAGCAGTCCCTCCACATCAGGGCCTAGCACTCAGGAGACTGATCTGGCACTCAGGAGCGCCAGAACCCGAACGGTCCA
Celera SNP ID:            hCV26911690
SNP Position Genomic:     20809
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63801):
ATCTGGTTGGGTTTGTGGGTGACCTAGGGCAAGTCACTGTCCTGGGCTTCATTTCTCTCTCCAAGAAGACTGGCTGGACTGGCTGCTCTGAACCTTCTTC
T
AGCATGAAGGAACCACATACTGGGGGCCAAAGAAGCTGCCCATCAAACTGGTGCTAGAGAGAGAGATGAGGCCAGGAGTGGGCTCGTGGCTCCCCTCACT
Celera SNP ID:            hCV26911691
SNP Position Genomic:     19459
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63802):
TGTCTGTCCGTGAGAACCCCATCATCAAGAATCTCAAGCCGGAGACGCTGGTGAGGCCACCTCCTGCTCCCTGCCTGTAAGCCCTAGGAGCACAGTCTGT
Y
CTGGGAGGCTGAAGAAATGGCCCCCACCCCTCGCCGCACCTGTCCTTTCACCAAAGGCATTCTGCTAGGTGAGGGCACTGTCGCCTGCCCCAAGCTAGGA
Celera SNP ID:            hCV22272679
SNP Position Genomic:     24119
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,3)   caucasian(C,20)   total(C,43|T,3)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,9)   caucasian(C,23|T,9)   total(C,40|T,18)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63803):
CATCTGGTTGGGTTTGTGGGTGACCTAGGGCAAGTCACTGTCCTGGGCTTCATTTCTCTCTCCAAGAAGACTGGCTGGACTGGCTGCTCTGAACCTTCTT
C
TAGCATGAAGGAACCACATACTGGGGGCCAAAGAAGCTGCCCATCAAACTGGTGCTAGAGAGAGAGATGAGGCCAGGAGTGGGCTCGTGGCTCCCCTCAC
Celera SNP ID:            hCV26911692
SNP Position Genomic:     19458
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63804):
ACATGGTGGCTCACAGCTGTAATCCCAGCACTATGGATGGCTGATGTGGGTTGATTATTGAGCCCAGGAATTTGAGGCCAGCCTGGGCAACATAGTGAGA
Y
CTCATCTCTACAAAAAATAATAATAATAATAATAATAATAAAATAAAATTAGCTGGGCATAGTGGCATGCACCTGTGGTCCCAGTTACTCAGGAGACTGA
Celera SNP ID:            hCV11477624
SNP Position Genomic:     14708
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63805):
GCATCTGGTTGGGTTTGTGGGTGACCTAGGGCAAGTCACTGTCCTGGGCTTCATTTCTCTCTCCAAGAAGACTGGCTGGACTGGCTGCTCTGAACCTTCT
T
CTAGCATGAAGGAACCACATACTGGGGGCCAAAGAAGCTGCCCATCAAACTGGTGCTAGAGAGAGAGATGAGGCCAGGAGTGGGCTCGTGGCTCCCCTCA
Celera SNP ID:            hCV26911693
SNP Position Genomic:     19457
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63806):
CGAGTAGAGGGGACAGGAAGACTTAGCTGACCTAGGGAAGGCCTACCCAACCTGTCTTGCCTGCCACTAGAAAATGAGATTTCTCCCAAGAGCTTGCCTC
S
CTGTCCTGGGGTACTCTACCAGCCAGTATGGATCATCCTTGGAACTGGCAGGAAGGGATCTCAGAAAATTAGGGAAGCAACAGCAGTATCGACAGAAGAC
Celera SNP ID:            hCV29277120
SNP Position Genomic:     15633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63807):
CCAGTAGCTGAGATTACAGGTGTGCACCACCATGCTGGGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCGTCATGTTGGTCAGGCTGGTCTTGAAT
K
CCTGGCCTCATGTGATCTGCCCAGCTCACCCTCCCAAACTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGTCTAATCTTGATTTGCAAGCTGGTTGC
Celera SNP ID:            hCV514020
SNP Position Genomic:     11337
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63808):
CACCTCCCAGACAGACGATGGGCAGCCAGGCAGAGGCGCTCCTCACTTCCTAGACGGGGTGGCGGCCAGGCAGAGGTGCTCCTCACTTCCCAGATGGGGC
R
GCCAGGCAGAAGGGCTCCTAACCTCCCAGACGGGGCGGCTGGGCAGAGGTGCTCCTCACCTCCCAGATGGGGCGGCCGGGCAGAGGGGCTCCTCACCTCC
Celera SNP ID:            hCV26911694
SNP Position Genomic:     13503
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63809):
CCCAGACGGGGCGGCTGGGCAGAGGCGCTCCTCACTTCCCAGACGGGGCGGCCAGGCAGAGGTGCTCCACACCTCCCAGACGGGGCGGCCGGGCAGAGGC
R
CTCCTCACCTCCCAGACGGGGCGGCCGGGCAGAGGCGCTCCTCACATCCCAGACGATGGGCAGCCGGGCAGAGACGCTCCTCACCTCCCAGACGGGGCGG
Celera SNP ID:            hCV26911695
SNP Position Genomic:     13284
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63810):
TGACAAAAGGAATTGTTGCCACAGCTCCTTACTACACGGGTGGCTTTGGCTAAGCACCTAATCCCTCTAAGCCTCAGTATCCTCATCTGTAAAGCAGATG
Y
GTGGATTAGATGAGATAGTGCAGGTAAAGACCTAGCATTGCACATAGTTGGTGTTCAGTGAGGGGGTGGAAGATACCGAGTAGAGGGGACAGGAAGACTT
Celera SNP ID:            hCV29277121
SNP Position Genomic:     15456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63811):
TAGGTGAGGGCACTGTCGCCTGCCCCAAGCTAGGATGCTCAAGTGTTCTTAGGAAGTGGTGCACAGACTGCCTCCCACCTGGGCCCCTGTAACAGAAGGC
R
AGGCCCCGGGTAGGGAATAAGGCAGTGGGGGAGGCCTGGGACTGGGAGAAGGGTGGTCAGAGGGGATGCTTGGGGCCCCAGCACCTCCCTGGACTGACAT
Celera SNP ID:            hCV25601864
SNP Position Genomic:     24285
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,13)   caucasian(G,2)   total(A,1|G,15)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,34)   total(A,2|G,70)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63812):
TGTTTTCTTTTTGAGACAGTTTCACTCTTACTGCCCAGGCTGGAGTGCAATGGCGTGATCCTGGCTCACTGCAACCTCCGCCTCCCAGGTTTAAGTGATT
S
TCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCACACCACCAAGCCTGGCTAATTTAGTATTTTTATATAGAGACAGGGTTTCACTGTGTTGGC
Celera SNP ID:            hCV11477627
SNP Position Genomic:     11796
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,2)   total(G,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63813):
GGCTCCCTTCCCTCATGCAAGCTTTGTGTATTGCCCTAGGCCACGCTGATCCTTTTCTTTTTTTTTTTCAGTATTTATTGATCATTCTTGGGTGTTTCTC
R
GAGAGGGGGATGTGGCAGGGTCATAGGATAATAGTGGAGAGAAGGTCAGCAGATAAACACGTGAACAAAGGTCTCTGGTTTTCCTAGGCAGAGGACCCTG
Celera SNP ID:            hCV26911696
SNP Position Genomic:     12654
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63814):
GCAGTGGGTGGGAAATAGGCTGACAAAAGGAATTGTTGCCACAGCTCCTTACTACACGGGTGGCTTTGGCTAAGCACCTAATCCCTCTAAGCCTCAGTAT
M
CTCATCTGTAAAGCAGATGCGTGGATTAGATGAGATAGTGCAGGTAAAGACCTAGCATTGCACATAGTTGGTGTTCAGTGAGGGGGTGGAAGATACCGAG
Celera SNP ID:            hCV29277122
SNP Position Genomic:     15436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63815):
TGTATGGCATGCACTCCTCAACTGTCGTGGTGTCATTGTCCCCATATGGTAGACTTGGAAAGCTGGGAAGGAGAGAAGAGTCTAACCTTGTTTCAGGTTA
Y
CTGCCATTGTGCCATCACCATTGTTTTCAGCAGCATTTGCTAGTGATTGAGACCTAGCTGGCACAGGCTGGGGGCTCAGTGTGCTAAGTCTGTGGAGCCA
Celera SNP ID:            hCV29277123
SNP Position Genomic:     10879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63816):
GGTCCCTCCAGCCCTGAGTAGGACTTGATTCTGTCATTTATCAGGAGGCTGTCTGCTTGACCTGGGGCACCCAAGAATGTGCGAATGTAATGGAAGAGAC
M
GCGGGGAAGGGCGGAAGCTGCCGTCCAGAGAATGAATGAGGAGCCCTTCTCAGTTTTTGGTTTATCTCGTTGGGCGAGCAGAGCTCCATTCTACCTTCGT
Celera SNP ID:            hCV29277124
SNP Position Genomic:     6769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63817):
CACTGGGAAGAGAGGAAGAAGCCAGGTGGCAGGAGAGGCAGCAGCAGCAGCTGAACTCCATCCTCTGCCCTGGAGAGCCCTGAGATGTCACTGGGAGCAC
K
AGCAGGAACTGCTGGCTTTGCACTTTGCCAAGTAAGGCCTTTAAAACTACTATAGGTTGAGCATCCCTAATCCAAAAATCTGAAATCTGAAATGCTCCAA
Celera SNP ID:            hCV27878602
SNP Position Genomic:     21924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63818):
GGAGGCACCGCCCACTCCCCTGGCATTCCAGCTTTGCAGGTGACCCTCCTCTACCCAAAGCTCTGTCCCCCTGCTCCCACTCCAGAAGAACTGCGGCACG
Y
GCTTCGGGCAGCCTAGCCACAGGCTTTGAGCGCCTGCATTCCTGGGGGCTGGAGGGTGGGGTGCCAAAGGCCCTGAGCAAAAGCCAGAGCTCCTCTCATC
Celera SNP ID:            hCV9710643
SNP Position Genomic:     28416
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:63819):
GGAAGGTGATGCTAAGCCCTGTGTCCTGACTCAAGCACGCTCCTGCCTGCTGCTGGGGGGTGAAGGCTGTGACAGAGCAGCATGTCCAGGGCCTGGGGCC
Y
GGGGAAGGCGGAGCTGCCGGTGGCCTGGAGGGATGGAAAATATGCCCCAAGAAAGGGCTTTTGATTTGAGCCTCAGCCTGGCGTGCCAGTGGGGGAAGCA
Celera SNP ID:            hCV9143881
SNP Position Genomic:     21611
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63820):
GTGGCCTCTTTGTTTCCATGAAGCCCAGGCCTGGGTGTGGCAGGGAGGTGGGAGGAGAGGGCGAGGTTGCACAGTCTGTCTCCATCCTCAAGCCCCTCTC
R
CTCTGTGCCCCATCTCAAGAACCCCAGTGTTGCCCTGGGGCCGGTACAATCCACCTCCGACACCAAGCCCTGTAGTGGGCTGCGGTTTCCACCTCTGTGA
Celera SNP ID:            hCV97570
SNP Position Genomic:     26371
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Gene Number:                 392
Celera Gene:                 hCG24088 - 145000146735193
Gene Symbol:                 KIAA0409
Protein Name:                KIAA0409 protein
Celera Genomic Axis:         GA_x5YUV32VW1T(44268761..44284517)
Chromosome:                  Chr11
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12552):
CCATTTCCTCCCCAAGGAAATTCAACATCCCTACTCACTGGTGCCTTCATGTAGTACATTGTAGAGGGATCCATACGGCATCCAGTGTGTGATGAGAGTA
GGATGAGGAGCAGGTGGAGACTGGCAGGCACCTAGCACTGGGAGCACATTTGGATGCGAGAAAATCCTAGAAGAGGGAGGGAGTGGTTGAGACCCAGTAC
AAAAGATCTCTTTCAGTGCTATTCAGGGTTCCTTGGAACTAGCAGCTTCCAGGTTACGCCTTGCACTACCTGAGCCGGGGACACTCTTCATTGAAGTCCC
TGCTCTTCCTTGTACTCCAGTCTCGAACCTTCAGCACCTTCACGACAATGTCATTGCCCTGCCAGCGGCCCTTCCATAGCTGCAGGACAGGTAGGGGTTA
GGAGGCTTGAAATGTTGCTGCCACTTCCTTGCCCACTAACTGGAGGAAAAACTTAAAACAGGTACAAAGCAAGTAATTTATGGGGGTTTAGTGAGGGAAG
GGCAAGAAGGGCAGGGGTCACCTCTCCAGAGTGATTCTCGTTGAGCTTCGTCAGGAAGTTAAGCTGTTTGAAGTCAATGCCAGAGTGTTTGTTCAGGGTT
CCATTTCCTAAGAGTGTGGGCAGGTCAGGTACCCAGCTTCACCCTAACCCAGCCCCAAGAGGCCAGGATTATTTCCTTTTACAACCCTTCTTCCCACAGT
GGTGACTCACGGGGCCGAGTGCGGGTGGTCCCCTTCCAGAATGTGTCCTTGTATGGAATACGGTTGAGATTCTGGCCCATCTTCTCTGCCCGCTCTAGGG
AAGAAAAACAACCTAAGCTGTGGTACAGAGGGAGAAGACAGGTGGGAAGGGACGAGAGGACACAAGCTAGGGGATGGGGAGATGGACCTCGGAGAAGCTC
TCTCAGGGGTGCCTTGGCTTTGTCCACAGGCATCTCTCCATACTTGTTACAGATGCTGACAAGGGCCCCATTTGCCACCAGGTCCTGGAATGAAAAGGCC
ATTATGATGAGAGCCACTGCTACCTCGCTGGCAGTCACTGAACCAACCATGAATGCACAAATGTAGAACTTAATCCTGTAAGTGTCACACAGTAGTACTG
ACAGAATGGGTTGAGGGTTCCAAAATCTCCCACCAAGGCTCAGACTTTACTTCCTACCCATCTCAGGAATTAAGGGCTGAGTACTCACCTCTGCCACTTG
ATCTTGGCCCCAAAAACAGGCATAGTGCAGGGGCACATTCCCGTGTTCATTCACTGCATTGATGTCTGCCTTGTACTGCAATAGCTGGACCCCATGGCCA
GACAAAAAGAAGAGGCAGAAAGTACAGTCAGTTCCAAATGAGATACTGGTGTCAGGGCATGGGAAAAGGGGGAAGAGCACACATGCTTTCTACTGTATGT
TACAGTGCCTGTGACTGACCCTCATGGCATGTATGTGATGTGGATGACGAAGGAGTTTGTACGTACCTTCTGTACAATATCACGGTGTCCATGACTGGCT
GCCAGATGCAGGGGGGTGTCATCCCCACGGTTCATTACATTGATCCGTGCCCCCCGCATGATCAACATCTCAACCACAGCAGAGCGGCCCTCTCGGCAGG
CCCAGTGCAAGGGGGAGAAGCCATGATCGTCCCTTTGAGGAAGGGGCAATGGTCATTGAGCTGGAGGTGGGATGGGGCAAAGGTTTTGATTCCTGAAAAA
CTGATAATTACATACTCTCTGGGAAGGCTTACCTCTCTAGGACTTTGATTCTCATTCATGCCAGCAACTCCCAAAGCTGTCCATTTCAGACCTTCCCCTG
AGCTTCAAACCAAACCAACCACCTAGATATCTCAACAACCTCTATAAAAAAATGTGTTATCTTCACCATATCCCACATCTCATTTCCTTAGGTGGTAGTG
CTCTTCCCCTGGTTTCTCTTGCACCCCTTCTGCAACATCTATTGGTCCTTTCTGTTTTCCACCACATCTTATATGTCCCCCTACTTCAGCACTTGTTGCA
CTGGATTGTAAAAATCTGTTAATGGACTGTCTTGTCTGTTAGACCTTTAAGTTTCTTGAGGGAATGGATTGACAGCAGCTGTTCAGTGCATGTTAGTGGG
GGAGAAGGGTGTCTTGGAGAAGGCAGGCCACAACTTATAGAAGAGGGAACAAACTTACTATTTGGCTCTGGTACTGAAACTAACATCTAAAAATGGAATG
GAATTTAAATGATGTTTTGGAAGGGTTTATGTTGAAAAGGAGAAATGCTTTTGACTACTGATGAGGTAGATAACAAACCACCATGCAAAGCAGGATTCCC
CTACTTAGCAATCCTGTGCATAGAAAACAGAAGAAAATGAGAATGGCTGTTTTGGGATTAAAACTATACCTGATTTTTTTCTTTTCCAAGAAATATGTAT
TTTATAAAGTAAAGTATACAAACAAAACAAAACAATTGGTTTGGAGCTGGGCCTGCCTGACAGCCTGGGGCCATAAAAGGAAATTCCCTCCAGTTCGGGG
CTGCAGATTCAAGGGGCGGAGCAGGGGGCGGTCCGTGGTCTGGGCCAGCAGCCTCCGGATGCCTTAGTGTTGTGGTCACTTCCTGTGTGCGACTCTAGGC
AAGGCCTGGAGCTGATCAGGGGTCTGGCCATCCAGATGCCCGTACAGCTGAAGGGGTTGGGGGGTGTGGCCTTTAAGTTAATCATTTTCCTCCACAACTT
GCTCGCATCTGCTAACACAGAAATAGCCAAAAGCTTTTCCTTGAGATGGGATTATCCCCAGGAAGCATTACGCCCCCTGTTTATCAGTTGGTCTTGCCTC
CTAGACCTTTAATTTGTGCCCTGACTTATCAGCTTCCAGTACTGCCTGTGGCGCCAGGGCAGGCCAAACTCGGGGGGCAAAAGTATGGGCACAAGGGTTC
TGTTCACTATCAGGCTGCGTGCCACCTCAGGGCCTGGACTTCTATCTCAAGAAGACCTGCAAGGAATTAACCCCCTCTTCATATCCAGCATATAGCCAAC
TTTGGCCCCCATACTTTACTCCTCAAACCAGCACCACAACCTTCCAGTTTCATTAATTCCACCCCTTTTCCTTCTGGCAGCATCTTCCTAGAGTCTTCCT
AGACTCAGCTAGAGTCTTCCTAGATGCTAGGCCCACTGGGCAACTGCCTAAGCCTCTATTTCCTCACCAACAAAACAGTAACAGTGCTTACTGTCTTTAT
CAGGGTACCCTTTGAGAATTATATGAAAAATGGAACAAATGACTTTGCAAAGTATTAAAGAGAAATAGTGTAGAACCTAATGGGAACCAGTGAAGTCTAG
ACTAAGATGACAGGTGATCCTGACCTGTCAAACCTAAAAACTAAACTCCACCAATTTTAAAAAATAAAGAATTTGAATTTGCCACTCTGAGTCACCATCA
CTACTGCTCTTCTTGCCTTCCTATCTCAGCCAACCTTGTAGAACTGGTGTACATTCACTTTCACTATTTGCTCACCTCTCAACTTTTGTTTTCTTTTTCT
TTTTTAAGACAGAGTCTTGCTCTGTGGCCCAGGCTGGAGGGCAGTGGCATGATCTTGGCTCACTGCAGCCTCTGCTTCCCGGGTTCAAGCAGTTCTCCTG
CCTCAGCCTCCGAGTAGCTGGGATTACAGGCGCACGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCT
GGTCTCGAACTCCTGACCTCGTGATCCACCAGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTACTTTTCAATCTGCC
ACAAATCTGCTGTATCGAGAGCAGAGATTATGTCAGATTCTGGACTCTAGCACCCAGCACAGAAGGTGTTCATCATAGTGCCTTAAATTAAGGAACCCAA
TGTAGTCTGATTTCTTCACCCATTATTCTGAAACAACACTCACAGATGGTCAAATACATCCTAACTGCACACTGAGGGGAGCAACAGACACTGGGGCCTA
CCAGAGTGGGGCGGGTAGGAAGAGGGAGGGATCAGGAAAAATAACTAATGGGTGCCACGGCTTAATACCTGGGTGATGAAATGATCTGCACAACAAACCT
CCATGACCTGAGTTTACCCATCCAACAAACCTGCACATGTACCCCTTAACTTAAAAAAAAAAAACCCAACTGTAAATTCAATGGCTACTTTAAAATATTA
ATGTTCTTTGATCTCTCAGTAGCCTGTACTGCCGTTGACTACCTCCCCTTCATTAAAACATTCTCTTCTGTAAGCTTTACTCACACATTTTCCTATTTCT
TTTTCAACTTGCGGTTGCTCCTTTTCTGTCGTGCAGGCTTCCTGTCCCCTGACCTCTTGCCTTCCACTCTCCTGAGACGTTCTCCTTCACAACCACGTCT
TCAAGTATCATCTATATATATGATATATATATGCTATCTATATGCTGATAGCTCTCAAATCTGTGTCTCCAAGTCAGATTCCTCCCCTGAATTGCAAATC
TGCATAACCAACAACACACTCAACATTTCCACCTTGCTGTATTGTCACCTTAACTTTAACATGTCCAAAATAAAATGCCTCATCCTCCAGTTTTCTCCAT
CTCAGTAAAAACAACCAAGTTCCCAAGCCAGAACCCTGGTCCTCATCTTTGCCCTTACTCACTCCCCACACCAAGTTCCACAATTCTTCGTCCTAAAGAC
TTCTGGAATTTGATCACTTCTCTTTTTCACTCACCCTAATTCTAGTCCAAGACATCATTACTTCTACGATGAACTAGGCAATTGCCTCCTTTCCACCTGC
TCTTCACAAAGCATCCAAGACGATACTGAAAAATGGACAATCTCATTATGTCACTATACAGCTTTAAAACCTTGCTTTTAAAATAAAGACCTTCTTATAG
CCTAAATATGCTTGCATGATCTGGCTGATCCTTGGAGACCTCTACAGTCTTATGTCCTGTTCTTTTCCTCTTGTACCCAATGCTCCGACCCACAGAGATC
ATCTATCCTCCAGCCATATGGAACTCCAGACAATTTCCTGTTCTCTCTGCTCTGTGCCTTGCCCCCTAGCCTTTGGCCATGCAGTCTACTGAGGCTGGAA
AGCTCTCTGTAGCCTCTGCCTGTGAAACTCTTATTCTGCAGTCAAGATTCAGCTCAAACTGCGTCCTCTGTGAAAACCCTCTGCCCCCCACAGGCTATGC
TTAGCACTCATTACACTGGCTAGCAAAGGCAGCCGCCACCACCAGACATGAGCACTCCACTCCACGTAGCCAGGAGATCTCTAGCCTTCCTCTCATCCAC
CAACCGTTTCAGCTCACCCCTGGTTGAGGTCGTTCTCCGTGTTGTCCAGCCACAGGCGAACGGCGACTGCGTTGCCCTCCCGGCACTGAGTGAAAATGTC
GTCCATAGCAGCGTCCCGGCGCCGAGTCCCCTGGATTGGGGAAGCCTGAGGACTGTGGAGTGATCCAGGGAAGGAGGATGAACCCCAAGCTTTATCCTCT
ACAGGAGAGAAGTGTTTGTGTTGGGGGTAGGGGGCCTGAGCTGCGTCCCCGGCTAGTGGGGGTCTGTGAAGGAGTTCGGGGCTGCGGGATGATCCCTGGC
TGTGTCCTCTAGACGCGAGGTAAAGGCGGGTCAGGGTGGGCAGGGGGTGACGAAGAGGTAGTGTCTGCTGAACGGATGTCCGAGAGCAGGCAACTAGACC
CTATCCGCGAACAGAGTTGGGGGAAGTGGGGAGGTTCAGGCTCCGTATACTCTGGGAGAGGGGACCGGGGGTCCTCCCCAGGGTTGGCTCCGTTCCTTAC
TTGGGACTCAGGAGAAGTGAGGGGTGACAGGGGGCGCGGGTCCTCTCGCACTCACCGGGACTCGGGCTGCAGGATCCTTCTCCGGGGAACTCCCGTCCGG
CCGCGCCCGCAGCCCGCCGCCGGCCCCGCCCCGCCCGTGGCGCTCTTGGGCAGCGCGGGCCTCCGTCCCTCCCCTCCCACCGCCTCCCTGCCCTTCTAGC
CGCGCCTGGYTAAACTCGATGGTTCGCTGCGCCGCGCCGGCCGCTCTAGCAACCCCTGGCTGTCACGCTTTGGTTTCCGGGTCGGTTCTGGCAGGTCTGA
GCGCTCCGACTTCCAKAGGAGCGCTGTGCACGTGGAGAAGAGCGGGGACTCGGCGACCCTGCCCTCCCGACCCTCATGTTCGAAGAGCCTGAGTGGGCCG
AGGCGGCCCCAGTAGCCGCGGGCCTTGGGCCCGTAATCTCACGACCTYCGCCTGCGGCCTCCTCGCAAAACAAGGTGAGTGACTCGCGGGAGCAATGGGA
GCTGTTTCAGGCCGCGAAGCGGACATTGGTGGATCCCAGCGCTGTGTGTATTGCGGGGAGGGACACCTGTGGCACCGTTAAGGGCGAGTCCTGATCTGAA
GATCCGAGAACTTCCAAAAGAAACTGACGTTGGGTCAGAGAGAGTTGTTGAGTAGAAGTTGGTGAAGCGAAGAGGGTTCTTCAGACAGGAAAAAGTACGT
ACAAGGGCCCTGGGACAAGAGAGCATGTTCTGTYAGAGTCACAAACACAAGTGGTCCTTGTGGTTGAAATACATAGTAAATGAAAGGGGCATATATGCTG
TTCAAGTTCAAGAGGTAGAAGTTTTGCGTATATTGAGAATAGAAGCCAATGAAAGGTTTTAAGCAATGGAATTATTTCTTCAGATTTGTATTTTGAAAGG
GTCGTCGGTTACAGTGTGGAGGATGGRTTGGAGACAGTAAGAGTTGTCAGTATCATTGTTCAAAGGAGGGTGTGGGAAACTTAGAATCAGGGTAAGTGCC
TGGCCTAGGATTACCTGGTAGGACTGCAACACAGAATCAGCCTTCCCGACAATACATCTTCTCCTTTGAGCCTCTGCAGATGTGAGGGCCCTGCTTCCTC
AGGCTTTTCTTACCCTTCAGTCTGCCTCCAACATGGAATCGGCCTGCTTTGTTTCCTCCTTTTTCATCCCCTAGCCCCATTACCATTGTYCAAGCCGCTG
GCCTCTCTGTCTGCAATTTCTCCCCTTCAGTTTGTTTTCTACACTGCAGCTAGAGACATGTTAAATATTTAATATACGTGTGTGATCATGTGTCTCCTGT
GTTCAGAAGCCTCCTTACCTCTTACAGAAATGTATCAGCTCTAGGCAAAAGCTCAAGGTGAAGGGTTGGAATTCCTGGTCTCTGGCCTTGGTCTTGTTGC
TTGTGGCCTTTGCATTTTCCTTTGGGGAAACCTCCATTAGCTCATTTACACATTGAAGAAAGTGGGATAGGTGGTTTCTCTGCTCTCCAGCTTCCCAGAA
GTTGGGGTGGTGACATAAAAGTTCTTCTGGGTTCTGGCAGGCTTGACTGGGAAGAATTCAGATGCTTCTGCCAGTCTGAATCAGGTCCACATCTCTCCCT
TCTTGTTCTCCAGGCCTCATCCATTCTCTTTAGRCCCACTGTCATCCCCTGTTTTCCTCCAGGGCTCCAAGCGCYGCCAGCTCTTGGCCACATTACGGGC
CCTAGAGGCAGCATCTCTTTCCCAGCATCCCCCCAGCCTATGTATAAGTGACTCTGAGGAGGAGGAGGAGGAAAGGAAGAAGAAATGCCCCAAAAAGGCA
TCATTTGCCAGTGCCTCTGCTGAAGTAGGGAAGAAAGGGAAGAAGAAATGTCAAAAACAGGGCCCACCTTGCAGTGACTCTGAGGAAGAAGTAGAAAGGA
AGAAGAAATGCCACAAACAGGCTCTTGTTGGCAGTGACTCTGCTGAAGATGAGAAAAGAAAGAGGAAATGCCAGAAACATGCCCCTATAAATTCASCCCA
GCACCTGGACAATGTTGACCAAACAGGTACCATTGGATGTGTATATGTGTGTGTGTTGGTGTGTGTGTGTCGGGGGGTCAGCTGGTTCTACATACAAGAG
TGATTATCCACTGYCATTAGGATTGGGGCTAATGGTGTACTCAGGCAATAAGAAGTAYTTCTCTGCAGGCCACAGTCACGATCTCAAAGACAGAGGTATG
GCTGGGATGACTTGCCGTGACTCCGAATGTAAGAGATCTTGCCTCATGTGYACCTTCCCATCTCCCTCCCTGTAGGTCCCAAAGCCTGGAAGGGTAGTAC
TACAAATGATCCACCAAAGCAAAGCCCTGGGTCCACTTCCCCTAAACCCCCTCATACATTAAGCCGCAAGCAGTGGCGGAACCGGCAAAAGAAYAAGAGA
AGATGTAAGAACAAGTTTCAGCCACCTCAGGTGCCAGACCAGGCCCCAGCTGAGGCCCCCACAGAGAAGACAGAGGTGTCTCCTGTTCCCAGGACAGACA
GCCATGAGGCTCGGGCAGGGGCTTTGCGAGCCCGYATGGCACAGCGGCTGGWTGGGGCCCGATTTCGCTACCTCAATGAACAGTTGTACTCAGGGCCCAG
CAGTGCTGCACAGCGTCTCTTCCAGGAAGACCCTGAGGCTTTTCTTCTCTACCACCGCGGCTTCCAGAGCCAAGTGAAGAAGTGGCCACTGCAGCCAGTG
GACCGCATCGCCAGGGATCTTCGCCAGCGGTGAATGGGGGTCAGGGACTGTGAGAAGCCATGTGGTGGGTCAGTCATAGGCTCAGATCAGACCAATATGT
GACCCTTGCCTTCCACTCTCAGGCCTGCATCCCTAGTGGTGGCTGACTTCGGCTGTGGGGATTGCCGCTTGGCTTCAAGTATCCGGAACCCTGTGCATTG
CTTTGACTTGGCTTCTCTGGACCCTAGGGTCACTGTGTGTGACATGGCCCAGGTAAACCCCTATGTTATCTGGCTTGTGCTCTAGGGCCAACCTCCGTAT
GCTAATCTCTAACCCTTCCTTCCCCTTTCCCATCCTGGTATCTCAGTGCTGGCTTTCTTCTTCTGCACTGTGTGCCTTATACAACACTSTCACTCTCCAC
AGGTTCCTCTGGAGGATGAGTCTGTGGATGTGGCTGTGTTTTGCCTTTCACTGATGGGAACCAACATCAGGGACTTCCTAGAGGAGGCAAAYAGAGTACT
GAAGCCAGGGTAAGAGCCCCCAGGACACAGATGCATGTATGTATGTGTGCATGCATGAGTCTGTGCACTTACACAGAACTTTCTGTCTTTCTCAGGGGTC
TCCTGAAAGTGGCTGAGGTCAGCAGCCGCTTTGAGGATGTTCGAACCTTTCTGCGGGCTGTGACCAAGCTAGGCTTCAAGATTGTCTCCAAGGTGAGGGC
CCCAAGACATCTGTACCTGTTTTTGTCTCATGTGGCCCTATTCAGGGTACTGGTGTTCAGGAAGGAGGCTTTAGGCACAGGAACAGACATTTTGCTCCCC
AACGGAAGTGGGAGCCCTGGGAAGCTTTGTGAGCAGAGGCAGTACATAGAGGGAGGTGTTTTAAGGAGTTGGGATGAGGATTTGGTTCTCAYTGGGTCTT
TTCTGCCCCTAGGACCTGACCAACAGCCATTTCTTCTTGTTTGATTTCCAAAAGACTGGGCCCCCTCTGGTAGGGCCCAAGGCTCAGCTTTCAGGCCTGC
AGCTTCAGCCATGTCTCTACAAGCGCAGGTGACCTCTGRATCTTCCTTGAAAGGGGAGGCAGATCTCAAACTCCAGGCTCAGAACTGTGAAGACTGTTTC
CAGCCTGGCTGTGAGCCAAGACCTGGTTCCTGGTGGACCCTGAGGACAAAGTGTGATAAAACCTCTGGCTCAGACTTGCTCTRCTGAAGGCTTCTTGGTT
ATAAGATGCATAAAGTCACTGGGGCTAGCTAAACAATAAAGAGTTTATTGTGAGAACATGGGGATATCTGTCTCATGACACTTCAGGTGTTATGAAAACT
AGATGGTTTGGAATTCAAGGCATCTTTAGGTTTTGCTCTTCTTTCCAACTAAGAAGCCACATGGCCTTCCTGTCCTGCCATCTCCACTCTGCTGTCATCT
GATCTGTCTACAGATCAGCTTCCTCTGCTCACCCATAGCTTCTGCTCCTTCAGCTTCAGTTTGCCCAGGCCTTCAAGGTTGCAGACAGGCAGCTGTTGCT
GTTTGACTCTGAGGCAACTGGTTGTCCACCAACATCTTGGCTCAAGACATCAGTCTGAGCCACCAACTTGAGACTGTTTGGTTGTCCCCATACCGAGCAT
TTCTAGTGGTTTATCTTTCCCCTCTCCCCTCATCTCCATTTTTGGAACCATATAGCATCAAGCCACTCCCAACACCTATTGTCCTGTGGGACTTTGGGAT
GTATATAGCTGAGAGCACAGATTTTGGAATCAGGTAGACCTGGATTTAATTCTTGGCCTGCTACCCAGAGGCACTTAAAGTCATTTAATCTCTGTATATC
ACATTCCTCATTTGGAAAATGGTAGAATTTTTGTCTTGCAGGGTGGTTGTGTGGGTTAACTGGAGAAATCTGTAGCCAGGGCTGGGAACATAGGAGGTGC
TCAGTAAACTAGCTATGACTATTATGTGTTGTAAGCCTTATTGTTTTTTGAAGATCTTCCCTAGGCTGGTTGGAGGCTGAGGGGTAAAGAATGGATTTGT
TGACTAAGGAAGCCTCTGGGAGAGGCTAGACCTTTCAACAGGCCTGCTTCATAGGCTATTTAATGACTTTTAATAGATTCTGAGCTTCTGTCCTTGGAGG
GGTAGTGAGGGAGCTGGGTCTCTGTTCATAAACAACTTGTTGATGCCATGTGGGCTTGGGGGCATTGGGCTGTTCATTGGCGGAAGAGTCTGTCCACTAT
CTCTGCCTTGCAGTGGACTCAGATCAGCATGTCCTGGGAAAGCTATAGGCAAGGTGCTGAGGGAAGGTGAGTTTGAATGATAGATTCTAGGCCTCCCCCA
AAAGGTATCTGCCATGTGCCCAGGTATAAAGATATGGCCTCTTGTACTTGTTTCCAGGAATACCTGACAGTACCCATTGGGAGATCATAGGTTCTATGCC
CTGAGCCAGTTGGATGCCTCTAATAAGGGGATGGAGGTTTTGAAACAGGCTGTAGTCCAGAGGGCATGTTTGGAGGCTGGGCTGTGAATCATTAGGCAGG
CACTACACAGTGCCTCTACACGTACTGTTCTTTCTGCTGGATATTCATCGGACTGGCAGTTTGCTCATCTTTCCGAACAGCCTAGTTGTTTCCTATTCTA
CTCCCAAAGCAAAATCAGTTCTTCATCTGTACTCTCAAAGTACTATGTGAAGAGTGCTACTTCAGCTTCTAAATATTGCATTGTGATTCCTTTGTGCATT
TGGCTGCTGTTTTCTCAAGCCATGTTTATCTTTGTATTCCCGGAGCTTGTCATTTGAGATATAGCCAGTGTACTTATTCACCTAGGGAGAGATAAGGAAT
GACAGGGTCCAGTTGAGTGGGATAGATGAGAACAGGGGTGTTATAGAAACCCAGGTACTAGGGCACAAGATGAGGGCACTGTTGACTAGTCATGATGGAA
GAAGTAGGCAGACAGGAGAACTTCATTAGGTAGAATTGGTGGGATGTTGAGGTTGGTAAGAGAGGAATCTGAAGTAAGTTCCAGGTTGCTCAACTGTGGG
TAGGCTGGTGATGCCATTCAAAGTGTTGGATTTTAGGAAGTGGGACATGCGTGAAATCTGTGCTGGGGGTCTGGGAATCAGCAGCCTAGAGGTGGTAATT
AAAGTCAGAATAGATGAGATATTCAGGGTAAGATAATGAGAAGAGAAAATGGCTCAGAATAGAACTGAGGAGCATGTCATGGATGGGTAAAGGAAAATGA
AGCAGTGAAGGTGATGGAAGAGGAGAAGGTTCACCCAGAGATGTAGGAGTAAAACCAGGAGAGTTAATTTTTTTTTTTTTTTTTTTTTAAGACAGAGTCT
TGCTCTGTGGCCCAGGCTGGAATGCGGTGGCGTGATCTCAGGTCACTGAAACCTCTGCCTGCTGGTTCAAGCACTTCTCCTGCCTCAGACTCCCGAGTAG
CTGGGAATACAGGCACATGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGTGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGAC
CTCGAGTGATCGGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCAGTGTTTTTTTTTTTTTTTTTTTTTATGGGA
GGATGGGCAGGTTGTTAGCTGTCGAGTGCTATTGAGATGAGAGAGAACTCAGAATGCAGTGGGGTAAGGATTGCTGAGTAATGTGGAGGGCCTGTTTGAG
GTAAATGGCAGTGGTAAGAGGTTGCTCCATTATGAAAGCCCTCTTCCAGAGTTCCTGATAGGGCCCCAGAAGTTCATTTCTGATTGCTTTGATTTTTTTT
CAGGGGAGCAGGAAGCCAGTTTATCATTTGAGAGTGAGAATAGGGGAGAGGAAATATCTTCCAGGCCCACAGTGCATAGAAATACCCAGTCAGGGCAAAA
TGATTTATCTGTTTACCTCTCCTCATCACTTGGGCCCAGAGCAATCAGCAGTGATTAGGTAGAGAGGAGCCGAGGAGAGGGAAGAGCATACCAATCACTC
CTCCCTTTCCCAGTGCAGGCTCCTAGACTTAGCTGGGGCAGAGCTGGGAGAGGAAAAAGGGATTTAAAACTGCAACAGGTGCAGATTATTGTTACACAGG
ATTAGACATTCTAATTAATTGAGATTATGTTTGTTCCTTAAACTGATCACAGGACTATCTATTAAGAACATCACAACCTCGCTGCAGCTTTTCTCCATAG
CAGGGAGAGTACCTCCCAGTGAATAAAATTTGGAGGGTGGTAAGAGACAAGAATAAAATTGGGTTTGGTTATCCGTGCCTCATGCTTGTTCAGCATCCCT
TTGAGAGTTCTCCAAATAAATAGTTACTGCTTCTGCAGTTATTGGTGTGCTCCAGCTTCTGTTCCCATAATATAGTCCAGTCCTAAGGGAACACAGTTCT
AAAAGAAACAACATGATCTTGGCAGAGACACCGCTCAGCTCCAAACCCAACCATTTATGTAACTGCACAAAACTCTCTACAGCTTTTCACAGAGACCAGT
AATTAGAACCTTTCATCCCCTGGTCATCCTCCTTCCCAGGTGAATTCTCTGACCAGCCATCTGGTTTTAGGATACCCAACTCCTGCAGTAACTGCCTTAC
TGGTGGTCTAATTGCTTCTACTCGTGTCCCTAAAGCAATTAATTTTCCACACAGCCATGTGATCTTTTTAAAATGTAAATCAGCTTATGTCACTTCTCTG
CTTAAAATCCTTCAATGGATTCTCACTGCCTCGAGAACAAAAGACAAACTTTTCAGGCCCCGTGTGATCTTGCCCAGGCCTCCGTCACCATCACCATCTG
CATCTTAACCCACTCCTCCCCTTTCACAAAACTCCAGCCACACAGACTTGCTTTTTATTCCTCAAGCTTTCCAAACTGTTTCTACTGAGAGTCTTTGCAC
ATGCTCCATCTTCCTTGAATACTCTTTCCCCAGTGAGCTCATTTTCATCTTCCTGAATTCATACCACTATTACCTTTGCTTCTGTGGAAGAAACTGGCCA
GATGCTCACCCAAATGTCCTCTTTCTGGACACAGGTAAACTGCATTTCCCAGCTCCATGCATCTAGGCCTATGTGAGTAGTTCTCAACAGTGGAAAATGA
GTGGAAGTGATGTTTCAATACTAGACCAAGGCAGTTAAAGGGTGGCTGAGCCATTTCCATTATTCTCTTCCTCCTTCCTCTTCAAGGTAACCTTGAAGCA
CATGTTTTGACGGTGATGGAGTCATAGCATAGAAGAAGTCTGAATACCTGAGTTACTATTTAGGGCATAATAGCTACTTGACCAAAAACATCCATATTGG
ACTTTGAACAAGAAAATAAACTTGATTACATTCTGCTAGTGAGTTTTGAGGGTGTTTTAGCAGTTATCATTATATACACTGGATATATCTTCTATGGTAT
CCTGTCCACCTTACTCTTGACCACAGTACCCTCTTTGTTTCCTTCAGGGTGTTTCAGATATTTAATTATCTTGCCAGATGCCAGTCAACACTTTCTTTTT
GTCCCATGAGTTTAAAATCAGGGGAAAACATGTACTCCCAATAGGAAGTTGAGATACTCTTTTTTTTTTAAATCCGTCATTGTGACTGTGACCAGAAAAA
CAAATCCCACTAAAGAATGTCCTAAACAGATGTTTTTTTTTGTCATATAACCTGGAGTTAGGTGATTTGGCATTGGTTCTGGAGCTGAAGGATGTTAGGG
ATGAGGTCTCTGTAGTTTTCTTGTCTCATGGTCACGAAATGAAGTGTTATTGATTAAGCAGGGATGCCCTACTTAGTATTAGACTTCTTGGAAGTCTCCT
TAATTGCCACAGCCCCTATCTTTTTGGCTTCGTTTCAAGGGTCCTTCTACATTGTTAATACTCTGGTATAAATACGTTCCATTATTCCCTATAACATGAC
TGAAACCAATCTAAAGTATTAACATTTTAAATATGTTTTTGGGCCAAGTGCAGTGGCTCTTATCTGTGATCCCAGCTACTAGGAAGGCTGAGGTGGGAGG
ATTGCTTGAGCCCAGGAATTTCAGGCTGTAGTGAGCTATGATTGTGCCACTGTACTCCGGCCTGGATAACTGAGATCCTGTCTCAATAAATAAATAAAAC
AATTATATATATGTATAATATATAATATTATATATACATATGTATGTATGATGCTTTTCATCCCCACCCTTTCCCACATCTCAGGAACCTGTCAGCAACT
TATCCAGTTTAAAGCTGCTGTTCCTCTACCTCAGTGGTTTGGGAGAACATGGTCATTATTTCACTCATTCTTTACTTCCTGTCTCTTCTAGGATTGGAAT
GGGGGAGGGCATATTAAACGAAGAAAGTCTCAGCTTACGTGATTAAGGTACCATTGGTGTGTTCTGTGCAGACAGGCATTTAACTGTTGACTCCTTTGTG
AGCTCTTGGGGTTCTCTGGAGCTCTCCATGAGGACTGGGGCACTAACTGACTTTGGTTGCCTCTTTTTGATGCACAGCCCACACTGCCCTTCAGCTCTTC
AGCCCCTGACCCTGACAATGTACCCACAGCCTCCTCGTGCTAAAGTGCTTCACCCTTGTACGCAGCTCTCCTGGGAATGGTCCCAACAAACCCTCAAGAC
TGGTTACCTTTCATGGAACCCACAGGAAATGCATGCATATTTGTCCTGCCAAACTGGAAGTGCAGCCCAGCCAGCAGCTTGCTTTTCTCACCCTGCCTTG
TCGCAGCCAGCCTGACTCTTACTTATACATCTGAGAAGTGCCAGTCTCTATAATTCACATGGCTCCAAATCCTCATAAGTGGTTCAGGTTATGTTCTCCC
AAGAATCCTCCATGCCACATTCCACCCTGGTGGCCAGATGGAGATGGGTCTGTACATTTCTGAGCTTACCAAGTCTCTATCTAGAGAATATAATGCTGAA
TGAATGTAATGCCTCTCCCTCACATGGGAACACTAAATATCTACAAATGGTTCTATTGGAGCCCTCCTCACTCAGTTTAGAATGAAGGGAGTGCACTACT
CCTTTGTCTTGCAGGGAGAAGTTATCCCTATTCCTAAAGATTCCCATCAATGAATCTTTTATTTCTAATCTCACATATAATAGAAAGTGTAGTGGTCTGT
GGATCAGCTTTACTATCTTAGAATAAACTTCATGTGGATATATCTAGTACCTTTATTTGGAATGTGTTGGTTCCTATCACCTCTTGTCCTCAGTTTCGGT
ATGTTATCCAAAGATCTTAGATAACTGAAAAACTCTAATTTAACTTTCTCTTTTAT


SNP Information

Context             (SEQ ID NO:63821):
CGTATATTGAGAATAGAAGCCAATGAAAGGTTTTAAGCAATGGAATTATTTCTTCAGATTTGTATTTTGAAAGGGTCGTCGGTTACAGTGTGGAGGATGG
R
TTGGAGACAGTAAGAGTTGTCAGTATCATTGTTCAAAGGAGGGTGTGGGAAACTTAGAATCAGGGTAAGTGCCTGGCCTAGGATTACCTGGTAGGACTGC
Celera SNP ID:            hCV27956090
SNP Position Genomic:     6727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63822):
TCGATGGTTCGCTGCGCCGCGCCGGCCGCTCTAGCAACCCCTGGCTGTCACGCTTTGGTTTCCGGGTCGGTTCTGGCAGGTCTGAGCGCTCCGACTTCCA
K
AGGAGCGCTGTGCACGTGGAGAAGAGCGGGGACTCGGCGACCCTGCCCTCCCGACCCTCATGTTCGAAGAGCCTGAGTGGGCCGAGGCGGCCCCAGTAGC
Celera SNP ID:            hCV9599895
SNP Position Genomic:     6116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:63823):
ACTCGGCGACCCTGCCCTCCCGACCCTCATGTTCGAAGAGCCTGAGTGGGCCGAGGCGGCCCCAGTAGCCGCGGGCCTTGGGCCCGTAATCTCACGACCT
Y
CGCCTGCGGCCTCCTCGCAAAACAAGGTGAGTGACTCGCGGGAGCAATGGGAGCTGTTTCAGGCCGCGAAGCGGACATTGGTGGATCCCAGCGCTGTGTG
Celera SNP ID:            hCV16058407
SNP Position Genomic:     6248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63824):
AACTGTGAAGACTGTTTCCAGCCTGGCTGTGAGCCAAGACCTGGTTCCTGGTGGACCCTGAGGACAAAGTGTGATAAAACCTCTGGCTCAGACTTGCTCT
R
CTGAAGGCTTCTTGGTTATAAGATGCATAAAGTCACTGGGGCTAGCTAAACAATAAAGAGTTTATTGTGAGAACATGGGGATATCTGTCTCATGACACTT
Celera SNP ID:            hCV2067583
SNP Position Genomic:     9683
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:63825):
CCTGCTTCCTCAGGCTTTTCTTACCCTTCAGTCTGCCTCCAACATGGAATCGGCCTGCTTTGTTTCCTCCTTTTTCATCCCCTAGCCCCATTACCATTGT
Y
CAAGCCGCTGGCCTCTCTGTCTGCAATTTCTCCCCTTCAGTTTGTTTTCTACACTGCAGCTAGAGACATGTTAAATATTTAATATACGTGTGTGATCATG
Celera SNP ID:            hCV3215331
SNP Position Genomic:     6990
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63826):
CAGCCCGCCGCCGGCCCCGCCCCGCCCGTGGCGCTCTTGGGCAGCGCGGGCCTCCGTCCCTCCCCTCCCACCGCCTCCCTGCCCTTCTAGCCGCGCCTGG
Y
TAAACTCGATGGTTCGCTGCGCCGCGCCGGCCGCTCTAGCAACCCCTGGCTGTCACGCTTTGGTTTCCGGGTCGGTTCTGGCAGGTCTGAGCGCTCCGAC
Celera SNP ID:            hCV3215332
SNP Position Genomic:     6010
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:63827):
TTGCTCCCCAACGGAAGTGGGAGCCCTGGGAAGCTTTGTGAGCAGAGGCAGTACATAGAGGGAGGTGTTTTAAGGAGTTGGGATGAGGATTTGGTTCTCA
Y
TGGGTCTTTTCTGCCCCTAGGACCTGACCAACAGCCATTTCTTCTTGTTTGATTTCCAAAAGACTGGGCCCCCTCTGGTAGGGCCCAAGGCTCAGCTTTC
Celera SNP ID:            hCV2067584
SNP Position Genomic:     9392
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,14)   caucasian(C,25|T,13)   total(C,49|T,27)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63828):
ACTCTCCACAGGTTCCTCTGGAGGATGAGTCTGTGGATGTGGCTGTGTTTTGCCTTTCACTGATGGGAACCAACATCAGGGACTTCCTAGAGGAGGCAAA
Y
AGAGTACTGAAGCCAGGGTAAGAGCCCCCAGGACACAGATGCATGTATGTATGTGTGCATGCATGAGTCTGTGCACTTACACAGAACTTTCTGTCTTTCT
Celera SNP ID:            hCV2067585
SNP Position Genomic:     8992
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63829):
GTTTGATTTCCAAAAGACTGGGCCCCCTCTGGTAGGGCCCAAGGCTCAGCTTTCAGGCCTGCAGCTTCAGCCATGTCTCTACAAGCGCAGGTGACCTCTG
R
ATCTTCCTTGAAAGGGGAGGCAGATCTCAAACTCCAGGCTCAGAACTGTGAAGACTGTTTCCAGCCTGGCTGTGAGCCAAGACCTGGTTCCTGGTGGACC
Celera SNP ID:            hCV25603007
SNP Position Genomic:     9539
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 UTR 3


Context             (SEQ ID NO:63830):
CAGACCAGGCCCCAGCTGAGGCCCCCACAGAGAAGACAGAGGTGTCTCCTGTTCCCAGGACAGACAGCCATGAGGCTCGGGCAGGGGCTTTGCGAGCCCG
Y
ATGGCACAGCGGCTGGATGGGGCCCGATTTCGCTACCTCAATGAACAGTTGTACTCAGGGCCCAGCAGTGCTGCACAGCGTCTCTTCCAGGAAGACCCTG
Celera SNP ID:            hCV25603008
SNP Position Genomic:     8335
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,34)   total(C,68|T,2)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63831):
GTAGTACTACAAATGATCCACCAAAGCAAAGCCCTGGGTCCACTTCCCCTAAACCCCCTCATACATTAAGCCGCAAGCAGTGGCGGAACCGGCAAAAGAA
Y
AAGAGAAGATGTAAGAACAAGTTTCAGCCACCTCAGGTGCCAGACCAGGCCCCAGCTGAGGCCCCCACAGAGAAGACAGAGGTGTCTCCTGTTCCCAGGA
Celera SNP ID:            hCV2067586
SNP Position Genomic:     8194
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,11)   caucasian(C,1|T,27)   total(C,14|T,38)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;JBIC-allele(C,199|T,1294)   total(C,199|T,1294)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63832):
GTTGACCAAACAGGTACCATTGGATGTGTATATGTGTGTGTGTTGGTGTGTGTGTGTCGGGGGGTCAGCTGGTTCTACATACAAGAGTGATTATCCACTG
Y
CATTAGGATTGGGGCTAATGGTGTACTCAGGCAATAAGAAGTACTTCTCTGCAGGCCACAGTCACGATCTCAAAGACAGAGGTATGGCTGGGATGACTTG
Celera SNP ID:            hCV25603016
SNP Position Genomic:     7914
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63833):
AGAAGTACTTCTCTGCAGGCCACAGTCACGATCTCAAAGACAGAGGTATGGCTGGGATGACTTGCCGTGACTCCGAATGTAAGAGATCTTGCCTCATGTG
Y
ACCTTCCCATCTCCCTCCCTGTAGGTCCCAAAGCCTGGAAGGGTAGTACTACAAATGATCCACCAAAGCAAAGCCCTGGGTCCACTTCCCCTAAACCCCC
Celera SNP ID:            hCV2067587
SNP Position Genomic:     8051
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63834):
TCTGAATCAGGTCCACATCTCTCCCTTCTTGTTCTCCAGGCCTCATCCATTCTCTTTAGGCCCACTGTCATCCCCTGTTTTCCTCCAGGGCTCCAAGCGC
Y
GCCAGCTCTTGGCCACATTACGGGCCCTAGAGGCAGCATCTCTTTCCCAGCATCCCCCCAGCCTATGTATAAGTGACTCTGAGGAGGAGGAGGAGGAAAG
Celera SNP ID:            hCV25603025
SNP Position Genomic:     7475
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,38|T,2)   total(C,76|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63835):
AAGGAAGAAGAAATGCCACAAACAGGCTCTTGTTGGCAGTGACTCTGCTGAAGATGAGAAAAGAAAGAGGAAATGCCAGAAACATGCCCCTATAAATTCA
S
CCCAGCACCTGGACAATGTTGACCAAACAGGTACCATTGGATGTGTATATGTGTGTGTGTTGGTGTGTGTGTGTCGGGGGGTCAGCTGGTTCTACATACA
Celera SNP ID:            hCV25603017
SNP Position Genomic:     7796
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,35)   caucasian(G,40)   total(C,3|G,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63836):
GAGGCCCCCACAGAGAAGACAGAGGTGTCTCCTGTTCCCAGGACAGACAGCCATGAGGCTCGGGCAGGGGCTTTGCGAGCCCGCATGGCACAGCGGCTGG
W
TGGGGCCCGATTTCGCTACCTCAATGAACAGTTGTACTCAGGGCCCAGCAGTGCTGCACAGCGTCTCTTCCAGGAAGACCCTGAGGCTTTTCTTCTCTAC
Celera SNP ID:            hCV25603009
SNP Position Genomic:     8352
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,40)   total(A,77|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63837):
GGTGTGTGTGTGTCGGGGGGTCAGCTGGTTCTACATACAAGAGTGATTATCCACTGCCATTAGGATTGGGGCTAATGGTGTACTCAGGCAATAAGAAGTA
Y
TTCTCTGCAGGCCACAGTCACGATCTCAAAGACAGAGGTATGGCTGGGATGACTTGCCGTGACTCCGAATGTAAGAGATCTTGCCTCATGTGCACCTTCC
Celera SNP ID:            hCV2067588
SNP Position Genomic:     7958
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63838):
CTGGCAGGCTTGACTGGGAAGAATTCAGATGCTTCTGCCAGTCTGAATCAGGTCCACATCTCTCCCTTCTTGTTCTCCAGGCCTCATCCATTCTCTTTAG
R
CCCACTGTCATCCCCTGTTTTCCTCCAGGGCTCCAAGCGCCGCCAGCTCTTGGCCACATTACGGGCCCTAGAGGCAGCATCTCTTTCCCAGCATCCCCCC
Celera SNP ID:            hCV25603018
SNP Position Genomic:     7434
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:63839):
CAACCTCCGTATGCTAATCTCTAACCCTTCCTTCCCCTTTCCCATCCTGGTATCTCAGTGCTGGCTTTCTTCTTCTGCACTGTGTGCCTTATACAACACT
S
TCACTCTCCACAGGTTCCTCTGGAGGATGAGTCTGTGGATGTGGCTGTGTTTTGCCTTTCACTGATGGGAACCAACATCAGGGACTTCCTAGAGGAGGCA
Celera SNP ID:            hCV22274333
SNP Position Genomic:     8889
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,3)   caucasian(C,40)   total(C,75|G,3)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,40)   total(C,76|G,2)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,36)   total(C,72|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:63840):
GTCAGAGAGAGTTGTTGAGTAGAAGTTGGTGAAGCGAAGAGGGTTCTTCAGACAGGAAAAAGTACGTACAAGGGCCCTGGGACAAGAGAGCATGTTCTGT
Y
AGAGTCACAAACACAAGTGGTCCTTGTGGTTGAAATACATAGTAAATGAAAGGGGCATATATGCTGTTCAAGTTCAAGAGGTAGAAGTTTTGCGTATATT
Celera SNP ID:            hCV29268182
SNP Position Genomic:     6534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 393
Celera Gene:                 hCG24512 - 104000117710474
Gene Symbol:                 BDKRB1
Protein Name:                bradykinin receptor B1;B1BKR;B1R;BKR1;BRADYB1;bradyb1
Celera Genomic Axis:         GA_x5YUV32W0QP(43526808..43547346)
Chromosome:                  Chr14
OMIM number:                 600337
OMIM Information:            BRADYKININ RECEPTOR B1;BDKRB1


Genomic Sequence (SEQ ID NO:12553):
TCAGAGTTCTGCAGCTCACAGAAGCAATTTCAGTTTCCCTGGATCCGGAGTTTTGCATCCCCATCATGGGGACCAATATGATTTATATGAAAGATAAATG
CTCACAGCATCAACTTTATAATACGGTAATCCAATTCCATCTCTTTAAAACATCATAAAGGAACTACTGGTTTCTAAGGAAAACATCTTATTCCATACCC
CCATTCTTTGCTGTACACATGGCTTAATTAGGCATCTAGGCTGATTGAAAAATGATGAAAGAGCTTTTCCATATGGCACTTGCTGCTAGATTAAGAAAGA
AGGTCATAATACTGAGAAAAGATGCATCAACATGTACATATTCATCTTATCCTGGGAACATCTATACAGCACGATACTGACATTTCCCACACAGTTATTT
GATCCTCACAGCAACTCTCAGAAGCAGGCAGGACCAGAGCATTCCAGGACCACCGGCCCTGCTCTCTTCTGGAAGCCCTGCAGGTGGGCTCCACCTGCCG
TGAGCATTTATCTTTAGAATAGATCATGCAGTTAGAGCTATAAAACTCCAAGTACAGGGAAATGGAAATTGCTTCCATGAGCTGCAAAACTTTATGCACC
TGCTCTCTCAAAACACCCTTACTCTGGGCTAAAACTATCATTCAATTCTCTTCCCTGAACCAAACCAAGAGCTGCACAGGGCCTGCTGGAGGGTAGGGGA
TATGGGATATTCATGGATAGCGTGAGTAAGTGGGGTGTGGGGCTTGAACCTGGGCTTTCTGACCCCAAGTTCCAAGTGAGCCTTCCACAAAGGCTTATGA
ACATGTGTGCGTTATAATACAAATGCTGGTCCCCCCACCTGCGATGGTTTTCTCAGCTTGCTTGCCTTCCAAACTCCTATTCAGCCCTGAAAACCTAGTT
TAAATAATCCCCTGCCATGAATTCTTCCCCAACTCTGCATAATAGTCGAGGTTCTCTAGAGAAACATAACCAACAGAAAATAGATAAATATAGATAGATT
TGTTATAAGGAATTGGTTTATGCAATTATGGAGGCTGAGAAGTCCCACCATCTGCTGTCTGCAAGCTGGAGACCCAGGAGGACCAGTGATGTAGTTCCAG
TGGGATTGTGAAGGCCAGAGACCCAGGATGGCCAGCGAGAAGGTGGGAGAAGACAGATGTCCCAGCTTGAAAACAGCCAGGCGGAGAGAACCAATTCTCC
CTTGCTGCTCCTTTTGGTTGTATTCAGGCCTCCGACAAGTTGGATGCCACCCACCATGTCAGGGAAGACAATCTGCCTTACTCAGTCTACCAATTCAAAC
ATTAATCATTCAAATTAACCTAGGAAGGTTAAACTCGCTCACGGCCCCCCCAGAAACCATGTTTAACCAAATATCTGGGCACCCCATGGCCCAGTCAGCA
TGACACATAAATTACCCATCCCACTCCACCTCGAGCAGAACTCATTTTTTTCAAACCTCACACTCAGACACAGCCTCAGAACTTCATTGCCACTCTGCTT
TCTACAACATGTTGTCACTGGATGTCAGCTTGTCCCTGTCCTCAGCCATCCCAAGAGCTCCTTAAGTGGGCACGGAGTGGGCTGTGTTCGTCTATGCACC
CCCTGTGCCCACACAGGGCCTGGCCCCCACAAGGGGTTTGGCACATGTTTGTTGACATAAGACAAGCTATTGCTATTATATACTTATTTGTAATACATAG
TTATGAATACACTCAGCAAATATTTGAGCACGTGCTACTTATCAGCCCTGTTGTACAAGTTGGGAAGATGAACCTAATCAAAAGAGATAAATCCGTTGCC
TGGTGGAGCAGGTGGCAATAGGGCTGTGAAGAGCAGTGGAGCAGGCCAAGAGGAGGAGAGGTTATTTCAGGAAAGGTCTCTCTGACAAGGGAGGATTGGT
GAGGACCAGAAGGACCTGGGGGAGCAAGCATGGGGCTCTCGATGGGAAGGTGCTCCATGTAGGGGAACGGACAGTGCAAAGGCCCTGAGGTGGGAGAGGA
GGTGGTACATTCAAAACAGAGAGGAAAGGCTGGGCATAGTGGGGAGTGCCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGGAGGATGGCTTGGGCCCC
CAGGAATTTGAGACCAGCCTAGGCGACATAGTGAGACCTTGTGTCAAAAAACAAAAAACACAGCTCGAGGAAGCCAGGGCAGCCAGGCACCATGAGACGA
GTGCTCTGGGAGGCGGCTGGGTCTGTGCATGTGCCCTGGGAGACAGCTGGGTTTGCGCGTGTGCTCTGGGAGGCAGCTGGGTCTGCGCATGTGCTCTGGG
AGACAGCTGGGTCTACGCATGTGCTCTGGGGGACAGCTGGGTCTGCGCATGTGCAACCTTGCCGCCGTAAGGTCTCTGTTTTCCTGGGCCTGAGACAGCA
GCAGAGGAGTTCGAGAAGAGACGTGAGACGGCCTGGCTTCGGCTTTAGGAGACAGAGAAATGCAGCTGATTTTCCTGGTACAAGCCCCTTCTGAGAGCAT
GTGCACTCCTGGGATTCTCGAGGCTCCCTAAAGAGGAAGGTCTCGTGATCCCCTGCTCTGCCTGGGCGAGAAGGCTTTCATCTCCCAAAGCAGGGCCACA
CAAGGGCGGGGAGGAACCCCTGGCCCAGTGGAGCTTTATCTGCTAAGTGGGCACCTTCCCACCCCAGAGCCAGCACCCAGGACCCTTCACTTCTGGGCTG
GCTGCCAGGCCATGGCAGCACCTGGAGCTGCCTGAATGCCCAGGACGTGCTCATGTCCACCCTGTCATCCTGTAGATCTCCAAGTGTTTGTGCTTTGCTA
AATGTATATTTGGGATTTTCTGCTTACCTCCCCCCTTACACTTAGACACCGTCTGTTCACCCCATCCATTCCCCGCTTCCTATGTGCTAGACACGCATGC
TCTTCTAGGGTGGCATTTGCCTGGCACCAGCTGGGTGCTCCATATGTGTTTTTAAAATAAAGGGGAAAGCACTCAGGCCCCGTGCTTAGAGAAAAGCAGA
GGATTACACCAGGACTTGAGTGATGGATGAACACTGAACAGTGCGAGGAGGAGGAGGTCATTTTCAGCAAATGCTCACAAGCAGGATGCATTCAGAGCCC
ATGAGTCACTCGCTCAGCATGGAGGGTGGCTCTGGGTGTTACAGCAAGACCGTTGGGGAGCTCTTGAATTCCAAGGGGTTGGGTCGTTGTCCTGTGGCAT
GACAAAATCCAGGTGTTTCCAGAATATTAATCCAGCAGAAGGATAGACTGAAGGAAAGGAATCAGAAAGCCAGGAGATTGGTTTACAGTCCTTTGTTGCA
GACTTGTATGTACGTTGCATGAGTTTCTAAACCCTGTGATGGGAAGAAAGGTGTGACCGCCAACAGCCTTGGTCGGGGGTGAAAGGACACGAGCTGGACC
ACAGTGAGGGTGCTGCATTTCATCCTGGCAAGAATTCTGCCCAGCTGTGGCTTTCTGTCCTCCGTCTACAATTGGGAGAATACTGGAGACATCAGATGTC
GTGTAAGGACTAAGAACGAACCCTGGAGAGGCTCAGCATCTGGGTGCTATTTGTAGAGGTCTGCTGGGTGACATGTACTAGAGTCTTTCATTTTGAAGAA
CCTGCTGGATATGACTAGAAAAGTAAAGGAGAAAAAAACTCCAGGACTGATGGATGAGAGAACTGAAAAGTGGCCCTTGATGTCACAGTGGGCACTGGGA
CTGCATGTCCCCAGGGGCCGCAAACTCCAGAGCTCACCTTCCCTTGAATACACATCCAGTATGGCCCAAGCCCACGCATACTACAGGGAGTCCAGCCTGC
CTGGAGTGCCCCCTCACTAGTATTTAGGACACCCCAGGGAAGGTTGGCCTGTCCTCTATTTCCAGAGGCAGGCCTTTATCCTCTGTGACCACCTCTTCAC
CCAAGTACCCAGGGGACTTCATCAAGCACAGCACACATCAGACTGTAAGGTTTAACCAAACCTTATAGAGGCTGTGGGAATTACAAACAACTAAATTCAG
AAAAGGCAAGCATTGGCCGGGCACGGTGTCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCGGGAGTTTGAGACC
AGCCTAACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCTGGGTGTGGTGGTGTGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGG
CAGGAGAATCGCTTGAACCCAGGAGGCGAAGGTTGCAGTGAGCCGAGATCGCTCCATTGCACTCCAGCCTGAGCAACAAGAGCGAAACTCAGTCTCAAAA
AAAAAAGAAAAAAGGCAAGCGAAGCCTCAGAAGAGGGTCCTCAGTGCCTACCCACTTCTTAGTCCCCTGCTATCTTCTGCCACACTATAGGGACCTGCTT
TTCTTTCACAGATTTGGGGTCCCCTCCCCCTGCCCTCAGCCCCACTCCCTTGGCCCCAGAGACAGTAGGAGACCCTCTGCTCCCCTGAGCCCGGGCCTGT
CTCGCATTTCCCGTGGAGATGAGCAACAAGGGGAAACGTGGGTCTTCTTAAAGAACTTTCCTTTCCGCCCTCCACCACCTTGGCAAGGCAGCCAGATGCA
TCTCCGAAGTCCAGCTCACTCAGGCCAGCTCTCTTCACAGACTGTCTTCCAGCAAGAGGCAAAGCAGAGATGAGACCTGCACGTGCTCTTTGTGGCAGAG
CTGGCCTTATACGCACTCCTGGGTGAATAAACAGGGAGACATCTCCTAAGAACAAACGCTTCTCAGAAACAGTATAGTCTAAACTCATACTGAAGGGAGA
ATAAGCCAGCCACGGGCTGGAGAGACCCCCGCCTACATTACTAAGTAACAGGAAAGGCTAAGATTTGGAGCCTTCCTCCGGTTCAGATCTATCCCGGGAG
TAATGGAAGATGCTTGCCTGTTGACAATTTTTTTTTATTAAAAATCCCACCCAGGAGGTCTCTCCTGATAGGAGGGGACCATCCTATCCTCTAAGGCAAA
TTCCAGCTTCTTCCCTGAAATGTACATCCGCTACTGAGCCTCAGAATGCTATTTGTTCCACCTACTTCCACAGTTTTAAGGTCTTCAGCAACAGGAGAAG
ACAGCAGGAAAACTTGAAGTGCAGTTGGCTCCCGCTGAGATGTCACTAGCAGAAAAAGGGAACACAAGCAAAAGGCAAGATTCTAAAGACAGAGGTGACA
CCTTCTGCTCCAAACATTTGGAGGGTCACCTTTCCAGAAGTCAGACTCGAAGTCCTGAATTCTGGCATGAATGAGTTCTCCTACGTGTAGGGGGTGGCCT
GGAAAGATCTTAATTTGTAAGTTGACAGGTAAGGGGCCTTCAGTTGGAGAATCTTGTCACCTGATTCTCAAAGCCAAAAATATCTTACTGTCTGAAACAT
GAGGTCTTGAGTAGTTCAACTTGACCCATGCAGACATAATTTGAGAGACGCCAAGGAGGATTAGGAAAAAATGTATCTGGTCTTACTCAACTCTGAACAT
TGCATGAGTCAAACGTTTTCCTAGCTCTCTGTTTGTGTGATGGGTCCACTCTGATGGATTCTTGGCGATGTATCTTTCATGACCAAAATTCAAAAGAGGC
CATTCGAAGTGGCTCCCACAAAAGCTGCTGCAGAGCCCCAGACATTCAGAAGCCAATAGTGAAGGGGCCAAAAGCCATCCCTCAATGTTCACTGACACTT
TGCGAGCCTTGGGGCAAGTTGGCGATGTCAAAACATGTTTTTAGGGCGTGTTTGCCAACATACAGGTCTTGGGCAGGATTGCAGACCTCTGCAGATGGTA
CCAAAGTAAAGGGGGAGATGGTAGCTGAATAATCTCTTATCATCCCTAAAGTGCAAAGTGAAATGAGAGTGGATTTTTCCTTCCAAATCCACTTGGAGTG
AGTCCCGAAAGACTCACTTTTGCGGCAATCCCCACAATGACATCACTGGAGCGGAGGTTATATAATTTAAAGCAACCACATCTCCACAGCACTTCCCAGA
AGAGAAAACTCCTCCAAAAGCAGCTCTCACTATCAGAAAACCCAACTACAGTTGTGAACRCCTTCATTTTCTGCCTGAGTAAGTAAATGACCACCTTTTT
TTTTTCTTTTATGAGAGTACAATATGAGAGGAAATCTGTGTCTCTTAGAAAAACAAAAAACTTCCTTTTACACCTACCTATTGGCAAAATTTTCCACTTC
TGTGAGGGTACTTTTTAAAAATAATTCTAAATCAATTTAAGAGACTTTTATTTCATGCCTAGTTTGGGTCTTAATTGCTTTTCCAGAACAGGAGGAGGAG
GGAAAGGTTTTAGAACTCGTAGGAAGGTTCCAGTAGCTCCTTATATCAAAGTCAGGTGAAACATGTCAGGGCTGAATGCAGCCACCAGAGTTCGCATGGA
CTGACCAGTTACAGCCTGCAAATTCTGAATCATAAAAATTAAATTAGTCTCTCTGGGATGGCTTACAAGATTTCATAAGACCAATAACTGGTTGGGTTAT
TCGTGGCTTGAAAGTAGCATCTTACTATGTGACCGTGCTGATGGTCTTTAACATCTGTGGCTGAATTTCCAATGCCTTTAACATCACCATGCTGTTGAAA
TTGGAGTTAATTTGAAGAATTAACTAATTTGTTGAAGAAAGTCACACTGTCTCATAGCCTAGGTTAAAATGTGCAGAATTCAGAAAATACCACACAGGAA
TTACAGAATTGCCATCTCTTGTAGACTTGCCCAGTGCCCCTTCTGAGTTCTTCAAATAGGGTCACATATTACTAACAATATCCAGAGATATTGTTTATTG
AGCACCTACTATGTTCCAGGCAAATATCAGAGCTAAAGCTGAAAACTGGCAAAGGAAGATTTCTCCTCTCTAGCCAACTTTATAAACACAGACAGCAGCA
GGTGAGGACAATCCCTTTAAAAATAAGCCCCATGTGAGCAGACACATGCTGTGGCTGCAGTGGCCCCAGCCACCTCCCCGTCCTGGGGATGGGGGCGGTG
TCCACTGACCTAATCAGGTTCGAGCTAAAGTCCCTGCGTAGCTGGTCGTCTCTGGCTTCCTGGGCAGGGTGCARCCTCACCCCCGTGCTGGTTTCCTAAG
GCTGCTATAATTAATTATCACAAAGTGAGTGGCTTAAAACGATGCAAGTTATTATCTTACAGTTCTGGAGATCAGGAGTTCAAACTCAGTCTCGCTGAGC
TAAAGTCAAGATATTGGCTTGGCTTTGTTCTCCATCCCCATGATTCAATTATCTCCCACCAAGTCCCTCACACAACACGAGAGAATTATGGGAGCTACAA
CTCAAGATGAGATTTGGGTGGGGACACAGCCAAACCATATCAGTGCTCAACACCCTCCCATCTCTTCTCAAACTCTCAATGCCCCAGCCCCTCCACCACA
GGTCAGGACCTCGCCTCCTTTCTCCCTGAGAAATCCCAACCAATCGCCGGGGAATTCTACAGATTCCCACCTGCCAGCCTCTGTCACCATAGACCTCAGC
TTCCTGGCCATCATCAGAGATAGCTAGGAGAGGGATGGTCAGGCCATGTGTGTGCACACTGCCGGGGCACCCCAATAGTCAAAAATTATTTCCCCCAAAA
ATTAGTATTTACAGGTAGAAAGAGAGAGGAAAGAAGGAAGGAAGGAAAGAAGGAAGGGAAGGAAGGAAGGAAGGAAAGCAGGATGGGAGGGAGGGAAGAA
GGGAGGGAGGAAGGGAGGGATGGAGGAAGGAAGGAAGGAAGGAGGGAAGGAGGGTAGGGAGGGAAGGAGAGAAGGAGGGAATGAAGGGAAGGAAGGAAGG
AAGGGGAAAAAATCCAACAAARTGGTTATATTATATTGATGGTGTTATAAAGTAGTTCTAGATAAAAACTATTTTCAAAAAAGTCTTTAAATATATATGC
ATACACCTATGAATATTAAAGCAAAAGAAAACATGTTTATGTTAATCAACTGAACATTTAAAAATAAGATAAGCAAAATAATTGTTCTTGTTGTATATTC
ACATGCTACAGTTTCTTGTACCTGACTGATACCCTGTCACTGGCATTTTTCACAAGAATGTATTTTCTTCAGTGGGGTCTTGTTATTTTTAATTTTTCCA
TATAATTGCCTGAAATCTTTTTTCCACAAATTTTACAATTAACAAATTTAAATTAGTACCTTCAATTGACTCTTCTCTTGAACCATAATATATTGAGAAA
ATGTTCCCTGTGCAGGTTCTGAGTGATAAGCTCTCAGCAAATTCTGCCAGGCAGAGGCTGTTCTCAAGTCCAATTCTTTGCATATGGAATTGCATAAATA
TTTTAGCCCAGATATTTTCACAGGTGCTGTCTTTGTGCCTTAGTTTGGAATGTAGTGGTGCGATCTTGGCTCGCCACAACCTCCGCTTCCCAGGTTCAAG
CAATTCTCCTGCCTCAGCCTCCTGTGTAGCTGGGATTACAGGCGCCTGCCACCATGCCCGGCTAATTTTTGTGTTTTCAGTAGAGACAAAGTTTCACCAT
GTTGGCCAGGTTGGTCTTGAACTCCTGACCTCATGTGATCCACCTGCCTCAGCCTCCCAAAGTGCWGGGATTACAGGCATGAGCCACACCGTGCCCAGCC
CACACGTATTTTTTTTTAACCAGATTAAACCTTTCAAATAAGTTGTACCTACTTATAAGTTTTGAATGTTTTGTCAGATTCAGATACTGCAAAAAAAAAA
AAAATCATTGGCTTTCTCAATTTCATCTCATTTCATACAGAACATGAATTTATCCAATTAAAAAGATTCTTCCCACAAGCTGAAATGTTCCAGAGCTCAT
TTTAGAATTTCAAAATTAACTCTTGTACAGCATTTGATTTTGATCATTTTCTGATACATTTTATAATTTTTCTGCATACCAGCTTTGTTTTCAATATTTA
TAATTCACTAAAAGCTTTGAAAGTTGACGTTTTGCTGCTCTATTCATTGAATAACTTGACTAAATATTTCCAACTGATTTGGAACAAAATTCAACGAAAA
TTTATAGATCTGTTTTAATACACTGTTTAATAACATTTTAGGATGCTGAGACTCAATGTCCACTAAAATTGATTGATAATGGGAAAATAAAAGAGAAAAC
ACATGTGAAAGTCCAGTTTTTTAAAAAAATTCATGAACAACTTTATCACAAGTTTGTAGTTCAGTAAATCTGTGCATATGTTTTAACATTTTGTAAATTT
TGTCACGTACGTCTATAAATGTCAATTTATAGAATATTGACATTTATTTATATGCAATAACAAATTGTGTGTGCACCATGACCTGTTCCAATCACATTTC
TGTTTCATTAGTGTCTTAATTTAGTAGGAATATTATTGTTACCATGACGCTGGACTCCACCACAATTTGTGTTTTATCCTCACAAAAATGCAATGACTTT
ATTTCCAATGTGGAAAATTTAAACAACTTAAATAGCATTCACAAAAAGTCAGTTGTTTCACTTTGCCAGAATGAATGTCCCAAAGCCCTGCTTGGCTTCC
ATGAGCTGAATGAAAGAATGAATTGTGATTGGAATTAACAGGTTTTTCTGTCTGAAGAGTCCGAGGATACTGGTGTTGAGCTGGCACCATTTTGCTTTCT
GTGATGTTCTTCTTATGGAGCCAACACACAGTCAGCCATCACTTCCACTGTTGCACGTGCACAAGAAAAGCTGGAATTAAATGTGAGCTGAGTTAACTTA
AAGAACAGTCATTTGATCTAAGGGAAAAGTCATGCCTCTCAGAATGATCTTATATCAGCATCTTTTGCAGCTACATGGATGAGAACCGTGTCTTAGGGTG
CAATTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGTACTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCTAGGT
TCAAGCAATTCTCTGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGCACCTGCCATCACACCCAGCTAGTTTTTGTATTTTTAGTACATACAGGGTTTCA
CCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCATGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCACGCCCAGCC
TGGTGCAATGTTCTTAAAATTACTAATTTCTAAAGTAGCAGCTCTGTGTCTTAGGTTTTCTTGCAATCAGTGAAATTGCTACAGACCCCATAGTGATGCA
AATGTCAACAAACGTTCTATGCAAGCTATCTGCTCATCAACAACTTCCTTGAGCAACAGAAGTGCAGTACTTAAATTTCCATTAAATATTTGTTTTTTAG
CTCATTACTCCAAAAGGGTTTATTTCAAATTCTTTAAGTATTGCCAAATGATAAAATACACATAGTTTTGGATTTATGCCCTGCAAAAAATGACCAAACT
ATTGTAACAAGAGCCTCCAGCCTCCTCCATATTATGCTCTGGGTGGGGACTGCTCAGCTTCCATGTGCCATGGACATTTCACAACCACCAAATCATAATT
TCCCATGTCTCCTGTTGATCTGTCAACCGGCAGCTGTGCAACTTCTGCTCTTTTATCTACTCTCTCCCTTGGTGATTTCATCCAGCCTTGTGGCTTTAAA
TGCCATTCCTATAGTTACAACTCCCAGTTAGGTCTCATCATCCCAGATCTTGTCCCTGAATACCACACTTGTCTACCTAATTGCCTGCTGGATGTCCCCA
TGTGATGTCCAATTTATATCTCAACCTTAACAATTCCAAAGTTGAACTCCTGTTCTTCCCCACCCCCCACAAAAAAAACTGCTTCATCTTCATTCTGTCA
CCTTCATTTCAGCTGATGACAACTTCATACTTCCCAGTGTTCAGTCCAAAAACCTTGGCATTGTCCGATTTCTCCTTTCTCCCACCCAGATCCAACTGAA
AATCACGGTGTTACTACCTCCAAAACACCTCTAGAGTTTGATCACTTGATCACTTCTCACCACCTGCCCTGCTACTCTCCCCAGCTGTCACCCGCYAGCA
TGTTTATTTAGTGTGTGTATTGTTTATCAACTTCTTCCTCCTGCTAGGCTTATACGCACACTGAGAGCAGGGATTTTTGCCTGCTGTATTCACTGCTTTG
TCCTAAATACCTAGAACAGTGCCTGGCACATAGTACATTCTCAGTAAATACTTGTTCAGCAAATAAATAACTGGAGGAACCAGTGAATTATACCCCGGTG
TGAATAACTCCATGTGAGTGACATGACAGAATGTCAGAGCTAGAAGGGCCTCTTGAGGACATCATGTCTTCCTTAGATGAGGAAAGTCAGGCTCAGAGAC
ATGAACTGACTCTCCYGAGGTTACACAGCCAAATATGCTCTTCCAAGGTTAATTCTCTGCTACACAATAGCTTTTGTTGGTATCTGTGAGGCTTTGCGGG
GTTGAAGGAATCTCAGGTGTCACCCATTAATAACAATCATGACRGTGACAACTAATGTTTGCCACGTGCTTACAATAAGTCAGGAACCCTGCCAAGCACC
GGGCGTATATTAACCTATCCAAGCTGGGGAAGAATGTTTAGGCTCTGAAGATWGTCTGGAGCCGCATAAATCCCGCAGTGTAGGCAGCTGCTCATTCTGC
AGATAGTATTCTGTGGATCCCTGAGTTGGCTGTGGCCGGTTTTGCCAGCAGGAGGCCACGAAGCCATGAGCACAGGATGGGATCTACCCCTTGTGGGATC
GCAGAGGGCTGGGAGATGCAGTCCTCCCTATGGAAAGAGACAGAGCTTTCTATCCCTCTCCCGGTGAAACTCAGCATGGGAGCATGGGAGGCAGGTCAGC
TGCGTGGCTATGAACATGAGCTATGGGGTGCATGCAGACCAAGGTTCATAGTGTACACTGTACCCACCAGCTGTAGCTCCTCCAGCAAGCGTGGGARGCC
AGTCAGCTGCATGGCTGTGAGCACGGCCTCTGGGGTCCATGCAGACCAAGGTTCCTGGCGTAGCACTGTAACCACCACCTAGGTCTTCTCCGACAAGCTG
GTTAACTTCTCTGAGCCTGGCTTTGTCATTCATCGCGTGGGGACAGGTGCAGCAGAAGAGAGCAGACAGAAGCACAGGATCTCAATCAGGCTCTTGAATC
AGACTGCCTGGGTTTGAATCCAGGCCCTACTGACCAGCTGTGTGACCTCAGACAGGCGACTCCGGGTCTCAGCACTCAATTTTCTAATTGGCCARCTGGA
GATGACAATGGCCCCTACCTTGAATGGCTGCCAGGAAGATTAAATGAGAAAATACTTAAATGTGAAACACTTAGAATGGCGCCTGGAACACAGACCATTA
ATACCATCTAACAGATGTTAGTTGTTAWCCTTATTTATTACTCATGCTTTCCTTTCTMTTTTTTCTTTTCTCTCTCTCTCTCTCCTYYTTTTTTTTTTTT
TTTTTGTTGTTGTTGTTGTTGAGACAGGGTYTCAGTCCGTCGGCCCAGACTGAAGTGCAGTGGCACAATCATAGCTCGCTGCAGCCTCGACCTTCCAGGC
TTAAACGATTCTCCCACCTCAGCCTCTCGAGTTGCTGGGACCACAGGTATGCACCACCATGCCCAGCTAATTTTTGTATTTTTTGTAAAGACAGGATTTC
ACCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGTTCATCTGATCCATCTGCCTTGGCCTCCCAAAGTACTGAGATTACAGGTGTGAACCACCACACCCG
GCCAATACTCATGTTTTTCAAGCCTGTAAGAGGAACCTCCTAGCACTGTCCCCACCCCGGCCACCACACTGGTCCCAGCCCCAACAGGTCAGCTTCCTTT
GCTGTTCCCGGGCTTCCCTCAGCTCTATCTCAAGCCATGACCTCTGCYTCCATGTCTGCAGCCCCATGAGGCTGGGGCTGCTCTGTCYTGCATATCTCCA
GTGCCTGGCAAGGGGCTGGCAAGAGGTAGAGGCTCATTAAATGCCTGTTAAAACCCTAATAGTAATAATAATAATGGTACAGTTGTTACTAAGACTAATC
ACTACCTTCCAAAGTCTTTCCTCTATGCAAGGCACGGAGCTAAGCACCCTGTAGATCCTGACAACAGCCCTCCCGTGATCCCACAAGAGAGACACGATTC
TCTCCAATGTTTAAAAAGGAAAGTAAAAGTCAATGGTTCTAAGTAGCTCACACTGAGTGATTGTACYGGGATTTGGACTCAGGCACCATCCCTTAAACCA
GAGGTCAGCAAACTTTTCCCCCTCAGGAACAGATGGTAAATATCTTCAGCTTTGCAAGCCAGACAGTCTCTGTTACAAGCGCTCRACTCCCCCTTGTAGC
ATGAACACAGCTGTAGATAATACRTCCAGGAATGGGTGYGGCTCTGTGCCAATAAAACTTTATTGTCCAAAAACAGGTGACAGGTTGGTTTGGCTCATAG
GCTGTAGTCTGCCACTTCCTGTTTTATTCTACCTTCTGTTCATTTCAGGTCACTGTGCATGGCATCATCCTGGCCCCCTCTAGAGCTCCAATCCTCCAAC
CAGAGCCAGCTCTTCCCTCAAAATGCTACGGCCTGTGACAATGCTCCAGAAGCCTGGGACCTGCTGCACAGAGTGCTGCCRACATTTATCATCTCCATCT
GTTTCTTCGGCCTCCTAGGGAACCTTTTTGTCCTGTTGGTCTTCCTCCTGCCCCGGCGGCAACTGAACGTGGCAGAAATCTACCTGGCCAACCTGGCAGC
CTCTGATCTGGTGTTTGTCTTGGGCTTGCCCTTCTGGGCAGAGAATATCTGGAACCAGTTTAACTGGCCTTTCGGAGCCCTCCTCTGCCGTGTCATCAAC
GGGGTCATCAAGGCCAATTTGTTCATCAGCATCTTCCTGGTGGTGGCCATCAGCCAGGACCGCTACCGCGTGCTGGTGCACCCTATGGCCAGCCGGAGGC
AGCAGCGGCGGAGGCAGGCCCGGGTCACCTGCGTGCTCATCTGGGTTGTGGGGGGCCTCTTGAGCATCCCCACATTCCTGCTGCGATCCATCCAAGCCGT
CCCAGATCTGAACATCACCGCCTGCATCCTGCTCCTCCCCCATGAGGCCTGGCACTTTGCAAGGATTGTGGAGTTAAATATTCTGGGTTTCCTCCTACCA
CTGGYTGCGATCGTCTTCTTCAACTACCACATCCTGGCCTCCCTGCGAACGCGGGARGAGGTCAGCAGGACAAGGTGCGGGGGCCGCAAGGATAGCAAGA
CCACAGYGCTGATCCTCACGCTCGTGGTTGCCTTCCTGGTCTGCTGGGCCCCTTACCACTTCTTTGCCTTCCTGGAATTCTTATTCCAGGTGCAAGCAGT
CCGAGGCTGCTTTTGGGAGGACTTCATTGACCTGGGCCTGCAATTGGCCAACTTCTTTGCCTTCACTAACAGCTCCCTGAATCCAGTAATTTATGTCTTT
GTGGGCCRGCTCTTCAGGACCAAGGTCTGGGAACTTTATAAACAATGCACCCCTAAAAGTCTTGCTCCAATATCTTCATCCCATAGGAAAGAAATCTTCC
AACTTTTCTGGCGGAATTAAAACAGCATTGAACCAAGAAGCTTGGCTTTCTTATCAATTCTTTGTGACATAATAAATGCTATTGTGATAGGCTAAATGAT
TACTCCCGTAGATTGGGGGGTACCTAATCCCTGGACTTGATGAATGTTACCAAATTAAGGGTCTTGAGATGGGGAGATGATCCTGAATTATCCAAGTGGG
CCCTATATAATCACAAGGGTCCTTATAGGAGGGAGGCAGGAGGCTCAGAGTCAGGAGATGTGACTATGGAAGCAGAGGCCAGAGGAATTCAGGACGGCCA
CTACGAGCCAAGGATTGCAGGCACCCTCTAGAGGCTGTAAAGGGCAAGGAAATGGCTTCTCCCCTGGAGCCTCCAGAAGGAATGGGTCCTGCCAACTCCC
TGTCTTCAGCCCAGGGAAACAGATTTAGGATTTCTGGCCTCCAGAACTGTTAGAGGATACATTTGTGTTTTGTTTTGCTTTGTTTGCTTTGCTTTGCTTT
GCTTTTTTGAGATGGGGTCTCGCTCTGTCACCCAGGCTGGAGTGCACTGGCACAATCACGGCTCACTGCAGCCTCAACTTCCCAGACTCAAGGGATCCTC
CCACCTCAGCCTCCTGTAGCTGAGACTACAGGTGTGCACCACCATGCCTGGCTAACTTTTCTATTTTTTGTAGAGATGGTGTCTTCCTGCATTGCCTAGG
CTGGTCTCAAACTCAAGGGCTCAAGTGATCCTCCACTTTGGTCTCCCATAGTGCTAGGATTATAGGCGTGGCCACTGCGCCTGGCCCCATTTGTATTTTA
AGCCACCGAGTTTCTGGTAATTTGTCATAGCAGCAGCAGGAAACAAATAACAAGTATCGGGTAATGGCCTCTCTTATTACACTTCCATTTGTCTATTCAA
AGCTTTCTAGGCTAACTGCCAGGAATACAGGGATGGTATAGCTAGAAGTTCTATATTCAAGGAACTTACATACATCTAAATATTATAATATAAAAAATGA
AATGAGAAATTGCATGAACACACCACGGATCCAGCATCTTGCGCCTTCAGAGAGAAAGGATATGGGTTCCCTCTCAGGTTAGCAGAGAAGACGCTGTGAA
GGGAGTCAGCCGTGAGCCTGGTTTCCACAAAGGGTGCAATCTGGATACGTGGAGACAGGGAGGAAGGGCTGGCAGAGGCGGGAAAGGGTGAGCTGCTCAC
AAAAGAATGCTTGTGCATGCTCTTATTGAACGTGTAATGCATTGGTGCGGGTCTTGCTATGAGAGACCCAACGGTGAGCCTAATGGTGTCTCTACCCTCC
AGGGGCTCACAGCAACCAGGACAATAATTAAGGGATTGTCATAGAGCAGGATGCCCGCCACCATCAGGGTGAGGGGTGCCGTGAGAACCAGAGCAGGGCT
CCAGTCTGGGTGGCTGGGAGGGATGGTTAGAGAGGGGTTCCTGGAGGAAGAGACACATAAACTGAATCCCAAAAAATGAGAAGCTGGCCAAGCAAAATGG
GGGAAAGGAGTGTTCCAGACAGAAGGAACAAAGTAGGCCCAGAGGCAGGTGGGGTTACAGGTTAGGAGGGAGAGGTTGAAGGATGGCAGAGGAGGAGGCG
GGTCATGGAGAGAATTGGGGCTGGAGGAGAATGGACAGGCTGGGTCCACCATGGTCAGCTGGCAAAGACAGTTCACCCAGGAAGGATGGTGGGCTCCAGG
CGGCTTTGAGGGCCCCATTGAAGCTGGAAAGCGTGGCTGTGTTGTGTGAATTTACTCTGATAATGCTCGACAGACCCAGGAAAGGATTGCTCTGGAGTAG
GGTTTAGCCAGATAGACGGCCATACGTCATGGGAGTTGGGGATCCTGGTCAGACTCGGGGGAATGATGGAGAGGGAAGAAACGAGCACAGGGAGAGAAGG
AAGTGAAGTGAGATCAGTGTGTTAAAGGACGGATATAGTGAGAGAACCTGGGTGACAGCAAGAAACAGAAGAAGAGCCAGGCGTGATCTTCTGTACACTG
TGAAGGGAGTCAGCCGTGAGCCTGGTTTCCACAAAGGGTGCAATCTGTAATCCCAGCACTTTGGGAGGCTGAGACAGGTGGATGGCTTGAGCCCGGGAGT
TTGAGACCAGCCTGGGCAACATAGCAAGACCCCGTCTCTACAAAAAATACAAAAATTATCCAGGCGTGGTAGTGCACACCTGTAGTCCCAGCTACTTGGG
AGGCTGAGGCAAGAGGATCATCTGAGCCCAGGAGGTCAAGGCTACAAGCAGTGAGCCAAGATTGTGCCACTGCATTCCAGCCTGGCTGACAGAGTGAGAC
CCTGTCTCATTAAAAGAGAGAGAGGAAGGCATAGCCACAGAGCAGGAATGTTTGAGTAGAACATTCCAGAGGCAGAGCCATCTCAGGAGATGACAAGGAC
CAAGTGTATCCCTGGCACCAGGTGGCTGAAGTAGAGGGAAGAAGAAGGAGGTTGGAGACAACATAGAGAATGGAGAGGTCAGGTGGTGGGTGGGCCCTAC
CTGGGCCCTCACAGGCAGGCGGGACATTGTCAGGCCCTGGGGAGGAGAGAGTCCGTGGGCCAGGAGGCCATTCCAAGGTCAGTTTCCATGGAGTGGGGGA
GAGGGTGTAGTGACTGGACTCCAAGACACTTGGGGGAATGGGGAGAATGGCAGTCCCCACAGCTGCACGGGAAGGGCTGGTCCTCACAGAATAGCAGCAA
AGACTCATTCATTCCAGGAATGGAAAGAATGCCATGTTCTTGGAGCCTGGAGACAGGGTTTGAGAGGCTGGCAGCGGCTGGGCCACCAGGACCTCATCAG
TGATAACCCTGTGATCAGTGTTCCAGCCCCTGCAGGTTTCCTGGAGAGCAGAGTGTCGTCAGAAGGCCTGGAGCTGAGCCAACAGGCAAGATCCAGCCTG
CACATGTGTTTAATTTGAACCACATGGTATTTTTTAAAACTCCAAGCCCCCAGGCTCTTGAGTTGGTTACCAGTACTGAAACTCCCCATTGGGAGCCAGC
TTTCCAGTTTCTTTTGAAAGTTTGGAACATCCAGCAACACTGATTCAATTTCATTCATTCAGCAGATATTTATTAAGCATCTACTTTGTCAGACACTGTT
TTGGGCACTGAAAATATGGCAGTGAACAAAAGAGAGGAACATCCCTGGGCCCTTGGAGTTGACCTTCCAGGGTCCCCCCGGGGCTCCAATTCTTTGGTGC
TGTGTAGCAGAGGCCCCGTGAACAGGGCGCCCTCCCATCAGGTTCACACGCATGGAAGCTATGGGAGGTTAAGTTTGCAACCCCTCATCCAGACCATCCC
TTCACATACAGTCTAGGAAACAGAGAGCAGTAAGACCTGCCCAAGCACACCCAGTGCGACTCAGCAGCCACACACAGGAGTAGGCTCAGTCATCTCATTT
AATCGCCTGACTCCCTTGTGAGGTCTGTTTCAGGATGTCCACTTTCTAGGTGAGGAAGAGGAGGCTAAGGAAGGCAGTGCCTGCTCAGACTGCAGAGGCT
GGATTCACCCAACTCATCTGACACCAACACCAATGTGATTTCCAAGCCCCCAGGCAGGAATTCATTGGGCAAAGGCTCTGTGGCAAAGTGGCAAAAGTAG
GCAGGAACAGGCAGGAATAGAGAGTGGGAAAGGGAAAATAATACCTGATTCCTCTTCTATTCCGAGTGAGCTGACCCACATATGCCCTCCTTTCTTCTTT
TTCAGCCGGCCTTAAGCAGGTGGCTTATCAAAATCCTTTCGAGGTCTTGCAAAAACCAATCCCACACTCGAGAAGAACGTGCTGGCCGGTGAAATCGGAC
AACATTGCTCACGGGATGTAATTCAATGGTAGACTGCAGCCACAGCCTGAGAACTCAGACACCTGATTTATGAGACGCACATAAGTAACGTTTACCGAAG
CCCAGCAAATGGCCCCACAGTGGGAGAGAAACTGGCAAACCCGTACAGTAGAATTCTGTTGCCCTTCTGTGGGGAAGGCCAGTTATTCATTTACAGAGGG
AGAAATTTCTGCCTTGACTAAAAGGATCGATGCTGTGGGAAAAGGTAATATATCTGAGTTCCCATGGATCTGGTTGATAGGTTCACCTGGCGTGTTCCAT
ATGGGGCCAGGCCCAGGCCACACCTGTGGTGCTAACACCTGGGGTGGAGGGAGGAATTAGCAAATAGTCTTCCAGCATCCCCAGCTCCAGCACCCATGTG
GGCTTCCACTCTCTCCCTGAGAAGGGCCAAGTAGAAAGAGAGAACAAGGTTTCACTCCAATCCGTTCCCAGCTCTGGGTCTGTCCTGGGCTCCAGAACCG
CGTGATCAGGGGCCATATGTGGCCTTCACTGCTCTCTGCAGTGGGAAGGTAAGAAAACTGCCCCCACCCTGCCCCATCATCACCCCAATCCATCATGGGG
AGTGGGTGGCACTAAGGCCCTCCAAATCCCAGCCTCGGGGAAACTCCCTGATGTTGCAATGGCCACAGGCAGGCTCTTGCTCTCCGGAGATGAGTCACAA
ATTTGATGAGGAGCAGGTCGGAAGCAGCCCTGGAAAGTGTTCCTCCCCACCCCTGCTCCCACCACAGCTCCGAGGAGCCTGGGCATCCAACCAGGGCTGA
TCCAAGCCTTGGCTCCGGCTGAGCTCCGCTCTGGCCTCTGTGCACCTTCAGCTCCTTCCTGCCCTTCTCTTTCCCTGTGCCCAGCCCCTTTCTCCAGACC
CCCTTGATTCCTTCTCAGCATCCTCTTGCCTCCCCGGACCACCCCCAGCTCAGGCCCCTGCCCAAGAAGGGCCTCACCGCGGGGCTGCAGAGTGCACAGT
GCAGCCGGTCAGAGGCCCAGGTCTCTGAGTCACACATGCCACTGTTCCAGTCCTCACTCCACCACCGCATGGGCCTGGCCGACCACCGAAACTCGGCATC
CCATCTGTAAAATGGGAATGAGGAGAGCAGTGCCTCACTGTGTCGTTGTGAAAATTAAGTGACCCAAAAGGACGGCCTTATTCCCTTTTTGGAAAGAGGT
AATGGGCAAAGAAAGGGAAGGAAAGGCGAGAAAGGACAAGAGGAAGGTCAGAGATGTATGTGAGACACCAGGACAGCGCCACCCCAGCAAGCACCAACAA
CCATTTTCTCCTATGAGCAGAAGAGGCTTTAACTATGACTGAAATGAATGCATGTCAAAGCACAGTCTGAATAAAATCCCAAAAATGGTGTCCGTGTCAC
TCTCCTGGTTGTGATATGGCACGATCCTTGTGTAAGATGTTACTATTGGGGGAAACTGAGTAAAGAATAATGGGGCCGGGCACAGTGCTCATGCCTATAA
TCCCAGCACTTTGGGAGGCCGAGACAGGCAGATCACATGAGCCCAGGAGTTCAAAGACCAGCCCAGGCAACATGGTGAAACCCTGTCTCTAGTAAAAATA
CAAAAATTAGCCAGGCATGGGGGTGCACACCTGTAGTATCAGGTACTTGGGAGAATGTGGTGGGAAAATCAGTAGAGCCCAGGGTTCAAGGCTGCAGTGA
GCCATGATTGTGCCATTGCACTCCAGCCTGGGCAATAAAGTGAGACCCTGTCTCAGAAAAAAAAAAAAAAAAAAGAATGAGTACAAGGCATCTTTCTTAT
CACTGTATGCAAATCTACTAAAAACCTTAAAAAGAATGCATCATTAAGTTCAACCACTCTGCCTTACAGATGAAGAAACCAAGGTCCAGAGACAAGCAGA
CTTGTCCAAGGTCACCGAGTAAGCAGGGCTCCTGCTGAAGGGCTCTGTTCAGACCCAAGATGCCCGCTGGGCCCTGGTGACAGGTCTCAGTCTCAGGCTG
AGGTCAGAGAAGAGGCCTGAGTGCCAGGGTTCTCATTTGAGTGGCCATGATGATTGCAGAGACTCCCTATGGCCAGGATTGTGTTTAAGGCAGTAAACAG
GAAGCCAAGCCTACTTTTCAGGAGCTTCAGGGGACAGAAAACTATCAGGAAGGATTGGTTGGGACCCAGCAAGTACGAGAGGAAGACATTTCAGGGCTTC
AGTCAACAAGGGGCTCAGTGTACTGTAGCTGCCAAAAT


SNP Information

Context             (SEQ ID NO:63841):
AATATCTTCAGCTTTGCAAGCCAGACAGTCTCTGTTACAAGCGCTCGACTCCCCCTTGTAGCATGAACACAGCTGTAGATAATACGTCCAGGAATGGGTG
Y
GGCTCTGTGCCAATAAAACTTTATTGTCCAAAAACAGGTGACAGGTTGGTTTGGCTCATAGGCTGTAGTCTGCCACTTCCTGTTTTATTCTACCTTCTGT
Celera SNP ID:            hCV27843911
SNP Position Genomic:     13339
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,37)   total(C,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:63842):
CTCCCCGTCCTGGGGATGGGGGCGGTGTCCACTGACCTAATCAGGTTCGAGCTAAAGTCCCTGCGTAGCTGGTCGTCTCTGGCTTCCTGGGCAGGGTGCA
R
CCTCACCCCCGTGCTGGTTTCCTAAGGCTGCTATAATTAATTATCACAAAGTGAGTGGCTTAAAACGATGCAAGTTATTATCTTACAGTTCTGGAGATCA
Celera SNP ID:            hCV16151627
SNP Position Genomic:     7074
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63843):
GTCAGCTTCCTTTGCTGTTCCCGGGCTTCCCTCAGCTCTATCTCAAGCCATGACCTCTGCTTCCATGTCTGCAGCCCCATGAGGCTGGGGCTGCTCTGTC
Y
TGCATATCTCCAGTGCCTGGCAAGGGGCTGGCAAGAGGTAGAGGCTCATTAAATGCCTGTTAAAACCCTAATAGTAATAATAATAATGGTACAGTTGTTA
Celera SNP ID:            hCV27840029
SNP Position Genomic:     12888
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,40)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63844):
ACCATCCCTTAAACCAGAGGTCAGCAAACTTTTCCCCCTCAGGAACAGATGGTAAATATCTTCAGCTTTGCAAGCCAGACAGTCTCTGTTACAAGCGCTC
R
ACTCCCCCTTGTAGCATGAACACAGCTGTAGATAATACGTCCAGGAATGGGTGTGGCTCTGTGCCAATAAAACTTTATTGTCCAAAAACAGGTGACAGGT
Celera SNP ID:            hCV15861078
SNP Position Genomic:     13285
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,26)   caucasian(A,2|G,36)   total(A,6|G,62)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63845):
TGCTTTTGGGAGGACTTCATTGACCTGGGCCTGCAATTGGCCAACTTCTTTGCCTTCACTAACAGCTCCCTGAATCCAGTAATTTATGTCTTTGTGGGCC
R
GCTCTTCAGGACCAAGGTCTGGGAACTTTATAAACAATGCACCCCTAAAAGTCTTGCTCCAATATCTTCATCCCATAGGAAAGAAATCTTCCAACTTTTC
Celera SNP ID:            hCV29077758
SNP Position Genomic:     14408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63846):
GCGATCGTCTTCTTCAACTACCACATCCTGGCCTCCCTGCGAACGCGGGAGGAGGTCAGCAGGACAAGGTGCGGGGGCCGCAAGGATAGCAAGACCACAG
Y
GCTGATCCTCACGCTCGTGGTTGCCTTCCTGGTCTGCTGGGCCCCTTACCACTTCTTTGCCTTCCTGGAATTCTTATTCCAGGTGCAAGCAGTCCGAGGC
Celera SNP ID:            hCV16172319
SNP Position Genomic:     14207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63847):
ACACAGACCATTAATACCATCTAACAGATGTTAGTTGTTATCCTTATTTATTACTCATGCTTTCCTTTCTATTTTTTCTTTTCTCTCTCTCTCTCTCCTT
Y
TTTTTTTTTTTTTTTTTGTTGTTGTTGTTGTTGAGACAGGGTCTCAGTCCGTCGGCCCAGACTGAAGTGCAGTGGCACAATCATAGCTCGCTGCAGCCTC
Celera SNP ID:            hCV11469521
SNP Position Genomic:     12388
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63848):
AACACAGACCATTAATACCATCTAACAGATGTTAGTTGTTATCCTTATTTATTACTCATGCTTTCCTTTCTATTTTTTCTTTTCTCTCTCTCTCTCTCCT
Y
TTTTTTTTTTTTTTTTTTGTTGTTGTTGTTGTTGAGACAGGGTCTCAGTCCGTCGGCCCAGACTGAAGTGCAGTGGCACAATCATAGCTCGCTGCAGCCT
Celera SNP ID:            hCV11469522
SNP Position Genomic:     12387
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63849):
CAGGAACAGATGGTAAATATCTTCAGCTTTGCAAGCCAGACAGTCTCTGTTACAAGCGCTCGACTCCCCCTTGTAGCATGAACACAGCTGTAGATAATAC
R
TCCAGGAATGGGTGTGGCTCTGTGCCAATAAAACTTTATTGTCCAAAAACAGGTGACAGGTTGGTTTGGCTCATAGGCTGTAGTCTGCCACTTCCTGTTT
Celera SNP ID:            hCV27832280
SNP Position Genomic:     13324
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,3|G,35)   total(A,3|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:63850):
GGAACACAGACCATTAATACCATCTAACAGATGTTAGTTGTTATCCTTATTTATTACTCATGCTTTCCTTTCTATTTTTTCTTTTCTCTCTCTCTCTCTC
C
TTTTTTTTTTTTTTTTTTTTGTTGTTGTTGTTGTTGAGACAGGGTCTCAGTCCGTCGGCCCAGACTGAAGTGCAGTGGCACAATCATAGCTCGCTGCAGC
Celera SNP ID:            hCV11469523
SNP Position Genomic:     12385
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63851):
GAGAGGAAAGAAGGAAGGAAGGAAAGAAGGAAGGGAAGGAAGGAAGGAAGGAAAGCAGGATGGGAGGGAGGGAAGAAGGGAGGGAGGAAGGGAGGGATGG
A
GGAAGGAAGGAAGGAAGGAGGGAAGGAGGGTAGGGAGGGAAGGAGAGAAGGAGGGAATGAAGGGAAGGAAGGAAGGAAGGGGAAAAAATCCAACAAAATG
Celera SNP ID:            hCV26351363
SNP Position Genomic:     7724
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63852):
AGAGGAAAGAAGGAAGGAAGGAAAGAAGGAAGGGAAGGAAGGAAGGAAGGAAAGCAGGATGGGAGGGAGGGAAGAAGGGAGGGAGGAAGGGAGGGATGGA
G
GAAGGAAGGAAGGAAGGAGGGAAGGAGGGTAGGGAGGGAAGGAGAGAAGGAGGGAATGAAGGGAAGGAAGGAAGGAAGGGGAAAAAATCCAACAAAATGG
Celera SNP ID:            hCV26351364
SNP Position Genomic:     7725
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,4)   total(G,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63853):
TTATTTATTACTCATGCTTTCCTTTCTATTTTTTCTTTTCTCTCTCTCTCTCTCCTTTTTTTTTTTTTTTTTTTTGTTGTTGTTGTTGTTGAGACAGGGT
Y
TCAGTCCGTCGGCCCAGACTGAAGTGCAGTGGCACAATCATAGCTCGCTGCAGCCTCGACCTTCCAGGCTTAAACGATTCTCCCACCTCAGCCTCTCGAG
Celera SNP ID:            hCV1772880
SNP Position Genomic:     12431
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:63854):
CTGCCAGGAAGATTAAATGAGAAAATACTTAAATGTGAAACACTTAGAATGGCGCCTGGAACACAGACCATTAATACCATCTAACAGATGTTAGTTGTTA
W
CCTTATTTATTACTCATGCTTTCCTTTCTATTTTTTCTTTTCTCTCTCTCTCTCTCCTTTTTTTTTTTTTTTTTTTTGTTGTTGTTGTTGTTGAGACAGG
Celera SNP ID:            hCV7565924
SNP Position Genomic:     12328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63855):
AAATGTGAAACACTTAGAATGGCGCCTGGAACACAGACCATTAATACCATCTAACAGATGTTAGTTGTTATCCTTATTTATTACTCATGCTTTCCTTTCT
M
TTTTTTCTTTTCTCTCTCTCTCTCTCCTTTTTTTTTTTTTTTTTTTTGTTGTTGTTGTTGTTGAGACAGGGTCTCAGTCCGTCGGCCCAGACTGAAGTGC
Celera SNP ID:            hCV11469525
SNP Position Genomic:     12358
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63856):
GTCCCCACCCCGGCCACCACACTGGTCCCAGCCCCAACAGGTCAGCTTCCTTTGCTGTTCCCGGGCTTCCCTCAGCTCTATCTCAAGCCATGACCTCTGC
Y
TCCATGTCTGCAGCCCCATGAGGCTGGGGCTGCTCTGTCCTGCATATCTCCAGTGCCTGGCAAGGGGCTGGCAAGAGGTAGAGGCTCATTAAATGCCTGT
Celera SNP ID:            hCV7565925
SNP Position Genomic:     12848
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,3)   caucasian(C,31|T,9)   total(C,54|T,12)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63857):
GGAGGAAGGAAGGAAGGAAGGAGGGAAGGAGGGTAGGGAGGGAAGGAGAGAAGGAGGGAATGAAGGGAAGGAAGGAAGGAAGGGGAAAAAATCCAACAAA
R
TGGTTATATTATATTGATGGTGTTATAAAGTAGTTCTAGATAAAAACTATTTTCAAAAAAGTCTTTAAATATATATGCATACACCTATGAATATTAAAGC
Celera SNP ID:            hCV1772890
SNP Position Genomic:     7822
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63858):
GAGGAAAGAAGGAAGGAAGGAAAGAAGGAAGGGAAGGAAGGAAGGAAGGAAAGCAGGATGGGAGGGAGGGAAGAAGGGAGGGAGGAAGGGAGGGATGGAG
G
AAGGAAGGAAGGAAGGAGGGAAGGAGGGTAGGGAGGGAAGGAGAGAAGGAGGGAATGAAGGGAAGGAAGGAAGGAAGGGGAAAAAATCCAACAAAATGGT
Celera SNP ID:            hCV26351365
SNP Position Genomic:     7726
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,4)   total(G,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63859):
AGGAAAGAAGGAAGGAAGGAAAGAAGGAAGGGAAGGAAGGAAGGAAGGAAAGCAGGATGGGAGGGAGGGAAGAAGGGAGGGAGGAAGGGAGGGATGGAGG
A
AGGAAGGAAGGAAGGAGGGAAGGAGGGTAGGGAGGGAAGGAGAGAAGGAGGGAATGAAGGGAAGGAAGGAAGGAAGGGGAAAAAATCCAACAAAATGGTT
Celera SNP ID:            hCV26351366
SNP Position Genomic:     7727
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63860):
CAGCTGCGTGGCTATGAACATGAGCTATGGGGTGCATGCAGACCAAGGTTCATAGTGTACACTGTACCCACCAGCTGTAGCTCCTCCAGCAAGCGTGGGA
R
GCCAGTCAGCTGCATGGCTGTGAGCACGGCCTCTGGGGTCCATGCAGACCAAGGTTCCTGGCGTAGCACTGTAACCACCACCTAGGTCTTCTCCGACAAG
Celera SNP ID:            hCV1772884
SNP Position Genomic:     11897
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63861):
TAATGTTTGCCACGTGCTTACAATAAGTCAGGAACCCTGCCAAGCACCGGGCGTATATTAACCTATCCAAGCTGGGGAAGAATGTTTAGGCTCTGAAGAT
W
GTCTGGAGCCGCATAAATCCCGCAGTGTAGGCAGCTGCTCATTCTGCAGATAGTATTCTGTGGATCCCTGAGTTGGCTGTGGCCGGTTTTGCCAGCAGGA
Celera SNP ID:            hCV1772885
SNP Position Genomic:     11553
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,3)   total(A,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63862):
TAGAGCTCCAATCCTCCAACCAGAGCCAGCTCTTCCCTCAAAATGCTACGGCCTGTGACAATGCTCCAGAAGCCTGGGACCTGCTGCACAGAGTGCTGCC
R
ACATTTATCATCTCCATCTGTTTCTTCGGCCTCCTAGGGAACCTTTTTGTCCTGTTGGTCTTCCTCCTGCCCCGGCGGCAACTGAACGTGGCAGAAATCT
Celera SNP ID:            hCV1772878
SNP Position Genomic:     13581
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(A,1|G,27)   total(A,1|G,53)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;JBIC-allele(A,387|G,1070)   total(G,1070|A,387)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63863):
CAAGGTTAATTCTCTGCTACACAATAGCTTTTGTTGGTATCTGTGAGGCTTTGCGGGGTTGAAGGAATCTCAGGTGTCACCCATTAATAACAATCATGAC
R
GTGACAACTAATGTTTGCCACGTGCTTACAATAAGTCAGGAACCCTGCCAAGCACCGGGCGTATATTAACCTATCCAAGCTGGGGAAGAATGTTTAGGCT
Celera SNP ID:            hCV1772886
SNP Position Genomic:     11444
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63864):
GATCTGAACATCACCGCCTGCATCCTGCTCCTCCCCCATGAGGCCTGGCACTTTGCAAGGATTGTGGAGTTAAATATTCTGGGTTTCCTCCTACCACTGG
Y
TGCGATCGTCTTCTTCAACTACCACATCCTGGCCTCCCTGCGAACGCGGGAGGAGGTCAGCAGGACAAGGTGCGGGGGCCGCAAGGATAGCAAGACCACA
Celera SNP ID:            hCV22272335
SNP Position Genomic:     14105
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,3)   caucasian(C,20|T,2)   total(C,25|T,5)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63865):
ATATAATTTAAAGCAACCACATCTCCACAGCACTTCCCAGAAGAGAAAACTCCTCCAAAAGCAGCTCTCACTATCAGAAAACCCAACTACAGTTGTGAAC
R
CCTTCATTTTCTGCCTGAGTAAGTAAATGACCACCTTTTTTTTTTCTTTTATGAGAGTACAATATGAGAGGAAATCTGTGTCTCTTAGAAAAACAAAAAA
Celera SNP ID:            hCV1772895
SNP Position Genomic:     6060
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:63866):
GAGTGACATGACAGAATGTCAGAGCTAGAAGGGCCTCTTGAGGACATCATGTCTTCCTTAGATGAGGAAAGTCAGGCTCAGAGACATGAACTGACTCTCC
Y
GAGGTTACACAGCCAAATATGCTCTTCCAAGGTTAATTCTCTGCTACACAATAGCTTTTGTTGGTATCTGTGAGGCTTTGCGGGGTTGAAGGAATCTCAG
Celera SNP ID:            hCV1772887
SNP Position Genomic:     11316
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63867):
GCCCTCCCGTGATCCCACAAGAGAGACACGATTCTCTCCAATGTTTAAAAAGGAAAGTAAAAGTCAATGGTTCTAAGTAGCTCACACTGAGTGATTGTAC
Y
GGGATTTGGACTCAGGCACCATCCCTTAAACCAGAGGTCAGCAAACTTTTCCCCCTCAGGAACAGATGGTAAATATCTTCAGCTTTGCAAGCCAGACAGT
Celera SNP ID:            hCV1772879
SNP Position Genomic:     13167
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,23|T,15)   total(C,48|T,22)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,5)   caucasian(C,22|T,14)   total(C,41|T,19)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63868):
CTGAAAATCACGGTGTTACTACCTCCAAAACACCTCTAGAGTTTGATCACTTGATCACTTCTCACCACCTGCCCTGCTACTCTCCCCAGCTGTCACCCGC
Y
AGCATGTTTATTTAGTGTGTGTATTGTTTATCAACTTCTTCCTCCTGCTAGGCTTATACGCACACTGAGAGCAGGGATTTTTGCCTGCTGTATTCACTGC
Celera SNP ID:            hCV1772888
SNP Position Genomic:     10996
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63869):
TGAATCAGACTGCCTGGGTTTGAATCCAGGCCCTACTGACCAGCTGTGTGACCTCAGACAGGCGACTCCGGGTCTCAGCACTCAATTTTCTAATTGGCCA
R
CTGGAGATGACAATGGCCCCTACCTTGAATGGCTGCCAGGAAGATTAAATGAGAAAATACTTAAATGTGAAACACTTAGAATGGCGCCTGGAACACAGAC
Celera SNP ID:            hCV26350577
SNP Position Genomic:     12195
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63870):
TTTTTGTGTTTTCAGTAGAGACAAAGTTTCACCATGTTGGCCAGGTTGGTCTTGAACTCCTGACCTCATGTGATCCACCTGCCTCAGCCTCCCAAAGTGC
W
GGGATTACAGGCATGAGCCACACCGTGCCCAGCCCACACGTATTTTTTTTTAACCAGATTAAACCTTTCAAATAAGTTGTACCTACTTATAAGTTTTGAA
Celera SNP ID:            hCV1772889
SNP Position Genomic:     8566
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,7)   total(A,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63871):
TTGCAAGGATTGTGGAGTTAAATATTCTGGGTTTCCTCCTACCACTGGCTGCGATCGTCTTCTTCAACTACCACATCCTGGCCTCCCTGCGAACGCGGGA
R
GAGGTCAGCAGGACAAGGTGCGGGGGCCGCAAGGATAGCAAGACCACAGCGCTGATCCTCACGCTCGTGGTTGCCTTCCTGGTCTGCTGGGCCCCTTACC
Celera SNP ID:            hCV22272632
SNP Position Genomic:     14157
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,23)   caucasian(A,2|G,38)   total(A,11|G,61)
SNP Type:                 SILENT MUTATION


Gene Number:                 394
Celera Gene:                 hCG24513 - 30000054177698
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W0QP(43493629..43506426)
Chromosome:                  Chr14
OMIM number:                 113503
OMIM Information:            BRADYKININ RECEPTOR B2;BDKRB2


Genomic Sequence (SEQ ID NO:12554):
CTAGACTTTACTTGAATACCTTTAGTGACAGGGAACTAACTACTACCAAAGGCAACTAACTCAGCTCAGCAAACATTCAGTGATAGCTGCGCTTCCCCAG
GACCAGAGATTCAGATAAGCAAACACCCTGTTCTGTGCTCAAGGGACTGATGGTGTGTGACAATCGAGATAGTGTGAAGAAAAAGGACAGCATATGTGTG
TCTCTGTGCATGCATGTGCAAACACTGACACTGCAGTATGTATTCAGAGGAAGTCACTACAATGGTGAGGCCCACCTGGCACCAGAATGAACAGATTTAA
GAAAGCTAGTCACCGCAGACGGTCACAGCTGGAAGGATTTTACAAAATAATCTATCTTATCATCCTCCTTTGCCCTAGAGATGGGGAAACTGAGGCCCAA
AGAGTGAAAGCCACCTGCTCAAAGGCATATTGTTGAGTCTAATAATAAAAATAACCATAGCAATAGCAACACTGAGGGCAGCTGTCCCAGATGGACGCTG
GCTCCATGCCAGCCCCTGGGCTAGGCGTCTGGTGGCACTACCTCATTTCACTGCCATAACAACTGGGTCCCCCATCTTGCAGATGAGGAAGCCCAAGTTC
AGAGAGGTGAAGTGGGGGGCTGGGGGTCTATCCCAGACCTTGTTGTCACCTCCTCACTCTCCCAGTAGCGCCAGCCAGAGCACCTGTCTTGGGAGCCCCG
AGGCAGGGACAGGCTATGCATCCAGGAAGCCCCCAGGCTCTAAGGAGGCGGCCCTATAACTGCTGGATGACCAAAAATCAGGCAGCGATCCCTAAGTCCC
TTCTGAGCCCCAGGCTCCAGGCTCCTCCAACCAGGTCTGCCTTACGCTTTTGACCACAATCAACCCGGCTCTTTCTCGGTTCTTTTCATCTCTCTGGTGG
TTTTGTATGCAGAGTCACCCAGGTCCCCACTTACGAGCCTGTGAGATGGGATAAATCACTTCCCTTTGCTGAGCCTCAGTTCCTTCACCTGTAAATGGGC
ATAACAAGTTCCTCCAGGACAATCGTGAGGCTCAGGGAAAGGACTGTCGTGCAAACCCACCATGGCATGAGCTGTCGAGTGCAGTGCCCGCTGCCACTAA
GGAATGAGTGCCACTCTGGGATTGTGGAAAGTGCAGAGGGGCAGGGTTGAGATGCTCGTGCATGACTTTGGACAGGTCACCTCCCTCTCAGAGGTTTAGT
TTCCTTACTTGTTAAGCTTGGACTAAAAATATCTAAATGGTGAGATTTTTCCAACTTCTTTGGCTCTAGCATGTCTGTGGTCCTTGATGGTTTACAAAGC
GCTTTTGCACTTGAGACCCCTAAGTGCTAATTCTACCACATCCCCATCCACTTCATAGTGGGATGACCTTAGCCAAGGCTCTTCACCTAAACTTCCATAA
GCCCCTCGCTGGAATTTGAGCCTGTTTTGCTTTTTTAAAGTGAGGGCAATGCTACTGGCCCCACCCATCTTACAGGACAAGGGAAGCCCAAGGACATGAG
AGCTTTCTGAGCTGCATCCCAGGCCCTGCTCTGCCACTGACTCGCTGAGGCTGGGTTTCCCCATCTGCAAAATAAGGACATAAAAACCCATCTAGAGCTG
GGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGTCCAGGGCAGGCAGATCACTTGAGGTCAAGAGTTCGAGACCAGCCTGGCCAACATGGTGA
AACCCCATCTCTACTAAAAATACAAAATATTAGCCAGGTGTGGTAGCTCATGCCTGTAATCCCAGCTACTAGGAAGGCTGAGGCAGGATAATTGCTTGAA
CCCAGGGGACGGAGGTTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGTCTGGGTGACAGAGCGAGACCCCATTTCAAAAAAAACAAACAAACGAACC
AAAACAAATAAAAACCCATCTAGAGTGTTGTGGGGATTAAATGAGTTAATATCTGTGAAGTGCTTTGAACAGAGCTGGCACGGCCGGGCACGGTGGCTCA
CGCCTATAATCACAGCGCTTTGGGAGGCCAAGGCAGGGATCACTTGAGCCTAGGAGTTCAAGACCAGCCTGACCAACATGGCAAGACCCTGTCTCTACTA
AAAATACAAAAATTAGCAGGGCGTGGTAGCATGCTGCTGTAATCCCAGCTACTCAGAAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAAGAT
GCAGTGAGCCAAGATTGCGCCATTGCACTCCAGCCTAGGTGACAGAGCGAGACTCTGCCTCAAAAAACAAGAACCAAAAACCCCTTAAGAGAAATGGGGT
TTTCTCTTATGAGAAAAATAAATATCCCCGGTGTTTCCTCTGACTTGCCCAGGGCTGCACAGCTCACAGGGGAGGGGTGGGGACCGGGACCTGGCACTTG
GCTCCTGCTGCTCTGCCCTATGCCCTTGGGGACTTCTGGACAAGGGTGGGCTTCTCTGGGCTGACAGAGGAGACAGAGGCAATGGTGTGCTGGTAAATGG
TTAACAACTGGCTCTCTGGAAAAAAATGCCCTAACTGTAGCAAAAAAAAAAAAGAGACTAGAACTGGCACATTGCAGATGATATAGGCATTTGCTGTCAC
TATCAGCATCAGCATCATTACTTGTCCTTTCAACAAATATTTCCTGAGCCCCTGTCGTAGGCCAGGCCCAGTGCTAAGAGGTGGGGACACAGTGGAGGGA
AGACAGAAAGTTAAGTGTGCTGTTTCCATAAAGTGTGCTGACAGCCATATAGGAGCACTGGGGCTGGGGTGTCTCTACGGTGCCTGGGAGGGTCTCCTAG
AGAAGGTGACATCAAGCAGGTTCTGAAGGATGAGTAGGAGTTGGAAGGAGTTGGAAGAGCTCCTGCCCTTTGTGGAGCAGGAGAGGGAGGTGGTCCAGGG
ACCTTTCTGGCCGACCAACCCTAGAGCCAATTGCAGTGAGCCATTGTGACATTGGACTTGAAACTGGTCACTGCGAGAGTATTTATACCATAGAAATTTG
CAAATGCTACGGTTAGGGCATTTTTTTCCAGAAAGCCCGTTGTTAACCATTTACCAGCACCCCACTACCTCTGTCTCCTCTGTCAGCCCAGGGAAGCGCA
CCCTTGTCCAGAAGTCCCCAAGGGCATAGGGCAGAGCAACAGGAGCCCAAGTACCAGGTCCCAGCCCCCACCCCTCCCCTGAGAGTTGTGTGGTCCTGGG
CAAGTCAGAGGAAATGCCGGGGGTATTTATTTTAAAAAGTGTCTATCAGGACTCTACATTATGCCAGGGGTCTCAAAGGTGAAAGAGGCATGAGTTTGTC
CCTCAAGCAGCTCAGGAGGAGCTGGAGGAGGTTTCCTAGGCACGAGCTTATCCACACCATGACACATAGACCCTGAAGTGTTTTAAATCAATTACAAAAA
GCAAAAATACAAGGAAGCTGACAGATCTTTACTTTGGGAGAAGTGGAGGCTTGGGAACAAATGAGATCATCAAGGTCTTTTTGTCCGTTTTCTAAGGAGT
TGGGGTCATTGGCTGAGATCCTGCAGATCTGGAGGTACCAACATGAGACTCCGAGGGCCACCTCCTCTGCCCCTCCCTCCCCACCCCCTTTAAGGCCCTC
TCTGGAATCCATCCCTTTTCCTCCATCTCCCCAGACCTGGCTGAGGCCTCCGTTGTGCCTCTGGTCTGGTGCCTCAGCCCCCTCGCTTCCTGCTTCCAGA
TTTTGCCAACTGCCCCCCACCTTTGACCATGTCCAGGCATCCTGGCTCAAAAGCCAAGATGAGATCTATACTTGAGAGCGTATATGAGAGGGATGCAACT
GAGGCTACCTGGAGTGCGTGGACACAGCCATGGCCTCAGGTCATCATCTCCCCCACGAAGCCTCCCACACCTCCTGTCCCCATCTTGGGCACACTTCCCA
CCACCTGGGAGACCCCTGAGGGCAGGCACCATCTGTCCTTCACCACTATATCCCCCTATAAAGAGAGATAATGCAGTGAGGTGCCGGGGTTCAAATCCCA
ACTCCACCCATCACCAGCTGTGTGACTCTGGACAAGCCACCTCTGTGTGACTCTGGACAAGTCACCTCACTGCTCTATTCCTCCAATTTTTATAAAATTG
GGATAGTACCAGTGCCTGCATCTAAAATAGGTGTGGATTACATGAATTATTTCATGGAAAGTGCTTAGAACATTGCTTGGCATTCATAGTAAGCCTCCAA
AAACTGAAGCTATTATTATTCCCTGGTTGCTGGCCCAGACTAAGCACTCATAAATTTGTTGAATGAATGCAATGTAAACAGGGAAATGCTCTGTAAATGC
TGGTGCAAGCTCATCAGCTTCGTTGTCGTCATCAGCATTGTCCTGATGCTATTCATGGTGGGTGTCCTGTCTGGAGCCCTGCTGGCTGTAGACCACCAAT
GTGGGCACAGTCCTAGCCCCTCGCTCAAGTAGGGTATGCGAGGACTCAGGAGACGTCAACAGACATTCACAGTATTTACACTGGGACCTTGGAACCAGTG
TGGTTGAGTAGACACCCGGAGGACAGAGTTCTGAGTTTATTTGGGAGGGGTTGCCGGGGAGAGTCAGCTGTCTGGAAAGGCTTCCTGGAGGAGGAAGATT
TGCTAGAGGTGCTTGAGTGGTTGGTGCAAGGGGGCTTGTGGGGAACCAGAGCGTCCTGGTGTTTAGAGCAGCAAGGAAGAGGCTGGGTAAGGACAAAGGA
CATTGGGACAGACAGAAAGCCTGACTCTAGAAAGAAGGGGCCAAGGTCACTGGAGAGGAGAGAGAGGAAGGATTAAGGACGATTGAGTGGGTCATAGGGG
TTGAGGGCTCTGTGTAGGGAAAACAGTTTCCCACTCAATCCTTTCGATGCCACTGTGATTAAATGTGTGGGTTTATTTCCTCAGAAATTGTCTTACAATT
CCGTTCAGTTCTGACATTATCTGCCCGGAGGCAGCACAGGATAAGAGCTCAGTCCCACAAGACTGCCGCCACTTCAGAACCCATCGCAAGTCTCAAGTGG
CCTGCACTTCTGACCAACCAGCTGTAAGGCAGGGTTCCCACAACCCCCTCCACGGGTTCAGTAATTTGCTAGGATGGCTCACAGCATCAGGGAAACATTT
ACTTACATTACTGACTTATAATAAAAGACACCACTCAGCCACAGCCAGGTGGAAGAGAGGCACAGACCCACACGTGGGGCAGGGGCCTGGAGCTTCGGTG
CTGTCTCTGGGGGCACCACCAGCTCAGCACCTCCCTGCGTTCACCAACTCGGAAGCTCTCCCAATCCTGTCTTTTAGGGATTTTGATGGAGACTTCATCA
TATAGGCATGATGGATAATAAATTCAATCTCCAGCCCCTCTTCCCTTCCTGGAGGATGTGGGGTGAAAGTTCCAAGCTTTGTATCATGGTCTGGTCATTC
TGATGACAGCCCCCATCCTGAGCCTATCCAGCCACCACCAAGAGCCACCTCATTAGAACAAAAGATGTGCCTATCATCTAGAAATGTCAAGGGAGTTAGG
AGCTCCGTGTCAGGAACTGGTGTCAAAGACCAAATATGTATTTCCTAATATATCACGATATCACAGGTTGTGAGAAGAATGCCATCAATGGTCAAACTCC
AGAGCTGCACACTCTCCAATATGGCAGTGACCAGCCACATGCAGTCACCAAGCACTTGAAAGGTGGCTGCTTCAAACTGGTATGCTAAGTGTAAATACAC
ACTAGATTTTGAAGAGTTAGCAGGAAAAAATAATAATATAAAATAACTCAATGACTTTTTGTATTGATTACATATTAAAATAATGTTTTGGATATATTTG
ATTATATCTCATATATAACCAAAATTGATTTCACCTGTGTCTTTTTACTTTTTTTAATGTGGCTACTAGAAAATTTGAAGTTACTTCTGTGGCTAACTTT
ATAGTTCTATTGGACATCACCGACCGCTCTAGGCTATGGAAAATTCTGTAGAACAAACAACTGGAAGTTGGAAGAAAAGACAGTAAGAAATAGCAAGGAA
GGGTGTGCTGTTGGGAGTTGCTTGGAGGTTGGCGGCACAGGGCTGAAGGCTAGCAAACCGAGCGATCATGTCACACAAACAAATTCACTATTCGGACAGA
TACGACGACGAGGAGTTTGAGTATCGACATGTCATGCTGCCCAAGGACATAGCCAAGCTGGTCCCTAAAACCCATTTGATGTCTGAATCTGAATGGAGGA
ATCTTGGCGTTCAGCAGAGTCAGGGATGGGTCCATAATATGATCCATGAATCAGAACCTCACATCTTGCTGTTCCGGCGCCCACCACCCAAGAAGCCAAA
GAAATGAAGCTGGCGAGCTACTTTTCAGACTCAAGCTTTACACAGCTGTCCTTACTTCCTAACATCTTTCTGATAACATTATTATGTTGCCTTCTTGTTT
CTCACTTTGATATTTAAAAGATGTTCAATACACTGTTTGAATGTGCTGGTAACTGCTTTGCTTCTTGAGTAGAGCCACCACCACCATAGCCCAGCCAKAT
GAGTGCTCTGTGGACCCACAGCCTCAGCTGAGTGTGACCCTAGGAGGCACAATGTGCTCTGTATCCAGAACACACTTGGCAGATGGAGGAAGCATCTGAG
TTTGAGACCATGGCTGTTACAGGGATCATGTCAACTTGCTGTTTTTGTTTTTTCCTGCCTGGTGTTGTATGTAAGGTCACTTGTGGATTTATGTTTCAGC
GTACTGGAAACTTTCCATTTTATTCAAGAAATCTGTTCATGTTAAAAGCCTTGATTAACAAGGAAGTTTTTATAATCTAAAAAAAAAAAAGAAATAGCAG
GGAAGGCTGTAGGTGAAAAGAAACTTAAGAGACCTATCAAACAACCCAATGTGTAAAGTCATTTGCATTCTGATTCAAGAAAACCAGCTGTGAAGAAAGT
AGCGTGAAATTCATATGATTGAAAGTTGTAATACTTCCTGGATAGTTGATGCCATTTAGGAATTATTGTCAGTTTCTTCGAGATGTGATAATGGTTGTCT
AGTTATGCTTTCTGAAATAAGAGTCCTTAGCTTTTAGAGAAGAATAGTGAAATATTTACAGATGAAATGACAGACATGCAGGATTTACTGCAAATATTAC
AGGAGGGGTAGGGTAGGTTTGGGCATAGAGAAAAAGATTGGCTGCGAGTTGGTAATTACTGAAGCTGGGTGAAGTATGTGGAGTTTCATTATGCTAGTCT
ATCTACTTGTGGGTATATTCCAAATTTTCCATAATAAAAAGTTAAAAAGCAAAAAAAAGAACCATCATCTCCACCTGAGGTTCTGGCCCAGACTGCTTAT
GTTCAAATCTCAACTCTAGTCTTGCTAGCTGTGCCTCTGTTTGCTCGTCTGCAAAATGGGGATGATAATATTAGTCCCTACATTGCAGGGGTTTCTCTGT
AATGTGCTTAAAAATATGGAAACAATATAAATGAAATGAAGATATGTTGCAGGCACTTTGCACATTGTCACGGTGCTCCCAGTGCCTTGTTCCAGGGAGG
TTATCCTTATTTACCAAGAGGTTAAGTCACCTGCCCTAGGTCTTCCAGTCAGTGGAGGCAAAGCCAAGACATGTCCCGAGTTCATCTGACTTCTGAGTTC
AGGCATGACCTGAATGTTCTTGCCTCGGGCTCAGGGCTCAACATTTCCTGTCTTCTCTGCTTCTCCAGTCCTGAGAGATTCTGGGCCCGTTTCCCTGCAG
ATCAGCTCTAAGGAACATGCTTCTCTCCTGCTCCTTTCTAGAAAAGGCGTAACATTGGCAGAACCAGGAACTCTGGAATTCTGAAGGTTGACTCCCTCAA
TTCCAAGGGGCTCCACCTCCTGAGCGGAATTGGATAGAAGACAAAGGTCACATGGCTAGGGTGAGGCTTTGAGATGGGCGAGACTGTGAGCAGGACTGAC
AGGTCAGGGCCAGGACCCAGGATCTTCAGAAGCCACAGGGAGCAAGGCAGGGAGCAGCCTCCTTTGTGCCACACCCAGTGAAGGGGAACTTGCTAAGACA
GATTTGTTCCTCCCATCTCCAGAAGAGCCGTTGGATGCCAATGGGTGAGGAGCTGAACCTCTGCAGACTCAGTGTGCTGATCCCATTGCCTCTGCTTGCA
TGCCTCTCAGGATGGGGAGTTCACTGCATCCCCCTCTTTAAAGACATTACGGTTGTACAAAGGTCTCCAGAATCATCTATTACATCCCCTCATTCTCCCA
ATGAGGAAATTAAAGCTCAGAGATGCCGAGGCATTTACCCAAGGGCACACCTGGTCCTGGGCCTACGACCCTTAGACAATATTCCTTCCACCTCTTTGCT
ATAGAGTCTCAGACTAGGGATCTTGGCTGGCTGAGAAATCAGGGAAGGCTTCTTAGAGGAGGTGAGATTGGAGGTGGCCCTTGTAGGGTGGCACTAAGAT
GTCGCTTGATATCCTAATTTTTTTTTTGGCCCTGCCCACCATGTGTGTGCCTGTGCTGCCATGTCACACTAAGCAGAGTAAAATGAAGGAAGGAACGGAT
GAAAGGGGCAGGAAAGCGACTCCCAGGAGCTGAAAGGGCAATAGTATAGGTCCCTTCAGCACCTAGGATATGTTGTGGGAAGCCCTTAGACCCCAGATAC
TACCCTGTGCAGATAGGGATAAAACTCCACCTGTCCCAGCTCAGTGCTCTCCCCGGCTCCTCTGGCCTGCTTGCTGGGCAGGGCCCAAACCAGTTCAGGA
TTCCTTTTTCTCTGTGACCTACCAGTTAGGGTTCTCTGTTTACTGTGTCTCCTCCTCCTTGTTTTGTATACCCAGCTGGGTGGGAAGAAGGTCACAGCCC
AGGTTTGCACGTGGTGGAGGAGCAGGGCCAGTAACTGGTTAGGCAGAGACCCCGCCCACCACCCTCCACTCCCACCCTAGCAGGGCCTGTGCCATCCCCA
GGACACCGGAGACCACCAGGGGGCTGGAGAGGCTGCGGGAGAAACAGCCTTCCTGGACACACCCAGCTACGGCTCACTTCCCAGCCTGAGCTGTTCCTTA
GGAATTGCTTTTCTGGGAAACACACCCTCTTCCAGACCTGCAGCCTTCCTTTCTATGTGGTTTTTGGTTTTGCTCTCTGGTGAGGGTTTCTATTTTTTCC
TGGTATACATGAATGGCATGCAGGAAAGTGGAATGAGGACATCATGACCACCATGCAAAGGCCATTGCTCTTAAGGTTTGATGTAAGCTCCCCACTCTCC
ACCCCCACTACCCCTCTGCCTCGGCCTGGGGTATGAGGTCTTGGTTTTGACAATCAGACAATGTTAGCACACTGCTGTGTCTTCCACCTGCAATGGAGCA
CTGTAGGACGATTTTAAAAAGCAAAGTGGCAGGCCAGGTGCGGTGACTCAAGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATTACCTGAG
GTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCCGTCTCTACTAAAAATACAAAATTAGCTGGGCGTAGTGGTGCATGCCTGTAATCCCAG
CTACCTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAAAG
TGAGACTTGGTCTCAAAAAAAAAAAAATTACAAAGTGGCTGAATACCAAGATCCTAGGAACTAGGTTCAGCCAAACTGGCTGTGTGTCCTGGTAGAATGC
CCACCCTCTGTCTCTGGGCCTCCATGCCCATCTCTGTAGCATGAGGGATTCTGATGAAATAATTTCCAAGAGCCCTTCCCACACTAATACTCCAGGATTC
TGTAAGGTTAATTTGGCAAGAATTCCAACGGCGGAAGAAAGATGGAGGGAGGAATATGTCCAGTCTAATAACCCTATGCTCAAGTCAGAAAGCCCCTCGG
GCAGTGTCCGAGAGGGCTACAGCCCTGGCCCCAGAACCTGAGTCCCTCTAACCTGGGTCAAACCCCTAAAAGCCACTCCAGCAAGAGACAGGCAAAGCCC
GGGCTCTTGCTCCAGGCTGGCATTGCCTTGCCGTGTGGCTGTAGACATCGTTTCACCTCTCGAGGCCTCAGTTTTCCCTTCTGCAAAAGACAGGCTGGGG
GAGGTTGGGCATTTTCTTCTTAACTACCAGGAGTCTTTCCTCCAATAAAATTGTGATGGAAACCGGATGTCACACAAAGGGAAAGGAAACACTGGCATTT
CTGGAGTGTTTGAAGCATGTGAAGTATTGTTTAAGGGCTTTGCAATCATTAATGTACTTTGTGCTCACATTAACCCCACAAAGTAGGTGCTATTATTATC
CCCATTTGACACATGAAGAAACTGAGGCCCTGAGGAGTTAAGCCACTTGTCCAAGGTAAAGAGTGGGAGCTGGGCTTCTGATAGGGAGTGGGCCTCAGTC
ATGAAACCACAAGACTTGTGTAGTTCCAACCCCCTGGGGACATCTCCAGGCACTTGACCCATGCTCTTCCAACATTCATGTATGCACGCACACGTGTACA
CACACGTGCACACACAAACACACACATGTGTGCACAAACACATGCATGCACACACAAACACATGCATGCACACACAAACACACACACATATATACACACA
CCAACACAAACACAAATGTGCACAAACACACGTGTGCACACAAACACACACATGCACACACACACACAAATGCACACACATGCGTGCACACTGTGGCTAC
TCCTCTGTAGCCTGCTGGCCACACTCGGCTCAAGCCCCAAATCAAAGGTGACTAGCAAGATTGCGAGACAGATTTCTGGAGATGGGAAACTGCGTCATCA
AATTGTCTCAGGGACGGAACACCCATCAGAGCCCTGGGGGAGAGAAGAGACACGGGGTGGCTGCCAATTTTGCTGACCTATGCTGCTGACTTTCCAGCAG
CCCCCGACTCCTGTGGCCAGCTGAGCCCAGGTCCAAGCTGCCCCCTGCACAGGGCTTGTTCCCTGGAGGGCTATAAGCCACAGCATCCCCTCCAAGACAG
CCAGTCCTGTGAACCTGCTCAATCCCTCACTATTCCTTGGGGCCTGCCCTGGGAGAAGGGAGAGTTCCCTGGACCCCTTCTTGGGACTTGCGGTGACAGG
GGTGTGGCTCACTTGCTCAAATCCCTTGTGTGAGGGGAAGCATGCAAGCAAGTGGGTGCTGGGGCCGGGGCAAGCGCTTTTGGGCTCTGGCCCTACAGTA
CCGTCTAGGGTTGTGTTACAATTAATGCTCTTTTAGCAGTTGCCATTCACTGATGGCTAAGTGTTAACCAACTCAGTGGAGAGTGAGGGTGACAGCCTTT
TACACCTTGCCCTCTTGGTACCTGGGTCCTTGTCTGGCATCCAGGAAGAATCAGGTCACACGGACTTGAAGGATGGTGAATGCAGAGGTTTTATTGAGTG
ATGGAGGTGGCTCTTAGTCGGGTGGGGAGCTGGAAAGGGGATGGAGTGGGAAGGTACTCTTCCAGATGGCTGAACTCTTCTCCAACTGTCCAGCTGCCTC
TTCCACATTCAGACACTTCTTCTCTTCTCTCCTTCTCTGCCATGCTGCTCTGCTCCTCTGCCAGTGGAGTTTGGGGTTTTTATGGGTATGGGATGGGGGG
CATGGTGGGCCAGGGTGGTTTTGGCAAAAGCAACACTCAGGTGGGAAAACAGGAATGTGAAGTTCTCATTTAGGGCCGTGGGCCCAGGCTTGTGGGTGGG
GCTTTTGCCAGAGAGCTGTCCTCCTCTACCCAGTATTTCCCTGCCTCCTGTCCATATCACCTGCACCAAGAACCTCACTGGGTGGGAGCCAATCCAGAGC
CAGAGAAAGGACTTGACACTTGGCCTCAGGCAGACCCAGGCTTGAATCCTGGCCCTGCCTCTGATGAGCAGGGTGACCTGAACTGTCTCAGGTTGCCTCG
CTGACTCTGCTTTCCCATCTGGAACATGGGAATAGCAATGCATCAGCCACTCAGTGCAGTGTTGAGGCTGGAACAGGTGGGGCACACTGTGAGCTCCATT
TCCTTTTGCCTCCACCCAGCAATTATGTCTGCTGGGGAGAAGAGGAGAAATAAGGATCACACCCTGCCCTCTATCAGTCAGTCAACGACCATTTATTAAA
CACCTACTAGGTGTCAGGCACTTGACAGAGAAATGAAATAACAACACAAGCAACTCTTATAGCTATACCCTATAATAAATGTTATAGAAGCAGGAGGCAG
GTAGAGGTGGAAGAGAACCTTCTGCTTGCAGGGGGATATCAGTCAGAGAAACAGAACCAATAGGAGACACAGATTAAGAGATGTATTGCAAGGAACTGGC
TTATGTGATTGTAGGGATGACTAGGCAAGTCAGAAGTCGCTTGGGAATGCCAGAACACTCAGCCTTGGACCGAAGCTCCTGCCCGCAAGCTGAATTTCTT
CTTCTTCCAGGAAACCTCAGATCTGCTCTAAGTCCTTTCAACTGATTGACTCAGGCCCATGCAGGGAGTTGAGGACAAGCTTCCTTAGTGAAAGCCAGCT
GGCTGTGGGCTGTCACCACACAGACAAACTGCTTCACCCCAACACCAAGATTAGCTTGAAATGGAATAACTGGGGCCTGTCATCCAGCCAGGTGGACCCA
CAGACTCACCGCAGCAGAGCACCTAGAGGCGGCCACGGAGGGTTAGTGACAGAGCAGAATCAGGCAGGGCACCCGGGCAGGGGGCAGACCCAGCAAAGGC
TCCTAGGGCAGATTGTAGAAGAGGTCCTTGGAGATCAGGGAGTACAGCAACGTGGCTGTGGCACTATTAAATTAAATTAAATTAAATTGAAAATAAA


SNP Information

Context             (SEQ ID NO:63872):
TTTCTCACTTTGATATTTAAAAGATGTTCAATACACTGTTTGAATGTGCTGGTAACTGCTTTGCTTCTTGAGTAGAGCCACCACCACCATAGCCCAGCCA
K
ATGAGTGCTCTGTGGACCCACAGCCTCAGCTGAGTGTGACCCTAGGAGGCACAATGTGCTCTGTATCCAGAACACACTTGGCAGATGGAGGAAGCATCTG
Celera SNP ID:            hCV26351347
SNP Position Genomic:     6498
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 UTR 3


Gene Number:                 395
Celera Gene:                 hCG24635 - 145000147710237
Gene Symbol:                 FLJ23027
Protein Name:                hypothetical protein FLJ23027
Celera Genomic Axis:         GA_x5YUV32W0QP(46666006..46762608)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12555):
CATAATGAGGTAAGGGCTGTTTAGAGGTATGCAGAAAGAGGAAGAGTTAGGAGATTATAGTAGCAGTTCAAGTAATGCCTAATACACCTGTCTCCACACA
ATGGCAGCTGGAACAAGGGGTGTGTGTGTCATAATTGGCCATGAGGCAAAGAATGGAAAAAGATGATTTCAAGTTTGACTGACACAGAGGGTGATACTAA
AAAGACAAATGGATAAGACAAGAGAAAAAGCTGGTTTTGATAAGGAGGGAGGAAAAGAATTTGGCTCTATAAATACTAAGCTTGAAGAACTTTAAGATCC
TTTTGTGGAAATATCTATCAGACAGATAAATAGGCCAGTTGAAGTCTCTACAGAACATATCTACTTGGGGTTCATCTACACAGAGGTGATAACTATAAAG
TCATGTTGACGGATGGAGGGATGGAGAGTGAAGAAGGAAGGGGTCTGGGTACAGAACTCTGTGAACTTGTACCAAGTAGGAAGAATCACCAAAGGCGAGC
GTTTGCCCAGTGACAGGAAGGTAAAACAGACTTGAATGCACTTATGATTTACCCACTTGCAGACTAAGAATCACCAAATTAGAGAAAGGGAAAAAGACTG
GTCCAAGAAGTAGGGAAATTTGCATCCTTTGTTGCAAAACAAACCATGGGATGTCAGCTTTAAACCAGAGATGGTAGTCAACAGTGACAAATGCTAAAGA
AAAGTTAAAGGACAAGGAACTAAGGAAAGTTTACTTTAATTGGTGATTAGTTGTTTATTAGAGACACTGAAAATTGTGATGGTTTCATGACTCTGCAAAT
ACTAAAAACGACTGATTTGTACAGTTTAAATGGGTAATTTGTACGGTATAGGATTATATTTCAAGAAAATACATATATACACATATAAATAAAATAACAT
TTTTAGAAGTGCAATAGGGCAGAAGGTGTAGAAACTGCAAGGGGTGGTAAAGAATGAACAGACTAGGAAATAGGTTATTCTTTTTTATTCATTTTTTAAT
TTTTTGAGACAGAGTCTCCCTCTGTCATCCAGGCTGGAATGCAGTGGTGCTCACTGCAACCTCCCGCCTCCAGGGTTCAAGTGATTCTCCTGCCTCAGCC
TCCTGAGTAGCTGGGATTACAGGCATAAGCCACCGTGCCTGGCTGGAAATAGGTTATTCTTTTGAGGCATCTGTTCTCAAAGAGAGTAACAGGGAATAGT
AGGGAGTAGGTTTTGTTATTGTTTTGGTTTTTATATATTTTTCAGCATAAAGGAGAATGAAAAATGTCTGCAGCCAGTAAAAACAAAAAGGAATCACTAG
AGGAGTCAGAACAAGGGAGGCTAACTGGTCAAGGGATAATAAAAAGCACAGCAAGAAAGTTAACCTTAGAAAGAAAGCTCTTTCTTCCCCTGAGAATGGA
AGGAAAAGTTTGAGAAAGATATTTTTAAATAATCTTTTAAGGGGGAGGAAGTAACTAAAAAATCTCAAGAGTACCTCCATATTCTCTAGGAAGTATAATG
CCAAGATATCTGTTGAGGGGAAAGGGGCAGAACGGGGAACAGTGTTAGGAATACCCCAGTAGGGATGAAACTGGAATGGAAAAGAACCTCGGTCCACAAG
CGGATAAATCGTGAGTATATTCAATTGTTTTACCTTCTGTAACTGGCCAAACTCCTGGTCCCTTTAGGTTCCAAGGCAGAATATAAACAATTCATGAAAT
GTAGTGAAAATATTATGGACATAAACAGAATAGAGACAGTCCTCAAAATCGTAGAACTCCCTGAAAAAGTTTTTGCCTCAGGTCTATAAACCTGTTCCCT
ATTACTCTTCAATTATTTTTTCACAAGACCCTAAAGTTGTAAGTTTTCTCATTAGTAGCTTGTGATTCCTCTGAAAATGACTGAGATTTATGAACTCTGC
AAAATGAAAATCCATAAACAAGCAACCTGTCAAGGCATTTTAGCAGCACCTTTCAGGAATGTGCTTCATAAATATCATTTTACATCATAAAAGACTAAAT
ATATTTTCAACATTTAGAATTATGGAAACAATAGTAAATGTCACCACTCAATTATCTCACCCAATATCGAAATCCCCTCTTAGTAATATTTGGCCACTTA
TCAATGAAACCTCATTAGTTTACAAAACAGCCTATGGCATTGCTGGGTATCAATAACTGGTGTTCACATAATTCCTGTATTCCTATATTGATTTTTATCT
GTCCTGTTCATCCCCTAGATCTGCTACACAGATGGCATAAAATAATGCATGAATGAAATCTACCTTTTAGCGACTCTTTAACTTCTACCAGGGTCCTTAA
ACTAAGCCTTGAAAATACATTTCCCTTATCTATTGATTGTCTTTCAAACAGGTAAAAGCAATTTTTACATTCTCTTCTCTAGGGTAAACAAATCTAACCA
TTTTTCTCATCATGATTTTTCTTTTTTTTTAGTGTTTCAAGTCCTCCCTAAATATTAGGAATCAAAACAGATATGATGTGCATAGCACATGGGAGGGGGG
TGGTAACTAACATGCAGTAACATGTCCATTGTGTGTCTGCTGCGTTGCAGCATGTCTGCAAGCTAGTTTTCTTATCCTCACAATTTATCACTGAGAAAAT
GGAGCCAGAGACACGAAACAACCTGACTAATTCACAGCTAGCAAGCAGCATCACAACTAGTCTTACTTTATACCAAGATACTGCCTTCCCTCAATCTAGA
CACTGCTTTTCTTCTGTTTAAGTGGAATGTTACATCCTAGAACCACTTTTGTCAAGCCAGGAAAACTCAGGTTTTGTAAATGTAATCACACCAAGTAAAT
TTATTTATTTTTTATTTTTTTTGAGACAATCTCACCTAGTAAATTTATATCTGGCCAGTTCTGGCCTATTATTATATTTCAGCCTTTAAGAAATCTTTGA
TTTCTGAGTGTCATCTAATGTGCTCATTATCACTACATGGTTTGAGTGCATTTATTAACTTGAGAATCACGCTGCTTATCTATTTAAAGTTGGTATTAAG
AAAGTGTTAATCCGAGTAAGGGCAAGACCAGAGTCCTGCAGCATATCTCCAAAGACATCTCCCCAGGCTTACATCAACTCATTAATCAACATTTCGGGTT
TGGTAATTTGCATGGATATAAATCCATCTAACCACACCTTATCCAATGCACATTTAACTCTTGTGTCTACACACAGTATTAGAATCTTGTTGGAAGACTA
TGTCCTAAATAAACTTAAATGAACTTATGTCCAACAATCCCCAATCACCACCAGTCTAGTAAACTGTAACAAAAGGAAATATGATTTGTGTCACCTGGCT
TTTTCTTGAGACAGGGTCTTGCTTTGTCGCCCAGGCTGGAGCGCAGTCACCCGATCACGGCTCACTGCAGCCTTGATCTCTCAGACTCAAGTGATCCTCC
TGCCTCAGTCTCCCAAGTAGCTACTACAGGCATGCACCTCCACATCTGGCTAATTTTTTGATTTTTTTTTTGTAGTGGTGAGGTCTCACTATGTTGCCCA
GGATGGTCTTGAACTCCTGAGCTTGTGTGATCCTCCAGCTTTGGCCTCCCACAGTACTGGTATTATAAGCGTGAGCCACCACCTCTGGCCTCACCTGGCC
TTTTCTCACTGAAGCTCTGCTGGCTTCAGGGAATCAGCTCTCCTTTCCCAAGTACTCATAAACTTGTTGGCTCTTCCAACAAGATTCTAAAACAGATTAT
TAATAGGTTCCTAGTAGCCAAGAGCCATCGAATGGTTCTATGTGAAAACAGACATTTACCAGATTCTAGTCTTCTATCATTAACTGTACTTTTAGGATTT
TTCAAAATCTAAGAATAACGATTTTATAAAGTCATCTGCAAATACTCTGGTATACAATTTACCTGAGCTTAAAAATATGATCACTCTGTAATCTCCTCAA
TTACCTTGAATTTAATTCCTCTAGATTTTTTTGTCCTTATCCAATTTTAAAGAAAACAAGCAGAAAACACTGTCCTCCCTTTCAGACACTCAGCAGAGTC
ACTGCTTTCAAATATAATGTCCTGAAATGAACTAGCCCATTTTATAGGCCACAGCTATGACCAATTTTTCTTTATGACATTCAATTTTAGAAACAGCATT
TAAAATTTAAGAACCTCATTAACAACTCGAATAGTTTTTATTGCTTGTTAGTGCAAACTACATTTTCAAAATGGAACAAATTTAAACAGGATTTGCCCAG
AAATCAACTAATATGCTTGAATAATGCATCACAATATAATCGAAATGAGATAAAAGAGGGAAAAAAACCCTAAAAGACACCAGCGGTGGTCACTCTGAAT
AAGACAATCTTGGATAATTATTATATTCATAGTCAAGATTATTTAACAGGTAAGCATCCTAAGGGCACTTTAATCCAAATGTCTATCAATACTACTACCA
CTACCATCATCCATCCATTCTTTCATTCAGCAATACAGAGGGCTTATTAAACGTCAGGCAGTGTTCTAGGCGCTGAAAGCTCCTCGCTTTCATTCTAGCA
ACATCATTCATACAAACCTTTAGCGGGCACCTACAACTGCAAGGCATTGTGCTAGGTATCTGTAAACAGCGATTTAGATCGAGATACACAAACATCACCA
AGTTTCTCCTAAAAACACAGAAGACCACCCTTAAGAAATGCTCTTAGAAATAGTTCCTAACCTCAGATGACTTAGCGAAAGCTCCGTTTAACTGGCAGTC
TAAATTTAGGGAGCATTACCGAGCCTATCTTGGGCAGACAATCGTTTAGGAGCTGTCACATAACCTCTAGACTTACGCTCCAATTTTCTAAAGAACAATT
TCTCTCATAACAAACCAAATCAACCACCAGGAGCGGGTCCGTAAAGACGATGTCTGGGCAAGAACGAAATCTAATCCCGGAAGTGCCTTTTCCTCATCTT
AGCCGCACCCTCGTTACGTGGCTCTCCAAAACTCCAAAGTCGGAGTACCCTAGACATGGAACAACCTCCAAAAAGTTTCAGGCCTAGCCAAGGTTGGGAC
TAATACGCCGCGAAATAATCGGGGAGATATGAGAAGTCTGTGGCTGTGAGACTGTGCGCGGTTAACACCGCTGCCCCTTTTGCCCAACCCCTAGAAAGTT
CCCCAACTCTGACTGCCCCCCAGTGCGAGGGCCGCTACCAGTTCTAGGGTGAGTCCGGCCTCCCTGCCCCGCCCCGGCGCCTCAGACCCTCTCTACACGC
CCGCCCCACAACCCCGCGTCGCCCGCAAAGTTCAATGTGTACCGGAGGTTAGCGGAGGGAGGCAGAATCCGGAAAGAGAGACTCCGCCAGTGGATAGCGG
CGGTTGGCCATAACCTACTCCGACCTCCAGATACGCGGGAGGTGGGCGGCGCTGCCCTCAGTCGGTGGGTCACTCACCCCTCGCTTCAGGCAAGCCCCTC
AGCGACGTCTCTCCTTGCCGACTGCGGCCATCTTGTATATGGAATGTCGGGGACCTACGTCATCACGCTGCGTCCTGAGACGCCACCAAGCGACCGGAGG
GGCGGAGAGAGTAGGATGCCTGTCAACCAATGGGAAGAAAGCAGAGCTCTCAAAAGAGGAACGAGCCGCCGCTCTCCTCCCCGCCCGCCCCGCGGGTCAG
TGGCTGCTGCTTACAGAGGGAGGAGCCAGCCACAGGGCCCATCCCGTCGGTCCCGCCCCTCGGGGCGAAAAGGCATTCTGGAGCAACCGAACCTGCTAAC
GGAACTTGGGCGCGTAGGCGGGGCCCGGGTCGAGATTCGTCCAATCAAAGCTCTGGCGGGGGCGAACGCAGCCAGTTGCGACATCGTGGTTGGCGGCGGC
TGAGCCGGCCGCTCTTGCCCCCGGGAGCTGCCAGCCCACTGGCTGGGGAGGACCCCGAACGGAACGCCGGCTGGGTGGCGGGGCGGGGCCGCGCCCATGC
GTCCGAAGCGTGGGCCAATGAACGGCGGCGGCTGCGGCCCGGGGGCGGGGTCCGGGGCGGGAGGAGAAGCGTTGGGCCGCGGTCGCGGGGCCGTCTCAGG
CTGCCGTCCCGCCCCTCCCGTCCGGCCGCCGCCGCCGCCACCGCCGCCACCGCCTGGGGGTTGGTTGAGGCGGACGGCGGGGTCCGGGCCGGAGTACGTC
GTTCCCGCTGCGCTAGGGGAAGCGGGCAGGTGAGTGCTGGCGGCGGTCTCTGCGCCCGCGCGGCCCGCGGGGGAAACTCGCGCCGCGTCTCCGAGCTCTG
CGAGGCCGTCCCTCGCCCTGGCCAGCGCCCCTCGGCCGAAGTCCGGCCCGCGCCCCCGCCAGGGTCCCCGCCGGCCGCTGTGGCCCCGGGGCTTGAAGGG
GCAGGTGTGCGCTCGGGGGCCAGGGCGAGGAGGGCCCGGCGGGGTCGGAGGGCGCCGGTCGGCCTCTGCCCGGGCGCCCTGCGGGGCGAGAGGCGCGCGC
TCGCCGCTGCCCTGTCCCCTCTGGCGCCCACGCTCCCGGGCCCCGCGCCACCCGGTCTCGAGGTGGTGCCAGGTGCAGGCAGCGCTCTCCCCGAGCTTGC
CCCSCTGTCCCCGGCCCTCGCGCCTGCTCTCGGGTGGGGCCCGGGCCCCTCGCGCTAGTCGGCTCGGCTCTGCGCGCGGCCGGGTCGCGCTCCCATTTCC
TTCCTTCCTCCCGTCAMCCCGCTGCTCGGGGAAGGCTGTGCGGTTTTATGTTCCTCTCTGCGAGTTCTCGGTGCCCACCAGSGTGCCCGGGGACCAGCCC
CCGCCTCCTCCCGCGCCGTCCAGTTAGGAAGACGGACGTAGGAAATAGGTCGTCTTTCTTCCCACGCGCCCCTGGCCGTGCTCCACACGCGCAGTGCCCT
ACTAGGGAGAGGCAATTCGGTGCTTTAGAGTTTGTCATTCCGGCGTTAACTCTTCCTCCTCGTGGCTCCAGCCCGGCGATGCAACTCTTGTCTTTTCCCG
GTCTCCACTTGGGAAAAGGAGCTGACAGTGACGCGCGCCCCTGGCTGCGGGGCTCACCCCTGCCCGGCCGGTGTTGGGAGGAGGGCATTTCAGTGTTGCA
AAGGCATTCGCGGGTTAGGACCACTCGGACCGTGTTATTTTGCTTTTCTAAATAAATAAGGTGATGTTTCAAAAGCAAAAATACTTTTAAAGTATGCTGA
CAAATCAATTTTGCTTTTAAGAATCCTCGAAGAGTTACCCCATCTTCGTAGCCTGATTGTGGTGCTGATGAGGCCACTATAAATGCGTTTGTCAGAACTC
AGAACCGGACACTGAAAAGTGTGAATTTTATCTTATGTAAAATATACCTCTCCCTCTCCCGTTTTTCTTCTTGAAATGACCTTGCCRGTATTTCAAAACT
GAACTAACCAGTAATAATCTCGGAGAAGTGTTTATTATTTTAAGCGAATACATTTAACCCAAGAATATAGCAAAATAAAGCAGTCTTCCTCTCCACTGTT
AAAATTTGCCAAGACTTGCTTGAACCTTGCTGTATGTACTGTGTTTATACGGGCTACCATGCGTGAAAGTCCAGCAGTACTGGATTAGTCCCAAGGGCTG
CCGTGATTGATACTTTGGTGAAATTCCAACAGTTTACCGAGGAGTTTTTCTTCGGCCTAAGAAAGTAGTTTGCAAAGCCAAGTTCTCAAACAGCTACAGA
ACCTCTTTATTGGGACCCCAGACAACCTTGGATTTTAGCCTTCTGCTACCCCTTTCCTGTCTGCCCTCCAAGTGATTGTAAGTTAATATCTGAAATGGAA
CTGTAGTCTGAAGGAGTAAAATGGTTGCTTCTCCAGTGTGCTAACATCTCAGTGCTTTTTTTTCCTGGAATTGGAGTGGTGTTGGATTTGAAGATTAGAA
CRTCTTATGTCTGTATGTACGGTTATAGCGAAAGCTTCTYGTAAGAGCACAGTGACTGTCAGTAAGAAAGTGATGGCTGCTGCGCTGCTCTTCCGTGCCG
TGGACATTTAGGCCACATTTTAAATGATAATTAAGCTTTTGCTTTAGAAGCCACTGGATAATGAGAAAAATATGGAGGTGATATTTTTCCTATTTAAAGC
TTAACCACTGGACAACTGTTTTGGTTTTGAGAGTTCTGATAAACGGTCACAACAGCCTCCTTGGAACACAGTACTCTCCTGCCTGGAGGAGAATGACAGG
ATGACGGCGCCGGGGAAGGTATGACCATCAGCGACGGAGGCTTGCTTGGAGTGAATATTTAGTAGACAATCATTGAATTCAATGAAAACCAGGTGCATAG
TTTGTGCTGTGTAGAGTTGTAGTAAAAATATGAGCAAAAATCCTACCTCCAAGTCAGGGTTACTCTGAATGCTTTGTGACTAGATGTCAGTGTAGTTTGA
GGCGTACCAGTTTTCTTCAATGTTTTAATTACATAGAGTCTTTTTTCTTATCACAAATCCGAAGTAGGGTTTAGAACTGTAACTAGTAATACTGTATCTT
TCTTTTGTGTAGTTGGATGAATATCCTTCTCTGAGAGGTTATTTATCTTTAGAGACTGGTTTGCCTGTTCCCTGGCTGCTGTGCCTTGTGCTTCTGTTGA
GGGTGGAGAGGAAGAGTTTCAAGTGTGTTTCTTTCCCTTGGACCGAAGTCCTGGGAATGGAGTGGTGACTTTGTTCCCTCAAAGAGAACTCGGAGTCATT
TATTGCTATGGCATTAAATGTTTTTAACAGAACGGTGAACTTATCTTTATTCTTATATTACTTTGGATGTTGCTTGTGGCCAGTTATAATATTTGCTTTC
TCAATTACCTACCCTTATTTTTGGGCCCTTTTTTTATCAGTGAAAAATCTTTTGATTAGCCGTGCATCTTTTCTCTCCTGCTATAGTCATAGAAGTGTTT
ATCTGGSTAACAGTTTGTTTTGGGTCATATTTAACCAGTCGAGAGTATTAGAATAAAGAGTCTTGCTTTTTCAGTTTTCTATAGTTTTCACTTCTGTTGC
CTTTACAATGGWTTTCTGTCATTGGATTTCCTTTTATCATCTCATTTTTCTATTCATAAATTGGAGAGGTTAACTAATTTGATATGCAAATAGAATTAAT
TTACATAATATTTACTCTCAAGGTAAAAAATTTCTATCAAAATATTAATATATATTAATATATTTTCCTATTACAAAGAAGTTGAGACTTGGCTTTTTTT
TTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCGAGGCTGGAGTGCAATGTCGTGATCTCGGCTCACCGCAACCTCTGCTTCCTGGGTTCATTCTCTTG
CCTCAGCCTCTGAGCAGCTGGGATTACAGGCATGCGCCACCACGCCTGGCTAATTTTGTATTTTTAATAGAGAAAGGGTTTCTCCATGTTGGTCAGGCTG
GTCTGGAACTCCCGACCTGAGATGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACTGGGCTGAGACTTGGCTTTTT
AAAAAGTTACTTAACAGTCTTTTGAAAAAAAATTTAGCATCTGCAAGATTAAGAAGTCTTGCTTTTTAACTCAAGCCAGAGATTAGCTGTGTTGACCCCG
TTTCCACTTGGGAGTCTCCTCTAAGTTTTGGATATAAACAGACTGTAAAAACGAGATAAAAACACAGATATTGAACAGTTTCGACTGAGATAAATTTGAA
TGGAAGAAAACTGATTCCAAATGATTATAAAATTCAAATACCAAAGTTAAGACTTTGCAATTTTTTTTTTCTTCTATCAAGTACTTTCCAAGTAGAAGTG
AACTAGTGAGTCCAAACAGTCTTGGTTGACAATGRAAGACACATCTATCTTTGAAGTTAAGATTTTGAAAGGGATCTACTGATTACTAAGCCAAAGTGAA
TCATTAGCCTTTTGCAAGCCTAACCTCAGTACTGGGATGGGGAAGTAGGGGAGGGCAGAGGGACAGAGCAGGAAGAAATGTTTCCACTGTTTTTTAGAAG
GACAAAAAAAATTGTCTAGAGAATGTAGATAATCAAGTGTCTACACGGAACTTTTTATTTTTAGTTTTTAATTGACAAAAATATATGATACATAGAACTC
TTAATAAAATATACACTTAGGTTTATTACTATCTATGATCCTGAGTTTCACGTTCCATTTTTTAAGAATACAATTCATCAGGACATAACAGGTCTAAGAA
AGTCTTCCGACTAAATGGTTTACAATGTTCAGTCTCAGAAAATAGACATGCCTTTTCAATATCAGCAGTTTTCTATTACACATATTTGAGAGGAAGTAAA
GATTAGTGTTGACAAATACTTATAAAAGCTGCTTTTACCATAAAATATTTACTAGTGTCTAATAACATTTTTGATTTGTTGTTTGTAAAAATTTAGCTTC
GCTGCATGTCATGGTCACCTCATGGTTCTGCGTTTTTCCCTGCAACAAAAATGTGGCATTGCAGATATGGTGGACTGGATGGAAGCTCTTTTGGAAGTTT
TGCCCATGTCCCAAATTTAACCTGCAGCTCCTCCTATGTATTTGGACAAAGCCAGCAAAATAACTATACTTTTAAAAGGCCAAAAAATAAAACCTTTACA
TGYGTATGTTTTATCAGTGCAAGGGAATAGTATTTTGAATATTAGCGATAACAGTGAACCTTTGGAGCTCTCATAAATGGGTTGGTTTTGAGCCGAACTC
ATGAAATATTATTATCAGTAAGATTTGTCATTGAGGTGTGCTGGTGAGGCTCTGACACAAACTGAGTCTATCATTTTGCATAAATTAATCAGTCTCCGTA
AGCGTCAGCTTTCTCATCTGTGAAGGGGACTTGTTAATACCTATCTTATATTGTGTAAAATGCTTACCTCAATTCCTGATCATATAATAAATGCCCAAAT
GACATGATTGTGATGGGGACGATCATATTGGAGAACTTCCATAGGACACAGGACATGGCAAGGATGATCCTGAAATAACATGACAGCATGAATAGTTGCA
TTTAGGTTCAAAAACTCAGTTGTTGAATATAGCACATTTATCTTGCTGAAGATCACGAAAGGCTTTAGTTGATTACTGTCTTGTCCTAAAGGCTATGGGA
CCATGTTGCATCATCTTYGTGTTTGAGATTAGATTCTCAGGAAATGTGCAGGAATGAGGGAATGAATTCACTGGGCTCATAGAAAAGCTAGGGCAGTCTT
AGGAATATTAGTCAAATTTCTTTGAGTTCCAGGAAGGTGGGTAGTCCATCTCAGAGCACATCTGAAGGGTTTTGTTGACTTTAAAAAAAAACAGTTCATT
GAAGTATAATATGCTTAAGTGGTTTTGCTCACTTTTGAGAAATATGTAGTAATGAGGGGCACATTAAGCCTGGAGAAGACAAAACTTTGGGGAGACACAA
AAGCTGACAGGTCAGAGAGGATGGTGAACTTCTCTGCAATATCGTACTGGAGGGGCTCACAAAGCAGGAGATTGCCTTGGAAGTGAACGTGCAGCTCTGC
TGGCCGCCTAAAGGCGAAGCTTTGGAGCTGCCTTTTTCTCTTACTGGCAATCTGCCTTAGGCTGTGTTTGTTAATCAGGAATAACACGCTCTCTCTGTCC
TGCCTGTCTTATATCCTTCTCAGACTTGGATCAGGTGAAGTACTGATCGTGACTGCTCCATAACATCCGGCACCATGATCTTAAACACGCGTGGGATTGA
GAGCTACTATACATAACCCCAGAGGTCTCCTCTAATCCTGTTGCTCCTTGGTTTTAGAATCCAGAATCCTCATGTTAAGGAATGTGGGTGGTTTGAAGGT
AATTTCTTGACGGATTACAGCTGTTTCTTCACACATAACATTGTCTTTTTTATTTTAGAAAGATATAATAGGAAATGATTATTCATGATACCCAATGATT
TTTTGCTTTACAAAAGGTTTTTTTGGTAACTTCCATTAAATAGGAACCTCATGTTAATTTATTTGCAACTTCATTCAATGGCAGTTTAAAACTAAAACCT
ACTATGTAATGAAAAGTCAGTCAGAAATGTTTAGTTATTTCTAAAATTATTGTGTTAGTGGAAAAATAGCAAAAAAAAAAAATTGCGAAAAGCAACAACT
GTGCTTTTTTATTTATTTATTTATTTTTGAGACACAGTCTTGCTCTGTGGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCATTGCAACCTTTGCCT
CCTGGATTCAAGTGATTCTTGTACCTCAGCTTCCCAAGTAACTGGGACTATTTTTAGTAGAGACAGGGTTTCACTGTGTTGGCCAGGCTGGTCTTGAACT
CCTGACCTCAGGCGATCCGTCCGCCTCGGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCAACAACTGTATTTTTAAAATCTCAA
GTTATAATACTTACATGGGACAGCCCAAATTGTTCTGTATCAAGATTAAATTTTGATCAAATTAAAATTTTATTTGCATGCAATTTATAGATCTTTATAC
ATCTTGGTACTTAAGTAGTTACTGAGTTGAAATTAATTCCACCTTCTTCCCTGCCTGCTTGCCTTGACTTCTTGGTACTTTTGAATTGTGGCACATCAGT
TCTTTTATTTATTTAATTTATTTATTTATTTTTGAAACAGAGTCTCACTCTGTCGCCCAGGCTGGAGTACAGTGGCTGGATCTCAGCTCACTGCAATCTC
CACCTCCTGGGTTTAAACATTTCTCCTACATCAGCCTCCTAAGTAGCTGGGATTACAGGCCTGTGCCACCATACCAGGCTAATTTTTGTGTTTTTAGTAG
AGCTGGCGGGGGTCTCATCATGTTGACCAAGTTGGTCTTGAACTCCTGACCTCAAATGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTGCAGGTG
TGAGCCACTGCCCCTGGCCCAGTTCCTCTTTTAATTAGAAGATTGGAATGATAGGTGCCGGTTAGCCGTGTAAACTGGTATGAGTTGGTATGGCATGGCG
CTGCTACTAGGCCCTGCTACTGTGCAAAGCCAGAACACGTTTCTGATATGTATAAGTTTCAGCTAACACGGTACCATGGCACTTTATCGGTATCTGTAGG
AAAGGAAACATTGTACAATTAAATCCTTTTCAGTTTGGGAGTGCCTTCATTTTCCTAACTCGTCATCCTGTAATTTGTGTATTTAATTCTGAATGTAGTA
ATCTGATCCTGATGGCCGGCAAAGTATTTTAGTAAGAGTGAGAAAAGAGTATTTCCTATTCTTCCTACATGAASATTAGGCCCTCACACTCTCTCGAGTG
TGCTTTACAGCTGAGAGCCTGAGGTGGAGGAAGCCATCCTTAGGACCATTCCCTCCCTTAGTCAACCCAGCTGTGAAGTTGGGTCAATGCAGGATACATT
GAAAAACAGATGCTGTGCTTGAGCTAAGGTTTCCTGGATAAATTGCCAGATAAGTGTAATCAAAAATGTTTATTCTAGTTCTGTTTAGTTGAAAGCAGCA
TTTTCGAGGGAACTCAAGAAATACACAAATAAATATCCTTTCCATTTAGAGTGTTTGAAAAAAAATGCAAGTGAATTACATCCAAATCAGTTCATTATGT
GTGAACTATACTTTGTAAAAATGGGTTAGGTATTTAGCACCCCTTACCCCACCTCCGCTCCCACTGCCCACATTAGCCAAGGTCACTAAATGTGCTTTCT
TGTTTCTCCTGACCCATTTATTCCACGATTCAGATTCGATGGAAAAGAATCGCTTGATTGGCAGAGGTGGTGGTTGATTACAGATGCCCCTGTATATTAG
TCAGCACTTTAAATAATAATTGAGTTTGTCATTCATTTCTCTGTCTTCTAAAGTGTGTCTTGTCTGTTAGATGGGGAGGTTGTTGGTGGACTTGTAAGTG
GTATGTGGTGTTTTAAAGGGCCAAAGTTTGAAGATTCTGTAGATTTTAAAAATATCTTGATGGTGAAGAAATGTAGATATGTGTGAAACTCTTGGCTTAG
CTGTTCCTTTTTATAGATACCCCTTCCTCTGAATGACTAACTATAATTGTATAATTCATGTATCAATCTTGTATTGCTACTCTTCGTATTTTCTTTTGTC
TTAAGTATTATTTAAATCATTTTTTTGGTCCTATTTTCCTGTTTTCTTTAAGATAATTCAGTAAGTATTTGTAAATTATACCTGATTTCAGTCTAAACTT
TGTGGAAAAAAATTTTTGAGTTAGCATTGTACCTTCTGGCTAATATCTGTAATTTAACTTGAGTTCGTATGTGTATGCACATATAATTAATTCAGTATGC
ATTTATATTTTCCTAATATAAATATTGGAAATAATTATTGAAAATAAACATTTGGTCTTTGTGGGAAATTGATGAATGTTTAATATATTTTTTTCATGAA
GAGCATGAAGTATGTTCAGAATACCTATTTGAGTGTCTCATTTGTTTAAACTTGTAATTTAGCCCCAAATTCAGCTGAAATGATCATGAAARTTATTCAC
GGTATATAACAGACTTTTGAATCATAAATGAAAAGGGTAGTTATTTAAATCCATAAGGTTGGGGAACTTACATGGCATGAATCTTTTTTGATTGCTAAAA
GAAGGCAATATTGGGTGAATTTAGGAAACCACACATACTGGATACTAACACCTCACACTGAATCTTAAAATTTAGTCATCCTTCTTGAATTGTACTTTAT
TTCTTGCCCTTCTATGTTTAGTTACTTATGTGTTTTAGGAATTATCCATGCTGCTTTGAGTGTGAGTCTTGGTTTCCCAGCCTCATCCTTGGGAACTGCA
GGCCTGGTTTTGTCCAATTTTGTTGTCTTCTGCAACAGCGAACATAGTATAGGCAGAGAGACGTTGTGCAGCTTAGTTTAATCAAGCTTGCGTATACTTA
GAGTCCACCTATATGCTGGAGCTAATGCAGGATTTCAGGTTTGAAGCTATGGGTYTGCTGCTTGGCAGCTGTGGTCTCTTGGCCAAGTCACAGCCCTCTC
TAAGCCTCCTGACAACTGGCTGTGGTCACTGCCGGCCTCAGTGGGCTATGGTGGGGATGCAGGGAGGTCRTGGGCGGATGCTCGTGTCCTTGGTCACAAG
TGCCCATGGAGCTTTTCCCTGTGCTTGGGCCGTAAGCTTTCCTTTTCTATCAGAAACAGACTAATTCCTGCTTTATTGCTTTCTAAAGACCAATAATGCT
TTAAAAATTCCAGTGTGTTTTTCAGAGTCTCTCTTATTAAATGTAATGTCCTAAAGCTTTTCTATCTAAARCTGGATTTTGAAAAGAGATCATCTTTAAA
AAAGTTTTTTTTGAGACAGGATTTTGCTATGTTACCCAGGCTCCAGCCCAATGGCTATTCACAGGTGTGATCATAGCTCGCTGCAGCCTCGAACTCCTGG
GCTCAAGAGAGCCTCCCACCTCAGCCTCCTGAGCACCTGGGATGATAGGCATGTGCCACTATGCCCCACAGAACCGTTTTTTAAGTGTGATATTACATAA
GCGTAACCCTAACCCCTGTCCTTCATGGTATGGCCAATCTATCTCTAATTATCTACATCTCTCTATATAAATTTGTGTTTTTACTTCTAAGAATTATCAT
AGTTCATTAGTAGAATTAAATATTCAGTAAATGTTTCATTTTGACTACTGTTTAATCACTGTTGGGAGCAATGTGAAAATTGGTAACACCAATATATTCA
AATATACTATCCAAAGATTTTCTTTTACTCAACAAATTTTGACCTTCTATGTGTCTGTGACACTATATTAGATCCTATGGGTAATATAGAGATGGAAGCT
TTGGTTTTTTTTCTGCCACAAGACAGTGGGTAAAAGAGTTTAGACTGCAGTGGGTGAGGTCACAGAGGTTCAGGGACTGTGCTGTGGAAGTGTGGTGAGG
AGACCTTGTTAGTGAGGTGGGGTTTTAGCCAGGTAAATTTTAGGTGGAGGACCCTGATATACTCACCAAGGGGTCAGGGCATTTCGGCTGAAGTAACAGA
GCGAAGAGTGTGTATGTCAGGGAATGACAGCCAGGCCAGGGGGCTGAGGGAAGGTGGGATGTGGGGAGCTGGCAAACCCACATGAAAACCTGATGTTTTA
GGGCTGAACGGAGTACATATAGGGCGTCTGCCTTCAAGGTGCTTTGAGTTAGGGGTGTCCCAGAAATACTAGAATTAGTGCCAAACCATACTGAACCCAG
AGACAAAGGAATCTTACAGACAGTGATGGTTCCAAGTTCATAGTAGATGGGTTACAGAACTGGTACCGAGAAACACTTGCCTTCAGTGACTTAAGTTCAC
GCCCGACTGCCTGGGATTCAGGGTACAGGGGACTGAGGAGAGCCCTCSGACAGGGTAGACCCAGCCAGTGGGGAGGCTTACTGGAAGAGCCCTGGAAACT
TGTTTTTGGGGGGAACAGATTGAGGAGATGGCTTGGGTCTAGGATCCTGTGCCCTAGGGAGATACATTTACTGGAAGAAGGATAGGCAGCCCCCCTGCCC
CCATCCTTAATTAAGACAAGATTCTTTCTGCCTAACCTAGGCTAGCCACTTTTTCTACCTTATAGCCTGTATCCCCGTGGGAGAGAAACAGCCCAAAGAG
GTTGCCAAAAGACAGAATCCCAATATAAGCCAACTCTTTAGCATCTGTAATAACCTTGAGTTTGACCCTTTCTTACTGACTTTGTTGGGCGTGAGGGTTG
CATGGAAGAGTCTAGAGTTTCCCTTAATGCCACAGGGSACATTTCGGTAGAGCCTCAAAGTATGTGAAAAATCTTGCCAGGAGAAGACAAGGGGACAGGC
AGTGGGATAGCTGCATTCCAGAAAAAGGGAGGAACATGAGCAGTCCCCTGGAGCTGTGTTGTGTAAAGGTAGGATGAAGCTGGACATGTAAAATAGAGTG
AGGCAGTTCAGTCCTCGAAGACCTTGCTAGGGAGGTTACGCATTATCCCGTGAGCTGTGGAAAGACGTGTGAGYGAAAGAAACCTACACAGTGTAGAATT
CCACTTATATGAAGTTTAAGAATAGGCAGAACTAATYGGTAATAGAAGTTGAAATGTGGGCTACTGGGGGAAGGACTGGTTGTGAAAGGGTTCGTCAGGA
CTGCTGGCAAGGACTGGTGTGTTTGCTGCCTTCTGCAAGGCTGGGGCCTTGCATGCATGGGGATGAGTCCATGAATTCGTGCACTATGCGGTTTGTAGGT
TTCTCTTTTTTTTAGTCAGGGTCTCCCTCTGTCACCCAGGCTGGAGTGCAGTGACGCCATCACAGCTCATTGCAGCCTCTGCCTTCTGGGCTGAAGGGAT
CCTCCCACCTGAGCCTCCTGAGTATCTGGGGACTACAGGCTTGCGCCACGGTGCCCAGCTAATTTTTATATTGTTTTGTAGAGACAAGGTTTYGCCATGT
TTTCCAGGCTGGTCTCRAACTCCTGGGATCAAGCAATCCACCTGCCTTGGCCTCCCAAAGTGCTAGGATTATAGGCATGAGCCACTACGCCCAGCCTATG
CAGTTTGTATTTTATACCTCAATTTATTAAGGCTGACTGTTGACATTGTGGTCGGGGAGGACTTGTAGGCAGGGAAATGAATCACGAAGGGATTGAAAGA
GCTGGAGATGAGGGTCTTAGCTAGGAGTGGCTTCAGTGACTGCATAAACATCACCCAACAGGACTTTTGAAGATTGCGTTCTAGCATATCTGCCTTCCCA
GGGGCTAATGTACTGGTGTGTTTTGAAGTTACACCTCTGCTGTAATTATACACCTGTTTGTTACTCATTCTAAGAGCCAGCAGTTTTCTGGCTTAAAAAA
GAAATCTTGAGAACAATTGGAGTTACAAGTACTCGACTGTAGAATTACTGTCAACGGAATGTATTTTGTTTTCAAATCATTGTAACCATATTTTTAATGG
TCTGTCACGCGGAGCAGGAATTAGACATTTCCTGTCTGTTCCAAGGGGATGGAAACCTGGGTAGAAGCTTCAGAAATGAGGATTGTAACCTGACCTAAGA
CCTGTGCAGATGCTCTTCCCTGGGAGCTCAGGGYGGCATCCTCTGTGTAGCACCTGCCATGTGTTGAGGCCTAGGCTGTATGTCCTCAAGGAGCCTGTTA
CCTGAAGGGATGCTGGTATGTGAGCACGTCTTTTAGTACAGTGGGGCCCAGCAATAATGGGAGAACATACAAGGAATTGCAGAGGTGCAGAGAAGAGAAG
ATTGTGACTAGGGGGACCAGGTAGACTTTAAGGGGATTCCTGGACAGCATTTTTAGAGAGAACCAAGAGTTAGTGARTAAGTGACTAAAATATTACAGTC
AAGGGGTGAACGGGGGAGGCAGAGATAGGAGGTACATGATGACGTCTGTAGAGGGACTGGGAGCCCTTGGTGTTGCYGGGAGGGTGTTTTACATATTTTT
GCTGGTTTCCTTTTATTCCAGGGTGACTGACCCTGTATATTTTACACTGATTTTTAGGAGACTTATTAGATTAACATGTTACACATTATTCTTTATACAT
TAGATACATAAGAGAAGATAGCAATGTTAGCCTGTTAAATAATGTGATTTCCTACTATTTAGGGTGGTGGCAGCGTGAGGGTAGATTTAAGCAGCAGGGA
CAGGCTTGGGCAGGGAGATGTACGAGACTAGTGTTAGGGTCTAACCATGAGGACTCGTTCAGGAGGTGCAGGAGGAAGTGGCTGGAGCTGCCTAGGTGTG
GGCTGAGTGGCTGCTGGCAGGGTTGTGGCGGGGTGTGGGGCCATATCCCATGGTATTTGATCTGGAAGACCTGCTGCCATGTACTTTTTTTTTTTTTTTT
TTAAATCTGTATTTAAACAGAGGCAGTGTGGTAGTGGTTCTGGGTTCAGATTCTAGCTGTACCTCTTACCTGATGCATGACCTTGGACAAAGAGAAGGGA
CTTAACCTTTCTGACAATGTCATCTGAAAGATGAGGATGGTATCTACTGCTTAAAGTGCGAGGAAGATCAAATGAAGAGCTCTGTCTTAGTCCAGCACCT
GGCAGAGGGTAAATACTGAGCTCCAGGGAACAGCTGCTGTTACATCAATGAGCAACTGGAGTTGGGTGGATMGCTGAGAGAAGACTTTGGAGGAGGTGAG
GGGCTGCAGGCAGAGCGAATAGAGCCTGTTTTGTRGCTGTTGGTGGGCACCCTGTGAGGGCCGGTGCAGAACAGCCCTGTCCCAGGCTCACTTACTGTTA
AGAGAAGGGAAAGGGTCTTGGAGCTCCTCATCAAAGTGACGTTCTTGCCTCGTTTACAGGCTCCCACAGCAGAAGGTCTTTCAGGCAAGGCTGAAGGGAG
AGGCCAGCTAAGCCATTGCTGACAGGATGCTTCTGCGTCTCCTCCTGCCAAGCCAGCAGACCCACTATATTTGGAAGTGTGATTAACGTCCTTATTACCA
GACTCCTTGGTGGTTTTAGTTATTTTCAGGTCAAGTTCGATGGTCCTCCAGAGATGCCCTCCGCAGATATRGGAAGCCTGAAATGCCCAGAAGGGTGGAG
GTGCTGTGTCCAGGCTGTGCCCTTGCTCTTGGCTGTGAGCCAGAACCATGGGGAGATTTTTTTCTCTTCTAAGAAGACATTTCTTAAGCATAGGAAAAGG
TGCTTAAGCTGTCTGTCATCCTGCCCTCCCCTCACTTAAATTTTCTGCTTTTGATCACAGAAAAAAAATTCCTTGTATTGCTGCAAAAGTTTTATGTATT
TTTACCAGTTTCCTTTTATTCCAGGATGACTGACACTGTGTATTTTACACTGATTTTTAGAAGACTTATTATATTAATGTGTTACACATTATTCTTTATA
CGTTAGATACATAAGAGAAGATACACACGTTAGCCTGTTAAATAATGTGATGTCCTACTGTTTTAGCACATGGCCATATTTGCATGGACTCAGTTACAGC
AGAGTCAATGATCATCTGTATAGTGGGAGAATATGTTTTAAACCTTTGTCCTAGCATAGTTCTTCACATGGTGATAGTTACCACTTTTTGTAAAAAACAA
ATGGACCAAAGTCTGCTTTTTGATTCTCACTTGAGATAAAGTGTAACTGACTGGGGCTCCTGGAGGCCATCCTCGTGGTGGTTTGTTATTCATTAGCTTA
TGGATCGCCCTACCAGCTTCTTGGCTGGACACTTTTTCCATCTTCCTTGGTCATGATCTTAGCCCCTTGTCTCTGGAGAATCAAAGCCAGACTCCTCTGG
CAGTGACTATCACCCTGTCTTGAGTGGCTGCCTCGCTAGGCTTCCCTAGAKACCCCCTCTCCAGCCGGGTTCCCTTCCTCACTGTGCTTCCCTCACGCTT
CTAGTCCTGTCCCTGTCTTTGAATGCCSCCCCCCCCCGCCATTCTTCACACATCCATGTCCCTTACTTTCTTTGAGACCTATTGTTAAAAGCACTTGCAA
GCAAGCATTATCTCATAGGGTCTTTACCCAGGACACCATGGCGTGTCCTATACCACATGGTCTCATCTGCGTGTGAAAATATGCTCATCATTTCTCACAT
GCCCGCAGAGGACCCGTGTGTGGCACACTGGAATGCGACGGGAGACCTCGTTCAAGTCCCGGGTCTGCCATCAGCTTCCTGTGAAATCCCAGGCAAGGTG
CTTGGGATTTCCCATGGAGCAAAATGCAGGAGTTAGACTAGCTCGCCAGAGTTTYTTCCAGCTCTAAAACGTCTTCAGCATTTGTCCAGAGAGTGTGATC
AGTTGCTTATGATACAGTTATGGTTAATGGGAAATGATTATTTTAAGGCAAAGTGGGGAGAGAATATATAGGTCTTTATGCCCATATGTGTATGATGTAT
GCATGGGTTTTATCTCTCTAGTATCCTGGAATATGTTAGTCTGCACAGTGAAATCTATGTAATTAAAAAAAAATCTAGAGTAAAATTTGCTCTACTATAG
TTTTTGTAGGTGAAAAAGAACGAACTTTTCTTCCAGRGACTACAAAGCAGAKTTTTTTTTTTCCCATTTGAGAACCTCTAGATACTAATACTACACATTT
CTTTTTCTGGAAGAAAACTTCATGTAAGGTAAGATCTTAGCCTCTGAAGACTAAGACACTGCCATGTGTTGGACATGTTTTATTACTTGATTTTGTTCTT
TGGTAATGTAATTTTTTTCTCTTTTCTTTCTCTTCTCTGTAGTCAGAAAAATGGGTAAGAAGAGTCGAGTAAAAACTCAGAAATCTGGCACTGGTGCTAC
AGCAACTGTGTCACCAAAGGARATCTTGAACCTGACCAGTGAGCTGCTGCAGAGTAAGTCCTCCTCTGGGCTCTCCCTGCCTTGATGTGGTGGCTGTGCC
TTTTTCTTCTTTGTCACCAGAATGGGGACGCGTGCATCAGACAAGCTGGTATTCAGGTCCAAGCTTATTAGCTGTGGGCCTGGGCGAGTCACAGAGGTTC
CCAGGCTTGCAGTCCTCACCTGTGAGGATGGAAACACCCGTCAGAACTGTGTGGCTGTTAACAAGGCTTGGGTGAAGTAATTGTGAGCTTCCATGGCACA
GTCACCTGGAACATGGTCTTCCCTGAGGACCTGTGGGCGAGAAGAAGCTCTACTGCTTTTTCACAGTGTGCCGCTCGGCAGATTACTGAACCCTTCCGAA
ACTCAGTGTTCTTGTCGTAAACATAGATAATAACTGTCTCAGGGAATGAGCCAAGGGCCTTGTGAGATGTGGTGTGTGAAGGTACTTCACGGGCTGTTGG
CCCAGGGGAGTCCAGCGTGCCTCTTGGAGACCTGGCCTTCAGAGCTCTGCCCCTCACTGGAATGGCTCGCCTTTCTTTTTGGTGATTCAATTAACAGTGC
TTCTGATTTTTTTTCTTTTTTAAACAGGGTCCCGCTCTCTCACCCAGGCTGGAGTGCCATGGCACTATGACGACTCACTGCAGCCTTGACCTCCTGGGCT
CAAGTGATCTTCCCACTTCATTCTCCTGAGTAGCTGGGACTACAGGCCTGTGTCACCACGCCCAGCTAATTTTTTTGTAGAGRTGAGGTTTTGCCATGTT
GCCCAGGCTGGTCTTGAACTCTTGGGCTCGAGAGATCCTCCCACCTCTGCCTACCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCACCTGGCTGTGTA
TCTGATTTTTACATGCTGTAGTTTGAGAGTTCTTRGTTTAAGGAAGTGAAATATCTATTAAGTGCCTCTMCTTGTTTTAGCAAGTTAGTGTAATTTGGTA
ACTTTTTAAAATTATGAATTTGAATTGGTGCAATTAGTGCCTTGGCTGTAGCTGTGGTCACTGCGTTGCCCTTTGTCCATGTTTAGATTATGTGGCAGGC
TAAACCTCAAGTAAAAATGCAGCTTTCCCTTTGAGACAGAAAGCAGGCCGCAGCCAAGTTGGAGTCAGGTCCCTCTCGAGTGCTGCCCTGGACCCTACTG
GCCGGTGGAGTGTGGCTGTCCTGCCCATTCCTCGCTGAGCTCCCCTGCCTCTGGCAGCTTGAGGACAGGCTCGCTGCTGCTTCATCTTTGAGGCCTGTTC
CAGGCCTCAGTGAGTGCTTATTGTTGGAGAATGAAGTAAGACTGGCTACCCTTCATAGTTAAGACTCAGCGTGTGTCTAGTTATTGTTAGTTATTTGCCA
CATATACTCTTTTAATAGAGAGCAAAGGGGCCCCAAAGGTTAAGCAGGAGTGTGGGAAGGGGCTGTCTAAACCAATGCAGTTGTGTGAAAAGAAAGAGCT
GCCAATAGGCGGGGTGCCCAGTGTGCAGTCTTTCAAACTCACACCTCAGCCTCGGGTGTTGGTCTTTTGGTTCTGGCCCCACAGTGGAATCTTGGCTTCT
TTTTTAGCAGTGACTATGCCATCTCATTTTGCAACTCCCCCAGACTGCTGAATATAGTGCCGTACACATGGATGTGAAATGTTTGTCGACTAATTGTCCT
TATGTCCAATTTAACTGGTTCCCTTAGGGAATCAGTGTTATGGGGTTTAACTAAAAAGAAAGGTTGACTTTTACTATTAACTTTTACTATTAACTTCTTT
TTGCCATATAGAAGAGTTTTGGGGGGATAGTTTGCATTTTAGCTTAGCTTTTTATCATAGATTTTCCTGTTAGTAAGTATATTCTAAAAAGAGTTAACTA
AGAATAAGGTGGATGTGAGCTAGGTGCTTGCTCAGTGCTCTCTCTTGGGTAMGTTAAGTGGGGGATGTTTTTATGATGCCCCAGGGTTTGTCTGCTTTGA
GAAGTGTACCTGCCTTGTACTTCTCACATTCATTATCATRGCTGTCATATGTCTGTCTTTTAAAAATAAACCAACCCCAGAACAGCAACAACAAAGTCCA
AATCCTCTTTCTTGTGCAGACTAGTAGGTTAAGTTGAAAGAGAGAAGTGTTTCAGTACCATGCCTCTTATGTTACAGAATGCAGCAGTCCGGCGCCTGGC
CCAGGAAAAGAGTGGGAAGAGTATGTGCAGATCCGGACTCTGGTTGAGAAAATACGGAAAAAGCAAAAAGGTAAAATTGCTAGAATGATAAYTGTATTTT
AATAATGTCATGTAGAAACTTGATTAGGTCAAAGGGTTGACGAGTAGTAAAGGTCTCAGCATCATTGGTGTCACTCTGAAAGGTCTTGTACTGGGGCTTG
CAGACCGGGAGAGAGAGCAGTTAGCGGGATTTCTCCCCTTTCTGAGATGCTATTACCTGCTTCGGAAAGGGTGAGAATGTTGAGCTTTAGGAGAATAAAA
TGTTTGTATCTGGGTGCTAAAATGATACAATTTTATTTATTTACATTTTATAAAGTATTATACCGTTATTTCCTTTTGAGTTTCAGGACAGTGCATATAG
TGTATATCGTCAATAACAAATAAATGCTGATTGGTTAATGCATTAGCAAGGTTTATAATGAACTCACACACATCTCAGTTAAATAAGAGGTGTGGTCATA
TTCCTTAAGCTGTGTTTTTACAGGACGTATGCAGTCGCCATTGTAATGATTCTCATCCAGGCTGGCGTGGGGCTAAGTGTGAGTTTGAAAAAGCTCATTC
ACTATACCTATTGTTTTTGTTCTGTAAAGCACAAAAAGTAAAGATTATTATGCAGGACCACATGGAAGGTAGAAGCAGAAAACATCCTAAGGAGCATGCA
TTGGAATGTGGGGCCCTTTCTTATTGTCATGAAGGGCCTCAGGAGAGGGTTTGTTTTTTATTTGCTCTCTTTAAGTAGTGGTTTTATTGCTCTTCCATAC
ACATCTCTAAACATGTAGTCTTCAGTTTAGATGGTCTCAGACTCCAAAATGGTGAGTTCATAATGGGTGTTTTCAAACAGGTTCCTTCATAATGGGTTTA
TTTGCACTAAATAGGAGTCTGTGCTAATCCTTTGTCACCAAGTGGGTAGCGCCTTAGTTTCTCTTCTGYGTAGATACTGTTTACTATACCTGACACTGAG
GGTAAAGCATTTGCCAGTTCTCAAGGAGTGAATAGGAAGTTCCGTCTTTGAATATTCCTCATTCTGGTCATTTTCGCCATTTAGCAGGTATCTTCRCATA
TCCAGCATGCCCTCTTCACATATCAGGTTGACTGTTAATTATGCTGTGGTAAGATGGCCACAGGCGCCTGAGCTATGTGCCACACCCAGCTTCCTCATAG
TAAAGTTCCTGTTCCCCTCCTTTTATTCATCCAAACAGAATRGTTTTTTCTATGCATGTCTTTTCATCTTTTTGACTACATAGGACATGCTGAAAAGTTC
AGAAATTAATATAACAGATGTCCAAGAATCTGCTACCCCAGCTGAGCACATGTCAAAGTTGTATTCTCATTGTCCTTTCTTTTATTCTCACCCACTGATC
AGCTTTCCTTTCCCTTCCTCAGCCCTTGGTTTTGTTTTTGTATTTGTTTTTAAGAAATAAAACATCACAGATACAGCCAAAGCCTCACATTTTCATCCCC
TTCCATTCCCTCCCTCCTTGCAGGGTGTTCATCTTCACTGTGAATGTTTTCTACTTCATAAATAACCCCATAAAAATATATGGTTGTAATTGATATTTGA
AAAATTTACATAAATGGTGTCATATTACGTGATTTTTTAAAAGCCACTGTGGTACATTTAGTGTTATACTTATGTTGATACACATAGCTCTAGCTCATTT
AAATTGCCTTACAGCCTTCTGGCTTACAGCTCTACAGTTTTGTGTTCTTAGAATCAGGGCTGTGGGGCTCATCCTTTCCCATGTCTCCTTGTGCACATAC
GCGAGCTACTCATTTTTGTTTTAATGGAAATTTTGTTAAAGCAAATGTGAACATGAGAGGTGGCATGTTTGACTTTTAAGGAGAAAACTGCTCTGTAAAT
CATAGTAGTGGTAATAGAAGCTCTCTGCCCTTTGCCATCGTATTACYTAATAGTACCTAATAGTCAATATTTATATTACCTAGTGTCAGTATATATTTCA
CTGTAACTGACAGGGAGTTTAGGATTTTAATTCTTCTTCCCTGTCACCAGTTAAGGTATGTACTGTGACCATCTGGTGATTAGTTTTGATTTCAAGATTG
GCGTGTTAAGACTATTTCCAGTGTTAGTTATGGCCTGTTTTTATTTTCTGAGAGACGTGTGAATGATATGTGTCCTAAAAGTAGCTCTTGTTTTCTAAAA
CGTGGATTAATATAGGTCTGTCCGTTACTTTTGATGGAAAAAGAGAAGAYTACTTTCCTGATCTAATGAAATGGGCCTCTGAAAATGGGGCTTCTGTCGA
GGGTTTTGAAATGGTTAACTTCAAAGAAGAGGGCTTTGGTTTGAGAGCAACAAGAGATATCAAGGTGAGTTTATAAAATGTTGGTCTCAAGGGGTCTATG
TGTTTGAACTGTGGTGTGCTGTAGAGGGCGCAGGGTGAAGAGGTAGACGTGTGGTGGGGGAGTTCTAGTTCTGAGCCTGTGGGCAGATAGGCAGCCTGGA
AGGGCCTTGGGCTCATGTTCTAAGCAGCTCCTCCCACCTTATCCTCCTGGGGAGCCAAGTTGCTAATCAGTGACTGGGGCAAGTCAGTTCACATTTCTGA
GCCTCTGTTAGGAGACCATAGAACATGCCTCACAGGATTTTGAGATTTACCTAAAGATAAGGAGGTGGACTCATGGTTTGGATTTTGTAACTTACTGGAG
GTGAGTGGGTGGAGGACTGGCGGYGTGGGTATGCCTACTAGTGTCTGAAATGGATGACTATGAGGCTGAAGGTACTAGGAGCTCACTGAAATGGCAATAC
CAGTGGCAATAGGGAGAGGAGAGAGAAACAGCCACCTACTAAGGAAGAAGGGCTTTTTCTCCCCTCTTGGTTCTTGGTTCTTCTTTCCACATGAAGGGAG
CAGCAGTCACTGGCCATGCCTGGCCTCTTCTCACCCCTCACTCATGTCTCTTCTAAGAGGAGGCACTCCTTCATCTGTTGGCCAAGTTTGGGAGAAGGAA
CTGGACTTGGCCTTTTTCTCGATGGGAGCTAGTTGCCCGTATGCATTCATTCCACTCTGCTCTCTGCCCTGGAAGCTTTGCAGGGGCAGGCCACATGTGG
GGAGGGCGGTGGGGATCCAGCTCTGCCTGTAACTAGGTGGGGGAGTCTGTCTAATTCTGGGATTCAGTAGGTGATATTTTGGGTGACCATCTGTTGTATT
CTATCTCTCTCTCAGTTGCTTCAGAACTTGGGTGGAGGAAGGGGTGTTATTTGGGCCCCCTCAAACCTCCAGCAACATTTTTGGCTAAGTTGTAGTTAAC
CTTTCATTGATAGATTGATAAATCACATGCTGGTATATTAGATACCTGTTAAATGTCTACTGTGTGAATGGTAGTATCTTGCTTCCAAAAAAACCAGTCT
CTTCCTTCATGATGCTTATAATCTATATAGTAAGGGACAAGACAGGTACAAATAACTTAATAGTTGACATTGGTGAAAGCAAGATGCCACATGTTCTTCT
CTTGTGACAGATTCAAGGCAGTATTTGTGTGGATGCTGCCCAGAAGATCCGAGCTGTGGACTTTCCTCACTATGTGCTTTTGTGGGGAGGCGAGGGTTGG
GGAGGAGGTCTTAAACAACAGACATTTATTTCTCACAATTTGGAGGCTGAATGTCCAAGATCTCAGGGTGCTGGCATGGTCTGTTTAGGTGAAGACATTC
TTGGTTTGCAGACAGCTGCCCTCTTGCTGTCTCCCACATGTTGGAGCGCCATGTGCATGTTTTTTGCAGTGTAGATACACAGGACACAGCAAAAGGAAGC
AGCCTGTATTGCCAAAAAATGAGAAAAAGCTTTGGGAAACAAATTTCTAAACCAATGTGTCTTCTGGGCATGTGATTTCACTAGTAACTGTTGTGCTTTA
AAGATAAGTATGTAGAGGAAGGAATGTTACTCTGGCTTCAAAACTCAGTAGTAGTAGTAATTCACGTCGACAGATTAGGGTTTTTGTTGGAGGCAGGAAT
TTTGTTTTGATTTGGTCTGGTTTTAGAACTTAAAAGTACAGTAAAGAATACAGTAAACGCCTTTATGCTCTACTCCAAATGTTATATTTGCTTCAGGTTA
AAGTTGAAAGTCCCTTTTTTGATTATTTGCTTCTCAGCATATGTAGTTTTTAGTTTTTCTGTTGGAAACAGGATTTTAAGCTATACTTCTACTCATTTAA
CTATAAGATAAATGCTTACATTTTAAAATGTATTTGAATATTTATTTGAAGTGCTGATATGCAGCCTTAAGTTGTACTTCATGTGTGATTGGATTTCTGA
CCGTAGATATGGTTGGATTGAAGACTGTACCRTGTTTTGATGATTCTCCTATTATTATTTTTTTCCCTAGGCAGAAGAATTGTTTTTATGGGTTCCACGA
AAATTGCTAATGACTGTTGAATCTGCTAAAAATTCAGTGTTGGGTGAGAATAATTTCTGACTCTTCAAGGCAAAGCACAAATGACAAAAATATGTAAAAT
TCCATTTTATGGCACTAAGGATAATACTTGGTTTTTCTCGACTGGCGAAATATTCCCTCAAATATGCATTAAGTGTTTTTCATTTAATGTTATAAAAAAG
ATGCACATGACCTTTATTTATTATTATTATTATTTTTGAGATAGGGTCTCGCTTTGTCACCTAGGCTGGAGTACACTGGCACCATCATAGCTCACTACAR
CCTTGATCTCCCAGGCTCAAATGATTCTCCCACAGGTGTGCACCACTACATCTGGCTAATTKTTTTTTTTTTTTTTTTTTTTGTAGTGATGGGGTTTTGC
TATATTGCCCAGGCTGGTCTCAAAGTCCTGAGCTCAAGCAATCCTCCCACCTTGACCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACTGCGCCCAGC
CTGTACCTGACTAAATGTTACAAGACCTTTTAGTTTTTCTGTAATTTGTAAACGTATATTTAAATGAAGTTTTTAAGAAGTTTGTGGAACTTACGCTGTT
AACTTCTGGGTTAATTCAGGGCCCTTATATTCTCAAGACCGAATCCTTCAAGCCATGGGAAACATCGCACTGGCCTTTCATTTGCTGTGTGAGCGAGCCA
GCCCTAACTCCTTCTGGCAGCCCTATATTCAAACCCTCCCCAGTGAATATGACACTCCTCTCTACTTTGAAGAAGATGAAGTTCGGTATCTTCAGTCCAC
ACAAGCTATACATGATGTCTTCAGCCAGTATAAAAACACAGCTCGACAGTACGCCTACTTCTATAAAGTCATCCAGGTGAGCAGCTGTTTGCAATTTAAG
TATATATTTCACAGAGTGGGGAGGAAAGAGGAATTGAGTCCATAAATATTCCATTTGATGTCTTATTAAGGATACTTAAACATTTTACTTTTTAAATTGA
AAATATAAAATACATTTCATCGTTTGTTTTTACAGAAATATCAATGAAATGCGGTTACATATATATATCTGATTTCATCAGTGCCCAGTGTTAATACAAG
CAGCAGTTGTTCCTGAGTTATTGAAATCACCAAGTTTTTTTGTAAACAAAAGATCACAATGAAATTTTAAAAGCCTTAAAGCATATCTAATGCAATAAGT
TACTCTGTGTATAAATTTTTCAAGAAAATGAGGGTTAATTTTTTTCTATATATGTTAGTGTAAAATATTGAYAGTTAATTTAGCAAATTATAACATTTAT
GTTTTTCAACGTGTACTGTGTATTAATTTTAATTTGTTCTCAGTGAAAGTTTCTCATAGAAATCTCTATAAGGCTCCAAGTATTTGAATTACCTGTGATG
ACACCTTTCTGTATTTTGGTGGTGTGGCCACCGTTATCTTTCATTTGCAGTTGAAYAGCAGTCAGAAGGAACAGGGCCAGTACCACAGTCCCCACCAGGA
CTGAGAGGCAGTGTGGCTCCTTCTCCTGATTCTGCACAATCTGAATCACTCAAGAGTCAGCTCCTGGGCTGCTGTTCTTGAGATACGACAAGTGGGCAGG
TGAACTACTTGCTCGCTTTCCTTGTCTTTGGTTGGTGTGACAACCTGAATTAGGTTTGATTTGGTTGTTCCTTAAATGGTCTATCCTTGCTATGTTTTAT
TTGCAAGAAGTGGTAACCTCATTTCATTGCTACAGGTGATATTGCTTTCCGTTTATTATTTTCACTTTGTAGCATGCTTACTACACAAGAATGTTACACT
CAGTTACATCTCCTCCTCCAGCAAGCACTTCAAATATGTCAAAAATTATACATGACTRTTGTCTTCATGTGGAAATCAATCACTCGGTTTTTCTAAACTT
TAGGAAGTCATTAGGAATGGTCATACAGTATGTATATAGCTTTTATTTCAAGTTGGCTTAATTTAAAAACTATTGATGAAGCCAAATCAAAACTTTGCTT
CTTCATATAGTGTGCACCTGCAGTCCTGCAGTCTAAGGTTGGTTTGGCTCTTCATGACCTGGAAGGGTTATACTTTTATTCTTAGTTCTCAATGGTATAT
CTTTCATGACTAAAGGTTAAGCTGACTTTAGTAGGTCTAAGTATTTGTCATTTTCTCTTGCTGGACAATGAACTACAAGCTGGCCCTTTTTACTAATGTG
CTTCTAGTTTGCAAACGCTGGTAGCCTGCTCTGAGAGGACTCTCTTCTGTTGGCAGGTTGGAGGGTCTAGGATGATGGCAGGTCTTCTGATAACCGACTT
GGCGTGAATGAGCTTTGGCTGTTTCTTTGTATTAACTGGTCCATTTACTTCAGTATTAACTAAGTAGTGCAGCTTTGCTTCAAAATTTGATGAGWTTTTC
AATGGCTGTGAGTCACTAAAATACTCTGTTCATATAGATGGAACCATTTTTTGTCAATTTGTTTAAGAGCCAGGTGTCTTCATAACCCCCTGAAATAAGC
TTCCTTAGATGATGCTGAGATGCTACGGGGATTAAATTATACCACCTTCTATGTAATAAACGGTGTCATTGTAAACATCTCAGGAATTAGAGAACATTCT
AAAAGTAAACGATTGAGAAGCTTTCCCAAGAGTAATAAAATTCCTACATGACTAATAAGAACAATTTGTATAATTTATAATGAGTACAAATATCCTTTTT
AAAAACAACATTCTTAGAGCACTAATCTTTTTAAAGAAATTATTCCTCTTTACTAAAAAATTTAGTCAACGACGATCAAATATGGAACATACAAATGTGA
AATTACCAGGTAATCAAATGTCTGCACAGTTGATTATATTTTTTGCAATTAAATCAGTCTGAATATTTGAAAAAAGTACCATGATTTAGAAATCAAACTG
GTTACTTTTATGTCAAAAGTATGAAACTGAGAAGAGCAAAATGTGTCTGGTCASACATATAAGTTCTTTTATTTTATATCAGACTTTTTTTTCCTTTTGT
GAGACAGGGTCTTGCTGTGTCACCCAGGCTAGAGTGTAGTGGCATGATGATGGCTCACTGCAGCCTCGACCTCCGGGCTCAAGCARTCCTCCCACCTCAG
CCTCCCCAGTAGCTGGGACTACAGGCATGTGCCACCACGCCTGGCTAATTTTTCGTATTTTTTGTAGAGATGGAGTTTCGCCACGTTGGCGAGGCTGGTC
TTGAACTCCTGGAGTCAAGTGATCCGCCCGCCTTGTCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCGCCTCGCTCAGCCTGAAGACATTTTTTATTG
TTGAATTGGGAGTGTGGGGTACCACTGGCATCTAGGTTAGAGGTGCTGCTACACTTCTACATATAGGGCAGCCCCTACAAAAGGCATTTTCCAGCCCCAA
ATGTCAGAAGTGCTGAGAAACCCTGCTTTGTATTTATATACAGAACAGAGCACCTCAGTTACCTATATGATTTAGAAAATCACAGTTCTTCCCACCTAAT
GATTGGAAGCCTGAGGCCTACCAACACTGGTTGTGAGTGACTTTCACCATTTTCTCATGAATGTCTTCTCGTTAGCTGATTCCAGAYCCCTTCCTGGCTG
TAAGTGCATCCTGTGGTGAGGAGAAGGTATTTTAGAGCACTTTTTTGGTCACTGGCATTTAACACATACCCCTTCTTTTTAAGAACCTACAAATAAAAGA
CCAGGTTTAGAGATACTTGACTTATTAAGGATACAAATACAGGGGAACAAACACTGAAAAAATGTAAACCTAAGATTCAGGTTATAAAATCATGCAGATT
TGGAGTAAGGGGCTGAGTTGAGATCCTTGGCATTGCATGTTGAAAATGCGATATGCATGATGGGGTGGGGTCAGTTCTCCGTGTTAGCTGGGGGACTTCA
CAGGAAGGAGCATTTGAGTGATGGGAGGGAAGGAACCCTGGCCCCTGGGCCGGGTATTCCTGAGTGTGGTTAGGAAGAGTTGAAACAGCTGTATCCACTG
TCCAAGTGAGAGGCGCTGTGGCTGCGTGGAAAGAGCACATGCTTTGTAGTAAGACAAACCTGTATTGTATAGTTCATTTGCTATTTACATATAATTTGGA
ATTAAATATAATTTGGAATTAGTTGCTTTACTTCTCTGAGTTTGTTTCCCAGTCTGTAAGATAAAAATATGAAGACCTGTTTTTTCGTGTGACCATTGTC
AGCCCAAGTTGGAGTGTTTATCAAAGCAACTAGCCTGGTGCCATAGCACCTGTGGTTGTTAGGAGTCAGTTTCCTCTGGGAAACTGTGGAAATGGTGGGG
TGAAGCTCCCTCAGCAAGTGCAGTGTGGTAACTGAGAGGGCAGGCTCTGGAGCCAGCCTGCTCGGGCTGAAATCACTGCAGCACCCTTAGAACTGTGCCA
TTTTGGGCCGGTCTCCGCGCCTTCCTTCCCGTATCTGTAAAGGGGGCTAATGGAGTGCCTGACTCCCAGGGTTGCTGAGCGAGCAGAGTTGATCCACGTG
AGGCCCTTAGCACTGTGCCTAGCACACAGTGCTCATTGTAGAAATGCTCTATTTATGCTATTACTATTTTGTGTTTGACCCTCAGGCCATGTTATTTGGT
TTTGTTTTGTTTTGTTTTAAATCACTTCTCCTGTCCCTTCAGTATCTTATGTTAGTATTTCTTAGAGTGTTTTCTACTAAAACAAAACTCCTGGTGGCCA
AAAATAACATTCCTGCAAGTCTAGGGGCTAAACCCATAGTGACTCRTCACAAGCTCAAAGTTGCTGTCAAGCCTGGGCAACCCATCTCTACAAAAAATTA
GCCAGGTGTGGTGGCATACACCTGTCGTCCCAGCTACTCGGGAGGCTGAAGTGGGAGGTTGGCTTGAGCCTAAGAGGTCAAGGCTGCAGTGATCTATGGT
CACACCACTGCATTCCAGCTTGGGCAACAGAGCAAGATCCCATCTAAAAAAAAAAAGCATTTGCTCCCAAGATTCATGTTTTTGTTGTTGGTTTTTGGAC
TTGTGTTTTTAAATCTTAAAAATTCATGCAAATGATAATGTTTGCTATTTTTAAAACCATGTTAAGTGACTTACCATCAAGTCAGATGGGTATTACAGGA
AAACAACCCTGCTTTCTCCTAAGACCTTGGGTTGTCTCACGCTCCAGTGTGAAAAGCGCAGTCTTTACGTGTAGTAAGTGCCATGAAGCTGACCACGTGG
GCAGTTCAGATGTGGTTCTTTTTCAGAAGAAGAAAATGTGACAGTCACTTAACATGGGTAAAACTAACCAGCTGTGAAGGGATCATTACATATTGATAAT
ACACAATAATGAGCTTTTTTTTTTTCTTGAGGTGGAGACTTGCTCTATCACCTAGGGTGGAGTGCGGTGGCATGATCTCGGCTCACTGCAACCTCAGCCT
CCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATAACAGGTGCCCACCACCACGCCCAGCTAATTTTTTGTATTTTTARTAGAGAC
GGGGCTTCACCATGTTGGCCAGGCTAGTCTCGAACTCCTGATCTCTGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCAC
CGCGCCTGGCCAATCATTAGAAAATTTCTAATGATTTAAAGTAAGTTCCTATTGGAATAGGAGCTGTAGGCACCCTAGAATGAGGTGCACTGCGGTGGCA
GGAAGGAATAGGCTGTGGGCTAAGAGCTTTTGAATGAGGGTTCATGACAAAGCAAAACACACTTAAGCAAAAATTATCTTTTTAAAAAATTGTCTTTTGA
GTCTAGCTGTTTTTCTAGTTTTAGAATGTTCTCATYGGTTCTAAAAGTCTTAAGTAATAAATTGGAGTGAACACAAATGTAAACATTGCATTGCTGTTGT
TTTATAAAAGTGTCGTATTTTCTCATCTCAGTACCAAACCATGTATCTTTCCCATGCTTTTCCAGGATCAGACGTTAGGCCTTTGCTCCTTTTAGTAGGT
CACCTCATCAGTGCATTGTCACTCAGGGAGAGAGAGAGGATTATTACATCAGTTCCCAGTTCATATTCCATTACTGTGACCTGCTCTCAGTTTTTTTTGT
TTTCGGCATTGAGGCTGTTAACCTTTTCCAGGGTCATGGGGACCCTCTCCCTAGAGAAATGAACTTGCAGATCATTTGGCAGGGTGCTCCAAATTCAAGA
ACCTCATTCGCAATTTTTATCTGTGATTTCCCATTTAAAATAGTTTTCTTGGGGGCCTGTACCAAACTCTGCATGTGAACTGAAACCTATTTTGTTTTCT
CMCCCCSCGATCTGCCTGCTGGCTCGGAGGTCTACAGGCCATGGCTTGCAGCCCCTGTCTCTGGGTACTTTGGGAGTGACAGCAAGCACAATTCAGTTCT
GTGCATCCCCGGTGGTGATCCTGGTTTTTGGGAGAGGAGCATGGAGAAGTGATAATAGTCCATTCAACCTTACAGCTTGCTTCAGGCTTTTAGGGTTTTT
AATTCTAAAAGCATCAGTACTGACTTCTGGTATTTATACATCTCTTTGTGTCGATTTCTCTGTATTGCATTTTTTATTTATTGTTTTTCTCTCTTTGGTG
GTGGTTGCCTAAAAACTAGAAAAATAATTTCCTGTGCTCTGTCCTCCCAGCAGATTTCCTTGATCCAGGACCTTTTAGTGTGGRCACTTAGTTCAGATCA
CCTTCTGTCTTTAACTTGCTTTTATAGTTTGTTTAAAACAAAAGTCTTGGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAACACTCCGGGAGGCCGAG
GCAGGCAGATCACGAGGTCAAGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCTCGTCTCTACTGAGAATACAAAAATTAGCCAGGTGTGGTGGAGC
GTGACTGTAATCCCAGCTACTTGGGAGGGTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCTA
GCCTGGGCGACAGAGCAAGACTCCGTTTTGGGAAAAACAAACAAACAAACAAAAAACAAAGTCTTTCTGGGCCCCTGCTCTAACTCGTGTGTATGGTAGG
GGCTTGGGCTTTACGAGTTTTGAGGAGTCCTTCCAGTTTTTACATTGTAAAATGTAAAACACCTGTATGAACACCTGAATGCTACATACAGTGTATGTCA
AATATCTTCTTCTTGACATCTTCTTCATGAGATGTTTGACACTCACTGTATATATCCTTCAGGTGTTCAACAGATAATAGTGTGTAACCAGAAGCCTCAC
GCTGCAGGAATTTTGAGAGCATTCGTTGTATTAAGATACAGCACCTGGGCCAGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGTCTGAAGT
GGGAGGGTGGCTTGAGTTCAGGAGTTAGAGACCAGTCTGGGCAACATGGCAAAATCCTGTCTCTACTAAAAATACAAAAAATAGCTAGGCATGGTGGCAC
ACGCCTGTAGTTCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTAAACACAGGAAGTTGAGGCTGCAGTGAGCCGTGATCACACCACTGTACTCCA
CCCCTAACCCTAATCCAGCGACAGAGCGATACCCTGTCTCAAAAAAAGAAAAAAAGAAAAAAGATACAACACCTGCTGCTGAAACATCATACTGCAGCTT
GATGGTTGAGGAAAGTCTACCACCCAAACTCCAGAAGCTAAGTTTAGAAATTGTGGCTGAGCCAAAGGCTAGAAGAGGCTTGTATGAAATGGAGCTAAAA
TTTATGTCAGTTTGTGAAACAGAGGCCAGGGAAGAAGAGAGGGCTCATGGTGGAAGGCCGAACTTGGCATTTAAAACTGTTGCAACTTTAACCCTAGAAA
AATACTAGCAGATCAGRACATACCAAAGTTCAGCTGTAAGTTGAGACTTTTGCTTGGAAATGGATGACCAGTTTTGTGATAGAAATAAGTGGAAAAGTAG
GGTTTGGCTTAAACCCTACTTTGAAGTACTATAATTGTGTGAAAGCAACGTATATCCTATCAGATTTTACTTACCTTAACATAGTTGAATGATTAGCTCA
GATGTTTTTCATCTATGCCAATGAAAAATAAATTAATAGACCCTGTGAATGAACTGTTTAATTGATAATCAGTGCCATGTAATGGGCCCGGTGCTGTGAC
GTGGGGCACCAGCTTGTCTGAAGATTAGCTTATCTTAGAGACATGTACATTTTTCTATGTTGTTGAGATTGAATGTAATGCTTTTTAAGTAAATGCAGGC
ATACAGGGTTTAACGGAATAGAGACATATCTATTAAATTGATTACTACTATTTTTCAGTTGATCTCATCACTTAAGTGATTTGTCACACCTTACTTGGAT
TTCTTCTTTTGTGTTGATCCAACCATTTGAAAGGTGCAGGGGAAGGTATGGAGATGGAGAAACTCATATGTGTATCAACTGCCATGAATTTTGTTTCGAG
GCAAGCATCATTGCAGCAGCCTCCCCCTTTTCCTGCCTTATGCTTCAGGATGGAGTAAGGCAATTTCAAGTTGGCCATCTTCCTCGAACAGGCAACTCCT
ACCTAGCCAGAGCTGAGTGGCAGAAGAGACAAGCAGCCATGTTCACAACTTACTGTTGCTGCAGCCTGTCTCTGAAAACAGGGCCCGCCAAGAGGCAGAG
GAAGATGTCACTTTTGGTTCTTGGCATCCTGTGGCAGTTGTGGCTAAATACAAACATTTTCTGCTGTTCTACTTGTCTCTGACAGAGCTACACAAGAATA
GCACAAGATGTGAATTTCCAGAGATGTATTTAGCCTATGTTTTCATAAAGCTCTCATCTACATTTAGAACTCTGATAATACATGAGGCCTTCAGGAATGT
GTACCAAATTAGAGTGAAAACCTCTGGGCATCAGCTTAAAGATCCCAAGGCCCTGAAATTCACGGAAAGGGTTTAGACGCTCAGTAGCATACGCTGTATA
TAGCTACGTGTCCTTTAGCACTGTAAGGGAAAATACACATATGCTTTATATAACTTGGACTCCTCTGTGGCAGAGGTTGTATACAGGAGTGTCCCAGTTT
ATGCATAGATTGTATTGCAGATTGTCACTCTGAGTTGGCATGGGGCTCCTCTCCCTATTCAGCTTCTTCTATTCTGTTGGTTTATCTTAAGTGTGAGGTA
TCACACCAGGGATAGGGACTAGTATTTCTGGGGATGTGAAATTTGTTTGTTTGTTTTTTAACTTTTTATTTTGAAATAATTCTAGACTTACAAAACAGTT
GCAAAATTTGTGCACAGAACTCCCATATACACTTCACCTAGCTTCACTTAAAGTTAACATCTTATACAGCCTTCAGTTTAATGATCTAAACCAGGAAGTC
AACCGTGGTACGATACTATTAACTGATCTGCAGACCTTGTTTGAATTTCACCAGTGTTGTCCTGGCATTAATGCCCTTTTTTCCCTTCCAGAATCCCGTA
TTGCATTTAGTTGTCGAATCTTCTCAAATCACTTCCAGCCTGGGATAGTTCCTTGGTCTCTCCTTGTCTTTCATGACCCCGGCACTTTTGAAGAGCACTG
CTGGCCTGACCGGTTACTTTGTAGAGGTCCCTCAGTATGCATTTGTTGGATATTTTATCATGTGTAGACTGAAATTACGCATTTTATGCAAGAATACCAT
GGAAGTAAAGTGTGTCCTTCTCAGGGAATACATGAATCAATATGTCTTTTTGGTTTTTCCATCAGAAGTTACTGTTTTTCTCTTATAATTAATGAATACC
TTATAGAAAGATACTTTGAGACTATGCAAATGTCCTGTTTCTCACCATCAAATATCCTGTTTCTCACCAGATGCAAAAACCTGATAGATACTGGTTTTTG
TATCTATCATGATTTTTGTCTGTAATAGTTACTACTGTAGTGTTTGCCAAGTGGTGATTTTCTGTCTCCGTTATTTCTTCTACATGCATTCATTGGGATT
TTACTAAAAGGAAGAGCTGTCCCTTCTTCCACATTTATTTACTTATTCAGCTGTTCATATCGGTATGGACTCATGGATATTTATTTTATTTGATAGACTA
TGTAATCCATTACTATATATTTGATACAAAAATGGTTTTAGATGGCTCTTCATGTAAAGATACCTGATTTCCTCGTCACTGATAATTTGAGAGTATGTGT
CTTGTGCAGTTTTTGCATGGAGTGCTTAATAAAAAATTGCTGAAATTGATGCATAACACAGCAGATCATTTATAAAGTTCACTTGGCCTCAGAGTTCCAA
GAGTGACTGTGGCCACTGCTTCCTGTGTGCCATTTTCCTGACCTCAGTTTCACTTAAATGTTTCCCTAGAAGCAAACGTGTTCCATATGTGACATTTTTT
GTTCTCAGCCAACTTCATGGTAACATTGCATCTGCTGACTGAGGGGTATGAGCTACAAATTGAGGAGGGACAGAATAGAGTCAAAGATGATGGTGAGGGT
ACAAGGCGGTCAGTTTCATAGGCCGGAGGTGTTGAGGTTGATGAGCCGTGAATCTAGATTTAATCCTTGCATTCTATGGTCATGGGAACTGGGTAGATAY
TATGGGGCATAGAAGGGAAAGAATGATGTCTGTTTTCAGGTTGTTCATCTAGGTTGGCTGGAGGACTTTTCCAGTGAGGTAAGCAGCATTCTTCACAGTG
TGCCCCTGGAACTGTTCTGTCGGAGCGGCTCTTTTCCACGTCGTAGGAAACCCGTGGCTGCAGATGGAAGACACTGCGTGAGAAGGGGGCTGAAGCTGTG
CTGAGAGCTGCAGATGACGCTTCTGCCACTGCCACTGCCACTGTGACAGTGGATTCAGTAAGAGTGACTCTCCCTGGTGCAGTGTCGGCTCTCTTCTCAG
GCTTTGATCCTTAYCCTGTGAGGGAGTTTCAGTCCTCATTTTTCAAATGGGGAATGGGAGAAGTTGAGCAGCCTGCCAGAGGCTTATGGTACCTGCACTT
GGAACTGGACTCCAAGCAGGTCTGTTAGACCCAAAGCCTGTGCTCCTAGCCACAGGGGCTCACCAAACCACTGTCTTAGTCTTTAAGGTTGTGTCTGGTC
TTAATTTTGGGACAAAGAAATAGTCTAGTTTTAAGGGCAGAGCAATCTTGTTTAAAATCTCCTCTCTCGCACTGGTATTTCACAGAAAGCTGGGTGTGGC
CCTGCTGACTGAGGACTGCGGGCCTGTCAGTCCAGCCTGTGAGCTTGCTGGCAGTCTCTTCCAGCTCCCTAAAGATCACTCCACCTCTTCGTTTTACTCT
GTGTTGGGATTGAAAGATACTCGTTCTTAGAGGAAGTAATAAGCCTATTTGCTTTTTTTCCCCCAAGCTATGAGGAAGCTGGTTGTGCTCTATTTTTTTC
TTTTATTGTTATCCTTACCGGTTCAACTTATTTAATGAAACAAAGACTGAAAAAACTAGGACTTAGGACATCAGTCCAGGCTTGCCTGTTCTCTGGAGAG
TTGCCGGTGCCTTTATAAAGTTTGGTAGAGCCACTGGCTGTCTTGGTGAAATGCCCTGACCTGTGACCTTGCCTGTTCGTGATAGCTGACATTGAGATTA
ATTTGTGTTCAGTGTGTAAGCACTGCCTTCGTTGTGTGCTATTTAAGGTTTCCAATTTTGTAAATTACTCATTCTAAACACATATCTCATTTTCATCATT
TCCATAAATGAAAACTGTAGCTATGTCATTTAAAAGATCTGTGCTTTTAACTATGTTCTTGTTTTGTAAATGTTATAGATCACATGGAGACTTCACCTTC
TGTGAATTTAGTGTTCTTCATTTTTTCTATTTTGTCCAGCTTTAGTTCCAGTGGCTTTTGGGGGACTGAAGAAATGAAATGGGCTGGGCACAGTGGCTCA
CGCCTTTAATCCCAGCGCTTTGGGTGGCTGAGGTGGGCAGATCACCTGAGGTCGGGAGTTTAAGACCAGCCTGGCCAGCATGGTGAAACCCCGTCTCTAC
TAAAAAATACACAAATTAGCTGGGCGTGGTGGCGTGCGCCTGTAGTCCCAGATACTTGGGAGGCTGAGGCATGAGAATCGCTTGAACCCGGGAGGCAGAG
TTGCAGTGAGCCAGGATTGTACCACTGCGCTCTAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAGAAATGAAATACTTTTTCTTTGTC
CTTGGGGTTCTGTCTGGGGTCTTCTCGGTGGTGTGTGTCCCTGCCTTGGAGCCTGGGGGAGGGTGCCCCTAGTGTACACTGGTGTGTCCCCCTGAGGCGG
GTTTGAGTTCCCAGGTCAGACCCCAGCATCTGCATCCTGCCCTCGGGACTGGCAACGCTTCTGCTCTGTCTTCCTCGCTGACCCTTCTCACTGGAAGTCC
TCCTATTAAACCATGGCCTTCCTCCTCTTCCTCATCTCTTTACCTGACTGCGGTCCTTGGCCCTTTTAGGAAAAGTGTTGCTTTTGTCAATCAGTTTGGG
AGCTGATGTCCAGCAAAGTGATGCACGTTTTCCCTAGCCTCCCACCTTACCTGTGACGCAGGTGTTTGCATGGGAGTAGAGGCACCCATAGGGGCATGGA
ATACAGACTTAAAGGGCAAACAGTTACCATGGAGTCCCAAGTGATATAACTTGGGSCTGGCATCCTAACCAAGGAAGGTTAGGCAATGCCCGCTGTGGGC
TGAGCACGGTAAGACTTTTCTTACTTTCTATTATATAAGGAGGTGTCTGAAACTATACCTTCCTAGAATAATCTGAGACAGAATTAAACAAATTAGAAGA
AAGCTCCAATACCAGGTCTAGGCTGTCATTGATCGTTTAATTTGTGTACTGAGAAGTCAGAATAGAGGCCAGAAATACAGGGCTTTCTCCTAAGACAGTG
TTCCTTGGCGCCTCCAAATGCCAGTGGTGGGCTGAGGGCCCTGACAGAGGCTCCCTAACCCTCGCTGTTCCTCCAGAGCTGGGCACCGTCCCCATTTTAT
AAGTGAGGAAGCAGGTGTAGGAACAGGAAAGCTCGCCAGAGCCACTGAGTAAGCCCAGTCAAGGCGGAAGCTGAGACCTGTCTGACCCTAGACACAGTTT
TTCCTCCATCTCCTCTGTCTCCACAGGCCTGTCCCGTTCTGTGATTCCTTCTCTCCCCAACTCCAGTCCCAGCTTTACTTGTCCTGGGCCCTCCCTATGA
GTCTGATCAATAAGAGCTTTGTGAAAATCCCTAGAAGTTTAAAAACAAAAGAAACTTCAAAAAATTCCTTTTTGAAACCTGCTTTAAAACAAAACCAAAC
CTAAGATCTTCCCTGAGTAGATTCTCTATCCTCTGGGACAGGATTTTTAGACCTTGTTTTTGTTTTGTTTTTAATGTGTATGATAGAAGAGGGAACCTGT
TAATGTTTTTGAGGTGACCCTGAATAAGTATCCTTATGAGAACACTCCCACATTACACACATTTGTAATCACTCACATTCGTTGATATATTGGTATACCC
ATACTCTGGTGTCCCTGAAGAACTGTGCAATTCTTGTAATTTCTTCTGCTCTTAATGGTTTAGACTGCAGCTATCCTGTGGCCGCCCTTTGTAGCTATAA
TCTACTCTCAAGGAAGAAAACGGAGGTGATAAAAGCACAAAAAGGAGGAAGGGGTTAGAGGACCCTCCAGGACATCAGCTATTATTAACATGTGACTTTG
AATCTGAGTCTGGGACCTCTCAGCAGCCCAGTGTGGAAGCACAGTTGTGACTTTTCACCCCTGCTGCATTTTAATATCAAGTGGATAGTAGATGGCTTAA
CTTTAGTTGAACTTGAGTGAATGTATAGTGAGTTGGTGAAATGATTGCCTTAACGGAAATGCTGGTGCTGATGGATCTTTGTAGACAGAGAGTGAGGGCG
TAGTATATTCTGTTGCCGTTAGTTTATAAGGTACCATTGATGAGACCAAGTTCAGGTCGTCTTCCTGATTTCTTCGAATTTGAGAGCCTGAGTATTGGTG
AGGCTTGGCTGCCAGTATTCATTTGGGATATTTGCCAAGGAGGATTAGATAACTTTCTGCATTTGCATSGCATATTACCTCTACCTGGAATTGATATGGC
CTGAACACTGTTTTTGAATATTTTTTGCTTCATTTGAGTCCTTACGAGCTTGCAGTCCACTCCAGGTGGACCATATCTTTTACCATCATGGCCTTTTTAA
AAAAACTTTACTTCTCTTATTTTTACGTTTTTTCAAGATGGTTAAAAACATTTTCTTTAATTGACAWATTATAATTGTACATATTCATGACATATATCAA
GTTGTTTTTTTTTTTTTGAGACAAAGTCTAGTACTGTTACCCAGGCTGGTGTGCAGTGGCTCAATCACGGCTCACTGCAGCCTCCACCTGCCAGGCTCAA
GCCATCTTCCCACGTCAGCGTGCACCACCATGCCCAGCTAATTTTTATATTTTTTTGTAGAGATGAGTTTTTGCCATGTTGCTCAGGCTGATCTCAAATT
CATGAGCTCAAGCGATCCACCCGCCTCGGCCTCCCAATGTGCAGGGATTACAGGTGTGAACCTGGCCCATTGGTGATGTTTTGATACATGTAATGTATAA
GATCAGAGCAGATGGATAATTAGCATATCCATCATCTCAGTTTTTCATTTCTTTGTGTTGGGAATGTTCAGTATCCTCGCTATCTGAAACTATGAAATGT
GTTAATGTTAACTATGGCCATCCTACAGTGCCATAGGACAAAAATATGGAAGTCTTCACTAGTTTGTGTGTCATCCTTGCGCAGGTGCCATGCTCATCTT
CCCAGTATTATTCCAGTTTTAGTATATGTGCTGCCTAAGCGAGCATGGAAATTCATTTTAGCTGTAAGTTTGTGCTGGGCAGATTATCCAATAAAAGTGC
CCTTGTAATCTAATAGTTCTGAAATAGCCTTGTGAATGGCAGATCCCCTGACTGCCCTGTCTGTTCTGCACCCAGCCTGCCAGCTTTGCCTTTTCCACTG
ATGTTTTTGTGGGATGCAGTGGACCCCAGAAGAACAGTACCTCAGATTTCAAGCTTGTGACCCACTAGCTCAGCCTGGCCAGGTTAAATTGGTGTCTTAG
GTTCCCTGTAGAAAGGGTCTGTGATTGTCAACCTGGCTGCGTGGGAGTAAAGAAGGTGATGTCTGTGACAGGCCCAGCACTCAGGGACTGAGTCCTGCAC
TGATGCAGGAGCTGTGTACTCAGCAGTGTAGTCCTAGCCTCCTTCCAAGAGTCATGACCCTGCTCAAGATCTGATTTTGCAAGGCAGCCCTTTCCAGAGC
GAGAAGACTATATAGTTAGAAAGCCATTCCTTATATTGAGGCAAAATAGGCCTCCCTGTAACCTTCATCTTACAGTTTTGTTTCTGGTTTTTAGAGCAAG
AGAGTCAATCTCATAATCTGCAGCATGAGWATTCTTTTTACTCACCAGTGAAGCATTCATAACCTCTGTCAGGCACCTGCTTGGAATTACAGGTTTACAC
AGTTAATCGGAATAAATCCTGTCTTCCAAAGCTTACATTCTAATCATATATAATTCAGTAAAAAGTGATGTCAGGACACAGATTAAAAACAAAATCATGG
GACCAGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACAT
GGTGAAACCCCGTCTCTACTAAAAATGCAAAAATCACCCAGGCCTGGTAGCGTGCGCCTGTGATCCCAGCTACTCAAGAGGCTGAGGCAGGAGAATCGCT
TGAACCCAGGAGGCGGAGGTTTGAACTGAGTGCCACTGCACTCCAGCTGGGCAACAGAGTGACACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAATGGG
AGTTCAGAGAAGGAAGATTGCTTTATGGAGAAATTTGAGGAGGTTGTTTTATTTTTGTTTTTAAATGGGAAAAGTGGCATTTGGAGAAAATGATCATGAT
GTAAAAACCCACATTTGTTTAGATCCTTATAAAATGTGTTCACGTCCAGCTTCACAGCTCGCCCTCACAATAACCTTGTAATACAGGTATGTAACTCTCC
CTATCAGAAGATAAGAAAATGAGGCTCAAAGGGGTGGCTTGGCCAAGGCAAATGGGGTCTGTGCCACAACATCAGCGTCCCGTCCGCGTCAGAGTGTGTG
GTTGGTGGTCGTTCTTTGGGCCACTGTTCCAGTGTCTTAGAGATGCACCTGGGTATTCGCTCCCCTCTTACCTGGCAGTCAGTACCTGTCAGCACGTACA
TTTGACTCTTGAACAGCACAGGGGGCAGTGATGCTGACCCCACCCCATGCAGTCGAAATCCATATAACTTCTAACTCCCCAAAACTTAACTACTGTTGAC
CAGAGGCCTTACCAGTAACGCAAACAGTTGATTAACACATATGTTGTCTGCTAAATGTATTACATACTGTATTACAATAAAGTAAGCTGGAGAAAAGAAA
ACATTATTAAGAAAATCATAAGGAAGAGAAAATACATTTCCTATTCATTAGTGGGAGTGGGTTATCATCAGGGTCTTCATCTTCGTCATTGTGACATTGA
GTAAGAGGAGAAGGGGTGGGTCTTGCTGTCTCAGGAGTGGCAGATCTGGAAGAAAATCTATGTATAAGTGGACCCACTCARTTCATACCCGTGTGGTTCA
AGAGTCACCTGTATATTCCTTCATTTGTCTATCTTCCCAACTTGAATGTAAGCCCACTGAGGACAAGGACTTTCCTTCATTCTCATCTAGAATGTGCCCA
ACACAGAGATGGTGCTCTGTAATTGTCTGTTGAATGAATAAAGCACTCAGTAGCCAAAACAGCAAACAACTAACATTTGATAAAACTCAGCCAGAAACTG
TGTATTTCATTTCATTCTTTTAATAACCCAATGAGAAGGTATGATTACTTTTATTTTACTGAGGAACTGAGACTCCCTGAAGTTTCACAGCCAGGAAGTG
GCTAGGTTGGGGCTGATTGAGATCTGATGCGGAGCCKGTGTGCTCAGTCAGTGTGCTGTGTCCTCCACAGCCGCTTCATAGTCAGAATTCATGCCGTGGG
CGTCTGYGCACCAGAGGTCATGAGTTTTGGTCTGGAGAGATTGGGACTGTTTAAAATGCYTGGGGGCTTTCTTACCATGATTTCTCTCACTTTAGATACA
TTTTCCTTAGCCACGACTCCATCACCCAGTCCTGGCCACTCTTCTTTCTTCCAAAGGGTCCCTGTGCTCTTGACCTCCTCAATGTAGCTCCACCAAGGGG
CTCTTTTTGGAATATAAATAGTAGTCCATGTCTCCCCACTGACTTTTCCTTACGCTTAGAACAAACTCAGAGGGCTGGGCTGCCCAGATGGCCCTGCCCC
TGCTGTGGCCTCATCAGGGGCTGCTTCCTCCCTCACTGCAGTCCACTCCCTCTGGTGGTGATCAGGGCCCAGGACTTGCCAGCCTCTTCTCCTCAGGACT
TTGCTGTGGACCCCCTTCCTGCCTGCTGCAGGCTTCCCTGGGTTCTTCTAGCCTTGGCATAGAGTCTCTTCTGACCGTGAAGACCCCCTGACATCTGTGC
TAGCGTGCGGTTTTGTCCTCTTGCAGATGTGTCGCTGCCTGTGATTGCTTTTGTGTTTGTCATCTGTCCCCTTCCCTGGAGTTTGAGCTTTAAGAGTGGG
GCCTTTCTGTCCTTGGGCACCACTGTGGCACTGCCGCCTGGCCTAGTGCCTGTCACACAGGAGGGCTCAAGCAGCGCTGGTTGAATGGGGAACTGATTGC
CTTGTTCTCTACGTGTAAGTCACGTGTGGCCAGGCTCTCTGAGGGCTGTGAGCCCTCTGTGCACACAGAAGCACCTGATTAGGTCCTGTGGTTCAGTCGT
AAGTGGTATAAGGAGATATAAAAGGAGTGAGGTCCAGCCCATCCGCCACACCCCACGCTGGGTCCCCACTGGGCTGGGTCCCTCACAGACAGACAACTTT
TCCCAGTTTGTACAAAGGTCCCTGTTAGACACTTTTGTCCCTCTATGACAGGTTTACCCCTACTGGGATGAATGCTAAACCTGAGAGGAGTCTACAGCAG
CTTAGGTGAGGATTGTCGAGGGTGTGACAGCGTACTGTCACTCTGCTCACAGGCCTCATTGGCCCTGAGCATCAGCGTTCCTGTCCTTTCTTTGTCTTCT
GAGAAGTGAAATTCACAGGGAGGAATTTATCAGATCCTTAGCTTTTATTAGATTTAATCGAGCATCTCTTCAGATAACTGGCTTGTGTTCTCTTGGGCTA
TTGTATTTTTCTGTTGCTTTTTTTTTTTAAGTGCTTTCTGTATTTTCCAAAAAATGGGGTGATGTGAAATATACTCCCACAACACTGTCAAGCCCCTTTT
GTTCTTTTTTTTTTTTCACCCAGTGTTCCCTACAAGGCCTCTTACCTCCCCACAGATGCCGAGAGCTCTCTTCAGGTGCACCCTATGCCCTCTTTCTGCA
CCTTCTTACTGGCTCTGCTTTAAACGCACAAGCTCCCATTGCCACGTTCCACTCCTGAGTCCTCCAGCCAGGGCTCACTGACCGCAGTGAGACTTAGATT
CGCTCTCTGAGCTGTTCCAGTGAATYGCCCTCCCCTGCGCATGATGTAGACACCGGAGGCTGTGTGTATTGCTCCTGACCCTGTCCCCTACTGGCTCTAC
TGGAAATTACTGGGTATTTCCACTTCGCACGTGTAGTGAAATGCGATTATCGACAGTTCGAGCCTGAATTATATTTTTGGAGAGCTGCTACTTTTAGGCC
CACCTGTGTTGTTTAGTCCCTGAGCTTGGTCACGTGTTAATGGTTTGCGTACTTTTGTCATTTTGCAAATCAACTTTATCCTTTCAGCTTAAAGGAAAAA
GTGAGTTCTAAAAATTAGTAATAGAGAACATAGCATGGATACTGTGTTTATTTTTATTTACATTCAGTCTCATCGGGAAGAACATAGTAACATTCATATT
CTTTTAAAAATAAGTCAAATTACTACTTATTGAAAATATTTTCTGCTGGGCTTGGTGGTTCATGCCTATAATCCCAGCACTTTGGGAGGCCAGGGCGGGG
AGATCACTTTAGCCCAGGAGTTCAAGACCAGCCTGGGTAACATGGTGAAACCCCAACATGGCGAAACCCTGTCTCTAAAAAAAAAAATACAGAAAGATTA
CCTGAGCATGGTGATGTGTGCCTGTAGAGCTACTTAGCAGACTGAAGTGAGAGGATGGTTTGAGCCCAGGAAGTGATGGTTGCAGTGAGCCAAGATTGTG
CCACCATACTCTAGCCTGGGTGACAAAGCCAGATCCTGTCTCAAAAAAGAATATTTATACATATAAATACATACATTTATGTGTATAAAAATATAAATAC
ATACATTTATATGTATAAAAATATAAATACATATATTTATATGTATAAAAATATAAATACATATAAATATATAAATATGTATTATATATACTTACATATT
TATATATGTATATATAAAAATATAAATATGTTTATATATTTAATACATAGATATGTTTTATATATTTATATATAAATATATGTATTTCAGAATATATATG
TAATGAGTTTTGCTGAATGCTTCTCCTGTGGTTCGGTCATAGGTACTATAAGGAGATATAAAATCAACATGAGGTCCTTGCCTTCTAGAAGTTTATCATT
GGAAATTGAAGGAAAACAAACAGGAAATGTTGACGAGCAAAAGTGGTAAACTGAGGCAGTGCTCTGTTGTCTGATCTCTGTGAAGCTTGGGGCAGTCAGG
TGATACCTGAGTGGGGCTTGAAAGGCAAAGTTGTCTGGTTGGAGGAAATAGGTCAGCAGCAGTCTGGAGTTGGGGGTGAGAAGGGCATGTATGGAAGAAC
TTGAGAAGAGCAGCCTTTGCCTCTCAGAGGGCACAGCCCTGGAGCTGAGAAGCCTGTTGTGGATTTCCAGCAGGAGCTGCTCCTATGAGTCTGTCGCCTG
AATCTCCCAGGGTTGCCTGTAGTGCCTGTGGCTCCCGCCAAAGTTGGGATCAAGTGGCTGCTGCTTTAGCAGTTCTCTTTGTGTGATACGTGCTGAAGCC
ACTCGGATGCTCTGAGCCTCAGTTTCCATATTTACAATCTACCCTCTGTGACAGACTTGTGAATGTAGCTGAGCTATCATGAATATAAATATGTTTTTTA
AGTACAATCATTCTTCTGATGTAATTAACCTGAAGCTGGATGTGAGCACCTTCCTATGATGTTGGAAAGCAAAGTCCCTGTATTGGATGTAAAAGGCAAG
AAGATGAAACAGAAAGGCCTGTTCACGGTGAGAGGGAGAGGACTAGGTCCTGAAGAGCCTCCAGCAAGCCTTGCCAGGTAGTTGGGATCTTATCCTGTAG
GGGCACATGGTCAGACTGGCACTGGTTTGGTTGCTTGCTTAATGACAACCCCAGCGGCAGGGAGGTGGACGGTTTGGAGGCCATAAGACTACTTAGCCTG
GTGAATCCGAGAAGTACCTGCAGGTAGAATTGACAGGATCTGGTGACAAACTGGATGTGAAGAGTTCGGGAGATAAGGATGATCTTGAGGATTCTGGAAT
AAATTGGTTTTAAGTTTACCTTGCTTATAACATGACATTACTAACCTTTCTCTGTTTTGAAGCTTTATGGTCTAGAATGGAAATCTTCAATGCTAAATTC
CTAGCTTATTCTAACTTGTCTAAACCAGAGACACACCACAGGTAATCTACTATGCTTTGCATCCGAGCTTTCAGTTCAGACAGGTTTATTTTATTCTTTG
GAATATATATTTGAAACCTTTTGTATGCAGAAGTCAAGCCTAGAGCAAATTTTTATTCTTAAATTATARGCTTGTGAAAGTGAAGGTTTTAATGGAAGTG
CTCACCCAACCTTAACCGTAGTGACACACACATGGTAGCATGTCTGAACGAAAAGCTGTCAGAAAGAGCAGATTTCAATTTAAATATATCAGTGATTTCA
AGACCAGCTCTAATGAGTTTCAGAACCTTTGTGTCAGTCTCATGTTTTTTCCTTAAATGCTCTGAAGTCATTTAAAATTAATAAGCCAGTTTTTATTTGA
TAGAGTTTACAACAGAAATGCTGCCATCGGCTTTGAAGTCCTTGTTCTTGTGTGGTCTTTAAAGTGAATTAGTGGCTGTGGTTTCTGGAACCAGAAGGAG
GTTGGCTTCTCATGAATGGGCATGTGGGCTGACCTGAGGGACTGCTTATGTACAGTTAGCTGGTATCTAAATGCAGGTACTGCCTCAAGTGAATGTAGGT
GAYGTAGTGACAAAGGAAGAATTTCAGTTAATGTAGATGTGAAATGGAGTTTCTTTGAGTGACTGAAGTGTTGAGCCAAGTTACATTGAGGCTTTTGAAA
TAGTATCTCAAAACTGAAAGAGATTTATTGAGACGAATCAATCTTTCTGTGTGTCACACACACACACACGTATACACGTACAGGCACGCACACACATCAT
ATCACACAGTCACACRGTCACACACAAGTCTCACTGATCTAGTGCCTTTTCTTTTTTGGTAGTTACCTGTTATCAAGCACCACTGACGTGTGAAGAACGT
CGTTAGGTGCTGGGATTGCAGAGAGGTGCTGGTGTAGTTTCCATTTGCAAGGAGCATTCAGTCTAGTGGAAAACCAAATGCAGTATATAATGTAATCACA
TTGAGGGGTTGGCGGAGTAGCCCAGAGGCAGGGAAAGCAGCAGAAAGAGTGGGAGTAGGGAAGACTTCACAGAGGTGGCACTGGTCACTGACCCCTGAAG
AGGACGTAGGAGTTTTCCTGGTGGAGGGTAGAGGGCACAGCATGGCCATGCAGTGGGCCTGGAGTGTGGTGTGCACAGGGAGGTGGCAAGGTAGACATGC
TGGAAGGGAGGGAACAGAACTCTTGAGGTAGCACTTTACTCAATGCCAAGATCCACATTAACACAATTCCACTGAATCCTCCGCGTGCCTGCGAGGTCTG
GGTACTTCTGTTCTCATTTGACAGTGAGGAAATTGAGGCCTATTTGCTGGCCTGTCTGTTTCAGGACCTCAGTTCATACCTAGTTGGTGATAATCCCTGG
ACTTAATCTCATATCTAACTGAACTATCTTCTCTATCCACGGTACTGTGCTGACTTCATCCTGTAACCATGGGAGCTGGTCATTCATTCCATAAACATTT
ATTGAGACCTTCTGCTCACCTACTGCTGATTTACATTTCAACACAAGCTGTGGAAATGTTTTAAGCAGTGGAGGGAGGTGCTCAGGAATCTTGCTAAAAT
GGAAGGACTTAAACCGGTGCTGAAGAACCCAGGGAACACTTACTGGATAAAAAAATACAGCTCCTGTGTGGGGCCACGAGTAGTAGTGACTGTGTTGTTT
GCAAGGTCAACACTTTTCAGCACAGTGCTAGATTTTTCTGGTGTGTGGGTAGGTACTTCCTTCCTGGAGAGGCTGCCGAGAAGAATTAAAAGCACCATAA
GAACACAACAGTGGACCGAAGCAAATTTGCATTAAGAAAAGGCCATTCCAAGCCAAACTCACTTACTTTTATTCTTTTGAATTTAAGGAGGGCCGCTTAA
TCTCAGCCTAACACTTATCCCTGTGCTGTAATAGAGAATGCTGTCTGAGCATGTCTGGGGAGTACTAGTGGATGGTGTCAGGCTGCAGTGAGATGCTGGT
GGCCATGTCCAGGCTCTGTGCCTGACCCTGTCTTGCCTAACACTTCTGTCAGGAATGCAGAAGACCCTGTTTCTGGATGATGGAAAACTGAGAAGGAAAG
CTCTATGTAGACCAGGCCGTTCTTGATTTAGAAAACTATTCGACACAAGCTGTTTGATGAACTTTCCCGGGAGTCACTTGGAAGGCGGAAGTACGGTGGT
GATCTGGTTAGGCTTTGTGTTTCCACCCATCTCATCTTGAATTGTAATCTCCATCATTCCCGTGATCACCACGTGTCAAGGGAGAGATCAAGCGGAGGCA
GGTGAATCATGGAGGCGGTTTCCCCCATGTTGTTCTTGTGATAGTGAGTTCTTACAAGGTCTGATGGTTTTATAAGGGCTCTTTCCCCTTTGTTTGGCAC
TTCTTCCTGCTGCCTTGTGAAGAAGGTGCCTTGCTTCCTCCTCCTCTGTGATTGTGAGTTTCCTGAGGCCTCCCCAACCATGCTGAACTGTGAGTCAATT
AAACCTCTTAGCTTTATAAACTACCCCGTCTTGGGCAGTTCTTCATCGCAGTGTGAGAATGGACTAATACAGGTGGAAAGACCGATGACCAGACATTGGA
GCCCTGGAGTCATCTTCTTTCTTTGTCAGTTATTCACTTTGTGACCATAGCCAAGTCCCTCAAGCAATCTGAGCCTCAGTTTCCATACTTACAAAAAAAA
AAAAAAGGTGGGGGGGTGGGGAACCTGCCTTGTTTCTCCTACAGGTGTGTGAAGCCAGGTGTGAAATGGAAGGAAAGGTATTTCTAGATACAGAGGATTT
TTACAAGTGCATGTTTTACAAATAGAGCTTCCTGTCATGGCCCTTTAGGGGTGCTGAAGAGGGGATTCTTGGACTAGGTGTGAAAGACGTTGATGGCCCA
GGATAGTCCTTGCCAGTTCTGTAAACTATTGAGTAACTGTTTACATTCAGGGCACTCGTGGGTGTTAAAGGCACTGCTTCAGCTCCGTTCTGTTGAATCC
CTAGTTGACAAGCTATCGGGAAGTAAGACACATGGGGAGAAGCTAAATGTCAATAAAATACTTGAATAACAGCTGATCACAACAAAGGATTTTATCAGTC
AGCATAGGATTAACTACCAAAATTCTAGGTAGAAATTGCCAAGAAAACTTGAGAGGCAGGAAAGAGTCAAATGATTTATGAGTTTACTACCTAAAAAAAT
ATAGCTATACTTTAAAGACAATGACAGCTTCCAAACATTGAGCATTATAAACTTTTAAAATAAGGTTTATTCATAGTCTATGAATAAACATGACAATATG
CATGGCAAATAACAGAAAAGGATGAAAATATGTACCTGGTGGTAAATGGTATCAGAGTAATAACGAATAGGCCTTTGACTACTTTGTTAATTTTTTAAAA
TAGCTGGTATTAATAGAATAAAAATATAATTTTTTTTAAAAGGCTGGGGCCAGTTAGTAACCCTCCTATAGCAAAGATGAGCCAGTTTGGGGAGTTTTCT
GTCAACTTTTAATTTTTTAAAAATTGAGATTTAACTTGTACATAATGAAATACATGTATATTAAATGTAGGTTGTTTTTTTTTTTTTTTTTTTTTTTTTT
TTGAGGCAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCATCGCAACCTCTCCCTCCCGGGTTCAAGCAATTCTCCTTCC
TTAGCCTCCCGAGTAGCTGGGATTACAGGCTTGCGCCACCACGCCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGG
TCTCAAACTCCTGATCTCAGGTGATCTGCCCACCTTGGCATCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCAGGCAGGTTAGTTTTTGTAC
TCAAGTAGCACAACCAAGATGAAGACATGGAACATTTCTAGCAACCTAGAAAACTCCCCACTGTCTTTTCCCCGTCAGTGCCCCGCCCGTGTCAGGGGTA
AGCGCTCTTCTCATTCTGTAAAACTCCCCACTGTCCTTTCCCCATCAGTGCCCCACCCATGTCAGGGGTAAGCACTCTTCTCATTCTAAGGCCTTTGGGT
GCTTTGCCTCCTTGGGGTTTTTGCGTTGGGGGAGCATGCAGTAGGGACTCCTTGGTCTCTGGCTTCTTTGGCTCAGTCTCTGGAATTCACCCATGTTGCT
GTGTGTAGCTGTAGTTTATTCTTTTTGAAAATTTCTGTATAGTTTCTCACTGTATGAATGTACCACAGTTTTTTATCTGTTCTGTCGATGGACATTTGGG
TGGTTTCCAGTTTTTGGCTATTACAAGTGAAGCTGCTAGAAGTAATCTTGTGTTTATCTTCTTGTGGACATATACATTCATTTCTTCTGGGTATTCTCTT
GGGAGAAGAATCATTGGGGTATTGAGTGATCGTATGTTTAGCTTCAGTAGATGTTGATAAACCGTTCTCTGAAGTGGTTACACCAATTTACACTCGCACC
AGCTATCCACAAGCATCCTAGTTGCTCTACTCCCTCATTAGCGCTTGGTTTTTTGCGATATTCTGATGGACATGTAGTATTATTTATGGTAATTTTGATT
TACTTTCCTTGATGGCTAATGGTGTTGAGCATGTTTTCATTTGCTTATTAGCTACTTAGATGTCCTCTTTTGGGAAGTGCCTGTTCAAATGTTACGCTCA
TTAAAGAATTTTTAAGGCCGGATGTGGTAGCTCACACGTGTAATCCCAGCACTTTCAGAGGCCAAGGCAGGTGGATCATGAGATCAGGAGATCGAGACCA
TCCTGGCTAACATGGTAAAACCCTGTCTCTACTGAAAATACAAAAAATCAGCTGGGTGTGGTGGCACATGCCTGTAGTCTCAGCTACTTGGAAGGCTGAG
GCAGGAGAATCGCTTAAACCTGGGAGGCAGCAGTTGCAGTGAGCCRAGATCGCACCACTACACTCCAGCCTGGACAACAGAGTGAGACTCCATCTCAAAA
AAAAAAGAACTTTTAAAATATATATTTTTTAACTCAAGATACCTGAAATATCTATTAAACATGTAATTAATATAAAAATTATTAATATATTTTACACTGT
TTTTATAAGTTTTGGAAATCCAGTGTGTATTTTGGGGATGTATATTACATTATTAATTTGTAAAATTGTAAAACACACATAACATGAAATTTGCCATTTT
AACCATGTTTAAGTATACTAGTGTCATTTATTGCATTGACAATGTTGTGTAACCATCACCACCATAGAAAATTTTTAATCCCCCCAAACAGAAACTCTGT
GACTGTTAAGTATTAACTCCCCATCTCCCCTCCCTGCCATTGCCTGTCTTTAACTTGGCTTTTTCTTCTGGATGCGTGTCCTTTACAAGATACACATTTT
GTGATTATCTTCTAGTTTGTGGTTTGCCTAGTCACTTTCTTAATGATATTATTTGATGAAGTTCTTAATTTTAACAAAGTCTAATTTATCAGTTTTATTT
TTTAAAGATAGTGCTTTTTGTGTCCTTTATAAGAACTCCTTGTTTAGCCCACCGGTTCTCCACCAAGAATGACTGATCCCTTGGGGGAATAGAGACATTT
TGGCTGTCACACCTGGGCCTGGGGTGCTGTAAACACCCTGCAAGACAGAGGACATCCCCACAGCAAAGAGCTGTCTGTCCCAGAGTGTCAGCAGGTTGAA
GCTGGGAGCCTCTCAGCATGAGATGGTGAGAGTGTTCTTGTGTGTTTGCTACTGGAGGCATTGTTGCTTTGTGTGTCACTGTTACGTCTGCATCCATCTC
TTCTTAATCCTTGTAGATGTGATGAGAAGAATTTAAGAGAAATCTTGGTCATTCCACATCTGTGCCCTTAGACTTTTGTTTAGAACAAAGCTCAGTACAT
TAATTATGGGAGCTTTATGTGGACCATATTAGCATATGGAACTGAAGTTTTGCTTTTTGGTGGCTTAAAAGCAATACTTAAAGTGTGAATATAAATGGCT
TGGCATTTGCAGAAACCAGAGATTTTTTTCCTGCTTTGATTCAATTATTAAGAACTTGATTTAGCATTTTTGTCATTGTTGCTTTTTAACTTTCAGATTA
GAATTGTAATGAAGACTGAAATACTGACATTTTTTCCTGCACAAAATATTCAATTCAGAAAATAAATGGACTCTAAAGCATGCTGTTAATTTTTATCAGG
ACTCTTACGGGTTCTTTGCACTCAGTGCCGTGATTAACTAACTGGACATTTGCCAGGTAGAAGGGAATTTGTCCTTTAATTTTTTTCATGTAGTTCAGTG
TATTTTTACTTGTCAGGTCTCCCATAAAACTGACCACTTAAATATACGAATCTTAGTAAAGTAGGTGGTGCCATTTAAGGGTAGTCAGAGGAGGGGAAGC
AGTACTTTCAGAAGAGGTGTTCTTGAATGACAGCTGTCATTCAAGATGGATCATGATGAAAAAGTGGTGTTATGAAAACTTCTCTGTGTATTCATGACCA
TGTTGAGCAGATTCATAGTATTCCCGAGTTAAAATTGACTTGTAATAAGAATTTGTGGTGGTAGAGTGGTCATCCAGTGTGTGTTGTGGGATGGCAGTTG
CTTTGCTGTGTGAGAATGACCCTGGCAAGGGGATCAGTTGCTCTAGGTTTAGACGCTAGGGTCTTGTTTTAAAATCCCTACTAYTGTAATCCCAGCACTT
TGGGAGGCTGAGGTGGGCAGATCACCTGAGGTCGGGAGTTCAAGACCAGCCTGGCCAACAATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTGGCT
GGGCGTGGTGGCATGCACCTGTAATCCCACCTACTCAGGAGCTGAGGCAGGAGAATCGCTTGAACCCGGGAAGTGGAGGTTGCAGTGAGCTGAGATCGCG
CCACTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTGTCTCAGAAAAAAAAAAAAATTCCTACTAATGCATGTTGCTATTTTAGGCCACTGCTGGCTC
CCTCTTGTACTTTTCTGCGTTTTTGTGAATGGTGTGCACTAGAAGGAGTGCTAGAGTTGGAATCAGAACTCCTGCGTTTGAGTCACAGCTCTGCCTGTAA
ATCACAAAGGGGTGGCAGGTCACTTGGCCACAGTTTCTCCATGTGGTAATGGGGTTGCCAATCACTGCCTTAGGTTGGTATTGGAAAGATTGGATGAGAA
GTATGAGAGCACTTCATGAAGTATAAATCTTCACAAAAATGTAAGGGACCCACTTGGTGGAAATACCTATTTAACAAAATCCCTATTATGTGTTATATTT
GTGCAGAGACAGCACTTGAGGTGGTTAGGTGAAGAGGATTGGAATCTCCTGTACTTTCTGGTTGGATGACCTGGGGCAGGGCTTTTCTGGGCCTTTTATC
TGTAAAACAGGAGTGATGGCCACTGTGTGGTTTACATTTGTTAATACATAGAAGATGCTTAGGACATTTTATTGTGTCTGGCACACAGTAGGCACTCAGT
GTTCATTGTTACTTTTATTGTTACTGTTAGATTAGAGCTGATTTGAGTGAGTGAAATTTAGGACCTGCCCCATGTCTGCACATACTGACCAGTCCGCTGG
ACCCAGGTGAGGTTTGTCCTGGAATATTTAGTCCTGGTTGCCAGCCCTTTGTGGGCAGGTGGGCATGGTGCTCGTGGAGGATCTGCTGTGAGAGGAGAAG
GTGGCGCCTGGGCTCAGCAGTGCCAGGTTCAGTCACTCGCTGATGCATCACCTGCTTCCTCTCCCTCATTTCCTCAGTGGCGCCACGTGAGCCCCTAGAG
GCCTGAGAGCAAACTCCCTTCCTGGCTACAGTTCCTAGCCTAATGTTTGGCACTTGATAAATGTCTGTTGAATAAATGTTCGTTGTTTGCAGGTCAGGTC
AAAAGGTGTATTAAATACCCTGAGGAACAAGTAATTAATATAGCTGGAGTCTTTGGTGCTGGTGTCAGAAACCTTTGACTTTTTTCCCTATTTTAAAAAC
ATGAAATTATTTTTGAATTTTAAGTCATATATACATGGAATAGAAAACACTAGAAAATATAAACTAGCATCAGGTAGAAAATTAAAGCTTCACATATTCT
GTTTGACAGGGTTTCAGTGACCCAGAACCTCAAGTGGGCAGATCTGGATGGGCCAGAAACCTCAGTGTGAAATTCAGCTTCTCCCAGACTTCACTCCCAT
TGTGCATGTGTGTGTGCATATCTGTGCACCCAGGGCAGGGAGGGCTTTATTCAGAGAGCAGAGATCTTTCTTTACTCTTCTCCTCCTCAGTGGGAGCCAG
TGCTAAACTTGGTTCCTGGATTCAACTCGAGTGAGCATAAGTCACCTGGGAAACTTACTGAAAACGCTGTTTCCTGGGCTTCCCTCTCTGGGCCCATCAG
GCCCATCTTGAGCCATCAAGGCTGGGCTCACTCCCCCTCCCCTCTCGTTTAATGGCTGGGGGTAGTGACTGCTTGTCTTTGGACCCACTCCAGAATATCT
TACCATTTCCTCTATACTTCACAGTTTTCATCTGTTTCAAAGAATGAAAACAGGTGTGTGGAATTGAGGAGACCAAAATAAATCCTTAAGCATATAAGGT
AGGCCTTATGGAGGCCTTAAAATTACTTGATTTTCATAAGTAACTTTGGGACTTAAAAAGATTCAGATGGGTTTCTATATTGGATTTGCTTCTGTTCAAG
ACTCCTGGTGTTGAGGCACCTCTTCCTCACGTTTTAACTAGCCAGTGTCTGTCTGGAGTACAGAGCACATGTTTCAAAGAACTTGGATATATCCAAAACC
CATAAATTTAGGACTGAAATAGGATGTTAGTTATCAGATGACTGAGTGAATGCTGAACATATATGGAAACAAAAGAGACAAGAAATGGTATAACCATATT
AATGACAATCATGAAACAGACCAAATGCCTCGCACCCTAAGCAAAGTCTCTTACATCCCGTTTAAGAGAATCGGGGTGCTCTGTTTATGTTTAGATTTCT
TGGCTTCTTTCCATTCCATCTCAGAGTTTCCCCTGCGTCTCACCAGTGCTCCTTTTCTTCACTTTTCTTTTCTTGTCCAGCCTGTGCCCTTGGTGGTGTG
ATGCCTCCTGTGTCTGTGTTCTGTCACTTACTTGCCCTCCCTTGTGTCTTTCTTTTTTCTTCATCCTTTTAAATCCTCTTCTTTTTTTCCTGCAAATATG
TTTGGTTCCTGTGAACAGAACAGTTCAGTGCAGAAGGGCACTAACATTTACTGGGTTCCTGGATCATGGAGTGGAGATCCCATGGAGCAGAGGCACAGGC
AGCACCCAGGGAGCATGCAGTGAGTGAGAAATGACTCCTGGAGACACCGTATTATGGCAGATTCCAGCCCATCTTGACTAATAGTCATATGTTTGTGTGA
ATTTTTTTGAGAAGTACACCCAGAAGTTCATAATTAAAATTTTTTTTTCTTTGCTKCTTAGAGGCTTAAAACACACATTTATTATCTCACAGTTTGTGTG
GGTCAGAAAGGCAGGCATGGCTTAGTTGGGCTGTCTGCTGCAGGGTCTCTCTCAAAGCTGCAGTTAGGGTGTGGTCTCATCTGAAGGTGTGACTGGGGAA
GGGTGCCTTCCATGCCCACTCCTGTGATTGGCAGCAGGCTTCAGTTCATCAGTGCCTGGGTTTCTTGCTGGCAGTTGCTAGAGGCCACCCTCAGTTCCTT
GCCACATCAGGCCCATAGATTTTATCAGATTCTCAAACTTCACCTACCCCCTCCCCACATTTTCTCACTTCCTCCATCACTTGTTTTGTTTTTCTTTCTT
TTTTCTTGAGACGGGGACTTACTCTGTCACCCAGGCTGAGTGCAGTGGCATGATCTCGGCTTACTGCAAACTCCACCTCCTTGGCTCAAACAATCCTCCC
ACCTCAGCTTTCCGAGTTGGTGGGACTACAGGTGTGTGCCACCACACCTAGCTAATGTTTGTATTTTTTGGTAGTGATGGAGTTTTGCCCTGCTGCCCAG
GCTGATCTCGAATTCCTCACCTCAAGTGATCTGCCCTCCTGGGCCTCCCAAAATGCTAGGATTACAGGTGTGAGCCACTGCACCCAACCCCTCCACCACT
TGTTTTGATTCATCCTTTGGCAGATTACTTTTCCTAAATGCTGAAGACCAGGGGGTGCTCAGTGTCTACAAAGTCCTTGTTCCTGGATGGATACTAACTT
ACTGACACCTCTCAAGTGCCAGCAAACTCTGGTAGCAGGGATTGTCTTCATTTTACATGTGAAGTAACAGACCAGATGGGTAGCACTGCTTGGGGCCACA
TAGCTAATACTCTAATGCTCCTGCCGTGGGCACTGTGCCACCCTCTGCAGGGCCTCATGTGTTGGGACTGCACTGGCATTGCACCTTTTCATCCCTCTGT
GTGCCAATCGATTCTGCAAACCCCAGCTGCTCAGCTTCCCTTAACAAGCCCTCCTTTCCCTGCCTCTGCCATTTCCGGTACTCTCTGTCTGGGATGTCTC
CCTTCCCACATGGAAAATCCTGCCCATCTTTAGAGACTTAACTCGCATGCCACCTCCTCTGTGAGTCATTGCCAGATCCCCCTCTTCCCGACAGTGACTG
CAGCTTCTTTTCTGAATTCSAGCACGTGTCATGTATCCTGGTGTGACACGTCACAGTTTGCCTGTCTGGGCTCCCTGCTCCAAAGTCGTTGGCTCCTTAA
AAGCAGGGAACTCATCTTGCTCATTGTCCCCCCACAATGCCTTGCACGCAGCAGACACACAGTGCAGGTTTGGGGAGTTGACGGACGAAGCTTTGCTGGG
AAGCTTTAAGATGAGATTAAAGTGGCTCTGAAGCTGCAGAAATGTGCATTAGTACATCAAGGATAAAATTATACCACTTTATGCCTTGGCCTCCTTTATC
GTTTTCTATAAAATAATAGCTATTTTACTTTGATAACTTTTGAGATTAAGCAAAATCTTTCTTGAAAGTTTAACACCTGTTCCTTTTCCTACTTTTTTGC
AGATATAGTTCATCCTACAGTTTTCACACTTACTCACAAGAGTAGCACAGTAAATATTACATTTATTTCATTATGTCCTGTTTTTTAAAACATGGGCATA
TATTTTAAGCAGTTAAAGGCTAAAAGATGTGGTTATTTTGGTTATCCTTATGATGGGGTAACGTATTTTCACTGAAAGTCAGTGGGCATCTTCCAGTCAA
ATGGAGAAGTTGTCTGTTTCGTAATACAAAGGTATGTTTTCCTTGTCAGCATCATGTGCACCATTAAGTTTCTGTGAATAATTTGAAGTACCTAGCTTTA
TTTTTCGAGCTAAAAGGTTAATTTGCAAAATGACCACACTTGGGAAAGTTAGCAGCCTCGTCATAGGAACATGACAGGAGGCGCTCCGGATGCTCCCCAG
CTGCCCCCCACGCTCTCTTGCCTGCCAAGTAAAACCCTGACATCACCGCCTGCTTCTCCCTGCGTCCCCACCTGAGTTACTGATTGCAGCATGTGGGGCA
TGCAGTGTGGGGGAGGCAGAAGGTGGGGAGTAGGTAAATATGAAAGGCAAGGCCTCTGCCCTCGTTGGCCGAGCGAGGTGTAAGTGGACACTTTGGAGGC
TGGGATGATCCTGAACCTAGGAACTGAACCTGGGAACTTGCTTTTCTGAGCTTGGCAGGCCGTTCTGGTGTGAATTTAAATATGCTCCCCCCTGGGAGAG
GACACCTTAAAAAATAAAGGGCAAATTTTAAAGGGAATCTACACGTTGGTCAGTGATCACTACTAGATGGGCAGTCTCTTACTTTTCTTCCAACCTACGA
TTATGACTTCTGGGGAAAATAGGAAGTGGCAATGGTGAATATGGAGTCAGTTCATATTTATCAGCACCTTCTGTTTGCCAGGTCCAGCAGGAGAGCTAAG
GACTCTCTCTGCTGGGTCCCCTTCCGCCCTCTCCCCACATTCAGGCCTCAGCTGCTCTGCTGCTTTCCGTGCTCTGCACACCCCAGCACCTGTTCCCTGT
TGTTGCTTCCTTCCTGTTTGTGACTATTTGTCAGTGTCCACCATCCAGCAGACAGGAAGATCTGTGAGGGCAGAAGCCAGGTCTGTCTTGCTCCCTGCTT
TTCCACTTCACTCAGAGTGGGTGCTGTGAATATTTGTTGAATGAGTGAATGAATGAATGAAATCCATGAARCAACTCAGGAGCAATTTCACGTGGCATAA
ACCAGAGTGCTACGTGGTATTTTGTAGACTGCATGGGTTAGACATTTAGAGGTCACTGGAGGTCATATGTAGATTTGAAGGCAAAGGAATCTTAAACCTT
GTCTTAGGATTTGGCTAAGTGGATGGGGGGGCGGATTATTCCAATAATTGGATTATTATTCCAGTCTGGAAAGTTGTGAAAATGTGTATGTTTGGGGGAG
GAGGGTTTGAACTGTTTTCCACAYCAAGTTTTTTTTAGGGATTAATAATCTAAGATTACCTCTAGGTTAATACAACAGCTTGTTTTTTTTAGAAATTAAA
AGGTAAATAGGAAAAATAATGGTCATTTTGCTGAGCATAGAGTCTTAACTGACAAAGCTAATGATCTGGAAAAACCTATGTTGGAAAATGTCACTTTATT
ATATATGTCTGGAAGTACAGATGGGAAAACAGATTTTTTTCTTTTTGCAGTAGATTCATTAAGTGCTTAAGAAGAGATTCTCTTCTGTACCATCTTTACA
GCCTGAGTAATTGGAGGCTAAATCTAAACTCCACATTGTCTTATGTTTCTTGCAAAAGAGGTAGCTGGATTGCTATTTTCTGACACTTAAATGGAGGTCC
ATTTCTAGGCATCTGCCAGTGCCTTGCTTAGAGCGAGATAATCCCTTCTGCACCTGCCGTGTACAAAGCGATTATGGCAGAAACTAAAGACTAATAACAG
CTGACRCCTACTGACTGCTTACTGTTTGCTGAGAATGTTCCACTGAGCACAGAAACCTTAGGCACTTGCTCCAGGTCTTCCAGGTTCAGAGCTGGCGCTG
GGCTTTGCAGGGCTAGATGCCAGGCAGGTGCTCTAACCACTTGGCTCTGCTGGGCCACACGGCAGCTCCCAGTGCCCGCTGGCAGGCCTTTCGTGTTCTT
GCATGCGCCTAACCCCTTGTGGCTCCTACTCTAGGAGAGTTAAATACCAAGGTGTGCACGTGGATGGCGGAGTTCCTCCTTGAACCTCTGACTTTGGCAA
GATAGTTGGCTAACCATCTTGTAGAGGGTAGGACTCCTTAGTTCAGCAAACCTGCTAGAGTGTTATTTTGTGTGCCAGTGCATAAATTAACCATTATTAT
TTATAGTCCTGTTTCTTTTGGTCTGGTGCAGTTTAATTTAAAAGAAGTAGGGAGAAGTGAAACTGGTTTGCTGTGATTTAGTCCATCAGCCCTCCCTCTG
GACTGCCTCATCCCTCCTGTTCTATAGGGCACCCTCCGAAGCCCCGTGTCCTCCCCACCATCCCCTTTCTCAGCTTCTGCTCCCGGGTGCTGAGTGTTGT
GAAGTTTCCAGGTGCCATAACAGTTAGTGCAAGGTGAGTCTAGCCTTCTCAGCCTGGCCGGTGAGTCTCCTTCCTGCCTGGAGAAAGGCACAGTTGTGTC
TTACCGGCTTCTCTCTCACTTCCCTGGGTACAGATTCAGGGTCTCTGTGTCTCAGCTCTTCCTGGGCTCCCCTCATCCCTGCACTGCTGAGAAAACTGAG
ACCATGTGACAAGAACTTCCTTTCCTTTTGTCTCCACCTGGGTTTCTTATGTCCTCCTCTCCTCCCCTCCCTCTGAGGAAGGGACCCCCCTTAGAGCTAA
GGGAAGCCCTGGGGCCTGGTCAGGAACTCAGGTCAGGAGCTCAGCGACATTGGCCCTGTGTTTTCACTCTTTCTTTCTGTCCTGGCTTTATCCCCTTGGT
TTACAGACAGCCCCCATGCCTTTGAGATGATGTCCTGTCTGTCTTCCACCTTTAATCACAACATTTATCAAGAACATTCCACACTGAGAGTTCTTCCAGC
CCCAGCAGCCTGGCTCTCCCCGCCCTGAAGTGTGATGCCCTCTGGGAGGGCCTGGGGTCTGGCTTCTTTCCCTGCCCAGTCCCCTCATCCTCCCCACGTT
CCTGCTTCGTTCTTCCTGCTCTTCTGAATCTCCAGGCTTTTCTGACCCTACCATTCCTGTCCCCCGAATGTAAGAGCTCTCCAAGTTTCTGGGCTCCGAG
TTGGGAGTCAGCTGACCTGGATTTCAAAACCCAATTCTGAAGTCTTTTCTCATCTATGACTATAGTCAAACATCTTATAGTAAAAGATAGCTTAAGTCAG
TCTATTGGATTTCCTGCATTCTATTCCAGGTGGACAATTTAATAATTACCTGTTTTCTAGGTAGTGCTTAAAAGATCTGCACTGATTAAACTATTCTTTC
ATTGAAAATTTGTTTCCAGAAATTGAATGCTCCAACAAAATGGTATCATTCTTAACAATGTGAGATAGTATTTCCTCTGGAAAAAAAAAAAAGAGAGTGA
AATCCATTTTACCACTATTGATCAGTAGAGCATTTAATGAAGAAAATATAAGGCAAAGTATGATTTTTATGAAAAAGGAAGTAATCAGACTTGAATTTTC
TAACTTGTGCTACTTGGATATCCCTTGGCCGTTCTCATAAGAGAAACCAGGTACAGGTGGGTGCACTCTGTGTGATTTGGCCTTGCTTCTTTGTTCTTCC
AGATTTTACCCTGTTCAGTTTAAGACAGAGTGTACCTTTAACAGTACTTATGGAAGTACTGTGAATGACTTTTTTTCTAACATATCTTAATGCTAATGGA
GAAATAGCAAGTACTGATGGCATCTTAGTGCCTGCTCTTTTTTTTTTTTTTTTTTTTTTTTTTGCATAACAGTGCTTAAGAGCCTTCTGGTATCTATTTT
GGACTCCTAATGAAATGAGAAAGGCAATTAAAAAAAATCAACTGAAGATAATATGAAATAGTTTTGCTTAATAACAAACCTCTCAGGTACTCTACCCAAA
GGTATGGAGATTTTAAATTATGTTTGGTTATTCAAGTGTCTTGACTTACTATAATACCATTCTATTTTGATTCTAATAAATTATAATCCTATAATTCAGT
TCGTTGCCGTTTTAATGGGACATTTTACTAGTAATGTTAAAATATTCATTTTATTTGTCAAATTTCRGGGTAATATGTTTGAGGGTTCCCTTCTCAGAGG
ATACAAAAAAGGGTTACTTAGATTTTGAGAGCTATAGCTCTTTCTCAGTGACTGTATATTATAAACAAAGAAGTTTTGTTACTTCCCTCTGAAAGGCCTT
TACACCTCCCTGCTGTAGGTGAGAACAGTAATTTGGCTGTATCTAGAACAACCCAGGGACAGTGTTGCGGATTTTCTCTTTGATTGGTACCTTTTGAACA
MTCTTTGAGCGTGGGGAATAGAGAAAAGGAGGGAATATGAATAACTGGAAACTGCTTCCCTCAAGTAACTGAGCTTCCTGAGGTGGAGGAGCAGAGCCAG
TGCATCTGCGACTTGCTGGTGTCCACAAACCCTCTGTCCCCAGGCGCCTTGGGGGCCGCGGGGCTCCACAGAGCCGCACACTGAGCCTTTGATGGGGGAA
GGGTTTTTGAGCTGTGTTTTCTTCCCTGCATCCCCACTTCCCTCCTTTGTGACCAGCAGCCCGGTATGGTACAGTGGGGACCTTTACCTTAGATTTTGTT
ATCAGTGAGATTTACCTAAGTAAACTCCTGGCAGCTGGTGACAAGGCAGTGTATGTGATGTGTGGATTTAGATGGTGCTCTTTGAGAATGTGGCTGTCTC
AGGCTCAGTCAATTGTGGCAGTCCTCCTAAATCAGTGGGATTGACTTATTACATCAGGATTTGGCTTGTCTTTGTTAGAACCCCAACAGTCTACAGAGAA
GGGTTCTCAGATTCTGTGGTGCACCCCTAGAGCTCATTCCTCATGAGCTCCTCATAGACTACTCAACTTCCTTTAGGCTTAAAAGCAGAATGTTTAAGGG
ACCAAAGTTCATTTCCCTAACAACATGACAATAAGGAGAGTTGAAAGTAGCCAAAAAGATAATGCTAGTATAATAACTTGATATAGTGGTTTAATGATTG
GCAAAGCTGTGGGGTGTCTTTGAGGCTGTTAAGAGTTATCAGAAAAATGATAGAATTCCAGATGATGGAATATTGGAAATTGTTGGGACATCGATGTGGC
ATCATTCTAGTGAAGAAAATGCCAAATATGACCTCTCTCATACATGTATTTGATACATATGTTTTCTGGTCCAAACTTCTTCATGTGCATGGTGAACAGA
ATTAGACCAGGTAATCTAAGTTACCATCCAGGGCTGAGATTTTATGACCGAAGACTTAACAGCTAAACATGGTATTCTTTCTGATGGTGCGGGAAATAAT
AGACTCACTGTCTTAGTTTTGCTAATGTTGCCTGYCTTTAAACTTCATAATGCCTTTTATAATACCTCTATGGTGAATTTTAAATGAGAACAGTATTTAC
CAAGCATTTTTCTGGAATTTCACCAAGCAAAAATATATTGATTTTATTAGACTTTATAAGACTATTTATAAAAGTAGGACAACTAGATATCCTCTGCCTT
GAAGTAAACTCCAGAAAACTCTTGTCTGGATTGTTGCCTAGCCTCATCATTTATTAACTGGGTAAACTTGGGTACGCTTTTAATGTCTGTCTCCCTCAGT
TTCCTCATCTGTAGAATGAGGCTAATAAGTGCCATTTCATAGGAATTGAGATGATTAAATTATATGCACATAGAGTTCTCGATAGAGTGCCCGGCACAGA
GCGCTCAGCAAATGATGACTGCTAGTGTCTGTCTCCCTCTCCCACTGTTTCTCATGGAGATGACAGAGAGCTTTCTTATATACCAAGCTGAGGTCATACC
TTTCTAGGACAGGAGTTTATCTACATATTCTGAATGTCAGTTACCTTATAAAGGAAGTTGGTTTCATTATGGTGGTCCTAACATTCTCTTGTAAATGACT
GATTACTACTACTGATTACAACTACTCTTGTAAATGACTGATCATACTAGATTGACTCATTTAAACAGAGTCCAACGTAGTTATCCTGAATTATTGAAAC
CCAAAATTGCTGAAATTAAAACTAAAACAATATATTATGAAACTGGTGATAATACATAATTCTAGCCTGCTTTTTTGATACACTCTAGCCTGCTTATAAA
ATAATAACTTTTTACCGTTCTGTTTATTTCTAGTTTCTTTAATAAGATGGAGGAGTTGGAAGTATATATATCTTTTGAATAAGCATTGATCGATTGGTGG
AGTTGACTTTTTGCAGACCAGAGAATGAGGCTTGGTCATCGTTTAGAGTCCTTAAGTCAGTCAGCAGATTGAGATGTTGGGGGTGGGGGTGGGGAGACAG
GTAGTGTCAAAAGGCAAAGAAACGAAAGATTTACTGTCTTTAAAGAAGACAGCAGTAGCTTGTCTGCACCTCCCACCCCCCCCCCCCCCCCCCCCCCCCC
CCCCGCCCTCGCCTGGCTTTTTCCAGTGAGGAAATGGCAGCACAAGTGGTTGGGCAGCATGCTTGGATGACCTGGCAGGTTCCCAGCCTCACCTCTTCGA
AGGGTGTGTGCTACATGTTCGGGGTGAGTTGGGGGTGGGGCGAGATTTGGTGACCATTTGGTACAGAGGACTGGTGGGCTTGATCTCTGTTGTTGTTTCT
CTTTGGATTCTTAGAATAGAGCTTTCTCAAATGTGTTTAAAGAGAGATTTGGGGAAAAAAATGAGAAGATTCTCTGGCCCCTAGATGGTAGAAGAATATT
CTGTTCATAAGAGGGAACATAGGATAGAAGGATGTGGAAAGCTGTGTTTTTTGAAGCCTATGGTCACTGCCTTGGTGTGGCAGGGGTGCCCACATGGGCT
GGAGCTTTCTGAAGAGGAATGTGGAGATCAGATTCCCCTGGGGTTGCCAGTCCCTGGTGCAGCCTCTCAGCAGCACCTTTGGAGTCATAGCTTTCCTCCG
CTGTCCCAGGAAAAAGAGTAGAAGTGTATCTTGTCACTTGGAGAAAGAAGATTTTTTTGTCCCATTCCAGCAGGTGTAGTTAAAAATAAATTTTAAAATT
TTAAAAAAGAAGAGGAATTCTTTGAATGAGGCACTGAGCAAGGCACTGGGGACTCACAGGGGGTCAAAGAAGACATGGTCCCTGCCTTGCTGAGCCTGCC
TGTGGGGACTGGAGGGGAAGAGATGCTAATCAAATGGCCACAGCGCATGCAGTTGTGAGGGGCAGACTGAGGCCAGCGTGGGAAAGGCAGGAACAGGGCA
GGAGGATCAACAGGGACCTGGAGATTGGAGAAGGTGGCCCGGAAGAAGAGGGATTTGCATGACCTTGCCTACCGTCCTTTTGTGGTTTTTTGGTCACTTA
TCTGTCTTCACTGCTAGGCAGTACCCCCTAATGATATCAGTGATGTACAGTGCCTTCCACTTCGGAGGTGCTCAGGAAATGAAGTATGTGTTGAATGAAT
GAATTTCTAGTCTTAACCTATCTTCATCTTTTTTTCTAAGTCAATAAATATTTGTTGAGTAATTGATGATCAAAAATATTGATTGATTATCACTAAATTT
GGTTCATAATTGGTTGCCCATCATAGAGTATACAAATGGTAGCTAATAAAAAGGTTTTTTTTTTTGTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGC
CCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTAC
AGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTCCTGACCTCGTGATC
CGCCCGCTTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCATAAAAAGGTTTTTAAACAGACGTATCTTTTGCCATGTTTCA
ACAAATTTTAATTAAATTTAACTGGATGTAGATTATACATTCATTGTCTTCCAATGGGAGAAAAAGTTCTTCCATCATAATTTTATAAATTTATTGAACA
ATGTTATTTCTCCACTAATTTCATTTTCTTAATTTAAGTTTTTTAAATTATAAGGTAATACACATTTGTCATAGAAAAATTATATATAAGCGAAAGGCAG
AAAATCTTAATTCAGTGTGTATTGATGTATTTAAATTTTTATTTCATCATATCAAGTGAATTCAAAGAACTTTATGATGAAAAATTCCCTGAAGAGTTGG
ATATAATCTGTGCTTAAAAATAAAAGTCTTAAAAATTGATTTTTTTCCCTCAAGAGCTGAACATGTGAACCATGTTTTGATTCTGATTTATGGTCATCAA
AACTAAATTTTCAATTCAAGAGATACTTTGCAATTTGTCATTCTGTTCAACTGTATTATATCCACTTAGAAGACGGGTTGATCAGCCTTCTAGAAACTCG
CTGTCTTGCATGCTGCTGCTTATGAGCCTGCATTTGGGGGTGGAAAGGGGAAACCTCAAGGTATTTAGTGTAAATTTTTCTCCTGCCTGCCATCTTTTCC
ATCTTTCCAATATTCAGCTTTCTTCTTTTTGTTTATCTTCTCCCATTTCTCCTCACTCTGTTTCCTTCTGGGGATGTCCATCTTCTTACTCTCTCTCTGC
TCCCATTCTCTCTCTGATTGGTGCAGTATTGCTTTGAAGAGGAAGGGGGTCTCTATAGGCCTATAGGATGGGCCGATGGAGCTGTCTTTTGCACCTCTGC
TTTCTCAATTTTTACAAAGCACATGTATTTGCTGAGGCCATGGATCCACAGTGGGCCTAGGGAGGATGCCACAGGCTGTCCTGCCCAGGAATTTGTCAGA
CCAGAGATCTCTTGGTTATGTGAGATAGGGTCACATTTCTGAAACTTGCAAAATTGCATCCACCCTAAAAGGCCAAATGTGAGAGTTTGTGACTGATCTC
ATCCTTGCAGAAGGAAGGAAAATGAAACCATCACGTGAGTTAGGTGTGTCTGTTCCTGGCTAATTAGTCCCTGACTAATTAAAAGAGATAGTCCCTGACT
ATCTCTTTTAATGTATGCTTAAGGAGTGAAGCAAAACAAGATCCAGCTGGATTTTAGTCAGAAAAATTTAATTGCATGGCATTATGGTTTTTTTATCAGA
ACAAGCTAGGTGCAACTTCTAAATTATATTTTGTCATTTCTGATACTATAGTCATCAAACAGGGCAGAGTCACTGAATTCTTCCATAAATATATTTGAAA
TTAATAATTTTGCATTATGGCAGGATGTAAATTCTTTAACATACAGTATTTAGAAGAGTCATTTCTATGAGCAACTTTCCTTTTTGTATAGTTAAATGCC
TCATTGAAGGTGATTAATATGTTCAACTTGTTTTTCTTTAAGTAAAAATCAGTCTGGGTAGAGAAGAATATTCTTTAGAAAAGTAAATATCTGATTTTGG
GAAATGTTTGTGTCTTAGAGGCCATTTGTGTGTTCTAATATATTTTTTTCTTCAGAGCATTTTGATTCTTTAGGTTAAATATGGCCTTTTGAGAATTGTT
TTAGGAAACACCTCTCCATGTATTTATGGAAATACTTTTATTTTAAAAATGCTTATTGTTAAATGTTTGAAAAACATGAAAAACAAAAAAACCTTAACGC
AAATGTATTTTGTTCCTGTGCAGAGCTGTTAATGTTTCAAAGCTGTTTCACGTACTAGATGTTTCTGAATTAGGGATTCACATAATAATGAATTCTGCTT
ATTTTGGTTCTCCACAAAGGTTTGTTGTATGAGCTTAAAATAAGCCTGCAGCTGATTTGTGTAACACATATTAACTGTTTGTTTAGTTTAAGTGCATGTC
TGTATCTCTCATTTCTGATCACCCTGGAACATTTGCATGCTGCACAGCAGCCATCTTCTTTTATACTTTATTAAATATCTGTCAATTATAAATATCAAGG
TTTTACATTAATGTCAAGATAGTACATCAAAAATTCATGGAATATGTGACTTTTTCCAAGGGTATTTAATACTTAATGCATCTGTGTCATTTTTCTTTCC
AGAGATATCGACAGGTTTTATTAAGTGTTTGTTAGGGAGATTTCATTTTTATCAAGGGACTATAAAGAGAAGCTGCATGCTAAATCAATTTTTTAAAGCC
GGAATATTGTTCATTTTTTCATCTTCAAACACTTATAATCCATAGGTTTTATTTAAATTTCTTCTTGGTTTATTTTTGTTTTATGTGAGTGATAGTTCAA
GACGGAACTTTAATAAGGATCAAATATGCTGACTGTAGTGGTTTTTAATTTCCTTAAGCATAGCTACCAGACCCATGCAATATGGTAAATTCTTCAAAAT
GTCATACTTACATATTTAGCAATATTGCTCTTTTTTATTGAAGCCGAACAAACAATTTTAGATATTAATCTTTCCCAAACGTAGTGATTATTTTGTACTC
GGTACAATATTACTGTGTCTCAACATGGAATGCCTCCTTTTGCTGGAAGAGGGAAGGGGAAGAGTGCGTCCCTGGGTTGCCTGGCTCTGTAGTGCTTCAG
GTCTGATTATGAGCCACGGCAATGGTTCATTTCTCCATCTTCATATATTTATTGTGCTCAAGAAAGTAAAAATATTAATCACTTAAAAAATCTGGAGAAA
ATCCGTGGCTAGTTTCTCCGCCTGTATTTACTGGGAGGTGTGGGCTGAGGGGAGGTAGCGCTTCAGGAGACCCCATTGCCGCTGCTGCTGGGCCCCCCAT
GCCTGAGAGGCCCTCTCACTGTCGTCTTTCTGACAGTGGCAGGCAGAAGCTTCTCAGGGACCCTCCTCACCCATCCCATGTGTGTCTGTGTCTTGGAATC
TACAGTTACAATTGGTTTGGAAGCTAAAACCAATTGGCTGCAGAGAGTACGTTTTCTGTTTTAATTGTATATTTTTATTTTAAAAGTGCAAGCTAGGAAT
GTCTTCTAGTGAAAAGGCTATTGTAATCAACAAAACCTTTATAAGCACCACTTTGCTTCATTAAGTGAGGAACGCTCAGTTATCTTTTGTATAACGTATG
AGCTTAAAGATTTTCATCTAAGGATATTTTAGGAACTTTCCAGTAACTTCAGATTAATAATTTTTGGAAGATGTGTTTTAACTTGGTCTTCAACAGGGAA
AAAAGGTTTTTTTTTGTTTGTTTTTAATACATTGAGCTTAAATGAAAATTGTTTGGCATAGACATTTGTCTTATCCTTGTTCAATTCTTCAGAATAAGTA
AAACCATTTATTTTCAAAATTAAATATTTTTTAATTATGAATATTTTTGATATTTGAATGTCTCAAGATTCTTATAAAACTATTATATAATAGTTTTTAG
AGACAGCAGAGATTTTTCTTTTTAGAAACCAAATCTTAGTTGGGTAAAGCTGAAGTAGTAGCTGTTTTTGATAAGCCCAGTTTTTGGTTTACAGTAAGTT
GCTTTAAAGGCCTTGCCCTGGGAAATATCAAGAAYTCTGCGACTGTAATCTACTCTCCCAAGTTGCCAGAAGGTGGCAGTAGTGTCACAGTAATGAGAGC
TCTGTGGAGAGAGTTATTTCCTTTCTCCGTTAGTGTCACATTTTGCTTTAGTGTCACTGTTAAGTGCATGTGTCAGTGGCAGAATCTTTTTTTTAACCAG
ATTTATGTACAGTGTGTACACCCTATTTCTTAAGAAGATAAGAACTATTTCTAACAGATTCTGCAAATATTATGTAACCATGCAGCCAAAATGATCTTCA
AAATCTGAAGAATGCAGTGACACATTTTTTTCTTGAGTGTTTTTTTTTTCCCTAAATGATTTCATCAGGACTGTGAGCATGGACTTATATGTTGGGTAAG
AAATGTGTATGAATAGCAGGAAGAGAAACATTTTGAAGAGTTAATTTTCCATCTCTTGATGGAGATCACCCATGTTTGGATAGTTGTGTAGGGTCCAAGG
CTACTTAAAGAAATTTGAGAGTTAGAAGACTCTTGAAGTTATTTTTAGATTTAGCATTTTGAGATTTAGCATTCCAGTTTTGAATATTGTCATCTTTTCT
GCCATTTAATAAGTCAGACTTCTTAGTGGGGGCTCCAAATTTTTAGACTTAGAGATTTAGCATTGGAACTTACTAACTTTCTACAGTTTAATTCTACAGT
TTAAATGAATTAAAATACGTAAAAATAACAAAAACAACACTTTCCCACTTCCTAGAGTATGAAAACAGGCAGGATGTGCAAAGTTCCCAGTTGATCGGGT
AATGCGARGTTTCATTTTATTGCAAGTGAAGGAACTTTAGCAAAACTAACACTTAATTGGCAGCCTTTTGTAATACATAATTTGCCTAAAATTGCGCACT
GAGCACAAGCTTTTGTTTTCTAATTGATTTACGGTTTTAGCTACTTTTACCTCATCCCCTACTGTCCTGCGTAGGGTGCCAGCGAGTACATTACAGTGAG
CGATGATAAATTACAGTGCACTTGTGATGCCAATGCGTCACGAGTGAAAACTGCAGGCTACATGGAGCTTCCTGCATTAAAAGTGGTGCGGAGACCCGGC
TTCAGCAGGATTTCATTTGTATCTCAGAAATAACCATTTGTTCATTTGATCACTTACTACAATCTGTCTATCAGACTGTAATTGAAACTGAAGATCCAAA
TTGTACTATTACAGCTTTTAATTTCTTAATTGAGACAAAGTTTTTAAGTGCTTGAAAGGCCTAAAGTGGAGGACGTGGTGAAGAGAGAATATGAAATCTA
TATAATTTTCTCATAAAAGTGAAGTTTTAGTATTTTTACCAAATGTTCTTTTGTCCAGGAAAGAAGTAAAATTTAAATATGCTGATCTGTTTTGTCGTTA
TCCTATGTGTTTGTSAAGTTATTTTATAGTCTCATAGACCTGCACTTCTCCTGATTTTCCGTGCTTGATCCGCATTTGCCGTGTATATGATTCATGTGCG
AACAAGTTGATTCCCATGAAATGACTTAAGTCGGAGAGAAATGAAAGAGCTTTCAACCGATTAGAGTGCCTTTAATTTTTCCTTTTGTTGACATGGGATT
TGAACCCTCTCAGAAGGCCTGTGCGGTACATCATGGCATGAGGTGCAGAGCGGGGCCAGGATGGACCTGGCTTGGGCGGCTCTGCGTTTCTGCTTAGATC
CAGTGCTCATCGCGTAGGCGTGCCTGCCTTTTGTAAAGTCGGTCCACCTTAAATTGTGTTTTGCGCGTTGTCTGTGGGTRCTAGTATCGAAATATGAAGA
AGCAGATTTATGGCGGCTGCTGGGCACAACAAATTAAGTTGACAGTGATGTATGAGAGCATAACAGCGCGATGATCCCTCTGTAGCGCGGCTGGACGCCG
CCTGCTTCATTTGGCTCTTGTTAGGATCTGTTAGGCAGCTAAATAATGAAATTCTGCTGACTGATTTCTGTTTTCCCTTTTTCTCTTTTCACCTCTGCTT
TCTAAAACTTCTAATTCCCAGACCCATCCTCATGCCAACAAACTACCCTTGAAGGATTCTTTCACTTACGAGGACTACAGGTTGGTGTGGGCTGTGAGTG
YGTCTGTGTATTGAGGGTGGTTTCTAAGTGAAGTGGGATCCTGGAAGGGAGGGAAGGGCTTCAGTGAGAAGTGACCTGCTGTGACCGTTAAAGCATCCAA
ACAGAGCTCATCTTTCAGAAGTTATCAGGAGCAGCTTGGATAAGTATCAGCATTTTCATAGCCATGTAGAAATTGCCATTRACCTGTCATGGCAGGGGAT
TAGCTGAGGTAGCCAAATGCTACTTGAGATTAACATTAGTGTTGGGTGGTCCTATGGATTTTTCTTTTCTTATTTAAAAAAGACTATGTTAGTGTAAAAT
GGGGACTTTTTTTGAACGGAGAGATTTAATTCACTGCACAGTGTAATAAAAAAGTCACATTTTACATTTCTTACAATTCAYAGAGGATTTCTGATCAGAA
AGGAGTTTTATGGTTTGCTTTTCAATGAGGCTTAAAATAGGTGCAGAGTCAGCATTTGGGCAAAAGAGGGTTGGGTTGGGGGGTGTCGGGGAGTGGATTT
TGTGAGTCACGAAGATCCGGGAAGGGGCCTGAGCCCTGCGCAAAGCCGTCCTTCTGGCTCTGCTTCTTGGGAACAGTCTGCCTTAAACACTCACTCCTGC
ATTTCCCCTGGCTCTTTCAAACCCTGGGTTTGTTTTTAAATGATGATGAAGGCCAAACATTACCTTTGTTACTTAGGAAAAGACTTTGTACGTTTGTAAG
AGATCAAACCTAAATTTTTGGTTATGTTATTTCTTACTGCAATTGGCTTTTAAATGTTCCAACCTTAAGTCACCATTTATCTTGTTATAGGTGGGCAGTC
TCTTCTGTTATGACGAGGCAAAACCAAATTCCCACAGAGGATGGTTCCCGCGTGACCCTGGCTCTGATTCCTTTATGGGATATGTGTRACCACACCAACG
GCCTGGTAACGACCTCTTCCCCTGTGTTGTGTTGAATCTGGGAGGCTGTTGTTGCTAAGCTTTGGGAGGGGGCTGTTATTCCACCTACCCATCGTACTCC
CCCCGTTGCCTCCCTCCAAAAGGAACAAACRAAACCGAACCGGCCACTCCTCCCCACCGCCCACAGATAGAAGCTGGTATTTTTCTTTTACTGCATTGAC
TAATACTGAAAACTGGGAGCKTSAATCTTATACCATTTTCAAAAGCCACAGTGAACTACATGTGTTTGCTAAGCCATAATTCCAGCCTCAACATTCATTT
TCTTATCTTATTGTACCACAGACTAAACCAAAGTTTCTTTTTACTTATTCTCTTTAAAATGCTCATTTATTGGGGAAAAAAAATCATATTTCTCATTTTC
CCTTTTGTGTCTTCTTTTCTTTGCTGACACTCTGTTTCCAGTTCTGTACCTTTGATTCTTTCTTGTCCCCGGTCCCTTCCCCTGATGGGCTGACGAATCC
CTGGCCATGTTTATGAACCTGTGTTTGTTACTTGCTTTCCCTGGTGCTGTGGGGCGGGAGGAGGGGGCTCATGCCTTGGGCTCCTCGCCCTTGACTGCAG
GAGTCAGCTGGCATCATCATACCTGGGAAGCCTGGGGAGGAGGAAGTTGTATTATTATGGTCCCCCACAGCTGGGAAGAGGTGGAGGCAGGCTCTGTTTC
TCCACATTCTTYGGATTCCGGGCAGCAGCATAGGTGAAGCGCTCTGTGCTCTGTGAGAGGGTTGTCTGATAAAGATTTCCTGATATTAGTAGGCAGAAAT
AAGATACATTTCAGATCATTTTGAAATATCATACTTTATACTAGTATACTGTTTGATTAGGTTTTATGTTCATCTTTTCTCTGTCAGCTTTCCTTGTTAT
TAGCAGTATTATAAATAGAATAAAGAAATGCCGTGAATGATTATTTCACATTGAATTCCCTGGAATGGCCAGAACACACGTAGTGTGCGCCAGACACTGA
AGACAGAATATCCTAGTGCTAATTTGGGAAGGTCTAGCAACAAGTATGTTCTTGAATCTTAAAAGTATTTAAATTGTGGCAAGAAAGAATAGTTCCATTT
TTATAATTACATTTTGGCCTTAATTTAGATATGGTTAATTTAATTAGTAATGAATACTAAAACATAATAGCATGTTTTATAACTTATTTTCATTAATGAA
TATAATTTTACATTTTTTGTTTTGTTTTTCTTCAGAGTTATTTTAAATTGACGGTAAGCTTGAAATTTAAGAAATCTTCAAATAGCTTTTAATATCTGAC
TGYAGTGTTTTTCTTCTTCTTTTTTTGAATGAGATCATTTGTTCCCAAACTCAATTGATTATTAGAGTTCTTTTTAATAAAATTAAAGCAATAATGCTTG
GCTTTACTCTAAACAAACAAAAAGAATTAACCCAGGAACCTCTGTAGCAAGGTGAGCAGTGCCCTACCCCCAGCCCCACAGTCCACCTGATGGTGTTGAG
GCCGCCACCAGGCCACCGTGGTCCCTAGCGAAGCTTCCATCCATTGGCACCTCACACACTCATCTGCACATTGGTTTTTGTTTAGCTTCCATGTAAATGG
GATAAAACAATTCCTTTTTCCCTACCAAGTGTTAAAAAAAAAAGAGGTTAGTTTATCTCAAAATAAAGAAATTGATGACAACCARTGCTGTGTTTTCCCT
AATACGACTACATACTTTTTAACCTACCACAGTCCTGGCAGAAACATTGCTAACCTGTAGAAGGTTTATTCAGGATGCTGGTACTTTGTCTTACAGTGGT
TATGTTCCTGACATTCTGCACTCTGCACTCTTGTTGAACTGTTTCCCATTGTAATTATAAGATCTCATGGGAAATTTACTGGAGTAGAATTTAAGAAATT
CTATTTTTTAACACTACAAAGTTGTTTATGATATATATTACAGTTAATGTCTTTTTAAAAATAAAGTCTTGAAATCAAGGCTTGGCTTTTAAGACGAGAT
TTTCTTTTTTGTGTGTGTCTATCCTGACGATCATCTTCTTATTGTCAGTCTACCCTGACTATCACTCAGGGAGTAGGTAGAATTTGTAACCCAGCAACGC
TGTCTGCTTCTAACAATATCCCAAAAACCTGATTATGGTAGTAGAAACAGAAGAATCAAGTCAGTAACAGTAATTCCAAACCAGTGACAGCAAGGAAATG
CTAAAGAAAGTAAGGGGCTGGATGAACACCTAGGCTAGAGATTCTGGTGAATATAAACTAATTTCCTAGCCACTCAGAGAAATAAATGTAGGAAGGGTTA
TAAGGTGTGGTACTAAGCTGGAAGAAACAACACATCTTTATATCTTGCATGATTTGTTCAAACTTAATGTAAGCAGCAGGTTTCCTTTGTTGAGGATTTT
TCGGTTGATATGACAAGGATACTTCTAAGTGACTGTTAGACAGYGGTATTAGTTCCCATACAGAGAGTATGTTGGAATAATCAGTGCTTGCATTTGAATC
TGCGACTCTACCAGGTGGGATGAAAGGGCAGCTGGAAATTCAGGCACAACGGAGGGAAGTTCTTTTTCAGGGTCCTTCTGTTTGTGTATTGAAAAAAAAA
TCTAAAACATTTATATTTAGATGAGTCTTACAGTCTCAAAAGCCCATTTTTACAATAGCAGACAAGTCTCTCCGAACAACCTGTCCCCCCACACCCTCCG
TGCACACAGGTCTGACTCACCTCTGGTTCCCTGCTATTCTTCAGACACCAGAAGATTCCTTCGCTCTTGCTGTCGCCTCTGCCTAAGACCCYCCATTCCT
TAGGCACTTACGGGACTCACTCATAGACCTCCTCCAGCGTGGCTGCCCTGAGCACCCTATGTGGAATGACTACGCCTCCAGCTCATCCGCCCTCCTGCCC
TGTCCTGTTACATTTCCCTCTATTGTCCAGATCCGCTTGTTTCTGCCTTTTTAAAAAATTATTGTTGGTTCACCCCCCCGCCTCCCATTAGAATGGAAGA
TCCATGAACGCAGGGTGATTTTGGGGGAGGGTCTGTTTTGCTCATTGCTATATCGCTGTGGTTTTTAATGAATTCATGACYGGTAAATAAATGACTGTAA
AAGCCCCATGCCTAGGAAAAAAGATCAGAAAGAAATAAACCAAAATGTTAACGTGATTGTGATCTTTTTTCTTTGTTTTTTAAAAAATATTTTCCAAATT
TTATTTGATGAGCCTGTATTACTTTATCCTCCCCCCCCCCATGAAATCAATATAATACATATTTGTGGAAGAAAATTTGAAAAACACAGAGAAGAAAATG
TAAATGGTCCTCACTCTGTTTCCATCTTAGGGATGTGTGTGTATGTATATCGTGCTCTTCCTCCTATGTTACTTTTAATATGTAAACGAAACTAGAATAC
AGCTGTGCACCAAGTGTGCCATTGAGTTACCAAGCCAGCCACAGATGTGAGTGGTGTGCGCTGCAGGCAGGTGGTGGCTTTCAGGGAGCAGGGCTCCATG
GAGCTGCTGGAGGCTTCCACTCCCTGCTGGGTTCCTCCTCCAGCATTGCCAACAAACTCCGGCTGCCACCCGCTCCCCTCCCCYGGGCACACTTGAGACT
CCTGTGGGGCTATTCTCAGTTCCACTTGCTTTTATATATACGTATATATATAAATTTTTTTCTCCCTGTGTCTTTTCCACTAGATGTCCCTATGGGTAGG
GACTGAGACTTTTCATGCCATTTTCCAAGTGCCTCGCTTAGGGCCTGGCATAGTATGGCACTCAGTATTGTAGAAGGGAAGTTAGCTGGCAGTGTGGGAG
GCAGGAAGCGGCACGTGGAGCTGGGCGAGGAGGAGGTGGAAGGACCCTGTCCTTGCTTGACATCGGGTGGCTGCCCCTGGACCAGCCCTGGCCTTCCCAA
CCCCTCCTCTCCTAGTCTGGGCTTCAAGTCAGACCTGGTCAGCGTCTGCAGATTTCTGGGCGTAGGTGGTAATTTCCTGGGGCTCCTGCCAGAAGGCCCT
TGCTGAGCAGTGGGGTCCTTACAGCCTTGGAAGGCCCCTCTGCAGGCCCACCCTGGGAGGGCTCTGCTCTGAGAGAGTCCTCTAGAAACCTGGCTTCAGG
CAAGGGAGGGGCGAGGCCTGTGCTTCCGCCTGCACTTCTTTGCACTGAGACACACTTGATACCGTCCTAGAGGAAGTGTTTGGCAGTGCCACACAAAGAA
GTTAGACACTCAGCCTCCAAACATTCTGACCCTTGCTGAGAAAGGGCTGCAGACCGGGGCAGGATCCCAGCCTGTTTGCCTGTCCGGGTTGCTGTGGACA
TGTTAAACTATTTCTTGAGCTTGACGTTTGCTGAGAGTGGGAAATATCTGTAAAATACCCTTAAACACCCATAATCCTTTCTCCACAATCTCCCTAAATT
TTCTCTTCCTTCCTCTAACCTCCCTCCTGTTTGTGCTGCTGGCAGGTCCCTGTGTACCTGTACTGCCAGCACCCTGGGAGTGCCTGGACTCCCTCCTGGG
AGTTCATGATATGGGCAGCTTCTCATTCCACTTTGTTGTCAAGGTGATGTTTTGGGGTCAGAAAAGTACATCCGATGTTGGGCAGGAACTTCATGGAGTT
GATTTTCATTCAATTGAAGTGTTTAAAATGTTCTGCGAGTGAAATGTTCTAGAATACTTGGCTTCATTTATTTCTCATTGCTGCATATTTATCACTGGTC
TTTGCAGATCAGAAGCATGAAGGAAATTTAGACATATGGTTAATAAACCATATTTATTCTTGGGATATTGAGTTTAAAGATTAGTGTTACATGGCCTTCC
ATCCCAAAATGCCATTCCCTAGACTCAGAAGTCATCTTTTGAATCCAAGCTATTGATACCTTATTAGCAAGGAGCACTTGTAGCTGCTGTGAATCTTTGA
TTCTCCAGGATAAAATGAGTAGGTCAAAAAGTAATCAGTGACCATCGACAGACAACCTAAGAGATTGGGCGCTGCTCTAAAAGACAGGACTCTGAGAAGG
AGGTTTTAATAGAAGCTGGGGACCCTTTCCTTTCCCCTGSGGGTTCATGCATCACGTGAATATTCTCAAAGACCACTTCAGGTTTTAGGTTCTGTGTGCT
GAGCACTCGGGACACAGAGATCAACAAGGGGCTCCAGCTTCCAAGTGTGACCGACGGGGAGGCAGGTGCACAGATAAYGTGACTTGGGCTGGAGCGCATA
AGGACTGGGCTGTGGGAGTGCACAGGAGGGCAGGGTAAGGAGGGGCTTCCCTGAGAAGCCAGGCCACAACAGGAGTAGAAGGTAGTGTCAGGCAGGAGGG
AACTGGGATGGCAGGTGGGTGGCAGTTCCTGAAGCTGGAGGGAAGCGTGAGCCGCCTCCTTATTCGGCCGTGCTCAGGAACTTGGGGTTTATTCCGAAGG
CAGAGCGGAATCATAGGAAGATTTTGAACAGGAGAGTGACATCGTACAATTAGCAACTCCAGARGGACAGTATTGGATTTTGAGACTAGGTTCCAAGAGT
TGGAAGGTTTTTGCAAATAACAAGCTAGGTGAGAAGGAATAAGGACTATAGCCATGCAGAGGAATGAGGAAGAAAGTCCAAACAGTATTTACAAGATGAA
ATGCTGACCAGGTGAGACGCGAGGGTTTCCTTGTAACTTGTGTGCTGAGGCCATGACATTGGCTGACCTTCACTAAGACRGGGGAGCTTAGAAGGAGACG
CAGGTTTGGGGTATAATGAGAGGATTTTCTATATTTATTTGTAATGGACTTAGAAACTCTCACATTGTATTTCTCAGCAGAAAGAGAGGGCATAAAAAAC
AGCAGTTATTTTATTTTGCCTTTGCRTGCTTGAAAGTTTTAATTTCTTTAATTCAGAGCATATATCCATAATTCAGAAATAGAGCTTTTCTTTTCCCTGA
TTCTTTATCCAATGGAACACCCACTTGGATTTCTTAATGGCCAAACATTAGATAAAGATAATACTTGCAAATGAATGAGAATAGTGCAGATCGTCAGTGA
ACAGAAAGGAGGCTTAGGTGCACCTGTGGGAGGCGTGGCCTGTGGGCTCACTGCCCTCACTGCCACCAGGGAGGCCCAGAGGCGATTATGTTTTGTTGAG
TCCAGCAAGTGACAATCTATATAGTCTCTTTATCTAACTGTGCTTCCTTTATTTCAGGTATGTAATTTTCCATAATCATCTCTGATATAACTAGAGTTAA
CCTCAGTGCTCAAGCAGTTCTTTGCCCCATTTTCCAAAGCATTCAGATGCCACCTTTTGAGTACCTTGGGATCCCCTTTTTCCTCTGATTGCCARAAACA
AGCTTRTAGATTAAGTGAGATGTGCGTGTGTTTGCCTCACCATCATTTCCTTCCTCCTCCCCGGGCTAGATCACTACTGGTTACAACCTGGAAGATGACC
GCTGTGAGTGTGTGGCTCTGCAGGATTTTCGGGCTGGAGAGCAGGTGGGTCTYGTGGCATCTMACAAAATGTGAGCCAGCCAGTGGGCACTAACGTTAAC
ACCGTGTTGGTAATCTTAAAAAGGAACTTAACTTAGGGGAAAAAATGTGGAATTCACATTGAGGATTGTTTTTCTGGAACACATCTTGAGACCAGAACCC
GTAGTACACATATTCACTTGTGCTTTACTCACTTGTGCTTTGCATTGTGCTTTGGGTCCACAGAGAAAAAGATTTAAACACAGTTAGTTGCACAATTGGC
CTAATATTTGTAAATATTTGTAACACTCTTAACTGAAAATAAAGTGTGTTATGACACTAAACAATGTTTAACATTTCATAAACTGTTGCCTTTATTTTTT
CTACTGATTAGAACTTTATAAGAGTATTTAAGGGGCAAAAGCAAGGGAATCTGTTGTCTTATACTTTCATTTTAATCTCTGATTTTTTAATCTAGTAGTT
TGGGTGGGAGGAGGGGTAAGCCTTTGGGTGAGTTTGAAAATACGTGTCTATAAATTCCTACATTCTATCAGTCTACACCCAAGCAGACAGTACAGTCATG
GAACTCACATCCATAATTGACATTCCAGTTGAGACAAAATGAAAAATACTTGCCTAGCAAAGTACTGATCTGTTCCTTCTTCAGAAAAGTTTATAAACCC
ACCTGCCAGGTGCAGGATTAATTGCCAGAGGATCTAGAAATAAGTTTCTGACAGATACTGCTTTACAGTTCCAGAAGAGACCCTGCTGTATTAAAAGGAC
AGGAAGAACTTGGTGAATTTTAAAATACAGTCTTATAGTAATAGCCTTGCTGTCCTTTGGAAGGAGAAGAGGTTTATAATAGAGGCCTGGTGACCCCAGG
TCACCTGGGGTCCTTTGAGTACTAGTAAGGCCTTTGGTGGTACTTTCTCCTGGCCTCCCCTCTCCTCTCCACACGGTGGTGGAAGTGGGTGCTTGGTCTC
AGACAGTTTGGAAAGTTGGGAAAATTGCACAGCTTCACCCTTGCAACCTATACCAAACAGGTGTATCAATACTTTCAGCTATTTMGTGTCTAAATGTAAA
GTAGCACTAAGCCTCTGCCCTGCCCTGTGTTAAGAATACATGCCAAGYTTGTCTAATGCCCTTTTCTTTTTTCTTTACTGCATCTCAGATTTACATTTTT
TATGGCACTCGATCCAACGCAGAGTTTGTGATCCACAGTGGTTTTTTCTTTGACAATAACTCACACGACAGAGTGAAAATAAAGCTTGGAGTGAGTAARA
GTGACAGACTCTACGCCATGAAGGCCGAGGTCTTGGCTCGTGCCGGCATCCCCACGTACGTAGAAAAACATCGGTTGGCCCTTTCTTGCAGTACTTGAAC
TATTTCCAGTTGCATAGTGTTTAATTGGTGTGTTAATAAAACTTCTCTCCAGTAGTTTGTCTTAATCCGTTTATCCCCGTGGCACAGCAAATTTAAGCCA
TGGCGACGCTTGGTGGCTTACCAGCGTTTTCAGGTAAACATAATTGTGTCGTTGGGCGCATTCACAGTCAGTTCTGGGGGATATGGCCTGAAATCCTCAT
TAAGTTAAATAACTACTTTCGTATCATTCATGTCTTTCACCTTGAAAAGGTTAATGGCCTGGATCAATTTGTTTCATTTAATTCGTTGCTACCATTAGTT
TCTGTAATGAAGTCATGATCCTCAGTGATTTCAAGAATTTCTAGTTAAGTTCTTTAAGATTTTCTTGCATTTGAGGCATAAAATGATAAAGAAGACAGGA
ATTAGGATTCATTAGTTCTCCAGGGAATAGAGGAACCATTCTTAATGAAAATRGATTATGCAGACCTTTTTTTTATTGAACTTGTCAATATTTGATTAAT
GATTAAAGTGTGAACTCAACATAAATTATKAACACTTTTTAAAAACCATGTGTATGTTTAATTTTTGAATGTATTATGTGCAACCTRAGATTACAGCTGT
TAGGCTCTAGGAAAAGCTTGTGAGGATGGTCTCCAATTCTGGATGTCCGCTTGCCTCCGCCCCAGCCTGCGGCCTTTTGCAGGGGCTGAAAATCGTGCTC
ACAGTTGAGATGAGGAGCTGGAATGACCCATTCCAGCTCAGCTCTCCTTGAGGACAACCACACGTGCTGTAGACTTAAGGAATCTCAGTTTGGAGCAAGT
GGGTAACCGCAGCAGGGTGACTGATCTTGCTTTCTGCTTTTATCAGTTCCAGTGTTTTTGCATTGCATTTTACCGAGCCGCCCATCTCTGCTCAGCTTTT
GGCTTTTCTCCGAGTATTCTGYATGACTGAAGGTAAGTCATTTCAGGAAAAAAGAGAWGTTGACTTTTTTCTTTTTAAATCATGAAAGTGTAAAGCATAG
GGATTCAGATTAAAGGTAAAGTGGATTAAAACTACAGTACTTTTGGGAAGAGAGAAGATRCAATACTGGAGAAAGAAGAAATAGATTTGTTTTACCCTAG
AAATGTTTTATTAAATCCTCGATGTGTTGTCAGTATTAATTTGTAATACGCAAATAATTCTCAACTGCATTTGAAGAAAACTTAAAACATCTTGGATAGG
GTAAATATATCAAAATTCTACATTTGTAGCCTGACAGAGCCTCATTTCACTCACGGGGCACTAGTCTTTTTCACTTACATAGAGCAGTTCAGGATCAGTT
GATGCTGTGATGTTGTGTAGTCAGCTGTGGCATACGTGGACCGTAGGACTTTATTTGTTAACCTACTCTGCATTCTAAATCTGAAATTGCCAGCAAGCAT
TTTAATGCCAAGCATCCTGTTAGAGTAAATAACATTGCAAACAGAATCTGTGTAGAACACAAAATGTTCCTGGCTACAGCCTCTTATTTCATGCCCAGAA
AGAGTTAAGTATTTGTATTGAGCATCTACTTTTATATTAGCTTAAAACAAGTCATTTGGGGTTTCTTATGCTGAGATTTGACCTCTCGTGGTTGTGTTTT
TATTTTTCATCCTAAAATGTATCTTACAAATTTCCTGGCCCTGAGGTTTCATTTTTAAGAGAGAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGWGTGTGW
GTGTGTGTGTGTGTGTGTATGTTTTGCTGTTGTTAACTACCTTAAATCCTGTACAGAACAGTCTGAGTAGGAATGAGTAAATGAGTGTTTGAGTGAGTGA
ACAGACGAACAAGTGTTCTGGAAGGAAGCTGCCCAAGCACTTCCTTGGTCGGAGGAAGCAGTCATGGCCCATGTGGGGGAAGCTGCTGTGCTCGGCGGTC
ACTGGCTTTGGTTTTAATGTCTGGATCCAGGGAGCAGTGCAGCACAAGTCCAGGGYTTGACGTCATGCTGGAGGCAGAAAAAACCTAGTCCCGAAACAGG
AGAGGCAGTTCACACACCAACCGCAGAACCCAAACTGAGATACAGTCATTGTTCCTCATAAGCAACCCTGTCGCTAGATTTACGGTTATTCAAGTGGGAG
CTTTTGGTGCTTTTTGTACTTGGGTAATGGTTCATCAATTCAATGTAATGAACACGAGTTAAGGGGTTAACTGTGAGCTTTTCTTGCATATATATGGATA
CAGAATTGAATGTTGCAGTTCATGTACTCAAGGCATTTATAATTAAGAGAGGTGATGGTGATGATATTCCTTGAATTTGTGAAGCATTCACTGTGCGCCA
GGCATGATGCTACATTTGGTACATGCTCAGTTTTAATCCCATCAGCCTTGATTGGGAAGTGCTCCCATTTTACTGATGTAGATTCCACTTCAAAGAGGGT
AAGTATTAGCTGGGCGTGGTAGCACGTGCCTCTAGTCCCAGCTACTCGGGAGGCTGAGGTAGGAGGATTGTTTGAGCCTGGGAGGTGAAGGCTACAGTAA
GCCAACCCCAGCCTGGGTGACAGAGTGAGACCCAGGTGGGTGGGGAGTGGGGGAAGAGTATAAAGTTGGCTGGATGCTGTGGCTCATGCCTGTAATCCCA
GCACTTTGGGAAGTTGGAGGATTGATTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCCGTGATCTTGCTACTGCACCCTAGCCTGGCCAACAGAGCAAGAC
CCTGTCTAAAACAAACAAACAAACGAACAAACTAACAAAAAACCCAAAGAGGATAAGTAACTTGGCCGAGGTTGCTCAGTAAGCAAGTGATGACCCTGAC
TTAGAACCCACCTCTGTTAACTCCGGAGCCCACGTGCAGGACATCCCACATTGCTCCTGCTGGTTCACAGATAACATAGTACATGGAAAAAAGTCTTAGT
GCTCTAGGGGTCTGGAGGAAATGGCATTCAAGTTAAACTGTGGAGCTCAGCGACTGTTTGGACAAGGTAGAGCAGGAGGGGAGGGGTATGACTGAAGACC
TTTAGCATAGGGAGGAGCTTGAGCAGGAGCTAGGGAGAGAGGGTGGAGGGCACTGGGCTCTGTACCCTCYGGGGTGAGCACACACTGTGGTGGCCAGAAT
GAGGTGCAGGGATAATTTGCAGGCCCTGTTTGCTGGAGGAAAGCTCAGGAGGGCACCTGCTGCAGGAGCTCCTGGCCTGCAGGCAGGCCACATGCTACAT
TGTCTTACTCCCCTTTTTGTAGGCTTTATTTCTCCAGAAATGTGAAATGAGTCCAGTTTCACTTTTAAAAAGTAGCGGAGAGAAAGCTCTGCCGCACACC
TGCAGCTTCCATCATTGCAGAGTGCAACTTGGGCAGATTGAGGAAGGAGATGAGGGAAGGAAACAGTAACCTTCATACTGGGGGCCTTTGAAAAGAACTT
TCAGCCACTAAGAAAGCTTAAAAAAACAGAACGTCCATGTTGTATGCAAAGAATATAAAATGACTCAAAACTAAAAATCCTGAATTTTATCATGATCTTT
ACTAACAAATAAAAGTTAATAAACTTTTTTGAACATTAGATAGCTTGTTTTCTTAAAACTGCTTGAATCCTTTTAGGTCTGTTGATTCTCTTTAGTTCCT
CTCTAGTCATAGACAATTTGTCATGTCAAGACAATTGCTGTATCTTTGAATTACTCTAACTAATACTAATAAAAGTTTGGTTTGCTGGCAGCCGCAGTTC
TTCAGTTTGAATCGTAAATAGTGACAGCTGTGGGGCATTTTGCTCTGAAAGAGACACTGTCTCCTAATCACATAAGAAGCATGGGTCTGTTTCTTCAGCA
TGAATAGGATCGGCTTGTTTTGGTTTTGGAGATAATGTGCCGGGAGATAAAATGCTAAGAGCAGTTGCTGAATTCTTTCCTCTTCTTAAATATATTTGGA
GATAATTGAGATGTTCACTTGTGTGTATTTGTAATTCCTATTTAAATTCCTGACAAGTAAGAGAGATGGGCATATTTTTCATTAACTGAGAATTTTTTTT
TTTTTTTTTTGAGACAGGGTCTCACTTGGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCACAGCTCACTGCAGTCTCCACCTCCTGGGTTCAAGTCATCC
ATGCACCTCAGCCTCTTGAGTAGCTGGGACTACAGGCATGTGCCACCATACCTGGCTAATTTTGTATTTTTTGTAGAGATGGGGTTTCGCCACATTGCCC
AGGTTGGTCTCAAACGCCTGGGCTCAAGTGATCCACCTGCCTTGGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCCATTAACTA
AGATTTTGATAGTGCTCCTTATGGTAGCACTGTTTGATTTAGGCTCTTATTTCTTTCAGTTTGTGGCTTGTTACGAACGTGGCTTAAATAGCTTGGTCAG
GTCATCTACTAGAATAAGTGCCAATCAGATTTACAGTTATGGGCTTGCGGGATTGTTGTGGCTCTTGTTCCTTTCACCGTTTACATCGTTCACCTAAATG
TCTTTTTTGACTTGGTGTGATGGAGCTCATGGCTAGCAAAAGGGGTATTGTCAAAATAAGGGGGTACATGGCTGTAGATTGTCTTTAAAAAGTATCTTGT
GAAACTGTCTAAAGGCTCTCAGTGTCCCTCAYAGAAACAGTGAAAAMTGGAGTGCTACCAAGGCTTGATCAGGATTCCACATGGAGAGGCCTGACCTGGT
GTTGCTCCCCAAAACTTAGCTCTGCTCTACTTTGGAGAGTCTAGGAGTGGCCTGGCSCATTGCRTAGGGACAGCTTTTACCGTGGGAAAATGGCGTTGTT
GGAAACAATATTTTCTAAGGTAGATTGCTTGTTCAAATGAGGAGTGCTATGTTTTCCTCCTAACAGATTGCCATTTGTATTTCTTGTAGAAGAACTGAAA
GAACACTTGCTGGGAGACAGCGCTATTGATAGAATCTTCACCTTGGGGAACTCGGAATTTCCTGTTAGCTGGGACAACGAGGTCAAACTTTGGACATTTC
TTGAAGATAGAGCCTCACTTCTTTTAAAAACATATAAAACAACTATTGAGGTAATTACACTAAATAAATGAGGTTTTGAACTTGTTGTGTTGTTAAGATG
TTTAATGAGGCTTGGTGCGGTGGCTCACGCCTGTWATCCCAGCACTTTGGGAGGTCGAGGCGGGGCGGATCACGAGGTCAGAAATTCAAGACCAGCCTGG
CCAACATGGTGAAACCCCGTCTCTACTAAAAATACAGAAATTAGCTGGGTGTGGTCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTG
AACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATCTCGACACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAA
AAATTTTAATGAAAGATTTCTTGTTAATTCTAAACTACTGTAATAGTTTAGCAAAATGATTGCATTTGAAATTTTCCATTCATTTCCCAAAAAATCATAT
TTAGGCATTGTTTATTAGAAGATACATTTTTAAGATTATTCAATACTTTTTTATAATTTATAATTCACGTGATTTCACAAACATGTTTTCATTTGTGCTT
TTTAAGTTCACTACTGAGCCACTAACTTCAAATACATCTTTCTCATTTATTCGTTCCTTCACTGATGCCATTCACCCACGTGCTGCCCTGGGGCTATCAG
TGCCCAAGATAGACAGGATGATTTTTAAATCAGTGAAGTTCCCTGGCAGATGGGGTAGCACTGTTTGATTTAGGCTGTTCTTTCTTGTTTTGTAACATTT
CCATTGAGRTATAATTTACATACAATGAAAGGCATACTTCTGARGCGTACGTTTTGATGTGAGTGTCTGGTCATGCGACCACCTGCCCAGTCAAGTGTTA
GAACCTCCCGTCACCCCAAAAAGTTCCCTCATGTCCCCATCCCCAGCCRTTGTGCCCTCTGTCTCTATAGTTTTGCTGGTTTAGACTTCTTGTAATTAAT
TTTGCTCTTGTTTTCCAGGAAGATAAATCCGTCTTGAAAAACCACGATCTTTCTGTTCGTGCAAAAATGGCCATCAAATTGCGCTTAGGTGAGAAAGAGA
TTTTGGAAAAAGCAGTAAAGAGTGCAGCTGTCAACCGGGAATACTATCGCCAACAGATGGAGGAAAAGGCTCCGCTTCCCAAATATGAAGAGAGTAACCT
TGGGCTGTTGGAGAGCAGCGTGGGGGACTCGAGGCTCCCCCTGGTCTTGAGAAACCTCGAGGAGGAGGCTGGAGTGCAGGATGCCTTGAACATCAGAGAG
GCAATCAGCAAAGCAAAGGCCACAGAAAACGGGCTTGTAAACGGTGAAAACTCTATCCCTAATGGGACCAGGTCCGAAAATGAAAGTCTCAATCAAGAAA
GTAAAAGAGCAGTTGAAGACGCCAAAGGATCTTCTTCAGACAGCACTGCTGGAGTTAAGGAGTAGCTCGAGGTGAAGCTGGATGGGGGATCCAGTGGAGC
AGGAGTTGACRGACAGTCCGTTCACATCGCTGTGTTTCCTTGTTAACATTTTTCTTTCTGCAGAGAGGAAGATATGTTTTTGCTGCTTTATATAAAAATG
GTTTTTTTAAGTTATTTTAAAAATCTAGCTTCCCTTTTTGATTAAGATTGCCATCTTGCTTTTAGGCAAAACAAACCAATTAACAAACAACCACAAGAAA
GGGAGAAGAGGTGCCTGTGGGAGATTTTGCAGACCTATTGTGGGTATAGGTATTTTCTTCCTGGGGAAGAATTCAGTTCCCGTCTCAGCTGTACTTTTGT
GGGCCTGTCATCTTGATGACCAGAATGAAAGCTTGCTCTGCCTCCTGCCAGCCAGAATTGGTGGCGGGACTTGGGGATACAGCGTGAAGGTGGGGAAGTT
GCACAGCAGAAAACAGAATTGAAGTTGGGAAACTCTAGAGTCTGGGCAAAATGTTTGGTTTTTTCTCTTAAAAAAAATAACACCCCATTACCAAAAGAAA
AGGTAAGGTGGCAACCTTATTTTTAATAGTTTGAAATGATGATAATCCTAATTATATAAAAATATATATATAAACACACATATATATAGTGATTTCTAAA
GATTTGTTTACTTTTGTGTTTTGTTTTACTGTACTAAGAACTTGTCCTTTCTCCTTGAATCAAAGTAGGACATGCATCATCCTCCTAATTTTAAATGTTG
GCTCTGATTTTAAAGTGGTGCATTTGATTCCAGCCTTGGTAATGGAGAGTTTGCAAACACACAGCGGCCCACAGCTTCACGTGKTGGTGTGCAGTGTGAG
GCAGCTCCTTGGCTTTCCTGGTTTTCACAACAAGCTAGAGATTTTCAAAGCTACACTTTTGAGTAAAAACCCTTATTAAAAGAAAAACATGATTAATATT
TTTGTCTATTCCTTTTTTTGGAGTGGGACAGGCCCTGTGAGTTTAGCTTTTACACAATCCATCTTACTGCCCAAGCATTGTTGGAACCTTGACCTCCTGC
CCTGGGCTGTGCTAACCTGGGGGCTACTGAGACATAGCCGTGGGGCCCAGAGGACTGTAGGAGCCCCCCTCATCAGCGTGCCCATCTATGCAGGCAGCGG
GAACTCAAGAAAAGGAGTCCTTAGGATTTAGGGGAAGGAAAAGGTTGGGACCATGTCCTTGGGGTGGGAGAGGGATCTGTCTCCTTCTGCCACCAGTTTT
CAGGTTTACTGATACCAGTTTTTCTTTACCACAAATTTTCACATTGTCTCTGATGTCCTAAGTACACCGCTGATTTTGAAAACGTGAATTATTCCCCCAA
GTGTTTGATAAATGCTGCTGCAACACAGGTCGTCTTAAGGATGCTCTGGGAGTTTCTCTTGGGGAAGACATAGCTCTGCAGATCAATTGCCTAATCCCCC
CTGACAGTTGAGATAAATTTAACTCTTTAAGGCGTTGCTTGCGTTGCTCAGCAGGTTAGTTTACCTGCTGCACTGGGCGCTGGAGGCAAGCTTCATGTCT
GCGTGAGGCTGGGACATTTCCTGGCGTTGACGCCTGTACCTTTCCTRGCTTGTTGATGTATACCAGGAGGAAGCATGTGATTGCCACCTCTCGTATCAGC
TTTACACCTGARATACCTTACCAAAAATATTAAATAGTCTGTAAAGCTTAGTGTTAATTTCTAAAAGGCAATAGCATTGTAGTRCTTGAGTTTCCGACTC
TAGAAGCCCCAGAGCCTTCTAGAACTTTGATGACCAATTTGTCCATAGAATTATCTTCTTATAGGATTAAAAGTTTCCAAGCCTAATAATAAAAAATCTT
TTTTGAAAACATATATACAGTTCAAACATAAAATAACATCATGAGACAGCTGGGTTTTCAAACTATTCCCCGGCAAAGTTCGAGTTCCCGTGGAGCTGGG
ATAGCGCCAGACTGGRGTCGGGATCCCAAGCTCCTGTTCCGGCGCCACCTTTAATGGGTGTTGTGATGTCGGTTCCTGGGACCCAGTTTCTTCATTTACT
TGTGAAAAGAATGGTACTAAATTGTCCAAAGTCCCTGCTTAAAAATTTAGCAGCTGTTTTTTCTGTCATTTCTCCATTGACAGACTTGGTCRTTAAGGTT
ATTGGATCAAAAAGAGATGAAGTATGCTTCCAGTTGAGAACAGCCTCTGCATGACATAAAAATGGCGCCCACAAGAACGGAACTGTTTTGATGTCAGAAG
ACAGTATCTATTGAACAGCATTACTTTCCTGAGTTGGGTAGGATTGCCCTAAAATGACTCGCAAAGGCAGGCGAGACCACAGCACACATTAGTCATCCTC
GTTGCCCCGCTGCGGTTCGGCAGCTCTAGTGCTGCCTGCACAGACACTTGGAGCTACAACTTAAGCATTTGAAAATTGAGGGAAAGTGATTAAATTGGCA
TTGAAGAACCCTCATTGCCGTCTGTCATGAAAATAGACCTTTCTCTCAAATCATTTTAAAGTTTACTTTCTTCTGAATGCTTTTGGATAAGAGGCTGTTC
AGGCTAGTTACTGGAAACATGCCAGGCTCTGCTTCTGTTTCATTAGCTCTGTGTGTTATTTGTGTAAATAGTTAGCAATTAGATTTCACCGGCCTAGAAA
AACCTCCCTGTTTTTCATGTAAACTGGCAATTGATAGGTGGTTTTTCCCCAGTAGTTTCTAGAAGAGGCTCACTAAGAGATGTCTGTAATTTTTTTTTTT
TTGAGAGATGGGGTAAGACATTAAAAATAGTCCCAGGTTCCCAATATACAGAGTTATGCTAAATTAAACCTCCACTTAAAAATGAGGGAATCAATTTTCT
GTAAATCATCAGTTATATTTTCTTTTTTCTTTTTCTTTAAGACAGAATCTCCCTCTGTCTCCCAGGCAGTGTCTCCCAGGCAGTGTCTCACAGTGCAGTG
GCACTGTGTCAGCTCACTGCAACCTCTATCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAAAGGTGCCCACCACCACAC
CTGGCCAATTTTTTTTATTTTTTAGTCTCACCATGTTGGCCAGACTGGTCCCGATCTCCTGACCTCAGGTGACCCACCTGCCTCTGCCTCCCAAAGTGCT
GGGAATATAGGTGTGAGCCACTGCACCCAGCCACCAGTTATATTTCCTTGGTGATTAATACGTACATTGTAGGAGCAAAAGAATAAAGCCAGTCCAATGA
AAGTGCATGTGACTTGAGCTCAGAACCGAAATGGCACTGACTGTGAAGAAAATAGGGAATGATAGTGGTGGTTGGTTTGGAGGGTACTTTGCGGAGAGCC
CGGATATGACAGTGTTGACGGTAACCCTAGCTGAAATGAGCAGCTGCTTCTGCACCGTGCTCGTGTTATTATTGATCTGGCAAAACAAATGCGTGTAATG
CGGGAGAGCTGCTAACCTGACCCAGGAATTTGACTCATTTTTATTTAAATGTCAATTTGAGGTGGGTGTAGGATAGGATCCAGTAATGTCATTAAGGGTC
ACCCTACTATTTTAATCAGCAGCCCCTTATCTAATATATTCCTAAAATTCTGTGTATAAATTGAATTTGAATAACTTGAATTGTATTTAAATGCACTGGC
AAATTTGTTATTTAAATGAAGCTGCCCTGCTGGTCCTGGGTGTGCTTGGGCTGGAGAGAGGAAGTCTTAGCAGGGACATGATCTTCCTGTCTTCACAGAT
TTGAAGAGCTGTTGCCTGAAGGAGGGGTGAGACTCATTCTGGGTCTGCAAAAGGCACAGCTAGGGCCAGGGGTTGGGTGGCGGAATTCAGCCAAGGGAGG
GAGCACTCCCTAACGCCTGCTGTGAGAGAGCACATGCCTGCTGCTCTGGAGGTGAGCAGGCGCAGCCATCGGGGTGTATGGACCACTCAGACCTGGTTCC
AGGCATGGGATCCTGGGCCAGTTGTTAGGAGCTTCTGTCACCCCCTTCAGGGAGCCTCACACTCTCTACCTCAGCAGTGCCGGGTGCGTTGAAAAGCTGC
GTGCCGCGCCTGTACCTGTTAAACAGCCAGTGAATGCTTGTGATGACCATCTTCTAAGCCGGAGCCACTCCCAGGAAGCAGGAGATGTTCCTGAGACTGG
GGATAGCAAAATCATCCATGCTCTGCCAGCAAGCGGCGTGCGTCATCTGTCCATTGATTTGGGAACCTCAGCCCTGGACCTAGCAACAGTTGTGTTCTTA
GTGGAACACAGATTCTGTGGGTAATTCAGACTCAAGAAGCCCTGCCCTTGAGGCACCGAGGCAGACGTCTGAACGGTAGGCGTGGCAGAGCATACCAGGC
TGTGAACGGGTGGACCCACGTGGCTGGGCTTAGGGCTCTGTTTGTGAGATATGGAGGTGGGGTGAGCCCTTGAGGGTAAGGAGGGAGGCAGGGAAGAACC
AGCCATGAACAGGAGGGGCTGAGAAGTTCAGGCTTCTTGGGGGGAATCCAGCGAAGATGCTGGTCACTGGTTCCTGACTGCAGTGCTGGTGCCCCGGTGC
CTGCAGGGAGAGCACGCGTGCAGTTGTGCCACTCTCGTAATGGATGGACTTCAGGAGGGCGCCTCCCGGTGATTGCTGCTCCCTTCACAGATGCCACCCT
TAGTAGATGCCTTAGAAACAAGGTGAAAGGACTGGGAAGCCCCTGTGTGTGGACTCAGTAGCAGTTTATGGAGGTGGGAACCTTAACTCAGGTCATGACA
CCACTGTCCATCAGCTCTTGGTCTTTATTTAACAGCCTCGTGATACCCTCTCACTTCTGGGCAGCTTTTCTTGGCCCAAATGCAGGCGTATCTGTGTGTG
CACGCACATGTGTGTCACCTATTTCTGTATAAACCTACTTGGTATATATGAGCACATACATACACACATATGAATACATATATATGTGTGTGTATAGAAA
ACTTTCCCCAAACTCATATTCTTCCCCCTTAGGCAACAGAGAAGCTCCTCAACATGGGTTAGGCCAAACTTGACAGGAAAATGAACGTGGAAATGCTGGT
GCTGGTGAGGCCCTGTGTGTCCCCACCTGGCTGTTTGAATTCCTAGAGTCTTGTACAGCACCTGGTGCAGAGTGCGGGCTCTGGGGAGGCTTCCAGACTG
ACCGAACAACCATAACCAAGTGGGAGGCCCGCGTGCCTCCGAAGTCCCAGGGTGGCGTTAAAATCACACTCCTTTCTTCTCTCTCCATTTCCTCGCTCTC
CTCTCTTTGCTTCCTGTTTCTGCCGCTTGTACCTGACTCCTCAAGAGTGTTCTGGTAGAAAAGGATCAAGTTGTGGCTTGAACCTCAACCATTCTTCTCC
ATTTTAATGAGGTTCCGGAGGAGCTCCTTGTAGGATCCCAGAGTCAGTTTAAAGTCCTAGGAAGGCACCTGGAGGATGCGTGAGGGTGAGCTCCCCCTGC
CGGCTGTGCCTCTTTCTGCAGGGTGTGCAGAGCTTCCCACCCTCACACTCCACCCGTCATTCATGCAAAACTTACTCTTCAAGAAGGAACCAATGAGCAG
ATTCTCCCCTCAGTGTCTAGTCCATGAAGAGTGTTTGCACTTTAGCCCATACACAAAATTTTAGCCCAGAGAAGCAGCTCATCCCAAACATGGGCTTTGA
AATCTGCAGAACCTGAAGTATAATCCGGACCCCCTACCTTCCCCTATCATCTGTGACCCCCGCGCAAGTTTCTTGATGCGCAGGGTGTTGGTTTTCTCAT
CTGCAAAATGGAATAACCCCAGGAGGTTGCTGCAGTAATAGATGTAAATCTGGCACAGTGCCTGGGACACAGTAGCTATCCAATGGTTGGTTCCCACTGT
GACTGGCTGAGCGATGTCAGTCAGCCCAAGATCTGGACTAATGGCAGACTGGAGGCACATTCTGAGTTGCGGGGGTTTCTGTGGGTGGTGAAATATTCCC
CTCAGCCGTGTGGCTTCAACATGTGGACCTCCTGTCCATACCCAACTGTCACATTCTCCGTGCCTTTCCCAGACTTGGCACGTATCTCAAACGGAAAATA
TTTGGTGACTTACTTTATACATACATATATATATTTCATTATGAGCTACCATCCAGCAAGCACCTGTGAATTTCTTGGCTTTAAGTTTTCAAGCAACTCT
AAACAAACCCTCCCCTAAATGCATCTGCAAATGACAACTTATTGAGCAGCAAGAGATGGCAGTTACGATTGTGTGCCACCCCAACCAGCCTAGTTTTGGA
AATAATAACCCTAGCTGGCACCAGGAAATAATACGCTAGCACCGGAAGATGTTGTCAGGTGAATCCTGAAATGCGTCTAGAAAAACAGTTCTTGCTTTCT
CATACAAAAATTAAAATGTTTGTTTTATTTTGGTCATCGACAATTGTCAAAACAACTAGCATTGGGCTAATGTTATCTAATATAAGTGTTGACACCATTA
AGGCTGCAGTATAATTAGTCAGGAAATGTAGTCATAACACTCCTTGGATTTTCAAAGGACCAGAATGGGTGTTTTTGAAAAGTTGTATCGGGGGAAAAAG
GAAAAAGGAATTGTATTTCCTGCTCTGTGCTTGCGTGATGAGTATCAGCCTAGATCAGACTCAGGGTGGTTAATAACCTCCTTCCCTTCTTACAGCCCTG
CTCTTAAAAAGCAGGTGCTACGACAGAAACCCCGACACACTGCAGGCTGTCACCAAGGTGGTGCTTTACATAAAAGCGCTTTACAGTGTTATTTTGCAAG
ACTTGAGCCCTGAGTGGATACTGAGTGTGGAGCAGCCTGGTTTTGTACATTTTTGCCACATGTTGAGATGCCATGGGAGCTGGTGACTCACGCGCCACTG
ACGTTCACAAAAGCTCCCGGCTCGGAGCAGAGCATTGAAGGGAAGGGTCTGGCTGCTTGGCGTATGTTAACCAGGCTGGGTACTGAGCGTCTTAAAAGCC
AAGCCACGTTTGCCTTTCAACTTTACTTTGTGGTGACGAAAGAGGAGGTCTCTTTCTTCAGGGGCTTACTCAGCGCTGCTGGATCTGAAGATGCCCGGGA
GGAGGGTGAGGGGTGAAAAGGGCATCCTAAGGCAGGATGGGACACAGCGGCCTCTCCAGCTTAACTCAGTATTCTCTGAGGCACAGAATACTGGAGATCT
GAGACCCCTGAGGTGCAAGCCCTCCCCTCAAGGATCTAAGCAGGCGGTGGGCTGCCGCTGGCTTCTCCCCACAGCTGGTGGGGGGCAGAAGCCCTGTTCC
ACAGGCGACAAGTGTGGGTCCCAGCCATCATGTTTAGCCAATGGTCTTGTCCGTGTTTTCTCCCCAAAAACGCTTTGAGTTAGTGATGACGTCCACTGAT
TCACCCAGCACTTACTTGAGCATCTCATGCGCTGGGCACCACACTAGGCTCTGGGGCCAAATGACACAGGGTGCTTGTCGGCGAGGAGCTTGTGGAGGAA
CAGGATGGCCTCCTGGGCCGAGCTGTGTCCAAGCTAGCTCTTAATATATGCTCCACTTTCCTAATCTTAATGGAAAATAGGCTGGATGGACTTTTAATCT
CCACTTTATACAAAATTGTGGATTACCTGTATGTTCTTAGTCTGACTTATTTTTTTCCCCTCGTAGGGGTTCATTTCTGTTACCAAACAACAGAGAAGTT
GAGTGTCTGATTTTCCCCCAACAATGCAAGTACTTGAAAGCTCGCCTCAGGAAGCTAGGATCACCTTCATGTTTGTAGATACTACATTTCCAGTTTTCTA
ACATCCTGAGATCTCCCAAATGAGTGATGCAGTTACAAGAGGGGACCTAGGCATCATAGCTTTGGGGTGACCCATAAGTGACAGTGAAGTCCCTGTTTCC
TTTGCTGCAACTGAAGCCTGTTATGATATTGGTGTACGGAACTAGTCCCGCTTCCCAGTACTGGTTTGCAAACATCTATTTTTAAAGTGATGACATTTTA
AAAACCACCTCTTATTCCCATTTGGGGTTCAGTTGACTGTCAGCAGTAACCGAGAAAAATCACGCCAGCCACACGTACTTCAGTATCTTAAATGGGCAGT
TCACAAGGCAGTTGGAGGATCTGTGTTCATTGATGGGCCACATCTGAGTGTAGAATCTTATGTTTCTGTTTCATTCCTGTGACAAGTTTTGTTGACTGCC
CCAGCTGCCTGTGGCCAAAGCAGCTAGGATCTTTGTTCATGAACATTTTAATGTTTAGAAATCCAAATGAAAAATAAACCTCCCTAAAACAAACAAAATG
ACTCCCATAGGCTTCAAATAATCCTCCAGGCTATCTCTAAGGAAGCCAGGATTTCCAGCAGCAATTAAATTGCATGATTGGATACAGGGAAAATGTTATA
ATTGCTCACAGGTAGCAATTTATTAGGATAGATGTTACTTATGACATGTGTCAAAAAGGTCAAAGTTTATACTTCCTTGGACATTAACCTAACCTTCGAA
AC


SNP Information

Context             (SEQ ID NO:63873):
TGGACCATATCTTTTACCATCATGGCCTTTTTAAAAAAACTTTACTTCTCTTATTTTTACGTTTTTTCAAGATGGTTAAAAACATTTTCTTTAATTGACA
W
ATTATAATTGTACATATTCATGACATATATCAAGTTGTTTTTTTTTTTTTGAGACAAAGTCTAGTACTGTTACCCAGGCTGGTGTGCAGTGGCTCAATCA
Celera SNP ID:            hCV12062238
SNP Position Genomic:     41967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63874):
TACGCATTATCCCGTGAGCTGTGGAAAGACGTGTGAGCGAAAGAAACCTACACAGTGTAGAATTCCACTTATATGAAGTTTAAGAATAGGCAGAACTAAT
Y
GGTAATAGAAGTTGAAATGTGGGCTACTGGGGGAAGGACTGGTTGTGAAAGGGTTCGTCAGGACTGCTGGCAAGGACTGGTGTGTTTGCTGCCTTCTGCA
Celera SNP ID:            hCV1259100
SNP Position Genomic:     16937
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63875):
TGAGATTTTATGACCGAAGACTTAACAGCTAAACATGGTATTCTTTCTGATGGTGCGGGAAATAATAGACTCACTGTCTTAGTTTTGCTAATGTTGCCTG
Y
CTTTAAACTTCATAATGCCTTTTATAATACCTCTATGGTGAATTTTAAATGAGAACAGTATTTACCAAGCATTTTTCTGGAATTTCACCAAGCAAAAATA
Celera SNP ID:            hCV29132941
SNP Position Genomic:     64835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63876):
TTTCTATATTTATTTGTAATGGACTTAGAAACTCTCACATTGTATTTCTCAGCAGAAAGAGAGGGCATAAAAAACAGCAGTTATTTTATTTTGCCTTTGC
R
TGCTTGAAAGTTTTAATTTCTTTAATTCAGAGCATATATCCATAATTCAGAAATAGAGCTTTTCTTTTCCCTGATTCTTTATCCAATGGAACACCCACTT
Celera SNP ID:            hCV11467977
SNP Position Genomic:     79726
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63877):
GAAGGGATCCTCCCACCTGAGCCTCCTGAGTATCTGGGGACTACAGGCTTGCGCCACGGTGCCCAGCTAATTTTTATATTGTTTTGTAGAGACAAGGTTT
Y
GCCATGTTTTCCAGGCTGGTCTCGAACTCCTGGGATCAAGCAATCCACCTGCCTTGGCCTCCCAAAGTGCTAGGATTATAGGCATGAGCCACTACGCCCA
Celera SNP ID:            hCV1259101
SNP Position Genomic:     17293
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63878):
TACACCTCCCTGCTGTAGGTGAGAACAGTAATTTGGCTGTATCTAGAACAACCCAGGGACAGTGTTGCGGATTTTCTCTTTGATTGGTACCTTTTGAACA
M
TCTTTGAGCGTGGGGAATAGAGAAAAGGAGGGAATATGAATAACTGGAAACTGCTTCCCTCAAGTAACTGAGCTTCCTGAGGTGGAGGAGCAGAGCCAGT
Celera SNP ID:            hCV29132942
SNP Position Genomic:     63801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63879):
GAAAGAGATTTATTGAGACGAATCAATCTTTCTGTGTGTCACACACACACACACGTATACACGTACAGGCACGCACACACATCATATCACACAGTCACAC
R
GTCACACACAAGTCTCACTGATCTAGTGCCTTTTCTTTTTTGGTAGTTACCTGTTATCAAGCACCACTGACGTGTGAAGAACGTCGTTAGGTGCTGGGAT
Celera SNP ID:            hCV15793828
SNP Position Genomic:     49216
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63880):
GTCTGTTCCAAGGGGATGGAAACCTGGGTAGAAGCTTCAGAAATGAGGATTGTAACCTGACCTAAGACCTGTGCAGATGCTCTTCCCTGGGAGCTCAGGG
Y
GGCATCCTCTGTGTAGCACCTGCCATGTGTTGAGGCCTAGGCTGTATGTCCTCAAGGAGCCTGTTACCTGAAGGGATGCTGGTATGTGAGCACGTCTTTT
Celera SNP ID:            hCV1259102
SNP Position Genomic:     17934
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63881):
TTGATTCTAATAAATTATAATCCTATAATTCAGTTCGTTGCCGTTTTAATGGGACATTTTACTAGTAATGTTAAAATATTCATTTTATTTGTCAAATTTC
R
GGGTAATATGTTTGAGGGTTCCCTTCTCAGAGGATACAAAAAAGGGTTACTTAGATTTTGAGAGCTATAGCTCTTTCTCAGTGACTGTATATTATAAACA
Celera SNP ID:            hCV29132943
SNP Position Genomic:     63567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63882):
GATGCACATGACCTTTATTTATTATTATTATTATTTTTGAGATAGGGTCTCGCTTTGTCACCTAGGCTGGAGTACACTGGCACCATCATAGCTCACTACA
R
CCTTGATCTCCCAGGCTCAAATGATTCTCCCACAGGTGTGCACCACTACATCTGGCTAATTTTTTTTTTTTTTTTTTTTTTTGTAGTGATGGGGTTTTGC
Celera SNP ID:            hCV15793829
SNP Position Genomic:     28000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63883):
TTGCAGAGGTGCAGAGAAGAGAAGATTGTGACTAGGGGGACCAGGTAGACTTTAAGGGGATTCCTGGACAGCATTTTTAGAGAGAACCAAGAGTTAGTGA
R
TAAGTGACTAAAATATTACAGTCAAGGGGTGAACGGGGGAGGCAGAGATAGGAGGTACATGATGACGTCTGTAGAGGGACTGGGAGCCCTTGGTGTTGCT
Celera SNP ID:            hCV1259103
SNP Position Genomic:     18177
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63884):
ACGCAGGTGTTTGCATGGGAGTAGAGGCACCCATAGGGGCATGGAATACAGACTTAAAGGGCAAACAGTTACCATGGAGTCCCAAGTGATATAACTTGGG
S
CTGGCATCCTAACCAAGGAAGGTTAGGCAATGCCCGCTGTGGGCTGAGCACGGTAAGACTTTTCTTACTTTCTATTATATAAGGAGGTGTCTGAAACTAT
Celera SNP ID:            hCV29132945
SNP Position Genomic:     40356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63885):
TAATTTTACATTTTTTGTTTTGTTTTTCTTCAGAGTTATTTTAAATTGACGGTAAGCTTGAAATTTAAGAAATCTTCAAATAGCTTTTAATATCTGACTG
Y
AGTGTTTTTCTTCTTCTTTTTTTGAATGAGATCATTTGTTCCCAAACTCAATTGATTATTAGAGTTCTTTTTAATAAAATTAAAGCAATAATGCTTGGCT
Celera SNP ID:            hCV8900131
SNP Position Genomic:     75203
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63886):
ATGAAGAGCTCTGTCTTAGTCCAGCACCTGGCAGAGGGTAAATACTGAGCTCCAGGGAACAGCTGCTGTTACATCAATGAGCAACTGGAGTTGGGTGGAT
M
GCTGAGAGAAGACTTTGGAGGAGGTGAGGGGCTGCAGGCAGAGCGAATAGAGCCTGTTTTGTAGCTGTTGGTGGGCACCCTGTGAGGGCCGGTGCAGAAC
Celera SNP ID:            hCV1259105
SNP Position Genomic:     18972
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63887):
TTCGCAATTTTTATCTGTGATTTCCCATTTAAAATAGTTTTCTTGGGGGCCTGTACCAAACTCTGCATGTGAACTGAAACCTATTTTGTTTTCTCCCCCC
S
CGATCTGCCTGCTGGCTCGGAGGTCTACAGGCCATGGCTTGCAGCCCCTGTCTCTGGGTACTTTGGGAGTGACAGCAAGCACAATTCAGTTCTGTGCATC
Celera SNP ID:            hCV29132946
SNP Position Genomic:     34007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63888):
GAACAAACAAAACCGAACCGGCCACTCCTCCCCACCGCCCACAGATAGAAGCTGGTATTTTTCTTTTACTGCATTGACTAATACTGAAAACTGGGAGCTT
S
AATCTTATACCATTTTCAAAAGCCACAGTGAACTACATGTGTTTGCTAAGCCATAATTCCAGCCTCAACATTCATTTTCTTATCTTATTGTACCACAGAC
Celera SNP ID:            hCV8900132
SNP Position Genomic:     74123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63889):
CCTCATTCGCAATTTTTATCTGTGATTTCCCATTTAAAATAGTTTTCTTGGGGGCCTGTACCAAACTCTGCATGTGAACTGAAACCTATTTTGTTTTCTC
M
CCCCCCGATCTGCCTGCTGGCTCGGAGGTCTACAGGCCATGGCTTGCAGCCCCTGTCTCTGGGTACTTTGGGAGTGACAGCAAGCACAATTCAGTTCTGT
Celera SNP ID:            hCV29132947
SNP Position Genomic:     34002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63890):
AGTTGAAGACGCCAAAGGATCTTCTTCAGACAGCACTGCTGGAGTTAAGGAGTAGCTCGAGGTGAAGCTGGATGGGGGATCCAGTGGAGCAGGAGTTGAC
R
GACAGTCCGTTCACATCGCTGTGTTTCCTTGTTAACATTTTTCTTTCTGCAGAGAGGAAGATATGTTTTTGCTGCTTTATATAAAAATGGTTTTTTTAAG
Celera SNP ID:            hCV25941078
SNP Position Genomic:     88211
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,26)   caucasian(G,34)   total(A,4|G,60)
SNP Type:                 UTR 3


Context             (SEQ ID NO:63891):
AGGAACAAACAAAACCGAACCGGCCACTCCTCCCCACCGCCCACAGATAGAAGCTGGTATTTTTCTTTTACTGCATTGACTAATACTGAAAACTGGGAGC
K
TGAATCTTATACCATTTTCAAAAGCCACAGTGAACTACATGTGTTTGCTAAGCCATAATTCCAGCCTCAACATTCATTTTCTTATCTTATTGTACCACAG
Celera SNP ID:            hCV8900133
SNP Position Genomic:     74121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63892):
CTGCCTCGCTAGGCTTCCCTAGAGACCCCCTCTCCAGCCGGGTTCCCTTCCTCACTGTGCTTCCCTCACGCTTCTAGTCCTGTCCCTGTCTTTGAATGCC
S
CCCCCCCCCGCCATTCTTCACACATCCATGTCCCTTACTTTCTTTGAGACCTATTGTTAAAAGCACTTGCAAGCAAGCATTATCTCATAGGGTCTTTACC
Celera SNP ID:            hCV1259107
SNP Position Genomic:     20228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,8)      total(G,8|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63893):
CTCAGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATAACAGGTGCCCACCACCACGCCCAGCTAATTTTTTGTATTTTTA
R
TAGAGACGGGGCTTCACCATGTTGGCCAGGCTAGTCTCGAACTCCTGATCTCTGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCAT
Celera SNP ID:            hCV29132948
SNP Position Genomic:     33193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63894):
AATCTATGTAATTAAAAAAAAATCTAGAGTAAAATTTGCTCTACTATAGTTTTTGTAGGTGAAAAAGAACGAACTTTTCTTCCAGAGACTACAAAGCAGA
K
TTTTTTTTTTCCCATTTGAGAACCTCTAGATACTAATACTACACATTTCTTTTTCTGGAAGAAAACTTCATGTAAGGTAAGATCTTAGCCTCTGAAGACT
Celera SNP ID:            hCV1259108
SNP Position Genomic:     20852
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,4)      total(G,4|T,4) ;SG_12_T(T,4|G,19)   SG_12_G(G,10|T,13)   SG_12_TT(G,3|T,18)   total(T,35|G,32)   (T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63895):
CGACTTGGCGTGAATGAGCTTTGGCTGTTTCTTTGTATTAACTGGTCCATTTACTTCAGTATTAACTAAGTAGTGCAGCTTTGCTTCAAAATTTGATGAG
W
TTTTCAATGGCTGTGAGTCACTAAAATACTCTGTTCATATAGATGGAACCATTTTTTGTCAATTTGTTTAAGAGCCAGGTGTCTTCATAACCCCCTGAAA
Celera SNP ID:            hCV29132949
SNP Position Genomic:     30095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63896):
GCCTTGACCTCCTGGGCTCAAGTGATCTTCCCACTTCATTCTCCTGAGTAGCTGGGACTACAGGCCTGTGTCACCACGCCCAGCTAATTTTTTTGTAGAG
R
TGAGGTTTTGCCATGTTGCCCAGGCTGGTCTTGAACTCTTGGGCTCGAGAGATCCTCCCACCTCTGCCTACCAAAGTGCTGGGATTATAGGCGTGAGCCA
Celera SNP ID:            hCV1259109
SNP Position Genomic:     21883
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,12)      total(G,3|A,12) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63897):
TAGGTGGGCAGTCTCTTCTGTTATGACGAGGCAAAACCAAATTCCCACAGAGGATGGTTCCCGCGTGACCCTGGCTCTGATTCCTTTATGGGATATGTGT
R
ACCACACCAACGGCCTGGTAACGACCTCTTCCCCTGTGTTGTGTTGAATCTGGGAGGCTGTTGTTGCTAAGCTTTGGGAGGGGGCTGTTATTCCACCTAC
Celera SNP ID:            hCV8900136
SNP Position Genomic:     73888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:63898):
AGACTATGTTAGTGTAAAATGGGGACTTTTTTTGAACGGAGAGATTTAATTCACTGCACAGTGTAATAAAAAAGTCACATTTTACATTTCTTACAATTCA
Y
AGAGGATTTCTGATCAGAAAGGAGTTTTATGGTTTGCTTTTCAATGAGGCTTAAAATAGGTGCAGAGTCAGCATTTGGGCAAAAGAGGGTTGGGTTGGGG
Celera SNP ID:            hCV8900137
SNP Position Genomic:     73381
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   JBIC-allele(C,676|T,821)   total(C,676|T,821)   TSC_42_A(T,37|C,46)   TSC_42_C(T,29|C,54)   TSC_42_AA(T,42|C,42)   total(C,142|T,108)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63899):
GTGACCGTTAAAGCATCCAAACAGAGCTCATCTTTCAGAAGTTATCAGGAGCAGCTTGGATAAGTATCAGCATTTTCATAGCCATGTAGAAATTGCCATT
R
ACCTGTCATGGCAGGGGATTAGCTGAGGTAGCCAAATGCTACTTGAGATTAACATTAGTGTTGGGTGGTCCTATGGATTTTTCTTTTCTTATTTAAAAAA
Celera SNP ID:            hCV8900138
SNP Position Genomic:     73181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63900):
CATCATCATACCTGGGAAGCCTGGGGAGGAGGAAGTTGTATTATTATGGTCCCCCACAGCTGGGAAGAGGTGGAGGCAGGCTCTGTTTCTCCACATTCTT
Y
GGATTCCGGGCAGCAGCATAGGTGAAGCGCTCTGTGCTCTGTGAGAGGGTTGTCTGATAAAGATTTCCTGATATTAGTAGGCAGAAATAAGATACATTTC
Celera SNP ID:            hCV3236650
SNP Position Genomic:     74612
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63901):
TTAGCATCTGTAATAACCTTGAGTTTGACCCTTTCTTACTGACTTTGTTGGGCGTGAGGGTTGCATGGAAGAGTCTAGAGTTTCCCTTAATGCCACAGGG
S
ACATTTCGGTAGAGCCTCAAAGTATGTGAAAAATCTTGCCAGGAGAAGACAAGGGGACAGGCAGTGGGATAGCTGCATTCCAGAAAAAGGGAGGAACATG
Celera SNP ID:            hCV27970121
SNP Position Genomic:     16638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63902):
CACCCTCCGTGCACACAGGTCTGACTCACCTCTGGTTCCCTGCTATTCTTCAGACACCAGAAGATTCCTTCGCTCTTGCTGTCGCCTCTGCCTAAGACCC
Y
CCATTCCTTAGGCACTTACGGGACTCACTCATAGACCTCCTCCAGCGTGGCTGCCCTGAGCACCCTATGTGGAATGACTACGCCTCCAGCTCATCCGCCC
Celera SNP ID:            hCV3236651
SNP Position Genomic:     76692
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63903):
GAGCAGGAGGGGAGGGGTATGACTGAAGACCTTTAGCATAGGGAGGAGCTTGAGCAGGAGCTAGGGAGAGAGGGTGGAGGGCACTGGGCTCTGTACCCTC
Y
GGGGTGAGCACACACTGTGGTGGCCAGAATGAGGTGCAGGGATAATTTGCAGGCCCTGTTTGCTGGAGGAAAGCTCAGGAGGGCACCTGCTGCAGGAGCT
Celera SNP ID:            hCV3236653
SNP Position Genomic:     84770
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63904):
TTGGGGCTGATTGAGATCTGATGCGGAGCCGGTGTGCTCAGTCAGTGTGCTGTGTCCTCCACAGCCGCTTCATAGTCAGAATTCATGCCGTGGGCGTCTG
Y
GCACCAGAGGTCATGAGTTTTGGTCTGGAGAGATTGGGACTGTTTAAAATGCCTGGGGGCTTTCTTACCATGATTTCTCTCACTTTAGATACATTTTCCT
Celera SNP ID:            hCV2120970
SNP Position Genomic:     44807
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63905):
GTCCTCCACAGCCGCTTCATAGTCAGAATTCATGCCGTGGGCGTCTGCGCACCAGAGGTCATGAGTTTTGGTCTGGAGAGATTGGGACTGTTTAAAATGC
Y
TGGGGGCTTTCTTACCATGATTTCTCTCACTTTAGATACATTTTCCTTAGCCACGACTCCATCACCCAGTCCTGGCCACTCTTCTTTCTTCCAAAGGGTC
Celera SNP ID:            hCV2120971
SNP Position Genomic:     44860
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63906):
GGACATTTCCTGGCGTTGACGCCTGTACCTTTCCTAGCTTGTTGATGTATACCAGGAGGAAGCATGTGATTGCCACCTCTCGTATCAGCTTTACACCTGA
R
ATACCTTACCAAAAATATTAAATAGTCTGTAAAGCTTAGTGTTAATTTCTAAAAGGCAATAGCATTGTAGTACTTGAGTTTCCGACTCTAGAAGCCCCAG
Celera SNP ID:            hCV3236655
SNP Position Genomic:     89812
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63907):
GCACAAGCTCCCATTGCCACGTTCCACTCCTGAGTCCTCCAGCCAGGGCTCACTGACCGCAGTGAGACTTAGATTCGCTCTCTGAGCTGTTCCAGTGAAT
Y
GCCCTCCCCTGCGCATGATGTAGACACCGGAGGCTGTGTGTATTGCTCCTGACCCTGTCCCCTACTGGCTCTACTGGAAATTACTGGGTATTTCCACTTC
Celera SNP ID:            hCV2120973
SNP Position Genomic:     46326
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63908):
CCACCTCTCGTATCAGCTTTACACCTGAGATACCTTACCAAAAATATTAAATAGTCTGTAAAGCTTAGTGTTAATTTCTAAAAGGCAATAGCATTGTAGT
R
CTTGAGTTTCCGACTCTAGAAGCCCCAGAGCCTTCTAGAACTTTGATGACCAATTTGTCCATAGAATTATCTTCTTATAGGATTAAAAGTTTCCAAGCCT
Celera SNP ID:            hCV3236656
SNP Position Genomic:     89884
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)   JBIC-allele(G,388|A,1091)   total(G,388|A,1091)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63909):
TTTCAGTTCAGACAGGTTTATTTTATTCTTTGGAATATATATTTGAAACCTTTTGTATGCAGAAGTCAAGCCTAGAGCAAATTTTTATTCTTAAATTATA
R
GCTTGTGAAAGTGAAGGTTTTAATGGAAGTGCTCACCCAACCTTAACCGTAGTGACACACACATGGTAGCATGTCTGAACGAAAAGCTGTCAGAAAGAGC
Celera SNP ID:            hCV2120974
SNP Position Genomic:     48569
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63910):
TCATTTACTTGTGAAAAGAATGGTACTAAATTGTCCAAAGTCCCTGCTTAAAAATTTAGCAGCTGTTTTTTCTGTCATTTCTCCATTGACAGACTTGGTC
R
TTAAGGTTATTGGATCAAAAAGAGATGAAGTATGCTTCCAGTTGAGAACAGCCTCTGCATGACATAAAAATGGCGCCCACAAGAACGGAACTGTTTTGAT
Celera SNP ID:            hCV3236657
SNP Position Genomic:     90292
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:63911):
TGGCTTCTCATGAATGGGCATGTGGGCTGACCTGAGGGACTGCTTATGTACAGTTAGCTGGTATCTAAATGCAGGTACTGCCTCAAGTGAATGTAGGTGA
Y
GTAGTGACAAAGGAAGAATTTCAGTTAATGTAGATGTGAAATGGAGTTTCTTTGAGTGACTGAAGTGTTGAGCCAAGTTACATTGAGGCTTTTGAAATAG
Celera SNP ID:            hCV2120975
SNP Position Genomic:     49003
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63912):
TTGTGGGATGGCAGTTGCTTTGCTGTGTGAGAATGACCCTGGCAAGGGGATCAGTTGCTCTAGGTTTAGACGCTAGGGTCTTGTTTTAAAATCCCTACTA
Y
TGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACCTGAGGTCGGGAGTTCAAGACCAGCCTGGCCAACAATGGAGAAACCCCGTCTCTACTAA
Celera SNP ID:            hCV2120977
SNP Position Genomic:     55084
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63913):
GGCAGATTCCAGCCCATCTTGACTAATAGTCATATGTTTGTGTGAATTTTTTTGAGAAGTACACCCAGAAGTTCATAATTAAAATTTTTTTTTCTTTGCT
K
CTTAGAGGCTTAAAACACACATTTATTATCTCACAGTTTGTGTGGGTCAGAAAGGCAGGCATGGCTTAGTTGGGCTGTCTGCTGCAGGGTCTCTCTCAAA
Celera SNP ID:            hCV2120978
SNP Position Genomic:     57856
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63914):
ATAGGCGTGAGCCACTGCACCTGGCTGTGTATCTGATTTTTACATGCTGTAGTTTGAGAGTTCTTGGTTTAAGGAAGTGAAATATCTATTAAGTGCCTCT
M
CTTGTTTTAGCAAGTTAGTGTAATTTGGTAACTTTTTAAAATTATGAATTTGAATTGGTGCAATTAGTGCCTTGGCTGTAGCTGTGGTCACTGCGTTGCC
Celera SNP ID:            hCV15793830
SNP Position Genomic:     22070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63915):
TGGGGGGGCGGATTATTCCAATAATTGGATTATTATTCCAGTCTGGAAAGTTGTGAAAATGTGTATGTTTGGGGGAGGAGGGTTTGAACTGTTTTCCACA
Y
CAAGTTTTTTTTAGGGATTAATAATCTAAGATTACCTCTAGGTTAATACAACAGCTTGTTTTTTTTAGAAATTAAAAGGTAAATAGGAAAAATAATGGTC
Celera SNP ID:            hCV2120979
SNP Position Genomic:     60824
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63916):
TCTTCCCACCTAATGATTGGAAGCCTGAGGCCTACCAACACTGGTTGTGAGTGACTTTCACCATTTTCTCATGAATGTCTTCTCGTTAGCTGATTCCAGA
Y
CCCTTCCTGGCTGTAAGTGCATCCTGTGGTGAGGAGAAGGTATTTTAGAGCACTTTTTTGGTCACTGGCATTTAACACATACCCCTTCTTTTTAAGAACC
Celera SNP ID:            hCV12062244
SNP Position Genomic:     31287
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63917):
CCCATGTCCCAAATTTAACCTGCAGCTCCTCCTATGTATTTGGACAAAGCCAGCAAAATAACTATACTTTTAAAAGGCCAAAAAATAAAACCTTTACATG
Y
GTATGTTTTATCAGTGCAAGGGAATAGTATTTTGAATATTAGCGATAACAGTGAACCTTTGGAGCTCTCATAAATGGGTTGGTTTTGAGCCGAACTCATG
Celera SNP ID:            hCV11296895
SNP Position Genomic:     10503
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63918):
TGCTGTTACATCAATGAGCAACTGGAGTTGGGTGGATCGCTGAGAGAAGACTTTGGAGGAGGTGAGGGGCTGCAGGCAGAGCGAATAGAGCCTGTTTTGT
R
GCTGTTGGTGGGCACCCTGTGAGGGCCGGTGCAGAACAGCCCTGTCCCAGGCTCACTTACTGTTAAGAGAAGGGAAAGGGTCTTGGAGCTCCTCATCAAA
Celera SNP ID:            hCV12062248
SNP Position Genomic:     19035
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63919):
CATGCCTCACAGGATTTTGAGATTTACCTAAAGATAAGGAGGTGGACTCATGGTTTGGATTTTGTAACTTACTGGAGGTGAGTGGGTGGAGGACTGGCGG
Y
GTGGGTATGCCTACTAGTGTCTGAAATGGATGACTATGAGGCTGAAGGTACTAGGAGCTCACTGAAATGGCAATACCAGTGGCAATAGGGAGAGGAGAGA
Celera SNP ID:            hCV29132950
SNP Position Genomic:     26024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63920):
GTTTTCAAACAGGTTCCTTCATAATGGGTTTATTTGCACTAAATAGGAGTCTGTGCTAATCCTTTGTCACCAAGTGGGTAGCGCCTTAGTTTCTCTTCTG
Y
GTAGATACTGTTTACTATACCTGACACTGAGGGTAAAGCATTTGCCAGTTCTCAAGGAGTGAATAGGAAGTTCCGTCTTTGAATATTCCTCATTCTGGTC
Celera SNP ID:            hCV1259110
SNP Position Genomic:     24269
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63921):
GTTTGTCAGAACTCAGAACCGGACACTGAAAAGTGTGAATTTTATCTTATGTAAAATATACCTCTCCCTCTCCCGTTTTTCTTCTTGAAATGACCTTGCC
R
GTATTTCAAAACTGAACTAACCAGTAATAATCTCGGAGAAGTGTTTATTATTTTAAGCGAATACATTTAACCCAAGAATATAGCAAAATAAAGCAGTCTT
Celera SNP ID:            hCV12062249
SNP Position Genomic:     7287
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63922):
GTGAACATGAGAGGTGGCATGTTTGACTTTTAAGGAGAAAACTGCTCTGTAAATCATAGTAGTGGTAATAGAAGCTCTCTGCCCTTTGCCATCGTATTAC
Y
TAATAGTACCTAATAGTCAATATTTATATTACCTAGTGTCAGTATATATTTCACTGTAACTGACAGGGAGTTTAGGATTTTAATTCTTCTTCCCTGTCAC
Celera SNP ID:            hCV29132951
SNP Position Genomic:     25247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63923):
TGCTGTGGTAAGATGGCCACAGGCGCCTGAGCTATGTGCCACACCCAGCTTCCTCATAGTAAAGTTCCTGTTCCCCTCCTTTTATTCATCCAAACAGAAT
R
GTTTTTTCTATGCATGTCTTTTCATCTTTTTGACTACATAGGACATGCTGAAAAGTTCAGAAATTAATATAACAGATGTCCAAGAATCTGCTACCCCAGC
Celera SNP ID:            hCV29132952
SNP Position Genomic:     24542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63924):
CTGAGGGTAAAGCATTTGCCAGTTCTCAAGGAGTGAATAGGAAGTTCCGTCTTTGAATATTCCTCATTCTGGTCATTTTCGCCATTTAGCAGGTATCTTC
R
CATATCCAGCATGCCCTCTTCACATATCAGGTTGACTGTTAATTATGCTGTGGTAAGATGGCCACAGGCGCCTGAGCTATGTGCCACACCCAGCTTCCTC
Celera SNP ID:            hCV29132953
SNP Position Genomic:     24396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63925):
ATAAGTGACTAAAATATTACAGTCAAGGGGTGAACGGGGGAGGCAGAGATAGGAGGTACATGATGACGTCTGTAGAGGGACTGGGAGCCCTTGGTGTTGC
Y
GGGAGGGTGTTTTACATATTTTTGCTGGTTTCCTTTTATTCCAGGGTGACTGACCCTGTATATTTTACACTGATTTTTAGGAGACTTATTAGATTAACAT
Celera SNP ID:            hCV29132954
SNP Position Genomic:     18277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63926):
TCAGTCTGAATATTTGAAAAAAGTACCATGATTTAGAAATCAAACTGGTTACTTTTATGTCAAAAGTATGAAACTGAGAAGAGCAAAATGTGTCTGGTCA
S
ACATATAAGTTCTTTTATTTTATATCAGACTTTTTTTTCCTTTTGTGAGACAGGGTCTTGCTGTGTCACCCAGGCTAGAGTGTAGTGGCATGATGATGGC
Celera SNP ID:            hCV1259114
SNP Position Genomic:     30654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,4)      total(G,4|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63927):
CCTGAGTATCTGGGGACTACAGGCTTGCGCCACGGTGCCCAGCTAATTTTTATATTGTTTTGTAGAGACAAGGTTTTGCCATGTTTTCCAGGCTGGTCTC
R
AACTCCTGGGATCAAGCAATCCACCTGCCTTGGCCTCCCAAAGTGCTAGGATTATAGGCATGAGCCACTACGCCCAGCCTATGCAGTTTGTATTTTATAC
Celera SNP ID:            hCV29132955
SNP Position Genomic:     17317
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63928):
TTTTTTTCCTTTTGTGAGACAGGGTCTTGCTGTGTCACCCAGGCTAGAGTGTAGTGGCATGATGATGGCTCACTGCAGCCTCGACCTCCGGGCTCAAGCA
R
TCCTCCCACCTCAGCCTCCCCAGTAGCTGGGACTACAGGCATGTGCCACCACGCCTGGCTAATTTTTCGTATTTTTTGTAGAGATGGAGTTTCGCCACGT
Celera SNP ID:            hCV1259115
SNP Position Genomic:     30786
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63929):
TTTGTGTATTTAATTCTGAATGTAGTAATCTGATCCTGATGGCCGGCAAAGTATTTTAGTAAGAGTGAGAAAAGAGTATTTCCTATTCTTCCTACATGAA
S
ATTAGGCCCTCACACTCTCTCGAGTGTGCTTTACAGCTGAGAGCCTGAGGTGGAGGAAGCCATCCTTAGGACCATTCCCTCCCTTAGTCAACCCAGCTGT
Celera SNP ID:            hCV29132956
SNP Position Genomic:     13174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63930):
AATTAAAATACGTAAAAATAACAAAAACAACACTTTCCCACTTCCTAGAGTATGAAAACAGGCAGGATGTGCAAAGTTCCCAGTTGATCGGGTAATGCGA
R
GTTTCATTTTATTGCAAGTGAAGGAACTTTAGCAAAACTAACACTTAATTGGCAGCCTTTTGTAATACATAATTTGCCTAAAATTGCGCACTGAGCACAA
Celera SNP ID:            hCV8900142
SNP Position Genomic:     71708
SNP Source:               dbSNP
Population(Allele,Count): SG_12_AA(G,1|A,22)   total(G,1|A,22)   TSC_42_A(G,0|A,84)   TSC_42_C(G,0|A,84)   TSC_42_AA(G,8|A,75)   total(G,8|A,243)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63931):
CTTATGTTAGTATTTCTTAGAGTGTTTTCTACTAAAACAAAACTCCTGGTGGCCAAAAATAACATTCCTGCAAGTCTAGGGGCTAAACCCATAGTGACTC
R
TCACAAGCTCAAAGTTGCTGTCAAGCCTGGGCAACCCATCTCTACAAAAAATTAGCCAGGTGTGGTGGCATACACCTGTCGTCCCAGCTACTCGGGAGGC
Celera SNP ID:            hCV1259116
SNP Position Genomic:     32446
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63932):
GAGGGTTCATGACAAAGCAAAACACACTTAAGCAAAAATTATCTTTTTAAAAAATTGTCTTTTGAGTCTAGCTGTTTTTCTAGTTTTAGAATGTTCTCAT
Y
GGTTCTAAAAGTCTTAAGTAATAAATTGGAGTGAACACAAATGTAAACATTGCATTGCTGTTGTTTTATAAAAGTGTCGTATTTTCTCATCTCAGTACCA
Celera SNP ID:            hCV1259117
SNP Position Genomic:     33536
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63933):
ATAGAAATCTCTATAAGGCTCCAAGTATTTGAATTACCTGTGATGACACCTTTCTGTATTTTGGTGGTGTGGCCACCGTTATCTTTCATTTGCAGTTGAA
Y
AGCAGTCAGAAGGAACAGGGCCAGTACCACAGTCCCCACCAGGACTGAGAGGCAGTGTGGCTCCTTCTCCTGATTCTGCACAATCTGAATCACTCAAGAG
Celera SNP ID:            hCV8900143
SNP Position Genomic:     29156
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63934):
AGTTGTTGAATATAGCACATTTATCTTGCTGAAGATCACGAAAGGCTTTAGTTGATTACTGTCTTGTCCTAAAGGCTATGGGACCATGTTGCATCATCTT
Y
GTGTTTGAGATTAGATTCTCAGGAAATGTGCAGGAATGAGGGAATGAATTCACTGGGCTCATAGAAAAGCTAGGGCAGTCTTAGGAATATTAGTCAAATT
Celera SNP ID:            hCV29132958
SNP Position Genomic:     11018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63935):
TTTTTCTCTCTTTGGTGGTGGTTGCCTAAAAACTAGAAAAATAATTTCCTGTGCTCTGTCCTCCCAGCAGATTTCCTTGATCCAGGACCTTTTAGTGTGG
R
CACTTAGTTCAGATCACCTTCTGTCTTTAACTTGCTTTTATAGTTTGTTTAAAACAAAAGTCTTGGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAAC
Celera SNP ID:            hCV1259118
SNP Position Genomic:     34384
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63936):
AGCCTTAAAGCATATCTAATGCAATAAGTTACTCTGTGTATAAATTTTTCAAGAAAATGAGGGTTAATTTTTTTCTATATATGTTAGTGTAAAATATTGA
Y
AGTTAATTTAGCAAATTATAACATTTATGTTTTTCAACGTGTACTGTGTATTAATTTTAATTTGTTCTCAGTGAAAGTTTCTCATAGAAATCTCTATAAG
Celera SNP ID:            hCV8900144
SNP Position Genomic:     28972
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63937):
CAAATACCAAAGTTAAGACTTTGCAATTTTTTTTTTCTTCTATCAAGTACTTTCCAAGTAGAAGTGAACTAGTGAGTCCAAACAGTCTTGGTTGACAATG
R
AAGACACATCTATCTTTGAAGTTAAGATTTTGAAAGGGATCTACTGATTACTAAGCCAAAGTGAATCATTAGCCTTTTGCAAGCCTAACCTCAGTACTGG
Celera SNP ID:            hCV29132959
SNP Position Genomic:     9735
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63938):
AAACAGAGGCCAGGGAAGAAGAGAGGGCTCATGGTGGAAGGCCGAACTTGGCATTTAAAACTGTTGCAACTTTAACCCTAGAAAAATACTAGCAGATCAG
R
ACATACCAAAGTTCAGCTGTAAGTTGAGACTTTTGCTTGGAAATGGATGACCAGTTTTGTGATAGAAATAAGTGGAAAAGTAGGGTTTGGCTTAAACCCT
Celera SNP ID:            hCV1259119
SNP Position Genomic:     35617
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63939):
CTCTCTTGGGTAAGTTAAGTGGGGGATGTTTTTATGATGCCCCAGGGTTTGTCTGCTTTGAGAAGTGTACCTGCCTTGTACTTCTCACATTCATTATCAT
R
GCTGTCATATGTCTGTCTTTTAAAAATAAACCAACCCCAGAACAGCAACAACAAAGTCCAAATCCTCTTTCTTGTGCAGACTAGTAGGTTAAGTTGAAAG
Celera SNP ID:            hCV25939817
SNP Position Genomic:     23140
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,36)   total(A,3|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:63940):
GTTGAATCTGGGAGGCTGTTGTTGCTAAGCTTTGGGAGGGGGCTGTTATTCCACCTACCCATCGTACTCCCCCCGTTGCCTCCCTCCAAAAGGAACAAAC
R
AAACCGAACCGGCCACTCCTCCCCACCGCCCACAGATAGAAGCTGGTATTTTTCTTTTACTGCATTGACTAATACTGAAAACTGGGAGCTTGAATCTTAT
Celera SNP ID:            hCV25932912
SNP Position Genomic:     74031
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,36)   total(A,68|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:63941):
AGGTATGATTACTTTTATTTTACTGAGGAACTGAGACTCCCTGAAGTTTCACAGCCAGGAAGTGGCTAGGTTGGGGCTGATTGAGATCTGATGCGGAGCC
K
GTGTGCTCAGTCAGTGTGCTGTGTCCTCCACAGCCGCTTCATAGTCAGAATTCATGCCGTGGGCGTCTGCGCACCAGAGGTCATGAGTTTTGGTCTGGAG
Celera SNP ID:            hCV16150415
SNP Position Genomic:     44737
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63942):
CCTAATTTTAAATGTTGGCTCTGATTTTAAAGTGGTGCATTTGATTCCAGCCTTGGTAATGGAGAGTTTGCAAACACACAGCGGCCCACAGCTTCACGTG
K
TGGTGTGCAGTGTGAGGCAGCTCCTTGGCTTTCCTGGTTTTCACAACAAGCTAGAGATTTTCAAAGCTACACTTTTGAGTAAAAACCCTTATTAAAAGAA
Celera SNP ID:            hCV11663210
SNP Position Genomic:     88984
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:63943):
TAGGCATCTGCCAGTGCCTTGCTTAGAGCGAGATAATCCCTTCTGCACCTGCCGTGTACAAAGCGATTATGGCAGAAACTAAAGACTAATAACAGCTGAC
R
CCTACTGACTGCTTACTGTTTGCTGAGAATGTTCCACTGAGCACAGAAACCTTAGGCACTTGCTCCAGGTCTTCCAGGTTCAGAGCTGGCGCTGGGCTTT
Celera SNP ID:            hCV2120980
SNP Position Genomic:     61306
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63944):
GTGGGTGCTTGGTCTCAGACAGTTTGGAAAGTTGGGAAAATTGCACAGCTTCACCCTTGCAACCTATACCAAACAGGTGTATCAATACTTTCAGCTATTT
M
GTGTCTAAATGTAAAGTAGCACTAAGCCTCTGCCCTGCCCTGTGTTAAGAATACATGCCAAGTTTGTCTAATGCCCTTTTCTTTTTTCTTTACTGCATCT
Celera SNP ID:            hCV2120981
SNP Position Genomic:     81385
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;(C,-|A,-)   JBIC-allele(A,659|C,840)   total(A,659|C,840)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63945):
ATCCTCCCACCTCTGCCTACCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCACCTGGCTGTGTATCTGATTTTTACATGCTGTAGTTTGAGAGTTCTT
R
GTTTAAGGAAGTGAAATATCTATTAAGTGCCTCTCCTTGTTTTAGCAAGTTAGTGTAATTTGGTAACTTTTTAAAATTATGAATTTGAATTGGTGCAATT
Celera SNP ID:            hCV15793840
SNP Position Genomic:     22035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63946):
AGTCCCGGGTCTGCCATCAGCTTCCTGTGAAATCCCAGGCAAGGTGCTTGGGATTTCCCATGGAGCAAAATGCAGGAGTTAGACTAGCTCGCCAGAGTTT
Y
TTCCAGCTCTAAAACGTCTTCAGCATTTGTCCAGAGAGTGTGATCAGTTGCTTATGATACAGTTATGGTTAATGGGAAATGATTATTTTAAGGCAAAGTG
Celera SNP ID:            hCV15793841
SNP Position Genomic:     20555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63947):
TCATGATCTTAGCCCCTTGTCTCTGGAGAATCAAAGCCAGACTCCTCTGGCAGTGACTATCACCCTGTCTTGAGTGGCTGCCTCGCTAGGCTTCCCTAGA
K
ACCCCCTCTCCAGCCGGGTTCCCTTCCTCACTGTGCTTCCCTCACGCTTCTAGTCCTGTCCCTGTCTTTGAATGCCGCCCCCCCCCGCCATTCTTCACAC
Celera SNP ID:            hCV15793842
SNP Position Genomic:     20151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63948):
TAGTCTGCACAGTGAAATCTATGTAATTAAAAAAAAATCTAGAGTAAAATTTGCTCTACTATAGTTTTTGTAGGTGAAAAAGAACGAACTTTTCTTCCAG
R
GACTACAAAGCAGATTTTTTTTTTTCCCATTTGAGAACCTCTAGATACTAATACTACACATTTCTTTTTCTGGAAGAAAACTTCATGTAAGGTAAGATCT
Celera SNP ID:            hCV27857796
SNP Position Genomic:     20837
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,31|G,1)   total(A,65|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63949):
GCTAACATCTCAGTGCTTTTTTTTCCTGGAATTGGAGTGGTGTTGGATTTGAAGATTAGAACGTCTTATGTCTGTATGTACGGTTATAGCGAAAGCTTCT
Y
GTAAGAGCACAGTGACTGTCAGTAAGAAAGTGATGGCTGCTGCGCTGCTCTTCCGTGCCGTGGACATTTAGGCCACATTTTAAATGATAATTAAGCTTTT
Celera SNP ID:            hCV29132960
SNP Position Genomic:     7840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63950):
TACAAGGCGGTCAGTTTCATAGGCCGGAGGTGTTGAGGTTGATGAGCCGTGAATCTAGATTTAATCCTTGCATTCTATGGTCATGGGAACTGGGTAGATA
Y
TATGGGGCATAGAAGGGAAAGAATGATGTCTGTTTTCAGGTTGTTCATCTAGGTTGGCTGGAGGACTTTTCCAGTGAGGTAAGCAGCATTCTTCACAGTG
Celera SNP ID:            hCV1259120
SNP Position Genomic:     38300
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63951):
TGTAGTCTGAAGGAGTAAAATGGTTGCTTCTCCAGTGTGCTAACATCTCAGTGCTTTTTTTTCCTGGAATTGGAGTGGTGTTGGATTTGAAGATTAGAAC
R
TCTTATGTCTGTATGTACGGTTATAGCGAAAGCTTCTCGTAAGAGCACAGTGACTGTCAGTAAGAAAGTGATGGCTGCTGCGCTGCTCTTCCGTGCCGTG
Celera SNP ID:            hCV29132961
SNP Position Genomic:     7802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63952):
ATGACGCTTCTGCCACTGCCACTGCCACTGTGACAGTGGATTCAGTAAGAGTGACTCTCCCTGGTGCAGTGTCGGCTCTCTTCTCAGGCTTTGATCCTTA
Y
CCTGTGAGGGAGTTTCAGTCCTCATTTTTCAAATGGGGAATGGGAGAAGTTGAGCAGCCTGCCAGAGGCTTATGGTACCTGCACTTGGAACTGGACTCCA
Celera SNP ID:            hCV1259121
SNP Position Genomic:     38614
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63953):
GGGTCGCGCTCCCATTTCCTTCCTTCCTCCCGTCACCCCGCTGCTCGGGGAAGGCTGTGCGGTTTTATGTTCCTCTCTGCGAGTTCTCGGTGCCCACCAG
S
GTGCCCGGGGACCAGCCCCCGCCTCCTCCCGCGCCGTCCAGTTAGGAAGACGGACGTAGGAAATAGGTCGTCTTTCTTCCCACGCGCCCCTGGCCGTGCT
Celera SNP ID:            hCV29132962
SNP Position Genomic:     6682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63954):
CTCGCGCCTGCTCTCGGGTGGGGCCCGGGCCCCTCGCGCTAGTCGGCTCGGCTCTGCGCGCGGCCGGGTCGCGCTCCCATTTCCTTCCTTCCTCCCGTCA
M
CCCGCTGCTCGGGGAAGGCTGTGCGGTTTTATGTTCCTCTCTGCGAGTTCTCGGTGCCCACCAGGGTGCCCGGGGACCAGCCCCCGCCTCCTCCCGCGCC
Celera SNP ID:            hCV29132963
SNP Position Genomic:     6617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63955):
TTTCTTCGAATTTGAGAGCCTGAGTATTGGTGAGGCTTGGCTGCCAGTATTCATTTGGGATATTTGCCAAGGAGGATTAGATAACTTTCTGCATTTGCAT
S
GCATATTACCTCTACCTGGAATTGATATGGCCTGAACACTGTTTTTGAATATTTTTTGCTTCATTTGAGTCCTTACGAGCTTGCAGTCCACTCCAGGTGG
Celera SNP ID:            hCV1259123
SNP Position Genomic:     41769
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,6)   total(G,6|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63956):
CCGCTGCCCTGTCCCCTCTGGCGCCCACGCTCCCGGGCCCCGCGCCACCCGGTCTCGAGGTGGTGCCAGGTGCAGGCAGCGCTCTCCCCGAGCTTGCCCC
S
CTGTCCCCGGCCCTCGCGCCTGCTCTCGGGTGGGGCCCGGGCCCCTCGCGCTAGTCGGCTCGGCTCTGCGCGCGGCCGGGTCGCGCTCCCATTTCCTTCC
Celera SNP ID:            hCV29132964
SNP Position Genomic:     6504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63957):
GTGCTCAAGCAGTTCTTTGCCCCATTTTCCAAAGCATTCAGATGCCACCTTTTGAGTACCTTGGGATCCCCTTTTTCCTCTGATTGCCAGAAACAAGCTT
R
TAGATTAAGTGAGATGTGCGTGTGTTTGCCTCACCATCATTTCCTTCCTCCTCCCCGGGCTAGATCACTACTGGTTACAACCTGGAAGATGACCGCTGTG
Celera SNP ID:            hCV25937141
SNP Position Genomic:     80206
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,26)   total(A,1|G,53)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63958):
GAGAGACGTGTGAATGATATGTGTCCTAAAAGTAGCTCTTGTTTTCTAAAACGTGGATTAATATAGGTCTGTCCGTTACTTTTGATGGAAAAAGAGAAGA
Y
TACTTTCCTGATCTAATGAAATGGGCCTCTGAAAATGGGGCTTCTGTCGAGGGTTTTGAAATGGTTAACTTCAAAGAAGAGGGCTTTGGTTTGAGAGCAA
Celera SNP ID:            hCV25936417
SNP Position Genomic:     25550
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63959):
TTTATGGCACTCGATCCAACGCAGAGTTTGTGATCCACAGTGGTTTTTTCTTTGACAATAACTCACACGACAGAGTGAAAATAAAGCTTGGAGTGAGTAA
R
AGTGACAGACTCTACGCCATGAAGGCCGAGGTCTTGGCTCGTGCCGGCATCCCCACGTACGTAGAAAAACATCGGTTGGCCCTTTCTTGCAGTACTTGAA
Celera SNP ID:            hCV25936277
SNP Position Genomic:     81599
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,36)   total(A,73|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63960):
TGATCTTGCTTTCTGCTTTTATCAGTTCCAGTGTTTTTGCATTGCATTTTACCGAGCCGCCCATCTCTGCTCAGCTTTTGGCTTTTCTCCGAGTATTCTG
Y
ATGACTGAAGGTAAGTCATTTCAGGAAAAAAGAGATGTTGACTTTTTTCTTTTTAAATCATGAAAGTGTAAAGCATAGGGATTCAGATTAAAGGTAAAGT
Celera SNP ID:            hCV25933944
SNP Position Genomic:     82622
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,30)   caucasian(T,36)   total(C,6|T,66)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63961):
AGTTTGTTTTGGGTCATATTTAACCAGTCGAGAGTATTAGAATAAAGAGTCTTGCTTTTTCAGTTTTCTATAGTTTTCACTTCTGTTGCCTTTACAATGG
W
TTTCTGTCATTGGATTTCCTTTTATCATCTCATTTTTCTATTCATAAATTGGAGAGGTTAACTAATTTGATATGCAAATAGAATTAATTTACATAATATT
Celera SNP ID:            hCV15793852
SNP Position Genomic:     8912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63962):
ACCTACCCTTATTTTTGGGCCCTTTTTTTATCAGTGAAAAATCTTTTGATTAGCCGTGCATCTTTTCTCTCCTGCTATAGTCATAGAAGTGTTTATCTGG
S
TAACAGTTTGTTTTGGGTCATATTTAACCAGTCGAGAGTATTAGAATAAAGAGTCTTGCTTTTTCAGTTTTCTATAGTTTTCACTTCTGTTGCCTTTACA
Celera SNP ID:            hCV15793853
SNP Position Genomic:     8807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63963):
GCTAGCAAAAGGGGTATTGTCAAAATAAGGGGGTACATGGCTGTAGATTGTCTTTAAAAAGTATCTTGTGAAACTGTCTAAAGGCTCTCAGTGTCCCTCA
Y
AGAAACAGTGAAAAATGGAGTGCTACCAAGGCTTGATCAGGATTCCACATGGAGAGGCCTGACCTGGTGTTGCTCCCCAAAACTTAGCTCTGCTCTACTT
Celera SNP ID:            hCV25942119
SNP Position Genomic:     86332
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:63964):
TAGGCTTCCCTAGAGACCCCCTCTCCAGCCGGGTTCCCTTCCTCACTGTGCTTCCCTCACGCTTCTAGTCCTGTCCCTGTCTTTGAATGCCGCCCCCCCC
C
GCCATTCTTCACACATCCATGTCCCTTACTTTCTTTGAGACCTATTGTTAAAAGCACTTGCAAGCAAGCATTATCTCATAGGGTCTTTACCCAGGACACC
Celera SNP ID:            hCV8431159
SNP Position Genomic:     20237
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|-,8)   total(C,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63965):
ATTGTCAAAATAAGGGGGTACATGGCTGTAGATTGTCTTTAAAAAGTATCTTGTGAAACTGTCTAAAGGCTCTCAGTGTCCCTCATAGAAACAGTGAAAA
M
TGGAGTGCTACCAAGGCTTGATCAGGATTCCACATGGAGAGGCCTGACCTGGTGTTGCTCCCCAAAACTTAGCTCTGCTCTACTTTGGAGAGTCTAGGAG
Celera SNP ID:            hCV25942407
SNP Position Genomic:     86347
SNP Source:               Applera
Population(Allele,Count): african american(A,28|C,6)   caucasian(A,31|C,5)   total(A,59|C,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63966):
CTTAGTTGGGTAAAGCTGAAGTAGTAGCTGTTTTTGATAAGCCCAGTTTTTGGTTTACAGTAAGTTGCTTTAAAGGCCTTGCCCTGGGAAATATCAAGAA
Y
TCTGCGACTGTAATCTACTCTCCCAAGTTGCCAGAAGGTGGCAGTAGTGTCACAGTAATGAGAGCTCTGTGGAGAGAGTTATTTCCTTTCTCCGTTAGTG
Celera SNP ID:            hCV16150431
SNP Position Genomic:     70935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63967):
GTGTTTTTATTTTTCATCCTAAAATGTATCTTACAAATTTCCTGGCCCTGAGGTTTCATTTTTAAGAGAGAGAAAGAGAGAGAGAGAGAGAGAGAGAGAG
W
GTGTGTGTGTGTGTGTGTGTGTGTATGTTTTGCTGTTGTTAACTACCTTAAATCCTGTACAGAACAGTCTGAGTAGGAATGAGTAAATGAGTGTTTGAGT
Celera SNP ID:            hCV16066439
SNP Position Genomic:     83394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63968):
TTTTCTTTCTCTTCTCTGTAGTCAGAAAAATGGGTAAGAAGAGTCGAGTAAAAACTCAGAAATCTGGCACTGGTGCTACAGCAACTGTGTCACCAAAGGA
R
ATCTTGAACCTGACCAGTGAGCTGCTGCAGAGTAAGTCCTCCTCTGGGCTCTCCCTGCCTTGATGTGGTGGCTGTGCCTTTTTCTTCTTTGTCACCAGAA
Celera SNP ID:            hCV25941684
SNP Position Genomic:     21122
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,36)   total(A,69|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:63969):
TTGACTTTTTTCTTTTTAAATCATGAAAGTGTAAAGCATAGGGATTCAGATTAAAGGTAAAGTGGATTAAAACTACAGTACTTTTGGGAAGAGAGAAGAT
R
CAATACTGGAGAAAGAAGAAATAGATTTGTTTTACCCTAGAAATGTTTTATTAAATCCTCGATGTGTTGTCAGTATTAATTTGTAATACGCAAATAATTC
Celera SNP ID:            hCV25933160
SNP Position Genomic:     82760
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,36)   total(A,68|G,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63970):
GCGCCTGGCCCAGGAAAAGAGTGGGAAGAGTATGTGCAGATCCGGACTCTGGTTGAGAAAATACGGAAAAAGCAAAAAGGTAAAATTGCTAGAATGATAA
Y
TGTATTTTAATAATGTCATGTAGAAACTTGATTAGGTCAAAGGGTTGACGAGTAGTAAAGGTCTCAGCATCATTGGTGTCACTCTGAAAGGTCTTGTACT
Celera SNP ID:            hCV16178681
SNP Position Genomic:     23392
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,11)   caucasian(C,25|T,7)   total(C,50|T,18)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,663|T,832)   total(C,663|T,832) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63971):
TACAGTTCAAACATAAAATAACATCATGAGACAGCTGGGTTTTCAAACTATTCCCCGGCAAAGTTCGAGTTCCCGTGGAGCTGGGATAGCGCCAGACTGG
R
GTCGGGATCCCAAGCTCCTGTTCCGGCGCCACCTTTAATGGGTGTTGTGATGTCGGTTCCTGGGACCCAGTTTCTTCATTTACTTGTGAAAAGAATGGTA
Celera SNP ID:            hCV26475764
SNP Position Genomic:     90116
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63972):
CTCAGCAGGTTAGTTTACCTGCTGCACTGGGCGCTGGAGGCAAGCTTCATGTCTGCGTGAGGCTGGGACATTTCCTGGCGTTGACGCCTGTACCTTTCCT
R
GCTTGTTGATGTATACCAGGAGGAAGCATGTGATTGCCACCTCTCGTATCAGCTTTACACCTGAGATACCTTACCAAAAATATTAAATAGTCTGTAAAGC
Celera SNP ID:            hCV26475765
SNP Position Genomic:     89747
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63973):
TAAAACAACTATTGAGGTAATTACACTAAATAAATGAGGTTTTGAACTTGTTGTGTTGTTAAGATGTTTAATGAGGCTTGGTGCGGTGGCTCACGCCTGT
W
ATCCCAGCACTTTGGGAGGTCGAGGCGGGGCGGATCACGAGGTCAGAAATTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATAC
Celera SNP ID:            hCV26475766
SNP Position Genomic:     86835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63974):
TTATTTTTCATCCTAAAATGTATCTTACAAATTTCCTGGCCCTGAGGTTTCATTTTTAAGAGAGAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGTGTGTG
W
GTGTGTGTGTGTGTGTGTATGTTTTGCTGTTGTTAACTACCTTAAATCCTGTACAGAACAGTCTGAGTAGGAATGAGTAAATGAGTGTTTGAGTGAGTGA
Celera SNP ID:            hCV26475767
SNP Position Genomic:     83400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63975):
GAGGAACCATTCTTAATGAAAATGGATTATGCAGACCTTTTTTTTATTGAACTTGTCAATATTTGATTAATGATTAAAGTGTGAACTCAACATAAATTAT
K
AACACTTTTTAAAAACCATGTGTATGTTTAATTTTTGAATGTATTATGTGCAACCTGAGATTACAGCTGTTAGGCTCTAGGAAAAGCTTGTGAGGATGGT
Celera SNP ID:            hCV26475768
SNP Position Genomic:     82230
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,4)   total(G,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63976):
AATCAGCTGGGTGTGGTGGCACATGCCTGTAGTCTCAGCTACTTGGAAGGCTGAGGCAGGAGAATCGCTTAAACCTGGGAGGCAGCAGTTGCAGTGAGCC
R
AGATCGCACCACTACACTCCAGCCTGGACAACAGAGTGAGACTCCATCTCAAAAAAAAAAGAACTTTTAAAATATATATTTTTTAACTCAAGATACCTGA
Celera SNP ID:            hCV26475769
SNP Position Genomic:     53346
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63977):
ACCAGGTAGACTTTAAGGGGATTCCTGGACAGCATTTTTAGAGAGAACCAAGAGTTAGTGAATAAGTGACTAAAATATTACAGTCAAGGGGTGAACGGGG
G
AGGCAGAGATAGGAGGTACATGATGACGTCTGTAGAGGGACTGGGAGCCCTTGGTGTTGCTGGGAGGGTGTTTTACATATTTTTGCTGGTTTCCTTTTAT
Celera SNP ID:            hCV8431175
SNP Position Genomic:     18216
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,6)   total(G,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63978):
ACGTTTTGATGTGAGTGTCTGGTCATGCGACCACCTGCCCAGTCAAGTGTTAGAACCTCCCGTCACCCCAAAAAGTTCCCTCATGTCCCCATCCCCAGCC
R
TTGTGCCCTCTGTCTCTATAGTTTTGCTGGTTTAGACTTCTTGTAATTAATTTTGCTCTTGTTTTCCAGGAAGATAAATCCGTCTTGAAAAACCACGATC
Celera SNP ID:            hCV25942930
SNP Position Genomic:     87649
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(G,36)   total(A,5|G,65)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63979):
CAGAAGCCAGGTCTGTCTTGCTCCCTGCTTTTCCACTTCACTCAGAGTGGGTGCTGTGAATATTTGTTGAATGAGTGAATGAATGAATGAAATCCATGAA
R
CAACTCAGGAGCAATTTCACGTGGCATAAACCAGAGTGCTACGTGGTATTTTGTAGACTGCATGGGTTAGACATTTAGAGGTCACTGGAGGTCATATGTA
Celera SNP ID:            hCV11296863
SNP Position Genomic:     60571
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63980):
GCTTTTTTTTTTTAAGTGCTTTCTGTATTTTCCAAAAAATGGGGTGATGTGAAATATACTCCCACAACACTGTCAAGCCCCTTTTGTTCTTTTTTTTTTT
T
CACCCAGTGTTCCCTACAAGGCCTCTTACCTCCCCACAGATGCCGAGAGCTCTCTTCAGGTGCACCCTATGCCCTCTTTCTGCACCTTCTTACTGGCTCT
Celera SNP ID:            hCV8431104
SNP Position Genomic:     46116
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63981):
TTTGGCTCAGTCTCTGGAATTCACCCATGTTGCTGTGTGTAGCTGTAGTTTATTCTTTTTGAAAATTTCTGTATAGTTTCTCACTGTATGAATGTACCAC
A
GTTTTTTATCTGTTCTGTCGATGGACATTTGGGTGGTTTCCAGTTTTTGGCTATTACAAGTGAAGCTGCTAGAAGTAATCTTGTGTTTATCTTCTTGTGG
Celera SNP ID:            hCV26475770
SNP Position Genomic:     52667
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63982):
CTTTGGCTCAGTCTCTGGAATTCACCCATGTTGCTGTGTGTAGCTGTAGTTTATTCTTTTTGAAAATTTCTGTATAGTTTCTCACTGTATGAATGTACCA
C
AGTTTTTTATCTGTTCTGTCGATGGACATTTGGGTGGTTTCCAGTTTTTGGCTATTACAAGTGAAGCTGCTAGAAGTAATCTTGTGTTTATCTTCTTGTG
Celera SNP ID:            hCV26475771
SNP Position Genomic:     52666
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63983):
TAGGCTGGAGTACACTGGCACCATCATAGCTCACTACAACCTTGATCTCCCAGGCTCAAATGATTCTCCCACAGGTGTGCACCACTACATCTGGCTAATT
K
TTTTTTTTTTTTTTTTTTTTGTAGTGATGGGGTTTTGCTATATTGCCCAGGCTGGTCTCAAAGTCCTGAGCTCAAGCAATCCTCCCACCTTGACCTCCCA
Celera SNP ID:            hCV26475772
SNP Position Genomic:     28062
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,13)   total(G,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63984):
CTTATATTGAGGCAAAATAGGCCTCCCTGTAACCTTCATCTTACAGTTTTGTTTCTGGTTTTTAGAGCAAGAGAGTCAATCTCATAATCTGCAGCATGAG
W
ATTCTTTTTACTCACCAGTGAAGCATTCATAACCTCTGTCAGGCACCTGCTTGGAATTACAGGTTTACACAGTTAATCGGAATAAATCCTGTCTTCCAAA
Celera SNP ID:            hCV15841805
SNP Position Genomic:     43130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63985):
ATAGACAGGATGATTTTTAAATCAGTGAAGTTCCCTGGCAGATGGGGTAGCACTGTTTGATTTAGGCTGTTCTTTCTTGTTTTGTAACATTTCCATTGAG
R
TATAATTTACATACAATGAAAGGCATACTTCTGAAGCGTACGTTTTGATGTGAGTGTCTGGTCATGCGACCACCTGCCCAGTCAAGTGTTAGAACCTCCC
Celera SNP ID:            hCV8900110
SNP Position Genomic:     87509
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,16)   caucasian(A,6|G,18)   total(A,18|G,34)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   (G,-|A,-)   SG_12_A(G,3|A,18)   SG_12_G(A,9|G,12)   SG_12_AA(A,11|G,12)   total(G,27|A,38)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63986):
TTGGAAGTGTGATTAACGTCCTTATTACCAGACTCCTTGGTGGTTTTAGTTATTTTCAGGTCAAGTTCGATGGTCCTCCAGAGATGCCCTCCGCAGATAT
R
GGAAGCCTGAAATGCCCAGAAGGGTGGAGGTGCTGTGTCCAGGCTGTGCCCTTGCTCTTGGCTGTGAGCCAGAACCATGGGGAGATTTTTTTCTCTTCTA
Celera SNP ID:            hCV26475775
SNP Position Genomic:     19371
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63987):
ACCAAGGCTTGATCAGGATTCCACATGGAGAGGCCTGACCTGGTGTTGCTCCCCAAAACTTAGCTCTGCTCTACTTTGGAGAGTCTAGGAGTGGCCTGGC
S
CATTGCGTAGGGACAGCTTTTACCGTGGGAAAATGGCGTTGTTGGAAACAATATTTTCTAAGGTAGATTGCTTGTTCAAATGAGGAGTGCTATGTTTTCC
Celera SNP ID:            hCV25942797
SNP Position Genomic:     86457
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,38)   total(C,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:63988):
GGGCTAGATCACTACTGGTTACAACCTGGAAGATGACCGCTGTGAGTGTGTGGCTCTGCAGGATTTTCGGGCTGGAGAGCAGGTGGGTCTCGTGGCATCT
M
ACAAAATGTGAGCCAGCCAGTGGGCACTAACGTTAACACCGTGTTGGTAATCTTAAAAAGGAACTTAACTTAGGGGAAAAAATGTGGAATTCACATTGAG
Celera SNP ID:            hCV8900115
SNP Position Genomic:     80363
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,36)   total(A,1|C,69)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (C,-|A,-)   SC_12_AA(A,1|C,22)   total(C,22|A,1)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63989):
AAACAGTATTTACAAGATGAAATGCTGACCAGGTGAGACGCGAGGGTTTCCTTGTAACTTGTGTGCTGAGGCCATGACATTGGCTGACCTTCACTAAGAC
R
GGGGAGCTTAGAAGGAGACGCAGGTTTGGGGTATAATGAGAGGATTTTCTATATTTATTTGTAATGGACTTAGAAACTCTCACATTGTATTTCTCAGCAG
Celera SNP ID:            hCV8900116
SNP Position Genomic:     79580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63990):
TTGCATTGCATTTTACCGAGCCGCCCATCTCTGCTCAGCTTTTGGCTTTTCTCCGAGTATTCTGTATGACTGAAGGTAAGTCATTTCAGGAAAAAAGAGA
W
GTTGACTTTTTTCTTTTTAAATCATGAAAGTGTAAAGCATAGGGATTCAGATTAAAGGTAAAGTGGATTAAAACTACAGTACTTTTGGGAAGAGAGAAGA
Celera SNP ID:            hCV25933903
SNP Position Genomic:     82658
SNP Source:               Applera
Population(Allele,Count): african american(A,5|T,33)   caucasian(T,36)   total(A,5|T,69)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63991):
TTTCATGAAGAGCATGAAGTATGTTCAGAATACCTATTTGAGTGTCTCATTTGTTTAAACTTGTAATTTAGCCCCAAATTCAGCTGAAATGATCATGAAA
R
TTATTCACGGTATATAACAGACTTTTGAATCATAAATGAAAAGGGTAGTTATTTAAATCCATAAGGTTGGGGAACTTACATGGCATGAATCTTTTTTGAT
Celera SNP ID:            hCV1259094
SNP Position Genomic:     14392
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63992):
AGAGAGACGTTGTGCAGCTTAGTTTAATCAAGCTTGCGTATACTTAGAGTCCACCTATATGCTGGAGCTAATGCAGGATTTCAGGTTTGAAGCTATGGGT
Y
TGCTGCTTGGCAGCTGTGGTCTCTTGGCCAAGTCACAGCCCTCTCTAAGCCTCCTGACAACTGGCTGTGGTCACTGCCGGCCTCAGTGGGCTATGGTGGG
Celera SNP ID:            hCV1259095
SNP Position Genomic:     14855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63993):
TGTGGTCTCTTGGCCAAGTCACAGCCCTCTCTAAGCCTCCTGACAACTGGCTGTGGTCACTGCCGGCCTCAGTGGGCTATGGTGGGGATGCAGGGAGGTC
R
TGGGCGGATGCTCGTGTCCTTGGTCACAAGTGCCCATGGAGCTTTTCCCTGTGCTTGGGCCGTAAGCTTTCCTTTTCTATCAGAAACAGACTAATTCCTG
Celera SNP ID:            hCV1259096
SNP Position Genomic:     14970
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,7)      total(G,7|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63994):
CTTTATTGCTTTCTAAAGACCAATAATGCTTTAAAAATTCCAGTGTGTTTTTCAGAGTCTCTCTTATTAAATGTAATGTCCTAAAGCTTTTCTATCTAAA
R
CTGGATTTTGAAAAGAGATCATCTTTAAAAAAGTTTTTTTTGAGACAGGATTTTGCTATGTTACCCAGGCTCCAGCCCAATGGCTATTCACAGGTGTGAT
Celera SNP ID:            hCV1259097
SNP Position Genomic:     15171
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63995):
TGGGTTACAGAACTGGTACCGAGAAACACTTGCCTTCAGTGACTTAAGTTCACGCCCGACTGCCTGGGATTCAGGGTACAGGGGACTGAGGAGAGCCCTC
S
GACAGGGTAGACCCAGCCAGTGGGGAGGCTTACTGGAAGAGCCCTGGAAACTTGTTTTTGGGGGGAACAGATTGAGGAGATGGCTTGGGTCTAGGATCCT
Celera SNP ID:            hCV1259098
SNP Position Genomic:     16248
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:63996):
ATGAAGCTGGACATGTAAAATAGAGTGAGGCAGTTCAGTCCTCGAAGACCTTGCTAGGGAGGTTACGCATTATCCCGTGAGCTGTGGAAAGACGTGTGAG
Y
GAAAGAAACCTACACAGTGTAGAATTCCACTTATATGAAGTTTAAGAATAGGCAGAACTAATCGGTAATAGAAGTTGAAATGTGGGCTACTGGGGGAAGG
Celera SNP ID:            hCV1259099
SNP Position Genomic:     16874
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:63997):
ATTTTCACTTTGTAGCATGCTTACTACACAAGAATGTTACACTCAGTTACATCTCCTCCTCCAGCAAGCACTTCAAATATGTCAAAAATTATACATGACT
R
TTGTCTTCATGTGGAAATCAATCACTCGGTTTTTCTAAACTTTAGGAAGTCATTAGGAATGGTCATACAGTATGTATATAGCTTTTATTTCAAGTTGGCT
Celera SNP ID:            hCV27991808
SNP Position Genomic:     29558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:63998):
CTATACCAAACAGGTGTATCAATACTTTCAGCTATTTCGTGTCTAAATGTAAAGTAGCACTAAGCCTCTGCCCTGCCCTGTGTTAAGAATACATGCCAAG
Y
TTGTCTAATGCCCTTTTCTTTTTTCTTTACTGCATCTCAGATTTACATTTTTTATGGCACTCGATCCAACGCAGAGTTTGTGATCCACAGTGGTTTTTTC
Celera SNP ID:            hCV25963701
SNP Position Genomic:     81448
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(C,1|T,35)   total(C,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:63999):
TCTAAAACTTCTAATTCCCAGACCCATCCTCATGCCAACAAACTACCCTTGAAGGATTCTTTCACTTACGAGGACTACAGGTTGGTGTGGGCTGTGAGTG
Y
GTCTGTGTATTGAGGGTGGTTTCTAAGTGAAGTGGGATCCTGGAAGGGAGGGAAGGGCTTCAGTGAGAAGTGACCTGCTGTGACCGTTAAAGCATCCAAA
Celera SNP ID:            hCV25934926
SNP Position Genomic:     73001
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,36)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:64000):
TTATCATAGATTTTCCTGTTAGTAAGTATATTCTAAAAAGAGTTAACTAAGAATAAGGTGGATGTGAGCTAGGTGCTTGCTCAGTGCTCTCTCTTGGGTA
M
GTTAAGTGGGGGATGTTTTTATGATGCCCCAGGGTTTGTCTGCTTTGAGAAGTGTACCTGCCTTGTACTTCTCACATTCATTATCATGGCTGTCATATGT
Celera SNP ID:            hCV27920789
SNP Position Genomic:     23052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64001):
ATTTGAATATTTATTTGAAGTGCTGATATGCAGCCTTAAGTTGTACTTCATGTGTGATTGGATTTCTGACCGTAGATATGGTTGGATTGAAGACTGTACC
R
TGTTTTGATGATTCTCCTATTATTATTTTTTTCCCTAGGCAGAAGAATTGTTTTTATGGGTTCCACGAAAATTGCTAATGACTGTTGAATCTGCTAAAAA
Celera SNP ID:            hCV25961747
SNP Position Genomic:     27632
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,1|G,25)   total(A,1|G,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:64002):
AAGCAGTCATGGCCCATGTGGGGGAAGCTGCTGTGCTCGGCGGTCACTGGCTTTGGTTTTAATGTCTGGATCCAGGGAGCAGTGCAGCACAAGTCCAGGG
Y
TTGACGTCATGCTGGAGGCAGAAAAAACCTAGTCCCGAAACAGGAGAGGCAGTTCACACACCAACCGCAGAACCCAAACTGAGATACAGTCATTGTTCCT
Celera SNP ID:            hCV29132933
SNP Position Genomic:     83656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64003):
CTGCCCATCTTTAGAGACTTAACTCGCATGCCACCTCCTCTGTGAGTCATTGCCAGATCCCCCTCTTCCCGACAGTGACTGCAGCTTCTTTTCTGAATTC
S
AGCACGTGTCATGTATCCTGGTGTGACACGTCACAGTTTGCCTGTCTGGGCTCCCTGCTCCAAAGTCGTTGGCTCCTTAAAAGCAGGGAACTCATCTTGC
Celera SNP ID:            hCV15793818
SNP Position Genomic:     59020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64004):
AATATTTGATTAATGATTAAAGTGTGAACTCAACATAAATTATTAACACTTTTTAAAAACCATGTGTATGTTTAATTTTTGAATGTATTATGTGCAACCT
R
AGATTACAGCTGTTAGGCTCTAGGAAAAGCTTGTGAGGATGGTCTCCAATTCTGGATGTCCGCTTGCCTCCGCCCCAGCCTGCGGCCTTTTGCAGGGGCT
Celera SNP ID:            hCV29132934
SNP Position Genomic:     82287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64005):
TTTAAGATTTTCTTGCATTTGAGGCATAAAATGATAAAGAAGACAGGAATTAGGATTCATTAGTTCTCCAGGGAATAGAGGAACCATTCTTAATGAAAAT
R
GATTATGCAGACCTTTTTTTTATTGAACTTGTCAATATTTGATTAATGATTAAAGTGTGAACTCAACATAAATTATTAACACTTTTTAAAAACCATGTGT
Celera SNP ID:            hCV29132935
SNP Position Genomic:     82153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64006):
TCGGCCGTGCTCAGGAACTTGGGGTTTATTCCGAAGGCAGAGCGGAATCATAGGAAGATTTTGAACAGGAGAGTGACATCGTACAATTAGCAACTCCAGA
R
GGACAGTATTGGATTTTGAGACTAGGTTCCAAGAGTTGGAAGGTTTTTGCAAATAACAAGCTAGGTGAGAAGGAATAAGGACTATAGCCATGCAGAGGAA
Celera SNP ID:            hCV8900120
SNP Position Genomic:     79364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64007):
AGTTAACCTCAGTGCTCAAGCAGTTCTTTGCCCCATTTTCCAAAGCATTCAGATGCCACCTTTTGAGTACCTTGGGATCCCCTTTTTCCTCTGATTGCCA
R
AAACAAGCTTGTAGATTAAGTGAGATGTGCGTGTGTTTGCCTCACCATCATTTCCTTCCTCCTCCCCGGGCTAGATCACTACTGGTTACAACCTGGAAGA
Celera SNP ID:            hCV29132936
SNP Position Genomic:     80195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64008):
GACCATCGACAGACAACCTAAGAGATTGGGCGCTGCTCTAAAAGACAGGACTCTGAGAAGGAGGTTTTAATAGAAGCTGGGGACCCTTTCCTTTCCCCTG
S
GGGTTCATGCATCACGTGAATATTCTCAAAGACCACTTCAGGTTTTAGGTTCTGTGTGCTGAGCACTCGGGACACAGAGATCAACAAGGGGCTCCAGCTT
Celera SNP ID:            hCV8900121
SNP Position Genomic:     78940
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64009):
TCAGGTTTTAGGTTCTGTGTGCTGAGCACTCGGGACACAGAGATCAACAAGGGGCTCCAGCTTCCAAGTGTGACCGACGGGGAGGCAGGTGCACAGATAA
Y
GTGACTTGGGCTGGAGCGCATAAGGACTGGGCTGTGGGAGTGCACAGGAGGGCAGGGTAAGGAGGGGCTTCCCTGAGAAGCCAGGCCACAACAGGAGTAG
Celera SNP ID:            hCV29132937
SNP Position Genomic:     79078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64010):
GGGAGCAGGGCTCCATGGAGCTGCTGGAGGCTTCCACTCCCTGCTGGGTTCCTCCTCCAGCATTGCCAACAAACTCCGGCTGCCACCCGCTCCCCTCCCC
Y
GGGCACACTTGAGACTCCTGTGGGGCTATTCTCAGTTCCACTTGCTTTTATATATACGTATATATATAAATTTTTTTCTCCCTGTGTCTTTTCCACTAGA
Celera SNP ID:            hCV8900122
SNP Position Genomic:     77484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64011):
CTCTGCGTTTCTGCTTAGATCCAGTGCTCATCGCGTAGGCGTGCCTGCCTTTTGTAAAGTCGGTCCACCTTAAATTGTGTTTTGCGCGTTGTCTGTGGGT
R
CTAGTATCGAAATATGAAGAAGCAGATTTATGGCGGCTGCTGGGCACAACAAATTAAGTTGACAGTGATGTATGAGAGCATAACAGCGCGATGATCCCTC
Celera SNP ID:            hCV29132939
SNP Position Genomic:     72680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64012):
CCTCCCATTAGAATGGAAGATCCATGAACGCAGGGTGATTTTGGGGGAGGGTCTGTTTTGCTCATTGCTATATCGCTGTGGTTTTTAATGAATTCATGAC
Y
GGTAAATAAATGACTGTAAAAGCCCCATGCCTAGGAAAAAAGATCAGAAAGAAATAAACCAAAATGTTAACGTGATTGTGATCTTTTTTCTTTGTTTTTT
Celera SNP ID:            hCV8900126
SNP Position Genomic:     76981
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64013):
CTTGCATGATTTGTTCAAACTTAATGTAAGCAGCAGGTTTCCTTTGTTGAGGATTTTTCGGTTGATATGACAAGGATACTTCTAAGTGACTGTTAGACAG
Y
GGTATTAGTTCCCATACAGAGAGTATGTTGGAATAATCAGTGCTTGCATTTGAATCTGCGACTCTACCAGGTGGGATGAAAGGGCAGCTGGAAATTCAGG
Celera SNP ID:            hCV8900127
SNP Position Genomic:     76344
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   (C,-|T,-)   SC_12_TT(C,6|T,18)   total(C,6|T,18)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64014):
GCTTCCATGTAAATGGGATAAAACAATTCCTTTTTCCCTACCAAGTGTTAAAAAAAAAAGAGGTTAGTTTATCTCAAAATAAAGAAATTGATGACAACCA
R
TGCTGTGTTTTCCCTAATACGACTACATACTTTTTAACCTACCACAGTCCTGGCAGAAACATTGCTAACCTGTAGAAGGTTTATTCAGGATGCTGGTACT
Celera SNP ID:            hCV8900128
SNP Position Genomic:     75585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64015):
CTTGATCAGGATTCCACATGGAGAGGCCTGACCTGGTGTTGCTCCCCAAAACTTAGCTCTGCTCTACTTTGGAGAGTCTAGGAGTGGCCTGGCCCATTGC
R
TAGGGACAGCTTTTACCGTGGGAAAATGGCGTTGTTGGAAACAATATTTTCTAAGGTAGATTGCTTGTTCAAATGAGGAGTGCTATGTTTTCCTCCTAAC
Celera SNP ID:            hCV25942805
SNP Position Genomic:     86464
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,32)   total(A,2|G,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:64016):
TGGCAGATGGGGTAGCACTGTTTGATTTAGGCTGTTCTTTCTTGTTTTGTAACATTTCCATTGAGATATAATTTACATACAATGAAAGGCATACTTCTGA
R
GCGTACGTTTTGATGTGAGTGTCTGGTCATGCGACCACCTGCCCAGTCAAGTGTTAGAACCTCCCGTCACCCCAAAAAGTTCCCTCATGTCCCCATCCCC
Celera SNP ID:            hCV16066473
SNP Position Genomic:     87544
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64017):
AAAAGTGAAGTTTTAGTATTTTTACCAAATGTTCTTTTGTCCAGGAAAGAAGTAAAATTTAAATATGCTGATCTGTTTTGTCGTTATCCTATGTGTTTGT
S
AAGTTATTTTATAGTCTCATAGACCTGCACTTCTCCTGATTTTCCGTGCTTGATCCGCATTTGCCGTGTATATGATTCATGTGCGAACAAGTTGATTCCC
Celera SNP ID:            hCV3236649
SNP Position Genomic:     72315
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,6)      total(G,2|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64018):
CTTCGTCATTGTGACATTGAGTAAGAGGAGAAGGGGTGGGTCTTGCTGTCTCAGGAGTGGCAGATCTGGAAGAAAATCTATGTATAAGTGGACCCACTCA
R
TTCATACCCGTGTGGTTCAAGAGTCACCTGTATATTCCTTCATTTGTCTATCTTCCCAACTTGAATGTAAGCCCACTGAGGACAAGGACTTTCCTTCATT
Celera SNP ID:            hCV2120969
SNP Position Genomic:     44381
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64019):
AATCGCTTGAACCCGGGAGGCAGAGTTGCAGTGAGCCAGGATTGTACCACTGCGCTCTAGCCTGGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAA
A
GAAATGAAATACTTTTTCTTTGTCCTTGGGGTTCTGTCTGGGGTCTTCTCGGTGGTGTGTGTCCCTGCCTTGGAGCCTGGGGGAGGGTGCCCCTAGTGTA
Celera SNP ID:            hCV11296883
SNP Position Genomic:     39876
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64020):
CCTCCTCCCCGGGCTAGATCACTACTGGTTACAACCTGGAAGATGACCGCTGTGAGTGTGTGGCTCTGCAGGATTTTCGGGCTGGAGAGCAGGTGGGTCT
Y
GTGGCATCTCACAAAATGTGAGCCAGCCAGTGGGCACTAACGTTAACACCGTGTTGGTAATCTTAAAAAGGAACTTAACTTAGGGGAAAAAATGTGGAAT
Celera SNP ID:            hCV25967205
SNP Position Genomic:     80353
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,34)   total(C,69|T,1)
SNP Type:                 INTRON


Gene Number:                 396
Celera Gene:                 hCG24776 - 66000115970741
Gene Symbol:                 MAD2L2
Protein Name:                MAD2 mitotic arrest deficient-like 2 (yeast);MAD2B;REV7
Celera Genomic Axis:         GA_x5YUV32VY08(8409921..8439606)
Chromosome:                  Chr1
OMIM number:                 604094
OMIM Information:            MITOTIC ARREST-DEFICIENT 2, S. CEREVISIAE, HOMOLOG-LIKE 2;MAD2L2


Genomic Sequence (SEQ ID NO:12556):
TTCATGAGTCTATTCCCTTGTCTGTGAAATGGGATTATTAGGCTGCCATGAGACTTGACTACTTAGGAAGTCAGTGCTTCTGTGTGGTTTGTGTGTGGGT
GGGTGGTGGTGGTGTTCCGGGTATGGATGGAGCCCGGCAGTGCAGGTGGCATAGAGGATGGGGCGGGTGGGATTCACAGCAGCTGCCCTGCTGGGTGTTC
ACTGGCATACTGGTGCGTTGATCATCCTGGACTAGTCCCTACCCATCTCCCTGCCTCCCTGTGGCTCTGTATCGCCCAAAGTGTCACCTGACCAATAGGA
AGGGGCCTCTCAGCAACCCCTAGGCCTCAGAGCAGCCAGAGCCCCACCTACCCCTCCACGGGTCTTTCTCAGGCACAGAGCTCTGCCTTTTGCTCTGCTG
GGGACTGCTGCCTCCTTGCGATGGAGATCGCAGGGGAGAGTGAATCCCGGTGGTCAGCCACTAGCTGAGCCCCTCTGTGTGCAGAACCAGGATGCCAGAC
AAGGGCACCTGCTCCAGTCTGAAGGGAGAGACCTGGCTTCTGCTCCTGGAAACCACCAGTCTGAGGGCGGACACATAGTCCTGGCTCATTGGGATAGGAG
GGAACCAGGTCATGCCTTAGAGGACTCTATGACTATTAGGGGACCTAGCCCATGGCTGCAGAGTGCTTTCAATCTAAGCCAGAAGCAGCCCCTGCCCTGG
GGAAGCCTCCCATCTAGCAGGGTAGATACAGTTGCTGTCCTCAGGAATTTGCCAATCTGATAGGAGAGGCACAACTCTGGCCTTGGGAGGGTCCCAGAAC
ATGGAGCTGCTGATCTGCCAGCAAAGACACAGTCCTTGCCTCCAGGTGTCCCCACTGATAAGGGAGACAGTCCGGGTGAGAGGCCACAGGTCTCATTAAT
GAGAGGTGGAGGCCCAGACATCACTACTACCGATTCCAGCTCACAGATGTCAGCCCAAACCCACTAAGCTGACCCATGGGAGGGCCCTCACTGAGCAAAG
CAGAAGGAGCTAGACAACCTGGGCAAGTTTTTTAACCTCTCTGGGCCCCAGTTTCCTCTCTTGTAAAATGTTAGCTGTCATGAGGATTGGGGAGTAAAAG
TTGTTTTTTTTTTTTTTTTTAATTATTAAGATGGAATCTCGTTCTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCGGCTCACTGCAACTTCTGCCTC
ACGGGCTCAAGTGATTCTTCTGCCTTAGCCTCCCAAGCAGCTGGGATTACAGGCATGCACCACCATGCCTGGCTATTTTGATTTGTTTTGTTTTTGTTTT
TTGAGACAGAGTCTTGCTCTGTCACCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGAAACCAGGAGGCTCATTGCCTCCTGGGTTCAAGCAATTC
TTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCACACCACCACGCCCGGCTAATTTTTGCATTTTTAGTACAGACAGAGTTTCACCGTGTTGAT
TAGGATGTTCTCGATCTCTTGACCTCGTGACCTGCTCGCTTTGGCCTCCCAAAGTGTTTTTTGTTTTGGTTTTTTTGAGACAGATTTTTGCTCTTGTTGC
CCAGGCTGGAGTGCGATGGCACAATCTCAGCTAACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTTCCGAGTAACTGGGATTAC
AGGCTCCCACCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTTACCACCTTGGCCAGGCTGGTCTCGAACTCCTGACCTCATGATCC
GCCTGCCTCTGTCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCTGGGGAGTAAATGTTTATAAAGTAAATGGGACACAGAAGGGTGA
AATAAACAGTAGTTGTTACTATGGGAAGGGGAGACAGAGGGAGTAAGGTGGCAGGCATGGGTGTGGTGGGGGCCAGGGAGTTTCCTGGAAGCATTTGTGC
ATCTGTGCCTGGGTGTGCAAAGGGGCAGGCGCAGGTGGCTGCGTCCTCTGTCCTCAGTGGGGTGATCGATGGCAGGGCAGGACTGTCCTAGGCCAGCCTG
GAGGGGACCATTGTCCTGGCAAATGAGGTTTGGCTTCCCTGCAGGGGCAGCTCCATCTGCTTTTATTGTTTCCGACAGCAGCCTTGGGATTTTCAACCCA
CCCCAGACCTCACACCTTAAAAACCTGTACAGGGGCTTTGCGGGAGTTCATCAGAGGCCCCACCCATTCAAAGGCCTCCAGCTTCCAGCATTCCCCGCTC
ACCTGCTGAACTCGAGTCCTACCTCCTGCTAGATTATAGGTACTTGTGGCCCCTCTTCCTCCTCTCCTAGGCAATTTGTGGGTGGGGGAAGCAACCCTCA
GCCTCCATATTCCTCAAACTTCATTATCTTGGTACCTAGACCATTTAGCTCTGTGTTTGTTTGGGTATCATCTACTGTTCTAGGTTCTAGGCCCAGAGCT
TTATAGGCATTATTTAACTTGACCCTTTGAAGTATATATATATATATATATTTTTTTTTTTGAGACAGAATCTCACTCTGTTGCCCAGGCTGGAGTGCAG
TGGTGCAATCTCAGCTCACTGCAGCCTCTGCTCCCTGCAACCTGTGCCTCCTGGGTTCAAGTGATTCTACTACCTCAGCCTCCCAAGTAGCTGGGATTAT
AGGCGTGCACCACACTTCCCAGCTAATTTTTGTATCTTTTTTTTTTAGTAGAGATAGGGTTGCACCATGTTGGCCAGGCTGGTCTCGAACCCCTGGCCTC
AAGTGAGCTAGCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATAAGCCACTGCACCTGGCCTGAAGTGGATAATATTTTTCAGATGGTAATAGCA
ACAATGGCTGTGTAGGAACATTAAGACAATGACCAAGGGACTTGCCTAAGATAGCCTAGTAGAGCAAGTGATAGAGCTGGGATTCGAACCCACAGCCATC
TGACTCCTCAGACTCATCATCCCTGCTCCATCACATTCCTGGCCGAGACTGCTCCTCATGCTGCCATCCAGTAACCAACACCAGTGCAGCTGCTGTGAGT
CCCAGGGAAGGTGGCATGAGCTGGGGCCTGACCCAGAGCCTGGTACACCTGAAAACCATTAAGTCCTGCAATGAGCTCCTTCCAGTTGCTCTGGGTTCTA
GCAGGAGCCTCATCCCTCATAACCACCCCTTCAACCCCATCCCATCAAGAGAAGTCTTGGTGTTGGGGCATGGGTGGGTCATGGTGTTGGGGCATGGGGC
GTTGTCAAGCTGGAACCTGGGGTGGCAGAGCCTCTACTGGCAAGGATTCAGCCATCCTCCCACAACCTTCTTCTTCTTGGGGACCACTGGCCACAGCGAC
TCACCCCTGAGAAGGAAGGCTGGAGTAGGGCATGCAGAGAGGGCCAGCGGAGCAAGAGGGAGGCAGCTCCAACCCACTGGGCCAGAACAGGGGTGCTCCT
ATGACCTGCCCCCCAGGAACATGCTCATGCCTCTGAGGGAAGTTCGGGGAGGCTGGGATGCAAGTCCCTGCTCCATCACATTCCTGGCCGACACACGTGA
AGGAACTCCCTCTGGGTCCCACAGCTGCTAAGTGATCAGCTGGGCTTCAAACCCAATCTGCACGGCTGGGGTGAGCCACTTCGTTCTCTGGTCTCAGTTT
CTACCCCTATAACAGGCACAGAGACCACCCTCATTTTCCAGAGTGATACAGGGCCTCAGTATCACAGGGGTTTCCGGGCAGCTTGCTCCCCCTCCAACCT
CCCCAGCCAGAGGGCCAGCTCCGCCCTGGCCCCACCAGCAGGACCCAGCAGAACTCAGCAAGACACTGGGGCTTGCAGTTTTCAGTTCATTCCTGTGCCT
TTGACCAGGAATCACATTCAATATAACAGGTGTGCACAGAGCCCCTACTGCGTGCCAGGCACTGGGACCACAAGCAGAAGGAGACCCAGCCCCCACCCAG
GGAGGAGCAGACCCCTCCCAGATAGGGATTATGCCGTGCAGTTCACAAGAGCTAGGGAGGCAAGGGAGTGCCGGGGTGCTTCCCACAGGAGAGGACATCA
GACCTCCTTGGTCAGCAAAGACAGAGGGCTGAGATCAAACACAGGGCAGGGCAGAAAGAGCCCTAGCAAAAGCTCAGAGGAGGGCAGACTGTGGAGATGG
TCAGTTCTCCATCGTGGCTGCAACCTGGGACGCAGAGGGGACAATGCTGGGAGGCAGGCAGGACAGGGCTAGGCTGGGCTGAGGTCTCTGTAGTTAACTG
AGTGGCCACAGTGAGCCACTGAGGACTATGGACTGGGAGGGCGATGAATTGAATAGTGGGGAGGAAGGCAGCGGAGAGAGCAGAGAGGACCTGAGCAAGG
TTCCCGAGCCTCTGAGCTGGCTTTGCTGCAGAAGGCAGGGGGTAGAGATGGTATGAAGGGCCGGGTTCACCAAAGTAGGGCCTGTCTGCCAGGTCGGATT
TCGAGCAGGAGCCTGGATGGGGGATGTCGTGGGGATATCCAGCCGTTCTTGCCTCTAAAGAGAAAGGTTCCAGTTGCCAGCCCTGGCTGTGGCTGAAATA
AGAACTCAGCCAGGGGAGCCTGGAACCTGCCAGCTGGGAGGTTTCCCTCTTCTGAAGTTGCCCTCATTAAGACACTCAGGCCACGTCACTGCCAGACTCC
TGGAGTGGTGTGTCACATGTTATGACCACCTAGACAGTGGTCAGGGGGCTTGGGCAAGCACACAGCAGGTCCAGGAGCCAGCAAGACAATCCCCTCAGAG
GAAAGGAAGTGGCCTGTGAGCTGGTGCCGCTATTAAAGGCATCAAGCCAAGACTGAGGTTCAGAATTGGGGGTGAGTCACCGGACGCCTTCTGATGGGTG
ATCAGTTGTTGGCAACACCAGCTCAGCCACACTGATCTCATTTTGAAAAAAAGTGACCCATTGGCCCTGATTGTTTTAGCTGATTTTAGGACAAGCAAAG
AGGAGGAGAGAGAGAAAGAGAAGAGTGCTTGCAAGGGTGTGGACGCCTGTATGGGCACGAGGAGGTGAAGGTGACAGGAAGTGTGATGGGGGAAGAGGCT
GTGGTGGTGGGGTTACTCTGAAGTGTCTCTAAGCCTTGACTTTGAGATCCATTTCTGTGGAGCCCCCTGTCCCCACCCCATCCCAGGTCTGTAGACTCCC
CTCCCCTCCCCTCCCTTCCTCCACAGGGTGTGTGAACCAGCACCAAGCGGCACCCCACAATTTCCACACACATCCCTATAGGTAGGGACTAGCACCATCC
CTGTTTTGTGACAGGAACACTGAGGCTCAGAGAGGTGCATTCCTTTGTCCGAGATCACTCCCAGAGCCCCAGTGTACCCGACTCCAGATGCATAGTACTG
AACCGGTTCCAGACACCAGTGTGTCACTGGGCTGGGAGGTGGGCAGCGTGGAGGGAGCATATAGGGCAGGGGAGACCACCGGGCGGAGAGGATGGCCCAG
GGAGCACCCAGCTGAGGAAAGCAAGAAAGACTTGGCGGGAAACCCCAGCCCTCTCTCATCTCATACCCCGGCCCCGAAGGCGGCTGAGACCCTTGACGAG
CGGACGGAGAAAAGCCAAAAGCCGGCGGTGGGGAGCAGGAGGGACAGAGCGGGAGACCACAGGCGAAAGACCAGCGCCGTCGGGGGAGCCAGGCTGAGTA
CCTTCCTGGGCACAGATGGGACGGCGCGGGGCCACCGGCGGTGCTGGTTCCGGGCGCACTCAGCGACCCCGGCCACACACCCCAGCCTCCTGGGCGGCCT
CGAAAGGGGCTGGAGGGCACGCCCGCCAGCTCTGCCCGGGGCTCAGGGAGTCTTCGAAGACTTCTTCCAACGGTGGCGGACTGGGGCCCCCTGCCTGAGA
GACCACCCGGAGACTCAGAGACAGAGAGACAAAGGGAGACTGGGTCAGGGAGAGAGAAGGCTAGTGCCGAGGAGAGTAGGTGCGAGCCGGGACCCCAGAG
GGCGGCGAGGGCGCGCGCGAGGCCGAGTGTCAGAGCGTGGAAAAGTGGGCGTCCAGCGGTAGGTGGACGGATGGGGAGCCCGGGAGCAGAGCCAGGGTCC
GTGGGCAGACGCGGCGAGGAGAGGAGGCGGCGGAAGGACTGGCGGATAGACGGGTCCGAGGGCTGGGAAGGAGGCAGCATCCTCACTTYCAGCCTCGGGA
CCCCGCGCACCCCGCCCCTGGGCGCGCCAGGTAGCCCACCTTTGTCCGGGCTCGCAGCCAGGTGGGGCGGGAGGGGCGGAGCCAGGGGCGGGCCGAGGCC
GTGCCTTACCTGTCCGGCCGGCGGGTAGGGGGAGGAGGGGCTCGGGGCCGAGCGCCCGCGGGAGCCGAGCGCAGCCGAGGGCGAGCCGCGGAACGGGGCC
GGCGTGGAGAGGTGCGCGGGCAGCCGGAGGATGTGCCCGGGCTGAGCGGGACTGGAAGGAAGGGGGAGTGGGCGGGCAGGAGGGAAGGGGGCGGGAGCGC
GGGGAGGGGACAGAGGAGGGGCGGCGGGTGGCGGGCTCGACTGCCCCCAGCCGAGGGGCAGCCCCGGGGCCGGGCCCSGCGCGCACCCGGCCAGCGCGCC
CTCGCCAGCTGCGCTCTGAGTTCTGGGCCAGCTCCCCAGAGGCCTAGGCGCCGCCGCCGCGAGGGCGCGGGGCAGACAAAGGAGGCAGACAAAGGCGGGC
GCAGCCCAGCAGCCGTGCGGGCACCGGGCGAGGCAGGCCCACTCCTCCCGGTGCGTAAGAGCCGCCTCGGCGCGGCCCAGGGCGCGTGGGACGGGAGGGG
CTCCGGCAGTTGTGGCGCCTCTGGAGCGGCCCCGCGCAGGGCGGGCGACAAAGGGCCGCGGCGGGCGGTCCTCGGTGGACCCCAACAATGGAGCGAGGCT
GCGCGCTCAGCTGCGGCCGCGTCTGTCMGGGCAGGGGCCCGGGGCCACAAAAGGATTATTCCGCCTAGACTGTCAAAAGGGACGGAAGAAATGCCCAGGG
CGGGGGAGGCGGGACGGGGAACGGCGGGGCCTTTGTAGCCGCAGAAAGTGCGCAGAGTGGGCAGGCGGGGTTCTCCGAGAGGTCGCTCCTGGATGTAGGG
GTACAAAGGGTCTTCAAAGTGCTACCAGCTCACCTGGGGCGCTGACGGCGCACCTGTGCCCTCTTTCCCGGTAGGGAAGGGAGAAAGACAACCGCCCCAA
TACACACACACACAAACACACACACACACACACTCACACGCGGCGCGGCTCTCGCCACGCCCCGTCCAAAGCCGGCCTGAAGCTTCTCAGACCGGCCCAA
CCCGGACAAAGCCAGCGCTGGGGCCGGCTCATCCATCACCGCGCGGGGCGCCGTGTCCTGACGACCCTGGGAGTCTGAGAATGCTGGGTTATGGGTCCCG
TGCCTCCCATAACTCACGACGGGGTCGGTGGGGCCACGGACGCTGCAAAGATCAAAGAGYGATGGGGCCGGACTCCCATATGTGGGAAGCAGCGCTCCCA
CCTGGCGCCCTGAGCTCGCCAGGTGGCTTCCATTTCGACTGTTTTCTTTCTCCAGCGTGTGGCAAATTATGACTTTGAGGTTTTAGAACACAGTTCTGCC
GTCAGGCTAAATGTCTGTGTTCCTCTTCTGATGCCGTCCCCTATGACCTCGAGCAAGTCGCCTGACCTCTGAGCTCATGATTATACCTAAATTTCAGTGT
TCTAGGCGTGAATGCAGTGCCCTGTGTAAGGAGATAACGTTTCTAAGGTCTGGCCCATAGGAAATGCTCCTGTAAAATTAGCTGCCATTGTTACCGTGAT
ATTATTAGCTTGGTGGGCACCAGGATGGATTGATGAGAACACTGAACTGTTTATTCACTGAAAGGTTTGAGTCATCCATCCCATAAATACCTATTGAAYA
CCTACTATGTGCCGGCACCGGAGGTACAGTAGTAAACAACATGGACAAGAATCCCTGCCCCCATGGAGCTCAGATTCTAGTGAAGGAGACAGAAGATAAG
TGAACAAATAAATATAAATGATGTCAGGTGGTGATTAGTGCTATGAAGAAAAGTAAAGCACATTACAGACAAAGCATGAAGGGACGAGGTGTTGTTTTAC
ATAAAGTTATTAGGAAAGGCCTCTTTGCTGGGGCAGTTCTTTTGGCAAAGAAAAGGAGGTAATGAGCCACGTGGTTGTGGGGAGAAGACTTGCAAGCAGA
AGAGCCACTGCAAAGGTCCTGGAGCGGGAGTGTGCTTGGTGTGTTTGGTGGAGAAGAGTCAGKCTGGAACAGAGTGAGGTGACATCAGACAGGGAGCTGG
GATAGGACCATRTTGTTACAGGAAAGGGGTCCTGACCCAGACCTCAGGAGAGGGTTCTTGGATCTCGCACAAGAAATAATTCAGGGCGAGTCCATAGAGT
AAAAAGTTTATTAAGACAGTAGAGGAATAAAAAGAATGACTACTCCATAGACRGCACAGCACCAAGGGTTGCTGGTTGCCCATTTTTATGGTTATTTCCT
GATGATGTGCTAAACAAAGGGTGGATTATTCATGCTTCTCCCCTCCCCCCGCCTTTTGTTTTTCTTTTTGAGAGGGAGTCTTGCTCTCACCCAGGCTGGA
GTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCACAC
CACCATGCCCGCTAACTTTGTGTTTTCAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCCGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGTCTCA
GCCTCCCAAAGTGCTGGGATTACAGGCTCGAGCTACAGCACCCAGCCTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTTTGTTGCCCAGGCTTG
TATAGTGGCACARTCTCGGCTCACTGCAACTTCTGCCTCCCAGGTTCAAGCGATTCATGCCTCAGCCTCCCAGTTAGCTGGGGTTACAGGCACACACCGC
CATGCTCAGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATGTTGCCCAGGCGGGTCTCGAACTCCTGACCCCAGGCAATCTGCCTGCCTTG
GCCTCCCAAAGTGCTAGGGTTACAGGGGTAAGCCAGTGTGCCTGGCCTTTGCTTCCCCTTTTTAGACCATATAGGGTAACGTCCTGATGTTGCCATGGCA
TTTGTAAACTGCCATGGCACTGGTGGGAGTGGAGCAGTGAGGATGACCAGAGGTTGGTCTCGTGGCCATCTTGCTTTTGGTGGGTTTTGACAGGCTTCCT
TACTGCAAACTGTTTTATCAGCAAGGTCTTTATGACCTGTATCTTGTGCTGATCTCCTGTCTCATACTGTGACTTAGAATGCCTTAGCCATCTGGGAATA
TGGCCCAGCAAGTCCCAACCCCATTTGACCCAGCCCCTACTCAAGATGGGGTTGCTCTGGTTCAGACACCTCTAACAATGTGAGCCTGCAAAGGCCACAG
GGAGGACTTGAGCTTTTTAGAGGGACCATGAGCAGAGCAGAGACATGATCCGACTTAGGTTTTTAGCAGGTTTGCTGATTGCTTTTTCTTTTTTTTTTTG
AGATGCAGTCTTGCTCTGTTGTCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAAGTTCAAGCGATTCGCCTGCCTCAG
CTTCCTGAGTAGCTGTGACTRCAGGCACCTGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGAGTTTCCCCATGTTAGCCAGGATGGTC
TCGATATCCTGACCTCAGGTGATTCGCCAGCCTCGGCCTCCCAAAGTTCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCACGTGTGCTGATTCCTAA
GGTTGGGAGTAGTCTGCAGTGGGACAAGGGTGAAAGCAAGAGACCAGCTAAGTACTGTGGCAGAGAAGAGATGATGGTCACCTGGGCCTGGGAGAGGGGG
CAGTGTGCAGCCAGCATGATTTGCGTCGCCAAGGATAGAGCTGTGGGCCAGTATTCATGAGCCAGGAGAAAAACCTTGGAGTCTCTGGTTCAAATGCTGC
TACTGTGGCTGTCCCCTGGCTGGGTGATCTTCCGATGTGCTTGGAGCTGGGGTGACACAATATGAAAAGGTGGATGTTAGGAGAGGCCTGGACTCCTATC
CCATCCAGTTTATGATGACTTTAGGGCCTCAGTTTCCTTGTCTGTAAAATGAGGTACTTGAGGGGCCAAAGCAGGCTCCAATATTCATCAACTGATGACT
GGATAAGCAGATGTGGTCTATCCATACACGGGAGTATTTTGGTTCTACGAAGGAATGAAGTATCAATATGTGATTCGACCTGGATGAATCTTGAAAACAT
TATGCTAAGTGGAACAAGCCAGACATAAAAGACCATATTTTGTACAATTACTTTTATATGGAATGTTCCGTATTGGCAAGTCCAGGTCAGGCGCAGTGGC
TCATGCCTGTAATCCTAGCACTTTGAGAGGGTGAGGCAGGAGGACCTCTTGAAGCCAGGAGTTGGAGACCAGCCTGGCAACATAGTGAGACCCCTTCTCT
ACAGAAAATTTTAAAAATTAGTCTGGGCGTGGTGGCTCATGCCTGTCATCCCAACACTTTGGGAGGCCAAGGTAGGTGGGTCACCTGAGGTCAGGAGTTC
GAGACCAGCCTGGCCAATATGGCAAAACCTCATGTCTACTAAAAATTTAAAAATTAGCCAAGCGTGATGGAGGTCGCCTGTAGTCCCAGCTACTCGGGAG
GCTGAGGCAGGAGAATCGCTTGAATCGGGGAGGCAGAGATTTCATTGAGCCGAGATTGCACCACCGCCCTCCAGCCTGGSTGGCAGAGAGAGACTCCGTC
TCAAAAAAGAAATAAATGAAATAAAAATTAGCTGGGTGTGATGGTGCACACCTGTAGCCCCAGCTATTGGGGAGGCTGAGGTGGGAGGATCGCTTGAGCC
CAGGAGGTTGAGGCTTCAGTGAGCTGTGATTGCGTCACTGCACTCCAGCCTAGATGACAGAGTGAGACCCTGTCTCCAAAAAATAAAATAAAAAAATAAA
AAARTTGGACAATCCATAGAACAGAAAGTAGATTAGTAGTTTTGGAACTGATGTACCTGGCAACACACTTTGGGCATGAACAACCCTTCTCAAGACATCA
GGAGTGATGAAAATGTTCCGAATTAGAGAGTAGCGATGTACAACATTGTAACTATACTAAAAATCACTGAATTGTACCCAGGGAAAATGTGAACTTTATG
GTTTGTGAATTATATCTCCACAGAGAAGTTTTTTTTTTTTTTTTTTTTTTTTAAAGTGGCAGTTGAGCTGGATCAAAAGTTCTTACCTTGTGGCCCAGGA
TGGCTTCTGAATATATCTGGACACTCCTGATGTTGTGTAAGGCATTTAGTGTCTCTGGGCCGGGCGCAGTGGCTCAAGCCTGTAATCCCAACACTTTGGC
AGGTGGAGGCGGGCACATCACTTGGGGTCAGGAGTTCGAGGCCAGCCTGGCCAACATGGCGAAACCCCGTCTGTACTAAAAGTACAAAAAAATTAGCTAG
GCGCGGTGGCTTATGCCAGTAATCCCAGAGCTTTGGGAGGCTGAAGCAGGAACTCTGGAGGCCAAATGTTCAAGACCAGCCTGGGTAACACAGCGAGACC
CTGTCTCTATGAAAAARGAGCAGATGATCAGTAAGGTCCCCCTGACCACTGAGGGGTCAGCAACACTGGGAATCAGTAGAACCCCACGGAGGGAATGGCA
GGTGAGGGCTTTGCTCTGGCTGAAGTGTCGGAAGCCATCTCAGGTCAGCAGTGAACCCTGGGATCTGGGACAGCTGTCCAGGTCAGGCCTCACACCAGAA
GGCAGATGAGAGCGGAGAGGAGCTGTCAGCAGGAAGTCCTTGTCTTTAGGCATCTTGTTCCGTGATGATGCGTGTCCTCCCTAGGGCACCTTGGGAGTTG
CCTGCTGCCTTGGGAAATGGAAATGGAGCTATGGGGATGCCGCTAAGGATGGTTTGGATGGGGTTTTGAAAAGTGTGACAGCTTGTCCAGAGGGTTTGTT
CTGGGGGCTTAAATAGTGTATATAGACCTTAATATCATTGTCATAACAGTCATTAATTGAGCATTTATGTGCCAGGCATTGTGCACTTTATTTATTTGTT
TATTTTTTGAGACAGGGTCTCACTTTATAACCCAGGTTGGAGTGCAGTGGTACAAACATGGCTCACTGCAGCGTTGATTTCCTGGGCTCAAGTGATCCTC
CCACCTCAGCCCCCTAAGTAGCTGGGAATACAGGTGCACGCCACCATGCTCAGCTAATTTTTATATTTTTTGTAGAGTTTTTGCCATGTTGCCCAGGCTG
GTCTCGAAGTCCTGAGCTCAAGTGGTCCGTCCACCTTGGCCTCCCAAAAAGCTGGGATTATAGGCGTGAGCCACCATGCCTGGCATTGTGCACTTTATAT
TTTTTATAAACATGAACATGGACATAAACATTTGCTCTTTGCTCAATCCTATGAAATTAGAACTACCATTATGCCATTTTACAGATGAGCAAACTGAGGT
TCAGAGAAAGAAGGGCCTCGCAGCTGGTTAAGGGGCAGTGTTGGGGAGAGAAGCAGCAGGTTGGACACATGAGCAGGCCCAGTGGGTGCTGGGGACACCA
TAGGGAACATGCCACAGCCCTTGCTTTTGTTTTTGAAAATAGCTTTTCTCTGCATAGYGCCACCCATAGCCCGGGCACTGAAGTCGACGTGTTTTGCTCC
TCATCCAGACTCAGTTGGGATTCAAGTCAGGCAAGTGGTAATGAGCCACTGTCCACCATCACTTCATTCCTCTGYCATTCATTCTTTCATTCACTCATTT
GACACACATTTGCTGAGAACCTGAATTCGGGCTGGGCATGGTGGCTCAAGCCTGTAATCTCAGCATTTTGCGAGGGTGAGAGGCAGGAGGATCACTTGAG
CCCAGGAGTTCGAGACCAGCCTAGGCAACATGGGGAGACCCTGCCTCTGCAAAAAATTTGAAAAATCAGCCAGGTGTGGTGGTGCACACCTGTAATCCTA
GCTACTCAAGAGGCTGAGGTAGGAGGATCCCTTGAGCCCAGGAGTTTCAGGCTGCAGTGAGCTATGATTGCCCCACTGCACTCTAGCCTGGGTGACAAGG
AGAGACCCTGTCTCTGGGAAAAAAAAAAAAGAGAGAGAGAGAGAGAACCTGAATTTGGCCAGGCACTATATTGAAATAATGAATGAGGGCTGGGTCCCTG
CCCCGGAGCATTGCAACTGGATGGGCCCCTGAGCGTCAGGATATCAGGAGATTGTCACCAGGCTATGTGTGTCTCACTCTGTATGTCCCCCATACCCATG
TGATTGGTGTCCTGGGAAYCTTAGGCAGGGTGGGAGAGCTGATTCATTCTGCCATCAGCCTGGTGGGGATGGGAGGGGTCTTGGAATCATTTCTGGGGTC
TGGAAACTTCATTGCCCGGTTCACTCACTGTGGGTTTGTTCCATAAACCCCAGCAGTCCTCCTCTGCCCGAGCAGGTCTTCCTCTTTGCTGGGCTGGTGC
TCACAGCTCACCTTCTCAGTTTCCATTTCAGTGTCTCTTGGGAGTGATTTTCCCTCCGTCCCCATCAGAGATCCTCAGGGACCTGCTCTAGTTGGCAAAT
AAACTCTTGCTCCCCCTAAACACCCATCCTTCCTTCCCAGCCGCCCTCCTACATATTGTCATTATGGTGAAAAATATGCAAATAACTTTGAACAACAGTC
TCCCAGCAGACGGATGTTCAAAAATGTAATAAATTAACCCCATAATGTAATCTGGATCCCACAACCATCCATCATGCTGATGCGATTAAGATATGCAAAA
CCAGATGCTGAAGAGCGCATGGATGGAGTGTTGGCAGAGCTCCCCGGATGGGCCCATGCTGACTCGGCCCCCTGCCCCTGCCCCCGCCCCCATGGAACCT
GAGGCCATCAGAGGTTTAGGGAACATCTATCTGGCCTGTTCATTTCACTAATGAGACTGAAGCCTTTTAGGGGTTTGGGGTCAGATGGGTTTGAATCCCT
CCCCATCTGCTTCCTAACCCACCTTCCTTCTGTTTGTGATTGGATCTGAACCCAAGGCCCCAAACCCAGACTTTTTTTGTTTTTTTGAGATGGAGTTCTC
GCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTTGGCTCACCACAACCTCCGCCTCCCGGGTTCAAGTGACTGTCCTGCCTCAGCCTCCTGAGTA
GCTGGGATTACAGGCATGCGCCACCACACCTGGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGTTGATCTCAAACTCCTGAC
CTCAGGTGATCCACCAGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCCACCGTGCCCAGCTGACGTTTTTTTTTAATTGCAATAATTT
TTGGTTACATGGGTAAGTTATTTAGTGGTGACTGCTGAGATTTTGGTGCATCCATCACCTCAGCAGTGTACACTGTACCCAGTATGTAGTCTTTTGTCCC
TCACCTTCCCACCCTTCCCTCACCTTCCCACCCTTCCTTCCCCCMGAGTCCCCAAAGTCCAATATATCATTCCTATGCCTTTGCATCCTCATAGGTTAAC
TCCCACTTACAAGTGAGAACATATGATATTTGCAAACCCAGATATTTTTATCCACAGGTTTCTAGTTGACAGGGTGGGTACTCCAGTGTCAAGAGCTGTT
GGGACCTCAGTTTCCCCAAGGAAAAATGACAGTTGAGTTTATGTCCTCCAAGGTTTTTCTGACGTTCTTAGCTCTGTGTGTCAGGAGTTCTACGGGTGGC
TCGTATTGTGTTTTCTCAGGGCAGAGGGCTGGGGCTGGGAGCTCATGGAGGGAGGGCCTGACTTGAGCCCCAATGCCCCTCACACTGTGTCCTGAAGGCC
ATCCCACAGGAGTCACTTGGCTCTCAGTTTCCCCACCCCAGGCCCCAGTCTGAAGGGCTCCTTTGCAAGGAGTTGCCCCCTATGACTGCCAYTGCCTGTC
ACCAATGCAAAAGCTGCTTAAGCAGCCTCCAGAGAGGGAAAGGAAAGACCCTTGCTTTTCCCAAGTTCTGCAATGAGTCAGTCTCAAGGAGCCACGGAAC
TCTGTGTATAAGCCAGTGAGTTGCTTGGCCAGCTCTGTGTGGAAATGGCATGATGTGTGCAGGATCCCCATATCTTGAGAATGGTTGCTGTGCCCAGAAT
GTGCTGCCAAGTGCACCAGTTCCTAAAACAAAATCATCCATCCCTTTGGATGGATGATTTTACATCACAATTTTACAAAATGCATCGCATTTTTACAAAA
TGAAGATATTCTCTGGGAACAGTCCAAACCTCTGTGGTGATTCCCACACTTTGCTGGGCATCCGGGCCCCTGGGGAGCTTGTTAAAGGGCCAGTGCCCTG
CTGTGCACCCCACCTCGATCAGGTTGCTCTAGGCAGCAGGGCAGCTGTGATTAATGGGCTCCTGGGGGATTCTGATGCAGATTTCCTAGGACTGCATTTG
AAGAAATGTTTTGCTGACATTCCTAGCTTAATGGGTTACTTACAGGTTACTTTTTCTCTCCCCATTAGAAGTCTGGAAATGCAGGTTTGAAGGCATCAGG
GGGCGGGGGGAGGGATCCAGGTCTTCTATAATGAGCTGTAAACGATAAACAAGTCTGGCTAGATCTGTGTCCAAACAGACGGATGGGACTAACAAGCTCT
TACGTCCCTGGAGGTCACAGACAAAGTCCTCTTGGCTTCTGGTCCTGACTTGTTGCCCACTAACTCCGTAGCTGCTTCTCAGATCTTAGTTTTCTCACTT
GTAAAATAAGGGGGCTGTAAATAAGTGGAAGCCCTGGTGTCAGAAGAGGCATCAGAGCTGGGTTTGTATTCCCACTGTGTGATTTTGGCGAATTAGAGAA
CGTTTCTGGGCCTGTTWAACCATCTGTAAAGTGGGGCTATAAAATGGAGACTTAGCTGCTAGGGTTAATGAGAGAATTAACGGAATCAGTGTTTGACACA
TAAGAAGTGCTCGATGTTAGTCATTATTTTTTATTATTTTARTAATATCATCTCTGAGGGCCCTTACAGGACTTCCAGACMGAGTCCACGCCCCTGGGGG
ACTTGGGAGCAGTAAAATGTAGTGGCAGGAGGCACCTCGGCCATCGCCCACCCCACCAGCTGGGAGACTCGGGCAGGTTATTCACCCTTCTGCACCTCGC
TTGACTTATCTGTATAAAGAGAACAGTCACAGTAACTGCCTCATGGAGTTACTCCCAGGACTGAGATAATCCACGGACACACTTAGCCCAGTGCCCAGCA
CTCGGCTGGAGCTCCAAAAWGGTCAGCTATTGTTATGAAGCGTAGGGCGGGGAGGGTTCATCCTCTTGGGCGGTCAGGCCAGGCTGCATTTAGGTACCCG
GTSGGGGCGGAGCAGGGGCGACGCCSGTGCACGCCCTCTTTTTTTTATTTTTAAAATTTCACCCGGGCCTTGACAACCGGTACAAYCCTGTCCTCCCCTG
TTCCCGCCCCCGAGCCAGAGGATTCRCTTTTGCGTGGGCAGCTGCAGGGATGGTGACTCGGGCTAGCTCAGATGTGGCTGCCGTTAGTCCCCAGCTGCGC
GCTCCCCCGKCCCTCCCCAGCCCTCTTCCGGCGCCTGCTAAAGCGAGAGAAATGCCCTCGGGGGAAGATATGTAGCGATCCAATGGAACGTGGAGATCAA
CGTTGTGTTTTCTTCGCGCCCACCCGAAGTTGAAGGGAGGTGGCGCGGCGGGTCTCAGCCCCTCCCGGACGCCGAGGCCCGGCCCCCGCCCCTCGGAGAC
CCGCCCCCGCAKGCGGAACCGCCCTCTGCGAGGCYCGGTTTGGGCCGTGCGGGAATGGGCGTGGCCTGGGCGGGGCGGGCGCTAGGACCCACCGGAGCGC
CGTGAACGTCACCGAGCGGCGCCGAGGCCCCGGGTTGAGCGGGAGGCGCGATCGGTCCGGTCGGTGGCTCCCCGCGGCGGGGCCGGGCCCGATCTCGGGC
GGGAACCGAGCGCAGAGCCGGTACTGGGGGAGGGGAGAGGGGGCGGGATTCCCGCCGGGAGGGATCCGGCGTAGCAGGGGGCGGAGTCTTATTCCAACCC
CGCTTCGCTTTCCGCATGTCCCGCTTTGCGCTCCCGGCCCTGGGCATCCCGCTGTTTCCCTCTGCGTCCGCGGCCCTGCCCTTTTCGGGGGCACAGCTGT
GGTCTTTYCACCCCGCGAGACAGCGGGGCGAGGGGGCGCGGGCGGCCAGTGGATAGAGGCTGATGCCCCCAAGCACGGACGCCAGCGTGGGGGTGGAGGT
TCTKCCAGCTGCCCTGAGCCTGTGCGAAGCGGGAGGTCCTTCCCCAGTTCCCACAGACTGTGGGGAGGGAAGAGACKGTGGAAGCGAGCGGGTTCTGGGC
TCCTGGGTCTCTGGAACTACCCTCTGCCCTTGYCCCAACACTCAGGTAGCGGGAAGGATGACCACGCTCACACGACAAGACCTCAACTTTGGCCAAGGTA
GGGAGGCTGGACCTGCGGGCCCGGGGGCGGGGGCGTCTGGGCCGGCGGGCTTCCTCSAGCGCGCCACCGGCTTGTGCCCCMCTGCAGTGGTGGCCGATGT
GCTCTGCGAGTTCCTGGAGGTGGCTGTGCATCTCATCCTCTACGTGCGCGAGGTCTACCCCGTGGGCATCTTCCAGAAACGCAAGAAGTACAACGTGCCG
GTCCAGGTGAGGCACGTCCCAGAACCACAGAGTGGGTACAGGGTGGACTTTTAAAAAYTCTTTGGTCGGGCGCCGTGGCTCACGCCTGTAATCCTAGCAC
TTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACAAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAG
CCGGGCGTGGTGGCCAAGGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCCCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAAATT
GTGCCACTGCATTCCAGCCTGGGTGACAAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAACCTCTTCCACTTCGGGCCAAGCCACCT
CATTCCGCAGGGCCCTGCCCATGCCTTCCAATGCCTTCCAGTTCCAAAGTGGTGATGCCTACCCACCCCTCAGAAGAGAGTTCCCCTTGCCAGAAGTTAG
GGACCAGGCCTGATAAGAGTTACCCCGGGGGTGGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGAATCACAAGG
TCAGGAGTTCAAGAAACCAGCCTGACCAACATGATGAGATCCTGTCTCTACTAAAAATACAAAAATTAGCCTGGTGTGGTGGTACGCGCCTGTAATCCCA
GTTACTAGGGAGGCTGAGGCAGGAGACTCGCTTGAACCCGGGATGCAGAGGTTGAAGTAAGCCCAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAG
CAAGACTATGTCTCCAAAAAAAAAAGTTACCCTGGGGGCATGGTGGCACTTTGAAGGAGCTCGTGAAGCTGGTGAACCTTGGTGTGAGGAGGGTATTTCC
AAAAACCTCCAAATCTTCTCCCTACCATTTATCCTAAACTCAATGGGTTAAGGCTAAAAGGCAGACAAAGCAGTGTGCATCGCACTGTAGCTCCAGTCCC
TAGAAGTGCCTGTCTCTGGAAGGCACTCAGGAAACATGAGAATAAGTGGTAGAAGCTYAAAGGACATCCAGGTGGTCCCYGCTTCAAGTCCCCACACCAC
CATTGTTTTCTCACTTCCAGTATGGTATTCAAGACATTACTTGAGGTAGTCAGCACTTTATTTTTTATTTTATATTTTATTTTATTTTATTTTTTGAGAC
TGAGTCTCGCTCTGTCGCCCTGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTC
CCGAGTAGCTGGGATTACAGGCGTGTGCCACCACATCTGGCTAATTTTTGTATTTTTAGTAGAGACAAGGTTTCGCCGTGTTGGCCAGGCTGGTCTCGAT
CTCCTGACCTCTGGTGATCCACCTGCCTTGGCCTCCYAAAGTGCTGGGATTACAGGCGTGAGCACTTTATTATGAAACAGGTTTTGTGTTAGATAATGTT
GCCCAACTGTGGGCTAATGTGTTTTGAGTGTGTTTAGGTAGGCCTGGCTAAGCTATGATGTTCTGTATGTTATGTGTATTAACTGCATTTTCCGCTGGCG
ATATTTGATTGGTTTATCCAAACATAAACCCATAGTAAGTTGAAGGTCACCTTTAGAGGGGAAAGGAAAAAACAATTGACATTTACTCACTTCTTCTTTA
TGATGAAGTGATTGAAGCCCAGAGAAGTTAAGGAATTTGCCTGAGGCCACACAGTTCCTTAGTTCTTAACTTTTGACATCTGATTACATTTTCCTGGATC
CTTTTTCTGGAAAAATGCCCAAGTGCACAAAGATACAACTTTAGGGATTTTTCAGACTCTGGAGGAGTCCATGGACCCCACATTAAGAACCCCTAATGGT
ATATTAAATGCTCATATTGGGATTGAGTTCTTATCTTTCTTTTCCTTTGAGATGGAGTCTTGCTTTGTTGCCCAAGCTGGAGTGCAGTGGCTTGATCTCA
GCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCACCTCACCTGGCYAATTTTTGT
ATTTTTAGTAGAGATGGGGTTTTGCCATTTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCATCCTCTCAAAGTGCTGGGATT
AGAGGAGTGAGCCACTGTGCCCAGCCTGAGTTCTTATCTTCTAACTTCTTTCTCTATGGATAAGTTCACAGTTCTTAGCCTCTGGTTTTTTTTTTTTTTT
TTTGAGATGGAGTCTCGCTCTGTTGCCCATGTTGCAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTTTTGCC
TTAGCCTGCCAAGTAGCTGGGACTAAGGTGCCTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATATTGGCCAGGCTGG
TCTCGAATACCTGACCTTGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGAGATTATAGGCGTGAGCCACCATGCCCGGCCAGTTCTTAGCCTCTTGAG
GGAAAGTGGGGTCTCCTGGGTAGGGAGCCCTGGAGAGCTGCTGGGCCTCSGACCGAAGGCAGATGGGGCCTTAGGCTCCTGGTTGTGTTGGGTGGTTTCC
CCATCTGTGCTTTGGGCCTCACGAGCCGCATGGTATTGTGTGCAGATGTCCTGCCACCCGGAGCTGAATCAGTATATCCAGGACACGCTGCACTGCGTCA
AGCCACTCCTGGAGAAGGTGAGGGTGCACTGGGCTCCCCAGCCATCTCACCCCATGCTCACCCCCRTCCCTGTGTGCTCACAGTCCAACTCTGGGATGGG
GTGAAGCTAGGACTCTGTGGGGTCTTCATGGCTCCAATACCCAGAAGCCTGTTCCCTGCACTCTGGAGACCATCCCAACCCAGGGGCAGGCCCCAAGGCA
TGCGGGCCATGTTCAGGGTGCCTTGGGCCTGGGAGCCCGGGTTGGAGCTGGCTCTAAGTAGGGGCTGCCCCAGAGGGTTCGGGGTTCTTCTCACATCCGT
CCCCTGTTCTCCACGCTAAACGTTCTGTCTGAGCTGAGCCCCTCAGGGTTTCTTCCCCATCTAGTCCTGATCTCAGACTTCCTGGGACCTTCCCTATGGG
GCCCGGGCATTCTCTCAGCCTACACCACTCATGCTGGAGGGTGCCGGCTTCTCAAACTCGCTATCTGGCCTCTTGGGGACCCCCAGCCTAGCAGCTGAGC
AGGGCTGTGAGTGGGCCGTTTCTCCTCCTTCCTTGGGCAAGGGGGTGGAGGCAGGGTGGTGTAGTSGGGGTGGGGTGCCTGGCTCTGCAGTGGGGGTTCC
TCTCTTTGCAGAATGATGTGGAGAAAGTGGTGGTGGTGATTTTGGATAAAGAGCACCGCCCAGTGGAGAAATTCGTCTTTGAGATCACCCAGCCTCCACT
GCTGTCCATCAGGTGGGCTGCCCCTGCCCCTCGCCCACTAGCTGGCATCAGGKGTGTCTCTGGCAACACACCCACCCCTTTAAGGCGGCCCTTGAATACC
TTGGTAAAGGCCTGGGAGGAGAAAGGGCAAGAAGCACCAGCATGACAAGGGGACAGCCTGTGAGCAGCTGAGATGGGTCCAGAGAGATGACATGAGCTAC
CCAGGGYCACCTGGGTGGGGGCAGAGCCCAGGACACAGAAGCAGTTTTCTGACTCCCCAGGCAAGTGTCCAGTCAACTCGAAGTTGACCTCTGGCACATG
CGTTAGTTGGTCAACTRCATGCTTCCAATGGTGAGGTCAGGGCACTGGAATCTGGCACCAACCTGTCCCCACGGCCTGTGTGGCCTTAGGCAAGCCCTTT
CCCCTCCTGGCTTGGTGTCCTGGTTCTGGGTCCTGGCTGCACATTAAAACCACCTAGGGAGGCCTCCTCAGGCTGCCCCTACCTCCCCTGTCCCCTACCC
CCCGCCAAATTCTGACTTTATCTGGGGTGGGGCTGGGCATTTCTTTTAAACTCCCTTGCTGGTTTAATTGTGTGGACCGGATAGGGAGCTGGGTCCTAGG
CATGCAGCACTCTCACAGGCACTGGAGGGGGTCTTGTACCCCAGGTCTGCATCCAGGCTTGATGCCTGTGGTGGAGGGGAGGGCGCCAGTGTGATGGGAA
GACCTCCTCTCACTCCCAGCTCAGACTCGCTGTTGTCTCATGTGGAGCAGCTGCTCCGGGCCTTCATCCTGAAGATCAGCGTGTGYGATGCCGTCCTGGA
CCACAACCCCCCAGGTGTGTCCACTCCCCACCCTCTCTTCCCTTGGCATTTCCRTGGTTATCTCGGGTTGGTCTGTGTTCCCAGGTCCATGTTTGGCTGT
TCTGAGACTCATCTCTTCCTAACCCTGAGAGTCCACCTCCTCTGGGAAGCTTCCCTGATTGATTCTACCTGGCTTCCATCTCCCTATTGACTGGGGCTTT
TCTTAGCACTTGCTTTGCCATCTGCTCTGGGGGTGCTGCYGAGCCAGCAAGGGARGTGGGAAGAGGCTGGGCCCAKTGGCTGGCACCAGGGCGGTGGGGG
AGCCTCCACCAACCTCTTGCCTCTCCAGGCTGTACCTTCACAGTCCTGGTGCACACGAGAGAAGCCGCCACTCGCAACATGGAGAAGATCCAGGTCATCA
AGGTGAGATGAGATGGGTCTGGGTCTGGGCGCAGGCTCTAGAAACGTGATGTCGCAGTTCCAGGYGGGCAGGGGCACTGCCTGTGGCCAGCCACCCATTA
CATTGGTGTGGCAGCGCCTGGCACCCAGCAGGTCCTCAGGCCTGTCCACTGCTCCATCTGGGCACTTGGGGCAGTGAGGAGCCCAGGTGGAGCCACCTAC
TGGGGCCCCCAGCTCATCCTGGCTCTTCTGAAGTGGGGGCTCTCCAGGGAGGGGTCCTAGCCCACCAGGTTCAGCGTTGGTGCCTGGAGYCTGTTCGTCA
CTTGGGTTCTATGGACTTGGCCTCTGTGGGGGATGGGGGSGGTCCTGGGGTCTGCATCACCAACAGCTTCCTAGTGATTCTGAGGCTCAGGTTGGAGGCC
CCTGGTCTGGAGTGGGAGGGACAGCAAAGTGAGGGCAGGCCAGGGCCYAGCCCCRTCACCCCCCTGACCTKKGTCTCCTCCCTAGGATTTCCCCTGGATC
CTGGCGGATGAGCAGGATGTCCACATGCATGACCCCCGGCTGATACCACTAAAAACCATGACGTCGGACATTTTAAAGGTGAGCTTCGTGGGGACCCGGG
AAGCTTTATTTAGGGGCTGCTTAACGAAGTGAGGCCYGGTGCTGAGGCCTTACTAGAGGGCTTGCGGGAGAGAACGGGGGAGTGCCTGGTGGAGGGCTCC
TCCCATCTCTACTCTTCTCCACCATGGCTATGGCCACGAGGCCCCACCTGTGGTGGAGGTCTGCCCACCAGGGGCTTCTGTGTCCTCCAGCAGGGATGCC
CTGGCTGTCTTGCTGACTGTGGCTGTTTGCTTGTGTCCGTCAGATGCAGCTTTACGTGGAAGAGCGCGCTCATAAAGGCAGCTGAGGGGGCACCTGCCAC
CCCACTGATGCCCAAACTGTCAGACTTTGGGGGATCCCCGCCTAGGGCAGTGCTGCATGGCTGCCCTGATTCCAAGTGCTCTTATCGCCTCTGTGTGTGG
ATCGCCCGCCCCAGCCCGGGGCCGCTCAGGTYTGCTTGGAGGATGCCTCCCCCAGGAGGGCAGTGAGGGATGCCGCAACCTCGACTTYTCAGCCTCCTGG
GGTTCCGCCGGCCAACACTGTCTGTCTCAAATACTGTGCTGTGAGTTGTTTCAATAAAGGGGCCCCAAGGGCTGGGCTGAGCTGAGCCATCATTAACTGG
AGTGGGAGGGACAGGTATGGCCAGGGTAACCTGGGAGAGGGGCTGCTTCTCCACCAAAATGCCAGGGACCCCCTCTCCCCACTCCTAAAACCAACCCCAG
GCTGGTTTTACTGAAAACATTTATTTTTTATTTATTTATTATTATTATTATTTTATGAGCCAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCG
TGATCTCGGCTCACTGCAAGCTCTGCCTTCCGGGTTCACGCCATTCTTCTGCATCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCG
GCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTGGCCAGGATGGTCTCTATCTCCTGACCTCGTGATCCACCTGCCTCGGTCTCCCAAA
GTGCTGGGATTACAGGCGTGAGCCACAGTGCCCGGCCTGAAAACATTTATTACAACAAAACGTCAGAGCTATGTGACAGTAAGTTACCACAAGCTGGTAG
GGTTGAACCGGGGCAGGAGTCGCTGGTACAGGGACCTCACTGCCCACCCCATGCTCAGCTCCTGCCTGGAGGAACCTCTGGCTGACCCAGACACAGGATG
GACAGCTGTCAGAAAATCTGGACAACAGCTCGGTAGGGCGATTGGGCAGCCTCCTCCTGTCCATGCTTCTGCCCAGGCTGAGCCTCGGAGGAGGCCTGGT
TCCTGGTCATCTTGGGGCTGACGACAATGCTGCTGTTGGTGACTCGGGGCCCATACCAGCCTGCCCAGTACTGGGTGTCCCTGCCCCCATGCTGGAAGAG
GATGTAGCGGACACCCCGGGGGTAGTCTGAGAAGGTGTAGGAGACCTGTTGGGAGGAAGGGAGAGGAAGTGACCACCGGGACGGGGGAGGGGAAGGCAGG
AGCCAGGTCCTCTAAGAGAGCTGCCCAGGCTGGAAGGCAACAGCTCCAGGCCAGCAGGGGCACCCTGGGCCCTGAGGCTGCCCTTTGCTTCCTGCCATCC
TGGCCCTGGGAGGAGTGGGTAGAGAGAGCAAGTGGGTGAGGCCTCACCTCTGTCCATGTGGCATTGTTCCACTGTTGGATGGTCACAGGTGGGGGCTCGA
AGGAGGCCAACACGAAGTAGTCAGCCGAGGCCAGCTGCACTTTGAGTTGGTAGGTGCAGCCACAGTCGGCTCTGGCAGCAAACCTGGTGGAGGGGTTGAG
AGCCCTGTGTCCAAGCCACCGAGGGCTGGCCCCAGGGGTGGGGGCAGGTGGGACCTATACATTGGAGCTCGGAGCTTCATCTCCCATCAGCTGACACTGC
TCTGCCTGCAAGGCCCAGCTGGCTTCAGCGCTCCCTATGCCCCACTGTGGCCCGGGGATAAGCTGTCTGTCCATGCTGGCCTCTGTTACCCCATCTGAGA
AGAGGGACCCTTTTGGGCATCCTACTAAAGATATGACCTCAAAAATCAAAAGACCCCTCCAGAGAGGCCTGGTCTGTCCAAGCCATGTCACCTGTACTTA
CAATGGACCAGGCTGTGGATTCAGTGGGAGAGTCAAGGGGGTGGCCTGTGTAATGGGGCTGGCACAAAGCTCACCCTCTGCTCAGCCCAGCCACCTCTCC
CCCCTGCAGCTCTGCATACCCCTCCATCCTCACCGCTTTATCCTCAGAGTGGCAGCCCTGGGGCCTGCCTAGAACTGGGGTCCTGCTTCTGCCACCGGCC
AAGCCAGAGCCTGGCACAGTTCTGTGCACAGAGTAGGAGCTCCAAAAAGAGTCATGGGATGAATAGGGAAAGGGGCAGGGGAGGCAGGTAGGTCAGGGGA
CCTGGGGGTTCCCACCCAGTCCAGAGAGGGCTGAGGTCCTCTGTTGCCCAAGTGCCTGTCAGTGCACAGTGGCTGGGCACAGTGGCTCACACCTGTAATC
CCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACTTGAGGTCAGGAGTTTGAAACCAGCCTGACCAGCATGGTAAGACGCTGTCTGTATTAAAAATATAA
AAAAAAATAGCCGGGTGTAGTGGTGGGCACCTGTAATCCCAGCTACTCAGGATGCTGAGGCAGGAGAATCGCTTGAACATGGGAGGCGGAGGTTGCAGTG
AGCCAAGATCACGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAGTGCCTGTCCATGACAGTGCACCTGGGGGCCT
CAGCCTCCTCACCTGCACACTGGGGCTACTGTGTCCTGTTGACTACGTCACAGGGTGGTGGGGAGGCCAGGAGGTGCCGCAGGGTGTGGGTGCAGAGCAG
GGGCGGAGGCCGGGGCTACCTGGCTCCAGGGCACTGCTGTGCAGAGTGGGCACTTGCTATGGGTTGTCTCACGTACATGCAGCGCAGTAAGAGGAGCATG
TAGAGTGTGGGGACACAGGCCATGGACCCTACTCACCAGTCCTTAACCACGATGTCCGGCCGGAATGTGTCTAGTAGCTCCTCCCAGTAGCCCTCGGCTA
CAAGGTCCACCAGCTGGGACTTGAGGCACATTCTGGGGAGCAGAGTTGGGGGCTTGCATACCTGGGTGTGCTCTGCATGGCCCCCCCCCTCACCCAGGCC
TTGGCAGCCCCTGTGAGCCCAGGGAGGTGGTTTGGGGACCTAGGGTACCCCTTGGCCGCTGCGGGACAGGCACTGGCTGGGGCTGACTCTGGCTTTTCCT
CCAGTGCAGGAGGGAGTTTGACCCACTTGTGCCTGGGCGGCATTTGATCCCAGTCCAAAGGCCCATTGTTCCAGGGCACTTTTGTAAACTCAAGTTCCTA
GCTTACGGACAGATGCCTGTAGATAGCCCTGGCTTATCTTAACTGCCCAATGGACTCCTGGCCTGCTTCAGTGATCCCCACCCCCACTGTCCATTAACAC
AGCACTGAGTGATTTCAGGAAGCAGTGACTCTGGGCAAGTTTTGGGGCCACCTCCCTCGAGCTTCGCAGAGAGGACTTCCCTTAGGAAGACTTTGCCTGA
GACTTGGCAAAGGTGTCCTGACCCTCTGTCCCCTCCACGCAAGCCTGGTAGGTTCAGTTTGCCTTACTCGTAGGATGTGACAAAATACTTCTTGACTTTG
GGGTCAGGAAAATCTGTCCCGTGGGCTCCAGGGAGGCTCTCCACCTTCCAGCGGTCCCCACCATTGAAATCAATTTGCCATGCAAACATATCCTCTAGGA
AGAACAGAAGCCAAGGTGAGACCCCCTGTGTAAATCCAAAGTCCAGCCCTCCCCACTTAGTCCCAGGAGGGCGGGAGGGAGGGTGGTTGGCGTTAGTGAC
CTTCTTGGGAGGCAGGACTTGCTCATGCTCAGGTCTCTGCGGCTGTGGACACCAAAGGGTTAACCAGCTTGTTCCTTCTCAAGGGCATTGTGTGGCCAAG
GTACCCCACCAGCCCAAGTGTACCCCAACTGCACCTTGGAGCACCCCTACAAAGCACCCCTCCAACACATTCCCAACTGTCCTCACCATATCAGCTCTGA
TCTGACTCTGTCCCTCCCACTCAGTCCCAAACTGGCCTCACTCCTAACACGCAGCTGGAGAAAAGAATGCGTGTTACCAGAAATTCTAAACCAACCCCTT
CCTCACTTCCATGTTGCGGTGGAACTCTGGGAAATACCCAAGTATCAGTTCTCAAAAAATTACGAGAGGCCTGTGAGAGTACTGTCCTCAAAGACTAATG
TGAAGCCGGGCACGGTGGCTTGCGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATTGCTTGAACCCAGGAGTTCAAGACCAGCCTGGGGAA
CATAGCGACACCCCCCCCCCTTTTTTTTTTAATAAGTAAAATAATTTTTTAAAAAAGGCTAACGTGTTCATCCCAACACAGACTGCTTACTTGACCCAGA
TGGCATCCCAGATGTCCAGGAGGGAGAGGCCCTTGGTTAACTACATAACCCAGGTTGGAGGCCCTAGAGGATGGGTTTGTGGGTTTGTCGGTGGGTCATG
GGAACCAAGATTCCCATAGGGCTCAGATGGCCTCTGCCCAGGGCAAGAGTGCCAAGTGGAAGAACAGGTACCCTTTGGGCTGGGCGCTGTGGTAACATTC
ATGGGTGGGCCTCCATTAGGTGGGCCTGGTGGGTGCAGGGGAGCAATCACCCTCTTCACACTGAACTTAGAGGACCTTAGAAGACAATGGCGCTTCTCTA
CTGGCGCTGCCCAGGCAATCACCAGGGCACTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGC
TCACTGCAAGCTCCGCCTCCCAGGTTCACGCTATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCTGCCACCACGCCCAGCTAATTTTT
TTACATTTTTAGTAGAGATGGGGTTTCACCTTGTTGGCCAGGATGGTCTCGATCTCCTGACCTCGTCATCCGCCCGCCTCAGCCTCCCAAAGTGTTGGGA
TTACAGGCGTGAGCCACCGCCCCCGGCGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAAT
TCGAGACCAGCCTGGCCAACATGGCAAAACCTCATCTCTACTAAAAGTACAAAAATTAGCTGGGCATGGTGGTGGGCGCCTGTAATCCCAACTACTTGTG
TGTGTGTGTGTGTGTGTGTGTGTATGTATATGTATATATGTATACACATATATGTATACATATGTATATATACGTATATATGTGTACATATATACATATA
TACATGTGTATATGTATACACGTGTATATATGTATACATGTGTATATACGTATATGTATACATATGTGTGTGTGTGTATATGTGAAGGTGTCACTGTGGA
TGCTATAGTGTGGCAAACAAGGTCCATTTGGCCCCTGGAGCTTGAAGTTTGTAGCAGAAAAAAATAAGGAAATTCTGAAAAAAAAATTTTTTTTTTTTTT
TTGAGACTAAAAGTTTCACTCTTGTCACCCAGGCTGGAGTGCAATGGAGCCATCTCGGCTCACCGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTG
CCTCAGCCTCCCAAGTAGCTGGGAATTGTAGGCGTGGGCCAGCATGCCCAACTTTGTGTGTTTTTAGTAGAGACAGGGCTTTGCCATTTTGACCAGGCTG
GTCTCTAACTCCTGAGCTCAGGTGATCCGCCCATCTCGGCCTCCCAAAGTGCCGGGATTACAGGCGTGAGCCACCGCGCCTTGTGAAAAGTGTTACAGGG
CATGAAATGGGGGTGCTATGCTAGAGGTGGAGAGGGCTGTTTTTAGATTGGGAGCACAGGGCAGGTCTCTGAACTGAGACCTGAAGAATGAGAAGGAACC
AAGGAAGTGAGGTGGGTGTTTAGGGTTAGAGAATATTCCAGGTAGTGTGGGAATTGCAAGTGCCAAGGCCCAAGGATGAGAAGGAACGAGCCTGGTGGCA
GCCTCCACCCTGCCCCCATGCCACCTTCAGCACACGGGTTGCGCAGGAGGTTCCTATGCAGGCTCCGTAGGAAGTAGAAGATTTTCCAGTCGGCCACGGG
CTGGTCCCAGTCCTTGGTGATGAAGCCCTCTCGCAGGCACTTGCGTTTCCAGAGGGTCATGAGGTCGATGAGGTCCCGCCAGAGGCTGCAGACCAGGCGG
CAGTTCAGCAGCAGCTGGCGGGCGGGCACGTGCGTGAACAGCTCCAGCAGGATGTTCTCGGGCAGCTCGTTAATGCTGTCCAGGGCTGCTTTGGAGTGGG
GAGCATCCATGGCCTGTGGGGGCAACAGCAGTTATGAGCCTGACCAGGGAGGTGGGCCCTCAGGTCCCCAGGGAACCAGGCCAGGGACTCCTCTCCAACC
CTGCATTAGCCAGGTGTGGTGGCACATGCCTGGAGTCCCAGGTACTTGGGAGGCTGAGGCAGAGGATCCCTTGAGCCTGGGAATT


SNP Information

Context             (SEQ ID NO:64021):
GGGAGGTGGCGCGGCGGGTCTCAGCCCCTCCCGGACGCCGAGGCCCGGCCCCCGCCCCTCGGAGACCCGCCCCCGCATGCGGAACCGCCCTCTGCGAGGC
Y
CGGTTTGGGCCGTGCGGGAATGGGCGTGGCCTGGGCGGGGCGGGCGCTAGGACCCACCGGAGCGCCGTGAACGTCACCGAGCGGCGCCGAGGCCCCGGGT
Celera SNP ID:            hCV16177533
SNP Position Genomic:     16935
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,35|C,1450)   total(C,1450|T,35) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:64022):
CCTTGAGCCCAGGAGTTTCAGGCTGCAGTGAGCTATGATTGCCCCACTGCACTCTAGCCTGGGTGACAAGGAGAGACCCTGTCTCTGGGAAAAAAAAAAA
A
GAGAGAGAGAGAGAGAACCTGAATTTGGCCAGGCACTATATTGAAATAATGAATGAGGGCTGGGTCCCTGCCCCGGAGCATTGCAACTGGATGGGCCCCT
Celera SNP ID:            hCV11546532
SNP Position Genomic:     13230
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,8)   total(A,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64023):
CCGCCACTCGCAACATGGAGAAGATCCAGGTCATCAAGGTGAGATGAGATGGGTCTGGGTCTGGGCGCAGGCTCTAGAAACGTGATGTCGCAGTTCCAGG
Y
GGGCAGGGGCACTGCCTGTGGCCAGCCACCCATTACATTGGTGTGGCAGCGCCTGGCACCCAGCAGGTCCTCAGGCCTGTCCACTGCTCCATCTGGGCAC
Celera SNP ID:            hCV11546519
SNP Position Genomic:     22565
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64024):
GGTTCTTGGATCTCGCACAAGAAATAATTCAGGGCGAGTCCATAGAGTAAAAAGTTTATTAAGACAGTAGAGGAATAAAAAGAATGACTACTCCATAGAC
R
GCACAGCACCAAGGGTTGCTGGTTGCCCATTTTTATGGTTATTTCCTGATGATGTGCTAAACAAAGGGTGGATTATTCATGCTTCTCCCCTCCCCCCGCC
Celera SNP ID:            hCV1256450
SNP Position Genomic:     8453
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64025):
GAACTCCTGACCTCAGGTGATCCACCTGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGCTCGAGCTACAGCACCCAGCCTTTTTTTTTTTTTTTTTTTT
T
GAGACAGAGTCTCACTTTGTTGCCCAGGCTTGTATAGTGGCACAGTCTCGGCTCACTGCAACTTCTGCCTCCCAGGTTCAAGCGATTCATGCCTCAGCCT
Celera SNP ID:            hCV11546539
SNP Position Genomic:     8868
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64026):
TAGTGATTCTGAGGCTCAGGTTGGAGGCCCCTGGTCTGGAGTGGGAGGGACAGCAAAGTGAGGGCAGGCCAGGGCCCAGCCCCGTCACCCCCCTGACCTT
K
GTCTCCTCCCTAGGATTTCCCCTGGATCCTGGCGGATGAGCAGGATGTCCACATGCATGACCCCCGGCTGATACCACTAAAAACCATGACGTCGGACATT
Celera SNP ID:            hCV8862311
SNP Position Genomic:     22972
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(G,1|T,29)   total(G,1|T,61)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,9)      total(C,2|A,9) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64027):
GGATCCCCGCCTAGGGCAGTGCTGCATGGCTGCCCTGATTCCAAGTGCTCTTATCGCCTCTGTGTGTGGATCGCCCGCCCCAGCCCGGGGCCGCTCAGGT
Y
TGCTTGGAGGATGCCTCCCCCAGGAGGGCAGTGAGGGATGCCGCAACCTCGACTTCTCAGCCTCCTGGGGTTCCGCCGGCCAACACTGTCTGTCTCAAAT
Celera SNP ID:            hCV8862312
SNP Position Genomic:     23532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:64028):
CCTCTGTGTGTGGATCGCCCGCCCCAGCCCGGGGCCGCTCAGGTCTGCTTGGAGGATGCCTCCCCCAGGAGGGCAGTGAGGGATGCCGCAACCTCGACTT
Y
TCAGCCTCCTGGGGTTCCGCCGGCCAACACTGTCTGTCTCAAATACTGTGCTGTGAGTTGTTTCAATAAAGGGGCCCCAAGGGCTGGGCTGAGCTGAGCC
Celera SNP ID:            hCV8862313
SNP Position Genomic:     23588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:64029):
CGGCTGATACCACTAAAAACCATGACGTCGGACATTTTAAAGGTGAGCTTCGTGGGGACCCGGGAAGCTTTATTTAGGGGCTGCTTAACGAAGTGAGGCC
Y
GGTGCTGAGGCCTTACTAGAGGGCTTGCGGGAGAGAACGGGGGAGTGCCTGGTGGAGGGCTCCTCCCATCTCTACTCTTCTCCACCATGGCTATGGCCAC
Celera SNP ID:            hCV25604075
SNP Position Genomic:     23137
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,36)   total(C,69|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64030):
GCTGGGATTACAGGCTCGAGCTACAGCACCCAGCCTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTTTGTTGCCCAGGCTTGTATAGTGGCACA
R
TCTCGGCTCACTGCAACTTCTGCCTCCCAGGTTCAAGCGATTCATGCCTCAGCCTCCCAGTTAGCTGGGGTTACAGGCACACACCGCCATGCTCAGCTAA
Celera SNP ID:            hCV1256452
SNP Position Genomic:     8913
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64031):
GTCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAAGTTCAAGCGATTCGCCTGCCTCAGCTTCCTGAGTAGCTGTGACT
R
CAGGCACCTGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGAGTTTCCCCATGTTAGCCAGGATGGTCTCGATATCCTGACCTCAGGTG
Celera SNP ID:            hCV1256453
SNP Position Genomic:     9721
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64032):
TGGCCTCTTGGGGACCCCCAGCCTAGCAGCTGAGCAGGGCTGTGAGTGGGCCGTTTCTCCTCCTTCCTTGGGCAAGGGGGTGGAGGCAGGGTGGTGTAGT
S
GGGGTGGGGTGCCTGGCTCTGCAGTGGGGGTTCCTCTCTTTGCAGAATGATGTGGAGAAAGTGGTGGTGGTGATTTTGGATAAAGAGCACCGCCCAGTGG
Celera SNP ID:            hCV1256470
SNP Position Genomic:     21166
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,22)   caucasian(C,6)   total(C,12|G,22)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,4)      total(G,3|C,4) ;JBIC-allele(G,300|C,443)   total(G,300|C,443)
SNP Type:                 INTRON


Context             (SEQ ID NO:64033):
GTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAATCGGGGAGGCAGAGATTTCATTGAGCCGAGATTGCACCACCGCCCTCCAGCCTGG
S
TGGCAGAGAGAGACTCCGTCTCAAAAAAGAAATAAATGAAATAAAAATTAGCTGGGTGTGATGGTGCACACCTGTAGCCCCAGCTATTGGGGAGGCTGAG
Celera SNP ID:            hCV1256454
SNP Position Genomic:     10880
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64034):
CTCTGGGAAGCTTCCCTGATTGATTCTACCTGGCTTCCATCTCCCTATTGACTGGGGCTTTTCTTAGCACTTGCTTTGCCATCTGCTCTGGGGGTGCTGC
Y
GAGCCAGCAAGGGAAGTGGGAAGAGGCTGGGCCCAGTGGCTGGCACCAGGGCGGTGGGGGAGCCTCCACCAACCTCTTGCCTCTCCAGGCTGTACCTTCA
Celera SNP ID:            hCV1256471
SNP Position Genomic:     22340
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,21)   caucasian(T,2)   total(C,1|T,23)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,27)   caucasian(C,2|T,12)   total(C,3|T,39)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   JBIC-allele(C,335|T,1158)   total(C,335|T,1158) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64035):
GAGGTTGAGGCTTCAGTGAGCTGTGATTGCGTCACTGCACTCCAGCCTAGATGACAGAGTGAGACCCTGTCTCCAAAAAATAAAATAAAAAAATAAAAAA
R
TTGGACAATCCATAGAACAGAAAGTAGATTAGTAGTTTTGGAACTGATGTACCTGGCAACACACTTTGGGCATGAACAACCCTTCTCAAGACATCAGGAG
Celera SNP ID:            hCV1256455
SNP Position Genomic:     11104
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64036):
CCATCTCCCTATTGACTGGGGCTTTTCTTAGCACTTGCTTTGCCATCTGCTCTGGGGGTGCTGCTGAGCCAGCAAGGGAAGTGGGAAGAGGCTGGGCCCA
K
TGGCTGGCACCAGGGCGGTGGGGGAGCCTCCACCAACCTCTTGCCTCTCCAGGCTGTACCTTCACAGTCCTGGTGCACACGAGAGAAGCCGCCACTCGCA
Celera SNP ID:            hCV1256472
SNP Position Genomic:     22376
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;no_pop(T,-|G,-)   JBIC-allele(T,205|G,1296)   total(G,1296|T,205) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64037):
GCACTGAAGTCGACGTGTTTTGCTCCTCATCCAGACTCAGTTGGGATTCAAGTCAGGCAAGTGGTAATGAGCCACTGTCCACCATCACTTCATTCCTCTG
Y
CATTCATTCTTTCATTCACTCATTTGACACACATTTGCTGAGAACCTGAATTCGGGCTGGGCATGGTGGCTCAAGCCTGTAATCTCAGCATTTTGCGAGG
Celera SNP ID:            hCV1256456
SNP Position Genomic:     12875
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64038):
GGGTCTGCATCACCAACAGCTTCCTAGTGATTCTGAGGCTCAGGTTGGAGGCCCCTGGTCTGGAGTGGGAGGGACAGCAAAGTGAGGGCAGGCCAGGGCC
Y
AGCCCCGTCACCCCCCTGACCTTTGTCTCCTCCCTAGGATTTCCCCTGGATCCTGGCGGATGAGCAGGATGTCCACATGCATGACCCCCGGCTGATACCA
Celera SNP ID:            hCV1256473
SNP Position Genomic:     22948
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,8)   caucasian(C,30)   total(C,56|T,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64039):
CGGCTGGAGCTCCAAAAAGGTCAGCTATTGTTATGAAGCGTAGGGCGGGGAGGGTTCATCCTCTTGGGCGGTCAGGCCAGGCTGCATTTAGGTACCCGGT
S
GGGGCGGAGCAGGGGCGACGCCGGTGCACGCCCTCTTTTTTTTATTTTTAAAATTTCACCCGGGCCTTGACAACCGGTACAATCCTGTCCTCCCCTGTTC
Celera SNP ID:            hCV15944704
SNP Position Genomic:     16503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64040):
GGATGGGCCCCTGAGCGTCAGGATATCAGGAGATTGTCACCAGGCTATGTGTGTCTCACTCTGTATGTCCCCCATACCCATGTGATTGGTGTCCTGGGAA
Y
CTTAGGCAGGGTGGGAGAGCTGATTCATTCTGCCATCAGCCTGGTGGGGATGGGAGGGGTCTTGGAATCATTTCTGGGGTCTGGAAACTTCATTGCCCGG
Celera SNP ID:            hCV1256457
SNP Position Genomic:     13419
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64041):
GGCCCCGCGCAGGGCGGGCGACAAAGGGCCGCGGCGGGCGGTCCTCGGTGGACCCCAACAATGGAGCGAGGCTGCGCGCTCAGCTGCGGCCGCGTCTGTC
M
GGGCAGGGGCCCGGGGCCACAAAAGGATTATTCCGCCTAGACTGTCAAAAGGGACGGAAGAAATGCCCAGGGCGGGGGAGGCGGGACGGGGAACGGCGGG
Celera SNP ID:            hCV29271391
SNP Position Genomic:     6928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64042):
CATCACCAACAGCTTCCTAGTGATTCTGAGGCTCAGGTTGGAGGCCCCTGGTCTGGAGTGGGAGGGACAGCAAAGTGAGGGCAGGCCAGGGCCCAGCCCC
R
TCACCCCCCTGACCTTTGTCTCCTCCCTAGGATTTCCCCTGGATCCTGGCGGATGAGCAGGATGTCCACATGCATGACCCCCGGCTGATACCACTAAAAA
Celera SNP ID:            hCV1256474
SNP Position Genomic:     22955
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,3|G,27)   total(A,4|G,60)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64043):
GGTGCATCCATCACCTCAGCAGTGTACACTGTACCCAGTATGTAGTCTTTTGTCCCTCACCTTCCCACCCTTCCCTCACCTTCCCACCCTTCCTTCCCCC
M
GAGTCCCCAAAGTCCAATATATCATTCCTATGCCTTTGCATCCTCATAGGTTAACTCCCACTTACAAGTGAGAACATATGATATTTGCAAACCCAGATAT
Celera SNP ID:            hCV1256458
SNP Position Genomic:     14645
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,8)      total(A,8|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64044):
CGGAATCAGTGTTTGACACATAAGAAGTGCTCGATGTTAGTCATTATTTTTTATTATTTTAATAATATCATCTCTGAGGGCCCTTACAGGACTTCCAGAC
M
GAGTCCACGCCCCTGGGGGACTTGGGAGCAGTAAAATGTAGTGGCAGGAGGCACCTCGGCCATCGCCCACCCCACCAGCTGGGAGACTCGGGCAGGTTAT
Celera SNP ID:            hCV15944706
SNP Position Genomic:     16181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64045):
CTGAAGGCCATCCCACAGGAGTCACTTGGCTCTCAGTTTCCCCACCCCAGGCCCCAGTCTGAAGGGCTCCTTTGCAAGGAGTTGCCCCCTATGACTGCCA
Y
TGCCTGTCACCAATGCAAAAGCTGCTTAAGCAGCCTCCAGAGAGGGAAAGGAAAGACCCTTGCTTTTCCCAAGTTCTGCAATGAGTCAGTCTCAAGGAGC
Celera SNP ID:            hCV1256459
SNP Position Genomic:     15092
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;(T,-|C,-)   JBIC-allele(T,174|C,1311)   total(C,1311|T,174)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64046):
GATGACCACGCTCACACGACAAGACCTCAACTTTGGCCAAGGTAGGGAGGCTGGACCTGCGGGCCCGGGGGCGGGGGCGTCTGGGCCGGCGGGCTTCCTC
S
AGCGCGCCACCGGCTTGTGCCCCCCTGCAGTGGTGGCCGATGTGCTCTGCGAGTTCCTGGAGGTGGCTGTGCATCTCATCCTCTACGTGCGCGAGGTCTA
Celera SNP ID:            hCV15944740
SNP Position Genomic:     17657
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,30)   caucasian(G,34)   total(C,4|G,64)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64047):
GGACGCCAGCGTGGGGGTGGAGGTTCTTCCAGCTGCCCTGAGCCTGTGCGAAGCGGGAGGTCCTTCCCCAGTTCCCACAGACTGTGGGGAGGGAAGAGAC
K
GTGGAAGCGAGCGGGTTCTGGGCTCCTGGGTCTCTGGAACTACCCTCTGCCCTTGCCCCAACACTCAGGTAGCGGGAAGGATGACCACGCTCACACGACA
Celera SNP ID:            hCV15944741
SNP Position Genomic:     17477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64048):
AAGGCCTGGGAGGAGAAAGGGCAAGAAGCACCAGCATGACAAGGGGACAGCCTGTGAGCAGCTGAGATGGGTCCAGAGAGATGACATGAGCTACCCAGGG
Y
CACCTGGGTGGGGGCAGAGCCCAGGACACAGAAGCAGTTTTCTGACTCCCCAGGCAAGTGTCCAGTCAACTCGAAGTTGACCTCTGGCACATGCGTTAGT
Celera SNP ID:            hCV25765522
SNP Position Genomic:     21507
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(T,36)   total(C,5|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:64049):
GCACCGCCCAGTGGAGAAATTCGTCTTTGAGATCACCCAGCCTCCACTGCTGTCCATCAGGTGGGCTGCCCCTGCCCCTCGCCCACTAGCTGGCATCAGG
K
GTGTCTCTGGCAACACACCCACCCCTTTAAGGCGGCCCTTGAATACCTTGGTAAAGGCCTGGGAGGAGAAAGGGCAAGAAGCACCAGCATGACAAGGGGA
Celera SNP ID:            hCV15944727
SNP Position Genomic:     21353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64050):
GGGGGCAGAGCCCAGGACACAGAAGCAGTTTTCTGACTCCCCAGGCAAGTGTCCAGTCAACTCGAAGTTGACCTCTGGCACATGCGTTAGTTGGTCAACT
R
CATGCTTCCAATGGTGAGGTCAGGGCACTGGAATCTGGCACCAACCTGTCCCCACGGCCTGTGTGGCCTTAGGCAAGCCCTTTCCCCTCCTGGCTTGGTG
Celera SNP ID:            hCV16203813
SNP Position Genomic:     21617
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,24)   caucasian(A,15|G,11)   total(A,21|G,35)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64051):
TGAGATTATAGGCGTGAGCCACCATGCCCGGCCAGTTCTTAGCCTCTTGAGGGAAAGTGGGGTCTCCTGGGTAGGGAGCCCTGGAGAGCTGCTGGGCCTC
S
GACCGAAGGCAGATGGGGCCTTAGGCTCCTGGTTGTGTTGGGTGGTTTCCCCATCTGTGCTTTGGGCCTCACGAGCCGCATGGTATTGTGTGCAGATGTC
Celera SNP ID:            hCV15944728
SNP Position Genomic:     20450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64052):
AGAACAGTCACAGTAACTGCCTCATGGAGTTACTCCCAGGACTGAGATAATCCACGGACACACTTAGCCCAGTGCCCAGCACTCGGCTGGAGCTCCAAAA
W
GGTCAGCTATTGTTATGAAGCGTAGGGCGGGGAGGGTTCATCCTCTTGGGCGGTCAGGCCAGGCTGCATTTAGGTACCCGGTGGGGGCGGAGCAGGGGCG
Celera SNP ID:            hCV27511864
SNP Position Genomic:     16420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64053):
GTAAATAAGTGGAAGCCCTGGTGTCAGAAGAGGCATCAGAGCTGGGTTTGTATTCCCACTGTGTGATTTTGGCGAATTAGAGAACGTTTCTGGGCCTGTT
W
AACCATCTGTAAAGTGGGGCTATAAAATGGAGACTTAGCTGCTAGGGTTAATGAGAGAATTAACGGAATCAGTGTTTGACACATAAGAAGTGCTCGATGT
Celera SNP ID:            hCV27511865
SNP Position Genomic:     16017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64054):
CTCTCCAGGGAGGGGTCCTAGCCCACCAGGTTCAGCGTTGGTGCCTGGAGCCTGTTCGTCACTTGGGTTCTATGGACTTGGCCTCTGTGGGGGATGGGGG
S
GGTCCTGGGGTCTGCATCACCAACAGCTTCCTAGTGATTCTGAGGCTCAGGTTGGAGGCCCCTGGTCTGGAGTGGGAGGGACAGCAAAGTGAGGGCAGGC
Celera SNP ID:            hCV16177528
SNP Position Genomic:     22840
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,29)   caucasian(C,17|G,9)   total(C,20|G,38)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,5)      total(G,4|C,5) ;JBIC-allele(G,626|C,869)   total(G,626|C,869)
SNP Type:                 INTRON


Context             (SEQ ID NO:64055):
CAGTAATCCCAGAGCTTTGGGAGGCTGAAGCAGGAACTCTGGAGGCCAAATGTTCAAGACCAGCCTGGGTAACACAGCGAGACCCTGTCTCTATGAAAAA
R
GAGCAGATGATCAGTAAGGTCCCCCTGACCACTGAGGGGTCAGCAACACTGGGAATCAGTAGAACCCCACGGAGGGAATGGCAGGTGAGGGCTTTGCTCT
Celera SNP ID:            hCV16071368
SNP Position Genomic:     11717
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64056):
CTAGTGATTCTGAGGCTCAGGTTGGAGGCCCCTGGTCTGGAGTGGGAGGGACAGCAAAGTGAGGGCAGGCCAGGGCCCAGCCCCGTCACCCCCCTGACCT
K
TGTCTCCTCCCTAGGATTTCCCCTGGATCCTGGCGGATGAGCAGGATGTCCACATGCATGACCCCCGGCTGATACCACTAAAAACCATGACGTCGGACAT
Celera SNP ID:            hCV25604083
SNP Position Genomic:     22971
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(T,30)   total(G,1|T,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:64057):
AAATGGAGACTTAGCTGCTAGGGTTAATGAGAGAATTAACGGAATCAGTGTTTGACACATAAGAAGTGCTCGATGTTAGTCATTATTTTTTATTATTTTA
R
TAATATCATCTCTGAGGGCCCTTACAGGACTTCCAGACCGAGTCCACGCCCCTGGGGGACTTGGGAGCAGTAAAATGTAGTGGCAGGAGGCACCTCGGCC
Celera SNP ID:            hCV1256460
SNP Position Genomic:     16142
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64058):
CCGAGCCAGAGGATTCGCTTTTGCGTGGGCAGCTGCAGGGATGGTGACTCGGGCTAGCTCAGATGTGGCTGCCGTTAGTCCCCAGCTGCGCGCTCCCCCG
K
CCCTCCCCAGCCCTCTTCCGGCGCCTGCTAAAGCGAGAGAAATGCCCTCGGGGGAAGATATGTAGCGATCCAATGGAACGTGGAGATCAACGTTGTGTTT
Celera SNP ID:            hCV1256461
SNP Position Genomic:     16710
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:64059):
GAGCCACCTACTGGGGCCCCCAGCTCATCCTGGCTCTTCTGAAGTGGGGGCTCTCCAGGGAGGGGTCCTAGCCCACCAGGTTCAGCGTTGGTGCCTGGAG
Y
CTGTTCGTCACTTGGGTTCTATGGACTTGGCCTCTGTGGGGGATGGGGGCGGTCCTGGGGTCTGCATCACCAACAGCTTCCTAGTGATTCTGAGGCTCAG
Celera SNP ID:            hCV25604084
SNP Position Genomic:     22790
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,22)   total(C,52|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:64060):
CTTCGCGCCCACCCGAAGTTGAAGGGAGGTGGCGCGGCGGGTCTCAGCCCCTCCCGGACGCCGAGGCCCGGCCCCCGCCCCTCGGAGACCCGCCCCCGCA
K
GCGGAACCGCCCTCTGCGAGGCCCGGTTTGGGCCGTGCGGGAATGGGCGTGGCCTGGGCGGGGCGGGCGCTAGGACCCACCGGAGCGCCGTGAACGTCAC
Celera SNP ID:            hCV1256462
SNP Position Genomic:     16912
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,4)      total(G,1|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:64061):
GACGACCCTGGGAGTCTGAGAATGCTGGGTTATGGGTCCCGTGCCTCCCATAACTCACGACGGGGTCGGTGGGGCCACGGACGCTGCAAAGATCAAAGAG
Y
GATGGGGCCGGACTCCCATATGTGGGAAGCAGCGCTCCCACCTGGCGCCCTGAGCTCGCCAGGTGGCTTCCATTTCGACTGTTTTCTTTCTCCAGCGTGT
Celera SNP ID:            hCV1256446
SNP Position Genomic:     7460
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,16)   caucasian(C,34|T,4)   total(C,54|T,20)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64062):
CTTTCCACCCCGCGAGACAGCGGGGCGAGGGGGCGCGGGCGGCCAGTGGATAGAGGCTGATGCCCCCAAGCACGGACGCCAGCGTGGGGGTGGAGGTTCT
K
CCAGCTGCCCTGAGCCTGTGCGAAGCGGGAGGTCCTTCCCCAGTTCCCACAGACTGTGGGGAGGGAAGAGACGGTGGAAGCGAGCGGGTTCTGGGCTCCT
Celera SNP ID:            hCV1256463
SNP Position Genomic:     17404
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;JBIC-allele(G,217|T,1276)   total(G,217|T,1276)
SNP Type:                 INTRON


Context             (SEQ ID NO:64063):
ATATTATTAGCTTGGTGGGCACCAGGATGGATTGATGAGAACACTGAACTGTTTATTCACTGAAAGGTTTGAGTCATCCATCCCATAAATACCTATTGAA
Y
ACCTACTATGTGCCGGCACCGGAGGTACAGTAGTAAACAACATGGACAAGAATCCCTGCCCCCATGGAGCTCAGATTCTAGTGAAGGAGACAGAAGATAA
Celera SNP ID:            hCV1256447
SNP Position Genomic:     7899
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64064):
GAGGTCCTTCCCCAGTTCCCACAGACTGTGGGGAGGGAAGAGACGGTGGAAGCGAGCGGGTTCTGGGCTCCTGGGTCTCTGGAACTACCCTCTGCCCTTG
Y
CCCAACACTCAGGTAGCGGGAAGGATGACCACGCTCACACGACAAGACCTCAACTTTGGCCAAGGTAGGGAGGCTGGACCTGCGGGCCCGGGGGCGGGGG
Celera SNP ID:            hCV1256464
SNP Position Genomic:     17533
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,38)   total(C,69|T,3)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64065):
TGAGCCACGTGGTTGTGGGGAGAAGACTTGCAAGCAGAAGAGCCACTGCAAAGGTCCTGGAGCGGGAGTGTGCTTGGTGTGTTTGGTGGAGAAGAGTCAG
K
CTGGAACAGAGTGAGGTGACATCAGACAGGGAGCTGGGATAGGACCATGTTGTTACAGGAAAGGGGTCCTGACCCAGACCTCAGGAGAGGGTTCTTGGAT
Celera SNP ID:            hCV1256448
SNP Position Genomic:     8263
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64066):
AAGGCAGACAAAGCAGTGTGCATCGCACTGTAGCTCCAGTCCCTAGAAGTGCCTGTCTCTGGAAGGCACTCAGGAAACATGAGAATAAGTGGTAGAAGCT
Y
AAAGGACATCCAGGTGGTCCCCGCTTCAAGTCCCCACACCACCATTGTTTTCTCACTTCCAGTATGGTATTCAAGACATTACTTGAGGTAGTCAGCACTT
Celera SNP ID:            hCV1256465
SNP Position Genomic:     18858
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64067):
AAAGGTCCTGGAGCGGGAGTGTGCTTGGTGTGTTTGGTGGAGAAGAGTCAGTCTGGAACAGAGTGAGGTGACATCAGACAGGGAGCTGGGATAGGACCAT
R
TTGTTACAGGAAAGGGGTCCTGACCCAGACCTCAGGAGAGGGTTCTTGGATCTCGCACAAGAAATAATTCAGGGCGAGTCCATAGAGTAAAAAGTTTATT
Celera SNP ID:            hCV1256449
SNP Position Genomic:     8312
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64068):
TCGCACTGTAGCTCCAGTCCCTAGAAGTGCCTGTCTCTGGAAGGCACTCAGGAAACATGAGAATAAGTGGTAGAAGCTTAAAGGACATCCAGGTGGTCCC
Y
GCTTCAAGTCCCCACACCACCATTGTTTTCTCACTTCCAGTATGGTATTCAAGACATTACTTGAGGTAGTCAGCACTTTATTTTTTATTTTATATTTTAT
Celera SNP ID:            hCV1256466
SNP Position Genomic:     18880
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64069):
CTGGCTAATTTTTGTATTTTTAGTAGAGACAAGGTTTCGCCGTGTTGGCCAGGCTGGTCTCGATCTCCTGACCTCTGGTGATCCACCTGCCTTGGCCTCC
Y
AAAGTGCTGGGATTACAGGCGTGAGCACTTTATTATGAAACAGGTTTTGTGTTAGATAATGTTGCCCAACTGTGGGCTAATGTGTTTTGAGTGTGTTTAG
Celera SNP ID:            hCV1256467
SNP Position Genomic:     19237
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64070):
CTTGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCACCTCACCTGGC
Y
AATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATTTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCATCCTCTCAAAGT
Celera SNP ID:            hCV1256468
SNP Position Genomic:     19891
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64071):
GAATCAGTATATCCAGGACACGCTGCACTGCGTCAAGCCACTCCTGGAGAAGGTGAGGGTGCACTGGGCTCCCCAGCCATCTCACCCCATGCTCACCCCC
R
TCCCTGTGTGCTCACAGTCCAACTCTGGGATGGGGTGAAGCTAGGACTCTGTGGGGTCTTCATGGCTCCAATACCCAGAAGCCTGTTCCCTGCACTCTGG
Celera SNP ID:            hCV1256469
SNP Position Genomic:     20666
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,29)   caucasian(A,1|G,31)   total(A,8|G,60)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64072):
CTGATTGATTCTACCTGGCTTCCATCTCCCTATTGACTGGGGCTTTTCTTAGCACTTGCTTTGCCATCTGCTCTGGGGGTGCTGCTGAGCCAGCAAGGGA
R
GTGGGAAGAGGCTGGGCCCAGTGGCTGGCACCAGGGCGGTGGGGGAGCCTCCACCAACCTCTTGCCTCTCCAGGCTGTACCTTCACAGTCCTGGTGCACA
Celera SNP ID:            hCV15944716
SNP Position Genomic:     22355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64073):
CTCCGGGCCTTCATCCTGAAGATCAGCGTGTGCGATGCCGTCCTGGACCACAACCCCCCAGGTGTGTCCACTCCCCACCCTCTCTTCCCTTGGCATTTCC
R
TGGTTATCTCGGGTTGGTCTGTGTTCCCAGGTCCATGTTTGGCTGTTCTGAGACTCATCTCTTCCTAACCCTGAGAGTCCACCTCCTCTGGGAAGCTTCC
Celera SNP ID:            hCV15944717
SNP Position Genomic:     22154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64074):
CCAGTGTGATGGGAAGACCTCCTCTCACTCCCAGCTCAGACTCGCTGTTGTCTCATGTGGAGCAGCTGCTCCGGGCCTTCATCCTGAAGATCAGCGTGTG
Y
GATGCCGTCCTGGACCACAACCCCCCAGGTGTGTCCACTCCCCACCCTCTCTTCCCTTGGCATTTCCATGGTTATCTCGGGTTGGTCTGTGTTCCCAGGT
Celera SNP ID:            hCV15944718
SNP Position Genomic:     22086
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,36)   total(C,67|T,3)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64075):
GGTGCACGCCCTCTTTTTTTTATTTTTAAAATTTCACCCGGGCCTTGACAACCGGTACAATCCTGTCCTCCCCTGTTCCCGCCCCCGAGCCAGAGGATTC
R
CTTTTGCGTGGGCAGCTGCAGGGATGGTGACTCGGGCTAGCTCAGATGTGGCTGCCGTTAGTCCCCAGCTGCGCGCTCCCCCGTCCCTCCCCAGCCCTCT
Celera SNP ID:            hCV15944752
SNP Position Genomic:     16626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:64076):
CCCCGTGGGCATCTTCCAGAAACGCAAGAAGTACAACGTGCCGGTCCAGGTGAGGCACGTCCCAGAACCACAGAGTGGGTACAGGGTGGACTTTTAAAAA
Y
TCTTTGGTCGGGCGCCGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACA
Celera SNP ID:            hCV26892945
SNP Position Genomic:     17858
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64077):
GCATTTAGGTACCCGGTGGGGGCGGAGCAGGGGCGACGCCGGTGCACGCCCTCTTTTTTTTATTTTTAAAATTTCACCCGGGCCTTGACAACCGGTACAA
Y
CCTGTCCTCCCCTGTTCCCGCCCCCGAGCCAGAGGATTCGCTTTTGCGTGGGCAGCTGCAGGGATGGTGACTCGGGCTAGCTCAGATGTGGCTGCCGTTA
Celera SNP ID:            hCV15944753
SNP Position Genomic:     16586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64078):
AGGAGGGAAGGGGGCGGGAGCGCGGGGAGGGGACAGAGGAGGGGCGGCGGGTGGCGGGCTCGACTGCCCCCAGCCGAGGGGCAGCCCCGGGGCCGGGCCC
S
GCGCGCACCCGGCCAGCGCGCCCTCGCCAGCTGCGCTCTGAGTTCTGGGCCAGCTCCCCAGAGGCCTAGGCGCCGCCGCCGCGAGGGCGCGGGGCAGACA
Celera SNP ID:            hCV593951
SNP Position Genomic:     6578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:64079):
GCTATTGTTATGAAGCGTAGGGCGGGGAGGGTTCATCCTCTTGGGCGGTCAGGCCAGGCTGCATTTAGGTACCCGGTGGGGGCGGAGCAGGGGCGACGCC
S
GTGCACGCCCTCTTTTTTTTATTTTTAAAATTTCACCCGGGCCTTGACAACCGGTACAATCCTGTCCTCCCCTGTTCCCGCCCCCGAGCCAGAGGATTCG
Celera SNP ID:            hCV15944754
SNP Position Genomic:     16526
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64080):
AGGTTGGACACATGAGCAGGCCCAGTGGGTGCTGGGGACACCATAGGGAACATGCCACAGCCCTTGCTTTTGTTTTTGAAAATAGCTTTTCTCTGCATAG
Y
GCCACCCATAGCCCGGGCACTGAAGTCGACGTGTTTTGCTCCTCATCCAGACTCAGTTGGGATTCAAGTCAGGCAAGTGGTAATGAGCCACTGTCCACCA
Celera SNP ID:            hCV16203823
SNP Position Genomic:     12758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64081):
CCTCAACTTTGGCCAAGGTAGGGAGGCTGGACCTGCGGGCCCGGGGGCGGGGGCGTCTGGGCCGGCGGGCTTCCTCGAGCGCGCCACCGGCTTGTGCCCC
M
CTGCAGTGGTGGCCGATGTGCTCTGCGAGTTCCTGGAGGTGGCTGTGCATCTCATCCTCTACGTGCGCGAGGTCTACCCCGTGGGCATCTTCCAGAAACG
Celera SNP ID:            hCV15944739
SNP Position Genomic:     17681
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,38)   total(A,1|C,71)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64082):
GAGCCAGGGTCCGTGGGCAGACGCGGCGAGGAGAGGAGGCGGCGGAAGGACTGGCGGATAGACGGGTCCGAGGGCTGGGAAGGAGGCAGCATCCTCACTT
Y
CAGCCTCGGGACCCCGCGCACCCCGCCCCTGGGCGCGCCAGGTAGCCCACCTTTGTCCGGGCTCGCAGCCAGGTGGGGCGGGAGGGGCGGAGCCAGGGGC
Celera SNP ID:            hCV16203824
SNP Position Genomic:     6189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64083):
CTTTCCGCATGTCCCGCTTTGCGCTCCCGGCCCTGGGCATCCCGCTGTTTCCCTCTGCGTCCGCGGCCCTGCCCTTTTCGGGGGCACAGCTGTGGTCTTT
Y
CACCCCGCGAGACAGCGGGGCGAGGGGGCGCGGGCGGCCAGTGGATAGAGGCTGATGCCCCCAAGCACGGACGCCAGCGTGGGGGTGGAGGTTCTTCCAG
Celera SNP ID:            hCV16177532
SNP Position Genomic:     17308
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,34|C,1443)   total(C,1443|T,34) 
SNP Type:                 INTRON


Gene Number:                 397
Celera Gene:                 hCG25209 - 104000117833015
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(38978162..39003930)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12557):
AAATATTCCTTCAAATGGAAGATGCCTTATGGTTTCAAAGATGTCCCAAGTTGGACTATCCAAAAATGTAATGCAAGTCAACCCAAAGGTTAACACTCTC
AGAGAGTAGCTTCATGAGACAGCACAGGAAGAAGGGATAAAAGCCTGTGGTGGCTCATGCGTGTAATCTCAGCTACTCAAGATGCTGAGGCTGTAGATCT
CCAGGCCAGGAGCTCCAGATCAGACTGGGCAACAGAGTGAGGCCATGTCCTTAGAAAATTATTATTGATTTAATTTGCTTTTTAAATTTACTGCTATTAG
GCCAGGCACGGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCATGAGGTCAAGAGTTTCAGACCATCCTGGCCAACATGGT
GAAACCCCATCTCTACTATAAATACAAAAATTAGCTGGGCATGGTGGCATGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTACTTGA
ACCTGGGAGGCCGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGCTGCAGAGCGAGACTCAGTTTAAAAATAAAATAAAATAAAATAA
AAAAATATATATATAGCTATTATTATTTAAAGACAGGACCTCACTCTGTTGCCCAGGCTGGTCTCCAACTTTGATTGGCCTCAAGCAATCCTTCTGCCGA
AGCCTCCCAAAGCACTGGGATTACAGGGATTAGCCACACTGTGCCTGACCATAGTTTCCCTCCACTGACTCCACCCACAAGCAATCATTCCCAACCTAAA
AACATTATTTTAAAAATTAGCGGAGCCAGGGTTAGTGGTTCACGCCTGTAATCCTAGCACTTTGAGAGGCCAAGGCCAGCAGAGAGCTTGAGCCCAGGAC
TTCGAGACCAGCCTGGGCAACATGGCAAAACCTCATCTCTACCAAAAAAAAACAAAAAAACAAAAATTAGTCGGGCATGGTGGTGCATGCCTGTAGTCCC
AGCTACTCTGAGGGCTGAGGTGGGAGGATCTCTAGAGCCCAGGAGTTCCGGGCTGCAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGGTGACAGA
GTGAGATCCCTGTCTTAAGAGATGAAAAATAAAGAATATTTTTGTACAGAATTTTGAAGACAGATCATATACCCAGAGCCCAATTCCTTTTTCTCTGAGC
TACCAGTATCTCTTTTATACATTCCTTATATTCAATAATTTTATTATGCATTGGTAGATAAGTGTGTACATCTACACATTTATATAGTCACACCAAACAA
CATGCTTAAATGATTATTTGTTGAAAGCTTTTTTTTTTTTTTGAGATGGAGTCTTGCTTTGTCGCCCAGGCTGGAATGTGGCGTGATCTTGGCTCATTGC
AACCTCCACCTCCCGGGTTCAAGTGAGTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATGCAGCCACCGTGCCTGGCTAATTTTTGTATTT
TTAGTAGAGACGGAGTTTCACTATGTTGGCCAAGCTGGTCTCAAACTCCTGACCTCAGGTTATCCACCCGCCTTGGCCTCCCAGAGTGCTATAATTATAG
GCGTGAGCCACTGTGCCCAGCTGGCCAGGCCCACAAATCTGTATTTTAATAGATTCTCCAGGTGGTGCTTACAAACGCTAAAGTTAATGCAAAGGTGCTA
TTTCGTGTTTTGTTTTGTTTTGTGTTGTTTTGTTTTGTTTTTTGAGATGGAGTCTCTCTCTGTCTTCCCCAGCTGGAGTGCAGTGGCACTATCAGGTTCA
AGCGATTCTCCTGTCTCAGCTGCCAGAGTAGCTGGGACTACAGGAGTGTGCCACCACACCCAGCTAATTTTTTTGTATTTTTAGTAGAGGCGGAGTTTCA
CCATGTTGACCAGGCTGGTCTTGAACTCCTGACCTCAGATGATCTATTTGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCCCCCAG
CCCAAAGGTACTATTTTGGAGCAATGATTTTAAGACTTGGCTTTATTATCTTAATTTGAACATCATAAAGAACAAATACATAGTCAAAAATACATAACTG
TTTTCTTTTTTTTTCTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTGAGATAGAGTCTTGCTCTGTTGCCCGGGCTGGAATGCAGTGGTCCAATCTGGG
CTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCTTGCCTCAGCCTCTGGAGTAGCAGGGATTACAGGTATGTGCCACCACGCCCAGCTAATTTT
TGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTTAAATGATTCATCTGTGTCTGCCTCCCAAAGTGCTGGG
ATTACAGACGTGAGTCACTGTACGGCCCGTAACTGTTTTCTGAGTAAGATTCAGTTTCCAATCTCGGCAAATGAAGACTTTCCTGGGGTTAAAAGGACTC
TTTCTGGTTCACTCCTTGATATCGACCTGTGCTGGGGATTGAGCAGCTGTTCAAGTCCAACCCACCCAGTTTTGGTTCTATGCCAGGCTTAAATCCACGA
TATTTCACAATTCGTGTATGCCACCTGATGAAGTGTTTTTAGGTGATGACTGCCTTGTAACCTAACATTTTGCCAAATGTTTATTGTAAATTTTTCTACC
ATCATCATTACTGTGGTATTGTAACTAAAACTCTCCAGGAAGTTATTCAGCTTAAAACTAAAATCGAGTATATCTCAAGTAACTCTACTGTTTGATTTGA
AATGCCTCTGTTATATGCTGTCTGCAATCAGCATCGTCTCGTAAATAAAGTTGAAAGGAAAGATGATGAAACTGGCAGTGTTACTGAATGGGAAATAAAG
GTGAGAATACACACTGCGAATGAAGACATGGAAGTTACTTCTATGACATAATCATGTAGGAATCTGAATGCCGTGTTCCCTTGTTTACCAAATGAAGCAC
CTTTATTGCAAGAGAAGAAACTGGGCTGTTCCCGCCAATATTCAGAGGCCATTTGGAATCTGCTATGATTGCTTAGATCTGAGGACTTGGTGCTCTATTA
TTTTGTGGGATCTGAGAGGCAGGAATGGGATTTAATGATATCTCAATTCTCATCCATCTAAAATAACCTAATTTGCAATTATAAATAAAATGGCATGTTG
CATTTATATATTCCCTTTTTAAAACAGGAACTGGTCCTGCTTTTAACTTTATGGAGTCTTATTTATGAATAAAGCTCAAATTATTAAAATATATATTCAG
ATTAAAATTCATTTGAACAGTCTATGGCTATTATGAATTTTATTTACTTCTCTTCCCCGAATTTTAATTTCTTTGAAGGCTTCCAGGTAAACAGTGATTA
CTAATTATTTCAATGTTGTATGAGTCCAAGATCCTTAAGTCAGTTCATTTTGGATAACATAATCAAATTATCATTAAAGAATGATGCAATCACTGTTAAT
CTTAAGAATCTGACAGTGAAATATGACCCCTTAAAACTATTCAGGTGGGCGGGGCCCAGTGGCTCAGGCCTATAATCCCATTACTTTGAGAGGCAGAGAC
CGGTACATAGCTTGAGGCCAAGAATATTAGGTGACATAGCAAGACCATGTCTCTAAAAACTAAACAAATAAAAATGTTCCCCAGTTAGTGCAGATGGAAT
AGCTGCACAGATTCACATAAGTTTCAGTTTTGTCTCAGATTTACAAGAACAGAATTTATAAAAACATTGGTTATTTAAATTAGGATTCAACTTAATTGTA
TATCCATGTTTACATTTAGGATTCTTTAAAATAGTGTAAATAGTAATAAACTATAAGACTCATAAGCAATTCTAAATAATTTAGGTGATTAATTTGGCCT
TTTTATTTAAACAAAATCCAGTCTTGGATCTGTTAAAATGATATATTGCATGTTTATTTCTCACAGTGGTAAAATCATGGACTCATACCATGGACCATTT
TTTAAACTCCTCACTCTCCAGGGGACGTTGGTGAAAAATTTTCTTATAGAACCCTGGGCCAGGAGGGGTGGCCTTGGGCGGGACTGTTTGTTCTAAAAAT
TGGTAAAGCCCAGGGCTTGTTGGTGATGGATGAGCCAGAAGTGATGAGGACCCAACAGAGACTTAGAGTGGAGTCGGAATGAAGTCAGAAGTCACTTGCG
TGACTCCAAGTGTGTGTCGGGTCCTGCTAGGGTAGAATAGTCTCTGGACCTGGGGACAGGGAGGAAATGGACATCAAAAAATACCATTATCATGGCTGGC
CCAATGGTAGTGGGTTATCAGAACTTATCAACATTAGTGTTGCTAAAGTTGGTATACAACCCCCCACTGCGAAATTTGGCTGGCTTTTAAAAAAATGCCA
TTATGGGTAGACACTTTGATCTTTATTGGCAGGGTCAGTATGGCCCCTGGGTCCATGTGGTGTAAAAGTAGGAGTATCTCCACTCATAGGTGGGAATTGA
ACAATGAGAACACTTGGACACAGGATGGGGAACATCACACACCGAGGCCTGTGGTGGGGTGGGGAGTGGGGAGGGATAGCATTAGGAGATATACCCAATG
TAAATGACGAATTAATGGGTGCAGCACACCAACACGGCACATGTATACATATGCCATATGTATACAACATGGCACATGTATACATGTATACATATGTAAC
AAACCTGCACGTTGTGCACATGCACCCTAGAACTTCTTAAAGTATAATTTTAAAAAAGAATCAAAAAATAATTAATTAATTTTTTAAAAAAAGTAGGAGT
ATCTCTAAAATCTATTGCTACTAGTGGAATTGCCCAATAGGGCTGCTTCCTTGTGCAAACTTGGAAACTGTGTCATCTTCATCCTGGAGAAGGCAGGGTG
GCCCCAGGGCTCATCTTGAGCTCTAGGATGGTACTTCAGCCCTAGCATTAACATTGGAGTGCTGTGTCATTTCCCCAATAGTAGGTTATATGATCCCCTA
CTGAAGCAAGAAGACAAACTGGATGGTGGAGCAAGAAGTCAAAAAGAAATCTATCCAGAAGCCTGAAAACATGATTAGCAGATGGAGAGGCAACAAGACT
TAGGAGGCAGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAACACTTTAGAAGGCGGAAACAAGAGGAGCGCATAAGCCCAGGAGGTCAAAACTAGCCT
TGGCAACATAGTGAGACCTCCAGCTCTACAAAAAAATTTAAAAATTAGCCAGATGTGGTGGAGTGTGCCAGTAGCCCCAGCTACTCTGGGGACTGAAGTG
AGACGATTGCTTGAGCCCCTGAGGTCCAGGCTGCAGTGAGCCAAGATCAAGCCGCTGCACTCCACCACAGAGCAAGACCCTGTCTCAAAAAAAATAAAAA
CAAAAAAAAGAAAAGTGGAAAGCTCCCTCCTCTGATCTCAGACCTTATTTCTTTTAAGGAAATATACTTTTGAAGTTTTGAGTTTGAAACACAGTTTGGA
CTTAATCACGAGGGATGTTGTGTAGGAAAGAATCATTCATTTAATTAATTTGGAACCCCTCCACCACAGTTTACTCCTTATGATATTAACCTCCTTTAAG
CATACATCAGTGTGAAAATGTCTTCAGTTTAAAAAGGCATTTTACTTCTGATGGGGTAAAAAAGTTTGTACCCTATCTGAGACCAGAGCATTCATAATGA
AGAGAAACTATGAAGTTACCAAATGTGGGGAAACTTACTCACATGCCATCTCATGGAATATAGAAGTCACACTGAAGAGAAACCCTGTGCCTCTAAGGAA
TACTGAAAAGCCTTTAGCTAGATTACCAATCTCATAAAGCAGCAGAAAATTCATGCTGGAGAGAAGCCAGTGAAAGCAGCAAAAACGTCATTGAATTAAT
ATTCAATTTATACTGCAGAGGAAGCTTTGAATGTACTACATATGAGAACATTTTCTCTCACACCTTATTCCTTACTCTGCATTTGAAAGGTCTTACACAG
ATAAACCTTATAAATGTAAGAAATGTGGAAATATCTTCAGCCAAAAGTAAATCCTTGCTCAAAAAAAAAAAWATATACACTGGAGAGAAACCTCGTGAAT
GCAGGAAAGCTTTTGTTTAGATATYCCTCTCAGTCAGCAGAGGGTTTATGTGGGGAAAGCCCCTCTGCCTGCATGGTATGTGAGAAAGTCTTCAGCCGCG
TGTCAGTTTCACCGAGCATGAGCATTTTCACACTAGAGAGAAACCCTTTGAATGTAATGAATGTGGAAAAGCCTTTACTRAAAGCAGTATGTCATTAACC
ATCTGAACGCTCATAACCACAGAGAAGCTTTGTGAATATAACAAATGTGGAAAATCCTTTTGCCAGAAGGAAAGTCTCCCTACCAGTCAGAAAATTCGCA
CTGAAGAGAGACCTTTTGAGAGTAAAGACTGTGGGAAAGTTCTCATTCAGAAGTCAAACTTCATCCAGTACCAGAGAATGCACACAGAAGAGAAACCCTT
TGTGTATAAGGAGTGTGGAAAAACCTTTAGTGGAAAATCAAACCTTACTGAGCAAGAGAAATTTCATATTGGAGAGAAACCCTTTAAATGTAGTGAATGT
GGAACAGCTATTGGCCAGAAGAAGAAGTACCTCATAAGAAACCATACTGGAGAGAAATCCTATGAGTGTAAGGAATGTGGAAACATCTTCTGTCAGCAAA
TACCACTTATTGTAGATGTGAGATTTCAGATGATCAACCCYATGAACTCACTGTGGAAAAGCCTTGTCTCAGTTCATTGCTTACTGTGTGTGTGAGCAGC
CCCGCAGGTGAGCAGCCCTATGGTTTCCATGGCTGTGGGGAAGCTTTCTCCCAATTCTCAACTCTTGCTCTGTATGTAAGAATACACACAGGTAGGAAGC
TTTATCAGTATGGTGAATGTGGGAAGCTTTCAGCCAGAAGTCACACCACATCAGACTCCAGAAAAGTCATACTCGTTTAAAAACTCCAGCAGGACATGAC
GGCTCACGCCTGTAATCCCAACACCGTTAAAGGCTGAGGCAGGAGGATCACTTGAGCCCAGGAGTTCGAGACAAGCCTGGGTAACACAGGGAGACTCCGC
CTCTACAAAAAAAATTAATAAAAACCTTGAAAATGGGAGTGCTTTTATCAGGAATGTACACCTCATAATGCATCAGAAATAATCATTTTGCAGCAAAGCA
CCACAAATAAGGTAAATTTTAACAGATACTTTATGTATGTAACTTGTGGGACATCAGAAAATTCAATGTCCTTCTGAAGAGAAGGGTATTCATATGATAA
AAAGCCTGAGTCTGGCCAGGTGCAGTGACTCATGCCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACCTGAGGTCAGGAGTACAAGATCA
GCCTGGCCAAAATGGCGAGCCCTGTCTCTACCAAAAATACAAAAATTAGCTGGGTGTGGTAGCGGGTGCCTGTAATCCCAGCTGCTTGGGAGGCTGAGGC
AGGAGAATCACAAGAACCCGTGAGACAGAGGTTGCAGTGAGCCAAGATGGCACCACTGCACTCTAGCCTAGGCGACAGAGACTCCATCTCAAAAACAAAA
TAAAACAAAACAAAAAAAGCCTGGGTCCAACAAAGAAACCCACAGCAAAGGCAATGCTGAAACTTTAGACACATTTCCACTAAAATTGGGAACAGAAAAC
AGATGCCTGTTAGCATTGCTGTCAGCATTGATCTGGAGATCTTCACCAGTGCAGTAAGTTGTAAGCATTGGAAAGGAAGACACAAAATTAGATATGATCA
TCTATAAATACATAAGACTCTTGTGGTGTTGACTGAACAGAGCAGAACAGATTTCAGAAAGAGACCTATGCATTATTTGAATTTGGAATACGATAGAAGT
GAATCAGGATAGGAGGAAATATGGGACKATTTTTAAAAATGGTTTGGAGGTAATCTGTTCTCCAAGTAGGGAAAAATAGACCATGAACCATACACAAAAG
TAAAATCCACAGAGATGAAAAGCAGGCATTGAAAAAGCTATGTATTAAAATTATATGACTTTGGGAGTAGGGAAACATTCCTTGTAACAACTTCAGAAAT
ACTTAGCAATTCTACTTTTGAATGTGTATGCTCAGGAAATATGTACTAGGATATTTACTATGGTTTGATTTGTAGTAGCCAAAAATTGGAAACATCAAAA
AGAAGAAATCCTTATGATGGAATAATAYATGTCTGTAAGTGCAACACCTGAGATTCACATGTATTAACAGGAAGATCTCAGAATCATGTTGAGGGGGGTA
ATATCAAGTTGCAGAATGATGCATATAGTACAATGACTTTCTGTAAATGTGTTGCTGTTTTGTGTTATTTATTTGTTTAATTAATTAATTATTTTTGAGA
CAGGATTTCACTTTGTCGCCCAGGCTGGAGTGCTGTGGCGTGATCTCGGCTCGCTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCCACCTCAGCCT
CCTGAGTAGCTGGGACTACAGGTGCGTGCCACCACGCCCAGCTAATTTTTTGTGTATTTTTTGGTACAGACAGTGTTTCATCATGTTGGCCAGGCTGGTC
TCCAACTCCTGGCCTCAAGTGATTCACCCGCCTCGGCCTCCCAAAGGGCTGGGATTACAGGCGTGAGCCACTGCACTCGACCTAATTTTTAATTTATTTT
TAAATAGAGACGGGGTCTTGCTACATTACCCAGGCTGGTCTGGAACTCCTGGACTCAAGCAATTCTCCCATCTCAGCCTCTCAAAGGGTGAGGTAATAGG
CATGAGCCACCATGTTCAGCCACTTTTTGTAARTTTGAATTAAAATTTCCCTCACAAAATTCAGTACTATACACATACTATACATGTATGTACGTAAATG
TTTCTGAAATGGTTTGGAAGAATATAGCCCAATACTTGCTAGTGGTCACCTGTAAAGAGTGAAGAAGGGAAGAGAGTGAGTGTGAGACTTCAGCTTTGTA
TCTAAACATCTTTTCTTTAAAAAGACTGCAAGTAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTGTCAAAAAAAA
AAAAAAGACTACAAGTAAATAGAGGAAGATACTGATTAATTCTGTACTGTGGTATATGGATCTCTAGTCTTATTTTTTATACTTTTCCATGTTTTTAAAA
TTTCTCAGAATTGGTAGGAATGAGGGTGAGGATGGGAACTCTGTACCTGTAGAAATCATGCTGTAATATTCATTCCCGGCCAGGCGCAGTGGCTCACACA
TGTAATTCCAGCACTTTGAGAGGCCAAGGCTGGTGGATTGCCTGAGCTCAGGAGTTCGAGACCAGCTTGGGCAACACAGTGAAACCCTGTCTCTACTAAA
ATATAAAAAGTTAGCCGGGCGTGGCAGCGTAAGCCTGTAATCCCAGCTACTCGGCAGGCTGAGGCAGGAGAATCACTTAAGCCTGGGAAGCTGAGGTTGC
AGTGAGCTGAGATCGTACCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAACAAAACAAAACAAAACAAAACAAAAATTCATTCCCAA
TCAAATACTAAATTTGTATAGCAAATATTTCTAAAATTTTATCAACAATGAGTGGATGAACGTGCTATGTATGTAAAATGAAATTATCTGGTTTTTTTTT
TTTTACATTCAAAATGAAGGCCGGGCATGGTGGCTCATGCCTGTAATCTTTGCACTTTAGGAGGCTGAGGTGGGAGGACCGCTCGAGTCCAGGAGTTTGA
AAGCAGCCTGGGCAACATGATGAGACTCCGTCTCTACAAAGAATTTAAAAATTAGCCACAGTGAGCCATGATTGCACCACTACACTCCAGCTTGAGGAAC
AGAGTAAGACGCTGTCTCAAAAATAAATAGGTGGCAAAAAAATTAAAAATAGTAAGTAAAAACCACAGCCAAAAAGAAAGAGAGAGAGAAAGAAAAAGAA
AGAAAGAGGAAGGAAGGAAGGAAGGAAAAAAGGAAAGAAGGAAGAAAGAAAGAGAAAAAAGTACCACGATCATTTCTAGGGTAACCTGATGGAATTATCA
AGATAATTATGCAAGATAAAATAAATAAATAAATAATAAATAAGTAAATAAGTCAAAACCACAGRAAAAAAAAGCCATTAAGTTTCCAGGGTAAACTGAT
GGAATTATCAGGATTTCACAGTAGAAGTAATTTGATTAAGTTTACAGCTGCCAAAGAGGTGGAGTCTGCATAAGTGAACAGCTGATTGAATCTGATGCCT
CTAGTGTGTTTAAGGACTCAGATCATAAGAGCAAAACCGTTTGAGTTCAAATCTACTATCAGTGTTTGATTCTGTGACCTGCAAATACTTAATATCTCTG
AGTCTCAGTTTTCGCTTTACATGATAACAATGATAAAATCCACCTCCTAATACTGGTGAGGGTAAAATTCGCTAATTAATGCCAATTGCTTCCYTGCACA
ATGAGAACAGGGGAAGTGATTGCATTAATGTCCAGAGGCCTCTGGTAGGTAACTCAATCACTCTGCCTATACAGGCGGTAGGTAGGTCGCTGGGGCTCCG
CCCCGAGGGGTGTGGCCGACCAAAGACGCAAAGCAGTGACCTGGGTGCATCCGRGCCAGGCTGTATAAAAGCCCAGGCCCCAGAAGGCGCCCAGAAGTTT
CAGAGTGTGTTCCTCTCCGTCTGCAAGTAGCAAAGTGCCCGGCCTGCCATATGGATCAATTTCTGGTAAGTCTATCTCCAAATGAAAGGGCGAAGGTCGG
TGTCATGGAGTGGTAGGTCAGAAATTCAAAGATGTAGGCGTCCAGAATCCTAGCAAGGGAGCCCGCTAATAGGGGAGGACAGAGAAGTGTCTGAAACGGT
TCATTTATTGAGGACCATTTTTACTTCCACGAGCCTGCCCTCCGCAGGGCATGCCTTTCATCAGACAGACCCTTTCATCAGACAGACGCGGGGCCTGCAG
AGAAGGCTGTGGTTGTGATCCTGGGGGTCTCTCGATGGCACCCGAAGGTCTTTCTATCATGTTGGCAGGAGCCCAGGACGAGATCGTGGTCTGGTCGAAG
TCTCATGGAAGTATACAAGGAACGCTAGGCCCATGAGTCAGAGGGGCCTGGGTGGGTTGGGTTGAATTATTAGAGATCAAGAGAAGGAGGCATAGCCCGT
GGTTGGAACTATCAGGGTTTATTGTTTGTTTTGGTTTGGTTTGGATTTTTTGTTTGTTTGTTTGTTTGTTTTTTTGACAGAGTCTTGCTCTGTCGCCCAG
GCTGGAGTGCATTGGCACGATCTCCACACACTGCAACCTCCGCCTCCCAGGTTCAGGCAATTCTCATGCCTCAGCCTCCCAAGTAGCTGGGACTACAGAT
GTGCACTACCATTCCTGACTATTTTTTTTTTCTTTTTTGGAATTTTAGTAGAGGCAGAGTTTCACTATTTTGGCCAGGCTGGTCTCAAACTCCTGACCTC
AAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTAGGATTACAGACCTGAGCCATTGCACCCAGCCGGGACTATCGTTTTAATAATTCCTTAAACTGGGG
TTGAAATCCTTCTGTTTTTCCAAGGGCCAGAAACTTTAGGGACCAGAAGCAGACCTAGAGCAGGTGGAGTGGGAATCAGTCCCTCACTGGGTTCCTGTTT
TCTAAGGTTCCCAGTGGGATCCATCAGGCCTTGCTCAGAACGAAATAGAGTTCTGTCTGCTCAGAGGAGCTTCTAGTCCAGTGGTGGGGAGAGGGGGTAG
ACAGGAGTTAAGCTTTTACATGAGTAGAAATGGTGGGAAACTAAGTGTAAGAGTAAGATGCTATTAGAGATTGATTTTTAAAGTTTAATTTTATGTATTT
ATTTTTTAGAGAGGAGGGGGTTCTTGCTATGTTGCCCAAGCTGGCTTCAAACTGCTGGGCTCAAGGGAACCTCGTCCCACAGCCTCTGAGTACCTAGAGC
TAGAGGTGCTGTGATAGCTAGAGATTGATTTTAATCTCAGAGGACATCATTTCAAAGATTTCCTGTTTGGAATTTTTTTTTTGAATTTTTCTCAGTTATT
TGTATGATCTTCAAATATATGTAATATAAAATTACCATCTTAGTCATTTTTAAGTTTACAGATCAGTGGTGGTATTTAGATACAGTCATAGTATTATGCA
ACCATCACCACCATCCATCTCCAGAACTCTTTCATCTTATAAAAGTGAAACTGTACCAGTTAAACAGTTAACTCCTCATTCCCCCTCCCCCTTTTCCCCC
CAACCATCTGTCTGTCTCTGATTTTGATTACTCTTAGGTACTTCATATAAGTGGAATCACATGAYTTTTTATGTGAGTCACTTTTTTGTGGCTGGATTAT
TTCACTTAGCATAATGTCCTCAAAGTTCATCCATGTTGTAGCATGTGTCAGACTATCCTTCCATTTTAAGGCTGGATATTCAGTTATATATTCCATTGTT
TGTATATACATTTGACCCTTGAACAACACAGGTTTGAACTGCATAGGTCCACTTATAACTATATTTTCTTCAATAAATATATTGAAAATAGATTTTCATA
TGTTGAACCATCCTTGCATTCTGGGAGTAAATCCCATTTGGTCTTGTTGTATAATCCTTGTAATATGCTGATGAATTGGGTTTACYAGTACTTTTTTGGG
ATTTTTGCATCAATGTTCTTAAGGGATATGAGTCCGTAGTTTTCTTTTCTTGTAGCATCACATCTGGCTTTGACATTGGGTATATGCTGGGCTCGTAGAG
TAAGTTAGGAAGTATTCTCTCCTCTTCAATATTTTGTAGAAGTTTGAAGGATTGATATTAGTTCTTTAAAATTTGGTAGAATTGACCAGTGAAACTATCA
GGTCCACAGCTTTTTTTTCGTTAGGAGATAATGATTACTGATTCAGTCTCATTAGTTATAGGTCTCTTCAGATTTTCTTTCTTCCTGATTCAGTCTTGAT
AGGTTTTGTGTTTCTATGAATTTCTTCATTTTATCTAGGTTATCCAATTTGTTGGTGTACAAACTGTCCATAGTCCTGTCTTAAAATCCTTTCTATTGGT
GTAGAAGTAGTAGTAATGTCCCCACTTTTCTTTCTGAKTTTAGTAATTTGAGTCTCTTTTTCTTAGTCCATCTAGCTTAAAGGTTTGTCAATTTTGCTGA
TCTTTTCAAAGATCGATTTTTTGTTTCATTAATTTTTCTGTATTTTTTAAAATTTCCATTTCATTTATCTCTGCTCTATTCTTTTTTGTTTTGTTTTTTT
ACAGGTGGGGTCTTGCTTTGTCACCCAGGCTGGAGTGCAGTGGCACAATAACAGCTCACTGTAGCCTCCGACTCCTGGGCTCACGTGATCCTCCTGCCTC
ATCATTCCAAGTAGCTGGGACTACAGGTATGTGCCACCACACTCAGCTAATTAAAAAAAAAAAAAATTTGTAGGAGCTGGATCTCACTATATTGCCCAGG
TTAGTCTAGAACTCCTGGGTGAAGGGATCCTCCCACCTTGGCCTTCCAACATGCTGGGATGACAGGCCTGACCCACTGTGCCTGGCCTGKTCTAATCTTT
ATCATTTTCTTCCTTCTGCAAACTTTAAGTTTAGTTCTTTTTCTAGTTCCGTAAATTGTAAAGTTAGGTTACTGATTTGAGMTATTTCTTGTTTTTTTAA
ATGTAAGTGTTTATARCTTCTATTCTAGCATTGCTTTTACTACATCCCATAAATTTTGGTCTATTGTGTTTTTGTGTTCATTATAACTTCTCTTGTGATT
TCTTCTTTGATCCATTGTTTGCTTAAGAGTATATTCTTTCATTTCCACAAATTTGTGAACTTTCCAGTTTTACTTCTTTTTTTTTTTTTTGAGATGGCAT
CTCACTCGGTCGCCCAGGCTGGAGTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCTCACCACCAAGC
CCAGCTAATTTTTGTAATTTTAGTAGGGACAGGGTTTCCCATCTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCATGATCCACCCACCTCGGCCTCCCAA
AGTGCTGGGATTACAGGTGTGAGTCACCATGCSCAGCCTTCCAGTTTTACTTCTATTATGGATTTCTATTATGGATTTAGAGGTGGATGTGGTGGCAAGC
ACCTGTAGTCCCACGTACTAGGGAGTCTGAGACAGGAAGATCGCTTGAGCCCAGTAGTTCAAATCCAGCCGGGGTAACTTGGAGAGAATCCATCTCTGAA
AATAAAAATAAAAAGAATTCCTAGGTTTTGAGAGCTCCTCTTGGTAGGGTGTCACCACAAGAAGTGGCATCAGCCCAGACCTCCAAGTGAAAGTGGCTTC
TGCTTCCACTGTGGCTTCAATTATCTCCCTTCTTTTAAGGGTACCTCCTTCTAGTTCTTGGGAAATTCCACTTATTTCCAATCATAAATAGATATATGTT
ATATATGTATATTCTTTGGGTTTTAAAATTTTTCTTTAAATATATGTAATATATGTACATATATTATATATATATATATWTTTCTATATATTTAAAGCCA
TCTATCATTTCTATGATTTGGTATAGAAGGGAAGGACTTCAGGGTCTCCTCAGTCCACCATATTCAATGRCAGTCCTGTCACACATTTTGAATACAGCCT
GGGGGAATTATGGTATTTCTCTATTCTGAGAGTCAGGACAAGGCAGGAGGGACCAGACTTTGATGGCAGAGATRGGAAAGGAGAACGTATTAGATAAGAT
AATTTGGCTGGATAAGGCAGACTGAGCAATGGATTGGATAGGAACATGGCAAAACTGAGTAGACTGATCTGGCTAGAGTAGGACAAAAGCAGGGAAGAGG
CACAGGGGATGAAAAAGATGTGAGGCTACCCAGATGGTGGCTTTGGGGAGCTCATTATAAACTTGACACTTTTCTTGCAGATCATATGGGGCAGAGAAAA
AAGAGAAAATAATAAATAAATAAATAAATAAGTACATACATACATACATACATACACTTGATACCAGAGACAAAGGAAGCCTAGAAGCATATGGATGGCC
ACTTTGAACAGAAATATAAACCTTGTCCATATGCACAGTTACGCCTCTGTCTCCAAAGAAACTGCTTCTTGGAATGTATCTTAGTCTGTTCTGTCCAGGA
GCTGGTAGATTCGGTGTCTGGTAAGGGCATACTTTCTGATTCATAGATGGCACCTTTTAGCTGTGTCCTCACTTGGTAGAAGTAAAGAACTCTGACCCTC
AGCCCCTTAGAAGAACACTCATCTCATTCTTGAAGGTTCTGTCTCCATGACCTAATCATCTCCCAAAGGCGCTACCTTCTAATACAATCACACTGGAAAT
TCAGTTTTAGCATAYGAAATTTGGAGAAACACAAACATTCAGTCCATAGTAGAATGGTTCCTAGAAGCTGGTGGTTTCCAGGATGGTTCTCAGGAGGCTA
GAATCAGTGGGTGCCCCCAGTGAGATCTCTGGGAGAAATATCCCATTTATCTAGGGGACTGTAAGGACCCACAGCCAGATAGGTCCAGTACAAATTAAGA
GTCTTCCACCTGGGCCAAGTCAATTTACCTCCCTGGACTTCTATTTTCCTTAAAATGGGATTAATTATGACCCTTATTTTCTGGGGTCATGGTGGAAATG
AAATGAGATAATTTATTTGAAAATTTAATCAGCTGAATCTCCGGTAAGATGTCTGGAGAGGAGACTTTGGAAAAGCCTCTGGGGTGAGATCTCTTCAGAR
GATGATAGGAGATTCACAACATCCATCTAGACTCTCATCTCCATTGGTAGATAGGAGTAGCTTAGTAAAAGTTTGCACTTGAGAAATGTTTGCACTTTTA
AAATGTTACTCTGTGTGTGGAGGGGACACTGGATGAAGTTAACTCCAGAGTCAGTTGAAAGGCAACTACAGGCTTCTAGGCAAGAGATGATGGTGGGCTG
GATTAGGATAGGGTCAACAGGGAYGGAGAAGGAGGGTATGTGGGGATTGGAATTTGAGCTGGGATGAACCCCTGACCTATCAATTTTTTTGCAGGATCCC
ATAACTAAAGATCTAGTTCAGTCATCAGRCAACATCAAAGAGATGGATTCCAGTCTTCTCCAGGCAATTGAGGAAATTGAGAAATTTTTCCAGCATCTCT
CTGAGCGGCATACAGAACAGGCAGAAACCCCAGATGCACCAGAACCACAGAACTGTATGCCTCTGACTGCCCATGCTGAGGAGAGCCAACATGAGTCAAC
CCAGAGCAAGACGATGCMTCCCTTGGGGTCCACAATGATGACTTCTGCATGCACTAACATCCCTGGGACAGTTCTCACCCAGGACTTAACAATGCACCCT
CTTAAAGCCCTTGAAGACCTAAGTGAGACTTATTCCATGGGCCAGAAAGTGACTTCCTTTGATCAGGTAAAACACACAGCAGGCTCCCAGATGACAGATG
TTACTGTCACCCCAAAGTCATCACCCACTGATTGCCAGAAGACAACCATCACTGCAAGCAACATGACAATCTCCAATGAAAGTAGCCAGCTGAACACCCC
AAGCAGTGACCAGACCCTCAATGAGAGTCAGATACCAGCCCTGCTTGGAGATCAGATGAAGACCCTCAGTGATAACCAGACTCTCTGTGGGGACCAGGTG
ACCTTCAGTAGTGACCAGACCCTCACTGATGGTCATACAGTGACTTCCGGTAGCGATGAGACCCTCTCTGGGGGCCAAATGACAACCAGTCTAGACCTCT
ATGGAGGGCAAATGATGACTTCCATTGATAACCAGACCCTCTGTGGGGAGCAGATGAYGACCTCCAGTGRTAACCAGGCCYTCTACGGGAGACAGATGAC
GACCTCCACTGGTAACCAGACCCTCTGTGGAGAGCAGATGACAACCTCCACTGGTAACCAGGCCCTCTATGGGGGGCAGATGACGACCTCCGCTAGTAAC
CAGACCCTCTGTGGAGAGCAGATGACAACCTCCACTAGTAACCAGACCCTCTGTGGGGAGCAAGTGATGACCTCCACTGGTAACCAAGCCCTCTGTGGAG
GGCAGATGACGACCTCCACTGGTAACCAGAACCTCTATGGGGGGCAGATGATGACCTCCACTGGTAACCAGACCCTCTACTGGGGGCAGATRATGACCTC
CACTGGTAACCAGAACCTCTGTGGAGAGCAAGTGATGACCTCCACTRGTAACCAAGCCCTCTGTGGAGGGCAGATGACGACCTCCACTGGTAACCAGAAC
CTCTATGGGGGGCAGATGATGACCTCCACTGGTAACCAGACCCTCTASTGGGGGCAGACGACGACCTCCACTAGTAACCAGACCCTCTGTGGGGAGCAGG
TGACGACCTCCACTGGTAACCAGGCCCTCTACGGGGGGCAGATGATGACCTCCACTGGTAACCAGACCCTCTACTGGGGGCAGATGATGACCTCCACTGG
TAACCAGAACCTCTGTGGAGAGCAGATGACAACCTCCACTGGTAACCAGGCCCTCTACGGGGGGCAGATGACAACCTCTACTAGTAACCAGACCCTCTGT
GGAGAGCAGATGACGACCCCCACTAGTAACCAGACCCTCTGTGGGGAGCAGGTGACGACCTCCACTGGTAACCAGGCCCTCTACRGGGGGCAGATCACGA
CCTCCACTAGTAACCAGACCCTCTGTGGAGAGCAGATGACGACCTCCACTAGTAACCAGACCCTTTGTGGGGAGCAGGTGACGACCTCCACTGGTAACCA
GGCCCTCTATGGGGGGCAGATGATGACCTCCACTGGTAACCAGGCCCTCTACGGGGGGCAGATGACAACCTCTGCTAGTAACCAGACCCTCTGTGGAGAG
CAGATGACAACCTCCACTAGTAACCAGACCCTCTGTGAGGAGCAGGTGATGACCTCCACTGGTAACCAGGCCCTCTGTGGAGAGCAGATGACAACCTCCA
CTGGTAACCAGGCCCTCTACGGGGGGCAGATGACGACCTCCACTAGTAACCAGACCCTCTGTGGAGAGCAGACGACGACCTCCACTAGTAACCAGACCCT
CTGTGGGGAGCAGGTGACGACCTCCACTGGTAACCAGGCCCTCTATGGGGGGCAGATGATGACCTCCACTGGTAACCAGACCCTCTACTGGGGGCAGATG
ATGACCTCCACTGGTAACCAGAACCTCTGTGGAGAGCASATGACAACCTCCACTGGTAACCAGGCCCTCTAYGGGGGGCAGATGACGACCTCTACTAGTA
ACCAGACCCTCTGTGGAGAGCAGATGACGACCCCCACTAGTAACCAGACCCTCTGTGGGGAGCAGGTGACGACCTCCACTGGTAACCAGGCCCTCTACAG
GGGGCAGATCACGACCTCCACTAGTAACCAGACCCTCTGTGGAGAGCAGATGACGACCTCCACTAGTAACCAGACCCTYTGTGGGGAGCAGGTGACGACC
TCCACTGGTAACCAGGCCCTCTATGGGGGGCAGATGATGACCTCCACTGGTAACCAGAACCTCTACGGGGGGCAGAATATGACCTCCACTGATAACCAGG
CCCTCTATGGAGGCCAGATGGCAACATATAGTGGCAACCAGACCCTCTATGGGGACCAGATGCTGACTCTTCAGGTGGGCAATATGACAACGCTCACTGA
TGACCACAGCCTTTATGGGGGATATATGATGTCCCATCAGTTCTCATCATTGCCATACCCAGGATTCCTATGCTTTTCAAGTTCCCATTTGATTCAAGGA
CAACTCCCAAAACAGAAGACACAGAGCTGCCAGTTCTGGAAGAATCCTGAGGTTTCAAGGCCCTATGTCTGCACTTACGAGGACTGCAAGATGTCTTATT
CAAAGGCTTGCCACCTCCGAACCCACATGCGCAAGCACACCGGTGAGTGAGGGCCCAGAAACAGGGGTGAGGGGCAAGTGGCTACAGATTTGTGCCCGGA
AGCATTTGAGATTGCTGCCACTTCCTTTAAGCCAGGGATTCAAAAAATTCTATAATAGAAAAGGTTGGCACCTTCAGAAGGGTAGATAAAGCAGTCCTAG
GGACAGGCTCTAGTCCTGGACCAGGGACAGGCTCTAGTCCTGGACCAGAGCCAGGCTGGCTATAGCCTTTAGTGGTGTTGACTGCTGGTTTGATGGGAAT
AAGTGGAGGGATTTCTTTGGCCTCTTGCAGGTAGATGTTCTTGATGCTATTTCTACTGGGACCGTCACTTCGTAGTGACAGGGCCCCCAGGCCCCACTTC
CCTCATCCTCCTTATTCCCCCCACTAACTTGCCTGCCAATAACTGTCTCTCCTCCTGTTTGTTTTTTTTCTTCTTCCTTTCCTCTTCTTCCCTTCTTCAC
AGTTTTCCTCTTGTCTCTCCAGCTTTTGCGGCCCTCATTCCCCTCCTCCTTCACTCACCTCCACCACTCCCGTCTCYTCTGGCTCTCCCTCTCCCACTCC
AACTTGTTCAAAAACGTTTTCTTGTTCACTTTMAATGTCCCTGCCCTACCTCACCCTGATGTATGACAGGTCTCTCTCTCTCTGTCTGGTCCAGGGGAGA
AGCCCTATGTATGCGATGTAGAGGGATGTACGTGGAAATTTGCCCGCTCAGATGAGCTCAACAGACACAAGAAAAGGCACACTGGGGAAAGGCCCTACCT
GTGTTCAATATGCAGCAAGAATTTTGCAAGATCTGATCACCTAAAGCAGCATGCAAAGGTCCACAACATTCGCCCAGGATTATGAACCCTTCAGCCCATG
TGGAAATGTGTACAGCTAAAAGATTCTCCCTATTGAGGTTGTTTCCCTTGAACAAGCTCCCCTATTTCCCTATGCCAGTAGCTAGTAGGTGCTTAATATT
ATTCATAAGTTTTCTAAAATATACAAAAAAAGTAGGTATGCATTTTCATGTAAAAACTGGATGACTTTCAACTTGAAACCAGAAGCCCTCTTCATTCATT
CCCCTCTCTCAGGGTAACGGCTTTTATCAGCATGCTGTGAATCCTTCTAGATCTTACTCTGTATTTACCTGTATGTGTACTTTTAAAACGTATCTATGTA
GGTGATTGAGATTGATATGTGTATAGCTCAGAGGGTAAAGAATGAAACATTTTTTGTCTGTAGCTGAGTCCATGTTTCTTTGGAGCTTCATTCCTATGAG
GTGAAAAGGAGGGGACGCTCAGTCACGTCCAGTGTAAAGTGGTCTCAGGTTAAATGGACTTTGCTTAGAAGAGTACTTAGCCTATTCAAAGGTTCAACCT
CAGGCAGGTGTGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCCAAGGTGGGCAGATTGCTTGAGCCTGGGAGTTCTAGACTAGCCTGGGCAACG
TGGCGAAACTCTGTCTCTACAAAAAAAAAATACAAAAATTAGCCGGGTGTGGTGGTGCATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGCTGGGAGGA
TCACTTGAGCTCAGTAGTTGGAGTTGCAGTGAGCTATATTCACACCACTTCACTCCAGTCTGGGCGACATAGCGAGATCCTGTCTCAAAAAAAAAAAAAA
GATATTGTGTAATATTATATATGAAATATATTGAATAAGATATTTAAGTTATAAGTAGAAAAAATGAGCACCTGTAAGAGCTCATCACCCAGTGTCATGC
AATCAGGGGTTGATATGGCCAATCGGAACAATGAGCCAGATGGAAAGGAATGATCAAGCCTTATTTACTGACTGCTGCAGAGCAGATGGGGGAGATAGCC
TTAGCCAAGACCCCAAATAAGGAGGCCTCTGCATGGAAGCACCATCGTCCTTCAACCATCCACATAAACCCAGGGTATAAAACTGTGCACTGGCTGCTTT
CTGGGGTCCTTCAGCTGTGGTACAAGTGGGATACATGCAGTTAAGACTCCATCCCCGCTGGGCAGCTTTCCTGAGCCTTGGGGGACTCACTCCCAGTGAA
TCCTAGATTGTTGTCCCTTGCTGCCTGTAATAAACCTATTTTATTTAACTTGTTGTGTGTATGGGTGTCATTGGATCTCACTGGACTCAGACAAGCTGAT
AACCAGTGCACAGTGAACCTGCTTTACAGTGGGGATGCCAAGTCCTTGACTATAGCTCCTTTCAGAAAACTGCAATGCCCCGGCTATGTGCCAAGTCTGG
TGAGCTCCCCTACCCATCCTTCTGTCTATCTTCTAGAATTGATGACTACCCTGCATTTTGTATATATAAATCCCTTGATACATTTATCAAAAATGCATGT
ATTCAAAGATAATTTGCAGGGTTTTTTTGTTTTGAGCTTCATAAATATTATACTAAGCTATATAACTTATACTAAGTTTCTTCTGAAACTCCCTTGTTTT
CAACACATTATCTCTAAGATTTCATCCATGTTATTACTAAGGCCAATAAAAAGAATCCATAACAACCCCAAACAAAACTTCTCTACATTGTCAACACAGC
AGGGTGGGCGTGGGGGAGTGAGAGACCAAAGAAATCTGAGAGTGCGCTAGAGTCTTACGTGAAGTACAACAACTATAAAAAGAAAAGATCATACAGCTGT
TCATTATCCAGATCTAATCTGCTAGATCATAAATTTTTAGACTAAAGTTTTTATTTCATTAACCTAAATATGAAAAATAGTAACATATTCCCAACCCATC
CAAAAACCCCAAACATTTCTTCAGATTTCACTACAACCCTTATATATTCTAACAATCCACCAAGGATTTCACATTATATAAAACCCCCAGGTGTGGTGGC
TCACACCTATAGTCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTTGGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACAGTCTCTA
CTAAAAATACAAAATTAGCTGGGTGTGGTGGCACACAGCTGTAATCCCAGCTACTCGGGAGGCTGAGGCACGAGAATCACTTGAACCCAGGAGACGGAGG
ATGTGGTGAGCCGAGACTGTGCCATTGCACTCCAGCCTGGGCGACAGAGCAAGACTCAGTCTCAAAAAAAAAAAAAAAAAAAGAAAAAAAAGAACCGAAA
AAAATGAACAGGGTGTCAGTAACCTGAGGGACAATATCAAGTGCTCCATCATATAGGCAGACTGTGTCAGAAATAGAAGGTGGAGGAGAACCCCAAAATT
TGACAAAACAATGCCCAAAATTTTTCCAAATTTTATTAAGACCACTAAACATTTAGATTGAAAAAGTTTGATGAATCCTAAACAGAATAAAGGTAAGTTC
AAAACCATACAAAATCAATCACTATATTTAAGAACAGATACATTATGTGGTAAAAACAATAAATAGCTAAGGCAAGATTAATCAAAATTCAGTATAGTGG
TTACCTCTGCAAAGAAGGATGGGGAATTCAAAGCTTTAAATGTACTAGTAGATCACTTTCCCTTCTTTTTCTTTTAATTTTATTTTTTACAGAGACAAGG
TCACACTGGTCTCAAACTCCTGGCCTCAAGTTATCCTAAGGATTTTTATTATTTTTTATTATTTTTCTTTTTTCCTTTTTTTTGACCTTCCTAACATGAG
TGCATTTATTATTAAATTGGATATATACAAAATATTTTTTGCAGGTATGATAGATATCACAATCAATGGAAAACGAATCAAGTTCATCCATTCTTCTTCT
GTGTTACTTATAACACAAGTCAGGAACCTGGAAGTCACCCTTGGCCTCACCCTCACCTAACAAATCCAGTTAACTATCACTTTCCTACTTCTCCCTACCT
CCACTCTCACACCCTAGCCAAAGCCACCTTGACTCTCACCTGAAATACTGCTATGTCCCTTCCTCTCCCTTACATCCTTGCTCTAATCTAATCTCCATGT
TGCAGCCAAAGAAAACACTTAACCTTATCTCTCCATCTTGAATCTATCGCACCATCCCCTTTACTATCAGAAGCAAGAGTGACAAGTAAATTTCTCAAGA
CACCTCATAGCCAGGAAATGGCAGAGGCAGGATTCAAAATCTACTAGAGTCCACAGGTCTTTTTTGTTTTGATTGTTTTGAGATAGAGTCTCGCTCAGTC
GCCCAGGCTGGAGTGCAATGGTGAGATCTGAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCCGTCAGTCTCCCGAGTAGCTAGGATTAC
GGTACCCGCCATATGCCAGGCTAATTTTTGTATTTTTTGTAGAGATGGGGTTTCACCATGTTGGCCCGGCTGGTCTCGAATCTCTAACCTCAAATGATCC
GCCTGCCTCGGCCTCCAAAAGTGCTGGGATTACAGGCGTGAGCCATCGCGCCGGGCCCAATTTGTGTACTTCTAGTAACATCCTTTCTCCGCTAGATTGT
GACCTCCACAAGAGCAGGAGCCTGTTTTGCCCACCATTGTAGTGCACATCATACACCCTTGATCACTCTGGTCCTCTCCACGTCCACTTCTTGGTGAAAA
TGCTAGGTCACCAAGCAGGCCTCTCATCCTACATTCCAACAACAAGCCATCTGGTTTGCTGACCCTACCCATGAGGCTGTGTGTGAGCCAGGTGGGCTGG
GGAACAGAGACCATCCCTGGCCCAGTGAACCCGAGATGACCTGCTCCATGGAAGGGATCTGGTGCCCTGGTAGAAAGACACTTTGAGTACCCAAGACTTC
AATCCCTGGGGCTAGTGAATGGGTCATAAATGAGCCACTTCTGCCCCTGTTCTTTTAATAATGTCCATTCCCCTCACATAGGAGCTTGGATGAAGGGCAC
CTGGATGTCCATCCCAGGTATACTGGGGCCACTAGTAACACAGACAAAGGCAGTGAAGTAGGACAAGGTCAGGGTAGGGGTGAGAGGGCAGGGGCAGGCA
CAGCCAAGGCTGTGGGGCTTCCCCAGAGGCCCAGATAGGCTTGAGCCTGCAGAGGACCGGCTTCTCTTCTTGGCAGCACTGGGCACATTCATAAATGTTG
TCTATGATCTTTCTGCTCTGCAGAGGCAGGGTGCCTTCATGCACTTCTGAATCCTTACTGTCCATGCCATAGTTTCCAGAAGATAGACATGTCCAACGGT
ATATGTCCAAGAAATGTGAGGTGCAGCTAGCCCCCATGAGTCCTTTGGGTCTGATGGAGGCACCTCCTTGAGAAGTCTTTCTTCCCTGACACATCCTTTA
GTTAACTCCATGCTCCTCACCATGGGTCTCCACAGCCTTGTTGCGCTCAGTATTGTAGGCTCAAAAAACATTTTTCTGAATGAATGTAGAACTTGAAGAC
TGCCTCTCCTCTGAACAGTTGCCACGTCCAGTGCTCTCAGCCTGGAATCCTCTTCCTTCTTCATTCACCTGTTCAGTTTATTTCAAAATTTGAGGGATTA
CTAGGTGTTACACTCTTACTGGGCCCAGGGATTACCTCCTCCAGAGAGCCTTTCTGACCCTTCCATTAGGGGCTCCTCTTCCCCATGGCTACTGTACCGA
GGTGGACCTCTGAGCCCCCAGATCAAGACGGTCCCTTGAGCACAGAAACCAGCTCTGATTCATCTCTCTGTGCTTGGCACCAGCCTCGTTCAGGAAACAC
CCATAGAAGGCACCATCTTCTTACGGAAGAGACCACCTCTGGGGCAGACAGATCCTGGTTGGGATTCTAGATCTGCACTTGATAGCTTGGCCAAGTTCCT
TTCTCTCTATCAATTTCCTGGAGTAAAACAGCCTGCCGAGTCTAAATATGAGGTTCTAAACTACCTGGCTGGTTTGCCAAGATAGTCATTATCCCCTTAA
CCCCAAGGGAGAGCAAGGAAAGATAGGCCACTTAATATCTGGTGCTTTGTAGTCCAGGGACCTAAGGAAGGTGGGAGGAGAAGAAGTTACAGTGAGATTC
ATCTTTATCTGCCCCAGGCTTAGGTCCTCCTCTCCCTCCTAGTCCTCAGTCACCTAGAATACAGAGCCTGAAAACAAGAACTAAGTACTGGTGTTTTATT
TGGAGAGGTGCAAACCCAAGGCATTGGAAGTGAGAAAATGGAAGAAAGGCGGGAAAGAATGGGAAGTAACGTAAGGTGATGTATTTAATAGGCTGGGGTG
GGCACTGCTTCATGACAAGCCTTGCAGAGGTCACAGTAGTTCTGTCCACCGGCTACTTGGGAGGCCTCCCCATTGATGGTACTGTTTTGGAGAGTTGGTG
CCATGCAGCAATTTATGAAAGGCAGGGGAAAAGGGGGAATTGATTTGCCTGAGTCTCACCTATCTCCCATTTTCCACTAGTCAAAAAAAAAATTTTTTTT
TTGAGATGGAGTCTTGCTGTCACCCAGGCTGGAGTGCAATGGCACAATCTTGGCTCACCGCAACCTCCACCTCCCGGGTTCAAGCCATTCTCCTGCCTCA
GCCTCTCGAATAACTGGGACTACAGGCGCACGCCACCATGCCTAGCTAATTTTTGTATTTTTTGTAGAGACAGGGTTTCACCATATTAGCCAGGCTAGTC
TCAAGACTCCTGACCTTGTGATCCACCCGCCTCAGCCTCCCAAAGTATTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCTCAAATTTTATCCCATAAA
TATTAACTCCCAGCCAGACACCATGGCTTATGCTTGTAATCCCAGCATTTTGGGAAGCTGAGGTGGGCAGACTACTTGAAGCCAGGAGTTTGAGATTAGT
CTGGCCAACATGGTGAAACCCCGTCTCTACAAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCGTGC


SNP Information

Context             (SEQ ID NO:64084):
ACACTCATCTCATTCTTGAAGGTTCTGTCTCCATGACCTAATCATCTCCCAAAGGCGCTACCTTCTAATACAATCACACTGGAAATTCAGTTTTAGCATA
Y
GAAATTTGGAGAAACACAAACATTCAGTCCATAGTAGAATGGTTCCTAGAAGCTGGTGGTTTCCAGGATGGTTCTCAGGAGGCTAGAATCAGTGGGTGCC
Celera SNP ID:            hCV11733804
SNP Position Genomic:     15415
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64085):
ATCTCTGAGTCTCAGTTTTCGCTTTACATGATAACAATGATAAAATCCACCTCCTAATACTGGTGAGGGTAAAATTCGCTAATTAATGCCAATTGCTTCC
Y
TGCACAATGAGAACAGGGGAAGTGATTGCATTAATGTCCAGAGGCCTCTGGTAGGTAACTCAATCACTCTGCCTATACAGGCGGTAGGTAGGTCGCTGGG
Celera SNP ID:            hCV26174391
SNP Position Genomic:     10494
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64086):
AATACTAAATTTGTATAGCAAATATTTCTAAAATTTTATCAACAATGAGTGGATGAACGTGCTATGTATGTAAAATGAAATTATCTGGTTTTTTTTTTTT
T
ACATTCAAAATGAAGGCCGGGCATGGTGGCTCATGCCTGTAATCTTTGCACTTTAGGAGGCTGAGGTGGGAGGACCGCTCGAGTCCAGGAGTTTGAAAGC
Celera SNP ID:            hCV26174392
SNP Position Genomic:     9704
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64087):
TCTGTGGAGGGCAGATGACGACCTCCACTGGTAACCAGAACCTCTATGGGGGGCAGATGATGACCTCCACTGGTAACCAGACCCTCTACTGGGGGCAGAT
R
ATGACCTCCACTGGTAACCAGAACCTCTGTGGAGAGCAAGTGATGACCTCCACTGGTAACCAAGCCCTCTGTGGAGGGCAGATGACGACCTCCACTGGTA
Celera SNP ID:            hCV15796265
SNP Position Genomic:     17192
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,5)   caucasian(A,6|G,8)   total(A,23|G,13)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64088):
GAAATGAGATAATTTATTTGAAAATTTAATCAGCTGAATCTCCGGTAAGATGTCTGGAGAGGAGACTTTGGAAAAGCCTCTGGGGTGAGATCTCTTCAGA
R
GATGATAGGAGATTCACAACATCCATCTAGACTCTCATCTCCATTGGTAGATAGGAGTAGCTTAGTAAAAGTTTGCACTTGAGAAATGTTTGCACTTTTA
Celera SNP ID:            hCV16022038
SNP Position Genomic:     15800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64089):
TATTGCCCAGGTTAGTCTAGAACTCCTGGGTGAAGGGATCCTCCCACCTTGGCCTTCCAACATGCTGGGATGACAGGCCTGACCCACTGTGCCTGGCCTG
K
TCTAATCTTTATCATTTTCTTCCTTCTGCAAACTTTAAGTTTAGTTCTTTTTCTAGTTCCGTAAATTGTAAAGTTAGGTTACTGATTTGAGATATTTCTT
Celera SNP ID:            hCV2982780
SNP Position Genomic:     13590
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,7)   total(G,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64090):
CTGGCCTGTTCTAATCTTTATCATTTTCTTCCTTCTGCAAACTTTAAGTTTAGTTCTTTTTCTAGTTCCGTAAATTGTAAAGTTAGGTTACTGATTTGAG
M
TATTTCTTGTTTTTTTAAATGTAAGTGTTTATAGCTTCTATTCTAGCATTGCTTTTACTACATCCCATAAATTTTGGTCTATTGTGTTTTTGTGTTCATT
Celera SNP ID:            hCV2982781
SNP Position Genomic:     13682
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,7)      total(A,7|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64091):
CTGCAAACTTTAAGTTTAGTTCTTTTTCTAGTTCCGTAAATTGTAAAGTTAGGTTACTGATTTGAGATATTTCTTGTTTTTTTAAATGTAAGTGTTTATA
R
CTTCTATTCTAGCATTGCTTTTACTACATCCCATAAATTTTGGTCTATTGTGTTTTTGTGTTCATTATAACTTCTCTTGTGATTTCTTCTTTGATCCATT
Celera SNP ID:            hCV2982782
SNP Position Genomic:     13716
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64092):
GAGACCCTCTCTGGGGGCCAAATGACAACCAGTCTAGACCTCTATGGAGGGCAAATGATGACTTCCATTGATAACCAGACCCTCTGTGGGGAGCAGATGA
Y
GACCTCCAGTGGTAACCAGGCCTTCTACGGGAGACAGATGACGACCTCCACTGGTAACCAGACCCTCTGTGGAGAGCAGATGACAACCTCCACTGGTAAC
Celera SNP ID:            hCV25752383
SNP Position Genomic:     16858
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64093):
ACCATACTGGAGAGAAATCCTATGAGTGTAAGGAATGTGGAAACATCTTCTGTCAGCAAATACCACTTATTGTAGATGTGAGATTTCAGATGATCAACCC
Y
ATGAACTCACTGTGGAAAAGCCTTGTCTCAGTTCATTGCTTACTGTGTGTGTGAGCAGCCCCGCAGGTGAGCAGCCCTATGGTTTCCATGGCTGTGGGGA
Celera SNP ID:            hCV25606884
SNP Position Genomic:     6741
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64094):
GGGGGCCAAATGACAACCAGTCTAGACCTCTATGGAGGGCAAATGATGACTTCCATTGATAACCAGACCCTCTGTGGGGAGCAGATGACGACCTCCAGTG
R
TAACCAGGCCTTCTACGGGAGACAGATGACGACCTCCACTGGTAACCAGACCCTCTGTGGAGAGCAGATGACAACCTCCACTGGTAACCAGGCCCTCTAT
Celera SNP ID:            hCV25606885
SNP Position Genomic:     16870
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,15)   caucasian(G,2)   total(A,1|G,17)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64095):
ATATATATATATTTCTATATATTTAAAGCCATCTATCATTTCTATGATTTGGTATAGAAGGGAAGGACTTCAGGGTCTCCTCAGTCCACCATATTCAATG
R
CAGTCCTGTCACACATTTTGAATACAGCCTGGGGGAATTATGGTATTTCTCTATTCTGAGAGTCAGGACAAGGCAGGAGGGACCAGACTTTGATGGCAGA
Celera SNP ID:            hCV8910243
SNP Position Genomic:     14670
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64096):
CTTTCCTCTTCTTCCCTTCTTCACAGTTTTCCTCTTGTCTCTCCAGCTTTTGCGGCCCTCATTCCCCTCCTCCTTCACTCACCTCCACCACTCCCGTCTC
Y
TCTGGCTCTCCCTCTCCCACTCCAACTTGTTCAAAAACGTTTTCTTGTTCACTTTAAATGTCCCTGCCCTACCTCACCCTGATGTATGACAGGTCTCTCT
Celera SNP ID:            hCV1254041
SNP Position Genomic:     19477
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,13|T,5)   total(C,44|T,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64097):
AAGGAGGGTATGTGGGGATTGGAATTTGAGCTGGGATGAACCCCTGACCTATCAATTTTTTTGCAGGATCCCATAACTAAAGATCTAGTTCAGTCATCAG
R
CAACATCAAAGAGATGGATTCCAGTCTTCTCCAGGCAATTGAGGAAATTGAGAAATTTTTCCAGCATCTCTCTGAGCGGCATACAGAACAGGCAGAAACC
Celera SNP ID:            hCV25750966
SNP Position Genomic:     16129
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,28)   total(A,1|G,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:64098):
CCTCATTCCCCTCCTCCTTCACTCACCTCCACCACTCCCGTCTCTTCTGGCTCTCCCTCTCCCACTCCAACTTGTTCAAAAACGTTTTCTTGTTCACTTT
M
AATGTCCCTGCCCTACCTCACCCTGATGTATGACAGGTCTCTCTCTCTCTGTCTGGTCCAGGGGAGAAGCCCTATGTATGCGATGTAGAGGGATGTACGT
Celera SNP ID:            hCV1254042
SNP Position Genomic:     19533
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,33)   caucasian(A,15|C,19)   total(A,18|C,52)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|A,5)      total(A,5|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64099):
GTTGACTGAACAGAGCAGAACAGATTTCAGAAAGAGACCTATGCATTATTTGAATTTGGAATACGATAGAAGTGAATCAGGATAGGAGGAAATATGGGAC
K
ATTTTTAAAAATGGTTTGGAGGTAATCTGTTCTCCAAGTAGGGAAAAATAGACCATGAACCATACACAAAAGTAAAATCCACAGAGATGAAAAGCAGGCA
Celera SNP ID:            hCV8910247
SNP Position Genomic:     7928
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;(G,-|T,-)   (T,-|G,-)   Caucasian(G,80)   African-American(G,82)   Asians(T,4|G,78)   total(G,240|T,4)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64100):
GACAACCAGTCTAGACCTCTATGGAGGGCAAATGATGACTTCCATTGATAACCAGACCCTCTGTGGGGAGCAGATGACGACCTCCAGTGGTAACCAGGCC
Y
TCTACGGGAGACAGATGACGACCTCCACTGGTAACCAGACCCTCTGTGGAGAGCAGATGACAACCTCCACTGGTAACCAGGCCCTCTATGGGGGGCAGAT
Celera SNP ID:            hCV11291390
SNP Position Genomic:     16881
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,13|T,3)   total(C,43|T,3)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64101):
TTACTCTGCATTTGAAAGGTCTTACACAGATAAACCTTATAAATGTAAGAAATGTGGAAATATCTTCAGCCAAAAGTAAATCCTTGCTCAAAAAAAAAAA
W
ATATACACTGGAGAGAAACCTCGTGAATGCAGGAAAGCTTTTGTTTAGATATCCCTCTCAGTCAGCAGAGGGTTTATGTGGGGAAAGCCCCTCTGCCTGC
Celera SNP ID:            hCV8910248
SNP Position Genomic:     6072
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;TSC_42_A(T,4|A,79)   TSC_42_AA(T,4|A,79)   total(A,158|T,8)TSC_42_A(T,4|A,79)   TSC_42_C(T,0|A,84)   TSC_42_AA(T,4|A,79)   total(A,242|T,8)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:64102):
GGTTATCCAATTTGTTGGTGTACAAACTGTCCATAGTCCTGTCTTAAAATCCTTTCTATTGGTGTAGAAGTAGTAGTAATGTCCCCACTTTTCTTTCTGA
K
TTTAGTAATTTGAGTCTCTTTTTCTTAGTCCATCTAGCTTAAAGGTTTGTCAATTTTGCTGATCTTTTCAAAGATCGATTTTTTGTTTCATTAATTTTTC
Celera SNP ID:            hCV2953558
SNP Position Genomic:     13138
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,8)   total(G,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64103):
CAGGCAGAAACCCCAGATGCACCAGAACCACAGAACTGTATGCCTCTGACTGCCCATGCTGAGGAGAGCCAACATGAGTCAACCCAGAGCAAGACGATGC
M
TCCCTTGGGGTCCACAATGATGACTTCTGCATGCACTAACATCCCTGGGACAGTTCTCACCCAGGACTTAACAATGCACCCTCTTAAAGCCCTTGAAGAC
Celera SNP ID:            hCV25752401
SNP Position Genomic:     16318
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,36)   total(A,1|C,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:64104):
CTGGTAACCAGGCCCTCTACAGGGGGCAGATCACGACCTCCACTAGTAACCAGACCCTCTGTGGAGAGCAGATGACGACCTCCACTAGTAACCAGACCCT
Y
TGTGGGGAGCAGGTGACGACCTCCACTGGTAACCAGGCCCTCTATGGGGGGCAGATGATGACCTCCACTGGTAACCAGAACCTCTACGGGGGGCAGAATA
Celera SNP ID:            hCV26174382
SNP Position Genomic:     18479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64105):
CCCTCTATGGGGGGCAGATGATGACCTCCACTGGTAACCAGACCCTCTACTGGGGGCAGATGATGACCTCCACTGGTAACCAGAACCTCTGTGGAGAGCA
S
ATGACAACCTCCACTGGTAACCAGGCCCTCTACGGGGGGCAGATGACGACCTCTACTAGTAACCAGACCCTCTGTGGAGAGCAGATGACGACCCCCACTA
Celera SNP ID:            hCV26174383
SNP Position Genomic:     18239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64106):
TCCTGTCACACATTTTGAATACAGCCTGGGGGAATTATGGTATTTCTCTATTCTGAGAGTCAGGACAAGGCAGGAGGGACCAGACTTTGATGGCAGAGAT
R
GGAAAGGAGAACGTATTAGATAAGATAATTTGGCTGGATAAGGCAGACTGAGCAATGGATTGGATAGGAACATGGCAAAACTGAGTAGACTGATCTGGCT
Celera SNP ID:            hCV16022028
SNP Position Genomic:     14774
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,10)      total(G,10|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64107):
GTGAGAAAGTCTTCAGCCGCGTGTCAGTTTCACCGAGCATGAGCATTTTCACACTAGAGAGAAACCCTTTGAATGTAATGAATGTGGAAAAGCCTTTACT
R
AAAGCAGTATGTCATTAACCATCTGAACGCTCATAACCACAGAGAAGCTTTGTGAATATAACAAATGTGGAAAATCCTTTTGCCAGAAGGAAAGTCTCCC
Celera SNP ID:            hCV27853551
SNP Position Genomic:     6280
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,27|G,1)   total(A,61|G,1)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,37|G,1)   total(A,73|G,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:64108):
TAACCAGACCCTCTGTGGAGAGCAGATGACGACCCCCACTAGTAACCAGACCCTCTGTGGGGAGCAGGTGACGACCTCCACTGGTAACCAGGCCCTCTAC
R
GGGGGCAGATCACGACCTCCACTAGTAACCAGACCCTCTGTGGAGAGCAGATGACGACCTCCACTAGTAACCAGACCCTTTGTGGGGAGCAGGTGACGAC
Celera SNP ID:            hCV26174384
SNP Position Genomic:     17685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64109):
GTAACCAAGCCCTCTGTGGAGGGCAGATGACGACCTCCACTGGTAACCAGAACCTCTATGGGGGGCAGATGATGACCTCCACTGGTAACCAGACCCTCTA
S
TGGGGGCAGACGACGACCTCCACTAGTAACCAGACCCTCTGTGGGGAGCAGGTGACGACCTCCACTGGTAACCAGGCCCTCTACGGGGGGCAGATGATGA
Celera SNP ID:            hCV26174385
SNP Position Genomic:     17348
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64110):
GATGATGACCTCCACTGGTAACCAGACCCTCTACTGGGGGCAGATGATGACCTCCACTGGTAACCAGAACCTCTGTGGAGAGCAAGTGATGACCTCCACT
R
GTAACCAAGCCCTCTGTGGAGGGCAGATGACGACCTCCACTGGTAACCAGAACCTCTATGGGGGGCAGATGATGACCTCCACTGGTAACCAGACCCTCTA
Celera SNP ID:            hCV26174386
SNP Position Genomic:     17247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64111):
AATCATAAATAGATATATGTTATATATGTATATTCTTTGGGTTTTAAAATTTTTCTTTAAATATATGTAATATATGTACATATATTATATATATATATAT
W
TTTCTATATATTTAAAGCCATCTATCATTTCTATGATTTGGTATAGAAGGGAAGGACTTCAGGGTCTCCTCAGTCCACCATATTCAATGGCAGTCCTGTC
Celera SNP ID:            hCV26174388
SNP Position Genomic:     14580
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2|-,9)   total(A,2|-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64112):
CTCCGACTCCTGGGCTCACGTGATCCTCCTGCCTCATCATTCCAAGTAGCTGGGACTACAGGTATGTGCCACCACACTCAGCTAATTAAAAAAAAAAAAA
A
TTTGTAGGAGCTGGATCTCACTATATTGCCCAGGTTAGTCTAGAACTCCTGGGTGAAGGGATCCTCCCACCTTGGCCTTCCAACATGCTGGGATGACAGG
Celera SNP ID:            hCV26174389
SNP Position Genomic:     13466
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|-,9)   total(A,6|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64113):
GGCTGGTCTGGAACTCCTGGACTCAAGCAATTCTCCCATCTCAGCCTCTCAAAGGGTGAGGTAATAGGCATGAGCCACCATGTTCAGCCACTTTTTGTAA
R
TTTGAATTAAAATTTCCCTCACAAAATTCAGTACTATACACATACTATACATGTATGTACGTAAATGTTTCTGAAATGGTTTGGAAGAATATAGCCCAAT
Celera SNP ID:            hCV29018818
SNP Position Genomic:     8833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64114):
ATGCTCAGGAAATATGTACTAGGATATTTACTATGGTTTGATTTGTAGTAGCCAAAAATTGGAAACATCAAAAAGAAGAAATCCTTATGATGGAATAATA
Y
ATGTCTGTAAGTGCAACACCTGAGATTCACATGTATTAACAGGAAGATCTCAGAATCATGTTGAGGGGGGTAATATCAAGTTGCAGAATGATGCATATAG
Celera SNP ID:            hCV592194
SNP Position Genomic:     8228
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64115):
GTGGAAATATCTTCAGCCAAAAGTAAATCCTTGCTCAAAAAAAAAAAAATATACACTGGAGAGAAACCTCGTGAATGCAGGAAAGCTTTTGTTTAGATAT
Y
CCTCTCAGTCAGCAGAGGGTTTATGTGGGGAAAGCCCCTCTGCCTGCATGGTATGTGAGAAAGTCTTCAGCCGCGTGTCAGTTTCACCGAGCATGAGCAT
Celera SNP ID:            hCV2982774
SNP Position Genomic:     6125
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,11)   caucasian(C,12|T,4)   total(C,33|T,15)
SNP Type:                 UTR 5

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:64116):
CACGATCATTTCTAGGGTAACCTGATGGAATTATCAAGATAATTATGCAAGATAAAATAAATAAATAAATAATAAATAAGTAAATAAGTCAAAACCACAG
R
AAAAAAAAGCCATTAAGTTTCCAGGGTAAACTGATGGAATTATCAGGATTTCACAGTAGAAGTAATTTGATTAAGTTTACAGCTGCCAAAGAGGTGGAGT
Celera SNP ID:            hCV2982776
SNP Position Genomic:     10165
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64117):
AAATAGATTTTCATATGTTGAACCATCCTTGCATTCTGGGAGTAAATCCCATTTGGTCTTGTTGTATAATCCTTGTAATATGCTGATGAATTGGGTTTAC
Y
AGTACTTTTTTGGGATTTTTGCATCAATGTTCTTAAGGGATATGAGTCCGTAGTTTTCTTTTCTTGTAGCATCACATCTGGCTTTGACATTGGGTATATG
Celera SNP ID:            hCV2982779
SNP Position Genomic:     12686
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64118):
GGTTTCCCATCTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCATGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACCATGC
S
CAGCCTTCCAGTTTTACTTCTATTATGGATTTCTATTATGGATTTAGAGGTGGATGTGGTGGCAAGCACCTGTAGTCCCACGTACTAGGGAGTCTGAGAC
Celera SNP ID:            hCV1254034
SNP Position Genomic:     14133
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64119):
CAGTTAACTCCTCATTCCCCCTCCCCCTTTTCCCCCCAACCATCTGTCTGTCTCTGATTTTGATTACTCTTAGGTACTTCATATAAGTGGAATCACATGA
Y
TTTTTATGTGAGTCACTTTTTTGTGGCTGGATTATTTCACTTAGCATAATGTCCTCAAAGTTCATCCATGTTGTAGCATGTGTCAGACTATCCTTCCATT
Celera SNP ID:            hCV11291380
SNP Position Genomic:     12365
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64120):
GGACACTGGATGAAGTTAACTCCAGAGTCAGTTGAAAGGCAACTACAGGCTTCTAGGCAAGAGATGATGGTGGGCTGGATTAGGATAGGGTCAACAGGGA
Y
GGAGAAGGAGGGTATGTGGGGATTGGAATTTGAGCTGGGATGAACCCCTGACCTATCAATTTTTTTGCAGGATCCCATAACTAAAGATCTAGTTCAGTCA
Celera SNP ID:            hCV1254035
SNP Position Genomic:     16024
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64121):
GTAACCAGACCCTCTACTGGGGGCAGATGATGACCTCCACTGGTAACCAGAACCTCTGTGGAGAGCAGATGACAACCTCCACTGGTAACCAGGCCCTCTA
Y
GGGGGGCAGATGACGACCTCTACTAGTAACCAGACCCTCTGTGGAGAGCAGATGACGACCCCCACTAGTAACCAGACCCTCTGTGGGGAGCAGGTGACGA
Celera SNP ID:            hCV16035068
SNP Position Genomic:     18272
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64122):
TCAATCACTCTGCCTATACAGGCGGTAGGTAGGTCGCTGGGGCTCCGCCCCGAGGGGTGTGGCCGACCAAAGACGCAAAGCAGTGACCTGGGTGCATCCG
R
GCCAGGCTGTATAAAAGCCCAGGCCCCAGAAGGCGCCCAGAAGTTTCAGAGTGTGTTCCTCTCCGTCTGCAAGTAGCAAAGTGCCCGGCCTGCCATATGG
Celera SNP ID:            hCV11733803
SNP Position Genomic:     10654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64123):
AACTCCTCATTCCCCCTCCCCCTTTTCCCCCCAACCATCTGTCTGTCTCTGATTTTGATTACTCTTAGGTACTTCATATAAGTGGAATCACATGACTTTT
T
ATGTGAGTCACTTTTTTGTGGCTGGATTATTTCACTTAGCATAATGTCCTCAAAGTTCATCCATGTTGTAGCATGTGTCAGACTATCCTTCCATTTTAAG
Celera SNP ID:            hCV26174390
SNP Position Genomic:     12370
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Gene Number:                 398
Celera Gene:                 hCG27246 - 110000085686079
Gene Symbol:                 IL1F8
Protein Name:                interleukin 1 family, member 8 (eta);(ETA);FIL1;FIL1-(ETA);FIL1H;IL-1F8;IL-1H2;IL1-ETA;IL1H2
Celera Genomic Axis:         GA_x5YUV32VY9Y(580959..623752)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12558):
TTCTTTCCATCTTTCATTCACTCACTCCCTCCCTTTTCCCTTCCTTTCTTCCCTCCCTCTTTCCTTCCTTTCCTTCTTTCCCTTCCCATTTCCTCCCTTC
CTCCCCTATTCCCTTTCTTCCTTACCTTTTTCACTCCTTCCTTCACTCCTTCCCTTCTCCCTCCTTCCTTCCTCTGTCTTTCCTGCCTGCCATTGCCAGG
CCTACAGGAGATGTTAGAGGTGGGACTCTCCTGCTTAGGGAATGTTCAGCCTACATGTTCATTGTAGAAAAACCTGAAAATCCAGATCAGCCACAAGAAA
AAATGTGAATACTTGTCTTTTCTGAGTGCATCATCAGAAAACCAATGACAACACTTTTTCCTCCACACACATACACATGTAACTATAGACAGCTTTCATA
CAACAGATTCACAAAACCTATACTTTTTCCAACCTCATTTTTTCATGTAGCAAAATAGCAAAATATCTTTCCATACTAAATATGAATAATGACATGCTTC
AATAGCTGTATAGTATTTAACTGTATCACTGTAACATTATTTATTGAAACCTATCCACTGTTATTTGTCTTTTATATATTTTTCTCTCTTTTTTTGCTAT
TGAAAACCATGTTGTGACAAACATCTTTGTATTAACATCTTTGCTCATGTATCTGGTTATTTCTTTAGAAAGTAAAATCTAGCTCATGCCATCTATAATT
CTGTAAGTGATCTTTCTTGAATACCTAATTGATAAGATAATACTTAATTGTGAAACAGTTAATGCAGTTTAAATACCTCCATGCACTCTCTGTGATGGAT
CTGAAATAAAGGTAAGGGTCAGTGCACAAAAAACAATTTAATTATATCTTGAATAACACAGATAACTATTTATTAATAATTTATTGTTAAAGCATACACT
TTTTTTTTTAAGTTTTATTTTTCTTTTTTCTTTTATTATTATTATTATACTTTAAGTTTTAGGATACATGTGTACAATGTGCAGGTTTGTTACATATGTA
TACATGTTAAAGCGTACATTTTAAAGAAATGGTATTCAGACATATGAGCCAAGAGGTCCTACAAGTGTTCAAGAATAAATAAAATATCAAGTTGTTCAAA
ACACAGAAAATAATCTACGATTTTCATAATGCCACTAATATGATAGACACTTTTCAGAAAAATAAAATTAATGTAGAAACTGCCTTGTACAAAATTATTA
AATTACAAATTGACCAAATGGAATGACAGTAGAAATAAGATGAAATGAGACAAGCCTGGCCAACGTGGCAAAACCCCATCTCTACTGAAAACACAAAAAT
TAGCCGGGTTGGTGGTGCACATTTGTAATCCAAGCTACTCAGGAGGCTGAGGTGTGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGA
TTGAGCCACTGTACTCCAGCCTGGATGACAGAGAGAGCTAGACTCTGCCTCAATAAATAAATAAATAATAAGTAAAATGAAACTATGACTGTGTATACTG
TCAATATTATATGAAAACATTATCAAACAGGCCTCACCAACAATAAGTTCTCTCTGGACCTATCCCTTTGCTTGACTTACTAATTAGGTCTCAGACTCTG
TGAAATTAGCCATGAACTAAGAGAACATTGATAAATTACACATTATTCCTGTCTGATAGAAAAGATAACTCCAAAGGGTGCAGTTTTATTGCCTCACAAG
TCATAAAGCTGTCTTTAAAAACGTAACTTAGCCAACCTATTTCAGCCTTTATTTCTTGACTGACGGTATAAGCCTCCATTCCCTGAATTATCTTTTGATA
ATCAGCTTTATAATCTTGCTGATTCCCTCACTTATGAAAAATAGTAAATCTTTGACACATGCTCACTATATGTGTGTATGAGAGTCAAGTTTTGAACTTC
TGAAAAATAAACTTTGGCACTACCTAAAGACAATGCTGCCAATTCGCAAACCATGTGTGGCTGTTTTAAAATATGTCCATAAATTCTTGGAAACTTCATC
TTTAAGAAGGTGATATGGTTTGGCTCTGTTCCCACCCAAATTTCATCTTGAATTGTAGCTTCTATAATTCCCACGTGTCATGGAAGGAACCCAGTGGGAG
GTAATTGAATCATGGGGGCAGGTCTTTCTTGTGCTGGTCTCATGATAGTGAATAAGTCTCACAAGATCTGATGGTTTTATACAGGGGAATTTCCCCACAC
AAGCTCTCCTGCCTGCCACTATGTAAGACATGACTTTGCTCTTCTTTCATCATCTTCCACCATGATTGTGAGGCCTCCCCAGCCATGTGGAACTCTAAGT
CAATTCAACCTCTTTCCTTTATAAATTACACAGTCTTGGTTATGTTGTTATTAGCAGCATGAGAACAGACTGATATAGTAAATTGATACTGGGAGTGGGG
CGCTATGTTACATGATGAACATGGCAGCATCATAAAAGGCATTGCAATTTCCTCCTAGCTCTTAGATCACTCACCTGGACAAAGCCAGCCACTATGTGAT
AAGGACACTCAAGCAGCCCTATGGAGAGGCCCACGTGGTGAGAAACTATTTTTTCCTGCCAACAGTCTGTGAATGCACAATCTTAGAAGCAGATCCTCTA
GCCCCAGTCAAGCCTTCAGATGACTGCAACCCTGGCTGACATCTTTCCTGTAACCTAATGAGACACCCTGAGCCAAACCCTCCAGCCAAGCCAGTTTTCT
CATTCCTGACTCTCAGCCTTTGTTAAATAATAATTTTTTCTTGTTTTAAGCTGCTAACTTTGCTGATACTTTGTTACACAACAATTGGTAACTAACACAC
CTTGACATCACTATTGGCATTTCAGCACTTTAACACTTTGCCTGTTACCCAGCAATTTGGAACTGGGTAAAAGGCAGAGGTTGGAACAGTTTGGAGGGCT
CAGAAGAAGATAGGAGGATGTGGGAAAGTTTGGAACTTCCTGGAGACTCACTGAATAGCTTTGACCAAAATGCTGATAGTGATATGGACAATAAGGTCCA
GGCTGAGGTGGTCTCAGATGGAGATGAGGAACTTGTTGGGAACTGAAGCAAAGGTGACTCTTGTTATGCTTTAGCAAAGAGACTGGCAGCATTTTGCCCC
TGACCTAGAAATCTGTGGAACTTTGAACTTGAAAGAGATGATTTAGGGCATCTGGCAAAAGAAATTTCTAAGCAGCAAAGTATTCAAGAGGTGATTTGGG
TGCTGATAACATTCAGTTTTATGTATTCACAAATATATGGTTTGGAATTGGAACCTACATTTAAAAGGGAAGCAGAGCATAAAAGTTTGGAAAACATGCA
GCATGAAGATGAGATAAGAAAAACCTATTTTCTGAAGAGAAATTCGAGCTGGCTGCAGAAATTTGCATAAGGAAAGAGGAGCCAAATGTTTTTCACCAAG
AAAATGGGGAAAGTGTCTCCAGGGCATATCAGAGGTCTTCACAGAAGCCCCTCCCATCACAGACCTGGAGGTCCAGGAGGAAAAAATGGTTTCATGGGCC
AGACCCAGGGCCTGGCAGCTTTGTGTAGTCTCAGGACTTGGGATGACTTGCATCCCAGCCACTCCAGCTTTGGCTAAAGAGGGCAAAGGTACAGCTTGGG
TCATGGCTTTAGAGGGTGTAAATCCCAACCCTTGGCAGCTTCCATGTGGTGTTGAGCCTGTGGGTGCACAAAAGTGAAGAACTGAGGTTTGGGAGCCTCC
GCCTAGATTTCATAGGATGTTTGGAAATGTCTAAATGTCCAAGCAGAGGTGTGCTGCATGGGCATAGCCCTCATGGAGAACCTCTGCTAGGGCAGTGCAG
AAGGGAAATGTGGGGTGGGAGCCCCCACACAATGTCCCCACTGGGGCATTGTCTAGTGGAACTGTGAGAAGAGGGCCACTGTCCTCCAGATCCCAGAATG
GTAGATCCACCAACAGCTTATGCTGTGTGCCTGGAAAAGCCACAGACAGTGTCAGCCCATGAAAGCAGCCAGGAGGAGGGTTGTACCCTGCAAAGTCACA
GGAGTGGAGCTGCCAAAGACTATGGGAACCCACCTCTTGCATAAGCATGACCTGGATGTGAGACAGAGACTCAAAGGAGGTAATTTTGAAGCGTTAAGAT
TTGACTGCCCCGCTGGATTTTGAACTTGCATGGGGCCTGTAGCCCCTTTGTTTTGGCCAATTTCTCCCATTTGGAATAGCTGTACTTACCAAATGCCTGT
ACTCCTATTGTATTTAGGAAGTAACTAACTTGCTTTTGATTTTACAGCTCATAGGCAGAAGAGACTTGCCTTGTCTCAGATGAGACTTTGGACTGTGGAA
TTTTGAGTTAATGCTGAAATGCGTTAAGACCCTGGGGGACTGTTGGGAAGGCATGATTGGTTTTGAAATGTGAGGACATGTGATTTGCGAGGAGCCAGGG
GTGGAATGATATAGTTTGGCTGTGTCCCCACCCAAAGCTCATCTTGAGCTGTTGCTCCCATAATTCCCATATGTCATGGAAGGGACCCAGTGGGAGGTAA
CTGAATCATCAGGGCAGGTCTTTCCTGTGCTATTCTCATTCTAGTGAATAAGTCTCATGAGACCTGATGGTTTTATAAAGGGGCATTCCCCTACACAAGC
TCTCTTCCCTCCTGCCATGTAAGATGTGACTTTGCTCTTCCTTCATCTTCCATCATGATTGTGATGCCACCTCAGCCATGTGGAACTGTGAGTCAATTCA
ATCTCTTTCCTTTACACATTACTCAGTCTCAGGTATGTCTTTATTAGCAGTGTGAGAACAGACTGATACAGAGAGGAAGTTTAACTGCCCTTCTCTTGAG
TATGGACTGGACTTAGTGACTTTTTTCTAATGAGTATGTTACATGGTGAACATGGCAGCATGTCACTTCTGAGACCAGGTCATAAAAGGCATTGCAGTTT
CCTCCTTGCTCTTAGAACACTCACCTGGATGAAGCCAGCTGCCATCTAATAAGGATATTCAAGCACCCCTATATAGAAGCCCACATGGTGAGAAACTGTG
GTTTCCTGCCAATGGTCTGAGTGAGCAATCTTACAAACAGATCCTTCAGTCCCAGTCAAGCCTTCAGATGACTGAAACCTTGGCTGACATCTTTCCTACA
ACCTAATCAGACACCCTGAGCCGAACCCTCCAGCCAAGCCAGTTTTCTTATTCCCGACTCTGTCTTTGTTAAATAATTTTTTTGTTTGTTTTAGGTCGCT
AGGTTTGCTGTTACACAGCAATTAGTAACTAATACAGTTTGACATCACTATTGGGAAGTTTCTACTCCTGTTGTTTTTTCATTTTCCACTGTCTTCGGTG
GGTATGCTCTCTTCTCAGCAAACATCTCAGTTCTTCATGGGCTTTATATGCCCTGGAAAGTGTCACAGCCTGCAGAGAAGCAATGTTCCCCGTGGTGACT
TATCCTCACCTTTGTGAGAATGGCAATAACCCTGGAGGTAGATGTGGCCTCTGCTCTTGCTGTAGAGATGACTTAGGGCAGGTGTATTCACCTATATGAG
TATGTAAGCAGAGTTTATTATGGTAAGATAGTAAATTCCTGTTAGGGAGATAAATTTAGTAATAATTAAAGTAACTGATATTCACTTGGTGCCCACTATG
TCCCTAGAATTCTATAGCACTTCCCACAATGTGTTCCATGAGACTCCAATAGAGAGATAATGAGCAGCAAGTATTCCCGGCGGCTTAGGGTGGTGTGAAA
TCACGCTGAGAATCCTGCTTCTCCTCAGGTCCTGGTAGTTTCAGGGCCCCTCCCTAGGCCTTACTTAAAAGGCTGAGGCATCCTTGGAAGAGCAGGCAGA
CTCCACGGATCCCACCAGGAGAAAGGAGCATTCTGAGGTATGCTCTAGGGCACTGGTGGGACTGGAGCTCTCTCCTCATTTCAGACCCAGAATCTCCTGC
TCTGTGGAAGCTGTTCTCATGCTGGGGGACTCAGTGTGGCTGCTTGACTGGATGAGACAGAGGATGTGAAGAGCCAGGTTGGCATCTAGCACAAACCCAC
AGACACGGGTTCCTCCCCACTCTGTCTTTCTCACYTCTCCTTCACTTTTCCTAGGTATGTAAAGAAGACATTAAGAACACGGCAAAGGCCAAATTTACAT
TGACTTAAATCTAAGACTGGTTCATGACCAAAAATGCATGTAGCTAGCATGGCTTTCCCAAYGCAGAGAGAAAAAGGCATGGACTCAGCTCCAACAGACT
GGCGTAATGAGTGCAGAATATGCTGTGAGGTTTTAAATTTGCTGACAAGAAAGGTTAACGTTTGTTACACATTCACTCTGTCAGGTACAGTGATAAAAGC
AATATAGCTATTATGTTGCCTCATTCCCACATCAGTCCTCTAAGGTAAGTGCTATGCTTATTCCCATTTAACTGATAAGACAAAACGAAAATTAGAGAGG
CTAAGTCACCTAAGGTCACAAAACTAGTAAGAGATGGACCTGGTATTGGTACTCTTGCAGCTTGACTTCATACTAATTCACACCCATTCCCCAATATGAA
AAATAAGCTGTGTAATGCTTATAAATTCACACATTTGGAATAGAAGGCAGAGCTCGAGGCTGGGGGAATGAAGGAGTCTGCACAAAGGACCAACAGGCTT
TCTAAGAAGATAATAGAAACCAGCCAGGTGCAGTGGCTCGCACCTGTAATCCCAGTACCTTGGGAGGTAGAGGCGGGCAGAACACTTGAGGCCAGGAGTT
CAAGACCAGCCTGGCAAACATGAAGAAACCCCRTCTCTACTAAAAATACAAAAACTAGTTGGGCATAGTGGTGCACACCTGTAATCCCAGCTACTTGGGA
GGCTGAGGCACGAGAATCACTTGAATCCCAGGAGGTGAAAGTTGCAGTGACCTGAGATCATGTCACTGCACTTCATCCTGGGCAACAGAGCAAGACTCTG
TCTCAAAAAAAAAAAAAAGGAGAGAGGGAGAGAAGATAATAGAAACCAACAGAGTTGGTGCAGAGACAAAGGAGTGCCCCATAGCAGAGTGTGGCACACT
TTGGGTTGGACGGAATTTATCACTCCCTGGAGTGACTTTTGGTAGCTGAGGACATCCGTGAAAGTCCTTCCTGGAGTAGGAGTGATGGTGTGCATGCACA
GACACAGCCTCCAGGGAGCCGTGAGCAGAAGGGGACCTCCAGCTGCATCCAGGACTCYCTCTCCAACCCAGCCACATCAGARGGGAAGGGTACCACTTGG
CTCATAGCGCTTTCGAGAAACCCTGGATGCCAGTGAAGTCATGGGGAGGCTGTGGGCCAGGATCCACAGGGCTGCAGCTGGGTGCTGAGCCAGAGGCCAG
TGGCTTTGTTGCCTGCCCTCAGCCCCGTGGCACCCTCTGCCTGGGAGGCTGGGGAAGGGCCAGGTGCACAGGCCGGGATCTGAGAGAGCGCGTGGGCAGT
CCACAGGGCAGGTGAGGCTCTGAGAGAGAGTGTGGGCAGTCCACAGGGCAGGTGAGGCTCYGGTGTGTGTCACACCCACAGTTTCTGCTGACTGAGTCCC
ATGAACAGGGCCAGAGCCACCGGCAACTTCTGTACCCCAGATCCACATTCAGGCGCTTTCCTCGTCTGTGCCTCAGAGGCTTCCAGAGCCTGCGGACTCG
CCTCCGCCGGACTGTGTAGTTTGACCATTGCTCTCCAGCAGGAAACTGGAAATAAACCCAGGGCTAGGCACTGGCYGAGCTCCATTCTCCCCGGTCCTGC
GCTGGCCCCTCCGGCGGGGCCTGCCGCTCTCAGTGTGCCGGGCCAGGATCTACCGGCAGGGGGCGCTCTCCACCAGGCTAGGTCGGGAGGCCACGATGAG
AGGCACGGCCTCCGATTCAAGGATCGGGAGGCCACGCTGAGAGGCACGGCCTCCGATTCAAGGATCAGGAGGCCAGGCTGAGAGGCACGGCCTCCGATTC
AAGGATCGGGAGGCCACGCTGAGAGGCACGGCCTCCRATTCAAGCTCTCTTCCTCTTTTTCTGTCTCTTTCCACAAGGATCTGCAGCCCTCACCCGAGTA
GCGAGCATCTAAAGCAGGACTAGACGAGGCAAGGGAGCTGCACCAGGGCTACCCCTGAGAAAGCCCCAGCTCTCCTYGGCTTTCTCAGTGATGTGTGGCT
TTCGTGGGCTCCTCAAAAACAGAAACTATCTTTTTTTATTATTATTATCTGTCCCTTTTTGCTGTTTTTGATAACTTATTTATTCGATAGATGTCTGCAC
ATTTGCCTCTTTTGATATATCTTTAAATTGTTATTATTAAATGTGGTAAGATATACATAATATAAAAATTACCATTTTAACCATTTTTAAGTGTACAGTT
CAGTGGCATTAAGGACATTCACATTGTTGGGCAACCATCACCACCATCCATCTCCAGAACTCTTCTCGTTTTGCAGAACAGAAATTTTGTACCTACAAAA
CAATAACTCCTCACTCCCCTCTCCCCAGCGGCCCCTGGCAACCACCATTTTACTTTCCATCTCTATGAATTTGACTGCTTTAGGCGCCTCATATACGTGG
AATTACACGGTATTTTTTTTTTTTTGTTATTAGTTTATTTCACTTAACTGAGTTTACTTTCAAGATTCATCCATGTTGTAGCATGTATCAGAACTTCATT
CCTTTTAAGGCTGTRTSGTGTGTGTACCACATTTTCTTTATTCGTTCATCTGTCGATGGACACTTGGGTTGCCATCACCTTTTGGGTATTGTGAATAATG
CTGCTATGAACATGGGTGTTCAAATAGCTTTTCAAGTCTCTGCTTTCAATTCTTTGTGAATATACCCAGAGGTGGAACTCCTGGATCATATGGATAATTC
TATGTTTAAGTTTTTGAGGAACAACCATACCGTTTTCCACAGTGGTTGCACCATTTTACATTCCCACCAACAGTGCACAAGGGTTCCAGTTTCTCCACAT
TCTTTTTTTTTTTTTTAGACGGAGTTTCACTCTTGTCGCCCAGGCTGGAGTGAAGTGGCGTGATCTCAGCTCACTTCAACCTCTGCCTCTCAGGTTCAAG
TGATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGATTACAGGTGCACGCCACCATGCCTGGCTAACTTTTGTATTTTTAGTAGAGACAGGGTTTCACCAT
GGTGACCAAGCTGGTCTCAAACTCCTGACCTCAGGTGGTCCGCCCACCTCGGCCTCCGAAAGTGCTGGGATTACAGGCATAAGCCATCACGCCCCACCCA
ATTCCTCCACATTCTCATCAACACTTGTTATTTTCTATTTTTTTCTAATAGCAACCATCTTAATGGGTGTGAAATAGCAGTATATCATTGTGGTTTTGAT
TTACGCTTTCCTAATTATTAGGGATGTTGAGCACCCTTTCATGTGCTTATTGGCTATTAGTATATATTATTTGGAGAAATGTCTACTCAAGTCATTTGAC
CATTTTTTAACTGGGCTATTTGCTTTTTTGTTGTTGAGTTACAGGAGTTCTATATATATTCTAGATGTCAACCCCTTATATGACTTTCACCTATTTCCTC
CCATTCCCTGAGTTACCTTAACATACTATTAATAGTGTCATTTGAGGTACAGAAGTTTTAAATTTTGATGTAGTCCAATGTATCCATTTTTTCTTTTGTT
GCTTTTGTTGCCTATTTTTTGGTGCTATATGCAAGAAATCATTGCCAAATCCAATGTGATAAAGCTTTCCCCTATGTTTTCTTCTAAGGGCTTTAACTTT
CATTTAGGTCTTTGATTCATTTTGAGTTGATGTTTTTATGTGGTATAAGATAAGGGTCTAATTTCATTCTTTTGCATGTGCACCATCACCACTTGCTCCA
CCATCACCATCATCACCCACCAACACAACTGCCATCATCAGTATCATTATTGTGTGATGCTTCCTCTTCATCATCATTAAGAAGAACAATAGCTAGCATA
TTTTAAATTATTAAACATTTTTAAAATAAATTCAATTGCTTTCATAGAAATGGGATTACTCAGGTTACTTACTTCTTCTGTGGGTTTTAGTAGTTTGGCT
TTCCAAATGTTGGTCCATTTTATCTAAGATGTTAAATTTATGGGCATAAATTTGTTTGTAGTATCCTCTTATTACCCTTCTAAAGTATGTGTAATCAGTA
GTGATGTCCCTCTTCTATTCATGAAACTGGTAATTAGTCTCCTCTCATTTTTCTTGATTTTTTAATAATCAGATTTTAGCTTCATTAATATTCTCTACTG
CTTTCTGCAATCAATTCTATTGATTTTTGCTCCGATCTTATAAATTTCTTTCCCACTCCTTGCTTTGAGCTTGTTTTACTCCTTTTTCTAGTACCTTCAG
GTGGAATCTCAAATTATTAATTTGACGTCTTTCTTCTTTTCTAAACATTTATGCTATTTTTCCAAGCATGATTTAGTTGTATCCCACAAATTTAGCTATA
ATTTTGGGGGTGTTTTTTGTTTTTTGTTTGAGGCAGAGTCTCACTCTGTCACTCAGGCTGGAGAGCAGTGGCGAGATCTCAGTCCACTGCAATCTTCGCC
TCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCACCTGAGTAGCTGGGATTACAGGTGCATGCCACCATGCCTGGCTAACTGTTGTATTTTTTACAATTTA
ATACAATTACAATTGTATTTTAGTAGAGACAGGGTTTCACCMTGTTGGCCAGGCTGAACTCTTGATCTCAAGTGATTCAAGTGATTAGTATTTGCATGAT
ACATCTTTCTCCACCTTCTTACCTTTAAACTGTCTACAGTTTTATATTTCAAGAGGGTTTCTTACAGACGCTATATATTTAGATCTTGCATTTTTATCCA
ATCTGACGATCTCAGTCTTTTACCTGGCGTGTTTTTATCACTTACATTTAATTTGAGTATTAATATGGTTGGATTAATATCTACCATCTTGCTGTTTTCT
ATGTGTTCCATCTGTTTTATATTTATTTTTCTTCTTCTGTCTTCTCCTGAGTTAACATTTTTTATTATTCCATTTTATCTCTTTTATTGACTTATTAATT
ATACCATTATATATTTATATTGGTTAGTCCAGGGCTTCCAATACATATTCTTAATTAAAGTCTACCTTTAATTTTTTTATACCACTTTAAGTCTACCACA
AGGACCTTACAACAATATATTTCCAATTCTTTCTTTCTACACTTTGCATTATCATTGTCATTATCCACAAGGCTGGGGATAAAAACATTTCAAAGGTCAC
AATACCTGTTCCCACTGTCTGGCCTGGAAAACCTTATCATTCCCAAGGCATTGGTTACAGTATTCAGAAGGATCTTGCTTAAGTAATGGAAAATAACTAG
ACCTAAACTAAATGCTTCTCAGGTTCAACCTATCAAATCCTAAAATCAAGTCCCAAATGGATCAAATTCTTGCCAAGAGCCTTAATTACACTACGGAATT
AAGCTCAAGAATATTCATAGTACAAGTTGAGCCTCCCTAGTCTCAAAATTCAAAATCTGAAATCTTTCAAAATCCAAAACTTTTTGAGCACCAACATGAC
ACTCAAAAGTCATGCTCGTAAGAAATGCTAATTGAAGCATTTCTAATTTTGAATTTTTGGATCAGGGATACTCAACCTGTAATACAAAAGTACCCAACAC
CCTTGGCAAAATGGCTGAATTTGGGACGGGCACAGAAAATACACAAGAGCAGCCTAAGCATGTTGTTGTAACAAAAAGTAAGGAAATACTTAAAAAAATC
CACAGTGATTGGTATGTCAAAGGAACACAGGAGCTAAATAAAAGTGCTTCCAATGGCCAAAGCTGGAACAACTTAAGTAGCAAAATAAATAAAGTAGCAC
TGGATTATAATTTAAAACATAAAACAAATATCAGTGAGCACCAGCTGACTAAATAAATAAATAAGACAGACTAATCTCCCATGCAAAATAATTCCAAATT
ATTTATTTAGCTATCCAACTCTCAAGAAATTACAACATAACCTTCAGGCTCTAAGTGTGGGCTACACATAGTAACTTCTCTGTAATGAATATAGTATGGA
AATGGGGGTGAAAGAGTAACTTTACAGTGGAGAAACCTAATGAACACTATCTCAGCCAGGTAATCAAGATTAACATCAGCAGTAATAAGTTATGTTGACA
GTATGTACCTTAGATATGATATATAATAAAAATAGCATTTTATCTCTGTGATCTCCCTCCCCCAAACCCATAACCCTAGTCTAATCATAAGAAAAACATC
AGACAAATCCGAATCTATTTACTGTACTCCTCAAAACCGTCATTAACAACAAACAAAGCCTATGAAATTTTTATAGCAAAGAGGAGTCTAAGGAGACATG
GTGACTAAAAGTCTTATCTTTGATGGAATGGTGGAACAAAAAAAGGATATTAGATAAAAACTGAAGAGGGCAGGCGCGGTGGCTCACGCCTGTAATCCCA
ACACTTTGGGGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATCGAGACCATACTGGCTAACATGGTGAAACACCGTCTCTACTAAAAATACAAAAAATT
AGCTGAGCGTGGTGGCGGGAGTCTGTAGTCCCAGCTACTCAGGAGGTTGAAGCAGGAGAATGGCATGAACCCGGGAGGTGGAGCTTGCAGTAAGCCGAGA
TGGTGCCACTGCACTCCAGCCTGGGTGACAGAGCCAGACTCCGTCTCAAAAAAAAAAAAAAAAAAGAAAAAACCTGAAGAAACCAGAATATAAACTTTAT
ATAATAATAATGTATCAATATTGGTGTATTCATTGTAACATGTATGCAAAACAAATGTAAAATGTTAATACACAATCTTTGCACTTTTTCTGTAAATTTG
AAAGCTTTCCAAAGTAAGAATGCATTATTATGTATTAAAAAAGTACTTAGCAGCTAACACAGTAAAATTACAGTGTCTGACATCCAAYGCTTACAAGAAA
GGCAAAGAAACAGGAAATTCAGACACAGTATGAGGAGAAAAATTAATCAAAGCCAACCCAGAACTGATACAGATGTTAAAATGAACAAATACACATTAAA
ATGTTATGTCTAAATTCTGTATATTTAATAATTTAAGTAGAGACATGAAAGAGCTTAAAACAGACTCAAGTCAAACTCCAAGATGTAAAAACTGCCATGT
CTGGAATGAAATATACACTACATGAAATTAGCATACAGAAGAAATTATTAGTGAATTTGAGGACATCGAAATAGAAATGTTCCAAAATAAATTATGAAGT
GAAAAATAAAAATAAAAGGACATACGACACATACAAGAACAGAGAATCAGTGATATATGGGACTAATTCAAGGGGCCTAATATATGGAATTTTTAAAGGA
AAAGAGGATGGTGGGAACAAAGATTTTTTTCAAATGTTAGCCAAATATTTTCTAAATTTCATGAAAACCATAAACACAGGTTCAAGAAGATTGATGACCC
CGTGCACATGAAATATGAAGAAAACTACAGCAGCAAAATCATAAACAAATTGCTCAAAACCAGTGATACTGAGAAAATCTTAAAAGTAGCTGGAGGAAAA
AGGACACAATGCATACAAATACATAAAAAGAAGGATGACGGCAGATTTTTTGTCAGAATCAATACAAGTGAGAAAGCAGTAGAGCAACATATTTGAACTA
CTGAAAAAAACATTGTCAATTATGCTTTTGCGGTTATAACCAGCAAAAAATCTTTCAAAATTAAGATGAAATAAATGTCTTTTCAGACACACACAGAAAG
AAAATAATACTGTATGGAAATAAGAATTTTAATACAGAAAATAAGCTCCAGAAATGATAACTATATTTATACATATGTGAGATTTTTAACTTAATATTTA
AATCCCTTTAAAAGATAATTATTTAAAAAACAATAACAAGGTATCATTAGGATTATAACATATATATAAGTAAAACGAATGACAAAAATAGGATATGGTT
TAGGAGGGGAGAAATGAAAGTATATTATTTTACTATGGGAGACTGTGACAAATTAAAGATGGATACTGTAATTCTAAATCAACTACTCAAACAACAAAAT
AATTAGTAATCACTAGTAAGTTAACAGAGGAGATAAAATTGAATCAGAAAATGTTCAAGTAATCCAAAAGGACTCAGGAAAAAATGGAACAAAGAACTGA
TGACAAATATAGAAAACAAATAACACGATGGTAGACTTGAACCTAACCACAGCAATAGCAACATTAAATATAAATAGCCTAAACACTCCAATTAAAAGAT
TGTCAGATTGAATTAAAAAGCAAAACTTTACTAGATGCTACCAACAAGAAGTGCACTTTAAAGGTAAAGACACAATTATGCTAAAAGGAACATGATGGAA
AATGATATACCATGTTAACACCAATAAAAAGCAAGTTGGAGTGGCTATATTAATATTAGACAAAGTGAGCCTGGGCAACATAGTGAGACCTTGTCTTTAC
AAAAAATAAAAAAAATAGCTGAACATGGTGGCACATGCCTGTAGTCCCAGCTACTCCAGAAGCTGAGGTGGTAGGATCACTTGAGCTCAGGAGTTCACAG
CTACAGTGAACTAATGATCATGCCACTGTACTCCAGCCTGGGCAACAGAGCARTGTTTCTAAATTCACACACACACACACACACACACACACACACACAC
ACACACACACATATAGATATAGATATATCAAAGTAAATTGCAGAATAAAGAATATTGCCAAGGATAAGAAGTTTATTTCACAATGATTAACAGTACACTG
ACACACTGAAAATTTTAAAATATTGCTAAAAGAAAGTTTTTGAAAGGCCYAAAAAGCCAGAACGATATGCCTTCCTCAAGGGTCAGAGGATTCAATATTA
TTAAAAAGTGAATTTTCCCCAACTTGACCTGTAGATCCAATACAATCCCAGTCAAAATCCTAGCAGGCTTTTATTAAAGAAATTGACATGCTGATTATTA
CATGTGGCATTGGCAAAAAGATAGACAAATAGGTCAATGAAAAAGGATAGAGTCCAGAAATAGACTTACACATATATGAACAACTGATTTTCAACAAACA
TACAAATACAACCAGTGTGGCTGGGTGCAGTGGCTCACACCTGTAATTCCAGCACTTTGGGAGACCTAGGTGGGCRGATCACCTGAGGTCAGGAGTCCAA
GACAAGCCTGGCCAACATGGTGAAACCCCTTCTCTACTAAAAATACAAAAGTTAGCTGGGTGTGGTGGTGCATGCCTGTAATCCCAGCTACTTGGAAGAT
AGAGAATTGCTTGAACCTGGGGAGCGGAGGTTGCAGAGAGCTGAGATCGTGCCATGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTTAAAAACWA
CAACAACAAATACAATCAGTGGAGAAAAAAATACCATGTTCAACAAATGGTGACAAATCAATGAGATATTCATATAATGACAACAAAAAGGTGAATTATG
ATCCATTTCTTGCAGCATATGGAAAAATAATTCAAAATTGATCATAAATCAAAATGGAAAACATAATCTACAATGCTTCATAATTAAACATAGAAGAAAC
CTTTTTCATTCTATTAAGCAAAGATTTCTTAGATACAGTGAGAAATTATGGTACGTATGATTTTTTAAATTGCTAAATTTGACTTTATTAAAAACAAAAA
TTTCTTTTTGAAAGATTCTATTCAGAGAATGAAAAGAGAAGTCACTGACTGGGAAAAATACTTGTAATGTATATATCTGAGAAAGGACTTGTATCCACAG
TATATAAAGAACTCTCAAAACTTAATAAAAAGGAAACAAAAAAGACAATTTTTAAAATGGGCAAAAACTTAGAACAGATATTTGTATCAAATAATATATA
CAGATGACCAAAACAAAAAGCCTACAAAAAGATGTTCAATATAATTAGTCATTGGGAAACTGCAAATAAAATAGCAATGAGCTATTAGTATTGCTTACCT
ATTACTATTGCTAAAATTAAAAAGACTAGCTATACCAAGTCTTGGTGAGAATATTAGAGAACCAGATCTCTCACATAATAGTGATGAAAATGTAAAATGA
AAAAAAAAGGTAGTTTCTGTTAAAGTTAACATATACCAACCCTATGATCCAGCCATTCCACTTCTAGGTATTAATTTAAGAGAAAAGAAAGCATATGTCC
ATACTAAGACTTGTACATCAATGTTCATAGTAGCTCTATTTGTAATAGCCAAAAAGTGGAAGAAACCAAATTTCTATTAAAAACTGAATGGAGGACAATT
AAAAGGAATGACTATTGGAACAACTTGAATGGATCTCAAGGAAAGTACACTGAGTGAAGGAAGCCAGACAAAATCAATTATATACTGGGGGATCCCCTTT
ATATAAAATTACAAAACAAATGAAAACAAACCTATAGTGACAGAAAGCAGATCTGTAGATTCCTGGTGAATAGGACGGGGGATGGGAGGGAAGGACAGAY
TCCAGGAGACATGAAGACTCTTTGGGGGATGGTGAATATGTTCATGATTTTAATTTTGATGATGGTTTCACAAACATAGACATATGTCAAAACTTATCAA
ATTGTATATTTTAAATATGCGCCGTTTATTGTGTGCTAATTATTCCTCAATAAAGTTAAATTTTTTTCAAACCCTGAGTGCAGGATTAAGGGATATAGCT
AGCTTAGGCATTCTAGGAATGACCTATTATGTGTCCCTGAATAGTGAGAAGCTCGGAAAGGCAAGACGACTCCTGCCCTAATAGAGGTTCCATTCTGGAT
ACGACAACATAGGGTGACAGGTGAATGAACAGGTGCCTCAGATACAGCCCTTAAAACACTTCAGGTGCTGAAASCCATGGCTGGTGTCAGAGGCACCTCC
TAGTGGTTGTCCTTATGAGGTGAAGTCCTGCTCTCTTTCCCCTGATGTTCCATATCAGATGTCCTTTGTCACTACTGTCAGCTCCCTGGAAAAAGCCTCC
CAGCATCCTTGAGGGTAATGCCACCCCCTTTCCAGGCACTGAGACCTCGTCACCATCATCCCAGAAAGCCAGCCCATTTTAAAAATTAGATTGTTAACTC
GGGAGGCTGAGGCAGGAGGATCTCTTGAGCCCAGGAGTTCAAGGCTGCCTTGCACTGTGATTGCACCTGTGAATAGCCACTGCACTCCAGCCTAGGCAAC
ATAGGTGAGACCCTGTCTCTAAAAAAATTAGATTGCTTAACTTTTTATTTGTCAATTATACCAGTTCTTTATATATGTTGAATATCAGTTGTTGATCAGA
TATATGTCTGTGACTTGCTACTTGTTTCCTTAACAGTGTCATTTGATGAGCCTAATAAGTAAGTTTTTATTTTAACAATGTCTAGTTTAATCTTTATTTC
TTTCATGGTTATTTCTTTCTGAGATCTGCCTAAGAAACCTTTGCTCACCCTCAAGTTTAAGAAATATTAGCCTTTTTTCTCTAAAAGCGCTAAGGTTTTA
GCTTTCATGTTTAGGTCTGTAATTCACCTCGATTAAATTTTCAGTATTATGTGTGAGGTAGGGTTTGAGATTCATATTTTCTCATGGATATCTAATTGTT
CTGGCACTGTTTGTTTAAAAGGTATCTCTTTCTCCCACTGGATCACTTTGGCATATAGGCTTTCTATTCGATTTGATTGTTTTATTTATCACTCCTCATG
CTGCTAGTAAGACATTGTCTTGATTTTTGTCATTTTGTGGTACAGATAGTGATTTCTTGGATCATCTTTCTCCAAGCTTGTTTGGCATTTTCTTTCCTTT
CTTCTTCCTTTTTTTTTKTKTTTGTGGCAAAGTCTTGCTCTGTCACCCAGGGCTGGAGTGCAGTGGCTCAATCTCGGCTGACTGCAGTCTCAACCTCYGC
AGACTGAAGTCATCCTTCTGCCTCAGCCTCCCAAGTAGCTGGGACCACAGGCGCAAGCCACCATGCCCCACTAATCTTTGTGTTTTTTTAGAGACAGGGT
GTTGCTAAGTTGCCCAAGCTGGTCACAAACTCCTGAGCTCAAGCCATCCTCCCACCTTGGCCTTCCAAAGTGCTGGAATTACAGGCGTGAGCCACTATGA
CTGGCCAGCTTGGCAATTTCAACCAAAAAAAAAGCCTAGTGCTATTATGGTAGAGATGTCATGGAATCCATAGACTGACATCTTAAAAATATTCAGTCTT
TTAATTCATAAACATGGTATATACCTTCAATTATTTAGGTATTCTTTAATCTCTCTCAGTAACACTTTGTAGTTTTTGGTGCACAGGTCTTTTATATACT
TTGTTAAATTTATTCCTAAGTATTTGAAGTTTTTGATGCTATGTAAATGGATTTGATTTTTGCTTTCATTTTCTGATAGCCTGCTGCCAGTATATAAAAA
TACAGTTAACTTTTCTATAAAAAATAGTGTATCCTCCAGCCTTGCACTTATTAGTTCTAGTAGTTGTTATGTGGATTTCTTAGGATTTTCTATATAAACA
ATCATATTATTTGAGGAGAGTTTTACTTATTTTCTGATTTCTATTTCTTGTGTATTTTTAGCAGACTTCTCAAAATGACTAGGACTTCAAATACGATGTT
GAACAAAAGTGGAAAAAGCAAACATTCTTGACYTGTTATGAATCTTAGGGAAAAAAATCAATTCTTTCACCATTAAGTATGWGCTGTAGACTTTTTTTTC
TTGGGCACTATTTTAACATGTTGAAGTTTTCTTCTATTCCTAGTTTGCTGGGAGTTTATATCCTAAGTAGATGTTACCTTTGGCCTAATACTTTRTCTAT
TAAAAGATTTAGGTGGCATTTCTCCTTTATTCCATTAATGTAGTTCTGCTTTACAATTCTTGTCTGGACAATTTCAGCAKTGGTCTTCATTGATGATCTT
TATTCTTGATGYGGAGTCACATCTGTTCCCTTATTCTTCAAGAAAGACTATTGGATTTTCTACACTGTGCAACTTCAGCCTGCCCACCTTAYGAAACTTT
CAAAAATGGGAAATTGACCCATGCAGATGATTTTCCCCGAGTGACTACTCCCTCCAGGATCTGCCTGCATGCCTTGTCTTATGCTTATTCACCGATGTCA
GCAGTTTCCCACCCCTTYGCTATCTGACCCAGGTCTTATAGCTGTTTTTGTAAAAGTCCTGATCCAATACAAGCCAACTCAGTGACACAAAAATAAACTC
GTGCCTTTCTGTTTTAAGAAGGTCTCTTTTAATGGAGAATTAAATTCATTTAAATGGACTGTGGTTTCTGAAATATGTGGATTTATTCCTACCATGCTTT
MATTTTTTCTTTGCTTTTTTTCCTGATACCTCTTTTTCTGTTCCTGTTTCTCCTTCCCTTTATGGCTTCAACTGGATTGAGTAAGGTGGTTTTGTTTGTT
TTTCCTTTGTTCATCCTCCCCTCTAGTTTGGAAGTTATATACTCTCCATTAATTTAATACATAATGGCTAGTATATTTATTTCTAGGCCTCTTCAGATGA
GAAATCAGTGTGAGCCTAAGACTGTAATATTGTAAACTCTATTTTATCAGTTCTCCTTGACTTAACTAAACACAAAGTTAATCAGTACTTTAAGCCAGGG
AACTGTGCCACGGTGAGGGTGGTTGCAGGGGTGGGATAGTGGCCACTTCCTGGAGTATTTGGTTTTTCCCTCTTTGGGTGTTCCCTGAGTTTTGTGACTG
GGACACCCTGGGGATCTTTTTGTCTTATAATTGTCTTAGTGAGGGGTCAAGCAAGAGCAGGTTCCAGTGCTCTGTGCCTGTCTCATCCCTCACAGCAGAC
ACCGACTATATCCTTGAACTCCCAAGATGACCAGAGTGAGTCTCATATCCAGGGGCCAACCTGGACTATGCTGATATCCCAATCTAGAGAGAGGARGCTG
GATGCAGAAATCCAAGGCCAACCTACTTTTCCTTCCTTCTCATCCCTTAAACTTAAAGGACAGAACCCACGACGACTTGCCTTCACTCTGGTGAGAAAGG
GACATGGGAAAACATGGTTAATCCAGTCTGAAACTGACAGTCTCCCACTGAGTCACTCACTGTAGAACCCATCACCTRAAACAAGCATAGATGGAGATCA
GGCATTGAGAGGACAGCCTCTCTCCAGGATGTCTCTGAATTAATGATTGGCTCTGCAGCTCAATCTTTTATCCTCATCTCTGTCTCTTTGTCTCCCTCTC
CTACCACTAGTCCTTGAAGCCATGAAGTTTACATCTTCTCTCAGCTCTCTGGGATTATACCTTCCAAAAGTAACTAACCCCACAGCCTGCCATCTGAGCT
TCAGGCTTGAAGTCATTACTATTCTGTATCTGCCCCTACATTAACCAACCTCCTCAGTGTGTGGCCAAATTGGACTGAGACTTGGGGATGTCACCCAGAA
CCGCACATCTCACTCTGCACAAACTACCACAGTGGAGCAACCAGCAGTCACAGCTGCGCTTGAGATCTCCCACCAGGAAATACTTACTTTTCGAAACTGG
ACCTTCTAAAGAGGAAGCATGAAGGAGAGATTTGCTGAAAGCAAATGGGAAAAACCTAGAACCATTTCAGACTTCCTAGTATGAAGGCTCATCTATCTTC
ACAGAAATAGAAGTGGCACAGGATGAAGTCTGGTCCAGAATGACCATACTAGACACTGGGCAGATGTCTGAGCCCRGTCAGCAGTGAGGAGCACTCTGGA
ACTGGGAGTGAGGATCTGGTCCAGGGGTCCTGTTCTCAGAAGGCCTCTCTTTCAACAACTTGTAGCAAGAAGAAAAGCATCATCCCTGTCTGGAAAGTGA
AAAGCCCAGATCCCAAACTACCTCCTGGCCCAAATTATCAGTACAATCTGTTCTCTGGAAATATCTCAGTCCCACTTAAGGTTTTGTAAATTCCAGGGAA
GGACCTTGAAGCTATAATTTAACCTAAGGAGGAGCAGTACTACCAGACTTCAAATGTCAGCGTCAAATGCTCGTCAAAAACTCCTGTTATTCAGATCTGC
CCTAATTGTGAAGCATAAATTAAACTAAAGAAAGACACACAAATTATCTATGCAAATTTAGTAGTATCAGCCACCCACTTCTTTAATTAATCTGACCTAA
TTTCAAATCAACACGTAAAATGTAGTATATAATTTGATGAGAATTTACCTCTACAGCATAGAATCTGATGGTTATTAAGGCCAATTGCCTAAAAAGTACT
TACATGTGTACAAAATGACAGAAAATATTAAAGGACAATCATAAGGATATAGAAAACTCCTCTATCATTCATATTATGGTATAAAGACTGTACAAAATCA
GAAAGTATAGACCATTTGGATTTTTTTTTTTTTTTGAGATAGAGTTTTGCTCTTGTTGCCCAGGTTGGAGTGCAGTGGCGTGATYTCAGCTCACCGCAAC
CTCCGCCTCCTGGGTTCAAGCAATACTCCTGCTTCAGCCTCCCGAGTAGCTGGGACTACAAGCATGTGCCACCACGCCTGGCTAATTTTGTATTTTTAAT
AGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCCAACCTCAGGTGATCCGCCTGTCTTGGCCTCCCAAAGTTCTGGGATTACAGGTGTG
AGCCACCACACCCAGCCTCAATTGGATTTTCTAAATGAGCTGGCTCTTCTAAAAAAGCCACAAAGTTGTACTCTCTATTCTGTTCCAGAGAATCCACAAA
GGAGTATCATTGAACTCCAAGTAACAGGAAAGTGACTTTATGCTGGGAACATCCCTGGGGCCTGTGACACGGAAGGACATGGATAGGTGGACACACAGCC
TCGTGGACGTTGAGAGCCATAGGTACCTCCAACTGTGGTCGCTGATCCACACAGATGCTCACGCTCATCATGGGAAGGTACAGAGGGAGCGGCCACCTGG
TTCTTAAGCACTTCTGAGCGCACCTAAGAGTCAAAGGAGAAATTCAGAGCCAAGGTTCCCTCAACTCCATAGTTTCGACTGGATCTTAGCACTTGTGCTA
CCACAGTTACTGTGACTCTATTACATTCCCCAGACTGGAGAATCGGAGCAGCGCAAATTCCCTGCAGGCAGGATGCAGGCAAGATAGGCAGGCTACACAG
GGCAGTGCCGTCCTAGATTTTGTCTGGCCCAGATGCAGTCCCTTCTGACTGGCTGAATCACCAAGGCTGGGCCTCCGACATCATCCACCTACCTTCACAC
CAGGAAAGGAATATCTGGGCTCTCAGCTTAAAGAATCAGGATAAGGCGCTCTGGGCAGGATCAAATGCTTATTTATTCTATGCCTCACAGGCTTCTGAAG
GCCTGAGTTTGGCCTATCCAGGAATTAAGCTATTTTAGCACCCACAGAAATGTGTTCTTCCTGGGGGCAGGAAGAGGAAATTCCTGCTCATTACTGACTT
TGTCACCAGAAGGACAGAGACTGAGGCAGAATCTCCAACCTGGGAATGAAAACTGAGCTTCATATCAAGGGTTGGATGCCCTCAGCTGCATTCATCAGAT
ATTTGGTTTTTCTCTCTGAGCAAAAAGAGAAAAGATGCCATGRGGTGTGTCTGAATAAGCCCTCCTAAGTTTCCTATATTTATCTCCTTAAAGGAGACTC
AGCACCCACTTCATGAAAAAAAAAAAAAAAGCAAGGTGTTTTCAGATAAATAAAATGAGGGCATGGAACGTGACTAATTAGTTTTAATCTTTTTTTTTAT
AACAACACATGTATATTGCTTTAAAAATAATATAGAATCAGGCCTGGTACGCTGGCTCACGCCTGAATTCCAGCACTTTGGGAGGCAGAGGCAGGCAGAT
CATTTGAGGTCAGGAATTCAAGACCAGGCTGGCCAACATGGCAAAACTCATCTCTACAAAAAAAATACAAAAATTAGCCAGGTGTGGTGGTGCATGCCTG
TAACTCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTTCTTGAACCCGGGTGGGGCGGAGGTTTCAGTGAGCCAAGATCGCGCCACTGCATTCCAGCCTG
GGCGACAGAGCAAAAGAAAAGAAAAAAACAAAAGAATCGAAAAGTGCAAAATTACCAACAACAGAGCCCTGACCATTTCTTCCCCACCAAATCCTACTCT
CCTGAGGCAACCACTTCCCTTCTTTTATCTCAATCCTCTGATCAGTCAGGAAAGGCATTGTCTATGTCAGAGACACAGCTTCATCCTGGGAATCTTCACA
CCTCCTCCCTGGGTGAAGCCATTATTCCATGACTCTTGGGATTGCCTTCTTCTTAATCTATTTCTGTTTCTAACTCATTTATTTATCTCACCCATTTATT
TACCATCAAGTCATCTAGGTATAAACATCAAAATATTTTTGTTTTTTCCTTTTCTTCTTCTTTAATTTCTACTTTCGATGTTGCTATATTCACTTGCTTT
TTTTCTCACTGGATATCAGGTCCTCTAACAACATCCCTGCCAAACTTCACAACTTTCTTGTTGCTATTATTATTTTTTTTTTCAGAAGAGCTTCTCAAGA
TGGTGGGCATAGGCGAATGGATCATGTACCCCTACCAGTGCTGAGATGTTAGGGGCCAAGAAAAAGCACAGGAAAGGCAGAGTTCTTGCAGCACTGGCTT
TGGGTTTGCAGAGGGAGGGGTTCCCACAGTTTCTGGTACAGTCTGATTTCATTTTATTTCAGTACACCGTGTGTGTAGTTTCTTGGACAGGGTGACTGAC
CATCAGTGTCACCCTGTCTGTCTTCATCATTAAGCACTCTCAGGACCTGAATAGATCCCAGATTCAAATTCTTTTCATGGTTGGACATCCTATCACTTGA
CCCATTGATCCCTTGGGGAAAATCTCATGGTTCCAACCCTTCTGCCAACCACTGGCTTCTTTGCATGGAGTCATGAGAGCCTTCAGTCTTCCACACTTTA
AATGTCTAAAAGTTCTGAGTTGGGGTGGGAGTTTCTGCCAAGTTCTTCCAAGGAATGTGACCCCATAGTTTCTTTAGGCTCTGCTGGTGCTGGGAAGGTT
AGAGCCTTGTCTGTATCTCTAGAGTACACCACACTTCAGTAAAATCACATCAGGGTCTCCCTGAACTCCCTCACCACACACTGCCCTGGCCAAGGAGCCA
AGGTSAGCCTGTGGGTCTCTAGGTGTGCCAGTCATCCAGATGRGGGCAAAGCTGCCAGTCCCACTGACTGTTTGAGTGATTCTCTTGGGAGGCTCCATCC
TGGCGATAGGAGAGCATCCCCTGGCCCTTCTCCATGAGGAGGTCAAGAACTCACCTCTCACCACAAGTGATGCCTTTCCTACAAAGCATCCCACTCCCCT
TTTCTCTTCCCTGTCTTCCTCTTATTCATGAGATACTACATACATTTATTTGTTTATCAAAAAATATTTGTTAGTTCCCATAAGAGGTCCRCACCATTCC
TGCCACTGAGCACATAGTTCTCTGGCCTCAAGACAAAACAGGTTCCCTGGCCCCACAGAACTGGCATTTTGGTAGTGGAGATAATAAATAAATAAATWGA
TGGATAAATACRTTTTCCAAAACCATGGAAGCATACATTTTATGAAGAAAATAGTTGAGCAAAATAAGGGGCTAGGACATGGGTGAGGGACTCTTGGAGA
TAGGCTGGCTGGGGAATACCTTATTGAGAAGTTGGCTTTTTTGCATATGCATGGAAGAAGCGAGGGAGTGGACCACTTGTTGACCTGGGGAAGGCTGTTC
CTTCAGAGGAACAGGAAAAACTCCCTGCAGGCGAAGATAAGCTTGCAGGGCAAGAAAATCAGCAGAATCCAGTACATCCAGAGCAGGGAAGTCAGATGGG
CAGGGATAGAAGGCAGCAGAAAGATAAAGAGGACCCAGATCATGTGGGCTTGGTGAGGGCTTTGGTTATTTGGGGCATAAAGCAAAGCTATTAGAGGGTT
CTGTGCAAGAGAGTCATACGACTTTATTTACATCTTTGATTCTGGTCACTGCTAGGTGGACATCTGACTCTAGGGAGGTAAGAACAGAAGCAAGGAGACT
ATTGCAATGCTCCAGAAGATAGAGTCAATGGTGGATTTCCAAGAGCAGAACCACAAAGAGTGATTGGGAGTAGGACTGASCAATAATATTCGGTTTCAAG
AGTAATGATTTTCTTTCATAGCCAACATTGAAGCCGCGTCTGACTCCTAATTCAGAGTTAGAAAGCCACAAGACCTCCAAGTTCTCTCCTCTCCTCTCCT
GGACACATTATAGATTTTTCAGTATCCTCAACTGAATGCAAGACTGTGTTCCGGCTAGTGCAGTATGCAGGAGACTATGACCCAGGGGAGGCATGTCACA
TAATCATTAAGAATAGAGAGACTTGGCTTCTAACTTGGCTAGATTTCTTAGTAGCTGTATGACTTTGGRTACATTCTGTCATCCCTCAGAGCCGCTGTTT
TCTTACATGAGAAATAAAATTAATGGCCCCTAAAGAGTTGTGTGTGGGACGGGCGCAGTGGCTCACGCCTGTAATCCTAGTACTTTGGGAGGCCGAGGCG
GGTGGACTGCCTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAACACAGTGAAACCCCTTCTCTACTGAAATATAAAATACAAAAAACTAGCCCAGTGTGG
CAGTGGGTGCCTGTAGTTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGAGAGGCGGAAGTTKCCATGAGCCGAGATCGTGCCACTGC
ACTCCAGCTTGGCGACAGAGCGAGAGCGAGACTCCATCTCCAAAAAAAAAGTAAATGTAGCGTGAAGATTAAAAGGTTACTCAGGTAAAGCTCTTACAAC
TTTAGCAGAAACAGAATAAGCTCTCAATATTTGTACCATATAAATGTGACATGGTGGGTGTGTAAAACTCCTGCAAGGAGTACTGTGATTGGCCTAACAT
CAGATGCAAACACAGCAATGGCTTCATGCAGTTTAGTGGGTCAAGAGAGCCACACCTCTGCCTCCAAGGGAGACACACCTCTGCCTCCAAGGAAGACCAG
TAAAGGCAYTCTCCTCAACTCAGCATCTGGCCTAATCCGCATTTCCTCATTGCTGTTTTCTGATGTTGCCTCTGCTCTTGTTAATCAGGAAGCACAGACC
AGTCATGCTTGTGTTGCTCCACTGTCAGTCCTCCAGAGCCTCAAGAGATCTTTGGGCCATATCAGCTTTCTTTCCAAAATGAACACACCCAGGGGCAGGA
AAGAATGCTCTTTCCTTGGTCATTAAGGGGCCTGGGAGTCCTGGACCAGCTTTTCATGCAGCTAGACCACTTACATGCAACTAGAGCCTTGACTTTGAAA
CSARGGACAAAAGCATCTCTTGCTAAAGGTAACTTCTGCTGCTTAGAACCCAGGTATGGGGAACTTCTTTCATGTCTCTGTGTTTAGCCTCGAAGTGCCT
CTGGGAGTCTTGTCAAAGGTACAGAGTACTGAAGGATCCAGGGCTGCTTACAAGGGTGCAGGTTGGTGATCTGCTTATCCACTGTGTAGGGACAACTATT
GAATCACACATCAAGGATCCTGAGAGAAGGAGGGTTGTGAACAACTGGTTCTCATTGTGGAGTGTCTGTGATATTCTTGGGGACTGTTCTGGTGCCCTAA
CTAGAAAACCAGAGGCAGATGATCCCTAATAGTCAAAGCACCTTGTGGGGCCCTCAGTGGCCATGTGCATGATCCTTACAGATGTCTCTTTGGATGAGGA
ATGGAAGAAGATGGGCTCAGTGAGGCAGGTTAGCTACAAATTACTTAGGAGTGTTCAGCTTCAAGTCAGGAAAAGTGGTGATTAACCTGCTGTGTGGAGG
GCTAAAATGGAGATACACACACACACACACACACACACACACACACACACAGACACACACACGCACTCTGTCTCTCCCTCCTTCCTCTCAACCCAGAGAC
TCAGAGTACTAGAAGGTGCCYGTGGTGATGTGTTGGAACCTCCTAACAATCCCAGATGTGATTAATGGAAAGCATACCAAGACCATCACAGCCTAGAGAA
GCAGGACTGTGCCAGCCACAGCAGAGATGGGAGCTTCCTTTTAGGGTTTTCTGGCCTTGAAATGTCCTGTACCCATCCTTATTCTCAAATATGCATCTAG
GAGAGGCTCTCAGGGCAGCTCTCTCTAAAGAATTTTTACAGTAAAATTTTAGGGGGAGAGGAGAAAAAAGCATAACATGTTTCTTCTCTCCTTCTCTCAC
ATGGCCAACTGTTAACAGCCTCCTCACCACCATCTGATCTATCTTRTTCTCTTCACAAAAGGCTCTGAAGACATCATGAACCCACAACGTAAGTGGTGAA
TTGCAAATCAGCTTGGAAATATCTCCATCTGACCTCATCAAAGACAATAGGATGGAAGGACCCCTATCATTTGCTAAGCTATAAATGTATTTKCTCTTGC
TAAAACACTCAGTTCCTAAAACGGCCTTTGAAAATCTCGGGGCACCTAGCTCTTTTATTATTATCTGTATTTAGAATTGCTTGTTTATTTTGATGAGAGG
ATTTTAAAAAACAACATATRGATAACTAATTTAAATATTATGGRKTTTTTTTTACCACCTAGACATTTTATCATTCGGAAAAAGACAAGTCACTAATAGC
CCTAGAAAAAGGTGAATCTTGGGACTGTGACTGCACGTAGATCCTTTCAAATGCTTTGATTCACAAACTAGTCCCTGCCCTATTTCCCCTCCATTTATCG
TTATAGCCACTACTTCTCAGAGCAATGAGWCTCTCTCCAGAAACTCAAAAGCCATTAATACCAGGATGCAACTGGAGTCCTGAAGTTGATAACCTCACGT
GTATTTTGTGCATTTTTGTCATCTGGCAGGGGAGGCAGCACCCAAATCCTATGCTATTCGTGATTCTCGACAGATGGTGTGGGTCCTGAGTGGAAATTCT
TTAATAGCAGCTCCTCTTAGCCGCAGCATTAAGCCTGGTGAGTGACAATCAAACCCACTGTTGCTTCTTGASGTGATGCCATCTTCACCAGGAATGAGGC
TGAGCTTGCATAAGCCTGGCCCTGGACCTCACCCACTTCTAGGCACCAGCCCAACAGCCACAGGAAGGTCAAGTGAGAAAGGACACTATGATTCCCTTCC
ACAAAGGAAATCCCATATCTAGAAATGAGGGTGTGAAGGGTTGACAGCTCCTCTTACCAAAAGAAAATATCTTCAGATTAGAAGGGCTTATCCATTCAAA
CAACAGCTAACCTTCTCCTTGGAGTTTCTCTCCTTCAGGTTCCAACCATTGCTACCTGTGTCCTCAGATTCAAACTCCGTCATCTTTCCACCACCAAACC
TACACAGCTTTCTAAGTTGGCATCCTCTTTTCTAATAATGGGGAAATATTCCTTTCTCCCATCAAAAGTCAGTCCATCTCAGCTTCTTTCCCTGTATCCA
GAACTTCAATGTTTAATTCCTCGCTTCCCTGCAAATTCCACCTTTGTTTACTGGACCCTTTCTATCATTGTCAGACATGCTGCAACCTTCTCTTGATTCC
CACATTTTCCTCCTACTAACACATTTTCTTGTGCCAATCATAGCAAAACTTCACGAGAGCTGGCTGCATAATTTGCAGTCTAACATCTGGATTACTCTTC
CTACTCCCCCCCAACCTTCTATTTCACCCATGACCTTCAAATACTCAAACCCAAAGGACACTTCTTGGTCCCCATGCTATTTGGCCCTTAGCTCACTAGT
GTAATGGACCATTTCCTTCTTGAATACTCTACATCTTCTCCCTTTTTTTTTTTTAAACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCACGA
TCTCAGCTCTCTGTAACCTCCACCTCCCAGGTTTCAAGCAATTCTCCTGCCTCAGACTCCTGAGTAGCTGGGATTACAGGTGCCCACCACTGTGCCTAGC
TAATTTTTGTATTTTTAATAGAGATGGGGTTTCACCACATTGGTCAGGCTGGTCTCGAACCCCTGACCTCGTGATCCGCCCACCTCAGCCTCCCAAAGTG
CTGGGATTACAGGCGTGAGCCACCGCACCTGGCCCATCTTCTCCTTCTATTAGAATATTACTTCTCATGAGGTTTGCTGGCTCCTCTTTTGCATTTTCTT
TTATGACTCTCCTTTGTCTCTGAAATCTCCAAATGATGGCGTTCCTCAGGGCTCAGCCAGTCATCATTTACAAGCCCTGTGAATGGGTAATGAGCTGATC
TTTTGSATTGATGAATCACCCCTACACTCATTCACTCTGCCGTTTACACTTCCAACACAGATCTCCTCTCTCAATAGTTTACCCGTGTCCTCTTGAGGTC
CTCTCAGATACCTCTAACTTCATGTATCCCAAGTGGGACTATTGATCTGTCTTCTCAAAACCGCTAACATTCTCTGTTGGTGGCACTTCTGTCCACTCCA
TTTCCTCGAGCCGGAAATACAGGAGACATCCTTGATTCCTCCTTTCCCTCACTCTCCATCCAATCTATTAGCAAAGATTGGTAGGTCTACGTGCAAAACA
TGCCTGATTTCTAAGATAACATCATCTCTTGCCTGGACCACTGCCATCACATTCTCACTACCCACCTCTCACTTTATTTGGGTAGCCCCCATCCCATCTC
ATATTGTGGCCCATGAGATAGAAGCTCCCCACTTTTATCTCATGGGCCACATCTTAAGCATATGACCACATTTTGCTGCAAGTGTGGTAGGAAATTTTAC
TTCTTTTTGGGAAGCAACATGTCCTGGTSACAACTGGGGTTCTGTTATTAAGGACGAAAAACAAAATAGGTTTGAGGAGGGTGATGGAGGGTCTCTGCCA
CATGGCTAATGGGAGGAGCCTGTCACTATTCCCTACCTGGGGGGAGTAACTGAGTGTCAGACCAGAAAGACTGAAACATCTTCTCCATTTTCCTTTGTGT
TTCCAGTCACTCTTCATTTAATAGCCTGTAGAGACACAGAATTCAGTGACAAGGAAAAGGGTAATATGGTTTACCTGGGAATCAAGGGAAAAGATCTCTG
TCTCTTCTGTGCAGAAATTCAGGGCAAGCCTACTTTGCAGCTTAAGGTGAGTGATTGYGCAGCTAACGAGAGAAGTACTGTCATATGGACTTTCTATTTC
ATTTACTATGTTACTGAATAAAAATAATATGCTTGCAACCCTGGACTATTCAATGTAAGGAAATAATTCTGACCTGGCTGATCCCTGAATCTATAAATGC
TGCCTTTGGAATGGATATAACACTTCTTTTAATGTCAGAGCATAGATCCTCTGAAAGATAGAAAATACACTTACAGGAATGTTTCAGAAAAGCCAAAGAA
CAGTATTTTCTCCATTCTCGGTCCTGTTTAACTGCATTCTGGAAATCCTCTAAGACAACGGGATGCTCTCACTACACCAAAGGTGACTGCACAGCAGAGG
AGACAAAAAGATTTTGAATGTGGTTATGGTCTGTGTACCATAAACACATAACTCTTACCAAGGCAACATTGTAGTTATGAAGCTAATTCTTCTGCTATTG
TTGGAAATTGTAATGCATAAGCCCACTTGGAGGTTGAGAATGCAGCAAGACTGGCCTGAACCTGCAGACAAATGCATATCAAAAGCACCAAGAAAGAGAT
TTCAACCTCCCTCTGTTCCAGGGAAGACAGTGATGCTTCAAAGAGTCAGAGCACCTTGTGTCAGAGGATCCTGGGGTGGAGCCAGGCTATGGGAACCCAG
TGAGTTCCCGTTTTTAACASTCTAATGCCCTGCTTCATCTGCCTTTGTCCCTAGCCTCTGTCCCTTCCTTTGGGGGCAGCAGTCCCTCTCCTGTTACACA
CTCAGAGCTGAGTTACTTTAGCTTCCTCCTCCTAYCCTCCTCTCTAACAAGCCTCTTTTCCACCCCCAGGAAAAAAATATCATGGACCTGTATGTGGAGA
AGAAAGCACAGAAGCCCTTTCTCTTTTTCCACAATAAAGAAGGCTCCACTTCTGTCTTTCAGTCAGTCTCTTACCCTGGCTGGTTCATAGCCACCTCCAC
CACATCAGGACAGCCCATCTTTCTCACCAAGGAGAGAGGCATAACTAATAACACTAACTTCTACTTAGATTCTGTGGAATAAATCCAGCCTAGGCTGTGG
GTGGCTGGTTCCAGGATAGAGAATCAAGCTGTCAGAGTCATCTTAACAGATCATTATGCGACTGAGTTCACTAGCAGTTCAGCCCATCCATAGCTTACCT
CATTCTTACTATCCAAAAGCCACCTCCTCCTCCAAACATCCATTTCTGTACCAAGACCCTCACTCGAATGTCACTATCCCAAGATGAAACCTAAAAATYA
CTTTCCATTCTTTCTTGATCTTACCCCACCATCCACTCAGCTGCCATGCCCAGTTTAGTYAACCCCCCAAATGCTGCTTCATGCAACCTTCCATTCCTAT
TCCTTTTGCCAACCCATGATGTAGAGATGTGGATTCATGACATTTTGTTCATACAACTTCTTCAATAAAACATTATAATATGTGCCCCAAAGATAAAGCT
GAAGAATGAGATGAATGTGAAATTAAAGGTTTGCATGTCTTYCTAATCCTAATGAATTCTTAATGTCATTCGTTAATAATTTGACACACAGTGTATACAC
TTAACCCTTGAACAACACGATTTTGAACTGCACAGGTCCACTTAAACACTGATTTTTTTCAATAAAAGTTACACCAAATGTCCCTGCTTCTCCTGCCTCC
CCCTCTAACTCCTCCACCTCTTCTGCCTCTCCACCCCTGAGACAGCAAAAACAATCCCTCCTCTTTCTTCTCCTCAGTCAATGTGAAGATAATGAGGATA
GATTGTTATGATGATCCACTCCCACTTAATGAATAATAAATATGTTTTCTCTTCCTTACGAGTTTCTTAATAGTATTTTCTTTCCTCTAGCCTACTTCAT
TGTAAGAATACATTATATAATACATATAACATACAAAATGTGTTAAATGACTGTTTATGTTATTGGCAAGGCTTCTGGTCAACAGCAGGTTATTAGTTAA
GTTTTTCTGAAGTCAACAGTTATACATGAATTTTTGACTGTACTGCTACCCCCATGCTGTTCAAGGGTCAACTGTACTTTGGTTAAGATCAATTGCTAAC
CATGGTGAATGTAAACCAATCCATATTTTAAAAAATCATTTATATTGGCTTTAATTTCTTTCAGACAACTTCTAGAACTGAATGTTTTTTTGTTTTTACT
TTATAAAGTTGCTGGAAGAAGAAGCATCAGCTATGATACTTCCTTGTTATTATTCATATTTTCTGGAATTTTGTTAGTGTACATTCAATCTACCACTCCT
CTATAGGGATACTTTTAAGCCAGTTGTCCATTTTGTGAGAGTTATTTTAATTAAAGTTTGTAATATAATCTGCAAATCCACTAACCAAGTACATGTATAC
TGCAATAAATATACCATAATATCCTGAGCATGAACATGAGCATAACAGGCTGTCTTCTCTCAAGAGAACTTGTCCTTCTTTGCACATGACAAGCAGGCAT
ATTGGGTCTTGCAATGGGTACCCACTGCTAAGTTCCAATTTCTCAGCCAGGCATAATTTGTCCCCAAAACTATGCTTCTGGCATTATCTCTTATTGCTTC
AGTGCCCCGCATTCTCTTTGGGATACTCCTGAACCCCACCTTACATGCTGTAWGCAGGCCTTTTACTCCAGTCATTGCCGTGCAACCAACTTTGAGACAG
TGTAACCTGGCAGTGTATTATCTCAGCAACATTGAACATTTCTCTCTTCCAGCTTCAGGGCTCCCAAGATAACATAGGGAAGGACACTTGCTGGAAACTA
GTTGGAATTCACACATGCATAAACCTGGATGTGAGAGAGAGCTGCTTCATGGGAACCCTTGACCAATGGGGAATAGGAGTGGGTGAGGAGSAAATTCTCT
TATCCATCCCACAGGTGGACAATTCTGAGATGCGTTCATTCTTCATGGTTCCTCAGAGGATCCCAGCAGTATTGAGACATAATCACCCATGRCAGGTCTA
AGTTCAAGAATACATCCTGAATTGACTTCTCTCACTTCCCTGTTTCAATTTCCCCAGTCCCTTCTCATGTTCCCTAGGGTCACTTGTCATCATCTTGCAT
GCAAACCCTTGTCTCAGTCTCTGCTTTCTGGTATAAACCTAGCTAAGACAGATTCTATCAAAACCAACTTCTTTTCTCAACTAGCCACCTCCAACACGTT
GGATTTCTTCCCTCTATGTTCCTGCTCATGCCTTTGCACACATCTCAAACACTTCCATTGCTGCCTATGTCTTACTAACATCCTAAATCCCTTCCAGCTG
TTTTACGGGACTCTCCTCATCTTCCCAACCGWAGGCAACATCTTATCTTCTGCGAGGTCCATAGCATTTTTGCCTTCTCATGGAACATTTATTTTCTTAG
GCTTTGTGCTATAGCTTCTTCTCCTTGTCTTGGCCCATTTGCTCTCTTCTCGTCAACCAAATTCTAGGTACATAGAGGCAGAAATTTGTCTCTTTCATTT
ATGCACTCCCTTTAGATACCAAATCTTCCCTCCCTCTTAGCAGTTTCTCAGAATGCACTGTTGAAGCAAATTAATTTTCATTTCATGTATTAGCATCTTC
CCATTAATACCAAAGTGTGTCAGGGAGAATCTTGCATTATATCAGGGCAGTCCTCAACTTCAAGAAGGGTCCAAGGAACTGGAAAGCTTCTCACAGAATA
TGGAGAGGAAAAACATAGAAAGGCTGCTCAGAAATTTCCCTGTCTCAATTCTTCCTCCTCTTCCCCTTATGCCAATATGGCTCCAGGGGAATGTGATGAT
ACAAGGGCATCCACTCGGGAGGAGATGGCTGCAGAAATGAAACATAACCAAGGGTATCCCCAGGAGCTTTTAGCCAGTATCCTCTGCCTCCCTCTTGGAG
GGCTCGGTGCACAGTCTGAGGGTTTGCATTTTGTCCAAGCCTTTCCCCACATGTATTTATGCATATGCACAACAGCATAGGGGCACAAGAGAAGGAGCCC
AGGGAAATTCACCATTGCAAATATTTTCTCTGACAAGGTCATGACTAAGCACAAATGGCCTCAAGGATGGCCATGAGAGACTTGCAACAATGTACTTGGA
TACGTAGTACATAGGTTTTCTGAGAAGGGCTGCAAAGAATGTGAGTTCTGTAAATAGCTAAATGTGCAGRAAGAATCTATAGGAAGATGGTGATGAAAAA
TGCAATGTAATCCTGGACAGTGCTTATAAATATCAGCTTCCCAGCTATTCCAAGGGCACTGAACATGAGCAAGAGATAGACAGCCAGCCCATCTTACATC
ACACCACCTGTGCCCTCTGCCAGAGGAGTGAGGACATTGTGATGGTGAAGGAGGAAGAAGAGGAGGAGAAACCACAGAAAGACTCAAGAGGTGTCCTCAA
ATATTTTATTTGCTCTCCTGGATCGAGAGCTGTGATGTTCTTTGCTTAAATCTAAGAACCACAGGAGAAGGCACGGGATGACAGATTTCTGTTCAATCAG
TATCAGAAGGCACTTCCCAAACAATGTGGGTTTCCTAAGCCTTGCAAGGAGGTAGGCTAATTCCTTGTCTATCTGTAGTATGGAAAAAATAAGGCCAACA
TAAACACACACACACGAAATAGAATATCGATAAATGGAGAAAGAGCACAGTGTTATTCCCCCTGTTCCAGTCTCTGAAGCACTAGTTCCTATGACCTTTT
TTTTCCAGCCTATGAGATACTCTAATATTCACGGAGGTGTTGATGCTTTTGTTGCTTTCTTAAGCAAGAGTCACGGTCCTCAGGCCCAGGACTATTGAAT
GGTGGGTTTTTCACAGGGTGGTAGAGAGGGAGTTTACCCGTGTGACACTCAAAGATAGTTTGTCCCCTGAATCTCTTCTATTCAGAAACCTAAATGAATG
CACGTCCATTTCAGAGATCCCTACATGCTTCCACCCATCTTTCTCTTCAATTTCCATCAGCATGCATATCTGCCCTGTCCTTCCCTCCACTTCAGTTTCC
TTTATTCTTCAGAAGAGAAAATGTAAAAAGCTCTATAAGCTTGCAACTGAGAATCTTTGTCTCTCACTTAGGTCAATAAGTTTATTTTAACGTTGTTGAT
GATCTAATGTGAATTAGGGGCAAGAAAACAACACGGGTTATCAACAAGAAAGGAGGGGAGATAAATATGCAGTTAAAGAACTGATCAGTTAACTACCTTA
CTAGTTTGAGTCACTTACAAGTAGAASATTTCTGATTATAAAAAGAATACTTCAAAGTCAACTCTAGGCCGTATGGTTGGGAAGTAACACCAGAAATAAG
TGAATAAACTACATGGAAACCCATAATGTCATTCCCTTAATGGTTGTCTCCTTAACTAAGGATGCAATTAAAAATGAGACAGAGACTAGCAAAGACTGTG
CAGCTGACAGAGTGCCACCTCCCAATATCTAATAGCAACCATCAAAAGATCAAAAACCATACACTGATGTTCTCTATTGCTCGTACAGTTTAGCAGGTTA
AATTTTGCAGATTACAGCTCTAGTTCACTAAAATCAGTTTTATCTATGCCTATAATAGCAGTGTGGCCATAATAAAAGCCACATCTAACTGACCAAGGCC
AAAGCCACTAGCAATGTCTTCTCCAAACTCAYCATGTAGTTTGAACCCCAAACAACAAAGCTTGTTTTTATCTCAAAGGAAGTGTCAGGATCAATAATCT
GAATTATTCAACAAATATGTTTTGAGCACCTATGCTGTTCTAAGTGCTGGGGACATAGTAGTAAACAAAAAGGGGAAAATATGGCCATCCTTATGGAACT
GACATTAAATGTTGAAGGTTGGTAGGTAACAGTCCCTCCTTCCAATCGCCATCCACGTTCAAACATTTAGAAACTATGTTGATGCCAAAATCAAAATCAT
AGCAGTGCCTTTATTATTGTTACAGCTGGATTAGGGAAGTGAGGGGTGCCTCTTAGTCTTCTGGGGCCTCAATCTAGACTTTTGGGGCAAAAACCATGCC
CACCAACTCTAATTTCATTTTCTCCAGTCACTGTAATAATCCATCACTCTTCAGCAGAATCAAGTGAGTAAGGCTGAGAGGAAGGCAAACTCCAATCTCC
TCCAGGAGCCTCCGTGTAGAATCTGCCCTTTTAGCCCCTATTCAATTGGTGGTTTAGCAAATGTCCACATCTTGCTAAGCCTAGGAGATACTTCTCCTTT
CCTGCAGGTAGAAAGAAGTGGAAGAGTTCCTTTCAACATCACCATCTCAGGAAGAAGGACAAAGATTTCTCATCCATGCGGACCAACATAGGAATGCCAG
GAAGGATGTAGAAATAAGGGGAGGAAGATTCCCATCTCTACAATCTTTGAGTGGGTTTGCTATCAATGAAATGCTACAAATGGAATAAGTTGCAGAAATT
TTTCTCTTTTCTTGGGTTCTGGAGAGTTTGTAAAACAAGGACACTATGTATTTTTAAAGAGTTGGTAAATCTTACCTGTAAAGCTAGAGAAGGTYGGAGT
CTTTTTAGGAGTAGATTTGGACTACATAACCTGTAAATGTGTTTTGTCCAGTCCTTAGAGTGTTTTTTAAAAAATTGTAAAGTCRAGGTTTTCATGAAAA
ATGGGAAGATCAGACAACATTGCTCCTGAATTCCCACAGAGCAGCAAGCTACTAGAGCTCAATCTGTTATTTCTTTTCCTGATGTAYAGGGGTTAAGTCC
TATGGAAGAAACAGCAGAATTATTCAAAATTATTTACATAATGTGCAATTATTCACTAGAGCATGAGGAGTGAAACGCTCTGTTTAGTATGTATAACTTA
AAAGGAACACATACAATTAAAAGTAATTGAAAGACATTTCTTCTTAAAAATTCTATAATCTTACACTGGTAAAATAAACTAGTTTTTCCCATGTAATCAA
GTCTATATGATATTATTTTTATAGTATATTATTTTTCTTCATCCATTTGCCTTTAACTCCCATGTGGGCTGCTCTTTATCTACCATAGGCAGAACCATAT
ATTTCCATTCCTATGTAATAGGATCCCAATGAGTCTTTTTCTCCCAAAAGATGCAGCAACAAAAAGTTAGGGATTATAGCCATGGAAAAGACAGTCAGTT
GTTTCTTACAATGGAATAGTAATAGTCTAGGCCTCCTACTGTAGGCACCGAGTAGCCACCCTGGGTATCCACTCTTTCATCCACTGATTTGCTCAGAACA
ACACCTAGCTATTGTATCAGAAAATTTTCAAGCATACAGAACATAACGGGGACCACAGCATTTGAGAAACACAGCCTCTGCTAAAGCTACTTTCTTCACA
TGCTGTTTACACTTTTCACTTTTAAAAACGTTAATTTTTCAGTTATTAATACATCGACACATTCATCTTGAAATAAAGTTAAAATATACCAGATAAATCC
AAATTCTTTCCCCCCAGATCCTAGTTCCTCTTTCTCCACCCCAATGGTAACCACTGTTATGAATTGGTGTCACTCTGGCTATTTCTTATGCATTTACGTA
CTCATAGGCTCTATTGGAAGCATACAATGTTGTCTTATGTGTACCCCTGTGCATCTGTATGTATGTGTCCATGTGCGTGCATGTTTCTCTAACTGGAATA
ATAAAATACATATTTTTCTCCAACTCACTTTTCTTTTTTTTTCGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGCGCAGTGGTGCAATCTCAGCTTA
CTTCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGTAGGGCGCCACCATGCCCAGCTAATTTTT
ATATTTCTACTAGAGACAGGGTTTCACCATGTTGGCCGGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCTGCCTCAGCTTCCCAAAGTGCTGGGA
TTACAGGTGTGAGCTACTACGCCCAGCCCAACTCATTTTTTCACTGAAAAATGTGTTCAAATATCTGTCTACACTGGCATGGATGGCTGTCTCATTCCTT
TACAACTGCTGCAGAGCACCCAACAGAATGGTTTTACCATCCTTTGTTTAGCCATTCCTTCATGGATGGAGAGTTAGGCTGTTTCCACATTTTGCTACTT
TTTTTTTTTTTTTTTACAAACAATGTGGCAATGAACATTCTAGTGTATGCCTTCTGTGCAGACATGCAAGACTTTCTTTGGAATAGATAAGTGATCTTAG
ACAAGATAGCTGAAAAAAATAGATAAATGAATTGCTTGACCATGGAGTAAGTCCATTCTTTATTTCAATAGATAATATCTGCCCTTGGATGTGGCTTTTC
TAATTTACACTTCCAATGGTGTTTTCATTCTTCCCTGCCCTACATTTTTACTTTTTAAAAATTTAAAAAGTATTGTTGTCCTAGCATATAAAGCAGGGGT
TTCCAACCCCTAGGCCATGGTCCGAAATTTTTTTAAAATTTACACTTCCAATGGTGTTTTCATTCTTCCCTGCCCTACATTTTTACTTTTTAAAAATTTA
AAAAGTTTTATTATTCTAGCACATAAAGCAGGGGTTTCCAACCCCTAGGCCATGGTCCATGGACCGTTACCAGTCCTTACCTGTTAGGAACCGGGCTGCA
CAGCAGAAGGTGAGTGGCAGGCGAGCGAGCAGTACTGCCTGAGTTCTGCCTCCTTTCGGATCAGTGGGAGGTATTAGATGCTCATAGGTGCGTGAACCCT
ATTGTGAAGTGCGTGTGCAAGGGATTTATGTGTGCGCTCCTTATGAGAATCTAATGCATGATGATCTTCTAAGAACACCCACATCCCCAGTCCATGGAAA
AAATGTCCTCCATGAAACCAGTCCCTGGCGCCACAAAACTTAGGGACCACTGATATAATCTCTCACTGTTATTTTCATTTGCACATGCCTGATTACTGAT
TAGTCCTTCAGTACTCTGCACTCTCCAGTCTGACCTCTGACATCTGACTTCTCCACCAAAACCTTTCTTCTGAGCACCATCAATGACACCCCTGCCTGTT
TCCTGATGCCAATGGGCACTCTGCTGTCCTAATCTCAATCAGCGCTAGGCACACTCCACTGCTCCCACACATCTTTACATGCACATACTAGGGATTCTGC
AACAAGTCTCTCTGGGCTTTCCTCAGACTCACTGAAATTTTCTTTTTACTTTCATTTACTGGCTCCCCCTCATGTGACTTCTTGTAGTTGAAATTCCTCA
GAACTCATCCTTGAATCCTCTTCTCCTTTATACTATTTCACTGGGTGACACTATTTGTTTCATGAACGGGTGTATGTGGACGTATTAGTTGGTTCTCATG
CTGCTAATAAAGACATACCCAAGGCTGGGTAATTTATAAAGGAAAGAGGTTTAATGGACTCACAGTTCAGCATGGCTGGGGAGGCCTCACAATCATGGCA
GAAGGCAAAGGAAGAGCAAAGGCACACCTTACATGGCAACAGGCAAGAGAGCTTGTGCAGGGGAACTCCCATTTATAAAACCATCGGCTCTCGTGAGACT
TATTCATACTGTAAGAACACATGGGGGAAATTGTCCCCATGATTCAATTATCTCCACCAGGTCCTGCCCTTGACATTTGGGTATTATTACAATTCAAGGT
GAGATTTGGATGGAAACACAGCCAAGCCGTATCAGTTGACAATTTTATCCCTGGCCCAGAAGTCTCCTCTAAACTCCAGATATGCATTTGTAGCTACCAA
TGTAGACTGTCTCTGAACTTGGAAATTGAATATGTCCTAAGTAGAACGCTTGATCCTTCCACAACCTGCACATTCCAACACTCAGTTATCTCCGTCTCAG
TTACAACAGAAACCTAGGAGTGATCCTTGATTTTTCCTTTCGCTGAAGTCCTACATCCAACCTATTAAAAAGGCTGTCTCTAAAGCAGATTTTCTCCAAA
ATATGTCTTGAATCTACCCGTCTCTCTTCAACTTCCTTGTCACCCACCACTGAATGCCAGACAACCACCAAGGCTCATCTGAATGTGGATCCACCTCCTG
CCCATTGCCCTTCGTCTACTCCTGCACCCATTAAATTCATTCTCCATGAGACAGCCAGGATTATCTCTACCAATGGAAATCTTAACCGTGCCAGTCCAAT
CTCTAGACCCCTTCAACGTTTCCATTTGCACTTGGAAGAAAATGCAAAGTCCTTACCATCATTTACAGGCTTGCTTGAATCATCTGGCCTGCCTCCAACC
CCTCTTCCAGATAACTCTTTCTTTCCATCAGTATCTTCAGTTATTCCAATCTTTCAGCTCTTTGAACATGCCAAGTTCTTCACAGCCCCAGGACCTTTGC
ATATGCTAAGTTCATGTACAGCCTTTTACCTGTATTAGTTTATTCTCATATTTTCCTTTTTTAGCTCCTTCAAGTCACCTTCCTATATGTGACTTTTTGG
CCACCATGTCTAAAGTAATCTCCTTCCTCTACCTCTTACGTCAGCTTTTGACTGTTTCCTTCACAGGGTTTGTAATCACTTTATTGATTTGCCTCTATCT
TTCTTTCCTTCCCCCATTACCTTATAAACTCTTTGATTGCAGGGAAGTGATATTTTTCTAGTTTACCATTGTATTTCCAGCCCCTAACACTGTGTCTGTG
TTTAATAATTTTTGTTGAATTATTAATAAATCAATAACTGAATAAATGGATAAATGAGGAACTGACTTCCTTCCCAGGCAGTCCACCTTTTTTAACAAGA
CTAGTCTCACTCAGAATAAAATCTGTCTTCCTGTTCCTCAGCCTTGATGTCGCAGAGAATGAAGGGACTCCCAGGTCCACCCAAGTCCTTCAGTTTGTGA
GTGCAGCTGTCACGGCCCGCTTTAGCCTCCCCTTTCCCTTTGACATAACTCTCCAAAGGAAGAACAGTTCTTTCCTCCTCATGATTCCTTCTATTAAACA
CTTGGCTTTCTTCCTGCCTTCATTCACCTCAGCCAAGTGAAAAGAAACCCATACATCCTGCTGCACACCTATTATCCTGCTGTCATTACTGATACCACCC
CTTCCCCTCTTAAAAATGACACCTTATATATAAATTATGTGGTCATACTACATATGAGAAACTAAGAGTGTGTGGACTAACTGCTGTCTATCTACTTTCC
ATTGAAAACCAATAGAATTGAAGAAAGCTTTCATTTTGCTCTGTTCCATCATGATTCACTCTTCTTCTCCTCCTTCTCCCTCCTTCTCCCTCCTCCTCCT
CCTCCAGCTCCTTTTTCTTCTTCTTCTCCTCCTTCTCCTTCTTCTTCTTTTCTTCTCTTTTCTTTCTTTCTCTCTTTCTTTCTTTCTTTCTTTTTCTCCT
TCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCCTCTCCTTCTTCTTCTTCATGTGTGGTCCAACTGCTGTCTA
CCTACTTTCCACTGAAAGCAAATAGAATTGAAGAAAGCTTTCATTTTTCTCTGTTCGATTATGATTCACCCTTCTCCTTCTCCTTCTCCTTCTTCTTCTC
CAAGAGACAGAGTCCTGCTGTGTTACCCAGGCTGGTCTCAAACTCCTGAACTCAAGCAATCTTCCCACCTCAGCCTCCCAAGTGCTGAGAGTCCAGGTGC
AACCCACCGTGCCCAGCCATGATTTGTACTTTTATGAGAGCCATCTTCCCTGTGGTTCTGACTGTGACATGTGTGACTGCAATTCTCATTGTCTCATTCT
GTGCTTTACTCATTTGCAGAAATAATCCACAATCAATATCAGCTTTATCAATAATAAATGTATCAATAAACAAAAAAAAGTCTTTGTCTTACTTCTCAAT
TGGTTCATAACTCAAGTGGGAAAGAGGGATTACCTCTATTACCCCTCCCCTCAAGCACTAACAATTAACGTGGCAAAAACCAATTCTTCATCCATGGCCA
AGGTCATTGGTATCAATGGGTGCTTCCTAATCCAGACAGGACTAATAGTGGAGTTCAGTCTGAAATGATGGCTAAGCCCAAGCACTAAGCAGTGCTGGTG
AAGGAAGATGGCTCATTAATAGGGGTAGCAATGCATACTTTAGTCACTCATCTAAAATATTATGTGCACTGGGTCTGCCATTAGGACCCATCTGGGCAGG
TCCTGTGCCTGACTATCACATTGTCCCCGCCCCATCAGCCTAAAATCAACAGGAACAACTCTGTAGTCCAACAAAGTCAGATTTATTGACTTACTGCAGT
AAGAGAGACTGTCCATCAGGAACCTGAGCCATAGCAAGGAAGAAAGACAATGTATAGGATTTGGGGGAAAAGTAATATTTAGGCAAAATTTAAATGAAGC
AAAGTTTAGATGGACTCAAAGCAAAAAGTGCTGTATGGAGAGGGGTCTACATTAGGTCAGTAGTGTAAAGAGGATCTAGGGTCTGTGTCCTGTGAAACTA
CAAAGTTAAGATACATGTAGAATGTTGTGACCAGAAACCTTTTATCTGAAGCTTTGTTCACAGGCTGGAGACTGAGGCTGCTTCTCTGTGTCAGCATGAT
TTATATTATTCAGGCAAAACTGGAATGCTTCATTCTTGTTCATACAACTTGAAAAGTCAAATGTCCAATTGTCCATGGTTGTAAAGAACAAAGTCTCTTA
GTGATTAAAAAAATAGTAGCCACTCAAAGAAGAGGAATGTTATGATACTACAGCTGCAGCATATTATTGGGAGAAATATTATTGCTTGTTAATTTGCAGT
GGGCTTTATCTGTGCCTTGTTATTCCAGCCTCATGTTTTTACTTTCTAAACACAGTGTGTCCAGTGGGGAGCACAGAGCACGGTCCCACCAACTCACTGT
CCAACAAGAAACAGCTGTCCCTTTGATTCCAGCACAAGCAAAGACCCTCATCGATGGCCAGTGCCAGGCCAAAGGCCCAGCAGTGAGCTTGGG


SNP Information

Context             (SEQ ID NO:64124):
TTGGCCTAATACTTTATCTATTAAAAGATTTAGGTGGCATTTCTCCTTTATTCCATTAATGTAGTTCTGCTTTACAATTCTTGTCTGGACAATTTCAGCA
K
TGGTCTTCATTGATGATCTTTATTCTTGATGCGGAGTCACATCTGTTCCCTTATTCTTCAAGAAAGACTATTGGATTTTCTACACTGTGCAACTTCAGCC
Celera SNP ID:            hCV15836240
SNP Position Genomic:     18780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64125):
CTGGAAACTAGTTGGAATTCACACATGCATAAACCTGGATGTGAGAGAGAGCTGCTTCATGGGAACCCTTGACCAATGGGGAATAGGAGTGGGTGAGGAG
S
AAATTCTCTTATCCATCCCACAGGTGGACAATTCTGAGATGCGTTCATTCTTCATGGTTCCTCAGAGGATCCCAGCAGTATTGAGACATAATCACCCATG
Celera SNP ID:            hCV25605488
SNP Position Genomic:     32791
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,3)   caucasian(C,38)   total(C,73|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:64126):
AATGCTCTTTCCTTGGTCATTAAGGGGCCTGGGAGTCCTGGACCAGCTTTTCATGCAGCTAGACCACTTACATGCAACTAGAGCCTTGACTTTGAAACCA
R
GGACAAAAGCATCTCTTGCTAAAGGTAACTTCTGCTGCTTAGAACCCAGGTATGGGGAACTTCTTTCATGTCTCTGTGTTTAGCCTCGAAGTGCCTCTGG
Celera SNP ID:            hCV2146520
SNP Position Genomic:     26204
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64127):
AGGGTAATATGGTTTACCTGGGAATCAAGGGAAAAGATCTCTGTCTCTTCTGTGCAGAAATTCAGGGCAAGCCTACTTTGCAGCTTAAGGTGAGTGATTG
Y
GCAGCTAACGAGAGAAGTACTGTCATATGGACTTTCTATTTCATTTACTATGTTACTGAATAAAAATAATATGCTTGCAACCCTGGACTATTCAATGTAA
Celera SNP ID:            hCV25605489
SNP Position Genomic:     29958
SNP Source:               Applera
Population(Allele,Count): african american(T,30)   caucasian(C,2|T,38)   total(C,2|T,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:64128):
AGAATGCTCTTTCCTTGGTCATTAAGGGGCCTGGGAGTCCTGGACCAGCTTTTCATGCAGCTAGACCACTTACATGCAACTAGAGCCTTGACTTTGAAAC
S
AAGGACAAAAGCATCTCTTGCTAAAGGTAACTTCTGCTGCTTAGAACCCAGGTATGGGGAACTTCTTTCATGTCTCTGTGTTTAGCCTCGAAGTGCCTCT
Celera SNP ID:            hCV2146521
SNP Position Genomic:     26202
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,4)   total(G,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64129):
AAGAACAGAAGCAAGGAGACTATTGCAATGCTCCAGAAGATAGAGTCAATGGTGGATTTCCAAGAGCAGAACCACAAAGAGTGATTGGGAGTAGGACTGA
S
CAATAATATTCGGTTTCAAGAGTAATGATTTTCTTTCATAGCCAACATTGAAGCCGCGTCTGACTCCTAATTCAGAGTTAGAAAGCCACAAGACCTCCAA
Celera SNP ID:            hCV2146522
SNP Position Genomic:     24980
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,4)      total(G,4|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64130):
ACATAGTTCTCTGGCCTCAAGACAAAACAGGTTCCCTGGCCCCACAGAACTGGCATTTTGGTAGTGGAGATAATAAATAAATAAATAGATGGATAAATAC
R
TTTTCCAAAACCATGGAAGCATACATTTTATGAAGAAAATAGTTGAGCAAAATAAGGGGCTAGGACATGGGTGAGGGACTCTTGGAGATAGGCTGGCTGG
Celera SNP ID:            hCV2146523
SNP Position Genomic:     24412
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64131):
CCACTCCCCTTTTCTCTTCCCTGTCTTCCTCTTATTCATGAGATACTACATACATTTATTTGTTTATCAAAAAATATTTGTTAGTTCCCATAAGAGGTCC
R
CACCATTCCTGCCACTGAGCACATAGTTCTCTGGCCTCAAGACAAAACAGGTTCCCTGGCCCCACAGAACTGGCATTTTGGTAGTGGAGATAATAAATAA
Celera SNP ID:            hCV2146525
SNP Position Genomic:     24291
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64132):
AATCACATCAGGGTCTCCCTGAACTCCCTCACCACACACTGCCCTGGCCAAGGAGCCAAGGTGAGCCTGTGGGTCTCTAGGTGTGCCAGTCATCCAGATG
R
GGGCAAAGCTGCCAGTCCCACTGACTGTTTGAGTGATTCTCTTGGGAGGCTCCATCCTGGCGATAGGAGAGCATCCCCTGGCCCTTCTCCATGAGGAGGT
Celera SNP ID:            hCV2146526
SNP Position Genomic:     24043
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64133):
GGAATGAAAACTGAGCTTCATATCAAGGGTTGGATGCCCTCAGCTGCATTCATCAGATATTTGGTTTTTCTCTCTGAGCAAAAAGAGAAAAGATGCCATG
R
GGTGTGTCTGAATAAGCCCTCCTAAGTTTCCTATATTTATCTCCTTAAAGGAGACTCAGCACCCACTTCATGAAAAAAAAAAAAAAAGCAAGGTGTTTTC
Celera SNP ID:            hCV2146527
SNP Position Genomic:     22443
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64134):
AGACTGTACAAAATCAGAAAGTATAGACCATTTGGATTTTTTTTTTTTTTTGAGATAGAGTTTTGCTCTTGTTGCCCAGGTTGGAGTGCAGTGGCGTGAT
Y
TCAGCTCACCGCAACCTCCGCCTCCTGGGTTCAAGCAATACTCCTGCTTCAGCCTCCCGAGTAGCTGGGACTACAAGCATGTGCCACCACGCCTGGCTAA
Celera SNP ID:            hCV2146528
SNP Position Genomic:     21285
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64135):
CAGACACCGACTATATCCTTGAACTCCCAAGATGACCAGAGTGAGTCTCATATCCAGGGGCCAACCTGGACTATGCTGATATCCCAATCTAGAGAGAGGA
R
GCTGGATGCAGAAATCCAAGGCCAACCTACTTTTCCTTCCTTCTCATCCCTTAAACTTAAAGGACAGAACCCACGACGACTTGCCTTCACTCTGGTGAGA
Celera SNP ID:            hCV2146529
SNP Position Genomic:     19796
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64136):
TCCTGCCACTGAGCACATAGTTCTCTGGCCTCAAGACAAAACAGGTTCCCTGGCCCCACAGAACTGGCATTTTGGTAGTGGAGATAATAAATAAATAAAT
W
GATGGATAAATACATTTTCCAAAACCATGGAAGCATACATTTTATGAAGAAAATAGTTGAGCAAAATAAGGGGCTAGGACATGGGTGAGGGACTCTTGGA
Celera SNP ID:            hCV11512318
SNP Position Genomic:     24398
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,6)   total(A,1|-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64137):
AATCAGTTTTATCTATGCCTATAATAGCAGTGTGGCCATAATAAAAGCCACATCTAACTGACCAAGGCCAAAGCCACTAGCAATGTCTTCTCCAAACTCA
Y
CATGTAGTTTGAACCCCAAACAACAAAGCTTGTTTTTATCTCAAAGGAAGTGTCAGGATCAATAATCTGAATTATTCAACAAATATGTTTTGAGCACCTA
Celera SNP ID:            hCV29370204
SNP Position Genomic:     35532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64138):
AAATACAAAAAACTAGCCCAGTGTGGCAGTGGGTGCCTGTAGTTCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGAGAGGCGGAAGTT
K
CCATGAGCCGAGATCGTGCCACTGCACTCCAGCTTGGCGACAGAGCGAGAGCGAGACTCCATCTCCAAAAAAAAAGTAAATGTAGCGTGAAGATTAAAAG
Celera SNP ID:            hCV29370205
SNP Position Genomic:     25575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64139):
AGGAGACTATGACCCAGGGGAGGCATGTCACATAATCATTAAGAATAGAGAGACTTGGCTTCTAACTTGGCTAGATTTCTTAGTAGCTGTATGACTTTGG
R
TACATTCTGTCATCCCTCAGAGCCGCTGTTTTCTTACATGAGAAATAAAATTAATGGCCCCTAAAGAGTTGTGTGTGGGACGGGCGCAGTGGCTCACGCC
Celera SNP ID:            hCV29370206
SNP Position Genomic:     25269
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64140):
TGCCTTCACTCTGGTGAGAAAGGGACATGGGAAAACATGGTTAATCCAGTCTGAAACTGACAGTCTCCCACTGAGTCACTCACTGTAGAACCCATCACCT
R
AAACAAGCATAGATGGAGATCAGGCATTGAGAGGACAGCCTCTCTCCAGGATGTCTCTGAATTAATGATTGGCTCTGCAGCTCAATCTTTTATCCTCATC
Celera SNP ID:            hCV29370207
SNP Position Genomic:     19978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64141):
ACTGCACGTAGATCCTTTCAAATGCTTTGATTCACAAACTAGTCCCTGCCCTATTTCCCCTCCATTTATCGTTATAGCCACTACTTCTCAGAGCAATGAG
W
CTCTCTCCAGAAACTCAAAAGCCATTAATACCAGGATGCAACTGGAGTCCTGAAGTTGATAACCTCACGTGTATTTTGTGCATTTTTGTCATCTGGCAGG
Celera SNP ID:            hCV25605497
SNP Position Genomic:     27630
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,40)   total(A,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64142):
AGATGGTGTGGGTCCTGAGTGGAAATTCTTTAATAGCAGCTCCTCTTAGCCGCAGCATTAAGCCTGGTGAGTGACAATCAAACCCACTGTTGCTTCTTGA
S
GTGATGCCATCTTCACCAGGAATGAGGCTGAGCTTGCATAAGCCTGGCCCTGGACCTCACCCACTTCTAGGCACCAGCCCAACAGCCACAGGAAGGTCAA
Celera SNP ID:            hCV25605498
SNP Position Genomic:     27872
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(C,3|G,37)   total(C,4|G,72)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,382|G,1109)   total(G,1109|C,382) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64143):
TTTTTCTTGGGCACTATTTTAACATGTTGAAGTTTTCTTCTATTCCTAGTTTGCTGGGAGTTTATATCCTAAGTAGATGTTACCTTTGGCCTAATACTTT
R
TCTATTAAAAGATTTAGGTGGCATTTCTCCTTTATTCCATTAATGTAGTTCTGCTTTACAATTCTTGTCTGGACAATTTCAGCAGTGGTCTTCATTGATG
Celera SNP ID:            hCV15836250
SNP Position Genomic:     18695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64144):
CTGAGAGGCACGGCCTCCGATTCAAGGATCAGGAGGCCAGGCTGAGAGGCACGGCCTCCGATTCAAGGATCGGGAGGCCACGCTGAGAGGCACGGCCTCC
R
ATTCAAGCTCTCTTCCTCTTTTTCTGTCTCTTTCCACAAGGATCTGCAGCCCTCACCCGAGTAGCGAGCATCTAAAGCAGGACTAGACGAGGCAAGGGAG
Celera SNP ID:            hCV29370208
SNP Position Genomic:     7937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64145):
AACGGCCTTTGAAAATCTCGGGGCACCTAGCTCTTTTATTATTATCTGTATTTAGAATTGCTTGTTTATTTTGATGAGAGGATTTTAAAAAACAACATAT
R
GATAACTAATTTAAATATTATGGGGTTTTTTTTACCACCTAGACATTTTATCATTCGGAAAAAGACAAGTCACTAATAGCCCTAGAAAAAGGTGAATCTT
Celera SNP ID:            hCV25605499
SNP Position Genomic:     27420
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:64146):
TTTCTTCTTCCTTTTTTTTTTTTTTTGTGGCAAAGTCTTGCTCTGTCACCCAGGGCTGGAGTGCAGTGGCTCAATCTCGGCTGACTGCAGTCTCAACCTC
Y
GCAGACTGAAGTCATCCTTCTGCCTCAGCCTCCCAAGTAGCTGGGACCACAGGCGCAAGCCACCATGCCCCACTAATCTTTGTGTTTTTTTAGAGACAGG
Celera SNP ID:            hCV2146530
SNP Position Genomic:     17798
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64147):
GAGGCTTCCAGAGCCTGCGGACTCGCCTCCGCCGGACTGTGTAGTTTGACCATTGCTCTCCAGCAGGAAACTGGAAATAAACCCAGGGCTAGGCACTGGC
Y
GAGCTCCATTCTCCCCGGTCCTGCGCTGGCCCCTCCGGCGGGGCCTGCCGCTCTCAGTGTGCCGGGCCAGGATCTACCGGCAGGGGGCGCTCTCCACCAG
Celera SNP ID:            hCV29370209
SNP Position Genomic:     7676
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64148):
TCTGATTTCTATTTCTTGTGTATTTTTAGCAGACTTCTCAAAATGACTAGGACTTCAAATACGATGTTGAACAAAAGTGGAAAAAGCAAACATTCTTGAC
Y
TGTTATGAATCTTAGGGAAAAAAATCAATTCTTTCACCATTAAGTATGTGCTGTAGACTTTTTTTTCTTGGGCACTATTTTAACATGTTGAAGTTTTCTT
Celera SNP ID:            hCV15836251
SNP Position Genomic:     18533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64149):
TGCCCTAATAGAGGTTCCATTCTGGATACGACAACATAGGGTGACAGGTGAATGAACAGGTGCCTCAGATACAGCCCTTAAAACACTTCAGGTGCTGAAA
S
CCATGGCTGGTGTCAGAGGCACCTCCTAGTGGTTGTCCTTATGAGGTGAAGTCCTGCTCTCTTTCCCCTGATGTTCCATATCAGATGTCCTTTGTCACTA
Celera SNP ID:            hCV2146533
SNP Position Genomic:     16774
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,6)      total(G,6|C,5) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64150):
AACACAGCAATGGCTTCATGCAGTTTAGTGGGTCAAGAGAGCCACACCTCTGCCTCCAAGGGAGACACACCTCTGCCTCCAAGGAAGACCAGTAAAGGCA
Y
TCTCCTCAACTCAGCATCTGGCCTAATCCGCATTTCCTCATTGCTGTTTTCTGATGTTGCCTCTGCTCTTGTTAATCAGGAAGCACAGACCAGTCATGCT
Celera SNP ID:            hCV15938837
SNP Position Genomic:     25909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64151):
TATATAAAATTACAAAACAAATGAAAACAAACCTATAGTGACAGAAAGCAGATCTGTAGATTCCTGGTGAATAGGACGGGGGATGGGAGGGAAGGACAGA
Y
TCCAGGAGACATGAAGACTCTTTGGGGGATGGTGAATATGTTCATGATTTTAATTTTGATGATGGTTTCACAAACATAGACATATGTCAAAACTTATCAA
Celera SNP ID:            hCV2146534
SNP Position Genomic:     16400
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64152):
ATAGAGAATTGCTTGAACCTGGGGAGCGGAGGTTGCAGAGAGCTGAGATCGTGCCATGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTTAAAAAC
W
ACAACAACAAATACAATCAGTGGAGAAAAAAATACCATGTTCAACAAATGGTGACAAATCAATGAGATATTCATATAATGACAACAAAAAGGTGAATTAT
Celera SNP ID:            hCV2146535
SNP Position Genomic:     15299
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,5)   total(A,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64153):
ATGAACAACTGATTTTCAACAAACATACAAATACAACCAGTGTGGCTGGGTGCAGTGGCTCACACCTGTAATTCCAGCACTTTGGGAGACCTAGGTGGGC
R
GATCACCTGAGGTCAGGAGTCCAAGACAAGCCTGGCCAACATGGTGAAACCCCTTCTCTACTAAAAATACAAAAGTTAGCTGGGTGTGGTGGTGCATGCC
Celera SNP ID:            hCV2146536
SNP Position Genomic:     15076
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64154):
GAATATTGCCAAGGATAAGAAGTTTATTTCACAATGATTAACAGTACACTGACACACTGAAAATTTTAAAATATTGCTAAAAGAAAGTTTTTGAAAGGCC
Y
AAAAAGCCAGAACGATATGCCTTCCTCAAGGGTCAGAGGATTCAATATTATTAAAAAGTGAATTTTCCCCAACTTGACCTGTAGATCCAATACAATCCCA
Celera SNP ID:            hCV2146537
SNP Position Genomic:     14750
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64155):
GGTTTTCATGAAAAATGGGAAGATCAGACAACATTGCTCCTGAATTCCCACAGAGCAGCAAGCTACTAGAGCTCAATCTGTTATTTCTTTTCCTGATGTA
Y
AGGGGTTAAGTCCTATGGAAGAAACAGCAGAATTATTCAAAATTATTTACATAATGTGCAATTATTCACTAGAGCATGAGGAGTGAAACGCTCTGTTTAG
Celera SNP ID:            hCV27893172
SNP Position Genomic:     36587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:64156):
GCTGGGATTACAGGTGCATGCCACCATGCCTGGCTAACTGTTGTATTTTTTACAATTTAATACAATTACAATTGTATTTTAGTAGAGACAGGGTTTCACC
M
TGTTGGCCAGGCTGAACTCTTGATCTCAAGTGATTCAAGTGATTAGTATTTGCATGATACATCTTTCTCCACCTTCTTACCTTTAAACTGTCTACAGTTT
Celera SNP ID:            hCV1069519
SNP Position Genomic:     10642
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,8)      total(A,8|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64157):
ACTCCAGAAGCTGAGGTGGTAGGATCACTTGAGCTCAGGAGTTCACAGCTACAGTGAACTAATGATCATGCCACTGTACTCCAGCCTGGGCAACAGAGCA
R
TGTTTCTAAATTCACACACACACACACACACACACACACACACACACACACACACACATATAGATATAGATATATCAAAGTAAATTGCAGAATAAAGAAT
Celera SNP ID:            hCV11512329
SNP Position Genomic:     14553
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64158):
ATTTTTGTCATTTTGTGGTACAGATAGTGATTTCTTGGATCATCTTTCTCCAAGCTTGTTTGGCATTTTCTTTCCTTTCTTCTTCCTTTTTTTTTTTTTT
T
GTGGCAAAGTCTTGCTCTGTCACCCAGGGCTGGAGTGCAGTGGCTCAATCTCGGCTGACTGCAGTCTCAACCTCTGCAGACTGAAGTCATCCTTCTGCCT
Celera SNP ID:            hCV27161222
SNP Position Genomic:     17723
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64159):
AACAACACGGGTTATCAACAAGAAAGGAGGGGAGATAAATATGCAGTTAAAGAACTGATCAGTTAACTACCTTACTAGTTTGAGTCACTTACAAGTAGAA
S
ATTTCTGATTATAAAAAGAATACTTCAAAGTCAACTCTAGGCCGTATGGTTGGGAAGTAACACCAGAAATAAGTGAATAAACTACATGGAAACCCATAAT
Celera SNP ID:            hCV2146509
SNP Position Genomic:     35127
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64160):
GATTTTTGTCATTTTGTGGTACAGATAGTGATTTCTTGGATCATCTTTCTCCAAGCTTGTTTGGCATTTTCTTTCCTTTCTTCTTCCTTTTTTTTTTTTT
T
TGTGGCAAAGTCTTGCTCTGTCACCCAGGGCTGGAGTGCAGTGGCTCAATCTCGGCTGACTGCAGTCTCAACCTCTGCAGACTGAAGTCATCCTTCTGCC
Celera SNP ID:            hCV27161223
SNP Position Genomic:     17722
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64161):
GGATCTGCAGCCCTCACCCGAGTAGCGAGCATCTAAAGCAGGACTAGACGAGGCAAGGGAGCTGCACCAGGGCTACCCCTGAGAAAGCCCCAGCTCTCCT
Y
GGCTTTCTCAGTGATGTGTGGCTTTCGTGGGCTCCTCAAAAACAGAAACTATCTTTTTTTATTATTATTATCTGTCCCTTTTTGCTGTTTTTGATAACTT
Celera SNP ID:            hCV2146541
SNP Position Genomic:     8077
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64162):
TTGATTTTTGTCATTTTGTGGTACAGATAGTGATTTCTTGGATCATCTTTCTCCAAGCTTGTTTGGCATTTTCTTTCCTTTCTTCTTCCTTTTTTTTTTT
K
TTTGTGGCAAAGTCTTGCTCTGTCACCCAGGGCTGGAGTGCAGTGGCTCAATCTCGGCTGACTGCAGTCTCAACCTCTGCAGACTGAAGTCATCCTTCTG
Celera SNP ID:            hCV27161224
SNP Position Genomic:     17720
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,5)   total(G,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64163):
GTGATGGTGTGCATGCACAGACACAGCCTCCAGGGAGCCGTGAGCAGAAGGGGACCTCCAGCTGCATCCAGGACTCCCTCTCCAACCCAGCCACATCAGA
R
GGGAAGGGTACCACTTGGCTCATAGCGCTTTCGAGAAACCCTGGATGCCAGTGAAGTCATGGGGAGGCTGTGGGCCAGGATCCACAGGGCTGCAGCTGGG
Celera SNP ID:            hCV2146542
SNP Position Genomic:     7182
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64164):
TCTTGATTTTTGTCATTTTGTGGTACAGATAGTGATTTCTTGGATCATCTTTCTCCAAGCTTGTTTGGCATTTTCTTTCCTTTCTTCTTCCTTTTTTTTT
K
TTTTTGTGGCAAAGTCTTGCTCTGTCACCCAGGGCTGGAGTGCAGTGGCTCAATCTCGGCTGACTGCAGTCTCAACCTCTGCAGACTGAAGTCATCCTTC
Celera SNP ID:            hCV27161225
SNP Position Genomic:     17718
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,5)   total(G,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64165):
GTGAAAGTCCTTCCTGGAGTAGGAGTGATGGTGTGCATGCACAGACACAGCCTCCAGGGAGCCGTGAGCAGAAGGGGACCTCCAGCTGCATCCAGGACTC
Y
CTCTCCAACCCAGCCACATCAGAGGGGAAGGGTACCACTTGGCTCATAGCGCTTTCGAGAAACCCTGGATGCCAGTGAAGTCATGGGGAGGCTGTGGGCC
Celera SNP ID:            hCV2146543
SNP Position Genomic:     7158
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64166):
CATAGTAACTTCTCTGTAATGAATATAGTATGGAAATGGGGGTGAAAGAGTAACTTTACAGTGGAGAAACCTAATGAACACTATCTCAGCCAGGTAATCA
A
GATTAACATCAGCAGTAATAAGTTATGTTGACAGTATGTACCTTAGATATGATATATAATAAAAATAGCATTTTATCTCTGTGATCTCCCTCCCCCAAAC
Celera SNP ID:            hCV27161226
SNP Position Genomic:     12067
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64167):
GTGGCTCGCACCTGTAATCCCAGTACCTTGGGAGGTAGAGGCGGGCAGAACACTTGAGGCCAGGAGTTCAAGACCAGCCTGGCAAACATGAAGAAACCCC
R
TCTCTACTAAAAATACAAAAACTAGTTGGGCATAGTGGTGCACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCACGAGAATCACTTGAATCCCAGGA
Celera SNP ID:            hCV2146544
SNP Position Genomic:     6733
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64168):
TGTGGCTGCTTGACTGGATGAGACAGAGGATGTGAAGAGCCAGGTTGGCATCTAGCACAAACCCACAGACACGGGTTCCTCCCCACTCTGTCTTTCTCAC
Y
TCTCCTTCACTTTTCCTAGGTATGTAAAGAAGACATTAAGAACACGGCAAAGGCCAAATTTACATTGACTTAAATCTAAGACTGGTTCATGACCAAAAAT
Celera SNP ID:            hCV2146545
SNP Position Genomic:     6035
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,14)      total(C,14|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:64169):
ACATAGTAACTTCTCTGTAATGAATATAGTATGGAAATGGGGGTGAAAGAGTAACTTTACAGTGGAGAAACCTAATGAACACTATCTCAGCCAGGTAATC
A
AGATTAACATCAGCAGTAATAAGTTATGTTGACAGTATGTACCTTAGATATGATATATAATAAAAATAGCATTTTATCTCTGTGATCTCCCTCCCCCAAA
Celera SNP ID:            hCV27161227
SNP Position Genomic:     12066
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64170):
CCTAGCTCTTTTATTATTATCTGTATTTAGAATTGCTTGTTTATTTTGATGAGAGGATTTTAAAAAACAACATATGGATAACTAATTTAAATATTATGGG
K
TTTTTTTTACCACCTAGACATTTTATCATTCGGAAAAAGACAAGTCACTAATAGCCCTAGAAAAAGGTGAATCTTGGGACTGTGACTGCACGTAGATCCT
Celera SNP ID:            hCV15976660
SNP Position Genomic:     27445
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,1)   caucasian(G,36)   total(G,65|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64171):
ACACATAGTAACTTCTCTGTAATGAATATAGTATGGAAATGGGGGTGAAAGAGTAACTTTACAGTGGAGAAACCTAATGAACACTATCTCAGCCAGGTAA
T
CAAGATTAACATCAGCAGTAATAAGTTATGTTGACAGTATGTACCTTAGATATGATATATAATAAAAATAGCATTTTATCTCTGTGATCTCCCTCCCCCA
Celera SNP ID:            hCV27161228
SNP Position Genomic:     12064
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64172):
ACACACACACACACACACACACACACACACAGACACACACACGCACTCTGTCTCTCCCTCCTTCCTCTCAACCCAGAGACTCAGAGTACTAGAAGGTGCC
Y
GTGGTGATGTGTTGGAACCTCCTAACAATCCCAGATGTGATTAATGGAAAGCATACCAAGACCATCACAGCCTAGAGAAGCAGGACTGTGCCAGCCACAG
Celera SNP ID:            hCV27841171
SNP Position Genomic:     26821
SNP Source:               Applera
Population(Allele,Count): african american(T,6)   caucasian(C,6|T,6)   total(C,6|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:64173):
GTGGTGAATTGCAAATCAGCTTGGAAATATCTCCATCTGACCTCATCAAAGACAATAGGATGGAAGGACCCCTATCATTTGCTAAGCTATAAATGTATTT
K
CTCTTGCTAAAACACTCAGTTCCTAAAACGGCCTTTGAAAATCTCGGGGCACCTAGCTCTTTTATTATTATCTGTATTTAGAATTGCTTGTTTATTTTGA
Celera SNP ID:            hCV15976661
SNP Position Genomic:     27293
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,5)   caucasian(G,35|T,3)   total(G,66|T,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64174):
TTTTTTTTTGTTATTAGTTTATTTCACTTAACTGAGTTTACTTTCAAGATTCATCCATGTTGTAGCATGTATCAGAACTTCATTCCTTTTAAGGCTGTGT
S
GTGTGTGTACCACATTTTCTTTATTCGTTCATCTGTCGATGGACACTTGGGTTGCCATCACCTTTTGGGTATTGTGAATAATGCTGCTATGAACATGGGT
Celera SNP ID:            hCV27161229
SNP Position Genomic:     8617
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64175):
ACCTAGCTCTTTTATTATTATCTGTATTTAGAATTGCTTGTTTATTTTGATGAGAGGATTTTAAAAAACAACATATGGATAACTAATTTAAATATTATGG
R
GTTTTTTTTACCACCTAGACATTTTATCATTCGGAAAAAGACAAGTCACTAATAGCCCTAGAAAAAGGTGAATCTTGGGACTGTGACTGCACGTAGATCC
Celera SNP ID:            hCV25605506
SNP Position Genomic:     27444
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,36)   total(A,3|G,67)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64176):
ATTTTAGGGGGAGAGGAGAAAAAAGCATAACATGTTTCTTCTCTCCTTCTCTCACATGGCCAACTGTTAACAGCCTCCTCACCACCATCTGATCTATCTT
R
TTCTCTTCACAAAAGGCTCTGAAGACATCATGAACCCACAACGTAAGTGGTGAATTGCAAATCAGCTTGGAAATATCTCCATCTGACCTCATCAAAGACA
Celera SNP ID:            hCV15976668
SNP Position Genomic:     27146
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,11)   caucasian(A,15|G,23)   total(A,38|G,34)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,428|A,1033)   total(G,428|A,1033) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:64177):
CACATAGTAACTTCTCTGTAATGAATATAGTATGGAAATGGGGGTGAAAGAGTAACTTTACAGTGGAGAAACCTAATGAACACTATCTCAGCCAGGTAAT
C
AAGATTAACATCAGCAGTAATAAGTTATGTTGACAGTATGTACCTTAGATATGATATATAATAAAAATAGCATTTTATCTCTGTGATCTCCCTCCCCCAA
Celera SNP ID:            hCV16208772
SNP Position Genomic:     12065
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,5)   total(C,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64178):
GATGATCTTTATTCTTGATGCGGAGTCACATCTGTTCCCTTATTCTTCAAGAAAGACTATTGGATTTTCTACACTGTGCAACTTCAGCCTGCCCACCTTA
Y
GAAACTTTCAAAAATGGGAAATTGACCCATGCAGATGATTTTCCCCGAGTGACTACTCCCTCCAGGATCTGCCTGCATGCCTTGTCTTATGCTTATTCAC
Celera SNP ID:            hCV11948046
SNP Position Genomic:     18892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64179):
GGTGGCATTTCTCCTTTATTCCATTAATGTAGTTCTGCTTTACAATTCTTGTCTGGACAATTTCAGCAGTGGTCTTCATTGATGATCTTTATTCTTGATG
Y
GGAGTCACATCTGTTCCCTTATTCTTCAAGAAAGACTATTGGATTTTCTACACTGTGCAACTTCAGCCTGCCCACCTTATGAAACTTTCAAAAATGGGAA
Celera SNP ID:            hCV11948047
SNP Position Genomic:     18812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64180):
TTCTGTAAATTTGAAAGCTTTCCAAAGTAAGAATGCATTATTATGTATTAAAAAAGTACTTAGCAGCTAACACAGTAAAATTACAGTGTCTGACATCCAA
Y
GCTTACAAGAAAGGCAAAGAAACAGGAAATTCAGACACAGTATGAGGAGAAAAATTAATCAAAGCCAACCCAGAACTGATACAGATGTTAAAATGAACAA
Celera SNP ID:            hCV11512330
SNP Position Genomic:     12888
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64181):
GGACTTCAAATACGATGTTGAACAAAAGTGGAAAAAGCAAACATTCTTGACTTGTTATGAATCTTAGGGAAAAAAATCAATTCTTTCACCATTAAGTATG
W
GCTGTAGACTTTTTTTTCTTGGGCACTATTTTAACATGTTGAAGTTTTCTTCTATTCCTAGTTTGCTGGGAGTTTATATCCTAAGTAGATGTTACCTTTG
Celera SNP ID:            hCV11948048
SNP Position Genomic:     18582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64182):
GTGCCTTTCTGTTTTAAGAAGGTCTCTTTTAATGGAGAATTAAATTCATTTAAATGGACTGTGGTTTCTGAAATATGTGGATTTATTCCTACCATGCTTT
M
ATTTTTTCTTTGCTTTTTTTCCTGATACCTCTTTTTCTGTTCCTGTTTCTCCTTCCCTTTATGGCTTCAACTGGATTGAGTAAGGTGGTTTTGTTTGTTT
Celera SNP ID:            hCV8737850
SNP Position Genomic:     19201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64183):
CAGGTGCACAGGCCGGGATCTGAGAGAGCGCGTGGGCAGTCCACAGGGCAGGTGAGGCTCTGAGAGAGAGTGTGGGCAGTCCACAGGGCAGGTGAGGCTC
Y
GGTGTGTGTCACACCCACAGTTTCTGCTGACTGAGTCCCATGAACAGGGCCAGAGCCACCGGCAACTTCTGTACCCCAGATCCACATTCAGGCGCTTTCC
Celera SNP ID:            hCV11512334
SNP Position Genomic:     7461
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64184):
CTAGTATGAAGGCTCATCTATCTTCACAGAAATAGAAGTGGCACAGGATGAAGTCTGGTCCAGAATGACCATACTAGACACTGGGCAGATGTCTGAGCCC
R
GTCAGCAGTGAGGAGCACTCTGGAACTGGGAGTGAGGATCTGGTCCAGGGGTCCTGTTCTCAGAAGGCCTCTCTTTCAACAACTTGTAGCAAGAAGAAAA
Celera SNP ID:            hCV8737851
SNP Position Genomic:     20576
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64185):
GCCATGAGAGACTTGCAACAATGTACTTGGATACGTAGTACATAGGTTTTCTGAGAAGGGCTGCAAAGAATGTGAGTTCTGTAAATAGCTAAATGTGCAG
R
AAGAATCTATAGGAAGATGGTGATGAAAAATGCAATGTAATCCTGGACAGTGCTTATAAATATCAGCTTCCCAGCTATTCCAAGGGCACTGAACATGAGC
Celera SNP ID:            hCV8737852
SNP Position Genomic:     34070
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64186):
CTTTGCACACATCTCAAACACTTCCATTGCTGCCTATGTCTTACTAACATCCTAAATCCCTTCCAGCTGTTTTACGGGACTCTCCTCATCTTCCCAACCG
W
AGGCAACATCTTATCTTCTGCGAGGTCCATAGCATTTTTGCCTTCTCATGGAACATTTATTTTCTTAGGCTTTGTGCTATAGCTTCTTCTCCTTGTCTTG
Celera SNP ID:            hCV2146510
SNP Position Genomic:     33232
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64187):
AAATTCTCTTATCCATCCCACAGGTGGACAATTCTGAGATGCGTTCATTCTTCATGGTTCCTCAGAGGATCCCAGCAGTATTGAGACATAATCACCCATG
R
CAGGTCTAAGTTCAAGAATACATCCTGAATTGACTTCTCTCACTTCCCTGTTTCAATTTCCCCAGTCCCTTCTCATGTTCCCTAGGGTCACTTGTCATCA
Celera SNP ID:            hCV2146511
SNP Position Genomic:     32892
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,23)   caucasian(A,18|G,20)   total(A,33|G,43)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64188):
ATAATTTGTCCCCAAAACTATGCTTCTGGCATTATCTCTTATTGCTTCAGTGCCCCGCATTCTCTTTGGGATACTCCTGAACCCCACCTTACATGCTGTA
W
GCAGGCCTTTTACTCCAGTCATTGCCGTGCAACCAACTTTGAGACAGTGTAACCTGGCAGTGTATTATCTCAGCAACATTGAACATTTCTCTCTTCCAGC
Celera SNP ID:            hCV2146512
SNP Position Genomic:     32553
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,6)      total(A,2|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64189):
ATTTTGTTCATACAACTTCTTCAATAAAACATTATAATATGTGCCCCAAAGATAAAGCTGAAGAATGAGATGAATGTGAAATTAAAGGTTTGCATGTCTT
Y
CTAATCCTAATGAATTCTTAATGTCATTCGTTAATAATTTGACACACAGTGTATACACTTAACCCTTGAACAACACGATTTTGAACTGCACAGGTCCACT
Celera SNP ID:            hCV2146513
SNP Position Genomic:     31442
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64190):
TCACTCGAATGTCACTATCCCAAGATGAAACCTAAAAATCACTTTCCATTCTTTCTTGATCTTACCCCACCATCCACTCAGCTGCCATGCCCAGTTTAGT
Y
AACCCCCCAAATGCTGCTTCATGCAACCTTCCATTCCTATTCCTTTTGCCAACCCATGATGTAGAGATGTGGATTCATGACATTTTGTTCATACAACTTC
Celera SNP ID:            hCV2146514
SNP Position Genomic:     31260
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64191):
CTCATTCTTACTATCCAAAAGCCACCTCCTCCTCCAAACATCCATTTCTGTACCAAGACCCTCACTCGAATGTCACTATCCCAAGATGAAACCTAAAAAT
Y
ACTTTCCATTCTTTCTTGATCTTACCCCACCATCCACTCAGCTGCCATGCCCAGTTTAGTCAACCCCCCAAATGCTGCTTCATGCAACCTTCCATTCCTA
Celera SNP ID:            hCV2146515
SNP Position Genomic:     31199
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64192):
TTTTTTTTTTTGTTATTAGTTTATTTCACTTAACTGAGTTTACTTTCAAGATTCATCCATGTTGTAGCATGTATCAGAACTTCATTCCTTTTAAGGCTGT
R
TGGTGTGTGTACCACATTTTCTTTATTCGTTCATCTGTCGATGGACACTTGGGTTGCCATCACCTTTTGGGTATTGTGAATAATGCTGCTATGAACATGG
Celera SNP ID:            hCV27161230
SNP Position Genomic:     8615
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64193):
TCATCTGCCTTTGTCCCTAGCCTCTGTCCCTTCCTTTGGGGGCAGCAGTCCCTCTCCTGTTACACACTCAGAGCTGAGTTACTTTAGCTTCCTCCTCCTA
Y
CCTCCTCTCTAACAAGCCTCTTTTCCACCCCCAGGAAAAAAATATCATGGACCTGTATGTGGAGAAGAAAGCACAGAAGCCCTTTCTCTTTTTCCACAAT
Celera SNP ID:            hCV2146516
SNP Position Genomic:     30735
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,39|T,1)   total(C,74|T,2)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64194):
AGGGAAGACAGTGATGCTTCAAAGAGTCAGAGCACCTTGTGTCAGAGGATCCTGGGGTGGAGCCAGGCTATGGGAACCCAGTGAGTTCCCGTTTTTAACA
S
TCTAATGCCCTGCTTCATCTGCCTTTGTCCCTAGCCTCTGTCCCTTCCTTTGGGGGCAGCAGTCCCTCTCCTGTTACACACTCAGAGCTGAGTTACTTTA
Celera SNP ID:            hCV2146517
SNP Position Genomic:     30620
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,19)   caucasian(C,13|G,13)   total(C,16|G,32)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64195):
CCACTTTTATCTCATGGGCCACATCTTAAGCATATGACCACATTTTGCTGCAAGTGTGGTAGGAAATTTTACTTCTTTTTGGGAAGCAACATGTCCTGGT
S
ACAACTGGGGTTCTGTTATTAAGGACGAAAAACAAAATAGGTTTGAGGAGGGTGATGGAGGGTCTCTGCCACATGGCTAATGGGAGGAGCCTGTCACTAT
Celera SNP ID:            hCV2146518
SNP Position Genomic:     29629
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64196):
ACTCTCCTTTGTCTCTGAAATCTCCAAATGATGGCGTTCCTCAGGGCTCAGCCAGTCATCATTTACAAGCCCTGTGAATGGGTAATGAGCTGATCTTTTG
S
ATTGATGAATCACCCCTACACTCATTCACTCTGCCGTTTACACTTCCAACACAGATCTCCTCTCTCAATAGTTTACCCGTGTCCTCTTGAGGTCCTCTCA
Celera SNP ID:            hCV2146519
SNP Position Genomic:     29106
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,4)      total(G,4|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64197):
CCCATGCAGATGATTTTCCCCGAGTGACTACTCCCTCCAGGATCTGCCTGCATGCCTTGTCTTATGCTTATTCACCGATGTCAGCAGTTTCCCACCCCTT
Y
GCTATCTGACCCAGGTCTTATAGCTGTTTTTGTAAAAGTCCTGATCCAATACAAGCCAACTCAGTGACACAAAAATAAACTCGTGCCTTTCTGTTTTAAG
Celera SNP ID:            hCV15836239
SNP Position Genomic:     19018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64198):
CCTTGTCTGTATCTCTAGAGTACACCACACTTCAGTAAAATCACATCAGGGTCTCCCTGAACTCCCTCACCACACACTGCCCTGGCCAAGGAGCCAAGGT
S
AGCCTGTGGGTCTCTAGGTGTGCCAGTCATCCAGATGGGGGCAAAGCTGCCAGTCCCACTGACTGTTTGAGTGATTCTCTTGGGAGGCTCCATCCTGGCG
Celera SNP ID:            hCV27938978
SNP Position Genomic:     24005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64199):
AAGAAGACATTAAGAACACGGCAAAGGCCAAATTTACATTGACTTAAATCTAAGACTGGTTCATGACCAAAAATGCATGTAGCTAGCATGGCTTTCCCAA
Y
GCAGAGAGAAAAAGGCATGGACTCAGCTCCAACAGACTGGCGTAATGAGTGCAGAATATGCTGTGAGGTTTTAAATTTGCTGACAAGAAAGGTTAACGTT
Celera SNP ID:            hCV11948050
SNP Position Genomic:     6162
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64200):
GAAATTTTTCTCTTTTCTTGGGTTCTGGAGAGTTTGTAAAACAAGGACACTATGTATTTTTAAAGAGTTGGTAAATCTTACCTGTAAAGCTAGAGAAGGT
Y
GGAGTCTTTTTAGGAGTAGATTTGGACTACATAACCTGTAAATGTGTTTTGTCCAGTCCTTAGAGTGTTTTTTAAAAAATTGTAAAGTCAAGGTTTTCAT
Celera SNP ID:            hCV25605480
SNP Position Genomic:     36395
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,30)   total(C,63|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:64201):
TAGAGAAGGTCGGAGTCTTTTTAGGAGTAGATTTGGACTACATAACCTGTAAATGTGTTTTGTCCAGTCCTTAGAGTGTTTTTTAAAAAATTGTAAAGTC
R
AGGTTTTCATGAAAAATGGGAAGATCAGACAACATTGCTCCTGAATTCCCACAGAGCAGCAAGCTACTAGAGCTCAATCTGTTATTTCTTTTCCTGATGT
Celera SNP ID:            hCV25605487
SNP Position Genomic:     36485
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,37|G,1)   total(A,71|G,1)
SNP Type:                 UTR 3


Gene Number:                 399
Celera Gene:                 hCG27473 - 84000314227529
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VYAU(23561130..23587999)
Chromosome:                  Chr11
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12559):
CACTTTATAGGCCTTTTGAGATTATACCTTGCAGGGGCACCCTTACAAACATTTCTGCCTCCCCCATCTGACTGGAAGCTCCTTCAAGGCAAGGACTTTG
CTTCTGAAGCAACAGGAGTTGACATTTTCTGAGAACTTCCTTGTGCCCAGCTCAGAGAGCCTAAGTAACCTTTATGGGAACCAGAATGTATCCCAGATGA
GCCACATTCAAAGAGTCAAAAACAACAACAACAACAACAAAACCCAGAATCGAACACATCATTTCCCTCATTTCCTCATTCAGGAAGCTTCGGGTGGACC
CTGAACTTTTTCTTTTCTTTTTTTGAGACAGGGTCTCACTCTATCACTTAGGCTGGAGTGCAGTGGCACGATCTTGCCTTACTTCACCCTTGACCTCCTG
GGCTCGCCACCACCCTTGGCTGGTGTTGAACTCCTGGGCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGTTGGGACTACAGGCGTGAGCCACCGCG
CCCGGCCGCATCTGAGCTTGTAGCAGGTGCCCAGGTGCTTCTGAGGCATTCTGAGGCTTCTGAGCAGGCCAGGATTTGGGAACCACTGATGTCTGCCATG
GTTACAACCTCTAACCAACAGTGAACTCTTAAGAGGCACACACTCTTGGCATGAGAGATGCTAGCCACAGACTAATAAACCCTGGTCCTTTCCTGGTGGA
GCTCAGCCTGGTGAGAGAGACAGATATTTAAACAAATGGGCCCTTTGTATCGTAACACGTGCAGCAATGGAGGTTAGGTCACAGCTGAGAACTAGAACAG
AGCAGGGAGCTCACTGGGTCTAGTACATAGTTGGGGTTCCAGAATATCTGTGATTCTGAATAAAACTTTCCAGCTTATTATCCCAGAAATTTAAGGCTTG
TCCACACTCTAGCTCCAGTTCTCAGGCATAAGAGTAGTTTTTACTGAGCCCATAAGTTTAAACACCTGTTGTCTGCTGAGTCTTATATCAGGTCCTGCCT
AGATTGGGCATCGAAGCAAAGAAATGGTTCTGCGCTCCAGGAGAGGCATTACGTGTTAGATGTTAAGAGAGCAAGCTGTGCCCATGTGAACCTGCATGAG
AGGGCTCAAAGTGGGTTGGTGTGGGACAAAGTCTTCAGGAAACAGGCCAGGTGGAGGAGAAGGGCAGAAGGAAGGCTATTATGGCTCAGAGGAGTAAGGT
AGAGATGACTCACACTGCACCCTGCATTTGCTCATCCAGCAAATGCCTGTCTGCTGGGCACTGTGCTAGGTGCTGGGGATACTGTGGTGAACAAAACCTG
AAGCTGCCCTCAAGAACCATATACAGCATTGGAGGGGAGGCTGACCCCAATCAAGAAATCATGACAAGTGCTACCAAGGAGAAGGACAAGATGTTCTAAT
TTTTAATAAGGGAGATTGACCCAGGCAGGGAGCTCAGGTGAGGCTTCCTTGATGAAGTGACTTTCAGCTGAGGTCTGCAGGGGGAGGGAAGAGCATACAC
AAAGGCCCAGGGGCAGAGGGCACACGGTGAGCCAAGGGTGACAGGCCGGTGTGGGCTGAGGCAGGCAGAGCCCTAGGTGTGCAGGGCTGGAGCGCGGAGA
TGAGATGCTGTGCTTCGGTGGAGGGGACTGGGACCCATACCCCACCAGCACTAACTGATTCCAGCTGTAATGCAAGAGGCCCCAGCGGATTGTAGGAATT
AAGGGTGGGGGATGGATTCCGGCCTGGAGGACCAGGGCTATTCTCACTGAGGACGGGTGCTTTAGATAGGCTTTGAAGGAAAAGACGCTTGCTTGGTTGT
GTGAGAGCATGGTGGGCGTGGGGGCCTCAGGAGATAAGGACGTGTCAGGCAGAAGGCACAGCACACACACGAAGTGGAGTCTAGCCAAGGGGTAGGGGAA
GGAGCAGGGAGTTGAGGCAGAAAGAAAGAGTGCGAGGCATTCTGGGACCTCTGTCGGTTCTCCCTTGGGGCCTCTTGCCCTTTCTCCACAGAGGTGTCAT
TTTTTGTGTGTGCCCCATCTCATCTCCCCCATGGAAATGACTTGGCTGAGACTCTGGACAGCAGCTTCTAGATCCTGCTCTTACCTGCCCTGAGAGTGGA
CAGGGTCACCAGGGAGGTCTGGGGAGAGAGAAGCAAAGGGGAAGGATGGGGAGGAGGCTCACGTAGCCTTTGTGCGATTAAAGGCGCTTAGCAACCATAG
CTACAAGTCCCTGGGGTTAATTTATTTTGAGACAGGGTCTCTTTTGCTCAGGCTGGAGTGCAGTGGGATGATCTCCACTCGCTGCAGCCTTGAACTCCCA
GGCCCAAGCGAGCCTCCCACTTCAGCCTCCAGAGTAGCTGGCATTACAGGTGTGTGTGACCACTCCTGGGTAATGTTTGTGTTTTTTGTAGAGACGGGCC
TCGCTGTTGCTCAGGCTGGTCTTGAACTCCTGGGCTCAAGGGATCCTGCTGCCTGGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACCACGCAGG
CCCCTGGCATTTATTATGTGCCAAGTGTTGTGCTTTATTTCATCAGGATAGCTCTCAGTGAAATGACGCCCTTGCCCCATTTCACAGATGAGAAAACTGA
GGCCCAGAAAGTTTGAGTTGCTTGCCCTAAGTCTCAGCACTCGGGGACTGCACCGGGAACTCTTGAGCCCCGCGGTTGTCGGGCTGTGACCTCATTCCCT
GTCCTCCGCAGCGCGGGCGCCATGGACAAGATCTTGGAGGCGGTGGTGACGTCGTCATACCCGGTCAGCGTGAAGCAGGGGCTGGTTCGGCGCGTGCTGG
AGGCGGCGCGGCAGCCGCTGGAGCGTGAGCAGTGCCTGGCGCTGCTGGCGCTGGGCGCGCGCCTCTACGTGGGCGGCGCGGAGGAGCTGCCGCGCCGCGT
GGGCTGCCAGCTGCTGCACGTGGCCGGCCGCCACCACCCCGACGTCTTCGCCGAGTTCTTCAGCGCGCGTCGCGTGCTGCGCCTGCTGCAGGGTGGCGCC
GGCCCCCCGGGCCCCCGCGCGCTCGCCTGCGTGCAGCTGGGTCTGCAGCTGCTGCCCGAGGGGCCTGCGGCCGACGAGGTGTTCGCGCTGCTGCGGCGCG
AGGTGCTGCGCACCGTGTGCGAGCGCCCGGGCCCCGCGGCCTGCGCGCAGGTGGCACGGCTGCTGGCTCGCCACCCGCGCTGTGTGCCCGACGGACCCCA
CCGCCTGCTCTTCTGCCAGCAGCTGGTGCGTTGCCTCGGCCGCTTCCGCTGCCCAGCCGAAGGCGAGGAGGGCGCCGTGGAGTTCCTAGAGCAGGCCCAG
CAGGTGAGCGGGCTCCTGGCGCAGCTGTGGCGCGCACAGCCCGCCGCCATCCTGCCCTGCCTCAAAGAGCTGTTCGCAGTCATCTCCTGCGCAGGTGCGT
GTGCGGCCGGGGCAGGAGCGCGGGCATGCGGAGGTCCTGGGTGGGCGCTTGGGTAGGTGGCTGTACGTGTGGATTTGTGCATGCGGGCGCCCGTGTGGCA
CGAGTGTGCCAGGCGGCGAATGCTCAGGTGGAGGGCTGCAGCCTGCCTTCATGTAGGTGACACAACTGTCTAGAGCACCTGCTGTGGGTCCTCTCCTGCA
GTGGGTGTTGGAAACGCAGGGAGGAGCACACTGGTGTGAAAAGGATACGGGTCAGCCTGGCCGGAGGGAGGAACGGGAAGTTGAGCAAGCCACAGGATTT
GGGGCGGGGGAGGTGGGGGGGGGGGTCATTATGGTCTTCGGGTCAGGTGAGTTTGATAGAAGCTATCACTTTAGAGCCAGGAGTTGACAGATTGGTGGCA
CCTGGCAGCAGGGGCAAGGTTCCCTGGGTAGGCAGAGGTGAGGGTCTGGAGAGGTGATGGAGTCTGCTATGCAGACTCAGAAACGTAAAATCTTGATCCT
CCATTGACAACAGTGGAACTTAGACTACAGTGCAAGTGAGTGAAAGCAGATGTGTGCCTTCCCTGGTGATGAGGCTCTCCAGGGGAAAGGAAGGGAATGC
ACCTGGCAGGGTGAAGAACTGAGGACAACAGACTTCGAGAAGGAAATGGTCTTTCTCATCTAGGCCTCTGTGTGGCTCCACTTGGAGTATCTCCTTCCTC
CAGTCCACGCAGCCCTCCCACCTTCTCTAGCGCCAGCGTTTCCCCTCCTAAAGGCCTTGCCCTGAAACCCACTCTTGATCAGTGCTTCGTCTGTGGCCAG
CACAGGAGTAGCCCCAAGGCTGTGCTAGTGAAGGTTTGTTGAGTGAGTTTAGGTGGAACCAGAGACTTTGCTTGCTATAGGAGAGGAGGTGGCCTCTGCT
GTGCTCTTCCTAGAGGCCCAGCCCGGTTCGTTGGCTCCTGCAGGGCATGGTGTGCTGGGGGAAGGGAGGGGCCTGCCTCCCTGCTAAGCTCAGCCCTGTC
CCCTGTTCCAGAGGAGGAGCCACCATCTAGCGCCCTGGCCAGCGTGGTCCAGCACCTCCCATTGGAGCTCATGGATGGTGTTGTCCGGAACCTCAGCAAT
GATGACAGTGTGACAGACTCGCAGATGCTGACTGCCATTAGCAGGTGGGACGCTGAGGCTGAGCCATGATCAGGGCTGGGGCCCCTCCCTCTCTTCCTCT
CAGAAGCCCCTTCTCCTGGGTGGGCCGCTGGGCTAGATTTGGAGTCAGAGGGCCCAGGCCCTCATGTGTGTTCCATCATCTATCCTTTCTTGAGCCCTGC
TCTGTGCCTTGCCTGGGGCTGGATGTGGGGGACACAGAGAGCCTGCCCTAGTGATGCTGTCAGGCCAGGTACCAGCAGTGTGACCCTGGACATGCCAGTG
AGCTCTCAGCCTCAGTTTCCCCCTCTGTAAAAGCAGAGGTGGGTGGTGTCAGGCGTCCTTGGGGTTGGGTAAGAGGGTGAGAGTGCTTCACGAGGTGCTT
TCTGAGTGGGGCAAACATGGGAAGCAGAGTTTGGGTGCTTTTCAGCTCACAGAGTCCTTGCATATCCCCCACCTCATCTGAACGTCCTCCTCCCTGTGAT
CTAGACGCACCTGCCTGTCCAGTTGTCCCAGAATATGCCGCTCCCCTCCTCCCTGCAGGCCTTTGCCTATGCAGACCCCGTCCACCTGGCATGCCTCCCT
CTGCCATTCTTTCCATCCCGTGTGCAGATCCACCGTCTTCGTAGGGCCTTCCTGGATTCCTTGCCTTTAGTGGGTAAGAGTGTGGGCTCTCGAGGTAAGT
TGCTAGAGGTCAAATCCCGCCTCTACCACTTCTTGCCTGTGCGACCTTGGACAAGTTACTCAACCTCTCTGTTTGAGTTTCCTCAACTGTAAAATGGAGT
ATAACCAAACCCATCATCTAGGGTTGTTGTGAGGATTAAATTGGGTAAAACAAGATAATACACGAAACATGTCTAGAACTGTGCTGTGGGAGACGCCGTT
ATCATTGTTATGACTTTGCTGTCATGGTTTTGTCTTTTTCTAGCACAGTCTGCTGAGTCTAGGCTGTTTTCCTCAGCACTGACTGCATGGCAGCTGTGTG
CTCAGCCCGCACAGGCAGGCTGTGTTGTGGGGTCCAGAGGGGCTGATACATGTAAAGTTGATGGAATATCCTGCTCAATGGTGAATACGACCTAAGTGTT
AGCTGCTGTTATCTCCTTTAATCCATACAAGAACCCTCTGAGGGAGGTATTATCCCCATTTTACAGAGGAAGAAACTGAGGCCCAGAGCGGGGAAGTGGC
TTGCTCTGGGTCACACAGCAAGGACTTGCTGGAGCCAAAGCTTCTGGCCCAGGGGCAGTGCCCTTCCAGGCAGAAGCAGCTGAAAGCCTTGTTCTGGCAT
TGCAGCCCAGTGTGGAGGGGCGAGACTTGGGGTGCTGAGAGGGCCTGGCTCCCTTCTTGGTGGGCTGGGAGCCTCAGTGTCTGGCAGGTGGCTGTGCTGG
GCTTGTGCATTTCCCAGCCATGTCTGGTTCAGCCCACAGACCCCGGGGCTGCCCTTTGCAGGTGTGAGTCAATGTGGGAACCCAGGACATTACGGATAGC
CCCTGGGCTGCCCTCACCCCAGCATTTTGGGTGTCCCTTGTCCCTGTGTCACTGTCACTCCCCTCACCAGGATGATTGACTGGGTGTCCTGGCCCCTGGG
GAAGAATATTGACAAGTGGATCATTGCACTGCTGAAGGGCCTGGCTGCTGTTAAGAAGTTCAGCATCTTGATCGAGGTTTCGCTCACCAAAATTGAGAAG
GTTGGTGCCCCTGTCCTAGCCCAGAGTTACAGCCTTTTGTACTAGGCTCTTGCCAGGGGCGGTGCAGGTCTGGGAGGTCAGAGCATTGGGCCTACCCACC
AAGCTCGCTGTGTGACCTGGGCGAATTCACTGCCCCTCTCTGGGCCTCAGATTCTCCCCATTAGTTTCCCTGACTACTCATCCAAGTATGTGTGTCTGAC
TTTTGGTGTGTCCATCCATTCCTCAGATATCTRTGTTGCTGTCCATCTCACCATCTGTCTGTCCATCTGGGTCTGTGAGCACCTCAGTGTTGATCCCTCT
GCATGGGTTTGAACTCTAGGGTGTCTCTGAGTCCCCTCTCAGGCTTGTGATTCTACTTSGCCTCAGCAGCTCAAGCCTGGGGACTCCTGACCAGGGACTC
TCTTGTAGGTTTTCTCTAAGCTGCTGTACCCCATCGTCCGGGGAGCTGCCTTGTCTGTGCTCAAGTACATGCTCCTGACCTTCCAGCACTCCCACGAAGC
CTTCCACCTGGTAAGGTCCCCTGCCTGCTGCCCCTGGTGAGGCCCCTGCCTGCTGCCCCTGGTAAGGGCCCTGCCTACTGCCCCTGGTAAGGGCCCTGCC
TRCTGMCCCTGGGCTCTTGGGGCAGGTCACTTGGCTGAGGCCAAGCAGCTGGATCGTGGGCTCTGGCCTCCCTTTGACTGTGAGGAGAGGAGTAGTCATC
CTATTTTGCAGATGAAGAAACTGAGGCAGGRTGTCTTAGATCATATTGTTGGGAAAAGGAGTCACCTGCCTGCAGAGCTCAGAGCCCCATCTGGGTCAGG
GGACAGTGGTCAGGTGGGCAAGCCTCCCTACCTCAGAGAGTGTTGCGTGCTGTCAGCAGGGACCACAGCCCCGTGTCTCAGGTGGGCGGGTTGGTGCTGA
GCCTGACGCAGCTCTGCTCCCACAGCTCCTCCCTCACATCCCCCSCATGGTGGCCTCTCTGGTCAAGGAGGACTCGAACTCGGGGACCAGCTGCCTGGAG
CAGCTGGCGGAGCTGGTCCACTGCATGGTGTTCCGGTTCCCGGGCTTCCCGGATCTGTATGAGCCTGTCATGGAGGCCATCAAGGTGAGCGACAGTCCCC
TACTTGGGCCTTGCCCCACTCTGACAAAGGTACCAGTGTGGGCCTTCCAGCGGGCCATACCACAGCTTGGTGGCAGTCCCCGTCATTTGGTGCCTGGCTG
TCTCCCATCACCTCCCCAGGTCCATCATGTGCCTCAAGCACACTGAGCCACTCACGTTCCCCAAGTAGGCTGGGCTGCCTCATGGCTGCTCTGGGCTTTT
GCACACACTGTGCTTTCTAACCATAAACGCTTCTCTGTCAGTGTAGTATGGAAATTAAAACACGTTCTCTTTCTCTGCTCTGCCTGGACAGCTCCTGCTT
ACCTTGTAAGTCTCTGTTCTAGTGTTACTTCCCTCAGGATGCCTTTCCTGATCACTCTCAGTACTCCCATGCCCTCCACCAGGCTGGGCTAGGGCCTCGC
TGGGCTCCCACAGTCTTGGTACATCCCTCTGTCACATGTTATCACTGTCTGTCTGCCTCCCTTGCCAGACTGTGAGCACTCCAGACCAGGGATAATTTAC
AGTCGTTCACATGACTTTACTGACGTCCTGCTCTGCACCAAGCCCAGGCTGGGAACTGGGGGCATGGGCATGAAGCAAACGGAGTCTCCTCCATTGAGAG
GATCGCAGCCTGGTGAGGGTGACAGACTTGGATACGAGAAACTCTGGTCGGAGCAGCTTTTGAAAATGTCTACAAGGTTTGGCTTGAGAGCAGTGAGAAA
CCAGAGGAAGGAAAGATCTTCTCCAGTTAGAGAGGACAGATGAGGCCTCTAAGAAGAAAGAGTTTCTTAGAGGCCTCATCAAGCTGGGCTTGACGGGTTG
CTAGGATCTGACAGTGACTAACATCTGTGGCTACTGCTACACTTGAGATTATTTTCCTGTATGTTTTGTCTTCTGATGCTCACAAGAAACCTACAAAGAT
GATACGGTTCATTTCAATCTCATAGATGAGGAAAAGGAGACTTGGAGAAGTTTGGTGACTTGTGCAAAGTCACAGAGGTAGTGAGACATGTAGCTGGAGT
CTGGATGGCAGAGCCTTCCCCATTGCCTGATAGAGAAGGCAGGTTGGGTGGGGTGAAGGGGTCTAGGTAGGTGGCCCTTGCAGAACCTTTGATCTGACTT
TTACATCTGCAGCACAGCAGACGAGATAACCTGAAAAGTGTCCTGCTACAAAACAGCTAGAAATGCTTGTTAAAATATAACAAACATCACTTTAAGTACA
TAGCTAAGCTTGCAAGAAAGTAAGGGGGAGTCCCCAGGGGCCAAAAAGGAAGAGATAACTGAATTCCAGAGTGGTAGGTGAGAAACAATGTTCTTTTTCC
TCTGGAGTGAGGCAAGTGCGTGGCTGAGATGGCCAATCTCAGTCACAAAGGGACTTGAGTTGGTAGGGACAGGAGGTCAGACTTTGGGCCTATCCCCAGC
AGGGAGTTAGCACTAAGAAGCCGACTAAAAGCCAGGACCCAAGAAAGGTTGTACCATTAGCAAAAGAATGGTCTAGGAAAAAATATGCACATGGTTTTAA
ATAGACATCAGGGAAACTTTTCTGGCTTCGTCTGGGCTCTGGATTGGGGAAAAAAATGTAATCAGTGGCCTGCTCTCATGTGGATTTAGGGGTTCAAATT
CATATCATTTTGGGGGTTGTGGCCCTTCCCCACATTAAAAATAGTCATAAACTTGTAGTACCCAAGGGTAACCTGGTAGAAAGACATAAATCAGGCCATA
AAGGTAAAGTTCTACTGAAAATGAGTTTATAGTCCCAAAATTATAAAACACACAAAGGAACAATCCTGCATGAATGACAGTTGGTAGATACAACAAACAA
AACTTCCGTTATTTACTTGGATCTTCTCAGTTTTTCAAACTTAACACGAGAAAGAACTTTTTGATAATCAAAGCTGCCTTACAATGGAAGGGGCTGCCAT
GATAGGTCATGAGCCCCCGACAGTGGAGGTGGATGAGGAGGACTTCCCTGTGTCAGGTGTGTTGCCCAAGGGTTTCTACATCGAAAGGGAGGTAGGAGGA
AAGCTTGGAGATTCTGTGGCTGGGTCTGTCTGTTTCCTGCTAGACAGGAAACAGTGAGCTTCTGTGGGCAGGAACCCTGTCCTTTTGATCTTTGTGCCTA
GTAGATGTCTGTGAGCAAATGAGTGGGTTATTGTTTGAGCAGGACTGTAGGAGAATGCTGTAATGAAGGTGCAGGCAGAGAGGAGGGACCCTGCCCCGGG
CACTGAGGAAAACCCATGATGAGTGAGATGCAGGCTTTGCACAGTAGGGGCCCATGGATTGTCTGATCAGGGGATGAGGGGAGTCTGCACATACCTGTAC
CAGTAGGGGCAGGGAGTTAGGCTTTATAAGATGATACAGATACAGTCCTTCTCAAGGACCCCGCCTTCTCAACCCCGCGCCTTGAGAAGATCCTGGAAAG
CTTCATAGAGAAGGGATACAGGAGTTTGATCTTACTGTACGGGGACTGAAAAAGGACACTCTGGATGCATCGGAGGGGAGGCATGGAAGTGGGAACATGT
GAGGTTAGTTTGGTGGTAATGTGTGAGGGGGAAGGGAGATCAGAAAAATCAGCAGAGCAGTGCCTTGAAAACTAGGTTGCACCACTCGGCTAGATCTGGG
CTTCTCGAACGTTTCCACCCAAGTACTTGACGTCAGAGAGGGGAACTCACCCAAAGTAGCCTGACATGAGCTCTGAGTTTGTCTACAACCTCACTTTATC
TCAAAGACTCAAGTATGTATGTCGTAATTATAAACATGTTTACATGTTTTAATATTACATTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGG
CTGGAGTGCAGTGGCGTGATCTYGGCTCATTGCAAGCTCTGCCTCCCAGGTTCACGCCATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCG
CCTGCCACCACGCCTGGCTAATTTTTCGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTTCTGATCTTGTGATCCAGCC
ATCTCGACTTCCCAAAGTATTGGGATTACAGGTGTGAGCCACTGTACCCAGCCCATATTTTTCTTTTCTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCT
CTGTCGTCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTG
GGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCGGGATGGTCTCGATCTCCTGACCT
CGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTATTTTTCTTTGAATGTTAGAAAAGATGGCTTCAC
ATTTGTTCTGTGGCTTCGAACACTCCTGGTACAAGCCAGTTTGAGAGGCAAGGCAGCAAATTATAGGATTTTACTGCTTATAAAATTATTTCGCATGGGT
TCTATGAGTACATCCTTTTGTACATAYGCCTTTGTAAATAAGTTCTGGAAAGTTCTCTGACTTAGGCAGATGTATCAGGTTGTGGCGGTTTCTTTGGGAC
CTGTGATACTTGCCAAGGGAGCCATCACACATCAGTTTCTAGTAACATTATTAGGTTCTTAAGTTATTTTGAAGTTTTTATTTTCCTGAGAACAAAGTTA
CCTTCTTTGGGAATAATGGCATTTGATTTTGTTCCTAGCATGGATATTTTTGCATCTTCTCTGCGTGTGCACGGATATGTGGGGTTGTGTCTGCCTTTTT
GCCTCTATTCATTCATGTTGTGGGGTGGAGGGACAGGCGAGGAGGGCATTAGATAGGGTATCATGAACAGAAAAAAGAAGGGACGAAGAAGATACTGAGC
CTGTATCTTATCTGTCTTCCCGCTGGCATCTCCTTGGTTATGTGTGTGTGTTTTTAAATCATCTGTGAGAAGTGACTGACTGCTCTGATAAATTATCCGA
TAAATGATCCTGGGAGGTGAATGAGCAAAAGTGTTAAACCCCACTGGGTGAGCAAGACCTTCTGTGGGAGCCACAGGATGTGCACTGGGGAGACGAGGGC
TTTGGATGCTGAGCTGTTTTGAAGCTCTGTGGAGCCCTGGACAAATCTAAGGCATTGTGACCAGGATCTGGAAACAAGAACAGGGCTAGARGAACTGTTA
GGAATGTTGCTGAACTCTAAGTAGCGGGATGTGGTGCTTAGATGTTGTTCTTTGGAAGATACCTCTAGCATCATTAGAACTAGTGCTTGGTGGTATTCTT
AGGTGCTGCTGTTTGATGTGACACAGATAATGAGTGGGAAGCATGCCAAGGACCAAGACCCATACCTCAGACCCCAGGGATTCACCCACTGTCCTGACTG
TAGGGTCARGTTTTGGGGAGGTGACTCTCTCTTCTTGAAAGCTGATTCTGCAAATCTAAAAGTAAAAGGTGGACATGGGCACATCATTGTGTGCCCACAC
CATGAAAACGTAGGATGCCAAACTGACACAAGGTAGGAGTATCATCACTTGACAGATGAGGAAACTGAATCAGAGAGCCTCGCCACCGCCAGACAGCTAG
TATGGACCAGAGTTGGGGCTGGCACTGACATCCTGACATTACTGGATTTGGCCTGTGGGCCAGGGTTGTCATTGCCTGAGCTCTTTTATAGCACATGCAT
ATTCTTCAGTTACTGACAGCGACCCTGGACAATTATTTTCTCTGTCTGAATCTTCATTTTTTTTTTAATCTATAAAATGGGAATTATGCCACCTTAAGGC
AGTCCTGACCTGAAAGACCATGGAGGCAGCCCATATGTCAACTGAAGGGGTTTGGAAGCAGGGGGCTGTTCACACACACCCCAGAACATCTGTGGGGGGG
TGTGCCTGGGAGGCCTTGGGGTTGGCTGTATCTGAGAAGGCCTCCCAGAAGAGGTGGTAGTTTTTTGAGCTGACCCTGGTGCCCACCATCCTGCCTGCCT
GCTTATTCCCTCCTCAGGACCTCCATGTTCCCAATGAGGACCGCATCAAGCAGCTGCTGGGGCAGGATGCCTGGACTTCGCAGAAGAGCGAGCTGGCGGG
TTTCTATCCCCGGCTCATGGCCAAGTCAGACACGGGCAAGATTGGTCTCATCAACCTGGGCAACACATGCTATGTCAACAGCATCCTTCAGGCCTTATTC
ATGGCGTCTGAGTAGGTGCTGCTTTGGAATTCCCTGTCTGCCCTTGCTTCTCTCCTCTGGGCTCCCTGATGACAGGTGGAAAGGTGTCCGGGGTGGGGGT
TGGAGAGGGTGGGCCTTGCTTTGCATTGCCAGCATGATTCCCTGAGGTCTGTGGGGACAGAGAGCCTCAGGCCATTGCCAAGGCAGGTCAGGACTGGATG
GGAACTCAAGAAGGGGCTTAAGGGGCTGGGCAGCMCTGGGAAGTGGGGTCTGCTCTGGGTTGGCTGACATCACTGACTTTTCTTCTAGAGTCTGTGGGGG
TGGATTTTGTCTTCCAGAGTAGAACTGCCACCCATCCTGGTATTAGACATCTCTCTCTTTTAAAATGAAACAAACACAATCTTTATAGTCTATGGCCACC
TATCTACCTTATGGCTTACTTAAAAGATCAAAGTTTCAGCTTTGATTCAGTGAAAATAAGCTTTGATTCTGGCTTATCGTATGTCCTCAAGTCAGTTTCT
TTTCTCTGAGCGTCAGGTTCAGTGGGAGGAGATTGGAGCTGATCTCCAAGTCTTTCTAAGGTGCTGCTGGTGCACGTTCTTCTCAAAACGCCTAGTGAAG
GACTAGTTTTGTTTTTCTTTTCTAATTCCAGTCTGCTGCAGAATATTACTTTTGTAAAATATAACAAAACGACTTACTAGAAAAACGGTCACGTGCTTGT
ATGGTGGTTGTGATGTTAAAATGCTGTGTATGTTTCTAAGTGCTCGCTCAGCTTCTGAACTTACCTTGTTCTGAGACCCAGAGCTGCTTGTGAGAACAGG
AGATAAGCTGGGGCCTGGGAATTGGCTTGCTCCAGAGAATGTTCGTGTAGGGAGGGGAGCTATCTCCTATAGGATCAGACCCTTCCCACTAGGAGCCAGT
CTACCCATCCCTAAAGGGTCCTCTTCGTTTAGCGTATTCCTCACATTGACCTCTGCCTCCCTCATTGGAAGGCAGGGGAACAGCTTGAGATTGCTCTAGG
GGCAGGGGCCAGGGCCCTGACAGGGGCTGTAGGAGTCGATTGGAGGGCCCAGGTCAGAGCAGAGTCTGCTGCTCTGGAGGTGGATGAATGCCTTTCCCCA
GGGAAGCAGCTAATAAGGGTGTGCGAGGGGCTGCTGCGGCTGGGATGATATTGGCATGGATCCTGTGGCATGTCCTAACCCTAGAATCCTGGGACCACAG
GACCTTAGGACGTTTGAATCTTTAAGTCCTGAACGTAGGTCTCAGAGCTGGAAGGGGCTACAAGGGTCACCTTTGTACCCTTCATTGTCTAAAACATGTC
TATTGTTGTGTTCCTGACCTCAGATACCCCAGGCTGAGTTGTTCACCTGCTCCTCCTCCCCAGCCCCTGGCTTCTGGCTCCGTCTTGGGGCAGAAATGTC
TGTTCTGCCTTTGGCCTAGAGGCTCTGGGCTGCCTGTGACATGGGTGACTAGAGACTCCTTGGGGGCCCATGGCTTACCCTGGGTGCCCCTGCTTTGTTT
TGAAGCTTCAGACATTGTGTGCTCCGCTTGACTGAGAACAACTCACAGCCCCTGATGACCAAGCTGCAGTGGCTCTTTGGCTTCCTAGAACACAGCCAGG
TGAGTGTAGGGGCAGTCAGAGGGGGGTGGAGAGGCAGCTCTGGTCAGGCCCCGACATGGACACCTTTCCCTTYCCCAGGACCTGCCTGCATCTGGCTGTC
ATCTCCCATGTCAGTTGCTGAGCCCCTGGCCGGGCTGGCATATGGAACTGATTTAGTGCCCTGCTGGGGCAGGAGAAGGCGGGCCCCCTTGAGCCCTGTT
CCGTGTTGTGCTGCCCAATCTTTCCCTTTGGCAATTCAGTCCATCCATCGCATTATGGTGTTGCCATAGTCCATTTTATGCTGCTAAAACCAAATACTCG
AGGCTTGGTGATTTATGAAGAAATTTATTTCTCAGTTTTGGAAGCTGGGAGGCCCAAGATCGAGGGGCTGTGTCTGGTGACGGCCTTCTTGCTGCATTAT
AATGTGGGTAGAAGGCATCACAGGGTGTGAGAGCATGCATGAGAGAAGGGAAAGCGGGATGAACTCACCCTTTTATCAGGAACCTGCTCCTGTCTCCATT
TGTGGCTGCTGGGGAAAGCAAACGGCCTGTGATAAGGAAATAATACATTCCTGAGGGCAGAGTGCTCAGGACCTCATCCTCTCTTGAAGGTCCCATCTCT
TAACACTGCTGCACTGGGGATTATGTTTCCAACACATGCTTTTTGGAGGACACAGTCACACCACAGCATGTTGCTTCATTCTGCTGTTATTTTTGAGTAC
CCACATGGCCAGGCAGCCTGAGAGCTGTTGAGGGTACAGAGGTGAACAGAACAAACACCATCTCTGCCCTCATGGAGCCTAAAGCCCTTGGCCAGGGATT
ATGCAAAGCTCTGTGTGGGGGCACAGAAATGAGTAATCCCTCCCTGGCTCATGGAGGGAAGGGAAAGGTCAGTGAGGGAGRGTTGGGAAGATGACATGGA
AGAGGCAGCGCTGTATCTGGGACTCATCTTGACGGGAGAGAATGGCAGTGAGTGGAGGCAGGGAGAGAATGTTTGAGGTGTGCCAGGAAGAGAAGATTCC
TAGAGCCTCGTTCATTTCTCTGAGCCCAATGCCCTGCTCAGCCCTGCTCAGAGGCGTGGACATGTGGGCTGGGTTGGGTCAGGGACAATAGAAAAGCRGG
GAGGACCTCATGGAGGAGGCCAGGAAGTTTGAGGCCGAGGGAATGAGGTAGACCCTCAGGCCTAACCTGTGCAGAGCTGGCTGGTGAGTGGCCTCCTGCT
CCTGACCATGCCTTTCGCCTGCCTTGTCCTAGCGGCCTGCCATTTCCCCAGAGAACTTCCTCTCCGCATCCTGGACGCCCTGGTTCAGCCCTGGCACCCA
GCAGGACTGCTCGGAGTATCTGAAGTACCTGCTGGATCGGTAAGGGGGCCAGGGCTACGCGAAGACTCCAGGTCTAGAGGGTCCTTGGGGGCAAGCCCAG
TACCTCTGAGCTGTGTTGCAGCGTCCAGGGAATAAGTGTGCTGCCTCCAACATGTGGAGGGCGTGGAGAAGGGGTGTGCTGGAAGGGCAGGGACTGAGTG
TGAGGGAGGTTTGGTAGATGCTGAGTGGAAGTGATCTCTGGGAGGTCATTGTGTATGTCTGCACACCGGGCCGTGCATCTTTGTCACTGCCATGGGAGCA
CATTACATAGCTCCAGCAAGTCTTTATGTAGGGCGTGTGGGTGAGTGTAGCAAGCGTGCTGTTGTGAGCATGTACGTGGATGTGTGGGTGTTTGGTGTGT
GCATGTGTGTTTGTGTGCGTCTCAATGTGTGGCTGTTGGGGAAGGTAAATGGGCATGGATAAGCTGAGTGCCCCGGAAGGGGACCCRCATGTACATGTAG
TGACTCTGTGCTCTCTGCCCCAGGCTGCAYGAAGAGGAGAAAACGGGCACAAGGATCTGCCAGAAACTCAAGCAGTCCAGCTCGCCCTCTCYKCCCGAGG
AGCCCCCGGCCCCAAGTTCAACCTCTGTGGAAAAAATGTTTGGAGGCAAGATAGTGACTCGGATCTGCTGTCTCTGCTGCCTCAACGTCTCCTCCCGGGA
GGAGGCCTTCACGGACCTCTCTCTCGCCTTCCCTCCTCCTGAGCGCTGTCGCCGCCGCCGCCTGGGCTCTGTGATGCGCCCCACAGAAGACATCACAGCC
CGGGAGTTGCCCCCACCAACCAGTGCACAGGGGCCAGGCAGGGTGGGTCCTSGGAGGCAAAGGAAACACTGCATCACAGAGGACACCCCCCCMACCAGCC
TGTACATCGAAGGCCTGGACTCCAAGGAAGCTGGTGGGCAGAGCAGTCAGGAGGAAAGGRTAGAGRGGGAGGAAGAAGGGAAGGAGGAGAGAACGGAGAA
GGAAGAAGTGGGGGAGGAGGAGGAAAGCACCAGAGGGGAAGGRGAGAGGGAGAAAGAGGAGGAGGTGGAAGAGGAAGAAGAGAAGGTGGAGAAGGAGACA
GAAAAGGAGGCTGAGCAGGAAAAGGAAGAAGACAGCCTGGGAGCGGGGACCCACCCGGATGCTGCCATCCCCTCCGGGGAGCGGACATGTGGCTCTGAGG
GCTCCCGCTCCGTCCTGGACCTGGTTAACTACTTCCTGTCCCCCGAGAAGCTGACAGCAGAAAACCGCTACTACTGYGAGTCGTGTGCCTCCCTGCAGGA
TGCCGAGAAGGTGGTGGAGCTGAGCCAAGGGCCGTGCTACCTCATCCTCACACTGSTGCGCTTCTCTTTCGACSTGCRCMCCATGCGGCGCCGCAAGATC
CTGGATGACGTCTCCATCCCCCTGSTGCTCCGCCTGCCACTGGCTGGTGGCCGTGGCCAGGCMTATGACCTCTGCAGTGTKGTGGTGCACTCTGGAGTGT
CTTCGGAGAGTGGTCACTACTACTGCTATGCCCGTGAGGGCGCTGCCCGCCCTGCCSCTTCTCTGGGAACTGCCGATAGGCCAGAGCCCGAGAACCAGTG
GTACCTGTTCARTGACACTCGGGTGTCCTTCTCTTCCTTCGAATCTGTCAGCAACGTCACCTCCTTCTTCCCTAAGGACACAGCCTATGTGCTGTTTTAC
CGGCAGCGGCCCAGGGAGGGGCCCGAGKCTGAGTTGGGCTCTTCTAGAGTCCGGACAGAGCCCACCCTGCACAAGGACTTGATGGAAGCCATTTCCAAAG
ACAACATCCTTTACCTACAGGTGAGMTGAGCCGTGGGGCCTTTGATCTGATCTCTTGGTGKAGGGAGTCCAGTCCCACTACTGGCTTAGATAAGTCATTT
CCCCTCTAAGTCTTTTTTGTAAATCCCATTCATCTGTTGCTCAGTGCTGGGTATATACTGGTGGCCCAGACAGACCTAACCCCTTACTTCAAAGTAACAG
ACACTGAGTAATGAATGACGCAGTTTATTTTTTAAGTTCCAGGGTACATGTGTAGAATGTGCAGATTTGTTACTTAAACGTGTGCCATGGTGGTTTGCTG
CACAGATCAACCCATCACCTAAGTATTAAACCCTGTATCTGTTAGCTATTCTTCCTGAAGCTCGCCCTCCCCCGCCACCCCCCAACAGGCCCTAGTGGGT
GTTGGTCCCCTCCCACCCCCACCAGGTGTCCATGTATTCTCATTGTTCAGCTCCCACTTATGAGTAAGAGCATGCGGTATTTGGTTTTCTGTTCCTGCGT
TAATTTGCTGAGGATAACGGCTTCCAGCTCCGTCCATGTCCCTGCAGAGGACATGATCTCGTTCCTTTTTATGGATGCATAGTATTCTGTGGTGTATATG
TGCCACATTTTCTTTATCCAGTCTATCATTGATGGGCATTTGGGTTGATTCCATGTCTTTGCTATTGTGAAATGTGCTGCAGTGAACATACATGTGCATG
TATCTTTATAATAGAATGACTTATATTCCTTTGGGTGTATAGCCAGTAATGGGATTGCTGGGTCAAATGGTATTTCTGCCTCTAGGTCTTTGAGGAATTG
CCACACTGTCTTCCATGATGGTTGAATTAATTTACACTCCCACCAACAGTGTAAAGGTATTCCTATTTCTCTGCAACCTCACCAGCATATGTTGTTTCCT
GACTTTTTAATAATCACCATTCTGGCTTGCGTGAGATGGTATCTCATTGTGGTTTTGATTTCTCTAATGGTCAGTGATGTTGAATTTTTCTTTCGTACGT
TTGTTGGCCACATGAATGAATGTCTTTTGAGAAGTGTCTGTTCATGTCCTTTGCCCACTTTTTAATGGGGTTGTTTTTTTCTTGGACATTTAAGTTCCTT
GTAGACTCTGGATATCGGACTTAGGTCAGATGGGTAGTTTGCAAAAATTTTTTTTCATTCTGTAGGTTGTGTCTACTCTGATGATAGTTYCTTGTACTCC
GCATAAGCTCTTTAGTTTAAGTGGATCCCATTTGTCATTGTTTGCTTTYGTTGCAATTGCTTTTGATGTTTCCATCATTAAATCTTTGCCTATGCCTATG
TCCTGAATGGTATTTCCTAGATTTTCTTCTAGGGGTTTAAYACCTTTGGGTTTTACATTTAAGTCTTTAATCCATCGAGTGAATTTTTTGTATAAGGTAT
AAGGAGGGGGTCGAATGTCAACATTCTGCCTATGGCTAGCCAGTTCTTCYAGCAACATTTATTAAACAGGGAATCTTTTACCCATTGCTTGTTTTTGTCA
GGTTTGTTGAAGATGGTTGTAGGTGTGGAGTCTTATTTCTGAGTGAGTTCTCTATTCTGTTCCATTGGTCTATGTGTCTGTTTTTATACCAGTACTATAC
TACAAGGCTACAGTAAGCAAAACAGCATAGTTTGAAGTCAGGTAGGCATTARGCTTCCACTTTTGTTCTTTTTGCTTAGGATGGTCTTGGCTATATGGAC
TTTTTGGCTCCGTATGAATTTTAAAATAGTTTTTTCTAATTCTGTGAATGTGAATGGTAGTTTAACGGGAATAGCATTGAATCTGTTAATTACATTGGGC
AGTATGGCCATTTTCATGCTATTGAGTCTTCCTATCTATCTGTGAGCATGGAATGTTTTTCCATTTGTGTCCTCTCCTTCACTTCCCTTGTTAGYTGTAT
TCCTAGGTATTTTATTCTGTTTGTAGCAGTTGTGAATGGGAGTTTGTTCATGATTTGGCTCCCTGCTTCTTGTTGGTGTATAGGAATGCTAGCAATTTTT
GCACATTGGTTTTTGTATGTATCATCTTGAGAGTTGCTGAAGTTGCTTAACAGCTTAAGAAGCTCCTGGGATGAGATAATGACATGATTCTGTATCATCT
AGAAAACCCCATTAATGCAGTTAATAAGTGTGCTGAAGGAGGAGTACAGGGACCAGTTGAGTCTGAGGGGGAGGAGGATGCTTCGGGTGTGGGGGGAGGG
GGTCCCACTACCCACGTGAGCCTCCTGTGTGACTCCCTAGAGTCAAGGGTGGCACTGGCATACTGAGCAGCTGGAACAGCATGGGCTTTGACCAGTGGGA
TGGGTGCCAGTGCCTGGAGTTTGTGTTTTGTGCGGGGGAATACAGCAACTGGTGTGGGGACACCAGACCGGGTGTCACCAACATCAACTCCTTCTTCCCC
AAGGACACAGCCTATGTGCTGTTTTACCAGCAGCAGCCCAGGGAGGGGCCTGAGGCTGAGTCAGGCTCTCAGGGACAGCTTCTGCCATGCTGTCCAGATG
GAGGCAGGGTGGCGGGTAAGGATCGCCATGAGGCTGACGTCCTGGTAGCAGGAGGATGGGCTTTCTCATAGGCAGAGCCCATTCCTCGTGATCATGAGGC
CTGCGGACAGGTTCCCGYGTGGTGTGATATGACCCTCGAAGTCCTCAGACCTCTCGGTACCACATTAGGCCCTTGTCAGCTAGTCAGTCACACCCTAGTA
TCAGCTGGCTCAGGGACTAGAGTTTTTATTGAGAGGAGGGGGTCTTTTGAAGTCTTTTGAAGGTGTCCACCCCRGATATCCTGCCACTGAGCTGCAATGT
CTCTGTGTGTCCAGGCCCTGGGGACCTAGAGGAAACMTTGAAAGGTGTTGTGCTGGGTAGACTCACTCTGGCTTCAGGGTGTGAATTCTAAGTCTAAGTC
TCCTCTCATCTGTGTTCCCAGGAGCAGGAGAAGGAGGCCCGGAGCAGGGCGGCCTACATCTCTGCACTCCCCACATCTCCGCACTGGGGGAGGGGCTTTG
ATGAAGACAAGGATGAGGATGAAGGCTCTCCAGGGGGCTGCAATCCTGCAGGTGGCAATGGTGGTGACTTCCACAGACTGGTCTTCTAATGTGAACCTGY
TGCCAACCTGACCCCTTCCCTCCAGGAGCCAGGTAGGGCCTGAGGGAAGCTGTGGAGGCAGGCCCTACCAAGAGGAAGGATGGTACAGCTCATGGCACCT
TAGTCCTCAGCCTGATGAAGGGTACACAGAGATTCTCTCAGATATGGAAGTAAGACCTAAGTCCCTTTCATTGGGGATCAGTCCCATTAAAACTTTACAC
CCAAGTGTCCTGGTTAACTTGAAGCAGCCGAGATGGGCACACACGGGTCTTTGCCTCCCCCTCCTTCCCTAGCAGGCTCCCCATGCGGGAAGATCTGATG
ATGTTCAGGAAACAGGCTAGACCTCAGCTCCAATGTTTTGACATCAAGTACTATTTTCCTTCSGACTGCTGTACGGTATAAAGCACAGCAGGATCCAAGC
CTKGCACAAAGGGGTGGGGGGGGCAGTGTCTCCTCTGGCTGTCCTGTTTGTTTGTTTCTCATATGGGGGTGGGGGGTACCTGCACTGTCTGTACCTTTCT
GAGAAGAACAGAGACCGAGACCTGCCCCCTTACCAAGCGCCACTGCATGGTTTTGGGGGGGGGGGCGGGGGGCTAGCTTCTCACAGCAGGAGGCCTTTGC
CCCCACAGCCCCTCCACGCCTGCCTCAGGGCCTGAGAAGCCACCACTTGCATCCCCCTTGTGGTTAGAGTCCTGATTTTACTGCAAAGGTGTTCATGTTC
CTTGTGAAGTGTGGGCTCTTAGGAAGCCTGTGGGCTCCTCTGAGCAGTTGGCCTTTGTAGCTGCAACAGCAGCCACCTGCAGGTTGGGTGAAGTGCCCTG
ACACTGCTGTAGCCCCCTTCTAACTTCTAACCGAAGACAAGACAGACACCCATGTTCTTAAATAAATAAAAGTAAGCCTAAGCAAGAGATTGTTCTTCCT
TGGACTCAGGGGCTGTGATGGCCACTGGGTTTTGCTCACGGGGTCTGGGGAGGCCAGGACTCAGCCTGCCCCCCAGTGACGTGTGAGATGCCACAGGGAG
CCAAGAGCCCTCTACTGAATCTACTGAAGTGGGGTGTAAGTAAACGTGTGGACTGACTGACTTACTTACCTTACTGAGGGCTGGGTGATGCTGCCCGTGG
AGAGGATGCACCTGGGAGGCAGCTCTCAAGCCTTTACCTACCTCCTTCCCCAGGGGCTGCCTGCTGTGATGGTGGTGTGGAGTTTGGGCCCAATGTCACA
GACCCTCAAGATGTCACATCTAAGTGACCTGTGAAAGCAGCAGACAGACACGCCCAGAACCCATCTCTAGACGCCTAAGAAAGCTGGATGGGTAAATGCT
AGTATGATTTCCACTTTACAACAGACGCTGAGGTAGAGAGCATTTGTTCTTATTCACAGCCAAGAAAAATACCCAATTATTTCCAAATAAAGCAAAAATT
GGAACAGACTGGAGTGAGAACGGGTTCCACCACCAAGCCCCTCAAGACAAGATGGACACGGCAGCTGGTTCTGGGGTGCATTTCTAGTGGACTTTATTGT
CCTGCTCCAACACCACAGTAGAAAGGGACCTGCAAGCTCCAAGCCTGTACCATGTGTCACCACAGCAAAAACATGACCCACTTGAACACACTCCTGTCCC
ACCCACCGGATAAATATGTTACAATTTAAAAAAAAGAATACAACAGAATAAATTAATAACTTAAGTGATTAGGCACCAACAGTGATTTGAAAATTAAATG
TCAATTTTAAATGGTAACAAGACAAGAACTCAAGACTGGGCTTCCACTAGCCCATTTTCTCTTCCTGACAAACAGTGACAATTCTGCGTGAAATAATTCT
AGATTTCAAGACACAAGTAGCCAACAAATACACAACACATGCCACCATAAATCACATGACAGCCTGGATCTCTTGGGGACCCCCTCGGCAGGTACCCCAT
TGTGGTCCCAGGTCCTAAACAGCAGGGCTAGTCCCAGAAAGACGACCCCCCACGGAAGGGCTTTAGCGCTCCTGAGACCAGTCTGGCTTCCCCTGCATTT
TATGAAGGCCCAGATGGGGAAGGAAGAACTCTGGAAATGGGATAGGGGTGCTGGGCCGAGATGTCCCCATGGGAGAAGGGGCCAGAGGGAGGATGAGCTG
AGCCCATGCTCCAGTAACTTCAGAATGGTTGTGCTTTTGTCACAGGAATGGGGCATACTTTGTTAACTTCTACATTGGAAACCACTAAAGTCAAGCTAGG
AGGGGACTGGGGATAGGTACTGCCCACCCCAATCCCCCAGAAAGAAGTTACAGAGGAGGGAGTCTCCCCTTCAAGCAGCTGAGCACCAGCTGTGGATGGG
ACCTCAGCGCAGCTAATCCAACCTCCCATTCCACAGACAGGCAGATCAAGGACTTAAGGAGACACCATCTCCCTATTTCTCATCGTTCTCACTTGACTTA
ACCTTGCAGAAGTGGAGCTGGAAGTGGGTGAAGAAGGCTCCTTGGAGAGCCCCAGGCAGGGGGCCTGTGTGAAGCAGTGCTGAGTGGGAAGGTATCCCCT
TTCCGTAGGCTCAGTCCTCTCCAGGCCCCCAGGAGAGGTGGACTTTGACCCATGGATAGGCCAAAGGACCAGTTTTTTCAACTGAGTTGACTCCTTTGTT
GGAGGAGGTAGTGGGTGGAGGGTGGGGATATGCTAGATACGGCTGGTAGTTTGGGGCCTGTGAGCCAGAGCTTTGCTTTCAAAAGGTCAATTTCACCTCT
CATCCTTCCATCTCTACCCCTACACTTGCACCCGAGGGATTTTGGTAGTTACCAGAATAGGGGGCTGGAAGGAAGCCTCCTGGTAGTTACCAGAATAGGG
GGCTGGAAGGAAGCCTCCTGGGAGATTCGATTTGAACACCTCAGTCGCTCTCCGAAGATTCCAGCCAGGTCCACTCACATCATGGCACACTCAGAACATG
CTCACATGTTTATGGGAGGCTGCAATAGTCTGGGCCCACTTGTGGCTGCTGCGGGTACAGGGAAGGCACCAGTTAAAAGCTCTGTCGTATGGGGCCCCTT
GTAGGGGGCCTTTAAGGCACACATTCAGGGCTGGGCAGAGTGAACCAGCACCCTGCCAACTCTGCCCAGTGTAGCTACCACCACTGCTTCCATTCACTTA
TTGGAACACCAAGGCATGGCCCCTGCACTTCTGAGTGGCTGGACCCATATGCTCAAAGGCCTTTTGTTCCCAAGACACAAGGCTTTCCAAGCCTCTCCTT
CCTTCTTCCTCCACTGGACCCAAGCCCTGCCCTCCTCCTCTGTAAAAATCTGACTCATCCCCTTCTAAGGCCTACCTCAGGCACTCCCTTTTCCTAGAAT
CCACCTTCCCTGATCCCCCACTCCTGCCTCTGACACCAACCTCCCTAAGTACTTCCTCTGCCCTCCATCAGCATTTGAAGTCTCTGTCTGATGGCCATCA
CCACTGTCTCATGTCCTTGTCCTTTTTCTGATTGTGGCTATCTTAAGTTCAGGGAGAAGGTCTGATTGATTCTTGTGTCCTTAGTGCTTAACCCCAGAAA
CTGGAGACAGCAGCCATTAATAAATACTCCTTGAGTTGATCTAAACTAATGCTAGGAGGAGAGGTGCAGCTCTTGAAGAAATAACTTCTTCCAGGATGGG
ACTTAGAGAATGGCTAGGCCATTGGTCTGGTGAACTATGCATGCTCATGGGAGCTGAAAGGGGAATGGGGGCAGAGGACAGTGGTAGCTGTCCCCATCAA
ACATGGCAGGAAGTCATTGTTTGGGAGGAAGAAGTTCTGTTCGCCCCAGGGTAGAATGAAACGTCTGGTCTGTCCTGTTGCTTCTGAAACTCTTGAAAAT
TTAGTCAAGAACAGTCAACATAAAAACATTCAGATCCCCCACCCTTAGTTTAAGAGAAGGAACCTTGGGTGATGCCCTACACCCCGTCCCTGCTAATCTG
ATGGCCTTTCAAACCTGGGGAGGAGAGTCCAAGATGGCTCCTGGAATGCTAGGGAGCAACAGAGGGCGGATGAGCTGAGGAAACACTGGGCCGGCACCAG
GCCAGACTCGTTCCTACCCTGCGATCTGACATACGCCACAGCCCATGGGCACAAGCTGTCAGCCATGCCTGATGTGGTCCTCTAGGCATCATTCTGCCCT
GCTTTCTCCTTGTCCTGCCTGACCCACTGTCCCATCCTAGGAACGGTCCTCATGTCACACCACCATGCACACCACTCTTGCACGTGTCCCTCCTTCACTT
TCTGCTCCACCCTGCACCCCCAAGGATTGCGTTGGGCACCCCCCAACTCCCAGGCCCTTTGGATGTATTTCCCCACTTGCTACATGGCCTTCACCACTGC
TTCACATCTGTCTGCTACCTCTGTGCCCGACTTCCACTGCACTGCTCACTGCAAAGAAACTCACTTCCCGACCCCACTGCAGAGTCCCCTGCACTGCCCT
GTGCCTCTGCCCAGCCTGTGCCTGTCCCAGGGTTCCCCTCAGTCCCTGCATCACCCCCATCCACACCACACTCCCTCCCATATTCCCCACCCCTTTACCA
TGTGTTCCTGCCCCATGTGCTTGGTCGCCCAGCTTGGTCCAAGCCTTCCCCTGTATGCTGCTTTCAAGGTGGGGCTGGCGGGGGCCTCTGAGGGGACTGG
GGAAGAGGACTAGCCCTTGGGCCTAGAGTGGCCTGTAGCTCCAGAGTTCTGGGGACCCAGACCCCACAGTGTCCTTGTCATCTCCACCACCCGAGCTCCA
AGCCCTGCTCCTTGCTGCTCTAGGTTGGCCATCAGTTTTCCCTTCCTTTTGTCCTTCATCTTCTGCCTCTGCACCCCACAGCAGCTGTCCTGCCATGGCC
TCAGCCTCAAAGTGGGTTCCCTGCAGATGTCAGCTTTCCCTCTTCATCTGGGCATCTAAGTCCTTTACCCCTCAAGACCACTGCTGAGCCTCCGTCTCCA
CCATCTCCTCTTTTAGTGGCCTTGCTTCTCTCCTGCCAAGAAAAACAGGAATGAAAAAGTCCATTATCCACTTTGGTTTGCTGGTCCTTGACTCCCTGGG
TTGGTGAGACTTGTCTTCTGGGACTGAAGGAGAGGTAGCCCAGTGGCCGGAGGGAAGATAGCTGAGGGCTGTGACTGAACGTGAGGTGTGGAATCTGGCT
CAGAGCCCCAGCCCTTCCCTCCAAACATCTGGTAGAGAGTCAGGTCTAAAGGACAGGAAGAGGCTGAAGGATGCTTTTTGGAAGTAGCTCCTAACTAAGG
TGGGTGGAGGCATGGCCATTACTGATAAAAATCACAGCTGGGCCCCGAGTGGGCAGAGGAGGTGCCTTGATCAGGCCCTCACCTCCCAGGGGAAGGGTTC
AGGGTCCCTGATGTCAAGTGCTTTGAAGGCTGAGACTGGCAGAGTAGAGAGGAGGTGGATGGGAGGAAGAACGGGAGAGGGGAGAGGGGAGATGGGAAGG
GCCAGCTCTGGAGATGCTGCCTCCTGGGCTCTGCGGTGGCCCTCTCATCACAGCTTGGCACCCTTGGAAGGCTCTGAGGACTGCCGCACGTCTGTCCACT
CCTGCATGGTGTTCTGCAGGGCCTGGGTCTTCTCCTTGTCCACCTGAACGTAGTCCACCTTCTCATCAGAGGTGACGGATGAAGTAGATGGCTGAGGGGA
CAGAGTGGGAAAGAGGGAGTAGCTGTGAGTTACCAGTTAGGTGGGGAGGAAGAAGGTGGGCACGGGATCTTCCTGAGCTGTCTGAAGGGGAGAAGAGCAT
GGCCTCTGCCTGCCACTGACCAGCCTCAGGAGCCTGGCTTCTCTTTCTGAATGTGGGCTTTAAAGCTCAGACTCCAAACTCATCATCCCTCCTGCAGGAT
GTAGCAGCACCTGCCAGCCCTTCTTACTTCCCGGCTTCTGGGAGGACCCAGGCCCTTCCTTGGCCCTGGTGGATGGGTCCAGGCCTTCATCTCTGCCTCC
ACCCATCTCTGTCAGGTCGCTCATCCAGGGGAAGGAATTTGCTAGGTGCAAACAAACATCAGCCACAGGACTTTACGTGCTGTGCTCACTGCCACCCTGT
GAAGGGGAACCATGCTGAGGCACAGCTCTGCACCCTTCTGTCTAGACTGCTTAGCTATAAGGATGCCTCCTGGGGAGGCTTTCCCAGGCCTGGAAGTCCC
TTCTGAAGGCTGATGTATCGACGGCAGGGCTCTGGACCCACTCGAGAGCCCAGGACCAGGAGGCAGTATCCTCATTCCTGGATCTGTTGCTGATTCACTT
TGTAACCTTAGGACAATCAGATCTCTGTGCACTCATTTGCCCATCTCTACAACACGGGGGATGGGCTGACTGATGAGGTTCTCTGACTGAGGGTACTGTG
CTCTGAGAGCAGGAATAGGAGTCTTTAGACCTAGATGAAAGCTCTATGACTAAAGATGCATCATAAAAGCTGGGTACTGGAGCAGGAGGGAGGCTGAGTG
CTGCTGTTCAGTGTTGAAGGCACCCTGGCCTCCATGATCTCTGCCTCCGGGACCCTGAGAGCTCTTACTGCCCCCCCAACTCTACTCCAGGCACCTTGCG
GTGGGGGCTTGGGGAGCTCGGCTGGAAGTCCAGGGCCAGATAATCAACGCTGCCGGTGCTCTTCTTAGG


SNP Information

Context             (SEQ ID NO:64202):
CCCACCCTGCACAAGGACTTGATGGAAGCCATTTCCAAAGACAACATCCTTTACCTACAGGTGAGCTGAGCCGTGGGGCCTTTGATCTGATCTCTTGGTG
K
AGGGAGTCCAGTCCCACTACTGGCTTAGATAAGTCATTTCCCCTCTAAGTCTTTTTTGTAAATCCCATTCATCTGTTGCTCAGTGCTGGGTATATACTGG
Celera SNP ID:            hCV8754881
SNP Position Genomic:     17261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64203):
GCAGTCAGGAGGAAAGGATAGAGAGGGAGGAAGAAGGGAAGGAGGAGAGAACGGAGAAGGAAGAAGTGGGGGAGGAGGAGGAAAGCACCAGAGGGGAAGG
R
GAGAGGGAGAAAGAGGAGGAGGTGGAAGAGGAAGAAGAGAAGGTGGAGAAGGAGACAGAAAAGGAGGCTGAGCAGGAAAAGGAAGAAGACAGCCTGGGAG
Celera SNP ID:            hCV25759460
SNP Position Genomic:     16443
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,6)   caucasian(A,32|G,2)   total(A,56|G,8)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64204):
TACATGTAGTGACTCTGTGCTCTCTGCCCCAGGCTGCACGAAGAGGAGAAAACGGGCACAAGGATCTGCCAGAAACTCAAGCAGTCCAGCTCGCCCTCTC
Y
GCCCGAGGAGCCCCCGGCCCCAAGTTCAACCTCTGTGGAAAAAATGTTTGGAGGCAAGATAGTGACTCGGATCTGCTGTCTCTGCTGCCTCAACGTCTCC
Celera SNP ID:            hCV25755108
SNP Position Genomic:     15992
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,36|T,2)   total(C,72|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64205):
AGGCTGAGTTGGGCTCTTCTAGAGTCCGGACAGAGCCCACCCTGCACAAGGACTTGATGGAAGCCATTTCCAAAGACAACATCCTTTACCTACAGGTGAG
M
TGAGCCGTGGGGCCTTTGATCTGATCTCTTGGTGGAGGGAGTCCAGTCCCACTACTGGCTTAGATAAGTCATTTCCCCTCTAAGTCTTTTTTGTAAATCC
Celera SNP ID:            hCV2716684
SNP Position Genomic:     17226
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64206):
CGTAATTATAAACATGTTTACATGTTTTAATATTACATTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCT
Y
GGCTCATTGCAAGCTCTGCCTCCCAGGTTCACGCCATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCTGGCTAATT
Celera SNP ID:            hCV26530700
SNP Position Genomic:     10123
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64207):
TGGCTGTTGGGGAAGGTAAATGGGCATGGATAAGCTGAGTGCCCCGGAAGGGGACCCGCATGTACATGTAGTGACTCTGTGCTCTCTGCCCCAGGCTGCA
Y
GAAGAGGAGAAAACGGGCACAAGGATCTGCCAGAAACTCAAGCAGTCCAGCTCGCCCTCTCCGCCCGAGGAGCCCCCGGCCCCAAGTTCAACCTCTGTGG
Celera SNP ID:            hCV25750022
SNP Position Genomic:     15930
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,35|T,3)   total(C,69|T,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64208):
TTGGCTGAGGCCAAGCAGCTGGATCGTGGGCTCTGGCCTCCCTTTGACTGTGAGGAGAGGAGTAGTCATCCTATTTTGCAGATGAAGAAACTGAGGCAGG
R
TGTCTTAGATCATATTGTTGGGAAAAGGAGTCACCTGCCTGCAGAGCTCAGAGCCCCATCTGGGTCAGGGGACAGTGGTCAGGTGGGCAAGCCTCCCTAC
Celera SNP ID:            hCV25755342
SNP Position Genomic:     6931
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,2|G,34)   total(A,2|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:64209):
CCGCCGCCGCCTGGGCTCTGTGATGCGCCCCACAGAAGACATCACAGCCCGGGAGTTGCCCCCACCAACCAGTGCACAGGGGCCAGGCAGGGTGGGTCCT
S
GGAGGCAAAGGAAACACTGCATCACAGAGGACACCCCCCCCACCAGCCTGTACATCGAAGGCCTGGACTCCAAGGAAGCTGGTGGGCAGAGCAGTCAGGA
Celera SNP ID:            hCV25754185
SNP Position Genomic:     16252
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,1)   caucasian(C,20)   total(C,45|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64210):
CTCTTTGGCTTCCTAGAACACAGCCAGGTGAGTGTAGGGGCAGTCAGAGGGGGGTGGAGAGGCAGCTCTGGTCAGGCCCCGACATGGACACCTTTCCCTT
Y
CCCAGGACCTGCCTGCATCTGGCTGTCATCTCCCATGTCAGTTGCTGAGCCCCTGGCCGGGCTGGCATATGGAACTGATTTAGTGCCCTGCTGGGGCAGG
Celera SNP ID:            hCV25752835
SNP Position Genomic:     14173
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,2)   caucasian(C,40)   total(C,64|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:64211):
TTGGGCAGTATGGCCATTTTCATGCTATTGAGTCTTCCTATCTATCTGTGAGCATGGAATGTTTTTCCATTTGTGTCCTCTCCTTCACTTCCCTTGTTAG
Y
TGTATTCCTAGGTATTTTATTCTGTTTGTAGCAGTTGTGAATGGGAGTTTGTTCATGATTTGGCTCCCTGCTTCTTGTTGGTGTATAGGAATGCTAGCAA
Celera SNP ID:            hCV12044040
SNP Position Genomic:     19095
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64212):
AAAGCCCTTGGCCAGGGATTATGCAAAGCTCTGTGTGGGGGCACAGAAATGAGTAATCCCTCCCTGGCTCATGGAGGGAAGGGAAAGGTCAGTGAGGGAG
R
GTTGGGAAGATGACATGGAAGAGGCAGCGCTGTATCTGGGACTCATCTTGACGGGAGAGAATGGCAGTGAGTGGAGGCAGGGAGAGAATGTTTGAGGTGT
Celera SNP ID:            hCV26530722
SNP Position Genomic:     14981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64213):
AGACGAGGGCTTTGGATGCTGAGCTGTTTTGAAGCTCTGTGGAGCCCTGGACAAATCTAAGGCATTGTGACCAGGATCTGGAAACAAGAACAGGGCTAGA
R
GAACTGTTAGGAATGTTGCTGAACTCTAAGTAGCGGGATGTGGTGCTTAGATGTTGTTCTTTGGAAGATACCTCTAGCATCATTAGAACTAGTGCTTGGT
Celera SNP ID:            hCV26530707
SNP Position Genomic:     11491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64214):
TTTGCTTTTGTTGCAATTGCTTTTGATGTTTCCATCATTAAATCTTTGCCTATGCCTATGTCCTGAATGGTATTTCCTAGATTTTCTTCTAGGGGTTTAA
Y
ACCTTTGGGTTTTACATTTAAGTCTTTAATCCATCGAGTGAATTTTTTGTATAAGGTATAAGGAGGGGGTCGAATGTCAACATTCTGCCTATGGCTAGCC
Celera SNP ID:            hCV26530740
SNP Position Genomic:     18541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64215):
TCACAGCCCGGGAGTTGCCCCCACCAACCAGTGCACAGGGGCCAGGCAGGGTGGGTCCTCGGAGGCAAAGGAAACACTGCATCACAGAGGACACCCCCCC
M
ACCAGCCTGTACATCGAAGGCCTGGACTCCAAGGAAGCTGGTGGGCAGAGCAGTCAGGAGGAAAGGATAGAGAGGGAGGAAGAAGGGAAGGAGGAGAGAA
Celera SNP ID:            hCV16024453
SNP Position Genomic:     16293
SNP Source:               Applera
Population(Allele,Count): african american(C,24)   caucasian(A,6|C,30)   total(A,6|C,54)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,27)   caucasian(A,4|C,26)   total(A,5|C,53)   
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64216):
CCAGGCCTATGACCTCTGCAGTGTGGTGGTGCACTCTGGAGTGTCTTCGGAGAGTGGTCACTACTACTGCTATGCCCGTGAGGGCGCTGCCCGCCCTGCC
S
CTTCTCTGGGAACTGCCGATAGGCCAGAGCCCGAGAACCAGTGGTACCTGTTCAATGACACTCGGGTGTCCTTCTCTTCCTTCGAATCTGTCAGCAACGT
Celera SNP ID:            hCV16024454
SNP Position Genomic:     16957
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,1)   caucasian(C,39|G,1)   total(C,70|G,2)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64217):
GGTCACTACTACTGCTATGCCCGTGAGGGCGCTGCCCGCCCTGCCCCTTCTCTGGGAACTGCCGATAGGCCAGAGCCCGAGAACCAGTGGTACCTGTTCA
R
TGACACTCGGGTGTCCTTCTCTTCCTTCGAATCTGTCAGCAACGTCACCTCCTTCTTCCCTAAGGACACAGCCTATGTGCTGTTTTACCGGCAGCGGCCC
Celera SNP ID:            hCV25752130
SNP Position Genomic:     17012
SNP Source:               Applera
Population(Allele,Count): african american(A,30)   caucasian(A,37|G,1)   total(A,67|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64218):
TGTCAGCTAGTCAGTCACACCCTAGTATCAGCTGGCTCAGGGACTAGAGTTTTTATTGAGAGGAGGGGGTCTTTTGAAGTCTTTTGAAGGTGTCCACCCC
R
GATATCCTGCCACTGAGCTGCAATGTCTCTGTGTGTCCAGGCCCTGGGGACCTAGAGGAAACATTGAAAGGTGTTGTGCTGGGTAGACTCACTCTGGCTT
Celera SNP ID:            hCV26530760
SNP Position Genomic:     19974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64219):
GATGAAGACAAGGATGAGGATGAAGGCTCTCCAGGGGGCTGCAATCCTGCAGGTGGCAATGGTGGTGACTTCCACAGACTGGTCTTCTAATGTGAACCTG
Y
TGCCAACCTGACCCCTTCCCTCCAGGAGCCAGGTAGGGCCTGAGGGAAGCTGTGGAGGCAGGCCCTACCAAGAGGAAGGATGGTACAGCTCATGGCACCT
Celera SNP ID:            hCV26530761
SNP Position Genomic:     20300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:64220):
GCGTGCTGTCAGCAGGGACCACAGCCCCGTGTCTCAGGTGGGCGGGTTGGTGCTGAGCCTGACGCAGCTCTGCTCCCACAGCTCCTCCCTCACATCCCCC
S
CATGGTGGCCTCTCTGGTCAAGGAGGACTCGAACTCGGGGACCAGCTGCCTGGAGCAGCTGGCGGAGCTGGTCCACTGCATGGTGTTCCGGTTCCCGGGC
Celera SNP ID:            hCV25755297
SNP Position Genomic:     7145
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,4)   caucasian(C,32|G,2)   total(C,66|G,6)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64221):
TTTTCTAATTCTGTGAATGTGAATGGTAGTTTAACGGGAATAGCATTGAATCTGTTAATTACATTGGGCAGTATGGCCATTTTCATGCTATTGAGTCTTC
C
TATCTATCTGTGAGCATGGAATGTTTTTCCATTTGTGTCCTCTCCTTCACTTCCCTTGTTAGCTGTATTCCTAGGTATTTTATTCTGTTTGTAGCAGTTG
Celera SNP ID:            hCV26530745
SNP Position Genomic:     19032
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64222):
CCTTCCCTAGCAGGCTCCCCATGCGGGAAGATCTGATGATGTTCAGGAAACAGGCTAGACCTCAGCTCCAATGTTTTGACATCAAGTACTATTTTCCTTC
S
GACTGCTGTACGGTATAAAGCACAGCAGGATCCAAGCCTTGCACAAAGGGGTGGGGGGGGCAGTGTCTCCTCTGGCTGTCCTGTTTGTTTGTTTCTCATA
Celera SNP ID:            hCV26530762
SNP Position Genomic:     20663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:64223):
TTTCTAATTCTGTGAATGTGAATGGTAGTTTAACGGGAATAGCATTGAATCTGTTAATTACATTGGGCAGTATGGCCATTTTCATGCTATTGAGTCTTCC
T
ATCTATCTGTGAGCATGGAATGTTTTTCCATTTGTGTCCTCTCCTTCACTTCCCTTGTTAGCTGTATTCCTAGGTATTTTATTCTGTTTGTAGCAGTTGT
Celera SNP ID:            hCV26530746
SNP Position Genomic:     19033
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64224):
GTTCAGGAAACAGGCTAGACCTCAGCTCCAATGTTTTGACATCAAGTACTATTTTCCTTCCGACTGCTGTACGGTATAAAGCACAGCAGGATCCAAGCCT
K
GCACAAAGGGGTGGGGGGGGCAGTGTCTCCTCTGGCTGTCCTGTTTGTTTGTTTCTCATATGGGGGTGGGGGGTACCTGCACTGTCTGTACCTTTCTGAG
Celera SNP ID:            hCV26530763
SNP Position Genomic:     20703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:64225):
CTGTCCATCTGGGTCTGTGAGCACCTCAGTGTTGATCCCTCTGCATGGGTTTGAACTCTAGGGTGTCTCTGAGTCCCCTCTCAGGCTTGTGATTCTACTT
S
GCCTCAGCAGCTCAAGCCTGGGGACTCCTGACCAGGGACTCTCTTGTAGGTTTTCTCTAAGCTGCTGTACCCCATCGTCCGGGGAGCTGCCTTGTCTGTG
Celera SNP ID:            hCV8754851
SNP Position Genomic:     6559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64226):
TTCTAATTCTGTGAATGTGAATGGTAGTTTAACGGGAATAGCATTGAATCTGTTAATTACATTGGGCAGTATGGCCATTTTCATGCTATTGAGTCTTCCT
A
TCTATCTGTGAGCATGGAATGTTTTTCCATTTGTGTCCTCTCCTTCACTTCCCTTGTTAGCTGTATTCCTAGGTATTTTATTCTGTTTGTAGCAGTTGTG
Celera SNP ID:            hCV26530747
SNP Position Genomic:     19034
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64227):
TCTAATTCTGTGAATGTGAATGGTAGTTTAACGGGAATAGCATTGAATCTGTTAATTACATTGGGCAGTATGGCCATTTTCATGCTATTGAGTCTTCCTA
T
CTATCTGTGAGCATGGAATGTTTTTCCATTTGTGTCCTCTCCTTCACTTCCCTTGTTAGCTGTATTCCTAGGTATTTTATTCTGTTTGTAGCAGTTGTGA
Celera SNP ID:            hCV26530748
SNP Position Genomic:     19035
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64228):
CTTCTCTTCCTTCGAATCTGTCAGCAACGTCACCTCCTTCTTCCCTAAGGACACAGCCTATGTGCTGTTTTACCGGCAGCGGCCCAGGGAGGGGCCCGAG
K
CTGAGTTGGGCTCTTCTAGAGTCCGGACAGAGCCCACCCTGCACAAGGACTTGATGGAAGCCATTTCCAAAGACAACATCCTTTACCTACAGGTGAGCTG
Celera SNP ID:            hCV966451
SNP Position Genomic:     17128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64229):
GGGAGCGGACATGTGGCTCTGAGGGCTCCCGCTCCGTCCTGGACCTGGTTAACTACTTCCTGTCCCCCGAGAAGCTGACAGCAGAAAACCGCTACTACTG
Y
GAGTCGTGTGCCTCCCTGCAGGATGCCGAGAAGGTGGTGGAGCTGAGCCAAGGGCCGTGCTACCTCATCCTCACACTGCTGCGCTTCTCTTTCGACCTGC
Celera SNP ID:            hCV25758290
SNP Position Genomic:     16677
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64230):
TCTCTTTCGACCTGCGCACCATGCGGCGCCGCAAGATCCTGGATGACGTCTCCATCCCCCTGCTGCTCCGCCTGCCACTGGCTGGTGGCCGTGGCCAGGC
M
TATGACCTCTGCAGTGTGGTGGTGCACTCTGGAGTGTCTTCGGAGAGTGGTCACTACTACTGCTATGCCCGTGAGGGCGCTGCCCGCCCTGCCCCTTCTC
Celera SNP ID:            hCV966452
SNP Position Genomic:     16863
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64231):
CTGTTTGATGTGACACAGATAATGAGTGGGAAGCATGCCAAGGACCAAGACCCATACCTCAGACCCCAGGGATTCACCCACTGTCCTGACTGTAGGGTCA
R
GTTTTGGGGAGGTGACTCTCTCTTCTTGAAAGCTGATTCTGCAAATCTAAAAGTAAAAGGTGGACATGGGCACATCATTGTGTGCCCACACCATGAAAAC
Celera SNP ID:            hCV15800425
SNP Position Genomic:     11709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64232):
CCAAGGGCCGTGCTACCTCATCCTCACACTGCTGCGCTTCTCTTTCGACCTGCGCACCATGCGGCGCCGCAAGATCCTGGATGACGTCTCCATCCCCCTG
S
TGCTCCGCCTGCCACTGGCTGGTGGCCGTGGCCAGGCCTATGACCTCTGCAGTGTGGTGGTGCACTCTGGAGTGTCTTCGGAGAGTGGTCACTACTACTG
Celera SNP ID:            hCV8754873
SNP Position Genomic:     16825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64233):
TTCCACCTGGTAAGGTCCCCTGCCTGCTGCCCCTGGTGAGGCCCCTGCCTGCTGCCCCTGGTAAGGGCCCTGCCTACTGCCCCTGGTAAGGGCCCTGCCT
R
CTGACCCTGGGCTCTTGGGGCAGGTCACTTGGCTGAGGCCAAGCAGCTGGATCGTGGGCTCTGGCCTCCCTTTGACTGTGAGGAGAGGAGTAGTCATCCT
Celera SNP ID:            hCV8754858
SNP Position Genomic:     6802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64234):
ACCTGGTAAGGTCCCCTGCCTGCTGCCCCTGGTGAGGCCCCTGCCTGCTGCCCCTGGTAAGGGCCCTGCCTACTGCCCCTGGTAAGGGCCCTGCCTGCTG
M
CCCTGGGCTCTTGGGGCAGGTCACTTGGCTGAGGCCAAGCAGCTGGATCGTGGGCTCTGGCCTCCCTTTGACTGTGAGGAGAGGAGTAGTCATCCTATTT
Celera SNP ID:            hCV8754859
SNP Position Genomic:     6806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64235):
CCCCTCTCTGGGCCTCAGATTCTCCCCATTAGTTTCCCTGACTACTCATCCAAGTATGTGTGTCTGACTTTTGGTGTGTCCATCCATTCCTCAGATATCT
R
TGTTGCTGTCCATCTCACCATCTGTCTGTCCATCTGGGTCTGTGAGCACCTCAGTGTTGATCCCTCTGCATGGGTTTGAACTCTAGGGTGTCTCTGAGTC
Celera SNP ID:            hCV25751626
SNP Position Genomic:     6433
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,39|G,1)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64236):
GAGTCGTGTGCCTCCCTGCAGGATGCCGAGAAGGTGGTGGAGCTGAGCCAAGGGCCGTGCTACCTCATCCTCACACTGCTGCGCTTCTCTTTCGACCTGC
R
CACCATGCGGCGCCGCAAGATCCTGGATGACGTCTCCATCCCCCTGCTGCTCCGCCTGCCACTGGCTGGTGGCCGTGGCCAGGCCTATGACCTCTGCAGT
Celera SNP ID:            hCV25754229
SNP Position Genomic:     16778
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,2|G,38)   total(A,2|G,72)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64237):
TGATTCCCTGAGGTCTGTGGGGACAGAGAGCCTCAGGCCATTGCCAAGGCAGGTCAGGACTGGATGGGAACTCAAGAAGGGGCTTAAGGGGCTGGGCAGC
M
CTGGGAAGTGGGGTCTGCTCTGGGTTGGCTGACATCACTGACTTTTCTTCTAGAGTCTGTGGGGGTGGATTTTGTCTTCCAGAGTAGAACTGCCACCCAT
Celera SNP ID:            hCV3152025
SNP Position Genomic:     12735
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,9)      total(A,3|C,9) ;no_pop(A,-|C,-)   ;JBIC-allele(A,668|C,825)   total(A,668|C,825)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64238):
TGGTACAAGCCAGTTTGAGAGGCAAGGCAGCAAATTATAGGATTTTACTGCTTATAAAATTATTTCGCATGGGTTCTATGAGTACATCCTTTTGTACATA
Y
GCCTTTGTAAATAAGTTCTGGAAAGTTCTCTGACTTAGGCAGATGTATCAGGTTGTGGCGGTTTCTTTGGGACCTGTGATACTTGCCAAGGGAGCCATCA
Celera SNP ID:            hCV11471997
SNP Position Genomic:     10827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64239):
TTAAGTTCCTTGTAGACTCTGGATATCGGACTTAGGTCAGATGGGTAGTTTGCAAAAATTTTTTTTCATTCTGTAGGTTGTGTCTACTCTGATGATAGTT
Y
CTTGTACTCCGCATAAGCTCTTTAGTTTAAGTGGATCCCATTTGTCATTGTTTGCTTTTGTTGCAATTGCTTTTGATGTTTCCATCATTAAATCTTTGCC
Celera SNP ID:            hCV12044033
SNP Position Genomic:     18390
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64240):
TTTTTTTCATTCTGTAGGTTGTGTCTACTCTGATGATAGTTTCTTGTACTCCGCATAAGCTCTTTAGTTTAAGTGGATCCCATTTGTCATTGTTTGCTTT
Y
GTTGCAATTGCTTTTGATGTTTCCATCATTAAATCTTTGCCTATGCCTATGTCCTGAATGGTATTTCCTAGATTTTCTTCTAGGGGTTTAATACCTTTGG
Celera SNP ID:            hCV12044034
SNP Position Genomic:     18449
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64241):
CCATGCGGCGCCGCAAGATCCTGGATGACGTCTCCATCCCCCTGCTGCTCCGCCTGCCACTGGCTGGTGGCCGTGGCCAGGCCTATGACCTCTGCAGTGT
K
GTGGTGCACTCTGGAGTGTCTTCGGAGAGTGGTCACTACTACTGCTATGCCCGTGAGGGCGCTGCCCGCCCTGCCCCTTCTCTGGGAACTGCCGATAGGC
Celera SNP ID:            hCV25752951
SNP Position Genomic:     16881
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,1)   caucasian(G,40)   total(G,71|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64242):
GTTTTACATTTAAGTCTTTAATCCATCGAGTGAATTTTTTGTATAAGGTATAAGGAGGGGGTCGAATGTCAACATTCTGCCTATGGCTAGCCAGTTCTTC
Y
AGCAACATTTATTAAACAGGGAATCTTTTACCCATTGCTTGTTTTTGTCAGGTTTGTTGAAGATGGTTGTAGGTGTGGAGTCTTATTTCTGAGTGAGTTC
Celera SNP ID:            hCV12044035
SNP Position Genomic:     18650
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64243):
GTCGTGTGCCTCCCTGCAGGATGCCGAGAAGGTGGTGGAGCTGAGCCAAGGGCCGTGCTACCTCATCCTCACACTGCTGCGCTTCTCTTTCGACCTGCGC
M
CCATGCGGCGCCGCAAGATCCTGGATGACGTCTCCATCCCCCTGCTGCTCCGCCTGCCACTGGCTGGTGGCCGTGGCCAGGCCTATGACCTCTGCAGTGT
Celera SNP ID:            hCV2324234
SNP Position Genomic:     16780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64244):
GGTGTTTGGTGTGTGCATGTGTGTTTGTGTGCGTCTCAATGTGTGGCTGTTGGGGAAGGTAAATGGGCATGGATAAGCTGAGTGCCCCGGAAGGGGACCC
R
CATGTACATGTAGTGACTCTGTGCTCTCTGCCCCAGGCTGCACGAAGAGGAGAAAACGGGCACAAGGATCTGCCAGAAACTCAAGCAGTCCAGCTCGCCC
Celera SNP ID:            hCV15965262
SNP Position Genomic:     15887
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,12)   caucasian(A,6|G,20)   total(A,8|G,32)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64245):
CTATTCTGTTCCATTGGTCTATGTGTCTGTTTTTATACCAGTACTATACTACAAGGCTACAGTAAGCAAAACAGCATAGTTTGAAGTCAGGTAGGCATTA
R
GCTTCCACTTTTGTTCTTTTTGCTTAGGATGGTCTTGGCTATATGGACTTTTTGGCTCCGTATGAATTTTAAAATAGTTTTTTCTAATTCTGTGAATGTG
Celera SNP ID:            hCV12044038
SNP Position Genomic:     18852
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64246):
CTGCGAGTCGTGTGCCTCCCTGCAGGATGCCGAGAAGGTGGTGGAGCTGAGCCAAGGGCCGTGCTACCTCATCCTCACACTGCTGCGCTTCTCTTTCGAC
S
TGCGCACCATGCGGCGCCGCAAGATCCTGGATGACGTCTCCATCCCCCTGCTGCTCCGCCTGCCACTGGCTGGTGGCCGTGGCCAGGCCTATGACCTCTG
Celera SNP ID:            hCV2324235
SNP Position Genomic:     16774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64247):
ACACTGCATCACAGAGGACACCCCCCCCACCAGCCTGTACATCGAAGGCCTGGACTCCAAGGAAGCTGGTGGGCAGAGCAGTCAGGAGGAAAGGATAGAG
R
GGGAGGAAGAAGGGAAGGAGGAGAGAACGGAGAAGGAAGAAGTGGGGGAGGAGGAGGAAAGCACCAGAGGGGAAGGAGAGAGGGAGAAAGAGGAGGAGGT
Celera SNP ID:            hCV25760232
SNP Position Genomic:     16366
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,36)   total(A,67|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64248):
GTTTGAAGTCAGGTAGGCATTAGGCTTCCACTTTTGTTCTTTTTGCTTAGGATGGTCTTGGCTATATGGACTTTTTGGCTCCGTATGAATTTTAAAATAG
T
TTTTTCTAATTCTGTGAATGTGAATGGTAGTTTAACGGGAATAGCATTGAATCTGTTAATTACATTGGGCAGTATGGCCATTTTCATGCTATTGAGTCTT
Celera SNP ID:            hCV12044039
SNP Position Genomic:     18930
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64249):
AGCAGAAAACCGCTACTACTGCGAGTCGTGTGCCTCCCTGCAGGATGCCGAGAAGGTGGTGGAGCTGAGCCAAGGGCCGTGCTACCTCATCCTCACACTG
S
TGCGCTTCTCTTTCGACCTGCGCACCATGCGGCGCCGCAAGATCCTGGATGACGTCTCCATCCCCCTGCTGCTCCGCCTGCCACTGGCTGGTGGCCGTGG
Celera SNP ID:            hCV2324236
SNP Position Genomic:     16756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64250):
TCCTAGAGCCTCGTTCATTTCTCTGAGCCCAATGCCCTGCTCAGCCCTGCTCAGAGGCGTGGACATGTGGGCTGGGTTGGGTCAGGGACAATAGAAAAGC
R
GGGAGGACCTCATGGAGGAGGCCAGGAAGTTTGAGGCCGAGGGAATGAGGTAGACCCTCAGGCCTAACCTGTGCAGAGCTGGCTGGTGAGTGGCCTCCTG
Celera SNP ID:            hCV16023100
SNP Position Genomic:     15198
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(A,7|G,33)   total(A,9|G,65)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;JBIC-allele(A,332|G,411)   total(G,411|A,332)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64251):
AGGGGGTCTTTTGAAGTCTTTTGAAGGTGTCCACCCCGGATATCCTGCCACTGAGCTGCAATGTCTCTGTGTGTCCAGGCCCTGGGGACCTAGAGGAAAC
M
TTGAAAGGTGTTGTGCTGGGTAGACTCACTCTGGCTTCAGGGTGTGAATTCTAAGTCTAAGTCTCCTCTCATCTGTGTTCCCAGGAGCAGGAGAAGGAGG
Celera SNP ID:            hCV9484555
SNP Position Genomic:     20037
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;(C,-|A,-)   SC_12_A(C,9|A,12)   SC_12_C(C,1|A,20)   SC_12_AA(C,0|A,23)   total(A,55|C,10)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64252):
ACATGTAGTGACTCTGTGCTCTCTGCCCCAGGCTGCACGAAGAGGAGAAAACGGGCACAAGGATCTGCCAGAAACTCAAGCAGTCCAGCTCGCCCTCTCC
K
CCCGAGGAGCCCCCGGCCCCAAGTTCAACCTCTGTGGAAAAAATGTTTGGAGGCAAGATAGTGACTCGGATCTGCTGTCTCTGCTGCCTCAACGTCTCCT
Celera SNP ID:            hCV16023101
SNP Position Genomic:     15993
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,7)   caucasian(G,33|T,7)   total(G,62|T,14)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64253):
AAGGAAACACTGCATCACAGAGGACACCCCCCCCACCAGCCTGTACATCGAAGGCCTGGACTCCAAGGAAGCTGGTGGGCAGAGCAGTCAGGAGGAAAGG
R
TAGAGAGGGAGGAAGAAGGGAAGGAGGAGAGAACGGAGAAGGAAGAAGTGGGGGAGGAGGAGGAAAGCACCAGAGGGGAAGGAGAGAGGGAGAAAGAGGA
Celera SNP ID:            hCV25760252
SNP Position Genomic:     16360
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,8)   caucasian(A,29|G,5)   total(A,53|G,13)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64254):
AAGGATCGCCATGAGGCTGACGTCCTGGTAGCAGGAGGATGGGCTTTCTCATAGGCAGAGCCCATTCCTCGTGATCATGAGGCCTGCGGACAGGTTCCCG
Y
GTGGTGTGATATGACCCTCGAAGTCCTCAGACCTCTCGGTACCACATTAGGCCCTTGTCAGCTAGTCAGTCACACCCTAGTATCAGCTGGCTCAGGGACT
Celera SNP ID:            hCV15800432
SNP Position Genomic:     19818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 400
Celera Gene:                 hCG27885 - 104000116976752
Gene Symbol:                 FLJ11305
Protein Name:                hypothetical protein FLJ11305
Celera Genomic Axis:         GA_x5YUV32W8MG(26905294..26948467)
Chromosome:                  Chr13
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12560):
CTACTCCGTGACTCAAGAAAGACAGCCTGGCTTTCCTCAGAACTTGCATGTCAGCCGGGTGCAATGGCTCACGCCTGGAATCCCAGCACTTCGGGAGGCC
AAGGCAGGAGGACTGTTTGAGTCCAGGAGTTCCCAAGGAGCCTGGACAACATAGGGAGGCCACACCTCTCTCTCTCTTTTTTTTTAAAGGGCCTGAGAGG
TTTGTTTTTGTGCAACAAAAAACAAAAAAACCAGTTCTAAATCAAAACACAGCCTTTCTCTGAAACCTTTCTAGAAATGCAGTCTTCAGTTTTCTGTTGT
CTCATTTAGCAACAAGCAGGACTAAAACATAGAGACACAAGACACAGAAGATGCACTTTCTTCAGGAGTTAGTTATTACAGACCGAAATTCAGGTCGTTC
AATGGAAAAGATCCATGCCTTCACAACATTCTCCTCTACACACTACAGGAGGAAAATGATAAAAACAAAGTAACAAACAGAAACAACAGGCCAGCTGAGG
CCCAAAAAGTGTAAGTGACAGGACTCCTAAGGTGTTTAGACGTAGAGGGAGAGTGAGCAAAACCAAAAACCAAACACGAAACCAAACCTTTCAAACTTGG
GTGAGAATTGGTCCTTTCACATAAGATTCTTTGGCAAAGTATACACCACCCCACCTATACAAAAACTGAGACTTTATTTTGAAACACCAAGTCAAATGTA
TTGCCTGCTTGATCAGACATCAGTAATTTCACATTTGCTTTTCTTAGATTTCTATCCCATTTGCTTCCAATAGATCTGAGGCAGCTCATGCTTCAGACTC
TGTGAGAGGCCAGAAGCCCACCTGTGCGTGGAGAGATGATCACAAGTAAGTGAATCAACTGATTCCACATATCCCCTGGTGGGGCAGCACCTCCAGAGAT
GCCCCTGGAATTTGCGATGTCTCATTCCAAGGAGGAACCAGTGACTGTCATTTTGGGGTAAGCACTCCTAGTTCTCAGGGTTTCAAGACAGACACCTAAG
GCACCTACAAACATTGTTCATAATATCTAGTGATTGTTTTATAAGACATATCACTGTGTACAAGGTGTTGCAAAGTAATTCCGCCTTTTTAAGTAAAAAT
AATGAGGCAGCAGATATCAGACAGCCAAATCTCCAGGAAAAGAGTAGTAAGAAGCTTTAGCTGTAAGGTATCATATTTTATTAAACCAAAGACCTCTGAG
AGTTCAGGTGGGACTCTTGTTTCTAGTCAAGACACAGTACAAGAACTGTATTAACTTTCTGCCTGAAATAACCACAAAATCAGGCAAAATATACGAAGCA
ACAGTTTTCGAAGCACTGAGTACTGGGCTATGAAAGACAGTGAATCTCAGAAAGATGGGAGACAAACAGGCCCCAACTGCTCAGCTTCCTGTGTGAAGAG
CTTCCAGGTTGTGGTGTGGGGGCCCTGAGTAGCTGGGACTACAGGCATGCAACACCCCACTAGGCTAATTTTTAAATTTTTTGTAGAGATGGGGTTTCAC
CATGTTGCCTAGGCTGGTCTCGAACTCCTGGGCTCAAGCGATCAGGCCACCTCAGCCCCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGAGCCCAGA
CTCTCAATACTGTTAAGAATTTAATTCTCCTACATTGATCTGTAGATTCTATATACCGTCAATCAAAATCTTAGCACACTTTCTTATACAAATTGGCCGA
TTCTAAAATTCACATGGAAACACAAGGGACCAAGAATAGCCAGAAACCTGTGCAAATGTATGAAGCTGGGGGGCCAACACACCCTGATTTCACAACTCAC
TCCTCCTACTCCTACGTGGTTTTTGACAAAGGAGCAAAGGCAATTCAGTAGGGGAAAAGAGACTGAAAAACTGGACATTTGCAGGGAAAACACTGACTCT
AGACTTTTCTTTGTATTTTTTTGAAATGGAGTCTCACTCTGTTGCTCAGGCTGGAGTACAGTGGCACAACCTCGGCTCACTGCAACCTCCGCCTCCCGGG
TTCAAGCGATTCTCCGGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCTGCCACCACGCCCGGCTAATTTTTTGTACTTTTAGTAGAGATGGGGTT
TCACCATGTTGGCCAGGCTGGTCTCAAAATCCTGACGCTCAGGCGATCTACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCAC
CCGACTCTGACTCTAGATTTGTATTTCACAATATATACAAAAATTCACTCTACATAGATCGTAGACCTAGATGTAAAACCTAAAACTCTAAAATGTCTGG
AAGAAAGTATAAGAGAAAACTTTGTGACCTCAGATTAAGCAAGATTTCTTGGATACTAAAAGCACAATCCATAGAAGAACAAACTGATACATGTGACTTG
AAAACTTAAAACAATTACTCTTCAAATGGCACAGTTAAGAGAATCAAAAGACAAGTTGAAGACTAGGCAGAAAGTATTTGCAAGGCGAATATCTGATACA
GGACTTGTATCCAGAATACATAATAAACTCAAATACTCAATAATAAGAAAATAACCAACCCAATAAAAATGAGCAAAATATTTAAATAGACACTTCGTCA
ACGAAGATACATAGAATGGCAAGTAAATACAAAGATGCTTAGCATCAGAGGGAAATGCAAACTAAAACTACAATGACACTCCACCACACACCCACAAGCA
CAGCTAAAGTTACAGACTGAGGACACCACACGCTGGTGGCGGAGTGGAACTGGAGCTCCCATACACTGCTGGGAGAGACGCACACGCTGGTGGCGGAGTG
GAACCGGAGCTCCCATACACTGCTGGGAGAGACGCAAAAGGGGCAGTCACTTGCAAAAACAAGAAATTCCGTACAAAGTTAAACATACATTTTCCATATG
ACCCTGAGAACTTACTTCTAGATAAAGAAGTAAGCAGAACTCACCTGAGAGGAGTAAGAATATATGTCCAAACAAAGGGTTATTCACAAATGTTTACAGC
AGCTTTATTTAAAACAACCCAAGGCCAGGCGCGGTGGCTTATGCTGGTAAACCCAGCACTTTGAGAGACCGAGGTGGGTGGATCACCTGAGGTCAGGAGT
TTGAGACCAGCCTGCCCAACATGGCGAAACCCCGACTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCAGGTGCCTGTAATCCCAGCGACTCGGG
AGGCTGAGGCAGGAGAATCGCTTGAACCTGCGAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCCATGGCACTCCAGCCTGGGCCACAAGAGTGAAACTCC
GTCTCAAAGAACAAACAAACAAAAAACCCCAAACATGGACACCCAAATGTCCATTAACTGGTGAATGGATAAAACAACTGTGGTATACCCATTCTACTAG
GTAATAAATTACAATCACACTGCGTTGTGCATGAATCTCAAAAGCACTGTCCTAAGTGAAAGCCAGATACAAAAGACTATGAAATACATGACTGCATTTA
GATAAGGTTCTAGAAATCGCAAAATATAGTAACAGAAAGCAAATGGGGGACCGCCAAGGGCTAGGAGTCAGGGGAGAGGGCTGACTGCAAAAGTGGTCAT
GGCAATTTCGGGGGTGGTAGCAATATTCTACCATTCTACCAAGAAAGATTCCATCTTGACCGTGGTGCCGGTTACGTAACTGCATGCATCTGTTAAAACT
TCCTGAAGTGCACATTATATGTAGACTCTATCTCAAAGCTGGTAAGAAAACATCATCCACTTACACTTCAGACAAAGAATGGATGTATGTACACCAAACT
GTCAACAGTAGTTTTCTTTGGGTGGTAGGAGTATAGGTGATTGAAGTCTTCTTTTTTGTATTTTTTATAATTTTTACAATGCAGTCACTTGCATATCCAG
AAAAAAAGTTTTTTTAATTCAAGCCTTTTAATAGAAATAATTGTATGACACATCGTGACCTAAAATATAGATATTAGACTACTGAATGAATGTTACTTTA
CAAAAAGAAGACACCAGAAAAAAAGTCGCTTATAAATAAAATATCCAAGTATGGTAAAATGTACTTTTTTGTTACTTCAGAAACGGAACACCATCACTTT
GAATTAAATGCTACCAAATCTGTTTGAATACCTTAAAGGCAACCACTAATCACAAAACACAACAGAGAACAAAACCACTTTTTCTGAATTTTGAATTTTT
TCAAAATCTGTTTGAATATCTTAAAGGCAACCATTAATCACAAAACACAACAGAGAAAAGACCCTCTTATTACTGTGGCAAGTGACACAGTCATGAGTTT
TACATATAACGAGAAAATAATTTGCCGTATACTTGCAAAATATGAGTCACGTGGCTCCTAGAAACACACCTCCTTCTCTTCCGTAATGGGATAACTTTAA
ATATGGTTCTAAGCAGCTTAAGCCTGAAAACAAAAATTCCACCACGGCAATAAACAAAACCACTTGTTGCCTCTGGGGCTCCCGGCCCTGCAGTGGAGGC
AAACGCCCTGCCTTTCCGCTCCCCGGCGAGAGCCTGCGAGGCACCCGGAGCGGCCGCCCGGCCGCGTCTGCGTCACGCGGGGCAGGAGCGGCGTCCCCAG
CCCCGGCCGCCGCCTCACCTGGTAGAGCTCCTCGAGGTTGTACCTGATGGAGGTGCTGCTCTGCACGGCCCGCACCGCCTCGTGCAGCTTCCGCCACGTG
TCCTGCGTGTAGTTGTCGGGCAGCCGAGGTCTGTCTGCAGGGCGGAGGGAGAGCGGGCGGCTCAGGGCGCGCCGCGAAGCGCCCCGCGTAGCCACCCCCG
ACCCGGCCGGCGCCCCGGCGCCCCCGCTCCCGGGGCCCGCACGGATCTCGGGGCCTTCCCCCCAAGTCGGGCGGGGTCTCGTGGGGTCCCCGCCCGGGGC
GCCTGGCCCTCGACCCGGCCGCCGCACCCACCTCGGAAGTTCTTGATGACCAGCTTCTTGGAGCCGCCCGCGCCCCCCGGCTTGGCGGGCGCGGCGGCCA
GGGCCGCGGGCTTGGTGAGGCCGTTGGTGCGGCCCACGAGCGCCGAGAAGCTGCCCTTCCGCGGGGCCTCGTCCGCCATGGCTGGGCCGGAACCGCCGCG
CCCCGCCCCGAGCGCCGCCGCCCGCCGAGCTCCGCTCCGCCCGCCCCGGTCCGCGCGGCCTCCGCCCCGTCCTCCTCGCGCGCCCCGCCCCGCCCCGCCC
GCGTGCCCGAGCCCAACCGCCGCCGCGCCCGGCTACTCCTGAGGGCTTAGGAACGCGCGCCGGGAATCCCTCCTGAGGGATCGGACTCCCCCTAAGAGAT
TCGGACACCCCCTCCTGGCTCGAGGGCGCGCGCCGGGACTCCCGTCCTGAGGGATCGGGACCCTCACCCCCGGCTCCGGGGGGCGCACCGAGACCCTGCC
CCCAGGGCTCCGGGCACCCCCTCCTGGCTCGGGGATGCGTGCCGCGGGCACCCCTCCTGAGGGGATCGGGAGCCGGGACACCCTCCTGAGGGCCCCGGGG
CGCGCGCCTCCTGAGGGCTCGGCACCCCCACCCCGGGCGTGAGACCACCTCGAGGGCTCAGGGGTGCGCGCCGGGACGTGCCCTAACTCCTGCAGGCTCG
GGAGCGCGCGGCGGAGGCACCTTATGAGAGCTCGGGAGCGCGCGCCATGTCCCTCCCCCTCCCCCTCCTCGGGCGCGCGCGCCCCGAGGCCCTGGCCCAG
CCAGGCGCGGAGGGTCCTCCGCGGCCTGGTTTTCACAAGGGGCAGACGAAGGGTCAGCGCAGTGAAAGGCAGTTTAGCCGTGGGGCTGTCCTCGCCACTG
GACCCCAAACCCCTCAGCCCGGGCGGGCCCGAACACACAATCAGAGCCGCTGGCGTCCCGGCTGAGAGGACGGGGCCCCGGCAGAAAGACCCCGGGCCCC
CTCAGCCCGAGCGCGTCGCCGAGCCGGTCCCCAGGTTCTCCCTCCGGAACCAACCTGCGCACCCGCGGCGGGGCCGGGGGCGCCAGGACCCAGACGGACC
GAGGGCCGGAAGTGACGCCAGCTGGCCCGCTTGAGGCGTAGGGGGTGGCGCTCTCCGTTCGGCGGCGCTCCCATGGCGCACATTACCATTAACCAGTACC
TGCAGCAGGTGGGTCCTAGCCGGGGAGCGCGCGGCGGCGTGGTTGGCCCTCGGCGTGTTCCGTGTGTCCCCTCCTGCCTTGGACCCTCAGGCCTTTTCCT
TTCCCGCCTCGCCACCCTTTTTCCGTTCGGGTCCCCGGCGGGCAGCCGCGCGAGCCGAACAGCGGCGGCCGGGACTCGGGAAGGCGGCCCGAGTTCTCCC
CTGCAGGGCCGCCGTGGGGGCCGGGCGGTGTCCGTGGATCGCGGAGTCGTCGCGGTGTAAGTAGACGCGGCGGTCCCAGGTCGCTGCCCTCACTTGCTGG
CACGTGTGGCCGCGCTCCCAGGCGGTCCGAAGGGCCTGCGGGCCACGCCGAGGGCCCGCTGTGGGCGGTGCTGTGTCGGATGGACGCTGTTTCCCAGCAG
GATGCGGGATGAATTCGGGGACTCCAGGAGGCGATGGAGGAGTAAGCGCGAGGCTGTGGCCGTGCTGCAGGCCGGGCTCGTGCCCCTCGTCCTCGCTGTC
GTTTAACGCCCTTCACTCTCCGAGCACAATGCACACTTCATATCGCTCGGTACATGCGTCTGACAGATGTTGTTCAACAGCTTGTAAGTAGCAGAAGCAC
AGTTAAAAGATGGACACTTGTAAAGATTCAACGCATATTCTTTCCACTAAACTATGCCTGTCTTCAGAACCAGCACTGTGGTAACAGGGATAGGAAATAT
AGGGAATGGATTTTTAAAATATTTGAAGGAAACATTACCAAGACGTGGTGAATAAGAATGGGTGGGCTGAGGGACACGGAGGAGTTAAGAATGATTCCCA
GGCTTGTAATCTGGGAAAAAGATGAATAGAGTGGATTTGGAGGGAGAAATAAAGTTTTGGGCATGTTGAGTTTGAGGTGTCTGTTGACAACTGGGTAAAG
ATACGTACTTGATAGCTGAAAAGTCTGACATGATTGGGCCCAGCAGTTGCTTGGTTAATTGAGAAAACTGGTTAAAACAGGAATCACGAAGAAATGGATG
TATGTTTTTAACTTAAAACATGAAAGTATACATTCACTTGCCAATTTTTTTTTTACACCACTTACCTCAAGTTCTATACTTGCCAATCTTTTGATGTAAG
CCCAGGGCCTTTTCTTTAGGCTGTGTCTGTTTTGGCCTAATCTTWGCAGACTTAACATTTTCCAATATMAGTTTATTTAAAGTTAAACAAGGATATAGGC
ATTTAAGAACCAATTTGATACGATTATCTTTAGAATTTTCTTAATCTTTTACAATTTTTCCCCCATACCTAATTATTTTTTTAACAAACTCAAGTGAGCC
TTTTAAAAACATACMACTTAGCTTATAGAGAAACAACTGTTTCCTTTTGCATTCATATTTCATTGATGAGCTTAAAAGTACATAACTACCATAACAGGTT
CGGGTAGCAAAAATAGATTTGAGAACAAACACATCTGGATATGAGAACACATACAACTTAGCTGGCAAAAGCTTGCGATRTATTAGAGTGAAGCCTACTT
GCTGAAAGTCGTCATCATACCTTGGGCATCAGCTCRTGTATTTCAGGGAGGGATTGGAGAGAGTCATTTTTCCAATTCAAGTCAGTTAAAGTGAGACTGA
TAAGCGAGCTTCTACTCTATGTGTGTAAACTGAAGTTTAAACAGACAGATTTGGGTTAAAGATACAAACCTGAGACTCCTTCGTAGTCACATGATGGGAA
AGACTGAGAAGGGAAGGGGTGACCCAGGGAACAAGTAGAGAGAGTAGACAGGGGCTGGGCCCAGGATGGACTTCTATGGAGATGTGCATGCCTACATCTC
CGCAAAGGGCAGTGTAGCCACTGGGGTGAGACAGCAAAAAGTCCGCTTCCTCCTAATTCTGATGGATAAAAATATTTCTGGTTGAACTGGCATGTTACCT
AAGTTTTATGTATTAACAGATTCTTGAATATTTTAAGAAAATAGGTGCCTCTTCGATACAGAATGGCAACCGGTTATACATGGTAACACATGTTTGATTT
GTTGTATAGGAACATAAGTGCCAATGTCACTGTATCTCTTTGGGAATAAAACCATCATTTGCACATTCATCAAAGCTAGGAAGTTGGGGGAAATCATTGA
CTCCTCCTTTAGTCTCAGCAAATAGTCCTTTACCTAATTGGATGTATCTCCGAAGTCTCTCAGATCCATCCCTTCTTTATCTGTTGCCACATGCTCCCCA
GCCAGGACGCCCTGCTGCAGGTACTGGTTGATGGTTTCCTTTACTTTGCCCTTTCCAAGTGAGACACAGCAAAGAGACCATAGACTTTAAAGACAATAAG
ACTTCAGCCCAAATCCTGGCATTTTTACTAATTCTGGGACCATGACAAGTTATCTAACTTCTGTGACTCTCCATCTCTAAACAGGCTTCACATAAGTTGT
GAGAATTAAAAAGACCATGAATTCACAGTAAATGCATTTACTTAGTAAATGATAGTTCTGGTATTTTATTGAAGAAGAGTTGAGCATCTGCCTCTGTTAC
TAAAACTTCATTGACTCTCTGTTTCCTCCAGGGAAAGTTCCAAATGCTTTAGCACATCATCTGGTCCATGTTTACCTGTTAACTTGGCATCACCAGTCTG
AAGGTTTATTTCACTTATGYTGAATGCACCATTGCCCCACCGAAGTACTCATAACTTAAAATATACCATTTAACCATTTTAAAGTACACAATTAAGTACA
TTCACAATATTGCACAACCATCACCATTATCCAGAATTTTTTGTCACCCCAAATGGAAATGTCATAAGCATTAAGCAGTCACTCCCTGGTCCTCCCTCCY
GAGCRCTTGTCAACCGCTAATGTGCTCTCTGTCTGTATGGATTTGCTGACTCTGGTGATTTCAGTATGTGGCTTTTGTGTGTCTTTCCCTTGCATCATGT
TTTCAGGGTTCATCTGTGTTGGAACATGTGTCAGTGTGTCGTTCTTTTTTATGGCTAATGATATTCCATTGTATGGAGTATTTTGTTTATCCATTCATCA
GTTGATGGACCACTTCAGTTGTTTCCTCTTTTTGGCTRTTGTGCTGCTGCTGTGAACATTCTTGCGCAGGTTTTGTATTCTTTTTGGCATATACCTAAGA
GTGGAATTGCTGAGTCATATGGTAATTCTGTGTTTAACTTGTTAAAGAAATGCCAAAGCAGCTAGCTGCATCATTTTACATTTTCACCAGCAATGTATGA
GGGTTGCAATTTCTTCACTTTCTTGTCAATGCTTGTTTTTTTCCATTCTTTTTATTATGGCCRTCCTGCTGGGTGCGGAGTGGTATCTTCTTGTGGCACC
CCATGATCTTTCTTGTCCCAAAGATTTTCTTCATTATGTTCCTTTTGCCAAGAACACCTCTCTTTTTTACAGGTGTAGTGAACATCTTTATTTAGGGAAT
CAGCTTTGAGTTAGATACTTTACTCCTTAATCTTCAGTAGTTCTTCATATTGTCTTTCAAGAGTTTATGGAATTGGAAAGTTTGACTATTCAGAAGTGAC
TTCAGAGGTTCATGACCTGTAATGATTTTGAATTTTTAAAAGAGTTATGAGTTCCAAGAGTAGATGGTGCCTCCTGTGGACCAGACTGGAGGGCGTGAGG
GGCATGCAGCAACCACAAGGAAGTCTTCCTGGGGCCAGAGCCAGGGAGCATCCCCTGGTGAGCCAGGCCTGGGGGTGCCGCTCAGAAGGTGCTCACTTGG
AGTCTGGTTGTGTGGTCCCATTGAGGGCTGAAGGCTCTGCAGCATGAGCTGTTAAGAGTTGGCCAGGTGGCTGGGCTGCTAGGGGTCCTGTGTCCACTGC
GGCGCCAGTCGCACCTTTAGGGCTTGCAAGTACCGTCCGTTGCCATCCCTGCTTTTCCTCTTCACATCCCCAGTCTTCTCACAGTTTAGTCATTGAGGCA
GGGGCATTGATAGGACCACCCCTGGGACACATTCATGCCTGCCAAGCAAGCTGGGGCCCTCCTTGGGCTCAAGGCCCTGTGGCACTGAGCCCTCCTCTGG
TCAGGTCACCYGTGGGACACTGGGTGCAGCCCAGGTAGGTGTGGCCAAGCAGAGCCCAGGATGTGGCGACATCACCCTGCATATGTGCAGGGACCACCCT
GGGAGGTCACAGGCAAAGGAGGGCTACCAGTRAGTGCCCCCAGCAGGGGTCTCYGCCTCTCCTTGGAGGGCCCCGGTGTCTGTACTCCAGGGTTTGATCC
CTTCGTGACCACTGTGTCCCCAGTGTGTTTAGTCATTGAAGTATGCTTCCATTCCACAGTGCTTGCTCCAAGTCTGGGACTCTCAGCTTTCAGTCACTCA
TAGGTTCCTTCTGCAGAGAGCTCTGGAGGCCTTGGCAACATCAGAACATCATGCTCAAGTGTGACCTGTCACCAGAGTACTGATGTTAACCAGAACACTC
CTCTTCTCAGGCTCCTGGGGCTGGGCCCAGTGCAAGGCCCTGGGTGGTGCGAGAGATCGCACAGTGCGGGGCCTGGAGTGCCTGGAACCATAAGCAGGGG
TGGCTGTGGGGAACTCTTAGCTTGAACCTCCTGTTTGTGTGGAACCAAAGAGAGCACGGCTTGGCCAGCAGGCTCCAGAACCGCTTTCTAGCCAGAAGCS
CCTTAGTTGAGCAAGGTTGGAGTCTGTTGGGGCTCCTGTGGCTAGGCCTGCCCACATGGCACAGGGAGGGCCACTTTGGAAGGCATATCCTCTYTGGGGC
TAAACTGACTAATACTGGTTTTCTTGGGGGACTTGCAGACCAAGACCTGGGTGGGATCGGTTGTTTTGCCTTCCATCCCAGGGCCAACTACTGATGGGAG
GGCAAACGGGGAAGACGCAGTGTGCCTGCCTGGCCAAGGCAGTTGCCACCCTCATCCTTGAGGGCGCTGTTCCATTGCACCTGGTCAGATGGTCTCGAGG
GAGCCAGAGGAGGCCCCTTTGGAGCTGGGCACCAGTGAGTTCTTGCAGGGCGTGGGCAGGGGACACCGGAAAGCCTCCTGCAGAGGATGGGCAGATACCA
GTGTTGTCTTCTTGGGGCCATCTTCAGCTTCTTGATGATGATTGGCAAATGCAGTGTTGTAAATTGCAAAATACTGATCTGTAGCATGGTGATTTTAAAG
AGGAAACCTAACCCTTTCCCCTAAACAGCTGAGGATCTTAGTATCTGTCTGTCTACCTTTTAGATGAAATCCCTAAACCTGTGGCCAGGGCTATGAAGAG
AAACTTAGTTTCCATAATACTTGGGCCCAAATCRTCTTGCACCCATTTGTGACTTTGAAAATGTCAGGAGCTAGGCTATGATGTGACGTTGAGCAGCAGC
TTGTGACCTTGCATGGACTGGGGCAGGAGGGCTGCCTCTGAATGGCTGTAGTTTTCCTATGAAGGCAGAAAACCTGCAAGTCTTCAGATGGCTTCAGCTG
AAGATAAAGTTAAGTTCCTGCTTACACCTCCAACCCAAATCCCATGGGACTCTCCCTTCTCCTGCTCTGTGCCAGTGCTGCTCTTTCTCACTGACGACTG
TGGTCCCGGCGACACCGCCCTACCCACTGCACTCACAAGCAGTTCAGGATTAGGGCCCTAGTGCCACCAACAACATTCTACTCAGTGATGTTGAAATTCA
GGATTTTTTTTGTTTTGTTTTTGGCAGTCTTTTTGTCCTTAGAATAAGGACAGTCAAATTCCACAAACTACTGTTTTCAAAGGTTACTCATATAGGTATG
TATTTTCTATTTGTTTCAATTTTAAGGTTTGTCTTTCTATTTTATTTCTTGAATGGGGTTGTAAGTAACTTATATTTAAAGGTGTGCTCAGAAACTTTCC
TTCTCTCTCTCACCTCATTCCACCCCCCTCTCTAGAAAGATAATCATTTGCATTAGATTCTGCCTTCTCCATCCTGTATTTCCTTTTGGGATGTACATGT
GACACACACACAGACATAAACACACATATTTTTCTTGTTTCCYTTCATTCTTATACAAGACGCAGCATTCTATACATACTCTTTTACAACTTGCTTTTTT
CACTTAACTGTATCTTCCTAGAAATTATTGCATGTAAATTCCTAGAGATCTTCCTCATTTTCAAAAAATGGTTGCATAGTGTGCCTTAAAATAGATGTTT
CACAGAGTATTCAGCCTGTCTCTATGGATGGATATTTAGTTTGTGTCCAATATTTTGTGATTACATGTAGCCGAGTACAAATACCTTCTGTTTCTAGTTG
TAAGTTCCTGGCAGTGTGATTACTGTTTCAAAATGTAAATGCATGTGTAGTTGTATGGAATAGTCAGGGGGGAAATTCCTTATCATGGAAGTTAGTCTTC
AGGAAGGTGGTGTCAGCCTCCCTGTCATACCCTGAGTTGAACAATGGGGTAGTAGGAGTTGGGCTCCAGTGTGTTGAACTGGTGGCATGTGCCTCCCTTT
CTTCTGGGTATGGACACCTGGGCACAGGATTACTGGGTCAGAGAGTAGGCGTTTGCTTGCTTTAGTAGAATACCAATTTTCTTCTAAAAATTTACCCCAA
GTTACCCCATCACCAATGTGTGAGCCTTCTAGTTGCTTCAGGCTCCTGGCAACACTTGGTGTCATCAGCCTTCCTAGTTGTAAGTACTCTTGTGGGTGTG
TAGAGGGATCTCATCTGCTTGTGCTTTTTTGCCATTTGCACATGCATGTTATGACATCCCCGGTCAGTCTTGTGTTAGCATAAAATGTAAATATTTAATT
TTATCATAGTTAAATTATACTGTATCTAAAGCTTTGTGCTTGCCTTTTTTCTTAGTTAGAATTTTTATGTCCTTTTTTTTTTTTTTTTTTTGAGACGGAG
TCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATTTCTGCTCACTGCATGCAAGCTCCGCCTCCTGGGTTCGCGCCATTCTCCTCCCTCAGCCTC
CCGAGTACCTGGGACTACRGATGCCCACCACCACACCCGGCTAATTTTTTTGTATTTTTAGTACAGATGGGGTTTCATTGCGTTAGCCAGGAGGGTCTCG
ATCTTCTGACCTCATGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGACCGGCAATTTTTTTGTAAATATAATTTAA
AAGCATATTTGGTTTTCTAGTTATAAAATGTCTGTTGTGGCAGGCGCTAGATAGGGCAAAAGGCTCCCGGGTCTCCTAGTCTCCACCCGACGTTCTGCGC
AGTCAGCTGGTGTGGTATGGTACAGGCCCTGCATTCTTTCCTGTGCCTGCATGTTGTACGTAATTTTTCTCTTCTTTTTTCTCCCAAATCAAGTTATACA
GTTTTCCTGCAGTTAACTTTTTTTTTCATTTAATCATCATATTGTGGACATTTTCTCATSTTACTACATACAGATCTATTTTATTCTTTTTAACAGCAGC
CGAGTATCGCATTGTATGAATGTGACATCTATTTAGCTATTTCCATTTTCCTTTTATTTTATATTAAGGTTGAGTGGAAGCTTTTTGAATTTTGGATATA
TGTGGTTTTTAAACTGATTTCTTTTTCATAAGCTGTATATTTGGATTTTCAAACATATATTAGTGTGATTGAGTAAAATTAGAATAATTCATCTTCATGA
AGAGCTACATGATAAACCACTGACTTATTTTTATTTGCTTAACCTGTTTTTTTGCTTCAGGAACATCTGTTTTTGTTTTTTTGGTCTGTTTTAAAGAGAC
GGGTCTTGCTATGTTGTCCAGGATGGTCTCGAACTCCTGGCTCAAGCAGTCCTTCCTCAGCCTCACAAAGTGCTGGGATTACAGGCCTGAGCCAGCCAGG
AACAACCTATTTTGAAATGAAATTATTGTTTACGATTGCGCCACTGCAGTCCGCAGTCCGACCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAA
AAAAAAAAAAGAAATTATTGTTTACCCACTGCAGAGAGTAGTGACCATCTGTTACWTTTTGATTGTTCTGTCTTCTTTCAAAGTAGGGGAAAATGAATTT
TCCCCTGTGTGGCATTCAGTGTATTGTTGTAGGTTCTATTCGAACAGAATATTTTATTTTCTACTTAGGTTTCCCTTTCAAATGTTTCAGGTGTAYGAAG
CCATCGACAGCAGAGATGGAGCATCTTGTGCAGAGTTGGTGTCTTTTAAACATCCTCATGTTGCAAACCCACGACTTCAAGTAGGTGAAAGAGCTGTGCA
CACAGRTGTCTGCAGACAATTACAGGGTAACCACTTTCCTAAGAGAAGCGTAGAGTTTGAGTAAGAAGAAAACTAATATTGTCACTCTTAYTTGAAAATT
TTAAAGTTTCTTTATGATTTRTGTAATTTCAATCCATTTGTGGAGCACTGACTATGTACGYACACTGTGGTGATGTGGACCTCCTGCCCTTGTGTTTGAT
TCCTAGACAGCTCTCTGAGGTTTAGAGAAGTTAGATGGTGGAGAGGCGGTGGAGCTTAGATTCTGTCTAGGCCTGTGCGTCCCCAAAGCCCCATAGACGT
CATGTACCACAGGTGTCTCCCATTTAAGTTGTTAGTCAGAAAGGCTGGCAAGCCAAGGCCCAGCCTGGGGTTGTACATGGAGTTTCCATGTCATCTGTGG
CGTAGATGATGTTGAGGCAGTATTTTCTRTAGAAAATCTTGTGGACATTTGGTAAAGCCCTGTTTCCTCATTGACACCCTTTATCATATTGGAGTGTGTT
CCTACTGGAAGCAGCATTTTTCTTTTGGAAGAAAAATGGGCTTATCTATTGGTGATTATGTTTGGCGGTGTACAGACTTGCAACTCAGACCAGGTAAATC
AGTCTCTGAAGTAGCAGCAGGCCTGTTTTTGTTTTTCTAATAAAGTTACCTAGGTGATTCTATGTGTAGACAGTGTTGAAAACCATTGCTCTAAGTAGGA
GTTAGTGCTAGAGACTCGATGAGACTCAGGCTTGCCTTGGCCAGAACACCCCATGGCTGGTGCCCTGTGCTTTGTATTGTATGACATGAGAGGACACACA
CTGTCCTGTTTGCAATCTGAGACAGATCCCTTCATTGTAAAATTCCCCAGTAAACTTTCTTTCGGTGGTTTCATTCACCAGGGACTGTAGAATGGTGATT
TTTCTGATACTGTCATTCTTCTCTCTCACCATATCAGCATGGGCTCATTGCTTTTGTAAACAAAACCAAACAAAACAAAAAAACGCAGTGTGCTTATAAT
CCATTGTGTGTTAGTCTGGGTTCTCCAGAGAAACAGAGCCAGTGGGATATATCAATATTTATAGAGATTTAGTATGAGGAACTGGGTCCTGTGATTGTAG
AGGTCAAGAAATCCCACACAAGGAGTGAATTCTTTCTTCCTCGACCTCTTGTTCTATTCAAGCCCTCATCAGATTGGCCATTGCCCGTCCACACTGAGGA
GGGCCATCTACTTTCCTGAGTCTACTAGTGCAACTGCCAGTCTCATCCAGAAACACCCTCACAGACACTCCCAGAAATAACATTGTCTGGGGACTCCACA
GCTAGTCAAGTTGGCAAAATTAACCATCACCTGTTGAGATGTTCAGATTATCTAAAATTTGACTGTTAGGAGGAAAGGAAAACTTAGAAAGAAATGTCAG
CTAGACTAGCCCAGGAGATGAGACTGGTGGTCTCAGCAGGAAGCCGAGAAGAACGAGTCCTAACATAGCACCATCTGTAACTCATTAGACCTCACTTACT
AAACCTATGACAGTTACTTAACAAGTATTTCTTGACTGACTGGTCAAGAATACTAATATACTGAAATGTATRTGAAAGTGCCTAGAATATTTTCTGACTT
GCAGAAGGCGAGACCAAATTATATTCATGGGCTTCTTTTTCCCCTGAAATATTGATAAATATTTGTTGAAGTAATGAACCATTTATTTATTTATTTATTT
ATGAGACAGAGTCTCCCTCTGTCACCCAGGCTGTAGTGCAGTGGCACGATCTTGGCTTACTACAACCTCCCCCACCCATGTTCAAGCGATTCTCATGCCT
CAGCCTCCTGAGTAGCTGGGATTACCAGCGTGTACCACCACATCCAGCTAATTTTTGTAATTTTTTTTGTAGAGACGGGCTTTCACCATGTTGGCCAGGC
TGGTCTTGAACTTCTAGCCTCAAGTGATCTGCCCACCTYGCCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCTCACGGCCTGAACCTTTTA
TTTAGAGTGGTAAATATAAAGTGTTACTGTGAACTGTAAAGCATAAATTCTCTTGAAACAGAGGTTTAAATCTCTTTCTATATGTTGCATTCTTTCTGTG
CCTATTAATTTTACTTTTGCTATTTTTCTTTTTTAAAATCAGATGGCCTCTCCAGAGGAGAAGTGTCAACAAGTCTTGGAACCCCCTTATGATGAAATGT
TTGCAGCTCATTTAAGGTAATCTGTTGGGGAGGAAGAAAAACACACACATCTGGAAATTGCTGAATTAACTGGGGATTTTATCTTGCATTATCTTRTGCT
TGAAGCAGTGAATAACTGACTTTGAAAAAGTGGGAAAATGCATTTGTAACTTCAGTTTGGTAAAGCCTGTGGAAATTGTAAACATCAGTTATATAATACT
ATTTTTAACATCACACAGTATTTAGCAGAGTGCCTGCTYAGTGGTCTTTTTAGTAGAGTTTGGAGCCGAACTGTTCACTTACCCTTTTCGTGGAAATATG
TCTGTTTTTGAAGCTCTTTACGTTACTGGGAAAGAAATTAGAGTTGAGCAAAGCAAACAATGCTACTTTTTATGTACACTTCATATCTACTGTTTTATCT
CTAAAGGATCAGTTCAGGCAGAAGATTGTGTCCTTATAGCCATGTGAGATTTGATTACTGTCTTTCAGAGCAGCCTGGGCTACAGGACCAGTGTGGGGTC
TGTGAGCAGGAATGTTCTGTGAACCCCACAGGGTCTTTGGAAGAGTTGGGGCACCACCGTGTTCCTTGTAGTACAAAGCACCTGTGATTTCCTAGCTCTG
TGCAGTGTGCGATAGGTTCCAGATTTGGCGATGAACTAACACTGACRTTACCCAGCTGGGAATCTAGTTTGAATGTCATTGTCAGCCCCTGCTAGAGTGG
AAGGGTCATACTATGTTATCAACATGTGTTACTCATAAACCTGCTGGTGCTAGGTCCTTCTGGGACTTGAAAGAGTAGTCTCCAAGCTTACTGTGGGACT
TCCTCTTATCCTCACCTGTTTGTGTTCAGCCATTTGTGTGTTTCTTCCTTCACTCCTTTCATCCCAGGACCACTGGGACCTGTGCAAYGAAGTGAGCTGT
GTGGGCTGCATAACTAGTGCTAGGTTTTTATTGTGTGACAGCATGTTTCTGTTTCTCCTCCAGGTGCACTTAYGCAGTGGGGAATCATGACTTCATAGAG
GCATACAAGTGCCAGACCGTGATAGTCCAATATCCTTTGTCGTTCATGGCAGCTGTCCCGCATAGAACACATGCAGTGGATTACTTGGGACTTGAGACCC
GGAAACACTGGGCCAGTTGCTCATTTCTGCAGTTAGAAAGGAATGACAGTGTTTTGGAACAGAAGCTCRTTTCAGCTCTTTCACTTGGGTACTTAAATTT
AGCAYGGATCTGAAGACTCGTGCAGTACTTAGTAAGGAAGAACACTGGTTAGGAAGAAGGATCTTACTCTGCTGAGAAGAAGAATGCTTTGTTGCCTTTA
GTAAGGTAGTAAGTATATTTACAGGGACTGGTTAAGTCCTGTTGGTGAAATACCAGAAATCCAGAATTCAGGCAGAGATGGACAAGAGTGGCCTCAGATG
TACATCGGCATTGAATTGTGGCAGCTGAAGACCTTAAATCAAACCAATTCATACTTCAGTCATTTAAAGGGTATCTTTAGTTACGGCCTGAGTCAGTGAG
TGTGCTAAGGATTTGTATGTATCTCTAGATTTTGTCTTTTCGTTTTAACCACCTTGTTTAAATATACACAGAAGAGAGTTGGGCTATTTGCTCACAGCCT
CCTTAGAATTCAAGAATTCTAGAGTTGATAAAATCAGCCTTATGCTACAGATTCTAAAGCACTTAAATATAACTCATGATCATCTGGGCTCAGAGAAACC
AAATAAAATGTCAGAAAGGGCTGATTTTAAAAAATCTTGTAAGTCTTTTTTATTTAGGAGACAGTGTGTATGAAATAAGTGTATTTAGTATACTTGAGCC
TAATGAGATACAGATATTTGTAATGTGAGCTTATACCTTTTTTCCTTCAAGAACTTACTATTGTTGCAACATAAATCTGCTCAAGGGTGAKCTACATTCC
TTAAAATTTAGATTCTTATTCTTTACTTTTATCGTACGTAGCATTATTTGAACTTTGTATGCCATATCTTCCTTAATACAGTACATCATTCTTGCGAGCA
TTCCAGGCCCACAAAGAAGAAAACTGGTAAGTGTGAACAGAAACAGCTGAATTAGCAAATGGCAATTTTTTTAGCAGAATCTTTTTACAAATTTGCTTTA
AATAAATGTGTATTGTATTTTCCATGTGGATATTTGGTAATCAGTGTGTTGACATATGGTAATATCTACACAGATGAGTGGAGTCACAAATCTAGTAAAC
TGAAATGGTAGATCAGCCACATTGTTTGCAGTGTGTCTATGTCAATATAGTATTATTTTTATTTCAGATGTCCATTTCCCTAGATATTTATTAAATACTG
TTTTTTCCTTCAGTTGTCAATTTTGAACTTTTGGTTTTAAACCTTAGATAAAAGAGGTAGACCAACTACRGTTCATTTGGGGTGTTCTAATACATAATAA
TGGTGGTATTTTTAAATGCCTTGCCAAACTAAATTTTATGATTTATTAACAAACTATAGGTTAATACTGAAATTTGTTTATACTGAAATAACCAAAGGCC
TTTTGCAAACAAACCCGCCCTTTTATCTTTTTTTTTTTTTGAGAAGGAGTCTTGCTCAGTCGCCGAGGCTGGAGTGCAGTGGCGCAGTMTTGGCTCACTG
CAGCCTCTGCCTCCCGCCACCCTTTTATCTTTTAACGTGAAAACTTGCACATGAAAACAGTCCAGTTTTGCCAGTTGGCTGTAAAAGTTGTTTTGTGACA
TTTTGTGTATTACATATTCTGGTTCCTGTTAGGAAATCTGATCAAACCACTTCTTTTTTAGTGGTGCTGTTTGGATACTGGTGGGAAGCTGAGGGGAGGA
GGATATCCTGGGAGCCCAGAACTGAAGCAGGGCTGAGGTCTCTGACAGGGTTGGGGACAGGGGTGTGGAGCACCGCATTGTGGGGCCCCAGGATGATCAG
GAAGTCTGAGGCCTGCAGCCTGCCTGGACAGAAGGTGAGGAAGCAGACAACTGTCAGAGTTTTGGATAAGTGCGGACTCCATTCTGGATAGTAGCCCTGG
GTGTCCGTGTTCTTCCCACCTCTGGGGATGGAATCTTGGCCCACGTAGCCCCTCACACTTGTTTACTTTTTTGCCCTGCAGGGCTCTGCCTGTCATGTAT
GCAGTAGCGCTTGACCTTCGAGTGTTTGCCAATAATGTAAGTTTAATTTGCTGTCATTATTATTTTAAAACTAAAACTTGGTGACTATCTGTTGTTTAAT
TTCATGTCATTCTTCCCAGAAGTTTTGAGGAGCAAATTGGAGTTGAGATGTGTCTGGTATAGGGAGCAAAAGAAAGATATTGACTATTCTTTCTGGGTTA
ACACCAACAGATTTATATAAACATTTGCTCAGATTTCCACACTRTTCATATAGAGGGAGAGGTTCCATTTTGTGGTTAACCATTTATGGTATGTGTTATT
TTTATGAMGTGAGTGGAACAACAACAAATGAGCTTATTCTGCATCTCTTCTACCTTTAAGATGTGGCCTGCTCCCCCACCAAAAAGAATTCAGCTTCATA
TAGATTTGGGCAGTAGGAGGGGGCTTCCCTGGGGTGAAGGGAGATCCTGGGTTTTATGGAGGCGACGTCCCCATGGGGACCCACGGAAGTCCCCATTATG
GAGCAGCATTTGTCAACCTTTTGGTTTTAGGACGACCCCTTTACAGTTTTAGAAATGATTGTTGACTTCAGTTCCAGTCAGGATGCAATGGATTTCACCC
TATTGTGCCTGCTAGAAACAGTTAAAACCCTGGGAGTTGTCAGGCCGGCATGGCTATGGGAGGTGGAGAGAAGAGGGGGATGGGGCTCAGAGTCACGTGT
AGGGAGTCTCCAGGTTTCCTTTTTGTCTCCTGTCTGTCCTGGACTGGGCGCGTTAGAAACCTGAAGCCTTTCACCATCAGGCAGAGACAAAAAGCCCCAA
GGAAACCAGGAGGCTGGGAAGACAGTCCAATCCAGCAAGACAGAACTCTGACCGTCACTGCCTCACTCCAGTGCCAGGCGCAAAGAAGTCAGCAGGTCCG
TCCCACCCCATCTGCAAAGTGGTGCGGRCTGGGGGTGGCCCAGGACCTCCACCCTGGGCTAGCAGTAATGAGGAGCTAGTCCCCCTCCCCACCAGGTGGA
TGTCAGAGGCTAAGCAGGGGACCTAGACCTCCCCGACTCAGTGGCTAAGGGGATGCACCTGTTTCTCTGCTTGCATGGTGAGGCCTGCTAAACAAGATAA
ATAAAGTCCATAGTCTCGTCAGGTAGTGCCTCAAATGTCCGGGATCTAATCGACACTGATTACCAGGAAAATCTCAACTTTCAGAGATTTCAAATGAGAA
AAAACATTCAGCAGAAGACACCAAGGCTGAGATTGTACAAATGTTGGAATTATGTGACAAGAGTTTTAAACAGCCCTCTTGATTCAGCAAGCAATTTAGA
ACATGCTTGAAACAAATGAAAACATTTAAAGTCTCAACAAGGAAATAGGCGATATAAAGAAGAACCAAATGGAAATTTTAGAACTGAAAAGTATACTGAA
GACCTCAGAAAGCTTTTATTTTTGTTATATCTATTTATATTTACTGTATTAGAAATTTTAATTAGAAAAGATTTTAAAATATTCATTTTAAAGCAACAAT
AATAAACCTTTTACATGTAACATAACTGACTTTTTAAATAAAAAATAACTATATTTCCAAAACAAAATACTAAGAAAAGTAGTGTCACATCACTTTTGAC
CTCTTTGATGTCTAGTTCAGCAGAGGCAATCTGGTCCCCTTGCCTGCTTCTGCACTTACTCTGTTGCAGTACACTGTTTTGAGTAAAGTGTTTCTCTGCC
TGATGGTGAAAGGCTACATCACAAAGTTGTAGATGGAAAAGAGAGGAATATTCTCATAGGCTTTCCAGACCATTGAGATAATTCTTTGACTCTATATAGG
AAAACTCCAAGAGGCAGTTTTTTTTTTTTAAAAAGGTTAGTTACAATGTGGCTTCTGAAGTGTACCAATAAACTTTTTCTACCTTTACACTGAAATCCAC
TGGTCTGCCTAAAGCACTGAATGGATTTCGTAATATCTTGTGTTAGTCATGTCTTAGTCCATTTGGGCTGCTATAAGAAAATACTATAAACTGGGTTGGC
TTGTAACCAACAAGCATTTATGTCTCATAGTTCTGGAGGCAGGGAGGTCCAGATCAAGTCAGGGAGGTCCAGATCAAGTCAGGCAGGGAGGTCCAGATCA
AGTTGAGTTTCTGATGAAGAGGGCCGCTTCCTGGCTCATAGCATCTTGCTGTGTCTGCACATGGTAGATGGGGCAAGGGATCTCTCTTTCCCATTCATGA
CAGCTTCACCTTCATGACCTCATCACCTTCCAAAGGCCTCTCTTCCAAACACCGTCACTTTGAGGGTTAGGATTTCAGCATGAGTTTTGGAGGGGACACA
AGCATTCAGACCATAGCAGACCATTTGGAGTATATTAGCTTACTGAGCCATGCAGCACCTCCCAAGTGCTGATATACCACTGTTAAAAACCCAACCCCCA
AACCCCTACCTTCCTTAACATCTCCAGGGGCSTCATCAGAAAAGCCTTGGAGTAAGGAAAAGCTGCTAAGCTCACAGTAGTTCATAAAAGTTTTCCAGAA
TTCTGGTTTTTCTTGAAAGCACAAATGTTGTCATTGGCAACGAGTACCATCAGTTGTTTGCCTGGAAGTGACAGATTTGTTCTATTCGTTTTGGAGAATA
TGGTCAGCCAGATGCCCAAGCCTGGGTAGCTGTGTCTGCCTGTCAGTTTTCTGTTCTGCAAGAAGCAGCTAGTTCAGCTCACAGCTCAGACAGCTGCCCA
GAGCTTTTCTGTAAACAGCCATGAGACACCCGTGTGCAACAGAAGTGCTGTATGCTTCTCATTTCATCACAAAGAATATAAAAAACGTGTGCTCAAGGAC
CAAGATTTAARAAAATTCATATTTACTGCATTATCAAGGACATTTTATTTATTTATTTAGAGATGGTCTTGCTCTGTCACCCAAGCTGAAGTGCAATGGT
GCAGTCATAGCTCACTGCAGCCTTGAGTTCCTGGGCTGAAGCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGTCTACGCCATGATACCGGGCT
AATTTAAAATTTTTTAATTAAGACAGAGTCTTGCCATATTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGTGATTCTCCCACCTCAGCCTCCCGAAAG
TGCTGGGATTACAGGTGTGAACCACTGTGCTTGGCTCATCGAGGACATTTTTTAAAGGAAACTAATTTTACTGGTTTGTTGATTGACTGATTGATTGCAG
AGTGTCTGGTGTTTAAGAACGTGGTGATTACTTGCGTAGTTTGGTGCCGGTGGGAGCACTCCAGCATTTTACCTATTGCTGTTTTTGCACCATCAGTGCA
AACGTTAATACAGTAAAAAAAGACCATAATGGCTTAGTGTTGTTGTGAATATAGTTTGAGCTGTGGGTCATCTGCAAGCCTGTTGCAGGCCTCGGGTTTG
TGGAGAACACAAGTGGCAGAAACAGACTCTTTCTTCTTTAACCAAGGCCATCCTCCCAAATGCGAGGGAAAAGTCAAACTCAGTGATGACTTTAATATTT
GTTAAACGTTTTTATTTCAAGTGTTTTGACTAGCCAACTTCAGGGACTGAAGAGAGAGCTTAGTTGCTTAGTAACATATGCAGTGCAGGTTTGAAAAATT
GGTGACTGACTTAACTTGAAATAATTGAAGAAAGATTTGGTTTGTGAAAGAATTGGAGTAATACAGACTTCTCAATTTTTAAAAATATTATAGTACATGC
TAGCTGATTTCTCCAGGATCTTTCGGGACTTTGAGTCTTAATTGTACCCATTTTTTGCTTCAAGAAATAAATGTTTTGGCTGGGCACAATGGCTCATGCC
TGTAATCCCAACACTTCCGGAGGCCAGGATGGGAGGATTACTTGGAGTCAGAAGTTCAGGACCAGCCAGAGCAACAAAGTGAGACCCTGTCTCTACAAAA
AAAAAAGAAAAAAATATTAAAATAAATTTTAAAAAAACAAAACCCAAAACTAGCCAGGCATGGTAGTACCTGGTTCCATGGTTCCAGCTCCTCAGGAGGC
TGAGATGGGAAGATCAGTGGAGCCCAGGAGGTTGAGGCTGCAGTGAGGTGTGATTGTGCCACTGCAGTCCAGCCTGGACGACACAGCAAGATCTTGCTTC
GGAAAAATGAAATAAAAGTTCTTATATTTTATTAGGCAGATCAACAGTTGGTAAAGAAAGGAAAAAGCAAAGTTGGKGACATGTTGGAAAAAGCAGCAGA
GTTACTGATGAGCTGTTTCCGGGTCTGTGCCAGCGACACGTGAGTAAGGACTTGARGACCGACCACCAGACGCTGTTGGTGGTGTTTTCATTGCAGCGTT
CACCCTTTCTGGCCTGTGTTTATTGTTGACACATATTTCATTTCTACACATGCTATAATCCCACARCCRTTGTTATTTTTGCTTTAAAAAGTTGATTGTT
TTGTAAAGGAAATAAGAGCTGAGGGAAAAAAGAGTCTTCATTTGCCCACATTTGACCATGCCTGGAGCTCCTCTCTGCAGGAACCAGTTTCCGTCTAGTG
CCATTTCCCTTTCCTGAGGCACTTTCTTCCACATTTGCGTTTGGTGAGGGTCTGAGGGCAGTGAATCTTTTAAGCTTTCATTTTTCTGAAACTCTCGTTA
TTTTTTTTAAGAAATGTTCTCTCTTTACCAGTGAAGAAGCAGCACTGATCACCTTCATTTTTAAGGCTCCATTTGCTACATGGAGTCTCGTGGGTTGACA
GTTTTTTCCTTTTGGCACTTTAAAAATGTCATTCCATCTGGTTTCCTTTGCTTCTGATGAGTCCTTGCCATCGTTCCCTGTATAGAATGGGTCTTTTTCC
TCTGGCTATGATTTTCTCTTTATCATTGGCATTCAGTAATTTGGCTCTGATGTGCATAGTTGGTTTTTTTTTTTTTTTTWAATTTCTTCTGTTTAGGGTT
CATTGGGCTTCCTGTATTTGTAAGTTGATGTTTTTAAAAATTTAATGTTTTACATTCTTTAACTACTTTTGGCCCCATTTTTTCTCTTCTCTTTCTGGGA
TTTCAACTGCATGTGTGTTAAGTGCATGATATTATCCCTCACAGGCCGCTGTTAGTCTTTGTTTATTTTTTAATCTTTTTTTTTTTTGAGACAGACTCTT
GCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCCATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCTGAATAG
CTGGGATTACAGGCGCATGCCACCACGTCCGGCTACTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTTGTCTTGAATTTCTGAC
CTCAGGTGATCCACCCTCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCACCTGACCTCAATCCTTTTTTTTTTTTTTCCTCTCCTTC
ATTTTAGGTAATTTGTATTGACCTGCTTACAAGTTGACTGATCTTTTCTGCCATTATTTATTTTTAAATTCTCAACTTTCCGTCTGATTCTGCTTTAGAA
TTTCCATTTTTTCTTCTAAAACTCCCATCTCTTCACCAATTATATAATCACATTTATTTATGAGATTTAGGAAATTTTAAAGCAAAGAAAGATTATCAAA
GGTATCCATATATAAATAAACAAAAAACTATTGTTCCCAGAGAGTAGTTGTTTTAGTCCTCTTGTGTTGCTATAAAGGAATACCTGAGGCTGGGGAATGT
AAGAAAAGGGGAATACCTGAGGCTGGGGAATGTAAGAAAAGAGGGGAATACCTGAGGCTGGGGAATGTAAGAAAAGAGGGGAATACCTGAGGCTGGGGAA
TGTAAGAAAAGAGGTTTATTTGGCTCACAGTTCTGCAGGTTGCACAAGAAGCATGGTGCTCGTATCTGCTTCTGGTGAGGCCTCAGGCTGCTTCCACTCA
TGCTGGAAGACAAAGAGGAGCCCACTACATGGCAAGAGAGGAGGCAGGAGATAGAAGGGGAGGCGCCAGGCTCTTCCACAACCAGCTGTCTGGGAAYGCT
CACAGGAGCTCAGAGCGAGAACTCATTCATTATGGCAAGGACAGCACCAAGCCATTCATGAGGGGTCCACCCCCATGACCCAAAAACCTCCCATTAGGTT
CCTCCTCCAACAACGGGGATCAGGTTTTAACATGAGGCTTGATGTGGCCAAAAAACCACATCCAAACCATAGCAGTAGCCCAGCTTCTCTTTTCACTCAT
TGTGTTTGTTGCCAATAAACTCTGTAGCCTCAAAAGATGGGAACTTTTCCTTTTGGGTGTTGTGGATCCCATCCATGAAACCGAAAGTAAGTGTTGAGCA
GAGCAAGCTGTATGTAAAGGCCAAGGAATGAAGAAGCAGGAGTGTGGCTCACAAATCAACTTCTCTACTCCTGAGGGGTGAGGGGATTGAAATAGAGGGT
TTCTTGAATGAAGGGGTTGGACATTGAAAGCAAGGGGAAGAATATTCATGGCTTTTCTGGAAATGGACGGTGAACTTCTGGGAGCTGAAGCACTGCCATC
TTTTTGTCCTTTTACGGCGTCTTCCCGTCATTGTCATGGTGATTGTCAGCCGCTGTGGCACTGGTGGGAGTGTCACGGAGCATGCAAATGAGGTTGTAAT
GAAGTTGGAGGCCCTGCAAAGGCCAGGTGGACTTCCACTTAGCATCCTGCTGGTCTTAGCTGGTTTAACCAAGAGGGGAGCCTCTGACCTCAGGCATCCT
ATTGCTGAAGATAGGCAGAGTTTGAGTTGTGCAACTGTTCAGCCAAGCCTACAAGATGTATAGTGCTGTGGGGGTAACATGGCCTCCCTACCCAGCCTCG
CTTCAGAACTTTCGTACCAAGGCTGGACTGTAGAAAAGTCCTTCCTATGCCATGGCACTTTCCCACTGAGGCCTCCCATGGGTGCCGTTTCCTTTGCTGG
AAGGTTCTCCTCGACTCCTGGCAGTCTATACTCATTTAAAGGTTTCCGCCTTCTCTAAAGCCTCTCACTGCTGGACTTCACGGTGGATCAGATTTCCCTT
TTATAAACATTCATAGCAGACTGTACATTTCTTTCACTGCGTTTACCAAACGATTTGATGGCGAAGTGCGTCAGGGCGTGGGCCTTCTCCATCACTAGCG
TTCCTTGCACCCCAGGAGCTCAATCCGTGTTTCCTAAATGAATACTTGACATTTCGCTTGATCGTATATTTTTGCACAGCAGTGATCTTCACGACCTTTG
ATTAGGCAGTGGCTTCTCAGATACGACAACAAAAGCATAAGCAACCAAAGGAAAAAATTAATTGGACTTCATCAAAATTAAAAACTTTAGACTTCAAAGG
ACATTCTCAAAAAAGTAAAAAACAACCATAACCTAGCAAATAATACATCTGATAAGGGCCTAATATCCAGAATATATAAAGAATTATTACAATTCAACAG
TAAAAAGACAATCCAATTCAAATTCTTTAAAATGTTTAAAGAATTTGAAAAATCTTCCAAACAAAATACGCAAGTGACCAGTAAGTGCATGAAAAGATGC
TCAAGGTCATTAATCACCAGTGACTTAGTCACCAATGACTAATGCATCAGTCACTTGAAATGCACATCAGAACCTCTGAGAGCTGCCAGGCCACACCCAG
TGGGATGACTGTAATCAGAAAGACGGGCGGCGCCAGTGAGGATGCAGGGAGACTGGAGCCTCGTACACATCGCCAGGGGAACAAAAACAGTGCAGCTGCT
GTGCGGAAATGGGAAGGCAGTTCCTGAAAGTGGGACGTAGAGCTACCATGTGACCCAGCATTTCCACCCTGAGGGGACACTCAGAAGACAGGGCAGATCC
CCAGTGACATCTCTTTCCCGTTGGGGTTTGCTTTTGTCACAGTCTCCAATAGAGGTCATCATTCCTGGTGCCAGACCAGCTACGATATTACCATGCGTGT
AGCGTTTTACGTGAGTTACGGAGTACTTGTGTGTTTTGTTTGGTTTTTCCATAGCTCTTTGAAGTCATAGAACAGTATTATTATTTGTCTCCGTTTTCAG
ATGAGGAAAACGAGACCTTGAGAGACTTTTGTTTGAGGTCATGCACGTAGGGAATGATAAAAGTCATAGACCTGCTTAGAGCAGCTCACAGGCAGTTATA
AAACAGGGTTTGATATTTTAAAATTGTATTTTTACATTATTTTAAGTGTTTCTATATGGACACATTTTGGTCTTTAAGAGTAATTTTATGTTCTGTGGCT
TGTAAACCACCTGCTTGTTTTCTGTACTGGGCACTTTTGTATTTTTGTGCCTTGACTTTGAGTGATTTTATCATTTTGTTAACACCACAGAGTGTACTTC
GTAAACCGAGATGGCGTGGCCTGCTACACACCCCCGCTGTGTGGCGCAGCCTGTGGGTCCTAGGCTGCGAGGAGCAAGAGCTGCACTAAATGCTGTAGGC
AGCTGGAACACAGTGGGAATTATTTGTGTGTCTAAACAGATCTAAACACAGAAAAGATGCAGTAAAAATACAGTGTGAGACTCCGTAGGGCCCCATCTCA
CATGTGGTCAAGTGTGAGACTCYGTAGGGCCCCATCTCACATGTGGTCAAGTGTGAGACTCCGTAGGGCCCCATCTCACATGTGGTCAAGTGTGAGACTC
TRTAGGGCCCCATCTCACATGTGGTCAAGTGTGAGACTCTGTAGGGCCCCATCTCACATGTGGTCATCTGTAGTTGACCGAAATGTTGTGTAACATGTGA
CTGTTTCCAGGTTAATTGCAGACAGTGGCACACCCTCCCCTAGGTTCTTCAGTTTCTGTTTTTTCAGTCTTTTGAGGTAAAATTTGCATGCAGTGAACTA
CCTACAGTATTATCTGTCTGCTTGCTGCTGAGGTATAGGACATGATTGCCACCCCAGAAACTTCCCTCATCCCTCATGTGGGGCAGGCCCTTTCAGCTGT
CTGGATTTGTTCCACTGTGGGTTGCTTCCTGCCTGTTCGGTGACTTCATGTAAATGGACCACCACAGTGTGTACTTTTTGTGTCTGCCTTGGTGGGACTC
ATCCTCTTTGTGTGTTTTACTGGTTTGTTTTGTCGTACTGATGAGAAGTATTTTTCCATTTTTCTTTTCTTTTTTTSTTTTTGTTTTTTGAGACGGAGTC
ACGCTGTGTCACCCAGGCTGAAGTGCATTGGCCCGGGTTTGAGTGATTCTCCTGCCTCAGCCTCCTGAGTGGCTGGGATTACAGGCACACACCACCATGC
CCTATTTTTCCATTTTTCAAAAACGGTTTATAACAATTAACTTTTACGCATTGTTGCTGCAAATGAGGCAGTTTTTAGCTGGTGCCGCGGAGGAAGGATG
TTACTCAAGTAGTTAATTGGGATTTTCCTGGTTTGTTTTYTCTTTTATTTTTACCCATCAGGTAAGACATCTTTTTTCATAATGTTATTTTGTTTGATGA
ATATGACTTGATATGAATAAGTTGATATGAATATGACTTGAGCTTTGGGACTTACCTCAAGATATTAATTTGTTTAGGCAGTTTATTTTGTGATTTATAA
ATAMAATTTTTATTTCCTATGTAACTTAAAAAAAATTATTTCCCCATAGCCGTGCTGGTATAGAGGACTCTAAGAAGTGGGGCATGCTGTTTCTGGTGAA
CCAGCTGTTTAAAATCTACTTCAAGGTGTGCTTCTGTTTGAATCCTTTCTGTCTTTACAATTTTCGATTGTCCTGGRCTTCCCACATATCATATATATAT
CAGCTAGCCTCCCTGGCGTTGCTTGTGAAATGATCATAACCGTATTCCTAGTCCTAATAGCAAACATTTGTTGAATGCCTACTAGGTGCAAGGCACTATT
CTGAATGCTTTACAAATGTCTTCCTGTTGACAATCAGCCCTCTGAGGTTAGCGCTCCCAGCCCCAGAGGAAACGAAGGCCCCTGTGTGTGAAGCAGCTGT
CCCAGTGTGGTGGAATTGGGCTTTCAGTGCAGGCGGTTTCACTCCAGAGCGTTTTGTCTTCTGTGGTCATAATTAACTATGGAAAAGCAGGCACGTAGAT
GGATAGATGGATAAAGAAACCATTGCCACATAAAGTCAGTCAGGTGAAGAGCAGCCCATCACGTGTCAGCAGCTGGGACTTGTGCCTTCTGTCCAGTGCC
TTCCACTCCTGTAGAGCACCCCACCTTCCTGCCGGTGCTGCATAAGCACAGGCTCCTGCAGGGCTGCGCCCCCTGGAACGGCTTCCCAGAGCCTCCACAA
GCACGGGCTCCTGCAGGGCTGCGCCCCCTGAAACGGCTTCGCAGAGCCTCCACTAGCACAGGCTCCTGCAGGGCTGTGCCCCCTGGAACGGCTTCGCAGA
GCCTCCACTAGCACAGGCTCCTGCAGGGCTGTGCCCCCTGGAACGGCTTCCCACTGCAGGGCTGCGCCCCCTGGAACAGCTTCCCAGAGCCTCCACCAGC
ATGGGCTCCTGCAGGGCTGCGCCCCCGGAACGGCTTTGCAGAGCCTCCCAGGGTGAATGCCATCTATGCTGGCTGCTCTCTGTTTTGGTTTTATTATATA
AATAATTGTTATGATATAATAGGTTTTGTAATTTGCATTTTAAGGAGACATGCTTAGTAATTTGTTTTGCCACCTGTTTTTGTTGTTTTTAARTATTTTA
AATGGATTGTTATTCATTATAGATCAACAAACTCCATTTATGTAAACCCCTAATTAGAGCAATTGACAGCTCAAACCTGAAAGACGATTACAGCACTGCA
CAGAGAGTAACATACAAATACTACGTTGGACGCAAGGCTATGTTTGACAGCGATTTTAAGCAAGGTATGTTGCTAATCTTTTTTTCCCAGTATTTTAAAT
AAGACATTGCATTCTGAACAACTTTGAATAATATAGTTTCAGAGAACACAATTACTGTATTTTATTTTTAAATGTGGACCAAGTTATATATACATATTTG
ACACTAAAGCTGATTAAAGGGAAATTATATTGAAGATTCTTAATCCAYACTGGGTCTCTGAAGTGCATGCTGGAGTCTCACAGGCATTACAGACATCGTT
TCTGAGTTCACTGAGCATGACTGTTCTCAGAATAGAATGTAAATCATTGTTTTCTTTATTTGCTTTTTGACCCTGTAATAGATGCTGGTTATGTTGACAT
AGGAAATGGAGATTAGGACAACATTTAGTTCAGCGACTGACTTCATGACCTACACATCCCGCATGGAGATGACTTAGAAGCAGGGGATATGCCCTTGGAC
CTGGTGTCAAAGCTCTCGTTTAAACAGCCTCGTGCAGTGTGTCGCTACCACAGAGCTCCTGTTTAAACAGCCTCGCACGGCGTGTCGCTGCCACACCTGA
CACTATTGTATTAGTTTACGTTGGTAACTTTCTCAAGAACAGGAAACTAGTCTTCTTTTTGTAATTTTTATCGGCTGTCACGGCATCATTCTTGGTGATC
TCTTCTCTYGTGCTCAAACCAGACTTTAAACTCTTCTTCAGCTGTTTGTGGAGCACACAGTCCCAAGTACATGAAGCAACATAACTTTAGGCAATGCAAG
ATAAATAATAGCCCTTTCATAAGGACGCTCTGGCTTTTTATTCTATAGGCTTKTATAGACCATTTCCTTTCACAGTTTTTACTCTGTGGGCTTGTATGGA
CTGACCATTTCCTTTCAGTTTTTAGTAGATCTAGGGCTTTTAAAGAAGGGCTTTTCTTATCTGTCTCTTTTTTTTTCTCTTAATATGAAGCATAAAGGTA
GAGAAGCTTTTAAATTCTATCCTATTGGATTTTATTAAGATACTGATTTTTTTTCTTCTGAGGATTCAGTAAGTGGTATTTTTGAATACCTAACATAGCC
AGAAATTGTTATTAATATTGATGCGACATAGTCATAGTTTCTGACATCTTTAGAGCTAAAAAGTTTGTTTAAGTCTGTATCATCCAACCCTTTCGTTTGA
CTATAAAAGAAATAGGAAGCCATTGAGAGTGTGATGCTCTGAGATTACTGAGTAATTCTGTGTCCCCAAAAAGCCAGCGCTGGCCATAGATCTTCTGCCT
TGTAGCTCGCAGAGATTTTGTTTTCCATTTTACTGCTAGGAATTCCTAGAGCCCTGATTGTATTTAAGTGGATAAAATGTCTGCAGAGATTGTGGTGATT
TTCTTTCCTGTGATTTTATATTATTTATGTAAGAAAGAGTATTTGGAGTATCTCAGTTGTTGTATGTATACTTTTATTAATTTATTAATTTCAGAGATTT
ATACCCCTCTACATATTTTTGACTCCAACCGAAATATATTATTTGATGCAAAATGACTTAGGTTCCCTCAAAGACAGCAGAAAAATCTCAGCTTGCATTA
ACTATTAGAAAATGCATTTTTTGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGTGGGTGGATCACGAGGTCAGGAGATC
GAGACCACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCAACGGTGGTGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAG
GAGAATGACGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCTTGGCGACAGAGCRAGACTCCATCTCAAAAAAGAA
AAAGAAAAAATGCATTTTTTGTACATCCAGGAGAATTTGAGATTACCTTGGGCAGTAGCAAAGGTACACTTTTTAGAGGCTAGTTTGCAAAAGTCAAACT
GGCAGCTGGTGGGATATTGCAGACTCTCAGTGAATCCTTGTTCTTTGGTCTCAGCCCCACAGGGCTCCTCGTGGGTCATGGCTTTGTGGTTTGGAAGAGA
CGCTGGCCCCACAGCATTCACGCTCACTGTGCAAGACTGGATGTTTTTTGTGCCAATGTGGCCACATAGTTTAGGAGCAGAGGCAGTGTGTGGTCTCAGT
GTGGRTTCCCTAGGCCTCGACCCAGACCCCAGGGCCTGCTGCTTCTGGTGACCCATTCTGCATAAGGGAGGGCCTCTGCAGCTCTGAGCATCTCTGTTCT
CTTATATTTGGGACTTAATATCACTGTTCAGGAAGAACTTACATAAACAGGAACATCTCACTTTCCTAATTCTTGACCCAAACTCAGCCTTAGTGAAGCC
TCTTCTCTTCACCTAGGGAGAATGTGGAATCATTGTCCAGAAACCCCTGACCCTTCAGCTTTCCAGCCTCAGGACAAGGCTCAGCTCCTGCCTGCCTGTT
CTGAGAGTTCCTTGTTAGCATGTGCTGAACTCTTTGCAGGCCTGTCGTGCAGTTTGTGGGATTAATCTTGACAAATAGAATTACTTTTGTATTTTGAAAT
CTATTAAATTCAAATCTGTTTTTTAATATTGCTCTCAGGMCAGAATTAATATGTTGTGTGTTAGTAATAATAAGTTAATTTTTTAAAGCATGTGGTCATT
TAAAATGGAAGATATATGATCACTAATTATATGTTAAGCTGGAGGATGGTGTTTTACTAAGTTATTTTCATTGTTTAATTATGGGTGATTAAAATGTATT
GTGGAGGTACATTTTTAAATATGTCTTTATATTTTTCATGAATGTAGAAATCATCTGAGCAGGGTCAGACTTTTAAAATGTTATCATAATGGTTTGCCAG
CTGACCTTAGGCAAATCAGAATCTCTGTGAAAGTTATTTTCTTCAGTTTTCCTCTGTTAAGTAGGACTTCCCAGGCAGTTCCTGTTGAATTTGGGGGTAT
GGATTTTACTTAAGGAAAGTCATTGATCACAGAAATGAAACTGGGATGATATTTTTTGAGATAATAAAGGGAGGGGGCTTTTGCCTTTTAAATCAGGAGA
CAGTGGTAGAAAATGGAGCAGGAAGGGGCCTGAAGCAGGTGCGTTGGTCTCATGCGTGCTGGCTCTGCCTTCTTTGCAGCTGAGGAGTACCTGTCATTTG
CCTTTGAGCATTGTCACCGTTCTAGTCAGAAGAACAAAAGGATGATTCTGATCTATTTGCTTCCAGTAAAAATGCTATTGGTGAGTGATTATTACTCCAY
GTTTATAGATCCTGGTGCTTTCACAAAGTTGACAGCTGATAGGTTTTTTTAAAACCTAGCAGACAGTCTGTAGTTGATCACAGCCTGAGCTGTGTATGAG
CACACCCCAAAATAAAGAAGGCGCATGCATTGTGTGTGGCCCAAACCCAGAGCTTCATGCCTTACGCCTCCAGGTCCTTCTAGAAAAGCTCTCCCTGTGT
CTTGTTTCCCTTAAAAGTATTTAACTCAAGAGTTTAACGTTCATGTGACAAAATAAGTACGTATCATTTGTATTCCTCCCTTAAAACCTAAGTTAAAAGC
AGTGGATTCACCAAGAAAGAAAAATGTCATTTCACCCTCTCTGTGGGTATTTCATTTAGTTACTAAAATGTATTTTTGATACTTGAAATAACTGGTAAGT
TAATTGACTAATGAGAAAAGCATTGCACACAGGTGGCTAAAGCTTCTGTAGCTCTGAATGGATTGTGATGGAGAAGCGCTGCTGTGGCCTTGCCCTCCTC
ACTTCTCACCCCATTTAACTGACAGCCAGTTTCAAATGCTTAGCTGATTCTTCTGGAAGCTACTTCCGTATGCCTACATCTCATGCTTATACTAGCATTT
CTTCAGTTATCACTCTCCTGTTATAGAAATTCGAAGAAATGTGAGAAGGTCAAGATCAAGGTCACGTGTCATGGAATGACAAAAGTGTGTTGTACCCAGG
TGTTCTGATTTCTAGACCTGTGTTGTTTTCCTAGTGTACTATGATGTGTTTAATCCATGGACATTCTAAGAAACTCAGGTTGCAATTTTCTTAAAACTTA
ATTCCTTGATATGAATATTTATCAAGGACAATTTTGTCAAAAATGAAAGCATTTTCATTCTGGAAAATTGACTCTTAGGGTCACATGCCCACTGTGGAGC
TCCTGAAAAAGTATCACCTGATGCAGTTTGCGGAAGTAACCAGAGCTGTGAGGTAGAGTATGCCATCCTTCCTGTTTGGGGTTTTAAAAATGCAAGCCTG
ATGAGAGTTGACGTGCACGCTCTGTGAGAAACTCACCCTCCTTCTGACGCGCCTCCCCCCTCACCAGCGAGGGCAACCTGCTGCTGCTGCACGAGGCGCT
GGCGAAGCACGAGGCCTTCTTCATTCGCTGCGGAATCTTCCTCATCCTGGAGAAGCTGAAGATCATCACCTACAGGAACCTCTTTAAGAAAGTGTAAGCA
TTTCCCCGGCACATTGGGCTCCCAGTGTGGCTCTCGGCAGAGCAGTCAGACATCCAGGGCTGTTGCAGTCTAAGAGAGAAGGCCACCGTGTGGGTGGGGT
CGTTATCTTCCTTCCATTGTGTGGGATAAAATGAAGCCTCCGCCCACTGCCTCCTGGGGACCCTGCGCGAGACACGTGAGTAGCACAAGCTGTGCCTGGA
CTTGTGGGGGAGGTAAGCAGGTTCTATGTGAGAAGACAACTTGAGAACATCAGCCCTGAGAGCCGCGGTACCACATTTCATCAGAGCACACAGGACTCGC
CACTCACTCCCCTCCCTTAGTGCTGACCAAGTAGCCCTCCCAGCCACTTCTGCCTGTCACAAAGGCAGATGCAGAGATCGTCATTCCTTTCCTCACACGT
CTTCTGAGGCCTCGTCCCAGCAGGATCTCAGTTGTGTAAACTTCAGGCAAAGGCCAACTTTGTATAGAGCTGTGGGTAGCACGTCACAAACAGTAGGGAC
CCTATTTCGCTGAGTCTGTGAGACACAGCCCATTGTCAGGTGCTTCCTGATTTCAGGGAGATTAAAATGTGAAAAAAAAAACCGAACCTTAATGAAATAC
TTAGAAAATAATTAAAAATTGTGTTTGTACTAGTGACTTTTTAAAGATTGAAAAGTCAAATTAGATTTAATAGCTCTGAGAGTGTAGTTTAGAGTTTATC
TAATAGGTGGGAATTTTTTTACTCYTTTAGAACACYGGCTTATTAAGAGGTGCCTTTTCTTGGCTGTGGAGTATTGCATCCTGTCGGTAACCACAGTGCC
CTTCTCCTCCCCTCTTCCAGGTATTTGTTACTGAAAACACACCAGCTGTCTCTGGATGCTTTTCTGGTTGCCTTGAAGTTCATGCAGGTGGAGGACGTGG
ACATTGACGAAGTTCAGTGTATTCTGGCTAACTTGATATACATGGTGTGTGAGTCCTGGTTTTAATTTAAGCAGCTACTCACAGCAAGATTCAGCCCAGA
ATYTGAAGCTTCAGTGTGGTGGTGTTAAAATTGTTAAAAGGCCTTCTGCTTTTTTTTTGATAGAACTAATTTTAGCCCAGGAAATACCATTCACCAGGGC
CTTAGGAGCATGAGGGGACGGATACTCTTGTATGTTTGCATATTCTTTACTGGCGGTACATCCCTCGGTATCTGTCGATTCTCCAACCCCCCTCGGATAC
CAAAATCCACAGGTGCTTCAGTCACTGATAGGACGTAGTATTTGCATATGAGCTATGCACGTCCTCCTGTATACTTTAAATTATCTCTAGGTTACTTAAA
ATACTCAGTGCACTGTAGATAGCTGTTGTACTGTATTGTTTAGGGAATCACGGCAAGGGAAGAGCGTCTGTACGTGTTCATTACAGATGCATTTTTTTTC
CCCAAATATTTTCAGTCCACAGTTGGTTAGATTCATGGATATGAAACCCACCGTGGATATAGAGGGTTGATTGTATTTATTTTTACTCATTGTCTTCCCG
CTGAACTGAACTGTGCCGCTCTTGGGGAAGAATGCTAATGCCAAATTAATTAGATCACCYAGCATCTTTGACATGACTCAGATCCAAAAATGTAAACGCA
TTCCTCCCTTTCTGCCCCGCAGGGACACGTCAAAGGCTACATATCGCATCAGCATCAGAAGCTGGTGGTCAGCAAGCAGAACCCATTTCCTCCCCTGTCC
ACGGTGTGTTGAAAGTACACGGAGCCCCGAGGACGGGTGAGCAGTTGTTTCTTTCCACTTTGGTTGTGCTGATGAGACCGGTCCGGTACTGCAACAAGGC
TCCCTGAAGCCGGAACTCTTGGAGGCGCTTTTCCCAGGGATGCTGAGGCTGAGATTTTCAGCACACCCGAGTTAATCTCCTTCATTTGTAACTAATTTCA
GCCTGATGAAAACCTGGAATTCCTTTTTCACAGACTCGGCTGGTTCTGGAGTCTTTGTGAGACTTCTTTGAAGGAGGCTTTGCGTGAAGGCTGCTCGGCT
CACTTTTCCTAAGTGTGGTTCCTGAAGGCTGTCTTTGTAACTTTTTGTAGTTCTTTGTGTAAAAAGCGTATTCTGAATTTATACACATGGCATGTTCTTC
ATTATATCTTCCAGGATACATCTATTTTTATATATTAAATTTGAATGTGTTATCAAAATGCTTGGTTAACTTAAGGCACCTTTTTAAAAGCAGAATTTAA
TTTGATTTAAATTTTCCAGATTTTATAGCTTGCCTGTATGGATGCTCCTCAATTTATGATRGGGTTACATCCCAATAAACTTATTTTATTTGCCTTTGCT
TTGTTGGTTAAAAAAAAATTTCTTTTAAAAAACCATCTTAAATTGAAAATACATTTAATACACCTGCTACTAAACATTATGGCTCACTCTAGCCTTCCTT
AACATACTCAGAAGCCTCCACTCTTAGGCAAAATCAAACACAAAGCCGATTTTATTTTATAATAAAGTGTAGATGCCGGGCGTGGTGGCTCACGCCTGTA
ATCCCAGCACTTTCAGAGGCCAAGGCAGGCAGATCACCTGAGATTGAGAGTTGGAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATA
CAAAATTAGCCGGGCGTGGTGGCGCATACCTGTAATTCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAAAGGTTGCAGTGA
GCCGAGATCATGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCTGTCTCAAAAAAATAAATAAATAAAAATAAAAGTGTAAATACCTCGTGTAG
CTTACCGAGTGCTACACTGAGAGTGGAAACTGAAGGGCTGCGTGGACGCTGAGGCATGGCTGCCCCTGAGCGCGTCCCTTCGGCACCACGGCGAGGTTGA
CAGTCGCTAAGTTGGGCCACTCACATTGGGCTGTTGGGGCTGCCATCACAGAATACCACAGGCAGCTTAAGCAACAGGAATGTATTTCCTCACAGTTCTA
GAGGCTGGAGGTCTGACTGAGATGGGGTTGCCAGCACGGTCGGCTTCTGGGGAGGGCTCTCTTCTGAGTTGCACACTTAAGAATAAGGTGGTATTCCTTG
CTGTGCTAGAGATGGTACAGATAGAGATGACTCTCTCCCTCCTTTTTTGAGACAGGACCTCACTCTGTCACCCAGGCTGGAGTGCGGCAGTGCAGTCAGT
GCTTACTGCAGCCTCGACCTCCGAGACTCAAGTGATCTTCCCTCCTCAGCCTCCCAAGTAGCTGGGAGCACAGGTGCATGCCACCACACCCAACTAATTT
TTTTATTTTTTGTAGAGACAGGGTCTTGCTAATATTGCACAGGCTGGTCTGGAACGCCTGGGCTAAAGCAATTCCCCCGCCTCGGCCTCCCAAAGTGCTG
GGTGACAGGCATGTGCCACCACACCCGGCTCTCTTCCTCTTACAAGGCCACAGTTCTGTCGGGGCAATTCCCCCGCCTCGGCCTCCCAAAGTGCTGGGTG
ACAGGCATGTGCCACCACACCCGGCTCTCTTCCTCTTACAAGGCCACAGTTCTGTCGGGGCAATTCCCCCGCCTCGGCCTCCCAAAGTGCTGGGGTGACA
GGCATGTGCCACCACACCCGGCTCTCTTCCTCTTACAAGGCCACAGTTCTGTCGGGGCAATTCCCCCGCCTCGGCCTCCCAAAGTGCTGGGTGACAGGCA
TGTGCCACCACACCCGGCTCTCTTCCTCTTACAAGGCCACAGTTCTGTCGGGGCAATTCCCCCGCCTCAGCCTCCCAAAGTGCTGGGTGACAGGCATGTG
CCACCACACCCGGCTCTCTTCCTCTTACAAGGCCACAGTTCTGTCGGGGCAATTCCCCCGCCTCGGCCTCCCAAAGTGCTGGGGTGACAGGCATGTGCCA
CCACACCCGGCTCTCTTCCTCTTACAAGGCCACAGTTCTGTCGGGGCAATTCCCCCGCCTCGGCCTCCCAAAGTGCTGAGTGACAGGCATGTGCCACCAC
ACCCGGCTCTCTTCCTCTTACAAGGCCACAGTTCTGTCGGGTTAGGACCCCACCCTTATGACCACATTTAGCCTTAGTTACCCCCTGAAGACCTTACCTC
CAGATACAGTCACACTGGGGCTAGGACTTCAATGTAAGAAATTTGGGGGACACAGTTTAGTCCCCAGCACTGCCATTTTTCAGAGTATGCACATTTCCCC
GTTTATAAAAAATTTACTAAAGAAGAACACAAACCATAAGAGCTCATCTTTGCAAAGTTACTGCATTTGAAAGCTGCTTGTTCAAGGAGAGGCTATTCTA
CAAAGTGTGAATCCCTCTTTCTCTCTCTCCGGGCCGCGCGGCACAGGACTCACTTTGTGTGGCTCCTTCCTCAGGTTCCCCTGGATGCAGGAGCTGCCCC
AGGGCTTCAGCAGCACTCCTTAGCTCGCTCCTACATCTGCAGGTCTGCAGTTTCTTCCGGGCTGGGCGGGGAAGCTTGTGGGCTCTTCTGGGGCCCGAAT
GGGCCTCTTTGAAGGTGACTCATTCCCGTGTATTGGCCCGGGCTCTCACCTGGAGCTCAGCAGGGCTGTGGGTGGGCTCCCCTGTTTCTCTCCACACGTA
GGGAGCTGGATTCTGGGAGCGCAGATCCCAGTAGAGCCAGGGAAGCCAGATCTCTTTTATGCCCTGCTCTCCTAAGTCACACCCGGATTCCAGCCGTGGA
CTGCCACACGTACACGCGAGAGATGAATGCACGAAGGCAAGCGCCTGTGCCTGTGGAGTTCATGCCAAGGATCCTCTTGACCTACGTAGCTGCTCCCCAG
CAGCAGCAAGGTCCTCAGCGCTGGCAGTCGTGACAAGTGCCTCCTATGTCCTGTGGGGCAGACACGGAGCAAACTCATGCCGGCGGAGGCTTTGGGCGCG
CATCTGTTTTCTAGCTACCCATGTGTCCAGTGGGGCCCCGTTCTCTTGCAGTGTTGGGTACGGAAATCTGATCTTCCCTGCTGCTCTGCATGGGCCTTGA
ACATCCTTCAACTTTTGATTTAAATGATTTTCTTGCAGTAATTTGAATATTGGAATTTCTGCCAGCATACCTGAATTTCATTCTGGATGTAATAGCGGTG
GAAAGCTCAGGTTTGTCAACATTTCTGGGTAACGTATTGAACCGTCCATAGTGACACCTAAAGTCAAGGATTGATACTTTAAGGTAATTGGATGGTTATT
CTTAGCGATGAAAGAAACAACCTCAGTGTAGGTGTCCTTACGTTTACCTCTTGGTGTTCAGGCCTCTGTCAGTTCGTTCTCACGCTGCTATAAAGAACTG
CCCGAGACTGGGTAATATGTAAAGGAAAGAGGTTTAATGGACTCACAGTTCCACATGACTCGGGGGACCTCAGGAAACTTACAATCATGGCGGAAGGGGA
AGTGAGCATGAGCAAAACTGCCACTTTTAAAACCATCAGCTCTCGTTAGACGCCCTCACTGTCACGAGAACAGCGTGGGGGAGCCGCCCCCGTGATCCAA
TCACTTCTCCACACGTGGGGATTACAATTCAAGATGGAATTTGGGTGGAGACGCAAAGTCAAGGCCTGTGTCCAGCATGGCAGCATTCAAGTCCACGGGC
GTACACATGGGCATGTATCAGTGTGTTTGCATGGATTCAAATATTGGACTTAATAATCTCTGCCCAAGTGTGAACTAGTTTGGCCCTTTTAAAACATCAT
CACAGGCTGGATGTGGTGGCTCACATTTATGATACCAGCACTTTGGGAGGCTGAGGCCAGTAGATTGCTTGAGCCCTGGAGTTCGAGACCAGCCTGGGCA
ATATGGCAAAATCCATCTCTGCAGAAAATACAAAAATTAGCTGGGCATGGTGGTCCACACCTGTAGTCAGGAGGCTGAGGTGGGAGGGTCAATTGAGCCC
AGGAAGTTGAGCCCACTATGAGCTAGGATCGTGCCCTGCACTCCAGCCTTGGGTGGCAGACAGAGACCCTGTCTCAAAAAACAAGAAAAACAGTCATCAT
AGCTAGCTTCCCTTTTCTTGAGTTTTACTGTTTTGTTAGATTTGTTTATGGTGTAGTTTCTAAGCATGTCATTAAATGCCAGTAGAGTAGTTACTTCATT
TTGAAGGCCCCTCATGTCTCTGCTGACAGTCTGGGCCTGTAGCTTTCTCTGATTGTTCCTGATTTCACAGATTTCACCATTACGGAGGGAGGGTCTTCAT
ATGCTTTGCCTCTGCCCAGCTGTGTTTGAAGTAGGTTTTTTTTTTTTTTTGAGATGGAGTCTCGCCCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCT
CGGTTTACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTCAGTAGCTGGGATTACAGGCGTGAGCCACCACACTTGGCAAAG
ATTTTTTTTTTTTTTGTATTTTTAGTAGAGATGGAGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCGCCCGCCTCAGCCTCC
CAAAGTGCTGGGATTACGGGCGTGAGCTACTGCGCCTGGACTGGAATAGTTTTCAAGCAGGGCTTCCACTCTAGTAAATCCAAATTTGTAATAGAAGTAC
CAGAAGCAAGATTGCAGACATTTCTGCAGCATTATGTACAGAAAGCCTGCCATGTTCATTAGCTGATTTTAAAATCATTAGTAGGCATTTAAAGCAGTGA
CTTACTTACCTTATTGTAGTTTGAGAATAATACAACCAAACTTCACTAAGACTTTAAAATTCACCCTAGTGAATTTTAAACTGCCCTCCCCATTAATTTG
CCTTAAATTACAGTGTTGCTTTTTGCCAAGGACCTTTCAGAGAAATGGGCCATTTCATCTACAGGTTGGAGAAAAGTTTAATTCTGGGGTTAAAGCGTAA
ATGAAAGAGAGTGTGCTGAAGAACAGTAAGGCTTAAAAACCCAAGTTATGTGTAAATTGTTCTCAACTCAAGAGAATATTTGTCCACCTACATTTTTAAT
TCCTCTTTTTAAAAGTCCTCTCTGCTCTTCAACGATGCTCTGCTCTGTGTCACTCAAGGACACTGGTGGAGAAGCAGCTGTGCCCCTTCCTTAACTAAGT
CAGAGTTAAAATGTGAACATTTATGCCATTTCTGTCCATTTCAGTGCAAATTCAGACCCTGCTAGGAGCTCCAGTCTCCAAGGACGTTTCACTGGGGGCT
GGACTGCAGCTCTGTCTTTGGTACTTGCATTGCAGCTGCAGCCTTCATGACAGCAGGTGTTTACTGTGATTCAGCACGTGCTGTCCTGGTCTGTTCTACA
AAATACCATGGACTGGGTGATAACAGAAACTCATTTCTCACAGATCTGGGGGCTGGGAAGTTCAAGATCTGGGTGCCGGCAGATTTGGTGTCTGCTGAGG
GCTCTCTGTCTCCAGGGTAGCACCTCACTGCAGTGTCCTCGTATGGGAGAAGAGATGGAAGGGGCTGGCAGAGCCCTCATGGCCTAGTCACCTCCCAAGG
GCCCCACCTCCCCATATCATCATCTTGGGGTAAGTTCCAATTTTGGAGTTTTGAAGGGACACACACTCCAGCCACAACAGTGCTGGGCGTTGCCCTAGCT
GCCCATCAGCCCATTGGTGAGGTGCTGGGATTCTACCCTGGGCGACCCTGAGGCATGAAGAGGTGGAACAGTTGTCCAAGAGCCACCTGGTGGGACGAGC
AGAGAGCTGGGTCTCAGTGCTCAGCCCTGACTTCGGGCCCCGGAACCTTCCGTGGGAACCCTCCCAGAGAAGGGCGGGTGCACAACCCCGTGAGACGCCG
GCGTGCCTCCTCAGCCTCTCTTGTGCTCTCTGGCCCTTTCCTCTAATGCTGCCTCTCTGGGATACCCACAGGGTCATTCTCCTCCATTGCCAACCTGCTT
CTAGTGGCTGCTTCTGCACTGAGCCATGGTCCTCAGTCACAGTGGCAATTGGTAAACCAACAGAGGAGGTCACTTTCTGCTGTAACCGGAGATTGTTGTC
GCTTCTGCACCAGAACACACTCACCAGTGTGCAGGCTGGGGTGGCTATTCCCTGAGCACAGGGAACACTGGACTTGGAGAAGGAAAGAATTTCTGGAAAC
CAGGCTGCTTTATGACTGACAGATTATCTTATTTTATTATTTAACGTATCTCATGTTTTCTTTTAAGGTCTCTATTGAGATAAAGAGTTCCAGGGAAAGA
AAGGTCACAGTGCTCGGTAAACAACCCAGCAAACGGCGGCTCTGCTGCTGCGTGGGCCAAGCGGGTGGTCTGGGGCTGTGACGGCCTCTCAGTGTGTGAT
GAAGTTTCAGCGCCCTCCACAGTGGCAGTGCCAGCTTGGAATCCCGCTTCCGGTTGTGTTGTTCATTCTGGCT


SNP Information

Context             (SEQ ID NO:64255):
ATATTAGCTTACTGAGCCATGCAGCACCTCCCAAGTGCTGATATACCACTGTTAAAAACCCAACCCCCAAACCCCTACCTTCCTTAACATCTCCAGGGGC
S
TCATCAGAAAAGCCTTGGAGTAAGGAAAAGCTGCTAAGCTCACAGTAGTTCATAAAAGTTTTCCAGAATTCTGGTTTTTCTTGAAAGCACAAATGTTGTC
Celera SNP ID:            hCV12128241
SNP Position Genomic:     22032
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64256):
TATTAGTTTACGTTGGTAACTTTCTCAAGAACAGGAAACTAGTCTTCTTTTTGTAATTTTTATCGGCTGTCACGGCATCATTCTTGGTGATCTCTTCTCT
Y
GTGCTCAAACCAGACTTTAAACTCTTCTTCAGCTGTTTGTGGAGCACACAGTCCCAAGTACATGAAGCAACATAACTTTAGGCAATGCAAGATAAATAAT
Celera SNP ID:            hCV783071
SNP Position Genomic:     31009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64257):
GCACACAGTCCCAAGTACATGAAGCAACATAACTTTAGGCAATGCAAGATAAATAATAGCCCTTTCATAAGGACGCTCTGGCTTTTTATTCTATAGGCTT
K
TATAGACCATTTCCTTTCACAGTTTTTACTCTGTGGGCTTGTATGGACTGACCATTTCCTTTCAGTTTTTAGTAGATCTAGGGCTTTTAAAGAAGGGCTT
Celera SNP ID:            hCV783072
SNP Position Genomic:     31153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64258):
TTGTACTAGTGACTTTTTAAAGATTGAAAAGTCAAATTAGATTTAATAGCTCTGAGAGTGTAGTTTAGAGTTTATCTAATAGGTGGGAATTTTTTTACTC
Y
TTTAGAACACCGGCTTATTAAGAGGTGCCTTTTCTTGGCTGTGGAGTATTGCATCCTGTCGGTAACCACAGTGCCCTTCTCCTCCCCTCTTCCAGGTATT
Celera SNP ID:            hCV783073
SNP Position Genomic:     35525
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64259):
CTTGGTTAACTTAAGGCACCTTTTTAAAAGCAGAATTTAATTTGATTTAAATTTTCCAGATTTTATAGCTTGCCTGTATGGATGCTCCTCAATTTATGAT
R
GGGTTACATCCCAATAAACTTATTTTATTTGCCTTTGCTTTGTTGGTTAAAAAAAAATTTCTTTTAAAAAACCATCTTAAATTGAAAATACATTTAATAC
Celera SNP ID:            hCV783074
SNP Position Genomic:     37061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:64260):
ACACTGGGCCAGTTGCTCATTTCTGCAGTTAGAAAGGAATGACAGTGTTTTGGAACAGAAGCTCGTTTCAGCTCTTTCACTTGGGTACTTAAATTTAGCA
Y
GGATCTGAAGACTCGTGCAGTACTTAGTAAGGAAGAACACTGGTTAGGAAGAAGGATCTTACTCTGCTGAGAAGAAGAATGCTTTGTTGCCTTTAGTAAG
Celera SNP ID:            hCV25992648
SNP Position Genomic:     17705
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,20)   total(C,1|T,51)
SNP Type:                 INTRON


Context             (SEQ ID NO:64261):
GACGCTGTTGGTGGTGTTTTCATTGCAGCGTTCACCCTTTCTGGCCTGTGTTTATTGTTGACACATATTTCATTTCTACACATGCTATAATCCCACAACC
R
TTGTTATTTTTGCTTTAAAAAGTTGATTGTTTTGTAAAGGAAATAAGAGCTGAGGGAAAAAAGAGTCTTCATTTGCCCACATTTGACCATGCCTGGAGCT
Celera SNP ID:            hCV25991848
SNP Position Genomic:     23969
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,22)   total(A,55|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64262):
TTTGTGTCTGCCTTGGTGGGACTCATCCTCTTTGTGTGTTTTACTGGTTTGTTTTGTCGTACTGATGAGAAGTATTTTTCCATTTTTCTTTTCTTTTTTT
S
TTTTTGTTTTTTGAGACGGAGTCACGCTGTGTCACCCAGGCTGAAGTGCATTGGCCCGGGTTTGAGTGATTCTCCTGCCTCAGCCTCCTGAGTGGCTGGG
Celera SNP ID:            hCV27042659
SNP Position Genomic:     28677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64263):
GTGGGGCATGCTGTTTCTGGTGAACCAGCTGTTTAAAATCTACTTCAAGGTGTGCTTCTGTTTGAATCCTTTCTGTCTTTACAATTTTCGATTGTCCTGG
R
CTTCCCACATATCATATATATATCAGCTAGCCTCCCTGGCGTTGCTTGTGAAATGATCATAACCGTATTCCTAGTCCTAATAGCAAACATTTGTTGAATG
Celera SNP ID:            hCV11924036
SNP Position Genomic:     29277
SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,7|G,29)   total(A,7|G,59)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64264):
AATTTTCCCCTGTGTGGCATTCAGTGTATTGTTGTAGGTTCTATTCGAACAGAATATTTTATTTTCTACTTAGGTTTCCCTTTCAAATGTTTCAGGTGTA
Y
GAAGCCATCGACAGCAGAGATGGAGCATCTTGTGCAGAGTTGGTGTCTTTTAAACATCCTCATGTTGCAAACCCACGACTTCAAGTAGGTGAAAGAGCTG
Celera SNP ID:            hCV27511591
SNP Position Genomic:     14196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64265):
CACATCCAGCTAATTTTTGTAATTTTTTTTGTAGAGACGGGCTTTCACCATGTTGGCCAGGCTGGTCTTGAACTTCTAGCCTCAAGTGATCTGCCCACCT
Y
GCCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCTCACGGCCTGAACCTTTTATTTAGAGTGGTAAATATAAAGTGTTACTGTGAACTGTAA
Celera SNP ID:            hCV3046046
SNP Position Genomic:     16239
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64266):
CAGATTTATATAAACATTTGCTCAGATTTCCACACTGTTCATATAGAGGGAGAGGTTCCATTTTGTGGTTAACCATTTATGGTATGTGTTATTTTTATGA
M
GTGAGTGGAACAACAACAAATGAGCTTATTCTGCATCTCTTCTACCTTTAAGATGTGGCCTGCTCCCCCACCAAAAAGAATTCAGCTTCATATAGATTTG
Celera SNP ID:            hCV25991164
SNP Position Genomic:     19908
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,3)   caucasian(A,12)   total(A,41|C,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64267):
TGGGGCACCACCGTGTTCCTTGTAGTACAAAGCACCTGTGATTTCCTAGCTCTGTGCAGTGTGCGATAGGTTCCAGATTTGGCGATGAACTAACACTGAC
R
TTACCCAGCTGGGAATCTAGTTTGAATGTCATTGTCAGCCCCTGCTAGAGTGGAAGGGTCATACTATGTTATCAACATGTGTTACTCATAAACCTGCTGG
Celera SNP ID:            hCV3046047
SNP Position Genomic:     17147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;JBIC-allele(G,476|A,1017)   total(G,476|A,1017)
SNP Type:                 INTRON


Context             (SEQ ID NO:64268):
TTACTGTGGGACTTCCTCTTATCCTCACCTGTTTGTGTTCAGCCATTTGTGTGTTTCTTCCTTCACTCCTTTCATCCCAGGACCACTGGGACCTGTGCAA
Y
GAAGTGAGCTGTGTGGGCTGCATAACTAGTGCTAGGTTTTTATTGTGTGACAGCATGTTTCTGTTTCTCCTCCAGGTGCACTTATGCAGTGGGGAATCAT
Celera SNP ID:            hCV3046048
SNP Position Genomic:     17388
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64269):
GAGCTGTGCACACAGATGTCTGCAGACAATTACAGGGTAACCACTTTCCTAAGAGAAGCGTAGAGTTTGAGTAAGAAGAAAACTAATATTGTCACTCTTA
Y
TTGAAAATTTTAAAGTTTCTTTATGATTTGTGTAATTTCAATCCATTTGTGGAGCACTGACTATGTACGCACACTGTGGTGATGTGGACCTCCTGCCCTT
Celera SNP ID:            hCV25972722
SNP Position Genomic:     14391
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,24)   total(C,1|T,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:64270):
TTTTTTTTTTACACCACTTACCTCAAGTTCTATACTTGCCAATCTTTTGATGTAAGCCCAGGGCCTTTTCTTTAGGCTGTGTCTGTTTTGGCCTAATCTT
W
GCAGACTTAACATTTTCCAATATAAGTTTATTTAAAGTTAAACAAGGATATAGGCATTTAAGAACCAATTTGATACGATTATCTTTAGAATTTTCTTAAT
Celera SNP ID:            hCV1633332
SNP Position Genomic:     7245
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64271):
AAGTTCTATACTTGCCAATCTTTTGATGTAAGCCCAGGGCCTTTTCTTTAGGCTGTGTCTGTTTTGGCCTAATCTTTGCAGACTTAACATTTTCCAATAT
M
AGTTTATTTAAAGTTAAACAAGGATATAGGCATTTAAGAACCAATTTGATACGATTATCTTTAGAATTTTCTTAATCTTTTACAATTTTTCCCCCATACC
Celera SNP ID:            hCV1633333
SNP Position Genomic:     7269
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64272):
ATTATATAAATAATTGTTATGATATAATAGGTTTTGTAATTTGCATTTTAAGGAGACATGCTTAGTAATTTGTTTTGCCACCTGTTTTTGTTGTTTTTAA
R
TATTTTAAATGGATTGTTATTCATTATAGATCAACAAACTCCATTTATGTAAACCCCTAATTAGAGCAATTGACAGCTCAAACCTGAAAGACGATTACAG
Celera SNP ID:            hCV25992509
SNP Position Genomic:     30193
SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,2)   caucasian(A,6)   total(A,30|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:64273):
TTGATACGATTATCTTTAGAATTTTCTTAATCTTTTACAATTTTTCCCCCATACCTAATTATTTTTTTAACAAACTCAAGTGAGCCTTTTAAAAACATAC
M
ACTTAGCTTATAGAGAAACAACTGTTTCCTTTTGCATTCATATTTCATTGATGAGCTTAAAAGTACATAACTACCATAACAGGTTCGGGTAGCAAAAATA
Celera SNP ID:            hCV1633334
SNP Position Genomic:     7415
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64274):
TAGGACCACCCCTGGGACACATTCATGCCTGCCAAGCAAGCTGGGGCCCTCCTTGGGCTCAAGGCCCTGTGGCACTGAGCCCTCCTCTGGTCAGGTCACC
Y
GTGGGACACTGGGTGCAGCCCAGGTAGGTGTGGCCAAGCAGAGCCCAGGATGTGGCGACATCACCCTGCATATGTGCAGGGACCACCCTGGGAGGTCACA
Celera SNP ID:            hCV27484031
SNP Position Genomic:     10111
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,21|C,1436)   total(C,1436|T,21) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64275):
TGTTTCCTCCAGGGAAAGTTCCAAATGCTTTAGCACATCATCTGGTCCATGTTTACCTGTTAACTTGGCATCACCAGTCTGAAGGTTTATTTCACTTATG
Y
TGAATGCACCATTGCCCCACCGAAGTACTCATAACTTAAAATATACCATTTAACCATTTTAAAGTACACAATTAAGTACATTCACAATATTGCACAACCA
Celera SNP ID:            hCV1633335
SNP Position Genomic:     8720
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64276):
ATTCACAATATTGCACAACCATCACCATTATCCAGAATTTTTTGTCACCCCAAATGGAAATGTCATAAGCATTAAGCAGTCACTCCCTGGTCCTCCCTCC
Y
GAGCGCTTGTCAACCGCTAATGTGCTCTCTGTCTGTATGGATTTGCTGACTCTGGTGATTTCAGTATGTGGCTTTTGTGTGTCTTTCCCTTGCATCATGT
Celera SNP ID:            hCV1633336
SNP Position Genomic:     8900
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64277):
ATCATTTGCATTAGATTCTGCCTTCTCCATCCTGTATTTCCTTTTGGGATGTACATGTGACACACACACAGACATAAACACACATATTTTTCTTGTTTCC
Y
TTCATTCTTATACAAGACGCAGCATTCTATACATACTCTTTTACAACTTGCTTTTTTCACTTAACTGTATCTTCCTAGAAATTATTGCATGTAAATTCCT
Celera SNP ID:            hCV1633337
SNP Position Genomic:     12043
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64278):
GCTGGAGTGCAGTGGCGCGATTTCTGCTCACTGCATGCAAGCTCCGCCTCCTGGGTTCGCGCCATTCTCCTCCCTCAGCCTCCCGAGTACCTGGGACTAC
R
GATGCCCACCACCACACCCGGCTAATTTTTTTGTATTTTTAGTACAGATGGGGTTTCATTGCGTTAGCCAGGAGGGTCTCGATCTTCTGACCTCATGATC
Celera SNP ID:            hCV1633338
SNP Position Genomic:     13019
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64279):
TAACCAAAGGCCTTTTGCAAACAAACCCGCCCTTTTATCTTTTTTTTTTTTTGAGAAGGAGTCTTGCTCAGTCGCCGAGGCTGGAGTGCAGTGGCGCAGT
M
TTGGCTCACTGCAGCCTCTGCCTCCCGCCACCCTTTTATCTTTTAACGTGAAAACTTGCACATGAAAACAGTCCAGTTTTGCCAGTTGGCTGTAAAAGTT
Celera SNP ID:            hCV27042660
SNP Position Genomic:     19089
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,3)      total(A,2|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64280):
TGAGATGTGTCTGGTATAGGGAGCAAAAGAAAGATATTGACTATTCTTTCTGGGTTAACACCAACAGATTTATATAAACATTTGCTCAGATTTCCACACT
R
TTCATATAGAGGGAGAGGTTCCATTTTGTGGTTAACCATTTATGGTATGTGTTATTTTTATGAAGTGAGTGGAACAACAACAAATGAGCTTATTCTGCAT
Celera SNP ID:            hCV25991817
SNP Position Genomic:     19844
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(A,3|G,9)   total(A,4|G,40)
SNP Type:                 INTRON


Context             (SEQ ID NO:64281):
GTAATTTTTCTCTTCTTTTTTCTCCCAAATCAAGTTATACAGTTTTCCTGCAGTTAACTTTTTTTTTCATTTAATCATCATATTGTGGACATTTTCTCAT
S
TTACTACATACAGATCTATTTTATTCTTTTTAACAGCAGCCGAGTATCGCATTGTATGAATGTGACATCTATTTAGCTATTTCCATTTTCCTTTTATTTT
Celera SNP ID:            hCV1633339
SNP Position Genomic:     13460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64282):
AGAAGCCCCTTAGTTGAGCAAGGTTGGAGTCTGTTGGGGCTCCTGTGGCTAGGCCTGCCCACATGGCACAGGGAGGGCCACTTTGGAAGGCATATCCTCT
Y
TGGGGCTAAACTGACTAATACTGGTTTTCTTGGGGGACTTGCAGACCAAGACCTGGGTGGGATCGGTTGTTTTGCCTTCCATCCCAGGGCCAACTACTGA
Celera SNP ID:            hCV27939430
SNP Position Genomic:     10794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64283):
TTGTTAGTCAGAAAGGCTGGCAAGCCAAGGCCCAGCCTGGGGTTGTACATGGAGTTTCCATGTCATCTGTGGCGTAGATGATGTTGAGGCAGTATTTTCT
R
TAGAAAATCTTGTGGACATTTGGTAAAGCCCTGTTTCCTCATTGACACCCTTTATCATATTGGAGTGTGTTCCTACTGGAAGCAGCATTTTTCTTTTGGA
Celera SNP ID:            hCV27042662
SNP Position Genomic:     14729
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64284):
GTGGCTGTGGGGAACTCTTAGCTTGAACCTCCTGTTTGTGTGGAACCAAAGAGAGCACGGCTTGGCCAGCAGGCTCCAGAACCGCTTTCTAGCCAGAAGC
S
CCTTAGTTGAGCAAGGTTGGAGTCTGTTGGGGCTCCTGTGGCTAGGCCTGCCCACATGGCACAGGGAGGGCCACTTTGGAAGGCATATCCTCTCTGGGGC
Celera SNP ID:            hCV27939431
SNP Position Genomic:     10700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64285):
ACATGCAGTGGATTACTTGGGACTTGAGACCCGGAAACACTGGGCCAGTTGCTCATTTCTGCAGTTAGAAAGGAATGACAGTGTTTTGGAACAGAAGCTC
R
TTTCAGCTCTTTCACTTGGGTACTTAAATTTAGCATGGATCTGAAGACTCGTGCAGTACTTAGTAAGGAAGAACACTGGTTAGGAAGAAGGATCTTACTC
Celera SNP ID:            hCV25992727
SNP Position Genomic:     17669
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,16)   total(A,1|G,45)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64286):
GATCTTAGTATCTGTCTGTCTACCTTTTAGATGAAATCCCTAAACCTGTGGCCAGGGCTATGAAGAGAAACTTAGTTTCCATAATACTTGGGCCCAAATC
R
TCTTGCACCCATTTGTGACTTTGAAAATGTCAGGAGCTAGGCTATGATGTGACGTTGAGCAGCAGCTTGTGACCTTGCATGGACTGGGGCAGGAGGGCTG
Celera SNP ID:            hCV11924041
SNP Position Genomic:     11334
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64287):
CAGGTAGGTGTGGCCAAGCAGAGCCCAGGATGTGGCGACATCACCCTGCATATGTGCAGGGACCACCCTGGGAGGTCACAGGCAAAGGAGGGCTACCAGT
R
AGTGCCCCCAGCAGGGGTCTCCGCCTCTCCTTGGAGGGCCCCGGTGTCTGTACTCCAGGGTTTGATCCCTTCGTGACCACTGTGTCCCCAGTGTGTTTAG
Celera SNP ID:            hCV27894550
SNP Position Genomic:     10232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64288):
CCAGACGCTGTTGGTGGTGTTTTCATTGCAGCGTTCACCCTTTCTGGCCTGTGTTTATTGTTGACACATATTTCATTTCTACACATGCTATAATCCCACA
R
CCATTGTTATTTTTGCTTTAAAAAGTTGATTGTTTTGTAAAGGAAATAAGAGCTGAGGGAAAAAAGAGTCTTCATTTGCCCACATTTGACCATGCCTGGA
Celera SNP ID:            hCV3046050
SNP Position Genomic:     23966
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,21)   caucasian(A,1|G,21)   total(A,14|G,42)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64289):
GTCGTTCTTTTTTATGGCTAATGATATTCCATTGTATGGAGTATTTTGTTTATCCATTCATCAGTTGATGGACCACTTCAGTTGTTTCCTCTTTTTGGCT
R
TTGTGCTGCTGCTGTGAACATTCTTGCGCAGGTTTTGTATTCTTTTTGGCATATACCTAAGAGTGGAATTGCTGAGTCATATGGTAATTCTGTGTTTAAC
Celera SNP ID:            hCV27894551
SNP Position Genomic:     9138
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64290):
CTCATGCTGGAAGACAAAGAGGAGCCCACTACATGGCAAGAGAGGAGGCAGGAGATAGAAGGGGAGGCGCCAGGCTCTTCCACAACCAGCTGTCTGGGAA
Y
GCTCACAGGAGCTCAGAGCGAGAACTCATTCATTATGGCAAGGACAGCACCAAGCCATTCATGAGGGGTCCACCCCCATGACCCAAAAACCTCCCATTAG
Celera SNP ID:            hCV3046051
SNP Position Genomic:     25597
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64291):
TTTGTGTGTCTAAACAGATCTAAACACAGAAAAGATGCAGTAAAAATACAGTGTGAGACTCCGTAGGGCCCCATCTCACATGTGGTCAAGTGTGAGACTC
Y
GTAGGGCCCCATCTCACATGTGGTCAAGTGTGAGACTCCGTAGGGCCCCATCTCACATGTGGTCAAGTGTGAGACTCTGTAGGGCCCCATCTCACATGTG
Celera SNP ID:            hCV3046052
SNP Position Genomic:     28123
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64292):
ATGTGGTCAAGTGTGAGACTCCGTAGGGCCCCATCTCACATGTGGTCAAGTGTGAGACTCCGTAGGGCCCCATCTCACATGTGGTCAAGTGTGAGACTCT
R
TAGGGCCCCATCTCACATGTGGTCAAGTGTGAGACTCTGTAGGGCCCCATCTCACATGTGGTCATCTGTAGTTGACCGAAATGTTGTGTAACATGTGACT
Celera SNP ID:            hCV3046053
SNP Position Genomic:     28202
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64293):
ATTGACGAAGTTCAGTGTATTCTGGCTAACTTGATATACATGGTGTGTGAGTCCTGGTTTTAATTTAAGCAGCTACTCACAGCAAGATTCAGCCCAGAAT
Y
TGAAGCTTCAGTGTGGTGGTGTTAAAATTGTTAAAAGGCCTTCTGCTTTTTTTTTGATAGAACTAATTTTAGCCCAGGAAATACCATTCACCAGGGCCTT
Celera SNP ID:            hCV3046054
SNP Position Genomic:     35803
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,25)   caucasian(C,5|T,33)   total(C,6|T,58)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64294):
GCCCAGGATGTGGCGACATCACCCTGCATATGTGCAGGGACCACCCTGGGAGGTCACAGGCAAAGGAGGGCTACCAGTGAGTGCCCCCAGCAGGGGTCTC
Y
GCCTCTCCTTGGAGGGCCCCGGTGTCTGTACTCCAGGGTTTGATCCCTTCGTGACCACTGTGTCCCCAGTGTGTTTAGTCATTGAAGTATGCTTCCATTC
Celera SNP ID:            hCV27502206
SNP Position Genomic:     10254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64295):
GAAAGGAAAAAGCAAAGTTGGGGACATGTTGGAAAAAGCAGCAGAGTTACTGATGAGCTGTTTCCGGGTCTGTGCCAGCGACACGTGAGTAAGGACTTGA
R
GACCGACCACCAGACGCTGTTGGTGGTGTTTTCATTGCAGCGTTCACCCTTTCTGGCCTGTGTTTATTGTTGACACATATTTCATTTCTACACATGCTAT
Celera SNP ID:            hCV25993138
SNP Position Genomic:     23856
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(G,20)   total(A,3|G,49)
SNP Type:                 INTRON


Context             (SEQ ID NO:64296):
GCCTTTGAGCATTGTCACCGTTCTAGTCAGAAGAACAAAAGGATGATTCTGATCTATTTGCTTCCAGTAAAAATGCTATTGGTGAGTGATTATTACTCCA
Y
GTTTATAGATCCTGGTGCTTTCACAAAGTTGACAGCTGATAGGTTTTTTTAAAACCTAGCAGACAGTCTGTAGTTGATCACAGCCTGAGCTGTGTATGAG
Celera SNP ID:            hCV15751672
SNP Position Genomic:     33600
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(T,38)   total(C,2|T,70)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(C,104|T,1393)   total(C,104|T,1393) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64297):
GTCCGACCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGAAATTATTGTTTACCCACTGCAGAGAGTAGTGACCATCTGTTAC
W
TTTTGATTGTTCTGTCTTCTTTCAAAGTAGGGGAAAATGAATTTTCCCCTGTGTGGCATTCAGTGTATTGTTGTAGGTTCTATTCGAACAGAATATTTTA
Celera SNP ID:            hCV1633340
SNP Position Genomic:     14056
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64298):
GACAGCAGAGATGGAGCATCTTGTGCAGAGTTGGTGTCTTTTAAACATCCTCATGTTGCAAACCCACGACTTCAAGTAGGTGAAAGAGCTGTGCACACAG
R
TGTCTGCAGACAATTACAGGGTAACCACTTTCCTAAGAGAAGCGTAGAGTTTGAGTAAGAAGAAAACTAATATTGTCACTCTTATTTGAAAATTTTAAAG
Celera SNP ID:            hCV1633341
SNP Position Genomic:     14306
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,13)   caucasian(A,14|G,6)   total(A,33|G,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,5)      total(G,4|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64299):
GTAAGAAGAAAACTAATATTGTCACTCTTATTTGAAAATTTTAAAGTTTCTTTATGATTTGTGTAATTTCAATCCATTTGTGGAGCACTGACTATGTACG
Y
ACACTGTGGTGATGTGGACCTCCTGCCCTTGTGTTTGATTCCTAGACAGCTCTCTGAGGTTTAGAGAAGTTAGATGGTGGAGAGGCGGTGGAGCTTAGAT
Celera SNP ID:            hCV1633342
SNP Position Genomic:     14461
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,8)   caucasian(C,12|T,8)   total(C,36|T,16)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64300):
CATCTGTAACTCATTAGACCTCACTTACTAAACCTATGACAGTTACTTAACAAGTATTTCTTGACTGACTGGTCAAGAATACTAATATACTGAAATGTAT
R
TGAAAGTGCCTAGAATATTTTCTGACTTGCAGAAGGCGAGACCAAATTATATTCATGGGCTTCTTTTTCCCCTGAAATATTGATAAATATTTGTTGAAGT
Celera SNP ID:            hCV1633343
SNP Position Genomic:     15872
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64301):
ACATAACTACCATAACAGGTTCGGGTAGCAAAAATAGATTTGAGAACAAACACATCTGGATATGAGAACACATACAACTTAGCTGGCAAAAGCTTGCGAT
R
TATTAGAGTGAAGCCTACTTGCTGAAAGTCGTCATCATACCTTGGGCATCAGCTCATGTATTTCAGGGAGGGATTGGAGAGAGTCATTTTTCCAATTCAA
Celera SNP ID:            hCV28004770
SNP Position Genomic:     7580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64302):
TGACTTGATATGAATAAGTTGATATGAATATGACTTGAGCTTTGGGACTTACCTCAAGATATTAATTTGTTTAGGCAGTTTATTTTGTGATTTATAAATA
M
AATTTTTATTTCCTATGTAACTTAAAAAAAATTATTTCCCCATAGCCGTGCTGGTATAGAGGACTCTAAGAAGTGGGGCATGCTGTTTCTGGTGAACCAG
Celera SNP ID:            hCV25962038
SNP Position Genomic:     29104
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,40)   total(A,77|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64303):
GTAAACAGCCATGAGACACCCGTGTGCAACAGAAGTGCTGTATGCTTCTCATTTCATCACAAAGAATATAAAAAACGTGTGCTCAAGGACCAAGATTTAA
R
AAAATTCATATTTACTGCATTATCAAGGACATTTTATTTATTTATTTAGAGATGGTCTTGCTCTGTCACCCAAGCTGAAGTGCAATGGTGCAGTCATAGC
Celera SNP ID:            hCV1414136
SNP Position Genomic:     22411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64304):
TGCATTTGTAACTTCAGTTTGGTAAAGCCTGTGGAAATTGTAAACATCAGTTATATAATACTATTTTTAACATCACACAGTATTTAGCAGAGTGCCTGCT
Y
AGTGGTCTTTTTAGTAGAGTTTGGAGCCGAACTGTTCACTTACCCTTTTCGTGGAAATATGTCTGTTTTTGAAGCTCTTTACGTTACTGGGAAAGAAATT
Celera SNP ID:            hCV8702358
SNP Position Genomic:     16739
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,178|C,911)   total(C,911|T,178)   no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64305):
AATGTTTGCAGCTCATTTAAGGTAATCTGTTGGGGAGGAAGAAAAACACACACATCTGGAAATTGCTGAATTAACTGGGGATTTTATCTTGCATTATCTT
R
TGCTTGAAGCAGTGAATAACTGACTTTGAAAAAGTGGGAAAATGCATTTGTAACTTCAGTTTGGTAAAGCCTGTGGAAATTGTAAACATCAGTTATATAA
Celera SNP ID:            hCV8702359
SNP Position Genomic:     16596
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,5)   caucasian(A,26)   total(A,49|G,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64306):
TAGAGGGTTGATTGTATTTATTTTTACTCATTGTCTTCCCGCTGAACTGAACTGTGCCGCTCTTGGGGAAGAATGCTAATGCCAAATTAATTAGATCACC
Y
AGCATCTTTGACATGACTCAGATCCAAAAATGTAAACGCATTCCTCCCTTTCTGCCCCGCAGGGACACGTCAAAGGCTACATATCGCATCAGCATCAGAA
Celera SNP ID:            hCV25996554
SNP Position Genomic:     36360
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,36)   total(C,65|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64307):
GTATAGAATGGGTCTTTTTCCTCTGGCTATGATTTTCTCTTTATCATTGGCATTCAGTAATTTGGCTCTGATGTGCATAGTTGGTTTTTTTTTTTTTTTT
W
AATTTCTTCTGTTTAGGGTTCATTGGGCTTCCTGTATTTGTAAGTTGATGTTTTTAAAAATTTAATGTTTTACATTCTTTAACTACTTTTGGCCCCATTT
Celera SNP ID:            hCV15928833
SNP Position Genomic:     24480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64308):
TACAGGGTAACCACTTTCCTAAGAGAAGCGTAGAGTTTGAGTAAGAAGAAAACTAATATTGTCACTCTTATTTGAAAATTTTAAAGTTTCTTTATGATTT
R
TGTAATTTCAATCCATTTGTGGAGCACTGACTATGTACGCACACTGTGGTGATGTGGACCTCCTGCCCTTGTGTTTGATTCCTAGACAGCTCTCTGAGGT
Celera SNP ID:            hCV25973181
SNP Position Genomic:     14421
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,27)   caucasian(G,8)   total(A,3|G,35)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(A,223|G,1268)   total(G,1268|A,223) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64309):
GCCTGTCGTGCAGTTTGTGGGATTAATCTTGACAAATAGAATTACTTTTGTATTTTGAAATCTATTAAATTCAAATCTGTTTTTTAATATTGCTCTCAGG
M
CAGAATTAATATGTTGTGTGTTAGTAATAATAAGTTAATTTTTTAAAGCATGTGGTCATTTAAAATGGAAGATATATGATCACTAATTATATGTTAAGCT
Celera SNP ID:            hCV12128231
SNP Position Genomic:     32940
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64310):
GGCCCCACAGCATTCACGCTCACTGTGCAAGACTGGATGTTTTTTGTGCCAATGTGGCCACATAGTTTAGGAGCAGAGGCAGTGTGTGGTCTCAGTGTGG
R
TTCCCTAGGCCTCGACCCAGACCCCAGGGCCTGCTGCTTCTGGTGACCCATTCTGCATAAGGGAGGGCCTCTGCAGCTCTGAGCATCTCTGTTCTCTTAT
Celera SNP ID:            hCV12128232
SNP Position Genomic:     32505
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64311):
GACGACACAGCAAGATCTTGCTTCGGAAAAATGAAATAAAAGTTCTTATATTTTATTAGGCAGATCAACAGTTGGTAAAGAAAGGAAAAAGCAAAGTTGG
K
GACATGTTGGAAAAAGCAGCAGAGTTACTGATGAGCTGTTTCCGGGTCTGTGCCAGCGACACGTGAGTAAGGACTTGAGGACCGACCACCAGACGCTGTT
Celera SNP ID:            hCV25993324
SNP Position Genomic:     23777
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,1)   caucasian(G,18)   total(G,47|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64312):
GCTACTCGGGAGGCTGAGGCAGGAGAATGACGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCTTGGCGACAGAGC
R
AGACTCCATCTCAAAAAAGAAAAAGAAAAAATGCATTTTTTGTACATCCAGGAGAATTTGAGATTACCTTGGGCAGTAGCAAAGGTACACTTTTTAGAGG
Celera SNP ID:            hCV12128235
SNP Position Genomic:     32179
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|G,10)   total(G,10|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64313):
ACTTTTACGCATTGTTGCTGCAAATGAGGCAGTTTTTAGCTGGTGCCGCGGAGGAAGGATGTTACTCAAGTAGTTAATTGGGATTTTCCTGGTTTGTTTT
Y
TCTTTTATTTTTACCCATCAGGTAAGACATCTTTTTTCATAATGTTATTTTGTTTGATGAATATGACTTGATATGAATAAGTTGATATGAATATGACTTG
Celera SNP ID:            hCV25962873
SNP Position Genomic:     28940
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,32)   total(C,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64314):
ACTTTTTAAAGATTGAAAAGTCAAATTAGATTTAATAGCTCTGAGAGTGTAGTTTAGAGTTTATCTAATAGGTGGGAATTTTTTTACTCTTTTAGAACAC
Y
GGCTTATTAAGAGGTGCCTTTTCTTGGCTGTGGAGTATTGCATCCTGTCGGTAACCACAGTGCCCTTCTCCTCCCCTCTTCCAGGTATTTGTTACTGAAA
Celera SNP ID:            hCV16186004
SNP Position Genomic:     35536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64315):
GTCCATTTCCCTAGATATTTATTAAATACTGTTTTTTCCTTCAGTTGTCAATTTTGAACTTTTGGTTTTAAACCTTAGATAAAAGAGGTAGACCAACTAC
R
GTTCATTTGGGGTGTTCTAATACATAATAATGGTGGTATTTTTAAATGCCTTGCCAAACTAAATTTTATGATTTATTAACAAACTATAGGTTAATACTGA
Celera SNP ID:            hCV783068
SNP Position Genomic:     18870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64316):
TAGCTGCATCATTTTACATTTTCACCAGCAATGTATGAGGGTTGCAATTTCTTCACTTTCTTGTCAATGCTTGTTTTTTTCCATTCTTTTTATTATGGCC
R
TCCTGCTGGGTGCGGAGTGGTATCTTCTTGTGGCACCCCATGATCTTTCTTGTCCCAAAGATTTTCTTCATTATGTTCCTTTTGCCAAGAACACCTCTCT
Celera SNP ID:            hCV8702365
SNP Position Genomic:     9363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64317):
CAATATTGCACAACCATCACCATTATCCAGAATTTTTTGTCACCCCAAATGGAAATGTCATAAGCATTAAGCAGTCACTCCCTGGTCCTCCCTCCCGAGC
R
CTTGTCAACCGCTAATGTGCTCTCTGTCTGTATGGATTTGCTGACTCTGGTGATTTCAGTATGTGGCTTTTGTGTGTCTTTCCCTTGCATCATGTTTTCA
Celera SNP ID:            hCV8702366
SNP Position Genomic:     8905
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64318):
ACAATTACTGTATTTTATTTTTAAATGTGGACCAAGTTATATATACATATTTGACACTAAAGCTGATTAAAGGGAAATTATATTGAAGATTCTTAATCCA
Y
ACTGGGTCTCTGAAGTGCATGCTGGAGTCTCACAGGCATTACAGACATCGTTTCTGAGTTCACTGAGCATGACTGTTCTCAGAATAGAATGTAAATCATT
Celera SNP ID:            hCV29326647
SNP Position Genomic:     30548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64319):
CAATCCAGCAAGACAGAACTCTGACCGTCACTGCCTCACTCCAGTGCCAGGCGCAAAGAAGTCAGCAGGTCCGTCCCACCCCATCTGCAAAGTGGTGCGG
R
CTGGGGGTGGCCCAGGACCTCCACCCTGGGCTAGCAGTAATGAGGAGCTAGTCCCCCTCCCCACCAGGTGGATGTCAGAGGCTAAGCAGGGGACCTAGAC
Celera SNP ID:            hCV29326648
SNP Position Genomic:     20528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64320):
TACTTGAGCCTAATGAGATACAGATATTTGTAATGTGAGCTTATACCTTTTTTCCTTCAAGAACTTACTATTGTTGCAACATAAATCTGCTCAAGGGTGA
K
CTACATTCCTTAAAATTTAGATTCTTATTCTTTACTTTTATCGTACGTAGCATTATTTGAACTTTGTATGCCATATCTTCCTTAATACAGTACATCATTC
Celera SNP ID:            hCV25998308
SNP Position Genomic:     18391
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,28)   caucasian(T,2)   total(G,2|T,30)
SNP Type:                 INTRON


Context             (SEQ ID NO:64321):
TGGATATGAGAACACATACAACTTAGCTGGCAAAAGCTTGCGATATATTAGAGTGAAGCCTACTTGCTGAAAGTCGTCATCATACCTTGGGCATCAGCTC
R
TGTATTTCAGGGAGGGATTGGAGAGAGTCATTTTTCCAATTCAAGTCAGTTAAAGTGAGACTGATAAGCGAGCTTCTACTCTATGTGTGTAAACTGAAGT
Celera SNP ID:            hCV28026638
SNP Position Genomic:     7636
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64322):
CTGGGACCTGTGCAATGAAGTGAGCTGTGTGGGCTGCATAACTAGTGCTAGGTTTTTATTGTGTGACAGCATGTTTCTGTTTCTCCTCCAGGTGCACTTA
Y
GCAGTGGGGAATCATGACTTCATAGAGGCATACAAGTGCCAGACCGTGATAGTCCAATATCCTTTGTCGTTCATGGCAGCTGTCCCGCATAGAACACATG
Celera SNP ID:            hCV25994201
SNP Position Genomic:     17473
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,27)   caucasian(T,8)   total(C,3|T,35)
SNP Type:                 SILENT MUTATION


Gene Number:                 401
Celera Gene:                 hCG28006 - 84000314004267
Gene Symbol:                 FGF14
Protein Name:                fibroblast growth factor 14;FHF4
Celera Genomic Axis:         GA_x5YUV32W8MG(15464806..15671136)
Chromosome:                  Chr13
OMIM number:                 601515
OMIM Information:            FIBROBLAST GROWTH FACTOR 14;FGF14


Genomic Sequence (SEQ ID NO:12561):
TTTAGTAAACTGTATCGAAACTTATCTACTTGGAAGGCAAACAATGTATGCCACAAAGTCATCCAGAACATAATGGAACTCAGAATGCAATAGGAAAAAA
TTTAATAATCAATTCAATTTCAATAAGGCTGTTTCTTGTTTGTATACTCTCCTCACTTCGAGTTTATATACTTTAATATTTATAGATAATTTTAACAAAT
ACATTTATCTGGTGTCAAATTCTATAATGGATTACATGATTAGATGTAGCAAATTTGAAAAAGGGCATATTGTCAATTTATCAATCAACAATCTGAAAAT
GAGGAGGCAAGATAGAAAACTGTGTGTGTGTTAGGAAGTGTGGAGAAGTGGTGAATCACAAATACCAGAAGTCCTTTTTGATTCAAATGGAAACAGTCTC
ACATCCTTCAGTAAGCCCCGAGGGTGTCACTGTTGAAATTCAGAACTCAAACTGTTTGTCATGTTTGGTTGAGCCCAGGACATCAAGCAAAGGCTAAAGT
ATTTTCGGTGTATCCTATTTATGAAGTTGAGATTGTGTGTAATCCAGATAGAATTTTAGGTGTCTTGGTGCTTAAAGAGATCAAGGATCTCTTTAGGTAC
CATGGGGTACTTCATCCTTGACAGACTGGATTAAGCAAGATTTTCTGTTCCTCTTATTTGGTATTAACTGTCTATTTGTTCAGATATCCAATGTCTTAAT
CCTTTCAATACACAAATCTTTATTGAGCACCTACTTGCCTGGCACCATTTTAAACACTGGATATGTGGCAGTAAACAAAGGAGACAAAGTCTGTACCTTT
ATAGGCTTATATTTTAAACGGGGAAGACAGCCCAAATAAATAAGGAAAGTACATGGAAATTTTAAAAGTTGTACGTGCTATGTAGAACCATAAAGCAGGG
TAGCAAGAAGGAAATGTCTGTGTTTATGAGTTGTAATTTTAAATAGATTTATGAGCAAAGATGTGAGGAAAGATTCATAGGAGATGAGAGTCAAATGCAA
CAGCAAGTATAAAAGTCCTGTCATAGGATCATGCCAGGTGGTTTGATGGACAGCAAGTGGTAAGTGAAGGGAGATGAATAGAGATGATGTCAGAGAACAA
CTGAAGGCAGAGATGGGGCACAAATCACATGAGCCATGGCAGGCCACTACAGTGAGGACTTTGGTTTTGAAGTATGGGATTTCGTAGTTACTATTGTAGT
ATAATCACCCAAAAGATGATGGTGGTAGGTAGTAGTGGAGGTGGTGAGAGTGATATCTTGGATATATTTTGCAGATAGACAGAATAGATCTTACACAAAT
ATATACGGGGTATTAGAGAAAGAAATGACATTAATATGATACTAAAGTTTTCAGCCTGAGGAACAAGAATGAAGTTGCCATTTCAGAAGTGGCGAGGATT
GGAAGAACAGGTTTAAGAAGGAAGAACAGTAGTTCGTTCATGGCCATTTTAAGCATGAGACACTTACCTATCAGACATCTTTGTAGAAGTTTCAATATAG
CTCTCTCTTTATTCAACAATTGCTGGTGTTAGTAGAGGAATGATGAAGTTTTTAGAAGGTGCCCTAGATTCAGTGTTAATTAGGGGTAGGTGGCAAGAAG
TTTCCCAGAGAAGATATCTATGCTGAGACCTAAACTATAAGCTCCATCAAGACAGAGCCAAAAAGTCTCTTTATTTTTATTTAAAAATCTGTTGGCAAGC
CATGGTGGCTCATGCCTTACTCTTTAGCTGATGATTTTTTTTTTTTAATCATCAAGAGGAGTGTGAGGATAGGGCAATAGAAATTTTCCAGGTAGAGGGA
ACAACATACTTAAAGTTGGAGGACCAAAAGGATCATAGCATCTTCAGGAGACCATCAAGCACAGTGTACTAATTACCTTCCAAACTGATGCTTGTATAGT
ATTTTAGTGTTTTTAGAAGTACTTTCTCATAGACCCTCATCATAGTCTCTGAAAGGTAGAGAAATGTTTTTATTATCAATCAGTTGGTGTGAAAGTAGGC
TTACGGGACTCAGTTCACAAATCTAGTTAATAATAACTAAGGTTTGAACTTGGGACTTATTTCGTCAAAATTTAAAATAACTTCTTATGTTTCGAATTAT
CTAAAATCTTGTCATGCATCCACTGTGGGGGGGTGGTGGTGAGGAAATATACATAGGGAATACATATATTTTGATATTGAAAAAACATGGAAACTGCAAA
AGAATTTACAAGATAGAAATGAGTAAACTGGAAGATGATGATAATACAGTCATAGCTGTCATTTTCAATTAGGGTGCACCAGATGTGGTACTAGGATCTT
TACATTTATTTACTAAATTTAATCTCACAGCAGTTGAAAAGGAGGCTCTGTTTTCACCTCAATTTGAGAGATGAAGAAATTGAGGCTGAGAGAGACTAAA
GCAACACCTTGGAGGTCATTATACAGCTAGGAAGTTGCAGAGTCAAGAAATGAACCAAGAACCTCTGAAATGAGAGTTCAGGCTCCCAATAGCTTGGTGA
GGAGCTACACCACCTGGGCCGTACTTTATTTTCCTCTTTATAACGTCAAAGGTAAAATTAACAACTCCAAGGAGGTTCTGATGAGTGACAAATTATTTTC
TGAACTACAGTAACCTTTACATTTGTGTTCACCGGCCCTGAATTGGTTTTCACCCTAGCTTTGCACATTCTTTTATCACAGCTTAAGACAGCAGATGGCT
CTCTTGCGTTTTCTTTCACTTACCTCCATCCGTAAACAACTAAACAGCGTTTTGGGGAGGTAAAATGAAAACGCAGGGATTAACCTAAAAGACCTTGATT
ATCCCAATGCTGCCCCCCTCTCCAAGATCCCTTAAAATAGGAAGCTACGTTGAAGAGAAATGACCGCTTGAGGCTCCTGAAATTCACAGCCAGAATAGAT
GCCCGGAGACTCCGGAGTCCGCTGTTCAGGCGCTGCGCCAGGGGTCGGGACGCTCGAGAAAGAAAGAGTATCTCTCGGTTATGGAAAAGCTGAAAGGCTT
TGTGTTCCAAGGTGTTATTAACGTCGGTAGAAGCTGTGAAGATCAATTTCCTTCCCATCATGAGGGAAAAAAGTGAGAAACTGCTTTTAGGGGAGGAAAG
TGTCAGAGACCCTCACAGCCAGCGCTTTTCTCCATCAGCGAACTTGCTTCTGCTGGGAGAGGTAGGGCTGGGGCGGGATCCCTGTCCGCGGTGCTGAATG
TCAGGCTGGTCCGAGGCTGCTGAACAACGAAGGGAGGGCTCTGAGAGGGCCAAAAACTGACCTCCTGACCCCCAAGTCCAAGGATTTGGGGGAAAGACTG
CAGCATAAGAAAATGCCTGCAAAAATAGAGGCACGGCTATAAGAACAAGAAGCTTAATGTCACTCTTTTCAAATTAATATTGTTGGCACATACATCAAAA
GGCTTAAAGAACCTTTAAAAATAAACTAGGTGTGTTGGGGAAGTCATACTAGATTTAAGAGGTCACTATACTTAACATTTTACTTTTTTGAAACACTCAC
TGCAAGAAGCCTTTGATAATAAACCTGGATGCTTTAATCTTACAGTCATTTGCAAATTCAAATCTAGAACTTCTGAAATGTACAAATGGCGTTTCTTCAA
TAATAGAAACCAAGAGTAGTGACTCTTAATGTTCAGTAGGACTCATTTCAGTGAATTAAAACAACAGACACACTCAATAGCCATTTAGTTATTTTCATCT
CTCTATAGACATCTTTCCCTTTTTAAGCAGGACTACAGCAACACAACATAAATGCACACTCACAAAAAAATGGAAGAAAAGAGACATATGAAACTGAAAA
TAGAGAGGGAAAGGCAGAGCAAAATAATTAGCATTCCCCTTTTTCTCACTTTTGCTATTTTATGAGTGACTAGGGATTGCAAGTTTCTAGCAAAACAACT
CTAGCATATTCCTTTTAATAATTGTAGAATTTGTAGATGTAACATAGCAAAGTGTAGAAAATAAACTTCCAGAAGTACACTTTGTAATATATGACAAACA
CCGTCGTAAAGCCAATGATCCCTGCCTTAGATCTAAATCTACACACTCTCATCAGGTTGCATTTCCTTCCCAAAAGGAGACTTGTTGGTAAATGTGGAGT
GAAGGTAACAAACAACAGCCCAGCAGTGGCTGCTTCCATGGAGAAGCTGTGGATAAGTTGCTTAGAGCAGAAGGTGCCCAGCCTCCCTGTAATCTGCTGC
ACTTCCCCCCAGTTGCCTGGTGGCGAGTACTCTACTGCCTATTCCTGAGACAAAGAGAAAGTGTGTTTTGGTTGAGAACTGCTCCCAGGGCTGCCTGCGT
AGTGTGCTTGCCCTCTTTCCAGCTCTAAAGCAGTCACTGGAGAAGAAGGTTGTTGCAAGTCTCTTGATTACCAAGTGAGCCATCTCTCCCCCTTGCTTCA
CACTGAATTTCCAGAAGTCTAGTTCGAGCATTTCTTTCTCTTTAGCTGCCTGAGCTGATAGGCAAAGCAGTGTAAAGGGAAGAGGAGAAAAGTAAGAAGC
CCGGAGCCAGAGCTGCACTTGGTTCTGCCACTCTGGTGTATCCTAGAAACCACGGAACTGTGTTCATCCAAGCATGAAGTGTTTCTCTCCCAACCTCCCC
CCGGCTTTTTGTTTTTTTCGGGTGCCCTCCACTGCCGCCCTTTCTCTTGGACCTTCACATTTTCAGGTATCCAGGAGGGAACCGCTGTCGGGACACAGAC
AGAAAATCAAGGGGGAGGAGACGCCGGCTGTTGTATTTGAATTTCAGACACAGTTCAGATGGCTTTGCTCCCTGACAGAGCTTCTTTGCCCAGGGACACC
AGAAGATGACAGCTCAAATTGGAGTGTCCTGTCTGGCTGCTTTTCACTGTCCCTGGAATAGTGTGACACCCTCCTCTGCCCCTTATATTTCTGCCCTGAC
TTCTTCAACATTCTCCTGGGCGTTTATCCTACCCAGCTGCTGTTCTGTAGCAGCTACTGCGGCTGTCATCTCCTCCTCCCAGGGCTGGGGAGCATATTTG
GGAGTGGGGTCTTTCTATCTCGCTTAATCACACCTTCTCTCTTTCCATTCCCTCCTTTTTGCTCCGTGTAGCCTTTCAAAATGACAAACCTACCCTTCCT
GCAGCAGAAGGGAGGGTCCTGCAAGTTTGGGTGGACTAGGTGAGGAGTGGAGGCTCCTCCCTCCAACCCGGGGTTGGGGGTGGCGACGGGGGGGCGTTGG
TGCTGGAGGGATTAGCAGGGAGGGCGGAAACCACCTCGCCCTCCAACCGCTGCTGAGAGTTTCAGTGCACCGGTAACCACGTTAAGACCGAGAAGCCCCA
ACCAAGCCGCGGAAGGCTCGGGAACCAGCGAGTTGCATCTAAGAAAAAGCGCCCCGATGTTCCTTCAATTCCACCTGCTTTGGCTCGGCCTCTTAGCACC
CCATCCCTGCAATCCATCTTAGCTTTCTTTCTTATTATTTTTAAATCATTATTACCTATACGTTTTGTTTCTTTCTGAAGAGGTACATCAGGAGGGGGAC
CACATAGGTGGAGGGGGTGTAGTGGGGTGGGAACGGAGCGTTTGATTAGAGATCTCAGGGGAGAAGATTGGTCTCTCCAGATGCTGATTTCCAAAGCACT
TGACAATCACCGGCAGAAGCCGAGAGCGGGCGGCGCCGGCGGCGGCACCGGCCCGCGGGCAGCTGGAGCCCGGCGCTGAGTCCTGCCCAGCGCGACCCGG
ACCGACGGACGCGCAGAGACCCTGCCGGGACCCGCCCTCCAGCCGGCGCCCGGGGAGCCGCCGGCCGGCTCTACCTCCCGCCCGGGAGCCGGGCAGGGCG
AGAAGGCAGCGCGAGTGGCGGTGGCGACCCCCGCCGGGGTTCCTGCGACGAGCGGTGACCAGCAGCGCCCGCAGCCGCGGTCCCGCTCTCCACTCGGACG
TGGCCAAGCGGCGGCGGCCACGACGTCCGGCTTCCCGGGATCGTCCGGCTGCGCCCTGGGCGCATCTGCGCGCCTGGCCCCGCGCCCCGCGGAGAGGGCG
ATGGGTCCCGGTCAGGACTGAGCSCCCCTTCCCCTCTCCCCAGTCCCGCCTGGCACCCYCTCCTCTGCCCCGAGGGCRAGCCACGGTCTGCGCCGCCGCC
TTCCCCTCCGGTGCCCCCGGCTCGCCGTCCTCCCGCGCCCTCCCTCCCCGGACCCGTTCCCGGGGCCACCATGGCCGCGGCCATCGCTAGCGGCTTGATC
CGCCAGAAGCGGCAGGCGCGGGAGCAGCACTGGGACCGGCCGTCTGCCAGCAGGAGGCGGAGCAGCCCCAGCAAGAACCGCGGGCTCTGCAACGGCAACC
TGGTGGATATCTTCTCCAAAGTGCGCATCTTCGGCCTCAAGAAGCGCAGGTTGCGGCGCCAAGGTCTGTGGGGGTCATGGTCGGGAGATGCGCCCCGGGT
CGCCCCCTCCCCGCCTAAACGGAGCTTCTCCAGGCTCCTTCCCTCCCTCGGTTTTCCCGGCCCACCCCGGCCCCGGCCTCCCTTCTGAGCACTCTGGGTG
CCGTCGCGGGGACCCTGGAGTCCGCTGTCGGGCAACCTGTAGCCGCCGAGAAGTGCAGCCGCCAGAGATGGCAAGTTGGCTGCTCCTCGCCGGCGGCTCC
TGCCCTCCGCGTCCCTGCAGGCTGGGCTCTGGGAAACCTGTTCCCCCTGAGTCTCGGCTTCCCGGGAGGATAGGGACTGGCACTGGCTCTGGAACGCGGG
GCACCCCTTCCTGCCACACCCGGGGTCGAGCCACCGCTCGCAGTCTGATCTGAGCTGGTGGGGGTTTCCATGGGGTGGGCCTGGCCTCACTTGGTCTCTG
GGGTCTCCTAGAAACCTCCCGGGTTCCCAGACCTTGGACAAATGTGGATATCCTGGCGGTGCCCCCAGCGGGAGCTGCTGTAGAAGGAGTGGAGGGTGTG
TGAACTATGGCCCAGTCCGCTGAGGTTCAGCAGAAGGCTGCTTAGCGCGCAGCCCTGGGCTCTGCAGCCCTTCAGTCAAATCCTGGGATGGGGACAGAGG
CTCAGGGAGTCTAAAGAAAGAATCCGAATTGCGGGGAGCGGGGGGCAGAAGTAAAAATCCCTAATATGTGTCAGTTTTAATTGAAAAACTGGCGAATTGC
CTGAGATACAAGCCGTTACTATATAAAGGTGACTAGAATAGTTACCTTACTACAGGTATTTCTTTGAGAAACTAGTACCTAGGATGACCTTCTTTCACTG
CCTTTGAAATGCCAGGGTCTGAGAAGGCATCCTATTCAGGAGCCAGGCGCTTTTGTCTCTCTCTCTGCCTGTCTCTGCATCCAGTTGCTAAGGCTGGTTG
TTTTGCGAGCATGTGGTGTGTTCTGTGGGGGAAATGGGCATTGCTGGCTTTTCATAACCRAGTGGGGTTGGTAGGAAACATTGAAGAATCTATTTACGTT
AATGGGAGTATATGTTTGCCCAGCACATTACATTGTCGGCTCCCAGCTGTATTTGTTTTAAATGCCCTGTTGTTCCAAAGACGGGGGATAGAAGCATAAG
CTATACATGTGTTTCTCAAAGAGTGAGTGCGTGTCCTTACATTTGCAAATTGATGACCAAAAGTTTTGATGCTTTTTTTTTAAAGGCTAATGCTGAATAT
TTTAAAAGGACAATTTCTTGTTGTCACATTTAAGAAATTGGAGATTACTTGCTCTTACTATCAAGCTTCAAAGGCAAAGATAGGAAGAAAATCAGAGTGG
AAGTTCTGTTAGAGAAATAAAATTATATAAGTAAAATAAGAACTTCTTGTTGGAGAATTTGGGATCAATCATATTTTCAGACCAGTGTAGGAGCCATTAA
GAAAAAAATGGATTTTAATTTTCCACATTAGCCTAGAGCCTTATTCAGCCCACCTTTGTGTAATGAGACCAACTCGACTGCCTTAATCACCGTTGATAGA
CGGAGGATCAATCTATTATGACTTAAATTGTGCTTATCCTCTTATGTCATCAAACAGACTATCTTTTAGAATACAGTTTTCACCACATACAGCTCCAAAT
TGGCTGTCTACATAAAGTAAATTAACATACTATCTACTAAATAAGCTTATTTTAATAYAAACAATGATTAAAACTTGTGTGTATTTCTTAAGAATATAGC
CAGTAGATTATTTTATAAATATGAACAATAAATGTTTTGTGCCATATTGGGTGGCGAAGGAGGATTTGCTTTACACTTAATGAATTTTAAGTTGGGTGTT
TACTTTTTTGTCAGTATAGAAAGCTGTCTGAGTTTTCTAATGGTCCGTTTCTCCATTTTCAACCCTGACTGCTCTGTTGGTATTCCTGATTTTGAAATGA
TAAGCAATCTTCAATGTTCTGTAAGAAAAATATATTTGAGGTCACTTTTCTACCTTACTTTGGACAGGAAAATAGAAGGGAAGATACGTTATAAGGAAAT
TGTATGAGAATTTTTTATTCTTCTTATATTTCTTATATAAAAGTATATATATTCTTCAGAGGAGAAAAATACAGATATATCTCTTGAGTATCAGAAAAGG
ATTAATTTATTAGTATCACTAATTTTAAGCAAAACAAATATTAAGACTTTATGTTATGTAAATTATATATCGACATATAATAGTATGCTTTTATATTATT
ATATATAACAATATAATTATTCATTTAATTAAGTCTTATTGTCGAACATATTTTCAAGCATATTTACCTTCTTATTACACACTCTTTACATAGGGAATTG
CCCTCAGAAAATTTTAAAAAATCATATTTATTAAAGATACAACCTTTAAGTCTGATGGTTTTATATGTCTTTATAGCTGAAAATAATATAACAATTATTG
AATCTTTACAATCTGTTAGGCTCTGTAGCAGGTATTATATATACATACAGCAGTGAATAGAAGAGTTGAAGTTCCTGCCATCATGGAGCTCACAAACATG
GGGTAGAGAGTCATTGCCTATGGAAAGGAACAAATTAATAAGAAATAATAAAATTCAAAGTCCTATAAAGCATGAAGAGAGCTGGGATAAAGAATTATGG
AGGAGAGAGGGGTGGGGAGAGGGATCTAATTAGATAAAGTAGTCAGGGTGGGCAACACTGGGATCCACAGGTTGAGAGATGACAGGTAAGAAGGATGCAG
AGATTTTAAGAGCAGGTAGAAAAAGCAATGTGTGTGCAGAGACCTTGAGGTGGAAAAAATATTGTCCCATTGGGAGAAAAAAAAGAGGCATAGAAATTTT
AAGCACATTGTCAAGTAGAATATAGTGTGATATGCTTGAAAACAGAATAAAGAATAGCTCCACATTTTGTGTTTTGGGGAAGGGTAATACACATTTTTGA
AATGTAGGGTTTTAAAAAAATCCTTTATTAAGTAGTAATTTATTTAATGTAAAGATTATTGAGTTGGAGCCCTACACCCACACTCTTTCCTATCTCCATC
ACCCCTACCCCTATAGAAGAGTGATGTTTATACCAGTTGACTTACTCTTRTGAAGGACAGAAATTTGCAAGATGGCTATTAATGGTGTGGTAGGCAGCAT
GACTGCAACCCACCTTTCCAGATTCAGCTCCATCTACCCTCCACCGACCTCCACAGATTTCAAACACAATACAATGCCACACACCCCGCAAATTAGTCAT
ATGCTTTCAAATCCTTATCCTTTTGTTTGTGCTTTACTGTGTGTCTAGCATCTTCTCCTCACTTCTACATTCACCTGTTGAAATTATGAAATTATTCTCA
TTTTGAAAAGCTGAGAGAAAATGCCATCTCCTCTGAGAAGCCTTCATTTATTGGATACAATTAAAAATAATTCTCCTGTGGTATTTCATACGTCACTGTT
GTTGTTTATATATACCTGATAATAATTAATTAAGTATACATATTCAGCTGATTGTAGGGAAGAAGCAAAGTCTGTGTTTTCTGCATCTTCATAGGCTCTC
AAATCTTGAGAGTGTTTGCCATACACTGGGTTCTCCTCATTGCCCTTGGATTGGAGTGAAATAAGGAAGGTTAATAGGCCCAAGCTAAAAAAGAAAGTAT
CCTTGAACCAGAGTGATCTAACTAGATAATTTTAGACATAAAAATACTTTTCAAATTTTATACCTTTTTTACTTTCCCTAAATAAATATAATTATATCTT
TTTTTAAGAGAATTAGAGGGATTACATATTTGTGGGTTATTTATAAGAATGCAAGAACATAAACAACCTCATTTTAAAGCTTAACTAATATATGAACAAA
GATATTTACATATATTGATTTAGCCAAAGAAAGGGGAATTTACAAGGAAATCAACAGTTTGCAAATAGTTTTATTATTTGGAATCTTAACAAAAATGAAA
ACTAAAGTAGCCACTGACTACAATGGTGTATAATGAACATTGTATCCCCAAAAGTGTTATGTTTTTATTATGAATTTTTCAATCAAACAAGAACCATAAT
TGTTCACAGGATAATAACCTTTCTAAATCTTTGGCATGGCTGCTAATGCAGTTGTTTCTTGAGATTTACTTTTTTGGGGCTGTGATCATGAGAGCTATGG
TATTATGTGCCATGTATGCTTAATCAGCAGGTGCCTGGGCTTCTTACTAACATTTTAACTAAAATAAATTACAGTATGTATAAGGAATGGAAAGTGAGGT
ACTTAAAATGTGTTTTCAAGTTAATGCATAATATAAAAAGCAGAAATGCATGTACACCTATAGAAATAAACTGCTTTGCTCCAGTGTGATAGTGAAATCC
ATCAGTTATTCTAAGAAAAGTGTCCTTCCTTCTTACAAGGTGCTATGTAAGGAAACAAGTGTCTACCGTCTCAGAAAATAATCCACAGCAAATAGTCATC
AAAAAAAAAAAAAAACACTGTTTTTGTGCGCTACTGTTTTAGTGTCATTACCATGTGCTCATACAAAGACCACATGCTTGTTTGTTTTGGCTGTTTTGGC
TAAACTAAAACAAGGGAACATTTTTCTTCAAAGCACTTTTTATTTTTTGGAAGATATTTTCTCTTTGGTGTTGGTTTTCTAAGGCCATACCCATTGGAGT
CTTACTACATATTAATACCTGTTGCTAACTTTTTGATAATTATAATTTTATTATTTGTTAGTTGTATTAAGGTTAGATCAAATTATGGTCTTCTAAATTA
AAATGTTGAGTTTTGTTTTGTTTTGTTTTTAACAAGGGACATACTATAAATGCAATTTCTAAGCAGGGAATCTTATGAGAATATTACCAGATTGGTCAAT
GAAATAATGTTAGAGACAAAAAAGGCATTCATTGTTTATGCATTTTCCTCCTGTGGCTTAATTGTTATGATTTCACAGTCCATATTTGCTATAGGTTTCT
GAAAATGTTTAATACCTCAGTAGTTCAATAAGTAAAGTGTAAAATAGTGTAACAGATTAGGTATAATGTAATTAAACATAAAGAAGATGGTTTGCTTTGG
GTTTAGTTATATCCATAGATTGAGTTGAGTTTACATATATTAATAATCTATGGCCAACTGTCTGGTGAAGAAATCCTGTGACCTTTCCTAACAAGATTTC
AGATACACAAAACCTTCTGTCCCAAAGTTACCGTAATCAATTACGGGCTTCACTTCACATTTTGAATTTGAATACTTTTACATTTAGCCCCAAACTTGTG
ATTTTTGTTAGTAATTCCATTCTCTATGATGTTACTGTGAGAACAAGTATTTTCAAACCCAACAAGAACCTCCCTTCTCTTTGGTGTAAAGTTACGTCTT
CTAAATTTTATTTATTTAAATTTTTTTAAATGGTAGAAATTTAAAAGGAAAGGTTTCTAAATATGATTTATCCACTTAGTTATGGAATTCTATATTTTTC
TTAGATATAATTTATATTAATGTCTCCCCAAATGTTGAGAAACTTTAGCCAAAGAGGACTATGATATTTAGATAATACAAATGTTATATAATATTTCAAA
TATTGTTTTAGCACCCAACAACTAAAACACACACACACACACACACACACACACACACACACACACACACACACACACACGAATCCAAATCTCTAAGAGA
CCATTTCAGAGACGTCAATGCAATTTAAAGCCAGTTACAGTGTTTGCATTAGAAAACAACTAATTTCATAGTTTTGGTCTATAATGGTCCAGCATTCAAT
TTAAGAAACTCAGATCACATGAAAATGTCACCATTTGCTGTTTACTGGGGTGACAGTATACCAGTAGGCATGCGTAGAAATGCAGACACAGTGTCTACAC
CATTTTATGATAGGTACTACTTTGTCATTCAGAAAAATGTCTCCTTTCATAAAATTAAATTTTGTAATTTATTTTGTGGAATGTATGTTTCTCCCTATGA
TTTTATGGTTTTTGATATTGGGATTGATAGGAACCCATACGGCATCACCATAGGGAAGGGCCACTTCAAAGTCATTGTCTCACCAGTGCCTGGCATACAG
CTAACACTTCAGAAGTATTTGTTGAGTGAATGAAACATACCACATTTGTCAGGACATATATGCAGCAGAAGCATAGAATACAATTGAGATAAATGAACGC
ATAGCAATGGCTATAATTGGATAATTATTATTATTATTATTTTGGTCTGATTTACTTTTTATTTTATTTATTTTTTTATACTTTATGTTTTAGGGTACAT
GTGCACAAAGCGCAGGTTTGTTACATATGTATACATGTGCCGTGTTGGTGTGCTGCACCCAGTAACTCGTCATTTAACATTAGGTATATCTCCTAATGCT
ATCCCTCCCCCCTACCCCCACCCCACAACAGGCCCTCGTGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCCTTGTTCAATTCCCACCTATGAGTGA
GAACGTGCGGTGTTTGGTTTTTTTGTCCTGGTGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCCTACAAAGGACATTAACTCATCATT
TTTTATGGCTGCATTGTATTCCATGGTGTATATGTGCCACATTTTCTTAACCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATT
GTGAATAGTGCCGCAAGAAACATATGTGTGCGTGTGTCTTTACAGAAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAA
ATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTAT
TTCTCCACATCCTCTCTATCACCTGTTGTTTCCTGACTTTTTAATGATCGCCTTTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATT
TCTCTGATGGCCAGTGATGATGAGCATTTTTTCACGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCACCCACTTTA
TGATGGGGTTGTTTGTTTTTTTCTTGCAAATTTGTCTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGATTGCAAAAATTTTCTC
CCATTCTGTAGGTTGCCTGTTCACTCTGATGGTGGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTT
GCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTCGCACATGCCTATGTCCTGAATGGTATTGCCTAGGTTTACTTCTAGGGTTTTTATGGTTTTAGGTC
TAAAGTTTAAGTCTTTAATCCATCTTGAATTAATTTTTGTGTAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACTTATGGCTAGCCAGTTTTCCCA
GCACCCTTTATTAAACAGGGAATCCTTTCCCCATTTCTTGTTTTTGTCAGGTTTGTCAAAGATCAGATAGTTGTGGATATGTGGCATTATTTCTGAGGGC
TCTGTTCTGTTCCATTCATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGAAGTCAGGTAGCATGA
TGCCTCCAGCTTTGTTCTTTTGTTTTAGGATTGACTTAGCAATGCGGGCTCTTTTTTGGTTCCACATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAA
GAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCTATAAATGACCTTGGGCAGTATGGCCATTTTCATGATATTGATTCTTCCTACCCATGAGCAT
GGAATGTTCTTCCATTTGTTTGTATCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTTCTCTTTGAAGAGGTCCAATAATTGGATAATTATTAATGTAT
TTAACAACTACCTGCATGACACTCTGTGTCTATTGAGTACTATTTAATCTTCACAACAAACCCATGTGGTAGGTACACTACATTATCCATTCATTAATAC
ACTAAATTATCCAGTAATCGATAATACACTAATATTATCCATTCATTCATTTTACAGATGAGGAATCGGAAACAAAAATAAAAAGCTTGCATAGCTTTGA
AGAGTGGGGCTGGGATTAGGAGAAGATCTGCTAACTGTTTAGCCCATCTGCCTGCCTACTATTTGCCTGCACTTACAAGGCTGAATTTGGCTGAAGAAAA
ATACGCAGACACATTGGTCCTACTTTAAATTCACAGTCAATAACCTCAGGGGGCCCCTTGGTACATTTCTTTTTTAAAATCCATTTTCACTTAACTGGAT
CATATTTCTTACCTTACTTCCCTTCAAACCTCTTATGTCTCCTCTCCCATTTCTACTCTCAGCTATATCCTTACTTCTATTTGTCTGAGAAAGTAGAAAT
AATAAGAAATAAATGTTCACATACTCCACAACTGCTTTTATAAGTCTATCTGCAGATCTATCCATTTACTCCTCTTTTTATTTTTTTACTGAACTTGGGG
ATAAACTCCTAGTGCTGTAATCTAAGTTCAAGACCTCATCAAATTTAGCATTAGACCATCTCTCCTACTCAGGGAAATCAATCCAATAATTTTCTTCTCT
TCTGCATCATCCTACTGTGTTATCCCACATCCTCCTGTATTATCCTTAACAGTATTTAAATATGCTCTAATATTTAGAACATCTTAAATAATTACCCCAT
GTTAAAAAAGAATCCCCTCTTGGTTATGCATTTCTCTCTAGCTATTGAATTAATTGTCTGTTACTGGCAAAACTCTTTGAAAGAGAAATTGCAACTATCC
TTCTCCCATTCTCTCTTGGACCCTTTCTAAACAGGTGTTTGTCCCCAGTAACAAACTGTTCTTGTCACGGTCACCCATGACCTGCAAGTGATCAAACTCA
AGATTCTGTTTTCAGTYCTTATCCTACCCGTATAGTATTTGGCATTCAAATTTTCATAATAAATTTGTATTTTTTACTACAAAGTGGTAAAGTTAGCATC
GAAATACTTTAAACCTACCATTTACCCAACCAGTACCCTTTATGCGATCATCTTTTTATAGTGACGATATATTTGGGTTTCTAATTGAGAGTATTAATAC
GTTAACTATTCCATGTGATTTGATGTTCAGCCAAACACTAATAGTACTCAGTTGGTATTCGGGTACCATTAGAAGGCAATGCTTGGTGTTTCCTTACTTG
GGAAGAATATTCCTTTCATCACATGTATTTGTGTTTGGACAGAGTGGCTTGTCTCTATAAAACAGAAGAAGATGAATGGTCTTTCTGAGAATTAGTCTTT
GTATTTAAATATAATAGATTTGTGATTAAGCAACGGCTGCTTTTCAGACTCCTTAATTACTATCATAGCAAATAATCATTGGCAAACTAAAATATTAGTT
TGCTTAATGATAAATATCACTCAAGTTTAAGCATTATGTAGAAAGAAATAGTCATAAACTTTGGAAGGGCCGTTTATCATAGTTCATTTTCTCTATGTGG
AACGTTTTCATGGATAGATTTGTTCCTTATTTTTACACCTAAGGGTTTCAAGTATTGATAATATGTTCTACCTCTTCTTTACCTACCTATTACACAGACA
TGATTAAGGTAATGTTTCTACATTTGTGTTTTTAGTTTTTCTATGTTAATTTTTTGTCAAAATGACAAACAGCTTTTAAGGTATAAGCAAATGGCAAAGA
GCTGGCAATTAGAGTAGATGAACAAATTTATAGACATGATAATATTATCTCTTCCATTGAGATTTTCCGGGGTAACATGTAACTACTTGGCTCAACAACG
AGACATGAATGCAGTGTCTTTTCTCAGGAAACTCTYCAATGATGGATGGGTATTTACTTGTTTGTTTTCTTCAGAATCCAACAATTCTCTTTCTTTTGAA
AAAGCCTTTAAAATAGTGCGATTCTCATTGCTTAATGTCTTTTTATTACACCACATGCCTCATTTTATCTCTTTGAATTTCTGTAAATAATTCCTGCTTA
TCCTTGGATACAACATGCCCTTTAAATATTTGTTCATGGCTTTTTTATTCCTCTTACCATTTGGCCAACTTACAATTGTTTAACCCTATTAATCTTTCTG
CATAAGTAAATGCCACCAGCACCTTAATCATTTCTGTGGCTTAGATTGTTCAATAATTACCTCATCCTTATTCCAGCAAATGAGATGACTGCTGTTTTCA
TGAAGAGAATTTCATGCTGAGGCCAAACTTGGGGTAGAGAAGACTGAATGCATTTGCTGTCTTGCTTCTCTCTGGGGTGGGATCTGATCTGAATACAGGG
ATAAGGATATTGTACAAATCTATGCTAGGTAGAAGCAGTCTTCTTGGTTTCATACCTGATGAATTAAAGGAAAGTGTAGGGAAAGTAACCAGACATCTTC
ACTGCATCTGCTCAGATGAGAAGTGTTGCATACCACATCTCATACTTCTCCCAACAACAGGGTGTTGTTGGTATTATTTTCATTTCATGGATGAGAGGAA
GTGAAGGAATTTTTCCAGGAACTCATAGTGGTCAGGGGTAGTATTTGAACACAAGTCTGACAAATATGGGGTACAGTTTTAGAATTAACTCAATGAATCC
TTAATCATAATAAAAGTCAGCATTATACTCTAGTGTCTTCCTGGATGTACCCATAGAACAGGCTAGAATGTCAACCACAAGATTCCCTCTGTTCATTCCT
ATAATTTATTATTATTATTATACTTTAAGTTCCGGGGTACATGTGCAGAATGTGCAGTTTTGTTACATAGGTATACATGTGCCATGGTGGTTTGCTGCAC
TCATCAACCTGTCATCTACATTAGGTATTCCTCCTAATGCTATCCCTCCCCTAGCTCCCCACCTCCCAACAGGCCCCAGCGTGTGATGTCCCCCTCCCCA
TGTCCATGTGTTCTCATTGTCCAACTCCCACTTATGAGTGAGAACACGCGATGTTTGGTTTTCTATTCTTGTGTTAGTTTGCTGAGAATGATGGTTTCCA
GCTTCATCCATGTCCCTGCAAAGGACATGAACTCATCCTTTTTTATGTCTGCATAGTATCCCATGGCGTATATGTGCCACATTTTCTTTATCCAATCTAT
CATTGATGGACATTTGGGTAGGTTCCAAGTCTTTGCTGTTGTGAATAGTGCTGCAATAAACATACATGTGCGTGTGTCTTTATAGTAGAATAATTTATAA
TCCTCTGAGAGAACATGATGCAGAAACTGCTGGGACAGTAATGTTACAAATGATGGCCACCCTGCAGAAAAGAGCCTTCTCCAGATCTGCCTCCACTCCT
TTCTGTTCAATGCATGGGACAATAGTTTTAAAAGTTATACAGGACAGCAGAGTTCAGACACGTCTGTTCCATCATCTCTTAGACTTTCCTTTTGGAGTAA
GCCACTAAAGAGGGTGAAGCAAGATTGAAGTTTTCCTACAAGATTTCAAGTATTTCATGTTTGACCAACTTTTGTTTTCTGCATCCCAATGCCTTTGCAT
TTTGGAAAATTGTAAAAGTTGCAAAAGTTGCTAAAGTTTCAAGAATATGGCACTCATGAGCAAAGGTTTCCTGTTCCCATGCTACTGCTGCTGAACTGAC
ACATTTTTTATCATTAGAAATGCCCTTAGTGTCCAAACACTCCCATAAATGTTATCATTTTTACTTTCTGCATGGTTGTATAGTCAAGTGAAACTGAGAT
GCATATTACACTGTTAAGTACTTTTTGCAACTTTCTATACTAACAAATCAGGCTAACCTAAAGGTAAAGGTACAATGTTTGTGTCTTTGTGAGTTTTGCT
TTTGCCCTATGGTAGTAGTTATAATGAATTCTCCAGCAGAATCTCCCCAGGAACATTCGTTTACAAGCTAAGTCTTTCTATTTGTTCACTTTTTAAAAAA
GGAAACAGCACTTTGCAATATCCATTTTTTAGCAATAACTGGTGTCATCATAATTGACTAGCCTCACACTGCTATTCCTTCTCTTTTTTAAATTTTCTGC
AACATTCTCATTGGCATCTCCAGAGATAGGCCTGTTGATTTTTTTTTTCTTAAAACCTGAATATAAGAAAATACCCCAAATTTCACCTGCATTTTGTCTC
ACACATTTCCATCAGTATTATTTACCACTATCCTTACTAGAGCCCAAAGGTCCACAAAAAACTGCCACTCTTCATGGTGTGGTCGGTGCTGGTAAAGCCC
TGGAGGTAGACACACTGGGCCTTGTGCTCCCACAAACTGGCTGGAAAACTTGGGCAGGTCTGTTAACACRCAGAGACCTCTATGCAATGAACCCATTGAA
CAAGACAATTTGATAGATGCCTCTCAGCTTTCAGTTCTTCTTTTGCACGCTGTGTAGAGTCCCTCATGAATTAGATCTTAGAACATTGAGACAGTAGTGT
ATTCCTTTGCCAGAGSAATTATATGTTACATTAGAAGGCCACCTACATTGTGGTTTTAATTTGTAGGATGGATACTTAAGGTATCCATGACTTCAACACT
ATGCAATCTATGCCTGTAACAAAATTGCACCTGTACTCCGTACACTCATACAAACAAGCAAACAAACACAAAAGGCCCTCTGGAGAACAGGACTGTCCTC
TAGATGCTGACAGTCTATGTTCAGTGCCTGTCTCCCTGTCTCTGCCTTACCCCCTTTCTTTAGGGTTGGCTTAGACTCCATGCTTCCTGTTAGCTGCTCA
TTAAATGCAGCCTGAAAATAGTTGGTTAATCATCTTTGTATATTCTATAGATTCTGTATATTTGTGGCACACAGCCCTCCCTCCTTCCCTATAGTCACCC
TGCTCTATATTTAGGCATATAAAAGCTACAATTCTCCTGTATTCACAGATTTGAATATAGAGACAGGAAAAAAAAAGCCTACCCAAGTCTCCACTAAAAG
TCTGTTTAATGCCTCCCAGTATTTATAGAACTCGATTCTTCCAGACACTTTTATTTGTTTTATCTTAACAAGTCTCATTATTTTCTTCTAGGGTTCGAAT
CTGTACAGAATTATTTTTAAAAATTACAGCTTGTGTACATAACAGCAGTCACACTAGGTGCAAAGTTAAAACCCATTTAAAGAGAATAAAGCTTCAATGA
GGAAATATGGAAATAATGACAAGCCTAGGAAAAGAGGTCTAACTAACATGAATGACACCACACACACACACACACACACACCACAATTAGAGTCTCCACA
ACTCTGATCTGTAACTTAAATGAATGTCAAATTGCCTCACAGGAATTTCAGATCTTCAGTCTGAAGTTCTGGTAGATAATATTGAACATATTCCTCARCA
ACAGCATGCATGCTTCTAAATAGCCACTAGAATTCATTGGAAAAGAGCAATATACAAACAAACAAAAAACCCCAGAAAACTGGCAAGCTGATCTAGATGG
CAACATTGGATGAACTAGAAAACTGAGACCACTGGATACTAACCAGTTTGAGATAACAGTATCAGCTGGCTTTCTTTGGAAGAGAGAGAGAAGCACTAAA
TAAGTGAGGTTCTCAATTTTAATAAGTTGCATTATTCAAACATAGAACTAAAGCTATTAGATTTTTATTAAAAGTGCCTCCTTTGAAAGAAGGCTAGACT
AATGTGTTTCTGATTAGCAGTCAGCCAGTGAAATTTCAGATTCTCAAAACCATGACAGGATTTTGAGCAGGAAAGACATCCCTTGATAAAACTCTCAGTA
AATAGTAATTTTGCAAGTGAAGAAAATAATTATAAGTCAAGAGAATTGCTTTATGGCTTCAGGAAGTTAGTTATTCTGCACTTACTGGCGCTTGCATTTA
AGGTGATTTCATTTAGATTGTATTACACACAGATGGTTTGATTAAACATATGAGTTAATAGTGGCTTGGTATCAATATTGGCTGCATCACTATTGGCTGC
AAGCATCTTGTTTCATGAGGAAAAATGGGGTGGGCTGTAAACTGCATATATTGGCATGGTATTTAAAGTTCCAATTAAGAAACTATATAACACACACAAA
TATTGGGTATTTGTCTCTTGGGTTTGTTGTTAAGAAACGTATGAGCCTCTTTCATTTAAATACCTCTGGACACTGTAAAGAACCTTAGATAGACACAAGA
AAAGCCAAGAAGCTTAAAAAAAGAAAGAGAAAGAGCATAAGGACAGAAAATAATAATATAATAAAAAAAAGGGAGCGATAAACCTCTAAAATGTAGGTGC
CAGAATTCTTGGGATGGGGGACCTTGCCTACTCTTGTATATATTCTCATCTCAGAGTGGCTCTAAGTATATGGTCCTCTTTAAGCACTTTTTGTTTTGAA
TAATCTAAGAATGTTGCTAAATTGATAAAACTGAGATATTCCTATGGTTTCAAGTAAAAATAAAGCAACCAATATCTTAGCTCATCAARCTTCATCATTA
TCTGCATTGAACTTCACAAAAACTTTGATGTGGTGATGGTATCACAAGTATATGAATATGTCCAAACTCATCAAAATGAATTGCATTTTTGTATGTTAAT
TATGTCTCAGTAAAGCTTAAAAAACCCTTTAAAGTAGATAATATTCTCTTTATTTTTCAAACGAAAGAATGGAAACTGACAGATGTTAAGTAATTTTTCC
TGGGTCATATAATCTATGGTAGTAGTAGTACTTTTCTATTTCTTCTGCACAAACTCCTCGCGTATCTGTTTGTTTGATTAGTTGGGTTTTTTGGGTTGTT
TATTTGTTTGTTTTTTGAGACAGAGTCTTGCTCTGTCCCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAACCTCCACTTCTGGGGTTCAAG
TAATTCTCCCACCTCAGCCTCCTGTGCAGCTGGGGTTACAGGTGCACACCATAACCTCTAGCTGATTTTTGTATTTTTAGTACAGACAGAGTTTCACCAT
GTTGTCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGACCCACCCGCCCCGGCCTCCCAAAGTACTGGGATTGCAGGCATGAGCCACCGCATCCCATCTG
AATTCCCCATTTTGATATGACTCCCTCTTCACTTGGGGTCTCTTTGATAACAAATAAGAAAAATGGACAGAGGGCTAGTTGCAAGAAATCAGATTTGGAA
GTCACTACTTGGGAAGTGGGAGGGAGACATCAAGAATTATGGCTTTAGTTCATCTTCTCCCATCCCTTTCTCGCAAATGTTGCTATTTCAATAATAGGAA
TTCCACCATATTTTTTTTTTCAGAAAGACTTTCTTTATATTTTCTTGTTTCATAAAATTTGAAACACCATAAAATCCAGGAGACAACCTAACAGAATAAA
TGTTCTTCCCAACCTGTGGGAAAAATTATAATCCTCTTTCTGTCCATTCCTAGCTTTTATTTCTCCTCTAAAAGGCATTTCTTTTATTTTGATGAGAAAA
TCCTTTCAGTATTTCTCAAGCAAGACTAAAGTTGAAGATACACAAAATTCCTAGAGTAGAGCACTTGGGCAGATTTATTAAATAACCTATATATTGAAGA
TGATATGGAGGTCATTTAATTCTATTTCATAAATATAGCAGTTTTTACATTCAAAATGCTCTTTCACTTTCAAAATAAATATTATTGAGATATAACATGC
ACATTAAAAGAAGTCCACAAATCATACACAACTTAATTAATTTTTACAGAGTGAATAAATACACTTGTGTGAAGACCATGCGGATCAAGAATAGAGCACT
ACCCGGCCCCCAAGAAACGCTCCTCATGTGCTTTTCCAATCAATGAAAACTAAAAGCAGCCACTCTCTTGACTTCTAACACAATATATTAGTCTTGCCTA
CTTGAAAAAACTATATATCAATGATGTTATGCAGCATGTACTTTATTGTGTCTGGCTTCTTTTACCTAATATTGTATTTGCAGGTTCATTCATGTTATCT
CTGCTAGTAGTTCATAAAATCTGTAGTGAAGTCCCCCTTTTTTTGAGATTGACGACTTGTACCTTTTCTCTTTTATCTCATGCAGTTTCGTTTGGGTGTA
TTAAATTTTATTTAGTCTTTTTCAAAGAAGTGACTTTTGGCTTAGCTGATTTTTCCTATTGTAATTTTTTTGTATTAAAATTTCTTCTTAATTTTATTAT
TTGTTTTTAATTCCTTTAGGTTAAATTTGCGTTCTTTTAACTTTGTGCAAGTATAAATTGTAAGCTTGTTGATTTTAAGCCATTGAAGAATTTAAACATT
CATGGAAAATGGTAAATTTACCTGTAGTCATGGCTTTAGCTACACTAAAAAGTAGCTCTCTGTTATATTTTAATTTTCACTTAGTAAAATATTTTCTTAT
TCTGTGATTTCTTTCACTTAGGATTATTTAGAAGTGCTTGTTTAATTTCAAAATATTTAACAATTGTCTGGTTATCTTTTTATAACAAAAAATTACTAAA
TTTCTAGACTAAATCTACCATAATCAGAGAACAAATAAAATAGCAAATTGAAAACAAAATGTATGTTTTATTTTGTAGCCAGGTGCAATATTCTCTGTAT
GACAATTACATTAAGTCTACTGATTTTGTAGTTCAAATTTTTATTTTTTAATTTACTTTCTTTTCTCCATTTTTATCAGTTACTGAAGCAAACTGCATTA
AATATCTCCCATTATGATTGTGAATTTTTCTATATTTCCTCCAGACCTGTCAGTTTTTGCCTTCATTCTTTATAGGCTAATATAACATTATTATATCTTA
CTGGTAGATATATCCTTATATCAGAATATATTGCTTTTCACTTTCATGTTTACTTTTTATTTGCTATAGTATAATAACACCAGCTTTCTTTGGTCTTTAT
CATAATGTCCCACATGTTTTTACTCCCTTTTTTAGATTTTATACATTTTTTATGTTCTTTGCTTTAGGGTGGCTATTTTCAATTAAAACATTTTAAAATT
ATTYATTCTTCTCTTGCTATTGAACTCATCCATTGAATTTACCTTTCCAGTATTATATTTTTTTCCAGTTTTAAAACTTCCATTTGATTAATTCAGTTCT
TTGGTTATATCTCCATCATTTACTTGATTTTCTTAAATATATTAATTATAGTTATTTTAAAATCTGTGTCTGTTAACTCCTATATGTATTTATTTTTTTA
ATTGTTCCCTTTGGTATCTTTGGCAATTTCAGTAGTTTTAATTGAGTGTTGGACATTTTAGAAAGAAAACTATAGAAGCTATGATTTTATCGTCTTTGAG
GAGGATTTTTTTTCTTTTTATTACAGTTGGGGCAGAAGATTCCAGTTTACTGTAGTATGAAATATATTTGAAATTGGCTTTCACATYTATGTGTGTGCTA
GCTTGTCTATTTCTAGTTTGATTTTTGGCTAACGTATAGTTTATAGGGGCTCCAACTGAAAACCTGGATGTTTACCAAGGCTACTCTTTATTGGCAAGCC
TTGAACTCTAATTTTTGTCTCCTTAGCATTGTGGATTGCCAAAAGCTTTGCTCTGATTCTCAGCTTTTTGCCTTCCTCCACTTTTGAAGCAGCAAATTCT
TGAGAGAAAGAGTAATGTACAACACAGTGCTCATCTCCATATGTTTTCCTTTCTTCCAAAATGTTGGCCCCTTAACTCCTGGTTGCCTTGGAAGCTCTCC
AGTGCCATCAACCAATTTTCTTTCTTTTCTCTTCTTGTTTTTAAAAATATCTAGCTTTCACATATGGTAGGAGTGTTGGTCTTATGCTTGATAGTTGGTT
ATAACTAGAAGTGAAAATTTTAAGTCATAATTCTTAGAGAAACTGGCTATTAGGAAATATTATTTCCATTTTGGGTCCCTACTTCTTAAATATAGAAAGA
CTATCAAATATCTTGACAAAAATAGAGAGGATGTTTTTCTTATATAAAGCTCATGACCAAGTCTTCAGCACCAAATTTGTATGTAAATTCTTTGAATTTT
TTGGAAGAAAAATATTGACTAGCTTTTTATTTGATTTGATCTTTCAGAACATTACCCACTGAGTAAATCCATATTCCACTCTAAGTTTTAATAAAATCTG
TGACAGAGATGGGTATTTCTGTCAATACTCATTTCTGGGGATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTATGTTTCATGCCTTT
ATACAGGTTGAGTATCTCTTGTGTGAAATGCTTAGGACCAAAAGTGTTTCAGATTTCAGATTTTTAAAATATTTTTGAATATTTGCACTATTCTTACTGT
TTGAAGATCCCTCATCTAAAAATAGAAAACTCAAGGTGCCATGGCTCATGCCTGTAATCCCAATATTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGGT
CAGGAGTTCAATACCAGCCTGGCCAACATGATGAAAACTTGTCTCTACTAAAAATACAAACATTATCTGGACGTGGTGGCACACACCTGTGGTCCCAGCT
ACTAAGGAGGCTGAGATGGGAGGATCACTTGAACCCGGGAGGCAGAGTTTGCAGTAAGCCGAGACTGCACCACTGCACTCCAGCCTGGGCAACAGAGTAA
GACTCTGTCTCCAAAAAATAAAAAATAAAATAAATTAAAAATCCTAAAGGCTTCAATGAACATTTACTTTGAGCATAACCATTGAACATCATGTCAGTGT
TCAAGAAGTTTCAGATTTTGGAGCATTTTTTATTTCAGATTTTTAAATTAGGAATGCTCAACCTATGCTACTAATACTACTAGTATTTTTGTTGTAAAAA
TTGGGTTATTCTTTCACTTTCCAAGTTTATTTCCTGGCAGCAACAAAGTTGTAGATTATCAAACCACCTTCCAGAATGTTAAAAACCTATGAGCTTACCT
GAAAAAGTCTCTAATAAAGATTTGTGTGGGATCTAATTATGACTTAGCTCTTAAAGTTCACAAGAGAGGTTGGAAACAGCATATCTCTTACTCCAGGCTG
CTATAACTCTGGGCAACAGGTGTATTCTTACTCATAAGCACCCTGCAAAGACTGGAGTAGCCCTGACAAGAAATCTGAGTATTCTTCTCTGAAGCCTGTG
GTTCAYTGTGATGCTGCTGCCAGCTTTGGCCACACCCCAAATAGACCTCTATTTGCAGAGCTCTTCCACATTAGACCTGTGTGCTTTTGAATAAGTGACT
CGGCTGCTCTAATCTTAATATCCTTATTTCTCAACTAAGTTTATAATTCTATCTATTCTGCTTAACTCACAAGTAAAACTTGAATGAGATAATGCATGTG
AGAGCATTTGTGAGTTGTCACACTCTAGGCACATATGGTGAGCGGGGCAAACCCAGGACCTAGGTAAATCTTTCCACATGTCTATGGATCAGAACCCTTT
TCTTCTCCTGTACACATAATAATATATATCCTAGCATACCATGTTTCTAATTTCATTTCCAGGAATAATGATATAAATCAGTTTGGAAATGTGAATTGGG
AGAAAAAGATAGAAGTTATTTGTTACTTACTTCCATCTTTCTTATCCTTATTTGTCTCTAGTATATTTTCTTATGTCTTGCCTAGAAGCAGTTTCAATGA
TTATCAGTTCAGTCATCTTATTTTATAGATAAAGTTACCCCAAAACATAGATAAGGCCCAAAACTGTGAAATCCCCTATTATGGTCTCATGGTGAGTCAT
TGTCAGAGCCTGATGAGAAATAACTCTCCTAATTGGTTTTATTGATTACTGTTGATGCAGCATTGCATCATTGTAGATAAAGCACACACACAGATATACA
TGTCTGCCTGCGTGCRTGTAGGTACACATATGCCCTCCAAAAAATTGCTTATCTGAGGCTGTAGGAAAGGATCTATTATATTTTTCAACTCTTCCTTCAT
CCCTAAGTGACAGGAAAGAAGGGATTTCCTTTCCACTCAGATTCCCCGCTGTTAAAAGCATTAATGTTTTCTTTTTGGAGCCTTTTGCTGCCTCTCATTA
TGTTTTTCTCCATTGCGGAGTTGGAGTCACACTATGAGAAAATCTGAATATTAGAACACAAAGTCTGCGGATATGACCCATAGGCTTGCTGAGGAGTGAT
CTAATAGCCAGGGAGTGATGGTAGGTGAGAGGTGAAATGTACAGAGTGGGGGGCATAGAAGAGGGAGCTATGGAGTTCAGGCAAAYGCAATGCAAAAGCC
ACAGCACCTTAGTGTGAGTGCCATCATCTGAAACTGTCCTTGGTGGTATGGGAAGCGTTGATTTGGGGCAAGAAAAAGGCAAGATATTTATTTGATACTG
ACTTGATGATATGAACACAAAATGAGAAAAATATTCAGGCACTGCTATTGCCCCACCTTAATAGTAAAAAGAAAGGGAAGGGAGGTTTCTGCTAGCTAGC
AAACTTTGCAAATGGGTATGAATACCCTTGGAGAACCAAGCAGTACATGGGTATGAGAACCCATAGGTATATCTTTGTGCAGTATCAATTTTAATTATGG
TTAAGTAATTTAAAATRCTTGATATCAAACCAAACAGGTATTTAGTAGATTATAATTGTTAGGATATTCAAGTAGAATACAAGATTCCAAAGAAATTCCT
GATTACCAGATGCTTTGAGACTCCATCCCTCAGGCTCACCAGGAAACGTGACCATTTACTTTCCTCTACCATTGAAAGTACTTACGTAAAAAAAATACGT
GAGAATCACTGGAGCATTTTTGTTATAGAATATTTCTAGGCACTCCATATAACTCTCACAAATCTCTCCTTTCATTTTTGTCTCTAAATAGCAAACAACA
GATGTTCCCTTTTTAACTTCCTAATGCAAAGTATAGAAAGTTGATTCATTGCAAATTGATGCATTCTTTTCTTACGTTTTACCTTTTTAAAGTTACTTCT
CTCGGGCAGGTATGTTTGCACTTCAGTGACCCTTCTGATGAGAGTAATCATCTTTCACTTGGTTTTTAAAGGTCTTAAGATTTTGAGTGATTCTTTACTT
AGTGTGAGACAACATGTTACATTCATGTCTAGAATAAGAACAAGTATTTTTATTGTGCAAAATTAACTTTGAATGAATGAACAGAAGTAGGAAGTAACTG
GAGGAATGGAGATGAAATACATAAAGTATTTCTTTATGCTTTGCCTGGATTTATATACTGAAATTGACATCCTTACTTTATACTTATAAAGGACTAAAGG
CATTTGTAAGAAAATTACATTATCAAACTTCAGAAACTGTTGAAAATCCAATGATTTCTTTAAAAATGTTACTTAATATACCTTGTAAAATGATCTTTCC
CAAACAGTCATTAGGAATTTAATGACTTAGGTAAGATCTCTGAAGCATATACCCACATTAACATGACAAGAAAAGGATGTACACTTARACCTTTATTTAA
GGAAGTCCAGAGATGGATATTAATATTAACAGAATTTCAAAAGTTGAATTACTGAGGATATATTCAGCAAATAATTTAAGAGTTCCAGATTTAATGATTT
GAAACATGTCTCCATATTGGATGAACTAATATTCTTTATGTGATTCTTAAATGAGGGCAAAAAATGTTTTCATCTATTTTATTTTGTTGTCTAAGGTTAC
AGTAGAATTAATATTTTTTTTCTTTTTCCATGCTATGCTTCTCGATGCAAATGCAAATTGTGCTGGAAAGGCAAAGTTGAAGGTGACTAATAAAGAGCAA
CAATATCTTTGTCAGTTTCAATTACTGACACCATTGCTACTAAGTAGATTTCTCCTCACCTTCCCTCCTTTTTTTCTTTAATCTTACAGTAAAGGAAAAT
CTTATTATATGTCCCAAACCATGATAGGAAGCTAGAGAAGCTCAGTTTCACATCTAATGCTCACTCTACATTAGTTACCAATGAAATCTGTCAGTGGGTA
TATGTTAAGCAATATAACATGCTATAAAGAGCCTCTTGGCAGAAATAGTAGGTTAAAATGGGAGCGGAAATTTCTTTGTCAACTTCGCAGCTGTAGCGCT
GGGTGTGGGGCAGGACTTTGTGTTTCTGAGACTGCTTCTTTGTACTTAGGACAAGGATAAGTCTCAGTCAGTTGCCCTGACTGGGGGAGTTCATTGGACT
AATAGATAATTCCTGAGATGCTATCTACTGCTAATATTTTATGTCTATGGCCTATACAGGTGGTGTTTCTTCAATTAGAAGCACCAGCAAGCTAAATAAA
GTATCATGACAATAATCACACAAAGGTGAATTTAAAGCTTTACCTTTTCTCTCACCTAACCATTTTCATTTTTCTATCTTCTCTTCCATATTTGTATATT
TGTAAGTTATTTTAATCATAATGTAGATACAATCCAATCTTAGCAGGAGTTGTTAAATCTCAAATGAGTTAAGGTATATGAAATCACCTTTAAAACTCTA
AAGGGCTATTCCAAATGCAAAAGAAGCCTGATATTATTGTCACTCTTTCTTAAATATCTTTCCATATCTCTGCAAGATAAAAAGTGTGAAAAAAAAAAAA
GCCAGGAAAGGTTGGGTTGAGCTGTTGTGTTTAGTGAAAGCACTTTCACTAACACAGAGGACCTGCCTTATGATGCCTCTGGGAGTCAAAGAAAACACAG
ACCCTCCCCATGAGATGCTAAGAATCTTGTCAGGTGTATTGGTTTCTCACTGCTGTAACAATAAGTCATTACAAACTTAATGGCTTGAAAGAACATAAAC
TGATTATCTTATAGTTCTGTGGGCTAAAATTCTGACGTGGATCTCGCCAGGCTAAAATTGACTTGTCAGTAGGGCTCTGATCCTTTTTGGAAGCTGTAGA
AAAGAATCCATTTCTTTGCCTTCTTCCATTTCTAGAGGCCATCTACATTCCTTATCACGTGGCACTTTCCTTGAACTTCAAGGTCAACAATGTTGCATTT
TTCTGATAATTACTTAATAGTCACCTCTGCCTTCCACTCTCCTTTTAAGGACCCTGTTATTACACTGGACACACCCAAATAATCCAGGATAATCTCACCA
TGCCACAGTCCCTAACTTAATCTTGTATGCAAAGGCCCTTTTGCCATGTCATGTAACACAGTCACACACTTCAGGTATAAGAATGTAGGTGCTTTCAGGG
AGCCATTGTTCTCTCCACCACAGCAAAGCAATCACATGGACACATAATCACAATACATCATGGTTAATGCCATAGCAGCACTTGGCTGCAGAATATTGTG
ATGGTACAACCCAGGCTGACTTCATGCAGCTCAAGGTGCAGGAGCAGGAAAAACCTGCCAGAGGCAATCATGGACAGAGAGGTGATGACAGGGTGAATAG
GAACTAGCCATTTGAAAAGATGCAGAGACTGGCTTTCAATAGCAGGCAGCCCAYGCAGAGAACAAGCCTCTATTAAAATCCTACCATCCTGCCTCCCACA
TTACTCTCACAATTAAGTCCTTGTCACTGTCCAGCCTCTGAGAAAGGATCTGGCATCTACTGCAGGRTCATGGGTATGGCATCTTAACTGCATGCATCAT
ACCCAACATCCAGTGACCAGAGTGATAGTTCACCTGTCTACGTATGATCTTGCCACTGCCTGCTTTAATCTACTGACCTCAAATATTCTTAGGATGCAAT
TCATTTTTTGTATAATTAACAGACCTCCCAAGATTTGRACACTTGGCCATCTTTTCCATCCTCATTCCGTGGTGATGCTACTTTCTTATCTAAAATAACA
TTTGAGATTCATACAGCATCCTGTGCTGTTATTTGGCCAGATATGGTTATGTCCACCTTTCAGAGAAATTCAAGAGGCTATGACTTACATTAAACCACAT
AGCTAATTGGCAACTGAACCCCACTGTTTTCCCAGCACACTATGGGGAGACCAGCCTACTGTCAAATGTTAGATTTTGTTCCTGGAGATTTTAGGATGAA
TATGGGACAAACTACCTCCTTGTTYTCTGCAAATTCATTTTCCCTTTAGCCATATAACACTGGGTTTGGGGTATTTTGGGGACGTGGTAGTGAGTCATAA
CAAGCTTAATTCCTTTTACTTCACATGTTCAATGGCCCATGTAATTACAAGGCCCAGGGATTTCCTCTCTGCTGTTAAAAGAATTATCAAGTTAAGAATG
TTTTGATCTTAATTAGCTTTTACTAGGCCTTTCTGATGCCCAAATAATATATGTGGCTAAATGGTAAACAATAAGGATGAGGCCTATTTTTTTGYTTGTT
TCTAAAACACTTTTCAAAGAATGTACAGTGGGAACCTACATGGAAATCTTCATAACAAAAATTTTTTAGGTAATATAAGGCACTTTTCCTTAGGGGAAAA
TTAAGAGTTTAGATAAGGGACACATTTTTAAATAATCAAAAAAAATTGAAAAGATGCTTCTTTTGCATCTTTGGATTGTGTTGTGTTCAATTCCCTATTA
TTTTATTTTCCTTGCTATGCAAACTCTAGACATCTTGAAAATTAGCTATTGGTAATCTTATCAGTTCTCCTGTAAGTCTGCCAAGTAATTGGATAGCTTT
TCTTGTTTTTTGCTATGTCACATCTTCGTACCTCTAACATGCACACTCTCATTCTCTGTATTTATTTATAGAGCTCTCACCTCTCAACTTCTTTCTCTAT
TTCTGATATTCTCCATCTGAAGCATGTATCAGAAGTTCTCTCTGTGATTGGTGGAATAAATTAAAACTGTGTGATTATTTACTACTACATTCAGCAGCTT
GGATCAAAAACCTAGATTTACAACTTTCTAACTGTGTGAACATTGTTAAATTTCTGATTGGGTTAAGTTTCTAATTTTATATGTATATTTATATATGTGT
GTGTATACATATGTATATTTGTATATGTATGTATGTATATATATAGAAATACATATATAGATTTGTGTATTTACATAAATAAAATTAGTGCATTAATAAT
AGATTTGCATGGTTTTCAAAGGATGATGTCAATTAATGTTTATAAAATTCTTAGTAGTGTGTTTGACACAGTGAATAATGGCTAAATGATGGCTGTCATT
CTTATTACTGTTGTTATTACAACCAGCATGGTGACTGCATATGGGAAGATACAGAGCAGACTATGAGGACCAGAAAGAGAAGGATGCATTCTTGTATTAC
TACTAGGCATTAGGTTGCTTTTTGCAAGGTGGTGGCTATAAAGTATTCTGGGATGGCACTATCTGAACGCTGAGAGCAAAGGGCCCATCTCCAGAGGGCA
CATCTGGAATTGGGTTATATTCCTCACAACTGGAGACAGGGAAGGCCAATGTGATGTGAGGGCCCAGGCATTTGGAGCAAGGTAACTAGACTACAGGGGC
TATTATAGAAGAAGAGGTACAAAGCAAAGGGTAGTGGGTCTCCTCACACAAAATACTCACCTCTCTGTATTATGGTTGCCAGTTTCACAAAAGATGTGAA
TTATGAATTCAAACTTAATTTCCTGTAAAAGGTACAGTGAAAATAAATAGCAAAAGAAGAAAAAGTTTTAACCTCGGCTTAGCCTGTACTAAGGGCCAGA
TAACAGTTCTGAAACCACCATCCACTGGATCTTGGTGATCCTACCTTGATGGGGTAGACATTATTCCCCTTGTCTTCTTATCAATAAGAAAAAAAAAAGG
CTCTTGAAAGGTAAGGCACCTTATCCAACTCAGGGAGCTGGTGAGAGGGTAACTGGCTCCACCTTTGCCCCTACTTCAAGTTCTTTCCTCCTCCACCCCC
AATCCCGTCTTATCCGGAGTCAGTGCTGCAGATGTCTGAGCAAGGCAGGCAGAAGTACACGTGGCTCTGGGCCTGGACATCTTGCTGTGTGTGGCATCAC
CAAGGTAATGCGCAGCTACAGGACCCCTTGACCTGTCTGCTTCCATGAACGTACAGAAGCGTAAATTCTGCTCCTTGACTGGGAAACATTTTGTTCCCAC
ATGGAGGTTGTGTGAGAGTAGAGCATTGTGGATACACCCCATATTGTTGTAACCTATTTTCTGCTGTTCTTGCCGAGATCTGAGGATTTTTATTTAAAGT
TCTGCCTTTCTGGGATGACCTTAGGAGCTATAGATTTCATTTTCCTGGAGGGACTTAGAGGAACAGAGGTCCCCAAATGGTTCTCCCTGGCACACTGCAG
AGCAAAGCAGACAGAAAGGTTTTTACAAGTCCTGGGCAGTCAGCGTTAGTCCGTTTTCCAAGAACAATGTGTTTTTTTTTTCAGGTAAGACAGGAAATGC
TTTTCACTTATTAAACTTAGAGGTGTGCTACAGGTGTGGACTGCTTAAGAAAGAAAGAAAGTCATGAGACAAAAGCACCCAAACCTCCTCAGCAAGGCTC
TGAAATATGCAGAAAAGCAGTTGTTCCTATCTAGTACTGAAGCCCTCGCATAAGTTAAAAATTATATCAGAACTGAACTATTACACTTTTTAGTCTAAAG
GAGCTATGTCTTTTGTTTTGTTTTGTTTTGTTTTTGCTTTTGTATTGTTTAAAGGAACTGAATTTTAGAACTCAGCAAAGATGGTTTGGTACAATATCAT
AATTAGGGAACACAAAGACTGGTTCTTGACAGGAGAGATTAGAAACTATTTCATAAATGGGGATATTTAAGCTAAGCCTTGATATAGGGCAGTGTTTTGA
CAGGTGTAGAGTCATAGGAAATCATTTGAATAAAGATGAATATGATAAAAATGCATGAGCATAGGCTAAGTAGCACTGCAAAGCACTCTCAGAGCCTGAA
ACATGTAGAGGTTGGAATCAACTCTCTCTCATTAACCAGACAATACTAAGCAGATGATGCACGTTCTCAGATGCAGATTTTCTTCATGTATTGCATGGGG
TAGGTTTCAGATGGAAATAATGTATGTTAGAAGTTTCTGGGTTAAAAAGTACATCGTGAAGTTCCCTTGCTCTTTCTTTTATCTGACAAAACATCAGCTT
GACGTTTTGCTTGATGAGTGGTTTGCAGTCTATTTCCCAATGTGGAGATGGATGGATTTCTTCAGACGTGGGTTTATAAATATGTCTGGTTATTTTTTTT
CATTTATTTATATTTCACATGAGTAAAATCAGGGCCATAAAATAGCTCTACAATTCCATTAAACTTAAAAATCTAGAAAACATATCATAGTACTTAAATG
TTGAGACAGAAAGTGAATATCAAATTCCTTTCTTCAAATACTTTAGTGAATGAGAAAAGGCAAAAACTATCCTGGGAGCCGGGTGCTACAACTCAGATTT
TTCTCATAGTTAGCTACATAGTCCTCTGAAGTGAAGGCGGTTTTGTCTCTAAATCGGTGAACGTGGCAGTTGAACTTTATTTTTTTTAAATGGCAATTCC
TCTATTAGTCTGCTGGGGCTACCTTAACAAAGTATCATAGACTTGGTGGCTTCAATAACAGAAATGTGTTTCTCACAGTTCTGAAAGCTGCAAGGTCAAG
ATCAAGGCACTGGCATGCTTGATTTCTCCTGAGGCCTCTCTCCTTGGCTTGTAGATGCTGTCTTCGCCCTGGGTCTACCTGTGGTCTTTTACCTGTAGTT
GTCTGAGGTCCTAATCTCCTCTTCCATAAGGATACCAGACCTATTGGACTAAGGCCCAACCTAATGACCTCATTTTAACTTAATTATGTCTTTAAGGGCT
CTGTCTGCAAATGTAGTTCATTCTGGTTAAGACTTCAACATATGAGTTTTAGGGGGACACAATTCATTTAATAATACTCCCTTTGATGCTTTCACACCAT
TAGACACAAGTAAGAAGAACTATATCTTTGAAGAAGTGTTTTGTTGTGCTCTATATCAGAAGGTAATCTTGAAGACATGTGGTCCTTTACAGTTGTCTGC
CTTTGAGTTGATCAGGGAGATGCTCATTTATTTAACTGCATGAACACATTTCAGAAAAATGTTGACAGGGATTTAAAGCTTTGCTATTGTCTACTAATGA
TCTTGTTATATATCCTCCATCATAAGGCAACAGAGTAAGCTTGATTAAAAATTATTTAAATTAACCCCKTGTGGAAATGTCAGTAGGAATCATATTGAAT
TACCTAAAGTCACATAATTTTTTAAAAAGCCTCCCAATTCTTGAGCACAAGCTTTAAATTTTACACACACACACACATTCATGTATATATTTATGTGTAT
GTATATGCACACAGAAAATGCTACCATTCTCCACAGAAAAGCTTAACATTTCAGAATTAGAAATTTAGAAATACAGTCCAGTACTTTTTCAGGTTAAAAT
TTTAACATTTATTTTACCAATCATCTATTGAGTGAAGAATAGGTTACCGCTACCAGCAGTTCCCAGTGTTCTCTAAAATGTGACTCCGATGGGTCACTTC
TTGAGAAAAAGCTGAGAAAATATGTTTACTATTTCTCTGATGTTCAGTGTGCAGACTTTTAGCTTGAGTTTCATGCGTGCCCAGAGCTGCCTGCAGACTG
CCATCAGCCTCACCTACTGTTATCCCCAAAGCCTCCAAACCCATCTGTCTTCAAAAAATACTTTGGACTTCCTCCCAGGAGGACATCTCCTTACCTGAAA
AAGGTACTTCATTCCATCATCCACATCTTGGCCATCTCTGACTCAATTTCATCTCACTTTCTCTCCAAAGCTTTCCACTAACCACCTGGATTAAAATGAC
CAGATGTTAACAATTTGTATCTATAGCAAGCATTTTTATTGTTAATTTTTTGATACATAAAGATTGTGCATATTTCTRGGGCATGTGATATTTAGATACA
TAACTACAATGTGTAATGATCAAATCAGGGTAACTAGGATATCCATTGCCTCAAACATTTATCATTTCTTTGTGTGGGGAACATTCCAAATCTTTCTTCC
TACTATTTTGAAATGTACAATAAATTATTGCTAACTATAGTCACCCTAATGTGCTATCAAATACTGGACCTTATTCCTTCTATTTAACTGTATTTTTGTG
CCCATTAAACAACCTTTCTTCATTATTTACCCCTACTCCTTCCCAGCCCCTGCAAACCACCATTCTGCTATCTCCGTGAGATCAACTATTTTAGCTCCCA
CAAGAATATGAGATATCTGTCTTTCTGTGCCTTATTTCACTTAACATAAGGTCCTCCAGTTCCATCCATGTTGCTGCAAATGAAGGGATTTCACTCATTT
GTATGGCTGAATAATATTTCATTGTATATTATATAAATTCCATTATATATGTGCATGTGTGTATGTGTGTGTGTGTGTATATATATATATATATACACAC
ATATATATGAAATATATTTACATCACATTTTCTTTGTCCATTCATCCATTGATGGACATTGACCCCCATATTCTGGCAATTGTGAAGAGTGATACAACAA
ACATGAGAGCACAGACTTTTTTTTCATATACCCAGCAGTGGGATTGCTGGATCATATGATAGTTCCCTTTTTTATTTTTTGAGAAACCTCCATACTGTTT
TCCATAGTGGCTGTACTAATTTACTTTCCCACCAAAAAGCATATGAGGGTTCCCCTTTCTCTGCATCCTCCCCGGCATATGTTATTTTCCTCATTTTGAT
TATAGCCATGTCAACTGGGGTGAGATAGTATCTCATTGTGGCTTTGATTTGCATTTTTCTGGTGATTAGTGATGCTGAACATTTTAAAAATATAACTGTT
GGCTATTTGTATGTCTTCTTTCAAGAATGTCTATTCAGATCTTTGTCCATTTTTAAATGGGGTTTGTTATTTTGTTGTTGTTGAATTGTTCAAGTTTCTT
ATATATTCTGGTTATTAATCCCTTGTTAGATAGATAGTTGGCAAATATTTTCTCATTCTGTAGGTTGTGTCTCCATTCTGTTGGTGGCTTCCTCTGCTGT
GCAAAAGTTTGTCAGCTTGATATAATCCCATTTATCTATATTTGCTTTTCTTGCTTACACTTTTGAGGTCTTAACCCCAAAATTCTTGCTCAGACCAATG
TCCTGAGAAATTCTTTAATGATTTCTTCTGGTAGTTTTAAAGTTTCAGGTCTTACGTATTACATTTAAATCTTTAATACATTTTCAGTTGATTTTTTAAT
ATAGTGAGAGATGGGGATCTATGGTTTTGCATATGGATATCCAGTCTTCCTAGCACTGCTTATTAAAGAAAGTGTCCTTTTCCCCAAGTGTTTTCTTGGT
GCCTTTGTCAAAAATGAGTTTGTGAACAAAAATGTGTGGATTCATTTCTGGGCTCTCTATTCTGTTCCATTGGTCTATGTGTCTGTTTTTATGCCAGTAT
CATGCAGTGTTAGTTACTATGGCTTTGTAGTATATTTTGAAGTCAGGCAGTGTGATGCCTCTAGCTTGTTCTTCATAGCAAGCATTTTTATAGTTACTTC
TAAAGGATGATCATCTTCCTTGGCCAGTGACATCATATAAATTACTATAAAGTGTTTTTTGATGCTGAGCTGTTTTCCATATAATCCAACCTGATGGCCA
CATAAAGCTGTAAATGTTTTAAGGAAGAAAATACCTTAAACTTCCTAGTAGATTTGGATCTTAACACTGTCTTTTCATAGAGCTGAAATTAAAGGAGGAG
TTTTTGTTTGGTTTTCACAAACATGTCCTGAAGCATTAACCTGAAATTTTAAAACTGGTTTGAAATATTAGRTTTTCTATCCCCTGCAAAGCTGTACTAT
AAAATTAAAGGAAACCAAAAACAGGCATGGGAATATGATAGTTAGGTGGTGTTCCTGAGTGTGGTATTTTAAAGTTTTGACTTTCAGTTTCCTCATGGCA
TTCACTTGAAACCTGGTTCATTGAGGGCTAGCTGCAAACCTTCCAGATCTTGTCCTTCTTTGCAGCTCCAGGTTTCTCTGGCCTATGGTTCTCCAGGACC
CTGCAGTTTTTTTTTTTTTTTTCAGAGGCCTGTGCCACATCAGTTACACACACAAAAAAAGGCTTTTGGGTAAAGGGAAACTTCATGTACTGAGCAAGAA
GCATGAATGTAAAAATATAGAACCCCTAGGGATAAGGAATTCAGTGGCTACCTATGCCATTCGAAAGGAGTGTGCCAAAATGTGCGCTGAGTAGTGCCTT
TCCCAGCATTTTCTTTTTTTAGAAATTAAAAGTATGGCTCTGATGCCAAAGCTACAAACCATAAATCCAATTAAAGTGAAGGACTTAAATGTACATTTGG
GAGAGTCGGGGGAAAGTGGAAAGAGGATCTGTTTCTGAATCACCTCGCCTCTTTCTCTTCCTCCCTCCCACCCTCCACCCTGAAAACATGTCCACACAGT
GGGATTGCTTGTTAAATTAGGACACTATGACTATGTAACTATATTTGTGAAATAGAGTCAAATTAAAATTGAAAGAAAACAACTGAAATGCAAAAAATAT
GAAAAGAAAGTTGAATCCATGCTCTAGTGCAAATGTTCTTCCAGCTCAAACTACCTCTAAAATAGCCCTGGACTGCGTGCAACTCCACATCTCACAGTTT
GCTTTATGAAGTATCAAAACATTCTCAAACTTTTGACTGCAATAGGTTTCCATGTTTTTAAACTTTTGCTCTAATAAGCAAGGTCTGTCTGTTTTCTTTT
AACAATTTTATAAGAAACTGTTTCCTTTTCTCCTCTCCATTCCTTCACTCATGTCCACCCTTCCTCACTTACTAATTATTCATAGTCAAGCCCCTAAGAA
GAAAGGGGCAGCGTTTGCCATACTTTACTCTGTGTGTGTGTGTGTGTGTGTGTGTATGTATGTGTCTGTGTGTGTGTTTGGTCAAGATTAGGCAGGGAGA
CAGGGATCCTAAACTAGTGCTTTTTAAATGATAATACATTTCCACYGTTTAAATAAGGTATGCTTTTTTTCTCAAGATTTTTTTCAAAGCAGCAATTCCC
TTCCCAGTTCCTGTAGCAAATGACCATCCAACTGCTTGAACACTTTCAGCGACAGGGAATGCATTACTTTGTGGGAGAGTTGATTCTTACACAGGATAGC
TAGGAGTATTGGACATTTCATTGTCCTTTTGGATGTATTTATTCATATATTAATGATGTATTTATTGAGCACCTACTATATGACAGGCTCTGTTCTAGGC
ACCTGGAATCTAGCAGTGACCAAAGGGACAGCAACCACTGCCCTTATTTATGTTCCATCTTGGTGTCACTCTACTTATTTGTCCTAATTCTGTCTTCTGA
GGCAAAACTAAATCATTCCATTCCCTGTTTYTGTGACAGCCCCACAAATTGTTGAAAATGACATGTCATCATCTTCAGATTAAACATTTTCTTACACGGT
TTTCCCCAGGCCCACCCTGTCTGTCACTCTCCTCTCRTCTGTCAGTGCCCCTTCACTGTGTGTTTGTATCAGGGGTGGTCTGAGAACACTGGGATGTCCA
CCTAGAGCACAGCTGAGTGGTACCTGGGCAGCGTGAGAGGCCAGATCACAGAGGCTTTCACATTCACGCCATCATTTCCTTTTTGTGTTGCTCTTGCACA
CATCATATAGTGACTCTCTGCCTCCATTTCCTTGTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTACTCTGTTGCCCAGGCTGGAGTGCAG
TGGTGCGATCTGGGCTCACTGCAACCTCCGCCTCCCAGGTTCAATTGATTCTCCTGCTTCAGCCTCCAGAGTAGCTGGGATTACAGGCACATGCCACCAC
ACCCGGCTAATTTTTGCATTTATAGTAGAGATGGAGTTTCACCATGTAGGCCAAGCTGGTGTTGAACTCCTGACCTCAGGTGATCCGCCAGCCTCTGCCT
CCCAAAGTGCTGGGATTACARGTGTGAGCCACCATACCTGGCCTCATTTTCTTATCTTTAAAGTGAGGATAATAATGCTACCTAGCTCAAAAAGTCGCTA
TGCATATTAAATGAGTTAGTATTTTTAARAAGAGCACTTAGAGTCGTTTCTGGCCCAAAGTGTATGCTCAGGAAATGATAGCTATTATTCTTACTATTGT
TATCATTAGCGCTGGATATTACCTTTCTGTTTATACAGCCTCATTGTTTTAGGACTCACATCATGCTATTGGTTTAATGATGATGTGGACAATTGACAGC
AATCTGCTKTGGTTGTAAATTCCTCTCAGCTCCTAACAAAACGCTTGGAACAAAGTAGATTCACARTAAATGCCTCCTAAAGGAGCAAGTTAAATATCTT
GGCATTTGAAAACATGCTTAAACAAAACATAGAAAGGATTTCTCCTCCTGTTTTCCAATGTAAAATGTTGTATTTCTGTGGCTGTGTTGCAGAATTCTAG
AGATAGATGTGTCTGTAAGATTGATTAAGGGTGATGTTATGAAYTGCCTTTCTAAAATTTTAAGCCTTAATAAATAAAAATGGTSAAGAGGCATCACTTC
CTGGTGATAAAATAAGGAGAAACTTTGGGTTTTAGAGATGCATATAACTGGTTGCAACTGAATTCAAGAGCAAATGCTACAGTATCCTTCATGAAATTTT
CACACTGATTTCCAGGAGTATTCTTTTCTTTCTTTCTGTACATAACATCTGGTTTAAATGTTTTTCCTGTCTGGTTAAAAGTGTAGATGTCTACTTGGAT
TCATAGGTATCGTATCTSTGAATGCCGCCTCTTTTCTTCTCCTTCCCTTGCTGTTTGGGAGATTCTGTAGAGAGGATTATTAATAAAAAAAAAATTTTAT
CACTCCCATCTCCTCCCAGAAGCAGCTAGAAGACAAATGTCTGGAAAAGAAACTCAGAAGGGAACAGAGCTCAGATGTTTGYACCTTTCTTTAAATGGAA
GTAGCTTTAAAGTGTTTATCACTATCATTTCCAACTATCTACCCATTAGRTGGAGGTCTCTAAATAGTTCTAGATATGAACAGACAAGATGAGTGATATT
CTTGCTCCAAAATGTTACTTCTTAAATATATGAGCCTCAACTCTGGAGGATGAATAGATCAGTCCTTGCCATGTGCAGTTATTTTCTTAAATTCACCCAC
TGCTTATTTTTTTAACATAAAACATTTAAAGAAWTGCTTCCTGGCTCTAAAGCAAATGTATAAAAAAAAAAAACAGAAAATATATTTTTTTCAGACAAAG
TTCCCAGTTTACTGCTCTACTATTTATCTGAAGAAATAGATAAAACTGCACATCTGGTGTAATTCTTGTTTTCATGGTTAATGCAATATCCTGATGCAAT
ATAACTTTCCCTGAAAGGCTTTTGATTCTGAATTTTGTTACATAAAAATGCATTTTTTTTTCGACAGATGTCTTTGGTTCTTTAACATCTACTTTTTGTC
ATGCTAATTCTGTATTTCAGACAATGTAATGGCAGCTGAAGAACAAATTAATACGGTCTGCTATAGGTTTAACTGGCTGTGGAAAATTCTGTGAATGAAT
CAAGCAGCAGTTTTTCTTCAGATTCTTTAAATTTAGGGAATCCTATTTCTAGTTTCCGAAAGGAGAAGTGAATCATTCTKCGTAGTGTTTTAGCTGAATA
TGTTAAATCTGTGTATTAAATTTAACATAATACTGTATCTACAGTTAAAAAAAGAATAGTATTTAGATAACAATTAAACTGAATTATCTCATATTTCCCT
CTTTAGATGACAATAGCATTTAAGAACTTACATAAAATCCTCTTTGCTTCATAATCTGGGACATATGTACTCTCTCAGCTGGCAGTGTAGTCCTTACTAA
TGTTTATGTTAATAGAAGGATACATAAAAGTTCCTGAAAGTACCATAAGTGTCTTTTAGTGTTTGGTGTCATTGACATATTAACAAGGAGTCTGAAGATG
AGTAACACACCCACATCTGTCAGTGCCACAGCCGGCACTTGAGCGACACACCAGCACCTCAGACAGAGCATACAGCTTCTTTGCTGGTGCGCTTGTGTTC
TGGGAAGGAGCAAATGAAATCATTCACAAATCAGGAATTCCTGGCACAATATAGAAWCAGGAAAGCTTTTTCTAGATGTGATTGTAAGTGATGGATTGAC
TTGGATCCCAAATGTTATCACCAAAAGATACRTGCTTTTCTTTCTTTTCTTACTTAAATATGCACAAGAATTTTGCTGATTGTATTTTGCAATTACATAA
TTGATATTTAGGATTTAATTTGGAAAATATGTAATTACAACTTAAAAATAATAAATTAGTAGGCCAAAGCACACGATGTTTTATCATACAATTATTCATC
TTTGTATGTGATGAATAAATAAGGTGGGACAATAGATTTGATATTTTGGCCATTTTATTGTCCATTTCTGGATTGTGTGGGCCATGAGAGCTCCAATGTG
TTTCTAATATGTTAGAACTTTGCAATGAGAAAATTTCATTAGAAAATAGTGTTGGAAAGAGTGCTTTTCTGAGTTCCAAAGATTTCCTTCCTTCTGTAGT
TTATATACACTGGATATTCAAAAAGCTAGTGAGAGTTCAACCCTGGGCTAGGAATCCCAAGATACTCCTGTTAAGTCTGTTCCTTGGAGATAAGGGTCAA
GTATTAAGCAGGATTCTTACAGTCTCCCTTCCCTTTAATGATCTCTTCAAACATTTTCCCCTAGAAAAAGTCTTTRCCCATAGTCATTCTCTTAATATAC
TTTACCTAGAGGAAATGTTTTAGCTACAGTAGTTAAAAAGCTTAAAATTATTTGTGTTTCCGTTTCAAAACCCACATTTATCTTTAGCTCAAGCATGCTT
TTCTCCAACTCTTAAATACAATATAAAAAATTCATTTTGCCTCAAAAACCATTTATAGATATATAGCCACTTTAAAAACAAAACAGAAAGTGAATTCGGT
TCAATAAATACTATTTGAGCATCTGTTCTGTGGCAAGCACCGTGGTAGGTTATTTTGAGTAATATGCAAATTATCAAGGGATTTATCATTTATTTGCAGA
GCAGAAAGACATGCAAACCCGCTAATTTAACACATGGCTGATTGATATAAAGCCATATTATAGTTTCTTTCCTCTCCTCAATAAACAGCAAACTCTTTGA
GGGCAAGAGCTGTTTGGGTTTTTCATTTGTTTATTTTTGTTGTTGTTAGTTTGTTTTTGAGATGGAGTTTTGCTCTTGTTGCCCGGGCTAGAGTGCAATG
GTGCGCTCAGCTCACCACAATCTCTGCCTCCCGGGTTCAAGCGATTCTCATGCCTCAGCCTCCAGAATAGCTGGGATTACAAGCGTGTGCCACCATGCCC
GGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGAACTCAGGTGATCTGCCCACCTCAGCCTCCCAA
AGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCTGTTTGTTGTTAATGCCAGATGCTATCTCTAGTGCCTGCAGACATAGGATTCTGATAGGCAG
AGAAGTGGTGGAGAGCTATTCTAGCCTGTGGRAGAAGTGTTAAAATTTAACACACATAATAGTACATTGGAATGGGACCGTGAGTTGGGTAATCACTCTG
AAGTAACTGGAACCAGGTTCCTAGAGGGAAGGGGTTCTCGAGGTAGCATTGGGTCAATCCATAAAGGAAATTCAATGTAATCTTAAGGGATAAACAAAGA
TAGCAAATTTTCCCATGCCTTTAATTTTATCTATCATTTTCCTTAGTGTCCCTATCCCACCTTTATTTTCTCAGTCCTTTGGAAAAGTTCCTGGACACAG
TTTATTTTTGTGGTTGGATTATATGATAATATATATCTTTAAGCAAATTATTCAAATACTATTTTCTGCTACTGGGAGTGCCAAAATCTAATTAGATCTG
CCACATTTTTTTCTGCAAAAATGTACATTACAAAAGTTGTTTTTACCCTATAAAAATGTGTGATTTTTTCCATAGCTAATAGAAGAGAACTTACGTTTAA
GAACCTATACTGATAACCAATTAGTACTGAGATTTATGTGTATATAAACATAGTTCGTATGATGTATATACATTAATGTATTTGCTACAGAAAAACATAT
GTCATAGTGTACATTTTTCCATTTAAATCATAATTTAAAATAAGTACACCATTTGATTGGTTATCCTGATTCTTCTTTCGCCAGTCTTCCCATTGCATGA
AAACCATTTATGACGGTGTTTAATTTAATTGAACTCATTTCTAAGAGAATGAGTGTTTTAATTAAAAATGTTGTGTATTTTTCCCCTGAATCTGAAGGCA
GTCGGACTGATTTGCATTTCTTTCAGTTCTGAGTGTTGAGGGTAATATATTATGAAACATCTTTTTTTCTTGATATGTATGCACATTAGTTTTCATTATT
TCTATTTTAATATCACAGATCATTGTTAGCACAGAGTTTTGTGCAAGGAGTATCTTCAAAACGTTTTTAGTAAAATTATCAGGCACACTAAATAGAAAAT
AAAAGACAAAACTGGAGGAAAAGGGGAATTAAGACAGGCAAAGAAGAGATTCTAAGTTTTTATATTTTCTTAAGCAGAGTAGGTATTCTGAACACGAATG
TTTCAGAAGAGAATAAAGAACTAATAATTTTATGAGTTAAAAAGTATTTTGCATTTTTGCATGGCTAGCTAAAATATAGGTGTAGGACTTTAGATATTTA
TTTTTCAATTATTCATTGGGAATCTGTATTGTAAGACTTTGGGATACATCAGTATTTAAAACAAAAATACTTGTCTTGTAGGCCTTRTATTTAACGTTTA
CTAGAAAAATATCATGCAAGCCTTCTTATTCTATCAGTTTATTGAAAAAAATGAGCATTTTTTTACATATTACATGTATTTTTACATATTACATTAATAC
ATGTTTGTCTTACACATGTAATATTTCCACACTTTTATATCTGAAGGTATGTGCATTTAGGATGAAGTTTCATTTTTTATCCTAGTAACTATATTTCAGA
TTGTCTTTACATTTTCAAACTCTTTTGGCTAATTTCATGTTAGATTTCAATAGATCATCATTTGTTTTTGTTACTAGTTTCTATACTTGTTTTTAACCAC
AAAATCCATGTAAAAGAAAAATCTCATCTTTGTTATTTGTTTTGTGTTTATTTTAGCTTATTTTATTCGTATCACCTCTAATCCTTATTCTCTCTATGGG
ATTTTTCCCCCTAAACTATTCTAACTTTAGGTAAACTAGATAATATAACTTATAAATCTACTTAACCAGGAACACATAAATTGCTACACATTCACCTATG
ATACCATAAAATTACCATAAAATTGTCCAAAGGAAGAATTTGATGTCATCTGAAGTTTCAGGAAAGTGCTCTTGAGGAAATGGACGTGTTGATAGAACCA
GAGTGGGGAGGAGGAAAAGGAGGCAGCTCTGCAAAGGTGTGTGCATGTGGGTGCATGCCTACACAGATGTGCAAAGGGGCATTTTAATGCAGGTGGCCAT
ATTTGAGACAGATAAGGTTAAGGGAACAGGATAGATGTGGGAAATTATGGAATATTTATAGGTAACCCACAGTGACCCAGGTGAGGCTACTTGCAGGGGA
TGGATAAGGGCTATAGTGAGCAGAGCCATCAGATAAGATAGGGCCTTACTGCGGTAAGGTGCATACGTAACTCAGTGGATGGTGAAGAGTCACTGCATAT
TTCCAGACATGAAGGATTTGAAAAGGAAAACTGCAGGTGGGAAGACCACCTAAGAGAGGTAATGAGGGGCTGGCAGTGAAAATAGAAAAAAAGAAAAAGA
GCGAGAGATGCGGAAGATGCATCAAAAGGAATTGAGCAACCCATTTGTTTTAAACTTATAGTACTGAACTAGCAATTTTGGTAAGGTTTTAATGGGGCAG
AGATGTATTGGAAATGTGGCCAATGGAAAAGTGAGATGGATCTGAGAAGAGGTTTTTCAAGATCTTTGATCCTTTCTAACCTTTGCGTTACTGCTTTGTA
ATCACAAATTCAGCTCTGGCTAGCAGGATTTGGGTTTAGACACAGTGGCAGTTAATCTTCAAAATACAAGTTGGTTTTGGTTTTTTAAASAGATTTGATT
TGCATTTTATTTTTAGTGTTGAAGACATTTTAGTTCAATTATTCCGCTTGTACAGGCTGCATTAGGTAGCAGTTAAGTGGGCAGGGTCCAGAGCTGAGTG
ATCAGATTCCAGCTGTTAACTTACTGGTTATGTACCCTTTGTCATATTATTACTACTTAATTGCTCTGTGTCTCGATTTCTTCATCCTCCAAGTGGGCTT
CTATTAAGTAAGGTAATGGTGAGGATCCAAGAGTTAATAATAGAATGTGCTTCTAATAATGCCTGGCACCTGAGAAGAATAGAATCAATGGCGTTATGAT
TTCTAAAAAGGAAAAACGTCAAACAATATGTAACCAGATGAATCAAAATCAATTTGGTTGTATTTTCTCGAAGTTAAAGGAGAAAAACATAATTTTACAT
TTTATTTGTGCTCCCTCACCCAAAATGAGGCATAATCCCAAATCTCTCTGTATAAGCATGAGGGCGYGTGTGAGTGGGTGGGTAGGTGGCTTCTCACTGC
CTCGCCTGATCTAGTTAATTCAACTCCAGAAGACAGAGTAGCTCAAATAGGAGACTGCTTAGGAATAAGTGATGTCAGAACATAAAAGTTTTACAGAAAA
ATTGTAAATCACTAATATTCTCATTTTTTTTCTTGACAAGAGARTAATAAAAAATTCTCTTTTTCATGTTTTTAACTCTTTTTGCTTTTATTCGCTTCTT
TTCCATGCTACATATTTTCAGTGAAGAGCATAAATAAAATACAGCAAAACTAAGGAAGAAGTCTTTAGTACTTAGCCCAGTCAGGTCTTCCAGGTGATGG
GCAGACTTAGGCACAATAGTATTTTTTTTCCACTAGTGCATATCTTAGAATTATGTGATTTGGGAAGTTATATACTACAGAATAAGGAACATATGTAACG
CAATGCAATAATCACTTAGATATTTATTTTTAAAATCCTACTCTTTTAAAAGCTTTCATATTCTAATACAGCTAGTCACACTGATGTTGTGATGATCTGC
TGTTCGTGCATTATTTTCCAAAAGGATTTTTCCAATATTATACCATCTATGAAGCAAGTCTAGGTACAATGGAGTCACGTCTCAAATGATCAGTTTTAAA
TGATGTGCATAGAAATAGATACTGAAATTCTTTGTAATTTCTTCAGGACTAATAAAGAGCTTAAGGATAGCTCTCAAAAAAATTTTTTTGTCTTCACCTA
TTTGCAAGACCACAATTTTTCTATTGATTATAAGGTGCTAGGTTTCATTACTCAGTAACGTCCGACTGTTTCGACAGCGGATTGCATTAGCATGGCCCAT
TCAGCTGTTGTGGAGAGATGCCAGTTGCCATGGTGAAGATTATGATGTCCCACATCCAATCTATCCCTGAGATGGGGATGGCTTTTGCAAAACCACATGC
AAATATTTGTTTTCAAAGGTACAACTGACTCTTTGTGAAGCACTGGATTACTAGAGTGGATGTCTTTTCAATGAATCATCAAATGAGGATCTATTACCAC
ATGATTTCCCTTTTTGTTTAAATAAACTTCCACTGCCCTCTATCTCAATGCCCGTTGACAAAGAATCAGATTTCATATTGTATAACTTGACTGTCCTTTT
TAGTTATACAAGTTAATGAGTTTAGCAGTTTAATTTGTCTAATTTCTCTATTTGATTGCCTCAGAGCTGACCTCATATGCGTGGGTTTGCTGTGTTTCCC
CTGAGCTCACAAGTAGAGTTTTCCGTTTTCCTGTGAATATGTCTAAGCAGCACAGATACTTCCATGGAAGTAACAATGACCCTTCACACATCCAGGGGTT
TTCTCCAAATTGGGGCTTTTCCTAAGAATATGTATCATATGTTAGTATGAATGTTTTTAAAATATAGGTATTTTTTGTTTTGTTTGTTTTTAATTTTGGG
AATACTTGTCAACTTAAGTAAAAGGAGAACTCCATTAAAAAACCTTTTAATAAAATTTCTGAGAGTCACCAGTTTGCAAAATTCTTGTCCTGCCATCATG
AATGATAATATTGTTTATAATAATTCGTTTATAGTTTAAACTAATAATTAAACTGACAGCTTAATTAGTTTAATAGTTTTAATTAATAATTTAAATATGC
ATATACCAGTTTTATAAAACAGCCTGTTTCTGTGGCTTACTACTGCATTTCCTTTACCTTCTATAAATAGAATACTGCAGGTTTGATAAAACACAGAAGA
ATCTGAGAGACAAAATAAAATATGCTACTTGTATAAAATGTCCTCTTCTGAAAAAAGAAAGAGAAACAGAAAAGATAAAGGAAACTATGGTGACACATTG
TGAGGCTTATGATAACTATGTTTGCCTTTCAGATCCCCAGCTCAAGGGTATAGTGACCAGGTTATATTGCAGGCAAGGCTACTACTTGCAAATGCACCCC
GATGGAGCTCTCGATGGAACCAAGGATGACAGCACTAATTCTAGTAAGTGACAACCTCAGGCCACCAGTTACATAGTTGGTAGAAGATACACTGCTACTT
AAATGACTTTTTAAGATTCATTTGCAAATGTTTGGTCGTGTTGGTTCATCTTTACAAATGTTACACACTAGGATGCCATTTACAATTTTATTTAAACTAC
GTGGATGAAAATATTAATGGAGTAACCAAAGAAACCTATGGTTTAAAGATGATTATGTTACTATTTTTGTTTTTTATTCAGACAGTTATCATACCCAGAA
AATTACTGTTACTTTTAATCTTATTATTGTAAAAGTTAAGTAAGTACACTAGTGTATTTAGGTAAAAATTAATTACATGTTTTCTTTGGATGTATTATTT
TATCAGGCTCTGAGGTTCTTAACGATGCCTGTGGAAACTCAAAAGCTACAAGGAATAGTTTTGTTTTGTTTTTTTACATAATAGAAATATAATTTAAAAT
TCTTTGCATTTAACAAAAAAAACTTTCTTATAGAAAAAAACATAAAGGTTGTGTACTTTGAAATTCATTGTGCAAAGTGTTTGCAGAATTGCATCTGTGA
TCATTTTTAATTAAAAAGCTACACATCTTCCACTGTATAAATGTCTGTGTTCTTTTTCCTATTTCTTTATGTATAACATTTCTCCGTCTGGTGCCTCTCC
TTACTCAACTGTCTGTGTTTTGCTCTCCCATTTTCTGTTTATATTGGCATCTGATTCATTTTTAATTTAGCATATTAGTTCCAAAATAAGCACACTTTTT
ACTGTTTGGGGGAGTTAGTGAAAAGCAAAACTATTTTTATTAGAAATACTTAATCATAAGAAACATTATCGGTGGATCAAAAATAGATATGAATTTTTTC
ATTAATGTATGTCTTATTCTTCACATATAAACATCATTCCATGAAAAGAAGTGAGGGTTTGAATAATACACATAATCAAATCAGAAGGCACTTCCTTTTT
TATTTTTATTTTATTTATTTTTATCAGCTCAATTTAAAATTCAGCACTTCCTTTTTTAAATTCCAGTGATCAAATTGCCAGTAACACTGATTCTGGCAGT
AGTTAGCGATACAAAATAGGTTATTTTTACATGTCGTTTTGCCATGTGAAATATCATTATTTTTCCAGCCATCGTGTTCACTTTTTGTATTTTGTGCATT
GCTTCACTTTTTATTTTTTCTTCAATTCCTTTTTAATTGTTGTGTATATCTACATTGTCCTCCGTGTCAATTTCTAATCTCTTTACTCTCTTTGTGTCTC
ATATCACTCTTTTTTATTTTTAAATTTTTCCTTTTTATGTTTGTTTATTGGTTTATTTTTAGTTTATTTCCTTTTTGATATAGGAAAAGAGAAGGTAAAA
CAATTCAGCTACAGAAGAAAGAGGAGGCGTTTTATGCCAAACATGTACTTTTGCAGCTTTTGTTATTAGTTTGAACTTTCAAAGATTATTGGTAGTTGAC
AATCTTTGACCAACAAAAGATGTCAGTTTCTTATGGTTCAGGCTAATACATGTATCTCTGCTCAGTTTCTTTTCCCCTTAAACTCTTTACCCATTTGTTG
ACAAAAACCATTTCCTTTCTCTTACGTGTTACTGTTGTGTAGGTCACAAAGTTTAGCGATTCATAATTTCTGATGTCTTCAGTGTTCTCTCATTTTGTTT
GGCCTGGGAGGATTAGAACGTAATAACTAGTTTCCCATAACTCTGATCACTAGGTGAGCTATGACACTCTGAAAGATTCATCAGGCTAAAGACTGATGCC
ATCCATTTTATGACAAAAGTTTTCAAGACAGGACATACACCATAGCTTCATAAATATATTGCTTTATTGGACTACGTGAAAAATAATTTCACTCAAACAA
AGGTTTTATGTGTTTTTTCTCTAGCATTTTTTCTTTGTGTAATTTTTGCAGAGCCAACAAAATTGGTTACCTTTAATGATAGGAATCAATATTATTTTGA
GAAGTGTCTATTAGACATTGCCTTTTAAAAGCATACTGCTTCAGAATTGAATAAGCACTTTCTAAATATGGAAGTGCAGATTTATTATGTGCACACATAC
AGGTCTGGTTATCTGAATAATTTTAAAGACTAAACTGGAAAGCTGAGATACTAAAAAACACTCCACCTTCTGTTCTGTAAATATATGTTTTTTTTTTTTC
TTCTGTATCTGCAGTAGAAGGAGCAAAAACTCAGAACGAATCTTGAAATTTCTTCTGACACTCTAAATGCTAGTGAGACACAGTCCTGAGAAGAAAGATG
AAACAGGATCCCCTTTGTAAAAGCAAATCAGAAGAAAATCATAATGCCCACACTCGAGGGGCTCAAATTCCTGTGCAAAGTTCTGGTCCACAGCTTTTCT
GAGAYATTATATTGCATTTCAAGTGCACTGTAAGCCAGTTAGTTTAGTTTTGTTACTATTTCAACATTTGCAAAGAAATAAAGAAAAACAGTGGGTAAAA
TCAATATTCCCTCCTCAAAAGGTTCTACAAATTATATGACTATAAAATTTAATACAATTGGCAGAATCGTAGCAGATTTATAAAAGTAATGGAAATTACT
AATTAACTTCATTTTTATGTCCTCTGGCCTATGCAAATTGCAAAACGGTGTTTCTTAGGATGAATTTAAAGACATTTTCTTTTCTCTAGTTCATTTCAAT
AGTCTCATGAATCTTATGAAAAATGTAAGCACTGAAAAATTCTTTAAAAATAGGAATGTGCTTTAGAAAGGCTGTCAGGTCCTACTTAGAGTACAGCTCT
TYTGTTGTGAGGACAGAGGTGATGTAATAATCATATAGTTTCCTAGTTATGAATAACCAACCCATGGTTTGTATTCAGGGAGTTATAAAAAATGGAAACA
TGTTTATGAATAATCATTCATAAACATACTGAACATAAACATTATGAATAATCATTCATAAACATGTTTCCATTTTTTATGACTCCCTGAATACAAACCA
TGGGTTAGTTATCCATAACTAGCAAAAATAATTTTAAAAAAACCAAAAACTCACCCAGATAGCACTGTTAAAGTCACTAAATAACAAAATTGAGGGCTTG
AACTTTCGTATCTTCATGAATTGAGTTCAATACATTTCCCACACTAAATATGGATATTTAGAATGAAAAAAAGACAGAACCATCCTGCTAAACTGCCTTT
GTTAAAAATTTCAGATGAATTAAGAAGAGGGGAAAAAGGCCCACTGGTAGGCAAACGTTGGTGCCCCTGTTCTCCAAGGGTTTCCAGTCTAATATATGTA
GATCTCTGGGAAGGAAAAGTAGCACAAAAATTGTGGATGATGGGTAAATGGTTCTGGTGGAGAAAATACTGTAGCAAGTCAACTGCTTTATTATTGACTA
CCATAATAATGGAAAGATCTTTCACAAAAGGAAGTGAGCACCTAGGTAACCTCATTACCACTCTCATTTAAAGTTCTTCTAAATGTCAGCATCCCCATGA
ACTACGGTACTTTATTAGTGGGTGAGTTTTCTTTCCCCCCACTTTGCTTTTGGGGATGCCATGGATTTTTTCTGTGCTCTTAAACTTCATTGTTCCTACT
GACAGACAATAGCTACTACAAGCAGAATAGGACTCTACAGATATCAATACACTATTAACTATGGTAATGTTAAAACCTCAAAAGTCCCTCTCACCTTAGA
AATGCTCAACCTGGTAACTTGATGTGTAAAATATTTCGATCACTCAGTGGCCACCACCCCACAGGATTTAGGACGGCAGTTCTCACCGTCCTTAGTTGTA
TATTAGGGTTATTTGAGGAGCTTTTCAAAAAAATTCCTTATGTCCTAAACCCGTTCCCAAAGATTGTGATTTAATAGGTATGGGGTTGAGCCTGGCCATT
CTATGTTATGAACACAGCTAGTTTTAACGTGCGGCCAGAGTTGAAAATCACTGTTATATGAAGAACTAGAATGTTCCATGAATGAACAAAGTCACAAAAA
CATCTCCATTATTCTTACTCCCCTAGGCTTTGTGACATTGCCTTATAATTATGTAAGAAGCAAAGAGAGTGGAGAAATAAAATTATATCTCAATTAATGT
GGGTATCTGTGTTTTTAACTAGTACCGGTTCCATCATGGCCAGCTCTGAATGGTTCTCCACATTTTAGTGTACATAAGCATTCACTTTCCACTATCATTC
TGTAAATTATAATACCTTGTTTTATGTATGTATGTATGTATGTATGTATGTATTTATTTATTTATTTATTTATTTTTGAGATGGAGTTTCGCTCATTGCC
CAGGCTAAAGTGCAGTGGCGTGATCTAGGCTCACTGCAACCTTCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACA
GGCATGCCCCACCACGCCTGGCTAATTTTGTATTTTTAGTAGAGACGAGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCC
ACCCGCCTCGGCTTCCCGAAGTGCTGGGATAACACCACGCCCGGCCAATACCTTGTATTTTATAATTCAGGTCCCAACCAAAACACAAGGGAAAAACACT
AGTATTTTTTCAGTATGATCATTTTAAACTATCTTATATAATTTTTATGTTTCCCATAACCACATCATTTTGGTGAATTCATGATCTATTTGTTTTCTAA
AATTATACTACCTGGCCTATATAAAATATGTGGCACCTACAAATATCATTCTGAGTGTGTGAAAGTTAGAAGAGGAAAGTTAGAATAATTAAATTTGAAT
TGATTAAGTTAGTGTACCTTGCGTGGACAGTCATATGATTATGGTTTTCCCTCCAAAATTTTGTGTATAAATCAGGAATTATTCTATGGTGCCCATTCTT
TCAAGATGTAAGGGGAGATGGTACAGTTCAGGTGTTCTAAACAAGAGTGAATATAGCCATCTCCCACCAAGAAGGAATACTGAGAGTCGCCAAATGGCAC
AGGTAGCTGTACTCAACAACTCCACATCTATATTTAATATTAAATAATGGAAATGAGGAAAAAAAACTAATTCTTTCATAAGAATAACATAATCCCCTAA
AATCCTATAGCAGAAAATCTGATATTAGTTTACGTAGTGAAACTAATATCCAACTAACCATAGATGCCCCTGAGTATTTTTCCAGGGATAATATTCATGG
CTCTGGCCTGAGGTTTTCCTTTTATATTTGTGTAGCACAGACATCTTGGGATCTTGAAAACAGTAGCTTGTAATAATCAGAAGAGAGGGTGTAATTTTCT
TCAACCTATTAGGAGGAAACATGTCCCTGAGAATTAAATATAACACAATTTGTAAAGTTTGTTTTTAATTATGTACTACTTAGACCCTTGGAATGAAGTC
CAAATTGCCCACATTTTTCAAATGACTTGGTTTTGTGCAATACAGTTGAGAGCCTGAGTTTGGATACTGTACTTACACTTACATCACTATTTTAGTGCTT
TCATTTCCTGTTCTGTCCTGCTTAGAATTAGACTTAGTTAAGAAGGACTTGAGTAGCAGCAGATAACCTCACTGTAAATAATTAATAGTTCTCTTACAAA
TGTATCTATAATAAAATCTCCAAAATCATCAAGCAGTTATCTCTAAGACTGATGCAAGAAAACCTACTAAACATTCAACATGCAGCACTGCCATGGAAAT
ACATTAAAGGGATGTTAAGTTTTTTTAATGTTATAACGTTGCTATCTGCACTATGCAAAAATATATAAAATGCTTTTAACATTTTATCAACAGAGAAGAA
ACAAAACATGGAAACATAAATGAGTAGCCTCTCTGACATTTGCATGCCATTCAGTTTTGATTAGKTCTTTCTAAATTTAGCTCCTTGGCAGGTGCACATC
TTTTCCTGGCTTCGCTGGCRTATCATATTGGTTCTACCACCGTCATTTAGTTTTGGAATCACCTGTTTAACTTCTGGCCTGACCTCATTGCAATGACAAA
TCACACCTTCTGTGCGAAGGGTCAGAATAAACACTCGACTTGGACTTTTAAAATTCTGCTCTTTGAGAGACTTCACAGTTGATTTCTTTTGGTATCTAAT
GGTGTCAGAGACAGTGTTTCTAGAGGCACGATTACAGGCTTGGTTCTGTTTATTGTCGCATCAGCCCTTCAGAATGCTGTCAGCAAGACTGCTCACATTT
AAAGGTTGAAGCTGAAGTACTCATTTTACCCATAGCAGAAACTTCTTACTTATAAAGCAAAATATAAGTTWTTTRATTGSAATTTCTAGAAAGTATTGGC
AAAGATGATGTTTCTTAAATAAAATAAATCAGAAAGAAAAAATTACACTCTGCCCTGCTTCTTCCTGCCCATTCATGATAGACAATGTTTATCTTCACAG
CACTCTTCAACCTCATACCAGTGGGACTACGTGTTGTTGCCATCCAGGGAGTGAAAACAGGGTTGTATRTAGCCATGAATGGAGAAGGTTACCTCTACCC
ATCAGTAAGTAAGACGCCAAAGATCTCRGCCATTCGTTCAATGCATGTAAAATAACAATGGCAGCAACAACAAAAAGAAAGTTCTATGTCTGTTGTTTCT
GCCAGTTTTTGCCTTAGTATTTGATCTTTGCGAGAATGCTTAGAAGCTGTTTATTATTCACCAGTGTTTAGTAATATGAGTTTATCTAAAGGAAGTGTAA
TACTATGTCTTAAATAGTGCTTTTGCCATATTTTAAAAAATAACCTAGTATACACGTGAATCTAATCTTTTGTATTTCTAGTTAGAAATGCACTTATCTT
AGAGAGTTTCTTATAATGTTTTTAAAAGAAACAATATGAATTCTAAAAAAAGAGAAAAGTAAAAGGAGAGTATTTTCTAAAGTAAGAATTCAAATTGTGT
GGATATTTTACTGAAAAAATAACTACTTATAATATTGAAATGTGTATTTCTTGCAAGCCTCTGTGTTTTGTGGTAATATTTATTGGAAGCTGAGCACTTT
TCTAGCCATATGACCTCTTCTGAAATATTTTCTATTTACAACCGATTTGCACTCAGATATGCTGTATTCATGCATATAATGTAGTTAGAATTTATTTCTG
CCACAGGTTTAAGCAGTAAAGACTTAAAGGTGCTTTTTTCTATTATCCCTTGAGCAAAAATTGATAAAGTCTTAAATGCATTAAAATATGCTCTTACATG
TCATCCTCATGTAAATTCGTTGAAACTCTGTCATTGTTAAATATCACCACCAACAAAACTATAGATAAATATACACATATTGTGTGTGTGCGCGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTTAAACAGAAACATTCTCCAGGGGGCCTCCCAGAAAATGTAATCTATTTTCTTCAGTC
AATTTGGGAAATCCTGTCACAGGGAAATGAAGTCTGCGCTGTGGATTCCCTTCATGCTGAGCTCAAAAGTGCTGGCTCTTCTTATTCTGAGTTCCCTGAA
GGGTGTTCCCACACAGAGAACTGGGTCCCACATTATGCAAATTGTGTTCTCTCGCACAAGACGAATATGCAGCATGTTGCCAGCAGGATCAAGCTAGAAT
TCCCTATGCTCCCTTTAGAAAAAATTAAATACGAAAAGGATTACTTTCTAGAGATGCTTTATTTTCAGATACAGCTCAATCTTTTTGATTTGGAACTTGC
TCTGTTATTTTTGTTTCTTTATCTTCTTCCCAAGTAATATTTTAGGGGCCTAAACATCATTAGATGCAGTGTCTACTGTAGCTTCTAGTTCTATCTTTCT
GTTAGTAATTGTATCACATTGCTGTACTCTGATACATATGTTGATGACAGGGAAATTGAAATATTTGTTTTATCTTTGTGCTGCTGAGAGAGTTGCTTTT
TATTTATTTATTTTTTGTCATGTGGTTGTAAATGTATGCCATTCTTTTTTAAAGGTAGGGTATATCATTTTGAGTATGTGTCTTAGCCTAAAATAAAAGT
ATTGATTATGCTTGGTGCAGGCTAAGCAGTAGGAATAGAAACAAGAAATGTGTTAACTGCCAAGTCCAGTCCCCTGCATTTTAAATATGGTTTCCGCATG
CAGAAATCAGATCTCATGAGGGTCACTGCGTGCAATAGCATTTGCCCAGGGTGAGTCCCGGGAACAATTTAAGGCTTGTTACTGGGTACGTTGTTCTCTC
CTCTCCCTTCTTCCTTCTGATTCTCCAGTTGCTTGGCTTCCAGGCCTCCCCTTTGGTGGCTTTATTCTCTGACTTACAGATGTTGGTGTTCTCCTCTTCC
CATCCTTGACTCTTTGTTCTGAACCCAAAGTCTGGTAAGAGACACAGTTCACTCAGCCCCTACCCTAAGGGATCTCCTGTGCCTAGGCCAGGCCACTGTA
TGTCTTAGCCATCTTTGGAAAGAGGACTTGGATAAAAACCAAAAGCGATTATGAATCTATATCAGTACCTCCTAATTAAACTGCTCTGTTTATTTCAATG
TAAAAAAATTTGAACTTCAAATATTTCAGTACAAATAATTATCTGCAAGTATTTATTCYATAATTTGTTACTGAGAGCCTACTAAAATAGTAATATAGAG
CACAATATAGCAATTATTATCCTATAAAATAATAGCTATATCTATACAATAACAATAGTGATGATATTTGTACAATCCACTCTGTCTAGCACTGTTCTAA
GCACTTTACCTGTATTAGCTCATTTAATTATCCCAATAACCTTTTATAAGCAAATATTATTAAAATAAGGACACTGATATACAGAGAGTTTAAGAATCTG
CCCAAAGTCACTCAGGTGGTAGATAGAAAAGATAAGATTGGAGCATAGTTAGTATGACTCATTAGCTTACATTTTTAACTGTTTTATTATYACTGCTTTT
ATGTGCCAGACATTTTTTCATAATATGGTCTGACACCTTTTCTAACAAGAAGTTATAAACACATTATGATGTAATGAAAAACTTTTAGGGAATTGTTACC
TAGGAAATAAACTGTATTTCAGTGCAATTATTGAGAAGTATAATTTCAAACATAATCTGTTTCCTTTAAAGATTTTTGAGTTAAAATTAAAATAATAGAA
ARTTTGTCAAGAAAAAGTTTGATATTATATTATGGGTATTAATTTTTTTTATATTTATTACATTTAACATTTAAGCTTTAAGTTTTAAAAGCCATGACAA
ACGTTGTTAACCCAACTAAGAAGTTTTGAACTAAGATGAGTAAATTTTTGAAAAAATGACAGCTCCAGTCAAGCTCAGATTTAAAGAAAGAAGTTAATGG
AGATTTAAATCAGACAAATGAAGTCATCCATTYTAAGTTTATCCTAATTTTTTAAAAAGTTAATTTAATTTTTGTGCAGTGTAAACTAGAGTCTAATATG
AAATTGATTTTTTTGAAGATCCATAGGTTTAGAAGTAGTCAATAAAATACTCAGGTCATCTAATTTGAATTCTGGTAAACGAATATCACAACGGTGATTT
GACTTGAGGTGTATCTTCCTCTATTTTTATTTCAGGAAGTAACTTTCATACTCCTTTGCTATCCAAATAAGATACTTAATGTGTCAGATAATTCCACCTT
CTGGAGACAGATAAAAGGTACTTGACTGAGATGTAAGTTCCCATTTCCAATGCTAAAGGCACCTGTTCTCTGGGGGATCTTTTCTTCAATATGATGATAG
TTATTTCTTTTGTGGTCCTAATGATTGCAATATGGTACTTGATATTGTGCTACAAGAGATTTAATGTCGGATACAAGCCATTTGATTGAAGGTACAGTGT
GGGCTACAAGGACGCAGAATAGAAACTGTCAGAGTAATAATTCTGCCAAAAAATTAGACAGTTTAAAATGATGTTTATGAACAAAAATGTACTTTAACCA
CTTATCACTATTTCTAGTGCTGAGAGAAGCAGTCAAGTTTTTTGTTTGCTTGTTTGTTTTCCAAGCCTGTGACTTTGAAAGACTAAGAAAATCTTCCGTA
GAAAGCTAAGGTTTGGAATGTAAATTGTAAACAATAAGGAAAAACTGGTAATGAAAGGAAAATGTCATTCATCATCAGGGCAGGGATAAAGGATAGTTGA
AGTGAGAATGTGTTTCTGGCATAAGAAAGATGGAGAAGAAAAAGAAGGACGTAAAAGAGACTGATGATACAATGAGTAAATCTCTGGGCTTTATTCAGAA
CACCTGGGTCCTGGATCTGACAACCAATACCTGTGTTAAAACTTCCTAATCTCTCCTAGTCTGYCCCCTCATCTGTCAGATTACATGATTTCTCTTGAAT
CCTTCAAGTTAATTATGGGGTTTACAATTCTGGTTTTARTATGATTGATTTTTCTGAATGATAAGGTAATYTTACATAAAATGCATAGAGATTCCTTATT
GGTATTTTATCACAGGCTGGCATTTATGAGAATATTATTTTCCTCCTGGTGCCATCAGTGCTTCCATGTTCTAGGTGCAGGCATCTTCGCGGTCRTAAGT
GCCAGTGTTCTCCTGAAATWAGCATCTCATCTGAATCTGTTAACCAGATTGTATAAGTGGAGAGAAATATAATCCTTTTTCRTGTTGATTTTAAAAATAA
ACCAGGAAAATTCAAGGTTACCATGTTTTGCAAATATTAGGGCTCAYGCGAATCACCTGGAAAGCCAAGAAAAGTACAGATTCCTTGGATCACCATCTAG
ATATTTTAGTTCAGTGGGTCTAATGGGAGGCCCRAGAATCAACAGTTTGTAAGGGTCACCCTCCCTCACTTCTGCCGGTTATTCTAAAGTTACTATTTCA
ACTGTGGACAATCACACAACAAGCATTGCTGCAATGSTATCTGGGGGAGACGGTGATAACGTTAGACCAAGGTGATGGTAACAGAGTTGGTGAAAATCAG
TAAATGGACTACTCAGGCATTGAAACTAAATATTTGGATTTTCTAACTGTTCTACCACTAAGCTGAAGTTTACAGAAGTTTGAAAGCAGACCAGCATACT
TCTTCACTTAAGCAACAACTCAGAACTTCTGGAATAGGGACTGGTCATCTCTGTGGGCTGGCATCACCTCTCCTACCTATCCATACAGGATAAATATGTA
TATATGAAAGTTCTTTAATCAAGGAAAGAAAGATAAATGCTATGTATTCCTCAGTAAGCATTTTCAAGATCATCAAAGTCTTATCCACTCTACATAAGAT
AGTGTTCTGATATCATATCTTTCAGGAGCATTTTCAAATGAGCCTCTTCTACAAAGGTGGTTTYACCTGCCCTCCTCTGTGCCAGCAGGCTTCTCTTATT
GATGTGTCCTGAGTTGTGTTTCCGTCTGTCCTTAGCTTTCCAAGAGCACCCAGGCATAAAAGCATCCGAGCAACCCACCTCATGCTTCCATGAACTGTTC
ATCTTCTTGCAGGATCTATAATTCTAGCAAAACAAGGTGGAACAATGTTATTTTCCTCTTGAAATTTATTCCTCTCTTCGTTGCTCAAGTTTAGGGTATA
GAAATACAACTGCTCTGTTTTATCAGTATGGTACCTATCATCCTTCAGAGTCTTTCTAATCTTCCCTAAGAGTAACACACCCAAAGACATACATGTCCCT
CACCTGTAAGTACACACTCATGGAGTATTGCGTGAATTCATTGCCCATCCCTAGCACCTGTCCTGTCTCTGAGTAACACCTTTACATGCCGATTCTCATA
AAAATGTTCACTATTTACTCAGACATTGGCAGGGCTTCCTATTCCTCCTCCCCCAGGTTTTATGTTTATTTGTTTTGTTGTTGTTTGCTACCAGGCAGTG
CATGTGCTTAATCAAATAAACTGAGCTCTAGTGGCCATCACTGGCCATCAACATCCATTGCAGGCAGACCAAGGGCCTTGGCAGCATTTGAGGGTTGCTC
ATCCTGGGGAAGAGCCTTTCATTCTCCCTGGGAGCACTAAGGCAAAGCTATACCAAGTTCATCTAGTTACACACAGGTGCCCCTTTAAGAATGGAAATTA
TTTTATTCTTTATCTTTTATTCTTCATCTCTCTGAACAGGTTGGTTTCTTTATCATAAAAAGTATATTAAACTTGAGATGATTATTAATGTCTCCAATTA
TTATAACAATCTATGACACTATGCATGTTTTTCTGCACAAACAATATCTAACACTTTTTGGGGATATATATACACATAGACACACATATATAATTCTCAT
ATGTATGTGTATGTTTCATTGGAATTATGCATTCTCCTCAAATTATATATACATTTATCCCACGATTATGAGTGTTTCTGTTTATATTAATAAAATGTTA
AATAACAGTTTTACATTTGCACATACTTTAAAGCTTTACTTGTCATGCTTTAACAATATTTCTTTTTTTAATCAAGCTTTTCTGTGACTTCTTTCACATT
AGAGTTCAGTTGGATATATCTGCCAGGTTGAAATGGCTATTATCCTTTCTTGGTATCTTGGCCAAGATAATTTATAGTATTAATAAAGCAAGTATGATAC
TTCAGCTAATTTTCCCCCTAATGCTAATTTCAACATCCAGCATTCGTGTAATTCCCATGACATTGAATATTGATGCACAGAATGTAATTGGTTATGTCCA
AGAATGCCATTATCTACTTAGGGTCACTAACTGGAAAGGAAAAGAATTTGAGAAACAAATACAGCTAGTAAACTGCATTTAACTAGTTATAAATCATCTT
TTGGACAACAGAAATTATGGAATATCCAATTTTTTTATTTGTTAGGTTGAAGCTAGATAACAGAAATAAATTACTTTGATACTATCCAGATTCCAGTGAC
ATTTTATGGAATATAAAGAGAGACATTGGAGTGGATAGTGAAAAAGATACTGAGAGCCTAAGAAAAAGAAGAGGAAAAAAAATAAATATAAAGGAAAGAA
GATAATAGAACAGCAGTAGTCAGATGCTTTGGCAGCATTGTGGAAAGAAAAGAGAAAAGAAGAGAAAGGAGAGAGGATGGGAGGATGAAAAAGGAAGGAA
ATGAAGAAAACCCATCACAAGAAGAGAAAGGGAGACCTTGTTTTCTGCCTACTCCACCATGTTCCTGGAATCCACCTGACTCCTGATTCTAACTTTCTAC
GTGGTGTAGAAAAACAAAACCATCCCTCTTAAAGCTCAGCCCAGTTTCCTACCATACCAAAATTACCTTATCTGCTCTAGCCCCTTGGACACATTCACCT
ATTTCCCCTTCCCAAAAGTCCTCTTCTAGAGTGATGGCTGTGTTTGCTTCATGTGAATTTCAGGCAAAACAAAGAACAAACAAACAAGAAAACCGCTATG
ATCATAGTTAACTTCCAGAGGATTTCACTGGTGACAGTGAGAATGAGTGGAAAGGGATGTCAGCAGTGTCTAAAATCTACCGCAGTTATCCGAATGAGGA
TACTGAAAACTTGAATTAAGAAAGAAAGCTAAATAAGGCTTGAAAACTACGAAACATTTGTCATTGCGTTTTCTTGGCTTGTTTTTGGATAATGTGCGTG
TGTGTATGTGTGCTGTGGGGGCAGGGGTTCTGTGTGATCTGAATGCCTTTAGGTGAGGCATGCACTCCACTACTGTGGCCACATGGTAACCACTCCTTAA
TTTTAGAAAGGAAGACACAACACACACRGGCTCCCTTTGTTTCTGTACATATGTTGACTTTGTTTATGTGCCTTGCAGACACTAGTGTCTGCAACTTCTG
AATTAAAGGGGTGGAAAAAATCAGAGATATTTAAAAGTGTTTTCTGAGGAACTGTGGAAAGAACTTCATGGTTGTCTGGGTATGGAGACAGCAGAGTCAC
AGCTCATCTGGTAAGACTGGCTTAGAACTAGGTAAGCTGTGATGCTTTTCACTAAGAAAATAAAGCCCAGAAGCAGGACAGGGTGGGTGGATGGAGTAAG
ATGCTGCATTTGGTTAGGGACCTGCTTAGTTTGCCCACAGGACATCCAAGTGGATTATAGTCATGGAATGACTATTGGATGATGATGAAGCTCATTGATC
CTAGAAGGATCACATCTCAGGGCTGTCTTGGGAAAGCTGTGCMGATAGAATCAATTCTGTGACAGATGGTAATTGTTTTTCTATTCTTCCTGCATGTGAG
ACAAAGATGAATATGCTGGGTCAGTGACATCAGCATAAAGTTAGATATTACAAAGAAGTTTATTAAATAACATGAGGTCTTGAGAAATCTTTCTCACATA
TTTTGATTCATAAGTATATAGAATCTACATGCTCAATTTTGGATACTGGATAATAGAGCAGAATACTAGCTGAATTAAATTCAAAACTTGTGTTTCTACA
AAATTGATGCTAATAATATATGAAGGGAATATCAGGGCTTCAGATCCTCTCATAGTGGTTCACAAACATCAATATTTATAAGACTTATTGAAATGATTTT
GAAAATGACCTGATCTCAGATATTAACAAAACAGAATCCAAGACTCCAATTAAGTGGTTTCAACATGCCTCAAGAATCATAATTTTGAGGGCTAGGCACA
GTGGCTCATGCCTATAATCCCAGTGCTTTGGGAGGCTGAGATGGGGAGATAACTTGAGCCCAGGAGTTCCAGGCTGCAGTGAGTTGCGATCACACCACTG
CACTCCAGCCTGGGCAACAGAGTGAGACTCCATTTCTAAAAAWCAAAAAAGGAATCATAATTTTGAATATATATCCCAGGCATGTCTAGTGCTGGTGACC
AAGGTSTAAACTACTTTCCCACAAATCAGACTTTTCAACTGCCTGCTTTTATATCTACCATTGATTATTGTCATTACTATTATTATAATTTATAAATTCC
TAGTTCAGGGCTTGAACTAGGAGTAAGCAGAATGACATGACCATACATAGAGCTCACCTTTTCCATTAACCAGATGAGTTGGCCTTTGGGGAGTGCATAG
AGAAAACTTCTGGTTGTGGTCRCTCCTCTTWGTCTGTGGGAAGAAAAGGACAAGAAATGTCTCCTCGAGCACCAAGATGGTATAGAGAAAGACAAGACTT
CKGCTGAGACTTCAGAAAATGAAATAAGAAATGATAGAAASAAAGCAAGACATTAAATTTTCAACCAATAATGGCTGGTTTGCAATCTTGAAAAAGAGAT
GTAGTCTGCACCACGTAAAGCTCAAAGGAGAAATCAGCCTGAGACCATCGACAACAGGGCTGGCAGGCGCCTGCTGAGTTGAAGGGCATGACAAGAGCAT
CCTATTGGAGCAGGTTGTCAATGTCAACCAACCTGGATTGTTTCAGAGGTGGTTGCTTTTTAGATTAAAAAAAAACAATAAAAATAGATAAAACTGTATT
TAATAAATCGCTTCCTTTCCCTAGCCTTCTGTTTTCTCTGAAGCTTCATTTTGTCTGTATCTAAGCAGAGATTTCCAGACAAGTTCCATTTCTGGGTTAG
AGGAGATGTCCTTCTCCTTCCAGAGGTGATCAGCAGTTACATCAAGGTGCTCAGTATGAGACAGAAGTGGCTCGTCCTCCATGTCCAGTGTGGACAGTGG
GTTGTTCCCATATGGGCCCATCATAACACGTATTTCCTAACTACAACCAAAACCATACGACCTACTTAACAAATATCAAACACACAAACTACTAACAAAA
GGGTTTGCAAGAAATATGTGGAAAACCATTCAACTCAATATTCATAACTTAAATATATGCTGAGGAGTAGAGCTCTTGGTATCAAAGTGTATATTAATGA
ATTCATTTATTTGCTCTTTCAGCAAATATTTATTGTACTCCTTCCATTGTCAGCTATTGTACAACATGTGCGAAGACTTCAAAGATAAGTTAAAAATTGT
GGTTTAAAATTGAAAAAGAAAAAATAACAAAAACCTGAAAGTCCAATAGACAACAGTTAAGTTAACCATTGAAGGACATTTTGACTAGATGAATTCTAAG
AGTTCTATCTTTTCTCAGAATCTGTGATTCCATGAAAATATTTGTCCCATTTCCTCAAGTAGTGACAGCTATGTAGGGAGTTTTTAATCTGTACTTCTTG
ATTAATTATTGTTAAGGTGAAACCAATTTTCACAGTACATTTTATTAATTTATTYCTCGAGTGGCTTCATGTTCATGAAATGTACTGTGCACATCACTTG
TCTTTTTTCCCCRCTGAAAAAATTCAGTGTCAGCAAAGAAGATATGTCAATTTCTCAAGTTAAAATTGCAGAAAAGTACTTATTTACACGCTGCTTTGCT
GAAAGAGCATGATAAATCCACAGACACAGAGGCAGATGTTCAACGGCTGCATTCTAATATGGCCATATTTGCATTAATGAAGTGAGTGGTAATGTCGTCT
TTAACTTAAGAGAGAATCTCAGGGGAGAAAAAATAAAACCCTAATTTTTAGTAAATGTTGCCACCACTTAAACTTGAACGTTTTAAAGCAAGAGCATTAA
TAATTATAATTAGAAAAAGAGCTTTGYTATTTCTACATGTTCATAAAATGACACAAAATACTTTGGTTTTATATTTTCTTTCAGCGTCAAAGAAGAAAGT
CATAAACATCACTGCAGTTTGCATTTTTATCCTGATTTCCTCTGGGGGTTAAAAACTATATAAACTACTGTAAATAGTAACAACATTTATATTGATCAAA
ATGTTTCAAATTTTGGTTAGCTATATTTGTGAATGGTACATGGTAGGTGGTAGATGGTGAAAATAATTTTTATATGTAAGGAGTTTCAAAGATGATCTAA
AACATGAAGGCCTAAAACAATAGATGAAACACTATTTCAAAATGTATTCTCTCTTTGTTTTCACTCTCCATGTTACAAAAATGGCAACAAATTACGTAAA
TGCCAAGGAAGCCAATATATCATATGGTAAATGACAAATCAACTGTAACATTGAAACAACAATTAATAGCTATTATAGCTATTAAAATTTGAAGCAAAAT
TGTGCATCTTTAAAAATTATACACACATGTGAGAGGACTCATGACTGAAATCTCAATATACCATCTATCCAAGTTGAGTTATTTTCCTTTTTTTTTTTTT
TAAGATAATTATTCTTCTTCCTACTTCTGGGAGGGACAGTGTATGGGAGGTACCTGTCAGGCACTGTGAGAACCCTGGGCTCTGAACAGATATGGGGTAT
TTCTCTCAGTATCCTCAATGCAGCTCCAATAACTAATCCCATTTCTTAATCACTTTGGAATTAATAAGAAAAATAATTTATTTTAGAAATTCACAAAAAT
ATGTAAAACAACTTTTTTCTTTTTTTCCAGAGGAATAACTAAAACAATTCTTATTGAAAAGCCAAACTATACATTTTTCTTCACAAGTTGTATACTAAAA
ATTGGCAAAATAACTCCCTCAGTGATAACTTTCATTGTTTTTTCTTTTTTATGTTGTTTGTTTCTATGGATTTTATATAGTTTTAAAGCTATAAGCTATT
GAAACAATAGTGTGCATTTATTTGACTGAAAATATTGGCCACATTTTTATGGTAATATGACCTGTCCACCAGAATTGATCTAACACATTCTAGAGCTTAG
AGAAAAATAGTGATGACAAAGATAGACGCAGATGCAGTCTTGTGGGACCTAAGAGTTTCTACAGATGTGAGTTCCATGCKCACTACATTTTAAGTTTGAC
TTCACTACATTATGGAAAGACATATTGTGCTCTGTGCTATTTAGGGTTTCACTAAATGTTGGTTGTTGGTGTTCAGATAACTCATCCAGCCTGGAAGGCA
ATTTCATTGAAAGGGTGCACAATGTTCTTTTCAGCAGAAACATATTAGATCTCTGAGGGGTTTTGTCCAGGGTTAGACCTTGGTTTTAAGATTTGACCAC
TCCACTATATTAAATAAAGAGAGATGAGTCACATGTTAATAARCATGTCCCAGCCCATACAAAAGCACCATAATTGGTTGCTATTTGCTGTTCTAATTGA
GGTAGAGACTGAATGGGAATAACGTATTTTTTGTGAGGCTTAGGAATAACTAGATTTTTGTTCTCTGACAAGGTGGAGGTATTTTATTTGGGCATTCATC
CTGGCTCCTATCTATTATTTAGCAGAAATCATTATGTGGGCAAAAAAGAAACATCATTCTACTTTACTATTAAGCTGACACTAGTGTCTAATGGTACTAA
CCCAATAAATTGGTGAATATTGGTTTATTCCATGAGAAAAGCATCTGTTGATGTTATGAAATAAATTAACTGTGTGTGCCCTTCATGAGGAAACAATGAC
AAAGAGTTGATACTTAATGACTCCCCGTTAATGTAAACATCTCCAATGAACTCATCTGCCTTTCMACTATGGACCTTTTATAATACTGTTTCTATTACCT
ATACCGTAGACCACGTGCAAAAGAGATGCCTGTCACAGCAAATTATTTTCTATGGTGGGCAATACTGTGTTATGGTTCAAAAGTATCGGATTCCTAGCTG
TATTTCAGACATAGCTTTGAAGAAATCAATGTCTTTCTTGCTTATAGGTAATATAGAATAAAATTGTAACATGATGATATATTACCTTTGAGAGTTGTAT
AGTTATTGTGTTATAAGAAACAACTGTTTTATTAGAAGTCAGAAGCATAGAAGGTAAAATGCTTACAATGCAAAGATGCAAATTTATTTGCAAGTGCCTT
CTTTGTAATCAAAATGTGCTCATATTCTTACGGTTGTGTTAAATGGTAAAATAATGGTAACAAAATTATGCAACTCTGGAAGAAGTCATAGCCTCGACCA
CATTATTATTTAAATATTGCCATTTAACATTTCACTTCCTGTTTTATAATCATAAATTGTTATCAACAGAGGTAATATAATTTTTGTATTAAAATTATCA
GTAGTAATTATTGAATAAAATTCTTCCTCTTGGTATATAGTAATAGATATTGCCAGTCGAATAACTCTACCTCCCATTTAATGGTAGCCACTATGCCTAA
ATTCTACACTATTTTTCAAAAATATCAATTAGAAATCTATATTTCTAGCAATATTAATAACAGAAATCAACTTTTAAACCATTCAAAAGTTGTCTAGACA
ATTTTTACCTAGAGAGGAAGTAAGAGGCATTCTTTTAATGTCCATGGAGAAATAAACTCTAACTTGAAATCTTGTATTAAAATAATAAAAATTATTAAGA
AATTTTTTCCACAGATGCCATAAATGGTTTAGCTATTTTCCTAATGTAGTTTGAGTCATTTGAAAGATGGTTTTACAGAGTTAGCAAAGCCAAATGGATA
CTCAGGAGAAGTAGCAGTGAGACTTTATTTAATTTAAAATTACATTGTACAAGAAGGCTTGCACACTGAAGTGGATAGACAGAAGAATTGGGCAAGAGTT
CCCCTGTGTTCTTAAAAAAAAAAAAAAAACTTGTAGGAATTTGAATGCAGACAAAGGTATGATTAATTTTTATGCATCATCCATGCAATAACAACAACAA
CCATAAAAAGAAAACCATGTCAGCAATATGCGGTTGTTTAAATGCAAAGTATGTTAAATTACACTCTGGTTCTCTGAGCCACGAAAGCCAGTCTTTATTT
TACTTTATGCTTCATGGTCAGTTCTTCAAGCCAATTAAAAATCCCTCAGACTTTTCAAACCATGAACTATCAGGTCCAAAATATGATGCAATTTTAACTT
TTTTATAAATAATAACTTCATTATGTTTCTAATAGTGATTAGGAAATACTGTTGAATATGGCACATAGCAGGACTTAATTTCAATTATCAGATATTCCAG
CCATTTTCTGAACAAGAAAGAGACTGGCCCAGGGGTCTGCTGAAACTTTTCATATCTGGCAAATAATTAGTGTATACTAATTTATACAGTGGTAGAATGT
TAAAATGAACTTAACCATTCTGTTCAATGTCTAATTACATTTTCTATTGATGTCAGTGTTTTACCTAGAAGCATTTGGTACTTTAAAATAGTTTTGACAT
TTAAAAAGTGATATATTTCATTCTTGATTATGTGAAATGGTGACAGTAAGAACAGCAAGTTGAAGATGAAGACACATAAAGCCCAGGTTGTGCAAAAGTA
GGAAACCCAAAGCCCAGAGTCACTGTTAATGTATTAAGAAATTATTATCATTAATGTCACGTCAAAGTGAGTTTGTTAAGGATAAGTCTATAACCTGAAG
GGTTGAATGCAGAATGCGTGGGTGTGATACCACTAGAGAAAAGTAAAATGAGTTTCTTAAATGTGTTGTGTGTGTGTGTGCATTTGTGTACAATTATTAT
ATAATCATGAACTAATAAGACAAAGTCTTTCCTACACAATGGGAAGGGTACACACATAAAATTTGGTATTCTGATATGTACTCATAGGTATTTTTCTCTT
TGTTATAGTTAAGGGATTTTCCTGCACACTCATTTGTGGAGGCTATGAAAATAAAATCCATCCTTAGGGCTATTGTGTAAGATCTATAATTCACAACTTC
TGATATTTTTAACTCTTCAAAGGCAAATGACTTCTGGAATTCATTTCTTAGGTTACAGAGTAGGATTGATAGGTGGACAGGTATCATGGGAGGAGAAAAT
GCCCAGCTCAAAAGATTGAATGAGAGTTGGCAATAGGACCAGCACTTATTTAAGCATATGGGCCTCTGAGTGACCTTGAGAATTCTGAATGACTTTTTAC
AACATGATGATGACATTTGAAATGCTTTCCAAGAAATGCATAAAACACTCCATTATGTTTCGTTTAATCTTCAGATATTGTGATTACATTTTGACAGAAT
GGTGGCAATTAATTATACTAGGTCAGCAAACATCACCATGTCCATCATATACACATGAGGAACAAGTCAGAATTTCAACAGCTCTGCAGTAAGCCTGGTG
TGTTTAGTGTGAGCAGCAGTATTCTCCTCTCTCTGACAGTTCTTCTAATACCATAGAGCAATCTCAGTGATGAAACATCAGTTTAGTAGGGAATGAATGA
GTGTTGTTTCTATTCTCTTATATACTTTGGGATCACTCTTAGAAATCTTAGGAAGACTAAAATTATGATAACAGCAATAAGCATTTATAWTTATGCATAA
ATGCATATACATACTTGTTATAATCTCAAATAAAGAAAAGATTCCATCMAAACACATGATTCTTCTAAATTGTACGCACACAGTTTGAGTACCTGTAAGA
TATCTGCAAATGGAGTTAAATGTAATAATTTCTAAYATTGTGTTTGCCTGCGTTAGGAACATATCTCAACAGTACTGCAATGTAGAATAGATAGTTTAAA
TGAGCATTTTTATCTCATCATATAATAGTGATTCAGCAAATATGATGGTTGTGCAGAGATGTTTGAGACTGAAATCAAAATAGAGCCGTCAATGCATGTA
ATAATTTTGAGGTCACATAATGAATTTGAAATAAAATTAATAGAGAATCCTTTTCTTTTGATGAGGAGTTAAAATATATATAATGAATACTTGAGTATCA
GTCTGTAATTTTTTTTATTCCCCAAAGTGATTAGTAGTGAGGGCTATAATGTGTGGGAATATTCAAAATATTTATATGGCCATGCATGGTGGCTCACACC
TGTAATCCCAGTGCTTTGGGAGGCCGAGGCAGGAGGATCACTTGAGGATAGGAGCTTCAGATCAGCCTCGGCAATATAGTGAGAMCCTGTCTCTACAAAA
AATAAAATTTTAAAATATTATCCAGGTGTGGTAGTGTGCACCTGTAGTCCTAGCTATTTGGGAGGCTGAGGAGGATCATAGGAGCACAGCACTTGGAGGT
GACAATGAGCCATGATCATGCCACTGCACCCCAGTCTGGGAGACATAGCAAGGCCCTGTCTCTAACTAAAAAAATTGAAAATAAAAATAAATAAATAATA
CACTGAAGTATTTTTGTGCAGATTTATCAGATATGTATATTATTATTGCTTTCACTATGAAGAGAGAATTTGTTGGTAATAGGTTAGTGTCAAAGTTGCT
TCTTTCAGTGACTGTCAGTCCCTTTCCTTGCCACTCCCAAAGGGGTGATGAGGTCAGATACTTCCCCATGAACCAGAATAGACAGTGGGGTGACAGAAAG
GTTGTCTTGGAAATAGAATAAGAGAAACAAGGTGGCGGGCCAAGATTGGGTATCCTACATACCTCCCATAGTTATTTTGATCTTTTTATGTGATCATTCT
ACACACWCTCAGGTGATCACAAGACTGGGCAACCATCTCTCTCATTGTGTCTCTTATACACCTGCATCAAGCAAGGTGTTCCTAAGTCCTTAATATTCTA
AATAAATAGCACTTTCCAAGTATCTGCCTATTTCTGTAGGATTCCCTCAAGGAAATTATTAATTTCCTTACCATAGTCATTAATTCAGCAGACATTGATT
TAGGGTGGAATTTGCTTCAATTGCTGGTATTTAAATAGTGACCTAAATGAAATTGTTAGTTTTCTGTGAATATAATCAAGGACACCAAGTTCTCTGGCAT
TTAAAATATTTCAATTATTATCCACTAAGCAAGACATCTATTTGCATATCGTGTTGGGAAACATAGGTATCTGGTATCATGGGTCCTTGTCCTGGGAAAG
GTGGATCAGGTAGGGAAAGAATAAGGAGTTTTGACATCAAGTATTCTTCTTATGTGTCATTAGGTCTGTTGTGGATCTCTGAGTCCTGATTTTCTGTCCT
GACAAAGACATTTCCTTTAAGAGAGTGTCATAAAACTTTAAAGAAAGGATGTATTTAAAAGCACTTACCCCAAAATCCACACTCAAGTGTTATGACTGTG
CAGACAGCCCCACATACGCAAATGGTGTTACTGTTTCACACTGTCTTGTCATTGACTTTTGTCAGCAAGTAACTTGGGATTGTTTTTTTCCTCCTTCAAG
AAAAGGATAAAATAGKGTTATGTATAAGAAAAACCCCATATTCTTCAGTATAGAAGGTTGTTTGAAAATTCTACCATTAGAAATATTGTCATGCTTGTGG
GTAATTAGGAATTATGATATGTATTAATGTCTTATTGGAAGGATTACAATGATATGAATAAAGTTGAAGTACATAGACCCACGTTTTCTTGACGTCAGCT
TTTCTTTGAACACTCATGTGTTTCGGTGGCTGGCATTTCAGAATTGCAGTGATATTGATAGATATGGCAACCAGCCTGTGATGTAATTATTTTAGTAAAA
TAAAAACACCTCAGTAGCATAAGTGTAATTTCAAATGTTACTTTATTTTTGCTTCTAATCTTCCACTGGGAAAGTCTTTTCTACGCTAGCAGATTATCCA
AAGAAAAGCAGAATCTGTTCCTTGAGAGCCCCAGCCCTAGGCACGGCTGACCTGACTGAGCCTCTGATTCCACCACCTACAAGCTGTGTGACCATAGGAG
GCTACTTCCCTTAGTGGATAGTAATTGAAATATTTGAAATGCCAGAGGGCTTGGTGTCCTTGATTATATTCATAGGCAACTAACAATTTCATTTAGGTCA
CTATTTAAATACCAGCAAATGCCTTGGTTTTCTTTGGTTTTAAATGATGGCTTTTCAATTGTGACTATTGAATGAGTTAAAAGATTAAAGTACTCAGAAT
GATGCCTTACACTTAGCAAGGGCTCTTAAAATGTTAGTAGTGATGAAGACGACGAGGAGGAGGAGAGAAAGGCGAGCTAGGAAAGGGGATGAGAAGAAGC
CAGAGGCATAGGTTGAAGTCCCTCGCTTTTGAATCGCCTTGTTTAAACCTCCCTTAAATCCATTGCAGTAGAATATTACTTGATAATTTTATATTATTTC
CTTGTCCAGATTGTACATTGCTTAAATGCAAGTGACTGGTTGTAGGAGTTTGCTAGGACTGCGGTAACAAAGTACCGCAAACCTGGTGGCGTAACCAACA
GAAATGGATCATCTCAGTTGTCAAGGTCAGAAGCCCGAGATCGAGGTGTCAGCACTCTTGGTTCCTTCTGAGGGCTCAGGGGGAGAAATCTGACCCATAC
TTCTCCCATGCTGAGTTTGCTGGCAATCTTAGGCATCCCTTGACTGGTAGAAGCACCATCCTGACCTTGCTGTCATGATCACATGGCAGATCCCACAGAA
CTAGGTAAATCCGCCTGTGTGCCTGTCTCTGTCTCTGTGTTCATTGTCCCTCTTTATAAAGACACCAGACATATTGGATTAGGGCCCACTCTAATAGCTC
ATTTTAACTTAATTAAAATGAGTGCTAAGTGTCAAGCACGGCTCTGAGTACTGTCATGTTTCAACTCACTTTAAAGACTCTACCTCTGAACATAGTTACA
TTCATTCATAGCTACTAGCAGTTAGGAGTTTGATGTCTTTTGGGGAAACACAGTTCAATCCATAATGCGCATCTTATTTAACTTCCTATCCCTCATAAAT
GATATGTAACACCTTCTGCATCTCAGAGACTCAAAAACATGTTGAAAGAAATGACTGAATAAATGAAACTGTTTTGGTTAGAAAGTTGCAAGTAAAATAT
GAAGAAGGGAAAATTATTCTCATGACTTCTAGCATTTCAGATTGAGCAAAAATCTATTGGGCAATAGTTCTGGATATAGAATATATATACACACTCTATA
TATCTTCTCTCTMTATATATGTATTATATGTATATTCTATATATATTCTATATATATTCTATTCTCTATATAGAATATATAGAGAATGTATATATCCATT
TCTATATATATAGAATATATATGCTATATATAGAATTATATAATATATAATTCTAGAATTCTATATATAGAATATATAATTCTATATATATAATTTATAA
GATAATTTCTATAATATATATATATATATATATATATATATATATATATATATATGCCTTTAGAGACAGAGTCTCGCCCTGTTTCCCAGGCTGGAGTGTA
GTGGCACGATCTCAGCTCACTGCAACCTCCACCTCCTAGGTTAGAATGATTCTCCTATCTCAGCCTCCCGAGGAGCTGGGACAACAGGCGCCTGCCACTA
TGCCCGGCTATTTTTTTTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGGCAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAG
TGATCCACCCACCTTAGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCAGCGTGCCTGGCCAGAACACTTAAATATTATATCCACTTGAGTTAGAATT
TATTTTGCTTACATTGCATTTGGATAATGGATTATTTGACCCTTCCTCTTCTTCCTGCCTTCCTCTCCCTCTCTCATATTTGCTTCTTATAAATCTCATA
CTTTTTTTCTTTATTAAGGAACCACATTTATAAAAAATTCTAACTTGTGTGTTTAATTTGGAATGGCCTACAGATCTCAGAGCTTTGGTGGTAGCCTTGT
CCCACATCTTCCTTTCATGATGGTGGATATCCCAGAGGAGCTGAATGAGTCTCCCAAGTTCACTCAGTTAATTAGGGGGAGAGCTGGAGTTTGACCTGGT
GCTCATGACTCCCAGGAGGAACATTTTCAGGAACTTAATTGCCTCTCAACAATGCAGGATCAGGCATGGAGTTCTATACCATCCATAAAGGAAAGCTTGG
CCAAAATACACCTAAACTATGCTCAGCCATGTATCTCTCTCTCATCCATTTCTTTTTTGGATCTAGGTTTATCTTGTTTAATAATCATGTTTCCTCATAT
TTGTCTAGATTTGGTCGCATACGTAAGTCATACATTTTATGTAAATATCATTAACGTATTCATTGAAAGATAGTATGGATTCTAAGTATAAACATCCGGC
ATCTTCTACATCAGTGCCCCTGTGCCTAGAGAAGGAAAGTGTGGAGAAGCTTGAGTTGGAGACCTTCCTACTTTTTGTGCACAAGCGGCTGCCCATGTTT
ATGAAAATTAATGGTAGACAACTAGGGAGTTAATGTAGTAAAACAAAAATGTTCCTCCATTTAAATAAAATTGTAAGCAAACACCTCCTGATTTTGTTAT
TTGTAAGCATTTGGTTTCCGGTCGCTTACGGTGATTTTGTGTCCCTTCCAGTCCTCAGAAAACCCCCTTTTCCCACTCTAAATGCTGAACATATGTCAGG
AGTCAGCAGAAACTACTCAAAGCTGCAATTTGTTAAAAGTATAGATGTGTGAATAGATTTTTCCACACACAGAGACAGAAAAATTCTAACTAGTGGCACA
TGTCACATTCAAATAATCAGCACTACAAAAATGTCCTAGTTTAAAATACAGGCTGGAAGAACTGAGCAAGGAAGGAAGAGAGGAAAGGAGGTCAGAAGAT
ACAAAAAATGAGCGAGAAAGTAAAAGAAAAATACAAGTCCAATACACTTTTTTTCATTTATACCAACATTTTAATTTTTTCAGGTTTGCAAAGTAAAGAA
ACTATTAACATTCAGAAGATTTTTTTTGTATGAGTTTCTTTAAATTCCAAACAGACTTTTATTTTTTTATTTTTATATATCTTCAAACTTACAGAAAAGT
TGTAAAAATACTGAGAATAACTTCTATACCCTTCATCAAGGGTCAGTAATTGTTTAATGTTTTGCCACGTTTACAAATACTTTTCTCTCCTTGTCTTCCC
CTCTCTCTTTGGGTTTATATTAGTACTATTTTCTCAAACCATTTGAGAATTAGTTTGACTATTATTCCAGCCCAGAGTGACTTTCATGGTTATAGTCTCT
CTTTTTCTGTTATCCGGTGGCTGGAAAAATTACCTATAGTTCCTGGATTTACCAATCATCTCTAAAACATATAACAAATCTAAACCTCATTCTCGCTGAA
GGAATGTGTCTCCCTTGGCAGTCACTCATTTCTTTTGCCTCCTCCTTTCTCTTGTTTTTGATACTAAATTATTACATTACACTTTTTTAGGTTTTTGGAG
CTTGACATTTTATTAAATAGAAATGCAATGGAAAGACAACTGGAGTAGGAGTCTATAGAGTTATGTTGTAATTCTGATGGTATATAAGATTACTCTTATG
TTCTAATTTTTTTTATTTCCTCTTTGTTCAACCTTTGGGTCTCTAAGAATCCATGTATTCAGTAGTATGAAAGGTAAAATGCATATCTTGACAGGGTTGA
TGAAAAGATAAAATGGCATAATATAAATTTATGCATATTAAATATGCTTCATTTCCTTGATTTTTAAAAAAATATAATCCTAAGCCTTTCAAGAGGTATA
AAATGGTTGCCTCCTTAAATGAAATATGTTAAGTTTAGAATATTAATGTAGTTTTCTAACTGTCTAAACCATTTTAAAATTTCTTCATAAAGATGAGAGT
TCCCTGCTTGCGTTGACAAATAGACCTGCTTTCCTACCACATTTAATACTGGTTGTTTCCATTACTCTACTAAATGCAAGGTAGACTACATTTTAATCAT
AATTTTCTTTCTCTCAGATGTTTGTACTTTACATGCTCTGTTAAACGTTTCCTGTGATTGGAAAATGTCTTAATGTTTTTAATAGGCTTTAAATTTCATT
GGATTTCTTCAGTCTGAGATCAACTGTATTCTGCTTTTTATTATATGGGACTACATTAAMGAGATTCTTCTTAAGGCAAAGCCTATGATATTCTTCAATA
ACTGTAGATTTGAAGATGTATTAACAAGAATTGGAGTTTCTCTGAAAGGGTTAAATGTTTATTTCATTCATTTCACAGAGTATGGTATGAAGTCTTCAAC
AGAAACTTGRTTTCCATCAATCACCCCAATACTTGGCTAATTATCATGTTTTTGTCTATACAGACATGCTTAATCACAAACATGCACACGATCATGTTCA
TAACAAAAAGAAAGATGCAGTTGTCTTATATTTAACATTCACTAGTTTACTGTCTATTACATTTGTTCCCATTTCTGATTCAGAGATAAAAGAGCTAAGT
TATACTTAATGTTAGCACCTAAAATTATCCTATAGCTCATATAAGAGAGGCAGACAGAGTTGACACAGATTGAGAGTCTCAGTGGGCTATAGCTAGGAGG
GTGTTGATAGGCATTCAGCTGCCTTCAATCAGAGGCAGTGATCACTGACAGTGACCCCAGGCATATAAAACTACAGTTTCTTTGTAAAGATCTCCAGAGA
CAGGGATAGTTTTACTAACTTTCTCMACCCAGATGAGTGTTTCTTCTTTATTTCTAACCTAAATTCTAGTACTGTTTTCTAGGGAGGTCATTTTCTTTTG
TTCTGTCTCAAAGTTGGCTAGGTAGAAGTGTTGAATTTTAGAATGGAAAGGAACATCATAGGTCGAATGTTTTAACTTCTTCAATTGAGGTATGAAAAAT
CTGAGGGTTAGAAAGGATGAGGAATTTATCGAGGACCCGCTTGAAAAGGCAGAAGAGAATTCAGATTTATTTTCCATTATACTGCATGACTTCTTCTCCC
AATTAATTGACTATGAAAAATCCATCTGCCAGACTTGGCTCCTCTAAGCCCTTCTGTCTTCCCACATAATTCTTTTGTAATGCTAATTTTCATTCTCCAC
TGAATGAACTCAATTTCGCATACACTTTTAAAGCCATGAACTTACACTTACCTGGAGGCCTTTAGAGAGGACTTGGCCAGGACTAAAAACATTGATATAA
TAAATTCTGAAACAGCCACTCTGGCTATCTTAGTATGTAGACGTAAGTTATCATGTAGTCATCCCATCAGGGAGAAATCTGAATTTTAAGATCAACRTTG
GCTGTGCTGAGGTCATCCTATGTGCCCACTCTTTTCATTCTCCATCTTAGCCACAGCATCACTGAAGAAATCAAGGAGATTAAATTTCAACAGAGAAGAG
GGGAACATTTAARAGTCGGCAAAAATGCAGTGAAATGAGGGTGTAGTCAATATAGACTGCACACATTCCATTCCAGAGAGTCAGTTTATGTAACTGGAAA
ATGTCTGCATTTTTAGTAGCTCTTAATATGCTGACATGCTACCAAGTAATTCACAAATTTTTCTGGTTTTCTGAGTTTCATAAAGGCTGATGATTTTTTT
TTTAAAAAAAGATGGAGTAATTTTTTTAATGTAGTATTCCAGTTAACAAAGTGATATGCCCATAGGAAAAAATCACCTGGAGCTTTGTGGTCAAAACATG
TTTTCTTTTCCTTTTTTAAAAGATGTTTAACTCCGTTCATTTCATTGATAGACATTAGTATTTCTTTATCTGAAGCCTCCACTAATTATTACTAGTTTTA
AAACTTAAACTACAATGTTAGGTATCATGGTAGCACTATTAATAAATTGTATACATTTGGCAAATACGTTAGACTCAATTTCTATGAAAGTAACTGTCCA
CTGGACTTTGAGTGAACAATGTGGCAAAATATTGGAAATATATAGTTGCATGTTGGCCAGATTATTGGCACTTCGACCAGATATGTTCACTATACATATG
ACTATAGTTATATGCACTGAGCCCTGCCACCACCTACCCCCTGCAAAGGAAAGTCATGACTCTTTTCTCTGGAATTCAAAGCTTTCTGTCAACATAATCT
ATGAAGCCATTCATTCCAGTCCCACTGCCCCTAATCCCACTGCATCTCAACACAAAGAATGACTTTTCCTGTTCTTGAAACACTCCTAGCATGTTACAGT
ACCTCATTTACGCCTCTGGTGCCATTCTTTATTTGCTTATAAGCATTTGTTTACAAGTCTAAGATTATCTCCTGACTACCCTTTTATCTAGTCACCTTCT
CTTTCTGTCTCATACTTCATTTTATTGTTTCTGTCTCTCTCAGCATGCCTTCACTGTCATATCTCTGTGTTTTCCTGTCTCCATGTTGTGCTTTCACCAA
TAGTCCCAAGTCATAATCAGTTTCTGCCATTGGGTATTTTCAAGTTAATCATTCACCTTTACATTTGCCTTTGTAAATGGCCATATTAGAAGTCTGTTCT
TTTCCATGCCAGCAGAAATTCTCCCTACCCAGCTGTTATAATTAGAGGAATTGCTCCCCGAGTTTTCATATCAGATCAGAACTGTTWTTTGTTGTTTTGC
AAGGTCTGCACACATAAAGAGTTTTTAAGCAAAACATTTATGGTCTAGGATTAGAAATGCTTCGACATGCAAACGTAGACTGTGATAGCTGTTGTGACAA
TTTTTGAAAAACAGCAAATTTCTAAATATCACCTAAAATTTAATTTTTCAGGAAATTTTGCTTCACCGATGAAGGCGTACTGTATTATTGTCTATTTTCT
GAGTTGCTGACATTACCTGACGTTTGCAAAGTACTAACAAGGGCATGGCATGGTGATTTGTATCTTGTAGGACAAGTCCTTCCAGGCTGAGAGTTCACAT
CTAAAACAGATCTTGGGAATTTATTATTATTCTACCAAGTACCAGAGACAGTCAGCTGAAATGAAACATTTTCTGGACTTAAACCCGTCCCTGTAAATTC
CTACGATGTCAGGGGACACGGGAGTGTTAGTTGCTGGCATTTGCAGTGTAGTCTTCTAGACTCTGCACCATAACTCTTTGCTCCTAGTTAAATGTTTTGG
ATTTGCCAAGGTATGCGTGTTCAAGCACACACAGGTACCCCCACAGAAATTTTTCCTAAGCAAATAGCTGTATGTGATATAGGGAGATTATATTTTTCCT
GAACGTCAATGGAAATGTACACTATGTATGTAATGATTATATTTTATCACTGAATATTTGGGAAATATAAAATGGGAAAAGTGCACTGCCCATGCTAAGT
CCAGAGTATCATATATTATAAAATCGGTGGTTCTGTTCTGCAAGGGATGAGAGGGTAAAAAGAAAATAAAAAGAAGCTCAGCCATACTGTAAGAGAGCTG
TAAAATAGAATTAAATATGGTTAAATAAAATGCTAAATTCTGTAATTATATGGTTATTATGATAAACGGGCTTTAAATATATGTTCTTCATTAGCCAGGG
CTTCAAAGCTGAAAGATTTCTATGGAAGGTGATGCTCTTATGCACAGTCTTGAAGTCAGTTTCAAGGAATGGTGTCTTGTGAGGTTGAGAGTGCAACAAA
CATGTTTTCAAACAGTGATCTCTGTATAAGTAGTATAATCTCAAAAATCACTGATTATACTACTTTTCCATGTATCTGGTCTTCCTGGTTTTAGTAAATC
CCCCAATTGTTAGCAATACAAAGATGTATTTTTCATGATTTTAAGACTGTTGCATTTTAGAGGCTTCAGTTTGTGTCCTGATATTTGTGGCAATAAATAG
AAGACACACACACAAAAAGGCTTTTTGTAGTTGAAAGGGCTTATATCTTTGAAACTAACTCTGTCCTTTAACACATTTCATTTAAATAATCACTTTCTAT
CTTGTCCACAGAAGGTCTTTACAATATGACACTATGGATTAATTTTAGGTCTCCTATTAGGGTTCTTTCTTTCTCACAACAATTTAAAAATGAAAGATAT
AGATAACTAACAGTATTTGTTCTATTTGTAGGTCTCATGTTCTTACTGTAAATCCCACAGAGTTTGACAGAGCTCTCTTTACATGCATTTCACTGTCTTT
CAATATGCTCACCTCCCTGTCTCCCCAAGCCACAATTCATGGATTCACTGTCAGGAAAATTTCTATTCATTGACCATAGATTAGGAGAAAGTCCACGTTC
ACTGATCCCCCTGAAGCAGATGTAGTTATTATTTCTTCCTAGTCCCTATATCTAGTTACGTAATCCTTGTGTTCCTTATGATATCATAAGGATTTGTTTA
TGTTGCCATCTTTTTCCTATAACTAGAGTTAACTACTCAAGTTAAGTATATATTTCAATTTTGAAAGTAGCATCATATTATGCATAAGTTACTCAAAGTC
AACCATACATATGGACTTGAAATACTTACGAATAAATGGTGGCAGAACATCTGAGCATGTGCCCAGAGTGAGCATCAATGGGAGGCATTGGCCTGCCCCC
CACTGTCAGACTCAGCTCTGTGGATCCCTTATGCTATAAGCATCTCTACACAGTGACTACACTTTGCTGTACAGTAGATGTAGCAATATGAAATTGTAAT
ACACATCGCCCCCTAAATGCATGTCTCCTACTTCTTCTGAAATACAGTGAGGTAGGGGCAGGGGTTGATTGGTTTAATGCTAGAGGAAAAAYTAGATCTG
TTACCTGTGTTAAAATGATACATTAATCTTCAAAAAATTCATAGGTTTAAGAAGTGCTCAAGAATACTTTTGATACATTTAACTTCTGCCTTGCTTGCTA
ATTTTAGAACTYGGTCACCCCTAATTAGAGATGCAACTGTATTATACACCCAGCCACACTACAGGTGCTTAATACATATTTGTTGTTGAAAGCCTCAATC
GTGTGTATGTTTCCGTATAGACGAACAGTCGTTAGGATGATCGTTTGTCCGAGTTTGGCCAGGACACTTCTGCTTCACACAAGTTGTTCCAGTGTAAATA
TTAATAGCACCCTCTTTTATCCTCAAAGGTGTCCCAGCTTGGAGGATAAATTATATAGTCACCCTAGTTATAGTGATATTTGAAGTAATTTTTGTAAGTA
ATTTGGGGATTGGCATGCATGATGTAATAGAAACAAACAATGCTTCAGGCAAAAGACTAAAACCATGATGAAACATGCTTAGTGATGCTCCTTGCTCTCC
GAGTCATGCTGGTCAGATCTGCTGGCCTCACGTCTGTTCTCTCCCTCTCCTCAACTGTCTTCTTTCCTGTTACTATTACTATTTGCACTAAAATAAGACT
CTTTCTACAGTCCTTTTGTTTTCTCAGAGTAGTTTGAACATTCCTACCCAGGCGTCCAGTAGCACATACCCTTTGGCTTCCTGAACATAGTCCTCACATG
TATTCACCAATCCTCTTCCTTTTCTGGGTCTGAATTTGACCTGTTGAAGCCATAAGCACTCCTGCCCTTGTGGGCTTCTGTGTTGAAGAGGATCTTTATT
TTTCCATTTGCCATTTGTAAAACTAATATTGTACAGGTAATAACACCGACAAGTGAAGCTTGACCTTATAAAAAGGACTGCTAATGTGCTGAAGGGAGGA
AAGTCCTAGATGGGTTATTAAGGTAAAGAGAGCAGAGGAAAAGAGAAGAGGCACAAAGATGAAATGAGGATGTGATAGCAACCTCTGACGCCTGTTTTCT
GAGGGCAGAGAAGAATACTGGAAAAAGGACAAAAGAAATTTGGCACCATATGGAGCTTAATTGCTTTTTTTCTRTTACCTGTATCTAAAATACTTCAGCA
AAGATTAGCTATAAGCCTAAAACCACACCAAATGAGCAATAAATTCTATAGCTCAGTGACCATGAATAGATCATAACGTTGCCAAAGAAAATTTAAAATA
TTTTAAAACTGAATACATTTAATTATATGCAAATGAGTCATATCCTGCAGGGTAATTAGGTGGTTCACATAAATGATTATACTGAGTGAGTATTCTTTTC
ACGTGCAGAAAAGGTGAGCTCCTGGGGACTGCTATAGAAAAGGTGGGAGGGGTGAGGAATGCTGAAAGAAGCAGAAAGTCTTGCATTTGTAATTCAGGGA
CACAGATGATCAAAACACTGGGCCAGCAGAAAATCTGAGGCATGATTCAAAGAGAACACTGACAACAAGACAGTTTGTGTGTCCTACAGAAAGACGAGTC
CTAGGAACCTGGCCACCAAGCAACTACTATAAGGTCAAGCATTGATTTCCTAGTGACTGTTACCATTCCGATGTTCAATCAATGCTGGCAACTGCTTTCT
ACCTCTGAACACTTTTCTTGCTAGTCTTAGGTTTTATGACTTCTGARATATGAGACTGAATTTGTTTGAGTTTACTATAATGGGATTTTGCATTATGTAT
GCTCAGTAGTAAATAATATGTATGCTTAATAGTAAATTATTTTGGGAAAATGTCTATTATTGCTACAATTTAACTTAGGCTAACTCAAAGTTTCTTTGAC
TTGCTAAGCAGTTTAGATACTGGAAAAAAAATCAGCACAGATCTTTGACCTGGAACCCAGTATAAGAGTATATAGAGATTACTTTTTTCAGTTCAATCGG
TGGCCAGTTGGGTGATTTCCTGGTAAACCACTATCCCCTTATGCCATGTTTACAGTGTATTCGGGGTGGATAACATAATGCAATGAGAAAAAAATAATAA
AGTRAGGAATTTAAATAGCTTTTTAATTTTTATCTCCTTATTGTATATGCCACTTAAGTTTTTTTTAAATCAAAGGAGAACTACTACCATTGAAAGAAGT
ATTAATTTTCATCCCAAATACCAAGGGGACACCAAACTTGGACTTCCCTGATTTCATAGGTTCCTTACAGGAAAACATAATTAATCCATTATATTTACCA
AGGAGGACTTTTCCACTTAAGCTCCACACTTGAGATTGTAAATTTCCCACACTTGACAGCGTAAACTCCTCATTACAAGGAGACCTAGAGGATAATTGCC
CCGATAATGGCATCTTTGTACCAGTTTATGTAGACATAAAAYGTTTAAAACTACTGAACTCAGTTAGACTATTTATTATCCATTGTAAAAACACATATTC
TTGATTTTCTCTAAATATAAATAGGTTTGAATAGTTAAGATTATGATAAGAAAAAAGCATGCCATTTTAGGGGAAAGGGCTCTGTTATGTGTGCATGCTG
ACCTATGTGTTGCAACAATTTGGTTGATATACATGCACAAAATAGTACATTTACAACACTGCATGAATGATTTAAATGTAGGTAGCAATGCCTTTGACTT
CAATCCATGATTTCTTACAGTATTATTTCAATACCATTCTTCTGAATACCTTTTAACTATCAATTTATAAATATGAGTCTTGTAGCTATCAAAGTTATAT
AATAGAGCCAGTCAAATTTCTATAAATTATATATTAATAATTATATTAGTGAATAAGAGTTATTGTATATGCATCACTGAGGGAAATAAAATAACAGACA
CTAAATATATCTGTTTTAAGTAACTGAGAAATAAGAAAAAGTTGTCTTCAAATAATAAAATAAGCTATGAGAAATTAGGGATTGGTTTTTCATAACGTAT
TTTAAATGGGGGGAAATAACAAATATAAAATGGCCACAATAATTTCTGTGAATTTCATAGAAGAATAGGGCAGAATAACTGAAAACTAGTTTATAATTTA
AAACAAATTTAGAATCCTTTTAAAATAAACATACTCAGTATTTTCTTTATAACAGCATATTTGAAATATCATCAGGTGTCCACTTTACATTGGAATTAAT
TGAACTGGTATTTACATTTCCAAGTAGTTATTTCTCATTTGCCAAGAAGAGATTGAGGCTTGGTTTTCCTTCAATAATATCTTCATTGGGCATTAAATCA
CAAGTATTTATTAAACTGCTGGAGTTAAAGGGACACAAAAACAGATCAGCCATTCTTCCCGAGTGAAATTGATTTTATTTTCTCCTAGCTCGGTTCTCCT
AGCTCAGAGAGTAGGTTCTAGCCTTATTTCTGYAGGCAGAAAGATCCTTGGAGTGAAGATAGACTTCTAATTTGGTTTTCAAAGCATAGAGCATACATTA
CATTTTCTTCATTTTGAGTCTGTACACATGATGTGATGATCGTCAAAATGATGTACCGTTAACCTATGGCTTTCTTTAATATTCCATTAACTATAATTCA
ATTTCAGCAACAAAAAGAGCAGTTGGGAAAACACCATAGACATAATCAATAAGGAAACTCTGTATTTGAATTACGATACCTCATTTTCCATGATGTGGTT
ATAATGCATTGCATGCCTGTATCAAAACATCYCCTGTACTCCATAAATATATACATCTACTATTTACCCACAAAAATTACAAATCAAAAAATACATATAT
ATGTTTTCTGAGGCTATCCTAAACCTCCCTTCCAGTTTTCTGTGGCCTGTATTAAGCCAGGAGCACTGGTATTACTTTTTCATGAGAGTCATAATTGGCC
CAAACCCAATCTGTCTTTCTATTTCTAAATGTCGCCTTCAAGTACTAAATTCTATTTTTCCTTAAAGTTAAAATCCAAGACTTTTCTCAGGATCACATTT
GTATGTCTATAAATTAGACTTCACATGGGCCATGATTGCTAGAAGGAATCAAAGAGACCCTAACTTTGCATTCAACTTAAAATTAATAAAAGGTTTTGAA
TAGAGTATATTAAAATTGCATGTTTCATCAGACATGGAACAGTGCGGTGAAATGGGTGTTAAAATTATTAGGTTCTAGAAATTAGTAGAGACACACCATT
TGTATTATCACATCTTTCATGTTAATTTAAAGAAGGAGAGTTCAGCCTTGACTACACCTTGGGTGACTTTTAAATTATATTGATGCCTATGAATCTAATA
TAATGGTTTGGGAAAGGGTCTGGGCATCTGTGTCAATAATTTTGAAACCTCGCTTGATATTTGTAAGAGATACCCTGGCTTCCTCTACTTATAGCTCTAA
AAGCAGACAAAAACGTGTCTGAAAAGAAGTGGAAAATACAAGCTTCTGCCTCATTGATTACTGCTGTCCATTGGAATTTTTGCTTGGCACAAATTGTTTA
TCAACTTTTTCATTATTTAGGAGTTTTAATTAGGTATAACTTATTTGCATTAGTTGCTTCTCTTGAAGAACCTTTGTTTTTTCCTGAGTTAGCTGCCTAG
TTCAAGGTCATATTACAGCAATGTTTATTTACATGAGGATTTTGTTTTCGGTCTACTTGACACAGTGCCAGAACTTCTTGCTTATTTATGTTAGATCCTT
ATAAGAACAGGAGGGTAAAAAGTACATTTACTTTAGAAGAGTTCTTATGAAGGTTATGTGATTACCAAGTGACCAAAATTCCTTGCATAAGCACTCATTT
CTACCAGCAATTCTCTTTCAAATATAAATTTTAATATTTGGATAGTGACTCCCATGCATATTTTGGCTTTAGGATGAATCACTGTGCCTGGAGCAAAATC
TTTGTCAAGGATGGAGCCAAGCATCCCAAAGAGTGGCTGGGAATCACAGGGGAGCCCGCTGTCTCCATGTCACCTCTTAGGGGAATAACAGGACATCACA
GAACGAAACCGAGGGCTGCAGGAAGTTGCAGGGTCACAGATGAGACTTTTTAAAAATATATATATATGAACAGGGTTAAGAAGAAGTCCCTATTGAGGAC
TGTATATGTCAAGGTTCTCTAGAGGGATAAAACTAATAGGACAGGTGTATACATAAAGGGGAGTTTAGAAATATTAAGCAATATTGACTCATATGATCAC
AAGGTGAGGTCCCACAATAGGCCTTCTGCAAGCTGAGGAGCAAGGAAGCCAGTCCGAATCCCAAAGCTGAAGAACTTGGAGTCCGATATTCTAGGGCAGG
AAGCATCCAGCACCATGGGAGAAGGACACAGGCCGGAAGACTAAGCCAGTCTAGTCTCTCCACGTTCTTCTGCCTGCTTTTATTCTGGCTGCACTGGCCA
CTGATTAGATAGTGCCCACCCAGATTGAGGGTGGGTCTGCATTCCCAGTCCACTGACTCAAATGTTAATCTCTTTTGGCAACACCCTCACAGACACACCC
AGGAGCACTACTTTGCATCCTTCAATCCAATCAAGTTGACACAATATTAACCATCGCAAGGACAATCAGAATATATTTCAGGATAAATTGAAAATTGTGA
AAGTGATTATCGTTAGATTATTTTAAGGAAGTTTGACTTAGGAGTTTGTTAGCCATGGCCCCAGGTATATAGGTTGAGGGACCTCAGAGTTTATAAAGTT
GTCTTTCTTAAAAGAAGAATTTCTCAAAGATCAATATAAAAGCCTTTAAAACATCATTGTTGTTAGATATACGTTTCATATACAAATGCCCTAAGGGCAT
TTGTGATGATAGCCATCATTTATTCAGCACATTACGCAACAAGCTTGATTGTAAGGTTTTCCACACATTCTCTCATTTTATTCTCACAACAAACCTTATC
TTTTCAAGAGTCTGAGACTTAAGGTAGCAATTCCCTAGAGTTCACACAAGTAATAACTGGCATAGCAGAGCTCACATTTAAACTCAGATACACCTACATT
TTTTTAGTTAGGCCAGAAGTGGCAAATCGGACAGATAATGAGAAAATAACTAGAGAATATTAAAATGTAGATAGCCATTCTAACAAAACATGACCAAGAT
GGCACACAAATACACACACACAAACACACATACACACACACACACATATAGTACCAGCTCAGTCACACTTGAAAAATTCAAAATAAAAATATTAGCAACT
AACTCCAGTGTTTCATTAGATAATGAACACGACATGCCTAAGTAGGATTTATTCTTCACGTAGTTTAGCCCAACATTATACTAAAAACATGAAGGAGAAA
GTTCCTCTCATTATATTCATAGATGCTAAAAGAAAGTCTAATAAACTTCAGCTATCAATTCTAATTAAAAAATTGTGGGTGAATTGAAATATGAGCTCTA
TAAACATGAACTATTTATACAAAAATCATCATTACATATTACATTAACTATAAAATGCAAATTCCAGTGGCATCAAAATGGTGAACTAATTAGGCATGAT
TTCTCTTCTGCCAGCTCTCAAAAATCTCTTGCTGGTTCTACTTAATGCAATAGGACAATAAAATAAAATAATCATAAATACTAGAAATTAAAGTTTTAAT
TGTATATGATACTGTCATACACTTGGAAAAGATCAAATCCTTAACAATAACTAGGAACTAATAAGGTATATGAATACAAGATAAATACGTGCAAAATATG
TATTTTTTATAATTTAGTTTGCCAAACAAGTTAGATATACGAGGATGAATTTATAAATCAGCCTTATTATTCTTCTTCTACTCCACTTCCAGTTGGCTCT
ACAAACTAATTACTGACTCCTTCGGTTGTTACCTCAGGTAGGTCCTCACTTTTTGTGCTTGTTCAGTCACAAAAACTTCCTGACATTTAAAATTCTGGTC
CAGTATAGCACTAAATTCCAAATTCTTATTGCAACTAAAACATCTTTATTTATCTAATTTGGGCCTATCTAGTTATTGCTGAGAAACCTGTAATAACTAG
TTGCTATTTTGGAGGGAGGAAAATGAGAGCATACAGTCAGGTAGAATCTTATTTGTCTTAGAGCAGTCATAAGAGCCTTTTGTTCTTGGCAGATGCACAT
TTACCAGCTTGTTCTCTTGTTCTCTCCAGTTCCCTCACTGGAGACTTCAAATTGCTCAGTCTTTTACAAGCAAAGTGCTAATACCACAGTCATGTTCTGA
CTTACTGTCAGTCACCTCAGATTAGAGTAATTACTGCCTGTTTTAGAAACATATCACTGCACCAGGTCACTATTCTGCTGCTTATCACTATTATGGATTC
TGCATCTGGTCTATGCAAACCCCCCATTTTTAAAAGTACAACTGGCTCCCAACACAGCCCTCTCTCTCTTTTGCATTGTACTTCCAGGCAGCCTGTAGCC
TTTAGATTTCTTCCAGCAACAGTCAGACCCCATTGCTGTGGCTGTTTAATATCCAGGAACATATCTTAAGCTTTCTCAAGTTTTCTTGAAATCTTGTTTC
CTGCTTGACTTTAAAGTAAGGGAGGCACATCCACTTATTCCCATGATGGCAGGAGTGGGTAGCCGCAAGCACAGTGCCCTAACCATTCTCTCCAGAGACC
TCCATCTTGCCAGTGTCTCCACTTTACTCACAGAGCTTATTGTGTATTTGAGCAGAGCTGGTTTCTCAGACCCTCCACATGTCCTGTTTAGGGGGGTTAG
CACTGCACGTTAGGACTTGGGACCACGCTGTGCCTATTTTACCCTTGATATTCGGCTACAGCTAAAATCATATCAAAAAAAGTCATATCGATTACCCTGC
TATATTGGCAATAACAAGATATAGTCGACCAATAAAATTGGAAAAATATAAGAGCAAGACACTGCAAACGGCATATAAACATATTCAGGGAAAWGAAAAC
TAAAACAACAATAAGATAACTTGATTTTTGTCCTTGAGGTAGGCAAAAATTAGCAATTGAAAAAATGTGCAACTGTCCAGTTTCATCAAGTTTGTGAGAA
ATTGGATATTGAAAAAGGGAAATATAAATCAATCTCTCTCTTTCCCTCTCTCTCTCTCTATTTCAGTCTCTCTCTCACACACACACCCACATACACAACS
TTGAAAGGCTGTGCAGAAGCAGCACTATTACTTTATCTTCAAAGGTTATTTCCAACTCCAATGTATCAATCTAAAGAGTAAATTTGAAACCTTGTTTTGA
AATAATAAGAGAAGTTGAATGTAGATTTATCATAAATGATTTTAAATGCAGTGCTATCCTTTGTCATGATTTACAAATTCTTTCTCTTATTTCCAGATAT
CCATAGGCCATCATAGTTAACCTCTGTTTCTCCCTGTGAACCAACAACAAATATGTTATGTCTAGTCCATGTGTGGCCTGTAAATATAAGTAATATTTAC
AGAATTTGCTTTGACTTGGTTAAGATTAGTAAGAAACTTATGGTACCAGAACATCTTAACCAGAATACTTAGGACCCTAACACTGTATTCCTCATTTATA
ACTCTTGTGCTGGTTAAATATGAACTCTCATTCATATACATTTATTTGTTGTTTATCACCATTGACATCTAGGAGGTTTTGAGTGACTAAGTACCTTCAC
CAATCTGTTTCCCAACCTTTTTTTCTGGATTGTTCTGTAACGGAAAGGAAGAATTATGTCCCAAATGATTGTCCTGTTGAGAATGGAGATTTAAATGTAT
TCAGTTCTTTTTCCAGGTCTCCCTTTGAAATCCTGTTTTAGAATGATACTCAGCCTTCTTATTTCCTGTTGAAAATAATAACACATACTACCTGCCACTT
AGCACATATAAGTGGGTGTTTGGAAGAATCTTTTGACTGAATTTAATGAAACTGCTGAATTAAGTAAAAGCTTGTATCTTTTTCTCAGGTAGTGACTCTC
TGTAGCTATGGACCACCACATATTTGCCATCCCTTTGCTGATGGTTTGATTTGGAATGTGTCATTTCGTTTGTGAAATGAGACATAGTCAAGGTACCCAT
GTGCTCAAGTGCTTAGATTACAACAATGTTTTGATGCAAATGTGCAAAGTACTCAGAGATCAACACTATGGTCTAATAACAGGCCATAGCAAAATAGAGC
AAATGAATCCTGTGAAATCAGAGAGAATGCATCAAATAAAGATGTACTACCTAAAGTGCAAAATCTACTAGGAGCACTTTGACATTTCAGTTCAAGTTCT
ACAGTGTTTCACATTTTTTCARTCTCTATTGTAGTCTCACTTGGAGGTGATTGCTTGATCACTAGAGGAATATGATATTATTCGTTTCAGAAATGAAGCA
GCTATGGTGTTCTCTTGTGAATAGCACTAGATATGAATTAGGATTATGATCTTGTTTGTGTAGAATGTTTCATTACATTTCAGATATTTGTGTCAGGATA
TAACAAAGTGCATTCATCAGCTTAGGAGGTTTGCTAACTTCAGCATTCAACGTAAGTTTAGTTGCCCCAAGTCTACAATTAAACAGCAAGACACAACGAC
AGGCTTTGAATTTTAATGGAAATTGGCAAGATGCTGAATAGCAATGAAACCAGTGGGGATGAAGAATTACTTGCAAATTTGAACTGTGTGCAAACTAGCC
AACATCAAGCAAATAGTCTTTATGATTTCTATATATGTATGTACATACATATATACACACATATGCATATGTATACACACACCTATCTGTCTGTATATAT
GTATATACACACAGAGCAGTATTTCTATATAGTCCTTTAAAAAATGTAGGCATCTTGTGTCTTTGCACAACTTGAAAGGGATTGTCTTCTCATTGTCTAG
TTATAAATTAAACTTGTAGACCTTATTTTTTTGTCTGAAGAACAAGAACCCTATTTCCTCAACTCCGTATCCCCAAGCATTGAATAGTTTATGCCCATAA
CAACTATTCAGTCAACGCTGTTGAAAATATGTCTTAACTGAGAATCCACTCCTTTTCCTTCACAAGCTCAAAAGCACATACAAAAGAGCAATGAGGCTGA
TAAATCTGACTTTTCAGAGGCATTTATCAGACAGAAACTTCCCATTCTGAAAAGTATTTGTGTATCAGAATAGTTCAGACTCATGGCTACACTGATCCTT
TAAAAGCAAATAAGCTCTTAATGCCATACCTGTTTAGAAAGGTGCAGAATGGGGTATGCACTGCATGGAGAGACCCTACCTCCTACCCACCCTGGCCTGA
CATGAGTGATAGGAAAAAGTGGAAACCTTCTCAGCCCTGGGCTACCCATGCTAGACCTCTGATTCCAGGGCGGTGAACTACTGCTTTTCCTCGTGTGTGG
TTTCTTTCTGGTGTGATGTCAAAGAGATCCGGCAAACAAAAGTAAATTCATTTACAGACAATTGACTAGAATTTGTGAGAAAACCACAGAAGAATGGCAA
CCCTGGTAGTTCTTTTTAAACATATAGATTCCAAACTCTTTCATGAATAACTCAATTGCTTCTTTTTATCTTAATTTTGTGATATAAACTCATCCCACAC
TACTCCTAAAACCTTTCTCGAGAATTCTTATGTCTTTCTATCTCATTACTCTTCATTTAAAAGTTCATGTCCTTTTCACTCTTCAATATCATTATCATGG
AGCAGTGGTCCCACTGCCAGGGTACATGAAAGCGGGGTAGGGAGGGATAATTTCAGTCTCAGCTGCTACCTTCATTCTACTTGCTTTTACTTCCACTCCG
TTCTTGGGTTCTCTCAATTCTTGGGGTTGAAAATGCCAACCATGCTGCAGGTCATCGTGTCTTGTCTCCTCCTCTATCAAGTCCAGCTGATCTCTACAAT
TTCTTCAGAAGTGACCAACTCAAGCTTCTTCTTCCTAGATTTAATGACGTTCCTTCCCTTTAAATATCTGAGTTCCCCACCTTTTCAATACTTCCAGTGT
GAGTTTCCTGTGGCTGCGGTAACCAATTACCACAAAATTCATGGCTTAAAACAGCAGACACTGATGCTCACACATTGATGCTTCTCCAGGCCAGAGGTCA
GAGATCAGTTTCAGTCTGTTCAAATCAAGCTGCTAGCTGGGCCGTGCTCTCTCTGGAGCACTTAGAGAATAATCTCTTCCTTTCCTTTCCTGGTTTCCGG
TGGTTTCCAGCATCCCTTGGCCTGTGGACACATCACTCAATCTCTGCCTCTGTGGTCACAGTGCCTTCTCTTCTGCGTATATCGGATCTCCCTCTGCCTT
TCTTACGAGGAGACATATGTGATGGAACTTAATCTTTACCCAGATGATAAAGGATAATCTCCCAATGCCAAGATCCTTAACTTAATTGTATCTGCAAAAC
TTTTTTTTCTAATAACGTAATCTTTACTGGTTCCAGGGATTAAGACCTGATATATTTGGTGGCCATTATTCATTCTACTTTAAATCCCAATCACACACTA
TCACGCCCAATATTGGCAGCTTATTTCTACCAATCCTTCTCCATCAGCACTGACATGCTCTCTGTTTCTCTGCAACCTTAGATTTTACTCTAGCACAGAA
CAGTTGTGCCTATTTGAGCTTGACAGCAGAATGCATTGATAATTGGTCTTATTTTAAGCCAGGAATTGATCTATCAACTTTCTAGCTCATTGACAGGTGA
ATTGAGGCAAAGATCTATGCAGAGTCTGGTACAGTAGAAAAGTAAATGCTTACTAAATGAGTGAATAATGAATTCTCAAATTTAGAAAATTCTTGAGACA
ACAAAGCCATTTTGTCTCTCCTGGGGAAATTCACTTTCCAATGGTCTAGGATTGCAATTCGGTCTCAGAGCTACAGAATCTTCCTGAATGTATGTTGCAG
TGTTTTTGAATCCAGAGTTACTGCTAGTGCCTGGGTTTTCCACAACAGGAAATATTCATGAAGCGTATGATAGAAGATGAAATTGAATGGAATATCCTAT
AACTCTCTGATGAAAATTCAATAGTAACTAACAGGTTGGGTATGGTGGCTCATGCCTATAATTTCAGCACTTTGGGAGGCCAAGGTGGGAGGATTGTTTG
AGGCCAGGAGTGCAAGACCAGCCTGGCCAACGTAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAGTAACTAACATATGTAATACTTATTA
GACGTCTGGTACTTTTCTAAGTGCCTGACATGTTTCATTTCATTCTCAAAAAATCATATGGGATGGTAGGGTAGGCAAAATAATGTCTCCCACCAAAATG
TTCACATTGGAAAGGCAAAATGTACCCTATTACTGTTACCTTACATGGCAAAAGAGATACAGCATATGTAATTAAATTAACGACCTTGAGATGAGATTAG
CCTGAATTATGCAGGTGGACCAGATATAATCACAAGATTACTTAAAAGTAGAAGAGAGAAGCAGAAGAGGATCGGAGTGATGAAATGGTATTTGGCTGCC
ATTTCTGGCTTTAGAGATGAAGAGAGGAGCCACAAGCCAAGGAATGCAGGCAGCCTCTAGAGCTGGAAAGGTGAAAAGGTAGATTCTCTCCCTAGAGCCA
CCAAAATGGAACATAAGTCTGCCAACACCTTGATTTTAGCCAGTGAGACCCTTGATAGACTTCTCATCTGCAAAACTGTAAGATGAAATTGTGTTGCTTT
AGGCCCCTAAGCTTATGTTACAATGCTAACAGGAGTTAATATAGGAAAAATTTGAAAATTTAGAAATTTCCTAAAAATTAGGAAAATGAGTCACAGAGAG
AGAAAGTGACTTACTTAGGATCAAAGGGCTAGAAGGTGGTAGAAGCAGAGTTCAAATACACGAAATTCGCCTCTTGAGGTAATGTTCTCAACCTCACGTT
AATTTGCATCTCAGCCCATGTACAACCGGTAACTAAATTTATTTCCTGAATTTAGTCCTTCTTGTCTCATACTGGAAACATTTGCTGCAGCTGTAAAATT
CCAGCCTGCCAGGGACCTGTACTTCCCAGGGCACTTGGCAAATGATAGAACATCTGGTGCTGCTGACATAAACTCTGTGCTTTTCCTTCTTTCTATCCTT
CATCACAACAATTTCTCTATTATCACTGCCTCCTCTCCCAGGCCCAGGATAACTGTAAGAGCCTCTTCCAAGATGATGATGATGACGTGGAGAAAAAAAT
CAAATGGTTGCTACTAGACTTCTCTAGAGCTACAAGTATGCTTTCCCAGGTTTCTGCTGCAGCCACTGTTTCATTTAAAGCACTGCAACTCTATTCAGTA
GGCAGGGATGGTTCCTGTTACATACATTTTACATGCAAGATAACTAATACTTCAGGAGATTCAGTCGCCTGCCTAAGGTCTCCCAGGGAGTAAGTGGTGG
GAATAATGGCCATCCCTATTCTCACCCAGTGCCTGTGCCACAATGAAAAGGACAAAGGTTTTGAAGCCTATGATTCTAAGTCATAATACCCAGAAACATC
ACTTAAAAATTGTGAGCCTCATTTTCAGAACCTGAAAAATGGAGGTGAAGAGCCCACCTCATATATTTGCTATGAGGACTAAACAGAATAGTGGGCTGAA
AAGTTTGCCTCACTGTGAAAATTACTGGAATGCTAATAGAGTTTTGAAATCTTAACCCCTAGTGAATCAAGAGTCTACTGTGAGTCCCTGATGGGGTCAT
TCAACCAAGGCAGTTATTTCTGAAATTCTTCCAACTCTRGCAGATCCTGGTATTTACTTTAGCCCTGGGTCATCAGTTTTCCTAATGAACCACATTTTTT
TTTTATGATGACGATGCTGGAAATGGGTTTTAAATAGGGTAAATTCTTATTTGTTCTCAATACCTCCGGAATAGCTGAAGAGTGAACACTTTAAAGACTG
ATTGGCARTGCTGACTGGCTAGTGTATTCTTAGGTGGTACAAAAGCAGTATAATTCACTACTTTTTAACCACTATTAAAACTCCTGTTTTCAGGCTTTCA
ATGTTTGTGATTTATACAATTTTTATTCTCTTATTATGGTTGCTTCTTCTTTGTAAATTAAACTCAGGAGAAACCTGTAATAACACATTATGATACTGCA
CAGAACTGATTTCACACAGATTCAAAGCTAATATTACCCTGCTCTTTGACATCTGCATCTTTAAAGGTGCTTCTTCCACAGGGATGTCTAATAACCAGAA
TAGCTGTGAGCTAGCTGGTTTCTTTCCCAACTTTATGTATGCTTTCTGTAAAGACTTTTGGATGAGAATAATATTATTCCTTGACTTTGCTTTTTCTTTA
TTCCTGGATGTCAGTGCTTACCTGCAATTAGATCTATCTCCCAGCCCAGGGATAAATAGCAAAAACTTGAATTTGGAAACACCAGAAACACAGCAGTTAC
AGACCCCGAGGGGCAGAAACCACAAATGAATTTCCCTGACCTTTACTTTGTTTGCTATCAGCAGTCTCTAACACCTAGTATGATATTGGTAATGAGTTTC
TAGTGAGAAGACAGGAAAGGTGTGAGGGAACTACGGTGGAACTAGTTCTCTTTGCCTTCCATTCCTGAGTACATATATAAAAATAAATGCAACCACAGCA
CATCAGTAGACTTTTAAAAATACATGTCCCTTCTTTTTTAAAGCAAGAGATATTTTTATCTCAACCCAGCATGGATAATCGGAATAAAATTAGAGCATGT
ATGGAATTGAATTAACCTGTGGATTAAACTCATCCATTTGGGAGATCATGGTTATTACTGATTTAATCTAAACATCAGTGCTAGCCGTGTGSATATGTGG
AACTCAGTGCTGTATGAATGSGAAGAATACAGGATGCCTTTTCAGTCTTCAATTTGGAAACTTCATCATGATAACACTGATTATCAGGTAAACTCAAACA
GTACAAGACATGCTTTCTCTCATCTTGCAAAAAAAAAAAAAAGTCTTTTATTTTTAAAGTATTTGAAATAGTTCTATCAATTGTTTGACAATTAATGATT
ATCATKTGGTCATAGAAACAGTTACCAGGGACGAGTATGTTCATTTTAAGTGACTTGGAGGCAGGATCCAGTGTGCATATTCAATTCTCGATGAGCAGTC
TTACAGAAATGATTTTCCTGCACTTTGCTTGACTTAGTCATGTAGACAAAACTTATTGGCATTTTGGACATATTGGCGTCTGCARATTGACTTGTAATAG
GTAGTTCAACTATTGCATTACAAGAACTGCAAATCATCTATTCGTGGCTGTTGTTCTTTTTAAAAGAGTCAGAACAATATCTGTATGTGATATATGTGTG
TGTGTATGCATATTTAAGATATATATGTGTGTTTTATTTGTAATGTATAAATTATTTATTTGAATGACTTGGGAGATTAAAGTAGTAGATTTCATAATAA
TTCAGACATGATTTTGAAATTTATATCCTGACATGCCTAAAGTGAGCATACCAGTATACCACACTTTTTTCTTTCTTTTTTTTTTTTTTTAGAAATTAGC
CACATTTGATTTGAAGACGATTTGCTTAAATTCACCTCTAATGATTTAGGTTAATGACTCTGAGTACTTGAAGATGTCTTATGGTAATAAAGATCTATGT
TGGCATGATTCAATTAATGAAACTAAAGTGAAACTCTGTGCTTTGGTTTTACTTAAGTTAGCAGTAATTATTAATGTAATGTTTCATAATTGTGGTTTCC
ATGAATAGTCTGAATCTCATAGACAATCTGGGTTATAAAAAAAGCCTAGGTTAAAAAATGTTGTTTTCATTGTCAAATATTTCTTTATAATAAACCACAA
AAATAATTGAAGTAATGAATTTTAGCACATACTTTCACAGGTATTTTATATATATCTTATGAATAGCCTTACTCTTTCTTGAAGTAAATAAGTATAAAAA
GCATTTATAAAGAAATGTATAAAAAATAAATCTTAGATGGTTTTAAATAAGGATGATACACTATACTTTAAAATACAAATATAAAAACTCACATTTATTT
TGGAATACCAAACAACTGGAACAGTTGGAGGTTGATATAACATTTTATTATCCTTACACTACTTAACAAGTTAATATTTGGCAATATACTACCTCTGGTA
ACTATTTTGTCAATAACACCAAGCTATGTGCATTGTAAATATAAAGAAGGTTATTTACACCAAGCTATCTGCATTTTAAATGTAAAGGTTATTTTCTAGT
GCTATACAAAATCCATTTTAAAATTATGACATCTACTGTCTAAACATTAACTCTCTAAAAGTTTGCATTTAAAAATGAAATTTCTATGTATGATTATATT
ATGTATTAACAAAAATAGAAATTTCTTTCTCTTCTAGCTGGAAGCTGTCATGTTCTTAAGAATGTAAATTACCATAAAAGTGTATCCTTTTATTTCCTAC
AAAGTAAGATTTACTGTTTTAATAAATGTTCACAAGATTATGTTACCTCTGTACCTATAGTGTCTTTATCTAGTAGTTATTGCTGTGACTACCGAGGCAA
TTGGTTATTTCATAAGCTAAATATTTTGAAGTCCTACATGTCAGAAAAGCCACAGTGAGCACTACTCTGCATTGCTCAATTCAATTCTCAATACATTAGA
ATTATACATATTGTAAAAATATTTGCAGACGTCTGTTAAATAAAAATTCCATACTTAATTTTTAAATGTAAGCTAAATTTAGAGTAATTTAAAATTTTTA
GTGATATCAATTATCCAGCTCATTTATCTGGCATCAAATTATGTACACCATTTTAGGTACAACTACTAATTAATAGATTTTACTATATAAGAATATAAGA
CATTTCTATTTATTTTAATTAGAAACAAATCTAAGATGGTGCTGTGTACTTTCCATTCCACATACTACATTTTTACGAAAAGCAAATTGAGAGCTTTGGG
ATATGGGAAGTTTGAGGTGATGAATTCTCTGAAGTCAATATTAATTGACCAATACAATTTGAGATTTAACTGGGATAGCTATTTCATTGGTTATTTGTGT
CTGATCGGTCTACTCAAAATTTGATTAATGTCAATGTGRGTATTTAGTGATAGGTTGAGACAAGTGAATCAAATTATCCTCAGACTCATAAATTTCTGTA
GAATGTGCCTCAGGATAAAGCTTTATTGCTAGGTGTTTCTGTGTATCGGGGACGGGGGGAGGTTAGTGAAATGGTATTTAAATATGGAAACATTGAGAGA
ATGGTAGAAAAAAGACTAAAAGATGAATATATTTATGGCTGCATGTTTTAACGGTGAGAAAGAAAATTCTCGTTTTTGAAATGCATMATTTCTATTCTAC
TTCCCTTCCAAAGGCAATAGAGGCTTAAAATGATAGATAAAAGTTACACAGATATGCATTTGTATATAAACTGAATTATAATTTGGTAAACAGGATGTGT
CTTACAAATATATGATAAAAACATTGCATAACAGATTGACATGGTCTTATAAACCAATGTTAGAGGACTCCTTGTATTATCTTTTAGGGATATATGTGAT
TTGATTCTTATTTTCAAAAACTTTATATCAGGAAATATCAAATTCAACCCCCTTACAATCCTCATGGGATACTTCTAATGTTATTTATGTCTTGGGTGGA
ACTGTCTCAAGTTAAGTGCATGACCACCTTACAAATAGCTTGAGACACTTGAATCTCAATGTATTTTAATAGCCCCTGCCCCATCTACTTTAGGTTTTGT
AAATAATGGATAAATATTTATTTAGATTTTATTTTTTATTTGATACATAATGCATTCTAATGATATTTACACCTCAAAATCTGATTCAGTATGCATGCTT
TATATCTGAGTGGACTTTTCTGTAACGCTAACTATAGTGATGAGTATTATACCATACTATCTGGTAAGATAGGAGGTATCACAGTCTATTCTAGATTTCT
TAATAATCGGCAAAGATTGAAAATGTAGAGATAAAATTAATGGTATTTTCTTATAGCCCTCCTATTTCAAGAATAGCACTTTAGTAAAAGTTACAGACTC
AGGATTGTGTTGAAATCCATGAGTAATAGGAAGAAACAAACCATTTCTTCTCTTAGTATACTCTCAAGAATCTTTACTTCTGATGCCAGATGTGATTTTC
TTCACACACTTCAACTCTCCATTGGATACMAACGGGAGTCCTATGATTCAATTCAATTCAGACACTATCTGCCTGGAGTTAGTGTCAGATCTCACAGGTT
AAGGGTTCAGTCCCACAAGACTCCCTCCCACTTTAGATGCTAATTGGAAGTCCTGGCCTCTGGAACTGCTGACCGACCAGCTGTAAATTGTGGCTTCCCA
CCTCTTCCTCAGGTTCCATCAGTTGCTAGAGTGGTTTACAGAACTCAGGGAAATGCTTTACTACCAATGGCCGATTTATTACAAAGGACATATGAAAGGA
TACAAATGAAAGCCAAATGAAGAGATACATAAGGTGAGGTTCAGAAGGCATCCAAGTGCAGGAGCTTCTGTCCCTGTGGAGCTGGGGCAGCTACCCTCCT
GGCAAGGGGATGTATTYAGCAACCCGGAAGCTCTCCAAACCTTGTCCTTTTAAGTTTTCATGGAGGCTTCATTTAGTAGGCATGATTGATTAAAATYATT
GGTGATCAACTTAACCTTCAGCCCCTCTCCTCAGTTGGAGGTTAGGAATGAGGCCGAAAGCTGGAATCCTCAAATCACGTGGTCGGTTCCTCTGGCAACC
AGCTCCCATCCTAAGACTATTCAGGAGGTTTCAGCCATCAGTCATCTCAAATGCACATAAAAAGACATTATTTTGTAGATTTCAAGGGTTTTAGGAGCTG
TGTGCCAGGAAGCCTGGACTAAGACCAAATATTTTTTAATCAAAAATCATATCTCAATTCTTCATTTTAGTTTTAATACCAAATATTTATTTACCTTAGA
TGAAAATGGCATAGTAATTTAAAAAATCAAACAAAAATAGAGACATCATCTCAAGAAAGGAGAGAAAACGAAGAAGTAATCARTGCAGAGTCTATGGCTG
AGCAAGCTGGTGAAAAAACTTACAGAAGAAGTGTGATTAACAAGCWCAGAGAACCCCAAGAATGGTAAGCGTGCACGCGCGCACACACACAAAGTAAATA
TAAGCCCATCATATTCAAACGGTTGAAAACCAAGCAAATAACAATGTCTAAAGGCARCCAAAAAATTGCAAGGAATGAACAATAAAATTTAAGCTGACCT
TCTAGTAGAAAGTATGAATCCTGAAGAAAAAAAGAAAGTAATCATTAAAGTGTTAAAAAAAAGAAGTCAGTCTATAATTCTATAACAAGCAAAAGCATCC
CTCACAATTTAATTTTAAGTACTTTGGACAAATAATATCTGAGTGAATTCTTCACTAGCAACTCACTACAAGGTATACTATTAGGAAATTGTTCAAAATA
AAATAAATTCATCATCAAATGTAAGCATATAACAGAACATAGAATTATGTAGAATACCAGATATTTTAAATGTGTGCATAAATATTATAATTGATTATTG
ATTAAGAAAAATAACAGTAACAATGCCATATAGGATTTTTAATATATTTCTGAAAATTATWTATACTAAATATAGATACTATTTTATATATATAAAAGAT
ATATGTACATATAATATGTATCTTTATAGATACTATACATAGTATATCTTGTATAAGATATCTTTATAAATATATAATGATAGGCTGGGTGCAGTGGCTC
ACGCCTGTAATCCCAGCAGTTTGGGAGGCCGAGGCAGGTGGATCACCTCAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTA
CTAAAAATACAAAGTTAGCTGGGCATAGTGGTGCATGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGTGG
TTGTGGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCCATCTCAAAACAAACAAATATATAAAGATATATGTGTATATA
TGAATATATACAAAATATATATTATATATACAAAACATGTATTTATAATATATATAAAATATACTATTTTTTGTATGTATATACATATACAGAGAGAGAG
AGAGTAGAATAATAGCACGAAGAACAGCTCCTTTGAAAACAATCTGTCAATTCCTCAATTAAACATAGAATTGCCATATGACCCAGCAATTCAACTCCTA
GACTTTTACCCAAAGAAATGCAAACATAAATCCACACAAATACTTGTATTCAAACGTTTATAGCAGCTTTACTCATAATAGCCAAAAGGTAAAAACAACA
CAAATATCCATGAAAGGATGAATGTATACACAAAATTAGCATATTCATACAATGGAATATCATCTAGCCATAAAAAGGAATGAAATTTTGGCATATGCTA
CATTATACTAAGTGAAATAATCCTGCACAGAAACCCAAATATCATATGTTGTCACACATGTGTGGGAGCTTAAAAAAAAATCTAATGTGGGTGGAAAGTA
GAATGATGGTTACCAGTGGCTGGGAAAGATAGTTGTGGACAGAAGGATGAAGAGAGATTAGTTAATAGATACAAAAATGTAGTTAAGTAGTGGGATTTAG
ACCTAGTTTTCAGTATCACAATATGGTGACTATACTTAAAATAATTTATTGTATACTTTAAAATAACTAGAAGAGTGGATTTGAAATGTTCCCAACACAA
AGAAATGATGAATGTTTGAGGTCATGAATATTCCAATTGGCCCTGATTTGATCGTTACACAATGCATGCTCATATCAAAATATCATATGTACTCCATAAA
TATGTACAAACATGCCATAGTCATGAATTGGAAGACTCAATACTGTTAAGATGTTATATCTCTTCAAATTAATCTAAAGATTTATTAGGATCCATGTCAR
AATCCCAGCAGGTTTTTTTTTTTTTGGTAGAAATTTACAAGCTGATTTTAAAATTTATATGGAAATGTCAATGTTATTGAAGAAACAATTTGAAGTACTC
ACACTAACAGATCTCAAGATTTACTAAGAGCCRATGTCACAATAAGACAGTTTGTGCTTTTGGTACAAGTATAGGAAAATTTAATATTGGAATAGACTAG
TATATTTTCCTGAATTATGGTAAAGTCTCCACTGCAATTCAGTGGGTGTGGAATGGCCTTTTCCATAAAAAGGTGCTTAATCAATAGCATATCTATTTCA
GAAAGAAGGGAGTGGGAGCCATAATCCCTACCACCTATTATATGTACATACAGATTTGAAGTAGGAACTTAAATGCAAAAAGTAAGGCAAAGAAAAGGTT
TCTAAAAGACAACACAAATGACTATCTCAATGATCAGAGAGTAGACACAGTTTTCCTACAGTATGTTAAAAGCACTATTCACTTAAAAAAATAAGTGATC
AACTGAACTTTCTTAAAATTCAGAACTGTTCCTTACAAGACAGCATTATGAGAGTGAAAAGATGATATCTGCAGTTCTTATATCTGACAAAGAACTCATG
CCCAGAATATTTAAAGTATTCTTATGAAACAAGAAACAAGACTGACAAATTACTTAAAAATGGGCAAATAAATTGAAACAGCACTTCACAAAAGAAGATA
CACAGATAGCCAAGAAATTTATGAAAAGGTGCTCAGCATCATTACTCATTAAAATACCACAAACTGATACCATTAGACTCCCACCAGAATTGCTAAAATT
AACATGGCTGAGAATACTGAATGCTGGTAGTGTTGTAGAACAGAAAGAACTCTCATATACGGCTATTGGCATGTCAGTTGCTATAACCATTTGGGAAAAC
ATTTTGGCAAAATCTACTAACGTTAAACATATTTACACATTCAAACATAGCATGTCCACTCCTGGGTATATAGTCAAGAGAGACAAATGTTTCTACTAAA
AGTTCATGTACAAATAATCTTAATAACAGCATTATGAATAATGGCCCCCAAACCGGAACAAATGAAATTTCCATCAGTAGTAGAATGGATAAATAAATTA
CAACATATTCATAACACAGAATACTACACAGCAGTGAAAGTAACACACTATTGATACACACAAGAACTCAGATGGATCTCACAGACATAAAARGGAGAAA
AAGAAACCAGACACAAAAGAATAAATGCTGCACGATCAATATGTGTGAAATTTTTAAAAAGAGCAAAATTTGGGCCGGGCGCAGTGGCTCACGCCTGTAA
TCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGAACATCCTGGCTGACACGGTGAAACCCTGTCTCTACTAAAAATACAA
AAAATTAGCCCGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCCGGGGGGCGGAGCCTGCAGTGA
GCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGCGAGACTCTGTCTCAAAAAAAAAAAAAGCAAAATCTAATCTTCTATGATAGAAGTCAGAATA
GTAGTTACCTCTCGGGGGAGACTGTGGACTAAAAAGAAGCACAAGTGAATCTCCAGTGCTAAAAATGTTCTATTTATTGATCTGGTATCTGTGTGTGTGG
TGTGTGTGTGTGTGTGGTGTGTGTGTGTGTGTGGTGTGTGTGTGTACTGTAGCTGTAGCTATAAGCTTAATACTTGGGCAGTTTAATATGTGTAAGTTAT
ACTTCACTAAAGCAGAAAAAAGGGGGTATAATCATAGCCTAAGAAAGCACTTTCAAAGTAGCTTTTCACAATTCCCCTTGCATAGCCATAGATACTATCT
ACATAAATGAATATATATGTAATTGTATTTTGATAAGCTTTTATATGAGAAACATGATATTGCTTTAATTCAAATTAACTTTCCTTCTTAAATGTTAATT
ATGACTTTGCTGCACACGTTCAACCCAGAAACACAACCTGAATGTAAAGGCTAGTCTTCATCTTGGATATGTTCATTTTAGTCTGATTTCACAATTTTAA
TTTTGTTATCAGCCAACGTTTATTTTATTTTAATCTGTTTTCCATGATTCTTAATTGCAAAATTATTAAAATTATATAGGACTAATCTGTTCACTATTGG
TGATATGCATAAAGAAATCTTGCTTTAAGTAGCATATCTGCTGAAAAACTGTTTTTTTTTCTTTATACAATCTCATTACAGAACACAGCATCATTTATTG
CCATAATATGTTTTGTCAAACATCAGAAACATTTGGTTCATTGATATATTGCTGCCACTGTTTCTCTGACATTTTATATCCTTTGGGGCCAATGAGCAAG
TCCCATAGGCTTGTCCCTTGATAACTTTATATCGGTGTAATTAATTCTCATCTTAAATCTTTTTACCTGCTGTCAGCCAAGAAATARCTAGGAAAGCTGA
TTTTCCAAAAGCTTGTGGATCTTAGATGAGAAAAATGATGAGTATAATGTTGAGGCTCATGTACCATCCTTTTTTCTAATTACACAGCCTGTTCTCTGAA
ATATCTTTCCGTCGCATCCATCAGGGATGCCCTCAACATCAGAGGGAGAAGTGCATGGCTGTGCAAAAGTGAGGATTTAAAGTCCCAAGACAGAAGACAC
CAGGACATGTTTTCTCTCTTATCATAAGACATGTAYTTGATTTATCATGTATCTTCAAAACTATTCTAAAAWTCCATATTATAATAACTTTGGGAATGAA
TGAGTATCATTGCTAGAAAATAGGAGATACCTTCTTGTCTGATGCTGGAAATAAAACTAAGCTGACGATTGCTGATGCAGTTATTTTGAAGTAACTTGAA
AGATTCAATTTCACATCCTCAAATTTTAAGTACAAAATTACGCCATATAATTCATTTTTATTTACTTGTAATTTAAGTTTACTTTTACATCACTGATAGG
TAGAATATAATGGAAGATAGCTATCCCCTTACTAAAGTGCCCATTTCTCTCCTATTCACATTGAGTCTGTGAACCCAATTTTGGGGCAAGATKCCCCACT
GCTAACCGGGTTATCACAGGATCTCTGGATTAATTCATGCCACATTCTGGGACTTTCAGTTGAGTATATTTTATTTTTCATAAGAGAAATAACTGTCTTA
TGAAGAAAATAATCTTGGCTGTTTTTCTCTCCTTTCCCTTCTTTTCTTGCTGCCCTTCTTTAGATGATTTAATTTGTCACAAATTAATTTTTAAGACCTC
AGTTAATTTAAGTGTTCTGAGGTATTAGTGACTTCTCTAAGCTCCCTGAGCTTTAGTTTACTCTACTGTAAATTTGGGATAAACAATCCCTACCTTGTAA
GCTTGTTACAATGATTGACTGGGTACAAAGCACTGGGTATACAGTAAATGCTCAATAAGTGGCTGCTGTCAGTTTTGCCTTTTTAAATTTGTAACTGCTC
AAGAGGACCCAGATTGTAACCTGGGGGGTAAGCTTCACAATAAGGGAACAGAAGAAATAATGAAAGGGGTAATTTTTGACCAGGAGTAATGGATGAGTAA
TGCATAGATGAACGAATGTTGGGAAAAATAGGAAAACTGGAAATCCTATTACTAAAATCATTTTAGGTGGGCTTAGCTCTGCATAGGGATTATTGCCATT
TTAAAGGTTCACGTTCTGCTTCCTTTGGTGAAATAGACCTTTGTTTATCTTAAGTTAGTTAAGTTGTGTTACTCTCTGAAAGCTTATAAACCATTTTGGT
ATCATTAGAAAGATAATTTATTGGGAAACATTACTGGCAGGTTGTAATTCTGCTTAAGATACCTATTAATATCTATTAATAGAGTTCTCCGAACCATCCA
AATGCTAAAGCATATAGTTGTATTACCCCCCAAAACCACAAGAATTTCTAATTTATGTTATGGTTGTGCAGGTAATCCCCATTGGTTTCAGTCTGGCTTC
AGTTGACTATAGCACATATATACCTATTTTTCAATGGTCTTTCACAATTATAAGAAAGCTGGAGAATTAGCAGAAGCTAGGAGGGAGGATGCTACCCAAA
ATATCCTACATGGCACAGGGAGGACCTGTTTTGGCAGCATCCAAGCTCAAGTCCTTTGGAAGGGCCAAAACTGATAGCAAAATGTATAGTATGGTTGATA
ATGATTTCTTTATCAGAATTTCTGAGTTTGAGTTTGGTCTAGAAATATTCCCACCTAAAGAAGTTTCAAGAAAATAACAAGAGAAGCAAAAATGAATCTT
TCACTCCTGACAGTATGACACAGAATATTCTTAGTGGATTCAAGCTTCACTGAGCTTCTGAAGGTTTCACGTGTCTGCAGGTATTTCTCCCTCTGTTAGA
ACATCTCCAAGTCATGGTTTGTGTCTTAGTCACCTTGACCTTCCAAGAGTCTTGCATACAGTTTCAGATGTATAGTAAGCACTTAGATGCATCTTGACTG
ACTGAATAACTGAGAGAGTGAAGAAAAATGAGATGGCATACAATTTGTTTAGATTGCTTCTGTTGTACACAATCGTACGTGGTAACTAATATTTTTACAA
TCTCTATTTTTCTCTTGTTTTCATCATCAGAACCATACTTGACAATCCTCTATGAGACAAAAGGGTAGAAATGTTTCTCAGACTGTTACTAATGCTAGGA
AAATTYCATTCATTTTCTCTGTTTTGTATAAACTCATGCAGCAGCCAGATCCTAGTGGCACCCTGAGTGCTGTTGAGGTCCGGAGAAGAAAGGCAGTGTC
ACTTAGCAGAGCGCCTTCACCCAGAACACCAGAGGCTGAATGTAACCTCTTTATTTCTCCAACTTTTCACCAGTTAAAGGGAAAAAGTGAATTAAAGTGA
AAAATARAAGATTAGTTGAAGTACCTTTTCAAAGACTATATTGCAAAACCAAGTAATAGCATTAGAGATGATGAAATTGTGTACCTGCAGGTATATTGGA
CAGAAAGGAAAAAATGCAATTTGACTGTGCTTTGCTTTTCTGAATAATCTGCCACCTTTTTTTAAATTTGAAGATAAGTCTCAAAAAAGTAATCAGTGTT
TACATTTTAGAGCAAATTTTGTATTTAAGGTTTATCCAGGGTTTTATTTTATGCTGTTTCAGGTATTTAAAGATTCTTTGTTAATTAATTGTAAGACAAA
CTTCACATGTTTGTATTAAAGAGAAAAAAAAAGGAAAAAGAGGGAATCATTTCTTAAGCAATGATTATATAAAATAAAGAAGATGTAGCCTGAGCTTTGC
TAGTATTCTGATGCTCACTGAGAAACCAGGCCCYGTGATCCTGGGAGATGATAACAGTAGATTCACTTATGTACCTTTTTGGAAATTACTTAAGTTCTCA
GAACAATCCAACAAGTGTGCTCTGTTAGTCCTTTCACAAAATTATTTAAAGAGGAGAGGAAGAGGCAGGTGAGGTGTGGCCTGAAAAGTTTCTTTTGAAA
GAAGAAAAAATTATTTTACTTAGCTTTCAAAACCTGCCTGAAATGAATAAAAAATTAATCAAAATTGAATTTTTTAAACTTGGGCTTAGCAAAGTAACAA
GTATGCTTAACATTACAATAGAGAAAATTTCCCACTGGTAACAGTGATAATCCTTCTGCTGTAGAAATAAAGTGATAATTATTTTAAAATTTACTTTCAT
ATGGTTTTATTTTCTGATAAAAATAAATATTATGAAYAATATTTTAGATATCTCCTTCAGTTAACCTAGAATTTTATAATCAGATACCTATATGATAGAA
TTAAACTTATGCATGAGGGCATAAGAGCTTTAATAAAGATTTAGAATAGCATATTTTTTATTAAAATATGCAAAAGTCATGATAAGATGAGCTGAACTTT
TTGTATCCAGTCCAAGTAAATTACTGCTTAAGATGTATAATTTTTTCAGATCTCTGTAGCTGTAGGGCTTTTCATATAATTTTGTTTTATTAAATCACAG
ATCAAAACAGTGACCCAGGTAATTATATTTCAGGGAATAAGTTGCTATTTTCTTATTTGTTAGCCAATTGTATAATTTCACTTTTAGGTGAATTTTTAAT
CCTTCTCTTTCACCATGTTGGCGGGGGAGGGAGAGCAAGAAGTTCCAAAAGTCAGAGAGATAAACATTAAATAATACATTTAACCCTGATATCTCCCTTT
AGATTTCGGGTAAGCCAAATTTTTTTTTTTTTTTTGAGACGGAGTCTCTCTCTGTTCCCCAGGTTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGC
TCCGCCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCAACACGCCCGGCTAATTTTTTGTATTTTTAG
TAGAAACGGGGTTTCACCGTGTTAGCCAAGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGTCTCGGCCTCCCAAAGTGCTAGGATACAGGCGTGAG
CCACCGCGCCCGGCCAAGCCAACTTTTTAATAGCCTTCACAATGATGCCAAAAATGATCAAAGTTTTAATTTGACTGTTAATTCAGATGAAATTCCCCTT
GTCTCTAGCTAAGAGGGCTTATTCCTTCTCTTGCTTATACCCATCACCCACCTGTCAGCACTACACTCCTCAGTTTCTTCCTCATATCATTCTTGACTTT
TGCCTAATCAGGCACTCAGAACCACCGAGTTTCTTCTTGATAAAGTGCTTARGAGAAATCTACATGGGGTGGGGGRGTATTATCTCAATGGGCTACACCA
TCCTCTTCCAGCTGCAACTAGTTAGCACCTTGGGTGAGCTAAGGAGGAGATCCCTTTTAAGTCATTGAAGGGAGTCACCACTAGTGCTGGTGACTGTGAT
AAGATACGATGAAGCCCTCACTTAGCTTCATTTATATTGCCTTTTGCCAAAGTAACTCCAATCCGCCCTTCTCCCTTCTCTTGTTTTCAGTGCTTCTTAA
AATATAAGGTTTAGGGCAGCCTGAAGTACCTGGTAGCTGCAGCTTCATGAAAGAATTCCAGGCAGGCATCAGTGACCTGTTGGAGGGTCTCTGTGATTAG
CCCTTTGGAGGTGCCATATTGCCCAGGTGATAAGCATTCTTTAAAGACCCAATACTTGACCACTCTGAGTAAGCCTTTCATCTTAACATTACCTCTTTCR
TGCCTTTCCTCCTCTGCCTGTCATTTGTTTCCCAGGCTTAATCACTCACTCCACCCTCCACTTCACTCCTCCCACACCAGTCCAGTTATGGTAATTTACC
AAAAACATGGATGCTTACTGTAGACTSCCATCTTTTCTTTCTTTCCACCAGCTCAGATATCAGTATCCAGTTCTAGTAGGAACGTCATTCTTCCTCTAAC
CCTCTTGTGGAATTGCAGAACAACATTCTTTCTTCCACTTGATAGCATGAGGCTCCCTCTGCGCATGCATAGATACCCACCTTGTTGGTACACATGTTGC
CAGAATGACCATCAGGGGTACTAATAAGTCTCTTTGAGTCTTTTATTGTTATTGTTTGGTTTTATTTTATTTACAGGTTACTTGTAAATCTGACTGCYAA
TTAATACTTTTCAAAACTATCGTGGAAATAGAAAGACTTATATGAAAATGTTTATGGCTCTATTATTCATAGTAAGCCCAACACTGGAAACAACCCAAAT
AGCCATCACTTGATGAATGGATAAATAAAATGTGGCATATCTGTAGAATAAAATGCTTACTCACTGATCCCTGTAGGTTTACCTCAAAAACATTATGCTG
GGTGAAAGAAGCCAAGCATGAAACACTAAATATTATATGATTCCATTTATATGAAGTTTCCACAAAAGACACAATTACAGACTCAGAAACCATGTCAGCA
GTCACTTGGGGGTAGGGATGAAAGTGAGGATTGGCTACAAAGAGGCAAAAGGGAATTTTTAAGAATGATGAAAGTGTTCTAAAACTGAATTGTGGTTATG
ATTGCATGATTGTCTAACTTTATTAAAACTCATTGAATTTTACCCTTAAAAGGTAAATTTTATGGCGTAAAATTAGAAAGCTGTTAAATATTGTGAAGAT
ACATTTTTAAGGTCACATAACTGCTTTTGCATAATTTTATTTCACATGTTTTTCAGTTACATTCTCTTTCTTCCTACAGTCTTTCACCCCCATGCCAACA
TTTTTTTTCAGCTCCAGTGTTCTTTGGACAAGGTTTCTTAAACCTGAATGTGCACGTGAATCACCTGGGGATCTAGTTAAAATGGGATTCTGATTCAGTA
GTTGTGGGATGGGAACTGAGATTCTGCATTTCTAACCAACTCTCAGGTGATGCAGATGCTTCTGTTCTGGAAACCATGCTTTTTGTAGCAAATATTTAGT
TGTCTGTCTACTTGCTGAGCCTGTAAGAATAACTTGATTTCCCCTCTAAATAAGTGGAAACATCCATAACTTCATCCAACAGCTTACAACATGGAAATAA
ACTGTTTAATGAATGAATTCTTTAGTTATGTCAATACTAGGTCCTTTGCCCTTTAAAATGTTTGTTGCTGCTTTCTACCACTTTCAGTGGTCATTTACAT
TAAGCCTGATGATTGTTTTGGTTCCTCGAATCCCCTGTCAAAGGTATGCTGTTATTATGGTTTTAGGAACAAGTATCTCTGCGAACAGAGTGTTCTGAAG
AAGGAGTTTACCTACATTAACTTCCATTAGAGGTAATGCAATTCAAATACCTGATGCCTTTATTTTAATTTTAAATACATCTGTTTCTGGAACACTTTGT
ACTGGGCCAATTTGAAATACTATTTATTCCTGCTCATACACTGTTTGAGGTTCAAATAGCAAGGGCATTGTAAATGGTGACTGTCTGCATCTGTTTGTGC
TACTATAACAAAATACCTGAGACTGGATAATAGATGAAGAACGGAAATTTACTTTTTGCCATTCTAGGGGCTGGGAAGTTCAAGATCAAGCCACTGGCAT
TTGGTGTCTGGTGAAGGCTTCTTGCTGCATCATCTAATGGTAGAGTGGGTCAAAAGTGCCAAACAGACAAACGCTGTGTTCTCACATGGCAGAAGAGTGG
GGAGAGCCAACCCACCCGCTCAAGCCCTTTTACTAGAGCCCCATTTCTATCCATGAGGGCTCAGTCCTCAGTAACCTCCTCCTAAAGCCCCCACCTTTTA
AAAYTATCACATTGGTCATTAAGTTTCAACATGGGAACTTTGGAGGACACACTCAGACCATAGCAGTGAGTTGGAGAGAAGGCATGGCCTGGTGGAAAGG
ACACTCGTTTAAAATTCAGGAGATCTGGATGCAGGTAAGGGTTCTTTGGGTACCTCCATGTGCTACCATAAGGATGTCACCAACTCTCACCACCTGTACA
CAAGGAATGGTTTTGCCATGAACTTCACCTCTTTGGCAGTCTGCTTAAGTCTTTGACTTCAACATTTAAAGAAAGCATTTTGAAATGCACAAAAGTATAG
GATTGCTAAGGAAAGCAATTATATTGAAAGAGAGTTTTAGCTGGGCATGGTGGCTCACGCCTCTAATCCCAGCACTTTGGGAGGCYGAGGCAGGTGGATC
ACCTGAGGTCAGGAGTTCGAGACCACCCTGGCCAACATGGTGAAACCCCATCTCTACCAAAAATGCAAAAAKTAGCTGGGTGTGGTGGCATGTGCCTGTA
ATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCAGGCTGGGAGGCAGAGGTTGCAGTGGGCTGAGATAGCGCCATTGCACTCCAACCTT
GGTGACAACAGCAAAACTCCGTAAAAAAAAAAAAAAAAAAAAAAAAAAAAATATATATATATATATATATATATATATATATATATATATATAGYTTTAA
AAATATAAAAAAATAGTGATATATGTGCTTTTTGAAATTAACACATTAAATAAAATCTAGTGGCCAATCTAAGTGGTGATGATCATAAATATTTTGAGAT
CTCTGCAACAACTAAATATAAAAGATCTATAAAGTTTATGGATAACAAAATGTTAGGTTTTGACAATATCACTGTCATTTGCTGCTTATGTCTATAGTTG
AAAGAAATGCTGAGGTTTAATATGATATTAGAGAACATGAAGATGTATTATTTACCACCTTAGTTTGCATTTCCTCTGTACCCTATTCATTCACAACTTG
GGAGTCTATGGTCCTCAGAACATCTGCACCAAAAATTCTCTAAAGTCTAAAATTTATCAATTAACTGATGATTCGAGTAACAAAATTTCCAATCCTGTAA
TATCTTTAAATAATTTAGAATGCTATCACATAGCTTCCTGTGAATGACTCTAATGGGGAAGAATGACATCTTTTCATCTCTTTTTTAATAGATGAATGAA
CTTAGATATAATTTGAAGTGCTTAGCAGAAGTCTTCTAACTGTTHAGTGATAAATCTTTTGAAATCAGATATGACAGTTTCTGGGAGTCTTTTTCACATC
ATCCTTCAATTTAGGGAATTAAATAATAAAATTTACTTGTTCATCTTTCACTGTGTAATTTAAGCTTTACAAAATTACTTGTTAGAGACCTTCCAACTTT
ATACATACAAGATAAACTTAAATATTTAGGCTAGTCCTTTCCTGTTAGAGATGAACCAGTGAGGCTCATTCAAACAGCAGTTTGCTACCACTACACACCT
ATTAGAGTGGTCAAAATCTAGGACACTGTTAATGTCAAACGCTGGGGAGCAACAGGAACCCTCAGTCATTGCTGGTTGGGATGTAAAATTTTACAGCAAT
TTGAAAGACARCTTGGCAGTTTCTTTCAAAACTAGACATAATCTTGCCACACAATCAATCCAGCAATCATGTCCCTTGGCCTCTATGCAAAGGAATTGAA
AACATATGTGTACACATAAAAAATGCACACAGATGTTTATAGCAGCTTTATTCATAATTCCCAAAACATGGAAGCAACCAACATGCACTTTAGTATGAGC
ATAGATAAATAACTGGCACACCCAAACAATGGGGTATTATTCAGCACTAAAAGGAAGTGAGTTATCAAGCCACAAAAAGACATGGAAGAATGTTAGAAGT
CTCTTACTAATTGAAATAAGCCAATCTGAAAAGGCTACATACTGTATGATTTCACTATATGACATTCTGGAAAGAGCACAATGATAGAGACAGGAAAAAG
ATCCATGGTTGCCAGGGGTTATGAGGAGGGAGAAATAAATTGGTGGAGCACAGAGGATTTTTCACTTCAGTGAAAATATTCTGTGTGATAGTATAATAGT
GGATATATGTCATTATACATTTTCCCAAACCCATGGAATGTGCAGCACCAAGAGTGAACCCTAATGTAAGGGATAGACTTTGGCTGATTATAATTTGTCA
GTGCAGTTTCATAGATTGTAGCAAACGCACCACTCCAATGGGGAATGTCGATAATGCGGGGGCCGGGGGGGGCGGATATGTGTGTTTTGGAGCAGGATGC
ATATGGAAAATCTTCATACCTTTCTCTCAGTTTGGCTGTGACCTAAAACTGCTCTAAAAATTAAGTGTGTGTTTTTTTAAATAAGTGAAACCAGTAAAGA
TTAAGTGTCATACCCAAGTTAGGACCCATGCTTTTCCATTTTTTTCCCTACAGCATCTTACGGAAAGGACAGGAATCCGAAATTTCTTTGAAAATCCAAG
ACAGTCAGAAATATTTGAAAAAGCAGAATATTTTGGAAACTAAATAAAGGCCTTCCTGTCTGTAGAAATGGATTGTGAATCAGCCTAAAGAAAGAGCTCC
CTTGAGGGTTGGTTATTGATGTCAAAAATGTCCTATCAGGTTTAGAATGCAAAGATGAGGCTGTAAGACAGAGACTGCACAAAGGCAAGATAAGAGAGGG
CTTAAGTGATGTGGAAGACTGGCAAGGACAGGGTCATCCAGTCCTGCATGTCAGCGAAGCAGGAGGTCTCTAAGMAGCATGACATGTAGCAGTGATATGG
TCGTCAGCATTAGATTGCCCACTAAGCAGGCTTCATCTAATGCATCAAATAGAGTATAATGTGAATTATGGTATTATCCTCATGATGTAAATGGTGGGAA
GGATGGAACTATGACTATTCTATTATTTTTAATTTAAACTTTATTTTAACTGTAAGTAAATTCAAACAAACCGTTATAAAACACAATACTATGCACAGTT
GCCTGCATAGATCATAAAAATAAATACATAAATAAATAAAAACCAGAATGCTGAGTGAGTACTGGTGGTGAAAACTGCAGGGCTAAAACTTGCTCAACAG
CGAACTAGAAAACACTATGGCTTAATGAACATGGCCCACCCCTCCTACTAATGGTTTTGTCAACTTTTGGACCTAGAAATTCTAATATGTACATTTGGGT
AGTAATGATGAAGTGGGAGTTTTGACATTATGTCTTAGTACAATTGTATACAACTGACTAAAAGCTACTAATCTGTAAATACTATAGGAACACACAGATG
ATTAAGCTGTGGATTCTGTTTTCAAGATCTTAAGTAGTTAGGTCAAAATCTTGATTCAAATCCAGACTCTTCCAGTTCACTAGCTAATTATCTAGTTGTG
TGACCTTGGGGGGTCTCTTCCTCTATAAGATGTGAATTATAATGGAAAAAAAACCTTATAGGGTGGTTGTGAGAATAAAATTAATTTATTGGATAGCTGG
CTCTGTTTGCTGGGTTGACATCTATCAATCAACCCCATAACCCATTTAGACATGAGTTAATCTACACAGCATTCAGAAACTGCAAAATTTAGGAGTCCTA
TACAACCCCATTTCATGCTCTGTTATATTATAATCCTTTAATCAGTTATGCACTCTAACTAGATCTTTTGCCCTAGATCCAGAGTGGGAAAATGTGATGA
GCTTGTTGTTGCTTTTCTATATGTCTCTTTACCTGTTKAAGTCTGCCAGCTTGTGTCCTCTCAATTGGTAATAGTCCACTGTGCACATTTGTAGGATAAT
TAATACAACTGTTTACTGAAGCAGCAAAATGGAGTCCCATTTAACTATTGTGAGTTTTGCTGTTTTTAGATTTTATGATAAACTCTTCATAGCCTGCACC
TGGGAGAGCCTGGCAGTGTGATAGCATCTACAGATAGGACATGAGACTATTGACTGTCACCATAGTTATTGGCCATTGGTAAAAAGGCATAAGGTTAAAG
ATTTTTAATCATGTGTTCTGAAAACAAAAATAATATTCTAGAATCCAAGTTAAGTTCTTTTTCTCTACATAAAGTAATTTTTCTGAGTATGTACATGTTT
ATCAACTTATCTTTACATATTATKTTATTGTAAAACATAAAACGGGAAAATTTTTGCTTGAATTGTGAAAAAATAAGTTTTGCTGTCACACTCTTAATAT
AGGACACATATTAAAGTGAGATAGTACTGGATCAATTCCCCAATTTATCAAAAGCCAAGAACTCCCGGAGATTTGAAAGCATGCATTCAAATGTTGTCTG
CATCCTGGGAACTAATTAGAGTGGAAGAGAGTAAAATGAATTCAACAGCGGTGTATCCAGGAGCTGCACAYGAGGACTTATATTTCCCACATGATATAGG
AAGTTGTAAATTACATTATGCACTAAATTACTATATTTTATGATTGTTTTCTATATTAATAGTAAAGTATTTCAAAGTAACATAATTTAMAGATATTTCT
GTTTTATATCTAGACAYTGCCAACCTCATTCAATATATGCTTAAAGTCTTTACCTGAAAAAAATGTCTGAAGTAATAGGTTAGCTCAATCTCTTATCTTC
TGGGACTCCTATCTCTCAGTATTCAYTTCCAATAAATAGCAGGTGTGTTGTAGAATCATGGCTATCCAACAAGAGAGGCCAAGTTATAGCTACCACGTCA
TATTTTCATTACTAATAGCTCATTTTAGTTTTGTTAGCAAAAGCTGTTTTGTCATTCCTTGGATTGAAGGTGAAGACAGTATTTCTTATAATTTATTTAA
AAATCACAAATTCACTATTGTAATTTTTAAAGATATGACAAACATTAATTCAGTTTTAAAATTGAGCATAATATAATTTGTATTAGATTGAAATTAATTA
ATGCACATTTCATTTCTAAATAATGATTAGCAAATGGAGAATGGTATAGGTAAAGAAGCACAGAAAGAAGATGGGAGAAAGAAAAGAAAAGATGAAAAGG
ATAACAGAAGGAATAGGGATGAGAGATAGAGAAAGCTATCTCTCAGAAGGATATTTAGTAGATTCACAGATGCATGTAAGTTACAATAAATGGGTTTATC
TTCTTTAATTAACACTGCAAATCACTTGAGCTATGAGTTTCTATTTGCTACTTTTTTGGAAATATTCATTAGTTTTCTCATTCCATAAACATATATTGTA
CCTCCTRGACACAAACCACAGAGCTAAACTCTGTGTGGGATAACAATATATAGTATATTTCTTGCTTATTAGCTATTATTTGCATCTCTTCAACTGCTCC
AACCTTTCAACCAYTGCATTATCCACTCAGACACAAATAATTTCTGGTGTCTACCAGTATTATGCAGAATAATATCATTTCTGTACTATATAAAACCCTT
TTGAGGGCCTGAGAATCCAGCATTCTTCTTACTTCAATGACATGTTATTATAGAAGTTATTAAATGTAAAATTGTAAGCTCAAATCATTAAAATATCTCT
TTGACGTGGCAGCATGTAACAGTCTTCCCAACCATCCTCTATTTAAATCTGCACTTCCAGCCACCTCCTTTCCACTCACTCCTTTGTTTCGAAGTGATAT
AGATTAAGTATACCTTTCCTGTTATAGAAATTGGATATACTCAGTAATTATTTTCCCTGGCCTAAGGGTCAGGGAATTGTACCTACCTAGAGCATATATA
TATTTTATTCTTTCCAAATTATAAAATGCTAGGTGAGAAAAATGATGCTTTAATTAAGAGCTCAACACAGCAAAATGCACATATAATCCAAAAAAGAGTC
CACTTAATAGAAGGACGTAAATGAATACATATATCATATTGCTTTGATACCTTTTAGCTTTCAGAGAGAATATTTAAGGTGAGTAGTCTTCATCCAATTC
CAGGAAACATTATAATGTTATGGGGCCATTGAGCCCTTTCTACTTTAGTAGAAAATTCTACTCAGCAGAATTAGCAGCTTGAGGAGCATTGATGAGTTTG
TGGATTTGCTCAAGAAATAAGTTAAAGTACTGATGCAACTCTAATTCTTTTCARTGATCAAAATGGGAATGAGTAGTGATTATGTCCAGAAACTGATAGA
TAAAARAATATAATTTATGCTCAGCATTGGTGGCTAGTCCACTAAGAGTGATGTGCTGTCTGGAGTGAACTAAAAGAATAAGGTTATAGTCAATACTTTT
CTTCATTGTATTCTTGTTTTCTTTCTTGCACCATCCCTGCCCCTTTTCTTTTTCTTATAATCTTCTCCGCTTCCTTTTGTTTTTAAATTTAGTGTGCTAT
GTTATGCTGGATAGAAGTCCGCAGTGAAAGTTATAAGGAGATTTTATTCCAGAGAAATGAAAAAAAGTCACTCTGAGTAGGTATTAAMTCTAGTTATGTT
GAATTCGGAAGCTCTATCACTGTGAGGGAACCCCAGGATTCTTTTCAGGAACAATAGTCTTTACTCCCCAAACATGACATCATTAGGTCCCTTTTATTTC
AAGTTGGGCCTAAATTTGGTGATGCTATTAATAATACTGTTAATGTTAGAAAGAAAAATCCAGCTAGTTTTATTTTTAATACTTTGATACAGGCAAATTA
AATAACATTTTCAGGATACTATAGCACAATTTCATAAAGTACTGTGCTCCAGTACCTAAATGATTCTATTAAACTAGATTATTTTAAAGCTGTGTCCCTT
TTTCATAAAATATAATTTGTCATTGACTCTTACATTTATCAAATATTTCAATGCCTAATAAATCCCAGATGCTAAGATGATTTTTTAATTACTTTTTGTT
CATATTTTGGAATGAAAACAAAAAAAAAATTTTTCTCAATGTACATATACATATATTTTTCTTCCTTTTTTTTTTTTTTTTCTTCTTAGACGGAGTCTTG
CTCTGTCACCCAGGCTGGTGTGGAGTGACACAATCTTGGCTCACTGTAACCTCCACCTTCCAGATTCAAGCAATTCTCCTGCTTCAGCCTCCTGAGTAGC
TGGGATTACAGGCACACATCACCATGCCTTGTTAATTTTGTATTTTTAGTAGAGACTGGGTTTCATCACGTTGGCCAGGCTGGTCTTGAACTCCTGACCT
TGTGATCCACCCACCTAGGGTTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACTGCTCCCGGCCATATTTTTCATTAATGCTTTTACATATTAAATATT
TACATACCAATGTGACACATGAATTTTATATGTATATACATTATATATTTTCATATACATATATTACGTATATGTATGTTCCATATACAATAATGAAACT
GATAAATATATGTATATGTATATACATTTTTATACATATCTATACATTTATATACCTAAATTGAATATACATATGTCATATAATATGCACTAATAAAAAC
TGATGAATTTGCCTTGTTTCAGGAAAATTTTTTAGAACTCCATTTGGGCTTTTGTTTTTTGATATATTTTTATTGAAGTGTTTTTTGACTTGGGTGGTAT
TGAAGTTGGCATCATACATAGTAACAGCTTCATAGAATAACATTGAAGTTAACCTGCTTGTGGGAAGGGGGGTGGTCAGAATGTTATATTTATTGTACAC
TGGTTGTCTGTGCAATTTTGATAATGTTAGTCACTCAAAATTGTTCTTAAAAAGAATATTATATAGCCATATTTCAGATTAGCAGAGACTGGAAGCTATT
GCTTGCATACAAATCTTTAACTTCTCTGTAGGAAAACGCCACTACATGTTTGGTGCCCTTAATGGCCTTTCATTGGCCCCCAGAATTAACTGTCTGAATT
TGTGTGTCTGACATTGGATAAAATGTTTATATTTCTTACCTGGGAGAAGCTCAGAAACACAGCAATAAAAGTGAATTTCAAAGCCTTTGGAACCAAATTA
CAGCTGTCTATAGCTTTTATATTTCTTATATTTTAAAAATACAAACCACCATTAATAGAAATTTCTATAACATTTTAGACATAATGATTTACCTATGATA
AATATCTTTGTAGACCTCCACACAGTTTCTTTTGTATTTTCAACCTTGTTTTCAAGATCTTCTCAACAAGGCAACCACTAAGAGAGCTGTTTTTACTTAC
TGTAGCTGAGTGTTTCTCAACCCTATCAGGCTTCAAATACACTTTATACAGCAAACATYTGAGACTGTCCCTTTGCTAATTTCACATGAAATTCATAGAT
AATATCACCTGCTTATAGTCATAAGTTTTAAACTGTAATGTAATACCTTACTATAATATAAAGAAAATATTGTAGGAGATACTGTCAAATTTAAAATATA
TGTATTTCAGCATGTGACTTCTCAAGCATATCCATACAACAAGGCACAATGATGCCGTATGCTTGCATCTTAGGTAGAATCATTATGAATCCAACAGTTA
CAAATGCAGTTTGATGTAGGTGTGTTGCATTGGGTATCCAGGCACCATTAATGAGGGAACCATCAAAGATAWAATTTTCTTAAATGCGAAACAATTCTTG
GTAACTGTCAAGTAAAACAAAAGATAATCTTTCTTTGGTTTACATGGTAGTTGCATTTTTGTAAGAGCTAGTATATGGAATATACATTAGTGTATGTATA
TATGTATGTGTGTGTGTATATATATATATATGTATTTTGTATGTATAAAATACAGTTACAACTTAAATCTAGATAATTTAAATGTGCCTTCCCACATCAG
CATATGTGTGTATGTGTGCTTGTGTATGTCTAATGGAGTTGTGATTTAAGTGCAGATGCTTATAAGTAGGTTTTTCATCTACCTGAGTGTCCCATGAGGC
ATGGAAAATCTGTGCAGCATGCAGGATAACTCCCTTCTTGTGTGGGGGACTATCTTCTTGTGTGTAGGAGTGTCTGTGAGTTTTGTATGCTAAATACCAG
CAGTACTTACCTTTACACACCAACAAATTTCCAGAATTCYTTTGGGATGCATTGTGATCCCTCTTCATTACCATTGCTGTAGTTTTTTTGTTTCTCCATT
TCATTCCATCACTTTCTATCTACTCTGGGACCCACTTTAATGTGGTGTCCACTCTCCTTACACATCCAGCCCAAACTAAAAGAACTGTATTGAAACCGTT
CTCACTAAGGTCTCTAAGTACTGCAAGTTGTTAAATGCTCATCGCATCTAACTTTGAAGTAACCGTAGACATAGATTCCCCATCTGGACCACCTCAGTGA
TCTCCATGGTAACACATCCTTCCCATGCTCCTTCTTATTCTCTGGCTTTTTTTTTTTCTAAGTAATCTTTAAATATTGTGGTTCCTTCGAACTTGATCTT
ATGCCCTTTCCAGCCTCACACACCTATTCCTATGCCTAAAATTTTCAACTAAATGCAAATAGCTTCTATATATTTCCAGCTTAAATTCCTCTTCCGAGCT
CCAAACTTGTATATTAATTCAACTGCCTACTCAGAAGTTCCATAACCATGTCTCACATGCATCTGAAATGCAATATGTCTGAGATTGAATTCGTGTCCTT
CCGCCCAAAACCTGGCTTCCTCCAGTGTTTGCTGGCTCAATAAATGCAGCAACATCTGTCCAATTCCTCATGCCAGAAGCCTAGGTGCCATCCAGGACAC
ATCTACAGGATCATATAGTCAATCTGTTACTAAGTTCTATATAGTCTACCATTTATTTTTTAAAATGCATTACTGCTTATTTAACTTTACTGTTTATTAA
CTTCAGCATTCTAAACATACAATTACTGTTTATTAACTTCAGCATTCTAAACATACAAAAAAACAATATTGCCAATTATGTTTAAGCACAGAGGTTCTTG
AACTTTGATTGATGCAGTGGCTCTTCCCTTTGCTGACAATGAACAGTTCTGCAGTTTGTTTAAGACCAAAGTTTCAGCTGGGTATGATAGCTTATGCCTG
TAATCCCAGCACTTTGGGAGGCTAAGGCAGGAGGATTGCTTGAACCTGGGAGTTCAAGACAAGCCTTGGCAACATAGTGAGACCCCCAATTCCATAATTT
TTTTTTTAATTAGCTGAGTGTAGTGACGTGCAGCTGTGGTCCCAGTTGCTTGGGAGGCTGAGGTGGAATGATCCCTTGATCCTGGGAGGTTGAGGCTGCA
ATGAACTGTGATCATGCTCCTGCACTCCAGCCTGGGTGACAGAGAAGGACCTTGTCTCAAAAAAAAAAAAAAAAAAGTTTCAAAATGACAGCACTTAACT
AAAAAAAATCCAAACAATTTTCACGCCAGCTGACCCCCTTTGTCCAGAGCAAAGAATGGCAGCAGAATGCTATCTGACTATATACAGAAACAAGACAACT
AAAGCTAAATGGGGGCCCATTGCAGTGGCAGCAGGTCCAGCCTCACAGTGCATGCACTGAGCTCCAGTTTCTCCAAAAGGCCTCTTCTCCCACAGCCTCA
ACACGAAGCCAGGGGCCTCAAAAGTTTGTCTCTATTTTGTTCTTTTTACAAAAGATATGTATGTACACCTGACACCTCAGGATTTCTAGCCCATAGCCAA
ATAGTAAACATCACCTTACACATGTTTTTAAATGCCAGAAACATCTTTTAAATGCCTTATCATGCAAACAGCAAAGTGCACAGTGTGAAGAAAACACAAG
ATTGCCTTTTTATTTTTAAAAATGTTTGGAAATACATATAATTTTGATACAGTTTCAGGATGCTCCAGACACCCATGGCCACTTGACATAAACCACTGAC
AATTTCTAGACCACTTTGAAAAACTACAATATGATTCTGATCAGATTTTGTCATTAAACCTAGTGAGGGCAGTAGACACTTCTCAAATAGATGTGTCAGT
TACAGCACTCTCCTCCTCTAAAGTATTCACAAAGAGACAGATAAAACAGTTTTTTTTTCATCYTCCTCCTCCCCTTCCTCTTTGTCCTCCATGTTTTCTT
CATCTTCCTCTTCCACCTTTTTCCAGGCAACTTTAGTGGGGTGCTTTGAGCCATCAAACTCTCCTTTACACTTACTGTCAGCAACGTCCTTCTCATACCT
CTCTTTCAGCTTCTCTGCCTTAGTGATGTCAGTCTGCTTTGTCCTGTCACTTAAGTTATTCCACATCTCACCCAGCTTTTTGCCACGGATGCCAGGATTT
GCAGATTTGACCTTGAAGTGGACTTCTGAACAGAACGGAAAGAATTCAGATGGTGGCCTTCTTGGGACATCTTCTCGCCTCCCTGAGYTGGTCATAATCG
TTCATTTCCCCATCCGAACCTACTTTTTCTGCCTTTGCCATTTTATCAGATTTATACTTATCTTTCCTAGACACTGTCTTTCACCTGTCGGAGCACATCT
TGAAAAATTCTGCTAAATTGACAGGGACCTCTGGGTTTTTCTTTTTATGTTCTTCTCTGCACATCTGCACAAAGAGAGCACAAGCAGACATCTTACCCTT
TGGTTTCTTGGTGTCACCTTTAGCCATCCTGACTGTACTGTTTTGCTAATCTGGGCAGTGTAGGGCATGATGCCTTGGCTTAGTGCTCTCCAGCATTGAG
CTAGCTGCCTCCCTGAGAGGCCCCTCTCTACMAATTAAATAGCTCTTACGTCCATCAGATATTCTCCATTTCCATTTCACCATCAACACTGAACTCTGCC
AAAGTCATCCTCAGTTCTTGCTGGAGCTTGTGTTTCAAACTAATTCTTAACCAACCTGTTTTCTCAGATGCTCCCACTTCTTTCTATTACCACTTCTAAA
TAGATCAGTCAGAACTAGCTTCTGAAAACCCTCAAATCTCAGCACATGGGTCTGCAAGAAATGATCCCTGGGCCAAATCTGAACAATCACCTATTTCTGT
AAATAAAGTTTTATTAGAGCACAGCTGCACACTTTTTAAAGTAATATTTTCTATGGCTGCTTTCACATTACAACAGCAGAGTGAGGAGTTGCAAGAGACT
TGATACTCCAAAGCCCAAAATCTATACTGTCTCTTTAGAAAAAAAAAWAAAATTGTCAACATCTGCATTGAGCATATACTGAATATGCAGTAAATATATA
ATTAATTGTTTTAGATCATATTTTCCAAACGCAGCATAGCTCTCCTTATAGACCCTAAGACTCTATATGGTTCCTCATAGCTTTCCTTGTAGACAAAGAC
CTTGTGTTTTCAGAACTTGTGTTCTGTTCAGGTTTCAATCACGTGAAGAAAAGAATTATTCATTTAGCATCAATAACAGCAGATGCCAAAATAGCGATTT
GAGATAGCTTTCAAGTTTGTGCTCTTTGAGAGCCAGCTTCGAGGTAGCTGTCCCTCACTCAGACACCTGCTTGCGGGCACCCAGTTTTGATATTCCTTTT
AAAGAGAATGTCTGAGCATTATCTCACGTTTTCTAAAACAGTTTAACAGTCCCTCCTCCAGGCAGATTCATTATTAAGTGCATAATSATATGAAGGTTCA
GGATGGCCTGAAATCTGGACGATCACCTATTTCTGTAAATAAAGTTCTGTTAGAGCACAGCTGCACACTTTTTAAAGTAATATTTTCTATGACTTTTGAT
TATGGTTGTGAAAGTTTCCCTGCTAAGGTGTGAACTCTGTATCCAAAACTCCCTAGAACAAGGTGAAAATGTTCTCCGTAAAGCTGAGCTGCACTTCCTC
AGACTGTCTTGCCATCTGTCTCCTTCAACAAAATATGCCAATCAAAAGTGTCTGGACACACAGAACATAGGAATTGTTGATACATTTAATTTCAATTTTT
GAAGTAGATACCTATTTTATAGATGGAAACTTTTATTGCATTATAGTTAGAAGAAGCATTATGATCGGTTGCTGTTTTTGAATAATTGAGGACAAGATTT
TTAGATTCGTGCAAACAGCAAATGGATAAGTCCCTTTTGGTTTGACACACTTCATGTTTATTATAATATCCACTGTTATTACTATTATTTTATATGAATA
TTATCACATTATTACACATGTAACTTATGACTATCATATTTTGCAGTTAAATTTGAAGAATAGATGTCAATTCTCATTTGTTTTTATATTTTATATTTCC
GTATCATTTGTAAGGACATGAAATAGTCTTTGAAATATAAATTACTTTAGGTAACTTGAGGTTACCCTGTTCTAAAACCATTTAAGTGACAAAGGGGAGG
GTAGTCCCACAGGAAAGTGAAATAAATTTTCAGCTGACACACAACCCATAATGATTTTCAGATACTCAATTTTTATTCGAGACACTCTTTCTGTCTGCAA
ATTCTAAAATGCTAACTCATTAAAATAAAGGGCCATTTTTTTTATGTCTCTATGGAGACGTGTCTGTGGAGAAGTAGGTAGGGAACATTCCTTAAAAATC
GACATTCCTTCTATGTAAAGTTTACTTAAAAGGCAATTCATTTGTCTGCACTAAGTCTGATAAAATCCATATACAATCTTCTATACATGTTATCATGCAA
CCCTCCTTGTAATTTCCATGAAATCATTACTGTGGACAATTCTGAAGACTATTTTTCGGTGTCCTTTTCCCCTTGAGTTGTTCATTTTGAGCATTTTTAT
AAAGTCCTTAGTTCCTAATGTTCATTTGTATCACTGTCCTTCCATTGATCTTTTTGCTTTGGGTAGTCTTCCAATTATCCTAAGAATAGTAGACTTTGGG
AAGGAAGTGGGAAGGGTCTGCCGGGTAGAGCAGAATCAACGATCTTCAATCCAGACAGTGAGAAACAGTAATGACTATTGCAGACTAATACGTGCATACT
ATATATTTATCAATTTCCCCCAAATGATCGGCTGCTCACTGTTTCTGTCATTGCCACGCATTATTTAAATTGACCTAACGCCATGTTTTGCTGCCTTAAA
TCCTTTATTTCCAGCACTAAACTATGCAAAGAGATCTTCTGCTGTGGCAAATCACCTCAGCAGGGCACTTGCCTACACTGCTTGCAGGCTCCCCTCTGCT
TACCAAGAGAACAGCAGCTGAGTCTGGAAAAGAGTGAAGACAGGCTTCTGAGATATCACATCAATGTCACACGAAGGCACTGATGTGACTTCTCTATCCT
TTGGGCTCATATATCCTATGAAACTTCAGGTTTGAAAGACAAAATGAGTATCAGAGAGAACAGCATGAATTTGAAATAAGAAAGATCAGACAGGGAGAAA
AAAAGTCTCCAACCTCCCATTCCCAAATGGACTTCAGGTAAAGAAAAAGCCAAATTATGCTGAGACTTGAGTAGATGTTGAACAATTGTGTACACTCATG
TTGCATAAAAAATTCGCTGGAAGTCATTCGTATGCAGCAAATAGTTATTTTGTGTTTACCGTATATGTATGAGGCAATCTTTACCTTAGATTAACTCATT
GAGAAATGATTAATGCTCTAATTATTTATACATCTGCCGAGTAGCAGAATACTGTATAGTTTTAGGAAACAACACTTTAAAACTGCAGTTAGCTCAGAAT
TTTGCAAATGTCATGCCAAGGTCGTTGATGAAGCTGACTTTCTCACTGCTTACGCCAGCCTGCACAGTCATAAGTTTAGTGTATACACACAAACACTCAC
AAATACACATTTCACTTCCTTAATCCTACATTTCAGTGACTTAAATAAGCACATATCTAAACAGCCTTCCCTTAGACACAGGCAAATGCAACCCATGATT
CCACACAGCCCTTAAAATGGCAACTYGCAAGATGTACACAATTTTAAAATTGTATTAGCCTATTCATAGCAAGATTCTTCATTAACCTATGTGCATATTC
AATGTTGACCACATGCCCCCCAACCCCACCCACCAAAAGACCAGTTAGAGATCTGAGATGTGGAAGAGTGCTATTCAGTTTAGATATTTTTTTCTCATCT
ATTACTTTCTAGATGAACTGTCATGAGTTAAAATGTCAATAAGGACACCTGTTTATGATCAACATAATTGAGCTATTTTAATCTCAAACTACTTCATCGT
TAAGATAGTTTTCAGCTCAGAGGCTGAGATAAAGACCCAGCCAGTTTTCTAGGACACACATCATTAATTAGACAACAAATTCTTACCTCCTTSCTTGTTG
GTTTTACTTACAGGACAGGAAACATCTCTATGGAATTAAATTGCTCACTACATGCTCCTAATATGTTTTGTTTTTATGCTTACTCCAGGGAAAACTGTGA
GACATGTTGAGACCAGGATTTGTTGTTTTCTTTTGATAGAAAAACATAGCAATTCAAGTCAGCTTTTTTCTTTTATTAGAATGCAAAGTTCCTTAAGATC
AAATACAAAAAAACAGAGTCATTTAAAAGTACTGAAAGGATATAAAAGGGAAGACATTTTAAACTACAGCTTATCGAAGAACAGCGAGTAACGTTAGCAA
GTACTTTCGTAACTTTCAAATCTTACCATTTACTGATAAATATCATGAGTTTTCCAAATTCTTTGTTGTTGTCTTTATGTCTTTGAACAAAAGACTGCTT
TTTGAAACAACTTCAAGACAATGATTATTGAACAAATGATTATTTGGTTTTTTGAAGGTTCCTAATTTCCAAGCTAACATTTTCTTATTGACTCTAACCA
TCTCTGTTTCTACTGAGGTTGAACACACACACACACACACACACACACACACACACACACACACACACACATATCAATTCATGACATTCTCTTTAGTTAG
TGCCTAAGGTTGCAAATCTTCATTTTCTTTGGTCAGATAATACATTTTCATAATGAACAAATGGAGTGCAACTCTCAAAGCCAGTACCTAACACTGGAAA
GCAAAGGCTGAAATCAAAGCTTGGTCAGCCTGCTAATATGATGCGCTCTCTGTCGACTAATCACCTTCCAATAAATATTTGTTCTGTTAACTTCTACTGT
GGCTCCTCCCTCATGCCCAACCCTACCATTTATATACTGTAGATATTTTATGAGAAAATTGACCCCTGTTTATGTGCGTCATTCCAGTCACCMACAAACA
CACCTTTATAAAGGACGCACAATTACATGTGACAAATTAATTGGTCATTTCATTTTGTGTCCAGAAAGTACTCTTTGAGGAACCATAGGGCAAGAGCTGT
CCTAGCCACCCTGTCTATAAAGATAAATAAACTTAACCCGTATACTCCAGCATCCTGCTACCTAGAAGGAAAAACCAGAAGCATAAACAATTAAAAGTGA
TGTAGCATAGAATATGTTGTAATTCAAGAAAAATGCATTCAGTAAGTTTACAAAGAAACAACAACTGTGTTTGCACACACACTGTCTCATGTTGTAAGGT
GGGTATTATAATTCTAATTTTAAATATGAGAAAAAGAAGACTTGCGAGAATATTTCCCAAGCTGATAGGCAGTGGAGTTGGGTGCTGGGTCTGGCTTTTG
TAATTCCAGCCCCAAGCCCTGCACCACAGAGAAGAYAGTTATCCCGTGGAGGTCAGGATTTGGAAATACTTGGCCAAGGAGGCCCTGATTAATCTGGACA
TAGAAAGTAGAGCAATAGCTTGAATGACCTTGCAGGAGGGGACAGCAATCAGGATATTTTTGTCTGCTAGGGCTGCCGTAACAATGTACTACCAACCGGG
GGGCTTAAAGCACAGAAATGTATTTTTTTCACAGTTTTGGAGGCTGGAATTCTGAAATCAAGGTGCCGGCAGGATTGTTTCTTCTGAGGCCTCTCTCCTT
CACTCATAGCTGGCTGTCATCTCTTGTGTCTTTTCATAGTCATTCCTCTCTGAATGCCTATGTACAAATCTCCTCTTTTTATAAGGATACCAATACTATT
GGATTAGGGCCTATCTTCATGATCGTATTTGTCTTTAATTGCCCCTTTAAGACCCTGTCTTCAAATACAGTTGTACTCTGAAGTGGTAGGGGTATGGACT
TCAATATATGAATTTGGGGGGAATATAATTTATCCCATAACTGATGGTAAGAGGCCACAAAAACAAAATATGGGGGCATAAGGACCCCCCAGTGCATGCT
CAGGCTCAACATTATAGCAAAGTAGACACAGAACAGTATGGAAGGTGAGCACCAAGATATAAAGGGTCAGGGGAGGCAGGATCAGAGTGGAGAGATCTGG
AAGGCTACAGCAAGGTGTTTTATCGAAGGCGTTATTGCAGGTTCTTGCTAGAGTGATCATTGAGAATTTAAAGAAATGAATTTTAGTAATGGGTTTAGTA
TATATTAAATCATGTTCATATAACTTAAAAATATTAATTTTAAGCTATTTACTGAAGAAAAACATGACCACTCAGTGGAACTTTATATTTTACGATTTCT
AAAAATATTATAGGTTATTTTTCTAGGAACTGCTGTTAATTTTGGCCATTACTGCCATATACTTTGGACATATATAAAGTGTTTTTTGGTAAGTATCTGA
GATTACATTTAATATCTACATGTAGCACACTTTACACAAGCTAAATTCTATCGTATTTGGCATTTTTTCCTCAATTCAGCTGTATTTTCAGAGAAAACAC
ACAAGATTACAGAGCTATTTCTATGCTTAATAGAATACTGTCTAATGATTTCTGCATGTAGCAAAATCCAACTTTTTGGATTAACATGGCTACATGGTAA
TCACCCACTAAATATTTACAACATGAATTTATCTGTGACTCACTTGATGTACCGTGATTGTGTGYGCATCCTAAGACGTGATTCCTGTACTATGGTTGAG
TAATTGTCATGGCAGGTTTGCCCCTCTAGTGTTGGCTTCTCGTTTTGCTTTGTGCTGCTTTTCTCTGCTATCCAGGCTGCCATTGCTATTTTTATTTTCT
ACTTCTGATGGTTCAGGAAYATGAAGGCAAGATAAAAAGAAAGTATGTGTTGCCTTACTGCCACTATTCTATGATATGAGTCAGGGGTATGGAAAAGCTG
AATTTTTAAGGAGACAGCAAACCTCACAGATTCAGGGGATTTAATTTCCCCTCCTCATATCCCAGAAGGTCTAAGTTACTAGTTACSTTAAACAAAAGAA
ATAATTAAACAATGGAGAAGATGCTATAGAAAAGTTTCCCTTTTCTTTTCTTTTTAAATATACTTCTTATATGCAGTCCTAAAAGGACTTTCTCTCTTCT
TATAGCTTAACAATCAAACAACAGCTTAGGGCAGCATTTGGCAAACTGTAACTGCTGGTTAAATCTGGCCTGTCCCCTATTTCTATAAATAAAGCTTTAT
TGGAATGCAGCCACACTCATTCATGTGAATGCRTATTGTCTGTGACTGCTTTGGCAAAATAGTGGTGGAGTTGAGTAATTAATACAAGCGCTTTTCAGCC
TTAGAGCCTAAATTATTTACTATCTGGCCAACTCACTTTTTGGTTTAAGGTAATGAAATTTTAATTTGCACACAATAATGTACATGTTTTAATATGTGAC
AATAAAGGTTTTGCTGCATTTATGCAGTACATTTTTGAAATTAAAAATAAACTTGTAATAGAAATATAGTTCTAAAGAGTTTCACCATCTTGTAGATTTT
TCAATAATTTTTTCATATAAAGTCAATACRTCTTTATAGAATAAAATATTTTAGAATCTAGTTTATAGGAAATAGCATAAACATCTGTTTCGATAAACTT
CCCCTAATAAAGACATACCTTGAACACGAGCTATTGTTTTGCATTTGCCAACTTTTCCATTTCRTAATTGTATTAAATTGCTAGAGATGGCTTTGTAATC
AAAGACATTAGAATATTCAGTTGAATATAGCATGGGTTTCAGGGACACATTTTTGTTGTTGTAGTGGTTTTTGTTTTTAATTCTCTGCTGCTAGGTAGCA
CTAAATCCCCAAGGGACTCAAAGATGAGAAACAGGAAAAAAATTTCMAGCTGTGAACTGCTGCTAAAGCAKAGAAGCCCTGTCTGTGATATTAGTTCGTG
TATCAAAATGCTTGCSATTTGGCCCTAGAAAAAGGGACCGCTGGCAGTGTTGTACATAAGTGGTCCTGCTTGGTTTGCCCATGTGGTATTTATCTCAGTC
CCTTCTGATCAGGGCCAGAAAGTCTACCCAACAGGAATATTCTATATTGAGTAGCACCTGACTACTGACCAAATCAGATGTTTTCCTTTGGTAGATTTAA
TAACCGTAGAGAAAGAGAGCTGACTGCAAAGTGCTAGGAATGACTAGAGACTGAGAGAGAGCACAGATGCTTACAGAGAGCCTCAGTAGTTACTGGCRGG
AAAGAGAACCGGGGGAGAGAGACAGTGAGCAAGAAAAGGAGGAGAGACAAAGATGGAGAGGAAATAAAGTAAAAACAGATRAAGCAAAAAAAGAAATTGA
GTCAGAAGAATGACAGAATGAATATGGTCAGAAGCCAACTGCACCCATTTATGAGGACATAACTGCTTGAATTGCTGATGTGACATTGGAAGTTTGTGTG
TGTGTGATGCAGTGGCATTCCAATTCTCCCTGAAGGTATTTACCTATCTCCCATATATTTCCATGTATCTGCAAGAAGCCTTATCACCTATGACAGAGCT
ACAAACATCAGAGTCTCACTAATATATATATAGCTAATTGATTATTTTCAAAATAAAATGTGAAGGGAATAAATCACACAACAGCCCTATTTATGGTTTA
GCAAATGATCTCAAACTCACATATTTAGGGGGTCAGGTGCGTCAATGAGTGAATCAGTTTGGGTGTAGGAAGTGATGGGTCAGGTTGAGGGACAGAAGAG
GCTGTGCACTGCTGGTGGGACTGTGAATKAGTGCTGCCATTATGGAAAATTGTATGGAGGTTCCTCAAATAACTAAAAATAGAATTGCCATATGATCCAG
CAATCCCTTTTCTGGGTATTTACCTAAAAGATTCGAAATCATTATGTCCAAGAGATGTCTGCACTCCCATGTTGATTGTGGCACTATGTGCAATAGCCAA
CTTATGGAATCAGTCGAAGTGTCCATCAACACATAAATAGATAAAGACAATGTGGTACATACATATACACAATGAAATACTATTCAGCCTTACAAAGGGA
AGAAGTTCTGTCATTTGCAATAACATGAATGGAATTGGAGAACATTATGCTAAGTGAAATAAGCCAAACACAGACAAATACCACACATTCTCATACAGAA
AAGTTTTCCTTTTCTTATAACTTATATGTGGAATGTAAAACACTTTTATTCTCACTTATATGTGGAATGTAAAACAATTGCACTCATGAAAACAGAGGGT
AGATGGTGGTTACCAGAGGCTGGGGGGTGGAAGGAATGGGGAAATGATAATCAAAGGATACAAAGCCTCAGTTAGATAGGATAAATAATTTTGAGTATTT
TTTATAGATCTGTTGCACAGTGTAGTGAATACAGCTAATAACTGAGTAATGTACATCTCCATATCACTAAGAGAGTAAATCTGAAATGTTTTTGTTGCAA
GAAAATGTCAAATATTTGAGGTGATGGATAAGTTAATTAGCTTGATTTAATAATTCCACATTGTATTCAGAAATCATAACATTGCTTTGTACTTCATATA
TATATATAACTATAATTTGTCAGTATACAAAAAAAGCCAATCAAATTTTTTAAAAAATGAAAATAGGCAGGTTCTACTCAGCTCCAACTGATTGTTCCAT
CAAGGACTATAGGGCCCCTTGCTAAATCTTCTGATTTTTCAAGAGAAGCTAGAAATCACAGCTTTATGTGAATTCTCCTCATTTTTAAATGTAGAGTTAA
TTGGTTAAAACAACAAAAATGATGGCATGAGGGGCAAAGAAAATACTTGTGCACAAGATTTGTTTTATGATGTTGGATTTACAACTAACAACAATTTATR
TTTTTCACAGCCCTCTTGCAATGGCAGTCTATTTGGGGCATAAATCAATAACCCTTTTCTATGATTTTTTTCCTCCACGAAAATGGCCTTGATTCTAGTT
CATCTTGTGAAATGAGATTTCACTGTGTTGTTCAGAGTTTTCATTTTTGCTGGAGGCTTGCAAGGCCCATACCCTCAAGATAGGCAGTGATGAGTTGTGA
CATGTATCCTGTGCATCAGTTGTCAACCTGAGTGACACTAAAATGAAGAGCTGTCATTTTGTACCAGAAATGTCTTAGCTTTATTTCCTGTTGTTTCAGC
AATCCAAAGCAATGGTGGTGTTTGGGTGTGGACCACRGCTCTTTTCCTCAAATCTAAGGATTTCATCTGAMAATAGGAAAATAGCTACAGTTCACTGTAG
TTGTTAATCTTTATACCACTCTTGCCAATTTTGTTTTTCTTTCTTCACTTATTCTACTTGCATTTTCCTTAAACTCTACACTGTTAAGAAGGTAGTCTCT
TGTTTGGATATTATTTCCTGTTAACAATTATAGRTCTTTTTATTGTAATCATTTAGATTTACATATATTTTCTCACTTGTCACAAAGGCCAAATAAGGCT
TCAGTAATAATTTCTATTTATGTTCATTGGGTAGTACATTTCATTGCATCATTCTCTAGGGAAAGTTAGTACTGTGTTAATTTCAGGKTCTAATGCCAAT
ATATAAACACATCCAGCTTGTCATTTGATATCCAGGGAACATTACTTTTCAAGTGGGTTCTCCAAATGAATGGGTTTGACTCAGTCATCTCATTTCCTTA
ATGCTCACAAATTTTTAGACACATTTTTACACTGTGGGTTTCAGTGAACATTTGCACATTTTACTCAAAGTTGGTCAGAAGAGTTAAAATTAACAATAAT
GGGTGGAAATGGGGTAGGAAGGTCAAAGGTCATCTTGAGTGATCTTGGTTTTTAGAAATCTGCCAGTCTGCTGTGCCTTAGCAGTTGCAGAAGGCCATGA
TTGACTCTCTCCCTAATAATAATCTCCTTGCTTRTAAGGAAGTATTGGAGAAAGGAGTTGAAAGTAATATTAGCAAGAAGCCTTTACTAATGAGTAGGTA
TGCTTGTAAAGTCCTTCACTTGAAACATTTGTCAAATGACTGTCCTTTGTCGACTACTATATTTTGAGAAATTCCAGAGGAAATAAGGTGAGACTTCAGA
ACTTACAAAAAAATGTAATGTAAAGGTTAGGAGTGGTGAGTGTAGAAATGGGAGAATAAAACTGTCAGCTCATTAAGGCTAGAAAATCCAGCATACAATG
CTTCACACCCCAAAATATTCATGCCGCCTATATTTCATGCCGGTTACAGCACCTTACAGTACATTTTCATTTGAGCCTCACAACAACCCTTTGAAGTAGG
AAGTGCCATCCGCAGAGTATACTCAGAAGGGACACACATTTGAGAGGTTTTGTGTTTATTCAAGGCCACCCAGCTGTAAAGGGGAAGAGACAGAGCACAG
GACTTCCTTGCCCACCAAGTGTTCCTTTACAGCCACTTACAAAAAGAGCTAATGCTTGYGTGTTAGCAAATATGTTTCATCAACATTTTGCAAATTCTTT
ACTTCATCTGACTTATTGATAGAACAAAAGAAAACACAGCATGCACTTTCAAATGCAAGCACCTATATCTTTGGCACAAATATCGATACCAAATTCACGT
TATAGTTGGTACAYATAAAAACAAATATAATGAATTGCAAGGTTCTGCAGATTTACGGCTAATTACTCTTTTCTACTTCTTCATCTATATTTATCATAAT
GTGATCCAAGATCAAGTTGCATCAAAATCACCAGGATCCTTACATAAAATACTCATTCTCCAACATAAGCCCAGAACTATTTAACCAAYACCTTTATGGT
GGACTCAGGTATAAGGCATTAAAAATTTTCCAAAAAGGGACAATGAGGCATGCTGAAGTGTGAAGAATGCACCTAGCTTTATGGAAATTGGTGTTTAACG
TCTAGGTGGTGTATTTATTTTAACAATGTACACTTAATGATGGGACACACATAGATAGTTAAAAGCAAATAAATAGTACCCAATGGGTAGTTTTTTGCCT
TTGCACCTTCCCTCCTTCCCATCACACAATATACCCATGTAACAAACCTGCACATGTACCCACTGAATCTAAACAAAAGTTAAAAAAAAAAAAAGAAAAT
GAATAGAGCCAGCTAGTAAATCTACCCCAATCCTAGTTCTCTTCACTCAAATGTAGTTGACTATGCTCTAGACATTATTAGGAACAGCTTAGTTCTTAAA
TGTTTACGGCAGTTACTCTTATTGGATATAATTACATAAAAGATGGAATGCCTTGATTACTAATTTTAAAAAAGGTAGAGTGGATAAAAGAGAGTAAAAA
GAAGTTACTATTTTAAAAAATAAAGCTTGGTAAAAATGAGATTTGGGAGAAATTAATAGAAAATGAAAAAAAAAACCAAAATACTAGAATTAGAACCTCA
CCTAGGGAACAAACTGAAATGATTATAAGATTTGATGATAGAGATGGGACCCAGAGGTAGAATCTGAAGTCTTAATATCAGAAAGGCATTGAACATCTGG
TTGAAGACCAAAAGCAAGGAGAAGAAGCCTCTTTCAGTATACATTATTTGCAATGAAGAAAAAAATAAGAATAATGTAAGGGCATTATTATTAATAATAA
TATGAATAATAATGTAAAGTCATTTAAATATTAAGAGGAGATTCTGAAAATTGAGGCATAATAGAAGCTTTTTAATAAAAAGTCCTTATTAATATATATA
AATGTTATTGGAATTTTTAATTTAATATACTTTTTTATCTTAGAAAACTAATACTATCTATAAAAAGTTTCATATATTTGTTTTAAAATTCGTCTTCTCA
CCCCAGTTTACCTCGGGTAGTCCTGAGATCCTTTGAATTTTACTGGAACCTTTTAAAGTTGGAGAACMCATGAACCTCAGGTGCATGACAGCTTAYGCTT
TACATTTTGAAGTGATCCAAATGATTAGAGAAGAATTTAGAAACTTACATGAATCAACTTTATGATGGTCAGAGAATCTGTGAAATATGTTTCAAAAAGA
GGATCTAATTTAGCAGAGCGTAAGGGGCATGATTTTCCAGGTGAGTCACAAATTATGTTTTGGGCTGGGAAATGAAGACCAAATCTCACAGGACTAACCT
GGAGATCAGAAACTGGGGCATGAAGGCACCTATGAATCTCTGAAAAGTTGATAAYATTAGGTACTTGCTGACCTGTTGAGRAAGAAAGAACCCCTAATGG
TTCCAGAATCACAAGCCTGGAGACACAAAAGAGAATATAAGTGGTGGGAAGCATGGAAATAGGGAAAATGATGTCTTAAGAAAGAGAGCTCCATTCCAGA
CATTAATTCTAGATACTGAAAAATTTGAATGGAAAAGTTCTTACACATGTTCAAGTACACCACAGTGAAAGAGAAATAGAAGCTCTAAAATCAGAGACAT
CTGTGAGTCACCCTGGCTAATAAATCCCTGAAGAAAGATTTGGAAAACCAAATCATGGGTCGTTCTGTTGAAGGAAAGAAGATAATCTTATAATAAATGT
ACAGAGTATAGACTATTTATCTATCTCTGTCTCTCTCTCTCTCTCTCTSTCTCTCTCTCTCTCTCTCTCTCTCTCTCTATATATATATATATATATATAT
ATATATATATATATATAGTCAAAAAAGGCACAAATAACATTAAAGAATTAGGATTTCTCTTAAATCAGGAAGAATCCTGGGAAAAAAGGGCAAAGAAATA
TCCAAAATCCTAACAAGTAGGGCTGTTGATGCTTCCAGAACTGAAAAGAAAATTCTTCTGGTTAATATCACAAACACAAACTAGAGAATTGCATAGAAAA
TACACTTTGAGAAATCCAGTTAAATGCCTGTCTCTCCTCCCCCTTGTATCTAGTTTTGAACTTGATCACATTCAAAGTAAGCAAGGAAGGCAAGCATGTA
ATGTCSAAGTCACATTAAAGGAATCGAATTTGTCTCTCTTACAACAACATGCTTCCGGTTCATAATAAATTAATCCAGCATTCTATCTCAAAACTGCCTC
TTTTTATTATACTAGCAGATATTTCAGGGTTTTCCTCAGTGCTTACACACATGTATAAGTTTCCCATAGGGAGGATGCTAATTACAGTCCCCAGAATTAA
TTTTCCTATGTACAGTCCTCATTATCATTTAATTGCTCTAATCTGACAGAGACAGCCTGGACAGGGAAATCAGAAAGCAGACATTTCAACAATCTCAAAG
TAGCTGGGTGGTTATCCCATATCACTGGGTCACCCTGCCCTGGASTACCTGCACTCTATACCATGCTAGCAGAACTGCCCTATGATTTCAGGAAAAAAAA
AGTGGAGGAGGGGGCAGGGGGCAGGGGTGGTGGCTCACGCCTGTCATCCCAGACTTTGGGAGGCTGAGGCAGGTGGATCACCTGCTGTCAGGACTTTGAG
ACCAGCCTGACCAACATGGCAAAACCCTGTCTCTACTAAAAAATACAAAAATTAGCTGGGCGTAGTGCCACAAGCCTGTAATCCCAGCTACTCGGGAGGC
TGAGGCCGGAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGGTGAAATCCTGCCACTGCACCCTAGCCTGGGCAATAAGAGCTAAACTCTGTCT
CAAAATAAATACATAAATTAAAAGGTAATTGAAAACAGCCTGGCATTTCTGTGTGGTTTAAGCTTTTCAGTGGACAGAGATGAGTAACAAGGTGAAAAGA
AACACCAAACCCAAGCACAGTCCCACACATTGCTGGGGTAACAGCAGAAGAGACTGGAAAGATGCTTACATACCACTATGGATGGGTGGGGGCTTGGAGG
CACCGGGTAGGAGGACAGAAAAGAAGACAGGATGCTTGCTACCCAGAAAGAAATGCAGCTGACATGCTCTGAGGAGAGGCAGTCAGTCATCAGAAAGCAC
AGGGAGTTTCTCCTGAGAACCATGTAGGGTTATGCGTTGAGGAAACTGAGCTGCTTGCAGACACAATCCTTTTTTTCCAGGGGTTTGTAACTCAGTGGAA
AAACAGATCAGTAAAGTTAGATTTAAAATACAGTATAAGGAACACTCTAATAAAGGTAAGTGGAGAGAGTTATGCGATCCATAGGAATGGAAACTAGCTG
GTTTTAAAGGATAAAACAGCGGTTCATCCATTCATTCATATGACAATAATCATAAAAATGGACAGTGACAGCTATTCAATATGCTAGATGGTACTTTACA
GCTTTCAAAACACATTCATTAGAGCTTAACTTTATTACAACACTATTTGAAATCAGGGAAAGTATTATTGGCTTAGCTTTATGATATACTCTTGGACAGT
GTGTTGAAGGATACATTATTGTGACATGGATGATGTCACATTTTCTGAATTATAGCCTAGTGTTTTTTTCACATTGCTTATTATATATTTTGAATGAGCA
CCTGGAAATAAAGAGCAGAATTAGCCTTGGATTCTGCATTTTAGATAATACATAGCAAAGTGGAATTGGGAAGACAAGACAGATTGTATGTTAGAAGGTG
GGACAGGATTAAATAGCGACATGATGTGAGTCATCAGTGTTGACCTCCCTGGCTTGTGTGTTCAGAAAATCCAGTGTGGAGACAGTTGGTTCTTTTCAAG
TTTCTTAAAAGGCACAACACCATCCAACTTCCACCAGCCTATATAAATGCTATGTGGCTTAATTGTCAGCAACAATAAGAGAATACACAAGAATCAGATG
AACTGGAAAAAGAAAAGCTTTATGGGTTGAATTCTGCCTCCTTCCCCCAAATTTTTGAGGGTATGTTGGAGTCCTAACCCCCAATATGATTGCCTTTGAA
GATAAGGCTTTTAAGGAGGTAATGAAATCAAAATGATGTAATTAGGGTGGGCCCTAATCCAATTTGATTGGTGTCCTTACACAAAGAGGAAATTAGGACA
CAGACATGTACAGAGGGAAGACCTGTGAGGATACAGGGGAGGATGGCCAAGAAGAAGAGGAGAAGGCTTAGGAGGGAACAACCTTGCCAACACTTAGACT
TCCGTAGACCTTAGACTTTCTTAGACCTTAGACTTTTTTAGACTGTGAGGAAATACATTTCTGTTGTTTAACTCCCCGTCCTCCACCCCTCCAACCATGG
TATTTTGTTATGGCAGCCCTAGAAAACTAATACAAAAAGYATTTTCTCTTCATCATCAAGAATCATCAGAAATCTCTAAGCAAATAATTAAGTCTTTCCC
TATGTAAAAATTCCTGTTCTCAGAGAAATGGGAGAAAACAAAACATAATAGGTAGTTCATGATGACAGACAGACTTAGTGAAGATGAGTTCTCTTAGAAT
TCTGGGAGGTGAGGTTGAAGGTGTGGTCTAATCTGTGAGCTGGTGTCTTACTGCCAACACATCAGACCAGCAGTGGGCACTTTGGTGGTGGTTGTGAGCA
GCCAGCGCTGTTTGTTGGTTATAGAGAAAGGGTGACATCCAGTGGCTGGTTCTATCAGCCAAGCTCCTGGACACTGACTCAGGGTGCATGCCAGATGGCA
GAGAAGGGTCTTCAGGAACATGGATGAATCTTATGTCCAGTTCAGTTCCTGGCAGGTGACAATGAAACTTGGGCAAAATGCAGTGATCACTCTATGTCCT
AAAACATAGGGAGTGGGGTCCATGCATTGTTATTAAAACATTGAGAATACACTGATAGCAAAGAGAAGCACTATAAATTAACTTAATCTTCAATACACCT
TACACTTGATTCTCTCTATCCCGTAGAAAAGACTCAAAAATGATTTATGAAAGGAGGAAAAAAACCCTCTGAACACATATAATACTATAGAGCCAGCTAC
TTTGATAATAGAATACGGTTACAATATATAAGGTATCCTACTTTAAAGATAGATATTGATAATAGWTAATAGATAAATAGATAGATAGGTGATAGAYAGA
TAATGTAGTTTAGTTTAAACTTAAAGTTTAACTTGTAGTACCCAGTTAGTAATATCAAGAATGGCTTAAAATGACACAGCTGCAAACCCTACATACATCA
AGTTGCCCAGCTCTTAGATAATATTGTTTTACTTTATATTATCTACTTTAATATTGTTTTTCTTTATTTATTAATATAGAAAATAATATTGTTTTCTAAT
AGCTTTTGCTTTGTTTTGGTTTGGGTTTTTTTTTTTTTAATCTTTGGGAGAAGCTAGGCTTTGAAACTGTGGATATTTAAATAGAGTCTGTCATGATCAG
CTGGGGTTGCTAACCCTCACCGCAAATATTCTTTACAAAGCAGAAGGGATGCTCCCTGCCTTTGAATAATTTACATATCTATATATAATTTTTAAAATAT
TAAAACTAAAGATATACCAATGTCACATCCATGTATGCATTATATGTACATTTGGAAGACATGTGCTTTTTTGTGGCAGATGTAATGACTGCACTTCTCA
TTCTACTCAAATAGAGTACCTAGGAGACAATGTGAGACCCTGAACACATTTTAGCAGATCTGGGGTTGGTTGTTTCCTCTTCATGTGGAACAGTATAAAT
AAAGCTAGAAGTGATCCTGAGAACTATGCATGAAATAGATGTCTGGGGCCCCTTTCATGACCTCACTAGCCTATTGTTAAAGCCACCTTAGCATCTGATA
CTTCCCCCTTGCCACACTTGATCCCATAGATTGCGTATGCAGTGATATGAGTGCTGCACCAAAGCAAAGATCAAGTCTAATTCATTCAACAGTGTATGTC
TATTGTCTTAAACAGTTCAAGACACACAGCAGGTGTTTMATAAACACATGCTGACCCTGGAAAGCCATGAGTAAAATTGACAAGTGGGACAAGAGAAAGA
TTAGATAAGAATGGGAAAATAGCTGGGAAATGGGAAGATTATATTCATTATATGTTACCATTCAAACATTGAAAAGGTTAAATAATCTTCAGAATGACAT
CAATTAAACTTTACATAAGACTAAAGTCTAAAGGGAAGAAAGGGTAATATTAGAAAGTAAACAAGAAATTTGCTCCCTGGAGCACAAATATGTTAATGGT
TTCTCCTGGAATTGAGCAATGTGGCAACCCAATCAGAAATGGCTTCATGAAGGTGGGTCATAAGTGGAGCCTTGTGGGATCTGAATAAATTGAGAGAAGA
AGAAACTATATTCCCCAAAATGATCAGAATGTAGAAAATTTTCTGGCAGCAAAAATGAGTAGGGCATATTTAAAAGACTTCTCTGAACTAGAGGATATTA
AAGAATAATAGAAGTTAAGATCAGAAGGTCTATTGGGACCACATTGTAGATAGCTACTTCTAAGCTATGATGTTCAAACTTTGAACTGTGAGCAGTGACT
TGTTGAAAGAACTTTAAGGAATATCAATTTGGCACTAATGTACAGGATAAGTTAGAGGAATCAGGAAACAAAGAGATCAATCAAGAAGCTGCTGCAGGGC
TACAGTAACCAAAACAGCATGGCTTTGGTACAAAAACAGACACACAGACCGATGGAACAAAATAGTGAACTCAGAAATAAGACTGCACACTTACAACTAT
CTGATCTTTGACAAACCTAACAACAACAACAAAAAAGCAATGGGGAAAGGATTCATTCCCTAGTCAGTCAATGGTGCTGGGATAACTCACTAGCCATATG
CAGAAGATTAAAACTGGGCCCTTTTCTTGCACCATATACAAAAATTAACTCAAGATGGATTAAGGACTTAAATGTAAAATGCAAAACTGTGAAAACCAAA
GAAGACAACCTAGGCAACACCATTTAGGGCAATGTCAACAAAGGCAAAGATTTTCATGACAAAGATGCCAAAAGCAGTTGCAACAAAAGCAAAGATTGAC
AAATAGGATCTAATTAAACTTAAGAGCTTCTGCACAGCAAAAGAAACTATTAACAGAGTAAACAGGCAACCTAGACAATGGGAGATAATTTTTGTAAACT
ATACATTCAACAGAGGTCTAATATCTAGCAGCTATAAGGAACTTAAAAAATTTACCAAAAAAAAACCTCAACGCCATTAAAAAGTGGGCAAAGGATATGG
ACAGATACTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAATCTCCGCCTCCTGGG
TTCAAGCGATTCTCCTGCCTCAACCTCCTGAGTAGCTGGGATTATGGGCATGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAAACAGGGTTT
TCCCATGTTGTCCAGGATGGTCTTGATCTCCTGACCTTGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGCTTGAGCCACCGCGCCCGG
CCAACACTTTTAAAAAGAAGGCATACATGCACCAACAATCATATGAAAAAAAGGCTCAACATCACTGATCATTAGAGAAATGCAAATCAAAACCACAATG
AGATACCATCTAATACCAGTCAGAGTGGCTATTACTAAAAAGTAAAAAATAACAGATGCTGGCAAGGTTGTGGAGAAAAAGGAATGCTTATACACTGTTG
GTGGGAGTGTAAATTAGTTCAATCATTGTGGAAGACAGAGTGACAATTCCTCAAAGACCTAAAGACAGAAATGCCATTTGACTCAGCAATCCCATTACCA
CAGGGATTACAAATTGTTCTACTATAAAGACACATGCAGGTGTATATTCATTGCAGCACTATTCACAATAGCAAAGACATGGAATCAACCTAAATGCCCA
TCTATGATAGACTGGTTAAAGAAATATGGTACATATACACCATAGAATACCATGCAGCCATAAAAAAGAATGAGATCATGTCCTTTGCAGGAACATGGAT
GGAGCTGGAGGCCATTATCCTCAGCAAACTAATACAGGAAAGGAAAACCAAATACCACATGTTCTCACTTATTAAGTAGTTGCCAAATGATGAGAACTCA
TGGACACACAGAGGGGAAGAACGGACACTGAGGTCTTTCAGAGGGTGAAGGGTAGGAGGAGGGAGAGGATCAGGAAAAATAATTAATGGGTACTAGGCTT
AATTAATACCTGGTGATGAAATAATCCGTGCAACAAATCCCCATGATACAGGTGACCTATGTAACAAACCTGCACATGTACCTGTGAACTCAAAAGTAAA
ATACAAAATAAAACCACAAAAAAGCAGCTATTGTAGCAATCGAGGTGTGAATGCACATGGATTTGAAATATGATATTGGCAGTGAAAATAGTAAATTTGA
TGTAAGTGCAATATATAGACATAATTTAAGGAAGAATGAATAGGATATAACAATTATTTGGCTAAGTAATTAAATATGGCTAACGCTTAGTGTCTGGGAA
GGAAAATTTAGGACAAGGAGCCAGTTGGGGACATAGAGTAATACTGACTTTGAGGACATAACGAAAAAAACTCAAAGTGAGAATATTCAGTAGACATTAG
GAGACAGGACTGGAATTCAAACTGAAGGTCAGTCATAGAAATGCAAAATTAAGGTTATGAAGTCATCAAAAAGAATGAGATCTCCATAGACCAAAAAGRA
CATGTACTGAATTTTAAGGGATACCTTTATTCAAGGGAAGTTGGAAAGGAGAGCCAGAGAAAAATGAAAGCATAGTAGGCTTTATTGATTCAATTGCTGG
TTTGGCTCTTTGCTTATATAAACATTCATTTAATTATTTATCTTATCCCAGCTGCTGAATCAATTACCTAGTAATATTAACCACTTAACTAAAAATCAAC
AAGTCTGTAAACTCTCTAAGCTTCTTTAAAAACTATTTTACATCTGTGTTATGTGGAGACAAAAGTATCAAATTTGGAATCTAAAACCCAGGGCTTAAAT
GCTGGCAGTCACTTCCTAAGTGTATATCTTTAGATTGGACAAGTTTAGATTGGGCAATTTAAATTCTAAAATCAGAGGCTTCAGCTCTAAAATGAGAATG
AAAGATACTCCATATTTTTTAATAATTAAATGAGATAATACAGTTAAAGGAACTACGTCAGCCCTCTGCTATATACCATGCTAGTCCCTGACTCTTTCCT
GCTTTTTTAGAAAATGCAACAATTGAAAGTCTACTATTCGATATATGTATGACACTCATGTATTCATTTAGTCTTTGAGTTTCTATCGTGATCAGGCACA
GCTCTGATGCTGAGAATACGGTAGAAAAAAAGACAACATCCAGTCTTCCTGAGGCCAGAGACTAGTGGAACAAAGCCTAGTGGAAGAAACAGTGAACTGA
AAATACATAGAAATTCAGGCAGTGATAAACTCTTTGAAGTAAAATAGAGCAGAATAAGAGAAWGGCAAGATCAGTTTGGGAAGGCTCTATTTCAGATGTA
GCACTCAAGGGACATACAACTTAACTGAAATGAGTGAGTGAGAGAGAGAGAGAGACAAAGACAAAGAGAGAGCAGGGGGAGCATGCTATGGCAAGACGCT
TGGGGAGGGAAAGCATGTGGGGTGGACAGCAAGTGTAAGAACCGTGAGGTGGCCATGAGTAGCAAGCGCGAGGATCATTAGGAAGATGGACATGTGTGGC
TGATGAGGCACGCGCACGAAATAGAGGCAGAGTTGTCAGCAGTGGGAAGGCCATGCAGGTGCATGGGCTGTGGGAAGACACTGGAGCTCTTAGAGCAAGG
AGCCGTCTGCTTCGGAGGAACGTTAGAGTTCCTAAATTCAGTTAATGAAATGCTTGTTAAACCCCTGCATTGTGCTTCTCCGTGCCCCTGATCTCCCCTT
CCCCATAGCCTGTGTATCAGTGCTGTGTGATGAGTTCTGTTCTGGGTGAACTGCACAAAGACCCTTCAAAGTTTGAAGGGAGTGGGAAAAATCAGTTTTA
AAGGTTTAATAAGGGTTTCTTAAAGAAAAATAATAAAGACATGTCAAGTGCACCACCCCTTTCCCCACCTGACTTCAAACAAAGAGAAAATCCCACCATG
TGTCATTATACACTGTCATTTAGACAAAGACACTGACCATGACAAGTCAACAGTGGAGATTTGGACTTCATGTTGAAGAATAAAAGTAGCAAAGACTTTA
AGTTGTAGATTGGCATCTTTAGATTGACATTGGCATAGTGACTTCATTTTTTAAATGCTGCCAGAATTTCTTAGAAAAAAAAGTTAGAGCATATGGTGAT
TCACAAGTGCCTGGTGGAAAATTATAAAATCAGCAGCAGTATTTCTGGCTGCTGAGATCCTGTGAACCACAACTACCTTCAAAAGATAGAGGGTAGCAAA
GGAAGCAAGGGTGCCTTTCTAACTCCACACAGTTTGTAGTATTTTACAACTTGTTTCCCTTTAGCAAGTACTGGCAGTTCTATCAATCCAACAAGTGGGG
AACCTTATTAATAATTATTTATTTTAGCCATATCTCAACTTTAAATAGTAAATATTGTACCACCACCAGTGTATCCTTTCCAGATACCCAAACTGATGCT
CAGGGATATTAAGTGAATTGCCCAGTGCCAGTCAGTTAAGAAGTAGCTGAATCAAAATCCGAATGTGCGACCATCAGGTTTCAGAGTCTATGCCCTTGAT
ACTTTACCATAGAACCACAGAGAAGGGAGGTTTTTCAAGGCATGATACTTGCTGAAAATAAAAAGATACAACTTTAAATTTGTCCAAGAAAAAATTACTA
AAGAAACACATAGCCCATGCAGTTTCTCTAAGAGATTCTACATGACATTATTGTTTGCTAGAAAGTAGGGTGCTAGTTGTTGCTTTTGTAAATATAATAG
TCAAATCATGTTACCATTAGGACACATTAAAAATGTCGAATTACCTTGGGACCTTATATGAACATATTAAGATAATAATGATAGTGTTCAGTGCAATATT
CAGATCAATAGTTTAAACCCAAAATATTTATACCTTCAGATTAGATGTATGCAAATGCATTGATTCATGTGTCTTTTATCTGTTGTTTACATTTGGAGAA
ATATTTGAGAAATATTTCAAAATGGAATTTATATAAATTTAAACACATAATGGTTTTATGTAAAAATATTGCTAAATTACATTTTCCCCTTAATTCTTAT
TTCTTGGAAACGTGCCTTAGTCGCTGAAATATTCATACATTAACACAATGAAAGAAGTGAACCTTACTAGGCTTTGACTATCAGGTTTGCTGTTGGTTTT
TGACTATTGTGAAACTATAGCCTGATTTCTAAATCAGGAAGAAACGTGTATTGTTGTTAATATGGACACATGACATATTTGTCTGCCTGACTTTTGATCC
CAGCTACAACCTCTGGCCTTTTCAAATGATTCTTTAATATCACATAAAGGGAGGTGAGATAACTAAAGGGGGTGATTCCGGACTAGGAGGCAAGGGAGGG
CAGATAACATGGTGCTTTGAAATCTTCTGTGACTTTTCAGTCACTTATTTCATTAAGTGATATATCTCACTAGAAGTGAGGTAGAACATAACAAATCCAT
GTTTGCTGGGCATATGTTATGACAACAGAGAAATTCACAGACTGGTCTTACCCGGCAGGGGAGATGGCATGATCATGAAAATGGTTTTTCSCAGGGTGAG
CTTACCCATTGCATTCTGATGTGCTGATTTCCGTGATTTCCCCAAATGTGGGAAACTCACTCGGCTGCATAATTGGTGGTAGTGGGGGCTGTGTTATGCT
CTCTCCTTGATGTCAGTTTTTTTTTTTTCTAAAAGCAAACAAAAACAATTGGCTTCAGACATTTTGAACAAAACAAGYAGAAGCTGTTTTCTTTAAGAAA
TTACAAGCAGTGTCTATCTATAGATACATACATAGTCACACATGCTCATAAAAACACACAACCACAGCAAAATTCATGCTGTAATCTATAAACACTTTTT
AGAAAMGGGGAGAGGTTGTGTGGGCCTAAAGAGCCAGGTGGGGCAGAACCTAAAAGGACCTTGAGAATGACAAACATTTGACCATGGGAAGCAGGACAGG
AGAAGGATGTTACAGCCAGTGACCATAGCATAGGTAAAAGCAAAACAGGTACCAAGGAGCACACTGTACAGACCATTCAGCAAGGAGCCCAGCCTGACTG
CCAGGAAGAGGCTGCCTGCAGGAATGGTGTGGAAGACCATCAGCTGCAGACTGAGGCAAGGCGATGGAGGTTTAGGCTTGCTTCAATAGGTGAGCTACTT
AYACAAGGAGAACCATGATGAACCATGATGGAAGTGGTGTTGCAACATTCACATGGTGTGGGTTGTACTGGGAAGAGATGGACAATAGKGTGGCTTAGCG
ATGGCAACGGGCATCTTTAGATGAGAAGAATGTACRTGAGATTTCGAAAAAAATGATCAACAGAATTGAACTGTATTGAGCACTAAGCTAGTATAGGCAG
ACAGTTCCAACTGGGTAAAATAACATTATAACCACTTCTTAAGTAAATAATTTGGCAGCCGGACTTTCCTTTGCCTCAYTGACTGAAGCAAGCATCCCAG
ACATTTGATTTACCAGGCACTCTCACGAAGTACCTCAAGGATGTGCTTCCGAGCATATGTTTTATCACAGTTTCATTACAGTGTGCATATAGATTCTTCC
CCTCTGGGTTTTATTTTATTTTATTTTGAGATGGAGTCTTGCTCTTGTCACCCAGGCTGGAGTGCAATGGTGCGATCTCGGCTCACTGCAACCTCCACCT
CCTGGGTTCAAGCGATTCTCCTACCCTAGCCTCCCGACTAGCTGGAATTACAGGTGCCTCTCACCATGCCCAACTAATTTTTTCGCATTTTTAATAGAGA
TGGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCGGGTGATCCACCCGCCTCGGCATTTTGGGGTTTAAAGGAAGTTTAAAATCTCTC
TCTAACCTTGAGATTAAATTAATGTTATTTTAGATTCAAAACTTTCTCCTGCACATAGCAGATAATTAATGTAATTGAAAGAGATTTGATTCCCAGATGT
TGATGCATCTGTGATCCCAAAGGCTTCCCTCGGGGAGTCATTCTCATTTGCAGTTAGAGACACAATGGAAGGACAGCCTCAAAGCAGGCAAACAGTGTCA
GTTAAATTCAGATGTCAAACCTGGGTTTTGGTGACAGCCCTGGAACTCTCACATCAGCTTCTGAATTTTGCAAATTATGATATTACCAAGACTGCTCAAC
AAAGGCTGGCATCTTAATAAAAGGCCATTCTTAATTGCTCTTCCTCCGTTACTCACTAGTGACAGAATACAACCTTCTTATAACAAAAGAAGTTTGCACT
GACTCCCATCCAGAGAAATCTAGGTAGAATAGGGGCTACAAAACAATGGTACTCAGGGCCAGGAATTTAGAAGTTAGATGAAAAGTTAAGACAAATACTA
AATACCTGCCAAAGGCCCCACTGTCTAATACCATCCCCTTTGAGATGACTATTTCAACATATGAATTTTGGGGGAATAAAGCAGTCAGATGATAGTACTA
TACAAAGCTTGAAAAGGTACAACACTTCGCCTTTTGAAACATCTATAACTAGAAGCCAAATAACAAAGGTCTTTGGGAGTTGATTAGGTCATGAGGGTGA
CACCTGCATGAATGGGATTAACAACTTCATTTTAAAAAAGGCCTGAGAGACAACCCTTGCCCTTTCCACCCTGTGAAGACACAAAAAGAAGGCATTGACT
ATGAAATGGAAACCCTCACCAAAAACTGAATTTGCCAGGGCCTTGAACTTGAACTTCCCAGCCTCCAGAACTGTGAGAAATAAATTTCTGTTGTTTAGAA
GCCACCCAGTTCATGGTATTTTGAATGTACAAAGAATACCGAATGTACTAAGACAGTATTGCACATAAATTACCAGGAGACACAGAAGAGTAGCTATAGA
ACATGCTTCATGCGACCAGATCTCAGCAATGAGATGTGCTGTGGAAGAACCATGSGTTTTGTTCTGCAGCTGGGATTTTCTTATGCTCTTCTTGCCTTTC
AGTGACTCTAGCTGGAGCTGTGGTCTTCTCCATTTTGAAGGAGACACCCTCGAAGGCTGCCTTTTGCCAGCTGAGATCTGACACTGATTTGTATAAATTG
AGAGGGGATTTAGTCTATTGTCCCAGAACTGAGGATGGAGTCCCTGAATGGCAAGCTTCAGATGAAAATACAGTCTGATGATTATCCATGTGTGCCCTGT
ACGCTGCCTTGAGAAATGCATCCTAATGATGATGGCTTCAAGTTAAGGTGGTCATCATAACACCAGGTAATTTTCATTTTGGCGTTTCACGGAACATCTA
CCTTTCCAGAGGACAGTTCTAAATTTTAATAGCTTCACGTTCTGGCTGATTAGCTGACAAATGAAGTTAAATAACCAGCTTTCACTCAGAGAGATGATGC
AGAAAGAAAGCTGCCCTCTGATATCCCCACTGATAATAATGTGAAGTGTGGAAGGCCTCAGATGTCTTTTCTGGATACCTATGTGTAATKTTCATCTATA
TTAATGGAACTCGTAAGCGCACCACGTGAATAAGAAAATGAATCTGTAGAAGGTAGTCCCTGTTGACTAGGCTGGTTTTGAATTTCAGAAAGTTGTGTAA
CGCTTCCATGAATTTTTCTTTATCTTGGAAAAACATTGCCATGCAATGTATTTTATAATTACTTTCAGAAATACAGCGTTTCTAATTGAGAAGTTTGTGA
ACGTGGCCTGAACATTCTAGCTCATGTGCGTAATTGATAGCAATGAATTATTTTACAAGGTAAAGATGTTTCCCCCTTGGCTCAATAACTATTAATATCA
AATGAAAGCACACACTGGCATCAGGGGGAACACAGCCTCCTCACCCTTCCAATTTCATTTCACATTACCTGCCAACTTCCAGGAAATCCTTTAGGCATCA
TTACACTTTTTCCCTAGGCCCCCTATCCTCCCTTAAGACCTCCACTCTGCTATACTAACCTGCACAGGGACAGGGAAATAACTCTAAGTGCATCTCTTTT
CTTTCCTAAGATATGTTGCTTAAATGTAAGGGAAAGCTACTTGGCAACTCTAACACACACACACACACTCACCCCAGAAATTCTCGGCTCTTCACAAGAG
TGTGTTTTCTCCTTATGGAAGAGTTGATGTGGTTCCATTTATAAAAATAGCAGCTATTTAAATGGGAAAAGCTTTTTCTCATATCATCTGTGGGCCAAAT
GTTTTTCTAAAAACATACATTCTCTTTTTCTAGCAGAGAAGACAAATTCTAAATGGATTCAAGGTTCATCAAATTGCTAAGTTTTCTTTGGGTTAATGCA
TTTGACAACCAAGTTCACAGAAGTGCCAAAATGAAAATAAGTAAATTAAGAACTGTTCTATCTAATTTCTTTATTAGAACACACATTTTTGTGTGTTTTT
CATGTGTRTGCATTATATTTATAAACTGATGTGATTAATATATAAACTGTGTTAATCTGCAATTATTTTTATTTCCTACATAGAATTTTATATGGTGATT
TTTAGGAAGTTGGAACACATAGTCCATATAAATTGTTTCTTAAGCTCTGCTTTCTCTACTTCAGGGAAGCAAAAAGAGAAGTTCATATCTCTTCTTTCCA
ATCCTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCATTCGTGTTGCCCAGGCTGGAGGGCAATGGCACAATCTCGGCTCACTGGCTAATTTTTGTATTTT
TAGTAGAGACACGGTTTCACCATGTTGGCCAGTCTGGTTTTGAACTCCTGACCTCATGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGG
CATGAGCCACCGTGCCTGGCCCTTTCCAATCCTTTTTAAGCTCATGTATTCATCACCACCTTCATAAGTTCCAATTTCTCTAGCTTATATTCAGCTGAAT
ATGACCTTGAAATTCAAAGATTCACTCTTTATCCAATGCAAGATTCTGTCTATCATGCATATTCACTGCTGTTTAAACATTTCCACTAGTGATGACATCA
GACTATGCAGGGGATGGGGTGGTGTAGGGGTTGTGGTAGGCAGGGCTTCTAAACCAGCAAGACTACCTTCATTCCTYTGGCCGTATTAAATACCTATAAG
AGCTAACGAAAGCATTGAGATTGCTATGGATGAATTGGTTCAAGATTAGTTCATTATCCCTGTCCGCCTCTAGCACCAAGGCTGCTCTAGGCTTTAAGCC
TCCCAGTGAAAGACTCTGGATCTCGACTGGTTTCCAAGGGTAGASAGAAAATTACAGGATACATTCTAATTATTAATATTACAGATGTTGTCCTTACATT
GAGACACATCTGCCTGGACAGTGGTCACCATCTGCTCCTCTGGAACTACATACAAAAATGGGTCCAATCCCTTAAATAAAATAGTTCTTCAAATATTTGG
AGACAGCTCTGTTCTGCTAATCTTAGCTTTTTCAGACTGAGTTGTATCAAATTCTCTAAGTATTATTGGTAGCATTTCTCAATGACAGTAGCAATTGCTT
ATGTTACCACAGCACTTTGGAGTTTCCAAAACACTTTCACAACTGTAGGTTCTTAATTTTATAAATGAGAAAACTGGGGCTCAGAGAGGATAAGTTACAT
TACCTTAATAATTGATTTAACAAGTACTAATGGAGTGTCTACTGTATGCTTGGCACAGCGCAAAATCCTAGGATATAGGAGATAATACATCAAGAATGGT
GCCCCCCTTCTAGCTCTTATGATCTAGTATGGGAGGAATACATTTTTAAAAATTACAGATGATACCCAGATAATACTCACACCTGGTTGGGACTTTAGCC
CAAGTCTTCTGTCTCTAAACCAAATTAACAGACCATTAACTTCAGTACAGCAGACACTGCACTTGGATTCATGAAACCCACTTAAGCTAGTCTTTCTGCA
ACTAGCTGTCCTGGTACAAGCTCTTCTTAAGATGTACCTTCTTCATTCCATAACTAAATGTGTGAGGAGTCTGTGCATGTGTGGTTAACTCAGAGGAGAA
CTCTACACTGATTTCTATAAAATTGTATTTTGCCATTTTCTTTCTACCTCTCTAAGTTGCCAACCTTCTTTTGAACTCTTATTTTATCATTTCTCACACA
TTAGATCTTCCTCTCAGTTTCTGTCCATCTGCAAGTTTTATGAAATTGTGTTCACCTATATCACTGACAAGAAAAAAAAAATGCCCACAAGTGCTTGGTG
TGAAAGAAAGAGCACACATTTGTCATTAGTCGCAGATTAGATTTCCTATTAGCTAAGTGACCTTGGGCAGATAACATCCTCTCCCAGAGCAACTGATTAC
TCATCTGTGAAATGAGGAAATCAGGCTGGAGAATTTCTGAGGGATTTCCCTGCATTAAAAGTTTTATAATTCAATATGTTTTAAAATGCGAGGCTGAGTT
TTAAAATTCTTTCCTTCTGAGTGTGGAGAGAAGAAAATGCAGAATATGTCTACTGATATTTACTGATAGGCATCACCTCCTGCTTCACTAAAGGAAGGAA
ATACATCAGCAAACATTGGTGCAAAATTCATACAACAGGGGCCACTTAAGCAGAATAGCTACCACACCTTTCCTTAATCAAAAACAATGGCTTCATGAAG
TCCCTGATAGTCCATTTGCTATCTATATATTTTTTATGTTTAGAAATCAACAGAGTAAATTGATTATAAATAACTAAGCCAAATAAATGATTAAAAATAG
TTCATAATTTGGAGTCTTCAGTGAGTCCTCTTTTTCTGCTCTGTGTAGGAAAATTATCTTTGATTCTATAAGTGGTAGCCTTCAAATGCTTCTTCCAAAC
ATTTGCCTAATAAAAGAGAATCCTTATTTTCTAACCTTAACAGAACGCCAGAAATTATTTTAGTCTTTGAACTTGAAGAATTTGTGGGATCTTCTTTCTT
AACATTGCTTCATTGCCACATAATGTATCTGTTTAATTCAGCCTTATTTGGGTTGCAATATGTGCTATAATTTATTCCTGTCGTTTTAAACTTACCAATT
AGAGTGAATTCAAATTTAATTAATAGAAAATTTCGCCCACATTTAACTAGAGATAAATGAGAAGTAATTATAGAAACCAAAGCTTTTCTAGCCTGAGAGA
AAAGAAAATAAAGAGAGCACCCAACCCAAGACATAATTAATCATCTCTTCTACATGGAAAGTCTGTCCTGATACTATAGTTTAAAGACAGACTGTCTAAA
ATGCATGTCTATGTAAAGGCATGTTGCAACTATTTTATTTTTCCATTCAGAGACGATTTGCTATTAATTATATGAAACCCCGTGGTGGCTTAATTAGCAG
GCAACAATGGATTGGCTTTTAGATTGTGCAGTTAGAAAATTCTGGCACTTTTCAGCTTTTAACTTTAAAGCTAGAATTTATTTTTGTCTTTGAACTTGAG
TTATTTGTGGGTTCTTCTTTTTTAATATTGCTTCATTGTCACATAATGTATATGTGACATAACATAACTATAGCCAAATTTTCTCTGGTCTAGGAAGCCT
CCCCAATGTCCTCCTGAACACAATAATTCATGTCTTATTTCAACAATGCCTTTTCTTTCCTGTGAATGTGAATGGCTGTTGTATTTGAATATATTACTTA
TGTATTTTATTGAAATGTATCAAGAGCAGACAGAAAATAACATCTGTTTGACAACATTGTTTTATACATGTATATGGGCTGGAAAGGTGGTACAAGTACT
TAACTTGAGAGTTTGTCTAAACTCTCAAATTTAAGAGAAAAATTTTAATCCCTCTCCTTTAAAGTATGTATATTTTTATTTCAAAAATCATTAAAATGTG
TTTCAAAAAAAAGGAATCTAAAACCAAGTATGCAGAATCCCTAGAATTCCACACAACTCAAGTTGAAAAAACTTCGGAAAGTTTTACCTAAAAATGTTTT
CAGCCCATTTCCTGAATTCATAGATCAGAAAATCAGGCTGTAATTTATCTATGGGCCAGATTAATATTCAATATTACAACAACCCTGATTGAGTAAGCAT
CCAGATGTGTATTTGCCTGAAGTCTAAAATTTACTACAAGTATAATTTTATTGAAGCTGTCAATGCCATATTTAAAGTGTTCATTTTAGTTGTGTGCACA
GACTTACTACTCAACAAAATTGGGCCACATGAGTGATAATAATCTACTAATGCTTTAATCCTGATTTTTAGCCTAGCCATAATGAGGAGAAATCTTTTCT
CAGGTCAATACTTGGGTGGGGGGGCATTTTTCACATTGACGATTAAAGCCTTGTAACATGTTAAATTAACCTTTCATCATGTGTCTCATTAGCCTCAATG
TATTTGCCAAAGCTTTCTTCTACTCTCTTTGTGGATGTAGAGATAGAATGCTACCACACTGCTAATGAAATACGGTGCCAAGTGGAGCTAACACTGTAGG
GGCTTGAATCTTTCCATGGGAAAGAATATGAAGATCCATGCTGATTTGCACCAAACATCCTTCTGCACTACAGCCCCCATGCTAAGATATTTAAGCATTA
AGCATCCTCTACAATATCTTAGATCAATTAACTCAACATTGATTTTACTAGATTGAAAATATTCACACAGTTTTAATTTAATTTAGTATAGTTTAATATA
ATTTAATATAGTTTAATATAATTTTAAATCTGTGTGTTTTGTTTGTTTAATATAGTTTTAAATCTGTGCATTTTGTTACTATTTGTTGTATATTTCCTCA
ATAAGTTAGTTCCTTGATAGTTCTATGTCATTCTTTGATTTAAATAATGTTCCTAGAACACTGCAGTAGATATTTGAGTACTATYGATTAGGTTGTTTAK
AAATGCAGTGTGTTCTGTCCATTTGCTCCAAATTAACAATTTTTTGAAAAGCATCAGGTTTAGTATCTTACTATTATGCTAACCCATTTTAGCTTTTGTA
GTTTCTTACTTGGTATTTTTCACTATGCACTTTAACAGGAATTACTCATTGATATATAATTGACATTTCTTTCTTGTTCTGTAGTTACAGAAATGTCATA
CAAGAAAAGAAAACAATTAGATGACTGTTTTGTCTTATTAATAATTTAAGTACTTTCAACCCTGAGCTGAGATAATAGGACTAATACTAGTATTTCAGGC
TATTCTTTTTTAGTGCAATATTTATTTTATTAATCATTAAATGAAATTTAACCTGTCATTCATTATCCAAATGTTTGTTTTAATGAATCCCACTTATAAA
ACAGTATTTAATATTTCAGTTAAAATGTTTGTGTTTTGTAGTCTCACTAATATATACAATAAYGAGGTAAAGATAAAAATATATAGCAAACATGAGGGAA
TTACTAACAGCATTAATGTAACAGCACACATTAGCCCACAATGAATGGTTTGTACAAAAATTACAGTTAGACCCAAACAATTCATAAGTGATTCTTCCGT
TATGAATGCAGGAAAATCCACAGGAATAAAATCTTGATATAAATGTACTTAAAAAAAGACTTTTATGTTTTTACAGCACTCTTAGATGCTCAGAAAAAGT
GAGATGAAGGCACAGAGATTCCCCTTATGCCCCTTGCCCCCACATGCAGAGTCTCTCCTGTTACCAACATCCCCCACCAGAGTGGTGCATTTGTGACAAT
TGATGAACCTACATGACGCATCATTAGCACCCAAAGTCCATCATTTACATTAGGGTTTATCCTTGGTGTTATACATTCTGTGGGTTTGGACAAATATATG
ATGACATGTATCCATGATTATAGTATCATACAGAGTATTTTCACTGCCCTAAAAATCTTCTGTGCTCTGCCTGTTCATTCTTTTCCCCACCCCAGTTCCT
GGCAACCACTGATCTTTTTACTGTTTCCATTGTTTTGCCTTTTACAGTATGTCATGCAGTTGGAATCATGTGGTATGTAGGCTTTTAAGATTGGCTCCTT
TCACTTAGTAATACACACGTAAGTTTATTCCATGTCTGTTCATGGATTGATAGCTCATTTCCTTTTAGAGATGAATAAYACTTCATTGCCTGGATGTTCC
ACAGTTTACCTATCCATTTGCCTACTGAAGGCCATCTTGGTTGCTTTCAAGTTTTGGCAAATTATGAATGCAGCTGCCATAGATATTTGCATGCAGGTTT
TCGTGTAGACAGAAGTTTTTAGCATTTTAGGGTACATATCAAGGAGTATGACTGGTGGATCATGTAGTAAGACAATGTTTAGTTGTTATGAGAAACCATC
AAACTGTCTTCTAAAGTGGTTGTACCATTTTTTTTTTATTCCCACCAGCAGTGAATGAGAGTTTCTGTTGTCTAATACTTTCTTGTCAGTATTTGATTGT
GTAAGTTTTCTGGATTTGAGCATTCCAAATAGGCGTGCAGTGGTTGTTTTGATGTGCATTTCCCTGATGACATATAATGTGGAACATCTTTTCATATGTT
TATGTGCCATCTGTATATCTTCTTTGGCAACTTATCTGTTAAGGTCTTTGGTCCATTTTTAAATCAACTTGCATTGTTTTTTATTACTGGGCTTTAAGAG
ATATTTGTATATTTAAAATCAGATATTTCTATTGCAAAAAAAACCTTCCTCYCAGTCTGTGGYTTCTCTTCACATAATGTTGACAGTCATTTGCAAAGCA
GAAATTTTTAATTTTAGTGAAGTCCAGTTTATTAATTATTTCTTCCCTGAATCATGCCTTTGGTGTCATATATGAAAGTCATAGCACAACCTAAGTTCAT
CTAGATTTTCTCATAGGTTACCTTCTAGGATTTTTATAATTTTGCATTTTACATTTATTTACGTGATCCATTTTAAGTTAATGTTATGAAGGACGTATGA
TCTATGTTTGGATTTATGTTTTGCATGTGGACGTTCCAGTTGTCCCAGTACCGTTAGTTGAAAAGACTACTTTTTCTTTATTGTATTGCTTTTGTTCCTT
TGTCAAAGGTCAGTTGACTGTATTTATGTGGGTCTATTTCTTTGCTCTTTCCTGTGCTCCATTGATCTATCTGTCTATTCCTTCACCAATACTTCACTGT
CTTGGTTATGGTAACTGTATAGTGAGTCTTGAGGTTGGGTAGTGCTAGTCCTCTCACTCTTTTTCTCCTTCAATATTGTGGTGGATATTCTTGGACCTTT
GCCTCTCCGTGTAAACTTTAGTATCAGTGTGTCAAAATCCACCAACTAAGTCACTGGGATTTTGATTGGGATTGAATTGAATCTATAGATCAAGTTGGAA
ATAACTGATATKCTGACAATATTGAGTCTTCCTACCCATGAAGATGGAGTATCTCTTCATTCATTTGGTTCTTCTTTGATTTTTCCATTAGAGCCTTACA
GTTCTCCTCATATGGACCTTGAACATGTTTTGTTAGTAAATGTACTTTTAAACATATTTTCTTCCCACTGTTTTATGTGGACATTCATCAAGCTTTTTTT
TTGCTTGATTCAGTCTTTTCAGAGTATGATTTTAAGGTATGTATTATTTTTAAAATAATAGATATTTTATCTTATGTACAGTTAGAGATTTCCCTGTTGA
CACTAAAATATTTACATGTTGTTGATTTTTATGTTTTGCTTTTATGTTCGTTTTAGAAACAATAATGCCTACTCTAAATTATGAAAACAATGAAATACAA
ATATGGGCATCAAAGAGGAAAATGAAGAAGCTATTTCAAGCTGTCAAGAATATACTCTTAGCTCTGTATTCAAAAGTACTTCATTTGTATAAAAAAATTA
AATTCAAATCCACACTTTAAAATTTTTAAAAAAGTAATTGTTTCTCTCAAAATACGTATGGTCAAATGACCATTTTTTTCCTTCTGTGTAGTTGCTTATT
TTAGAGAGCTTTGTCCCAACAGGGTAGCAGAGAGATAATGATTCTACTATTGTCTTTAAATTCTTACCCGCTTCTCTGCCAGTCATCGAACTACTCCCTC
TACTCCAAAACTTGGTCTGCTCTGCTCTAAATCAATGAGATATTGCTATCTGTCTGATGCAGGTTACATTCCAGTATCTTATCTTTCCCAGTTTGTATTG
CAATAATATTGGGGTAAAATATTGCATGGGTTTACAAAAGGGATTCAGTAAAATACAAGCACACATTTAGAGCTTGTTCTTGGATTTGATTTGCATTGTC
AGTTTGGTGCCTTCAGGAGTCATTTCACATTCTTTGCTTCCACATATCAGCTTTTAGTAAAGCTTTGCTCTATATCGGTAGCTTTCAACCTGTGCTGCAC
TTCTGAAACCCTAGGGAGCTTTTAAAAAAAGAATGATCTCGTATCACACCAGACCAATTAAATCAGAATCTCTGGAGGCTGGCACTCTGGCATCAGTACT
TAAAACAGCTCCCCAGGAGATTCTCAAAGGCAGCGATGGTGACAAACCACAGCTCTGTACAATAGAACAGGCTGCTCCTTTATAATTATTAATCATAGTG
TATATTAATTCATCATCACATACGTGGCTAGAAAAAAATTTAGAACAAAAAGATATGTGATATGTRAAGGCCTACGATAATTCAGACTTCTTTGAGGAGA
GCTTTTATTTTATTGTTATTCTTATTTTATCTCTTGTCAATATAAATTGAGAGAATAAACAGACAAACATTACAAATTAGTGATTAATTGCATTTAAAGC
CTAGTTAAGACTATTTAAGACTATTATGCATAATACAGGAAAACTACCTKTATTATTTATAGTGGGTGCCTTCTGAAGGATCTGAAGGAGAATCAGTTCT
ATGCCTCTCTCCTCATTCCCAGGAGGTGCCTGGCATTCCTTGGCTTGTAGACGCATCACCCTAATCTCTACCTCTGCCTTCACATGGTGTCCCCTGTGTG
TGTGTTTTTGCCCCATGTGTCTCCTCTTTTTATATGGATGCCAGTCATGAGATTTAGGCCCACCCTAAACTACTATGACCTTATTTAAAGTAAACTTAAC
TAATTACATCTGCAAAGACCACAYTTCCACATAAAGTCATATTCAGAGTTCCAGGTAGACATGGATTTTTGGAGGACACTCTTCAGCCCAGTACTGCACT
CATATTACTCAACTTCTCCACTGCTTTTGATGCTGTTCAACACTCTTCTGAGAACTCCTTCCTCCCATATCTTCTGTGTCTATTTTGCCTGTTTTGCYCC
CTTCTGTCATAATGCCCCTAACAACATATTGCAAGAGTCTGCTAAATAAATATCTGCTTCCTCTTATTGTCTGTGCAATCCTGGAGGGCAGGGAGTTGAC
TTATTCAGGTCTCTATGTGAACACCAACCAATTTTTAGCTCATGGAAGCCCGTAGTAAGAATTGGAAAAAAGGAAGAGAGGAAGAAAAAGAGAAGGTTGT
GACTTCTGCCTCCATGGACATCATGAGGAAACACACACGTGCCTTGACTTGATGGAMCTATRCAATTCATTTTTTAAAATATTGGCATTTCATACTCACA
TCAAATATCTTGCACCTGMATGATATCATTCCAGCTAGTACAGTTTCTGGTTATAAAATTGTAGATGAGGATTAATGATTATTAAGCCCGGTTTTCCAAA
TTATTGAGGCTCACAATTTTGAGAAGTGTGATTTCCATAGATTTGTTTAAGAAGTAAAAGGCTGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCAC
TTTGGGAGGCCMAGGTGGGCAGATCACCTGAGGTCAGGRGTTTGAGACCAGCCTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAGTACAAAAATTAG
CTGGGTATGGTGGCAGGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGGCAGGAGAAGCTTGAACCCAGGTAGCAGAGGTTGCAGTGAGCCGAGATCG
CACCACTGTACTCCAGCCTGGGCGACAAAAGCGAGACTCCGTCTCAAAATAAATAAATAAATAAATAAATAAAATAATAATAATAATAATAAATAAAAGG
CTTCTATATGCACAGAGGATTTGTTTCACATATTGATTCTCTTATGTGGTCTTCATTTCACAACTGTATGAATCTGTAGCATGAAATACATATTTGGCAA
GTAAAGATTCTATAAAGGAAAGAGTAGGAAGGTATAACGAACCAATTCTGAGATTTCCCTAAGCAATCAGTTCACCTGCTTGCCTCCATGGAGGCCATCA
TTGTCTTCTAGCACAATTTGTGAGAGACAGCAAGGCATCTTTTTACCACTATTAACCTAATCTATGGCAGTGTTCCCAGGGACCAATGTTGTCAGTTGTA
GAGTAATGCCATTTAGAGGCTGGATGGGTTTACAGTTGCAGCCAAGCAAGGGTCTGCATTGAATTGACCCAAACAGGGAATTTTCAAGTAATTTCTCTAT
CTTTGTATGTGTGAGTTTTTTAGTAGTCMATTCAATTTTCATTAGCTTGTCAACTCTAATATCTGACAACTGAAATATAAAGTAGGGAGGAGAAAGAGCA
GAATTAAGAGAAGGAATATATGTGCCAGAGGCAGAGTATTATCATTGTCCTGATGTAGTCATGATGACCTAAGTCATCCTTTGATATTGCTTTCATATAA
AGGTTGTAGAATATATGAACCAAATCAAAATGGGACARGGAGAGCTSCTTGCTCACAAAATGCCTCTGATCTATTGTGTGCATAAAGCATGACTTTATGA
CAAACACATAGAGACTCTAGATGGGGGAAGTTACAGTCCTTGAGTGATTTTCGTATTCAACCCAGTGGGATCACTATCATTTAGTGGTATATTAAAATGC
TAATTCTCATCCAAGGTCAAATTCAACTCCATACAAGCTGTTTTAAAATTCAGAATTGGTTGCTTTATGAAAAGTAMATTTGAGACTATTTGGAAATAAA
GACTATTTGAAAATTTTCYGGCTTCCTTAACTTCAGTACCTCTTGCCATTGTGTCACAGCTTGGGTGTGGTGGGGGAGGTGCAATCTTCTGGGTAGAGAC
CAGRAATCCCACTAAGCCTAYATCGTATGGGATAGCCCTATGACAAAGAATGACATGGCCCAAAAGGCCAATCATGCCAAGCTTGAGAAACTGCTCAGAA
TAAGCAGGGAGAGTGAAGAAACAAGCTGATGCTCAAACTAGTGAATCTCATTTTGTTGTTAATCGCCCCTTTTCTGCAACACTTGTGGGTTAGGGAAAAT
AATTCTAAAGCAAGAGCAAAGACAGAGTTGGGAGATCACCAGTGAGGTTCAATTTTCCRTCACATTCACTCTGCTCCACACCTCAGATAATCATGTGCTT
AACTGCGMAACTTGCTTGACAATTACAGAACACTTTCTCACCCATTACTACCTTGATCCTCACAATTCTGTGGGGTAGTAGGAGCAGATGCTGAAATTGC
CATACGCAAATCAGTGAACTGAAGCTTAGAGACCTCCAGCAGGGGCAGAGGGTCAGCGGAAACTATCCCAGGGTTCAGCCAACAAGAAAGTATATTGGAA
TCAGAGTATTAAAATAAGAATAATAAAACCAACTAAAATTTACCGTGCTTTTTATTTCCACTCAGTGCCAACAATTCTTAACAGTGTCAGTGATGGATCC
CTGTGCCCCAGGGGACAGACTTCTTACTAGCTTCTGCCACTTTGGTCAGCTGCTGTTCTGGGGAGGTTAACTTTCTTACTTCAAATTCACACTAGAGAGG
AAAAGGAAATGCATACATATAGGACCAAATTTCACTCCTGATGTCTCCACACACAAAGCTCCTTCACCATGCCAGTCTCAATCTGCTGCTCTGGGGAGGT
TAAGTTTTGTTTGTTTGTTTGTTTGTTTTTTGAGACAGAGTTTCATTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCC
GCCTCCCAGGTTCAAGCCATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGATTACGGGTGTGCATCACCACACCTGGCTAGTTTTTGTATTTTCACTAGA
GATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTTACTCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAG
TCACCATGCCCAGCCAGGAAGTTAAGTTTCTTACCTCAAATTAACGCTAGAGAGGAAAAGGAAATGCATAAATACAGGACCAAATTTCACTCCTGATGTC
TCCACACACAAAGTTCCTTCACTATGCCTGTCTCAATCTTGTCATTAAAGTGGTATTTCCTTATTAGGAAAAAAAGAACTAGGTCCTTAAAATACTGTTC
ATTCCATCCCATGGGTTGAGTACATTACATATTGACAGTGGTACATTCCAGCCACCTGAGACAACCAATCTTATGCCAATCAGTGCTACAGAGAGCACCC
CTTGCCTTACAGCTGGCCTAACCACAGCTGGGGATGACTGACTGGAGAATGTTGTGATCTTTGACTTTGTCACAGGTAAAATGGTGTTTCTAACTGTAAT
CACAGGTCTCTGTGCTGTGCCTTTCACTTCATCACACTCTATTCTCTCTAATTCCAACCCTGCCAAACTCATTAGGCCAAATTTGCTTACTTCTGTGCAT
TCTACACACTTCCAACAAACCCTATGTTTGCCTTTCCTTGTGATGATAAAGAGAAATGGCAGTTAGTGGTCTGAAAGATGGCGTCTGACCTTTTTATGAT
GGGGCTGAAGGCTGGATGCTGGAGGCAGGGTGTGTGTTTGGTGCAGCACTGATATTCCCTATGGCAGTGTCAGAGCCTGCCTAAATACAACCTACTGACT
AGCATGAAAATATTCCTCTGGGCAAGAGGGAAAAATGTGACACCATGGGAGGTAGGATTTGACATGATACGGATTTGGAAAAATGAAATGTGACAATTGC
TAATTCCATACAGTTCAAGGAAAACTGGCCTATTTCAGGTTCCCAGCAGGTATTTAATACTGAAGTGTAAAGAAAGRTGGCAAACTTACAATTATTTTGA
TTGAACTATGGTTATCTCCATTCAACTAAGGGAGCATTTGCAGCAATGCCGATGGGCCAGCTATTTTGGTTTTGCCATATTGTTTCATTTCTTGACCCAC
GTTACATAATCACTCAGACCAACAACAACTGACTGAATTGTTATTATATTTATATGTATTACCTAAGTATATATTTCCTGTTAGTCTTTCAATGGATAGC
TCAAAGCAGATAGAGTGAGAAGGACAATTATGCCTTTGCTTGATTTACTTGAATATAATGCCCCTGACAAAGGTATTTTTGATATAATAAATGTGTGAGT
TTCTTGTTTAGAATCTTAAACTCGGTCCGAAGGTTGGGATTTTGCACAATGGGGTTAGAAGAATTCACTGAAACACTTATCCAGCTGAAGGCATATATTG
CCAATTTCATATTTGTGTCTTGCTATTTCAAAATATTGCATTGCCAGGCAAGATTTACTGCAGCATTCTGTAGCTTAACCCTCTTTCACATAGGCACACA
TCCCTCCAAGCTTTTCCAAAGCATGTTTAACAGTGCTACTAGAAATCAGACAAAATGCTCCTACCATTTGGATTTTGGCTTTACCAAGTTTATTAAGTCT
CTATCAATGGAGCAGGCTACTCACGGCACAGCACAGTACCTCACATGGTTGCTACACAGATCATCAACCTATACTGTTTAGTATTCAGATATCAAAATCA
GCAGAATCAAAAAGGGCTGGAGTTAGCTGGTTCCTGTCCAATTCTAACTCCCTGGCGGCCTCTCTCTTAGGGACTCTTGTGTTGGTTTGTGTTCCCAGAG
ATGGGAGCCTTTAATTGTGATTTTAAGCCATTAGATTATGAACTGAATAATGGCAGAGAAATGCCTACCCAACTGCCATTAGTGAGGACAAGCGTTGTTT
TCTTGATAAATTGTAATGTTTAATTTTTTAATTGACAAATCATAATTGTATATATTCATGGAGTACATAGTGATGTTTTTATATATAGTGTACAGTGATC
AGATCAAGGTAATTAGCCTAGCCATCATCTCTAACATTTATTATTTCTTCGTGTAGGGAACATTCAAATCCTCCTTGGTGCTCTTTGAAACTATATATTA
TTGTTAACTATAGTCATTGCTGCTAACTTGACCAAGAAACCTAAATAAGCATTTGTCTATAGTCGACCTTTCTGCATGCCTCAGAACAGTAGAAGGGGAC
TTGCTGACAGAGACCCACAGTCACGTGGGGTCCAAGTTTTGAACTTTCCCCTGACTGGCCAAGTGACAGGCAGCAGTCACTGTGGTCTTTAAAATACCCC
AAAATACAACATAGATTGTGGTATAACTTTCTCATCTGAGTTTTCCAACTAGCAAGAAAATCTCTAWSTATGTGTGTCATTATGTCTCATTTTTCCTCAT
TTTTAGGCAGTATATAAGTTAAAGAATCTGGTTTGTGTTTTCTCCTGCATATTCTGTGATTTATTTGAAGGTTCGCAAATTATATAAAGCTAAAAGTTAT
TTTTACATGTAAACTACATAGAATCACATAGCATTATTTTGTTGTTTTACTATGACAAATGTCTCTAATTTAAGGCATTGGGCCTTATAACCTTTGTTAG
TAAATGGAATTGGAGAAGAAGTGTGCCTAATTAATATTTTGGTTTGAAAAGTAAGATTACTGTATTAGAATTTTATCCAAGGATTAAATTTTTAATAGGG
KATTTAGGTGAAGTAATACTTTTTTTTTCATCCTTCAAGAGAGTAATTAATTCTACAAAATATTAAGCCTGCTGACTTTGAATATTTTTAAATGCTTTAG
ATTTATTAGACAAATGCTCATTGTCTACCTGTTGTAGGCTACTCTAGGACTTACATTCCAGTGGAAGAAGACAGATCATAAACAAATAAGTTTCAAAAAT
CAGTGGGTATTGGGAAGAGAAAAATAAAGTAATGGAAGCAAGACGGGGAATACCAGGGAGGCTGGAAGGAATTAAAGAAAATACTATATCAGGTGATCAG
CATGCAATAGATGCTCAGTAAGCACTTGTTACCATTTGAATGAGTACATGGATGGATGAGGTGGTTGGTTAAGGCAATTTCAGAGTATCACATGCCAAAA
GCAGTTTAAGGGATGGGGAGCCACTGACGGCTTTTGATCAAGGGAACAGCATGAACAGTTCTTTGAGCACGTGAAACACTGGAAAGCCATTTTCAAAGTG
CACTTTATGCTTACTTTWCATCGATTTTGTTGCCACTTTAACTCTCCCTGCGACAGTCTTTGTGACTCTGAAAATTATCATGTGAATAGGCATCATTTAA
CAATAGGTATTGATAGGGTGAATATTAAGTCACCAAATAAGTGAAGGTCTTAGACAAAAGCCTTTTTAATAGAGGGTGAAAGCTAGACAGGAAGCAGTGA
ACGTAGAGTAAGCCCCAAATAGATATATTTTATTTCCCAGACTCTAGGAACTGAAATGCTTTCAAAGAATCTGATAGGAATAGTCTTGCCTTTCATTCTC
ACGTACTGGTTCATATTTCACTCAGGTTTGTTTCCATCAAAAATAGTTCCATCTAAGGATACTTTGTTACCCTATGTTGTATGAAAAAGTGGATTTTCTC
TTTAGTTGCTAGTACTGTATTCTGTGCGGAAAAGACCATTGGAGTCACCCCTATTTTTTGCAGGCTCARGGGTTGGTATTAGATGAAGAAACACAAGATT
TCTCTGTCAGTTGGGAAATCCTTTTTCYTCTTAGGAGTTTATTAGGTTTTTTAGCTGCCACTAAGTTTAGCTTATAAGAAGAGAGGGAAACAGCCTCTGA
AACTTCCAGGCTGATCCTTTCATTTATCTAAATTCCATTTCTACCTCTGCAGAAAAGGGCTAGATAACAAATCTGATCCTCTTTTCTCTACAGTAATAGC
TCCCACCCAAAGACTATTATAAGGCTAAATAGGACAGGATCTTAAGGACTGAGAAGTGCCATAGAGARCATTGCCTCCTCCCTCTTAATTTTACAGCTGA
GCAAACTGAAGCCCAAAAGATTAAGTTATTTTCCCAGGAGTCACATCAGTAAGAAGGTCATATGTAAAATTAAAATAGGTGAGACAGTTATTCATTGAAT
GATGTGAACCTGTCTTTCCAACCTAGGGATCAGATGTTAAGAATCGTAACAATGGGTCGGAAGGGTAATGGGCACTCAGAGAATCTGTATGAATCCCAGG
CAACCAAGCTACTATGGGAGAGAAGAGAAATAGCCCAGCCAGATACAGTCTGCATGGGCTGCACCACTGGCCCCACCTCCGCTAACTGCTTATTGCCCAC
TGATGCRTTATGATCTTTAGCCATCCTGATCACTCTTGGATTCATCACTGCATTCTCTACTCCATCCCAGGTTCCCTAATACATGTACATATATATGTGC
CTCACCCCCTCAAGATTCAGACTCCCAGTTGAGAGCATCTCATTGGCCACATGACATCATCTACGGTTCCCTAATTGCTGGGGTTAGTGGAAGGGGACAG
AAAAGTTAGGGATAGGCTCTTACCTCTCACCTGTCTTGTGACTCTACCCAAATCAACGTGTGTTTGGATGCAGAATTGTCAAAATGACAATACTCACGAT
AACTCTGTGCAGTAGTAGCTCTGTTCTGCACTTGACTCAGAAAGCAGTCATAGTCAGAGCTCTGGCATGCTCTAAACCAAGATTTGGTTGGAAATTTGAT
CTCTCATGGAAAAGGTGCTTTTGTTATTGTTGTTTTCTCATGGAAGAAGCAACCAAACATCTGTTGAATCTTTAAGTCAGATTGTCTCAAAGCATGTTGG
AAACAACACCTACATCAGAATCATCTAGGGTGCTTATTAGAGCAGATACCTCATCCCTCAACCCAGAACTGCTGATTTGAAATTCATGGGGCCCAGATAC
AAATGCACACTGAATTGTGAGGACTGCTGATCTATACTCAGTCACTACATATGTTCCTGTAGGATGTTACATCCTTTCATGGACTTTTTCGATTTSTTGC
CAACCACATAGAGAACTAGAAAGTTAGGTCAAGAAATAAGAGAAARTATTAGGTTTAGATTTCTGGGTGCCAAGCAAGCCCTGCAATTATTTAGTTATTG
TGTCTTTATGGTTACTGTATCTTTATTGTTACTAGGTCCACATAGTTACCATGTTATGCTCTACAAGGGCAGAAGAGTAAAATATATTAAGCTACTAGCA
AGTGCTCATCATACTCACACTGAAGGAATTTGCTAGCAAAAGCCATATTTGCATTCTAACTTGGTGCAGTGATTTACAAAGTGTGGTCCCTAGACAAACA
GCATCAGCATCACCTGGGAACTTGTTAGAAATGCAAACTCGCTCCTACTCTGTCCCCAGACTTACATTTTAACTAGCTTTCTGGGTGATTCTGATGCATG
CTAAAGTTAGAACTGCTGCTCTCAGCTTCCATTTCCTTGTCTGAATAAAACAATGATAATTGATCCTTCATAGTTTTTCTTTAGATTATTTTCTGTTGTC
ATTATAAAACTAAGATAATGTACAAAAAGGCACTTAGTTCAAGGTAAGTGTTCAATAAATAGTAAGCATATTATTGAGCTTATATTTAATTTACAAACAC
TGCTCTTATTTTCTAATTGTTTAACTTCAAGAGAATCCACAGGTTGCCTACAATATAAGCAGTCATGTTAGATGTTTTATATATATAAGTTCTAAATGGG
ATGCAGAAGTTCTAAAATTGTGATACTTAACCAGGAAAATGGCAGATTTTTATTCTTCCATTTTAGAAATTAGGACCAGGCTACTTACTTTTCTACTGTC
ATTTAAATCCACTTTAAGGTATTCACAATGACTTTAACATGACATTAATAAGCTTAGTGGGTCTTTGAATTTCTTAATCCCAGTTTCCTGGGGCTAAATA
CAATAATCTGTATCTCTTCATCTTTGACACGCTGATAAAAATCCCTGAACCTGGATTTGCATTTGGTTTTCAAAATCAATCATTTTGCTATTCAAAGGCA
AGGCAATTGAGTGAGGTTTGAGATTGAAATACATATCAACCCCACTAGAGGGTGACCTTTATCTAAATCAGGGTGCATATAAAGTAAGGGCATCTTCTGT
AGCCATCTCATAAAATTGGATTGTATAACTGTTTACTCAAGGTGAAGGAGAGGCTGAGAAGTGATTCTTACATGAATAATTAATAACTTTCAATTTCTAA
ATAATCTATTAGTCTTGTGGGAATATTTAAAACCAAGCTATTGCAAATTTCTCAGTTTGTATTTTAGGATAAAATTCCTTATTAATAAATTCAGCTCTGA
ATTTTAAAATTATCTGCTTCAATTCCAATTCAAAATATATTCCCCCCTTTTCTCCCAAAAGACACACACAACTAAACATATGAGAAAATAGAACCCCAAA
TTTGTTTCATAAAAACAAGCAAACAAAAGGCTATAGGACTTTGTTAAGTTTTATATGGTGATTTAGAAATAAGACAAACATATTCTCTAGATACCAAAGG
AGAAAAAGAAAATCCAAATGTTCACATAGTAATTAGAGAGCTCAGTTTAGGTCAACCTTAAGAAATTAATGTTGAACACCATATTTGGTTTATCTTTTAT
AGTTCAGATTTAGAAAGTAAAACATTTGTGTTATAACTCCTCTGCTAAAATCTCTCGGTTTGATATCAGAGTTCAATGTTATTCTTAAAACCACCTCAAT
AAATATTTTTTTGTAGTACTTAAAATTTCAACTCAAAATTTGCAACACTATGAATACAAGTAATATTTATGTATTCTGAGCACTTTTTATACTAACTTAA
TTTTTTAAAATTTGATCTTTAATAATTATTGACAGAAAAAATCTGGGCTCAGGATAGTGCCAATTGTATGAAAATATGTAGATTCAACTGTTATTTGCTT
CTTTTCTAGGACAGTTTTTTGTTTGTTTGTTTGTTTGTTTTTTGTTTTTTTGKTGGTGGAGGAAGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTG
GCACGATCTCAGCTCATGGCAACCTCCGCCTCCTGGATTCAAGCAGTTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGGCATGTGCCACCGCAC
CCGGCTAATTTTTGTATTTTTAGYAGAGACGGGGTTTCACCATGTTGGCCAGGATGATCTCAATCTCCTGACCTCGTGATCCGCCCACCTCAGCCTCCCA
AAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCTTTAAGACTATTTTAAAGAGTGTTTCTAGAACACTGAATGGTTATCTTACAAATAAAAAAAA
CAACTAAACTCATGCAAAACAAGACTACGGCAATTAAACTTGGATTCTCAGGTACAAATGACTTTCATTTTTATCTACCTCTACAAGCCAGAAAAATAGC
ATATTATAAAAATGCATTTCTATTAAAACACAAAGAAAGGTTTTATGTGGCATGAATTAGTCTAAAATAAATTTTTAACTTTAATCTAAGTTCATAAGGA
GATATTAACTTTGGAAAAAGGTAAGTCTTTGAAGGATGGGTGGCTTTATCATTATTGTATTTTTGAAGGAAGGTTGCAGTCTGAATTGAAACCTTTCTTC
CAAGAAAATTCAGCCTGCTGTGCTCTCGTACTAAAATAGTATCTGTAACAATGGCATATGATTTTTATATAGAATTGGGAAGAGCTACACTAATAACTTT
TACAATCTCTCTTGTTCATGTATTATTTACCTGAGAATAGCTACTCCTGTCTTTAAGATTAGGTACTTTTTCCATTAATTAAAAAACTCCCATTTTAAAA
CTATAGAAGACGTTCTTGAAAAGTGTATGTGGGTTGAGAATAAGCATATACTCTTATCACTAACCCAGCCTAAAGCTGACATGGGGCTAAACTTTCCTTT
GCAAATTAGAGTTGAAAGAGAAAAAATGCAATTCAATTACTTCATGAGGAAGCCACTCAGACTTTCCCACCAGTTGCAGACTAATCAGATGACAAATATG
CCTAATTGTTTGTCAACTGATAAGATATGACAGTCCTGTCCATGTGGAGAACAGCAATTCAGGCAGTTTCTTCAATTCTCTCTCCAGTTTGAGATCAAAT
TACCCCAATTTTTCTGAATTCCTTGAAAATTTGATCTGATTTATTTTTAGCCAACTCTTTTGATCATTATTTTTTATTTACTCATTTTTTTTGGAAGAGA
CGGGGTATTACTCTGTCACCTGGAGTGCAGCGGTGTGATCATACCTCACTGCAAACTGAAACTCCGAGGTGCAAGCAATCCTCCTGATTCAGCCTCCCAA
AGTGCTGGGATTACAGGCRTGAAACACCATGCCTCGCCTCTGGTTCTTCATGTGTAACGTAAAGTTTAAGAGGCAATTGACAGACATAAAGAAAATTGGG
AAAGAATATACAAGGATTAAGAGGGTGGGTAGTGTGAAGTGAGAATTATTTTATTCTTATGTTATGCATCTTTGTGAAAAAACGTAGCTAACGTGAGCTA
TTCTAAGTATTTCTAGAATGTCTTCTCTGCATTCTTTTGAACTAAACTCAAAAGTAATTTTAACCCAAAGTTTGATATTTCCAGACATTGTTATGATTAC
TATATCACATATAGTAATGTTTCTGTAGTATTTGTTTGTATAAGTTTATATGTACATACTTAGATATTTACTCCTTCCTGTTTTCTTSCAACAATGTTGA
TATGCCGTATAAGTTCTTAGGCAAAAAGATATGWCATTTAACTTCCATTTCTGTTAGGAAGTGTATTCTACTTAGCATTTTAACCCTAGTTTACAGTTAA
ATGAGAACCGAGAACTGATTTTTTCTCCAAGTTTAATAACTGTCATCTTCCTCTTCATCATTATTATGAGTATTTTGGATTTTCAGATTCTCCATTTATA
GAATGGAAATCACAGGAACTGTTCAACTATTTTTGTTAAGAAATTATTATTATTTTTTTCTTTTTGTTATGGAGTCTTACTTCGTCACCCAGGCTGGGGT
GCAGTGGTGTGATCTCGGGTCACTGCAATCTCCGCCTCCCAGGTTCAAGCAATTCTCCCGCCTCAGCCTCCTAAGTAGCTGGGACTACAGGTGCATGCCA
CTACGCTCGGCTGAGTTTTGTATTTTTAGTAAAGATGAGGTTGCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGCGATCCACCTGCTTCA
CCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCCATTTGTTATTGTTAAAATGAAGGTATACTCTAGTGATATGGCTTAAACACATT
AGAAACACTGACAAAGATAGAGCAACAGGGAAAGATACTGTCTGAGCAGAGCTCTGTGATAACTCTTGGCAACAAAGAAGAAGCTGGCTTTTCTCTACTT
TTTTATTAAGGCAGGAGGAAACACACATGGGTGGATGGCTCCTTTGTCCATACCATCTGCACTGAAACAGTGACCATGCGGCACCCTGGATCAGCCCCTA
GGAGCCCCAGCAGCTGAGGAGCTTCAGGGAGCCAGAGAAACAGCCTAGGAGACACCTAATCCAACTCCAAACTAGGAAGATGACAACATTCATCCTCAAA
ACATTCTTAAGAGTAATCTAGCTAGCACGAAAAGGCAAAGAAATGGCTATTCCAGGCACGCGGGCATACGTGGTCTCCAGATTTGGCCGCTTTCTTACTT
TGTTTTCTATTTTGTTTTGTTTTTGTTTTTTTCATGGGCAGTGTTCAATGGCCTCATCTGGCTACTTTCTTCAAACATAGGTCTCCTTGCCTGGCATTTA
AAGGATGTTTTTTGAGCTTTTACTCAATAACGAGTACCAGAAACTCTCCTACACTGTTGAGATAAACAAGGAAATTTTTTTTTTTTTTTTGAGACGGAGT
TTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCTCCATCTCAGCTCACTGCAACCTGCGTCTCCCGGGTTCAAGTAATTCTCCTGCTTCAGCCTCTGCA
GTAGCCGGGATTACAGGCATGCGCCACCACGCCCAGCTGATTTTTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGATCAGGCTGGTCTCCAATTCCTG
ACCTCAGGTGATGCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATCGCGCCTGGCCAACAAGGAAATTTTAATAAGAAAAATATT
GGTTTAAATTACATTTTCAATGACAACAATAAAAATTTGCAAACCACAAAATCCAAAAAAGCAAATCAATATTTAGGAACAAAATACTTTAAGACTTTAA
GTTGAGAAGGTGGAACTAAAATAGAATTTAGGTCTTCTTTTACCACCATTCAAATTACAGACCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTGTCTG
TGTGTGTCTGTGTGTGTGTGTATTTGATCATATATAATATATGGAATGTGGTATTACTGAATTGCATTTGCATGTCATATTTTTTAATTGGGTCATACCA
TTAAATATATATCACTTATATATTTAAAATGTTGCAAGAGAAAGATAAATTTACCTTAATTCCAAAAGAATTCCTTCATCCTCACTAACAGAACCTGCTT
TTATTAGGGGGTCATATGTCCTAATTCTGGAAGTTGATGTTTGGTTAAAGGCTACTAAACAATTATCAAACCATAATTAAACTGTGATTAATACATTTCA
CTTTTTATATCTGTCATAGCAGCCCCACTTCGCTTATCCAGTGATTAGTCTAGGTGTGGTTATGTGCCCCTGGTTCTGAACATTAAGATAAATAATATTT
TTTAGAAAGCTGCTGAGAAACTATTTTCTTTTTCCAAAAAGATAGCCATTTTTTGGCCCTGCCCTCTTCTAGCCTACTTGGGATGCTGTTCTATGAAAAT
ATAATGTTTGGAGCTAGAGCAACCATTATGTGCGAGAACGTCATCAATAACTTAGAATGGCAGAAGGGAAAAAATAGAGAGAACATGAGTTCCTGATGAA
CTCAGAGGCACTGATCTAACACTAGAAGCACCAAGGTTTAGAGACTTTCTGTATGAAAGGGGCTCACTTTCCACTGCGTAAGCCAMTGCAGTTTGGGAAA
TCCCAAATTCAGCTACAATTCCCTTGTTGCTAAAAGCATTCTGAAATGATACAGAGACTGACTTTGCCAAGTACTTTCATTTAATATCATCATTCATAAT
ATTATTTTTAGTTTAATATCATCATTCACAATATTAAGACTTGTTTGTATTTTATACATGTAGATTACTGTTCTTTTGTATTTTATGCAACTGATTAAAA
TTTGTATAGAATATGTTAAAAATTCATTTACATCAAATTCTAACTATTTCATTCTTCTCTGGTCAACAGTGCATTAGACTGTTGAAAAGATAAAGATGAT
ATAAACATGTTTTTGATGTTATTTCTAGTGAAGCAAAAACAAGTACTTCATATTTCTATTTTTCTCTTTAATGGTTGATATTTCTTTACTTACAGACTTC
ATTTAAAATGTGCCCATTCATATTTACTGATAGGAGTTAAAGTGTATCAAAGGTGATAATTAAAAGTGAAATAAAATATATGGTGTAGAATGCTGTTTAA
TCTGTTTCACAATTGAGTTATTTTAATGAATCAACATGAATATTATGTTACCTCTATAGATCAGATAGAAAAAAAAATTCTCCACAGTAGTCTCTGCAAA
TCTCATATTCTCACAGGTATGTGTCCAAGGATGGAGTTGGTTTTTTTGTTTGTTTGTTTGTTTTTGTTTTGTTTTGTTTTTTTCCCCCAGAGAAGGTTTC
CACATCTCAGCATTATTTTTTTTATATATAACATTAGGGAATCCCATGAATGCTATATTTAGCCAATAGGAACTAGAGCAGGAGTCAGCAGGCATTTTCT
GTAAAGTGCAAGTTAAGTGTTTTAGGCTTGTGGGTCAGATGGTCTCAACTGCTACTCCTCCACTGCGTTTGGACGTCAAAAACAGCCTTAGGCAATATGT
AAATTAATGGTCTTGGCTGTCTTCCAACCATACTTTCCTTAAACAGTTGGCAGGCTGTATATGACCTAAGGGCTTGTTGTTTTCTCACTCCTGACCTAGA
GATTCCATTTTTGCTTCGTCAACCTGGGCTTTTAAATGTGGTTCTTGGAAACTTAATGTATGTATTTTCCCTGATGCATAATTGCTGAGAATTCCTACTG
TGGAACTTATTAAGACATCAGTGGGGGAGCCTTTGCAGCACCTACGACAGTTCTGCCTCCAGACCAACATCCTCCTCCACCCTGAGTCAAATTTCTCTTT
TAATTTTTTCAATTAATAAACTTTTAAAAGCAGTTTTAGCTTTACAGATAAATTGAGCAGTAAGTAGAGCGTTCCCATAAACCCCTTTTGCTCCCATCCC
TCCCTCCACCTATTTCCCTTATTCACATCTTACATTAGTATGGTACAAATTTTATAATGAACGAGCCAATATTGATAAATTAATATTAGCTAACGTCCAT
AGTTTACATTAGAGTTAACTCTAGGTGTTGTACATTCTATGGGTTTTGTCAAATGTATAATGACATGTATCTACCATTATAGTAACATACAGATAGTGTC
ACTGCCCTAAAAATCCTGTGTGTTCACTTACTCATCATCCCTCCCTCTCTCCACCCTCCCCCTCTCCTCTAGACCTTGGCAACCACTGATATTTTTACTG
TCTCCGTTCTGCCTTTTCCAGAATGTTATATAGTTGGAATCGTATAGTGTATAGGCTTTTCAGACTGGCTTCTCTTACTTAGTAATATGCATTTAAGGTT
TCTCATATTTTTTGATGGCTTTATAATTTTCCTTTATCACTGAATAATATTCCATTGTCTGGAAAGCTTGTTTGTATATTCCCCTATTGAAGGCCATCTT
GATTGCTTTCAAGTTTTGGCAATTAGGAATAAAGCTGCCATGAACATTTACACCAAGTTTTTGTGTGGATGTAAGTTTCCAACTCATTTGAGTAAACACC
AAGGATCAAGGTTTTTAGATCCTATGGTCAGTTATCTTTTCTGGTGACCATACTAGCCCCATCACTCCCAGTTACTGTTTGCATTAGTTTTCATTTTCAT
TTCTACATCACATAACAGTCACTCCTGTTATTCACAATATTATTTTCCTTCACAAAGACTTCTCCAGCAGAAAAGAAGATGGATGAATGCCATTCATCCC
TCAAAATTGGAACCTTTCCTCAAAATATGTGTTTGTGTATGTACTACTATTTTTAAAAACTTTTATAACTTGCAGTTTGTTTTCATCCTTAAAGGTTATT
GTCAGTTCATCCTGCATTTTTTTTTGTCATTCTGTATGTATAGTGAAATATAGTCARGTGCTCTATATCAGTAAGTCTGGAATGTTCCATTCTGGCAGTT
ATATGCTGGGATACATAACATTGTTGCACAAGCCAGAGTAAGTGTAAAGATTGCTGTATCTTATTTGTGCTCTGACCATAGACATGATCTTATTCTATTC
AGGCTGCTACACGAAAATACTATAAACTGTGTAGCTTATACACAACAGAAATATATGTCTCACAGTTCTGGAGGCTGGGAACTCCAGATCAAAGTGCTGG
AAGACTTGGTATCTGATGAGGGCTTTCTGGTTTGGGGACAGTGTTTTCTCGATGTGTCTTCACTTGAAAGGGGAGAACTCCAGTCTCTTCAGTCCCTCAT
AAGAGCACTAATCCCATTTCAGGAGGGATTCATCCTCATGGCCTAACCACCTTCCAAAGCCCCACCTTCAAATACCATTACAGTGGGGATTAGGTTCCAA
CATATTAATTTTGGGGAGGGACACAAACATGTCAGATCACAGCAAACACCAGCTTTAGTAGTCATCTCTTTAATTATTTCACAATAGTTTATAATTTTTT
AAACTATCTGATAGGAAGCTCTCAGTTGGACTGTATTTTTCAAAGTCYATGTGAAGAAAGGGCAAATAAAATTCTGGTTTGAAAAGTAACAAATGTTCTC
AGATGCAACATTTGCTAAACTCCAAATCTTTATATAGATTTATATAGACAAAAAGTCAAACGTGTCTCCTAACCCTAACACACATGTAGAGAAAACATTG
GATTCTGAACATGGAGGTTGTAAAATAGGGTTTATTTTCCTTTTGCATACTTAGAAATTTTAATTGTGATAAAAATACAAAATTTACCATCTTAACCCTT
TTTTATTCTCTATTTCTGTATTTTTGTCATTTTAAGAGTGTTACATAGATGAAATATGACAATATGTAACCTTTGGGATTGACTTTTATTGTTGTTTTGC
TCTGTATAATTCTCTAGAGATTTATACATGTTGCTGCATGTATCAATAGTTCATTCCTTTTTATTACTGTCATATTCCATGGTATGGATGTACCACAGTT
TGCTTAATCTTTCCATTTTTAAATGTACACTTGAATACTGTTCGGTATATTTATATGGCTGTCCATCAGATCTCCAGAAATCTCACCCTGCGAATCTGAA
ACTCTTCACCTACCAAACAACTTCCCTTTCCTCCTCTCCCTAGCCACCGGCAACCGCAATTCTAATTTGTTTCTATGAATTTAGCTACTTTAGTTACCTC
ATATAAGTGGATTTGTATAGTATTTGTCTTTTTGTGACTGACATATTTGACTTAGCGTAATGTTCTCAAGGTTCATTCATGTAACATGTATCAGAATTCT
TCCTTTTAAAAACTAAATGATATCCCATTGTGTGTACCTACCAAGTTTTGTTTATTCATTCATCCATTGMTGGACATTTGGGTTGCTTCCACCTCTCAGA
TGTTGTGAATAATGCTGTTGTAAACATGGATGTGCAAGTATCTCTTCAACTCCCTGTTTTCAATTCTTTGGGACATATACTCAGAAGTGAAGTTGCTGGA
TTATATAGTAATTCTATTTTTTTTTTTTTTTTTTTTTTTTTTTTARAAACCTCCATACTCTTTTCCTTAGTGGCTGCAAGATTTTATAATTCCACAAACA
ATGCACACAGACTCCAATTTCTCCACATACTTGACAGCACTTGTTATTTTTTGTTTTTTAATTTGTATAATTTAGGGGCTACTAGTACTGTTTTTCTTTG
TTGCTGTTTTTTTACATGGCTGTATTGTATAGTGGTAAAGTATGGGCTTTTAGTGTAYGTTGTACCCATTAAAGAATTTATCTGTCGTCCCCCTCCTATC
CTCACCCCCTTTCAAGTCTCCAGTGTCTATTAATCCATACTGTATGTCCATGTGTACAGATTATTTAACTCCCACTTATAAGTGAGAACATGTGGTATTT
GGCTCTATGCTTATGAGTTATTTCACTTAAGATAATGACCTCTAGTTCCATCCATGTTATTGCAAAATATATAATTTCATTCTTTTTTTATGGCTGGGTA
GTATTCCATGGTGTGTGTGTGATACATATATATGTAACATCTTCTTTATCCAATCATCTGTTGATGGACACTTAGGTTGACTACCTATCTTTGCTATTTT
GAGTAGTGTTGTTATACACATAAAAGTCCAGGTGTCTTTTTTTTATAGAATAATTTCTTTTCTTTTGGATATAGACCCAGTAGTGGGATTGCTGGATTGA
ATGTTAGTTCYATTTTTAGTTCTTTGAGATATCTCCGTACTGTTTTCCATAAATACTGTACTAAGTTAAATCCCCACCAACAATGTGTAAGCCTTTTCTT
TTCCTCTGCATCCTCTCCGACACCTTCATTTTTTGACTTTATAATGATAATTATTCTTTCTGGTGCAAGATGATATCTCATTGTGGTTTTAATTTGCATT
TCTCTTGATTAGTGATGTGAGCATTTTTTCATATGCTTCTTGGCCATTTGTATGTCTTCTTTTAAGAATTGTTCCTTTCCCCACTTTTTAATGTGGTGTT
TTGTTGTTGCTGATGTTGTTGTTGTCTGAATTCCTTGTAGATTCTGCATGTTAATCTTTTGTTGGATGCATAGTTTGCAGATATTTTCTGCCATTGTACA
GGTTTGTTCCCTCTGTAGCCATCCTAATGGGTGTGAGATGATATCTCATTGTGATTTTCATTTTTATTTTAATGATGATCAGCAATGTTGAGCATGTTTT
CATGTTTGTTGGTCAGTAAGGTGAGTTTTTGTCGTTTTCTTCATCATCAGCCTCATGTAAGTGTCCTAGTCTACCTGCAGTCTTGTCTCATCCCTTAACA
ATTAGAAGGAGAGTCATCATTTAAAGAACTTGCCAAAAGTAATTAATTAGATCTGTTTGAATTTTTTAATTTTCAAAGTAGCATTTTGTAACTTTTCTTT
CTGTCTAAATTTCCCAGTAAACTTCCTTGAGGGCAGGAAATTATATCTTTTTCACTGCTGAATCTCTGACACTTATTATAGMGCTTGCTAGTTAATGGGT
ACCTAATACTTGTTTGCTGGATGAATCACACAGTCTTGATGAAAGACATTTTTTCCCCAGCATCTATCATGTACTCATTAGCAGAGCTCAGTCGCTAAAT
TGCCTTTACCAGAGGCTATTCTGAGGCTTCTTTCTTTGGCAGGTACTCATCTATTTCTTATTTGGGGCTCATTATCTAATGGAGAAGAGCTTCATTGACA
ATGCTCAACATACCACTTTCCTGCCACAAAATGCCTTATACACCATAGAGACTTTAGTTACCAGGCAAACCTAGAGGCAAATATCATAGTTTAGACAGTC
TACCCAGAATGAAGTATATTTTCCAATCTAATAATCTAATGTTTTCTGAGAGTCAAAAGGTGTAGAATGCTGTTTCTTGCTGTAACTATTGCTAGTTTCT
GGAAATGAATACAATTAAGTTTCTAAAGTATACCAGAATTATGGCTAGAGAATGCGTTATGATAATTTTAAGGGGTTTCCCATGTGAATATCACATGATA
GAAGGGACACCATTTTTCACATTGGACAACACTGACTGCTTAACATGTAAATAATCACTCAGGTTGAGTAAAGCACACTCCTGGCATTGATAAAGTGCCT
TCTCATGCTCCTGCCTACCTACTGTTGATCATCACACAAACTCTACCAGGCACTTTATGCAGTTTGCCCTTCTCGCCTAAAATAAAGCAAGAGAAGGGAA
AATAAGTAGCTTCATCTACTTACCTAATTACTTAGAGCAACAATTCTTAACTGCACTCTCTAGGAGTATATGAACATATTGAAATTGCATTCGACATTGC
ATGAGTACTAACATTTTTGGGGGGAAGCACCACTGAGCTAGAGTTTTCAGTATTTTCTAATAATAAATACTGTCAGTATATAAGATGACTGAGAAGCATG
TGAATTGAGACTGAGAACAAGATAGAGAATATTGTCTGGTGATTTGGGGCATAGGTTTTCATCTCTACATGCCTTTTACATCATTACTTTTGAGAAGTTT
CTGTTTGAACTCGGTAAACCTCTTAGCATAATCTAGGTTCTAACTGAATAGTTGTGAATTAGTGTCTAGACTCATAAAATGAAGAAATTGCACAAAACCA
ACTCATTAAGGTTCCAAATAATTAATCTCAGCCACATTTGAGAGGGTTGGGTTCAGAGGAGTCCAATGTGACAATGTTAAATATTTCTAATTGCAGGCCA
TTTAAAATTTCTGTAACATCTAAATACCATACATATTAACCATACATATTTATTTTCTTCCTCCATCTATCCTGCACATCTCCGCTGAATTGATCTGTTC
TTTCTTTCTATCACATTCTTTCTAGGACACTATAAATGAATCAGTCTGAAACCTACCTCCTTTTCCACTTTTACCTCCATCTACAATCTTGCGAGCACTC
TGCCCAAGCAAACTGTTTCCATCTTCATTCCCCTAAGTGTGTTCTCAACATTTCACCTCCATATGTAGGTTCTCACCATGAAACCCACCTACACTCCACT
CTTCTCTCCATATAAGCTTTATTCTTCAAGACGTGGTCAAACCTACCTTCTTTGAAAAGTTCTTCCAAACCATYTACATTTAAAACAGTATCTACTAATG
AGCTATCAAGCCATGAAAAGAGATGAAGGGAGCTTAAATGCATATTGCTAAGTTAAATAGACCTACTTGTAAAGACTACATACTGTATGATTTCAACTAT
ATGACATTCTGGAAAAGGCAAAATTATGGAGACAGTAAAAAGATTACTGATTACCAGGGATTAAATTAGAAGGGAGGAATTGATGAATGTGTGGGACACA
GATATTTTTTAGGCAATGAAATTGTTCTTTGTGATACTATAATAGTAATGCGTGACTTTATACATTTGACAAAACCCATAGAATGTACAGCACCCAAAGT
GAACCCTAATGTAAAGTATGTACTTTGAGTGATGATAATGTGCCAATGTAGGTTCATTGATTGCAACAAGTATACCACTCTAGTGCAGGACGCTGATAAT
GGGGAGGAGTTAGGCATGGGGCAGTGGGTATATGGGAATTCTCTGTACTCTGCTCAATTTTTCTGTGAATTTAAAACTTCTCTATTAAATAAAACGTGTA
TATATATCCTTACTAAAGCACTCGCAGAATAAGTGTGCTATGTAGTTCACCCAGCCAACAAGAAAAGACATGAATAATCATTTAGTTACATTCTTATTAT
TTAAGTTCTTACATATTAATTTTCTCCCAAATAAAATGAACCCCTACAGAATCAGGAGCGGCATATGATTCTTTGTCATTTCTGCCATTCTAGTCATAAT
TCTGACCACATACTAGTGTTCAAACATTTATTTGATGTTTGGTGCCTTCTTTTTCTCACTACTGAAATATAAGGTCTTTGAGGGCAGGGGATCCAACTTA
TTTTGATTATTCATGAACCCCAAACACCTAGAAGAGAGTCTAGCACAAGGTAGCCACTCAATAAATGCTAACCGAATGAACATACACGCATGTGTTAATA
AGTAAAATGAAATAAACTATTTAAAGCATCAATTCTTAATAAAAATGACACGTTTGTTTTTGTTTTKCAGCTCTAGATCTTACAAGTATACAATGGGAAT
ATTTACATCCCCTAGCTCTTAGATTTAAAAGCTATTTCTTTTAGGCTGTATTCCCCCACATACAATCCTGGATGCTCAGAGAGAACATTTTTTAAAACCA
CTTACTTATTCATTCATTCACTCATTTAATACGTGTTTATTAATCATCTACTGTGCATTATTCTGGACACTGGAGACTCACTTGCAAAGGTGACTGACAA
AGTCCCCACTCTAATTGAATATAATGCATTCTGCTAAAATGAAAAAAATGTAACTCACAAAAATAAGATGAATAGTGATTTCTGGATGTTGAGGAGGGAG
ATGGGGAAACTACATAAGCCAGAAGGTCAGGAATTGTGACTTTGTCCCCGAGAGTTGTATGACATACATGTAGCAGCCCTGAATTAGGTGGTAACAGCCC
TGAAATAGGTAAAGTCTCACTGGATGTAGATCTGTAGGATTTTTATAAGGATTTATGGCCAGGCTCTAGCATGCTACTTTCAACATATACAATAAAAAAA
TCACCCACAAGCTCCCAATCAAAGCATAAAGGCAGAAGTTTATATTCCTAGTGTGCATTTTAATACCTTAGTAAGATACAAAGGTTGCAAATGTTACTGA
ATTAATCCTCAGCCATTTTAGTGGTCATGGGAACATGGTGAGGGGTTGCTCACAGAATCATCTCAATTTTACAATGCTGCATTTCCTTAGGATCCTTAAC
TCTTATTTTGGAACTTTTATTTTGGTTTCTATTCTAATTTCCTAAAACATGTGCAGTATATTTGTAAACAATTTTGAGGTTAAATACTATATTCAAATAG
AGTGCTCTAGCTTTTAAATACTTGATGCAATTATATATGTATATATACCTGATTTGTAAACCCTCTTTAAATATGGTTCAGTTTTTAAGAAAATGGATGA
ATATCTTAAATCTTTGAAATAAGCTTATGGTAAAAATATCTACAGATGTGAATATGTTCAATATTTATTTTCTCTTTCAAAAGAACATCAAACTTAAATA
TAGACAGAGCATAGACATTGCTTCGTTGTATATGTTTCTTTATCTGAACATTCTATCACTGACAGTGTGAAGGCAAGAGAAAAATAATTTCTAAATGATT
TTCAAGTGACACTTGCCTTCTTTATCAGTTCTTCAAAGAAGAGGGATTCACCCTCATTCAKTTTTTATTAATATTTTGTTACAAATTAGACAATCACAGA
TAACAATGTTTTGATGATGGTTCCATTCATAGCATCTTCCAATAAAGCAAAATAAATAAATTAATTAATTAAAAAGCCTTAAATTTTCCTCCTTAAACAA
CAAGCTTATGTTCCCATTTGTAGAATTCCACAATTGGTAAACAGATCTGAATTCATTTTATTGATCTGCCTCACAGTTATATGAATTCTGCCAGACAGTA
TTACAGATCTCTTCATTCTTAGTCTCTGTAAACCAAAAGGTATCTGAGACAGGTCTCAATCAATTTAGAAAGTATATTTTTCCAAGGTTAAAGATATGCC
TGTGACAGCCTCGGGAGGTACTGACAACATGTGCCCAAGAAGGTTGGGGCAAAACTTGGTTTTATACATTTTAGGGCTACATGAGACATCAATCAATGTA
TGTATGACGCACATTGGTTCAGCCTGGAAAGGCGGGACAACTTGAAGCAGGGAGGGGACTTCCAGGTCATAGGTAGATAAGAGAAATATGATTGCATTCT
TTTGAGTTTCTGATTAGCCTTTCAGTGAATGCACAATTTACAGAAATAGTCACTTATGTCTTCATCTGCTTTAGTGGAACAATGGGGCAGAGGAAGCAAT
TAGACATGGATTTGTCTCATGTGAACAGAGGGATGACTTTGAGTTCGGCCTGTCCACAAGGAATTTCCTTGTGGACAAATTGCGAGGGAGGTATGTAGCT
TTTTTATCTTTGTAACTATCTTATTTAGGAATAGAATGGGAGGCAGCTTTGCCCAATGCATTTCCCAGCTTGACTCTTCCCTTTGACTTAGTGATTTTGG
GGTCCTGAGATTTATTTTTCTTTCACATCTTTTAATCATAACTATGGCTAACATTTATTGAGGGCACACTTTGCACCAAAAACTGCCAATCCTCATGAAA
TTCAATAATTCCATAGAGGTAAATATTTTATTTTGAAGGTGAAGTGATGTTTCCAAGACAGTTGTTAGTAAGATGCTGGGGTGGGAAGCAAATCCAGGTC
TGTTTAGTTTCTAAATCTTCAATCTTTTTATTTTCTAAATCTTTAATCTTAATGTCTGCACTATGCTTAGGGTTAACCATCCTCAATAATCACTGGTTTT
TCATCTGTAACTTTCTCTTCTTGTTCATTCATTCTTGATGACTTTAATGTAACAGCATTCATTTATTTTTAGTTCTGGGATACATGTGCAGAACGTGCAG
GTTTGTTACATAGGTATACATGTGCCATGGTGGTTTGATGCACCTACCAACCAGTCATCTAGGTTTTAAGCCCTGCATGCATCAGGTATTTGTCCTAATT
ACATGGATGAAGCTAGATTCTCAGCAAACTAACACAGGAAGAGAAAACCAAACACCACATGTTCTCACTCATAAGTGGGAGTTGAATAATGAGAACACAT
GGACACAGGGAGGGGAACATCACACACTGGGGCCTGATGGGGGTTAGGGGACAACTACATTCATATTTATTGATCTCTAACTCTAGCCACTTCCTGACCC
CTCACCTGATTTAGTTTTCTTTCTCTGCATTTTTCTATTATCCTTAAAAGTGTAGTGCTTCAGGGACCACTCATTCCCCTAGGGACAGGCTCAGGGCAGC
TATGTAAAAAGGTGTGCTAATACTTGCTAATTTACTTTCAATTTTTCTCCTTAGGGGGCCCACCTTTTAGTTGGCCTTTTTAGTTGCAGCAGCAAACTGG
ACTGACCAAGTGAATAGAAGAACTAATCTATGAAACCAGATCTGAAAGTTTACACAATTTAATTTGGAAAGCTAAATGTGCCAAGAATAGAATCAAAGTA
TATAGAATAATAAAAGGCAGGGAAGTACTCTGATGGAATTCTTTTTTTTTTTTTTTTACTGTAATAAAATGTGAGCATAACAACTATTTTTAAAGGTTTA
GATGAATTTGTAAATGGTGGATTTGCCGTTGACATCAGTAAGAACCATATCTCATATATTATCCTGAAAAAGTTAAGAATTTTACTTCAGCAGGGTTTTT
TTGGTCTTTTACTGATGTTTAATGGATTCACTGACTGGGAATATAATGGTTTCCTATGGAAATAACATTTCTGTTTACTGCTCACCATTAGTAAGCTGAT
AGTCTCCTACTATAGTACTGCTCATGAGAGAAACCTTTTGCAGATTGATTGATTCTGAGATGGAGTCTTGCCCTGTCTGCCAGGCTGGAGTGCAATGGTG
TGATCTCAGCTCACTGCAACCTCTGCCTCCCTGGTTCAAGCAATTCTCCTGCCTCACCCTCCCATATAGCTGGGATTATAGGCACCCACCACCATGCCCA
GCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTTGAACTCCTAACCTCAGGTGGTCCATCTGCCTCAGCCTCCCAA
AGTGCTGGGATTACAGGTTGCCTCCAACTGGGAAGTCTATCATGGCCATTGTCCTCTTATGTTTCAGTGGTGATGTGGGAACCACTTTGCTTACTGACCG
GGGACTTTTTTATAAAACATAAAACCATAAGAAATTTAAGGACCTTTGCCCCTCAAATTCCAGTTCTTTATCTTTCAACTTATTTGCTCTGCAACTAACA
ATATGTGGTTTGTCTTTGTTATAGGAATGCATGAAGATTTCTGAAGTAATTTGGTACTGAAAAAAAGACATACCCACCAAAAAATAAAAATAAAAAACAG
GTTACTAAGGAAAAACTTAAACATGCAACATTGTGGAAAATTACCCTATAGATATTTGAAATGATATTCTGTAAAAGGACAGAAAGCACTCTGGAAACTT
ATGTTATACTCTTACGCTTTTTTTTTGCCCAAGAATACAAAACTGCAATATTTGACCTTTCAGAAGCACCAATGAACATGGACAAAATGTCATCCAGTTC
CACAGGCTAGAAACCTGCACACTGCTTGACACTCTGTTCCCTCAGCTGCCATATACAATTACATAGTGCTGACCTTCTGACCTCCTAAATATTTCTCCAA
TCAGCCATGTTTTGTCCACCTCCATTGCCAATGCCTTGGCCCACACAACTGTTATGTTTTTTTCTTTCTGGTACTATAATGGACAAACCAGAATTCTTAT
ATCCAAATTGGCTCTCTTTTAGGCTTCACATTTTGGCCAGACTAGCCTTTCCAAATTTGTATCTGAGTGTGACATGTTCCTGCTTAAAACTTCTAATGTC
TTCCCATTGCTTTTAGAGAACGATGAAAACCCTTGTAGCAGAATGAGCCGCAGACAAAACCTCTCAGACATTGAGTTGTAGAAGGAAGGGCTTTATTCAG
CTGGGAACATCGGCAAGCTACTGCCTCAAAATCTGAGCTCCCCGATTGCAAAATTTCTGTCCCGTTGAAGGGCTCACAACACTAAAGATTTCACCTGAAA
GGGTTGTGATTGATTGAGCAATCTAGGGGATACGTGACAGGGGTTTCATGCCCTGGTAGTCAGAGTGAAACAGAACAGAGCAGGGAGTTTCACAATGTTC
TTTTATACAATGCCTGAAATCTATGGGTAACATCGGGTTCTAAGTTGATTTTTAACTACTGAGTTTAGGCCAGGCATAGGGTTCTAAGTTGATTTTTAAC
TACTGGGTTTAGGCCAGGCAGGCCCAGGCCTGGTTTCAGGCCTGGCGCTGGGCTGCCTGTCTTTGGTTTTACTTCCTTGTTGTTTTTTCTTTTTTTCTTA
AAACAGGTACTGAGTATAAAACAATATGAGAGCGTCTCTCTCTTCCCTCACCCTTAATGTGACCACTGGTTTCACTCATGCCTAATACCCAAATCCCAAA
TCCTACTGCTGTGTGTTCACATTCTGCATTCTGATTTCGTTGTTTTCTCTTTTTCATTCAAATGCCTTGTCTCTCCTCCTGCCCCAGGGTCTTTGTATAT
TATATCACCCTTTCCAGGAATATTYTTCACGCTGCTCTTAGTCTAGTTAACTCATACTGGTGTTTCAGATCTCAGTTCAGAATTCAATGCTTTTCCTTAC
CACCCAAGCTAGGCCAGATTTATCTATGTGATCTCATAGAAATCATTCCTTTTCTTATAAGAACCTTTCTTAATTTGTAATAATACGATCATTAGTGTAA
ACATTTGTCTCTCATTAGACTGTACACTTCAAAAAATGGTAAACTATGTCAACTTTTGCTTATTCTAACTTCTCAAGATCAAGAACAGTGATGGCTAAAT
ACTAGGATCTCACTAAATATTTACTGAATAAATGAATGCATGAATTTTAGACATCATTAAGTAAAGAATAAATGGAAATTTGTTTCCATGTGTTCACAGT
ACTCAAAAATTTTAATTTGTTATTTAATATCTGGTAGACCAATTTTAGTATTTGTAATGGTATATATATATATATATACATGTATATATATATATATATA
CTGTTAAAGTATGAGACTATGAGGTGGGAAGAATCATCTTTGTAATTGGTACACACACACCTATATATATATATAGATAGATATACACACACACACATAT
AAACACACCAATTGGCATATATATATATATAYACACACACACACATACAATATATACATATACATATATATATATACCAATTGGTATATACACACACACT
GCAATTGGTGTATGTGTGTGTGTGTGTGGGTATATATATATATACCAATTACAAATATTATGATTCTTCCCACTTTATAGTCTCACACTTTCAACTAACA
ACCTGGAAAGTAAGACAATATAATTCATTAATTTCTATAACATTTCATAATATAAWATGAAAATTCACTGCTGATTTTTAGAGGACAAAATCTATAGCAT
GGTGAACTTTCACAGCTCCAGCTTTATCTAGTTAGAGTTATTTAACCCACAGGTTGACATTCTCCCCTCCTCAGGGTCTCTCTTTCCCCAGAAGGTATTG
CCTCTTTTCTTGCTTTCCTGGCCTCCCTCTTCAGTGTTTCATGTTTGTCCTTTTGTGTTAACCTTTGGAATTATCAAACAAGTTGTTGCCAGAATCTGGG
GACTCATGGCCGATGTGTTCCCGGCTAATAAAGCAAAACCAAGAGAAAATAATCCTCAGCATTGCATTTCAGAACTATGTGGGCTTCCTTTGTATTCCAC
AAATTCAGTGTTGCTGATTCTTATCAGATGCTTAATTTCCTCATATCCCAGTAAGATGATTTATTTGGTGCCCTGGGGAAAAAATTAAACCCCTTTTATC
TGTTTTGTATTTTCAACATTGTAATTATTAATAAATATTTACTAAATAGCAGCATGATGTAGGTGAAATATCAAATTGGTAGAAATAAATGCTTCTTAAT
CTATTATGTCCTCTAAGACACAAAATCATCATCTATGACATGGAGATGGTGCTGTTTTTCTTCTTAAAGCATCTTTCACAGCATTATTGTATCAAATTTA
GTATACAAGAATAGTCTTTGAAAATCAAAAAGCTCAATCAGAAATTATTATTATTTGAAGAATATGGTCTTTTAGGAGAATTGTAGAACCTGCTTATATT
TCCTCCATTTTTCTATGAAAGCTTTCATTTTAAAGGTTGGCTAAACAGGTATTTTTGATCCTTTTGTTTCATTTCTATTTATATAAATAAGTGGTTTTGA
TGGGGTACATTCTTATTAGGAAAAGTTTACAACACATATGCTTAATATTAAAATGTTTGATATAAAGGTCTAATTTAAAATGTGGTTGAAAGAGAAAAAA
GTAGAAAAATCTTGTATATGCATGTACACATAGGCCTAAGGAGAGAAGCGTATGGAATTGCAAGAATATTATTAAAATACAATTCAAATAGTTAAGGGTA
GGAAAAATGTGATGAAAACAACTGGATTTTTATTCATAGACTCCAGCAGAGTAAAAATCACAAATTTGGTTTTTTTCCAAAATATGTCATTTTGTATTCA
ATTATTCAAGACAGAATGGGCAGAGAAGTACAAGGAAATGAAAGAAAATATTGATAAAGGAAGATAAAGTAACCAGACTAGATTTTGGTAGGATATAGCA
AGACACAAAATTGATATCTCCTAACTACATAAACTAAAATACTTCAWTTTTTGCACAGCAAATTCTATTCTTGTTCTGGCTAACAAAAATTCTGTTGGAG
TAAATTAAAACTGTGATCATATCACTTTTTCGTTGGACATAAAAGAACTAAATATTTTCCATAACATTTGTTCCACTCAGGAGTATCTTTCTTGCATCTT
CCTTCACCTCCACTCCCATGATAATCGCCACCATTAAAACCGTTATTACTAAGAACACAGGTATTTGTTGTCTTTTTCCAGATTCTTGGGGTCTCTTAAT
TACAAAGTAATTTCTTAAATTATGCCTCCCTTTATCTTTCCTCTATTTTTGGTATTAGTAATATCTAACAAATCTAGATCAAGTAGGCCATCCACACCAG
GTCATATCCTACTCCCAACCCAATGCTTATAAAACATAAGGCTAAAATAATGAAATAAGATTAAAAAATAGAATAGTTGCTAAGACTGATAACTTTTAGA
AATAATTTATCTAAACAAATTGAATAATCTTAAAAAATCTTGTGGTTGCCATTGCTGTTGTTAAGCCACATTTCCCTCTTTGATTTCCTTTTAGAACTGT
ATTGTTTTGAGAACTGGTATAATTAGTGATTTAGAGCTAAGGCTGTAGACTCAGGTTGGCATTAGAACCTGCTTCGCCACTTACTAACTGTACAAACTCT
CATCAAGATATTCACCTGCAGCATTGTATTCTGTTAAAAGGAATGCAATGAGGTAATGTATGCAAAGCCTTTAGCATACTGGTTGCCTCATACCGATAAG
TAAATAAATATTAACCATCACCAATTCTCACCTTAGCTCTCCTTTAATTGGATGTACATTCATATCCAAACCCATGTATAATAGAGCAGTGGCCATCAGA
CTGCATGTGGTGAAGGACAGTACTTTTATTAATTGCCAGTTTTTGTAGAAAGATAATATCATAAAATACAATAAAATTCAATTAATAGGAAACGTAAAAA
TATACAAAATAAAAGCCCAGAGATTTTATTGTTATATTCAACAAATATAAAAAACATTCTGTTAAATTTCTATAGAAGTTTATAAATGTTTTCACATAAT
TTCTGTACTTGCTTTATTGCAGAGGGGAAATAAAATCTATAGACAGGCACAAGTTCCTTGATCATACTTCTATGAAGAATGTATATTTTATTATTTCTCT
TTTGAATAAGATAACCCTATTTCTAAAATATTCAAATGTTCATTGATATAGTTATGTATATATACACTTATGTATACACACATAACAATACACATACATA
TATATATTTGGCTTAATGTGATATTTGTGTTACAATGAAAGTATAAATCACTGAGTCTGAAGTGTCCTTAAAATAGAGGATGAGGCGAAACTGACCATCT
GGCTTTGAGCTATCACTAATCTCTACTTTGATGCCTGAGTATTTGTCAAACAAAGAAACGTTTTGCATATTACTGTGTATATTTGTTCTCTGTTGACATT
ATTTACTCAGATAATCCAGAAATGTTTAAAAAACTGATGGAAGCACTTTCTCTTGATTTTGTTACATATGTACAGTTTGATTTCTTTCACGTAAAGCAGT
ATCCATTTTACATTTTTCTTTTAGACAATGTTCTATACAGTTAGTATATTACCCTACACATGCCCAAGAAATGTACCTTTGAGAAGCTGATGTATGACCA
AACATGTTTGATCTTAGAGCTCAATTTTTACTCATGCCACCACCCACTATGACACCCTCATCCCATTCTACCCCTTCCTGGGGAGTTAATAACAACAATG
AGCTTTTTTTTTTTTTTTCCTATGGGGATAATTGGCAATCCAGGGAAGCCAACCCAATTTCTATTTTGTTCAATGTTTCTTTAATTGATCAGTGAGGGGG
AAAAGGTGGATACAGGTTGCGTGAAGAGGAGGAAAGATTCATTTTGAGTACCTATAAATTTTTTGGTACTTTCTTAAAAACTCTTTTTAAAATATGCTTC
TTTTTCTTTACCTTTTTGCTCCTTATATTTGTTGCTTCTAAGAGACGTGTCACCTCTGCTAGGGTGATAGGCTATATAATTCCTTACTGCTTTCATCTAT
ATATTTTTTTATCTGTAGGTATAGAGGTAGATAAAAATCAGCAGCATAAAATACATATTTTCTATGTCTAGTTGAATGAGTGATTCAGTGAAATTGATAA
TTATATGTATCAGTTATCAACTGTATAATGAACAACCACAAAACCTGGCATAAAACAATAAGCGTATGCATATTGCTTGTGAAACTAAGACCAAGTGGGC
CTTGGCTAGGTGGCTCTGTAGATCTCGGCAGGACTTGATCACCTCTAGGAATAGGTTAGTTTTGATTGAATCAACCTGGCTCTGCTCCCCACTCTCTCTC
TCCTCCAGCGAGAGTAGCCCAGGCATGAGGGAGGGCAATCCCAGCTGCACAAGCACTTGTTAAGCCTCTACTTTCTTTATCTTTGTTCAAAGTAAGAGAA
TGCTGCAAATTACATGGCAAAGGTCGTTGGTTGGGAGGAGGAGGATGAAGAATTAGAATCATTTTTGCAATTGATCACATATCTTAAAAAGTAAATTCTT
TCAATTGAACAATATGATAAATTAGTAGGAATAGTTAAATAATTATATTTATCTTGATGAAAGTAACGTACTCGGGCAAGTTACTTCAACCTTCTGTGCC
TCGGTTTCTTCAGTTCTAAAATGGGGATAATAATAGTGTCATCCCATACGATTATGGTGAGGGTTAAATTAGTGTATTATGTAGTGTGTAGAGCAGTGCT
CAACATAGAAATATGCATAAGGTGTTAATTATAGTTATTAACATCATTATTATTGTTAATATTGAGGCAACACAGTTGAAAACTGACAAATGTGTAAAAA
TGATATATGGTTGTCTTAATACTTTCTTGAGCATATTTATTTTGTGAATTTTTGGCTAATATTTATAGCACTGGTGCCATCTGTTCATCTTACAAGGATT
ATTATTTTAGGAGTTTATACATGTCTATATTCCAGAGAGAAAGATTTTACATTGTAGAACAAGTTGGGACACATTTTTATTTATAATCTTAAAATATCTT
ACTTATAGACGTATTGTAAATACCACAGATTTTTGTTTCTAWTTTCTTGCTTTTATAAATTTTGTACTAATGTTAAGAAATGGTAGCAAGCTTATGACTA
ATGTCAATTTAATTGACAGCTCTTAAAATGTGATCATTAATTGATTTGTTCTATGTAGTAATGAGAATATATGCCAATATGTCCCAATTTTAATGTGCAT
ACAGTCACCTGGGACCTCGTTAAAATGCAAATCCTGATTCTGTAGGTCTGAGGTGGGCCTGGGATTCTGCATTTCTAACAAGCTTCCAGGTGATGAAGTT
GCTACTGGTCCCTGAATACCACATTTTAAATGTACGTGCACACACACACACATGCACACACACACACAGACATCTCCTTATGTATATTTAAAAATTATGC
ACACATATAAAATACATATTTTAAAATATATAATACATATTTATATTGAATAAGTGAAAATTCAAATCAAATTATTTGATATTTAGTTATTAAATGTTAT
AAAACATGTAATAAATATAATGAATCAAAGTAACATATAATATTTAATAAATAAATTATTGTATCTAATGATGTGTTAATCTCTAAATGTTGAGAAATAT
TTTTACTGCCAAAAAATGCTTTAATTTTCCATTTTGTTTCCCGGGAAACTACTTAAGTAACAGAATTTKGCCCTATAAATATAAGTTGCTGTCGAGACTC
CTTTGTTGGTAGAAATATACTTAAATTTCCTGGGTCCTGTAATCAGGATAAAAGTTGTCTCTCTCTCTCTCTCTCTTTTTTTTTTTTTTTTTTTGATGGA
GTCTTGTTCTGTCGCCAGGCTGGAGTGCAGTGGCACAATCTCCGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGAGTCTCCTGCCTCAGCCTCCCGA
GTAGCTGGGACTACAGGCATGTGCCACTACGCCCAGCTAATTTTGGTATTTTTATTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTCCATCTTT
TGACCTCATGATCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGAGTGACCACCGTGCACTGCCAAAAGTTGTCTCTTAAACTCGTACATAATYA
TGCTTTTATTTGAGGTACACACACAACCAATTAACTAATTTTTTTTCTCCTGTGGGCATTAGTCACAGCCCAATATTAAAAATTTTTGACTACATACAAC
TTTATATAAATAAAGTACATTAGTCAACTTAATTTTCTGCTTTTGAGTGTTAACTACAAATATTTTGTTTCAACTTCAGGACTGTAAAATCTTTCTAAAA
GTTCACGATATTCTTTTCTTTATAAGTAATCTTAAGAGTACTCTGCCTTTTTGTTTTAAAGAAGTGGTTAGTGTCAGAATAGTAGCATTAAAGGATACAA
TTGATTTTAAAACTGTAAAAGATGAAAGAGATTGGGATAAATCTCTGCTGACCTCAGATAAACTCTAGTAGATCAAATCTCCAAAATGTAGAAAAGGGAA
GAAAAAAAATTGAGAATTCAGATTAAGTGGATCTGAATATGGGAATTCCCATCTAAAGGTATGTGTAATTAAGTTGAAATCTATTAAGAATAATTAAATA
ACAGCCTTCTTCATGATAACAACATTTGAGTTGCACTTTCAAACTCAATTTCTCGTTGTAAATATAACTACAGATTACAACTTAATTTCTAGTCCATAAA
TTATTTTTCACCTCTCTTATCTTATTTGATATTTGAAAGAACCCTTTGTTGTTTAATATTATACTCAAAGTAAGAACTTGGACTTGGAGACCTCCTCCTC
CTTTAAGTTCAAGCCTCCTCTGAGGAGAGATACTCCTAAGGAGTCCAGGATGAGGGTCATTATTGAGCTGTTACTGGGAGGGGACTGAATTCGTGGATGA
CTCTGGAAAATAGAGGTTAGTAATATATTAGTAGCTATTATTTATCATGTATTTATTATGTGCTATTTGCTACTTGTGTCTAATATCGTTTCTCTATTTC
CTCTTTTTAAGTTATTTTGGAATTGCCTAGTATTCTAAAAAATGTTATGATTGTGTTCAGAATGCCCCTTTTATAGTTTTCCCTTAAATGGTGATGGTGG
GCAAACTTGAAGACATTAACAAAAACATAATTTTCATTTAGTCTTAGATAACACCAAGGTGACATAGTAACTAAGTGGAGTTGGTGGGCTAATTCCTAGT
GGAAGCCTGGGCTCGTAACAGAACATAAAGGCTTTTCCAAGGATGAAACACTGGTGAAGCTCCTCCTTCAAGTTGTATATGTTTGCATATGTGAAAATAT
GTGCAATCCAAGTTTAACTTGGGAATGCTTAGCTCCTTAGGAATTTGCTACTGGGTTAATAACTCTTCCCTCAATTACTTAGGTTGGAAAGTCCTCAAAT
TTTACCTTAGATCAGGATTGGCAAACTTTTGGCAAAGGACCATATAGTAAACATTTTAGGTTTTGTGAGCCATAAAGATCTTTCTCGACCACGCAGCTCT
GAAATTTGTAGTGTAAATGCAGACACAGACAATATATAAACAAAGGAAAGTGCCTGTTTTCCAATGAAACCTTATTTACAAAAACAGGTGAAAATTGTGT
TTGGCCTGAGAGTCAGTTTGCTGGACCACTGGATTAGATTCTCAAGGTCACTTTCAATTCTGAGGTTATGGTTTTGCCAGATTATCTGAGTTATTCATTC
CTGATGAGTTATGGAAGGAGAGCTCCTTCCAACCAGAAGTCTCTCTTTGTACAAGCAAATGGCCCATCACGGTATTTTCCTAAACAAAGGCATTTCCCTC
AGAAGAGGAATTCTGCTGCTACTGTTAAGATAATAAGTACACCACAGATGGTGCTTTCATTTCAAAAACAACCACAACATAAAAAAGATATAACATTTCT
GTTTAATTATTGCATTTTTCTATCCTATGACTTGATGATTTAGTTTGGCAGTGGTGCAAATTAATATTCAAGCTTCTGCTGGAACTCATCTGTTGTTGAT
TTTGTTGTGGTGGGGGTGATGGTTCTAAACATAGTCAAGGAGGCAAGGTGAGAAAMAGATACATCAAACTCCTTATCGATCTCGTTTTGGCAGATTCAAA
GAGTTTATATTTAAGCCTAAATTTAAATAAGCATTTTCATATTATCACTGCCAGTTTTAGAGAGTGTTTCACTGGCACAATAATTGTATTATCCAACTGT
ATAGCAACTATCAATTAGACTAGGACTGCCTTGAGAAGCAAAGTAGGGCTCCTCTTTCTTTGGTTCTTGCTGCTGTACATTGGAGGTCTCATACTGAAGG
CTCACAGGCTTCCCTGTGGCCCCTTGACCCACTCAAGGTTGAAAAACAAAAACTAAGAAATAGTTGCCAATGTTAAAAGGAGATTATCTGTAGAAACTTA
CATTTCTTACTTCCTTTGAAAAATCAGATCTTCTAAAGATCTAAGGTTTTTATTTTCACAGGAGAACCATGTGAGGGACGGCTGCTTTTTTAAAAAAATC
ATTGCTTCTACCACTGTCTTCATCTCCTCACCACAGAGCCTGAGTCAGAGGCCATTTATCCTCATTACGGTGCCATGATCATGCCAGCTTTCCTCACTCC
TGTATCTACCTGGTCATTAGAGGCATTTGAGTTTGTGGCCCGTGCTGTGCACATTATCCCTGGAGATCTCATCAATTACAATTATTTCCACCTACTGGAC
TTTAAGTAGTTCTACCTATTGGACATTTTCAATGCAATCTGTTTTCCTAAAGCATACTGCAGGATTGAAGCACAAAGTATGACTGTGCAATTACTCTCAA
GAGCATTTTTGTTTATGTTGGTCAATGTCAGTTTTTTAGGTCCCTTATAAGGAAATACCTTTTAAAAATTCATGCCAAGAAACTTTTCATTTTCAAAAAG
GAAAATATTTTCTTTCTTGAATAATTTTTGTAACATTATAGTCTTTCTCTTTTTGTCCTGGCTACCAGAAAGTTCAGAAGTCAGTGTGTCATAATCCTGA
TATTATTTCTCCCCTTACTTTGTGTGTTCTGGTTCTCTATTTGTAATATTAATACTAACTATTAACGTGAACACACATATACTCATGTGCTACAAACAAC
TTTCAGGTTCATTTTGTGAGAGATTAGGGTTGAAAACATCAGTACGACATGTTCTTAACTTTTCGAAACCATCCTCCACACTGACAACAGATTTGTATTT
ATAACATACGAATCAGGCCCTATTATTATTCCCTTGCATATTCAGRAATTCAACATGTCTTCCTCTCACTTATAAGACATCTAATTTGTTTATTAGAGTT
TTCAAGACCCTTTATTATGTTTCTCAAACCTATCTTCCCATCTACAACATTCTCCACTTCTGTCCCACAAAGCKTGTATCTCAGTGATGAACTATTTACA
GTTCTCCAAATGTACCAGGCCATTTCCCACCTCTTGCCTTTCACAATACCATTTATTCTCCCTATAATCACTCTAGTATTTTATAGGTAAGTCACTCATA
ACAAATATTATATTGTTCTGTCATTTTTCAGTGAAATGAATGACTATTATTTATCTTGGTATATTTCATGCTGAACCCAATATTTTGTGTAAAATGGTTT
TCATTGACTAATTATGTAGCTGACTTTTGGTGAGATTTTCACAGAATTGAAATAACTGATCAGGATATATTTTTTACTACAAATAATGAGAAACTTTTAA
AGAATAATTATTGAGTGCTCACTGTATACCAAGTTCTCTTCTAAATGTGTAATACGTATTTATTCACTCAATCATCCCAACTACCTTATTGCCCTATGAT
TTTTGTCCTCATTTTAGAGATGAGGAAACTGAAGCCCAGAGAGATTGAGTAATTTCCCCAAGAACACACAGCTAGTGGGGTCAGGGTTGAATCCTACTGT
CTGCCTCCACAGGTGATGTTTATCTGCTCCATTGCTTCCCATTTACGTGTTGAAAGTATATCACTTATGACATCAAATAGCAACTAACCTCAACTTCCAT
TGGTTCTATCGGTTCTATAGGAAATGCTGGGATTATTTGAGACTTCAATATTGGAGGAACAGATTAAGTTCTCAAAAAGTTTTGAGAAAATGTATTAGAC
AATAACATCTTTGAATGTAACATGTGCATTTGTGTGTGCATTAATTATTTAGCCACAAATAAGAAGGCTGAAAATATACCAGTCTCCACTATCACAAGCA
ACTGAAGGCAATAGTTCTACAGAAAGAATCACCTATCTGTGAAGTCACGGGCACAGCTCACAGAAAGGTGCTGTGGAATTGACTTCTTTGGAGTCCTATG
ATGTGAACATTTCATCTGAAAAGATATAGTGTCAGAATCCTTAAGGTATCCACCGAGAATAAATTACTTCCTCTACATCAAGCATCTTCTTCTCTTCCAT
ATTCAACACAGTGAATTCATAATGGAGACAATACMTCCCTAAGTTGCTGATGGTGTTGCAAGCACCATTCATGTTTTGGACATTATGGCAGTGACGATCA
GAAGAGAATCCTGTGGACCTACGTTTCTGGTGTTTGTAGCAACAGGATGAGCATCAGTGAGCCAGGTTCTGGGCAGAGACACCCGAAGCCCAGGAGGCAG
AGCCAGATTCCCCTGACTTCCACTAAGTGACCCACTAAGTCAGCTCTCAGCATGTCACTCATAGCTGATTTTGAGATAGGTTTTTAACTGGTAAGCAATA
TGCTTAGGTGCCCTGCCCTGTCTCAGTGAWAAAGACAAGTGAAATGCCAAAGTCTAATCCTTTTGTTTGAGAAAGTATAGTTTCAACCAATATATTTATT
AGTCTCTTGGGGAGAAGCCAGATTTATAGCATTCCATTTTGTTTTACTCACAATAAATGCATGAACATGTACTGTTTTATCAATCTTTTTTTTCGGGCGC
ATGGCCTGGACATTGACTCAGTGGACTCTCATTTATTAGTGAGAAAACTAATTGGAGGATATATGGAGATGCAGAACTCAGTAGAAAGCCAGAACATTTA
TTTGGATGGGATCTTATTCTAATCTGAGGTAGCATCATCAAGAAGAAATAAAGATCTACATAAGTTGCTCCAGGAGGGGGCTAAACCTGTCATTTGGCTA
TTGTGATTTCATCAAATTGATCACTGTAACTGTCATCTTTGTCTTGAAAAGCATCTGCCACTAACAAAGGCTGTTCCCCTTGGAAAACTATTAGCTCTCA
GTGAATGAAAGTTATTCAGCACACTGAATAAATTGTCTCCTGCATGAGACAGCATTTGATAATTCACACTTTTATGGGGAATATTGAAAGGAAATTTCTA
CATGACATTAGGTCACATTCCTAATTACAGTTAGCATAAAGTCAAGCCCTTAATGTTTTAGTTTTTAGCCCCTAAGGAATATTTTTCAGAACAGGTATAC
AACATTTTTAGAAGAAAACCAAAAATTATTATTTTCTGCAATAATAAAATCWATTAAAGAAAAATGAAAACTTTGTGTATATTTTTTAGTCCAGTGGTAT
TTTCAAAAAGATCAAGGACAGTAAGGATCTATTTTCCATCTATATTTTATATACATATAGAATAGCACASTGTTGGACCTATTTAAAACTAGCTAGGTGT
CTTTCATGGTCTATAACCAGACAGGTTGAACTTCAAATTTATTTTTAATAGAGGGCTATCAAAAATGCATATGTAGATTGTACCCTTATTAATTTTTTAT
TTATTTGGCATGGGATTATATTCATTATTATTCATCCCAAAGTAAGAAGTATATAAAAATCATCTGTGAATATTTCTGACATTAATAATAATTGTAAAGT
AGTAAGCTTTGTGCTGCTCATCAATTAATGCAGACCATGGCATTGAGCATAATAGTATTTAACAAACTGTATGCTTTCCAAAAATGCTGTGTGGTTTTTC
AGTTGGAGCAGCTTTTGATGTTTATCTTCAAGAGTTCCAACGGGACTCAAACCTTTGGAGCCCCATTGAATTATTTTCAGCTACTGTCACTATGACCAGC
TAACATGACACCTAACCTCATCTGGTTATACAATAGCTCTAGTGGCTGGCAAGTAAGCCAGCTGATTGTCTAAGTTTTAGTTTGAGGTTTCAGTTTGTTC
CTTTGTAAGTAAAATGTATCACCCTGTGATTTCAGTGATCCAAGGAGCAACTGGCAACTGTAGAGTATTATATCACTGTTCCTATGGAAACATGTAAAAT
GGATTATAAAATATCTGAAATGTGTATTTTATTTGGTTCACTTTATTGTGAATATCTGATGCTACTTTAATGCTCCCTTTCTGATTATACTCTGGTTGAA
TTGTCTTCTGTTTAAGTTAAATCTTTAGTTTGCTCATGTATTGTTTTCTTATGATATACTTTTGCTTCTATATATTTTCAATAATAGTAGGTTCTTCTCA
ATTTATTGTATATTTTAAAAATGTATAGACAATTACTGTGCGCAGGAAGGGGTATATCCGGTCCTCCATGCCAAAGCACTCTTTCACCATGCTGGGAAAC
TTTCTAGAGAATGAGTAGAATGTACAGTGAAGATCAAGTTCCTTCCTCTAACTTTTGTTTCATTTTCTCTCCACAGGAACTTTTTACCCCTGAATGCAAG
TTTAAAGAATCTGTTTTTGAAAATTATTATGTAATCTACTCATCCATGTTGTACAGACAACAGGAATCTGGTAGAGCCTGGTTTTTGGGATTAAATAAGG
AAGGGCAAGCTATGAAAGGGAACAGAGTAAAGAAAACCAAACCAGCAGCTCATTTTCTACCCAAGCCATTGGAAGGTGAGTATTATGCATGCATTATTAT
TACATAGACTTATTACATATTTTATTTTTCAAATTGATAGGTCTACCATGGCTCTAAGAAACCTTCACAAAGTGCTGGAAATGTCATTTATTTTGATCTA
GGTGATGGTTGCACAGGTGCCTACTTAAGTTATTGATTTAGAATTTGTGCCCCTTATACACTTTACTATATTTGTGTATGTATGTGTACCAGGAAAAATT
TCTTCTCTGCCACCTCCAAAGGCTCAAATCCTCACTGCTACAACCACTCTAACCCTTAGATAATTTAAATTAATTAAGTTAAAACAATTTTAAATCTGTA
ATGATACAAATCTGCGATGATAAGTATATTAGAAAAAGATAATAAGTATATTAGAAAAAATAAGTTTTGAGCGTGGAATCAAAAGTATTTTCCATTTTGA
TATTATCTAGGTGAAAGTAATTACCTACTTGTGGATTATTATAATTACAGAAAAWTAAGAGATAATAGCTTGACTCTTAAAGAACTTGCTGATATTACAC
ATCTGCTTTCAAATTGTGTAATTCTTCACTGTATACATTTGTAGCATTACTTCTTTTACTAAAATAATTTATCCACATTCATTTGTGTGCAGGAAGGGGT
ATATCCAGTCATCCATGCCGGATGAATGGAAATTTCACATTTACTCCAATCAGATACCCAAAGAGCAGGCTACAAAGTTTTTTTAATTAATCAACAACAT
CTGCACCTCTCTCATTAATGATTCTGCCAAAAGTGTCATTTACTTTTATCTATGTAACATTTGAGAATTACAAAAATATTTGATTTTAGGATATTCACAT
GTGTTTCTATTCAAGTTCTTTTGTTTACTCTTTTGCAGAAGATCAGATCTACAATAACTCAGTAAATATTTTAAGCTAGCTTGGACAGCTCAATTTTCTT
TTTGTGTTTTATTCCTACAGGAAAGGCTTAGCCATCACGAGAAAATGCATATTGTTTTCATAATGCATATTCTCTATATTGAAATAAAATAATTTAAAAA
TTTGAACAGTCAATTCTTCATCATCTGTGAGTGTATAATTTTCAATTTGCCTAAATTCAGAAAATCGCTCTTGTTGGCTAATACTACTTCTGTAATTTCA
ATGATGTTGACTTAGTGKCACTCTTAATTATATTTTTCTGTAGAACAATTTATTGAAACCCAAACAGTTAGCTACCAGGGCCTATACAGGAAAAGACAGA
TTATTCCAGAGTCTGAAATATGAGTGAATTATTCTCAGTATATGGTGGATCATAAGGATGATTAGAGTAGAAAGAAGTTAGAGGATTTCCCTGTTCCTCC
CAAAAAAAACACATCCATGATACACTTTCATTGTTTTAAATAAATTTTGATAACATTGGACTCACCTATATTTAAATGCAAATAAAAAATTAAAAAATAA
GCCCACAGAAGCTCTAATAAGACCATTGTTTATTTGCCACCGTGCTTTATCTCTTTTCACTCATTTTATGTTTTGTAAATAGTTAAGAATTGACTAGATT
TTTAGAACCTTACCCTTTAGCTGCATAAATGTAACAAAACCCAAAAGGGCTGTTATGTCATTTAACCGAGGTAAAATTTGGGAACCAGTTATTTTGCATA
TCTCATAGAAAATATCTGAGACAACAATGATGTGGTATAGAATGATACTTGGTATTTCACTCATGTATTTGTTATGTGTATATGAGTGTTTTGTGTGTAT
ATATACATATATATATATGAGAAAGAGAGAAATAATACTTTTTATGTTTTCAAAAAATTAGCAGAAGTACTCTAAAAACAGTTAAGGGGGTAGGTACTAT
AACGACAGAGATTATCACATTGTTTACTTGATAGAGGAAAATTAATTTCAAACTTTCAAAACCCATACCGAATATAAATAATGTTATTGGAAATGTTTGA
CAAATTAAGTACCTGGTTAATTATTGGTACTCTAGGGCATTCATATCTTTGTTTTATATATATATATATATATATATATATATATATATTTTATTATTAT
ACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTGACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCAGTAACTTGTCATTTACAT
TAGGTATATCTCCTAATGCTATCCCTCCCCCATCCCCCCACCCCACAACAGGCCCGTGTGTGTGATGTTCCCCTTCCTGTGTCCAAGTGTTCTCATTGTT
CAGTTCCCACCTATGAGTGAGAACATGTGGTGTTTGGTTTTTTGTCCTTGAGATAGTTTGCTGAGAATGATGGTTTCCAGCTTCATCCATGTCCATGAAC
TCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTGCTTAATCCAGTCTATCATTGTTGGACGATACAACTTCACTACATAGA
AAATCAAGGTCAATGCTTCATGCTTTTGTCTGCTAATTTAATTAGTAATAGGAGTGAGGGATTGGAATGTGCTTTCAGGATACGCATTAGTTCCTTTTGC
TACCTTAGCAAGTAATTTAATAGAAACCTTATGTACATTTGCACTTTCAAGTATGTGTGCTGATGAAAACTCACGTGATGCATTGATACTAAAGGCCACA
TTCTACCCCCTTGAACATAGGGAATGCATATGGTAGTTCATCTTAACTAAATCTAAGGGCTCTTCGTAAAATACCTTAAACTTTCAAAAACCTAAAAAGC
AGTTTGGGCAGCTCTAATGCACTTGTATTTCTGATGGCAGATGACTTTAATCCCTAGTTTTCCCCAACCATCAGTCACTCTTATATGTCCTTTCTCAGGA
CTTCCAGAAATCATTTTCTAAAAAGCCACGTGAACTACTATGATTATGCCACCAGACACTATTTAGATAAATCCTCAGAGTTTATTCAGGTAGTTTCAGT
TGCTGTCTTGCCATTCTGTTTTCTGCCCCTGTATCATGTCAATTATTAGATTTTTAATAACATAGCAGAAAATGAGTTGCCTTCTGCTGCCCAAGGGTCT
TTTTCCATGATTGTAGGAAATGAACATTGAAATGATAATCTCCTGAAGGCTCTGGCTTATGGGAAGAGAGTTATTTGTTRTTATTTTGTGTAGCTTTGAA
GTTGACACTAGTATGACTATGTTGCTTTTGAACCACATGAAAGAAAGTAATTTAATGTTCTAGGATGTAAATACCGCAGCTCACAAAGATTGATTGAAGT
GAATGAGAAGTTCATGTGTTGATATTAATGTGCAGTGGAAGGGATGTCTGAGTTTTCTTTTTTTGAGAATTAAGTTAAATGCCTGTCATTCTCCTATAGT
GTGTGTGTGTGTGTGTGTTTTACATCATGGACCCACAAAGAGGCCATAGCTCCCATTTAAACCTGCTGTCCTAGACAAAAATCCATGCACACTCATATAC
ATATTTTAGGTATACAGACCAGAGAATGTGAAGGGAGTAATGTCCTCTGTGGGCTGGAAATGATTGCTTTACAACAGGAATTCTGTCTCAATGGAATTGC
TTTACTTCAGGGAAAACAGAAATGGGCAAACTGCAGTGGTCTATGCAGGTATGGATGGACCATTCTCACACCTAACCAAGCAATGTTTGCTTTTCCTCCT
CCTTTCTTCCCATCACTAGTTGCCATGTACCGAGAACCATCTTTGCATGATGTTGGGGAAACGGTCCCGAAGCCTGGGGTGACGCCAAGTAAAAGCACAA
GTGCRTCTGCAATAATGAATGGAGGCAAACCAGTCAACAAGAGTAAGACAACATAGCCAGATCCTCACAGGTGTTGTGACTTATTCGTCCTGAGCACAGT
TGAGTGATTTATCCTCACCAGACATTCCTGCTCCGTGGCTGAAGAGCAGCAGGAAGTAAGCTAATGCTTATTCTTTGCTGTCTCCGAACTTCTCTGTTGC
AAGTGGATAAATCTCAACCTGTTGCACCCCCCACAACAAGAAGACACCTGGATAACCAGCTAAACTCAGACCATGGAATGCCCTACCAGATATGGAATGC
CTTTTTAATATCTTTTCTGTGACTGTGACACTTCATGTGAATGACATACTTCACAAGTACACTCGATACCTTGCCTGCTGACAGCTACCCATAATCCTTT
TTGAGTCCTGTTTCAGCGAAATCTATGTGTTTAAGTTCAATTTTGTAGCACACAAATAATATTGAGTAATTTCTAGTTAGACGCTGTAAACCTGTGCTAT
TACGGATTTCTCTTCTTCCCATTTTTACAGGGCTGCTCGCTCCACTGTCTGTGACCTTTTGCAGGGATTTTGTTCCTCTAAATCTTAAATGTTGCAGTTG
GCTTAGGTCGGAGAGCAATCAGGGAATCAGGAAGCCTTCTAAACCTATTATTACAAATTGCATCTATAAAGAAAGATTAAGAAAGATTGTTGTCTCTGGC
TCACACTATCGATTAAACACACATATACGCTCTGTCCAGTAGCAGATACTGTGCTCCCAAGGTCGGCATTGCCTGGGTGGGAAATGGCTCAAACACAATC
CAGGGAAGCTCTCTATGATATGTGTTTGACATCCCCCTCTAGTTTCTTTGTGTGTGTGTGTTTTATACATATCACAAGCTTACTGGTAATGGTAACATTT
GCCTTGCCCAGCGAGCAAGACCCACTGGTTTTTGAGAAAGTGGGTCCAAAGATTTCTGTAGGCCTTGTAGGCCTGATTAAGGTTCATTTTTCATCTATTA
ATTCTCATTATTTGGAAAAAAAAAAAAAGGAAAATCAGTAATTATAACCTACAAGAATTGCGCTACCTAAATCCATTTCAGATATACTCCGTCCTGTTTT
TAATGAACCAAACTTAACGCCATCCCCGTTTCTGGCTGCGTTCCCCTCATACTCAGCAGAGCATGGGCAAGACGGCTGTTGTGTTCTTTCCTGCAGCAGC
AATGCAAACGTTAGTTATAAATTAATTAGACTTTAATATTTTTGGTGTTTAATGACAAGTTTTTAAACTGGACATATTAGGAAAAATATTTTTTTTAGCT
CAGCATGCTGAGTCCGGTACTGTGTATTTCACCAGTACATGCCTCTAGCTCAGCATCTGGGGCTCATGTTGCCCAGTGGCTGGGTTAGAGGTGCCTTGCC
ATGATCTCAGAATACAGTCTGTTGAATTATCCTAGATGAAAATAAAGGCAAACCAACACATTCATCCATGAGGATTTTGGTCCATTCCATTTATTTTCTT
TTATTTTGCATTCTTAATTTCCTTTTTAGTTTAACACTGTTTGTTTGAGCTTAGGGAAGACAACTACCAAGAAAGGCCAGGAACAGTTGACTACACAATG
AAGATTCCATGCAAAATGTTCAATATTGGATCTAAAGGGGTTCAAAATGTTTCATACTAAACTGTTTGGGAATATATTTGTTAACTCTGTGTACACCTAA
TAAAATTCAATGTTTTCTTCTCAGAAGAGTTCATTGAGACCAAACTGAACCTCATTTATTGAAAATTATATGTGGGATCAATGTACTGGCCTCTTGTTAT
TCTTTCTATGTGGGAGGATGACCCAGTCATCATTTTCCCCATCTGCACTGTATTTATTGGGAAATTATTTTGTCACTGCTTTCATAAATCTTCTTCATGA
CAGCCCTTGCCCAGCATTAAAAAATTCTGGCCTGCTTAGCTGATTAAAGGTTTAGTAGAAATTTAACTGTTTGTTTATGCTTATTTCATTTTCATATTGG
ATTCTACTTGAATAAATAAAAAGTTAGCAGAACGTTTGAGTAGATTTATTGCCAATGATGCTAAATTACAAATCTAACAAACAAAATGATTCCTTTGGTC
ATTTTTGATTTGGTGTTATGTCATCTTGAAGCCTATTGTTTTTAACAGGAACAGTTAAAATATATTAGATAACTTCCATTAACCAATTATTTTCAGAAAA
CATAGATCCCATAATATGTGGCCAACTATATGAGTAATTAACTAACTTGTAATACAGTCAAATGGGCTTATGGACACTACTTACAGCAGCAACACTTCAC
TTCACACAAACACACACATATACACACACACACACACACACACACACACACACACAGAGCAAACACCCCCATCTATTTGTTACTGATAATTAGCCCTACT
TGCTGGTTTCTTTTTCCCCTGCAAGTCTGTTTATTGGTTTAAATTAAGACAAGATTTATTTTTGTAAATGACTGAGATTTATGTAAATGTGTATCTCTGT
TGTGTTTTATATATGGGGTGTCTATAAGGGCATTTATCCCTATGAAGGATGTCAAATACTTTCTTCTAATATATGTTTAGACATATTGCAGAGGGGTCCT
TGTTATTTGTAATTGAGTTAGGTCATTTACTTTGTGTCTGGTCTCACCTGTAGCATGGGAAGAGGACAGCAATGATGAGCTGCATGTAGTAGGTACCTGT
GTATCAAGAACTGTTGGTATGTATTGCTAATTTGCATACAAAGAGTTTGTCTGTCTGCATTGTAGTTTGTGTTTAATATCATTTGTTAAATTCACAAATA
CAACATATTGAATAAAATATTTATATGAAGGCATATTAAAAAACATCAAACAACTTTATGTAACAAAATGGCATTGCATTACTCACCAATATAGAGAAAT
GTCATGTAAATAAGTTGGTAAACTCAATTTCCCCCTTTACCATGCCAAAGAAAATTTTAGCTCTTTGATGATACCTCTCTTGCTATTTGTTTGGGATAAG
ACTTCGCCATTTTTTTCCCCTCAGAAATTAAGTTTGCTGTTATTAAGTAAGAAGTGCAATCTGTCACTACTGATGTTCCGTATAGTAAATCTGATGGAAT
TCATTTGTATTTAGACTGTGTGTTTTGTACCTCCATGTGCATATGTCCATTGTATCAAGTCTCTATAATACTCCATTCCTTCTGCATGCATATCTGGTGT
GGGAGGGTTATTTCTACTGATTTGTTATAGTAGCTGATTGCTTTGCCAGTCCCTCAACAACGCTCAGAAATGTTGTTTTGGTATTTCAAGTGACAACATT
TTTGTTTTCTAATATAAGATTGCTTTTTAAAACATTTTGCTACCACTTTACTTGGAAAAATTAGAGAAGACATGACAATTCTCCACCCTATGTAAAGAGC
AAAATGGAACTGAACATCATTTCATTACAAATCCTGAAGAATTTGGAGATTCTTGCTCTAAATGTTTGCTTGTCCTGAATGTTTTTGGGTAGCAGTGGCT
TAAAGAGATCCACGATGGGTCCAAAGGACTCCCGCTCCAGTTCTTCTAATAGTTTGCCTCTTGGGGAGCAAGCAGAAGTTCTTTATCATACCTAGCCACT
TGCTTAATTAATGCTTTAAGCACTAAAAGTTGTTATTTTTATCAGGATGAACAATATCAGATTTGGTTGTCTTTAAAAGCAAAAACCAAAAACTTATTCT
TTAAGTAAGTTAGACACGTATCACTTCATTTAAAATTATCTCCCTAATATTATGGATCATTAATATTTGATACATATTCAAAAAGAGACCACATTGACTA
ACATCCAGTTGAGAACAAGATGAAAATAATTGAAATATTTTTTCCATTTTAATTCAGAACAAGGCTATATCAAGGGAAAGCGACTGGGCTAAATCCTCAA
TTTTTTTTTCCAAAATGCAGGCATATCAAAATCCAGGATGTACATGGTCTTACTTTGAGTGAAATAGTAGTCATAGCTGAGGTTTCTTAGCCTACAATGT
GACATAGGGCCTGTTGACTCTCTTGAATATGGAGTAGGGTTTCAAAGTGTTGACAGTTGAGTCTGCAAACTAAGGCTGAGTTATATTTTAGTTTTTTTTT
TTTTTCCTGGTTTTCACTAAGTCTAATTCCAATGTCTACTGGCAGAGATTGTGTTTGCATTTGAGGTAGTGGAGGGCGGTACTTTCCAAGTGCTGTTGGA
ATCCAGATAAACTCAAGGAGCCCAGAAAGACAACGGGTATAATGGCTCTCCTCTTATGACTTAGCACTTTAGTTGACTTTTTTGAAAAAGTCTCTGGGTG
GAATACCTCAGTGATGATGATTTGCCAAACAAGCAGCGTTAGTGCCAACACCTTCTCTAAACTTGCTGCATCCCTTCCAATTGACATTAATCCCACTGCA
ACTTCCTAAAAACAGGAATGAGCCAATGAGATTTGCTTATTTTCTCTCACCCATTACAAGTAAGTTTGTTCTTGCCCTGCTTGTTTTTTAGAGGGAGTTT
CTATCATAGAGTTGAAAATCACATTTAAGAAGGAAAGAGTTTATGTCTTTACATGTAACTATTTTATTTTTTCCAATCTAAATTCAATCACTTCTTAATA
GATATATTGGTGTTTGCATTGCTGGCATCAAAACCACACATACACACACAAACACACACATACACACAAACATAGTGGACAGAAATAAGTAAAAATATTT
CTGTTTTCAAAGAAAAAGCATTCCTTAGAGTTTAGGTACCATTAACTTCTACTATAATACAGTTCCGGTACTATGGTTTCTAACTAAATGAACACTAGAA
CAGAGCTGACTATATTTTCATCTTTGTCCAAAATTTTAGATGAATCACATTTTGAACTTTTTATGGTATGATAATTTCTCCAATATCTAAATTCTTTTTC
TGAGAAAACAAATGCCGAGGACATTTTTGACACTCTTCTTACATGAGACTATGAAAAAGAGCAGCACTTTTGTTGTAGTTGTTGTTGTTAATAAAAAGGA
TAATAACATACAGAGGATTATAAGAAAAATAAGACATACCTGAGGTTTTGTGATGAGCTATAGAGAATCAAGGGCAGTTCCAGTGGAGCTGAGGCTGACA
AAGTACTGCCCAGCTGCCAGCCAAATCCACCCTTAAGTTGCTTTTGTATGGCCTGGGAGCTCAGAAGGAATTTTTTAAATTTTTTTTACAGCTTTAAAGT
ATTAAACAGAAACCAACAAAGAAGAATATGAGACAGGGACGTACGTGGTCCGTAAAGTTTAACTTTCTGATCCTTAATAGGAGGATAAGCGCCGTGATAG
AGAAATCCAAAGGTCATTTGTATTACGATGGCTAGATAATGTAATGAATTCCAATGTCTGTGCATCAGCGAATACGTCATCAAAATTGCTACAAAACAAT
AATAATAGGTTGTTCACAGCTTAAAATGTTTAGGTAGTGAAGAGGAAAGAATATAACCTACATTATTTATTGACTACTTATATTTCCCTCATTTTACGGA
AGAGATCTATCAATTTACGTACTCAATAATAGAACTACAACATGGTTGCACTCCTTAATCTCAGGATAGAGATAACAATTTTTATAAATCTATTACATTA
TGAGAACATTGTTAGTACTATAAAAATCAGGATCAGTTAAATGTTCTCTTAAAATAATTTTCAATATTAAATTTTTAAGTAACTCAGTGGATGCATATTT
TCCTTATTTTTGGAAATTTGACTTATAAAGTTTAAGCCATGACTAGAATATTTACATCATTAAAATAAAATTTCCAAGTAAAAATTTTCATCTTAAAGTA
ATACGGAAATGATTTTGCTACATTATTCTAGGATTTTACAAAGTAATTCACCTTTAGAAAAAAAGTGGTTTTTTTTTTAGCTCTAAATAATTAAAGGTTG
CCTAAACTAATGTGTATAAGTAGATTTACCTGTAAATATGTAAGGGAAGTCCCAATTATTGTACACTTTCATAATTCAATGTGAATTTCATACAAAGCAA
AGTTTCACCATTAAGAAAATAAACATTTTGTTCCTATCACTGAGTGAATATTTGTAATTTCTATTTAAGCCATTTCTAGATTTTTTTTTTTTTTTTGGTC
TTTTGTGAGCTTCTGAGATTGGTGCCATTTTATCACAGTATTTCTCGTCTTGACTTCTTTGCATGACCCCAGGTTTCCAGTAAGTAAGGTATCCTTAGAA
AAAAAAGTATTTTAAGGGAAATGGATGCATACTTCAGGCCCATTTTATATGTAACTCAATATTGTCTTTTTAAAAGGCCACACTACCATGGAATAAATTA
AAATAAAAAATCAGATTTCTTGTACGCATAACCCCTGCCCAGTTTTAAAAATGTGATCCCTTATTTCTAGAAACCTAAAATAGATATCCCTGAATAACAA
TTCATTTTTAATTATCAGTAGATATATATA


SNP Information

Context             (SEQ ID NO:64323):
GCCTCAACTCTGGAGGATGAATAGATCAGTCCTTGCCATGTGCAGTTATTTTCTTAAATTCACCCACTGCTTATTTTTTTAACATAAAACATTTAAAGAA
W
TGCTTCCTGGCTCTAAAGCAAATGTATAAAAAAAAAAAACAGAAAATATATTTTTTTCAGACAAAGTTCCCAGTTTACTGCTCTACTATTTATCTGAAGA
Celera SNP ID:            hCV11492181
SNP Position Genomic:     40234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64324):
GTTGTATATTTCCTCAATAAGTTAGTTCCTTGATAGTTCTATGTCATTCTTTGATTTAAATAATGTTCCTAGAACACTGCAGTAGATATTTGAGTACTAT
Y
GATTAGGTTGTTTAGAAATGCAGTGTGTTCTGTCCATTTGCTCCAAATTAACAATTTTTTGAAAAGCATCAGGTTTAGTATCTTACTATTATGCTAACCC
Celera SNP ID:            hCV2699080
SNP Position Genomic:     151985
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64325):
AATCATCTTTGTAATTGGTACACACACACCTATATATATATATAGATAGATATACACACACACACATATAAACACACCAATTGGCATATATATATATATA
Y
ACACACACACACATACAATATATACATATACATATATATATATACCAATTGGTATATACACACACACTGCAATTGGTGTATGTGTGTGTGTGTGTGGGTA
Celera SNP ID:            hCV9907924
SNP Position Genomic:     183832
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64326):
TTATCCAAATGTTTGTTTTAATGAATCCCACTTATAAAACAGTATTTAATATTTCAGTTAAAATGTTTGTGTTTTGTAGTCTCACTAATATATACAATAA
Y
GAGGTAAAGATAAAAATATATAGCAAACATGAGGGAATTACTAACAGCATTAATGTAACAGCACACATTAGCCCACAATGAATGGTTTGTACAAAAATTA
Celera SNP ID:            hCV2699081
SNP Position Genomic:     152463
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64327):
AGGCTTTTAAGATTGGCTCCTTTCACTTAGTAATACACACGTAAGTTTATTCCATGTCTGTTCATGGATTGATAGCTCATTTCCTTTTAGAGATGAATAA
Y
ACTTCATTGCCTGGATGTTCCACAGTTTACCTATCCATTTGCCTACTGAAGGCCATCTTGGTTGCTTTCAAGTTTTGGCAAATTATGAATGCAGCTGCCA
Celera SNP ID:            hCV2699083
SNP Position Genomic:     153179
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64328):
AAACTCAGAAGGGAACAGAGCTCAGATGTTTGTACCTTTCTTTAAATGGAAGTAGCTTTAAAGTGTTTATCACTATCATTTCCAACTATCTACCCATTAG
R
TGGAGGTCTCTAAATAGTTCTAGATATGAACAGACAAGATGAGTGATATTCTTGCTCCAAAATGTTACTTCTTAAATATATGAGCCTCAACTCTGGAGGA
Celera SNP ID:            hCV11492185
SNP Position Genomic:     40050
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64329):
ACTCATATTACTCAACTTCTCCACTGCTTTTGATGCTGTTCAACACTCTTCTGAGAACTCCTTCCTCCCATATCTTCTGTGTCTATTTTGCCTGTTTTGC
Y
CCCTTCTGTCATAATGCCCCTAACAACATATTGCAAGAGTCTGCTAAATAAATATCTGCTTCCTCTTATTGTCTGTGCAATCCTGGAGGGCAGGGAGTTG
Celera SNP ID:            hCV2699084
SNP Position Genomic:     156298
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64330):
AAGAATTGGAAAAAAGGAAGAGAGGAAGAAAAAGAGAAGGTTGTGACTTCTGCCTCCATGGACATCATGAGGAAACACACACGTGCCTTGACTTGATGGA
M
CTATGCAATTCATTTTTTAAAATATTGGCATTTCATACTCACATCAAATATCTTGCACCTGAATGATATCATTCCAGCTAGTACAGTTTCTGGTTATAAA
Celera SNP ID:            hCV2699085
SNP Position Genomic:     156557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64331):
TTGGAAAAAAGGAAGAGAGGAAGAAAAAGAGAAGGTTGTGACTTCTGCCTCCATGGACATCATGAGGAAACACACACGTGCCTTGACTTGATGGAACTAT
R
CAATTCATTTTTTAAAATATTGGCATTTCATACTCACATCAAATATCTTGCACCTGAATGATATCATTCCAGCTAGTACAGTTTCTGGTTATAAAATTGT
Celera SNP ID:            hCV2699086
SNP Position Genomic:     156562
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64332):
CATCATGAGGAAACACACACGTGCCTTGACTTGATGGAACTATGCAATTCATTTTTTAAAATATTGGCATTTCATACTCACATCAAATATCTTGCACCTG
M
ATGATATCATTCCAGCTAGTACAGTTTCTGGTTATAAAATTGTAGATGAGGATTAATGATTATTAAGCCCGGTTTTCCAAATTATTGAGGCTCACAATTT
Celera SNP ID:            hCV2699087
SNP Position Genomic:     156619
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64333):
GTGTGTGTGTATGTATGTGTCTGTGTGTGTGTTTGGTCAAGATTAGGCAGGGAGACAGGGATCCTAAACTAGTGCTTTTTAAATGATAATACATTTCCAC
Y
GTTTAAATAAGGTATGCTTTTTTTCTCAAGATTTTTTTCAAAGCAGCAATTCCCTTCCCAGTTCCTGTAGCAAATGACCATCCAACTGCTTGAACACTTT
Celera SNP ID:            hCV1620692
SNP Position Genomic:     38046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64334):
GCAACCACTGCCCTTATTTATGTTCCATCTTGGTGTCACTCTACTTATTTGTCCTAATTCTGTCTTCTGAGGCAAAACTAAATCATTCCATTCCCTGTTT
Y
TGTGACAGCCCCACAAATTGTTGAAAATGACATGTCATCATCTTCAGATTAAACATTTTCTTACACGGTTTTCCCCAGGCCCACCCTGTCTGTCACTCTC
Celera SNP ID:            hCV1620693
SNP Position Genomic:     38431
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64335):
TCATTTAGTGGTATATTAAAATGCTAATTCTCATCCAAGGTCAAATTCAACTCCATACAAGCTGTTTTAAAATTCAGAATTGGTTGCTTTATGAAAAGTA
M
ATTTGAGACTATTTGGAAATAAAGACTATTTGAAAATTTTCTGGCTTCCTTAACTTCAGTACCTCTTGCCATTGTGTCACAGCTTGGGTGTGGTGGGGGA
Celera SNP ID:            hCV2699089
SNP Position Genomic:     157977
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64336):
CAGCCCCACAAATTGTTGAAAATGACATGTCATCATCTTCAGATTAAACATTTTCTTACACGGTTTTCCCCAGGCCCACCCTGTCTGTCACTCTCCTCTC
R
TCTGTCAGTGCCCCTTCACTGTGTGTTTGTATCAGGGGTGGTCTGAGAACACTGGGATGTCCACCTAGAGCACAGCTGAGTGGTACCTGGGCAGCGTGAG
Celera SNP ID:            hCV1620694
SNP Position Genomic:     38537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64337):
GCGCTGGATATTACCTTTCTGTTTATACAGCCTCATTGTTTTAGGACTCACATCATGCTATTGGTTTAATGATGATGTGGACAATTGACAGCAATCTGCT
K
TGGTTGTAAATTCCTCTCAGCTCCTAACAAAACGCTTGGAACAAAGTAGATTCACAATAAATGCCTCCTAAAGGAGCAAGTTAAATATCTTGGCATTTGA
Celera SNP ID:            hCV1620695
SNP Position Genomic:     39309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64338):
AAAAAATAAGTTTTGAGCGTGGAATCAAAAGTATTTTCCATTTTGATATTATCTAGGTGAAAGTAATTACCTACTTGTGGATTATTATAATTACAGAAAA
W
TAAGAGATAATAGCTTGACTCTTAAAGAACTTGCTGATATTACACATCTGCTTTCAAATTGTGTAATTCTTCACTGTATACATTTGTAGCATTACTTCTT
Celera SNP ID:            hCV11422398
SNP Position Genomic:     196655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64339):
CTATTGGTTTAATGATGATGTGGACAATTGACAGCAATCTGCTGTGGTTGTAAATTCCTCTCAGCTCCTAACAAAACGCTTGGAACAAAGTAGATTCACA
R
TAAATGCCTCCTAAAGGAGCAAGTTAAATATCTTGGCATTTGAAAACATGCTTAAACAAAACATAGAAAGGATTTCTCCTCCTGTTTTCCAATGTAAAAT
Celera SNP ID:            hCV1620696
SNP Position Genomic:     39366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64340):
CAGGCAGCAGTCACTGTGGTCTTTAAAATACCCCAAAATACAACATAGATTGTGGTATAACTTTCTCATCTGAGTTTTCCAACTAGCAAGAAAATCTCTA
W
CTATGTGTGTCATTATGTCTCATTTTTCCTCATTTTTAGGCAGTATATAAGTTAAAGAATCTGGTTTGTGTTTTCTCCTGCATATTCTGTGATTTATTTG
Celera SNP ID:            hCV28025265
SNP Position Genomic:     161467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64341):
CCTCCTGTTTTCCAATGTAAAATGTTGTATTTCTGTGGCTGTGTTGCAGAATTCTAGAGATAGATGTGTCTGTAAGATTGATTAAGGGTGATGTTATGAA
Y
TGCCTTTCTAAAATTTTAAGCCTTAATAAATAAAAATGGTCAAGAGGCATCACTTCCTGGTGATAAAATAAGGAGAAACTTTGGGTTTTAGAGATGCATA
Celera SNP ID:            hCV1620697
SNP Position Genomic:     39544
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64342):
GACATGTTCTTAACTTTTCGAAACCATCCTCCACACTGACAACAGATTTGTATTTATAACATACGAATCAGGCCCTATTATTATTCCCTTGCATATTCAG
R
AATTCAACATGTCTTCCTCTCACTTATAAGACATCTAATTTGTTTATTAGAGTTTTCAAGACCCTTTATTATGTTTCTCAAACCTATCTTCCCATCTACA
Celera SNP ID:            hCV11422399
SNP Position Genomic:     192646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64343):
GTATTCTTTTCTTTCTTTCTGTACATAACATCTGGTTTAAATGTTTTTCCTGTCTGGTTAAAAGTGTAGATGTCTACTTGGATTCATAGGTATCGTATCT
S
TGAATGCCGCCTCTTTTCTTCTCCTTCCCTTGCTGTTTGGGAGATTCTGTAGAGAGGATTATTAATAAAAAAAAAATTTTATCACTCCCATCTCCTCCCA
Celera SNP ID:            hCV1620698
SNP Position Genomic:     39818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   (G,-|C,-)   Caucasian(G,20|C,64)   African-American(G,14|C,68)   total(G,34|C,132) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64344):
AATAAAAAAAAAATTTTATCACTCCCATCTCCTCCCAGAAGCAGCTAGAAGACAAATGTCTGGAAAAGAAACTCAGAAGGGAACAGAGCTCAGATGTTTG
Y
ACCTTTCTTTAAATGGAAGTAGCTTTAAAGTGTTTATCACTATCATTTCCAACTATCTACCCATTAGATGGAGGTCTCTAAATAGTTCTAGATATGAACA
Celera SNP ID:            hCV1620699
SNP Position Genomic:     39982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64345):
TTTTCATAGAGCTGAAATTAAAGGAGGAGTTTTTGTTTGGTTTTCACAAACATGTCCTGAAGCATTAACCTGAAATTTTAAAACTGGTTTGAAATATTAG
R
TTTTCTATCCCCTGCAAAGCTGTACTATAAAATTAAAGGAAACCAAAAACAGGCATGGGAATATGATAGTTAGGTGGTGTTCCTGAGTGTGGTATTTTAA
Celera SNP ID:            hCV28003413
SNP Position Genomic:     36872
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64346):
AGGCAGCAGTCACTGTGGTCTTTAAAATACCCCAAAATACAACATAGATTGTGGTATAACTTTCTCATCTGAGTTTTCCAACTAGCAAGAAAATCTCTAT
S
TATGTGTGTCATTATGTCTCATTTTTCCTCATTTTTAGGCAGTATATAAGTTAAAGAATCTGGTTTGTGTTTTCTCCTGCATATTCTGTGATTTATTTGA
Celera SNP ID:            hCV27981489
SNP Position Genomic:     161468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64347):
CTCCGCCTCCTGGATTCAAGCAGTTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGGCATGTGCCACCGCACCCGGCTAATTTTTGTATTTTTAG
Y
AGAGACGGGGTTTCACCATGTTGGCCAGGATGATCTCAATCTCCTGACCTCGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAG
Celera SNP ID:            hCV16252238
SNP Position Genomic:     166224
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64348):
TAAACTTTAGTATCAGTGTGTCAAAATCCACCAACTAAGTCACTGGGATTTTGATTGGGATTGAATTGAATCTATAGATCAAGTTGGAAATAACTGATAT
K
CTGACAATATTGAGTCTTCCTACCCATGAAGATGGAGTATCTCTTCATTCATTTGGTTCTTCTTTGATTTTTCCATTAGAGCCTTACAGTTCTCCTCATA
Celera SNP ID:            hCV9907864
SNP Position Genomic:     154412
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64349):
TTAATCAGTTATGCACTCTAACTAGATCTTTTGCCCTAGATCCAGAGTGGGAAAATGTGATGAGCTTGTTGTTGCTTTTCTATATGTCTCTTTACCTGTT
K
AAGTCTGCCAGCTTGTGTCCTCTCAATTGGTAATAGTCCACTGTGCACATTTGTAGGATAATTAATACAACTGTTTACTGAAGCAGCAAAATGGAGTCCC
Celera SNP ID:            hCV27960004
SNP Position Genomic:     113238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64350):
GCAAATTAATATTCAAGCTTCTGCTGGAACTCATCTGTTGTTGATTTTGTTGTGGTGGGGGTGATGGTTCTAAACATAGTCAAGGAGGCAAGGTGAGAAA
M
AGATACATCAAACTCCTTATCGATCTCGTTTTGGCAGATTCAAAGAGTTTATATTTAAGCCTAAATTTAAATAAGCATTTTCATATTATCACTGCCAGTT
Celera SNP ID:            hCV27497531
SNP Position Genomic:     191456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   Control(C,96|A,385)   total(A,385|C,96) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64351):
ATTGGTTAAAACAACAAAAATGATGGCATGAGGGGCAAAGAAAATACTTGTGCACAAGATTTGTTTTATGATGTTGGATTTACAACTAACAACAATTTAT
R
TTTTTCACAGCCCTCTTGCAATGGCAGTCTATTTGGGGCATAAATCAATAACCCTTTTCTATGATTTTTTTCCTCCACGAAAATGGCCTTGATTCTAGTT
Celera SNP ID:            hCV15786837
SNP Position Genomic:     130200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64352):
GACAGTGTGAAGGCAAGAGAAAAATAATTTCTAAATGATTTTCAAGTGACACTTGCCTTCTTTATCAGTTCTTCAAAGAAGAGGGATTCACCCTCATTCA
K
TTTTTATTAATATTTTGTTACAAATTAGACAATCACAGATAACAATGTTTTGATGATGGTTCCATTCATAGCATCTTCCAATAAAGCAAAATAAATAAAT
Celera SNP ID:            hCV27959979
SNP Position Genomic:     179261
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64353):
CCATTCATGATAGACAATGTTTATCTTCACAGCACTCTTCAACCTCATACCAGTGGGACTACGTGTTGTTGCCATCCAGGGAGTGAAAACAGGGTTGTAT
R
TAGCCATGAATGGAGAAGGTTACCTCTACCCATCAGTAAGTAAGACGCCAAAGATCTCGGCCATTCGTTCAATGCATGTAAAATAACAATGGCAGCAACA
Celera SNP ID:            hCV25761037
SNP Position Genomic:     54069
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64354):
ATTATCATTGTCCTGATGTAGTCATGATGACCTAAGTCATCCTTTGATATTGCTTTCATATAAAGGTTGTAGAATATATGAACCAAATCAAAATGGGACA
R
GGAGAGCTCCTTGCTCACAAAATGCCTCTGATCTATTGTGTGCATAAAGCATGACTTTATGACAAACACATAGAGACTCTAGATGGGGGAAGTTACAGTC
Celera SNP ID:            hCV9907877
SNP Position Genomic:     157738
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64355):
TTAATTTGTATAATTTAGGGGCTACTAGTACTGTTTTTCTTTGTTGCTGTTTTTTTACATGGCTGTATTGTATAGTGGTAAAGTATGGGCTTTTAGTGTA
Y
GTTGTACCCATTAAAGAATTTATCTGTCGTCCCCCTCCTATCCTCACCCCCTTTCAAGTCTCCAGTGTCTATTAATCCATACTGTATGTCCATGTGTACA
Celera SNP ID:            hCV15786778
SNP Position Genomic:     174258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64356):
ATTAACTGTGTGTGCCCTTCATGAGGAAACAATGACAAAGAGTTGATACTTAATGACTCCCCGTTAATGTAAACATCTCCAATGAACTCATCTGCCTTTC
M
ACTATGGACCTTTTATAATACTGTTTCTATTACCTATACCGTAGACCACGTGCAAAAGAGATGCCTGTCACAGCAAATTATTTTCTATGGTGGGCAATAC
Celera SNP ID:            hCV28025285
SNP Position Genomic:     65865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64357):
GCAGTGATATGAGTGCTGCACCAAAGCAAAGATCAAGTCTAATTCATTCAACAGTGTATGTCTATTGTCTTAAACAGTTCAAGACACACAGCAGGTGTTT
M
ATAAACACATGCTGACCCTGGAAAGCCATGAGTAAAATTGACAAGTGGGACAAGAGAAAGATTAGATAAGAATGGGAAAATAGCTGGGAAATGGGAAGAT
Celera SNP ID:            hCV15786779
SNP Position Genomic:     138039
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(C,0|A,84)   TSC_42_C(C,0|A,84)   TSC_42_AA(C,0|A,84)   total(A,252) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64358):
TGTTTTCCCAGCACACTATGGGGAGACCAGCCTACTGTCAAATGTTAGATTTTGTTCCTGGAGATTTTAGGATGAATATGGGACAAACTACCTCCTTGTT
Y
TCTGCAAATTCATTTTCCCTTTAGCCATATAACACTGGGTTTGGGGTATTTTGGGGACGTGGTAGTGAGTCATAACAAGCTTAATTCCTTTTACTTCACA
Celera SNP ID:            hCV28025286
SNP Position Genomic:     30225
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64359):
TTTTGTTTTGAATAATCTAAGAATGTTGCTAAATTGATAAAACTGAGATATTCCTATGGTTTCAAGTAAAAATAAAGCAACCAATATCTTAGCTCATCAA
R
CTTCATCATTATCTGCATTGAACTTCACAAAAACTTTGATGTGGTGATGGTATCACAAGTATATGAATATGTCCAAACTCATCAAAATGAATTGCATTTT
Celera SNP ID:            hCV28025287
SNP Position Genomic:     20789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64360):
CAAATCATGGGTCGTTCTGTTGAAGGAAAGAAGATAATCTTATAATAAATGTACAGAGTATAGACTATTTATCTATCTCTGTCTCTCTCTCTCTCTCTCT
S
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTATATATATATATATATATATATATATATATATATATATAGTCAAAAAAGGCACAAATAACATTAAAGAATT
Celera SNP ID:            hCV27347493
SNP Position Genomic:     133849
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64361):
GGGGTCAGGTGCGTCAATGAGTGAATCAGTTTGGGTGTAGGAAGTGATGGGTCAGGTTGAGGGACAGAAGAGGCTGTGCACTGCTGGTGGGACTGTGAAT
K
AGTGCTGCCATTATGGAAAATTGTATGGAGGTTCCTCAAATAACTAAAAATAGAATTGCCATATGATCCAGCAATCCCTTTTCTGGGTATTTACCTAAAA
Celera SNP ID:            hCV27347494
SNP Position Genomic:     129129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64362):
GCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCACCCTGGCCAACATGGTGAAACCCCATCTCTACCAAAAATGCAAAAA
K
TAGCTGGGTGTGGTGGCATGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCAGGCTGGGAGGCAGAGGTTGCAGTGGGC
Celera SNP ID:            hCV27347496
SNP Position Genomic:     109972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64363):
TGCACAAAAGTATAGGATTGCTAAGGAAAGCAATTATATTGAAAGAGAGTTTTAGCTGGGCATGGTGGCTCACGCCTCTAATCCCAGCACTTTGGGAGGC
Y
GAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCACCCTGGCCAACATGGTGAAACCCCATCTCTACCAAAAATGCAAAAAGTAGCTGGGTGTGGT
Celera SNP ID:            hCV27347497
SNP Position Genomic:     109886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64364):
AGAGAATGCATCAAATAAAGATGTACTACCTAAAGTGCAAAATCTACTAGGAGCACTTTGACATTTCAGTTCAAGTTCTACAGTGTTTCACATTTTTTCA
R
TCTCTATTGTAGTCTCACTTGGAGGTGATTGCTTGATCACTAGAGGAATATGATATTATTCGTTTCAGAAATGAAGCAGCTATGGTGTTCTCTTGTGAAT
Celera SNP ID:            hCV27347498
SNP Position Genomic:     88722
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(G,-|A,-)   TSC_42_C(G,-|A,-)   TSC_42_AA(G,-|A,-)   Gontrol(G,212|A,269)   total(G,212|A,269) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64365):
ATTTCCCACACTTGACAGCGTAAACTCCTCATTACAAGGAGACCTAGAGGATAATTGCCCCGATAATGGCATCTTTGTACCAGTTTATGTAGACATAAAA
Y
GTTTAAAACTACTGAACTCAGTTAGACTATTTATTATCCATTGTAAAAACACATATTCTTGATTTTCTCTAAATATAAATAGGTTTGAATAGTTAAGATT
Celera SNP ID:            hCV27347499
SNP Position Genomic:     81942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64366):
TGGAAAATTCTGTGAATGAATCAAGCAGCAGTTTTTCTTCAGATTCTTTAAATTTAGGGAATCCTATTTCTAGTTTCCGAAAGGAGAAGTGAATCATTCT
K
CGTAGTGTTTTAGCTGAATATGTTAAATCTGTGTATTAAATTTAACATAATACTGTATCTACAGTTAAAAAAAGAATAGTATTTAGATAACAATTAAACT
Celera SNP ID:            hCV16248447
SNP Position Genomic:     40680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64367):
TGGACCCTTTCTAAACAGGTGTTTGTCCCCAGTAACAAACTGTTCTTGTCACGGTCACCCATGACCTGCAAGTGATCAAACTCAAGATTCTGTTTTCAGT
Y
CTTATCCTACCCGTATAGTATTTGGCATTCAAATTTTCATAATAAATTTGTATTTTTTACTACAAAGTGGTAAAGTTAGCATCGAAATACTTTAAACCTA
Celera SNP ID:            hCV16248448
SNP Position Genomic:     15317
SNP Source:               dbSNP
Population(Allele,Count): Control(C,154|T,327)   total(C,154|T,327)   (T,-|C,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64368):
CCAGTTGGGTGATTTCCTGGTAAACCACTATCCCCTTATGCCATGTTTACAGTGTATTCGGGGTGGATAACATAATGCAATGAGAAAAAAATAATAAAGT
R
AGGAATTTAAATAGCTTTTTAATTTTTATCTCCTTATTGTATATGCCACTTAAGTTTTTTTTAAATCAAAGGAGAACTACTACCATTGAAAGAAGTATTA
Celera SNP ID:            hCV9264444
SNP Position Genomic:     81604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64369):
GGCGCATCTGCGCGCCTGGCCCCGCGCCCCGCGGAGAGGGCGATGGGTCCCGGTCAGGACTGAGCCCCCCTTCCCCTCTCCCCAGTCCCGCCTGGCACCC
Y
CTCCTCTGCCCCGAGGGCGAGCCACGGTCTGCGCCGCCGCCTTCCCCTCCGGTGCCCCCGGCTCGCCGTCCTCCCGCGCCCTCCCTCCCCGGACCCGTTC
Celera SNP ID:            hCV16248449
SNP Position Genomic:     6059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:64370):
TTCAAGGCCACCCAGCTGTAAAGGGGAAGAGACAGAGCACAGGACTTCCTTGCCCACCAAGTGTTCCTTTACAGCCACTTACAAAAAGAGCTAATGCTTG
Y
GTGTTAGCAAATATGTTTCATCAACATTTTGCAAATTCTTTACTTCATCTGACTTATTGATAGAACAAAAGAAAACACAGCATGCACTTTCAAATGCAAG
Celera SNP ID:            hCV16148873
SNP Position Genomic:     131759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64371):
GTCCTGATGTAGTCATGATGACCTAAGTCATCCTTTGATATTGCTTTCATATAAAGGTTGTAGAATATATGAACCAAATCAAAATGGGACAAGGAGAGCT
S
CTTGCTCACAAAATGCCTCTGATCTATTGTGTGCATAAAGCATGACTTTATGACAAACACATAGAGACTCTAGATGGGGGAAGTTACAGTCCTTGAGTGA
Celera SNP ID:            hCV9907884
SNP Position Genomic:     157747
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,7)      total(G,1|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64372):
AAATTCAACTCCATACAAGCTGTTTTAAAATTCAGAATTGGTTGCTTTATGAAAAGTAAATTTGAGACTATTTGGAAATAAAGACTATTTGAAAATTTTC
Y
GGCTTCCTTAACTTCAGTACCTCTTGCCATTGTGTCACAGCTTGGGTGTGGTGGGGGAGGTGCAATCTTCTGGGTAGAGACCAGGAATCCCACTAAGCCT
Celera SNP ID:            hCV9907885
SNP Position Genomic:     158019
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64373):
ATCAACTTGCATTGTTTTTTATTACTGGGCTTTAAGAGATATTTGTATATTTAAAATCAGATATTTCTATTGCAAAAAAAACCTTCCTCCCAGTCTGTGG
Y
TTCTCTTCACATAATGTTGACAGTCATTTGCAAAGCAGAAATTTTTAATTTTAGTGAAGTCCAGTTTATTAATTATTTCTTCCCTGAATCATGCCTTTGG
Celera SNP ID:            hCV16107938
SNP Position Genomic:     153763
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64374):
GAAACATTGAGAGAATGGTAGAAAAAAGACTAAAAGATGAATATATTTATGGCTGCATGTTTTAACGGTGAGAAAGAAAATTCTCGTTTTTGAAATGCAT
M
ATTTCTATTCTACTTCCCTTCCAAAGGCAATAGAGGCTTAAAATGATAGATAAAAGTTACACAGATATGCATTTGTATATAAACTGAATTATAATTTGGT
Celera SNP ID:            hCV15761958
SNP Position Genomic:     96687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64375):
ATATTTATTTACCTTAGATGAAAATGGCATAGTAATTTAAAAAATCAAACAAAAATAGAGACATCATCTCAAGAAAGGAGAGAAAACGAAGAAGTAATCA
R
TGCAGAGTCTATGGCTGAGCAAGCTGGTGAAAAAACTTACAGAAGAAGTGTGATTAACAAGCTCAGAGAACCCCAAGAATGGTAAGCGTGCACGCGCGCA
Celera SNP ID:            hCV15761959
SNP Position Genomic:     98383
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64376):
CGTCCGGCTTCCCGGGATCGTCCGGCTGCGCCCTGGGCGCATCTGCGCGCCTGGCCCCGCGCCCCGCGGAGAGGGCGATGGGTCCCGGTCAGGACTGAGC
S
CCCCTTCCCCTCTCCCCAGTCCCGCCTGGCACCCCCTCCTCTGCCCCGAGGGCGAGCCACGGTCTGCGCCGCCGCCTTCCCCTCCGGTGCCCCCGGCTCG
Celera SNP ID:            hCV16248450
SNP Position Genomic:     6024
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:64377):
ACCCACTAAGTCAGCTCTCAGCATGTCACTCATAGCTGATTTTGAGATAGGTTTTTAACTGGTAAGCAATATGCTTAGGTGCCCTGCCCTGTCTCAGTGA
W
AAAGACAAGTGAAATGCCAAAGTCTAATCCTTTTGTTTGAGAAAGTATAGTTTCAACCAATATATTTATTAGTCTCTTGGGGAGAAGCCAGATTTATAGC
Celera SNP ID:            hCV11698407
SNP Position Genomic:     194130
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,7)   total(A,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64378):
CTTCATGGTGTGGTCGGTGCTGGTAAAGCCCTGGAGGTAGACACACTGGGCCTTGTGCTCCCACAAACTGGCTGGAAAACTTGGGCAGGTCTGTTAACAC
R
CAGAGACCTCTATGCAATGAACCCATTGAACAAGACAATTTGATAGATGCCTCTCAGCTTTCAGTTCTTCTTTTGCACGCTGTGTAGAGTCCCTCATGAA
Celera SNP ID:            hCV8714927
SNP Position Genomic:     18670
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64379):
CCTCTATTAAAATCCTACCATCCTGCCTCCCACATTACTCTCACAATTAAGTCCTTGTCACTGTCCAGCCTCTGAGAAAGGATCTGGCATCTACTGCAGG
R
TCATGGGTATGGCATCTTAACTGCATGCATCATACCCAACATCCAGTGACCAGAGTGATAGTTCACCTGTCTACGTATGATCTTGCCACTGCCTGCTTTA
Celera SNP ID:            hCV8714928
SNP Position Genomic:     29767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64380):
CCTTCTGCTGCCCAAGGGTCTTTTTCCATGATTGTAGGAAATGAACATTGAAATGATAATCTCCTGAAGGCTCTGGCTTATGGGAAGAGAGTTATTTGTT
R
TTATTTTGTGTAGCTTTGAAGTTGACACTAGTATGACTATGTTGCTTTTGAACCACATGAAAGAAAGTAATTTAATGTTCTAGGATGTAAATACCGCAGC
Celera SNP ID:            hCV29442267
SNP Position Genomic:     199280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64381):
TCATCATCTGTGAGTGTATAATTTTCAATTTGCCTAAATTCAGAAAATCGCTCTTGTTGGCTAATACTACTTCTGTAATTTCAATGATGTTGACTTAGTG
K
CACTCTTAATTATATTTTTCTGTAGAACAATTTATTGAAACCCAAACAGTTAGCTACCAGGGCCTATACAGGAAAAGACAGATTATTCCAGAGTCTGAAA
Celera SNP ID:            hCV29442268
SNP Position Genomic:     197318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64382):
AAGACATCTAATTTGTTTATTAGAGTTTTCAAGACCCTTTATTATGTTTCTCAAACCTATCTTCCCATCTACAACATTCTCCACTTCTGTCCCACAAAGC
K
TGTATCTCAGTGATGAACTATTTACAGTTCTCCAAATGTACCAGGCCATTTCCCACCTCTTGCCTTTCACAATACCATTTATTCTCCCTATAATCACTCT
Celera SNP ID:            hCV29442269
SNP Position Genomic:     192774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64383):
TCATCTCAAGAAAGGAGAGAAAACGAAGAAGTAATCAGTGCAGAGTCTATGGCTGAGCAAGCTGGTGAAAAAACTTACAGAAGAAGTGTGATTAACAAGC
W
CAGAGAACCCCAAGAATGGTAAGCGTGCACGCGCGCACACACACAAAGTAAATATAAGCCCATCATATTCAAACGGTTGAAAACCAAGCAAATAACAATG
Celera SNP ID:            hCV15761960
SNP Position Genomic:     98446
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64384):
GATAGTGCCAATTGTATGAAAATATGTAGATTCAACTGTTATTTGCTTCTTTTCTAGGACAGTTTTTTGTTTGTTTGTTTGTTTGTTTTTTGTTTTTTTG
K
TGGTGGAGGAAGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCATGGCAACCTCCGCCTCCTGGATTCAAGCAGTTCTCCT
Celera SNP ID:            hCV16287873
SNP Position Genomic:     166053
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,6)   total(G,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64385):
TTTGACCTCATGATCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGAGTGACCACCGTGCACTGCCAAAAGTTGTCTCTTAAACTCGTACATAAT
Y
ATGCTTTTATTTGAGGTACACACACAACCAATTAACTAATTTTTTTTCTCCTGTGGGCATTAGTCACAGCCCAATATTAAAAATTTTTGACTACATACAA
Celera SNP ID:            hCV11698410
SNP Position Genomic:     189499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64386):
TGATGTGTTAATCTCTAAATGTTGAGAAATATTTTTACTGCCAAAAAATGCTTTAATTTTCCATTTTGTTTCCCGGGAAACTACTTAAGTAACAGAATTT
K
GCCCTATAAATATAAGTTGCTGTCGAGACTCCTTTGTTGGTAGAAATATACTTAAATTTCCTGGGTCCTGTAATCAGGATAAAAGTTGTCTCTCTCTCTC
Celera SNP ID:            hCV11698415
SNP Position Genomic:     189069
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64387):
TTGCTCAAGAAATAAGTTAAAGTACTGATGCAACTCTAATTCTTTTCAGTGATCAAAATGGGAATGAGTAGTGATTATGTCCAGAAACTGATAGATAAAA
R
AATATAATTTATGCTCAGCATTGGTGGCTAGTCCACTAAGAGTGATGTGCTGTCTGGAGTGAACTAAAAGAATAAGGTTATAGTCAATACTTTTCTTCAT
Celera SNP ID:            hCV7558958
SNP Position Genomic:     115606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64388):
TTTCTATGGCTGCTTTCACATTACAACAGCAGAGTGAGGAGTTGCAAGAGACTTGATACTCCAAAGCCCAAAATCTATACTGTCTCTTTAGAAAAAAAAA
W
AAAATTGTCAACATCTGCATTGAGCATATACTGAATATGCAGTAAATATATAATTAATTGTTTTAGATCATATTTTCCAAACGCAGCATAGCTCTCCTTA
Celera SNP ID:            hCV7558959
SNP Position Genomic:     121448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64389):
CACCATGAAACCCACCTACACTCCACTCTTCTCTCCATATAAGCTTTATTCTTCAAGACGTGGTCAAACCTACCTTCTTTGAAAAGTTCTTCCAAACCAT
Y
TACATTTAAAACAGTATCTACTAATGAGCTATCAAGCCATGAAAAGAGATGAAGGGAGCTTAAATGCATATTGCTAAGTTAAATAGACCTACTTGTAAAG
Celera SNP ID:            hCV29442271
SNP Position Genomic:     177074
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64390):
GAGTTTTGAAATCTTAACCCCTAGTGAATCAAGAGTCTACTGTGAGTCCCTGATGGGGTCATTCAACCAAGGCAGTTATTTCTGAAATTCTTCCAACTCT
R
GCAGATCCTGGTATTTACTTTAGCCCTGGGTCATCAGTTTTCCTAATGAACCACATTTTTTTTTTATGATGACGATGCTGGAAATGGGTTTTAAATAGGG
Celera SNP ID:            hCV15970441
SNP Position Genomic:     93139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64391):
CATTTTGTAACTTTTCTTTCTGTCTAAATTTCCCAGTAAACTTCCTTGAGGGCAGGAAATTATATCTTTTTCACTGCTGAATCTCTGACACTTATTATAG
M
GCTTGCTAGTTAATGGGTACCTAATACTTGTTTGCTGGATGAATCACACAGTCTTGATGAAAGACATTTTTTCCCCAGCATCTATCATGTACTCATTAGC
Celera SNP ID:            hCV29442273
SNP Position Genomic:     175482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64392):
CTCGAAGTTAAAGGAGAAAAACATAATTTTACATTTTATTTGTGCTCCCTCACCCAAAATGAGGCATAATCCCAAATCTCTCTGTATAAGCATGAGGGCG
Y
GTGTGAGTGGGTGGGTAGGTGGCTTCTCACTGCCTCGCCTGATCTAGTTAATTCAACTCCAGAAGACAGAGTAGCTCAAATAGGAGACTGCTTAGGAATA
Celera SNP ID:            hCV8714935
SNP Position Genomic:     45667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64393):
TAAATGGAATTGGAGAAGAAGTGTGCCTAATTAATATTTTGGTTTGAAAAGTAAGATTACTGTATTAGAATTTTATCCAAGGATTAAATTTTTAATAGGG
K
ATTTAGGTGAAGTAATACTTTTTTTTTCATCCTTCAAGAGAGTAATTAATTCTACAAAATATTAAGCCTGCTGACTTTGAATATTTTTAAATGCTTTAGA
Celera SNP ID:            hCV29442274
SNP Position Genomic:     161801
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64394):
CAAATAGGAGACTGCTTAGGAATAAGTGATGTCAGAACATAAAAGTTTTACAGAAAAATTGTAAATCACTAATATTCTCATTTTTTTTCTTGACAAGAGA
R
TAATAAAAAATTCTCTTTTTCATGTTTTTAACTCTTTTTGCTTTTATTCGCTTCTTTTCCATGCTACATATTTTCAGTGAAGAGCATAAATAAAATACAG
Celera SNP ID:            hCV8714936
SNP Position Genomic:     45844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64395):
TATTTGAAAATTTTCTGGCTTCCTTAACTTCAGTACCTCTTGCCATTGTGTCACAGCTTGGGTGTGGTGGGGGAGGTGCAATCTTCTGGGTAGAGACCAG
R
AATCCCACTAAGCCTATATCGTATGGGATAGCCCTATGACAAAGAATGACATGGCCCAAAAGGCCAATCATGCCAAGCTTGAGAAACTGCTCAGAATAAG
Celera SNP ID:            hCV29442275
SNP Position Genomic:     158104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64396):
TTTACAGTTGCAGCCAAGCAAGGGTCTGCATTGAATTGACCCAAACAGGGAATTTTCAAGTAATTTCTCTATCTTTGTATGTGTGAGTTTTTTAGTAGTC
M
ATTCAATTTTCATTAGCTTGTCAACTCTAATATCTGACAACTGAAATATAAAGTAGGGAGGAGAAAGAGCAGAATTAAGAGAAGGAATATATGTGCCAGA
Celera SNP ID:            hCV29442276
SNP Position Genomic:     157529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64397):
CTCTTTTTATATGGATGCCAGTCATGAGATTTAGGCCCACCCTAAACTACTATGACCTTATTTAAAGTAAACTTAACTAATTACATCTGCAAAGACCACA
Y
TTCCACATAAAGTCATATTCAGAGTTCCAGGTAGACATGGATTTTTGGAGGACACTCTTCAGCCCAGTACTGCACTCATATTACTCAACTTCTCCACTGC
Celera SNP ID:            hCV29442277
SNP Position Genomic:     156124
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64398):
ACTCTGGGCAACAGGTGTATTCTTACTCATAAGCACCCTGCAAAGACTGGAGTAGCCCTGACAAGAAATCTGAGTATTCTTCTCTGAAGCCTGTGGTTCA
Y
TGTGATGCTGCTGCCAGCTTTGGCCACACCCCAAATAGACCTCTATTTGCAGAGCTCTTCCACATTAGACCTGTGTGCTTTTGAATAAGTGACTCGGCTG
Celera SNP ID:            hCV27523212
SNP Position Genomic:     25406
SNP Source:               dbSNP
Population(Allele,Count): Control(C,144|T,337)   total(C,144|T,337) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64399):
AGAGAATAAACAGACAAACATTACAAATTAGTGATTAATTGCATTTAAAGCCTAGTTAAGACTATTTAAGACTATTATGCATAATACAGGAAAACTACCT
K
TATTATTTATAGTGGGTGCCTTCTGAAGGATCTGAAGGAGAATCAGTTCTATGCCTCTCTCCTCATTCCCAGGAGGTGCCTGGCATTCCTTGGCTTGTAG
Celera SNP ID:            hCV29442278
SNP Position Genomic:     155850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64400):
TCCATTTTTAAATCAACTTGCATTGTTTTTTATTACTGGGCTTTAAGAGATATTTGTATATTTAAAATCAGATATTTCTATTGCAAAAAAAACCTTCCTC
Y
CAGTCTGTGGTTTCTCTTCACATAATGTTGACAGTCATTTGCAAAGCAGAAATTTTTAATTTTAGTGAAGTCCAGTTTATTAATTATTTCTTCCCTGAAT
Celera SNP ID:            hCV16107956
SNP Position Genomic:     153752
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64401):
AACAGGCTGCTCCTTTATAATTATTAATCATAGTGTATATTAATTCATCATCACATACGTGGCTAGAAAAAAATTTAGAACAAAAAGATATGTGATATGT
R
AAGGCCTACGATAATTCAGACTTCTTTGAGGAGAGCTTTTATTTTATTGTTATTCTTATTTTATCTCTTGTCAATATAAATTGAGAGAATAAACAGACAA
Celera SNP ID:            hCV29442279
SNP Position Genomic:     155666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64402):
CAAGAATGGTAAGCGTGCACGCGCGCACACACACAAAGTAAATATAAGCCCATCATATTCAAACGGTTGAAAACCAAGCAAATAACAATGTCTAAAGGCA
R
CCAAAAAATTGCAAGGAATGAACAATAAAATTTAAGCTGACCTTCTAGTAGAAAGTATGAATCCTGAAGAAAAAAAGAAAGTAATCATTAAAGTGTTAAA
Celera SNP ID:            hCV15761970
SNP Position Genomic:     98557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64403):
CTTCTCAACAAGGCAACCACTAAGAGAGCTGTTTTTACTTACTGTAGCTGAGTGTTTCTCAACCCTATCAGGCTTCAAATACACTTTATACAGCAAACAT
Y
TGAGACTGTCCCTTTGCTAATTTCACATGAAATTCATAGATAATATCACCTGCTTATAGTCATAAGTTTTAAACTGTAATGTAATACCTTACTATAATAT
Celera SNP ID:            hCV3042380
SNP Position Genomic:     117659
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(T,-|C,-)   Control(C,192|T,289)   total(C,192|T,289)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64404):
AGGTAGAATCATTATGAATCCAACAGTTACAAATGCAGTTTGATGTAGGTGTGTTGCATTGGGTATCCAGGCACCATTAATGAGGGAACCATCAAAGATA
W
AATTTTCTTAAATGCGAAACAATTCTTGGTAACTGTCAAGTAAAACAAAAGATAATCTTTCTTTGGTTTACATGGTAGTTGCATTTTTGTAAGAGCTAGT
Celera SNP ID:            hCV3042382
SNP Position Genomic:     117972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64405):
AGCATTTGGCAAACTGTAACTGCTGGTTAAATCTGGCCTGTCCCCTATTTCTATAAATAAAGCTTTATTGGAATGCAGCCACACTCATTCATGTGAATGC
R
TATTGTCTGTGACTGCTTTGGCAAAATAGTGGTGGAGTTGAGTAATTAATACAAGCGCTTTTCAGCCTTAGAGCCTAAATTATTTACTATCTGGCCAACT
Celera SNP ID:            hCV7558960
SNP Position Genomic:     127633
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64406):
ACTAAAATGAAGAGCTGTCATTTTGTACCAGAAATGTCTTAGCTTTATTTCCTGTTGTTTCAGCAATCCAAAGCAATGGTGGTGTTTGGGTGTGGACCAC
R
GCTCTTTTCCTCAAATCTAAGGATTTCATCTGAAAATAGGAAAATAGCTACAGTTCACTGTAGTTGTTAATCTTTATACCACTCTTGCCAATTTTGTTTT
Celera SNP ID:            hCV7558961
SNP Position Genomic:     130537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64407):
ACTGTACTGTTTTGCTAATCTGGGCAGTGTAGGGCATGATGCCTTGGCTTAGTGCTCTCCAGCATTGAGCTAGCTGCCTCCCTGAGAGGCCCCTCTCTAC
M
AATTAAATAGCTCTTACGTCCATCAGATATTCTCCATTTCCATTTCACCATCAACACTGAACTCTGCCAAAGTCATCCTCAGTTCTTGCTGGAGCTTGTG
Celera SNP ID:            hCV3042387
SNP Position Genomic:     121032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64408):
CTTGAGTGATCTTGGTTTTTAGAAATCTGCCAGTCTGCTGTGCCTTAGCAGTTGCAGAAGGCCATGATTGACTCTCTCCCTAATAATAATCTCCTTGCTT
R
TAAGGAAGTATTGGAGAAAGGAGTTGAAAGTAATATTAGCAAGAAGCCTTTACTAATGAGTAGGTATGCTTGTAAAGTCCTTCACTTGAAACATTTGTCA
Celera SNP ID:            hCV7558962
SNP Position Genomic:     131234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64409):
TTTCATATATTTGTTTTAAAATTCGTCTTCTCACCCCAGTTTACCTCGGGTAGTCCTGAGATCCTTTGAATTTTACTGGAACCTTTTAAAGTTGGAGAAC
M
CATGAACCTCAGGTGCATGACAGCTTACGCTTTACATTTTGAAGTGATCCAAATGATTAGAGAAGAATTTAGAAACTTACATGAATCAACTTTATGATGG
Celera SNP ID:            hCV7558963
SNP Position Genomic:     133168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64410):
TCTCACCCCAGTTTACCTCGGGTAGTCCTGAGATCCTTTGAATTTTACTGGAACCTTTTAAAGTTGGAGAACACATGAACCTCAGGTGCATGACAGCTTA
Y
GCTTTACATTTTGAAGTGATCCAAATGATTAGAGAAGAATTTAGAAACTTACATGAATCAACTTTATGATGGTCAGAGAATCTGTGAAATATGTTTCAAA
Celera SNP ID:            hCV7558964
SNP Position Genomic:     133196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64411):
AAATCTCACAGGACTAACCTGGAGATCAGAAACTGGGGCATGAAGGCACCTATGAATCTCTGAAAAGTTGATAATATTAGGTACTTGCTGACCTGTTGAG
R
AAGAAAGAACCCCTAATGGTTCCAGAATCACAAGCCTGGAGACACAAAAGAGAATATAAGTGGTGGGAAGCATGGAAATAGGGAAAATGATGTCTTAAGA
Celera SNP ID:            hCV7558965
SNP Position Genomic:     133481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64412):
GCTAACCGAATGAACATACACGCATGTGTTAATAAGTAAAATGAAATAAACTATTTAAAGCATCAATTCTTAATAAAAATGACACGTTTGTTTTTGTTTT
K
CAGCTCTAGATCTTACAAGTATACAATGGGAATATTTACATCCCCTAGCTCTTAGATTTAAAAGCTATTTCTTTTAGGCTGTATTCCCCCACATACAATC
Celera SNP ID:            hCV11698422
SNP Position Genomic:     178067
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64413):
TTTGAGAAATCCAGTTAAATGCCTGTCTCTCCTCCCCCTTGTATCTAGTTTTGAACTTGATCACATTCAAAGTAAGCAAGGAAGGCAAGCATGTAATGTC
S
AAGTCACATTAAAGGAATCGAATTTGTCTCTCTTACAACAACATGCTTCCGGTTCATAATAAATTAATCCAGCATTCTATCTCAAAACTGCCTCTTTTTA
Celera SNP ID:            hCV7558966
SNP Position Genomic:     134206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64414):
AAAAGATATGACATTTAACTTCCATTTCTGTTAGGAAGTGTATTCTACTTAGCATTTTAACCCTAGTTTACAGTTAAATGAGAACCGAGAACTGATTTTT
T
CTCCAAGTTTAATAACTGTCATCTTCCTCTTCATCATTATTATGAGTATTTTGGATTTTCAGATTCTCCATTTATAGAATGGAAATCACAGGAACTGTTC
Celera SNP ID:            hCV11698424
SNP Position Genomic:     167924
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,7)   total(-,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64415):
GACAGAGACAGCCTGGACAGGGAAATCAGAAAGCAGACATTTCAACAATCTCAAAGTAGCTGGGTGGTTATCCCATATCACTGGGTCACCCTGCCCTGGA
S
TACCTGCACTCTATACCATGCTAGCAGAACTGCCCTATGATTTCAGGAAAAAAAAAGTGGAGGAGGGGGCAGGGGGCAGGGGTGGTGGCTCACGCCTGTC
Celera SNP ID:            hCV7558967
SNP Position Genomic:     134545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64416):
CCTCTGAACACATATAATACTATAGAGCCAGCTACTTTGATAATAGAATACGGTTACAATATATAAGGTATCCTACTTTAAAGATAGATATTGATAATAG
W
TAATAGATAAATAGATAGATAGGTGATAGACAGATAATGTAGTTTAGTTTAAACTTAAAGTTTAACTTGTAGTACCCAGTTAGTAATATCAAGAATGGCT
Celera SNP ID:            hCV7558968
SNP Position Genomic:     137166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64417):
AGGAGACAGGACTGGAATTCAAACTGAAGGTCAGTCATAGAAATGCAAAATTAAGGTTATGAAGTCATCAAAAAGAATGAGATCTCCATAGACCAAAAAG
R
ACATGTACTGAATTTTAAGGGATACCTTTATTCAAGGGAAGTTGGAAAGGAGAGCCAGAGAAAAATGAAAGCATAGTAGGCTTTATTGATTCAATTGCTG
Celera SNP ID:            hCV7558969
SNP Position Genomic:     140799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64418):
CCTGGAGTGCAGCGGTGTGATCATACCTCACTGCAAACTGAAACTCCGAGGTGCAAGCAATCCTCCTGATTCAGCCTCCCAAAGTGCTGGGATTACAGGC
R
TGAAACACCATGCCTCGCCTCTGGTTCTTCATGTGTAACGTAAAGTTTAAGAGGCAATTGACAGACATAAAGAAAATTGGGAAAGAATATACAAGGATTA
Celera SNP ID:            hCV11698427
SNP Position Genomic:     167419
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64419):
GGTGTTGCAACATTCACATGGTGTGGGTTGTACTGGGAAGAGATGGACAATAGGGTGGCTTAGCGATGGCAACGGGCATCTTTAGATGAGAAGAATGTAC
R
TGAGATTTCGAAAAAAATGATCAACAGAATTGAACTGTATTGAGCACTAAGCTAGTATAGGCAGACAGTTCCAACTGGGTAAAATAACATTATAACCACT
Celera SNP ID:            hCV29442280
SNP Position Genomic:     144536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64420):
GGTGAGCTACTTACACAAGGAGAACCATGATGAACCATGATGGAAGTGGTGTTGCAACATTCACATGGTGTGGGTTGTACTGGGAAGAGATGGACAATAG
K
GTGGCTTAGCGATGGCAACGGGCATCTTTAGATGAGAAGAATGTACGTGAGATTTCGAAAAAAATGATCAACAGAATTGAACTGTATTGAGCACTAAGCT
Celera SNP ID:            hCV29442281
SNP Position Genomic:     144489
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64421):
ACAAATCCATGTTTGCTGGGCATATGTTATGACAACAGAGAAATTCACAGACTGGTCTTACCCGGCAGGGGAGATGGCATGATCATGAAAATGGTTTTTC
S
CAGGGTGAGCTTACCCATTGCATTCTGATGTGCTGATTTCCGTGATTTCCCCAAATGTGGGAAACTCACTCGGCTGCATAATTGGTGGTAGTGGGGGCTG
Celera SNP ID:            hCV29442282
SNP Position Genomic:     143791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64422):
TAGTGGAACAAAGCCTAGTGGAAGAAACAGTGAACTGAAAATACATAGAAATTCAGGCAGTGATAAACTCTTTGAAGTAAAATAGAGCAGAATAAGAGAA
W
GGCAAGATCAGTTTGGGAAGGCTCTATTTCAGATGTAGCACTCAAGGGACATACAACTTAACTGAAATGAGTGAGTGAGAGAGAGAGAGAGACAAAGACA
Celera SNP ID:            hCV7558970
SNP Position Genomic:     141563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64423):
GGTAGTGGGGGCTGTGTTATGCTCTCTCCTTGATGTCAGTTTTTTTTTTTTCTAAAAGCAAACAAAAACAATTGGCTTCAGACATTTTGAACAAAACAAG
Y
AGAAGCTGTTTTCTTTAAGAAATTACAAGCAGTGTCTATCTATAGATACATACATAGTCACACATGCTCATAAAAACACACAACCACAGCAAAATTCATG
Celera SNP ID:            hCV7558971
SNP Position Genomic:     143978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64424):
AGCAGTGTCTATCTATAGATACATACATAGTCACACATGCTCATAAAAACACACAACCACAGCAAAATTCATGCTGTAATCTATAAACACTTTTTAGAAA
M
GGGGAGAGGTTGTGTGGGCCTAAAGAGCCAGGTGGGGCAGAACCTAAAAGGACCTTGAGAATGACAAACATTTGACCATGGGAAGCAGGACAGGAGAAGG
Celera SNP ID:            hCV7558972
SNP Position Genomic:     144106
SNP Source:               dbSNP
Population(Allele,Count): (C,-|A,-)   Caucasian(A,29|C,55)   African-American(A,4|C,80)   Asians(C,17|A,67)   total(A,100|C,152) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64425):
GATGCCTCTCAGCTTTCAGTTCTTCTTTTGCACGCTGTGTAGAGTCCCTCATGAATTAGATCTTAGAACATTGAGACAGTAGTGTATTCCTTTGCCAGAG
S
AATTATATGTTACATTAGAAGGCCACCTACATTGTGGTTTTAATTTGTAGGATGGATACTTAAGGTATCCATGACTTCAACACTATGCAATCTATGCCTG
Celera SNP ID:            hCV9266228
SNP Position Genomic:     18816
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64426):
CAGGAAGAGGCTGCCTGCAGGAATGGTGTGGAAGACCATCAGCTGCAGACTGAGGCAAGGCGATGGAGGTTTAGGCTTGCTTCAATAGGTGAGCTACTTA
Y
ACAAGGAGAACCATGATGAACCATGATGGAAGTGGTGTTGCAACATTCACATGGTGTGGGTTGTACTGGGAAGAGATGGACAATAGGGTGGCTTAGCGAT
Celera SNP ID:            hCV7558973
SNP Position Genomic:     144402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64427):
AGCACTAAGCTAGTATAGGCAGACAGTTCCAACTGGGTAAAATAACATTATAACCACTTCTTAAGTAAATAATTTGGCAGCCGGACTTTCCTTTGCCTCA
Y
TGACTGAAGCAAGCATCCCAGACATTTGATTTACCAGGCACTCTCACGAAGTACCTCAAGGATGTGCTTCCGAGCATATGTTTTATCACAGTTTCATTAC
Celera SNP ID:            hCV7558974
SNP Position Genomic:     144679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64428):
AGTATTGCACATAAATTACCAGGAGACACAGAAGAGTAGCTATAGAACATGCTTCATGCGACCAGATCTCAGCAATGAGATGTGCTGTGGAAGAACCATG
S
GTTTTGTTCTGCAGCTGGGATTTTCTTATGCTCTTCTTGCCTTTCAGTGACTCTAGCTGGAGCTGTGGTCTTCTCCATTTTGAAGGAGACACCCTCGAAG
Celera SNP ID:            hCV7558975
SNP Position Genomic:     146155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64429):
AGAGATGATGCAGAAAGAAAGCTGCCCTCTGATATCCCCACTGATAATAATGTGAAGTGTGGAAGGCCTCAGATGTCTTTTCTGGATACCTATGTGTAAT
K
TTCATCTATATTAATGGAACTCGTAAGCGCACCACGTGAATAAGAAAATGAATCTGTAGAAGGTAGTCCCTGTTGACTAGGCTGGTTTTGAATTTCAGAA
Celera SNP ID:            hCV7558976
SNP Position Genomic:     146690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64430):
AATGTCCCACATGTTTTTACTCCCTTTTTTAGATTTTATACATTTTTTATGTTCTTTGCTTTAGGGTGGCTATTTTCAATTAAAACATTTTAAAATTATT
Y
ATTCTTCTCTTGCTATTGAACTCATCCATTGAATTTACCTTTCCAGTATTATATTTTTTTCCAGTTTTAAAACTTCCATTTGATTAATTCAGTTCTTTGG
Celera SNP ID:            hCV11927939
SNP Position Genomic:     23304
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64431):
GGAAAAATGAAATGTGACAATTGCTAATTCCATACAGTTCAAGGAAAACTGGCCTATTTCAGGTTCCCAGCAGGTATTTAATACTGAAGTGTAAAGAAAG
R
TGGCAAACTTACAATTATTTTGATTGAACTATGGTTATCTCCATTCAACTAAGGGAGCATTTGCAGCAATGCCGATGGGCCAGCTATTTTGGTTTTGCCA
Celera SNP ID:            hCV7558977
SNP Position Genomic:     160077
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   Caucasian(G,82)   African-American(A,18|G,62)   Asians(G,82)   total(G,226|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64432):
GAGCCACTGACGGCTTTTGATCAAGGGAACAGCATGAACAGTTCTTTGAGCACGTGAAACACTGGAAAGCCATTTTCAAAGTGCACTTTATGCTTACTTT
W
CATCGATTTTGTTGCCACTTTAACTCTCCCTGCGACAGTCTTTGTGACTCTGAAAATTATCATGTGAATAGGCATCATTTAACAATAGGTATTGATAGGG
Celera SNP ID:            hCV11698435
SNP Position Genomic:     162318
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,7)      total(A,1|T,7) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64433):
TACATATGTTCCTGTAGGATGTTACATCCTTTCATGGACTTTTTCGATTTGTTGCCAACCACATAGAGAACTAGAAAGTTAGGTCAAGAAATAAGAGAAA
R
TATTAGGTTTAGATTTCTGGGTGCCAAGCAAGCCCTGCAATTATTTAGTTATTGTGTCTTTATGGTTACTGTATCTTTATTGTTACTAGGTCCACATAGT
Celera SNP ID:            hCV7558978
SNP Position Genomic:     164146
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,7)      total(G,7|A,2) ;no_pop(G,-|A,-)   TSC_42_A(G,-|A,-)   TSC_42_C(G,-|A,-)   TSC_42_AA(G,-|A,-)   Gontrol(G,231|A,250)   total(G,231|A,250) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64434):
AGATTTTACATTGTAGAACAAGTTGGGACACATTTTTATTTATAATCTTAAAATATCTTACTTATAGACGTATTGTAAATACCACAGATTTTTGTTTCTA
W
TTTCTTGCTTTTATAAATTTTGTACTAATGTTAAGAAATGGTAGCAAGCTTATGACTAATGTCAATTTAATTGACAGCTCTTAAAATGTGATCATTAATT
Celera SNP ID:            hCV7558979
SNP Position Genomic:     188442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64435):
TCATTCAATATATGCTTAAAGTCTTTACCTGAAAAAAATGTCTGAAGTAATAGGTTAGCTCAATCTCTTATCTTCTGGGACTCCTATCTCTCAGTATTCA
Y
TTCCAATAAATAGCAGGTGTGTTGTAGAATCATGGCTATCCAACAAGAGAGGCCAAGTTATAGCTACCACGTCATATTTTCATTACTAATAGCTCATTTT
Celera SNP ID:            hCV299978
SNP Position Genomic:     114126
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64436):
TGCCAGAATGACCATCAGGGGTACTAATAAGTCTCTTTGAGTCTTTTATTGTTATTGTTTGGTTTTATTTTATTTACAGGTTACTTGTAAATCTGACTGC
Y
AATTAATACTTTTCAAAACTATCGTGGAAATAGAAAGACTTATATGAAAATGTTTATGGCTCTATTATTCATAGTAAGCCCAACACTGGAAACAACCCAA
Celera SNP ID:            hCV15970463
SNP Position Genomic:     107898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64437):
GTTTCCCAGGCTTAATCACTCACTCCACCCTCCACTTCACTCCTCCCACACCAGTCCAGTTATGGTAATTTACCAAAAACATGGATGCTTACTGTAGACT
S
CCATCTTTTCTTTCTTTCCACCAGCTCAGATATCAGTATCCAGTTCTAGTAGGAACGTCATTCTTCCTCTAACCCTCTTGTGGAATTGCAGAACAACATT
Celera SNP ID:            hCV15970464
SNP Position Genomic:     107627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64438):
CTGTCAGCACTACACTCCTCAGTTTCTTCCTCATATCATTCTTGACTTTTGCCTAATCAGGCACTCAGAACCACCGAGTTTCTTCTTGATAAAGTGCTTA
R
GAGAAATCTACATGGGGTGGGGGGGTATTATCTCAATGGGCTACACCATCCTCTTCCAGCTGCAACTAGTTAGCACCTTGGGTGAGCTAAGGAGGAGATC
Celera SNP ID:            hCV15970465
SNP Position Genomic:     107052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64439):
TATTAATTGACCAATACAATTTGAGATTTAACTGGGATAGCTATTTCATTGGTTATTTGTGTCTGATCGGTCTACTCAAAATTTGATTAATGTCAATGTG
R
GTATTTAGTGATAGGTTGAGACAAGTGAATCAAATTATCCTCAGACTCATAAATTTCTGTAGAATGTGCCTCAGGATAAAGCTTTATTGCTAGGTGTTTC
Celera SNP ID:            hCV11924022
SNP Position Genomic:     96439
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64440):
GCTTCCTTAACTTCAGTACCTCTTGCCATTGTGTCACAGCTTGGGTGTGGTGGGGGAGGTGCAATCTTCTGGGTAGAGACCAGGAATCCCACTAAGCCTA
Y
ATCGTATGGGATAGCCCTATGACAAAGAATGACATGGCCCAAAAGGCCAATCATGCCAAGCTTGAGAAACTGCTCAGAATAAGCAGGGAGAGTGAAGAAA
Celera SNP ID:            hCV11698440
SNP Position Genomic:     158121
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64441):
ATTATTCTCATGACTTCTAGCATTTCAGATTGAGCAAAAATCTATTGGGCAATAGTTCTGGATATAGAATATATATACACACTCTATATATCTTCTCTCT
M
TATATATGTATTATATGTATATTCTATATATATTCTATATATATTCTATTCTCTATATAGAATATATAGAGAATGTATATATCCATTTCTATATATATAG
Celera SNP ID:            hCV15970472
SNP Position Genomic:     72113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64442):
CAATCAGAGGCAGTGATCACTGACAGTGACCCCAGGCATATAAAACTACAGTTTCTTTGTAAAGATCTCCAGAGACAGGGATAGTTTTACTAACTTTCTC
M
ACCCAGATGAGTGTTTCTTCTTTATTTCTAACCTAAATTCTAGTACTGTTTTCTAGGGAGGTCATTTTCTTTTGTTCTGTCTCAAAGTTGGCTAGGTAGA
Celera SNP ID:            hCV15970473
SNP Position Genomic:     75626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64443):
ACTTTGTGTATATTTTTTAGTCCAGTGGTATTTTCAAAAAGATCAAGGACAGTAAGGATCTATTTTCCATCTATATTTTATATACATATAGAATAGCACA
S
TGTTGGACCTATTTAAAACTAGCTAGGTGTCTTTCATGGTCTATAACCAGACAGGTTGAACTTCAAATTTATTTTTAATAGAGGGCTATCAAAAATGCAT
Celera SNP ID:            hCV2699011
SNP Position Genomic:     194970
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64444):
AATGTTTTAGTTTTTAGCCCCTAAGGAATATTTTTCAGAACAGGTATACAACATTTTTAGAAGAAAACCAAAAATTATTATTTTCTGCAATAATAAAATC
W
ATTAAAGAAAAATGAAAACTTTGTGTATATTTTTTAGTCCAGTGGTATTTTCAAAAAGATCAAGGACAGTAAGGATCTATTTTCCATCTATATTTTATAT
Celera SNP ID:            hCV2699012
SNP Position Genomic:     194852
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64445):
GAATCCTTAAGGTATCCACCGAGAATAAATTACTTCCTCTACATCAAGCATCTTCTTCTCTTCCATATTCAACACAGTGAATTCATAATGGAGACAATAC
M
TCCCTAAGTTGCTGATGGTGTTGCAAGCACCATTCATGTTTTGGACATTATGGCAGTGACGATCAGAAGAGAATCCTGTGGACCTACGTTTCTGGTGTTT
Celera SNP ID:            hCV2699015
SNP Position Genomic:     193835
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,10)      total(A,4|C,10) ;(C,-|A,-)   Caucasian(A,38|C,46)   African-American(C,34|A,50)   Asians(C,37|A,47)   total(A,135|C,117)
SNP Type:                 INTRON


Context             (SEQ ID NO:64446):
TATAGGAAATAGCATAAACATCTGTTTCGATAAACTTCCCCTAATAAAGACATACCTTGAACACGAGCTATTGTTTTGCATTTGCCAACTTTTCCATTTC
R
TAATTGTATTAAATTGCTAGAGATGGCTTTGTAATCAAAGACATTAGAATATTCAGTTGAATATAGCATGGGTTTCAGGGACACATTTTTGTTGTTGTAG
Celera SNP ID:            hCV11698522
SNP Position Genomic:     128064
SNP Source:               dbSNP
Population(Allele,Count): Control(A,216|G,265)   total(G,265|A,216) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64447):
TCTTCCCATCACTAGTTGCCATGTACCGAGAACCATCTTTGCATGATGTTGGGGAAACGGTCCCGAAGCCTGGGGTGACGCCAAGTAAAAGCACAAGTGC
R
TCTGCAATAATGAATGGAGGCAAACCAGTCAACAAGAGTAAGACAACATAGCCAGATCCTCACAGGTGTTGTGACTTATTCGTCCTGAGCACAGTTGAGT
Celera SNP ID:            hCV25608831
SNP Position Genomic:     199905
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,2|G,38)   total(A,3|G,73)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,2|G,38)   total(A,3|G,71)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64448):
CAGTTAGACCCAAACAATTCATAAGTGATTCTTCCGTTATGAATGCAGGAAAATCCACAGGAATAAAATCTTGATATAAATGTACTTAAAAAAAGACTTT
T
ATGTTTTTACAGCACTCTTAGATGCTCAGAAAAAGTGAGATGAAGGCACAGAGATTCCCCTTATGCCCCTTGCCCCCACATGCAGAGTCTCTCCTGTTAC
Celera SNP ID:            hCV11698454
SNP Position Genomic:     152664
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64449):
TCATCCTATGTGCCCACTCTTTTCATTCTCCATCTTAGCCACAGCATCACTGAAGAAATCAAGGAGATTAAATTTCAACAGAGAAGAGGGGAACATTTAA
R
AGTCGGCAAAAATGCAGTGAAATGAGGGTGTAGTCAATATAGACTGCACACATTCCATTCCAGAGAGTCAGTTTATGTAACTGGAAAATGTCTGCATTTT
Celera SNP ID:            hCV15970483
SNP Position Genomic:     76313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64450):
GAAAAAATAAAACCCTAATTTTTAGTAAATGTTGCCACCACTTAAACTTGAACGTTTTAAAGCAAGAGCATTAATAATTATAATTAGAAAAAGAGCTTTG
Y
TATTTCTACATGTTCATAAAATGACACAAAATACTTTGGTTTTATATTTTCTTTCAGCGTCAAAGAAGAAAGTCATAAACATCACTGCAGTTTGCATTTT
Celera SNP ID:            hCV15762017
SNP Position Genomic:     64027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64451):
GATAGCAACCTCTGACGCCTGTTTTCTGAGGGCAGAGAAGAATACTGGAAAAAGGACAAAAGAAATTTGGCACCATATGGAGCTTAATTGCTTTTTTTCT
R
TTACCTGTATCTAAAATACTTCAGCAAAGATTAGCTATAAGCCTAAAACCACACCAAATGAGCAATAAATTCTATAGCTCAGTGACCATGAATAGATCAT
Celera SNP ID:            hCV15970484
SNP Position Genomic:     80674
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64452):
GGAATGAATGAGTGTTGTTTCTATTCTCTTATATACTTTGGGATCACTCTTAGAAATCTTAGGAAGACTAAAATTATGATAACAGCAATAAGCATTTATA
W
TTATGCATAAATGCATATACATACTTGTTATAATCTCAAATAAAGAAAAGATTCCATCAAAACACATGATTCTTCTAAATTGTACGCACACAGTTTGAGT
Celera SNP ID:            hCV15762018
SNP Position Genomic:     68590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64453):
TTCCTAGTGACTGTTACCATTCCGATGTTCAATCAATGCTGGCAACTGCTTTCTACCTCTGAACACTTTTCTTGCTAGTCTTAGGTTTTATGACTTCTGA
R
ATATGAGACTGAATTTGTTTGAGTTTACTATAATGGGATTTTGCATTATGTATGCTCAGTAGTAAATAATATGTATGCTTAATAGTAAATTATTTTGGGA
Celera SNP ID:            hCV15970485
SNP Position Genomic:     81247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64454):
ATAATAAATTCTGAAACAGCCACTCTGGCTATCTTAGTATGTAGACGTAAGTTATCATGTAGTCATCCCATCAGGGAGAAATCTGAATTTTAAGATCAAC
R
TTGGCTGTGCTGAGGTCATCCTATGTGCCCACTCTTTTCATTCTCCATCTTAGCCACAGCATCACTGAAGAAATCAAGGAGATTAAATTTCAACAGAGAA
Celera SNP ID:            hCV15762019
SNP Position Genomic:     76197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64455):
AATATTGATAAAGGAAGATAAAGTAACCAGACTAGATTTTGGTAGGATATAGCAAGACACAAAATTGATATCTCCTAACTACATAAACTAAAATACTTCA
W
TTTTTGCACAGCAAATTCTATTCTTGTTCTGGCTAACAAAAATTCTGTTGGAGTAAATTAAAACTGTGATCATATCACTTTTTCGTTGGACATAAAAGAA
Celera SNP ID:            hCV2699022
SNP Position Genomic:     185347
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64456):
TATTATGATTCTTCCCACTTTATAGTCTCACACTTTCAACTAACAACCTGGAAAGTAAGACAATATAATTCATTAATTTCTATAACATTTCATAATATAA
W
ATGAAAATTCACTGCTGATTTTTAGAGGACAAAATCTATAGCATGGTGAACTTTCACAGCTCCAGCTTTATCTAGTTAGAGTTATTTAACCCACAGGTTG
Celera SNP ID:            hCV2699023
SNP Position Genomic:     184056
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,8)   total(A,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64457):
TCAACTCCCTGTTTTCAATTCTTTGGGACATATACTCAGAAGTGAAGTTGCTGGATTATATAGTAATTCTATTTTTTTTTTTTTTTTTTTTTTTTTTTTA
R
AAACCTCCATACTCTTTTCCTTAGTGGCTGCAAGATTTTATAATTCCACAAACAATGCACACAGACTCCAATTTCTCCACATACTTGACAGCACTTGTTA
Celera SNP ID:            hCV11422403
SNP Position Genomic:     174046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64458):
TGCATTCTGATTTCGTTGTTTTCTCTTTTTCATTCAAATGCCTTGTCTCTCCTCCTGCCCCAGGGTCTTTGTATATTATATCACCCTTTCCAGGAATATT
Y
TTCACGCTGCTCTTAGTCTAGTTAACTCATACTGGTGTTTCAGATCTCAGTTCAGAATTCAATGCTTTTCCTTACCACCCAAGCTAGGCCAGATTTATCT
Celera SNP ID:            hCV2699024
SNP Position Genomic:     183225
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64459):
CAGGAATTCCTGGCACAATATAGAATCAGGAAAGCTTTTTCTAGATGTGATTGTAAGTGATGGATTGACTTGGATCCCAAATGTTATCACCAAAAGATAC
R
TGCTTTTCTTTCTTTTCTTACTTAAATATGCACAAGAATTTTGCTGATTGTATTTTGCAATTACATAATTGATATTTAGGATTTAATTTGGAAAATATGT
Celera SNP ID:            hCV1620703
SNP Position Genomic:     41232
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   no_pop(G,-|A,-)   (G,-|A,-)   Caucasian(G,27|A,57)   African-American(G,13|A,71)   Asians(G,14|A,70)   total(G,54|A,198)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64460):
ACCAGCTTTAGTAGTCATCTCTTTAATTATTTCACAATAGTTTATAATTTTTTAAACTATCTGATAGGAAGCTCTCAGTTGGACTGTATTTTTCAAAGTC
Y
ATGTGAAGAAAGGGCAAATAAAATTCTGGTTTGAAAAGTAACAAATGTTCTCAGATGCAACATTTGCTAAACTCCAAATCTTTATATAGATTTATATAGA
Celera SNP ID:            hCV2699026
SNP Position Genomic:     173048
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64461):
AAACTTTTATAACTTGCAGTTTGTTTTCATCCTTAAAGGTTATTGTCAGTTCATCCTGCATTTTTTTTTGTCATTCTGTATGTATAGTGAAATATAGTCA
R
GTGCTCTATATCAGTAAGTCTGGAATGTTCCATTCTGGCAGTTATATGCTGGGATACATAACATTGTTGCACAAGCCAGAGTAAGTGTAAAGATTGCTGT
Celera SNP ID:            hCV2699027
SNP Position Genomic:     172457
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64462):
CCTGGCCTGTTTGTTGTTAATGCCAGATGCTATCTCTAGTGCCTGCAGACATAGGATTCTGATAGGCAGAGAAGTGGTGGAGAGCTATTCTAGCCTGTGG
R
AGAAGTGTTAAAATTTAACACACATAATAGTACATTGGAATGGGACCGTGAGTTGGGTAATCACTCTGAAGTAACTGGAACCAGGTTCCTAGAGGGAAGG
Celera SNP ID:            hCV1620705
SNP Position Genomic:     42632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64463):
GGTTCATTCATGTAACATGTATCAGAATTCTTCCTTTTAAAAACTAAATGATATCCCATTGTGTGTACCTACCAAGTTTTGTTTATTCATTCATCCATTG
M
TGGACATTTGGGTTGCTTCCACCTCTCAGATGTTGTGAATAATGCTGTTGTAAACATGGATGTGCAAGTATCTCTTCAACTCCCTGTTTTCAATTCTTTG
Celera SNP ID:            hCV11422408
SNP Position Genomic:     173870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64464):
TCAAGATCATCAAAGTCTTATCCACTCTACATAAGATAGTGTTCTGATATCATATCTTTCAGGAGCATTTTCAAATGAGCCTCTTCTACAAAGGTGGTTT
Y
ACCTGCCCTCCTCTGTGCCAGCAGGCTTCTCTTATTGATGTGTCCTGAGTTGTGTTTCCGTCTGTCCTTAGCTTTCCAAGAGCACCCAGGCATAAAAGCA
Celera SNP ID:            hCV27523257
SNP Position Genomic:     58864
SNP Source:               dbSNP
Population(Allele,Count): Control(T,139|C,342)   total(C,342|T,139) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64465):
TGAGTTCCTGATGAACTCAGAGGCACTGATCTAACACTAGAAGCACCAAGGTTTAGAGACTTTCTGTATGAAAGGGGCTCACTTTCCACTGCGTAAGCCA
M
TGCAGTTTGGGAAATCCCAAATTCAGCTACAATTCCCTTGTTGCTAAAAGCATTCTGAAATGATACAGAGACTGACTTTGCCAAGTACTTTCATTTAATA
Celera SNP ID:            hCV11422409
SNP Position Genomic:     170186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64466):
GTTTGTATAAGTTTATATGTACATACTTAGATATTTACTCCTTCCTGTTTTCTTCCAACAATGTTGATATGCCGTATAAGTTCTTAGGCAAAAAGATATG
W
CATTTAACTTCCATTTCTGTTAGGAAGTGTATTCTACTTAGCATTTTAACCCTAGTTTACAGTTAAATGAGAACCGAGAACTGATTTTTTCTCCAAGTTT
Celera SNP ID:            hCV2699029
SNP Position Genomic:     167834
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,9)      total(A,9|T,3) ;TSC_42_AA(T,24|A,59)   total(A,59|T,24)
SNP Type:                 INTRON


Context             (SEQ ID NO:64467):
ACTGCTTTGTAATCACAAATTCAGCTCTGGCTAGCAGGATTTGGGTTTAGACACAGTGGCAGTTAATCTTCAAAATACAAGTTGGTTTTGGTTTTTTAAA
S
AGATTTGATTTGCATTTTATTTTTAGTGTTGAAGACATTTTAGTTCAATTATTCCGCTTGTACAGGCTGCATTAGGTAGCAGTTAAGTGGGCAGGGTCCA
Celera SNP ID:            hCV1620707
SNP Position Genomic:     45190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64468):
ACTATCTTTTAGAATACAGTTTTCACCACATACAGCTCCAAATTGGCTGTCTACATAAAGTAAATTAACATACTATCTACTAAATAAGCTTATTTTAATA
Y
AAACAATGATTAAAACTTGTGTGTATTTCTTAAGAATATAGCCAGTAGATTATTTTATAAATATGAACAATAAATGTTTTGTGCCATATTGGGTGGCGAA
Celera SNP ID:            hCV8714543
SNP Position Genomic:     8058
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64469):
TGTTGCAGAATTCTAGAGATAGATGTGTCTGTAAGATTGATTAAGGGTGATGTTATGAATTGCCTTTCTAAAATTTTAAGCCTTAATAAATAAAAATGGT
S
AAGAGGCATCACTTCCTGGTGATAAAATAAGGAGAAACTTTGGGTTTTAGAGATGCATATAACTGGTTGCAACTGAATTCAAGAGCAAATGCTACAGTAT
Celera SNP ID:            hCV779285
SNP Position Genomic:     39585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64470):
ATGTTTTGGGCTGGGAAATGAAGACCAAATCTCACAGGACTAACCTGGAGATCAGAAACTGGGGCATGAAGGCACCTATGAATCTCTGAAAAGTTGATAA
Y
ATTAGGTACTTGCTGACCTGTTGAGAAAGAAAGAACCCCTAATGGTTCCAGAATCACAAGCCTGGAGACACAAAAGAGAATATAAGTGGTGGGAAGCATG
Celera SNP ID:            hCV29439964
SNP Position Genomic:     133455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64471):
TTGTTATGATTACTATATCACATATAGTAATGTTTCTGTAGTATTTGTTTGTATAAGTTTATATGTACATACTTAGATATTTACTCCTTCCTGTTTTCTT
S
CAACAATGTTGATATGCCGTATAAGTTCTTAGGCAAAAAGATATGACATTTAACTTCCATTTCTGTTAGGAAGTGTATTCTACTTAGCATTTTAACCCTA
Celera SNP ID:            hCV2699030
SNP Position Genomic:     167788
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,9)      total(G,3|C,9) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64472):
GATACAAATGCACACTGAATTGTGAGGACTGCTGATCTATACTCAGTCACTACATATGTTCCTGTAGGATGTTACATCCTTTCATGGACTTTTTCGATTT
S
TTGCCAACCACATAGAGAACTAGAAAGTTAGGTCAAGAAATAAGAGAAAGTATTAGGTTTAGATTTCTGGGTGCCAAGCAAGCCCTGCAATTATTTAGTT
Celera SNP ID:            hCV11422410
SNP Position Genomic:     164096
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,7)      total(G,7|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64473):
GCCAAATAAGGCTTCAGTAATAATTTCTATTTATGTTCATTGGGTAGTACATTTCATTGCATCATTCTCTAGGGAAAGTTAGTACTGTGTTAATTTCAGG
K
TCTAATGCCAATATATAAACACATCCAGCTTGTCATTTGATATCCAGGGAACATTACTTTTCAAGTGGGTTCTCCAAATGAATGGGTTTGACTCAGTCAT
Celera SNP ID:            hCV29439965
SNP Position Genomic:     130888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64474):
ATAAATTACAACATATTCATAACACAGAATACTACACAGCAGTGAAAGTAACACACTATTGATACACACAAGAACTCAGATGGATCTCACAGACATAAAA
R
GGAGAAAAAGAAACCAGACACAAAAGAATAAATGCTGCACGATCAATATGTGTGAAATTTTTAAAAAGAGCAAAATTTGGGCCGGGCGCAGTGGCTCACG
Celera SNP ID:            hCV15970495
SNP Position Genomic:     101493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64475):
CAAATCTGATCCTCTTTTCTCTACAGTAATAGCTCCCACCCAAAGACTATTATAAGGCTAAATAGGACAGGATCTTAAGGACTGAGAAGTGCCATAGAGA
R
CATTGCCTCCTCCCTCTTAATTTTACAGCTGAGCAAACTGAAGCCCAAAAGATTAAGTTATTTTCCCAGGAGTCACATCAGTAAGAAGGTCATATGTAAA
Celera SNP ID:            hCV2699031
SNP Position Genomic:     163068
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64476):
CCTCAGTAGTTACTGGCGGGAAAGAGAACCGGGGGAGAGAGACAGTGAGCAAGAAAAGGAGGAGAGACAAAGATGGAGAGGAAATAAAGTAAAAACAGAT
R
AAGCAAAAAAAGAAATTGAGTCAGAAGAATGACAGAATGAATATGGTCAGAAGCCAACTGCACCCATTTATGAGGACATAACTGCTTGAATTGCTGATGT
Celera SNP ID:            hCV29439966
SNP Position Genomic:     128681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64477):
AGAGCATGTATGGAATTGAATTAACCTGTGGATTAAACTCATCCATTTGGGAGATCATGGTTATTACTGATTTAATCTAAACATCAGTGCTAGCCGTGTG
S
ATATGTGGAACTCAGTGCTGTATGAATGCGAAGAATACAGGATGCCTTTTCAGTCTTCAATTTGGAAACTTCATCATGATAACACTGATTATCAGGTAAA
Celera SNP ID:            hCV15762029
SNP Position Genomic:     94192
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64478):
GGAAAAGACCATTGGAGTCACCCCTATTTTTTGCAGGCTCAGGGGTTGGTATTAGATGAAGAAACACAAGATTTCTCTGTCAGTTGGGAAATCCTTTTTC
Y
TCTTAGGAGTTTATTAGGTTTTTTAGCTGCCACTAAGTTTAGCTTATAAGAAGAGAGGGAAACAGCCTCTGAAACTTCCAGGCTGATCCTTTCATTTATC
Celera SNP ID:            hCV2699032
SNP Position Genomic:     162828
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64479):
TAATAACCGTAGAGAAAGAGAGCTGACTGCAAAGTGCTAGGAATGACTAGAGACTGAGAGAGAGCACAGATGCTTACAGAGAGCCTCAGTAGTTACTGGC
R
GGAAAGAGAACCGGGGGAGAGAGACAGTGAGCAAGAAAAGGAGGAGAGACAAAGATGGAGAGGAAATAAAGTAAAAACAGATGAAGCAAAAAAAGAAATT
Celera SNP ID:            hCV29439967
SNP Position Genomic:     128598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64480):
TTAATCGCCCCTTTTCTGCAACACTTGTGGGTTAGGGAAAATAATTCTAAAGCAAGAGCAAAGACAGAGTTGGGAGATCACCAGTGAGGTTCAATTTTCC
R
TCACATTCACTCTGCTCCACACCTCAGATAATCATGTGCTTAACTGCGAAACTTGCTTGACAATTACAGAACACTTTCTCACCCATTACTACCTTGATCC
Celera SNP ID:            hCV2699033
SNP Position Genomic:     158359
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,6)      total(G,6|A,4) ;no_pop(G,-|A,-)   Gontrol(A,226|G,255)   total(G,255|A,226) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64481):
ACTCAAAGATGAGAAACAGGAAAAAAATTTCCAGCTGTGAACTGCTGCTAAAGCAGAGAAGCCCTGTCTGTGATATTAGTTCGTGTATCAAAATGCTTGC
S
ATTTGGCCCTAGAAAAAGGGACCGCTGGCAGTGTTGTACATAAGTGGTCCTGCTTGGTTTGCCCATGTGGTATTTATCTCAGTCCCTTCTGATCAGGGCC
Celera SNP ID:            hCV29439968
SNP Position Genomic:     128316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64482):
TTGTTTTTAATTCTCTGCTGCTAGGTAGCACTAAATCCCCAAGGGACTCAAAGATGAGAAACAGGAAAAAAATTTCCAGCTGTGAACTGCTGCTAAAGCA
K
AGAAGCCCTGTCTGTGATATTAGTTCGTGTATCAAAATGCTTGCGATTTGGCCCTAGAAAAAGGGACCGCTGGCAGTGTTGTACATAAGTGGTCCTGCTT
Celera SNP ID:            hCV29439969
SNP Position Genomic:     128271
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64483):
AGCTACTATGGGAGAGAAGAGAAATAGCCCAGCCAGATACAGTCTGCATGGGCTGCACCACTGGCCCCACCTCCGCTAACTGCTTATTGCCCACTGATGC
R
TTATGATCTTTAGCCATCCTGATCACTCTTGGATTCATCACTGCATTCTCTACTCCATCCCAGGTTCCCTAATACATGTACATATATATGTGCCTCACCC
Celera SNP ID:            hCV11422416
SNP Position Genomic:     163407
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,5)      total(G,5|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64484):
GGGGAGATAACTTGAGCCCAGGAGTTCCAGGCTGCAGTGAGTTGCGATCACACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATTTCTAAAAA
W
CAAAAAAGGAATCATAATTTTGAATATATATCCCAGGCATGTCTAGTGCTGGTGACCAAGGTCTAAACTACTTTCCCACAAATCAGACTTTTCAACTGCC
Celera SNP ID:            hCV1620714
SNP Position Genomic:     62243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64485):
AAGCAAGAGCAAAGACAGAGTTGGGAGATCACCAGTGAGGTTCAATTTTCCGTCACATTCACTCTGCTCCACACCTCAGATAATCATGTGCTTAACTGCG
M
AACTTGCTTGACAATTACAGAACACTTTCTCACCCATTACTACCTTGATCCTCACAATTCTGTGGGGTAGTAGGAGCAGATGCTGAAATTGCCATACGCA
Celera SNP ID:            hCV11422417
SNP Position Genomic:     158408
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64486):
AATGACATGACCATACATAGAGCTCACCTTTTCCATTAACCAGATGAGTTGGCCTTTGGGGAGTGCATAGAGAAAACTTCTGGTTGTGGTCACTCCTCTT
W
GTCTGTGGGAAGAAAAGGACAAGAAATGTCTCCTCGAGCACCAAGATGGTATAGAGAAAGACAAGACTTCTGCTGAGACTTCAGAAAATGAAATAAGAAA
Celera SNP ID:            hCV1620715
SNP Position Genomic:     62531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64487):
AATAAGTTAGTTCCTTGATAGTTCTATGTCATTCTTTGATTTAAATAATGTTCCTAGAACACTGCAGTAGATATTTGAGTACTATTGATTAGGTTGTTTA
K
AAATGCAGTGTGTTCTGTCCATTTGCTCCAAATTAACAATTTTTTGAAAAGCATCAGGTTTAGTATCTTACTATTATGCTAACCCATTTTAGCTTTTGTA
Celera SNP ID:            hCV11422419
SNP Position Genomic:     152000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64488):
TGACCCACTAAGTCAGCTCTCAGCATGTCACTCATAGCTGATTTTGAGATAGGTTTTTAACTGGTAAGCAATATGCTTAGGTGCCCTGCCCTGTCTCAGT
G
ATAAAGACAAGTGAAATGCCAAAGTCTAATCCTTTTGTTTGAGAAAGTATAGTTTCAACCAATATATTTATTAGTCTCTTGGGGAGAAGCCAGATTTATA
Celera SNP ID:            hCV27349023
SNP Position Genomic:     194128
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,7)   total(G,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64489):
AATATAAGTTGCTGTCGAGACTCCTTTGTTGGTAGAAATATACTTAAATTTCCTGGGTCCTGTAATCAGGATAAAAGTTGTCTCTCTCTCTCTCTCTCTT
T
TTTTTTTTTTTTTTTTGATGGAGTCTTGTTCTGTCGCCAGGCTGGAGTGCAGTGGCACAATCTCCGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGA
Celera SNP ID:            hCV27349024
SNP Position Genomic:     189178
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64490):
ATAAATATAAGTTGCTGTCGAGACTCCTTTGTTGGTAGAAATATACTTAAATTTCCTGGGTCCTGTAATCAGGATAAAAGTTGTCTCTCTCTCTCTCTCT
C
TTTTTTTTTTTTTTTTTTTGATGGAGTCTTGTTCTGTCGCCAGGCTGGAGTGCAGTGGCACAATCTCCGCTCACTGCAACCTCTGCCTCCCAGGTTCAAG
Celera SNP ID:            hCV27349025
SNP Position Genomic:     189175
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64491):
CTATAAATATAAGTTGCTGTCGAGACTCCTTTGTTGGTAGAAATATACTTAAATTTCCTGGGTCCTGTAATCAGGATAAAAGTTGTCTCTCTCTCTCTCT
C
TCTTTTTTTTTTTTTTTTTTTGATGGAGTCTTGTTCTGTCGCCAGGCTGGAGTGCAGTGGCACAATCTCCGCTCACTGCAACCTCTGCCTCCCAGGTTCA
Celera SNP ID:            hCV27349026
SNP Position Genomic:     189173
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64492):
CCCTATAAATATAAGTTGCTGTCGAGACTCCTTTGTTGGTAGAAATATACTTAAATTTCCTGGGTCCTGTAATCAGGATAAAAGTTGTCTCTCTCTCTCT
C
TCTCTTTTTTTTTTTTTTTTTTTGATGGAGTCTTGTTCTGTCGCCAGGCTGGAGTGCAGTGGCACAATCTCCGCTCACTGCAACCTCTGCCTCCCAGGTT
Celera SNP ID:            hCV27349027
SNP Position Genomic:     189171
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64493):
TTGGCCCTATAAATATAAGTTGCTGTCGAGACTCCTTTGTTGGTAGAAATATACTTAAATTTCCTGGGTCCTGTAATCAGGATAAAAGTTGTCTCTCTCT
C
TCTCTCTCTTTTTTTTTTTTTTTTTTTGATGGAGTCTTGTTCTGTCGCCAGGCTGGAGTGCAGTGGCACAATCTCCGCTCACTGCAACCTCTGCCTCCCA
Celera SNP ID:            hCV27349028
SNP Position Genomic:     189167
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64494):
ATATGTACAAACATGCCATAGTCATGAATTGGAAGACTCAATACTGTTAAGATGTTATATCTCTTCAAATTAATCTAAAGATTTATTAGGATCCATGTCA
R
AATCCCAGCAGGTTTTTTTTTTTTTGGTAGAAATTTACAAGCTGATTTTAAAATTTATATGGAAATGTCAATGTTATTGAAGAAACAATTTGAAGTACTC
Celera SNP ID:            hCV302424
SNP Position Genomic:     100300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64495):
ATTGGTACACACACACCTATATATATATATAGATAGATATACACACACACACATATAAACACACCAATTGGCATATATATATATATACACACACACACAC
A
TACAATATATACATATACATATATATATATACCAATTGGTATATACACACACACTGCAATTGGTGTATGTGTGTGTGTGTGTGGGTATATATATATATAC
Celera SNP ID:            hCV27349029
SNP Position Genomic:     183845
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64496):
CTTATTGGTATTTTATCACAGGCTGGCATTTATGAGAATATTATTTTCCTCCTGGTGCCATCAGTGCTTCCATGTTCTAGGTGCAGGCATCTTCGCGGTC
R
TAAGTGCCAGTGTTCTCCTGAAATTAGCATCTCATCTGAATCTGTTAACCAGATTGTATAAGTGGAGAGAAATATAATCCTTTTTCATGTTGATTTTAAA
Celera SNP ID:            hCV29440000
SNP Position Genomic:     58095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64497):
ATCTGTCAGATTACATGATTTCTCTTGAATCCTTCAAGTTAATTATGGGGTTTACAATTCTGGTTTTAGTATGATTGATTTTTCTGAATGATAAGGTAAT
Y
TTACATAAAATGCATAGAGATTCCTTATTGGTATTTTATCACAGGCTGGCATTTATGAGAATATTATTTTCCTCCTGGTGCCATCAGTGCTTCCATGTTC
Celera SNP ID:            hCV29440001
SNP Position Genomic:     57971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64498):
AAACTTCCTAATCTCTCCTAGTCTGCCCCCTCATCTGTCAGATTACATGATTTCTCTTGAATCCTTCAAGTTAATTATGGGGTTTACAATTCTGGTTTTA
R
TATGATTGATTTTTCTGAATGATAAGGTAATCTTACATAAAATGCATAGAGATTCCTTATTGGTATTTTATCACAGGCTGGCATTTATGAGAATATTATT
Celera SNP ID:            hCV29440002
SNP Position Genomic:     57939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64499):
AACCTTGGTGACAACAGCAAAACTCCGTAAAAAAAAAAAAAAAAAAAAAAAAAAAAATATATATATATATATATATATATATATATATATATATATATAG
Y
TTTAAAAATATAAAAAAATAGTGATATATGTGCTTTTTGAAATTAACACATTAAATAAAATCTAGTGGCCAATCTAAGTGGTGATGATCATAAATATTTT
Celera SNP ID:            hCV7437883
SNP Position Genomic:     110195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64500):
ATGATACAATGAGTAAATCTCTGGGCTTTATTCAGAACACCTGGGTCCTGGATCTGACAACCAATACCTGTGTTAAAACTTCCTAATCTCTCCTAGTCTG
Y
CCCCTCATCTGTCAGATTACATGATTTCTCTTGAATCCTTCAAGTTAATTATGGGGTTTACAATTCTGGTTTTAGTATGATTGATTTTTCTGAATGATAA
Celera SNP ID:            hCV29440003
SNP Position Genomic:     57864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64501):
TGACTCTAATGGGGAAGAATGACATCTTTTCATCTCTTTTTTAATAGATGAATGAACTTAGATATAATTTGAAGTGCTTAGCAGAAGTCTTCTAACTGTT
H
AGTGATAAATCTTTTGAAATCAGATATGACAGTTTCTGGGAGTCTTTTTCACATCATCCTTCAATTTAGGGAATTAAATAATAAAATTTACTTGTTCATC
Celera SNP ID:            hCV7437884
SNP Position Genomic:     110745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64502):
AAGATGAGTAAATTTTTGAAAAAATGACAGCTCCAGTCAAGCTCAGATTTAAAGAAAGAAGTTAATGGAGATTTAAATCAGACAAATGAAGTCATCCATT
Y
TAAGTTTATCCTAATTTTTTAAAAAGTTAATTTAATTTTTGTGCAGTGTAAACTAGAGTCTAATATGAAATTGATTTTTTTGAAGATCCATAGGTTTAGA
Celera SNP ID:            hCV29440004
SNP Position Genomic:     56933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64503):
AGGAAATAAACTGTATTTCAGTGCAATTATTGAGAAGTATAATTTCAAACATAATCTGTTTCCTTTAAAGATTTTTGAGTTAAAATTAAAATAATAGAAA
R
TTTGTCAAGAAAAAGTTTGATATTATATTATGGGTATTAATTTTTTTTATATTTATTACATTTAACATTTAAGCTTTAAGTTTTAAAAGCCATGACAAAC
Celera SNP ID:            hCV29440005
SNP Position Genomic:     56702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64504):
ATATCAGTACCTCCTAATTAAACTGCTCTGTTTATTTCAATGTAAAAAAATTTGAACTTCAAATATTTCAGTACAAATAATTATCTGCAAGTATTTATTC
Y
ATAATTTGTTACTGAGAGCCTACTAAAATAGTAATATAGAGCACAATATAGCAATTATTATCCTATAAAATAATAGCTATATCTATACAATAACAATAGT
Celera SNP ID:            hCV29440006
SNP Position Genomic:     56159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64505):
TCAGCAAGACTGCTCACATTTAAAGGTTGAAGCTGAAGTACTCATTTTACCCATAGCAGAAACTTCTTACTTATAAAGCAAAATATAAGTTATTTAATTG
S
AATTTCTAGAAAGTATTGGCAAAGATGATGTTTCTTAAATAAAATAAATCAGAAAGAAAAAATTACACTCTGCCCTGCTTCTTCCTGCCCATTCATGATA
Celera SNP ID:            hCV29440007
SNP Position Genomic:     53880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64506):
TCAAAATCTAGGACACTGTTAATGTCAAACGCTGGGGAGCAACAGGAACCCTCAGTCATTGCTGGTTGGGATGTAAAATTTTACAGCAATTTGAAAGACA
R
CTTGGCAGTTTCTTTCAAAACTAGACATAATCTTGCCACACAATCAATCCAGCAATCATGTCCCTTGGCCTCTATGCAAAGGAATTGAAAACATATGTGT
Celera SNP ID:            hCV7437888
SNP Position Genomic:     111111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64507):
TGCTGTCAGCAAGACTGCTCACATTTAAAGGTTGAAGCTGAAGTACTCATTTTACCCATAGCAGAAACTTCTTACTTATAAAGCAAAATATAAGTTATTT
R
ATTGGAATTTCTAGAAAGTATTGGCAAAGATGATGTTTCTTAAATAAAATAAATCAGAAAGAAAAAATTACACTCTGCCCTGCTTCTTCCTGCCCATTCA
Celera SNP ID:            hCV29440008
SNP Position Genomic:     53875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64508):
ACAAAAATAATATTCTAGAATCCAAGTTAAGTTCTTTTTCTCTACATAAAGTAATTTTTCTGAGTATGTACATGTTTATCAACTTATCTTTACATATTAT
K
TTATTGTAAAACATAAAACGGGAAAATTTTTGCTTGAATTGTGAAAAAATAAGTTTTGCTGTCACACTCTTAATATAGGACACATATTAAAGTGAGATAG
Celera SNP ID:            hCV7437889
SNP Position Genomic:     113624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64509):
AGAATGCTGTCAGCAAGACTGCTCACATTTAAAGGTTGAAGCTGAAGTACTCATTTTACCCATAGCAGAAACTTCTTACTTATAAAGCAAAATATAAGTT
W
TTTAATTGGAATTTCTAGAAAGTATTGGCAAAGATGATGTTTCTTAAATAAAATAAATCAGAAAGAAAAAATTACACTCTGCCCTGCTTCTTCCTGCCCA
Celera SNP ID:            hCV29440009
SNP Position Genomic:     53871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64510):
ACATTTTTGTTGTTGTAGTGGTTTTTGTTTTTAATTCTCTGCTGCTAGGTAGCACTAAATCCCCAAGGGACTCAAAGATGAGAAACAGGAAAAAAATTTC
M
AGCTGTGAACTGCTGCTAAAGCAGAGAAGCCCTGTCTGTGATATTAGTTCGTGTATCAAAATGCTTGCGATTTGGCCCTAGAAAAAGGGACCGCTGGCAG
Celera SNP ID:            hCV29439970
SNP Position Genomic:     128247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64511):
CATTTTTGAAATTAAAAATAAACTTGTAATAGAAATATAGTTCTAAAGAGTTTCACCATCTTGTAGATTTTTCAATAATTTTTTCATATAAAGTCAATAC
R
TCTTTATAGAATAAAATATTTTAGAATCTAGTTTATAGGAAATAGCATAAACATCTGTTTCGATAAACTTCCCCTAATAAAGACATACCTTGAACACGAG
Celera SNP ID:            hCV29439971
SNP Position Genomic:     127930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64512):
GTATGGAAAAGCTGAATTTTTAAGGAGACAGCAAACCTCACAGATTCAGGGGATTTAATTTCCCCTCCTCATATCCCAGAAGGTCTAAGTTACTAGTTAC
S
TTAAACAAAAGAAATAATTAAACAATGGAGAAGATGCTATAGAAAAGTTTCCCTTTTCTTTTCTTTTTAAATATACTTCTTATATGCAGTCCTAAAAGGA
Celera SNP ID:            hCV29439972
SNP Position Genomic:     127387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64513):
GAAGACTTGCGAGAATATTTCCCAAGCTGATAGGCAGTGGAGTTGGGTGCTGGGTCTGGCTTTTGTAATTCCAGCCCCAAGCCCTGCACCACAGAGAAGA
Y
AGTTATCCCGTGGAGGTCAGGATTTGGAAATACTTGGCCAAGGAGGCCCTGATTAATCTGGACATAGAAAGTAGAGCAATAGCTTGAATGACCTTGCAGG
Celera SNP ID:            hCV29439973
SNP Position Genomic:     125836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64514):
TCTACTGTGGCTCCTCCCTCATGCCCAACCCTACCATTTATATACTGTAGATATTTTATGAGAAAATTGACCCCTGTTTATGTGCGTCATTCCAGTCACC
M
ACAAACACACCTTTATAAAGGACGCACAATTACATGTGACAAATTAATTGGTCATTTCATTTTGTGTCCAGAAAGTACTCTTTGAGGAACCATAGGGCAA
Celera SNP ID:            hCV29439974
SNP Position Genomic:     125393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64515):
ACATTTCCACTAGTGATGACATCAGACTATGCAGGGGATGGGGTGGTGTAGGGGTTGTGGTAGGCAGGGCTTCTAAACCAGCAAGACTACCTTCATTCCT
Y
TGGCCGTATTAAATACCTATAAGAGCTAACGAAAGCATTGAGATTGCTATGGATGAATTGGTTCAAGATTAGTTCATTATCCCTGTCCGCCTCTAGCACC
Celera SNP ID:            hCV11422420
SNP Position Genomic:     148277
SNP Source:               dbSNP
Population(Allele,Count): Control(C,226|T,255)   total(C,226|T,255)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64516):
TTCATCGTTAAGATAGTTTTCAGCTCAGAGGCTGAGATAAAGACCCAGCCAGTTTTCTAGGACACACATCATTAATTAGACAACAAATTCTTACCTCCTT
S
CTTGTTGGTTTTACTTACAGGACAGGAAACATCTCTATGGAATTAAATTGCTCACTACATGCTCCTAATATGTTTTGTTTTTATGCTTACTCCAGGGAAA
Celera SNP ID:            hCV29439975
SNP Position Genomic:     124493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64517):
ACCAAGTTCACAGAAGTGCCAAAATGAAAATAAGTAAATTAAGAACTGTTCTATCTAATTTCTTTATTAGAACACACATTTTTGTGTGTTTTTCATGTGT
R
TGCATTATATTTATAAACTGATGTGATTAATATATAAACTGTGTTAATCTGCAATTATTTTTATTTCCTACATAGAATTTTATATGGTGATTTTTAGGAA
Celera SNP ID:            hCV11422421
SNP Position Genomic:     147608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64518):
CTACATTTCAGTGACTTAAATAAGCACATATCTAAACAGCCTTCCCTTAGACACAGGCAAATGCAACCCATGATTCCACACAGCCCTTAAAATGGCAACT
Y
GCAAGATGTACACAATTTTAAAATTGTATTAGCCTATTCATAGCAAGATTCTTCATTAACCTATGTGCATATTCAATGTTGACCACATGCCCCCCAACCC
Celera SNP ID:            hCV29439976
SNP Position Genomic:     124126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64519):
TTGATATTCCTTTTAAAGAGAATGTCTGAGCATTATCTCACGTTTTCTAAAACAGTTTAACAGTCCCTCCTCCAGGCAGATTCATTATTAAGTGCATAAT
S
ATATGAAGGTTCAGGATGGCCTGAAATCTGGACGATCACCTATTTCTGTAAATAAAGTTCTGTTAGAGCACAGCTGCACACTTTTTAAAGTAATATTTTC
Celera SNP ID:            hCV29439977
SNP Position Genomic:     121887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64520):
GATGCCAGGATTTGCAGATTTGACCTTGAAGTGGACTTCTGAACAGAACGGAAAGAATTCAGATGGTGGCCTTCTTGGGACATCTTCTCGCCTCCCTGAG
Y
TGGTCATAATCGTTCATTTCCCCATCCGAACCTACTTTTTCTGCCTTTGCCATTTTATCAGATTTATACTTATCTTTCCTAGACACTGTCTTTCACCTGT
Celera SNP ID:            hCV29439978
SNP Position Genomic:     120688
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64521):
GTGAGGGCAGTAGACACTTCTCAAATAGATGTGTCAGTTACAGCACTCTCCTCCTCTAAAGTATTCACAAAGAGACAGATAAAACAGTTTTTTTTTCATC
Y
TCCTCCTCCCCTTCCTCTTTGTCCTCCATGTTTTCTTCATCTTCCTCTTCCACCTTTTTCCAGGCAACTTTAGTGGGGTGCTTTGAGCCATCAAACTCTC
Celera SNP ID:            hCV29439979
SNP Position Genomic:     120363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64522):
TTGGAAATAGAATAAGAGAAACAAGGTGGCGGGCCAAGATTGGGTATCCTACATACCTCCCATAGTTATTTTGATCTTTTTATGTGATCATTCTACACAC
W
CTCAGGTGATCACAAGACTGGGCAACCATCTCTCTCATTGTGTCTCTTATACACCTGCATCAAGCAAGGTGTTCCTAAGTCCTTAATATTCTAAATAAAT
Celera SNP ID:            hCV1620723
SNP Position Genomic:     69707
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64523):
TCTCTCTGCCTGTCTCTGCATCCAGTTGCTAAGGCTGGTTGTTTTGCGAGCATGTGGTGTGTTCTGTGGGGGAAATGGGCATTGCTGGCTTTTCATAACC
R
AGTGGGGTTGGTAGGAAACATTGAAGAATCTATTTACGTTAATGGGAGTATATGTTTGCCCAGCACATTACATTGTCGGCTCCCAGCTGTATTTGTTTTA
Celera SNP ID:            hCV1620650
SNP Position Genomic:     7360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64524):
GCCCTTTGGAGGTGCCATATTGCCCAGGTGATAAGCATTCTTTAAAGACCCAATACTTGACCACTCTGAGTAAGCCTTTCATCTTAACATTACCTCTTTC
R
TGCCTTTCCTCCTCTGCCTGTCATTTGTTTCCCAGGCTTAATCACTCACTCCACCCTCCACTTCACTCCTCCCACACCAGTCCAGTTATGGTAATTTACC
Celera SNP ID:            hCV8708145
SNP Position Genomic:     107500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64525):
TAGAAGTCTGTTCTTTTCCATGCCAGCAGAAATTCTCCCTACCCAGCTGTTATAATTAGAGGAATTGCTCCCCGAGTTTTCATATCAGATCAGAACTGTT
W
TTTGTTGTTTTGCAAGGTCTGCACACATAAAGAGTTTTTAAGCAAAACATTTATGGTCTAGGATTAGAAATGCTTCGACATGCAAACGTAGACTGTGATA
Celera SNP ID:            hCV1620725
SNP Position Genomic:     77487
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,-|A,-)   TSC_42_C(T,-|A,-)   TSC_42_AA(T,-|A,-)   no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64526):
AATTGGTACACACACACCTATATATATATATAGATAGATATACACACACACACATATAAACACACCAATTGGCATATATATATATATACACACACACACA
C
ATACAATATATACATATACATATATATATATACCAATTGGTATATACACACACACTGCAATTGGTGTATGTGTGTGTGTGTGTGGGTATATATATATATA
Celera SNP ID:            hCV27349030
SNP Position Genomic:     183844
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64527):
TATTAGATCTCTGAGGGGTTTTGTCCAGGGTTAGACCTTGGTTTTAAGATTTGACCACTCCACTATATTAAATAAAGAGAGATGAGTCACATGTTAATAA
R
CATGTCCCAGCCCATACAAAAGCACCATAATTGGTTGCTATTTGCTGTTCTAATTGAGGTAGAGACTGAATGGGAATAACGTATTTTTTGTGAGGCTTAG
Celera SNP ID:            hCV27347500
SNP Position Genomic:     65443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64528):
GAATCATCTTTGTAATTGGTACACACACACCTATATATATATATAGATAGATATACACACACACACATATAAACACACCAATTGGCATATATATATATAT
A
CACACACACACACATACAATATATACATATACATATATATATATACCAATTGGTATATACACACACACTGCAATTGGTGTATGTGTGTGTGTGTGTGGGT
Celera SNP ID:            hCV27349031
SNP Position Genomic:     183831
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64529):
CCACCATACCTGGCCTCATTTTCTTATCTTTAAAGTGAGGATAATAATGCTACCTAGCTCAAAAAGTCGCTATGCATATTAAATGAGTTAGTATTTTTAA
R
AAGAGCACTTAGAGTCGTTTCTGGCCCAAAGTGTATGCTCAGGAAATGATAGCTATTATTCTTACTATTGTTATCATTAGCGCTGGATATTACCTTTCTG
Celera SNP ID:            hCV15808338
SNP Position Genomic:     39129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64530):
AGAATCATCTTTGTAATTGGTACACACACACCTATATATATATATAGATAGATATACACACACACACATATAAACACACCAATTGGCATATATATATATA
T
ACACACACACACACATACAATATATACATATACATATATATATATACCAATTGGTATATACACACACACTGCAATTGGTGTATGTGTGTGTGTGTGTGGG
Celera SNP ID:            hCV27349032
SNP Position Genomic:     183830
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64531):
GGATTTAAAGCTTTGCTATTGTCTACTAATGATCTTGTTATATATCCTCCATCATAAGGCAACAGAGTAAGCTTGATTAAAAATTATTTAAATTAACCCC
K
TGTGGAAATGTCAGTAGGAATCATATTGAATTACCTAAAGTCACATAATTTTTTAAAAAGCCTCCCAATTCTTGAGCACAAGCTTTAAATTTTACACACA
Celera SNP ID:            hCV15808339
SNP Position Genomic:     34269
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,0|G,84)   TSC_42_C(T,0|G,84)   TSC_42_AA(T,0|G,84)   total(G,252) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64532):
TCTTCCTCATATCATTCTTGACTTTTGCCTAATCAGGCACTCAGAACCACCGAGTTTCTTCTTGATAAAGTGCTTAGGAGAAATCTACATGGGGTGGGGG
R
GTATTATCTCAATGGGCTACACCATCCTCTTCCAGCTGCAACTAGTTAGCACCTTGGGTGAGCTAAGGAGGAGATCCCTTTTAAGTCATTGAAGGGAGTC
Celera SNP ID:            hCV322756
SNP Position Genomic:     107076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64533):
GTTATACACATAAAAGTCCAGGTGTCTTTTTTTTATAGAATAATTTCTTTTCTTTTGGATATAGACCCAGTAGTGGGATTGCTGGATTGAATGTTAGTTC
Y
ATTTTTAGTTCTTTGAGATATCTCCGTACTGTTTTCCATAAATACTGTACTAAGTTAAATCCCCACCAACAATGTGTAAGCCTTTTCTTTTCCTCTGCAT
Celera SNP ID:            hCV27349033
SNP Position Genomic:     174711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64534):
ATGATAATATTATCTCTTCCATTGAGATTTTCCGGGGTAACATGTAACTACTTGGCTCAACAACGAGACATGAATGCAGTGTCTTTTCTCAGGAAACTCT
Y
CAATGATGGATGGGTATTTACTTGTTTGTTTTCTTCAGAATCCAACAATTCTCTTTCTTTTGAAAAAGCCTTTAAAATAGTGCGATTCTCATTGCTTAAT
Celera SNP ID:            hCV1620657
SNP Position Genomic:     16236
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64535):
ACCCTATGTTGTATGAAAAAGTGGATTTTCTCTTTAGTTGCTAGTACTGTATTCTGTGCGGAAAAGACCATTGGAGTCACCCCTATTTTTTGCAGGCTCA
R
GGGTTGGTATTAGATGAAGAAACACAAGATTTCTCTGTCAGTTGGGAAATCCTTTTTCCTCTTAGGAGTTTATTAGGTTTTTTAGCTGCCACTAAGTTTA
Celera SNP ID:            hCV27349034
SNP Position Genomic:     162769
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64536):
ACAACTCTGATCTGTAACTTAAATGAATGTCAAATTGCCTCACAGGAATTTCAGATCTTCAGTCTGAAGTTCTGGTAGATAATATTGAACATATTCCTCA
R
CAACAGCATGCATGCTTCTAAATAGCCACTAGAATTCATTGGAAAAGAGCAATATACAAACAAACAAAAAACCCCAGAAAACTGGCAAGCTGATCTAGAT
Celera SNP ID:            hCV1620658
SNP Position Genomic:     19698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64537):
ACTTTAGATATTTATTTTTCAATTATTCATTGGGAATCTGTATTGTAAGACTTTGGGATACATCAGTATTTAAAACAAAAATACTTGTCTTGTAGGCCTT
R
TATTTAACGTTTACTAGAAAAATATCATGCAAGCCTTCTTATTCTATCAGTTTATTGAAAAAAATGAGCATTTTTTTACATATTACATGTATTTTTACAT
Celera SNP ID:            hCV27347504
SNP Position Genomic:     43887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64538):
AGATTTGTTTAAGAAGTAAAAGGCTGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGG
R
GTTTGAGACCAGCCTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAGTACAAAAATTAGCTGGGTATGGTGGCAGGTGCCTGTAATCCCAGCTACTCA
Celera SNP ID:            hCV27349035
SNP Position Genomic:     156839
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64539):
AAAATTGGGCCACATGAGTGATAATAATCTACTAATGCTTTAATCCTGATTTTTAGCCTAGCCATAATGAGGAGAAATCTTTTCTCAGGTCAATACTTGG
G
TGGGGGGGCATTTTTCACATTGACGATTAAAGCCTTGTAACATGTTAAATTAACCTTTCATCATGTGTCTCATTAGCCTCAATGTATTTGCCAAAGCTTT
Celera SNP ID:            hCV27349036
SNP Position Genomic:     151416
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,3)   total(G,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64540):
TATAGTAGAGATGGAGTTTCACCATGTAGGCCAAGCTGGTGTTGAACTCCTGACCTCAGGTGATCCGCCAGCCTCTGCCTCCCAAAGTGCTGGGATTACA
R
GTGTGAGCCACCATACCTGGCCTCATTTTCTTATCTTTAAAGTGAGGATAATAATGCTACCTAGCTCAAAAAGTCGCTATGCATATTAAATGAGTTAGTA
Celera SNP ID:            hCV27981513
SNP Position Genomic:     39021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64541):
CAAAATTGGGCCACATGAGTGATAATAATCTACTAATGCTTTAATCCTGATTTTTAGCCTAGCCATAATGAGGAGAAATCTTTTCTCAGGTCAATACTTG
G
GTGGGGGGGCATTTTTCACATTGACGATTAAAGCCTTGTAACATGTTAAATTAACCTTTCATCATGTGTCTCATTAGCCTCAATGTATTTGCCAAAGCTT
Celera SNP ID:            hCV27349037
SNP Position Genomic:     151415
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,3)   total(G,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64542):
ATTTATCATAATGTGATCCAAGATCAAGTTGCATCAAAATCACCAGGATCCTTACATAAAATACTCATTCTCCAACATAAGCCCAGAACTATTTAACCAA
Y
ACCTTTATGGTGGACTCAGGTATAAGGCATTAAAAATTTTCCAAAAAGGGACAATGAGGCATGCTGAAGTGTGAAGAATGCACCTAGCTTTATGGAAATT
Celera SNP ID:            hCV15830501
SNP Position Genomic:     132089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64543):
TATTGATAGAACAAAAGAAAACACAGCATGCACTTTCAAATGCAAGCACCTATATCTTTGGCACAAATATCGATACCAAATTCACGTTATAGTTGGTACA
Y
ATAAAAACAAATATAATGAATTGCAAGGTTCTGCAGATTTACGGCTAATTACTCTTTTCTACTTCTTCATCTATATTTATCATAATGTGATCCAAGATCA
Celera SNP ID:            hCV15830502
SNP Position Genomic:     131914
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64544):
AGAAATAACTCTCCTAATTGGTTTTATTGATTACTGTTGATGCAGCATTGCATCATTGTAGATAAAGCACACACACAGATATACATGTCTGCCTGCGTGC
R
TGTAGGTACACATATGCCCTCCAAAAAATTGCTTATCTGAGGCTGTAGGAAAGGATCTATTATATTTTTCAACTCTTCCTTCATCCCTAAGTGACAGGAA
Celera SNP ID:            hCV9266279
SNP Position Genomic:     26116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64545):
CATGATATAGGAAGTTGTAAATTACATTATGCACTAAATTACTATATTTTATGATTGTTTTCTATATTAATAGTAAAGTATTTCAAAGTAACATAATTTA
M
AGATATTTCTGTTTTATATCTAGACACTGCCAACCTCATTCAATATATGCTTAAAGTCTTTACCTGAAAAAAATGTCTGAAGTAATAGGTTAGCTCAATC
Celera SNP ID:            hCV7437890
SNP Position Genomic:     113990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64546):
ATGAGTAGCCTCTCTGACATTTGCATGCCATTCAGTTTTGATTAGTTCTTTCTAAATTTAGCTCCTTGGCAGGTGCACATCTTTTCCTGGCTTCGCTGGC
R
TATCATATTGGTTCTACCACCGTCATTTAGTTTTGGAATCACCTGTTTAACTTCTGGCCTGACCTCATTGCAATGACAAATCACACCTTCTGTGCGAAGG
Celera SNP ID:            hCV29440010
SNP Position Genomic:     53520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64547):
TAGGAAGACTAAAATTATGATAACAGCAATAAGCATTTATATTTATGCATAAATGCATATACATACTTGTTATAATCTCAAATAAAGAAAAGATTCCATC
M
AAACACATGATTCTTCTAAATTGTACGCACACAGTTTGAGTACCTGTAAGATATCTGCAAATGGAGTTAAATGTAATAATTTCTAACATTGTGTTTGCCT
Celera SNP ID:            hCV9504309
SNP Position Genomic:     68649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64548):
AACCACAGAGCTAAACTCTGTGTGGGATAACAATATATAGTATATTTCTTGCTTATTAGCTATTATTTGCATCTCTTCAACTGCTCCAACCTTTCAACCA
Y
TGCATTATCCACTCAGACACAAATAATTTCTGGTGTCTACCAGTATTATGCAGAATAATATCATTTCTGTACTATATAAAACCCTTTTGAGGGCCTGAGA
Celera SNP ID:            hCV7437891
SNP Position Genomic:     114814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64549):
ATAAAATGCTTTTAACATTTTATCAACAGAGAAGAAACAAAACATGGAAACATAAATGAGTAGCCTCTCTGACATTTGCATGCCATTCAGTTTTGATTAG
K
TCTTTCTAAATTTAGCTCCTTGGCAGGTGCACATCTTTTCCTGGCTTCGCTGGCGTATCATATTGGTTCTACCACCGTCATTTAGTTTTGGAATCACCTG
Celera SNP ID:            hCV29440011
SNP Position Genomic:     53465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64550):
AATTCTACTCAGCAGAATTAGCAGCTTGAGGAGCATTGATGAGTTTGTGGATTTGCTCAAGAAATAAGTTAAAGTACTGATGCAACTCTAATTCTTTTCA
R
TGATCAAAATGGGAATGAGTAGTGATTATGTCCAGAAACTGATAGATAAAAGAATATAATTTATGCTCAGCATTGGTGGCTAGTCCACTAAGAGTGATGT
Celera SNP ID:            hCV7437892
SNP Position Genomic:     115554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64551):
GTCTCATGAATCTTATGAAAAATGTAAGCACTGAAAAATTCTTTAAAAATAGGAATGTGCTTTAGAAAGGCTGTCAGGTCCTACTTAGAGTACAGCTCTT
Y
TGTTGTGAGGACAGAGGTGATGTAATAATCATATAGTTTCCTAGTTATGAATAACCAACCCATGGTTTGTATTCAGGGAGTTATAAAAAATGGAAACATG
Celera SNP ID:            hCV29440012
SNP Position Genomic:     50402
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64552):
AGGATCCCCTTTGTAAAAGCAAATCAGAAGAAAATCATAATGCCCACACTCGAGGGGCTCAAATTCCTGTGCAAAGTTCTGGTCCACAGCTTTTCTGAGA
Y
ATTATATTGCATTTCAAGTGCACTGTAAGCCAGTTAGTTTAGTTTTGTTACTATTTCAACATTTGCAAAGAAATAAAGAAAAACAGTGGGTAAAATCAAT
Celera SNP ID:            hCV29440013
SNP Position Genomic:     50005
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64553):
TCTGTTCCTTGGAGATAAGGGTCAAGTATTAAGCAGGATTCTTACAGTCTCCCTTCCCTTTAATGATCTCTTCAAACATTTTCCCCTAGAAAAAGTCTTT
R
CCCATAGTCATTCTCTTAATATACTTTACCTAGAGGAAATGTTTTAGCTACAGTAGTTAAAAAGCTTAAAATTATTTGTGTTTCCGTTTCAAAACCCACA
Celera SNP ID:            hCV29440014
SNP Position Genomic:     41776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64554):
CCTCAGACAGAGCATACAGCTTCTTTGCTGGTGCGCTTGTGTTCTGGGAAGGAGCAAATGAAATCATTCACAAATCAGGAATTCCTGGCACAATATAGAA
W
CAGGAAAGCTTTTTCTAGATGTGATTGTAAGTGATGGATTGACTTGGATCCCAAATGTTATCACCAAAAGATACGTGCTTTTCTTTCTTTTCTTACTTAA
Celera SNP ID:            hCV29440015
SNP Position Genomic:     41157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64555):
CTACGTATGATCTTGCCACTGCCTGCTTTAATCTACTGACCTCAAATATTCTTAGGATGCAATTCATTTTTTGTATAATTAACAGACCTCCCAAGATTTG
R
ACACTTGGCCATCTTTTCCATCCTCATTCCGTGGTGATGCTACTTTCTTATCTAAAATAACATTTGAGATTCATACAGCATCCTGTGCTGTTATTTGGCC
Celera SNP ID:            hCV29440018
SNP Position Genomic:     29938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64556):
TATGAATACCCTTGGAGAACCAAGCAGTACATGGGTATGAGAACCCATAGGTATATCTTTGTGCAGTATCAATTTTAATTATGGTTAAGTAATTTAAAAT
R
CTTGATATCAAACCAAACAGGTATTTAGTAGATTATAATTGTTAGGATATTCAAGTAGAATACAAGATTCCAAAGAAATTCCTGATTACCAGATGCTTTG
Celera SNP ID:            hCV29440019
SNP Position Genomic:     26817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64557):
TTTAGTGTGCTATGTTATGCTGGATAGAAGTCCGCAGTGAAAGTTATAAGGAGATTTTATTCCAGAGAAATGAAAAAAAGTCACTCTGAGTAGGTATTAA
M
TCTAGTTATGTTGAATTCGGAAGCTCTATCACTGTGAGGGAACCCCAGGATTCTTTTCAGGAACAATAGTCTTTACTCCCCAAACATGACATCATTAGGT
Celera SNP ID:            hCV7437899
SNP Position Genomic:     115888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64558):
GTGTGGGGGACTATCTTCTTGTGTGTAGGAGTGTCTGTGAGTTTTGTATGCTAAATACCAGCAGTACTTACCTTTACACACCAACAAATTTCCAGAATTC
Y
TTTGGGATGCATTGTGATCCCTCTTCATTACCATTGCTGTAGTTTTTTTGTTTCTCCATTTCATTCCATCACTTTCTATCTACTCTGGGACCCACTTTAA
Celera SNP ID:            hCV29439980
SNP Position Genomic:     118440
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64559):
TATGCACTAAATTACTATATTTTATGATTGTTTTCTATATTAATAGTAAAGTATTTCAAAGTAACATAATTTACAGATATTTCTGTTTTATATCTAGACA
Y
TGCCAACCTCATTCAATATATGCTTAAAGTCTTTACCTGAAAAAAATGTCTGAAGTAATAGGTTAGCTCAATCTCTTATCTTCTGGGACTCCTATCTCTC
Celera SNP ID:            hCV29439981
SNP Position Genomic:     114017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64560):
ATTTGAAAGCATGCATTCAAATGTTGTCTGCATCCTGGGAACTAATTAGAGTGGAAGAGAGTAAAATGAATTCAACAGCGGTGTATCCAGGAGCTGCACA
Y
GAGGACTTATATTTCCCACATGATATAGGAAGTTGTAAATTACATTATGCACTAAATTACTATATTTTATGATTGTTTTCTATATTAATAGTAAAGTATT
Celera SNP ID:            hCV29439982
SNP Position Genomic:     113871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64561):
CTGCACAAAGGCAAGATAAGAGAGGGCTTAAGTGATGTGGAAGACTGGCAAGGACAGGGTCATCCAGTCCTGCATGTCAGCGAAGCAGGAGGTCTCTAAG
M
AGCATGACATGTAGCAGTGATATGGTCGTCAGCATTAGATTGCCCACTAAGCAGGCTTCATCTAATGCATCAAATAGAGTATAATGTGAATTATGGTATT
Celera SNP ID:            hCV29439983
SNP Position Genomic:     112275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64562):
GAGCCAACCCACCCGCTCAAGCCCTTTTACTAGAGCCCCATTTCTATCCATGAGGGCTCAGTCCTCAGTAACCTCCTCCTAAAGCCCCCACCTTTTAAAA
Y
TATCACATTGGTCATTAAGTTTCAACATGGGAACTTTGGAGGACACACTCAGACCATAGCAGTGAGTTGGAGAGAAGGCATGGCCTGGTGGAAAGGACAC
Celera SNP ID:            hCV29439984
SNP Position Genomic:     109504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64563):
GAAAAAGAGGGAATCATTTCTTAAGCAATGATTATATAAAATAAAGAAGATGTAGCCTGAGCTTTGCTAGTATTCTGATGCTCACTGAGAAACCAGGCCC
Y
GTGATCCTGGGAGATGATAACAGTAGATTCACTTATGTACCTTTTTGGAAATTACTTAAGTTCTCAGAACAATCCAACAAGTGTGCTCTGTTAGTCCTTT
Celera SNP ID:            hCV29439985
SNP Position Genomic:     105634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64564):
AATCCAACTTTTTGGATTAACATGGCTACATGGTAATCACCCACTAAATATTTACAACATGAATTTATCTGTGACTCACTTGATGTACCGTGATTGTGTG
Y
GCATCCTAAGACGTGATTCCTGTACTATGGTTGAGTAATTGTCATGGCAGGTTTGCCCCTCTAGTGTTGGCTTCTCGTTTTGCTTTGTGCTGCTTTTCTC
Celera SNP ID:            hCV2699050
SNP Position Genomic:     127065
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64565):
CAGAGCGCCTTCACCCAGAACACCAGAGGCTGAATGTAACCTCTTTATTTCTCCAACTTTTCACCAGTTAAAGGGAAAAAGTGAATTAAAGTGAAAAATA
R
AAGATTAGTTGAAGTACCTTTTCAAAGACTATATTGCAAAACCAAGTAATAGCATTAGAGATGATGAAATTGTGTACCTGCAGGTATATTGGACAGAAAG
Celera SNP ID:            hCV29439986
SNP Position Genomic:     105207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64566):
TTATCGTCTTTGAGGAGGATTTTTTTTCTTTTTATTACAGTTGGGGCAGAAGATTCCAGTTTACTGTAGTATGAAATATATTTGAAATTGGCTTTCACAT
Y
TATGTGTGTGCTAGCTTGTCTATTTCTAGTTTGATTTTTGGCTAACGTATAGTTTATAGGGGCTCCAACTGAAAACCTGGATGTTTACCAAGGCTACTCT
Celera SNP ID:            hCV15808340
SNP Position Genomic:     23687
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,4|C,79)   TSC_42_C(T,0|C,84)   TSC_42_AA(T,0|C,84)   total(C,247|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64567):
GCCCCTCTAGTGTTGGCTTCTCGTTTTGCTTTGTGCTGCTTTTCTCTGCTATCCAGGCTGCCATTGCTATTTTTATTTTCTACTTCTGATGGTTCAGGAA
Y
ATGAAGGCAAGATAAAAAGAAAGTATGTGTTGCCTTACTGCCACTATTCTATGATATGAGTCAGGGGTATGGAAAAGCTGAATTTTTAAGGAGACAGCAA
Celera SNP ID:            hCV2699051
SNP Position Genomic:     127220
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64568):
TACGTGTTGTTGCCATCCAGGGAGTGAAAACAGGGTTGTATATAGCCATGAATGGAGAAGGTTACCTCTACCCATCAGTAAGTAAGACGCCAAAGATCTC
R
GCCATTCGTTCAATGCATGTAAAATAACAATGGCAGCAACAACAAAAAGAAAGTTCTATGTCTGTTGTTTCTGCCAGTTTTTGCCTTAGTATTTGATCTT
Celera SNP ID:            hCV25760985
SNP Position Genomic:     54128
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,36)   total(A,2|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:64569):
TGTCTTAGCTTTATTTCCTGTTGTTTCAGCAATCCAAAGCAATGGTGGTGTTTGGGTGTGGACCACGGCTCTTTTCCTCAAATCTAAGGATTTCATCTGA
M
AATAGGAAAATAGCTACAGTTCACTGTAGTTGTTAATCTTTATACCACTCTTGCCAATTTTGTTTTTCTTTCTTCACTTATTCTACTTGCATTTTCCTTA
Celera SNP ID:            hCV2699052
SNP Position Genomic:     130571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64570):
ATGACGATGCTGGAAATGGGTTTTAAATAGGGTAAATTCTTATTTGTTCTCAATACCTCCGGAATAGCTGAAGAGTGAACACTTTAAAGACTGATTGGCA
R
TGCTGACTGGCTAGTGTATTCTTAGGTGGTACAAAAGCAGTATAATTCACTACTTTTTAACCACTATTAAAACTCCTGTTTTCAGGCTTTCAATGTTTGT
Celera SNP ID:            hCV29439988
SNP Position Genomic:     93308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64571):
ACCCTGCTATATTGGCAATAACAAGATATAGTCGACCAATAAAATTGGAAAAATATAAGAGCAAGACACTGCAAACGGCATATAAACATATTCAGGGAAA
W
GAAAACTAAAACAACAATAAGATAACTTGATTTTTGTCCTTGAGGTAGGCAAAAATTAGCAATTGAAAAAATGTGCAACTGTCCAGTTTCATCAAGTTTG
Celera SNP ID:            hCV1620730
SNP Position Genomic:     87394
SNP Source:               dbSNP
Population(Allele,Count): (T,-|A,-)   (T,-|A,-)   Caucasian(T,35|A,49)   African-American(T,26|A,58)   Asians(T,9|A,75)   total(A,182|T,70)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64572):
AATTGTAATACACATCGCCCCCTAAATGCATGTCTCCTACTTCTTCTGAAATACAGTGAGGTAGGGGCAGGGGTTGATTGGTTTAATGCTAGAGGAAAAA
Y
TAGATCTGTTACCTGTGTTAAAATGATACATTAATCTTCAAAAAATTCATAGGTTTAAGAAGTGCTCAAGAATACTTTTGATACATTTAACTTCTGCCTT
Celera SNP ID:            hCV29439989
SNP Position Genomic:     79592
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64573):
GGATTAAACTCATCCATTTGGGAGATCATGGTTATTACTGATTTAATCTAAACATCAGTGCTAGCCGTGTGCATATGTGGAACTCAGTGCTGTATGAATG
S
GAAGAATACAGGATGCCTTTTCAGTCTTCAATTTGGAAACTTCATCATGATAACACTGATTATCAGGTAAACTCAAACAGTACAAGACATGCTTTCTCTC
Celera SNP ID:            hCV1620733
SNP Position Genomic:     94221
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64574):
AGACATGCTTTCTCTCATCTTGCAAAAAAAAAAAAAAGTCTTTTATTTTTAAAGTATTTGAAATAGTTCTATCAATTGTTTGACAATTAATGATTATCAT
K
TGGTCATAGAAACAGTTACCAGGGACGAGTATGTTCATTTTAAGTGACTTGGAGGCAGGATCCAGTGTGCATATTCAATTCTCGATGAGCAGTCTTACAG
Celera SNP ID:            hCV1620734
SNP Position Genomic:     94406
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,-|G,-)   TSC_42_C(T,-|G,-)   TSC_42_AA(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64575):
TTCTCGATGAGCAGTCTTACAGAAATGATTTTCCTGCACTTTGCTTGACTTAGTCATGTAGACAAAACTTATTGGCATTTTGGACATATTGGCGTCTGCA
R
ATTGACTTGTAATAGGTAGTTCAACTATTGCATTACAAGAACTGCAAATCATCTATTCGTGGCTGTTGTTCTTTTTAAAAGAGTCAGAACAATATCTGTA
Celera SNP ID:            hCV1620735
SNP Position Genomic:     94585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64576):
TTGCTGAGGAGTGATCTAATAGCCAGGGAGTGATGGTAGGTGAGAGGTGAAATGTACAGAGTGGGGGGCATAGAAGAGGGAGCTATGGAGTTCAGGCAAA
Y
GCAATGCAAAAGCCACAGCACCTTAGTGTGAGTGCCATCATCTGAAACTGTCCTTGGTGGTATGGGAAGCGTTGATTTGGGGCAAGAAAAAGGCAAGATA
Celera SNP ID:            hCV9266280
SNP Position Genomic:     26486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64577):
AATTGGATATTGAAAAAGGGAAATATAAATCAATCTCTCTCTTTCCCTCTCTCTCTCTCTATTTCAGTCTCTCTCTCACACACACACCCACATACACAAC
S
TTGAAAGGCTGTGCAGAAGCAGCACTATTACTTTATCTTCAAAGGTTATTTCCAACTCCAATGTATCAATCTAAAGAGTAAATTTGAAACCTTGTTTTGA
Celera SNP ID:            hCV8714646
SNP Position Genomic:     87600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64578):
ACACAAAAACAGATCAGCCATTCTTCCCGAGTGAAATTGATTTTATTTTCTCCTAGCTCGGTTCTCCTAGCTCAGAGAGTAGGTTCTAGCCTTATTTCTG
Y
AGGCAGAAAGATCCTTGGAGTGAAGATAGACTTCTAATTTGGTTTTCAAAGCATAGAGCATACATTACATTTTCTTCATTTTGAGTCTGTACACATGATG
Celera SNP ID:            hCV8714647
SNP Position Genomic:     82933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64579):
AAAAGATTCCATCAAAACACATGATTCTTCTAAATTGTACGCACACAGTTTGAGTACCTGTAAGATATCTGCAAATGGAGTTAAATGTAATAATTTCTAA
Y
ATTGTGTTTGCCTGCGTTAGGAACATATCTCAACAGTACTGCAATGTAGAATAGATAGTTTAAATGAGCATTTTTATCTCATCATATAATAGTGATTCAG
Celera SNP ID:            hCV9504310
SNP Position Genomic:     68736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64580):
GAAGAAACAAACCATTTCTTCTCTTAGTATACTCTCAAGAATCTTTACTTCTGATGCCAGATGTGATTTTCTTCACACACTTCAACTCTCCATTGGATAC
M
AACGGGAGTCCTATGATTCAATTCAATTCAGACACTATCTGCCTGGAGTTAGTGTCAGATCTCACAGGTTAAGGGTTCAGTCCCACAAGACTCCCTCCCA
Celera SNP ID:            hCV1620739
SNP Position Genomic:     97530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64581):
CATGGTGGCTCACACCTGTAATCCCAGTGCTTTGGGAGGCCGAGGCAGGAGGATCACTTGAGGATAGGAGCTTCAGATCAGCCTCGGCAATATAGTGAGA
M
CCTGTCTCTACAAAAAATAAAATTTTAAAATATTATCCAGGTGTGGTAGTGTGCACCTGTAGTCCTAGCTATTTGGGAGGCTGAGGAGGATCATAGGAGC
Celera SNP ID:            hCV9504311
SNP Position Genomic:     69185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64582):
ATTTTTCTCTTGTTTTCATCATCAGAACCATACTTGACAATCCTCTATGAGACAAAAGGGTAGAAATGTTTCTCAGACTGTTACTAATGCTAGGAAAATT
Y
CATTCATTTTCTCTGTTTTGTATAAACTCATGCAGCAGCCAGATCCTAGTGGCACCCTGAGTGCTGTTGAGGTCCGGAGAAGAAAGGCAGTGTCACTTAG
Celera SNP ID:            hCV27938097
SNP Position Genomic:     105006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64583):
TAAAGATTATTGAGTTGGAGCCCTACACCCACACTCTTTCCTATCTCCATCACCCCTACCCCTATAGAAGAGTGATGTTTATACCAGTTGACTTACTCTT
R
TGAAGGACAGAAATTTGCAAGATGGCTATTAATGGTGTGGTAGGCAGCATGACTGCAACCCACCTTTCCAGATTCAGCTCCATCTACCCTCCACCGACCT
Celera SNP ID:            hCV29440021
SNP Position Genomic:     9450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64584):
CTAACACATTCTAGAGCTTAGAGAAAAATAGTGATGACAAAGATAGACGCAGATGCAGTCTTGTGGGACCTAAGAGTTTCTACAGATGTGAGTTCCATGC
K
CACTACATTTTAAGTTTGACTTCACTACATTATGGAAAGACATATTGTGCTCTGTGCTATTTAGGGTTTCACTAAATGTTGGTTGTTGGTGTTCAGATAA
Celera SNP ID:            hCV27938098
SNP Position Genomic:     65180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64585):
TTGAAGATGTATTAACAAGAATTGGAGTTTCTCTGAAAGGGTTAAATGTTTATTTCATTCATTTCACAGAGTATGGTATGAAGTCTTCAACAGAAACTTG
R
TTTCCATCAATCACCCCAATACTTGGCTAATTATCATGTTTTTGTCTATACAGACATGCTTAATCACAAACATGCACACGATCATGTTCATAACAAAAAG
Celera SNP ID:            hCV29439990
SNP Position Genomic:     75210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64586):
GGAAAATGTCTTAATGTTTTTAATAGGCTTTAAATTTCATTGGATTTCTTCAGTCTGAGATCAACTGTATTCTGCTTTTTATTATATGGGACTACATTAA
M
GAGATTCTTCTTAAGGCAAAGCCTATGATATTCTTCAATAACTGTAGATTTGAAGATGTATTAACAAGAATTGGAGTTTCTCTGAAAGGGTTAAATGTTT
Celera SNP ID:            hCV29439991
SNP Position Genomic:     75060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64587):
GAAAACTTCTGGTTGTGGTCACTCCTCTTAGTCTGTGGGAAGAAAAGGACAAGAAATGTCTCCTCGAGCACCAAGATGGTATAGAGAAAGACAAGACTTC
K
GCTGAGACTTCAGAAAATGAAATAAGAAATGATAGAAACAAAGCAAGACATTAAATTTTCAACCAATAATGGCTGGTTTGCAATCTTGAAAAAGAGATGT
Celera SNP ID:            hCV29439992
SNP Position Genomic:     62602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64588):
TTTTTCTTTCTTCACTTATTCTACTTGCATTTTCCTTAAACTCTACACTGTTAAGAAGGTAGTCTCTTGTTTGGATATTATTTCCTGTTAACAATTATAG
R
TCTTTTTATTGTAATCATTTAGATTTACATATATTTTCTCACTTGTCACAAAGGCCAAATAAGGCTTCAGTAATAATTTCTATTTATGTTCATTGGGTAG
Celera SNP ID:            hCV15937571
SNP Position Genomic:     130734
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64589):
TCAAGTAGTGACAGCTATGTAGGGAGTTTTTAATCTGTACTTCTTGATTAATTATTGTTAAGGTGAAACCAATTTTCACAGTACATTTTATTAATTTATT
Y
CTCGAGTGGCTTCATGTTCATGAAATGTACTGTGCACATCACTTGTCTTTTTTCCCCGCTGAAAAAATTCAGTGTCAGCAAAGAAGATATGTCAATTTCT
Celera SNP ID:            hCV12128110
SNP Position Genomic:     63655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64590):
AGTAAGCAGAATGACATGACCATACATAGAGCTCACCTTTTCCATTAACCAGATGAGTTGGCCTTTGGGGAGTGCATAGAGAAAACTTCTGGTTGTGGTC
R
CTCCTCTTAGTCTGTGGGAAGAAAAGGACAAGAAATGTCTCCTCGAGCACCAAGATGGTATAGAGAAAGACAAGACTTCTGCTGAGACTTCAGAAAATGA
Celera SNP ID:            hCV29439993
SNP Position Genomic:     62522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64591):
TAAGGTGAAACCAATTTTCACAGTACATTTTATTAATTTATTCCTCGAGTGGCTTCATGTTCATGAAATGTACTGTGCACATCACTTGTCTTTTTTCCCC
R
CTGAAAAAATTCAGTGTCAGCAAAGAAGATATGTCAATTTCTCAAGTTAAAATTGCAGAAAAGTACTTATTTACACGCTGCTTTGCTGAAAGAGCATGAT
Celera SNP ID:            hCV12128111
SNP Position Genomic:     63713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64592):
CATCCAAGTGGATTATAGTCATGGAATGACTATTGGATGATGATGAAGCTCATTGATCCTAGAAGGATCACATCTCAGGGCTGTCTTGGGAAAGCTGTGC
M
GATAGAATCAATTCTGTGACAGATGGTAATTGTTTTTCTATTCTTCCTGCATGTGAGACAAAGATGAATATGCTGGGTCAGTGACATCAGCATAAAGTTA
Celera SNP ID:            hCV29439994
SNP Position Genomic:     61643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64593):
AATCAACAGTTTGTAAGGGTCACCCTCCCTCACTTCTGCCGGTTATTCTAAAGTTACTATTTCAACTGTGGACAATCACACAACAAGCATTGCTGCAATG
S
TATCTGGGGGAGACGGTGATAACGTTAGACCAAGGTGATGGTAACAGAGTTGGTGAAAATCAGTAAATGGACTACTCAGGCATTGAAACTAAATATTTGG
Celera SNP ID:            hCV29439995
SNP Position Genomic:     58437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64594):
AGACTGTGAGGAAATACATTTCTGTTGTTTAACTCCCCGTCCTCCACCCCTCCAACCATGGTATTTTGTTATGGCAGCCCTAGAAAACTAATACAAAAAG
Y
ATTTTCTCTTCATCATCAAGAATCATCAGAAATCTCTAAGCAAATAATTAAGTCTTTCCCTATGTAAAAATTCCTGTTCTCAGAGAAATGGGAGAAAACA
Celera SNP ID:            hCV2699061
SNP Position Genomic:     136440
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64595):
ATATTAGGGCTCACGCGAATCACCTGGAAAGCCAAGAAAAGTACAGATTCCTTGGATCACCATCTAGATATTTTAGTTCAGTGGGTCTAATGGGAGGCCC
R
AGAATCAACAGTTTGTAAGGGTCACCCTCCCTCACTTCTGCCGGTTATTCTAAAGTTACTATTTCAACTGTGGACAATCACACAACAAGCATTGCTGCAA
Celera SNP ID:            hCV29439996
SNP Position Genomic:     58334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64596):
GATTGTATAAGTGGAGAGAAATATAATCCTTTTTCATGTTGATTTTAAAAATAAACCAGGAAAATTCAAGGTTACCATGTTTTGCAAATATTAGGGCTCA
Y
GCGAATCACCTGGAAAGCCAAGAAAAGTACAGATTCCTTGGATCACCATCTAGATATTTTAGTTCAGTGGGTCTAATGGGAGGCCCGAGAATCAACAGTT
Celera SNP ID:            hCV29439997
SNP Position Genomic:     58247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64597):
ATGAAGAGATACATAAGGTGAGGTTCAGAAGGCATCCAAGTGCAGGAGCTTCTGTCCCTGTGGAGCTGGGGCAGCTACCCTCCTGGCAAGGGGATGTATT
Y
AGCAACCCGGAAGCTCTCCAAACCTTGTCCTTTTAAGTTTTCATGGAGGCTTCATTTAGTAGGCATGATTGATTAAAATTATTGGTGATCAACTTAACCT
Celera SNP ID:            hCV1620740
SNP Position Genomic:     97917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64598):
CTACTTTGATAATAGAATACGGTTACAATATATAAGGTATCCTACTTTAAAGATAGATATTGATAATAGATAATAGATAAATAGATAGATAGGTGATAGA
Y
AGATAATGTAGTTTAGTTTAAACTTAAAGTTTAACTTGTAGTACCCAGTTAGTAATATCAAGAATGGCTTAAAATGACACAGCTGCAAACCCTACATACA
Celera SNP ID:            hCV2699063
SNP Position Genomic:     137197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64599):
CACCATAGACATAATCAATAAGGAAACTCTGTATTTGAATTACGATACCTCATTTTCCATGATGTGGTTATAATGCATTGCATGCCTGTATCAAAACATC
Y
CCTGTACTCCATAAATATATACATCTACTATTTACCCACAAAAATTACAAATCAAAAAATACATATATATGTTTTCTGAGGCTATCCTAAACCTCCCTTC
Celera SNP ID:            hCV15786802
SNP Position Genomic:     83232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64600):
CATCTTCGCGGTCGTAAGTGCCAGTGTTCTCCTGAAATTAGCATCTCATCTGAATCTGTTAACCAGATTGTATAAGTGGAGAGAAATATAATCCTTTTTC
R
TGTTGATTTTAAAAATAAACCAGGAAAATTCAAGGTTACCATGTTTTGCAAATATTAGGGCTCACGCGAATCACCTGGAAAGCCAAGAAAAGTACAGATT
Celera SNP ID:            hCV29439998
SNP Position Genomic:     58182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64601):
TCCTGGCAAGGGGATGTATTTAGCAACCCGGAAGCTCTCCAAACCTTGTCCTTTTAAGTTTTCATGGAGGCTTCATTTAGTAGGCATGATTGATTAAAAT
Y
ATTGGTGATCAACTTAACCTTCAGCCCCTCTCCTCAGTTGGAGGTTAGGAATGAGGCCGAAAGCTGGAATCCTCAAATCACGTGGTCGGTTCCTCTGGCA
Celera SNP ID:            hCV1620741
SNP Position Genomic:     97997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64602):
GCATTTATGAGAATATTATTTTCCTCCTGGTGCCATCAGTGCTTCCATGTTCTAGGTGCAGGCATCTTCGCGGTCGTAAGTGCCAGTGTTCTCCTGAAAT
W
AGCATCTCATCTGAATCTGTTAACCAGATTGTATAAGTGGAGAGAAATATAATCCTTTTTCATGTTGATTTTAAAAATAAACCAGGAAAATTCAAGGTTA
Celera SNP ID:            hCV29439999
SNP Position Genomic:     58120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64603):
ACGCAAATGGTGTTACTGTTTCACACTGTCTTGTCATTGACTTTTGTCAGCAAGTAACTTGGGATTGTTTTTTTCCTCCTTCAAGAAAAGGATAAAATAG
K
GTTATGTATAAGAAAAACCCCATATTCTTCAGTATAGAAGGTTGTTTGAAAATTCTACCATTAGAAATATTGTCATGCTTGTGGGTAATTAGGAATTATG
Celera SNP ID:            hCV8714652
SNP Position Genomic:     70416
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64604):
AAATGATCTTTCCCAAACAGTCATTAGGAATTTAATGACTTAGGTAAGATCTCTGAAGCATATACCCACATTAACATGACAAGAAAAGGATGTACACTTA
R
ACCTTTATTTAAGGAAGTCCAGAGATGGATATTAATATTAACAGAATTTCAAAAGTTGAATTACTGAGGATATATTCAGCAAATAATTTAAGAGTTCCAG
Celera SNP ID:            hCV1620670
SNP Position Genomic:     27688
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64605):
ATATTTTAAATGTGTGCATAAATATTATAATTGATTATTGATTAAGAAAAATAACAGTAACAATGCCATATAGGATTTTTAATATATTTCTGAAAATTAT
W
TATACTAAATATAGATACTATTTTATATATATAAAAGATATATGTACATATAATATGTATCTTTATAGATACTATACATAGTATATCTTGTATAAGATAT
Celera SNP ID:            hCV1620744
SNP Position Genomic:     98961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64606):
AAGAAAAGGACAAGAAATGTCTCCTCGAGCACCAAGATGGTATAGAGAAAGACAAGACTTCTGCTGAGACTTCAGAAAATGAAATAAGAAATGATAGAAA
S
AAAGCAAGACATTAAATTTTCAACCAATAATGGCTGGTTTGCAATCTTGAAAAAGAGATGTAGTCTGCACCACGTAAAGCTCAAAGGAGAAATCAGCCTG
Celera SNP ID:            hCV8714653
SNP Position Genomic:     62641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64607):
CAGCCTGGGCAACAGAGTGAGACTCCATTTCTAAAAATCAAAAAAGGAATCATAATTTTGAATATATATCCCAGGCATGTCTAGTGCTGGTGACCAAGGT
S
TAAACTACTTTCCCACAAATCAGACTTTTCAACTGCCTGCTTTTATATCTACCATTGATTATTGTCATTACTATTATTATAATTTATAAATTCCTAGTTC
Celera SNP ID:            hCV8714654
SNP Position Genomic:     62306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64608):
CCTGCCAGAGGCAATCATGGACAGAGAGGTGATGACAGGGTGAATAGGAACTAGCCATTTGAAAAGATGCAGAGACTGGCTTTCAATAGCAGGCAGCCCA
Y
GCAGAGAACAAGCCTCTATTAAAATCCTACCATCCTGCCTCCCACATTACTCTCACAATTAAGTCCTTGTCACTGTCCAGCCTCTGAGAAAGGATCTGGC
Celera SNP ID:            hCV1620672
SNP Position Genomic:     29654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   Control(T,134|C,347)   total(C,347|T,134) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64609):
ATTTACAAGCTGATTTTAAAATTTATATGGAAATGTCAATGTTATTGAAGAAACAATTTGAAGTACTCACACTAACAGATCTCAAGATTTACTAAGAGCC
R
ATGTCACAATAAGACAGTTTGTGCTTTTGGTACAAGTATAGGAAAATTTAATATTGGAATAGACTAGTATATTTTCCTGAATTATGGTAAAGTCTCCACT
Celera SNP ID:            hCV1620746
SNP Position Genomic:     100433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64610):
AGAATGTTTTGATCTTAATTAGCTTTTACTAGGCCTTTCTGATGCCCAAATAATATATGTGGCTAAATGGTAAACAATAAGGATGAGGCCTATTTTTTTG
Y
TTGTTTCTAAAACACTTTTCAAAGAATGTACAGTGGGAACCTACATGGAAATCTTCATAACAAAAATTTTTTAGGTAATATAAGGCACTTTTCCTTAGGG
Celera SNP ID:            hCV1620673
SNP Position Genomic:     30495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64611):
GGCCAATGAGCAAGTCCCATAGGCTTGTCCCTTGATAACTTTATATCGGTGTAATTAATTCTCATCTTAAATCTTTTTACCTGCTGTCAGCCAAGAAATA
R
CTAGGAAAGCTGATTTTCCAAAAGCTTGTGGATCTTAGATGAGAAAAATGATGAGTATAATGTTGAGGCTCATGTACCATCCTTTTTTCTAATTACACAG
Celera SNP ID:            hCV9504322
SNP Position Genomic:     102787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64612):
AATTAACACTGCAAATCACTTGAGCTATGAGTTTCTATTTGCTACTTTTTTGGAAATATTCATTAGTTTTCTCATTCCATAAACATATATTGTACCTCCT
R
GACACAAACCACAGAGCTAAACTCTGTGTGGGATAACAATATATAGTATATTTCTTGCTTATTAGCTATTATTTGCATCTCTTCAACTGCTCCAACCTTT
Celera SNP ID:            hCV27890422
SNP Position Genomic:     114707
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64613):
GGTAACAGTGATAATCCTTCTGCTGTAGAAATAAAGTGATAATTATTTTAAAATTTACTTTCATATGGTTTTATTTTCTGATAAAAATAAATATTATGAA
Y
AATATTTTAGATATCTCCTTCAGTTAACCTAGAATTTTATAATCAGATACCTATATGATAGAATTAAACTTATGCATGAGGGCATAAGAGCTTTAATAAA
Celera SNP ID:            hCV27890423
SNP Position Genomic:     106037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64614):
ATTAGTTCATTATCCCTGTCCGCCTCTAGCACCAAGGCTGCTCTAGGCTTTAAGCCTCCCAGTGAAAGACTCTGGATCTCGACTGGTTTCCAAGGGTAGA
S
AGAAAATTACAGGATACATTCTAATTATTAATATTACAGATGTTGTCCTTACATTGAGACACATCTGCCTGGACAGTGGTCACCATCTGCTCCTCTGGAA
Celera SNP ID:            hCV2699074
SNP Position Genomic:     148445
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64615):
TAAGAATCTGCCCAAAGTCACTCAGGTGGTAGATAGAAAAGATAAGATTGGAGCATAGTTAGTATGACTCATTAGCTTACATTTTTAACTGTTTTATTAT
Y
ACTGCTTTTATGTGCCAGACATTTTTTCATAATATGGTCTGACACCTTTTCTAACAAGAAGTTATAAACACATTATGATGTAATGAAAAACTTTTAGGGA
Celera SNP ID:            hCV8714660
SNP Position Genomic:     56491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   SC_12_T(C,10|T,13)   SC_12_C(T,9|C,15)   SC_12_TT(C,7|T,8)   total(C,32|T,30) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64616):
ACATCAGAGGGAGAAGTGCATGGCTGTGCAAAAGTGAGGATTTAAAGTCCCAAGACAGAAGACACCAGGACATGTTTTCTCTCTTATCATAAGACATGTA
Y
TTGATTTATCATGTATCTTCAAAACTATTCTAAAATTCCATATTATAATAACTTTGGGAATGAATGAGTATCATTGCTAGAAAATAGGAGATACCTTCTT
Celera SNP ID:            hCV1620752
SNP Position Genomic:     103036
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64617):
AAAATGATACATTAATCTTCAAAAAATTCATAGGTTTAAGAAGTGCTCAAGAATACTTTTGATACATTTAACTTCTGCCTTGCTTGCTAATTTTAGAACT
Y
GGTCACCCCTAATTAGAGATGCAACTGTATTATACACCCAGCCACACTACAGGTGCTTAATACATATTTGTTGTTGAAAGCCTCAATCGTGTGTATGTTT
Celera SNP ID:            hCV12128127
SNP Position Genomic:     79712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64618):
AGGATTTAAAGTCCCAAGACAGAAGACACCAGGACATGTTTTCTCTCTTATCATAAGACATGTACTTGATTTATCATGTATCTTCAAAACTATTCTAAAA
W
TCCATATTATAATAACTTTGGGAATGAATGAGTATCATTGCTAGAAAATAGGAGATACCTTCTTGTCTGATGCTGGAAATAAAACTAAGCTGACGATTGC
Celera SNP ID:            hCV1620753
SNP Position Genomic:     103072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64619):
CCCCGCGCCCCGCGGAGAGGGCGATGGGTCCCGGTCAGGACTGAGCCCCCCTTCCCCTCTCCCCAGTCCCGCCTGGCACCCCCTCCTCTGCCCCGAGGGC
R
AGCCACGGTCTGCGCCGCCGCCTTCCCCTCCGGTGCCCCCGGCTCGCCGTCCTCCCGCGCCCTCCCTCCCCGGACCCGTTCCCGGGGCCACCATGGCCGC
Celera SNP ID:            hCV15751648
SNP Position Genomic:     6078
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:64620):
CTGATAGGTAGAATATAATGGAAGATAGCTATCCCCTTACTAAAGTGCCCATTTCTCTCCTATTCACATTGAGTCTGTGAACCCAATTTTGGGGCAAGAT
K
CCCCACTGCTAACCGGGTTATCACAGGATCTCTGGATTAATTCATGCCACATTCTGGGACTTTCAGTTGAGTATATTTTATTTTTCATAAGAGAAATAAC
Celera SNP ID:            hCV1620754
SNP Position Genomic:     103393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64621):
CACAATTTTGAGAAGTGTGATTTCCATAGATTTGTTTAAGAAGTAAAAGGCTGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCC
M
AGGTGGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAGTACAAAAATTAGCTGGGTATGGTG
Celera SNP ID:            hCV12093839
SNP Position Genomic:     156812
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64622):
CTAACCACCTGGATTAAAATGACCAGATGTTAACAATTTGTATCTATAGCAAGCATTTTTATTGTTAATTTTTTGATACATAAAGATTGTGCATATTTCT
R
GGGCATGTGATATTTAGATACATAACTACAATGTGTAATGATCAAATCAGGGTAACTAGGATATCCATTGCCTCAAACATTTATCATTTCTTTGTGTGGG
Celera SNP ID:            hCV1620684
SNP Position Genomic:     34978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64623):
TTCTGTGTGATCTGAATGCCTTTAGGTGAGGCATGCACTCCACTACTGTGGCCACATGGTAACCACTCCTTAATTTTAGAAAGGAAGACACAACACACAC
R
GGCTCCCTTTGTTTCTGTACATATGTTGACTTTGTTTATGTGCCTTGCAGACACTAGTGTCTGCAACTTCTGAATTAAAGGGGTGGAAAAAATCAGAGAT
Celera SNP ID:            hCV9504330
SNP Position Genomic:     61228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 402
Celera Gene:                 hCG28278 - 145000147421972
Gene Symbol:                 DKFZp761J1523
Protein Name:                hypothetical protein DKFZp761J1523
Celera Genomic Axis:         GA_x5YUV32W1V9(14163335..14304418)
Chromosome:                  Chr9
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12562):
GCTGCCACTGCACTCCATCCTGGGCCAAAGAGTGAGACCCTGTCTCAAAAGAAAAAAAGAAAAGAAATTAATGTCATCGCATCCCTGCTTTTCTGTGGCA
CTTTACTTATCTTCAGGAGGAGAGACAGCTGGTCCCTTCTGTGCAAGAAGCTATTCTAGCACCTGTTGTTAGGAGGCCTTGGGCTCCCTACAAGCCTAAA
ACTACAGTCTGGCACATGGTTTAGCTTCTCTGTCCCTCAATAAGGAGAATCCCTTCCATCTGTTTCTTACTGTCTGCCTATCGTGGAGCAGGGGCTGAGG
CCTTTTCCTAGAGCTCCTGACTGTTGGTAGGCTTCTGAACAACTGCCTGTTACTTCTCACAAATTCTCTCTACTGGTCTAGGAAGAGTCTCCCTTGTCGC
TGTTGCCCTTAACTCTTCTACCAGGCCTAGCCACTGCTGAGTCCTGGCCTTGTGGGGTCTGTTGTGAGGTCAGCACTAATCTCAGTGTCAGTTGAGTGAT
GACCTGGATCTCTGCGTTTGGCTTCCCCTTGGGGGCTGGCTGACTCCTTTTCTTTCCTTATCAGTTTTAACAACTCTTGACTCTTTGGAGGAGGTTGTCC
TGCTTTCCAGGAATGTGACTTACATCATGGAAATCTGTCTAGCTTCTACATGGAGCTGGAAATCTTTGCTCTCATCCCAGGCCATATTTAGAGATTTAAC
ATGGAGGTCCTCAGCTCTGTTCATGCCTGCGAAGTGTGATTCAGCATCCTCACATGTTAAATTGCCGAAGCAGAAGGGTTTATATTTAGAGCCTGGACCA
CGTTGCCTGTGGGAAACTTGAAGTTCTTTTTGGTACTTGCCTTGTTCAGGTCACTTTCTCTAGCCAGGTTTCAAAGTCTCTTCCCCTTGTCATGGCAACA
GGGGGTCCCAGGTATTTTCTAGGTGAGGTCAAACTGCTAGGCCAACGCTTTTAGGGAGGAGATGTAGTGCTGAAGCATGATGCCATCCTCAGCGCTGCCC
TGGGAAGCCTGCTGCTTGGCCCTGGGTCTCCCTTACTGCTACCTGGGGATAAAAGGCAAAGCATTTTATTTAAAATTATTTTAAAATTTAGTAATCATTT
ATGCCAACTTTCCAGGTCCCTTTCTAAAAACCTGAGAGGGATTCATATTACTAATAAGAGCTGGCTGGATGTGGTGGCTCATACCTGTAATCCCAGCACT
TTGGAAACTGAGGTGGGAGGATCACTTGAGGCCAGAGTTCGAGACCAGCCATGGACACATTGTGAGACCCCCCCGCCCATCTCTACAAAAAAAAATTTTT
TTAAATTAACCAGGCATGTAGTCCCATCTACTCAAGGGGCTAAGGTAGGAGGATCGCTTAAACCCAGGAGTTCAAGCCTGCAGTGAGCTATGATTACACC
ACTGCACTCTAGCGTGGGCAACAGACATTGTGCTTAGAACCTTGTCTGCTTTTTCTTGTTTATTCTTTATAACCCTGCTAAGTAGATGATATTTTCAATT
GCATTGTACAGATGAAGGAACTAATTCCCAGAGAGGCTGAGAACCCATATCTGTGACTGAAGTGCGTGCTCTGAGGGACTACATTGCATCTCCTCCCATG
GATAGAAACCTGGATTAAGTTAGCCTTGTCCTTCCTTATAAAGAGTGCTACAGAATGGTTAACAGGTTCCCCAGGATTCCTGAGTCATCTGGAAAAGGAA
TATGTTTCAAAGCATTGTTTGTGGACCGCCTGCATCAGAATTCCCCTGGCTGTTGGTTAAAATCACAGATTAACTGACTTACAACCTCTCGGAATAGGGC
CAGGGAATCTGCATTTTTGCAAAGCTCAGACTCTAAAGTCTGAGGAACATGTCCTCTGACATGGTGTCAGAATTTTCTTCACTGACACACTAATCAGTTT
CTGGGTAGGCCTAAAACCAACAGTAGGGATTTGGGAGACTATACTACAGGGATTGACAAACTTTTTCTTTAAAGGGTCAGTTCGTAAATAGTTTGGGCTT
TGTGGGCCATATGGGTCTCTGTTGGAGCAATTCAACTCTGCTGTTGTAATCCAAAAGCAGCCATAGACAGTTCATAACCACTGGGCATGGCTATGCTCCA
ATAAAACTTTGCTTTCAAAAACAAGCGCTGGGCTGAATTGGGCTGTAGTTTGCCAACCCCTGATCTAGAGTCATCCTGGCCCACCAGCCCTCTGACAACC
CCTGTTTGTGGAACTTATTCTTACACTACTTTCTATTACCTATGGAGAGCTGTATCAACTAAGATAAAATTGCCTGATGTAACAGATAAACCCTGAATCC
TAGTGACTTAAGGCAATAAAAGTTATTGCTCACTCATATCAGAGCCCAGTGAGGCTACTCCTGGTTAGAATCTTCTATGTGGGCCGGGTGCAGTGGCTCA
CGCCCGTAATTCCAGCACTTTGGGAGGTTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTAC
TAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCATGAGAATTGCTTGAACCCAGGAGGTGGAGG
TTGCAGTGAGCTGAGACTGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCTGTCTCAAAAAAAAGAATCTTCTATGTGGTCATTTAAGACCC
AGGCCCCTTCATATTGTGGCTGTATCCCTCTTGGGCCCCAGAGTCCTCTCCATTGCAGCTGGCAGATAAGGAAAGAGACCAAGGATTATTCATGGGAAGG
TGTTTTTTTTGTTGGTTTTTTTTTTTTTTTTTTTTGAGATAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTCAGCTTACCGCAAC
CTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAACCTCCCAAGTAGGTGGGATTACAGGCATGCACCACCATGCCTGGCTAATTTTGTATTTTTTTT
AGTAGAGACAGGGTTTCTCCATGTTGGTCATGCTGGTCTCGAACTCCCGACCTCAGGTGATCCGCCCCCTTCGGCCTCCCAAAGTGCTGGGATTACAGGC
GTGAGCCACCGCGCCCGGCCTTCATGGGAAGTTTTTAAGGGCTGGGTCTGGTAGAGGTGCCCCTCATTTCTACCCATATTTCTTTGGCCAGAGCTGTTAT
TGTTCGGGATCCAGAAACTGATTTCTCAAGTCCATGAGGCCCTTGGTCTCTAGATTCATTCTGTTTTTGTCTGTCTTTGCTTGAAACGCCTCCAATTCTT
TCCTGGGATTGTCTCTTCATTGTGAAGAACCTCGCTAAGTTCAGCCAAGAGGAGACAGTGCTCAACTTCACTCTGATTGTTTCTAGCCACTTTCCCTAGA
TCTGCAGGCTTGCTGAGTACATGGTCCACCTTCTGAATGACTGCAGGTGTAAGTTTTACCAAATATTTTGCTACCATCTAATATAGATTTCTATCTTTCC
AGCCTCTGAGATCCATTTCCTCACTGGCTGCTGCCTGCCTACTACTTTAGGGTGTTGCTATTGCGGCACCCCACTGCAAGATACCTACTTCTGTATTAGT
TCAGGTAAAACAGCAGCTTTAACTGGTAGACTCAAATTCTACCTGATTAACACAACTAAATGTTTACATTTTGCTCACATCATATTCTAGTACAGATGTT
TTTTGTGGTGTAGCCTTCCATACAGATGTTCTTCATGGTGTGGCCTTCCATGTGGTCAATCAGAGACCCATGTTTTTCCATCTTGAAGCTCTGCCCTCCT
GCAGGTCTCTACAGCCTCTCTGTCCAGCTGGCCAAAGGCTAGAAGATCAGGCACATTTCAGAGGATGTGCTGGAAGTGATGCATATCCATCACTTTGGCC
TATATTGTCTTGGCCAGAGCTCAGTCTCATGGCCACACATCCTGCAAGAGGGGCTAGGAAAGGTAGTCCAAGTCCAAGACAAAAGGAGAACAGGTTTTGG
CATGCACATAGCAGTGGCTGCCTTATAGGCCAGGACTCTGGACTGAGGGAATAATGGCCAGCAGAGAATTATAATGGCTCATTAGTGGGGGTGGCAGTGG
GCAGCCTGCCCTGGTAGAAGAGGTGCTGTCAGGCATTAGCTAGTATGATTCAAAAGATATACAAATACCTTCATTAATGCAGTAAGCATTTACTGCATGT
CCACTATGTGCCAGGCAGTAGGCCAGACACTGGGGCCTTGGGAGGAGAACAAAGCTCCCCTTGGAGCTCTGGGTGAGCCATTCTACTCCTAACCCTTGTG
CTGGAGGCCTAGAGGCCAGAGAGCCTGGGAAAGGAAGAGGGAAGTGGCTAGGTCTTTTTAACTTGGCTGGTTTGAATGCCTCCTACAACCCAAGAAATGC
AGCCCATATAGGTCAGCCTGGTTCCCACTATTAGCAAGCATCCCTCTGCGGTATATTGAATGAAATGTAATATGGGGGAAGAGAAGGCAACACATAGTGG
ACATTCTCTTTATAGCTTGCTCCCTGGTTGTTTTCATAGGACGTTGTTTTCCTTCTGTGAGGCATCTAAGGAAGGTGGTGGGTCTAGGATATAGGGTTAT
GTGTTTGTGTCTGGCTGCTGGTAAAGTTAGGGAATTGGCACCGTGTCTCAGAACCCCCTCAGCAGAGCTGATGGCAGCACAGGGAGGACCCAGTGCTCTA
CATCCTTGCTTTTTTCGTATTATTGGCTATTCATGTTAGAAGCTGTTGCTGTTGTTAATTTCCTAGTGGGCCTGGCTGAAATTGAAGCGGCGGGTTGAGC
TCTGGGCAGACACAGCATTTAGTCAACAGCCATTGGGCATCCGCTCTCTGCCCGATCTCTGTCCAAGTCCACCGGCACTCCTCTCACTGGAGCGGCCAGT
GATGCGGGCTTGGTAACTGATATGTAGGGGAATGGCAGTAGCCTCCAGGAAGGTCTTCAAAATGAGCTAAGAAAATAGGCGTAGAGGACATATTTAATAC
AGATTGGAATAGACCATGGAGGGAAGGTTTTTATTCTTTTTTGGAGATTTTTGGGTAGAAAATCATATCACTAGAAGCAAGAATGTAGCCTGGGTAATAT
CTGGAACACTTTCAAACTGCATGCATTGATGTGTTGCCCATTTTCAGCTAAGAGAGGGAGGACTACAAAAGGTTAAATTTCTCATATAAGATTAATTCAG
CCATCTCTGTGAAATGGTGGAAGCAGAATGCCATTAGACTCTCTAATCTCATTTCTCTCATGCTGTCTTTCTTGGAGCCTGTCAAACAGTGTCCTGGCAG
AGAGTCAGTTCTCTGGTTGCTAAACATCAGAGTCAGTCTCTTTCTGCATGTGCCAAGAGGGCTGTAATTTAGAAAATGCAACCTACCTTTTAAGGAAGGA
TGAAAAGGTACTAAATGCACCTTTCTTTGCATGTTAGATCCCAAATGTTTTGAATATAGTAAACATGTTATTCCTATATAATTTTATTTTCTATGTTATC
GTAGAGTTATTTGCATGACATATTAGAATCAAACTTATTAAAACTGTTTATATTTTGTGGATCTCATGTGGTTTCATGAGTATTGCTTGAGTGCTAAATA
TACTAACTAATAAGATTTGTGCCTTTTGAGTGTGCAACTGTGCATTCAGGATGAAAACGTAGTAACAATTTTGCCCTTGTTTTAATTACTCTTCAACAAC
ATGTGATTTTTGAAATCTGATTTAAGCCTTTTTGGGGGGTGGGTAGCTGCTGCTATGTAAAAAGCTGAATATACTTGGACATTAGATTTTCTGTTAGTTC
TGGTCTTTTTTCATATTGCCACATAAAAATCCTAAATTAAAGGGGGACAGAGGGTGGAGCCTACCACGATTGTGAAGTTTCTTTCTCTTACTTAAAATAT
AGCATTAAATAATGCTGGTTATTTTTATGTTGCATATTTGGGACAAAGAGCTCTCTTAAATGAAAGATAATTGCAAGATCCGGTTCAGCAGCTTTGTCCC
TTGCCTCAAGTTTACTGCAGGGCTTCTCTCCTCTCTGGTTATACAGAAATGAAATTATAAACCACCAGTAACCTTGGAAATTTCAATCGATTCCAAATGA
CTAAATATTTAATTGAATCATTGCCTATACTTCCAGGGATGACTCTGGCGTTTGCTTTTTATTGAGGGCTCCATGAAAGCCAGGCTCTGCAATGGCTGCT
GGGGACTGTGTCTGTTGCAAGGAGGCTCCCCTGCAGTGAGGAGCCGGGGCACTGCAAGTCTGTTCCATAGCAGCCCTTTTTGCAAATGGTAGTTGATTTT
TGCAGAAGGTTTGTGGCCAGATCGCTATGTATAATACTGATGAAGCATTTTTGTTCCAGCTCTGTCTCGGAAGACCTAGGCTGTAGACGTGGGGATTTCA
GTAGGAAACATTATGGATCTGTGGAGCTGGTAAGTTTATGCTGTCTGTTCAGTGGTAGTACATTGATTTAGATTTAGAGACGATTGCCAAGCTCATCAGA
TCTTTTGTTGTATATTTACTGTTAGACCATGTGGGTACAGTGTAAGGATTGGATTGGAATAAATAACTATACAAAGGCTATGATAATTTGATCTTCTTTA
TCTATTTGTTTTTATTGTTACATACTTTTTAATCTTGTCTTCCAGTTTGTTAAAAATATGTTACGGCTTGGTATTTTTCTCTGTGTATATAATTAAATAA
AACAATTTATGAATTAAGAAAGGTGGCATTTGGCTTATATATGACCTTTTTCCTAAAAGTTTATAAATCTAGTTTTCAAGGTTTAAATATTATTGAAATA
CGTATTCTGATTTTCTGTATGTTTGCTTTCTGGGTGTGTAGTAGGAGTTAGAATATTTATGAGAGCTGTTTTTCCCATTAAAAGCATATTGGTTGGACTA
GATAAATGACTATTATGGATGATCAATATTTGGAATGAAAATATTTACATTTTCCTTAATGAGAGGTGTTAGTGTTTGTGCTATGATTTTTAAAATTTGT
GTGTTTTCATTTTAAAAGAGCCATAATGAAAGCATATAATAGTCTCAATATTTTTTAAAGATAGAATGTGATTTTTTCCAATTACGTGAAAATCTGAACA
AATTTTCAGAAATGTGCTCATAAAATTATATTGATTATTATTTAACACTGTTAATGACATTGCCTACTATTTCTATTTATTAAAAATGAGTTGCTTGTAT
CTATTTGTGTAGCACCCAATTTTCCCCTATTAATATAAGCTGCATCCTTGCAGAGTTTAAGTAGTAGAAAAATTTATAGCGGAGTTGTGTACCAGTGGCG
TTCTACTTGAACTCAAGCATATGTTATGGACCTGACTGTGTACCTAGCCTGGAGCTGGGTATTCTTGAAAATATAAAATGAGTAAAAGATACAGTCCTTG
TTCTTAAGGAGCTTACTGTCCTCTGGCTGGGCAGATAAGACACATAAAATATCTGAAGAATGAATTTAGCCACATAAAAGATACCTCAGTTGATTCAGTC
AACACCTGTTCTGTCTGTCACTGGTGACACCACACYACTTAGACCACCACCTCCCCTGAAGGAGCAGGTGCATAGCTATAAGTCAGAGTAGGAATTGGTA
CTGTGAAAGAGATGCATGTAGAGCACCACGGGGGTTCAGAGAAGGAAGGGATCACCCATTCTGGCCAGGGGTCTCAGAGACACACCATGGAAGACCTTGC
AGAGAGCTGTGGGATGTGGATTGGTGGCAGAGAGGATAGACAGTAGGTATGAGCTAACAGTATGATTCCTGGCAATGCCGTGTCCCAAGGCAATGAGCAA
ATGGTCCTGCCTAGCAAAGAGCTTTGTAATTACAAAGCAAGCAAGCTTTGGAATCAGGTAGGCCTGGGTTCCCATACCAGGTCTATTACTTATCTTTGTG
ACCAGTCAGGTTACTTCTCTGAACCTCAGTAATGCTGAAGAACATGTGATCTGAAGTCATTCTTGTTTCATCATTCACTAATTGTATGATCTTGGACTTC
CTTTARCATCAGTTTTCTCATCTATAAAATGGGGATATTTCTGTTATCTACCTTAGAGGGTTGTTATGAGGATTAAATGAGATCATGTACATAAAGTACT
TAGCACATAAGCACAGTTTATGTTAACCAGCTGCAGTCATAAAGACAAAATTCAGTAGCAAAAGTAGAGCCTTGACTGTCAGGTGAACACTTTGGACTTG
GCCTAGCAAGTAATATGGAGCGCTTTTAAACAGTGACAACATTACTTGGGGGAGATAACATGGGTGTGAAAGATGGACTCTTTAAAGATGTGGGGAAATC
ACAGAATATCAGAATGGAAAAGTACTTGAGAGCAGTGGTTCTCAAACTTGAGCAGACATCAGAACTCTCTGGAAGGCTGATTAAAACATAGATTGCTGGG
CCCTAGTCCCAGAGTTTCAAATTCAGTAGATCCAAGGTTAACCTACAATTTGCAATTCTAACAAGTTCCCAGATTGATATTGATATTGCTGGTCCCAGGA
TCATACTTTAAGAAGCTCTGCCTTAGAGGACCTCAGCTAGGTCATCAGTTATCCTTGGCCTGATGAGGCATCCAGTTGACCAAACGTTCTTCAATCCATT
TGTTCACATTTTTCCTCTGGGGCCATGACTGTGTGTATGTGTATTTGTAGTTGACTTTTTAGAATATTATAAAATACATTTTAAATATATTTAAAAATTC
CACGTATAATCTTACCTTGCAGCAACTGTTTTCATCTCCTTGTGGTACCTTCCAGTCCTTATAGCTACAAACCTCATTTTTATATTGTTATAATGAAATT
ATGTATTTAATTTAATTTCGCATTCTTCTTTTTCCATTTATACTGTATTTTCTAAATGTCTTCTTATATAGTCTTCAGAGTCATATTTTAATGGGTACAT
GATAGGCCAACATAGTGATAAATGATTATCTGTGTAAATTTTGTAAAATTAGGTTGTTTCTCATTTTCCCGTATTAAAAATGACATGTGTGCTGGTGGTC
AGGAAGGTTGGGAAAAGTGAAATGAGCAGAGCTCCGTTCTTATTATCTGAGGATCTCTTGAAATTCTGACTGCAGTGTTTTAAGAGGAGCGTGATGTTTC
CTCTCACTTCTGAACAACAGAGTATTATTAAATTACAAACCATTATGTGTTGCAGGGACTTATGAAAAAGTGAGTTTGACTTTTCTTATGCCTGCTGTGA
TGAAAATTGTTGGGAACCCAATAAGTGTTGGGCATCTTGGAACTCAAACTTTCCAGAAAGGCGTCTAAGATTATATAAAATTGAAATTTTAGCATGAACT
TCTCCTGACCTTGAACAAGTCACAAGTCTTGTGAAGAATGAAGCTCGGCCATTCATATCAGTAATGAGAGAAGACTTAGGGCTTAGTTCTCTAGGTTTCC
ATCCTGCATTAGTTTGGTGATGAGAAGATGGAAACCCAGATCTTGACAGACTCATGGGAGAACTACTTAGCATTCTTTCAACACATATTTATTGAGGGTC
ATCCATGTGTCAGGCTCTGTGCAAGTGACTGAGAGTCAGGGGAGAGAAGCAAAACCATTTTTCTGCTCTCATGGAGCCTTCACTTTAGAAACTAGCAGCC
TCACACCGTGTCCCCAGGCTGTGTTGTATCTGGATCTCAGCTGTTTCCCTGCCTTAACCAGGGATTGTTTTCTTATGAAGAACAGAGATCTGTTCTGTCT
AGGTCAAGTATAAAGCAATTCACTGAAAGGATATGGGTGAATCTCACGGGAGGGAAGTGCAGCTGCGCCTCATGTGATGGAAAACCAGCAAGCCACTATT
TTCTCTTTCTCTCTGGTCCATATGCTTTCTTGTCTTCACATTTCTCTGTGTCTGTATCACTCTCCTCTCTGCAGAACAGCTTCTGATGGCACAGTTGCCT
CTCTCCAGCTCATTTTTCCCAGCAGCCAGAGTGGTGTTTTCTTTTTTAGTTTATTTTTTATTGTGGTAAAACAGACAGAACATAAACTTTGCCATTTTAA
CTATTTTTAAGTGTACAGTTCAAGGAGCATTAAATACATTCATATTGGTGTACAACCATCACTGCTATACACTTTCAGAATGTTTTCCGTCATCCCAAAA
TGAAACTCTTTATCAATTAAACACTGGATTCCTATTTGGCAGTTCCTCAAAAAGCTAAAAACAGAGCTTCCCAGCCCCAGGTAACCTCTATTCTACTTTC
TGTCTCTATGAATTTGCCTATTCTAGATACCTCCTATAAGTGAAATCATACAATATTTGTCCTTTTGTATCTGGTTTTATTTCTCTTAGCATGTTTTCAG
GGTTCATCCATGTGATAGTGTATATCAGAATTTCATTCCTTTTTATGGCTGAATAATATTCCGTTGTATTGATACACCACATTTTGTTTATCCATTTATC
TGTTTTGTTTGTTTGTCTGTTTGTGAGGCAGGATCTCACCTTGTCACCCAGGCTGGGGTGCAGTGGCACAGTCATGGCTCACTGCAGCCTTGACCTCCTG
GGCTCAAGTAATCCTCCTACCTCAGCCTCCCAAGTAGCTGGTATTACAGATGCATGCCACCACACCGGGCTAATTTTTTTGACTTTTAGTAGAGACAAGG
TCTCTCTATGTTGTCCAGGCTGGTCTCGAAATCTTGGGCTCAAGCAGTCCTCCTGCCTTGACCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCA
CCCAGCGTGTTTATTGATTCATCTGTTGATGAACACTTGCGTTGTTTCTACATTTTAGCTATTAAAATTAATGCTGCTATGAACACTGGTGTACAGATAC
CTGTTGGAGTCCTGCTTTTGATTGTTTGGAGTTTATTAACTAGGAGTGGAATTGCCGGATCATAAGGTGATTCTGTTTTTAGCTTTTTGAGAAACTGCCA
AACTTGTTTCCACCATGGCTATACTGTTTTACATTTCCACCAGCAATGCACAAAGTTTCTATTTCTCCACAATCTTGACAACACCTGTTATTTTCCATTT
TTAAAATAATAGTCATTGTAATAGTATGAAGTGGTATCTCATTGTGGCTTTGATTTGCATTTCCCTAGTGATTAGTGATGTTGAGCATCTTTTCATGTGC
TTATTGGCCATTTGTGTATCTTCTTTGGAGTAATGACTATTCGAATTCTTTGTTCATTCTTGAATTGGGTTTTTGTTTTGTTTTGTTTTTTGTGTTTTTT
TTTTTTTTTTGCTGTCAAGTTGTAGGAGTTCTTTTTATATTCTGGTTATTTGTCCCTTATCAGATGATTTCCAAATATTTTCTTCCATTCTGTGGCTTAT
TTACTCTGTTGACAGTGCCTTTAATGCACAGAAGTTTTTAATTTTGATGAAGTAAAATTTATCTATTATTTATTTTGTTGTCTATGCTTTTGGTGTCATA
TCCAAGAAATTATTGCTAAATTCAATGTCCAGAAGATTCTCTTGTATGTTTTCTTCTAAGGCTTTTATGGTTTTAGCTGTCTTTGAGCCATTTTGAGTTC
ATTTTTTCTATATGGTGTGAGGTAAGAGTCCAGCTGCATTCTCTTGCTTGTGGACATCCAGTTTTCCCAGCACCAGTGGTTGAAAAGACTGTCCTTTCCC
TATTGAATGGCCTGGTACCCTTGTCAGAAATCAATTGACTATAGATGTGAGGGTTAGTTTCTGGGCTTCCCTTCTGTCTCATTGGTCCATATGTCTGTCC
TTATGACAGAATGATGTTTTAAAATGTTGTCAATACAATGTCTTTTCCTTCTTAAAATGTTTCTTCAGCTGTTCATTGTACTTCAAGGCCAGACCATGTA
CCAAGCCCTACAAGAACCTATGTGATCCTTACCCTGTCTTTCTCTTTCACCTTCTTTCATGCCGCTTCCTCACTGTGGCTCAAATGTCTGGCCTTTATCC
TGGTCTCTGGAACACACTGAGCTCTTCCCTGTCCCAGGACCCCTGCGCTTACTAGTCATTCTTACTGATGGATTCTTGGGGCTTCTCACGGCTGATCTCA
GCTTAAATACCATCTTCTCAGAGGGGCCTCCCCTGACCATCCCATCAACATTAGTTCCTTCCTCTGCTATTCTSTAACTCAACATCYTATTTGTTTTCTT
AGCAGTGCTTATCACAATCTATATTCATTTCATTTACCACTTACTTACTACTCTGTATTGTTCATTGTTTTATTTCTAGAACATGGCACAGGGCCTGGCA
CATACTAAGTTTCTTATAAATGTTTTTTTATTACTGAATTGATTTCTGGCCCCCCAGTCCCCATGGTTTACATGGGTTACAGCTCTGTTGGCCACCGTGG
TCTCTTCATTCTTGGATCCTAATTTCAAATTCCAAATAGAATACTATGGATTGTTTCCTCTTTGTTCAGGTATCTATCCCTGATTCAAACACTTGTGCTC
AGGGTAGTGGGGTCATAGACTATAAACCTGGCTTTTGAGGCCCATCCCCTCAGCAATGCTTGTGGACAGGGCAKATTTTCTCTGGAGATGATATAGACAA
GTCAGTTTCAAAGAAGGGCATGAGCTGAGCTGGAACTCCCAAATGTGTCCATTAACATTCCTTCATATAGCGAGAATTTAAAAGCTCAAACTAAAAGCAC
TTAGTGAAAATGTCTTCCTCTGCTGATGGACTCCCTTATCTCTGTACTTTTTTAAATACCATAAATAAAGATATAGRTTATGAACTCCCTAAAAATAGGA
ATAATGTTTATTTGCCACTGTATCTCTAGAACCAAGCACAATGCTTAGCATTAGTTACTTAGTAACTATTGATTGAATGAATGAATGATCCCATTTGGTT
GAAATTAGAGAGTGGCCTAACCCATCAAAAATAAATAAAGGAAAGAGAAAACAAGCCTCTTTGATTCCCCCCTCAACCAATATACTTAGGCTCATTAGCT
GGCAGTGCATTTCATCAAAAGCATATGCCATTTTTCTTCTTGATGAATTGCAAGTCTTGTCTCTCATGGCAGCATTCTAGGCAAGACACAGCTATCACAC
CATCAACCATTCTTCATCACTTTGTGTTGAAATCTGTCAGAAAAAGCACAAGATTGTTTGTAGCTTTTATTGATCTTTTTTTGGCCTTTAAACTGGATGG
CTAGGAAATTGATACAGTATCAGTGATAAATGGTATGGGCACAATATAGACCTCTCCCCTCCCCAGCCCAGCTGCTGACTCTCATAAAACCCCGTATCTT
GATACTTCTGGGTAAGTAATGATCTACTGGTGATTTCAAGTCAGGATAAAACAAGGTAGTATATTGTCCATTCCTTTTTAAGCTTGTTTCTTAATGACTC
AAACCTGCATTTAGATGAGCCACGTGCATGCTCCCCTGCTATATAGGAAATAAATATATCAGTGCTTCTCTATACAGATAGCATGATTTCGTTGTCATGA
ACTCAGGGTAGCCTCAAAGGGTATCTGGCTGTACCGTCTAATAACTATCAAAAGAACGGTTGATGATGAACTTGCTTGGCATCTGCAGATTTTAGCATTT
GAGGTTTTGACTGTTTGAGGACTCTTGAAGTCTTGATATGTAGTAATTTGTATTTTTGTTCAGGCACAGATTGGATTTATACCTGTGGGACTGTTGTGAA
GAAAGATGATGCTTTGCTAATGAGTGATTTAACTGCCTGTCCAGCACCCCTAACACAACTCAGTTTTGTGCTCTACTCAGGGTTAAGTAGGGTTTTTACT
TTCAAAGGCACTTTATGGGAGAAATTATATTCTATCTAGTATTACCAAACTGAGAGATTAGTGAGGGTACCAGCATATTTCCCTCAGGAACATCAAAACA
TCAAGACTTCAGCGTTGTACAGCTAAAATCATAATTTTGACAGATGTTCTTTAAAATTTATCTGGCTTATATCTGTGTCTCACATAGCAGGCCAACTCTT
TTTTTTTGAGGAGGAGGAGGAGTCTCACTCTGTTCCCCAGGCTGGTGGCTCGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCT
GCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCACACCATCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGTTTCACCATGTTGGCCAGGA
TGGTCTTGATCTCCTGACCTCGTGATCCACCTGCCTCAGCCTCCCAGTCAACTCTTGTGGATACCTCCAGGTACAAMGTATATCAGAACATTCACCAACA
AGTTAACATGTTTTGAAACTATGGATGGTGCTTTTTTGATATTTTTACTGCCTCTGTTGGTGATTGATAGTGCTCACTTTTAAGCTTTTTCAGGCCAAAA
TTATTGTAACCATTTTCTGTGATGTAGAATTTTGAGACTTTAATAATTACTTTTTATACATTAGAATGGAATCAGAAATCTTTTATTATGGTTATTATTT
TATTATTTTTATTATTAGTTTTAACATTTTATTGAATGCTTACCACGTACCAGTCTCTGTTGAATACTGTAGATGTATTTACTTATTTAATCCCCACAAA
AAACCATATGAGGTAGGCATTATTTGATTAGGCCACACACTGTAGATGCTCAGAAGACATTTGTGAATATTAAATGGATTCCCATTTAACTGATGATACC
AGAGCGGTCCCACAGCTAGGAAGAAGCAGGAGTGACATTTAAACCCAGGTCTATCTGCCTCCGAGAGCCCCTGCGCTTAATCTCTTCGCCTGCAAGCCCA
TGCTCTTAAAGCCCTGCTGTGTATAGAGTGTTTCCTGAGAAAATTAGGTTGATTGTTAGAACAAATACCGCTGTCCTTAATCAAAAGCATAAAGTAGCTC
TGCTTTAGGTTTCCATTCCAACATATAATTTCAAACTATTTTTCGTCCAAATCTTAACAAAAGCTTGCTATTAAGAATGTCCATAAGGAGTTATCCAAAG
ACATGCCCATGCCTTAAATGGTTTAAATTTAATTCCTAGATCAAGCCCAACCATAAGTTAGCTACAAACACTTGGCCTGCCTTTGTTGGCCCCTCTCAGA
CTTGCTTTTCTTGACTTGTACCATGGCATTATGCCTTTAACCTGCATTGATGGACAGAGTGGAAAGCAGCCAGATAGATCTTGGTGGTGTGTTGCTTGTA
GGATGCTGCTAAGAATTTTATGTTCGTCATATACAGAGTCTCATTTAAAAAGACCTATGAGAAAAAATTTTTCTCAGGASCAAAAAGTGCCATGCTTCTC
CTGAGAAGCTGGTTTGTTGTTAACCTTATAAGCAGTGGGAATCCTGTAAATGAAAGGGCTTTTCCTCTTTGCATTGGCTCCTAGGAAGCTCYGAACTCCA
TTTGTGGCTTATCTCTAACAGTCTTAAAGGACTTTATAACATGCATCCTCATCTTATTCTCTTGTTTTCAGTTTATTTACCTACACTTGATTTTTCCTTG
TTCTGAGTGTGCTCAGTATCTCATTTTATCCTTTAAGTAAGATATATTTAAGTAAGCTGCTTTTAAATCCTTTCTAAAAAATAAGATAGAGCATAAATAT
AAAAGTATTTCTGTATCTAGCCGTTAACAGCATAATCCTTCTGTCCTCCATTGACAGGTAGAATAACTTTGATGCTTGTCTCCTCCCTACCCTACTTTTT
GATACAGTATGATTTTATGACCTATTTTTCTAGGATCAACAAAACTTGGGGAGAATTAACACCACCTGACCAGCCATTTGGTGACCATCTTGAGCTCCGA
GTGCTGTGTTAATGACATGCATAGGCGGGTCACAAACTGTAACAAATCCACCAGCTGAACACATGCTGTAATAAGAATACCAGACAACTTCTCCAAATTT
TCCCAGACAAAATCAACCTTGGGAACCTTGATACCAGACATCAGCATGCTCTCTAGTTTCAAAACCAGAGTTACAGGCACCCCACTCCCTCCTTTCTGAG
TCCTGGCTTCCTCATGCTCTCCCTAGAGGCCACAGGAGTCTCCCATTCCTGTGACACTCAAGGCTCTCCTCCTCAGGGCAAGCCTCTCTGCGCCTCTGTG
CTGCTCTCTTGCAGCCACCTTGGCTTGGCTCACAATCTCAGGCTCCTCAACCTTATGCTGGTATCCTGGGAGTCTCTGTTGTTTGACTCCAGTAGTCTTC
AACTGATGGGATATGGTCCCCTGATGTATATAAAAACACTTCCAAATTTTGATCAATGTATAATAGTTTATTTTTCATATAACCAGAAATACAAACTGAA
CACGCCACTTACCTGGTTAACTCTTCAGCAAAGGAAATTGAGTACAGCAGTTTTCTACCTTGATTGTGGTTTCATACACTCAGGAGGCAAAATGCACATA
AGTCTCTAAACACACAGACTTTCTTGGTGTCTGTTTGGTAACAGCCGTTGCCTTTCACACCTTACTTGTACCAGATCATTCTCTGCCCTGCATCATGGCT
TGTCGTGTGCCCGCCTCAACTTTCAGATAAGCAAGACCAGGCTCAGCAGTGTGCATCATCTGTTGTAGCAGGAATAAATTTTAAACTTGATTAAAATATA
TAATGTAATATACCTTTATGTACTGCTCTTAGCAATAGAATATATTTTGTTTTCTCAAAGTTGCTTTTTTCAGTACCTATGTTTTCTTCTGAACTCATGC
AGGCCTTCCCTCAAAACTGTGGTATTCACATGCCATGAACATGCATAGAGTTTGAAAACCACTCTTTTACCTCTTTGGGGCTGTTAAAGATGAAGAGGAA
TTTGGTGTTTTTGCCAATCTTTCCCCACATGGGCTGTGGACTTTAAGAGCTCTTTTTTTAGGCCCTCAGAGGAAAGTCTAGCCTATTTTAACTTATTAAC
TGCCCCTTGGCAGGCAACTTAGAACAAGTTTCCCTGGGGTTCAGGATCCAAGAGAATTTGAGGCTTCATCAAAGTCTCTCTTGGTGCCTTAAGATGAAAC
CCTTGTCTTTCAGCTTTCTCCTGTCTCAGGGCAAGTTTCTGTTTTCGTAGSGCACATATCCATTCCATGGGTTAGAAGAGCTTTTGGCCCTGTTTGTTAA
GGAGGGGAACATCTGTGGGTTCTGAAATTTGCTTCCCTTTTATATCACTAATCAAATTTAGGGAGTCATGCAAAAAAATCCAGTGTAGCTTGCCGTGATT
GGCTTACCATAAATGGCTGGCTCATGGTGTCACACTGCCACTGTTAGTTGAGCTATAAGTAATATTTTTATATTGAACTATTTTACACATGTAATTAAAG
CAGTTACTTTGGGTTCTTTTATGTGCAAGAAAAGGATTGTATGCTTTTTGGCCTCAACTTTTTAATTGGTCTATTGCAGTTATCGTTGTGTTGCAGTCTT
TTAAAATATAATCTCAAACTGTGCGTGCATAATAGATGTGAAGGCTCTTTGATTACTTTGGGAGTACATTTCAGCTATTCTCTAAGTTCTCTTTTTGCTC
CTTGTAATGGTTCCACAGTTTCCCTTCTTACTTTCTCCTTTTGATGCTTCCCTTCCTTGTACTCCACTGAAACTGCTCTTGCCAAGGTCACCAAAGATTT
CCTTGCTACCAAATCCAGTTGGCATTCCTCAACTCTGCCTTTTTTTTTTTTTAACATTTTGAATTGATTGATTGATTGTATAGATGGGGTCTCATTATGT
TATCCAGGCTGATCTCGGACTCCTGGTCTCAAGTTATCCTCCCACCTTAGCCTCCCAAGGCAAGGCTGGGATTACAGGTCAGTCTTCATGTTACATGACA
ACTCTGTAGCCCTGTTAAAATTTTCTCCTCTCTTGACATCTCCATACTATCAGCTTTTCCTCTTGCCTCCCTGCTTCACCTTCTCAGCATTTTTTTTTTT
TTGATTCCTTCTTGTCTGGCTGGCCCTTAAATTTTGGTGCTCTTCTAGATTCTGCCTCCAGCATTGTTCTTACTATATATGCTCTTTCTGGGTAATCTTT
CCCTGTCTTAAAATTGGTGACTCCCAGATCCATATATTGAGTCCAGATTTCTATCCACAGATTTCTGTGCATGGGCGCATTTGCCTAAATGCCCACTGGC
AGTCTCTCCTGGGATGACCCATAGGCAACTAAACTGCAATATGCCCCAAGCTGAACTCACCCTGTCTCTCTTGTGCCAAACCACTGAGTGAATGACACCA
TCTTCCTTTCAGTTGCTAATTCCAGAAACCAAGAAATCACACATAGCCATGTCCCAGTCTCTTACCAAATCCCATTGGTTCTATTATATATTCTCAATGG
ATTTCATGGCCAGTTGCTCTTTATTCATATCACTGTGTACAGCCAGTGTCAGACAGCCTTTTGAGTGCTTTGTATGTGTAAACTACTTTTCACAATGACC
TAATGAGGTGGGAGTACTGTTATCATCCCCATCTTACAGATGAGTTAACTGAGATTCAGAGAGGTAAATTAACTTGTCCAAGGTCACACAACTGGTAAGT
TGTAGGGGGTGTCCCCCAACTCCCATCCACAATAGGTTATATTTACTTGAAAGATCCATGATCTTGCTGCTGTTACAGGCTGCTCCAGTGCCCCTCAAAC
TTGATTATGCATAAAAATCACTTGAGCAGTTTGTTYAAAACCCGTGTTCTGATTTGGCATATCTGGAGTGGGCTGAGTAGTGTGCATTTTTTACAAGCTT
ACATTTTGAAAGTGACTTTTAATTCCTTATGTGTTTCTTATTTAGACTCTTGAAGAAATACAAGTAAGAAAAGAACAGGATGTTTGCTTCTATGTAGTCC
TTCTTTTGTGTGACATTGGTATCATTTCCTCTTTCCTTGAGCTTCTGGCACTTTCTCTTGCTCTCCCTGACTTCTCAAAAATTCCATTTAACAAATTCTT
GATAAGATTACATCTAGTGTGTCCGTGTCCTCAGATGTAATTAACCTAATCCTGGGAGCTTTGATTTCCTTAATGCTGTAAAGAGTACTTTCCCTAATGT
ACAGCTCTGGCAACATCATCTTTATGMATTCAAGCAAACAAATTCCTGCTGTAATAACAACAGCAAACCTTCAGCATCTCTTTTTTGCTTATGAAATAAA
GTAGGTAGTCTTCAGCTTGACAGTTAAGGCTTTCTGCAGTCTTGCTCCAACCTATCTCTGAGCCTTACTTAGCTCATGTGGCCCATGATCCAGCAAACGG
ACCTTTACCCACCATTGCCCAGGCCTGAGACTTCCTTATACTTTTTCATCGTTCTAGAATGCCCTCTTGAAATATGCCTCTGTTGAGTGTCATTTTTTCC
ATGCAGCCTTACCTGATTCCCCTATGGGAAAGTCATCTTTCACTATCTAGAACCCCACAATTGTTTGCATTTCTCTATGGTACCTGTCATATTTTACATT
GTCATTATTTGTGGGCATTTTTTACCTGTCCTAGTAGGCAGAGATTATGGTGCTTTTSTTATTGTATCCCCAGCAGTACTTGGCTCAGTGCCAGACATCC
ACAAATCAGCTAGAAGATGAGTTTTGCCAAAAATCTCTCTAATAAATTCTTTTTTCTTAAATTTTTTATATTACTTCATAGTATTTTTGTGTGTATGTGC
ATGTGATGCTGATATACTTTTTAATATATTTTTCCGATTATGAAAGGAATACATAGTCATTATAGAAAATTTGAAAYATACTGAAAAGCACAGAGAAGAA
AATTAAATTCATGTGTAATCCTACAAATAATCACTATTACGATTTAGTACACATCGATTTAGTAATTAAATTTGTATACAAAATGGGTTTATGTATTTTA
TTGGGCTTCTTTACTTAAAAACAAAGTATAGTCTTTTTAGGCATAAAGTTGTCTTCCATAAATGACTTCATCTCCTTATATGCAAATCTCTTTTTTCGTC
TTCATGTGTAATTGCATTGGCTATGACCTCCAAAGCAACCATAAATAGCAATAGTTGCAGGTGTCCTTGTCCTGGAGTTTCAGGTAAGTTTTTAAGGCTG
TACATGAGGGTATCTTTTCTTAATCATTACATATCTGAGCATGTCTCTGATTCATAGCTTTCACAAGAACAACTTTACCTGCTTTTAAGTGTCTGAGTCA
TCACCTTTTTCCTTTAAAACTTCACAAATGTTGATCTGTTATCGTGTTAGTTTCCTAGGCCTGCTGTAAGAGTTTATCACAAACTGGGTGGCTGGGTCAC
TTAAAACAACAGAATTCTATTCTCTTACAGTTCTGGAGGCTAACAGTTCAAAATCAAGATGTAGCAGGGCCATCCTCCCTCTGAGGGCCGTGGGGAAGAA
TCCTTCCTTGCCTCTTCTAGTTTCTGGGGTTGCGGCGGCAATCCTTAACCCCCTTTGGCTTGTAGCTGCGTCACTCCAGTCTCTGCCTCTGTTATCACAT
CGCCTTCTCTCTGTGTCTCTGTATCTGAATCACCCTCTCTTTTTCTCTTATAAAGACATCAGTCATGGGATTTAAGTCCTACCTGAATCCAGTAGGACCT
TATATCAACAAATTACATCTGCAAAGACCCCATTTGCAAATAAGATTATATTCTCAGGTTCCAGGTGGACCTGAATTTGGGGGGGGACACTATTCAACCA
GTACAGTTACCTTTTGCCCTTTAGTGTTCTGAAGAGAAATCTGAGCCAGTTCCAATTCAGTTTCTTTCTTGGTGACCTTTCCTGGCTGGGTTTTTCTTAC
ATTTTTTTTTTCTTTTCATCTTTCATTTTTTACATGTTTTCCATAATTTATCTGCACCTTTGTATTTTCATTAATTTTCCTTAAAACATTGCACCTCTGG
GATTCTTAGATCCAGTCCTTTAATCAAGGATGAATATTTTCTTCTGTTATATCTTTGATTATTGCTTGTTTTTTCCCCTAAAATGGTAAAGACCATTTTC
TCTGTCCTCCATGACTGTCTTTTCTTTCTTTTTATTTTCATTTTGTTTTGTTCCTTTCCATTCTATAATCAGCATCTAAAATGATGGAGATATTACTGTT
TTAGTTCCCTAAAATTAACATTTTGTTTTCCTCCTCCAGTGAAGATTTTAATCCTACATTTGCATTTTTTCATCCTTTTTTATCTCACCCACTTGCACAA
GGTTTCTACACTATTGCAAAGAGCTCATGTCTTCTGTCTCCCTGAGGACAGCAATGGCTATTCTGAAATTTTATTTTGGTTTCATAGTAAAGATGGTTAA
AGGTATGCTTCCCTCTTTTAGTTTTCAGGATTATGTGTAGCATTTTTTCATAGCCCCCATTTTTTTTTGTTTTGTTTTCATTTTTGTTTTACTTCAAACA
AAAACAAAGAGCTATTCAGACCTTTTTTTCAACATTCAGAATGTATAACTGGCTCTCAGCTATCATTGTTCATTTGGGACTGTAGCTTCTCTGAGTTAAA
CAACTGGCTGGCTGGAGATTATACAAAGCTCCTTGATCAATTTCCAGGGTCTAGTTGGTGTTTATCTTATAAAGCTCTGCTGGAGTGAGATAGGATATTC
TCCTGTGCTTGGCTTTTTGCTGCTCTGTACCAGCGGCTCTAGAATTTATACATAACAGGGGCTTAGGAACTACCAGTAGCAGTCTGGTTGAAAGAGGCRT
ATTGAAGTAATGTTTGCTTAGCTCTTTACATAAGCCTGAGAAAATGCCAGCTGTCTAGATCAAAAAACAGGATGCAGATTGTGAAGAGGTTAAATCTCCC
CCAGCCCCTTGGCATGTTGGGGAAACTAAACTCCCTGGGATGCTCTGCCCTCAGGACTCTCCATGTCTCGCTCCCTACCTGGGGCACTTGGTTTATGAGG
ACCACATTCTCTAAGATGGACTCACTCTCCCTCCCTACTTCTTGCCCAGTGTTTTCTTGTCATGAAAAAGAGGTGCTTGTACGAGTGAGGCTACCTCAAA
ATGCAGTGTCCATGCAGTAAAAAGATGATTCCTAGTGTTTTATTCTTACTCTTCTGAAAGACCCAATGTCTCTTAGCTAAAATTAGATGGTGTGGGGAAG
ATTAAAGTGCCTTCCAACCTTCCATAATTACCACAGATTTGTTCTGTTCCAAGCAACAAAGCCAGACACCAAATACGTTTCTCGATTCTTCTCCATTGGC
YGTATAGTAAGTAGAAAATGTCTTGATATTTTGGACGTAGAATTGCCAATCATTCCTTCTTAATATTCAAAGGAGTTGTCATCATTTGTGGTGAATTTTC
ACAAGTCTTTTACTGGGAAATGGAGTATCAGGGACTACTGTTCAGATATGATTTTAATTAGAAAGCCAAGACAGGTATATTTTGAGCTGGAAAGCTACAT
GACAGTGCTTATCCTGAATTGCCTCATGTTTCTCAGTAAAATAGCAGAAAGGTCATCTGTTAGGAGAAAGGGTGTTTCTGTAGTGGTAACATGTGACAGA
TAAGGTGGAGGATGTGATGGGAAGTACAAAAATAATGGCTCAGAAGATTGGATGGTGGTGAGGATCTAGCCATAATCAAATAGCATGAGCATGTTGTAGG
CCTGGTCAGATGGAAACTCTTCTTTGAACACAGAAAAAGAGTGAGAGTTCAGTTGGCAGGGTGTGAGCGAGTGACTTGACTTGGTGGCACGAGGAGGAGT
GAGCAGCATGCCAGATATGTGSGGTGGTAAGTGCAGCCTGATTAACCACAGATCCCCAGATAGAACCCATGCCAAAAAGAGCCCGAGTGGGTTATGAGGT
AAGGTAGGTCCCATGATGCCACAGCTGTGCCARTGAGAAGGAGAGGATGCTGTTGGAGTTAGGAATGGATGGCAGAGCCATGGAGTTGGGAGGTATTCGA
TTTGAAAAGACAGAAGAATATGAGCTCAGGCTGTCAGATCAATCATAGCGATGGGTGTTGAGTTTGCTGAGGACAGGGGCCAGGGACAAGGATGATAAGA
AAAGTCTGAGTCCAGATCCAGGGCCTTGGTGGCTCTCCTCCAGCCAACATTTATCCTCTTGGCTGGGGAATCTGCCTGCCACCTGGTTGGTTCTATATGC
GCCATGGTGCTCTCAGCACCCAGCTGCCCAGCTGCCCAGTCACCCGGATCTCCCTGTCCCCCGGCACAGGCAGAATAGGATCAAGGTGAGGAGTGGGAGG
AGGAGAAAAAAACCTACCCCTTCCCCCTACTCTGGTCCTCACACTGGCTCCTTCTCCCTTGCCTTTCCCTGCAGGCACAGAAGTGGACTAAAAGAGACCA
GGAGACAGGCCCCAGGGCAGCACTCAGCAGTGAGGGGATGGCTCATTCTACCCATGTTTATGCCTTTTCTCACCCCCTCTTTTTGATGCAGACATTTAAA
CTTTTCTTTCTTCCTTTCTGAATAGTAGTACTTTCTAAGTCAGGGATGTGTCTGTGTCTGTGTCTGTCTGTAATTTGCATGTGCAGGGTCAAATGGATCT
GCTTTCTTGACCAGTATTTGCAGTTTAAATAAACCAGCTTATGTTGGAAATCATTTCTCAAAGATCCTATACATCTTCCAGAATAAATTGCATTATAGCA
ATGCAACCTTCCCCAGTTCCCCCAGGCAGAGTTGGTCTCTCCAGTGTCTGTCCCCTGTTCTTTTGTCTGTTGTTATGGCATTTAACCAGGTTGTGTTGTG
ATTTATCTGATTATATGTATGTGTGTCTCTTACTCCCTCTAGGATTTGCMGTCCTCTAGGGCAGGGATCATGTTGGATTTATCTTTGTCCAGCAGTTAGT
ACAGGCCCTGAAAAAAATGGTTTCAGTAATGTTTGCTAAATGGACAAATATTTAAACAGATCTTCCAAGAGTTTAAATGTAGCATAAAGTGGCTTAATCA
TGCTAATCAGAGCATTTTATATTAATCACTATCATATTACTACAATATATATTATAGCATTATAACATTTATTGAGCACTTATTATGTCCAGGTACTATT
CTAGGCTCGTTATACATTTTACATTATTAAATCCTCACCACAAGCCTAGAAGTAGGTACAGTCATTGTCCCCATTTTAGACATAAGGAAACTAAAATTTA
GAGAGGAAAAATTCAGTGATTTTCCCAAGGTCACATGGCTAACAAGTATGGAAGTGAGATTTGAACCTGGTCAGTTGAGCCCCAAAACCCATACTCATAA
GCCCTCATTTTAAAGAAAGGGGATCTAGGAGAAAATATTACATATTATGCTTAAGGATGTACTTTACATAATCTTTTTGAGTTTTTTTTCTAAGTAAAAA
TATTGTTCCTGTGATTTATATACCTGAATGCCAAGTACACAGTGCATGCTGAACAGAGATCATAGGGAATACCAGCACTGATTTAGAATGGAAACAAGCA
CCAACCCAGTGAAACAAAGCAGTAAAATAAATGAGGAAGTGCTTTTTGTTTTTGAAAAATTACATATTTGTATTAATCTAAGAAAGATCCTCATTTAATA
ATTGCCTACAATTTGAAACTAATAATGTTTTTATTTATAGTTAATAACATTTTATGCTTTCTATTTAAAAAAATTAATTTGTTAAGTTCTACAAACAAGT
ATTCTTGCTTGGATCTTATTTTTTTTCCTGAGATAAAACATCTAATATATTGAACACTGTTCAGTGTTAAATGAAACAGTTAGTTTTGCTGAGATTAGAC
CAAGGCCTCCACTCAGGATGTTAAATCACATGAATTTTCACTACTTAACTAACTGAATGGGAAACCAATTTGATTTGGGTCACCCAGAGCTGCATGAATG
TCCAGCATGTCATTATACATAAAAATATGTATAATTGGACAGGGTTGTGGCCCTGTCCAATAGAACTTTCTACAATTATGGAAATATTTTTATCTGTGCT
GTCCAGTGTAGTAGTCACACATAGCCACTGAGCACTTGAAATGTGACTAGTGCACTCAGGAACTGAATGTTTTTTATGTTAATTAAAATTAAATCTAGGC
TGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAGACCTTAGCAGGAGGATCACTTGAGACTAAGAGTTCGAGACCAGTCTGGGCAACATAGT
GAGACCCTGTCTTTACAAAAAATAAAAAAGTAGCCAAGCGTGGTGGCATGTGCCTGTGGTCCCAGCTACTTGGGAGGCTGAAGCAGGAAGATTGCTTGAG
CCCAGGAGGTCAAAGCTGCAGTGAGCCATAATTGTGCCACTACACCCCAGCTTGGGAGACAGAGCAAGACCCTGTCTCAAAAAATAAAAAATAAAATTTA
ATTTAATTTAAACAAGGCTGGTGGCCACAGTATTGGACAGTGCAAGAACTCAGAAGTAATCACTCACAGTGCCTGGCAGATCCTAGCCAAATGATCACTT
AAGTCGTTTTGTTGTTGTTGTTGTTTGTTTGTTTGTTTCCTTTTTCTCCCTCCTGGACACGGTCTTCCTCAGAATCTGAGTATTTGGTGTATGACCATAG
CAGAGATATAAGACCAAATAAAGTTTAAAAAATCCTGTCCTCTTTTCTTAGCATTAGTGATGTTACACATACATGTTAATACCCTTTTCCTAAACATATC
CATCAAAATGAATGCAAAAGATCTGGTGTCTCTTCTCRAAGGAAACTGCCCCACTTTTCTGTGAGTGTGTGGCTCTTATGTGGCTCTCATGTGGCTCTCG
TGTAGCTCCGGTGTGGAGCATCAGATCCTTCACCTCCTCAGAAGATGCTCTGGGCCAGGGCTGCCTTTGTGGGGCAGTGTTGTGACAAGATCTTCAGTTT
TGCAACTAGCTTTTGGTCTACTCAGATTTCTTTCTTAAAATATTTTTCATTGTGTATGTTTTCCTAGAAAATTTGCCATTTCATTGAACTTTTTGATGAT
ATTGGCATAATTTCATATAGAATGAATGAATATAATTTCATTCTCTTAATCTTTTAGAAATCTCTTTCTTCTTAGTGGTTCTATTTTCTTTATTATCACT
ATATGTATTTGTCTTTGTTCTTTGCTTTTTAAAATCAGACTTGCCTTGGAGTATCTTGGATATGTTAATCAATTATACTATCTTTCTAGTTTTATAATTT
CTGCTCTGATCTTTTATTGATTCCTTTCCCCTGCTTTCCTTGGGTTTATTTCATTGTTCTTTTTTTATCTTCTAGTGGTTAATGCTTAGTTCATTGTTTT
TATCCTTTTTTGTTTGATAATAAAAGCATTGAAAATGTGAATTTTTCTGTAAATATAGCACCTATCACATTATGTGTTTTCATATGTACTGTTCTTATTG
TTGTTCACATCTGAATAGTATCTAATTTTACTATTCCTATTTGACTCAAGAATTTATATAAATATATGCATATAAATAAATTTATACATGCATATATACA
TATATAAATTCTTGAGTCAAATAGGAATAGTAAAATAAATTTATATATGCATATATTTAAAGAGATGGGATATCACTGTGTTGCCGAGGCTGGAGTGCAG
TGGCTATTGATAGGTGTGATCATGGCACACTATATCACTGAACTCCTGGTCTCAAGCGATCCTCCTGTTTCAGCCTCCCAAGTAGCTGGGACAATAGGCA
CAATAGGCTGAGATGCATATTTTCTGATTTTCAGTTTTTAAAATCCTTTTGATACTAATTTCTTATTCAGTTGCATTATGCTAAAAATGACCTGTACAAT
TTTATAGAATATTTTAGAAGTTTTTTATTTTATATTGTTCTGTAGAACTTTTTCTTCCTTTTCTGGGCCAGACATGGTGGCTCATGCCTCGGCACTTTGG
GAGGCCGAGGTGGGCGGATCACCTGAGGTCGGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCTGGGC
ATGATGGTGCATGCCTGTAATCGCAGGAGACTGAGGCAGGAGAATCGCTCGAACTCGGGAGGCAGAGGTTGCAGTGAGTTGAGATCACGCCATTGCACTC
CAGCCTGGRCAACAAGAGTGAAACTCGCTTTTCTTTCTTTTCAATATTAGGTCGGTTTTTTTAAAGTTTACTAGATATTTTTAAAGGTGTGTATTCTCTG
TACCTTGATACAGTCCATATATGTCTATTAAATCATGTTTATTAAATTTATGATTTGATTCCGCTATAAATCCATACTCATTTTTGCCTTGACCTATCAG
AGAGAAATGTACTAAAATTTCCCATTACAATTATAATTTYATAAACTCTTCTTTCTAGTTATAATAGTTTTTGTTTTATAGTGATATGTTGTTACTCATT
ACATAAATGTTTATAGTTATATTTTGGAGATGGGTGGTTCTAATTATCCATATAAAATAACATTTTTTATTTGATGTCTTTTTCTCCTAAGTTCTACTTT
GTGATTTCATTATTCCCTTACTTTCTTTTTGTCCCAATTTGCCTAGAATATTTTTTACTTTGCCTTTCTTTTTCATGATTGCTTTATTGTATTTAATATA
TTTCATTTATGTTACCGATCAAGTCTTTTTTGTTTTAGTAGGGAAATGTAACCAATTCATATTTATTAAAACATCTGTGCTGTTCTGTTTACCTTTAGGA
GAAGTTCCAGGCTCCTCTTTATCCACTTCTCATTTTATCCCTCCCTCTCACTCCATCCTTCAGGAGTGCAGATCTGGATTGATCAGATTAGATAACATCT
TACTAAGTACTAAACTCCTGGATAGACAGAGCTATATTTGCAAAGGTCAGAGCACACATGCAAACATGCAAAAGTCTCTTTTCTGGACTCTTCTCCCAGA
AGAATAACAAAGGGCTGGATGCATTCCAGTGTGAGAGGAGACCTAACCAACTCCCTCCTCTTTGCTGGCTTTGGAGGGGTAAGATCTCAGACTGCCTTCC
TGTCTTCTTTCTTTCTACACCATGTAGGCTGATCTACCTTCACTAGTAGTTCTCCTTTAGTCTTGGTCTCACTCATTAGTAGAGAACCTTGCTAGAGAGG
GTGGTTAGTGTAGGAGATGATTTGTTTATTCCTGTGTTCTGTTCTCTGCCCAAGGACCACTTTCGTAACACCCCAGTCCATTCTTTACAGTTTTTCCCAG
ATATGTTCTCTGTTTTTCATAATCATTTTCCTCTATTTGTCTCAAACTGATATTCTGATTTACTCTTTACGGGCATTTTCTTCTCAGTTCTAGTTTTTGG
TTCACCATGGTCACTACATTTTGAAATTCAGTAATTACACTTTTCATCTGAAAGCTGATTATAGATTGTCCCATTTTCATAGATTCAATATGCTCCCAAA
TTATTACCATAATTGGAAATTTTCAAAAAATTCCTTGGACTTTTTGTAGTAAATCTGTCTTGTAGAACATTTTCTCTGATATTTCAGATTTTACATTTTA
TACTATCAACTTATCATAGGATCAATGATTATTCTCTTGATTCTTCCTTATTGGGTGTATTAGTTGGCTTAGAACGTCACAGTGCGGTAAAAAACAACAA
GTTTATTTCTCTCTCATATGCAGCCAGGAACTCTAAGTGGGTGGTGGGTCTGCACCACACATTCAGGCTCAAGAAAATCTGCTGTCTTCAACATGAATTT
CCAGATCCCTCTGGTCATTGGGGTTCTAGCCAGTGGAGAAGGAAAAAGTGCATGGAAGAGGTACCTCCCCTCTCCTAAAGGGCCTGGGTCCATATATGTA
CCCAGGTGAGCTTTGGCCCACCTTCAAGTGGAATTAATTCAGTCAAATGGCCACCTCTAGGGAAATGGGGTCTAGCTTTGTGTCCAGCTATGATTCTGCA
CTGTGACAAATGGCGAGAGTGGATTTTGGTGGCAGCTGGAGCTCTGTACCATCTTAATGAATTGAGGGAGAGGGCTTCTAGGTTGTGCAGTTTTGACATT
TAGATGGGTTCTGATAGAGATTGTGTCATTCCTGAGCCAAATCTTCTCCCAAAAAAAGAAAGTGTAGATTTTTTATAGTTGTAATTGGCCAGATCAAAGG
TTTGTGAGGACAATAGAAAGAAAATGGACAGAGACAGCTACCTGATAATCAGCTTCTGTACTGCGTTAAAAAGATTTTCTTCCTGAAGTGTTAGTTTTTT
CATTCCCCAGTTTGCTGGGGCACTTTCTCCTTTCACAGCAGCTGACGTACTGGTCTTCATCAGGCCCCAGCCACCACAGCCCCCTCTGCTTTAGTTAGCA
AGCTGTGTGAGCCAGCCGGGCTTGGGGGACACTGAGACTGCCACTCTGTGCTGGCCCTGAGTGTGACCAGTAGGATCTCCTGCCCACCTACTGCCCTCCC
ACCCATGCTCTCCTCAGGCAGGTCCTGCCAGCATGAGCTCAGGGTGTTGGTGTGAACCTGCATGGTTTGATTAAGTTACTGCCCAACCGACTTTCCCCAG
CCTGTGGTGCTTCCGGTTATCTGGCCTGCCCTTCACTTTGGCCTTTCCTTCATGATAGAGCTGGTAGAATTTCTTTGACATTTCTTGCATGATTAATGAA
CCTTCTCTGCTTTCCAGGGCCAGTATAGGTCTTACCCCTGTTTTTATATCCCTTTGGCCATTTGCAATAGAAATTTGGCATTCATCTATTCCCATATTTC
TTGTTTATGAATATTTAATGAGACCGATACTGTGTCAGGTGTTATGCTTAGCTCTGGAGATGCAGTGGTGAGAACAAGTAAATGTAGTTGCTGTCTTTTG
AAGTTTGCTGGAGAGCGGAGAGAGCGCCTGAGGAAAGACAGGTGGGAACCAAATAATCATGCAGAGAAATGTAAATCACAACTCTGCAGAGTGCCCCAAR
AACTGACAACAGGGTCATCTTCCCAGGCAGTGGGTCAGGGAAGGTATACAGAAGGAGGGGGACTTTGGTAGAACTGAAGGATGAGTAGTAGGGTTTTTTA
GGGGAAGGTGAGAAAGGAGGGCCTTCCAAGCCAGGAAGTCCCAAGCATGTGTCCTTCGGTGAGAAGAAGTGGGGATGCTGGAATAGAGGTGGGATTGTGG
CACAGTCATATTTGCAGTTTGCATAATCACCCAGGCTGCAGGCTTCGTTGTGAGGAGCCGCTTGGAGAGGAGCAGTGGTAGATGGGTGTATAGACTCAGT
AGGAGGTGGTTGTGGTCATCAAGGTGACAGATGATGGTGACTTGAATGAAGATGGGGATGGTGAAATGGTAACGGTGATAGTCAAACCCATTAGCATGAG
CTCTGTCTTTATGGATTTCATGAGTTCAAAGGGAGCTGAATTTCTTTTTACCATCAAATCGTTAAATTTGTTCTTCCTTTTTTTCTTGAACTTTTTAAGC
AAGACAAGCAATATGCTTCCTGTTCTAAACTCAACAAATGAARAGAGCATTATTACGTATGCCTGTGTCTAAAATATAGTGTTTTATGATGTTTAATTTA
TATTTTTATATGAATGAATGACTATCAGCTCTTCTCCCAAGCCTTCGACTCCTAGATGAGACTAGTTATAGTCAGGACTGTCTCTAGCAACCTCTATTTT
AAGGGTAACAAGTAAGGGGAGGGTGTGTCCCACGTCTTTATAGACCTATGTCAGACATTATTAATTGATCATAGTGCTCTTTTCTTGCCAAGTCCAGATG
TCATCTCAGAATGCTTCTCCCAAAGCCCTTGAGGCAGCCTATACCAGTAACACTCTACCTGAAATCTACTTGCTTTTCCCTCTATTTTAACAGTGAGTAG
AAACCCACAAAGAAGCTGTTGATGCTGAATCCTCTATACTTCCCCTGTGAAAACGGCAGTGACCCTATGATATCTAAATTTATCTTTCTCTTGTACTTTA
AAATTGGCCTCTGTAAAGTTAGAGACAGTCCACCAGATTACCCTCACTTCTGACACCAACTACTACAGCGTTCAGGAGTCCCCAAGACCACTCTCAGGTT
TGATAGTTTGCTAGAAGGACTCACAGAATTCACTAAAAGCTTCTAAGCTCACTTATGATTTATTACAACAAAAGGATACACATTAAGATTAGCCAAGGGA
AGAGGTGCATGGGACAGAGTTCGGGAGAGTTCCATTGCAGAGCTTCCCATTGTCCTCTCCTGATGGAGTTGTAGACAGCATTAACTCCTCCTGGCGATGA
TGTGTGACAACATCAGCACCGAGTGGAATGTTGCTCATCAAAGAAGCTCACCTGAATTGCGGTATCCAGAGTTTTTAGCAGGGCTTGATCCCATAGATGT
GGTTGACCACCCACGTGGCTGACCTGAGCCTTCACCCCTCAGAGGTAGAGCTGATACTGTGTGACCCAAAGCCCTCACTATAAATCAGTGTGGCTCAGAG
CCCCTAAGTAATCAGACACTAACACAGGTCATTCCCAGGTCTTAGAGATCACCTCCCAGAAGCTGAGGGCAAAGGCTAGACCTCTGTTTGGACAAGTTGA
AATTCATGACTACACAGCCTCTTGGGCTCATCCTCAGTTTAGCGAATAGTGTAATGATCTGATGTCATCAAAAAAACATTTGCTTTTAGAAATTATTTTG
CAGGAGAAAGATGAAATATAAAAACTGAACCTAATCACGGACATTCTCTGGAAGATGGTTAGGGAGGGTGGTGGTTAGATGAGGACAATGGGTTTCTGGG
GTCTGGCTACCTCTGTTCACATCCCAGCTCTACCTGTACTAACTAGTTAAGTGACTGTAGCCCGTTATTTTACCCTTCTCTGCCTCAGTTTCCTCGTTCA
TAAATGAGAATAATAATAATACCTACCTTGTGTTATTATGAGAATTAAACGAGATAATACATATTAAGAGCAAAAGAATGCATGGCATTCAACAAATACC
AGATACTGTTTCTATATTTATCGTAGGAAAAATTTATCAATCTCTTTTAAGTAATTTTCCTTGAGAAAATTCATTGCAGTTTTTCCCTAAATTTTTTCTA
TTAATTTTTATACCATCGTATCTCTTAAGCACTAGTGAAAACGTGAGGTAACCATCTTTCCTGAGAAATCACATTTCTGTTTTGCTGAGTGAGCTCTGAG
TTAGAGAGGTGAGAAGTGCCCCTCAGGGCAGATGCGTTCTGATGAGTCTGCTGCAGATCTTTGTTGCAAATTGTGGGTAGATTTAAAGGCTAAAAAAAGA
TGTGTTGCTTTCCCAAGTCACTACTGAGAAAATCTAGAAGGAGAAAATAAGTTAAATCTTGAGTCAGTAATTTTGGACTCAAGTGCCAAGCCCTGGTGTG
TTCACTCACCTCTTTCGAACATTGGGCCCCTTGGAGACTGTCTATTTGCAAGCATCACCTTGCCAGAGCTAAAACACAGTCTGCCTGCCTGGGGAGGGAC
TAATTGGCCTTTTGGAAACTGTTTAAAACTGAATGAAGCACAGGCGCTTTCTCCGATGGTAGTAGAGCCTTGAGTTCTTGCCAGCCACTAATTGTTCTTT
AGGCTTTCCTGTGAAGGAGGCTGAACTTGAGAGYTGGCTTTTGGTCTTGCCATCTGTGAACTGCCACTTGTCCACATGTGGTGTGTATTAAGATTGTTTT
TGCTGGGAGCATCAGTATTGGAATGTGTTCCAATTAAAATGTGATGCTCTTGTTTTCCACTCTTGCAGGTTAGGCATTCCTTACTCTTGGGTTCCCAAGG
ACAGTGGGAGCCAACTGTATGAGTACCTGCCTGATAGAGCTTTAAAAAAACTGTTAGCTTCTAGGCTGGGCACTCCAGCCTGTGTCCTTAGATGTGGCTT
ACTTATAGGATAATTACATACAGATAGAAGAGACATTGTAAATGCTTCCTAATTGAATGCTTTTTCCCCCCTAGCTTATTTCCAGTGATGCTGATGGAGC
CATCCAAAGGGCTGGAAGATTCAGAGTGGAAAATGGCTCTTCAGATGAGGTAAGGAAGCCTCCCCACTTCCTGTAATGCCACCAAGCACATGATTATAGT
GCCTGGGATATAGCAGTGAAAGAGTTCTGGAAGAGGTAAATAGAGCTTTTCAGAGCTTTGCTTGAAGCAAATGGAAGGGAAATGTCAGTATTCTGGCATG
GAAGGTGCTATTCATAGGGTGACACATACCCTTTAAAAGATCTATGTTAAAACCAGGTAGACACAGGAAGTTGTTCTGCCAGCAGTGGGACCAAAGACAA
TTCTGCCACCCTCTGTGAATGGTCCCGAGTCCCAGTACTTCCTCTGCCAGGCTGATCAGCTTGGCACAGCCATCCGAGCAGTGCCAGGGTCCAGGAGGGA
GATGCCAAAAATTACTGCAATGACAAAATGTCACCAGGAAAAGAGGCTGGTACTGCCTACTGCTCCTTGGGCCACGCCTACTTTCTGGGCTCTCTGGGTC
TTCCTTGCTGCAGGCCACAGGGACTCACCTTGCTTTTTTTTTTTTTTTTTTTTTTGCCACTACCCTCTCTATCCCACGGGGTCTACCCTTTAAACTGCAG
AGTATGGCAAAAACTCGCCAGCCTTTTTCTTCTTTGCTGCCTTTTTACACGGTAGCTCATCATAGCTCTAGTTCCCTGACCCTGACCCTGGGCAAGGACC
CCAGCCACCCTGAGCCTCATTTTTTTTTCATCTGTAAATTAGAAACTGTCTCAAGATTATTGCAAGAATTCAGTGAGCTATGTTTGTGAAACTCCTAGCA
CTATGCCTGGCACATAGTAAGCTTCAGAAGTGCTAGTTATGATGCTATTGATGGTTATTGTTATTGTCATCACTGCCACATTGCCGGTTTTCTCCTGACC
ACCTCCTAATGCAAATTCTCGGTAAAGAGCTATGAATTTAACTTGAAAGCCCATGACATTTGGGAAGTGATTGCATGTTTTCACTCTTGGCCTTAGCCAT
GTACATTTACCTGACCCTTGCCATTGACATGTTAGCCAAATGGAGGCTGAATACCCCTGAATAGGTACCCACATACTTCTTGTTCAGAATGATGTTAGCT
GACCCACATAGAAGAAGGAACTCATGGAGAATTTTGCTTCTGAACCTTAGAAACATCCCTCTCCAAATGGCCTGGCCCCTGGGACTAGATAGCCTCACCA
CCACAAGCTCAGGCAGCCAAGGGTTCTCAGGAGCTAAGCCAGGCACAGAGGCATTGAGTTATTGCTCTCCAGTGCTTGGAAAGCTAGCGGCCACCATGCC
GAGTTTCTACTTTGAGAGCCCATGGAGGCTGTATACCTTGAGACATCTTTCTGCTACCAAAATTTTGCAGAACTTCAGCCCAGCCTGAAATGGACAAACC
AAACTGGACTTTGCCACCCTACGTAAGCACAACTCTGGCCCCTGCCGCATCCAGTGTCTGGAGGAAATACAYACCTCCCAGGAAAGACATCAATGGGGCC
TTCATGTGATCCTTAATCACCATACACTTGGCAGTCAAACACTGCTCACCTGGCCCTGCCATACACCAGAGGATAGGTTCTGGGACCCAGTCAGGGGTTA
GAAATAACCTGTGCTTGGGTCATGATCAGGAGTGGCTTAAGAGTCAGACTTCCCAGGGTTCAAATCATGGCCCTACAACTCACCAGCAATGTGGCCTTGG
GCAGTTCAGTTGACATCTTGGGAACAATTTGGGGGAGTTACTGATTTCACAAGTCATTGCAGTCTGTTGTGTTCAAAACACAGTCCGTCTCAAATTGCTT
CTCTGGAAATATAATATCAAGGATCGAATACTGTTTTAGGTTTTATTTCCACCGAAACTACTGAGCATGATGCTCCATTGGAGCACCTTGGCTGTTTTGT
ATTGGTGGTCTTCAGTTAAAAGTTTCTGGCCAATGGTACTTTCTAGCCTGATAAAAGACCTTGTGGGCACTTGACTTCCAGAGGGAAAAAACAGCTGGCT
TTCTCTGAATTAGGTAAAGCAGTTAGTGCAGTAAAGGACTCACTATATATAGTTGCTTAAAAATTCTCAAACCTCTGAACAAACAAATTGCAAATTTTGT
TTTTGGGTTATTTGTGCTTTTATTATTCAATTGTAAGAGTTTTTTATATAGTCTGGATAATTAGACACTTATCAGATATATGATTGGGAAAAGTTTTCTC
CTATTCTGTGGGTTATCTTTTCACTTTCTTGGTTGTGTCCTTTGAAGCACAAAAGCTTTAAGATTAGATCATGTCTAGTTTGTCTGTTTTTTTTCTTTCA
TTGCTGGCACKTCCGTTGTCATGTCCGAGAAACCATTGCCTAATCCAAGGTTGCTTGGTCACTTTTTATAGTTTACTGTTCCCTTGAGATAATGTCAAAT
TTGTCTTTTATTTCTTTAAACATAGTGTAATGGTTTTATCATCTGCGACCGAGAATTCCAATATGTGAAGTTTTTGTGGCTGTTGTTTCATTGTTTTCCT
CTGGCCTATGCTCCTCATGTAATGTGCTTCTGCGTGTGCTAGGCTGCCTGATTGTGTGCTACTTATTGTTCCTGAAAATTTTTAGGAATAATATAAAGCC
TAAGATGAGTTGCTTTTTGGTAGGGAGGACTTATGTTTGCTTTTGCCAGATAGATACCTTTAAACCAAATACCCATCTTGAGACCTTTTAAACTACCAAA
GTGCTGCAGATTACAACTACAGATTTATGTGAAAGCTGGCTTGTGGTCACCACACCTCAGAGACACTCCCCTGCTCAGCTCTGCTCGGTGCTGTGACAAC
TTCCTTGTAGTTTTTGGTGGTGGAGGTGGTTTCTTCTGATTCCCTCTTCCTTCAGTGTGCAGCCCTTTGGGATCCTAGCATAATGTGGGGCAGGGCTCCT
ATTGGACTTGCCTACCCCAGTGGGTCTTGGGATTTGACTCTTTGTCCCCAACAAGGTCACCAAAATCCAAATTCAATTTTGCTGGGATTGACAAACATCC
TCAAGCCAAAAAGGACTTTCATGCTGCATTTACCTCTGTGCGTTCCCACTTGCCTTTCAGTTTTAATTGGCAATTCCTACAATCTGGTAAGCACTCCAGT
GCTTTTTTCCCACCCCTCCCCCCGGCCAAGACAGAGTCTTGCTGTGTCACCCAGGCTGGAGTGCAGTGACACTATCTCGGCTCACTGCACCTCCGCCTCC
TGGGTTCAAGCAATTCTTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTGAGCCACCATGCCTAGCTAATTTTTGTATTTTTAGTAGAGATGGG
ATTTCACCATGTTGGCTAGGCTGGTCTCGAACTCCTGACCTCATGATCTGCCAGCCTTGGCCTCCCAATGTGCTGGGATTACAGGCATGAGCCGCTGCGC
CCGGCCTCCAGTGCTTTTAAGGAGATGATTTTAATATTTTTCTAGTACTTTTAGTTTTTTCAGTGGGAGGGTTGATCTGAATAACCTAGCCTGCCATTAC
CAAAAACATAAGTTATATCGGGAGTGCTTTTCATATAATGTGACAAAACATTCATTCAACTGGCATTCATAGGGTCATTTCCTAGTGCCAGACAGGCTGA
GCCCTGGATGTAGGATTGAATAAGCCTGCTGAAGTCCCTGCTCCTAGGGGCCTGCAGATGGCAGGGAGAGCCATCAGTAACCAATACAAACACATAGAAG
GATTGCAAATTTTGGTAACTACTGTGGCAAAAACAGAGGACCATGGTGCAAAGAAACAGGAAGAGCCCTATTTAAGATGGGGTCGTCAGAAAGCCCTTAY
CAGCGACAGCCAGTGAGGCCAAGCCTCTGAACAGTGCTTCTCAGACTGTCCATCTTTTCAATTTCCGGTCAGTTGCAGGAAATTAAATATGTGATCCTAC
TCTGCATAACTAGTACACAGAACCCACCTTATGCAACTCATCAAGGAATTGGATATCATCCAGATTGGTCTGGACAGTTTCATGAGATGAATCCACTGAA
CATGTACTTACATGCCACAGGCATGTCAGAACACTGTAAAGGTTTCTTGTACACCTTGTCATGGACTAGTAAACAGTTTGCAGATTGGCATCCATCAGAA
TGGACCATACTTTCCTGCCTTAGAGTTCATCTGGGCCAATCCCCTTCCCAATGCATGAGTTCCTGCATCAGCTTTGCCAGCAGTTAGCTGATCTGTTCCT
GCTTGAGTGTATCTCCAGTAATGGGAAACTTGATACCTCCTTTATAGGACTTTTTTCCTCCTGACACCAATCAATTCTGACACCAACTGAGTGTCCTACA
ATTCAATTCTCACACCGACTACCTGGAGTTAGCGTCAGACTCCACAGGTTTAAGGGCTCAGTCCCACAAGACTGTCCTCATTTCAGAAGCCAGTCACAAG
CATTGGGTCCCCAGATTACCTACATTCCACATTTCTTACCAACTTGGCTACAAAGTCAGGTAGCCGTTACCACAGCCTCCTCCTCAGCTTCCATAACTCC
CTAAAATCACTCACAGAATTMATGAAAGCACTTTTTTTTTTTTACTATTACTGATATATTATAAAGCATCAGTCCCCAACCTTTTTAGCACCAGGGACCA
GTTTTGTGGAAGACAAGTTTTTCCACGGACCAGGCAGTGGGAGATGGTTTCAGGATGATTCAAGCACATTACACTTATTGTGCCCTTTACTTCTATTATT
ATTACATTGTAATATATAATGAAATAATTATACTACTCATCATAAGGTAGAATCAGTGGGAGCCCTGAGCTTGTTTTCCTGCAAATAGACGGTTCCATCT
GGGAGTTATAGGAGACAGTGACAAATCATCAGGCATTGGATTCTCATGAGGAGCACACAACCTAGATCCCTCGCATGTGCATTTCACAATAGGGTTCATG
CTCCTGCGAGGATCTAATGCTGCTGCTGATCTGACAGGAGACGGAGCTCAGGTGGTAATATAAGTGATGGGAGTGGCTGCAAATATAGATGAAGCTTTGC
TCACCCACCACTCACCTCCTGCTGTGTAGCCCAGTTCCTAAGAGGCTATGGACCAATACCAGGGGTTGGTCTGTTATAAAGAGTACAACTCAGGAAGAAC
CAAAKGGAAGAGATGCATAGGGCAAGGTATGGGGGTGGTGGCATGGAGCTTCAATACCTTCTCCAGTTGTATCCATATTTTCAGTACCTCAATATGTTCC
CCAACATGGAAGCTCCCTAAGCCCCATGATTTAGGGGTTTATATAGAGGTTTCATCAGGTAGGCATGACTTTTTTTTTTTTTTTTTTTTTTTTGAGACGG
AGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTTGGCTCACTGTAACCTCCACCTCCTGGGTTGAAACAATTCTCCTGCCTCAGCCTCC
CAAGTAGCTGAGATTACAGGCACCCACCATTGTATCCCGCAAATTTTTATATTTTTAGTAGAGACAGGGTTTCACATGTTGGCCAGGCTGGTCTCGAACT
CCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAACCACCACGCCTGGCCAGGTAGGCATGATTAATTAAATCAT
TGGCCATGGATGACTGCCTCAATCTTCAAACCCTCTCTCACCCTGGAGGTTGGGGTATGGAGCTGAAAGTTCCAAGTTTCCAATCAAGGCTTAGTCTTTC
TGGCAGCCACCCCCGATCCTGCAGCTATCTAGGAGCCCCCTGTGAGTCCCCTCCTTAGAACAAAAGATGTTCCTGTCACCCTTATCACTCAGGAGCTCTG
TGCTAGGAACCACTAACAAAGACCAAATACGTATTCCCATTATACCACAMCCCTAAAGCAGTTAATTCCATTTTTCAGAATCTCTTAATTTCTAGAAAGG
TCTTTTTATTGAACATAATTCACCTGTCTACTGTATTTTCTTTTTCTTTTCTTTTTTGAGACACGGTCTCCCTCCCTCTGTCACCTAGGCTGGAGTGCAG
TGGTGCAGTGATGGCTCAATGAAGCCTCGACCTCCATGGCTCAGGTGATCCTCCAACCTCAGCCTCCTGTGCAGCTGGGCCTACAGGCGCAGGCCACCAC
GTCTGGCTAATATTTGTATTTTTTGTAGAGATGGGGTTTTGCCATGTTGCCCAGGCTGATCTTAAACTCCTGGGCTGAAGTAATTCGCCCACCTCAGCCT
CCCAAAGTTTTGGGATTTCAGCTGTGAGCCACTGAGCCCAGCCTATATTTTCTTTTTTCTTTTTTTTCTTTTTTAACACAAGGACAATTTTAATCCTACA
TTTTCCTATAGTATAACAGCATCCATTGCTAGCTATCTATGAATTGAAACTGCATTTGCTAAGAACTGTGAACATTAAGAAGCTTTACATGAAGTCACAT
GTGTTGATATAGGCACATAGACATCTTCTAGCACCAACAGAATACATACGTAACACATACCGAATGATCTTGATGGATAWATTTGCTCCACCAGGTAATT
CTATTTAGTAAAATTCAGTTAATGCAGAATCCCATTTTTAAAATTTACATCTTTATTACACATTTTTTTATTTTTAAAAAGTCATTCCAGATTGTAATTT
GCATGGCAATAAACAGTGGCTTCATGGATTCTTAGTTTCTTAAAGCTGTCTATAGCAATTTAAAACACAAGTCTTCTTTTCAATTTGCAGCACCTGACTT
AAAGTTTAAATTCATCGAATGTACTCATTAAAACTGTTCAGTTTCTCTTATGAGAAAGACATGTTTCAATTGCTATTTCCCAAACTATCTGTTGAGCATG
GGTGTGTATTGTTTTTATTTGGTTAATAGAATTACTCACACAATTTATAGCCGGAACAAAAACCTCTAGCCTCTCTGAATGGCCTTCCACTCAAAACAGC
GATGAWAATAAATGTCTAAAATGTATCTGGGGTCTGCCCCAACTTGATATCACCAAACGTGTTTCCAAGTTTTTGTTTTTGGTTTTTTGGGTTTTTTTTG
AGACGAAGTCTTGGCTCTTATTGCCCAGGCTGGAGTGCAATGGCGTAATCTCAGCTCATTGCAACCTCTGCCTTCTGGGTTCAAGCGAGTCTCCTGCCTC
AGCCTCCCAAATAGCTGGGATTACAGGCACCTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAAGCTGGT
CTCAAACTCCTGACATCAGGTGATCCACCCACTTCAGCCTCCCAAAGCACTAGGATTACAGGCATGAGCCACCACGCCCGGCCTGCTTCCAGGTTTTCTT
RGAAAATATGGTTTTTAACTCTATGCATAATACTCTACCACGTGATACACCATCACTTCTTTATTTCCCAGTTGTTCATTTCTACCATTTTATACTTGTA
ATTTTTTATATTATAAATAAGATTGTAATGAACACCTTCATCCATAAGTTTTATGCGAGACTGGTTATTTCTTTAGAATAATATCAAAGAAGTGGCTTAC
TGGTTCAAACAGTACATGTGGTTTTAAGGCTTTTAATATAATTTACTGAATAATCTCCAGAGTAGCTCAAAAAAGTCCTRCCGACAGTATGTTATTATGC
CTCCAGAGTCGACTTGCTAACAGTGAAGCAAATTCAACCACAAATTTATTAGATTCTCACCTATCTCAAGATTATCACATCAAAGAAGCAAGAAGATGTA
TTACTGGTGAGGAAGCCAAATTCAAATTCTTTCAGAAAATTCACTCAACTTTAGATCTGTAAAATAGTCAACAGAAATGCTTCCCACAAAAAGTCTACAG
GGCTTTTCCAAAAATAAAAAGAGAGAAAGAGAAAAGTCAGGCCAGGCACGGTGGCTCACGCCTATAATCCCAGCACTTTAGGAGGCTGAGGCGGGTGGAT
CACGAGGCCAGGAGACTGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAGTAGCCGGGTGTGCTGGCGGGTGCCTGT
AGATCCAGCTACTCGGGAAGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGTGGAGCTTGCAGTCAGCACCACTGCACTCCAGCCTGGGCAACAGTGCG
AGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAGAGAAAAGTTAGTACCAAATGACCAGAATTTTTTATTTGACTAAATTCTATTCCATGCATAAGCGTGA
CAGTCTCCTGTGTTTATCTGACTTTGGCAATAAAAAAACAAGCAGCCTTGTGCAATGGTGCCATCTTGGCTCACTGCAAACTCTGCCTCCCAGGTTCAAG
CGATTCTCCCACCTCAGCTTCCTGAGTAACTGGGATTACAGGCGCCTGGCTAATTTTTTTGTTTTTGTTTTTGTTTTTGTTTTTTTTGAGATGGAGTCTC
GCTCTGTCACCCAGGCTGGAGTGCAATGGCGTGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAG
CTGGGACTACAGGCACCAGCCACCACACCTGGCTAATTTTTGTATTCTTAGTAGAGACCGGTTTCACCATAGCCAGAATGGTCTCGATCTCCTGACCTTG
TGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCCAGCCAATTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCA
CCATATTGGCCAGGCTGGTATTGAACTCCTGACCTCAGGTGATCCACCTGCATCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGTCCGG
CCATATATACATTTTTTTTAAAGGCCTGTCTCCCTTTGGCCATATCGAGATTAAGCTCAGGTCATTAAAAACAGACAGATTTTCAAAATCACTTCTTTAC
TTCTCCAAGATCTTCAGTGCTGTCATCATTTACCTCTGGCCAGTTTTCCTGAATAACATCAATTATGTCATCTGTAAAGTCTTCCTGAATGATAATTTCT
TCCTCTTCTGTTACTGAGGCACCACACAATTTTTGAGCAAAAAATCTTTGTGCTTTTTTAAGATCAATTTCAAAAGTTAGAGGCCACACATTCATGTTAC
ATGTTTCTTCTCTGTTGTGGGAATTTTGGCTGTGTAACCTTTTCTGGTATGGCCTTCTTTTCTTTGTTTTATTTGACCCCTTTCACCTCTCTTTTGTATT
TTATTCTTCTCTTCTGCCCCTGCTGTTCCTTGACCCTCATTAATTCCAGCTTCTTGTTTGGGTGAATTTTCTTTTTTTTGTTGTTTTTTGAGACGTAGGC
TGGAGTGCAGTGGTGGGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCAT
GCGCCACCACGCTTGGCTAATTTTTGTATTGTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCTGTCC
CCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGCGAGCCACCGCGCCTGGCCCTATTTGGGTAAATTTTCTACAGTAAGTTTTGCAGATTCATTTGGAA
AATTCTTCTCTAACCATTATCTACATTTAGCAACATTAGGCATGTATTTACAGTAGCCTGTTGGTAATGAACAGACTCCACAATAAAGGACTCACAGTGG
GTAATCAGCATCTAACTCGGCCCTGTTCCTTAGGTCTCCTTTGCACTTGGCCCCATAGGATTCAGAAATGTCTGCAGCCATTTCACAAACCCAGGTGGTT
CCCTCTGCTATTGCCAGTTGAAGCGACACATGGAACTATCATCTGTATTTTCCACTCAGTGTTTCTATTTATATTCTCCATAGCCCCAGACTGTAAGTCT
GAGCCCTCTTCAATGTGACATCTGTTGTTTTCCTCCTAAGACACAGGATCAGTTCCATCATTGTCATCCTTATTGCTGTTCCTTGGACACATGTGAGGTT
GTTATTGAACCTTTTGGACCAAAGTGCTCAGAACCGAACACAGGGCTCTGGGCATGCTCCACACAGCCACAGAGTGGAGCAGGCTCATCCCCTTTCTTGC
TGTAGACACTCTACCTCTTTTTATGGACCCTAATGACTCATTATGAACCTACAATATGCTACTTTGCCCACCCCCCATCTTTTTCACATGTGCTGGTGTT
TAGCTGTGGAGCAGCACTATGATATAATGGAGACTATTTTGGAGTCAAACAAACCTGGGTTCAAACCTCAGCTCTACCACTCTCTAGTTTACAATTCAGT
GTCTCTGTGCCTCAATTTCCTAATGGGTAAAAAGGGAGGGGAAATCCTTCCTTATACCATCTGAGCTTGTCCTTCAGTAATTTGTATTTTGTATCTAAGT
GWAGGATCTTGCATTGTCTACATTGAATTTAATCTCATTAGTGTGTCTCATAATTCCTAATTGTCAAGACTTTTTGGTGACATCTTGATTCTGTCACCTG
TCCTGTTAGCTAACCCACTAAGCAGCTTTATTTTACCTTCAGATGTGCTTGTCTTGCCATGTGTGTGCTTATTCAGATTATTAATTAAAATGAGTGTGAC
CCCTGGGTGGATCACTGGGGACCTCCCTTACAGCTCACTTGTATGTATCAATTAGTAGATGGTGCAGCAGAGGGGACAATCTTTCAGCTTTTTACAAATC
TATCTTCCTTAGCATTGGGAGGACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGTGCAGTGGC
GTGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCGCCTGCCACCACACCT
GGCTAGTTTTTTCTATTTTTAGTAGAGACAGGGTTTCACCGTGTCAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCACCTCGGCCTCCCAA
AGTGCTTGGATTACAGGCTTGAGCCACCGCGCTCGGCCGGGAGAACTGTTATACACTGTTGGAGGATATGAAAATTACCACAATCTTTTGGGAAGGCAAT
TAGCAATAATTAAAAATGTGTATACCATTTGGCAAGACCTTCTATTGCTAGGAYGTATATTGTAGCATTATTTAAAATAGGAAAAAAACTGGAAACAGCA
TCAATTTCTTTCAGTAGAGGAATTATCATGTAAACTATGGTCCATTTACACAATGAACTGGTTAGTGGCCATTAGAATGAGGTAGACACATATGTACTAC
TACACAAAAAATGTTTAAGATACATGTTAGACATAAAGGCAAGTTCCAGAATGACTTGTTTAATATCATGCCATTTTTCTTAAAAACAAAAAAATGGGAA
ATATGCTCGTCAAGATGCGAGAAAATTTCTGAAAAGATACWGAAGAATATAATAGTAATTGTTTCTGGAGAATGGAAATGGGAGCTCAGKAAAGAAGCTG
GAGCTGGAGGACCTTAACTTTCCACTTGATGCCYTCATATACTGTTTACATATTTTACAAGCTTATATTCATTCAACTGAAGAGTTGAATTTTTTAAAAG
AAGAATCTATGTAGTTGTTAAAAAGAACAAAATAGATCTATATGTATTGACATAGAAATATTCCCGGGCTGGGCATGGTGGCTCACGCCTGTAATCCCAG
CACTTTGGGAGGCCGAGGTGGGYGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCAACTAAAAATAGAAAAAATT
AGCCAGGCGTGGTAGTGGGTGCCTGTAGTCCCAGCTACTCCAGAGACTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGA
TGGCACCACTGTACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAATAAAAATAAAAATAAATATTCCCAAGATATTTTCTTTAGCAGAGA
AAAATTTTTCAGTGTAATATCTATACTACTGTCCCATTTATGAAAACAAATTATGTATATGTATATATAGGCTTATGTATGTATATATATTTTTGTATGT
ATATATGTATGTGAATGTGTGATATGTGTGTATGTGTGTATAAAGTAAACACATCTTTGTAAATGCATAAAAAGATCTGGGATTATTCAGACCAATCTAG
TAGCATGGTTATTAGAGGGAAAAGAAGTAGGTTGGGTCATGGAGGATGGGGGAAAGAAAAAGATTTTAACCTTTGTGTAGTTTCACATTTTTATAATCAG
CTTTCATGCTTACATTTGTAATTTTTTAAAAGTTTTAGTTTGTTTTTTAAAAGAATCCATTTTCCCTACTGCCATGTTATCTCAGCAGTTTAACCTAGGA
ACTGAAGTAAAATCAGCGTAACTGCATTCATTCATGTATTGAACTCACTCTGGAATAGACTCTATGAAAAATCAAAGGAATTATTTTAAAACTGTGGATA
CCATTTGTATTCTGAGTTTCTGTATTTTGTGGATTCCCTGCTTAAAGTCAAATATTTGAGAACATTCAAATAAAATCAGGGTGTCATATATGGATTTTGA
TTACATTATCCTCAAAATATCCTGGCCAGATTCAGTCTTCCTCCGTCACATCCCACAAGTATAAGTAGGGGGTGGGGGAAGATAATGAAGACAGTGAGAA
GCTTTGGTGGGCTTTGGATCTGATGCAGAAATGATTCAGGACTTTTGGGTCTCTGTGGGCATGTACAGGCCTGAATGCAGCATGGAGCAACTTGAGTTCA
TTTCCCTCTGTTGTAGCCTTTCACAAATGTTTACCTAAAGGGCATAAAATAAGCATGAGTGTTTGCAATGTTAAACTTCAGTTATCTGGAAAGTGTACTC
ATCAGCCTATTTTCTCCTAACTTTCTAGTTGATGTCAAATGAATAATGTGTTCCTGTTTCATTGTCACCTTAAACTCCTATAGACAGAGTTTCTATATCT
CCAAGATCTTTTGTAAAATAGGTGACACTTAAATTAGTTAGGATTTATTGTAGGTTAAAACCACAATTAGGTACTACTTCACCAACTCCAGAACTGCAAG
GACTGAAAAGCTAAAAGTTTGGTCAGAGAACATGGAACAACTAGAGCTCTCATATATCTTGCTAATAGGAGTTTAAATTGGTGTGTGTATCCTCTTTGGA
AAATTTTTTGGCAGTATCTGCTAAAACTGAACACACATACGTCTGTGTCACCGGATGTATACCCAACAGAAATGAGTACTTGTATCCACCAAAAGACAGA
CTCAAAATGGTCATAGTGGCTTTATTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATC
TCAGCTCACTGCAACCTCCGTCTCTTGGATTCTAGTGATTCTTGTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGCGCCACCACACCTGGCTAA
TTTTTTGTATTTTTTGTAGAGACAGGGTTTAGCTTTGTTGGCCAGACTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCTTCCCAAAGTG
CTAGGATTACAAGCGTGAGCCACCAAGCCCGGCCAGTGGCTTTATTCTTAATAGCCAAAAACCAGAAACAATCCAAATGTCCATCAATAGAAGAATGAAT
GCGTAAATTGTGGTATTCTTCCAGTGGACTACTACATGGCCATGAGAAAGAGTGAACCACTGCCACACCAGTAACACAGGTGAATGTTGCAGACCGAATG
ACAAAGGATAAACGCCTGACTCAAATACACATCATATGATTTCATTTTCGTAACGCTCAAGAGCAGGTAAAACGAATCCATGGTGATAGAAGTTAGGACA
GTGGTTCTCTTTTGGCATGTGGTTGAGTAATGACTGGGGAAATGAACAAGGGAGCCTTCTGGAATACTGAAAATATTTTCTATATTGATCTAGGTAATGG
TTATGAGGGTGTATAAATGTAAAAAAAAATTATTTGGCTGTACACTTCTTTGTGCCCTTTACTGTCCACTAGTACTACACATCATCGGAACCTGGAGCTT
GTGTTCAGAGTTCTTCTTCAGGGTCCTGGGAAAAGTGGGATTTTTTTTGTTGTTGTTTTTTGTTGCCTAGTCTCCATTGCTTTTGTCAGTTCCTGCATGT
ATTTTTGTCTTTACACCTCATCAAATGTGGTTTTAGCAAGGGATGGGAAGTGTCTTGCTCTGTAAGACTCACAACATTTTTGGAGTTGGGTTATTTCCCC
TGTGTTTTGGTTAAGTATTCAGTGAAGAGGAAAGTGAAATAGGTAACTTTTATTTTAATTTTTTTTAATTTTTAATTTTTTTTCTTAAGAAACAGGGTCT
TGCTCTGTTGCCCAGGCTGGAGTGCAGTATCACTATCATGGCTCACTGCAGCCTCAGCCTTCTGGGTTCAAGTGATCCTCCCACCTCAGCCTTCCAAGTA
GCTGGGACTACAGGCACACACTACCATACCTGGCTACTTTTTATTTTTTAATTTTATTTATTTATTTATTTATTTCTTGTAAAGACAGGATCTAACTATG
TTACCCAGGCTAGTCTTGAACTCCTGGCCTCAAATAATCCTCCCAACTCGGCCTCTCAAAATGCTGGGATTATAGGCATGAACCACTATGCCCAGCCCAG
TAATTTTTTAATCATTAAAGAAAACTCCTCATATTGACAGTTGGTATTCAGCATGCCAGTGCCTCTGGAGTCCCATCTCTCCCTCTGCGATGCTGAGCAG
CACCTTGCGCCTCCCTGTGGTGTTCCATTCTACACTTGGCAGTGTTCAAATCTCTGGGAGGCAGACAGTTGCAAGTGCTTCAGAAGCCTAGGGCATGCAG
GTCATTTTCCATGCCTTTGAATCCCCTTGGAAATCTGCTAAAACCCCTAGACCCCTTCTCAGAATAATGTTTTTAAATACATGAAATTAAATACTAGGAT
TACRAAGGAAAACAGTTGTATTGAAATAATTATCAACATGATTTTTGAAACCTAATTTATGATACAGTAATATATATGATTTTAAAATACATTAAATAGG
CCAGATGTAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGTGTGGATGACTCGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGA
CGAAACCCCGTCTGTACTAAAAATACAAAATGCAGTCAAGTGTGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCGGGC
GGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCAGGCGCC
TGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGTGGAGCTTTCAGTGAGTCTAGATCGCGCCACTCTACTCCAGCCTG
GATGACAGAGGGAAATTCTGTCTCAAAAAAAAAAAAAAAGCTGGTGTGGTGGCACACACCTGTAATCCTATCTACTCGGGAGGCTGAGGTAGTAGAATTG
TTTGAACCTCAGAAACAGGTTGCAGTGAGCCAAGATCACGCCGCTGCACTCCAGCATGGGCAACAGAGCAAGACTCCGTCTCAACAAAAAATAAATACAT
TAATTAATTAATTATAATACATTAAATAATGAATCTAGCAGCAGGCCTCATAAATACTGTAATTTTGAAAAGTGAAGAGTGTAAACAGTATTTTAAGATA
TCAGCAATCACTATAATGAATTCTGAAAATATCTTTGATTTTTTTTTTGTCGGCATGGTTACCAGAACTGTCCATTCTATAGTTTTTTTGCATATATTCA
TAACTGAATGAAACACTAAATTTTAGTTAGAACTTAGGGAAAATAAAGTTATATTTGTTTTGCCCCATCCAAGTTTATGCCCCGCTCTCTGTGCTGAATT
CTTTTAGAACTGGCATAGAGCATTGTTTCTCAAAGTTCAGTTTTCATCAGAACCACTTGTAAAACAGTTGCTGGTTCCCCACTCATAGAGATCTTAAGGA
AGAAGTTTACGATGGGCCCAAGAGTGCACATTTTAACAAATTTGAGAAGCACAGAACTAAGATCTGTTGCTGCTACCTGAAAGAAGCTTGTCTGTGCCAT
CCACGCATCTCTTGGAGGCCCCAGAAGTTTAAACGTCCTGATGACAGCTTAGGAGTKTACTCTCTAGGCGAGAGAGAAAGACGTTCATGACAGTGTTGCT
TTTAGTAGAACAAAGAAAAATAACTGTGATAGGCAACTGATCAAGCACAATAATGTGCAATTATGCAGTGAATACATGGAGTTGTTATGATGTAAATACA
TATTTATTAATAGTCATAGTGGGAAAATGTGATACCAAATAGTATGCCTATTGTGATCTCTGTATATGCAAATGAAAAATTGTGGAACAATACACGAAAA
TGTTAATTTGAAAATTCAGGTGATTTTTGTTTAACCTTTGTTTTCTAATAGGGCTAACAAGTTTTTTTTAATGTGTCAAGTAAATAAAAGTTTTAGAAAT
ACTAAAAAATAAAAAAATAAAAAGATAAAAAGTTTACTCTCTAGGCTCTGCTCTAGCTTTGTAGGATCCAAGGCCTTGGGACCATGACACCAACCACTGT
GGAGTCTGGCTGAGGCCAGCTTCCTTGGCTGGACTCCCCCTATGTCTGGTCAGCTGATGCCTGAGGCTGGCTGGTGGGTCATGCCATCGCTGCATGCCCT
GCAGTGTCATAGTGGAAAGACCTGGAGACCAGGAGTACTGCCAGTAGTTCATGGTTATAAAGTAAATAACTGTTGATAATGAATCATGCGAAAGTCCTAC
AAGGAACAAAATCCAATGATATGCTTTCACCAAAAGGTAAAAACTAAGAGGTAATATCTTGAATAGGTAATCAAAATTAACATCACCACTGAGGAACAGA
TGGGTATTTTGAAATATGATAAGCTGAGGACAAACCTCACTTACATGGTATTCCAGCCAAGTCTGCATACCCTGAATCTAACTGGGGAAATATCAGACAA
ACCCAAAATGAGGAGGGAAGATGCTGCATTCTTCAAAAATGTCAAAATCAGACACAAAGAAGGGAACTATAGACACTGGGGCCTACTTGGGGGTGGAAGG
TAAGGAATGAAAAATTACCTATTGGGTATTATGCTGATTACCTGAGTGACAAAGTTATCTGTTTACCAAACCCCTGCAACACACAATTTGCCCATGTAAC
AAGCCTGCACATGTACCCCTTCAACCTAAAATACAAAATGGAAACAAAAAAAAAAATAGTGACAGTCAAAAAATGTCAATGTCATAAAGACAAAGAGTCA
GTGGAAATGTTGCAGATGAAGGGAGTCTAAAGAAACACAATGAAATGATCCTGTACTGAAGAGAGAAAATGCTTAAAATGACATTGTTGACTCAACTGAC
AACATTAGAATACAGATGGCATCAATGTTAGACTTAGAAAAGTTGATAAAGCTCTACTGTGGTTACGTAAGAACATAGCCCTACTCTTGCGAAATACACA
CTGAAGTATTTAGGGATGAAGCCTATTATTTTACATCTGAGTCTTAAATGGTTCAGAAAAAATATTGTATATGTGTGTATGTTTGTGTGTGTGTTGGGGG
TTGTGAACAAATGAGCCAGTGGGGTAAAACATTAACAGTAGGTAAATCTGGTAAGTAAAAGGTAAACATGCTTTTTTACACTGCTCTTATTCTTGCAGCT
TTTATATAAATTTAAAATTATTTCCAAATAAAAATTCATATGTATGTAGCAATAGCTAGTTTTTTAAAATTCCAGAAAATCTGATAAAAGCAAAATAATA
CTAAAATTTTCACCTACGTTTTTACTCCTTAATAGGCTTAAAAGGCAGGACATAAAAAAGGACACAGAAGATGATGTAATGGTTAAGATAAAAAAAGAAA
AAAGAAGAAACCTCTGGAATTGGAACTGGTTTCAGTTCCAGCTCCACTACTTATTATCTCTGTAGCCTTGGGCAACATGTTTAAACTCTCTCAGTCTCAA
TTTCCTCATCTGAAAGTAGGGGGATAAAATAGAATCTATCTCATAAGGTTGATGGGTGGTTCTGGAGATAATGCATATAAAATGCTTAGCCTAATACTTG
GCATTTAGCACTCTCTCAATGCATGTCAGTATTTCCAGAGCAATGACAAGGACAGAGAGCTTCCCGTTTCATTTTATAAGGTAACATAACCCTGAAAGCA
TGACAGAAATACAAATAGAAAGGAAGCCTATAGATCTATCACACAAATATGATACATAAATCATTTGTTAAAGTCAAGCAGTATATTAAAAGAATACTAT
ACCATGACCTAGTAGGGTGGATTCCAGAAATGTAAGAACCTTTCAATGCCAGAAGAGCTATTACTATATTCATTATTCATTCATTACATTACATACTGTG
ATTCCCCCCATTTAACCTGTTCTCTCAACAGTTGCCCCCCAAAAAAAGCTTTTGGTAAATTTAATTTTCATTCCTGAGAAAAGCCTCTTTGTAAACTTCC
AATTGAAGGAAACATCTTTAGCATGATAAAGAAACTGACCACAGACATCTAGTAAATCGCTAGAGGCATGTCAAAGTCAGAGAGTATGTTCCAGTAGTCT
GTCTTACATACGTGGCACGATGGAGATATCAACAAAGCTGCAATAGAGTGACATCAGTCATGYGGGAAAACTGACATCTAACACAGTCTCAGCCCAGACC
ATGCAAGATTCAGACATTTACTGTAAACAGTAATTTAATGCCTTATAAGGATTGAGAATGATAGAGTGTTCAATAAGTAGAACTGAGTTAATTGATAAAT
GATTTGGGGAAAATTGATCCTTCAGAGCATACATCAAAATAAATGATAAGGAATGAACTATAAAAATGAAGCATCTAAAAGAATATAGAGGTAAACAGTT
TCGTTAATGCTGGGATGGGGGAATTTTTTATAGTAATTAAGCAAAAGCCATAAAGGGAAAAAAATGAAAAATTTGCTTATGTAAACATTTTGAAACATCT
ATGTGGCCAAAAATACCATAGAACAAGTTTAAAAGCAAAAATTTGATCAGAAGAAATTATTTGCAATCTATTTCAAAGATTTCACAAAAGAATACAATAA
TCAGAAAACTGGCAAAGGACATAAACAGGTAACCCAAAAAATAATTGTAAATGACCAATAAAAATATGAAGAAAAGCTTCAATCTAAATGTTATACAGGC
CAGGCGTAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGACCAATAATCACTTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGTAAACCGC
ATCTCTACTAAAAATACAAAAATTAGCCGGGCAAGGGGGCATGTGCCTGTGATCCCTGCTACTCAGGAGGCTGAGACAGGCAAATCACTTGAGCCCAGGA
GGTGGAGGTTGCAGTGAGCCAAGATGGCACCACTGCACTCCAGCCTGTGCAACAGAGTAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAATACATTTTG
CCATTAAATTGTAAGGAGGCAATGTTGACAGTATAGGGAAGATGGTACCCTCAGCCATTGCTGGTGGAACTATAATTTTGTATCAGTCCTCCTAGATGTC
AGATTGGCATTGTGTTGCAGATCCTCGACAACATGCATACCCTTTGACAAAGAAATTTAACTTCTAAGAATTATCCTAAAGAAATAATTGAATAAGTAAG
TATGCAAACGTGGAATTAGAAGATGATAAATTTTATTTACAATAACAAAAATTGGAAGCAGCCTAATTGTCCAGTATTATTAGTTGTATCTATATAATAA
AAGAGTATAGAGCCAATAACAYAGGATTATATTTATTGACATGTAAAATAGTTATTGGCAAAGCAAGCCACAAAACTGTATATTCAATATAATTTCATCT
TATTAAGAAAAATACGTATGTATATGCATGGGGAAAAAAAAAAACAGAAAAAACCTACCAAAACATGGATTAATTCTAGATGAATTGTGCCTGTTACAGG
GGTAACAAAAAGAAGGGGGTTCCTCTAGGGGGCACCAACTCCCAAATACTGTGGAAGTTTCAGCCCAGAAAGGAGAGGTACTTGGTACCCATTTTAGGAA
TAGCTGAACTCACCGGTTCACTGGTTATTTTTCCTACACCCCAAAGGCCTCCTGGATGCTTCCACGATGTGAATTTAGACTGGGTGTCTTTTCTAATGAG
AACATGCAGCCACAGCCCTTGGGTGTATGCTTTTAACAATGATTTTTCTGGTTCTTTGGCCGCTGGTTCATTGCCAGGTTCATGTTTACTTTCTGAATAA
GCCTCTTAATGTCACAACTTTGTTCCATTACAGAATGCAACTGCCCTGCCTGGTACTTGGCGAAGAACAGACGTGCACTTAGAGAACCCAGAATACCACA
CCAGATGGTATTTCAAATATTTTTTAGGACAAGGTAATTATGCTATTGTGGTGGTAGGGAAGAAAGGGTATTCAAAATGGAAGTTAGTGTTCATATAACT
TCTGGTATCCTATATGAGTGAAACTAGCCATTTTAGGAACACTAACATCAGGGCATTTCACTTCAAGGTCAGTAGTAAGCTTTGTAGGCTAAAAGATTCA
GAGTCTCAGCCCTAAGAGTTTTTGCTCATAGTTTCCTTTTTTTATGGACAGTCATTTTTATCCCTGGAGAGCTAAAGATTAGATCATCTGAAAAAGTGAT
TTGAGAGATAAGACGAATTTTCCAGGGTGGAAAAACAACTTTAGACCTAACAAGGCAATTGCCCTGTCTATATTGGGTTTTGAATACTTAGTTCAAGGCA
ATGAGGGAAATAATTGGTTCCCTGAGCTCCAGGGCCTGTATAGAACTAGAGAGACATTAGACTGTAGACTCTGGCATCATTCATACATTCAACCATGACA
AGTATTTATCACCTACTACATGCCAGGCAATGTGCAGAGCAATGGGGATACAGGGGCAAAGACACTCATGATATGGGTTTGGATCCTGATCCTGCCATTA
TTAATCAAAGGACSTTACACTAGCTACTCTCCATTTCTCTGAGACGCAGTTTTCCTTTCTGTAAAGTGGAGATATTACGAGTGCATATCTAGTAGGTTTG
AATGGAAGTTTCAATGAGATATGCAGGAATAATACTAAGCCCAGTGCCTGGCACATACCAACAGCTCAGTCATTAATAGCTATGTACATTTAAAGTGAAG
GGCTCAAGTGAAAATATACAGAAAGGTGGAAAACAGGAGTGTGGTTAATGACAAAAGATTTGGAGAATGGAAGAATAATCACTATTTTGAGATTCAAAAT
GAGTTAGAGAAATTGCTTCTCAGGCTAATGTATTCATTTGTAGATATGATGCTTGAATGATGAAATGAGAGTGAGCAGACCTAAATGATGCCTTTAAAGA
AACCTGACTGTGTATTATTGTAAGAAGTTCCTTTATTTGGCCAGGCAAAGTTTATTGGTGTGTGGGGGATACAGAAGCAGTTATTTTAAAAAAGGAAATC
AGCAGGAAAACCGTCATCTTCCCAAACGCTTGCAAGTAGTGCTCAGAGCAGTGAGGACTTTAGAGAAAAATGGCGCCATGAGTTTGGATGCCTTCAGGTG
CAGTAACAGAAAACCTGACTCAAACTGGCACAAACAGTAAAGGATATAACAAAAAACCCAGAGGCAGGGCAAGCCCCAGGCTTGGGGGATTCAGAGGCCC
AGTAATGTCAAGGACCCAGGCCTTTTCCGTTTTTCTGCTTCCCCATCCTTAGTGTGGCAGCTTGGCCCTTGGGCTGGCCCTGTTCAGGGTCACAAGATGG
ATTCAGGAATTCCAGGCATCACTTCTAGACTCCACCAGGTCCAGAGGAAGAAGAAGRCGGTATTTAGGAGTGAGGAAGCCTCTCTAGAAGCCCCTTGGCA
GATTTCTCCAGTSTCATTGGCCAGAATTTGGTCACATGTTCATTCCTGAACCAGTCACTAGCAAGGGGCAGAGGAATACATGATCCCCCGAGAGAGATCA
GGGTCCATCCCAAGCTGGCTTTGGGATTATTGTTCCCTGAGCATGTGGGAAGGGCTGGACACCACCTGCAGTGTCCTCTACCATCTGTGGYTGGCAGGAT
CAGTTGCATTCTCACTGTTCTAAACCTTTCTTTTCCAGTCCATCAGAACTACATTGGAAACGATGCCGAGAAGAGCCCTTTCTTCTTGTCCGTGACCCTT
TCTGACCAAAACAATCAACGTGTCCCTCAATACCGTGCAATTCTTTGGAGAAAAACAGTAAGTATATGGCTCACACTTGAAGCAAAATTTATGCATCAGT
TTCAGGAGATAACCCCTGTGCTGTGGAACTGTGTGCCAGTTTCTTCCAGGGCATGCCTCATAGTCTTCTCGTGATTCACCTCTGAGAAGTTGACAGTGCC
TTTGCCCAAAGCACCTTATTTTCTGCACCAGGAGACTGTTTTCTGGCCTTTTGAAAAAAAAAAACTTATTTATTTTATGTTTGCTAATTACCGCATTCTA
GTCTCTTCTGGTTTAAATATTTTCTTTGGGATGACTTTGTCTCTTTTGGGCAAAGAATCAAGCCTTTACAATTTTTTTGCCTCCTCCTGCTCCTCTTGTG
GTTGGTATTTGTGCACATGGGGAGAGGGCTTATGAGACCTAATGGTCACAGAAGAGAACTGTGGATCCACATGGGCCCTCTGTCTGACTTCCGTTGTGGA
GTGACTGATCCAACCTCTGAACTCGTGACCACGGAAGTATAGTTGATTCCTCTGGCTCTTTTGGGTCATTGGAAAGCATTTGCCCCTGAAACCCACAGTG
CCAGCTATTTGCCTTTTGTTGTAAAGTCACTCCTTGTCCTGATCCCAGGTCTCCGCTAGTCTCTGAATCTCTTAGAAGCTCTCCATCCCTTCCTGGGGCA
CATCCGCTATGAGCTATAGGTCAGATGTGAGGAGGCAGGACCATTGCCATAGGCCTGTGTGTGTCATACTTCTGGTCATTAACATTTGCAGCCACTGAGT
TGCTACCCTTCTCCAAGTTCAAACCAGGTGCTGCCTGGACTTAAGATTCCCGTGCAAGGCCATGCCCGGGAAGGGGCCTCTGGTTCAAATGCTCTGAGGT
GCCTCCAGGTCTTCCCTTGACAGATTTACAGCATCCCACAATGCCTTCAAAGCCTGTCCTTGGCATGGGGGCATCAAGAGCCCTGGCATCCACCTCTTGG
CTGGCCTTTCTTCCTTCACCCCTTCCTTCCTCCCTCCCTCCCCCTCCTTCACCCTCCCSCTCCCTCCCTCCCTCCAAGGCAGGAGAGGGTGGGTTTCCCC
CTTCTTCTACTTTTCTGGAATGGACTTTCTCAATGTCCATATCTTCTTCCTCCAGGAAGTAGCAATCACATCCTCACTGAGATGGCTGCCATGTATGAGG
AGAGACAGAGTGGGACAAATGCAGGGGGAACATTTGCTTATTTTAATTTCCAAAGATACTGTCTATATGACATTATAAGTTGTGATAAGCACTCTGAAGA
CAGAGAATGACAGAGCATGCTACAGGAGCCCCACTTAGATGAGACAGTTTAGGGAAAGCCTCCTGAGGCGGCGCCCAGGAAACAGAGGCCTGAAGATGGA
AGGGAGCCAGTCATTTGACGAGTAGAAGGGGAATCAGAGAGTGTTCCAGGTAGAAGGAGCAACAAATGTGAGACAAACAAGGGTTACTCATACCTGGTAT
TAGAGAAGCCAAGGAGGTGGAATTTAAATCCCAGGACTGCTGTGAAGGCAGCATAGGGGCAGGGCATGATGAGAAGTGCCAGTGCCTTCACCCAACACCT
CTTCCCTTGGCCTTCAGTTATGTGCCAAGGACAATGAGAGGGTTCTCAGCTGTTGATGGAAGTGCTGAAGGGAGGGAGGAACTGAGAAATCAAAACTGAG
CATTGGCACAAGGGGTCAGTTATTAAGCCCCTCTTGGCCTGAAACTAGTGCTAGAGGCTATGGGAAGTCCACAGAAATATGTGATTCAACCCTCGCTCTC
CCAACTGCCAGCACACATCTTCTAGGTTATAAAGCAGTTAGAAAACTAGCTAGGCCCAGCACAGTGGCTCATGCCTGTAATCCCAACATTTTGGGAGGTC
GAGGTGGGAGGAGCACTTGAGCGCAGGAGTTCAAGACCAGCCTGGGCAACATAGCGAAACCTTGTCTCTATGAAAAATAAAATAAAAACTTAGCCATGCA
TGGTGGCTTACACCTGTAATCCCAGCTCTTTGGGAGGGTAAGGCAGGAGGATGGCTTGAGTCCAGGAGTTCAAGGCTGCAGTGAGCTATGATTGTACCAC
TGCACTCCAGCCTGAGCAACAGAGCAAGACCCTGTCTCTACAAAATCAAAGTAAGAAAGATAAAAAAAAAAAAACTAGCTAAACATATAACTCTACTCTA
CACAGTCTTGCATATCTCTACTGTGTTTCTTCTAAATACACAGAAATGGCTCACACAAATAAAATATGAAAAATGATTTGTACTTATTTTGAAAATTATA
TCCAAACAATACAGCAAGTGAAAAGAATCCAACTACTCAGAGATAATCACTGCAACAGGCTTCTAGACATCCGTCCCTGTAGACACACACCTGCACACAC
ACACCTGTTACACAGGGTAATCTTCGATGTGCACTTCTGCATCCTTGCTGTGCTCACTGGGTGTAGCCTGATACATACATGCACTTGACTCTACCTGTGC
ATTTGATGCTTCCCCTGAACACAGAACCATTTTACTTAAACATTGACTCTGGAAGCTACAAAAGGGAGGAGATGAGGAAGAGCTTTACCAGTTTGTGGTG
AAGAAAAACACAAATCCACAATCCCAGGAGCCCTGAGTTTCGCACCCACATAGGCAGCTCATGAAGGTGTCACTGTCACCCAGTGCAGCACTGGAGCCCT
CTGCTGTGCCACACATTCCCCCGAGCTGCCCTTGGCTTCTCTTTAAAACTGCCTTTGGGCTGGGCAGGGTGGCTCATGCCTGTAATCCCAGCACTTTGGG
AGGTCAAGGCAGAAGGATTGCATGGGACCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACCCTGCCTGCTACAAAAAAAAAATAAAAATAAAACT
GCCTTTGGAGTGTTGGGTAAGAAGAAAAGGTAGTCAAGGTAGGATCTAAGCTAGAGGGGCAGATTCAAGACCATCTCTTAGACAGGGAATGCAGTGTAGG
CTGGAGCCAGTTAAAAAGCAAAGCCACAGAAGAACTCGGGTTTCAATGGGAAGGACCTGTAGAATCAGAAAACGTGTATTTCTATCGTAATATTCATCTA
TAATTGGAAAAAAATTTAATCTCTGTAGCACAAACTACAAAAAGAAAAGCTCAGCCCAGTTTCCTTGGCTAATGGAGAACCCATAAGAAGGGCTCTCTCT
AGTGCAACTTCTCATCCTCAGCTCCAAAGACATCCTCCTCCCTGGGCTGGAGAGGGGTGAGAGTAGCAGGTCTCCAAGGATGTAGTTATGAAAGTTTTGT
TTATGCAACGAGACCATGGGCTTGGAAAGCTCAAAGAACTCCTCTCCCTTGCCATTGTTCAGAGCTTGGACAGATGAATTGGCAGATGTGTCCCAATAGC
ACAAGAAAAATCATATTTCTTTGCCCATTCCCTAAAAGAAATGTTCTTACCCTCCTCTAGCCGTTTGTGATGACAATTTTATTACTAATCAAAGTCAGGA
AGAAAGTTTTAAATGTGTGGTATATGATAATCCCTTTTGCTAACTGTGTAGTGTGAACCTTTGTGGATCCTAAATCTATGTCACCTCTTCTTAGACGATT
AGGAAGAGAATAGCACTCATCTGTTCCTGGGTGGTGTGGACGGGAGACTGAATCACTTAGGCAATTCTTCATTTCCTTTTTAGTCAAAATATATTCATTG
AGTATTCCTATAATGAGTCACAGTTGGTACTCATTTAGGAGAAAGGAGACTTTAAATAAGAAAACACAGATAAATGTAAAAGTGTGCATTATGAAAATGT
CTCTGAAAGATTCAGGGGATTTCTAGTTCAAAAAGTTTTTGACTGGGAGACATTATTTTTGGGTCCCATTGAACATGTGGAGACTGTTGTCTTATGGTCT
TTGAGGCTTATTTGATGCTTGGCTCAGAGACCAAATTCCCAGCCGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGACAGGCAGA
TCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAATTAGCCAGGCATGGTGGTGCATGCCTGTAATCCCA
GCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCATGAGCCGAGATCACACCACTGCGCTCCAGCCTAAGCAACAGAGC
CAGACTCTGTCTCAAAAACAAAACAAAACAAAACAACAACAACAACAACAACGAAAAAACAAATTCCCTTCTCATCTGGTTCAGATGGCTCAAGTGCTCT
CCATAATACCTAAGACACTGAAGACCTGTATGTTGAAGGCCATGCTGAAATCCACACATGTTGGGGTGGAGAGATCCTGGAAGTTGCTATCAAACCTGAG
CAAGATTGTTTTCAGTCATAGAATGTGTTTATTCATATACATTCCCCTTRAGGAGAAAGAAGAAAGACTGGGCATGGCTTTCTTTTGAATGACCCGAGAG
GCTCTTTTGGAGAAGGAAGTTGTAGAACTTGTCACTGATTTGATGTTTGGACTTTTCCAGGGTACCCAGAAAATATGCCTTCCCTACAGTCCCACAAAAA
CTCTTTCTGTGAAGTCCATCTTAAGGTGAGTTCTAATGGGTAGAAACCCCACACATGGATTTGGAGCCCTTTATACACTGTTTTTGCCTGTGATCATTCT
GATGTTACCTTTCCATTGTCTTGAGCCTTGACTGTGTGTAAGATGTTTTGCTAAGCACTTGACATGACGTGCATCACCTCGTGTCATCATCACAGCAACC
CTGTAGGGCAGGTGCTGTGACTGTGCCATTTTATAGATGAAATGGAGGTTCAGAGAGAGAAAGCCAAGATCATATAGCAAGTGTGTAGTGGAACCAAGGC
CTGAGTCCAGGTCCAACTGATTTTGAGCATTGCTCTTAGGCATCTCTCCTTACTGCATTAGTTGCCAGCTTCTTTTTTCTTGCATGCACTCAGATACTTT
AGTTTTATAAAGATAATCAAGAAATATTTTTCCTTCCATTTTTCTACCTTGAAATAGAAACCCAGATGTCAGCAAAGAATGTACTTATTCTTCGCCAGAC
AGAACGTTAAATGGATGGAACATCTGGCTGCTTCCTGCTCAGCCACCTCTCGTGCCCCCACCCTCCCACCTCCCTCTCATCTCTCTCCCATGCTTAGGTG
GCAGCCTCCCCTAGGGAATGCCGCCACTTGGATCCAGCCTGTTGCTTTGTTACCAGCTAAGATGTTACATCATAGCTATGGTAGCTTCTGTTTGTCAGGC
ACTGTGCTGAATGCTTTATGAGTGTTCTCTGAGTCAATCTTTAGCTCCATGAAGTAGATCTATTATTATCTCCACTCCACTTATCAGGAATTGGAGCCTC
AGAGAAGTGAAGGGATCTGACAAAGATCTCACAGCTGGTAAATCACGGAGCTGGAGTCCATGTGACTCCAGAGCTTGGGCTGTTTAACCACTAATGCCCT
ATCGTATGAAGGGCAAAGCTTATCTCAGAGCCCTAGTGATTTCCTCTCTATTCGTCTGCAGCTACATGGTGGTAGATGTGTTTCCAGTGTTCCCAGGTGA
CACCTAATAGCTACAACTCATCCTTACCAAAATGGCTCTTACAGTGACAAACTTGACTCTATCTGTTGGGGACTGCATCTGGCTGACTGAAAGGCACCAA
GGCCGGGCGCAATGGTGCACRCCTGTAATCTCAGCACTTTGGGAGGCCAAGTCAGGCAGATCATGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATAG
TGAAACCCCGTCTCTACTAAAATACAAAAATTAGCCAGGTGTGGTGGCACACACCTGTAGTCTCAGCTACTCGGGAGGCTGAGGTGGGAGAATTGCTTGA
ACCTGGGAGGTGGAGGGTGCAGTGAGCTGAGACCATGCTATTGCACTCTAACCTGGGTGACAGAGTGAGACTGTGTCTCAAAAAAATAAAAAAAAAAGGA
ACCAAGATTAAGAAGTGAAAAATGTTATATCCCACTTTCAAGCTTAGTTTGGTCTCCAGATTGCAGACCTTTTCCTGTCTGCTCTGTATCTTCTGATTTT
TCTTCTGAGCAGTTCTAAAGCCTGAGTTAAGCCTCTCCACCAAGAGGCTAACATTTTTGCTGAGCACAGAAATATCCTGCTGCTTTCAAGGAACTATAAA
TCTTAATTTGCTTGGAGAGTAATACCTTAAATTATACTGGTTTAAGATTTCTGTGAATTCTTTTTTCTAAAAAGAAGTTTACTCTAGCTCCTTTCTTCTT
TAAGAACGTTTAAAAACTAGGCATTTCATTTGTTATAATTTCATTTAGTTTATGAGCAAGTCTTAGCTTTTCAGTATACCCTCATAGCTGGAGCAAGGTA
CAGCAAGATTTTAAAGATATGACAAACTACACATTCTACAGTTGCTGCCAGCAGAGAAAAGATTTTATCTTCTTTTGTTACAAGAATGAACTTGAAAACT
TAAAAGGAAATTAAAATATAAATACTACAGAGTCACATAAGCCTAGATTCAAGTCCTGGCTCTGCTTTTTACCAGATCTTTTTCCTGTTATTTAACTTCT
GAGCTTCAATTTCCTGGGGCTAAAATAGTACTTGCCTCATAAGGACTAAATGAGAAAATTCATGAAAAGCATTTATTACAGTGTCTGGTGTATTGTAAGT
AGTCTAGAAGTTCGTTATTATTTTTAACTTTCACTTATAAATATTGGAATATTAGCTGAAAGGAACTCTAGAGATCTATTTCAATCTCCTTGTTTTACCT
CTATAGGAACTTAGGTTCAAGGGAATTTACGTTGCTTGTCCAAAGTAAAACATTTTAAAAAGTCTTGTTAAGGATGGTCTTTTGCCCTATGTGGCATAGA
AATTTCAGTTAAATCTTAATTACATTCATTACTTTTAGTAAATAAAAAKAAGAATCTAGAAGAATAGCCAAGGTTACCTGAAACAGATGTTCCTGATTTC
TCTCTCCCTCTCTTATGAGTATCACTAGGAGCCAGTTATATAAGTCAAGTACATGTGGTGTTGGTTACTTTCATCTGTTTGTTCATTGATMACTCATTTG
TTGATTTGTATCTTCTGAGTGTCAGGCCCTTTAGGGAAAACAGCTGTGATTTTCTAGAAGCTCCTTTTTAGCTTCTCTGATGCTGCAGCTCATCCTGTCC
ATTCTATTTCAGTGCCATGAATCTGGACAAATTTGAGAAAGGCCCCAGGGAAATTTTTCATCCTGAAATACAAAAGGTAACAGAAAATTTTATGCTTCAT
AATTGTACAAAATTGATTACAGTGTTAGGATAGAACTGACAGGTCATCATAATCCTTAKCCTGGGATGCAAAGCCAAATCACCTATGCAACTTTAAAAAA
ATCATCATGGGAGAACCTCACACCTAAGGTTCTGATTTGATGGGTCTATGGTAGGGCCTGGGTATCTGAGTTTTTCAGAAGTTCCTCAAGTGATTCTAAT
GCGTAGCCACTCCTGAGAACCGCAGAACTGTCCTCAATCCACGAACCAATAGGGTGTACATTCAGAAAAATCTTATTGGCTTAAAAGCTACCCTTTTTAC
TGAGTAATATAGAATTGTGTGGAACATTAAAGAATTTTTTTTTTAATCGAAATGGAGTTTCACTCTTGTGGCCCAGGCTAGAGTGCAATGGTGCGATCTC
AGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCTAGTAGCTGGGATTACAGGTACCTGCCACCGTGCCCAGCTAATTTA
GTAGAGATGGGGTTTCACCATGTTAGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCTGCCTCAGGCTCCCAAAGGTGCTGAGATTACAGGCGTGAG
CCACCACGCCCAGCCTGGAATGTTAAAGAGATTTTTAAAAAGTTAATAAATACAAAACGTGGTCGATTGAGCTCTTACTCATGTAGTAGACTGCGCTGGC
TACCATCGAGGATAAAAGGTATCCAGAAAGCCATTCCTGTTTTCTTAGGTCTTACTGTTAAGGGAAAACAATCTGCCTTAGGAGAGAAAAAAATTTAGTC
ATAATTTAGGTGACGGTTTATCAGAAAAATGTCAACCAAACTTTTGTCTTGTAGTTATAACCAATTTAGCTTTGAAACTTACAAACACAGCCATCACTAG
TAGAGTGCCTGTCATGTGTGAAGCTGAGATTGAAGTAGTTGGGTACGCCAGGGATGGGTGACAAGAGAGGAGGCTGGAGAGGCAGGCTAGAATTCTATCC
AGGAGGCAGCAGGGAGCCAGTAGAACCTTTAAGCAGGGAGCATCGTGCTCAAATTTGCTTTTAGGTAAATAGCAAGAGGAGGACTGATTGGAACATGAAC
AATCTTTGCTTGTATATCTTTAAAATACGGTTAGCTTTTAAAATAAGGTTATCAACTCTTGGCTTACCCCAAATATAGAGAGTTGTGAATTCTCATATCT
TTTGTTTTGATGTAATTTTTAAAATAGTATTTACATCCAGCCTCAACCCCAGACGGAACTCAGGCAAAAATGGGTATGTTAGTTTAAACTGTAAGCGACT
TTAAGCCATCCAGGCTTATTACAAGTGATACTTTATAGCAAATTTTAAAACAAACTAGAATTATAAATATGTCAGTACCCATGTGTCCTTATTACTTCAC
TCACACAGGTTATTATTCCTAATCCTTCTTTAAGCCTTGGTCTGATCCCCCACACCAACTCTGCTTCCCAGACACGGAGCCCCAAAACCCACAGAGCCAG
AGCTCTGTGATGCTTCTTTCTGCCTCTTGCTACTGAGCCAGTTCCCTCGGCAGAGCTCACCTCTGCTCAGTCATCCCTGTCTGATTTTTCTAGGAGAGGA
AAAGAAAAAAAAAAAAGATATAGCAGCATTCTGCCTATTTATATCACAACTCTGTGCCTGTTTTTACCAAAYAAAAGGTACTTTTATGCTTTCCTACATT
TGTATTTTGGCTTTTTTCCCCTTAACAAAAGGAACCATTTGTGAACTTTCCCCTTGTCCTCTGTGTGTGTGAGTGTGCATGTGTGTGTGAATTTGCACAT
GTGTATGAGGCTCAGAGATGCAGGGTGAAGGCTGTCATCACATTTCTGTAGATTTCCCTTAGGAAGAGTTGAGCAACAGGCTTTAGGTAGAGAGGAAAGA
GTTCTTAAAAATGGTAGGAGCCAGAGAGTAAACAGAAAGTAAACCAACTGTGTTATAAAGAAGGCATCTTTCCACAAAGAGGGAAGGTGGCTGGTGCTGT
TTTTAAATGTTATTTGTCTGTTTCTGGCTGCTATACTGTAGTAACATTTTCCTTGACCAAAATCCAGAAGCAATGTGTGATTAAGCTAGCTTTAAATGGA
TAGAGAAAAAAGGGTATCTGTGTGTTTCTTCCCACTCCTACCCATCAAGTTTGTTTCCAGATAGTTGCGATATGTTTCCTAAATGACCAGGTATTTTATA
AAAACCGGTAGAGCTAAATTTGATTTTTAAAACACTTCTAGGTTTAAAAAGTGTATGTAAAATCACTCTCCCAAATCTCATATATATGAAAAAAATCAGT
GTCAGCCTCAAACTAATGATTAGAATCATGCATACATCAAAAGTAATGCCAGTAGGACTGTATTGAGAAACACCATTACTAGCCAAAATTATACTTTCTG
GGCTAAAATTACACACTAGAAAGCAGCAAAAAAGAGGACTTCCGATGCTCACAAATTCAGGAACAAGAATATTTTAAAAATCTGAATTATGTTAAGTGGG
ACATTGGCAAACCAGGGCAAATTGCAGGACTATTCGCTTCTGAACAAATGTAATCCAAAATAAAGAAACTGCAACATAAATGTAACCTGACAGCCTATGA
CATCCCTCCTGCCTCTACAGCTGAGTGTTGAGACTCTAGCCCTGAGCTCAGCCGGGACTCCTGTTGCAAGGCTCTGATTCCTTCAGCCTAGCCCACTGAG
GAGCAGCCTCTATTACCAGGCCAGGGACTGGTTGCAAAACATCCCAGTCCTAATGCTTGCAGGGCTAGTGGCAATTGARAAGCTGAGAGGTGCGATCCTT
TTCTTATTCACCACAGTTAGCAAGGAAGGAGCACTGGCGTGGGTGTTAAAAGGACTGGGCGTGAGATTCAGAGCTGACACTTACAGGCCACGTGACCTTA
ACTGGGGATCCAATTCCTCCACCTGTGATTCAGGAACAATTAAACTGCACCCCCCCATAAATATATATATATACACCTACTGATGTACCCATAAAAATTA
AAAATAAAAAAATTAATAAAAACCACAAGGTGTTGAGGAAGATCAAAGTAAACCATGGAAAGAGAGAATTTTGTAATGACATACACAGTGACATGCAAAC
ATAATGTCCCAATGTAAAAAATGTGTAACATAATTTTATTTTTTCCCAGAATTCAGAAATAATACAGCCAGGCGTGGTGGCTCACGCTTGTAATCCCAGC
ACTTTGGGAGGCTGAAGCAGGAGGATTGCTTGAGCCCAGGAATTGGAGACCAGTCTGGGCAATATAGTGGAACCCCATCTCTACAAATAATACAAAAAAA
TAGCTGGGTATGATGGTACACACCCATAGTCCCAGCTACTTGGGAAGCTGAGGTGGGAGGATTGCTTGAGCTCATGAGGTCGAGGCTGCAATGAGCCAAG
GTCGCACCACTGTGCTCCAGCCTGGGGGACAGAGCCAGACCCTGTCTCTTTAAAAAAACAAAAAAAGAAAGAATAAAATAATAAAGATGGCTGAGTTCTG
AATGAAAGAGGCTTTCTGTTAAATAAAATGGAGGTTTGTATGCCTCTTACAGTTCTTTCAGAATTGCCATGTCTCCAGTTGACACAGCTCTTCCCCAGAG
AGTCTTGGGCCAGAAGGAGGATGAGGGTCCCTCCAGCCTCCGTGCCTCCATCCTGACCCTCGTCGCCTCTGCACTGTCCCCATGGCTCWCCTGGGCCATT
CCTTCCCACTCCGTTCAGCCACAGGGTCCCTGTCAGAGCCTTGGCTTTGGTGTCCGCTTATCAACCAGAATCTACTTTTTTAGAAGTTCTGGAAAAGATG
GGACTTCCTTGTAATAAGTTTACAAACTTTTATATGGGGTGACTAAGAATGAAAAGGAAAGTAATTTAAGTTGATTAAATCTCCGTTGTGTACCAGGTCT
TCCACACACGCTGACAGTGATCTTCACAGGGGTTAAGACAGAAGGAAGGAGAGACCCAAATAGATTAAATGACTTATGCCCAAACACAGTTAAGAATGCG
ACAGCAGGGATTCAAAGGATTGTTTAGGTTTGCTGCTCCATGCTGCTCTTACGAGATGGTCTTATAGGGGAAAAAGATCCAAGACTCGTGGCACCCACCT
TTGTCATAGTTGGGTTTTTTTCCCCCAAACAAAGCTCCTATAACCAACTTTTAAAATTATTTTCAAAATGTCAGTGTGAGCAAACCAAAGCTTGGCTTTC
ACAGCAAGTCAAAATKAAATAATTACTGTTATGCCTGGATGTAACTTTTAAAACTTTATTTGACAGGACTTGCTGGTTCTTGAAGAACAAGAGGTGAGTA
ATTCTATGGAGATATTTGCACCTGCTCTGCCTCCATGTTTGTAAATATATTTCTCCTTTCACTGTGAACCCAGCCTTTGCTTTCAGCCAAATCTCCATGT
AGATTTGCACAGTGGGACACATTGCGCGGAAAGAACTTACTGGCATGTATTTTTAAGGTATATTTTAGAATTTTCTATGCATCTAGCTATAAAGCTATGA
AAACAATCAAACTACTTAAATCTGCTTGGAAACATTTAATGTGTTAAGCTTATGATCAGGGTGAGTAATGAGGTTTTAATTTTCATTAAAGTAGGGTGTG
TGTGCTTTATTAGGATGCTCTTAATATACAAAATGCTGAATTTATTTGCATGTTGCCATTCCCTGTTGCCCCCATTAAAAATATAAATATATTGGATTTT
CTAAGTATATAACTAACATAGGGAAATATCTAAAATATTATCAATAGGCAATGGAGTAAATAAATTATGGTTTATGTATCTTATCCCTCTCAGTAAATAG
CAGTATCTTTTGTCTTGTTGCTCAGGCCAAACTTGGAAAAATCCTTAATCCATGTCTTTCTCTCTCATCCTATATCTAACCTATCAGCACATCCTGGTGA
CACCTCTTCATAAAATATCCCTAATCCAAACACTTCTCAACACTTCTACCACAACCACTCTGGTGTGGGGATGCCACCCCATCCTCTCTTGCCTGGGCTC
TGCAGACTCTCCTAACTCTTTTCCTGGCTTCCACTCTCACCCTCTCTTCTGGTTTCCAGATAGTAGCCAGTTGTCCTTTTGAAACATGTGGAATCGGGTC
ATCTCTCTGCTCAAAACTCTAAAGGTTTCCTGTCCTGTTCAAAGGGAAGCCCCAGATCCTGACCCTGGCCTGCTGGAGCCTGCATGATCTGGCCCCTCTA
CCTCTCCAATCGTCAGCTCCACACTCAACATACTGAATTCCTTATTCTTCCATCTCCTCAGAAAGAGCCTATAGTTCCCACTGCTGGGGATGCTTGTCCC
CCAGATGTCCTCACTTAATCAGGACCTCTGCTCAGAGAGACCTTCCCTGACCACTCTGTCTAGAATAGTACACCCTGCCTGTCACCCTTAGCCTCTTTGA
TTTTTCTTAATGCTGGTATTTTCATTTGTGTGCTTATTATCTGTCTCCCCCATGAGAATAAAAGCACCATGAGAGCGGAGACTATAAGCACCATGAGAAC
AGAGACTTCTTTAATTTTGTGTTCCCAGATCCTAGAACAGTAAAAATAGAAGGTATAGAGTAAGTATTTGTTGGTTGAACAAGTGATTGATTGATTGATG
ATTGATTGATTGAATGAATATATTATGAAATGCTATGATGCCATTAGAAAAAATAAGGTAGTAACACAAAGGATAAATGCTTGAGAGGATGGATACCCCG
TTCCCCATGATGTGATTATTACACATTGCATGCCTGTATCAAAACATCTCATGTACCCCATAAATATAACTACTAATATATAATACACCTAATATATAAT
ACTAATGTATAATACACCTACTATGCACCCATAGTGCAAGAGTGAGATAGAGTACTATGGTCTGAATGCTTGTGTCCCCCCAAAATTCATATGTTAAAGC
CTGCCTACCAATGTGGTGGTATTAGGAGGTGGGGCCTTGGGAAGTAATTAGGTCATGAGGGGGGAGCCCTTGTGAATGGGATTAGTGCCCTTATAAACAA
GGGAGCTTGTTTGCCCCTTTCACCACATGGGCATGTAGCAAGAAGCCACCATCTATTAACCCAGAATATGCCCCGCCCCAGACACCGAATCTTCCACTGC
CTTGATATTGGACCTCCCAGCCTCCAGAACTGTGAGAAATAAATTTCTGTTATTTTTAAGCCACCCAGTCTATGGTATTTTGTTATAGCAGCCCAAATAG
ACCAAGACATAGACCTTTACTTATTGGCATGGAAAGATTGCCATCACATAGTATTTACTGAAAAAAGCAACTCACAGGACATTATTTACGTATAATCCCA
ATTATGTTTTTATAAACAAATATTTTTATGTATATTCATTCATTCATTGATTCAACACATACTTATTGAGCTCCTACCGTGCATGTACCATGTACTGTTT
GAGGCGTTGCGGATACATCAGTGAGCAAGAAAGGTCCCTTCTTCACGGAGCTTACAGTCTGGTGGGGTAAGACAAGCTAAACAAGTAAACAAACAAACAG
AAACATGGTAAGACCAGTAACCCCAAGAGCTGTGAAGAAAGTAATGCACAGAGGTGGGGTGTGTGGTGAGGGGGTAGGTTTTTTACATTGAACAGAGAAG
GTTTCTCTGAGGCAGGGACACCTCAGTTGATTCTTGAACATGTGGATGTAAATACAAAGAAGGGGCTGAAAGGATGCACCCCAAATTGTTGGCGGGAGTT
GCTTTTGGGCAGGACAGTGGAACTGGGGTGGGATGCAGCAGAGAGCAGGCAAAGGGAGATGCTTGCTTTTTTTATTTTTTAAGAGAGGGTCTCGCTATAT
TGCCCACGCTGACTTCCAACTCCTGGGTTCAAGTGATCCTCCCGGCTCAGCCTCCTGAGTAGCTGGAACTTCAGGCTCATACCACCATGCCTGACTACAT
TTTTATCCGTATTTTGTCCATCTTAGATTCATGCTTGTTGCAGGAGAATTTATGGACTTCACATGTAATTTGTAAAAGGCAAAAAGTAAAAAAATCACAT
TTCTGGTAAAAATTTGAAAAAGAAATACACAAAAGATAAAAGGAAAAAATCACCTGCAGTCACAAAGACAACTGCTATTAACATTTTGGTATATATGTTT
GTTACGTTTTATATAAAATTAGGATTATATATAGCTTTTGTATCTCAAAATTACTCTGTTCATTAATCCACAGATATTTATTGAGCACCCACTGAGTGCA
TGCACATGCCTGTTGTAACAAACAAACAATAGAGAGAATGCACTGATGGGAAATGTGAACACTTACTTCCCCTGCCCCGACTTCACCACTTTTTCAGGGG
CTGGACCCTGAAAGAACGCCTGTTCACTGTTCATTGCATCCTCCTCTGCTTTTTTTGAAACTCCCAAGTTGTGAAAAATAAGTTGCTGATCTCTTTATTT
TTCAATTTTATTTCCTTATTAGGGGGATATTAGCTTGAGACAACACTAGTCACTTGTCATGACATCTTGGAGTGTGAACAATGGCCATGATCCTCCAGAG
CTTCTCTGAGAGCTGTGTGGCGAGGCACTCTATTTAATCCTGCTGCTTCTCAACTGGGATAAATTGGGAGCATTTATCCCAATTCCAGCCTATTCTAGTG
GTAAACTATTAGCTGCAAAGATGGGCAGGTAATCCAATAAAGAATACTAGTGAGGCTCCCGAAAGGTTAGCACTTTGGTAAAATGATGTCAGTGTCCTGA
AACCCATGTTTTGTTTGCTGCATAGAGAGGCACCCCCACAAGAGAACATGGCATCCCAAGCTGTACTACACATGGAGAGAGGAAAGATGTGTAGGAACTT
GTGGAACCCTAGAAATATGGAGGTGTTGCCTAAACAAGAGTAACAAGGAACCAGGGGTGTCTCATTTTGAATAAGGCCATCATTTCTCAGGTCCAAAAAA
TTCTTCTGGAATCATTGGGACTTTAGTTTCCCCCCATAGTTTGTTTTTCTCAGAAGAACTATAATTCATAGCATACTACTGATTTCCAAGAATGTGACTG
CCTGTTGGTTTGTAATCAGGTTGAGTTTTGTCTTGTAAAATTTAGAACTTAGAAAATTTAAATTCCATCCAAGCAGGAATGACAGATGTGACCTTATCTG
TATGTTGAATGTCTGAGCAAGACTTACATCCTGAGAAAACCAGTACCTGTGAATTCCCTCCAGCAGCACCTCCCTCCAGGGACCCAGGTCTGGCCTTGAG
ACCTTGAGAGCTCTGAATGGCTGGTTAAAATATTATCTGCGACAGTCCACTTGCACCAGATCAAACTATCCCCTCCTAAAATATGAAATACCTCATTATA
ATGAGCCATACCTTGATTTCTGGAGATAGGTGAAAACTGTTAGTCATGGACATAATTTGGGAAGTCCTGGACACCATATTACCTAAATGAGGCTGTATAA
GTAGGTTCAAGTACTTAACAAGTACTTCCAGTCTTTCTGGAATCTCCACCTGAAACAGGAGGATTTCATATAATTTATCATTTAAACTGGGACCCTTTGA
GAGTAATTACTAATAACATCAGGACAACAGATAAAACAGATATAAGCTAGGGCTGTCTTGGCAAACTTGGACACATGATCTCCCTACCTTGAAGATCCTA
CACCCTTGGGTGCACAGGTACTTAAAAGACCCCCATCATGCAACCCTTGCTGCTTTACAGACTTTGCTCTTGTCTGACCCTAATAACTTGTGATGAAGAC
TTGACAAGACCTTGCAAAACCAGTCTTTCTGGAGTCTCCACCTGAAGCAGAAGAGGTCCTCAGCAGGGGTATGGTAGCATGGTGCCAGTCTCAGAGCAAT
CCTATAAAACCTTTTAAAAGCATTGGCCAGTGATCAGGTGGTAGTAGGCCCCATCTCTGCTTGTACATCTCAGTTTCACTTGAAACTTTTCAGAGAAGAT
TATGCCATGATACTGGAAAGAATGCTGGATCAAAAGTCAGAAGACCCAAGTTCCAGCTCCGGTCCTACCGTTCACTTAGTTCCAGCCATGCGCAAGTCCC
TGTCTTCCCTGAGCTTCCCTGTCCTGTCTTAAAATAAAAGCATGGACTCAGTGGACTATAGGGTCCTTTCTGGTTTTAGCAGGCTGTCAGTTTATGGCTC
AGAGTTATGGTCATTGACCTAGTCCTTCTTGCTAGCTGTCAGCTCAGCTGGACCTGATCCTGGGCCTCCTGACAGCCTCTTGGTTTTTTCTTTAGTCTAG
TGGTTCTCAAAGTGGGGGCCCTAGGCCAGCAGTATCAGCATCACCTCGGAACTTGTTAGAAATGCAAATTATCAGGCCCTATCCCAAACCTGCTGAATTG
AAAACTCCTGGGGTGGAACCCAGCAATCTTCAGTTTAACAAGCCCTTCAGGTGATTCTGATGCCTAGTCAAGTTTGAGAACCACTACTGTAGTTCCTGCA
CTATTATTCTAAGAGGATCATATGTCAGACCCCAAATTACTGTAGGTGCTTTTTAAGGGACCCTTGAGACATGTGCTTACTGTCATCACTTCGAAAACAG
AGAAAGAAAAGTTATAAACCATAAAACCCTAAAGTGAATAGAGGTCCCTGGAAACATTCTAAGAAATTTATCAAATGCTAGTTTGTAAGGAAGCAGTGAT
CATTTGGAGACATCGTATGAAAAATAAGTTGTTTCTGACAAAGTTTCTTTTCTCATTTATTATGCATACAGTCACTTATGTCATGAATATTTATTAATCT
TTTCCAATGTACTATGGTCAACACTGGGGATTCAATGGAAAGAAAACAGTGTATGATTTCTCCTGCACAGGACTCAGGTTCTAGTGGTAGAAACAGATAC
GCAAGTTCAATAAAAGATTTACAGAGTGTAAATAGTGCTTCGAGGAGAATAAACAAGGTTCTCCGATGGAGAATAACAGCAGGAAGGAGGGTGGCTTTAT
ATGGGGAGATCAGGAAASGCCACTCTGGAAATTGACACTTGAGCTGAAACCTACGTGATGGGAGAGAGCCAGTCATCCCCGGAACTGTGGAAGAGTTCCA
GGTGGAGGGGTCAGTTTGGGAGTGTCCTCTCTCTTCCTGTATAGAAAACCACTGTTAGTGATGAGTGTGCATCTCARGTGTGTTGGGGACAGAAAAATGT
TCGGATGCACAGCCTTAGAACTTGGATTTTCGGATTTTTAATACTCTCAGATCCAGCTATCCTGAATCCTGGCAATCGCCTTGACTTCCTGCCTCTGACC
CATTGGCCAGTGTGCTTTAAATATCTTTGTCCCTTGTCTACCCTTAATTGACCACCAAGAATTTCTTCATCTAGTGGTGGGTCAACCAACCTTGTAGAGG
TCGATTCTCTTCCAACATTTGATTTTGTGTTTATTATGAAATACTTCAGGTATACAAAAAAAAGTATAGGGAATAACATAATGAAGACCTACAAAACCAC
TACYGGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATTGCCTGAGGTCAGGAGTTCAAGACCAGTCTGGCCA
ACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAAATTAGCCAGGCATGGTGGCATATGCTTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGG
GAATTGCTTGAACCAGGGAGGTGGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGAGTAAGACTCTGTCTCAAAAAAAGAA
AGAAAAAAAAAAACCACTACCCAATTTAAGGAAGAAAAGCATTAAAAATATGATTGAGTCCCTGTTTACGCCTCCCTGCCCCTGTTCCTCTGTCTTCCTC
CCTTCCCTGTGGAAGCTGCTATCTATCATTTCCACCAGATCAGAATTAATTCGGTTTAAAGTTGGAGATGGTAGATTGCACATTTGTACCAGCTACTGCT
TGCTTGGCTTGGGCTTGCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCACATCTGTTTTGTGACTTCTTCARATTGAATATCTTTAGGAATTGGGGAAAA
TGAGCTTTTAGTATAAATTGCCTATAATTTTCATTTCTGTGTCTAAAAGAGTCCACAATATATCAGCCTGAGATTATGTTAAGCTTTGAATTACAACGAA
CTCTTCTTCGCTGACTGGGATTTGGACGGTTGCTCATGGGTTGATTGGAARATGGTGCCAGGCCTGTGAGTTCCTGTGGCCATTTGTTGGAACCCTGTTT
TGCCACAGAACAGAACTGGTATCCTAGAGATKCCATTAGTAATGAAATTACAAATGAACGAATTCATAAAAGCATACAGTCTCATCTGTAAGCTATAAAT
ACCTATCAAAATGAAGGAATGATTGTTGTTAACATTGGTCAATAACCCAGATGGATGGGAGGAAGGGATCCCCTGACTGTCCATCCTGGTGACTGCCATT
GTGCTAAGTCACGAACAGCCCATCTCAAAACTATATACGCTGTGATGATAAAATTAACKGTAACACCTTTTGTTATTATCCTAAGGGCTCTGTGAATTTC
AAGTTTGGGGTTCTTTTTGCCAAAGATGGGCAGCTCACTGATGATGAGATGTTCAGCAATGGTGAGTGATCTCCTCCCGCTCTCTGCTGCCAGAGACCCT
GTCCTGCCTTKTTGCATTCTTGCCAGTTGGAGCTTAACTTGTCTGTTGAGTTGGAGTCTTTAATACGAGGAGATAGTTTTACACAATTTCAGCGTGAATT
TTGTAGGGCAGTTGTTGCCCAGTTTCATTCATTTGGCAAATATTTATTGATCACCTCGTTTGTACCCAGTCACTGTTCCGGGCACTGGAGAGACAGAAGA
GCACATGGGATTTGGAGAATTTGGTTCTACACAGTCCCAAGAGCAGTGGAAGATTTTTCTGTGATTTTTATGAGAGGAAGAATTATAAGATGGCGTCATC
TTCCTAATATTTAGCACTTTTCGTGTTAAATACCTGCTTATTCTGAACGCAAGCAGTAATAACATTTTTGTTTTGCGATAGTAAACACCTGTGGTCCCAG
GCTGGCAGTAGTAAGCTGGGTTCATCTGATTCTGCAGTTTTCCTTTCCTTGGAGTCCTGGGAATTGTGGGGCTTCCTCATGGTGCTCAAGAAGAAGGAAA
TGTGACTTACCCATGCTGTTTACCATGCRTGAATCGGCAGAGCCCAGTTAATTTTCCAGCGATTCCGGTCCATAGTTAGAAAATGAGGACTTGTTGATGC
CCATACTTTCCTCATACTCTACTTCTTCCTGCAGAAATTGGAAGCGAGCCTTTTCAAAAATTTTTAAATCTTCTGGGTGACACAATCACTCTAAAGGGCT
GGACGGGCTACCGTGGCGGTCTGGATACCAAAAGTAAGCCTGCCTCTTGATCTATTCTGTTGTAATTTGTATAACTTTTGTAAGTCAGCCTGACCCGTGT
CTGAACTTATACCAGAGAAGGGGGAAGGGATGGATGAGAGAAGACTGGAGGGAGGTGAGCTCCACACCCTGTTCAACATAGAGTCATGGACCTGTTTGGC
ATTTCCATTGAGCTTCGTAAAACTAAATCAGCCCTCACAGCCCTGGACAGTGTCAGAAGTCCTGGTCTGCCCATGAATATTACTGCTCAGCACCATCTGT
GTGCCAGGACTCTGGGGATATAGAAGTGGATAAACCAACATGGGGTCCTCCTTTCTAGGAGCCTGCAGTCCAGGGGACATCCAGCAGATGTTATGCAGAT
AATCATCAAATGGTTTAGCACTAAGTACAGAAGGCAACTGAGAAGAAAAAGTACAGAGTGCTATGGGGCATTTTGCCTAATCTGGGGGATTAAGGAAGGC
TTCTCTGAGCTTTTTTGAGGCCAGAGGGAGGGGCGAGTCGGAATAATTGGAGGGTCTCGAGGGGAGAAGAGAATTCCAAGCAGAGAGAACATCCATGAAG
ACCTTGTGGCAGAAAAGAACATGTTGTGTTCTAGAAACTAAGAGAATTTGTTTATGGCTGGAGGGAACGAGGCACTGAGAATGATGCAATGTGGCCTGGA
GTAGGAGAGGGGGCATGACCCTGAAGGGAGTTTTGAGGTTATATTAATAAGTCTGCATTTTATTCTCTGTCATTAAGGGGTTTCAAGTAGGGGAGTGGTG
AGATTAGATCTGTACCTTTGAGCAGACAGGGGAGGCAGAGGAGAAGCCTGCTCTCAGAGGCTGTGGCAACAGTCCAAACARGAGAYAGGGTTGCCTTGGG
AGAGGGCCATAGGTCAGAAGGGAGACAGGGGAACTAATTCAAGAGCCATTTTCATGGTAGAATTGGCAAGTGGAGGTTGAAAGAGGAGACAGTACTTGAA
GACACTTCAGGGTTTCTGCCCTGGGTAGCTGGGTGGGGTTGGCACCAGCGGTGAGATTGGAAACACCTGAAAGGAAGCATTTTGAGGATGGGGGCCTGAG
TGGGGAAGGTAGGTAAGATTACAAGCTTAGGGTTGGAAGTTCTTTCACCATCTCATTTTTGTGTAGCATTGCTAGCTTTTCCCTTTGTTTCTGTTTTTTT
GCTTTATTTGATCTTCACAGTCAGTCCTTGAGGTAAGTCAGGCAGCGGGTGTGAGGCCCTTTTGGCCTAATAGTGATAGGCTTCGAGTGCAGGTCTCCTT
ACCCTCTGGGAGCCTCATCTTCCCACCAGCCTGCCATGGCATCACGGATTCTGAATTCGGGAGAGCTAAGTGTGCCCTAACTGACAGATGCAGGGATAGG
GGATTGGGCCCCAGTTGTCAGGTTCCAGCTTCACTCGAACACACATAGAGTGCACAAGGTGAATTCTTCAATGCCTGCCTCTCATACCCCCGCTGCCAAC
CCTCAGCGTCTCCAATATGGTCATAACAACCATCCACTGAGCCCTTGATACAGCCAGGCATTCTGCTAAGCACTTTGCAAATATAATCTCATTGAGTCTC
CCCAATATCCCTAGGAGTTAGATACGACTTTTATCCTCATTTTCAAATTAAGGAACTGAGGCTCAGAGAGAAGTGAGGTAACTTGTCAAAAGCCACATAG
CCAATGACAAATTGAATCCAAGTCGGCCTCATTGTAAAGCCTTTGCTTTTAATCACAAACAATTCTGTCACAAATACCACTTCCTTTTGGCTTATGGACA
TAATTGTTTGTGTCATCTTGTGTTAATTTCATCCCGTACCTCCCACAGCAACTGCAAGGCAAGGAAGCTCAATACTCTCCTCTTTAGCCTGGACTTCTTA
TGACCTTCTCCATTCTGAGGCAAGGCATGAATTGGACAGCAAGTGAGCTTAGGGAGAGAGGAAGAGGCCTTTCCATGTGGGGGGTTGCATCAAGTGGAGG
GTTGTTGCTTCCATGCAGGTGGATAATCCAAATATCTTGGAGAATGTCCTGTATACAGTATTTCCCTAGTCTGCAAATGAAAATGCTTTCCTTTTGGCTC
GAATTCTCTGTGCTCACTGAATGCATATTTATATTTTGCAGATGATACCACAGGGATACATTCAGTTTATACTGTGTACCAAGGGCATGAGATCATGTTT
CATGTTTCCACCATGTTGCCATATTCCAAAGAGAACAAACAGCAGGTACATGTGAACATACAAACCATCAAATAGTGATGTGAATGTGGAGAGGGCACCA
TTATGATTCCATAGAATTAGGGGCTATGCCGGTTAACATATGAGCTGAGCTGTGGCCACCAATTTAGGGATGCTTTTGGCGGTCTGTATTGGAACTTTCT
ACAAATCTTAGGAAGAGCTATTCTCACTGGTGCTGTCACCTTAGAGAAATAAGGGGTCAGAGATAATAATGTGCRTGCGTGTGTATGTGTAAACATGTAT
AGGTATTTGTATGTGTGTGAGTGTGGTTTCATAGACTCTTTTTTGTCTCTCTCTTTTTTTTTAATATATTTGATTCAAACATTCTTCTATCCAACATGGA
CTCTTGAGAGACTATTTTGTATAGGTGTTACCTTTTCTCTGTGCCTTCTCTCAGTGTGCCTTGTGTCTTGTCAAAATGAGACTCTCCAGGACATATCATA
AGTGGTCCTGTGTGATGGTTGACAAGTATTGTTATCAGGTCACTGCAGGAAGTTAACACTGAGTATCTACATGGGATGTACCAGGCTGGGAAAAAACCTC
TATCTAAGATACTCCTCACCCACCCCAGAGCTTGGCCACTGAGACAGGAGCAGAGGAGATGGGTTGGTGAGCAAGGGCCTAGGCTGGCAAAACATGGGAA
GCCTGAAGTCAAAGATGTCTGAAGTTCAGGGCTCTGTCATAGTGGCTGTGGTTTGTTATATTGGGTTATGTTTTTTTAACTCTGTGAATGTGCCATGTTT
GAGAGTCTTTCTCAGTGATGTTATTTATGCTCACTACAGGTRGAAAGGAAACGCCACATTGGAAACGATATCGTCACCATTGTGTTCCAAGAAGGAGAGG
AATCTTCTCCTGCCTTTAAGCCTTCCATGATCCGCTCCCACTTTACACGTATCCTGGGCCTTTGTAAATGCTCCAGTGTGGCAAGCTGTGGTTCAGCCTC
ACTGGACTTCCATGACCCTTAAACCAAATCTTGTCATGGACTTGTTTTGTAATGCTAGCTTTAGACTCACTTTTGGGGAATTTTTCCTAAGCATTGTGTA
TAGTTCCCCCTTCCTCTCTCCTTCCATTTCAGTAGTAGATGGATTAATTCTCAGAGAATTCTTGACTCCTGAAATATGGTCTCTTTTCTCAGGTAGTCTA
CAAAATGAGGAAAACTTCCTGCTATCCTTCAGTCATAAATGATTTAGAAGAATTATAGGTGCTGAATTCTCTGAGAAATTTGCTTTAGGCATAAAAACTT
GCAAGTTAAGATAAAAGGCCAAAATAATTTTTCTTGTTGATTTAAGCCCTGGTAATCGCTGTTGTATTACCATCTCTTGAAATTTGAGAAATGATAGAAT
TAATAGTATTTTTATCTGATTCCCCTAATCCCTGTTCAGCTCATATTGCTGGCAAAGTCCAGCAATGGGGCTGAAGCTTCTGCAGTGTCTGAGCTCAGCT
CTGCCAGACAGGCATGGGGCATGAGCTTGACCTGCCCAGCAGACACTCAGTTGTGGCCCTGTTGCTCTGGGTCCCAGACCATGACAGCAAAACCCAAAGT
TGGTGGCTCTACTGGTTATACATAATAAGCAAAAGGCAACAAATCAGCATTTTCAGAATAAATTCTAGTCGAGTTACTCATTTCCCTGGAGGCTCCAAGT
AAACATGTTTGGAKACAGGCCCACGGTGACTCATGGCATCTGGAGACTTGGACTTGTTCCTTGTGACATAAAAATAGAGGATGGAAGTAAGTGTTTAAAA
GTTAACAGTTTCCAAACTTTCTTCCATGAGGGTAGGGAAGCAAACAATATGCACTTGCACCTTCATTAGAATTTTCTTCCCTTTTCATCCCTGCTTTCTG
AGTAATATCTGCCCCTGTCCCCTGGGATTTAGGACTAATATTTCCCCTTTCTAGAGGTGGTTCTTCTTGTATAACAGAAAACTTCTCCAAATTCACAGTA
GAAGCAGTGGTGAGGTGACTGTTCAGGTGATTGAGAGGTAGTCATTATTTTTTAGAATTTCCCTGAGTTATACGTTTTAGATTTGGGGCTTGGCACATTT
GTTCCTGAAAAGGGGCAAGCAGATCATTAAGGCAGATTCATTCCAGGGAGCCTAGAAATGGAGACACTAAGGAATTGATGGCTCCATAGCCCTAGCCAAG
GAAAGCAGGGGTTGGGAGATGGTGGGTGGAGGTGGAAGGGGAGGAAGAAGAGTGGGAGAAAGGAAGAAGCTGGATGGATTCTTTCCTACTATTTTAGACT
CTGCAAACCCCAGCACAAGCTAAGTAGATTCTGCTCAGAATCTGCCACCAGCTACAACAGGCTTGTTTTGTTTTGTCTACCAAACCCAAAAGGAGAGAAA
GGGAAGGTATACAGCGGAAACATTTAAATTGCTTTCCCTTTCCAAATGTGTGAGATGAAATGTATTACTAATTTCCTATTGGGATCTTGTTTGTACTTCC
AGGCAAGGGAACTGCTCTTTTTGCTTTGCTGACTGCTTAGTTGTTTAATAGCTATATTTCTATTGCTTTTCTGACAGCTTTGGAGATTTAAACCTTTTCC
CCAAAGGATGCACATACAAACATTGAACCTACTCATGGTGCCCTCACATAAGTCTCCCTGGGCTGTCTCTTGGAAAGAAGTATGGGTTCTGTCCCAACCT
AAGAGTGATAGGTGCCCTAAGCACAGAAGCGCTGGTCRAGAATGACTCTGCACAAGGGATTTTCAGAGCGCAAGCTGTCAGTCGTGAGCATCAGTGTTRT
GATTAGTTCCCTTAACCATCACCACAGATATTTTTGCCTTAGTGAGATACAATCAACAAAATGACAATTACAGGTAGGTAATGACTTTGTCTCGATTGCT
TGTCCTAATTCTCATGCTTGTTAATTTAGCATTGATTTTTACAAGACTCTTGATATACATATTTCTTGATTGATTTAATATGAGTGCCTGCACCTTACAA
AACTTTCTTCAAGGCCACCATCTCTTCAGGAAACATTTACTCCATCCAGTGTTGTTCCATGAAGGAGACCTAGGGGTCAGGGTTAGTTTGATATTTTATT
GTACTTTACCATGGGAACAGGTTTGATATATTTGATCTTCATCCTTTCCTAGTCTACATTCTTGCCTGCTTATCTTTCTGTTCTCAAATATTAATCTGTT
AAAAGGTATTATGTTGTAAAAAGAACCTGAACTTTGAGCCAAATAGATTTGAGTTCGAATCCCAGTTCTATCATTTATTTGAGGCTTTGAAAAAAATGTT
TTATCTTCTTGAAGCCTCAGGCCTTCTGTGTAGAGTGAAGGTAATGACACTACCCCGGCAGGTGTAGTGACAATCAGAGGCAATACTGTATCTTAAAATA
CCAAGTATGCTGCCTGGTATGCAGCAGGTGCTCAGTGATGGCCATTGCTCTTCTTCCTGGGTACCTGGCTTGATGGGTTGGACCATGAAGGATTCAGGAA
GACCTGGTCTCTATCCTCAAAGCACATTGACTAAGCTGGAGGGGAAAGCGAGGTAGTGGCCTCGGCCCTGGCAGACCAGAGAAGGCACTCCTGGCATGGA
GCAAATATTCCTGACACATCCCATATGCAGCTGGATAAATGGAAGGACAGAATAGTGGTGTATTACTTCATTTTCATACTGCTAATAAAGACATACCCAA
GACTGGGAAGAAAAAGAGGTTTAATTGGGCCTGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGAAGGCTGAGGCGGGCGGATCACGAGGTCAGG
AGATCGAGACCATCCTGGCTAACACGATGAAACCCCGTCTGTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACT
TGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCCAGATCGCACCACTGCACTCTAGCCCGGGTGACAGAGCGAGAC
TCCGTCTCAAAAAAAAAAAAAAAGAGGTTTAATTGTACTTACGGTTCCACATGGCTGGGGAGGCCTCAGAATTATGGTGGGAGGCAAAAGTCATGTCTTA
CATGGTGGCGGCAAGAGAAAATGAGGAGGAAACAAAAGCAGAAACCCCTGATAGGCCTATCAGATCTCATGAGACTTATTCACTATCACGAGAATAGCAC
GGGAAAGACTGGCCCCCATGATTCAGTTACCTCTCCCTGGGTCCCACCCATGGCATGTGGGAATTCTGGGAGATACAATTCAAGTGGCGATTTGGGTGGG
GACACAGCCAAACCATATCAAGTGCTAATATTAATTCTGCAATATTCTCTACTTAGGCTGAAAATATTTTCAGAAGAGAGCGTACCACTCTTTGGCCCTC
CCTTGCCAACTCCACCAGTGTTTACAGACCACCAGGAATTCAGGGACTTTTTGCTAGTGAAATGTAAGTTTCTGTTTTGAAACAATTTTGCAACTTGTTC
TATGTCAGAATACATTTCTTCAGATTCTCCCAGAATGCTGTTTAAGGAAATGTCATTGTTTAAGCATTCCATGTTCCGTTAATTCTTTGCACAACATGTG
TTTAGTATTCTGGTCATGTTGTGCACGTTTTCTCCTATGTTTTCATCCCCACCTTCCATCCTGTCACCTGCCTTGAAGCTTCTCTACACTCACCCACTAA
GGACCCTCGGGCCTCAAATTTGCCTTTCTGCCCTGTGTTCTGATAGAGCCATTGCTGAATCTCTGCTTGTATATGTATCTGTATCTGTCAGAGAGTGGGA
TGTAGGTGGGGGAAAGAGTGGTTGTGGGTATATGCTTAGGGATAGGGAGAGTTGTTGGGGAATGTGTGTGCACACTTGCGTGAGTGTATATGTGCACCCA
TGCACATGTGTGGGAAAGAGAAAGACAGAATGAGAACATAATGTGTGTAGACCATGACTGCCAGGCATCACTTGCTGGTGAGCACATATTTTCACTCTAC
TGGTAATACCCAAATACCCGACTCTGAGGCCACATCTCTTAAAGCACAAGAGCTCTGCGCATCCCTCCTCAGGGCACCCCTGGGAATTATTTCTGGTAGT
CCCATGGTGGGACTGTGTCATTGATCAGAAACAAGTTACTCGGGTTCATCTGCTGCAGCTTGCTAGCCGCACGCCCTGGCAGGGCTGCTTGGTCTATGCC
CTCCATGAAGATACTGCTTTCCAGCCTCCTGCCAGGTATGCTGGGCATTGCAGCTGCTTTGCTGGCTGCCTCCTGTCCCCACCTGCAACTCCTCCCCACT
ACAGTCTTTGCCTAAGTCTGTCACTGTTGCCGTGCAGCTCTGAGACATCTAGAATGCCCCTCTCTTCACTCKGTCCGTCCTGGTCACCTGGCCTCAAGGA
AGCATTGACTGAGCCCAAAGCCTCACTGAGTCCTACGTGGACAAGTGTTACCCAACCTCCAATCTTAATCCTACTCCAGTACTGGCCCAAGCCAGTCCCT
CAGGCCAGGGCAAGGGACAGGCACATGTTGTTTCTCCTCTGTCTTCCTGTCTCCCCAGTCACTCCTTCACAGTCCCAAACATGACTTCTCCTGCACAGAA
ACAGTGCCAAGCATGAGTGTCAGTTCTAGTCACCAGAAACATCCAAGTCCTGGCCAGGCTGTTTGGTAGCCTCTCTTCCATAGGAAACCCCTCCCTTCCC
TTTCAGAGACCTTGGCATGATTCCACAACTTTGTCCTGGAGAACAGAGACATGAAAGACACCTTTGCTGAGGCTCCCTCTGCTTTCCAGCTGGGCTGCCT
CTCTTCCCAGCTGGACCACCAGCRTTGTTACCTCCCATACTCCAACCTATACCAGGGTCCATGGGTGATGTCTCCCTCGACACATTAGAGGCAGCAGACA
CTGCAAACCATGTGCAACAGATGATGATTTTGTCTCTCCCTTTCCAGTATTTATACTCATTATTTCAAATGCTACAACAAGGTCCCAAACTCAGATGCCT
GGAGAGCCAGGCAGGGAGCATGAGCAAGTGAGGCGGGCTGAGTGGAGGACAGTCAGGAGTGCTGGGAGCTGTGACACACTTGAGAGCATGTGCTCACTCC
ATCCAGCTGAGGCCTTTCAGAGCATGCACCATGGCCAGGGTTGCCAGATACTCTGAGTTTTCAAATCAAGCCAGAAAGCTGAAATTGTATGTGAAATTGT
CCGAGTCTCATGTGTTCAAGTCCAGAGGATCAGACAGAGAGCAAGAAACAGATCTGAAACAGAGTCAGCAACAGAGTGGGTGTAGCTACTGGAAGCTGAA
AGGGTGTTGGCAGCATGGGGCTCAGGAAGACAGCATTCACTGTAGGGGGCCTGTGGCAAGGAAGGGGCCGCTAAAGACCTGTAACCACCAATTGGAGATC
ACTCAGCAGCACTAGGGACCCGGCTTATAAGTGGAGCCAGTCAACAGATGGACTTTCATCAGCGTTGTCAAAGACTTGAGGTGAAATGAAACGAAGGGCT
GGGTTGATTTGACATTGAAGATTTGAAAGTAGAAACAGCAGAAGAATGCAGGCTCAAGGTGATGGAGAGGGTGTGTTGAGGAGATGGAGTGTGGGGCCAG
GAAGGACCAGGAGGGGTTGGTGCGCTGAGAGGACAGGTAGCAGCCGGCGGATCATAGAGTCTCGGAATTCCAAAGTGGATTGAGCAGCGAGGTTGAAAAC
TCTGAGATTACAGGAGATGGCATTTCAACAAAAATCTTGACCTTTTCCTTTTCAGCCGAAGCGAGGCTTTAAAATGGATTGTTCCAAGGTACTAAGCAGA
AAAAAAACCTCAAACAAAAAAATTCCTAGATTCACAGAACTAAAGAAAAGAACAGACAAGCATAGTTTCAATTCTTGTGTGTGTGTCAAGAGATATCTTG
TAATTCCCTTTTTAACTTGATTTATTTTAGTAATTAATGGTGAAAAAGCCACTTTGGAAACCCCAACATTTGCCCAGAAACGTCGGCGTACCCTGGATAT
GTTGATTAGATCTTTACACCAGGATTTGATGCCAGATTTGCATAAGGTAATTCTGGGTCCATGGTCTTCTTTCCTTCTTATGGGGTCTGAGTTGAGAACA
CAAGTCCTCAACTCAGCGATGAGGCCCTGGTGAGAAAAGCGTAGGAGGCGCCTTGATCCTTGCTGTCAGGACTGTGCTGTGGCCACCATGGGCTGACAGT
CTCTCATTGTGACACAAGAAGGAAGGACATTGGGTTTCCATACACAGGAATGCGATTTCCAGAAAGCCAGGGCCTGTGGAAATCAAGGTGCAAACCAGGG
ACAGGGAGGTTGGGTATCAATCAGCAATCTCTGGAGCATTGAAGAGTGCTTTTTTTGGGGTGGCTGTTCTTGGTAATACTACTCAGCATTGCCAGTCACA
TGAGCTGATGGGCAGGCAAAGGTGGGATTTTTAGAAAGACATAGGGTGCTTTTTTTTGGAGATTTATTGGCCAGCCCCATATTCAGGCACTGAAACAAGC
ATTCCCATTTACTGAAGACCCAGACACTTCGTAGGCCTGAGACATAGCCACACTGATGAGACCCAACACCTTTCTATCACTTCAGGTGCACATGTGCTCT
TTTCTTTTTTTTTTTTTTTTTTTTGGAGACAGAGCTTCTCTCTTGTTGCCCAGGCTGGAGTGCCATGGCATGATCTCGGCTCACTGCAACCTCCACCTCC
TGGGTTCAAGCAATTCTCCTACCTCAGCCTCCCAAGTAGCTGGGGTTATAGGCATACACCACTGCACCTGGCTAATTTTTTGTATTTTTAGTAGGGACGG
GGTTTCTCCATGGTAGTCAGGCTGGTCTCAAACTCCCAACTTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACTGTCATGAGTCACTG
CGCCCGGCCGACCAGCACCATTTTATAGGCACTCCTTGACTCTTGTCTGGTCGGTGTACCCCAACCACTCGCAGGGATTGGGCCAGGCTAACCCCAGGAC
CCTAAAGAGCAAACCTCAATTGGTAATCTCTCAATTCCGTAAGGTCAGGGAAGACACAGAGAGGGTACCAAGATGAGCAATGATGTCCTTCAAGATAAGT
AATCATATCCCAGCTGAAGCATCACTGCCTGAGCCAGGCTTCCCTAGCCCCCCAGTTGAAGCCAGGTCCCCTGTTAAATGTTTTCATGTACTTGCCACAC
TTCCCCTTCATAGCAGTGATCACATGTGCTAAACATGTCGTTGCTTAATCTGTCTTCCCAGTAGACTCTGTGCTCCACAAGGATAGAGACTATGTCTATC
ACATTCCCAAAATCTGGCAGAAGACTAGGTGCTCAGTCGGTACTTGCTGATTGAATGAGCATACCCCATTCAGTGACTACAGTTTTAAAGAGAACTAACA
TTACTAAGTATGCACTAGGCACTGTGCGAAGTACCTTACATGCATTGCCTCATTTAAACCTCATAACACACCTAGGAGACAGGTATTAACCACACAARGA
CACTGAGATTCGGAAATTAACTAATTTGCTCAAGGCGACCCACAAGGCTGCAGATTTGCACAGCTCTAGGGGTACTGTTCTCATAGAATTCAGTTTGTTG
TGTTCCAGGGGGTGCTGCTGTGTAAGATTGGCATCCCAGAGCTGTGCAATGTGGTGGCCCAGGTCACACTGTTAGTAAGTTAGTAAGTGATACAGCTGCA
GGTCTGCTGATTTCAAAGCCGTGTCCTCAGCCCCCATGCAATGCTGGCTCTCCACCTAGTGACTCTGAATCTAGTATCTACCATGGACCTGGTACACAGC
AGGTGCTCCATCAATGCTTATTGAGTGAATGAAACAGAAGGTAGAAATAGGACCATTTGGATAAATAGTTTTGTGCACTATGAGAAGCCAAAAGATGAGA
CTTAACAACTGTTTGTGGAAKTCATAACTTGTTTTTCTTTTTTAGAACATGCTTAATAGACGATCTTTTAGTGATGTCTTACCAGAGTCACCCAAGTCAG
CGCGGAAGAAAGAGGAGGCCCGCCAGGCGGAGTTTGTTAGAATAGGGCAGGTGGGTTTTCTTCTGAAACCTTTTCTGCGAGACATGTAGTTTTGAGTTCC
ATCCTAACCAGATGGCCCATGTGCAAAGACTTTGTTTGCCTGCTGCTGTAGGAGCTCTGTAATTTCTGTTAGGATTGTTGTGGCAACCACGAGTGAGATT
TTTGAGAACYGAGTAGGTGCAGTTCTCTGCAGGCATCACTGAGAGAGCAACACTCTGCAGAGGTAGGAATGCTACTGCCTCAAGGCAAGTAGCCACAGGG
CCCAGCTCTGGGCCCCCCTCTTCCAGAGAACACAGATCTCTTGCCTGCCTCCTAGGAATTTTCTGAAGAGTGAGGAGCCGATTTGGGAAATGCCCCTTAA
ACCCATGACTGGCAGGAGGAAGCACAGAGTGGCAGTGGCACTCACAGAAGACTTGAATTACCACCCTATGACTTGGAAACAATCCAAGTCACCACCAAGT
TAGGTGGTGCCCAGTCATCCCCTTATTCCAGGCATTGGAGAAAATCACTCCCTTTGCCCCGCTCGCATGTGACACTGGTATTTCTCAGTTCCGGGAGGCG
ACACAGCTGTCTGCCTTGATCACACATCACAGCATGGAGAAGGAGGAGTGCCCTCAGCTGCAAATAAGGTTCTGGCCCAGAAGTAGAAAGCTAGACAAGG
CAGGTGGAGAGAGGAAAGCCATGTAATCAAGGGAAGCTTAGTTACAAGGTTCTCAAACATTGGTTCTTGTTTAAAGATACCCAGACTTTATTCCCAGAGA
TTCTGATTCATCAAGTTTGAGGAGGGACCTGAGAATCTGCATTTTTTCAAGCTCATGGTTTATAAATCACAGTAATGATATATTGATTCATTGAAATGAT
AAAATGCATTTGGATAATTTGGGTTGCGACATTGTCATTAAGGCTTCACTGTGTCCAGCTAACTTCAATTCTTGATTAACAAGTCAGTAGAGGAACCCGA
AATGTTAGCCTGCAATTACTCCTGTTTTATTAAATTTTTGTCAAATCACAATTGTTTATCCTGCTGTACTTTTGCCGCCTAGTAAACTTTAATAGAGATC
TCTGTTCTGTAAGGCACTAAAACTGAAATCCATTGTGAGAGGGGATGCTCCATCAAGCTTGGCAGCTTCAGGGATCTGTAAAAAAGAGGTGAGTTCATGA
TACTTTCAATTTGAACTTTGAATTCYCCTTTTCCTTAATGAAAATGATTGAGATTATTGGAAAAAGGTTTGAGAGCAGAAGGAAGAAGAGCATGTCTACT
GCAGAGTCCTCAGGGAAAGCCCTAGATAAAACTGAGTGGCCATTTAGTGAGAGCCTCTGTGTTGCCATGGTATGCACATGCCTTCACCTGCTTCARTGGA
GCAGAGCTGCTGGAGGACCGACCTGGTCAGGCAGGCCAGGCCCCACAGGGCCTCTCAAGCTTTATGTGCATACACATCACTTGGACACCTTGACCAAATG
CGTGTTCTGATCCAGTAGGTCTGGAGTGGGGCTGAGAGTCTGTGTTTCCAACAAACTTGCACGTGGTTCCTGTGCTGCTGACCACAGACATGCTTTAAAC
AGCAAGGCTCCTGGGCAGTGCTGCTCAAGCTTCAGTGTGTATTGAATTCACCCCCAGAGTTTCTGATTGAACAGGTCTGGGGTGGGACCTGAAAGTTTGC
ATCTCTAATGGCTTCCCAGGTGATCTTGATGCTGTTGGTTAGAGGACCACAGTTGAAAAACCAATGCTTAATCTACAGTTCACTCAGCCAGCCAAAAAAT
TCTTTGGCTATTTATCTACATCCTGTTCCACTTTCCATGGGGGTAAAAACTAGGTGATCATCAAAAATARAACAGACAAAAATACACAAATTATATTATG
AATATGATTTTGTATTGTAGAACAGTACCCCATGTACTTAATTATATCTCCATTCAGAATACATAAAAGTTAAATGGGACAGATTTACAGCACATCACCA
GAGAAGTGTCCATTATAAAAGCAAAATAATTATGAATACATTTACCTTACTGATAAAGGTATAGATGATGTGAGCCTACGTGCTTTAAAGTCTGGTTTCA
GGAAAATGATGAGCTCAAAATATAATTAACCCTAAAAACCACAACCAACTTCAGACAAGACTACTGGAAAAGCATCCTTCCCAAAGGCTGCAGCAGTTCC
AGTGTCTGCTTGTTCCCATGCACAGTAGGAATTTACTGTTTCCAAGTACGTTATAGATACCAGATTCCAGTAAGATTTAATAATGATAAGAAGTTTTTAG
GCTTATATTAAAAACAGAAGTCTGTGGAACCATAACTTGTTCACCAGGTAATAACAGAGCGAGCGTCCATTGTTGAGGTCAGTACTTATAACCCACCCGC
AGGCCGTAGACCACCTCAGAGAAACTCAGCTCCAGAGGGCCCCATGGGCTGCTGCTGTGCAGTTGGCTCTGCAGAGGCCAGAGCCCCCTGCTGTTCCCAA
GTGTTCTGTGCCCAGAGAACCCGGCTTTGCCCACCTCTTCAGCACTCATCGTTTCATGAGCTGTGGTCATGTTCTTAGAGAGTGCCCAGGAACAGTCTGC
ACTTAGACATGAAAGCCTGGAGACCACATTCTCACCTGGTGGAATCCACATGAAGGCTCCCCCATGGAAGGGAGTCCAGGGCAATGGCAAACACTGTCTG
TCGTCAGACCAGAGCAACTGTGGGACCAGATCTGAGTTTGCTGCTGACACTGCACGCCCCAATATTCAACAGTTCCTCAGACCTCACATGGTCACTGGCA
CCCGTGTAAAGCAATGGACACCCTGCGTGCACCTGCCCATTAAAATGGGGCCGGGTGCAGTGGTTCATGCCTATAATCCCAGCACTTTGGGAGGTTGAGG
CCGGAGGACTACTTGAGCCCAGGATTGGAGACCACCCTGGGCAACATGGTGAGACCCTGTCTCCACAAAAAAAATTAAAAAAATTAGCCGGGCATGGTGG
CTCATGCCTATGGTCCCAACTACTCAGGAGGCTGAGGCAGGAGGATCACTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCATGTTCACACCACTGCACT
CCAGCCTGGGTGACAGAGCAAGACCTCGTCTCAAAATAAAATTTAAAAAAAGGTAAAATGGCATATATATGCAGCATTTGAGTACAATTTTGGGGGTTTC
ACAGACCTCCTTGAGACCTCTGTGGATCCTGTAGGGCCCTTGAATCTTATGGGGGAAGAACTTCTTTCTGCCTTAGTGTTCCAAACTTGTGTCTTCTGGG
CAGAAAACATATTGTTACTAAGAACTGGTTGTTCTGTTGGTGTTACCTAATGCTGATGTCTGTGTCTTCTCCCTATTGACATTTATATTAACTTTGCTTT
TTTTATGTCCTTTTGGTGTAAGTCACAAACTCAGAATTGCCAGAAATTTTCTTGGGGAAACGTCATTTCAATTAATGACCTGCACTTGTTTAGCCTTTTT
TCCATTTACAAAATGTTGTCACATTCTTTAGGGGATCTTTTTAGAACATCACAAGTTCCATCTTAGCAATTGGAATATTCTTTTTGAGACCGTGCATTTC
CTAAAGGGAGAGCATCCTTTCCTTTTCTAAGAGAGCAGTAACACACAGCATTTACCCTCAGCCCTAATGCCGTTTTCAAAGGTGGTCCTCAGAGCCCTTT
GCTTTACCTTGAGTATGCAAATGCATGTTTGCTTGGGTACTTAAGAACACACCTACATGTGCACATGCAGGCTCTACTACAGCCCCAGGTGGGACACATC
AGGCCCTGATGCCTGATTGAGAGTAAAAGTGAAGATGTAAGAYTTCAACTTGGGCCTGAGAATCTCCACAAACTGAGGCTTATCCAGTGCTTTGGAGGGA
AGCTAAGAATTCTGTTGAAAATGTCCACAATTCTGGTGTGACTAAGATCATGGAACACAATGCCTCCTACTCCACACATCCACGTGTGGCTCTAAGGCTC
CCCCTTTATGCCTGAGATGGAAATGAACTAAGAAGAGTTTGCTTGGTATAGATATGTCATGCGGAAACCTGACTAGCTCTGTTTACAGCTCTTGCCAAAC
AGATGTTATTTTTTCTTTAAGATTTTGTATCTTATGTGGGTCAATARGCATTTTCACGTGAAAACAATATCAACCTTTTAGTGCATCATGTATGTTTTAC
TAATTTGCTGAATCAGCAACACAGGAATCTGACTTTTTTATAGAATTATGTGGGACTTCCTTTAATGATGAACTAATATGAATTCTCTAAAACAGAGGCA
CCATTTGGCCCAACTCCCAGGTGTTAAAGCAAAATGCTTCCTTAGAAACCATTACGAATGCGTCAATTGCCTCTGAAAAACATTATAATACAGAGACAGG
TTATGGTGCCAGAAACCTGTGAATTCACTCTTTTCCTATTGCATACGTATTTGAAAGGAGACTTTTCTTCCTAAGAAAGGTAATTGAGTCCAGACCCCAG
GGTTTGGAGTGAYTCCGCTCCCACGGGGGTATCTGTGTTACTGTTTCAGGTGTGGTACTGTACATTTCCATTTGGTGGGCTGCAGTGTATTTTTTCTGGT
GCACTTATCTTCCGATGCTTGTATTGCCTCACAGCCGTGGGAGCCCCAGTGTTTCTGCAGTAATTTCCCTCATGAAGCCGTGTGTGCAGATCCCTGGGGC
CAGGCCTTGCTGGTTTCCACTGATGCTGGCGTCTTGCTAGTGGATGGTTAGTGAGTAGCTGCTCCTACAAATGTCTTTTTCATGTAACTTGTAGTACTTC
TAAGATGAGTGACCACCAACCAACTCCCTTTGGGCCATAAATGTGTGATCTGCAGAGAGTTTAGCGAAGTTTTATTTCCTTATGAAATTAAACCCTTGTT
TCCAGGGCAAGCAGAGGAAATATACTCTGAACCAAGCATGCTGGAGGGTGGGCCATAGGTTCTCTTCCCAAAATATATGATGGGACTGTGGATATCAAAT
GACCTGCAAAAAGAATCTCCTTTTCAGCCAATACTTATTATCACTCCAACATTTTACTTTAAATCAACAAGGATACATTATTTAGAACCACTGTCTCTGG
GACATTCCCTCTCTCGAAGTCTTAAAAAWAAAAAAAAGATTTCTGATTCAAAAAGTACTGATGTCCAAAACAAACAATAAGAATCTTAGATAACCCATTT
TTGATGGATATAGAAACAAAAAGATTTTGACAAGGAGACAGATTCCAGCTCAATATAAAATCACACATTCTGACAGCCAGATAGATCAGCCTTCCTGGGG
AGTTAGTCAGTTCTCTGTCGCCACAGATCAGCCACCGTCGCCCAGAGAGGGTGCAACTTCAGAGCAGGTGTAGACTCAAGGACAGTGTGGTCCCTTCCAT
CAGGAGTCCCCTTTAGATTATTCCAGACCCTGAATGAATGACAGAGGAGCTAAACACTAGTAACAGGTTGTCTCCTGGGCTTCAGAGGGAGCCATAGGCA
CAGAGACAATGTCTCCAAAGGGCATTTCCTCGGACTGCCCAGAAACAGCTGCCCAGTCTCTGGTTACCGTAGTGACATTTTGTGAGAATCCCAAAGCCAC
CACTGTGAGAATGACATAATGGCCTAAAACTGTGGCATCTTCCCATCCTTCAGTACAACCTAYACGTCCTCCCTCCGACGCTTACTGGGCACATTTACCG
AACACCTGCTGTGTGCCGGGGCCCCACGCCAGGTGCCTTCTGAAGCATGATAGGAGATGTGGGCCGTGCTTCATAATGGATCTATTTCTGACCTCATCTG
TTATTTTTGATATGTGTTTCAATTGTGTGCCCATAGTCATTGTATCTATAACGAACTTAAGGCAGATAATTTAAAATTCATAAATTTATAATTTAAATTC
AGTATGTAATTTTTGAAATTACAAAATGATTGGAAACTGTGATCTGAAAGAAAACCTCTATGAGCCTCGAGTTTCTCTAAATTGGAGATAATTTTTTAAG
ATGCTGAGAATAGTTTATAATGATGAAAATCGGTGAAACAAAATGGGATGATGATCACAACTAGAAGGAGGGGATTGTAGGGGCTAAATAAAGTTATCTG
TATTAAGTGTTTACATAGTGGTTGGCACATAGTAGTAACTTATTAAATGGCAGCTATTATCTTTACTATGTCTCTATGAACTTGCTAAGAGGTAATAAAA
TCCTTCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGGACTTTGGGAGGCTGAGGTGAGCGGATCACAAGATCAGGTGTTCGAGACCAGCTTGGCTAATA
TGGTGAAACCCTGTCTCTAACTAAAAAAATACAAAAATTAGCCGGATGTGGTGGCGGATGCCTGTAGTCCCAGCTGCTCAGGAGGCTGAAGCAGGAGAAT
CACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCGCAGCACTGCACTCCAGCCTGGGCAACGGAGCAAGACTCCATCTCAAAAAAAAAAAAGT
AATAAAATCCTTAGATCTTGCCAAAAGTGAAACAACAACAACAACAAACAAGAATGCAAACAACAGACTTTAGAAGTTTAGTGCAGTCTGTTAGTTTTAT
TGATGAACAAGCTGAGGCCTAAATAAATGATATGAGTTACCCAAGATCACAAAACTGGTTAGTGGCACGTCTGGGACTAGTACCCAGATGTGATTGTTAG
TCCAGGGCTCTTTCCACTAAACCAACTACATTATATTAAACTCTACCAATGTCTCTAACACAGATTTCCAAAAATATAGCCCTGGGCAAATAATTATGAA
AAATTTTGTGATTTAAAGAATGTTCACTCCTTCCCTTTTGCCCTTTTGGGAAAGAGAAAGCATGCTTCATAATGACTATTCGTAAGCTTGCCTAAAACCA
AAAGATTCTATTTGAGTTGCCTCTATTTTTTTAAATGCAAAATCCAAACCAAAATTACCAGGTTCCTTTCTGAAATTTTTATCTTAAGGATCCAAAATTT
AATGGAAATGTCAGATGTAAGGAGTATTGTGATTTGCCARGAAATTCTTTCTTCCAAATTTGAAGGAAGTCGCCTTCAACAGGATGGTGGGTGTAGCTGT
TTACACCCACCATTGCTTTGGTTTATGATTTAAACTAGTTTTTTCATGTCCTTATTGTACAATGATGCTTCTGTTTGTTTTTGCTTAAAAAAAAAAGAAG
AAGAATCTTCAGGGCCTTCTTTATATTTCTTGTTGTGCTTTTAAGCCACAATTCTCTTATTTCTTTGTTTACCTTTCTCTTGTCTACATTTAATCATATT
ATGAAATGTTTCCATGAGTGAATCCATCCATTTTGTTTCAGACTGAGTTCCACTCTATCCCATTAGCCTTTGCTTAATTTCATTAGATGTATCCCTTGAG
AGTCTACTCCTTTCAAGGTCATTATTAAAAATCAAGACCTTTTGTATCCTAAGTTAGCAAAACCTACTTTGAAAGGAAACTGAATACTGATTAAATATGC
TCTCGCCCTGTGTTTTGGTTTTGCAGTAACAGAAAAGCTGGTTCTAAAAGATTGTTCTTCATAAAGAGATTACAGGAAGGAAAGCATTGTCATCAATCAG
TCATTAAATCCACCTGTCACTCTGTCRGGTCCTTGCCTCCTCCTCCTTCTTGTGTTGTATACAAACCTGTTCAGCCATCTGAGAAAGACTGGATGGAGAT
TAAGTGCTAATTCACTCTGTACACAGCTCGGCAGCTGTACAATGTATACCTCTGTTCCTATGTAAAATGAAGGGCCTCTGTCATTTATTAATTCCYTGGA
GTGCTGTTGCTGCTGTGGTCGCATCTCTATCCACTGGGATATGGGGCTGCTCCAACATCCCATTTTATGTTCCAACACTGGTGAAGAGAGCATGGCTTTG
TCCTTGCACAGGCTTGGGCTCCACATCCTGGAGGTGTGACCTCAGACAAGTATTAACACCAGGCCTCAGGCTCCTCCTTTGTTCAATGGGAGTATTATAA
GTTCCTACCTAATAAGGTCATTGGGACATTTAATTTAAACATATGAAACCCTAAGCATTAGGGTCTGGCATATGGAAAGCCCTTAGTATATGTTACCTGT
CCTTGCTGTGACTGCTCTTCTCCCACAAATGGAATAATTGTAGTTATTTAGCCAACTATGATGATGGGTATGAGGATGATCGTCCAGTGTTTTGAAAAAT
TAAGTCTGCCCCAGCGGAAGTACAAAGACCCTGAGAATTAGTTCCATTTTGTGGGAGCCCAGGGTAGAGGAGGAAGAAAAGTGGTTGATGAGCTATCATA
AAATTTACATTTGCCCCAGTAATTGAGAGGAACAAGAGACAAGCCCTAGGTGTAATACTAAGCTTAGCTTAGTCTGTGTTCTGACAAATCTGAGCCCTCA
GAGGCCTGCAGGAGTGGGAGCTCCTCTCCCCACTGTGGGGGCAGTTATTAATCCTGATGGTGAAAGCTCTGCTCCCTCCTGGACCATCCAGGACGGGATG
AACTCCCAACCACACTTAGATTTCTGGAAAAGAAAAGATCCTCAGGGCCCCTTGCTCCTAAATTTTAATTAAACCCAACCCCACAGCAGAGCATTTGCAG
AATAAATGCAGGTAAAGAATGAGCCAGCCACTTCTCCTGCCCCAAATGTCTCCACCATCCCGGACACCTCTGCCTTGCCCTGATTCTGCCRTCCATCTCA
GAACAGACCCTTTTGCTTACAGAACTGAATGGAACAGCCTTAGTAATTATTTTAGCCCCCTGTGTCCTCGGAGCCCTCAGGAGCAAAGTAATTGTTAGCA
ACTTAGATTCTCAGTAAGTAACCTCAACAACAAATCCTGTGTGGAAGTGCAATGTCTTGAACCATCCATTTATTGGAGATTTCCCTGAGCATTCCCACTT
CAGTTCGTTTTTCCTGCTGTTTTGGCAATTTAGTTAATATTTCTCTTTATTTATGTTTTTGTCTAAAAAGGAGATTTCCTATTCCTTTGGGAAAAAATAC
TGAAAATGTATAGGCAAACTACTAYTGCTACAAACACGGGACATATTAGGGTAGAGTGTGTTTATATTTATCTTAAGTCCAAAAGGAAATTTTAATTTTG
CTTTCTTGAGGTATGTACAATATGACCTAAGATATAATGCAATTTCAAATATTACATAAAAATGAGAAAATACTTGAGAAAAATGGCTGCTCTTTTTTTT
TTTTTTTTAACTTGGTGTTCAGGCCTTTGGTACAACCCTAGTAAAAATTGGTATTGAGAGATGTTGCTTTTTCTTTGATGAACAAAAATAGCGTTTTCAT
GCCTCTGCTGCTACGCCCCCTATATAGAGTTCGGGATATAGAATTGCCTATGGGAAGAAAGCATCAGTACTTCTTCCTGAGCTAGGAGGAGAATAGTGCT
TGAATGTATTTTGTAGAGCTTATGAAAGCCCTAGAAGCTGACTTCCTTCCTTGCCTAGAGATAACTTGGGTTCAAAACTACCCACAGGCACGTTTGGTGG
GTTCTGGAAAGCGTGGGCTGGGTTGCAGTGATGGGTAACCAGGTTTCCTTTTCCAGATGACCTTCCATCAGTGCCCGTGTTTGACAGAACTCTGCCAGTG
AAGCAAATGCATGTGCTTGAGACCCTGGACCTTCTGGTTCTCAGAGCAGACAAAGGTGGTATTCCCTGCCGGGTGGCATGCTGTGGAGGAAGGAAAACAG
TTGCCTTCTGCGGCCCACACCACAGGTCGCCAGGGTCTGACTGCATAAGTTCTGCCAGCTGTTTCCTTTCCTGATGCTCAGTGCTTGGGRTCCCTCAGTG
GCCCCTTTGTTCTCTGGGGAGGGAAGCCRTTGGGGGAAAGGGKTGCATACGTAATTGCATTGTCAGGTTAAAGTGGTGTGGGGTGCCTCCTGAATTCCAG
AACACCTCCAATCCTAGTTTTTCTACACAGTCTGCCCCTGGAGGCCCTCCAGGTTACCTTACTTTTCCATTTAATCTCCTCCTCTGTCTTTTTTATGTCA
CCAGGAAAAGATGCTCGCCTCTTTGTCTTCAGGCTAAGTGCTCTGCAAAAGGGCCTTGAGGGGAAGCAGGCTGGGAAGAGCAGGTCTGACTGCAGAGAAA
ACAAGTTGGAGAAAACAAAAGGTGACTTGATAGATTGGTAGATTCCATTCGATTCGTTTTTTTTTTTCCTCAGGCTGCCCAGGTTTTACTGAAAATAAAA
ATGAGTAGGAATTTGATCTTATTAGTTTGTTTTTTGTTTGGAAACATCACAAAAATARCATCACTGTTTCCAGAAGGAGCTTGAAAGCTAGACAAACACA
TTGAGGACTAGAAGAAATTCTAGGCCTTGCATAACAGGTTCTAGAGATGCATTAAACTCTATTAGCAAATCTATTACTGAAGAAATGTTTAGACTGGTTC
CCAGAGCTCTAATTACTTTAATTGATGTCATGTCGTAGGTATGAAGTTAAGTCCACAAACTCTAGAATATAGGAAGTAGGACTTTCTTTCCTTTCCCTTC
CTTTTTCCTTTCCTTTCCTTTCGGCAGAGTCTCACTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTACAACCTCCGCCTCCTGGGT
TCAAGCGATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGTGCCCGCCAGCATTCCCAGCTAACTTTTGTATTTTTAGTAGAGATGGGGTTCC
CCCAAGTTGGCCAGGCTGGTCTCGAATTCCCGACCTCAGGTTATTCGCCCGCCTCGGCCTCTCTAAGTGCTGGGATTATAGGCGTGAACCACCGCACCCA
GCTGGGAATAGGACTTTCTTAATTTTCCTGTAACTCAACCTAATTTTAATATGTAGTCTCCATTTTGCCTAGTGTCGGAAACATTCTCAGTCCATTCACT
GAGTTATGCTTAATTTCCAGGGTTCCTAGGTATTGCCAAATTGTCAAGGTCTGGGGGCTTCCACACCCGCATGTCATGTGTAAGGCATCATTTCTTTCTC
CTCCCAGGCTGCCACCTGTATGCTATTAACACTCACCACAGCAGAGAGCTGAGGATTGTGGTTGCAATTCGGAATAAACTGCTTCTGATCACAAGAAAAC
ACAACAAGCCAAGCGGGGTCACCAGCACCTCATTGTTATCTCCCCTGTCTGAGTCACCTGTTGAAGAATTCCAGTACATCAGGGTAGGTTTGCTCTTTAA
ATCATTTATCTCCCAACCAAGTTGTCTTGAAGCAGACTCTGTCCTTCCACCCAGAGTTTGTTACCCACTGAGGTTGTCCCACTGTTTAGTAGMCAACTAG
GGAAACCCTCATCTCTGGTGCCCTTGTTTCCCCCAGAAGACTAAAGCTAAAGCTCATTCATTCCAGTGAACATCTACGGGTGCTGTTCTAGGTACGAAGG
ACACAGCGATGACCAAAACAAAGTCTTCTGATGGGGATTACTTTCCAGTTGACAGTTAACAGAAATAAGCAAATAAAGCTATGATGGCTGGCATAAAGAA
ATACTAAAATTAAACATAGAGGAGGGCCAGGGAACAAAGGATAATGGAGCAGGGAGTTGGGAGATTCTGTTTWGAAAGAATGTCCCAGGAAGCCCTCTCT
GAATAGGTTACCTGTGAGCAGAGATCCAAAAGAAGTATGGGAGTGAGTGATGAGGGTATCTAGGGAAAGGATATTCCAGGCAGAGGGAGCAGCCAGGCAA
GGGCCCTGAGGTCCTGTTGAAGGCACAGTCAAGAGCAGAGGGAACAAGGCAGGCAGGTCAGAGAGAACTGGGAAATATACTCTTGAGCCCTCAGGCCATT
GCAAAGACTTCGGCCTTGACTCTGAGTGAGATGGGAAACCACTGGAAGGTTTGAAGCAGAGAAGTGGCAGGTTTTGAAAAGATTGTCCTGGCTTCTGGGT
AGAGGGGAGCTTAGGAGGCCAAGGGTGGAAATAAGAAGGCCTGCCACGAGACCAGTGCAGCATCCTGGCAAGAAAGGTTGGTGGCTTTGGTAGCAGGAGA
GATGGGAAGAAGCCGTGGGCAATGCTTTCCTGCTTGCCTCAGTCAGCGGGATTTGCTGGGAGATTGAAGGGGGAGCTTGTGAGAGAAACCTCCAGGCTCA
AGTTCCCTCCCTGACATCACCATCTCTTATCTTTTAAAGACTAGGGTACATTAAGGTATGGAATATATCTAGCATTGGCCACTAAGATGGAGTATTTCTA
CTGGAGAGCTGAGAAGGTATTTTTTGCTTAGAGTTAAAGCCTTTTGAATTATGCCTATCAATTTCTGCTAATGTTCAACTTCAGGGGACAGAGCAACATG
ACAGTTAAGTTAAAACACGTTAAAATCTTGCTCTACTTAAGTGTTAGCTTTCTTCCTATAGTGATTTGCTATTTTAATGAAGATTTACATGCAGCATATA
CATTTATGTAATATGAGCACTGAAATTAAATCTCCTGAGTTTATATCTTAGCTCTACCCTGTGTAAACTTTGTGATGACTTTTAAGCCTCAGTTTCCTCA
TCTGTAAGACAGAATAGTAGCTGTACCTACCTTATAAGTAGGATTCAATGAGAACAGTGCCTAGCACATGTTAAGTACACAAATAGATTAGTTAGCAATT
ATTAATACTATTACTGAATCCCAGGACAGGACCAGACGACATAAGGGATAAAGCAGACCATACTGTTGATTGCATTTTGTTTAATTGTTTCCTGGCCTCG
ACCCTTTCCAGTAGACAGAGGCCTGAGTCTTGAGGACAGGTTATGGGAAGGAGATGTCGGATGTGACCCCTGGCACTCCTCTCTTGTCCCTTCTTCCCTG
TAGCACGGGGCTCTGCAGGAGCCTGGAGAGGGTGCCTTCTCTGTAAGGAGGGAATGGRCAGTGGGGCTTGGCATGGAGCTGGCTGCTCTGTTCTCACCCC
TGTCTCTTGTATCCTCACCAACCACACAGGAGATCTGTCTGTCTGACTCTCCCATGGTGATGACCTTAGTGGATGGGCCAGCTGAAGAGAGTGACAATCT
CATCTGTGTGGCTTATCGACACCAATTTGATGTGGTGAATGAGAGCACAGGAGAAGCCTTCAGGCTGCACCACGTGGAGGCCAACAGGGTAAGCCAGCGG
TTGTGGGGACAAGTGAGAATCAGAAAAGAGTAATCATCGTTGTGTATTCTAACCCTGACATGCCATGATTTGGATTTCTTTAAAATTATGTACTATTCAT
CACATCAGTATTATGTGATTCACTATTTAGACTGAGCCATGTGAAGTTACCATTTTTATAGGTCAGAATGGTTCTATCTATTATCATGTGACTGTCCCAT
TTGCCCTGTTTAGTTTTCAGATCTTTCCTTGCCATTCCATCCTTCCGAATAAAAGAGATATGAAAAGGCCGGGCACAATGGCTCACGCCTGTAATCCCAG
CACTTTGGGAGGCCGAGGCAGGAGGATTGCCTGAGCCCAGGAGTTCGAGACTGGTCTGGGCAACATGGCAAGACCCTGTCTGTATTTAAAATTAAAAAAA
AAAAAAGACATGAAGAGTCAAAAGGCTGACTATAATAACTAAATAAATGAGAGCATTTGTTAGATGATTTGTCCTGGGAGGGTCCTTGGAGAATAAGCTT
GACCTCTGAGGCACTGCAGACTCTCATCTTGGGGACTGGGTGTTTGGGGTGGGTACTGCACCCTCCCTACCCCCTTAAAAACCCACTAGGAAAGGAAGAA
GGGGTGGAAACCCATTAGGAGGGAGTGAGCAGGCAGATTTGCCCTGAGAGTCTACACCCCTGGCCTGATGCACAGAGAACAAGGATGTCCTAGTGTGGCA
CAAAATCTAGGGCCACCCAAAACTGCTCTCATGTTCTAAAGGTGACTGTGTGGGGTTTGAACCTTGGCGCCCACTGGACAGTGGTGAGCACTCACCACCC
TGAGGCCTGGCAGCCTGTCTGTCACTGGAGAGCGTTCARCACTGACACTGACATTAGCAGATCACAGAGCTTTTCAGCCCACGTATGTATCTCTGTGAGG
CAGGACAAGGCCTGCTTGTCAGTGAGCCATTGAGGTTTGCAGCATGCAGTGCAAGCCAGTATTCTGGCCTAGGTACTGAGGAAACCACAGAATGGGGATG
TCAGCCCCAGGGAGACTAACTCCTAGTGAGGGCTTCCAGACCCACAGGCTACCTCCAGTCCTGTTCAGCTAAATCAAACAGACTGCAGAATTCTTCCAAT
TATGCTTTACAACTTGTATTAATTGTAAATATGCTCTGTATAAATATTAAAATTGCTAATTACTATTTTAGGAAGACTTAAGACCTAATTAGAGCAAGAT
TTTAAGAAACAGAAAAATAAGAAATAGAAAACTGTAGTTGTGATTAGGAGACCTTCTTGTCTTCAGCTATTATTGATCATAGAGTGGTCTGTCATTTCTC
TTATCTATATTGGTGGTGGCCAGACTTGTCTGCAATTGGAGTCATCTGAGGAGTTTGAAAATATACCACTGCCTGTGTTCCTCCTCCAGGGATTTCCTGG
GTCTGGGGTGTGGCATGGGTTTGGGTATGTTTAAATGGTCCCCAGATAATTGTAATATTTAGCCAAGTTGGGAATCCCTGGTATATTTCATTGCTTTGCA
ACCCTGGCTGTCATCCCTTGGAGAGCTTTAAAAAGGTCAGTGTCTGACCCCAGGCCAAGCCAATTATATCAGAATCTGGGGGGGTGTGGTACTTGAGAAC
CAATATTTGTTTAAGTCTGCCCCCAGGTGATACTAATATAGACCTAGGAGAAGGAGTGGGTCCTGAAACTTCCTAATTTAAAGCTGGGAGGAATGCCGCC
CACTCCCCCCACCCGCCGCCCCCCACTGCCTGGGCATCCCTGGACCAGCATGTCTTCCTGCCACTGACTTCTGAGGAGCTGGAGCCCTGATTTGTACTTT
AAAAGTTCTCACCCTCTTGGCCGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGCGGCCAAGGCCGGCGGATCACCTGAGGTCAGGAGTTCGA
GACCAGCCTGGCCAACATGGCGAAACCCCATCTGTACTAAATATACAAAAATTAGCCGGGTCTGGTGGCACACGCCTGTAATCCCAGCTACTCAGGAAGC
TGAGGAAAGAGAATCGCTTGAAGCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGCGACAGAGTGAGACTCCGTCTCC
AAAAAAAAAAAAAGTTCTCACCCCCTTCTTCCTTCTCAAAACTGTGTAAGCAGCCAAACAAAGCAGAAATGCCATGGTGCAGCAGGTCCTTGTTCAATCA
GTCCTTTTCCTGGCAGCTAGTTTCCTAAGACTTAGCCAGCTTTTGCTAGTGGAAAAGTCCTCACCTCATTTCAGAGAAACTTTCTGACAAGTTCTATTTT
AAAATAAATCATGCTTAAGTGGCTGAAAATTATGCAGTTTACTTACTCATCAGGGTAGCTATAGAGAATATCATTTTATTAAATTTCTTTTATATGGTGG
TTTTTATTATTTACCTATATTTAATGTCCTATAATTCATTATAGGATTTCTTTTTCCTATGATTTGTAAAGACCCTGGATAAATTGGGTTAAAAACCATT
TTCTTTGATGACTTCTGTGCTTTGTTTTTTGGATGGCTGTCAGGAACAACTCTCAAGTTTTCTGTCCTCTCTTCTATGTGCTTCTTAAAAGACAAATATA
CAAAGTTTTTTCCTAAGAGAAAAAAAAATGTATTTTTGTTGTTGTTGTTGAGACTGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTC
GGCTCACTGCAACCTCTGACTCCCTGGTTCATGCGATTCTCCTGCCTCAGCCTCCTGACGAGTAGCTGGGATTACAGGCACAGCCACCATGCCCAGCTAA
TTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCCGCCCACCTTGGCCTCCCAAAGTGCT
AGGATTACAGGTGTGAGCCACCGCACCCGGCCAAGAAAAAAAAGTTTTTAAGGRAAAAAAAACCCTTCCCTATTTCCTGGCTCTGAGAGGATCAGCGTGT
ACAGCCCTCCCGTGGTAGAATGGCGGCTGCACAGCTCCCAGCAGGCACRGTGCAGTGCACAGCTCCCAGCAGTGCTTAGTCAGATGCACTCACTCATCTT
TCAAGGAGGGTACTGTCTGTCTGGGGAGATGAGCCCTAAGAAAATGAAAAAGATAATGAGCTGTATGTTTTCTAATAGCTGGTTAGAAATAGGCCTTGTG
GGAACAGGACTAGCTTTTTACCAAGATGTTCCTGCAGCTCAGCACCCAGGGCAGTGGGGACAGGAGAGAGAAGCTGACACAGCGTAGGTCATTGGAATTT
CATTTCCATTCCGTCTACATTCGCTGCCTGCCCGCCTCTGTGGGCACCAGTGTTAACTGGGCAGGCCTCGCTTCCTGCTCCCATTCCTCCTCTCTTAGCC
AGGACCACTTGATACCTATTTCAGGCTTGTACCCACCCCGGGTTCTGTAACAATCCTAGCTCAAGAGAGGAAATGTTTAAGAAGCACTAAAGCAACATTC
TGAAAGTCACTGACAAGTTCACTGTACCAGTGGGCCTGCTGTGACCCACTGCCGCTGCTTTAACCACCAGCACTGACCTCATTCCCAAAACCAAGTGCTC
CTCTAGGGGGAACTGCAGGCATAGCCATGGGATCTGGGTCCCTGGTTTATGGGAGGGGCTCAGGTCCTCATCTTGACGTCTGCCCAGAATCCAGTGGTTC
TCAGCTGGGGGCTGAGCCCAGAATCACAGGGAAGGCTGAAGGCAGAGCCAGCTAGGRGAGGTACAGTTCCTACTTCACTTGTTACAAGTCTGTGTTTTGA
ATTTTTACAACCACCATACATTATTTGTTATCATTTTAAAGTACCAATAGAATGAACTACTTATTACTTTTTATTTTTTTTAAGAGAGAGAGAGAGAGAG
AGAGACAGGGTCTAGCTCTGTCCCAGGCTGGAGTGCAGTGGTGCAATCATAGTTCAATTCTCCCTCGTTGGCCTACCAAAGCACTAGAATTACAGGCGTG
AGCCACCATGCCCAGCCAGAACTACTTATTGTTAATCAAACTTATGAAATAAAGATTTAATGCCTATGTCCTACAACAGACCTGCCATATCAGGGTCTCC
AGGAGCAAGAACCCCACCAGGCCCCTGTCCCAAGGTGGAGACAGACACCTATATCAAAGCATAAAATAGATCTCATTGTGCTAAGTGTTAATAAAGGTCT
GAATAATAAAGTGCTGTGGCATGCCTGAGGAGGAAGTGGTTAAGGGTTAAGTCCAAGCCTGTTTCTGAATCCTGGCCCTGGGGCTGAAGCCTGCCACCAC
CTGTCCTGCAGCCCAACTCTCTGAATATTGCCACGTCTGTCTGCCTGTCAGCACAGCGTTGGAGCCCCTTGGTAGACTTACTTGATGCCAAGTACCCCCC
TGGTGTCTGTGGTCATTGTGCATAGATCTTGGTCTAAAAGGCTGCCTGAACTTCCTCCATACGTGTCACCACTGCCACCCTCCCTCACCCCACCCCAAAC
ACACACACAGGCCTTATCTCTAAACTAAAAGCCTGTCTAGTTCCACCTTTCCCACTGCAGTCAACCCTCCCATAATTATAATAATTGTGGCCATCACTGA
ATGGCCACCTCTGTGTACCAGGCCCTGGGTCAGAGCATGTCATAAGCGTTATGTCTTGGAAGGGGCTCTTCATTTCTCCTTTTTTTTTTTTTTTTTTTTG
AGACAGAGTTTCGCTCTTGTACCCCAGGCTGGAGTGCAAGGCACGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAG
CCTCCCAAGTAACTGGGATTAGGTGCCCACCACCACACCCGACTAATTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGCTAGCYAG
GCTTGTCCTGAACTCCTGACTTCAGGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCTGGCACATTTCTCCATTTTTATT
GAAAAGGATACTGAAGTCAGAAAGAAGAAGTCACTTACTTACCCCAGAGCACACAGCTAGTAAGTGGCAGAGGCAGGACTTGGACCCCAGCTGGCTGACT
CCAGAGACCATGTTCCCACAGCTGGTGGGGATAGCAGGTCCAGCCACAAAGCTGGTAGCACTCGGCCCCTCCCGTGGAGAAGCTCCCAGTCTGGCAGAGC
AGACACGGTGCAGCACAAAGCCTCTAGCTGAGATAGTGAAGTAAAACTAACATGTACAGGGACATCTGAGGAGGAAGGGATTYTAAGTCAAAGTGGTGGG
GCCAGGAAGGCTCCTTTCTGGGGTCAGAGGAGACTCCAGGACCATCCTTCATGTAATATACCCATTGGTGCTGGTTCCTTATCTAAATAAAGGTATCAGC
CAACATTGAGCATTTACCGAGCTCCAGGCCCTGTGCTAGGTGCTTAGATAAGTTACCTCCTGGAGTCCTCAAGCCAGTAGGCCTAGATACTCTTATTTTC
TACCATCTTACAAACGAAGAAACTGAAGGTCCGAGAGGGGAAACAACTGGCGTGAGTGCGCATGCCTCTGAAGTGATGGAGCTGGGATTTCATTTACTCA
CTTGCCCATCCGATGAGTTTATTCTATCCCTGCCACCCGCCAGGCCCTGATCTGGATGATGAGGGGCCAGCAGTGAGCAGCACAGACAGGCCTTTGCGTC
ATGAGCCTTAGATCTCATGGGGAGGGGAGCCACAGGGAACAAACAGACAAGAGAGCACCAGAGGGTGAGGGACRCTCTGCAGAGAGCCTAAAACACAGGG
CATGATAGGAGCCATGGGGATTATTTTGGATTTGACAACCCCCGGGTCTGTCCAATGCCAGTGCTGGAGCTCTTGGCCACTGGTCCTCACTGTCACTCCC
TGCTGAGCTCCTGCAACTTTTGGTTGAGGCATTTGCCCCATTATACCTTGTTTTATGTACTTATGTGCTTTTCTGGKTTTTTTTCTTAAGGGGTCAACCT
CACCTTATTCTTTTCTGTATCCTAGTGGCACTGAATACAGTGCTAGATAATGACAGATGGGAGAGAGCTGGGGATTCCATTGGAAGGGGCACCCAAGCCC
AGGCAGTGGCACTGGCTGAGGATGGCCAGTTGGGGCCTTGGCACCATAATGAGACCTTTTAGAGGTGAAGGCTGTGTTCTGGTGACACCAGTGAAGAGAA
GGGTCAGCCAGTGCAGGGCCAGTGGGAGGAGCACAGTGTGGACGGAAGGGCTGGGACAGAGGAGCCAGCAGGAGCCCACAACATGGTGCTCCTGYGAGGA
GGTCAGGGCTTAGCCTAGAACAGCAGCAGGGGCACAAAAAAACACCTGAGAAACTGTATGAAGAGGCTGCTGCTGGACTTGGGTTGGAGGTGGCCCTGAG
ACTTTGAGAATAGTTATGCTAACAAAAAGGAGGAGTTTTAGAAGGAAAGCTGGTTGTGTGGGAGATAAAAAGCCAATAGCCTTCACTGAGTGCTCATCAT
GCATGAGGCCCTGTGCTAAAATCTCTGCCTTGTCTCACTGAATTCCCATTACAATCCAGCAGGGTCAGTGTTCTCATKATGCCTGCTTTACAGACGAAGA
CCTAAGGCCAGAGGYTAAGCCATTTGCCACACACCACAGAGGCAGTAAGTGGCCTAGACAGGGCTTGATCTCCCATCTGTCTGCCCAGTCTGTGCCCCTC
CAACCACCCCACCCCCAATCCACTACCTCCTGCTTTTAATGACTTGGATGTGGAATCAGTTACATCTGAGAACAAACGACATAGTCTAGGGGCTGCAGCC
CTGGGGAGAATGTGTGCCTGAGCCCGTGAATTTAGGGTTTTGGGCACAAAGCAAAATTTGGAGCTATAGAAGTGGGGTTTTACTAAGGAGAGAAGAGCCA
AGAAATTGAAGAATAATCTGAGGTGGGAGAGAGGGCAGGAGGCAGAAGATGTCACCCATCAGAGGCTGCAGAGGGCAGGATGGATAGATGAGCAGAGGCC
AAGGCCTTCGGTTGGGGAGAAGGAGATCTTGGCTGAGCTCAAAGGGTGGTTTTCCTGGAAGCACAGGAGGCCAGGCTCTAAGGGTTGAGAATACAAGTGA
GGAAGTGAAAGGAGCAGGAGGCTCTTAGAGGGCTGGAGTTTTGAAAATCAAGAAGGACCAAGGACACCATCAGGTTGAGTGCCCTCCTCTCAAATGCAGA
AACTGAGGCCCAGAGAGAGGAGTTTGCCCCAGACCACGGAACTAGGTGTTCTGACACCCTTTTCATTGCACCATGCTGCCTCTCTTGACATGAAGAACAG
AGAAAGAATAAAGTGTGAAGACATGCCGTGGCGATTTTAAGGTGCACAGACTTTATCTGTTGGAGGCAGAAGGATGCCTCGCTGGAGGTACGAGAGCGGT
AAGGTTGAAAGAGAACCAGAACATTAGTTCAGATGTTGGCTGTGGCGTGTACCAGTCAAGGGAYTTAAGTGACTTCACCCTGAGCCTCACTTTCATCTTC
TGTAAAATGATAATTATACCATAATGTCAATAATATTAGGTTGATGCAAAAGTAATTGCAGTTTTTGCCATTGGAAATAATGGCATATAAACCTGAGGCA
TTTCAATAGAGAGAGGAGACATACCAAACACAGAGCTTCTCAACGGCTATGAAAAGATGATGAGAAAGTCCCAGAGAAGAAAGAATGGAGAGACTTTTCT
TTCTTTTTTTTCTTTTCTTTTCTTTCTCACTTCCATTGTATTATAATCCCAGCCCCCAATGTGCATTGTGGGTGCTGGTGGGGCAGACATGACCCTATGG
CACCTGCATGACAGAGGGCCTCGGCCTCCACAAATGCTCACAACTTGTAAAAGTCTTTTCACAGGGTCAGCATCCAGCCTGCCCACTACCGTTGCCCGTT
ATCATTGCAGGTTAATTTTGTTGCAGCTATTGATGTGTACGAAGATGGAGAAGCTGGTTTGCTGTTGTGTTACAACTGTAAGTTAAGGATGTGCTTTTAT
CTTTATTTGCTTAAATGGACTGCTTTTTTTTTTTCTGGGCAATTTAAAAAGATTGTCCTTAGATTTACCCAGTGTATCATTCCTGGGTTTGTAATTGCCT
TCCAGGAAGGAACTGAAAAATACCTTCCTCCCTGAGTCTCCCGCTGCGCACCAGGCCTCTTGGTGACACAGTGCAAGAACTGGCACTTGTGATGCTATCT
CCAGGATGCGCCAGTGATGACAATGGCTTCCAGTTAGGAGGCCCTTACTGTGTGCCAGGTGCCGTGCTCGGTATGCTGTGGTCATTGTCTCACTTGATTC
TCACAATGAATGCCCGCAGCAGGCTCGGTTATTATCCCCAGTTTAGAGATGAGGCAACTGAGGCCTAGAGAGGTGAACTCGTCAAGGYCTTGTGGCTACT
AAGCAGCAGGGCCAGGGTTTGCATCGGGTGCTCTCTTGACTCCAGCACCCACAATTTTAACCACTGTCRCTATTCTACATTTTGCTGTTTCTCAGGTATT
AATGAAATCAGCCTCAACCCAGGGTATCCAGCCTCAGTTGGCCTAGTTTGGATTAGGTGGCAGGGTAGGTGTTGGGCAGACCAAAGGTATCAAATGGGAT
CTTTAAGGATTTTCAGCATTTCAAAAGCTAATAYTATAATACATTTTCATAAAAATGATGTTTTAAGGGTAAAAGAAAAGAAGTAAGCTATTTTCCTAGA
TAAAGCTGCCCAGTCTAACAAGACATAAAACATGTTTTTCGGCCTAGGATTTTATCAATTTAGAGTGGTAATGCTGGGTCAGATGTTTTGATTAATTAAT
CTTTGATTAATAAGTATAAGAAAGCTAATTATTAGAAGAGAAGGTTGTTTTATAAACATCATCTTTCAAAATTCGAGATTTATGGGGAATAAATTAGGAG
AAGGTGGTTAAACCTCTTCAACAATAAATTGCTCTTTGGGGACATTTTATGCACAGAACTGTGCACCCTCCTCAGAACAGCAGGTCTTTAATGGCCCATG
TGATGAGAAGGGCCCCATCAAGGCAGCAGGAATGGGCCACTCTCCCACACCCCATGGGCCAGGCCACTGCCACTCCTGCTGCCCTGCATCCCCAGGTTTA
TGGCTGCATGGTAGAAGTCACTTCTGTAAGAAATTCACCTTTCTAAAATAAAGTATGCTCTTTTTTCTGAGACATCTATAGAATAACTTGTGGCAGAGTG
TTTTAAAAACTGATTTGGATTTTTTTTATCCTTTAACCGTGTGAAAGGATGGAAGGGATTTTAGGTGGAAGAGAAGTTAAGAACAGAAAGATAGAGCAGG
TTTTTAGAGTGGGAGAATTAATCCCAAAGAAAAAGAGGGCATGGAAACAAATGTGGATGCCATGGGCTCTGTGCCAGACTTGCCAGTGCTGACTGGAACA
GGCCGGGCTCCTCACTCAGCGGCTCCTGCCTCAGCTGTGGTTCCCGCAGCCTCTGGGTCTCACGGAACCCTTCCTTGGGAGTTCCATTTCTCATGGCTTT
GCTCATCTTCCGGCTTCAGGCTCTGACTTCATCTCAGGATGGGATCGGTGTGTGTCTGTTTTCATAGATCCACTACATCAGAAGTATCTTTACATCTCTG
TATCTTTACATCCCAAGGTCAAGGCCCTGGCAACCTCAGAGGTTCCCATAGCTTCAGTCTTCCCCAAACCATGCCACTTCCTCCCATTTCTTTGGGTCAG
GAATCTGGCTTTTGTTTTCCATATTTCTTTTTCCCAAGACATTGGGAGGCATCTGGTGAACAACACCAATAAAAYAGTTCTCTCCCCACGGTCATCCAGG
TCACTTCTCTAACTCATTCCTGCACACACAGCACACGTGGAATTTGCCTGTTTAGTCTATGTTCTTGACTTGATCACAGACGCCTGTACAATAAAGCCCC
TTTTCAACAAGGTGCTGCAGAATGATAATGCTYTCCCCAAAATCTGAAACTGATTTGTATCATTGAAGTTTTTTTCTGTATTAAAAATAAAGCAAAATTA
AAAATAAAYTTTATGTGGAGGAATTTTTATCTCAGATATGTTAGAGTTGAAAATATTTTATAATGGAGATTGCAACTTTCAGTTATGWGTTATTTGAAAA
AAATATATATTCACTTGGTAACCTTTAGGGGAAAAAATWGTATAAATTGTTCAATATGCTACTAATATTGGGTTTTTTAAATAATTAAACTCTATTTTTA
TTACCAGAATCTGTCTTTAACTGTTTAAAAAGACAAAGAAAAAGAAAACTTGGCTCTGCCCTTAGCACCCAGTAATCATTCACCTTTAATGCAAGTAATT
TCAGTGCTAAGGGCAAACTCTTGTGTTTGCTGATGATGCTTTAAAGATAATCATGCCAGGAAAACTAGAAAAGCTCGCATAAGTGCCCCTTGTTTTTGAT
GCGATCATATTTAACCTCACTAAGTCTTCACTTTCAGATAAGTAATAGTAAGAATACAAAACCTGCTTCTTAACAACTGTTGTAAGTACTAAGCAGGATG
ATACATGTAAAGCCCACAACACATTGCCTGACATGACAGGATTTTATTTTCCCACTATTTATTCCAGAATCATCAGAGTATTTATTCAGAACTCAGTTTT
TTAACCTTCATAGACTTTCTTTTTTTTTTTTTTTTTTTTTTTTGAGGTGGAGTTTCGCTCTTGTTGCCTAGGCTGGAGTATGGTGGTGTGATCTCAGCTC
ACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTAAATAACAGAGAGGCGACGGGATCCACAAGGTTGAAGAGGAGCACTCTG
GCTGCTGTGGGGCATTCGCCGAAGGGGTAGGGGTAGGGAGACCAGGGAGAAGGTGACTGCGTATGTCTGATGAGAGGACAGCAGTGGGACCAGAACTACA
GCAGTGGAGATGCTGAGAAGGTCAGGTCCAAAATACATTTCTTTTTTTTTTTTTTTTTCCAGATAGAGTCTAGCTCTGTAGCCCCAGGCTGGAGTGCAGT
GGCACAATCTCGGCTCACTGCAACCTCTGCCTCCCAAGTTCAAGCAATTCTCCCGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACGTGGCACCACA
CCCGGCCAATTTTGTATTTTTAGTTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTC
CCAAAGTGCTGGGATTACAGGCGTGAACCACTGTGCCCACCCCGAAATGCATTTCAAATATAAGGGCCAAGTGCAGTGGCTCACGCCTGTAATCCCAGCA
CTTTGAGAGGCTGAGGCGGGCAGATCATTTGAGGTCAGGAGTTCAAAACCAGCCTAGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATCA
GCCAGGAGTGGTGGTGCGCGCCTGTAGTCCTATCTACTGGGGTGACTGAGGCAGGAGAATCGCTTGAGCCCAGAAGGTGGAGGTTGCAGTGAGCTGAGAT
CACACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTGTCAAAACAAAACAAAACAAAACAAAAACATTTCAAATGTAAGAACCAAGATCCAGTACTC
ATCCCTCAAATCTGCTGCTTCCCCTGCCTTCAGCTTCCCAGCAGCAAGCACCAGCCTTCCACGGCAACACGGTATCTTCGTGCAGCTTTCCTGTTTACAC
TACTGCTTTTTTATTAAATGGTGTTCAGTTAAAAAAAAAAAAAAAAAAGAACCAAGCTAATTTGCTGATTAATCAAATTTGGGATGTGAGAGGAAGAAKW
AAAAAAAAGGAAGACTCTGCAGTTTGGAGCCTGAGCAGCTGGGAGAATGGAGAAYACGGCTTCCTGAATRAGGAAAGCTCGGCCAAGAGCAAGTTTGAGG
AAAAGCTCAAGAGTCCAGCCTGGACCCATCAGTGCCTTCCTGTACCCCCRTGGAGATGCCCAGTGACCTGGATGTGCAAGTCCAAGGCACTCAAGAAAGA
GCTGTKCCTGGAACTCTTTCATTAGCATATAAATGATGTTTAAAGTCATGAAACTAAAGAAATTACCAAAGGGAAGGGAGAGACAGAGGCACCAGCAAAG
TAGACTGAGGAAGAGTGCCCGGAAAGGCAGGGATTACCAGGAGCCTGCAGGAAGGAGGGCGTCCCCACCTGTGCCCCTGCCAGAGCAGGCGAGGCCTGTC
TGAGAGGGACCCTTGGACCCAGCGAGGTGGAGGTCATTTGGAAGACAAGAGCGGGCGTCTCTGGAAAGCAGGGGGAGCACTTTTTCACAGGGGTTGTGAG
GCGGTGGGAGAAGAGAAAGCAGACTGGGWGCACAGATGACTCTTCAGAGACTTGCTTTAAGGGAAAAAGAGAGGCGGGATGTAATAGCTACAGGAAGGGT
CTTTTTGTTTTTCTGAAGTGTGGGATAAATAGTAAGTTTGTAAGGCCATGGGGGAAGCTCCAATAGGGAAGGGAGGACTAGTGGTGCCAGGGAGAGGGGG
AGAATTGCTGGAGCAAGTCCCTGCATCTGTGGAAGCCATCAGGACACAGTGGGAAGAGGAAGGATTGGCCACACCTGAGAGCATCAGAGCCACAGGCAGC
CGTGGCAGTGGTGCCCAAGGTGTCCTCTCTGGAGCATTTGTTCTCTCGGGAAGTAAGGGCTCTCTTGACTGTGGTTAGCTTTTTGTCTTAATTCACTCTG
TCAGATACACAACTGTAAGACACTRAGATAACTGTTTTACAAGGCACAGTGGTCGCATCAAAGGAGTCCCTAAGCCCGATGGGCCAGGACATTCCAAAAA
GATTGGACATGGTGGGAGAGGTACTTGTTTCTGGAGCTTCTGATGGCGCTGTCACCTCCCCTGTTCCTGCCCCGCAGCRCAGGCCTTGATCCGAAGCTCT
GGCTTTCTACACCTCTCTCTCCCACGGAAGTGGGAAATATCAGGAGTTTAAAAAAAGAACTGTTAAACTGTACAGGATTCCATATGACAGGATGCCGTTG
AAAGTGTGCTGCCCAGAGAGAAGGGAACAAGGAAGCAGATGGCATGAAAAGAAGGGGAGAGCCTCCTTCAGTGAACCACAAACACCCAGAAGGCCAGACC
ATGGCCCAGCTCTCTGGCCCGGACCCCAGGACCCAGCTGGCACAGTGCTTGTGTCCATAAACTTTGCTGGACTGAGCCAAACCTGTGCCCTGTATCAGAG
AGMCATATCAGAGGCAGATCTATCCAAGGAGACTTTTCTGTCCCCACCTTTCTGACATTGCTGTCCACTCTCCTTTTCAGACTTCCTTCTCTCCCAGCTT
CTGTCCCATCTTCTTGCTTTCTTTCTGCCCCTCTGGCCCTCTTGTCTCAGTACTGTGCCGTTCACAGTCTCTTCTCCAGTCACCCCTTAAACGCTGGCAT
TCCAGAGGGCCCTGTCCTCGCCTTTCCATCTGGCGTGCTCATTCTCCCCTGCAAGCTTGATTGCCAGTGTGCTGCTGCTGACTCCCAGGTCTCTCCAGTC
CAGACCCACTGCTGAACTCTGCACCAATGTGTCACACTCCTTACTGTACAGCCCACTTCAGCAGCTCAAGGGCACCTCGGACTCAACCTGTCCACCCTGA
ACTCGAGATCTTTCCTCCTCACATGTGCTYCTCCTCTGATGTGCCCCACCCCAGTRCAAGGGCAGCACCTTCCACCCATCACCCAAGCCAGAGACACAGT
TGGCACAATGGACTTCTCCCTGCCTTTACTCCCCATCTCCAAGCTGTCTTCCCACACAGCTCAGATTCATTCCAAATGGCCTATCTTTTATGGACCAGTC
ACTCCTCACCTGGTCGGTGTAGCACGCACGGAATTTCTTGGACTTTGGCTCCGTCTTAGAGCAACCCACCTCTCCCCTCTGCACTGCTGCTGGAGTCAGC
TTCCTAGAACCCTGATGCTATCCTCTCACTTTCCCTAGCCAGGACTCCCTTTCCCAAGCCAGCCTCTGCCTTCCTCTGCCTTCCTTCACGTAGGAAATCT
CTATGTGATTTCCAGAGATTCCTGGAGACAGGAGAAGGTGTGCCCTGATTCTGTGGGAAGCACGGAAGGAACTGGTGCAGGCTGTGTGYGTCACAGTGTT
GGGTGACAACGGGAGCAGCTCACCAGTCTTGTTCTGAGCAAGAGGCTGAAGATTGAGGGATACATTCCCCATCTGTTTACCTGCCAGCTGTGCCTTGGTT
CAAGGCAAATTTTATGTAGAATATAAAATGCTATTACAGAAAAAGTGTCATAAGACTTTATTCAAGATTTTCAATGTCATAGTTTTTGGTTTCATAATGA
YAAATATATTTTAAATGTTTTTTAATCAAGTGAGTCACATAATAACATATCATTAATGTGTTATATATTTTGTTATCACATATAATTACATAAACAAATT
GGTCAATTGAACAAAATAAAGAATCCAGAAATAGATTTACACATATTTGGTAAATTGATTTTTGACAAAGGTGCGAAGGCAGTTCAATAGCAAAATAAGA
GTCTTTTTTAACAAATGATACCAGAATAATTGGATAGACATGTGCAAAAAAAATTTTTTTTGAGAAGGAGTTTAGCTCTTGTTGCCCAGGCTGAAGTTCA
GTGGCGCGATTTTGGCTCACGGAAACCTCCGCCTCCTGGGTCCAAATGATTCTCCTGCGTCAGCCTCCCGAGTAGCTGGGATGACAGGTGCATGCCACCA
TGCCCGGCTAACCAAAAACTTTGTTCCATACCTCACATTCATTCATTCATTCATTCATTTTTCTTCAAAGCATTCACTCATTTATTCAGAATATATAAAT
AAGAAGTACAATATGTCAGGTATTGTTTTAGAGGAGGAAGACACTATCCTTGCCCATCCCCATCCCAGGATTCTTGACACATAAACAAATTGGTGCAATG
TGCTATAAGAGATGTGTAGGGGAATAAGAGTACCAAGAAAGAAGCCATGAGGTTATGGGTGTTTGTGGGGCTGAGGATACAAGAAGTGTTTCCTGTAGGA
GATAATGATAATATGTGTTTAGTCTACTATGTATTCTTAATCTATATTTGTAAAACAATGGTCCACATAATGATATCTGACTTGTACAAAATATCTTTTA
GGGACAGTAGTTTTTATGCTGGCAAATTAAAATTATGCAAGAACTCTGGGACCCCTTAAGTTTTCCTGGGTCTTACTTACTTTGTAAATTTTAGCTCTAC
ATAGTGTAATATATGTTTTATCTGAATGTTGAGACACACTAAGGAACAACACACTTCTTTTTGCACAGACTGGTGGCAACAGCTTTGGAATGTGTTTATC
AAATTAAGAGACAAAAACACAAAATGCTACAGTTCAAAACTGGCTTTTTATTAGATCTGCTACTTTGCTTCAAACTTTAAACTMTACCCAGATAATGCAA
GAAACAGAGAAGTACCAGTTGCAGAAAACCCTCTGTGTTGATTGCCTTTTGGGAATTTTAACATTTGAATATACTTCCCAGTGTGGAAGCTTGGAGTCAG
GGGTGGACTCCAGAAGATACAGGGGCCTACCTAGCTGTAACCACATTATTATGAAGAACAAAATTACAGCTGAATTAAATTTTGAAGGCTGTCCTTGAGA
ATATGCATAGAAAGTTTTGTGTTACCTAATAGATAATTTGTGAGCCTGATGTCATTCAAAAGCCAGAGAAGAAATATTCAGGCTAAAACAAAACTTCCTA
CTTTCTTAGAACAAAGAGAATGTACTTCTTGTTGGGAAGCTAAATCCTAGGAAAGGGAAAACAAATACTCATAGATTGCAAGTCCCAGAGAATTTTAAAG
TGAGTAAGATCGAACCACCAGATGAACCAGGGACCTTCCTAGAGAACTGAAAAGAAGCCTCAAGTATTGCTATTGCTGTAGCGTACAGGCATCAGAGTGG
GTGTTTTAGTGAGTTAGGTTGAGATCAGGTGGCCTACATGAGCTCTGGGAACCAAAACAACAACATAGGAATATAGGTTAAATGTGTAGGTGGTGCTATA
ACTTTAAGTGGCTGAGTTCAAGATAATTTACAGTGATTTGGTCCTAGATGCTGTTATACTGGCACCCACCCAGCCTTTTTAAAAAGATAAAATCAGCCGG
GTCCGATGGCTCACGCCTGTTTTCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATCTCTTGAGGCCAGGAGTTCAAAACCAGCCTGAGCAATATAGTGAG
ACCCTGGTCTCTAAAAAAAAGAACATCAAAGCCTAAAAGTACAAAAGAGGTCTTTCAGGTTGCAGAGATAAGACATGGTCCATCACCCCCTTGGTGGAAG
AGTGAATGAAAATATTGGCCACTTTGATTTTGCTGCTGTTTAGAAGGACTCCTGGCTGGGCGCGATGGCTCATGCCTGTAATCCCAACACTTTGGGAGGT
TGATGTGGGCAGATCACTTGAGTCTGGCCAACATGGTGAAATGCTGTCTCTACTAAAATTACAAAAAATTAGCTGGGCATGGTAGTGCACACCTGCAATC
CCAGCTACTTGGGAGACCGAGGCACAAGAATCACCTGAACCCAAGAGGCGGAGACTGCAGTGAGCCAAGATCAGGCTACTGCACTCCAGCCTGGGTGACA
GAGTGAGACTCCGTCTCAAAAAAAAAAAGGAGGCTGGGTGCGGTGCTTCACGCCTGTAATCCAGGCACTTTAGGAGGCCGAGGTGGGTGGATCACCTGAG
GTCAGGAGTTCGAGAGCAGCCTGACCAACATGGTAAAACCTCGCCTCTACTAAATACAAAAAATTAGCCAGGCGTGGTGGCTCATGCCTGTAATCCCAGC
TAATTGGGAGGCTGAGGCAGGAGAATCMCTTGAACCCAGGAGGCGGAGGCTGCAGTGAGCTGAGATTGCGCCATTGCGCTCCAGCCTGGGCAACAAGAGC
AAAACTCTGTCTCAAAAAAACAAAAAGAAAAAAAAAAAGGAAAGACTCCTCTCACATCAGATTTAAAAATTCATTCAAAATGGATCATAAAACTACATGA
AAAACCTAAAACCTAATAAAAACTTCTACAAGAAAGCATAGAAGATATTTATGAGCTTGGATTGGCAAAAGTTTCTTAGATATTGCATCAAAAGCATAAT
CCATAAAAGAAAAAATTAATAAATTGAACTTCATCAAAACTAAGAACTTCCTTGAAAAACACAAGCAAATGAAAAGGCAAGGCACAGACAGAGAAAATAT
TTGCAAATCACCTATCTCATACAGGACTGGTAAAGGGAAAATATAAAGAACTCTCAATGATAAGAAAATAACCCAGTTAAAAAGAGGGCAAAACACTTGA
TGAGGTAGTCCATCAGAGAAGATTTATGGATGGTAAATAAGCACATGAAAAGGTGTTCAATATCATTAGCTATTAGGGCAATGCAAATCAAAACCACAAT
GAGGGCTGGACAAAGTGGCTTACACCTGTAATCCCAACACTTTGGGAGGCTGAGATGGGAGGAACACTTGAGGCCAGAGTTCAAGATTAGCCTGGGCAGT
ATCATGAGACTCCATCTCTACAAAAAAAAAAAAAAAACAACAAAGAAAAACTTTTTTAAAAAACTATAATGAGATACCACCACACAACTATTAAATGGCT
AAAATGAAAACGATTGCTCGTAATCAGTGTTGGTAAGGATGTGAAGAAAATGGCTTTCTCATGTGTGGCTGGTGGAAATGTAAATTGGTATAATCACTTT
GGAAAACAGTTCTTCAAAAAGTTAAACATTCGCTCACCATATGGCCCAGCCGTTCCACTTCTAGGAATGGATGCAAAAGAAATAAAAGCACAGGCTGGGT
GCGGTGGCTCACACCTGTAATCTCAGCACTTTGAGAGGCCAAGGCAGGCAGATCACCTAAGGTTAGGAGTTCAAGACCAGCCTGGTCAACATGGTGAAAC
CCTGTCTCTACTGAAAATACAAAAAAAATTAGCCAGGCGCGGTGGCAGGCACCTGTAATTCTAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTGGAAC
CCGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCGCCGTTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAGAAAAAAAAAAAAAAAAGAAAA
GAAAGAAATGAAAGCATATGTATGTCCCCACAAAGATTTGTATCCAAATATTCATAGCAGCATTATTTGTATTAGCCCAAAACTGAAAACAACACAAATG
TCCATTGTGGAGGTTTTAAAATATGTCCACAAGTTCTTTGATACTTCTTCCCTCAAGAGGTGAAGATCATTCCTCTTCCTTTGTAGGCAGGCTGGACTTA
GTGATTCCTGTCTACCAAACAGAATATCGTAGAAGTGAAGGTATGCAACTTCTAAGACTAGGTCAAAAAAGGCATTGCGACTGCCTTATGGTTCCTTCTT
GTGTCACTCACTCTGGAGAAGCCAGCTGTGATGTCCTGAGGACACTCAAGCAGCCCAGGGGAGAGGTCCTTGTGGTGAGGAACTAAGTCCTCTGCCAAGA
AGCATGTGAGTGCACCATCTTGGAAGCAGACCCAAGTCAAGCCTTCTGATGACTGTAACCTCCAATGACATCTTTTTTTGTTTGTTTGTGAGACAGAGTC
TTACTCTGTCACCCAGGCTGGAGTATAGTGGCGTGATCTTGGCTCACTGCAACCCCTGCTTCTGGGTTCAAGCGATTCTCATGCCTCAGCCTCCCAAGTA
GGCTGGGATTACAGGCACACACCACCACGCCCAGCTAATTTTTGTATTTTTGGTAAAGACAGGGTTTCACCATGTCAGCCAGGCTGGTCTCGAACTCCTG
ACCTCAAGTGATCCACCTGCCTCGGCCTCCCAAAATGCTGGGATTAGAGGCGTGAGCCACTGCACCCAGCCTCTTAACATTTTTTTTTTGAGACAGTCTC
GCTTACTGCAGGCTCCGCACCCCGAGTTCACGCCATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCTTGCCCGGCTAATTT
TTTGTATTTTTAGTGGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTAGTGATCCGCCCGCCTCGGCCTCCCAGAGTGCTGAG
ATTACAGGCATGAGTCACCGTGCTGGGCCAGCCTCTTAACATTTTAACGTCTCTGAATTTAGCATGCATCTTATAATTATAGTGGACAGCTTTCTTTCTT
TCTTTCTTTCTTTCTTTTTTATGGGACGTTTTAAAGGATGTCTTATTACTTTTGCCAGAAAAACAGTACATCTTTTATTCAGTGACATCCTAGATTCAAT
GAAATATGGTAAGTTTTGAAATCTAGGTAAGAAGAACAATTTTGTAGTTGAAAATAAATTCTTAAAATTGTCCTAAAAAATGGCAGAAAACCTGAYTGAG
TCAGTAAGTATAGAAGATATTGGAAAGTTTTTTAAAAACTAGCCTCCACAAAAGGGTTCCAACCCTCGTGGAATTTGGGACAAGGACAATCCAACATCAC
TGTAGAATCTAAGAAAAAGTTTGAACAAATGGACAAATATACTATGCTACTGAATGGGAAGACTTCATCTTGCAAAGATGTATATTTCTCCTCAGATGAA
ATAAATTAATGTGATTCCAGTCAGAATCCCAATTCTTTTCTCTTTATGCCTGGCATGTAGTAGGCACTCCATAAATATCTGCTAAGTGATTAGATGAGTG
ATTTGCCAAAAATTTTTTAAAAGATTTGTCATGAAGGATGATTATTTCTTTAACATTATAATTTATTGCAAAGCTACAATAATTAACACAGTATGATGCT
GGTGCAAGAATAGACAAGCCACTCAATACAACAGAATAAAGTCCAGAAATAAACTCAAGTATATATAAAATGTATACGATGAAAGTAGCATTTCAAATCT
GTAGAGACATGATGAATTTTTTTAAAGATAACGTTAGGACAATTGGACAAACTTTTGGAAAAAGTAAATGTATGCCTCTGTTTTTAGTTCTAAATAAATT
AAAAGTGAAATATAAAAAGTCAGTGTCTGAAATTTATAAAAGAAAACATGGACCACTGTGTACCAAGTCTTAGCGGTGGAGAGAGCCTTTATAAGGATGA
CATTAAAGCAGAAGCCGGCCAGGAGGGGTGGCTCACACCCGTAATCCCAGCACTTTGGGAGGCTAAGGCGGGCAGATCACTTGAGGTCAGGAGTTCGAGA
CCAGACTGGCCAACATGGTGAGACCCTATCTCTATTAAAAATACAAAAATTAGCCGGGCGTGGTGGCATGTGCCTGTAATCCCAGCTACTTGGGAGGCTG
AGGCAGGGGAATCGCTTGAACTCAGTGGGGCAGAGGTTGCAGTAAGCTGAGATCGTGCCATTGCACACCAGTCCAGCCTGGGCAAAAGAACCAGACTCCG
TCTCAAAAAAAAAAAAAAAAAAAAATGCAGAATCCATGAACAAAGTTTGAAAGATCTGATTACACAAAACTTAAAATTTCTATGCCAAAAAGAACCATAA
AATTAAAAGAGAAACAGCAAACTGGGGAAAATATGTGTGAGTTTCCAAAAGGGCCAATATCATTAGTATAGGCTGGGCACGGTGGCTCACACCAGTAATC
CCAGCACTTTGGGAAACCAAGTCGGACAGATCACTTGAGCTCAGGAGTTCGAGACCAGTCTGGCCAACATGGTAAACCCAGTCTCTACTAAAAATACAAA
AAATTAGCCAGGCATGGTGGCACANGCTTGTAATCCCAGCTACTCAGGAGGCCAAGGCACAAGAATTGCTTGAACCAGGGAGGCACAGGATGCAATGAGC
CAAGATTCTCGTGCCACTGCACTCCAGCCTGGGCAACAAAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAATCATTAACATAAAAAGAGATCTTACA
TATCAAAAAGATAAAGACGGCTGGGCACCATGGTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGAGGGCAGATCACCTGAGGTCGGGAGTTCAAGA
CCAGCCTGGCCAACTTGGAGAAACCCCGTCTCTACTAAAAATATAAAAATCAACTGGGCTTGGTGGCCCGTGCCTGTAATCCCAGCTATTCGGGAGGCTT
AGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGTGGTGAGCCGAGATCGTGCCATTGCATTTCAGCCTAGGCAACAAGAGTGAAACTCCGTCACA
AAAAAAAAAAAAAAAACAGATAAAGGCATGAGCACCCATTAAAATATGAGAGAAGGATATGAGCAGATAATTTACAAAAGAAAGAAATCCAGTTACCCAA
TAAGCATTGTTAAAAGATAAATTTTGACACATTAAAATTTTTAAGAGTTTGAGCAGTGATTTTTATATATATATTTTTTGTTTGTTTGTTTGTTTGTTTG
TTTTGAGATGGAGTCTCACTTTATAGCCCAGGCTGGAGTGCAGTGGTGCCATCTCAGCTCACTGCAACCTCCGCCTCCCAAGTCCAAGTGATTCTCCCAC
CTCAGCCTCCCGAGTAGCTGGGATTACAGGTCCCCACCACTAGGTCCGGCTAATTTTTTTGTATTTTTAGTGGAGATGGGGTTTCACCATGGTGGCCAGG
CTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACTGAGCCCGGACAACAGTGATTTA
TTAATCAGGCAGCTCCAAACCTGAGGGAACAAAGGGAGGCTTTTATAGGGTGAATGCAGAAGCAAAGCAAAGCAAGTATTTGATTTGCTAAAATGGAGCA
GTAGCTTTACTTGGCTCATTCCAATGGAAAGTCCTTGGTTAGAGGTTAGTTGACTGTTTCTGGTTGGCTCCTAGAATATGACCTTTTACACTGAGTTGGG
TTTTGGTTTGCTTATGTAGGAACTCACAGCACTGGGACCACCTCGTTCTAATGGCCTTGCAATTATTTTAACATCATGGGAAAAACTGTGCCCCACTGAG
AATTTTAATATGCAAATTATCATTGTAATTATTTGGTCACTCAGACTGGCTGAGACTGTCAGAGTCATGGATTCTGGCACCCTCTCTCTGCACTGCTAGA
AGTGGTCTAGATGGTACAGCCTTCTGGGGAAGAAGTTGGCAGGATGTGATTTTTAATGGACACAGCCTGTGTACTCACAGGCAATTATTTTAAGACATAA
TCAGCAAACTGTGAATAATGAGTTCTTGATTGTCTGTTACAACATCATTTATAAAGCAGAAAGCTTTGGAAACTAAATGGAAACAGGAGGAAACTGGTAA
AGATGTTTTGTTACATTCAAATACTGAAGTGCCATACAGTGAGTTAAAGTTATGTTCTTGAAAAATGCATAGAAGAAAATATACAATATAGTGAAGAAAG
CAAATTATATGTTAAAGTCCAATTCTGTTTTTCTTTATAACATTTATCTTGCTTATTCATTCTGAATAAAAATACTTGAAGGAGAAATACCAAAATGCTA
TCAGTACTGGCCGGGTGCGGTGGCTCACACTTGTAATCCCAGCGCTTTGGGAGGCCAAAGCGGGTGGATCACTTGTGGTCAGGAGTTCGAGACCAGCCTG
GCCAACATGGTGAAACCCCATCTCTACCAAAAATAAAAAAATTAGCCAGGCGTGGTGGGGCACGCYTTAGTCCCAGCTACTCGGGAGGMTGAGGCAGGAG
AATTGCTTGAACCCAAGAGGCAGAACCCAAGAGGCATAGGTTGCAGTGAGCCAAAATCGCGCCACCGCACTCCAGCCTGGGTGATAGAGCAAGACTCTGT
CTCAAAAAATATGKGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCAGTATTTCTCCCTGGGACATAAGGTTGCAGATGATTTTTAAAATT
TTCTTCTTTATGTTTTTCTTTGTTCCTCAAATATTCTACAACAAAACACAGAAAAAAATAACAAAGCTCATAAAGATGTAGATATAGATACAAAGTATTT
AACAGTAAATAACATTCTGAATAAAATAAAATCATGTGACTTACATATAACCCAGCAATCTATACAAGAGAAATGAATATATGTCCATGCAGACTTGTAC
AGGAATGTTCATAGCATCTTTATTAACAATAGCAAAAAGCAGAAACAACCCAAATGCCCATCAAATGGTAAGTAGATCAACAAAATGTAGGCTATTCATA
CAGTGGAATATTATTTGGCCATAAAAAGGAATGATGCACTGACACATGGGTGAGCCTCGAAAACATCGAGCTCAGTCAAAGAAGCCAGACACAAAAGGCC
ACATGTTGCATGATGCAATTTATATGAAATGTCCGGAAAAGGCAAGTCCACAGACACAGAAGCAAATAAGTGGTTGACCAGGGCTAGGGGAAGAAATGGG
GAGTGAGGTTTCATTTTAGGATGATGAGAGTTCTAAAATTAGATCATGGTGATGTTAGACAACCCTGTAAATATGCTAAAATTCATTGAATTGTACATTT
TATTTTATTTTTTTGAGACAGTCTAGCTTTGTCACCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACCTCTACCCCCCGGGTTCAAGTGATT
CTCCTGCCTCAGCCTCCCGAATAGCTGGGATTACAGGCATGCGCCACCACGCCCAGCTGATTTTTGTATTTTTGGTAGAGATAGAGTTTCACCATGTTGG
CCAGGATGGCCTCGATCTCCTGACCTCGTGATCCGCCCACCTCGGCTTCCCAAAAGTGCTGGGATTACAGGCGAGAGCCACTACACCTGCCCGAATTGTA
CCTTTTTAATGGATGAATTTTGTGGTCTATAAATGATCTCAGTAAAGCTGTTATTTTTAATAATTAAAAAATAAAATTGGTTTCATTATTTTTCAAACAG
TAAACATACTAATACAGCCAAGACCCAATTGCAACAAAACTCTATATCTACAGACTCATCAAGTTGCTAATTATATCATTTTTTATTCCTTTTTTTTTCA
GAAATTAGAAATGTGATTCTAAAATGTAGGTGGGGACATTTTGTGAACTAAAATGCATTAGCAGAATCCAAGATACTGGTCCTACATGTCATTATCTCTT
CTCAGAGTAACACTACCATCTTTACCTCTACCCTCTGTAGACAGTTTTAAACATTTAAACGAATGAAATTATACAGTATGTACTCAGATATCTAGCTTCT
AGCTTTTCTTTTCTTTTCTTTTCTTTTTTGAGATGGAGTCTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCCGCC
TCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTTTTTTTTTGTATTTTT
AGTAGAGACGGAGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCTCCCGCCTGGGACTCACAAAGTGCCAGGATTACAAGCGT
GAGCCACTGCACCTGGCCGCTTTTCTTTTTTTGCTCAATATTATGTCTGTGAGTCATCCCTGTTGTTGTGTGTCAATAATTAACATTCAGATGTTTAGTA
ACATCCATTCTTTATGATGTTAATAAAAATTCAGGCCAGCTCGGTGGCTCATGCCTGTAATCCCAGCACTGTGGGAGGCTGGGGCGAGTGGATCACTTGA
GGTCAGGAGTTCGACACCAGCCTGGCCAAATGGAGAAACCCCACCTCTACTAAAAATGCAAAAACTAGCTGGGCATGGTGGCGGGCGTCTGTAGTCCCAG
CTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAATGAGCTGAGATCTCACCATTGCACTCCAGTCCAGGCAACAGAGC
AAGACTCCGTCTCAAAAATTAAAAATAATAATAATAATAACTCCATCTTTCATTGAGAAAGAAATGTATGGCTAAAACATGATGGTTTGGGAGGCTGAGA
CAAGAGGATTGCTTGAGCTCAGGAGTTGGAAACCAGGCTAGGCAACATAGACCTTGTCTCTACTGAAAAAAAAAAATTAGCTGGGTGTGCTGGTGTGCAC
CTGTAGCCCCAGCTACTGGGGGATTTAAAGTAGGAGGCTCACTTTAGCCTGGGATGGGGAGGCTGCAGTCAGCTGTAATCATGCCACTGCACTCCAGCCT
GTGTGACAGAACAAGACTCTGTCTCCAAAAAAAAWTTTTTTTAATTTAAATTTTAAAAATGTGATGGACCTCTGTAATAAATGGGGCCTTTGTTTCTCCA
CTGACTTTCTCACTCTAAGAGGGTCTGAACCACGTGGACTTGTGTTTAGAGCTTGCAGCAGGCCAGGAACAATGTACTTGAATGAACCTTGTGTTAATCT
AATACTGGTTGAGGTTCACCAAGAGGATACAAGCGTATGGCTTCAAGTCCTCTTGAATAATAATAAAATGTTAGGGGGTATCTGGCTCCCACCATCCTTG
TCCTGAATGAGGCTCAAGGTGTGATCCACCTTGCAGGAGGGCATTCTCCACCCAAGGGCTGCCGTCAGGTGTCCCTTCTTGACCGTTCACAAGTGTGGGA
GACAGTAGGGCATAGGCATTCAGCACACGGGCTCTGCAGTCACGCAGACCTGTGTTCAAACCCTGCTTCCCCCACACAGTGCTTGTGAGACTTTGGACAA
ACTACTTCATCTCTCCTAACCTCAATTTTCTCATCTGTAAAGTGAGTGTAATAATGGTATCTACTTTGTGAAGTTCTACAGATTAAATGGGATAATGGCT
TTAAAGCTCAGTGCCTGGCACATAGTAAATTCTCCCAAAACAGCAGCTCTTATTATTTGTAGTAGTAATATTATTCTGGCTCAGAATGCCTTTGACCCTA
AGTATCCAGCATCATGGCGGTATTCATACTGGCTATTTATAAAGAACTAGCAGATAGGRTACTATTCTTGTTGCCTGTTTTTCATTTCTTTAATTACAGT
CATCTAAGTGTTGTCTCTAACAAAAATGAGTTGCTGTTGTTTTCATTGCAGACAGTTGCATCTATAAAAAGGTTTGCCCCTTTAATGGTGGCTCTTTTTT
GGTTCAACCTTCTGCGTCAGATTTCCAGTTCTGTTGGAACCAGKCTCCCTATGCAATTGGTAAGAAAAGTCTTTATCATAATGCTTTTCTCCTTCATGGA
TATGTCTGAACTATTGTAAGCAAATCCTATGTAAGCAAATCACTGGCTTACTGCGAAATTGCTATAAATTATACGCGTATGATGAATATTCACAGCGTTC
TTTTTCTTTTTCTTTTATTTTTGTTCCCCTTTTGGGACTATCGTCTTCTACTGTTCTTCCTAGTTTCTCTCAGTGCCTGAGCATGTATGCATTTGAGAGC
AATTAAATGTCATTTTTCAGTACTTGGTTATCATTTCAGCACCTCAGTTCATTTCTGGGCCTCACTTTCCTTTTTCTAAAATTCAAGTGTAAGGTCTCCA
GCCTCAAAATGCTGACTGACCTCGGGGAGAAGCACAGTGCTTTCAGGGCCATTGGTATATGTTTCATAGAAATTCAGGTACCTGCCTGCCACTAAAATGT
CAGGACATGAGCGGCGATGCTTTGTGTTTGTGATTCAAGATCCACAACTGGCCATTGCCTTTTGGAAGTCAGATCAGAGCCAAGAATGTTCCAGTTCATT
CTTTTGTCCTCACAATAAAACTGTGTGTTAATAGGTCCACAGGACAGCATTTTGAGAGGAAGGCAGAGGGACCAACCTAAGATCCTGGGAGGACCAGTTA
GACTTGATGACAGATTAGATCTGGTAGACAGGAAAGGGAGATTTTGAACCACGTTGCTGGAGGGGCTTGAAAGTCATGGCTGGAGGCATAGATGTGGTAG
GCACAGTCACCAGGAAAGCCAGGAGAGCAGATGCGCTCATCCATGGAAAGAGTGCAGAGAGAGCCAGTGCGAAGAAGGGGACAACACGAAGTGCCAGGAA
GAAAGAGGTGTGCCCCAGGGCAGCCAGGGCAGGCACAGTGCCTGGAAGCCAGTGTGTCATCCAAATCATTTCAAGCAGAGGGGCCAGCCCTTAACAAATA
ACTCAGCAAACCCCTTGATGCCGAGGGACACTGCGAGGGCCAGTGAGGAATAAGATGCAGCCCCGGCTCAGACGTGCAGCTGGAGGAGCACATGGGAGGA
GCGAGGAGCACTGAGGGACACCAGGGCTGGGCCTTGAAGAGCGACCAAAGGGAAGGGTCCCAGGCAGGATGGCCTGGGCCTGCAGACAGAATGTCAGGCT
GGCGTCTGAACAACAGAAGGGACTCCCCACAGGACTATGGCAAGTGAGCTGCCTCGCTGGAAGATCAGGCAGTGGGGTTTCCATGGGGGAAAATGGCAGC
AAGCATGGTGACAGTGCACACCTCCTGGGAGGCGCAGTGTGGCAACCGAGGGGAGGCTGTCTTGGGAACCCAGGCTACCTTAGGATCAGGGTGACTTGCA
CATGTGAAGGAAGGAGAGAAGCAGCCAGAGGAATGAGAGATGGAAGTTTCTAGAGAAGTGAGTGTGACTATGACACAGTCACAGCCCCTTCGCGGCCACC
AAGCCAGCAGCTGGGAGGTGACACTCCCGTTCCCTTGCAGTCTGTGCYTTCCCGTATCTCCTGGCCTTCACCACCGACTCCATGGAGATCCGCCTGGTGG
TGAACGGGAACCTGGTCCACACTGCAGTCGTGCCGCAGCTGCAGCTGGTGGCCTCCAGGGTGAGTAGGACTGGGATTTTATCTCTGAGTGGTTTGGGGGA
CCCCGGCACTGTGGGATTTCAGGTGAGCACAGAAGCCGCCTCTTGTCAAGTTAGGCTGATGAAGACCGGTGTCAGAATGCCAGCACGAGATGGAAAGCCT
GAAACCAGACTGATCTGTTGGGTTTTCATGTGTGATTTCTGTGGGCTTTCAGAACACTCCTCAGCTTTGTTAATAGTCATTAACTGGTGCTGGTGGCAGC
TGGGGAGCACTTAGCTGAAAAGAGATATCCCCRCTCAGAGACTGGGTCAGTTATTCATGTCACTGCTGCCCTGGAGGACAGTCCAAGTCTAGAAAAGTCA
GAGCTTGCAATCTTTCTTCCTTTCCCACCCTCTATCCTCAGTTTGAATTCTTAGCCTATGAAACATGGCTAATTGATTAATCCCTGCCTCATAACCCACA
GCTAGGGCAAAACGGAGGGATGCAGGAACAAAGATGCCTTCCAAGATGTCTTTTGTCGCTGGCATATAATCTGGGGGGTCTTGTTCTAGTCCCCTCCCCT
GAGTCAGGCCCACRAAGTCCTCCCCAGCCCTGCCAGACTGGGCTGGCTCCCCCGCTGTGTCCCCTGTTCCCTTCCCTGGTCCTGACATCCATCACATTTG
GTGGTAGGTGACTGCCTATTTGTTCATCTTTGCTGCTGCACTGATGGTTCTGTGAGAGCAGATGCCATGCTGTCTTACCATCATAGTACCAGTGGTGTGC
TCAATGCTTCAGTCCCGCAGTGCTCTGGAAAATGTGTGTGTGTGCACATATGTGCATATATGTATGATATGTGTACATATCTGCATGTATGTATCATATG
CGTGTACATTAGTTGATTGTAAATAGCTTACAATTTACAAATAATAAATATACAATGCTGTTTATCATAAAAATCCACTTAGCCAATTGGTTCTTACARA
ATGTTTTTGTTAATATTTGCTGAACTCTTGTATCCATAGCCAACCTACAGTTGCAGTTCAACCATGATTTTACACTTGGAGTTATATCTCAATCCACTCA
TTTTTTTCCAATGTATATTGTCATTTAATCTGATAGGTAATCTGCTATAAAACTATTTTTCACCCTCATACAACTCATAGTCATTAAACTGAAACTTCTT
TCAGCTTCTGTACCAGACTAAACACACTTCTACGTTTCTTGTTCATTACTAGTACTTTCTCCATCACTGTAAGTCTAGACAATCAACAAAACAACAAATC
AAAGTCAAACTGATAGTCTTTGCTGGATTCCATGGTGTAAAGAGTCCCTGCATGATTGATTTCAAGCTGCCAGCGTGACGCCACTGCAGGTGGTGCTGGG
GAGACGTGCATTATCCCCCATGGTGCAGTATCTCTCCCCCAAGCCCCACACAGACACTGTTGGTGTCAATAACTCCAGAGCAGATGTAATAGTAAGCACA
GTCAAATAATTAGGAATGGCTGGATTTGGATATTTAGGGCCTTTGTTTTTTTAGGTTTGTATAATTTAATTTCTAATCATGTGTGTTTAACAGCCAGTTT
GCAAAATTCCTGAAAATTGGATTTCATAGATCACATCCAGCACACCACTGCTGTTAGCAGCAGCGCCAGCGCATCACGGGTGTGCCTGAGTATCTGCTGG
ATCAGTGAATGAAGAATCCATTTCCCCATCTGCCAAATGGGCCTAACTGAATCCCTAAGATCTTTCCCGTTCTAACACTCCAGGTGCCTGAGATTCCTGT
TAGGGAAGTGTGTGCTGTGTTTGTGATTGCAGAAGATGTGTGGTGGAACACTGACTGTTTTCTATTGTGGATCAACAAATAGATGATGAAAAGTGGCGGG
GAGTGGAATACTCAGGAAAAGTGTAACTAGCCACGCTGGGCTTTCCTCCAGAAGGCTCTCTCCATCCCTCGCCCCGGCATCCCGCACTGCACTGTATGCT
CCAAGGATGGGGACCAGTTGGAGGGTTTGCAGTGATGRCAGGAGGGCCAGTGGATGCAAGGCCTAGAACACCAGGCAGCCCGGTAATGCTCTCTCTTCCT
TTCTAGTCGGATATATACTTCACAGCAACTGCAGCTGTGAATGAGGTCTCATCTGGAGGCAGCTCCAAGGGGGCCAGTGCCCGAAATTCTCCTCAGACAC
CCCCGGGCCGAGATACTCCAGTATTTCCTTCTTCCCTGGGGGAAGGTGAAGTCCAAGTTTTACTGTTTTATTAATATTTGTAATTCACTCTAATTTCTCT
AGTTTGTTGTCTAATATCTACATGTGATTACTGTTTAAAGAAGTTACTATTTAAAGCCATTAAAAAAAGAAACTAGCTGAGCGTGGTGGCTCACCCCTAT
AATCCCAGCACTTTGGGAAGCTGAGGCGGGCGGATCACCTAAGGCCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAAT
ACAAAAATTAGCCGGGTGTGGTGGCACACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGACCCTGGGAGGTGGATGTTGCAGT
GAGCCGAGAGCACGCCATTGCACTCCAGCCTGGGCGATAGAGCGAGACTCTGTCTACAAAAAAAAAAAAAAAAAGAAAGAAATCTTGCAGTCTGAATACA
TGGTTGTGTTCTTAAGAAACCTGGTGATAACAACGACAAAACTCCATTATAAAAATAATAAATAAATAAATAAACTGGGCTAGGCGCTGTGGCTCACACT
TGTAATCCCAGCACTTTGGCGGGCTGAGGCAGATGGATCGCTTGAGCCCAGCAGTTCAAGACCAGCTGGGCAACATGGCAAAACCCTGTCTCTAAAAAAA
AATACAAAAACTAGCTGGGCATGGTAACATGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACCTGAGCAGCGGAGGTCAAGGCTGC
ATTGAGCCGGGATTGCACCTCTGCACTCCAGCCTGGGCAACAGAGTGAGAGACCCTGTCTCTACAAAAACTAAAATTAAATTAGCTGGCTGTGGTGGCAT
GCACCTGTGGTCCCAGCTACTCAGGAGACTGAGGTGGGAGGATCACTTGAGCCTGGGAGGTCAAGGCTGCAGTAAGTCATGATTGCATCATTGCACTCCA
GCCTGAGCGACAGAACAAGACCTTGTCTCAAAAAAAAAAAAAAAAAAAGTTTCAGTGGGGAGGAGGGAGTTAAAGGCTATAGAGTTTCCAACTTGCAACA
GCAGTTATTTTTCCTTCAGGGCTGTTAACAGTAGTGGGTTTTGAAAGCTAAAAGAATAGAGTCATCAAGCCTAGACATTCCCCAGCACATGCAGTCTTTC
ACTCTATCTGGCTTTGCCCGCAAACCCCAGAGGCCTCTGCTGTGGTTACCTCATCGCTTTGAACACAGCGCTTTTCATAAATTCTTACCACATCACTCAT
CTTTATTGCACGCAGTTAAGATAAAGCACAGAATTCCCCAAGCAGGGCAGCTTTTTGCTTTTCTTGTCTAGTCTTTTTTCCTGTGCAGTCACGAGTGCAT
TTTACCTAATTTACACATGAAAATGCTCTTAGAAAACGCAAAGCCATCAGGCACCCTCAAATCAGTGSTCCTGGCCAGCCCTCCCAGTGGGACATTACAG
ATCAGTGTGTGACATAACGTCTTCCTTCATGCTATGTTAAGGAACAAGAAATTACTCTCTTGTAAATAATGTGCACTTTTCTTAAAGTTCTGATGTTCTT
TTTGAAATCACATTTCAGGTGAAATTCAATCAAAAAATCTGTACAAGATTCCACTTAGAAACCTCGTGGGCAGAAGCATCGAACGACCTCTGAAGTCACC
CTTAGTCTCCAAGGTCATCACCCCACCCACTCCCATCAGTGTGGGCCTTGCTGCCATTCCAGTCACGCACTCCTTGTCCCTGTCTCGCATGGAGATCAAA
GAAATAGCAAGCAGGACCCGCAGGGAACTACTGGGTAATGGTTCTCAATCCTGGTTTCCACTGTCTGTGAACAGACCAGCTGGTTTTATCTTTGGATATG
AATTGTCCTCAGAAACAATGAGTTTAAAAGGAAAGTTTCCTTTTAAGAAGGGATTTTTAAGTAAGTTCTAATACCTCTATACCAAGGAATACACTATAAT
GTAGCCACCAACAGTGATGTTGTTGATCTATATTTATTGGTGTGGAAAGCTGCTCAAGCCATGTGAAGGGGGGAAATGGGCAGTTTATAAAACACTATGT
CTAGTCTGATACCATTTTTAAAAATAAAAGTACCAATCTATGTATGATTTCCTAGAAAGGTGTCTAGAAGGATTTATATCCCACAGTCCTCAGACAACAT
TTTATGTTGGTATGTCCCAAAGTGGAAATGTACCATGTTTTTACACGTGTGTGTTCAGTTCCCTTATTACTTCTCCCAGCCCTAGACAGTGGGGGCAGGT
CTGTGGATAGAACAGATGCAAGATATGTGTTGAGCTCATTTCTCTCAGTATAACTATGGGACTGGGCTCACACCTGTTATCTCAGCATTTTGGGAGAGGC
TGAGGCAGGCAGATCACTTGAGTGCAGGAGTTCAAGACCAGCCTGGGTAACATGGTGAAACCCCATCTCTATAAAAAATAAAAAAATTAGCCAGCCATGG
TGGCATGTGCCTATAGTCCCAGCTACTCAAGAAGCTGAGGCAAGAGAATCGATTGAGTCCGGGAGGTCAAGGCTACAGGGACCCATGATTACACCACTGC
ACTCCAGCCTGGGTGACAGAGTGACACCCTGTCTTTAAAAAAAAAAAAAAAAAAAAAAAAAAGATGAGAGGCCAAATCAGAGAAACATAAAGCCCCTGAT
AAGTGTGAAAAGGTTAGACTGTTAGAAACCTTTTTGTTCAGATTTGTGGAAACAAAATAAGGAAATATGGAAGTGACATGTTAAACCAGGAGAAACTGGT
TTGAAAACTTAGACTGGGACCTGCATGAACGTTGGCCTGGGCACACCCCTGCCCTGCAGTAATATTCCCTGAACAACTGCAGGAGGGGATTCAGGCCACC
TGACAGGGCAGGACTAGACACTAACAAAGTCCATTGGTTTTTCAAGTTGGTGCCTTCCACTGTGTTTTGAAAATAAATGTATTGCTATTTTTAATGCAGC
CTTCCATATCAAAGCTTGATCTGCCCACCACTGTTTACAAACCACTGAGCTTTTGCAAAACGGAACCTCTGAATTGGAGAATTACAGGGTTATCAACGGT
AGGACTGTAAATCATCTGTCCTCATTAGGCTCTTTGAGTCTAATTTTTTTGCAAAGTGTGTATACTTTATAATCAGAAAAGAAAAACCTTCTACCAACCA
GAAAACCAATAATTTGAAAATATATATTCTATCATCTTTCTTCCTGACTCTAGCACAACAATGCACCAGTTCCCAACCAAGAAAAAATAAGGGTCTTTTC
TGTCTCCGTGGCAGCCCTGTGGTAGTGACCCTCTGACCTATGATTCTCAATCCAGGCCTCTCGGATGAAGGTGGACCCAAGTCAGAAGGAGCGCCAAAGG
CCAAATCAAAACCCCGGAAGCGGTTAGAAGAAAGCCAAGGAGGCCCCAAGCCAGGGGCAGTGAGGTCATCTAGCAGTGACAGGTAAAGAGARGGAGAGGC
CCCTGCTTGGGGTGGTGGACCTATGAGTCACAGCACTGCCCAGGAGRCCCCTTCTGGGGATTGATAATGCCACTAGTGGCCCCTGGCAGCTACAGCAGAG
GGCCAGCAGCCTGTTCCTCTCTGAGGGTCCCCAGACCCTCAGGCCTGCCAGGGAGGGATCTAGACAAATGGGCACACTTACCAGCAGTCAACTGCTAATT
CAAATCTATTGAGACCTGGCCAGGCACAGTGGCTCATGCCTTTAATCCCAGCAGTTTGGGAGGCCAAGGCGGGCAGATCACCCAAGGTCAGGAGTTCGAG
ACTAGGCTGGCCAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAGTAGCCGGGCGTGGTGGCACATCCCTGTGGTCCCAGCTACTTGGGAGGTT
GAGGCAGAAGAATCGCTTGAACATGAGAGGCGGAGGCTGCAGTCAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGTAACAGAGCAAGACTTCATCTCA
AAAAATATATATATAATATATATTTTATATTTATATATTTAATATCTATTATATATATATGTAGAGAGAGAGAGACTTTTTCCTCACCAGATTGACAGAG
AGTTTTTAAAATAAAAATGCTGGCTAGGCATGGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGATGAGAAGAGAAGGTCACATGAGCCCAAGAGTT
CAATCCCAGCCTGGGCAACACAGCAAGACCCATCTCTACAAAAAAAAWATATATATATATATATATAGGCTGGGTCTGGTGGCATGAGCCTGTAGTCCCA
GTTACTTGGGAGGCTAAGGTAGAAAGATCACCTTCCTTCTGGGAGGTCAAGGCTGCAATGAGCCATGATCACACCACTGCACTCCAGCCTGGGTAACAGA
GCAAGACCCCGTGTCAAAAAAAAAAAAAAAAAACACTTAGTAAGACTGCAGGGAAACAGGTGCTCTCTATGCAGTAATGCAGTACTGGTAGCACATACAC
AGTCCAGCCTATCCGAATGCCAGGTCAGCATCACACGTCAATGAATAGTAGTTAAGTCACACTGATTTGTCCTGTAARATCTCTGTTATCCTTCAAGCAA
CATCACACGTGCTCCAGTGTGGGGAGTGATAGTTCGTATGTCCAAGCTTCATTCATTCACTCAACACACATTCTTGGAGCACCTAGGACTTAGTTGGGTA
TTAAGATATGGAAAGGACTAAGCCCCCACCTGTGCCTTCAAGGGGTTCCCAGGCCAGTGGCAAAGACCAACAAGCGTCCAGAAAATGACTGCATTCCAGC
ATGGCAGGTGATGTGTAAGGAGGGTTGCCATCCAGCCCACACCTGGGGCAGGGAGGGTCTCAAACATCAGGGGAGGCTGAGCCTCCTCTCAGAAGTCATA
ACCTGACAAGGCCCCTGCCCTCAGGGACTTTGCATTCTAGTGTGGGAAAACAGACAGCCAACCTGTAAACAAGTAAGCAAATAAAATCATTTCAAATAGT
GACAAGTGCTACAAGAAATTGAGAAGAAGTGACGGGGCTGGCACATAGAAGGTCTACTCTGAGAGAGGGGTCAAGGAAAGCTTTTTGAGGAAGTAGCATT
GGGCTGGGCTTGGAATAAACGGTAAGAAGCTAGGGGAACAGCCCTTCTGACAGCAACTACCTCAGGGCAAGGGCCCCGAAGCAGGCCTAGCATGGCCAGT
TAAAAGGCAGGAGGAAGAGTGGACAGGCTTGAGCATAGAGAACGGAGCCAGGAACTGTGTGAGGCCGAGAGTGGGCAGCAGCTGAGCCAGGTGGGCTTTT
GCAGGCCAATGAGTATTTGTGGAATGCATTAACTCTCTGAGAAGTGGAAACCAATATTGGTCAAATTAATATGCAGCTATTGAGAGAGTCCTGAGGAGCT
GGAGGAAACAGAGGGAGTCAGGGGTGCCCTGGGAGGCTGGAGGGATCACAGGCCTAGTCCCGGAACCTTGGCTATGAGTTTCAGCCTGATCCTCAGGCCC
TGGGCACCCATGGGAGGGTTTTAGGCAGGATGACATTATCTGGATTTGCACTTTAGAAAGGTAGGTAAATAATGCCTCACAAACACCTTCCATGTGTCAC
ACACTCGGCCTTTAATCCTCAAAACCCCCTGAGGTGATGGGGGTGGCATTCCAGCACTTCCCCACCTCTACCACATAACAGTGAGGGTTTGGKGAGCCAA
ACTCATGAGCTCAGATGAGCAGGAAATTGCCAGAAAAAAATAGGCCCAGTTCTGTGGTACTCCCAARGATCCTCTTACAGTGACTTTTCTCTTCTAGGAT
CCCATCAGGCTCCTTGGAAAGTGCTTCTACTTCCGAAGCCAACCCTGAGGGGCACTCAGCCAGCTCTGACCAGGACCCTGTGGCAGACAGAGAGGGCAGC
CCGGTCTCCGGCAGCAGCCCCTTCCAGCTCACGGCTTTCTCCGATGAAGACATTATAGACTTGAAGTAACAGAGTTGAATCTCATTTGCCATCTTTAGTT
TTCTTATGGAGGTTTATACTCTTTAAACAGTTYTGATGTAATTTCTCAACAAAATGTGGCTTTTAGCCTGTCAGTGATCTATTGGACCAAACCTTCTGCA
CACTCGGCCAGTTCCCTCTCCAATGTCCGGTGCCATCTTTCCTGACCTTTGTTTCTTTCTGTTCAGGAACCATCAGTCCCCTTGTAATAAAGGTGGTAGA
TTTCATTGAGGTTTTAGATTGAAACTTTGAATAAATCAAAAATACTCATTCTTATTTACTGCAACCTTCTCATATTTTATATACTTAGATGGAAAATTAT
TTTTTCATTACAGTTTTGATTTATGTCACATAATGTGTTTCTTTTATAAAGAAAAGTCGTTGCTTTTTAACTTTATTATAAGTAAGTTTTTTTTCTGCAC
CTTTGGCCCCGGTTGCTGTTTCAGTTCACCGTGATTGGAACCAGCTGCATTCCTGCCTGTAGACTTTTGAGAAAAGTTGAATGGTTAGATCTTAGAAGCT
CCTCCTTCTTCCCTGCATCTCATGAAAAATATTAAGGCATAGGAGCTTGTCAAAAGTCTTCAGATTATTTTGTGTGGTTTTATTGTTACTCTGCAATAAT
GTAACCAGAGAACAGCTACTCCTTGTGGTTAAAAGTATTCTCATTGTAATCCCAGTGCTTTGGAAGGCCAAGGTGGAAGGATCCCTTGTGCCCAGGAGTT
TAAGGCTGCAGTGAGCTAAGATTGCACCACTGTTCTCCAGTCTGGGCAACAGAGGGAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAGA
AAAAAAAAAGAAAGCATTTTCAAACTCCTCCTTCTTTTTGAGTCCCCCTCACTCTTTCACATAAATGATATGAAGATAATAATTTGGTTTATCTGCCTTT
CCTGGCTCCCTCTCCAGTGTGAACAGAAAGAAATGTGGACTGGGCCAAGTGCAAAAGAAATAGTGAAATCTCAGCCACTAGCCAAGGGGAGATCCAGTTT
CACTAGCATTGTTTGCAAATATTTTAATCTGTGTGAAGAAGGTATTTTACCTTTGGCTTTAGTCTAGCCAATTCAATTTTATTCTGTCTCTTCCTACTTA
TATTATTACATTATTCATCAAAGGAAACTTCCTGTTACCCCGTTAAAGCAGCTCAGAAGAGTTCTTCTGCAGGCTTTTTTTTTTTTTTTTTTTTAGACAG
AGTCTTACTCTATTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCTCTGCAACCTCCACCTCCCAGGTTCAAGCCATTCTGCTGCCTCAGCCTCCT
AAGTAGCTGGGATTACAGGCACGCATCACCACACCCAGCTAATTTTTGTATTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTC
CTGACCTCGTGATCCGCCCACCTTGGCCTCCCAAAATGCTGGGATTATAGGTGTGAGCCACTATGCCCGGCCAGCAGGCCTTCTTTGTGAGTGTGGAGAA
CTGAGTTTGACAGGACCTTGGTCTGACAGATTTTATAGAAGTTTGGGTCGTACCTCCTAGTGGGCCTTGCACACTGTGGGGAAAGTTCCCCTCTCTGTCT
TTTGTACAAACAGATCAGCATGATAGCCCAAGCTGAAGGTTGCTTGGTTCATCTTTGGCAGAAGGCAAGAGTCAAGAGTAGTAAAGACAGTGCTTTTTAG
GTATACCCAGATGGGGCTGTTTATAACCAAATGTGTCTGCTCATATTCTTTGCAGCAGTTAGCATGCCCATTCTTCCTTTGTGTGTTTTATGCCCTTTTC
CTATATAGGGGGAAAAAAACACTGTGTCTCAACCCCACCAACAGTTTAATGAATTATGTTTTATTATTCTTGCTTTTCAAATAAGGAAATAGGCTTAGGA
AGGGGCAATGGTTTGAACCTGCAAGTTCTTTGACTCCAGAGCCCTTGCTTTCCCCACGTCTGCCATGCAGAGCCAGGCTCAGTGCCTTGTGTCAGCTGGA
TCTGGCTGGTGTTTTTCATGTTAAACTAATTTGTAAGCTTTATGAGCTTGTATCTGTGTTTTTCCTTTTTTTCTGGAAGTTTCTTGCTTCACAGTGTAGC
ATAAAAAAAACCCAAGGACTATTTTAGAGCATTCTTCCAAATCAGCAGCATTAGAGCCACCCACAATTTGACAAGAGTCACAGGTCTGAGGAGTGATGTA
GCAAGGGCAAGAGGTGGACCCTACTGATCAGGCTGATGGTGCTTTGCCTATGAAAAGGGGGCAGGAGGCTGTTCTGGCAACATTATTTGTCTACAAAGGC
CAAGAAGTGAGTTCTGCACACTCACGGGAAGGGAAGCCATCGGCCACAGGGTAGGAGCACCCTGCCTACATAATCCTTTCTGTGTACCCGACTGGCTGAG
TCACACAGAAAATCATCTAACTGCAGTGTCTGCCTATGGAGTTGGAGGCATTGATCCACTCTGCACACACCAAGTGCCTCCTCTCCAGAGGAGGTCATGT
CCATTGGGGGAAGGACGGAAGTAAACAAGGGATCACAAAGCAGTGATAAATGCTGTGATAAGAATACACATCTAGTGCTCGAGTTATCAAGCATTAGATG
CTGTGGGAGTACAGAAGGGCAGTTGCCTAAGTCTTTAAGGATAGGCTTGTGGTCAGGACTGAAAAATGTTGGTTGCTAGAACCATCAAGTGACTGCAACA
TATCAGATGACTGTCTTCATCATACCGGTTAGCCTTTGAGTGCTTCACATGTCTTATATACATTACCTTGCTTCACAACTCTCCTGGAAGATAATGGTCA
TCCCCACTTAGAGATGAGGAAACACAAGGCCCAGAGAGGGATTACAAGCCAAGCCTCTTACTCCCATGCCCTGGCTCTTTCCAGAATTACACCAGCATTC
CACCACAGCTGCCTGCACCCAGAGTGTTGGGTATGAATCGGGTACAACTGGTGAGATCCAACAGTGCCTCATCATTCGACTTGGGTGCACACGGGAGAAG
GTGGCATTAAAATCCACAGGGAACTCAAAATATGGAGGCAGGTAGATGAAGATTCAAGAGTCAGGACTCCCTGTGAAGTGAGTGACACTTAAGAGGGGGA
GTGGAGCCCAGATCTGTCACACATACGGCGTGGGGGACCCCACCTACCACTGGTCCTCAGCACCTGGAGACCCGAGCCTTCAGCAATCTGGGAAGCATGA
AAGTGGGTTTCGGTGCACAGGGCCACGCCTCCGCCGCCAGCAGCCCAGCGGGAGCGTCTGACCAGTCTCGCCCTCCGAGAGGAGAGAGAGGCGGCCCAGG
ACGGTCTGCTTAGAGGCTCTCTCCCCTGCAGAGCTGGGCCCAGGCATAGGTCAGACGCCTCCAATACAGTCCCCAGGGCAGCGATTAAAGCGGAGCAGGA
ACTGCAGACCCGACCGGGCAGGACAGGTGCAGCTTCTCGGAGTTGGGGGCGGGAAGTCTCGGGCTGAGGCCCACGTGCTTCGCCTTCGCCCCGCCTCTAC
CCTCATTGGTTGAAGCCAGATTGAGAGGAGGTGCCAGAAAAAAAACTCCTCCCTCCAACCTCATTGGCCAGCTCAGTTCTGAGGCAGCTCTCTGGCCCCG
TCTATGGGCTCGCACTACACTCCAATTGGGTGGTTGTTCTCCCAGACGGAAACTCCGCCCCACCTGTACCTTGGACCGCTCCGCCCTAGGGGCGGTTCCA
GCGCGCTTCGCTAATCGGTTCTATGCTCCCATTGGTCTGCTTTAATGTGAAGGGCGGGTCCTAGCTGATTCGCTAGCCCCGCCTTGCGTTCCTATTGGCT
GCTCCTGCTCTGCGGTTCCGATCCCGCCCAGCACCGTCCCCCACCCCCCGCCGCCCATTGGCTGCGAGAGGCCGGTGCGGGCCGCACTCGCAGGGCCCGT
GGCGGTTCAGGCGCCAGAGCTGGCCGATCGGCGTTGGCCGCCGACATGACGCCCGAGGACCCAGAGGAAACCCAGCCGCTTCTGGGGCCTCCTGGCGGCA
GGTGAGCTCCGGGGAACCCGGGCCCGGATGCGGCCTCGCCCTCCCGCCCCTCCGCGTCCGCTCCGCTCACCCTCGGCCCTGTCCCCCCAGCGCGCCCCGC
GGCCGCCGCGTCTTCCTCGCCGCCTTCGCCGCTGCCCTGGGCCCACTCAGCTTCGGCTTCGCGCTCGGCTACAGCTCCCCGGCCATCCCTAGCCTGCAGC
GCGCCGCGCCCCCGGCCCCGCGCCTGGACGACGCCGCCGCCTCCTGGTTCGGGGTGAGGCCCCGGGCTCGCTCCTCCCGCCCTGGGACCCCACGCCCTCC
TCTCGGGACGGGCATCGGGACCCTCCGCCCCCCACCCTTCCCCTCGGGACAGGCATCGGGCCCCGCCGCCACCACCTTTCCCCACGAGACAGGCATTGGG
CCTCTCTGCCCCCCATCCCTTCCCTCGGGACGGGCATCGAGCCCCTCAGCCCCCACCCCTCCCCTCGGGACGAGCACCGGGCCCCTCAGCCCCCTACCCC
TCCCCTCGGGACGGGCGCGGGGCCCCGGCTCTTTTACCTCTGAGCCCGCGGGGAGTGGGTGGAGGGGGAGGATGGGCTGCGGCTTCGGCGCCCCCTCCTC
AGCAGCCGCCCGCCTCCAGGCTGTCGTGACCCTGGGTGCCGCGGCGGGGGGAGTGCTGGGCGGCTGGCTGGTGGACCGCGCCGGGCGCAAGCTGAGCCTC
TTGCTGTGCTCCGTGCCCTTCGTGGCCGGCTTTGCCGTCATCACCGCGGCCCAGGACGTGTGGATGCTGCTGGGGGGCCGCCTCCTCACCGGCCTGGCCT
GCGGTGTTGCCTCCCTAGTGGCCCCGGTGAGTGTCCCGTCTCTCGAGTGTCCTGTCTCGCGGCCTGAGACCGAGGGGGAGTGGGACAAACCGCTCCCCAG
GCCTGGGGGCGCGGCTCCCCCTGGCGGGACCTTCTGGGTGCCAGGCTTGAAGTCCCTGCGTTATCTCGCGGTCCCTCCCGTCGACCCTGGGAAGGATCCT
ACTGTTCTCTCCATTTTACACTGAGGTCATGACATGCAGTCTCGGAAAGGTGAAGTCCTTTGCCCAGGCGAGGTCCACAGCTAGTCAGAGGGGAAGCAGT
TGCAGGAACCCAGGGTTGTCCCACTTAGCCGTGCCCCTCTTTTGCTCTGCAAACCTGCGGATGATCCACAGGAGCCCACTCCCTACATTTTGGTTTTCAT
CCCTGGCTTCGGGTCAATGACTGCAATTAGCAGGAAGTTCCTGTCCTGATTTCTCTTGGGGCAAAGGCTGCTGGCCTCTGTGTTCCCCTTCCCTTCTCAC
AGGCCAGCCCCTCTGGCTTCCCCATCTTCCCCCTTTCCCCCTCCTGACCCAGGCTGCCCACTTGGGAGCCCCGAACATCTGGGTCAAATCCTGGTTCTGC
CACTAACCTGAGCAGAGTGCCTCCCTGGGCCTCAGTTTCCTTCTCTGGAAAACAGGGATTATGGCATTAGCCCCTGAGGTAGTGGTCAGGATTCAGTGGG
ACTTTGGATAGACAGCCCCTGGCATGGCTTGTAGAGGACTGGATCCTGACAGCTTGGTGACCCATGAACTGCCCCCAGCCATGGGCTTGGACAATATCTC
CCCCAAGTGAGGTTGAAAGCAGCCACTCAGGCCCCTCCCTGGGTGCTCATTTCACCAACGTTTGCTAACCGGCAGCAGCAGCTGGACCAGAAGAGGGTGG
GGAAGAAGCTGGGCCTTTTATGTCTTTGGTTTTTTTAACTGGGCAGAAACACACCTGTGTTAGGGGCCTAAGCTATGGAATAACCTTAGATGCATGGGTG
AGGGCCTGGTGGCCTGTGGGCCCAGGAGGGAGCTAGTGGCAGCCACTGGTAGTGACCGAGGCAGAGAGTTCGTGCTTCTAGTCCAAGGCCACCACTCAAA
GCGTGGGCCCTGGGCTAGGATCCTGGGTGGGCGTCACGTGGAGCTGGTTAACAAGGTGGAATCTTTCGCCTGTCCAGACCTACTGCATCGGAATCTATGA
TTTATCCAGGGTGTCTGTGCACATTAAACGAAGGCTTGAGAAGCTCTGTGCCCACCGCCTCTCGTCATCATATGCAGCCCTCTCCGTTACCCTTAATCCC
CTTTAAACACCTGCCACAGATCTTTCAGTGGTGGGGACCTGGGGATGGCTCTGCTCACCTAGGCAGGTTCCACTAAGGGGCTTCAGGGCCTGCCGTAACC
CCCTGCAAGGACTTTCCTCAGCTCTGAATGGCTGAGACCTTTCCATTTTAAGAACTCTTGGAGCCTGAGTAAAGCCTCATCTTTTTTTTTTTTTTTTTAA
TTTTTATTTAAAAATTTCGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGGGATCTTGGCTCACCGCAACCTCCA


SNP Information

Context             (SEQ ID NO:64624):
GGATTGCAAATTTTGGTAACTACTGTGGCAAAAACAGAGGACCATGGTGCAAAGAAACAGGAAGAGCCCTATTTAAGATGGGGTCGTCAGAAAGCCCTTA
Y
CAGCGACAGCCAGTGAGGCCAAGCCTCTGAACAGTGCTTCTCAGACTGTCCATCTTTTCAATTTCCGGTCAGTTGCAGGAAATTAAATATGTGATCCTAC
Celera SNP ID:            hCV15932435
SNP Position Genomic:     36400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64625):
CACTTCCTCCCATTTCTTTGGGTCAGGAATCTGGCTTTTGTTTTCCATATTTCTTTTTCCCAAGACATTGGGAGGCATCTGGTGAACAACACCAATAAAA
Y
AGTTCTCTCCCCACGGTCATCCAGGTCACTTCTCTAACTCATTCCTGCACACACAGCACACGTGGAATTTGCCTGTTTAGTCTATGTTCTTGACTTGATC
Celera SNP ID:            hCV11887892
SNP Position Genomic:     108575
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64626):
ACACGTGGAATTTGCCTGTTTAGTCTATGTTCTTGACTTGATCACAGACGCCTGTACAATAAAGCCCCTTTTCAACAAGGTGCTGCAGAATGATAATGCT
Y
TCCCCAAAATCTGAAACTGATTTGTATCATTGAAGTTTTTTTCTGTATTAAAAATAAAGCAAAATTAAAAATAAACTTTATGTGGAGGAATTTTTATCTC
Celera SNP ID:            hCV11887893
SNP Position Genomic:     108733
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64627):
AAGCTTTACATGAAGTCACATGTGTTGATATAGGCACATAGACATCTTCTAGCACCAACAGAATACATACGTAACACATACCGAATGATCTTGATGGATA
W
ATTTGCTCCACCAGGTAATTCTATTTAGTAAAATTCAGTTAATGCAGAATCCCATTTTTAAAATTTACATCTTTATTACACATTTTTTTATTTTTAAAAA
Celera SNP ID:            hCV15932437
SNP Position Genomic:     39080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64628):
GTATTGTTTTTATTTGGTTAATAGAATTACTCACACAATTTATAGCCGGAACAAAAACCTCTAGCCTCTCTGAATGGCCTTCCACTCAAAACAGCGATGA
W
AATAAATGTCTAAAATGTATCTGGGGTCTGCCCCAACTTGATATCACCAAACGTGTTTCCAAGTTTTTGTTTTTGGTTTTTTGGGTTTTTTTTGAGACGA
Celera SNP ID:            hCV15932438
SNP Position Genomic:     39506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64629):
TAAAGCAAAATTAAAAATAAACTTTATGTGGAGGAATTTTTATCTCAGATATGTTAGAGTTGAAAATATTTTATAATGGAGATTGCAACTTTCAGTTATG
W
GTTATTTGAAAAAAATATATATTCACTTGGTAACCTTTAGGGGAAAAAATAGTATAAATTGTTCAATATGCTACTAATATTGGGTTTTTTAAATAATTAA
Celera SNP ID:            hCV11887895
SNP Position Genomic:     108888
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,7)   total(A,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64630):
TGTTAGAGTTGAAAATATTTTATAATGGAGATTGCAACTTTCAGTTATGTGTTATTTGAAAAAAATATATATTCACTTGGTAACCTTTAGGGGAAAAAAT
W
GTATAAATTGTTCAATATGCTACTAATATTGGGTTTTTTAAATAATTAAACTCTATTTTTATTACCAGAATCTGTCTTTAACTGTTTAAAAAGACAAAGA
Celera SNP ID:            hCV11887896
SNP Position Genomic:     108939
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64631):
CAGGTTTCACCATGTTGGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCACCTGCCTCAGCCTCCCAGTCAACTCTTGTGGATACCTCCAGGTACAA
M
GTATATCAGAACATTCACCAACAAGTTAACATGTTTTGAAACTATGGATGGTGCTTTTTTGATATTTTTACTGCCTCTGTTGGTGATTGATAGTGCTCAC
Celera SNP ID:            hCV16113244
SNP Position Genomic:     14177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64632):
GCAGCCTGATTAACCACAGATCCCCAGATAGAACCCATGCCAAAAAGAGCCCGAGTGGGTTATGAGGTAAGGTAGGTCCCATGATGCCACAGCTGTGCCA
R
TGAGAAGGAGAGGATGCTGTTGGAGTTAGGAATGGATGGCAGAGCCATGGAGTTGGGAGGTATTCGATTTGAAAAGACAGAAGAATATGAGCTCAGGCTG
Celera SNP ID:            hCV16113245
SNP Position Genomic:     22633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64633):
TAATCAAATTTGGGATGTGAGAGGAAGAAGAAAAAAAAAGGAAGACTCTGCAGTTTGGAGCCTGAGCAGCTGGGAGAATGGAGAATACGGCTTCCTGAAT
R
AGGAAAGCTCGGCCAAGAGCAAGTTTGAGGAAAAGCTCAAGAGTCCAGCCTGGACCCATCAGTGCCTTCCTGTACCCCCGTGGAGATGCCCAGTGACCTG
Celera SNP ID:            hCV25760583
SNP Position Genomic:     110670
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,34)   total(A,2|G,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:64634):
ATGGGCCAGGACATTCCAAAAAGATTGGACATGGTGGGAGAGGTACTTGTTTCTGGAGCTTCTGATGGCGCTGTCACCTCCCCTGTTCCTGCCCCGCAGC
R
CAGGCCTTGATCCGAAGCTCTGGCTTTCTACACCTCTCTCTCCCACGGAAGTGGGAAATATCAGGAGTTTAAAAAAAGAACTGTTAAACTGTACAGGATT
Celera SNP ID:            hCV462296
SNP Position Genomic:     111679
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64635):
GGAGGTCATTTGGAAGACAAGAGCGGGCGTCTCTGGAAAGCAGGGGGAGCACTTTTTCACAGGGGTTGTGAGGCGGTGGGAGAAGAGAAAGCAGACTGGG
W
GCACAGATGACTCTTCAGAGACTTGCTTTAAGGGAAAAAGAGAGGCGGGATGTAATAGCTACAGGAAGGGTCTTTTTGTTTTTCTGAAGTGTGGGATAAA
Celera SNP ID:            hCV462297
SNP Position Genomic:     111129
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,6)   total(A,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64636):
AGAGGTGAACTCGTCAAGGTCTTGTGGCTACTAAGCAGCAGGGCCAGGGTTTGCATCGGGTGCTCTCTTGACTCCAGCACCCACAATTTTAACCACTGTC
R
CTATTCTACATTTTGCTGTTTCTCAGGTATTAATGAAATCAGCCTCAACCCAGGGTATCCAGCCTCAGTTGGCCTAGTTTGGATTAGGTGGCAGGGTAGG
Celera SNP ID:            hCV311656
SNP Position Genomic:     107269
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64637):
GAGGAAGGGATCCCCTGACTGTCCATCCTGGTGACTGCCATTGTGCTAAGTCACGAACAGCCCATCTCAAAACTATATACGCTGTGATGATAAAATTAAC
K
GTAACACCTTTTGTTATTATCCTAAGGGCTCTGTGAATTTCAAGTTTGGGGTTCTTTTTGCCAAAGATGGGCAGCTCACTGATGATGAGATGTTCAGCAA
Celera SNP ID:            hCV25754020
SNP Position Genomic:     73659
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,35)   caucasian(G,6|T,34)   total(G,9|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:64638):
GAGAATACGGCTTCCTGAATGAGGAAAGCTCGGCCAAGAGCAAGTTTGAGGAAAAGCTCAAGAGTCCAGCCTGGACCCATCAGTGCCTTCCTGTACCCCC
R
TGGAGATGCCCAGTGACCTGGATGTGCAAGTCCAAGGCACTCAAGAAAGAGCTGTGCCTGGAACTCTTTCATTAGCATATAAATGATGTTTAAAGTCATG
Celera SNP ID:            hCV462298
SNP Position Genomic:     110750
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(A,6|G,28)   total(A,8|G,60)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64639):
GCTAAAATCTCTGCCTTGTCTCACTGAATTCCCATTACAATCCAGCAGGGTCAGTGTTCTCATGATGCCTGCTTTACAGACGAAGACCTAAGGCCAGAGG
Y
TAAGCCATTTGCCACACACCACAGAGGCAGTAAGTGGCCTAGACAGGGCTTGATCTCCCATCTGTCTGCCCAGTCTGTGCCCCTCCAACCACCCCACCCC
Celera SNP ID:            hCV311659
SNP Position Genomic:     105415
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64640):
GTCCTCAGATGTAATTAACCTAATCCTGGGAGCTTTGATTTCCTTAATGCTGTAAAGAGTACTTTCCCTAATGTACAGCTCTGGCAACATCATCTTTATG
M
ATTCAAGCAAACAAATTCCTGCTGTAATAACAACAGCAAACCTTCAGCATCTCTTTTTTGCTTATGAAATAAAGTAGGTAGTCTTCAGCTTGACAGTTAA
Celera SNP ID:            hCV29292196
SNP Position Genomic:     18927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64641):
CTCAAACTCCTGACATCAGGTGATCCACCCACTTCAGCCTCCCAAAGCACTAGGATTACAGGCATGAGCCACCACGCCCGGCCTGCTTCCAGGTTTTCTT
R
GAAAATATGGTTTTTAACTCTATGCATAATACTCTACCACGTGATACACCATCACTTCTTTATTTCCCAGTTGTTCATTTCTACCATTTTATACTTGTAA
Celera SNP ID:            hCV15932440
SNP Position Genomic:     39901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64642):
ATTTTCCATGCCTTTGAATCCCCTTGGAAATCTGCTAAAACCCCTAGACCCCTTCTCAGAATAATGTTTTTAAATACATGAAATTAAATACTAGGATTAC
R
AAGGAAAACAGTTGTATTGAAATAATTATCAACATGATTTTTGAAACCTAATTTATGATACAGTAATATATATGATTTTAAAATACATTAAATAGGCCAG
Celera SNP ID:            hCV15932441
SNP Position Genomic:     47604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64643):
TCCTGATTTCTCTCTCCCTCTCTTATGAGTATCACTAGGAGCCAGTTATATAAGTCAAGTACATGTGGTGTTGGTTACTTTCATCTGTTTGTTCATTGAT
M
ACTCATTTGTTGATTTGTATCTTCTGAGTGTCAGGCCCTTTAGGGAAAACAGCTGTGATTTTCTAGAAGCTCCTTTTTAGCTTCTCTGATGCTGCAGCTC
Celera SNP ID:            hCV27490919
SNP Position Genomic:     61991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64644):
CAATTGTTTGCATTTCTCTATGGTACCTGTCATATTTTACATTGTCATTATTTGTGGGCATTTTTTACCTGTCCTAGTAGGCAGAGATTATGGTGCTTTT
S
TTATTGTATCCCCAGCAGTACTTGGCTCAGTGCCAGACATCCACAAATCAGCTAGAAGATGAGTTTTGCCAAAAATCTCTCTAATAAATTCTTTTTTCTT
Celera SNP ID:            hCV29292197
SNP Position Genomic:     19358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64645):
CTAAGATCTGTTGCTGCTACCTGAAAGAAGCTTGTCTGTGCCATCCACGCATCTCTTGGAGGCCCCAGAAGTTTAAACGTCCTGATGACAGCTTAGGAGT
K
TACTCTCTAGGCGAGAGAGAAAGACGTTCATGACAGTGTTGCTTTTAGTAGAACAAAGAAAAATAACTGTGATAGGCAACTGATCAAGCACAATAATGTG
Celera SNP ID:            hCV15932442
SNP Position Genomic:     48857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64646):
CCTGTCCCCACCTGCAACTCCTCCCCACTACAGTCTTTGCCTAAGTCTGTCACTGTTGCCGTGCAGCTCTGAGACATCTAGAATGCCCCTCTCTTCACTC
K
GTCCGTCCTGGTCACCTGGCCTCAAGGAAGCATTGACTGAGCCCAAAGCCTCACTGAGTCCTACGTGGACAAGTGTTACCCAACCTCCAATCTTAATCCT
Celera SNP ID:            hCV366714
SNP Position Genomic:     82072
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64647):
GTCCCCTGTTCTTTTGTCTGTTGTTATGGCATTTAACCAGGTTGTGTTGTGATTTATCTGATTATATGTATGTGTGTCTCTTACTCCCTCTAGGATTTGC
M
GTCCTCTAGGGCAGGGATCATGTTGGATTTATCTTTGTCCAGCAGTTAGTACAGGCCCTGAAAAAAATGGTTTCAGTAATGTTTGCTAAATGGACAAATA
Celera SNP ID:            hCV29292198
SNP Position Genomic:     23550
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64648):
TCCTCTTTTCTTAGCATTAGTGATGTTACACATACATGTTAATACCCTTTTCCTAAACATATCCATCAAAATGAATGCAAAAGATCTGGTGTCTCTTCTC
R
AAGGAAACTGCCCCACTTTTCTGTGAGTGTGTGGCTCTTATGTGGCTCTCATGTGGCTCTCGTGTAGCTCCGGTGTGGAGCATCAGATCCTTCACCTCCT
Celera SNP ID:            hCV29292199
SNP Position Genomic:     25438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64649):
ACATTACTAAGTATGCACTAGGCACTGTGCGAAGTACCTTACATGCATTGCCTCATTTAAACCTCATAACACACCTAGGAGACAGGTATTAACCACACAA
R
GACACTGAGATTCGGAAATTAACTAATTTGCTCAAGGCGACCCACAAGGCTGCAGATTTGCACAGCTCTAGGGGTACTGTTCTCATAGAATTCAGTTTGT
Celera SNP ID:            hCV366716
SNP Position Genomic:     85198
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64650):
AGAGAGATCAGGGTCCATCCCAAGCTGGCTTTGGGATTATTGTTCCCTGAGCATGTGGGAAGGGCTGGACACCACCTGCAGTGTCCTCTACCATCTGTGG
Y
TGGCAGGATCAGTTGCATTCTCACTGTTCTAAACCTTTCTTTTCCAGTCCATCAGAACTACATTGGAAACGATGCCGAGAAGAGCCCTTTCTTCTTGTCC
Celera SNP ID:            hCV15932443
SNP Position Genomic:     54791
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,9)   caucasian(C,17|T,17)   total(C,32|T,26)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64651):
CTACTGCAGAGTCCTCAGGGAAAGCCCTAGATAAAACTGAGTGGCCATTTAGTGAGAGCCTCTGTGTTGCCATGGTATGCACATGCCTTCACCTGCTTCA
R
TGGAGCAGAGCTGCTGGAGGACCGACCTGGTCAGGCAGGCCAGGCCCCACAGGGCCTCTCAAGCTTTATGTGCATACACATCACTTGGACACCTTGACCA
Celera SNP ID:            hCV366717
SNP Position Genomic:     87096
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,13)   caucasian(A,6|G,18)   total(A,13|G,31)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,13|G,13)      total(G,13|A,13) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64652):
CTTGGCATGGGGGCATCAAGAGCCCTGGCATCCACCTCTTGGCTGGCCTTTCTTCCTTCACCCCTTCCTTCCTCCCTCCCTCCCCCTCCTTCACCCTCCC
S
CTCCCTCCCTCCCTCCAAGGCAGGAGAGGGTGGGTTTCCCCCTTCTTCTACTTTTCTGGAATGGACTTTCTCAATGTCCATATCTTCTTCCTCCAGGAAG
Celera SNP ID:            hCV15932444
SNP Position Genomic:     55959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64653):
ATCCACACATGTTGGGGTGGAGAGATCCTGGAAGTTGCTATCAAACCTGAGCAAGATTGTTTTCAGTCATAGAATGTGTTTATTCATATACATTCCCCTT
R
AGGAGAAAGAAGAAAGACTGGGCATGGCTTTCTTTTGAATGACCCGAGAGGCTCTTTTGGAGAAGGAAGTTGTAGAACTTGTCACTGATTTGATGTTTGG
Celera SNP ID:            hCV25753879
SNP Position Genomic:     59350
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,10|G,28)   total(A,13|G,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:64654):
AATCTACAGTTCACTCAGCCAGCCAAAAAATTCTTTGGCTATTTATCTACATCCTGTTCCACTTTCCATGGGGGTAAAAACTAGGTGATCATCAAAAATA
R
AACAGACAAAAATACACAAATTATATTATGAATATGATTTTGTATTGTAGAACAGTACCCCATGTACTTAATTATATCTCCATTCAGAATACATAAAAGT
Celera SNP ID:            hCV366718
SNP Position Genomic:     87570
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64655):
CAGGCATCACTTCTAGACTCCACCAGGTCCAGAGGAAGAAGAAGACGGTATTTAGGAGTGAGGAAGCCTCTCTAGAAGCCCCTTGGCAGATTTCTCCAGT
S
TCATTGGCCAGAATTTGGTCACATGTTCATTCCTGAACCAGTCACTAGCAAGGGGCAGAGGAATACATGATCCCCCGAGAGAGATCAGGGTCCATCCCAA
Celera SNP ID:            hCV27510072
SNP Position Genomic:     54613
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64656):
ATGCTTCTCCTGAGAAGCTGGTTTGTTGTTAACCTTATAAGCAGTGGGAATCCTGTAAATGAAAGGGCTTTTCCTCTTTGCATTGGCTCCTAGGAAGCTC
Y
GAACTCCATTTGTGGCTTATCTCTAACAGTCTTAAAGGACTTTATAACATGCATCCTCATCTTATTCTCTTGTTTTCAGTTTATTTACCTACACTTGATT
Celera SNP ID:            hCV1754359
SNP Position Genomic:     15292
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64657):
TAAGACACATAAAATATCTGAAGAATGAATTTAGCCACATAAAAGATACCTCAGTTGATTCAGTCAACACCTGTTCTGTCTGTCACTGGTGACACCACAC
Y
ACTTAGACCACCACCTCCCCTGAAGGAGCAGGTGCATAGCTATAAGTCAGAGTAGGAATTGGTACTGTGAAAGAGATGCATGTAGAGCACCACGGGGGTT
Celera SNP ID:            hCV15932449
SNP Position Genomic:     7536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64658):
TTCTTTTTGCCAAAGATGGGCAGCTCACTGATGATGAGATGTTCAGCAATGGTGAGTGATCTCCTCCCGCTCTCTGCTGCCAGAGACCCTGTCCTGCCTT
K
TTGCATTCTTGCCAGTTGGAGCTTAACTTGTCTGTTGAGTTGGAGTCTTTAATACGAGGAGATAGTTTTACACAATTTCAGCGTGAATTTTGTAGGGCAG
Celera SNP ID:            hCV79678
SNP Position Genomic:     73811
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64659):
GGCCCAGCTCTCTGGCCCGGACCCCAGGACCCAGCTGGCACAGTGCTTGTGTCCATAAACTTTGCTGGACTGAGCCAAACCTGTGCCCTGTATCAGAGAG
M
CATATCAGAGGCAGATCTATCCAAGGAGACTTTTCTGTCCCCACCTTTCTGACATTGCTGTCCACTCTCCTTTTCAGACTTCCTTCTCTCCCAGCTTCTG
Celera SNP ID:            hCV27502999
SNP Position Genomic:     112003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64660):
CTCAAGAGTCCAGCCTGGACCCATCAGTGCCTTCCTGTACCCCCGTGGAGATGCCCAGTGACCTGGATGTGCAAGTCCAAGGCACTCAAGAAAGAGCTGT
K
CCTGGAACTCTTTCATTAGCATATAAATGATGTTTAAAGTCATGAAACTAAAGAAATTACCAAAGGGAAGGGAGAGACAGAGGCACCAGCAAAGTAGACT
Celera SNP ID:            hCV25749858
SNP Position Genomic:     110806
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,34)   total(G,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64661):
GGTTATCTTTTCACTTTCTTGGTTGTGTCCTTTGAAGCACAAAAGCTTTAAGATTAGATCATGTCTAGTTTGTCTGTTTTTTTTCTTTCATTGCTGGCAC
K
TCCGTTGTCATGTCCGAGAAACCATTGCCTAATCCAAGGTTGCTTGGTCACTTTTTATAGTTTACTGTTCCCTTGAGATAATGTCAAATTTGTCTTTTAT
Celera SNP ID:            hCV16113185
SNP Position Genomic:     34911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64662):
TCTACCACATAACAGTGAGGGTTTGGTGAGCCAAACTCATGAGCTCAGATGAGCAGGAAATTGCCAGAAAAAAATAGGCCCAGTTCTGTGGTACTCCCAA
R
GATCCTCTTACAGTGACTTTTCTCTTCTAGGATCCCATCAGGCTCCTTGGAAAGTGCTTCTACTTCCGAAGCCAACCCTGAGGGGCACTCAGCCAGCTCT
Celera SNP ID:            hCV11843488
SNP Position Genomic:     134467
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,7)   caucasian(A,16|G,12)   total(A,39|G,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64663):
TCTTGGGGCTTCTCACGGCTGATCTCAGCTTAAATACCATCTTCTCAGAGGGGCCTCCCCTGACCATCCCATCAACATTAGTTCCTTCCTCTGCTATTCT
S
TAACTCAACATCCTATTTGTTTTCTTAGCAGTGCTTATCACAATCTATATTCATTTCATTTACCACTTACTTACTACTCTGTATTGTTCATTGTTTTATT
Celera SNP ID:            hCV8782441
SNP Position Genomic:     12074
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,10)      total(G,10|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64664):
CACGGCTGATCTCAGCTTAAATACCATCTTCTCAGAGGGGCCTCCCCTGACCATCCCATCAACATTAGTTCCTTCCTCTGCTATTCTGTAACTCAACATC
Y
TATTTGTTTTCTTAGCAGTGCTTATCACAATCTATATTCATTTCATTTACCACTTACTTACTACTCTGTATTGTTCATTGTTTTATTTCTAGAACATGGC
Celera SNP ID:            hCV8782442
SNP Position Genomic:     12087
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64665):
CTATCCCTGATTCAAACACTTGTGCTCAGGGTAGTGGGGTCATAGACTATAAACCTGGCTTTTGAGGCCCATCCCCTCAGCAATGCTTGTGGACAGGGCA
K
ATTTTCTCTGGAGATGATATAGACAAGTCAGTTTCAAAGAAGGGCATGAGCTGAGCTGGAACTCCCAAATGTGTCCATTAACATTCCTTCATATAGCGAG
Celera SNP ID:            hCV8782443
SNP Position Genomic:     12474
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64666):
TTTAAAAGCTCAAACTAAAAGCACTTAGTGAAAATGTCTTCCTCTGCTGATGGACTCCCTTATCTCTGTACTTTTTTAAATACCATAAATAAAGATATAG
R
TTATGAACTCCCTAAAAATAGGAATAATGTTTATTTGCCACTGTATCTCTAGAACCAAGCACAATGCTTAGCATTAGTTACTTAGTAACTATTGATTGAA
Celera SNP ID:            hCV8782444
SNP Position Genomic:     12677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64667):
ATTAAAGTGCCTTCCAACCTTCCATAATTACCACAGATTTGTTCTGTTCCAAGCAACAAAGCCAGACACCAAATACGTTTCTCGATTCTTCTCCATTGGC
Y
GTATAGTAAGTAGAAAATGTCTTGATATTTTGGACGTAGAATTGCCAATCATTCCTTCTTAATATTCAAAGGAGTTGTCATCATTTGTGGTGAATTTTCA
Celera SNP ID:            hCV8782445
SNP Position Genomic:     22001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64668):
CTTTGAACACAGAAAAAGAGTGAGAGTTCAGTTGGCAGGGTGTGAGCGAGTGACTTGACTTGGTGGCACGAGGAGGAGTGAGCAGCATGCCAGATATGTG
S
GGTGGTAAGTGCAGCCTGATTAACCACAGATCCCCAGATAGAACCCATGCCAAAAAGAGCCCGAGTGGGTTATGAGGTAAGGTAGGTCCCATGATGCCAC
Celera SNP ID:            hCV8782446
SNP Position Genomic:     22522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64669):
GGCTTTCTCCGATGAAGACATTATAGACTTGAAGTAACAGAGTTGAATCTCATTTGCCATCTTTAGTTTTCTTATGGAGGTTTATACTCTTTAAACAGTT
Y
TGATGTAATTTCTCAACAAAATGTGGCTTTTAGCCTGTCAGTGATCTATTGGACCAAACCTTCTGCACACTCGGCCAGTTCCCTCTCCAATGTCCGGTGC
Celera SNP ID:            hCV8782448
SNP Position Genomic:     134733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:64670):
AGAGAATTTGAGGCTTCATCAAAGTCTCTCTTGGTGCCTTAAGATGAAACCCTTGTCTTTCAGCTTTCTCCTGTCTCAGGGCAAGTTTCTGTTTTCGTAG
S
GCACATATCCATTCCATGGGTTAGAAGAGCTTTTGGCCCTGTTTGTTAAGGAGGGGAACATCTGTGGGTTCTGAAATTTGCTTCCCTTTTATATCACTAA
Celera SNP ID:            hCV1754360
SNP Position Genomic:     16951
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,12)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64671):
GTTACATGACAACTCTGTAGCCCTGTTAAAATTTTCTCCTCTCTTGACATCTCCATACTATCAGCTTTTCCTCTTGCCTCCCTGCTTCACCTTCTCAGCA
T
TTTTTTTTTTTTGATTCCTTCTTGTCTGGCTGGCCCTTAAATTTTGGTGCTCTTCTAGATTCTGCCTCCAGCATTGTTCTTACTATATATGCTCTTTCTG
Celera SNP ID:            hCV1754361
SNP Position Genomic:     17790
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64672):
GTTATATTTACTTGAAAGATCCATGATCTTGCTGCTGTTACAGGCTGCTCCAGTGCCCCTCAAACTTGATTATGCATAAAAATCACTTGAGCAGTTTGTT
Y
AAAACCCGTGTTCTGATTTGGCATATCTGGAGTGGGCTGAGTAGTGTGCATTTTTTACAAGCTTACATTTTGAAAGTGACTTTTAATTCCTTATGTGTTT
Celera SNP ID:            hCV1754362
SNP Position Genomic:     18536
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64673):
CATAGTATTTTTGTGTGTATGTGCATGTGATGCTGATATACTTTTTAATATATTTTTCCGATTATGAAAGGAATACATAGTCATTATAGAAAATTTGAAA
Y
ATACTGAAAAGCACAGAGAAGAAAATTAAATTCATGTGTAATCCTACAAATAATCACTATTACGATTTAGTACACATCGATTTAGTAATTAAATTTGTAT
Celera SNP ID:            hCV1754363
SNP Position Genomic:     19577
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64674):
TCTCCTGTGCTTGGCTTTTTGCTGCTCTGTACCAGCGGCTCTAGAATTTATACATAACAGGGGCTTAGGAACTACCAGTAGCAGTCTGGTTGAAAGAGGC
R
TATTGAAGTAATGTTTGCTTAGCTCTTTACATAAGCCTGAGAAAATGCCAGCTGTCTAGATCAAAAAACAGGATGCAGATTGTGAAGAGGTTAAATCTCC
Celera SNP ID:            hCV1754364
SNP Position Genomic:     21499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,11)      total(G,11|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64675):
GAAGTTTGCTGGAGAGCGGAGAGAGCGCCTGAGGAAAGACAGGTGGGAACCAAATAATCATGCAGAGAAATGTAAATCACAACTCTGCAGAGTGCCCCAA
R
AACTGACAACAGGGTCATCTTCCCAGGCAGTGGGTCAGGGAAGGTATACAGAAGGAGGGGGACTTTGGTAGAACTGAAGGATGAGTAGTAGGGTTTTTTA
Celera SNP ID:            hCV1754365
SNP Position Genomic:     29600
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64676):
TCTTTTTACCATCAAATCGTTAAATTTGTTCTTCCTTTTTTTCTTGAACTTTTTAAGCAAGACAAGCAATATGCTTCCTGTTCTAAACTCAACAAATGAA
R
AGAGCATTATTACGTATGCCTGTGTCTAAAATATAGTGTTTTATGATGTTTAATTTATATTTTTATATGAATGAATGACTATCAGCTCTTCTCCCAAGCC
Celera SNP ID:            hCV1754366
SNP Position Genomic:     30143
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64677):
ACTTCAGCCCAGCCTGAAATGGACAAACCAAACTGGACTTTGCCACCCTACGTAAGCACAACTCTGGCCCCTGCCGCATCCAGTGTCTGGAGGAAATACA
Y
ACCTCCCAGGAAAGACATCAATGGGGCCTTCATGTGATCCTTAATCACCATACACTTGGCAGTCAAACACTGCTCACCTGGCCCTGCCATACACCAGAGG
Celera SNP ID:            hCV1754367
SNP Position Genomic:     34072
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64678):
TACATTCCACATTTCTTACCAACTTGGCTACAAAGTCAGGTAGCCGTTACCACAGCCTCCTCCTCAGCTTCCATAACTCCCTAAAATCACTCACAGAATT
M
ATGAAAGCACTTTTTTTTTTTTACTATTACTGATATATTATAAAGCATCAGTCCCCAACCTTTTTAGCACCAGGGACCAGTTTTGTGGAAGACAAGTTTT
Celera SNP ID:            hCV1754368
SNP Position Genomic:     37121
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,3)      total(A,3|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64679):
TACTACATGCCAGGCAATGTGCAGAGCAATGGGGATACAGGGGCAAAGACACTCATGATATGGGTTTGGATCCTGATCCTGCCATTATTAATCAAAGGAC
S
TTACACTAGCTACTCTCCATTTCTCTGAGACGCAGTTTTCCTTTCTGTAAAGTGGAGATATTACGAGTGCATATCTAGTAGGTTTGAATGGAAGTTTCAA
Celera SNP ID:            hCV29292200
SNP Position Genomic:     53714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64680):
CCTCCTTAGAACAAAAGATGTTCCTGTCACCCTTATCACTCAGGAGCTCTGTGCTAGGAACCACTAACAAAGACCAAATACGTATTCCCATTATACCACA
M
CCCTAAAGCAGTTAATTCCATTTTTCAGAATCTCTTAATTTCTAGAAAGGTCTTTTTATTGAACATAATTCACCTGTCTACTGTATTTTCTTTTTCTTTT
Celera SNP ID:            hCV1754369
SNP Position Genomic:     38450
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64681):
TCTTCCCCAGAGAGTCTTGGGCCAGAAGGAGGATGAGGGTCCCTCCAGCCTCCGTGCCTCCATCCTGACCCTCGTCGCCTCTGCACTGTCCCCATGGCTC
W
CCTGGGCCATTCCTTCCCACTCCGTTCAGCCACAGGGTCCCTGTCAGAGCCTTGGCTTTGGTGTCCGCTTATCAACCAGAATCTACTTTTTTAGAAGTTC
Celera SNP ID:            hCV29292201
SNP Position Genomic:     65889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64682):
TTTACAGAGTGTAAATAGTGCTTCGAGGAGAATAAACAAGGTTCTCCGATGGAGAATAACAGCAGGAAGGAGGGTGGCTTTATATGGGGAGATCAGGAAA
S
GCCACTCTGGAAATTGACACTTGAGCTGAAACCTACGTGATGGGAGAGAGCCAGTCATCCCCGGAACTGTGGAAGAGTTCCAGGTGGAGGGGTCAGTTTG
Celera SNP ID:            hCV29292202
SNP Position Genomic:     72118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64683):
CTCCCAGTCTGGCAGAGCAGACACGGTGCAGCACAAAGCCTCTAGCTGAGATAGTGAAGTAAAACTAACATGTACAGGGACATCTGAGGAGGAAGGGATT
Y
TAAGTCAAAGTGGTGGGGCCAGGAAGGCTCCTTTCTGGGGTCAGAGGAGACTCCAGGACCATCCTTCATGTAATATACCCATTGGTGCTGGTTCCTTATC
Celera SNP ID:            hCV27999976
SNP Position Genomic:     104083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64684):
TTTGGCGGTCTGTATTGGAACTTTCTACAAATCTTAGGAAGAGCTATTCTCACTGGTGCTGTCACCTTAGAGAAATAAGGGGTCAGAGATAATAATGTGC
R
TGCGTGTGTATGTGTAAACATGTATAGGTATTTGTATGTGTGTGAGTGTGGTTTCATAGACTCTTTTTTGTCTCTCTCTTTTTTTTTAATATATTTGATT
Celera SNP ID:            hCV25753166
SNP Position Genomic:     76975
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,17)   caucasian(A,20|G,18)   total(A,39|G,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:64685):
TTTCAAGTAGGGGAGTGGTGAGATTAGATCTGTACCTTTGAGCAGACAGGGGAGGCAGAGGAGAAGCCTGCTCTCAGAGGCTGTGGCAACAGTCCAAACA
R
GAGACAGGGTTGCCTTGGGAGAGGGCCATAGGTCAGAAGGGAGACAGGGGAACTAATTCAAGAGCCATTTTCATGGTAGAATTGGCAAGTGGAGGTTGAA
Celera SNP ID:            hCV29292203
SNP Position Genomic:     75381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64686):
AGTAGGGGAGTGGTGAGATTAGATCTGTACCTTTGAGCAGACAGGGGAGGCAGAGGAGAAGCCTGCTCTCAGAGGCTGTGGCAACAGTCCAAACAAGAGA
Y
AGGGTTGCCTTGGGAGAGGGCCATAGGTCAGAAGGGAGACAGGGGAACTAATTCAAGAGCCATTTTCATGGTAGAATTGGCAAGTGGAGGTTGAAAGAGG
Celera SNP ID:            hCV29292204
SNP Position Genomic:     75386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64687):
AGATGGCCCATGTGCAAAGACTTTGTTTGCCTGCTGCTGTAGGAGCTCTGTAATTTCTGTTAGGATTGTTGTGGCAACCACGAGTGAGATTTTTGAGAAC
Y
GAGTAGGTGCAGTTCTCTGCAGGCATCACTGAGAGAGCAACACTCTGCAGAGGTAGGAATGCTACTGCCTCAAGGCAAGTAGCCACAGGGCCCAGCTCTG
Celera SNP ID:            hCV29292205
SNP Position Genomic:     85910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64688):
TGTGTCACACACTCGGCCTTTAATCCTCAAAACCCCCTGAGGTGATGGGGGTGGCATTCCAGCACTTCCCCACCTCTACCACATAACAGTGAGGGTTTGG
K
GAGCCAAACTCATGAGCTCAGATGAGCAGGAAATTGCCAGAAAAAAATAGGCCCAGTTCTGTGGTACTCCCAAAGATCCTCTTACAGTGACTTTTCTCTT
Celera SNP ID:            hCV11843490
SNP Position Genomic:     134393
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,8)      total(G,2|T,8) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64689):
AAATCCATTGTGAGAGGGGATGCTCCATCAAGCTTGGCAGCTTCAGGGATCTGTAAAAAAGAGGTGAGTTCATGATACTTTCAATTTGAACTTTGAATTC
Y
CCTTTTCCTTAATGAAAATGATTGAGATTATTGGAAAAAGGTTTGAGAGCAGAAGGAAGAAGAGCATGTCTACTGCAGAGTCCTCAGGGAAAGCCCTAGA
Celera SNP ID:            hCV29292206
SNP Position Genomic:     86926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64690):
AAACCTGTGAATTCACTCTTTTCCTATTGCATACGTATTTGAAAGGAGACTTTTCTTCCTAAGAAAGGTAATTGAGTCCAGACCCCAGGGTTTGGAGTGA
Y
TCCGCTCCCACGGGGGTATCTGTGTTACTGTTTCAGGTGTGGTACTGTACATTTCCATTTGGTGGGCTGCAGTGTATTTTTTCTGGTGCACTTATCTTCC
Celera SNP ID:            hCV29292207
SNP Position Genomic:     90213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64691):
TAACAGAAAAGCTGGTTCTAAAAGATTGTTCTTCATAAAGAGATTACAGGAAGGAAAGCATTGTCATCAATCAGTCATTAAATCCACCTGTCACTCTGTC
R
GGTCCTTGCCTCCTCCTCCTTCTTGTGTTGTATACAAACCTGTTCAGCCATCTGAGAAAGACTGGATGGAGATTAAGTGCTAATTCACTCTGTACACAGC
Celera SNP ID:            hCV29292208
SNP Position Genomic:     93327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64692):
ATAAAGCTATGATGGCTGGCATAAAGAAATACTAAAATTAAACATAGAGGAGGGCCAGGGAACAAAGGATAATGGAGCAGGGAGTTGGGAGATTCTGTTT
W
GAAAGAATGTCCCAGGAAGCCCTCTCTGAATAGGTTACCTGTGAGCAGAGATCCAAAAGAAGTATGGGAGTGAGTGATGAGGGTATCTAGGGAAAGGATA
Celera SNP ID:            hCV29292209
SNP Position Genomic:     97273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64693):
TGCGTGTACATTAGTTGATTGTAAATAGCTTACAATTTACAAATAATAAATATACAATGCTGTTTATCATAAAAATCCACTTAGCCAATTGGTTCTTACA
R
AATGTTTTTGTTAATATTTGCTGAACTCTTGTATCCATAGCCAACCTACAGTTGCAGTTCAACCATGATTTTACACTTGGAGTTATATCTCAATCCACTC
Celera SNP ID:            hCV11843493
SNP Position Genomic:     127499
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64694):
GGAGGGATGCAGGAACAAAGATGCCTTCCAAGATGTCTTTTGTCGCTGGCATATAATCTGGGGGGTCTTGTTCTAGTCCCCTCCCCTGAGTCAGGCCCAC
R
AAGTCCTCCCCAGCCCTGCCAGACTGGGCTGGCTCCCCCGCTGTGTCCCCTGTTCCCTTCCCTGGTCCTGACATCCATCACATTTGGTGGTAGGTGACTG
Celera SNP ID:            hCV11843494
SNP Position Genomic:     127114
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64695):
GTAGTAGTAATATTATTCTGGCTCAGAATGCCTTTGACCCTAAGTATCCAGCATCATGGCGGTATTCATACTGGCTATTTATAAAGAACTAGCAGATAGG
R
TACTATTCTTGTTGCCTGTTTTTCATTTCTTTAATTACAGTCATCTAAGTGTTGTCTCTAACAAAAATGAGTTGCTGTTGTTTTCATTGCAGACAGTTGC
Celera SNP ID:            hCV11843495
SNP Position Genomic:     124759
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,8|G,30)   total(A,14|G,62)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,12)      total(G,12|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64696):
GAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACCAAAAATAAAAAAATTAGCCAGGCGTGGTGGGGCACGCCTTAGTCCCAGCTACTCGGGAGG
M
TGAGGCAGGAGAATTGCTTGAACCCAAGAGGCAGAACCCAAGAGGCATAGGTTGCAGTGAGCCAAAATCGCGCCACCGCACTCCAGCCTGGGTGATAGAG
Celera SNP ID:            hCV11843496
SNP Position Genomic:     121489
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64697):
CCACCACTCACCTCCTGCTGTGTAGCCCAGTTCCTAAGAGGCTATGGACCAATACCAGGGGTTGGTCTGTTATAAAGAGTACAACTCAGGAAGAACCAAA
K
GGAAGAGATGCATAGGGCAAGGTATGGGGGTGGTGGCATGGAGCTTCAATACCTTCTCCAGTTGTATCCATATTTTCAGTACCTCAATATGTTCCCCAAC
Celera SNP ID:            hCV16113197
SNP Position Genomic:     37705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64698):
GGATCACTTGTGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACCAAAAATAAAAAAATTAGCCAGGCGTGGTGGGGCACGC
Y
TTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAAGAGGCAGAACCCAAGAGGCATAGGTTGCAGTGAGCCAAAATCGCGCCACC
Celera SNP ID:            hCV11843497
SNP Position Genomic:     121466
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64699):
CGTAGGAAATCTCTATGTGATTTCCAGAGATTCCTGGAGACAGGAGAAGGTGTGCCCTGATTCTGTGGGAAGCACGGAAGGAACTGGTGCAGGCTGTGTG
Y
GTCACAGTGTTGGGTGACAACGGGAGCAGCTCACCAGTCTTGTTCTGAGCAAGAGGCTGAAGATTGAGGGATACATTCCCCATCTGTTTACCTGCCAGCT
Celera SNP ID:            hCV11843499
SNP Position Genomic:     112889
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64700):
TCAGGTTACTTCTCTGAACCTCAGTAATGCTGAAGAACATGTGATCTGAAGTCATTCTTGTTTCATCATTCACTAATTGTATGATCTTGGACTTCCTTTA
R
CATCAGTTTTCTCATCTATAAAATGGGGATATTTCTGTTATCTACCTTAGAGGGTTGTTATGAGGATTAAATGAGATCATGTACATAAAGTACTTAGCAC
Celera SNP ID:            hCV11488258
SNP Position Genomic:     8006
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64701):
CTCTTTAAATCATTTATCTCCCAACCAAGTTGTCTTGAAGCAGACTCTGTCCTTCCACCCAGAGTTTGTTACCCACTGAGGTTGTCCCACTGTTTAGTAG
M
CAACTAGGGAAACCCTCATCTCTGGTGCCCTTGTTTCCCCCAGAAGACTAAAGCTAAAGCTCATTCATTCCAGTGAACATCTACGGGTGCTGTTCTAGGT
Celera SNP ID:            hCV25751063
SNP Position Genomic:     96993
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,28)   caucasian(A,11|C,25)   total(A,13|C,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:64702):
CAAGGCAAATTTTATGTAGAATATAAAATGCTATTACAGAAAAAGTGTCATAAGACTTTATTCAAGATTTTCAATGTCATAGTTTTTGGTTTCATAATGA
Y
AAATATATTTTAAATGTTTTTTAATCAAGTGAGTCACATAATAACATATCATTAATGTGTTATATATTTTGTTATCACATATAATTACATAAACAAATTG
Celera SNP ID:            hCV8782383
SNP Position Genomic:     113101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64703):
TCCTTCAGCCTAGCCCACTGAGGAGCAGCCTCTATTACCAGGCCAGGGACTGGTTGCAAAACATCCCAGTCCTAATGCTTGCAGGGCTAGTGGCAATTGA
R
AAGCTGAGAGGTGCGATCCTTTTCTTATTCACCACAGTTAGCAAGGAAGGAGCACTGGCGTGGGTGTTAAAAGGACTGGGCGTGAGATTCAGAGCTGACA
Celera SNP ID:            hCV16109172
SNP Position Genomic:     64979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64704):
AATATCAAAGAAGTGGCTTACTGGTTCAAACAGTACATGTGGTTTTAAGGCTTTTAATATAATTTACTGAATAATCTCCAGAGTAGCTCAAAAAAGTCCT
R
CCGACAGTATGTTATTATGCCTCCAGAGTCGACTTGCTAACAGTGAAGCAAATTCAACCACAAATTTATTAGATTCTCACCTATCTCAAGATTATCACAT
Celera SNP ID:            hCV1754370
SNP Position Genomic:     40180
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64705):
CACTGTTGGAGGATATGAAAATTACCACAATCTTTTGGGAAGGCAATTAGCAATAATTAAAAATGTGTATACCATTTGGCAAGACCTTCTATTGCTAGGA
Y
GTATATTGTAGCATTATTTAAAATAGGAAAAAAACTGGAAACAGCATCAATTTCTTTCAGTAGAGGAATTATCATGTAAACTATGGTCCATTTACACAAT
Celera SNP ID:            hCV1754371
SNP Position Genomic:     43754
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64706):
AAGTTCCAGAATGACTTGTTTAATATCATGCCATTTTTCTTAAAAACAAAAAAATGGGAAATATGCTCGTCAAGATGCGAGAAAATTTCTGAAAAGATAC
W
GAAGAATATAATAGTAATTGTTTCTGGAGAATGGAAATGGGAGCTCAGTAAAGAAGCTGGAGCTGGAGGACCTTAACTTTCCACTTGATGCCCTCATATA
Celera SNP ID:            hCV1754372
SNP Position Genomic:     44041
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,4)      total(A,3|T,4) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64707):
GCATGCCTGTAATCGCAGGAGACTGAGGCAGGAGAATCGCTCGAACTCGGGAGGCAGAGGTTGCAGTGAGTTGAGATCACGCCATTGCACTCCAGCCTGG
R
CAACAAGAGTGAAACTCGCTTTTCTTTCTTTTCAATATTAGGTCGGTTTTTTTAAAGTTTACTAGATATTTTTAAAGGTGTGTATTCTCTGTACCTTGAT
Celera SNP ID:            hCV26955173
SNP Position Genomic:     26809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64708):
AAAAATGGGAAATATGCTCGTCAAGATGCGAGAAAATTTCTGAAAAGATACTGAAGAATATAATAGTAATTGTTTCTGGAGAATGGAAATGGGAGCTCAG
K
AAAGAAGCTGGAGCTGGAGGACCTTAACTTTCCACTTGATGCCCTCATATACTGTTTACATATTTTACAAGCTTATATTCATTCAACTGAAGAGTTGAAT
Celera SNP ID:            hCV1754373
SNP Position Genomic:     44090
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,3)      total(G,3|T,3) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64709):
TCTCTGTGCCTCAATTTCCTAATGGGTAAAAAGGGAGGGGAAATCCTTCCTTATACCATCTGAGCTTGTCCTTCAGTAATTTGTATTTTGTATCTAAGTG
W
AGGATCTTGCATTGTCTACATTGAATTTAATCTCATTAGTGTGTCTCATAATTCCTAATTGTCAAGACTTTTTGGTGACATCTTGATTCTGTCACCTGTC
Celera SNP ID:            hCV26955174
SNP Position Genomic:     43002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64710):
AAGATACTGAAGAATATAATAGTAATTGTTTCTGGAGAATGGAAATGGGAGCTCAGTAAAGAAGCTGGAGCTGGAGGACCTTAACTTTCCACTTGATGCC
Y
TCATATACTGTTTACATATTTTACAAGCTTATATTCATTCAACTGAAGAGTTGAATTTTTTAAAAGAAGAATCTATGTAGTTGTTAAAAAGAACAAAATA
Celera SNP ID:            hCV1754374
SNP Position Genomic:     44134
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64711):
AACATTTTAAAAAGTCTTGTTAAGGATGGTCTTTTGCCCTATGTGGCATAGAAATTTCAGTTAAATCTTAATTACATTCATTACTTTTAGTAAATAAAAA
K
AAGAATCTAGAAGAATAGCCAAGGTTACCTGAAACAGATGTTCCTGATTTCTCTCTCCCTCTCTTATGAGTATCACTAGGAGCCAGTTATATAAGTCAAG
Celera SNP ID:            hCV26955175
SNP Position Genomic:     61849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64712):
GAGGCATGTCAAAGTCAGAGAGTATGTTCCAGTAGTCTGTCTTACATACGTGGCACGATGGAGATATCAACAAAGCTGCAATAGAGTGACATCAGTCATG
Y
GGGAAAACTGACATCTAACACAGTCTCAGCCCAGACCATGCAAGATTCAGACATTTACTGTAAACAGTAATTTAATGCCTTATAAGGATTGAGAATGATA
Celera SNP ID:            hCV1754375
SNP Position Genomic:     51363
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64713):
CATCCCTGTCTGATTTTTCTAGGAGAGGAAAAGAAAAAAAAAAAAGATATAGCAGCATTCTGCCTATTTATATCACAACTCTGTGCCTGTTTTTACCAAA
Y
AAAAGGTACTTTTATGCTTTCCTACATTTGTATTTTGGCTTTTTTCCCCTTAACAAAAGGAACCATTTGTGAACTTTCCCCTTGTCCTCTGTGTGTGTGA
Celera SNP ID:            hCV26955176
SNP Position Genomic:     63872
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64714):
TCCTTACCAAAATGGCTCTTACAGTGACAAACTTGACTCTATCTGTTGGGGACTGCATCTGGCTGACTGAAAGGCACCAAGGCCGGGCGCAATGGTGCAC
R
CCTGTAATCTCAGCACTTTGGGAGGCCAAGTCAGGCAGATCATGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATAGTGAAACCCCGTCTCTACTAAA
Celera SNP ID:            hCV1754376
SNP Position Genomic:     60621
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64715):
TAGATTGCACATTTGTACCAGCTACTGCTTGCTTGGCTTGGGCTTGCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCACATCTGTTTTGTGACTTCTTCA
R
ATTGAATATCTTTAGGAATTGGGGAAAATGAGCTTTTAGTATAAATTGCCTATAATTTTCATTTCTGTGTCTAAAAGAGTCCACAATATATCAGCCTGAG
Celera SNP ID:            hCV26955177
SNP Position Genomic:     73172
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64716):
CAATACTTATTATCACTCCAACATTTTACTTTAAATCAACAAGGATACATTATTTAGAACCACTGTCTCTGGGACATTCCCTCTCTCGAAGTCTTAAAAA
W
AAAAAAAAGATTTCTGATTCAAAAAGTACTGATGTCCAAAACAAACAATAAGAATCTTAGATAACCCATTTTTGATGGATATAGAAACAAAAAGATTTTG
Celera SNP ID:            hCV26955178
SNP Position Genomic:     90829
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,6)   total(A,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64717):
AATCTCCTGACCTCGTGATCCCGCCCACCTTGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACCGCACCCGGCCAAGAAAAAAAAGTTTTTAAGG
R
AAAAAAAACCCTTCCCTATTTCCTGGCTCTGAGAGGATCAGCGTGTACAGCCCTCCCGTGGTAGAATGGCGGCTGCACAGCTCCCAGCAGGCACGGTGCA
Celera SNP ID:            hCV26955179
SNP Position Genomic:     101754
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64718):
TGAGCAGCACAGACAGGCCTTTGCGTCATGAGCCTTAGATCTCATGGGGAGGGGAGCCACAGGGAACAAACAGACAAGAGAGCACCAGAGGGTGAGGGAC
R
CTCTGCAGAGAGCCTAAAACACAGGGCATGATAGGAGCCATGGGGATTATTTTGGATTTGACAACCCCCGGGTCTGTCCAATGCCAGTGCTGGAGCTCTT
Celera SNP ID:            hCV29292210
SNP Position Genomic:     104574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64719):
AGAGAAGGGTCAGCCAGTGCAGGGCCAGTGGGAGGAGCACAGTGTGGACGGAAGGGCTGGGACAGAGGAGCCAGCAGGAGCCCACAACATGGTGCTCCTG
Y
GAGGAGGTCAGGGCTTAGCCTAGAACAGCAGCAGGGGCACAAAAAAACACCTGAGAAACTGTATGAAGAGGCTGCTGCTGGACTTGGGTTGGAGGTGGCC
Celera SNP ID:            hCV29292211
SNP Position Genomic:     105095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64720):
AGCCTTCACTGAGTGCTCATCATGCATGAGGCCCTGTGCTAAAATCTCTGCCTTGTCTCACTGAATTCCCATTACAATCCAGCAGGGTCAGTGTTCTCAT
K
ATGCCTGCTTTACAGACGAAGACCTAAGGCCAGAGGCTAAGCCATTTGCCACACACCACAGAGGCAGTAAGTGGCCTAGACAGGGCTTGATCTCCCATCT
Celera SNP ID:            hCV29292212
SNP Position Genomic:     105378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64721):
TCAGTTGGCCTAGTTTGGATTAGGTGGCAGGGTAGGTGTTGGGCAGACCAAAGGTATCAAATGGGATCTTTAAGGATTTTCAGCATTTCAAAAGCTAATA
Y
TATAATACATTTTCATAAAAATGATGTTTTAAGGGTAAAAGAAAAGAAGTAAGCTATTTTCCTAGATAAAGCTGCCCAGTCTAACAAGACATAAAACATG
Celera SNP ID:            hCV29292213
SNP Position Genomic:     107434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64722):
CTCTCTGGAGCATTTGTTCTCTCGGGAAGTAAGGGCTCTCTTGACTGTGGTTAGCTTTTTGTCTTAATTCACTCTGTCAGATACACAACTGTAAGACACT
R
AGATAACTGTTTTACAAGGCACAGTGGTCGCATCAAAGGAGTCCCTAAGCCCGATGGGCCAGGACATTCCAAAAAGATTGGACATGGTGGGAGAGGTACT
Celera SNP ID:            hCV29292214
SNP Position Genomic:     111525
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64723):
TGTCACACTCCTTACTGTACAGCCCACTTCAGCAGCTCAAGGGCACCTCGGACTCAACCTGTCCACCCTGAACTCGAGATCTTTCCTCCTCACATGTGCT
Y
CTCCTCTGATGTGCCCCACCCCAGTGCAAGGGCAGCACCTTCCACCCATCACCCAAGCCAGAGACACAGTTGGCACAATGGACTTCTCCCTGCCTTTACT
Celera SNP ID:            hCV29292215
SNP Position Genomic:     112430
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64724):
TTTGGAATGTGTTTATCAAATTAAGAGACAAAAACACAAAATGCTACAGTTCAAAACTGGCTTTTTATTAGATCTGCTACTTTGCTTCAAACTTTAAACT
M
TACCCAGATAATGCAAGAAACAGAGAAGTACCAGTTGCAGAAAACCCTCTGTGTTGATTGCCTTTTGGGAATTTTAACATTTGAATATACTTCCCAGTGT
Celera SNP ID:            hCV29292216
SNP Position Genomic:     114184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64725):
CTAGTCTTTTTTCCTGTGCAGTCACGAGTGCATTTTACCTAATTTACACATGAAAATGCTCTTAGAAAACGCAAAGCCATCAGGCACCCTCAAATCAGTG
S
TCCTGGCCAGCCCTCCCAGTGGGACATTACAGATCAGTGTGTGACATAACGTCTTCCTTCATGCTATGTTAAGGAACAAGAAATTACTCTCTTGTAAATA
Celera SNP ID:            hCV29292218
SNP Position Genomic:     130168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64726):
GATGATAAATTTTATTTACAATAACAAAAATTGGAAGCAGCCTAATTGTCCAGTATTATTAGTTGTATCTATATAATAAAAGAGTATAGAGCCAATAACA
Y
AGGATTATATTTATTGACATGTAAAATAGTTATTGGCAAAGCAAGCCACAAAACTGTATATTCAATATAATTTCATCTTATTAAGAAAAATACGTATGTA
Celera SNP ID:            hCV11488261
SNP Position Genomic:     52522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64727):
GCTCATGGGTTGATTGGAAGATGGTGCCAGGCCTGTGAGTTCCTGTGGCCATTTGTTGGAACCCTGTTTTGCCACAGAACAGAACTGGTATCCTAGAGAT
K
CCATTAGTAATGAAATTACAAATGAACGAATTCATAAAAGCATACAGTCTCATCTGTAAGCTATAAATACCTATCAAAATGAAGGAATGATTGTTGTTAA
Celera SNP ID:            hCV25751938
SNP Position Genomic:     73432
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(G,35|T,3)   total(G,61|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:64728):
CTAAGAGTGATAGGTGCCCTAAGCACAGAAGCGCTGGTCGAGAATGACTCTGCACAAGGGATTTTCAGAGCGCAAGCTGTCAGTCGTGAGCATCAGTGTT
R
TGATTAGTTCCCTTAACCATCACCACAGATATTTTTGCCTTAGTGAGATACAATCAACAAAATGACAATTACAGGTAGGTAATGACTTTGTCTCGATTGC
Celera SNP ID:            hCV25754486
SNP Position Genomic:     79499
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:64729):
GCAGCTTGGCCCTTGGGCTGGCCCTGTTCAGGGTCACAAGATGGATTCAGGAATTCCAGGCATCACTTCTAGACTCCACCAGGTCCAGAGGAAGAAGAAG
R
CGGTATTTAGGAGTGAGGAAGCCTCTCTAGAAGCCCCTTGGCAGATTTCTCCAGTCTCATTGGCCAGAATTTGGTCACATGTTCATTCCTGAACCAGTCA
Celera SNP ID:            hCV27474475
SNP Position Genomic:     54557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64730):
GGCTCAGGTCCTCATCTTGACGTCTGCCCAGAATCCAGTGGTTCTCAGCTGGGGGCTGAGCCCAGAATCACAGGGAAGGCTGAAGGCAGAGCCAGCTAGG
R
GAGGTACAGTTCCTACTTCACTTGTTACAAGTCTGTGTTTTGAATTTTTACAACCACCATACATTATTTGTTATCATTTTAAAGTACCAATAGAATGAAC
Celera SNP ID:            hCV26955180
SNP Position Genomic:     102557
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64731):
TCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAACTGGGATTAGGTGCCCACCACCACACCCGACTAA
T
TTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGCTAGCCAGGCTTGTCCTGAACTCCTGACTTCAGGCCCACCTCGGCCTCCCAAAGT
Celera SNP ID:            hCV26955181
SNP Position Genomic:     103647
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64732):
CTTCAGCAGCTCAAGGGCACCTCGGACTCAACCTGTCCACCCTGAACTCGAGATCTTTCCTCCTCACATGTGCTCCTCCTCTGATGTGCCCCACCCCAGT
R
CAAGGGCAGCACCTTCCACCCATCACCCAAGCCAGAGACACAGTTGGCACAATGGACTTCTCCCTGCCTTTACTCCCCATCTCCAAGCTGTCTTCCCACA
Celera SNP ID:            hCV28021449
SNP Position Genomic:     112456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64733):
CAGCCTCCCAAGTAACTGGGATTAGGTGCCCACCACCACACCCGACTAATTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGCTAGC
Y
AGGCTTGTCCTGAACTCCTGACTTCAGGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCTGGCACATTTCTCCATTTTTA
Celera SNP ID:            hCV26955182
SNP Position Genomic:     103698
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64734):
AGGCAGAAGGATGCCTCGCTGGAGGTACGAGAGCGGTAAGGTTGAAAGAGAACCAGAACATTAGTTCAGATGTTGGCTGTGGCGTGTACCAGTCAAGGGA
Y
TTAAGTGACTTCACCCTGAGCCTCACTTTCATCTTCTGTAAAATGATAATTATACCATAATGTCAATAATATTAGGTTGATGCAAAAGTAATTGCAGTTT
Celera SNP ID:            hCV26955183
SNP Position Genomic:     106264
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,14)      total(C,14|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64735):
AAGGTGCTGCAGAATGATAATGCTTTCCCCAAAATCTGAAACTGATTTGTATCATTGAAGTTTTTTTCTGTATTAAAAATAAAGCAAAATTAAAAATAAA
Y
TTTATGTGGAGGAATTTTTATCTCAGATATGTTAGAGTTGAAAATATTTTATAATGGAGATTGCAACTTTCAGTTATGTGTTATTTGAAAAAAATATATA
Celera SNP ID:            hCV26955184
SNP Position Genomic:     108809
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64736):
ACTACTGCTTTTTTATTAAATGGTGTTCAGTTAAAAAAAAAAAAAAAAAAGAACCAAGCTAATTTGCTGATTAATCAAATTTGGGATGTGAGAGGAAGAA
K
AAAAAAAAAGGAAGACTCTGCAGTTTGGAGCCTGAGCAGCTGGGAGAATGGAGAATACGGCTTCCTGAATGAGGAAAGCTCGGCCAAGAGCAAGTTTGAG
Celera SNP ID:            hCV26955185
SNP Position Genomic:     110599
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64737):
CTACTGCTTTTTTATTAAATGGTGTTCAGTTAAAAAAAAAAAAAAAAAAGAACCAAGCTAATTTGCTGATTAATCAAATTTGGGATGTGAGAGGAAGAAG
W
AAAAAAAAGGAAGACTCTGCAGTTTGGAGCCTGAGCAGCTGGGAGAATGGAGAATACGGCTTCCTGAATGAGGAAAGCTCGGCCAAGAGCAAGTTTGAGG
Celera SNP ID:            hCV26955186
SNP Position Genomic:     110600
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64738):
ACATGGTAAAACCTCGCCTCTACTAAATACAAAAAATTAGCCAGGCGTGGTGGCTCATGCCTGTAATCCCAGCTAATTGGGAGGCTGAGGCAGGAGAATC
M
CTTGAACCCAGGAGGCGGAGGCTGCAGTGAGCTGAGATTGCGCCATTGCGCTCCAGCCTGGGCAACAAGAGCAAAACTCTGTCTCAAAAAAACAAAAAGA
Celera SNP ID:            hCV26955187
SNP Position Genomic:     115628
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,10)   total(A,10|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64739):
TCAATGAAATATGGTAAGTTTTGAAATCTAGGTAAGAAGAACAATTTTGTAGTTGAAAATAAATTCTTAAAATTGTCCTAAAAAATGGCAGAAAACCTGA
Y
TGAGTCAGTAAGTATAGAAGATATTGGAAAGTTTTTTAAAAACTAGCCTCCACAAAAGGGTTCCAACCCTCGTGGAATTTGGGACAAGGACAATCCAACA
Celera SNP ID:            hCV26955188
SNP Position Genomic:     118196
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64740):
GCATAAGTTCTGCCAGCTGTTTCCTTTCCTGATGCTCAGTGCTTGGGATCCCTCAGTGGCCCCTTTGTTCTCTGGGGAGGGAAGCCGTTGGGGGAAAGGG
K
TGCATACGTAATTGCATTGTCAGGTTAAAGTGGTGTGGGGTGCCTCCTGAATTCCAGAACACCTCCAATCCTAGTTTTTCTACACAGTCTGCCCCTGGAG
Celera SNP ID:            hCV25755071
SNP Position Genomic:     95543
SNP Source:               Applera
Population(Allele,Count): african american(G,22)   caucasian(G,21|T,5)   total(G,43|T,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64741):
GACAGATCACTTGAGCTCAGGAGTTCGAGACCAGTCTGGCCAACATGGTAAACCCAGTCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCACA
N
GCTTGTAATCCCAGCTACTCAGGAGGCCAAGGCACAAGAATTGCTTGAACCAGGGAGGCACAGGATGCAATGAGCCAAGATTCTCGTGCCACTGCACTCC
Celera SNP ID:            hCV26955189
SNP Position Genomic:     119525
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;no_pop(A,-|C,-|G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64742):
TTCTAGAGAAGTGAGTGTGACTATGACACAGTCACAGCCCCTTCGCGGCCACCAAGCCAGCAGCTGGGAGGTGACACTCCCGTTCCCTTGCAGTCTGTGC
Y
TTCCCGTATCTCCTGGCCTTCACCACCGACTCCATGGAGATCCGCCTGGTGGTGAACGGGAACCTGGTCCACACTGCAGTCGTGCCGCAGCTGCAGCTGG
Celera SNP ID:            hCV25750927
SNP Position Genomic:     126448
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64743):
CGGATGTGACCCCTGGCACTCCTCTCTTGTCCCTTCTTCCCTGTAGCACGGGGCTCTGCAGGAGCCTGGAGAGGGTGCCTTCTCTGTAAGGAGGGAATGG
R
CAGTGGGGCTTGGCATGGAGCTGGCTGCTCTGTTCTCACCCCTGTCTCTTGTATCCTCACCAACCACACAGGAGATCTGTCTGTCTGACTCTCCCATGGT
Celera SNP ID:            hCV25755942
SNP Position Genomic:     98558
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,3|G,33)   total(A,3|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:64744):
GGCACAAGAATTGCTTGAACCAGGGAGGCACAGGATGCAATGAGCCAAGATTCTCGTGCCACTGCACTCCAGCCTGGGCAACAAAGCAAGACTCTGTCTC
A
AAAAAAAAAAAAAAAAAATCATTAACATAAAAAGAGATCTTACATATCAAAAAGATAAAGACGGCTGGGCACCATGGTCACGCCTGTAATCCCAGCACTT
Celera SNP ID:            hCV26955190
SNP Position Genomic:     119656
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64745):
CCCAAGAGGCAGAACCCAAGAGGCATAGGTTGCAGTGAGCCAAAATCGCGCCACCGCACTCCAGCCTGGGTGATAGAGCAAGACTCTGTCTCAAAAAATA
T
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCAGTATTTCTCCCTGGGACATAAGGTTGCAGATGATTTTTAAAATTTTCTTCTTTATG
Celera SNP ID:            hCV26955191
SNP Position Genomic:     121612
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64746):
CCAAGAGGCAGAACCCAAGAGGCATAGGTTGCAGTGAGCCAAAATCGCGCCACCGCACTCCAGCCTGGGTGATAGAGCAAGACTCTGTCTCAAAAAATAT
G
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCAGTATTTCTCCCTGGGACATAAGGTTGCAGATGATTTTTAAAATTTTCTTCTTTATGT
Celera SNP ID:            hCV26955192
SNP Position Genomic:     121613
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64747):
CAAGAGGCAGAACCCAAGAGGCATAGGTTGCAGTGAGCCAAAATCGCGCCACCGCACTCCAGCCTGGGTGATAGAGCAAGACTCTGTCTCAAAAAATATG
K
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCAGTATTTCTCCCTGGGACATAAGGTTGCAGATGATTTTTAAAATTTTCTTCTTTATGTT
Celera SNP ID:            hCV26955193
SNP Position Genomic:     121614
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,3)   total(G,2|-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64748):
AAGGTGACTGTGTGGGGTTTGAACCTTGGCGCCCACTGGACAGTGGTGAGCACTCACCACCCTGAGGCCTGGCAGCCTGTCTGTCACTGGAGAGCGTTCA
R
CACTGACACTGACATTAGCAGATCACAGAGCTTTTCAGCCCACGTATGTATCTCTGTGAGGCAGGACAAGGCCTGCTTGTCAGTGAGCCATTGAGGTTTG
Celera SNP ID:            hCV462699
SNP Position Genomic:     99639
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,4)      total(G,4|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64749):
AGGCTCACTTTAGCCTGGGATGGGGAGGCTGCAGTCAGCTGTAATCATGCCACTGCACTCCAGCCTGTGTGACAGAACAAGACTCTGTCTCCAAAAAAAA
W
TTTTTTTAATTTAAATTTTAAAAATGTGATGGACCTCTGTAATAAATGGGGCCTTTGTTTCTCCACTGACTTTCTCACTCTAAGAGGGTCTGAACCACGT
Celera SNP ID:            hCV26955194
SNP Position Genomic:     124035
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64750):
AGCTAATTTGCTGATTAATCAAATTTGGGATGTGAGAGGAAGAAGAAAAAAAAAGGAAGACTCTGCAGTTTGGAGCCTGAGCAGCTGGGAGAATGGAGAA
Y
ACGGCTTCCTGAATGAGGAAAGCTCGGCCAAGAGCAAGTTTGAGGAAAAGCTCAAGAGTCCAGCCTGGACCCATCAGTGCCTTCCTGTACCCCCGTGGAG
Celera SNP ID:            hCV25760553
SNP Position Genomic:     110655
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,34)   total(C,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:64751):
GCCAGGGTCTGACTGCATAAGTTCTGCCAGCTGTTTCCTTTCCTGATGCTCAGTGCTTGGGATCCCTCAGTGGCCCCTTTGTTCTCTGGGGAGGGAAGCC
R
TTGGGGGAAAGGGGTGCATACGTAATTGCATTGTCAGGTTAAAGTGGTGTGGGGTGCCTCCTGAATTCCAGAACACCTCCAATCCTAGTTTTTCTACACA
Celera SNP ID:            hCV149322
SNP Position Genomic:     95529
SNP Source:               Applera
Population(Allele,Count): african american(G,14)   caucasian(A,11|G,19)   total(A,11|G,33)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64752):
TGATTTCTGTGGGCTTTCAGAACACTCCTCAGCTTTGTTAATAGTCATTAACTGGTGCTGGTGGCAGCTGGGGAGCACTTAGCTGAAAAGAGATATCCCC
R
CTCAGAGACTGGGTCAGTTATTCATGTCACTGCTGCCCTGGAGGACAGTCCAAGTCTAGAAAAGTCAGAGCTTGCAATCTTTCTTCCTTTCCCACCCTCT
Celera SNP ID:            hCV26955195
SNP Position Genomic:     126833
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,10)      total(G,10|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64753):
TGAGGTGGGAGGATCACTTGAGCCTGGGAGGTCAAGGCTGCAGTAAGTCATGATTGCATCATTGCACTCCAGCCTGAGCGACAGAACAAGACCTTGTCTC
A
AAAAAAAAAAAAAAAAAAGTTTCAGTGGGGAGGAGGGAGTTAAAGGCTATAGAGTTTCCAACTTGCAACAGCAGTTATTTTTCCTTCAGGGCTGTTAACA
Celera SNP ID:            hCV26955196
SNP Position Genomic:     129730
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3)   total(A,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64754):
AAGGAAAACAGTTGCCTTCTGCGGCCCACACCACAGGTCGCCAGGGTCTGACTGCATAAGTTCTGCCAGCTGTTTCCTTTCCTGATGCTCAGTGCTTGGG
R
TCCCTCAGTGGCCCCTTTGTTCTCTGGGGAGGGAAGCCGTTGGGGGAAAGGGGTGCATACGTAATTGCATTGTCAGGTTAAAGTGGTGTGGGGTGCCTCC
Celera SNP ID:            hCV149323
SNP Position Genomic:     95490
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64755):
AATCCCAACACTTTGGGAGGATGAGAAGAGAAGGTCACATGAGCCCAAGAGTTCAATCCCAGCCTGGGCAACACAGCAAGACCCATCTCTACAAAAAAAA
W
ATATATATATATATATATAGGCTGGGTCTGGTGGCATGAGCCTGTAGTCCCAGTTACTTGGGAGGCTAAGGTAGAAAGATCACCTTCCTTCTGGGAGGTC
Celera SNP ID:            hCV26955197
SNP Position Genomic:     132948
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,8)   total(A,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64756):
GCATTTGCAGAATAAATGCAGGTAAAGAATGAGCCAGCCACTTCTCCTGCCCCAAATGTCTCCACCATCCCGGACACCTCTGCCTTGCCCTGATTCTGCC
R
TCCATCTCAGAACAGACCCTTTTGCTTACAGAACTGAATGGAACAGCCTTAGTAATTATTTTAGCCCCCTGTGTCCTCGGAGCCCTCAGGAGCAAAGTAA
Celera SNP ID:            hCV149324
SNP Position Genomic:     94391
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64757):
GAGATTAAGTGCTAATTCACTCTGTACACAGCTCGGCAGCTGTACAATGTATACCTCTGTTCCTATGTAAAATGAAGGGCCTCTGTCATTTATTAATTCC
Y
TGGAGTGCTGTTGCTGCTGTGGTCGCATCTCTATCCACTGGGATATGGGGCTGCTCCAACATCCCATTTTATGTTCCAACACTGGTGAAGAGAGCATGGC
Celera SNP ID:            hCV149325
SNP Position Genomic:     93496
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64758):
CATCCTGAAATACAAAAGGTAACAGAAAATTTTATGCTTCATAATTGTACAAAATTGATTACAGTGTTAGGATAGAACTGACAGGTCATCATAATCCTTA
K
CCTGGGATGCAAAGCCAAATCACCTATGCAACTTTAAAAAAATCATCATGGGAGAACCTCACACCTAAGGTTCTGATTTGATGGGTCTATGGTAGGGCCT
Celera SNP ID:            hCV25753194
SNP Position Genomic:     62259
SNP Source:               Applera
Population(Allele,Count): african american(G,5|T,31)   caucasian(G,8|T,28)   total(G,13|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:64759):
ATTCTGCAGTTTTCCTTTCCTTGGAGTCCTGGGAATTGTGGGGCTTCCTCATGGTGCTCAAGAAGAAGGAAATGTGACTTACCCATGCTGTTTACCATGC
R
TGAATCGGCAGAGCCCAGTTAATTTTCCAGCGATTCCGGTCCATAGTTAGAAAATGAGGACTTGTTGATGCCCATACTTTCCTCATACTCTACTTCTTCC
Celera SNP ID:            hCV25750934
SNP Position Genomic:     74329
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,27|G,1)   total(A,65|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64760):
TTGAGTGAATGAAACAGAAGGTAGAAATAGGACCATTTGGATAAATAGTTTTGTGCACTATGAGAAGCCAAAAGATGAGACTTAACAACTGTTTGTGGAA
K
TCATAACTTGTTTTTCTTTTTTAGAACATGCTTAATAGACGATCTTTTAGTGATGTCTTACCAGAGTCACCCAAGTCAGCGCGGAAGAAAGAGGAGGCCC
Celera SNP ID:            hCV25755154
SNP Position Genomic:     85621
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(G,1|T,37)   total(G,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:64761):
GGGCTTTCCTCCAGAAGGCTCTCTCCATCCCTCGCCCCGGCATCCCGCACTGCACTGTATGCTCCAAGGATGGGGACCAGTTGGAGGGTTTGCAGTGATG
R
CAGGAGGGCCAGTGGATGCAAGGCCTAGAACACCAGGCAGCCCGGTAATGCTCTCTCTTCCTTTCTAGTCGGATATATACTTCACAGCAACTGCAGCTGT
Celera SNP ID:            hCV25756240
SNP Position Genomic:     128538
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,26)   caucasian(A,18|G,22)   total(A,24|G,48)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64762):
CATTGCAGACAGTTGCATCTATAAAAAGGTTTGCCCCTTTAATGGTGGCTCTTTTTTGGTTCAACCTTCTGCGTCAGATTTCCAGTTCTGTTGGAACCAG
K
CTCCCTATGCAATTGGTAAGAAAAGTCTTTATCATAATGCTTTTCTCCTTCATGGATATGTCTGAACTATTGTAAGCAAATCCTATGTAAGCAAATCACT
Celera SNP ID:            hCV25756175
SNP Position Genomic:     124944
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,40)   total(G,76|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64763):
GTGCCCTCACATAAGTCTCCCTGGGCTGTCTCTTGGAAAGAAGTATGGGTTCTGTCCCAACCTAAGAGTGATAGGTGCCCTAAGCACAGAAGCGCTGGTC
R
AGAATGACTCTGCACAAGGGATTTTCAGAGCGCAAGCTGTCAGTCGTGAGCATCAGTGTTGTGATTAGTTCCCTTAACCATCACCACAGATATTTTTGCC
Celera SNP ID:            hCV25753846
SNP Position Genomic:     79438
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,13|G,27)   total(A,16|G,60)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64764):
AAGAACAAAATAGATCTATATGTATTGACATAGAAATATTCCCGGGCTGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGG
Y
GGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCAACTAAAAATAGAAAAAATTAGCCAGGCGTGGTAGTGGGTGCC
Celera SNP ID:            hCV27956673
SNP Position Genomic:     44323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64765):
CCCCGGAACTGTGGAAGAGTTCCAGGTGGAGGGGTCAGTTTGGGAGTGTCCTCTCTCTTCCTGTATAGAAAACCACTGTTAGTGATGAGTGTGCATCTCA
R
GTGTGTTGGGGACAGAAAAATGTTCGGATGCACAGCCTTAGAACTTGGATTTTCGGATTTTTAATACTCTCAGATCCAGCTATCCTGAATCCTGGCAATC
Celera SNP ID:            hCV11887873
SNP Position Genomic:     72277
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64766):
ATTCTCTTCCAACATTTGATTTTGTGTTTATTATGAAATACTTCAGGTATACAAAAAAAAGTATAGGGAATAACATAATGAAGACCTACAAAACCACTAC
Y
GGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATTGCCTGAGGTCAGGAGTTCAAGACCAGTCTGGCCAACAT
Celera SNP ID:            hCV11887874
SNP Position Genomic:     72604
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64767):
GTCCACAATATATCAGCCTGAGATTATGTTAAGCTTTGAATTACAACGAACTCTTCTTCGCTGACTGGGATTTGGACGGTTGCTCATGGGTTGATTGGAA
R
ATGGTGCCAGGCCTGTGAGTTCCTGTGGCCATTTGTTGGAACCCTGTTTTGCCACAGAACAGAACTGGTATCCTAGAGATGCCATTAGTAATGAAATTAC
Celera SNP ID:            hCV11887875
SNP Position Genomic:     73351
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64768):
GGTTATACATAATAAGCAAAAGGCAACAAATCAGCATTTTCAGAATAAATTCTAGTCGAGTTACTCATTTCCCTGGAGGCTCCAAGTAAACATGTTTGGA
K
ACAGGCCCACGGTGACTCATGGCATCTGGAGACTTGGACTTGTTCCTTGTGACATAAAAATAGAGGATGGAAGTAAGTGTTTAAAAGTTAACAGTTTCCA
Celera SNP ID:            hCV11887876
SNP Position Genomic:     78414
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64769):
CACAACTTTGTCCTGGAGAACAGAGACATGAAAGACACCTTTGCTGAGGCTCCCTCTGCTTTCCAGCTGGGCTGCCTCTCTTCCCAGCTGGACCACCAGC
R
TTGTTACCTCCCATACTCCAACCTATACCAGGGTCCATGGGTGATGTCTCCCTCGACACATTAGAGGCAGCAGACACTGCAAACCATGTGCAACAGATGA
Celera SNP ID:            hCV11887878
SNP Position Genomic:     82524
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64770):
AAGAACACACCTACATGTGCACATGCAGGCTCTACTACAGCCCCAGGTGGGACACATCAGGCCCTGATGCCTGATTGAGAGTAAAAGTGAAGATGTAAGA
Y
TTCAACTTGGGCCTGAGAATCTCCACAAACTGAGGCTTATCCAGTGCTTTGGAGGGAAGCTAAGAATTCTGTTGAAAATGTCCACAATTCTGGTGTGACT
Celera SNP ID:            hCV11887879
SNP Position Genomic:     89543
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64771):
AAGGACTGGGCGTGAGATTCAGAGCTGACACTTACAGGCCACGTGACCTTAACTGGGGATCCAATTCCTCCACCTGTGATTCAGGAACAATTAAACTGCA
C
CCCCCCATAAATATATATATATACACCTACTGATGTACCCATAAAAATTAAAAATAAAAAAATTAATAAAAACCACAAGGTGTTGAGGAAGATCAAAGTA
Celera SNP ID:            hCV9289809
SNP Position Genomic:     65150
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64772):
GTGGCTGTGGTTTGTTATATTGGGTTATGTTTTTTTAACTCTGTGAATGTGCCATGTTTGAGAGTCTTTCTCAGTGATGTTATTTATGCTCACTACAGGT
R
GAAAGGAAACGCCACATTGGAAACGATATCGTCACCATTGTGTTCCAAGAAGGAGAGGAATCTTCTCCTGCCTTTAAGCCTTCCATGATCCGCTCCCACT
Celera SNP ID:            hCV25759959
SNP Position Genomic:     77542
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(G,40)   total(A,5|G,73)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64773):
TATAGATATGTCATGCGGAAACCTGACTAGCTCTGTTTACAGCTCTTGCCAAACAGATGTTATTTTTTCTTTAAGATTTTGTATCTTATGTGGGTCAATA
R
GCATTTTCACGTGAAAACAATATCAACCTTTTAGTGCATCATGTATGTTTTACTAATTTGCTGAATCAGCAACACAGGAATCTGACTTTTTTATAGAATT
Celera SNP ID:            hCV11887880
SNP Position Genomic:     89847
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64774):
GTTACCGTAGTGACATTTTGTGAGAATCCCAAAGCCACCACTGTGAGAATGACATAATGGCCTAAAACTGTGGCATCTTCCCATCCTTCAGTACAACCTA
Y
ACGTCCTCCCTCCGACGCTTACTGGGCACATTTACCGAACACCTGCTGTGTGCCGGGGCCCCACGCCAGGTGCCTTCTGAAGCATGATAGGAGATGTGGG
Celera SNP ID:            hCV11887882
SNP Position Genomic:     91363
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64775):
AAATCCAAACCAAAATTACCAGGTTCCTTTCTGAAATTTTTATCTTAAGGATCCAAAATTTAATGGAAATGTCAGATGTAAGGAGTATTGTGATTTGCCA
R
GAAATTCTTTCTTCCAAATTTGAAGGAAGTCGCCTTCAACAGGATGGTGGGTGTAGCTGTTTACACCCACCATTGCTTTGGTTTATGATTTAAACTAGTT
Celera SNP ID:            hCV11887883
SNP Position Genomic:     92740
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64776):
TTGCAAAACCAGTCTTTCTGGAGTCTCCACCTGAAGCAGAAGAGGTCCTCAGCAGGGGTATGGTAGCATGGTGCCAGTCTCAGAGCAATCCTATAAAACC
T
TTTAAAAGCATTGGCCAGTGATCAGGTGGTAGTAGGCCCCATCTCTGCTTGTACATCTCAGTTTCACTTGAAACTTTTCAGAGAAGATTATGCCATGATA
Celera SNP ID:            hCV9289810
SNP Position Genomic:     71012
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64777):
TGCAGTACTGGTAGCACATACACAGTCCAGCCTATCCGAATGCCAGGTCAGCATCACACGTCAATGAATAGTAGTTAAGTCACACTGATTTGTCCTGTAA
R
ATCTCTGTTATCCTTCAAGCAACATCACACGTGCTCCAGTGTGGGGAGTGATAGTTCGTATGTCCAAGCTTCATTCATTCACTCAACACACATTCTTGGA
Celera SNP ID:            hCV9289811
SNP Position Genomic:     133278
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64778):
GCAATTTAGTTAATATTTCTCTTTATTTATGTTTTTGTCTAAAAAGGAGATTTCCTATTCCTTTGGGAAAAAATACTGAAAATGTATAGGCAAACTACTA
Y
TGCTACAAACACGGGACATATTAGGGTAGAGTGTGTTTATATTTATCTTAAGTCCAAAAGGAAATTTTAATTTTGCTTTCTTGAGGTATGTACAATATGA
Celera SNP ID:            hCV11887884
SNP Position Genomic:     94725
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64779):
TTTTTTTTTTCCTCAGGCTGCCCAGGTTTTACTGAAAATAAAAATGAGTAGGAATTTGATCTTATTAGTTTGTTTTTTGTTTGGAAACATCACAAAAATA
R
CATCACTGTTTCCAGAAGGAGCTTGAAAGCTAGACAAACACATTGAGGACTAGAAGAAATTCTAGGCCTTGCATAACAGGTTCTAGAGATGCATTAAACT
Celera SNP ID:            hCV11887885
SNP Position Genomic:     95958
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64780):
TAAGGAAAAAAAAACCCTTCCCTATTTCCTGGCTCTGAGAGGATCAGCGTGTACAGCCCTCCCGTGGTAGAATGGCGGCTGCACAGCTCCCAGCAGGCAC
R
GTGCAGTGCACAGCTCCCAGCAGTGCTTAGTCAGATGCACTCACTCATCTTTCAAGGAGGGTACTGTCTGTCTGGGGAGATGAGCCCTAAGAAAATGAAA
Celera SNP ID:            hCV11887887
SNP Position Genomic:     101849
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64781):
CCACTGGTCCTCACTGTCACTCCCTGCTGAGCTCCTGCAACTTTTGGTTGAGGCATTTGCCCCATTATACCTTGTTTTATGTACTTATGTGCTTTTCTGG
K
TTTTTTTCTTAAGGGGTCAACCTCACCTTATTCTTTTCTGTATCCTAGTGGCACTGAATACAGTGCTAGATAATGACAGATGGGAGAGAGCTGGGGATTC
Celera SNP ID:            hCV11887888
SNP Position Genomic:     104777
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,7)   total(G,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64782):
CAGCTATTGATGTGTACGAAGATGGAGAAGCTGGTTTGCTGTTGTGTTACAACTGTAAGTTAAGGATGTGCTTTTATCTTTATTTGCTTAAATGGACTGC
T
TTTTTTTTTTCTGGGCAATTTAAAAAGATTGTCCTTAGATTTACCCAGTGTATCATTCCTGGGTTTGTAATTGCCTTCCAGGAAGGAACTGAAAAATACC
Celera SNP ID:            hCV11887889
SNP Position Genomic:     106824
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64783):
CGCCAAAGGCCAAATCAAAACCCCGGAAGCGGTTAGAAGAAAGCCAAGGAGGCCCCAAGCCAGGGGCAGTGAGGTCATCTAGCAGTGACAGGTAAAGAGA
R
GGAGAGGCCCCTGCTTGGGGTGGTGGACCTATGAGTCACAGCACTGCCCAGGAGGCCCCTTCTGGGGATTGATAATGCCACTAGTGGCCCCTGGCAGCTA
Celera SNP ID:            hCV25757205
SNP Position Genomic:     132192
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,32)   total(A,1|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:64784):
CAAGCCAGGGGCAGTGAGGTCATCTAGCAGTGACAGGTAAAGAGAGGGAGAGGCCCCTGCTTGGGGTGGTGGACCTATGAGTCACAGCACTGCCCAGGAG
R
CCCCTTCTGGGGATTGATAATGCCACTAGTGGCCCCTGGCAGCTACAGCAGAGGGCCAGCAGCCTGTTCCTCTCTGAGGGTCCCCAGACCCTCAGGCCTG
Celera SNP ID:            hCV25751103
SNP Position Genomic:     132247
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,34)   total(A,1|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:64785):
CTTGGTGGTGTGTTGCTTGTAGGATGCTGCTAAGAATTTTATGTTCGTCATATACAGAGTCTCATTTAAAAAGACCTATGAGAAAAAATTTTTCTCAGGA
S
CAAAAAGTGCCATGCTTCTCCTGAGAAGCTGGTTTGTTGTTAACCTTATAAGCAGTGGGAATCCTGTAAATGAAAGGGCTTTTCCTCTTTGCATTGGCTC
Celera SNP ID:            hCV15932432
SNP Position Genomic:     15180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64786):
TATTAAATTTATGATTTGATTCCGCTATAAATCCATACTCATTTTTGCCTTGACCTATCAGAGAGAAATGTACTAAAATTTCCCATTACAATTATAATTT
Y
ATAAACTCTTCTTTCTAGTTATAATAGTTTTTGTTTTATAGTGATATGTTGTTACTCATTACATAAATGTTTATAGTTATATTTTGGAGATGGGTGGTTC
Celera SNP ID:            hCV15932433
SNP Position Genomic:     27040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64787):
TTTTTTCCCCCAAACAAAGCTCCTATAACCAACTTTTAAAATTATTTTCAAAATGTCAGTGTGAGCAAACCAAAGCTTGGCTTTCACAGCAAGTCAAAAT
K
AAATAATTACTGTTATGCCTGGATGTAACTTTTAAAACTTTATTTGACAGGACTTGCTGGTTCTTGAAGAACAAGAGGTGAGTAATTCTATGGAGATATT
Celera SNP ID:            hCV25758516
SNP Position Genomic:     66416
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,36)   total(G,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64788):
TCTCACTTGATTCTCACAATGAATGCCCGCAGCAGGCTCGGTTATTATCCCCAGTTTAGAGATGAGGCAACTGAGGCCTAGAGAGGTGAACTCGTCAAGG
Y
CTTGTGGCTACTAAGCAGCAGGGCCAGGGTTTGCATCGGGTGCTCTCTTGACTCCAGCACCCACAATTTTAACCACTGTCGCTATTCTACATTTTGCTGT
Celera SNP ID:            hCV11887890
SNP Position Genomic:     107188
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,11)   total(C,2|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64789):
GTCTCACGGAACCCTTCCTTGGGAGTTCCATTTCTCATGGCTTTGCTCATCTTCCGGCTTCAGGCTCTGACTTCATCTCAGGATGGGATCGGTGTGTGTC
T
GTTTTCATAGATCCACTACATCAGAAGTATCTTTACATCTCTGTATCTTTACATCCCAAGGTCAAGGCCCTGGCAACCTCAGAGGTTCCCATAGCTTCAG
Celera SNP ID:            hCV11887891
SNP Position Genomic:     108357
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64790):
TGAAGCACAGGCGCTTTCTCCGATGGTAGTAGAGCCTTGAGTTCTTGCCAGCCACTAATTGTTCTTTAGGCTTTCCTGTGAAGGAGGCTGAACTTGAGAG
Y
TGGCTTTTGGTCTTGCCATCTGTGAACTGCCACTTGTCCACATGTGGTGTGTATTAAGATTGTTTTTGCTGGGAGCATCAGTATTGGAATGTGTTCCAAT
Celera SNP ID:            hCV15932434
SNP Position Genomic:     32234
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 403
Celera Gene:                 hCG28715 - 30000035922854
Gene Symbol:                 PRPF8
Protein Name:                PRP8 pre-mRNA processing factor 8 homolog (yeast);HPRP8;PRP8;PRPC8;RP13
Celera Genomic Axis:         GA_x5YUV32W2JD(13842049..13888264)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12563):
AATACATATTTATCCAAAGACGATATACATGCCATAACAATATAACAAGTATGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCCCTAATCTCAGGTACCCAGGG
ACACAGACGCTGCGGAAGGCCGCAGGGTCCTCTGCCTAGGAAAACCAGAGACCTTTGTTCACTTGTTTATCTGCTGACCTTCCCTCCACTGTTGTCCTAT
GACCCTGCCAAGTCCCCCTCTGTGAGAAACACCCAAGAATTATCAATAAAATAAATAAATAAATAAATAAATAAATAAATAAAAAAGATTTCTTTGGGGG
GTGCTGGGAATGTTCTGGAACTCAATAGTGGTAACTGCACAAGTCTGTAAATATACTAATTTTGAATCATTAAAACTAAAATTCATTAACAATCATTGAA
TTATACACATGAAAACAAGCGAACTTTATGGATTGCAATTTTTTTTTTTTTTTTTGAGGCAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCG
CGATCTCAGCTCACTGCAACCTCTGCCTCCAGATGCAAGCGATTCTTACATCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCATGCCCCG
CCAATTTTTGTATTTTTAGTAGAGACAGAGTTTCACCATGTTGCTTCGTCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCGCCTCGACTTCCCAAT
GTGCTGGGATTACAGGCATGAGCCAGCATGGTGGCCATGGAGTGCAACTTTTATCTCAATAATGCTGTTTTGAAAATAGTACAGAGAGTTCTTGTGTACC
CTTCACGTAGCTTGAGAACTTTTTATTTTATTTTATTTTTGAGCGAGAGTCTCACTCGGTCACCCAAGCTGGAGTGCAATAGCATGATCTCAGCTCACTA
CAACCTCCACCTCCGGGTGCAAGCGATTCTTATGCCTCAGCCTCCCAAGTAACTAGGATTACAGGCATGTGCCACCATGCCCCACTAATTTTTGTATTTT
AGTAGAGACAGGTTTTCACCATGTTGGCTAGGCTGGTCTCGAATTCCTGACCTCAAATGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGC
GTGAGCCACCACACCTGCCCCCTGCCCACCCCCCAGAACTTGTTTTTTTTTTTTTTTTGGAGACGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTG
GCCCGATCTTGGCTTACTGCAACCTCTGCCTACCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCATGC
CCGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCTCCTCAGCCTCC
CAAAGTGCTGGGATTACAGGCGTGAACCACCGCGCCCGGCCACCCCCCAGAACTTCTTATACAACCATAGAGCGACAATCAAACCAGGAAATTGACATTG
GTACAATACTCTTTTTTTCTTTTTTGAGACGGAGTCTTGCTCTTTTGCCCAGGCTGGAGTGCAGTGACTATCTCAGCTCACTACAACCTCTACCTCCTGG
GTTCAAGCAATTCTCCTTCCTTAGCCTCTCAAGTAGCTCGAAGCACAGGTGCGTGCCACCATGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACAGGG
TTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCAGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCACCGCGCC
CGGCCACAATACTCTTAATGAAACTACAGACCATAGTAGGATTTCACCAGGGCTTAGAGCAATGTCTGGCACGTAGTGAACCTTACACAGGTGAAAGGAC
TTCACTACCATGACGATGATGATGATGAAGATGATAATGATGATGTTGGACTTTCTAGCACAGCCAGATTGATATGGTGCCTATTTTCAGAGCATGCCAT
GTTAGTTTCTATATCTAAACCTTTTTTGGCCTGGCACGGTGGCTCACGCTTGAAATCCCAGCAATTTGGGAGGCTGAGGTAGGCAGATTACTTGAGCTCA
GTAGTTCGAGACCAGCCTGACAAACATGGAGAAACGCCATCTCTACGAAAAATACAAAATTAGCCGGGTGTGGTGGCACATGCCTGTAACCCCAGCTACT
CAGGAGGCTGAGGCAGGAGAATCGCTTGAATCCTGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGACACTGCACTCCAGCCTGGGCGACAGAGTGAGAC
TCTGCCTCAAAAAACAAAAAACAAACCAAAACCCCCACTTTTTTTCTATGAAACCAGCCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCCATCATG
ATCCTCCCACCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGTACCACTATGCCTGGTTAATATTTTTATTATTTGTAGAGATGAGGGTCTCAGTATG
TTGCCCAGGCTAGTCTTAAACTCATGAGTTTAACCAATCCTCTCGCCGCTGCCTCCCAACGTGCTAGGATTACAGGTATGAGTCACGGTGCCCGGCTTCT
TTCTTAACTCTTTCTAGTAGTTCTACCACTTGGGATTACCTTTTTCCTTCCTCTCCATTTACCTTTATGAAATCCTCACATCCATCCATCTCCATCAAAT
CTTTAACAATTCTCCTCTGTCTTTTTTGACTGTAGGGACCTTTAGAACACCCAGCATTAAAAAATAGATTTCAGGCCGGGCATGGGGGCTCACGCCTGTA
ATCCCAGCACTTTGGGAGGGCCGAGGCAGGAGGATTTCGTAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATAGTGAAACCCTGTCTCTACTAAAAAT
CCAAAACTTAGCCGGCAGTAGTGGCGCGTGCCTGTAATCCAGCTACTCTGGAGACTGAGGCAGGAGAATTGCTTGATCCTGGGAGGTGGAGGTTGTGATG
AATTGAGATCGCGCCATTGCACTCCAGTCTGGGCAACAGAGTGAGACCCTGTCTCAAAAAAACAAAAGGAATATTTTTTAAATTTTTACCGTTCTGAAAG
CACATTGACATCCTTTGAATTTTTTTCTAATTATTTCACTTTGATTTGTAAATTCTCAACTAGATTCAGGGGCTGTATGGGTTACAATTCCTCTGCACCC
TCCACGGAATTTCAGACTTTTTTTTTTCCCCCGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCC
CCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATGTTTGTATTTTTAGTAGA
GACGGGGTTTCACCATGTTGGCCAGGCTGGCCTCGAACTTCTGGCTTTAAGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGCGATTCCAGGCGTGAGC
CACCGCGCCCGGCCAAGGTCTTAATTCTTGCCTGCCTTTCTGCTCCCCTGTGAACTCTACTGGTTGTCTTTTTTCCTGCTTTATCCCTCGTCCTCGGTAG
ACAGTGATGGTTAAATGAATGAATGCATGAACAAATGACTGTCCAGGAGCTAGTACTGCATTGCATGTACACATTGATGACAACAGACATCGTACAATGC
GCAATCTTGGCAAATTTATTCAAACCCTTTAGACTTCGGTCTCTCACAGTGCGACGCCGGGAGCCCATCACACGCTGAGGTCTGTCAGAGGCCCCAGAAA
CAGCCTCGGAAATGGAGGAGGCGGGGCCTCACCCCGACCACACCCCCTTGCGTTCAAAGCCTTTCCGCCTATGGGCCCGCCTCCTCGGCGCAGTGTGCAA
CTCTAATTGGTCGTCTCACTAATCCATCTGAGCACCTCGGCGCCGACTGGATCAACTGCTGAACTCGGGTTGCGCACTTCCCGGCGCTGGGAACGCGGAG
CGGACGCAGTCTGGCCGCCATTGCGCTGCGGGGAAAGCGGCCTCTTGTGTGAGGGCCTGTGGGGTGCGTGGCAGGCGTTTAAGGCCGGGCTGCGGGAGGC
GTGGTCGGGTCGGGCCGAGTGACCGAAGGGGTTAGGCCGGGCGGGGCTGGATGCACTGTGTGGCGGGACTGCAGGCCGGGGTCCCCGGAYGCCTTTCTGC
TGCGCTTCTTGTGGGCCCGGGCCTGTGGTTAGTGAATTTTTCTATCCCGCCGCTCCCCAGATTCTCCGGATATGGCCGGAGTGTTTCCTTATCGAGGGCC
GGGTAACCCGGTGCCTGGCCCTCTAGCCCCGCTACCGGACTACATGTCGGAGGAGAAGCTGCAGGAGAAAGGTGAGGCGAGAGTGTGGAGCGGCGCGCGG
GCCGGAGGCGGGGCGGGTGTGCGYGCGCGCAGGCGGGTGGGGACCCTCCCCGTTTGGGCAGCTCCTGAGGTGTCAGCTCCCTTGTTATTTCCAGTTAGTT
TTTCATCAAGTCATTTTAAGCGCGTATTATTTGCAAGCGCTGATCCAGCGGGGGTACAGTAGTGACGGAGACAAAATTCCTGTCCTTACGGGGTTTAAAT
TACAGCGGGAGAGACAGAGAATAACAAAACCTTGAAGCTCTGTAATAAAAATGTCAGGCCGGGCGCGGTGGCTCACGGTTGTAATCCCAGCACTTTGGGA
GGCCCAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACACAGTGAAACCTCGTCTCTACGAAAAATACAAAAATGAGTCGTGTG
TGGTGGCGCGTGTCTATAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATGGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGACATCGCACCAT
TGCACTCCAGCCTGGGAGACAGAGTGAAACAACCTCTCAAAAAAAAAAAAAAAAGTCAGATAGTGATCAATGTGATGAAAGGAAAAACAGAGTAAAATGG
TAAGGGAATTGGCAAGGGGTGCTTCTTCCTGCTGGTGCCTGCTTCTCCCTCACACTCACTGACAGGAGCTTACCCTAGGGCAAGAGGTGAAGAGGATTAG
GSGGAGGGTGTGCAGGCCTTTAAACTGAGGTGCCTTTCCAGCTCGAAAATGGCAGCAATTGCAGGCCAAGCGCTATGCAGAAAAGCGGAAGTTTGGGTTT
GTGGATGCCCAGAAGGAAGACATGCCCCCAGAACATGTCAGGRAGATCATTCGAGACCATGGAGACATGACCAACAGGAAGTTCCGCCATGACAAAAGGG
TTTACTTGGGGTAAGGAACATCCTGAAATAATTTCATTTGGAATTTGGCCCTTTTCYCTTCTCCCTGTCCCACAGTCTTGGATTGATGCTTTGACAGCTC
ATCTTGGTGGATATAAGAGAAAGGAGAAAACCAGTAGGAGTCTCTGATAATTTCTACATCTTCCACTTTTGCAGTCTGTTTCCCCTCTCTTCCCGATCTG
GGACTGGTGCTTTAATTTGTCCTGTTGATGATATTATAAGATGTCCCTGGCCAGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
CGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACACAAAATTAGCTGGGCGTGGTGGCAG
GTGTCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAACTTGTAGTGAGCCGAGATCACACCACTGCACTCTG
GCCTGGGCGAAAGTACGAGACTCCGTCTCAAAAAAAAAAAAAAAATGAAAAATAAGATGTCCCTATGGTTGAGCTGGTTGAAGTCCAGAGTGGGATACTG
TGCATAGTGGCAGCCTGTCGCTCCTCAGGGACCTGAATTCTGTGTTTGGGGTATTTAATTTCAGAGGTTTCCCTACTCCTGTTTTTTCTGTGGCTCTAAA
CTGGGCTAGTACAGGTACAGATGTCTTAGCAGATTCCTGTTCTATTTGGACACAAAAATGTTTGCCATGTAATGAACTGGAAGTTTTGTTTATTTCAAAA
AATACTTAGAGAACTGTGCTGGCTGCTGGGGATATAGTAGCGAGCAGAGGGTAACAATCTCCGCCTTTCTGCAGTGTGCGGTCTAGTGGCCTGACAGACA
TGAGACAACTGGTGATAGTGAAGTATGGTGAATACTTTATTATGATTTATGGGAAGATGCGGAGGGAATAGGATGTGAGAGAGCCGCAAAGCTGTCTCCA
GAGGGATAGCCGTTGATTTAGAGGAGCTGATACCAGCATTGTGGGATTATGACGTTTAAGAAGAGTGGTGCAAGGTGAAGTTGGAGAGGGAGAGGCAGGG
TTTCTGGTTAGGAAGGGCCTGTGGGCTAAGTTTGGGAGTTTGGATTGTAAGGTAGGACTGTGGAACATGAACATGTGGCTTCTCTGCATGGGACAGGTAG
CAGAACACCTCGTCATTTCTGATAGCCTTCTCTTTTTCTAATGTGCCAGTGCCCTAAAGTACATGCCCCACGCAGTCCTCAAACTCCTGGAGAACATGCC
TATGCCTTGGGAGCAGATTCGGGATGTGCCYGTGCTGTACCACATCACTGGAGCCATTTCCTTCGTCAATGAGATTCCCTGGGTCATTGAACCTGTCTAC
ATCTCCCAGTGGGGGTGAGAAAGGCTGAAATATGGTGGGTGGTGGTGGTGGTGGTGGTTGGGAGGCAGTGGGTAGAAATGGTTGTGTGATGTCTTGCCTT
CCAGGTCAATGTGGATTATGATGCGCCGAGAAAAAAGAGATAGGAGGCATTTCAAGAGGATGCGTTTTCCCCCTTTTGATGATGAGGAGCCGCCCTTGGA
CTATGCTGACAACATCCTAGATGTTGAGCCACTGGAGGCCATTCAGCTAGAGCTGGACCCTGAGGAGGACGCCCCTGTGTTGGACTGGTTCTATGACCAC
CAGCCGYTGAGGGACAGCAGGAAGTGAGTGATAGATGGAGATACTACACCTGGGAGGAGTTCTGGAAATGCAGAAGGAGTCYTGGGAGATCAGTAGGTGG
TATGGGTTTGTCTAGCTGCTTACTTGAGGTGGGCCTTTCATTTTTTACCTAGGTATGTAAATGGCTCCACTTACCAGCGCTGGCAGTTCACACTACCTAT
GATGTCGACTCTCTACCGCCTGGCTAATCAGCTCCTGACAGACTTGGTGGATGACAACTACTTCTACCTGTTTGATTTGAAGGCCTTCTTTACGTCCAAG
GCACTCAATATGGCCATTCCTGGAGGCCCCAAATTTGAACCTCTTGTTCGAGACATCAACCTACAGTGAGTTGGAGAGATTAGGGATTTTAGACATTTTG
AGTTGAATGAAACGTAATCTTGATCCTTAAAGTCCTGATATAACTTCCAAATTAGTCTGTTTACACCAGGTGCAGTGGCTCACGCTGTAATCTCAGCACT
TTGGGAAGCTGAGGCAGGAGGATTGCTTGAGCCCAGAAGTTTGAGACCAATCTGGGCAAAATGGCAAAACCCTATCTTTACCAAAAAATGTAGCTGGGCG
TGGTGACACTCACAGCTTCGTGTAGTCTCAGTTACTTGGGAAGCTGAGCTGTGGGAGGATTGTTTGAGCCCAGGAGGTCACGGCTGCAGTGAACGATGAT
CATGCCATTGCATTCCAGCTTGGGTGATAAGAGTGAGACCCTGTCTCAAAAAAAAAAAAGTCTGCTTATTCTTGATGTTGTACCCTAGGGATGAAGACTG
GAATGAATTCAAYGATATTAACAAGATTATCATCCGGCAGCCTATCCGSACTGAGTACAAGATTGCTTTTCCTTACTTGTACAACAMTCTTCCACACCAT
GTCCACCTCACCTGGTAAGAGACCTGGAACACAACATTTGGAAAGGAGAAGGCTGCTGTTTAGGTTGGGCCARGGCGGGAAAACTTTGGCTGACTCTTCC
TTTCRTTTTAGGTACCATACTCCCAATGTTGTATTCATCAAAACTGAGGATCCTGACTTGCCAGCTTTCTACTTTGACCCTTTGATCAACCCAATCTCCC
ATAGGCACTCAGTCAAGGTGAGGAAGGGAAGGGATGCTTTCCCTCAGCTCTTCTAGGAGAAATGCGTGAGGTTGGCTGATGTTACTAAACGCTCAGGTGG
AGGGAGATGTGTTTTCCGTCTTGCTAAGTGTTCCCCTTGAGCTATAAGCGAATATGAGAATTCAGCATTTGCTTTAAAACATGTCATTGGTATAATCCTG
TTTTCTGTGATTATCCTTTTGGACTTTACGGTTCTTTTCTTGGGTGCTCTAGATAATCTGTCCCGGTCTGTCTCTATTGTGTTTGTTTGTTTTAGCCTTT
ATATTGAGATGTAGTTAACATACCATACAAGTTATCCATTTAAAGTGTGTAATTTGATGGTTTTTAGCTTATTCTCAGAGTTGTCCCAACTGTCACGACA
TGCAATTTGAGAATATTTTTATTACTTGAGAAAGAAACCCTTAGCAGTTACTCGCCATTTCTCCCCAACTTCCTTACGCAACCACTAATCTACTTTCTGT
CTATAGATTTGGCTATTCTACACATTTCATATGATAGAATGAAATAGAATCGTACACTATGTAGTCTTCAGTGACTGGCTTCTTAAGCTTACCATAATGT
TTTTGATGCTCATCTGTGTTCCGTTGTGTCCAAGCCCAGTGTTTGGAGCTTGGGTGGGAGATGATTGCAATGTTGACCTCCTGTGATGTTGGGGCTCCAT
TGGGAGGCTTTCTGGTGGTCAGCCAGTTGAGGTGTGAGAAGTGACGCTTGCTTTCCTGGTGGCCCTGTCTTGTTCTTTGCTGTCTTGGTTTCCTTTGTGC
TGGCACTTCAGGGCTGCTTTTGTCAGACAGCCCAGTTTCCATAGCAGATACAGGCTTTGTGCTTGGCCCCAGAGAATTTCCCTCATCTTAAGTCTGTGCC
TAGTTCAGCAGGAGCTAAACCCTTAGAGGGATTCCTTTTTCAGAGCCAGGAACCATTGCCGGATGATGATGAGGAATTTGAGCTCCCGGAGTTTGTGGAG
CCCTTCCTGAAGGACACACCCCTCTATACAGACAATACAGCCAATGGCATTGCCCTGCTCTGGGCCCCGCGGCCCTTCAACCTACGCTCTGGTCGCACCC
GTCGGGCCCTGGACATACCCCTTGTCAAGAACTGGTAAGGTTTTTCCCTGTGGCAGGGGGAATGATAGTGGATGTGTAGGAGAAAAGACTCCAACTAGGT
GGGCATGTAGCCTTTTTTTTAAATTCTTTTTTTTTTTTTCCCATAAAAATGGTAGACAACCCAAGGCTTGCAGCCTTTAGCAGAGTGTCTGGAAGAAGAG
ATGGCCAAACTCTGGTGGGCTTATTTTTCCAGGTATCGGGAGCATTGTCCTGCCGGGCAGCCTGTGAAAGTGAGGGTCTCCTACCAGAAGCTGCTTAAGT
ACTATGTGCTGAATGCCCTGAAGCATCGGCCCCCTAAGGCTCAAAAGAAGAGGTAAGGTGCCCCAGGGGCCCTGCGCAGACTTCTGTTCCAGAGATATCA
GTAGGCTGACTCTTACTCTCCATGTTCCCACCTCAGGTATTTGTTCCGCTCCTTCAAAGCCACCAAATTCTTTCAGTCCACAAAGCTGGACTGGGTGGAG
GTTGGGCTCCAGGTTTGCCGCCAGGGCTACAACATGCTCAACCTTCTCATTCACCGCAAAAACCTCAACTACCTGCACCTGGACTACAACTTCAACCTCA
AGCCTGTGAAAACGCTCACCACCAAGGTGCCTGCATTGGACCCTAGGGGCCTCCTGGGCTTCAAGGACGGACAGTTGTTTTCCTCTGGTTACTGATGAAG
GCATACATCAGTTGGGTCCATTGCTCATTCAYGTTCTGTCTGTTTTTTGCATCTTCTCCAGGAAAGAAAGAAATCTCGTTTTGGGAATGCTTTCCACCTG
TGTCGGGAAGTTCTGCGTTTGACTAAGCTGGTGGTGGATAGTCACGTGCAGTATCGGCTGGGCAATGTGGATGCCTTCCAGGTAAGGTTAGGTATTCCCA
ACCCCTGCCTGGGTGAGGACGCTGGARGAAGCCTGTGCTGACCGTGGAGCTGGTTTAAGCTCCAGGTCTGATGGGGCAATTGTATTGCAGCTGGCAGATG
GATTGCAGTATATATTTGCCCATGTTGGGCAGTTGACGGGCATGTATCGATACAAATACAAGCTGATGCGACAGATTCGCATGTGCAAGGACCTGAAGCA
TCTCATCTATTATCGTTTCAACACGGTGAGACCTTGACTTTACTGACTTTCTTTTTTTTGAGACAGAGTCTTACTCTTGTCTCTTGGGCTGGTGTGCAAT
GGCACGATCTTGGCTCACTGCAACCTCCGCCTCCTGAGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCCGCCACCACG
CCTGGCAATTTTTTTTTTGTTTTGTTTTGAAACTGAGTCTTTCTCTGTTGCCCCAGCTGGAGTACAATGGCACGATCTTGGCTCACCACAGCCTCCGCCT
CCCGGGTTGAAGTGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCGCACCACCATGCCTGGCTAGTTTTTGAAATTTTAGTAGAGATG
GGGTTTCACTGTATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACACTCCTCGGCCTCCCAAAGTACTGGGATTACCAGCGTGAGTCACC
GTGCCCAGCCTCACTGGACTTAACTTTCTCAGATCTTTTTTCATGTATACATTTAGACAGGGCTCTTTCCAGGGACCTATTTGGAGAGCAGCTATGACTG
TGTCCTTACTGCTCCTTTAAATTCACATGGGCGATCTTAGTTCCTGGTTTTTGCCTTAAGGTTTCTCATTTACCCTTTTGTTTTAGATGTTGAGGTCCCA
GAGTTTTTTTTTCTTTTTACCCCTCTACTGCCATACCTACATTCCTCTGTATGTATATTATACATATATGCCCCACCTCTGCCCAGGTTTCTATTGTTGT
TTAAATGCATTGCTAACTTGTATTCTTAACTTCTGYTTGGGATCGTAGGGCCCTGTAGGGAAGGGTCCTGGCTGTGGCTTCTGGGCTGCCGGTTGGCGAG
TCTGGCTSTTTTTCATGCGTGGCATTACCCCTTTATTAGAGCGATGGCTTGGCAACCTCCTGGCCCGGCAGTTTGAAGGTGAGTGGTTTTCTCTGTGTCC
AACTTCTCCTGTTATTGCTTCAAAAGTACCTGCCCCTGTTTGAGTCTGTTCCCTGCTCTTGTRTGAGCACTCTTCCTACTGGATTGCCTTTAGGTCCAGT
TCTGAAATGAGTCTGACCTAGTATTCTATTTCTTGGGCTTCCTTCTGGGGCCTTGAGAGGCAGTCATGCATTTGCAGGAGTGGAAATTCCTCAGAAGCAT
AGTTGTGAATGTTTAAGGTAGCTCGTCTTTTTGCATATGCTGGGCACAGGGACGCTTTGTTAATACCTAATTTTATTAATAACCATAATGAGTGAGGAGC
ATGAAGGTAGAGACCCTTATTGAAAGCAAGGAATCTTCCTTGTAATCCCCTTGGGACACTCTACTTCCAGGTCGACACTCAAAGGGGGTGGCAAAGACAG
TAACAAAGCAGCGAGTGGAGTCACATTTTGACCTTGAGCTGCGGGCAGCTGTGATGCATGATATTCTGGACATGATGCCTGAGGGGATCAAGCAGAACAA
GGCCCGGACAATCCTGCAGCACCTCAGTGAAGCCTGGCGCTGCTGGAAAGCCAACATTCCCTGGAAGGTGGGTGTCTCTTTATTTCCTTGGAGGCGTAAA
CATCCGTCTTTAGGGTAGGATTACCACTTCGGGAATCATTAGGGGGCTATCTGGCTCCAATCTCTTTTCTTTTCCCTTTTAGACAGGGAAAAGAAGCACC
ATGTTGCTTAGGCTGGCCTCAAGCTCCTGAGCTCAAGCGATCCTCCTTAGCCTCCTGAGTAGCYGGGACTACAGATGTGTGCCACAGTGCCTGGCTGGAT
CCTGGCTTGATTGTGCTTTTTGGACTTTTAGGTCCCTGGGCTGCCGACGCCCATAGAGAATATGATCCTTCGATACGTGAAGGCCAAGGCTGACTGGTGG
ACCAACACTGCCCACTACAACCGAGAACGGATCCGCCGAGGGGCCACTGTGGACAAGACTGTTTGTAAAAAGAATCTGGGCCGCCTCACCCGGCTCTATC
TGAAGGCAGAACAGGAGCGGCAGCACAACTACCTGAAGGTTGGGCAGAGTAGGCTGGGCTGGGTGTGAGTGGTGGGGGAGTGGGCAAGAGGGAGGACTGT
AGAGTTGTGACTGAACCTTGTTCTGGCAGGATCGGGCTGTAGCGGGAGGCTAATTTCATGTCCACCTTACAGGACGGGCCTTACATCACAGCGGAGGAAG
CAGTGGCAGTATATACCACCACAGTGCATTGGTTGGAAAGCCGCAGGTTTTCACCCATCCCATTCCCCCCACTCTCCTATAAGCATGACACCAAGTTGCT
CATCTTGGCATTGGAGCGGCTCAAGGAAGCTTATAGGTGAGTAGTAGGGTAGATAGGTTCCTGCTGGGAAGGTGACAGCAGGGAATGGYGTCATCCTCAG
AGTCCAAAGAAAGAAGGTGTAGCCCCAGTCTTTCCTGGTTTTACTTCCTCCTAGTTTTCCCATTCACCCTTCCCATTGCTTTTGTCAGTGTGAAGTCTCG
GTTGAACCAGTCTCAGAGGGAGGAGCTAGGTCTGATCGAGCAGGCCTACGATAACCYCCACGAGGCRCTGTCCCGCATCAAGCGTCACCTCCTCACACAG
AGAGCCTTCAAAGAGGTGAGTGAGGCCTCCCAAGTTTTCTTTTTGGTTCTACCAAAGGTAGCAGTTGCCTTTGGTTCTACCAAAGGTAGCAGTTGGTGGA
TTGGTGTGAACCAGCCTCCTTGTCCCACAGGTGGGCATTGAGTTCATGGATCTGTATAGCCACCTCGTTCCAGTATATGATGTTGAGCCCCTGGAGAAGA
TAACTGATGCTTACCTGGACCAGTACCTGTGGTATGAAGCCGACAAGCGCCGCCTGTTCCCACCCTGGATTAAGCCTGCAGACACAGAACCACCTCCRCT
GCTTGTTTACAAGTGGTGTCAAGGTAGAACTTTCATGAGATCGCCCTGTGAGGAACGGGGCAGGAATTTAGTTCTACRTCAAAAATCTCATCTGGGTAGC
AYGATTGGTTTACTCTCTTGATGCGTGGTAGTAAAGGGAAGTAGTGTTCGTGTTAAACTGAGGAAAAGCCCRTRGTCAAAGCAATCCARATGAATACGTG
GAATCATAGTGGGATTGGTTATGGAAGGTAATGATAGTTCCTGTGGGGCTAGTCTTGCAAGAGGATTTCTAACCTGCTGGAGACCTGCCTTGCTACTCCT
CAGGCATCAATAACCTGCAGGACGTGTGGGAGACGAGTGAAGGCGAGTGCAATGTCATGCTGGAATCCCGCTTTGAGAAGATGTATGAGAAGATCGACTT
GACTCTGCTCAACAGGCTGCTGCGCCTCATCGTGGACCACAACATAGCCGACTACATGACAGCCAAGAACAACGTCGTCATCAACTATAAGGTGCGTCTC
AGGCGCAGTAGCATGGAATTGTGTGTGGAGTGCTTGTCTGGCCCACTGACTCAGAATTTGCTGAGGAGGAGGCTGGGTGCGGTGGCTCATGCCTGTAATC
CCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACGAGGTCAGGAGTTCGAGACCAGTCTGGCCAACATGGTGAAACCCCGTCTCTACTTAAAAAAATACA
AAAATTAGTTGGGTGTGGTGGTGGGCGCCTGTAATCCCAGCTACTYGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAAGTGGAGGTTGCAGTGAG
CTGAGATTGCGCCASTGCACTCTCAGCCTGGGTGACTGAGCACAACTCCGCCTCRGGAGTGGAAAAAAGTAGAATTTGCTGAGGGGAGAACAAAAGAGGT
TAACYCTGGAGAATCCTGGGGCATGGCTCACATTCTTAAGAATTGTAGTTCKTTCTTTCTAGGACATGAACCATACGAATTCATATGGGATCATCAGAGG
CCTGCAGTTTGCCTCATTCATMGTGCAGTATTATGGCCTGGTGATGGATTTGCTTGTATTGGGATTGCACCGGGCCAGTGAGATGGCTGGGCCCCCTCAG
ATGCCAAATGACTTTCTCAGTTTCCAGGACATAGCCACTGAGGCTGCCCACCCCATCCGTCTCTTCTGCAGATACATTGATCGCATCCATATTTTTTTCA
GGTGAGGGCTTTCCYGGATTCCTAGCCTTGCAGGGTACTGAGGCATRTGCTTTGCCTCTGAAATCAGCTATTGTACCTGAGTTGACTTAACTGCTGTTGG
GGCTTTAAAATGGAATGAAGCGGCCGGGTGCGGTAGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGATCG
AGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTCCGGAG
GCTGAGGCTGGAGAAGGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCGCTGCGCTCCAGCCTGGGGAAAGAGCGAGACTGTCTCA
AAAAATAAATAAATAAAAATAAAATGGAATGAAGCCCGGGGAGGGTGGGGGTAGGATGGGGTGGGGTCTCCGTCTATTGAGCTGGAGGACTTGTGGGTGT
CCCAAATCTCAGTGTACTGGGGCCTCAGCAGTGTACCTGGTCTGGTGTAGGTTCACAGCAGATGAGGCTCGGGACCTGATTCAACGTTACCTGACAGAGC
ACCCTGACCCCAATAATGAAAACATCGTTGGCTATAATAACAAGAAGTGCTGGCCCCGAGATGCCCGCATGCGCCTCATGAAACATGATGTTAACTTGTG
AGTCTAGGTTGGGGCTGTGTGAGCTGGAAGGACATAAGCTAAGGGCCCAGAGAGGGCATACCTGAGGCTGCGTCCTGGGTGGGAGAGGCGTGGCTGTGTC
AGGATGTCATCAGTTGGCCTTTGAAGGGAAGTTCCTTCCAAGAAACTGCTGTGACCATGTGTTCTCTGTGGGCAGAGGCCGGGCGGTATTCTGGGACATC
AAGAACCGCTTGCCACGGTCAGTGACTACAGTTCAGTGGGAGAACAGCTTCGTGTCTGTGTACAGTAAGGACAACCCCAACCTGCTGTTCAACATGTGTG
GCTTCGAGTGCCGCATCCTGCCTAAGTGCCGCACCAGCTATGAGGAGTTCACCCACAAGGACGGGGTCTGGAACCTGCAGAATGAGGTACAGCCTGGGCG
GGGCTGGGAGTGACATGAACGCGCCTGCACTTCCTGGGTCAGTCACCGGAGTCTTGTTGGGTGGAAAGACTTGARTGGTGGGCACAGTTGGCTCTTGCTT
CTGTGGGAGTTCCTCGGACATGTTAACCTTGACTTTGTGGTTTAGGTTACTAAGGAGCGCACAGCTCAGTGTTTCCTGCGTGTGGACGATGAGTCAATGC
AGCGCTTCCACAACCGCGTGCGTCAGATTCTCATGGCCTCTGGGTCCACCACCTTCACCAAGGTACARGGCCGTCATGCCCAGCTTCCCTCTTGTCCTCT
GCTGTCCTCTGCTCATTTCACACCCCTTTCACTTCGTCCCCTGCTGGCTGCTTCCTTCTCTTCTTTGCTTAGTGTGCCAGTTTCCATGCTCTGTGCCATA
GTGGCTTATAGTATGTCAGGTCACTTCATCGTTATTTTCTGAGCGTTCCTTGTAGAAATTGTGTAGCCTCCTTCTTGTGGACTTGTGATGATTCTAAATT
AAGGCAAGAGTAAAAGTTGGATTTATTATTTTGAACAGAAAAGCATTATTTTTGCATTTTCTCAGGTGCTTATCTAAGTCATGTTAACCAGTGGCATAGA
GAACCTGTGAAAAAGCAGCCCTCATAGGCATCTCGGGGTTCGTTTCTCCTTCACTTACCTTCAGAGGCCCAGCCGAAGGCAACCGGAATTGAGAAAGAAA
AATCTGAGGAATTTTGAACTACGTATATTTAAGGTTTTGCAAAATTTAAAAAGTTACCTCGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTT
GGGAGGCCGAGGCTGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGTCCAGTGTGGTTCTGAAACCTCGTCTCTGCTAAAAATACAAAAATTAA
CCGGGCCTGGTGGCCGGCGCCTGTAATCGCAGCTACTTGGGAGGCTCAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGACGTTGCTGTGAGTCGAGATC
GTACCATTGCACTCTAGCCTGGGCGACAGAGCAAAAACTCTATCTCAAAATACAAACAAACAAAAAAAAGTTACCTTACTCTGGTTTCCATTAGAGTAAC
TCTTAGCTATAACATTTTTCTTGCATTCCGACCTTCATATCTCTAAATGTGCGGCATTTGCATGCGCAGAATGTTTTCTGTTTTTTAGTTAAGTCTGTTA
AGGATACGTTCTGTTATGTTTTAGAACTATTGCATTACGGTTGAGTTTCCTTTATCCAAAATGCTTGGGACCAGAAATGTTTTGGATTTCAGATTTTCTT
TTTTAATATTTTCATTATTTTTATTAGAGACAGGGTCTCACTGTCACTTAGGCTGAAGGGCAGTGGCGCTATCATAGCTCACTGCAGCTCAAGTGATCCT
CACACCTCAGCCTCCCAAGTATCTGGGACCACAGGTGCATACGCCACCATGCCTGGCTAATTTTTAATTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGA
GTCTTGCTCTGTCACCCAGGCTGCAGTGCAGTGGCGCAGTCTTGGCTCACCGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCTG
AGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAAGTTTTTGTATTTTTGGTAGAGAAGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGAACT
CCTGACCTTGTGATCCGCCTGCCTCAGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACCACACCCGGCCTGATTTTTAAATTTTTTGTAGAGCTGG
GATCTCACTCTCTTGTCCAGGCTGGTCTCAGACTCTGGATTCAAGCAGTCCTCCTGCCTTAGCCTCTCTAATGCTGGATTATAGGTGTGAGTCACCGTGC
CCAGCCTTGAAATATTTTCATTATACTTACAGGTTCAGCATCCCTAATCCAAAATTTGAAATGCCCCAATGAGCATTTCCTTTGAGCGTCATGTTGGTGC
TCAGAATGTTGGGACTCAGAAAGTTTCAGCTTTTTGTGAGCATTTTGGGTTTTAGATTAACCTGTATGTGGGAATCTGTGAGAGCACTAGAGTTAGTGAT
TGCTCTAGCCCAGTCTGGAAGTGGAAGAGGAAAGGATTCCTGAAAGAAGTAGCATGTGATGAGACAGGTGAGGGAGAGCATTCCTTTAGCCAGAAGTGTG
GCGATGTAACTAGCTTGTGTACATGGGACCATGGAAAGTTCAAGGTTTGCTGGAGTAAATTGTGGAATTGGGAATGTTAAGAGATGAGGCTGGATAAATA
GTGGAGAGCCATATCATGGAGGGCATCGCACACCTTAGGAAGAATCATATAAGGGTCTTAAGCACAGAGTGACTTTGTCAGATGTGTTTTTYTTCTTTTT
TTTTTTTGGCTTCCCACACTACAGATGCAGACTTTGTCAAATTTCTGTGTTAGATGATTCACTCTTGCAGCTGTGAGAAAGATGGACCTGAAAGGATAGG
ATGGGAGACCAGGTTTGGGGACCACTGAAGAAGTCCAGATAAAAATGATGAGAGCAGGCCAGGCGCGGGGGCTCACGCCTGTAATCCCAGCACTTTGGGA
GGCCCAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGGGAAACCCCATCTCTACTTAAAATATGAAAATTAGCCGGGCG
TGGTGGTGCACACCTGTAATCCCAGCTACACAGGAGGCTGAGGCAGGAGAATCGCTGGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCCCACCAG
TGCACTCCAGCCTGGCAACAGGGTGAGACTCTGTCTCCAAAAAAATACATAAATCAATAAAAATGATGAGAGCACTGAAAGTAGAGGTAGGAAGAGGGGA
ACAGATTTGATAAGAAGTTAGCAGATAAAATCAGCAGAACTTTGTGGTCCTGGGATGCTCAAAGAAAAGTCAAAAATGATGTGCAGATTTTGGCATGGGT
GACTAGGTGGGTGTTAGTGCCACCAACTGGAAGACCACATGAACAAGAACAGGTTTAGGATCGAAGATAAAGAAATCTAGTTTAGGATATATAAAGTTTG
AAGTTCCTGAGAACATTCAGATGGAGATTTCCCCAGGTATTTATTTATACCTTATTTCTTCAGTTCCAAGATACATATTTAAGTACATATATACACATGT
GTAGATTCCTGATTCCTTCTGCTCCCTTAGTGGTGCCTCTTTAATTGATGATCTGTTAGATTTGATTTAAAAAGTATGAGTGAGACATTCCAGGGAGAGA
AATGAAACTAGAAAGGTAAGAGCAGTCAGGGATAGCTTAGAGGTTCCTAGGTGAGAAGCAATCTGAAGAAACATGGAGAACAGGTCTGGATTAAAGATGT
AGATTTCGGAGCCTATCCACAAAAGGTCAAAAGCTCAAGAATGAGTGACATCACCCAGGGACAATGTGGAGTGAGAAGAGGAGAGGGAGGAATTTGGAAA
TGTGGGGAATACTAAGATGAAGTGTGGTCAGAACCTGTGGGAGGGTGCCGGGTCTTGGAACCAAGGCCTTCAGGAACACGTGTCCAGAATTGGGGTGATG
CTGAGCAGTGTCAGTTGCCTAAGAGCATTTCAGTTAGATGAGGACTGAAAAGTATCCATTGGATTTGACAGTTAGGACGTCATTGGTGACCTTAGCAGGA
GCTGTTACAGAAATAGTAGGGATGGAAGCCAGATGGCAGTGGGTGAGGCTTCATGGGAAGTGAGTGAGTGGAGACAGCAAGGACAATCTGTTTGTCAGTT
GAAGAGAAGGAAGGACATCAGATGCCACCTAGAGGGAGCTGTAAGTCAGTGCAGGTGTTTTTGAATGACAGTGACTTGAGCGTGTTTTAATTAAGGAGCC
CAGTAGCAGTTGAGTGTACAAGAGAAAAGTGTGGAATTGGCTGGACACAGTGGCTCACGCCCGTAATCCCAGCACTTTGGGAGGCCAAGGTGKGTGAATC
ACCAAGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGCGGTGGCGGGTGCCTGTAAT
CTCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGTAGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACCCCAGCCTCGGCGAC
AGAGCAAGACTCCGTCTCGAAGAAAAGAAAAGTAGGTAATTGATGAGCAGAGGTGCAGAGGGTCTCCCTAGGGATAGAATAAAGAGCAAGCAGAGGAAAA
ATCCTCTGAACCTGACAGGAAAGAGGTCTGGAAAGATGTGGATATAGATGAGGTTAGTGGGAAGCTATAACAGGATTTTGAGTTTTTCAGCTTTTCTTGG
GCTGCAGTTAGGGGAAAGAGTTGTGCATAGTGAATTTCATGGTATTAGGGTATGATGATTGCTGAAGAAACTGAGAGGGATTGGAAGGTGTGTTGGGAGC
TCAGCTGGGTTTTGGGAAGACAACTCTGAGCATTTGTTTTTCCCAGAATCACCCAGCTACTCAGTGACAGGGATGCAGAAGGTGGATAGATTACACTGGT
GATTAAGGAATAGAGCTCTGTTAGAAGACAGTTGTAGAGTGGTAAGGCATTGAATGCAAGGGAATCAAGAGTGCGGGACCCAGCCGGCCGCGGTGGCTCA
TACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGTTCAGGAGATTGAGACCATCCTGGCTAACGCGGTGAAACCCCGTCTCTACTA
AAAATACAAAAAATTAGCTGGATGTCGTGGCGGGCGCCTGTGGTCCCAGCTACTCAGGGGGGCTGATGCAGGAGAATGGCAGGAACCTGGGAGGCAGAGC
TTGCAGTGAACCGAGATCGCGACACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGAATGCTAGACC
CCATTGAGATACTGGAAGAGGGGAGAGGAGAGAGAGCAGAAGAGGCCATTGGCCTGGGAAAGAATTGTAGGCATCAGGGAACTGGATATCAGAAGTTAGA
GGCTGAGGAGTGGAGGAGTGTCTGAGAGGGTAAGGATGCAGTTGACTCTAGTGGTTAGAAGCACAGGCTCTGGAGTCAGATGGGGTTCACATCATATCTT
TGTCATATTACTAGTTGGGATCTTGGGAATATTGCCCATGCTGGGCCTCAATTCCCTCATCTGTAAAATAGGGATACTGATAGGACCTAGGTCAGACGGC
TTTTGTGAGAATTAAATGAAACGGGGTATTTAGTAAGCCATATTACTTGGTAAATTGCATGATAAAGCTGGGCATGGTGGCTTATGCCTGCAATCCCAGC
ACTTTTGGAAGCCGAGGTGGGAGGACTGCTTGAGCCCAGGAATTTGAGACCAGCTTAGGCAACATAGCAAGATCCTGTTTATATTTAAAAATAAATAAAT
AGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTAGGTGGATCACGAGGTCAGGAGTTCAGGACCAGCCTGGCCAATATG
GTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACATGTCTGTAGTCCCAGCTACTCTGGAGACTGAAGCAGGAGAACCACTT
GAGCCCCGGAGGTGGAGGTTGCGGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGGGTGACAAAGTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAA
AAAAGCTATGTCATGGGCAAGTTCTATAACTTGTTTTTTATGAAGACATAAGAGGTATAACATATATAAATTTCTTACCATGGTACCTAGTACACGTAGA
CCTGAGTAAATATTATTTTCCTTCTTGCCTCCCCTTATCCCCCAGGAATTTCTGCTATTTAGTAAAGGAACACTGGGCTCCTCAGGAATTTATGCCTCCT
CCCCTTCAGGGATAGAGCACTGTTAACTACAACAGAAATACTGTGTTCCATTACACACATCAGCAATTCCAAGTGCAGTCCAAGAATTTACTAAACCTAA
TGGGAATCATCCACTTGCCTTTACCCCAGTATCTAGCCTATCCTGGCCCCTGGCCCTCCTTTTTTTTTTTGAGAGGGAGTCTTGCTCTATTGCCCAGGCT
GGAGTGCAGTGGCACAATTTCAGCTCACTGCGACCCCCGCCTCCCGGGTTTAAGTAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCC
TGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCATGATCCAACCGCC
TCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCGGCCCCCCTCCTTTCTGTAGATCTGCCTGGTTGTCTCATCCTGTGGACATGCGA
GATGCTCAGTCTAGCTTTCATAGTAGGGTTTGAGCTGTTATCTCACCTGCAGTCTTTTCTCCTTGCTTGTCTGAATACCATTTGCTCAAGGCAGATTACT
ATAGTAACTCCAGCCAACGCACTCTTTCACCTCAATAATTGTTCAGAAGACATTTTTTGCCTTAAAGTCTTGACTATATCATTTGGTATTTTGTGGTTTG
CTATCTTGTTTTATTCAGCTTTTCAAAGAAACAGCTTTGGTTTCATTAATTTTTATCGTTTTTCTCTTTTTTGTTGCATTGATTTTTTTTTTTTTTGAGA
TGGGGTCTCTATGACCCAGGTTGGTGTGCAGTGTCGCAGTCTCAGCTCACTGTAACCTCTGCCTCCCAGGCTCAGGAGACCCTCCCACCTTAGCCTCCCA
AGTAGCTGGGACCACAGGCACATGCCACCATGCCTGGCTGATTTTTCTTTGTATTTTGGATACAGACAGTTTCGCCATGTTGCCCAGGCTGGTCTTGAAT
TCCTGAGCTCAGGTAATCCACCCCCCTSGGCTCCCAAAGTGCTGGGATTGTAGGTGTGAGCCACCACGCCTGGCCTTGTTGCATTGATTTCTTCTCTTAT
CATTGCCATCCCTTTGCTAGTTTGTTAAGGTAAAAGGTTAGATTATCAATTTTGGACCTTTCTCTTTTTTTTTTTTTGAGACAGAGTCTCGCCCTGTCAC
TCAGGTTGGAGTGCAGTGGCGCGATCTCTGCTCACTGCAAGCTCCGTCTCCCGGGTTCACGCCATTCTCCTGCTTCAGCTCCCAAGTAGCTGGGACTACA
GGTGCCCACCACCACACCCGGCTAATATTTTTTTTTGTATTTTTACTACAGACGCGGTTTCACCGTGTTTGCGAGGATGGTCTCGATCTCCTGACCACCA
CCTGATCAGCTTGCCTCGGCCTCCCAAAGTGTTGGGATTATAGGTGTGAGCCACCGCACCTGGCCTGGACCTTTCTCTTTTTCTTTTTTTTTTTTTTTGA
GATGGAGTCTCACTCTCTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCGCCCTCTGAGTTCAAGCGATTCTCCTGCCTCAGT
CTCCCGAGTAGCTAGGATTACAGATGCCTGCCACCGCACCCGGCTAATTTTTTTGTGTGTTTTTAGTAGAGACAGGGTTTCACCATCTTGGCCAGGCTGG
TCTTGAACTCTTGACCTCGTGATCCACCTGCCTCGTCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCTGACCTTTCTCGTTTTTTT
TTGTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAACTTCCGCCTCCTGGGTTTGTGTCATTCTCCT
GCCTCAGCCTCCTGAGTAGCTGGGACTATAGTCGCCTGCCACCATGCTCAGCTAATTTTTTGTATTTGTAGTAGAGACGGGTTTCACCGTGTTAGCTGGG
ATGGTCTTGATCTCCTGACCTCGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGGGTGAGCCACCGTGCCTGGCCAACCTTTCTCTTTT
TCTAATAGTATTATTCACTTCTGTAAATTTTCCTCTCAGCATTGCTTTAGCTGCATTCCTCCCTTTTTTTTTTTTTTTTTTTTTGAGGCAGAGTCTCACA
TTTTCGCCCGGGCTAGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCGCCTACCCTGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTG
GGATTACAGGTGCCCGCCACCACACCCAGCTAATTTTTTTTTGTATTTTTAGTAGAGACAGGTTTTTACCATGTTGGCCAGGCTGGTCTTGAACTCGTGA
CCTCGTGATTCACCCGCCTTGGCTTCCCAAAGTGCTGGGCTTACAGATATGAGCCATCGTGCCCGGCCCCATTCCTCACATTTTAATATGTTGTGTTTTC
ATTTTTATTTAGTTAAAAGTATATTCTAATTTCCCTTATGAGTTCATATTTCACCTTAGGTTGTTTCAAATTATGCTGTTTACATATTTGGGGGTTTCCC
TTATTAGTTTCTGCTTTGATTCCATTATGATTAGGAAACATGTTGTATATGATCTTAGTTTTAAAAAATGTATCAAGATTTTTTTTTTAATAATTAATTC
ATTTAGAGGTGGGATCTCACTCTTGCCTAGGTTGGACCCAAACTCCTGGGCGCAAGCGATCCTCCTGCCTCAGCCTTCCAAAGAGTTGGGATTACGGGCA
TGAGCTACTGCACCTGGCTGAGGCTGACTTTTTGATGTCCTAGCGTACAGTCTCTCTTGGTGCCTGTCCTATGTGTGCTGGAAAATATCTGTTAATCTGT
ATTCTGCTATTGTTAGGTTGAGTGTTTTACAAACATTAGGTCCAGTCAGTTGGTTACATTGCTTAAGTCTTCTATATCCTTAGTGATATTTTTTGTATAC
TTCTATCGATTACTGAGGAGTATTAGAAATCTCTAGTAATCCCAGCAGTTTGGGAGGCTGAGGCTGGTGGATTGCTTGAGCACAGGAGTTCGAGACCAGC
CTGGGCAACATAGCGAAACCCCATTTCTACAAAAAAAATACAAAAATTAGCTGGGTGTGGTGGTACACGCCTGTAGTCCCAGGTGCTTGGGAGGCTGAGG
CGGGAGAGTCTCCTGAGCCTGGGAGGTGGAGGCTGCAATGAGTGGAGATGGTGCCATTGCACTCTAGCCTGGGCAACAGAGCAAGACCCTGTCTTGCTTG
AGAGAAAGATCCAACTACAGCTGTGAGTTTATTGTCTTTCAGGTCCATCATTTTTGAAATTCTGTTATTAGTTACATAATGTATTTAGGATTATTAGGTC
TTCTGAACGAGTTGACTACTTTATCGTATCAAATATCCCTCTGTATTCCTGATAACATTCCATGGTCTGAAGTCTTTGTCTTAATCAGTAGTGCCACTCC
AGCTTTGTTTTGTGTTTGCATGGGTGTATTTTTCCATCTTTTTACTGTTAATCTGTGTCTTTGTAACTAAAGTTTATTTCCTATAGACAGCATATAGTTG
GCTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCTTCCTTGGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCAGTGCAACC
TCTGCCTCCCGAGTTCAAGCGATTCTTCTACCTCAGCCTCCCAAGAAACTGAGACTACAGGCGCGTGCCACCACGCTCAGCTAATTTTTGTATTTTTAGT
AGAGACGGGGGTCTCACCATGCTGTCCAGGCTGGTTTCGAACTCCTGACCCCGAGGCCCGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCA
CCATGCCCGGCCTTTTTATTTAAATCCAATTTGACAATGTTTGCCTTACAAATGGTCTAAATACCTCAATTAAGGTTAATGTAACTATCAATGTGGCAAT
GTAGCTCAGTTTAAATCTACCGTCTTACTCTTTTTTTTTTAAATTATTTTTTCTGCTTTTCTCTTGTCCTGCCTTCTTCTGAATTTAGTTGTTTTGTGAC
TTTATCTCCACTTTTCACTTATTTGGCTACATGGTTTTTTTCTTATTGTTTGCTCTAAGGTTTACAGTATATACATAGCTCACTTACTGKGATCTACTTT
GACCATTAGTCTACTACGGATCACTTCACATATAGTACAAGAACCTTAGAATAATACACTTTAAGTTCCACTCCCACTCTTAGTAGTATTTTTGTCATAA
CATTTTAATTGTACATGTATTATAAGTGCTATAATACTTTGTTACTCTTTTTGCTTTGAACAGCCTTTATCTTTTGTAGAAATTGCAAAATGAGAAAAAA
TATTTTTTTGCATTTTACCCACATACTTACCATTTCTGGTGTTCTTCACTAGTTTGTATAGCTCCATCTGGTGTGCTTTTTTTTTTCTTTTTCTTTTCTT
TTTTTTTTTTTTGAGACACAGTCTTGCTCTGTCTCCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAATTTCT
GTATTTTTAGTAGAGACGGTTTCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGCATGACA
GGCGTGAGCCACCACACCTGGCCCAGGGGAACCATTTTTTTTTTTTTTTCCCCTGAGATGGAGTCTCGCTGTGTTGCCCAGGCTGGAATGCAGTGGCACA
ATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCTTGCCTCAGCCTTCTGAGTAGCTGGGATTACAGGCGTCTGCCACCACACCCGGC
TAATTCTTGTATTTTTAGTAGAAACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCCAACTCCCGGGCTCAAGCAGTCCTCCCACCTTGGCCTCCCAAAG
TGCTGGGATTATAGGCATGAGCCATCGCGCCCAGCCTCATTGTGTTTTGCTTTCTATTTCCCTAGTGACTAATGATGTTGAACTCAAATCTTTCTTTAGT
AGTAGGGATAAAACTAACTGCATCAAGTAGTCTCCACCCTCCCCGCCCCTGGCTCATCTGTAATTTRCTTTTTTTYCTACTACCTTTAGATTGTGAATAA
GTGGAATACAGCTCTCATTGGCCTTATGACATACTTTCGGGAGGCTGTGGTGAACACCCAAGAGCTCTTGGACTTACTGGTGAAGTGTGAGMACAAAATC
CAGACACGTATCAAGATTGGACTCAACTCCAAGATGCCAAGTCGGTTCCCCCCRGTTGTGTTCTACACCCCTAAGGAGTTGGGTGGACTCGGCATGCTCT
CAATGGGCCATGTGCTCATCCCCCAATCCGACCTCAGGTACAGCCTGGTTCAACGTATTTCTAAACCCTATTGCTCAGGCCCTAAGGGAAGTGGGTATTT
CTTTAGTTTTAGGCTTTATTTTTTCTGTAATCTTGGTTGTACACCCAAACAGGTGGTCCAAACAGACAGATGTAGGTATCACACACTTTCGTTCAGGAAT
GAGCCATGAAGAAGACCAGCTCATTCCCAACTTGTACCGCTACATACAGCCATGGGAGAGCGAGTTCATTGATTCTCAGCGGGTCTGGGCTGAGTACGCA
CTCAAGAGGCAAGAGGCCATTGCTCAGAACAGGTGGGCACCTAGGAGGGCATGCCAACCCTGGGGCAGGGGCAGTGGTGGCCTTTGAACCGTGTGGAGTT
CAGGGTCAGAGCATGCCATGGTTGTATGGAGGTGAGAAGGCTGGTTCTACTGACCCTAATTATTTTTGGCCAGGAAGGAGTGCTGAGCTCCTCATATGAG
ATCACGTTTTGACTTGAATCTTTCTTTTTTTGGAAGACGCCTGACTTTAGAAGACCTAGAAGATTCATGGGATCGTGGCATTCCTCGAATCAATACCCTC
TTCCAGAAGGACCGGCACACACTGGCTTATGATAAGGGCTGGCGTGTCAGAACTGACTTTAAGCAGTATCAGGTATGTAGAGGGAGCAGATTTTCCCTGA
GTCAGGAAAATCCATGGCTATCCCCGAAACTTGGGGCAATAGGCACCCAGAAGCTTGACCGTGCCTGCCTTGCCATCTAGGTTTTGAAGCAGAATCCGTT
CTGGTGGACACACCAGCGGCATGATGGGAAGCTCTGGAACCTGAACAACTACCGTACAGACATGATCCAGGCCCTGGGCGGTGTGGAAGGCATTCTGGAA
CACACACTCTTTAAGGGCACTTACTTCCCTACCTGGGAGGGGCTYTTCTGGTGAGGATTCTCCTCTCTTAGAGGGACCTGTCACAACCCTTTGAGCTCAT
CTCTTGTATGCCTCTGTGATTTCCTGTGGTGTTTCCCAGACAGCCACCTCCAGGAGGTTAGCAGTGTGCTGGGAAATGGCAGGATATCACCTCACCTGCT
TCTCTTGCTCCCCAGGGAGAAGGCCAGTGGCTTTGAGGAATCTATGAAGTGGAAGAAGCTAACTAATGCTCAGCGATCAGGACTGAACCAGATTCCCAAT
CGTAGATTCACCCTCTGGTGGTCCCCGACCATTAATCGAGCCAATGTGAGTGTGATTGACACTGGAGAGGGGAAGCTAAAGACAGTTGCTGCTTCTTGCC
TTGGTTATGTCGTGAGCGCCCGAGTCTCTTGATCTCTAATGTCACATTGTCGTTTTCCTGGCAGGTATATGTAGGCTTTCAGGTGCAGCTAGACCTGACG
GGTATCTTCATGCACGGCAAGATCCCCACGCTGAAGATCTCTCTCATCCAGATCTTCCGAGCTCACTTGTGGCAGAAGATCCATGAGAGCATTGTTATGG
ACTTATGTCAGGTGGGCTGGAATCGAGGGGAGAGGGTACTGTAGAGAGTCAGCTCAGGTGGAATTGAGGGGAGAGGGTACTGTACAGAGTCAGCTCAGGT
GGAATCGAGGGGAGAGGGTACTGTACAGAGTCAGCTCAGGTGGAATCGTGGGGAGAGGGTACTGTAGAGAGTCAGCTCAGGTGGAATCGCAGGGAGAGGG
TGCTGTACAGAGTCAGCTTAGGTGGAATCGCGGGGAGAGGGTGCTGTACAGAGTCAGCTCAGGTGGAATCGCGGGGAGAGCGTGCTGTACAGAGTCAGCT
CAGCTTGCTCTTTTGCATATGGGAAATCCACCCTGGAAGCTCTGAGGATGAGACTCCTATTGCCTCATTATCTTATTGTACAAACTCTGATTTTAATTGG
GCTTCCTTAACAAGTCTTAATCTCTCCATGTTTTCCTTCAGGTGTTTGACCAGGAACTTGATGCACTGGAAATTGAGACAGTACAAAAGGAGACAATCCA
TCCCCGAAAGTCATATAAGATGAACTCTTCCTGTGCAGATATCCTGCTCTTTGCCTCCTATAAGTGGAATGTCTCCCGGCCCTCATTGCTGGCTGACTCC
AAGTAAGTGCCTCAGGACCCAGCCCTAGGCAGCCAGGACACTTTCGKTTTCCTGTTCTTCTAGCCCTGCAACTTTAGGAATTGTCCTGTCTGCCTTTGTT
TCAAACTTGGAGCCAGTGCTAYGCTTGGAGCCTGTCAACACCCTTAGTCAGATCTGCTGATTCTCTGGGGTCCTGCTGACCTGGAACAAGTTGGTGGAGT
GGGTGGGATGGTTTTGGGATTTAAGTGGTTCTGGTTCTGGGGACATTGGTTATGCCCATGGTTTCTTAGAAGCTTGAACCCTCTTCATCCTCAGGGATGT
GATGGACAGCACCACCACCCAGAAATACTGGATTGACATCCAGTTGCGCTGGGGGGACTATGATTCCCACGACATTGAGCGCTACGCCCGGGCCAAGTTC
CTGGACTACACCACCGACAACATGAGTATCTACCCTTCGCCCACAGGTGTACTCATCGCCATTGACCTGGCCTATAACTTGCACAGGTGAGTTGAGGCTC
AGGACCATGTATTTTCAGGCCAGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGCGGTGGGCAGATTGTCTGAGCTCAGGAGTTTGAG
ACCAGKCTGGGCAACATGGTGAAACCCTGTCTCTACCAAAATACAAAAAATTAGCTGGGCGTGGTGGTCCACGCCTGTAGTCCCAGCTACTCAGAAGGTT
GAGGTGGGAGAATTACTTGAACCCGGGAGGCGGAGCTTGYAGTGAACCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCA
AAGAAAAATAATAATAATAAWAAATAAATAAATAATCCGTGTATTTTCCATTAGCTCCATACTTTAACGTAGTCATACTTTTTTACTTTACCTAAGTGAG
AGGAAGTGGCCCATTCCTCCTATGGGTCACTGATTCTCTTCTCCAGCCTGTATGTACACATGRGCAGAGTGTTGTCAGCCTGGCGAACAGTCTTTCTTCC
TCTGTAGAGTTGGCAGCTTGTCTTGTTTCTGGGGCTGTCATTCTCGTCTTAACTTTTCTTGACCCTTTTATCCTCACAGTGCCTATGGAAACTGGTTCCC
AGGCAGCAAGCCTCTCATACAACAGGCCATGGCCAAGATCATGAAGGCAAACCCTGCCCTGTATGTGTTACGTGAACGGATCCGCAAGGGGCTACAGCTC
TATTCATCTGAACCCACTGAGCCTTATTTGTCTTCTCAGAACTATGGTGAGCTCTTCTCCAACCAGATTATCTGGTTTGTGGATGACACCAACGTCTACA
GAGTGACTATTCACAAGGTGAGTGTTAGCAGCAGTGTATAGGTGCGGGACTCYGTACATGGCTGTGGGAGAGTAATGGGCTAAGTGTGTACACATGCTGG
GAAGAAGGCAGGATGGGGATGTGTTGTGTAGGCCATGCTAACGAATGCCGTCCTCCTCTAGACCTTTGAAGGGAACTTGACAACCAAGCCCATCAACGGA
GCCATCTTCATCTTCAACCCACGCACAGGGCAGCTGTTCCTCAAGATAATCCACACGTCCGTGTGGGCGGGACAGAAGCGTTTGGGGCAGGTGAGCAGGT
TTAAAGATGAAGAGGCTGTAGAACCATGTKGCCTCTTATTCTTGGGGTGGACTTGGYAATATTTACTGGTTTATTAGATGAAAGGCTGAGAACATCTCAT
TTGAACTTATCCCCAAAATACCTTGGGAAGTATTCTGTGGGAGGTCCAAGAGTGTATGAGGTGCTTCGTTCCCTTCCAGCTGGTCTGTTTCCTGAATTTC
TAACCTTGAACAGGGCTATCAAAAATCATTTTTCCAAAGGCAACGCATACTCTTTTTTTTTTTTTTTTTTTTTAGCCGGAGTCTCGCTGTGTGGCCCAGG
CTGGAGCACAGTGGCTCAATCTCGGTTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACTACAGGCG
CCCGCCACCACGCCTGGCTAATTTTTTTTGTATTTTTTAGTAGAGACAGGGTTTCAACGTGTTAGCCAGGATGGTCTCGATCTCCTGACTTTGTGATCTG
CCTGCCTCTGCCTCTGCCTCCCAAAGTGCTCGGATTACAGGTGTGAGCCACTGCTCCTGGCCAGCAATGCATATTCTCTTTTTTTTTTTTTTTTTTTGAG
ACGGAGTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCCTGATTTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCC
TCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCGGCTAAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCT
CAATCTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCTCAAAGTGCTGGGATTACAGGCTTGAGCCACCGTGCCCGGCCCAGCAACGCATATTCTTGAAA
CATCCACTTTGACCAAATCTCTTCTCTACCTCACAACTCTTGCTGAATTAACTCTTCTTTAGCTTCCTAGACGTTCAACATCTGGCTGGGCTGTATCTGT
CCAGCCAGTTTCTCTTCCTTTACATTTATAGCATGTTTCATCTTACATTCAGTCCAGGATCTTAGTAGCCCAAACCCCTGATGCTCATCTCCAAATCTGT
GTTTTGCTTGTATTTTTCTTTCTAGAATGAACTCCCCTCTTTGCTCTGTTAATCACAGTCCCTCCTTAAGACACGTTTTTTTGTGCAGCTTTTTTCTGAT
CCTAGTAGCCTTAATTTCTTTTGTTCCTGAACTCTGTAAAACAGTGTATAGTTTAGCACATACTCATGTGTCAGCTTGTGGTATTGTCTTGTTGAAAGGG
GCTGTCAGCCTGGTCATTGGACACGGCCATTTGATACTCTTTGTACCTTCTAAGTGCCTAACATTTAACATCAGTGTTCAATAGAAACGTAGTTGGATTA
TTTCAAAACTAGGATATTCTGTTCTAGTTGATCTGGGAGGGTAGAGACTAAATTTCCATTTTCTTCTCTCTTGCTTTTAAGTTGGCTAAGTGGAAGACAG
CTGAGGAGGTGGCCGCCCTGATCCGATCTCTGCCTGTGGAGGAGCAGCCCAAGCAGATCATTGTCACCAGGAAGGGCATGCTGGACCCACTGGAGGTAAG
AGGGTGGGGTGGGGTAGGAGAAAAGAGACCTTGAGACCTTCAGGSTGTTTCTCATCTTGGACTTGATCTTGTCTTAGGTGCACTTACTGGACTTCCCCAA
TATTGTCATCAAAGGATCGGAGCTCCAACTCCCTTTCCAGGCGTGTCTCAAGGTGGAAAAATTCGGGGATCTCATCCTTAAAGCCACTGAGCCCCAGATG
GTTCTYTTCAACCTCTATGACGACTGGCTCAAGACTATTTCATCTTACACGGTATGAACCTCGGGAAGAGAAGATCGCTGGAGGAGGAGYGGGTTTAGGG
TTAGGAGAAGATCCTGTGTCAGGTTTTTGCCATTTTCACATTTTTAGCCTATAGATTGGGTGGGAACTCTGTTGACTTTCATGAGAGTTTAAGACCTTAA
AGTTAAAAATCAACTCTTGGGGCCGGGCGTGGTGGCTCACGCCCGTAATCCCAGCACTTTGGGAGGCTGAGTTGGGTGAATCACCTGAGGTCAGGAGTTT
GAGATCAGGCTGGCCAACATGACGAGACCCCATCTCTACTAAAAATACAACAAAATTAGCCGAGTGTGCTGGGATGCACCTGTAGTYCCAGCTACTCGGG
AGGCTGAGGCACCAGAATCACTGGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATGGCACCATTGCACTCCAGCCTGGGCGACAGAGTAAGACTGTC
TAAAAAAAAAAAAAAAAAGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGCGGATCACGAGGTCAGGAGATTGAGAC
CATCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCAGGTGCCTGTCATCCCAGCTATTCGGGAGGCTG
AGGCAGGAGAATGGTATGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAA
AAGAAAAAAAAAAAATTCTTGGGTTTCATGAAAGGTTAGGATTAAAGTGGGAGAGCCTCAAGCAGCTGACCTACCCCACTCTTCCAAATCTTTTCCCAGG
CCTTCTCCCGTCTCATCCTGATTCTGCGTGCCCTACATGTGAACAACGATCGGGCAAAAGTGATCCTGAAGCCAGACAAGACTACTATTACAGAACCACA
CCACATCTGGCCCACTCTGACTGACGAAGAATGGATCAAGGTCGAGGTGCAGCTCAAGGATCTGATCTTGGCTGACTACGGCAAGAAAAACAAGTGAGCA
GTGCTGGTGGGGACACAGACAGGAGGTCTATATACGGTTTTCTGGGGTTTTTTGGAAGCACTTAGGCTTAGAAGTTTCTCAAGAAGGCCAGGCGCGGTGG
CTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTAGATCATTTGAGGTCAGGAGTTTGAAACCATCCTGGCCAACGTGGTGAAACTCCGTCT
CTACTAAAAATACAAAAGTTAGCCGGGTGCGATGGCGCCTACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGGGCAG
AGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAAGAGTGAGACTGTCTCCAAAAAAAAAAAAAAAAAAGACGTTTCTCAAGAAA
TTATCTTGTCTTAGCCAGGCTTGAGTGCTCATGCTAGTAATACCAGCACTTTGGGAGGCCAAGGTGGGAGGATTGCATGAGCCAGGAGTTGAAACCAGCC
TGATCAACAAGAGACTGACGCCATCTCTACCAAAAAAAAAAAATTTAAAACAGGTGTGGTGGTACACGCTTGTAGTCCCAGCTTCTTGGAGGCTGAGGCA
GGAGGCTTGCTTGAGCCCGGGGGTTTGAGGCTGCAGTGAGCCATGATGATGCCACTGTACTCCAGCCTGGGTAACAGAGCGAGACTCTTGTCTTGAAAAC
AAGGAAAGAAATTATCTTACAGAGTCTCGAGGAAGAGAGATACAGCAGTGTCTTCGAATAGTATGGGAAGCATCCCTGTTTTAGGGCTTCAGTCTGACTC
TTGGCCATTGTTTCTCACTGTTGCCATTTCAAACAGGGCATTTCTTTACTGTCCATACATGGGAAGAATTTTGAACATCCGAGACCCTAAGTATCCGAGA
CTGCTGCCAACACACACACACACCTTCCTCCCCTCGTCTCCCTCCCTGTCATCGTGGCAACCAAAATTATCCATAGGGTGACGGACAATACCACCTCTGA
TTAAGAACCAGTATTCTAGGGTTTCTGGGGTTTCCATTTCTGAGAACAGTTCCATGCCAGAGCATTGTTTTGGTCAAGGAAGCGTAGGGTTTATGGATGC
TAAACAGTGGGAAGGTGCACACGCAGTGTGCTGTCCCGCTTGGATCTGACGAATCTTGGAAGTGTTAGTGCACCTCCRTTTCACACTTCCTGTAGAAGCA
GCTCTTGTGGATTGTCTGGGGCGTGAGTATAGGCTGTCCTGTCCTACCAAGTTACACCCTTTCCATTGAGGCAGAAGTGACCAAGGGGAAGGGATCCTTG
TAATATAACCCACACCATCCCCACAGTGTGAACGTGGCATCACTGACACAATCAGAAATTCGAGACATCATCCTGGGTATGGAGATCTCGGCACCGTCAC
AGCAGCGGCAGCAGATCGCTGAGATCGAGAAGCAGACCAAGGAACAATCGCAGCTGACGGCAACACAGACTCGCACTGTCAACAAGCATGGCGATGAGAT
CATCACCTCCACCACCAGCAACTATGAGACCCAGACTTTCTCATCCAAGACTGAGTGGAGGGTCAGGTACTGTCGGGCAAGAGGGTGGGGATGGAAAGGC
CGGCTGCACTACCTAAGGTGCTGGGCTGAGCGATGCTGACACTCCCTGCCTGTTTTTAGGGCCATCTCTGCTGCCAACYTGCACCTAAGGACCAATCACA
TCTATGTTTCATCTGACGACATCAARGAGACTGGCTACACCTACATCCTTCCCAAGAATGTGCTTAAGAAGTTCATCTGCATATCTGACCTTCGGGCCCA
AGTGAGTAAGTGGACTCAGCTAGGCCACAGTGTGTGCCCAACTCATTTTGTGCCTAAAACTCAGACCTGAGATTGTCTGGAACTTGAGATGCTGGTTTCA
AGATTCATGGATGAGTAATTATACAAGGATAGCCAAAACAACGAGGTGGGTTTTGGCCCCATGAGATAGCAAAAGCTGTGGCAGCTGAGAGAAGGTAGTA
ATTRTAGTATTGGCCTGATAGTATTTGGAAGAGAACAGATATGGTCAGAAACAAATTCCTGACCAGGTGTGCGTGCTGGCTCATGCCTGTAATCCCAACA
CTCGGCTGGGCACAGTGGCTAATGCCTATAATCCCAGCACTTTGGGAGGCCTAGGTGGGTGGATCACCTGAGGTCAGGGGTTTGAGACCAGCCTGACCAA
TATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCATGCGCCCGTAGTTGYAGCTACTAGGGAGGTTGAGACAGGAGAAT
TGCTTGAACCCGGGAGGTGAGGTGGAGCTTGCAGTGAGCCAAGATTGCATCACTGCACTCCAGCCTSGGCAACAGAGCAAGACCCCGTCTAAAAAAACAA
AACCAAAAAAAACGTGGCTGTAGTCCCAGCTACTCAGGAGGATGAGGTTGCTTGAACGCAAGCAGTGAGCTTTGATGACCCCACTGCACTCCAGGCTGGG
CACAGTGGCTCATGACTGTAATCCCAGCACTGTGGGAGGCCGAGGTGGGCAGATCTTTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACATGACGAAA
TGGAGTCTCTACAAAAAAAAAAAAAAAAAACTAGCCAGGCATGGTGGCATACACCTGTAATCTCAGCTACTCAGGAGGCTGAGGTGGGAGGATCACCTGA
TCCTGGAGGGTGGTGAGTGTAGTGAGCTGAGATCATGTCACTGCCTGCTAGCCTGGGTGACAGAGTGATACCCTGCTTCAAAAAAGAGAAAAGATGCATA
ACTTTACTAGTGTATCAGGGATATTATAGTTTATAAAACATCATTTTGGGCCAAGGTGGGTGAATCACTTGAGGTCAGGAGTTCAAGACCAGCTTGGCCA
ACGTGGCGAAACCCCGTCTCTCTTAAATATATGAAAATTAGCGGGGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTCAGGAAGCTGAGGCAGGAGAAT
TGCTTGAACCCAGGAGGCGGAGGTCGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTTGCTGACAGAGTGAGACTCCATCTCAAACCCACTATTTA
GTGGCTGTCAGGTTGGCAAATTTGAAAAGATTGTTAATATCCTGTGTGGGTGAGTTTATAGTAAACAGATCCTCTTTCTTTCTTGGTGATAATGTAAAAC
TTAAAATAGCACCAAGTGCTGGTTTTCCAGATGTTTTCAGCTTGTGAAAATACACTGAGCTGCATGTGTGCTCATTTGCTTGTGAATACTATGCTTAATA
ATCAGCTGGGGAGCTTGTGAGCAGTGCAGATTCCTGGACCCCACTCAGGAGATTCTGATGTGGTAAGTCCGCGATGAGGTCCATGTCTAACATTTTGAAC
AAGCACCCCAGCTGATTCTGATACAGGGGGTTCTGATCACGTTTTAAGAAACTCTGTCCTCGTTCTTGGGGGAAGGAAGGAAACAGAGGGCTGGCAGCTC
CAACTCTGACCTGGTACTAAGAAGAGTTTTGGTTCCTGACCCCTTTGTCTCCAGATTGCAGGATACCTATATGGGGTGAGCCCACCAGATAACCCCCAGG
TGAAGGAGATCCGCTGCATTGTGATGGTGCCGCAGTGGGGCACTCACCAGACCGTGCACCTGCCTGGCCAGCTGCCCCAGCATGAGTACCTCAAGGTAAT
GGGGAGTGATGGAGCCTGGGAGTGTGGAAAAGCTGGTGCGATTCCTGTCTGTGGATGGGATTCAGCTCTGTACTCCTCTTTACCTATAGGAGATGGAACC
CTTAGGTTGGATCCACACTCAGCCCAATGAGTCCCCGCAGTTATCACCCCAGGATGTCACCACCCAYGCCAAGATCATGGCTGACAACCCATCTTGGGAT
GGCGAGAAGACCATTATCATCACATGCAGGTGGGCCTGGGCTCCTTGGGAGGAAGTATGGTGGGGCAGGGATTGCAGGCCAGGGCCCAGAACAGTGGCCT
RAGCTGTTACTCTGTCCTCGTTCCTCCCCCAGCTTCACGCCAGGCTCCTGTACACTGACGGCCTACAAGCTGACCCCCAGTGGCTACGAATGGGGCCGCC
AGAACACAGACAAGGGCAACAACCCCAAGGGCTACCTGCCTTCACACTATGAGAGGGTGCAGATGCTGCTGTCGGACCGTTTCCTTGGCTTCTTCATGGT
CCCTGCCCAGTCCTCGTGGAACTACAACTTCATGGGTAAGTGGGAGGAGCCTGGGGATGTGGGGATAGCAGTAGGGATAAGGTGAGGCCATYGCCCTTTG
CACTTGGGGCCTGGCTGGCTTGGAGGTGGCGCAGGCTGCATGAGGCAGGAGCCCTGTTAACATTGGCTGTTTCCTTCTCCCCRAAGGTGTTCGGCATGAC
CCCAACATGAAATATGAGCTACAGCTGGCGAACCCCAAAGAGTTCTACCACGAGGTGCACAGGCCCTCTCACTTCCTCAACTTTGCTCTCCTGCAGGAGG
GGGAGGTTTACTCTGCGGATCGGGAGGACCTGTATGCCTGACCRTTTCCCTGCCTCCTGCTTCAGCCTCCCGAGGCCGAAGCCTCAGCCCCTCCAGACAG
GCCGCTGACATTCAGCAGTTTGGCCTCTTTCCCTCTGTCTGTGCTTGTGTTGTTGACCTCCTGATGGCTTGTCATCCTGAATAAAATATAATAATAAATT
TTGTATAAATAGGAGTTCAGGGGCTGGTTTGTTTTTTTTTTCCCCCCCAAACTCAAATTCTGGATTTAGGTCTAACAGGAGGCTGGACTGGAGCGGTTCA
CAGCAAGATGCTGGGCTCGGCTGTGAAGGGGGGAGTATGAGGCCCCCTTCCTATTCAGGGCTTTGGGGTAGATAGCCCCTGGACTCAGTGGAGACCTGAG
GCAGGGCTGGGCTTTCACACTCCGCTGCCTTGACCACATTTGCTGCTTTTTCCACAAAACTACTTGGAAGCTCTCGCCTCCTTTCCACAGTTTTGGGAGC
AGTTGCCCTTTCCCGGGTCTAGGAACTCTGTGGCTTGTGCTGAGCGGCTGCGGTGTCCAGCCCAGCCCTTTAAGCTTTCTGTGTCAGTCCTGGTCAGGAA
AACAAGCACACAGGCAGGCAGTTTGTGTACAGCCGGGCGGAGGCCAGAGACCGGCTGCCTACCTGTCACCTCTCGCCTGGAGCGGGCCACTGCCAAGTTG
GCCCCATGACTCCAAACGGGCGGAGCCTGGATTGGGCCTGTGGGGAGGGCTCCACTCAAGTGACCACTTGCAGCCCTGAACCTCAGCTCTTGGACGCCTG
GCTGGAAGTTGGCTGTCTTGTTTCCTGTGACCTTGGGGGTGGAAAGGACAGAGCCCAGGCGACCTAGGGCACTATCTCCCTACCCCACGCCTTCTCCCTT
CCTCGTTCCTCCCTACCCTTATCGCTTCTACCCCGCCCACACCGCCCTAAACGGCTTCCTGGGGCGGAACTGTTTCGCTTTTCCCCGTCCCAGTGGAGGG
TGGGGTGGGGGGGTCGCAGCCCTAAGCCTCTGGGAGACATGGAGCCCAGGAGGGCGGCGCCCGGGGTGCCTGGCTGGGGGTCTCGGGAGGCCGCGGGGTC
GGCATCGGCCGCGGAGCTTGTGTACCATCTAGCCGGGGCCCTGGGCACTGAGCTGCAGGATCTGGCGCGCCGTTTCGGGCCGGAGGCGGCGGCCGGGCTG
GTGCCGCTAGTGGTGCGGGCGCTGGAGCTCTTGGAACAGGCTGCCGTGGGGCCCGCCCCGGACTCGGTGAGTCATGGCCCTCCCTTCGCCACCCACGGGG
CCGGCAGGGCCGAAGCCTGAGACCCGGGTCTCCCCAGCTGCAGGTGTCGGCGCAGCCGGCGGAGCAGGAGCTGCGGCGGCTGCGGGAGGAGAACGAGCGC
CTCCGCAGGGAGCTGCGCGCGGGGCCACAGGGTAAGCGCAGCCCCGGCCAGGGCAGGGCGGGTGACGACCTGCTCGGGTCCTCCCCTCCCTCCCGCGGGC
CGCGCGCCGCCGCCGCTAAGAACGCCCCTTCCTCAGAGGAGCGCGCGCTGCTGCGGCAGCTCAAGGAGGTCACGGACCGACAGCGGGACGAACTCCGGGC
GCACAACCGCGACCTGCGGCAGCGCGGCCAGGAGACCGAGGCGGTGAGGGCGGGGCGGGGCTCTGGGGCGGGGCGGGGGCGGAGCGTGGCAGGCGCTGGG
CGGGGCTCCGGGGGCGGGGGCGGAGCGAGGCAGGCGCTGGGCGGGGCTCCGGGGGGCCCTCGGTGCCCCGCCCACCCCACCCTTTGCTCCGCTCCCAGTT
GCAGGAGCAGCTGCAGCGCCTCCTGCTGGTGAACGCTGAGCTGCGGCACAAGCTGGCGGCCATGCAGACCCAGCTGCGCGCCGCGCAGGACCGCGAGAGG
GAGCGCCAGCAGCCTGGCGAAGCCGCGACTCCGCAGGCTAAAGAGCGAGCGCGGGGGCAGGCCGGGCGGCCCGGGCACCAGCACGGACAGGAGCCCGAAT
GGGCGACCGCCGGCGCAGGCGCCCCAGGGAACCCTGAGGACCCGGTGAGTGCCGTATGAGGGCAAGGACCCAGCCCAGGACGCAGCGTCCAGCCCTCGGT
GGGCACTCAAGCAAGGTTTGCATGCTGCACAGCAGGTCGGCCAGGAAGCGGGGAGGTGGCAGACAGATCTGCGCCCCCGGCCGGCCTCGGCCCCCGCTCT
CAGCTGGAGCACTGCTCTGTTATCTGTTAGGGCACCCTTGTCCCCCAAGTCTCCCGGCCCGTCACTTCCTCTAGCATTCCCATGATGGCCCTGGGGCGGG
GGAACGCCAGCCGAGGCGACCCTCTGACTGTGCCTGTCCTTCCAAAGGCGGAGGCCGCGCAGCAGCTCGGGCGCCCCTCGGAGGCAGGGCAGTGCCGCTT
CAGTCGGGAGGAGTTTGAGCAGATCCTTCAGGAGCGGAATGAACTCAAAGCCAAAGTGTTCCTGCTCAAGGAGGAACTGGCCTACTTCCAGCGGTGAGGA
CGCTGGGAAGCCGGGGGGCCTCCGATCACCCCACCTCATTCTCCAGTCATTGACATGTCCACAGTGACATGTGCCAGGCCTGCGCTGGGAACTGGGAGGA
CATGAATTGTACAGCCCTTGCCCTCCTGCAATGTCATCCAGACAGGGGAGAGGGACAGTACAAAGGGTTGCAGCTGCAGCAGCCAGGGAATCTCTCCTAG
GAGGGGGCCACGGGGCCACCTAATTTAAGGTCTGAGGGTGTCAGCAAGGCAGAGCGCTTCCCGTGTTCAGGGAAGAGCTGCGTGCACAGGTACCAGGAGT
GAGGACTGCGGCTGGCATCTCCACTGCTGGCATCCCCATGGCTGGCATCACCAGGGCTTTCTCCCTCCCTGCCCCTTTTCTTTAGGGAGCTGCTCACAGA
CCACCGGGTCCCCGGCCTTCTGCTCGAGGCCATGAAGGTGGCTGTCCGGAAGCAGCGGAAGAAGATCAAGGCCAAGATGTTAGGGACACCAGAGGAAGCA
GAGAGCAGGTAGGTCCCTGCCTGCATTCCCACGGAGCCAGGCCTCCCTCCCTCATTCTGCTGAGCCTGATGACCCAGCCTGGTCACCCTCTGAGCCCATT
GTCTCAGACTGAGGCTGTCACCCCAACCCGGTCACCCCTTGAGCCTCCCTAGCCTGGCCGCTTCTAGGGCCTGCTGACCTGCTCTGGCTGTGTCCCATGG
CCGCTGTCCAGCCTGCGCCCTTCTCCCTGGATCTCACCACTCCCCTTGCCTTGCCTGCCATCCATTCTGCCTGACAACACTGCCTCTCCACATTCATTCT
TCAAGTTCCTGTCTTGGCTGGGTCTGTTTATTCTTACGGGGGTGAAACTGTAGCCGCGGCTGTGTCAGGGCCTGCTGTGTGTCAAGCTATAAAATAAACC
CTTGGCAGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCTAAGGTGGGTAGATCACCTGAGGTCAGGAGTTCGAGACCAGCGTGGCCAA
CATGGTGAAACTCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCATGTGCCTATAATCCCAGCTACTCAGGAGGCTGCGGCAGGAGAATC
GCTTGAACTTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAATT
AAAAATTAAAGGCTCGACATCCTGCATCTCCCCAGGGTTGCCTTCTCTCCAGCCCCGGGGGCCCTGCAGTCCCTCCATCCCCCCTGCTGGATTCCTGTTG
TCCCTCAGGGCCTTGATCAATGGCCCTCACTTCTCCTCTCTCCTCTGTCTCAGTGAGGATGAGGCTGGCCCATGGATCCTGCTCTCCGATGACAAGGGAG
ACCATCCCCCACCCCCGGAGTCCAAAATACAGAGTTTGTATGTTGGGGAAAGGGGAAAGGCAAGAGTGTGGGGAGGGAGGAAGGGCCCTGGCTGGTCCTT
CTCAGGATCCCCTTTCCCGCTTCTCTGCCCATCACCCTGCTGTGCTTGGCTCTAAGCACACCGTCCCCTCCTGCTTCTCTGGCCCTGGCCCCCATCACCT
TCACACTCCCTCAGGCTGCCCTTTCTTCCCCCTCTCCCCTTTTCTCACCATCCCCTGCCCTCACCCATATCCTTGACCTCTCTGGCTTCCTGGCTCAAAG
TGCCTCTGGCTGTCTCTCTCCAGCTTTGGCCTATGGTATCGGGGTAAAGCTGAATCCTCTGAGGATGAGACCAGCAGCCCTGCACCCAGCAAGCTAGGGG
GAGAAGAGGAGGCCCAACCACAGTCTCCAGCTCCTGATCCGCCCTGTTCTGCCCTCCACGAACACCTTTGTCTGGGGGCCTCAGCCGCCCCAGAGGCCTG
ACTTAGGGGTCTGGCTGTGGAAGGATGTGTGGCCTCAAATGAGGACAGGGCTCCCGCCTTCACAGCCCTCGCCAGGGGTCTGCCCCAATCCTGGCCTGCA
TCAGGGCAGGACGGGGTCTCAGCCCGCCTCCCTCTCTACGTCTCTGTACCGAGCCTCTGGGGCCAGATATAAGAGTGCCTCTCTGAGTCTCAGTTTCCCC
ATCCATGAAATGAGAGCTGACTGCCTAGCTCCCAGGGCTTTGTGCAGACGGCCTGAGCTCATGTAATAAAGAACTGCCCGTAATACACAGAAACTGTTCC
TCGCCTGTCTGTCCATGTCTGTGCCACCTCCCAACCCTGCCAGGAGCAGAGGCAGGCTGAGGGGTCCTCGCTGGTCTCCTTGCTCAGTCACTGGGTGGGG
TGGCTTCTTGCAGCTCAGGCCTTGCTTTGGGAGTGTGGCCTGATGGAAAGCCGTGGCTCCCAGCCTCAGTCCACCCCCTTCCCTGGCCCCGGCACCCAGG
GACCTGCAACTTCATTCTTCTGGCCCTTCCAGGCCCAGGCCAGTCAGCCCTGCCATTGCCTTTCTTTCCCTTTCTTTTTTTGAGTGTCAGTCTTTCCAGC
CACCCCCTCCCTCTCAGGGAGGTGCCTCGTGGCAGCCCGCCCCTCCGGCCTGGTTTCCTCAGGAAAAGCCCTGAGAGGAAGCAGGGAGGGGGTTGGGAGC
TGTGGGGGCCAGACGAACCCGAGCGCTCCCACCGAGCTGCCTGCCATGGGGCTGGGGCTGCTGCTCCCGCTGCTGCTGCTCTGGACTCGGGGGACTCAGG
GGTCCGAGCTGGACCCCAAAGGGCAGCACGTCTGTGTGGCCAGCAGGTGGGTCTCGTGGGAGTCTGATGCGTGTGGCCAGCAGGTGGGTCTCGTGGGAGT
CTGATGCGGGTGGCTGAACCGGTGTTGAGGCCGTTAGGGGAAGGAGGAGACTAGGAAGGGGGCTTAGGCTGAAAGGAAGGGACTGCTGATGGCGGTCTGG
CAGGTAGTGGCCAGCCAGGGCAGATGGTGGAAGGGTCAGGGAAGGAGAGGGGAGGGGCTGGGGACCCTAGCTGTAAAGATCCATTAGGCCTCCCCAGGGG
GCTAAGGCAGCCTCCCCCACTGCAGCCAGAGACAGTGATCCACCTTCCTCAGGGCCAGGCTGCACCCCCCACCATGTCCGGCTGACCCCTTTTTGCCCCA
CAGCCCCTCTGCTGAGCTGCAGTGCTGCGCAGGCTGGAGGCAGAAGGATCAAGAATGCACCATCCGTGAGTAGCCAGGACAGACCCTCAGCCAAGGAGAA
GGGAGGCCGTAGCCCAGTGACAACCCTTCCTTCCTACCCCATGGGGCCTGCCCCTCCTGATACCAGGAGTCAGGGTTTCTCCTGTGACGCACCCCCAGGC
CTGAAGGGGCACCTCTTGAGGAGGCATGGCCCCTGGAGCCAGTGAGAGGGCAGGGGTGTCCCCTGGTCCTGCTCCCGTCTTTCCAACCTGGGTGGGGTGT
CTTTCAGCCATCTGTGAGGGGCCGGACGCCTGCCAGAAAGACGAGGTGTGTGTGAAGCCGGGCCTCTGTCGATGCAAGCCTGGATTCTTTGGGGCCCACT
GCAGCTCCCGTGAGTCTCAAGGGCCAGATGAAGTTGCTGGGCAGAGCTGGGTACGGGGGCAGTGGTGTGGGAGCAGGCGAGGCAGGTAGCCATGCAGCCT
CAGGACAGCAGGGCCAGAATCCCCCCCAGCTTCACTGAGGAATTGCGGTCCAGAGACAGGAAGTGACACACACTCCCGGGAGATGACCTGAGTCACCGGG
TTTTTACCCACATCC


SNP Information

Context             (SEQ ID NO:64791):
TGCATTGGACCCTAGGGGCCTCCTGGGCTTCAAGGACGGACAGTTGTTTTCCTCTGGTTACTGATGAAGGCATACATCAGTTGGGTCCATTGCTCATTCA
Y
GTTCTGTCTGTTTTTTGCATCTTCTCCAGGAAAGAAAGAAATCTCGTTTTGGGAATGCTTTCCACCTGTGTCGGGAAGTTCTGCGTTTGACTAAGCTGGT
Celera SNP ID:            hCV25471849
SNP Position Genomic:     11932
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,15)   caucasian(C,5|T,1)   total(C,20|T,16)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,18)   caucasian(C,30|T,2)   total(C,48|T,20)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,8)   caucasian(C,10|T,4)   total(C,18|T,12)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64792):
GCCCGGCAGTTTGAAGGTGAGTGGTTTTCTCTGTGTCCAACTTCTCCTGTTATTGCTTCAAAAGTACCTGCCCCTGTTTGAGTCTGTTCCCTGCTCTTGT
R
TGAGCACTCTTCCTACTGGATTGCCTTTAGGTCCAGTTCTGAAATGAGTCTGACCTAGTATTCTATTTCTTGGGCTTCCTTCTGGGGCCTTGAGAGGCAG
Celera SNP ID:            hCV25613541
SNP Position Genomic:     13363
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,36|G,2)   total(A,71|G,5)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,1)   caucasian(A,25|G,1)   total(A,46|G,2)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64793):
CCTACATTCCTCTGTATGTATATTATACATATATGCCCCACCTCTGCCCAGGTTTCTATTGTTGTTTAAATGCATTGCTAACTTGTATTCTTAACTTCTG
Y
TTGGGATCGTAGGGCCCTGTAGGGAAGGGTCCTGGCTGTGGCTTCTGGGCTGCCGGTTGGCGAGTCTGGCTCTTTTTCATGCGTGGCATTACCCCTTTAT
Celera SNP ID:            hCV25613542
SNP Position Genomic:     13136
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64794):
CTTTTCTTTTCCCTTTTAGACAGGGAAAAGAAGCACCATGTTGCTTAGGCTGGCCTCAAGCTCCTGAGCTCAAGCGATCCTCCTTAGCCTCCTGAGTAGC
Y
GGGACTACAGATGTGTGCCACAGTGCCTGGCTGGATCCTGGCTTGATTGTGCTTTTTGGACTTTTAGGTCCCTGGGCTGCCGACGCCCATAGAGAATATG
Celera SNP ID:            hCV25613543
SNP Position Genomic:     14064
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,38|T,2)   total(C,74|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:64795):
TGACAACATCCTAGATGTTGAGCCACTGGAGGCCATTCAGCTAGAGCTGGACCCTGAGGAGGACGCCCCTGTGTTGGACTGGTTCTATGACCACCAGCCG
Y
TGAGGGACAGCAGGAAGTGAGTGATAGATGGAGATACTACACCTGGGAGGAGTTCTGGAAATGCAGAAGGAGTCCTGGGAGATCAGTAGGTGGTATGGGT
Celera SNP ID:            hCV22274013
SNP Position Genomic:     9007
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,14)   caucasian(C,4|T,26)   total(C,20|T,40)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,14)   caucasian(C,6|T,32)   total(C,18|T,46)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,18)   caucasian(C,7|T,31)   total(C,27|T,49)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64796):
CACCAAGTTGCTCATCTTGGCATTGGAGCGGCTCAAGGAAGCTTATAGGTGAGTAGTAGGGTAGATAGGTTCCTGCTGGGAAGGTGACAGCAGGGAATGG
Y
GTCATCCTCAGAGTCCAAAGAAAGAAGGTGTAGCCCCAGTCTTTCCTGGTTTTACTTCCTCCTAGTTTTCCCATTCACCCTTCCCATTGCTTTTGTCAGT
Celera SNP ID:            hCV25613544
SNP Position Genomic:     14689
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64797):
CTGAGCGATGCTGACACTCCCTGCCTGTTTTTAGGGCCATCTCTGCTGCCAACCTGCACCTAAGGACCAATCACATCTATGTTTCATCTGACGACATCAA
R
GAGACTGGCTACACCTACATCCTTCCCAAGAATGTGCTTAAGAAGTTCATCTGCATATCTGACCTTCGGGCCCAAGTGAGTAAGTGGACTCAGCTAGGCC
Celera SNP ID:            hCV25613618
SNP Position Genomic:     37226
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,2|G,36)   total(A,4|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:64798):
AAGAGGGTGGGGATGGAAAGGCCGGCTGCACTACCTAAGGTGCTGGGCTGAGCGATGCTGACACTCCCTGCCTGTTTTTAGGGCCATCTCTGCTGCCAAC
Y
TGCACCTAAGGACCAATCACATCTATGTTTCATCTGACGACATCAAGGAGACTGGCTACACCTACATCCTTCCCAAGAATGTGCTTAAGAAGTTCATCTG
Celera SNP ID:            hCV25613619
SNP Position Genomic:     37179
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,26)   total(C,63|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64799):
AAGGGAATTGGCAAGGGGTGCTTCTTCCTGCTGGTGCCTGCTTCTCCCTCACACTCACTGACAGGAGCTTACCCTAGGGCAAGAGGTGAAGAGGATTAGG
S
GGAGGGTGTGCAGGCCTTTAAACTGAGGTGCCTTTCCAGCTCGAAAATGGCAGCAATTGCAGGCCAAGCGCTATGCAGAAAAGCGGAAGTTTGGGTTTGT
Celera SNP ID:            hCV25613581
SNP Position Genomic:     7102
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,36)   caucasian(C,2|G,38)   total(C,4|G,74)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,30)   caucasian(C,2|G,30)   total(C,4|G,60)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64800):
TCTGTACTCCTCTTTACCTATAGGAGATGGAACCCTTAGGTTGGATCCACACTCAGCCCAATGAGTCCCCGCAGTTATCACCCCAGGATGTCACCACCCA
Y
GCCAAGATCATGGCTGACAACCCATCTTGGGATGGCGAGAAGACCATTATCATCACATGCAGGTGGGCCTGGGCTCCTTGGGAGGAAGTATGGTGGGGCA
Celera SNP ID:            hCV7459926
SNP Position Genomic:     39367
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,18)   caucasian(C,2|T,38)   total(C,22|T,56)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,12)   caucasian(C,1|T,33)   total(C,27|T,45)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,16)   caucasian(C,1|T,37)   total(C,21|T,53)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64801):
GCCCTAGGCAGCCAGGACACTTTCGTTTTCCTGTTCTTCTAGCCCTGCAACTTTAGGAATTGTCCTGTCTGCCTTTGTTTCAAACTTGGAGCCAGTGCTA
Y
GCTTGGAGCCTGTCAACACCCTTAGTCAGATCTGCTGATTCTCTGGGGTCCTGCTGACCTGGAACAAGTTGGTGGAGTGGGTGGGATGGTTTTGGGATTT
Celera SNP ID:            hCV25613582
SNP Position Genomic:     31122
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,30)   total(C,60|T,4)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,16)   total(C,46|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:64802):
ACCCGGGAGGCGGAGCTTGCAGTGAACCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAGAAAAATAATAATAATAA
W
AAATAAATAAATAATCCGTGTATTTTCCATTAGCTCCATACTTTAACGTAGTCATACTTTTTTACTTTACCTAAGTGAGAGGAAGTGGCCCATTCCTCCT
Celera SNP ID:            hCV25613583
SNP Position Genomic:     31821
SNP Source:               Applera
Population(Allele,Count): african american(A,5|T,19)   caucasian(T,2)   total(A,5|T,21)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,7)   caucasian(T,24)   total(A,1|T,31)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64803):
TGTGAATAAGTGGAATACAGCTCTCATTGGCCTTATGACATACTTTCGGGAGGCTGTGGTGAACACCCAAGAGCTCTTGGACTTACTGGTGAAGTGTGAG
M
ACAAAATCCAGACACGTATCAAGATTGGACTCAACTCCAAGATGCCAAGTCGGTTCCCCCCGGTTGTGTTCTACACCCCTAAGGAGTTGGGTGGACTCGG
Celera SNP ID:            hCV7459928
SNP Position Genomic:     28792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64804):
CATGGCTCACATTCTTAAGAATTGTAGTTCTTTCTTTCTAGGACATGAACCATACGAATTCATATGGGATCATCAGAGGCCTGCAGTTTGCCTCATTCAT
M
GTGCAGTATTATGGCCTGGTGATGGATTTGCTTGTATTGGGATTGCACCGGGCCAGTGAGATGGCTGGGCCCCCTCAGATGCCAAATGACTTTCTCAGTT
Celera SNP ID:            hCV7459929
SNP Position Genomic:     16222
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64805):
AGGTCAGGGGTTTGAGACCAGCCTGACCAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCATGCGCCCGTAGTTG
Y
AGCTACTAGGGAGGTTGAGACAGGAGAATTGCTTGAACCCGGGAGGTGAGGTGGAGCTTGCAGTGAGCCAAGATTGCATCACTGCACTCCAGCCTGGGCA
Celera SNP ID:            hCV1247315
SNP Position Genomic:     37771
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,10)   total(C,10|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64806):
GAGGTCAGGAGTTTGAGATCAGGCTGGCCAACATGACGAGACCCCATCTCTACTAAAAATACAACAAAATTAGCCGAGTGTGCTGGGATGCACCTGTAGT
Y
CCAGCTACTCGGGAGGCTGAGGCACCAGAATCACTGGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATGGCACCATTGCACTCCAGCCTGGGCGACA
Celera SNP ID:            hCV1247316
SNP Position Genomic:     34787
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64807):
AGCCCCAGATGGTTCTCTTCAACCTCTATGACGACTGGCTCAAGACTATTTCATCTTACACGGTATGAACCTCGGGAAGAGAAGATCGCTGGAGGAGGAG
Y
GGGTTTAGGGTTAGGAGAAGATCCTGTGTCAGGTTTTTGCCATTTTCACATTTTTAGCCTATAGATTGGGTGGGAACTCTGTTGACTTTCATGAGAGTTT
Celera SNP ID:            hCV1247317
SNP Position Genomic:     34490
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,9)   caucasian(C,4)   total(C,19|T,9)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64808):
TGTTTTGTGACTTTATCTCCACTTTTCACTTATTTGGCTACATGGTTTTTTTCTTATTGTTTGCTCTAAGGTTTACAGTATATACATAGCTCACTTACTG
K
GATCTACTTTGACCATTAGTCTACTACGGATCACTTCACATATAGTACAAGAACCTTAGAATAATACACTTTAAGTTCCACTCCCACTCTTAGTAGTATT
Celera SNP ID:            hCV1247319
SNP Position Genomic:     27690
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64809):
GATCTCCTGACTTTGTGATCTGCCTGCCTCTGCCTCTGCCTCCCAAAGTGCTCGGATTACAGGTGTGAGCCACTGCTCCTGGCCAGCAATGCATATTCTC
T
TTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCCTGATTTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCA
Celera SNP ID:            hCV26032839
SNP Position Genomic:     33179
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64810):
TTCATGGATGAGTAATTATACAAGGATAGCCAAAACAACGAGGTGGGTTTTGGCCCCATGAGATAGCAAAAGCTGTGGCAGCTGAGAGAAGGTAGTAATT
R
TAGTATTGGCCTGATAGTATTTGGAAGAGAACAGATATGGTCAGAAACAAATTCCTGACCAGGTGTGCGTGCTGGCTCATGCCTGTAATCCCAACACTCG
Celera SNP ID:            hCV25613620
SNP Position Genomic:     37504
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:64811):
GGCGAGAAGACCATTATCATCACATGCAGGTGGGCCTGGGCTCCTTGGGAGGAAGTATGGTGGGGCAGGGATTGCAGGCCAGGGCCCAGAACAGTGGCCT
R
AGCTGTTACTCTGTCCTCGTTCCTCCCCCAGCTTCACGCCAGGCTCCTGTACACTGACGGCCTACAAGCTGACCCCCAGTGGCTACGAATGGGGCCGCCA
Celera SNP ID:            hCV25613621
SNP Position Genomic:     39501
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,29)   caucasian(G,34)   total(A,7|G,63)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,23)   caucasian(G,8)   total(A,5|G,31)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(G,40)   total(A,7|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:64812):
AAGAACTGGTAAGGTTTTTCCCTGTGGCAGGGGGAATGATAGTGGATGTGTAGGAGAAAAGACTCCAACTAGGTGGGCATGTAGCCTTTTTTTTAAATTC
T
TTTTTTTTTTTTCCCATAAAAATGGTAGACAACCCAAGGCTTGCAGCCTTTAGCAGAGTGTCTGGAAGAAGAGATGGCCAAACTCTGGTGGGCTTATTTT
Celera SNP ID:            hCV26032879
SNP Position Genomic:     11327
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64813):
TTCCCATTCACCCTTCCCATTGCTTTTGTCAGTGTGAAGTCTCGGTTGAACCAGTCTCAGAGGGAGGAGCTAGGTCTGATCGAGCAGGCCTACGATAACC
Y
CCACGAGGCGCTGTCCCGCATCAAGCGTCACCTCCTCACACAGAGAGCCTTCAAAGAGGTGAGTGAGGCCTCCCAAGTTTTCTTTTTGGTTCTACCAAAG
Celera SNP ID:            hCV7459931
SNP Position Genomic:     14857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64814):
CCCTTCCCATTGCTTTTGTCAGTGTGAAGTCTCGGTTGAACCAGTCTCAGAGGGAGGAGCTAGGTCTGATCGAGCAGGCCTACGATAACCCCCACGAGGC
R
CTGTCCCGCATCAAGCGTCACCTCCTCACACAGAGAGCCTTCAAAGAGGTGAGTGAGGCCTCCCAAGTTTTCTTTTTGGTTCTACCAAAGGTAGCAGTTG
Celera SNP ID:            hCV25613555
SNP Position Genomic:     14867
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:64815):
GGATAAATAGTGGAGAGCCATATCATGGAGGGCATCGCACACCTTAGGAAGAATCATATAAGGGTCTTAAGCACAGAGTGACTTTGTCAGATGTGTTTTT
Y
TTCTTTTTTTTTTTTGGCTTCCCACACTACAGATGCAGACTTTGTCAAATTTCTGTGTTAGATGATTCACTCTTGCAGCTGTGAGAAAGATGGACCTGAA
Celera SNP ID:            hCV12114248
SNP Position Genomic:     19892
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1|-,5)   total(C,1|-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64816):
GCAGACACAGAACCACCTCCGCTGCTTGTTTACAAGTGGTGTCAAGGTAGAACTTTCATGAGATCGCCCTGTGAGGAACGGGGCAGGAATTTAGTTCTAC
R
TCAAAAATCTCATCTGGGTAGCATGATTGGTTTACTCTCTTGATGCGTGGTAGTAAAGGGAAGTAGTGTTCGTGTTAAACTGAGGAAAAGCCCATAGTCA
Celera SNP ID:            hCV25613556
SNP Position Genomic:     15278
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:64817):
CCATGCCTGGCTGATTTTTCTTTGTATTTTGGATACAGACAGTTTCGCCATGTTGCCCAGGCTGGTCTTGAATTCCTGAGCTCAGGTAATCCACCCCCCT
S
GGCTCCCAAAGTGCTGGGATTGTAGGTGTGAGCCACCACGCCTGGCCTTGTTGCATTGATTTCTTCTCTTATCATTGCCATCCCTTTGCTAGTTTGTTAA
Celera SNP ID:            hCV12114249
SNP Position Genomic:     24528
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,10)   total(G,10|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64818):
CTGCGGGAGGCGTGGTCGGGTCGGGCCGAGTGACCGAAGGGGTTAGGCCGGGCGGGGCTGGATGCACTGTGTGGCGGGACTGCAGGCCGGGGTCCCCGGA
Y
GCCTTTCTGCTGCGCTTCTTGTGGGCCCGGGCCTGTGGTTAGTGAATTTTTCTATCCCGCCGCTCCCCAGATTCTCCGGATATGGCCGGAGTGTTTCCTT
Celera SNP ID:            hCV25613557
SNP Position Genomic:     6190
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,36)   total(C,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64819):
AGGGATGAAGACTGGAATGAATTCAATGATATTAACAAGATTATCATCCGGCAGCCTATCCGCACTGAGTACAAGATTGCTTTTCCTTACTTGTACAACA
M
TCTTCCACACCATGTCCACCTCACCTGGTAAGAGACCTGGAACACAACATTTGGAAAGGAGAAGGCTGCTGTTTAGGTTGGGCCAGGGCGGGAAAACTTT
Celera SNP ID:            hCV7459934
SNP Position Genomic:     9887
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,15)      total(A,15|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64820):
AAGGAGCCCAGTAGCAGTTGAGTGTACAAGAGAAAAGTGTGGAATTGGCTGGACACAGTGGCTCACGCCCGTAATCCCAGCACTTTGGGAGGCCAAGGTG
K
GTGAATCACCAAGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGCGGTGGCGGGTGC
Celera SNP ID:            hCV28958511
SNP Position Genomic:     21493
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64821):
AAAAAAAAAAAGTCTGCTTATTCTTGATGTTGTACCCTAGGGATGAAGACTGGAATGAATTCAATGATATTAACAAGATTATCATCCGGCAGCCTATCCG
S
ACTGAGTACAAGATTGCTTTTCCTTACTTGTACAACAATCTTCCACACCATGTCCACCTCACCTGGTAAGAGACCTGGAACACAACATTTGGAAAGGAGA
Celera SNP ID:            hCV7459935
SNP Position Genomic:     9849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64822):
TGTTGAACTCAAATCTTTCTTTAGTAGTAGGGATAAAACTAACTGCATCAAGTAGTCTCCACCCTCCCCGCCCCTGGCTCATCTGTAATTTACTTTTTTT
Y
CTACTACCTTTAGATTGTGAATAAGTGGAATACAGCTCTCATTGGCCTTATGACATACTTTCGGGAGGCTGTGGTGAACACCCAAGAGCTCTTGGACTTA
Celera SNP ID:            hCV25762776
SNP Position Genomic:     28676
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,20)   caucasian(T,28)   total(C,16|T,48)
SNP Type:                 INTRON


Context             (SEQ ID NO:64823):
AATACAAAAAATTAGCTGGGCGTGGTGGTCCACGCCTGTAGTCCCAGCTACTCAGAAGGTTGAGGTGGGAGAATTACTTGAACCCGGGAGGCGGAGCTTG
Y
AGTGAACCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAAAGAAAAATAATAATAATAATAAATAAATAAATAATCCGT
Celera SNP ID:            hCV25613593
SNP Position Genomic:     31740
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,24)   total(C,31|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64824):
TCTTTTTCTAATGTGCCAGTGCCCTAAAGTACATGCCCCACGCAGTCCTCAAACTCCTGGAGAACATGCCTATGCCTTGGGAGCAGATTCGGGATGTGCC
Y
GTGCTGTACCACATCACTGGAGCCATTTCCTTCGTCAATGAGATTCCCTGGGTCATTGAACCTGTCTACATCTCCCAGTGGGGGTGAGAAAGGCTGAAAT
Celera SNP ID:            hCV7459939
SNP Position Genomic:     8631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64825):
TTTAACGTAGTCATACTTTTTTACTTTACCTAAGTGAGAGGAAGTGGCCCATTCCTCCTATGGGTCACTGATTCTCTTCTCCAGCCTGTATGTACACATG
R
GCAGAGTGTTGTCAGCCTGGCGAACAGTCTTTCTTCCTCTGTAGAGTTGGCAGCTTGTCTTGTTTCTGGGGCTGTCATTCTCGTCTTAACTTTTCTTGAC
Celera SNP ID:            hCV25613594
SNP Position Genomic:     31963
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:64826):
TCTTCTCCAACCAGATTATCTGGTTTGTGGATGACACCAACGTCTACAGAGTGACTATTCACAAGGTGAGTGTTAGCAGCAGTGTATAGGTGCGGGACTC
Y
GTACATGGCTGTGGGAGAGTAATGGGCTAAGTGTGTACACATGCTGGGAAGAAGGCAGGATGGGGATGTGTTGTGTAGGCCATGCTAACGAATGCCGTCC
Celera SNP ID:            hCV25613595
SNP Position Genomic:     32353
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:64827):
TTCTACGTCAAAAATCTCATCTGGGTAGCATGATTGGTTTACTCTCTTGATGCGTGGTAGTAAAGGGAAGTAGTGTTCGTGTTAAACTGAGGAAAAGCCC
R
TAGTCAAAGCAATCCAAATGAATACGTGGAATCATAGTGGGATTGGTTATGGAAGGTAATGATAGTTCCTGTGGGGCTAGTCTTGCAAGAGGATTTCTAA
Celera SNP ID:            hCV25981551
SNP Position Genomic:     15372
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,6)   total(A,33|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64828):
GACTAATGATGTTGAACTCAAATCTTTCTTTAGTAGTAGGGATAAAACTAACTGCATCAAGTAGTCTCCACCCTCCCCGCCCCTGGCTCATCTGTAATTT
R
CTTTTTTTTCTACTACCTTTAGATTGTGAATAAGTGGAATACAGCTCTCATTGGCCTTATGACATACTTTCGGGAGGCTGTGGTGAACACCCAAGAGCTC
Celera SNP ID:            hCV25762779
SNP Position Genomic:     28667
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,4)   total(A,33|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64829):
AGTGTTTCCTGCGTGTGGACGATGAGTCAATGCAGCGCTTCCACAACCGCGTGCGTCAGATTCTCATGGCCTCTGGGTCCACCACCTTCACCAAGGTACA
R
GGCCGTCATGCCCAGCTTCCCTCTTGTCCTCTGCTGTCCTCTGCTCATTTCACACCCCTTTCACTTCGTCCCCTGCTGGCTGCTTCCTTCTCTTCTTTGC
Celera SNP ID:            hCV1247323
SNP Position Genomic:     17768
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,15)   caucasian(A,9|G,27)   total(A,28|G,42)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,5)   caucasian(A,3|G,19)   total(A,14|G,24)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64830):
ATCTCCTGACTTTGTGATCTGCCTGCCTCTGCCTCTGCCTCCCAAAGTGCTCGGATTACAGGTGTGAGCCACTGCTCCTGGCCAGCAATGCATATTCTCT
T
TTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCCTGATTTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCAC
Celera SNP ID:            hCV26032840
SNP Position Genomic:     33180
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64831):
CTACGTCAAAAATCTCATCTGGGTAGCATGATTGGTTTACTCTCTTGATGCGTGGTAGTAAAGGGAAGTAGTGTTCGTGTTAAACTGAGGAAAAGCCCAT
R
GTCAAAGCAATCCAAATGAATACGTGGAATCATAGTGGGATTGGTTATGGAAGGTAATGATAGTTCCTGTGGGGCTAGTCTTGCAAGAGGATTTCTAACC
Celera SNP ID:            hCV25981552
SNP Position Genomic:     15374
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,2)   caucasian(A,6)   total(A,32|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:64832):
CTGCAGAATGAGGTACAGCCTGGGCGGGGCTGGGAGTGACATGAACGCGCCTGCACTTCCTGGGTCAGTCACCGGAGTCTTGTTGGGTGGAAAGACTTGA
R
TGGTGGGCACAGTTGGCTCTTGCTTCTGTGGGAGTTCCTCGGACATGTTAACCTTGACTTTGTGGTTTAGGTTACTAAGGAGCGCACAGCTCAGTGTTTC
Celera SNP ID:            hCV1247324
SNP Position Genomic:     17575
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,17)   caucasian(A,8|G,32)   total(A,27|G,49)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,19)   caucasian(A,8|G,32)   total(A,27|G,51)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,9)   caucasian(A,5|G,25)   total(A,18|G,34)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64833):
TCTCCTGACTTTGTGATCTGCCTGCCTCTGCCTCTGCCTCCCAAAGTGCTCGGATTACAGGTGTGAGCCACTGCTCCTGGCCAGCAATGCATATTCTCTT
T
TTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCCTGATTTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCACG
Celera SNP ID:            hCV26032841
SNP Position Genomic:     33181
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64834):
CTCGGGAGTGGAAAAAAGTAGAATTTGCTGAGGGGAGAACAAAAGAGGTTAACTCTGGAGAATCCTGGGGCATGGCTCACATTCTTAAGAATTGTAGTTC
K
TTCTTTCTAGGACATGAACCATACGAATTCATATGGGATCATCAGAGGCCTGCAGTTTGCCTCATTCATCGTGCAGTATTATGGCCTGGTGATGGATTTG
Celera SNP ID:            hCV1247325
SNP Position Genomic:     16152
SNP Source:               Applera
Population(Allele,Count): african american(T,24)   caucasian(G,1|T,37)   total(G,1|T,61)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(G,1|T,39)   total(G,1|T,75)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(G,1|T,39)   total(G,1|T,73)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64835):
GTTGCAGCTACTAGGGAGGTTGAGACAGGAGAATTGCTTGAACCCGGGAGGTGAGGTGGAGCTTGCAGTGAGCCAAGATTGCATCACTGCACTCCAGCCT
S
GGCAACAGAGCAAGACCCCGTCTAAAAAAACAAAACCAAAAAAAACGTGGCTGTAGTCCCAGCTACTCAGGAGGATGAGGTTGCTTGAACGCAAGCAGTG
Celera SNP ID:            hCV26032842
SNP Position Genomic:     37867
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,13)   total(G,13|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64836):
CATGTATTTTCAGGCCAGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGCGGTGGGCAGATTGTCTGAGCTCAGGAGTTTGAGACCAG
K
CTGGGCAACATGGTGAAACCCTGTCTCTACCAAAATACAAAAAATTAGCTGGGCGTGGTGGTCCACGCCTGTAGTCCCAGCTACTCAGAAGGTTGAGGTG
Celera SNP ID:            hCV25981732
SNP Position Genomic:     31606
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,24)   caucasian(T,8)   total(G,4|T,32)
SNP Type:                 INTRON


Context             (SEQ ID NO:64837):
GATTGCGCCAGTGCACTCTCAGCCTGGGTGACTGAGCACAACTCCGCCTCGGGAGTGGAAAAAAGTAGAATTTGCTGAGGGGAGAACAAAAGAGGTTAAC
Y
CTGGAGAATCCTGGGGCATGGCTCACATTCTTAAGAATTGTAGTTCTTTCTTTCTAGGACATGAACCATACGAATTCATATGGGATCATCAGAGGCCTGC
Celera SNP ID:            hCV1247326
SNP Position Genomic:     16105
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,14)   caucasian(C,10|T,30)   total(C,28|T,44)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,16)   caucasian(C,10|T,30)   total(C,30|T,46)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64838):
GTGGTGGTGGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAAGTGGAGGTTGCAGTGAGCTGAGATTGCGCCA
S
TGCACTCTCAGCCTGGGTGACTGAGCACAACTCCGCCTCGGGAGTGGAAAAAAGTAGAATTTGCTGAGGGGAGAACAAAAGAGGTTAACTCTGGAGAATC
Celera SNP ID:            hCV1247327
SNP Position Genomic:     16015
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,16)   caucasian(C,7|G,31)   total(C,27|G,47)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,17|G,13)   caucasian(C,9|G,29)   total(C,26|G,42)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64839):
TTCGAGACCAGTCTGGCCAACATGGTGAAACCCCGTCTCTACTTAAAAAAATACAAAAATTAGTTGGGTGTGGTGGTGGGCGCCTGTAATCCCAGCTACT
Y
GGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAAGTGGAGGTTGCAGTGAGCTGAGATTGCGCCAGTGCACTCTCAGCCTGGGTGACTGAGCACAAC
Celera SNP ID:            hCV1247328
SNP Position Genomic:     15946
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,15)   caucasian(C,9|T,29)   total(C,30|T,44)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,14)   caucasian(C,10|T,30)   total(C,30|T,44)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64840):
CATCTGGGTAGCATGATTGGTTTACTCTCTTGATGCGTGGTAGTAAAGGGAAGTAGTGTTCGTGTTAAACTGAGGAAAAGCCCATAGTCAAAGCAATCCA
R
ATGAATACGTGGAATCATAGTGGGATTGGTTATGGAAGGTAATGATAGTTCCTGTGGGGCTAGTCTTGCAAGAGGATTTCTAACCTGCTGGAGACCTGCC
Celera SNP ID:            hCV1247329
SNP Position Genomic:     15389
SNP Source:               Applera
Population(Allele,Count): african american(G,6)   caucasian(A,7|G,3)   total(A,7|G,9)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,9)   caucasian(A,5|G,1)   total(A,12|G,10)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64841):
CAGCCCAAGCAGATCATTGTCACCAGGAAGGGCATGCTGGACCCACTGGAGGTAAGAGGGTGGGGTGGGGTAGGAGAAAAGAGACCTTGAGACCTTCAGG
S
TGTTTCTCATCTTGGACTTGATCTTGTCTTAGGTGCACTTACTGGACTTCCCCAATATTGTCATCAAAGGATCGGAGCTCCAACTCCCTTTCCAGGCGTG
Celera SNP ID:            hCV25981776
SNP Position Genomic:     34245
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,1)   caucasian(C,2)   total(C,31|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64842):
TCATCAAAGGATCGGAGCTCCAACTCCCTTTCCAGGCGTGTCTCAAGGTGGAAAAATTCGGGGATCTCATCCTTAAAGCCACTGAGCCCCAGATGGTTCT
Y
TTCAACCTCTATGACGACTGGCTCAAGACTATTTCATCTTACACGGTATGAACCTCGGGAAGAGAAGATCGCTGGAGGAGGAGCGGGTTTAGGGTTAGGA
Celera SNP ID:            hCV25981777
SNP Position Genomic:     34406
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,10)   total(C,41|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:64843):
TGAGGCCATCGCCCTTTGCACTTGGGGCCTGGCTGGCTTGGAGGTGGCGCAGGCTGCATGAGGCAGGAGCCCTGTTAACATTGGCTGTTTCCTTCTCCCC
R
AAGGTGTTCGGCATGACCCCAACATGAAATATGAGCTACAGCTGGCGAACCCCAAAGAGTTCTACCACGAGGTGCACAGGCCCTCTCACTTCCTCAACTT
Celera SNP ID:            hCV25613631
SNP Position Genomic:     39883
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:64844):
CTTCATGGTCCCTGCCCAGTCCTCGTGGAACTACAACTTCATGGGTAAGTGGGAGGAGCCTGGGGATGTGGGGATAGCAGTAGGGATAAGGTGAGGCCAT
Y
GCCCTTTGCACTTGGGGCCTGGCTGGCTTGGAGGTGGCGCAGGCTGCATGAGGCAGGAGCCCTGTTAACATTGGCTGTTTCCTTCTCCCCGAAGGTGTTC
Celera SNP ID:            hCV25613632
SNP Position Genomic:     39792
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64845):
TCTACCACGAGGTGCACAGGCCCTCTCACTTCCTCAACTTTGCTCTCCTGCAGGAGGGGGAGGTTTACTCTGCGGATCGGGAGGACCTGTATGCCTGACC
R
TTTCCCTGCCTCCTGCTTCAGCCTCCCGAGGCCGAAGCCTCAGCCCCTCCAGACAGGCCGCTGACATTCAGCAGTTTGGCCTCTTTCCCTCTGTCTGTGC
Celera SNP ID:            hCV25613633
SNP Position Genomic:     40044
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,36)   total(A,1|G,67)
SNP Type:                 UTR 3


Context             (SEQ ID NO:64846):
TCGAAAATGGCAGCAATTGCAGGCCAAGCGCTATGCAGAAAAGCGGAAGTTTGGGTTTGTGGATGCCCAGAAGGAAGACATGCCCCCAGAACATGTCAGG
R
AGATCATTCGAGACCATGGAGACATGACCAACAGGAAGTTCCGCCATGACAAAAGGGTTTACTTGGGGTAAGGAACATCCTGAAATAATTTCATTTGGAA
Celera SNP ID:            hCV7459940
SNP Position Genomic:     7243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64847):
GAGGCAGGAGAATCACTTGAACCCGGGAAGTGGAGGTTGCAGTGAGCTGAGATTGCGCCAGTGCACTCTCAGCCTGGGTGACTGAGCACAACTCCGCCTC
R
GGAGTGGAAAAAAGTAGAATTTGCTGAGGGGAGAACAAAAGAGGTTAACTCTGGAGAATCCTGGGGCATGGCTCACATTCTTAAGAATTGTAGTTCTTTC
Celera SNP ID:            hCV25613567
SNP Position Genomic:     16055
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,40)   total(A,2|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:64848):
ACAACTACCGTACAGACATGATCCAGGCCCTGGGCGGTGTGGAAGGCATTCTGGAACACACACTCTTTAAGGGCACTTACTTCCCTACCTGGGAGGGGCT
Y
TTCTGGTGAGGATTCTCCTCTCTTAGAGGGACCTGTCACAACCCTTTGAGCTCATCTCTTGTATGCCTCTGTGATTTCCTGTGGTGTTTCCCAGACAGCC
Celera SNP ID:            hCV25613568
SNP Position Genomic:     29845
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,36)   total(C,2|T,72)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,36)   total(C,2|T,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:64849):
CCATGGAGACATGACCAACAGGAAGTTCCGCCATGACAAAAGGGTTTACTTGGGGTAAGGAACATCCTGAAATAATTTCATTTGGAATTTGGCCCTTTTC
Y
CTTCTCCCTGTCCCACAGTCTTGGATTGATGCTTTGACAGCTCATCTTGGTGGATATAAGAGAAAGGAGAAAACCAGTAGGAGTCTCTGATAATTTCTAC
Celera SNP ID:            hCV25613569
SNP Position Genomic:     7357
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,37|T,1)   total(C,69|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64850):
CTTGTTTACAAGTGGTGTCAAGGTAGAACTTTCATGAGATCGCCCTGTGAGGAACGGGGCAGGAATTTAGTTCTACGTCAAAAATCTCATCTGGGTAGCA
Y
GATTGGTTTACTCTCTTGATGCGTGGTAGTAAAGGGAAGTAGTGTTCGTGTTAAACTGAGGAAAAGCCCATAGTCAAAGCAATCCAAATGAATACGTGGA
Celera SNP ID:            hCV1247330
SNP Position Genomic:     15302
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,15)   caucasian(C,8|T,28)   total(C,29|T,43)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,8)   caucasian(C,4|T,24)   total(C,16|T,32)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,13)   caucasian(C,2)   total(C,17|T,13)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,5)   caucasian(C,2|T,18)   total(C,11|T,23)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64851):
AGATAACTGATGCTTACCTGGACCAGTACCTGTGGTATGAAGCCGACAAGCGCCGCCTGTTCCCACCCTGGATTAAGCCTGCAGACACAGAACCACCTCC
R
CTGCTTGTTTACAAGTGGTGTCAAGGTAGAACTTTCATGAGATCGCCCTGTGAGGAACGGGGCAGGAATTTAGTTCTACGTCAAAAATCTCATCTGGGTA
Celera SNP ID:            hCV1247331
SNP Position Genomic:     15198
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,17)   caucasian(A,8|G,28)   total(A,29|G,45)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,4)   caucasian(A,9|G,13)   total(A,31|G,17)   
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64852):
CATTGCTAACTTGTATTCTTAACTTCTGCTTGGGATCGTAGGGCCCTGTAGGGAAGGGTCCTGGCTGTGGCTTCTGGGCTGCCGGTTGGCGAGTCTGGCT
S
TTTTTCATGCGTGGCATTACCCCTTTATTAGAGCGATGGCTTGGCAACCTCCTGGCCCGGCAGTTTGAAGGTGAGTGGTTTTCTCTGTGTCCAACTTCTC
Celera SNP ID:            hCV1247332
SNP Position Genomic:     13208
SNP Source:               Applera
Population(Allele,Count): african american(C,16|G,22)   caucasian(C,30|G,10)   total(C,46|G,32)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64853):
CCCACCCCATCCGTCTCTTCTGCAGATACATTGATCGCATCCATATTTTTTTCAGGTGAGGGCTTTCCTGGATTCCTAGCCTTGCAGGGTACTGAGGCAT
R
TGCTTTGCCTCTGAAATCAGCTATTGTACCTGAGTTGACTTAACTGCTGTTGGGGCTTTAAAATGGAATGAAGCGGCCGGGTGCGGTAGCTCACGCCTGT
Celera SNP ID:            hCV25981921
SNP Position Genomic:     16447
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,12)   caucasian(G,6)   total(A,16|G,18)
SNP Type:                 INTRON


Context             (SEQ ID NO:64854):
TTCCAGCTTGGGTGATAAGAGTGAGACCCTGTCTCAAAAAAAAAAAAGTCTGCTTATTCTTGATGTTGTACCCTAGGGATGAAGACTGGAATGAATTCAA
Y
GATATTAACAAGATTATCATCCGGCAGCCTATCCGCACTGAGTACAAGATTGCTTTTCCTTACTTGTACAACAATCTTCCACACCATGTCCACCTCACCT
Celera SNP ID:            hCV22275418
SNP Position Genomic:     9813
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,13)   caucasian(C,10|T,24)   total(C,31|T,37)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,7)   caucasian(C,12|T,20)   total(C,27|T,27)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64855):
ACACCCAAGAGCTCTTGGACTTACTGGTGAAGTGTGAGAACAAAATCCAGACACGTATCAAGATTGGACTCAACTCCAAGATGCCAAGTCGGTTCCCCCC
R
GTTGTGTTCTACACCCCTAAGGAGTTGGGTGGACTCGGCATGCTCTCAATGGGCCATGTGCTCATCCCCCAATCCGACCTCAGGTACAGCCTGGTTCAAC
Celera SNP ID:            hCV25762640
SNP Position Genomic:     28854
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,1|G,33)   total(A,3|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:64856):
TAGCCCCGCTACCGGACTACATGTCGGAGGAGAAGCTGCAGGAGAAAGGTGAGGCGAGAGTGTGGAGCGGCGCGCGGGCCGGAGGCGGGGCGGGTGTGCG
Y
GCGCGCAGGCGGGTGGGGACCCTCCCCGTTTGGGCAGCTCCTGAGGTGTCAGCTCCCTTGTTATTTCCAGTTAGTTTTTCATCAAGTCATTTTAAGCGCG
Celera SNP ID:            hCV25761629
SNP Position Genomic:     6424
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38|T,2)   total(C,73|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:64857):
GTCCGTGTGGGCGGGACAGAAGCGTTTGGGGCAGGTGAGCAGGTTTAAAGATGAAGAGGCTGTAGAACCATGTTGCCTCTTATTCTTGGGGTGGACTTGG
Y
AATATTTACTGGTTTATTAGATGAAAGGCTGAGAACATCTCATTTGAACTTATCCCCAAAATACCTTGGGAAGTATTCTGTGGGAGGTCCAAGAGTGTAT
Celera SNP ID:            hCV25613605
SNP Position Genomic:     32657
SNP Source:               Applera
Population(Allele,Count): african american(T,6)   caucasian(C,2|T,36)   total(C,2|T,42)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,28)   caucasian(T,10)   total(C,2|T,38)
SNP Type:                 INTRON


Context             (SEQ ID NO:64858):
GCAGCTGTTCCTCAAGATAATCCACACGTCCGTGTGGGCGGGACAGAAGCGTTTGGGGCAGGTGAGCAGGTTTAAAGATGAAGAGGCTGTAGAACCATGT
K
GCCTCTTATTCTTGGGGTGGACTTGGTAATATTTACTGGTTTATTAGATGAAAGGCTGAGAACATCTCATTTGAACTTATCCCCAAAATACCTTGGGAAG
Celera SNP ID:            hCV25613606
SNP Position Genomic:     32630
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,28)   caucasian(T,20)   total(G,2|T,48)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(T,6)   caucasian(G,1|T,35)   total(G,1|T,41)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64859):
GGAAGCGTAGGGTTTATGGATGCTAAACAGTGGGAAGGTGCACACGCAGTGTGCTGTCCCGCTTGGATCTGACGAATCTTGGAAGTGTTAGTGCACCTCC
R
TTTCACACTTCCTGTAGAAGCAGCTCTTGTGGATTGTCTGGGGCGTGAGTATAGGCTGTCCTGTCCTACCAAGTTACACCCTTTCCATTGAGGCAGAAGT
Celera SNP ID:            hCV25613607
SNP Position Genomic:     36678
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,22)   caucasian(G,10)   total(A,8|G,32)
SNP Type:                 INTRON


Context             (SEQ ID NO:64860):
TCTCAGTTTCCAGGACATAGCCACTGAGGCTGCCCACCCCATCCGTCTCTTCTGCAGATACATTGATCGCATCCATATTTTTTTCAGGTGAGGGCTTTCC
Y
GGATTCCTAGCCTTGCAGGGTACTGAGGCATGTGCTTTGCCTCTGAAATCAGCTATTGTACCTGAGTTGACTTAACTGCTGTTGGGGCTTTAAAATGGAA
Celera SNP ID:            hCV25981892
SNP Position Genomic:     16415
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,10)   total(C,1|T,39)
SNP Type:                 INTRON


Context             (SEQ ID NO:64861):
GGACTGGTTCTATGACCACCAGCCGTTGAGGGACAGCAGGAAGTGAGTGATAGATGGAGATACTACACCTGGGAGGAGTTCTGGAAATGCAGAAGGAGTC
Y
TGGGAGATCAGTAGGTGGTATGGGTTTGTCTAGCTGCTTACTTGAGGTGGGCCTTTCATTTTTTACCTAGGTATGTAAATGGCTCCACTTACCAGCGCTG
Celera SNP ID:            hCV25613645
SNP Position Genomic:     9082
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,32|T,8)   total(C,65|T,9)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,31|T,7)   total(C,66|T,10)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64862):
ACCTCACCTGGTAAGAGACCTGGAACACAACATTTGGAAAGGAGAAGGCTGCTGTTTAGGTTGGGCCAGGGCGGGAAAACTTTGGCTGACTCTTCCTTTC
R
TTTTAGGTACCATACTCCCAATGTTGTATTCATCAAAACTGAGGATCCTGACTTGCCAGCTTTCTACTTTGACCCTTTGATCAACCCAATCTCCCATAGG
Celera SNP ID:            hCV25613646
SNP Position Genomic:     10005
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,38|G,2)   total(A,74|G,4)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,38|G,2)   total(A,72|G,4)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,38|G,2)   total(A,74|G,4)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64863):
TTACTTGTACAACAATCTTCCACACCATGTCCACCTCACCTGGTAAGAGACCTGGAACACAACATTTGGAAAGGAGAAGGCTGCTGTTTAGGTTGGGCCA
R
GGCGGGAAAACTTTGGCTGACTCTTCCTTTCATTTTAGGTACCATACTCCCAATGTTGTATTCATCAAAACTGAGGATCCTGACTTGCCAGCTTTCTACT
Celera SNP ID:            hCV25613647
SNP Position Genomic:     9973
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,8)   total(A,1|G,37)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64864):
GCTGGTGGTGGATAGTCACGTGCAGTATCGGCTGGGCAATGTGGATGCCTTCCAGGTAAGGTTAGGTATTCCCAACCCCTGCCTGGGTGAGGACGCTGGA
R
GAAGCCTGTGCTGACCGTGGAGCTGGTTTAAGCTCCAGGTCTGATGGGGCAATTGTATTGCAGCTGGCAGATGGATTGCAGTATATATTTGCCCATGTTG
Celera SNP ID:            hCV25762758
SNP Position Genomic:     12127
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:64865):
CTCTTTGCCTCCTATAAGTGGAATGTCTCCCGGCCCTCATTGCTGGCTGACTCCAAGTAAGTGCCTCAGGACCCAGCCCTAGGCAGCCAGGACACTTTCG
K
TTTCCTGTTCTTCTAGCCCTGCAACTTTAGGAATTGTCCTGTCTGCCTTTGTTTCAAACTTGGAGCCAGTGCTACGCTTGGAGCCTGTCAACACCCTTAG
Celera SNP ID:            hCV22275135
SNP Position Genomic:     31047
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,7)   caucasian(G,4|T,4)   total(G,11|T,11)
SNP Type:                 INTRON


Gene Number:                 404
Celera Gene:                 hCG28719 - 67000129077232
Gene Symbol:                 MGC34680
Protein Name:                hypothetical protein MGC34680
Celera Genomic Axis:         GA_x5YUV32W2JD(13896839..13964697)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12564):
GAAGATGGAACAGCATACACAAAGGCCCAGAGGTGAGAGGGATGTGGCTGTGTGCCATTGAAAGAGTTTTAGCTTGGTAAGAGTGTGACAGTATTTCAAA
GTAGGGAGAGGTGGTGAGAAAAGAGTATAGAGACCAGGTGTGGTGACTCACACCTGTGATCCCAGCACTTTGGGAGGCTGAGGCGGGAGGACTGCTTGAG
GCCAGGGGTTTGATACCAGCCTGGCCAACATAGTGAGACCCCATCTCTACAATTAAAAAAAAAAAAAAAAGAGTGTAGAAGTAACAGTGTCTACCTGAAT
TGGTCCTTCTGCCACTCTCCTCATCCTTGCCCTCTTCCTTGCCCTATTTTTGAGGCCTCCTGGAAGATGCTGAGCTGTGGGTAGGATGCATTGGGGTGGC
CAGTTCAGCTCCAGCCAAGCTCTTCTGTCTCCTCTGCCAGGGATGGTCCCTGTGGCCCAGGCAGGGTCGTCAGAGGCCAGCCTGGCTGCAGGTGCTTTCC
CGCCCCCTGAGGACGCCTCCACGCCATTCGCCATCCCGCGCACCTCCAGCCTAGCTCGGGCCAAGCGGCCATCGGTCTCCTTCGCGGAAGGTACCAAGTT
TGCACCACAGAGTCGCCGAAGCTCAGGGGAGCTCTCCAGCCCGCTCCGAAAGCCCAAGAGGCTCTCCCGGGGGGCGCAGTCGGGTCCTGAGGGCCGGGAA
GCCGAAGAGTCCACAGGCCCAGACGAAGCAGAAGCCCCCGAGTCCTTTCCGGCGGCTGCCAGTCCCGGGGATTCAGCCACTGGCCACCGGCGGCCCCCAC
TTGGTAGCCGGACAGTGGCTGAGCACGTGGAAGCCATTGAGGGCAGCGTCCAGGAGAGCTCGGGCCCTGTGACCACGATCTACATGCTGGCAGGGAAGCC
CCGCGGATCCGAAGGCCCTGTCCGCTCTGTCTTCCGCCATTTTGGTAGCTTCCAGAAAGGCCAGGCGGAAGCCAAGGTCAAGAGGGCCATCCCTAAGCCT
CCGCGCCAGGCCCTGAATCGGAAAAAGGGCAGCCCTGGCCTTGCCTCTGGCTCTGTCGGCCAGAGCCCCAACTCAGCCCCAAAAGCTGGGCTTCCTGGGG
CCACAGGGCCTATGGCAGTCAGACCAGAGGAAGCGGTCCGGGGGCTGGGGGCTGGCACCGAGAGTTCAAGGAGAGCCCAGGAGCCAGTCTCTGGCTGTGG
CTCCCCAGAACAGGATCCCCAGAAGCAGGCTGAAGAGGAAAGGCAGGAGGAACCTGAGTATGAGAATGTTGTACCCATCTCCAGGCCACCAGAACCCTGA
TGACCTTGAATTTGGGGAGTGGGGAGAGTGGATGGACTAGACTGTGCTGTGTGCTGGAAAATGATCCCGGGGCCAGGACAGACAAACCAGAGCCTCTGCG
CCTCCACAGGGAAAAGGCAAGGCTTCCAGGCCAGTTGGCCCAGGCCCCTGGCAGTGCTCCCGGAGGGGCCCAGGAAGGCCTGGGCAGAGACCCTGTAGGA
TGGGGTCAGGAAGGGTTGCCTGCAGGGACTTTTGCTCTGCTGTCCTGGACCCTGTGTGCCTCATAAGGGCTATTCTTTCTTTCACGTGCAAAACATTTTT
CTGAAATAGCAAACAACCTACATGTTTGCTGATAAAAGATTGGCTAAACAAATTTTTTTTTTTTTTTTTGAGACAGAATCTCCCTCTGTCCCCCAGGCTG
GAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCCTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCC
TCCACCACGCTTGGCTAATTTTTTTGTATATTTAATAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCTGC
CTCGGCCTCCCAAAGTGCTGGGATGACAGGCATGAGCCACCACGCCTGGTCTATGAACTTTTTAAAAAGGATGTATGTGTATAAAAACAGATTCAAGGGA
AAGGCACTAAATGGTTTTTTCCTCTGGAAGATGAGATTGTAGGTGATATTTATTTTCTTCTGAAACTTTTGTATAGTTTGCAAATTTTCTACAGTGAACA
TTCTTTTTTACTTTTGTTACTAGATTGAATTTGATAAAGTATAATAAAAAGCAATGATCTTTGTTAAAAAAATAAAAAGTACTAACATTACAGACATGTA
TAAAGTAAAACGGAGATTTCCTTTCTCCCCAGAGGCGTCTGTGGGTCAAGAGAGAGGTAGAATCTACTTTTCCCTGGCAGCTTTTTGGTCTTGTTTGAAT
TCTTTGCTCACATATTACCTAGTCAGAAAAGAAAAGGGGCAACCCTCCCCCCGAGCTTTATTTTTTTTTTTTTAAGATGGAGTCTCAGTCTGTCACCCAG
GCCGGAGTGCAGTGGTATGATCTCGGCTCACTGCCACCTCTGTCTCCCCGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTGGCTGGGATTACAAGC
GCCCGCCACCATGCCCGGCTAATTTTTGTATTTTTTGGTGGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCCAAACTCAAGGGCTCCA
CAGCTTCGGCCTCCCAGAGTGTTGGGATTATAGGCATGAGCCACCGCGCCCGGCCAGGGGCAGCCCCTTCTATCTCAGTGCTCAGAGAGTCTCATCAACA
GTTGAGGTGCTTTCTTTCAGATGTTTTTCTGTGTACATGTCAACAAATATTTTAAACAAAAAATTTTAGCATACTAAGCATACTGTTCCTCAGCTTCTTT
TTTTTTTTTTTTTTTTCTTTTTGAGACGAAGTTTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCCGGG
TTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGCAATTACAGGTGTGTGCCACCACACCCAGCTAATTTTTGTATTAGTAGAGATGGGGTTTCAC
CATGTTGGCCAGGCTGTTCTCGAACTCCTGACCCGCCTCGGTCTCCCGAAGTGCTGGGATTACAAGCGTGAGCCACCGCGGCCAGCCTCAACTTGCTTTT
TTACTTAACGACATATCCTGGATATAGTTCAATGTCCATAAATGTAAAGCTAACTCTCTTTATTTAAAAAATGACTACATGAGATTCCATCTAGCACAAT
TATTTAAATCATTCCCCCGCCAATGGAAGGTTGGGTTGTTCTGATCTGTTTTGATACAATAAGCAATGACATAGTATACAACTTTGTCCATATTTATTTA
TTTATTTATTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCAGCTCACTGCAACCTCGGCCTCCTAGGTTCAAGC
GATTCTCCTGCCTCAGCCTCTCGAGTAGCCGGGACTACAGGCGCATGCCACCACGTGCAGCTAATTTTTTTGCATTTTTAGTAGAGATGGAGTTTTGCCA
TGTTGGCCAGGTTGCTCTCGAACTCCTGACCTCAGAAGATCTTCCCACCTTGGCCTCCTAAAGTGCCGAGATTACAGGTGTGAGCCACTGTGCCCAGCCA
CTAAAGCTTCTAAAAAGTATATATAATTTTTGTGTGTGTGTTTAGCCATCAACAATTATATCTCATTACAATTTAAAGTTCTATGAGTATTCTAAGGTTG
TTTCTTTTCCGTCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCCATTCTTGTGCCTCAGCCTCCTGAGTAGCTGGAATTACAGGCGCCCACCAC
CATGCCCAGCTAATTTTTGTACTTTTTGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACCTCAG
CCTCCCAAAGTGCTGGGATTCCAGGTGTGAGCCACCGCACCTGGCCATTTGCCCCTTTTCAGGAGTTCATGTTTTCATTCCACAAACTCATATTGTGCAA
CTGCTTTGTGCTTGCTTCTCTATCAAGGGCTGGTCATACAAAGTTGAATAAGACACCGTCCTGCCCCCAAAGAGTTCATAGTCAATTAGAGAGGAAGGCA
AACAGACGAATAGCTAATTATAAAACAATGCCAGCAGTGGACAAATAAAGTGAACAGTATTAATGGGGAGTGGTTAGGGAAGGCTTCCCAGCGGAGGTGC
TGTCCAAAATGAGGCTATGTCGCGAGCTAGAGGAGAGAGAACAGCAGGTGCAGAAACCACAGGCAATTCCATGTGACTGGAGCATCGGGGACCAGGCAGG
TCAGATGTCCTTCAGAGGGAGGGAGAGGGAGGAGCCTGTGTGGGTCAAATTGGGGAACTGGAACTTTTAAATTTTGTTTATTTTTTTGAGACGGAGTCTC
GCTTTGTTGCCCAGGCTGGAGTACAGTGGCACAATCTCTGCTCACCGCAACCTCTGCCTCCCCAGCTCAAGCAATTCTCCTGCCTCAGCCTCCCAGGTAG
CTGGGATTACAGGCGTGTGCCACATCACCCAGATCTTTTTTTTTTTTTTTTCTTTTCAGACAAAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGC
ACGATCTCGGCTCACTTCAACTTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCAGAGTAGCCGGGATTACAGGTGTGCGCCACCACACCC
AGCTAATTTTTTGTTTCTTTAGTAGAGACAGGGTTTCACCATCTTGGCCAGACTGGTATCGTACTCCTGATCTTGTGATCTGCCCACCTCGGCCTCCCAA
AGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTTAACTCCT
GACCTCAAGTGATCTGCCCGCCTCAGCCTCCCGAAGTGCTGGTATTACAGGTGTGAGCCACCGTGCCCAGCCAGGAACTGGAACTTTATCCTGTTTTACA
AATAATAGTTTCTGAAGGATTTTGGCAGAAGTCACATTTACATTTCCCTTAGTGCCCTGGGATGAGATGGGGGCTGGATTTGAGGAACTGAAATCTGAAG
GTGGCTCAACAACAGTAGTTGCGGGCCTAAGGGCACAGATGGACCGATTAGGTAAATATGTAGGAGATACAGCTGTATCAGTTTGATGGGGATGCGGTGA
GGGAGAGGCAGAATCACAGCGACTGCCTAACAAATGTCTGATGAAAGGATGGTTCTCAGCAGGGCACTGTGAGTCATGCCTGTAATCCCTGCACTTTGGG
AGGCTGAGGTGGGAGGATCACTTGAGCCCAAGACTTCAAGACCAGCCTGGGCAACAGGGCAAGACCCTATCTGTACAAAAAATACAAAAATTAGCCAAGT
GTGGTAGCATGCACCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGGATCACCTAAGCCCAGGAGGTCGAGGCTGCAGTGAGCTATGATCATGCCA
CCACACTCCAGCAGTCTGGGTGCCTGAGATCCTGTCTCAAAAAAAAAAAAAAAAGAAAAAGAAAAAGAAAAAAGACAGGGTTCTTGGTATCTAACTTCAG
TAGACAGTAGTAGTATGGTTATCTGAGAGAAAATGTGGAGGACAGTTCTGGGGGATATTTGAGGCATGTTTGAGCCCTGCAGCGCCGTCAGGCTGCTCAA
AGAGGAGGGAAGGGTGAAGAAAGAGATTTTTCAGATGGCAGTTGAAACCTTGGGAGTGGGAAGGGTTCCACAGGGTGAGGAACCGGGTAGGCTACCAGCT
GGAGCCGCCCCCCAGCAGGCTGACAGCTCCAAGCGTTGTCTGGGGGAGGTTGCCCTCGCCAGGTGGCCCGGGCGGATTCTAGACAGTAGGGGGCACACTC
GGACTGGGGCAGGTGGAGCAAGAGGCGTTTGGGGCTCCCACAGCCCTGGGGTGGTGGTGGGGTTTTATTTTTGGTTTTTATTTTGGTAGAGATGGTTCTC
GCCATGCTGCCCAGGCTGGTCTCAAACTCCTGTCCCCAAGTGGCCCTCCGACCTTAGCCTCCCAAACCGCTGGGATTCCAGACGTGGACACCGCGCGGCA
GCCCTGGGGTGCTAAGCCAGCCCCCCGGAGCGAGCCAGGGTGACCAAGGCGATTCTGGGGCAGTCAGAGGGTCTTCCCGGGTCGGGTTAGTGCCTCGAAT
CCGGGGGACGAAGACGGGGAGCTGAGCTTTCGGAGCCCGGGCTTATCAGACGGGGACCCGGAGCCCCCTCGAACCCTCCCTAGCTTGTACCAGCTGGCGG
ACGTGGCCCGTAGCATCGCCCTGCAGAGGGGACCTTCCCTGAAAGGGACGGGGAACGGGGTGAAGGTGGCCAGCGCGGGCAGGGAGCACCCAGATGACGA
TCAAGGGTGGAGGGTCCCCGGAGGACCGAGCAGTGCGTGAACACGGGCGGAGAAAGGTCAGTCTGATGGGGGGAGCTCAGGAGACCCCATCCTAGGACGG
GACAGACCAGCCCCAAATCCCCTTGCAGATTTCCAAGGGCCAACTTCCAGGGACCGGGCAGACGCCACCGGGGAGAGGGGAAGGGGTCGGTGCATCAGCG
GGGGGCGCCACGGCTGGACCGGGTCCGGGATCCCAGGCCCCGAATACGCCGGGACGGGAACCACCGGGGCGGGGGAGCGAGGAACCAGGACCCAAAGCCC
GAGGCGGCGGGGACGGCGGCGCTGCGTGGGGAGGAGGCGGGGTGGGGATTCGAGAGTGGAACCACCGTGCGGAGCCGGCGCATCTGGGCGTGGTGACCCG
CGCGCAGGGGGCAGCTGGGGACGGCGGGGCGGCCGCGGGAGAGCCCGGCTGGGGGCGCTGGTGGCCCGGCGGCTTCTGGGGGGAGTCCGCTGGGGGCCGG
GACGCGGAGCCGGAGCCCCAGCCTCGCAGGGTCAGGCCGCTGGAGAGGCCGCGGGGCGATGTCGCCGGGGATTCCCGGCCGCGCTGTGACTCGGGTTGAA
GGCTGCAAAGCCGAGGCCCGGCCCGCAGCGCCCAGGCCCCTCCCGTCCCCCATCTCTCTTGTTTGTCTCCGAGTCCGGCCGGAACCGGCTTCTGCTCGCG
GCGGGGCGGGCGGGGGGCTGGCTGCTGATTGGTCGACGCCTGTTTCCAGCCCCGCTCAGCCAATCAGCGGGCGGCAGTGTTTTCTTCTTGGGGTCGGAAT
AAAAGGGCTGGAATAAAAGAGGGCAGAAAAGGCGCCGGGCGGGCCCGACACACGCCGGAGGAGCCGGGTGAGCTGCAGCAGGGAGGGGATCGCGGCCGGG
GCGAGGGCGCGGGGGCAGAAGCGGCCGCCGAAGGGGCGTAGGGAGAAAACGTGGGAACAAGAGGAGAGAGATGGAGCGATGAGRGGCCGCCAGGGAAGAG
ATGACGAACAGATGCGGGCTGGGGAATGGAGGCGCGGGGGTCCGAGGCCATGGAAACGGGCGAGTTGCCGGGGGAACGCCCGAGATGGGGGTCGCGCGGC
TGGCTCGCGCCRCCGGTTTGAACCGGCTCCTCGTCTCCCACGCTGGGTTCGCGTGGCCGCAGCGCCTAGCGACCTAGACGGCGGCCAATGGCGCGGCAGT
TCCTGCGCCGTCCGGCCAATGAGCGCGCCGGGGCGGGCCGTTCCGTAGGTCTGGGCGCTGATCTTGTGGTTGAAGAAACCAGCTCTGGGGAAGGGTCTCG
GGCGCGGGCGGGAGGGCACCTGTCAGGGTCCCTGGGAGAGGCAGCCCTCGGATCTGCCSCTGCCCACCTCACGCTGCGTTCCATGCTGGCCCCAGGCGAT
GTCAGTCCTGCTGCAGGCCAGGACTAGTTCCACGGCCCTGAGCATGCGTTAGCCCCTTCTTGCCTCCATGCCTCAGTTTACCTCGGAGTGAGCTGCGGGA
GACGTCTCCCTGCCTGGCCGGGGCGGCTCTGTCGTAGCGGAGGGCAGCGGTACGAGCCGGCCGCGGGCTCGGGGTGTCCCAGGTCCGGGCAGGGCTGGGG
TTCGCTTCCTCTGCTGCGCGCACCGGCCGCCGCGGCCGGGGAGGGGTGGCAATCCCGAGCCCTGCGGCAGCGGTCGGGGCTGCTGGGGGCGGCCGCAGGG
GCTGGGCAAGGGCCGGCCGCTGACGCCGAGTTCTGTGCGCAGGTGGTGCAGAGCCGGAGCCGGAGCCGGAGCYGCGCCGCGCCGCACCATGGCGCCCACC
CTGGCCACTGCCCATCGGCGCCGCTGGTGGATGGCCTGCACGGCCGTGCTGGAGAACCTCCTCTTCTCGGCAGTCCTCCTGGGCTGGGGCTCGCTGCTCA
TCATGCTCAAGTCAGAGGGCTTTTACTCCTACCTGTGTACCGAGCCAGGTGAGACAAGCGCCTGGGGTTGCGGGGGGGCTCCTGGAGCTGGGGCTTTGGG
AGGGGGCGGGATGGGGGCGAAGACCTAGCGAGCCACAGCACCGCATTGCCCAGTGCCTCTMGGGTATCAGAAGGCCCATCTGATCCTCACCCAGCCCTGC
CGGGTACTTGTCATTGCCCCTGTTTTGTGGACGAAGACATCGAGGCTCAGAGCGATCTGTCTTGCGCAAGGCCGCAGAGCCTGGGCCTGCCATCCACCCA
GAACCCCACCTGCTGTCCAGGGTGTTCCTTCCACCCGCTACGAACAKTGCTGGACTGCTCTCCTCTCCTCCCAGCCCTGGAACATAGCTTGGCTGGTAGT
AAACATGTTGCTGTCTGCTTGTGAGAAAGAGGAACTCCAGATTAAGGGGCTGGGGTGCAGCAGGAGAGGAAGTGGCCTTGCCTCCACCCCAGGGAGGGCT
CATCTAGAATCTAGACGTTCCTCAGGCCATTGTGGAGTCTCCTAAGTGCTTGCTGGACACAATTTCTTGTCTATTTTTGCTGCCTTATGATTCTCCAAAG
GACATTTCCCCCACGGGCTCTGAGGACATCTCCGTGGCTTTCCAACCCCATGGGGATGAAGGGGAAGAGAAGAAAGGAACGTTTATGGAAATGATGCTAG
GGTTGTTCTCTCCTCTTTGCCTTGTCACTGGAATTGCTGAAGGCAGGCTGAGGATGCTTCTCTACATGACATCTGCACCACCCAACRCACACTTACCTTC
ACACCTTCATACCCTGTTGGAGGGTCCTGATGACTACAGGGCAGTAAATTCAGCCCCACAGGAGGGCCACAGCAGCCCCCAGCCTCTAGCCTCCTACCCT
CCTTCTTAGGCAACCTTGACAGGAAATTTTCCCTCTGCCTTCTCCTTGATCCCAACGGTAGCTGCATAATAGCTGAGCTCACATAATCCCTGTCGCCAGT
GCTAGAGTGCCCTTAGATGGAGGTAGCCCAGGTTTGACTTCCTGAATCCCCAGCAGCAGGCCTTTTCTTTCTAGAGCTCTTTGCAGGAAGAGAAAGCTTT
GGACCAGCTCATGCTGGGTGTAATCCTTTGTGGAAGCCTCCCTGTTTCCCTTCTCTGATCTGCCCCGGAGATTCCTGTGTGTCCCAGTCTCTAGGGAGGG
AGGCTTAGCTGGAGAGGTTCAGGGCAGGAGAAAGCAGGAGAATGCAGAGGCCGCGGGGAGAGGACAGAAAGTATATCATTTATAACTAACCTTTAGCCTT
TAGCCACTCAAAAATATTTCCTAATAGCCTAAGGGTTCTTGGCAGGTCTTTCCCCACATCAGCAAGAAATCTTGGGAGTTGGGAAGAGTCAGACCTTGTT
CCCTGAACAAGCTTTCTGCTTTGGCCAAGAGTTGTTAGGAGATTAATGCCTGTCCCCGAAAGGCACAGGTTGGAGTGTTTACTTCTTCCTCTCCTTTCCT
CTCTCCYCCSTTAGAGATCGTGACCCTTCCTGCTTGCYTCCCTGGTGGGCTCTTTCAGGCTGGACACAGGGTTTAAAAAAAAAAAAAAAAAAGCAGAAAA
AAAGTCATCGTCCCCAGAGAAAGCTTTTAGTGTCTCACCCAGACCAGAGAACTGTTGTGGGCAGGTGTTTTTTTGTGTGTTTTTTTTTTAACCCACCATG
ATGTCGGAAGGTCAGATTCTAGGTGTTTTTTGTTTGTTTTTTGTTTTTTGTTTTTTTTTTAATAGAATGTCCACGGATTTAATTGATTGTATGGTTTTGG
CAGAATTGGGTCTGGTCCTTTCATTCCTGCCTCAACCTCAGCTTCCTCCTCTGTCTAAGTGGGAGGAGTCCCAGAGATTGTGCCAGCGCAGTGCTGAGTT
GGTGTTTTAAGCCCTGGGCAGACTTGACAGGTAACTCCACTAAACCAAAGTGAAGGTGAAGGGTCAGGATTGTGGGTTGAACATCAACTTCTTATCCCGA
ACTTTTGCTCCTGCCTCCAATTTTGGTTTTTCTTATTATCTGGCAAACATGCTGAGCCCACGTTCTGGGCGGGAAGGCTGCTGATTCCACACAGCTTATC
TCTCTGGTCACACTGCTCCTTGATTCTTGGAGTCTGCATCACCAGTTTTCTTTCAGGCCAGAAATCCCCGCATTTGGCTCGTCTGGGAGTGCCTGGCGAA
GTTAGGGTGAAGGTTTCTGCTTCAGTCTAACATTTTCAAACTTGGTGCATGGCTGAATTGCAGAGAAGCAGATAGGCCATTTTTGAATTTATTGAATTAG
ACTTGTGAAAGCCTGAGCAGTGTCCGGCTGATTGAGATGCAAATTTGTCAGCTTCGTGTCACTCTAGGACGATGCTTTAGTTTGTTCTCTAAAGAAAATT
TGCCTGAACCTGTTGAAAGGTTCTTAGAACTCTTTCTTACGACTCCAGCCAGAATCTCGCCACAGACACCGTGTTGGGTTCCAGCCTGGTGAGGTGGCAG
AAGGAAGGAAACAGCTCATTTCTCGGCTGCCCCGCAGTTTGTTCTTCCTTGCCTGCTGGGAGACGTGGCAGGCTGGGTTTGGGGACCTGGGTGCGGGAAG
TTGGCAATGGGTTTTGCACAACGTCCTCCAGGTGTTGGCTGCTGGATGCCTCCCTCGTCCCCCTGGTGAGGGCAGGAGACCAGTTGGGTTCTCAGCCCGA
GAAGCACGGGGCTTCCTGGAGCTGTGTCCTCTTGGCCTCTGGGATGGCAACGTGACGGCCCACTCCTGAGCTCTTTCTTCATTTTCTCTGTTGTCCAGTG
GCCCCCGCTTCAACAGGGTCAGGGTCAGCCTGGGGGGCTGCGGCTACCTGTGGATGGTTTTTTTTTATTTGAGACAGGGTCTCGCTCTGTTGCCCAGTCT
GGAATGTAGTGTTGCAATCACAGCTCACTGCGGCCTTGACTCCTGGGCTCAAGCAATCCTCCCGCCTCAGCCTCCCGAGTAGCAGTAGCTGGGACTACAA
GTGTGCGCCACCATACTCAGCTAATTTTTGTATTTTTTGTAGAGACAGGGTCTCGCCATGTTGCCTAGGCTGGTCTCAAACTCCTGGGCTCAAGCGATCC
TCCTGCCTCAGCCTTCCAAAGTGCTGGGCCTGCAAGCATGAGCCATCAAACCCAGTTAGTTTTTTGTTTTTGTTTTTGGGATTACAGGTGCCCACCACCA
CGCCCGGCTAATTTTTGTATTTTTTAGTAGAGATGTGGTTTTACCATGTTGGCCTGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTTGGC
CTCCCAAAGCACTGGGATTACAGGTGTGAGCCACCACGCCCGGTCAAATTTTTTGTAGAGATGAGGGTTTCATCACGTTGCTCAGGCTGGTCTCAAAACT
CCTGGGCTCAAGTGATCCACCAGCCTCAGCCTCCCAAAGTGCTGGGACTACAGGTGTAAGCCACCATACCCAGTTAATTTTTAAATGTTTTGTAGAGATA
GGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCAGTCGATCCACCCACCTCGGGCTCCCACATTGCTGGGATTATAGGCGTGAGCCAC
CGCTCCAGGCCTACATGTGGATCGTTAATCCCCTCTTTCTTGTAACCTAAACATTCAGTAAACATTGACGAAGGTGCMGTGCTGGGTGCAGAGGAAACAA
GTCATCACACGCATACCTGTGTAACCCGTATAATTCCAGGGGGTGGTCGGGCCCCCAAGAAAGCAGGGCGCCAGGAGCTAGAACAGCAGCGGAGATGTGG
CTCCTGCTGGGTGGGAGGGCCTCTCTGCGGTTCAGGTGGAAGCCTGGAGGTTGAGGAGGGGTGATTCAGGAGAGGAGGGYACACCCTGGAGGAGAGGAGG
GTACACCCTGGAGGAGAGGAGGGTACAGCCTGGAGGAGAGGAGGGTACACCCTGGAGGAGRGGAGGGTACAGCCTGGAGGAGAGGAGGGTACAGCCTGGA
GGAGAGGAGGGTACACCCTGGAGGAGAGGAGGGTACAGCCTGGAGGAGAGGAGGGTACAGCCTGGAGGAGAGGAGGATACGCCCTGGAGGAGAGGAGGGT
ACGCCCTGGAGGAGAGGAGGGTACAGSCTGGAGGAGAGGAGGGTACACCCTGGAGGAGAGGAGAGAAGTGGGAAGGGGCGGGGGCTGCAGGGACTGGGAG
GCCATTCGGGGAAACTGAATTTTATTCCCAAGACAGGAGGAAGCCAGGGAGATAGAGGAGGGCGACCATCCAATTCCCCTGTTAGAGGCTTGTGTGAATT
GCTGAGGGCTTGCCACATGCTGGTATGTTTGGGTGGCATAGAAACCAGAAGTCATCACGGCCTCTGCCTGAGGAAGTCACCCACAGTCTGACCATGGGCA
TGAAGGCCGACCCCAGTTGTATGCTCTTGACCTCTGCAGTTTCTCCRCCTGTGGTGGTGGGAGAGAGCCTCTCACCCTGGCACAGAGGTCCCTGCGAGCT
CGCCCTGGCACAGAGATCGCTGCAAGGGCAGAGGGGCTGCCGCCCACCTTGGGGAAGCAGGCCCAGGCTTGATCCCCACGGGCTGAGTGAAGCTGCAGAT
GTGGACAGGAGATTTCTCTGCTGCCTCGAGGACCTCTTTTCTTGGGGGATGGGGAGGAGGGAACGGAGTTTCACTCTTGTCGCCCAGGCTGGAGTGCAGT
GGCGCAGTCTCGGCTCRCTGTAACCTCTGCCTCTCGGGTTAAAGCGATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCTGCCACCATA
CCCRGCTAATTTTTTGTATTTGTATTTGTATTTTATTTTATTTTATTTTTTTGAGATGGAGTTTCACTCTGTCGCCCAGGCTGGAGTACAATGGCATGAT
CTCAGCTCACCGCAAACTCCATCTCCCGGGTTAAAGTGATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGTGCCCACCACCACACCCGGCTA
ATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTACCAGCCTTGGCCTCCCAAAGTG
CTGGGATTACAGGCGTGAGCCACTGCGCCCAGCTCAAGGGCCTCTCTTTTTAGAGTCTCTCCTCACACCCACAGGCAAGTGTGGATAGTTTTTTTTTTTT
TGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACCGCAACCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTC
AGCCTCCCCAGTAGCTGGGACTGCAGGCGCCCGCCACCACGCCTGGCTAAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCACGAT
GGTCTTGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCACAATGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCGGATAGCTTTCTTAAA
TCCAGCCTTTCACTTTTATTGCTATAAATATGACTTTTAAACTTTTCCCCCAGTTTATTTGGAATTTTAAAAATTCCATAGCAATGGGTAAGAAGGTTTA
AAGGCTGGGGCCGGCAGCCTCAGGATGCGTCTCAGAGAAGAGCTGGTGGCCTTGGCTCTTCCCACCGCCCCAGCCTCCCTCCTTCTTGGTTCGTGACCTC
ATTTCCCTCACAGACATCCACTGGCCACCCCTGGCTTCTGGTGTCCATGAAGGTCCTGTCCAGCTTAGGCTGGCTCTCAGGGACCTCGTGGGAGAGTCTT
AGTCCCATTCCCACCAAGCGATATTCAGGGCCTCCTGGTGTTGCCGGCACATGGGCAGCCTTTTCCCGGCTCTGTTCTCTCAGCATTTTCTCTCTGGGAT
ATGAGCCTCTAGCCCAGGTAGGCCAGCATCGGCACAGACCGAGTGGTAAGAGCGGGAGCTTTGGGGTCTGACAGCCTGGAGTCAAGCCCAGCTTCCCCAG
GGACCCCCATGAGACCTTCTGCAAGTGACTTACCTGCTCTGAGCATCCCTCGGGGACACTCTGACAGTATCCTCGTGGGGAATATGGGGTGGGCGTGGGC
ACACCCGTTGAGCATGGCAGCTGGCACACACTTTCATTGCACACACGGCAGCCGCTGCTGGGACCACTGCTCRGGGGCCAGGCCCTGGTCAGCCCAGGAC
GGCCTCTGCCTGTCCGTGCCCTCCTGCCTGTTGTTTGCTCTGTGTCTGAGCCGACCTCTCACCTACATCTCCCCTGCCGGACTGAGGACTGAGATGCTGC
TTCCTGTTGCCGGATAGACTAAGGATTTGAGAGACGGGAGATCCTGGGCAGGGGCCATCGGTGGGCTGTCCAGGGGCCCGCACCCTGGAGGGGGGGCTCG
GAAAGCGACTAGTCAGGGAAGGGGGCAGCTCAGGAATTTAGAGGGGACCTCAAGCCAGGTACTTCTTGGCCCCCTCAAGCATCATCTTGGAGGCCCCCCT
CCCTTTGTCTCCCCGGGGTGTGGGGAGGCTCCTCTTTGCCTCAGGGGAGCCTGGGGGGCCACAGCACCCTCTTTTCTCCCTGATTCCTCTGTAAAGATCT
TGTGCGTCTTCTGTGAGTGGGGCTGAACGGTGTACGTCCTCCCTGGCCCTGGGTCTCCTCCTAAGCAGCCCTGTTCCTGTTCTTGGCACTCACTGGCCAC
ACCAACTCTTGCCTGTCTTCTCAGTTCACCTTCTCTGGCCAGGCTGGGCTGGGCCACTTCTGGCCACCCCAGAGGAGGCATCTGTTTAATAAACAGGTGC
AGGTGAGGAGCAGAGCAGCCTGGCCGGGGGTGAGCAGAGCAGGCTGGCCCGGGGTCAAGCTCCAGGCTGGGAGCAGAGGGCCACCCCACGCCTTGGCACT
TCCTGGGTGCTTAATCTGTTTGTCTCTCTCCTGACCCACGGTGGCCCAGGTGGGAGCAGAGGGAGAGGAACAGCCTGGGTGTGTCTGTTTGGGCATCTGC
TGGGTGCATGTGGGCTGTTTACTGTCAACAGAGCTTCTGGGCTCACCAAGGGCTTCCTTCCCTCCAGCAGGAGGGAGACTCTCAAATTGCTCCACAAGCA
GAAGGAGAAGCCGCTCACCTCCCCGGCCCCAGGCGCCTCTGTTGCTGGACGGGACGGCCTGGAGGCAGGCGGCCGGGCAGAGGGCCTGGTGGCCCCATCG
GCAGGGATTTGTTTAAGACGAGAAGGCTGTTGGCCTACGTGCAAGGTCCCTGCCCCTGTGTGTAGTCGCTCCAGGGTAAAAGATGGGAAGGACAGATACC
CTTGCCTCTACCCTGACCTTGCCTCTTCCCTATGTGGTTAAAGGGGTGACCAGATCTCTAATCAATTTAAGACTTTTGTTTGTTTGTTTGTGTGTTTGGA
GACAGAGTCTCACTCTGTGGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGC
CTCCAAAGTAGTTGGGGTYACGGGTACCTGCCACCAAGCCTGGCTAAATTTTTTTGTATTTGTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGT
CTCAAACTCCTGACCTCAAGTGGTCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCTAGCCTTGGGATTTTTA
TCTTCTGGCTCTAGATGAGAAAACCCATGGGTTTAGAGACCCAGCTGTGGTTCCTCCCTGGGGTAACTGGAGGTCCCTGGTGCCTTTACTCAGGCAGTGC
TGCYTCACCCACTCCATTCCTTGTCCCCGTGGCTCCTGCTTGCAGCAGTAGAACSTGCAGCCCCCCAAGCCCTCAGTTATTCCACGGCCCCTGTGCAGTC
ACTGKCCCCACAAGTCACCCATCCTGGGCCCTGGCGTGCTCTCTCCATCCATCCTCTCTGTCACCTCTGTGCTGGTTTGCTCCTATCTGCATGTCAACCT
GGAAATGGCTGTTGCTTTKTAGAGACCCTCTTTCCCTGACTTCAGAGCCAATTCCTTTGCTGCTGGCAGAGCTGACATTTGAAACCAACACCAACTCACA
AAGCAGCTCCTCCTTTCCAGAAGCTGCCCCACTGTGGATGGGCGMGTGGCCCAGGCCTGTCGGCTGTGGCGGTGTACATGACYGCTCTGAGCTCCACCCT
GACGGGCTCGAGGACCCCGTCTGCCATGTGTTTGGCTGACCGTGTGGTAGAGCTTCTTTTTGGAAAACCGAGAGAAAGTGGCCGAGGTGGGAATCTGGTT
GGTGACGTTGTATTTCTGTGGCTCCACATGGTTAACCTCGTGGCTCTGATCTCCTTAAATCCCCCCTCGATTCAACGTGGTTCTGTTGATTCCTCTCTCG
ATCTTTTTGGCCATTGTGATCTGGTGCCATTGTTTTTGTTTTGTTTTGTTCTGTTTTGTTTTTCGAGACGGGGTCTCACTCTGTTGCCCAGGCTGGAGTG
CAGTGGTGTGATCTCAGCTTACCACAACCTCCGCCTCCCGGCTTCAAGCAATTCTCCTGTCTCAGCCTCCCGAGTAGCTGTGATTATAGACGCCCACCAT
GCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGGCCTTAGGTGATCCACCCACCTTGGCCT
CCCGAAGGGCTGGGATTACAGACTGAGCCACTGTACCCGGCCTGATTCTRTTTGTTTGTTTGTTTGTTTTTTGTTTTTTTTGAGACAGAGTCTAACTATT
TGCCCAGGCTGGAGTGCAGTGGTGTGTGATCTTGGCTCACTGCAGCCTCCGTTTACCGGGTTCAATGATTCTCTTGCCTCAGCCTCCTGAGTAGCTGGGA
TTACAGGCATGCGCCACCATGCCTGGCTAATTTTTGAATTTTTAGTAGAGACGGGGCTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGGG
CGATCCACCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCGCCACACCTGGCCCTGTTGTTTTTATTTATTCAGTAAACAGCTATTGTAG
GCCAAGACCTGGGTGAGATACTGGGGACACAGAAGTGACCACAGTGCAGGCCCTGCCCTTCGGGGCTCACAGCCCAGTGGGGGATTAGACATGTCTTTGC
GCTTCCACACACGCTGACGGGACTGTGCTCCCCACAGCCACTGCATCCGGCTCTGTGCCAGCTGATGGTGCCGTGATTCCCCGCCGGAGCCTCCAATAGC
AGCAATGATCATGATAACCACGAGAACAGCAGCAACTTGTAGCTATTCATTATTGAGTGCTTTCTATGCCTGGGTGAGCTCCAGAAGGTTTTCTGAATTT
TTCTCATTGATCTTCCCCCACACTCTAGGAGGTGGATCTTATCATTATATGATGTCCATGTTATGGACAAGGAAACTGAGCTAGAGCAAGGTCATGCAGG
TAGAAAGTGGAGAAACAAACACTGGAAGCTAGAAACCAGATTCCAGTTCCACGCTCTTCATCCACACGGCCCCGGCGGGGCTCCTTGGCCACACGTTGGC
ATGAAGCACGAGTCCACCTGTGCGCATCCTTTCCAGTAACCTTGGAGGAACCCCGAGAGGCCTGAGCAAGCTTTTGCAAACCTCGGCGCTACAGCCCTGG
CGCCAGAGGGCTGCAATTGGAAGGCAGGCAGTTACCGGAAGAAGAGCGTTTCCTTGACTCTCCCAGCGTGACCTCATGTCTAATCAAAGTCGGCTCCTGT
TTTCTGCAGGATTAGTCAGCATCTCTTAACTAGCAGTCCCGGCCAGGAGAGCTCCTCAGCCACGTTCCCAGCCCGTCCTCCACCCTCCCATCTTCAGCTG
CCACAGCACTTTTCTCTTCCTTTCTGTGTTGTTTTGGTGCTGGGTGGACTTTGAAGGGGGCCATTAAGGGCTGGGTGTGGCAAACACACCAGACTCAGCA
CCCAGCGAGGTCTAGGCATGGCCACGGGATGGCACCACTGTGACCCCGGCAAGGAAAATAAGAAAGGTGCATATCGGCTGGGTGTGGCGGCTCACGCCTG
TGATCCCAGCACTTTGGGAGGCAGAGGTGAGAGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGGCAACATGATGAAACCCCATCTTTACTAAAAA
TACAAACACTAGCCGGGCGCGGTGGCAGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAG
TGAGCCGAGATCGTGCTACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGCCTCAAAAAAAAAAAGAAAAAGAAAATATCAGGGGGAGAAGGTGGCA
TCTGTTCTATGTTTGAGAAGGCAGCTGGACTTCCCATTGAAGGAGGCGCCGCAGTCTCCCCACATGGACAGAGGAGAACCAGGCTATTGGGGTGAGACCA
GTGCTTGTGCTTCCCAAGTGGTCTGGGTTCTGCCTCCATACTGGCTGCAGTCTGTCCCCACGGACATAGCTGCCGTGAGAAGGTTCTCACCAGCCTGGGG
CCCCACAGCCAAGGCTGGGCCCTGAGGTCTGCCGTTCTAGGGTGGCGGATGCTCTCGAATGGGACTCTCAGCCTGGGCTTCGTTGCTCTTCAAGGGACAC
ACAAAGCTCCTGAAACTGTGGATAAACCTTGGTGTGCATTTTCTGGGGAGGTCTTTATTGGATTTTTCAAAGGGTCCATGGCCCCCACAAAAGTTAAGAA
CCTCTACATTTTCACTCCAGGGKACTTGGGCCAAATGGCCATCCAAGCCTGCTGCGGGGTAGCCTGAGCCCTCGAGAGGCCGCCAGCCAGCCCTGGCATT
CCCAGTGGGGGGAYTCTGAAYGGGCACCTGCCCTTCTGATCTTTGGGAATCCCTGTCATGACCCTGAGGTCAGGGTTTCCTTCCCTCTTCACACAGAGAA
TGTCACCAATGGCACAGTGGGCGGCACAGCAGAGCCGGGGCACGAGGAGGTGAGCTGGATGAACGGCTGGCTCAGCTGCCAGGCCCAGGACGAGATGCTA
AATTTGGCCTTCACTGTGGGCTCCTTTCTGCTCAGTGCCATCACCCTGCCCCTGGGTATCGTCATGGACAAGTATGGCCCGAGGAAGCTCAGGCTGCTGG
GCAGGTCAGTGTGGGTCCCTTAGGGGGCAGGGAGTGGGCAGGTGGACCCYCTGGGCTGAGTTCCCCACAGAAGGGTATCCTGGTYGTACCTGATATCAGG
TGTACTGTGGAGCTCCCTGAAGGCCCTCCAGAATGGAGTTCCTACCCCGTCCGCCACCGAATCAGCAGGTACTGTGGTCCTCGCCGTGCTCCAGTACYGA
ATAAGAAAAGCTCCAGGCTCCAGGCCGCCCAGGGACCGGAGCTGCTTGTCACTAAGAACATGTGTTTCCCATCCCTTTGTAGTTCATAAGCATGATAATT
GGGGTTTCCCTCGCATGTGTGAGACATGCTTCCCTCAAACCTTGTTACGAAGCTGGCACAGTATCCATCTGATGAGAAAAAAAACCAACAACACTGGTTT
CCACAGCCCGTTTGACCTTATAGCTCCACCAGAAAAAAGATTTTCAACACGTACCCCCAATATAATAAGCACATGGAATTATAAATGATGTATATCTGTG
CTCTTTTTTTTTTTTTTTTTTTCAAGACGGAGTCTTGCTGTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACGGCAACCTCTGCCTCCCCA
GTTCAAGCAATTCTCCTGTCTCACCCTCCCGAGTAGCTGGGATTACAGGCGCCTGCCACCACACCCAGCTAATTTTTATATTTTTCATATTTATTTATTT
ATTTATTTATTTATTTATTTATTTATTTATTGAGATGGAGTCTCCCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCG
CCTCCCGGGTTCACGCTATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACCACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGA
GACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
TCGTGCCTGGCCCCTATGCCATTCTTTTTTTTTTTTTTTTCCTTTTGAGTTGGAGTTTTGCTGTTGTTGCCCAAGCAACTGGAGCTGGAGTGCAGTGGCT
CCCGGCCCCCTATGCCATTCTTAATGTGCTTTATAATACATATACAAAAATATAAATGAAAATGGGCTGGGCACGGTGGCTTACACTGGTAATCCCAGCT
TTTTGGGAGGCAGAGTTGGGTGGGTCACCTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCCACTAAAAATARAAAAATTA
GCCACGCGTGGTGGTGGGCGCCTGTAATATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAAATGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAG
ATCGCGCCACTGCACTCCAGCCCGGGTGACAGAGCAAGGCTCTGTCTCAAGAAAAACCAAAAACCAAAAACAAAAACAAAACAATAACACTGAATAAAGT
CATAATGGTAAATAACATTGCGTTTCTGCTTGGTTTTAGCGCCTGCTTCGCGGTTTCCTGCTTGCTGATTGCGTACGGAGCAAGTAAACCAAACGGTGAG
TGTCCTCTCCCTCCATCTTCTGTCAGGGACCGGGGAGAGAGTGCCCTGAGCTGCTCCCAGGCCCACCTGCTCTTGGACACTGTCCTGGGCCTGCTGCTCC
CTGCTCAAGTTAGAGGGGACACCTGTTACGCCTCTACTCAGTTACTTATCTCAAATAGACGGCGAGATCAGAGAGCAGCCACCCCAGACAGGAGCTTCCA
GGGTATGAGCAACTTCCATCTCATCACCAAACCAAGCYAGTCCCTCACTGATGCCAACCTGAGAGGCAAGTTCTAAGAACCAGGCCGGCTGCAGGGGCAT
GGTCATCGGTGTGTGCAGAAGTCACAAGCTGAGTCCCCTCCAGGCAGCACAGGYCAAAGCATGAAGGATGGCTTAGAAGCCACCTGGTCCCCAACCCTGT
TCAAGGATTTGTAGAGCAAACACCAAAAGAGGACTCGAGTTTCACCAAAATCTTAGCCAGGCTCATCTACTGATTTTCAGGAACCTGTATTTTTGGTTTC
AGTGAAGTAGCTTCCTTAGGCCTCCTGCTCGCTGCTGTTTGTTTTTTTGTTGTTGTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCT
CTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGCTTACWGCACCCTGGACCTCCCAGGCTCAAGCGATCGTCCCACTTCAGCCTCCAGAGTA
GCTGGGACTACAGGCACGCACACACACAGCTAGCTAATTTTTTTKTTGTTGTTGTTGAGACAGAGTCTCCCTCTGTCGCCCGGGCTGGAGTGCAATGGCG
CAATCTCAGCTCACTGCAACCTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGTGTAGTTGGGACCACGGGCACCCGCCACCACGCCTG
GCTAATTTTTTGTATTTTTATTAGAGATGGGGTTTCACTGTGTTAACCAGGATGGTCTTGATCTCCTGACCTCGTGATCCACCTGCCTCAGCCTCCCAAA
GTGCTGGGATTACAGGCGTGAGCCACCGYGCCTGGCTTCACCTGGCTAATTTTTAACTTTTTTTTAGAAATGGGGTCTCACTTTGTTGCCCAGGCTGGTC
TTGAACCCCTGGGCTCAAGCAATTCTCCTGCTTCAGCCTCCCAAAGTGTTGGGATTCTAGGTGTGAGTCACTGCGCCTGGACACTGCTAATATTAATTGG
AGAAAAGAAGATGGGTGTGCAGCTTTTTCAAGAGCCCACGCTTTGTGAAATAGGCAAGAGGAGGCTGGGCATGGTGGCTTATGCCTGTAATCTTAGCGCT
TTGGGAGGCTGAGATCGGCAGATCACCCGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGCAAGACATACAAAAATTAGCCGGGTGTGGTGGCGCA
TGCCTGTAATCCCGGCTACTTGGGAGGCTGAGGCAGGAGGATCACTTGAACCCGGGAGTCAGAGGTTGCAGTGAGCCAGGATCGTGCCATTGCACTCCAG
CCTGGGTGACAAGAGCAAAACTACGTCTCGATTAAAAAAGAAAAAGAAATAGGCCTAGAGGAGGGGGTGAGAAAGGGGCAGTTCCACTCCCCAGATGTCA
GGTACTAACCCCGGCCTGCGTTTACTGGATTTACTGGGAGCCTGCACCGCGCAGGACTCTGGGCTGGTCCYGGCTTCCCTGGAGCTCAGCTGGGGTCTCC
ACTCACGAGCTTTCCATGTCCCTGCAGCTCTCTCCGTGCTCATCTTCATCGCCCTGGCTCTGAATGGCTTTGGTGGGATGTGTATGACCTTCACCTCATT
AACAGTGAGTACRGATTTTTTAAAGCTCTGTAGTTCAGTAATCTGTTTCTAAATTTGAGGCCGCTTTGATTGGTTTCTGTTTCCTTGCCTTCCATGTGCC
TGCATGTGMCTGGGTGTCCCAAACAGTAGAGGGGCTATGGGCGAGGTGGCCTGGCAGGGCCTCCTCAGCTGAGGTCCACAGGCAGCAGGGCGTGGCTTCA
CAATCCCTTGCCTTTTTTTTTTTTTYTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGGGGGATCTCGGCTCACTGCAACCTCCGCGTC
CCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTATGGGCGTGCGCCACCACACCCGGCTAATTTTTGTATTTTTAGTACACATGG
GGTTTCGCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGCGCTGGGGTGACAGGCGTGAGCCACCT
GGCCTGGCCGACATTCCCTGCCTTCTGATCTGGGCTTTGATGCTGCGGAAGCAGCTCACTAGCCTTGTGCCCAAGGAAGGCAGAGGCAGGAAGACAAAAC
RCTGCCGCCCACTTTCTTTTCCTGTTTTCCTCGGCAGCTGTCATCAGGGTCTCCGGGAGCTTCGGCTCATGGAGCAGCCTGACCACCCGCCTCCCGTGGA
ACTGCCTCAACCTTTGCCTTTGTCCGGAGCCAGATGGAAAATGCAGGGAACATCTGGTCTTCTGCTCCTCTTGTTTCCTCCGTGCCCGGGCACAGACAGT
CGCCTGGGGGAGATGTTTTCTCGGGGTACTAARCACCCCCTTGTTGGGAGCCCCAGGACATCACAAAATATGCTCCTTCTTGATGTCAGGGAGGCAGAAG
GAAGATGGGGTTGAAAGAAAGAAAGTCAAAAAAGGGGCTGGGCATGGTGGCTCACACCTGAAATCCCAGCACTTTGGGAGACTGAGGCAGGCGGATCACT
TGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAAATACAAAAATTAGCCGGGCGGGTGGTGCATGCCTGTAATC
CCAGCTACTCGGAGGCTGAGGCGGGAGAATTGCTGGAACCTGGGAGGCGGAGGTTGCCGTGAGCCAAGATCAAGCCACTGCACTCCAGCCTGGGCGACAG
AGCCAGACTCTGTCTCAAAAACAACAACAAAAAAGAAAGTCAAAAGAGGAACCAAAAAGTCTCTCCCAGAGGGAAGAAGGGAACTCTCTGTGGGCTCGCC
CAGTTGGGCAATCGTGCCATTCCGAGCTGGCCATTGGGAAAGAAGTGAGAATAATAGCTTCTTCAGAGAGGCTTCTGTCCATCAAGGAAACCTCGCCTGC
ATCAGTTTACCGGTGAAAAAGTTTCTAAGACACAGTACCTACCATTACTATTTGTGGTACACTCTGGTTTCTGATTTCCCTTGTCGTGCCATTGAAGGGT
TCTTGTTTAGCTTTGAGGGAGCTCTGGGGGCTTCTGGACCTCTTCTTTTTTCCTTTTTCTTTTTTTTTTTTTTGAGTCTGCTCGGTTGCCCAGGCTGGAG
TGCAGTGACGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAGGCAATTCTCCTACCTCAGCCTCCCGAGTAGTTGGGACTATAGGCGTGCACC
ATCACGCCTCGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCATACCCCTGATCTCAGCCAATCTGCCCGCCTC
AGCCTCCCAAAGTGCTGGGATGACAGGCGTGAGCCACGGCGCTCGGCCGAAAACCAGCAGCTCTTTCATCAGCATGAAAACTAAAAACCTGGCCTCACCT
CCATTATTTTAGTCACGCGACGCCTCTGTCACGGCAGGCCTGAATTTCAGGGATAAAGGAACGAGATGGTCCTTGAGCTTGAGGACCTCACACCCCGAAA
TGCCGAGAGGTGTTTTGTCTGAAAAACGACCAAGAATCCCTGTTAAGAAAGACTTTAGGCCGGGTGCGGTGGCTCACACCTGTAATCCCAGCACTCCGGG
AGGCCGATGGGGGTGGTGGATCATGAGGTCAGGAGTTCGAGACCAGCCTGGCCCAAGATAGTGAAACCCCGTCTCTACTAAAATATACAAAAATTAGCTG
GGCACAGTGGTGGGTCCCTGGAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAGGCCGGGAGGCGGAGTTTGCAGTGAGCCGAGATCGCG
CCACTGAACTCCAGCCTGGGTGACAAGATCAAGACTCCCCCTCAAAAAAAAAAAAAGGAAAAAAAGAAAGACTTTAAAAGGGACCCTGCGGTTGGAGCTA
ATAGGCCAGTAAGAATTCTTTGTCTTTTTTTATGTTTTATAATTATAAAACAAAATTTTTTTCATTACATTTTTTATTTTCATTTTTTACAGATGGGGTC
TTACTATGTTGACCAGGCTGGTCTCAAACTCCTGGGCTCAACAGATCCTCCCACCTTGACCTCCCAAAGTGCTGGGATTCCAGGTGTGAGCCACCATACC
TGGCCCAAAAATGATTTTATTTTAAAAATTCAGGTTGGGAGCAGTTGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTAAGGTGGGAGGATCATTTGA
GGCCAGGGTTGAGACCAGCCTGGGCAACATAGCGAGACACCTTGTCTCTCCAATTTTTTTTTTTTTTTAATTAGCCAGGGCATGGTGGCAGTTGCTTGTA
GTCCCAGCTCCTCGGGAGGCTGAGGTGGGAGGAAGGCTTGAGCCCAGAAGTTCCAGGCCACAGTATGCCACAATGACACCACTATATTCCAGCCTGTGTG
ACAGAGCGAGACCTTGTCCCAAAAATAAAAGTAAAAATTTAACATTTCAGAAATATGAATTGTAGACTAAACTTCTATGAGCCTGCCAGGCGCAGTGGCT
CACACCTGTAATCCCAGCACTTTGGGAGGCTGAGAAGGTTCCCATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAATGAAACCCC
ATCTCTACTAAAAATACAAAAATATTACTCGGGCATGGTGGCACACGCCTGTAATCCCAGCTACTTGGGAGACTGAGGCAGGAGAATCGCTTGAACCTGG
GTGGCGGAGGTTGCAGTGAGCCGAGACCGCGGCATTGCATTCCAGCCTGGGCAACAAGAGCGAAACTCCGTTTAAAAAAAAAAAATTCTATCAGCCTGTC
TTCATCAGTTTGGAATATATTTCTTCAGTATTTAAAAGATCTGCATGTACCAGTGTTATTCTTTTTTTTTTTCTTAAAAAAAAAAGAACTGTGATAACTT
GCCTTTTCCCTTAATGTATCTTTTACATCCTTTCCTGTCAGTACTTAGAGATCTGCCTTATTATTAAGCAGTTCTGTATATTATTCTTTAATATAGATGG
ACCATCATTTATTCAACCTGTTTCCAACTAATGGACTTTTGGCTTGGTTCCCAATTTTTCCAATTTATGAATGCTGCTGAAGTGAGCATCCCTGTACATG
TATTTCTGTAAAATAAGTTCCTGGCAGCCCTGGGCCACAGGATTAGCATGTTTTAAAATTTAATATGTACTGTTAAATAGTCTTCTAAAAATGTTATCTG
GCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTCAGGAGTTYGAGACCAGCCTGACCAGTATG
GTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCTTGGTGGAGGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATYGCTT
GAACCCGGGAGGCAGAGGTTGCAGCGAGTCGAGATTGCGCCACTGCACTCCGGCCTGGGCGACGAGTGAAATTCTGTCTCAAAAAAAAGCCTGCCTGCCA
CCACAGGCCCACCAGCACGTACACGAGTGTCTTTTCCTCCATGTCCCTTCCAGTGCCATGTCATTCCTCTTTAAAACATAGCCACTCTGATCCTATGAAA
AACGACATGCCATTTTTAAAATTTATTTCATTATTAGTGAGACAGAGCATTTTTTCTCCTCTTTATTGGTAAATTGCATTTCTTCTGTGAATTGCTTCTT
TGTGTCATTTGTCTATTTTTCTACAGTGCTCTTGATTTTATTATTATTAGTATTTAGTGACTCGTAAGAGCTCTTTCAAATACAAAGACACTAGTGTTCT
TTCCGAGTGAGCAGGAGATCTTACCCTGGGGTTTTCAGGTCTCTACATGGTCCATGAGTAAGCTTCAGGAGAGCCGTGCACACCCTTGAAATTCCATGCC
AACAAAGCGTGTGTAGGTGCTGCTCAGCTGTGTCTTTCTGGAGGGGAGGGTCCATTACTTTCACTGGCCTCTGGCAGGTCTGTGTGAAGGCTAAAAACCA
CTGCGGTGGCCGGGTGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGCCAGGAGTTCAAGACCAGCCTGG
CCAACATGATGAAACCCAATCTGTACTAAACATGCAAAAATTAGCCTGGGATGGTGGCAYGTTCCTGTAATTCCAGCTACTCGGGAGGCTGAGGTGGGAG
AATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGTGGCAGAGTGAGACTCCGTCTTAAAAAAAAAAA
CAAAACACACAAACCACTGTGGCAGGAGCGTTTCTATTCACTCTTTGCTCTCCCACTGGAGGCAAAAAGCTACACAGGCTAGAGAGTGACCAGGCAAGAG
AGTCACCTGATCACCATTTGAAGCGTTTGGCTACCAGAGGTCTGTCTAAGGGAGGCTGTTGGTTTGTTCTTCAAGGTTTTCATTTTTTGATCTAGAGCAG
GAGTCAGCAAACCGCCATTGCCAGGCCAAATCCAGACCACTGCCTGTTTTTGTAAACAAAACTTCATGGGGTAGAGCTGTGCCTGTTTGCTCCTGTCTGT
GGCTGCTTTTGTGGTATCTCATCAGAGTCAACGCAGTCGTGACAGAGGCCATATGGCTTGTAAAGCCCAAAAGGTCTACTGTCTTAGCCAGGCACACTAG
CTCACGCCTGTAACCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGCTCATGAGTTTGAGAGCAGGCTGGCCAACATGGTGAAACCCCGTCT
CTACTAAAAATGCAAAAATTAGCCAGATGTGGTGGTGGGCGCCTGTAGTCCCCACGACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCA
GAGGTYGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCATGGGTGACAGAGCGAGACTCTGACTCAAAAAAAAAAAAGTCTATTGTCTGGCCCTTTAT
GGAAAAAGTTTGCCAACCCTTGGTCCAGAGGCCCCAGGAAGCTGCTACGTCACTGTTCCTCGTCTGAGGGCATGTGCTGACACCCACCATTCACACCCAC
ACCCTCTGGTTGCATGGGCCAGCTCTCCTTCTAAGTCATCTCTTTCTGCCTCCCCCCAGGGTGGAGGGAGTTCCATGGGCATTCCCCTGCCCCCTGAGGC
CTCTGATGAGGGCTCCAGTGCCTGCTCCTTGAGAACAGACCCCAAAAGGGAAATGAGGTCAGTGAGGACAGGGCTGAAGCAGTTAAGCAACACTCTTGGG
CTGACTGGGGCTTCTGCTGAGCAGAGCCGAATCTCATTCTGATACAACCCAGGACTTCAGAAAGCAGAACTGTCGGGATCAGCTCCCAGAGACGCCAAGC
TCAGGGCACAATGGCACTTTCTGTTTGTGTCTCCCACCCGTGTTCTAATTTGGGGGACAAAGGAGTCTCCAGGGTCGCCTTTAGGAATTTCTAACTCCAA
TCTTCAACAACCATGTTGGGGCTGTGGATAATAGCTCTGTGATAACCCAGGACTCTAGGGGACGGCGTTGCTGTGGAAGCCTTAATTCGGGGACTTCCTG
GGTCCCGGGGCCTTTGTGCTGCATGGGCTGTGGTCTAAATACAGATGACCAGGGGCTGCGAGCTGTTACCCCCACTGGTAGGAGAGGGGGCTCCAAGCGG
GCACACGCCTTTTCCTTGTAGTCCAGAAGGAGATGGCCAYGAGCCATCCTTCCAGAGCCCAAGAGGTCGGCACCCATGGTGGTATTTCCCTCCCAAGTGG
AGGCTCCGAGGGGCAAGGGTGGCTGTCGCGTCAGGTAGGCTGCCCAGTAGCCAGTGCTGGCTCTCCCAGGGCCCTGCAGCACAGGGCCTGGGCCATCGCG
TGCCATCCGTGGAGGGCGGACGCCAGGTCACTCCATGGGGGCAGAGCACTCCCCACGGTGTGGATCCTCAGCCTCCCCCGGGACATCTGGACGGCACGCT
CAGTGTTTGTTCAGTGCCTCGCGTTTGTACAGCCCTTTGCACTCGCTTCATCGGCTGGAGCACAAACACGGCCGGCGGCTGAGGCCGCATCYTGGGGTCG
CCACCCTCCAACCCGGAGCCTGGGTTGCTTAGAGATGGGAGCAGCTGTAGCCAAAATTGTGAACCTGCCATTTCCACTCCATTACTCTGACCCCTGTCCC
CGTGGGTGGGATGGGGATTTCTCAGCAGAAGCCACACAGAAAAGCGGGTTTCAAAATGTTGCCAGGCTCCCCGATGAGACATTTCTCTGTGGATTTTCCC
TTTTGATTCCTTCAAGTCTGACTTTAAACCTGAGGAAGGCATGATTTCATGGGAGGTGGGATCTGAGGGAAGTGAAGAGGATAAACATCCCTCTTCAGAT
CCTGGAGAGGAGGGCAGGATGGCAGATGCCCCCAGAGAGGGGACAGGAGTTTAGTGCCGTGGCTCAGTAGACCCCGCGTCTGCAGCCAGGAGAGGGTCCC
ACGGTGGCCCCCGGCCAGCTCTGGAGGGTCCAGGAGAGGGTCCCGCGGTGGCCCCCGGCCAGCTCTGGAGGGTCTAGGTGCCTGGTGAGCGGGACTTGCC
AGTGCCCAGTGCCTGCTGTGCCTCCCCACCTTCCTCTCTTTCTGTCCTGTACCTTGGGGAAGCTCAGGCAGTCAGCTACTTGCCATTGGTTTGGGGAGAA
TTTGCCATCTGAGGGTTCTGCCTCATGAATTTGCTGCAGTATGTGACCACGTTCAGACGGAAAGGGCAGCGGTATTGGCAGGACTGGACCCGGCCGGGAA
GGCACAGGAGGTGGCCGGGGGAGGGGAGCACACCCTTCYCCTCCCTTCAGCACTGAAGCAGAAAGGTGACCACAAGGACCTTGTCCCGGRCAGCATGTGC
TTGGAGGTGCCCGGTTGTTGTGGGTAGGAAACAGCCCAGCCTGGCAGAGTCTACCTGTGCAGTCTGGTTCCGGGATCCCGGCCTGTGCAGGTTGTACAGA
ACTCTGGGTGTGTACTCCAGCCACTTGGGGACAAGGCTCCCTCTGGAGGGGACCCGAGGGCCAGAATGCCAGCCCCCACCCACCACCCAGCTCCCCAGCC
CCCACCCACCTCCCAGCTCCGCAGCCCCCACCCACCACCCAGCTCCCCAGCCTCCTGCAGGCCAGGGAGGACTCGGGAGTCCGTGGATGTGGAAAGTCAG
GGCCGGGGGTGCCACGGTTGCCCCTTGTTTCTGCCTGCCAGCAATGCCATGGCCTGCCCTGGGCCAAAAGGCACGTACGTCCGGCATCTTAGAGAAGCTC
CCGCGCCCGCACTGTCCCAGGGCCTTGGCCCTGCAGGCACTCCTGTCCGGTGGTCAWGCTCTATGGCCAGAATGCCAGGGGAGGGGCCGCCTGCAGCTGC
TGTTTTCCCCTCTGGGAAGGTCACACAGTCCGGCCTGTTTATGCTGCAGCCAGGGGGCTGAAAGAGAGAGAGTCACGGGCTTCCCTGTGTGACTGAGGCT
GCGTGGAGGCAGTGAGTGAACAGCCCGGGCTGGCAGGACAGGTTGACCCGCACGGAGGCAGAGGCGGCGAGGGGGCTGTGGGAAGCACCTGAGGGCGGGA
AGAGGGGCTTGCACTCCCACCTGTGAGTGTGGTGGTGAGTCAGGAAACAGCTCCGGCTTCCTGCTTGGCAGCAAAGCTGGTCCTTCCCCTCCTGGGGTCC
TTCCCCTCCGCCAGCCCTCGAGGCCCGCGCTAGGGCGCTCTGCTCAGCGCTCAGCCCTCACTCCGGCACCGCGGCTTCGAACAGCCATTATGCGCAGCTG
AGACCGGTGGAGGCAGGGAAGCTGGGGACGGAGTGAGCGAGAGGGGGAATGTGGGGAGTGACCCAGATGTCAGGATGACCTACGGGAGTCCACAGGCAAA
TGCAAGCCCATCCGATGCTGTGGCGCTGGACCATGGGGAGGTCAGCCGAAGGCAACAGCAGGAGGTGAGGGCAGGGGGCAGATGGGTCTAAAAGGAGCTT
CAGAAGGAATGTAAGCCATCTCTAGTTGGGGACTGGGCATTGTGGTATCCCCCTGTAGTCTCAGCTGCTCAGGAGGCTGAGGTGGGCAGATGAGTTGAGC
CCAGGAGTTCTGCACAATAGCGTGCTGTGTTGATGAGATGTCTACACTAAGTTCAGCATCAGTGTGGTGACCTCCGGGGGGTGAGGGACCCCCAGGTTGC
CTAAGGAGGGCTGAACCGGCCCAGGTCAGAAACAGAGCAGGTCAAAAGTGTCCTGCTGATCAGTAGAGGGATCATGCCTGTGAATAGCCACTGCGCTCCA
GCCTGGGCAATACAGCATGACCTCATCTCCAAAAACAAATTTAAAAAAATGACCGGGCGCGGTGGCTCACGCCTGTCATCCCAGCACTTTGGGAGGCCGA
GGCGGATGGATCACCTGAAGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACTCCATCTCTACTCAAAATACAAAAAAAAAATTAGCTGGGCAT
CGTGGCAKGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCAGGGAGGTGGAGCTTGAAGTGAGCTGAGATTGTGCTGCT
GCACTGTAGCCTTGGCGACAGAGTGAGGCTCTGTCTCAAAAAATAAATAAGTAAATGAATGAAAAATAAACCTCTAGTTGAAGGGCGCAGATTGGATCTT
AATAAGGCACATGTAAAAGCCGTGGGATCCAAACTGAAGTGTGTATTGGCCGGAGCCACAGGAGACTCCAGAGAGGCAGCGTGGCCTGGGGCCTACACAC
AGAGGCTTGGCCTGGCTTGAATCCCCAATCTGACCATTACTAGCTTGGGGGAGTCCCTTGACTTTTCTAATCTTTAAGTTTTTGTTTTGTTTTGTTTTGT
TTTGTTTTTTGAGGCAGAGTTTCACTCTTGTTGCCCAGACTGGAGTGYAATGGCGCGATCTCAACTCACTGCCACCTCTGCCTCCTGGGTTCAAGCGATT
CTCCTGCCTCAGCCTGCCGAGTAGCTGGGATTACAGGTGCACGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTATTG
GCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCGGCCTCATGGT
GTTTTTTGACCAATAAAAGTTTTTAAATAGGTGGTCAAAAGTGTGTTTCAGCTTTTAGGGAGTACCTAGCATTTGTGTCAAATGAAACCTCTCTGAAGAG
AACATGAAGGATGACCTTGACCAGTGAAACCCAAAGCATAAACATCCTGACAGCAGTCAATGTGTGGTCACAACAGAATAACAAGGACAGGAGAAGAAAG
GCCATCTCTGTGGACACTAATTATTTATTTAAAGGGGAATACTAATTTGTGTTTTATCCTGTAGTCGGCTTCCTTTTCTTCCTCCCAGAGCTGTGGTTCC
TGCCAGAGGACACTTCCCTCGTTGGCTGTGCCCAGGAGCAGCTTGACCAGAAGATTTTCCCTGTTATGAAGTCATAACACATATCATAATAGTAACTATT
GTTAATACCTACCCTATTTATGATCTTTAAAACCCTCGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCA
CCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGCGGGTGCCTGTAA
TCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCATGAACCCGGGAGGTGGAGGTTGCGGTGAGCCGAGATTGCACCATTGCACTCCAGCCTGGGCAA
TAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAAAAACTGAAAAAACAAAACACCATGAATTAAGAAGTTAAATGACAAACTAGGAAAATTTATTCATAG
TATATAGAACTGTGAATGTCTTCATTTTATTTTATTTTTATTAATTTTTGAGACAAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCT
CGGCTCATTGCAACCTCTGCCTCTGGGGTTCAAGCGATTTTTCTGCCTCAGCTTCCCAAGTAGCTAGGATTACAGGTGCCTGCCACCATGTCCGGCTAAT
TTTTGTATTTTTAGTAAAGACGAGGTTTCACTATGTTGGCCAGGCTGGTCTCAAACCCCTGACCTCAGGTGATCCGCTTGCCTCGGCCTCTGAAAGTGCT
GGGATTACAGGTGTGAGCCACCGTGCCCGGCCTGTGAATGAATGTCTTTAATACATAAAGAGCCTTCACAAAATCAATATACAAAGATTGGCCGGGTGCA
GTGGCTCATGCCTGTAATCATTGCAGTTTGGGAAGCCAAGGTGGAAGGATCGCTGGAATCCAGGAGTTCAAGACCAGCCTGGGCAATAGAGTGAGACCCT
GTCTCTATAAAAATAATTAAAACAAAGCTGAAGGAGACCTTGCTATGCAGCCCCCTGCCGCTTGTGCACCCTTGTCGACCCACACGCACCTTCAGGAGGG
CGGCGCACACCTGGGGTAGTCACAGTGCAGGACTCTGGCTCAATAGCGCCTTTGCATTGGTTTGGACCTTCGGGAGGGCGGTACACGTCTGGGGTAGTCT
CAGTGCAGGACTCTGGCTCAATAGTGCCTTTGCATTGGTTGGGACCTTCGGGAAGGCAGTGCATGCCTGGGGTAGTCTCGGTGCAGAAGGACTCTGGCTC
AGTAGCACCTTTGCATCAGTTTGGACCTTCGGGAGGGCGGTGCAGAAGGACTCTGGCTCAATAGTGGCTTTGCATCGGTTTGGACCTTCCGGAGGGTGGT
ACACGCCTGGGGTAGTCTCAGTGCAGGACTCTGGCTCAATAGCACCTTTGCATTGGTTTGGACCTTCGGGAGGGCAGTACATGTCTGGGGTAGTCTCAAT
GCAGGACTCTGGCTCAGTAGCGCCTTTGCATTGGTTTGGACCTTCGGGAGGGCGGTGCATGCCTGGGGTAGTCTCAGTGCACGACTCTGGCTCAGTAGCG
CCTTTGCATCGTTTTGGACCTTTGGGAGGGCGGTGCATGCCTGGGGTAGTCTCGGTGCAGAAGGGCTCTGGCTCAGTAGCGCCTTTGCATCAGTTTGGCC
TTGGCTCCCAGCACTGGTTGTTTCCRGCGGGGTTGTCGGCTGTGTGAAGCAGGCCGTGTGCCTCTCTGGCTGTGGGGCTCTGTTCGGTGGTGTAGCAGGC
CTGAGTGCTTATTAGCCATCTCGGGATCCAGGGAACATTTGGGTTTTCCCAGCTACACCTGGAAACTTGGCGGGCATATGGGAATGAGATTCTACCACTC
TGGAAGATTCATGCCCACAGGTTTCATTGCAGTTTGCTGATGGTCCGCAAGCCTGAAATTAGCGTGTGGAACAGACCCCTTTGGTAGCAGTCTAGTGCCA
GCTCAGACCTACGAAGAATTAAAAATCTGCAAACTTCCACTATTTCAATGTTTAAGGGAAATAAATGCAGCATTTTTGCATTTCTGACATTTTACTTAAA
ACAAACAAACAAACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAAGCTCTGCCTCCCAGGTTCACGCCATTC
TCCCGTCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAG
CGAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCAAATAATTT
TTTAAGTTGTAGAAAAATGTTGAAAGTCATTAGTAAAAGTTTTTTGTTTTTTTGAGACGGAGTCTAACTGTGTTGCCCAGGCTGGAGTGCAGTGGCTCAG
TCTCTGCTCACTGCAACCTCTATCTCCCAAGTTCAAGCGATTCTGCTGCTTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCCTGCCACCACGCCCAGCT
AATTTTCTTTATTTTTGGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTGCTGGCCTCAAGTGATCCACCTGCCTCAGCCTCCTAAAG
TGCTGGGATTATAGATGTGAGCCACTGCGTCTGGCCTCAGGGTGATTTTTACCTTATTCTTTTTATACTTTGCTCCAAACATTTTGCAATGGATATGCTT
TTCTTTTCTTTTTTTGAGACAGAGTCTCACTCTGTCGCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCATTGCAACCTCTGCCCCCTGGGTTCAAGCA
ATCCTCCTGCTTCAGCCTCCCAAGTACCTGGGACTACAGGTGCACGCCGCCACACCCGGCTAATTTTTGGTATTTTTAATAGAGATGGGGTTTCACCATG
TTGGCCAGGATGGTCTCGATCTCGTGATCCGCCCACCTCAGCCTCCCAAAGTGTTGCGATTACAGGCGTGAGCCACCGCGCCCAGCCCAGGCATTGCCGT
TCTAAGGAAAAGATCATAATTAAAAATACAAGATGTCAGTGTTGGTTTGAAGGCTACCTAGTGTGGTTCCCCTGAGGCACTCTACTCCCTAAGGAATGGC
CCTGCTGACCAGAATAACATGTTGGGAAGAATTTTCTTGGTGCTGGTAAGAATGTTCCAGGCGGCAAGAGGCAGGGCATCAAAGGGAGCAGCTGGGAGGC
CCCTGCCCTGTCCAGGCCTGAGGGCAAGGCCTCATCCATGGACAGATGGAGAGTCGGCCTCTTCCCCAGGTTCTGCTCTTCCCCATCCTGGATCTAGTGC
TGGGGAGAAGACTCCAGAAGACCAGGCAGGGCCACATGGTCACCCCAGGGCCCTGTGGCTCTGTTGGTCTGTAGCCTAGGTTAGGGTTAAGGCAGGCAGG
CTTGAGATTAAAAAGGTAGAAGGAAAATGCCTAGCTAGCAAGCTCTCTGCTTTTCCGGAACATTCTCTAGCTCTGTTGAAAAGTTTGAGACACTCTTTTT
ACCCAAAGGTGACTGCAGCAACCTACATGTTAGCCTCACCTGACCCTGCACCAAGGGAGCCAGGCTCTGGGCTTCCATTTGCCCTTCTGGTTGGGTTCCA
AGCCTTCTCTGGGCCTCCCTTTTTTTTTTTTTTGAGACAGAGTCTCGTTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTC
TGCCTCCTGGATTCAAGCAATTCTGCCTCAGCCTCTTCCCCAGTAGCTGGGACTACAGGCACCCACCACCACGCCCAGCTAATTTTTGTATTTCTAGTAG
AGACAAGGTTTCACTGTGTTGGCCAAGCTGGTCTCAAGCTCCTGACCTCATGGTCCACCTGCCTCGGCCTCCCAAAGCGTTGGGATTACAGGCGTGAGCC
ACCGCGCCTGGCCCCTTTCTTTCTTTCTTTCTTTGCGCCGGCTGTGCTGGCATGCCGGGCAGGAACACTTCCCTCCTTCCGCATAAGCAGAACAAATATT
TGCATTCTCACTGGGRTAGATATGGCCACGGAGATGCCTTTGCTACAGTGCAGTAATGGAGCAGCCCAAATATGTGAGCTTGGGAACCGAGGCTTGTCCT
TTGAACTGCAACCTACCTGGGAGGCAGGTACCCAGAGAGTAAGATTGCTCACCTGGGCGTGCCTGGGCACGTGTGAGCACATCACATTTCTTTTGTCTTC
TGTTGGAAGGGATTTCTTTTCTTTTCTTTTTCTTTTTTCTTTTTTTTTTCTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGGTGGAGGGCAGTGGCGA
TATCTTGACTCACTGCAAGCTCTGCCTCCCAAGTTCAAGTGATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGCCATTATGCCCAG
CTAATTTTTGCATTTTTGTAGAGATGGGGTTTCACCATTTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCACCTTGGCCTCCCAAAG
TGCTGGGATTACAGGCGTGAGCCACCTCGCCCGGCCTCATTTCTTTTTTTTTTTTGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTT
GGCTCACTGCAACCTCCACCACCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCACGTCACCATGCCTGGCTAATT
TTTGCATTTTTTTAGCAGGGACGGGGTTTCACCATGTTCGCCRGGCTGGTCTTGAACTCCTGATCTTGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTG
GGATTACAGGCGTGAGCCACCGTGCCCAGCCTCTTTTTTTTAAAACGTAGTCTTGCTCTGTTGCRCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACT
GCAACCCCCGCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTTCCACCATACCTCGCTAAGTTTTTGTATTTT
TGGTAGAGACGGGGTCTCACTATGTTCCCTAGGCTGGTCTGGAACTCCTGACCTCGTGATCCGCCCGCTTCGGCCTCCCAAAGTGCTGGGATGACAGGCG
TGAGCCACCGCGCCTGGCCTCACTGTGACTTTTTGGTGTCCTAATGGGTATCAAGTGGTATCTCATTGTGGCTTTGATTTGAATTTCACTATGATTAATG
ATGTTGAGCATCTTTCCATATGCTTATTGGCCATTTGTATATCTTCTTTGGAGAAATGTCTATTCAGATCCTTTGCCCATTTAAAAAATTGGTTATTTCA
AAAAATAGCTGGGCGTGGTGGCACATACCTGCAATGGGAGGTGCCGCTCGGGAGGCTGAGGTGGGAGAATGGCATGAACCCAGGAGACAGAGGTTGGAGT
GGGCCGAGATCGCACCACTGCACTCCAGCCTGGGAGACAGAGCGAGACTCCATCTAAAAAAAAAAATTGGTTATTTATCTTTTTATTATTGAGATGTAGG
GGTTCTTTATATGTTCTATTTTTTGTTTTTTGAATAACTGTTGGGCACTATGTTTATATATTCTAGATGCAAGCTCTTGATCTGTGATTTGTAAGAAGTT
TCTCCCATTCTGTGCATTCTTTTCACTTTCTTGAACTCCTGCCCTCAAGTAATCCCGCTGCCCCAGCCTTCCAAAGTGCTGGGATGACAGGCACGAGCCA
CCACTCCCAGCCTGTTTTCACTTTCTTTTTTTTTTGAGATGGAGTCTCGCACTCTTGCCCAGGCTAGAGTGCAGTGGATCAATGTCAGCTCACTGCAACC
TCCATCTCCCGGTTCAAGGGATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGTCCACCACCAYGCCCGGCTAATTTTTTGTATTTTTAGT
AGAGATAGGGTTTCCCCATGTTGGCCAGGCTGGTGTTGAACTGCTGACCTCGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCGGGGATGACAGGTGTGAG
CCACCGCGCCCGGCTCTCTTTTCACTTTCTTGATGCCATCCTTTGAAGCACAGAGGTTTTAAATTTTGCTGACATCCCTTACTCATTTTTAAAAGTGGGC
AAAACAGGCAGCAGTGACTGCAGACAGGTATGTCGCCAAGTTCAAACTCCCTCCGCTCAGTAACAGTTAATTTGCTTGCAGGCAGGCAGGTTTGATAAAA
CAAAAATTATTTAKTTTGGGAGGCCAAGGTGGGAGAAGAGCTTGAGGCCAGGAGTTCAAGTCTAGCCTGGGCAATATAGTGAGACCCCATCTCTACAAAA
ATAATTAAAGGCCGGGCGTGATGGCTGATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGATAGATGGATCGCTTGAGGTCAGGAGTTCAAGACCAGCCT
GGCAGCATGGTGAAACCCTATCTCTACTAACAATACAAAAATTAGCCGGGCATGGTGGTGCACACCTGTGGTCCCAGCCACACAGGACGCTGAGGCAGGA
GACTCGCTTGAACTTGGGAGGTGGAGGTTGCAGAGAGCCAAGATTGCATGTCAGTGCATTCCAGCCTGGGTGACAGAGCGATACCCTGCCTCCAAAAAAA
AAACCACTAGCTGGGGCATGGTGGCGTGGGCCTGTTGTCCCAGTGACTTGGGAGCTGGGGGGGGAAGATCACTTGAGCCAAGTTGGAGGCTGCAGTGAGC
TATGATTGCATTACTGCACTCCCACCTGGGCAACCGAATGAGACCCTGTCTCTCTCTCTCTTTTTTTTTTTTTGACACAGAGTCTCGCTCTGTCCCCCAG
GCTGGAGTGCAGTGGCGCAGTGTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCAAGCCATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTATAGGC
GCCTGCCCCCGCTTCCGGCTCCTTTTTGTTTTTTTCGTAGAGACAGGGTTTCGCCATGTTTGCCAGGCTGATCTCCGAATTCCCTGACCTCAGGTGATCT
GCCCCCCTTGTCTCTCTCTCTTTTTTTTAACTTTAAAAAGATACAGAGGCAGGGTTTCGCCATGTTGTCCAGGCTGGTCTTAAACTCTGAGGTCAAAGGC
AGCACTCTGGGATTGCAGGCGTGAGCCACTGCGTCCAGCAGATCCTGTCTCTTAAAACAAGAAAAAAAGGCCGGGTGCGGTGGCTCACGCCTGTAATCCC
AGCACTTTGGGAGGCCAAGGCGGGCGGATCACGAAGTCAGGAGATGGAGACCATCCTGGCTAACGTGGTGAAACCCCGTCTCTACTGAAAATACAAAAAA
ATTAGCCGGGTGTGGTGGCGGGCGCCTATAGTCCCAGCTACACGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCG
AGATCGCGCCACTGCACTCCAGCCCGGCCGATAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAGAAAGAAAGAAAGAAAAAGATTCAAGACAAATGGGG
AGTGGTGGGGAGGGTGGAGGGGACATAGATTAAGTCCCCATAAGCAGCCTGAATTTAATGAAATAGGTTGGCATGGCTATCCAGAGGGCAGCCCCCAAGG
CCAGGGACGCTGGGTGTGGACAGGAAAGGTTTGCTACACACAGTGTGATGTCTCTTGAGGTTAGAGAACCTGTGCCTCTTTGGGAGGATGTAGTTTGCCC
TAGGCCTGGATTTCGGTAGAATGAGCAAGAGTTAGCCTTGAAGTCCTGTTCAGGTGGGCCCCCTCTTGCCCTGTACSCAGAATGAGCTGATGTGAGATGC
CGAGAGTGGCTTCGTTGGGAAGAGAGCCCGGACCTTGCTTCCCGTTGGCCTTCCAGGATGCTAACTGCTCGGGCCGAACATCCTGTGGGAAGATAATCCC
CTGCTTGTACTGAGAAATTCAGAAGCAGGAGGCCGGGCGCGGTGGCTCACGCCTGTAGTCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACTTGAGA
TCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCGGGCATCTCTAATCTCGCGACTTGGGAGGCTGA
GGCAGGAGAATCACTTGAACCAGGGAGGCGGAGGTTGCAACGAGCCGAGCTCACACCACTGCGCTCCAGCCTGGGGAACAAGAGCAAAACCCCATCTCAA
AACAAAGAAAAGAAATTCAGAAGCAGGAATCCTGGGCCAGCTTCATCCTCAGACCGAAGAGAACTGTAGAATTCTGATTGACATCTTCCAAAAACCTACC
CTCTCCAAACCAAAAGCAGTTTTTGCTGACATCTGGTCTTTCTGGAATGCTGATATTTTTATTTATAAAATGATGCTATTATCCCCAAATAGATTCTTAT
TTTTAACAGGCTTTCTCCCTTTGAGGGCTGCCTGAGGCTCATAACTTTGTTCTCTGGCATCTCAGTGTTACCCTGAAAAGACAAGAAGGCTCCTGGGCTC
TGCCAGGAGCAGAGAGATAGGGAGGGTTGCCAGCCGGAAAGTCAGACAACTGCTTGTATTCTGCATTACCTCCCTCCTTGGCCCCATCAGCCTCAGTCCA
TGAAGGAGAAACCTTCAGTGAGCGGTCATTGCCCCTGAACTAATGCCCCYGTGAGTCACACAGGAAGGGGCGCAGGTGAAGAAGGGGCCTCATGGGGCCT
AGTTCTCTGTCCCCTCCTCCTCCCCTTCCCTGGTGCATCCTCCCCACTGAGGTTTCTCTGCTTCTTATCTCTCAGCTGCCCAACATGTTCGGCGACCTTC
GGTCCACGTTTATTGCCTTGATGATTGGGTCCTACGCCTCCTCGGCAGTCACCTTTCCAGGAATCAAGGTGAGCACGTGTATTTTGCACTGGTGTCTGTG
CAGAGGCCTGCTCCAGGCTCCTTCCACCCTCTCTGAAGAGGGAGGCAATTGTGGGCACCCGGGGTGGCCCCTCTCCACCACCCCCACCCGGGCAGGATGC
ACCTGGGCATCACAGGGGCGACAAATGAAAACCGCGGGGCCTCAGGGGACGGGAATCACGCATKTGGCTGCAGGATCTGCCGCAGGTGCCTTTGCATTTC
RGGGCTGGGGCAGGGGAAGGGCGGTGGGTGAGTCTGTTTCCAGTTGTGAGTCTTGCCCCCGTCTCCTCCGTCATCCTGGTCTCCCGCTGCTCCCCTGCTC
CCCAACCCCCAGCCTGCTGTTATTGTACCGTTACTCCCCGCCAGCCAAAGCACTGCTCTTGGCCAAGTGTTTCAGCTGTTTCCCTCCTAGGCAGGATTTT
GAGCCTGTGGAAGTCACACAGGGTCAGGACGAAGCAAACACCTCACAGTCCATCAGCCCAAGTTCCCCAGACCCTGTGGGTCTGCCAGGGCCCCGTAGGG
GCTTCTCCRACCTCTGACCCTCACACTAAGTAAAAGCCCCTTTCCTCGGTGGTGTGTGTGGGAATGCTGTTGGCGAGGAGAGGGGGWCACGGTGTGGGCT
GGCCACCTGGGCATCGAAGTGGTGGGAGCTGGGACTCTGGGGCCAGCCATCCTATGGACTTGCAGAGATTCTCATGCCCCTGGACTGGGGAGCATCCCGA
AAGWTCTTCCTCCTCCTTTTTTTGGGGGGGAACAGGGTCTTGCTCTGTCGCCCAGGTTGGAGTGCAGCAGCACGATCTCGGCTCACTGCAACCTCCACCT
CCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGGAGCTAGGATTACAGGTGCCCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATG
GGGTTTCACCATGTTGGTCAGGCTGGCCTGGAACTCCTGACCTCATGATCCGCCCACTTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCAT
GCCTGGCTTCCTTGAGCATTTCTTTGGCCTCTGCCATGTGAGCTCTCAGAGGCACTGGGGAAGCATCAGTGGACGGGGCTGGCCGGTTCCCGCCTTCAGG
GAGCTCCGCTAATACCAGACAAGCCGACGGACCAGGAGCACCGTCCCCTCTGCTGGGCCGATCACTATGAGCCTGCAAGACGTGCCGTGGTCATGGCGGG
GCGGTCAGGAAGGCCTCCGAGTCGGGGGGCTAATCACACGCCAGGCCCAGATGACCAGCAGGGCAGGCACGGTGGGAGGACTGGAAGGCGGGTGCCTGAT
GCCCCAACGCCCAGGCTGGCAGGGCTGTGCCTCTTTGCGCGGCTCAGCACAGGGACAGCAGGGGTGGCCAGACGCCCCTGCCTGCTGCGGCTCTGGCCTC
CCCGGGCTAACTCTGCCCCCYCCCCYCCCCACCCCGTCCCCGCGGTGCCTGTCAGCTCATCTATGATGCTGGTGTCTCCTTCATCGTCGTCCTCGTGGTC
TGGGCCGGCTGCTCCGGGCTGGTTTTCCTCAACTGCTTCTTTAACTGGCCCCTTGAGCCCTTCCCGGGGCCGGAGGACATGGACTACTCGTAAGTAGAGG
TGCCCCCGTCCCGCCTGCCCCCAGCCCCCGCCCCCCAGCCGGGGTCCCGGGCAGCACCCACAGACACTCTCCCGGGGCCCCAGGGTGAAGATCAAGTTCA
GCTGGCTGGGCTTTGACCACAAGATCACAGGGAAGCAGTTCTACAAGCAGGTGACCACGGTGGGCCGGCGCCTGAGTGTGGGCAGCTCCATGAGGAGTGC
CAAGGAGCAGGTGGCGCTGCAGGAGGGCCACAAGCTGTGCCTGTCCACCGTCGACCTGGAGGTGAAGTGCCAGCCGGATGCTGCAGGTACCCGCCTGAGA
CCGCAGCCGGGCGACGGGCAGGGAGTGCTCTGTGGGTATCGGCTCACCCCATTCCCACCTCACCCMAAAAGGGGAGGCGGCCCCGCCCGCCCTGTTCTGC
AGAGGCGCTCAGGAAGGCYTGGGGGAGGGAAAGGGATTTGCCTGATTTCACCCAAGAGGTGACCCCACCGCAGCGCCAACCCCGTTACCCTCACCAGGCC
CGTCCCGAGGGCCCCCTCCTGGCCTCCAGCGTGGAGGGATCTGCGTGTCCCCCSGGTGGTGGGGACAGTGTGCCCCGGCCCTGAGCCCCGCACCCTCTCC
CTGCAGTGGCCCCCTCCTTCATGCACAGCGTGTTCAGCCCCATCCTGCTGCTCAGCCTGGTCACCATGTGCGTCACGCAGCTGCGGCTCATCTTCTACAT
GGGGGCTATGAACAACATCCTCAAGTTCCTGGTCAGCGGCGACCAGAAGACAGGTAGGTGCCCCGGGCAGCCTCGGTCGCTGTCACTCCCCGGCCTGAGC
CCAGCCCACTGGCCACCGSCCRGAATGTGTTAAGCTGAGCCGGGCCAGCSGGGCCATGGAAAGGCCGCATCCCAGGMGCTGTCTGCCCGTCAGAGCTATT
GCATCACTGCCAGCCCCAACTGTTTCTTCGTGTCCCCATCAGGGTTTCCTGGTCCAGGAGGGAGGGAAGGACCAAAATAGCCTCCTGGGTGTGGGGTGTG
GGGTGTGTGTTTTCCAGTGCCTGAGGGGGAGGKTTGCCGTGTGTGTCTGTAAATGAAAACAGAACAGAACGCTCCACCTGAGCATGGCTGAAAGACAGCA
GGTCAAGCCCAAAGTCCTCCCAGAAAGTGGCACGGTGGGTGCGTGGACACCCTGGGCATCGAGGTCAGGACGGGGCTGGAGACGCTGGGGCAACTGGCCC
ACACTGGGATCTGCATCCCTCACCGAGAAACAGGGCAGGGCAGAGACTTCCTCGGAGCTTGCGAACAGTTGAGGCTTGTCAGCTCCAACAAACACAGCTG
ATAACCCACAGTCCACTTTTCCAAACAGGGCAGGTCTTCAGCTGATTAGAGGTTTTGATTCTACAGAGAAAGTCAGGACTTCCCCGGGGCCTGAGCTGAG
TCAGCCTTAGTCATCCCCAGGCGGGACAAACACTCCAAATCCTTTTTATTGGCAGCCTCCCTGGTGTGCCACTTTTTCCGATGGTTTCCTTGTTTTTATC
AAGGTGAAGATACCCTAGGACTTGTGAAGAATCAGTTATCAGGTTTTTAGGGGATGAGAAATCCAGCTTTATCAAAAGGAAAAGATAGCAAAGGGAACCA
GATAACAGCCAGTTCTACTGTGAAAATGGTAGTCTAGGCCAGGCACGGTGGCTCACGCCTGTAATCCTAGCCCTTTTGGAGGCTGAGGCAGGTGGATCAT
GAGGTCAGGAGTTCAAGACCAGCCTGGCCAAGATTGTGAAACCCCCATCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGTGGGCCCCTGTAAT
CCCTGCTACTTGGAAGGCTGAAGCAGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACA
GAGTGCGACTCCATCTCAAAAGAAAAAAAAATATCTGTGGAACACACTTTGGGGAACCCTAATCTATCATGTCTCTTTCTTTCTTGTTTTTTTGAGGCAG
GGTCTCTTTCTGCGTTGCTTAGGCTGGAGTGCAGTGATGTGAACGCTGCAGCCTTGACCTCTTAGGGCTCCCCAGGTGYGCGCCACCACACCCAGCTAAT
TTTTAAATTCTTTGCAGAGATAGGGTCTTGCTGTGTTGCCCAGGTTGGTGTCGAACTCCTGGGCTCAAGRGATCCTCCCCTCTTGGCCTCCCAAAGTGCT
GGGATTACAGGCGTAAACCTCCACACCCAGCCTGATAAACATTCAGCCCTGGAGTGGCGGAAACCCCAAAGTGTGCAGAGAGAGCTGGTCCCTGGCCCTC
GAAAGGCTCATCTCCCTGCTGCTGAGTCAGCGTCTKTTACTCAAGCTGTCTGAGAAATCTTTTGCTGCCCAGGAGGAATGTTTCCAACTGTTTCGTATGT
TCAAAAAGTCAATTTCAAGAAGTAGAGGAAGCCAGGCCAGGAAGGTTGGTCTGTGGCAGACGAGGCACTGGTTTTCCCCCTCCTCCTTCTGTGACCCGTT
ACACCCAACACCCATAGCCCTAGCTCCGGCCGAGAGGCAGCTGCAGGGTCCGGGTCACTTTCYGCACACTCGTGAGCTTTGCGGCTCCGCAGGAGGGGGT
GTGCCGTGCTGCTGAGGAACGGCTCAAAGCACCAGAGCCATCGCCTCCGCGTACGGCCCCGCGACCACCCGCGGCAGAGGCTCCCGGGTGCTGGTTCCGA
ATGGAGACTCCAGGCCTTGCCGCTGACCGGTGACTCTGCTGCCTCCCAGCGTTTGAGACCCGCCRTCAAACAGGAGTTGCGGATTCAGGGAAACCCTAAC
TAGCCAGGGTGCTGGCAGCTGGGAAAAGGCCGCCTTTTTTTTTTTTTTTTTTTTGAGTTGGGGTCTTGCTCTGCCACCCAGGCTGGAGTGCAGTGGTGCA
ACTGATAGCTCACCACGGCCTCCGACTCCTGAGCTCAAGGGATCCTCCCACCTCGGCCTCCTAAGTATCTGGGACTACAGGTGTGTGCCACCATGCCTGG
CTAATTTGTTTTTTTTTTTTTTCCATAAAGACAAGGTCTTGCTATTTTTCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAGTTCTCCCACCTCAGCCT
CCCAAAGTGCTGAGATTATAGGCATGAGCCACAATGCCCAGCCAAAAATACAGTCTTTTTTTTTTGACATGGATTTTCGCTCTTGTCACCCGGGCTGGAG
CACAGTGGCATGAGCTCGGCTCACTGCAACCTCCGCCTCTCGGGTTCAAGCGATTGTTCTGCCTCAGCCTCCCAAGTAGCTGGGGTTACAGGCACCTGCC
ACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATGTCTCCAACTCCTGACTTCAAGTGATCCACGTGCCTCAGCCTCCCAAAGT
GCTGAGATTACAGGCGTGAGCCACGATGCCCAGCCAAAAAGCCAGTCTTGAGATGGGGAAGACGTGGCCCATGCTGTCCTCAGCAGTGCCCAGTCCCAGC
CAAAGTGGGCACTGCTGCCTCACTCTCCCACCCACCCTCAGGGTGTGGCACTTACTGGGAAGAAGCAGGCATTGAGAAACAGAATTGAGGAGGGGAAACA
GTCCAGGGCCAACAGTGCTTGGGGATTGAGGCCTGAAAATGGGAGCAGGGTACAGAGGCTGTGGCTGGCCAGATGGGTCGGGTGCCCCCTGCACCCCCAC
CCCCTAGTCAGGGGCCACCTGTCCTACCCTCCCTTTGTAAGAGTTGACAGGTGACATGTTTTCCTATTGTTGTCCTTGACTTGATAACAATCTAGGAGTT
AAATAGATACTATCATCTGTTTACGTCATCATTTATGATAGATACTATCATCATATACACCTGAAAAACGAGGCCTGGAGYKATGGAGGAGCTTGTTCAA
GGTCAGAGCCAGCACTCACATATGGGTCTTAAGACACTGGAGCAGCCAAGGGCCTCTAGACCAGGACATTCCACTCGGAGCAGCAGCTCAGGGGCCACCA
GGCCTCTGTGGCAGGGGGGCCATGGCCCAAGGAAGGGGAGCAGGCCCAGGCATGGTCCCCGTTYCTTGGAGTGGAAGGGAGACCAGCTCTGGCCATCTGG
AGGAGACCCATGGTGTCAGATGCCTTGGCTGGGCGTCAGGGGCAGGTTCTTTGACCTTTCCCTCTCTCTGAGCACAGCAGGAGGTAGATGTGACAGAGCC
GCTTCCCGCAGGCAGTGTGGTGACAGGGACCCTGATTGCACCAGGTCTTCCGCATGCCCGCCACTTCCCCATCACGCTACCCGCCAACGTCACAGGCCTG
ATTCACCAGTCCGCCTGTGACCCGGCACCAGCAGACAGGAGAATGTCAGCAGGGGCCCGGGCTGGGCATTGTCCCAAGTCCACTTCCAGAGGCCTGGCTG
CAGCTCTGCCTCCCCTGAGCGCCCCGAGTCACGCTTGGTGGGAAATGCAGTGCGGGAAACGCAGTGCGGGAAACGCAGTGTGGGAAATGCAGTGCGTGCT
GGGCATGGAGTGAGCCTGCCTCCTCTCCCATCTCTCTGTAGCACTGAGATTTCTGCCACTAACCTCTCTTCTTTCTGCTTTTTCACTTTTGCTTTCTTGA
TGCAGTGATGGCCACGGGTAAGCGGGGGGTGGGGGGGATTGTCAGGGAATGCTGTGATGTCCCCTCCCAGCCAGTCTCTGTTCAACCCAGAAGCTCCTCA
CCTCAAGCTCCAGACATGCCTCCTGGCTAGAGCCGTGGGGGTAAAACTGGGGCAATCAACATTCCTCGTCTGCTTCCCTGGAAAATCCACTGTCATTTTA
AGTCTTTGAATATGGAAGCCCTGACATCAGAGCCCCGTGAGCGGTGCCTTTCTGGGATATTTCTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAG
GGTGGAGTGCAGAGGCATGATCTTGGCTCACTGCAACCTTCACCTCCCGGGTTCAAGTGATTCTCCTTGTAGCCTCCTGAGTAGCTGGGGTTACAGGTGC
CTGCCACCACGCCCAGCTAGTTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTGGTCAGTCTGGTCTCGAACTCCTGACCTCGTGATCCGCCCAC
CTCGGGCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCGTTCTGGGCTATTTCTAGAGRCAGAAACTAACGGCCCGTCRCTTAGCCT
CCGTCACAGGAGTTCCCAAGTTATAGCGACTTCCTGGAGCTCTGGGAAGGCCATTGTGACACTCTGGGTTTCATTAGCTGTTTCTTAGAAACAAGCAGGG
GATTTGGAACCGAGAAGAAGGTGACCTGCCCCGTGCTCCATCCTCAACTTCAGAGTTAAGGTCTCCGGGCTCCTCGCAAGACCCATAGTGACAGGGGGTT
CTGGGGCAGACCCCAGAAGAGCCTGTGGGGACCAGCCCCTTCCCAGCTGGTGCCCAGTCCCTGCTCCAGGGCTGTCTGCCAGGCGTCCCCATGACGCAGC
GCCTTCCTCCACAGTTGGCCTCTACACCTCCATCTTCGGCGTGCTCCAGCTGCTGTGCCTGCTGACGGCCCCCGTCATTGGCTACATCATGGACTGGAGG
CTGAAGGAGTGTGAAGACGCCTCCGAGGAGCCCGAGGAGAAAGACGCCAACCAGTGCGTAGGCAGGGCCGGTGCCCCGGCTCCCAGCCCGCAGCCCCTGC
AGAAAGACCCCAGAGCTGCATGTCAGGCACAGGGTGGGTGGGACAGAGGGAGAGAGCAATGCACTCCAGCTSCTCCCGGAGCCCTTAGAGAGACTCACTC
ATTCAGCTCAGCATGCGTTTCAACTGCTCCCCTCTTTATGGAAATTGTTTGGAATGCAATGGAAATGCTAAAGTTTGAGGCCAGGTGCGGTGACTCATGC
CTGTAATCCCAGCACTTTGAAAGGCTGGGGTAGGAAGATCACTTGAGGCCAGGAGTTGGAGACCAGCCTGGGAAACATGGCCAGCCCCCACTCCCCGTCT
CTACAAAAAATTTAAAAATTGGCCAGGGAGGGTGGTTCATGCCTATAATACCAACACTTTGGAAGGTTGAGGTGAGTGAATTGCTTGAGCCCAGGAGTTA
GTGACCAGCCTGGCCAATGTGGTAAAACCCGGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGCGGTGGCGGCGCGCGCCTGTAATCCCAGCTACTCA
GGAGGCTGAGGCGCGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCACGCCATTGCACTTCCAGCCTGGGCAACAGAGCAAGACT
GTCTCAAAAAGAAAAAACAATAAAGAAGAAGCATTGAGTAAGAAGGAAGAAAAAGAGACACAGGTGAAAGTGTACAGACAATGGCTAGCAGACCATTTTG
CTCCTAAGACCACCCTCCCTCCACCCCTTGGCAGTGGCTACACCATCTTAAAGCCTCCCAAAGTACTGGGATTAACAGGTATGAGGCACCGCGCCCGGCT
CAGATGGTGACTTTCATTCATTGCATTCAATCATGCAGCCCACCAACCCTTTGTTATCTGCCTGCAAGGTTTATTCCGGTCAGTTTGAGTAGTAAGTTGC
TATAACCATATTATGTGTTAATAGAGTTGTTCATGATTGTGAAGATTAAACAAGGTACTGGAGTCCTACTTTATGTAAGGGATGGGCTCCAAGATCAGAG
GATGAGTTAAACGCTGTTTTCTTTTTTCTTTTTCTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCTCTATCTCGG
CTCACTGCAACCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGGCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTT
TTTTAATATATATTTTTAGTAGAGACAGGGGTTTCACAGTGTTAGACAAGATGGTCTTGATCTCCTGATCTTGTGATCCGCTTGCCTCGGCCTCCCAGAG
TGCTGGGATTACAGGCATAAGCCACCACGCCCAGCCAAACGCTGTTTTCCATGGCTCCACACCTTAATATAATAAGCTACGGTTTATTGCCTGAGGCCCT
CCACCGAGGACTCCATGCACAGTATCTCAGTGAAGACTCCCAGCACCCTGGCGAAGTGGGGACCAGTGTTATACCCATTTTACAGATGAGGGAGCTGAGG
CTGGGACTTGCAGTAGTTTGCCTAGGGCCGCACAGTTAGGAAGTGGTGGGCCTGGGACTCCCTGCACATCTGTGAGCACCTGGGGTCCGTTCTTGGATCA
TCCAGGGTGTCTGCGTGGGTGTGAGACTGGGATCGGTAATCGTTCATTCACGAGAGATAATTGCAGAGGGTGCYTGGCCGGGCGCGGTGGCTCACACCTG
TAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACAAGGTCAGAAGATCGAGACCATCCTGGCYAACAYGGTGAAACCCTGTCTCTACAAAAACGC
AAAAATTAGCCGGGTAAGGTGGCGCGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTGGCAATGA
GCCGAGATCACACCACTGCACTCCAGCCCGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAMCCCAAAGAACAAAAAAACAAAACAAAACAAAACAAAA
AACAGTGCTGTGCTATCTAGGTCAGGTCCTGCAGCCAAGAGGTTATTTGTGTCCACTCCAGTTCCATCTGCTGCCTGCTCATTTCCCCTTTACCCTCTCC
TGTCCCCACAAGGGGAAACCCATTCACTCCCCTATTTGGCTTGTATCTGGCTTCTTATCAGCGTCCTGCAAGATTTGGGTGAACTTGAAGCCAGTGGTGA
AGTGAGGCTTTGCCATGTGCCAGCTCAGGCACACGCTGCTACTTCTCTCCCCGTCGTCTTAGCTCAGCCTTCACAGAGCACTGCAGCATATGGATGGCCA
TCTTCTTGTASCCGAGACCCCCTCCGAGAGTCACACTCAGCTTGCCACTGAGAAGGGCCGGGGAGTGTCCGTAGTGCTGGTCCAGCCCCGACACAGTCCC
TAAAACGTGCCTGGGTGGCTTCTGAGTCTTGCGTCAGTTTACCTGCTGCGACGCTTGAGGCCTGACTTCTCAGGAGCACCCGGCTTCCTCCGGGGAGCCC
TCCCACCCCTGCACGTTCTGTGTCTCCACAGAGGCGAGAAGAAAAAGAAGAAGCGGGACCGGCAGATCCAGAAGATCACTAATGCCATGCGGGCCTTCGC
CTTCACCAACCTGCTGCTSGTGGGCTTTGGGGTGACCTGCCTCATTCCCAACCTGCCTCTCCAGGTGGGTGTGGGGAGTGGGAGGGGCAGGTGGGAGGTG
GGGCAGTCAGAAGGAACATGTAAAGACTCAAAAGTGTGTAATGTTTCATGGAAGCCATCAACAAAGCGGATGACTTTCTTTATTTTTTTGAGACAGAGTC
AAACTCTGTTGCTCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCAGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGT
AGCTGGGATTACAGGTGCGCACCATCACGCCCAGCTAATTTTTGTATTTTCAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTAGTCTCGAACTCCTG
ACCTCAGGSGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTTTACAGGTGTGAGGCACCGTGCCCAGCTCASATGATGACTTTCATTCATTCCACT
CAACCGAGCAGCCCACCAGCCCTTTGTTATTTGCGGAGGGCCTGTTCCCTGCCAGGCTCTGTGCTTGCTGCTGCAGGTGAGCTGGACACCTGGATTGTCT
TCTGCAAAGGGACTCCTCCCCGGAAGGCATGTCTTGGTTTTGGGGGCGTCTTGCATAACCGTGGATACCACCATCATGCCATTTCCCGGAAGTGTGTGGG
GTCGCTGTAGAGTTCCTTGTTTTGTATCGGCTCAAGCAGCTGGAATCTGACGTCCAAAGAGATCTGGCCAATCTGTGGTGTTGGTGGGAGCATCTGCTCC
CCTGTCACCAGAGTCTCACGGGGTTTCTACACTGAACAGAGTGGAGGAAGACCTTGATGGTGGCTTCATATCTGGATTCAAAAGCTTCATTCCAGGCCGG
TGGCTCATGCCTGTAATCTCAACACTTTGGTAGGTGGAGGCAGGTGGATTGCTTGAGCTCAGGAGTTTGAGACCAGCCTGGGCGACTTGGTGAAACCCTG
TCTCTACAGAAAATATAAAAGTTAGCTGGGCATGGTGGCACACTCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCATTTGAACCTGGGAG
GCGGAGGTTGCAGTGAACTGAGATCGCGCCACTGCACTCCAGCCTGGATGACAGAGTGAGACTCTGTCTCAGAAAAAAAAACCAAAAAAAACCAAAACAC
TTTGGGAGGCTGAGGCAGGTGGATCACGAGGTCAGGAGTTTGAGACTAGCCTATCCAAAATGGTGAAACCCCGTCTCTACTAAAATTACAAAAATTAGCT
GGGCGTGGTGGCACATGCCTGTAATCCCAGYTACTCAGGAGGGCTGAGGCAGGAGAATTGCTTGAATCCGGGTGGCAGAGGTTGCAGTGAGCCGAGATTG
CGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGGCTGTGTCTCAAAAAAAAAAAAAAAAACTGAATTTCTTTGCCAAACTTTTGAGGCTTCTGGAACCT
GATTTTTGACAGAGATTTTGAGTAAGGTGGCCCTTGTCACCTGCCTGGCTCCACCCACTGGTCTGTGAAAGTGGTCTAGCAGTAGGTTTTGGCCCAATCC
CTAAATTTACAAATGGTGGAGGGACGCAAGTGTGGCTTTTCCTTCCAGAGAGGTGTAGCCTGAGTCCAGATGGCATCTTGGGTCAAGTCCAGGAGGGAAG
TAAGAGTCCCTCCCTTTTTACAGGAGGCCTTGAGGTACGTTGAACACCCAGGTGTGCCCCACCGTGGGAACTGTTGTGTGTACGTGCCAACACTGGGCGT
GCAGAGCGCAGCGGGCCGTGGAACATTTGTGCCGGCCCCAGGGGGTGCTGCATCCCTCCGGCCCTCCCTGGCCTCCTGGGCTGCTTTCTCTGCAAGACTG
GCAGACCTTTGCCCTAACCGCCTTGTCCAGTCGAGGGGCAGTGCTCAGTGGGGACAGTCATCTTTTTGTTTTATGTAGGTCTCACTGAAAGAAAAGTTGT
AAAAAGGCAACAAGGCATTTGAGGTGGGGAGGCCTGCACAGCKTSYGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGGCACTGGGCACAGCCCTCTT
TCAACACTGCCAAGAGCAGCCCCTGCCCCCCCACCACCCACATTCCTGGGAACAGGTCCTGGCTGCTGAGCGGGATGGCAGGGCTGTGTACAGAAGACAA
GGCGACCACAGGGACCTGGTGGCCAAGAGGATGGCTCTTAAAAAGTGCCTCTCAGAGTTGGCGGAGTCCGCCAGCAGCAGCCTTCCTGGGCAGGGGGCCT
CCCACAGACAGCGACAGAACTTTACTAGGACCAGCCTGGGCAATATGGCGACACCCTGTCTCTACTAAAAATAAAAATTAGCCAGGTGTTGTGGAGTGCA
CCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGAATCTCGGCTCACTGCACCCCGGGAAGTTGAGGCTGCAGTGAACTGAGATTGCACCAGTGCAC
TCCAGCCYGGGCAACCGGAGTGAGACCTTGTCTCAAAAAAAAAAAAAAAAAATTAGCCGGCCTGGTGGCACATGCCTGTAATCCCAGCTACTCAGGAGGC
TGAGGGAGAACAATCGCTTGAACCCAGGAGACAGAGGTTGCAGTGAGCCGAGACCACACCACTGCACTCCAGCCTGGGGTGTAGAGCGAGACCGTCCCAA
AACAAAACCAAACAAAACAGAACAAACCACAAAAAGAAAACAAAACAAAAAGCGAAGAAACACTTCACGAGGGAGGTGAGAGGGCAGCCACCTGCTGGGA
GGGCCGGGTGACCAGGCTTGGGAGACCCTGGAGCACAGTCCGAGGTGGGCAAAGGCAGCTCGAGGCCGTGGTCAGCAACCTCTTGCTCAGTGCTGTGCCC
ATACACGTCTGTCAGCAGGGCCCTGGTTCTAGTGTTTGCCGACTTCCACGGTGCACRTGCACTCACCGTGGCTGATTTCCAGCTGCCYATGTGTTGCCAC
TGACTGTGGAACTGGAGAGTCACAGTGACACGTGGTATTTCTACAGTAGATGTGAAAAGCCTGGCCGGGCACGGYGGCTCACGCCTGTAATCCCAGCACT
TTGGGAGGCCAACGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTAGTGAAACCCCGTCTCTACAAAAAATACAAAAATTAGCCGGGCTTGG
TGGCATGCACCTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAGGCGGAGCTTGCAGTGAGCCGTGCCACTGCATTCCA
GCCTGGGCTACACAGCAAGACTCTGTCTCCAAAAAAAAAAAAAGGAAAGCCTGATGCGTGCACAGGCTCTAGTGAACCAAGTAAAATAATTAGGAAGGGA
TGAGGTTTTCCATGGTTTTGTTCGTTCATTTTGTTTTTTTTTGAGACAGGGTCTCACTCCCATCAGCCAGGCTCGAGTGCAGTGGTGGGATCTTGGCTCA
CTGCAGCCTTGACTTCCCRAGCTCAGGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACGGGCACGTACCACCAAGCCCAGTTAATTTTTATA
TTTTTTTGCAGAGATGGGGTCTTGACATGTTGCCCAGGCTGGTCTGGAACTCCTGGGCTCAAGYGATCCTCCCAGGCCTCCCAGAGTGTGGGGATTACAG
GTGTGAGCCACTGCACCAGGCCAGGAAGTGATGAGTTTTCAGAGTTTTGAGTATTCATTACCTTTAYTTTAATATAATTTATTTATTTAGTCATAAATTT
ATGTAATTTTTTTTTTTTTGAGACAGAGTCTAGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCTATCTCGGCTCACCGCAACCTCCGCCTCCCCGGTTC
AAGCGATTCTCCTGCCTCACCCTCCTGAGTAGCTGGGAATACAGGCGCCCGCCACCACACCCGGCTAATTTTTGTATTTTTAGTAAAGATGGGGTTTCAC
TGTGTTGGCCAGGCTGATCTCAAACTCCTGACCTCATATGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGACTACAGGTGTGAGCCACCATTCTCGGC
TTATAATTTAATTATTATTATTATTWTTWTTTTTTTTTTGAGACAGAGTCTCACTTTGTCACCAGGCTGGAGTGCAATGCCGTGATCTCAGCTCACTGCA
ACCTCCACCTCTTGGTTCAAGCGATTCTCCTGCCTCAACTTCCCAAGCAGCTGAGATTACAGGTGCCCACCACCACGCCCAGCTAATTTTTTGTATTTTT
AGTAAAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTTTCGAACTCCTGACCTCAGGTGATCCACCTCCTCGGCCTCCCAAAGCACTGGGATTACGGGCG
TGAGCCACCTTGCCCAGCCTATAATTTAATTTTTAATAATGACTCGGTTAGGCTGGGCGCAGTGGCTCATGCCTGTAATCCCATCATTTTGGGAGGCTGA
GGCGGGTGGATCACAACGTCATGAGTTTGAGACCAGCCGGGCCAACATGGTGAAACCCCATCTCTGCTTAAAAAATACAAAAATTAGCCGGGCATGGTGG
CGTGGGCCTGTAATCCTAGCTACTCCGAAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAGGCGAAGCTTGCAGTGAGCCAAGATCACGCCACTGCACT
CCAGCCTGGGCGACAAAGCAAGACTTCTTCTCAAACAAAACAAAAAACRAAACAAACAAACAAACAAAAAATGACTGTGTTAACGACTGGCTTGCAAAAT
TTCTGAAAATTCACAATTGGCTCCGGAGGATGGGGTTGATCCAACTCCAGGCTGACACTGCCCCTGGGGTGAGGGCCCCCARGAATTGGAGGGCGGGGGC
TGAGGGGACGGTCCCYTAAGGCCTTATGCCCACAGTCGCCTTTTCCTCCCCCAGATCCTCTCCTTCATCCTGCACACAATCGTGCGAGGATTCATCCACT
CCGCTGTCGGGGGCCTGTACGCTGCCGTGTAAGTCCTGGAAGCCGCAGGTGGCCTGGTGGGCGAGGGTGTGGGAATGGCCGGGGGGAGGTTGCTGGTGGG
ACTGAGACTCTGAGGCAGGGTCAGCCTGTCCCAGAAGGGCTCATCTTCCTGCTTCAGGGGACAGGTACCAGGGTTTCTGCTGGGTGTTTCAGGGAAAGGC
CATACCTCGTGGGAAGCAGGTCAGTGGGCAGACAGTTGGGTGCTCACAAGCCTTGGCATTCAACACGAAGTCAGTTCCCCCAGCCAGGGTCAGGCACCTG
TGCAGCTCATTATGGCCTCAGGGGCCACTACAGCCGAGTCCTGGGGCTGGCCCTGGCTGCTCACTGGGAAGGATGGGTAGGTTCTGGCTGCCTGAAGCTA
AATGCGGAAGTTCCAGTTGCCCTCATCACGGGCAGCAACATGGGTGACTGAGTCCAGAATACACCAGACGGGCCCATCCAGAGCCTCAGTGCGCCCAGCT
CTGGCCATAGCTTTCTCCAGCCCTGGCTAAAATGAAACCTGTATCTTTTTCCAAGAAGCCCCAGAAACATAAAAGGAACCACAGTGGTTCCTTCTTCTCT
GGCTCAGGCCTTGACCCAAAAACTGAAACTCAAACATCATCATCCACAGTCTCTGATGTGGGACCAGCTCATGTGTTGCTGGGATTCCTTTCCCACCTCT
GGGCCAGCAGAGCCTGACATGTGCTAAGATTTAGCCCGGAACTCTCTCCCAATTCCCGCAACAGCCCCTGGGGTAATCCCAGCTCCGCTTGCCCTCCGCC
TGCCCCTCCCCAGGCCTGGAGGAAGCTGTGGCTGTCCTGGCAGGGTCTGAGGGAGGGGGGCGGGATCTGTGGTGCTGAGTTTCCGCGATTACTCAATGCT
TCTCTGGACGAGGGCACTGCAGAGCCAAGCCCAGCCTCCACACTCCTCTCTGGGCCTGTTTCCCAAACCGCAGGTCCCCGCTGGCACCACGCTTTCCACT
CGGCTCAGCCAGACACCCACAGGCCCTGGGCACAGCTGAGTGGGGTGGGCCCTCCCCAGAGTCTGGGGCCTGGAGCTGGTCCAAAGAGAAACACTTTGCA
GAACCACCCAGCAGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGAACTTTGGGAGGCCGAGGCAGGCAGATCACRAGGTCAGGAGTTTGAGACCAG
CCTGGCCAACGTAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGATGTGGTGGCGGGCGCCTGTAATCCCAGCTACTAGGGAGGCTGAGG
CAGGAGAATTGTTTGGACYGGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGTGTCATTGCACTCCAGCCCAGGCGACAGTGCAAGACTCCATCTTAAAAA
AAAAAAAAAAAAAACAGAACTGCCCAGCAGGAAGGAATCCGAGGGCTGGCACCCCACCCTTCTCTGGCACCAACGGTGCAGCCYGGGGTCACCAGACACC
TGGGGCCAAGCAAAGCCCAGGAGGCAGGATGGCTGTGAGCTGTCGCTTGCCCTGCAGGTACCCCTCCACCCAGTTCGGCAGCCTCACGGGACTGCAGTCT
CTGATCAGCGCGCTCTTCGCCCTTCTGCAGCAGCCGCTGTTTCTGGCCATGATGGGTCCTCTCCAGGGAGACCCTCTGTGGGTAAGAGGGGTCGGGGGAT
GGTGGGTCATGGGCGCCTGCCCCCTTCTGCTAACTGCGAGCTGCAAGGTCCCCCTCGGGGGCTTCAGGGCCCCGAGGACATGTGGGAGCGTTGGTTAGGA
TTGGTTAAGAGTCCCTTTGTGAATGGTGGCYAGGCAGGAAAAGGAACATGTCCTCTCTGGACCTGATTTGGGGAGAAATAGAACAGAGTTCCTGGGCCGG
GCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGAGAGGCCGAGGCGGGAGCATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAA
ACCAGGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCAGGTGCCTGTAATCCCAGATACTCGGGAGGCTGAGACAGGAGAATCACTTGAACC
CGGGAGGCGGAGATTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGAATGACGACAGCGCGAGACTTCGTCTCAAAAAAAAAAAAAAAAAAAAA
AGAACACAGTTCCTGTCCCCGCCCCACCTCCGAGGGCCAGATTTCCTCACCAGGTACCAGGAACTTGTTCCAAGCCCAGAGGTTCAGATCAGCCCGTGTT
TCCTGGGGGCCCAGGCCCTGAGGGTGGCCACATGGCCTGTGAAGAGTTGGGAACCGGGACGCTGGCATATGGGACCTCGTGGGCCTTCCTGTTTCGTTCC
CCCYTCCACCCCGTGACCTTCTCCCCTTTCCCAAACCCGAGTGGAGGGCGGGTCTGCAGCCTCGGCGCACCACCACGCCCTGTGATGCGCGGCCTCCCTG
CCTCCCCAGGTGAACGTGGGGCTGCTCCTTCTCAGCCTGCTGGGCTTCTGCCTCCCGCTCTACCTGATCTGCTACCGGCGCCAGCTGGAGYGGCAGCTGC
AGCAGAGGCAGGAGGATGACAAACTCTTCCTCAAAATCAACGGCTCGTCCAACCAGGAGGCCTTCGTGTAGTGGCTGCCGCCTCGGAACTGCGGTCTCCT
GCCTGTGCTTCAGTGACTGACCCCTGTCCTGCCCCTCCAGAGTACCCCACGCACCCCCAGGACCTTCGCCGTCTCCGTGCCAGCGTTCACGCTCCCTCCC
GGGGCCCTGCCTCGGAGCTCTGTGGTGGAAGGACGGGAGAGGGCCCCGGACACGCGMGTTTTCTCCTGCCGAACGCAGGGGCTGCCCTGACTTTGCTCTG
CCGCCCCCCGGGGACCCGGGGCCTGGGGTCTCTGTGGTGCCTGCAGCAGGAGCCAGGAACGCCCGGCAGGCAGGCGCTCTCCCGCCAGTGTCTGGATTCT
GCCTCTTGCCAAAGCAGAGGGGGCTGCCATCCCCTGCCTGCCACCTGCCCCTCGGCTGCATGCCCACAGCCRTACCTGCCTGAGGACAAAGGCTTGCACT
GTCTCGCCYGCGCCTGGCCCCCACCCCCTCCCCGGCCAGCCTGAGGCTGCCTGAGGAAGGAAGGACCCGCTTCCTGTTGTCGGTGCTAATTCCTTTGTAA
TTCCAGCCCCCTGTCGCCTGTCCAGGGCCTGCCCACCCGTTGGAGGCCGGTGGAGAAGCCCCACCTGGCTTATGCCCTGGAGAGGGTTTAGCGGGCTGGG
TGGACCCCTCGCCTCCTCCCCGAGGGCCAATGCCGCGGACACGTTTTCACTGTCACCCTCGTTCTGTCTGCCACCTGAAGGGAATTTGAGGACCGCCGCC
AGGGCACCCCGTACATACACACAGCTGCTTTTGTGGAGGTGGACGAAAGGCTGTGGCCGGCAGACGTGGAGGTCCAGGCCGGGGTGGGGACGTGGGTGGG
TCCGAGGKGTGTGTGGGGTCGGGGTGGGCTCTAGGAGTTAGCCCTTATCCCCACTGACCAGGCGGGAGCCGCCAGGCCTGCAGCTGGGCCAGTGCCCAGG
AGCCATCCTGGCGTGGGGCCAGGAGCTTGTCCAAGGCCACAGGCCCACAGCACCCCCTGCCGGCGGGCTCCGTGGGGCCCTGGAGCTGATGACGGGGGAG
GCCCGTCCGCCTGGCCCACCAACCCGCCCACCTTGACTGCCCCCAGAAGTGTGTCTTGAGACCTCCTGGGCGTGCTTARAGGGGTGAGTTGTGTTTGGAT
TTTTAGTTATTTTCTCTTCAGTTTTATTAGACTTCTTTTTTATAAAGCAATAAATCCATTTTCCTCCGGGTAAGGGATGCCCCTTCTGGCATATCAGTTA
ATAGCTGCATGTGCCTATTTTGAGCTTGAGAAGAAAAGGCAGGACAAGAYTCTCTGCCACCGACCAGCTCCAGCCGTGCCCAGCTGCTCTTCGTCTCTCT
GGGGGACTGCTGACTCGGGAGGGACAGTGGGCCAGGAAAAGACCTTCCTCCCCAACCCCCAAACAAACTGGGCTTGTGCAGACATCTTAGAAGTGTGAGC
CACCCTCCTCTACCGATTTTCCCAGCCAAACAGGCGAATCCTGGTCCCTTTCCATCCCTACACCCTTCCACAACCCTGAAGATTCCCGCTGGGTTCTTCT
GCAGGCTCAGAGCAGTTCAGGATGTGGGCGGCAGGGAGGGGGATGAAAGGAGAAGAGGAAAGGGCAGGTCCAGGCCACATTCAAGCTCCACATTAACAGC
TTGGGCGCCTGGAACACATATCTCCTAGGCTTTATTTCACTCAAATATTTAAAAAAAGACTGGGCGTGGTGGCTCACGCCTATAATCCCAGCACTTTGGG
AGGCCAAGGCAGGAGGCTCACCTGAGGTCAGGAGTTCGAGACCATCCTGACCAACATGGAGAAACCCCGTCTGTACTAAAAATAAACATTAATCGGGCGT
GGTGGCGTGCGCCTGTAATCCCAGCTACTCGGGAGCCTGAGGCAGGAGAATCGCTTGAACCGGGGAGACGGAGATTGCCGTGAGTCGAGATCGCACCATT
GCACTCCAGCCTGGGCAACAGAGCGAGGCTCCGTCTCAAAAAGAAAAAAAAAAAGAGAACGAGATAAACATGCCCACTCCTGAGAACACTCGTTTTGTGA
TGTTAGTGGTTATTCTGATTTTCAAGAAAGTATTATAGTCAAGTTTGGGAAAGGCTGAGTTAAAAGTCAAGCCTGTTTCCTTACAGCCAGCACTGACAGC
ACTTTGCCAACGCTCATGAGCTCCGTGGCTCCTCAGGAGCGGGTGTGCTGTGCTGCCGAGGAACGGCTCGAACCATCAGAGCCACCAGCCTCCACGTGCG
GCTCCATGATCACCCCCAGCAGAGGCTCCCGGGTGCTGGTTCCAAATGGAGACTCCAGGTCTTGCCGCTGACCGGTGACTCTGCTGCCAGCATTTGAGAC
CCGCCATCACACAGGAGTTGCAGATTCGGAGAAACCCTAACTAGCCAGGGTGCTGCCAGCTGGGAAAAGGCCGCCTTTTTTTTTTTTTTTTTTTTTTTGA
GTTGGGGTCTTGCTCTGCCATCCAGGCTGGAGTGCAGTGGTGCAACTGATAGCTCACCACGGCCTCCAACTCATGGGCTCAAGGGATCCTCCCACCTCGG
CCTCCTAAGTATCTGGGACTATAAGTGTGTGCCACCATGCCTGGCTAATTTTTTTTTTCTTTTTCATAAAGATGAATTCTTGCTATTTTGCCCAGGCTGG
TCTGGAACTCCTGGGCTGAAGCAATTCTCCCACCTCAGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGTCACAATGCCTAGCCAAAAAGCCAGTCTTGA
GATGGGGAAGACGTGGCCCGTGCTGTCCCCAGCAGTGCCCAGTCCCAGCCAAAGTGGGCAGTGCTGCCTCACTCTCCCACCCACCCTCAGGGTGTGGCAC
TTACTGGGAAGAAGCAGGCATTGAGAAACAGAATTGAGGGGGGGAAACAGTCCAGGGCCAACAGTGCTTGGGGATTGAGGCCTGAAAATGCGAGCAGGGT
ACAGAGGCTGTGGCTGGCCAGATGGGTCGGGTGCCCCCTGCACTCCCACCCCCTAGTCAGGGGTCACCCATCCTACTTTGCCTTGTGTGGAGCTGACAGG
TGACATGTTTTCCTATTGTTGTCCTTGACTTGATAACAATCTGGGAGTTAAACACATATGATCATCCCTGCTTTACAACTGAAAAACGAGGCCTAGAGAT
ACTATCATCATATACACCTGAAAAACGAGGCCTGGAGCGATGGAGGAGCTTGTTCAAGGTCAGAGCCAGCACTCATATATGGGTCTTAAGACACTGGAGC
AGCCAAGGGCCTCTAGACCAGGACATTCCACTCGGAGCAGCAGCTCAGGGGCCACCAGGCCTCTGTGGCAGGGGGACCTCTGTGGCAGGGGGGACCTCTG
TGGCGGGGGGGGGCCTCTGTGGCAGGGGGGTCACAGCCCAAGGAAGGGGAGCAGGCCCAGGCATGGTTTCCGTTTCTGGGAGCCAAGAGCCTTCTCAGAA
GAGGGGGAGAGAGCTACTGCATGGAATCATTTGGGCCCTGGAGGCTGATGGGTACTTGGGGGAGCAATCCCTGGTGACCCCAACCAGCAAGACAAGTGCC
CTGTGAAGGGGAAGGGACTACAGCTGATCAAAGGAGCAGGCACCAGTGGCCGGGCCTCCCGTCTGCCCCTCATCCTCCAGGCTCTGGCGGGAAGGAGCAG
GAAGGGCTCCCTGCCCTTGGGGTTTTGATCAGTGAGGAGGGGGGCTTGGGTCTGAGTCTGGGTCTGGGTCTGCTGCCGAAACACTGCCCCCAGTCCCTCT
CCTCACTAGACTCTGGGGTCTAGGCGTGTCTTTGTGGTCGGCCTTCTCCAAACCCTCTAGGCCTCTGTCTGCAGCTGCTGCTGCCTGGACCTATACACAA
GGTCCCACCCCTCACCGGGGCCAAAGACGTGGTTTCAGGCCCTGGTGGATCCTTTCTGTTTTGCTCCATCCCCGTCCCCTCTTGCACCCAGCATCGTCCT
GGTCAGAACTTCCGTTTAAACCTTCCTTGCCTGCCGTGCACTCCGAGGGGGGCGTCACTTTGCCATAGGCCCCAGGGCTGAAAATGGCGGGACATCCAGT
ATTGGGCTCACGTGCATAAGACTGTCCCAGACAGCAGCACAATCACGTTCAGCCAAGTGGAGTTTCCGACGCACTTGTGTGGCAGCCGCGTGAATGTGAG
CCGATATGCAGCTGGGAGGGGTTGTGGGCCTCCTGCGGTGAGGGGCTCCTGCCAGGAGCTCTGAGAAGCCTCCACAGAATCAGCCGTCGGGCTCCTTCAG
CAGCAGCTCCCCTTATCTGTGCCAACGACTGGGGGCCTAACTCAAGGGTGCCAGCCCGTCTTCCGCCAATACAGACTGTGGGATTCTGAGAGTTAGGAGC
CTGGGGTCCCCTGGGGTGGGGTGGTCAGGGTGAGCAGGTGGGCTCTGTGAGCCTGTTTCCCCATGCCCTGACTCACCCCAATCCCTGGGTGAGGACAGAG
CTCCTGAAGGCCACTGAAGGAGGTGCAGCACACTCCACCTGGGTGGCCTTCCGCAGCTCAGCCCTCTTCCTGCCAGCAGGAAGCCTCTGCCTGTGCTCCT
TAAGTTAGCCATCCTCACCCCCTCCGGGCAGCTCTGAGACTGAGCCAGGGCCACTAGCAGCACCCAGACCTCGACCCTTCTCAGACCGAGGCGCCACCAC
CCCAGGCCGAGGAGGCAAGGAGGGAAGACCAAAGTCTAGAGGACTGTCTTGGTGGCCCTGGGCGAGTCTTGAACTTTGGTGCCATCATCTGCAAAAGGGA
GGAAAGAATGCCTGCGTGGTGCAGCTACGTGGATACGCAGTGAAGACCCGCATGGTGGGACGCCTGGCACTTAACAATGGTAGCATTTGGCCGGGCGCGG
TGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCAAGACCATCCCGGCTAAAACGGTGAAACCCCGTC
TCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGG
CGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAACAATGGTAGCATCG
TTTTCAGTGCCCAGGAAGAAGGCAGCTGGGACAGGGAAAGGGCCACCACACCACACCCAAGCCCATACAACAGGAGAGCCACTTTCAGCAGCTCTGAGCA
GGACAGACTTGTGGCCAAGTCAAGAAAGTAAGGTCTGGTCCCAGCGAGGTGGCTCATCCCTGTAATCCCAGTGCTTTGGGAGGCCGAAGCGGGGGCGGGG
TGGATCACTTGAGGTCAGGGGTTTGAGACCAGCCTGACCAACATGGTGAAACCTCAACTCTACTAAAAATACAAAAATTAGGGCCGGGCGCAGTGGCTCA
CGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACAAGGTCAGGAGATCGAGACCAACGTGGCTAACACAGTGAAACCCCATCTCTACTA
AAAATACGAAAAAAAAAAATTAGCTGGGCGTGGTGGTGGGTACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGT
GAAGCTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGTAAGGT
CTGTATCTGCTGACCCCACCCTTCTCCGAAGCCCTCTCCGAGCAAAGCCTTAAGAAACTCTTCTCTCGTTCACTTTTCTTTTGTGGCTTTCACGTTTTGG
TAAGACTTGGCCAAATAGCTGCTCGAGATAATCAATCACTGGTGGACAAGTTTCTGCTGAGTGAGGTTTCTGCTGAGTGGGGCGACTCAAGGCACGGTCA
CGTAGGCAGCACCTGTACACCGCATCCTCATACAGCTGCGGGACCGTGCCTCTGACTGTGTGCGTGTGTGTTTATCTAAGTGTGAGATGCATCCGGGCAT
GTCAGGGTGTGTACATGTTGGGAAGACTGTGTAGATTTCTTGTGTGCCGCTCTCTGAATGGAGGAGAGGGGAAGCGTCTTACCTCGCTGAATCCCTTTCC
ATTGCTGGAAAGAACACCTGGGCAGGAGCGGCCCCAAGACCCCGCCCAGGCCCTCGGAAGGGAGCCTGAAGGGTTAATCCGTACCCTGTATTAACCAGGG
TCAACCCAGCGGCTGACCCGCCTCTTCCCTGCTCCTTTGCCGTTTCTAGCACCTGGCTTACTTCCTGGCACACAGTGAGCACTCAATAAATGTATGCTGA
GAATGACTGCGAGCGGCTTCCTCCTTGGCTCCTGTGTCTCTTTCTCCCTAGATCACACATTTCTCGCCTCTTGTCTGGTGCCCAGGTTCCCTGTCCCTTG
ACTGGGATGCGTTCCTGACCCCCACCCCTGCCAGGCTGCATTTGCTGGTTGATCTGCATTGCCATTTGAAGGAGTGTGGGAGGGCAGAGCAACAGGCCTT
TTGGGTGGGAAGACCAAGGCTGCTGGTGAATTCTGCTTATAAAGGAAGCCCCCTCGGATCACCTGAAGTCAGGAGTTCGAGACTAGCCTGACCAACATGG
TGAAACCCTGTCTCTTCTAAAAATACAAAAAGTAGCCAGGCGTGGTGGCGAGCATTTCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGG
AGATCGAGACCATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAACTACAAAAAATGTCCAGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTT
GGAAGGCCGAGGCGGGCAGATCACGAGCTCAGGAGATCAAGACAATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAGTAGCCGG
GCGTGGTGACGGGTGCCTGTACTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCGGAGATTATAC
CACTGCGCTCCAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAGAAAAGAAAGAAAAAAACATTCTTTGAAGGCTGGCGCATGCTCTGC
CTTGGTCCCCACTCTACCCCCAGTGCCTAGAATCGTGCCTGGCATGGAATAGCTGCTCAATAAATATTTGGGGGACGAAGTTTAAAAAGAGAGAGAGACA
GAAATACCACAGAAAAGAAGCTAAAATAGACTAAGAGGCTGGGAGAAGAGCAGAGCGGAAGATGGAAACAGTGAAATACAGTCTCCCCAGGACACCCAGA
GATGGGTTACAGGGCTGGCTATAACCGACGCAGTACCAAGGGTCAACCACCCAGGGGAAACCATGCTGAGAACTGGAACCGTGAGATCCACAGACACAAT
GATGAAAGAGTGGCCGGGTGCCGTGGCTCATGCCTGTAATCCTGGCACTTTGGGAGGC


SNP Information

Context             (SEQ ID NO:64866):
TACAGATGACCAGGGGCTGCGAGCTGTTACCCCCACTGGTAGGAGAGGGGGCTCCAAGCGGGCACACGCCTTTTCCTTGTAGTCCAGAAGGAGATGGCCA
Y
GAGCCATCCTTCCAGAGCCCAAGAGGTCGGCACCCATGGTGGTATTTCCCTCCCAAGTGGAGGCTCCGAGGGGCAAGGGTGGCTGTCGCGTCAGGTAGGC
Celera SNP ID:            hCV2980111
SNP Position Genomic:     29140
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,12)      total(C,3|T,12) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64867):
TGGGTGGATCACCTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATGATGAAACCCAATCTGTACTAAACATGCAAAAATTAGCCTGGGATGGTGGCA
Y
GTTCCTGTAATTCCAGCTACTCGGGAGGCTGAGGTGGGAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCA
Celera SNP ID:            hCV2980112
SNP Position Genomic:     27560
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,6)      total(C,6|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64868):
AGTCTTCTAAAAATGTTATCTGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTCAGGAGTT
Y
GAGACCAGCCTGACCAGTATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCTTGGTGGAGGGCGCCTGTAATCCCAGCTACTTGGGAG
Celera SNP ID:            hCV2980114
SNP Position Genomic:     26679
SNP Source:               Celera
Population(Allele,Count): no_pop(C,8|T,10)   total(C,8|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64869):
GAGGGCGGTGCATGCCTGGGGTAGTCTCGGTGCAGAAGGGCTCTGGCTCAGTAGCGCCTTTGCATCAGTTTGGCCTTGGCTCCCAGCACTGGTTGTTTCC
R
GCGGGGTTGTCGGCTGTGTGAAGCAGGCCGTGTGCCTCTCTGGCTGTGGGGCTCTGTTCGGTGGTGTAGCAGGCCTGAGTGCTTATTAGCCATCTCGGGA
Celera SNP ID:            hCV27986635
SNP Position Genomic:     34626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64870):
ATCCCAGCTTTTTGGGAGGCAGAGTTGGGTGGGTCACCTGAGGCCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCCACTAAAAATA
R
AAAAATTAGCCACGCGTGGTGGTGGGCGCCTGTAATATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAAATGCTTGAACCTGGGAGGCGGAGGTTGCAGT
Celera SNP ID:            hCV26032861
SNP Position Genomic:     20792
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64871):
TTGTTGTTGTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCTCTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGCTTAC
W
GCACCCTGGACCTCCCAGGCTCAAGCGATCGTCCCACTTCAGCCTCCAGAGTAGCTGGGACTACAGGCACGCACACACACAGCTAGCTAATTTTTTTTTT
Celera SNP ID:            hCV2980117
SNP Position Genomic:     21747
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,8)   total(A,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64872):
AGGCGCTCTCCCGCCAGTGTCTGGATTCTGCCTCTTGCCAAAGCAGAGGGGGCTGCCATCCCCTGCCTGCCACCTGCCCCTCGGCTGCATGCCCACAGCC
R
TACCTGCCTGAGGACAAAGGCTTGCACTGTCTCGCCCGCGCCTGGCCCCCACCCCCTCCCCGGCCAGCCTGAGGCTGCCTGAGGAAGGAAGGACCCGCTT
Celera SNP ID:            hCV7459994
SNP Position Genomic:     60772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:64873):
TCACCAAAATCTTAGCCAGGCTCATCTACTGATTTTCAGGAACCTGTATTTTTGGTTTCAGTGAAGTAGCTTCCTTAGGCCTCCTGCTCGCTGCTGTTTG
T
TTTTTTGTTGTTGTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCTCTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGC
Celera SNP ID:            hCV26032862
SNP Position Genomic:     21642
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64874):
CACCTGGGCATCGAAGTGGTGGGAGCTGGGACTCTGGGGCCAGCCATCCTATGGACTTGCAGAGATTCTCATGCCCCTGGACTGGGGAGCATCCCGAAAG
W
TCTTCCTCCTCCTTTTTTTGGGGGGGAACAGGGTCTTGCTCTGTCGCCCAGGTTGGAGTGCAGCAGCACGATCTCGGCTCACTGCAACCTCCACCTCCCA
Celera SNP ID:            hCV7459995
SNP Position Genomic:     43504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64875):
TCAGTTACTTATCTCAAATAGACGGCGAGATCAGAGAGCAGCCACCCCAGACAGGAGCTTCCAGGGTATGAGCAACTTCCATCTCATCACCAAACCAAGC
Y
AGTCCCTCACTGATGCCAACCTGAGAGGCAAGTTCTAAGAACCAGGCCGGCTGCAGGGGCATGGTCATCGGTGTGTGCAGAAGTCACAAGCTGAGTCCCC
Celera SNP ID:            hCV2980119
SNP Position Genomic:     21338
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64876):
CACCAAAATCTTAGCCAGGCTCATCTACTGATTTTCAGGAACCTGTATTTTTGGTTTCAGTGAAGTAGCTTCCTTAGGCCTCCTGCTCGCTGCTGTTTGT
T
TTTTTGTTGTTGTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCTCTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGCT
Celera SNP ID:            hCV26032863
SNP Position Genomic:     21643
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64877):
AGGGCCCCGTAGGGGCTTCTCCTACCTCTGACCCTCACACTAAGTAAAAGCCCCTTTCCTCGGTGGTGTGTGTGGGAATGCTGTTGGCGAGGAGAGGGGG
W
CACGGTGTGGGCTGGCCACCTGGGCATCGAAGTGGTGGGAGCTGGGACTCTGGGGCCAGCCATCCTATGGACTTGCAGAGATTCTCATGCCCCTGGACTG
Celera SNP ID:            hCV7459996
SNP Position Genomic:     43387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64878):
ACCAAAATCTTAGCCAGGCTCATCTACTGATTTTCAGGAACCTGTATTTTTGGTTTCAGTGAAGTAGCTTCCTTAGGCCTCCTGCTCGCTGCTGTTTGTT
T
TTTTGTTGTTGTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCTCTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGCTT
Celera SNP ID:            hCV26032864
SNP Position Genomic:     21644
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64879):
TCGAACTCCTGACCTCGTGATCCGCCCACCTCGGGCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCGTTCTGGGCTATTTCTAGAG
R
CAGAAACTAACGGCCCGTCACTTAGCCTCCGTCACAGGAGTTCCCAAGTTATAGCGACTTCCTGGAGCTCTGGGAAGGCCATTGTGACACTCTGGGTTTC
Celera SNP ID:            hCV27951683
SNP Position Genomic:     49572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64880):
CCAAAATCTTAGCCAGGCTCATCTACTGATTTTCAGGAACCTGTATTTTTGGTTTCAGTGAAGTAGCTTCCTTAGGCCTCCTGCTCGCTGCTGTTTGTTT
T
TTTGTTGTTGTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCTCTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGCTTA
Celera SNP ID:            hCV26032865
SNP Position Genomic:     21645
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64881):
AATCTTAGCCAGGCTCATCTACTGATTTTCAGGAACCTGTATTTTTGGTTTCAGTGAAGTAGCTTCCTTAGGCCTCCTGCTCGCTGCTGTTTGTTTTTTT
G
TTGTTGTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCTCTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGCTTACTGC
Celera SNP ID:            hCV26032866
SNP Position Genomic:     21649
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64882):
TAAACATTCAGCCCTGGAGTGGCGGAAACCCCAAAGTGTGCAGAGAGAGCTGGTCCCTGGCCCTCGAAAGGCTCATCTCCCTGCTGCTGAGTCAGCGTCT
K
TTACTCAAGCTGTCTGAGAAATCTTTTGCTGCCCAGGAGGAATGTTTCCAACTGTTTCGTATGTTCAAAAAGTCAATTTCAAGAAGTAGAGGAAGCCAGG
Celera SNP ID:            hCV12119532
SNP Position Genomic:     46736
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,8)      total(G,1|T,8) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64883):
TGAGGCAGGAGAATTGTTTGGACTGGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGTGTCATTGCACTCCAGCCCAGGCGACAGTGCAAGACTCCATCTT
A
AAAAAAAAAAAAAAAAAACAGAACTGCCCAGCAGGAAGGAATCCGAGGGCTGGCACCCCACCCTTCTCTGGCACCAACGGTGCAGCCCGGGGTCACCAGA
Celera SNP ID:            hCV12119605
SNP Position Genomic:     59096
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,9)   total(A,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64884):
CTTAGCCAGGCTCATCTACTGATTTTCAGGAACCTGTATTTTTGGTTTCAGTGAAGTAGCTTCCTTAGGCCTCCTGCTCGCTGCTGTTTGTTTTTTTGTT
G
TTGTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCTCTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGCTTACTGCACC
Celera SNP ID:            hCV26032867
SNP Position Genomic:     21652
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|G,5)   total(G,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64885):
AGGCACTGGTTTTCCCCCTCCTCCTTCTGTGACCCGTTACACCCAACACCCATAGCCCTAGCTCCGGCCGAGAGGCAGCTGCAGGGTCCGGGTCACTTTC
Y
GCACACTCGTGAGCTTTGCGGCTCCGCAGGAGGGGGTGTGCCGTGCTGCTGAGGAACGGCTCAAAGCACCAGAGCCATCGCCTCCGCGTACGGCCCCGCG
Celera SNP ID:            hCV12119533
SNP Position Genomic:     46963
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64886):
AGGCTCATCTACTGATTTTCAGGAACCTGTATTTTTGGTTTCAGTGAAGTAGCTTCCTTAGGCCTCCTGCTCGCTGCTGTTTGTTTTTTTGTTGTTGTTG
T
TTTGTTTTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCTCTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGCTTACTGCACCCTGGACC
Celera SNP ID:            hCV26032868
SNP Position Genomic:     21659
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64887):
CCACCCGCGGCAGAGGCTCCCGGGTGCTGGTTCCGAATGGAGACTCCAGGCCTTGCCGCTGACCGGTGACTCTGCTGCCTCCCAGCGTTTGAGACCCGCC
R
TCAAACAGGAGTTGCGGATTCAGGGAAACCCTAACTAGCCAGGGTGCTGGCAGCTGGGAAAAGGCCGCCTTTTTTTTTTTTTTTTTTTTGAGTTGGGGTC
Celera SNP ID:            hCV12119534
SNP Position Genomic:     47165
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64888):
GGCTCATCTACTGATTTTCAGGAACCTGTATTTTTGGTTTCAGTGAAGTAGCTTCCTTAGGCCTCCTGCTCGCTGCTGTTTGTTTTTTTGTTGTTGTTGT
T
TTGTTTTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCTCTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGCTTACTGCACCCTGGACCT
Celera SNP ID:            hCV26032869
SNP Position Genomic:     21660
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64889):
CTTTCTTGTTTTTTTGAGGCAGGGTCTCTTTCTGCGTTGCTTAGGCTGGAGTGCAGTGATGTGAACGCTGCAGCCTTGACCTCTTAGGGCTCCCCAGGTG
Y
GCGCCACCACACCCAGCTAATTTTTAAATTCTTTGCAGAGATAGGGTCTTGCTGTGTTGCCCAGGTTGGTGTCGAACTCCTGGGCTCAAGGGATCCTCCC
Celera SNP ID:            hCV26368280
SNP Position Genomic:     46479
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64890):
CCCCAGGTGCGCGCCACCACACCCAGCTAATTTTTAAATTCTTTGCAGAGATAGGGTCTTGCTGTGTTGCCCAGGTTGGTGTCGAACTCCTGGGCTCAAG
R
GATCCTCCCCTCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTAAACCTCCACACCCAGCCTGATAAACATTCAGCCCTGGAGTGGCGGAAACCCCAAA
Celera SNP ID:            hCV26368281
SNP Position Genomic:     46570
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64891):
GAGAATCGCTTGAACCCAGGAGGCAGAGGTGGCAATGAGCCGAGATCACACCACTGCACTCCAGCCCGGGTGACAGAGCGAGACTCCATCTCAAAAAAAA
M
CCCAAAGAACAAAAAAACAAAACAAAACAAAACAAAAAACAGTGCTGTGCTATCTAGGTCAGGTCCTGCAGCCAAGAGGTTATTTGTGTCCACTCCAGTT
Celera SNP ID:            hCV26368283
SNP Position Genomic:     52063
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64892):
GGGAGTGGGAGGGGCAGGTGGGAGGTGGGGCAGTCAGAAGGAACATGTAAAGACTCAAAAGTGTGTAATGTTTCATGGAAGCCATCAACAAAGCGGATGA
C
TTTCTTTATTTTTTTGAGACAGAGTCAAACTCTGTTGCTCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCAGCCTCCTGGGTTCAAGC
Celera SNP ID:            hCV26368284
SNP Position Genomic:     52874
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,4)   total(C,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64893):
GGAGTGGGAGGGGCAGGTGGGAGGTGGGGCAGTCAGAAGGAACATGTAAAGACTCAAAAGTGTGTAATGTTTCATGGAAGCCATCAACAAAGCGGATGAC
T
TTCTTTATTTTTTTGAGACAGAGTCAAACTCTGTTGCTCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCAGCCTCCTGGGTTCAAGCG
Celera SNP ID:            hCV26368285
SNP Position Genomic:     52875
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64894):
GAGTGGGAGGGGCAGGTGGGAGGTGGGGCAGTCAGAAGGAACATGTAAAGACTCAAAAGTGTGTAATGTTTCATGGAAGCCATCAACAAAGCGGATGACT
T
TCTTTATTTTTTTGAGACAGAGTCAAACTCTGTTGCTCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCAGCCTCCTGGGTTCAAGCGA
Celera SNP ID:            hCV26368286
SNP Position Genomic:     52876
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64895):
AGTGGGAGGGGCAGGTGGGAGGTGGGGCAGTCAGAAGGAACATGTAAAGACTCAAAAGTGTGTAATGTTTCATGGAAGCCATCAACAAAGCGGATGACTT
T
CTTTATTTTTTTGAGACAGAGTCAAACTCTGTTGCTCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCAGCCTCCTGGGTTCAAGCGAT
Celera SNP ID:            hCV26368287
SNP Position Genomic:     52877
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64896):
ACTCCTGACCTCATATGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGACTACAGGTGTGAGCCACCATTCTCGGCTTATAATTTAATTATTATTATTA
T
TATTATTTTTTTTTTGAGACAGAGTCTCACTTTGTCACCAGGCTGGAGTGCAATGCCGTGATCTCAGCTCACTGCAACCTCCACCTCTTGGTTCAAGCGA
Celera SNP ID:            hCV26368288
SNP Position Genomic:     56824
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64897):
TCCTGACCTCATATGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGACTACAGGTGTGAGCCACCATTCTCGGCTTATAATTTAATTATTATTATTATT
W
TTATTTTTTTTTTGAGACAGAGTCTCACTTTGTCACCAGGCTGGAGTGCAATGCCGTGATCTCAGCTCACTGCAACCTCCACCTCTTGGTTCAAGCGATT
Celera SNP ID:            hCV26368289
SNP Position Genomic:     56826
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64898):
CCAACCTGAGAGGCAAGTTCTAAGAACCAGGCCGGCTGCAGGGGCATGGTCATCGGTGTGTGCAGAAGTCACAAGCTGAGTCCCCTCCAGGCAGCACAGG
Y
CAAAGCATGAAGGATGGCTTAGAAGCCACCTGGTCCCCAACCCTGTTCAAGGATTTGTAGAGCAAACACCAAAAGAGGACTCGAGTTTCACCAAAATCTT
Celera SNP ID:            hCV12114454
SNP Position Genomic:     21454
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64899):
CCTCAAGTTCCTGGTCAGCGGCGACCAGAAGACAGGTAGGTGCCCCGGGCAGCCTCGGTCGCTGTCACTCCCCGGCCTGAGCCCAGCCCACTGGCCACCG
S
CCGGAATGTGTTAAGCTGAGCCGGGCCAGCGGGGCCATGGAAAGGCCGCATCCCAGGAGCTGTCTGCCCGTCAGAGCTATTGCATCACTGCCAGCCCCAA
Celera SNP ID:            hCV25995840
SNP Position Genomic:     45219
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:64900):
GTACAGATTTTTTAAAGCTCTGTAGTTCAGTAATCTGTTTCTAAATTTGAGGCCGCTTTGATTGGTTTCTGTTTCCTTGCCTTCCATGTGCCTGCATGTG
M
CTGGGTGTCCCAAACAGTAGAGGGGCTATGGGCGAGGTGGCCTGGCAGGGCCTCCTCAGCTGAGGTCCACAGGCAGCAGGGCGTGGCTTCACAATCCCTT
Celera SNP ID:            hCV25999263
SNP Position Genomic:     23009
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,36)   total(A,1|C,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:64901):
GCCAGGCTGGTCTTGAACTCCTGGCCTTAGGTGATCCACCCACCTTGGCCTCCCGAAGGGCTGGGATTACAGACTGAGCCACTGTACCCGGCCTGATTCT
R
TTTGTTTGTTTGTTTGTTTTTTGTTTTTTTTGAGACAGAGTCTAACTATTTGCCCAGGCTGGAGTGCAGTGGTGTGTGATCTTGGCTCACTGCAGCCTCC
Celera SNP ID:            hCV2980126
SNP Position Genomic:     17050
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64902):
CATCTACTGATTTTCAGGAACCTGTATTTTTGGTTTCAGTGAAGTAGCTTCCTTAGGCCTCCTGCTCGCTGCTGTTTGTTTTTTTGTTGTTGTTGTTTTG
T
TTTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCTCTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGCTTACTGCACCCTGGACCTCCCA
Celera SNP ID:            hCV26032870
SNP Position Genomic:     21664
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64903):
AACCAACACCAACTCACAAAGCAGCTCCTCCTTTCCAGAAGCTGCCCCACTGTGGATGGGCGAGTGGCCCAGGCCTGTCGGCTGTGGCGGTGTACATGAC
Y
GCTCTGAGCTCCACCCTGACGGGCTCGAGGACCCCGTCTGCCATGTGTTTGGCTGACCGTGTGGTAGAGCTTCTTTTTGGAAAACCGAGAGAAAGTGGCC
Celera SNP ID:            hCV2980127
SNP Position Genomic:     16483
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64904):
ATCTACTGATTTTCAGGAACCTGTATTTTTGGTTTCAGTGAAGTAGCTTCCTTAGGCCTCCTGCTCGCTGCTGTTTGTTTTTTTGTTGTTGTTGTTTTGT
T
TTGTTTTGTTTTGTTTTGTTTTAGAGACAGGGTCTCTCTCTGTCACCCTGGCTGGAGTGCAGTGGTGCAGTCACAGCTTACTGCACCCTGGACCTCCCAG
Celera SNP ID:            hCV26032871
SNP Position Genomic:     21665
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64905):
AAGAGGTGACCCCACCGCAGCGCCAACCCCGTTACCCTCACCAGGCCCGTCCCGAGGGCCCCCTCCTGGCCTCCAGCGTGGAGGGATCTGCGTGTCCCCC
S
GGTGGTGGGGACAGTGTGCCCCGGCCCTGAGCCCCGCACCCTCTCCCTGCAGTGGCCCCCTCCTTCATGCACAGCGTGTTCAGCCCCATCCTGCTGCTCA
Celera SNP ID:            hCV25971677
SNP Position Genomic:     44954
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,2)   caucasian(C,34)   total(C,68|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:64906):
GAGCCAATTCCTTTGCTGCTGGCAGAGCTGACATTTGAAACCAACACCAACTCACAAAGCAGCTCCTCCTTTCCAGAAGCTGCCCCACTGTGGATGGGCG
M
GTGGCCCAGGCCTGTCGGCTGTGGCGGTGTACATGACCGCTCTGAGCTCCACCCTGACGGGCTCGAGGACCCCGTCTGCCATGTGTTTGGCTGACCGTGT
Celera SNP ID:            hCV2980128
SNP Position Genomic:     16445
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,13)   total(A,13|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64907):
ACTGCACCCTGGACCTCCCAGGCTCAAGCGATCGTCCCACTTCAGCCTCCAGAGTAGCTGGGACTACAGGCACGCACACACACAGCTAGCTAATTTTTTT
K
TTGTTGTTGTTGAGACAGAGTCTCCCTCTGTCGCCCGGGCTGGAGTGCAATGGCGCAATCTCAGCTCACTGCAACCTCCACCTCCCGGGTTCACGCCATT
Celera SNP ID:            hCV26032872
SNP Position Genomic:     21845
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,6)   total(G,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64908):
CCATCCTGGGCCCTGGCGTGCTCTCTCCATCCATCCTCTCTGTCACCTCTGTGCTGGTTTGCTCCTATCTGCATGTCAACCTGGAAATGGCTGTTGCTTT
K
TAGAGACCCTCTTTCCCTGACTTCAGAGCCAATTCCTTTGCTGCTGGCAGAGCTGACATTTGAAACCAACACCAACTCACAAAGCAGCTCCTCCTTTCCA
Celera SNP ID:            hCV2980129
SNP Position Genomic:     16319
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64909):
GGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCAAAGTAGTTGGGGT
Y
ACGGGTACCTGCCACCAAGCCTGGCTAAATTTTTTTGTATTTGTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAA
Celera SNP ID:            hCV1223075
SNP Position Genomic:     15819
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64910):
GACAGGAGAATCACTTGAACCCGGGAGGCGGAGATTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGAATGACGACAGCGCGAGACTTCGTCTC
A
AAAAAAAAAAAAAAAAAAAAAGAACACAGTTCCTGTCCCCGCCCCACCTCCGAGGGCCAGATTTCCTCACCAGGTACCAGGAACTTGTTCCAAGCCCAGA
Celera SNP ID:            hCV12119611
SNP Position Genomic:     59880
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,8)   total(A,3|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64911):
GGGGTTTCACTGTGTTAACCAGGATGGTCTTGATCTCCTGACCTCGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCG
Y
GCCTGGCTTCACCTGGCTAATTTTTAACTTTTTTTTAGAAATGGGGTCTCACTTTGTTGCCCAGGCTGGTCTTGAACCCCTGGGCTCAAGCAATTCTCCT
Celera SNP ID:            hCV26032873
SNP Position Genomic:     22129
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64912):
TCCCAGCTACTCAGGAGGCTGAGGTGGGAGAATCTCGGCTCACTGCACCCCGGGAAGTTGAGGCTGCAGTGAACTGAGATTGCACCAGTGCACTCCAGCC
Y
GGGCAACCGGAGTGAGACCTTGTCTCAAAAAAAAAAAAAAAAAATTAGCCGGCCTGGTGGCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGGAG
Celera SNP ID:            hCV2980057
SNP Position Genomic:     55208
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64913):
GTAGAGGGGCTATGGGCGAGGTGGCCTGGCAGGGCCTCCTCAGCTGAGGTCCACAGGCAGCAGGGCGTGGCTTCACAATCCCTTGCCTTTTTTTTTTTTT
Y
TGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGGGGGATCTCGGCTCACTGCAACCTCCGCGTCCCAGGTTCAAGCGATTCTCCTGCCTC
Celera SNP ID:            hCV26032874
SNP Position Genomic:     23126
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64914):
GATGGAAAATGCAGGGAACATCTGGTCTTCTGCTCCTCTTGTTTCCTCCGTGCCCGGGCACAGACAGTCGCCTGGGGGAGATGTTTTCTCGGGGTACTAA
R
CACCCCCTTGTTGGGAGCCCCAGGACATCACAAAATATGCTCCTTCTTGATGTCAGGGAGGCAGAAGGAAGATGGGGTTGAAAGAAAGAAAGTCAAAAAA
Celera SNP ID:            hCV26032875
SNP Position Genomic:     23733
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64915):
GTATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCTTGGTGGAGGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAAT
Y
GCTTGAACCCGGGAGGCAGAGGTTGCAGCGAGTCGAGATTGCGCCACTGCACTCCGGCCTGGGCGACGAGTGAAATTCTGTCTCAAAAAAAAGCCTGCCT
Celera SNP ID:            hCV26032876
SNP Position Genomic:     26796
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,14)   total(C,14|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64916):
GGATCACCTGAAGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCGAAACTCCATCTCTACTCAAAATACAAAAAAAAAATTAGCTGGGCATCGTGGCA
K
GTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCAGGGAGGTGGAGCTTGAAGTGAGCTGAGATTGTGCTGCTGCACTGTA
Celera SNP ID:            hCV26032877
SNP Position Genomic:     31908
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,4|-,8)   total(G,4|-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64917):
GGGGAGTCCCTTGACTTTTCTAATCTTTAAGTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTTTGAGGCAGAGTTTCACTCTTGTTGCCCAGACTGGAGTG
Y
AATGGCGCGATCTCAACTCACTGCCACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTGCCGAGTAGCTGGGATTACAGGTGCACGCCACC
Celera SNP ID:            hCV26032878
SNP Position Genomic:     32348
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64918):
TTGATAACAATCTAGGAGTTAAATAGATACTATCATCTGTTTACGTCATCATTTATGATAGATACTATCATCATATACACCTGAAAAACGAGGCCTGGAG
Y
GATGGAGGAGCTTGTTCAAGGTCAGAGCCAGCACTCACATATGGGTCTTAAGACACTGGAGCAGCCAAGGGCCTCTAGACCAGGACATTCCACTCGGAGC
Celera SNP ID:            hCV27995031
SNP Position Genomic:     48281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64919):
AGTGCCAGCCGGATGCTGCAGGTACCCGCCTGAGACCGCAGCCGGGCGACGGGCAGGGAGTGCTCTGTGGGTATCGGCTCACCCCATTCCCACCTCACCC
M
AAAAGGGGAGGCGGCCCCGCCCGCCCTGTTCTGCAGAGGCGCTCAGGAAGGCCTGGGGGAGGGAAAGGGATTTGCCTGATTTCACCCAAGAGGTGACCCC
Celera SNP ID:            hCV27995033
SNP Position Genomic:     44766
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64920):
CCTGACCTCATATGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGACTACAGGTGTGAGCCACCATTCTCGGCTTATAATTTAATTATTATTATTATTA
T
TATTTTTTTTTTGAGACAGAGTCTCACTTTGTCACCAGGCTGGAGTGCAATGCCGTGATCTCAGCTCACTGCAACCTCCACCTCTTGGTTCAAGCGATTC
Celera SNP ID:            hCV26368290
SNP Position Genomic:     56827
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64921):
TGACCTCATATGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGACTACAGGTGTGAGCCACCATTCTCGGCTTATAATTTAATTATTATTATTATTATT
W
TTTTTTTTTTGAGACAGAGTCTCACTTTGTCACCAGGCTGGAGTGCAATGCCGTGATCTCAGCTCACTGCAACCTCCACCTCTTGGTTCAAGCGATTCTC
Celera SNP ID:            hCV26368291
SNP Position Genomic:     56829
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64922):
CTTGAATCCAGGAGGCGAAGCTTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGCGACAAAGCAAGACTTCTTCTCAAACAAAACAAAAAAC
R
AAACAAACAAACAAACAAAAAATGACTGTGTTAACGACTGGCTTGCAAAATTTCTGAAAATTCACAATTGGCTCCGGAGGATGGGGTTGATCCAACTCCA
Celera SNP ID:            hCV26368292
SNP Position Genomic:     57449
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64923):
CAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCTCGCCCGGCCTCATTTCT
T
TTTTTTTTTTGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCCACCACCCGGGTTCAAGCAATTCTCCTGC
Celera SNP ID:            hCV26368293
SNP Position Genomic:     38445
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64924):
TGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCACGTCACCATGCCTGGCTAATTTTTGCATTTTTTTAGCAGGGACGGGGTTTCACCATGTTCGCC
R
GGCTGGTCTTGAACTCCTGATCTTGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCTCTTTTTTTTAA
Celera SNP ID:            hCV26368294
SNP Position Genomic:     38643
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64925):
CTTGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCTCTTTTTTTTAAAACGTAGTCTTGCTCTGTTGC
R
CAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCCCCGCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGC
Celera SNP ID:            hCV26368295
SNP Position Genomic:     38765
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64926):
GGCCTGGCCGACATTCCCTGCCTTCTGATCTGGGCTTTGATGCTGCGGAAGCAGCTCACTAGCCTTGTGCCCAAGGAAGGCAGAGGCAGGAAGACAAAAC
R
CTGCCGCCCACTTTCTTTTCCTGTTTTCCTCGGCAGCTGTCATCAGGGTCTCCGGGAGCTTCGGCTCATGGAGCAGCCTGACCACCCGCCTCCCGTGGAA
Celera SNP ID:            hCV12114464
SNP Position Genomic:     23501
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64927):
AGAGTGACCAGGCAAGAGAGTCACCTGATCACCATTTGAAGCGTTTGGCTACCAGAGGTCTGTCTAAGGGAGGCTGTTGGTTTGTTCTTCAAGGTTTTCA
T
TTTTTGATCTAGAGCAGGAGTCAGCAAACCGCCATTGCCAGGCCAAATCCAGACCACTGCCTGTTTTTGTAAACAAAACTTCATGGGGTAGAGCTGTGCC
Celera SNP ID:            hCV12114467
SNP Position Genomic:     27883
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,11)   total(-,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64928):
TCTGGCTCTAGATGAGAAAACCCATGGGTTTAGAGACCCAGCTGTGGTTCCTCCCTGGGGTAACTGGAGGTCCCTGGTGCCTTTACTCAGGCAGTGCTGC
Y
TCACCCACTCCATTCCTTGTCCCCGTGGCTCCTGCTTGCAGCAGTAGAACCTGCAGCCCCCCAAGCCCTCAGTTATTCCACGGCCCCTGTGCAGTCACTG
Celera SNP ID:            hCV2980130
SNP Position Genomic:     16104
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64929):
GCAGTCTCGGCTCACTGTAACCTCTGCCTCTCGGGTTAAAGCGATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCTGCCACCATACCC
R
GCTAATTTTTTGTATTTGTATTTGTATTTTATTTTATTTTATTTTTTTGAGATGGAGTTTCACTCTGTCGCCCAGGCTGGAGTACAATGGCATGATCTCA
Celera SNP ID:            hCV2980131
SNP Position Genomic:     13104
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64930):
TCTGCTGCCTCGAGGACCTCTTTTCTTGGGGGATGGGGAGGAGGGAACGGAGTTTCACTCTTGTCGCCCAGGCTGGAGTGCAGTGGCGCAGTCTCGGCTC
R
CTGTAACCTCTGCCTCTCGGGTTAAAGCGATTTTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCTGCCACCATACCCGGCTAATTTTTTGT
Celera SNP ID:            hCV2980132
SNP Position Genomic:     13017
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64931):
TTACAGGTGCGCACCATCACGCCCAGCTAATTTTTGTATTTTCAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTAGTCTCGAACTCCTGACCTCAGG
S
GATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTTTACAGGTGTGAGGCACCGTGCCCAGCTCAGATGATGACTTTCATTCATTCCACTCAACCGAGC
Celera SNP ID:            hCV25939606
SNP Position Genomic:     53109
SNP Source:               Applera
Population(Allele,Count): african american(C,12)   caucasian(C,31|G,3)   total(C,43|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:64932):
AGCTCGAGGCCGTGGTCAGCAACCTCTTGCTCAGTGCTGTGCCCATACACGTCTGTCAGCAGGGCCCTGGTTCTAGTGTTTGCCGACTTCCACGGTGCAC
R
TGCACTCACCGTGGCTGATTTCCAGCTGCCCATGTGTTGCCACTGACTGTGGAACTGGAGAGTCACAGTGACACGTGGTATTTCTACAGTAGATGTGAAA
Celera SNP ID:            hCV2980060
SNP Position Genomic:     55657
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64933):
GTCGGGGCTGCTGGGGGCGGCCGCAGGGGCTGGGCAAGGGCCGGCCGCTGACGCCGAGTTCTGTGCGCAGGTGGTGCAGAGCCGGAGCCGGAGCCGGAGC
Y
GCGCCGCGCCGCACCATGGCGCCCACCCTGGCCACTGCCCATCGGCGCCGCTGGTGGATGGCCTGCACGGCCGTGCTGGAGAACCTCCTCTTCTCGGCAG
Celera SNP ID:            hCV27905867
SNP Position Genomic:     8173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:64934):
CAGTGCTGTGCCCATACACGTCTGTCAGCAGGGCCCTGGTTCTAGTGTTTGCCGACTTCCACGGTGCACATGCACTCACCGTGGCTGATTTCCAGCTGCC
Y
ATGTGTTGCCACTGACTGTGGAACTGGAGAGTCACAGTGACACGTGGTATTTCTACAGTAGATGTGAAAAGCCTGGCCGGGCACGGCGGCTCACGCCTGT
Celera SNP ID:            hCV2980061
SNP Position Genomic:     55688
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64935):
AGAAGTCATCACGGCCTCTGCCTGAGGAAGTCACCCACAGTCTGACCATGGGCATGAAGGCCGACCCCAGTTGTATGCTCTTGACCTCTGCAGTTTCTCC
R
CCTGTGGTGGTGGGAGAGAGCCTCTCACCCTGGCACAGAGGTCCCTGCGAGCTCGCCCTGGCACAGAGATCGCTGCAAGGGCAGAGGGGCTGCCGCCCAC
Celera SNP ID:            hCV27905868
SNP Position Genomic:     12747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64936):
TGTTCGTTCATTTTGTTTTTTTTTGAGACAGGGTCTCACTCCCATCAGCCAGGCTCGAGTGCAGTGGTGGGATCTTGGCTCACTGCAGCCTTGACTTCCC
R
AGCTCAGGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACGGGCACGTACCACCAAGCCCAGTTAATTTTTATATTTTTTTGCAGAGATGGGG
Celera SNP ID:            hCV2980062
SNP Position Genomic:     56219
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64937):
CTGGGATTATAGGCGTGAGCCACCGCTCCAGGCCTACATGTGGATCGTTAATCCCCTCTTTCTTGTAACCTAAACATTCAGTAAACATTGACGAAGGTGC
M
GTGCTGGGTGCAGAGGAAACAAGTCATCACACGCATACCTGTGTAACCCGTATAATTCCAGGGGGTGGTCGGGCCCCCAAGAAAGCAGGGCGCCAGGAGC
Celera SNP ID:            hCV2980136
SNP Position Genomic:     11978
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64938):
TCCCTGGGGTAACTGGAGGTCCCTGGTGCCTTTACTCAGGCAGTGCTGCCTCACCCACTCCATTCCTTGTCCCCGTGGCTCCTGCTTGCAGCAGTAGAAC
S
TGCAGCCCCCCAAGCCCTCAGTTATTCCACGGCCCCTGTGCAGTCACTGGCCCCACAAGTCACCCATCCTGGGCCCTGGCGTGCTCTCTCCATCCATCCT
Celera SNP ID:            hCV27905869
SNP Position Genomic:     16155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64939):
TACGGGCACGTACCACCAAGCCCAGTTAATTTTTATATTTTTTTGCAGAGATGGGGTCTTGACATGTTGCCCAGGCTGGTCTGGAACTCCTGGGCTCAAG
Y
GATCCTCCCAGGCCTCCCAGAGTGTGGGGATTACAGGTGTGAGCCACTGCACCAGGCCAGGAAGTGATGAGTTTTCAGAGTTTTGAGTATTCATTACCTT
Celera SNP ID:            hCV2980063
SNP Position Genomic:     56364
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64940):
GGAGATTAATGCCTGTCCCCGAAAGGCACAGGTTGGAGTGTTTACTTCTTCCTCTCCTTTCCTCTCTCCCCCCTTAGAGATCGTGACCCTTCCTGCTTGC
Y
TCCCTGGTGGGCTCTTTCAGGCTGGACACAGGGTTTAAAAAAAAAAAAAAAAAAGCAGAAAAAAAGTCATCGTCCCCAGAGAAAGCTTTTAGTGTCTCAC
Celera SNP ID:            hCV2980137
SNP Position Genomic:     9838
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,13)      total(C,13|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64941):
TCCTCCCAGGCCTCCCAGAGTGTGGGGATTACAGGTGTGAGCCACTGCACCAGGCCAGGAAGTGATGAGTTTTCAGAGTTTTGAGTATTCATTACCTTTA
Y
TTTAATATAATTTATTTATTTAGTCATAAATTTATGTAATTTTTTTTTTTTTGAGACAGAGTCTAGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCTAT
Celera SNP ID:            hCV2980064
SNP Position Genomic:     56467
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64942):
AGCTTTCTGCTTTGGCCAAGAGTTGTTAGGAGATTAATGCCTGTCCCCGAAAGGCACAGGTTGGAGTGTTTACTTCTTCCTCTCCTTTCCTCTCTCCCCC
S
TTAGAGATCGTGACCCTTCCTGCTTGCCTCCCTGGTGGGCTCTTTCAGGCTGGACACAGGGTTTAAAAAAAAAAAAAAAAAAGCAGAAAAAAAGTCATCG
Celera SNP ID:            hCV2980138
SNP Position Genomic:     9810
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,12)      total(G,2|C,12) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64943):
ACAAGCTTTCTGCTTTGGCCAAGAGTTGTTAGGAGATTAATGCCTGTCCCCGAAAGGCACAGGTTGGAGTGTTTACTTCTTCCTCTCCTTTCCTCTCTCC
Y
CCCTTAGAGATCGTGACCCTTCCTGCTTGCCTCCCTGGTGGGCTCTTTCAGGCTGGACACAGGGTTTAAAAAAAAAAAAAAAAAAGCAGAAAAAAAGTCA
Celera SNP ID:            hCV2980139
SNP Position Genomic:     9807
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,12)      total(C,12|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64944):
GTCCAAAGAGAAACACTTTGCAGAACCACCCAGCAGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGAACTTTGGGAGGCCGAGGCAGGCAGATCAC
R
AGGTCAGGAGTTTGAGACCAGCCTGGCCAACGTAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGATGTGGTGGCGGGCGCCTGTAATCC
Celera SNP ID:            hCV2980066
SNP Position Genomic:     58879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,11)      total(G,11|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64945):
ACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGATGTGGTGGCGGGCGCCTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATTGTTTGGAC
Y
GGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGTGTCATTGCACTCCAGCCCAGGCGACAGTGCAAGACTCCATCTTAAAAAAAAAAAAAAAAAAACAGAA
Celera SNP ID:            hCV2980067
SNP Position Genomic:     59019
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64946):
AGACTCCATCTTAAAAAAAAAAAAAAAAAAACAGAACTGCCCAGCAGGAAGGAATCCGAGGGCTGGCACCCCACCCTTCTCTGGCACCAACGGTGCAGCC
Y
GGGGTCACCAGACACCTGGGGCCAAGCAAAGCCCAGGAGGCAGGATGGCTGTGAGCTGTCGCTTGCCCTGCAGGTACCCCTCCACCCAGTTCGGCAGCCT
Celera SNP ID:            hCV2980069
SNP Position Genomic:     59184
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,14)   caucasian(C,22|T,14)   total(C,40|T,28)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,8)   total(C,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64947):
TTTCTTTCTTTCTTTCTTTGCGCCGGCTGTGCTGGCATGCCGGGCAGGAACACTTCCCTCCTTCCGCATAAGCAGAACAAATATTTGCATTCTCACTGGG
R
TAGATATGGCCACGGAGATGCCTTTGCTACAGTGCAGTAATGGAGCAGCCCAAATATGTGAGCTTGGGAACCGAGGCTTGTCCTTTGAACTGCAACCTAC
Celera SNP ID:            hCV1223089
SNP Position Genomic:     37916
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64948):
TCAGAGCGATCTGTCTTGCGCAAGGCCGCAGAGCCTGGGCCTGCCATCCACCCAGAACCCCACCTGCTGTCCAGGGTGTTCCTTCCACCCGCTACGAACA
K
TGCTGGACTGCTCTCCTCTCCTCCCAGCCCTGGAACATAGCTTGGCTGGTAGTAAACATGTTGCTGTCTGCTTGTGAGAAAGAGGAACTCCAGATTAAGG
Celera SNP ID:            hCV2980141
SNP Position Genomic:     8647
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,12)      total(G,3|T,12) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64949):
CCTGGGGTTGCGGGGGGGCTCCTGGAGCTGGGGCTTTGGGAGGGGGCGGGATGGGGGCGAAGACCTAGCGAGCCACAGCACCGCATTGCCCAGTGCCTCT
M
GGGTATCAGAAGGCCCATCTGATCCTCACCCAGCCCTGCCGGGTACTTGTCATTGCCCCTGTTTTGTGGACGAAGACATCGAGGCTCAGAGCGATCTGTC
Celera SNP ID:            hCV2980142
SNP Position Genomic:     8461
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,10)   total(A,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64950):
TAACTGCGAGCTGCAAGGTCCCCCTCGGGGGCTTCAGGGCCCCGAGGACATGTGGGAGCGTTGGTTAGGATTGGTTAAGAGTCCCTTTGTGAATGGTGGC
Y
AGGCAGGAAAAGGAACATGTCCTCTCTGGACCTGATTTGGGGAGAAATAGAACAGAGTTCCTGGGCCGGGCGCGGTGGCTCACACCTGTAATCCCAGCAC
Celera SNP ID:            hCV2980070
SNP Position Genomic:     59531
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64951):
AGTGGATCAATGTCAGCTCACTGCAACCTCCATCTCCCGGTTCAAGGGATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGTCCACCACCA
Y
GCCCGGCTAATTTTTTGTATTTTTAGTAGAGATAGGGTTTCCCCATGTTGGCCAGGCTGGTGTTGAACTGCTGACCTCGTGATCTGCCTGCCTCGGCCTC
Celera SNP ID:            hCV1223090
SNP Position Genomic:     39773
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64952):
CCAGGACCTTCGCCGTCTCCGTGCCAGCGTTCACGCTCCCTCCCGGGGCCCTGCCTCGGAGCTCTGTGGTGGAAGGACGGGAGAGGGCCCCGGACACGCG
M
GTTTTCTCCTGCCGAACGCAGGGGCTGCCCTGACTTTGCTCTGCCGCCCCCCGGGGACCCGGGGCCTGGGGTCTCTGTGGTGCCTGCAGCAGGAGCCAGG
Celera SNP ID:            hCV2980071
SNP Position Genomic:     60557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,8)      total(A,5|C,8) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:64953):
GTGACTGCAGACAGGTATGTCGCCAAGTTCAAACTCCCTCCGCTCAGTAACAGTTAATTTGCTTGCAGGCAGGCAGGTTTGATAAAACAAAAATTATTTA
K
TTTGGGAGGCCAAGGTGGGAGAAGAGCTTGAGGCCAGGAGTTCAAGTCTAGCCTGGGCAATATAGTGAGACCCCATCTCTACAAAAATAATTAAAGGCCG
Celera SNP ID:            hCV1223091
SNP Position Genomic:     40114
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64954):
CCAAAGCAGAGGGGGCTGCCATCCCCTGCCTGCCACCTGCCCCTCGGCTGCATGCCCACAGCCGTACCTGCCTGAGGACAAAGGCTTGCACTGTCTCGCC
Y
GCGCCTGGCCCCCACCCCCTCCCCGGCCAGCCTGAGGCTGCCTGAGGAAGGAAGGACCCGCTTCCTGTTGTCGGTGCTAATTCCTTTGTAATTCCAGCCC
Celera SNP ID:            hCV2980072
SNP Position Genomic:     60809
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   ;JBIC-allele(T,548|C,555)   total(C,555|T,548)
SNP Type:                 UTR 3


Context             (SEQ ID NO:64955):
ATAAATCCATTTTCCTCCGGGTAAGGGATGCCCCTTCTGGCATATCAGTTAATAGCTGCATGTGCCTATTTTGAGCTTGAGAAGAAAAGGCAGGACAAGA
Y
TCTCTGCCACCGACCAGCTCCAGCCGTGCCCAGCTGCTCTTCGTCTCTCTGGGGGACTGCTGACTCGGGAGGGACAGTGGGCCAGGAAAAGACCTTCCTC
Celera SNP ID:            hCV2980073
SNP Position Genomic:     61650
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:64956):
TGCCATGTGCCAGCTCAGGCACACGCTGCTACTTCTCTCCCCGTCGTCTTAGCTCAGCCTTCACAGAGCACTGCAGCATATGGATGGCCATCTTCTTGTA
S
CCGAGACCCCCTCCGAGAGTCACACTCAGCTTGCCACTGAGAAGGGCCGGGGAGTGTCCGTAGTGCTGGTCCAGCCCCGACACAGTCCCTAAAACGTGCC
Celera SNP ID:            hCV29085344
SNP Position Genomic:     52411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64957):
GTGTTTACTTCTTCCTCTCCTTTCCTCTCTCCCCCCTTAGAGATCGTGACCCTTCCTGCTTGCCTCCCTGGTGGGCTCTTTCAGGCTGGACACAGGGTTT
A
AAAAAAAAAAAAAAAAAGCAGAAAAAAAGTCATCGTCCCCAGAGAAAGCTTTTAGTGTCTCACCCAGACCAGAGAACTGTTGTGGGCAGGTGTTTTTTTG
Celera SNP ID:            hCV12114332
SNP Position Genomic:     9875
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,7)   total(A,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64958):
ACAGGTAGGTGCCCCGGGCAGCCTCGGTCGCTGTCACTCCCCGGCCTGAGCCCAGCCCACTGGCCACCGGCCGGAATGTGTTAAGCTGAGCCGGGCCAGC
S
GGGCCATGGAAAGGCCGCATCCCAGGAGCTGTCTGCCCGTCAGAGCTATTGCATCACTGCCAGCCCCAACTGTTTCTTCGTGTCCCCATCAGGGTTTCCT
Celera SNP ID:            hCV1223099
SNP Position Genomic:     45250
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,7)   total(G,7|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64959):
TGGCCAGGCTAGTCTCGAACTCCTGACCTCAGGCGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTTTACAGGTGTGAGGCACCGTGCCCAGCTCA
S
ATGATGACTTTCATTCATTCCACTCAACCGAGCAGCCCACCAGCCCTTTGTTATTTGCGGAGGGCCTGTTCCCTGCCAGGCTCTGTGCTTGCTGCTGCAG
Celera SNP ID:            hCV29085345
SNP Position Genomic:     53176
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64960):
GGCCTCCCTGCCTCCCCAGGTGAACGTGGGGCTGCTCCTTCTCAGCCTGCTGGGCTTCTGCCTCCCGCTCTACCTGATCTGCTACCGGCGCCAGCTGGAG
Y
GGCAGCTGCAGCAGAGGCAGGAGGATGACAAACTCTTCCTCAAAATCAACGGCTCGTCCAACCAGGAGGCCTTCGTGTAGTGGCTGCCGCCTCGGAACTG
Celera SNP ID:            hCV25974023
SNP Position Genomic:     60291
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64961):
TCGTGGGGAATATGGGGTGGGCGTGGGCACACCCGTTGAGCATGGCAGCTGGCACACACTTTCATTGCACACACGGCAGCCGCTGCTGGGACCACTGCTC
R
GGGGCCAGGCCCTGGTCAGCCCAGGACGGCCTCTGCCTGTCCGTGCCCTCCTGCCTGTTGTTTGCTCTGTGTCTGAGCCGACCTCTCACCTACATCTCCC
Celera SNP ID:            hCV28030331
SNP Position Genomic:     14473
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64962):
ATTGGCTCCGGAGGATGGGGTTGATCCAACTCCAGGCTGACACTGCCCCTGGGGTGAGGGCCCCCAGGAATTGGAGGGCGGGGGCTGAGGGGACGGTCCC
Y
TAAGGCCTTATGCCCACAGTCGCCTTTTCCTCCCCCAGATCCTCTCCTTCATCCTGCACACAATCGTGCGAGGATTCATCCACTCCGCTGTCGGGGGCCT
Celera SNP ID:            hCV25965206
SNP Position Genomic:     57616
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,36)   total(C,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:64963):
GGGACTTGGGCCAAATGGCCATCCAAGCCTGCTGCGGGGTAGCCTGAGCCCTCGAGAGGCCGCCAGCCAGCCCTGGCATTCCCAGTGGGGGGACTCTGAA
Y
GGGCACCTGCCCTTCTGATCTTTGGGAATCCCTGTCATGACCCTGAGGTCAGGGTTTCCTTCCCTCTTCACACAGAGAATGTCACCAATGGCACAGTGGG
Celera SNP ID:            hCV25964989
SNP Position Genomic:     19221
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:64964):
TCCATGTCCCTGCAGCTCTCTCCGTGCTCATCTTCATCGCCCTGGCTCTGAATGGCTTTGGTGGGATGTGTATGACCTTCACCTCATTAACAGTGAGTAC
R
GATTTTTTAAAGCTCTGTAGTTCAGTAATCTGTTTCTAAATTTGAGGCCGCTTTGATTGGTTTCTGTTTCCTTGCCTTCCATGTGCCTGCATGTGCCTGG
Celera SNP ID:            hCV25966153
SNP Position Genomic:     22913
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:64965):
AGGGCTGTGCCTCTTTGCGCGGCTCAGCACAGGGACAGCAGGGGTGGCCAGACGCCCCTGCCTGCTGCGGCTCTGGCCTCCCCGGGCTAACTCTGCCCCC
Y
CCCCCCCCCACCCCGTCCCCGCGGTGCCTGTCAGCTCATCTATGATGCTGGTGTCTCCTTCATCGTCGTCCTCGTGGTCTGGGCCGGCTGCTCCGGGCTG
Celera SNP ID:            hCV26368311
SNP Position Genomic:     44221
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64966):
CAAGTTCCTGGTCAGCGGCGACCAGAAGACAGGTAGGTGCCCCGGGCAGCCTCGGTCGCTGTCACTCCCCGGCCTGAGCCCAGCCCACTGGCCACCGGCC
R
GAATGTGTTAAGCTGAGCCGGGCCAGCGGGGCCATGGAAAGGCCGCATCCCAGGAGCTGTCTGCCCGTCAGAGCTATTGCATCACTGCCAGCCCCAACTG
Celera SNP ID:            hCV25969859
SNP Position Genomic:     45222
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,3|G,37)   total(A,3|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:64967):
TGTGCCTCTTTGCGCGGCTCAGCACAGGGACAGCAGGGGTGGCCAGACGCCCCTGCCTGCTGCGGCTCTGGCCTCCCCGGGCTAACTCTGCCCCCTCCCC
Y
CCCCACCCCGTCCCCGCGGTGCCTGTCAGCTCATCTATGATGCTGGTGTCTCCTTCATCGTCGTCCTCGTGGTCTGGGCCGGCTGCTCCGGGCTGGTTTT
Celera SNP ID:            hCV26368312
SNP Position Genomic:     44226
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:64968):
CCCTGGGTATCGTCATGGACAAGTATGGCCCGAGGAAGCTCAGGCTGCTGGGCAGGTCAGTGTGGGTCCCTTAGGGGGCAGGGAGTGGGCAGGTGGACCC
Y
CTGGGCTGAGTTCCCCACAGAAGGGTATCCTGGTCGTACCTGATATCAGGTGTACTGTGGAGCTCCCTGAAGGCCCTCCAGAATGGAGTTCCTACCCCGT
Celera SNP ID:            hCV25963034
SNP Position Genomic:     19550
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,14)   caucasian(C,38)   total(C,62|T,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64969):
GTGGCCCCTCTCCACCACCCCCACCCGGGCAGGATGCACCTGGGCATCACAGGGGCGACAAATGAAAACCGCGGGGCCTCAGGGGACGGGAATCACGCAT
K
TGGCTGCAGGATCTGCCGCAGGTGCCTTTGCATTTCGGGGCTGGGGCAGGGGAAGGGCGGTGGGTGAGTCTGTTTCCAGTTGTGAGTCTTGCCCCCGTCT
Celera SNP ID:            hCV29085355
SNP Position Genomic:     42964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64970):
ACCTGGGCATCACAGGGGCGACAAATGAAAACCGCGGGGCCTCAGGGGACGGGAATCACGCATGTGGCTGCAGGATCTGCCGCAGGTGCCTTTGCATTTC
R
GGGCTGGGGCAGGGGAAGGGCGGTGGGTGAGTCTGTTTCCAGTTGTGAGTCTTGCCCCCGTCTCCTCCGTCATCCTGGTCTCCCGCTGCTCCCCTGCTCC
Celera SNP ID:            hCV29085356
SNP Position Genomic:     43001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64971):
CAGGGAGTGCTCTGTGGGTATCGGCTCACCCCATTCCCACCTCACCCCAAAAGGGGAGGCGGCCCCGCCCGCCCTGTTCTGCAGAGGCGCTCAGGAAGGC
Y
TGGGGGAGGGAAAGGGATTTGCCTGATTTCACCCAAGAGGTGACCCCACCGCAGCGCCAACCCCGTTACCCTCACCAGGCCCGTCCCGAGGGCCCCCTCC
Celera SNP ID:            hCV29085359
SNP Position Genomic:     44819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64972):
TCGCTGTCACTCCCCGGCCTGAGCCCAGCCCACTGGCCACCGGCCGGAATGTGTTAAGCTGAGCCGGGCCAGCGGGGCCATGGAAAGGCCGCATCCCAGG
M
GCTGTCTGCCCGTCAGAGCTATTGCATCACTGCCAGCCCCAACTGTTTCTTCGTGTCCCCATCAGGGTTTCCTGGTCCAGGAGGGAGGGAAGGACCAAAA
Celera SNP ID:            hCV1223100
SNP Position Genomic:     45277
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,29)   caucasian(A,18|C,18)   total(A,27|C,47)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64973):
TCCCCATCAGGGTTTCCTGGTCCAGGAGGGAGGGAAGGACCAAAATAGCCTCCTGGGTGTGGGGTGTGGGGTGTGTGTTTTCCAGTGCCTGAGGGGGAGG
K
TTGCCGTGTGTGTCTGTAAATGAAAACAGAACAGAACGCTCCACCTGAGCATGGCTGAAAGACAGCAGGTCAAGCCCAAAGTCCTCCCAGAAAGTGGCAC
Celera SNP ID:            hCV1223101
SNP Position Genomic:     45433
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64974):
GGACATTCCACTCGGAGCAGCAGCTCAGGGGCCACCAGGCCTCTGTGGCAGGGGGGCCATGGCCCAAGGAAGGGGAGCAGGCCCAGGCATGGTCCCCGTT
Y
CTTGGAGTGGAAGGGAGACCAGCTCTGGCCATCTGGAGGAGACCCATGGTGTCAGATGCCTTGGCTGGGCGTCAGGGGCAGGTTCTTTGACCTTTCCCTC
Celera SNP ID:            hCV1223103
SNP Position Genomic:     48464
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64975):
TCCGCCCACCTCGGGCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCGTTCTGGGCTATTTCTAGAGGCAGAAACTAACGGCCCGTC
R
CTTAGCCTCCGTCACAGGAGTTCCCAAGTTATAGCGACTTCCTGGAGCTCTGGGAAGGCCATTGTGACACTCTGGGTTTCATTAGCTGTTTCTTAGAAAC
Celera SNP ID:            hCV1223104
SNP Position Genomic:     49592
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64976):
ACTCCAGGGGACTTGGGCCAAATGGCCATCCAAGCCTGCTGCGGGGTAGCCTGAGCCCTCGAGAGGCCGCCAGCCAGCCCTGGCATTCCCAGTGGGGGGA
Y
TCTGAATGGGCACCTGCCCTTCTGATCTTTGGGAATCCCTGTCATGACCCTGAGGTCAGGGTTTCCTTCCCTCTTCACACAGAGAATGTCACCAATGGCA
Celera SNP ID:            hCV25964998
SNP Position Genomic:     19214
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,26)   total(C,58|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:64977):
GAGCACCTGGGGTCCGTTCTTGGATCATCCAGGGTGTCTGCGTGGGTGTGAGACTGGGATCGGTAATCGTTCATTCACGAGAGATAATTGCAGAGGGTGC
Y
TGGCCGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACAAGGTCAGAAGATCGAGACCATCCTGGCCAACACG
Celera SNP ID:            hCV1223105
SNP Position Genomic:     51774
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64978):
GGGTGCCTGGCCGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACAAGGTCAGAAGATCGAGACCATCCTGGC
Y
AACACGGTGAAACCCTGTCTCTACAAAAACGCAAAAATTAGCCGGGTAAGGTGGCGCGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAAT
Celera SNP ID:            hCV1223106
SNP Position Genomic:     51868
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64979):
CCTGGCCGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACAAGGTCAGAAGATCGAGACCATCCTGGCCAACA
Y
GGTGAAACCCTGTCTCTACAAAAACGCAAAAATTAGCCGGGTAAGGTGGCGCGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTT
Celera SNP ID:            hCV1223107
SNP Position Genomic:     51873
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64980):
GTCAGGAGTTTGAGACTAGCCTATCCAAAATGGTGAAACCCCGTCTCTACTAAAATTACAAAAATTAGCTGGGCGTGGTGGCACATGCCTGTAATCCCAG
Y
TACTCAGGAGGGCTGAGGCAGGAGAATTGCTTGAATCCGGGTGGCAGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGT
Celera SNP ID:            hCV1223109
SNP Position Genomic:     54031
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64981):
GAAAGGGGCAGTTCCACTCCCCAGATGTCAGGTACTAACCCCGGCCTGCGTTTACTGGATTTACTGGGAGCCTGCACCGCGCAGGACTCTGGGCTGGTCC
Y
GGCTTCCCTGGAGCTCAGCTGGGGTCTCCACTCACGAGCTTTCCATGTCCCTGCAGCTCTCTCCGTGCTCATCTTCATCGCCCTGGCTCTGAATGGCTTT
Celera SNP ID:            hCV25967252
SNP Position Genomic:     22771
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,12)   caucasian(C,38)   total(C,64|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:64982):
AACGACTGGCTTGCAAAATTTCTGAAAATTCACAATTGGCTCCGGAGGATGGGGTTGATCCAACTCCAGGCTGACACTGCCCCTGGGGTGAGGGCCCCCA
R
GAATTGGAGGGCGGGGGCTGAGGGGACGGTCCCTTAAGGCCTTATGCCCACAGTCGCCTTTTCCTCCCCCAGATCCTCTCCTTCATCCTGCACACAATCG
Celera SNP ID:            hCV25965726
SNP Position Genomic:     57582
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,1|G,37)   total(A,2|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:64983):
GGAAGTCACACAGGGTCAGGACGAAGCAAACACCTCACAGTCCATCAGCCCAAGTTCCCCAGACCCTGTGGGTCTGCCAGGGCCCCGTAGGGGCTTCTCC
R
ACCTCTGACCCTCACACTAAGTAAAAGCCCCTTTCCTCGGTGGTGTGTGTGGGAATGCTGTTGGCGAGGAGAGGGGGTCACGGTGTGGGCTGGCCACCTG
Celera SNP ID:            hCV7460000
SNP Position Genomic:     43309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64984):
GCTCAGTGGGGACAGTCATCTTTTTGTTTTATGTAGGTCTCACTGAAAGAAAAGTTGTAAAAAGGCAACAAGGCATTTGAGGTGGGGAGGCCTGCACAGC
K
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGGCACTGGGCACAGCCCTCTTTCAACACTGCCAAGAGCAGCCCCTGCCCCCCCACCACCCACAT
Celera SNP ID:            hCV12119585
SNP Position Genomic:     54743
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,8)   total(G,1|-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64985):
TCAGTGGGGACAGTCATCTTTTTGTTTTATGTAGGTCTCACTGAAAGAAAAGTTGTAAAAAGGCAACAAGGCATTTGAGGTGGGGAGGCCTGCACAGCGT
S
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGGCACTGGGCACAGCCCTCTTTCAACACTGCCAAGAGCAGCCCCTGCCCCCCCACCACCCACATTC
Celera SNP ID:            hCV12119586
SNP Position Genomic:     54745
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,1|-,8)   total(G,1|C,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64986):
ATGCGGGCTGGGGAATGGAGGCGCGGGGGTCCGAGGCCATGGAAACGGGCGAGTTGCCGGGGGAACGCCCGAGATGGGGGTCGCGCGGCTGGCTCGCGCC
R
CCGGTTTGAACCGGCTCCTCGTCTCCCACGCTGGGTTCGCGTGGCCGCAGCGCCTAGCGACCTAGACGGCGGCCAATGGCGCGGCAGTTCCTGCGCCGTC
Celera SNP ID:            hCV28958514
SNP Position Genomic:     7512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64987):
TGATAACAATCTAGGAGTTAAATAGATACTATCATCTGTTTACGTCATCATTTATGATAGATACTATCATCATATACACCTGAAAAACGAGGCCTGGAGC
K
ATGGAGGAGCTTGTTCAAGGTCAGAGCCAGCACTCACATATGGGTCTTAAGACACTGGAGCAGCCAAGGGCCTCTAGACCAGGACATTCCACTCGGAGCA
Celera SNP ID:            hCV27929929
SNP Position Genomic:     48282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64988):
AAAAATGCAAAAATTAGCCAGATGTGGTGGTGGGCGCCTGTAGTCCCCACGACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGT
Y
GCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCATGGGTGACAGAGCGAGACTCTGACTCAAAAAAAAAAAAGTCTATTGTCTGGCCCTTTATGGAAAA
Celera SNP ID:            hCV28958515
SNP Position Genomic:     28306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:64989):
CAGTGGGGACAGTCATCTTTTTGTTTTATGTAGGTCTCACTGAAAGAAAAGTTGTAAAAAGGCAACAAGGCATTTGAGGTGGGGAGGCCTGCACAGCGTG
Y
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGGCACTGGGCACAGCCCTCTTTCAACACTGCCAAGAGCAGCCCCTGCCCCCCCACCACCCACATTCC
Celera SNP ID:            hCV12119589
SNP Position Genomic:     54746
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64990):
CTGCTTGTATTCTGCATTACCTCCCTCCTTGGCCCCATCAGCCTCAGTCCATGAAGGAGAAACCTTCAGTGAGCGGTCATTGCCCCTGAACTAATGCCCC
Y
GTGAGTCACACAGGAAGGGGCGCAGGTGAAGAAGGGGCCTCATGGGGCCTAGTTCTCTGTCCCCTCCTCCTCCCCTTCCCTGGTGCATCCTCCCCACTGA
Celera SNP ID:            hCV25961665
SNP Position Genomic:     42550
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,21)   caucasian(C,4|T,22)   total(C,9|T,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:64991):
AGGGGATCGCGGCCGGGGCGAGGGCGCGGGGGCAGAAGCGGCCGCCGAAGGGGCGTAGGGAGAAAACGTGGGAACAAGAGGAGAGAGATGGAGCGATGAG
R
GGCCGCCAGGGAAGAGATGACGAACAGATGCGGGCTGGGGAATGGAGGCGCGGGGGTCCGAGGCCATGGAAACGGGCGAGTTGCCGGGGGAACGCCCGAG
Celera SNP ID:            hCV1247295
SNP Position Genomic:     7384
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64992):
GGGAAGTTGAGGCTGCAGTGAACTGAGATTGCACCAGTGCACTCCAGCCCGGGCAACCGGAGTGAGACCTTGTCTCAAAAAAAAAAAAAAAAAATTAGCC
G
GCCTGGTGGCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGGAGAACAATCGCTTGAACCCAGGAGACAGAGGTTGCAGTGAGCCGAGACCACAC
Celera SNP ID:            hCV12119590
SNP Position Genomic:     55259
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,5)   total(G,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64993):
TGCCCCGGCTCCCAGCCCGCAGCCCCTGCAGAAAGACCCCAGAGCTGCATGTCAGGCACAGGGTGGGTGGGACAGAGGGAGAGAGCAATGCACTCCAGCT
S
CTCCCGGAGCCCTTAGAGAGACTCACTCATTCAGCTCAGCATGCGTTTCAACTGCTCCCCTCTTTATGGAAATTGTTTGGAATGCAATGGAAATGCTAAA
Celera SNP ID:            hCV27865200
SNP Position Genomic:     50172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:64994):
ATTTCCAGCTGCCCATGTGTTGCCACTGACTGTGGAACTGGAGAGTCACAGTGACACGTGGTATTTCTACAGTAGATGTGAAAAGCCTGGCCGGGCACGG
Y
GGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAACGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTAGTGAAACCCCGTCTCTACAAA
Celera SNP ID:            hCV12119593
SNP Position Genomic:     55775
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64995):
TGTGTCTCCACAGAGGCGAGAAGAAAAAGAAGAAGCGGGACCGGCAGATCCAGAAGATCACTAATGCCATGCGGGCCTTCGCCTTCACCAACCTGCTGCT
S
GTGGGCTTTGGGGTGACCTGCCTCATTCCCAACCTGCCTCTCCAGGTGGGTGTGGGGAGTGGGAGGGGCAGGTGGGAGGTGGGGCAGTCAGAAGGAACAT
Celera SNP ID:            hCV25934784
SNP Position Genomic:     52719
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,1)   caucasian(C,26)   total(C,51|G,1)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,38)   total(C,71|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:64996):
CCCTGGGCCAAAAGGCACGTACGTCCGGCATCTTAGAGAAGCTCCCGCGCCCGCACTGTCCCAGGGCCTTGGCCCTGCAGGCACTCCTGTCCGGTGGTCA
W
GCTCTATGGCCAGAATGCCAGGGGAGGGGCCGCCTGCAGCTGCTGTTTTCCCCTCTGGGAAGGTCACACAGTCCGGCCTGTTTATGCTGCAGCCAGGGGG
Celera SNP ID:            hCV2980108
SNP Position Genomic:     30757
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,7)   total(A,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64997):
CCGGCCGGGAAGGCACAGGAGGTGGCCGGGGGAGGGGAGCACACCCTTCCCCTCCCTTCAGCACTGAAGCAGAAAGGTGACCACAAGGACCTTGTCCCGG
R
CAGCATGTGCTTGGAGGTGCCCGGTTGTTGTGGGTAGGAAACAGCCCAGCCTGGCAGAGTCTACCTGTGCAGTCTGGTTCCGGGATCCCGGCCTGTGCAG
Celera SNP ID:            hCV2980109
SNP Position Genomic:     30290
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:64998):
GGAAATGATGCTAGGGTTGTTCTCTCCTCTTTGCCTTGTCACTGGAATTGCTGAAGGCAGGCTGAGGATGCTTCTCTACATGACATCTGCACCACCCAAC
R
CACACTTACCTTCACACCTTCATACCCTGTTGGAGGGTCCTGATGACTACAGGGCAGTAAATTCAGCCCCACAGGAGGGCCACAGCAGCCCCCAGCCTCT
Celera SNP ID:            hCV15970244
SNP Position Genomic:     9087
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,14)      total(G,4|A,14) ;JBIC-allele(G,657|A,840)   total(G,657|A,840)
SNP Type:                 INTRON


Context             (SEQ ID NO:64999):
CCTGGAGCTGATGACGGGGGAGGCCCGTCCGCCTGGCCCACCAACCCGCCCACCTTGACTGCCCCCAGAAGTGTGTCTTGAGACCTCCTGGGCGTGCTTA
R
AGGGGTGAGTTGTGTTTGGATTTTTAGTTATTTTCTCTTCAGTTTTATTAGACTTCTTTTTTATAAAGCAATAAATCCATTTTCCTCCGGGTAAGGGATG
Celera SNP ID:            hCV7459988
SNP Position Genomic:     61479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65000):
TGGGGGCCCAGGCCCTGAGGGTGGCCACATGGCCTGTGAAGAGTTGGGAACCGGGACGCTGGCATATGGGACCTCGTGGGCCTTCCTGTTTCGTTCCCCC
Y
TCCACCCCGTGACCTTCTCCCCTTTCCCAAACCCGAGTGGAGGGCGGGTCTGCAGCCTCGGCGCACCACCACGCCCTGTGATGCGCGGCCTCCCTGCCTC
Celera SNP ID:            hCV15970245
SNP Position Genomic:     60104
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(T,616|C,649)   total(C,649|T,616)
SNP Type:                 INTRON


Context             (SEQ ID NO:65001):
CCCGTACATACACACAGCTGCTTTTGTGGAGGTGGACGAAAGGCTGTGGCCGGCAGACGTGGAGGTCCAGGCCGGGGTGGGGACGTGGGTGGGTCCGAGG
K
GTGTGTGGGGTCGGGGTGGGCTCTAGGAGTTAGCCCTTATCCCCACTGACCAGGCGGGAGCCGCCAGGCCTGCAGCTGGGCCAGTGCCCAGGAGCCATCC
Celera SNP ID:            hCV7459989
SNP Position Genomic:     61208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65002):
TGATCTTGTGGTTGAAGAAACCAGCTCTGGGGAAGGGTCTCGGGCGCGGGCGGGAGGGCACCTGTCAGGGTCCCTGGGAGAGGCAGCCCTCGGATCTGCC
S
CTGCCCACCTCACGCTGCGTTCCATGCTGGCCCCAGGCGATGTCAGTCCTGCTGCAGGCCAGGACTAGTTCCACGGCCCTGAGCATGCGTTAGCCCCTTC
Celera SNP ID:            hCV7484268
SNP Position Genomic:     7759
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,8)      total(G,1|C,8) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65003):
AGTCCTCCTGGGCTGGGGCTCGCTGCTCATCATGCTCAAGTCAGAGGGCTTTTACTCCTACCTGTGTACCGAGCCAGGTGAGACAAGCGCCTGGGGTTGC
G
GGGGGGCTCCTGGAGCTGGGGCTTTGGGAGGGGGCGGGATGGGGGCGAAGACCTAGCGAGCCACAGCACCGCATTGCCCAGTGCCTCTAGGGTATCAGAA
Celera SNP ID:            hCV26032855
SNP Position Genomic:     8372
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65004):
AGAACAGCAGCGGAGATGTGGCTCCTGCTGGGTGGGAGGGCCTCTCTGCGGTTCAGGTGGAAGCCTGGAGGTTGAGGAGGGGTGATTCAGGAGAGGAGGG
Y
ACACCCTGGAGGAGAGGAGGGTACACCCTGGAGGAGAGGAGGGTACAGCCTGGAGGAGAGGAGGGTACACCCTGGAGGAGGGGAGGGTACAGCCTGGAGG
Celera SNP ID:            hCV26032857
SNP Position Genomic:     12180
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65005):
GTGATTCAGGAGAGGAGGGTACACCCTGGAGGAGAGGAGGGTACACCCTGGAGGAGAGGAGGGTACAGCCTGGAGGAGAGGAGGGTACACCCTGGAGGAG
R
GGAGGGTACAGCCTGGAGGAGAGGAGGGTACAGCCTGGAGGAGAGGAGGGTACACCCTGGAGGAGAGGAGGGTACAGCCTGGAGGAGAGGAGGGTACAGC
Celera SNP ID:            hCV26032858
SNP Position Genomic:     12261
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65006):
AGGAGGGTACAGCCTGGAGGAGAGGAGGGTACAGCCTGGAGGAGAGGAGGATACGCCCTGGAGGAGAGGAGGGTACGCCCTGGAGGAGAGGAGGGTACAG
S
CTGGAGGAGAGGAGGGTACACCCTGGAGGAGAGGAGAGAAGTGGGAAGGGGCGGGGGCTGCAGGGACTGGGAGGCCATTCGGGGAAACTGAATTTTATTC
Celera SNP ID:            hCV26032859
SNP Position Genomic:     12427
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65007):
TCTTTGGGAGGATGTAGTTTGCCCTAGGCCTGGATTTCGGTAGAATGAGCAAGAGTTAGCCTTGAAGTCCTGTTCAGGTGGGCCCCCTCTTGCCCTGTAC
S
CAGAATGAGCTGATGTGAGATGCCGAGAGTGGCTTCGTTGGGAAGAGAGCCCGGACCTTGCTTCCCGTTGGCCTTCCAGGATGCTAACTGCTCGGGCCGA
Celera SNP ID:            hCV12119527
SNP Position Genomic:     41677
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65008):
TCACCCACTCCATTCCTTGTCCCCGTGGCTCCTGCTTGCAGCAGTAGAACCTGCAGCCCCCCAAGCCCTCAGTTATTCCACGGCCCCTGTGCAGTCACTG
K
CCCCACAAGTCACCCATCCTGGGCCCTGGCGTGCTCTCTCCATCCATCCTCTCTGTCACCTCTGTGCTGGTTTGCTCCTATCTGCATGTCAACCTGGAAA
Celera SNP ID:            hCV28008630
SNP Position Genomic:     16205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65009):
CGGCACGCTCAGTGTTTGTTCAGTGCCTCGCGTTTGTACAGCCCTTTGCACTCGCTTCATCGGCTGGAGCACAAACACGGCCGGCGGCTGAGGCCGCATC
Y
TGGGGTCGCCACCCTCCAACCCGGAGCCTGGGTTGCTTAGAGATGGGAGCAGCTGTAGCCAAAATTGTGAACCTGCCATTTCCACTCCATTACTCTGACC
Celera SNP ID:            hCV28008631
SNP Position Genomic:     29492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65010):
TAAACCTTGGTGTGCATTTTCTGGGGAGGTCTTTATTGGATTTTTCAAAGGGTCCATGGCCCCCACAAAAGTTAAGAACCTCTACATTTTCACTCCAGGG
K
ACTTGGGCCAAATGGCCATCCAAGCCTGCTGCGGGGTAGCCTGAGCCCTCGAGAGGCCGCCAGCCAGCCCTGGCATTCCCAGTGGGGGGACTCTGAATGG
Celera SNP ID:            hCV12114443
SNP Position Genomic:     19123
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,5)      total(G,5|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65011):
AAGCTCAGGCTGCTGGGCAGGTCAGTGTGGGTCCCTTAGGGGGCAGGGAGTGGGCAGGTGGACCCCCTGGGCTGAGTTCCCCACAGAAGGGTATCCTGGT
Y
GTACCTGATATCAGGTGTACTGTGGAGCTCCCTGAAGGCCCTCCAGAATGGAGTTCCTACCCCGTCCGCCACCGAATCAGCAGGTACTGTGGTCCTCGCC
Celera SNP ID:            hCV12114444
SNP Position Genomic:     19585
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,31|T,7)   total(C,63|T,11)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65012):
AGGTGTACTGTGGAGCTCCCTGAAGGCCCTCCAGAATGGAGTTCCTACCCCGTCCGCCACCGAATCAGCAGGTACTGTGGTCCTCGCCGTGCTCCAGTAC
Y
GAATAAGAAAAGCTCCAGGCTCCAGGCCGCCCAGGGACCGGAGCTGCTTGTCACTAAGAACATGTGTTTCCCATCCCTTTGTAGTTCATAAGCATGATAA
Celera SNP ID:            hCV12114449
SNP Position Genomic:     19698
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65013):
GTATGTGACCACGTTCAGACGGAAAGGGCAGCGGTATTGGCAGGACTGGACCCGGCCGGGAAGGCACAGGAGGTGGCCGGGGGAGGGGAGCACACCCTTC
Y
CCTCCCTTCAGCACTGAAGCAGAAAGGTGACCACAAGGACCTTGTCCCGGGCAGCATGTGCTTGGAGGTGCCCGGTTGTTGTGGGTAGGAAACAGCCCAG
Celera SNP ID:            hCV2980110
SNP Position Genomic:     30239
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Gene Number:                 405
Celera Gene:                 hCG28724 - 103000085229721
Gene Symbol:                 RILP
Protein Name:                rab interacting lysosomal protein
Celera Genomic Axis:         GA_x5YUV32W2JD(13876663..13892745)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12565):
TCTTGGGGCCGGGCGTGGTGGCTCACGCCCGTAATCCCAGCACTTTGGGAGGCTGAGTTGGGTGAATCACCTGAGGTCAGGAGTTTGAGATCAGGCTGGC
CAACATGACGAGACCCCATCTCTACTAAAAATACAACAAAATTAGCCGAGTGTGCTGGGATGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCACCA
GAATCACTGGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATGGCACCATTGCACTCCAGCCTGGGCGACAGAGTAAGACTGTCTAAAAAAAAAAAAA
AAAAGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGCGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACA
CAGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCAGGTGCCTGTCATCCCAGCTATTCGGGAGGCTGAGGCAGGAGAATGG
TATGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAAAAGAAAAAAAAAAA
ATTCTTGGGTTTCATGAAAGGTTAGGATTAAAGTGGGAGAGCCTCAAGCAGCTGACCTACCCCACTCTTCCAAATCTTTTCCCAGGCCTTCTCCCGTCTC
ATCCTGATTCTGCGTGCCCTACATGTGAACAACGATCGGGCAAAAGTGATCCTGAAGCCAGACAAGACTACTATTACAGAACCACACCACATCTGGCCCA
CTCTGACTGACGAAGAATGGATCAAGGTCGAGGTGCAGCTCAAGGATCTGATCTTGGCTGACTACGGCAAGAAAAACAAGTGAGCAGTGCTGGTGGGGAC
ACAGACAGGAGGTCTATATACGGTTTTCTGGGGTTTTTTGGAAGCACTTAGGCTTAGAAGTTTCTCAAGAAGGCCAGGCGCGGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGCCAAGGTGGGTAGATCATTTGAGGTCAGGAGTTTGAAACCATCCTGGCCAACGTGGTGAAACTCCGTCTCTACTAAAAATACA
AAAGTTAGCCGGGTGCGATGGCGCCTACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGGGCAGAGGTTGCAGTGAGC
CGAGATCATGCCACTGCACTCCAGCCTGGGCGACAAGAGTGAGACTGTCTCCAAAAAAAAAAAAAAAAAAGACGTTTCTCAAGAAATTATCTTGTCTTAG
CCAGGCTTGAGTGCTCATGCTAGTAATACCAGCACTTTGGGAGGCCAAGGTGGGAGGATTGCATGAGCCAGGAGTTGAAACCAGCCTGATCAACAAGAGA
CTGACGCCATCTCTACCAAAAAAAAAAAATTTAAAACAGGTGTGGTGGTACACGCTTGTAGTCCCAGCTTCTTGGAGGCTGAGGCAGGAGGCTTGCTTGA
GCCCGGGGGTTTGAGGCTGCAGTGAGCCATGATGATGCCACTGTACTCCAGCCTGGGTAACAGAGCGAGACTCTTGTCTTGAAAACAAGGAAAGAAATTA
TCTTACAGAGTCTCGAGGAAGAGAGATACAGCAGTGTCTTCGAATAGTATGGGAAGCATCCCTGTTTTAGGGCTTCAGTCTGACTCTTGGCCATTGTTTC
TCACTGTTGCCATTTCAAACAGGGCATTTCTTTACTGTCCATACATGGGAAGAATTTTGAACATCCGAGACCCTAAGTATCCGAGACTGCTGCCAACACA
CACACACACCTTCCTCCCCTCGTCTCCCTCCCTGTCATCGTGGCAACCAAAATTATCCATAGGGTGACGGACAATACCACCTCTGATTAAGAACCAGTAT
TCTAGGGTTTCTGGGGTTTCCATTTCTGAGAACAGTTCCATGCCAGAGCATTGTTTTGGTCAAGGAAGCGTAGGGTTTATGGATGCTAAACAGTGGGAAG
GTGCACACGCAGTGTGCTGTCCCGCTTGGATCTGACGAATCTTGGAAGTGTTAGTGCACCTCCGTTTCACACTTCCTGTAGAAGCAGCTCTTGTGGATTG
TCTGGGGCGTGAGTATAGGCTGTCCTGTCCTACCAAGTTACACCCTTTCCATTGAGGCAGAAGTGACCAAGGGGAAGGGATCCTTGTAATATAACCCACA
CCATCCCCACAGTGTGAACGTGGCATCACTGACACAATCAGAAATTCGAGACATCATCCTGGGTATGGAGATCTCGGCACCGTCACAGCAGCGGCAGCAG
ATCGCTGAGATCGAGAAGCAGACCAAGGAACAATCGCAGCTGACGGCAACACAGACTCGCACTGTCAACAAGCATGGCGATGAGATCATCACCTCCACCA
CCAGCAACTATGAGACCCAGACTTTCTCATCCAAGACTGAGTGGAGGGTCAGGTACTGTCGGGCAAGAGGGTGGGGATGGAAAGGCCGGCTGCACTACCT
AAGGTGCTGGGCTGAGCGATGCTGACACTCCCTGCCTGTTTTTAGGGCCATCTCTGCTGCCAACCTGCACCTAAGGACCAATCACATCTATGTTTCATCT
GACGACATCAAGGAGACTGGCTACACCTACATCCTTCCCAAGAATGTGCTTAAGAAGTTCATCTGCATATCTGACCTTCGGGCCCAAGTGAGTAAGTGGA
CTCAGCTAGGCCACAGTGTGTGCCCAACTCATTTTGTGCCTAAAACTCAGACCTGAGATTGTCTGGAACTTGAGATGCTGGTTTCAAGATTCATGGATGA
GTAATTATACAAGGATAGCCAAAACAACGAGGTGGGTTTTGGCCCCATGAGATAGCAAAAGCTGTGGCAGCTGAGAGAAGGTAGTAATTGTAGTATTGGC
CTGATAGTATTTGGAAGAGAACAGATATGGTCAGAAACAAATTCCTGACCAGGTGTGCGTGCTGGCTCATGCCTGTAATCCCAACACTCGGCTGGGCACA
GTGGCTAATGCCTATAATCCCAGCACTTTGGGAGGCCTAGGTGGGTGGATCACCTGAGGTCAGGGGTTTGAGACCAGCCTGACCAATATGGTGAAACCCT
GTCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCATGCGCCCGTAGTTGCAGCTACTAGGGAGGTTGAGACAGGAGAATTGCTTGAACCCGGG
AGGTGAGGTGGAGCTTGCAGTGAGCCAAGATTGCATCACTGCACTCCAGCCTGGGCAACAGAGCAAGACCCCGTCTAAAAAAACAAAACCAAAAAAAACG
TGGCTGTAGTCCCAGCTACTCAGGAGGATGAGGTTGCTTGAACGCAAGCAGTGAGCTTTGATGACCCCACTGCACTCCAGGCTGGGCACAGTGGCTCATG
ACTGTAATCCCAGCACTGTGGGAGGCCGAGGTGGGCAGATCTTTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACATGACGAAATGGAGTCTCTACAA
AAAAAAAAAAAAAAAACTAGCCAGGCATGGTGGCATACACCTGTAATCTCAGCTACTCAGGAGGCTGAGGTGGGAGGATCACCTGATCCTGGAGGGTGGT
GAGTGTAGTGAGCTGAGATCATGTCACTGCCTGCTAGCCTGGGTGACAGAGTGATACCCTGCTTCAAAAAAGAGAAAAGATGCATAACTTTACTAGTGTA
TCAGGGATATTATAGTTTATAAAACATCATTTTGGGCCAAGGTGGGTGAATCACTTGAGGTCAGGAGTTCAAGACCAGCTTGGCCAACGTGGCGAAACCC
CGTCTCTCTTAAATATATGAAAATTAGCGGGGCATGGTGGCATGTGCCTGTAGTCCCAGCTACTCAGGAAGCTGAGGCAGGAGAATTGCTTGAACCCAGG
AGGCGGAGGTCGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTTGCTGACAGAGTGAGACTCCATCTCAAACCCACTATTTAGTGGCTGTCAGGTT
GGCAAATTTGAAAAGATTGTTAATATCCTGTGTGGGTGAGTTTATAGTAAACAGATCCTCTTTCTTTCTTGGTGATAATGTAAAACTTAAAATAGCACCA
AGTGCTGGTTTTCCAGATGTTTTCAGCTTGTGAAAATACACTGAGCTGCATGTGTGCTCATTTGCTTGTGAATACTATGCTTAATAATCAGCTGGGGAGC
TTGTGAGCAGTGCAGATTCCTGGACCCCACTCAGGAGATTCTGATGTGGTAAGTCCGCGATGAGGTCCATGTCTAACATTTTGAACAAGCACCCCAGCTG
ATTCTGATACAGGGGGTTCTGATCACGTTTTAAGAAACTCTGTCCTCGTTCTTGGGGGAAGGAAGGAAACAGAGGGCTGGCAGCTCCAACTCTGACCTGG
TACTAAGAAGAGTTTTGGTTCCTGACCCCTTTGTCTCCAGATTGCAGGATACCTATATGGGGTGAGCCCACCAGATAACCCCCAGGTGAAGGAGATCCGC
TGCATTGTGATGGTGCCGCAGTGGGGCACTCACCAGACCGTGCACCTGCCTGGCCAGCTGCCCCAGCATGAGTACCTCAAGGTAATGGGGAGTGATGGAG
CCTGGGAGTGTGGAAAAGCTGGTGCGATTCCTGTCTGTGGATGGGATTCAGCTCTGTACTCCTCTTTACCTATAGGAGATGGAACCCTTAGGTTGGATCC
ACACTCAGCCCAATGAGTCCCCGCAGTTATCACCCCAGGATGTCACCACCCATGCCAAGATCATGGCTGACAACCCATCTTGGGATGGCGAGAAGACCAT
TATCATCACATGCAGGTGGGCCTGGGCTCCTTGGGAGGAAGTATGGTGGGGCAGGGATTGCAGGCCAGGGCCCAGAACAGTGGCCTGAGCTGTTACTCTG
TCCTCGTTCCTCCCCCAGCTTCACGCCAGGCTCCTGTACACTGACGGCCTACAAGCTGACCCCCAGTGGCTACGAATGGGGCCGCCAGAACACAGACAAG
GGCAACAACCCCAAGGGCTACCTGCCTTCACACTATGAGAGGGTGCAGATGCTGCTGTCGGACCGTTTCCTTGGCTTCTTCATGGTCCCTGCCCAGTCCT
CGTGGAACTACAACTTCATGGGTAAGTGGGAGGAGCCTGGGGATGTGGGGATAGCAGTAGGGATAAGGTGAGGCCATCGCCCTTTGCACTTGGGGCCTGG
CTGGCTTGGAGGTGGCGCAGGCTGCATGAGGCAGGAGCCCTGTTAACATTGGCTGTTTCCTTCTCCCCGAAGGTGTTCGGCATGACCCCAACATGAAATA
TGAGCTACAGCTGGCGAACCCCAAAGAGTTCTACCACGAGGTGCACAGGCCCTCTCACTTCCTCAACTTTGCTCTCCTGCAGGAGGGGGAGGTTTACTCT
GCGGATCGGGAGGACCTGTATGCCTGACCGTTTCCCTGCCTCCTGCTTCAGCCTCCCGAGGCCGAAGCCTCAGCCCCTCCAGACAGGCCGCTGACATTCA
GCAGTTTGGCCTCTTTCCCTCTGTCTGTGCTTGTGTTGTTGACCTCCTGATGGCTTGTCATCCTGAATAAAATATAATAATAAATTTTGTATAAATAGGA
GTTCAGGGGCTGGTTTGTTTTTTTTTTCCCCCCCAAACTCAAATTCTGGATTTAGGTCTAACAGGAGGCTGGACTGGAGCGGTTCACAGCAAGATGCTGG
GCTCGGCTGTGAAGGGGGGAGTATGAGGCCCCCTTCCTATTCAGGGCTTTGGGGTAGATAGCCCCTGGACTCAGTGGAGACCTGAGGCAGGGCTGGGCTT
TCACACTCCGCTGCCTTGACCACATTTGCTGCTTTTTCCACAAAACTACTTGGAAGCTCTCGCCTCCTTTCCACAGTTTTGGGAGCAGTTGCCCTTTCCC
GGGTCTAGGAACTCTGTGGCTTGTGCTGAGCGGCTGCGGTGTCCAGCCCAGCCCTTTAAGCTTTCTGTGTCAGTCCTGGTCAGGAAAACAAGCACACAGG
CAGGCAGTTTGTGTACAGCCGGGCGGAGGCCAGAGACCGGCTGCCTACCTGTCACCTCTCGCCTGGAGCGGGCCACTGCCAAGTTGGCCCCATGACTCCA
AACGGGCGGAGCCTGGATTGGGCCTGTGGGGAGGGCTCCACTCAAGTGACCACTTGCAGCCCTGAACCTCAGCTCTTGGACGCCTGGCTGGAAGTTGGCT
GTCTTGTTTCCTGTGACCTTGGGGGTGGAAAGGACAGAGCCCAGGCGACCTAGGGCACTATCTCCCTACCCCACGCCTTCTCCCTTCCTCGTTCCTCCCT
ACCCTTATCGCTTCTACCCCGCCCACACCGCCCTAAACGGCTTCCTGGGGCGGAACTGTTTCGCTTTTCCCCGTCCCAGTGGAGGGTGGGGTGGGGGGGT
CGCAGCCCTAAGCCTCTGGGAGACATGGAGCCCAGGAGGGCGGCGCCCGGGGTGCCTGGCTGGGGGTCTCGGGAGGCCGCGGGGTCGGCATCGGCCGCGG
AGCTTGTGTACCATCTAGCCGGGGCCCTGGGCACTGAGCTGCAGGATCTGGCGCGCCGTTTCGGGCCGGAGGCGGCGGCCGGGCTGGTGCCGCTAGTGGT
GCGGGCGCTGGAGCTCTTGGAACAGGCTGCCGTGGGGCCCGCCCCGGACTCGGTGAGTCATGGCCCTCCCTTCGCCACCCACGGGGYCGGCAGGGCCGAA
GCCTGAGACCCGGGTCTCCCCAGCTGCAGGTGTCGRCGCAGCCGGCGGAGCAGGAGCTGCGGCGGCTGCGGGAGGAGAACGAGCGCCTCCGCAGGGAGCT
GCGCGCGGGGCCACAGGGTAAGCGCAGCCCCGGCCAGGGCAGGGCGGGTGACGACCTGCTCGGGTCCTCCCCTCCCTCCCGCGGGCCGCGCGCCGCCGCC
GCTAAGAACGCCCCTTCCTCAGAGGAGCGCGCGCTGCTGCGGCAGCTCAAGGAGGTCACGGACCGACAGCGGGACGAACTCCGGGCGCACAACCGCGACC
TGCGGCAGCGCGGCCAGGAGACCGAGGCGGTGAGGGCGGGGCGGGGCTCTGGGGCGGGGCGGGGGCGGAGCGTGGCAGGCGCTGGGCGGGGCTCCGGGGG
CGGGGGCGGAGCGAGGCAGGCGCTGGGCGGGGCTCCGGGGGGCCCTCGGTGCCCCGCCCACCCCACCCTTTGCTCCGCTCCCAGTTGCAGGAGCAGCTGC
AGCGCCTCCTGCTGGTGAACGCTGAGCTGCGGCACAAGCTGGCGGCCATGCAGACCCAGCTGCGCGCCGCGCAGGACCGCGAGAGGGAGCGCCAGCAGCC
TGGCGAAGCCGCGACTCCGCAGGCTAAAGAGCGAGCGCGGGGGCAGGCCGGGCGGCCCGGGCACCAGCACGGACAGGAGCCCGAATGGGCGACCGCCGGC
GCAGGCGCCCCAGGGAACCCTGAGGACCCGGTGAGTGCCGTATGAGGGCAAGGACCCAGCCCAGGACKCAGCGTCCAGCCCTCGGTGGGCACTCAAGCAA
GGTTTGCATGCTGCACAGCAGGTCGGCCAGGAAGCGGGGAGGTGGCAGACAGATCTGCGCCCCCGGCCGGCCTCGGCCCCCGCTCTCAGCTGGAGCACTG
CTCTGTTATCTGTTAGGGCACCCTTGTCCCCCAAGTCTCCCGGCCCGTCACTTCCTCTAGCATTCCCATGATGGCCCTGGGGCGGGGGAACGCCAGCCGA
GGCGACCCTCTGACTGTGCCTGTCCTTCCAAAGGCGGAGGCCGCGCAGCAGCTCGGGCGCCCCTCGGAGGCAGGGCAGTGCCGCTTCAGTCGGGAGGAGT
TTGAGCAGATCCTTCAGGAGCGGAATGAACTCAAAGCCAAAGTGTTCCTGCTCAAGGAGGAACTGGCCTACTTCCAGCGGTGAGGACGCTGGGAAGCCGG
GGGGCCTCCGATCACCCCACCTCATTCTCCAGTCATTGACATGTCCACAGTGACATGTGCCAGGCCTGCGCTGGGAACTGGGAGGACATGAATTGTACAG
CCCTTGCCCTCCTGCAATGTCATCCAGACAGGGGAGAGGGACAGTACAAAGGGTTGCAGCTGCAGCAGCCAGGGAATCTCTCCTAGGAGGGGGCCACGGG
GCCACCTAATTTAAGGTCTGAGGGTGTCAGCAAGGCAGAGCGCTTCCCGTGTTCAGGGAAGAGCTGCGTGCACAGGTACCAGGAGTGAGGACTGCGGCTG
GCATCTCCACTGCTGGCATCCCCATGGCTGGCATCACCAGGGCTTTCTCCCTCCCTGCCCCTTTTCTTTAGGGAGCTGCTCACAGACCACCRGGTCCCYR
GCCTTCTGCTCGAGGCCATGAAGGTGGCTGTCCGGAAGCAGCGGAAGAAGATCAAGGCCAAGATGTTAGGGACACCAGAGGAAGCAGAGAGCAGGTAGGT
CCCTGCCTGCATTCCCACGGAGCCAGGMCTCCCTCCCTCATTCTGCTGAGCCTGATGACCCAGCCTGGTCACCCTCTGAGCCCATTGTCTCAGACTGAGG
CTGTCACCCCAACCCGGTCACCCCTTGAGCCTCCCTAGCCTGGCCGCTTCTAGGGCCTGCTGACCTGCTCTGGCTGTGTCCCATGGCCGCTGTCCAGCCT
GCGCCCTTCTCCCTGGATCTCACCACTCCCCTTGCCTTGCCTGCCATCCATTCTGCCTGACAACACTGCCTCTCCACATTCATTCTTCAAGTTCCTGTCT
TGGCTGGGTCTGTTTATTCTTACGGGGGTGAAACTGTAGCCGCGGCTGTGTCAGGGCCTGCTGTGTGTCAAGCTATAAAATAAACCCTTGGCAGGGCGCG
GTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCTAAGGTGGGTAGATCACCTGAGGTCAGGAGTTCGAGACCAGCGTGGCCAACATGGTGAAACTCC
GTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCATGTGCCTATAATCCCAGCTACTCAGGAGGCTGCGGCAGGAGAATCGCTTGAACTTGGGA
GGCGGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAATTAAAAATTAAAGGCT
CGACATCCTGCATCTCCCCAGGGTTGCCTTCTCTCCAGCCCCGGGGGCCCTGCAGTCCCTCCATCCCCCCTGCTGGATTCCTGTTGTCCCTCAGGGCCTT
GATCAATGGCCCTCACTTCTCCTCTCTCCTCTGTCTCAGTGAGGATGAGGCTGGCCCATGGATCCTGCTCTCCGATGACAAGGGAGACCATCCCCCAYCC
CCGGAGTCCAAAATACAGAGTTTGTATGTTGGGGAAAGGGGAAAGGCAAGAGTGTGGGGAGGGAGGAAGGGCCCTGGCTGGTCCTTCTCAGGATCCCCTT
TCCCGCTTCTCTGCCCRTCACCCTGCTGTGCTTGGCTCTAAGCACACCGTCCCCTCCTGCTTCTCTGGCCCTGGCCCCCATCACCTTCACACTCCCTCAG
GCTGCCCTTTCTTCCCCCTCTCCCCTTTTCTCACCAYCCCCTGCCCTCACCCATATCCTTGACCTCTCTGGCTTCCTGGCTCAAAGTGCCTCTGGCTGTC
TCTCTCCAGCTTTGGCCTATGGTATCGGGGTAAAGCTGAATCCTCTGAGGATGAGACCAGCAGCCCTGCACCCAGCAAGCTAGGGGGAGAAGAGGAGGCC
CAACCACAGTCTCCAGCTCCTGATCCGCCCTGTTCTGCCCTCCACGAACACCTTTGTCTGGGGGCCTCAGCCGCCCCAGAGGCCTGACTTAGGGGTCTGG
CTGTGGAAGGATGTGTGGCCTCAAATGAGGACAGGGCTCCCGCCTTCACAGCCCTCGCCAGGGGTCTGCCCCAATCCTGGCCTGCATCAGGGCAGGACGG
GGTCTCAGCCCGCCTCCCTCTCTACGTCTCTGTACYGAGCCTCTGGGGCCAGATATAAGAGTGCCTCTCTGAGTCTCAGTTTCCCCATCCATGAAATGAG
AGCTGACTGCCTAGCTCCCAGGGCTTTGTGMAGACGGCCTGAGCTCATGTAATAAAGAACTGCCCGTAATACACAGAAACTGTTCCTCGCCTGTCTGTCC
ATGTCTGTGCCACCTCCCAACCCTGCCAGGAGCAGAGGCAGGCTGAGGGGTCCTCGCTGGTCTCCTTGCTCAGTCACTGGGTGGGGTGGCTTCTTGCAGC
TCAGGCCTTGCTTTGGGAGTGTGGCCTGATGGAAAGCCGTGGCTCCCAGCCTCAGTCCACCCCCTTCCCTGGCCCCGGCACCCAGGGACCTGCAACTTCA
TTCTTCTGGCCCTTCCAGGCCCAGGCCAGTCAGCCCTGCCATTGCCTTTCTTTCCCTTTCTTTTTTTGAGTGTCAGTCTTTCCAGCCACCCCCTCCCTCT
CAGGGAGGTGCCTCGTGGCAGCCCGCCCCTCCGGCCTGGTTTCCTCAGGAAAAGCCCTGAGAGGAAGCAGGGAGGGGGTTGGGAGCTGTGGGGGCCAGAC
GAACCCGAGCGCTCCCACCGAGCTGCCTGCCATGGGGCTGGGGCTGCTGCTCCCGCTGCTGCTGCTCTGGACTCGGGGGACTCAGGGGTCCGAGCTGGAC
CCCAAAGGGCAGCACGTCTGTGTGGCCAGCAGGTGGGTCTCGTGGGAGTCTGATGCGTGTGGCCAGCAGGTGGGTCTCGTGGGAGTCTGATGCGGGTGGC
TGAACCGGTGTTGAGGCCGTTAGGGGAAGGAGGAGACTAGGAAGGGGGCTTAGGCTGAAAGGAAGGGACTGCTGATGGCGGTCTGGCAGGTAGTGGCCAG
CCAGGGCAGATGGTGGAAGGGTCAGGGAAGGAGAGGGGAGGGGCTGGGGACCCTAGCTGTAAAGATCCATTAGGCCTCCCCAGGGGGCTAAGGCAGCCTC
CCCCACTGCAGCCAGAGACAGTGATCCACCTTCCTCAGGGCCAGGCTGCACCCCCCACCATGTCCGGCTGACCCCTTTTTGCCCCACAGCCCCTCTGCTG
AGCTGCAGTGCTGCGCAGGCTGGAGGCAGAAGGATCAAGAATGCACCATCCGTGAGTAGCCAGGACAGACCCTCAGCCAAGGAGAAGGGAGGCCGTAGCC
CAGTGACAACCCTTCCTTCCTACCCCATGGGGCCTGCCCCTCCTGATACCAGGAGTCAGGGTTTCTCCTGTGACGCACCCCCAGGCCTGAAGGGGCACCT
CTTGAGGAGGCATGGCCCCTGGAGCCAGTGAGAGGGCAGGGGTGTCCCCTGGTCCTGCTCCCGTCTTTCCAACCTGGGTGGGGTGTCTTTCAGCCATCTG
TGAGGGGCCGGACGCCTGCCAGAAAGACGAGGTGTGTGTGAAGCCGGGCCTCTGTCGATGCAAGCCTGGATTCTTTGGGGCCCACTGCAGCTCCCGTGAG
TCTCAAGGGCCAGATGAAGTTGCTGGGCAGAGCTGGGTACGGGGGCAGTGGTGTGGGAGCAGGCGAGGCAGGTAGCCATGCAGCCTCAGGACAGCAGGGC
CAGAATCCCCCCCAGCTTCACTGAGGAATTGCGGTCCAGAGACAGGAAGTGACACACACTCCCGGGAGATGACCTGAGTCACCGGGTTTTTACCCACATC
CACAAAGCACTGCCCACCTGAGCATCTTCCTCTTCCACTTCTCAGAAAACCTGTGATTCCCCTTCATTGTAAAATGAGTGTATTACTTGCCTTTCCCACA
TATACCTTATACATGGGCAGTGGATGGAAGGGGGCCCCTGGCTGGGCTCTCTGCCCTCTCTGGCAGAAAGAGAGGGAAGGGAAAGGGGTTGGGAAGCAGG
AGAGCCAGAGGGTGGGCATCAGGAATCAAGGAATCACTAGGGGAAAGGTGGCTTCTCCCGACACCCTGGCGGGCAGTATCCAGGCCTGAGATCAGGAGAA
AGCCAGCTCTCCTCCAGCCCAGCAGAGATCCATCTCGGCAGGGAGGAGCAGGCATGGAGGAAGGCCCACCAACCTCGGTGCCACGCTCTGGGCAAGTCCC
CTGCCCACTCAGGATCTCTGAGTGTGTTCTGGAATGTGAAGTGGCAGGCTGAGCCTCCCACTAATGGCTAAGGGTTTTCTGTAGGTCAGAGCGGAGCAGG
AAGTGAGTGTTGCCCAGGACAGGCTGCCGGATGTTCTGAGGGTCTGTCCCCGGCTCTTGGAGGATGGGCCCAGCGCCCCTTTTCCTTGAGGAAGGGGACG
CAGGGTAAGGGTCTGCGCGCGGCCCTGAGCCCGCTGACCCCTCCCGTCCCCACCCCCGCAGGCTGCCCGGGCCAGTACTGGGGCCCCGACTGCCGTGAGA
GCTGCCCCTGCCACCCGCACGGCCAGTGCGAGCCAGCCACGGGCGCGTGCCAGTGCCAGGCCGACCGCTGGGGAGCCCGCTGCGAGTTCCCGTGCGCCTG
CGGCCCCCACGGGCGCTGCGACCCCGCGACCGGCGTGTGCCACTGCGAACCCGGCTGGTGGTCGTCCACGTGCCGCCGCCCGTGCCAGTGCAACACCGCG
GCGGCGCGCTGCGAGCAGGCCACGGGCGCCTGCGTGTGCAAGCCGGGCTGGTGGGGGCGCCGCTGCAGCTTCCGCTGCAACTGCCACGGCTCCCCGTGCG
AGCAGGACTCCGGCCGCTGCGCCTGCCGGCCGGGCTGGTGGGGTCCCGAATGCCAGCAGCAGTGCGAGTGTGTGCGGGGCCGCTGCAGCGCCGCCTCCGG
CGAGTGCACCTGCCCGCCCGGCTTCCGCGGAGCGCGCTGCGAGCTGCCCTGCCCGGCAGGCAGCCACGGGGTGCAGTGCGCACACAGGTGAGCGGGCGGG
GCGGGGACAGGTGGGCTGGCGGGGCGGGGGCGGACACAAGTGAGCAGGCGGGGCGGGGCGGAGACAGGGGGGCGGGGCGGAGACAGGGGGCGGGGCGAAG
ACAGGTGGGCGGGGCGGACACCGGTGGGCGGGGCGGACACCGGTGGGCGGGGCGGGCACCGGTGGGCGGGGCGGACACCGGTGGGCGGGGAGGGGGGCCG
GGGTGGAAACTGGTGAGCGGGCAGGGTGGGGGCGGGGCGGGCACAGGTGAGCGGTCGGGGGAGGGGGCGGAGGCGGACACAGGTGAGCGAGGCTGCGCGG
AGACCTGTGAGCGGGCGGGGCGGAGCGGAGACAGGTGGCCGCGGCGGGGCGCCGGGAGGAGGGGTCAGGGCTTCGCGGTGCTCCTCTCAAAAAACATACA
AAGCAGAGGAACGAGAAAGGGGAAAAGTCGGATAGGTGGGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGCATCACCTGAGGT
CAGGAGTTCGAGACCATCCTGGCCAACATGCTGAAACCTCGTCTCTACTAAAAACACAAAAATTAGCCGGGCTGCGCCTGTAGTCCCAGGTATTCGGTAG
GCTGAGACAGGAGAATCGCTTGAGCCCTGGAGGCGGAGGTTGCAGTGAGCCGAGGTCGCACCACTGCACTCCAGCCTGGGCCAGAGAGCAAGACTCCGTC
TCAAACAAAACAAAACAAAAACTTTTAAAAACGCTTTGTTGCCCCAGGTCCAGCCTCACCTGCTCATTTCATTGATTACTGCTGTGCAAAATATACTAGC
ACTGCTAGCAAGCCATATGTAGGTAATAAGTGGATCGAGTCCAACAATGATAGACTGGGTTAAGAAAATGTGGCACATATACACCATGGAATACTATGCA
GCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGAAGAAATTGGAAATCATCATTCTCAGTAAACTATCGCGAGAACAAAAAACCAAACACC
GCATATTCTCACTCATAGGTGGGAGTTGAACAATGGAATCACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTTGTGGGGTGGGGGGAGGGG
GGAGGGATAGCATTGGCAGATATACTTAATGCTAGATGACGAGCTAGTGGGTGCAGCACACCAACATGGCACATGTATACGTATGTAACTAACCTGCACA
ATGTGCACATGTACCCTAAAACTTAAAGTATAATAATAAAAAAATATATATAAATATATTTAAAAAAAGAAAATTAAAAAAATGGTTTCTTACAAAAAAA
ATAATAAATAAGTGGATCGAGTGACCAAGGGTCCTGAGCAAGGTCCCTTTAGGGCTCAGTGGCTTTCAAACTTTGACTGGCTGCACTCACAGTAAGAAAT
TTCATCCCTGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCT
GGCTAACATGGTGAAACCTCGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGTTGGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGG
AGAATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGCGCCACTGCACGCCAGCCTGGGCGACAGAGTGAGACTCAGTCTTGAAGAAAAT
AATAATAAAATAAAATAAGAAATAAAAATGCTGGTCAGGATCAGCTAAATGGCTTTTATAAACTGCCCTTCTTCTCCCCTACTAATGGGTCTGACCCAAG
TATATGATCCCAGCTAGTTAAGCATCTGAGGGAGAAACTTCAGGTAACTATTAGGCATCAATGGGAAATTAAGATATGGCAAATGTGAAATTATATTGGT
GACAACAGTGGTCTCCAACCTTTTGGCACCAGGGACTGGTTTCATGGCAGACAATTTTTCTATTATTACACTGTAATCTATAATGAAATAATAATATGAC
TCACCATAATATAGAATCAGTGGGAGCCCTGAGCTTGCTTTCCCGCAGCTCGAGGGTCCCATCTGGGGGTGATGGGAGACAGTGACAGATCATCAGGCAT
TAGATCCTCGTAAAGAGCATGGAACCTGGACCCTCCCGTGCGCAGTTCACAATAGGACTGGCGCTCCTATGAGAATCTGAGGCCACCACTGATCTGGCTG
GCAGCGGAGCTCAGGCGGTCAGGCTCCCCTGCTGGTCATCTCTACGCTGTCGCCCAGTTCCTAACATGCCACGGACTAGTACCAGTCCATGGCCCAGGGT
TTGAGGACCCCTGGGTGAAAACACTTTACATTTTTTGCATTTCGTGTGATGGGGTAGAAGACACTACTGAGTCCCATTCATGCCAGACCTGGGGACGGCT
CAGTGTGGAAAAAGGAAAAGTGAAAAGAGCAGGAGGGAAGGCCTGGCAGACCTCGCAAATGGGACTCAGAGCTTGGTGGTGACTCGCCTGCCCTGGCTGG
GCTGCTGGCTCCTGATGGTCCTGGGACCCAGGGAAAGACGGTCACAGAGCAGATGCCTGGAAGGAAAGGGATGGGATCCTGTAAGAGCCCTCATTTGTCC
TCATTGTACAACGTGGGGAAACTGAGGCTCAAACCTGCCTGACCCAGGTGGGACCCGAACACTCTCCAGGGCCCCCGAAGGCCTGCGTGGAGTACAGGGG
TAGGAGGGGGTGGGCGCTCCATCCATCCACCCCCACTGTTCCCACGAAGCCCTTCTCTTCCCAGCTGTGGCCGCTGCAAACACAATGAGCCGTGCTCTCC
AGACACAGGCAGCTGTGAGTCCTGCGAGCCGGGCTGGAACGGGACCCAGTGCCAGCAGCCCTGCCTGCCTGGCACCTTTGGCGAGAGCTGCGAACAGCAG
TGCCCTCACTGCCGACATGGGGAGGCCTGTGAGCCAGATACTGGCCACTGTCAGCGCTGTGACCCTGGCTGGCTGGGGCCCAGGTGAGGGCACCATTCTG
TTCAGGGTGGGGTACACCTTCCCCCAGGACCCTCAGCTCAGCGGCTCTCTCCGAGAGCACCACCCTCCCCGACACACAGGTTCATGCGGCCCCAGGGGCC
TCCCTCCTGTTGAAGACTGGGGGAGAGCAGTGGGTTCTGGGGGGGCCTGGGCAGGATCCCAGCTCCCTCCCCTCTGAGGCTTCCTGCCCTCCTCGCCCTC
TGGGGACTTGTAGTCTGTCACCTGCTGGATTTGGCCCCAAGTTCAAGGCCCTATTTGCACCTGAGCTTCACTGCTGAGGAGT


SNP Information

Context             (SEQ ID NO:65014):
AGAGTTTGTATGTTGGGGAAAGGGGAAAGGCAAGAGTGTGGGGAGGGAGGAAGGGCCCTGGCTGGTCCTTCTCAGGATCCCCTTTCCCGCTTCTCTGCCC
R
TCACCCTGCTGTGCTTGGCTCTAAGCACACCGTCCCCTCCTGCTTCTCTGGCCCTGGCCCCCATCACCTTCACACTCCCTCAGGCTGCCCTTTCTTCCCC
Celera SNP ID:            hCV22274499
SNP Position Genomic:     9417
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,28)   caucasian(A,26|G,12)   total(A,36|G,40)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,442|A,1049)   total(G,442|A,1049)   (A,-|G,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65015):
GGCCCGCCCCGGACTCGGTGAGTCATGGCCCTCCCTTCGCCACCCACGGGGCCGGCAGGGCCGAAGCCTGAGACCCGGGTCTCCCCAGCTGCAGGTGTCG
R
CGCAGCCGGCGGAGCAGGAGCTGCGGCGGCTGCGGGAGGAGAACGAGCGCCTCCGCAGGGAGCTGCGCGCGGGGCCACAGGGTAAGCGCAGCCCCGGCCA
Celera SNP ID:            hCV25613734
SNP Position Genomic:     6736
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,8)   caucasian(G,2)   total(A,6|G,10)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65016):
GTGCCGCTAGTGGTGCGGGCGCTGGAGCTCTTGGAACAGGCTGCCGTGGGGCCCGCCCCGGACTCGGTGAGTCATGGCCCTCCCTTCGCCACCCACGGGG
Y
CGGCAGGGCCGAAGCCTGAGACCCGGGTCTCCCCAGCTGCAGGTGTCGGCGCAGCCGGCGGAGCAGGAGCTGCGGCGGCTGCGGGAGGAGAACGAGCGCC
Celera SNP ID:            hCV22273386
SNP Position Genomic:     6687
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,7)   caucasian(C,32)   total(C,41|T,7)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,12)   total(C,2|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:65017):
CTGCGGCTGGCATCTCCACTGCTGGCATCCCCATGGCTGGCATCACCAGGGCTTTCTCCCTCCCTGCCCCTTTTCTTTAGGGAGCTGCTCACAGACCACC
R
GGTCCCCGGCCTTCTGCTCGAGGCCATGAAGGTGGCTGTCCGGAAGCAGCGGAAGAAGATCAAGGCCAAGATGTTAGGGACACCAGAGGAAGCAGAGAGC
Celera SNP ID:            hCV25613735
SNP Position Genomic:     8292
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,25)   caucasian(G,38)   total(A,7|G,63)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65018):
GGCATCTCCACTGCTGGCATCCCCATGGCTGGCATCACCAGGGCTTTCTCCCTCCCTGCCCCTTTTCTTTAGGGAGCTGCTCACAGACCACCGGGTCCCC
R
GCCTTCTGCTCGAGGCCATGAAGGTGGCTGTCCGGAAGCAGCGGAAGAAGATCAAGGCCAAGATGTTAGGGACACCAGAGGAAGCAGAGAGCAGGTAGGT
Celera SNP ID:            hCV25613743
SNP Position Genomic:     8300
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,1|G,37)   total(A,3|G,71)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65019):
CTGTCCGGAAGCAGCGGAAGAAGATCAAGGCCAAGATGTTAGGGACACCAGAGGAAGCAGAGAGCAGGTAGGTCCCTGCCTGCATTCCCACGGAGCCAGG
M
CTCCCTCCCTCATTCTGCTGAGCCTGATGACCCAGCCTGGTCACCCTCTGAGCCCATTGTCTCAGACTGAGGCTGTCACCCCAACCCGGTCACCCCTTGA
Celera SNP ID:            hCV25613736
SNP Position Genomic:     8428
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(A,1|C,39)   total(A,3|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:65020):
TGGCATCTCCACTGCTGGCATCCCCATGGCTGGCATCACCAGGGCTTTCTCCCTCCCTGCCCCTTTTCTTTAGGGAGCTGCTCACAGACCACCGGGTCCC
Y
GGCCTTCTGCTCGAGGCCATGAAGGTGGCTGTCCGGAAGCAGCGGAAGAAGATCAAGGCCAAGATGTTAGGGACACCAGAGGAAGCAGAGAGCAGGTAGG
Celera SNP ID:            hCV25613744
SNP Position Genomic:     8299
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65021):
GCTCCCGCCTTCACAGCCCTCGCCAGGGGTCTGCCCCAATCCTGGCCTGCATCAGGGCAGGACGGGGTCTCAGCCCGCCTCCCTCTCTACGTCTCTGTAC
Y
GAGCCTCTGGGGCCAGATATAAGAGTGCCTCTCTGAGTCTCAGTTTCCCCATCCATGAAATGAGAGCTGACTGCCTAGCTCCCAGGGCTTTGTGCAGACG
Celera SNP ID:            hCV15961685
SNP Position Genomic:     9936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65022):
CTTGATCAATGGCCCTCACTTCTCCTCTCTCCTCTGTCTCAGTGAGGATGAGGCTGGCCCATGGATCCTGCTCTCCGATGACAAGGGAGACCATCCCCCA
Y
CCCCGGAGTCCAAAATACAGAGTTTGTATGTTGGGGAAAGGGGAAAGGCAAGAGTGTGGGGAGGGAGGAAGGGCCCTGGCTGGTCCTTCTCAGGATCCCC
Celera SNP ID:            hCV25613745
SNP Position Genomic:     9298
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34)   total(C,71|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65023):
CACGGACAGGAGCCCGAATGGGCGACCGCCGGCGCAGGCGCCCCAGGGAACCCTGAGGACCCGGTGAGTGCCGTATGAGGGCAAGGACCCAGCCCAGGAC
K
CAGCGTCCAGCCCTCGGTGGGCACTCAAGCAAGGTTTGCATGCTGCACAGCAGGTCGGCCAGGAAGCGGGGAGGTGGCAGACAGATCTGCGCCCCCGGCC
Celera SNP ID:            hCV15961678
SNP Position Genomic:     7468
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,58|G,1441)   total(G,1441|T,58) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65024):
TCTAAGCACACCGTCCCCTCCTGCTTCTCTGGCCCTGGCCCCCATCACCTTCACACTCCCTCAGGCTGCCCTTTCTTCCCCCTCTCCCCTTTTCTCACCA
Y
CCCCTGCCCTCACCCATATCCTTGACCTCTCTGGCTTCCTGGCTCAAAGTGCCTCTGGCTGTCTCTCTCCAGCTTTGGCCTATGGTATCGGGGTAAAGCT
Celera SNP ID:            hCV28958513
SNP Position Genomic:     9537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65025):
TGTACCGAGCCTCTGGGGCCAGATATAAGAGTGCCTCTCTGAGTCTCAGTTTCCCCATCCATGAAATGAGAGCTGACTGCCTAGCTCCCAGGGCTTTGTG
M
AGACGGCCTGAGCTCATGTAATAAAGAACTGCCCGTAATACACAGAAACTGTTCCTCGCCTGTCTGTCCATGTCTGTGCCACCTCCCAACCCTGCCAGGA
Celera SNP ID:            hCV11952025
SNP Position Genomic:     10031
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Gene Number:                 406
Celera Gene:                 hCG29358 - 67000129279312
Gene Symbol:                 OSBPL7
Protein Name:                oxysterol binding protein-like 7;FLJ20260;ORP7
Celera Genomic Axis:         GA_x5YUV32W3KM(14975088..15001550)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12566):
AACCTCTGCCTCCTGGGTTCAAGCGATTCTCTGCCTCAGCCTCCTGAGTAACTGGGATTATAGGCACATGCCACCATGCTCAGCTAATTTTTTGTATTTT
TAGTAGAGATGGGGTTTCGCTATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAAGCAATCCACCTGCCTTGGCCTCCCGAAGTGCTGGGATTATAGG
CATGAGCCACCGCGCCCAGCCAAATTTCTCAATTTTAAACTAACACTGCAAAAGAGTTATATTTATGATTGGCAAAATAATTCAACATGAGTACAGTGTC
AGATTGATAATTGAAATAATTTTAGCAATATTATTGTCAAGCACTGTTGACTAGGGCAGACTGCAGGCCTGTTTTCGGGGGAGTGGATCTGAGCATCCTC
AGGTTTGAAAAACACTGCTAAAGACTGCAATTATCTAATGAAAGTGAAAAGGTTAGAGTAGTGGGAGATGTTACATGTCTCTGAGAGTCAGAGGCCCAGT
TATCCTACTTGTTCCCCGATCTTTTGCACATCTGGACATCACTGGAAGCCCTAGAACCTACCACAGAGGGAGCAACGTTGCCAGGAGAAGTGGCAGCTGA
TGTACCCTTGGTCATTGCTTTCCAACTTCAGGAGATAGGCCTCATCAGGCTTCTCCGCCGGGAGATAGCAGCAGTTTTCCAGGACAACCGAATGATAGCC
GTCTGCCAGAATGTGGCTCTGAGTGCAGAGGACAAGCTTCTTATGCGACACCAGCTGCGGAAACACAAGATCCTGATGAAGGTCTTCCCCAACCAGGTAG
GGAGCAGGCCCCTTGGCATGGGTTGCCCATCTTCCCCCCACCCCCACCAGACTCAGACCTCACCATCTGCTCCCCAGTGATGATACTTCTTACTCCTCCT
CTCCATGAGTCACCCTCTAATCTGGTGTCTAACCTATGATTAGGGGCTGAGAAGACCCTTGGGTTGCACCCTCAGCCTAATGTGGCCCATGACCCACGAG
GTAGCTCTTCCTCCCACTTGTCCCCGATAAGCCATTTTTCCCTGCTGTTCCCAGGTCCTGAAGCCCTTCCTGGAGGATTCCAAGTACCAAAATCTGCTGC
CCCTTTTTGTGGGGCACAACATGCTGCTGGTCAGTGAAGAGCCCAAGGTCAAGGAGATGGTACGGATCTTAAGGACTGTGCCATTCCTGCCGCTGCTAGG
TGAGCAAGCACCCCTGCCAGTTAGGGGTGGGGTGAAGAGGGGCCTGCTGCCATCTGCTAGGCTTGTCTTGGTAAAACCGTGAACGTTCTTGGAGAGAGCA
TCCTTTCACGGATGGAGCCTGAGTAAACAGCACATTTATTGAGGGCCGACTGTCACTCCCACACCTGTGTTGTCTCACTACCCCAGGTCACTTCTGCACT
GGAGGGAAGACTAGGAAAGGCAGACATGGAGCAGGGAGAGAAAATTTAGATACCTTGAGTCTAACAGTGGGGTAGTAGGTGCTGAAACCCTCACAGATGA
AGATATTTAATACAAGTAGCCCAAGTAAAGGGTGCCGAGGGCCAGTGACCAGTGTTTCCCAGACTCCCCTGATGCTGACTCACTTAAGGGGCAGAGAATA
CTGCACATGTCCTTGGAAATCCAGATTTCACAGGTCTCTGTAGGGAGGGGGCGGGACAGGAATCTGATTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTC
ACTCTATCACCTAGGCTGGAGTGCGGTGGCACAGTCTCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAG
CTGGGATTACAGGCACCTGCCACCACGCCCAGCTAATTTTTTTTTTTTCGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTGGCCAGGCTGGTCTTGAA
CTCCTGACCTCAGGTGATCCGCCACCTCAGCCTCCCAAAGTGCTGGGGTTACAGGCATGAGCCACCGCTCCTGGTGAATCTGTGATTTTAATACCCCCTC
AACACTCCATGATATTTATTCAATTTTTTAATTGTAAAATACACACAAAATTTACCATCTTAACCATTTTAAATGTACAGTTCCGTGTTAAGTACATTCA
TAATGCTATGCAACATCACCACCATCCATCTCCAGAACGTTTTGTCTTCTAACAGTGAAACTCTACACCCATTAAACAATAGTTCCCCGTTACTTCCCTC
CATTCCATGATTCAGGGTCTCACTCCCATTGCCCAGGCTGGAGTGCAGTGGTCCGGTCATGGCTCACAGCAGCCTGGACCTCCTTGGCTTAATCCATCCT
CCCACCTTAACTTCCTAAGTAGCTGGGACTACAGGCGCATGCCACCATGTCCAGCTAATTTTTGTATTTTTTGTATTTGTATTCACCATGTTGCCCAGGC
TTGTCTTGAACTGCTAGTTTCAAGCAATTATGCCACCTTGGCCTCCTGAAGTGTTGGGATTACAGGCGTTTTCCACTGCACCCAGCCTGATTCTTTGTTT
TTTTGAGACGGAGTTTCGCAGTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTTAAGCGATTCTCTTG
CCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCTTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATGTTGGCCAGGT
TGATCTCAAACTCCTGACCTCAGGTGATCCACCGACCTTGGTCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCGTACCCAACCTCATCCTGATTCT
TTTTTTTTTTTTTTTTTTTGAGACGAAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCAATGGCACGATCTCAGCTTACTGTAACCTCTACCTCCCGGGTT
CAAACGATTCTCCTGCCTCAGCCTCCCGAGTGGCTTGGATTACAGGCGCTCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCT
CCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCTGG
CTGCCTGATTCTTATTTACAAGGAAGTTTAGGAAACACTGACTTAATAGGGGTCAGGGCCAGGTGGATATATTAAGAGTTTTCTGAGGGAAGAGTGAAGA
AGTAGGGATCGATCCCAAGCAGAGTGGGTGTGGTGTGGGGCACAGTGGAACCCAGGTCCTGGGGAAGGCAGGATTTTGAGAAGGGCAATGGAGAGCAAGT
TACTAGGGTCAGAATATTGTTTTCAGAGAAGAAAGGCAATCTGCAAGGAGCCTAACTGACCCTGTGTTCTTCCAGGTGGCTGCATTGATGACACCATCCT
CAGCAGGCAGGGCTTTATCAACTACTCCAAGCTCCCCAGCCTGCCCCTGGTGCAGGGGGAGCTTGTAGGAGGCCTCACCTGCCTCACAGCCCAGACCCAC
TCCCTGCTCCAGCACCAGCCCCTCCAGCTGACCACCCTGTTGGACCAGTACATCAGAGAGCAACGCGAGAAGGATTCTGTCATGTCGGCCAATGGGAAGC
CAGATCCTGACACTGTTCCGGACTCGTAGCCAGCCTGTTTAGCCAGCCCTGCGCATAAATACACTCTGCGTTATTGGCTGTGCTCTCCTCAATGGGACAT
GTGGAAGAACTTGGGGTCGGGGAGTGTGTTTGTCACTTGGTTTTCACTAGTAATGATATTGTCAGGTATAGGGCCACTTGGAGATGCAGAGGATTCCATT
TCAGATGTCAGTCACCGGCTTCGTCCTTAGTTTTCCCAACTTGGGACGTGATAGGAGCAAAGTCTCTCCATTCTCCAGGTCCAAGGCAGAGATCCTGAAA
AGATAGGGCTATTGTCCCCTGCCTCCTTGGTCACTGCCTCTTGCTGCACGGGCTCCTGAGCCCACCCCCTTGGGGCACAACCTGCCACTGCCACAGTAGC
TCAACCAAGCAGTTGTGCTGAGAATGGCACCTGGTGAGAGCCTGCTGTGTGCCAGGCTTTGTGCTGAGTGCTGTACATGTATTAGTTCCTTTACTGCTGA
CCACATTGTACCCATTTCACAGAGAAGGAGCAGAGAAATTAAGTGGCTTGCTCAAGGTCATGCAGTTAGTAAGTGGCAGAACAGGGACTTGAACCAAGCC
CTCTGCTCTGAAGACCGCGTCCTGAATTTCTTCACTAGAGCTTCCTCATCAGGTTACCCAGAAGTGGGTCCCATCCACCATCCAGGTGTGCTTGGATGTT
AGTTCTCCACCCTCGAGGTGTACGCTGTGAAAAGTTTGGGAGCACTGCTTTATAATAAAATGAAATATATTCTACTTCCTTTATTTTGTGGTTTACACGG
TTGTCCTCCCTCTAAACTTACTCTCAGGGGCTTCTCTGTCATCTGACTTTCCTCACTCTTGCTTCCCTTCCTAGGAAAATCCTCTTCCCCTATACCTGTT
CCCACAAATGGCATCCCGCGCATGCTTGCCCTATTAAAGGCAGCTGACAGCTGTACCCACTAGCTAACGTGTCTCTGGTGGTTCTGGACAAAAGGCCTGC
GGGAAAACTAGGATTCTCTATTAATGGGGAATTCTGAGAGCTCTAGGGTAGGAGGCCTCATGCAAGTCTTCATGAACCAGAAATTCCTAATAAAGGAGAC
GGGATGCTTAACTCAGAGTCCACCATCATCCTTGACTGGAGCACATTCTGGGTGGATGCAGGGGTGACCCGGGGAAGGTGGCTGTTCAACATTCCTTCTC
GGACTTGAAGCAATGCCACCGCTTCCTTAGTCTTGGACAGGCACTGTCTGGCAGGGATGACCTGCAGCAGCTCTTTTGTGGCCTGGGCCAGGACCAGCTT
CCCCCAGTGCCTCATCCTGTGCTGTATGCCCAGGGATGTTCAATCACTGGGAAGTGGCTTAAAAGGCCCTTGAGGCTCCTGGATGCCAGAGCTTGTCTGG
TCAGTGCTGCCCAGTGCTCCTGTCCCTCCCAGAACCCTGCCAGGTGCTAACAACACCCTCCTCCTGGGGTGGCTGGAGCAGCACTGAGGCTCTGAATAAA
GGCAAGACAGTGGGTGTTCCCGAGAGATATGTGAGACCCTGAAACGTAAACCAAGCTCGGTGAGGATGAAGTGGAAGGGATAAGTGGCCCATGTCACTTT
TGGGGTCAGAGAAGAAACTTGAATCACATCCTTCACCTGAGGCCCCACCTACTTCTTTCCAGAAAACTTAGCTGCGCTTGAAACTGTAGGTCTATGCCAC
ATTCATTTGAATGAATTTTAGATCTTTGTTAAGAGCCGATTTTTCATTAGAATTGAGCAGCTGGGCACAGTACTCCAGCAGAAGGGTAAAGGGAAGGGAG
GGGACCAGCATTGCAGCCCTTTTAACGGCAGCTGTGACTGCCCCAGGCCTGCTCCTGATCAGAGACTGCAGGCTGTGGGGTGTCTTCATACACACAAGCA
CTTTCAGATCTCCATGGGGCCTGACCTAGTGGGGCATCACCCCAGTGAAGGGCCTCAGTGTGGGGACTGCTGGCTGTCCCTTTCCTGGCTTGACTGCCCC
TGCTGACTGTGCTCTTGGCACTCTCTTATGGTCCCAGAGGGGGCATCTGTCCCTCCACCATCAACCTGATACTTTTGCTGGCTCCAAATTTTGCAGTCTA
TTTTCAGATGTAAAATGAGAGGCGGGGGGCGGGGGTTAATTAGGAATTGGCCTTGGGTACTAACAGGGTCACTGCCATGCTAGTCTGAATAAATCCTTTA
TCACCACTGGCGTACAGCCAACAGTTCCCCAGTCCTCTGATCTATCTGGAACCATGCCCAGCAGGGACTGTGCCCCCACTCCCAAGCCACATCGATGCTA
GGGCAGTCTGCTCAGCCCTGAGTCCTCCGGGGAGCAGGGGGGCAGAGCTGAGCGGCTGCCCGGAGCTTGGCGGGAGGAGGGGACAGGGGAGAGGGAGGTG
GGGAGATCCGGCTAGAGGGGAGGCTCTGACATCTCCTTCCTTCCTGGTTCCTGCAGCAGCTGCTGCCACTGCTCAGCGCGGTGAGGAGGGAGCCGGTGAC
TCGGAGACRGTGACTCAGAGRCAGAGCGGCGCAAGGGCCAAGRAGTACTGGCGTCCATGGACCCTGGGGTAAGGGGGCTGCGTGGCAGCAGCTGACATTC
CTGAGAAGAGCTTCCTCCCACCTGAAGCTGGTGGGTCTGCTCCTGAATAGAGGTGGAGAGGGGGCACCCACCTGGCTCACCTAGACCCTTCACCTGCCTA
CCGATAGAGCCTCCCCCTCTACCCACAAGCAGTGAGGGGCCAGGATCCCCACAGGGCCGGGAGAAGGGCCCAGAGATACCTGAACACCGGAAGAGTTTGA
GAACTTTCAATGGCTGAATGCAGGAGTTTCCTCCCAGGTCAGCCTCTTGCAGCAAGGGTCCCTCTGCCCCAACCTCCTGGGCACCCGTTCCTGCCACATC
CCTGTCCCCTCTGGGCCTCAGTTCCTCAGGTGCTTGCTAGCTCCATTAGAAGATCTGGGCTGCTTCCCCCACCTCAAACCAGCCTCGCCCCTCCAGTCCC
CTCCCCCRTCTCACACATGCAGAGCCTCATGCATTATTGATCTCCCGGTGGAGCCAGGATGGCCAGGGCCAGTGCCAAGGGTGCCTGTGGGCACTGCTGC
AGGACCTGTGCAGACCTGGGCATGTCCTGGGCCCCCTCTTCTCTCATGAAGTATCTCCTTTAGCCCAATGTCCTGCCCTCTCTGGGTGGGTGGCACTTCT
CAGAGCCCCAAGGACTGTGAGGGTAGACAGGGGATGGTGAGGCTTTAKGGGGTACTGAGGGTCCAAAAAGGGCATCCTAGGGGCATGTTTGGTGGGAGGA
GACATGGGAAAATGGGGGCTATCTCAGGCCTCAGTTTCTCCAAGCACTAGATAATATGGAGATTAATTGGTGGGAGGCTGGGGAGTTTTCTGCAAGATCA
TGGCAGAGAAGTCTCTGAGCTACGGTGGCAGGGTGGAGGGGTCCTGAAGGCAGAGGCAGCTGGATTGAGGAGGTCTCGCTTGTCCAGTCTCTGAACCCCT
CTGTCTCTTCTTGGAGCCTCTTCTGTCACTCCCTTGCTTCACCTCTGAGCACTCCCAGGGAAGCCTCTAAAGAAAGCACTGAATGTTTCTTGGAGCCCCA
GAGTATGTGCCCAAGGCGGGGCTGGGCATATGTCTTGTGGTTTTCCCTGGGCACCTGCCCGTCTGCTGTGTGCTAGTTCACTCTCAGGGCAGTGTCCATA
TCAGGTGAAAATGGGTGGGGTCGGGACAGAGGGGCAGACTTGGGAGAGGCTTGGCAGGTGAGCAGAGGGTATGTTGGGGAGCCCTTATCTCAGAGGGTGT
GGGAGGGGCTGGAGGTGGGGAAGGTGATAGCAGAGTTTGCGTTAAGGGGGTCTTTCTCTTGCTTCAAGGACCCCGTCAGGAGCAGGTGACATCCTTCCCC
TTCCACCCTGCTCCCTGCTCTACATCCCCAGCAGGGAGTGGCCTCTCCCTTCTCCATGGACTTCCAAGAGAGGGACCCGCCCTTCCTGCCTGAGAGCGCT
CAGTCCTCAAAGCCCAGCAGTGCTCAGCAGGTCAGAGAGTGGGAAAGCGGTGGTGGGTGGGCCAAGCTKGAACCAGACAGGGAGGGGCCAAGGCGGACGT
CTCACCAGTGCTCCCCTCCCTCTGTCCTGGACTGCAGGCCTCTGAGCTGTGGGAGGTGGTGGAGGAGCCTCGGGTCAGGCTGGGGACAGAGGGTGTCATG
CCTGAGAGGCAGGAAGGTCACCTGCTCAAGAAGAGGAAGTGGCCTCTGAAGGGCTGGCACAAGGTAGGGTGGGCAGGCAAAGGGAGGGTCCAGACATGGG
GGGCGGGGTGGGAATGGGGGGCAGCTGCTGGGCAGTCCAATGGTGTTTGCATGATGAGAAGGAAAAGAAAAGCTAATTTGTGTGGTTGCCTTCTCCCTCA
TGCCCTTCCTCTCGGCCTCCCGGGTCCTGTCACTCCTGGGCAACATCACAGAGATACTTTGTGCTCGAGGACGGGATCCTTCATTATGCAACAACCCGGC
AAGACGTGAGCCCGGGCAGTGGCTTGGGGTTGTGGGAGGAGTCTGGCCCCAGTATGCCCTGGGCAGGCATGGGGTATCTGGAATCGACCAGAGCAGGGTC
TGAATCCCAGGTCCACCACTTGCTGAATGTGTGATCTCGGGCAAGTTACATCCCTGGGCCATAGCTTCCTCACCTCTAATGGGAGAGCACCATCCCCCAG
GTGCAGAGCTGTCATGGTAAGGGAGGTCATACGTACAAGGCTCTCTGGACAGGGCAGAATAAGTGCCCAAGAAATGGGGGCTTTACCACCCTCATCCTGG
TCCCATTCTCAGGCTGGGAACAAGGAACTGAAGGCCTGGGTACCCAGGATCTCTCTGGGAGGGTGTTGCCTTCCACAACCCTGCAGACCCCTGAGGGTGG
GAATAGTTTTTCTTGATCTGTGACTTCTTAGAGACCAAGATGTGACTTGACGTAGGGGAGCGYTCTGCACATGGGAGGATGATTGACAAGTCTCTACTGA
TAGTGTGACTTGGACATGAGGGTGAACCTGCCACCTGGCCCTTGAGCCTAGAATGGCATCAGGGAGATGGTGGCTCTATGGCTCTGAGAGCCTAAAACAG
GTCCCCTCTCCCTCTACCAACRCTTCACCCCCAGATCACCAAGGGGAAGCTCCATGGCTCCATCGATGTCCGGCTGTCGGTCATGTCCATCAACAAAAAG
GCCCAGCGCATTGACCTTGACACTGAAGACAACATCTACCACCTCAAGGTGACATCCCTGGGAGGCAGGAYGTGTGTTGGCCCCCAACCTGACAGAGGCA
TTGGAACACACAGGGGCAGGGGCTGAGGGTCTGTGGAACTCAGGGTCTGTCTCTGAGTTTGACAARAAGTAAGTTTCCATCCTGTAAAAACAGCCAAGGG
CAAACCTGCACTTCTTGGTTGTTGTATGGACAGGCACAGAGCTAAGGGCTCAGACACCTGGGCGCCTTGCGCTCTGTCTCCCTGCAAGTGAGCCTTGCAC
AAACCAGGCTCTGTAAGAAGAGACCCTGCTTGTCTGGGGACCAGAGCCCTGACTTCTTGCTCTTGGAAAGTGGTCCCTCTCTTCAGATAGCCCTCCCCCT
CTCCATCACTTCTGCAGATCAAATCCCAGGACCTATTCCAGAGCTGGGTGGCGCAGCTGCGTGCCCACCGCCTAGCCCACCGCCTGGACATRCCCCGTGG
CTCACTGCCCAGTAYTGCTCACCGGAAGGTAAGGTGGACCCTGGGGTGGGGGCAGGTAATGTGGCAATTCAGGGGCRRGGGCTATGGAGAACTGTGAGAC
CCAGGGAGGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCTYCCAACAGMAGCTACTGCCTCAGCCCTACCTGGGCT
TGGACCGYGGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGGYTGGACCGCTGCTCTCATGGTGAGGGGCCCTAGGCRCAGCACCTCCAAGGGTAG
GSCCCAAGCTGGCAGGTCTAGGAGGGGAWAATGTTACCTCCATCCCTGCCTCAGGGAGCCCCAGTTTAATGAGACAGCCTCTGCCTCCAAGGAGATCCAG
TCTACCTGGGCCCTGTCTAGGGGAGTCCCAGTCTTACAGAGGAGTAAGAGTCTGCCTGGGCACATAGACAGACGTGGATGCAGGGACAGGAGTTGTGACA
AAGCAGATACTGAGTGCCCACACAGGGCAGGGGCCTGAGGAGTAGCRCCAGGGAAGGGGTGTGCTCTAGGAAAGGGTTCCTGCAGTAGGGTCTGTGAAGT
TGGCCTGGAGGGAGAAGTGTAAACCAAGTAGAGAGAGAGAGAGGGTGAGCACATCCCCAGTCTGCTCAAAGGCAGCAAAGGTGAGGCATGGTCTAGAGAC
AGAGCAGAAATTAGGCTTCAGACCCTCCCAGGAAACCAGGGGGCACCACACCAACAGGGGTAGCGACCTGAGCTCTTGAACAGGGAACAGGGAGCAGTAT
CGGGATCTCCATGAAGTCAGTGTTGGGAGAGTCATGTCCTTGAGGCTGGGTTCGGTGGCTCATGCCTGTAATCCCAGCACTTTTGGAAACCAAGGTGGGC
AGATCACCTGAGGTCAGGAGTTCGAGGCCAGCCTGACCAACATAGTGGAACCCCATCTCTACTAAAAATACAACAAATTAGCCAGGCATGGTGGTGCGCA
CCTGTAATCCTARCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCATTCCACTCTAGCC
TGGGCAACAAGAGCAAAACTCCRTCTCAAAAAAAAAATGAATGGTGTTCTTGTTCTTGTTCTTTYTCCCCGCAGAGCTCTCTGAGTGTCAGGGGAAGCTC
CAGGAACTACACAGGCTCCTCCAGAGCCTGGAGTCCCTGCACCGAATCCCCTCAGCCCCTGTTATCCCCACACACCAGGTAAGATCCAGGGGTACACACA
GGGTCCTGCTCAGGCCCCCGATCCCATCACTTCCCCAGGATGGGTCCTATTCCTCCTACATCGCTGCAGTTTCCTGGAGAGCCATGCATCGCCTGGTTTC
CTCCCCACCCCTTACCCATGTCCAAACTGTATCAAGATTGTCTCTGTTCCTCCATGCCCATGCCTCTGCCAGGGTGGCTGTCATCTTCCACTGGGATGTC
AGTTGTCTCTGTCGCCCTGCCTGAGCGGCCGCATCCTCTGTGCTGGGTAATCTGCGCCCTCCTCCATGGCGCAGGAGGCCGTCTACCTCTCCCAGGCTGT
GATGGTTTCTGCCCCTTTTCCCCACCCTGTGAGTAAAATTGCCCCCACCTTGACTTGCCAGGCCTCAGTGACAACCGAAAGACCCAAGAAGGGGAAACGG
ACAAGCCGCATGTGGTGCACCCAGAGCTTTGCCAAGGATGACACCATTGGACGGGTGAGGTCGGGCATGCACCTCACGTAGCTGGGGCAGGATGCTCTAA
GGAGGCCGGCCCCTTCAGCCCTTCCCCTTCACCTACAGGTTGGTCGTCTCCATGGCTCTGTTCCCAACCTGTCTCGCTACCTGGAGTCTCGGGACTCCTC
GGGCACCCGTGGGCTGCCACCCACAGACTATGCCCACCTGCAGCGCAGCTTCTGGGCCCTGGCCCAGAAGGGTAAGTGCCTGCTGGGAGGGGCTGGTGGG
GAGCGGACAGGAGCGAGCGAGGACTCTGATGGTCTGCYCCACTCCCTGTAGTGCACAGCTCCCTCAGCAGCGTCCTGGCCGCCCTCACCATGGAACGGGA
CCAACTGAGGGACATGCACCAGGGCTCAGAGTTGTCAAGAATGGGGGTGAGGCCTGGGGGACAGGGTGACTGGTGCGGGGAGAGGGCTTCAAGCTGAGGA
CTGCCAGCCTGGGGTCYGATAGCAGATCTGGGTCAGGGTGGGGGGTTGGCAGAGGCAGTCTCTGCAGAGATGCGGCAAGGTGGGGAGGACCTCATCCTCC
TGGCACCGTGTCCCTCACCCTCTCCCTGCAGGTCTCTGAGGCCTCCACTGGCCAGAGGCGCCTCCACTCACTGTCCACCTCCTCCGACACCACGGCGGAC
TCTTTCAGCTCCCTCAACCCTGAGGAGGTGAGGAGCCAGGGTGGGCTGTGGGGGCCGATTCTCCTGTGCCTTCTCTCCCAGCGAAAGCCAAGGCCCAGGG
CAGTGGGCAAAGTTGGTTTTTAGTCCCAAAGACAGCCCAAAAATCCTGGCTCCATTGTCTTTCCCATAAGGTAAGCGGCAGCCCCATCTCGATCATTGTG
TAACAACGTGCAGGGTACTTTTACTTTTAATTCGGGGTCCTCTGATGCAGTGATTCTCACCCTCAGCATAACAAAACTGAGGCTCAAAGGATCTAATGGG
TGGGCTCAGGCTCCTGCAATTATAGACGGGCTGAACTGAGACTCGGGCTCTGAGCACAGACGCTGGGGCTACGTTCCACGGGTTCAAATCTGGCTCTCCT
GCCTGCCGGCTTTGTGATCCTGAGCCTCAGCATTCCAATCTGCAAAGTGGGGGTGATAATTGCACCTACCTCACAGGGTAGGTGTCAGGATTGAATGGGT
TAGTGCACACAGAGGGCTTGGAGTGGGGCTCAGGGTCAGTGCCAGGAAGTGTAAACAGTTATAATGGAGCCTGCGTCCCCTCACTCCCAGGCCAGGGCTC
ATTTTACTATGCCTTTGTCCCGCTCTCACTCCTCTCTGCCKCTTCTGCTCAGAAGGTGTCTGACTCAGCAAAAGTGCCCGGTTATGCCTCCCTCTCAAGG
GAACTGTCAGGCAAGCRGGTGCCCTGCTTGATCCCCCCGGCTTGGCCCCGGAGCCTGACATCCATCTGGCTGCTCCCACAGCAAGAAGCTCTGTACATGA
AGGGGCGCGAGCTCACCCCCCAGCTATCGCAGACCAGCATCCTGTCCCTTGCTGATTCCCACACGGAGTTCTTCGATGCCTGCGAGGTTCTCCTCTCCGC
CAGCTCTTCTGAGAATGAGGTGAGGGAGGAGAGAAGCTGGCAGTGAGGCGGGGTRGGGGGGACCTTGGGAACAGAAGGGTGGGGTCCACAGAGACCATAG
ATTCCTCAGCCCCTTCTCACCACCTCAGCTGCTATCTCTGGGACTATGTCCAGATCAGCTGAGTTTGTGTGGCCCAGCTCAGAAATCTCTGCTAGGGACT
CTTCTCCTAGAGGAGTGTGACATTTGTATCCCCATTGGGTTCTCCTGAAACTACTGCCATAGTTGCAACCCCGGTCATCTTCCTATGACCCTGTCTCAGC
TTCAGCACTCCCTTGATTCCCTCTTCCAAAACCCTGACCCTCAGTAATCCCCAACTTCCCTTCCCTCTGTGTCCCATCAAGTCCCTGAGCTTTTTCCCGC
CAGCCACAGGGCCCGGCCCTCCCCTTCCCAAGGTGGCTGGGCACACTCCGTGATGCCAGGCATCCCGGGGCAATGTCTTAGGGCTCAGAGTGCCCCCAAT
ACATTCTCTTCCCCTTCCCACCAAAGGGCTAGTTGGGCAGATTCTTGCCAGGCCCTGGGCACTGCCCAGCTGCCCGGGGGAGGCCCAGTCTGCCCGGCCT
GTCATCTGTCCTGGCCCAGGGCTCAGAGGAGGAGGAGTCCTGTACCAGTGAAATCACCACCAGCCTGTCTGAGGAGATGCTGGACCTCAGGGGAGCTGAG
CGCTGTCAGAAAGGTGCCAGCTGGGTGGGCAGGCAGGGAGGGGTGGGAGGCGGGTGGAAAAACAGGGTTTGTCCATGGCCCAGGCCCATGCAAAGGCCAT
CCCTTGTGGTGACTGATGGGCTAGTGGCTTTGGATGCTGACCCCAGGAGCTAAGGAAGGCCAGGTCATGAACTGGGAAATGTTCCAGGAGCAGCTCTGCY
GGGGTGGGCCAGGCTCAGGCCTTGGGGCTGGCCTCTGTTGCAGCAGGCTTGCCTAGGGCCTTGGAGGGAGGCAAGAGATCCCACTTTGCTGCTTGTTAGC
AGTGTGGCTCTGGACCTCTCATTTTACTTCTGAGAGCCTATTTCCTCATCCATAAAATGGGCTGGATAATCTGCACCCTGACCTCTGTTTCTGTGTTTAT
AAAGGGAACAAAAGGCAAGGGTGAGGACTCGGGAGGGGCTCCTGGGGTGCAGGGTTTCTGGCAGTGGGAACTGTCTGCCCCTTTGCATGGCTCCCACCCC
TGCCAGCCAACTGAGTCCCTGGGAACTTGTCAGCAGTTAGAGCCCCAGTCACCCTGCCCTGCTGTGAGTCGAGACAAGGGCTCAGGGGCGAATGTCCCAG
GGGCTTGGGAGGCAGCTGGGCCCTGGACTGGGCTGTGGGCTTGCCATGTCTGGGATGCCTGGTGCCCAGATGGAGAGTGACATGGCAGGGCGGCCCCAGG
GGGGTGTGTTCCAGGGAGACCCATGGGGCCACCCCGCCGTCGCTGCCTGCCGGCGGCCAGCGGGCCTGGGGCTGACGTGAGCCTGTGGAACATTCTGCGC
AACAACATCGGCAAAGACCTGTCCAAGGTGTCAATGCCTGTGCAGCTCAACGAGCCGCTCAACACTCTGCAGCGGCTCTGCGAGGAGCTGGAGTACAGCA
GCCTCCTGGACCAGGCCAGCCGCATCGCCGACCCCTGCGAGCGCATGGTACCTGCTTCCTGTCCTCACGCCCAGCCCAAGGCTGCTTCCTTCTCCCTGGG
AYCTTTTCTCCCAGAAAATCCTGGCTGGGCTGTTCCTTATTGCTGAAGTTCCACCCCAAGATCCCATACTTTGCTTGCTTGGGGTGGCGGCCCCGTCCTC
AGTACCCTGCACCTTCCTTGCCCCCCACAGGTGTACATCGCAGCCTTTGCTGTCTCGGCCTACTCCTCCACATACCACCGAGCCGGCTGCAARCCCTTCA
ACCCTGTCCTGGGGGAGACCTACGAGTGTGAGCGGCCTGACCGAGGCTTCCGCTTCATCAGTGAGCAGGTATGGCCTTGGGAGAAGAGGGCTGGCCTTGG
GTGTCTGGGGCAAGGAGGGACCTGGGCTTTGGGACCAGAACTGGGGCAGAGGGACCAGGGCCTGGGAGAGGAGCGTGGGCAGTTGGCTCTGTGCCGGGCT
CTGCGGTGCTCCTGGCCCACGTTCTGAGGTCCAGCCATTGGATCCCAGGAGTTCCACCTGGGGGCTCACGCTTTAGGGGGCAATCTTGGGCTAGGATGAA
CTGAAGGATGAATTGGAGAGAGCTGGGAGTACAGGGGCTGGGGAGAATGGGATGTTCCTTCTAGATGGTGTAGAGGAATGCATGGAGCAGGCTTGGGAAG
GTTAGAGATGGGGCTGGAAGACAAGGTGGGCCAGATGCTGAGGAGCCCTGCCAGTGAAGGGAAAGAGGCCTTGGGCTTTTGTATGTGTGTTTTTAAATCC
TGAAGGCATTGGCACCATGGAGGATTTGAGGCAGTGGAGTGGCTGCTGAGAATCACAGTGTGCAAAGCACACCCGGGTGGTGTGTGCCTGGTTGGCGGAG
GCCGACAGGGTGCATCCTGTCATCTCTGTAGAGCTAATGAGTCCCTGCACTTAGGCTGTGGTGTGTTTGGTTCAAGAGCTGTTTATGTGCTGCCCCGGAC
AGGGGCTGGTCCTCAGCAGCGTACTCTCCCGTGTAGGGGATGGGGAGGCTTTTGTTGAGAGGGAGAAGTCTGGGCGGCCTGGTCTGGGGAATTCAGTGGG
TGCATGGTGGTGCCAGTTAGTGAGGTGGACAATGTGTGTGGGAACACACTATGTGGGCTYGACTTCCACAGGAGATGGCCAGGAGGCTCTGGAGTCGCTG
GCCTGGAGCTCCTCCAAGAGCACCAGGTGGCACTAACAGGTCAAAGAGTGGCCAGCTTAGAGGGAGGAGGACATCAAGGGAGGACTGCCCTCGGGAGGAC
TGCTCGCAGTGTCTAGGGAGGAGGGCAGGCAGGAGCGCTGGGGGCCCCGAAGGGGAGGGGTCGCGGGTCCCTGGGACCTGAGGGGTGTCATCGGCTTCCT
GCGTGAGGAAGGTTCCCGAGACAGGATGGGGACAGAGACTGGATTACAGAGGGTGTAGAGTGTAGGTTTTATGAAAAAATAGAGAAAAAAGCAGACTATT
TTCCAAAAATTTTACCATGAGGGACAGAGGAGAGAGAAGTGGCAGTTGGTGGGGGATAAAGGTCGAGGCAGTTTGTGTGTTTGTTTGTTTGTTTGGATTT
GAAGTGTTTTTGGAAACATGGTGAAGATTGACACAGTACACTCGTGCGTAYAACAGAAAATAAGCCTCCCTCCCATCCCAACACTCCGAAGGGACTACTG
CTACCAGCTTTTGGGATTCCTCCCAGAAATGTTTTACGCATATGTGAACAAYGAAGTGTGTGTCTAGAAGAGAAAGATTTACTATTTTTTAAGGTGGAAG
AAACAGACAATCTTTATATTCAGAGAGAAAGAGAAATAAAGAGGGAAAGACTGAAGGTGCAGAAGGAGGAGGAGTGGGCAGCCTGGGGGGCATCAGTGGG
AGCAGGCTGACTGCYGCCAGACAGAAGGAATCGCCCCCCTGACCCACTTCTGTTCTGCCACAGACTGTGGGAGGCGAATGAGGTTCGAAGGGCCTGGCTT
GTGCCTGGGTCCTCAGAGGAGGATTGGTGAGGGATGTCAAGGCCCCAGATACAGGACATTGTAGATTTAGCAGTTTCTTAGTGTGGGTCGTGTCTGTGTT
TTGGCAACAGAGTCAGAGCCAGGGATGCACAGAGGAGGCCGGTGCTGGCATTTCTGGCAAGTGGGGGAGGTGGCTGAGGGTATTAGCTGAGAGTGCTGTG
AAGGGCAGGATGGGGCTGGCAGACCATGGGAGGGCAGTGCAGTCGGGGACCTGGTCATCTTGGCTGGAGCTGTGGGCGACAGGGAACGGAGAGAGAGGCA
AGGCAGGCAGGCTGTGGGATGTTGGAATTGAAGGCTCCAGATGTGGAGCCATTCCAAGTGGGAACAAGGCCAAGTGTTTCCAAGGGTGTGGGGTGGAGGT
TGCAGGGCGATGRTCAGCTTTGGGGTGGGGTGGGGGGAGATGGTGGGGAAGAGGGTCATCAGCAAGGGCTGGGTTTCAGGCAGGGCATGGGGTGGAGGCC
CCACCCATCACTGTTGCGGGGAACTTTTCAGGCTTGAGCAGGGGTTCTGGAGGACGCCATAGACAGGGCCAGCCAGGGGAGCTTCTGAGGAAGAGCGAGT
GAGAAGGGAGAACATAGGGGCCTCATGGGAAGAAGGGAGGATGATGGGTTTAGGAGGTGGCCAAGGGTGATAGGGACAGGAAACCTGGAACCAACTGGTC
TTGTGGTACTTAGGGGAACTAGGGGTGGGAATAAGGGACTTTGGGKTASCCTAATGGTGCTCGGGGACAGCCTCAAGATAACTTCTTTGCTCACCAAGGT
CTCCCACCACCCCCCTATCTCGGCCTGCCATGCAGAGTCTGAGAACTTCGCCTTCTGGCAAGGTGAGGAGTAGAGGGCAGGGCCGGGGTGGCCCTGGGCA
AAGGGAACACCCTCTGGCCTTATCTCTGTTGTTCACTCTCCCTCCCCTAATCCAATTCCAGATATGAAGTGGAAGAACAAGTTCTGGGGCAAATCCCTGG
AGATTGTGCCTGTGGGAACAGTCAACGTCAGCCTGCCCAGGTGGGATTMTTAGACTCTCAGCAGCCAGGCCAAGCCACAGGCAATCCTTCAGGCTGGAGG
GGGCGTGGCCTTAGGGACAGGATAAGGACGGGATAGGAAGGTCTGGCCTGAAGCTGCTTGCAGTGGCGTCAGTGTCTGTAGGTTTTACACCTATATTTAC
AGCAGTTGCCAATAGAGAAAGATGAAAAGCCTTGGAACGTAGTAGAGCTGGAAGGGCCCATCGAGGTCATCTGACTCAGCGGTTTTCACACTTTTTTGAC
CATGACTCACAGTCTCACAGTCAGAAATGCCTTTGAGACTTCAAGCCAATGTGTACACATACACACACACAGAAACCTAAATTGATCTCAGGACTCAGGG
GTCACAGACAAAATTTGAAAAACTCTCATCTAGCTAATTTTACAGGCAGAGGTCTGAAGCCAGAAAGAAAAAGGGTATTGAAAGTGGTCTGGGTGTTGTG
GTAGAGATCCTGGATTTTGGAGTCAGAAGCCATGAGTTCTGCCACTCAATAGTGATGCAAATTAGCACCAGCCTGTAGTCCCAGCTACTGGGGAGGCTGA
GGCAGGAGAATTGCTTCAACCTGGGAGGCGGAGGTAGTGGTGAGCTGAGATTGCACCACTGCACTGCACTCCAGCCTGCCTGGGCAACAGAGCAAGACTC
TGTCTCAAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAAAGAAAATAGTGATGCAAGCAGCAAAAAGACTTGACACTTCAGAGCCTTGAGCCTGCTTG
CCTGTGACATGACAGTAAGAAGTAATACCCAAGAGAGGTGAGGATTAAGCAGGATAAYGGATGTGAACGTACACACGGTTCCTGGTGCCCAGGGGCAGGA
CACTTTGTGTATTTTCATCCCTGTTGCTCAGGCACTCAGGGGCTTTGTAGATGAGTGGAGATGTTTTCGTTGAATACGTTCTGTGAAGGCCACTCTTCCT
TGTGAATATAAGTCATCCTTCACTGCAGAACTGGAGTTGGGACCCCAGGGTTCCTGTCACAGGCCCACATGACCTGCTTCAGCAAGACAGGAGGCCCCTG
ACTCACTTGTTCCCTGGGGCCAGCCAGCTGCCCTTCCATACCTTGTCTTTCTCAGGTTTGGGGACCACTTTGAGTGGAACAAGGTGACATCCTGCATTCA
CAATGTCCTGAGTGGTCAGCGCTGGATCGAGCACTATGGGGAGGTGCTCATCCGAAACACACAGGACAGCTCCTGCCACTGCAAGATCACCTTCTGCAAG
GTGTGTGTGCCACCCTGACCCTGCCCATCCATCCCCGGCAGCCTCTGTCTCTGGAGGTCACCCTGGCTAAGGGGGAGGGGACACCTCCCTAAACCCTGCC
TTCCCCACCCCAGGCCAAGTACTGGAGTTCCAATGTCCACGAGGTGCAGGGCGCTGTGCTCAGTCGGAGTGGCCGTGTCCTCCACCGACTCTTTGGGAAG
TGGCACGAGGGGCTGTACCGGGGACCCACGCCAGGTGGCCAGTGCATCTGGAAACCCAGTAAGTGGAGGGGTCACAGAGGGCTGGGTGAGGCTGGAGCAG
CTCAGGCATGGTGCACCTGCCCCAGCCCCTTGCCTTCCCCCAGACTCAATGCCCCCCGACCATGAGCGAAACTTCGGCTTCACCCAGTTTGCCTTGGAGC
TGAATGAGCTGACAGCAGAGCTGAAACGGTCGCTGCCTTCCACCGACACGAGACTCCGGCCAGACCAGAGGTCAGTGCCGGATGGGTGCCGGCCTAGAAC
CATCTAGTTCACTCCCTCCACAGAGTACAGAGCTGGGGCTTTGTCCTTCCTTCACTGAGTGGCCTCAGAGAAGTGGGGCTTGTYTAGAGGACAGAGTTGG
GCAGAGACAGAGGCCTTGGGTTTGGGGGCCCCTGCAGATGGGCAGTTCCCCTGAGTTTGATCTGGATCCTCAGGTACCTGGAGGAGGGGAACATACAGGC
CGCTGAGGCCCAGAAGAGAAGGATCGAGCAGCTGCAGCGAGACAGGCGCAAAGTCATGGAGGAAAACAACATCGTACACCAGGCTCGCTTCTTCAGGTGC
CTCGGCCTCGCCCTCCGCCCTGGGTCTCCCCATGAGCCCTGCTTGGAGCAGGGCAGGTGTGGGAGGCAGCACCTTAGGACCCTAGCCTGCCTTCTAGATG
TTCACCCCTCACTGCCACCGCCTTCTCCCACCAGGCGGCAGACRGATAGCAGCGGGAAAGAGTGGTGGGTGACCAACAATACCTACTGGAGGCTGCGGGC
CGAGCCAGGCTATGGGAACATGGATGGGGCCGTGCTCTGGTAGCCCTGGCCCCGGGGGCAGGAGGCTCTGGTTCCTCACTCCTCCTGCCTCCACCCCCTA
CCATGGACACATGGGTGAGGCCGGGCTCCCCGCCTCACTGCCCTTGAGACCAAAGGGGCAGCCCTGGCCCTCCCTCCCCTCTGCTGGCCAGAGGGTCTGC
ATCTCAGCCCACCCCCAACCCCACCGTTTGGGGTGAGAAGCAGAATCTGTGCTTCCCCAGTCTCCTTGCCCCAGACAACCAGCATGTAAGACCCTTCCCG
CTTCACCATTCCGATTCCTGTCCCCTTTGGGGTACTTGGGGGAGACTCTGGCTCCCAGGATCTGTTCCCTATTTCAGTGCCTTCCTAGGACACAGGGGAC
TCCTTGACGCTCCCCAGGCTTTCTGTGCCCAGGCCTCTGTCCCCAGCGGTGAGGTTGCAGTGAGTGAAGGAGAGGAGGTGATCTGTTCTCCCTCCCCTTC
TGCCCATCTCCAGCATCTTCTTCCCCTTCCCTGGCCCTGCAGGGCCTTCTCCAGCTCCCTTTGGTTAGTCCCTGGCCATCCCTCCTGTCCTGGATCCCTT
CTCCCTAACTGCAAAATGCCTGCAGCTTCCAGCTCCTTCGTCCCTGATCCTCAAGCGGTTCCCTCCCGTCTCAGCTCAGCGGATCCCCCAGAGTGGAGGA
GGCCTCTCCATGRGGAGGGGAGCAGCYCAAGGCACCTGTCCTCTGACCCACCGGCAGCGAGTGCGCAGGTGTGAGTGTAAGTTCATGTAGGAGAGTGTAT
GCGTGTGCGCCTGTGCCCTGCTTGCAGGCAAGCAGGGCTCCCTCATGTAGCCCSGCCTTCCCCCTGCTGGGGGTCCACCACATCGCTGCTCTTTCTCACA
GTCTGCCTCTGATGAGGGCGAATTGCTATGACATTCCAAGCTCCAATAAAGACTGTCCCAGACTTTGGCCTGTGACCATTCATTGAAAAACATGTGGGCT
CATGGTCAGTGGAAAGCCCTCTGCCACTGTCATGGGTAAAATGAATTGTGTCCCCAAGAAACGTTTCTAGCCCCCAGGCATGTGCATGTGACCTTAGTTG
CAAATAGTGTCTTTGCAGAGACAAGTTAAAATGAGGTCGCATTGGATTTGGGTGGCCCTACTCCAGTGACTGGTCTCCTTATAAGTAGAGAGAAATTTGG
GCACGCAGACGTACGCAAGGGAAGACAAGTGTGTGAAACAGACACACGGGAGTCGGCCACGTGGAGACGTAGGCAGAGATGGGAGCGATGCATCTGAAAG
CCAAAAGTGCCAAGGCTGCTGGCAACCACCCGAAGCTTGGAGAGAAACAGAGAGATTCTCCCACTGAGCCTCAAGAAGGAGCCAACCCTGCTCACACCTG
GCCTCAGCTATGAGAGAATACATTTCTGTTGTTTTAAGTCACCCAATATGTGGTGCATTGTTACAGCAACCTCAGGAATTGAATACAGCCACCACTAACC
TGAGCCAAAAGCCCAGAGGCCATCTGCCCTCCCGCTTGATGCCCTGTCACTTCTACCCCAGGTGTCTCTCTGCACTGGCCCCTTCTCTCCATTGCACTGG
CTAGGCTGGGCCCTCATCAACACTTGTCTGGACTATTGTGGTGGCCTCCAGGGTGGTATTTCTTCTTCTTCTTCTTTTTTTTTTTTTTTTTGAGACAGAG
TTTTACTCTTGTTGCCCAGGCTGGCGTGCAATGGCGCGATCTCAGCTCACCGCAACTATGCCTCCCCGGCCCAAGCAGTCCTTCTGCCTCAGCTCCTGAG
CAGCTGGGATTACAGGCATGCATGCCACCATGCTTGGCTAATTTTGTATTTTTAGTAGAGACGAGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCC
CGACCTCAGGTGATCTGCCCGCCTAAGCCTCCCAAATGGCTGGGATTACAGGCATGAGCCACCGCGCCTGGCTTCCAGGGCGGTATTTCAAGAGAAAATG
TGACACCTCATGTCTGCTTAAAATACATCCCCTGCTTCCCAGTGCCTAGAGGAAAATCCAAACTCTTCAACCGGTAGAAAAACCACATGGCCCCTGGCCC
CCTGTCTGGCACAGAGTGCTGGCCCCCACACTCAGCACCCTAAGTCAGGTCTGTGCTAGTACTCCACTTTGACCCCCCAGGATCAATGAGTGTTCAAGGG
CGGAAGGGAGGGAGGAAGAACAGGACCAGCTGCCTTTCCTCCCCGCTGCCCTCGCCCCTGGGGCCAGCTCTGATTCTGAAGCTGTGTGATCTTGGTCAGG
TTGCCTTCCCCTTCTGTTTAGAGGCTTCAGTCTCTCATTTGGCTCCTTTTGTGTCTTAAAGAAGAACATCTGTGAGGTGACCCAGGCTCCTCATTTCATT
CGTTCTCTCTTAACCCCTCTCCCCCACTCCCACCCCACCACCTGCAGCAACAGCGACCCCAGTCCTGCTCTGGTCCGATGAGTGTCCCAAGAGGAAGTCA
TGCTTTCTTTGGGGGGGTGGCAGAGTGGCAGGAACAGAGGGGACCCCTGAGCTACGACAGCCCTTCGCATTGTCATCTTTTTCTTCCTCCTCATCCCCTG
CGGAGGAGCAGTGGTCCACATTTCCAGTTTATTTACAGAGAATGTCAAAGTTAAAATGAACACACTTGTCCTGTCACCACATGCCAGAAATAACCTCAAC
CCATTCCAAAAAAAGCCAAGGCCCTCACACATTCAGGATATTTTTAAATAGCATGTGCTGCCCTGCTCCGGGCCCTTTCCCCTCAGAGCACCACAGCACC
TGACCGACCAGCCCGTAACAAACTGCCACGTATTTTAAGAACCAGAGTTTAGGCTGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCAG
AGGCGGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAGATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTACCCAGGTGTGGTGGT
GCACACCTGTAATCCTAGCTACTCGGGAGGCTGAGATAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGTCGAGATCGTGCCAGTGCATTC
CAGCCTGGGCAACACAGTGAAACTCCATCTAGAAAAAAAAAAAAAAAAAAAAAAAGAGAGAACCAGAGTTTAAAAGAGACCAAATTCCCAAGTTATTTTT
TCAGAGGAGACAAAAAAAAAAAAAAAACTCAAAACTCCTCTGCCTCTGTGGCTGTGCCCTCTAGACCAGCATCCTCCCCCAAGTCCTTTCCCAGGCACAG
CCCAGGTGCCACCTCAACAGCTGGAAGTGGTGGGTAAGGTTGTTTTTGCTTCTTCTGGGGCCCAGCAGATGAGGGGGCAGTCCCATCTGAAGGACTGTGG
TCTCAGAAATGTTCCCCATCTGGCCAGGGCTTTGTGGGTCACCGCTGATGGGAGCTCAGGCCAGGCTGAGGGGAGCCTGGGGTTCTGGCCCCAGTCTGTG
CTCCATGGACAGAGTGTGAGGGGCCCACACCAGCCAGGGGTTCAGGGAGCGGTGCCAGCTCCTGGCTGCCAAGAATCCCAGGGTGGGGTGCTCAAGTCAC
TGATCTGAGAAGGGAATGGTGGGCCCCCTTCTCAAGCCTGTCAGCCTAGTCCAGATGTCCCACAGGAGTACTCATTACCACTGGGTCGTGGGGAGCCAAG
CACAGACCCAGATCTCCTGCCTTGGTTGGAGGACATGGTGGGCTTGGGACAAAGGGGAGAATTTGGGGGCTTAATGGCCCTTGACTAGGCTTGGAGTGCA
GTAGTTTGGAGAACCAGGGATCCGCTTCCCTGGATGAGCAAAGGAGGATGGAGCTTGGACAGCAAGGGAAATGGTCAGGCCAAGCAATGCTGGCAGAGGG
AGAGGAAGGTAGGCAGGAGGTGTCTCAGTCCTCATTTTGCCTCTTTGGACCCTCCACCCCCAAACTGCTCCACCCAGAGGGATTTAAGTAACTTTAAAAA
ATTTTATTAATCATTATTGAATAGCTGATAGGGACACCTAGGTTGGAAGGAGCAAAAAAAAAAAAGTCAAATATAAATAAAACCCCCAATTCCTTGCATC
TTCTGAATAAAGTGTGTGTGTGTGTGTCTGTGTGTTTGTGTGTGTGTGTGTAATAAACAGAGAAGGGAAAGAGTGCTGAACCAGGTGAGAGGCCCAGGCA
TTCACATTCCCTCCATGAGGTCAAAGTGGAGGGGTGTTCAGGGCAGGAGGAGGCTGCTGGGCCAGCACTGTGACTCCCAGCTTCACCTGGATGGCATGCA
GCCCAGGGGGATGTGTGCAGGGGAGTCCCACCCTCCCTGTTTCGGGGAAAATGAAGGTAGTGGGGACAGTGGTGGGGTAACCCCCAGCCCCTGACCAACA
CCTGCTGAGAATGCAGAGATCTTACGTCCGACCTCAATTCCACCGGCTCCAGTCTGCCCCTGGAATGGTGCACAGCTCTCCTATTCTACGCTGCCCTGGT
CTAGTCCCAGTTCTGACACAGGCATTTTAAAGATCCTGGATTACATTGCCCGGCCATATCCAATCCCTTTAGGGAATGCTCAAGGGACCTTGCCATTGGG
TCATTAGTTTAATGGTGTCTCCTTACTGCAAAGGACACGTTTTATAAGTGATTTCCCCTTTTAGAGACCCTCTAGTACTAGCAGGGGTAGAAAAGGAGGA
GAGGCTTAGCACTCTCCCCCTGGGACCCATCTCTGTTCCCCTTAAGGTGGTCAGGGAGGGCAGTGTAGGACTTCAGAGAGACATTCACAGGCTGGCCTGG
GCCAGGTCTCGCTCATCCAATGACCTATTTCTGGTACAGACACTTAACCAGATCACCTGGCCTTATGTGGTGGACCAGGGACTGGTCTTCCTGATTCTTG
CCACACATACCCTCATCTTCTCCTCATCTGTACCTTAAGAGGCATTACCATCAGAGGGGAACACTGAGAGTTATCAAGATCCCGACAGGCCAGAGTCAGG
TCTGCATGGGACTCAGGCAGGTGGTTCCAGGGGCTGGGAGAGCATGGCTCCACGGTTGGGGGTTCTAGAGCACTACTCGTGTCTCTCTCTCTCTTCTTTT
AGAGACAGGGTCTAACCCAGGCTGGAGTGCAGTGGCACGATCATAGCTCACTGCAACCTTGAATACCTGGGCTTCAGCAATCTTTCCGCCTCAGCCTCCC
AATTAGCTAGGACTACAGGCGCACATTACCACATCTGGCTAGTTTTTTTTGTTTGTTTATTTAATTTTTAGTAGAGATAGGGTCTCACTATGTTGCCAAG
TCTGGTCTCAAACTCCTGGGATCAAGCAACTTTCCAGCGTTGGCCTCCTAAAGTGCTGGGATTACAGGCGTGAGCCACCTTGCAGGGCCCACGTCTCATT
AACACATGTCATCACATGGTGCAAAGTCTTCAGGTTGCTGAAAGATGCCTCCAGGCCCTAAGGTATGTGGAGGGGTGGCTTTGATGAGCAAGTCCAAACC
ATGGGCACTATGGTCCAGGATGCCAGGCCCCTGGGGATGTTGGGCCTTGCTGACCCCTAATATGAGAGGCCCCTCAAAATGAAGCATCTGTCCAGAGGAG
GGTAGGTGGGTGGGCTGGGCTCTGGGAGGGGTGTGGGTGAAGAAGAGATTGGAAGGGCCGGGGCAGGAGCAGGAAGAAGAGAGAAAAGCCTGAGAGTCAG
CCACAGTCTGTCTAGGACGAAGGTGGTGAGATTCTCCAGGCATCCTCAAGAGGGCACCCCGGGCTCTTGAAAGAACCAATTTAGTCTCATCCCAAGCCCC
ACCTGACAGCTGACAGGTGGCTGCACCACCATCTGCGTGGAGTATCAGGCCTCCAAGGATGTGGCCCTGGCTGGACCCAGCCCAGCAGTGATCAACAGCA
GCAGCAGACACTGTTACAGCCGCATTCCTATGGACTGCCGGCCATCCCTGCCTGCCCATCTTCATCTTCAAAGAGAATGCACAAGTCAGGAAACCCCTGT
TCTGGGAGACCCAGGTGTCCCTAGCCACTCCCAAAAGCTGCCCAGATGGTCTGGGGGAAGGAGGTCAGGCCCCCTTTGCTGGTGCCTCTTCACGTCCAGG
TGACATCCCTCCCAAGGACAGCTGGCCAGGACACCCCTCCTCCAGAGCCCTCATAAGATGGTCTTTTCCCTAAGTTTCCACTAGAACCTCTCCTGCTTCT
GTCACCCCAGAGCCCGTCACACACTGGGATGGGAAACCCTGCATTTAGTTCTGTAGGCTAACGTTGGGTGAAGTGTGTGTGTGTGTGTGTGTGTGTATGT
GTGTGTGTGTGTGTGTGCGCACACACATGGTTTGAAGGAGGGAGTGTCCACGGTGCCCTCCTGGGAGGGATGAGAATGAGGACAAGAAGGAAGGGAGCTA
TTGAGCCAGTGCCAGTTTAGCAGAGAAGCCTTGGGTTCTGTGGGAAGCCATCTGACCTAGGACCCTGAGGAGGGAGGGCGAAGGTGGGAGATGCGGAAGG
CAGGTCACATTGGCCTTCCCTCCCTTCTCCTCCATTTAGCAAGATGTTACAGGCCCAAGAGAGACACTCTCCTCCAAGCTGGGCCTAGTGGGCCGCAGCC
CTCACAGGCTGGCACATTCACCTCCCACCACCTCCCATGCAGCCTGGGCGGGGAAGAGCCCTGGACCAAGAGCTAGGAATCCTGAGTTTTGGCCCTGGCT
CTGTCATTTATTCCTTTCACCTCCTGAGCCTCAGTCTCCTCCTTTGTAGCTTGGGGATGATGCTGCTGGCCTTACCCCTTCACCGGTGTCTTGTTTGTCA
TAGGACAGAGAGGACTGAGGGTTGTTTTAGCTGTGGAGCACAGGACAAGGGTGGCTTCAGATGACCTGGGCCAGGGTCACCACCAGCTCTGCCACTCCCA
CACCTGGGGGCCTTCCCAAGGCAGCAGCAATTCCCCCTGAGAGAGACAGAAGCAGAGTTTAG


SNP Information

Context             (SEQ ID NO:65026):
GGGTTTAGGAGGTGGCCAAGGGTGATAGGGACAGGAAACCTGGAACCAACTGGTCTTGTGGTACTTAGGGGAACTAGGGGTGGGAATAAGGGACTTTGGG
K
TAGCCTAATGGTGCTCGGGGACAGCCTCAAGATAACTTCTTTGCTCACCAAGGTCTCCCACCACCCCCCTATCTCGGCCTGCCATGCAGAGTCTGAGAAC
Celera SNP ID:            hCV25923090
SNP Position Genomic:     16946
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,2)   caucasian(G,34|T,2)   total(G,38|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:65027):
CCTCTGGGCCTCAGTTCCTCAGGTGCTTGCTAGCTCCATTAGAAGATCTGGGCTGCTTCCCCCACCTCAAACCAGCCTCGCCCCTCCAGTCCCCTCCCCC
R
TCTCACACATGCAGAGCCTCATGCATTATTGATCTCCCGGTGGAGCCAGGATGGCCAGGGCCAGTGCCAAGGGTGCCTGTGGGCACTGCTGCAGGACCTG
Celera SNP ID:            hCV2257782
SNP Position Genomic:     6608
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(A,12|G,22)   total(A,14|G,54)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(A,11|G,27)   total(A,14|G,56)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65028):
TGCAGTGAGCCGAGATCACGCCATTCCACTCTAGCCTGGGCAACAAGAGCAAAACTCCGTCTCAAAAAAAAAATGAATGGTGTTCTTGTTCTTGTTCTTT
Y
TCCCCGCAGAGCTCTCTGAGTGTCAGGGGAAGCTCCAGGAACTACACAGGCTCCTCCAGAGCCTGGAGTCCCTGCACCGAATCCCCTCAGCCCCTGTTAT
Celera SNP ID:            hCV338025
SNP Position Genomic:     10465
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,34)   total(C,61|T,3)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65029):
CTGCAGCGCAGCTTCTGGGCCCTGGCCCAGAAGGGTAAGTGCCTGCTGGGAGGGGCTGGTGGGGAGCGGACAGGAGCGAGCGAGGACTCTGATGGTCTGC
Y
CCACTCCCTGTAGTGCACAGCTCCCTCAGCAGCGTCCTGGCCGCCCTCACCATGGAACGGGACCAACTGAGGGACATGCACCAGGGCTCAGAGTTGTCAA
Celera SNP ID:            hCV25756108
SNP Position Genomic:     11338
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,1)   total(C,13|T,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,19|T,9)   total(C,46|T,10)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65030):
AATCCAATTCCAGATATGAAGTGGAAGAACAAGTTCTGGGGCAAATCCCTGGAGATTGTGCCTGTGGGAACAGTCAACGTCAGCCTGCCCAGGTGGGATT
M
TTAGACTCTCAGCAGCCAGGCCAAGCCACAGGCAATCCTTCAGGCTGGAGGGGGCGTGGCCTTAGGGACAGGATAAGGACGGGATAGGAAGGTCTGGCCT
Celera SNP ID:            hCV2960535
SNP Position Genomic:     17249
SNP Source:               Applera
Population(Allele,Count): african american(A,6)   caucasian(A,28|C,2)   total(A,34|C,2)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,6)      total(A,5|C,6) ;(C,-|A,-)   JBIC-allele(A,287|C,1012)   total(A,287|C,1012)   (A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65031):
CTGAGGGACAGTGATGGGCTGGACCGCTGCTCTCATGGTGAGGGGCCCTAGGCGCAGCACCTCCAAGGGTAGGCCCCAAGCTGGCAGGTCTAGGAGGGGA
W
AATGTTACCTCCATCCCTGCCTCAGGGAGCCCCAGTTTAATGAGACAGCCTCTGCCTCCAAGGAGATCCAGTCTACCTGGGCCCTGTCTAGGGGAGTCCC
Celera SNP ID:            hCV2960536
SNP Position Genomic:     9629
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,1)   caucasian(A,10)   total(A,13|T,1)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,6)      total(A,6|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65032):
GTGTTGCCTTCCACAACCCTGCAGACCCCTGAGGGTGGGAATAGTTTTTCTTGATCTGTGACTTCTTAGAGACCAAGATGTGACTTGACGTAGGGGAGCG
Y
TCTGCACATGGGAGGATGATTGACAAGTCTCTACTGATAGTGTGACTTGGACATGAGGGTGAACCTGCCACCTGGCCCTTGAGCCTAGAATGGCATCAGG
Celera SNP ID:            hCV29403791
SNP Position Genomic:     8563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65033):
AGAGTCTGCCTGGGCACATAGACAGACGTGGATGCAGGGACAGGAGTTGTGACAAAGCAGATACTGAGTGCCCACACAGGGCAGGGGCCTGAGGAGTAGC
R
CCAGGGAAGGGGTGTGCTCTAGGAAAGGGTTCCTGCAGTAGGGTCTGTGAAGTTGGCCTGGAGGGAGAAGTGTAAACCAAGTAGAGAGAGAGAGAGGGTG
Celera SNP ID:            hCV2960537
SNP Position Genomic:     9847
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65034):
CGGCTGTCGGTCATGTCCATCAACAAAAAGGCCCAGCGCATTGACCTTGACACTGAAGACAACATCTACCACCTCAAGGTGACATCCCTGGGAGGCAGGA
Y
GTGTGTTGGCCCCCAACCTGACAGAGGCATTGGAACACACAGGGGCAGGGGCTGAGGGTCTGTGGAACTCAGGGTCTGTCTCTGAGTTTGACAAAAAGTA
Celera SNP ID:            hCV29403792
SNP Position Genomic:     8871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65035):
CAGGACGTGTGTTGGCCCCCAACCTGACAGAGGCATTGGAACACACAGGGGCAGGGGCTGAGGGTCTGTGGAACTCAGGGTCTGTCTCTGAGTTTGACAA
R
AAGTAAGTTTCCATCCTGTAAAAACAGCCAAGGGCAAACCTGCACTTCTTGGTTGTTGTATGGACAGGCACAGAGCTAAGGGCTCAGACACCTGGGCGCC
Celera SNP ID:            hCV29403793
SNP Position Genomic:     8966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65036):
CCTCCCCCTCTCCATCACTTCTGCAGATCAAATCCCAGGACCTATTCCAGAGCTGGGTGGCGCAGCTGCGTGCCCACCGCCTAGCCCACCGCCTGGACAT
R
CCCCGTGGCTCACTGCCCAGTACTGCTCACCGGAAGGTAAGGTGGACCCTGGGGTGGGGGCAGGTAATGTGGCAATTCAGGGGCAAGGGCTATGGAGAAC
Celera SNP ID:            hCV29403794
SNP Position Genomic:     9292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65037):
CCACCGCCTGGACATGCCCCGTGGCTCACTGCCCAGTACTGCTCACCGGAAGGTAAGGTGGACCCTGGGGTGGGGGCAGGTAATGTGGCAATTCAGGGGC
R
AGGGCTATGGAGAACTGTGAGACCCAGGGAGGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCTTCCAACAGCAGCT
Celera SNP ID:            hCV29403795
SNP Position Genomic:     9377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65038):
GCCAGGAAGTGTAAACAGTTATAATGGAGCCTGCGTCCCCTCACTCCCAGGCCAGGGCTCATTTTACTATGCCTTTGTCCCGCTCTCACTCCTCTCTGCC
K
CTTCTGCTCAGAAGGTGTCTGACTCAGCAAAAGTGCCCGGTTATGCCTCCCTCTCAAGGGAACTGTCAGGCAAGCGGGTGCCCTGCTTGATCCCCCCGGC
Celera SNP ID:            hCV2544979
SNP Position Genomic:     12341
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|T,9)      total(G,5|T,9) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65039):
CACCGCCTGGACATGCCCCGTGGCTCACTGCCCAGTACTGCTCACCGGAAGGTAAGGTGGACCCTGGGGTGGGGGCAGGTAATGTGGCAATTCAGGGGCA
R
GGGCTATGGAGAACTGTGAGACCCAGGGAGGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCTTCCAACAGCAGCTA
Celera SNP ID:            hCV29403796
SNP Position Genomic:     9378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65040):
GGGCAAGGGCTATGGAGAACTGTGAGACCCAGGGAGGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCTTCCAACAG
M
AGCTACTGCCTCAGCCCTACCTGGGCTTGGACCGCGGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGGCTGGACCGCTGCTCTCATGGTGAGGGG
Celera SNP ID:            hCV29403797
SNP Position Genomic:     9473
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65041):
GGTTCCTGGTGCCCAGCTTCCAACAGCAGCTACTGCCTCAGCCCTACCTGGGCTTGGACCGCGGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGG
Y
TGGACCGCTGCTCTCATGGTGAGGGGCCCTAGGCGCAGCACCTCCAAGGGTAGGCCCCAAGCTGGCAGGTCTAGGAGGGGATAATGTTACCTCCATCCCT
Celera SNP ID:            hCV29403798
SNP Position Genomic:     9547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65042):
TTCCAGCTCCTTCGTCCCTGATCCTCAAGCGGTTCCCTCCCGTCTCAGCTCAGCGGATCCCCCAGAGTGGAGGAGGCCTCTCCATGAGGAGGGGAGCAGC
Y
CAAGGCACCTGTCCTCTGACCCACCGGCAGCGAGTGCGCAGGTGTGAGTGTAAGTTCATGTAGGAGAGTGTATGCGTGTGCGCCTGTGCCCTGCTTGCAG
Celera SNP ID:            hCV7454246
SNP Position Genomic:     20227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65043):
CCTCAGCCCTACCTGGGCTTGGACCGCGGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGGCTGGACCGCTGCTCTCATGGTGAGGGGCCCTAGGC
R
CAGCACCTCCAAGGGTAGGCCCCAAGCTGGCAGGTCTAGGAGGGGATAATGTTACCTCCATCCCTGCCTCAGGGAGCCCCAGTTTAATGAGACAGCCTCT
Celera SNP ID:            hCV29403799
SNP Position Genomic:     9582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65044):
AAAATGCCTGCAGCTTCCAGCTCCTTCGTCCCTGATCCTCAAGCGGTTCCCTCCCGTCTCAGCTCAGCGGATCCCCCAGAGTGGAGGAGGCCTCTCCATG
R
GGAGGGGAGCAGCCCAAGGCACCTGTCCTCTGACCCACCGGCAGCGAGTGCGCAGGTGTGAGTGTAAGTTCATGTAGGAGAGTGTATGCGTGTGCGCCTG
Celera SNP ID:            hCV7454247
SNP Position Genomic:     20213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65045):
GAAGTATCTCCTTTAGCCCAATGTCCTGCCCTCTCTGGGTGGGTGGCACTTCTCAGAGCCCCAAGGACTGTGAGGGTAGACAGGGGATGGTGAGGCTTTA
K
GGGGTACTGAGGGTCCAAAAAGGGCATCCTAGGGGCATGTTTGGTGGGAGGAGACATGGGAAAATGGGGGCTATCTCAGGCCTCAGTTTCTCCAAGCACT
Celera SNP ID:            hCV27268446
SNP Position Genomic:     6848
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65046):
AGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCATTCCACTCTAGCCTGGGCAACAAGAGCAAAACTCC
R
TCTCAAAAAAAAAATGAATGGTGTTCTTGTTCTTGTTCTTTTTCCCCGCAGAGCTCTCTGAGTGTCAGGGGAAGCTCCAGGAACTACACAGGCTCCTCCA
Celera SNP ID:            hCV25757091
SNP Position Genomic:     10423
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(A,1|G,37)   total(A,6|G,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:65047):
GTCAGGAGTTCGAGGCCAGCCTGACCAACATAGTGGAACCCCATCTCTACTAAAAATACAACAAATTAGCCAGGCATGGTGGTGCGCACCTGTAATCCTA
R
CTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCCATTCCACTCTAGCCTGGGCAACAAGAG
Celera SNP ID:            hCV27268447
SNP Position Genomic:     10313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65048):
GCGTACTCTCCCGTGTAGGGGATGGGGAGGCTTTTGTTGAGAGGGAGAAGTCTGGGCGGCCTGGTCTGGGGAATTCAGTGGGTGCATGGTGGTGCCAGTT
A
GTGAGGTGGACAATGTGTGTGGGAACACACTATGTGGGCTTGACTTCCACAGGAGATGGCCAGGAGGCTCTGGAGTCGCTGGCCTGGAGCTCCTCCAAGA
Celera SNP ID:            hCV27268448
SNP Position Genomic:     15319
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65049):
CGGCTAGAGGGGAGGCTCTGACATCTCCTTCCTTCCTGGTTCCTGCAGCAGCTGCTGCCACTGCTCAGCGCGGTGAGGAGGGAGCCGGTGACTCGGAGAC
R
GTGACTCAGAGGCAGAGCGGCGCAAGGGCCAAGGAGTACTGGCGTCCATGGACCCTGGGGTAAGGGGGCTGCGTGGCAGCAGCTGACATTCCTGAGAAGA
Celera SNP ID:            hCV27857002
SNP Position Genomic:     6109
SNP Source:               Applera
Population(Allele,Count): african american(G,22)   caucasian(A,1|G,29)   total(A,1|G,51)
SNP Type:                 UTR 5


Context             (SEQ ID NO:65050):
CGTACTCTCCCGTGTAGGGGATGGGGAGGCTTTTGTTGAGAGGGAGAAGTCTGGGCGGCCTGGTCTGGGGAATTCAGTGGGTGCATGGTGGTGCCAGTTA
G
TGAGGTGGACAATGTGTGTGGGAACACACTATGTGGGCTTGACTTCCACAGGAGATGGCCAGGAGGCTCTGGAGTCGCTGGCCTGGAGCTCCTCCAAGAG
Celera SNP ID:            hCV27268449
SNP Position Genomic:     15320
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65051):
CAGATCAAATCCCAGGACCTATTCCAGAGCTGGGTGGCGCAGCTGCGTGCCCACCGCCTAGCCCACCGCCTGGACATGCCCCGTGGCTCACTGCCCAGTA
Y
TGCTCACCGGAAGGTAAGGTGGACCCTGGGGTGGGGGCAGGTAATGTGGCAATTCAGGGGCAAGGGCTATGGAGAACTGTGAGACCCAGGGAGGTGGGCA
Celera SNP ID:            hCV25753310
SNP Position Genomic:     9315
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65052):
CACCAGGGCTCAGAGTTGTCAAGAATGGGGGTGAGGCCTGGGGGACAGGGTGACTGGTGCGGGGAGAGGGCTTCAAGCTGAGGACTGCCAGCCTGGGGTC
Y
GATAGCAGATCTGGGTCAGGGTGGGGGGTTGGCAGAGGCAGTCTCTGCAGAGATGCGGCAAGGTGGGGAGGACCTCATCCTCCTGGCACCGTGTCCCTCA
Celera SNP ID:            hCV25923315
SNP Position Genomic:     11517
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,38)   total(C,45|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65053):
GTCCCGCTCTCACTCCTCTCTGCCTCTTCTGCTCAGAAGGTGTCTGACTCAGCAAAAGTGCCCGGTTATGCCTCCCTCTCAAGGGAACTGTCAGGCAAGC
R
GGTGCCCTGCTTGATCCCCCCGGCTTGGCCCCGGAGCCTGACATCCATCTGGCTGCTCCCACAGCAAGAAGCTCTGTACATGAAGGGGCGCGAGCTCACC
Celera SNP ID:            hCV25923261
SNP Position Genomic:     12417
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,1|G,35)   total(A,1|G,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:65054):
ATTCCCACACGGAGTTCTTCGATGCCTGCGAGGTTCTCCTCTCCGCCAGCTCTTCTGAGAATGAGGTGAGGGAGGAGAGAAGCTGGCAGTGAGGCGGGGT
R
GGGGGGACCTTGGGAACAGAAGGGTGGGGTCCACAGAGACCATAGATTCCTCAGCCCCTTCTCACCACCTCAGCTGCTATCTCTGGGACTATGTCCAGAT
Celera SNP ID:            hCV25923229
SNP Position Genomic:     12655
SNP Source:               Applera
Population(Allele,Count): african american(A,8)   caucasian(A,36|G,2)   total(A,44|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65055):
GGGGGATAAAGGTCGAGGCAGTTTGTGTGTTTGTTTGTTTGTTTGGATTTGAAGTGTTTTTGGAAACATGGTGAAGATTGACACAGTACACTCGTGCGTA
Y
AACAGAAAATAAGCCTCCCTCCCATCCCAACACTCCGAAGGGACTACTGCTACCAGCTTTTGGGATTCCTCCCAGAAATGTTTTACGCATATGTGAACAA
Celera SNP ID:            hCV321929
SNP Position Genomic:     15851
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65056):
CCTCCTGGACCAGGCCAGCCGCATCGCCGACCCCTGCGAGCGCATGGTACCTGCTTCCTGTCCTCACGCCCAGCCCAAGGCTGCTTCCTTCTCCCTGGGA
Y
CTTTTCTCCCAGAAAATCCTGGCTGGGCTGTTCCTTATTGCTGAAGTTCCACCCCAAGATCCCATACTTTGCTTGCTTGGGGTGGCGGCCCCGTCCTCAG
Celera SNP ID:            hCV25756111
SNP Position Genomic:     14302
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,25)   caucasian(C,13|T,25)   total(C,22|T,50)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,25)   caucasian(C,14|T,26)   total(C,23|T,51)
SNP Type:                 INTRON


Context             (SEQ ID NO:65057):
GTGAACCTGCCACCTGGCCCTTGAGCCTAGAATGGCATCAGGGAGATGGTGGCTCTATGGCTCTGAGAGCCTAAAACAGGTCCCCTCTCCCTCTACCAAC
R
CTTCACCCCCAGATCACCAAGGGGAAGCTCCATGGCTCCATCGATGTCCGGCTGTCGGTCATGTCCATCAACAAAAAGGCCCAGCGCATTGACCTTGACA
Celera SNP ID:            hCV2960523
SNP Position Genomic:     8722
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,23)   caucasian(A,2|G,22)   total(A,15|G,45)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;JBIG-allele(A,357|G,1134)   total(G,1134|A,357)   (G,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65058):
AGGGAGAAGTCTGGGCGGCCTGGTCTGGGGAATTCAGTGGGTGCATGGTGGTGCCAGTTAGTGAGGTGGACAATGTGTGTGGGAACACACTATGTGGGCT
Y
GACTTCCACAGGAGATGGCCAGGAGGCTCTGGAGTCGCTGGCCTGGAGCTCCTCCAAGAGCACCAGGTGGCACTAACAGGTCAAAGAGTGGCCAGCTTAG
Celera SNP ID:            hCV2544981
SNP Position Genomic:     15360
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65059):
AACAGAAAATAAGCCTCCCTCCCATCCCAACACTCCGAAGGGACTACTGCTACCAGCTTTTGGGATTCCTCCCAGAAATGTTTTACGCATATGTGAACAA
Y
GAAGTGTGTGTCTAGAAGAGAAAGATTTACTATTTTTTAAGGTGGAAGAAACAGACAATCTTTATATTCAGAGAGAAAGAGAAATAAAGAGGGAAAGACT
Celera SNP ID:            hCV2544982
SNP Position Genomic:     15952
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65060):
GGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCTTCCAACAGCAGCTACTGCCTCAGCCCTACCTGGGCTTGGACCG
Y
GGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGGCTGGACCGCTGCTCTCATGGTGAGGGGCCCTAGGCGCAGCACCTCCAAGGGTAGGCCCCAAG
Celera SNP ID:            hCV25751840
SNP Position Genomic:     9508
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65061):
TATATTCAGAGAGAAAGAGAAATAAAGAGGGAAAGACTGAAGGTGCAGAAGGAGGAGGAGTGGGCAGCCTGGGGGGCATCAGTGGGAGCAGGCTGACTGC
Y
GCCAGACAGAAGGAATCGCCCCCCTGACCCACTTCTGTTCTGCCACAGACTGTGGGAGGCGAATGAGGTTCGAAGGGCCTGGCTTGTGCCTGGGTCCTCA
Celera SNP ID:            hCV2544983
SNP Position Genomic:     16115
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65062):
TGTGGGATGTTGGAATTGAAGGCTCCAGATGTGGAGCCATTCCAAGTGGGAACAAGGCCAAGTGTTTCCAAGGGTGTGGGGTGGAGGTTGCAGGGCGATG
R
TCAGCTTTGGGGTGGGGTGGGGGGAGATGGTGGGGAAGAGGGTCATCAGCAAGGGCTGGGTTTCAGGCAGGGCATGGGGTGGAGGCCCCACCCATCACTG
Celera SNP ID:            hCV2544984
SNP Position Genomic:     16613
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65063):
AGAGGGACCCGCCCTTCCTGCCTGAGAGCGCTCAGTCCTCAAAGCCCAGCAGTGCTCAGCAGGTCAGAGAGTGGGAAAGCGGTGGTGGGTGGGCCAAGCT
K
GAACCAGACAGGGAGGGGCCAAGGCGGACGTCTCACCAGTGCTCCCCTCCCTCTGTCCTGGACTGCAGGCCTCTGAGCTGTGGGAGGTGGTGGAGGAGCC
Celera SNP ID:            hCV11419037
SNP Position Genomic:     7669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65064):
TTTAGGAGGTGGCCAAGGGTGATAGGGACAGGAAACCTGGAACCAACTGGTCTTGTGGTACTTAGGGGAACTAGGGGTGGGAATAAGGGACTTTGGGGTA
S
CCTAATGGTGCTCGGGGACAGCCTCAAGATAACTTCTTTGCTCACCAAGGTCTCCCACCACCCCCCTATCTCGGCCTGCCATGCAGAGTCTGAGAACTTC
Celera SNP ID:            hCV2544985
SNP Position Genomic:     16949
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,3)   caucasian(C,23|G,13)   total(C,26|G,16)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,5)      total(G,5|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65065):
CAATTCAGGGGCAAGGGCTATGGAGAACTGTGAGACCCAGGGAGGTGGGCATCATCCTTCCTGACCCTGGGCTCACCCCACAGGTTCCTGGTGCCCAGCT
Y
CCAACAGCAGCTACTGCCTCAGCCCTACCTGGGCTTGGACCGCGGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGGCTGGACCGCTGCTCTCATG
Celera SNP ID:            hCV25751933
SNP Position Genomic:     9465
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,37)   total(C,1|T,75)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65066):
AGCAGCAAAAAGACTTGACACTTCAGAGCCTTGAGCCTGCTTGCCTGTGACATGACAGTAAGAAGTAATACCCAAGAGAGGTGAGGATTAAGCAGGATAA
Y
GGATGTGAACGTACACACGGTTCCTGGTGCCCAGGGGCAGGACACTTTGTGTATTTTCATCCCTGTTGCTCAGGCACTCAGGGGCTTTGTAGATGAGTGG
Celera SNP ID:            hCV2544987
SNP Position Genomic:     18058
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,5)      total(C,4|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65067):
CCGTCCTCAGTACCCTGCACCTTCCTTGCCCCCCACAGGTGTACATCGCAGCCTTTGCTGTCTCGGCCTACTCCTCCACATACCACCGAGCCGGCTGCAA
R
CCCTTCAACCCTGTCCTGGGGGAGACCTACGAGTGTGAGCGGCCTGACCGAGGCTTCCGCTTCATCAGTGAGCAGGTATGGCCTTGGGAGAAGAGGGCTG
Celera SNP ID:            hCV15756608
SNP Position Genomic:     14493
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,15|G,25)   total(A,19|G,57)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,8|G,1487)   total(G,1487|A,8) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65068):
TGGAGCAGGGCAGGTGTGGGAGGCAGCACCTTAGGACCCTAGCCTGCCTTCTAGATGTTCACCCCTCACTGCCACCGCCTTCTCCCACCAGGCGGCAGAC
R
GATAGCAGCGGGAAAGAGTGGTGGGTGACCAACAATACCTACTGGAGGCTGCGGGCCGAGCCAGGCTATGGGAACATGGATGGGGCCGTGCTCTGGTAGC
Celera SNP ID:            hCV2544988
SNP Position Genomic:     19444
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,4)   caucasian(A,12|G,10)   total(A,18|G,14)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65069):
GTACTCTCCCGTGTAGGGGATGGGGAGGCTTTTGTTGAGAGGGAGAAGTCTGGGCGGCCTGGTCTGGGGAATTCAGTGGGTGCATGGTGGTGCCAGTTAG
T
GAGGTGGACAATGTGTGTGGGAACACACTATGTGGGCTTGACTTCCACAGGAGATGGCCAGGAGGCTCTGGAGTCGCTGGCCTGGAGCTCCTCCAAGAGC
Celera SNP ID:            hCV27268450
SNP Position Genomic:     15321
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65070):
TACTCTCCCGTGTAGGGGATGGGGAGGCTTTTGTTGAGAGGGAGAAGTCTGGGCGGCCTGGTCTGGGGAATTCAGTGGGTGCATGGTGGTGCCAGTTAGT
G
AGGTGGACAATGTGTGTGGGAACACACTATGTGGGCTTGACTTCCACAGGAGATGGCCAGGAGGCTCTGGAGTCGCTGGCCTGGAGCTCCTCCAAGAGCA
Celera SNP ID:            hCV27268451
SNP Position Genomic:     15322
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65071):
GGGAGGCGGAGGTAGTGGTGAGCTGAGATTGCACCACTGCACTGCACTCCAGCCTGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAA
G
AAAAGAAAAGAAAAGAAAAGAAAATAGTGATGCAAGCAGCAAAAAGACTTGACACTTCAGAGCCTTGAGCCTGCTTGCCTGTGACATGACAGTAAGAAGT
Celera SNP ID:            hCV27268452
SNP Position Genomic:     17923
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,6)   total(G,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65072):
GCAGCGAGTGCGCAGGTGTGAGTGTAAGTTCATGTAGGAGAGTGTATGCGTGTGCGCCTGTGCCCTGCTTGCAGGCAAGCAGGGCTCCCTCATGTAGCCC
S
GCCTTCCCCCTGCTGGGGGTCCACCACATCGCTGCTCTTTCTCACAGTCTGCCTCTGATGAGGGCGAATTGCTATGACATTCCAAGCTCCAATAAAGACT
Celera SNP ID:            hCV7454239
SNP Position Genomic:     20354
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,4)      total(G,1|C,4) ;JBIC-allele(G,271|C,1206)   total(G,271|C,1206)
SNP Type:                 UTR 3


Context             (SEQ ID NO:65073):
GGGTGCCGGCCTAGAACCATCTAGTTCACTCCCTCCACAGAGTACAGAGCTGGGGCTTTGTCCTTCCTTCACTGAGTGGCCTCAGAGAAGTGGGGCTTGT
Y
TAGAGGACAGAGTTGGGCAGAGACAGAGGCCTTGGGTTTGGGGGCCCCTGCAGATGGGCAGTTCCCCTGAGTTTGATCTGGATCCTCAGGTACCTGGAGG
Celera SNP ID:            hCV25753770
SNP Position Genomic:     19084
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,32)   total(C,64|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65074):
GGACCGCGGGAGAAAGTGTCTTCCTGGCTGAGGGACAGTGATGGGCTGGACCGCTGCTCTCATGGTGAGGGGCCCTAGGCGCAGCACCTCCAAGGGTAGG
S
CCCAAGCTGGCAGGTCTAGGAGGGGATAATGTTACCTCCATCCCTGCCTCAGGGAGCCCCAGTTTAATGAGACAGCCTCTGCCTCCAAGGAGATCCAGTC
Celera SNP ID:            hCV29403800
SNP Position Genomic:     9602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65075):
CCTGGTTCCTGCAGCAGCTGCTGCCACTGCTCAGCGCGGTGAGGAGGGAGCCGGTGACTCGGAGACGGTGACTCAGAGGCAGAGCGGCGCAAGGGCCAAG
R
AGTACTGGCGTCCATGGACCCTGGGGTAAGGGGGCTGCGTGGCAGCAGCTGACATTCCTGAGAAGAGCTTCCTCCCACCTGAAGCTGGTGGGTCTGCTCC
Celera SNP ID:            hCV27833637
SNP Position Genomic:     6143
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,19)   caucasian(A,11|G,17)   total(A,12|G,36)
SNP Type:                 UTR 5


Context             (SEQ ID NO:65076):
AGGCTCTGACATCTCCTTCCTTCCTGGTTCCTGCAGCAGCTGCTGCCACTGCTCAGCGCGGTGAGGAGGGAGCCGGTGACTCGGAGACGGTGACTCAGAG
R
CAGAGCGGCGCAAGGGCCAAGGAGTACTGGCGTCCATGGACCCTGGGGTAAGGGGGCTGCGTGGCAGCAGCTGACATTCCTGAGAAGAGCTTCCTCCCAC
Celera SNP ID:            hCV11626452
SNP Position Genomic:     6121
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:65077):
TCCCTTGTGGTGACTGATGGGCTAGTGGCTTTGGATGCTGACCCCAGGAGCTAAGGAAGGCCAGGTCATGAACTGGGAAATGTTCCAGGAGCAGCTCTGC
Y
GGGGTGGGCCAGGCTCAGGCCTTGGGGCTGGCCTCTGTTGCAGCAGGCTTGCCTAGGGCCTTGGAGGGAGGCAAGAGATCCCACTTTGCTGCTTGTTAGC
Celera SNP ID:            hCV11626453
SNP Position Genomic:     13500
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Gene Number:                 407
Celera Gene:                 hCG29365 - 67000129296523
Gene Symbol:                 MGC16309
Protein Name:                hypothetical gene MGC16309;FLJ23553
Celera Genomic Axis:         GA_x5YUV32W3KM(14959599..14977290)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12567):
TGGAGGGAAGTAACGGGGAACTATTGTTTAATGGGTGTAGAGTTTCACTGTTAGAAGACAAAACGTTCTGGAGATGGATGGTGGTGATGTTGCATAGCAT
TATGAATGTACTTAACACGGAACTGTACATTTAAAATGGTTAAGATGGTAAATTTTGTGTGTATTTTACAATTAAAAAATTGAATAAATATCATGGAGTG
TTGAGGGGGTATTAAAATCACAGATTCACCAGGAGCGGTGGCTCATGCCTGTAACCCCAGCACTTTGGGAGGCTGAGGTGGCGGATCACCTGAGGTCAGG
AGTTCAAGACCAGCCTGGCCAACACGGTGAAACCCCATCTCTACTAAAAATACGAAAAAAAAAAAATTAGCTGGGCGTGGTGGCAGGTGCCTGTAATCCC
AGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGACAGAGGTTGCAGTGAGCTGAGACTGTGCCACCGCACTCCAGCCTAGGTGATAGA
GTGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAATCAGATTCCTGTCCCGCCCCCTCCCTACAGAGACCTGTGAAATCTGGATTTCCAAGGACATGTGC
AGTATTCTCTGCCCCTTAAGTGAGTCAGCATCAGGGGAGTCTGGGAAACACTGGTCACTGGCCCTCGGCACCCTTTACTTGGGCTACTTGTATTAAATAT
CTTCATCTGTGAGGGTTTCAGCACCTACTACCCCACTGTTAGACTCAAGGTATCTAAATTTTCTCTCCCTGCTCCATGTCTGCCTTTCCTAGTCTTCCCT
CCAGTGCAGAAGTGACCTGGGGTAGTGAGACAACACAGGTGTGGGAGTGACAGTCGGCCCTCAATAAATGTGCTGTTTACTCAGGCTCCATCCGTGAAAG
GATGCTCTCTCCAAGAACGTTCACGGTTTTACCAAGACAAGCCTAGCAGATGGCAGCAGGCCCCTCTTCACCCCACCCCTAACTGGCAGGGGTGCTTGCT
CACCTAGCAGCGGCAGGAATGGCACAGTCCTTAAGATCCGTACCATCTCCTTGACCTTGGGCTCTTCACTGACCAGCAGCATGTTGTGCCCCACAAAAAG
GGGCAGCAGATTTTGGTACTTGGAATCCTCCAGGAAGGGCTTCAGGACCTGGGAACAGCAGGGAAAAATGGCTTATCGGGGACAAGTGGGAGGAAGAGCT
ACCTCGTGGGTCATGGGCCACATTAGGCTGAGGGTGCAACCCAAGGGTCTTCTCAGCCCCTAATCATAGGTTAGACACCAGATTAGAGGGTGACTCATGG
AGAGGAGGAGTAAGAAGTATCATCACTGGGGAGCAGATGGTGAGGTCTGAGTCTGGTGGGGGTGGGGGGAAGATGGGCAACCCATGCCAAGGGGCCTGCT
CCCTACCTGGTTGGGGAAGACCTTCATCAGGATCTTGTGTTTCCGCAGCTGGTGTCGCATAAGAAGCTTGTCCTCTGCACTCAGAGCCACATTCTGGCAG
ACGGCTATCATTCGGTTGTCCTGGAAAACTGCTGCTATCTCCCGGCGGAGAAGCCTGATGAGGCCTATCTCCTGAAGTTGGAAAGCAATGACCAAGGGTA
CATCAGCTGCCACTTCTCCTGGCAACGTTGCTCCCTCTGTGGTAGGTTCTAGGGCTTCCAGTGATGTCCAGATGTGCAAAAGATCGGGGAACAAGTAGGA
TAACTGGGCCTCTGACTCTCAGAGACATGTAACATCTCCCACTACTCTAACCTTTTCACTTTCATTAGATAATTGCAGTCTTTAGCAGTGTTTTTCAAAC
CTGAGGATGCTCAGATCCACTCCCCCGAAAACAGGCCTGCAGTCTGCCCTAGTCAACAGTGCTTGACAATAATATTGCTAAAATTATTTCAATTATCAAT
CTGACACTGTACTCATGTTGAATTATTTTGCCAATCATAAATATAACTCTTTTGCAGTGTTAGTTTAAAATTGAGAAATTTGGCTGGGCGCGGTGGCTCA
TGCCTATAATCCCAGCACTTCGGGAGGCCAAGGCAGGTGGATTGCTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATAGCGAAACCCCATCTCTAC
TAAAAATACAAAAAATTAGCTGAGCATGGTGGCATGTGCCTATAATCCCAGTTACTCAGGAGGCTGAGGCAGAGAATCGCTTGAACCCAGGAGGCAGAGG
TTGCGATGAGCCAAGAGTGTCCCACTGCACACCAACCTGGGTGACAGAGACTCTGTCTCACAAAAAAAAAAAAAAAAAAAAAAAAAAAATGGCCAGGCAG
GGTGGCTCATGCCTGCAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACATGGTGACACCCTG
TCTCTACTAAAGATGCAAAAATTAGTCAGGCATGGTGGTACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAG
GCAGAGGCTGCAGTGAGCCAAGATCGCGCCATTGTACTCCAGCTTGGGCAACAAGAGCGATACTCCATCTCAAAAAAAAAAAAAAAGATTGGAGAGATAC
TCTCCCCAGCCCCACCTGCTAGGGTAGCTCTCACACACACATTTTTGGAGACAAGAAGGAAATTCAGGAGGCCCACCCAATCCAGAGCCCAAAAGCCAAT
ACAGAATCAAGTGCGGATTTCATCTTAAAATATCTGGATCAGGCAGTCAAACTGAAATAATGACGTGCATGACAATGGCTGAGTGTCCTACTTCACTATG
GCCAGAGACAAGATTACTTTAATCCACCATCCCACCACCAAGTGACATGTATCCAAATTCCTCCTTACCTCCTGTGGGGGGCTGGGAGGAGATGGCAGGC
ATGATGGGTGGATGGCTGGTTTCGGGGGGATATATTCAGTCACAGCCATCAGCTTCTGCCGCTGAAAGTGCATCACACGACGGTGGCGGGTAACAGCCTT
GGAGCCATAGCGGACAGTCTGGAGGGTAGGCAGCCGGCCTGGGAGGGCATATAGCAACATGGTTAGAGGCAACCTCCTGGAGGCCCTAGTTTATCCCAAA
TGGAGAAAAAACACACCCTCTAGCAGAGAAAAGCACAGCTCACAGAGCTAGACTCAACACAAGAGTGGGACAAGGAATTGTCTGACAAAAGTCCTGAATT
TCCAAAGCTTCTCTTTCAGTAAGTGACCCGAGGTCAATTACTTAATCTCTTGAGGCTACCATTTCTCTAGCTCTTCTCAATGTGCAGAAATGTGAGAAAA
AAATGAGAACAAAGGAGAAAATATTTTGAACACATTAAGAAAAGTGGGGGCTGAGTGTGGTGGCTGACACCTGTAATTCCAGCACTTTGGTAGGCCGAAG
CGGGCGAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACACAGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGT
GTATACCTGTAATCCCAGCTACTTGAGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTC
TAGCCTGGGCACAGAGTAAGACTCCGTCTCAGAAAAAAAAAGAAGGAAGGAAGGAAGGAAGGAAAGAGAGAGAGAGAGAGAGAAAGAAAAAGGGGATAAG
GTTAAATAAACTTTTTCTTAAAATGGTCAAACAGTAAATATTTTAAGTTTGGGGCCCATGTAATCTGTCTCTAATGCTCAACTCTGCCAAAAGCAGCCAC
AGACAATATTTAAAGAGACAGCAGAAACTATGTACCAATAGAATTTTATAAAACACAGTGACTGGCCCTGCCATAATACGCCAACCCCTGGTCTAATCTA
GTGGCTCTCAAGGTATGCCCCACCTCCACCCCAACCAGCAACATCAGCATCATTTGAGAGCTTGTTAGAAATTTTGCTGGGTGTGGTGGCTCACGCCTGT
AATCCCAACACTTTGGGAGGCCAAGGTGGGCAGCTCACTTGAGGTCAGGAATTCAAGACCAACCTGGCCAACATGGTGAAACCCCGTCTCTAACTAAACT
ACAAAAATTAGCCAGGCGTGGTGGCACACACCTGTAGTCCCAGCTACTCAGGTGGCTGAGCCATGAGAATTGCTTGAACCCAAGAGGCAGAGGTTGCAGT
GAGCCGAGATTGTGCCATTGCACTCCGGCACTCCGGCCTGGGTGACAGAGCAAGACTGTCTCAAAAAAAAAAAAAGAAAGAAAGAAAGAAAAATAAACAT
AAATTCTCAGGCCCTGCCTAGACCTACTGAATCAGCAATTCTGGGGTGGAGCCTAGCAAATAGTGTTTTTTGTTTGTTTTGTTTTGTAGAGACCAGGTTT
CACTATGTTACCAAGACGGGTCACAAATAGTGTTCTAACAAGCCCTCCTGGTGATGCTGACGCATGCTAAAGTTTGAAAACCACCACTCTAACCGCTGCT
CTGACACCCTGTCCTATGATTTGAAGAGGAGAAAAAAATGTTACACCATTCTCACAGCTCTCAGACAAGTTTCTCTTTCCTCCTCTCTTCCTGTTTACAG
ATAATGCTACAGAGCACCCCACAGAAAACAAGGGAGGCACTCAAAAGCCCTGAGACAAAGTGACCACTTAATCCTCAACACAAGGGCCAAGACTAGAACT
TCCCACTTTCAGTCATTTCCAAGACTGGGATGTGACCTCAGAAAAAGGTCCAGATAGAAGGCGGCTCTAACAGTCAGAGAGTATGGATATTTGCTGGGGT
AAGAGGTCTTATTGCCAGCAGCCACAAAACCTAACTGTTAAGACTGCAGGCAGGCTTTGGAATCAAATTAAACTGGATTTTTTTTTTTTTTGAGATGGAG
TCTCGCTCTGTTGCCCAGGCTGGAGTGCAGCAATGCGATCTCGGCCCACTGCAACCTCTGCCTCCTGGGTGTAAGCGATTCTCACGCCTCAGCCTCCTGA
GTAGCGGGGACTACAGGCACGCGCCACCACACCCGGCTCATTTTTGTATTTTTAGTAGAGTTGGGGTTTCGCCATGTTGGCCAAGCTGGTCTCAAATTCT
TGACCTCAGGTGTTCCCTCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGCGCCCAGCCGAAACTGGATTTTAATCTCTCTTCCGC
CAATTACTAGCTGTGACCTTGGCCACCCAACTGGTCTGAACTTCAGTTGCTGCGTCTGTAAAGAGGAGATGCGAATGTCTTTCTCACAGGGTGCTTTAGA
TTTAAATGATTTAAAAGATTTAAATGAGCTAACACATATAAAAATAGTTATCACAGTGCCTGGCCTATATTAAGTGCTCAAATCCATTCACTAAACAAAT
ATCTACCGCACGCTTACTAACATCCAGCACCATGCCACCTGCTGGCTATGCTGAATGAACATGGTTCTGCCCTTGCGGAGTTTAATAGAGGAAACAAGCA
ACTAAACAAATGCAAAATTACAGATTGCGACGGGGCTAAGGAGTCAAGGGAAGACCTGAGGTGACATTTAGACTGACACATTAAGATGGAGACATAATGC
AAAGGTCTGGGCGAGGAGTGGTCCAGGCAAAAGAAACGCTGGAGACAGACAACATCTGGACGTTGTTGCTGTGATTACCAGTCGAGTCACAAGGAACTGG
ACGGGGTAAGGAGGCCAGCGATCTAGCTGGGGTCAGAGATTATGGGAAGAATCAGTAGTAGAGGAGGGCAGATGAGGACTAGAGAGCGGCCGCAAGACAC
GCCGTGAGGACCTGGGCCACTCCTTACCCGCCTGGGGCAGGAGACCCCCTCGCAGCATCCCCGCCACGGCCGCAGCCATCTCCACCGGAAGAATGGACGG
AAGCCGAGTGGAGACGGAAAGAGCTAAGGATTGTGGGGTAGCGAACCCCGGGGCCGGAAGCAGTGGGCGTACCCGCCGGCTGTAGCCGTAAGACGCATGC
GCTAGGCCGGGCCAACGGAGCCCGCCTTTACCTCCCCACTCGGCGTCCAGTCTCTTAGCAACGACTCCGGCTTCCTAGGAACTGCTCCTTTCTCAACCAT
TCCTGCCCACAACACCCCAGCTTGCTGCCAGCAAAGCCCCTCCACACCCCTCAAACTCCAGACCCTTCACATCAATTTACTGTTKTCTTCGACCTCACCC
CAGCAATTTTCTCTGAATCAACCCCCTTTCCTCCTCTCCTAAGTCTCTGAGTTTCTCTCTCCTCCTGCCATCCTGAGTTCTGCCATCCTTAGGGGCCGCC
AAGACCTCTCTTTTCGTTCCTCTCCCGCCTCAGACCAGCAGCCTTTTATTTTAGATCATGTCTGGAGGTGAGTAGGGAGGTGGGACGGTGGGTAGAGCAG
TTGGAAAACAGCGGGGTAAGGCCTCCAAGAGTGAGGAAGTGTCACAGTTGGACTCATCTTTTCACAGGGAAGTCAGCCCAGGGTCCAGAGGAAGGGGGCG
TCTGCATCACTGAAGCCCTTATCACTAAGCGGAACTTGACTTTCCCTGAAGATGGGGAACTGTCAGAGAAGATGTGAGTGCATGGGGGAGAAAAGGGGTG
CTAGAAGGCTGAAACACTCAGGATGACCAGGTCCCTGACGTGTACTGATTTGTCAACTGATCTTTGTTTCTCTCCTTACTCCACACATTCAATCAGTGGT
AATGCCCAGCTGATTTTCCCTTCTTCAAAATAATTCCATTTCTTTTTCACCATCCTCACTCAACTGTCTTAGATAAGGCCGTGTTCACCTCTCTCCTACA
CACCCACCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAATAGAGACAGAATCCTATCTCTAAAAAATAA
AAATAAACTAGCTGAGCATGGTGGTGCACACCTGTAGTCCTAGGTGGCTGAGACAGGAGGATCACTTGAACCCAGGTACCTGTGGCTGCAGTAAGCTATG
ATCATGCCATTGCATGCCAGCCTGGGCAACAGGGTGAGACCCTATTTCTAAAACAAACAAAAAGTAAAGTATTTTTAATTACTTTTTTAGAGATGGGGTC
TTGCTCTGTTGGCCAGACTGGTCTTGAACTCCTCAAACAATCCTCCCACTTCAGCCTCCTGAGTAGCCAAAGTGATCCTTTTAAATAACAAATCTAATCA
GGCATTCACTGATAGAAACTTCCTCCCAAATAAATCCCAATGCCTAAGCATGAGTTGACTTCTGCTTTTCAGCCTTATTTCTGGCCACTCTCCACAAGTG
TACAATTTCCCACACTGTGTACTCACACCTTAGTACCTTACTACTCAGAGTATGTGTGGATGGGAGGGGGTGCAGGGGTAGGACAGCAGCATTGGCATCA
CAGGGGGCTTGTTAGAAGTGGAGCATCTCAGCCCCTCCACCCGATCTACTGAATTAGAATCTGCATGGGCATATTGGAGTTTCGGAAGGGCTGTATTAGC
ATGTACTATTCCTTCTGCTTGAAATGCCTTCTCCCCATATCCCCCCACCTTCATGGCTAATGCCTACTCATCTGTCACCTCCTCTAGGAAGCATTCCCTG
ATTCCTCCTACTGTGAATTTAGTGCACAGCCTATGTACTCCCTTTGTCCCCTGTACTTGCTTCTGTTATCCACTTGTCAGGGATGTTTGGCCTTATTCTT
TCTTTCTTTCTTTCTTCTTCCTCTTCCTCCTTCTTTCCCTTCTTCCTCCTCCTTCTTCCTTTCCCCTGTACTTGCCTCTGTTATCCACTTGTCATAGATG
TTTGGCCTTCTTCCTATTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTTGCGCAGGCTGGAGTGCAATGGTGTGATCTCGGCTCACTGCAACGT
CTGCCTCCTGAGTTGAAGCGATTCTCCAGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGTGCGCCACCACACCCGGCTAATTTTTTTTGTATTTTTA
GTAGAGATGGGGTTTCACCATGTTAGCCAGGCTGGTCTTGAACTCCTGACCTCARGCAATCCACCCRCCTCGACCTCCCAAAGTGCTGGGATTACAGTGA
GCCACCTCGCCCAGCCTCTTTTTTTTTTTTTTTTATGACATAGGGTCTTGCTCTGTCACCCAGGCTGAAGTGCAGTGGCATAATCATGGCACACTGCAGC
CTCGACCTCCTGGGCTCGAGCGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGAGTACAGGGTAAGCCACCATGGYCAGCCTGCCCTGCTTCTTTATTA
GTGGTGGGCAGAGACTCTGTCATTTGTCTCTAGTAGGCACTCAGCAATGTTGTGGAATGAATGAATGGGTGGATGGAACAAGTGCTTTTTTCTCCATGAA
CGACTCAAAAGGAAGGTGAGGAAGGATCTTTCTGCAGTGTCTCATCTCTGTCCCACCCCTGCCTCCACCATCCAAGCTGGCCAGAGGAAGGTTTCTCTTG
CCTCTGAATCTCTCCAGAAACCATAAGCTGCCATCCCCCAATTTCCCAGAGGGCCCTTACTCCTCTCTCTCACCCTTCCCAGTGCTAACAATAGAGATAC
GAGTCTGCAAGTCAAGCCGGTTTCATGATCTAGACACCACCTCAAGATGTCAAGATGTTTCTCACATCTGATTAAAATGACTCAGCCAACTACCCCTCCT
TGAAACCCCTTCCCTCCTCCGTCTCCCATCCTCCCTGCTAAGAGACCACATGAGTGGTGCTCTAACACCACCCTTACTGACTCTTTTCCCAGGTTTCACA
CTCTTGATGAACTGCAGACTGTCCGCCTGGACCGGGAGGGGATTACTACTATCAGGAACTTAGAAGGCCTCCAGAATCTTCACAGTCTCTATCTGCAAGG
GGTAACTTCTTTCTCCACCCTTCCCCTCCCCTTGACCCCTGTGGACCTAATCTGTCTCATCTGAAAGGAGCCAACCAGGTCATCCTGCCCATTCCCTGGT
GTTCAGGCAGGCAGACCTTCATTTAAACCATTCCCAGACGAATGACATAGGGYCCTGAATTGAAAAACTAATTCCCTCAAAATAGATCCTGAACATGACC
TGTGCTCCTTCCACTGTTCTTTAGGCACTTCTCTTGATCTAGAAGTTCTTTTTGGCATCTACTCTAAATCTTTCACGTTAAATAGCTCCAGCCCATTTCC
TGTTTTGAAGAAGAGGAAACTATGAAGATTCCTGTACATCATTCAGATCCTACTTGAAGGCTGTTTGGTGGTGGTGGTGGTGGTTGGTTGATCTTCAGCC
TTCTCCTGGTTGAGTATTCCCAGCTCGCTTCAACTTTCCCCATAGAAACTTTAACCGTCAAGTTCCTGTATGCTCATTGTTCTCTCTGTGTATGCAAGCC
ACCACCAAGGCCCTTTCCGTTTTCCTGGTGGCTTCTTAGTTTCCTTTTCTGATTCCCAGGTCACTCTTTGGTTGTGGAATCAGAAGAGTATACGTAGTCA
GGTTTAGATACCCCAGGTTTACACCCTTAACCATCCACATGGGGAAAGAAAATCATCTTTCTTAAGGTAGTGGCAACCTGTTCAAGGAGTGGGGTGATCA
TTCCCAAAGTGCCAGATCTCCAGCTGCAGAGTAGACATGGTCTTGGGGCTTTGTCCCCGTAAAGGGCCCCTGACGCATCTGATCTCAGCTTGGTTTCYCC
ACTTCGGTTTCTTCTTGCAGAATAAGATCCAGCAAATTGAGAACCTGGCTTGCATCCCCTCCTTGCGGTATGTGGTGCCAGGGCTCAGGCAGGGGAAGAG
RGGTTGGGGGAACCTAGCCATATCCCAAAGAACTGGTTCAGATTTCTCCAAGCCTGGGTCCTTGTCAGTCAAGGACCAGCAAGCCTAGATCTACTCCCTC
ACCCCAGAAGGCCATGTGTCCCCACTGGTCATCAGCTGCCTAGCCCAGGGGCCCCGGTGTCAGGTGCCCTCCTCTTTTCTTCCAGCTGTTCCATGATTCA
GCTCTGCCTCTGTACCCCTTCCTTCCCCTACAGCTTCCTGTCTCTGGCAGGAAACCAAATCAGGCAGGTGGAAAACCTCCTCGACCTCCCATGCCTCCAG
TTTCTGGACCTTTCTGAGAACCTGATAGAAACATTGAAGCTGGGTAGGAACCCACTCGCCCTGGCTCACCAAACACATCCCCTGTGGGGCCTGCCCTCCC
CTCTGCACCCATCTGCCCATGCTTCTATTAGCCATGCCCCTGCAGGTCCACATTTCATCCTCAGGGAGTTCAAGGGGTTGTGCCTAGAGGTACTGGCTTT
GGACTAGAAAGTGGGTATGAGAACCCCATTCCCATCGCTTCATGGTCTTTTGGCTAAGATCAAGTGAGAACCCCATTTCCTCTCTCTTTGCTGTGTGCAG
ATGAGTTCCCCCAGAGCCTTCTCATCCTCAACCTGTCTGGAAACAGCTGCACCAACCAGGATGGCTACCGGTAAGGAGTGGAGGGTGGGAAGAAAGGTCA
TGGCTGAGCTCTACCTGCTAACTCAGCCCAGACCCCTCTCAGCCTGCAAACCTGGGGTCCTGTCCATGACACCTTCTCCCCCACCTCCTACCTAGCTCAT
GAGCCACCACCCCTCCGGGTGTGAGTGCTGTGGTGCGTGTCTTTGCATCCTCCAYGCCAGGGTGCCCTCCTGGGTAACCTCTGCTCCTTCTGCTCTGCAG
CGAGCTGGTGACAGAAGCCCTGCCACTTCTCCTGGACCTGGACGGGCAGCCTGTGGTGGAGCGCTGGATTTCGGATGAGGAGGATGAAGCCTCAAGCGAT
GAGGAGTTCCCAGAGCTGAGTGGCCCATTCTGCTCAGAACGAGGTGACMCTGCTTTCCAAGGTTTTCAGCCTCCCCAGAGCCCACCTCTGCCCTGTGGGA
CATGAGGGAAGCTAAGGTGGCAGTGGCRTCCGGGGAGGGGAGCCCCAAGTTCAGATCAACATCTGGGCCAGAGCCAGGTGTCAGTCCTGGGCCCCAGCCT
CAGGCTCCTTCCCACAAGRGACAAGGGGCCAGCCAGAGACTTCCCTGAGCCCAGGGACCCTCCTGCTGAGCCCAGGGCTCCACCCACCCTGTACCCTCCA
CCCCCGGCCCCTCCCAGGCTTCCTCAAGGAGCTGGAGCAGGAGCTGAGCAGGCACAGGGAGCACCGGCAACAGACGGCCCTGACAGAGCACCTGCTGAGG
ATGGAGATGCAGCCCACCCTCACCGACCTGCCCCTGCTACCTGGGGTGCCCATGGCTGGGGACAGCAGCCCTTCTGCCACTCCTGCGCAAGGGGAGGAGA
CAGTCCCTGAGGCCGTCTCCTCACCCCAGGCCTCCTCTCCCACCAAGAAACCATGCAGTCTGATTCCCAGGGGCCACCAAAGCTCTTTCTGGGGAAGGAA
GGGGGCACGAGCAGCCACAGCCCCCAAGGCCTCTGTGGCTGAGGCCCCCAGCACAACCAAAACTACGGCCAAGAGAAGCAAGAAATGATTCTCTGTCAAC
CTTTCTCTACTAGTGGAGAGGAGTGGGGCCTGCCCCTCTTCTCAGACCTCTGACCTGTGACAGAAGCCCATCCCCAGTAAAGTGTCTCTAGGCCCTGAGT
ATGCTTTTCATGTCACTTGGGGTATCTCAGGGGAAGAAACCAGTGAAAGCTCCAGGAAACAAAATACAGAGCTCAGTGAGCCACCTGATTCTAAAGAGCG
AGTCTGGAATCTTTCGGGAGCTACCCACAGGGCAGGCATGCCTCAGGCCCCCGCTGGCTTCCTGGCTCCCACTTGGGCAGGAAGCGGGCACCACCTCATG
GAAGAGGCATGCCATCTCACTGCCACCCCTAGCGAGTGCCCTTCCCCGGTCCAAGCCAAGGACCAAGGAGCTGTGGTCCTAGTCATCCCCAACAGCAGCC
AGCTCCTGTCCCCTCCCTGTCCTCCTGCCCAGTCCCCATCACTCACCCACTCATAGGAATGAGTACACAACCACAGGCCCCGCAGCCAGCCCACAGCTGC
CTTTGGGCCTCACTTGGCTCTCCCACCCCCACTGGTCCTGGGATAAAGTTCACTGAAGAGAAAATAAAGCACATTTATTAAGGCAAAGGCCAAGCTGGCC
GCTCAGAACATGGCCAAGGAGCGTGAAGGGATTGCTCCACTTTACCACCACTCAGGGCACCCAGGCCCCAGGGGTCCTGGGTCCACCCCAGGCCAGCAGA
AGCTATGAAGCTTACGCATAAGCCTGGCTCTCCCTCTTCACGAAGGCCTGGAAGAGGCTGCCCAGCTCCCAGAGGGGTGGGGCCCACTCGCCGGCCAGCA
GCCCCTGTGTGGCCTCGAGGCCTTCCTGCTCCAGATCCTGCTGTTTCTGCTGGAGCTGCTGCCCCCGATCCTGCCCCAAGGGAAAGCTGAGATGAGTCTG
TCCGGGACAGGCTTCCCGCCAGGTGAAGGGGGGACTGTGTACCACCTCACACAAGCAGGAGAAAGGAGATACCCCCCGACATTCCCCAAAGGCAGTTGCT
GGCTTTGAAGGGAGGAACTCCTCTCCCCAGCTCTGAAATCTCTTCCACTCCCTAGTTCCTTCATATTTCCAGAGTCCCACTGGGAGTGGGGGAGGTCTAT
CATCCCCTCAAGGTAGCCCCTACTCCCTGGGGGATACCTGATCTCTCTCCATCAGCCCCAGGGCTGCCTGGTGTCCACGGTAGAGGGTATGCCGACGATC
TACCTGAGTCTGGAATCGGGGCAGGGTCCGAACAGGGTCTTGTGCTCCAAAAGTGGGGGACAGCACCTGGGGGGCCTGGGCCACCCCCACCCCGAAGATG
AAAGGTTTGAACACAGACCTAGAGGGGCACAGATGGAAGCACGGAGATATATCAGATCCTCTCTTCTCCCCAGCCTTCCCCACCCTCATTCTTCCCACCT
GGATGGGTCTGGCGTGGCGGTAAGAAAGTGCACGCAGGGCTGCGTGGGATCCTGGGGCAGGACAGACACCATGCTGGCCGTGGTGCGAAAGCCTCCCGAG
TCCATACAGATACCACTCTCCTTGTCTCTGAGGATGCCCATCATCACCTCTGCCGTGATGCCCCCTGCCAAGGAGTAGAGGGGGAAGCTGTGGGAGGGGA
GAGTGGCTGGCACTGCTGTGGCCCTCCTGGCCCCCAGCCCCCTCCACCGTTCACTAACCTTGCCGTTGCCGCAGCAGCTCCCGCCCTGCCTGGAAGCGGG
CCTTGGCAGCCTCCATGCGCACAGGCTGCTGGGTCAGGGAGAAGATCTGAGCAAAGTCAAAGGCACCCTGCCCATCCCACCAGCCCTTGGCCTGGGCATG
AGTCCGCAGCTCCGGGTGTTGGGCCGAGATGTCCGTGCCAATGCTCAGCTGGTTGGAGATGTTGCGGGCCCCCTCTGTGGAGGAGATCGGGGAGTGGTTC
ATTTACCATTGAGCATCTATTCTATGCCAGGCACTGGGCGAGGTGCTGAGAACATGGTGGAGAAGAGAACTACCTACCCTCATGGAGCCTACGTTTTGGT
GGGGGAGGCAGACAAAATAATCACAGAGATAAATGTAAGCATGCAACTGTGTTGAATGCGATGAAAAAGAAGTACCTGCTTGCATATAAGCAGGAAACCT
GACCACCCAGGGAAGTCCAGGAAGGCTTCCCAGAGGAAGCAACAGGCTGTAGCACACGGAAGACTTAACCAAGTGAAGGGGAGGAGAATTCCCAAGTGGG
CTCATCTCCCATCTCCCTGGATGTCCCGACAGGCTTGCACCTGGATCGGGCCCCTCCCTGCCCCTACCATCTCTCCCACTTCCCAAAGCTGGGAGAAAGG
GAACACCTCACCCTGGATCCTCTGTGCAGCCCAGAGCCTCCCAGCTGTCTCCAGCACCCACGCCTCAGTGCGGTCAGCCAGCAGGAAGGTGCTATGGTAG
GAGAATGGCGCAGCATCCTCCAGGCAGTTGCCCCCCTGCCCATAGTGCTCCAGTAACCCTGTGATCACATGCAAGGCCTCCTGGGCAGAGCTGCTCCGTT
CCAAAGCCAGCCTGGCAAAAGAGAGGGCCAAGGGACAGAAGGGTGACAGAGGGATCAATGGCTGGTGGCAGAAGCTCCAGGGGACAGAAGAGGCCCGGAG
AGGTTTGGTGATAGGCCCAAGTCACACAGCAAATCTGCTGGCACTGATCGTATCAAATGCAATTATGCCAGTGGCTTTCAATGCTCTGGTTCCATGTGCT
ATGCTTTGAGGGTTCCATGAAAAGGCCTGAAACACAGTTTCAGAGAGAGAAGTGTCCTGAGCCCCTAACCTCTCTCCACCCAGAGCTGCTCCATCCACTA
TTACTGGTTTTATAAATTGGGACTCTATGTAAGATTTCAACTGAAAATAAATAAATAACCACTGCTCTATTTCTGGGCCAGGAGAGGCCCAAAGGTGGCT
GCTGCTGCAGCCTTCTTCACGAAGGCACAAGGGCAAAGTCTGCAGAGAGGAGGAGGCCCCTGTGAACCAGGCTGGGGGAGGGATGGATGGGCCCAGGTCA
AAACTCAGCCCCTAGATTTCTGGTGTGTCAGGCAGATGAGGAAGGGCAGGGTCTGCACCTGAGTAGGTCCATGCCCAGCAGGGCTTCCCCCTCCCCAACT
GGCTCCTTCGTCCACACAGCCTCGTTGCCAATGCAGACACCATGCTCGTTGGCGCCCATCTCAGCCCCCCATAGCCAAGAAGGACGGCTCAGAATCACAG
CGTGCGTCTTCGACACCTGTTCCACTTCAATGTAGGTGCACTGGAGGTGAGGGAGGAGAAAGGAAGCGTCCACTCATAGAGGGGCGGCCCCTCGAGTGTG
GCACTCTGCCAATTACCTTATAGATCCCTTTGAGGAAGGTCTCATTCCCATTTTACAGAAGAGGAAACTGAGGTAGACTGAGGCTACATAATGAGCTCAG
GTCCAGGTTGGTAGACCTAAAGCTCATGCTCTTCCACTACTTCTGGCAGCCTCCCAGGTGTGGGGAGCAGGGAAGAAGGTCTTAAAAGAATGCAGAGATC
TGCCACACCTCCCAGCACCCCATAAAGTCTAACCCACCTGGAGCCGGCTCCCAGGAGTGTGAGTGCCTGCGGGGACAAACACCACCTCCTGCACCTCGTC
CCGGGGTCGGTCCGAGTTCTTGGCAAAGATCACAGCCGGGATGGCTGAGGCCGGGGGCACGGAGACAAAGCAGTCGCAGGAACATGGGGAGTCAGGGCTC
GACGACGCCATCTGGGGAGAGGCGGGCCTCTCCATAACCCTGGCCACGGCTCAGCCCCGAGGAGCAGCCTACCCCCACACGTGTAAAAGACGCGCAAGGA
AGACACCGCCGTGGCTCCTGGACGCTCGGCGCACACACCATGGACGGGTGTGCGGGAACGGAGGTGCCCACCCTCTCCCCAGGCTCCAGGCTTGGGAGTC
CGCAGGCGGGCACTCCGGGGGTCCCGCCCCCACTGGGAGTCCCGGCCCTTCGGAGCAGTCGTGGGACCGTCCCCCTCGCTACCCCACCAAGAGTCCTGCG
GCCCTGCGCATGCCCAGATACCCGACCCTCTTCTGTCCAACCCTTCTCTCACCCCCAGTACTGTATTCCCCTCACCCTCTCTTCCTCCAAGACCCCAGCT
CGGTCCCGGGTGCCACCTCCTCCGCTTCTGGCCAGGGCCGCCCCATTGGGCGGAGACTCTCAGGTGACCTGGAAGGCCTTCGGCCTCGGGGTCGGAGCCG
GAACGGAGCCTGCAGCTCCGCCGTTTTCCACCAGGGCGCGCGCCTGCACCACTTCCCGGAGCAGAGCGGCCTTGCGAGTCCCACCTGGCTCCCTGTCCTA
CCCAGGCGCCCATTTGAGGCCTGACAAAGGCTGCTAACCCCACGGAGTCACTGCGGGGAGCTGGAGCTGGGGGTGGAAAGGATCCCGCGTGAAAAGGGAG
ACTTTGTCAGAGAAAGGGGACTGCTGGGACATCTGGAGATTAAGGAAGAACCTCAGATACTTGAGTCCTGGTTTGAATCCCAGAGGCGCAATCCCAGGCT
GGAGGCGCCTAGGGGAATAAGATACAGAATACGAGAGTGGTGGAGGCTGGGTGCGGGGGGCTCGCACCTGTAATCCCAGCACTCTGGGAGGCGGTGGTGG
GAGGATCACTTGAACCCAGGAGTTCAACACCAGCCTGGGTAACACAGCAAGACCTCGCCTCTACAGAAAATATTTTAAAATTAGCTGGGCGTGGTGGTGC
GTGCCTCTAGTCCCAGCTGCTCTGAAGGCTGAGGTGGGAGGATCTCTTGAGCCAGAGAGATTGAGGCTGCAGTGAGCCAAGATCACACCGCGGTACTCCA
GCCGCGGTGACAGAGCAAGACCCTGTCTCTTAAAATAAATAAATAAGGGAAAGTGTGCACAAAACCCATCTGATCCCAGAGGACCTATCTGTCTGATAGT
GCTCAAACCCATAGGAAGATCGCTTTAAAGGGAAATTTAGAACTTTCTAGTTCAAAGATTTGGTGCCTTTACCTGTAGTGAAACTGAAACCACAAAGAAG
TCTTGGCCAAAGGTGACACACAGTCATGTGGAGGTACACTCTGATCCCAAATGTTTTGATTTTCAGTTCATTTTTCTCTACAAACCATCTCTCCATAGCC
ATCATTAAGACAAATGCATCTTACACCCTTTTGCTCTGTGGAGCCCTCCAGAATGGAGAGAGGGGAGATGCTGCAGGTTATCTGCTTCTAGGGGTTGCAC
TGAATCTATAGATGGCTTTGAGTAGTATGCACATTTTAGCAATAGTAATTCTTCCAATCCGTGAGCATGAAATATCTTTCCATGTCTTTGTGTCTTCTTC
AGTTTCTTTCATCAATATCTTATTTTCAGAGTACAGATCTTTCACCTCTTTGGTTAAATTTATTCCTAAACATTTTATTATTTTGGTAGCTATTGTAAAT
GGGACTATTTTCTTGATTTCTTTTTTGTATAGTTTGTTATTAGTGTATAGGAACACTATTGACTTTTGTACATTGACCTTGTATCCTCTGACTTTACTGT
ATTTGCTTAACAATTCTAACAGTGGGCCGGGTGTGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGTGGGCGGATCCCCTGAGGTTGGGA
GTTCAAGACCAGCCTGGCTCACGTGGAGAAACCCCATCTGTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCACATGCCTGCAATCCCAGCTACTTGG
GAAGACTGAGGCAGGAGAATCGATTGAACCTGGGAGGCGGAGGTTGCGGTGAGCTGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACT
CCGTCTCAAAAAAAAAAAAAAGAAAGAAAGAAAGAAAGAAAACAATTCTAACAGTGTTTTAGTGGAGTTTGGCCTTCTTTCAAGCCTACTGTGCTAGGGT
GCTGGCGGTCAGTCATGCTAGGATTAATGGGAAGGTGAAGGCTGTTTCTGATACAGTGTCGGGGAGGGATTGTGAGGTTGCCAATTAATGTCATTCCAGA
AGCAAACATCGAAGCTGCGTGCTGAGAAATCTGGGCACCTGAAGCAGCTTGCAGGAAGGCGGGTTCATCTCCTGCAGTTTCCCGGCTTCCCACTGTGGGG
CGGAAACAGGCAGGAGGAGAGGCAGAGAGAGGCCACAGCGCACCCCCAGGTTGCAGTTTCCAGGCTGTCTTCTTCTCTGTCACTTTCTCAT


SNP Information

Context             (SEQ ID NO:65078):
GGTCTTGAACTCCTGACCTCAGGCAATCCACCCACCTCGACCTCCCAAAGTGCTGGGATTACAGTGAGCCACCTCGCCCAGCCTCTTTTTTTTTTTTTTT
T
ATGACATAGGGTCTTGCTCTGTCACCCAGGCTGAAGTGCAGTGGCATAATCATGGCACACTGCAGCCTCGACCTCCTGGGCTCGAGCGATCCTCCTGCCT
Celera SNP ID:            hCV11626438
SNP Position Genomic:     8134
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65079):
CTCCTTTCTCAACCATTCCTGCCCACAACACCCCAGCTTGCTGCCAGCAAAGCCCCTCCACACCCCTCAAACTCCAGACCCTTCACATCAATTTACTGTT
K
TCTTCGACCTCACCCCAGCAATTTTCTCTGAATCAACCCCCTTTCCTCCTCTCCTAAGTCTCTGAGTTTCTCTCTCCTCCTGCCATCCTGAGTTCTGCCA
Celera SNP ID:            hCV15885195
SNP Position Genomic:     6185
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,30)   caucasian(G,13|T,23)   total(G,15|T,53)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,6)   caucasian(G,13|T,21)   total(G,15|T,27)   
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,7|T,1490)   total(G,7|T,1490) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:65080):
TTCTGCTCAGAACGAGGTGACCCTGCTTTCCAAGGTTTTCAGCCTCCCCAGAGCCCACCTCTGCCCTGTGGGACATGAGGGAAGCTAAGGTGGCAGTGGC
R
TCCGGGGAGGGGAGCCCCAAGTTCAGATCAACATCTGGGCCAGAGCCAGGTGTCAGTCCTGGGCCCCAGCCTCAGGCTCCTTCCCACAAGGGACAAGGGG
Celera SNP ID:            hCV15983650
SNP Position Genomic:     10928
SNP Source:               Applera
Population(Allele,Count): african american(G,4)   caucasian(A,1|G,29)   total(A,1|G,33)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65081):
GGCAGTGGCGTCCGGGGAGGGGAGCCCCAAGTTCAGATCAACATCTGGGCCAGAGCCAGGTGTCAGTCCTGGGCCCCAGCCTCAGGCTCCTTCCCACAAG
R
GACAAGGGGCCAGCCAGAGACTTCCCTGAGCCCAGGGACCCTCCTGCTGAGCCCAGGGCTCCACCCACCCTGTACCCTCCACCCCCGGCCCCTCCCAGGC
Celera SNP ID:            hCV25923139
SNP Position Genomic:     11019
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,1|G,27)   total(A,1|G,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:65082):
CCACCACACCCGGCTAATTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGCTGGTCTTGAACTCCTGACCTCAGGCAATCCACCC
R
CCTCGACCTCCCAAAGTGCTGGGATTACAGTGAGCCACCTCGCCCAGCCTCTTTTTTTTTTTTTTTTATGACATAGGGTCTTGCTCTGTCACCCAGGCTG
Celera SNP ID:            hCV27268435
SNP Position Genomic:     8067
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65083):
TACAGGTGTGCGCCACCACACCCGGCTAATTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGCTGGTCTTGAACTCCTGACCTCA
R
GCAATCCACCCACCTCGACCTCCCAAAGTGCTGGGATTACAGTGAGCCACCTCGCCCAGCCTCTTTTTTTTTTTTTTTTATGACATAGGGTCTTGCTCTG
Celera SNP ID:            hCV27268436
SNP Position Genomic:     8055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65084):
TGTCTCATCTGAAAGGAGCCAACCAGGTCATCCTGCCCATTCCCTGGTGTTCAGGCAGGCAGACCTTCATTTAAACCATTCCCAGACGAATGACATAGGG
Y
CCTGAATTGAAAAACTAATTCCCTCAAAATAGATCCTGAACATGACCTGTGCTCCTTCCACTGTTCTTTAGGCACTTCTCTTGATCTAGAAGTTCTTTTT
Celera SNP ID:            hCV25923262
SNP Position Genomic:     9053
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,9)   caucasian(C,6|T,22)   total(C,7|T,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:65085):
GCCTGTGGTGGAGCGCTGGATTTCGGATGAGGAGGATGAAGCCTCAAGCGATGAGGAGTTCCCAGAGCTGAGTGGCCCATTCTGCTCAGAACGAGGTGAC
M
CTGCTTTCCAAGGTTTTCAGCCTCCCCAGAGCCCACCTCTGCCCTGTGGGACATGAGGGAAGCTAAGGTGGCAGTGGCGTCCGGGGAGGGGAGCCCCAAG
Celera SNP ID:            hCV25923093
SNP Position Genomic:     10849
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(A,5|C,29)   total(A,5|C,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:65086):
ACTTCGGTTTCTTCTTGCAGAATAAGATCCAGCAAATTGAGAACCTGGCTTGCATCCCCTCCTTGCGGTATGTGGTGCCAGGGCTCAGGCAGGGGAAGAG
R
GGTTGGGGGAACCTAGCCATATCCCAAAGAACTGGTTCAGATTTCTCCAAGCCTGGGTCCTTGTCAGTCAAGGACCAGCAAGCCTAGATCTACTCCCTCA
Celera SNP ID:            hCV25923337
SNP Position Genomic:     9801
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,9)   caucasian(G,38)   total(A,1|G,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:65087):
GGGTCCTGTCCATGACACCTTCTCCCCCACCTCCTACCTAGCTCATGAGCCACCACCCCTCCGGGTGTGAGTGCTGTGGTGCGTGTCTTTGCATCCTCCA
Y
GCCAGGGTGCCCTCCTGGGTAACCTCTGCTCCTTCTGCTCTGCAGCGAGCTGGTGACAGAAGCCCTGCCACTTCTCCTGGACCTGGACGGGCAGCCTGTG
Celera SNP ID:            hCV2960542
SNP Position Genomic:     10655
SNP Source:               Applera
Population(Allele,Count): african american(C,6)   caucasian(C,36|T,2)   total(C,42|T,2)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65088):
TGAATCAACCCCCTTTCCTCCTCTCCTAAGTCTCTGAGTTTCTCTCTCCTCCTGCCATCCTGAGTTCTGCCATCCTTAGGGGCCGCCAAGACCTCTCTTT
T
CGTTCCTCTCCCGCCTCAGACCAGCAGCCTTTTATTTTAGATCATGTCTGGAGGTGAGTAGGGAGGTGGGACGGTGGGTAGAGCAGTTGGAAAACAGCGG
Celera SNP ID:            hCV11626441
SNP Position Genomic:     6314
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:65089):
TCATTCCCAAAGTGCCAGATCTCCAGCTGCAGAGTAGACATGGTCTTGGGGCTTTGTCCCCGTAAAGGGCCCCTGACGCATCTGATCTCAGCTTGGTTTC
Y
CCACTTCGGTTTCTTCTTGCAGAATAAGATCCAGCAAATTGAGAACCTGGCTTGCATCCCCTCCTTGCGGTATGTGGTGCCAGGGCTCAGGCAGGGGAAG
Celera SNP ID:            hCV25923035
SNP Position Genomic:     9698
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,2)   caucasian(C,23|T,15)   total(C,31|T,17)
SNP Type:                 INTRON


Context             (SEQ ID NO:65090):
GGCATAATCATGGCACACTGCAGCCTCGACCTCCTGGGCTCGAGCGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGAGTACAGGGTAAGCCACCATGG
Y
CAGCCTGCCCTGCTTCTTTATTAGTGGTGGGCAGAGACTCTGTCATTTGTCTCTAGTAGGCACTCAGCAATGTTGTGGAATGAATGAATGGGTGGATGGA
Celera SNP ID:            hCV11419027
SNP Position Genomic:     8277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 408
Celera Gene:                 hCG29641 - 102000094664419
Gene Symbol:                 EPN3
Protein Name:                epsin 3;FLJ20778
Celera Genomic Axis:         GA_x5YUV32W3KM(12245282..12267632)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12568):
TTTGTATTTTTGTAGAGACGGGGTTTCGCTATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGTG
TTACAGGCGTGAGCCACCACGCCAGGCCAATTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAAGCTGGTCTCGAACACCTGACCTCAGGT
GATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGTGCCCAGCTGGGTTACCTGTTTTTGTCTGGGGTGCCCAAGCTGCTAT
ATTCCAGGAGGGGGGCCTACTCTCTGACCCTGGCAAATCTTGGAGAAGGGGTTCATAGGTACAGATTTCTGAGGGGGGTCCCTGGCTCCCACCAAAGGCA
CCCAGACAGCTCTCCATAGCTGCATCCCCTCCTGGTTCCTGGTCCCCTGCCACCCATCCCCACATCACCATGCCCTTCACTAGAGGACACAGCCTTGGTG
TCCTGGTGCAGAATGGTGCCCATGACCCTGCCAGGCAGTGATGGTGCTCCCTGATGAGAACCACAGAGAGGATGCGTTGATGAGGCTCAACAAAGCAGCC
CTGGAGCTGTGCCAGAAGCCAAGGCCATTGCAGTCCAACCTCCTGCACCAGATGTGGTAGGTGCCCTGCCAGGAGAGCTGCCCCATCTCCTTCCCTTTGT
GGCATCTGCAGGGGTCCTGGGCAGGCAGTCCTGGGACTCCAGGGGTCTGAGCTTCCGTTGAGCTCAGGTTGCTAGAGCATGCCGCAAACATTCCACGTTC
TGGAACCCTGCAGTGCCTACTGCTCACTGGAGAGCAGTCACAGCAGATCAAACACCTTATCTTTTTTTTCTTCCCCTTTTTGCCTTGTTCCTTCTCAGTG
AGCAGGGGAATGGAAAAAGGAGAAGCCAGAGGGCAGGAAGAAGAGGGGGGGCAGATTCCAATAAAAGCTTCATTTCTCTGTTGTCACCCTCCCCTGTACC
TGTTTGGAACTTGCTTGTATAGGCGTGGGGTCCTTTTCAAGGCCCTCAGGACAAGCCCCAGGAGCCTTATGCTGGAAGTCTCATGCAAGGTTCAGCCCCT
CCAGTGCGACTGGACCCAAGTCTGGCCCTGGCCTCAAGCCCTCTGAAGTAGGACTGAATTCATGCAGGCCTCGTAACCCTAGTCCTGGGCCATTTTTTTC
TTGGTTGCCACCCAAGGCAAGCCAGAACCCCCTCCAAGCACTTGCCCTGGCGGGGAACAGTGAGGATGCTGGCTGTTCAGGGGTGTGGCATTTCCACAGC
AGCTCATGGCACCAGGGTCTTTGAAGGGAGGGACCCAAGCCTCTGCAGGTTCAAGGACAAATGAGGAGTGATGGCATTTCTCCACTGTGTCTTGCCCTCT
AGTTTGCAGCTGTGGCGAGATGTGATTGACAGCCTGGTGGGCCATTCCATGTGGCTGAGGTCTGTGCTGGGCCTGCCTGAGAAGGAGACCATCTATTTGA
ATGTGCCTGAAGAGCAAGGTCAGATCTTGTGCAACCAACCACACCTCTGCATAGCCCTCCTCATCTCTCTGAATGGACAAGCAGCAGTGCCTGGGCCAGT
CATACTCCTTTGGTGGAAGCTCTGCTAGGTTGAGCCCATGGAGTAGGCCCCTTACCCCTTTCTGTCGGCTGCCAGGATGTGGTACCCAGAAGCTACCTTA
GTGACCACCTTGCTTTAGTAATCCCAGCAAAGTTAAATGACTTATCCATGGCCATTCATGGCATGGCAGAGCTGGGACCAGAACATAGGCACCACAGTCC
TGTTTCATGAAGCCACGCGCCTACCAGGGCTCAAGGCTATTGCCCTTTGCTTTTCCACCTCCCCTCAAGCCTCCTCACGTACCTGCAGCATCCACTAGGC
TGTTGGGGGCCTGCCATATTTTCTTCCACCCACCTCCCTTAGATCAAAAATCACCTCCTATCATGGAAGTGAAGGTACCTGTGGGGAAAGCTGGGAAGGA
GGAGCGGAAAGGAGCAGCCCAGGAAAAGAAGCAACTGGGGATCAAAGACAAAGAAGACAAGAAAGGAGCCAAGCTGCTCGGGAAAGAGGCATGCTGGGGC
GTGGTCTGGGCCAGGTGGGGCTGGGGAGGGGATTGGAGGGGCTGCGGAGGTGGGGGCTGTGGAGGTGGGCATGTGCCCAGGCTCTCCCAGTGAGCTACTA
TTGAGGACATCCTTGGCCTACCTCTGGAGCTCCTGAAGGCTATGTGTGTCTCCCTCCCCCAGCAGGACCGTCCCAACAGCAAGAAGCACAAGGCAAAGGA
TGACAAGAAAGTCATAAAATCTGCAAGTCAGGACAGGTTTTCTTTGGAAGACCCTACCCCTGACATCATCCTCTCTTCTCAAGAACCCATAGACCCCCTG
GTCATGGGGAAATACACCCAGAGGCTGCACAGTGAGGTGAAGGGAAGCGCCCAGCAGCCATTCCCCTGCCTCCCACCTGCCTTATTCATTCCATTCAGTC
TGCAGACAATAAGTGCCCACTCCATCATGGTGGAAGCAGAGCTGCTTCAGGAAGGGCATCCTCGTGTGTGAGACAGGCCTCATGAATAAGGAATGCGCCT
AGCATGTTAGGTGATGAGTACAATGGGAGAGAAGATAGACCAGGCAGGGAATGGAGGCACAGAGGCCTCAGTGAGGAGGTGACAACCCACAAAGATTTGA
AGGGAGGGGAAGGGTGGCCAAGTAGACGTCCAGTAAAGAGTGCTCCAGGCATGGGGAGCAACTGCCATAGGAGGGAGGGGCCAGAAGGGAGAGGGCAGTA
GTGGGGAGCAGGTCATAGGGGTGGGGGATGGTTTGCAGGCTATTGTGAAGACTTGGGATTTTTCGGAGTGAAATGAGAAGTCACGCAAGGTTTTGAATAG
AAACGCAATAGGGTCTGATAGGCTTTAGAAGGTGGCTCTGGCCGCCCTTTGGAGAACAGACTCTAGGGGAACAGAGAGGAAGGAAGCCCTTCTCTTTCTT
ACTCCCCGTTAGGTGCATCCTGGCAGATGCGTTCCTTGGGAGAACACCATGCAGGGTGCATTCCCATCAACTGTAAGAGTTTGAAGGACTAGAGAGACTT
CATCCTAATCCGTTCTTAAGTAGCAGGTCCTTAGAAATTCACCCAGGTTTTCCGTTTTGTTTGTTACTGTTGTTGTTTGTTTTGGAGGGGAGGTCCACAA
AGCCATTTTCAATATGTCAGTATGTCTATTGGCGACGTCTTGCCTTCCTCTAATGTGGATAGCTGGGGAGCTGGGATTACATCATGTATTGTGGTCACAC
TCTGGATCTCATTTGATCAAAAGTTCCATTTGCCACTGGTGACATCACTAAGATATCAGATGGTTGATGGGGTCTAGAAAGTAATTAAAGGGCTCTGAGG
ACCCATGGGGGTCAACGTCAACCCTTCCATGGCTCTTTGATATTAAGAATCAACTTGCAGACCAGGTGCGGTGGCTCGTGCCTGTAATCCCAGCACTTTG
AGAGGCCAAGGTGGGCAGATTGCCTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACATGGTAAGATCCCGTTTCTACTAAAAATTCAAAAAATTAGCCA
GGCATGGTGACACTCACCTGTAGTCCCAGCTACTTGGGTGGCTGAGGCACAATAATCGCTTGAACCCGGGAAGTGGAGGTTGCAGTGAGCCGAGATCACG
CCATTTCACTCCAGCTTGGGTGACAAGAGTGAGACTCTTACCTCCAAAAAAAAAAAAAAAAAAAAAAAAGAATCAACTTGCTGGCCAGTGGCTCACACCT
GTAATCCTAGCACGTTGGAAGGCTGAGGCAGGTGGATTGCTTGAGCCCAGGAGTTCGACATCAGCCTAGACAACACAGGGAGACCCCATCTCTGCAGAAA
AAAAAAAGAATCAACTTGTCTGGGCTTGTATGATCCAACCCCATTGGAGGGGTCAGTCCCAGAGACCTTTCAGTCTGTGGATACAGGAAGGAAAATTGGC
CTCCAGGAGGCCAGAGTAGAACTGGGGCTGAGCCCAGGCCCACCCCAAACGGCTAAATGGGCACCGCTCCATGGGCTCCCTGGAGTTGCCCCTTGAACAA
CTTAGCTCTAGTATCTCCATATGTCAAAGGTACCAGCGCAGGGCCACCTCCCCAGACTGGTTTGAAAAGTAAAACTGCAAAAGCAGGTGGATTGCTTGAG
CCCAGGAGTTCGAGACTAGCCTGGGCAATGTGGTGAAACCCTATCTCTACAAAAAATAGAAAAAAGTAGCCAGGTCTGGTGGTGCACGCCTGTAGTCCCA
GCTACTTGGGAGGCTGAGATGGGAGAATCACCTGAGCCAGGGAAGTCAAGGCTGCAGTGAGCCATGATCACACCACTGGACTCCAGCCTGGGTGACAGAG
TGAGATCCTGTCAAAAAAAAAAAAAAATCTGCAAAACCAAAAATTATTTCACAAGAACTTTGAACTTGTGAAATTCTTTCACAAACAACTGGTTTCTTTC
CCCTCTCCAGCTATTCTCTCACAGCATAGTTCATATATAGGTGCTTCCCACAGAGTAAACTCTGCCTGTGATGTTGTCCCGTTCTTCCAGGTCCGTGGGC
TGCTGGACACCCTGGTGACCGACCTGATGGTCCTGGCTGATGAGCTCAGCCCCATAAAGAATGTCGAGGAGGCTTTGCGCCTCTGCAGGTGACTCTCGGG
CCCAAGCAACCTTCTGGAAAACGGGTTAATAAATAAATCAATAAAGAACCTTCAAGTTTCTACTACTTCCGTGTGCCTCTGTGTCTTGCATGATGGATCT
TGGCTAGGTCAGCTCCTGATCCAGGTCCTCCCATGTTCCACCTGCCCTCAGATTCCCTCCTGCCAGCTGCCAGAGCCCTCCTGCAGGAGGACAGACAGAC
ATAGCTGGGGAAGTGATGTGTGGGATGCCAAGCAGAGGAGCAGGTTGGTAGCAAGACAAGGAGTCAGGTGACAGGACAGTGTGTCACCTCTGGTAGTCCC
TGCCTCTGGCTTCCTTGGCCCACACTTTCAGGGTCGTGCTTCCTGGAGCCAGGTCTTCCCGAAGTGTCATCACCAAGTATGACAAAGTGTGAGATAAGGA
GTAGAACTAGACCCATGGGACCTGGCTCCCTGCCATCTCCCCTCTTCAGCTGGGTCCCAGGGCCCCAATTCAGTCCCTGAAGATCATGCTCACCACACCT
CTTCAGCTCTAGAGGCCACATCACCTTGTTATTTCGGGGTCTAGTCTGCCTTATCCCCCTCCTCATCTCAAACTATCTGGCCTTGAGCCATCTTTCTGCC
TTAAAAACAGCTGCTGATCTTCATGCTACCTCCCTTGCTCAGGGGAACATGAAACAGGCTAGAAATGGCTCTCAGAAAAAAAGGTATTGTCAGCTCAAAC
TCAGGCCCCTCATTGTCTTCTGTCAGTCATAACCATTTGGGGCTGGGCTCCCTGTGTGAACAGCACTCCAGGCTCCCAGAGTTTGAAGAACAACTTTGGT
TTTTGGGTGGGTGGGCATCCTTAAGTGGGCCTCAGGCATCCTCCAGCTGAGATGCAGGAGGGGGAGGATGGACAGAAGGATCTGACTCCGTGTGGGAAAG
GCAGGGAGGGGGCTGTGCTGGAGTCCTGATGCTCTCCTCCCCAAGAAGACGAGAAGACGGGGGCTCCACCAAAGAGCCAGCCCCAGGGAATATCCCTGCC
CTCTCCTTTAATGTCCTCCCGGCCCAGAGGAGGAAGGGGAGGGGTGTGGTGGGGGTGTTGGAGCCCCCCTCCTTTCCTGTTGAAGAGGCAGGGGAAGGGT
TAACTCAAAGCAGAGGGGATCAGGTCGCCAGCACTGGCTCCAGATGTGCACTTCCTGGGGGCGGCCAACAGGCAGGCCCCCCACCTCTCAATGCACCACT
TGCCTGGCCAGCAGGAAGGGGTTAACCTGCCCTGCGCTTCCTCCTGTGTCCTGTTACTGCTGAGGCAGACCTGCCGGGCCAGCTGAGCAACTTTCCTCGG
AGTGCTGCCTGGCGCTGGCTAGGAGGCAAACRCACGCGGGAAGAGCTGCTACCCATTCCAGGRACCCTGCCGCTGCCCCTCTGAGGGGTCTGCACCTCCT
GGGAGCAGGTGGGTCTCTGGGACGAGGGTCCATGGTGGATGGCTCTGGAGACGCTCCCGAGGCTGTGCCGTCCCSCTGCTGCACAGGTCGGAGGGTCACC
GCAGAGGCTACTCGGGCTGGGGCTGGGGCCGAGGGAGCCCGCACTGGAGGTAAGCTTCCTCCYTGGCCCCCTCCCTGGCAGTGGCGGCATGGAAGGCGGG
GGTTGGTGGGGAGCAAACAGTGGTTCTGGGGCTTAGTCTCTTTTCCAGGTGCGAGGGARAAGGCTGAGCTGTAGAGGACCTAAAGGCTTCTTTCCTGCCA
CCCCTCCCTCCCTGCCGCCCCCAAAAAGGGACTCAGGGCCCCCTCCCCAACCATCCTGGGACTTAGCATCTTTGGTGGCATCTTAGCATCTTTGGTGGCA
TTCCCCACAGACTCCTTCTGCACATCTCTGCTGTTTCCTCTTCTTCAGCCCCTCATGCACACCTCTAGCCTCAGGGCAGTCCCCCCTCCCCCATCTTCTG
TGCTCCCGGGATGCAGCTATTACAGTGGCCAGAAGCTTAGAGTTCAAGCTCACCCCCTGTCCCTTACAGCATCAAGAAGGGCACTGTCATTCCCCACTGC
TCAGGCTGGATCTGACTTGGAGGCAGGGGCTGGAGCCCACCTTAGCAGAGGACGGGAAGAGGGTGTGGGCTGGGCTGGTGGGTGCACAGACTTTACGCAA
ACTCATGCACGTGTGACTGGACAGATCTGGGTTCTCTCCRTCTCTCCGAAACCCTTGCTGGGGATGAGCGATCTGCATTTTTCGGTCCTGACTTTTGGGA
AACTCTCCAGATCCCCCCATCCTGCAGGCCCTGAGAAGAGCAGCCCCTCCCTACTGCGCAGTTCTCCTTGGGACCCTGTATGCAGGAGAGAGCTGATACT
CCGTGCCCCGTGGCCCATCCCACCGCCTGCTGGCCCTGCTCCCATCCCCTCAGCTTCCTCCCTCCTCTGCCCTCTCTGTCATCTCTGAATTCTCAGGCCC
TGCCCTCTCTGTGCCCTTCCCTCCACCTGACAGGGTCTGGCTCAAGGTCACTGCAGTAATTCCATACCCAGCTGCCCAGGGCTGCTGCTGCTACCGCCAC
CGCCTTATCGGCCGCTGGGTTTCTGTTACACTCCCTTTTATTTCTGGGCATATCGTGTTCGATAAAACCCTTTGCTTGTAACACTGCTGGCAGCGCTCCC
AGCTGCTCCCTCCCGCGTTCCCGCGTTCCTTCCTTTCCTCCTCCCTTCTCTGCGCTTGGGCAGGCTTCTTCCTTTCCTCCTCCCTTCTCTGCGCTTGGGC
AGGCTTCTTCCTTTCCTCCTCCCTTCTCTGTGCTTGGGCAGCCTCACCTTGTCCCCTCAAACTCCAGAGAAGGAAAATCAAGGTGCCTCCCCATGTTTCT
GGCCCCGCCCTTCCCCCCAGCCCCTGCAGGGGTGTGCAGAGAATGCCCACCTTCTGTGAGAAAGGTCCAGGCAGGGCCGCTGGGCCCACACCGASAGTCC
CCTCCCAGAGGCTGGTGCCCCCACACAGGCCAGGCCGGAGGGCCAGGGCAGCCAGGTCCAGGTAGGGCTCTGGTGCAGTCACAGTGCCCGACTGGTTCTG
CTAGTTCCAGCGGCCAGCCGGTAGGGGCGTGTGCTGGGCGGGCTTTGGTGCACATTATTTCCCATCTTGACTCTGCCACCCCCAGCCACGGGTTGGGGAG
GTGAAGGCAGGTCTGAGTCACTAGCAAGGGGGAGGGCAGGAGTTAAACAAGTTGTGGCCGTGGCATTCCCACAGAAGGCCCACGACCCGCTGGAAGRAAA
GAGATAGCARACAAAAGGTAGGCTGCGCTGTGGGCCAGGCACTCTCCACCTCGCCCACTCCCACGGTATCTTATTCTCTGGGCCCCCAACAAAACCTGCC
AAGGCATGTTTTCAAAGCGTGGGGCTGCTTTGAACTGAGCCCAGCACTGGCGGGGCTGGGGTGGAAGGAGCGTGGAATCGGGTGCGAGAGGACAGTCTCC
TTCAGATTCCTGCTTCTGGCAGCCTGGGGACCAGTTGGGGCACGGGCTGGGATGGAGGGTGGAGCCGAAAGGTGTTTGGTGGGTGGGGGACAGTTCACGG
GTGAAGTGGAGGCTCTGCAGGCCCAGACAGTGTGTGTGTGCATGCACACACCAGTGCTAGTGTGGGAGGAATGGTGGTGGTCAGGGAATTCCTCTTTTGG
TTTCTGAAAGGGCCTTTGGGAGGACCTTGGGCCTGGAGTTGTATTCAGCAGATAGCCTGGACCTGTGGCTACTGGGGGGAATTGGGCTGGCCCAGCTCTT
CTCCCTGCTGGGGTACCAGAGGTCCACTATGTGTCCAGCGTTTTGGGGCTTTGGAGAACCCAGACTGTTCCTACTCTCAGGGAGCTTCCATTCTAGCTGA
GAAGGTGGGACTGAGACAGTAAAGCAATCCGATGAAATAATGACCAAACTGGGTAACACTGACAATAAGAATTGGATTAGTCTTCTGGAGTCCTGGATGG
TAGTCCAGGCTCTGCCACTTACGTGCCATATGATGCAGGCAGGTCCCATCCCCTCTCTGGCCTCAACACTTCCATGTGTACGTGGGGGTGGCATGCAGGA
GTGTTGGCAGTGGCCAGAACTCTGAGGGGCAGTCTTCCTCAAACGATACTTGCTCTCTTGCCTTCTGGCCCAGGTCATAGCATTTCTTCTGAGCCGCCCT
CCCCTGACTTGCTGGTTCACTCCTCCTTACTCTTCCCTTGTGATCTTGGATCTCAGCTCTGYCACCACCTCCTCTAGGAAGTCTCCCCTGATTTTCCTGG
CTTGGGTCTTCCTGTGCGGCTCTGCACTCCCACACTGGACTGTGATTTTCTGTACCCTCTCAACTGAACGTGGGTGGACCAAGGCGTGTGTTCTGTGCCT
GGCATGGTGCCTGGCTCAGAAAAGGCCTCCGGGAAATAGGTGTTGAATGCATCAAACTACAAAAATTAACAATATGAGAAAAGTGAGCTGAGGAGCTAGG
AAGGATAGGTCTTAAGCTAGATCTCAGCAGAAACAGAGGCAGTGGCCGAGCAGAAGCAAGGCAAGCGGGCATTCCTGGAATCCTGTTAGCGTTCCCCCAT
GAGGCCATGCACTCTTAGGTGGGGCTTCCTGGGGTCATCTTGGTTCCCCATGCAGCAGCTCTGTGATCTCGGACAAGTCACTTAATATTACAGGGTCTCG
CTCTGTTGCCCAGTGGCCTGACCATGGCTCACTGCAGCCTCCAACTACTGGCCTCAAGTGATCCTCTTGCCTTGGCCTCCTGAAGTCCTGGAATTACAGG
CGTGAGCCACTGCACCGGGCCCATTTAATACTCTGAGCCCCACCTTTCCCATCTGTGGATGGAGGTAATGATAATAGCATCTTTGGGGTGTGGCTGTGAA
GATAGATAGATGAGCATGCAAAGCTCCAAGTGCCTGCTGAATTGTAAGTGAAATAAGAACGTGTGCCGCTGAAGGCTGTCCCTGGAGGCAGGGACACTCT
GGCCAGGCCTCATTTAGTTGGTCAGTGGCTGAGTGACCCATGAGGTAGGCCTCTGCCCCTGAGTTCCTGGCCCTCTCTTCCTCAGCCCCATGTGGAACCC
AAGGATGCAGCTGCTCTGCTAACACGGCAGCCCATCCTTCRAGACTGTGACCTCGCCACAGTGGCCCTCAGCCCTCCACCTCCGGCGGGGGCGAGGGCCA
CCCACCTCCAAGTCTCCAGCCATGACGACCTCCGCACTCCGGCGCCAGGTGAAGAACATCGTGCACAACTACTCCGAGGCAGAAATCAAGGTGCGCGAGG
CCACCAGCAATGACCCCTGGGGCCCCCCTAGTTCGCTCATGTCCGAGATCGCTGACCTGACCTTCAACACAGTGGCCTTCACCGAAGTCATGGGCATGCT
GTGGCGGCGGCTCAATGACAGCGGCAAGAACTGGCGGCACGTGTACAAGGCTCTAACATTGCTGGACTACCTGCTCAAGACGGGCTCCGAGCGGGTGGCC
CACCAGTGCCGCGAGAACCTCTACACCATCCAGACACTCAAGGACTTCCAGTACATCGACCGCGACGGCAAGGACCAGGGCRTCAACGTGCGCGAGAAGG
TCAAGCAGGTGATGGCCCTGCTCAAGGATGAGGAGCGGCTGCGGCAGGAGCGAACCCACGCCCTCAAGACCAAGRAGCGCATGGCACTGGAGGGCATCGG
CATTGGCAGTGGGCAGCTGGGCTTCAGCCRCCGCTACGGCGAGGACTACAGCCGCTCCCGGGGCTCCCCGTCCTCCTACAACTGTGAGTAAGCCCCGGTG
TGTGGCTGGGATGGGGAGGTGGCCCGACTTCCATTCCTGGCTCTGCAATCCAAGCCATGGTTCATAATACCTACCTCCGAGGGGTGTTATGAAGATTCAG
ACATAAGGAATGTAACACGCAAGGCGCAACACCCGGCACATAGGAGGTGCTCAACAAGTTAGCTCAGATAATAACGTYGTTATAGATTCATTATCATTCG
TTAGCTGCCTGATAGGATGGCGCGATAGTGGAAGCATGGGTTTGGAGTCAGATAGCATTCTATATTCTGCTTCCTCCAAGCTGTGTGACCTGGGCAACCA
GTTCTCTGAACCTCAGTTTCCTCATCTGTACAGTGGGGATAAGCTCACCTACCTCCATTGTTTGATCTGAGAATGAAATGAGACCAGGTTCAGGAACGTC
CTCTACCCTGCACCCAGACACATGGCATTCCCCTTCATCCCCCTWCCTGAGGGCAGCGGCTAGACAGTCCCTGACTCTCCTGCCCCCAGTCATGGGGGCT
TCCAGGATCTGAGGAATACTCAGAATGGCCCGCCTTCCATAAAGCCCTTGACAGTTTGCTGAGGGCTTTGAGGTTGTGACCTCGTTGGACTAGAACCTCC
TATCCTTGCACCTCCCTTGCCCCCAAGCCAGGACAGGGTCCATCTGGAAGTCCAAGAGCTGGAGTCAGGGCACCTGGGTTCAAGTCCTGCTTCAGGAACC
TGGTCAGGGGCCCTAAGTGCCGCCTGTGCATCTGCTAAGGAGGGACTGGAGCCGCCCCTCCATCCGGGATGGGTTGGGATGGGGAACTTACAGAGTGCCT
GGCACACTGCTTGGCCCACGGGGGCCTCAACGRCCGTTGTTCCCCTCCTCTCAGTTCTCTTGAGCCTCAGCTTCCTGGCAGGCAGAGGGGTGTGGGAGCC
GATGGGTAATYGTGTGGTCACAGAGACATGATGGTCATTGCAGCCTCCTCTTCGTCACCCCGCTATACCTCCGACCTGGAGCAGGCCCGGCCTCAGACGT
CAGGGGAAGAGGAACTGCAGCTGCAGCTGGCCCTCGCCATGAGCCGTGAGGAGGCAGAGAAGGTGAGGCCATGCAGCCCCACTGCGGTGGGGAGGGGATG
GGCTAGGGGGAGAGAGTGCCTGGGAGCCCCTTGGCCTTGACTCAGGCTCTGTCACCCAAAGCCCCAGTCCTGTGCCCAAGGACAGCACAAGACCCATTAT
CTCTGTCGGTTTGTCGCAGGCAGGGACTGCCTCCCTGCCTCCAGTCCTCTCCACTGGGCCTGGAAAGGGTGGCGAGTGTACAATTAGGGGCACATGCTAT
GTCTTGGGGTGCCTGCTACCACCTCATGGTGGAGTGGGTGAGTGTGCTCAGACATATTCCTAGGAGACACTGGGATATGCTTCCCACCCCCGCCCACCAG
CTATCCTTTTGGGGAGACAAGGACAGGCCCCCGATATCATCATCTTTGCCATTACCTCTGTGGATCCAGGAAGACCAGGCAGGAAGCAGCTGGGCCTCAC
ACAGGAGGGCCTGAGGAACTCTCAGAGGATTCAGAAGCGAAAGATCAGTCTTCCTGACCTTTAAACTGCATTTCAGATGCAGGCAGGGAGAAGGCCACGC
CCACCCTGCTGACTGAGSGGCAAATGGCCCATGCACACTGAGGGTGGGCATTAGTGTCTCCATCCCCATGACCCAGGCAGGCCTATACTGCCCTTCTGGT
CCCAAGGTGGGGGTACAGGGCCAAGTTTACCCCTCTCTTCCTCCGCAGCCTGTCCCCCCAGCCTCCCACAGGGACGAGGACCTGCAGCTGCAGCTGGCTC
TGCGCCTGAGCCGGCAGGAGCACGAGAAGGTAGTGGGCCGAGCCCGCTGGGCTGCCGGTGCTGCTGCTGCTGCTGGTGGAGGTGCTTCAGGGCACTAACA
GCCTCCTCCCGCTGTACCCGGTGGCCCTGCTGCTCCTAACCTCTCAGCTGCCTCCCACCCTGCACTCTCTCGACTCCAGCCTCTGGTGCACAGGTCCCCG
GATTCCCGCCTGAGCTGCTCATGCTCCTAACTCTTTCTGTGCCTTCTGCAGGAGGTGAGGTCCTGGCAGGGTGATGGCTCCCCCATGGCCAATGGTGCAG
GGGCCGTGGTCCACCATCAGCGGGACAGAGAGCCTGAGAGAGAAGAGAGAAAGGAGGAGGAGAAGCTAAAAACCAGCCAGGTAGGGAGTGGGCTGCGGTG
CTTGGGATGGACAGGGCCTAAGAGATGGACTGAGTATTTGTAAAGAGAGAGCAGAGCAGTGCCTGGCATATAGTAAGCACTGATGTGTTTATTCGATGAA
ATAGGGGTGGGGGTGTAGCAGCCCTAGTCCCACATTGCATGGGCTGGTGACTGAGTTAACAGCAAAGTGGGATGCAAAAGGTTCCTGATTGGAGACCCCC
GGATTCGGGTTCTGGATTTGCTGCCACTTACTCTATGACTTGGGGCATGTCACTGTCATGGCCTCAGTTTCCCCTTCTGCACAGTGTGCTTATTGGATAG
TTCCAGCTCTGACATGCTAGGATTATGTGATACTGTCAATCAAGACTAGGGTTGGCCTAAGCACATGGTGCTGAAAACACCTCGGGCTCATGGACATATT
TTCTCCGCATGGGGAGTGGGCAGCTGCTGAGTGCAAGGCTGCCCTCCAAAGCTGTCCATGCCACGCCCGGGTGCTGTGGTCTCCTTTCCGTCCATGTTCA
CTGTGGCCAGTTTCTCTTGGACACTGACCTAGGGAGGTAGGCTGGTTGAAAAACATCTGCCTTTGGCCTTCCTGCCCCTTTCTGCTGGCCTGGATTCTAT
CCCAGCTCTGCCTCTCCCTGGCTGTGTGACTTCAGGCAAACCCATTCCACCCTCTGTGCGCTGGCTGGCTCATCCATAAAATGGGTACATCATCTGCCCT
ACCTACCTCACAGGGTTGTTATGAAAATCAGGTACTCTGTGGATGAAGAAACATTATAAACTGTAAAGCACTGTGCAGAGGTGAGGGATCATGAATRGGT
ATCTGTGGAATGAATAAAGAGAATGAACTGGCATTAGCCTGACAGGTCAGGGCCTGCCCTCCCTCCAGGCCCCGCCCACTTCTGAGCCGCGGCTGCCTCT
CCCCTCCACAGTCCTCCATCCTGGACTTGGCTGACATCTTCGTACCTGCCCTGGCCCCGCCCTCCACACACTGCTCTGCTGACCCATGGGACATCCCAGG
TGGGCATGCAGGGCTGCAAGAGACTTCCAGGCTGGCCCAAGAGCCTCCTCCTTCCCAGCCACTTGCTGGGCCAAGCACCTCCTCCCAAAATCTGAGTGTC
ACCGGGCAAGTCACTCACCACCTTGAGCCTCCRCCGCCTGTGGGACAGGCTTTCGTAGTGAGGGCTATGGAGAATGTCTGAAGGGCCCAGCTCCTAGGAA
ACGCAGCARAATGTTCTCTCGCTGCACTCACTTGCTCAGCACGCCTGGGAAGGTGGCCTGAGTCGCCCACACCTGCAGGTCCCAGTTCCTGGGGTCACTT
GTCAAATAGGGGCTCCAGCCTGCTGGGTGGTCCTGAGGCTGCAGGCCATCTGTGACATGGATCTTCTGCCTCCCAACTTGGGCTGGGTAACTGGGAAGGG
CCCTGGGCGRGGGATAAGGGTGGGCCTGGGATCATGTCTATGCTGTTCCCATTTCAGGTTTTAGGCCGAACACAGAGGCCAGTGGATCCTCCTGGGGGCC
TTCTGCAGACCCCTGGTCTCCGATCCCCTCAGGAACCGTCCTGTCCCGAAGCCAGCCCTGGGATCTGACTCCCATGCTCTCCTCCTCTGAGCCCTGGGGC
AGGACCCCAGTGCTGCCTGCTGGGCCCCCCACCACAGACCCCTGGGCCCTGAACTCTCCCCACYACAAACTCCCCAGCACTGGGGCTGACCCTTGGGGAG
CCTCCCTGGAGACCTCCGACACACCTGGTAAGAAGAGGGCCAGAGAGTRTGAGTGAGGAGCTGGGGGACTTCCAGGCAGGGCCAAGGGGCAGCAGATACT
GTTTGTGTTAGGAGGACAGCTTCTCTGGAAAGGGGTCAGACCAACACCTGCCCTTTTTGTCAACCCATCTCCTCTTCCTCTCTCTCTTCCGAGGTGGTGC
CTCGACCTTTGACCCATTTGCCAAACCTCCAGAATCCACAGAGACCAAGGAGGGGCTGGAGCAGGCCCTGCCCTCTGGGAAGCCCAGCAGCCCTGTGGGT
GAGCAGGGCAAGGGGATGGTGAGGCTCTGGGGAATGAGGGGCCCACCCCGAGCAGCCTCTGTCCTCTTCCTCCCACGTCGGGCGCCAATCCCTTTCCCCA
CCAATTAGCTCTAGCATTTCTATTCCAGAGCTGGACCTGTTTGGAGACCCCAGCCCCAGTTCCAAGCAAAATGGCACGAAGGAGCCAGATGCCCTGGACC
TGGGCATACTAGGGGAAGCACTAACCCAGCCAAGCAAAGAGGCCCGAGCTTGCCGGACTCCCGAGTCCTTCCTGGGTCCCTCAGCTTCCTCCTTGGTCAA
CCTTGACTCGTTGGTCAAGGCACCCCAGGTTGCAAAGACCCGGAACCCCTTCCTGACAGGTAAGATATGCCCTTGTCCCTCAACCCAGGGGCTCCTGCTT
TCAGAGCCTAGCCTCCGCCGGAGGAGCCCACTCTTCTTCCCAACTTCCACGACCTCCCGGTGTAGGGCTCTGAACCCCGGGTCACTCAAAGCCACTCTCG
TTCTGCAGGTCTCAGCGCTCCGTCCCCCACCAACCCGTTCGGCGCGGGCGAGMCGGGCAGGCCGACGCTAAACCAGATGCGCACCGGCTCGCCGGCGCTG
GGCCTGGCAGGCGGGCCTGTGGGGGCGCCCCTGGGCTCCATGACCTACAGCGCCTCTCTGCCCCTCCCGCTCAGCAGCGTGCCAGCTGGCTTGACCCTCC
CCGCCTCGGTTAGCGTCTTCCCGCAGGCCGGAGCCTTCGCACCGCAGCCGCTGCTGCCCACGCCGAGCTCAGCCGGGCCGCGGCCCCCGCCCCCGCAGAC
CGGCACCAACCCCTTCCTCTGAGCCCCGCCCCGTCCCATACCGGCCTGCGCCTGCGCCGGACGCTCCGCGGCCCCGCCTCCGGACCCGGGGCTGGGCGGG
GCGCCGGTGCTAGTGGAACGCCGAGCCAGTGGCGGCTGGTATCCCGCGGCGGCTCTGGAAGCTGGACGCGGACCACGGCCCGGGAGCTAGAAACTGAACG
CCCGCATAATAAAGACTGGAACCCTCGTTCTCAGCTCTCACCAAGTGGACTTTTTGCGGGGTGTGGCGGCCGGGTCTCGACCACAGCGTGGATCACCGGC
TGTTTAGGAAACTGCAGCTGCACAACGTGGGGTGCAAAACTGCCCCGCTTCCTTTACAGCTCTTCTCAACCCTCACCTCCATCCCCCGTCACCCAGGCAC
CTTCGCTTCCAGATGCTGCCAGGCTGTCACTCAATTCGGTCATTTCATTCATTTATCACACATGGGCACTGGGGTTGGGCTAACAGCAAGAGACAATAGG
CCTTTGTTCCTATTTATTGGGTACTGCTTACGTGCTAAGCAGATCAGTTTATTTAATGCTTGCAACGACTCTCTGAGGTAGAAAATATTGTTAATTCCGT
TCAGGATCCCGGCTACATAATCTGTGGGGCTCAATACAAAATAAAAATGTAGGGGCTCCTTGTTCAAAATCGTATGAAGAATTTCAAAACAGGGACAACA
GAGCATGAAACCAAGCGCAAAGCCCACTGCAGTGCGATTGCACAGGTATCTCACCTTGCAGCCGGCACTACTCCCATTTTTCAGGCAAGGAAACCGTGGC
TCAGAGAGGTTGAATGGCATGCTCAAAGTCACAAAGCTGGCATGGGGCGGGGCTGGAACTCAAGAGTCAGACAGTCTGGCTCCAAGGCCTGGAGATCCCA
GGCTGGGCCCCAGATTTAATTCAGCAAATATTGACTGACTGCTGTGGACAAAGTGCTGGGCTCACCTTGGAGGGATCCAACCTCCAGGAGCTCGAGCGCA
GCAGGGTAGACAAGCCAGGGGCACGTGATGCGGCTGTGGCAGAAGCCAAGTGCAGGAGCTCCCAGGCTCCTTTGTTTTACTGAGTCACCTTAAATGTAAC
TCTGCCCTCTCCCTTGCTTCGCCAAGGCTAGCGAGAAACTCAGTCTTAGCCACACAGGAGGAATCGGACCCCTTCTGGGGGTTTATGTGGAGTCTGGGAA
ACCAAGGGTGGGGTGAGGCCTGGTACTCAATCCAGGAGGGGCCCCTATGACCACCCTCGCCTGTTTTTCTTCTCAATGCTCCCTGATCACTGGACCACTG
GACACTGATGTGTCCTCAGTGCTTGGGGTCTGGCTCTGCAGGCAGCCTGCAGCCAGCCTCCATCCCCCTTTCAGGGACAAATGGCCTTCCACCAGAGTCG
GTGAGTGGAGAGGCACAATGCCACTCCCCTTCCTGAGGTGGGGGTAGGGGAAGGGAGTCCCACAATGCAGTTACAAACAGGATGGACAAGAACACCTGCT
CAGGAGTCAGACTTACAGGGTTCAAAGTTCTGCTCCAAGGTTTGACCCTAACAAGAATCACTTAGTAATAAGTGGTTATGCTCTGTGACCTTGAGTAAAT
TACTTACCCTCTCCATGTCTCTGTGCCTGCGTTTCCTTACTTGTCAAACGGGATCAGAAGTTTCTTCCTTGTGAGGTTACTATGTGGATGTCCCCAGGCG
TGTCCATTCAGCTCAGAGTCCACCCTCTTCAAAGACTGACCATGAGGCACGAACCCATCATGGCTTTCACTCCTGGTTTTGCCAGGCAATACCCAGAGTC
CAGCACCCATCTATTAATATCTTCTGCTGCACCCAAACCTGGGATGTTCCATCCTTCTTGGCCCCTGATCCACCCTTTGTGGCCCTGCCACCCAGGCTCT
CTTCTTCTAAACTGGATCCCCCCGAGGACTCCCAAGGGGAGCTGTTTTGTTTCCCACAAAAAAAGTTGGCAGCCTTGCTTCCTGCCTCCCTCCTTATAAG
ACCCCTCCTGCTAGGAGGTTGGTGCCATAAGTCATTCTGTCTCTTCCCTGCCTGGGGCTGCCACTCCACCTCACTTTTGGGATGCTTCGGTCTTGGCTCA
TGGTCTTCTCATCCAGCTCTTACCTCAATTTCAAGTCGCTCCATTATCCAAGGACCTTATGGCCCCTTGACCTCTCAATGACCCTCACCATGGTCACACT
TGGAGGTTTGTCATCACCCCAGATTCCTCTACATTCAAGGCAGGCTTCTGGCTCTCTGAGCTTAACCTCATTCCTTCTAGCCAGAACATGTTCTTTGGAG
CACCCACTGGACCCTCCGGCTAGCCAACCCTTCCAACAACCCGCCACACCCCACATTCTCAGAGTCACCCAGGACCACCATCTCTTCTATCCTTGATGGC
GTCCACCACTTTCTCTCAAACGAATCCTTCCCATCGAAATGTGTCTTAATTAGCTCCATCCATCTTGACAGTGTCTTCCCATCTATCCTCTCATGTCAAG
CACCCATCATCTCTCTCTGTCTCCCCTCCCTTTCCTCTTCCTCCTCAGCCGACTCGGCAACTTCTGCTCTCAGCCTGACTTCACTAGAACGACGCCCACT
AAGCACACCAATGGCCTCCATGTTGCTGAAGCCAGTGGACATTTTTCTGTCCCAGCCAGGCTGGCCCCTCAGGAGTCTGACATGTAGGCACTCTGTCCTT
CATCTCTGGGGTGCTGTCCTTTGCACCCTGGCTGCTTCCCTTCTGTGTCTTTCTTTCTTTCTTTCTTCTTTTTTTGAGACAGAGTTTCGCTCTTGTTGCC
CAGGCTGGGGTGCAATCATGAAATCTCGGCTCACCGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCAAGGATTACA
GGCATGCGCCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGATGGGGGTTTCTCCATGTTGGTCAGGTTGGTCTAAAACTCCTGACCTCAGGTGATC
CACCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGCCCTGCCTCCATCTGTGTCTTTCACAGGCTTACTTAAGCCTGGACCTGA
GCCCTCTTCTCTGCTCCTCTGCATGGTCTCCCTGGATCAGCTCCACACCCACATGGTCTCAACAGTCAAGACCCCCAATCCTCTCTCCTGAAGCCTCTCC
TCTGTCCTCCAAGCAGTGTCATCTCTGCCTCCATGTGCACATCTCAAACCCACAGGTCCCACAATGAACCCCATGAGTTGTCCCCCCACCCCCACCCCAT
GCCCTCTCTTGAGGGAACGGCCCCACCTTGCAAGTCACCCTGGACACCGCCTTCTTTGTCGCCGCCCATCCTGACGACGTTTCCTCCTTGACCGACTTCC
AGCCCATCCCTTTCTCTGCATCTCTGCTCCCCCATCTCCCCCTGGGTGCTGCTATAGCCTCCTATCTGCCCCTGCTTTCACTCTTGCCCCTTTCCAGTTC
ATTCTCCACTGGGAAGCTGGTGGGATCTTTCCAAAACGCAGATCTAACTGGGTAACCCTCCTGACTAAAGCCTTTCAATAGCTTGCTTCTACTGTCATCA
AAAATCCCCTTCTCTGGCCAGGCACGGTGGCTCACACCTGTAATCCCAGCACTTCGGAGGCTGAGGCAGATGGATCGCTTGAGGTCAGGAGTTTGAGACC
AGCCTAGGCAACATGGCGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGCGCTCCTGTAGTCCCAGCTACTTGGAAGGCTGAG
GCACAAGAATCGCTTAAACCTAGGAGGTGGAGGTTGCAGAGAGCCAAGATCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCTGGCTAAAAAAAAA
TGGGGTCGGGTATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGATGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTTGAACC
CAGGATGCGGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAAATAAAAATCCCCTTCTTAC
AGTTCACGAGTGTCTCCAAGATCTTGCCTCTGCCCTCATCTACTGCCTGTCTTCCCTCTTTCTGCAGTTGCTCAGCCCGGACTCACTGACAAGCCACGGG
ACCTTTGCACAAACTGTACCTCTGCCTCCTTCCCCAGCACTCCCCCTGAGCACCCTCCAAGTTCCTTTCTCTCGTTCTCCATGGCTTCACAAATGTGATT
TCCTCAGGGAAGCCTTCATCCTTTGCCCCTTCCACCAGATCAGGTCACTTGTTACGTTATACCCTCACGGACTTGTCACGTGGGTGTTTATCGGTATGGC
TGTCGAATTAGCATCTGCCGCTCTCAACAGACTGTGAGCCATGTGAGGGCAGGAGCCTTGTTTCTCTCTGCCCACCATTGTATACTCAGTGCCTTGCAGA
GTGGCAGGCGGCAGGCACTTAATAAATATTGGCTGAATGTAGCCAATGAGGCCATGTGTAACCTATGAGACATAAAATGGGCTCATCAGTATTATTTAAG
GAAGACTTCCTGGAGTGGGTAGGATTTGAGTAGGACCTAGAGACGAGGAGGCTGCAAAAAGCAAACCTTGTTAGCTGGTGGACCTGGCCAAGGTACGCCT
TCGCCTTGGATCTCATTTCTCATTTGTAAAATGGGCAGGGGTTGGACAAAATGAGCTGAAGCTCTGGCATCCCATGTCCCTAGCATCTCCCAGCCCTAGA
TCCCACAACTCTCCCTATTCCCTTGAGAAGGGCTGTCCTCCCCAGGCAGGGGCAGAGCCCAGTTTTATGCACAGAATGGGTCCTCCCAAGGCTCGGGTGC
CTGATCTGCAATTCTGCGCTCCGCCGCAGGGCGACGCTCGGAGACCAGCCACACTGTCCCAAGTCCCGGCGAAGACCCGCCCGCGGCTCCGTAGGTGCCC
GGCCCGCCCCTCGCAGCCTCCTGACTTCCCTTCCTGTCCTCAGCGGCCGGGCCCACGGCCCCGAGCAGCCATGCTGGGCGCGCGGGCCTGGTTGGGCCGC
GTCCTTCTGCTGCCCCGCGCCGGTGCAGGCCTCGCCGCGAGCCGCAGGTACGGGCGGGCGAGCGGGCCCCTAGGGCACTCCCTGCGCCTGCCTGCGGGCC
CAGTGGAGGGTCTTCCGGACACCGGTCCCCAGTGCCAGTCTGGACCACCCCTGCATGCCTGGCCCTTCCCCCACCCCACCTCCGGTCTGCTCCTGAGACC
TGGCTCTGGCTGTAAGGCCCTCCTCCCCTCCTCTCCCGTCCTCATCCCTTCCCTCCTCTCCCCTTCCTTCCAGTGCAGTGCCAGCTCCTCAGGGACTGTT
CTGACACTGCTTCCAGGAAGCCTTCCTTGCACCCCAGTGCTGGATGCTGGGTCAAGGGCCTTTCTCCAATAGTACCCTGTGCCCTGTCACAGTCCTTTAT
TGCTGCATGGACCTTTCGTTATTTAGGTCTGCCTGCAGTCCCACTTCCAGGCTGAACTCCCTGAGGTCTCTGATTCCCTAGGTGTCCTGGAGTCTGGCCC
AGGACCTGGCCCCACAGGAGTCCCAGCAGGTGGGCGCTGAGTGAGGGAGTCCCCATGTCTGGTTTCCTCTGTTTGTCCCTCACCTGGTCGAGTCCCAGAC
CCTACTGATCTTGGCCTGTCCAGCCACCAACAGTAGGCTGCCTTCCAGTGGGGCCACACCCAGGCCTGCCAGAGAGATGCCTCCAAGCAGCTGCTCCAGG
AAGGGCCGGGGGAGGGGCCTGGGGAGGGGTAAGAATGGAGCCCCAAGAACCATTCTGCCCATTGTGACCCGCCCTGACCTCACAGCCATCCTTCCCACCG
CCAGGCCCAGGAGGTTGGGGGAGACTAACCTGGCAAGGAGCCCCCAATGAGCCACCTCTCCTCACCCCCCAAAAAACATAAGGGGGAGCACAAAGGCCAC
AGTCTCCCCCATGGTTCAGAAAGGTGGGTTGGGCTGGGAGCAGGGGTCCTACTGGGGTGCTGAGTGAAATGGAGCAGGTGCTGGGGGGCCTGGGAGAAGG
TGGGTGGAGGCCCCTGGCTTGCCTGATGCACCAGTCCTCGCCAGGGGTAGCTCCTCCCGGGACAAGGACCGAAGTGCGACGGTCAGTAGTTCAGTGCCCA
TGCCTGCTGGAGGGAAAGGAAGCCATCCTTCATCTACACCCCAGAGGGTCCCCAACCGCCTGATCCACGAGAAGTCACCATACCTCCTACAACATGCCTA
CAATCCTGTGGACTGGTGAGCACCTCTCCTGGGGCCCTGCCTGGAATCGCTGGGGTCCTGGGCCCCTCCCAGACCCCCTGGGCTACTGAGTGATGCCCCA
CCCTGCTGGGTCTAGGTACCCCTGGGGACAGGAAGCCTTCGACAAGGCCAGGAAGGAAAACAAGCCGATTTTCCTCTCAGGTAATGCTCCCACCTTCCCT
GATGTGGGGGTGTGGGCAGGGAGTGGCAGTGGATGGGGGAGGGTCCTCTCGGCCTGGCGGGTCTTCCAGGAGACTAGAGGCCAGGACGTCTTCCATGTAG
CCAGGGCCACTTGGCCAGCCTCCCTCTGACCCGTTGCTGGCCCCCTGACCTCTCCCCATGGCCCTGTTCAGTCGGGTACTCCACCTGCCACTGGTGCCAC
ATGATGGAAGAGGAGTCCTTCCAGAATGAGGAGATTGGCCGCCTGCTCAGTGAGGACTTTGTGAGTGTGAAGGTAGACCGTGAGGAGCGGCCTGACGTGG
ACAAGGTGTACATGACGTTCGTGCAGGTGAGCAGCCCTCCTCGGGAGTGTATGCGCCACATGGGCTCAGAGCAGCTCCCCTCACCCTCGCCCTCTCTCCG
CCAGGCCACCAGCAGCGGCGGGGGCTGGCCCATGAATGTGTGGCTGACTC


SNP Information

Context             (SEQ ID NO:65091):
GAGGAGCGGCTGCGGCAGGAGCGAACCCACGCCCTCAAGACCAAGGAGCGCATGGCACTGGAGGGCATCGGCATTGGCAGTGGGCAGCTGGGCTTCAGCC
R
CCGCTACGGCGAGGACTACAGCCGCTCCCGGGGCTCCCCGTCCTCCTACAACTGTGAGTAAGCCCCGGTGTGTGGCTGGGATGGGGAGGTGGCCCGACTT
Celera SNP ID:            hCV25982282
SNP Position Genomic:     10330
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,2)   total(A,1|G,29)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65092):
TGGCCCAAGAGCCTCCTCCTTCCCAGCCACTTGCTGGGCCAAGCACCTCCTCCCAAAATCTGAGTGTCACCGGGCAAGTCACTCACCACCTTGAGCCTCC
R
CCGCCTGTGGGACAGGCTTTCGTAGTGAGGGCTATGGAGAATGTCTGAAGGGCCCAGCTCCTAGGAAACGCAGCAAAATGTTCTCTCGCTGCACTCACTT
Celera SNP ID:            hCV3075210
SNP Position Genomic:     13733
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;JBIC-allele(A,212|G,1287)   total(G,1287|A,212)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65093):
CTTCTGGCCCAGGTCATAGCATTTCTTCTGAGCCGCCCTCCCCTGACTTGCTGGTTCACTCCTCCTTACTCTTCCCTTGTGATCTTGGATCTCAGCTCTG
Y
CACCACCTCCTCTAGGAAGTCTCCCCTGATTTTCCTGGCTTGGGTCTTCCTGTGCGGCTCTGCACTCCCACACTGGACTGTGATTTTCTGTACCCTCTCA
Celera SNP ID:            hCV3075211
SNP Position Genomic:     8862
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65094):
TGAGGTAGGCCTCTGCCCCTGAGTTCCTGGCCCTCTCTTCCTCAGCCCCATGTGGAACCCAAGGATGCAGCTGCTCTGCTAACACGGCAGCCCATCCTTC
R
AGACTGTGACCTCGCCACAGTGGCCCTCAGCCCTCCACCTCCGGCGGGGGCGAGGGCCACCCACCTCCAAGTCTCCAGCCATGACGACCTCCGCACTCCG
Celera SNP ID:            hCV27516177
SNP Position Genomic:     9741
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,88|G,1389)   total(G,1389|A,88) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:65095):
CCTCCCGGTGTAGGGCTCTGAACCCCGGGTCACTCAAAGCCACTCTCGTTCTGCAGGTCTCAGCGCTCCGTCCCCCACCAACCCGTTCGGCGCGGGCGAG
M
CGGGCAGGCCGACGCTAAACCAGATGCGCACCGGCTCGCCGGCGCTGGGCCTGGCAGGCGGGCCTGTGGGGGCGCCCCTGGGCTCCATGACCTACAGCGC
Celera SNP ID:            hCV3075208
SNP Position Genomic:     15153
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,3)      total(A,2|C,3) ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65096):
CCAGGGCGTCAACGTGCGCGAGAAGGTCAAGCAGGTGATGGCCCTGCTCAAGGATGAGGAGCGGCTGCGGCAGGAGCGAACCCACGCCCTCAAGACCAAG
R
AGCGCATGGCACTGGAGGGCATCGGCATTGGCAGTGGGCAGCTGGGCTTCAGCCGCCGCTACGGCGAGGACTACAGCCGCTCCCGGGGCTCCCCGTCCTC
Celera SNP ID:            hCV25982369
SNP Position Genomic:     10275
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65097):
TTGGCCCACGGGGGCCTCAACGGCCGTTGTTCCCCTCCTCTCAGTTCTCTTGAGCCTCAGCTTCCTGGCAGGCAGAGGGGTGTGGGAGCCGATGGGTAAT
Y
GTGTGGTCACAGAGACATGATGGTCATTGCAGCCTCCTCTTCGTCACCCCGCTATACCTCCGACCTGGAGCAGGCCCGGCCTCAGACGTCAGGGGAAGAG
Celera SNP ID:            hCV25982905
SNP Position Genomic:     11311
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,2)   total(C,29|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:65098):
CCCTACCTACCTCACAGGGTTGTTATGAAAATCAGGTACTCTGTGGATGAAGAAACATTATAAACTGTAAAGCACTGTGCAGAGGTGAGGGATCATGAAT
R
GGTATCTGTGGAATGAATAAAGAGAATGAACTGGCATTAGCCTGACAGGTCAGGGCCTGCCCTCCCTCCAGGCCCCGCCCACTTCTGAGCCGCGGCTGCC
Celera SNP ID:            hCV25984452
SNP Position Genomic:     13397
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,4)   caucasian(A,2)   total(A,20|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:65099):
TCACCTACCTCCATTGTTTGATCTGAGAATGAAATGAGACCAGGTTCAGGAACGTCCTCTACCCTGCACCCAGACACATGGCATTCCCCTTCATCCCCCT
W
CCTGAGGGCAGCGGCTAGACAGTCCCTGACTCTCCTGCCCCCAGTCATGGGGGCTTCCAGGATCTGAGGAATACTCAGAATGGCCCGCCTTCCATAAAGC
Celera SNP ID:            hCV811605
SNP Position Genomic:     10845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65100):
GGTCTGAGTCACTAGCAAGGGGGAGGGCAGGAGTTAAACAAGTTGTGGCCGTGGCATTCCCACAGAAGGCCCACGACCCGCTGGAAGGAAAGAGATAGCA
R
ACAAAAGGTAGGCTGCGCTGTGGGCCAGGCACTCTCCACCTCGCCCACTCCCACGGTATCTTATTCTCTGGGCCCCCAACAAAACCTGCCAAGGCATGTT
Celera SNP ID:            hCV811606
SNP Position Genomic:     7910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65101):
TCTGACTCCCATGCTCTCCTCCTCTGAGCCCTGGGGCAGGACCCCAGTGCTGCCTGCTGGGCCCCCCACCACAGACCCCTGGGCCCTGAACTCTCCCCAC
Y
ACAAACTCCCCAGCACTGGGGCTGACCCTTGGGGAGCCTCCCTGGAGACCTCCGACACACCTGGTAAGAAGAGGGCCAGAGAGTGTGAGTGAGGAGCTGG
Celera SNP ID:            hCV25984552
SNP Position Genomic:     14264
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,2)   total(C,31|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65102):
CCTTAGCAGAGGACGGGAAGAGGGTGTGGGCTGGGCTGGTGGGTGCACAGACTTTACGCAAACTCATGCACGTGTGACTGGACAGATCTGGGTTCTCTCC
R
TCTCTCCGAAACCCTTGCTGGGGATGAGCGATCTGCATTTTTCGGTCCTGACTTTTGGGAAACTCTCCAGATCCCCCCATCCTGCAGGCCCTGAGAAGAG
Celera SNP ID:            hCV811607
SNP Position Genomic:     6840
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   (A,-|G,-)   Caucasian(A,22|G,62)   African-American(A,5|G,79)   Asians(A,5|G,77)   total(G,218|A,32)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65103):
CTGAACTCTCCCCACCACAAACTCCCCAGCACTGGGGCTGACCCTTGGGGAGCCTCCCTGGAGACCTCCGACACACCTGGTAAGAAGAGGGCCAGAGAGT
R
TGAGTGAGGAGCTGGGGGACTTCCAGGCAGGGCCAAGGGGCAGCAGATACTGTTTGTGTTAGGAGGACAGCTTCTCTGGAAAGGGGTCAGACCAACACCT
Celera SNP ID:            hCV25985079
SNP Position Genomic:     14349
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,20)   caucasian(A,2)   total(A,6|G,20)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65104):
GCCCCTCTGAGGGGTCTGCACCTCCTGGGAGCAGGTGGGTCTCTGGGACGAGGGTCCATGGTGGATGGCTCTGGAGACGCTCCCGAGGCTGTGCCGTCCC
S
CTGCTGCACAGGTCGGAGGGTCACCGCAGAGGCTACTCGGGCTGGGGCTGGGGCCGAGGGAGCCCGCACTGGAGGTAAGCTTCCTCCCTGGCCCCCTCCC
Celera SNP ID:            hCV811608
SNP Position Genomic:     6175
SNP Source:               Applera
Population(Allele,Count): african american(C,36|G,2)   caucasian(C,28|G,10)   total(C,64|G,12)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|G,5)      total(G,5|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:65105):
AGTCACTCACCACCTTGAGCCTCCGCCGCCTGTGGGACAGGCTTTCGTAGTGAGGGCTATGGAGAATGTCTGAAGGGCCCAGCTCCTAGGAAACGCAGCA
R
AATGTTCTCTCGCTGCACTCACTTGCTCAGCACGCCTGGGAAGGTGGCCTGAGTCGCCCACACCTGCAGGTCCCAGTTCCTGGGGTCACTTGTCAAATAG
Celera SNP ID:            hCV11879283
SNP Position Genomic:     13809
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65106):
TCACTCACCACCTTGAGCCTCCGCCGCCTGTGGGACAGGCTTTCGTAGTGAGGGCTATGGAGAATGTCTGAAGGGCCCAGCTCCTAGGAAACGCAGCAAA
A
TGTTCTCTCGCTGCACTCACTTGCTCAGCACGCCTGGGAAGGTGGCCTGAGTCGCCCACACCTGCAGGTCCCAGTTCCTGGGGTCACTTGTCAAATAGGG
Celera SNP ID:            hCV26977994
SNP Position Genomic:     13811
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65107):
CTAAGGAGGGACTGGAGCCGCCCCTCCATCCGGGATGGGTTGGGATGGGGAACTTACAGAGTGCCTGGCACACTGCTTGGCCCACGGGGGCCTCAACGGC
C
GTTGTTCCCCTCCTCTCAGTTCTCTTGAGCCTCAGCTTCCTGGCAGGCAGAGGGGTGTGGGAGCCGATGGGTAATCGTGTGGTCACAGAGACATGATGGT
Celera SNP ID:            hCV11879285
SNP Position Genomic:     11235
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,11)   total(C,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65108):
ACTCTCAGAGGATTCAGAAGCGAAAGATCAGTCTTCCTGACCTTTAAACTGCATTTCAGATGCAGGCAGGGAGAAGGCCACGCCCACCCTGCTGACTGAG
S
GGCAAATGGCCCATGCACACTGAGGGTGGGCATTAGTGTCTCCATCCCCATGACCCAGGCAGGCCTATACTGCCCTTCTGGTCCCAAGGTGGGGGTACAG
Celera SNP ID:            hCV26977995
SNP Position Genomic:     12018
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65109):
GGGCTCCGAGCGGGTGGCCCACCAGTGCCGCGAGAACCTCTACACCATCCAGACACTCAAGGACTTCCAGTACATCGACCGCGACGGCAAGGACCAGGGC
R
TCAACGTGCGCGAGAAGGTCAAGCAGGTGATGGCCCTGCTCAAGGATGAGGAGCGGCTGCGGCAGGAGCGAACCCACGCCCTCAAGACCAAGGAGCGCAT
Celera SNP ID:            hCV25982775
SNP Position Genomic:     10182
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,17)   total(A,1|G,17)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65110):
TGCTAAGGAGGGACTGGAGCCGCCCCTCCATCCGGGATGGGTTGGGATGGGGAACTTACAGAGTGCCTGGCACACTGCTTGGCCCACGGGGGCCTCAACG
R
CCGTTGTTCCCCTCCTCTCAGTTCTCTTGAGCCTCAGCTTCCTGGCAGGCAGAGGGGTGTGGGAGCCGATGGGTAATCGTGTGGTCACAGAGACATGATG
Celera SNP ID:            hCV16192336
SNP Position Genomic:     11233
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,53|G,1446)   total(G,1446|A,53) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65111):
CGAGGGGTGTTATGAAGATTCAGACATAAGGAATGTAACACGCAAGGCGCAACACCCGGCACATAGGAGGTGCTCAACAAGTTAGCTCAGATAATAACGT
Y
GTTATAGATTCATTATCATTCGTTAGCTGCCTGATAGGATGGCGCGATAGTGGAAGCATGGGTTTGGAGTCAGATAGCATTCTATATTCTGCTTCCTCCA
Celera SNP ID:            hCV26977996
SNP Position Genomic:     10578
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65112):
CTGCGCTTCCTCCTGTGTCCTGTTACTGCTGAGGCAGACCTGCCGGGCCAGCTGAGCAACTTTCCTCGGAGTGCTGCCTGGCGCTGGCTAGGAGGCAAAC
R
CACGCGGGAAGAGCTGCTACCCATTCCAGGGACCCTGCCGCTGCCCCTCTGAGGGGTCTGCACCTCCTGGGAGCAGGTGGGTCTCTGGGACGAGGGTCCA
Celera SNP ID:            hCV16192337
SNP Position Genomic:     6032
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,74|G,1427)   total(G,1427|A,74) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:65113):
CTCCCTGGCCCCCTCCCTGGCAGTGGCGGCATGGAAGGCGGGGGTTGGTGGGGAGCAAACAGTGGTTCTGGGGCTTAGTCTCTTTTCCAGGTGCGAGGGA
R
AAGGCTGAGCTGTAGAGGACCTAAAGGCTTCTTTCCTGCCACCCCTCCCTCCCTGCCGCCCCCAAAAAGGGACTCAGGGCCCCCTCCCCAACCATCCTGG
Celera SNP ID:            hCV26977997
SNP Position Genomic:     6359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65114):
GGAGGTGAAGGCAGGTCTGAGTCACTAGCAAGGGGGAGGGCAGGAGTTAAACAAGTTGTGGCCGTGGCATTCCCACAGAAGGCCCACGACCCGCTGGAAG
R
AAAGAGATAGCAGACAAAAGGTAGGCTGCGCTGTGGGCCAGGCACTCTCCACCTCGCCCACTCCCACGGTATCTTATTCTCTGGGCCCCCAACAAAACCT
Celera SNP ID:            hCV27846790
SNP Position Genomic:     7897
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(G,28)   total(A,1|G,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:65115):
GGGCTCCAGCCTGCTGGGTGGTCCTGAGGCTGCAGGCCATCTGTGACATGGATCTTCTGCCTCCCAACTTGGGCTGGGTAACTGGGAAGGGCCCTGGGCG
R
GGGATAAGGGTGGGCCTGGGATCATGTCTATGCTGTTCCCATTTCAGGTTTTAGGCCGAACACAGAGGCCAGTGGATCCTCCTGGGGGCCTTCTGCAGAC
Celera SNP ID:            hCV25983105
SNP Position Genomic:     14010
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,12)   caucasian(G,2)   total(A,12|G,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65116):
GTTTCTGGCCCCGCCCTTCCCCCCAGCCCCTGCAGGGGTGTGCAGAGAATGCCCACCTTCTGTGAGAAAGGTCCAGGCAGGGCCGCTGGGCCCACACCGA
S
AGTCCCCTCCCAGAGGCTGGTGCCCCCACACAGGCCAGGCCGGAGGGCCAGGGCAGCCAGGTCCAGGTAGGGCTCTGGTGCAGTCACAGTGCCCGACTGG
Celera SNP ID:            hCV27848764
SNP Position Genomic:     7595
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,29)   caucasian(G,30)   total(C,1|G,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:65117):
CTGTGCCGTCCCCCTGCTGCACAGGTCGGAGGGTCACCGCAGAGGCTACTCGGGCTGGGGCTGGGGCCGAGGGAGCCCGCACTGGAGGTAAGCTTCCTCC
Y
TGGCCCCCTCCCTGGCAGTGGCGGCATGGAAGGCGGGGGTTGGTGGGGAGCAAACAGTGGTTCTGGGGCTTAGTCTCTTTTCCAGGTGCGAGGGAGAAGG
Celera SNP ID:            hCV27848765
SNP Position Genomic:     6263
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,36)   total(C,68|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65118):
AGGCAGACCTGCCGGGCCAGCTGAGCAACTTTCCTCGGAGTGCTGCCTGGCGCTGGCTAGGAGGCAAACGCACGCGGGAAGAGCTGCTACCCATTCCAGG
R
ACCCTGCCGCTGCCCCTCTGAGGGGTCTGCACCTCCTGGGAGCAGGTGGGTCTCTGGGACGAGGGTCCATGGTGGATGGCTCTGGAGACGCTCCCGAGGC
Celera SNP ID:            hCV27848766
SNP Position Genomic:     6063
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 UTR 5


Gene Number:                 409
Celera Gene:                 hCG30012 - 109000100725466
Gene Symbol:                 PSMD3
Protein Name:                proteasome (prosome, macropain) 26S subunit, non-ATPase, 3;P58;RPN3;S3
Celera Genomic Axis:         GA_x5YUV32VU68(1662337..1691479)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12569):
TCAAGGGGTTATTATGTGCTGGGCCCTGGGTTGGGCCCTTTCCTATGTTATCTTCAATAGTCGCCCACCTTCCCCCACAGCTTGAAGGGGCTCTAGACAA
GGGACATGAAGTGACCCTGGAGGCACTCCCAAAAGATGTCCTGCTATCAAAGGAGGCCGTGGGCGCCATCCTCTATTTCGTTGGAGCCCTAACAGGTAAG
TGGGGAATAAGGTCTTCATTTATAGACCTTTTCAGTAATAGGAATGAATCACTTGAATCAATTCCCAAATGGATGAATAAATGAATGAATGACAAATTAT
ACCACAGTTAAGTAGTTTATATCTACATTTTTATAAATTGGTTTCATGGCTGGCTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGT
GGATGGATCACCCGTGATCAAGAGTTCGAGATCAGCCTGGCCAACATGGTGAAACCCCGCCTCTTCCAAAAATAGAAAAATTAGCCGGGCGTGGTGGCAG
GTGCCTGTAATCCCAGCTACTCTGAAGGCTAAGGCAGGAGAATCGCTTGAACCCAGGAGGGGGAGGGTGCAGTGAGCCGAGATCACTCCATTGCACTCCA
GCCTGGGCAACAGAGCGAGACTCCATCAAAAAAAAAAAAAATTGGTTTCATTCCTAAGGATTTGCTTGGTCACATTGGGTAGTCTGAGAAGACAGCCTAG
TCTTGCTAATAGAGGTTGAATAACCCTAGTTTTATCAGCAACATATTTAAAATTTCTGCATATAGCTAAGCTCATCACTTCTATCCTGATACCTGTTAGC
TTTAACTTCAGGGAGTAACATTTTCTTATCTTGCCCCTAAGAGCTCTTCTTCCCTCCACATTTTCTAGTTTTCCACTTAGAAAAACTCTGTGGTCCTTCA
GGTGTAAGCCAAAACGTTTGTTCCCTTAGGAAGCCTGCCCTCCGACTCCAAGACCAAAGTGGACCCCTCAGCTATGGCTCCCTTAACACCTGCGTTGTAA
TTACATCCAATGAATGAAGGCTGAAATTCTGGAAGTGCGCTATTTGGAGGCTGTAGTCCCCTCTGCACCAGCAACACACATCTTTCTCTGCTTTTTTTCT
CCAGAGCTAAGTGAAGCCCAACAGAAGCTGCTGGTGAAATCCATGGAGAAAAAGATCCTACCCGTGCAGCTAAAGCTGGTGAGGGAAAAACAGCAGATGC
TGGGGAGAGTCTGGGAGTAGCTGCAGCCAGTGGAGATGCAGATTTCGCCTAAGGATGGAGCCATTCTGGAGGATCCCTGTCTTATCCCAGGGGCTTATGC
CCACTCCTCCTTTCTCTCTCTATTTCTCATTTTTTGTTATTTCACAAGAGGTAGAAGACTGAATTTCTGGGCAATAATCTGGGTTTATTAGCCTGATCTT
GGGAGAAGAGACAGAAACTGTGGCTTTGCTTATTCCTAGCCAAATATTGTAAGCAAATTTTTTTTTTTTTTTTTTTGAGATAGAGTTTCACTCTTTTTGC
CCAGGCTGGAGTGCAATGGTGCGATCTTGGCTCACCACAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTAC
AGGCGCCCACCACCACACCCTGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATC
TGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCTCGCCTGGCCTGTGAGCAAATTTTTTACTGTGTCTGAGTCTGTCTCAATTTA
TTCCTCTGTAAAATGGGGCTAAAAATCAATGTGCTGCCCACTGTATAGGGCTGTTCAAAGACCCAGATGGGGTTGTAATGTAAGGTAAAGTAAGGAATTC
TAATAAGGGGAATGTAACCTTCTTGTGATTTTTGTGAGTTAGGAGAGGAGAGAGGTTTCCAGTTCTTTCTTTTCATGCTGTTTTGATTCCCTCCAGGTGG
AGAGCACGATGGAACAGAACTTCCTGCTGGATAAAGAGGGTGTTTTCCCCCTGCAACCTGAGCTGCTCTCCTCCCTTGGGGACGAGGAGCTGACCCTCAC
GGAGGCTCTAGTCGGGCTGAGTGGCCTGGAAGTGCAGAGATCGGGCCCCCAATATATGTGGGACCCAGACACCCTCCCTCGCCTCTGTGCTCTTTATGCA
GGCCTCTCTCTCCTTCAGCAGCTTACCAAGGCCTCCTAATTTGCCTTTTACGTCTGCTTCATGACTCCCTAATGCCTTCCCAACCTCGTGGTGCTGTGTC
CTTACCACCTAAGGGCATTTCAGAGCCATCAGCTGAAGACATCTGAAATCTCAGCTGGTCACCCATGATAACCAACTTCCACCTGCCCAACCATATATCA
CCCCCTACCCCTCCAGCTCCGCAACCCACTAAGCCCATCTGCTGATGCTTAAATTTTCTTTACTTTTCTTTTCTTTTTTTTTTTTTTTTTGAGATGGAGG
CTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCTTGATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCTCGAG
CAGCTGGAATTACAGGCACGTGCCACGACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGCCCAGGTTGGTCTCGAACTCCT
GGCCTCAAGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCTGTGCTTAAATATTCTAGGAGTAGAAGC
ACTCAGACTTTTAAAACTATGAGCCGTTTCAGCAAAACTGAGAAAAAAAGAAGATTAATTAATTTCCTATCCTAATCCCTCCTACTTATACTTCCCCAAA
AAACAAGCTTTACTGGAATTAATGGAAAATATTATGTCAATCTTAGGAATGATATGTCTTTTGGTGTTTTTCTTTAAAGAATTTATCATACAGAAATTCT
TAATTTGTGCCAGAAAAAGAAATTGTTATCATACTGCATATAAATCATATGTACATGAATATGATGCTGTACTGTCCTCAGGCAAACTGGAAAATGCTCA
GAGGGTATAGAATGTGGAATCCAGATTTTTTTTTCTGTTCAATTAGTTTTCTTTAATGGAATCTAGAGTCTCAAGTGAGAAGATATCAAAGCAGTTTGTC
TTCAAAGAAGAGCATTTGGGAGTCCCCTAGCTCTGGGTTGAGGGAAAGACCGAGAGATATATAGTAGAAGCCCGAAACAAAAATAAGACAGATTTCAAAT
TTATTGAACAGAAAATGCAGATGGGCCTTTAAAAAAAAGGGGGACCCAAGAATAAGACTAACCCAAAACTTTAAAAACTAAATTGTGATATTATTTCACC
TTTCTCTGTTCTGCCCTGAAATTTAGGGTTCTTGTAGGAGGAAGTAGTGTGGGTAGGCTTGGCATATTACTACTAATATGGATATTACAATCTCATCAAA
CCGCTGGGTTTATATCATCCTCCTCTGCCTAAAAGCTGGGTTTGAACATCTTTCACCAACCTCTTTTAAAGCAGTATCAGGACCGGACACCGTAGCTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCTAATGTGGGCAGATCGCTTGAATCCAGGAGTTCAAGACCAGCCTGGGCAACAGGGCGAAACCCTATCTCTACA
AAATATACCAAAAATTAGCCAGGCATGGTGGCATGTGTCTGTGGTCCCAGCTACTCGGGAGGCTGAGGTTAGAGGATCACTTGAGCCTGGGAGGCTGAGG
CTGCAGTTAGCCAAGATAGCACCACTGCACTCCAGCTTGGGTGATGGAGCGAGATCCTGTCTCAAAAAATAAAAATAATTTTTAAAAAAGTAGTTCTATG
AGTGCAGTACATGTCTGTAATCCCAGCACTTTGCAAGGCCGAGGCAGGAGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTAATCAACATAGTGAAGC
CCTGTCTCTACTAAAAATTAAAAAAAAAAAAATTAAAAATTAGCTGGACATGGTGGCTCGCACCTGTAGTCCCAGCTACTCAGGAGAAGGAGGCAGGAGA
ATCGCTTGAACCCCAGAGGGGGAGGTTGCAGTGAGCCAAGATCACGACACTGTACTCCCTAGCCTGGCCAACAGAACGAGATTCCGTTTAAAAAAAAAAA
AAAGTTTTATGAGTGGAAGAATTTCTCTAAGGATTTTGGTCCGTGGAGTCAGACTCTCCCCCAGTGTCTTAGTCACCCCCTGCCCAGCCTGGTTCCCTCA
TCCACCAAGAATTCATGACCAACTGCCAGAAGCTTTGTGTTATGCCGCCAGCCTCCCTGATCCTGAGCACCTTCCAAAGCCTCACTCTATTGCTCATGGA
TATACTGGGTTGTTATCTGCTGACTTGGTTGTTTTCTCCTTGTGATGTAAACTTAATAGAGAGATGAGCTAACACCCTAACTATCTAGAAGAGTAACTCC
TTTGATTGTTAAGGATGAACATAACTCATCTGTTTTCTTCCTTACCATTCTCGCCCACCTTCAGTTGCAGATATGGTGTTATGAAGAGGTTCTAATGAGT
TTATTCCAATGATGATTCAAAAGTCCTGTTATCCACCCCCCAGCCCTGGAGGGTGAGAGGACAGTTGAGGAGGAACTGGTCAAGGCATGTTCCCTAAAAC
TAGAGCACATATCTTTCCAGTTAGCGAGTGGCTGTTTAACGCAAGGAACATCCTGCAATCCTATGAAAGAGGATGCAAAAGATATGCAGGATACCCTTTA
TATATGCAAAGGAGGAGGTCAAAACATATTTCCTGCCTTCTAGGTCCTTACAACAGGGCTAGATTGTCTTGTAGGGTCCGTGAAAGGTCTAAAACTCAGG
ACTTCCACTTATGGGAGAGAGAAAAGTTTCAAGGTAGGGAGAGAGTTTTTGTTTTGTGTTCTAAGAAATTGGGAGCTATATCCTTCACCTTGTTTCACCT
TCCCTGCAGAACCAGTGGGGCAGTCCTTTGAAAAATAAGTGGGTAGGGTTTCTTGTCCAATTTGCTTCCCCTTAGGTACACCACTAAGTAAACCATCATT
CTCTCCTTAGGCACACCATTATTCTGTTCCCCATTTCACAATGTCTGTCTGGATGTATAAAAGCCCTCTCAATGGGCTCCCTAAAGCGTCTGCCAGTAGG
GGCTCCCACCCTCTTTCCTCAACACTCCCAATCCACCGCAGCCCAGAGCACAGTGTCTGCTTATCTAACCATCTGACTCCCCCGTATACTACATTCTTGA
GCTGTTTTTCACCCCCCTATTTGCTAACCGTGGGCCGTACATAGGGTGGACCCCTATATTTTGTTAAACTGGAGTGATTCTACGCAAATGCACGCTCCTA
CCTATCGGCACTCCCAGCCTGCAGAAATTGTATGCCTTATGTTCAGCACTAAACTCAAATCTAACCAAGGAAGTCCGGATCCCATAGGGGTCTTCCTACT
CTCCAGTTCGGTTTATTTTAAGGCCAACAGCCCTAGCTTCACGTCCCTCCTTCACAGCCTTCTTTCCTTCCCTCCTGCCGGATGCGCCCGGCAGCCGTTG
AGCACAAGCCCAGCGGATCTGGAAGGAGACCCCGCCGCGACCGGGGAAAATTGAGCGAACTTGGGCGCAAAACCCGCCCGGCAACTCGTGACGTCATCTC
GTCCCGCGCTCGGATAGGCTGTACCCACTCCACGCTGGTTGAGGCGCTCTTAAAGTCCTTTGTAACCCAGATTGGAGCCTGAGGGGACCTCTCGTGGACG
CCCACAGAAATGCACTCGAGAGGAACATAAAAGCATCACACTTAAGCGCTCGAAAGAAAGCCCCACGAACCCATAAAGGCTCCTCCCCGCTCCTTCCTCG
AAGCTCCTCCTTCATCCTGCACCTCGGCTGTGGATTTATTTCCCCTTTGTTGACTCGGCCATCGGCCTGCCGGGCCTGGCGTTTCCCAGAAGGCCCAGCG
CCGGGAAGGGGTTTGCAGCTGCTCCGTCATCGTGCGGCCCGACGCTATCTCGCGCTCGTGTGCAGGCCCGGCTCGGCTCCTGGTCCCCGGTGCGAGGGTT
AACGCGAGGCCCCGGCCTCGGTCCCCGGACTAGGCCGTGACCCCGGGTGCCATGAAGCAGGAGGGCTCGGCGCGGCGCCGCGGCGCGGACAAGGCGAAAC
CGCCGCCCGGCGGAGGAGAACAAGAACCCCCACCGCCGCCGGCCCCCCAGGATGTGGAGATGAAAGAGGAGGCAGCGACGGGTGGCGGGTCRACGGGGGA
GGCAGACGGCAAGACGGCGGCGGCAGCGGYTGAGCACTCCCAGCGAGAGCTGGACACAGTCACCTTGGAGGGTACGGCAGCCCAGGCCGGGAACGTGCCG
CGATCGCGGGTGACAGCGACCCCTGTGATTTGGCTTCTTGCTGGGAAGCCACAGCAGCCTCCACCACCCTCAGTTCTTTGGGATCACCCCCAGATACCTG
CTTCCACTGGCCGACACTCCGATTCAGGCCCAATGACTGAACCTTCTYTCCAGGCTGGGAAACACTCCCCTCCCATCCCCTCCATCCCCATATCTGGGGT
TGCATCTATATCTAGGTCCCAGTGGGCCTGGGGACTCCCTCTTTTAAGTCCTCCCCTCTGACCTATTCCGTTTATATCCCACCCGACTGATTTTAGCGCC
TCCAATATATGACTGATTGTTCCCGCTGGAAACCAGTGTTTGTGTCTGTGTGTAAACAGGGCCAGGATGACCTAGAATATTGACTCCTGAGTTTTAAAAC
TGTACAGCAGATTTTTGTTGTCCTAGCTGCCTTTAGCACACTCCCCCGAATGAACCATTTCGACCTAGTATCTTGTTTCCTACTTCTCTAACTGAAGTGT
CCCAACAGTCCCCTTGCTGTCTCCTCCCTTCAGGTCCTTACTGCCCCTCTGTTTCTAAAGGGTTTAAGTACATACACACTTAAAACTTTTCGGGTGTCAT
CTTTGTTTGGTTTTGTAATACTCAACCTTTGGCCTAAACTCCTATATACCGGTGTCTCCTATTTCTTTTCTCCGAGGTTCCTGTTTCGAGTGTCTGTAGT
CCTCTTGTTCCTCCAAGTTCATGTTTTACTTTTCCCACTTACAGCGTCCTGTTTCCATTTGAAGTGGGCAAAGTGAGAGCTTCCCACTGTGATCCTGGTG
CCATTTTCCTGGTTCTGGATCAAGTGGGACCAGACTACTTACTAGGTTTTCTTTTCACTAAAATGCGTGAGAAACTAGCTCAAAAACATTGAGATAAGCA
AAGTTATCCTCCTAGGTGGTGCTTTTGAGGATGTGATGGTGTTGACTACATCAGCTCTTACTGTAAAGTTGAGCAACAGGATCGATATTTAATAGAGATC
CTTTTACCTAAAGTAGTGGCAGCAATGTCAAAGGTGCCACTCAGCATTGCCTACTGGGTGTGTTTATTACAGGCACTTCATTTTCTTCTTGTAAAGTAAT
TCATATTCATTGCAGAAATTGTGGAATGTATGAGAAGTTAAAAGCAGGRGATAAAAAACATGGTTAACATTTTTTCTTGTGAATTTTTGAGCTGTTCTCC
TATAATTGAGAGCAAGTTATGTATACAGTTTGTATCAAGGCATAACTAAATATAAATTTTGAATTTTATGTGTTTTCATTAACATTCGTAAACATAATCA
GCATTCAATTTATTCCAGAAACATTTATTGAATACCCAATATAATGGTTAAGAGTACAAGTTCTGGAATTAGTTCCCTCATCTGTATAAATACAAGTAAT
AGTACAGTACTTTATTGGGTTGTTGTGAACATTAAAATGCTTAAAACTGTGCCTAGCACATAAATATCAGCTGTTATTATTTATATCATTAGTGTGGCCC
AGATACCCTGTGCTAATCGCTGAATATACAGAAGTGCCTAAGAAACTAYTCATTGATTGCATTCCCTTATTGCTTTGCATTTAAACTGTTTCTAGTTTCT
TGCTATCATAAATAGCTTTGAAGCAATCATCTTTGTGCCCAACTTAAAAAATCTACTTTTCTAATTATTTCTTCAGTACAGATTCCCACCAAAACCTATA
TGCCTGAGTTTAAAAGGCTGAACATTTTAAAGGTTTTTGATAGTTATTGTCCAGAAAAACTGTGCTGATTTACATTATACCAGGAGAAATGTAGTTTTCA
CTGTACTCTATAATTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACTGCAACCTCTGCCT
CCCAAGTTCAAGCGATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGATTACGGTCACCCACCACCACGCCCGGCTAATTTTTTTATTTTTAGTAGAGACT
GGGTTTCACCATGTTGGCCAGGCTGGTCTCCAACTGCTACCCTTAATGATCCGCCCTCCTCAGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACTG
TGCCCCACCTATAATTTTTTTAATGTTACAAATTTGGTAGTTTAAAAATGTTTCCATTTGCAATTACTCAAATACTAATGGAATATAATTTTTGTCTGTT
AGCTATTTTTCCTCTTTGTATGTTAGTTCGTCTCCATTTTTGTTTTGAAATTGTGGCAATATAATCATTATACCATTATATCTCTTAACCATTTATACAA
GCTCTTTATAGAATAAAAATATGAATCTTTGATCACATTTGTTGAAAATATTTTTCTTTTGTATACACAGTTATCTAAAAGGGTTTTTTTAAATGAAGTC
AAGCCCATTAATCTTTTGTGCGTATGTGATTTCTCCCATTGTTCACATTTAGAAAGTCTTTTCCATTAAGATCTGATAAATCTGGACTCCAGGTTTCTGT
AGTTAATTGGTTTTTCTTTTCTTCCTCTGTCATCCTCTACCCCATCCTGCACCCCCACTGTATGTTTTTCTTGCCACTTGGTTATGTCTTAAAATCAGTG
TGTGGAATCTGTAAATATTATGGACCCCATTAGGGCAGAAAAGGTGAGTGGTCGCATTTTGCCCCTCTGTGAGAGGCTCCTTAGAACTCCTTGCCTGGCC
GGCACGGTGGCTCACGCCTATAATCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCAGGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAA
CCCCGTCTCTACTAAAAATACAAAAAATTTAGCCAGGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAAC
CCAGCAGGCRGAGCTTGCAGTGAGCCGAGATCACACCACTGCACTCCGGCCTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAA
GAACTCCTTGCCTGGAGTGGTGGGGGACTAGGAGTGAAAGTGACATCAYTTTCTTCTCTGCTCTTCTTCAGACATCAAGGAGCACGTGAAACAGCTAGAG
AAAGCGGTTTCAGGCAAGGAGCCGAGATTCGTGCTGCGGGCCCTGCGGATGCTGCCTTCCACATCACGCCGCCTCAACCACTATGTTCTGYATAAGGCTG
TGCAGGGCTTCTTCACTTCAAATAATGCCACTCGAGACTTTTTGCTCCCCTTCCTGGAAGAGGTGAGTGAGTCAGGCCAACTTAAAGGGTGCAGGCCTGG
CCTCAGATCCCCAGGAACAGCATTGTTTTCCATCCTAAAGTCCCATCTTATTACCTGTGGTAGCATGAGGAGAGAAGCCAAAGCAGTCCATTTGAATACT
CATCTGCACAGTGACAAGGGAACCGTCCACTGCCCTGTAGTGTCATTCTTCMAAGTCAGGGGATCAGGACCCTCCCAGCCAAACTCATTTCCCACTACCC
TGCAACCTGTACCCCCTACTCCAGTTGAGGTTGCGTTGGGTGACCTCTCTGTTGTTCTAGGAGAGAGAAGGTGCTGCTGCCTCTTTCTTCTGAAGCTTCA
CCATGGAGGAGGTAGAGAACAGTGGTTAGGAGGAGCACAGCTGTCAGGGCCAGGCACAGTGGCTCACACCTGTCTTCCCAGCACTTTGGGAGGCTGAGGC
GGGCACAGTGGCTAACATCGTCATCCCAGCACTTTGGGAGGCTGAGGCGAGCAGATCGTTTGAGTCCAGCCTGGATTCAAACAATCTGCCCGCCCAGGAG
TTTGAGACCAGCCTGGGCGACATGGTGAGACCCTGTCTCTGCAAAAAGTACAAAAATTAGCCAGGCATGGTGGCACCTGCCTGTAGTCCCAGCTACTCGG
GAGGCTGAGGCAGGAGGATCACTTGAATGCAGGAGGTGGAGATTGCAGTGAACCAAGATTGCACCACTGCACTCTAGCCTAGGTGACAGGGTGACCCCCC
TACCTCAAAACAAAACAAAAAAAACCCCACAGATTTTAGAGGTAGAGTTGAATTTGAATCCAAACCCTGACAGTTAGTACCTGTGGGACTTGGGCGAGTG
ACTTCATTTTGCTGTGCCTCGTTTTCTTCATTTGTTAAACGTGATGAACGGATTGGGAAGCGGGCAGTATAAAGCTCCTAGAGCAGTGCCTGGTACGTAG
TGAATGCAGACGAAGTCAGTTTGGTGGTGGTGGTGGCGCCTCCGTGCCAGGAGAGACCTCTCCTTATCCTCTGTAGCTGTAAACTCTCCCTCATGATTCA
TGGCATGGGCCAGGTCTCAGCCTTCTCCAATTCCACTGACCTTCCAGCACCTGCATTTCCTTAAAATCCTGTATACTCAGTCAGCTCCGTGGATGGGGAA
ACTCAGAACATCCCTGGAGGCAGGGCAGTGAAGAGTTTCTTGTCTGGGAAAGGGGAAAAGCGTACTGTTCCCCCAACTCYACCTTGAATATTTTCTGACC
TTCACATCGCTAAACTCACGAAACGTGATTATTTTGGGGGTGACTGTAACACATTATTTTTTCCAGTGTCAGTGACAACATAGGAAAATATGTTTTGTTT
ATATGTTGACTTTCCCTAAATTTTCTTTGTTCCCACAAGAAACCAKTTTTTGGTCTCATTATTCTGATTTCATCTCTAGAATTATTTCGTTCAGCCCTGT
CCAGTAGTATTTGCAGTGGATCCAGGTGTGGTGGTTTAATGTCTCCACTTAGGTTGTAGCCTCTTTGAAGGTTCCTTACATCGTCCTTTGTCTCCATTAT
GTTGTGTAAAGAAATTTTTTGTTCTCCTGTAACACTTTATTGTGTTTATTAATATTATATTGCCAGCCTCCTTGACTTGTTTTGTTTTTTTGAGATGGGG
TCTTGCTCTGTCACCCAGGCTGAAGCACGGTGGCACACTTATGGCCCAGTGCAGGCTCAGACTCCTGGTATCAAGCAGTCCTCCTGCCTCAGCCTCCTGA
GTAGCTGGGAATACAGGTGCATGCCACCATGCCTGGCTAGTTCTTTTTTATTTTTTGAGAGATGGGGTCTCACTGTGTTGCCCAGACTGGTCTCAAATTC
CTGGCCTCAAGCATTCTCCTGCCTCAGCCTTCCAGGTAGCTGGCACTACCGGCGTGAGCCACCACACCCAGCTCCTCCTTGATTTCTTTGGGAAAGACTG
TMATCTTTATTTTTTTATCCCTAGCACCTAACAAAATCTTGGCACATGGTAGACACTCAATAAATATGTTGAAATACATAGTGGATGCTCAATAAATTCT
TGGTTACTTGATCAGACTGAGCTTTTCCATGGTAACTTCTGTCCTCTCCTAGCCCATGGACACAGAKGCTGATTTACAGTTCCGTCCCCGCACGGGAAAA
GCTGCGTCGACACCCCTCCTGCCYGAAGTGGAAGCCTATCTCCAACTCCTCGTGGTCATCTTCATGATGAACAGCAAGCGCTACAAAGAGGTATCCAGGA
TGYRGTGAGAGCGATTCATAAGMCCCAAGTGATGCAAGGGGTTTGGCRGGGAGATGGTCCCTGGTGAAGAAATGGAAATAATCATTGATTCTTAAGAACT
GTCCCCCACACTCTTTCCCCATAGAGGTATGCGTTTGATCCCACATCCCAGGAGAACCCACTCTTGCTCTGGGCACTGTGGGACAGGGCTTGCAGTGGTC
ATGCTGTACCGGTCTGTGGGGGATACCAGCGTAGTACATTCTTGGGGAAAAGTAGGGGCATTTGGAGACAGAAAGACCTGGGTTCCAATCCCAGCCATAC
CCTAGGCAAATTAATTTCTCCCAGCTATATGTAAGATGGGGATAATAGTGCCTACCTTACAAGATGGTTAGCGTTACATAAAATAATTTGTTTAGAAATA
CTTAGCACAATGATCTGCATATAGTAAGCTTTCGTGATATTTTCATAAATGGTAGCTGTTATTATGGACTAATAGCTCCATTTGCAAACTGCACTTCTAC
CACTCCCCAGCTAGGGCCAGCTTCTTTGTTCATCATAGCCACTGTCACAGGAGCARACTCAGGAAGTAAGTTGCACTCCTTAATTCCCTGGTTTGTTTCC
TTTCCTTACCACACTATTTTTGGTTGTTGTTTGGTTGGGGGTTTTTTTGAGATTGGGTCTTGCTTTGTTGCCCATGCTGGAGGGCAGTGGTGTGATCACA
GTTCACTTGACCTCCCCGGCTTAAGTGATCCTTCCACCTCAGCTTCTTGGGTAGCTGGGACTACAGGCATGTGCCACCACGCCCAGCTAATTTTTGCATT
TTTTTTGTAGAGACAGGATTTCACCTTCTTGCCAAGCTGGTCTCCAACCCCTGGGCTCAAGTGATTTCCTGGGCTCAGCCTCCCAAAGTGTTAGGGTTAC
AGGCATGAGCCACTGCGCCTGGCCCACTGTTTTGTTTTTACTGGAGATGGGGTCTTGCTATGTTAACCAAGCTGGTCTTGAACTCCTGGGCTCAGGTAAT
CCTCCCGCCTCAGCCTCTCATGTAGCTGGGATTACAGGCACGTGCCACTGTACTTGGCTGTTTGTTTTTGAGATATAATTCACCCCTTTAAAGTGTACTA
CAGGCCAGGTATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCATGAGGTCAGACAATCAAGACCATCCTGGCCAACAT
GGTGAAACCCCGTCTTTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCATGTGCCTGTAGCCCCAGCTACTCAGAAGGCTGAGGCAGGGGAATTGC
TTGAACCAGGGAGGCGGAGGTTGTGGTGAGCCGGGATTGTGCCACTGCACTCCAGCCTGGTGACAGAGCGAGACTCCGTCAAACAAATAAATAAGTATAC
TACAATTGAGTGGGTTTTAGTATATTCCCAAAGTTGTATATCCACCCCTAATTCCAGAACATTTTCATCACCCCACAAAGAAACACCATACGTATTAGTA
GTCACTTTTCATTTTCCCCTTACCCAGCCCCTGGCCGCTACTAATCTGCCCTGTCTCTATTGAGGATTTACTTACTCTGGACATTTCATGTAAATGGAAT
TACACACCGTGTGCCCTTGGTTTCTGGCTTTTTTCACTTAGCATCATGTTTTCAAGGTTGACCCATGTTGTAGTGTGTGTCAGTACTTCCTTCCTTTTTA
AGGCTGAGTAATATTCCCTCGTGTGGATGTGCCACATTTTGTTTATCTGTTCATCAGCTGACGGGCACCTGGGTTGTTTCTACTCTTTGGTTATGAATAA
TGYTTCTGTGAACATTCGTGTACATGCTTTTATGTGAGCCTAAGTTTCCAGTTCTCTTGGCTTGCATACCTAGGATAGGAATTGCTGGCTCAAATGACAA
CTCCATGTTTATCCTTTTGAGGAACTGCCACTTGATTCTCTTTTGGCTTCCTCCCCAGGCACAGAAGATCTCTGATGATCTGATGCAGAAGATCAGTACT
CAGAACCGCCGGGCCCTAGACCTTGTAGCCGCAAAGTGTTACTATTATCACGCCCGGGTCTATGAGTTCCTGGACAAGCTGGATGTGGTGCGCAGGTACA
GGCAGCCAAGCATCTCACTTGGGGTCCGTGGGGTCAGAGACTTGGTCAGTCACAAGCACACAGCTGTGGATCTGCAGAGGGCGAAGAACCTGTAGATGTA
AGCAGGGAAGAGGGGCAGTGGTTCCCATGCCCTGCGCCACGTGAGGGGTGTGGGAGAGAGACTGGTGCTAGATGAAGAAGTGGGTCACTGCTGGGCTGTA
AAGAACTGTCCCCAGGTTCTTCCCTTCACCCCACATCAAGGTAGGACTGAGGGTGGGTTAGGGGTGGAGGGACAGGCTAGAAAACATTTTACTTCTTTGC
TCAAAACCTGCAGTGGCTTCCCGTCTCAAGGAAAGACAAAGTCCTTACAATACCTCATAAGGCCTGACGTGATCTGCTCCATTTTGACCTCCCAGACTTC
ACCTCCTCCTGCTCCTCAGCCCCACTGGCCTGCCTTTCCTCTGGTGTGCCCGGCACACTCTTCTTCAGAGCCTTTGCACTGGCTGCCCCTCTGTCCAGAA
CACTCTTCTCTCCGCCTCCTTCAAGCCTTCCCTTAACTGATCCCTTCTCAGTGAGTCCTGCCTTGGCCAAGCTATTGAAAAGTTCAACTCATCTTTCTCA
CGTCCTGCATTCCCCATTGCAGTTCCCCTGGCCTCACAGGCCTCCCATCTTCTGTCACACTGCAGGCTGTGCTTCTTTCTCATGACCATTGCCTCCCCCA
CTGCACTGCATTCCCTAAGGGCAGGGTTTTGTCCCTTTGTCGCACCCAGAATAGTGCTGTACACCTTAGGCACTCGATAGTTAACAGTATTCAGCAAATA
ACCAGAAAAGCAATTTGTATAACTTTTTTAAGGAATTGAGAAAGAGCGAAGAGTTAAAGGCAGTTCAGAGAGTTGTSATTTGAAGGCTTTGACATCTTTC
TTTCCTTCTTGAAGCTTCTTGCATGCTCGGCTCCGGACAGCTACGCTTCGGCATGACGCAGACGGGCAGGCCACCCTGTTGAACCTCCTGCTGCGGAATT
ACCTACACTACAGCTTGTACGACCAGGCTGAGAAGCTGGTGTCCAAGTCTGTGTTCCCAGAGCAGGCCAACAACAAYGAGTGGGCCAGGTACCTCTACTA
CACAGGTGAGCAGAGGGGCCCAACCCATAAATCAGAAGGTGTCTCAGGCCTGCCTGGTGCAAATTTTCCAAGGGGTGGTGCATAAGAGGCCCATTTGGCA
CCCTGGCTTGTCGGTGGGGAGTTGGATGACCCTACTCTGTTGACCAACTCTCCTCTCCTCCACTCCCAGGGSGAATCAAAGCCATCCAGCTGGAGTACTC
AGAGGCCCGGAGAACGATGACCAACGCCCTTCGCAAGGCCCCTCAGCACACAGCTGTCGGCTTCAAACAGACGGTGAGCCACAACTACCATCATCCCTTT
GCCTCTTTTTTTTTTTTTTTTTTTAAATGGTGTCTTGCTATGTTACCTGGGCTGGTCTTGAACTCSTGGGTTCAAGAAGTCCTCCCACCTCAGCTTCCCA
AAGTGCTGGGATCACAGGTATGAGCCACCATGCCTGRCCCCTTTGCCTGTTACTCATTCCCTACCACTTCAGTTCTCTTCTCTATGCTAGGGGCTAGGAA
AGGCATCCTTAACCTTCCTATCCAGAAGGACTTCAACTTTTATTATTATTTTTTGTGTGTGTGGAGACAGGCATATCACTGTTGCTCAGGTGAGAACTCC
TGGGCTCAAGCAATCCTTCGGCCTCTGCCTCCCTAAGTGCTGAGATTGCAGGTGCGAGCTGCCATGTCTGCAAAAGGTTGCTTCACATCTATTTGTGGGT
GTCAATGAAGCAGACACTACCTGCACCTCTGGCAGTGGATATTCAGAGTGTTYCTGGCAGATAGGTTTAGAATATTCCTGATTCCCCAGMGCTCCTGACA
GTCATTCCAGGCTTGGACCTAGATTGTGTTGATACAAACCCCAGGTTTTTATCTAGTCCTTCATGTTCACATTTGGAAACTGTATTGTCTGTGGCCAAGG
AACCCAGAAAATCTCTGCAAGGCTGAGTGGCTCAAGTAAACATAAAACTTGGCCACTTAAGAGCTGTCAGTCAGCAAGTATTTAAGCATCAACCTTGGTA
TTAGGCACTGTAAGGGATAGGAAGGGAGGATAATAAGTGATCTTTCTTTCTTTTCTTTCGTTTTTTGTTTTCTGAGACAGAGTCTCCCTCTGTCACTCAG
GCTGGAGTGCAATGGCRYGATCTTTTCTCACTGCAACCTCTGCCTCCCGAGTTCAAGTGATTCTCCTGCCTCAGCTTCCTCAGTAGCTGGGCAGGCGCCT
GCCACCACATCCAACTAATTTTTTTGTTTGTTTTTTTGGTTCTTTTTTTTGAAACGGAGTCTTGCTCTGTCTCCCAGGCTGGAGACAGAGGTGCCATCTT
GGCTCACTGCAACCCCTGTCTTTGGGGTTCAAGGGATTCTCCTGCCTCAGCCTCCCGAGTAACTGGGATTACAGGCGCCTGCCACCACGCCCAGCTAATT
TTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCAYCTCAGCCTCCCAAAGTCCT
GGGATTACAGGCGTGAGCCACCGCTCCAGGCCAGGTATTTCTTATTATTAGAGTATTTCAAAGAGATAAAGAATGTTGTGTCAGAAAGCTTGAGGGTGTA
TGTGAAGTCACAGAGCCCAGTAGCCAGGATGTAGACCCAGTCTTCCCAAATTCAAACCTCTGCTCCTACCTTCACACAACATCCACCTCCATGGTGTCTT
GACAGGGAACGGGAGACGTGTGTTGATTAGGTCAATGTAGTAGGAGATTCATTTTATTTCTGTTCAGAAGTTCAGAGAAAGTCAGATTTGTTTTTGATCA
AATAATGAAAGAGAAAGGGTCTTAAAGAAAAAGTTGGCTAGGTACAGGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGTGGCAAGAGGATTGCTT
GAGACCAACCTGAGCAACATATGGAGACACCGCCTCTGCAAAAATTAAAAACCTAGCTGGGCGTGATGGCATGCACCTGTAGTCCCAGCTACTTGGGAGG
CTGAGGTGCAAGGATCACTTGGGCCCAGGAAGTYGAGGCTGCAGTGAGCCATGATCGTGCCACTGCACTGCAGCCTGGGCGACAGAGCAAGACTCTGTCT
CAAAAAAAAACAAACATTAAAATTGAACTGGTCTTTGAAAGATGGGTAGGATTTTCACAAGGAGTAAAGGCTTTTCAGACACACAGGGTGCGTGAGCAAA
ATGTTAGATTGCTTACAATATGAGAGACACTAAAGTTTCTTTTGAAAATCACTAAAAATACTAGTAATTAACATATATAAAATGTGTCATGTACCATGAG
AGAGGCTTTCAGGCATTTAAATCTCAGTGGCAGGAAGGCGTAGAGAGCTGGAAGAGAGGTCTCGGGCTGTTGGTGAGGGAGCGCAGGGAGAGAGAGGGCG
GGAGTGAAGGCATGTTTGGGAGAAGGCCTGCAACCAGCCCTCTGCCCTCTGCCCTCACACACCTTTGCCGTACCCCTGTCACCACCCAGCTTACAGAATC
ACCTGGGGCTCTGATGAAGCTGTAGATTCCGATTCAGAGAGTCTGTGTTCCTAACAGGCCTTGGGTGATGCCAGTGCTGCTGGTGGCACAGAGCGCTCTG
AGGAGGGCGGTGCTGGCTCATCCTGTTCAAAGCGGAGGTCAGCTAGCATTCATTCCTGCAGCCACCTTGTCTCTTGTAAACTTGAATGTCTCTCTCCGCC
CATTTTCACCCTCCCTGTCTTTACTTAACACCAGCTTCACTACCTGTGTTTTCCATCACACTCCTTCCTCTCTCTTCTAGCCTTGGCCCATCACCTGTTT
GCTTCAGTCTCCGGGAAGAAAACCCCCAGCCCTGCTGCTTCCTCTCTCAGGCKSCCKRYTCCTGTCTCCCCTGGCTCCCTCCCCAACAGTGCACTGGCCA
GCCCCTTCCCTCCAGTGTTCTCTCTGCTCCTTCTCACCACCTGGGCCTCAGCAGAGCACTCTGAGAGCTTCTCTGTCGATAGTAAAACCCTCATTCTCTC
CTTGAGTGACCTTGTTTGCTTTCCCAGCTTCAGCGCTCGCCTGCATGATGCTCTTCAGCCCGTACATTACTAACTCCGTTACTCTGCTGGCACTGCCACC
GCAAGGTCCCACAGACTTGGCGGCTTAAACAACCGAAATTGATTTCATCACAATTCTGGAGGCTCTAAGTCCAASAGCAAAGTGTGACACGATTGGTTTC
TTCTGAGGGCCTCTCTCGTCTGCTTGTCGATGGCCRTCTCCTGGTGTTTTCACATGGTCTTCCCTCTGTGCGTGTCTGTGTCCTGCTTTTGTCTTAGAAG
GACAATAGTCATGTAGGATTAGGGTCCACCCATATGACCTCACTTTACCATAATTACCTCTTTAAAGGCCCTGTGTCCAAATAGAGTCCCATTCTGAGGT
ACTGGGGTTTAGGTCTCTAACATGAACTTGAGGGGGATGCAGTTTAGCCCATAACACTAACTCTGACCCCTCTCACGAGCATCAGGCCTGCAGATCCAGC
TCCCCCTCCCACTCCCCATGTCTCTCTCTACAGCGTGTCCCAAAGAGAYCCYTCCTGGCCCCCTTACCATTCCTTCCTCCTGCTTTCCCGATCCAGATCA
GGGCCTTGGGATCATCTCTGACTCTCCCCCATCCTCCTTCCCATCACTTGGTCGTCTGTTGAATTGTCTGCACATCTTCTGTGTTTGCCTGTTCCTTCAT
ATTGCCAGTGCCATGGTTTGAGCCACTAACATTCCCAGACACTTCTGCCTGGTCATCTTCCTCTCCAGCAGCCCAGCTTACATTCACTTGCCTTACTAAG
CAGAGCTCCAGCTCTGTCCTTCCCTTGCCTGGGAAGCTTCCATTGCTCCCCACTGCTGTAGGGTATCATAACGGTCTTGTGAGGTAGACAGGCTAGGTAT
TGTTATTGTTATTTGGTAGTTTTAGAGATGAGGAACTAAGGACCCAGTTGCTCAGTGTTTCCTAGCTAGTGAATAGAGACTAGACACCAAGTGTTCTACG
TGCAGACTTTATACTGCTCAGCCTGGCACACAAAATGGCAATGGCATAGTCCCCAGACTGYGGTCCCAACTGTCTCTTTCCTAACAGCTCCCCAGGCACC
CACACTTTTCTGCCTCTTTTTCAATCTGTACCCTTGACCCTCCTCCTTTTTCTGCTTTGTCAGACTCCTTAAGGCACTTCATAAATTAACCATTTCCAGG
GATTTCCCCTCACACATGAGTTATTCCAGTGGACAGGGCAGCCTCATGGGTGCCTGTGGAGGGTGAAGGGTCTGCCTGGCCGTAGGTGTGATCACACACT
CCCGTTGTAACCCCTGYCTCCTGTGACACTTGCTGCCCCACGATTTAGCTGCTTTGTGTTCCGTGCCTCCTGTTTGCTGGTGAACTCCTGAGTTGGGGGG
CGTCATTCCCTCCACTGTAGTTCTTCCGYGATGCTGAMTCCACCCACGGTCAGCACCACTCGGAAATACTTCACAGTCCTGTAGAGGAAGACAGGTCCAG
GTTTCCAGTTACCCTTCTATGTCTGGATACTCTGCTCATTCACTGAAGCCAGGCCCCTTCCTGCACTTATGCCTCTACCCAGATAATGAGTTCTACCCAC
TGATGACCTCCTCTCCTCTAGTAACAGTCCGCCTCCCTAATGAGCATCTCTGGCTGACACACGTTCCGTTCTCCAGGCCTGTGAGCCCTGGTCCCTCGCT
GTTGCTGAGCCACAGCACCCGCCCTTCTGGCCTCACTTTAGAGCACTGTCATTTCAGAGCAGACTACGCGYGGGGTGGCCAGGTGAAATGCAGCTGACGG
CTCTGCGACCAAATGTGACCAAAGGGCCACATTCCCAGYACCCGGCTCCAAAGGCAGAGCTTGGATTCTATGCCCAGCACAGGTTTTCAGGGCTTCCTCC
TCTCTCTGGGCCTAAACAGTGATCCCTTTCCCTGTTTCCCACTACATCTGGCAGAATTTAGGCCACATTTCATTTTCTTCTTCCGCCCATGGGGCTCCCT
GCCCACTGTGTTCCCCTGTCACTCTGTCCAGGTGCACAAGCTTCTCATCGTGGTGGAGCTGTTGCTGGGGGAGATCCCTGACCGGCTGCAGTTCCGCCAG
CCCTCCCTCAAGCGCTCACTCATGCCCTATTTCCTTCTGACTCAAGGTAAGGCTGGCTTCCCCACCCCAGAGCCCACTAGGCCCCCTTCAGTGGGGCCTC
TTACATGCCTGTGCCTATTTGCATCATCCAATCTACTCCTGTTCTGCCTGCAGCTGTCAGGACAGGAAACCTAGCCAAGTTCAACCAGGTCCTGGATCAG
TTTGGGGAGAAGTTTCAAGYAGATGGGACCTACACCCTAATTATCCGGCTGCGGCACAACGTGATTAAGACAGGTGTGGATCAGGATCTGAGGGGCTGTT
GGAGGAGCAGAAGCCAGGCCAGGGCAAACCTAGTGGGTATCCTTGGGCAAGTGAAGGGTCTGTGTCCACTCTGCCCACCCCATCGCTCCTTCCTCTCCCA
GGTGTACGCATGATCAGCCTCTCCTATTCCCGAATCTCCTTGGCTGACATCGCCCAGAAGCTGCAGTTGGATAGCCCCGAAGATGCAGAGTTCATTGTTG
CCAAGGTGGGGCTGGTTCAGGAACCACAGTGACCAGGTTGTCACTTTCCTGCCAATCTCAGGAGGCAGGAGTGGGAGGAGTTTGGCCAAGGAGGGGAATA
GGTAAAGCAATGGCATAGTCATTTCAGGGCGTGCCCGTCATTTGCAGTGAAGCCAAGAAGTTGCCAGAGAGAGCATGGATGTGCGTGTGAGTGTGTGAGT
GTAGGTGTGTGCACATGTTGAGTTTATGATAGTGCCTGTGAGTGTGAGAATATAAGGAGGGCAGAGGAATGGGATGGAACAAGATGTTCTCTGACTTAGA
AGATGGGCGTGCTGGGCCAGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGACATGGGCAGATCACCTGAGGTCAGGAGTTTGAGACA
AGCCTGGCCAACTTGGCGAAACCCCATCTCTACTGAAAATACAAAAATTAGCCAGGCCTGGTGGCAGGTTCCTGTAATCCCAGCTACTTGGGAGGCTGAG
GCAGGAGAATCGCTTGAACCCGGGAGGTWAAGGTTGCAGTGAGCTGAGATCGCACCACCGCACTCTCCTGCCTGGGTGACAGAGCGAGACTCCATCTCAA
AAAAAAAAAAAAAGAAGAAGCTGGGTGTGCTGGTGAACTTTCCTCTTTGGGGGCCTGCAGGCCATCCGGGATGGTGTCATTGAGGCCAGCATCAACCACG
AGAAGGGCTATGTCCAATCCAAGGAGATGATTGACATCTATTCCACCCGAGAGCCCCAGCTAGCCTTCCACCAGCGCATCTCCTTCTGCCTAGATATCCA
CAAYATGTCTGTCAAGGTGAGAAGCCCGTGGCTGCAGAGTCACRCCTGGCAGCAGCACACCCCTCCCTCCACACTCATGGATTCCTCAGAGAAGACTGGC
TTAATTTGTGGCCCACGTCCCAGCCAATCTCTGTAAAATCACTGAGCTGCAGCACAGGGGGCCCAGAATGGGGAGGGGACTTGGCCATARTTCCATAGCC
AGTTGCCCTCTCCTATTGCGTTTAAGGGATGATGTGGTCACCAGGGAGGACCAGGCAGGGATTCAGAGGGCGGGGTTCTACATTTGGTTCCAAATTTGAG
GCATTTAACTTCTCAAAGCTCTGTTTCTCCATCTCTGAAGCTGATAGGGAGGTGTTACCTGTCTTGCTTGCTTCACAGGGTTGGTAAGATTAAAAGAAGT
CCCTGTATTGAGGCACTTAGCGAAGTCTAAATTGTAAAAAAGATGGCGCTGGTATCTAGCTCCACAAAAGGGTGAGCCCTTATCCTCAGTTAAGCACTGA
GTTTGGCGCTGTTACTATTTGCTTGCCATGTTTTTTTCTGGTCTCCTCCGAGGAAACTAGGATATTGCTGCCTTGCTTAAAATCTGGCTAAGCCCTACTC
CACGTGACATGCAAGGCCCTTTGTGACCTGGTCCCTTAGGTCAAGCCTCCCCTCCCACTCCTGCCCCACCACCCAGCAGCCAGCCCACTGGGTGCAGGCC
AGGCCCCTCCCACATGGAATCCTCCACCGGGAAGGCCTCTCCCCGTTGCCACATCCACTGTGTTCCTCCTTTTCCTCCTCCCTGCCCAGTCAAGAGAGTT
GGTCGTTTATTCCTCTTTTTTCAGCATTTCCCACAGGGCACTGTAATAATTCCTTTGATGCCTAGCCCCCCACTAGACTAACTGGAGAGGGGCCCGCCGC
TTCCTGCCTGGTGTCTAGCTCACAGAGGGGACGCAGGGAGTGCAGGTTGCGTGAGTGCCTCACCTGCTTCCTTCCCTCSCTCATCTCCTCTCTTTGCTGT
GCCCCAGGCCATGAGGTTTCCTCCCAAATCGTACAACAAGGACTTGGAGTCTGCAGAGGTAAGCTCTCTGCTTTCTGGGTGAGACCGAAAGGTCAAACTT
CCACACAGAAGGGGAGTCGGGCGAGTGTCTGGAAGGGCTGAGCTGCTCTGAAGCTTTGGCCTCACTTGCCTCTCTCCCCAGGAACGGCGTGAGCGAGAAC
AGCAGGACTTGGAGTTTGCCAAGGAGATGGCAGAAGATGATGATGACAGCTTCCCTTGAGCTGGGGGGCTGGGGAGGGGTAGGGGGAATGGGGACAGGCW
CTTTCCCCCTTGGGGGTCCCCTGCCCAGGGCACTGTCCCCATTTTCCCACACACAGCTCATATGCTGCATTCGTGCAGGGGGTGGGGGTGYTGGGAGCCA
GCCACCCTGACCTCCCCCAGGGCTCCTCCCCAGCCGGTGACTTACTGTACAGCAGGCAGGAGGGTGGGCAGGCAACCTCCCCGGGCAGGGTCCTGGCCAG
CAGTGTGGSAGCAGGAGGKGAAGGATAGTTCTGTGTACTCCTTTAGGGAGTGGGGGACTAGAACTGGGATGTCTTGGCTTGTATGTTTTTTGAAGCTTCG
ATTATGATTTTTAAACAATAAAAAGTTCTCCACAGTGCTTTGTGCATCAGTTACTATACTTCACTGCAGTATTGGCAGGCTCAGATTTTGGGTTTTTTGG
CCTTAGAGTACTAGCCCCAGGTGTGTAATCTGAGGGCGATGGGTCTGCAGATGGGGAGGTGCCCAGGGGAGGATGAAGGGACCCTGACCTGGGGTCGGGG
GCCTAGGTTTACTCTCTTTTCGTACTTGTGTGGCTTTGGTAAGGTCTTGTTAGGAAAGGTGTACCATGTGTCCATCACCAGCTGCAGACCTTCATCTCCC
AATACACCTCATGGTGCTTCACGGTTATTGCAGTTTTTACAAATTGAAGGTTTGGCCAGGCATGGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGC
TAAGGTGGGCGGATCACTAAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCAAAACCCCGTCTCTACTAAAAATAAAAAAATCAGCTGGGCATGG
AGGCAGGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAAGCAGGAGAATTGCTTGAACCCGGGAGGTGGAGCATGCAGTGAGCCAAGATCTCGCCACTGC
ACTCCAGCCTGGGCAACAGAGTGAGACTGTGTCTCAAAAGAAAAAGAAAAGGACAAATTGAAGGTTTCTGGCAACACTGCATCAAGCAAATCTGTCGGTG
CCATTTTCCCAACAGCATGTGCTCACTTAGCGTCTCTGGGTCACATTTTGGTAAATCCTCTCGATATCTCAAACTTTTTCATTATATCTGTTATGGTGAT
GTGTGATCGGTGATCTTTGATGTTACTATTGTCATTGTTGGGGCACCACAAATTGCACCCATATAGGATGGTGAACTTAGCCGGGCACGGTGGCTCGCGC
TTGTAATCCCAGCACTTTGGCAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAGGACCAGCTTGGACAACATGGGGAAACCCCGTCTCTACTAA
AAATACAAAAAACAGCCGGGTGTGGTGGCAGGCGCCTGTAATCCCAGCTACTTGGGAGACTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTC
CAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGTGACACAGTGAGACATTGTCAAAAAAAAAAAAAAGATGGTGAACTTAATAAATGTCGAGTGT
GTTCTCACTGCTCACACTGCTCACTCCATTCCCTGTCTCTCTCCCTCTTCTTGAGTCTCTCCATGCCCTGAGACACAAAATAATATTGAAATTAGGCCTG
TTAGTAACCCTACAATGGCCTCTTAAGTGTTCCAGTGAGAGAAAGAGTCATTGGCCAGGCCTGGTGACTCACGCCTGTTATCCCAGCACTTTGGGAGGCC
AAGGCTGGTGGACCCCTTGAGCTCAGGAGTTGGAGATCAGCCTGGGCAACACAATGAAACCTTATCGCTACAAAAAATATAAAAATTAGCTGGGCATGTG
GCACGCACCTGTAGTCCCAGCTACTAGGAAGCCTGAGGTGGAAGGAGCCCTTGAGCCTGGGAGGTGAAGGCAGAGGCTGCAGTGACCTGAGATCCTGCCA
CTGCACTCCCACCTGGGCGACAGTGAGACCCTGTCTCAAAACAAGAAAACAGAAAAAGGGAGAAAGAATCACACATCTCTCACTTTCAATCAAAAGGTCA
AAATGATTATGCTTAGTGAGGAAGGCATGTTGAAAGCTGAGAGAGGCCAAAAGTCAGGTCTCCTGCACCAAACAGGTAGCCAAGTTGTGAAGGGGGAGTT
CTTTAAGGAAATTAAAAGTGCTGCTCCAGGTTGGGCACGGTGGCTCACAACTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACAAGGTCAG
GAGTTCGAGACCAGCCTGGCCAGCATGGTGAAACCCCGTCTCTACTACAAATACAAAAACTAGCCAGGCATGGCAGTGGGCGCCTGTAATCCCAGCTACT
CGGGAGGCTGAGATAGGAGAATCCTTGAAACCGGAAGGCAGAGGTTGCAGTGAGCCGAGATCACACCACTGCACTTCAGCCTGGGTAACAAAAGCGAAAC
TCTGTCTCAAAAAAAATGTTTTAAAAAGAGTTCGAGACCAGCCTGGCCAACATGGCAAGACCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCGTG
GTGGTGCATGCCTGTACTCCGAACTACTTAGGACGCTGAGGCAGGAGAATCGCTTGAAGTGGGGAGGCGGAGGTTACCATGAGTCAAGATCGCACCACTG
CACTCCAACCTGGGTGACAGAGCGAAATTCTGTCTCAAAACAATAAAAAATAAAAATGATAAATTAAATTAAAAGTGCTGCTCTAGTGGACACACAAATG
ATATGAAAGCAGAATAGCATTATTGCTGATACGGAGAAAGTTTGAGTCTGGAAAGAAGATCAAATCAGCCACAACATTCCTTTAAGCCAAAGCCTAGTCC
GGAGAAAGGCCCTCACTCTCTTCAATCCTTTGAAGGCAGAGAGAGGTGAGAAAGTTGCAGAAGAAAAGTCAGAAGCTAACAGAGGTTGTTTTGTGAGGTT
GAAAGAAAGAAGCCGTCTCTGTAACATAAAAGTGCAAAGTGAAGCAGCAAGTGCTGATGGAGAAGCTGCAGTAAGTTATCCATCAGATCTAGCTGATCTC
ACTGACGAAGGTGGCTACACTCAAAAACAGACTTTCAATGTAGACAAACAGCCTTCTATTGGAAGAAGATGCCACCTGGGACTTTCATAGCTACAGAAGA
GAAGTCAATCCCTGGCTTCAAAGCTTCGAAGGACAGGCTGACTCTCGTTAGGGCTAATGCAGCTGGCGACTTTAAGTTGAAGCCAATGCTCATTTACCAT
TCCGAAAATCCCAGGGCTCTTAAGAATGATGCTAAATCTATTCTGCCTGTGCTCTGTGGATGGAACAACAAAGCCTGGATGACAGCCCATCTGTTCCCAG
CATGGTTTACCGAACATTTTAAGCCACTGTTGAGACCAACTCCTTCGTCGGCTCTGTCGGCCAGGCTGGAGTGCCGTGGCATGATCTCAGCTCACTGCAA
CCTCTGCTTCTAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGAGCCACCGCACTCGGCCAAAAAAAATATTTTTTA
AAGTTATTACTGCTGATTGACGATGCACCTGATTACCCAAGGGCTCTGATGGAGGGATACCAGGGAAATAATATTGTTTTCATTCCTGCTAACACATCCA
TTCTGCAGCCCATGGATGAAGAAGTAATTTCAACTTTCAAGTCTTTTTTAAGAAATACATTTTGTAAGGCTAGAGCTGCCATAGTGATTCCGCTGATGGA
TCTGGGTAAACTGAAAACTTAGAAAGCATTCATCATTCTAGATGCCATTAAGAATATTCATGATTAGGGCCGGACGTGGTGGCTCATGCCTATAATCCCA
GCACTTTGGGAGGCTGAGGCAGGTGGATAAACTGAGGTCAGGAGTTTGAGACCAAGCTGGCCAACATGGTGAAACTCCATCTCCACTAAATAAATAAATA
AATAAATAAATAAATAAATAAATACAAAACTTAGTCAGGTATGGTGGCACGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGACATGAGAATCGCTTGA
ATCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCAATGCACTTCAGCCTGGGTGACAGAGTGAGACTCTCTCAAAAAACAAAAAAAGAATATTCA
TGATTAGGCCGGGAGTGGTGGCTGACACCTATAATTCCAGCACTTTGGGAGGCTGAGGCAAGAAGATCGCTTGAGCCCAGGAGGCCAAGAGCAGCCTGAA
TAACAAAGTGAGAACCCATCTGTATTAAAAAAATTTAAAAATTAGGCCGAGCGCAGCGGCTCACACCTGTAACTCCAGCACTTTGGGAGGATGAAGCGGG
TGGATCACTTGAGGACAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCACATCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGCGCTTTC
CTGTAACCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCT
GGGTGACAAAAGCAAGGCTCCATCTCAAAAAATTAACATTAGCAGGAGTTTGAAAGAAGTTGATTACAACCTTCATGGGTGACTTTGAGGGGCTGAAGAC
ACACTTCAGTGGAGGAAAAAACTGCAGATGTAGAAATAGCAAAAGAACTAGAATTAGAAGTGGACCCTGAGGCCAGGCCCACTGGCTCACACCTGCAATC
CCAGCAATTTGGGAGGCCAGGGCAGGAGGATAACTTGAGCTCAGAAGTTCCAAACCAACCTGGGTAACATAGCAAGACCTCGTCTCTACAAAAAAAAAAA
AAAAAAAAAAAAAAGTGGAGCCTGAAGATGGGACTGAATTGCTGCCATCTCATGATAACATTTGAACAGATGAGTTGCTTCTATGGATGAGCAAGGAAAG
TGGTTTCTTGAGATGGAATCTACTCCCGGTGAAGAGGCTGTGAACATTGCTGAAATGGCAACAAAGATTTAGGATATTACATATACTTAGTTGATAAAGC
AGCAGCAGTTTGAGAGGATTGACTCCATTTCTTTCTTTCTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGCAGTG
GCATGATCTTGGCTCACTGCAACCTCCACCTCCTGGGTCCAAGAGGTTCTCCCACCTCAGCCTCCCCAGTAGCTGGGACTACAGGTGCACGCCACCACGC
CCAGTTAATTTTTTTCTATTTTTGGAAAAAATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCT
CCCAAAGTGCTGTGATTACAGGCGTGAGCCACCGCTCCAGGCCAGCATTGACTTCAATTTTGAAAGAAGTTCTACTGTGGGTAGAACGATGTCAAACAGC
ATCATATGCTATAGAGAAACCTTTCTAGAAATGGAGAGTCGGCCGGGCATGGTGGCTCACACCTGTAATGCCAGCACTTTGGGAGGCCGAGGCGGGCAGA
TCACCTGAGGTCAGGAGTTCGAGACCAACCTGGCCAACATGGTGAAATCTCGTCCCTACTAAAAATACAAAAATGAGACGGGCATGGTGGTGGGAGCCTG
TAATCCCAGCTTCTTGGGAGGCTGAGGCAGGAAAATTGCTTGAATCTGGGAGGCGGAGCTTGCAGTGAGCCGGGATCGTGCCACTGCACTCCAGCCTGGG
CAACAGAGGGAGACCCCATCTCAAAACAAAACAAAACAAACAAAAACACAAAAATGAAAAAAGAAAAGTCAATTGATGCAGAAAATTTCATTATTTTCTT
ATTTTAAGAAATTGTTTTCACCTGAAGGCACTAGGAAAAATAAAAACAAAAATAAGGAAAAAAAAAAGAAATTGCTACAGTCACCCCAAACTTCACCAGC
CACCACCCTGATCAGTGAGTGGTCATCAACATGAGGCAAGACCCTTCACTAGCAAAAAGATTAGGACTTGCTGAAGGCACAGATGATTGTTAGCATTTTT
AGCAATAAAGGTTTTTTGTTTTGTTTTGTTTTGTTTTTTGAGGCAGAGTCTTGCTCTGTCACCTAGGCTGGAGTGCAATGGTGCATTCTTGGCTCACTGC
AACCTCTGCCTCCGGATTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGCGCCAGCTACCACACCCGGCTAATTTTTGTACTTTT
AGTAGAGACGGGGTTTAACTATGTTGTCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGC
ACGAGCCACTGCGCCCGGCCAATTATTTTTAAATTAAAGTAT


SNP Information

Context             (SEQ ID NO:65119):
TGCGTCGACACCCCTCCTGCCTGAAGTGGAAGCCTATCTCCAACTCCTCGTGGTCATCTTCATGATGAACAGCAAGCGCTACAAAGAGGTATCCAGGATG
Y
AGTGAGAGCGATTCATAAGCCCCAAGTGATGCAAGGGGTTTGGCGGGGAGATGGTCCCTGGTGAAGAAATGGAAATAATCATTGATTCTTAAGAACTGTC
Celera SNP ID:            hCV1385708
SNP Position Genomic:     11903
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,12)   caucasian(C,29|T,5)   total(C,51|T,17)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65120):
TGGCCTCAAGCATTCTCCTGCCTCAGCCTTCCAGGTAGCTGGCACTACCGGCGTGAGCCACCACACCCAGCTCCTCCTTGATTTCTTTGGGAAAGACTGT
M
ATCTTTATTTTTTTATCCCTAGCACCTAACAAAATCTTGGCACATGGTAGACACTCAATAAATATGTTGAAATACATAGTGGATGCTCAATAAATTCTTG
Celera SNP ID:            hCV1385709
SNP Position Genomic:     11602
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65121):
CCTAGCTAGTGAATAGAGACTAGACACCAAGTGTTCTACGTGCAGACTTTATACTGCTCAGCCTGGCACACAAAATGGCAATGGCATAGTCCCCAGACTG
Y
GGTCCCAACTGTCTCTTTCCTAACAGCTCCCCAGGCACCCACACTTTTCTGCCTCTTTTTCAATCTGTACCCTTGACCCTCCTCCTTTTTCTGCTTTGTC
Celera SNP ID:            hCV27506670
SNP Position Genomic:     19161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65122):
GACCTCCCCCAGGGCTCCTCCCCAGCCGGTGACTTACTGTACAGCAGGCAGGAGGGTGGGCAGGCAACCTCCCCGGGCAGGGTCCTGGCCAGCAGTGTGG
S
AGCAGGAGGGGAAGGATAGTTCTGTGTACTCCTTTAGGGAGTGGGGGACTAGAACTGGGATGTCTTGGCTTGTATGTTTTTTGAAGCTTCGATTATGATT
Celera SNP ID:            hCV1385691
SNP Position Genomic:     23009
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)      total(G,6|C,4) ;no_pop(C,-|G,-)   ;POOLE|_CEPH(G,36|C,152)   total(G,36|C,152)
SNP Type:                 UTR 3


Context             (SEQ ID NO:65123):
TGAGTTATTCCAGTGGACAGGGCAGCCTCATGGGTGCCTGTGGAGGGTGAAGGGTCTGCCTGGCCGTAGGTGTGATCACACACTCCCGTTGTAACCCCTG
Y
CTCCTGTGACACTTGCTGCCCCACGATTTAGCTGCTTTGTGTTCCGTGCCTCCTGTTTGCTGGTGAACTCCTGAGTTGGGGGGCGTCATTCCCTCCACTG
Celera SNP ID:            hCV27506671
SNP Position Genomic:     19417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65124):
TACTAAAAATACAAAAAATTTAGCCAGGCGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCAGCAGGC
R
GAGCTTGCAGTGAGCCGAGATCACACCACTGCACTCCGGCCTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAACTCCTTG
Celera SNP ID:            hCV25983804
SNP Position Genomic:     9310
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,1)   caucasian(A,2|G,8)   total(A,3|G,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:65125):
GCACAATGATCTGCATATAGTAAGCTTTCGTGATATTTTCATAAATGGTAGCTGTTATTATGGACTAATAGCTCCATTTGCAAACTGCACTTCTACCACT
C
CCCAGCTAGGGCCAGCTTCTTTGTTCATCATAGCCACTGTCACAGGAGCATACTCAGGAAGTAAGTTGCACTCCTTAATTCCCTGGTTTGTTTCCTTTCC
Celera SNP ID:            hCV9275098
SNP Position Genomic:     12405
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|-,8)   total(C,6|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65126):
CCACCGCCGCCGGCCCCCCAGGATGTGGAGATGAAAGAGGAGGCAGCGACGGGTGGCGGGTCGACGGGGGAGGCAGACGGCAAGACGGCGGCGGCAGCGG
Y
TGAGCACTCCCAGCGAGAGCTGGACACAGTCACCTTGGAGGGTACGGCAGCCCAGGCCGGGAACGTGCCGCGATCGCGGGTGACAGCGACCCCTGTGATT
Celera SNP ID:            hCV7453062
SNP Position Genomic:     6330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65127):
AAATTGATTTCATCACAATTCTGGAGGCTCTAAGTCCAAGAGCAAAGTGTGACACGATTGGTTTCTTCTGAGGGCCTCTCTCGTCTGCTTGTCGATGGCC
R
TCTCCTGGTGTTTTCACATGGTCTTCCCTCTGTGCGTGTCTGTGTCCTGCTTTTGTCTTAGAAGGACAATAGTCATGTAGGATTAGGGTCCACCCATATG
Celera SNP ID:            hCV1385694
SNP Position Genomic:     18336
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,16)   total(G,16|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65128):
CACACTCCTTCCTCTCTCTTCTAGCCTTGGCCCATCACCTGTTTGCTTCAGTCTCCGGGAAGAAAACCCCCAGCCCTGCTGCTTCCTCTCTCAGGCGGCC
K
ATTCCTGTCTCCCCTGGCTCCCTCCCCAACAGTGCACTGGCCAGCCCCTTCCCTCCAGTGTTCTCTCTGCTCCTTCTCACCACCTGGGCCTCAGCAGAGC
Celera SNP ID:            hCV1385696
SNP Position Genomic:     17957
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,7|-,8)   total(G,7|-,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65129):
ATAGTTAACAGTATTCAGCAAATAACCAGAAAAGCAATTTGTATAACTTTTTTAAGGAATTGAGAAAGAGCGAAGAGTTAAAGGCAGTTCAGAGAGTTGT
S
ATTTGAAGGCTTTGACATCTTTCTTTCCTTCTTGAAGCTTCTTGCATGCTCGGCTCCGGACAGCTACGCTTCGGCATGACGCAGACGGGCAGGCCACCCT
Celera SNP ID:            hCV25612542
SNP Position Genomic:     14877
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,23)   caucasian(G,14)   total(C,1|G,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:65130):
GGGGTGGTGCATAAGAGGCCCATTTGGCACCCTGGCTTGTCGGTGGGGAGTTGGATGACCCTACTCTGTTGACCAACTCTCCTCTCCTCCACTCCCAGGG
S
GAATCAAAGCCATCCAGCTGGAGTACTCAGAGGCCCGGAGAACGATGACCAACGCCCTTCGCAAGGCCCCTCAGCACACAGCTGTCGGCTTCAAACAGAC
Celera SNP ID:            hCV25612543
SNP Position Genomic:     15272
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,1)   caucasian(C,2|G,4)   total(C,9|G,5)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65131):
TGTTGAAATACATAGTGGATGCTCAATAAATTCTTGGTTACTTGATCAGACTGAGCTTTTCCATGGTAACTTCTGTCCTCTCCTAGCCCATGGACACAGA
K
GCTGATTTACAGTTCCGTCCCCGCACGGGAAAAGCTGCGTCGACACCCCTCCTGCCTGAAGTGGAAGCCTATCTCCAACTCCTCGTGGTCATCTTCATGA
Celera SNP ID:            hCV27536702
SNP Position Genomic:     11767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65132):
CATCACACTCCTTCCTCTCTCTTCTAGCCTTGGCCCATCACCTGTTTGCTTCAGTCTCCGGGAAGAAAACCCCCAGCCCTGCTGCTTCCTCTCTCAGGCG
S
CCGATTCCTGTCTCCCCTGGCTCCCTCCCCAACAGTGCACTGGCCAGCCCCTTCCCTCCAGTGTTCTCTCTGCTCCTTCTCACCACCTGGGCCTCAGCAG
Celera SNP ID:            hCV1385697
SNP Position Genomic:     17954
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,8)   total(G,8|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65133):
CCATCACACTCCTTCCTCTCTCTTCTAGCCTTGGCCCATCACCTGTTTGCTTCAGTCTCCGGGAAGAAAACCCCCAGCCCTGCTGCTTCCTCTCTCAGGC
K
GCCGATTCCTGTCTCCCCTGGCTCCCTCCCCAACAGTGCACTGGCCAGCCCCTTCCCTCCAGTGTTCTCTCTGCTCCTTCTCACCACCTGGGCCTCAGCA
Celera SNP ID:            hCV1385698
SNP Position Genomic:     17953
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,8)   total(G,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65134):
CACCCGAGAGCCCCAGCTAGCCTTCCACCAGCGCATCTCCTTCTGCCTAGATATCCACAACATGTCTGTCAAGGTGAGAAGCCCGTGGCTGCAGAGTCAC
R
CCTGGCAGCAGCACACCCCTCCCTCCACACTCATGGATTCCTCAGAGAAGACTGGCTTAATTTGTGGCCCACGTCCCAGCCAATCTCTGTAAAATCACTG
Celera SNP ID:            hCV25984481
SNP Position Genomic:     21544
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,36)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:65135):
GCTATGTTACCTGGGCTGGTCTTGAACTCCTGGGTTCAAGAAGTCCTCCCACCTCAGCTTCCCAAAGTGCTGGGATCACAGGTATGAGCCACCATGCCTG
R
CCCCTTTGCCTGTTACTCATTCCCTACCACTTCAGTTCTCTTCTCTATGCTAGGGGCTAGGAAAGGCATCCTTAACCTTCCTATCCAGAAGGACTTCAAC
Celera SNP ID:            hCV25985373
SNP Position Genomic:     15537
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,20)   total(A,1|G,49)
SNP Type:                 INTRON


Context             (SEQ ID NO:65136):
CTCTGCAAAAATTAAAAACCTAGCTGGGCGTGATGGCATGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGCAAGGATCACTTGGGCCCAGGAAGT
Y
GAGGCTGCAGTGAGCCATGATCGTGCCACTGCACTGCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAACAAACATTAAAATTGAACTGGTCT
Celera SNP ID:            hCV1385699
SNP Position Genomic:     17134
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65137):
TTTCCATGGTAACTTCTGTCCTCTCCTAGCCCATGGACACAGAGGCTGATTTACAGTTCCGTCCCCGCACGGGAAAAGCTGCGTCGACACCCCTCCTGCC
Y
GAAGTGGAAGCCTATCTCCAACTCCTCGTGGTCATCTTCATGATGAACAGCAAGCGCTACAAAGAGGTATCCAGGATGCAGTGAGAGCGATTCATAAGCC
Celera SNP ID:            hCV25612528
SNP Position Genomic:     11824
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,34)   total(C,1|T,67)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65138):
GCCACAGCAGCCTCCACCACCCTCAGTTCTTTGGGATCACCCCCAGATACCTGCTTCCACTGGCCGACACTCCGATTCAGGCCCAATGACTGAACCTTCT
Y
TCCAGGCTGGGAAACACTCCCCTCCCATCCCCTCCATCCCCATATCTGGGGTTGCATCTATATCTAGGTCCCAGTGGGCCTGGGGACTCCCTCTTTTAAG
Celera SNP ID:            hCV29249982
SNP Position Genomic:     6548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65139):
GCGTCGACACCCCTCCTGCCTGAAGTGGAAGCCTATCTCCAACTCCTCGTGGTCATCTTCATGATGAACAGCAAGCGCTACAAAGAGGTATCCAGGATGC
R
GTGAGAGCGATTCATAAGCCCCAAGTGATGCAAGGGGTTTGGCGGGGAGATGGTCCCTGGTGAAGAAATGGAAATAATCATTGATTCTTAAGAACTGTCC
Celera SNP ID:            hCV25612529
SNP Position Genomic:     11904
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,26)   total(A,55|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65140):
CCACGATTTAGCTGCTTTGTGTTCCGTGCCTCCTGTTTGCTGGTGAACTCCTGAGTTGGGGGGCGTCATTCCCTCCACTGTAGTTCTTCCGCGATGCTGA
M
TCCACCCACGGTCAGCACCACTCGGAAATACTTCACAGTCCTGTAGAGGAAGACAGGTCCAGGTTTCCAGTTACCCTTCTATGTCTGGATACTCTGCTCA
Celera SNP ID:            hCV27533112
SNP Position Genomic:     19538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65141):
TAACACTAACTCTGACCCCTCTCACGAGCATCAGGCCTGCAGATCCAGCTCCCCCTCCCACTCCCCATGTCTCTCTCTACAGCGTGTCCCAAAGAGACCC
Y
TCCTGGCCCCCTTACCATTCCTTCCTCCTGCTTTCCCGATCCAGATCAGGGCCTTGGGATCATCTCTGACTCTCCCCCATCCTCCTTCCCATCACTTGGT
Celera SNP ID:            hCV27485205
SNP Position Genomic:     18652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65142):
CAGCAGGACTTGGAGTTTGCCAAGGAGATGGCAGAAGATGATGATGACAGCTTCCCTTGAGCTGGGGGGCTGGGGAGGGGTAGGGGGAATGGGGACAGGC
W
CTTTCCCCCTTGGGGGTCCCCTGCCCAGGGCACTGTCCCCATTTTCCCACACACAGCTCATATGCTGCATTCGTGCAGGGGGTGGGGGTGCTGGGAGCCA
Celera SNP ID:            hCV7453069
SNP Position Genomic:     22800
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:65143):
CTGTTATTATGGACTAATAGCTCCATTTGCAAACTGCACTTCTACCACTCCCCAGCTAGGGCCAGCTTCTTTGTTCATCATAGCCACTGTCACAGGAGCA
R
ACTCAGGAAGTAAGTTGCACTCCTTAATTCCCTGGTTTGTTTCCTTTCCTTACCACACTATTTTTGGTTGTTGTTTGGTTGGGGGTTTTTTTGAGATTGG
Celera SNP ID:            hCV29249983
SNP Position Genomic:     12456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65144):
GCTGAGTAATATTCCCTCGTGTGGATGTGCCACATTTTGTTTATCTGTTCATCAGCTGACGGGCACCTGGGTTGTTTCTACTCTTTGGTTATGAATAATG
Y
TTCTGTGAACATTCGTGTACATGCTTTTATGTGAGCCTAAGTTTCCAGTTCTCTTGGCTTGCATACCTAGGATAGGAATTGCTGGCTCAAATGACAACTC
Celera SNP ID:            hCV29249985
SNP Position Genomic:     13703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65145):
TATTTGTGGGTGTCAATGAAGCAGACACTACCTGCACCTCTGGCAGTGGATATTCAGAGTGTTCCTGGCAGATAGGTTTAGAATATTCCTGATTCCCCAG
M
GCTCCTGACAGTCATTCCAGGCTTGGACCTAGATTGTGTTGATACAAACCCCAGGTTTTTATCTAGTCCTTCATGTTCACATTTGGAAACTGTATTGTCT
Celera SNP ID:            hCV29249986
SNP Position Genomic:     15890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65146):
TCCGTTACTCTGCTGGCACTGCCACCGCAAGGTCCCACAGACTTGGCGGCTTAAACAACCGAAATTGATTTCATCACAATTCTGGAGGCTCTAAGTCCAA
S
AGCAAAGTGTGACACGATTGGTTTCTTCTGAGGGCCTCTCTCGTCTGCTTGTCGATGGCCGTCTCCTGGTGTTTTCACATGGTCTTCCCTCTGTGCGTGT
Celera SNP ID:            hCV29249987
SNP Position Genomic:     18275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65147):
CCATAACACTAACTCTGACCCCTCTCACGAGCATCAGGCCTGCAGATCCAGCTCCCCCTCCCACTCCCCATGTCTCTCTCTACAGCGTGTCCCAAAGAGA
Y
CCTTCCTGGCCCCCTTACCATTCCTTCCTCCTGCTTTCCCGATCCAGATCAGGGCCTTGGGATCATCTCTGACTCTCCCCCATCCTCCTTCCCATCACTT
Celera SNP ID:            hCV27516132
SNP Position Genomic:     18649
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65148):
AGGCGAAACCGCCGCCCGGCGGAGGAGAACAAGAACCCCCACCGCCGCCGGCCCCCCAGGATGTGGAGATGAAAGAGGAGGCAGCGACGGGTGGCGGGTC
R
ACGGGGGAGGCAGACGGCAAGACGGCGGCGGCAGCGGCTGAGCACTCCCAGCGAGAGCTGGACACAGTCACCTTGGAGGGTACGGCAGCCCAGGCCGGGA
Celera SNP ID:            hCV16006920
SNP Position Genomic:     6292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65149):
GTAACACATTATTTTTTCCAGTGTCAGTGACAACATAGGAAAATATGTTTTGTTTATATGTTGACTTTCCCTAAATTTTCTTTGTTCCCACAAGAAACCA
K
TTTTTGGTCTCATTATTCTGATTTCATCTCTAGAATTATTTCGTTCAGCCCTGTCCAGTAGTATTTGCAGTGGATCCAGGTGTGGTGGTTTAATGTCTCC
Celera SNP ID:            hCV1385710
SNP Position Genomic:     11046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,13)      total(G,4|T,13) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65150):
GTCAGCTCCGTGGATGGGGAAACTCAGAACATCCCTGGAGGCAGGGCAGTGAAGAGTTTCTTGTCTGGGAAAGGGGAAAAGCGTACTGTTCCCCCAACTC
Y
ACCTTGAATATTTTCTGACCTTCACATCGCTAAACTCACGAAACGTGATTATTTTGGGGGTGACTGTAACACATTATTTTTTCCAGTGTCAGTGACAACA
Celera SNP ID:            hCV1385711
SNP Position Genomic:     10880
SNP Source:               Celera
Population(Allele,Count): no_pop(C,8|T,9)   total(C,8|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65151):
GTGCCTAGCACATAAATATCAGCTGTTATTATTTATATCATTAGTGTGGCCCAGATACCCTGTGCTAATCGCTGAATATACAGAAGTGCCTAAGAAACTA
Y
TCATTGATTGCATTCCCTTATTGCTTTGCATTTAAACTGTTTCTAGTTTCTTGCTATCATAAATAGCTTTGAAGCAATCATCTTTGTGCCCAACTTAAAA
Celera SNP ID:            hCV1385712
SNP Position Genomic:     7949
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65152):
GCCTACTGGGTGTGTTTATTACAGGCACTTCATTTTCTTCTTGTAAAGTAATTCATATTCATTGCAGAAATTGTGGAATGTATGAGAAGTTAAAAGCAGG
R
GATAAAAAACATGGTTAACATTTTTTCTTGTGAATTTTTGAGCTGTTCTCCTATAATTGAGAGCAAGTTATGTATACAGTTTGTATCAAGGCATAACTAA
Celera SNP ID:            hCV1385713
SNP Position Genomic:     7549
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;JBIC-allele(A,358|G,729)   total(G,729|A,358)
SNP Type:                 INTRON


Context             (SEQ ID NO:65153):
TGCATCATCCAATCTACTCCTGTTCTGCCTGCAGCTGTCAGGACAGGAAACCTAGCCAAGTTCAACCAGGTCCTGGATCAGTTTGGGGAGAAGTTTCAAG
Y
AGATGGGACCTACACCCTAATTATCCGGCTGCGGCACAACGTGATTAAGACAGGTGTGGATCAGGATCTGAGGGGCTGTTGGAGGAGCAGAAGCCAGGCC
Celera SNP ID:            hCV25983055
SNP Position Genomic:     20420
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,35|T,1)   total(C,65|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65154):
TAGAGCACTGTCATTTCAGAGCAGACTACGCGCGGGGTGGCCAGGTGAAATGCAGCTGACGGCTCTGCGACCAAATGTGACCAAAGGGCCACATTCCCAG
Y
ACCCGGCTCCAAAGGCAGAGCTTGGATTCTATGCCCAGCACAGGTTTTCAGGGCTTCCTCCTCTCTCTGGGCCTAAACAGTGATCCCTTTCCCTGTTTCC
Celera SNP ID:            hCV15872773
SNP Position Genomic:     19939
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,415|C,888)   total(C,888|T,415) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65155):
CTCCCTTCAGGTCCTTACTGCCCCTCTGTTTCTAAAGGGTTTAAGTACATACACACTTAAAACTTTTCGGGTGTCATCTTTGTTTGGTTTTGTAATACTC
A
ACCTTTGGCCTAAACTCCTATATACCGGTGTCTCCTATTTCTTTTCTCCGAGGTTCCTGTTTCGAGTGTCTGTAGTCCTCTTGTTCCTCCAAGTTCATGT
Celera SNP ID:            hCV1385714
SNP Position Genomic:     7024
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65156):
AGGGCTATGTCCAATCCAAGGAGATGATTGACATCTATTCCACCCGAGAGCCCCAGCTAGCCTTCCACCAGCGCATCTCCTTCTGCCTAGATATCCACAA
Y
ATGTCTGTCAAGGTGAGAAGCCCGTGGCTGCAGAGTCACGCCTGGCAGCAGCACACCCCTCCCTCCACACTCATGGATTCCTCAGAGAAGACTGGCTTAA
Celera SNP ID:            hCV27505195
SNP Position Genomic:     21504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65157):
TAACTGGAGAGGGGCCCGCCGCTTCCTGCCTGGTGTCTAGCTCACAGAGGGGACGCAGGGAGTGCAGGTTGCGTGAGTGCCTCACCTGCTTCCTTCCCTC
S
CTCATCTCCTCTCTTTGCTGTGCCCCAGGCCATGAGGTTTCCTCCCAAATCGTACAACAAGGACTTGGAGTCTGCAGAGGTAAGCTCTCTGCTTTCTGGG
Celera SNP ID:            hCV15872774
SNP Position Genomic:     22479
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,473|G,1030)   total(G,1030|C,473)no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65158):
CTCCAGGCCTGTGAGCCCTGGTCCCTCGCTGTTGCTGAGCCACAGCACCCGCCCTTCTGGCCTCACTTTAGAGCACTGTCATTTCAGAGCAGACTACGCG
Y
GGGGTGGCCAGGTGAAATGCAGCTGACGGCTCTGCGACCAAATGTGACCAAAGGGCCACATTCCCAGTACCCGGCTCCAAAGGCAGAGCTTGGATTCTAT
Celera SNP ID:            hCV27933900
SNP Position Genomic:     19871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65159):
AGGCAGGAGAATCGCTTGAACCCGGGAGGTTAAGGTTGCAGTGAGCTGAGATCGCACCACCGCACTCTCCTGCCTGGGTGACAGAGCGAGACTCCATCTC
A
AAAAAAAAAAAAAAGAAGAAGCTGGGTGTGCTGGTGAACTTTCCTCTTTGGGGGCCTGCAGGCCATCCGGGATGGTGTCATTGAGGCCAGCATCAACCAC
Celera SNP ID:            hCV9275154
SNP Position Genomic:     21299
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65160):
ATAGGAAGGGAGGATAATAAGTGATCTTTCTTTCTTTTCTTTCGTTTTTTGTTTTCTGAGACAGAGTCTCCCTCTGTCACTCAGGCTGGAGTGCAATGGC
R
CGATCTTTTCTCACTGCAACCTCTGCCTCCCGAGTTCAAGTGATTCTCCTGCCTCAGCTTCCTCAGTAGCTGGGCAGGCGCCTGCCACCACATCCAACTA
Celera SNP ID:            hCV11631055
SNP Position Genomic:     16217
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,9)   total(G,5|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65161):
GCCTGGGCGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAGAACTCCTTGCCTGGAGTGGTGGGGGACTAGGAGTGAAAGTGACATCA
Y
TTTCTTCTCTGCTCTTCTTCAGACATCAAGGAGCACGTGAAACAGCTAGAGAAAGCGGTTTCAGGCAAGGAGCCGAGATTCGTGCTGCGGGCCCTGCGGA
Celera SNP ID:            hCV27520867
SNP Position Genomic:     9449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65162):
TAGGAAGGGAGGATAATAAGTGATCTTTCTTTCTTTTCTTTCGTTTTTTGTTTTCTGAGACAGAGTCTCCCTCTGTCACTCAGGCTGGAGTGCAATGGCA
Y
GATCTTTTCTCACTGCAACCTCTGCCTCCCGAGTTCAAGTGATTCTCCTGCCTCAGCTTCCTCAGTAGCTGGGCAGGCGCCTGCCACCACATCCAACTAA
Celera SNP ID:            hCV11631056
SNP Position Genomic:     16218
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,9)   total(C,9|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65163):
AGGGCTCCTCCCCAGCCGGTGACTTACTGTACAGCAGGCAGGAGGGTGGGCAGGCAACCTCCCCGGGCAGGGTCCTGGCCAGCAGTGTGGGAGCAGGAGG
K
GAAGGATAGTTCTGTGTACTCCTTTAGGGAGTGGGGGACTAGAACTGGGATGTCTTGGCTTGTATGTTTTTTGAAGCTTCGATTATGATTTTTAAACAAT
Celera SNP ID:            hCV11424271
SNP Position Genomic:     23019
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:65164):
CCTCGTGGTCATCTTCATGATGAACAGCAAGCGCTACAAAGAGGTATCCAGGATGCAGTGAGAGCGATTCATAAGCCCCAAGTGATGCAAGGGGTTTGGC
R
GGGAGATGGTCCCTGGTGAAGAAATGGAAATAATCATTGATTCTTAAGAACTGTCCCCCACACTCTTTCCCCATAGAGGTATGCGTTTGATCCCACATCC
Celera SNP ID:            hCV25612530
SNP Position Genomic:     11948
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,34)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:65165):
GGGACAGGCTCTTTCCCCCTTGGGGGTCCCCTGCCCAGGGCACTGTCCCCATTTTCCCACACACAGCTCATATGCTGCATTCGTGCAGGGGGTGGGGGTG
Y
TGGGAGCCAGCCACCCTGACCTCCCCCAGGGCTCCTCCCCAGCCGGTGACTTACTGTACAGCAGGCAGGAGGGTGGGCAGGCAACCTCCCCGGGCAGGGT
Celera SNP ID:            hCV7453070
SNP Position Genomic:     22891
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65166):
TCTACTGAAAATACAAAAATTAGCCAGGCCTGGTGGCAGGTTCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGT
W
AAGGTTGCAGTGAGCTGAGATCGCACCACCGCACTCTCCTGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAGAAGAAGCTGGGTGTG
Celera SNP ID:            hCV25984705
SNP Position Genomic:     21229
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,4)   caucasian(A,14|T,18)   total(A,18|T,22)
SNP Type:                 INTRON


Context             (SEQ ID NO:65167):
ACAGCTAGAGAAAGCGGTTTCAGGCAAGGAGCCGAGATTCGTGCTGCGGGCCCTGCGGATGCTGCCTTCCACATCACGCCGCCTCAACCACTATGTTCTG
Y
ATAAGGCTGTGCAGGGCTTCTTCACTTCAAATAATGCCACTCGAGACTTTTTGCTCCCCTTCCTGGAAGAGGTGAGTGAGTCAGGCCAACTTAAAGGGTG
Celera SNP ID:            hCV25757786
SNP Position Genomic:     9591
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(T,34)   total(C,3|T,67)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65168):
AGAAGACTGGCTTAATTTGTGGCCCACGTCCCAGCCAATCTCTGTAAAATCACTGAGCTGCAGCACAGGGGGCCCAGAATGGGGAGGGGACTTGGCCATA
R
TTCCATAGCCAGTTGCCCTCTCCTATTGCGTTTAAGGGATGATGTGGTCACCAGGGAGGACCAGGCAGGGATTCAGAGGGCGGGGTTCTACATTTGGTTC
Celera SNP ID:            hCV25985290
SNP Position Genomic:     21690
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,36)   total(A,1|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:65169):
TACCTGTGGTAGCATGAGGAGAGAAGCCAAAGCAGTCCATTTGAATACTCATCTGCACAGTGACAAGGGAACCGTCCACTGCCCTGTAGTGTCATTCTTC
M
AAGTCAGGGGATCAGGACCCTCCCAGCCAAACTCATTTCCCACTACCCTGCAACCTGTACCCCCTACTCCAGTTGAGGTTGCGTTGGGTGACCTCTCTGT
Celera SNP ID:            hCV15977478
SNP Position Genomic:     9852
SNP Source:               Applera
Population(Allele,Count): african american(A,10|C,22)   caucasian(A,12|C,16)   total(A,22|C,38)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,479|A,1016)   total(A,1016|C,479) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65170):
CTGAAGTGGAAGCCTATCTCCAACTCCTCGTGGTCATCTTCATGATGAACAGCAAGCGCTACAAAGAGGTATCCAGGATGCAGTGAGAGCGATTCATAAG
M
CCCAAGTGATGCAAGGGGTTTGGCGGGGAGATGGTCCCTGGTGAAGAAATGGAAATAATCATTGATTCTTAAGAACTGTCCCCCACACTCTTTCCCCATA
Celera SNP ID:            hCV15977479
SNP Position Genomic:     11923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65171):
CCGGAGAACGATGACCAACGCCCTTCGCAAGGCCCCTCAGCACACAGCTGTCGGCTTCAAACAGACGGTGAGCCACAACTACCATCATCCCTTTGCCTCT
T
TTTTTTTTTTTTTTTTTAAATGGTGTCTTGCTATGTTACCTGGGCTGGTCTTGAACTCCTGGGTTCAAGAAGTCCTCCCACCTCAGCTTCCCAAAGTGCT
Celera SNP ID:            hCV26835605
SNP Position Genomic:     15407
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65172):
ACACTCCTTCCTCTCTCTTCTAGCCTTGGCCCATCACCTGTTTGCTTCAGTCTCCGGGAAGAAAACCCCCAGCCCTGCTGCTTCCTCTCTCAGGCGGCCG
R
TTCCTGTCTCCCCTGGCTCCCTCCCCAACAGTGCACTGGCCAGCCCCTTCCCTCCAGTGTTCTCTCTGCTCCTTCTCACCACCTGGGCCTCAGCAGAGCA
Celera SNP ID:            hCV26835606
SNP Position Genomic:     17958
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65173):
CTTGCTGCCCCACGATTTAGCTGCTTTGTGTTCCGTGCCTCCTGTTTGCTGGTGAACTCCTGAGTTGGGGGGCGTCATTCCCTCCACTGTAGTTCTTCCG
Y
GATGCTGAATCCACCCACGGTCAGCACCACTCGGAAATACTTCACAGTCCTGTAGAGGAAGACAGGTCCAGGTTTCCAGTTACCCTTCTATGTCTGGATA
Celera SNP ID:            hCV27933899
SNP Position Genomic:     19529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65174):
CACTCCTTCCTCTCTCTTCTAGCCTTGGCCCATCACCTGTTTGCTTCAGTCTCCGGGAAGAAAACCCCCAGCCCTGCTGCTTCCTCTCTCAGGCGGCCGA
Y
TCCTGTCTCCCCTGGCTCCCTCCCCAACAGTGCACTGGCCAGCCCCTTCCCTCCAGTGTTCTCTCTGCTCCTTCTCACCACCTGGGCCTCAGCAGAGCAC
Celera SNP ID:            hCV26835607
SNP Position Genomic:     17959
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,12)   total(C,4|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65175):
GCCACCACGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCA
Y
CTCAGCCTCCCAAAGTCCTGGGATTACAGGCGTGAGCCACCGCTCCAGGCCAGGTATTTCTTATTATTAGAGTATTTCAAAGAGATAAAGAATGTTGTGT
Celera SNP ID:            hCV1385700
SNP Position Genomic:     16581
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65176):
TGCGAGCTGCCATGTCTGCAAAAGGTTGCTTCACATCTATTTGTGGGTGTCAATGAAGCAGACACTACCTGCACCTCTGGCAGTGGATATTCAGAGTGTT
Y
CTGGCAGATAGGTTTAGAATATTCCTGATTCCCCAGCGCTCCTGACAGTCATTCCAGGCTTGGACCTAGATTGTGTTGATACAAACCCCAGGTTTTTATC
Celera SNP ID:            hCV1385703
SNP Position Genomic:     15853
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65177):
AACAGACGGTGAGCCACAACTACCATCATCCCTTTGCCTCTTTTTTTTTTTTTTTTTTTAAATGGTGTCTTGCTATGTTACCTGGGCTGGTCTTGAACTC
S
TGGGTTCAAGAAGTCCTCCCACCTCAGCTTCCCAAAGTGCTGGGATCACAGGTATGAGCCACCATGCCTGGCCCCTTTGCCTGTTACTCATTCCCTACCA
Celera SNP ID:            hCV1385704
SNP Position Genomic:     15466
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,5)   caucasian(C,8|G,8)   total(C,33|G,13)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,7)   total(G,4|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65178):
TGTTGAACCTCCTGCTGCGGAATTACCTACACTACAGCTTGTACGACCAGGCTGAGAAGCTGGTGTCCAAGTCTGTGTTCCCAGAGCAGGCCAACAACAA
Y
GAGTGGGCCAGGTACCTCTACTACACAGGTGAGCAGAGGGGCCCAACCCATAAATCAGAAGGTGTCTCAGGCCTGCCTGGTGCAAATTTTCCAAGGGGTG
Celera SNP ID:            hCV1385706
SNP Position Genomic:     15077
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,21)   caucasian(C,4|T,28)   total(C,13|T,49)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,9)   total(C,4|T,9) 
SNP Type:                 SILENT MUTATION


Gene Number:                 410
Celera Gene:                 hCG31404 - 63000132726761
Gene Symbol:                 TEM7
Protein Name:                tumor endothelial marker 7 precursor;TEM3;TEM7
Celera Genomic Axis:         GA_x5YUV32VU68(745575..846052)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12570):
CCTCCGTCTCCCGGGTTCAAGGGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGCATGCGCCAACATGCCCAGTTGATTTTTGTATTTCTA
GTAGAGACGGGCTTTCTCCATGTTGGTCAGGCTGGTCTCGAATTCCCGACCTCAGGTGATCCACCCGCCTCCGCCTCCCTAAGTGCTGGGATTACAGGCG
TGAGCCACTGCGCCTGGCCCAATCAGCATTTTCTAAGTACCCCCCATGTTCCCTGTGCGGTGCCAGACCAAGGCTGAGGATGATACAGAGATGACCAAGA
CTCCACCCATGCGCCGGAGTTGCTTACAATCTAATGGGGGAACTTGCGTAGGGAACCTCTTTCTGGCACAGATCACCGTGAAGAATCCTTGCCCAGAGAC
ACAGCTAAGGGGCCCAGCAAGGTGAGTCTCCAGGCTCCTTCCTCAGAGAAGCCCTCCCTGACTCTCAGGCATCCAGAGGCCTCTGTATATTTCCTTTATC
ACAGTATGTAATTACAGAATTATGTGTCTGACCATTTATTTAGTATCCATCTCTTCTACTAGACAGTAAGCCTCAGGGGCATGTCTGCATTTTCACCAGT
AACTCCAGAGCCTTGCACAGTACCTGATGCACAGCAGATACTCAAGCCAGTTCATCTCTGTTAATTGAATTATTGGATGTAACTTTGGTTCCTGCACCCA
GTCCGATCTGGGCAAGGGCTGGAGACTTGAAGGCCATCATTCTCTTGGGTTAGGCTGACCCCTCCTGTTCCTTCCTCCCTGCAGGCTGCCTGCCAGACTT
CAGTGGATGGAATCTCAGGCCGCTGCTAACTGATGTTCCAGTCTGAGGTCAACCAGAAACTTTGGGGTTTTGCATGGTCAACATGGGTGGAAAATCAAGT
GGCTATTTATTACTTTTCTATGGTTCTCTAGTGGGAGCAGTGGCTGCTATGGACAGTGAGATTGACACCATTCTCCCAACCCGTTGCTGAGAAGCTGGAC
TGCATACCTTGGATTCCTGCAGACAGCACAGCAGAAGAAGCTGCTCCTCACTCCATGGCCGCAGGCATCCTTCTTGGAGACGTCAGGGAAATGTTGGATA
TGTTGCAGATTTAGTGAGTGGAACTCTCTCCCTCTCCTCAGCCCTCAGTCTCTCCGTAGGAATAATGTGTGTGTGTGTTGGGGGGGCAGATTAAGAGACC
CCTGAGGCTGGGCGCGGTGGTTTACGCCTATAATCCAGCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGGTCAGGAGTTGGAGACCAGCATGGCTA
ACACGGTGAAACCCTGTCTCTACTAAAAATATAAAAATTAGCTTGGTGGTGGTGCACGCCTGTAGTCCCAGCTACTCGGGTGGCTGAGGCAGAAGAATTG
CTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCTTGGGTGACAGAGCGAGACACCGTCTCAAACAAAACAAAGCAA
AATACAAAAATTAGCCGGACGTGGTGGCGGGCGTCTGTAATCCTAGCTACTCGGGAGGCTGAGACAGGAGAATCCTTTGAACCTGGGAGGCGGAGGTTGC
AGTGAGTTGAGATCGGGTCACTGTACTCCAGCCTGGGCGACAGAGAGAGACTCCGACTCAAAACAAAAACAAAAACAAAAAAAAAAACCCCTGGAATTGC
TCTTCATTTCCTCAAACCTCCTTCCACCCTCAGGCTTTTTAGCCCCTCAGCCATTTTTGTCCCATTCCCTTTGGGCAAAGGAGATTCTAGCAAGGTGAAG
AAGGTGGGCTCAAGGGGAGGAGGGCAGAGGCAAAAACTGGAAGGGGAAATGGAGGAGGACAGGACGTCCCAGATAGGGACAGCCCTTTGCACTGCAGGGA
TTCCACTTCTCCTCGTCTTCCCATTCCCTCTGAGATGCTGACTCTGACCACAGCTCTTGGACTTTAAGCCACCCCACAGCATCCCCTTTACTTCTAGTGT
CCTTCCAATTTGAATCCCACTCCTCCCAAATATACCAGATTCCTAAAGGGGCTGCTTGTTTGTCTTTGTGTAATGATTTTTGTTGTTGTTGTTATTGTTG
GAGTCTCGCTCTACCGCCCAGGCTGGAGAGCAGTAGTGGCGCGATCTCGGCTCACTGCAACCTCCGCTTCCCGGGTTCAAGCGATTGTCCTGCCCCAGCC
TCTCGAGTAGCTGGGACTATAAGCGCGCACCACCACGCCCTGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCT
CGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGCGAGCCACCGCGCCCGGCCAGGATTTTAAAAAAAATACTG
TATTAGGATTTTTATAAGGCTGTAGTAAATGCTATTGAAAAATGCTTACCTCTTATTTCAGCCTTCTCCTCTGTCTGTTCCTCAAACTGGCTTTTGGTTT
GAGAGAAGGGGAGGAGCGACCCTGGGGTTGGAAAAGCCCAGGAGACAAGATGGAGATCCAGTCTGTTCATCTGTACATCCCTGGACCTGGGGCGGTCCTG
GGGACAGTCCTTTTCTCAAGCCAGTCAGTGGACATTTGGGGGAGAGTCTAGGCACGGATATAGAGGACCCAATATTCCTTTTTTTTTGAGACAGAGTCTC
GCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCAGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAG
CTGGGACTACAGGCGCCCGCCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGAGGTCTCGATGTCCTGACC
TTGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCTCTCGGCCCAAGATTCCTTAATCTAGTTGGTTTTCCGAAAGC
GTGGCTATGAAGGAAGAACTCAGGAGTTCTAGCCATTCCCATTGTATTTTGTGTTTTTTTCAGTAGGTATCCCGACGCAACCCTCAGATTAAAACTTTAA
GGGAAAATGAAGACCACACCCCTATTCCATAGAAATTAACTCTAATGACAACGTAGTGGCGTGGCGGGGGTATAGCTCAGTGGTAGAGCATTTGACTGCA
GATCAAGAGGTCCCCGGTTCAAATCCGGGTGCCCCCTCTGTGCTCCGGAGTTACCTCGTTTTGTTGGTCTCCGGAGGTCCTCTAAAGAGTTCCCGCACAG
ATGGAATGGGAGGGAGTCTCGAGCCCTGCCACCCTTTTTGCTTTCGCAGGCGAGTGAGGATGGAGTCCTGGCCCCTGCCAGTGGCTCAGCCTGTGTGTGT
ACCCAGGGTAGAATGCAATGCGAGTGAGGGCGAGGAGCTCCGGGCTGACCCTTGGAACACGGTACGGGTGGCTCAACCTCGCAATGGCAGGGCGGAGGCG
AGCGCACCCCCAGGTCAGCCTGGCTCTTTCTTGGCGGGAAGGAGGCTGAGTTTCTAAGGGCTGGGCTGGGGAAGACAGGTCGGGAGAAGCCGCGTGAGCA
TGTGGGAGGGAGAAAGAAGCTCCGAGACGTGGCAAGGGGTCTTCTGCAGGGCAGGAGAGTGGGACGCCCCCGAAGTGAAATATTTCGAGAGACTTCTCCT
TCCACACCCCAGGAATATATTTTCTTATACTGCCAGTGGGGATCTTCAGCTCAGAGCTTCAGGGAACAACCCCTGCTTCCAAGTGAGTAATTCTTCTGGG
AGTTGTATTTTTTCCATCTCTTGTAAACGTCTTACCCCACTTCCACTTCCCTTCGGGAACGCCACACAGCGCCTGCGCAGCAATACCACTAAGCGACTAC
GTGCGGTCGGTTTGCCGGCAGAGGGGGTATAGCTCAGTGGTAGAGCATTTGACTGCAGATCAAGAGGTCCCCGGTTCAAATCCGGGTGCCCCCTCTTTGG
CCTTTTCGAGATACTGTTTTTGTCCTGGGTGTCGATTTTTCCTAAGCTGTTTGCTTTTACTCCTACTGGCAGACGAGGAGCAGTGAGGGACTGAAAGGAA
CTGGGGATTCAACAGCAGTGGCTCTCAAAATGTGGTCCTGGGACCAGCAGCATTACCTGGGTACGCTCGGGCCTCATCCCAGACCTAATGAATTAGAAAC
TTGAGGGTGGAGTCCAGAAATCTGTGTTTTCATATACGCTCCCCATCGCTTGAGTCCAGGAGTTGGAAGCTGCAGTGAGCTATGATCGCAGCACTGCACT
CCAGCCTAGGCAACGTGCGAGAACCTGTTTCAAAAAACAAACAAAATACACACACACACACACACACACACACACACACACACACACACACACACCCTGC
AGGTGATTACGATCTCAAGTTCTAGAGGCTTACGTTAAAATTTACACATTTGCTTCTACTATTTACAAGTTTATGTTTCAGCCTGAGCTCTTCTTGTAAG
ACAGACCACGAGGTACCCCAGATGGAGGAATGTGCAAAGACGCCGGGGCTGGAGCTGGAATCCGTCCCGAGACTTCTCACCTTGACCTCGAGGAAGGCAG
GAGGTCGGAGACAGGGGGTGGGCAGGCCGGGGAAAGAGGAAACCCGCAGGACAAGAGGGTTGTGGCTCGTCACGTGGCCACTTGAGGGCAGCAAGTAGCT
GCAGCTGGAGGTAGCTGCCTATCTGATTCTGTTTGAGAGTCCGCCAAGTTGGGATTTAAATTAGACATCAAGAAGAATTTACAGACCGGCCTTGCCTTGT
TCCACGGTAAGGGGACATTGGGTTTAGGGCTGGAGGAGGTAGTCTCTGGGACTCTGGGCCCGGCGGAAGGAGGAACCGGCGTTCTAAGAGATTAGAGAGC
CTTTAGTTGTTTCCTTTCTTAGGTGTTTTTTTTTCTTTTCTTTTCTTTTTTTTTTTTTTAACCTCAGTGCCACGGAATCCGTCTCTTCCAGCCCACAGTG
TACCTTCTCCTGTCCCCGCCCATATCCCTCCTCCTGGAAAATTTCTCCAATGGCGCTCAGCGTTCGCACCCTTCCTCTCCGCGGTTTTCTAGTCCCTAGG
CCCCAGCCCACTAGAAGCCAGGATGCCCCCTCACCCCGTCTCCCACTCTCCAGCGCCCCAGCTCCTTGCCGTCACAAGAACGAAGTAGGTCAGGGGAGGG
AAGAGGCATCTTCGTGTCCTGACCTGATTCCTTGCCGTCTATTAAATATCCTACATTGCGGGTATTTTTATTCTGTCCTGGAAGAAAAAATAAAAAGATT
ATCTATCCCCAGAGCCTGTCAGAAGGTGGTGACAGGTGGGGTGAGCCATTTCCTCGTCTGGGGCTGGCTCTGAAGATTGATTGGGTCTGGCCCTGAGTAG
GCCTGGAGGCCCCAGAGAGGCAGGAGGCCTGGGTTACCTACTCGTGGGGAGGGGTCCAGACTGTTGCAGAGTAAGGGGTAGCCAGGCCCCCTCCACCCTC
ACGTCTGCTAGGCTTGGGGGGCAAATCGGTGCTGGAAATGGGGGGTGGAGGGATAAGGTGGAGTCATGGAAGGGGGGTGGGATTCAGGCCCCTCTTGGGG
AGAAAAGCTGGGGGTCTTTGCTGCAGGGGGAGATTTCTGGGGGTGGGGGCTGGAGGACAAAGCATCAGAGACGCACAGAATTCCGAAGAACAGCTCAGGA
AGTCGCAGAGCTTGGAGGAGCTGGGGGCGGGGGACAGTCAGGGGCCCGTGACCCAGGGATGGGGCGCCTGTCCCTTCCAGGGGTCCAGTCCTCGGGCCTT
CTCTCTGCAGCTTTCCCGGCGGAACGGAGGAGGGAAAGGGAGCCAGGAGCTCAGTGAGGAGCGCGGGGCGGCTGATGCTTCTAGGGGTTCTCTCAGCCCG
AGGGGCTCCCGCCCTGTCCCCTACTCTGCACCCCTTGCCTTGGGAGCGGCTGCAGAGCTCTAGGGGAGCGCTCCGTTAGGGCTGAGGGCAGGCGCCGGGA
GAGCCCCCAACGACGCCGCGCCCCCCGCCCCGCCCCCTGCCCCAGCTCCCCCCCACCCCCACCGACCCAGCGGCCCCCCCAGCTCCCCGCCTGCTCCCGG
AGGCCGCAGCCTCCAGCTCCGCTCGCGCTCTCGCCGCTCCTGCCGGCTCGCCCGGCCCCGCGCTCCGCCGTCTCCTCGCCGCCCGCCCCTCCGCCAGCCC
CGGGGACCGCGCGGCCGCAGCCTGAGCCAGGGCCCCCTCCCTCGTCAGGACCGGGGCAGCAAGCAGGCCGGGGGCAGGTCCGGGCACCCACCATGCGAGG
CGAGCTCTGGCTCCTGGTGCTGGTGCTCAGGGAGGCTGCCCGGGCGCTGAGCCCCCAGCCCGGAGCAGGTAGGACTGGCGGGAGCCGGCCCGGGTGGGCC
GGGGGCGGGGAGGGACGGGCAGTCAGGTGTGGGCATGGGCAGGTGTGGACGGCCTGGCGATGTCCGCGAGGGGGGCATTGTCCGCAGGAGGCCAGGAGAG
CTGTGGGCTGTGGGCAGGTGGATAGGGACCCCACTTTCCCAAACACATAGGGRGTGTGAGTGACGGTGGAGACACCGATGCCCGGACCTCTYCTTCTCTC
CTGGARGGATACTGGAGGGACCTTAGGAGAGGCGGCTCTATGTGGCCATGGGCTCTGAAAGGGGACAGCGGGAGAGTCATCAGGACCCCTGATCACCCCA
GGCAAGGCTGAATTCTGATGAGATGGGAGCCTGGGGAGGCCCCTGCCCCAGCCATGCCTTCTTTTCCTCTTCTCTGCCACACCCCCGACCCCAAAGCTGA
TCCAGGCTAGGGATAGGTGGGAGCAGCCAGGGGGATGGTGGGGACACAGCGTCTCTGCCTGGGAAGGCAGCAGCCATTCGGTCACCTTCCCTTGCCTATT
TGGTGTCAGTAGAGAGGCAGTGGGCCCAGGAAGAAGCAACTTGCTGCTTCTGCACCCCCAGCCTCAAGAGTCCCCCTCCTCACACCTGCTCCCATTTGCC
CTGGCAGCCTTTGGCTTTCAGCTACTCTGGCTCTAGATGGGGCACTGGGGTAGGGGGTRGAGGGAGGCGTCCCATTCTGCACACTCCTCTTCCCCCCTAC
CAGTTCTCCAAACTCATCTCTCCCACCTGGAAGTCCTTTCTGAGATCTACCTGGAATCCCTCATGGTATAATTTTCATAGTCTCTGTTCTCCCCTAAGCA
CCTAGACTTTCTCTGGGGTTGGGGAGATGGGTAATTTGCAGCCTGGCCCCTCAGCAGAGATGATTAAGAAGATAGATACCTGTGCATCAYTGGCATGGGT
GCCCCTCAGGTGGGGTGAGGGAGGCGCTGTTGAGGTGAGYGCTGTGGTTGACCTGCTGTGTCTCAGGAGTGTGCTGGCACCAGGCACAGTGTCAGTGGCA
ATGTTCTTGACTTTAATGGTCCCAGCATGTAGCTGAGACAGACCTGGGTCCCTATTGAGAAGAAGAGTATGTTGGGGGTGGGAGGGGAAGGAGGCTGACA
GTGGGAAGTATGGGCAGAGGGCAGTGGAGCTGAYGAACCGAGAAGCTGCTGGTGAGAACCACCAATTTTCAGGGAGACCACACAGAGGGTGGCCAGAGAC
GTGGCTTCTAGTCCCGCCATCTCACTTGCTGTGTGACTTTAGRCAAGTTACTTTCTCTCTCTGGACCTATTTTTGCATTTATAAAGTGAGGCTGTTGGCA
AAATCTTTGACTCTTGTGCGTGGAATAATGAAGGATCTTTTATAATTGCCTTTCCTTTTCATATTTGTTAGGGTCTTTATGGGTAACTGRTACTTTAAAA
AAATCAAGGTAAACAGGASAGAGTTRGATATGTTATGAATAATTTCTGGGCTCCTTTGAATCCTCAACCTGGTGTGATCTTCTGAACTCTGGGTGTAACA
GAGTTTATGAGGGGAGGATCTGAACCTTTGGCTGGATTGTGTGAACCACGGAGAGGGCTGGGGAAGGGGGAATTGGGAGGTAACAAGGATGGGCTGGGAG
ATAGTGGCCAGACCYGGGCCTGGCTGAGGGCRGCCCCTTCAGAGTAGGGTTGGGGTAGTAGACGGTTGAGGAGACCAGGAAGAGTGGGGCAGGCAGAGAC
TTGAATCACTTCTCTAAGTAGAGGCYATCCTGTCTTCTTGRCTTTGACAGAGATTGAGCCAGGAGAAATGCACTTTTTCTGCAGCAGGAGGGATAGAGGT
TAGACTTAAGGAATCTGTAAGAAGCCAGAGGCGGCAGCTGTTGACTCCCAGTCCGGTGCYCTTTTCACAGGCCAGGTGGGATTTCACAGGCAGGAGGACC
TATGAGGAGGAAGCGGGTGTCTGGGGAGGCCAGATGTAGGAGAAGGACRTTCTGGGGGAGAGTTGCTAAGGAGGGGCAGCCTGACCTGATTGATGGCGGA
GTTGTTGTGACCAGTGGAAGGGCAGCTGGGAGCAGGACCTGAAGAGATGCTAGCATCCTTCCCCAAGGCTCTGGGTTTGTGGGGCTGGTGGGGGGCCTTG
GGAAGTAGCTGAGATCTCCCCTCGCTCCTGATGGACAGGCTTGTTTGGTAGAGCCTTGAAACCTCATCTATCRTTAGAACAGYAGCAGCAGAGAGATGAG
TGGCCCAAAGACAGAGTCAGACAGCAGGGGAGACCAGGATGACAGACAGGAAAATGGCCTTGGGGTGCAGAGCAGGGGCCMAGGGAACTGACAGTCTGGT
CAGATGGAACCAGAGGTGCATATGACAGATAAAGAAGAGGCAGCGAGAGTTGGCATCCTGGCCTGGGAGTCCTGCAGGAGGCCAGGCTCAATACCAACTA
CTGGTGACCCTGACAGCTTCCTCCTTTCTCTGAGGAAGGTTTCCCCGTCTATAAAATGGGGGCTTGCACCAGTCACGGTGGCTCATGCTTGTGATCCTAA
CACTTTGGGAGGCTGAGGTGGGAGGATAGCTTTAGACCAGGAGTTTGAGACCAGCCTGGGCAAAATAGTGAGACCCCATGTCTATAAAYGATTTAGGCCA
GGCARGGTGGCTCATGCCTGTAATCCCAGCACTYTGGGAGGCCGAGGCCGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCTAACATGGTGA
AACCCCGTCTCTACTAAATATACAAAAATTAGTATATTTAGTATTGTTATTAATATTATTAATATTAGTATATTAGTAAAAATTAGCCAGGCGTGGTGGT
GCATGCCTGTAATCTCAGTTACTCAGGAAGCTGAGGCAGGAGAATAGCTTGAACCCGAGAGGCAGAGGTTATAGTGAGCTGAGATCGCACCACTGCACTC
CAGCCTGGGCAACAGAGTAAGACTCTGTCAAAAAAAAAAATTAAAATTAAAATAAAAAATTAGCTGGGCATGGCGGTGTGCGCCTGTAGTCCCAGGTACT
CGGAAGGCTGAGGCAGGAGGATCGTTTGAGCCCAGGAACTGGAGGCTGCAGTGAGCTATGATCATGCCACATAGTGAGGGCAGCATAACGAGGTCCCATC
TTTTTTTAAAAAAAGGAGGGAAGGAGGTTGGACCAGATTGTCTCTAGGGCTCCAACAACCTGAGACTAAAATGCGAACTTATGGAGGTCAGGCAGCCCCT
CCCTCATCCCACCATCTTCTCTAGCTCTCCCCAGATTCACCCCTTAACCCACTCCAGCTGCCGTCCCCTCCGATCGACAGATAACTAACTGGCTTCTTCT
CATTCAGGTCTTAATCAGCTCAAGGGRACCCTCCTCAGAGAGCCCCACCTCATGGCTCTGTGTAGAGTAGCAACAACCCCAACCCTTTCCTCTGTCTGAT
TTTCTTCATAGCCCTTACCAAATGATTCATTTTGTATGTCTCCATGAAGAAAACTAGACTCTTCCTGGGTACAGGGCTTGTGTCCCCCCAGCACCCAGCA
CAGTGCCTGCGACTCAATAAAAGTGTATTGAATGAATGAGTGAGTGACTGAGTGAGTATATCAGAGGTGGCACAGATCCCAGACTCTCCCCTCAAGGGAC
ACACATAGAGAGCTGAACTCTTCTTGCTGTCCCTCCCTTCCCCTCCCCTCCCCTTCCCTCCCTCCCTCTTCCCTTCTGCTACCTGGTGGTCCCTCCCTGC
ACTTCCTTTGACTCCTTCCCTCTCCCCAGGTGAGGGTCCTCAGTGGGTCCCTACCTGCCAGAGGAAAGGGAGAGGGTATGGTTAGGGGCTTTGTAACTTG
GAGGCAGGATTTCAGTTTAGGGTTTGGAGCCTTCCCTGGCCCCTCTGAAAGCTGGTCCTGTGACCCTAACYGGTGTGTTGCCCAAGGTGCAGCAAGTTGA
CACACCAACACCGAGGGGGCAGCAGAGAAAGAGTTTCATCATCGTGGGGCAGCATTTGGGGCTAGAGGTTTTATGGGGTTTGGGGTGGGGTGGCCAACGT
GTGGGAATTGTTAATTGGTTGAAGAGTGCATGAAGAAATAAAGAAACTGCATTCTCATGTTAAATCAGTTCCTCGGCTGGGCGCGGTGGCCCGCGCCTGT
AATCCCAGCACTTTGGGAGGTCGAGGTGGGTGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGCCCAATATGGTGAAACCCTGTCTCTACTAAAAACAC
AAGAAAATTAGCTGGGCGTGGTGGTACATGCCTGTAATCCCAGCTACTYGGGAGGCTGAGGCAGGAGAATTGCTTGAATCCGGGAGGCAGAGGTTGCAGT
GAGCCGAGATCGTGCCACTACACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAATCAGTTCCTGTCTGAGGGTC
TTCGAATTGGCCCTTCTGCTGGAATTCAGGATCCGAAAACCATCTTAATCCTTCTTTTTTTTTTTTCTTTTTTGAGACAGGGTCTCACTCTGTTGTTCAG
GCTGGAGTGCAGTGGTGTGATCATAGCTCACTGCTGCCTCAACTTCCTGGGCTCAAGTGATCCTCCTGCCTCTGCTTCCTGAGTAGCTGGGACTGCAGGC
ATGCACCACCACATCTGGCTAATTTTTTAAAATTTATTATTAATAATAAATTAAATTTTATAATACCTTTTTTTATTATAAAAAAGACAAGGTCTTGCCA
TGTTGCCCAGGCTGATCTCCAACTCCTGGGCTCAGGTAATCCTCCTGTCTTGGCCTTCCAAAGTGCTGGGACTACAGGCATGAGCCACCATGTCCAGACT
TTAAAAAAAATTTTAGTAGAGATGGGGTCTTGCTATGTTGTCCAGTCTGGTCTCGAACTCCTGGACTCAAGTGATCCCACCACCTCACCCTCCCAAAGTG
TTGGGATTATAGGCATGAGCCACTGCACCTGGCCTTAAACAATTCTTAAATAAAAGCTGGCCAGGCGTGGTGGCTCATGCCTATAATCCCAGCACTTTGG
GAGGCCAAGGCGGGAGCATCATTTGAGGTCAGGAGCTCAAGACTAGCCTGGCCAACATGGTGAAACCCCATCTCTGCTAAAAATATAAAAATTAGCTGGG
TGTGGTGGCGCACTCCTGTAGTCCCAGCTACTTGGGATGGTGAGGCAGGAGAATTGCTTGAACCCGAGAGGTGGAGGTTGCAGGGAGCTGAGATCACACC
AATGTACTCCAGCCTGGGTGACATATCGAGATTCCCTCTCAAAAAAAAAAAAAAAAAAGGAATGGGCCGAAGTGCAGCCTGATTAATGCTTAATTACTCC
TATACTTCTGCCCAGAACCCGGCATGTAATTCTTGTTAACCCTGAGAAGACGGTTTCAGTCCTCATGTGAAACCCAGGGAAGGCAGGGCGACTTGCTGGG
TGCTCTGTGTATATGATTTTGTTAAAGTGTCAAACCTACCAAGTTTATGTTTTATCAGCCCCATCTCACAGATGAGGAAACTGAGTCTTAGAGAGTRTGT
GTAATTTGTCCAATGTTGTAGTTAGTAGGTGGTAGATTCAGGGTTCAGTGTCTAGCTTGTCTGATTCCAAACCTGTGTTGTTTTACTGCTCTGATACTAC
AATGAAGTTCCAAGGGAAGGGTGTTTCCAGTTCGGTGTATCTCAGGTACTCAGGGCATTTAAAGATGCTCTCCCTTCCCTCCCCTCCCCTCGCCTCCTTT
CTCTTCTCCTCTTTTTCTCAGCCTGTGGGACAGGATGAGCCAGGGACAGGTGAGCTGGAAGCCGGAGAGAGATGGAATCAAGTTCACCCTCTAGGTGGCT
TGTCCTGGCTATGGTGGGGGAGATTAGCTCTAGGGCATTAAGGGTGGAGGCTGACCCAGGATAGAGGCTGTGGTAACCTGAGCTATGGGGTGGCCCAGGG
CTGGGATGCCAAGTTTGGGTGTTGGGTGAGATGAGGATGGCTTGGCCCAGGCTCTGGGGCCGCACAACCTGGCCTCCTGAGGTCAGCCCCATTCCCCCTT
GCCCTGAAATGGGACCAGTGCCAGCTGAGGGGACTGGGACRCTACTGCTGGGCTGTACCCTGCATGCTGGGGGACACAGTCTCCCAGGGAAGCTCTCAGG
TTCAGGCCCAATGGCAGCCTGAGTAGGGCCCTCCAAGAACCTAGMCCACATGCCAGCCCCACCCCGGGGCTGCCCCTGCACCCTGGGAAACAGTGGGGAT
TGTCGGTCACTTTTTACTGCACTTTCTGTGGTTCTGAGTAGGCTCTGGAGCCAGCCTGCCTGAGTTCAGATCCTGCCATGGACTGGTTCTGTGACCTTGG
GAGGTTCCTTAACGTCTTTGTGCCTCAGTTTCTCCATTTGTAAAATGGATTTTAAACTAGTAACTATTTCATGGGATTATTGTGGGGATTAAGGGGGTGG
ATGTGTTTAAAGCCCCTGGAATAGTGCTAGCACAGAGCAGCATTCTCTGAAAGTCAGCTATCATTTTTATTACTAGGGTGATTATTATGGCATCCCACTG
GACTGCACACTACTTGGGGCCATGAGTGAGTGAATCAATGAATGAACAGCTTGTGTTCCGGAAGCTCCTTGGCAACACATGCAGGCGGGGAACGGGTCCA
GGGAAAATGGAGCTCTCTCCAGTGGAAGGCAGGTGGGGTGAGGAGTGGCTGAGGGTTGGGCAGGTGTCCAACTTGTGTGTGAGCACATACGGGAAGGCCG
AGGCTTTSAGGAAAGTCTTTGTGGGCATGTGCACAGGCACGTGGGCCCCTGCACATACACGTGAGCAACCAGCTGTGTTGGCTTCTTTCATGAGTCGTGG
GGATGACGTCCTGTCCCAGGCAACAGGGAAGGAAGGGTGGCCAGGAAACAGATGTAGTATGGGTTGGAAGAGTAAGATTCAGGGCTAGGCCAGGGTAGGC
CAGGGTCCTGGTCAAGCTCCCTCTCCATCCCTCGCCCTGCCCTCTTTCATGGACTCTTTACCTCTTACCCTGGCCTGAGCTCTCTATAAAACCTCATTTG
TGTTTCTCACTTGACGCTTATGGCAGCCTGTACTGTGGGCACCATCGTCAAATCCATTTGAGTCACTAGGGAGCTGAGGATTAGAGAGGAAAACTGATGG
GGCTAAGGTCCCATAACTTGTGAGTGGCAAGACTGGGTGTSGAGGTCAACCCAGTGTCTCTTCCCTGGCCACCCCCAGCTGGGCCCCCTCCCTGTCCTTC
CCCGKGCTGCAGGCCTCCACCATCCCRCCTCCTGTCTCGGCTCCAGGTTTGTGAATCCTGAAGATCCCCAACACTCCTCTCTGGGCCGCTGAGCCCCTCC
ACTTGTTCACTACCCGCTCTATCCTGTTCTGGCTCCTGCCCAGGCCCCAGGGCTGCTTGCAGGAAGACCTGGGGAGCTGGGCAGACCAGCCCAGCACAAA
CARCTCTGTCTCCAGAAGCAGCTGTGGGCCCCACCCAAGAGAGACCAGACAGCCCTGGCTTGGGCCTGGGCAGTGGGCAGGCTGCMTTCCCAGCCCTGGA
CTCATGTCCATCTGTGGGCAGCCAGTGGGCATCTTGGGGAAGGGGTCTGGGGACTGCCCTCCTCCCCACGTGCTCCAGCAGCATCTGGTTGCTATTAGGG
GCAGAGAAGTGAGAGGGGGCCGGCAAGGGTCCAGTAGGCGCCAGCAGCCAAGAATGACTTAATTGGATACAATGTCTAATGACAAAGCAGGGCCCCACAG
CGGAGTTCTGGCCTCAGCCCCAGGCCTGGGCCTGGCCAAGCCTGGTCTCAACCTCTGYCCTTGCTGGCTCCCAGGAGCTACCCTATGCACTGCGTCCTCA
ATTCTGCAGTGATGGAGCACCTGCTGTTTGCTGGACATGCCAAATTTGAAGAAGGTGGAGAGAATCCTGGGGGAACTCAAATCTACCAGGGAGATAGGCA
CATAGTCGCACACGTAGGTGCTCTAGGAGAGGGAGAGCCACATCCAGGAGCTCTGGGGAGTGGGCTGGGGGAAGGCAKAGGTTGAGACAGGTATCTGACA
CAGGGTGGGCCTGAAATGGAAGAGGGTCATAGGTGGGGAATGTCAGATCCACCTATCTGATGGTCTGTTCTCATATATACATCCATAGTAGGTGTGACCA
TTAGAATGACAATAAAAGCCACAGCTTTGGGGGGCATAAATCTTTTTGAAGTGGAAAAGGATGGTTTTTGTGTTGTTTATTTATTTATTTGGAGAAGGAG
TTTCGCTTTTTTGTCCAGGCTGGAGTACAGTGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGA
GTAGCTGGGATTATGGRTGCCCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCGRCATGTTGGCCAGGCTGGTCTCGAATTCC
TGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTAGGATTATAGGTGTGAGCCACCACGCCCGGCCTTTTGTTAGAACTAATTTAACAGACCT
GGTGCAGTGGCTCACGCTTATAATCCCACCACTTTGGGAGGCCAAGGTGGAAGGACCGCTAGAGCCCAGGAGTTCAAGGCCAGTGTAGGCAACATGGTGA
AACCCAGCCTCTACGAAAAATACAAAATAAAATAATAATAACTAGCCGGGTGTGGTGGCATGCAACTGTAGTACCAGCTACTCAGAAGGCTGAGGTGGGA
GGATTGCTTGAGCCTGAGAGGTCAAGCGTACAGTGAGCTGTGATTGTGCCACTGCACTCCAGCCTGCATGCTAGAGTGAGACCCTGTCTCAAAAAAAGCA
TGCATTTAACAACCTAGAGGRARCTGGAGAGGAGATCRTGGAACCTAAAGCCATTTCGCAACCTCCAGAAATGGAGGTTCGCATGGCCGCGAAATGGCCT
GTGTGTAGTCACTTTCCAATCCTGTGCCCATGGCAGACATTGCTTATTGATCTTCACAGTCCTTCCTGCTAAATACAAGAGGAGCCTTTGCATTCTCAGT
TGGAGTGCCTCTGGCTGTCACGAATGGATTGCAGATGGCATGTGATATGAAACCTATTTGCCATCCTAGACAGTATCTAGGTAGTGAYAGGAGTAAAACA
GTAAAAAATTACCCCTCCCTCAATGGGGCAAGGGGGGGTTAATTTTATTCCCCAGGGGATATTTGGCAATGTTTGGAGACGTTTTTCATTGTCACAGCTT
GGGATGGGGAGGAGCGTGGTGCTACTGGCATTTAGTGAGCAGGGGCCAAGGCTGCGGCTGCTAAACATCTTACAGAGCACTGGACAGTTCCCGCATAACA
ATGAATTATCCAGTCCAACCAACAATCCAATTTAAAAACAGGAAAAAGACTKAAATAGACATTTCTCCAAAGAAGATATACAAATGGCCCACAAGCATAT
GAAAAGATGTTCGGCATCACTAATCATCAGGGAAATGCCAATTTATAAAAACGATGAGATATAACCTCATACCTGTTAGGATGGCTACTATAAAAAAAAC
AGAAAATAACAAGTATTGGCAAGAATGTGGAGAGATTGGAACCCATGTGCACGGTTGGTGGGAATGTAAAATGGTCCAGTCATTTTACATGGAAAACATT
TTATATGGAAAACAGTATGACAATTCCTCAAAAAATTAGAAATAGAATTACCATACAATCCAGCAATTCCGCTTCTGGGTATATACCCAAAAGAATTGAA
GGCCAGGTCTCAAAGAGATATTTGTACACCCATGTTTGTAGCAGCATTGTTCACAATAGCTAAAACGTGGAAGCAAAACAGACATCCATTGATAGTTGAG
TGGGTTAGCAAAATGTGGTATATCCACACAATGGAATATTATTCAGCCTTCAAAAGGAAGTCAATTCTGCCATATGCTACGACATGAATGAACCTTGAAT
TTATTATGCTAAGTGAAATAAGCCAATCACAAAAAGACAAATATAGTATGATKCCATTTATATGAGATACTTAGAGTAGTCAAAATCATAGATACAGGCT
GCGCGCTGTGGCTCATATCTGTAATCCCAGCACCTTGGGAGCCAAGGCAGGAAAATTGCTTGAGACCAGGAATTCAAGACCAACCACCCTGAACAAAATA
GTGAGACCCTGTCTCTATAAAAAGTAAAAAGATTAGCTGGGCATGGTGGCGCATGCCTATAGTCCCAGCTACTTAGGAAGCTGAGGTGGGAGGATCGCAT
GAGCCCAGCAGTTGGAGGCTGCAGTGAGCTATGATCGCACCACTACTCCCCAGCCTGGGTGACAGAGCAAGGCCCCATCTCTTAAATAAAATAAAATAAC
AGGGGTGAATAGGGAGTTATTATTTAACGGGTACAGAATTTTAGTTTTACAAGGTGAAAAGAGTTATGCAGATAGATGGTGGTGATGGTCATACAACATT
AGGAATGTATTTAATGTTACTGAATTGTACACTTGGAAATGGTTAGATGGCAAATTTTGTTATGTGTATTTTGCCACAATAAAAAAATTGGAAAAGGAAT
TATCCAGTCCAAATGTCAATAGTACCGAGGTTGAGAAGCCCTGAACGAAAAGAACTCTGGCTTCTAGTCCCCTGACCCCACTGGGAAATAGGATTATGTG
CCATTTCTGCCAGAGAAATAAGAAACTGGTTTGGAAGGCTCAACGGCAATGGTTCTCACCCTTGCCTGCAGAGTTAAGTCCAAGACTCCTCAAAATCTCC
CCTGAGGCTCTTTTAAGAAATCGAGGCTAGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGACGGGTGGATCACGAGGTCAGGAGA
TTGAGACCATCCTGGCTAACACGGTGAAACCTCGTCTCTATTAAAAATACAAAAAATTAGCTGGGCGCGGTAGCGGGCGCCTGTAGTCCCAGCTACTCGG
GAGGCTGAGGCAGGAGAATGGCGTGAACCCTGGAGGCGGAGCTTGCAGGGAGCGGAGCTCGGGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCC
ATTTCAAAAAAAAAAAAGAAAAAGAAAAAGAAAAAGAAATTGAATGCCCAGGCTACACCATAGACCAGTTACAAGAGATCTCTAGGGTGGGACCCAGACA
TCAGGAACTTTTGAAGCTGTCCAGGTGACTCCAGTGTATAGCTGAGGTTGAGAATAATCACCCTTTGGAGGCAGATCAGCTTGGGTTTGAAACTTACCTG
CATGCCTAACCCACTGCGTGACTTTTAACCTCTGAGCCTCTGATTCTTGTTTGCAAAATGGAGAACATCCTAACTACTGCGGAGAGCTGGCATGAGGATT
AAAAGGATATGTGCGAAGTGCTTGGCCTGGAGCTGGGCACGTGACTCTCAGTACACATTGGGTGTCTCCTGTCCTGGTAGTCAGTCAAGTGTCTGCAAAT
TCTRCAGTGGCATGGTGTTGGGGCCCTTGCAGAATAACTGGGCTGGATTCCCCTCCTGATCTTCATTCCGGACTGCTGGCACTCAGGTTTCTGTCCCCTT
CTCCCAGGTCACGATGAGGGCCCAGGCTCTGGATGGGCTGCCAAAGGGACCGTGCKGGGCTGGAACCGGAGAGCCCGAGAGAGCCCTGGGCATGTGTCAG
AGCCGGACAGGACCCAGCTGAGCCAGGACCTGGGTGGGGGCACCCTGGCCATGGACACGCTGCCAGATAACAGGACCAGGGTGGTGGTGAGTGCTGGAGG
AACATGGAGGGGGAGCGAAGTGGGGGTGGGGGAGGTCTCACCAGCTGCCCCAGGTGTGCTTGTCCTACATGCAAATCACATATCATTTGGGGTTGGCCCC
GGAGGACAGGGTGGAGAGAAGAATCCCCGGGGAGGGGATGGAAGCAGGGCCCAGACTGGGTCATAAAATCACAGCATCTCAGCGTTTCATAGGCTGCCTA
CTCCCTCCTGGACCCAGAGACATCAAATGGATTGTATCAGGATGCACAGCCTGACCACAGCATTCCTGAAACTGGACTCTCCCATGACTTAGGGAAGAAA
AAGCTGACAGTGGCCTTATGAGTCACATCTCAGCTGCCAGATGGGGCCCTTCCCCACCCCATTTCTGCCCCATCTACAGACTGGGGCGCAAGAGGATTAA
TGGCTGCTTAGCCTAAGGGCTGGGCACTCAGCAGGGGGCTGAGTAGAGAAAGCAATTAGGGTGCAGCTCCTGGAGACAACCTCCTTGGCCTGGGGCAGTT
CTGGGGTGCTGGCACAGGGAGGAGAGGCCTGGAGGGAGTGCTCTTCTCTCAGGGTTTCCRGGAGGCTSTTGGAAGCCTCGGTGTGTCTGGGGGTGAATCT
ATTAATATAATTGTGCGTTTCTGGGAATGGGTGTGTGTGTCATGGACGCTGGGTTCGCACCTGTGTCAGATGATTTTGTATATTATGTATGTGTACCTGT
CTGTCACTGTGGGCTGTTTGTGGGTGTCTGTGATGAGCATGTGTAAGTGTGAGTGTGCCTGTGGCTGTGTGTGTAGGTGCCTGCGGCTGGGAGTGATGAG
GGTGGATTCTTAGGACGCAMGAAGCAACAAGAGGACCTTCTTCTCAGTATAGATTTATTTTATATTTTAATAACTATTTTCTTAAATTAGTATGTGCTGA
CAGTTAAAAAAAAAAAAGGTTAAATAGTGCTAAAATCATAAAACAAAACAGCAGTCCTGCCCCTCCTCTCCCCTGGGGCCTGCCCCCTTCCCTTTCTCAG
AAGGCTCTGTCTGGGCTGTTTCCTCTGGAGTTTACTTCCATATTTCCAAGGGATTTGCTTATACTGTACTGCTACCTCTCTGTGCACTGGTTTTAGGCCG
TACCTATTCATGGCCTGCTGCGGCTCAGGGAGATTTGGCTTTTGTATACTCCCGCTGAGCAACCTTTCACCCTGCCGCCCAATCTTCCTGTTCAATCCGT
GTGCTCGGTTGTGGATTGTGACGATCATGTACATAGTGTTCACTTCTAATCCAGGCAGGGTCATAACATTGTTTCTTTTCTTGTATGATTTTGGCTCTTC
CTGGATCCTGGCCCCCTCTCCTGCCCTTGCTTACTTAGTTTTCTGTGCCTACCGTAGCTACATTTTCCTACACGTCCCCTAGCCTCAAATGTAATTCCAG
TGTGGGCTGGGCATGGTGGCCCACACCTGTAATCCTAGCACTTTGGGAGGCCCAGACGGGTGGATCGCTTGAGCTCAGGAGTTCCAGAATAGCCTAAGCA
ACATAGTGAGACCCACGTCTCTAAAAAATTAAAACAAAAATTATCTGGATGTGGTKGTTTGCCCCTGTAGTCCCAGCTACTTGGGAGGCTAAGGCTGGAG
GATTGCTTGAGCCTGGGCGGTCAAGGCTGTGCTGAGCTGTGACCTCACCAGCCTGGGAAAAAGAAGAAGACTCTGTCTCCGAAAAAATATAAAAGAAAGA
AAATAAGATAATTCAGGGTGGTCAAACCTGTCAGTTCCTTTATCCCCCYGAGAAACTTCTCTCCTGTCCTGCACTCCAATCCCGCCCAGCCACTCGCCTG
CTGGTACCACGGGTGCCATCCTGGGGCCTCCCTTTCTGTTCGTCCTGGGAACCCCTTTGTCTCCCTCCTGTGTTGGATCCCCTGTTCCCTTGACCCTGTG
TCTTCTCTTTCCTGCTTCATCCTTTTGTTTGTTTAGCTTCCTGGGAAAGGTTGCACAGAGGGAAAAATTCCCTTGAGAACGTGCATGTCTGAAGATATCT
TTATTCTGTCCTTTCATTTGACTAGTGGTTTGGCTGAATATAGAATTCTAGATTGAAAATAATTTACTTTTTCTTTTTTTTGAGATGGAGTCTCGCTCTG
TCGCCAAGGCTGGAGTGCAGTGGCACAATCTTGGCTCATTGCAACCTCCTCCTCCTCCTGGGTTCAAGCGATTCTTCTACCTCAGCCTCCTGAGTAACTG
GGATTACAGGTGTGTGCCACTATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACTT
CAAGTGATTTGCTAGCCTCTGCCTCCCAAAGTGCTGGGATTACAAGTGTAAGCCACCGCTCAAGGCCTTGAAAATAGTTTTCTTTCACAAGTTTGAAGGC
ATCTCTCCATTGTCTTCTGGCTTCTGATTCACTGTTAGAGGCTTGGTGTGATTCTTATTTTTGACCTTTGTGTATGCCGGTTTTCCCCTGACTTCTGGAA
GCTCTCAGGGTACTCCCTGTAACTCCAGCATTCTGAAATTGCAGTGACATGACCTTCTCTGGCTGTTTTTGTTTGCCATGCTGGACGTTGGGGGACTGTT
TCAATCAAGAGACTKACATTTGTCAGTTCTGGAWAGCGTTTTTGCTTTATTTCTTTCAGATTTCTCCTTTCYACAATTCCTCATGGTTAGATGTCCATTT
CTGGAAGTGATCCTTCAATTTTTTCTTCTCTCTTCTGCTGTGYGTCTCTTTTGCATTTTTTGTTGTTTATTTGTTAGTGTGCTTGTTGTTCTTCTTTCTG
GAGGATTTTCTCAATCTTATTTTCATAATGTCACTGATTTTTTTCTCTACTATCGTATTGTTAATTTCTAAGAGCTCTTTTTTATTTTCAGATTTATTTT
TCTTTAACAAAAAAGCATCCTGTTCTTTTTTTGTGGATGTAATATCTTCTCTCTCTGAGGATATTAGAACAATTTTGAGATTTTTTTCCCCTCTGCTCTC
TGCATTGTTTCTGTTACTGTTTTTTTCCTTGTATCTCAGGCTCTGAAATGGTTTGGAACCATGACTAAACCTGTATTTCTTTAAAACTTTGGGCCGGGCA
CRGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTCGAGGTGGGAGGATCCCTTGAGGCCAGGAGTTGGAGACCAGCCTGGGCAACATAACGAGAA
CTTGCCTCTATAAAAAACATAATAAACTTTTGATATTCTGTTCATCAAAATATTATTTTTTTGTATTCATTTTGATTTTTTAAAATATTGCATTGAAGTA
TTCTCTATCTTGATTCCTGAGTTTTGGTGCCATCTTAGATGTTGTACCCCAGGTAGGTGCCTCCTTACCTCACCCTAGTTTGGGCTCCTAGTTTGAGGTG
GAACTTCAGGGGACATGGCATCACTCCCTTCCCAATCTGCCCTGTCTTCTTGATCCTGCAGAGCAAGGAGCAGGACTGCCATGGTGAGATGGTGGAGTGG
AAGGACAGAGTAGGAGAGGCCCCTGATTAAGGAGACACCTGGCAGTTCATCCCTGACCCCACAGCTTTATTGGGCCATTGGTTGAATAACTGATAACCTG
CTCAGGACCAGACACACAGGTCAGAAGGATTATGTCCCAGTCTGCACAAAGAGGACCTTTCAGAAAAGAGCCATGGAGACTTAGATTTCTGGAAGCAATT
GTTCGTGGGTGTTCAGAAAGGACAGTGGGGTTCATTAAGAGCCAGTATGGATTCAATAACGCCAGAGCTTAAAAAACACCACAAATTCTCAGGCTCCACC
CTGGATGGACTGGTTCAGAAACACTGGGGCAATGGATTTTGGGAATTTGTTGTTGTTGTTGTTGTTTCAAGTTCCCCATGTGTTCCTGGCGAAGTTGCAG
AGATTTAAAAATGTGATTCTGATGGTCATGTAGGTGTGGGAACTTTTTTTTTTTTTTTTTTTKAGACGGAGTGTTGCTCAGTTGCCCAGGCTGGAATGAG
TGGTGTAATCTCTCGGTTTACTGAAGCCTCTGGCTCCGAGGTTCAAGTGTTTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCGCCACC
ACGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAGAATCCTGACCTCAGGTGATCTACCCGCCTCAGC
CTCCCAAAGTGCTGGGATTACAGGCGGGAGCCACCATGCRTGGCCAGGAACTTCCGATCTATAAGATTTCAAACCAATTTTATAATTGGTGACCCGCTCG
ATTGTCAGAACATGAGGCTTCCACCATCTCAGGGGCTTTRTGATCCCCTCTGCAGCTACACATCGAGGGTCCACACAGGAGCAAGGCCACCTGGAAGGAG
GTCCCTCTGACAGCCATAGGGCTTGTCCCCGGCTCTGCCTAAAGACAGGAGGACCAGGCTTTAAGGGATAACTTATCTGGAGAGTGCAGATGTCAGGTCA
GGAACCCGAAGGCCTCATGGGCAGGCTGGAATGACATCTGCCTYGGAACAGATGAAACTACTGGGATAAATATAAATCCTGGCATTTAAGTTTAGAATGA
GTTGGGAGAGATGTGGTTTAGCAGCAGCTCACGAGGAAAAGATTTGGGGATCCCCACTTCTTGTGGGCTAGGATGAGTCAGGCGCATAAAGTGGCTGCCA
AGGCTGGAGGTGGGAAAGCCAGCTGCATGATGGAAACCTGGGGACTGGGGCTGGGGCTCTGGGGGTCCTGCGGGCTATTTCTTGGGCCTGACTACCATTG
AGGGGCTTGTGCTCCCYTTTCAAGTGGTTTCCCAGACACAAGCAGAGTCCAGGGGAGGGCAGCTGGGGTGGTGAAGAGGCTTGCACTCTTGTCCCTGGAG
GAATGGTAGAAGGYGTTTGGGGTATTTAGCCTGGTACAGAGAAGGTTCTAGATGTGGTTGTTTTCTTTCTTTCTTTTCTTTTCTTTGTTTTTTCTTTTTT
TTTTTTTTTTTTAGAGACAAAGTCTTGCTCTGTGGCCTAGGCTGGAGTGTGATGGCATGATCTTAGCTCACTGCAACCTCTGCCTCCCGGGTTCTAGCAA
TTCTCGTGCTTCAGCCTCCTGAATAGCTGGGACTACAGGCACATGCTACCAAGCCCGGCTAATTTTTTGTATTTCAGTAGAGACGGGCTTTCACTGTGTT
GCCCAGGCTGGTCTTGAACTCCTGAGCTCAGGCAATCCACCCGCTTCGGCCTCCCAAAGTGCTAGGATTACAGACGTGAGCCACCACACCCCGCCAATGT
GGTGGTTTTCCAGCAGCTGCAGGGCTSTGACTGGGGCACAGGGAATAGACTTTATTTTTTTTTCTTTTCTTTTCTTTTTTTTTTTGAGACGGAGTCTTGC
TCTGTCGCCCAGGCTGTAGTGCAGTGGCACGATCTCGGTTCACCGCAAGCTCCGCCTCCCAGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGCT
GGGACTACAGGCGCCTGCCACCACGCCCGGCTATTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCG
TGATCCACCCACCTTGACCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCTATTTTTCTCCGTATTACTTATCACCTCCTGCATCAA
ATTATGTGTATCAGCCAGTCACAGTGGCTCACGCCTGTAATCCCAGCACTTCGGGATGCTGAGGTGGGAGGATTGCTTGAGGCCAGGAGTTTAAGACCAG
CCTGGGCAACACAGTGACACCCCCATCTCCACAAAAAATCCATTTTTAAAAAGTTAGCTAGGTATGGTGGTGCACGCCTGTAGTCTTAGCTACTTGGGAT
GCTGAGGCTGTAGGATCGCGTGAGCCCAGGTGTTGGAGGCTGCAGTGAGCCATGGTCGCGCCACAGCACTCCAGCCTGGGTGACAGAGCAAGACCCAGCC
TCAAAAAAATAGAAAAGAATGATCCATGTATTGGTGTCTGTTGCCTATCTTCCCCCTGGAATGTAAGCACAGGAGAGCCGGGACTGTGCCTGGTCCATGA
CAAGCACTCCTTTGAATGAACAAAGGAAGTAGGGTTTTCGACATCCTAGTCTCCAAAAACAGGGTTGTAGAAGGGAAGAGTTCTGCCTGGTGTGATTGTC
CCTGGTGTGAGTCACTGGACACAGGAGCCTCTAAGGACCCCAACTCTGCTAACTTGGATTCCCACACACATGAGAGAATGTCAGTGCTTACACACACCAG
GGTGTCTGCACACGCCCGAGACTCAGGTGGCTCCATACCCAAACTCTACCCTGCCCTCGTCCTGTTAGGCCTTGTTCTGGGTGGTGTTCACCTGAGAATG
CTGGTGATACCCCCAGCAGCCAGACCGCAAACGCCCTTTCCCACTATCTGCCCACCCCCAACCTGGAGAATGGGTGGCCCTGGCTGGGAGTCCGGCACAG
GTGTCCAGAGTCACCTGTTTCTCCCATGCCTCTGACAGCTCAGCATCACTGTGGCCTAAGGAAGTCTCATCTAGATGATGGGTTGGCGGCAGAGGGTGGG
CAAGATAAGAGGAGAGTGGCGGGAAGGGGCTGTTTCAGCAAGTTTGATTTGGTCTGTCTCACAGAGTTTTCTTGGGTTTCAACAGGAACACTTCCTCTGT
TCATCTGGTATCACAGCTGGGTTTGGCCAACAGCAACCAGRCTCTGGGACCCTCTGCTCTGGGGCYYTATCAAGGGACTGAGGGCTGGCGGGTGGGCTGC
CATGCCTTTTGCCTCCCCCTACACAAACCCCAGTGCCCCATCACMTTCCTCCATCRTTCCTCAGTAACCCTCCTGGCTGCGGACCTCCCCTCTGGCTCAG
CCCCCTTGACTCAGCTCCTCCATCCAGACCCTCTGCCCAGCTGCCTCCATTCAGCCCTCTCTGCCCAGTGCCTCTGCCAGGCACCCCCCGCCAGGCCATC
TCACCACAATGCTCCTTCCAATTCAGAACCTCTTGCTTTGGAGGCCTCGAGGCGTCTAGCCTGCCCTCCCAGTCCCAGGGTGAGCTGGCAGCTCCGAGGA
CCCTGGTCAGAACCATCTCCTCCCTAAAATGCATTCCCACACCCAATCTACCACCACATCACAGTGGAAACAGGACTCTTGTCCAGACTCAAGATTTCCG
GAGATTTTCCACCAAGACCAATTCTGAGGCCCTGGGGACACTGGGCGTTTCGGGGACGGGRGCAGGAGARCTGGGGAAGCCATAGTGCTGAGTCAAGAGA
TCCTGGGATGTGCTGAGTCAGAGATCCTGGGATGTGCTGAGTCAGAGACCCTGGGATGTGCCACAATTTATTCTCAAAGAGGCTGGAAAGGGGAGGTCTT
GGCAAAGGTTCTCTTCCTTTGAGGATTTCAAAATTCTACTCCAATGTTTACTTGGTTCCATGGTTCAGGTTTAGAGCCAGAGTTTGRGGGAAATCAAGCA
TAAGAACATTTAGATTTGAGGAGGTGCCCCTCCCTTTCACCCCCCTTACCTCCCAATCTCCCCCATGGCCCAGCATCCCTGAATTCCTCTCTCTTCTCTG
GCTCRAGCAAAACCTCCTGGCTTGTACATCACCATAGCAGGCCCCAGGAATGCGAGGRACCCTGTGTCAGGGCAGGGACCCCATCATCCAAGACAGTTGG
CAGGGAGAGTGCAAGACCTGCCTGGTTTCTACAACCTTCCAAAGGAGGCAGCTCCCGAAARAAGGTTTTCAGAACRCAGGGCCTTGGGAGACAGGAAGCC
AGTCAGACTCCTCGCACAAACCACAGRGGGCAAGCAGTGCTCCTCCAAGAACCTGGCCCCACCAGGGTGCTCAAGGGAACGAGGTAAGGAGGCCAATCCC
GGAAGATTCTGGGAGCAGAGTTGGGGGGTGGGTGGAGGGAGGGGAAAGTTAGGAGCCAAGTTTTGAAGAGAGAGAAGATAAAGGTTGTCTGGGCATGGTG
GCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGAGGGCATATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCTAACATGGTGAAACCCCGTC
TCTACTAAAAATACATAAATTAGCTGGGCATGGTGGTGCACGCCTATAATCTTAGTTACTCGGGAAGCTGAGGCAGGAGAATCGCTTGAACCTGGAGGTG
GAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGATTCTGTCGCCTAAAAAAAAAAAAAAGAAAAAGAGAGAAGAGA
TTCTGTGAGAAGAAAGCATGTCCAGGGAGGCAGGAGGTGGAGTGCAGATGTCGTCTCCAGTGCTGTGGAGGAGCCCGGCAGTCCTGGCCCTCGATCTTGG
TCCTGACACAGACCAGCTGCATAGCCTTGGGCTGGATACTTAACCCCTCAGTTAACAAACCTGACATTTAGAGCCCCTCCAAGCCCTTGCTAGCTTCACA
TTTCCCAAATGGGTGGTAAATACCAATCTCACAGAGTTGATTTAAGAGCAGAATATGAGGCCCATGATGGTTCTTGGTCCTGGTGGTCTCCCCTCCGCTT
CGGGTCACAACACTGCTCCCGGCTACTCAGCCCCAGGTGGTTTTCTCCCGGTCCGGTTCCTCTTGCAGGCCATTTTCCTTTCTCCTTGGGCAGGGTGGTG
TGTTGGTTGATTGGTTAGTTTCTTTTTTTCTTTTTTGTTGAGATGAAATTCACATAATATAAAATTAACCATTTTAGGCTGGGTGCGGTGGCTCATGCCT
GTAATCCCAGCACTTTGGGAGGCCGAGTTGGGTGGATCATTTGAGGTCAGGAATTCGAGACCAACCCGGCCAACGTGGTGAAACCCCGTCTCTACTAAAA
TAATACAAAATTAGCTGGGCGTGGTGGCATGCTTGTAATCCCAGCTGCTTGGGAGGCTGAGGCAGGAGAATTGGTTGAACCCAGAGTGGAGGTTGCAGTG
AGCTGGGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTGTCTCAAAAATAAAATAAAGTAAAATAAAATAAACSATTTTAAAGTGAACAA
TTCAGTGGCATTTAATAAATTCACAATGTTGTGCAACCAACCCCCCATCCAGTTCCAAAACCTTTTCTGTTTTGTTTTTGTTCYTGAGAAAGGGTCTTGC
TCTGTTGCCCAGGTTGGAATGCAGTGGTGGGATCATGGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGGGATCTTCCCACCTCAGCCTCCCARGTAACT
GGGACTATAGGCATATGCCACTACAACAGGCTAATTTTTAAATTTTTTGTAGAGACAAGATCTCACTAAGTTGCCCAGGGTGGTCTTGAACTCCTGGACG
CAAGTGATCCTCCTGCCTTGGCCTCCCTAAATGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCCCAAAACATTTTCATTACCCAAAAGAAAACCCT
TTACCCATTAAGCAGTTGCTCCCTGTTCACTCCTCCACCCCAAYCCCTGGCAACCACCAATCTGTGTTTTATTTCTATGAAGTTACACATTCTGGATATA
TCATATAAATGGAATCATATAATATGTGATGTTTTATGTCTGGTTTCTTTCACTTAGCATAATATTTTCAAGGTTTATCCATTTTATGGCTGWATAATAT
TTAATCGTATGAATGTACCATAATTCGTTTATCCRTTTATTTATTGATAGACATTTAGGCTGTTTCTACCTTTTGGCTGTTGTGAATAGTGCTGCTGTGA
ACATGTGTAAATGTACTTAAATTTCTTTCCCTTTCTTTCTTTCTTTCTCTTTCTTTCTTTTTCTTTCTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTT
CTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCT
YTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGTAGTGGCGCAATCTCAGCTCACTGC
AACCTCCGCCTCCCGGGTTCAAACGATTCTCCTGCCTAAGCCTCCCAAGTAGCTGGGACTACAGGCGCGTGCCACCATGCCTGGCTAATTTTTGTATTTT
TAGGAGAGACGGTGTTTCACCGTGTTATCCAGGATGGACTCGATCTCCTGACCTCGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTT
TGAGCCACTGTGCCCAGCCTCTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAATGGCATGATCTTGGCTCACTGCAA
CCTCTGTCTCCTGGGTTCAAGCAATTCTTGTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTGTGCCACCACGCCCAGCTAATTTTTGTATTTTTA
GTAGGGATGGGATTTTGCCATGTTGACCAGGCYGGTCTTGAACTCTTGGCCTCAAGTGATCCACCTGTCTTGGCCTCCCAAAGTGCTGGGATTACAGGYG
TGCACCACCGCATCTGGCATGAGTATCTGTTTTTTTCTCTCTTTTGAGATGGAGTCTTGCTCTGTTGCCTAGACTGGAGTGCAGTGGCACAATCTCRGCT
CACTGCAACCTCCACCTACCAGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGCACTACAGGCGCGTGCCACCACACTCAGCTAATTTTTC
ATACTTTTAGTAAAGACAGGGTTTCACCATGTTAGCCAGGCTGGTCTCGATCTCCTGACCTCGTGATCTGCCCACCTCGACCTCCCAAAGTGCTGGGATT
ACAGGCGTGAGCCACTGCACCCGGCGAGTATCTGTTTTGAATTCCTTGGGATCTATACCTAGRAGTGGAATTGCTGGGTCATATGGTAACTCTGTGTTTA
ACTTTTTGAGGAACTGCCAGACTGTTTTCCACAGCAACTGAACTATTTTACATTCCCACCAGCAATGTATGAGGGTTCCGATTTCTCTACATCCTCGCCA
ACACTTGTTATTTTCCCTTTTTTAAAAAATTATAGGGCTGGGTGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCTGGGTGGGCGGATCATC
TGAGGTCAGGAGTTTGAGACCACCCTGGCCAACATGATGAAACCCCGTCTCTACTAAAAAAATACAAAAATTAGCTGGGCATGGTGGCTTGTGCCTGTAA
TCCTAGTTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCATTCCAGCCTGGGCAA
CAAGAGTGAAACTCTGTCTCAAAAAAATATATATATACACACACATATATATATACATATATATACACACATATATATATACATATATACATATACACAT
ATATATACATATATATACACACATATATATACATATATATACACATATATATATACATATATACATATATATGTATATATATATATATATATATATATAT
ACACATAGAGAGAGAGAGAGAGAGAGACAGAGAGAGAGAGAGAGAGAGCTGTCCTAGTGGGTATGAAGTGGTACTTCATTGTAGTTTTGATTTGCATTTC
CCTAATGAATACTGATATTGAGCATCTTTTTTTTTTTTTTTTTTTTTGTGAGATGGAGTCTCACCCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTC
CACCTCCTCGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCATCATGCCCGGCTAATTTTTTGTATTTTTA
GTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGGTCTCAATCTCTTGACCTCGTGATCCGCCCGCCTCGGCATCCCAAAGTGCTGGGATTACAGGCATG
AGCCACTGCACCCGGCCTTATTGAGCATCTTTTCATGTCTTTTTGGGCTATTTTTATATCTTCTTTGGAGGAATATCTATTCAAGTCATTTGTCCGTTTC
TTCCCCCTTGCCAATTTTTTAATTAGAATGTTTGTCTTTTTGTCTTGGGCRAGTTTCTTAGCCCCTCTACTGAGGAGCCCATTTCTTCATTGTCTAATGG
GGATGCTATTGTCTGAAGTGTTATTGCAAAGGTGTTGTGCGGTAATGTCCATTCAGGGCCTAGCACACAGTGGGAGTGGGAAGCATAARCTGACTTGGAA
TTCGGCTCTGGTCTAGGGGATCAACTATCCCGGGTTTCCCAGGATGGTCCCGGCTTTAGTTCTGAGAGTCTGGCATCCTGGAAATTCCTAAGTTCTATGT
AAACTGGGGCAGTTGCTCACCCTCCTCAGGTCCCAGATGAGGTAGACCGTGCGTATCCTTGCTGGGCCTTAACTCTAAACCTGTTTCCTCATCTGTAAGG
TGGGACTGATCATTTCTCATAGGGTTGTTCTAAAAATCAGATGCACTGATTGCTTGAGAAAGTTAACTAGAAARATCCCTCCCAGATCTTACCTGAAAGT
ACARAAATAGGATTRTAGTCACAAAAGAGGATTTCCTGGCCTTGAAGCTTCAGGTGTTATCTTTCATATTCTTAATACTCTTCAAGGTGTGGGAAGGGAC
CGGCAGCACTGGCAGTGCCTGGGAGCTCGTGGGAAATGTGGAATGTCGGAGTCCTCAGACCTGCAGAATCAGAATCCGATTCCCAGGTACAGTAGGTCCT
CCAATGACATCGTTGTGGTCACCGTTGTTTTGTTGTAGTGTTGATGAGAAAAAAATAAATGGATTCCCAGCTGGGGGCACCACTGATGTGGAGTTTGCAT
GTTCTCTTCACGTCTCCGGGTACTCTGGTTTCCTCCCACATATCAAAGATGTGCACTTTAGGTTCACTAGAGTGTCTAAGTTGTCCCAGGATGAGTGAGC
GTGAATATGTGTGAGTGCGCCCTGTGATAGAATGGGCTCTGAGTCAGTTCCCGCCTTGTTCCCTGAGCYGCTGGGATAGGTTCCAGCCACCAGAGACCCT
GAACTGGAATAATTGTGTAAATAATTATTCTAACTTGTTTTTATGAGTCTTTTTTAAATGTATGTATTACATAACTCACATTTATGTCTGTTTAATATTA
GAAGTGTTTTGGTCTTTATTTAGTAGTTTGACTTTATTTAGAAGCAACTGGAAATATGCCCTAGGAACTTAACTCTTGCTTATATCAATTACTTTATGGT
AAAATTGGTTTCATTATACGTTGCTTTGCTTACAGTCAAAGTTTCCAAGAACCCATCAACAATGTTGAGTGAGGCCTTACTGTAATTCACATGCACACTC
TTTTTTGTTTGTATGTTGGTTTTTTTTTGTTTGTTTGAGACGGAGTTTCACTCTTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCATTGCAA
CCTCCACCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAGGCATGCGCCACCACATCCGGCTAATTTTTATAGTTTTA
TTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGATGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTG
TGAGCCACCGCGCCCGGCCCATGTGCACTCATGTTTGAGAAGCATTGCTTTATACCAAAGGCTACGAAGCAGAGGAAGTCATCCAAGATATGGAAAATGT
ATCAACAAGTTCATCACAGTAGTATTTATAAAAGCATCAAAATTGGAAGCTACCTAAATGCTCAATAAAAGAGAAATAGTGAAGAAAATTGTGAGTTTTC
TCCTGAGTGGACTGTCATGCAGCTGTTACAAATGATGTTTGGAAATACCTTGTTTACCATCAAAAGCTGCTTTTGATATCATGAAATGTGACAGAAGCGG
TCCATGAAACTGCATGATCAGCAGAACTGTGACTGTGAAATTAACATACATATRAAAAAACACTAGAAGAAAATAGGCCAGCATRGGACCAGATGAGGGA
TGGGGAAGGCCTGTTTTTGTTTTTGTCTGTCCTTGTCCTAATTCTCTGTGGCTATATGGTCTATATTTACCCTATCACAATCCCTCAAAAAGCCCACATT
TGGGTCATTGCCAGGATAGGATGATTTTTCCATTTCCATGAACTGTTAGGGGTATTAAGAAATGCTTAATACCCCCAATGCCAGTCCATATCCTCTGTAC
AAGCCTAATCCAAAGCCCTGTTTCCAGGGCTTTCTTAGGTCAGCCTCACTCACTCTGACATCTCTCTACCCCAGACCCTCAGCGAGGCAGAGCTCTTTGT
CCAGCCTGGATCTCCCCTTGCAGGGTTATACCAGGGGACATACTTCCTGCATTTCTGTGATGACAAATGTTCTGTGTGGGTTTATTTCAACCTGAGGTTT
GGCTATGTCCAGAGGGCAGCTGGGGGTTATTGTATGGATACATGAGGTGAGAGAAAATAATAACAGGGGACATTAAAAGGAATTGCGCTTCAGGCCTGTA
ATCCCAGCACTCTGGGAGGCGGAGGGAGGGAGGATTGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGCTGATAGGGTGAGACCCTGGCTCTATAAAAATT
ACAAAAAAAGTTAGCTGGGCGTAGTGGCCTGTGCCTGTAGTCCCAGTTACTCAAGAGGCTGAGGTGGGAGGATCACTTGAGCCCGGGAGGTGGAGGTTGC
AGTAAGCTGAGGTGGCACCACTGCACTCCAGCCTGGGTAACAGAGTGAGACTGTCTCTAAATAAATAAATAAGCCCTTCCTGAGTGCCAGCCTCATTGTA
TGGCTTTATGTTTAATCCACACAACTACCTGATGAGGCAGGCATGTCTCTCTTTAGCTATCTGGAACAGAGAGGTGAAGTTGCCTATTCAGGATCACACA
GCCAGTAAGTGGCAAAACCAGGACAAGAACCCAGGTCTTTGSCTTCAGAGCCTAAGCTCTTTCTCACAATTTAACTTAATTTAATTAAAAACTTTTTTGA
GATAGGGTCTTGCTCTGTTGCCCAGGCTGGAACACAGTGGCGTGAACATAGTTCACTGCAGCCTTGACCTCCTGGGCTCCAGTGATCCTCCTACCTCAGC
CTCCCTAGTAGCTGGGACTACAGATGTGCTCCACCACACCCAGCTAGTTTTGTCTTTCTTTGTAGAGATGGAGGCTCCCTATGTTGCCCAGGCTGGTCTT
GAACTCCTGGCCTCAAGTGACCCTCCCTCCTTTGCCTCTCATAGTATTGGGATTACAGGCGTGAGCCACAGTGCCCAGGCAGTCTGAGCTCTTACCCACC
GTCTCTTCAGGGACAAAAATGAGTGACGTGTTGATGCAGAAGGTACTTCTGGACCAGGACCTCTGAAACTGTGCTTTRCAAAAAATCCCCTTGGAAGTGC
TTCCAAAGGCAGATGCCGATTCAGCAGKCTTGGGGTTGGGCCCAATAATCTGAATTTCTAACGGGCTCCCAGTGATGCTGATGTTGYGGCCCAGGGGTGC
TCTTGGAAAAGCAGGATCTAGAATGCATTTCTGTTGGCCTTGTAAGGCTTCCTGGTATATGTGCCCTGCGATCGAAGGGCAGGGACTGGGATGTCCCCCT
CCCCACAGTAATCCCATCCACGCCTCCTGGGTTGGACCCAGCTGCCTCAGCACCATCCTGACCAGCCTGGCCAGCCAAGCCTCTCTAGCAGCCCTGCAGG
ACGTCCTTGGTTGCTTGCCCCAGCATTTCCTCCTGCCAGTTGGCTGGCAGGTGATGGGCCGACTGTGACAGCTTAGCCAGAGTTCCTGTCCAGAAATGTC
TTGAGCTCAGCCAAGGTAAATGCTGCCCCGCTGTCAGAAATGAAGTGCCTGTCGGGCCTCTGGGCATGACTAATTGAGGCGGAAGAAATACTGTAACTGC
TGACGTTTCAGATGGAGCTGGGGGTTGCTTTGAGGAGGCAGCCTCCACAATCAAGCCCTTTCCTGGAAAGGCCCAAACAAATCAGGGTAATAGCTCCCAC
TTCTCAAATACCTCCTGTGGGCCAGGCACTGGGCTAAGAGCTTTGTGTTGATATGTTTTGTCTAATCCTTTCAAGAAACCCCTTTCAAGAACCTTGCAAG
AGGCCAGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACA
TGGTGAAACCCCGTCTCTACTAAAATTACAAAAATTAGCTGGTGTGGTGGCTCACATCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGTAGAATCACT
TGAATCCAGGAGGTGGAGTTTGCAGTGAGCTGAGATGCGGCTATTGCACTCCAGCCTGGGCAACAGGAGTGAAACTCCGTCTCAAAAAAAGAGGAACCTT
GCAAGAAAGGTCACTGATGAGGGAACTGACCCTCAGAGAAGAGAGGAATGCTGGACACCAACCATTACATAATGGAGCCCATTTTGGAACTTGGGTCTGT
CTTACTCCACAGACAATATGTTTGATCCTAGAGCAATGGTTTTCGAATTGTGCTCCATGGAACCCCGAGGGTCTGAGGAGCGCTTCACGGGCTGCTGTGG
GAGTGAGGGTGGCAGAAAAGGAAGTAGCACAGCAAGCTAGGCTCCAACCCTTCTCTGTCCTTCTCCCAATGTGGCTTTACTTTGATGTGATTTGTGTATT
GAGCTTCTATGAAAGATTTGTTGGAAGAAATGATTTCAGGACCAAAAATGTTTGAAATCCATATCACACTGCCTCCCAAAACAAATGTGGATTATTGMTC
AGGGCTTCTTGCACACATTTCAAGGAAACATCATTCCATTTGGTGGACTTGCCAAGCGGCGTGGCTCGTGTAACCCTCACTGAGCTCCTTTGTAAYGTCA
AGTCATCCTGGTCAGAGCTTCTACAATGGGCTGTGAATTGTGTGAATTCCTTGGGARGGTTCACTGCCAGGCAAGGTCTCCGCATCCTTTTTAAGAGGCA
CATCAATATGGATTATAGTGACCATACCCTGGGATAGACTGGCCTGGTGTTGGGGGCCTAGGTTCCTGCTATCTTGCGGCTCTGCCTTCTAAAACATGTG
CTTTCCATTTTGTAGCTCAAGATGGCTATTTCAGCTCCCACCATCACATCTGCATCCCAGCCAGGCAGAGAGAGGGCACCCCAGTCTTTTTTTTTTTTTT
TTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATTTGGCTGAAGTGATTCTCCTGCCTCAGCCTCCTGAGTA
GCTGGGATTACAGGTGTGCCTCACCACGCCTGGCTAATTTTTAAATATTTTTAGTAGAGACGGGGTTTCAACATGTTGGCCCGGCTGGTCTCAAACTCCT
GACTTCAAGTGATCCGCCTACCTCGGCCTCCCAAAGTGCTGGGATTTCAGGCRTGAGTCACTGCACCCAGTCCCCCCCCCCTTTTTTTTTTTTTTTTTGA
CAGAGTCTTGAACTGTCAACCAGGCTAGAATGCAGTGGCGTGATCTCAGCTCACGACAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGTGTCAACCT
CCCGAGCAGCTGGGATTACAGGCGCCCACCACCACACATAGATAATTTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGA
ACTCCTGGCCTCAAGTGATCTGCCGGCCTCAGCCTCCCAAAGGGGTGAGCCTCCGGACCCGGTCACCCATTCTTATTACGGGCAATCTTTCTGCTCATCT
TCCATTGGCCAGACATAGTCATGTAGCCATACCTAGCCATAAGGAGGGCTGGGAAATATGGTTTAACTGTGTGACTGTGTGCCTAGCTATAACTGGGAGC
CTCTGCAACTCAAGGAAGAAGGAGAGAGTGGTTATTGGGAGGCAGTTATTAGTCTTTGCCATGGGTGGGGTTCCTCCATCAAAACTGCCCATGTGGGTGG
CAGCGTGATAAGGGGCCTATGGTGGCAGTTGGGAAGTATCCCCAAAGTTGGTGAATTTCAAGCCATGGGACTCTTTTTCCCAATGGCCAGCCAAGAAGCT
AGCAGTGATTGACTTTAGAGAAGAAGAATCACAGTGGTGTTGGCAGAGAAATCAAACTAGGAGGTTTATTCTGAGCCTCTATGAGCGATTGCAGCCTGGA
GAAAACACAAACCCAAGAAGCCTTGAGTAAGTGATCCTGAGACAGGTGACAACTCTGCTTTATACATTTTAGGGAAGCAGAAGTTACCGGCAAAGTCATA
AATTAATATATGGAGTTTATATGTTGCTTTGGCCCAAAAAAGGTGAGCTATCTTGAAGTGAGAGCTCACAGGTCATAGGTGGGTTCAGAGATTCTTTAAT
TTGCAATTGGTTAAAGGAGTAAGGCTTTGTTCAAAAACCTGGAGTCAGTAGAGGCCAAGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCC
GAGGTGAGAGGATCGCTTGAGTCCAGGAGTTTGAGACCAGACTGGGCAACATGGTGAAACCTTGACTCTACAAAAAATTTAAAAATTAGCTGGGTGTTTG
GCCAGGTGCAGTGGCTCATGCCTGTAATCCCAACCCTGTCTCTACTAAAAATACAAAATTATACAAAATTAGCTGCGCGTGATGGCGCATGCCTGTAATC
CCAGATACTTGGGAGGCTGAGGCAGGACAATCACTTGAACCCGGGAGGTTGCAGGGAGCCGAGATTGTGCTATTGCACTCCACCCTGGGCAACAGGAGCA
AAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAATTAGCTGGGTGTGGTGGCATATGCCTGTGATCCCAGCTACTCAAGAGGCTGAGGCGGAAGGATCAC
TTGAGCCCTGGAGGTCGAGGACTGAGGCTGCAGTGAGCCATGATCAGGCAASAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAAACCTAAAATAAAT
AAAAATAGAAAACTTGGAGTCAGTGGAAAAGAATGTTTAAGATAAAGAAGTTTGCTAATCATCATGTGATCTGCCAATCATATCATGCCATGTATCGTAT
GATCTGCCAGAGTCACATCATCTCATGCCTTATCTGATATGTCATGTGATATGTCAGAGCAAGACTCAATATGCTGGGTCAGGCCAGGCGCAGTGGCTCA
CRCCTGTAATCCCAGCACTTTGGGAGCCCGAGGAGGGTGGATCACCTGAGGTCGGTCTCTACTAAAAATACAAAATTTAGCCGGGCGTGGTGGCGGGTGC
CTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAGTCRCTTGAACCTGGGAGGCAGAGGTTGCCGTGAGCCGAGRTGGTGCCATTGCACTCCAGCCT
GTGTTACATGAGCGAAACTCCATCTCAAAAAACAAAACAAAAAAGCGCTGGGTCAGAGTGGCCTGCAGGGGTGCGTGATTTAACCCGTGCCTGTCATGGC
CTTAGGTCCTCTTTATAATTTGATATCATATTGCCACAGAGTCCATTCTGTCTGTCTTCTGATCTCTATTTTAATATTAATGCTGGTAGTTGTGTCTAAA
CTGCAAAAGGGAGGGGTTACAATGAGGTGTGTCTGGTCTCCCATCCCATTATGGCTGGGAACTCAGCTTTTCTGGGGTCTCATTGGCCAAGAGGGGGTCC
ATTCAGTTGGTTGGGGGACTTAGGATTTTATTTTTAGTTTACAGTGGCTGATGTGTTGCCAGGGAAAAGTTCTCCCAGAAATTTAGTTTCTCAGTTCTCT
CTTCTCATTCATATTCTTTTTAAAAATGAAGTTAAAAAAAAATTTTTTTTGAGACAGGGTCTCACTCTGTCGCCCAGGCTGGGGTGCAGTGGTGCGATCT
TGGCTCACTGCAGCTTCAACTTCCCAGGCTCAAACGATTCTCCTGCCTCAGACTCTGAATAGCTCGGACTAYGGGAGCACGCCATCACCCCTGGCCAGTT
TTGGTATTTTTTGTAGAGATGGTGGTTTCAACATGTTGCCCAGGCTGGTCTCGAACTCGTGAGCTCAAGTGATCCACCCACCTGGGTCTCCCAAAGTACC
AGCATTACAGGCCTGAGCCTCCACGCCCGATCTAATTTAATTTTTTAATTGAMAAATAATTGTACATATTCATGGGGTACATAGTAATGTTTCAATACAT
ATAATGTATARTGATCAGATCAGGGTAATTTGCACATTCATAATCTCAAACACGTACCCTTGCTTTGTGGTGGGCTCATTCACACTCTTGCTGTCTGTAC
CAGTGAAGGACTGCCTGGGCTCACCCTGGAGGTTTTTCCTCTGATCACCTCATAAGCAAGGCTATTCTATTTAAGGTCCTTTTGGTTCTGAGGAGCTATT
TGAGCTGTCCCACAGAGAAGGATTATCGTGAGGGTGCAGAAGACGATCATGGGAGACCCAAGGGCTGGACATGAAGGACAGCCAGACCTCAAGGAAGCTG
GAAAGCTGTTGGGAACCAGGTCCCCTCCCCCAGTTCTTGCCTCCTTTTCATTAATTCATCATATGTTTATTGAAGCCAAATGTATATAAGGTCTGCCTTT
CCTTTCTGTGGATCAGAAGTCTTCTGCAGACAGCTCAGGATGGTTTCGGTTCCTTTTTTTCTTTTTTTCTCACAGACTCTGTTCATCTTGAATGGTTTCA
GTTCCTAAGTCTCCAAGATCTTTCAACTCAGCTCTCTTGCTGCCAGCTTCTCAGTTTCCCAATTTCACCCTCCCGGGTGGTGATCTGATTGGCTCAGKCT
GCACAAGCTGTAGATTGTAGGCTTCCAATAGATGAGCTGCTTTTGAATCATGTGATTACCTATGTCCAATCAGTCTGAGGAAGCACAGGGTCATGTAGGA
GACTGTGATGGGTGTAGTCAACTCAGCAGGGCCTACGGGTCTGGGGGYAAACGTCATTGGGATGGGGATGGAGCATCCTAAAACATGTCTGGTACAAGGA
TATTATTTAAAATATAATGTCACACCTGAAATTTTAGTTAGCAGGGCTCCATACAACATTGATGTTTCAGGAGCATCAGAAATTGTAGACTAGGCGGACA
TGGTGGCTCATGCTTGTAATCCCAGCACTTTGGGAGACCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGAACAGCCTGGCCAACATGGTAAAACC
CCTGTCTCTATTAAAAATACAAAATTAGCTGGGCGTGGTGGTATGCACCTGTAATCCCAGAGACTCTGGAGGGTGAGGCAGGAGAATCGCTTGATCCCAG
GAAGCAGAGGTTGCAGTAGCCCAGATCTCACCATTGCACTCCAGCCTGGGCGACAAGAACGAAACTCCATCTCAAAAAAGAAGAAAAGAAAAGAGAGAGA
GACAGACAGACAGAGAGAGAAAGAAAGAAAGAGGAAGGAAGAGATTGAGAGGAAGGAAGGAAGAGATTGAGAGAGAGAGAGGAAGGAAGGAAGGAAGGAA
GGAAGGGAGGGAGGGAGGGAGGGAGGGAAGGAATTCTAGACTAAAAGGACTGGCTCTAGAACGCCGCGGGTAGGTGGCAATAGCTTTCATTGCATCACTG
ATGCTCAGCCCTGAGGAACCTGGGTAAACTCTGGCCTCATAAAGAACTGGATGGAGACAATCAATACAGGCAATGGAGCAGCCCTGCCCCAGCTGAAGTC
TCTTCTTTTTCATTCCACAAGGCCTGAGTGGTTGGCAGAACTGTTGCACCTCCCTGGGCATGTGGACAGATTGGAGGATGCTGGCCAATCAAACCCTTTA
CTCAGCTCTGCTTCCAGAAAGTAAAAGGCATGTCTCTTGGTTTTGTTTTGTGACAATGTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCATGATCAT
GGCTTACTGCAGCTTTGATCCCTTGGGATCAGGCAATCCTCCTGCCCCAGYCTCACAAGTAGCTGGGACTACAGGTGCATGCCACCATGCCCAGCTAATT
TTTGCATTTTTTTTTTTGTAGACTTGGGGGGAGGGTCTCACTATGTTGCCCAAGCTGGTCTTGAACTCCTGGATTCAARCGATGTTTCTGCCTCAGCCTC
CCAAAGTGCTTCTTGTCTTTTGAGAGTACTGGTTCATTGGTTGGATTCAGATGGCAAGTGGACATTGCGGTTGACTTTTCAACATATATTTTACCTTACA
GCCTTGTACAATAGGAATGGGATCTTGGGTTCCATGATAATCCTACCCCCCAGCTGGTGTTTGGTTTAGGTGGAAGCTGTTTAGCATCTAGGGCTTCCTA
GTCCAGAGGTGGCAGGGGACCCAGGTTGACCCTGCCATCTTGAAGCACACGTGTTCATTCAGTGGTCGGGGAGAGGTGTGCTGTGCCTGTCTTGCTTCCA
TGAGCCAGGGCTAGTTGCCACTGTCTGCCATCCCGTCACTAMAAGATGCCTAGCCTTACAATGAAGCCCACACTGAAAGTGGCAGAGAAGAAAGACTGAA
AGAGCTTGGTCTTGGTCATTGAGCCACATTCCCCGTCAACCCTGATGTCAGGCCTTTGCTCACCCAGCTTCCATTCYCCATTCCTAGCGGAGCCATGATC
CCCAGTTCCTGGGGGAAGTAGACTRGTTTAACCAATCTGGCACRCCCTGGCCCTTGTAATAATCGGGGGCCACATCAGACTGAAGGGAAGATCTTGTGTT
CCACTCTTGGTGYGAGGTTTCTCCTTTTGAACCCGACAAGGAAGCATGCTGCCTCAGTGGCTATAGGCAGCCCTCTTTGGACCAGGAGGCAGTCACACTT
AGGACAATGTCCTGATGACACGAGGATCATCCATGTTCCATGCCTGCTGCCAGGCTCTCAGACGCTTGGTCTAACACATGTCCTCCGTGTTGAAGCTGGG
TTTCTCTTCCTTGCCCCCGAAGGTATCTGCCTTGTTGGCTTTACTTCCTCAGAGRAGAAATTGAGGAATCCAGAGACACCTTCCTGTGTCCAGGATGTCC
CAGGTTTGGGAATGCTGTCTGTGGGCTTGGATTCCCAGAGGAGGCAGCTGKTTCCTCCACAAGTGGCTTTTGTGTCACCTGCCACTGGAGATGGGGGAGG
ATGCTGTCCTTGTCAGAGCCACACTGCACATTCTCAGCACAGTCTTGACACCATTGGCTGCAGAATCCTTGTGATTCAGCTCATTTGGCAAGCAGATGCT
GAACACCCACCAGATGCCAGGTGCCAACCCCTGCGCTAGGGAGGTGCTGGGGGCGGAGATGAATGTGCCACCRTCCCTGAGCTCCAGCCTCCAGACAGTG
GTCCTTCTGATTGAGAGTTTAACCAATGACTGGTAGGTAGCCTAAGTCACCTTCCCRGAGAGCTGTTGCTTAAAGATCTCAGAGACAGTGGATAGAGGAA
AGGTCACTGTCTTTGAGTGGAACTGACCTGGTTTCATACAGTTACATTATTTCTTTTTATTTTTTGTTTTTTTGAGACGGAGTCTCACTGTGTCACCCAG
GCTGGAGTGCAGTGGCGCAATCTCGGCTCACAGCAACCTCCACTCCTGGATTCAAGCAATTGAATATACTGCCTCAGCCTCCCCAGTAGCTGGGATTACA
GGCATGCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGTTTCACCRTGTTGGCCAGGCTGGTCTTGAACTCCGGACATCAGGTGATCC
GCCCTGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCTGGCCTAGTTACATGATTTCTAGTCTCAGTTTCCCCACTGAGAAAAT
GGGACTAATATTAGTGCTCACCTCCTAGGGTTGCCCTGCAGTAACAAATATGAAATGCCCAGCACTCTCCCATCACCACTCAGCAAATGCCAGCTTCCMT
TCTCCTTCCTCCCACGCTCCCAAATGCTCCCCTGCAGGCTTTGTGCTTGGCTCTGCCCAGGAGTGATCCCCCTGCAAGTCGCCCCCTCCCTCCAGGGTGC
ARTTTGGCCTCACCCATCACTGTGTGGCCACCCTCAGCCAGAGCTGAGTAGATATGGCTCCTGGCTTCACTGTCCTGGAGTAATAAAAGTCAGGTGTGCC
AGGAGGGCAGTCTGTTGGGCCTGTTTGGGACCTGCAGCAGATTCTGCATGGCATTGCCCTTGAGCCAGTCCTCCCCCTGGCAGGCCAGCTGTACTTGGCA
CTTCTGAGGCCTGAAGCAGAGCTTGGCCTCACCCTCGCTGGCCTGAGTAGGGCATCGTTAGGCTTCGAGGCTCTTGCCTTCCCTGGGATCTGCTGACTCA
TTGGAGAGAATCAGCTTAGGAGTTAGAGGCAGCAGCTCGTTTCATTTCTGACTTTCCTTGAGTCAGAATAGATGGAAGTTTTCTGTCAGTTAAGAGGTGC
CATTGCAGGGGTCATCGGGAACTCCAAGMATGAGTCCAGGGATCATCCAGGTGTCAGAGCTGAGGCACGTGACACAGGGCCTGGTTTCTCTGCAGAACAG
CACTAGTTTGGATCAGACTGCTTGTCTTTGCTGTGAAGCAGAGAACTCCGAGCAACGGGCCAGGAAGATGCATTCCCAGGAAGCTCACGCTTTGCAGTCT
TAGCTGAGGCGGCAAGAGACACGTCAGCATCTGTTTKGGCTTCACAACTGCAGAGCGTGGCTTCTGTCCCGGGCACTCATTTCAGACGCCCGGAGGTTTG
GGGAAAGCTCTCGCTGTGCGGGGCCCAGGAAGCAGGCTGATTGAAACCAGACCTTTCTCCGAGCCTCAAAGCAACCGTCTTAAACACTGGCCCGCTCAGG
TTCCCAGGTGGAAGCTGTATTCAGTTGACTCTGAGACTTACCTGAGAGCACCTGTTTAGCATCTGCAGCTGTCCTGCTTTGTTTGGTAAAATGATCCTAT
CCTGGACTTCAGAATATGTAGTGGTACCTGTAAAACAGGCAGCTATAMTTTGTGGTCATTCTTTGCTCAACAAATCCTCCATTGAACACATACTCTGTGC
TTAAACACGATAAATAAAGGCTGACCTTACTCTTGGGGTCTTAYGRTCTTACAGGAAAGGCAGACATGAAGATGTGTATAAAATCCAAGTAAATTGTCAC
AAGTGTGCAAAACACCAGGAGAAAGAAGCACAGGGTGTGATGGGAATGCAACAGGGAATCAGAGAGGCTTTCTTGAGGAAGTGACTCCTGAGCTGAGGCT
GGATAGGTGAGGAAGGGTCAGCTCCTGAACAGGGAAGGGAAGAAATTTTGAGGCACAGGCGGCACCAAGGTCCTGAGGCAGACAACTGTGTGGTGATTCC
CAGAACAAGAGAGCAGGGGAGAGGAGGAGGTGCTGAGTTGGGGCCAGACCACCACACGTGGGGAAGGATTTGTGTTTCCGTTTAACAGAGAGCTAAACCC
AGGGACTTAAGAAGCAGCCCTCTAGCATGTCATCAGGGACCAAGTCTCCATCTAGTTGTCCACTTCACCATCCTTAGGGTGTGGCTCTTGTCCTTATACT
CACAAGATGGCTGTTGGAACTCCAGCCATCATGTCTGCATTCCAGGCAGGAAGAAGAAGGGCAAAGATAAGAGGGACAAGCAGTCAAATTTGATCTCTTT
CAGAAGGTTCCACTAGAACCTTCAGCTGATGTCATGAGCCAGCCTGTGTCACATGGTAATCCTTAAGACATCCAGGGAATGAGGTTTATTAGATGGCTAC
ATCATTGCTGGTTGCTACAGAATCAATCTTTTTTTTTTTTTGAGACAGAGTCTCACTGTGTCACTCAGGCTGAGTGCAGTGGCTCAATCACAGCTCCCTG
CAGCCTCGACCTCCTGGGCTTAAGGGATCCTCCTGCCTCAGCCTCCTGAGTTGCTGGGACTACAGGCATGCACCACCATACCCAGTGAATTGTTTTATTT
TATTGTATTTTTTGTAGAGACAGGGTCTCACTATGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCTCCAGCCTCGTCCTCTCAAAGTGCT
AGGATTACAGGCATGAACCACTGTGCTCAATCCAAAATCAATTTTCTATTAGTAAAGAAGAGAAGGGAATGGCGGAAGGGGCGTAACCTTTGTTCTGAGT
GCAACTGGGGAGCCACAGAATGGCCTAAGCAAGGGGATGATGTGGAACAGGGAAAACAATTTCAGGTTGTCCCAACTGGGCCACAGTAACACACACCTGT
GGCACAGATATTCATTTCCTAGGGCTGCCAGAACAAATTACCACAATTTTGGTAGCTGAAAACAACAGAAATTTATTCACTTGCAGTTCTGGAGGCCAGA
AGTCTGAAATTAAGGTGTCAGCAGGGCCACGCTCCCTCTCAAGGCCCTGGGAAAGGAGCCTTCCTTGTCTTGTCCTAGCTTCTGGATCTCCTGGAAATCC
TTGGTGTCCTTGGTTTGTAAACAGCGTCACTCTAATCTCTGCCTTCATTGTGACAGGGATCCTCCCTGTGTCTCCTCTGCGACTCTGTATCCACATCTCC
CTCTTCGTTTACATAAAGACACCGGTCATTGGATTTAGGGCCCACCCTAATCCGGTCTGCCTTCATCTTGACTTGTTTCATCTGCAAAGACTATTTCCAA
ATAAAGTCACATTCATAGGTACCAGAGGTTCACACTTGAACATATCGTTTTGGGTAACACAGTTGAAACTCACTACAGCATGCAAAAGGATGGAAAGGCT
ATCTGGTGCTGGCTGGGCTAAGGTGGGCCACTCGTTTTCCCCTCACCCACAGATCATAAGATAGCCCAGGATTTAGGGAGGCAGGTTTATTTCCCTAATT
TTAACACATTGCAAAGCACCAGTCCCCCTACCCCCACCTCCAGCAAACACTTCCTAAGCATGGAGGAAGTGAGGGACCTTGAGCCATAGGCACAGAGGTG
ACCTTGCCCATCCCTGCGTGTCAGGGGCTCGTAGTTCAGGGGCAAACAAACATTTAAATGATGGGCTGGGCTGGGCATGGTGGCGCACACCTGTAATCCC
AGTTACTTGGGAGGCTGAGGCATAATAATTGCCTGAACCCAGGAGGTAGAGATTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGCGACAGA
GCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAGAAAGAAAAAAAAAGATGGGCTGAATAGCATCTAAACTTGGTTTCCTTTCTTCAGGCAAAATTTTA
GGSTAACTGATGTCTCTTAATAAGCCACTTTTTTGTTTGAACTRGGGGGAAGAGGGCAGGCTGTAGCTACGGCCGTGGCAGGTGGTCCCAGGTGAACCAT
AACCAGCTTCAGAGTTGGAGTCCTACAGACTATCAGATGTACAGTGTTGGGCAGGGCCCCCTATATKTTTTTTGCTTGGAAGTGGAATAAAAACTGCTCA
CCTGTGAATCCAGGAAGCAGGCTGGGAGGCRGCCATCGGACTCTTCCTTTGTGCAGATCTCTCTGCACAGAGTGCCACGCACGGAGCTTTGTTTCTTGAT
GGGTGATTTTTTTWAAAATTGAGATAGGGGTCTCCAGCAGAGATGGGTGGAAATAGGAGAGACAGACACCAAGGAAAAACATGAAGCATTAGTTCTCCTG
GAGGATGGGGAAAGGGGCAGAAACAGAGGGAGCTGCTTTCCCGAGGGAGGCTAAGAGCTCTGGGCAGAAGCAGTGGCTTCAGTGCCTGTGGGCAGAGCTG
GAGAGCAGTGCRTCCCCCTCTGGGTACCCTCCCGAGACTCCAGGGCTGGTGGCTGTGGCAGCAATGGGAAGCAGCATCCTTAGCCCTCACCCCAGGGGCC
GTGGCATCAGGGCAGCCCCCCTACCAGGTGGCTTTGTGAGTAAAACCAAGAATCCAACAAGAGTGRCCCCATGTAACTCTTGCAAATAGTACACATGAGT
CACCCCTTGAGGACTCCCTGAAATAAGGGATGGTGGAGGCCACTTGCAGGGGGTGGAGGTCCTCATTGGGGAGGTAGGGGTGAAAGGCTGATAAGAAGGC
AGGGTTTGGCTAGGCGCRGTGGCTCACACCTGTAATCCCAGCACCTTGGGAGGCCCAGGTGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGG
CCAACATGGTAAAACCCCGTCTCCACTAAAAATACAAAAATTTGCTGGGCGTGGAGGCGTGTGCCTGTAATCCCAGCTACTTGGGAGGCTAAGGCACGAG
AATCGCTTGAACCCGGGAGACGGAGGTTGCAGTGAGCCGAGGCCATGCCATGGCACTCCAGCTTGGGCGACAGAACGAGACTCTGTCTCAACAATAAAAG
AAGGCAGAGTTTAAGCCGAGTGTTGAATGACCAGGAATCTGTCAAGGGGAGAAGGCGAGGGTGGCCATTCCAGACAGGAGGACCAGCGTGGGCAGTGGCA
CGAGTGACCATTGGTGGCTTGAGGCTGTCAGGGGAGTCTGGTCTGGGGGGTGGGCACACAAGGATGCACAAGGTGGTGAGAGGAGAGAGAAGGAGCTAGA
GAGAGGCTGGGGCTGGCTGATGGTGGGATCTTGCATGCCAGCCTAAGAGCTTTGGTTTTCGTCTCGAGGACAGTGTCTTCAGGGAGCCCTGGATAGCCTG
TGAACAGAGCAAGGTGTTTTTGATTGGTTTGACTGCCGTGCTGAGGATGGGTGGAGGCATGGGCTGTCTGGAGGCAGGAAGGGAGGGCAGTGGCAGAGGG
AATAGCCCCCGACACCAACCAACCATGCTTCTTCCGCTCATCGTCCCCCAGCCTGCCCCRACCCCAGGTCTCCAGATTGTGTCRCTTATCGTAAGAGCAG
AGTGCCTTCTGGCAGGTGAGGAGTGCAGGAACCCCTTGTCCCTGCTCACGCTGCGCCCAGGGCAAGGGCCGGCTGGGCAGCTGGCAGCCTGGCAGGGAGA
ATGTCGTTTACTCTGCTGTGTCTGCCGCCACCACCGCTGGGCAGCCTGATTAATGACCCAGGGCTCCTCACAGGTCAGCGGCCCCACCTCTGTGGCGGTG
GCTGCCAAGGGAACCTGCCTGCCCTGCCTCCATTCCTCCTGCGGCTGGTGCTCTTGGGTCGGCTCCAGGAAGGGCTTCCACATCGCCCCTCTCTGGCTCT
TAAGTCTTTCTGCCAACCATTTCCCTGGCCTCCTTTGAACCCTGGCCCAAGTGCTCCTCTGCAGGAGAGCCTTTGCAGAATGAACCCCCAGCCCATAGCA
TTCTAACTTCTTTATTTCATCTCCATCAGGCACACAGCAAAGGCTCAAAGATATGCCTCGAAGGAATCCTTGCTGCTTCTCTCCCCTTCCCACCACCCTG
GTGATGCTGTGTGGACTCTGGGTTCTGTATTAGCTCTGCTTGAGGGTCTGTGTCTGCTCCTCTGTTTATATAAGTCCCATTCCAGACTGGAAACTCCCCA
GGACCAAGAGGCAGCCTCCTCCTTTAGACTGGTGCCTTCTAAGATCCAGATTTTTCTCCTTCTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAG
TGCAGTGGCGCGATCTCGGCTCCCGAGTTCAAGTGATTCTTGTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGTGTGCCACCAGGCCACACTAATT
TTTGTATATTTAGTAAAGACGAGGTTTCGCTGTTTTGTCCAGGCTGGTCTCGAACTCCTGACCTCCCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTG
GGATTACAGGCGYGAGCCACCGCGTCCAGCCCAGATTTTCCTTTTCCATTAAATAGGGTACTCTTCCAGGGCAGGGACTATGACTCTCCCTCGGCCTGGG
AGCTCCCTGAAAACAAGGGCCCGGTTTGAGGCCATCCTGTCTGTTCCTCCCTTATGCCCCATGCCAAGCTCAGCCTTGGTCCTGGTCTGAAGGGATGCAG
GGGCTGCCGGCCTCCTGGCTTGTCTGGGAACAGGAGGGCTGAGCATGAGGGCAGCAGGCGTGGATTTGGCTGTGGCCAGGCCTGTTGGGGCACCACTAGG
GGCCAGCTAGTGAGCTGTCTGGGGCCAAGGGGGMGTCCAGGGGGTCCTAGGCCTAAATCAGCCCTTGGGGCCACAGGTCCAGCACCCTGGGAGGGTGGTG
ACTTCCTGTACCCAGAAATCTGAGTGGGGAAGGGCGGAGAGTCAGTCCTGGCATGCTGACTACTCACACCTCCTGTGGGCTTTATCTTGGGTGCCGGCAG
GAGGACAACCACAGCTATTATGTGTCCCGTCTCTATGGCCCCAGCGAGCCCCACAGCCGGGAACTGTGGGTAGATGTGGCCGAGGCCAACCGGAGCCAAG
TGAAGATCCACACAATACTCTCCAACACCCACCRGCAGGCTTCGGTGAGTGCCCCAGTCGCCAGCCATGCTTCCCTGTGCTGGGAGGCYGGGGGCCAAAC
CACCCTGCCTGGTCAGTGGGCATGGCTGTGGCCCGAGGTCTGTGACCTGGGAGGTACCTTCCAGGGRTTCCCATGGGACTTTGCCAGAGTTGGGGTGCCC
AGCAGTGGCCCTGGGCATGCCTGCTCCCCACTCTGTCCAAACAAGCATGAGGCAGTGTGGGTGCCCAGGCCCCTGGCCTGCAGCTTGGCSCGTGCTGACT
TTCTCCCATCCCCTGCAGAGAGTGGTCTTGTCCTTTGATTTCCCTTTCTACGGGCATCCTCTGCGGCAGATCACCATAGCAACTGGAGGTAAGGCCACGT
CGTGGGGCCCCGGGGAGAGTCTGGAGACCTCAGCCCGAACTCAGGGGCCCTCCCAGGGGTGGCTCACTGGAGACAGGGTTATATGAAATGGGAGGAAGGC
ACATTTGGCTCTAATAGGAGTCTGATTCTCAGGAGGGGGGTCAGTGGACGTCAGAGCATCTCCCTTGCATTAGCTGACCTGCTCATGTGCCTGCACRTGT
GTGTCTCCTCRGGCCAGCACGAGTCAGTGTGGACAGCCCTGTGTCCCGGAGTTGCTGAATAAGAGGGAGAGGGAGACTCCACTGAGAGCTTGGGCTCCTG
GGGCCAGGCTCCCTGTTGATAGGAGGCACCTGTCTTTAATCCCTGCACTTCAGTTCCACATCCCACTTCCCCAGGGATGGGGAAAGCTGYGAGTCCTCTC
CTCTTCCTGCCCCCTCGCCCTATAGTCTGTGCCCTGCTGAAGGGACAGGGAGGACCTTCTCCTATCTGGGGTCCTTTGGCTCCATACACACCAGACCCAG
AGCCCGCCAGATGGGGATGGGCGACAGAGGTCTCAGGCTCACTTCCAGCTCTGCCTGCGCTGCCCTTCTTGCCCTTGGGGAAAAGGCCCCCAAAGCGGCC
CCTCTGGGCCATTTCTGGTGACTCCTCTGCACCTCTCCCACCCTAGGCTTCATCTTCATGGGGGACGTGATCCATCGGATGCTCACAGCTACTCAGTATG
TGGCGCCCCTGATGGCCAACTTCAACCCTGGCTACTCCGACAACTCCACAGTTGTTTACTTTGACAATGGTGAGACTGGATCTCAGAATTTAAGTCACCC
AGCTCCAGGGATCCCTTGTCCAGTCCTTTAGAGGAGCACAGGGCCTAGAGAGGGCAAGGGTCCCACAGTCCCACGGCAAAGCAGCCACCTACCTTTCTCT
GCTCAGTTTCCTGACCTGTCAGATAGGGGCAAAAATGCCTGCTACCCAGAAGAATCTGATGAGATAACAAAACGACAGTGCTTGGCTCTTAGTCGAGGTA
AAATAAATGTTAGGGGCCTTTATTGTTACTTACATTCACCAGGATGTCCCTTGAGCCCCGTCTGAATCCAGGAGAACAGACATTCCTCCTTCTTTTATCT
CAAGGAGTCAGAATAGACAAGAAGGAAAGGGAAAGAGATGATCAAGTACAGTATCTGGGGCTGAAGCAGGATCTTCTGGCTCCTCTGCTGCTTGGAAGCC
GCGCTGCTTTAGTGAGCTGCCCAGCTCCTGCCTCCTTACCTTTGCAAACTTCCCCATCATCCCGAAGGGACCCAACCTGTGGCCGCTGCCCTCCGACTGG
CATTTCTGTAGGGCMCTGCTCCTTGCATGATCTCCCGTCCAGCCGGGTCTCTGTTCTTCTCCCCAGGGACAGTCTTTGTGGTTCAGTGGGACCACGTTTA
TCTCCAAGGCTGGGAAGACAAGGGCAGTTTCACCTTCCAGGCAGCTCTGCACCATGACGGCCGCATTGTCTTTGCCTATAAAGAGGTGAGTGGGCCCAGC
TGCAGAGACAGCTGGGTCTTGGAGCCTTTCTTCATTCAGCAAATATTTAGAGAATTTGCAATGTGCCAGGCATGGGGCTTGCTGCTGGTAATACAGCAGT
TAACAAGATGTTTGCGGGTCCTACCCTTTTGGAGCAGTAAGTCTGGTTGCGGAGGTGGACAATAATTACAGGGACAAATGTAGAATCACCACTGTGACAA
GCGCTCCCAAGTAGAGGTGCCTGGTGCTAGCTGAGCCTTTCACAGACCTCTTAACCTTGGCAGAGGCCAGGGGAGGCTTTGCTGAGGAAAAGAGTTGAAA
TCTGAAGGATAAATACGAGTTCAGGAAGCAAAGAGGASAGTGAAGTATGTTCTAGGAGAGACAACAGCACACAGCACATGCAAAAGTCCTGAGGCAGGAC
AGAGCACGGCTGGCACAAAGCACTGAAAGAAGGCAGCATGGGCCAGGTGCGGTGGCTCACACCTGCAAACCCAGCACTTTGGGAGGCTGAGGTGGGTGGA
TCATCAGAGCTCAGGAGTTCGAGACCAGCCTGGCCAACATGATGAAACCCCATCTCTACTAAAAATACAAAAAATTTAGCCGGACGTGGTGGCAGGCACC
TGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGTTGGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTG
GGCAACAGAGTGAGAATCTGTCTCAAAAAAAAAAAAAAAAAAAGAAAAAGAAAAAAGAAAAAAGAAGGCAGCATGATGAGCCAGGGTGGTGGCTCATAAC
CCCAGCGCTTTGGGAGACTGAGGCGGGAAGATTGCTTTAACCCAGAAGTTCAAGACCAGTCTGGAGAACATAGTGAGACACACACCTCTATTAAAAAAAA
AATAGAAGAAGGCAGCATGGTTGGAAGGGAGAGAGTGAGGGGCAGGACAGGGCAAGGGAACCACAGATTTGCCCTTGAGAAAAGTCACTCTGGCTTCAGA
GTGGAGAACAGGTTGTTGGGGGCTTAGAGGGAATACTGGGAAGTAATTTAGGAGAAGGGTGACAGCAGCTTAGAGTAGGATGAGGGGAAATGGAAAACAG
ACAGATTTGAGAGCCACTTAGCAGGTTAAGCAACAGAATTCGGAGATGCATTAGATGGGGAAGGGAAGAAATGAAAGAAAGGGAAGGGAAAAGGGTRTGT
CCCGGGTTTCCGGCCTGCATGGAGTGCCATTCACCGAGACAGAGGAAAGAAGAAAATGTGCTTGGAGGTGRTGTGGAGAGGACTTGGAATTTGGGTGGGG
TCCCACTGGGCTTCCAATGTCTTGGAGTCCTCCAGGAGGTGGTGCCATCCASAAAGATGGGTCTGGAGCTCACAGGGGAGGGCTGGGTGGGYCCCAGAGC
GTTTGGGAGGTGGACGGAGTCTCTTCTCCCTGCCGCAGATCCCTATGTCTGTCCCGGAAATCAGCTCCTCCCAGCATCCTGTCAAAACCGGCCTATCGGA
TGCCTTCATGATTCTCAATCCATCCCCRGATGTGCCAGGTGAGTCTTCAGGGACCCCGCAGAGGSCTTGATGGGGGTAGGACTCCRCTCAGACTGAACCT
GAGCTGCTGGGGGGATGGCAGTGGCAGGGAGTAGACAAGGGGCAGAGAGTTGAGAGGGAAACCRGGCAGGAAAGGATGCCCAGTGACTTCCAGCTTTTCT
TTGTTATAGCAGAGGGACCATTTTCTCCAGCAAAATCTCCAATGGGAGGCACTGCTCTGGTTGTTRAGGTGAAAGGGAGCCACAGCCCTTCCACTCAGCC
CCTGTTCTATGTAGAAAACCTCCAAAGATGCCCTAGTAAGGGGTTTGAGTCCTCCCAGAATACAACCATTGTGGCCTTCCCACTCCAGGTGATAAAGGGA
GCATCATAGGATGCCAGGAGACAGGAATCCAGCCTCGGCCATGCTGTTACCTCCCTGTCCTTCAGCAAACCACATCATCTCTCTAGCCTCAGTTGCCTCA
TCTACAAAATGGGATAGTAGCTGAAGGAGTGCTTCTCCCTCCCAGGCCCTCCTCCAGTGCTGACATTTTAGGAGGTCATAGCTCTTTCTCCCCTGCTCCC
GACCCCCATTGCGTGCTCACGAGGGTCTTGGATTTGTACTCCTGGGGAGCGCGGCAGGCATCCCATGCACTGCCGCTCCTTCTAGACCCTTGTCTCAGAG
ACTTTTTAACCTGACCTCTTCTGCTGAGCCGTATGCACAAGTTCTGCCATGTAGGACCCCGGGAGGTCTGGGGAGGAGCCTTTGTCTGCCCTTCCCACCC
CACCTGGGCTTTGATGGGGCCTGGGGGCATTCTCAACTCCACTCTTGCCATGCCAGGCTGGACGGAAGGACACGCTTGGGAGCCCCCAAGTCACCTTCCT
GTAGAAGGGCAAGGTACCGCCGTTCTGTGAAATCAGGGCTTCCCGGGGGAGGCATCATTGCCTATTTCTGTTCGGTTCCATCAGTACACGTGTTCTGAGT
TCCTGCTTACACACTGGGCCACTATGTTCCAGGCACTGTTGAGATACAGTGAAGAGGAAGGGCATCTGCCCTTGAGGCATTCAGTATCTGAGCACAGCCT
TTTTTTTTTTAAACAAAGTCTTGCTCTGTCATTCAGGATGAATGCAGTAGTGCAATTTCTACCCACTGCAGCCTCCACCTCCCAGGTTCAAGTGATCCTC
CCACCTCAGCCTCCCGAGTAGCTGGGACCACAGGCACATGCCACCATGCCTGGCTAATTTTGTTATTTTTTGTAGAGACAGGGCCTTGCTATGTTTCCCA
GGCTTGTCTCAAACTCCTGAACTCACACGATCCTCCCATCTTGGCATCCCAAAGTGCTGGGATTACAGACGTCAGCCCCCATGCCCCACCCCAAACCTCT
GTCTTTAACAGAAATGTTAAGGGTTGGGGAACAATGGGGCCTTTAATCTATTTTTTTTTTAATCTGAAGGAAAGGACCAGGGCTTAGTTAAAAGGCCTTA
CCCAGTACCTTCTATATGCAAAGTTCAGTGGAGTGTTAGGGGCTCAGCTCTGGAACTGGAAGCCTGAGCTGGAGTCCACACTTTCCACAAGCATCTGACC
TCTGGTGAGTCACTCAACCTCTCTGCGTTTATTTCTTTATCTGTAAAATAGGGATAAGAGTGATACTTTGCCCCTACAGCTGCTGCAAACACGCAGGCGA
TAGTGTATGTAAAGTGTTGGGCCTAATGTCTGGCACATCAGGTCTGTGAGTCCGGTATAAGAATATCTCACTACAGTAGACTTTAAAACTCAGCATTTTA
TAATCCAGCAGGACACCTTGTTCTGTAGCGAACAGTGCAGGACTAGGAACAAGCAGTGTCCTCATGCTGGTGTCGCAGGTCAGATGCCGCCACAGCACTT
TCACACTTTCATGCAGCTTTTGTGACTAGGGACAAAAAGTCACATGCTATAGTGGCGCAGAGTTTCCCTACCTTTACTTGTTTGCACATCCCTCTTTGAG
ATTTTTGCCATTTCCATGAATTACTATTCTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGC
TCACTGCAACCTTTGCCTCCCGGGTTCGAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCGGCCACCACGCCTGGCTGATTTTT
GTATTTTTAGTAAAGACAGGGTTTCACCATGTTGTCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGTCTCCCAAAGTGCTGGGA
TTACAGGAGTCAGCCACCGCGCCCAGCCATGAATTACTATTCATTATTATTATTATTATTAGAGACAGGGTCTCAGGCTGGAGCGCAGTGTCCCCATCAT
AGTTCATTGCGGCCTCAAACACTTGGGCTCAAGCCATCCTCCCACCTCAGCCTCCCAAGAAGCTGGGGCCACAGGCACATGCCACCATGCCCAACTAATT
TTTAAATTTTTTTTTGGAGAGATGGACAGGGTTTTCCCATGTTGCCTGGGGTGGTCTCAAACTCCTGGGCTCAACTTAACCTCCCCTGCAAGCCTCCCAG
TGCCCAATGTGCTGGGATTACTGGCCTGGGTCACTGAGCCCAGCTTATTTAGTAATGCATGTCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTGTGTCGC
CCAGGCTGGAGTGCAGTGATGAGATCTCAGCTCACTGCAAGCTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTAG
AGGCACCTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCRATCTCCTGACCTTGTGATCC
ACCCTCCTTGGCCTCCCAAAGTACTAATGCATTTCTTTATCTTCATTTATAAAGTTATATTTTTTCATGAATAAGTGTATCTGGTCTAAAATGCAAAAGA
TATAAAAGGATGTACAGAGATTAGGTTTTTCACCTGCCCCTGAACCCTGTCTCTCAGTTCGCCATCTCTCAGCTCTCCTCCCTGGAGGCAAAGGGAGGGG
AAACCAGTGTTCTGGGTTATCTCCAGAGCTGCAAGCCTTCAGGTGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTGATAGCATAC
GATGTCAGTGTTTCTGCACTTGAACAGAGTACATCCTGCCCACTGTTCTGTCTCAGCACACAGTGAGCTGCCTCATTCTTCTCTTTAATGGCTGCCTGAT
AGTCCATTCCATGGATGGACCTTAATTTAACCTGTCCCCTGGGGGTAGACTTTTCAGTTGTTTTAAATCTTGGGCTATAACAAATAATACAGTAGGTACT
TTCATGCCCCCGTGTGAGTATTTCCGTACGCTATATTCTCAGTGGTCCAATCATTGGGTCAAAGGGCAGGGGCATTTACAATTTTGATAGCTGTGGCCAA
AGTGGGTTCCACGGAGACTCTGGCACTTTACCCTCCTCATAGGTGGGCATGCCTGTCACCTACTCTTTCGCTTGCCGTGTGTCCCAAGGCAAGGTCTGGG
CTGTAGCTGTCACCATCTAATGAGTTGCCTCGAGCTACCTCAAGGGCTGTGGTGAGGATTAGCTGAGATATCCATGCACAGAGCACCAGGCACTGTGCCT
GGCTTGGGCGGGGTGCCCAGTAAAGGCTGGTTAGCACCCACCAAGCATCTCGCCCCAGTCCACACCTTCATCTGGGCAGATCTGTGGGTGGGGTGGGTGG
CACTCAAGGGTCAAGGGGCTGGTGAATGGGGCCTGGTTAATTCCCAACAGGCCAGGAGTTCTTTCCCCTCTTCAGAAATTCACCAGCTTCTTCTTCCTCC
ACCTTCCTACAACCTCCCTTTCTATTCTTTCTTCCCAATATCTGCCTGCCTGCAGCATTCCCAGCTGGTAAGCAGGCATAGACTTGCTCCCCGAAGCATA
CCACCTCTCGGTAGGGCCAGCCGCTAGACACCCTTCCCACGCAACACTGCATGATATCGAGGGAGATGGCAGAGGGCAGGGCATCGGAGTGGAGGGGCAT
CTGATTTGCATATGCTACTAGAAAGGAGTTTTGTGGTCAAGTTTTTGCTGCTTCTACTTGGGACTAATTCAGCTCTCAGCATAACTAGGGTGGTCCCGGC
TTATGGTTCTGGGAGCAAATGGCTCTGGTGGCTTGAGGGCAAMGCGCCCACTGCTAAGCSGCAAATAAGGAATCCCTCCTCCCTGGTCAGCATTTGGGTG
GGTTATAGTCTTGATCCATGGGCCCGTTGGCTGGTGGCTGTACCCCAGGCCTAGCCTGCCACAGAAGTGTGGGGCTCGCACCTCACCCTCCCTTCCCTTC
TTCTCCGTCTCCCTTTTTAGGGCCCCGTGCCCTCTGTCTCCTTTCTTCCACAAAACTGTCCTGGATGCTGTGGCTCATTGCCACCCATACCACATGGCTC
CTCATGAGGCCTTTGTGCCCCAGTGGCCTAGACTTGGATATAAAGCCGGGCAGGGTGTCTGTCAGACAGCAGGCACCTACTCGATACGTGATACGTGTGA
ATGTCCCTCCCTCCTTCCCTTTCTCAAACACGGCCTTGAACTCTTCTGCGCGTTTCTGATATTTCAGTGCCTCTGTTATGTTGCTGCTACACGAGGAACT
GTTTTTAAGCTAGTAGAGCTGTTTTCCTGTCTTTGCCATATGTGTATGGAGCAGTCTTTGAAACTGCACACAAGCGGCGACAGCAGAAAACTCTTCCTTC
AGCTCCAATGTGTGGCTTCCCTTGCTCCATGCCATGGGGCCCTGTGGATATCACCTTATCCTTTAAGGCCCATTTCCAACCCTAGATATTAGATCCTGGG
CTGAGAGTCAGTGCACCCCACTACAGTTGTATCAGTTGTCAAAATATTGAAATACTTGCATTCTTGTTGGCAAATTGCTGCTGATTTGAGCCCCCTCGTA
CCTCCCACGACCCCTCCTGCCCTCCCCTTAGSCCCCTGCGCTCCCAGTCCTCTATCAAGTATTACAGCCTGGGCTCCAGGACCTGGCTCCATGGCTGCAG
GCAGCATCTGCTCTGACTGGTTGGTAAACGCCTGTGTTGAGCCAGTTGTTAAATCATCTCCGTATCACCTGGTTGCATTAGTTAGCTACAGCTGTATAAC
AAATTGCTCCAGAATTTAGTGGCTTAAAACTGCAACATATTATCTCAGAGTTTTTATGGATCAGGAAGCAAAGCACAATTCAGCCAGGACCTCTCATTCA
AGGTCTTTCACAGCCTGCGACTGAAGTGTTAGCCAGCGGCCAGGCACGGTGGCTCACGCCCATAATCTCAGTTCTTTGGGAGGCCAAGGCAGGGGATCTC
CTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGTCGAAACCCCATCCTTACTAAAAATACAAAAGTTAGCTGGGTGTGGTGATGGGTACCTATAAT
CCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGAGGGGCGGAGCTTGCAGTGAGCTGAGATCGCACCACCTCACTCCTCACACCACTCA
CTCACGATTTCACTGGGTGAAAGAGTGAAACTCTGTCTCAAAAAAAAGAAAAAAAGTGTTAGCCAGGGTCACAGTTACCCCCGTGATGGGGTGGCAGGTG
GGGAGGGTTGGGACCGGCTTCAGAGCTTTCATGTGGTTTGGCAGGATTCAGGATTCAGAATTCAGGATTCAGTTCCCCAAGGAGGCCTTCTTTGGCTCCT
TGCCTGGTAAACTTCCCCATGATATGGCAGCTGGCTTCCATCAGAGCAGGCAAGCGAGACAAAAGCAGAGGGCGAGGAAGACGCAAACCAGGGTCTTTTT
ATAGCTTAATTTTAGATGTAACATCCTATCTTTTTTGCCACATTCCGCTGGCTAGAACCAAGTCACAGATCCAGTCTACGCTCAGGGACTGGATTGCACC
TGGGTGTGGATACCAGGCAGCCACCGTAGAGGCTCTCTGGGGGCCATGCTAGCGTCTGCCTACCACACTGATTATAATCCTCTTTCCCATGCACTAAGCT
GGACAGTGTCTTGGATCTTCCCCAAACATTGTGAGTTTGTACATTTGTCCCTTTCTAAATGAGGACACAAATGTTCAGAGAGGTAGAGTGACTTATCCTT
GGTCACACAGCTATGAAAGGAAGAATTCAAGTCCAGATCGTCTCCATTTAAATCCTGGAGTCCACCACTGAGCCTTTCTTAGACTGACCCACTCCCATTC
CACCCAGGGGAATCTTTTCCTCCTCAGCTCCCCCAAACACCCACAGAGTGGGGTGTGCAAACTCCCCAGGCTGCTTCTTGRGACTGTTCTTGGTGTCTGT
GCCTTATTTCCTTCCCTATCCTGCATCCCATGTACATTACTGAGCCCACTGTCGGGGCAGGGATGTGTCTGTTTCATCTGCACCTCCCTCAAGGGCTTCT
TCCAGGCAGAGTCTCAGGAAACRTGTGCCTGATCAAGCTGTGGAATGAGGGTGAATTAGAGGGGGTCAGATCCCCGGTAGCATCTGCCTCTGAGGCTCTT
CTGTGATTCTGGAATGAGAAGCCCCTTTAGAGCAAACCAGAGAGATGAGGGGTGAAGGGGGCGGGGAAGCACAACCCACCTGAAAGAGCAGGGAGGCTAT
GTCTGCTCTGCAGGATCAGGAGGAAATCTCGGTGGTGGGAGCGGTTGGAGTCTGACTCCAGGTGCTGTGTGCTGAGGTGTTGGGTCTACCTGCCAGGTGA
AAGCCAGCACCTGACCCCCAGACACTGCCAGCAGCTCCCAGCCTCGTCCTCCTTCCCTCTGTCTCCTGTTCCTCCTTGTCACCATCAGATCCGATCACAT
CACTCTCTGACTCCTTGCTGCCCACAGGTCAGGTCAAAATCCTCAGTGTGGCATTCAAGGCCGGGCACAGCTGGGTGCAGTCAACCACGCAGGCGCATTT
CCAAACCCTCCCTCCGCTCACCGCCCTCTGCCTGGGSAGCTCTGGTCTGTGTCCCCTGGGTTCCCTGAACATGCTAAGGGCTGTCCACATCGGTATGACA
CAGTCCCCTTGTATAAAACGCCTCTTACTCCAATCTTTTTTACTGCTTGGCACCATTCTCCCTCTCCAGCGGCCCAGGTCAGATGCTGTGCAAGTAACCA
CTCCGCCATGCAGTGGAATTCACGGCTTCCTCTTCTTCCCCCCGGCACTTCGCTGATACTTTTTTCTTCTTCTTCTTTTCTTTCTAGTGGTGGCGAGAAC
AAATGCTGATACTCTTAACATAGAACTTATTGTCCTCCCCAGCTAGGTGTGAATTCCTTGGGGGCCCTCTATGGCCCCCAGCACTGAGCCCAGTGGGCAG
GCACTAACATTTTTAGAAAATGAGTAACTACAAGAAAGTGGACCTAGTTGCTGGGGTTAGGGCACCGCTGAAGGGAATGGACATAGCATAGACCTTGTCC
TCTGCTCTATTGTGACTCTAGGTGAGAACAGGGGTCTGACACCACTTGAGTTTGGGAGTTGAGTGTTTTGGAAATTGCATCCCTTTTTGTCAGAGGTTTT
TAGCTTACGGGAACAAGCATAAAATTCAGGAAGTCTGGGAATCTTAAAATTGTATACGGATTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGT
TGCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCGGAGTAGCTGTGAT
TATAGGTGCCCGCCACCACGCCTGACTAATTTTTGTATTTTTTAGCAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCCTGAACTCTGACCTCAGGT
GATCCGCCCACCTTGGCCTCCCAAAGTGCCGGGATTACAGGCGTGAGCCGTTGCACCTGGCCTTTTTTTTTTTTTTTTTTTTTATAGACAGGGTCTTGCT
CTGTCGCTCAGGCCGAAGTGCAGTAGCACAATCATAGCTCACTGCAACCTCAACTTTCTGGGCTTAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTG
AGACTATAGATGTGTACCACCATGCCCAGCTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTATTTGTAAAGACAAATAATAAAATAGGGT
GGTATTGAATTCTTACGCTCAAGCCATGCTCTGGCTTTGGCTTCCCAAAGCACTGGATTACAGATGTGAGCCACCGTGTAAGGCCTGTATGTGGAGTATT
GAAATGCAAGTGGAACATGTTCACATCCATGCGTTTTTCTGGGACAGTATCCATGGCCCTCATTGGGGTTTAAAATGGGCCACAGCCTCTGCTCCTGGGG
AGAAATGGCTTTTATGTGGCTAAGGGGTCAGATGACTTTGGGTCTCACATTCAATCCGGCAAGCAGGGAATTTGTTTGGATTAGGTTGAGCTGCAGGTAA
TAGTAAACCCCAAATGATCATGGCTTAAAGGAAACAGAAGTTCAGGAAGAGCCATCTGGTCTGCAGACCCTATGATCACCATGGATAATCCTATTGACCA
AGCCCACCTGATCATACAGAATGGGTGGCGTCACTGTCCTTGTGCCCAGGTTTGACTGCTCCCTGCCTGGGGCAGTGTGAGGAGGGGAGTTTGATTCCTC
ACTATTTAGGAATCCCCAGCCACTGAACCCTGTCTGGGGAAAACTCTCCTCCCCCAGGTTCTAAACACTTTCCTCCCCACCCCTGCTAGGCAAGGGGATG
GGAGGTGCAATGGGGAGGACTCYTCACAGCCTCACTCCTGGGGGAGARGGTAGAAGAGGCTGAAAACCACAAGAGTTCTTACCAGTACTTCCTCGTATAA
ACTCTTCCGCAGGCTTTTCAGCAGAGTCTGCAAAGCATCTTTGGTGAAAAGAAAAGTCATGTGCAATTAGCAGCATCTGTTTGCAGAGGCACTCAAAACA
CACAGGACAGTGTATCCGCTATGTGGCTGGGGAGACCGCCGGAAGTCAATATTATTTCCTCTGTTCATTTGCTTMAGAAACTCTTTATTTCATGGTTAGT
ATAAAAGCAACTTTAGCATTGCCAACATCGAAACTGACAGGGATTCTGAATTAGTGGGATCAGTTAGTGRGGATTTTCTTACAAAGAGCTCCAGAATGTA
GCCTGCCCCTTGGCTGGCCCCGAATGGCCTTGGACGGCCCCAACATGCTGATCCTCCTCCTTTACCGGAACTTTCCTGTCCTTTCCGAGGCAGACTTGAG
TCCAGATATATGTCAGGGCCTGAGCTGTGTGTACCTTCCTGCCAGGCTGCAGGTAAGGGAGGGATGGGTCCCAGAGCTGGCTACAGAAGGGATCTAGGGG
CAGCCACGTGAGGAAGTGGGTGCAGGGAGAAGCTGAGGATCTGGCCAATTTTGCCTTTTCTGATAAAGGATCCTTTAAAGTGCCCTTCGTTGGAAGTTTT
TAATCCATCTGGGGGCCCATCCTTCCCTCTTTTCCCTTCTCACTTCTGTTTTTCCCACTACTCTGCTCCCTGAGTCATTTCTGGCCTCTTCTTTCTCTGC
CTTTTTCTGCTTTGCTTCAATGCTGAGGGACCCCCCTACTTCTCCCCCGTGGGGCAGGGTCCCCTGCTGGGGCTCCACTCGTGATTATTGAATGAATAAT
CACATGAGCCAAGGAACAAAAGAATGCATGAAGACTTTTTCCCAACCCAACCTCTTAGATTTTTTTATACGGTAACCACCCATTCCAGGTGGGAGTTTGT
GGATCGACCTGTCATCTCCTAACTTCTTCTGGCCAAGCCAGCACTCTCCCATGGGCATCTGGCATTGAAACACAAAGGGACATGCAAACCTCTCACTTGA
ACCATTAACATTACTTGTTTGGGGCCAGGCATGGTGGCTACGCCTGTAATCCCAGCACTTTGAGAGGCCGAGGCGGGTGGATCGTTTGAGGCCAGGAGTT
TGAGACCAGCCTGGCCAAGATGGTGAAACCCCATCTGTACTAAAAATACAGAAATCAGCCAGGTGTGGTGGCAGGCACCTGTAATCCCAGCTCCTCGGGA
GGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGTGGAGGCTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACCCTGT
CTCAAAAACAAAAACAAAACAAAACAAAAACAACCCCCCCGCCAAAAAAAAAAGACAAAAAACAAAAACATTTCTTGTTTGGGCAGCAGTGTTTGCCAAG
TCTGGACCTGAGTATTTCTGAATCTTTGATGCCTGGAAGCAGAGATAAAACAGAACACCTTAAACTGCCAGAAATGGTGCTCTGGGGAAGCCTGCGTCTT
GGTTCCAGAAAGGATCTGTTGGTCATGGAGATGGAAGTCATTGTCTTGGGCAAGCTCCAGATGTTGGTGAAACAATCCAAAACAAATAACCCAGGCGGGG
GGCGGGGGGGAGCGGGGCGTAAGGATTCTTTTATTAAAAAAATAAAAATATTACCAAACCCACACTCGAACAAGTACAAGCTGGCAGTTGAAGTGAGCAA
ATAGTTTCAATTAGAGATATAGTTCCACCCCCCACCCTCATCCCCCTTTCTGCCACCACTCAGCCTCCCCCACTCCGCTGGAAGGACTGTATTTTCAGAG
GACAGCTGGCGTCCCTGGCTGCACCCATGCTTGGGGCACATCCCCAACTCTGCCCCCCAGCCCGGATGGTGGGGAAACCCATCCCCAGAGCCTGGTGTGA
AGTTTCTAGGAGACTTGSCTTCCCTGGCTGCCACTTGTGTCTCTATCCTCGAACTCAGTTCCCTTGAAAAGTCTGAGTCTCTATCTGTGCCCCACCCTGA
GTCCCTTTGTCCCTCCCATTTCCCCTTCCTTCTGATGAGGGAAAGCTCTGCCCTGCAGCCTTGCAGGTGGAGAAATCCTGAAAGCCAGCTCTCCTCCCGC
TTTGAGATCTAGCTTAGGAGGCGGCATGTCTGGTTTACTGTGGTCTTTCAGGGTTGTCCTTTTGAGAATGGCAGTAATTTGTGGTGGGCTGGGGAGGRAG
GGCGTGCTTCCTTTGGGCTGTGGGCTGACGTTATAAGTTGCTGAGGTTTTCATGACTATTTGTAACCCATTCATTCACTCACAGTCATTTCTTAAGGTCC
TGTTAAGTGCAAGGCCTGGTGCTAGGGGATGAGGTACAGAGATAAATTCCATGCAGACTCTGTCTTAGCGGAGCTTGTGGTCTGGCTGCGGGAGTGGCCA
GGAGAGCAGATATTGACCAAGCGATGTAATGGGGGACACTGGACATTGCTCAGGGAGTTGTAGACTCAGAGTGGGGCCGGGTCGGGGGGCAGTCACTTTG
CCTGAGAGTGGGGGAAGTCTTCAAGGAGGGGACGTCATTTGAGCTGAGTCTTGAAGTATGAGGCAGTTGAAGCAAGAAAGGTTGACATTGGACTCTAGAA
CCTATGGCCTCAGGCACCCTGGAAGTCAGGACATGGGAGACTTGGAGTTTCATGTTTATTTTTGATCCCATTGCGTTTTGGTGCTGAAGGGGAAGGAGAG
ATGGCCCCTGGGAGTAATGAGTGGGGATGGTGTGTGAAAGTCTGCTTCAAACTTTCCATCCTCATCTAGATATTCCCAGGCCCCCAGGCTTACTCAGAGC
CCAGGCCACCTTCTCATGGCCATTGGCATCACTCAGGGGCACCTGCAGCACAGGTGGCCTTGGTGCCACCTCTGGGCATGTGAATTACAAAAAGGTGCCC
ATCCTCCAATCTCTGTCAGATCCCRCTCGGGCTTGGCAAAGGGTCTTTCTTGTGTCAAAGGGTTGCATATGTGTGTGCATATGAGTATGTGCTCATGTGC
AGGTGTGTGTGTGTCTTGGAGGGCTGGGGTGTGCACATGCGTGTGCGGGGCTCTGTGGACCCCTCGCCACCTCAGCTTTCCATGGAGGGTTCCCTCCTCT
TAGAGCCACAGTGACTCTGTAGACACCCGGCAGTTACTGCCTGATATTTACGAGGCTTGCCACGGGGCCTCCTCTCTCAGACTTAGGGTTCTTTAGGAGA
CAAACACACAGTCATTCCATCTTTTGGATTTTGGCTTAATTTTATATATATATATWTTTTAAGACGGAGTCTTTCTCTGTCGCCCAGGCYGGAGTGCAAT
AGTGCAATTTCGGCTCACTGCAGCCTCTGCCTCCCGGGTTCCAGCGATTCCCCTACCTCAGCCACCCGGGTAGCTGGGATTACAGGCGCGTGCCACCATG
CCTGGCTAATTTTTGTATTTTTATAGAGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGACCCGCCCACTTTGACCTCC
CAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCGTAATTTTTAAATAAATGTTTTTATTTTTAAATAAACAACTGGGCTCGGTAAATTGTAAAGAG
ATGTGGCCTGACGCAGTGGCTCGCGCCTGTAACCCCAGCACTTTGGGAATTGGAGGCGGGAGGATTGCTTGAGGCCAGGAGTTTGGGACCAGCCTGGGCA
ACATAGGGAGACCCTGTCTCTACCAAAGAATAAAAAAAAATTACCAGGGCATGAGCCTTTGGTGGGGGAGGTGGAGCTGGGGGCAGGGACTGAAGTGGGA
GAATCACTTGAGCCCACGAAGCCAAGGCTGCAGTGAGCCGTGATTGCACCACGGCACTCCAGCCTGGCAACAGAGTGAGACCCTGTCTCGAACAAAACAA
AACAAAACAAAAAAGAAAGAAATGTAAATGTTTCCCTTTGACTCTTTTAGAAACACAAATCAGGAAGCTCTCAGCAGGRGTGTGCTGGAGATCATGTATG
CAGCTGGGTGAGAGGCAACTGAACATGTCTCTTCCTAACTCCATGTTCAGTAACTTTTTTGAAAGGGTAGCTGGAAGTCAGCTACCGTGGAAGTATTTAC
ACCACAGAAATTGGCAACAACGGCAATTCAGGACTCCTCTGCCCCTACCTGCACCCCAGCCCCCAGGCAGTTGTTAAATATTTATCTGCACTCACAACTT
TGGTGACTTTCTGGAGCCACAGTGGCTTCCAGCCCTGAGGTTAAAAGTCTAGCCTCTGATTTTAAAACAAAGACTGTGTGGCTTTGGGCAAATAACGTCC
CCTCTCCGATCTCACTTTTCTCCTTTGTAAAGTGGGGAGAGCAGCGATGTCTGTCTGTGCACYTCAGGAAGTTGTAAGGGGAAATGAGATGGTGCAGCTC
CAGGGAACCTGCAAGGCTGCGAGCTMACRGAGTGCTCTGCACTCAGCACAGCCCCTGCACAGAGCAGGTGTCTGCACCGACATGCTGAAGGAGTCAACAA
ATGTGCTGCATGGTGGCGCTGTGCTCTTGTAGTTTTCTCGTTTAAGTAGATGTTTTCCRTCTACTTAATGGCTAGGCTTGGTAAATTGTAAAGAGATGTG
GCCTGTGTGGTGGCTCATGTCTAGAACCTCAGCRCTTTGGGAGGCTGAGGCAGGCAGATTGCTTGAGCCCGGGAGTTGGAGACCAGCCTGGGTAGTACAG
GGAGACCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGATGGGGTGTGCCTGTAATACCAGCTACTTGGGAGGCTGAGGCAGGATTACTGAGCCT
GGGAGGTCAAGGCTGCAGTGAACTGTGATTGCGCCATTACACTCCAGCCTGGGTGACAGAGCGAGACCCTGTCTCTAAATAAATAAATAAATGAAAAAGT
AAAGTGCTATACAAAGTTGTATCTGTCTATGGGTTAATCTGTCTGAACCTCAGTTTCCCCACTTATGAATGAATGGCAAGACAACTTGATTTTTTTTTTT
TTTTTTTTTTTTTGAGATAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAGTCTCAGCTCACTGCAGCCTCCACCTCCCGGGTTCAAGCAA
TTCTCCCGCCTTAGCCTCCCAAGTAGCTGGGATTACAGGTGCTCACCACCACGCCTGGCTAATTTTTTAAATTTTTAGTAGAGACGGGGTTTCACCATGT
TGGCCAGACTGGTTGCAAACTCCTGACCTCAAGTGATCCACCTRCCTCGGCCTCCCAAAATGCTGAGATTACAGGTGTACAGCCAACTTGACTTCTTAAC
TCCCTTGCTCTCTCAACCTGATATGTCTGAGTCTCTGCAGCTGTAGCTCATCTCCTCTCTCATAAAGCCCACACCTGCGCAGTGCTCGCCTTGGGGACCA
CCTGGACTCCTCATCCCACCCACTCTGTCCAGCTGCTTTCCTGAGGAGGAGCAAGTTCCCTGATCTGCCTGGGATGGAAGGAAGGGAGGGAGRCGTGGGA
GGAGGCCTGGATCTCAYTCTAAACCATCCGGCTCCAGTGCAGGAGTCGGGCGAAGGAAGGAGCTGCAGGGCTGGAGCTGTCATCCTCCTGGTAGGAAAGG
AAGACCAAGGCTAAAGTCCTCTCCACTGCCTCTCCCCATGGGAGTCGTGGGTGTGTGTTGCGGGGAGATGGATTCCAAGATAAGTACTCTCTGAGCAGCC
CTCAGAGGGGGCGTGGGAAATTCACCTCAGTCTCCAGGGTCCCCAGTCCATTCACCACCTGAGCACTGCCGTCCCCCACTGCTCCCATGACCTCATTCTC
CAGTGGTGGCAAAAGCAAGAAACAGTAATCAGGAAGAAACAAGGGGAAGCTAGGGTGGGGGCAGTGGCATCCACAGCAGGAGAAGCAGGCAGCCTGGACT
GTGGGGGCAGCAGAAGAGAGGAGAGGCCTGCAGGATGACGGGTGGGAACAGGGCGTCTGGAGTGCCAGCACAGTACCGCGGTCAGGCCGCCTCTGTGGGC
CTCCTCTCTCTCCACAGCAGCGGGGAACTGGGGGACCCATCAGACTTGCTGACAAGAAATATGCCGTCCTAGAGAGAGASMGACAGVGGGAGAAAGACAG
AGTAAGGACAGGAAAGAGAAAGCAATGCGTGCCATCCTTCCTCCTCATGTTCAAGTTTATAAACATTGCTTAAGGTGGACTTTGAGGGGTTAGAAGAGGC
TGAAAATGCCCTAGAGTCTCAGCCATGAGAAGAACAGCAAAAAAGCAGTCGGGGCAGAGAGAAAAGGGGCTCASATGCTTCGAGGGCTCCTGGGGTCCTT
GTGCGTTGAGTGTCTCCCTTAATTCTCAGGACAACACCATTTGCATGGCATCACCAGCCCCATGTGTGGATGCGGCTCACTGAGTCCCTTGTCCAAGGTC
ACACAGGCGGTAAGGGCAGAGCCTGTCTGCCCAGCTGCGGCAACCCTAAGCCTCCTCTCCTTGTGTGGTCACCCTCCGGGGKCCGAGCTTCTTTTCCTCC
ATGCTCTCATCAGTGCCCCCATCTGCTTTCCCCTTTCCACTCGGCCTGGAGCAGCATCTGGCCTGTGGGTAGCAGGTGCACCCTCCTAGTGGCATGGGAG
TGGGGGGCACCAGCATTTCAGACATAGGCCTCAGGGATGTAGATGCTGCTCAGCTCCAGGGAATCTTTATTGACACCAATGCCAGAGYAGTCTTCTTTTC
ACTGCATGGAATGACATTCCAAGGTCTTGAATGTTTCAGGGGCTGAAGTGTCCTGCAGCAGGGCATTGTGTTGGSAAGAGAGCATGCTTTGGTGCCAGAC
CCACGGGGGCGCAGTCCTGGGTTAAGTAGGAGGGACTAATTCCAACGTTAAGGATAAATAAATAATGAGATACAGGCCAGGCATGGTGGCTCACACCTGT
AATCCCAGCATTTTGGGGGTCTCAGGCAGGCATATCACCTGAGGTCAGGAGTTTGGGACCAGCCTGGCCAATATGGTGAAACCCCCTCTCTACCAAAAAT
ACAAAATATTAGCCAGGTGTGGTGGTGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAG
TGAGCCGAGATCATCCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCAGTCTCARTAAGTAAATAAATAATGAGATACTATGTGAACCATGGACAA
AGCTCCTCTAGGTTCCTTACATAGGAGGGGATGTGGGGGTGGGGCACCCAGCAGTGGCACGGGACGCCCACCCCTTTGTGGATGCCCCTACTCAGCTCTT
CTGCCACCTTGGGAAATTTTCCTCCAAACCACCTTCAGCCGAGCGAGAAACGTATGTCCCCACCTACTTCTAGTGACGAAAACCCAATTCAAACTCGCTT
AAATGGAAAAGGGGGGTGCACGGAGGATACTGAAGTAGCCCAAAGAACCAAAAGAAGAGCTGAATAGTGGGGCAGGTCCTGGAACCCCAGGGCCCAGAAC
ATACCAGCACTTCCTGTTTCTCTCCATGAGGTGGCTTCATTCTCTGCCTTTCCCCATGAGCCCGGTACTGTGGCCATTCACAGGTTCTGAGCCTGCATCT
TCTCAGCTTCATTACCAGACAGCAAAAGGCCTCTTGGTTACAGTTGAAAAGTCCCAGGGGAGGTCTCTGATTGGTCCAGCTCACAGCCGATACCCAGGCC
TGGAACAATCACAGCGTGGCCAGAGAGGCAGGATCATGGAAGAAGATGGCAGCTGTGGTTCAGYCCACCTGTAGGAATGGGCCAGGCACAGTACCCCAAG
GGGAATGCTGCTGTTTCCAGAAGACGAAAGGGTGTTGGGCGGACCAAACACTGAGTGGTTCTTTCCTCTTGTGGGGTAACTCATTCTCAAAGCTCAATTC
CTGGCTGTCTGCTTCTTATTCTTTTTTCTTTCTTTTCTTTCTTTCCGTTCTTTCTTTTCTTTCTATTCTTTTTCTCTTTCTTTCTTTCTTTCTTTTTCTC
TCTCTCTCTTTTTTTTTTTTTTTTTTTTTCAGTCTTGCTCTTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTGACTGCAACCTCTGCCTCCCA
GGTTCAAGCGATTCTCCTGCCTCAGCCTCTCAAGTAGCTGGGATTACAGGCGTGTACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGT
TTCTACTAAAAACCCTGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGC
CACCAKGCCTGGCTGGGCTGCCTGCCTTTCAAAATTGAAGAAAACCAACCCCAAGTCATGGTTCCTGGGTGGGTATCGTGGCCTAGAGAGAAGTATCAGA
GCACCTCAGATTGTCATTTTAAAAAAGAAGCCTTTCATGTACAGTTCCAGCTTTTTCCTCCCAAGGGTGTTGTGGTAGGTGTTTCTGTCTTTCCACTCCA
CAGACAAGAAACTGAGGTCCAAATGACTTGCCTGAGGTTATCCAGCAAGTCGTGAGCAGAACTAGAACGAACTTGGATCTCCTGACTCTGAGGTCCTGTG
AGAAGTTTCTGCAGGGACCAAAGTAGGACTCGAGCCTGGCTGCAAGCCCTGAGCCTTGCTGGGGGATTTGTCCAGGAGGGGTGAGGTGGATGGTGGACAG
CAACATGCAAAAGTCAGCCTGTCCATCTGCAGACATTCACAGAGCACTCAGCGAGGTTCAGGACCAGATGATCATGGTCTCACACATCCCCAGCCTCCAA
ATAGACCCTCATGTCCACAGTGTGGTGAGTGCAGTGGGAGGGGGGCACCTGGCCTGAGCCAGGCAGAGGAGGGAGCTGGCCAAGGAGGGCTGCTCAGGGG
AAGTGGCCCTTGAGCTAGATCTGCAAGGATGAGCTAGACAGGAAGAAGGGGTGGAAGAACATCTTGGGTCAGGGGAATAGCAGTTGTGAAGGCGCAGAGG
CAAGGAGAAGCAAGCATGGGATCCCATTTGTCCTGCCCCCAAGAGCAGCCAGGTCTCTGCGTTGAGTCACTTAGCCTCACACCACAACACTCTCCTCTCC
AGGTCCGCACCTGTCCCTGTCTCCAGCAGCGCCAACATCATTGTCCCAGGCTGCTGGGTGCACTTACTGCCTTCAGTGCAGCAGGCTGACCTGTCAGACT
GTCCGGGAAGAGGCCTCGATGYCCTCTGCCTGTGATATGCTCCTGACAACAGGCTCTGCCTCTGTTTCAGAATCTCGGCGAAGGAGCATCTTTGAATAYC
ACYGCATAGAGCTGGACCCCAGCAAGGTCACCAGCATGTCGGCCGTGGAGTTCACCCCATTGCCGAGTGAGTAGGGGTCATTCCGCCATCCCAGAAAGAG
CTCTGGAGTCAAGCAGACTGGCTTCATGTCCCAGGCCCATGACTGACTCCTGTTTTGTGCAGCCACCTAACTTTTCGGGGCCCTCCATCTCTCTTTTGTA
ACCCGAGCCTGATGCCACCTCCCTCCCAGAGATAGGGTAAGGGTGAGAACCACCTAGGTGGAGTTGAGCACATCGGCCGCAGCTCTGACATTGATGGGTC
CATTCTGGGTTTGGGGTGGGGGTTAGGGCTTGATCTAGGACAGCTATTGTTATTCCCACATAATTGAAACCCGGGAAAGCTGTACCTCTGAGAACGCCTA
GACTGAGCCCCCAGAAAAGGTGATCCAGGAACTAGACGGGCCTCAGTTTGTCACTGTATTCTCCTTAGAGGAGGTGATGCTGCGGTCCACAGGCAGGAGG
CAATGGAGGGACTTAGCAGGTGGCCTCCATAAACCATGGGACCCTGGCCCTCTGCACCCCACTCACCCATGCTGAAGGCAGCCACCTGCTGTTGTGGAGC
CCACAGGATCCGCGGTGGATGCTCTTCGGGATGGGGCTGGGACAGCTGAGACTGCGGGAAGGAGTACAGCATCTTCCTTCTTGTTGTTTTATGAAGGTCT
TCATTTCCTCTCCCATCTTGTGGTGCCCCCAGCTTCCTGCTGAAGCCATGGCCTTCTCCCTGCCTCAGTGGCATTTCTTCTTTTTCTTCTTCTTTTTTTT
TTTTTTTTTTTTTTTTTTGAGACAGTCTCACTCTGTTGCCCAGGCTAGAGTGCAGTGGTGTGATCTCGGCTCACTGCAATCTCTATCTCCCAGGTTCACG
TGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCAYCCGCCACCATGCCCGGCTAATTTTTGTATTTTTAATAGAAATAGGGTTTCACTCT
GTCGGCCAGGCTGGTTTTGAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCTGGTGCT
GGGATTTCAGGCGTGAGCCACCATGTCCAGTGTTGGAATTACAGGCATGAGCCACCATGCCCGGTCTTCAGTGGCATTTCTTGCCTCTCTTTACCCCTGC
TTCCTCTTCCTTGGAGGTCCTGAGAGCAGGGGGTGGAGAAGGAAGAGGAAGAGAAGGAGGGAGGATCTTCTCAAATGCTAGGCCATGTCTCAGACAGGGC
TCAGCAGGTGTCTTTCCCTGGACAACAGAAAGGACTCAGACACCAGGGGGTCACAGGGCTGGGACACTTTAGGGGTCACAGGGCTGGGACACTTTAGAGG
TCACAGCCATACCCCAACCCTATCACTCTCCATCGGGGCAGAAGGCTCAGGGCCTGAGAACCAGGGTTCCTCGAGGACTGGTGAGAGCAAACCTYAGSCT
CTATGATGTGGATAAAACTGCATTTAGGAGCAAGGRCATCCAAGGGCAGGGCTGACTGCCTGGGTGGAAGCAGTGAAATGTTTTGGGAATGCATTTCTGG
GACACTGTACATTTAAGGTACTTCTCACCCCTCCGGTGAATTTTGTGAGCATTTAATAGCATTCAGGCCATCTGAAATGTTGATGAGAAATAAAGGTCAG
TAGGTGTTATGAATACCCCAGGAGGATCCCAGGAGTTTCTCTGTGGCCAGTTTGACTGGAGTCTTTTAAGGGGCCTCCAAAGTCACTGGGAAAGGCAAGG
GCAGGGCTCCCACCTGGAAGCAGCTGGTGAAGGAGGGGTAATGCTATCAAGGCTGTGATTTGAGCCCCTGGGAAACCAGATAGGGAGAAAACTCTCTGTA
TCCCCTGGCTTCTCCCTTACCATTTGGGTGTGGGAAGGACTTGTCCAGATTACTTCAGAGGGGTGAGTGGCTTATCTCCAAGCCATCGTATTCTGTAGCT
GGTCCCTCCTGGTCCCTCTTCTAGGAGAGACCCATAAAAAAGTGGCCTGGGGTGGGAGTGAGAGCTGAGGAAGGGGCAGGGGAAACCCACAGTGAGACCT
CAAGGCTAAGAGCTCGATCTCTATGTTCAAACAGACCTTGGTTCAAACCCAGACCTCTCACTGTCAGCTCCACGACTCTCTCCAAGCCTCAGTTCCCTCC
TCCATAAAATGGGGATAACAAGAGCACTTATATATTGATTCGACATACCATGTGCCAGGCACTGTTCCAGACCCTCTGGATACACAGGRAACAAAACAGC
CAGAGAGTGCTCATCCTCCTGCACAGGGCAGCCCCTGCTTCTTTCCTGCCCATGGCTCTTTCCATCCACTCTCCCAGGGCCTTCAACACCACGGCAGACA
AAAGGACACAGTGCCACCCACTGCCAGTCCCTCCCAGAGTGACTGAAGGTGGCCACACTGTGCCCATGCAGCCTCTCTCCCACTCACCCAGGGCTGGTTC
CCAGCTGCCATCTTGCTGGGGCTCCATGTAATGCACATTGGCTCCTGAGTTAATGGATCACATGAGAATTCACACAGGAAGAAACACATGCAATGTTGAT
CAAATGAGTGGTCATTTTTCTGTTGTTAGTTGTCACTTCTTGTGGCTATCAAGGTGTTCTGTTCTGTTGCTTATAAGATAAGCCCTTCTGCACACAGTTG
TTCTGGGTGAGTGCCTGTCTCTCTTTGCAATCAAATATACGGGCTTTGTGACAGCTACTTGCCGCTCAGAGGTCATCTGGTTCATTCAAGTGAGTAGCAC
TGGATTGCAAGTGAACAGCTCTTAAATCCAGCCCCCGTGCCTACTGCGCCCCCTGCCCTGCTGCTCCTGTGCCTGGCCTGTGCCAGAAGGGTTCACGCGC
CCTCCAGCAACCTGGTCCCACTAATCTCTCTGYTCTCTGGCTCTGTCCTGCYCAGGCTGGGCCCCAGCTGTCGCTCCCTCTTCATTCGTACTAATTCCAG
CCCCTTCACTCTGTGCAGCCTGGTAGCAGTTCTGGCTGCTGCTGGGAYCACGTCTGGGCCGTTCCCCTCTCGGCTCTGCACATGGGACCTTTCTGCCTTG
ACTTCTTCTCTCCCAGGAGAGCTGTTTTCTCCCCATGGACCGAACATCAGGAGTGGGCAGTGAGTGCCCCCAACAAGCACTGGGGGCAACCAGAGCATCT
TTTAAAACAATAACTTTTATTGTACATATTTCAGGTATACAGCATGATGCTATGGGATGCATATAGACAGTGAGATGGTTACCATGATGAAGCAGTTAAC
ATATCCATCATCTCACAGTTCCCTTAGATTTTTTGTTCTTGTGGCAAGAGCAGCTAAAATCTACTCATTTAGCATGAACTCCACATACAGTACAATTTTA
TTACCTACAGTCCTCATGTTATACAGTAGATTCTAGCCTTGTTCATCCTACATACCTGCTACTTTGTATGCTCTGACCTTTAAAAAATCCCTTTCAACCC
TTTGACTGTGGGATACACACCTGAAAGTATAATGTCTCCGACTAGGTGAGATTCCTTTGTACACACTTACAGCACCTTGTGATTTGCCGTCATAGACCTC
GTGACAGTTCTAATTCTGTAGTGATTTTTGATTATCTGTTTAGTGTCTGTGTCCCCATATGAGTCTAAGCCCTAAGAAGGCAGGGACTAGGTCTCACTGC
TGAATCCCCAGCACCCAGTTTAGGGCCTGACCTTCTAGTGAGAAGGAAGGAAGCTAGGGAGGGAGGAAGCGAGGGAGGCAGGGAACAAGGGAGTGAGGGA
CAGAAGAAGGAAAAAAGGAAGGTAGGTAGGGAGGGAGGAAGAGATGGTGGGGAGGCTGAGGCAGGAGGATCACTTGAACCCAGAAGTTCGAGGCTATAGT
GAGCCATGATCAGGTCATCACACACCAACCTGGGCAACACAGCGAGACCTCATCCCTTAAAAAAAGAAGTTAGGAATTGGGGCTAGACTGGACCAAGGGA
GGTGGCATTAATGACCTTAAAGGTCTCCTCAAAGTCAGGGGCTCCATAGTTCTGTAAATACCAGGAATTCAGAGTTGCACCCTTTGGAGCCCAAGGAGAG
GCTCGGTGCTGAGCGGCCACTGCCTTCTCTCTTGCAGCCTGCCTGCAGCATAGGAGCTGTGACGCCTGCATGTCCTCAGACCTGACCTTCAACTGCAGCT
GGTGCCATGTCCTCCAGAGGTTTGTGCCCAGGGTTACCTGCTGACTCCCACTGGCCGACCGTGGAGGGGAAGAGGGTGGCATGGCCCCGTCCTGGCCTCA
CTGCCCACAGTCAGCCAACATGAGAGTATCTCTGGCCAGTACCACTCTGACTCTTGGGACAAGAACATGGCCTGGGGGCTTCTGGAAGACCATTTAGGGA
TTCCAGCTACTCAGGCTCCCTCCTCACACCCAGGAGGAGAGGGTTCATCCTGGAACAGGGCTTCTCGGAGTGYTCCACAGCTGTGGGCATTAGACCCTGG
GCTCCAGTTAAACACACTGGATTCCTGGGACCCATCCCAGACCCTCTGTATCAGGATCTCTGGGAGAGAACCCAGGAAGCTGCATTTTAACATCATGCTT
CATCTGCAAACAAGTGTGAGAACTGCCAGTTCAGAGACAAAGTCTGGTCCAAAGACCCATGACCCCAAAACACCACCTCAAGATCTTTCTTGGGCTGCAA
GGGATTTTTCTGAAGACCAGGGGTGTGGACTACAGGCATCCATGGAAAGTTGGGAGAGCTAAAAAGCTGTGTTTGCTTGCTTTTAGAAGCTCAGAAAATT
CTGGGTGAGATTCAGTTTCAGTGATAATGTTCTTAAATCCATCTCCTCTTCCACTCCTTGTTCTGAAATCATTTCCTCACAGATTAGACTCAGCATTCAA
GCTCTGTTCCCTGTCCAAGATAAATAAATGACAGGAGGAGGGGGAAGAAAAAGATTTCCTTGGGGACTAGAGTTCTCATGAGAGTGGGAAGTCCTATGAA
CTCCAAGGGCTTTTAAGGCAATCTTGAAAATTGCTAAATTATAGTCTCTGAGTTCCTGTGCAGCTGTCGTGCTGCTCCTTTCCAATGCTCCTTTCCAGTG
CTTTTTTTTTTTTTTGAGAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTACAATGGTGTGATCTTGGCTCACTGCAACCTTTACCTCCTGAGTTCAAGCG
ATTCTCCTGCCTCAGCCTCTTGAGTAGCTAGGATTACAGGCACACACCACCACACCCAGCTAATTTTTTTGTATTTTTCTAGTAGAGATGGGGTTTCACC
AAACCAAGAGTTTGGCCAGGCTTGTCTCAAACTCTTGACCTCAGGTAATCCATCTATCTCGGCCTTCCCAAAGGCGTGAGCCACTGCCCCGGCCCCAGTG
ATTTCCTTTGCCTCTGCACCATGGCCCACTCTGGAGTCTAAGAGTAACATTAATTCCAGGATTCCTTTGCTCCTTTCCAATATCCTGCTGCAAATGTAGA
AGTTCTCGCCTTTATAGGCAGCCTGCCTAGCACACAGGACACAGCTCTGGGCCCAGAGGGGATGGGGTGTGCCCATCAGGTCTCCCAGGTGTTCTTCCCA
CCAGCTGTGCTTTTATTCACTCTCTTGGGGCCTCAGATTGTTTACCCTGTAAAATGGGCTGGGGTCATGTGATTCAGGAAGATGTGGGAACAAACACACT
GTTATTTAAACTCCTCAAGCAGTTTTTGTTTTGTTTTGAGACAGGGTCTTGCTCTGTCATCCAGGCTGGGGTGCAGTGGTGCAATCACAGCTCACTGTGG
CCTCAACCTCCTGGCTCAAGCAATCCTCCTGCCTCAGTCCCCCCTGTAGTTGAAACCACAGGTGCACACCACCACACCCGGCCATTTTTYTAATATTTTG
TAGAGATGGGGTCTCACTTTGTTGGCCAAGCTGGTCTTGAACTCCTGGGTTCAAGTGATCTGCCCTCCTCGGCCTCCCAAAATGCTGGGATTACAGGTGT
GAGCCACTGCACCCAGGCTATCAAGATATCAAGAAGCRTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATC
TCGGTTCACTGCAAGCTCCGCCTCCCGGGTTCTGGCCATTCTCCTGCCTAAGCCTCCCGAGTAGCTGGGACTACAGGYGCCTGCAACCACGCCTGGCTAA
TTTTTTGTATTTTTTTTTTTTTTTTTTAGTAGAGATGAGGTTTCACCGTGTTAGCCAGGACAGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGC
CTCCCAAAGTACTGGGATTACAGGCGTGAGCCACCACGCCCAGCCGCAAGAAGCATTTTTACAAAGCATTCAGCATCCTTCGCATGAGACTCACAGAGCC
TCAGAAAGAATATGTAGGATAGACCCCAGGTTGGTTCTTCCTGGAGCAGAGCGTTGCAGAATAGTCTGCAGACTGTGAGGCTCTCCTTATACCTGGAGGG
CTTGTAAAATGCAGATTCCTGGGCCCCATCCCACTGAATATGATCCTCTGGAACCAGGATCCCAGAAATCTGATTTTTGAAGTGGTCCCTCTTGTGTACT
TTCAAATTTGAGAACCATGGTCTAAGCAATGGAGAGATGGCCTCAGATGAGCCCTGGGATCCTGGGGCTGGCTGCCACCACATGACTCAGCTTTCACAAG
CGCTGAGCCATGAGAACTGCAAAATGGGTCAGATGACAGCCAAACTCTCCCATCAACACAACCCCCATTTAAAGCATATGCCCAAATTCAGAGACTATGA
GTTAAATGAGGGTTGAGCCCTCCTCAACATTAGGAGGTTGGTCAGGCTGGGGGAAGGGCAAGGCCTCTGACTGTGTGCATCTGCAGGAGTTGTGTCAGCA
AAGAGGAGCACAGAGAAACTCCACCTGGGGGAGCATGGCTGGTGCAGGCTGAAAATCATCCCATCCCCAGGCGCCCCATGGGCCTGGGCTCACTCCTGCA
CATTGTCCCTTCTTACAAGCTCTCTGGAGCCTCAGCTGCAACTGAGAGCTGAACCTAGGTCCCTAAAAACCCGGAGGGCAGGGCCAGCTGACATGGTCTS
TCTGCCAACAGCTGCAGTCAGTCCCTGCATGGTTCTCTGCTCCCCTCCCCTCCACCCACTTTGCCTTTCACAGCCTCCCAGAGCTTTTCTCCTTGCTCTT
GGGCTGGAATGGATTTAAACAATTTCGTCTCTCACGGCAGATGCCTGCCTGCCCCCGCCCCRCCATGACCCACTCTGGAGTCTAAGGGTAATGTTAATTC
CAGGATTAGCTCCAGAAATGGGGGTCATAAACCCATACCAAAGGCTCAATCTTTGAAAGAATCAGTTAGCACAGTCTAAAAGAAACTATTTTTTTTTTTT
TTAAGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCCATCATAGCTCACTATAGCCTTAAATTCCTGGGCTCAAGCAATCCTCCTGC
CTCAGCCTCTCAAAACGCTGGGATTACAGGCATGAGCCACCACACCCAGCCCTAAAAGAAACTTTAGTTCTCAGCCTCCAATAGCCTTCCTAATCCTCCA
TCCCCCAAAGTAGTGGGCATAGAGGACCTGACAGAAGGAGAGTGTGGCTGGCTCAGTTCAGCCATCCCTGCTGCAGGAGGAGCAGCTCAGAGCCCAGAGG
CATCTGCAGAAGGAAAGACTGACAGCTCCTGGCAAGCCTTGGCCCTTGGCCTCACCAAACCTCAGTGGGTGCTGGTGCAGTTAACCTGCTGAGAATTCCT
TCTTGGCACTGGTGGTTCATGATGTTATTCTTCCCATGCAGACATCCCTGGGCTTGAGTAGGGCTTGGTGGGTTCCCCTAGCACCAAAGAGTAAAGAACG
AAAAGTTGGGAATGATGCATGGAGAACATTCTCTGGTGCATCGTCATGCCCCCATCCTTTCCCTACAGGGGCGCTTGGTGTCTTCCAGCCCAGCTGAGCT
GTCCAATGCCCTCTCCGGAGACCCTTGTCAGCCAGTTGTCTCCCAGCCTCTCTGGCAGGACCGTCAGAAATGCCCTTGAATGATCACATGGGGAGGTGTT
GACTAAGTCTGCTGAGGCCTACCTTTAGCCCTACTCTCTTTCCCAAGTTTAGGTCCCTCAACAACCAGGATGAAAACACGTATGTGAATTGCCTGGATTC
TCAGCAGTGTCACGGCAGCTCAGAGTCAAGGCGACCTTGAGGATCACTGGAGCTCATGCAGTCCTGCTAGCCCCTACACCTACTCACATGGGCAGATGTG
GCYTTGGTCCTGGGGAGCTGGGTGGGAAGGAAGGCAGGGATGCCACAAATACYTTCATCTTCCGGGGAAGTAGAGGGAATGGGAGTGCCTGACTACCTCA
GCCTGGGGACCTTGGCTCCTCTTCTCACTATCAGCAGAGAGCTGTTACTGAACAGTGAAAGGGGAAGGCTTCTTTGTCAATCCCATCATAACTCTGTCCT
TTTGGTCCTCCTGCAGATGCTCCAGTGGCTTTGACCGCTATCGCCAGGAGTGGATGGACTATGGCTGTGCACAGGAGGTGAGAAGCATAAGTATCTGCTG
CAACTCCTGTGCCAGGTGGTGGGGAACAGGAGGGCAGCCAGTAGGGCCTGCCCCTGGAAACTCTTCTCAAGGTGGCATTAGCTCTTGGCAATATCCTCCC
TTCCATCTAAGATTTGTTTTCCAGACTGCCTTGAGCCAATYAGACCCACTTTGGAAGGTTTCAGAGGGCTCTGTGGGTCTCTGAGACGAGCATTCTGATG
CCTTGACCTTAAGTGGGCAGCTCTCAAGGAATTCTTTTGGTGCATGCAGAGGGGATGTTGGGCATGGCCTCAGCCACTGCTGGCTCCTCTGGGAGACTGT
GCACCTGCTGACCTTAATGATGCACCTGCTAAGCCTCTGGTCCTCTGGCTTTTGAGGAAGGCAGTCATTCTGGGAGTGAGAAGGGTGGTTCCAGGCATCT
CCTCTTTAGAATCCCAYCCAGGTTCCTTCTCACTGCAAGAATTTTCCAGTACACTCAACACTGATTCTAGGTGGAAAGCATCCTATTCTCACACCATAGA
CTAACATASATGGGTCTATTCATCTGTGCCCTCTTTTTTGCCCCCTCCCTTTATATCTTCTTGCAAAGCAAGCATGCTGCATGTGCCAAGCATGTCACTG
TGAGTTGCCCTACCCTCGCTCTTATTTAACCTGAACCAAAAGCTGGGGGCCATTGCCCCCATTGATCGATCACAGGGGAAAACTGGGKSTCAGAGAAGTT
TAATGAATTGGCCTGCATCTCGCTGCTAGAAGGTGACGGGCCCAGCATTTAAATATCAACTCTCCAGACCCTGTGGCCATACACTTACCACAGTCTATTT
ATTAGTCTGAGTCTGGGCTTTAAAAAAACCCTGTCCAGCCGCCTACTTTTGAAGTTAGCTGTTGGTGACCGTTCAGATTTGCTCTATTTATTTAAGATTG
GCATCTCAGCCCCTTCCTTGAGGAAGGATTTGAAGCAGCTGACAGATAAATTGCCCTGTAAGAGAAGATGCTTTCAGGATGAAGGGAAAGGTGTAAATGC
ATTCAAGACACAGCACTGGCTCTCTCCTGCAGGCAGAGGGCAGGATGTGCGAGGACTTCCAGGATGAGGACCACGACTCAGCCTCCCCTGACACTTCCTT
CAGCCCCTATGATGGAGACCTCACCACTACCTCCTCCTCCCTCTTCATCGACAGCCTCACCACAGAAGGTAAGTTCTGAGCCCAGGAGGGGAGCAGAGAG
GAGGCCAGGAAGGAGAGCTACCYACCCCTCTGGGGCCCCCTCTCTGTCCCTGACAGGGATGATCTCATGGGATGGGAACTGCCCCATCCTTTTATAGCTA
AGGGGGCCTGAAGTTCAGACAGTTTAGGTCACTTGCTGGTGAGAAGCAGAGCCAGATTTAGAACTTGAACTCTACTCCTGGGCTCTAACCACTGTACTGG
CCCACATCAGGGCTACAGACAATTCACTGTGAAGAGGGGAAAAATTAATAGCCCAGGCCAGTGCCAGGTATTTTATATACCTTATCTCAGCTAATCTTAA
TAGCAGTCCTCACAGAACCTGAAAAGGCTCATCCCTGTAGCAGGTATGAACTCAGTCCATACACTCAGGCGTGAGAGAAAGGCTGCCTTGTTTTTCTGTA
TGATCACCTGACTTCTCACTTTCAGGCCCTGGAGTGATGGATGGGGAATTCCACCTCAGCTGTCCATCCACCCTGACTATTCAGGTCTTGCAATCTAGGG
GCTTCCCTGCTACCTGGAGGCCTGGGGGTCTTGGTTGAAGCTGCCAGAGGTCCATCCCCGTGAATGCACCAGGCGGTGTCCCAGGAAGCCTTGTGCAGGC
TCCTCCGGTCCTAGGCCTCAAATCTCTTCCCTTTCTCCCATGCCCCCTCCAGGATTCTGTAGCTATGTCTGAGACATTCCTCTCCCTTATCCTTTTTCAA
TACCCTGCATCTCGGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCACTTCGGGAGGCTGAGGTGAGCAGACCACTTGAGGTCAGGGGTTTGAGACCA
GCCTGACCAACATGGTGAAACCCCGTCTCCACTAAAAATATAAAAATTGGCCGGGCGCGGTGGCTCACGCTTGTAATTCCAGCATTTTGGAAGGCCGAGG
TGGGAGGATCACGAGGTCAGGAGTTCGAGACCATCCTGGCCAACACAGTGAAACCCATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGGGC
GCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTAAACCTGGGAGATGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGC
CTGGGTGGCAGGGCAAGACCCTGTCTCAGAACAACACAACACAACACAAAACAAAACAAAACCCTGCATCCAGCTTTGAAAGCCCCTTCCCCTTAGGCTA
AGACTGAAAGACTTGTGGGTTCTTTACAGCCTCCCCTGAACCAAATATCTGCTTGAAAGGAATAATGGCAAGAAGGAAAGGAAAGAAGAAAAAAGTTAAC
ATTTTAAAACATTATTCAGCCACGTTTTTCTTCCCCCTCTAGCCCTATGTTAGGATTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTTGCTCAGGCT
GGAGTGCACTGGAGTGATCATGGCTCACCACAGCCCGCAACTCCTGGGCTCAAGCAATCCTCCAACCTCAGCCTCCCAAGCAGCTCGGACTGCAGGCATG
TACCACCATACCTGGCTAATTTTTAAAAATTTTTTGTAGAGATGAGGTCTCACTATGTTGCCCGGGCTGATCTCAAACTCCTGGGCTCAAGCGATCCTCC
TGCCTCAGCCTCCAAAAGTGCTGGGATTACAGGCCTAAGCCCCCATGCCTGGCCCATAGTCCTTTCTTATAGATAAGGAAAGAGGCTCGTAAAGGGGCAA
AGTAGGTTATTCAGGGTTATGGGAGGGGTAAGTGGTGAGATGTTCTTTCCACAATGTCCCCTTTCTTTTTTCTTTCTTTTTTTTTTTTTCTTTTTTTTTT
TTTCAGACTTAGTCCTGCTCTGTTGCCCAGGCTGGGAGTGCAGTGGTACAATCCCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCCAC
CTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCACACCACCACACCCAGCTWATTTTTGTATTTTTAGTAGAGACTGGGTTTTGCCATGTTGGCCAGGCT
GGACTTAAACTCCTGACCTCATGTGATCCACCCACCTTGGCTTCCCAAAGTCTTAGGATTACAGGCGTGAGCCACTGCACCTGGTGTGTCCCCTGCCTTT
CTAAACGTTACCTAGAAAACTAGAGAACAAAGTCAGTGACCCATGGACCTGGCTGGGGGGAGGTTGTGGAGGAGAATGAATGAATGATAGAAAGCATCAG
CATTTGTGGGGACCAACTATATGCCCAGTAGGATGCTAAAGTAGCGCATAAATTAACATTCAGTCCTCCCAACAATCCTGGATCTTGATACTGTTATATC
CCTGTTTTATAAAGGAGACACTAAGGCTCAGAGAGGCAGATGACTTTCCCAAGGTCACACAGCCAAGAAGGGATAGAGTCAGGTTTCATCTAGCTCCAAA
AGCAGAGATCTTTCCCCTCAACCCCACTGCCTCTCTTGGTGCTGAAAGAAATGGAAAAGGGTCTATGTGAATTCAGGGTCAGGGCAGAGTAGCAAAGTGT
GAAAAAGTGAGGCAGATTCCGACAGCTCCCATTAYTCTGAAGTTGCTCTGGAATAACAAGGAGCTGGCACTGAGAGCAGAGCACGTGGTGGTGCTGCAGG
GGATTCAATGAAAAAGAAGCAGAGGCTGGGAGAGGAGGCTTACGCCTGTAATCCCAACACTTTGGGAGGCTGAGGCAGGCAGATCACTTGAGCTCAGGAG
TTCGAGACCAGCCTGGGCAACATGGCAAAACTATGTCTCTACAAAAAATCAAAAATTAGCTGGGCGTGGTGGCGCACATGTGTAATCCCAGCTACTCAGG
AGGCTGAGGTGGGAGGATTGGTTAAGCCTAGGAGGTTGAGGCTGCAGTGAGCTATGATTGCACCACTGCACTCTAGCCTGGGTGACAAAGTGAAACGCTG
TCTCAAAAAAAGAAAAGGAAAGAAAGAAAGAAAAAGGAAAAGAAAAAGAAGCAGAAAGAAACTTTGCCCTTTGGGGAGCTGGTGACAGAGTCCAGGGTTA
ACCTTCCAGTCAAAGAAAGCTCCTCCTACAAGGAGGTAGTCCCTGATTAGTTACTGCCAGTTAACCCCCTAGGCTTACTGAGGGCATGTTCTGAGCCCAG
CACTGGGCCAGGGCGGGGAGGGGTGCTGCAAACATACCCTGCCCCACCCAGAGGGTTTAGCCAGACAGTGTCTGGTGGAGGCACAGTGTCAGAGGCTAGA
AGGGGGTCTGTGGTGGCGTGGGGAGCCCAGGGCACAGCACTTGGGGGCCAAGCCTAAATCCTGACTTGTTATTACTGAGCCCCCTGGGCTGTCCTACAGC
CCACCATGTAGGTCCTCTGTCCTACAGAGGTAGCGAGTTCTGTTTGCCAGTTTTATTATCTGTGTGCATCCCCTGCCAGCTAAGGAATGGGTCTCATTTC
CATGTTTTGTGTAGTGGTTCCCAACAGAAAACATTCATTAGAGTAAAAAGTGAAGACAGTTAGGGCTCTATGTCCTTCCAGTCCTGGAAGAGGTGGCAAA
GATTCTGAAGTTACATCTATAAGAGAAAAAACTTTTTGGAGGGTGGAACAGGATCTTGCTATGTTACCTAGGCTGGACTTGAACTCCTGGGCTCAAGGAT
CCTCCCACCTCAACCTACTAAGTGCTGCAGGTACATGCCATTGTGCCTGGTTTATAAGAAAAAACATTTTTAATGAYGACTTCCCCCCACATGCCCAACT
TGCAAGGCATCTTGGCAGGASAGTTTGAGTCACTCTCCTGCCTGTGTGGTTACAGCCCACACAGGGAGACTTGCAGAGGCAGGTGTGGGATAGAGTCTTT
CCCATACATTCTATGAGGGTACAGGCTCTAACAGGGAGATTGAATGAAGGGACCCAGCACTCCAGCCAGAGGGGCCTGCCTGGGCAGGCAGARGTAGAAA
GCAGCAGGGCAGGAGGAGTGGGAGACATGGGGCCTGGATTTAAGAGCCGTTCACTTGCAGTCAAACGCTACTCACTTAAATGAACCAGATGACCTCTGAG
TGGCAAGTAGCTGTCACAAAGCCCATGCATTTGATTGCAAAGAGAGACAGGCACTCACCCAGAACAACTGTGTGCAGAAGGGCTTATCTTATAAGCAACA
GAACAGAACACCTTGATAGCCACAAGAAGTGACAACTAACAACAGAAAATGACCACTCATTTGATCAACATTGCATGCATTTCTTCCTGTGTGAGTTCTC
ATGTGATCCACTAACTCAGGAGCCAATGTGCATTACATGGAGCCCCAGCAAGATGGCAGCTGGGAACCAGCCCTTGGTGAGTGGGAGAGAGGCTGCGTGG
GCACAGTGTGGCCACCTTCAGTCACTCTGGGAGGGACTGGCAGTGGGCGGCACTGTGTCCTTTTGTCTACCAGTGGTAGGTGCAGACTGAGCCATAATTG
ATCTTCAATGGTCTAGATTTGCAACAAGTTGATTCAAATCAAGTTAATTTGCCCAGTGATATTTAAGTTCCTTTGCTTAGTTTTGATGAATCAATTCATT
GTTTTCAATTTGCAGTAACGAAATAGATTCAAAGTTGTGTTTAAATACCTTGTTAGGCCAGGTGAGGTGGCTCTCGCCTGTAATCCCAGTGCTCTGAGAG
GCTGAGGTAAGAAGATTGCTTGAGCCCACGAGTTGGAGACCAGCCTGGGCAACACAGTGAGACCTCATCTCAAAAAAATCTTTTTTAATTAGCCAGACGC
AGCTACTCGGGAGGCTGAGGTGGGAGGATCACTTGAGTTCAGGAGGTCGGGGCTGTAGTGAACTGTGATTGTACCACTGCACTCCAGCCTGTGTGACGGA
GCAAGACCCTCTCTCTAAAATACATAAATAAATAAATAAAGTTCAGGTGCTTAGGGCAAGAATCTTCAGTCATTTACAGCATTCTCCTGACATGGAACTC
TTGCTTTTCTTTCCCCATAAAAATCTGCATGGGAAGGAACCACAGGAAGGGTGGACCCTTGAAACTTACTTAGAAAGCCACAGGCTACAGGCCTCGAGGT
ATAGACAGAAAGTGGGTTGGGACTCTCTCCTGCACACTGCAGCCCCAGGGAGTCTCCAGGCTGATCTGACCTTGTGACACATAAAGCCCCTCTTCAAACC
CTTACACATCTCTCTGTCGCCCCACAGAAGAACGTGCATGGCCTCCTATTGCTCTCCAGGCAGCCGGCCCTCCACTCCCAGCCTCATCTCTCACCAGTCC
CCGCTCATTTACTCCCCAGCCTCCAGCTACACTCAACTGCTGTGTGACTTGAGCAAGTCTCCTCCCCTCTCTGAGCCTCAGTTTCCTTACCTCTAAAATG
AAAGTTTGGGCTGAACTTTCATCCCATCTGGACTCAGAGTGACAAAGGCTGTAATGATTCCACTAATCTYGCTCCTTCTGTCTTCTCTCTTTGAAGATGA
CACCAAGTTGAATCCCTATGCAGGAGGAGACGGTGAGTACAGAACTGCCTGCCCTCAGCGTCAGACCCAGCGCCTCTTGGACCCACCCCAGAAGAGGGTG
CAGCAGTCGCCTGGGCTATTTTTATGAGTGCGGAGAGGGAGCAACGGCAGCCTGAGCATCCCAGACCTCCTGCTGGGTGGGGAGGCAGGGGGGCTTCTGG
GCACAGGTGCCCTAGATCGAAGGAACATGTCTACCCTAGACATTTCTCATCTCAGCCCTGAACCTCCTGTGGTTCTTCTCCTGGCTCTCTGTCCTTGAAT
ATTCACTGCCCAGAAAGGAGTGGGAGGAGGGGAAGGACTGAGCCAGGGCAGGTATAGGTGGGGCCTGTGGCCATCCCCTCTGATCCCCATGGGCTCATAG
TCAGCAAGGGGTGGAGAGCAGCTTCTCTTTCCTCACTCAGGCTGGCAGAGGACATAAAATTGTCCGCTACAATTTTTGCAGGATGCCAGAAGGTGGGACT
CCCTGCAGCCTCCTAGGATTACCTAGAAGGATAATCTCCTTTCTGAGGGTGGGAGCTGCCCCCACCTCCCCTGCCCTTTGCCCAGAGCCAGCTCAGGCCT
TTGCGGCAACCTGTGCAAGAGTAGAGATGAAAGTGCCTTCCAGCTCCGGGGGCTGGAGATTGTCATCAGGGCTTCCAGCAGGAGAGGAAAGATTATTAAT
GCAGCACAGTGTGATGGTGTCCCCCAGCAGAGGTGGAGCCATTGCTCCTCCATAGGCAGTGGGTGTGTGTGTGTGTTGTGGGGGTGGCTGGGCCATAATC
CCCTCGCTGTGCACCATGTGCTCATCAGCAGAAGCCTTCATCATCAAATCATCAGAGCCACTGCAGGCTGCGGGCTGATTGCCATCCAGGTCAGGGGAGG
CTCACCTGGGGCATTTCACCTCAGTCCTCCCACCTGTTGGCAGACAGAGGCCCTAGCCATGCCCTGGAGTGCCCCAGGATAGTTTCTCTCCTGGGTGTCC
TCTGCTTACAGAGTGCAGAGCAGAGCAAAGGGGATGGGGAAGACAATGGTTCTGAGTGCATGCAACATCCCATTAAAACTTGCCACCCCTAGTTCCCTCC
CAACCCACCCACTAGCTATGTAGGAAGAATGCAACATTTTTGTTGCCAACCTGCTCATCTGTCTTCTCTACCTCATTATCTCTTTTAGGATAGGGTGAAG
AGGCAAATAGCCACCCAAGGTAGTGTCAGGGAACTAGGTTTTTTAGTGGTGGGCACTGAATTTGTGTGTCTGTGGGGAAATCACTTAACCTCTCTGTTAT
TTCCATTACCTCAGTCATGCACAAAAGGGGTTGAGCTTCCAGCTCTGTGGAAAATACTCTCTCCCCCGGGACGTATTTCAARTGCCTAGGATGTTCTCAG
AGGGTGACTGTTGGCTTATTAGCTTCCAGAGGACCTAGATCATCCCATAGACTTTCTTTGAGCTTCTCTGACGGGCCTGCCAGTTTTGTTGTTTTGTTTT
GTTTGAGACGGAGTCTCACTCTATCGCCCATGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAACCTCCGCCTCCTAGGTTCAAGCTATTCTCCTGC
CTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCGTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAAGGTTTCACCATGTTGGCCAGGCT
GGTCTTGAAATCCTGACYTCAGGTGACCTGCCTGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGGGTGAGCCACTGCGGCCAGCCCCTGCCAGTTTTTC
TAAGAGCTGAGGACACAGAGTTGAATAAGACATCATCCTTGCCCTGCAAGAGGTCACAATCTGGGAGTGGACAGTGATAGGAAAAACTATGGTCATTTGC
CATCATAATAGCTAATACTTATTGAAGTCATCCAAAATGGGAGACATGGTCCTCAGTGCTTGACATGGATCATCTAATTTTAACCTTCACAATAACCCTA
TTAGGTGGGTGTTATTATCCTTGTTCAAAAGAAATGATAATGAAGACACAGAGAGGTTAGATAATTTGCACAAGSTCACACAGCTAGTAAGTGGCAGAGC
ATAGATTTCAACCCAGGCAGCCAGATTTCAGATCCCAAACTCTTAACCCTCCGATGCCCTTTGTGAATTCCTTAATAGCACTTATGTAGTGGCACAGATA
TCAGAGAGAACTTCTCTTATGATCCTTATTAGACATTTGGGGCAACTTTTACATGATTTTGGAAAACTACCCAGATGGTGTCAAGAACATGAATGCCTTA
CTCATAATGATTCCAACTCCCACCCAACCTCTTCCYGTATTGGATAAGTGGACCCAAAGGCTCTGTCGGCTTTCATCTCTGAGACTTTGTTAGAACCCAA
GACCCCATGGTTCGACCTTCCCTGCTCCCCTGCAGCCCCTGTCTGCCCTAATGATCTCTCCACAGGCCTTCAGAACAACCTGTCCCCCAAGACAAAGGGC
ACTCCTGTGCACCTGGGCACCATCGTGGGCATCGTGCTGGCAGTCCTCCTCGTGGCGGCCATCATCCTGGCTGGAATTTACATCAATGGCCACCCCACAT
CCAATGCTGCRCTCTTCTTCATCGAGGTCCGTGTCATCTGTGGCCACAGGGCTCCTGTCTGCYTCTGCGTCGGCGTCTCCTGGGCCATTCGGTCCCTGCC
TCTCCCCTTCTCCCTCTCCCCTGCCACATACCTGAGAAAACTTCATCCACCCCATCCTGGCACATTTCGAGATGGCTGGCGCCCGTTAAGTCCTGCACCC
TGATAAATCAGCACCTCAGAACTCCCTCGGCCCTCCTGTCCTGTGGAACAGCCCCTCTGCTTTTGTTCCCCCATTTGTGAAATCAGAAAAAATCCCCAGA
GGAAAGAAAGAAGGCCACAGTGCCACATAGTGCTCATCTAGTGGCTGTGCAGCCTATCTCCAGTGATTTATGGTCTCTCATGCCCAAATGCCAGGCTCAG
TACTTACTCAAAGCCATGAGGGAACCAGGGTCTCTGCCTCTTTTGCCTACTGATACCTGCTTTTAAGGCTAAAATTGAGGGGCAGGTGCAGTGGCTCCTT
CCTAAGATCCTAGCACTTKGAGAAACCAAGGCAAGATTACTTGAGCACAGGAGTTTGAGACTAGCCTGGGCAACAGAGTGAGACCCCGTCTCTACAAAAA
TTTAAAAAATTAGCCCAGCGTGGTGGCACGTACCTGTGGTCCCAGCCGCTTGGGAAGCTGAGGTGGGAGGATCCCTTGAGCCCAGTGGTTTGAGGCTGCA
GTGAGCCCTGACCATACCACTGCACTCCAACCTGGGCAATAGAGGAGACCCCATCTCTAAAATAGAAATAAAAATAAAATAGACAAGCCAAATAATGATA
AGAGCTGCCCTCTGGGAGCTTTAATTGAGGATACTAAGTTTTGAATGTCTCAATTCTGAAGAGCCAGCCTGAGGGGCAGCATGGGATGTGAGGCTCAGCC
CCCTTCACTCGGGGCTGCAGAGCTCAGCAGCTCCTGCCCCCAGTCCTCCACTTCTGGCTTCTTACGAGTTCCCCACAGAGTGCAGCAGTGGTGCCTCTGT
GACCCTAGTTTCTTCCACGTGGGTCACAAGCCCACCAGCCTCATTAACCCACAGGCCTAGGTCATTCCCCCAGTTTCTTAGGAGGCTTAGTCATTCTGAA
GTCTTAGCCTACCTGGGTAACACCTGGGAACTGCAGATCCCTGGGCCACAGGGATTCTGATAGGGCAGGTCTAAGGCAGGCCCAGGAATCTGCATTTTAT
TTATTGCGAGACAGTCTCACTCCGTCGCCTAGGCTGGAGTGCAGTGGCACAATCTTGGCTTACTGCAGCCTCCGCCTCCTGGGTTCAAGCAATTCTGGTG
CCTCAACCTTCTGAGTAGTTGCGACTACAGGCACGTGCCACCACACTCAGCTAATTTTTGTATTTTTAGTGGAGACAGTGTTTCACCATGTTGGCCAGGC
TGGTCTTGAACTCCTGGCCTCAAGTGATCTGCCCATCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACTGCACAGGCCAGAATCTGCATTTT
AATAAGCCCCCTGTTGACTCTGATGTGGATCCTGTGCTACCTTGGAGGGTTATCTTGGCATTTTCAGAGCCTCAAGCATCATGCCAGCCATCTCTGAGCC
ACTCCCTCACATTGCAGTCCTAGGTCTCCACTTGGTGTATTGCTGAACCTTTCAGCTGTGAGTTCTGCAGACCACACAGTGAAGGATAAAGTGTCCTCCT
TCCACACTCTAGCTTYCGGCAGGTTTCCCAGTGGTTGGGGGATCACAGCACGGAACATTTTAGGGAGAGGGTCCCTGAAGKTCAGTTGTGTGGCTCCTGG
TAGGCCCAAGTGCCCCAGGGCCCTTATAAGAGACAGTCTTGGTTGGYTCTGTCGCTCAGGAGTGTGGGGTCCCCATGGGGGCGGGGGCATGCCCACTGAC
TTTGCCTCTGTGCCTTCTGCAGCGTAGACCTCACCACTGGCCAGCCATGAAGTTTCGCAGCCACCCTGACCATTCCACCTATGCGGAGGTGGAGCCCTCG
GGCCATGAGAAGGAGGGCTTCATGGAGGCTGAGCAGTGCTRAGAACACCAAGTCTCCCCTTTGAAGACTTTGAGGCCACAGAAAAGACAGTTAAAGCAAA
GAAGAGAAGTGACTTTTCCTGGCCTCTCCCAGCATGCCCTGGGCTGAGATGAGATGGTGGTTTATGGCTCCAGAGCTGCTGCTCGCTTCGTCAGCACACC
CCGAATATTGAAGAGGGGGCCAAAAAACAACCACATGGATTTTTTATAGGAACAACAACCTAATCTCATCCTGTTTTGATGCAAGGGTTCTCTTCTGTGT
CTTGTAACCATGAAACAGCAGAAGAACTAACATAACTAACTCCATTTTTRTTTAAGGGGCCTTTACCTATTCCTGCACCTAGGCTAGGATAACTTTAGAG
CACTGASATAAAACGCAAAAACAGGAATCATGCCGTTTGCAAAACTAACTCTGGGATTAAAGGGGAAGCATGTAAACAGCTAACTGTTTTTGTTAAAGRT
TTATAGGAATGAGGAGGTTTGGCTATTGTCACATGACAGACTGTTAGCCAAGGACAAAGAAGTTCTGCAAACCTCCCCTGGACCCTTGCTGGTGTCCAGA
TGTCTGCGGTTGTCAGCCCCTTCCTTTCCCCCGACCTAAACATAAAAGACAAGGCAAAGCCCGCATAATTTTAAGAYGGTTCTTTAGGACATTAGTCCAC
CATCTTCTTGGTTTGCTGGCTCTCCGAAATAAAGTCCCTTTCCTTGCTCCAACTCCTTGTCTCTCAACGTATTGGCTATGACGCAGCAAGCAGAATGAAT
TTGGACTCAGTTACAGGCTGTCAATGGTCTGCTCTGTAGCAGTCTCAGAGCCTCCCCGACCCACTACCTGGAGATAGCCAGATAGCCAGATGCCCTGCTC
CTGGCCACCTTTAAAGCCCCTGCATATGACACAGGTTAACTAAAGTCAAGATTGGGGCTGCTGCATTCCAGGTTCCCTAGACTCACAAGCTGGTCCTTGG
CCAGGTGCRGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACCTGAAGTCAGAAGTTTGAGACCAGCCTGGCCAACATAA
TTAAAATGTCTCTACTAAAAATACAAAAAATTAGCTGGGTGTGGTGACGCTTGCCTGTATCCCAGCTACTCAGGAAGCTGAGACACGAGAATCACTTGAA
CCTGGGAGGCAGAGGTTGCAGTGAGCTCAGATAGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAGAAAGCAGA
TCCTCATGGCTATAGAGTTGGCATTTTAGCCCCAGCTTCTGTAGCTCTGAAAGCCTAAAGAAGGTATTCTCTCCATCTGTTAAACACAGTATAGTGGCTC
TCAGCCCTTGGGGCATGTTATCATGGGAGGGAAGTCAAATAAGAGGAGAGAAAAGAACTCAAGGGGGAAACTGCATTTTTAGGCTTTGCTCTCTTACCTT
GCCCTTTCTACTCAGAACCAATAACTTCTGCATCAAAACATGTTACAGCCTGCATCAAGGGCTTTACCCCAACCTGCAGCCCAGCCTTCCCTGGGTGAGC
TTGCTATGCGCAGCCACATTTACCATGTGGGGCTCCCTATTCTGATGGCCTRTTCGGTGCCRGGTTTACTCACTGCCCTGTTCTGATGTCAGTGCCTGTA
CATACCTCCAAAGGCAGGACTTGCCTGATAAATATTTTTCCTCCTCTGAACTGGATTTTATAGGCATTAAAGACAAGTCGGGTGGCTAGAGGGCTCCTTG
AGACATACCTAGCAGGGAACTGCAGGTGGATTCTGTTGAGAGGCAAAGCACCTGAGTGGTTGGGACACAGGCAGCTGGCATGGGAGGGACTTTTTTTGAG
ACAGGGTCTCACTGTGTCGCCCAGGGCAAGGATGCCCAAAGACACCAGGTTGGAGAGGCACCTGCCAACTACTTGCTTTCCCTGGAGMCTGCATGTGCCT
GTGGGGTGGGGAGGCGTAGGGGTCTACGGCTGCCTGAGATGGGTGTGCACAGTGTGTGAAGTACCTACCTCCTTGCCTTGCTGGACTGTCAGCCAGTCGC
AGGGCCGGCCACAAGACCCATGTCTCCATCTGGTCATACTCCATAGCTACCAAGTTAACCTGCTCTAAACTTTGGAGAACTGGATCTGTCCAATAAACGC
TTATTTGGCCAAGCCTGATGGCTCRTGCYTGTACTCCCAGCACTTTGGGAGGCTGAGGTGGGAGGGYTGCTTGAGCCCAGGGGTTTGAGACCAGCTTGGG
CAACAACAACAAAAATGCCAGGTGTGGTGGGGTGCACCTGTAGTCCCAGCTACTAGGGAGGCTGAGCCAGGAGGATCACTTGAGCCCGGGAGGTTGAGGC
TGCAGTGGGGGGTCATAATCATGCCACTGTACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCCGAAAAAAAAAAAAAAAAAGAACGGAAAAAGAAAT
GCTTACATTGTCAGGGATCCTGTAGACAATCATTAACTCTATGAGATGCTTGGTTCTATTTTTTTGGGAGACTTTGTCCAAGTGTTTTGGCTTAAGAAAT
CCATAGGCCTCTCTTGGTGACACATCTCTAGTACTTTTTGTCATAAACAAACAGGCCATCTGCCGCCAAATACATCCACTCCCCATGCCACTGACATCCT
ATGGGTCAGCCAGGCTTGCTTTGACTGAGGCCGAGGCATCTGGAACTTTCTCTGCCTGCAGGGGCTAGCAGCAGAGGCTTCACCGCATCACCACCCCTTC
CTCCACTCCTGACATTCTTTCCCTTCAGGGATCCAAAATGGTTGGCCGAGCTCCCAGTGGGAAAACGTGTGCTAGAGTTGGGGAGTGAGATGAGTGGTGC
TGTCCATGGAATCAGGCCACAGCAGGAACTGCCCCACTGGCCATTTGAGACACACACAGGTGGTAAATGCTCTGCTGGTGGGCTGTGCTTCCCTCATTCA
GAGAGCTCTGTTACAGCCCACTGTGTCCTTTAGAAGCTTGAAAGGAACCCAACTCTTTGCTGCACTGTCCTTTTTCTTCCTCAAATTCAGACCCTCCTTC
CACCGGCACCCCCCTACTCCACCCTCAGCTCTTCCTTGCCTGGTTTATCAAGCAGAGCTGAGGCCCCACGTTTCCAACTCTGATTGTCACTTGCATCTTC
ACAAAGGATAAACCACGGAGCAACTGGAAAACCATCAGCCAAGCGTTCGGATGAGTCTGGTTATTGGTCCACCCCCGACCAGATTCCCTTACACTTAACT
CACTTCTTTCTTTGGCAATGACCCTCATGACATGTATAAATGGGTATGACTAAGAAGAGGCTGTGATCTAACATTTATTTGCTGCCATTTTTTACTCTGG
GGAGAAGCAGCCCCAACTCATCACTGGGAAAGAACTCCCCCTGCAAACCAGCTAAATTTGATAATTTAAACCCCCTGCCCCTAAAACTTCTCACAGAGCT
GGGGAGTTGGTGGCAACTTTCCAAGTCAAGGTCTTGCTTAGAAAGTCCTTCACTACATGGCCAGGTGCAGTGGCTCACGCCTGTAGTCCCAGGTACTTGG
GAGCCTGAGGCAGGAGGATTGCTTGAGCTCAGGAGTTCAAGGCTGCAGAGAGCTATGATCATCCCACTGCATTTGTTTAAAAATAAATTTTTAAAATTTG
TGTGTTTTATCAGGGGTCTCCTGTACAGTGTATCTGTGTATGTTTGTGTGTGTGTTTGTAWACAGCCTTGTTTAATGTTTTGAGCAATAAGATATGCACA
CACAGGTATTTTGTTGCTAAAGAGATTGGACAAGGTTGTAGCTGTGCTCAGGCTTCAGCTTGGTTTGTTAAATTGAGAGATAAACAATGACAAGAGCTGC
CAGCCAACCACACTATTCAAAAAGCAAAGTGTTCACCACTAAAGCTAACCATTCATCTGGTTGCAGGCAAGGCTAAGGCTCTCTCTCCTCTAGTTCCTGG
AACAGACTCACAGATTGGCATGAAGCACTGATCAGGGGCTGCACTCAGACTCCCTGGCCAAGCAAACCTACACCAGAAGAGTCAGTGTCACAGATATGAT
GCGGCCAATCTCTGTCTCCAAAAACCTACCTGAACTTAATGGTAGAATTCAAAGATCTGGGGACTGAGGGCACCCAGCCTTCTAAAACACAATGTATTCA
TGTGTTTAGTGTAAACTCTCTGCATGGATTCTCAGTGTTAATAATAAAAGGAAGCATTCTTTTACAACTCCTGCTGTGTGCAAAAGAAAGTGCAAAGGAT
TTGGAGTGGCATTCCGAAGATCACCACACATACCTTGGTTCTGATGGCTGCTGAACTCCGACTTCTTCGCTGAGACATGACTGTGGGAACAGCCTCCAGC
TATCTGCTCATCAGAGGTGCTTTCCTCAACCTCCTGCACCACCTCCAAGAGAAACAGCCTAAAAAGAAACCCCAGCTGTTTACTTATATTGKTCTGTAAA
TCCCTGGAAGTAAACCCCATGCATTTTTATCTACTGTCTGAGGACATACAATAAATCTGAGAAAGTCTATGCTGTCACATTTCTGGATGCTTTGCATTTG
AACAACTTTAGCGGCCTCATTGTGTTTTTATTACTTTGTGGTTTTGCTCACAAAACATGGTTTAGCGAGCCAAAACAAAGAGAGGAAAAATGTGAACACC
TCACAGCCAAAATCAGTGATGCCACATTTCAGGCTCCAAACAAGCCAATTTATAAATAAACATGCTGTGTTCGCCAAATCAAGAGGAATGTGTTAAGAGA
AGACAACGTGAACTGATGGAGAAGGTGCTGAGCTGGACGGGGAGTGGGAAGGTGGGAGCTTGGCCTCAGCCCTGCCCCTGAGTAGCTGGGTGATGTGGAC
AAGTCACTGGACTTCTCTGGGCTGGCTTCCACCCCTGTGAAATAGGAGGTACTAGACTAACTGGTCTAAAGTGGGACCTGAGCAATCAGCTGCCTGGTCC
TTTTTCAGGTCACACAGCAACTTAGACCAAAGCATGCCTTTCTCTTTCATTATCCCGATAGGGTGACCAAATTGTTCTATCCAGGACTCTCCTGGTTCTA
ACACACAAAGTCCTGCATCCCAGGAATCTCCTCAATCCTGGGCACATTGGAATGTTATAGAACCAAACCAGGTCTTCTCACCTGGCGCAATAACACCAGA
TGTCCACACTGAGACTTTGCAGCAATAGAGAAAGGAAGGCATTTGTTTGCAGGACTCCAAGCAAGGAGAATTGGGTGGCTTATGCTTAAGATATGAACTC
TTGATGGCTTGCAGGTAAGGTTTTTTTGTTGTTTTTTTTTTTTTTGAGAGAGTCTCACTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCAG
CTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCTTCCTGAGTAGCTGGGACTACAGGCATGCACCATCACGTGCAGCTAATTTT
TGTATTTTTAGTAGAGACGGGGTTTCACTATGTTGACCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCTGCCCACCTCGGCCTCCCGAAGTGCTAGG
ATTATAGGCATGAGCCGCTGTGCCCAGCCACAGGTAAGGATTTTAAAAGGCAGGGGTAAATTTCAGGAAAGCAGATGTTACAGGTAAAATCATAAATCAA
TATATGGAAGCTATACGTTGGTTTGACCTAAAAAGGCAGGACGTCTCAAAGCAGGACCCACAAGTCATAAGGTGGGTTCAAAGATTTTCTGATTTGCGAT
TGGTTCAGGAGGCGAAGCTTTGTCTAGACATGTGGGATCAGCAGAAAAGAATGTTAGCTCTGGCTCATGGGCAATGGCCTCCTCCAGGTCCCTCAGGAAG
AAATTTAGAACAACGAACTATAGTCAGAGTCAGTCCTCAGCACCCGTTTATCTGAGGTCTACATGCCAGCGGATCCCTTTTGGAGGGGTCTGGGCTTCTG
AAAAACAACTCAGGGACATACGTTAAGATGTTATCTTTAGTTTGTAGAGAGGGGAACCAAACATCTCCTGGCTCTAACTTCCTCAGCTATTGTTTTAGAC
TACTATTACCTTCCTGCTTACCAAGTTGCTGATTTACTTCTCAGGGCTAGCTAGGATTTCCCTGAAGGAACTCAAGATTTTCCTTTATCCCCATGTGTGG
GTGTCCCCAGCTCCCTCGCCATGTTTGGTCCCCTCTACCCTTGGCACAGCCCTCCCACCCCATTGGCTGAAGAAATAATGATTTCAAGCACCTGGAAAGC
ACTTTAGAATATAGAACCTTGCTAGTTAAAGTCTGGTCCAGGGCCAGGCACAGTGGCTCATGCCTGTAATCCCACCACTTTGGGAAGCTGAGGTGGGAGG
ACTATTTGAGCCCAGGAGTTTGAGACCAGCCTGGGAAACACAGGGAGACATTTTCTCTCAAAACAAAACAAAAACAAAAACAAAAACAAAACAAAAAAAA
TTAGCTGGGCACAGTGGTACATGCCCTGTGGTCCGAACTACTCGGGAGGCTTGGGCCCAGGAGTTCCAAGCTTCATTGAGCCATGATCACGCTACTGCCC
TCTAGCCTGGGGGACAGAGCAAGACCCTGCTTTAAAAAAATGTAAATCTGTATAATAAAGTGTGGTCCAGGCCAGGTACAGTGGCTCATACCTGTAATCC
TGCTCTCTGGGAGGCCAAGATGGGAGGATGGCTTGAGGCCAGGAGTTCAAAACCAGCATGAGCAACACAGCGAGACCTTGTCTCTACAAAAATAAATAAA
TAAATAAATAAAATAATAAAGTGTGGTCCAGCCAGGCAGCATTAGCATTCCCTGGGGTTAGCTGGAAATGCAGCACTCAGGCCCCCCAACCCCAGAACTA
CTGAGTCCGAATCTGCATTTGAGCAGCTCCTTAGGTGACTCCTGTGAAGGGCATGAAAGTTTGAGATGCACCATTTAGGAAGCAATTCTACCTACATGAT
CGCAGCCTGTTGGAGAAGCACTGTTTTTCCTTTCCCAGATGAGGAAACTGAGGCTCAGGGAGGTGGCTTACTTATTTATTCACTTGATCCACATTCATTA
AACGCCTGTGTGCCAGGCACCATTAAGTGACTTGCACAAGGTCACACAGCTAGTAAGTAGAGAAAAACCCCAAGTGCAGATTTTTGGATTCCCATCTGAG
GTTGTTCTCTGTGTACCTCAGGGTGTTGCCAGAACCACATGGCCACAGTTTAATATAGAAGCAGATTATGGATTATGACAGACAGACTGCTCCAGGCCTG
TAGAGATCCTCGAAGAGATGCCTAGTGATGACTTCAGATCCTCGCTCTTGGCTCACGAAACTGTGAGCTTACCATCTATTTATTTGCACAGTCCCAGGAG
CTTGAGAATGTCCTAGTTGTTGCTGCCTCCTTCTCATCCCGCTGCTCACACTAGCGACCCTCCCACATGAAGAATTAGAAGTACTCCTCACAAGCCTTAC
AGAGCACCAGGCGATGCCTCCATCTAATTTATCTTCTTGGATGGAGGACAATGGATTACTTCCTTCGCCAAGATGGGGCCAGAGGTGCAGGGAGGAAGGA
AGAGGGGTAGAATCTTTACTTCAACTGTGAAATCCAGAGAGAAATTTTGTGGGGAATGATTTTTCTGATGTTCATAAAACATTTTTACATTTGGTCCCTA
GAGATAGCTAAATTACGCCTACAGTTTTCCACAAAGCTAAAAGCACTGAAAAAAAAAATCACCTGAATATGGGCCAATAAAATTTCATCATACCTTCCCA
GAGTCTTGGGTTAGAACCTTCCCTTCCAGCTTGTCTTTCCCCTTTTTCAGTCTCTCTCCCTCAAAGTTTGTGTGGTTTTGTTTCTTTGTGTTTTGAGACA
GGGTCTTGCTCTGTTGCCCAGACTGGAGTGCCGTAGCATGATCTCGGCTCACTGCAGCCTTTGCCTCCTGGGTTCAAGCGATTCTCCTGCCCCAGCCTCC
TGAGTAGCTGGGACCACAGGTGTGTGCCACCATGCACGGCTAATTTGTGTGTATTTGTGTGTGTGTGTGTGTGTGTGTTTGAGATGGAGTTTCGCTCTTG
TTGCTCAGGCTGGAGTGCAGTGGCGTGACCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCACCATCCCGAGTAGCGGGGA
TTATAGACATGCACCACCACGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCACGTTGGTCAGGCTGGTCTCGAACTCCCGACCTCAGGT
GATCCGCCCTACTTGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCACCCAGTCAATTTTTGTATTTGTAGTAGAGACAGGGTTTCTCCAGG
TTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATACGACCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATTGTGCCCGGCCTTA
GATCCCATTTTTAATTAAGAGATGAAGATGCTGCTCTCAGCAAACCTGTGCACTGACTCTGCTCTCCTAAGGAACATTAAGCAATTCCAAGAGCCCCTCC
TCAAGGCCAAAAGGGCAGCCTCCTGTAGGGCCTACCTTCCCGTTCTCAGAGCCTCCCTTTTCTCTCTCTTTTTTTTTCTTTCTTTTTTTTTTAGAGACAG
GGTCTCAGTCTGTTGTCCAGGATTCAGTTCAGCGATGCAATCATGGCTCACTGCAGCCTTGAATTCCTGGGCTAAAGTGATCCTCCCACCTCCGCCTTCC
AAGTAGCTGGGACTACAGGTGGGAACCATCATGCCTGGCTAATTATTTTATTTTTTGTAGAGATGGGGTCTTGTTTTTCTGCCTAGGCTGATCTTGAACT
CCTGGGCTCAAGCAATCCTCCCATCTCAGCCTCCCAAAGTGTTGGGATTATAGGTGTGAGCCACCACGCCCGGATGGAGCATCCCCTCTCTACAGCTGCT
GACACCCCTCTCTGTTCCCTGGGGCTCTTCTCCCCCAGGCCCATTACAGACTGAGCAGAATCCTCCCAGCTGTGCTCACTCTTCCCTCTGCCTCTGTAGA
CAAGCACTTAGCCCTCTTTAGCCGTGAAGAAGGAGCCACAACTAACAAAATTAGGCAGAGGTAAACATTACTTAAAACCAAAGGTCCTGGTCTACTGACT
TTTGGACTCTGGGATGGTACTGCTGGTGGTGCTGCCGGCAGCTCACATTTACTGGGTGTTTCCTATGTTCCAAGCACATTTTAGGAGATTTACTTGTATC
GTCATCTATGGGGTGGGTGCTGTTGCTACCTCTACCCTACACAGGAGGCCACTGAGGCACAGCGCAATAGGGAACTGTATGTTTTTGTATTTTTAGTACA
GATAGAGTTTTGCCATATTGCCAAGGCTGCTCTCGAACTCCTGGTCTCAAGTGACCCGTCCGACTCAGTCTCCCAAACTGCTGGGATTACAGGCATGAGC
CACCGTGCCCAGCCTGATCTTTAAATTTTTTCTGTAGAGATGGGGTCTCACTATGTTGCCCAAGCTGAGATTTCTTAAAAAGGGACAGCATAAAATGACA
TGGGGTTTAGCATCAGTAGGTTTGAGTTCAACCTTAAGCTTCCATAATTCTTGTCAGGAACCTTAAGCAAGTCAATTAACCACCCTGAGTTTGAGTTTCT
TAATCTAAAAAAACCAGAGAACTGGAAGATTAGTGTGGCAATGCATCTGAAAATATTCTGTAAACCAGAGTGCTGGACAAATGCTAATCTATTATTGAAT
TCAGCACTTCATTTCAGCGGAGCTAGGAATTCCATATTTGGAGCCACCTTGACAGGAGATGTCTGAAAAAGCTGCTTCCGGTGGCATGCCTTTTGGGCTC
CGTGGACAGCCATTGCTGAATAAAACTTAATGACGCCATAGAAACCAGAATGGGCCACTGCAGCATTTGGGAAGACCCGGACTGAATACAAAAGGTCAAA
CTGGGAAAATGCTGTGAACAGTGAAAGCTGTGGGGGTGGTCCTACGCCAAATAAGCGCATGAAATCTCACGCCCAGAAAACAAAACCGCCCATGCCTTCA
TATTCCCCAAACGCTTCTTCGAGAAGGATGCAATTCAAAACACTTCCCACTTAACCAACAAGTTTTCTTCTTAAGATCCTAAACTTGAAGAAGTCCTAGA
AGGTAAAATGTGCTGACTGGAGAGGTACCTCTCCGGGACTCTAAAAATCTGTTTGGGGTAGCTGTCTGCTGGGGTCCCCTCTAGAATTAAGAGTCCTTCA
GCGGGCCAGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAAGCCACGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAA
CAAGGTGAAACCCCCGCCTCTACTAAAATACAAAATTAGCCAGGTGTGGTGGCGGGCACCTGTAATCCCAGCTACTCCGGAGGCCGAGTCAGGAGAATCG
CTTGAACCCGGGAGGCGGATGCTGCAGTGGGCAGAGATCGCGCCACTGCACTACAGCCTGGGCAACAGAGCAACAGT


SNP Information

Context             (SEQ ID NO:65179):
GGTGGACTTTGAGGGGTTAGAAGAGGCTGAAAATGCCCTAGAGTCTCAGCCATGAGAAGAACAGCAAAAAAGCAGTCGGGGCAGAGAGAAAAGGGGCTCA
S
ATGCTTCGAGGGCTCCTGGGGTCCTTGTGCGTTGAGTGTCTCCCTTAATTCTCAGGACAACACCATTTGCATGGCATCACCAGCCCCATGTGTGGATGCG
Celera SNP ID:            hCV9270764
SNP Position Genomic:     67074
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,4)   total(G,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65180):
CTTTAAAGCCCCTGCATATGACACAGGTTAACTAAAGTCAAGATTGGGGCTGCTGCATTCCAGGTTCCCTAGACTCACAAGCTGGTCCTTGGCCAGGTGC
R
GTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACCTGAAGTCAGAAGTTTGAGACCAGCCTGGCCAACATAATTAAAATGT
Celera SNP ID:            hCV42394
SNP Position Genomic:     90909
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:65181):
AAGGCAATCTTGAAAATTGCTAAATTATAGTCTCTGAGTTCCTGTGCAGCTGTCGTGCTGCTCCTTTCCAATGCTCCTTTCCAGTGCTTTTTTTTTTTTT
T
GAGAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTACAATGGTGTGATCTTGGCTCACTGCAACCTTTACCTCCTGAGTTCAAGCGATTCTCCTGCCTCAG
Celera SNP ID:            hCV26308900
SNP Position Genomic:     75215
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65182):
AAACTTTGGAGAACTGGATCTGTCCAATAAACGCTTATTTGGCCAAGCCTGATGGCTCGTGCCTGTACTCCCAGCACTTTGGGAGGCTGAGGTGGGAGGG
Y
TGCTTGAGCCCAGGGGTTTGAGACCAGCTTGGGCAACAACAACAAAAATGCCAGGTGTGGTGGGGTGCACCTGTAGTCCCAGCTACTAGGGAGGCTGAGC
Celera SNP ID:            hCV27512609
SNP Position Genomic:     92167
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65183):
ACCAATGCCAGAGCAGTCTTCTTTTCACTGCATGGAATGACATTCCAAGGTCTTGAATGTTTCAGGGGCTGAAGTGTCCTGCAGCAGGGCATTGTGTTGG
S
AAGAGAGCATGCTTTGGTGCCAGACCCACGGGGGCGCAGTCCTGGGTTAAGTAGGAGGGACTAATTCCAACGTTAAGGATAAATAAATAATGAGATACAG
Celera SNP ID:            hCV26308902
SNP Position Genomic:     67575
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,8)   total(G,4|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65184):
TGGATATATCATATAAATGGAATCATATAATATGTGATGTTTTATGTCTGGTTTCTTTCACTTAGCATAATATTTTCAAGGTTTATCCATTTTATGGCTG
W
ATAATATTTAATCGTATGAATGTACCATAATTCGTTTATCCATTTATTTATTGATAGACATTTAGGCTGTTTCTACCTTTTGGCTGTTGTGAATAGTGCT
Celera SNP ID:            hCV2959980
SNP Position Genomic:     27793
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,11)   total(A,11|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65185):
AGTGGCATGGGAGTGGGGGGCACCAGCATTTCAGACATAGGCCTCAGGGATGTAGATGCTGCTCAGCTCCAGGGAATCTTTATTGACACCAATGCCAGAG
Y
AGTCTTCTTTTCACTGCATGGAATGACATTCCAAGGTCTTGAATGTTTCAGGGGCTGAAGTGTCCTGCAGCAGGGCATTGTGTTGGCAAGAGAGCATGCT
Celera SNP ID:            hCV26308903
SNP Position Genomic:     67488
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65186):
AGGCATGAGCCACCGTGCCTGGCCCCAAAACATTTTCATTACCCAAAAGAAAACCCTTTACCCATTAAGCAGTTGCTCCCTGTTCACTCCTCCACCCCAA
Y
CCCTGGCAACCACCAATCTGTGTTTTATTTCTATGAAGTTACACATTCTGGATATATCATATAAATGGAATCATATAATATGTGATGTTTTATGTCTGGT
Celera SNP ID:            hCV2959981
SNP Position Genomic:     27644
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|C,10)   total(C,10|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65187):
CTTTCCCCTTTCCACTCGGCCTGGAGCAGCATCTGGCCTGTGGGTAGCAGGTGCACCCTCCTAGTGGCATGGGAGTGGGGGGCACCAGCATTTCAGACAT
A
GGCCTCAGGGATGTAGATGCTGCTCAGCTCCAGGGAATCTTTATTGACACCAATGCCAGAGCAGTCTTCTTTTCACTGCATGGAATGACATTCCAAGGTC
Celera SNP ID:            hCV26308904
SNP Position Genomic:     67426
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65188):
GAGTTGGGGGGTGGGTGGAGGGAGGGGAAAGTTAGGAGCCAAGTTTTGAAGAGAGAGAAGATAAAGGTTGTCTGGGCATGGTGGCTCAGGCCTGTAATCC
C
AGCACTTTGGGAGGCCAAGGAGGGCATATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACATAA
Celera SNP ID:            hCV2959982
SNP Position Genomic:     26118
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,7)   total(C,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65189):
GGACCCCATCATCCAAGACAGTTGGCAGGGAGAGTGCAAGACCTGCCTGGTTTCTACAACCTTCCAAAGGAGGCAGCTCCCGAAAGAAGGTTTTCAGAAC
R
CAGGGCCTTGGGAGACAGGAAGCCAGTCAGACTCCTCGCACAAACCACAGGGGGCAAGCAGTGCTCCTCCAAGAACCTGGCCCCACCAGGGTGCTCAAGG
Celera SNP ID:            hCV2959983
SNP Position Genomic:     25876
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65190):
GCTTTCCCCTTTCCACTCGGCCTGGAGCAGCATCTGGCCTGTGGGTAGCAGGTGCACCCTCCTAGTGGCATGGGAGTGGGGGGCACCAGCATTTCAGACA
T
AGGCCTCAGGGATGTAGATGCTGCTCAGCTCCAGGGAATCTTTATTGACACCAATGCCAGAGCAGTCTTCTTTTCACTGCATGGAATGACATTCCAAGGT
Celera SNP ID:            hCV26308905
SNP Position Genomic:     67425
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65191):
CTCCCCCATGGCCCAGCATCCCTGAATTCCTCTCTCTTCTCTGGCTCAAGCAAAACCTCCTGGCTTGTACATCACCATAGCAGGCCCCAGGAATGCGAGG
R
ACCCTGTGTCAGGGCAGGGACCCCATCATCCAAGACAGTTGGCAGGGAGAGTGCAAGACCTGCCTGGTTTCTACAACCTTCCAAAGGAGGCAGCTCCCGA
Celera SNP ID:            hCV2959984
SNP Position Genomic:     25758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65192):
GAGTCCCTTGTCCAAGGTCACACAGGCGGTAAGGGCAGAGCCTGTCTGCCCAGCTGCGGCAACCCTAAGCCTCCTCTCCTTGTGTGGTCACCCTCCGGGG
K
CCGAGCTTCTTTTCCTCCATGCTCTCATCAGTGCCCCCATCTGCTTTCCCCTTTCCACTCGGCCTGGAGCAGCATCTGGCCTGTGGGTAGCAGGTGCACC
Celera SNP ID:            hCV26308906
SNP Position Genomic:     67282
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,5)   total(G,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65193):
CCGCCTCTGTGGGCCTCCTCTCTCTCCACAGCAGCGGGGAACTGGGGGACCCATCAGACTTGCTGACAAGAAATATGCCGTCCTAGAGAGAGAGAGACAG
V
GGGAGAAAGACAGAGTAAGGACAGGAAAGAGAAAGCAATGCGTGCCATCCTTCCTCCTCATGTTCAAGTTTATAAACATTGCTTAAGGTGGACTTTGAGG
Celera SNP ID:            hCV26308908
SNP Position Genomic:     66887
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,2|A,2|-,5)   total(G,2|A,2|C,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65194):
GTCAGGCCGCCTCTGTGGGCCTCCTCTCTCTCCACAGCAGCGGGGAACTGGGGGACCCATCAGACTTGCTGACAAGAAATATGCCGTCCTAGAGAGAGAG
M
GACAGAGGGAGAAAGACAGAGTAAGGACAGGAAAGAGAAAGCAATGCGTGCCATCCTTCCTCCTCATGTTCAAGTTTATAAACATTGCTTAAGGTGGACT
Celera SNP ID:            hCV26308909
SNP Position Genomic:     66881
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1|-,6)   total(A,1|C,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65195):
GCATTGTTTCTGTTACTGTTTTTTTCCTTGTATCTCAGGCTCTGAAATGGTTTGGAACCATGACTAAACCTGTATTTCTTTAAAACTTTGGGCCGGGCAC
R
GTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTCGAGGTGGGAGGATCCCTTGAGGCCAGGAGTTGGAGACCAGCCTGGGCAACATAACGAGAACT
Celera SNP ID:            hCV2959987
SNP Position Genomic:     21202
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65196):
TTTGCCATGCTGGACGTTGGGGGACTGTTTCAATCAAGAGACTTACATTTGTCAGTTCTGGAAAGCGTTTTTGCTTTATTTCTTTCAGATTTCTCCTTTC
Y
ACAATTCCTCATGGTTAGATGTCCATTTCTGGAAGTGATCCTTCAATTTTTTCTTCTCTCTTCTGCTGTGCGTCTCTTTTGCATTTTTTGTTGTTTATTT
Celera SNP ID:            hCV2959989
SNP Position Genomic:     20772
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65197):
TGTAAAGTGGGGAGAGCAGCGATGTCTGTCTGTGCACCTCAGGAAGTTGTAAGGGGAAATGAGATGGTGCAGCTCCAGGGAACCTGCAAGGCTGCGAGCT
M
ACGGAGTGCTCTGCACTCAGCACAGCCCCTGCACAGAGCAGGTGTCTGCACCGACATGCTGAAGGAGTCAACAAATGTGCTGCATGGTGGCGCTGTGCTC
Celera SNP ID:            hCV9270776
SNP Position Genomic:     65226
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,5)   total(A,5|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65198):
GAAGGATAAAGTGTCCTCCTTCCACACTCTAGCTTTCGGCAGGTTTCCCAGTGGTTGGGGGATCACAGCACGGAACATTTTAGGGAGAGGGTCCCTGAAG
K
TCAGTTGTGTGGCTCCTGGTAGGCCCAAGTGCCCCAGGGCCCTTATAAGAGACAGTCTTGGTTGGCTCTGTCGCTCAGGAGTGTGGGGTCCCCATGGGGG
Celera SNP ID:            hCV25760738
SNP Position Genomic:     89681
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65199):
GACCCTGTCTCGAACAAAACAAAACAAAACAAAAAAGAAAGAAATGTAAATGTTTCCCTTTGACTCTTTTAGAAACACAAATCAGGAAGCTCTCAGCAGG
R
GTGTGCTGGAGATCATGTATGCAGCTGGGTGAGAGGCAACTGAACATGTCTCTTCCTAACTCCATGTTCAGTAACTTTTTTGAAAGGGTAGCTGGAAGTC
Celera SNP ID:            hCV11619123
SNP Position Genomic:     64779
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65200):
TAAAACAAAGACTGTGTGGCTTTGGGCAAATAACGTCCCCTCTCCGATCTCACTTTTCTCCTTTGTAAAGTGGGGAGAGCAGCGATGTCTGTCTGTGCAC
Y
TCAGGAAGTTGTAAGGGGAAATGAGATGGTGCAGCTCCAGGGAACCTGCAAGGCTGCGAGCTAACGGAGTGCTCTGCACTCAGCACAGCCCCTGCACAGA
Celera SNP ID:            hCV11619124
SNP Position Genomic:     65163
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65201):
GGTCAGGCCGCCTCTGTGGGCCTCCTCTCTCTCCACAGCAGCGGGGAACTGGGGGACCCATCAGACTTGCTGACAAGAAATATGCCGTCCTAGAGAGAGA
S
AGACAGAGGGAGAAAGACAGAGTAAGGACAGGAAAGAGAAAGCAATGCGTGCCATCCTTCCTCCTCATGTTCAAGTTTATAAACATTGCTTAAGGTGGAC
Celera SNP ID:            hCV26308910
SNP Position Genomic:     66880
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65202):
CCCCTACCTGCACCCCAGCCCCCAGGCAGTTGTTAAATATTTATCTGCACTCACAACTTTGGTGACTTTCTGGAGCCACAGTGGCTTCCAGCCCTGAGGT
T
AAAAGTCTAGCCTCTGATTTTAAAACAAAGACTGTGTGGCTTTGGGCAAATAACGTCCCCTCTCCGATCTCACTTTTCTCCTTTGTAAAGTGGGGAGAGC
Celera SNP ID:            hCV26308911
SNP Position Genomic:     65042
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,6)   total(-,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65203):
TGAAATTGCAGTGACATGACCTTCTCTGGCTGTTTTTGTTTGCCATGCTGGACGTTGGGGGACTGTTTCAATCAAGAGACTTACATTTGTCAGTTCTGGA
W
AGCGTTTTTGCTTTATTTCTTTCAGATTTCTCCTTTCCACAATTCCTCATGGTTAGATGTCCATTTCTGGAAGTGATCCTTCAATTTTTTCTTCTCTCTT
Celera SNP ID:            hCV2959990
SNP Position Genomic:     20734
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65204):
TCTTTAGGAGACAAACACACAGTCATTCCATCTTTTGGATTTTGGCTTAATTTTATATATATATATATTTTAAGACGGAGTCTTTCTCTGTCGCCCAGGC
Y
GGAGTGCAATAGTGCAATTTCGGCTCACTGCAGCCTCTGCCTCCCGGGTTCCAGCGATTCCCCTACCTCAGCCACCCGGGTAGCTGGGATTACAGGCGCG
Celera SNP ID:            hCV26308912
SNP Position Genomic:     64090
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65205):
CCCTGTAACTCCAGCATTCTGAAATTGCAGTGACATGACCTTCTCTGGCTGTTTTTGTTTGCCATGCTGGACGTTGGGGGACTGTTTCAATCAAGAGACT
K
ACATTTGTCAGTTCTGGAAAGCGTTTTTGCTTTATTTCTTTCAGATTTCTCCTTTCCACAATTCCTCATGGTTAGATGTCCATTTCTGGAAGTGATCCTT
Celera SNP ID:            hCV2959991
SNP Position Genomic:     20715
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,7)   total(G,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65206):
CTTGCCACGGGGCCTCCTCTCTCAGACTTAGGGTTCTTTAGGAGACAAACACACAGTCATTCCATCTTTTGGATTTTGGCTTAATTTTATATATATATAT
W
TTTTAAGACGGAGTCTTTCTCTGTCGCCCAGGCCGGAGTGCAATAGTGCAATTTCGGCTCACTGCAGCCTCTGCCTCCCGGGTTCCAGCGATTCCCCTAC
Celera SNP ID:            hCV26308913
SNP Position Genomic:     64056
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4|A,4)   total(A,4|T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65207):
CAGCCTGGGAAAAAGAAGAAGACTCTGTCTCCGAAAAAATATAAAAGAAAGAAAATAAGATAATTCAGGGTGGTCAAACCTGTCAGTTCCTTTATCCCCC
Y
GAGAAACTTCTCTCCTGTCCTGCACTCCAATCCCGCCCAGCCACTCGCCTGCTGGTACCACGGGTGCCATCCTGGGGCCTCCCTTTCTGTTCGTCCTGGG
Celera SNP ID:            hCV2959992
SNP Position Genomic:     19849
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65208):
GGCATCACTCAGGGGCACCTGCAGCACAGGTGGCCTTGGTGCCACCTCTGGGCATGTGAATTACAAAAAGGTGCCCATCCTCCAATCTCTGTCAGATCCC
R
CTCGGGCTTGGCAAAGGGTCTTTCTTGTGTCAAAGGGTTGCATATGTGTGTGCATATGAGTATGTGCTCATGTGCAGGTGTGTGTGTGTCTTGGAGGGCT
Celera SNP ID:            hCV26308914
SNP Position Genomic:     63725
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65209):
CTGCGGCTGCTAAACATCTTACAGAGCACTGGACAGTTCCCGCATAACAATGAATTATCCAGTCCAACCAACAATCCAATTTAAAAACAGGAAAAAGACT
K
AAATAGACATTTCTCCAAAGAAGATATACAAATGGCCCACAAGCATATGAAAAGATGTTCGGCATCACTAATCATCAGGGAAATGCCAATTTATAAAAAC
Celera SNP ID:            hCV2959993
SNP Position Genomic:     15752
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65210):
GACAGGAGGACCAGGCTTTAAGGGATAACTTATCTGGAGAGTGCAGATGTCAGGTCAGGAACCCGAAGGCCTCATGGGCAGGCTGGAATGACATCTGCCT
Y
GGAACAGATGAAACTACTGGGATAAATATAAATCCTGGCATTTAAGTTTAGAATGAGTTGGGAGAGATGTGGTTTAGCAGCAGCTCACGAGGAAAAGATT
Celera SNP ID:            hCV525945
SNP Position Genomic:     22644
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65211):
ATGGGACTAATATTAGTGCTCACCTCCTAGGGTTGCCCTGCAGTAACAAATATGAAATGCCCAGCACTCTCCCATCACCACTCAGCAAATGCCAGCTTCC
M
TTCTCCTTCCTCCCACGCTCCCAAATGCTCCCCTGCAGGCTTTGTGCTTGGCTCTGCCCAGGAGTGATCCCCCTGCAAGTCGCCCCCTCCCTCCAGGGTG
Celera SNP ID:            hCV16199200
SNP Position Genomic:     42099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65212):
GTAAAGACGAGGTTTCGCTGTTTTGTCCAGGCTGGTCTCGAACTCCTGACCTCCCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCG
Y
GAGCCACCGCGTCCAGCCCAGATTTTCCTTTTCCATTAAATAGGGTACTCTTCCAGGGCAGGGACTATGACTCTCCCTCGGCCTGGGAGCTCCCTGAAAA
Celera SNP ID:            hCV26308915
SNP Position Genomic:     47913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65213):
CTCTCAGACGCTTGGTCTAACACATGTCCTCCGTGTTGAAGCTGGGTTTCTCTTCCTTGCCCCCGAAGGTATCTGCCTTGTTGGCTTTACTTCCTCAGAG
R
AGAAATTGAGGAATCCAGAGACACCTTCCTGTGTCCAGGATGTCCCAGGTTTGGGAATGCTGTCTGTGGGCTTGGATTCCCAGAGGAGGCAGCTGGTTCC
Celera SNP ID:            hCV16199201
SNP Position Genomic:     41155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65214):
AGCAGAGAACTCCGAGCAACGGGCCAGGAAGATGCATTCCCAGGAAGCTCACGCTTTGCAGTCTTAGCTGAGGCGGCAAGAGACACGTCAGCATCTGTTT
K
GGCTTCACAACTGCAGAGCGTGGCTTCTGTCCCGGGCACTCATTTCAGACGCCCGGAGGTTTGGGGAAAGCTCTCGCTGTGCGGGGCCCAGGAAGCAGGC
Celera SNP ID:            hCV26308916
SNP Position Genomic:     42837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65215):
TTGCATTCTCAGTTGGAGTGCCTCTGGCTGTCACGAATGGATTGCAGATGGCATGTGATATGAAACCTATTTGCCATCCTAGACAGTATCTAGGTAGTGA
Y
AGGAGTAAAACAGTAAAAAATTACCCCTCCCTCAATGGGGCAAGGGGGGGTTAATTTTATTCCCCAGGGGATATTTGGCAATGTTTGGAGACGTTTTTCA
Celera SNP ID:            hCV2959994
SNP Position Genomic:     15488
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65216):
AGCCAGCTGCATGATGGAAACCTGGGGACTGGGGCTGGGGCTCTGGGGGTCCTGCGGGCTATTTCTTGGGCCTGACTACCATTGAGGGGCTTGTGCTCCC
Y
TTTCAAGTGGTTTCCCAGACACAAGCAGAGTCCAGGGGAGGGCAGCTGGGGTGGTGAAGAGGCTTGCACTCTTGTCCCTGGAGGAATGGTAGAAGGCGTT
Celera SNP ID:            hCV525946
SNP Position Genomic:     22917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65217):
TCATGTGATTACCTATGTCCAATCAGTCTGAGGAAGCACAGGGTCATGTAGGAGACTGTGATGGGTGTAGTCAACTCAGCAGGGCCTACGGGTCTGGGGG
Y
AAACGTCATTGGGATGGGGATGGAGCATCCTAAAACATGTCTGGTACAAGGATATTATTTAAAATATAATGTCACACCTGAAATTTTAGTTAGCAGGGCT
Celera SNP ID:            hCV26308917
SNP Position Genomic:     39148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65218):
TGGGTGCTCTGTGTATATGATTTTGTTAAAGTGTCAAACCTACCAAGTTTATGTTTTATCAGCCCCATCTCACAGATGAGGAAACTGAGTCTTAGAGAGT
R
TGTGTAATTTGTCCAATGTTGTAGTTAGTAGGTGGTAGATTCAGGGTTCAGTGTCTAGCTTGTCTGATTCCAAACCTGTGTTGTTTTACTGCTCTGATAC
Celera SNP ID:            hCV2959995
SNP Position Genomic:     11897
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65219):
TGAGACAGGGTCTCACTCTGTTGTTCAGGCTGGAGTGCAGTGGTGTGATCATAGCTCACTGCTGCCTCAACTTCCTGGGCTCAAGTGATCCTCCTGCCTC
T
GCTTCCTGAGTAGCTGGGACTGCAGGCATGCACCACCACATCTGGCTAATTTTTTAAAATTTATTATTAATAATAAATTAAATTTTATAATACCTTTTTT
Celera SNP ID:            hCV2959996
SNP Position Genomic:     10973
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65220):
CTGAGGCAGGACAATCACTTGAACCCGGGAGGTTGCAGGGAGCCGAGATTGTGCTATTGCACTCCACCCTGGGCAACAGGAGCAAAACTCTGTCTCAAAA
A
AAAAAAAAAAAAAAAAATTAGCTGGGTGTGGTGGCATATGCCTGTGATCCCAGCTACTCAAGAGGCTGAGGCGGAAGGATCACTTGAGCCCTGGAGGTCG
Celera SNP ID:            hCV26308919
SNP Position Genomic:     37017
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65221):
TTACCATCAAAAGCTGCTTTTGATATCATGAAATGTGACAGAAGCGGTCCATGAAACTGCATGATCAGCAGAACTGTGACTGTGAAATTAACATACATAT
R
AAAAAACACTAGAAGAAAATAGGCCAGCATGGGACCAGATGAGGGATGGGGAAGGCCTGTTTTTGTTTTTGTCTGTCCTTGTCCTAATTCTCTGTGGCTA
Celera SNP ID:            hCV525949
SNP Position Genomic:     32154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65222):
CTCCCCAGATTCACCCCTTAACCCACTCCAGCTGCCGTCCCCTCCGATCGACAGATAACTAACTGGCTTCTTCTCATTCAGGTCTTAATCAGCTCAAGGG
R
ACCCTCCTCAGAGAGCCCCACCTCATGGCTCTGTGTAGAGTAGCAACAACCCCAACCCTTTCCTCTGTCTGATTTTCTTCATAGCCCTTACCAAATGATT
Celera SNP ID:            hCV2959999
SNP Position Genomic:     9727
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65223):
TGACAATGTCTTGCTCTGTTGCCCAGGCTGGAATGCAGTGGCATGATCATGGCTTACTGCAGCTTTGATCCCTTGGGATCAGGCAATCCTCCTGCCCCAG
Y
CTCACAAGTAGCTGGGACTACAGGTGCATGCCACCATGCCCAGCTAATTTTTGCATTTTTTTTTTTGTAGACTTGGGGGGAGGGTCTCACTATGTTGCCC
Celera SNP ID:            hCV27500820
SNP Position Genomic:     40151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65224):
AGGGAACCAGGGTCTCTGCCTCTTTTGCCTACTGATACCTGCTTTTAAGGCTAAAATTGAGGGGCAGGTGCAGTGGCTCCTTCCTAAGATCCTAGCACTT
K
GAGAAACCAAGGCAAGATTACTTGAGCACAGGAGTTTGAGACTAGCCTGGGCAACAGAGTGAGACCCCGTCTCTACAAAAATTTAAAAAATTAGCCCAGC
Celera SNP ID:            hCV95502
SNP Position Genomic:     88419
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65225):
CATCCTGGCTGGAATTTACATCAATGGCCACCCCACATCCAATGCTGCGCTCTTCTTCATCGAGGTCCGTGTCATCTGTGGCCACAGGGCTCCTGTCTGC
Y
TCTGCGTCGGCGTCTCCTGGGCCATTCGGTCCCTGCCTCTCCCCTTCTCCCTCTCCCCTGCCACATACCTGAGAAAACTTCATCCACCCCATCCTGGCAC
Celera SNP ID:            hCV27493401
SNP Position Genomic:     87963
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,86|T,1411)   total(C,86|T,1411) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65226):
CTAAAAACCCTGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCA
K
GCCTGGCTGGGCTGCCTGCCTTTCAAAATTGAAGAAAACCAACCCCAAGTCATGGTTCCTGGGTGGGTATCGTGGCCTAGAGAGAAGTATCAGAGCACCT
Celera SNP ID:            hCV11619130
SNP Position Genomic:     69106
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65227):
TCCAGCAGCGCCAACATCATTGTCCCAGGCTGCTGGGTGCACTTACTGCCTTCAGTGCAGCAGGCTGACCTGTCAGACTGTCCGGGAAGAGGCCTCGATG
Y
CCTCTGCCTGTGATATGCTCCTGACAACAGGCTCTGCCTCTGTTTCAGAATCTCGGCGAAGGAGCATCTTTGAATACCACCGCATAGAGCTGGACCCCAG
Celera SNP ID:            hCV11619131
SNP Position Genomic:     70022
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,31|T,7)   total(C,67|T,9)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65228):
CTAGAGTGCAGTGGTGTGATCTCGGCTCACTGCAATCTCTATCTCCCAGGTTCACGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCA
Y
CCGCCACCATGCCCGGCTAATTTTTGTATTTTTAATAGAAATAGGGTTTCACTCTGTCGGCCAGGCTGGTTTTGAACTCCTGACCTCAAGTGATCCACCC
Celera SNP ID:            hCV11619133
SNP Position Genomic:     71045
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65229):
GAGTCTTTCCCATACATTCTATGAGGGTACAGGCTCTAACAGGGAGATTGAATGAAGGGACCCAGCACTCCAGCCAGAGGGGCCTGCCTGGGCAGGCAGA
R
GTAGAAAGCAGCAGGGCAGGAGGAGTGGGAGACATGGGGCCTGGATTTAAGAGCCGTTCACTTGCAGTCAAACGCTACTCACTTAAATGAACCAGATGAC
Celera SNP ID:            hCV11619207
SNP Position Genomic:     83793
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65230):
GCTGAGGCAGGACAATCACTTGAACCCGGGAGGTTGCAGGGAGCCGAGATTGTGCTATTGCACTCCACCCTGGGCAACAGGAGCAAAACTCTGTCTCAAA
A
AAAAAAAAAAAAAAAAAATTAGCTGGGTGTGGTGGCATATGCCTGTGATCCCAGCTACTCAAGAGGCTGAGGCGGAAGGATCACTTGAGCCCTGGAGGTC
Celera SNP ID:            hCV26308920
SNP Position Genomic:     37016
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65231):
GGCTGAGGCAGGACAATCACTTGAACCCGGGAGGTTGCAGGGAGCCGAGATTGTGCTATTGCACTCCACCCTGGGCAACAGGAGCAAAACTCTGTCTCAA
A
AAAAAAAAAAAAAAAAAAATTAGCTGGGTGTGGTGGCATATGCCTGTGATCCCAGCTACTCAAGAGGCTGAGGCGGAAGGATCACTTGAGCCCTGGAGGT
Celera SNP ID:            hCV26308921
SNP Position Genomic:     37015
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65232):
AGGCTGAGGCAGGACAATCACTTGAACCCGGGAGGTTGCAGGGAGCCGAGATTGTGCTATTGCACTCCACCCTGGGCAACAGGAGCAAAACTCTGTCTCA
A
AAAAAAAAAAAAAAAAAAAATTAGCTGGGTGTGGTGGCATATGCCTGTGATCCCAGCTACTCAAGAGGCTGAGGCGGAAGGATCACTTGAGCCCTGGAGG
Celera SNP ID:            hCV26308922
SNP Position Genomic:     37014
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65233):
GAGGCTGAGGCAGGACAATCACTTGAACCCGGGAGGTTGCAGGGAGCCGAGATTGTGCTATTGCACTCCACCCTGGGCAACAGGAGCAAAACTCTGTCTC
A
AAAAAAAAAAAAAAAAAAAAATTAGCTGGGTGTGGTGGCATATGCCTGTGATCCCAGCTACTCAAGAGGCTGAGGCGGAAGGATCACTTGAGCCCTGGAG
Celera SNP ID:            hCV26308923
SNP Position Genomic:     37013
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65234):
ATGATGCACCTGCTAAGCCTCTGGTCCTCTGGCTTTTGAGGAAGGCAGTCATTCTGGGAGTGAGAAGGGTGGTTCCAGGCATCTCCTCTTTAGAATCCCA
Y
CCAGGTTCCTTCTCACTGCAAGAATTTTCCAGTACACTCAACACTGATTCTAGGTGGAAAGCATCCTATTCTCACACCATAGACTAACATAGATGGGTCT
Celera SNP ID:            hCV11619139
SNP Position Genomic:     79117
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65235):
CCTGACTTCAAGTGATCCGCCTACCTCGGCCTCCCAAAGTGCTGGGATTTCAGGCGTGAGTCACTGCACCCAGTCCCCCCCCCCTTTTTTTTTTTTTTTT
T
GACAGAGTCTTGAACTGTCAACCAGGCTAGAATGCAGTGGCGTGATCTCAGCTCACGACAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGTGTCAAC
Celera SNP ID:            hCV26308924
SNP Position Genomic:     35698
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,11)   total(T,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65236):
CGGCGTGGCTCGTGTAACCCTCACTGAGCTCCTTTGTAATGTCAAGTCATCCTGGTCAGAGCTTCTACAATGGGCTGTGAATTGTGTGAATTCCTTGGGA
R
GGTTCACTGCCAGGCAAGGTCTCCGCATCCTTTTTAAGAGGCACATCAATATGGATTATAGTGACCATACCCTGGGATAGACTGGCCTGGTGTTGGGGGC
Celera SNP ID:            hCV16199210
SNP Position Genomic:     35157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65237):
CCGGCTGGTCTCAAACTCCTGACTTCAAGTGATCCGCCTACCTCGGCCTCCCAAAGTGCTGGGATTTCAGGCGTGAGTCACTGCACCCAGTCCCCCCCCC
C
TTTTTTTTTTTTTTTTTGACAGAGTCTTGAACTGTCAACCAGGCTAGAATGCAGTGGCGTGATCTCAGCTCACGACAACCTCCACCTCCTGGGTTCAAGT
Celera SNP ID:            hCV26308925
SNP Position Genomic:     35681
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,11)   total(C,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65238):
TAGTAGGGATGGGATTTTGCCATGTTGACCAGGCCGGTCTTGAACTCTTGGCCTCAAGTGATCCACCTGTCTTGGCCTCCCAAAGTGCTGGGATTACAGG
Y
GTGCACCACCGCATCTGGCATGAGTATCTGTTTTTTTCTCTCTTTTGAGATGGAGTCTTGCTCTGTTGCCTAGACTGGAGTGCAGTGGCACAATCTCGGC
Celera SNP ID:            hCV26308926
SNP Position Genomic:     28699
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65239):
AATGTGACAGAAGCGGTCCATGAAACTGCATGATCAGCAGAACTGTGACTGTGAAATTAACATACATATGAAAAAACACTAGAAGAAAATAGGCCAGCAT
R
GGACCAGATGAGGGATGGGGAAGGCCTGTTTTTGTTTTTGTCTGTCCTTGTCCTAATTCTCTGTGGCTATATGGTCTATATTTACCCTATCACAATCCCT
Celera SNP ID:            hCV16199211
SNP Position Genomic:     32185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65240):
CCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTGTGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGGGATGGGATTTTGCCATGTTGACCAGGC
Y
GGTCTTGAACTCTTGGCCTCAAGTGATCCACCTGTCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGCACCACCGCATCTGGCATGAGTATCTGTTTT
Celera SNP ID:            hCV26308927
SNP Position Genomic:     28633
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65241):
AACATTTAGATTTGAGGAGGTGCCCCTCCCTTTCACCCCCCTTACCTCCCAATCTCCCCCATGGCCCAGCATCCCTGAATTCCTCTCTCTTCTCTGGCTC
R
AGCAAAACCTCCTGGCTTGTACATCACCATAGCAGGCCCCAGGAATGCGAGGGACCCTGTGTCAGGGCAGGGACCCCATCATCCAAGACAGTTGGCAGGG
Celera SNP ID:            hCV16199212
SNP Position Genomic:     25705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65242):
CTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCT
Y
TCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGTAGTGGCGCAATCTCAGCTCACTGCA
Celera SNP ID:            hCV26308928
SNP Position Genomic:     28101
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,6)   total(C,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65243):
TTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTCCCTCTCTCTCTCT
T
TCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGTAGTGGCGCAATCTCAGC
Celera SNP ID:            hCV26308929
SNP Position Genomic:     28093
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65244):
CACTTAACCTCTCTGTTATTTCCATTACCTCAGTCATGCACAAAAGGGGTTGAGCTTCCAGCTCTGTGGAAAATACTCTCTCCCCCGGGACGTATTTCAA
R
TGCCTAGGATGTTCTCAGAGGGTGACTGTTGGCTTATTAGCTTCCAGAGGACCTAGATCATCCCATAGACTTTCTTTGAGCTTCTCTGACGGGCCTGCCA
Celera SNP ID:            hCV11619211
SNP Position Genomic:     86682
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65245):
CTGGGACTACAGGCGCGTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAAGGTTTCACCATGTTGGCCAGGCTGGTCTTGAAATCCTGAC
Y
TCAGGTGACCTGCCTGCCTCGGCCTCCTAAAGTGCTGGGATTACAGGGGTGAGCCACTGCGGCCAGCCCCTGCCAGTTTTTCTAAGAGCTGAGGACACAG
Celera SNP ID:            hCV11619212
SNP Position Genomic:     87018
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,14)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65246):
ATCTGTTTGCAGAGGCACTCAAAACACACAGGACAGTGTATCCGCTATGTGGCTGGGGAGACCGCCGGAAGTCAATATTATTTCCTCTGTTCATTTGCTT
M
AGAAACTCTTTATTTCATGGTTAGTATAAAAGCAACTTTAGCATTGCCAACATCGAAACTGACAGGGATTCTGAATTAGTGGGATCAGTTAGTGAGGATT
Celera SNP ID:            hCV11625702
SNP Position Genomic:     60975
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,7)      total(A,3|C,7) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65247):
AGTCCTAGGTCTCCACTTGGTGTATTGCTGAACCTTTCAGCTGTGAGTTCTGCAGACCACACAGTGAAGGATAAAGTGTCCTCCTTCCACACTCTAGCTT
Y
CGGCAGGTTTCCCAGTGGTTGGGGGATCACAGCACGGAACATTTTAGGGAGAGGGTCCCTGAAGGTCAGTTGTGTGGCTCCTGGTAGGCCCAAGTGCCCC
Celera SNP ID:            hCV11619215
SNP Position Genomic:     89616
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65248):
CTCATGCAGTCCTGCTAGCCCCTACACCTACTCACATGGGCAGATGTGGCCTTGGTCCTGGGGAGCTGGGTGGGAAGGAAGGCAGGGATGCCACAAATAC
Y
TTCATCTTCCGGGGAAGTAGAGGGAATGGGAGTGCCTGACTACCTCAGCCTGGGGACCTTGGCTCCTCTTCTCACTATCAGCAGAGAGCTGTTACTGAAC
Celera SNP ID:            hCV27537393
SNP Position Genomic:     78453
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   Caucasian(C,68)   African-American(C,74)   Asians(T,1|C,73)   total(C,215|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65249):
AGCACGGAACATTTTAGGGAGAGGGTCCCTGAAGGTCAGTTGTGTGGCTCCTGGTAGGCCCAAGTGCCCCAGGGCCCTTATAAGAGACAGTCTTGGTTGG
Y
TCTGTCGCTCAGGAGTGTGGGGTCCCCATGGGGGCGGGGGCATGCCCACTGACTTTGCCTCTGTGCCTTCTGCAGCGTAGACCTCACCACTGGCCAGCCA
Celera SNP ID:            hCV11619216
SNP Position Genomic:     89747
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,29|T,7)   total(C,58|T,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65250):
CTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTCCCTCTCTCTCTC
T
TTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGTAGTGGCGCAATCTCAG
Celera SNP ID:            hCV26308930
SNP Position Genomic:     28092
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65251):
TTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTCCCTCTCTCT
C
TCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGTAGTGGCGCAATCT
Celera SNP ID:            hCV26308931
SNP Position Genomic:     28089
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65252):
CTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTCCCTCTCT
C
TCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGTAGTGGCGCAAT
Celera SNP ID:            hCV26308932
SNP Position Genomic:     28087
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65253):
TTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTC
C
CTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGTAGTG
Celera SNP ID:            hCV26308933
SNP Position Genomic:     28080
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65254):
CTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTCT
C
CCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGTAGT
Celera SNP ID:            hCV26308934
SNP Position Genomic:     28079
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,5)   total(C,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65255):
CTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTTCT
T
TCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTG
Celera SNP ID:            hCV26308935
SNP Position Genomic:     28075
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65256):
TCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTTC
T
TTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGT
Celera SNP ID:            hCV26308936
SNP Position Genomic:     28074
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65257):
AAAGTGGGGAGAGCAGCGATGTCTGTCTGTGCACCTCAGGAAGTTGTAAGGGGAAATGAGATGGTGCAGCTCCAGGGAACCTGCAAGGCTGCGAGCTAAC
R
GAGTGCTCTGCACTCAGCACAGCCCCTGCACAGAGCAGGTGTCTGCACCGACATGCTGAAGGAGTCAACAAATGTGCTGCATGGTGGCGCTGTGCTCTTG
Celera SNP ID:            hCV34044
SNP Position Genomic:     65229
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65258):
CTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTT
T
TCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTGG
Celera SNP ID:            hCV26308937
SNP Position Genomic:     28071
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65259):
ACAGAGCAGGTGTCTGCACCGACATGCTGAAGGAGTCAACAAATGTGCTGCATGGTGGCGCTGTGCTCTTGTAGTTTTCTCGTTTAAGTAGATGTTTTCC
R
TCTACTTAATGGCTAGGCTTGGTAAATTGTAAAGAGATGTGGCCTGTGTGGTGGCTCATGTCTAGAACCTCAGCGCTTTGGGAGGCTGAGGCAGGCAGAT
Celera SNP ID:            hCV34045
SNP Position Genomic:     65359
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65260):
AAAGGGGAGGTCTTGGCAAAGGTTCTCTTCCTTTGAGGATTTCAAAATTCTACTCCAATGTTTACTTGGTTCCATGGTTCAGGTTTAGAGCCAGAGTTTG
R
GGGAAATCAAGCATAAGAACATTTAGATTTGAGGAGGTGCCCCTCCCTTTCACCCCCCTTACCTCCCAATCTCCCCCATGGCCCAGCATCCCTGAATTCC
Celera SNP ID:            hCV16199222
SNP Position Genomic:     25587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65261):
TCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCT
T
TTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCTG
Celera SNP ID:            hCV26308938
SNP Position Genomic:     28070
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65262):
TTTCTCGTTTAAGTAGATGTTTTCCGTCTACTTAATGGCTAGGCTTGGTAAATTGTAAAGAGATGTGGCCTGTGTGGTGGCTCATGTCTAGAACCTCAGC
R
CTTTGGGAGGCTGAGGCAGGCAGATTGCTTGAGCCCGGGAGTTGGAGACCAGCCTGGGTAGTACAGGGAGACCCATCTCTACTAAAAATACAAAAATTAG
Celera SNP ID:            hCV34046
SNP Position Genomic:     65434
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65263):
ACAGGACTCTTGTCCAGACTCAAGATTTCCGGAGATTTTCCACCAAGACCAATTCTGAGGCCCTGGGGACACTGGGCGTTTCGGGGACGGGAGCAGGAGA
R
CTGGGGAAGCCATAGTGCTGAGTCAAGAGATCCTGGGATGTGCTGAGTCAGAGATCCTGGGATGTGCTGAGTCAGAGACCCTGGGATGTGCCACAATTTA
Celera SNP ID:            hCV16199223
SNP Position Genomic:     25370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65264):
CTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTC
T
TTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGGCT
Celera SNP ID:            hCV26308939
SNP Position Genomic:     28069
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65265):
CACCACCACGCCTGGCTAATTTTTTAAATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGACTGGTTGCAAACTCCTGACCTCAAGTGATCCACCT
R
CCTCGGCCTCCCAAAATGCTGAGATTACAGGTGTACAGCCAACTTGACTTCTTAACTCCCTTGCTCTCTCAACCTGATATGTCTGAGTCTCTGCAGCTGT
Celera SNP ID:            hCV34047
SNP Position Genomic:     66044
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65266):
ACAGTGGAAACAGGACTCTTGTCCAGACTCAAGATTTCCGGAGATTTTCCACCAAGACCAATTCTGAGGCCCTGGGGACACTGGGCGTTTCGGGGACGGG
R
GCAGGAGAACTGGGGAAGCCATAGTGCTGAGTCAAGAGATCCTGGGATGTGCTGAGTCAGAGATCCTGGGATGTGCTGAGTCAGAGACCCTGGGATGTGC
Celera SNP ID:            hCV16199224
SNP Position Genomic:     25361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65267):
CACCCACTCTGTCCAGCTGCTTTCCTGAGGAGGAGCAAGTTCCCTGATCTGCCTGGGATGGAAGGAAGGGAGGGAGACGTGGGAGGAGGCCTGGATCTCA
Y
TCTAAACCATCCGGCTCCAGTGCAGGAGTCGGGCGAAGGAAGGAGCTGCAGGGCTGGAGCTGTCATCCTCCTGGTAGGAAAGGAAGACCAAGGCTAAAGT
Celera SNP ID:            hCV34048
SNP Position Genomic:     66317
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,5)      total(C,2|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65268):
TCAGTTGTCAAAATATTGAAATACTTGCATTCTTGTTGGCAAATTGCTGCTGATTTGAGCCCCCTCGTACCTCCCACGACCCCTCCTGCCCTCCCCTTAG
S
CCCCTGCGCTCCCAGTCCTCTATCAAGTATTACAGCCTGGGCTCCAGGACCTGGCTCCATGGCTGCAGGCAGCATCTGCTCTGACTGGTTGGTAAACGCC
Celera SNP ID:            hCV28034264
SNP Position Genomic:     56932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65269):
GAACTCGTGAGCTCAAGTGATCCACCCACCTGGGTCTCCCAAAGTACCAGCATTACAGGCCTGAGCCTCCACGCCCGATCTAATTTAATTTTTTAATTGA
M
AAATAATTGTACATATTCATGGGGTACATAGTAATGTTTCAATACATATAATGTATAGTGATCAGATCAGGGTAATTTGCACATTCATAATCTCAAACAC
Celera SNP ID:            hCV158280
SNP Position Genomic:     38353
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,8)   total(A,2|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65270):
ACATTGTCCCTTCTTACAAGCTCTCTGGAGCCTCAGCTGCAACTGAGAGCTGAACCTAGGTCCCTAAAAACCCGGAGGGCAGGGCCAGCTGACATGGTCT
S
TCTGCCAACAGCTGCAGTCAGTCCCTGCATGGTTCTCTGCTCCCCTCCCCTCCACCCACTTTGCCTTTCACAGCCTCCCAGAGCTTTTCTCCTTGCTCTT
Celera SNP ID:            hCV29062052
SNP Position Genomic:     77200
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65271):
GAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATCCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCAGTCTCA
R
TAAGTAAATAAATAATGAGATACTATGTGAACCATGGACAAAGCTCCTCTAGGTTCCTTACATAGGAGGGGATGTGGGGGTGGGGCACCCAGCAGTGGCA
Celera SNP ID:            hCV29062053
SNP Position Genomic:     67959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65272):
GGGGACCACCTGGACTCCTCATCCCACCCACTCTGTCCAGCTGCTTTCCTGAGGAGGAGCAAGTTCCCTGATCTGCCTGGGATGGAAGGAAGGGAGGGAG
R
CGTGGGAGGAGGCCTGGATCTCATTCTAAACCATCCGGCTCCAGTGCAGGAGTCGGGCGAAGGAAGGAGCTGCAGGGCTGGAGCTGTCATCCTCCTGGTA
Celera SNP ID:            hCV29062054
SNP Position Genomic:     66293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65273):
TTTTGCTGCTTCTACTTGGGACTAATTCAGCTCTCAGCATAACTAGGGTGGTCCCGGCTTATGGTTCTGGGAGCAAATGGCTCTGGTGGCTTGAGGGCAA
M
GCGCCCACTGCTAAGCGGCAAATAAGGAATCCCTCCTCCCTGGTCAGCATTTGGGTGGGTTATAGTCTTGATCCATGGGCCCGTTGGCTGGTGGCTGTAC
Celera SNP ID:            hCV2558824
SNP Position Genomic:     56143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65274):
GCTGCACCCATGCTTGGGGCACATCCCCAACTCTGCCCCCCAGCCCGGATGGTGGGGAAACCCATCCCCAGAGCCTGGTGTGAAGTTTCTAGGAGACTTG
S
CTTCCCTGGCTGCCACTTGTGTCTCTATCCTCGAACTCAGTTCCCTTGAAAAGTCTGAGTCTCTATCTGTGCCCCACCCTGAGTCCCTTTGTCCCTCCCA
Celera SNP ID:            hCV29062055
SNP Position Genomic:     62718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65275):
TGCTTCAGAAACTCTTTATTTCATGGTTAGTATAAAAGCAACTTTAGCATTGCCAACATCGAAACTGACAGGGATTCTGAATTAGTGGGATCAGTTAGTG
R
GGATTTTCTTACAAAGAGCTCCAGAATGTAGCCTGCCCCTTGGCTGGCCCCGAATGGCCTTGGACGGCCCCAACATGCTGATCCTCCTCCTTTACCGGAA
Celera SNP ID:            hCV29062056
SNP Position Genomic:     61070
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65276):
CCTCCCCCAGGTTCTAAACACTTTCCTCCCCACCCCTGCTAGGCAAGGGGATGGGAGGTGCAATGGGGAGGACTCTTCACAGCCTCACTCCTGGGGGAGA
R
GGTAGAAGAGGCTGAAAACCACAAGAGTTCTTACCAGTACTTCCTCGTATAAACTCTTCCGCAGGCTTTTCAGCAGAGTCTGCAAAGCATCTTTGGTGAA
Celera SNP ID:            hCV29062057
SNP Position Genomic:     60748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65277):
AGACTGACCCACTCCCATTCCACCCAGGGGAATCTTTTCCTCCTCAGCTCCCCCAAACACCCACAGAGTGGGGTGTGCAAACTCCCCAGGCTGCTTCTTG
R
GACTGTTCTTGGTGTCTGTGCCTTATTTCCTTCCCTATCCTGCATCCCATGTACATTACTGAGCCCACTGTCGGGGCAGGGATGTGTCTGTTTCATCTGC
Celera SNP ID:            hCV29062058
SNP Position Genomic:     58281
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65278):
GCATCAAGGGCTTTACCCCAACCTGCAGCCCAGCCTTCCCTGGGTGAGCTTGCTATGCGCAGCCACATTTACCATGTGGGGCTCCCTATTCTGATGGCCT
R
TTCGGTGCCGGGTTTACTCACTGCCCTGTTCTGATGTCAGTGCCTGTACATACCTCCAAAGGCAGGACTTGCCTGATAAATATTTTTCCTCCTCTGAACT
Celera SNP ID:            hCV11619222
SNP Position Genomic:     91552
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:65279):
CTAATAGGAGTCTGATTCTCAGGAGGGGGGTCAGTGGACGTCAGAGCATCTCCCTTGCATTAGCTGACCTGCTCATGTGCCTGCACGTGTGTGTCTCCTC
R
GGCCAGCACGAGTCAGTGTGGACAGCCCTGTGTCCCGGAGTTGCTGAATAAGAGGGAGAGGGAGACTCCACTGAGAGCTTGGGCTCCTGGGGCCAGGCTC
Celera SNP ID:            hCV29062059
SNP Position Genomic:     49111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65280):
CTTTACCCCAACCTGCAGCCCAGCCTTCCCTGGGTGAGCTTGCTATGCGCAGCCACATTTACCATGTGGGGCTCCCTATTCTGATGGCCTGTTCGGTGCC
R
GGTTTACTCACTGCCCTGTTCTGATGTCAGTGCCTGTACATACCTCCAAAGGCAGGACTTGCCTGATAAATATTTTTCCTCCTCTGAACTGGATTTTATA
Celera SNP ID:            hCV11619223
SNP Position Genomic:     91562
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:65281):
ACTTGAACTCCTGGGCTCAAGGATCCTCCCACCTCAACCTACTAAGTGCTGCAGGTACATGCCATTGTGCCTGGTTTATAAGAAAAAACATTTTTAATGA
Y
GACTTCCCCCCACATGCCCAACTTGCAAGGCATCTTGGCAGGAGAGTTTGAGTCACTCTCCTGCCTGTGTGGTTACAGCCCACACAGGGAGACTTGCAGA
Celera SNP ID:            hCV431514
SNP Position Genomic:     83577
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65282):
AATTGAATATACTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGGCATGCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGTTTCACC
R
TGTTGGCCAGGCTGGTCTTGAACTCCGGACATCAGGTGATCCGCCCTGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCTGGCC
Celera SNP ID:            hCV11625713
SNP Position Genomic:     41858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65283):
AGTGCTGCAGGTACATGCCATTGTGCCTGGTTTATAAGAAAAAACATTTTTAATGATGACTTCCCCCCACATGCCCAACTTGCAAGGCATCTTGGCAGGA
S
AGTTTGAGTCACTCTCCTGCCTGTGTGGTTACAGCCCACACAGGGAGACTTGCAGAGGCAGGTGTGGGATAGAGTCTTTCCCATACATTCTATGAGGGTA
Celera SNP ID:            hCV431515
SNP Position Genomic:     83621
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65284):
GACTTTTTTTGAGACAGGGTCTCACTGTGTCGCCCAGGGCAAGGATGCCCAAAGACACCAGGTTGGAGAGGCACCTGCCAACTACTTGCTTTCCCTGGAG
M
CTGCATGTGCCTGTGGGGTGGGGAGGCGTAGGGGTCTACGGCTGCCTGAGATGGGTGTGCACAGTGTGTGAAGTACCTACCTCCTTGCCTTGCTGGACTG
Celera SNP ID:            hCV11619228
SNP Position Genomic:     91888
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,8)   total(A,3|C,8) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:65285):
CTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTT
T
CTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAGG
Celera SNP ID:            hCV26308940
SNP Position Genomic:     28067
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65286):
TCTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCT
T
TCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCAG
Celera SNP ID:            hCV26308941
SNP Position Genomic:     28066
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65287):
TTCTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTC
T
TTCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCCCA
Celera SNP ID:            hCV26308942
SNP Position Genomic:     28065
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65288):
CTTTCTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTT
T
CTTTCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGCC
Celera SNP ID:            hCV26308943
SNP Position Genomic:     28063
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65289):
TCTTTCTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCT
T
TCTTTCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCGC
Celera SNP ID:            hCV26308944
SNP Position Genomic:     28062
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65290):
GTGGGTGTCTGTGATGAGCATGTGTAAGTGTGAGTGTGCCTGTGGCTGTGTGTGTAGGTGCCTGCGGCTGGGAGTGATGAGGGTGGATTCTTAGGACGCA
M
GAAGCAACAAGAGGACCTTCTTCTCAGTATAGATTTATTTTATATTTTAATAACTATTTTCTTAAATTAGTATGTGCTGACAGTTAAAAAAAAAAAAGGT
Celera SNP ID:            hCV525974
SNP Position Genomic:     18920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65291):
TTCTTTCTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTC
T
TTCTTTCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTGTCG
Celera SNP ID:            hCV26308945
SNP Position Genomic:     28061
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65292):
TCCTGGAGACAACCTCCTTGGCCTGGGGCAGTTCTGGGGTGCTGGCACAGGGAGGAGAGGCCTGGAGGGAGTGCTCTTCTCTCAGGGTTTCCGGGAGGCT
S
TTGGAAGCCTCGGTGTGTCTGGGGGTGAATCTATTAATATAATTGTGCGTTTCTGGGAATGGGTGTGTGTGTCATGGACGCTGGGTTCGCACCTGTGTCA
Celera SNP ID:            hCV525975
SNP Position Genomic:     18668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   SC_12_C(G,2|C,14)   SC_12_AA(G,7|C,8)   total(G,9|C,22)JBIC-allele(G,170|C,1305)   total(G,170|C,1305)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65293):
TTTTTCTTTCTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCT
T
TCTTTCTTTCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCTG
Celera SNP ID:            hCV26308946
SNP Position Genomic:     28058
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65294):
CTTTTTCTTTCTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTC
T
TTCTTTCTTTCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCTTGCTCT
Celera SNP ID:            hCV26308947
SNP Position Genomic:     28057
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65295):
TTCTTTCTTTTTCTTTCTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTT
T
CTTTCTTTCTTTCTTTCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGAGTCT
Celera SNP ID:            hCV26308948
SNP Position Genomic:     28051
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65296):
CTCTTTCTTTCTTTTTCTTTCTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTT
C
TTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTTTCTTTCTTTCTGACAGA
Celera SNP ID:            hCV26308949
SNP Position Genomic:     28047
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,5)   total(C,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65297):
TGGGACCCTCTGCTCTGGGGCCATATCAAGGGACTGAGGGCTGGCGGGTGGGCTGCCATGCCTTTTGCCTCCCCCTACACAAACCCCAGTGCCCCATCAC
M
TTCCTCCATCGTTCCTCAGTAACCCTCCTGGCTGCGGACCTCCCCTCTGGCTCAGCCCCCTTGACTCAGCTCCTCCATCCAGACCCTCTGCCCAGCTGCC
Celera SNP ID:            hCV16199234
SNP Position Genomic:     24945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65298):
AGTTTGATTTGGTCTGTCTCACAGAGTTTTCTTGGGTTTCAACAGGAACACTTCCTCTGTTCATCTGGTATCACAGCTGGGTTTGGCCAACAGCAACCAG
R
CTCTGGGACCCTCTGCTCTGGGGCCATATCAAGGGACTGAGGGCTGGCGGGTGGGCTGCCATGCCTTTTGCCTCCCCCTACACAAACCCCAGTGCCCCAT
Celera SNP ID:            hCV16199235
SNP Position Genomic:     24841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65299):
CCCCTTTCAAGTGGTTTCCCAGACACAAGCAGAGTCCAGGGGAGGGCAGCTGGGGTGGTGAAGAGGCTTGCACTCTTGTCCCTGGAGGAATGGTAGAAGG
Y
GTTTGGGGTATTTAGCCTGGTACAGAGAAGGTTCTAGATGTGGTTGTTTTCTTTCTTTCTTTTCTTTTCTTTGTTTTTTCTTTTTTTTTTTTTTTTTTAG
Celera SNP ID:            hCV16199236
SNP Position Genomic:     23014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65300):
AGCTGCCCAGCTCCTGCCTCCTTACCTTTGCAAACTTCCCCATCATCCCGAAGGGACCCAACCTGTGGCCGCTGCCCTCCGACTGGCATTTCTGTAGGGC
M
CTGCTCCTTGCATGATCTCCCGTCCAGCCGGGTCTCTGTTCTTCTCCCCAGGGACAGTCTTTGTGGTTCAGTGGGACCACGTTTATCTCCAAGGCTGGGA
Celera SNP ID:            hCV16199163
SNP Position Genomic:     50215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65301):
ACCGGAGCCAAGTGAAGATCCACACAATACTCTCCAACACCCACCGGCAGGCTTCGGTGAGTGCCCCAGTCGCCAGCCATGCTTCCCTGTGCTGGGAGGC
Y
GGGGGCCAAACCACCCTGCCTGGTCAGTGGGCATGGCTGTGGCCCGAGGTCTGTGACCTGGGAGGTACCTTCCAGGGATTCCCATGGGACTTTGCCAGAG
Celera SNP ID:            hCV16199164
SNP Position Genomic:     48589
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65302):
ATGAAAGAAAGGGAAGGGAAAAGGGTGTGTCCCGGGTTTCCGGCCTGCATGGAGTGCCATTCACCGAGACAGAGGAAAGAAGAAAATGTGCTTGGAGGTG
R
TGTGGAGAGGACTTGGAATTTGGGTGGGGTCCCACTGGGCTTCCAATGTCTTGGAGTCCTCCAGGAGGTGGTGCCATCCAGAAAGATGGGTCTGGAGCTC
Celera SNP ID:            hCV11418343
SNP Position Genomic:     51671
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,18)   caucasian(A,36|G,2)   total(A,54|G,20)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65303):
AGGCACATTTGGCTCTAATAGGAGTCTGATTCTCAGGAGGGGGGTCAGTGGACGTCAGAGCATCTCCCTTGCATTAGCTGACCTGCTCATGTGCCTGCAC
R
TGTGTGTCTCCTCGGGCCAGCACGAGTCAGTGTGGACAGCCCTGTGTCCCGGAGTTGCTGAATAAGAGGGAGAGGGAGACTCCACTGAGAGCTTGGGCTC
Celera SNP ID:            hCV29062060
SNP Position Genomic:     49097
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65304):
TATGGCCCCAGCGAGCCCCACAGCCGGGAACTGTGGGTAGATGTGGCCGAGGCCAACCGGAGCCAAGTGAAGATCCACACAATACTCTCCAACACCCACC
R
GCAGGCTTCGGTGAGTGCCCCAGTCGCCAGCCATGCTTCCCTGTGCTGGGAGGCCGGGGGCCAAACCACCCTGCCTGGTCAGTGGGCATGGCTGTGGCCC
Celera SNP ID:            hCV29062061
SNP Position Genomic:     48534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65305):
ACAGACAGATTTGAGAGCCACTTAGCAGGTTAAGCAACAGAATTCGGAGATGCATTAGATGGGGAAGGGAAGAAATGAAAGAAAGGGAAGGGAAAAGGGT
R
TGTCCCGGGTTTCCGGCCTGCATGGAGTGCCATTCACCGAGACAGAGGAAAGAAGAAAATGTGCTTGGAGGTGGTGTGGAGAGGACTTGGAATTTGGGTG
Celera SNP ID:            hCV11418345
SNP Position Genomic:     51597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65306):
TAATTTGTGGTCATTCTTTGCTCAACAAATCCTCCATTGAACACATACTCTGTGCTTAAACACGATAAATAAAGGCTGACCTTACTCTTGGGGTCTTACG
R
TCTTACAGGAAAGGCAGACATGAAGATGTGTATAAAATCCAAGTAAATTGTCACAAGTGTGCAAAACACCAGGAGAAAGAAGCACAGGGTGTGATGGGAA
Celera SNP ID:            hCV11418346
SNP Position Genomic:     43246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65307):
CTGAAATAAGGGATGGTGGAGGCCACTTGCAGGGGGTGGAGGTCCTCATTGGGGAGGTAGGGGTGAAAGGCTGATAAGAAGGCAGGGTTTGGCTAGGCGC
R
GTGGCTCACACCTGTAATCCCAGCACCTTGGGAGGCCCAGGTGGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTAAAACCCC
Celera SNP ID:            hCV29062062
SNP Position Genomic:     46218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65308):
TATAATTTGTGGTCATTCTTTGCTCAACAAATCCTCCATTGAACACATACTCTGTGCTTAAACACGATAAATAAAGGCTGACCTTACTCTTGGGGTCTTA
Y
GATCTTACAGGAAAGGCAGACATGAAGATGTGTATAAAATCCAAGTAAATTGTCACAAGTGTGCAAAACACCAGGAGAAAGAAGCACAGGGTGTGATGGG
Celera SNP ID:            hCV11418347
SNP Position Genomic:     43244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65309):
GAAGCAGGCTGGGAGGCAGCCATCGGACTCTTCCTTTGTGCAGATCTCTCTGCACAGAGTGCCACGCACGGAGCTTTGTTTCTTGATGGGTGATTTTTTT
W
AAAATTGAGATAGGGGTCTCCAGCAGAGATGGGTGGAAATAGGAGAGACAGACACCAAGGAAAAACATGAAGCATTAGTTCTCCTGGAGGATGGGGAAAG
Celera SNP ID:            hCV29062063
SNP Position Genomic:     45714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65310):
CATGTCTCTCTTTAGCTATCTGGAACAGAGAGGTGAAGTTGCCTATTCAGGATCACACAGCCAGTAAGTGGCAAAACCAGGACAAGAACCCAGGTCTTTG
S
CTTCAGAGCCTAAGCTCTTTCTCACAATTTAACTTAATTTAATTAAAAACTTTTTTGAGATAGGGTCTTGCTCTGTTGCCCAGGCTGGAACACAGTGGCG
Celera SNP ID:            hCV29062064
SNP Position Genomic:     33142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65311):
GAAGCACACGTGTTCATTCAGTGGTCGGGGAGAGGTGTGCTGTGCCTGTCTTGCTTCCATGAGCCAGGGCTAGTTGCCACTGTCTGCCATCCCGTCACTA
M
AAGATGCCTAGCCTTACAATGAAGCCCACACTGAAAGTGGCAGAGAAGAAAGACTGAAAGAGCTTGGTCTTGGTCATTGAGCCACATTCCCCGTCAACCC
Celera SNP ID:            hCV2558837
SNP Position Genomic:     40642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65312):
CAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTATGGATGCCCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCG
R
CATGTTGGCCAGGCTGGTCTCGAATTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTAGGATTATAGGTGTGAGCCACCACGCCCGGC
Celera SNP ID:            hCV29062067
SNP Position Genomic:     14772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65313):
CTGCTGGGCTGTACCCTGCATGCTGGGGGACACAGTCTCCCAGGGAAGCTCTCAGGTTCAGGCCCAATGGCAGCCTGAGTAGGGCCCTCCAAGAACCTAG
M
CCACATGCCAGCCCCACCCCGGGGCTGCCCCTGCACCCTGGGAAACAGTGGGGATTGTCGGTCACTTTTTACTGCACTTTCTGTGGTTCTGAGTAGGCTC
Celera SNP ID:            hCV29062068
SNP Position Genomic:     12545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65314):
CCTTTCTTTCTTTCTTTCTCTTTCTTTCTTTTTCTTTCTCTCTTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTT
T
CTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTCCCTCTCTCTCTCTTTCTTTCTTTCTCTCTCTCTCTCTTTCTTTCTTTTCTT
Celera SNP ID:            hCV26308950
SNP Position Genomic:     28030
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65315):
CGTGGAATAATGAAGGATCTTTTATAATTGCCTTTCCTTTTCATATTTGTTAGGGTCTTTATGGGTAACTGATACTTTAAAAAAATCAAGGTAAACAGGA
S
AGAGTTGGATATGTTATGAATAATTTCTGGGCTCCTTTGAATCCTCAACCTGGTGTGATCTTCTGAACTCTGGGTGTAACAGAGTTTATGAGGGGAGGAT
Celera SNP ID:            hCV2956904
SNP Position Genomic:     7819
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,9)      total(G,9|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65316):
TTTTGGCTGTTGTGAATAGTGCTGCTGTGAACATGTGTAAATGTACTTAAATTTCTTTCCCTTTCTTTCTTTCTTTCTCTTTCTTTCTTTTTCTTTCTCT
C
TTTCTTTCTTTCTTGCTTTTCTTTCCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCCTTTCTTTCTTTCTTTCTTTCTTTTCTTTCTTTCTTTCTTTCTTT
Celera SNP ID:            hCV26308951
SNP Position Genomic:     27971
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65317):
AGGATCTGAACCTTTGGCTGGATTGTGTGAACCACGGAGAGGGCTGGGGAAGGGGGAATTGGGAGGTAACAAGGATGGGCTGGGAGATAGTGGCCAGACC
Y
GGGCCTGGCTGAGGGCGGCCCCTTCAGAGTAGGGTTGGGGTAGTAGACGGTTGAGGAGACCAGGAAGAGTGGGGCAGGCAGAGACTTGAATCACTTCTCT
Celera SNP ID:            hCV2956905
SNP Position Genomic:     8015
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,9)      total(C,9|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65318):
TATGTCTGGTTTCTTTCACTTAGCATAATATTTTCAAGGTTTATCCATTTTATGGCTGAATAATATTTAATCGTATGAATGTACCATAATTCGTTTATCC
R
TTTATTTATTGATAGACATTTAGGCTGTTTCTACCTTTTGGCTGTTGTGAATAGTGCTGCTGTGAACATGTGTAAATGTACTTAAATTTCTTTCCCTTTC
Celera SNP ID:            hCV26308952
SNP Position Genomic:     27835
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65319):
CTGGATTGTGTGAACCACGGAGAGGGCTGGGGAAGGGGGAATTGGGAGGTAACAAGGATGGGCTGGGAGATAGTGGCCAGACCCGGGCCTGGCTGAGGGC
R
GCCCCTTCAGAGTAGGGTTGGGGTAGTAGACGGTTGAGGAGACCAGGAAGAGTGGGGCAGGCAGAGACTTGAATCACTTCTCTAAGTAGAGGCTATCCTG
Celera SNP ID:            hCV2956906
SNP Position Genomic:     8032
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,11)      total(G,11|A,4) ;no_pop(G,-|A,-)   JBIC-allele(A,160|G,1327)   total(G,1327|A,160) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65320):
TTTTCTTGGGTTTCAACAGGAACACTTCCTCTGTTCATCTGGTATCACAGCTGGGTTTGGCCAACAGCAACCAGGCTCTGGGACCCTCTGCTCTGGGGCC
Y
TATCAAGGGACTGAGGGCTGGCGGGTGGGCTGCCATGCCTTTTGCCTCCCCCTACACAAACCCCAGTGCCCCATCACCTTCCTCCATCGTTCCTCAGTAA
Celera SNP ID:            hCV26308953
SNP Position Genomic:     24867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65321):
GTTTTCTTGGGTTTCAACAGGAACACTTCCTCTGTTCATCTGGTATCACAGCTGGGTTTGGCCAACAGCAACCAGGCTCTGGGACCCTCTGCTCTGGGGC
Y
ATATCAAGGGACTGAGGGCTGGCGGGTGGGCTGCCATGCCTTTTGCCTCCCCCTACACAAACCCCAGTGCCCCATCACCTTCCTCCATCGTTCCTCAGTA
Celera SNP ID:            hCV26308954
SNP Position Genomic:     24866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65322):
AGAGAAGAAATTGAGGAATCCAGAGACACCTTCCTGTGTCCAGGATGTCCCAGGTTTGGGAATGCTGTCTGTGGGCTTGGATTCCCAGAGGAGGCAGCTG
K
TTCCTCCACAAGTGGCTTTTGTGTCACCTGCCACTGGAGATGGGGGAGGATGCTGTCCTTGTCAGAGCCACACTGCACATTCTCAGCACAGTCTTGACAC
Celera SNP ID:            hCV2956909
SNP Position Genomic:     41251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65323):
TTCACCATGTTGGCCAGGCTGGTCTCAGAATCCTGACCTCAGGTGATCTACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGGGAGCCACCATGC
R
TGGCCAGGAACTTCCGATCTATAAGATTTCAAACCAATTTTATAATTGGTGACCCGCTCGATTGTCAGAACATGAGGCTTCCACCATCTCAGGGGCTTTG
Celera SNP ID:            hCV26308955
SNP Position Genomic:     22340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65324):
TGTTTCAAGTTCCCCATGTGTTCCTGGCGAAGTTGCAGAGATTTAAAAATGTGATTCTGATGGTCATGTAGGTGTGGGAACTTTTTTTTTTTTTTTTTTT
K
AGACGGAGTGTTGCTCAGTTGCCCAGGCTGGAATGAGTGGTGTAATCTCTCGGTTTACTGAAGCCTCTGGCTCCGAGGTTCAAGTGTTTCTCCTGCCTCA
Celera SNP ID:            hCV26308956
SNP Position Genomic:     22063
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,8)   total(G,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65325):
TGCTTTATTTCTTTCAGATTTCTCCTTTCCACAATTCCTCATGGTTAGATGTCCATTTCTGGAAGTGATCCTTCAATTTTTTCTTCTCTCTTCTGCTGTG
Y
GTCTCTTTTGCATTTTTTGTTGTTTATTTGTTAGTGTGCTTGTTGTTCTTCTTTCTGGAGGATTTTCTCAATCTTATTTTCATAATGTCACTGATTTTTT
Celera SNP ID:            hCV26308957
SNP Position Genomic:     20843
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65326):
ACGGGTGGATCGCTTGAGCTCAGGAGTTCCAGAATAGCCTAAGCAACATAGTGAGACCCACGTCTCTAAAAAATTAAAACAAAAATTATCTGGATGTGGT
K
GTTTGCCCCTGTAGTCCCAGCTACTTGGGAGGCTAAGGCTGGAGGATTGCTTGAGCCTGGGCGGTCAAGGCTGTGCTGAGCTGTGACCTCACCAGCCTGG
Celera SNP ID:            hCV26308958
SNP Position Genomic:     19656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65327):
TGTGCATCCCCTGCCAGCTAAGGAATGGGTCTCATTTCCATGTTTTGTGTAGTGGTTCCCAACAGAAAACATTCATTAGAGTAAAAAGTGAAGACAGTTA
G
GGCTCTATGTCCTTCCAGTCCTGGAAGAGGTGGCAAAGATTCTGAAGTTACATCTATAAGAGAAAAAACTTTTTGGAGGGTGGAACAGGATCTTGCTATG
Celera SNP ID:            hCV26308889
SNP Position Genomic:     83363
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,6)   total(G,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65328):
CTGGCCAGGAACTTCCGATCTATAAGATTTCAAACCAATTTTATAATTGGTGACCCGCTCGATTGTCAGAACATGAGGCTTCCACCATCTCAGGGGCTTT
R
TGATCCCCTCTGCAGCTACACATCGAGGGTCCACACAGGAGCAAGGCCACCTGGAAGGAGGTCCCTCTGACAGCCATAGGGCTTGTCCCCGGCTCTGCCT
Celera SNP ID:            hCV16199246
SNP Position Genomic:     22440
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65329):
AAGGGGCAGAAACAGAGGGAGCTGCTTTCCCGAGGGAGGCTAAGAGCTCTGGGCAGAAGCAGTGGCTTCAGTGCCTGTGGGCAGAGCTGGAGAGCAGTGC
R
TCCCCCTCTGGGTACCCTCCCGAGACTCCAGGGCTGGTGGCTGTGGCAGCAATGGGAAGCAGCATCCTTAGCCCTCACCCCAGGGGCCGTGGCATCAGGG
Celera SNP ID:            hCV16199174
SNP Position Genomic:     45912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65330):
GGTGCAGCTCCTGGAGACAACCTCCTTGGCCTGGGGCAGTTCTGGGGTGCTGGCACAGGGAGGAGAGGCCTGGAGGGAGTGCTCTTCTCTCAGGGTTTCC
R
GGAGGCTCTTGGAAGCCTCGGTGTGTCTGGGGGTGAATCTATTAATATAATTGTGCGTTTCTGGGAATGGGTGTGTGTGTCATGGACGCTGGGTTCGCAC
Celera SNP ID:            hCV16199247
SNP Position Genomic:     18660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65331):
AGGATATGTGCGAAGTGCTTGGCCTGGAGCTGGGCACGTGACTCTCAGTACACATTGGGTGTCTCCTGTCCTGGTAGTCAGTCAAGTGTCTGCAAATTCT
R
CAGTGGCATGGTGTTGGGGCCCTTGCAGAATAACTGGGCTGGATTCCCCTCCTGATCTTCATTCCGGACTGCTGGCACTCAGGTTTCTGTCCCCTTCTCC
Celera SNP ID:            hCV16199248
SNP Position Genomic:     17804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65332):
GCAGCAGCTCGTTTCATTTCTGACTTTCCTTGAGTCAGAATAGATGGAAGTTTTCTGTCAGTTAAGAGGTGCCATTGCAGGGGTCATCGGGAACTCCAAG
M
ATGAGTCCAGGGATCATCCAGGTGTCAGAGCTGAGGCACGTGACACAGGGCCTGGTTTCTCTGCAGAACAGCACTAGTTTGGATCAGACTGCTTGTCTTT
Celera SNP ID:            hCV11418355
SNP Position Genomic:     42629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65333):
TCTCTGATTGGTCCAGCTCACAGCCGATACCCAGGCCTGGAACAATCACAGCGTGGCCAGAGAGGCAGGATCATGGAAGAAGATGGCAGCTGTGGTTCAG
Y
CCACCTGTAGGAATGGGCCAGGCACAGTACCCCAAGGGGAATGCTGCTGTTTCCAGAAGACGAAAGGGTGTTGGGCGGACCAAACACTGAGTGGTTCTTT
Celera SNP ID:            hCV483973
SNP Position Genomic:     68564
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65334):
GGGAAGTAGACTGGTTTAACCAATCTGGCACGCCCTGGCCCTTGTAATAATCGGGGGCCACATCAGACTGAAGGGAAGATCTTGTGTTCCACTCTTGGTG
Y
GAGGTTTCTCCTTTTGAACCCGACAAGGAAGCATGCTGCCTCAGTGGCTATAGGCAGCCCTCTTTGGACCAGGAGGCAGTCACACTTAGGACAATGTCCT
Celera SNP ID:            hCV11418356
SNP Position Genomic:     40913
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   JBIC-allele(T,539|C,926)   total(C,926|T,539)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65335):
GCCTGAGCCTCCACGCCCGATCTAATTTAATTTTTTAATTGACAAATAATTGTACATATTCATGGGGTACATAGTAATGTTTCAATACATATAATGTATA
R
TGATCAGATCAGGGTAATTTGCACATTCATAATCTCAAACACGTACCCTTGCTTTGTGGTGGGCTCATTCACACTCTTGCTGTCTGTACCAGTGAAGGAC
Celera SNP ID:            hCV2558843
SNP Position Genomic:     38411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65336):
GATGTCAGGCCTTTGCTCACCCAGCTTCCATTCCCCATTCCTAGCGGAGCCATGATCCCCAGTTCCTGGGGGAAGTAGACTGGTTTAACCAATCTGGCAC
R
CCCTGGCCCTTGTAATAATCGGGGGCCACATCAGACTGAAGGGAAGATCTTGTGTTCCACTCTTGGTGCGAGGTTTCTCCTTTTGAACCCGACAAGGAAG
Celera SNP ID:            hCV11418357
SNP Position Genomic:     40844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65337):
GCCCAGGCTGGGGTGCAGTGGTGCGATCTTGGCTCACTGCAGCTTCAACTTCCCAGGCTCAAACGATTCTCCTGCCTCAGACTCTGAATAGCTCGGACTA
Y
GGGAGCACGCCATCACCCCTGGCCAGTTTTGGTATTTTTTGTAGAGATGGTGGTTTCAACATGTTGCCCAGGCTGGTCTCGAACTCGTGAGCTCAAGTGA
Celera SNP ID:            hCV2558844
SNP Position Genomic:     38172
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,6)      total(C,5|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65338):
CATATGCCTGTGATCCCAGCTACTCAAGAGGCTGAGGCGGAAGGATCACTTGAGCCCTGGAGGTCGAGGACTGAGGCTGCAGTGAGCCATGATCAGGCAA
S
AGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAAAAACCTAAAATAAATAAAAATAGAAAACTTGGAGTCAGTGGAAAAGAATGTTTAAGATAAAGAAGTT
Celera SNP ID:            hCV2558845
SNP Position Genomic:     37152
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,9)   total(G,9|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65339):
CACATTCCCCGTCAACCCTGATGTCAGGCCTTTGCTCACCCAGCTTCCATTCCCCATTCCTAGCGGAGCCATGATCCCCAGTTCCTGGGGGAAGTAGACT
R
GTTTAACCAATCTGGCACGCCCTGGCCCTTGTAATAATCGGGGGCCACATCAGACTGAAGGGAAGATCTTGTGTTCCACTCTTGGTGCGAGGTTTCTCCT
Celera SNP ID:            hCV11418358
SNP Position Genomic:     40825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(A,219|G,1256)   total(G,1256|A,219) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65340):
GACTCGATCTCCTGACCTCGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTTTGAGCCACTGTGCCCAGCCTCTTTTTTTTTTTTTTT
T
GAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAATGGCATGATCTTGGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCAATTCTTGTGCCTCA
Celera SNP ID:            hCV2558848
SNP Position Genomic:     28437
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,8)   total(-,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65341):
AAGTGGCAGAGAAGAAAGACTGAAAGAGCTTGGTCTTGGTCATTGAGCCACATTCCCCGTCAACCCTGATGTCAGGCCTTTGCTCACCCAGCTTCCATTC
Y
CCATTCCTAGCGGAGCCATGATCCCCAGTTCCTGGGGGAAGTAGACTGGTTTAACCAATCTGGCACGCCCTGGCCCTTGTAATAATCGGGGGCCACATCA
Celera SNP ID:            hCV27485281
SNP Position Genomic:     40777
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,260|C,1237)   total(C,1237|T,260) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65342):
GATTCAGCTCATTTGGCAAGCAGATGCTGAACACCCACCAGATGCCAGGTGCCAACCCCTGCGCTAGGGAGGTGCTGGGGGCGGAGATGAATGTGCCACC
R
TCCCTGAGCTCCAGCCTCCAGACAGTGGTCCTTCTGATTGAGAGTTTAACCAATGACTGGTAGGTAGCCTAAGTCACCTTCCCGGAGAGCTGTTGCTTAA
Celera SNP ID:            hCV2956910
SNP Position Genomic:     41473
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65343):
AGATGAATGTGCCACCGTCCCTGAGCTCCAGCCTCCAGACAGTGGTCCTTCTGATTGAGAGTTTAACCAATGACTGGTAGGTAGCCTAAGTCACCTTCCC
R
GAGAGCTGTTGCTTAAAGATCTCAGAGACAGTGGATAGAGGAAAGGTCACTGTCTTTGAGTGGAACTGACCTGGTTTCATACAGTTACATTATTTCTTTT
Celera SNP ID:            hCV2956912
SNP Position Genomic:     41557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65344):
GCACCTGTTTAGCATCTGCAGCTGTCCTGCTTTGTTTGGTAAAATGATCCTATCCTGGACTTCAGAATATGTAGTGGTACCTGTAAAACAGGCAGCTATA
M
TTTGTGGTCATTCTTTGCTCAACAAATCCTCCATTGAACACATACTCTGTGCTTAAACACGATAAATAAAGGCTGACCTTACTCTTGGGGTCTTACGATC
Celera SNP ID:            hCV2956913
SNP Position Genomic:     43148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65345):
CTACGGCCGTGGCAGGTGGTCCCAGGTGAACCATAACCAGCTTCAGAGTTGGAGTCCTACAGACTATCAGATGTACAGTGTTGGGCAGGGCCCCCTATAT
K
TTTTTTGCTTGGAAGTGGAATAAAAACTGCTCACCTGTGAATCCAGGAAGCAGGCTGGGAGGCAGCCATCGGACTCTTCCTTTGTGCAGATCTCTCTGCA
Celera SNP ID:            hCV2956914
SNP Position Genomic:     45567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65346):
TATCAGATGTACAGTGTTGGGCAGGGCCCCCTATATGTTTTTTGCTTGGAAGTGGAATAAAAACTGCTCACCTGTGAATCCAGGAAGCAGGCTGGGAGGC
R
GCCATCGGACTCTTCCTTTGTGCAGATCTCTCTGCACAGAGTGCCACGCACGGAGCTTTGTTTCTTGATGGGTGATTTTTTTAAAAATTGAGATAGGGGT
Celera SNP ID:            hCV2956915
SNP Position Genomic:     45631
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65347):
AAAGGAAGTCAATTCTGCCATATGCTACGACATGAATGAACCTTGAATTTATTATGCTAAGTGAAATAAGCCAATCACAAAAAGACAAATATAGTATGAT
K
CCATTTATATGAGATACTTAGAGTAGTCAAAATCATAGATACAGGCTGCGCGCTGTGGCTCATATCTGTAATCCCAGCACCTTGGGAGCCAAGGCAGGAA
Celera SNP ID:            hCV26308961
SNP Position Genomic:     16353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65348):
AGGCTGGAGTACAGTGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTATGG
R
TGCCCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCGAATTCCTGACCTCAGGTGATCCA
Celera SNP ID:            hCV26308962
SNP Position Genomic:     14717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65349):
GGGAAGCAGCATCCTTAGCCCTCACCCCAGGGGCCGTGGCATCAGGGCAGCCCCCCTACCAGGTGGCTTTGTGAGTAAAACCAAGAATCCAACAAGAGTG
R
CCCCATGTAACTCTTGCAAATAGTACACATGAGTCACCCCTTGAGGACTCCCTGAAATAAGGGATGGTGGAGGCCACTTGCAGGGGGTGGAGGTCCTCAT
Celera SNP ID:            hCV2956917
SNP Position Genomic:     46066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65350):
GTGTGCATCCCCTGCCAGCTAAGGAATGGGTCTCATTTCCATGTTTTGTGTAGTGGTTCCCAACAGAAAACATTCATTAGAGTAAAAAGTGAAGACAGTT
A
GGGCTCTATGTCCTTCCAGTCCTGGAAGAGGTGGCAAAGATTCTGAAGTTACATCTATAAGAGAAAAAACTTTTTGGAGGGTGGAACAGGATCTTGCTAT
Celera SNP ID:            hCV26308890
SNP Position Genomic:     83362
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65351):
GTTCGAGACCAGCCTGCCCAATATGGTGAAACCCTGTCTCTACTAAAAACACAAGAAAATTAGCTGGGCGTGGTGGTACATGCCTGTAATCCCAGCTACT
Y
GGGAGGCTGAGGCAGGAGAATTGCTTGAATCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTACACTCCAGCCTGGGTGACAGAGCGAGACT
Celera SNP ID:            hCV26308963
SNP Position Genomic:     10649
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65352):
TGTGTGCATCCCCTGCCAGCTAAGGAATGGGTCTCATTTCCATGTTTTGTGTAGTGGTTCCCAACAGAAAACATTCATTAGAGTAAAAAGTGAAGACAGT
T
AGGGCTCTATGTCCTTCCAGTCCTGGAAGAGGTGGCAAAGATTCTGAAGTTACATCTATAAGAGAAAAAACTTTTTGGAGGGTGGAACAGGATCTTGCTA
Celera SNP ID:            hCV26308891
SNP Position Genomic:     83361
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65353):
AGACCAGGAGTTTGAGACCAGCCTGGGCAAAATAGTGAGACCCCATGTCTATAAATGATTTAGGCCAGGCAGGGTGGCTCATGCCTGTAATCCCAGCACT
Y
TGGGAGGCCGAGGCCGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAATATACAAAAATTAGTA
Celera SNP ID:            hCV26308964
SNP Position Genomic:     9034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65354):
TGGGCTGTCTGGAGGCAGGAAGGGAGGGCAGTGGCAGAGGGAATAGCCCCCGACACCAACCAACCATGCTTCTTCCGCTCATCGTCCCCCAGCCTGCCCC
R
ACCCCAGGTCTCCAGATTGTGTCGCTTATCGTAAGAGCAGAGTGCCTTCTGGCAGGTGAGGAGTGCAGGAACCCCTTGTCCCTGCTCACGCTGCGCCCAG
Celera SNP ID:            hCV2956919
SNP Position Genomic:     46960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(A,463|G,1034)   total(G,1034|A,463) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65355):
CCAGCCATGAAGTTTCGCAGCCACCCTGACCATTCCACCTATGCGGAGGTGGAGCCCTCGGGCCATGAGAAGGAGGGCTTCATGGAGGCTGAGCAGTGCT
R
AGAACACCAAGTCTCCCCTTTGAAGACTTTGAGGCCACAGAAAAGACAGTTAAAGCAAAGAAGAGAAGTGACTTTTCCTGGCCTCTCCCAGCATGCCCTG
Celera SNP ID:            hCV25752195
SNP Position Genomic:     89941
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 UTR 3


Context             (SEQ ID NO:65356):
CTGTGTGCATCCCCTGCCAGCTAAGGAATGGGTCTCATTTCCATGTTTTGTGTAGTGGTTCCCAACAGAAAACATTCATTAGAGTAAAAAGTGAAGACAG
T
TAGGGCTCTATGTCCTTCCAGTCCTGGAAGAGGTGGCAAAGATTCTGAAGTTACATCTATAAGAGAAAAAACTTTTTGGAGGGTGGAACAGGATCTTGCT
Celera SNP ID:            hCV26308892
SNP Position Genomic:     83360
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65357):
TCCCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGCACACCACCACACCCAGCT
W
ATTTTTGTATTTTTAGTAGAGACTGGGTTTTGCCATGTTGGCCAGGCTGGACTTAAACTCCTGACCTCATGTGATCCACCCACCTTGGCTTCCCAAAGTC
Celera SNP ID:            hCV26308893
SNP Position Genomic:     81852
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65358):
GAAGGAAAGGAAAGAAGAAAAAAGTTAACATTTTAAAACATTATTCAGCCACGTTTTTCTTCCCCCTCTAGCCCTATGTTAGGATTTTTTTTTTTTTTTT
T
GAGACAGGGTCTCACTCTTGCTCAGGCTGGAGTGCACTGGAGTGATCATGGCTCACCACAGCCCGCAACTCCTGGGCTCAAGCAATCCTCCAACCTCAGC
Celera SNP ID:            hCV26308894
SNP Position Genomic:     81272
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65359):
AGGATTAGCTCCAGAAATGGGGGTCATAAACCCATACCAAAGGCTCAATCTTTGAAAGAATCAGTTAGCACAGTCTAAAAGAAACTATTTTTTTTTTTTT
T
AAGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCCATCATAGCTCACTATAGCCTTAAATTCCTGGGCTCAAGCAATCCTCCTGCCT
Celera SNP ID:            hCV26308895
SNP Position Genomic:     77502
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65360):
GAAAATGTGCTTGGAGGTGGTGTGGAGAGGACTTGGAATTTGGGTGGGGTCCCACTGGGCTTCCAATGTCTTGGAGTCCTCCAGGAGGTGGTGCCATCCA
S
AAAGATGGGTCTGGAGCTCACAGGGGAGGGCTGGGTGGGCCCCAGAGCGTTTGGGAGGTGGACGGAGTCTCTTCTCCCTGCCGCAGATCCCTATGTCTGT
Celera SNP ID:            hCV25758586
SNP Position Genomic:     51752
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,34)   caucasian(G,38)   total(C,2|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:65361):
CAGGATTAGCTCCAGAAATGGGGGTCATAAACCCATACCAAAGGCTCAATCTTTGAAAGAATCAGTTAGCACAGTCTAAAAGAAACTATTTTTTTTTTTT
T
TAAGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCCATCATAGCTCACTATAGCCTTAAATTCCTGGGCTCAAGCAATCCTCCTGCC
Celera SNP ID:            hCV26308896
SNP Position Genomic:     77501
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65362):
GGGTTCTGGCCATTCTCCTGCCTAAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCAACCACGCCTGGCTAATTTTTTGTATTTTTTTTTTTTTTTTT
T
AGTAGAGATGAGGTTTCACCGTGTTAGCCAGGACAGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTACTGGGATTACAGGCGT
Celera SNP ID:            hCV26308897
SNP Position Genomic:     76327
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65363):
GGCTGGAGTGCAGTGGCGCGATCTCGGTTCACTGCAAGCTCCGCCTCCCGGGTTCTGGCCATTCTCCTGCCTAAGCCTCCCGAGTAGCTGGGACTACAGG
Y
GCCTGCAACCACGCCTGGCTAATTTTTTGTATTTTTTTTTTTTTTTTTTAGTAGAGATGAGGTTTCACCGTGTTAGCCAGGACAGTCTCGATCTCCTGAC
Celera SNP ID:            hCV26308898
SNP Position Genomic:     76278
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65364):
TGAACTCCTGGGTTCAAGTGATCTGCCCTCCTCGGCCTCCCAAAATGCTGGGATTACAGGTGTGAGCCACTGCACCCAGGCTATCAAGATATCAAGAAGC
R
TTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGTTCACTGCAAGCTCCGCCTCCCGGGTTCTGGCCA
Celera SNP ID:            hCV26308899
SNP Position Genomic:     76138
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,6)   total(G,6|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65365):
TGATCAGGGCTTCTTGCACACATTTCAAGGAAACATCATTCCATTTGGTGGACTTGCCAAGCGGCGTGGCTCGTGTAACCCTCACTGAGCTCCTTTGTAA
Y
GTCAAGTCATCCTGGTCAGAGCTTCTACAATGGGCTGTGAATTGTGTGAATTCCTTGGGAAGGTTCACTGCCAGGCAAGGTCTCCGCATCCTTTTTAAGA
Celera SNP ID:            hCV11418361
SNP Position Genomic:     35096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65366):
CAAGCGTACAGTGAGCTGTGATTGTGCCACTGCACTCCAGCCTGCATGCTAGAGTGAGACCCTGTCTCAAAAAAAGCATGCATTTAACAACCTAGAGGGA
R
CTGGAGAGGAGATCATGGAACCTAAAGCCATTTCGCAACCTCCAGAAATGGAGGTTCGCATGGCCGCGAAATGGCCTGTGTGTAGTCACTTTCCAATCCT
Celera SNP ID:            hCV16199258
SNP Position Genomic:     15223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65367):
ATTGAGCTTCTATGAAAGATTTGTTGGAAGAAATGATTTCAGGACCAAAAATGTTTGAAATCCATATCACACTGCCTCCCAAAACAAATGTGGATTATTG
M
TCAGGGCTTCTTGCACACATTTCAAGGAAACATCATTCCATTTGGTGGACTTGCCAAGCGGCGTGGCTCGTGTAACCCTCACTGAGCTCCTTTGTAATGT
Celera SNP ID:            hCV11418362
SNP Position Genomic:     34998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65368):
CAAATCTACCAGGGAGATAGGCACATAGTCGCACACGTAGGTGCTCTAGGAGAGGGAGAGCCACATCCAGGAGCTCTGGGGAGTGGGCTGGGGGAAGGCA
K
AGGTTGAGACAGGTATCTGACACAGGGTGGGCCTGAAATGGAAGAGGGTCATAGGTGGGGAATGTCAGATCCACCTATCTGATGGTCTGTTCTCATATAT
Celera SNP ID:            hCV16199259
SNP Position Genomic:     14378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65369):
CCTGTGTCAGGGCAGGGACCCCATCATCCAAGACAGTTGGCAGGGAGAGTGCAAGACCTGCCTGGTTTCTACAACCTTCCAAAGGAGGCAGCTCCCGAAA
R
AAGGTTTTCAGAACGCAGGGCCTTGGGAGACAGGAAGCCAGTCAGACTCCTCGCACAAACCACAGGGGGCAAGCAGTGCTCCTCCAAGAACCTGGCCCCA
Celera SNP ID:            hCV11418364
SNP Position Genomic:     25861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65370):
GCTCTGGGGCCATATCAAGGGACTGAGGGCTGGCGGGTGGGCTGCCATGCCTTTTGCCTCCCCCTACACAAACCCCAGTGCCCCATCACCTTCCTCCATC
R
TTCCTCAGTAACCCTCCTGGCTGCGGACCTCCCCTCTGGCTCAGCCCCCTTGACTCAGCTCCTCCATCCAGACCCTCTGCCCAGCTGCCTCCATTCAGCC
Celera SNP ID:            hCV11418365
SNP Position Genomic:     24956
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65371):
GTCTTGCTCTGTTGCCCAGGTTGGAATGCAGTGGTGGGATCATGGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGGGATCTTCCCACCTCAGCCTCCCA
R
GTAACTGGGACTATAGGCATATGCCACTACAACAGGCTAATTTTTAAATTTTTTGTAGAGACAAGATCTCACTAAGTTGCCCAGGGTGGTCTTGAACTCC
Celera SNP ID:            hCV2558852
SNP Position Genomic:     27394
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65372):
GAGGGCGGCCCCTTCAGAGTAGGGTTGGGGTAGTAGACGGTTGAGGAGACCAGGAAGAGTGGGGCAGGCAGAGACTTGAATCACTTCTCTAAGTAGAGGC
Y
ATCCTGTCTTCTTGGCTTTGACAGAGATTGAGCCAGGAGAAATGCACTTTTTCTGCAGCAGGAGGGATAGAGGTTAGACTTAAGGAATCTGTAAGAAGCC
Celera SNP ID:            hCV2558853
SNP Position Genomic:     8126
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,9)      total(C,5|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65373):
TCAGTTCCTAAGTCTCCAAGATCTTTCAACTCAGCTCTCTTGCTGCCAGCTTCTCAGTTTCCCAATTTCACCCTCCCGGGTGGTGATCTGATTGGCTCAG
K
CTGCACAAGCTGTAGATTGTAGGCTTCCAATAGATGAGCTGCTTTTGAATCATGTGATTACCTATGTCCAATCAGTCTGAGGAAGCACAGGGTCATGTAG
Celera SNP ID:            hCV2263871
SNP Position Genomic:     38998
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|G,8)      total(G,8|T,2) ;no_pop(T,-|G,-)   ;(T,-|G,-)   Caucasian(T,28|G,52)   African-American(T,38|G,38)   Asians(T,28|G,52)   total(G,142|T,94)
SNP Type:                 INTRON


Context             (SEQ ID NO:65374):
CAGCCTCAAGAGTCCCCCTCCTCACACCTGCTCCCATTTGCCCTGGCAGCCTTTGGCTTTCAGCTACTCTGGCTCTAGATGGGGCACTGGGGTAGGGGGT
R
GAGGGAGGCGTCCCATTCTGCACACTCCTCTTCCCCCCTACCAGTTCTCCAAACTCATCTCTCCCACCTGGAAGTCCTTTCTGAGATCTACCTGGAATCC
Celera SNP ID:            hCV2558854
SNP Position Genomic:     7059
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65375):
CTGTGATTGTGCCACTGCACTCCAGCCTGCATGCTAGAGTGAGACCCTGTCTCAAAAAAAGCATGCATTTAACAACCTAGAGGGAACTGGAGAGGAGATC
R
TGGAACCTAAAGCCATTTCGCAACCTCCAGAAATGGAGGTTCGCATGGCCGCGAAATGGCCTGTGTGTAGTCACTTTCCAATCCTGTGCCCATGGCAGAC
Celera SNP ID:            hCV11418368
SNP Position Genomic:     15238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65376):
ATGCCACCATGCCCAGCTAATTTTTGCATTTTTTTTTTTGTAGACTTGGGGGGAGGGTCTCACTATGTTGCCCAAGCTGGTCTTGAACTCCTGGATTCAA
R
CGATGTTTCTGCCTCAGCCTCCCAAAGTGCTTCTTGTCTTTTGAGAGTACTGGTTCATTGGTTGGATTCAGATGGCAAGTGGACATTGCGGTTGACTTTT
Celera SNP ID:            hCV27482024
SNP Position Genomic:     40279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65377):
CCTGGACCCTTGCTGGTGTCCAGATGTCTGCGGTTGTCAGCCCCTTCCTTTCCCCCGACCTAAACATAAAAGACAAGGCAAAGCCCGCATAATTTTAAGA
Y
GGTTCTTTAGGACATTAGTCCACCATCTTCTTGGTTTGCTGGCTCTCCGAAATAAAGTCCCTTTCCTTGCTCCAACTCCTTGTCTCTCAACGTATTGGCT
Celera SNP ID:            hCV7452220
SNP Position Genomic:     90577
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;POOLE|_CEPH(T,92|C,96)   total(C,96|T,92)
SNP Type:                 UTR 3


Context             (SEQ ID NO:65378):
GCTCACTGTGGCCTCAACCTCCTGGCTCAAGCAATCCTCCTGCCTCAGTCCCCCCTGTAGTTGAAACCACAGGTGCACACCACCACACCCGGCCATTTTT
Y
TAATATTTTGTAGAGATGGGGTCTCACTTTGTTGGCCAAGCTGGTCTTGAACTCCTGGGTTCAAGTGATCTGCCCTCCTCGGCCTCCCAAAATGCTGGGA
Celera SNP ID:            hCV11414159
SNP Position Genomic:     75990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65379):
AGGGCAGTGGCAGAGGGAATAGCCCCCGACACCAACCAACCATGCTTCTTCCGCTCATCGTCCCCCAGCCTGCCCCAACCCCAGGTCTCCAGATTGTGTC
R
CTTATCGTAAGAGCAGAGTGCCTTCTGGCAGGTGAGGAGTGCAGGAACCCCTTGTCCCTGCTCACGCTGCGCCCAGGGCAAGGGCCGGCTGGGCAGCTGG
Celera SNP ID:            hCV2956920
SNP Position Genomic:     46984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(A,108|G,1389)   total(G,1389|A,108) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65380):
ATGCTTCCCTGTGCTGGGAGGCCGGGGGCCAAACCACCCTGCCTGGTCAGTGGGCATGGCTGTGGCCCGAGGTCTGTGACCTGGGAGGTACCTTCCAGGG
R
TTCCCATGGGACTTTGCCAGAGTTGGGGTGCCCAGCAGTGGCCCTGGGCATGCCTGCTCCCCACTCTGTCCAAACAAGCATGAGGCAGTGTGGGTGCCCA
Celera SNP ID:            hCV2956921
SNP Position Genomic:     48667
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,16)   caucasian(A,33|G,3)   total(A,55|G,19)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65381):
CCCCTTGGAAGTGCTTCCAAAGGCAGATGCCGATTCAGCAGTCTTGGGGTTGGGCCCAATAATCTGAATTTCTAACGGGCTCCCAGTGATGCTGATGTTG
Y
GGCCCAGGGGTGCTCTTGGAAAAGCAGGATCTAGAATGCATTTCTGTTGGCCTTGTAAGGCTTCCTGGTATATGTGCCCTGCGATCGAAGGGCAGGGACT
Celera SNP ID:            hCV526008
SNP Position Genomic:     33687
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65382):
AGTAGAGACGGGGTTTCAACATGTTGGCCCGGCTGGTCTCAAACTCCTGACTTCAAGTGATCCGCCTACCTCGGCCTCCCAAAGTGCTGGGATTTCAGGC
R
TGAGTCACTGCACCCAGTCCCCCCCCCCTTTTTTTTTTTTTTTTTGACAGAGTCTTGAACTGTCAACCAGGCTAGAATGCAGTGGCGTGATCTCAGCTCA
Celera SNP ID:            hCV2956922
SNP Position Genomic:     35653
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65383):
ATCTGCCAGAGTCACATCATCTCATGCCTTATCTGATATGTCATGTGATATGTCAGAGCAAGACTCAATATGCTGGGTCAGGCCAGGCGCAGTGGCTCAC
R
CCTGTAATCCCAGCACTTTGGGAGCCCGAGGAGGGTGGATCACCTGAGGTCGGTCTCTACTAAAAATACAAAATTTAGCCGGGCGTGGTGGCGGGTGCCT
Celera SNP ID:            hCV2956924
SNP Position Genomic:     37402
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65384):
TGGGGGCTTCTGGAAGACCATTTAGGGATTCCAGCTACTCAGGCTCCCTCCTCACACCCAGGAGGAGAGGGTTCATCCTGGAACAGGGCTTCTCGGAGTG
Y
TCCACAGCTGTGGGCATTAGACCCTGGGCTCCAGTTAAACACACTGGATTCCTGGGACCCATCCCAGACCCTCTGTATCAGGATCTCTGGGAGAGAACCC
Celera SNP ID:            hCV490846
SNP Position Genomic:     74573
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65385):
ATCACCTGAGGTCGGTCTCTACTAAAAATACAAAATTTAGCCGGGCGTGGTGGCGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAGTC
R
CTTGAACCTGGGAGGCAGAGGTTGCCGTGAGCCGAGGTGGTGCCATTGCACTCCAGCCTGTGTTACATGAGCGAAACTCCATCTCAAAAAACAAAACAAA
Celera SNP ID:            hCV2956925
SNP Position Genomic:     37541
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65386):
TAGCCGGGCGTGGTGGCGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAGTCGCTTGAACCTGGGAGGCAGAGGTTGCCGTGAGCCGAG
R
TGGTGCCATTGCACTCCAGCCTGTGTTACATGAGCGAAACTCCATCTCAAAAAACAAAACAAAAAAGCGCTGGGTCAGAGTGGCCTGCAGGGGTGCGTGA
Celera SNP ID:            hCV2956926
SNP Position Genomic:     37578
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65387):
GCCTTGATGGGGGTAGGACTCCGCTCAGACTGAACCTGAGCTGCTGGGGGGATGGCAGTGGCAGGGAGTAGACAAGGGGCAGAGAGTTGAGAGGGAAACC
R
GGCAGGAAAGGATGCCCAGTGACTTCCAGCTTTTCTTTGTTATAGCAGAGGGACCATTTTCTCCAGCAAAATCTCCAATGGGAGGCACTGCTCTGGTTGT
Celera SNP ID:            hCV27472263
SNP Position Genomic:     52064
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,162|A,1303)   total(G,162|A,1303) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65388):
TCTCATAGGGTTGTTCTAAAAATCAGATGCACTGATTGCTTGAGAAAGTTAACTAGAAAAATCCCTCCCAGATCTTACCTGAAAGTACAAAAATAGGATT
R
TAGTCACAAAAGAGGATTTCCTGGCCTTGAAGCTTCAGGTGTTATCTTTCATATTCTTAATACTCTTCAAGGTGTGGGAAGGGACCGGCAGCACTGGCAG
Celera SNP ID:            hCV540377
SNP Position Genomic:     30715
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65389):
GAGTGGAGGTTGCAGTGAGCTGGGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTGTCTCAAAAATAAAATAAAGTAAAATAAAATAAAC
S
ATTTTAAAGTGAACAATTCAGTGGCATTTAATAAATTCACAATGTTGTGCAACCAACCCCCCATCCAGTTCCAAAACCTTTTCTGTTTTGTTTTTGTTCT
Celera SNP ID:            hCV540378
SNP Position Genomic:     27184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65390):
CTTAATTGGATACAATGTCTAATGACAAAGCAGGGCCCCACAGCGGAGTTCTGGCCTCAGCCCCAGGCCTGGGCCTGGCCAAGCCTGGTCTCAACCTCTG
Y
CCTTGCTGGCTCCCAGGAGCTACCCTATGCACTGCGTCCTCAATTCTGCAGTGATGGAGCACCTGCTGTTTGCTGGACATGCCAAATTTGAAGAAGGTGG
Celera SNP ID:            hCV16199260
SNP Position Genomic:     14158
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65391):
TTCTACAACCTTCCAAAGGAGGCAGCTCCCGAAAGAAGGTTTTCAGAACGCAGGGCCTTGGGAGACAGGAAGCCAGTCAGACTCCTCGCACAAACCACAG
R
GGGCAAGCAGTGCTCCTCCAAGAACCTGGCCCCACCAGGGTGCTCAAGGGAACGAGGTAAGGAGGCCAATCCCGGAAGATTCTGGGAGCAGAGTTGGGGG
Celera SNP ID:            hCV540379
SNP Position Genomic:     25927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   SC_12_A(A,1|G,22)   SC_12_C(A,1|G,22)   SC_95_C(A,17|G,172)   total(G,216|A,19) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65392):
AAAAAGATGGGCTGAATAGCATCTAAACTTGGTTTCCTTTCTTCAGGCAAAATTTTAGGCTAACTGATGTCTCTTAATAAGCCACTTTTTTGTTTGAACT
R
GGGGGAAGAGGGCAGGCTGTAGCTACGGCCGTGGCAGGTGGTCCCAGGTGAACCATAACCAGCTTCAGAGTTGGAGTCCTACAGACTATCAGATGTACAG
Celera SNP ID:            hCV16199191
SNP Position Genomic:     45444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65393):
AAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAGAAAGAAAAAAAAAGATGGGCTGAATAGCATCTAAACTTGGTTTCCTTTCTTCAGGCAAAATTTTAGG
S
TAACTGATGTCTCTTAATAAGCCACTTTTTTGTTTGAACTGGGGGGAAGAGGGCAGGCTGTAGCTACGGCCGTGGCAGGTGGTCCCAGGTGAACCATAAC
Celera SNP ID:            hCV16199192
SNP Position Genomic:     45403
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65394):
CTCCTTCCTCCCACGCTCCCAAATGCTCCCCTGCAGGCTTTGTGCTTGGCTCTGCCCAGGAGTGATCCCCCTGCAAGTCGCCCCCTCCCTCCAGGGTGCA
R
TTTGGCCTCACCCATCACTGTGTGGCCACCCTCAGCCAGAGCTGAGTAGATATGGCTCCTGGCTTCACTGTCCTGGAGTAATAAAAGTCAGGTGTGCCAG
Celera SNP ID:            hCV16199193
SNP Position Genomic:     42202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65395):
AGCAGTGTCACGGCAGCTCAGAGTCAAGGCGACCTTGAGGATCACTGGAGCTCATGCAGTCCTGCTAGCCCCTACACCTACTCACATGGGCAGATGTGGC
Y
TTGGTCCTGGGGAGCTGGGTGGGAAGGAAGGCAGGGATGCCACAAATACCTTCATCTTCCGGGGAAGTAGAGGGAATGGGAGTGCCTGACTACCTCAGCC
Celera SNP ID:            hCV11414160
SNP Position Genomic:     78403
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;(T,-|C,-)   Caucasian(C,60|C,82)   Caucasian, from CEPH families(C,280)   African-American(T,1|C,60|C,75)   Asians(C,56|C,72)   total(C,685|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65396):
TAATTTTAACCTTCACAATAACCCTATTAGGTGGGTGTTATTATCCTTGTTCAAAAGAAATGATAATGAAGACACAGAGAGGTTAGATAATTTGCACAAG
S
TCACACAGCTAGTAAGTGGCAGAGCATAGATTTCAACCCAGGCAGCCAGATTTCAGATCCCAAACTCTTAACCCTCCGATGCCCTTTGTGAATTCCTTAA
Celera SNP ID:            hCV11414163
SNP Position Genomic:     87375
SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   Caucasian(C,20|G,54)   African-American(C,13|G,61)   Asians(C,35|G,43)   total(G,158|C,68) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65397):
GAACAACAACCTAATCTCATCCTGTTTTGATGCAAGGGTTCTCTTCTGTGTCTTGTAACCATGAAACAGCAGAAGAACTAACATAACTAACTCCATTTTT
R
TTTAAGGGGCCTTTACCTATTCCTGCACCTAGGCTAGGATAACTTTAGAGCACTGACATAAAACGCAAAAACAGGAATCATGCCGTTTGCAAAACTAACT
Celera SNP ID:            hCV11414164
SNP Position Genomic:     90250
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:65398):
ACCATGAAACAGCAGAAGAACTAACATAACTAACTCCATTTTTGTTTAAGGGGCCTTTACCTATTCCTGCACCTAGGCTAGGATAACTTTAGAGCACTGA
S
ATAAAACGCAAAAACAGGAATCATGCCGTTTGCAAAACTAACTCTGGGATTAAAGGGGAAGCATGTAAACAGCTAACTGTTTTTGTTAAAGATTTATAGG
Celera SNP ID:            hCV11414165
SNP Position Genomic:     90307
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(G,-|C,-)   ;POOLE|_CEPH(C,50|G,138)   total(G,138|C,50)
SNP Type:                 UTR 3


Context             (SEQ ID NO:65399):
AGCACTGACATAAAACGCAAAAACAGGAATCATGCCGTTTGCAAAACTAACTCTGGGATTAAAGGGGAAGCATGTAAACAGCTAACTGTTTTTGTTAAAG
R
TTTATAGGAATGAGGAGGTTTGGCTATTGTCACATGACAGACTGTTAGCCAAGGACAAAGAAGTTCTGCAAACCTCCCCTGGACCCTTGCTGGTGTCCAG
Celera SNP ID:            hCV11414166
SNP Position Genomic:     90399
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:65400):
ACCACTACCTCCTCCTCCCTCTTCATCGACAGCCTCACCACAGAAGGTAAGTTCTGAGCCCAGGAGGGGAGCAGAGAGGAGGCCAGGAAGGAGAGCTACC
Y
ACCCCTCTGGGGCCCCCTCTCTGTCCCTGACAGGGATGATCTCATGGGATGGGAACTGCCCCATCCTTTTATAGCTAAGGGGGCCTGAAGTTCAGACAGT
Celera SNP ID:            hCV25754027
SNP Position Genomic:     79923
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,15)   caucasian(C,12|T,24)   total(C,33|T,39)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65401):
AACCGGCCTATCGGATGCCTTCATGATTCTCAATCCATCCCCGGATGTGCCAGGTGAGTCTTCAGGGACCCCGCAGAGGCCTTGATGGGGGTAGGACTCC
R
CTCAGACTGAACCTGAGCTGCTGGGGGGATGGCAGTGGCAGGGAGTAGACAAGGGGCAGAGAGTTGAGAGGGAAACCAGGCAGGAAAGGATGCCCAGTGA
Celera SNP ID:            hCV25757001
SNP Position Genomic:     51986
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,22)   caucasian(A,4|G,34)   total(A,6|G,56)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,285|G,1198)   total(G,1198|A,285) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65402):
GCCTCCAGCTATCTGCTCATCAGAGGTGCTTTCCTCAACCTCCTGCACCACCTCCAAGAGAAACAGCCTAAAAAGAAACCCCAGCTGTTTACTTATATTG
K
TCTGTAAATCCCTGGAAGTAAACCCCATGCATTTTTATCTACTGTCTGAGGACATACAATAAATCTGAGAAAGTCTATGCTGTCACATTTCTGGATGCTT
Celera SNP ID:            hCV11414169
SNP Position Genomic:     94392
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:65403):
CTGATCTTCATTCCGGACTGCTGGCACTCAGGTTTCTGTCCCCTTCTCCCAGGTCACGATGAGGGCCCAGGCTCTGGATGGGCTGCCAAAGGGACCGTGC
K
GGGCTGGAACCGGAGAGCCCGAGAGAGCCCTGGGCATGTGTCAGAGCCGGACAGGACCCAGCTGAGCCAGGACCTGGGTGGGGGCACCCTGGCCATGGAC
Celera SNP ID:            hCV25753084
SNP Position Genomic:     17956
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65404):
GGCAGTCTGAGCTCTTACCCACCGTCTCTTCAGGGACAAAAATGAGTGACGTGTTGATGCAGAAGGTACTTCTGGACCAGGACCTCTGAAACTGTGCTTT
R
CAAAAAATCCCCTTGGAAGTGCTTCCAAAGGCAGATGCCGATTCAGCAGTCTTGGGGTTGGGCCCAATAATCTGAATTTCTAACGGGCTCCCAGTGATGC
Celera SNP ID:            hCV2956933
SNP Position Genomic:     33578
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65405):
GTGTTGATGCAGAAGGTACTTCTGGACCAGGACCTCTGAAACTGTGCTTTGCAAAAAATCCCCTTGGAAGTGCTTCCAAAGGCAGATGCCGATTCAGCAG
K
CTTGGGGTTGGGCCCAATAATCTGAATTTCTAACGGGCTCCCAGTGATGCTGATGTTGCGGCCCAGGGGTGCTCTTGGAAAAGCAGGATCTAGAATGCAT
Celera SNP ID:            hCV2956934
SNP Position Genomic:     33628
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|G,6)      total(G,6|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65406):
TTGGGCTCCTGGGGCCAGGCTCCCTGTTGATAGGAGGCACCTGTCTTTAATCCCTGCACTTCAGTTCCACATCCCACTTCCCCAGGGATGGGGAAAGCTG
Y
GAGTCCTCTCCTCTTCCTGCCCCCTCGCCCTATAGTCTGTGCCCTGCTGAAGGGACAGGGAGGACCTTCTCCTATCTGGGGTCCTTTGGCTCCATACACA
Celera SNP ID:            hCV2956936
SNP Position Genomic:     49290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65407):
CCAGCCCAGCACAAACAACTCTGTCTCCAGAAGCAGCTGTGGGCCCCACCCAAGAGAGACCAGACAGCCCTGGCTTGGGCCTGGGCAGTGGGCAGGCTGC
M
TTCCCAGCCCTGGACTCATGTCCATCTGTGGGCAGCCAGTGGGCATCTTGGGGAAGGGGTCTGGGGACTGCCCTCCTCCCCACGTGCTCCAGCAGCATCT
Celera SNP ID:            hCV16199270
SNP Position Genomic:     13886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65408):
TGGAGCTCTCTCCAGTGGAAGGCAGGTGGGGTGAGGAGTGGCTGAGGGTTGGGCAGGTGTCCAACTTGTGTGTGAGCACATACGGGAAGGCCGAGGCTTT
S
AGGAAAGTCTTTGTGGGCATGTGCACAGGCACGTGGGCCCCTGCACATACACGTGAGCAACCAGCTGTGTTGGCTTCTTTCATGAGTCGTGGGGATGACG
Celera SNP ID:            hCV16199271
SNP Position Genomic:     13108
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65409):
AGCATGTCACTGTGAGTTGCCCTACCCTCGCTCTTATTTAACCTGAACCAAAAGCTGGGGGCCATTGCCCCCATTGATCGATCACAGGGGAAAACTGGGG
S
TCAGAGAAGTTTAATGAATTGGCCTGCATCTCGCTGCTAGAAGGTGACGGGCCCAGCATTTAAATATCAACTCTCCAGACCCTGTGGCCATACACTTACC
Celera SNP ID:            hCV43702
SNP Position Genomic:     79389
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65410):
AGCAGCAGCAGAGAGATGAGTGGCCCAAAGACAGAGTCAGACAGCAGGGGAGACCAGGATGACAGACAGGAAAATGGCCTTGGGGTGCAGAGCAGGGGCC
M
AGGGAACTGACAGTCTGGTCAGATGGAACCAGAGGTGCATATGACAGATAAAGAAGAGGCAGCGAGAGTTGGCATCCTGGCCTGGGAGTCCTGCAGGAGG
Celera SNP ID:            hCV16199272
SNP Position Genomic:     8681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65411):
AAGCATGTCACTGTGAGTTGCCCTACCCTCGCTCTTATTTAACCTGAACCAAAAGCTGGGGGCCATTGCCCCCATTGATCGATCACAGGGGAAAACTGGG
K
CTCAGAGAAGTTTAATGAATTGGCCTGCATCTCGCTGCTAGAAGGTGACGGGCCCAGCATTTAAATATCAACTCTCCAGACCCTGTGGCCATACACTTAC
Celera SNP ID:            hCV43703
SNP Position Genomic:     79388
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,7)   total(G,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65412):
GTAGGGCCTGCCCCTGGAAACTCTTCTCAAGGTGGCATTAGCTCTTGGCAATATCCTCCCTTCCATCTAAGATTTGTTTTCCAGACTGCCTTGAGCCAAT
Y
AGACCCACTTTGGAAGGTTTCAGAGGGCTCTGTGGGTCTCTGAGACGAGCATTCTGATGCCTTGACCTTAAGTGGGCAGCTCTCAAGGAATTCTTTTGGT
Celera SNP ID:            hCV43704
SNP Position Genomic:     78841
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,27|T,9)   total(C,56|T,16)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;(C,-|T,-)   JBIC-allele(T,654|C,843)   total(C,843|T,654)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65413):
AAATCCTCAGTGTGGCATTCAAGGCCGGGCACAGCTGGGTGCAGTCAACCACGCAGGCGCATTTCCAAACCCTCCCTCCGCTCACCGCCCTCTGCCTGGG
S
AGCTCTGGTCTGTGTCCCCTGGGTTCCCTGAACATGCTAAGGGCTGTCCACATCGGTATGACACAGTCCCCTTGTATAAAACGCCTCTTACTCCAATCTT
Celera SNP ID:            hCV27990672
SNP Position Genomic:     58937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65414):
CTTGGCCCAGGCTCTGGGGCCGCACAACCTGGCCTCCTGAGGTCAGCCCCATTCCCCCTTGCCCTGAAATGGGACCAGTGCCAGCTGAGGGGACTGGGAC
R
CTACTGCTGGGCTGTACCCTGCATGCTGGGGGACACAGTCTCCCAGGGAAGCTCTCAGGTTCAGGCCCAATGGCAGCCTGAGTAGGGCCCTCCAAGAACC
Celera SNP ID:            hCV11418388
SNP Position Genomic:     12441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65415):
GGGTTTGTGGGGCTGGTGGGGGGCCTTGGGAAGTAGCTGAGATCTCCCCTCGCTCCTGATGGACAGGCTTGTTTGGTAGAGCCTTGAAACCTCATCTATC
R
TTAGAACAGCAGCAGCAGAGAGATGAGTGGCCCAAAGACAGAGTCAGACAGCAGGGGAGACCAGGATGACAGACAGGAAAATGGCCTTGGGGTGCAGAGC
Celera SNP ID:            hCV11418389
SNP Position Genomic:     8573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65416):
GGCGTGCACCACCGCATCTGGCATGAGTATCTGTTTTTTTCTCTCTTTTGAGATGGAGTCTTGCTCTGTTGCCTAGACTGGAGTGCAGTGGCACAATCTC
R
GCTCACTGCAACCTCCACCTACCAGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGCACTACAGGCGCGTGCCACCACACTCAGCTAATTT
Celera SNP ID:            hCV11625762
SNP Position Genomic:     28797
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65417):
GTCAAGCGTACAGTGAGCTGTGATTGTGCCACTGCACTCCAGCCTGCATGCTAGAGTGAGACCCTGTCTCAAAAAAAGCATGCATTTAACAACCTAGAGG
R
AACTGGAGAGGAGATCATGGAACCTAAAGCCATTTCGCAACCTCCAGAAATGGAGGTTCGCATGGCCGCGAAATGGCCTGTGTGTAGTCACTTTCCAATC
Celera SNP ID:            hCV540391
SNP Position Genomic:     15221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65418):
TTGTTCACTACCCGCTCTATCCTGTTCTGGCTCCTGCCCAGGCCCCAGGGCTGCTTGCAGGAAGACCTGGGGAGCTGGGCAGACCAGCCCAGCACAAACA
R
CTCTGTCTCCAGAAGCAGCTGTGGGCCCCACCCAAGAGAGACCAGACAGCCCTGGCTTGGGCCTGGGCAGTGGGCAGGCTGCCTTCCCAGCCCTGGACTC
Celera SNP ID:            hCV540394
SNP Position Genomic:     13803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65419):
GCAAGACTGGGTGTCGAGGTCAACCCAGTGTCTCTTCCCTGGCCACCCCCAGCTGGGCCCCCTCCCTGTCCTTCCCCGTGCTGCAGGCCTCCACCATCCC
R
CCTCCTGTCTCGGCTCCAGGTTTGTGAATCCTGAAGATCCCCAACACTCCTCTCTGGGCCGCTGAGCCCCTCCACTTGTTCACTACCCGCTCTATCCTGT
Celera SNP ID:            hCV540395
SNP Position Genomic:     13627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65420):
AAGGTCCCATAACTTGTGAGTGGCAAGACTGGGTGTCGAGGTCAACCCAGTGTCTCTTCCCTGGCCACCCCCAGCTGGGCCCCCTCCCTGTCCTTCCCCG
K
GCTGCAGGCCTCCACCATCCCACCTCCTGTCTCGGCTCCAGGTTTGTGAATCCTGAAGATCCCCAACACTCCTCTCTGGGCCGCTGAGCCCCTCCACTTG
Celera SNP ID:            hCV540396
SNP Position Genomic:     13605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65421):
ACCATCGTCAAATCCATTTGAGTCACTAGGGAGCTGAGGATTAGAGAGGAAAACTGATGGGGCTAAGGTCCCATAACTTGTGAGTGGCAAGACTGGGTGT
S
GAGGTCAACCCAGTGTCTCTTCCCTGGCCACCCCCAGCTGGGCCCCCTCCCTGTCCTTCCCCGTGCTGCAGGCCTCCACCATCCCACCTCCTGTCTCGGC
Celera SNP ID:            hCV540397
SNP Position Genomic:     13541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)   SC_12_A(C,0|G,23)   SC_12_C(C,5|G,18)   SC_12_AA(C,11|G,12)   SC_95_C(C,20|G,149)   total(G,202|C,36) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65422):
TTGGGGTGCCCAGCAGTGGCCCTGGGCATGCCTGCTCCCCACTCTGTCCAAACAAGCATGAGGCAGTGTGGGTGCCCAGGCCCCTGGCCTGCAGCTTGGC
S
CGTGCTGACTTTCTCCCATCCCCTGCAGAGAGTGGTCTTGTCCTTTGATTTCCCTTTCTACGGGCATCCTCTGCGGCAGATCACCATAGCAACTGGAGGT
Celera SNP ID:            hCV25754543
SNP Position Genomic:     48790
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|G,1)   total(C,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65423):
GGCTGGTGGGGGGCCTTGGGAAGTAGCTGAGATCTCCCCTCGCTCCTGATGGACAGGCTTGTTTGGTAGAGCCTTGAAACCTCATCTATCATTAGAACAG
Y
AGCAGCAGAGAGATGAGTGGCCCAAAGACAGAGTCAGACAGCAGGGGAGACCAGGATGACAGACAGGAAAATGGCCTTGGGGTGCAGAGCAGGGGCCCAG
Celera SNP ID:            hCV16199281
SNP Position Genomic:     8583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65424):
TGAGACAGACCTGGGTCCCTATTGAGAAGAAGAGTATGTTGGGGGTGGGAGGGGAAGGAGGCTGACAGTGGGAAGTATGGGCAGAGGGCAGTGGAGCTGA
Y
GAACCGAGAAGCTGCTGGTGAGAACCACCAATTTTCAGGGAGACCACACAGAGGGTGGCCAGAGACGTGGCTTCTAGTCCCGCCATCTCACTTGCTGTGT
Celera SNP ID:            hCV16199282
SNP Position Genomic:     7534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65425):
AGCCTGGCCCCTCAGCAGAGATGATTAAGAAGATAGATACCTGTGCATCATTGGCATGGGTGCCCCTCAGGTGGGGTGAGGGAGGCGCTGTTGAGGTGAG
Y
GCTGTGGTTGACCTGCTGTGTCTCAGGAGTGTGCTGGCACCAGGCACAGTGTCAGTGGCAATGTTCTTGACTTTAATGGTCCCAGCATGTAGCTGAGACA
Celera SNP ID:            hCV16199283
SNP Position Genomic:     7340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65426):
GATTTTAAAGTGAACAATTCAGTGGCATTTAATAAATTCACAATGTTGTGCAACCAACCCCCCATCCAGTTCCAAAACCTTTTCTGTTTTGTTTTTGTTC
Y
TGAGAAAGGGTCTTGCTCTGTTGCCCAGGTTGGAATGCAGTGGTGGGATCATGGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGGGATCTTCCCACCTC
Celera SNP ID:            hCV7452822
SNP Position Genomic:     27284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65427):
CAGGAGAAATGCACTTTTTCTGCAGCAGGAGGGATAGAGGTTAGACTTAAGGAATCTGTAAGAAGCCAGAGGCGGCAGCTGTTGACTCCCAGTCCGGTGC
Y
CTTTTCACAGGCCAGGTGGGATTTCACAGGCAGGAGGACCTATGAGGAGGAAGCGGGTGTCTGGGGAGGCCAGATGTAGGAGAAGGACATTCTGGGGGAG
Celera SNP ID:            hCV11418390
SNP Position Genomic:     8260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65428):
TAGAGGTCACAGCCATACCCCAACCCTATCACTCTCCATCGGGGCAGAAGGCTCAGGGCCTGAGAACCAGGGTTCCTCGAGGACTGGTGAGAGCAAACCT
Y
AGGCTCTATGATGTGGATAAAACTGCATTTAGGAGCAAGGGCATCCAAGGGCAGGGCTGACTGCCTGGGTGGAAGCAGTGAAATGTTTTGGGAATGCATT
Celera SNP ID:            hCV317050
SNP Position Genomic:     71595
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65429):
AGAGTAGGGTTGGGGTAGTAGACGGTTGAGGAGACCAGGAAGAGTGGGGCAGGCAGAGACTTGAATCACTTCTCTAAGTAGAGGCTATCCTGTCTTCTTG
R
CTTTGACAGAGATTGAGCCAGGAGAAATGCACTTTTTCTGCAGCAGGAGGGATAGAGGTTAGACTTAAGGAATCTGTAAGAAGCCAGAGGCGGCAGCTGT
Celera SNP ID:            hCV11418391
SNP Position Genomic:     8141
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,11)      total(G,11|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65430):
AGGTCACAGCCATACCCCAACCCTATCACTCTCCATCGGGGCAGAAGGCTCAGGGCCTGAGAACCAGGGTTCCTCGAGGACTGGTGAGAGCAAACCTCAG
S
CTCTATGATGTGGATAAAACTGCATTTAGGAGCAAGGGCATCCAAGGGCAGGGCTGACTGCCTGGGTGGAAGCAGTGAAATGTTTTGGGAATGCATTTCT
Celera SNP ID:            hCV317051
SNP Position Genomic:     71598
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,8)      total(G,8|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65431):
TAATGAAGGATCTTTTATAATTGCCTTTCCTTTTCATATTTGTTAGGGTCTTTATGGGTAACTGATACTTTAAAAAAATCAAGGTAAACAGGAGAGAGTT
R
GATATGTTATGAATAATTTCTGGGCTCCTTTGAATCCTCAACCTGGTGTGATCTTCTGAACTCTGGGTGTAACAGAGTTTATGAGGGGAGGATCTGAACC
Celera SNP ID:            hCV11418392
SNP Position Genomic:     7826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65432):
GGGCAGAAGGCTCAGGGCCTGAGAACCAGGGTTCCTCGAGGACTGGTGAGAGCAAACCTCAGGCTCTATGATGTGGATAAAACTGCATTTAGGAGCAAGG
R
CATCCAAGGGCAGGGCTGACTGCCTGGGTGGAAGCAGTGAAATGTTTTGGGAATGCATTTCTGGGACACTGTACATTTAAGGTACTTCTCACCCCTCCGG
Celera SNP ID:            hCV317052
SNP Position Genomic:     71636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65433):
GGCTGTTGGCAAAATCTTTGACTCTTGTGCGTGGAATAATGAAGGATCTTTTATAATTGCCTTTCCTTTTCATATTTGTTAGGGTCTTTATGGGTAACTG
R
TACTTTAAAAAAATCAAGGTAAACAGGAGAGAGTTGGATATGTTATGAATAATTTCTGGGCTCCTTTGAATCCTCAACCTGGTGTGATCTTCTGAACTCT
Celera SNP ID:            hCV11418393
SNP Position Genomic:     7790
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65434):
TCAGTTCCCTCCTCCATAAAATGGGGATAACAAGAGCACTTATATATTGATTCGACATACCATGTGCCAGGCACTGTTCCAGACCCTCTGGATACACAGG
R
AACAAAACAGCCAGAGAGTGCTCATCCTCCTGCACAGGGCAGCCCCTGCTTCTTTCCTGCCCATGGCTCTTTCCATCCACTCTCCCAGGGCCTTCAACAC
Celera SNP ID:            hCV317053
SNP Position Genomic:     72389
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65435):
CCCCGTGCCTACTGCGCCCCCTGCCCTGCTGCTCCTGTGCCTGGCCTGTGCCAGAAGGGTTCACGCGCCCTCCAGCAACCTGGTCCCACTAATCTCTCTG
Y
TCTCTGGCTCTGTCCTGCCCAGGCTGGGCCCCAGCTGTCGCTCCCTCTTCATTCGTACTAATTCCAGCCCCTTCACTCTGTGCAGCCTGGTAGCAGTTCT
Celera SNP ID:            hCV317054
SNP Position Genomic:     73033
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65436):
CCTGCCCTGCTGCTCCTGTGCCTGGCCTGTGCCAGAAGGGTTCACGCGCCCTCCAGCAACCTGGTCCCACTAATCTCTCTGTTCTCTGGCTCTGTCCTGC
Y
CAGGCTGGGCCCCAGCTGTCGCTCCCTCTTCATTCGTACTAATTCCAGCCCCTTCACTCTGTGCAGCCTGGTAGCAGTTCTGGCTGCTGCTGGGACCACG
Celera SNP ID:            hCV317055
SNP Position Genomic:     73052
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65437):
CCAGGAGAGCTGTGGGCTGTGGGCAGGTGGATAGGGACCCCACTTTCCCAAACACATAGGGTGTGTGAGTGACGGTGGAGACACCGATGCCCGGACCTCT
Y
CTTCTCTCCTGGAAGGATACTGGAGGGACCTTAGGAGAGGCGGCTCTATGTGGCCATGGGCTCTGAAAGGGGACAGCGGGAGAGTCATCAGGACCCCTGA
Celera SNP ID:            hCV11418395
SNP Position Genomic:     6592
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65438):
CTGCCCAGGCTGGGCCCCAGCTGTCGCTCCCTCTTCATTCGTACTAATTCCAGCCCCTTCACTCTGTGCAGCCTGGTAGCAGTTCTGGCTGCTGCTGGGA
Y
CACGTCTGGGCCGTTCCCCTCTCGGCTCTGCACATGGGACCTTTCTGCCTTGACTTCTTCTCTCCCAGGAGAGCTGTTTTCTCCCCATGGACCGAACATC
Celera SNP ID:            hCV317056
SNP Position Genomic:     73148
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   (T,-|C,-)   Caucasian(T,13|C,47)   Caucasian, from CEPH families(T,66|C,198)   African-American(T,23|C,35)   Asians(T,16|C,40)   total(C,320|T,118) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65439):
GAGGGCTGAGCATGAGGGCAGCAGGCGTGGATTTGGCTGTGGCCAGGCCTGTTGGGGCACCACTAGGGGCCAGCTAGTGAGCTGTCTGGGGCCAAGGGGG
M
GTCCAGGGGGTCCTAGGCCTAAATCAGCCCTTGGGGCCACAGGTCCAGCACCCTGGGAGGGTGGTGACTTCCTGTACCCAGAAATCTGAGTGGGGAAGGG
Celera SNP ID:            hCV25757021
SNP Position Genomic:     48234
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,4)   caucasian(A,38)   total(A,64|C,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:65440):
TCCCCTAAGCACCTAGACTTTCTCTGGGGTTGGGGAGATGGGTAATTTGCAGCCTGGCCCCTCAGCAGAGATGATTAAGAAGATAGATACCTGTGCATCA
Y
TGGCATGGGTGCCCCTCAGGTGGGGTGAGGGAGGCGCTGTTGAGGTGAGTGCTGTGGTTGACCTGCTGTGTCTCAGGAGTGTGCTGGCACCAGGCACAGT
Celera SNP ID:            hCV16199292
SNP Position Genomic:     7290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65441):
GGCTGTGGGCAGGTGGATAGGGACCCCACTTTCCCAAACACATAGGGTGTGTGAGTGACGGTGGAGACACCGATGCCCGGACCTCTTCTTCTCTCCTGGA
R
GGATACTGGAGGGACCTTAGGAGAGGCGGCTCTATGTGGCCATGGGCTCTGAAAGGGGACAGCGGGAGAGTCATCAGGACCCCTGATCACCCCAGGCAAG
Celera SNP ID:            hCV16199293
SNP Position Genomic:     6606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65442):
CCTGGCGATGTCCGCGAGGGGGGCATTGTCCGCAGGAGGCCAGGAGAGCTGTGGGCTGTGGGCAGGTGGATAGGGACCCCACTTTCCCAAACACATAGGG
R
GTGTGAGTGACGGTGGAGACACCGATGCCCGGACCTCTTCTTCTCTCCTGGAAGGATACTGGAGGGACCTTAGGAGAGGCGGCTCTATGTGGCCATGGGC
Celera SNP ID:            hCV16199294
SNP Position Genomic:     6553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65443):
TTTCACAGACCTCTTAACCTTGGCAGAGGCCAGGGGAGGCTTTGCTGAGGAAAAGAGTTGAAATCTGAAGGATAAATACGAGTTCAGGAAGCAAAGAGGA
S
AGTGAAGTATGTTCTAGGAGAGACAACAGCACACAGCACATGCAAAAGTCCTGAGGCAGGACAGAGCACGGCTGGCACAAAGCACTGAAAGAAGGCAGCA
Celera SNP ID:            hCV16111893
SNP Position Genomic:     50738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65444):
TCTGGTCATACTCCATAGCTACCAAGTTAACCTGCTCTAAACTTTGGAGAACTGGATCTGTCCAATAAACGCTTATTTGGCCAAGCCTGATGGCTCGTGC
Y
TGTACTCCCAGCACTTTGGGAGGCTGAGGTGGGAGGGTTGCTTGAGCCCAGGGGTTTGAGACCAGCTTGGGCAACAACAACAAAAATGCCAGGTGTGGTG
Celera SNP ID:            hCV27475925
SNP Position Genomic:     92129
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65445):
TCCATCTGGTCATACTCCATAGCTACCAAGTTAACCTGCTCTAAACTTTGGAGAACTGGATCTGTCCAATAAACGCTTATTTGGCCAAGCCTGATGGCTC
R
TGCCTGTACTCCCAGCACTTTGGGAGGCTGAGGTGGGAGGGTTGCTTGAGCCCAGGGGTTTGAGACCAGCTTGGGCAACAACAACAAAAATGCCAGGTGT
Celera SNP ID:            hCV27475926
SNP Position Genomic:     92125
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65446):
GCAGGAAAGGATGCCCAGTGACTTCCAGCTTTTCTTTGTTATAGCAGAGGGACCATTTTCTCCAGCAAAATCTCCAATGGGAGGCACTGCTCTGGTTGTT
R
AGGTGAAAGGGAGCCACAGCCCTTCCACTCAGCCCCTGTTCTATGTAGAAAACCTCCAAAGATGCCCTAGTAAGGGGTTTGAGTCCTCCCAGAATACAAC
Celera SNP ID:            hCV27475783
SNP Position Genomic:     52166
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,659|G,812)   total(G,812|A,659)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65447):
TTGAACCCGAGAGGTGGAGGTTGCAGGGAGCTGAGATCACACCAATGTACTCCAGCCTGGGTGACATATCGAGATTCCCTCTCAAAAAAAAAAAAAAAAA
A
GGAATGGGCCGAAGTGCAGCCTGATTAATGCTTAATTACTCCTATACTTCTGCCCAGAACCCGGCATGTAATTCTTGTTAACCCTGAGAAGACGGTTTCA
Celera SNP ID:            hCV11625787
SNP Position Genomic:     11658
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65448):
CTCAGGCAATCCACCCGCTTCGGCCTCCCAAAGTGCTAGGATTACAGACGTGAGCCACCACACCCCGCCAATGTGGTGGTTTTCCAGCAGCTGCAGGGCT
S
TGACTGGGGCACAGGGAATAGACTTTATTTTTTTTTCTTTTCTTTTCTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGTAGTGCAGTGG
Celera SNP ID:            hCV2956891
SNP Position Genomic:     23427
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65449):
CTGTCCGGGAAGAGGCCTCGATGCCCTCTGCCTGTGATATGCTCCTGACAACAGGCTCTGCCTCTGTTTCAGAATCTCGGCGAAGGAGCATCTTTGAATA
Y
CACCGCATAGAGCTGGACCCCAGCAAGGTCACCAGCATGTCGGCCGTGGAGTTCACCCCATTGCCGAGTGAGTAGGGGTCATTCCGCCATCCCAGAAAGA
Celera SNP ID:            hCV25758920
SNP Position Genomic:     70099
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,32)   caucasian(C,8|T,32)   total(C,14|T,64)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65450):
AGAGGGTATGGTTAGGGGCTTTGTAACTTGGAGGCAGGATTTCAGTTTAGGGTTTGGAGCCTTCCCTGGCCCCTCTGAAAGCTGGTCCTGTGACCCTAAC
Y
GGTGTGTTGCCCAAGGTGCAGCAAGTTGACACACCAACACCGAGGGGGCAGCAGAGAAAGAGTTTCATCATCGTGGGGCAGCATTTGGGGCTAGAGGTTT
Celera SNP ID:            hCV11625790
SNP Position Genomic:     10271
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65451):
GGGACTAATTCAGCTCTCAGCATAACTAGGGTGGTCCCGGCTTATGGTTCTGGGAGCAAATGGCTCTGGTGGCTTGAGGGCAACGCGCCCACTGCTAAGC
S
GCAAATAAGGAATCCCTCCTCCCTGGTCAGCATTTGGGTGGGTTATAGTCTTGATCCATGGGCCCGTTGGCTGGTGGCTGTACCCCAGGCCTAGCCTGCC
Celera SNP ID:            hCV15188
SNP Position Genomic:     56160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65452):
CTCCTCCCAGCATCCTGTCAAAACCGGCCTATCGGATGCCTTCATGATTCTCAATCCATCCCCGGATGTGCCAGGTGAGTCTTCAGGGACCCCGCAGAGG
S
CTTGATGGGGGTAGGACTCCGCTCAGACTGAACCTGAGCTGCTGGGGGGATGGCAGTGGCAGGGAGTAGACAAGGGGCAGAGAGTTGAGAGGGAAACCAG
Celera SNP ID:            hCV25757047
SNP Position Genomic:     51965
SNP Source:               Applera
Population(Allele,Count): african american(C,22|G,6)   caucasian(C,38)   total(C,60|G,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65453):
ATCCCACTGCATTTGTTTAAAAATAAATTTTTAAAATTTGTGTGTTTTATCAGGGGTCTCCTGTACAGTGTATCTGTGTATGTTTGTGTGTGTGTTTGTA
W
ACAGCCTTGTTTAATGTTTTGAGCAATAAGATATGCACACACAGGTATTTTGTTGCTAAAGAGATTGGACAAGGTTGTAGCTGTGCTCAGGCTTCAGCTT
Celera SNP ID:            hCV148388
SNP Position Genomic:     93661
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,9)   total(A,2|T,9) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:65454):
GAATCCCATCCAGGTTCCTTCTCACTGCAAGAATTTTCCAGTACACTCAACACTGATTCTAGGTGGAAAGCATCCTATTCTCACACCATAGACTAACATA
S
ATGGGTCTATTCATCTGTGCCCTCTTTTTTGCCCCCTCCCTTTATATCTTCTTGCAAAGCAAGCATGCTGCATGTGCCAAGCATGTCACTGTGAGTTGCC
Celera SNP ID:            hCV27917629
SNP Position Genomic:     79209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65455):
CCGGGAAGAGGCCTCGATGCCCTCTGCCTGTGATATGCTCCTGACAACAGGCTCTGCCTCTGTTTCAGAATCTCGGCGAAGGAGCATCTTTGAATACCAC
Y
GCATAGAGCTGGACCCCAGCAAGGTCACCAGCATGTCGGCCGTGGAGTTCACCCCATTGCCGAGTGAGTAGGGGTCATTCCGCCATCCCAGAAAGAGCTC
Celera SNP ID:            hCV25758936
SNP Position Genomic:     70103
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,1)   total(C,73|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65456):
TCTGAGCCTCAGTTTCCTTACCTCTAAAATGAAAGTTTGGGCTGAACTTTCATCCCATCTGGACTCAGAGTGACAAAGGCTGTAATGATTCCACTAATCT
Y
GCTCCTTCTGTCTTCTCTCTTTGAAGATGACACCAAGTTGAATCCCTATGCAGGAGGAGACGGTGAGTACAGAACTGCCTGCCCTCAGCGTCAGACCCAG
Celera SNP ID:            hCV1713396
SNP Position Genomic:     85270
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65457):
CTTGGTGCTGAAAGAAATGGAAAAGGGTCTATGTGAATTCAGGGTCAGGGCAGAGTAGCAAAGTGTGAAAAAGTGAGGCAGATTCCGACAGCTCCCATTA
Y
TCTGAAGTTGCTCTGGAATAACAAGGAGCTGGCACTGAGAGCAGAGCACGTGGTGGTGCTGCAGGGGATTCAATGAAAAAGAAGCAGAGGCTGGGAGAGG
Celera SNP ID:            hCV1713397
SNP Position Genomic:     82435
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65458):
ACCTGGGCACCATCGTGGGCATCGTGCTGGCAGTCCTCCTCGTGGCGGCCATCATCCTGGCTGGAATTTACATCAATGGCCACCCCACATCCAATGCTGC
R
CTCTTCTTCATCGAGGTCCGTGTCATCTGTGGCCACAGGGCTCCTGTCTGCTTCTGCGTCGGCGTCTCCTGGGCCATTCGGTCCCTGCCTCTCCCCTTCT
Celera SNP ID:            hCV25756326
SNP Position Genomic:     87911
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65459):
TGGGTGGGGTCCCACTGGGCTTCCAATGTCTTGGAGTCCTCCAGGAGGTGGTGCCATCCAGAAAGATGGGTCTGGAGCTCACAGGGGAGGGCTGGGTGGG
Y
CCCAGAGCGTTTGGGAGGTGGACGGAGTCTCTTCTCCCTGCCGCAGATCCCTATGTCTGTCCCGGAAATCAGCTCCTCCCAGCATCCTGTCAAAACCGGC
Celera SNP ID:            hCV25758506
SNP Position Genomic:     51792
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,40)   total(C,74|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:65460):
TGCCTTTCACAGCCTCCCAGAGCTTTTCTCCTTGCTCTTGGGCTGGAATGGATTTAAACAATTTCGTCTCTCACGGCAGATGCCTGCCTGCCCCCGCCCC
R
CCATGACCCACTCTGGAGTCTAAGGGTAATGTTAATTCCAGGATTAGCTCCAGAAATGGGGGTCATAAACCCATACCAAAGGCTCAATCTTTGAAAGAAT
Celera SNP ID:            hCV27645
SNP Position Genomic:     77362
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65461):
CTGAACCCTGTCTGGGGAAAACTCTCCTCCCCCAGGTTCTAAACACTTTCCTCCCCACCCCTGCTAGGCAAGGGGATGGGAGGTGCAATGGGGAGGACTC
Y
TCACAGCCTCACTCCTGGGGGAGAGGGTAGAAGAGGCTGAAAACCACAAGAGTTCTTACCAGTACTTCCTCGTATAAACTCTTCCGCAGGCTTTTCAGCA
Celera SNP ID:            hCV27969069
SNP Position Genomic:     60723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65462):
CTCCTGAGTAGCTGGGACTAGAGGCACCTGCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTC
R
ATCTCCTGACCTTGTGATCCACCCTCCTTGGCCTCCCAAAGTACTAATGCATTTCTTTATCTTCATTTATAAAGTTATATTTTTTCATGAATAAGTGTAT
Celera SNP ID:            hCV27917630
SNP Position Genomic:     54780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65463):
TTTGGGGCAACTTTTACATGATTTTGGAAAACTACCCAGATGGTGTCAAGAACATGAATGCCTTACTCATAATGATTCCAACTCCCACCCAACCTCTTCC
Y
GTATTGGATAAGTGGACCCAAAGGCTCTGTCGGCTTTCATCTCTGAGACTTTGTTAGAACCCAAGACCCCATGGTTCGACCTTCCCTGCTCCCCTGCAGC
Celera SNP ID:            hCV505385
SNP Position Genomic:     87636
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65464):
TTGGGAGGCTGAGGTGGGAGGATAGCTTTAGACCAGGAGTTTGAGACCAGCCTGGGCAAAATAGTGAGACCCCATGTCTATAAATGATTTAGGCCAGGCA
R
GGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCCGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCTAACATGGTGAAACCC
Celera SNP ID:            hCV2960000
SNP Position Genomic:     9005
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65465):
TTGTGATCCTAACACTTTGGGAGGCTGAGGTGGGAGGATAGCTTTAGACCAGGAGTTTGAGACCAGCCTGGGCAAAATAGTGAGACCCCATGTCTATAAA
Y
GATTTAGGCCAGGCAGGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCCGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGC
Celera SNP ID:            hCV2960001
SNP Position Genomic:     8989
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65466):
CAGTCCGGTGCCCTTTTCACAGGCCAGGTGGGATTTCACAGGCAGGAGGACCTATGAGGAGGAAGCGGGTGTCTGGGGAGGCCAGATGTAGGAGAAGGAC
R
TTCTGGGGGAGAGTTGCTAAGGAGGGGCAGCCTGACCTGATTGATGGCGGAGTTGTTGTGACCAGTGGAAGGGCAGCTGGGAGCAGGACCTGAAGAGATG
Celera SNP ID:            hCV2960002
SNP Position Genomic:     8349
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65467):
CCCTGCCGCAGATCCCTATGTCTGTCCCGGAAATCAGCTCCTCCCAGCATCCTGTCAAAACCGGCCTATCGGATGCCTTCATGATTCTCAATCCATCCCC
R
GATGTGCCAGGTGAGTCTTCAGGGACCCCGCAGAGGCCTTGATGGGGGTAGGACTCCGCTCAGACTGAACCTGAGCTGCTGGGGGGATGGCAGTGGCAGG
Celera SNP ID:            hCV25757136
SNP Position Genomic:     51928
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,1|G,39)   total(A,2|G,74)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65468):
AAGCTGCTGGTGAGAACCACCAATTTTCAGGGAGACCACACAGAGGGTGGCCAGAGACGTGGCTTCTAGTCCCGCCATCTCACTTGCTGTGTGACTTTAG
R
CAAGTTACTTTCTCTCTCTGGACCTATTTTTGCATTTATAAAGTGAGGCTGTTGGCAAAATCTTTGACTCTTGTGCGTGGAATAATGAAGGATCTTTTAT
Celera SNP ID:            hCV15770233
SNP Position Genomic:     7643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65469):
GCATCCCATGTACATTACTGAGCCCACTGTCGGGGCAGGGATGTGTCTGTTTCATCTGCACCTCCCTCAAGGGCTTCTTCCAGGCAGAGTCTCAGGAAAC
R
TGTGCCTGATCAAGCTGTGGAATGAGGGTGAATTAGAGGGGGTCAGATCCCCGGTAGCATCTGCCTCTGAGGCTCTTCTGTGATTCTGGAATGAGAAGCC
Celera SNP ID:            hCV27969070
SNP Position Genomic:     58423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65470):
AGAGTGTCTAAGTTGTCCCAGGATGAGTGAGCGTGAATATGTGTGAGTGCGCCCTGTGATAGAATGGGCTCTGAGTCAGTTCCCGCCTTGTTCCCTGAGC
Y
GCTGGGATAGGTTCCAGCCACCAGAGACCCTGAACTGGAATAATTGTGTAAATAATTATTCTAACTTGTTTTTATGAGTCTTTTTTAAATGTATGTATTA
Celera SNP ID:            hCV2959971
SNP Position Genomic:     31169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65471):
GACTGATCATTTCTCATAGGGTTGTTCTAAAAATCAGATGCACTGATTGCTTGAGAAAGTTAACTAGAAAAATCCCTCCCAGATCTTACCTGAAAGTACA
R
AAATAGGATTATAGTCACAAAAGAGGATTTCCTGGCCTTGAAGCTTCAGGTGTTATCTTTCATATTCTTAATACTCTTCAAGGTGTGGGAAGGGACCGGC
Celera SNP ID:            hCV2959972
SNP Position Genomic:     30704
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65472):
TCTAAACCTGTTTCCTCATCTGTAAGGTGGGACTGATCATTTCTCATAGGGTTGTTCTAAAAATCAGATGCACTGATTGCTTGAGAAAGTTAACTAGAAA
R
ATCCCTCCCAGATCTTACCTGAAAGTACAAAAATAGGATTATAGTCACAAAAGAGGATTTCCTGGCCTTGAAGCTTCAGGTGTTATCTTTCATATTCTTA
Celera SNP ID:            hCV2959973
SNP Position Genomic:     30674
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(G,-|A,-)   SC_12_A(A,1|G,22)   SC_12_C(A,1|G,22)   SC_12_AA(A,3|G,21)   SC_95_C(A,14|G,167)   total(G,232|A,19) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65473):
ATTGTCTAATGGGGATGCTATTGTCTGAAGTGTTATTGCAAAGGTGTTGTGCGGTAATGTCCATTCAGGGCCTAGCACACAGTGGGAGTGGGAAGCATAA
R
CTGACTTGGAATTCGGCTCTGGTCTAGGGGATCAACTATCCCGGGTTTCCCAGGATGGTCCCGGCTTTAGTTCTGAGAGTCTGGCATCCTGGAAATTCCT
Celera SNP ID:            hCV2959974
SNP Position Genomic:     30389
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65474):
TTTTTATATCTTCTTTGGAGGAATATCTATTCAAGTCATTTGTCCGTTTCTTCCCCCTTGCCAATTTTTTAATTAGAATGTTTGTCTTTTTGTCTTGGGC
R
AGTTTCTTAGCCCCTCTACTGAGGAGCCCATTTCTTCATTGTCTAATGGGGATGCTATTGTCTGAAGTGTTATTGCAAAGGTGTTGTGCGGTAATGTCCA
Celera SNP ID:            hCV2959975
SNP Position Genomic:     30251
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,5)      total(G,3|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65475):
CGCTTTGAGATCTAGCTTAGGAGGCGGCATGTCTGGTTTACTGTGGTCTTTCAGGGTTGTCCTTTTGAGAATGGCAGTAATTTGTGGTGGGCTGGGGAGG
R
AGGGCGTGCTTCCTTTGGGCTGTGGGCTGACGTTATAAGTTGCTGAGGTTTTCATGACTATTTGTAACCCATTCATTCACTCACAGTCATTTCTTAAGGT
Celera SNP ID:            hCV9270760
SNP Position Genomic:     62998
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65476):
GTGATCTGCCCACCTCGACCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCGAGTATCTGTTTTGAATTCCTTGGGATCTATACCTAG
R
AGTGGAATTGCTGGGTCATATGGTAACTCTGTGTTTAACTTTTTGAGGAACTGCCAGACTGTTTTCCACAGCAACTGAACTATTTTACATTCCCACCAGC
Celera SNP ID:            hCV2959976
SNP Position Genomic:     29063
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Gene Number:                 411
Celera Gene:                 hCG31619 - 145000147123879
Gene Symbol:                 NEU4
Protein Name:                sialidase 4;MGC18222
Celera Genomic Axis:         GA_x5YUV32VWPT(47325803..47344506)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12571):
CCAGTCGCCTGCCGTTGCTCTTGGAATGAGACCTGGGAGCCCCACAGCCCCTGCCCAAGGGCGTCCCCAGCGCTCCCCCGCTTCTCTGGCCTCCTAGTTG
TGCACAGGCCCGGCTCTCCCCACCCTGTGACCTTCGCTTCTGTGGCTGCAGGCCCTTCTTTGGGTCCCTTGGGTCTCAGCATAGAGCCGGCTTCCCCCCA
GGGCTTCCCTGACCTTCCTTACAAAGGAAGCAGGGCAGGGAGTGTGGGTGGGAGGGCTGTGGGCAGGCACAGGTGTTTTAGGGTCACCCTGAGCGCTCTG
TGGAGAATGGCCAGCAGAGGCTAGGTGACCAGGCGGGGCCAGAGGGAGGCCGGGTGGGGAGAGGTGATGGGCAGAGAGCGGGGCAGCGGGGGTGTGCTGT
GGGGTGGGGGCTGCGGGGCAGAGGGAGGAGGAGGGGCCGGGAGGAGGGGAAAGGAAGAGGGTGGGGGCAGGGAGGAGGCCTCCCACTGTTCTCTCCCTGG
GTTTCTGAGGATGGAGAAGCAGGCGGTGTAGTTGGGCGTGACTTTCTGCAAGACTTTACTTTCTGTGGGTGGGGTATATCCTCCAGGACCTCTGAGGGGG
CACAAGCGAGGGTGAGTCCAGACCCACCCTGTGGGGAACCTGGGTCACGGACCTTCTCTGGGCCTCAGTTTCTTTGTCTGTTAGGTGGGTGTCACCCTGG
CCTGTGGGCAGCTGGTGGAGTGCTGAAGCCCCCTGTGCCAGGGGCCCGTGGAGGGCCCTTCGTGCTGTCTGTGCGCCACAGCATCCCACTCCTAGAGGCC
TCTGGGTCTCCTCGAGATGCCAGTGGGAGCTCCTCCTCCCTCCTCCTGCTCTGCCCACGGACTCCTCCTCCTGAGGCCCCTTCCTGGCGTCCTTGGCCTC
TGTTCTGGGCACCCGGGAACCAGTGACTGGGCTGCAGGGCCTGCGTGTGGCCCTGGCTCTGCTCCCGGAGCTGCCGCACGAGAAGGCGCCAGGCCCAGGT
TCCTCGGCAGATGTGAGGATGGGGGTGCTCCTTGAGCGGGTGTGGCCAGGGCGCGCCTCCTCCCCGCGGGTGGGCCACCCTGGCCTGGGCCCGCGGTCCG
CAGCCCGCCTCTCTGTCGCCACACAGGTGCAGAAAGTCATGCCCAACGACACCTTCTACTTCTCCATCCTGAGGAACCCCGTGTTCCAGCTGGAGTCCTC
CTTCATCTACTACAAAACCTACGCCCCCGCCTTCCGGGGCGCCCCGAGCCTGGACGCGTTCCTGGCCTCGCCGCGGACGTTCTACAACGACAGCCGCCAC
CTCAGGAACGTCTACGCCAAGAACAACATGTGGTTCGACTTCGGCTTCGACCCCAACGCGCAGTGCGAGGAGGGCTACGTGCGCGCGCGCATCGCCGAGG
TGGAGCGGCGCTTCCGGCTGGTGCTCATCGCCGAGCACCTGGACGAGTCCCTGGTGCTGCTGCGGCGCCGGCTGCGCTGGGCGCTGGACGACGTGGTGGC
CTTCAGGCTCAACTCCCGCAGCGCGCGCTCCGTGGCCCGCCTGTCGCCCGAGACCCGGGAGCGCGCGCGGAGCTGGTGCGCGCTGGACTGGCGCCTGTAC
GAGCATTTCAACCGCACCCTCTGGGCGCAGCTGCGCGCCGAGCTGGGGCCGCGGCGGCTGCGCGGGGAGGTGGAGCGGCTGCGCGCCCGGAGGCGCGAAC
TCGCGAGCCTGTGCCTGCAGGACGGCGGCGCGCTCAAGAACCACACGCAGATCAGAGACCCGCGCCTGCGCCCCTACCAGTCCGGCAAGGCCGACATCCT
GGGTTACAACCTCCGGCCGGGCCTGGACAACCAGACGCTGGGCGTGTGCCAGAGGCTTGTGATGCCTGAGCTCCAGTACATGGCCCGCCTGTACGCCCTG
CAGTTCCCGGAGAAGCCCCTCAAGAACATCCCGTTCCTGGGGGCGTAGAGGGGCCGGGCCGGGGACGAGGCCTCCTGCGGACACCAGCTCCTCTCTCCGC
CGTCACCGGGGAGGCCGGGGATCCTTGCAGGGCTTCTGGGGCGTTGGGAAACCCAGGCCCGCCGGCCACGGCTCTAAAATGAAGAGGGCGGAGACCCCAG
TGAAGAGCACCCCCCGCAATCCGCGCAGATCCCTCCCAGAGAAGGCCCTGAGCCCAGGCGGCAGCCACCCGCCCCCCTTCCGAGGCTGTGTCTCTGTTTA
GAACTGAACACGAGGGTGGGGAGTGGGGGATGCTGGACCACAGGGCAGCACCTGCCCGGCAGGATGCGCGTGCCTGTGAGCCCCGGGACTCCCCAGGGTC
CTGGGCACTGGGGCTGTGGATCCTCGGAGGAACTCAGAGTGGTTCCCCTGAATTTCCCGGCCCTGGCGACGAGGTGCTGGTCCCAGAGACAGGTGCAGGC
ACAGGCAGTGCCACAAAGACCGGCCCGGGAGCGGGGCAGGGGCCAGGGCTCAGCCGCTCCCGAACAGCTCCACAGCTTTCGCTGCAGGAGGTTTGGTTCT
GATGGAAGGATGTTTTCTACAGAGAGATGGCACAACTGCTCACAAGACCAGGGTTCTAGCCGGAGCCCAGGTCGAGCTCAGCTCCACGACCCCTGCTGGT
CAGCCCCTGATGCCTCGTGAAGGAGAGGAGTCTCACTTGCCAAAGGAGGCTGGAGTGGTTGGGGGTACACACACCCTTGGTTGCCTTGGAGACCGTGTTG
GGTGTGGTGCCAGAGGGCAGCTGTGGGTACCCCTCTTTGTCATTCACAGGGAGGGACAGAGCCTCCCTGCCTGGCAGGACGTGATCCCTGGCTGCCAGGG
GCTCAGCGGGTAAAGGGGGTGCACTCGCCGGGACCAGCCGATGCCTGGGGCACCCAGGAAACGCAGCTACTCTGCAGCATGCTCAGCCTGGAGGCTGAGA
CCCCAGCAGTGGATCTAGGCCTGCAGGTCTAGGTGTGTCCACGCTTTTTTGGGGACGGGAAACCAGCATTTCAAAGAAGGGAGAGAACCGGAAACCGCAG
CGTAGGCAGCTCCCTCGGACCCCAGTGTAATGGGGGAGTTGCAGGAAGAGTGAATTTTCAGTGAGAGTCGGCCGTGAAGAATGGCAGGAGCTCTGCTGAG
TCAGAGTCAGCCAGGGACGTCTGCAGGCCACCCTCCCTCCCCCTCAGGCNNNNNNNNNNNNNNNNNNNNTCCGCAGGCCACCCTCCCTCCCCCCTCAGCC
CAGGGACCTCGCCCTCCCTCCCTCCCTCCCCCCTCAGCCCAGGAAAGGCACAGGAGAGGATCCTGCCAGGTAAAGGGAAAGTGGCCCGGGAGGAGCCCAC
GTGCCAACAACAGGAGTCCCAGAAGACAGAAAAGACCACAGATGAGAAAGCAGTTCACGCAGAGAACAAAACGTTCCCGGACCAAACCCAGGGTCGGGTT
GCTCATTCCCGAGGCCCGATAGCGAGATGCAGATGAACTGGGGAAGAAGAGGGATTTTATTTCTGTAACTGGTTACAGGGAGAAGGCCTGGAAATGATCG
CCAGACCAACTCCAGATTACAGTTTTTCCAGAGCTTACACACCTTCTAAGCTCTGTGTCTCCGTGTCAGTGTGCATTCGTCTAAAGACGTACGTGATTCA
ATTCTTCTCATCTCTAACTGAGGTCTGGTCCTGAAGATCTTCCTCTGAAGACTCAGTAAATTTACTTGATCTAAATGGGCCCAGGTGTTTACCCTTATCT
TGTTTTCTGCTAAATCATGGAGGTTTGGGGAGTTCCTTCTCCACTTGTTTGTGGAGGCCTGGGGAGTTTTTTCAGACCCCCAGTAAAACTTGTTTAATCC
TAAACGGGTCCTGGTCTCGTCATGCTTCAAGGCCCAAGAAAGCCCTGGGCAAAACTCTTGATGGGCTTTTGTTACGTCCCAGCCCTCGTGTGAGGGCGCT
GGCTCTCAGCTTTCAGGATTTCACTTCACCCTCAGTCAGTGCTGAACAGTTGTCGCGGAGGCCTGCGTGAGTGAGGCCTGGCGTGCCCTGGAAACATTCC
CCTGAGTTGAAGAAAGACTCACAGTTTTCAGCATCCAGTTACCCTCTGAGCATCAGGCAGAACCCGCCGGCCCCAAAACCAGGCCCCCTTGGCACATGTG
GGCCCGAGTGAGTCCAGCATGAGGAGGTGCCGCTTCTGAGCAGAGCTCAGGTTGTCTCTGGGAGGAGGAGCGAGCGTTGGGTGCGGTGGCCGCTGCGTTG
GCAGCCCTGTCCCTGAGCGGAACGCAGGTCGTCTCTGGGAGGAGGAGCGAGGGTTGGACTCAGTGGCCGCTGCGGTGGCAGCCCTGTCCCCAGGCGTGGA
CTCTGCCCTCAGCTTCACAGTCACCGAAGAAATGAAGTTACAGGAGGGGCACACCGTCCTTTTGTCTCTGCCTTTGAGGTTGGCGGGAACTGAAACTGGT
ACGGTCTTTTTGAATAGAAATTTGGGGTCTTTCTGGCGACGTAAAACTGTGTGTAGTTTGCAGTAGAGAGTGTTGAGAACAGCCTGTCTGGGCTGTGCAT
TGAGAAGGGGCGGTTAAAATGCTGCCACGTCGTGCAGCCCATAAAAGGGGGACACAGAGTAGCCGAAACTGCTCTTGGGGGAGGGGGCACGTCCCAGCCT
TCCGTGTGATGCTGGGGTCAGCGTGGCCCCTCGGCTGCCAGAGCTCACGAAGACGGTTAAGGAAAGCTTCCCCCGGGTGGCTTTCACCCCACGGGGACAG
AGCCCCAGATGGGCCCAGGGACCTCTGAGCAGCCGTGGGCCATGGGGTGACAGTTGGGGGTTGGTGGGACCCGTGGCTGTCATATACCCTGGGTAGACGG
TGGCTTGTCCAGGCAGAGATGCCCAGGGGAAGTGGGTGGCACCTGAGGGCAGATCTGACTTTTCAAGAGAAGCTGAAAACACGGGTTTTTCTGTGAAATC
TCTAGATTGAAAACAGTGGGCTTGAAAAGCCTGGAGCAGAGGGAGTGAGGCCTGCTCCCCACCCCAGCTCTGCGGGCACACCCTGGCCAGACAGCCCTGC
TCCAGACCCGGCCTGTGTCTCAGGGTGGCCCAGGAGGGGACTTTGCAAGGTGACGTGGGGCTTGGAGGTCCCGTTTCCCTGTAAGCCTGGGTACTTAGGG
GATGGCCCTGGTCAGACTCCACCAGTCCCAGACTTGGGGGACACGAGAAGGGAGATGGGCCACCCAGTTCTGGTTGGGCTGGGGTGGGGCTTCTGAGGGG
TGGGGAGGTTGTCCCTTCCCACCCACCTGCCCCTGCCCCAGGATTCTCGGCTGTGAGCAGGAGGATGTGTACGATGGCCAAGTTGCCTGGACTGGGTCCG
CCCCTCCTGGGGCTGTGAGTGCACAGGACACTGGGCCCACAGGCACCTCTGGGGCTCTGTCCCCGTGGGGTGAAAGCCACTGGGGGGAAGCTTTCCTTAA
CCGTCTTCACGAGCTCTGGCGGCCGAGGGGCCACGGGGGGCATTCAGATGAGTCAGAAGGAGCTGGGGCCCACCCCTCCTGCTTCCTCGCCGCCCCCCTC
CCAGCTGCCCCCAGTAAATCCCCTCAGGCCCCTAGGACCTGGAGGGACGCGGCAGGTTTATCATCTCAGCCTGGAAACCACGTGACCTACCTGTTTCCCA
CCACAGCGCCCCAGGTTTCAGAAGCAGCTGAGGATGCCCTTCGCAGGGGAGGGAGGGACAGTGAGAAAGGAGGGTGTTCAGGGCCCAGGGATCCCCCACG
GAGGCTGCCCCATCAGAACTTACCGGGGACCTGTGGCCTCCTCTGAGATTCTGGCCTGGGCAGTGGTCATTTGAGCATTGGTTACCAAGGCTGCCTCTGA
AATGGCAGGCTGGGGGCAGGCCAGCGTGAAAGGGACTGGCAGGAGTCCTGCGGGGACAGGCTGGGGGCAGGCCAGCGTGAATGGGACTGGCAGGAGTCCT
GCAGGGCAGCTGTGCTGGGGAGGGGTCACCCTGGGCCCTGAGAGGCACAGGACATTGCGATGGGGTGCTGGCCTGCCAGGAGCACAGATACAGAGCTAGA
GCCCAGCGAGGCCTGTGCTGYGAGGGGCTGTGCTGTGCCAGGGGAGGCCCCGCACCCGGGAAGCCCAGAGGAGAGTGTGCACTCACGGAGCCCTCCTGGC
AGGGCCGCGTCTCTGGAGCAGCAGACCCGTGTCCCTCTGGGAGGTCAACTGCGGCCTCACAGCTGGGCCTGTCCCAGCACAGCCCTTGTTGGAGGGCGCA
CCCCCGTSTCCTCAGCACCCCAGTGTTGAGTGCMTTGACCTGCAGASGGGAGCCTGTGCTGGTCCCGGGCGTCTGTGTGGCTCCTGGGTGCCCATCTGCA
CCCCTGGCCCTGCTCTGGGCTTCAGTGGAGCCGTGCCACCGTGGGAGTGTCCAGGGTCCTGACGTAGCCCTGAGACGTGGCCAGCTCCCTGGCCTGCTGC
CCGCACAGTGGGCCCTTGTCTCTGCTCTGGGTCAGGCGAGGCAGCCACCCATGATGAGCTCTGCAGCCTTCCCAAGGTGGCTGGTGAGTCCCTGCCCTTT
GCACCCCCAGCACCCTCACCCCTCTACCCGGGCGCCCGGGGTCAGGACCCGCTCCTGAGGTATCTGTCCAGCTGGCCGCCCCCTCTGTCTGGGGGTGCTG
GACGAGTCCCACTCCTTGCCAACCCCAGGGTGGCTCCTCAGCTCTCAAACAAGGGGCGGGCTGCAGGGATTCCGAGGGCCCCTCCAGCARGAGGTCCCAC
ATGCATCTCCCAATGGGACACTTACCTGGCCCACAGGGTGGGTGTGACACTGAGGGTTCCTGGGGGCAGATTCAGGGCATGGGATGGAGACAGACTGGTT
GTGAGGGGCCCAATGCAGGGGGCCGGCCCCAGCCCACAGGGTCGTTCTGCAGATGGGCTGGTCGGGGACGCTCTACCAGGTGAAGGGTCTRTGGTCGGAG
TCTTCGCCCTGGCCAGGGCCCAGGACGCTCAYGGTGCAGGCTGAGGGTCAGAGCCGCCGAGGGCCCCCTGCCGGGATTCTGTGCAAAGGGCCTCTGCACT
TTATGTGGGTGCATGTGAATGCCCCTCGCCAAGATGTTCCTACCCTGCACCTGACACTTCCCACGACAAGAAGTGCTGACCCCAGAGGGTGTGCGCGGAC
CCCAGAGGGTGTGCGTGGACCCCAGAGGGTGTGTGCGGACCCCAGAGGGTGTGCGTGGAGGGCCTGGTCTGACCTCAAGGCTCTTGGGGCRCCCACACAG
GATGGGCTGTGAGGGGTTGGCGGGGGTGGGGGGGGTGGTCTGTGATGGCCCCCTGCTGAGCCAGAGTGACCCCTACAACCGGTCCAGGGGTCCACGGACC
AGAAGGCCAGGTTCTCCTGGAGGTCCCATCTCCCCTGGGCCTCGGTTTCCCCTTCTGTGACTCCACACCCCCAAGGAGGGCCCTGTCAGGGAGGGCGGGG
GGCACTGGTTAATGTCCAGGACATGGCTGTCCCAGTCAAGCCAAACCCCTGGAATGTGCTGAACTGGCTACACTGAGCGGGGCTGGCCTCCGAGACAGAG
GGGCCTGCCGAGGACACGGAGGCTCTGTGGAACCCAGGGCCTGGCCACACTAACTGGGGCTGGCCTCCGAGACAGGGGAGGTCCTGAGGACACGGAGGCT
CTGTGGAACCCAGGGAACTGGTCACACTGAGGACACGGAGGCTCTGTGGAACCCAGGGAACTGGTCACACTGAGGACACGGAGGCTCTGTGGAACCCAGG
GCCTGGCCACACTGAGCACGGCTGGTCCCCCAAGACAGAGGGACCTCCTGAGGACACAGAGTCTCTGTGGAACCCAGGGCCTGGCCACATGGAGGACACG
GAGGCTCTGTGGAACCCAGGGCCTGGCCGTGGCAAGGAAGCCCCAAGCCAAGTGTGTGTCAGCCTTGTCCTCTCTGTGGGCCTCAGTTTCCCCTCTGTGC
AACAAGGGGAGTGACCAGCTGGTTTCTGGAGTCTCCTCCTCTCCCTCTCTGTCCCCAGGGGTGGGCCTGGGCCTCATGTCTGCAGGGGGTGCTGACACCT
GCTCCTGTGGTCCGGGCCTTGGGGAGGGAGCCAAGTGCAGAGAGAATGTCTTGCTTGTGCCTGCTCAGCCCAGAGGGACACATGGCGTCTGCACCTGCTT
CCCGCTTGGGCACAATTGCCCTTTGAGAGCAGAGCCAGGGGCTTCTTGGGGACGGAAGCTGCTCTCAGAAGCCGCGCACTGGTGGTGGGGGAGCRGCAGG
AAGGGGCCGGCCAGCTGTCCTAGCCAAGAGCCTTTCAGGAACCGGTGGCCCAGGGCAGAGGTGGCTGGAGGTGGAGCTGTCTGTTTGGGCCTCAGGTGTC
GGGGCAAGGCCTGCTTGGGTTTTACACGAGTGTTGCGCCTTTACCCGGGTCTCTGTCAGTGGGTCCCGCCTGACCCGTGGGTGTGCATGGGTCCCCGTCG
TAGGCAGGCGTTCTGCCCTGGCCAGGCGTGGTGTCCGGCATCCGGCCATCTCCCTCCTCCCTCCTTCCCTTAGCCCCGCATCCAGGTGCCCYGTGTGCCC
GGCCTGGGCGGCTGGCCGTGGATCTGACCGCTCCTGCATGGTGGAGGACCAGCGTTCCCACTGTCTGCAGCTGTGCCACCTCCCTGTGCCGGGCTGTGCG
TGCTCACGCTCGGCTCCGTCTGCCTTTGTGCGATCAGACTGAGAGACCCCCCAGGCAGGTCCCGCCTGCAACAAGCAGACCCCATGCGTGCCCCAAATGC
CCCCTCACCCGGGCCCTGCCCTGGTGGGTGTTGCCTGGGAGCAAACTCCCAGAATGGCCGCCGGGCCCCACTCGGCTTTGGAGCTTCTGATTCCTGTGGG
CGCTTCTCAGGTCAGGGCCCTGCAGGTGGGAAGCACCAGGCACTGGAATGAGGGCACTGTGGGGCCAGCTGCCTGCAGGCAGGGGTCTGATCACCAAGCA
CCTGTCCCCTGCAGGATCCCTGGCTGTGGCTCCCCCGATGACGTTCAGGAAGTGGGAGCCGATCCCCTGTCCCCAGAGAGCCCCGTGACTCCCCCGATGA
CGTTCAGGAAGTGGGAGCGGATCCCCTGTCCCCAGAGAGCCCCGTGACTCCCCCGATGACGTTCAGGAAGTGGGAGCSGATCCCCTGTCCCCAGAGAGCC
CCATGACTCCCCCGATGACGTTCAGGAAGTGGGAGCCGATCCCCTGTCCCCAGAGAGCCCCGTGGCTCCCACAGGTCCCTGTGGGCTCACCTCTTTGTGT
CTCTGCTGTGGCTTCCACGGTGCTGTGGCCTCTATTCTGGGGACACTGAGCTCCTCCTTGCTCGAGGTTTTGGGTCCTCATTGTCCACATGACCTCCTGC
TGGGCGAATTCTGGGATGACCCTGTGTCCTGGGCACATGGCTGGCAGGGTCCCGGGGGCTCTCTGGCCAGCCTCCCSTGCACCCTGGCACCAACCAGCCT
GGCCGAGGGTCAGCTCCCAGAGCCGTGTTGAGAGGGGAAGGGGCTGATTCCACAGACATTTGGGGTGSAGTGGGTGCGAGGGAGGGTGGGGGAGGGGCTG
CTCCAGATCTGGGGTGAGGGAGTCAGAAACAGGGCTGACCCCAAGGTGGGTACAGGAAGAGGCCCAGGTGTGGGCAGGAGCTGTCTGCACCTCCTGAGCG
CGTTCCCCAGTCCAGACCGGGAGCGAGTGTGGGGCTCCCTGGGCCTGTCTTGCTGACCTGTGGCCCTGTACTGACCAGCAGAGCATGGGGGTCCCTCGTA
CCCCTTCACGGACAGTGCTCTTCGAGCGGGAGAGGACGGGCCTGACCTACCGCGTGCCCTCGCTGCTCCCCGTGCCCCCCGGGCCCACCCTGCTGGCCTT
TGTGGAGCAGCGGCTCAGCCCTGACGACTCCCACGCCCACCGCCTGGTGCTGAGGAGGGGCACGCTGGCCGGGGGCTCCGTGCGGGTGAGTGAGTGGCCG
GGGGCTCTGTGTGGGTGTAGTGGCCGGATCTGCTGGGGCTGCACACCCCGGGATGGGGCGGGGGTGGYGGCGGCAGGCAGATGCCCGAGGTAGAGATGAG
CAAACCAGGCTCAGCGATCCTGGGTGCCCTGCGGGGGGCTGTGCCCAGGTCCCTGGACGTCCTGGTCAGCGGAACTTCCTCCTCTGGGCAGTGGGGTGCC
CTGCACGTGCTGGGGACAGCAGCCCTGGCGGAGCACCGGTCCATGAACCCCTGCCCTGTGCACGATGCTGGCACGGGCACCGTCTTCCTCTTCTTCATCG
CGGTGCTGGGCCACACGCCTGAGGCCGTGCAGATCGCCACGGGAAGGAACGCCGCGCGCCTCTGCTGTGTGGCCAGCCGTGACGCCGGCCTCTCGTGGGG
CAGCGCCCGGGACCTCACCGAGGAGGCCATCGGTGGTGCCGTGCAGGGTAGGCGGGCAGGGTGCCGGTCTGGGTCCCTTTGATTGGCCACGGTCCACATG
GAAGGGAGATTCCAGCGGGAAATTGCCATTCTGCCCCACCCCTGTCTCCAGCCACAAGGGAACCAACCATCCCTTTCCCCAGGACTGTTCTGCGCCTCCC
GTCCCAGGCAAATCCCTCTCCCCAGGACCGTCCTGAGCCTCCCGTCCCAGACAAATCCCTCTCCCCAGGACTGTTCTGCGCCTCCCGTCCCAGGCAAATC
CCTCTCCCCAGGACCGTCCTGAGCCTCCCGTCCCAGACAAATCCCTCTCCCCAGGACCGTCCTGAGCCTCCCGTCCCAGACAAATCCCTCTCCCCAGGAC
CGTCCTGCACCTCCCGTCCCAGGCAAATGGGTATTGATCACCCCCAGTCACCCAGTGGGCAGGAGCAGGCCCTCTATGGCTGACCCGACTCTCTCTCATC
CCCCCCGCTAATCTCTTTATCTGCAGAGGAGAAGGCTGGACGCTGAGGTGTCTCTCAGCTCCCAAACCAACAGCCACCCCGCCCCACCCCTTCCTCTTAT
TCTTTACTCCCTTCTCACCCTGCCCAGGGCCTGGCCAGGCCTCACCCACAACTTTCCCTCCACCCCATCCTCTGTGGCCACCTGACCCCGGCCCGTGGGA
GCTACAGCAGGGAGTGCAGCAGACACATGGCCAACCCAGGGACCCCACTGCAGGGCCTCATGCCCCCCGCCTGCCCTCYGCTCTCTCTGTGTGGGCAGCG
CTCACCAGCCTCCCTGGGTGCCGTCCACCTGGGCTCGGCTGCTAAGRGCTGTGAGAGGCTTGTTCAGCCTGGGAGGACTCAGGGCGGCTGGGATGAGTCG
TGTGGAAGGGCGGTCAGAGTGCGATGGTCCTAACCCGAGGCACCAGCCCCTCCTTCCCCGTCCCCCTGTGCCTTCCTCCAGCCCCCCGACCTCRGGGACC
CAGCAGCCCCTCCCACCTCTGCCCTCCTCCCTGCAGACTGGGCCACATTCGCTGTGGGTCCCGGCCACGGYGTGCAGCTGCCCTCAGGCCGCCTGCTGGT
ACCCGCCTACACCTACCGCGTGGACCGCCGAGAGTGTTTTGGCAAGATCTGCCGGACCAGCCCTCACTCCTTCGCCTTCTACAGCGATGACCACGGCCGC
ACCTGGCGCTGTGGAGGCCTCGTGCCCAACCTGCGCTCAGGCGAGTGCCAGCTGGCGGCGGTGGACGGTGGGCAGGCCGGCAGCTTCCTCTACTGCAATG
CCCGGAGCCCACTGGGCAGCCGTGTGCAGGCGCTCAGCACTGACGAGGGCACCTCCTTCCTGCCCGCAGAGCGCGTGGCTTCCCTGCCCGAGACTGCCTG
GGGCTGCCAGGGCAGCATCGTGGGCTTCCCAGCCCCCGCCCCCAACAGGCCACGGGATGACAGTTGGTCAGTGGGCCCCGGGAGTCCCCTCCAGCCTCCA
CTCCTCGGTCCTGGAGTCCACGAACCCCCAGAGGAGGCTGCTGTAGACCCCCGTGGAGGCCAGGTGCCTGGTGGGCCCTTCAGCCGTCTGCAGCCTCGGG
GGGATGGCCCCAGGCAGCCTGGCCCCAGGCCTGGGGTCAGTGGGGATGTGGGGTCCTGGACCCTGGCACTCCCCATGCCCTTTGCTGCCCCGCCCCAGAG
CCCCACGTGGCTGCTGTACTCCCACCCAGTGGGGCGCAGGGCTCGGCTACACATGGGTATCCGCCTGAGCCAGTCCCCGCTGGACCCGCGCAGCTGGACA
GAGCCCTGGGTGATCTACGAGGGCCCCAGCGGCTACTCYGACCTGGCGTCCATCGGGCCGGCYCCTGAGGGGGGCCTGGTTTTTGCCTGCCTGTACGAGA
GCGGGGCCAGGACCTCCTATGATGAGATTTCCTTTTGTACATTCTCCCTGCRTGAGGTCCTGGAGAACGTGCCCGCCAGCCCCAARCCGCCCAACCTTGG
GGACAAGCCTCGGGGGTGCTGCTGGCCCTCCTGACAGGCCTTCTGGCCGTGCCCATGCCCCTTGGGTGCCTGGGGCAGAGGGGTGGAATACGTTGGGGTG
CCCCACRATAGCTGTGGGGGGGGCTCTTAGTGCARGATCCTGTGGATTAGAAACAAGTTGCTCCTCAGAGCTCTCAAGCAGGGACTGCTCTTTAGGAAGG
GGAGCAGCGGCTGGGAGTGAGCAGGGCAGGGTGGGGGCAGGGTGGGGGCACGAAGTGGGCCCTGGGTGACCCCCACAGCTCCCTTCCGAGGCTGCAGGGC
CAGGCGCGGGACCGCAGGTAGCCCAGGGTRTTGTGGGTGGCAGCACTTGTTTACTGGCTGCTTTCTGGCTCGAAATAAAGGAATCGTGCTTGTGTCGGGG
TAGACGTTTCTTTCCTTTTCAGGTTCCAGCCCTGGGGAGGGGAGCTCTGCTGTAGCCCACTTCTCTGACCCCCATCCCAAAATCCCACTGCCTTAGCAAA
GCTCTACTCCTAAATGTCCTGGGGCCAGCAGAGGGAAGGCGGGAGGGAGGAAGCGGCCTCCGCCCCTGGCCTCCGGTGACAGTGATTTGCAAGTGGTCTG
CCGTGCTCTCTGAACTTCCTGCTGGAGGAGTAGGAGGTAGGGCCTCTCCCCGCAGAGTTGAACGCCAGGAGGGGGTCACCTTCCAGGACCAGTCCAGTGT
CCTGCTCCCCTGACCCCACCCTGGAGGGGGCTTGGGCTCCACTGGGGCTGTTTCCCCAGCGAAGTTCCTTTTTATTTCTTCTCCTTTTATAGTCTTCATT
TCTGATGATAAAAGCAACATATGCTTACTGTAGAAAATCTGGAAAACGAGCCGGGCGCGGCGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAAG
CAGGTGGATCACCTGAGGTCAGGAATTCGAGACCAGCCTTGCCAACATGGTGAAATCCCGTCTCTACTAAAAATACAAAAATTAGCTGGATGTGGTGGTG
GGCACCTGTAATCCCAGCTACTCGGGAGGCTGGGGCAGGAGAATCACTTTAACCTAGGAGGTGGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCCCTCC
AGCCTGGGTGACAGAGTGAGACTCTGAAAAAAAAAAAAAAGAAAATCTGGAAAATGTAGAAAACTATAAAGAAGAAAGAGAAGTGAGCCCCCGGGCCCCT
GTCCCCACGGGCCCTTCCTTCTGGCTTCCTTTCAACGGTCCTGCCCAGCCTGCTGTCACGCCCATGGACGACGGCGCCAGCCGGGGGGTGCACACGTGTG
TCCCACCCATGGATGATGGCACCAGCTGGGGGGTGCACACGTGTGTCACACCCGTGGACGATGGCATCAGCCAGGGGGTGCACACGTGTGCCACCTTCTT
CCCGGCCCTGAATTGTGTGTGATGGGCTCCTTTGCACGTCTCTGGGTCTGGTCACCCCTTGGGCTGGCTTCGGTGACCACTCCCAAGGGTGGGGACCCAC
GGCCAGCCCCCAGCAGTGCGGAGCGTCCAGGTGGTCTCTGAGTCGCCGAGGGTCCCCAGGGGAGCAGAGATGACCTCCCCTTGCGGCCCCCTTTTCCCCA
GCAACTGCCCTGCCAGGACGGCTGCTGCCTGAGAGGGGACACCACTGGGTTCCAGACGGGGGCAGGATGGGGGCCTGGATCCGGGGCCCCTGACAGCCCT
GAGTTCCCACAATCACCCCGGGCCCCTCCCCACCTCAGGCAGCCTCAGCCCCTCATAGGAGGGGCCCGTTGCCCGGGCCCTGGCAGTGCTGGTTTTAGGG
GGTCTGTGTCTTAGTCCCTTGGGGCTGCCAAAATGAAATACACAGACCAGGGGCCCTGGAAACAACAGAAATGTATTTATCACGGTTCTGGAGGCTATAA
GTCCAAGGTCAAAGTCTGTGATCATGAGGGCAGGCTCCGTGTCTGGTAAGGGCCCAGTTTCCGGCTAGTGGATGGCGGCCTCTGGCTGTGTCACACACGG
TGGGAGGGAGAGGTCTCTCCTGGGTCTCCTGTATGGGACACTATCCCATTCATGAGGGCTCCACCCTCCCAGGAGGCCCCACCTCCTGACCTTATCACCC
TGGAGTTAATATTTCAACATGGGAATCTGGGGTGCACGTGTAGATCACGTGCTGGGTGCCTTGTGTCACGTGTGTGTCCTGACTTGTGGCCCGTGTGTAG
GTCACATGCTGGGTACATTGTGTCATGCATGTGTCCTGGCTCATGGCCCGTGTGTAGGTCGTGTGCTGGGTGCATCCTGTCATGCGTGTGTCCTGGCTCG
TGGCCCGTGTGTAGGTTGTGTGCTGGGTGCATCCTGTCATGCGTGTGTCCTGCCTCGTGGTGTGTGTGTAGGTTGTGTTCTGGGTGCATCCTCTCATGCG
TGTGTCCTGGCTCGTGGCCCGTGTGTAGGTCGCGTGCTGGGTGCATCCTCTCATGCGTGTGTCCTGGCTCGTGGCCCGTGTGTAGGTCATGTGCTGGGTG
CATCCTGTCATGCGTGTGTCCTGGCTCGTGGCCCGTGTGTAGGTTGCGTGCTGGGTGCATCCTGTCGTGTGTGTCCTGGCTCGTGGCCCGTGTGTAGGTC
GTGTGCTGGGTGCATCCTGTCATGCGTGTGTCCTGCCTCGTGGTGTGTGTGTAGGTTGTGTGCTGGGTGCATCCTCTCATGCATGTGTCCTGGCTCATGG
CCCGTGTGTAGGTCGTGTGCTGGGTGCATCCTGTCATGCGTGTGTCCTGCCTCGTGGTGTGTGTGTAGGTTGTGTGCTGGGTGCATCCTCTCATGCATGT
GTCCTGGCTCATGGCCCGTGTGTAGGTCGTGTGCTGGGTGCATCCTGTCATGCGTGTGTCCTGCCTCGTGGTGTGTGTGTAGGTTGTGTGCTGGGTGCAT
CCTCTCATGCGTGTGTCCTGGCTCGTGGCCCGTGTGTAGGTCGTGTGCTGGGTGCATCCTGTCATGCATGTGTCCTGCCTCGTGGTGTGTGTGTAGGTTG
TGTGCTGGGTGCATCCTGTCATGCGTGTGTCCTGGCTCGTGGCCCGTGTGTAGGTCGTGTGCTGGGTGCATCCTCTCATGCGTGTGTCCTGGCTCGTGGC
CCGTGTGTAGGTCGTGTGCTGGGTGCATCCTGTCATGCGTGTGTCCTGGCTCGTGGCTAGCAGGGTCATCACAGTCCACTCTTCTGCCTTCAGATCTGAA
GCAAAGGAGCCACAGGCCTCTCTGGGGTTCTGGAAGCCGTGGAGCCCACTGCAGCTCTGCATGGCCCATTCTTCGTCATTCTCTTCTATACTGGGGTGAG
CGGCGTCCCCAGCTTCATGTCCCCCTGGAAGCTCAGACTTTGCTACCTTATTTGCAAGTAGGGCCTTTGCAGACGTGATGGAGGTAAGAGGAGGTCATAC
TGGATTGCAGTGGGTTTAGCCCAGTGACGTCCGTCCTTGTGAGTCACAGACGCAGGGAGGAGCCATGTGAAGGTGGAGGCAGAGGCTGCAGTGATGCCGC
CACCAGCCACGGGGGCTGCTCAGAGCTGGAAGAGGCTGAAGGACCCTGCGCTGGAGCCTTCAGAGAGGGTGCGGGCCTGTCACCCTTGGCTTCAGACGGC
CTCCAGAGCCGCGAGAGGACGCATTTGCATTGCTTCAGCCGCCAGTCGGTGAGATTTGTTGCGGCAGCCTGGGAAGCAGCACACCTTCCTGCCTTTGCCG
TCTGTCCGTCCGTCCGTCTGTCCACATGGGCCTCAGACCCCGGGGGATCCTGGCCGTCACTGCCCGGCCATGTGCAGCCTCGGCCTGTGTCAGACAGACT
TGGGCTCGAGGTCCCCAGGAGCTCCGGTCGCCGTGGTGGAGCCTCTCGATGTCTCGGGCTGTCTGCGGCTGGAGCACCCTCTGAGCTGGGGTTGGGTCAG
GTCTGAAGAAGGGGCCGGAGCTGGCCCTGCCAAGGGCCCCTCCTAGCAGCCGTGGCCTCCTCAGGTGGGGCCCAGGGCTCCGAGGCCCTGACTCCTCCAG
GTCTGGGCAGCTGCTCAGGACCGGGGAAGGCTCTGCCAGGTGTGATGCCCCAGGCTGGGAGAGGGTGTGGCGGGGGGGCTGCCTGGCTCAGGGCAGGTTG
AGCCCTTCCTCCTGCCCTCCTGCCACTGCCCCAGCTGTGGCAGGCTCAGGACATCTGGTGTCTGCTGGTGGGGGGGTCGCTGTGCCTGGGGACAGTCCTT
CCCCCCTGCTGCACTGGGAGTTCCTCTGGCATCCTGGGAGGCCTGTGCCTCGAGAGAGACCAGCCCCCTAGATTCCTCCCACCACGGGCGGCTCCCCGGC
ACCCAACCGGCTCCTGAGCCCCTGCCCCACCTCCACATTCCCGACGGCTGCTCTCCCAGCCTCTTTTCCTTCCTTCCACCCCTGTATGGTTTCGATCTGT
GTCCCCTCCCAAATCTTATGTCGAATTGTAATTCCCAGTGTTGGAGGTGGGGCCTGGTGGGAGGTGACTGGATCATGGGGTGGACTCTCAGGAAGGGTTT
ACTGCTATCGCCTCGGTGCTGTCCTCATGACAGCGAGTTCCCCCGAGACCTGGCTGTTTAAAGGTGTGCGGCACCTCCCCACCTTGCTGCTGCTTTCGCC
ATGTGACGCGCCTGCTCCCCCTTCTCTTCCACCAGGATTGTGGGTTTCCTGGGGCCTCCCCGGAAGCCGAGCAGATGCCAGCACCACGCTTCCTGTAAAG
CCTGCAGAACCGGAAGCCGATTAAACTTCTTTTCCTTAAGAATCACCCAGCCTCCGGTGTTCCTTCACAGTAGGGTGAGGGGGGCGAACGCACACCCTGA
GCCTTAGGGGCAACTCCTGCTGCTGTGCCCAGGCTGGGCCGGGCAGTGGCTCAGGAACGTGGCGGGGAACACGGTGCCAGTGCTGGGGTCAGGGCTCTGT
CGTGGAGGCAGGATGTCTCTGTGGTTCCTTCCTAACCCTCATCCTTTTACCTCTTGTCCTGGCTTACTGGGCTGGCAAGGACCTCCAGGAAGATGTTAAA
CAGCCTTGATGTCTGATAGGCCAAACAAGGGCCCGGAAGCCGTCTGCATCCTCACTCCGGGGCCTGCACCATGACGTCATGGCGAAGGGCTGCGCCGAGG
GGGCCGGCTGAGGGTCTTGAGGTGAGAAATCATCCTGGTCATCTGGGTGGGTCCAGGGTCTCACCAGGGTCCTTATGGGAGGGGACAAAGGGTGGGAGAG
GAGGGAAGAGGCCTTGGAGCTGGGTTTGAAGATGGAGGAGGGGCCACAGCTGAGGAGCCGGTGGCCTCTGGAAGCTGGAAAAGACGGGAAGCGAAGCCCG
GACAGCCTGCAGAGGAACCAGCCTTGCGGACCCCTTGATGTTAGCCCGGGGAGGCCATGTCAGACCCCCGGCCCCCAGAACTTCTGGGGATGCATTTGTG
TCGTTTCAACCTCCAGGTCTGTGTGATTTGCTATGCAGCCTCGGGAAACAGCTGTGTGGCCACCAGGGTCCCACCCTGCTCCCGCCTTCTGGGCTCCAGG
ACGCAGGTGTGGGACCCCTCACCATCCGCATGGCCCTCTGCTGTGCACTCTCCTTCTCGTTCATGTCTGTGCTGCATTCTGGTTGGTTTTCCTTGGCTTT
TTTTTTTTTCTAGTTCACGAATTCTCTCTTTGCTGTGTTTAATCAGCTGGGAGTTACTCTCTTGCTCCCTCTCTCCCTCCCCCATCCTTTCTCTGTCCTT
GTCTCTCTGTCTCTGTGTCTGTCTCTGTTTCTCTTTGTGTTTGTGTCTCTCTCTGTCTCTGTGTCTCGGGCTGTCTCTCTTTGTGTTTGTGTCTGTCTCT
TTCCGTGACTCTGTCTCCCTCTGTGTCTCTGACTCTGTGTCTCTGTCTCTCTGTGTCTCTGACTCTGTGTCTGTCTGTGTCTCTGACTCTGTGTCTCTGT
CTCTCTGTGTCTCTGACTCTGTGTCTCTGTCTCTCTGACTCCGTGTCTCTTCTCTGTGTCTCTGAGTCTGTCTCTGTGTCTCTGTCTCTCTTTCTCTGTC
TCTGAGTCTGTCTCTGTCTCTTTGTGTCTCTGACGCTTTCTGTCCCTGTCTCTCTCTGTGTCTCTGTCTCTGTGTCTCTGTCTCTGACTCTGTATCTCTG
TCTCTCTATGTCTCTGACTCCGTGTCTCTGTCTCTCTCTGTGTCTGAGTCTGTCTCTGTGTCTCTGTCTCTCTTTCTCTGTGTCTCTGTCTCTGTGTCTC
TGTCTCTCTGTCTCTGACTCTGTGTCTCTGTCTCTCTGTGTGTCTGTCTCTGTGTGTCTGTCTCTGTGTCTCTGTCTCTGTGTCTCTGTCTCCCTGTGTC
TCTGTCTCTCTCTTTCTCTGTGTCTCTGTGTCTCTCTGTCTCTGTATCTCTGTCTCTCTGTCTCTGACTCTGTGTCTCTGTCGTGTCTCTGTGTCTCTCT
CTG


SNP Information

Context             (SEQ ID NO:65477):
CAGGCCTTCTGGCCGTGCCCATGCCCCTTGGGTGCCTGGGGCAGAGGGGTGGAATACGTTGGGGTGCCCCACGATAGCTGTGGGGGGGGCTCTTAGTGCA
R
GATCCTGTGGATTAGAAACAAGTTGCTCCTCAGAGCTCTCAAGCAGGGACTGCTCTTTAGGAAGGGGAGCAGCGGCTGGGAGTGAGCAGGGCAGGGTGGG
Celera SNP ID:            hCV11536383
SNP Position Genomic:     12435
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(A,171|G,1314)   total(G,1314|A,171)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65478):
CAGACTGGTTGTGAGGGGCCCAATGCAGGGGGCCGGCCCCAGCCCACAGGGTCGTTCTGCAGATGGGCTGGTCGGGGACGCTCTACCAGGTGAAGGGTCT
R
TGGTCGGAGTCTTCGCCCTGGCCAGGGCCCAGGACGCTCACGGTGCAGGCTGAGGGTCAGAGCCGCCGAGGGCCCCCTGCCGGGATTCTGTGCAAAGGGC
Celera SNP ID:            hCV11536366
SNP Position Genomic:     6891
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65479):
CCTGCCTGTACGAGAGCGGGGCCAGGACCTCCTATGATGAGATTTCCTTTTGTACATTCTCCCTGCGTGAGGTCCTGGAGAACGTGCCCGCCAGCCCCAA
R
CCGCCCAACCTTGGGGACAAGCCTCGGGGGTGCTGCTGGCCCTCCTGACAGGCCTTCTGGCCGTGCCCATGCCCCTTGGGTGCCTGGGGCAGAGGGGTGG
Celera SNP ID:            hCV2769364
SNP Position Genomic:     12286
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,1)      total(G,1|A,1) ;JBIC-allele(A,304|G,437)   total(G,437|A,304)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65480):
TGGGGGTGCTGGACGAGTCCCACTCCTTGCCAACCCCAGGGTGGCTCCTCAGCTCTCAAACAAGGGGCGGGCTGCAGGGATTCCGAGGGCCCCTCCAGCA
R
GAGGTCCCACATGCATCTCCCAATGGGACACTTACCTGGCCCACAGGGTGGGTGTGACACTGAGGGTTCCTGGGGGCAGATTCAGGGCATGGGATGGAGA
Celera SNP ID:            hCV2769372
SNP Position Genomic:     6690
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65481):
GTGCGCGGACCCCAGAGGGTGTGCGTGGACCCCAGAGGGTGTGTGCGGACCCCAGAGGGTGTGCGTGGAGGGCCTGGTCTGACCTCAAGGCTCTTGGGGC
R
CCCACACAGGATGGGCTGTGAGGGGTTGGCGGGGGTGGGGGGGGTGGTCTGTGATGGCCCCCTGCTGAGCCAGAGTGACCCCTACAACCGGTCCAGGGGT
Celera SNP ID:            hCV11536367
SNP Position Genomic:     7191
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65482):
CCTTCCTCCAGCCCCCCGACCTCGGGGACCCAGCAGCCCCTCCCACCTCTGCCCTCCTCCCTGCAGACTGGGCCACATTCGCTGTGGGTCCCGGCCACGG
Y
GTGCAGCTGCCCTCAGGCCGCCTGCTGGTACCCGCCTACACCTACCGCGTGGACCGCCGAGAGTGTTTTGGCAAGATCTGCCGGACCAGCCCTCACTCCT
Celera SNP ID:            hCV2769365
SNP Position Genomic:     11371
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65483):
CCTCTGGGAGGTCAACTGCGGCCTCACAGCTGGGCCTGTCCCAGCACAGCCCTTGTTGGAGGGCGCACCCCCGTCTCCTCAGCACCCCAGTGTTGAGTGC
M
TTGACCTGCAGAGGGGAGCCTGTGCTGGTCCCGGGCGTCTGTGTGGCTCCTGGGTGCCCATCTGCACCCCTGGCCCTGCTCTGGGCTTCAGTGGAGCCGT
Celera SNP ID:            hCV2769373
SNP Position Genomic:     6234
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,3)      total(A,3|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:65484):
CGTCTCTGGAGCAGCAGACCCGTGTCCCTCTGGGAGGTCAACTGCGGCCTCACAGCTGGGCCTGTCCCAGCACAGCCCTTGTTGGAGGGCGCACCCCCGT
S
TCCTCAGCACCCCAGTGTTGAGTGCATTGACCTGCAGAGGGGAGCCTGTGCTGGTCCCGGGCGTCTGTGTGGCTCCTGGGTGCCCATCTGCACCCCTGGC
Celera SNP ID:            hCV2769374
SNP Position Genomic:     6208
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,3)      total(G,1|C,3) ;JBIC-allele(C,155|G,1338)   total(G,1338|C,155)
SNP Type:                 UTR 5


Context             (SEQ ID NO:65485):
ACTGCAGGGCCTCATGCCCCCCGCCTGCCCTCTGCTCTCTCTGTGTGGGCAGCGCTCACCAGCCTCCCTGGGTGCCGTCCACCTGGGCTCGGCTGCTAAG
R
GCTGTGAGAGGCTTGTTCAGCCTGGGAGGACTCAGGGCGGCTGGGATGAGTCGTGTGGAAGGGCGGTCAGAGTGCGATGGTCCTAACCCGAGGCACCAGC
Celera SNP ID:            hCV2769366
SNP Position Genomic:     11147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;JBIC-allele(G,620|A,881)   total(G,620|A,881)
SNP Type:                 INTRON


Context             (SEQ ID NO:65486):
AGGGGTCACCCTGGGCCCTGAGAGGCACAGGACATTGCGATGGGGTGCTGGCCTGCCAGGAGCACAGATACAGAGCTAGAGCCCAGCGAGGCCTGTGCTG
Y
GAGGGGCTGTGCTGTGCCAGGGGAGGCCCCGCACCCGGGAAGCCCAGAGGAGAGTGTGCACTCACGGAGCCCTCCTGGCAGGGCCGCGTCTCTGGAGCAG
Celera SNP ID:            hCV2769375
SNP Position Genomic:     6021
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:65487):
CACCTGACCCCGGCCCGTGGGAGCTACAGCAGGGAGTGCAGCAGACACATGGCCAACCCAGGGACCCCACTGCAGGGCCTCATGCCCCCCGCCTGCCCTC
Y
GCTCTCTCTGTGTGGGCAGCGCTCACCAGCCTCCCTGGGTGCCGTCCACCTGGGCTCGGCTGCTAAGAGCTGTGAGAGGCTTGTTCAGCCTGGGAGGACT
Celera SNP ID:            hCV2769367
SNP Position Genomic:     11079
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;JBIC-allele(C,617|T,872)   total(C,617|T,872)
SNP Type:                 INTRON


Context             (SEQ ID NO:65488):
CAGCCTCCCCTGCACCCTGGCACCAACCAGCCTGGCCGAGGGTCAGCTCCCAGAGCCGTGTTGAGAGGGGAAGGGGCTGATTCCACAGACATTTGGGGTG
S
AGTGGGTGCGAGGGAGGGTGGGGGAGGGGCTGCTCCAGATCTGGGGTGAGGGAGTCAGAAACAGGGCTGACCCCAAGGTGGGTACAGGAAGAGGCCCAGG
Celera SNP ID:            hCV2769368
SNP Position Genomic:     9468
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65489):
GCCGGGGGCTCCGTGCGGGTGAGTGAGTGGCCGGGGGCTCTGTGTGGGTGTAGTGGCCGGATCTGCTGGGGCTGCACACCCCGGGATGGGGCGGGGGTGG
Y
GGCGGCAGGCAGATGCCCGAGGTAGAGATGAGCAAACCAGGCTCAGCGATCCTGGGTGCCCTGCGGGGGGCTGTGCCCAGGTCCCTGGACGTCCTGGTCA
Celera SNP ID:            hCV27511313
SNP Position Genomic:     9968
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65490):
GCCCACAGGGTCGTTCTGCAGATGGGCTGGTCGGGGACGCTCTACCAGGTGAAGGGTCTGTGGTCGGAGTCTTCGCCCTGGCCAGGGCCCAGGACGCTCA
Y
GGTGCAGGCTGAGGGTCAGAGCCGCCGAGGGCCCCCTGCCGGGATTCTGTGCAAAGGGCCTCTGCACTTTATGTGGGTGCATGTGAATGCCCCTCGCCAA
Celera SNP ID:            hCV27156379
SNP Position Genomic:     6932
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65491):
GCCTCGGGGGTGCTGCTGGCCCTCCTGACAGGCCTTCTGGCCGTGCCCATGCCCCTTGGGTGCCTGGGGCAGAGGGGTGGAATACGTTGGGGTGCCCCAC
R
ATAGCTGTGGGGGGGGCTCTTAGTGCAGGATCCTGTGGATTAGAAACAAGTTGCTCCTCAGAGCTCTCAAGCAGGGACTGCTCTTTAGGAAGGGGAGCAG
Celera SNP ID:            hCV16185030
SNP Position Genomic:     12407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65492):
GCCTGAGCCAGTCCCCGCTGGACCCGCGCAGCTGGACAGAGCCCTGGGTGATCTACGAGGGCCCCAGCGGCTACTCCGACCTGGCGTCCATCGGGCCGGC
Y
CCTGAGGGGGGCCTGGTTTTTGCCTGCCTGTACGAGAGCGGGGCCAGGACCTCCTATGATGAGATTTCCTTTTGTACATTCTCCCTGCGTGAGGTCCTGG
Celera SNP ID:            hCV16185022
SNP Position Genomic:     12163
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,520|T,757)   total(C,520|T,757) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65493):
ATCGGGCCGGCTCCTGAGGGGGGCCTGGTTTTTGCCTGCCTGTACGAGAGCGGGGCCAGGACCTCCTATGATGAGATTTCCTTTTGTACATTCTCCCTGC
R
TGAGGTCCTGGAGAACGTGCCCGCCAGCCCCAAACCGCCCAACCTTGGGGACAAGCCTCGGGGGTGCTGCTGGCCCTCCTGACAGGCCTTCTGGCCGTGC
Celera SNP ID:            hCV16185023
SNP Position Genomic:     12252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65494):
TGAGTCGTGTGGAAGGGCGGTCAGAGTGCGATGGTCCTAACCCGAGGCACCAGCCCCTCCTTCCCCGTCCCCCTGTGCCTTCCTCCAGCCCCCCGACCTC
R
GGGACCCAGCAGCCCCTCCCACCTCTGCCCTCCTCCCTGCAGACTGGGCCACATTCGCTGTGGGTCCCGGCCACGGCGTGCAGCTGCCCTCAGGCCGCCT
Celera SNP ID:            hCV27494594
SNP Position Genomic:     11294
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,370|G,1105)   total(G,1105|A,370) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65495):
GGTGGGGGCAGGGTGGGGGCACGAAGTGGGCCCTGGGTGACCCCCACAGCTCCCTTCCGAGGCTGCAGGGCCAGGCGCGGGACCGCAGGTAGCCCAGGGT
R
TTGTGGGTGGCAGCACTTGTTTACTGGCTGCTTTCTGGCTCGAAATAAAGGAATCGTGCTTGTGTCGGGGTAGACGTTTCTTTCCTTTTCAGGTTCCAGC
Celera SNP ID:            hCV29368771
SNP Position Genomic:     12630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65496):
GAGCCCCGTGACTCCCCCGATGACGTTCAGGAAGTGGGAGCGGATCCCCTGTCCCCAGAGAGCCCCGTGACTCCCCCGATGACGTTCAGGAAGTGGGAGC
S
GATCCCCTGTCCCCAGAGAGCCCCATGACTCCCCCGATGACGTTCAGGAAGTGGGAGCCGATCCCCTGTCCCCAGAGAGCCCCGTGGCTCCCACAGGTCC
Celera SNP ID:            hCV27884551
SNP Position Genomic:     9078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65497):
CTCATTGTCCACATGACCTCCTGCTGGGCGAATTCTGGGATGACCCTGTGTCCTGGGCACATGGCTGGCAGGGTCCCGGGGGCTCTCTGGCCAGCCTCCC
S
TGCACCCTGGCACCAACCAGCCTGGCCGAGGGTCAGCTCCCAGAGCCGTGTTGAGAGGGGAAGGGGCTGATTCCACAGACATTTGGGGTGGAGTGGGTGC
Celera SNP ID:            hCV27884552
SNP Position Genomic:     9377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65498):
GGGCTCGGCTACACATGGGTATCCGCCTGAGCCAGTCCCCGCTGGACCCGCGCAGCTGGACAGAGCCCTGGGTGATCTACGAGGGCCCCAGCGGCTACTC
Y
GACCTGGCGTCCATCGGGCCGGCTCCTGAGGGGGGCCTGGTTTTTGCCTGCCTGTACGAGAGCGGGGCCAGGACCTCCTATGATGAGATTTCCTTTTGTA
Celera SNP ID:            hCV16185067
SNP Position Genomic:     12139
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,349|C,1128)   total(C,1128|T,349) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65499):
AACTGCGGCCTCACAGCTGGGCCTGTCCCAGCACAGCCCTTGTTGGAGGGCGCACCCCCGTCTCCTCAGCACCCCAGTGTTGAGTGCATTGACCTGCAGA
S
GGGAGCCTGTGCTGGTCCCGGGCGTCTGTGTGGCTCCTGGGTGCCCATCTGCACCCCTGGCCCTGCTCTGGGCTTCAGTGGAGCCGTGCCACCGTGGGAG
Celera SNP ID:            hCV27476505
SNP Position Genomic:     6247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:65500):
CTGCTTCCCGCTTGGGCACAATTGCCCTTTGAGAGCAGAGCCAGGGGCTTCTTGGGGACGGAAGCTGCTCTCAGAAGCCGCGCACTGGTGGTGGGGGAGC
R
GCAGGAAGGGGCCGGCCAGCTGTCCTAGCCAAGAGCCTTTCAGGAACCGGTGGCCCAGGGCAGAGGTGGCTGGAGGTGGAGCTGTCTGTTTGGGCCTCAG
Celera SNP ID:            hCV9232962
SNP Position Genomic:     8195
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65501):
TCCCCGTCGTAGGCAGGCGTTCTGCCCTGGCCAGGCGTGGTGTCCGGCATCCGGCCATCTCCCTCCTCCCTCCTTCCCTTAGCCCCGCATCCAGGTGCCC
Y
GTGTGCCCGGCCTGGGCGGCTGGCCGTGGATCTGACCGCTCCTGCATGGTGGAGGACCAGCGTTCCCACTGTCTGCAGCTGTGCCACCTCCCTGTGCCGG
Celera SNP ID:            hCV9232963
SNP Position Genomic:     8492
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Gene Number:                 412
Celera Gene:                 hCG31732 - 206000042057840
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VTH2(1684575..1701032)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12572):
AACCCCAACGTGCTCCATGCTCTACCAAATGCTTGGCCGTGCGTCTCTCTTCTCTGAAAACCTTCCACGGCCTTCTCTGCCCAATCTTTCTCTAAAGGGG
AAGTTGAGGCCCTCAGGTTCTCAGCATTGATGAGGCCCCTGTCTACAGACACACACAGCTCCAGGAAACAGGCCAGTCATAGTGCAGAGATCAAGGAGTA
TGGACAGGACTTACAAGTTCTTACAAAGGGAAATAGAGCAAGAACCCTAACCTGGGAAAATCTGAGAGCAAAGGCAGCTGCACACGCCACACCTTCTGAG
ACTCTGAGCAGACAACTTCCCTTTTCAGGAAGGAAAGAAGGTGGGGCCGCTCCAACTGGCCCCAAGTGCCCAGCCTCTCCCAACGGTCCCTCGTGCCCCG
CTGCCTTCTCAGGGTCCCCAAGAAGACGCTGGCTCTGTTGCCATGTCTCTGTCCTAGCCACAAGGCCTCTGGCTTCTCCTGTGTGTGGTCCCGACCCACC
TTCCACCCTACCCCCCTTCACCCCCTCCCCTCTTACCTGCTGCTATCCTTTGCCACCTTTCCAAACAGCAGCTTCTGGAGACAGCCAATGAGGTCTCTGA
TGCAGAAGGTAACCAGAGCATTGAATGCTGCAACGAAAAGGCCTGGATGTACTCACGGGACAGAGAACGCAACAGACAGCCTGGATGCCAGGCTCCCCCC
AAGCTCACCAGCACTGTCCGTGACCTGGAATTTGTTGGCCTCAGCACTTTCCTGGTCCCCTCGGGTGGTGGCCACAGCTGCTCGGAACGCCTGTACCACT
TCATGGAACAGCTTTGGAGTGAGGCGTTGCTGAAGGAGCAAGAGTACCAGGGGCGTCAGGGGAGCTGAGACTGCACTTGGCAGAGTGGAAACGGCAGCCC
CAGAGAAAGGCACCCTCACCCTCACCCTCAGACATAGGGCAGAGGTTGGGGGGAGGCACAGAGCCCCATACTGATAACAAAAATGGAAACAAAGTCTAGA
ATTCTCTGGGAAGAGGAGGGAGTCTGGCTCAGGAGCCCCAGGAAAAGGACTGGGAGTTCCAGATCCTGGACTATGGCCACCTCCAGGTGGTATCTGGAGC
TCTCCGTATCCTTGTCCCTGGAAAAAAACACTGTGAGAGGCTCAGAAGGACCCCAGCTCCACCAACCAACAAAGGCACGGTCCGTCCCACCCACAGCGGG
ACTGACTTTGGGGAGTGGGGCGCCAACAGAGCCCCTGGAATCTACCCAAAAGTGAACACACAGTCCTGGGGCAACCAAGCAAGCAGGAGGAGCAACGTGT
TGTCACTTGCGCTGAAGAAGGCTCCAAGCGTCCCCTGCGTGGAGAACAGCCCCTCCCACCAGCACAGCCTCAGGCGCCTCAGGTGAGGCAAGGCCAGATC
TCTGCCTGGGCACCCAGCTGCCCGCCCCTCGCTGCTGCTCACCTCAGGTGAGGCAAGGCCAGATTTCTGCCTGGGCACCCAGCTGCCCGCCCCTGGCTGC
TGCTCACCTTTGCTGCCTGCTTCCATCTCTCAACCATGGCGACGGTCACAGGAACAGAATTCTTCTTCCCCTTCAGCCCTCTGGGGACTCTGTCCCCATC
TTCTCCTTCCTCCGCTCCATCCTCCTCCTCACTGGCTTCCTGCACAGAAAGGCTGAGCTGAAGGAGAGTGTAGAGACAAGTGCCCCCCTTCTGGTTTGGC
CCACGCCCTCACCTCCAGCACATCTGGCAGGGAGTGGAACGGCCCCTCTTCCTCCTCAGAGCTGTCCGAGTCGCTGAAGTTTAGCAGGCTCTGGTCATTC
TCCTGCAGGAACTTGTAGAACTCGGGGTCTCTGTCCTTCAGCCGAGAGAGCTGGTCTTTGTGCTCAGAGGCACGGCCTTTACGCCGGCTGAGGAGGCAGA
AGTCAGCGACCCCAGTGGGAAGTGGAAGTAGAGGGGGCGGGGAGTGGCCTACAGGGTCAGTCTACTCCCTTCACAAGGATTACCAACTAGCAAGACAGGA
TTGCCAGGAGGTACGTTTTTGGCAGACTCACGTCTCCTACCCAACAACCTCTACAACATACCCTCAAACACACTACACAGGCCCCCCAGCCGCGGTCTTC
CCTGGACTTGCTGTGCCTGCGCCCTGCGCTACACAGGCCCCCAGCCGCGGTCTTCCCTGGACTTGCTGTGCCTGTGCCCTGCGCTACTTTTGCCTGATGG
TGGCTTCACCCTTCCAGAGGCTCAGACTAAAGGCAAATCTCTGTCTCTAATACCCAGCACGCAACTTGTCATCAGATCTCATCAGCAACACCTTCAAAAC
CGTTCGTGCCTCCTCTCAAACCACCACATAGTTCAATTCTCAGTTAACCTAAAGGTCTCTCTGTTTCCACCCTTGTCACCTACAAGGCACTCCACCGCTC
AAACCCAGAAGTAACTCCCTGTTTTACGAGGCAATCTTATGACGGTCTACGGCACCTGGCTCTTCATCACCCTTCTGGGCTCATCTACCCCTATTCACCC
CCTCACTCCTGCCATAGCCACGTTTACCTCTGTACTCTCCCCAAATGCTCCCACTGCAAGGCTTTTGCTGTTTTCTGCTGCCTGAAATCCTAAGACACGT
TTCCCCTACTGTCTGTGTGGCCTCCTTGTTCGAGGTCTTTATTCAGACGTCATCTTCTCAAACAACCACCTCCGCTTTTTTTTTTTTTTTTTTTTTTCCT
GAGGCGGAATCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCTCCACTCACCGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCA
GCCTCCCGAGTAGCTGGGACGACAGGTGTGTGTCACCACGCCAGGCTAATTTTTGTATCTTTTGGTTTCTTTCTTTTTCTTTTTGAGATGGAGTCTCACT
CTCTCACCCAGGCTGGAATGCAATGGTGCCATCTCGGCTCACTGCAACCTCCACCTCCCAAGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGTTG
GGATTACAGGTGCCCACCACGCCCGGCTAATTTTTATATTTTTAGTAGAGACATGATTTTTCCGTGTTGGTCAGGCTGGTCTCGAATTCCTGACCTCAGG
TAATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGCATTACAGGCGTGAGCCACCGAGCACAGCCTCCGCTCCTTCTAACAGAGCAACTCGGCTCCCCTGCA
ACTCTCTCTTCAGCCCCTCTGTCCTTCCTTTCCCTCCCCAGCACTTATCTCTCTTCTACCGAACTGCAGGCGGTGATTTCACCCAAGAACGTGAGAGTTC
TCCTAGATCGGGAAGAGATTTTTGCACAACTCACCAACATACGCTCCCTGCCTAGGACAGAGTTTGGCACGGAACAGGAGCTCAGTAAACATCGGATGAA
AGAGTAAGTTAAGCTGAAAGGACTGGGGGGCAGAGGTCGGCGATCCTTAGGCCTTGGCCCTGAGACCCCAGGCGAGGTCAGCAACCCAACCGGGGTGGGA
CAGGACGAGCAAGAGGTTCTGCTCACGCATGTCCCCACTAACCTGGCCGAGGGGCTCCCGCCCGGCTTATCCGGACTCCGGGCAGCCTCGCGTGCTTCCC
GTGTCTCCGCTTGTGGAGAATTTTCGGACTCGGATTCGGACTCGGAGTCAAAGCCCGAAGCTAGGAACTCGTCCACCGTCAGCTCCGCCAGGCGCCTGCG
GGTCACGCAGGAGTCACAGCTGCCCGCACGCCCAGCTCGCCCCAGCCCCGCTGAGAGGAGCAAGAAAAGCCCCCTTGGATACAGACACCCACCGGGAGGC
CAAATCAGCCCTCGGACCCGCGGCTTACCTCTTGCGGCTCCCCGCAGCTGCCATGACACCAACCCGAAGCGTGCACCCCACTTCCGGCCCCAGAATGCCG
CGCGGCTGCGCACTTCCGCCGCCCAGGCCCCGCCCCTTTCCCCGCCCCGCCGCGCCACGCCCAGCCGAGTGGCTCTATGGTTCTCCGACCGCAACGCCGG
CGGCCTCAGGGCGGGAGGGCGCGTTCGCGTGCTCGGTGCGGGCAGCCCCGGTGGGGCCCAGATGCGCCTCCCGCTCGGCGCCCGGCTCCGTAGGACGCGG
TGACGCCGGTGTCCGCCCCGGGGAAGACAGACCGGGAGTCCCGCCGCGCCCGCAGCCCACCCGGCGCTCCGAAGGCACGCGCCTGCGAGGACGCCAGACT
GCAACGGCGGGGCTCCTATGCAAAGAGCTCCCACAAATCAACAATAAAAAGCAGGGAGTCCAGTGGAAAACGCGAGGGGCAGTGGGAACCGCACTGATGT
CGCCAGCTCGACAAAAGACGGGCGACCCGAGGGCCAGGCTGGCTTCGCCTCCGATCCGCGGAGACCGGGCCAGCGCCACGAACACCACGCAGGGCGCTCC
CCGTCCATGGCCCTCTGGGTGCCGACCGCGGCTCTTCCCGGGGACGCCGCACGGGACGAAGACGGTGGGGAGGCCGGCGCCTTCCTTCCCGCTACCAGCC
TGACACCCGGGCCCCCGGGCCTGGACAGCCAGACCCCGCGACAAGGGCGCCGCGGGGCGCAGGCACGGCTCCCCCAGCCCTGGCGCTGAGGGGGCGCGTG
AGGCGAACACGGGCGGATTGGCCTCGGGGTCCCATTCGACTTCTTGGTGCCGCGGGGCCCCGGGGCTCCCCGGAGGAGAGCAAGTTAGGGGGTCGGGGGA
GCGGGGATGGCTTCCGGGGGAGGAGGAGGGCGAGGCCTGGGGGGCTCCTCGGAGGAGGAAGAGGGCGAGGCTTAGGGGGGCTCCTTGGAGGAGGAGGAGG
GCGAGGCTTAGGAGGGCTCTTCGGAGAAACAGGAGGGCGAGGCCTGTGGGGGGCTTCCCGGGGAAGAAGGAAGGCGAGACCTAGGGGGGCTTCCCGGAGG
AGGAGGAGGAGGAGGGCTAGGCCGGGGGCTTCCCAGAGGAGGAAGATGGCGGGGCCTGGGGGGCTTCTCGGAGAAGGAAGATGGCGAGGCCTAGGGGGGG
CTTCTCGGAGGAGGAGGAGGGCGAGGCCTGGTGGGGGGCTTCCCGGAGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGCCGGACGCGGGGCTCTGTTCGCGGCTCTGACTACGC
CCCGGGGGAGCAGGGGCGCAGCGGAGGCCTGGACACGGCGCGCTCCGGGGCGGGGGTCCTTGGCGGAGGTCAGGCGAGGGCTGCCGGCGCCCCCGTCGCA
CCAGGGGCTGGGTCCCCGCGGGCTGCCCGGGCCCCCCAGCGGCTCCAGGGCGGGCGGGCGGCTACCAGCGGGGCGAAGCCTGACCCGCCCGCCTCCTGCA
GCCCCGAGGCAGAGCGCACGCGGCCCCGGCAGGCTCGGCCCGCAGCCCCCATGGAGGGAGCCGTGCAGCTGCTGAGCCGCGAGGGCCACAGCGTGGCCCA
CAACTCCAAGCGGCACTACCACGATGCCTTCGTGGCCATGAGCCGCATGCGCCAGCGCGGCCTCCTGTGCGACATCGTCCTGCACGTGGCTGCCAAGGAG
ATCCGTGCGCACAAAGTGGTGCTGGCCTCCTGCAGCCCCTACTTCCACGCCATGTTCACAAGCAAGTACCCGCCTGGGCGGCGCTGGGGGCTCCGTGGGT
CCCTCGGGTCAGCTCGTGTAACCCGCTGTCCCCGCAGATGAGATGAGCGAGAGCCGCCAGACCCACGTGACGCTGCACGACATCGACCCTCAGGCCTTGG
ACCAGCTGGTGCAGTTTGCCTACACGGCTGAGATTGTGGTGGGCGAGGSCAATGTGCAGGTGAGGGCTCCCTCACCCGGATCCCGGTGTCCCCCGACCCT
GTGCCTCCCTCACCTGCCTCTCGGTGCCCCGTAGACTCTGCTCCCAGCCGCCAGTCTCCTGCAGCTGAATGGCGTCCGAGACGCTTGCTGCAAGTTTCTA
CTGAGTCAGCTCGACCCCTCCAACTGCCTGGGTATCCGGGGCTTTGCCGATGCSCACTCCTGCAGCGACCTGCTCAAGGCCGCCCACAGGTACGTGCTGC
AGCACTTCGTGGACGTGGCCAAGACCGAGGAGTTTATGCTGCTGCCCCTGAAACAGGTAACAGCTGGCGGGCCCAGCCCTCGCCCCCCACCCCACCCCAC
CCCAGTCTTTGTCTTTGACTCCCGACCCCGTTTTGTTCCTGACACAGCCCTGCCCACAATCCTTAGTGCCTGCTGTGTGTCCCCGAGACCTTCCTGGATC
TGGGCCCCCCAGGAGCCTCGTCTGTGGCTCCTGACTCTGCTCGGCCCCTCCCAGTATGAACACTCAGCCCCCACCTGCTAACCCTCCCTCCTAGGCATCT
TCAGGGCTCCCTGGGTCCACAGGACCCTCCCCAGATCTCAGGTCTGAGGACCCCCACTYCCAGGTTYTGGAACTGGTCTCTAGCGACAGCCTGAACGTGC
CTTCAGAGGAGGAGGTCTACCGAGCCGTCCTGAGCTGGGTGAAACACGACGTGGACGCCCGCAGGCAGCATGTCCCACGGGTGAGGCGCGGCCGCGGGGG
GCTCCCAYAGCATCCAGGAGGGCATGCAGGTGGCTGAGGGCCTGGTGCACCCTGACCTTCCCCGAGTTCAGGGACTCCGTGGGGGTGGTGCCCCCACCTG
TCTGAAGAAGAATCCATCACACAGGTGGTACGGGCATCTGGGGGGTTGTCTCAGCCCTGACGCCCAGTGTGCCCGAGGGTCCCGCCTGACCTTGGCGTTC
CCTGCACCCCAGCTCATGAAGTGTGTGCGGCTGCCCTTGCTGAGCCGCGACTTCCTGCTGGGCCACGTGGATGCCGAGAGCCTGGTGAGGCACCACCCTG
ACTGCAAGGACCTCCTCATCGAGGCCCTGAAGTTCCACCTGCTGCCTGAGCAGAGGGGCGTCCTAGGCACCAGCCGCACACGTCCCCGGCGCTGCGAGGG
GGCCGGGCCTGTGCTTTTTGCTGTGGGTATGGCCCCCCGCCCGTTTCCCTCYTGCCCTGTGCCTTCTACTCCCCACCAGCACAAGCCCACCCCACCTGTG
CCGGTCAGGTCCTGACCTGCCCCTCCGCCCCTCCATTCAGGGGCCTCTCCAGGAGCCTGGGGTGTGGCCCAGCAGTGGGATCCACTCACGAGTCCYGTCT
CCACCTGCCCTCCCCAGGCGGCGGGAGCCTGTTTGCCATCCACGGAGACTGTGAGGCCTACGACACGCGCACCGACCGCTGGCACGTGGTGGCCTCCATG
TCCACGCGCCGGGCCCGGGTGGGAGTGGCTGCGGTGGGGAAYCGGCTCTATGCTGTGGGCGGGTAAGCCTGGAGGCTGGACTTGGGTCGGGTCTGGCACG
TGCCCGCCAGGCCAGTCTTGACCTGCAGTGGCTTAATTCCGCTAGCTATGATGGGACCTCAGACCTGGCTACCGTGGAGTCCTACGACCCCGTGACTAAC
ACGTGGCAGCCGGAGGTGTCCATGGGCACAAGGCGAAGCTGCCTGGGTGTGGCCGCCTTGCATGGACTCCTGTACTCGGCCGGCGGYTATGACGGGGCCT
CCTGCCTGAACAGGTAGTTGGGGTTGGGGCCCCAGTGGCTTTGTACAGTCCATCTGCAAGAGGCAAGTTTGTGTCACCATCACAGGGGTCGTATCTGATG
GGGTGTTAAAGGAGGTGATCCGCGAGGCYGTTTCACCCCAGGCCACTGCCACACTGGGCCTGAACTCTTGGCTTTGCTGCCCCAGTGCCCTTTCCTCTCT
CGGGTCCTTACCCCCAGTCCAGAGGCTGGGCCCAGGTGGGTGTGCACCCAGGGTTGTTCAGGCAGCCAGGGTCCTGTGCCCACCAGCGGGCCCTGCCTGG
TAGGACTTTGCGGTCTGAGTTTGACTCCTAGGGTAAGATTTCAGCCATTCCGCTGGGGAGGGCAGGTCCTGGGGCCGGGACGCCTTTCTGTCTCTGCTGA
GCTGTGGCTGCGGTCCTGGTGCCCACAGTGCTGAACGCTACGACCCCCTGACCGGAACGTGGACGTCCGTCGCTGCCATGAGCACCCGGAGGCGCTATGT
GCGAGTGGCCACGCTTGGTGGGTGATGGGGCCTGCCTGGGGGGCATCCCCACCTTCCCCCACCGTGGAGACCCCACTCCCAGCAGGAGTGCCACGGGTGT
GTTGACTTCCGGCAGATGGGAACCTGTATGCTGTGGGCGGCTACGACAGCTCCTCACACCTGGCCACTGTGGAGAAGTATGAGCCCCAGGTGCATAGTGC
ACCCCTCCTGGCCACCCCCTCCCGTGCGCCGCGGGGCCCTCCTCCCTCTGTTTACCCACATCCCCCCCATTCCTGACACCCCACCCTGGAGTCGGGGCTG
CGGCAGAGGAGGGATGCCAGTGGCGGGTCTGCGTCCAGCCCACGCCCTCGCCCCCAGGTGAACGTGTGGTCGCCCGTGTCGCCATGACTGAGCCGACGCA
GCTCAGGTGCGTGGCCGTGCTGGAGGGTGCCCTGTACGTGGCAGGGGGCAACGACGGCACCAGCTGCCTCAACTCGGTAGAGAGATACAGTCCAAAGGCT
GGAGCTGGTGAAAGCGTGGCGCCCATGAATATCCGCAGGTCCGCAGTGGGGCTGGTGGAGGGGGGCCGGGTCCGAGTGGGCCTGTTGGAGGCCTCGCGCG
TCCTCAGTGGGTATGTTTTTGGTTACCGGGGCCGGGTCCCGCTGCGGATGTGCTGCCTGCCCGGCCTCATTCCCAGTCGTGCTATCTGTGGTATCCTTGG
CGCCACATCCGCTTCTCAGCGCTCCGCCCTGCTCTTGCGTGCCTCACGCGCCTTTCCCGTCTTGCCGTGTTCTTCTCTTCTTCCCCCTCGCTATGTGAGA
CGTGCGCCCAGCTGCCGTCGAGTCTGGTTCGTCGTTTCGTTCCTGTTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGAGT
TCTCCCAACCTCAGCGAGCATGTCCCGCCACCACCCCTTTTTGTGGTGTGGCCCCTCCCCCCGCATCCCTTCCTGCAGCCAGGGGCTCACCCCGCCTTCC
CCCCAGGAGCACGCATGACCTGGTGGCCATGGACGGATGGTTGTACGCCGTGGGGGGTAACGACGGTAGCTCCAGCCTCAACTCCATCGAGAAGTACAAC
CCGAGGACCAACAAGTGGGTGGCCGCATCCTGCATGTTCACCCGGCGCAGCAGTGTGGGTGTGGCGGTSCTGGAGCTGCTCAATTTCCCGCCGCCATCCT
CCCCGACGCTGTCCGTGTCCTCCACCAGCCTCTGACCCACCTACCACCAGAGGCCTGCAGCCTCCCACATGCCTTAAGGGGACCGTGGCCCCCACCAGGG
ACGTCCTGCGCCATCCGTTCACGTCTCTGCATCCATTCCTTCATGTCTTTATTTAGTTGTTTATTTATTTAGTTATTTATCTTATWDAGAGGTGAGGAGT
GCCACGGCTGCCCGTTTACACCTTTAGCGTCTGGTCCTCCTGCGTGTCCTCCCCTCCACTGCCTGCATGGGGGGCGCGGGGAGTGACCAGGCGGGGGCCT
CACCGCCCCAGGGCCGTTGCCTGCTCAGACCTTGCAGGCTGTGGAGCAAGAGGCCCTGGGTCTCTCCAAGCAGCTGCAGACCCCAGCTCGAATTTTGCAC
ATGGCGGGGTCCCGGGAAGGGTGGGGAGCAGGTGTCCTTCCTGTCGTCGTCTGCCGTGTGCCATCTTTCCTGGATCTTGTAGCGGGTGCACACGCGTGCA
CTGGGACCCCACACAGCAATACGAGTCCAACTTAATAAACACATTTCTGGGGTTCCTCAGGCTGAGCATCTCTCTCTGGCATGTGGGGCAGCTGCGCAAC
TTTGGGTCCTGTCTGGGGTCCAGGGTGAGGGGTGTGGGGGGGTGCCCTGAGATGCGCAGGCATCTGGGAGCTGCAAGGCAGAGCTGTGCGTCCAGGGAGG
GTGGGGGCCGTGCAGTTCCTGTGGACCAGCGTCCCAGTGTGGGTGGCGTTTGCCTGGGCTGGGTACTGAGGCCGAGGTCCCCGCCACATCGTGGGCTCTG
GGGTTAGGGCTGGGGAGGACAGCCTTGCCCCCGAGTGCGCTGACTGTCTTGGCCGTCTAGGGGGCATGTGGCCTCCCTGAGTCCCCTTAAGCCTTGGGGA
CCCTGACTCGGGTCTGTGGCGAGGGGGCCCAGGCAGGAGGGGAGGCTGCGGTGGCTTTGGCCGCCGTCTCCTGTGCTGGAACTCCTGCCTCAGCCCTCCC
TGCAGTCACCGGTGACTCAGGCCGGCCAGAGTTTAGATGGAAACAGGATGTGTGGGCACGTTGTCCGGGGGGGCCTGGAAGGTCGCCCCGGGTTCACCAA
GCCGGAGCACAGGCAGGTGGGGTACCTCTGCACACTGGAGGCCTCGTCTGGGCCAGAGGGGTGCTTGCCCCAAGGCTGGCCTCTCGAGTGGAGGGCCCAG
GGCAGAGACCTGCACGGCTCAGGTAGGGGCCAGGCCTCTTCCAGAAAGGCTCCACCCTCGCCCAGGCCCTGGTGCCGGGCGGGACGTCCCGGAGCCCCGC
CTGCCCGCGGGAGGCGGGGGCAGGAGGCTGTGGACAGGGACCCAGACTTGCCGACCTGTACGACTCTGGCCATGGGGAACAGCCACTGTGTCCCTCAGGC
CCCCAGGAGGCTCCGGGCCTCCTTCTCCAGAAAGCCCTCGCTGAAGGGAAACAGGTGAGCGGGGCGTGGGTGCGGCCACCTGGGCGCAGGGCTCCCCCAC
CCGCTCCGGGGCCAAGCCACGAGACCCCTTGCCTTGTCCCCAGAGAGGACAGCGCGCGGATGTCGGCCGGCCTGCCGGGCCCCGAGGCTGCTCGAAGCGG
GGACGCCGCCGCCAACAAGCTCTTCCACTACATCCCGGGCACGGTGAGCGCGGCGTGCACGGTGGCTGTGGTCTGGGAGCGTGGCTCTGCCCGCGCGTGT
GTGCCGTGTGTCCGTGCAGCTCAGGGTCTTCCCCTCGCCCCCGGGGCGTTCAGACCCCGGTAGGTGAGGAGCCGACGCTGACTGCCCCGCCCTGGGGAGC
TCATCCGGCCGAAAGTCTGAGCGGAGAGCGAAACCGCGACGCAGGACTGAGTCAGTCGGGAGAGAGCTGGGCGGGGCGGGCCGCGGGCGGGGCCTCCCGG
GACCTCCTCCCGCAGGGGACCAGCGCACGTGTCTCTGTCGCTGCAGTGGGGCTTGGGGTCGTGCCGGCAGGTAGTGTCACTTGAGAGTAAGGGGCCTCAG
ATGAGCAGCGAGCCAGCCGGTCACCTACACCGGCCTTTCTCCCTGGGTGTCCCGCAGGAAGTTGCCGCTGGGTATGGCCGCCTGGTCCACAGCAATCCCT
CTGTGCACGCGCCGGCCTCCTCCCAGCTTGCCAAGGCCATGCAGCAAGGAGGTGTCTCCCAAGCACACACTAGGCCACCTCTCCGTCAAAGGAGCAGAAG
ACCACCCCCATGCCCACCCCCCGCCAGCCCCTGTGGGACTAAGGGTCTTCACAGGGTAGATCCCAGCCCCTTTCAGATGTGTCTGGTGCTGGGATGAGGG
AACAGGACCAGGAACCTGGGCTTCAGGGCAGACAGGAACCCCCACTGCACCCCCGTCAGGCAGCCTGGATGGGTGGGCTCCGCTATGTGCAGGCCCTAGG
AGCATCTGCGGGAGAGGACGCCTGCCCTGCACTCCTGGGTCCAGCAGCTGGCATGACCGTGCAGACCCCTTTGCCAACATGCCCCCGCCAGGCAGGAAGC
TCGTGCCATACCCTCTCCTGACCTCCAGAGTTTCAGGGCTCCCTGCAGACAAGTACTGGTTTCGGAAACCACGCTGCCTCAGAGGAGTGGGCAGGGAGAG
GGAGCCGGGCTGGGTTAGGGGTGGGGTCCCTGTGGCTGCATCTCAGACACCACTCCCTCTGTCCAGGCCCAGGACATGCAGTGTGACCCTGGGGGGTCCT
ATGAGGTGTGGTGGGTGGCCGTAGTGGTCCTCCCTTGCCAGGACATGGTAGCCACAGAGGCAACAACCTGCTGAACCTCGGGAAATGGGGCTGGGGGAGG
AGCTCTGGGCCAGTCCTAGAGCCAGTGCTCCGCGGCCCTGTACCTGGGCTCTGCACCCAGTGCTGTGAGCTGGCTCTACTACGGCTCCAAGCTGAGTCCT
CCCCGGGGCCCCGAGGCTGAGCTGCGCTGCAGGGCCAGCTGTGTGGCCCTTCCTGGTCTGTGGCCTATTTTTCATGGGTGCCAACCCGGCATCAGTTCCC
ACGCTGGGTGTGGGTACAGGAGGCCCCACCCAGAGGCAGAAGGCCGGGAAAGCCATGCGTCTGTCTGTTCACATTCCTGGGCCTGCTCAGGGGCAGCTAA
GCTTGGCCAGGGCACAGCAGCTCTGCAGGTAGCTCTCGCCAGCTCCTAGAAGGAGGAGGACACCTTCCCACTTGGCCCTGAGCCTGTGGATCACAGAGGT
CTCCAGCCCCAGGTTCACACCCGTCCCTTTTCTGACTTCCAACCTGGTGATCAAAGCCTGCATTTGTAGAGGACTGTGTGTGCCAGGATTGACTACATGT
GGCGTGGATGTGGAGTCCCCTCCCCTCTCAGCACATGCAGTGATACCCACAGCACATCCCAGGCCCTGTCTTAGGCTCTGGGGACACAGCAGTGAACGGA
ATAGACAACCCCTGTTCTGCTAGTGCTCCCATTCCCACGGCAGAGACACACGACGGGACAAATCAATAGATCCAGTGAGCGGGGTCAGGTCGGTGCTAAG
GAGAAAAACAGAGGGGATGAGTGCAGAGGATCAGGGAAGGCTGGAATTTTAGAAAGGCTTTCAGAAAAGGAATTCTTGGAGCAGGTAATGTCTGAGCAAA
GCTGCAAAGCGGGTAAGGAGGGGGGTCAGGACTGAGCGGTCCCCAAAGCAGGAACAGAACATGCAGCAGCCAGAGAGCATGGGTCTGATGTGAGGAGACA
GTGAGGCCGGGGCAGCCACAGAGACCCCTCGGGGGAGACCCCTCGGGGCACTGCCAGGACCCCGTTGTCCCCTGAGTGAGGCATACGGAGCGGCCAACAC
ACAGAGGATCGACCCCAGAAATCTCCTCACATATTTCAGGCTGGGGGCTGGAAATGGGCAACGGTGAGGACACTGACACCGAGGAGATTGGCAAACGTTA
CAAATCAGGGCATCGGTGTGTTTCTGTGTCTGTTTTTTGTAGAACCAGGTGTTAAGCATTTACCATACAATACTGCAGACGTGGGAGGGTTTTGAGTGTT
ACCCAGACACCCCCAAATTCTTCTAACAAGTCTTCAGAGGTTGAATAACCCAAGCCATGTTACACAGCTTAGGAAAGAATGAAGATGGGTTTAATCCACT
GAGTCCAGATCTCACCATCTCTACCACTAGACCAGGCAGCTCTGTGTGGGGAAGTGTGTCTGTGTGTGCGTGTGTGTGCACAAGTGTGTATGTGTGCATG
TGTTTGCACGTGTATATGTGTGCACACATCTGTGTGTATATGCACAGGTGTATGTATACGTGTGTGTTGGTGTATTTGTGTGTGTGTGGAAATGTATGCA
TGTATGCAGTGTGCATGTGTGCATGCATGTGTGTGCATGTGTGTATAGGTGTGCATGTGTATGTGTGCACGTGTGTATGTGCACGTGTGTATGTGTATAC
ATGTGTATGGGTGTATTTGCGTGTGGATATGTATGCATGTATGCACGTGTGTGCATATCTGTGTATGTGCAACTGTGTATGTGTGCACGTGTGTATCCAT
GCATATGTGTGCGTGTGTGTACATGTGTGTATAAGTGCGTATGTGTGTTCCCGTGTGTATGCATCTGTGTCTGTATTGTGTGGCATGTATGTGTCTATTG
TGTGTGTATGCATGTGTGTGTGTGTGCATTTATACATGTGTATGTGTGCGCATATATGGATGCATGCATGTTGCCTGCATGTGCACGTATCGGGTGTGTG
TGCGTGTACGTGTACACGAATATGCATGTATGCATATATGTATGCACGTGTGTGTAAATTCTGCCGTGACTGTTTTCCTGTGGAAAGGCTGAGTGTGCAG
GTTCTGTGCCTGTGGGGGGCTGTTCTTCACGTATGTGTTGTGTGGCTGTGCACAGGTTCTGTGCCTGTGGGGGGCTGTTCTTCACGTATGTGTTGTGTGG
CTGTCACAGGTTCTGTGCCTGTGGGGGGCTGTTCTTCACATATGTGTTGTGTGGCTATGCACAGGCAGACCATGCTATAGTCCTGTAGCTGTGTGGATGC
GAGCGGAGGGGGTAGGGCCCAGGAGGCCCCATCCCCTGAGCTCTACTCCTCCTAGGACATCCTGGACCTGGAGAACCAGCGAGAAAACCTGGAGCAGCCA
TTCCTGAGTGTGTTCAAGAAGGGGCGGCGGAGGGTGCCTGTGAGGAACCTGGGAAAAGTTGTGCATTACGCCAAGGTCCAGCTGCGGTTCCAGCACAGCC
AGGTGGGGGCCGGGCTGGGTGGAGCACGCTAAGGGTGCAGCATCCCCATCAGCCTGGGGCTCCCCAGACTCCGCACTGACGACCCTGCTCCCCGCGCAGG
ATGTCAGCGACTGCTACCTGGAGCTATTCCCCGCCCACCTGTACTTCCAGGCCCACGGCTCGGAAGGACTCACATTTCAGGTGAGGCGGTGGGCAATGGG
GTGGGGCCATGGCCGCCCTTCCCTCCATGGATCCCTGAAGCTCCTCCTACCCTGTGCCTGGCAGGGGCTGTTACCGCTGACGGAGCTGAGTGTCTGCCCG
CTCGAGGGGTCCCGAGAGCACGCCTTCCAGATCACAGGTGTTTGGGATGCTTCCCGGGCCCCCAGAGGCACTCCTGACCCAGGACTTGGAGAGGGGCCTG
CCCTGTGGCTGCGGAGCACGTGTGTGTATGTGTGTGCCCTCTCTGCCCTGCCCGCAGGCCCACTGCCCGCACCCCTCCTGGTGCTCTGCCCCAGCCGGGC
CGAGCTGGACCGCTGGCTTTACCACCTGGAGAAGCAGACGGCCCTCCTCGGGGGGCCGCGGCGCTGCCACTCGGCACCCCCACAGGTCAGTGCCGGGGAC
CCCACCCCCCTCCCCACCCTGATCCTCGCAGCCGGCTCTGACCTCCTCCTCACAGGGGTCCTGCGGAGACGAACTCCCCTGGACTTTGCAGCGCCGTCTA
ACCCGGCTGCGGACGGCGTCAGGGCACGAACCCGGCGGCAGTGCTGTCTGTGCCTCGAGGGTCAAGCTGCAGCACCTGCCCGCACAGGTGGGTGGGAGGT
GCGTGGGGCTGTAGGGGGATGGGAGGGGTGCATGGTGGTGGGCAGGGCGGTGCAACAGCAGCTCAGTTCCCTCATCGCCTGACCCCACCCCCACCCACCC
AGGAGCAGTGGGACCGGCTCTTGGTCCTGTACCCAACGTCCTTGGCCATTTTCTCCGAGGAGCTGGACGGGCTTTGCTTCAAGGTGGGCCCCTCCCCACT
GTGGGCCCGCCCCAGGGAGGCAGCTGTGTGGGGGTGGGAGGGGGCAGCCATGCAGGAGGAACCTGTATTTCGGGGCTTGTTGAGACAGAGCGCAGGGCCC
TGCCCACCCAGCCCGCGGTCCTGGTCAGTCTGGTCTCCGCTGTGACATGGAGGAGCCCCTGCCCGCCCTGAGGTTCTCACCCTGAGGTTCTTGACCGTCA
CCCTGGGGCGGGCAGCATGGGGCTGAGAGCCCCTCCCGGGGACTCCCTTGTGTGTGCCTGCCCGTGAGGCGTGTGTGTGCACACGTGCGTGTGCGTGTGT
CCTCCAGGGCGGGCTCCGGGAAGGGGGTGTGCACTCACGGTAACCTTCAGTCACTGA


SNP Information

Context             (SEQ ID NO:65502):
GAGAGCCGCCAGACCCACGTGACGCTGCACGACATCGACCCTCAGGCCTTGGACCAGCTGGTGCAGTTTGCCTACACGGCTGAGATTGTGGTGGGCGAGG
S
CAATGTGCAGGTGAGGGCTCCCTCACCCGGATCCCGGTGTCCCCCGACCCTGTGCCTCCCTCACCTGCCTCTCGGTGCCCCGTAGACTCTGCTCCCAGCC
Celera SNP ID:            hCV11610210
SNP Position Genomic:     6449
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65503):
TGGCCCCCACCAGGGACGTCCTGCGCCATCCGTTCACGTCTCTGCATCCATTCCTTCATGTCTTTATTTAGTTGTTTATTTATTTAGTTATTTATCTTAT
W
GAGAGGTGAGGAGTGCCACGGCTGCCCGTTTACACCTTTAGCGTCTGGTCCTCCTGCGTGTCCTCCCCTCCACTGCCTGCATGGGGGGCGCGGGGAGTGA
Celera SNP ID:            hCV26049279
SNP Position Genomic:     10086
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,8)   total(A,1|-,8|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:65504):
CTGTGCCGGTCAGGTCCTGACCTGCCCCTCCGCCCCTCCATTCAGGGGCCTCTCCAGGAGCCTGGGGTGTGGCCCAGCAGTGGGATCCACTCACGAGTCC
Y
GTCTCCACCTGCCCTCCCCAGGCGGCGGGAGCCTGTTTGCCATCCACGGAGACTGTGAGGCCTACGACACGCGCACCGACCGCTGGCACGTGGTGGCCTC
Celera SNP ID:            hCV25956683
SNP Position Genomic:     7796
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,32|T,2)   total(C,66|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65505):
GCCCCAGTGGCTTTGTACAGTCCATCTGCAAGAGGCAAGTTTGTGTCACCATCACAGGGGTCGTATCTGATGGGGTGTTAAAGGAGGTGATCCGCGAGGC
Y
GTTTCACCCCAGGCCACTGCCACACTGGGCCTGAACTCTTGGCTTTGCTGCCCCAGTGCCCTTTCCTCTCTCGGGTCCTTACCCCCAGTCCAGAGGCTGG
Celera SNP ID:            hCV11610211
SNP Position Genomic:     8329
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,6)   caucasian(C,6)   total(C,28|T,6)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65506):
GCCCCCACCTGCTAACCCTCCCTCCTAGGCATCTTCAGGGCTCCCTGGGTCCACAGGACCCTCCCCAGATCTCAGGTCTGAGGACCCCCACTCCCAGGTT
Y
TGGAACTGGTCTCTAGCGACAGCCTGAACGTGCCTTCAGAGGAGGAGGTCTACCGAGCCGTCCTGAGCTGGGTGAAACACGACGTGGACGCCCGCAGGCA
Celera SNP ID:            hCV25933481
SNP Position Genomic:     7067
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,25|T,1)   total(C,58|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65507):
AACACTCAGCCCCCACCTGCTAACCCTCCCTCCTAGGCATCTTCAGGGCTCCCTGGGTCCACAGGACCCTCCCCAGATCTCAGGTCTGAGGACCCCCACT
Y
CCAGGTTCTGGAACTGGTCTCTAGCGACAGCCTGAACGTGCCTTCAGAGGAGGAGGTCTACCGAGCCGTCCTGAGCTGGGTGAAACACGACGTGGACGCC
Celera SNP ID:            hCV25933465
SNP Position Genomic:     7059
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,34)   total(C,64|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:65508):
GCTCCAGCCTCAACTCCATCGAGAAGTACAACCCGAGGACCAACAAGTGGGTGGCCGCATCCTGCATGTTCACCCGGCGCAGCAGTGTGGGTGTGGCGGT
S
CTGGAGCTGCTCAATTTCCCGCCGCCATCCTCCCCGACGCTGTCCGTGTCCTCCACCAGCCTCTGACCCACCTACCACCAGAGGCCTGCAGCCTCCCACA
Celera SNP ID:            hCV11610215
SNP Position Genomic:     9869
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65509):
ACGGAGACTGTGAGGCCTACGACACGCGCACCGACCGCTGGCACGTGGTGGCCTCCATGTCCACGCGCCGGGCCCGGGTGGGAGTGGCTGCGGTGGGGAA
Y
CGGCTCTATGCTGTGGGCGGGTAAGCCTGGAGGCTGGACTTGGGTCGGGTCTGGCACGTGCCCGCCAGGCCAGTCTTGACCTGCAGTGGCTTAATTCCGC
Celera SNP ID:            hCV25955976
SNP Position Genomic:     7942
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,36)   total(C,64|T,2)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,28)   total(C,64|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65510):
GTCTCCTGCAGCTGAATGGCGTCCGAGACGCTTGCTGCAAGTTTCTACTGAGTCAGCTCGACCCCTCCAACTGCCTGGGTATCCGGGGCTTTGCCGATGC
S
CACTCCTGCAGCGACCTGCTCAAGGCCGCCCACAGGTACGTGCTGCAGCACTTCGTGGACGTGGCCAAGACCGAGGAGTTTATGCTGCTGCCCCTGAAAC
Celera SNP ID:            hCV25942979
SNP Position Genomic:     6654
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,4)   caucasian(C,17|G,1)   total(C,27|G,5)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65511):
GGAGGAGGTCTACCGAGCCGTCCTGAGCTGGGTGAAACACGACGTGGACGCCCGCAGGCAGCATGTCCCACGGGTGAGGCGCGGCCGCGGGGGGCTCCCA
Y
AGCATCCAGGAGGGCATGCAGGTGGCTGAGGGCCTGGTGCACCCTGACCTTCCCCGAGTTCAGGGACTCCGTGGGGGTGGTGCCCCCACCTGTCTGAAGA
Celera SNP ID:            hCV25934244
SNP Position Genomic:     7208
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,16)   total(C,43|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:65512):
TCCCGGGAAGGGTGGGGAGCAGGTGTCCTTCCTGTCGTCGTCTGCCGTGTGCCATCTTTCCTGGATCTTGTAGCGGGTGCACACGCGTGCACTGGGACCC
C
ACACAGCAATACGAGTCCAACTTAATAAACACATTTCTGGGGTTCCTCAGGCTGAGCATCTCTCTCTGGCATGTGGGGCAGCTGCGCAACTTTGGGTCCT
Celera SNP ID:            hCV26049275
SNP Position Genomic:     10410
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:65513):
GTCCCGGGAAGGGTGGGGAGCAGGTGTCCTTCCTGTCGTCGTCTGCCGTGTGCCATCTTTCCTGGATCTTGTAGCGGGTGCACACGCGTGCACTGGGACC
C
CACACAGCAATACGAGTCCAACTTAATAAACACATTTCTGGGGTTCCTCAGGCTGAGCATCTCTCTCTGGCATGTGGGGCAGCTGCGCAACTTTGGGTCC
Celera SNP ID:            hCV26049276
SNP Position Genomic:     10409
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:65514):
CCACCAGGGACGTCCTGCGCCATCCGTTCACGTCTCTGCATCCATTCCTTCATGTCTTTATTTAGTTGTTTATTTATTTAGTTATTTATCTTATTGAGAG
G
TGAGGAGTGCCACGGCTGCCCGTTTACACCTTTAGCGTCTGGTCCTCCTGCGTGTCCTCCCCTCCACTGCCTGCATGGGGGGCGCGGGGAGTGACCAGGC
Celera SNP ID:            hCV26049277
SNP Position Genomic:     10092
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,7)   total(G,2|-,7) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:65515):
AGAGGGGCGTCCTAGGCACCAGCCGCACACGTCCCCGGCGCTGCGAGGGGGCCGGGCCTGTGCTTTTTGCTGTGGGTATGGCCCCCCGCCCGTTTCCCTC
Y
TGCCCTGTGCCTTCTACTCCCCACCAGCACAAGCCCACCCCACCTGTGCCGGTCAGGTCCTGACCTGCCCCTCCGCCCCTCCATTCAGGGGCCTCTCCAG
Celera SNP ID:            hCV28949702
SNP Position Genomic:     7652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65516):
GGCCCCCACCAGGGACGTCCTGCGCCATCCGTTCACGTCTCTGCATCCATTCCTTCATGTCTTTATTTAGTTGTTTATTTATTTAGTTATTTATCTTATT
D
AGAGGTGAGGAGTGCCACGGCTGCCCGTTTACACCTTTAGCGTCTGGTCCTCCTGCGTGTCCTCCCCTCCACTGCCTGCATGGGGGGCGCGGGGAGTGAC
Celera SNP ID:            hCV26049278
SNP Position Genomic:     10087
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,7)      total(G,7|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:65517):
ACCCCGTGACTAACACGTGGCAGCCGGAGGTGTCCATGGGCACAAGGCGAAGCTGCCTGGGTGTGGCCGCCTTGCATGGACTCCTGTACTCGGCCGGCGG
Y
TATGACGGGGCCTCCTGCCTGAACAGGTAGTTGGGGTTGGGGCCCCAGTGGCTTTGTACAGTCCATCTGCAAGAGGCAAGTTTGTGTCACCATCACAGGG
Celera SNP ID:            hCV25990929
SNP Position Genomic:     8187
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,1)   caucasian(C,20|T,2)   total(C,37|T,3)
SNP Type:                 SILENT MUTATION


Gene Number:                 413
Celera Gene:                 hCG32718 - 79000076186627
Gene Symbol:                 FLJ14936
Protein Name:                hypothetical protein FLJ14936;MGC3320
Celera Genomic Axis:         GA_x5YUV32W802(30708314..30733987)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12573):
TTTATTTTATTTTATTTTTTTGAGACGGAGTCTCACTCTGTCACCTGGACTGGAGTGCAGTGGTTTGATCTTGGCTCACTGCAAGCTCCGCCTCCCAGGT
TCACACCATTCTCCTGCCTCAGCCTCCCAATTAGCTGGGATTACAGGCGCCCGCCATCACGCCCAGCTAATTATTTTTTTGTATTTTTAGTAGAGACGGG
GTTTCACCGTGTTAGCCAGGACGGTCTCAATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTACCAAAGTGCTGGGATTACAGGCATGAGCCACCACAC
CTGGCCGATCCTTAATCCTTCTAATAACCCTACAAGGTAGGTACTACAGCTATCCCCCTTTTCAGGCAAAGAAATCAAGTGACGGGGGACCTTAAAGAGT
TTGTCAAAGGTCACATGACCAACTGCAGCAATCTAATTCCAGCCCACACACCCGCTCTTCTGGGATTGCTCCATTTCCTAATGGTGCTATCAGCCGGCAA
AGGAATGACAAAAAGGCCTCTGAGAGGAGCTACTCTAAACACAGGCAACGAACAAATAAAAATCAGTGACTATAAAGACAGCATCAAACAGCAGCAAAAC
AAAAATCCTAGCAAGAATTATAGCATCAGGCTGGGTGCAGTGGCTCACGTCTGTAATCACAGTACTCTGGGAGGCCAAGGCAGGCGGATCACTTGAGGTC
AGGAGTTGGAGACCAGCCTGCCCAACATGGTGAGACCTCATCTCTGCTAAAAATACAAAAAATTGTCCAGGTGCGGCGGCTCACGCCTGTAATCCCAGCA
CTTTGGGAGGCTGAGGCGGGCGGATCATGAGGTCAGGAGCTCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAG
CTGGGCATGGTGGCGGGTGCCTGTAGTCTCAGCTACTCGGGAGGCTGAGGCAAGAGAATGGCTTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATG
GCGCCACTGCACTCCAGACTGGGCGACACAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAGAAAGAAAAAGAAAATTAGCTGGGCATGGTGGCAG
GTGCCTGTCATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAACTGCTTGAACCCAGGAGGTTGAGGCTGCATGAGCTGAGATTGTGCCACTGCACTCCAG
TCTGGGTGACACAGCAAGATTCTGTCACTGTCACACACACACACACACACACACACACACACACAAGAATTACAGCATCAACCACTGAGATGACTTCTGG
CAAATGCTTGCAATCTTCAGCTTTATTATTACAGCATACGATTAGTATCACTCCGTACCAGCAATAGCTCCAACCGAAAGAACACTCATTAGTGCCTCAT
CATCATCCTCTCTTCCCTGCTTAGCTTTCTTCAGAGAAAGACTAAAGTCATCCAATGGAGCACCAAGAGAGGATTCTAGAATCTATACACCGAAGCCCAT
GATTCTGATGTGCTGCCTCTACTGGACATTAGTTTGATGAGGTTTTTCTCCATACTTCTAAGTATGTCAAAGAGAAAGTATGTCCAAAATCCTCCTTATC
TATGTGCAGTACTCTCCCCTTATCTGCTGAGGGTACGCGCCAAGACCAGTAGATGCTTGAACCTGCAGATGCTGCCACTAACCCTGTATATGCTATGATT
TTTCCTACACACACATACTGTACAGCACGGATACACTGGACAAAGGGATGACTCACATTTCAGGTGGGACAGCGTGAGATTTCACCACATTACTCACAAT
GGCACACAATTTAAAGCTTATGACTTGTTTTTTTCTGTAATTTTCCATTTAATATTTTTGGACTATGGTTGTTGTCAGGTAACTGAAATCGCAGAAGGTG
AAACCACGGATAAGGGGGACTATAGTAATATAAAACATCTTTATCCACTCAGTCTATCAGTTCCTTCTCTTGGGCATACAGACTACCACAGGATTACCTA
ATGACCATGCCCTTCTTCTGTCTCTTGAACGAGGCAGTTTTAGATAGTTTCAAATTGCTATCTTCCTAATCCTCCTTGTGGAGCTGTGCCCCACTCCCAC
ATTTCTGTGCTCTCCTCTTGTTTTGCAGAGGGTTAGAAGGTCAGCAAATCAGCTAAGGCTTTCGATGTGGGCTTGTAGGCTCTGGTTGATGCCACCTTCC
CTTTTGTTCCTCCAGCCTAGGGGCAGCCGTGGCTTCCTGCACTTACTCATCTCTGGTAAATGTCACCTTTTCTTCTAGCCTTTCCAACATTAACACACAA
GTTCCTCTGGGTAAAATATCTTAAGTGTTTTTGTTTTCCCTGACTGAAACCCCAATTGCTACACCTTCCAAATCCAACTTACCTCTTCACTTGTAACGAA
GTAGCACTTGCAAAATATATTACTAACCTTCATGCCAAAACTAAAGGACACATCTCTATGATAGTACAAATTACCTGTTTTTTCCTTCTCCCTTTCCCCC
AAATTCATCCATTCTCTCCATCCCCCCCAATTCTGCCTTAATAGCCTTGCTTACTCCCCAAAATAATGAAAAAGTTAAATTATTGAGCCTTCCAGTTCCG
TTTTACTCAATACTGCTTTGGTGAGTAAAGAAATTTTTTAGATGGAAGAAGACGCAGCTAGTTCTTACGTGATCCCACCTCAGTCTAATGTGCCCTGCAC
ACTGCTGTGAACAAAAGAATCCACAATCTCCCCACCTCCCAATCATTCATGACAAGGAATGGTTTATTATTCCAGTCCCAAACTCACCATCTTCGAACAA
CTCAAGCAATTTAGCAACATACGGGTTTTCATCATCATCCCCTTCAATCAACACAAACTGTCCAATCTGGATGTGAATCTCGGTGGAACAACCTTCTGTT
TTCACACACATTTCTCTAGGAAGTAACAGAGAAGCACATTAGGAAATAACTTAAAGTGGGTCAAGCTCTTCAGATCCCCTGGGCACAAAGGAGAGGGCTC
TCCAATCCTGATTTCTTTCTGCTGACCAACTCTCCTACTGGGAAACCAATTCGCCCAGTTATATTTAAGAATAGGCAAAATGGGTTGAATGAATTGTTTT
AGCTGAGTAATGAATCCAAAGGTCTTATTAGGAACCCTAATTCCTCTCAGTTATTGACAAAGAACAACAAATGCTTCCCACAACAAATGTTTCCCAAGGC
TGTCAAGCTGCCCAGTAACAATGTCAAATTGTCAGAGATCTCCAGGGCTGGGAAAGACATAGTAAAAACATCTATCATCTCGTTTTCATCAAAAGTTATA
TAGAACTCACCTTAAATAGACATGACATTATCCTACATACAAAATTTTATGAGCCTGCCATAATTTTGCTCCATCACTAACTGCTATATTTATCCCACCA
TCTTCTTGCATCAAACAAAACCCTCCTTACAATCAGTTCTAATCTCCTGTTCATTCATGGTCAATCTGTAGTAATTAGAACAGGCTAGATACAAGTTGAC
TGTTTAGCTTGAGAAGCTGTATTTCCAGGACAACCAAAGGACCCCATCACTCACCTATAGGTTTGGTAGTGCAGTTTTCGATCCAACAAGGGCCTGCCAA
CCCATGAATAAGTTTTTCTGGTCTTCAGCCTTGTGGGGTAGTGTGCCATGGCTTCTGTGGAAGAGTCCAAACTCTGAGTTACCATGATAAATATTTGGTA
TTTATCTGATGGATTCTAAGACATAGTCAGTCCCTCCCTTCAAATGAGATCAGACTTATTTTCTGCCCCTGCTACACTCCCATACATTTTAGACTAAGAA
AACATTTTATTTGAAGTCATGGTCTACGAAGATTACACACAGGCAATTTAGTATCATCTGTGTCCATCTTGTACTATGCCGTATCTCTTTCCATCCAGGA
AAACAGAAAGGTCAATTCCTAAGAAATGAAACTGTAACATTTAGAAATACTAGGAATAAGGCAGAACAATAGGTGTAAAACATCTAACAAAGTGAAATTA
AAAGACAGTGATACAGGGGTTGTAAATGTCTTCATGACGCTTATAAAATGCACACAAGGATAAAACAGAAATACAAAGGCTGGGCGCAGTGGCTCACGCC
TGTAATCCCAGCATTTTGAGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGGGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAA
AATACAAAAATCAGGTGGGCATGGTGGCAGGCAAATCACTTGAACCCGGGAGGTGGAGGCTGCAGTGAGCCGAGATCGCAACACTGCACTCTAGTCTGGG
TGACAGAGCAGAACTCTGTCTCAAAATAAAAAAAAGAAAAGTAGATGTTATTATCACTTCAAGGTGATAACTTATCCTATCTTATACAGGATGGCACAGC
CTTAACTCAAACCCGGAAAAGCCAGACTGCAATTACTGTGCTCTTAACTACTTCACCTTACAACACACTGTGTGAAACTGGATAATGTTAATATGTAACT
GAGAGCTTGCTTTTGGTGTACTTATTACAATAAATCAGGCTTCCCAGCCACTGACTGAACATTGTGGATTGGGCCTCAATTTGCTTACCCACAAAATGGA
GAAAATAGAATCTTCCGTTTATTCAACCAATATTTATTAAGTACCCATCGTGTGCCAGGCACTATTTTAGGATAATGGAAGATTAAGTGAAAAAATGCAA
AATGGTAAATCCACTTTCCCACTACCTTAATCCCTTGCATTTATTTGTAAGGTACAGTGGTTTTATTTATTAAGTATCATTTGATGAATACTATGGAACT
AACATAATTCAAGCAAAATTTTGCATTCAATTTCGGCAGATTCACAAACCTCCTAAAGTCCACATATTGCCCTCCATTAAAGTTAAAAACTGTTGCAAAG
GGACTTAAACCATTCTGTCATATTGGAAACTCCTTTGGCATTTCCAGCCCACCTAACACAGCAGAGACGAGGGTACTATTATTCATGTGTTACAGACAAC
TAGAATCGTATATAATCATTGCAGTTTCACAAATAGATCAGGATAAGAATGCCTTTTCCAACTGTCACAGCAGAAGACTCTTCAATTCCGGGGTTAGAAA
AGAGAAGTAGGAAGGGGGCCACCAGACTTCTCTTCTGAAAAGAAGGTGAATGACAGACAGCCCAGCAGTTAGGAGCTCATCTGAAAAAAAGATCTGGGTA
GGAGCCCAGACTGCTTAGTCACGAAAAGCGACCTAAGACACGTCCCTCCCTGGGCGCAATTTACGTCCGTAAAATGGGGTAATAACCTCTGCTCCGCCTT
CCCTGTAGTGGTTCCTACACTATAGCTCAAAGAACGAAACAAGTAGAGTGCTTTACAAATGCAGATGGAGGGAAAGTCATCACTGAGCATCAGGGTGCGG
AGGGCAGGAATGCTCCTGCTTCTAGGCTGTTGGCTTCCGCCTTCCCCCCTGCAAACTCAGTTCCCTGCAGCGCGGGAAGCCTTTTAGGAATCGGAGTGTG
GAACAGAGGAACGCTCTTAACAGTTCAGAACAGTGCCTGGCACTGAACAGGCGCTTGGTACATGTCAGCTAAAAGAATCAATGACTGAGTCTACAGAGAA
CGTCCTCAGTTTCAGAGGTTCCGATGCGCCCTCCCCCGAGTCCCTCGCAGCCCGCTGGACGCCACACTCACCCGGCTCCAAAGCTTCCTCCGGCTAGCCG
CAAGCCCTCCGTTTCCTACCGCCTCCACTTCGAGAGCTCCGGGGGATGCGGCACCTCTAACCTGCACCAGCAGGGCTCCTTCTACAACTACGGGCCGAAA
GCCAGGACCAAAGCGTGTGTCTCACTAGAAATGAAAAGAAGGTGGAAGGAGAAAAGAAAACTTCGCGCCAATCGGCGTGGCCCCGCCCCCAGACCGTCCC
TTCGTTGCGACACCAACTAGCTCGCCCCGCCCACTCCGTACACCTAAGAGGGGCGCATGACGTACATCCGCTAACATGCAGCCGCCATCATTGATTCGAT
AGGCGACGCGGGGAGCGGAAGCCCTTTACACTACGGTGTTTCCGGCTTCAAGATGGTCGCCTAAGCTGTTTAGTGAAACTTCTTCCACCTTTCTCCATTC
CTCTAGGTGCTTTTTCTGAACCTGGATGTGAGGCATTAAAGGATCCGACGGAAATAGAATTGAAGGCATTCTAAAATGGCTAACCGTACAGTGAAGGATG
CGCACAGCATCCATGGCACCAACCCTCAATATCTGGTGGAGAAGATCATTCGAACGCGAATCTATGAGTCCAAGTACTGGAAAGAGGAGTGCTTTGGACT
TACAGGTAAGTGGAAGCGCGCGGAGCGCCTCTCAGCCCCCTTGTGGCCCATTTCTCCTGACCGAGCGCGGGTAGGACTAGCGACTGGCCTCTGGGGGTGG
TACTGGAACGGAGTATGTCGATCATTCAGAAAAATTTTGAGTGCCTGCTAAGTGCCTCGTCTTGTGTTGAGTATTAGAGGCACAGATGAATCTGGTAAGG
TCATATTCTGAAGGCTGTCTCAGTTGGGTGTTGTGAGTTATTCCGTATTTAATGATAGCAGGCTGGGTTGCAACAGTGTTAAGCTCAGGGATCCGGATAT
AACACTTTGACACAATCTGTTGAAGGTCTTTAAGGACCTAACGTTAATATGCCTGAAACCAAATTCATGATCTTACTATTCTTAGATCTGGGCCGGTTCC
AGTATTTATAAATATCAGTGCTTCAGAGAAGTCTTCCAGGTAATCTTCCGATTTGAATTGTGGCTTTAAATCCATGTCCTGTGACAATCTGTGGACCTTG
AGCAAGTCACTTTACCTTTCTTAGCCCTCATTTTCCTTACCTGGAAATAAGAACATTGCTAGAACTTTCTTCATGACTTGTTAAAAAAGGTTAAGTGAGA
TAATATGAAAAGCTTAKCAGGGTACCTATTTTATTATCCATTCTCAATGTATATTAGCTGTTGTCGTTACTGTTATTAATACACATTCGTTCTCCTAATA
TTACACTGTTGATGTATATTTAGGAGAACCAAAGCTTGAACTAACTCCACTCCAACTAGGAAGAGCTTAGCCCTAATATGTTACTGTATTGTTTTTGTTT
TTTAGCTGAACTTGTAGTCGATAAAGCCATGGAGTTAAGGTTTGTGGGTGGYGTCTATGGTGGCAACATAAAACCAACACCCTTTCTGTGTTTAACCTTG
AAGATGCTTCAAATTCAACCCGAGAAGGATATCATTGTAGAGTTTATCAAAAATGAAGATTTCAAGTGAGTGCAATGTTCACTAGCTAATATAAGAGGTT
TAATTTTGGCGGTTTAGAATTGGGCTTTGGTTAAGAGGGGTGTACACAATGTATCTCATTTCTAGAGAGTTCCACTCCAGATTTTTGCTTTTGAGCCCTT
GAGTTTGTATTTTTTGTTTGTTTTTTGTTTTGGAAACAGAGTCTCTCTGTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCCCACTGCAACCCCC
ATTTCCTGGGTTCAAGTGATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCCATCACGCCTGGCTAATTTTTGTATTTTTAGTAGA
GATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCAGACTTCAGGTAATCCCCTCCCCCCCCGGGCCTCCCAGAGTGCTGGGATTACAGGCATG
AGCCACCACACCCTGCCAAGTTTGTATTTTATCTGTTCTGATTGTATTAATCTTCTACTTTACTTTCTCAGTTTTGGTAATTTTTCCCTGAAAAAGGATT
TCACAGATTCACTAAATACATATTAAGCAAAAGTGAGTGCCTGATATGTTGGTAGGCACTGGACGCTCAGGGGTGAAAATCAAACAACAAAAGGTGGTGG
TTAAGAGGTGTAAGATCTGGGTTCACATCCAGATTCTGTTGCCCATTAACTATGACATTGGAGAGGTTACTTAATTTTCTAAACTTTGCTTATCTGTAAA
ATGGTGACTATAATATAAGAGTGAAAGAACGTAATGCATGCAGATCTCTGAACACAGCACTTGCTGCATGGTAAACACCTAGAAAATGTCAGCTTATTAC
CGTATTACCGATTCTCGAGGAAATCACAAACAAGTATAGGAGACAGACATAATAGCTTCTTATGTGCCATGCTGTAAGGGCTTTGCATATAATAATTCAT
TTCACTTTCACAACAACCTTCTAAACTTTTAATCCCTATTCTACAGGAGAGGAAACTGAGGCACAGAGATTAATTAATTTTGCCCAAGTTCAAACAGCTA
GTAAGTGGCAAATCTGGCTTCAGAGTTCATATTCTTTGCTACAGTATTCTGCTTCTCGTACAAAGAAACTATGACTTTCAAAAGCCTCCTAGTTACCCAA
GAGGAAATTTAAGTAGTTAGATATAGGAAAAAGGGAAGAGGAACAACTCTTTTTTTTGTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAG
TGGCGCAGTCTCGGCTCACTGCAAGCTCGGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCACCACTAC
ACCCGGCTAATTTTTTGTATTTTTACTAGAGACGGCATTTCACCGCGTTAGCCAGGATGGTCCCGATCTCCTGACCCGGTGACCCACCTGCCTCGCCTCC
CAAAGTGCTGGGATTAGAGGCGTGAGCCACCGCCCCTGGCTGGAACGACTCTAATAAAGCATTAACAGCTAGAAAATACCTAACTTTTGTTAGGCACTTA
CTGTGTGCTCTGTGCTATACTTAGCACTTTCAATGCATTTCTTGTTTATATACCAAGCCATAAATTAGGTAGCATTATCTCCGTTTTACAAGGATTGAGA
AAACACATGATTTGACCAGTAGTGTCACAGACTTAGTAAATTACGGAGTCAGAATTTGAACCCAGATGACTTACTTTTTTCCAAAACCAGCAGTCATGTT
TATGTGTACTTGTTCTTGTATTGTTATTAAATATATCTTCTTTCTGTTTTAAAATTCAATATATGGCCAGGTGTGGTGGCTCACACCTGTAATCCCAGCA
CTTTGGGAGGCCAAGGCAGGTGGATTGCTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGGGAAACCCCGTCTCTACTAAAAATACAAAAATAT
GCCAGGCATGGTTGCTAACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACCTGAGGTCAGGAGTTTGAGACTAGCCTGGCCAACATG
GCAAAACCGGTCCCTACTAAAAATACAAAAATTAGGCTGGGTGTGTTGGCACATGCCTATAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTT
GAACCCAGGAGGTGGAGGCTGCAGTGAATTGAGATCGTGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGATTCTGTCTCAAGAAATAAATAAATACAT
AAATAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAATCCTCGCTACATGGAGGCTGAGGCATGAGAATTGCTTGATCCCAGGAGGCGGA
GGTTGCAGTGAGCCAAGATCGTGCCACTGCACTGCAGCCTGGGCAACAGAGCAAGACTCTGCCTTAAAAAATAAAATAAAATTCAGTATTTCTTTTGATT
CTTAGAGTAATCCTGTGAGGTAAATAGGTTTTATTCTAGTTTTACTGATGATATATTTGAAAGTTGATCAATATGTATGATGTTCCCACAGCCATAAATG
GTAGCATGGGAACTTGAACTCAGGTCTCCATATTTTAGCTGTCTTTCTTCTGCTGCATTCTACCTCCACAATTGCAGCTTTCTTACCTGCCAAAGAGAAG
AACATGTTTATCCACTACTGTCATGAGAACAGCTAGTTGTAAAACTCAGGAACTTCTAGGATGGCCTGTTGTTTCACTGTCATCTGTCTCTCAGGTATGT
CCGCATGCTGGGGGCACTTTACATGAGGCTGACAGGCACTGCAATTGATTGCTACAAGTACTTGGAACCTTTGTACAATGACTATCGAAAAATCAAGAGC
CAGAACCGAAATGGGGGTAAGTATGGTGCTAAGTCTCCTGATTGTCATTTTTAAGCCAGTTTTTATTTTACCAGTACTTCTACCTTTGCATTGTCATAGA
CAGTGTGAATGCTCCTTTTCATCTACATTGTTACTGTCTCTATGCAGGTTTTCCCTTGTCCCTCAYGGGAGTTTTCAGTCTGACTACTAGCTTCGTGTTG
GCCTTACCCAGCCTGCCTCTGTCTGTCTCCCTTTCCAAGTGCATCTTATGTTAATCCCTGCCTTGCATCATATGCCCCCTTTACATGTGCTCCATCCCAA
AAGATCTAGCTGCAGAATGGCTTCTCCATAAAAACCTTCCCCAGCCCTCTCAGACAAAATTAGTTTTCCATATTTTACATCTTCACAGTTCTTTCTACTG
GCCTCTCCTCTAACACTGTAATTCACACTGCAGCATATAAGACTACTCATTTTTATACAGGAATCCCACTGAAAAATAAGTATATCCAAGAGAGGCAGCT
CCATACCTTCTACAAGGAGATTACTTAATGTGCTAAGGAGGGATTCCAGGTAATGCAGTCAAAACCTTTTCTCACTTGGTGTCATAACAGAAGATAGGAA
CATTTACCTTTCCCCCTACATGTATCATTAAACAGTAGAAGGTTAAGAATTTGGGGCCAAGCACGGTGTCTCACACCTCTAATCCCAGCACTTTAGGAGG
CCAACATGGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTCGTCAGTATGGTGAAACCCTATATCTACTAAAACTACAGTAATTAGCAGGGTGTG
GAGGTGCACACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCCCTTGAACCAGGAGGCGGAGATTGTAGTGAGCCGAGATCACGCCGCTGT
ATTCCAGCCTGGGCGACAGAGCAAGACTCCATCTTAAAAAAATAGAATTTGGTATTATACTTTAAACTTATTGATTCATTCATTGAATAAATACATATTA
AGTGCCATTGACATGTCACATACTGTGCTATGTGGTGTAAATACCATGGTGAACAAGATGGACATGGTCATGGCCATGATGGAGTTATTTATTTATTATT
TTATTACGTAAAACTAAGAATTTCTGAACCTATTGACATTTTGGGTCATATAACTTTTGTGTGAGGATTGGCTTGTGCATCATAGAATGAGTAGCAGTAT
CTCTAGCCTCTACCCACTAGATGGAAGTAACACCTCCTTCTAAGTAGGGGGATGGGCATGTGCAAAATTGCCCATGGTTGAGAACCCCAGAAGTAAGGTA
ATGTTTACCATGGAAGTTCTCAAAAGCTATATATGTATATGTATGTATGTATATATATGTATTTGTATATGTGTATATACACACACATATATATACATTT
TATAATTATATTTACATACAAATATATAAATATACATAATCATATATAATTTATATATAACATAATTTATATATAACATAATTTATATATAATATAAATT
GCCTGTAATCCCAGCTACCCAGGAGGCTGAGGCAGCAGAATTGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGC
CTGGGCAAAAGTGAGACTCCGTCTCAAAAAAAAATTTTTTTTCTAACTCTAGCCAAAAACAATATTTCCTTATTAAAAACACCTCAGCTCTGCCATATAC
TAGTAGTATAATCTTACGCAAATTACTTAAATTTAGTTTTCTCCTATGTAAAGTGAGGTTAATGATACTTTTATATATATATAGATGTATATATATATAT
ACACACACACACACATATATATAGACATATAATTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGGTCTCAGGT
CACTGCAACCTCTGCCTCCCAGGTTCAAATAATTCTCCTGCCTCAGCCTCTTGAGTAGCTGGGATTACATGTGCCCACCACCATGCCCAGCTAATTTTTG
TGTTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCCTGTCTTGAACTCCTAACCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGAT
TACAGGCGTGAGCCACCACTCCTAGCCAGTTCTCAAAAGCTATCACTCCATGTGCCATATAAGATACATGTTCTAAATTCAGAAACATTGAAGGTTCAGA
TGAGAAATTATATTTGAGTTATATGATCTCTTCAAGATCATCCCTACATAATTCAGGACTGTTTGTGCTTGTTTTTGTGTTTGTCTCCTGCTAATTGGGA
CATCTTCATTCATCCCTTAATCTCTTCTAAAGAGGCCTAGCACATAGATGTCCTGATATGAAGTCTTAACACTTCTTTTACTTTTTGGCATCTAAATCTT
TTATTTCCAGGTTGTTTGCTCTAATGACTTTTTCTTGCAGAGTTTGAATTGATGCATGTTGATGAGTTTATTGATGAAYTATTGCACAGTGAGAGAGTCT
GTGATATCATTCTGCCCCGACTACAGGTAAGAAATAAAAGTCTGTTACCAGAGTCACCCTTCTCTTCCTAGACGGGCAGACAGACAAACACATACACACA
GCTTAAACACTGAAGCCTGTGGATCTTATGGGTCCTCTTAATGAATAGTCTTCCTGTCTGGGAGTCCCAAGATAGTGGATTGGGAGTGAGAGGAAAATAG
ATAAAATATTTGAAGGGTAGGGCTTTAAAAGTGAATGGTTTAAAACAAGGAAACTTTGTTTTTCTCCATCCTTTTGTAGTTCAGGTGCATGTGTGAGTTG
TGCCTCCCTCAAACCTTGTTACAAAGTCAGCACATTACCTGTCTATCATGAAAAAAGAAATTTATTCAGGATGTTACATCAAGGGTATTGTAGCTAGAGT
AGGTAGGGAGTTTTTAACTTCATGAACGTTTTTTTTAAACTAATCTTCATGTAAAAAGCCAGGACATAAAACAGATAAAAATAGGGCCAGGAGTGGGAGA
CTGAGCCATTAATTCCTTAAACTTGCCTTCACCATCCTGCTTCCCTTTCCTAGTGATAAACGATTATCCATGAGGCATCTTTTCAGGAAATGAGTGTGAT
ACAGCTCTCCTGTTCCATGTTGGCACTGTAGGGCATGTAGTGGAAAGAATGAGATTATAAATTTGAAAACCTACTTTGAGGGCCCAATTCTTATAGCAAG
ACAATGTCTTGCTGTGTTGCCCAGGCTGTTCTTAAACTCCTGGGCTCAAGGGATCTTCCTACCTCAGTCTCCCAAGGAGCTGGGACCACGGGTACATGCC
ACTACATTTAGCCATTTGGCATTTTTGAAATCAGCTTTGCCTCTCTGATCCTTAGCCACTCAAATAAACATTGCTAAGCCATATCCCAGATTAAAATGGA
ACCAGTTCAAAATGCATGAATATCAACAGCTCCCGAGATCCTGGGTCTACTGGAGATTTGGTACTACTCTAGGGCTAGGCCTCTTCTAGTGGAACTACCA
GCCATGAACTTATTAGCCCTTGGATTTTCTCTGTGTGTGAAGCCCTTACTTTTGGTTCTAGGCTGTACCTATACTGATTGATATTCCCATGACTTTAGAG
TATAAGGTACAGGGAATAGAGTCAATAGAAAATGAAGATGTTCTCTTCAGGTTTGTATTTATGTTTATAGGAGAACTTTATAGATTTCAGGTCTATTAAA
CTTGTTAGGAAAATCTTGAACTGTCTTTGAAATGAAATTGCCTCAGCTGTTGCTCCTTGGAACCCTGAAGCCCAGTGTTGAGGTTTCAAGAAATAGGGGA
AATGGCAACAACCCCTAACTCTCATCATTTTCTCTGTAGAAACGCTATGTATTAGAGGAAGCTGAGCAACTGGAGCCTCGAGTTAGTGCTCTGGAAGAGG
ACATGGATGATGTGGAGTCCAGTGAAGAGGAAGAAGAGGAGGATGAGAAGGTCTGGCACCTGAGACTTTTATGGTTGTAGGGGAGGGAGTAATAGAAAAT
GGGAATGGTTTTTTGTTTTTAGACTTTAATTTTTAACTCTATTGGCCGGGCGTGGTCGCTCAAGCCTGTAATCATAGCACTTTGGGAGGCCAAGGCGAGT
GGATGACCAGCGGTCAGGAGTTCAAGACCAGCCTGGCCAACGTGGTGGTGAAACCTCGTCTCTACTAAAAATACAAAAATTAGCCAGCGTTGTGGTGGGT
GCCTGTAATCCTAGCTACCCAGGAGGCTGAGGCAGCAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCAACACTGCACTCCAGC
YTGGGCAAAAGTGAGACTCCGTCTCAAAAAAAATTTTTTTTCTAACTCTAGCCAAAAACAATATTTCCTTATTAAAAGCACCTCAGCTCTGCCATATACT
AGTAGTATAATCTTACGCAAATTACTTAAATTTAGTTTTCTCCTATGTAAAGTGAGGTTAATGATACTTTTTTCCCCAAGACTGTTAAAAGTATTAAATA
AGATTATAAACTTAAAGCCCTTAGCAGAGTATTGGCACATTATAATTGCCTAATAAATGGTGGCAGCTATTAAATACTTGGAAAGAAAGAACACTTTCAT
AATTGCACCTATCCTAAGGAATAAACCTTGTTTAGGAGGGGGAAAATGTCAACCGCATAGTCATGTTCTTTCAGTACTAGTTACGGTGCTGAAAAGTTGA
AAACAACCAAGCTGCCCAGTTGTTCCAGGAAGCAAACTTTTTTTTTTTTTGAGATAGGGTCTTGCTCTGTTGCCCAGGCTGAGGTGCAGTGGCTCACTGC
ATTCTCGGCCTCCCAGGCTCAAGCAGTCTTCCCATCTCAGCCTCCCAAGTAGCTGGAACTACAGGCACGTGCCAGCATACCTGGCTAATTTGTGTATTTT
TTTTGTAGAGATGGGATTTCACCATGTTGCCCAGGCTGCAGATAAACTAAACATACACACATACACACACACAGGTCTGTTTCTGTTCCCTCTCCTATGA
GTCATTTTGGCTGTCTTATATAGCTCATAATAAGTTTTGTTAGTTAATAGGGTAAGTGCTTCCCTCTTTGTAGTCAGGTTACTGTGCTTTAAAGTCACAT
GGAGATGGACTTTGGGACAAGATGGGGCGTGAAGTATAATTAGTGTTCCTAGATGGCTCTTTATAAGCCTGTGCCTTTCAATGACCCAATCATCTTGTTT
CCAGTTGGAAAGAGTGCCATCACCTGATCACCGCCGGAGAAGCTACCGAGACTTGGACAAGCCCCGTCGCTCTCCCACACTGCGCTACAGGAGGAGTAGG
AGCCGGTCTCCCAGAAGGTAAAGCCTAGTCATTGGCCTTTTCCCAGAAGATTTTGAGCACTGTAGCCTAGAAGTTTGGATTTTAGAGAAGGAAAAATGCA
CGTCTATGGAGAATGTTTGCCCAATATATTAGTTATCTGTTGCTGCAAAACAACCACCTATAAAACCTCATTGGCAGACAACAATAACCATTTGTTCCTT
TCACAAGTCTGCAGTCAATGATTTAAGCAGAGCTTGGATAGGCAGTTTTTAAAGTACCTGTTCTGTTGTCGGCTGTCTACTGGCTGGTATGGAATTGCCT
TAGCTTGGATGACGGGGGAAATTTCTCTTCTCTGTGTCATCCTCTAGCAGGCTAAGTTGGGCATATTCTCATGGTAGTGGCAGAACTCAAGAGCAAACAA
ACCCGGTCATGCAAATGTTTTTCCAGTATCTGCTTTTATCACATTTGCAAATATCTCATTAGCCAAAGCRAGTCATGTCACCAGTCCTAAAGTTAGAATG
GGAGGGTGCTAGAGTTACGTGACAAAAGACATGGATACAGAGGTGGGTGATACAGAGAAGCGTGAAGRATAAGATTGGGGCYGTTTTTGCAATCTACCAC
ATCCAGTGYGCCAACCTAGGCTTTCTTCTTCCTCTCCTCTTTATAGGCGGAGTCGATCTCCCAAAAGGAGAAGGTAGGCCTTCAGTCATTTGTGATGAAG
GATAGGGCTTTGGGGAGGGGGTGGTGGTATTGGTGTTATATGTATATTGCTAACCAGATCTGGTAGTCTGACCAGTCTTTTCTACAGCCCCTCCCCTCGC
CGAGAAAGGCATCGGAGCAAGAGTCCAAGACGTCACCGCAGCAGGTCCCGAGATCGGCGGCACAGATCCCGTTCCAAGTCCCCAGGTAAAGCTTGTGGGC
CTTTTGCCACAGGTTGTCTTAACAAAGAAATGTAAAAGGAGTAGTTAGCCTCCTGCAGTACAGGAGTGCCTGACTGTACTGCCTAACAGAAAAGCAAATG
GACATAGAATTTGAAAATTAAGGTTCACAGCTTGACTGTCACTTATAAGCTTTGCTGATAAGGTTTGCTTTAGTTTTTTCATCTAAAATTGGAGGAATAA
GATCTAACATAATAGTGAAAACCCAATATGATGTTTGTGAAATTAGTCATAAAGCCCTTGAATGTATATGTATTTGAACTGGTTTCATTACTACTTTCTT
TGCTCCCTCTTCCTCCACTAATTCAGAGTTGCTTCCACTAAGAGGTGTCCCCTGCATAGGCCAAAAGAATATTAAGCCAATGGCAGGTATTAGGGGAGGT
GAGAATGACAGTTTAATAAGAGTAGAAGGGTAGGATCTTATGCAATGGCCTTTTCTTCCCCAGGTCATCACCGTAGTCACAGACACAGGAGCCACTCAAA
GTCTCCCGAAAGGTAATGAATTGACCTCTATTTTAACTTTACAGAAATAGTCCAAATTACAACTAACTGGACCTGAAATTTTCTTGTTTTGTTGGGGGAT
GTTAGGAATTCTCCTGCATTACAAGACAAAATTGGTCTATTGCTTTGAGAATTACTGGGGTTAGATAACTTTTTCTTTTTTCTCTTTTTTGAGAACTGAG
TTTCGTGCTTGTCTCCCAAGCTGGAGTGCAGTGGCGTGAACCTGGCTCACTGCAGCCTCTGCCTCCCGGGTTCAAGCTGATACCTGTTTTGCTTTACAGG
ATTGCAGCTTTGGACAATGGATGAGCTTTGGTCTCAGAAAACATGGGGTTTAGTCCCAAGTTTTAAAACTTAACAGTTGAGTGACCTTGGACAAGTCACT
TTCATTTGATAAGATTTCATTAGAAACCCCCATGTGCCATATACCGTTGGGTGCACTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCG
CTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCACCTCCTGGGCTCACGCCATTCTCCTGCCTCAGCTTCTCGAGTAGC
TGGGAATACAGGTGCCCGCCACCACCCTTGGCTAATTTTTTATATTTTTAGTAGAGACGGGGTTTCACCATTTTAGCCAGGATGGTCTCAATCTGACCTT
GTGATCCGCCCACCTCGGTCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCGGGCCTGTTTGGTGTACTCTTAACCTCTAAGAGGTCATTTC
CTCAATGGTAAAATTTGGATAGTAATGCCTGACTCAAGAGTGTTGCTCTGAGTCAAAAAAATACCAAGCAGTTTAATGAATATTGAGTGTCAGCTCCATC
CCCATCAATGTCAGCATACCAAGGTCTTTCTCAGGACTCCTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCATTGAGGCTGGAGTGCAATGGCCCAAT
CTCGGCTCACAGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGTCCCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGCCGCCATGCTCGGCTA
ATTTTTGTACTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAAYTCCTGACCTCAGGTGATCTGCCTACCTTGGCATCCCAAAGTG
CTGGGATTACAGGCGTGAGCCACCGTGCCTGGCTGCTTCTTAATATAATTATTTATATGTGTTGCCATTTCAGGTCTAAGAAGAGCCACAAGAAGAGCCG
GAGAGGGAATGAGTAATGGACTCAGTTTGGTTTTAGTCCACATGGCCTCCTGTGGATATRAGGATATCTGTATGTGGAAGGATTAAGATCTCCCCCAGGC
AGCTATAAGAATATTTTAGTTTTTTTCTTATCAAGTTTCTCAACCTTTATTTTTAATGAAGGAGGTGCTGAGTTTTGTATCTTTTTAATCATAATCAACA
TCAGTTTTTGACCCAACTAACCTTGACTGTATTCAAACTTATGAGAGTATAAAGGATCTGGAGGTTGGGGATATGACTGACAAGGAAAGGCTGTGGCCAC
CTGATGACCCTTTCCCTTTTTATTAAACCGGACACACCTGTTTCCCATTTCGCTGTAGTTTAGTTTTTGGTTTGTTGTGGTTGGAACTGCTTTGAGAATC
CTGGGATTTGTGCTGCTGCTGTTATTCAAAGATCAAAGGAGTAAAACATAGTTGCTCCTAACTTTTTTCCAGCAGCAGCAAGTGGTAATAAACATGAAAA
CTGGTTTGTAGCAGTTTTGAAAGAATAGAATGCATTCAAATGTAAGGCTGCTTCTGGATCATTAAAGCCAGTTTCATCAAACAGTTCAACAGAGAGCAGC
ACTTAATACCCTTTATACAGCCCATTTTTTCATAGTTTCATTTGTTCTTGCCCACAAGCTTGAAATCCAGGTTAAGGTATCCAGCCTTTATCATATAAGC
ATTGACATTATCCAGGCCTAGTCAGTAGCAGTAGGGTAACGGGATTGAAAAAGATTTGATGGAGAGGAAAGTATCTAATATTAGTCATGGTTTTGACCTA
AATTGCTAGACAGTCGTGCCATTCACAAAGTCAGAAAATACAGCAGGAAGAGACAGCTTTTAGAGGGGCAGAGAATTAGAGGATGGTGGTAGTAATGAAA
ATGATGCATTCAGTTTAACAAGTTTAATTTGAGACAGCTATGGTATAGCTAAAAACAAAAGCCCATAAAGTTGGAGATAGGGACCAGAGTTTAACATAGC
GATCTAGGCCAGAATTGACAATGTTTAAGTAATGGTGGAATCTGTCAATAAGACTTCCCAGAGTGTTAATATATATCAGAAATGCACACAACAGAACCAT
AGGCAACACCAACACAGGAAGAAATAGAAGTCACCTATTGAAAACTGGAATGGCCCATTCAGAAAGACAGGAGAATTAGGAGAGAGTGAGTGAAAGAAGC
CAAGGGTCAAGAATGCAGAAGCAAAGGAAGGACTAAAAAGCCTCCACGGACATCGATAATCAAGAGATTATTAAGATCTTTGCTAGAAGAGTTCCTTTAC
CTGTACTTAACTCCCTTAAAAAGAGAAAAGTGATGGAATGACTTCTGCAACTGTAGTCCCAGCAGGAACTGTGAAGACCAGCTGCCCTGCAGGATCCAGT
TTTTCTTGGGAGGTTGTATCTGGTCATAAGGTAAACATTCTATATATTCTATGCCTGCTCTAGAATTGAAAGACTTCAGCAGTATTAAAGCATTTTTTAA
TCTTATTTGAGCTTTCATATTCTTCAATGGTTCCTTTCGTAATACCTGAGTTAATAAAAGTGGTCTGAAAGAGCTCTTACGGTTTCTGATAGAACTATAT
AGGACTACCTTTTAAGATTAAATATAAGCATCTGTACGTAAATGTATTACAGTGTCATAGCAGTTATTTCTTTATGAAAGTGATCTAGGTAGAAAGAAAT
GTCTTCTGGCATGGACAGAAATGACCCATGGACCAACCAAGCTGTCATCCAGTACACTCTTAAAATAAAACTTTGTCTTAAAATATGTTTTAAAGTAAAA
ATAAACCCACGCACAAAGCCCAATAAATTTTAGTAACAGAAATAAACCTCCCTAAACAAACATTAAAACATACTTGTTTAGACATATGGTAATATGTGGA
CCAAAATTGAGGTACCACAGCCAATCAATAGCAGGAAAGAGAATGTCCCTATTCTTTAATTAGAAGAAGGAGGTAAGAGTAAGACATGTTGCATGTCTGT
AGATATCGTTTTGATAAAATTACACAGGAGATGGAGCTTGAGGACAAACCTTGCTGTAAGGCTCTTTCTGTCATCTATGTGCTTGCCTATGGATGAAGCA
TTTTAAACTTTTTGACTACAGCATACATTTTAAAAACGTATTTTACATCTTACCTCTGTACACATCTGTATTCTGTACTGAGACAAATTTCAGGAAAGAA
TACTTACTATGCAAAGTGAATTCTGGTGTTTCCTACTTGTTAACAGTTTTTAATATTGGATGAAACCACTTAATCGATTTCACTTCCAATAATTTGAAAT
ACACTGACTTAAAAGCTTTGCCATAGGGCACAATCGCCTTTTAATACTAAGAAAGTAAGGGAGATGTGTTCCAAGGGGCAAAAGAAATAATGCATTTTTG
GCCAGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACCTGAGGTCGGGAGTTTGAGACCAGCCTGGCCAACATG
GAGAAACCCTGTCTCTACTAAAAAATACAAAATTAGCCGGGCATGGTGGCGCATGCCTGTAATCCCAGTTACTTGGGAGGCTGAGGCAGGAGAATCGCTT
GAACCTGGGAGGCAGAGGATGCGGTGAGCTGAGATCGTGCCACTGCACTTCAGCCTGGGCAAAAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAAAAGA
AGAAGAAGAATGGGTTTGGTGAGAGGGTTCCAATATTAACAACCCAACTTCAAGCTCATTCCTCTAACCTCTTCCTGTTTGTTATTCTTCAGTAGACCGA
AGTTTAAATAAGCATTATTTAGAAAAGAACGATCACAGATTGCCCACTCCCTCAAAAAGGTTAATGTGACAGAAATTCTCCACCTGCTCAAAAAAGACAG
CAGACATGATCTCTTTAAAAAAAAAAAGTTCAAAAGAGATTAAGAGATGAAAAATAAGATTGGTGGAGTTTAAAGGCCTTATACTAGAAACCACAAAACA
TAAAACAGCACAGAGAAAATAGGCTGGAGGAAATAAAAAATGGAAAAGAGAAATATGTAGAATAAAGAAATATTCTGATGGTTTAAAAAGAATTGGCCGG
GTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGACGGATCATGAGGTCAGGAGATCGAGACCATCCAGGCTAACACAGTGAAAC
CCGTCTCTACTAAAAATACAAAAAATTAGCTGGGTGTGCTGGCGGGTAGAGCTACTAGGGAGGCTGAGGCAGGAGAATGGCGTGAATCCGGGAGGCGGAG
CTTTCAGTGAGCCGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCTCAAAAAGAAAAAAGAATTAAATGGGGTCAGGATGGTC
TCAGATCTTATAACAAGAAGGCAATGAAGCAAAAGGCTCCAAAGGTTTGAGAAAAAGTGCCAGGAATTTTATACTTTGCCAAAGTTGTCTTAAAATACAA
AGGCTATAGATGTTCTCAAGTTTGTAAGAACTTAAAAGTACAAATCATGAGTCTTTGGGAAAAAACCGCCCAATAATGAAATTCAACTAAAGAAGAAATG
AATCAAATTAAGGACTTAGGAACAAAGAATCAGTAAAAGGAGTGTTAGTAAACACTTCAGAAACTTTAAAAATAATGGGCAATGATTATAAAGTCAAATA
TTATGAACACTGTCTATATAGAAATAACAAGTAGAGTGTGCTGGTTTCATCTTTCATAGCAGGAATCACGTACAGTCTCTAATTAAAACATACATGAAGC
TAGAAAAAAAAATAGCCTCTTTATTGTTTTCCGTAATTGTCCTTAATTTTAGGAGAAATCTTACAAGACTAGATTCTCTTGTGGGGAAAAAAGTATTTAA
ATTGAGCATTTTTTCAGTTTCACACTTGTTTTCCTTTTGTTAATTTGCTATATTTGTTAAATATAGCATATGAGCCCACTTTTGTAAAACTATTTGTATA
TATGTGCCTGTATGATTAAGAGAGATGGTTGGAATGAATGAAGTTCACCAGATAGTACTTCTTTCTGGCTGATGAACTTTTGAATGATTTTTAAACTTTG
TACTTTTATATAATGCTTATTTTCTTTTTACAATAAACATGTTAATTTCTACAAGGAAGAAATGAGTTGTTGGGAGTTAAAAGCTTTTTTATAAGCATAC
CAACACATTTTACGTATTGTTTGCTGGAACTACAGATTGATAACCACTTTTATGAAGGGCAATTTGGCAATATGTAGCAGGAACCTTAGGACTTTTGATC
CTTTTACCCAGTAATCCCATTTAGGGGAATTTACCCTAATAGAATAATTACATGTACACACAAATAGCTTTATCCCATCATCATTTTACACATTACATAT
ATAATATGTATATATAAGAATAACTGGAAACAGCAAAAATGTCCATCTGTAGGGGATATAAACAAATATACAGTACATATTTATATTTTTAATAACCCTA
ATGTCAAGGGAAAATACTAATCTCCATGTCATTAAACAGAACATTTCAAAACAATTTGGTCTTAAATGTGTGTGTTCTCCCTGTATAAGATTGATAATTT
TCTACTTAACTGCTCTACAATGAATCTGAACTCATAATCTACTTTGCAGACTTAAAATCTGAGTTTCTACTATATCAATTTTAAACTATATGTTTTTCAA
CAGAACAGTTTTGCCAATTATTGAACACTGGCAGTTACTGAAGGAGGGGCAAATGAGATGCTGAAAACTAGTATCTATAACACTATCATATAAGTAAAAC
CTAGGCTGTTGGTTACTAGGTTGCCAGTTAATAGGTTTTGCCAAGTGGTATTTTATACTGCCTTCCTTAAGGAAGAAAGGCTGAGGGGTTGGGGCATTCT
GTTATTGGAAGTTGTTTTATTTTTAATGAATATTTCAAATACAATCCTCCCCTTGGTATCTGGTGGGGGGTTGGTTCCAGGACCTCCCGCAGATATACCA
AAATCCAAGGATGCTCAGGTCCCTGATATAAAATAGTGTAGTCTTTGCATATAACCTATGCACATCCTCCTTTATACTTTAAATCATTTCTAGATTACAT
ATAATGCCTCATACAATGGAAATTCTGTGGGAAAAGTTGTTATACTGTATTGTTTAGGGAATAATAACAAACTGTACAAGTTCAGTACAGACACAGTTTT
TTTTAATATCTGCAATCCGTGGTTGGTTGAATCCATAGATGCAAAACCCATGGATATGGAGGGCCTACTGTATGTACAAAAGTAAAGAGAATAATAAACA
CCCCTGTATACGTCATTACCTGTTCTCCAAGATGTGGAAGGACATGAAGTATTGAATGTTAATTTAAATCTTGAATGCTCCAAGTCATTTTAACATGAAT
GCATAGTTGGGTCAGGTATCTTGTTAATAAATGATTTAAGTCCACCACTTAATAGGATTCTGAAAGATGCTGACGCTTTAATAAGAAAAAATAGTAAATA
TACCTAACTCAGGTTAGGTAAAAAAAATAGTAAATATATTTAACTCAGGGCTGTAAATACAGCATGAATACCCTCAACCTCCTGCAATAGGTTTCAAATA
TCTTCCATGTTGCAAAATATGGCAAGGGCCCAAGCAGTCTCCTATTTAAGTAATGTATATCAGAGGAAGCGCAGCAAAGATAACCCACTGTCCTTACATT
TTTATCTACTTATTCTGCACCTTTCCAAATAGATATATAGCATCATTTAGCCTAAAATCCCAGGCAACTGGACGGACTAATTAAGGGGTTAGAGAAAATT
ACCTCACCTCACTGCTAAAACAGCTAAAACATTATGCCACCAACAACTCGAGTCTGAATTCCAATACCCAATAATAATTAATTCCAAGTATTACTGGTAA
ATAATTATCATCTTGGCAAGTGTGCTTTCCAGGTGGAAGTATAGGACTCAAAATGAATACAGTCTGGGCTGGGTGCAGTGGCTCAACGCCTGTAATCCCA
GCACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAATTCGAGACCAGCCTGACCAACGTGATGAAACCCCGCCACTACTAAAAATACAAAAA
TTGGCCAAGTGTGGTGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTCAAACCCAGAAGACAGAGGTTGCAGTGAGCCGA
GATCATACTACAGCACTGCAGCCTGGGTGACAGACAGACTCTATCTCAAAAAAAAAAAAAAAAAAAAGTAATCTTCCCTCCACTCTAATTGCCAATATTA
GTCTCAGTGTTTTAAAATTCTCTTTCCAAATACTTTTCAATTCAGACTCCAGCATTGTTTGCTTTTTGGAATTTACTGACTGCTTTGCATTTCAGTTTTT
ATTTTCAAAGATAAAATGGAAATGGCTTCCGCTTCTATCAACCTCATATGGGTGTTGTGAACATCCAACCAAATAAAGGATATGAAATGTTACTTGAATC
TCTAAAACTAAAATCTGTGATTTAGAATGCTCTATTCACTGAAATTAAAAGAAATCTTGTTACGTAATATTTCCATCATCTATACAACAGATTAACCAAA
TTTAACTCTTGTCAAAAAGATTTATTAACTTAAAATAGAAGTACTTCAAATACAGACAAAATCAACTTTCCATTCAAGTTTGAATGTTCAATATACAAGT
ATGGAAAAGAAAAAAAATCTGAATCTTCATGTTGTAATTTTATTTTATTTTTTTACCTTTTAAAAAGTTTTTGGCACTACAAGGTTCTGTAAAGAATAGA
AGTGACAATTTAAAACACATGAAATTCTTTCCTAACTTTTAAGAACAATATATAAAGTCTGAAGCAACCAAAGTATGAATACAGCTAATAGAAAATAAAG
AATGTAATTTTTTAAATTCTCTCTTTATACAATTCATCAAGGTTAAACAAAACATAAAATTCCCTTAAAAATAGGGTAATAAAATAGATGAAATTTGTAT
CACTCAATTTGGTGATACTAGTAAAAACTATAGTTCATATTTATATACAAATAATACAGTCTGTAAAAACAGTCTTAGAATTTAAATAAGCTATCTAAAC
GTGTTAAAATTTTAAATCAGGACCTGATTTGTTTTGCTTTCCATTAAATGTCACTTTTTCTGCTGAATGTAACTGACATTGAGGTACGGATACCCTTGAG
ACAGCAGGATTGGCTGGTTGCTGTGCATCGGTAGACCAGCTGAAAGAAAATGGACTCGCATTACTCCGACACGTTTCCTCTTGGTGGGTGGGGACAACGC
TCTCTACACCGACGGGTGGCACATCTGTCTGTTGGATACAACACAGACAGGAAACTGAAAGGCTTGTGCCTGTTTATCTGACAACACCTTAGAATTAACT
TGTAGTTAGCTTTCTTTTTTTCTATTTATATAATAGGAGGTGATAAAGCATGCTGCAAAACATTTGAGAGGGTGGGGAGAAAAATGAAGAAGGGAAGGAA
ATACCTGTATGTGAAAAAAGGAGAGGACACGAAAGATGGAGAGGAGGAATCAAAGGGAAAAAACCCACTAGAA


SNP Information

Context             (SEQ ID NO:65518):
CTAGAGTTACGTGACAAAAGACATGGATACAGAGGTGGGTGATACAGAGAAGCGTGAAGGATAAGATTGGGGCCGTTTTTGCAATCTACCACATCCAGTG
Y
GCCAACCTAGGCTTTCTTCTTCCTCTCCTCTTTATAGGCGGAGTCGATCTCCCAAAAGGAGAAGGTAGGCCTTCAGTCATTTGTGATGAAGGATAGGGCT
Celera SNP ID:            hCV25921535
SNP Position Genomic:     16009
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,2)   total(C,29|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:65519):
TACTTTTTGGCATCTAAATCTTTTATTTCCAGGTTGTTTGCTCTAATGACTTTTTCTTGCAGAGTTTGAATTGATGCATGTTGATGAGTTTATTGATGAA
Y
TATTGCACAGTGAGAGAGTCTGTGATATCATTCTGCCCCGACTACAGGTAAGAAATAAAAGTCTGTTACCAGAGTCACCCTTCTCTTCCTAGACGGGCAG
Celera SNP ID:            hCV25922273
SNP Position Genomic:     12579
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,2)   total(C,30|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65520):
TGTTGCCATTTCAGGTCTAAGAAGAGCCACAAGAAGAGCCGGAGAGGGAATGAGTAATGGACTCAGTTTGGTTTTAGTCCACATGGCCTCCTGTGGATAT
R
AGGATATCTGTATGTGGAAGGATTAAGATCTCCCCCAGGCAGCTATAAGAATATTTTAGTTTTTTTCTTATCAAGTTTCTCAACCTTTATTTTTAATGAA
Celera SNP ID:            hCV26412916
SNP Position Genomic:     18160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:65521):
GCCTGTAATCCTAGCTACCCAGGAGGCTGAGGCAGCAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCAACACTGCACTCCAGC
Y
TGGGCAAAAGTGAGACTCCGTCTCAAAAAAAATTTTTTTTCTAACTCTAGCCAAAAACAATATTTCCTTATTAAAAGCACCTCAGCTCTGCCATATACTA
Celera SNP ID:            hCV7834030
SNP Position Genomic:     14401
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65522):
TTTCTTAGCCCTCATTTTCCTTACCTGGAAATAAGAACATTGCTAGAACTTTCTTCATGACTTGTTAAAAAAGGTTAAGTGAGATAATATGAAAAGCTTA
K
CAGGGTACCTATTTTATTATCCATTCTCAATGTATATTAGCTGTTGTCGTTACTGTTATTAATACACATTCGTTCTCCTAATATTACACTGTTGATGTAT
Celera SNP ID:            hCV11286142
SNP Position Genomic:     6917
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65523):
CAGTCCTAAAGTTAGAATGGGAGGGTGCTAGAGTTACGTGACAAAAGACATGGATACAGAGGTGGGTGATACAGAGAAGCGTGAAGGATAAGATTGGGGC
Y
GTTTTTGCAATCTACCACATCCAGTGCGCCAACCTAGGCTTTCTTCTTCCTCTCCTCTTTATAGGCGGAGTCGATCTCCCAAAAGGAGAAGGTAGGCCTT
Celera SNP ID:            hCV25921574
SNP Position Genomic:     15982
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,2)   total(C,31|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65524):
GCGAGTCATGTCACCAGTCCTAAAGTTAGAATGGGAGGGTGCTAGAGTTACGTGACAAAAGACATGGATACAGAGGTGGGTGATACAGAGAAGCGTGAAG
R
ATAAGATTGGGGCCGTTTTTGCAATCTACCACATCCAGTGCGCCAACCTAGGCTTTCTTCTTCCTCTCCTCTTTATAGGCGGAGTCGATCTCCCAAAAGG
Celera SNP ID:            hCV25921590
SNP Position Genomic:     15968
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:65525):
CATGGTAGTGGCAGAACTCAAGAGCAAACAAACCCGGTCATGCAAATGTTTTTCCAGTATCTGCTTTTATCACATTTGCAAATATCTCATTAGCCAAAGC
R
AGTCATGTCACCAGTCCTAAAGTTAGAATGGGAGGGTGCTAGAGTTACGTGACAAAAGACATGGATACAGAGGTGGGTGATACAGAGAAGCGTGAAGGAT
Celera SNP ID:            hCV25922029
SNP Position Genomic:     15870
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:65526):
TTTTACCAGTACTTCTACCTTTGCATTGTCATAGACAGTGTGAATGCTCCTTTTCATCTACATTGTTACTGTCTCTATGCAGGTTTTCCCTTGTCCCTCA
Y
GGGAGTTTTCAGTCTGACTACTAGCTTCGTGTTGGCCTTACCCAGCCTGCCTCTGTCTGTCTCCCTTTCCAAGTGCATCTTATGTTAATCCCTGCCTTGC
Celera SNP ID:            hCV25921817
SNP Position Genomic:     10266
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,21)   caucasian(T,2)   total(C,5|T,23)
SNP Type:                 INTRON


Context             (SEQ ID NO:65527):
CTGAGTAGCTGGGATTACAGGTGCCCGCCGCCATGCTCGGCTAATTTTTGTACTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAA
Y
TCCTGACCTCAGGTGATCTGCCTACCTTGGCATCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCTGCTTCTTAATATAATTATTTATAT
Celera SNP ID:            hCV25921665
SNP Position Genomic:     17958
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,27)   caucasian(T,2)   total(C,1|T,29)
SNP Type:                 INTRON


Context             (SEQ ID NO:65528):
CCAACTAGGAAGAGCTTAGCCCTAATATGTTACTGTATTGTTTTTGTTTTTTAGCTGAACTTGTAGTCGATAAAGCCATGGAGTTAAGGTTTGTGGGTGG
Y
GTCTATGGTGGCAACATAAAACCAACACCCTTTCTGTGTTTAACCTTGAAGATGCTTCAAATTCAACCCGAGAAGGATATCATTGTAGAGTTTATCAAAA
Celera SNP ID:            hCV25922244
SNP Position Genomic:     7152
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,2)   total(C,31|T,1)
SNP Type:                 SILENT MUTATION


Gene Number:                 414
Celera Gene:                 hCG32719 - 79000076175520
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W802(30573482..30730278)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12574):
TACCAGTGCCCCCAGTTCTGATAGTGTCTTTTGACAAACAAATGTTTTACATTTTCATACAGTTTTTCTTTTGTTGCCTGTGCCTTTGGTGTCATATCCA
AGAAATCATTGCCAAATCCAATGTTGTGAAGCTCTTGCCCTATGTTTTATTGTAAGAGTTTTATAGTTTTAGGTCTTATGATCCATTTGAGTTAATTTCT
GTATATCGTCTAAGGTCAGGGCCCAAGTTCATTCTTTTGCATCTGGGTATTCCATTCTCCCAGCACCATTTACTGAAAAGACTGTCTCTTATCCATTGAA
TGGTCTTGGCATCCTTGCTGAAAATCATTTGACCATATATGTGAGGATTTATTTCTGGAGAGAGGGCATTACATTTTGTAGGGCACAAAGGTGCATCAGA
GTGTAGACTGTTCTAATACATTTGAATTGGTCAGAGGGAGATTGTTTAGAATGGAGTTGGATCTCATTTTTGTTTCAAAGAAAAAGGAGAGAGATTTGAC
TTGGGGGGGGGGCGGTAAATTAGCTGACTTAAAGGGGGTTTGAGACCGGCCTGGGCAACATGGTGAGACCCCCACCTCTATAAAAAATAAAAAATTAGCC
AGGCATGGTGGTGTGTGCCTGTAGTCCCAGCCACTCGGGGGGCTGAGGTAGGAGGATGGCTTGAGCCCAGGAGGTCAAGGGTGTAATAAACTGTGATCAT
CCCACTGCACTCCAGTTTGGGTGACAGAGTGAGATCCTGTCTCAAAAAAAATAAAAAAGAATTGGCCGGGTGGAGTGGCTTATACCTGTAATCCCAGCAC
TTTGGGAGGCTGAGGTGGGCAGATCACCTAAGGTCAAGAGTTTGAGACCAGCCTGGCCAACATGGTGAAAGCCTGTCTCTACTAAAAATACAAAAATTAG
CTGGGCGTGGTGGCGTGCACCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAACCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAGATC
ATGCCACTGCACTCCAGCCTAGGCAACAGAGTGAGATTCTGTCTCAAAAAAATAAAATAAAATAAAAAAGAATTACGGATTTTTAGACTCCTTTCCTGCC
CTAGTTTATCTGGTTCACACCCTTTTCTTTCTTTTTACATTTAAGAGTCAGGGTCTCACTCTGTCACCCAGCCTGGAGTGCAGAGGCACATTCATAACTC
ACTGAAGCCTCCACCCCCGGGCTCAAGTGATTCTCCCAACTCGGTCTCTCAAGTAGCTAGGACTACAAACATGCACCACCATTCCTGGTTAAATTTTTAA
TTTAATTTAATTAATTTATTTTTTGAGACAGAGTCTCCCTCTGTCATCCAGGCTGGAGGGCAGTGGCATGATCTTGGACCACTGCAACCTCCACCTCCCA
GGTTCAAGTGATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGACTACAGTCGTGTGCTATGCCCAGCTAACTTCTGTATTTTTTAGTAGAGATGGAATTT
TAACCATGTTTGCCAGGCTGGTCTCGAACTCCTGATTGCCAAGTGATCCAACTGCTTTGGCCTCCCAAAGTGCTGTGATTACAGGTGTGAGCCATGGTGC
CCAGCCAAATTTTATTTTTTTGAAGATGGGGTCTCACCATGTTGCCCAGGCTGGTCTCAAGCTCCTGGCCTTGATCCTCTTGCCTCAGCCTCCCAAATTG
CTGGGATTACAGGTGTGAGCCATCATGCCTGGCTCCCTCATTTTTATGTATAAAGAAGGCTGATGTTATTCCTAAGGTCAGGATTACCAACAAATATGTA
TCACAGAAGGAAAAGTCCAGCTCTGTTGAGGAAGTACTTCTTTTTCCTGGAACAGGCAGATTTGGTAAGGAATGAGCTCTCTATAGCTATGAATGTACAA
ACAGAAGTCAGACGAACACCTGCTGTATAAGGCAAGTCTGAACATCTCTCTCCTTGTTTACAGATGTTCCATGATTGCCCATTAACTTCAGAATAAAAAC
TTGCTTTTTTAACAATGATGCGGTCCTAGTCTAACTTTATAGCATCATCTTCTGCCATGTATATATGTTCTTGATATCTCTAACTTTATGAACGCTAATG
TCCTTTTAAATTCTAAAATCTTATTCACTTAAAAAAATGCCACCTTAAGAAAAACTGACTGTTTCTAATGTTTCAATGAAGTAAGCTGCAGGGTGTGGCT
GTAGTTTAAAATTCCACGCATAGAATCCTCAGGACAGATGAAATGGAATCAACAGGTAGAAAGTACACACATGTGCTAGTGTGAGTCTAAGGGCACATGA
AATCCAAATGGGGCAGATGAGAAGAAACTAAATTTTAAGAAGAAAGGGAATTCATTTGTGTGGAACATTTACTATGAAATAGGCATTTTTACACATTTTC
ATCTCATTGACTTTTAAGAATGCAAACAGACAAAGAGAAGTAAATCCTTTACACTATCTTGAGGTGAGCACACACCTCAAGAGCTTTGGTATTGTCATGA
TCTTTGCAAGAATCACAAAAATTTTAGACACTGACCATATCTTATGCTTTATAGACAATTTAGAGTGTCAACAAGCAATTTCTGAGTGCTTTCTATATGT
GTCAGGATTATGCTGGGTGCTGAAAATACAAAGGTAAAGGAGACTTGGTTAGGACCACATCATGGGGGTGATGCACTGTTTTTCACTAGAGATCATTATC
ACCCAGGGCCTATAGTCTCTCTCCTTGGAGAAATCAAGTACACAGGAAAAAAAAAAATGGGGCTCAGAGAAACAGCTTAGCAGGTCTGATTGTATTTATC
TCTGCTTACAAGTGATCAGTGATTCCCCAATAACTATAATATAAAGCCTGCTTTTTTTCCAGTGGCATACAGGGCCCTTTATGATCAAACAGCAAAACTT
GGTTTGAACAGACTTAGGCACCTTTCTTTTTTCTTGAAATGGAGTCCTGTTCTGTCACCCAGACTGGAGTGCAGAGGCATGATCTCGGCTCACTGCAACC
TCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAACCTCCTGAGTAGCTGGGATTACAGGCACCCACCACCATGCCTGGCTAATTTTTGTATTTTTAGT
AGAGATGGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGACTAGGCACCTT
TCTTGTTATAATTTTACTTACCAAGTCACCTTTTCATTCAATATTATTAGTTTTTTACTAAGTTTTCTTATTCACCTAGGAAGACAACAGAATATGAATA
TTGATCCACTGAGTAATTATATTCCTCATGAGATACAATGAAATAAGATTTTTACTGCAAGTTATTTTCACCTGGGTTTGGATGAAACTAAGTTTTCAGA
ACTTCCAGACTGGAGGCTTAACCACAATCATGAGATTTCCCTTGAAAGTTTAAGTCCTCAGAGGATTTTTACATAGAAATCAGACATTTACCATTTTATA
TCTCAAAAACCTGTGGTTCAATGGGAAGAATACAGGGCTGGTATTCTAGTCCAGCCTGTGACTTACTGTATGACCCTGGGCATGAATTAAACCTTATACT
CCATAAATTTCCTTATTCTTTGTGTCAGAACCATACTTGCTCTAGCTGTGATGATAAAATTATAGTTGTCAAAATTTTCAACTCGACAACTATGTAGGTA
TCAGAAGGAATACCTTGTAAGTATCTGTGCTGAAGTGTACAATCTATTGGGGTCACGGAATTCAGAGAATAGAGGGATCACATTCAGTGGAGTGCAGAGG
AGGGGTGGTAATCAGGAAGATTTAATAAAGAAGGTAGAGGTTGAGCTGGGTCTTGGGGAATAAGCAAGGTAGTAGAAGAGAGTTATCTGGAGGGGATAAG
GGCAGAGAGGCACTGAAATTTTCAGTCTGGCCCCAGTTTTCTTTTCCAGATTCATTATCTTCTGCACACTCCAGAGTCAATGCTGCCCTCTGAATCACAG
ACATGTGTCTGGCACACAGCAGACAGATCTTCAAGGTCCAGCTTTTAGTTCTTCCACGGAAGTCTCACCAAAGTGGAATTTATCACACTCTCCTCTGGAT
TTGCCCAGCCCTTTGTTAATAAGACCTGTTGCTTTTATTGTAGCTCACCTGCTTGCTCAATGGGGAACTTTTTGGAGACAGGAAGCAATGATTTGTCTTT
GTTTCCCTAGGCACCTAACAACGCTTTGCTCTTAAGTAATTAGGAAATGTTTACTCAATTGAACTTGTTCTAAGGACACTGCTATCACTGAATTGAAGGG
CATGTCGGTATCTTCTTAGTGTCTCTATAGGCTTTAGGCTTTCAGCCGGGTGAAGTAGGGATTTTTTCTTTGTTTCCAGGCTAGTCAAGCGAAGCAGGGA
TACAGATTAAGAATTTGCAGATGAGGAAACTCAAGAGGGTACATTTGCTCAAAGGCATCATGTTGATAAACGCCAAAACCAGGTAGGGCTCTTTTGACTT
GAAATCCAGTCCTCTATCCATTATACCTGGGCCTTGTAGCATCAGCCAGATTGGGGTAAAATGCACTAACTCTGAACCCTAGTTTTTTCATCCGTAAATG
AGAGCAACAGTACGTAACTCACAGGGCTATCGTGAAGTGGAGCGTCCCTCTGTGACCTCTAACCAGTCCCAGCCTGAGTCACATTATAAGAAAATTTATA
AGGCACTATCTTGTAAATACTTAAGATTTAACATCTTCCCTTCACCTCTACGTCCACTCTTTTCATACCTTTTTCCTGCCTAGCATGTGTCAAACTCAAA
GGACTGGGCACAGAGCACAGAGGTTGTGTGCTTTGTCCAGCTTTGAGGTCAGAGATTGGCTAAATAATCTCTGAGGCTGGGGTCTTAAAAAAAAACAACA
AAAAACAAAACTAACAAAACCTTAAGTCCGTTCCGCCCGTGACTTTAAATAATTATGTAGAGGAATGTAATACGTTAAAAGCAAGGGGATGAGGGGGCCC
ATTGATGGTAGATGGTTTTATGCCCGCCTGCAGCTAAAGAAATGATTTCTAAAACCTCTTTTGGGGGTGGGAGATGGAGTGCTCCAGAGATTTCTCTTCG
AGCTCCTTCATTCCTGAACTGCCTGCCTTTTCAAAGGAAAAAAGGTCCAGCTGCGGTGGGCTGGAGGCCGTGGTGAGTGGGTGGGGGTCGACCCTGGCGG
CTTCCTCTGCCCCGCTCCCTACCGTTGCTCCGAAGCCCGCTTGGGCTTCCGAGGGTCCGCCGAGGCTCGGGCCACGCCCAGTCCGAGTGCCAGGCCAGAG
GGTACCCATTCCAGGCCGGCCTTCCTCCCCAGGGGGAGCAGCCTTGGGAGCGAGGCGCCGAGGCGGCCCTCGGGCTCGGCTTCCAGCTCGGGGGCCTCGG
CAGAGACTAGGAACCAGACTGGGGCAGCACTGGGGCGCCCGCCACCCCCACCCACTCCGGCAAGCGGGCGAATCAGCGCGGCTAACCCGCGGCGCCCAGG
CGGGCTGCGGGACCTCGCGACCTCCGCTCGGCGGCCCCGCCCCTGCCCGCGAGCCCCGGGTGGCTCCCTCCTCCCCTCTGCCAGCGGCCCGCCCCCTCCT
CGCGAGCTAACGAGTGTCTCTCGCGCGCTCCCTTCCCTCCGCGTGGGTGTGAGTGCGCGATCCTCCTACCTCGGCCTTCTCCCCATTGTTTCTTCGCGGC
CACCACGAGACCCCTCCCCCCAGTGCTGTTTCCCCCCTCCCCCGCCCCGGTGTAAACGGTGCCTGTGGGGCCCCCCGAACGAAGGGAGGGGGCACCCCTG
AACCCTTCCCTCTGCGCGTAGCTCCTCCTCTCCCGGGCCAGGACCCCATTACAGGCTCTGTCCTCTCCCCTCCCCCTCTCCCCCGGCAACCGCTCTCCCT
CGCCCCCTCCCCTCAGCGGGTCCTCCTCTTTCTCTCCCTCTCCCTCTCCCTCCTCCTCCCCCTCCCCATCCCTTCCCCCCCACAATGCAGTTCGCGGCGC
GGCGGACATGGCGGTGGAGTCCTGAGCTAGTCGTGTCCCGGCCTCCAGCGGCGGCAGCGGCGACGGCGGCGGCAGCAGGAGGCGGAGGGAGAGCAGGAGC
CACTGAGATGAGGAGGCGTCGCGCGCGCCTGTAGCTCGCGGGCCTCGCAGGTACGAGGTTCCGGCCGCGGGGCAGCGTCGGGTACCGAGGGGGTGTGCTC
GGGAAGGCCGGGCGGCCCCCGGTTCGCCCTCCCCAGGTGCCGCGCTTCGCAGGTGTCGGGGGCCTGGCCTGAGAGCGTCTCAGCCGCCCCCTGGGGGCCT
GACACTTCTTTCTTTCCTGGAACGGGCTTCGGGTGTCCCAGGGGAAGGCTGAGATAAGGGAGGTGGGGACGGCGGCCTGGGCGGCCTGAGGAGGGCATTG
GGGCGCTTTGGGGACGAACTCCACACTGTGGCTGGGGCTCCCGGTCCCGGACCGAAACCTGTTGTAGACCAGCGGGGCGGATTTTGAGTTAACGGGATTG
GTTTGAACATTTCTGTTGGGTCCAGTTACGATTCCCTGTCATGTGTACCTTTTTCTTTCACCCTTGCTTAGACATAGGTGACTACATAATGTATATAAAT
GTATACACGCATATAATACATACTGAATGTTTCCCCGGGCTCGTCCTTGTAGGGAGAAGGCAGAGGTGTCTGTGTGGATTTTGTTTCTTGCTCGCCCGCC
TTCTCTCTCCCCCGCCCCCCAGTCGAAAGGTGGTAATGCGCGGTTTTGACGTGGGTAACTGAGATTCGTATTTGTAAACAGATAGCGCTCTCCTAGTGTG
TTGCACGCCTCTGCGAAGGGTTTCAGACTCCTGTTGGTATCTGGATTGCGAAAGAATGAGATGTTTAGACCTGAAAGAAGCACATCAGCGGGATTTCTAG
TCGTACTTGAATGGGATGAATTACTGTTGTATTAACAACGTTGATTACACATTTTCTTTTCAGAAGATTTCGAAGTCTTAGATGAATTTTGCGTGAGATC
TTAGATACCGTATATCTGCTTCTTCATTTTGATAGAAGTAGTAGTTCCTTACACATTTGACCTGCCCTATCGTGATCTTAAATTGTGTCCAGAAATGCAA
TTCGAATTGTGTATTGTTGGCATGCATTTAGTAATTAGCCCGAGTGGATCAGATGGCCTTTTATTTCCAAAGATTTTTTCCCTCCAGTCTTACAGCAGCG
AAATGTTTGTAGCACTTGATGAAACAGAACATATCCTGTTTCTGTTTTTAAAGTAATGAGAACTGTTAGCTAATAAAATTGGATAATCCCAGCCAGATAT
GATAATTYAGAGAATACCACCGAGAGGTGTTGAATTGTGGGATGGTTTAAAAAGAAAAGCCGACTTTGTGTGTGTGTGTGTATGTGTGTGTGTGCGCGCG
CGAGCGCGCTGAAATTTTCTTTAGGCTTAGAACTCATGTATGTCACTACACTGCATCGTAGTACTGATTAGTCACAACTGGTAAAATGAAATATTGATTC
TCTTAAAAAGCTGTGCTTAAGATAACTCATTAGTGTCTAGTGTGCTATGTTGCTTTTATAAACAAATTTTTAAAGATTGCTTCTTAGAAACCATATACTT
TGGGGAAGATAAGAATTTTAAGTCGTTTTATGCTTTAAAAATATTTATATTTAATATAAACAAAAGAAACTTACTTTTAAAACTCTTAGATAAATTTTTC
TGCTGCTTGCAGTTTTTCACTTGGCTAGTGTGGAAAATGAAAAATGAAGTTTTCTTAAAATAATTCAGAAATGGAAGTGAAAGTTAATGACATTTGATGT
TTTAAATCCAGCAAACATTTAAATACAGAAAAGAAATTTAAAGTATTTTCATTGTCATAGGCCAAGTTGTTAGTACAGATAAATTAACAAATATTGTCAT
GCATATAAGTTCAAGTTTATAAATTCTAAGTGACACCTAAAATTACATTTATTTTTAGTTGCTGGAGCTAGAACAGTACAGTGTCTACATTTTAATTTTA
GACCTTTTAGAATCAAAATGTATAATTATAAATTTCTCTGATTAACAAAGAGCTGTTTAAAGAGAATTTTTATTAGCTCTCAGCAGATTCATTTTAGAGT
AAGTAATTAGAATTCTTTTTTATCTCAAAGTTAATCTTGACATAAAAATAAGTACCATTAATTATGTTGTGTTCTCTACAGAATGTCAAATCAGGATCTG
TTGATCAAGAAAGGTGTTTGAATTTATTCACTGTTAAAGTTTCTAGTTTCAGAGAAACAAAATAACCAACACTTACCTGTAGGGCCTGGCCAGGTGGCTC
ACTCACGCCTGTAATCTYAGCACTTTGGGAAGTGGAGGCGAGAGGATTGCTTGAGCGTAGGAGTTTGATATCAGTCTGAGCAGCATAGTGAGACTTTGTC
ACTGCCAAAAAATAAAAGAAATTAGCTGGGCGTGGTGGTGTGCGTCTGTAGTCCCAGAAGCTGAGGTAGGAGGTTTGCCTGAGCCCAGAGTTCAAGGTTG
CAGTGAGGCACAGTTGCGCCACTGTACTCCAGCCTGGGCGACAGAGTAAGACCCTGTCTTAAACAAAAAAAAAAAAAAAAAAAAGCAATACTTACCTGTT
AATGTTGATGCCAGAACATTTTGTTTGACAAAATAGAACTCAATGAGTTGTGTTCCTTTTTCAAATAAATTGCAAATACTTGAATTGATTAAAAAATGTT
AAATTCAGTTAAAGCCACTGCAGTAGGATAGAAATACGTTCTAAAAAAGAACAATTCCAGAAAGACCTAAAAAAGTCAAAGGAAAGGGACACCATACTTT
AAAACAGGATATGTAGACTTTTTGTTATTAATCTTAGAGCAATTAGAGTTGTTTACTGGGTACTAACTGAATTGTTTTAATTCTAGAATCCTAAATAATT
ACATAATTTGGGGKAAATGTTTAAAAACCATCATTTCTGCAGAGTATTTTTCTTTCCTTTTTTAAATCTTTATTTTATTATGTACAGACTATATTCAAAT
AAACCACACACTCTGAAAAAGCAGGTTCCGACTTTTCCTCCGGAGTATTTCTTACAGGCCCAAGGAGAAGAAAGGGTATATAAATGCAAAGATTAATGTT
AGGATTTTTCCCCCTTAAGTGAGAGATTTGTGTGGTGTCTTATGTTCAAATTATTTTTATGTCACATCATCTCATTGGATATCTATAATTATGAGTTGAG
GGAGAGAGAAGGGAACCAAAACTTTTTAGAGTGCCTGTTTTGTTCCAGGCACTGCGCTAGACACTGTTTATGCATTTTTTTTTCACTCGTTCAGTGTAAC
AGCCCTTTGAAACCTGTTTATAGGTGAGGAATCTTTGAGTCACAGAGGTTAGTGATTTGCTGAAGATCATAGAATTAGATTTCAAAGCAGATCTCTCTTC
CTAATATAATGTATATGTGATGTTGCTTTTCAGGTGTATTATTTTCTCAATTATTTAGAATGGGAAACTGCCTAAGGTTGTTCATTCATTCATTTAAACA
TTCATTTCATCAAACATTTGCATTTGTATCAGTCTACATATAATACAGTAAATTACAACACACTAGATTGTGGGAGTTGAGAGGGAAGAAACTAGCTCTT
GAAGGGTGAGTAGGAGTTTGCTAGGTGGAGAGGAAGATGGACTGGAGGTTGGAGGTCATTCCAGACCTAGGGAATAACATGCAAAGATGATAAATTGTAA
TGAGCCTTGGGGAGTGAGGGAGAGTGAGAAATTCAGTGTGGTAGGAATTGATATGGATAGAATGGTGAGATAAATGATTGGAAGTAGCAAATTGTGAGGG
ACCATTTATGTTGTATTAAGGTGTTTGAATTTTTATCTTGTGAGATCACCAAGTGAGATAGTGGTTGAGCTGTGATTAGAACTATGTTTTCTGACTCCTA
GTTTTGTATTTTTTTCTCCTTGGCTTCCTAGCTAACAGAGTTTACCCGTTTTTAGTGGATAGGCAAGCCTTCTTTTCCGTACCACTCTTCTCTCCTCTCC
CTATATTCTAGACTTTTATCTTGAGAATTCTGTGATCCAAATCTTACTGTCCAAGAACTTTTAATTTTTTGGAAAAGTCTTTTGGGATGAAAACACCTCT
GGGGGAGATCACCTTGTTATACTACTTAGGAAGTTTTTTCACTTGTTGGCTTGGATTAGTTGACTATTTTCTAGTTTAGCTCTAGAAAACAATAGCTTAA
GGCATTGAAGAGCATGGGCTGGAAGAAGGGAGACGCTATTCATGCAAGTTTGATGTTCACCACTATAGATGGGCAAAGTCCTAATCTTTACATAAGGCAT
CTTGTACTTTTAAAAAGAAATAGGTATGTTTGTTAACCACACAACAATCTGATTGCTTTAAGTGGATATTTGATTTACAATGATAATAGATAACTTATTG
CATAGTTACTATGAGCTAATTTCTTTCTCAAGATCTTTGAAGTGTTAACTTAGTCTTCAAAACAACCCTTTTTATATTATTCTCATTTATAGATGGGAAA
AGTCCATGTAGAAGGATTGAGTACCTTGGACAATATCTCATAGCTAGTTTGCTGCAGTCAGGATTTGAACTCAAAGTGTCTGAGTCTAGAGTCACAGCTC
TTTGCCACTGTACTGTGTTGTACCTTCAAGTTTAGGGTGTCAAAATTTTGTGTACAGAGAGTTAAATTCTGTAGTCACATAGGTTGTTAAAAATATTTTG
CAAATATGCAAAGTATGAATTATAGAGAATGACTAAGCCTGATTGCATTTTGTCAGTGTGTAGTTTAATAATATAATTATTAAATTAAATATTTAACTAA
CACTATAGTTTAAATAATTTAATTGACCAGTCATTAAGTGTTCATTAAGTGCTAGTCATGTGCTGAGTATTAGTTTAGGCCAGTGGTATTCAAACTATGG
GGACCTTTTGGAGAGGGGTGTCTCTGAGTCAAACTGTTTTCATGGTAATATTAAGACACAATTTGACTTTTCCCTTATTCTCTGGTCTGGGGTGACATGT
GAAGACTTTATTGCTTTGATGGCTAATGTAATGTGTAATAGTGTATTTTTTTCCCCTTTTTTCTTTGAGATATAATTTACAATACCATAAAATTCACACT
TTTAAAAGATACAATTCAGTGGCTTTTAGTATATTTATAAGGTTGTGTAACCATCACTATTTAATTTTGGAATGTTTTTATCCCATAATGAAACCCAGTT
CCCATTAACAATCACTCCCCATTCCTTCCTCCTCCAAGCCTTTGGCAAGCACTAAGCTACGTCTCTAGAAATTATGGACATTACATATACAAGGAATTAT
ATAGTATGTGGCTTTTTGTGCCTGGCTTCTTTCACTGAACTTAATGTTTTCAAGGTTGGCCATAGTGTAGCATGTTTTAGCTTTTTTCTGGCTGAATAGT
ATTACCTTCTATGGAGATACCACGTTTTGTTTAACCATTCATCATTTGATGGACATTTGGGTTATTTCTACTTTTTGCCTATAAGGAATGGTGCTGCTGT
GAACATAGTTAAACGTTTTTGTGTGGATGTACATTTTCATTTCTCTTGGGTATATACCCAGATTGTAATTGCTGGGTGTTTCGATAAACTTATGATTAAC
TTTATGAGGAACTGCCAAACTGTTTTCCAAAGTTGTACCATTTTACATTCTCAGTGGCAATGTATGGAAGGTTCCAATTTCTCTACATCCTCACTATCAT
CTAGTGGGTGACACTTCACCCACTATCTCACTACCTCATTGTGGGTTTGATTTGCATTTCCCTAATGATTAATAAGATGTTGAGCATCTCTTCATGTGCC
TGTTGTGCATTTGTCTATCTCCTTTGGAAAGATACCTATTCAAATCCTTTACCCGTTTTTAAAAATTGTTGAGTTTTAAGAACTCAATATATTCTGGATA
CTAGATGCCCCCACTTTTTTTTTTGAGACAGTCTTGCTCTATCACCAAGGCTGAAGTGCAGTGGCGTGAACATGGCTCACTGCAGCCTCTGCCTTCTGGC
CTCCACCTCCTGGGCCTCAAGCGATCCTCCTGCCTTAGCCTCTTGAGTAGCTAGGACTACAGGTGCATGCCACCATGCCCAGCTAATTTTTTTGATTGAT
TTATTTATTTTTGTAGAGACAGGATCTCATTATGTTGTCTAGGCTGGTCTCAAACTCCTGGCCTCAAATGATCCTCCTTCCTCAGCCTCCGAAAGTGCCA
GGATTACAGGTATGAGCCATCTCGCCCAGGCTAGACCCTTTTTAGATATATTATTTACAAAAATGCTGTCTCATTTTGTGGAGTGTCTATTCACCTTAAA
AAAGATTCTAAAAATTGTGATAAAGTGTACATAACAAATTAACCATTTAAACTTGTTTCCAACTTTTAAAAATTGCAGTAAAATATACATAACACAACAT
ATCATCTTAATGATTTTTAAGTGTATCATTCAGTGGTATTAAATACATTCATAATGTTGTGCAGCCATCATCACCATCCATCCCTATAACCCTTTTCATC
TTATAAAACTGAAACTCTATACCCATTAAATGATAATTTCCCGTTCCCTTCTTCCCTCACCCCTGACAACCACTATTCTGTCTTTACGATTTTGACTACT
CTAAATACCTCATATAAATTGAATCATACAATATTTGTCTTGTGGCTTATTTCACTTAGCATAGTGTCCTCAAGGTTCATCATGTGGCATATTGCAGAAT
TTCCTTCTTTTTTAAGGCTGAATAACATTCCATTGTATAGATATATCACATTTTGCTTATCCCTTTGTCTATGAGTAGACACTTGGGTTATTTCCATGTT
TTAGCTATTGTGAATGATGCTGCTGTGAACATGAGTGTACAGTATCTCTTAGCCTGCTTTCAATTTTTTTGGTATATACCCAGAAGTGAAATTATTGGAT
CATATGGTAATTTTATTCTTCTTCTTCTATTTATTTATTTATGAGACAAGATCTGGCTCTGTCTCCCAAGCTGGAGTGCAGTGGCATGGTGTTGGCTCAC
TGCAACCTCTGCCTCCTGGGCTCAAGCCATCCTCCCACCTCAGCCTCTTGAGTAGSTGGGACTGTGGGCGCTTGCGACCACACCTGGCCAATTTTTTTTT
TTTTTTTTTTTTTTGKATTTTTGTAGAGATGCAGTTTCACCATATTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGTGATGTGCCTGCCTCGGCCTCC
CAAACTGCTGGGATTACAGGCATGAGCCATCGCGCCTGGCCTATTATTATTATTATTTTTGACACCTTAGCATCATTGAGTATATTTTTAATTTTTTGAA
GAACTGCTATATTGTTTTCCATAGTGGCTGTACCATTTTACGTTCCTACCAACAGTGCACAGAGGTTCTGATATTTCCACAGCCTTGCCAACACTTGCTA
TTTTCTATTTATTTAATAGTAGTCCTGTCCTATGGGTTGTGAGTTGGTATCTCATTGGAGTTTTGATTTGCATTTCCCTAATGATTAGTGATATTCAGCA
TCTTTTCACGTGCTTGTGGCCGTCTGTATATCTTCTTTGGAGAAATGTCTATGCCAGCCCTTTGCCCATTTTCAAATCAGGTCATTTTTTGTTCATTTTT
TGGAGTTGCTATATATTCTGGATATTAGTCCCTTATCAGATACATGATTTATAAATATTTTCTTCCATTCTGTTCTGTGGGGTTACTTTTTTTTTTTTTT
TTGAGACAGAGTCTTACTCTCTGTCACCCAGACTGTAGAGCAGTGGCGCAATCTTGGCTCACCACAATCTCCAGCTCCCAGGCTCAAGCAATTCTCCTAC
CTCATTCTCCTGAGTAGCTGGGATTACAGGCGCTTGCCACTACTGCCCAGCTAAATTTTGTATTTTTAGTAGAGACGGAATTTCACCATGTTGGCCAGGC
TGGTCTTGAACTCCTGACCTCAAATGTTCCACTCACTTCGGCCTCCCAAAGTACRAGGATTATAGGCATGAGCCACCATGCCTGGCCTTTACTCTGTTTC
TTTTCTGGCTTTTTTTTTTTTTTGGGGACAAGGTCTCACTCTGTCCCCTAGGCTGGGGTGCAGTGGCGCAATCATGGCTCAGTGCAGCCTTGACCTCCCT
GGGCTCAAGAGATCATCCCACCTCAGCCTTTGGAGTAGCTGGGACTACAGGCACATGTCACCACGACACTCGAATTTTAAGATTTTTGTAGAGACAGGGT
CTCACTATGTTGCATAGGCTGGCCTTGAACTCCTGACCTCAAGTGATCCTCCTGGCTGGGCCTCCCAGAGTGCTGGGATTATAGGTGTGAGCCACCATGC
CTAGCCTGGCCACCATTTTACTCAGTTGATAGTGTCTTTTGATTAACAAAAGTTTTAAATTTTCAGCCAGTCTAGTTTGTCCATTTTTTCTTTTGTTGCC
CGTGCCTTTGGTGTCATACTCAACAAATAATTGCCAACTCCAGTGTCATGAAGCTTTTCCCTTTTGTTTTCGTCTAAGAGCCTTATAGTTTTATGTTTCT
TAGTTATGGTTTTATAGTTACAAGTTTAGGTTTCTTAGGTCTTTGATCCATTTTGAGTTAATTTTTGTTTATGGTCAAAATTCAATCTTTTGCAGATGGA
TTACCAGTTTTCCCAGCGCCATTTGCTGAAAAGACTGTCCTTTCCCTATTGAATGGCTTTGTCATCCTTGTTAAAAATTATTTGACCACATATGTGAGGG
TTTATTTCTGGTCTGTTTGATTCCATTGGTCTGTCTGTATGTATTTATACTAATACCATACTATTTTGATTACTGTAGCTTTTTTTTTTTTTTGAAATGG
AGTCTCACTCTGTCGCCCAGGCTGAAGTGCACTGGCACGATCTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCATGCCATTCTCCTGCCTCAGCCTCCC
GAGTAGCCTGGGACTACAGGCGCCCACCACCACACCCGGCTAAGTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTCGCCAGGATGGTCTCATC
TCCTGACCTTGTGATCTGCCTGCCTCGGCCTCCCGAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCTGATTATTGTAGCTTTGTAGTAAGTT
TTGCGACTAGGAAGTATGAGTCCTCCACTTTTGTTTTTCTTTGTCAAGACTTTTGGCTATTTGGGGTCTCTTGAGATTCCATGTGAATTTTAGGATTGAT
TTTGGTATTTCTGCAAAAAATGTCATTGGAATTTTGATAGGGATTGCATTAAATGTTTAGATTGCTTTGGGTAGTGTGGACATTTTAACAACAGTAAGGC
CAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTAGGAGGCCGAGGCTGGTGGATTACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGT
GAAACCCTGTCCCTACTAAAAATACAAAAATTACCTGGGCCCAGTGGCAGGTACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGA
ACCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATTGCGCCATTGCACTCCAGTCTGGGAGAGAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAATT
AAGTCTTTTGGTCTGTGGACATAGAATGTGTTTCTGTTTATATATTTCTAAATTTCTTTCAGCAATGTTTTATAGTTTTCATTGTACATGTCTTTCACTT
CTTTGGTTATGTAATTCCTTAGTACTTTATTCTTTTTGATGGTATTGTAAATGGAATTTTTAAAATTTCCCTTTAGATTATTTATTGTGTTTAGAAATGC
AGCTGGTTTTTCGTGTGTTGACTTTGTGTCCTGCTACTTTGCTGAATCCATTTTTTAGTTGTGTGTGTGTGTATAATCTTTAGGGTTTTCTACATATAAA
ATCATATTATTTGCAAACTGAGATAATTTTACTTCTTCTTTTCCAATTGAGATGCGTTTTGTTTCTTTTGCCTAATGGCGTTGGCTAGAACTTCCAGTAC
TGTGTTGAGYAGAAATGGTGAACACAGGCCGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAG
GAGTTCGAGACCAGCCTGACGAACATGGAGAAACGCTGTCTCTACTAAAAATACAAAATTAGCTGGGCATAGTGGCCTGTAATCCCAGCTACTTGGGAGG
GTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCGGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGCC
TCAAAAAAAAAWAAATAAATAAATAAATAAAAAGAAATGGTGAAAACAGACATCTTTCCCTTGTCTTGATGTTAGAGGAAAAGGTTTTCATTTTTATCAT
TGAGTATGATGTCTACTGTAGGTTTTCCTTAGATAGCTTTTATTATATTGAAGTAGTTTCTTTCTATTCCTAGATTGTTGAGTGTTTTTATCATGAAAGG
GTATTGAATTTTGTCAGATTCTTCGTCTGCATCAATTGAGATGATCATGTGGTTTTTCGTTTTGTTTGGTTAATGTGTGTTACATTGATCTGTTTTCATA
TGTTGAACCATCCTTGCATTCCAGGAATAAATCCCATTTGATCGTGGTGTACAATTCTTTAACTGTGCTGCTGATTTCAGTTTGCTAGTATTCTGTTGTG
GATTTTTGCATGARTGTTTATACTATTTTCATTTTAAGCCTCAGCCTCCCAGGTAGCTAAGCATACATTCAGTGACATTAAATTTATTTACATTATTGTG
CAACTATCACCACCATCCATTTCCAGAACATTTCCATTTTCCCAAGCTGAAACTCTGTACCCGTCAAACAATAAATTCTCATTTTCCTTGCTTCCTAACC
TCTAGCAACCACCATTCTACTTTATTTCTCTATGATTTTGACTGCTGTAGGTACTGCGTATCAGTAGACTCATATAATATTTGTTGTGACTGGCTTCTTT
CATATAGCATAATGTCTTCAAAGTTCATCCATGTCATAGCATGTGTCAGAATTGTCTACCTTTTTAAGGCAGAGTAGTAGTTCATTATATATATGTCCCA
CATTTTGTTTATCCATTCATCTGTTGGTGGATACTTGGGTTGCCTTCACATTTTGGCTATCGTGAATAATGCTTCTTTGAACGTTGATGTTCAAATACCT
GTTTCTGCTTTTGGTTATTTGGGTGTATACTTAGAATAGGAATTGTTGGATCATTCTATGTTTAATTTTTTGAGGAGTTGTCATACTGTTTTTTCATTTT
CTTGAGTGTGCTCATTGAAATACAAAAGTTTTAAATTTGATGAAGTCCCATTTATCTCTTTTCTTTAGTTTTCTTTGCTTTAAGTGTCATACCTAAAAAA
TCATTGTTGATCCAAGATTATGAAGATTTACTCCTATGTTTTCTTCTAACAGTTTTACACTTTTAGCTTCTACATTTAGGTCTTTGATCCATTTTGAGTT
TTTTTTTTTAATGTGATATGATGTAGGAGTTTCTTTCTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGCGCAATGGCGCGATCTT
GGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACTGGCGCCTGCCACCATGTTCAGCTAATT
TTTGTATTTTTAGTAGAGATGGGGTTTCACCACATTGGCCAGGCTAGTCTCGAACTCCTGACTTCAGGTAATCCACTGCCTTGGACTCCCAAAGTGCTAG
GATTACAGGCGTGAGCCCCCGTGCCCAGCCTGATGTAGAAGTTTTACTTCTTCTTTTTTTTTTTTTTTTTTTAAGACAGAGTCTCGCTCTGTGGCCCAGG
CTGGAGTGCAGTCGCGTGATCTTGGCTCACTGCAACCTCTGCCTCCTCCTGGGTTCAGGCAATTCTTGTGCCTCAGTCACCCTAGTAGTTGAGATTACAG
GTGTACACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGTGTTTTACCATGTTGGCCAGGCTGGTCCCTAACTCCTGGCCTTGGGTGATCT
GCCTGCCTCGGCCTACTAAAGTGCTGAGATTACAGGCGTGAGCCACTGCGTCTGGCCAGTGTATTCTTGTATTTGAAAAATTTCTCAGTTTTAATAATCT
TAACGATGCATGTATCAATAGATATAACACACAAAGACAAAGGTTCTTTGGATCCTCAGTATTTTAAGAGTATAAAGGTATTCTGAGACCAAAAAGTTTG
AGAATTACTGATTTAGGCTTAGAGACATACTCTAGTACATAAACTTGGACCAAAAATTGGGAGTCATGTTTCTTGTAGTCATATACCAGTCCCATTTGTG
TTATCTTAGGCAAGTCATAAACAGGGTGCCTCATTAATGTATAAAATGGAAATACTGCAAGACTCTAATTATAGTAACTTCACAAATGTGTAAGGATAAG
TGAATGGGCATGCTAGACAGGTAGTGTTTGTCTTTTTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTGAGTCGGAGTCTTGCTCTTTCGCCCAGGCTGGAG
TGCAGTGGTGCGATCTTAGGTCACTGCAATCTCTACCTCCCCGGTTCAAGTGATTCTTCTGCCTCAGCCTCCTGAGAAGTCGGACTACAGGTGCATGCCA
CCACACCCTGCAATTTTTTTGTCTTTTTAGTAGAGATGGGGTTTCGCTGTGTTGCCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCGCCTTGG
CCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGTCCGGCCATTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCA
GTGGCATGATCTTGGCTCACTGCAGTCTCTGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGTAACACAGGCGCCCGCCACCA
TGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTTGGCC
TCCCAAAGTGCTGGGATTACAGGTGTGAGCCTGTAGTCCCGCGCCTGGCCTGTTTTTTTTGTTTTTTTTTTTTTAAGACGGAGTCTTGCTCTTGTCACCC
AGGCCAAAGTGCAATGGCATAATCTTGGCTCACTGCAACCCCCGCCTCCTGGTTCAAGTGATTCTTCTTCCTCAGCCTCCTGAGTAGCTGGGATTATAGA
CGTGAGCCACCACTCCCAGCTAATTTTTGTATTTTTGGTAGAGACAGGGTTTCACCATGTTGTCAGGCTAGTCTCAAACTCTGACCTCAGGACCTCTGAG
GTCATGAGCATTTCAGGCCGCCTCGGCCTCCCAAAGTGCTGTGATTATAGGCATGAGCCACCGCGCCCTGCACTGCCATCTTTTTTTAAAACTGAAAATT
TGTAAGAGCTCCGGGACTTTTTGTAGGAACTTGTGGCATTGTTAATGTGTCTTGAACATTGCTTTCCCCCCCATACCTGTTTCCTCAAAGCCAGGAAATT
ATATCCATAGTTTACTACCTACTGTCTATTCTTCGTTCTCTTGTGAGACTGGTGTCCTGCTGGCTATATTTCTTATCTGTCATTGTCATTTCAATCTGGG
AATCTGTAGGTCACCCCTTTATATTCACTGATACTTTGGTGTAATTCCTGACATCCATATTGGGCAGTGGGAAGCATAACATTGAATGTTATCTGACACT
TTATTTCCTTAATTTCTATCTTCTAGTGATATTCAACTCTACTTTCCTTGATAGCTCCTATTCATATCATTCAAAATGATTCTTCCCACCAAAATTTTCT
GAATTATCTGTATATGTATTTTTAATGTTTCTTTAGTTTTTTTAATCTATCCCTAATTTCACTGTAAAGCCTCTTTTTGGCTTTATCCTTTCCCTTCATC
GGCATGATTACTGTTGTGTTCCTTACCCTATTGAAATAGTGATTCTGTAACTTCGCAACCCAGTACAAATTATCTCCAAATTGTATAACTAGTGGTGGTT
CACATCTGTAATTCCGGGATTCCTTTGGGAGGCTGAGGTGGGAGAATTGTCTTGGTGCYCTAAAGTGTTGGGATTACAGGTGTAAGCCACTTTACCTGGC
TTCAACACTCTCTTTAACTTGGTGGTAAGTAAGGCAGGAATGAAAGGAAAAGGAGATATGAATTGCACTATCTTTCCCTTTCCTTCTGCATCATCATTTT
TAGAATAAATGTTTAATTCAGGGAAGTAATATTAGTAAGGAAAGATATGATAGGATTCTTTGATCATTCATGTTTTTTTAATCTTCTTTTTCATTTTTCT
TTTTTTTTTTTCTTTTCTTTTCTTTTTTTTTTTTTAGACAGAGTCTTGCTCTGTTGCCTAGGCTGGAGTGCAGTGGCATGATTGCAGCTCACTGTAGCCT
TCACCTCCCAAGTGCAAGTGATCCTCCCACTTCAGCCTCCTGAGACTGGGACTACAGGTGCCTGGCTAATTTTTTATATTTTGTAGAGATGGAGTCTCCT
GTGTTGCCTAGGCTGGTCTAAAACTCCTGGACTCAAGCGGTCCTCCCAGCTTGTCCTCCAAAAGTGCTGTGATTACAGGCATGAACCACCGCACCCAGCT
CCCTTTTTTTTTCTCAGTTGCCAAAACAAGAGCATTTATTTGTCTTTCATGTTACATGCCCATTGGGGATAGAATGTATATTCTGCTGATGTTGGATAGA
GTCTTTATATATCTGTTAGGTCTAATTATTTTATTTTATTTTTTTGAGATGGAGTCTTGCTCTTTCGCTCAGGTTGGAGTGCAGCGATGCAGTCTTGGCT
CACTGCAACCTCCACCTCCTGGATTCAAGCGGTTCTTGTGCCTCAGCTTCCCAAGCAGCTGGGACTATGGGTGTGGGCCACCACACCCGGCTAATTTTTG
TATTTTTAGTAGAGACGGGGTTTCACCATGTTGCCCAGGCTTTTCTTGAACTCCTGACCTCAAGTGATCTGCCCCCTTTGGTCTCCCAAAGTGCTGAGAT
TATAGGCATGAGCCGCCATGCCCAGCCAGTCTAATTAGTTTGTTTGTTTATTTATTTATTTATTCATTTTTGAGACAGTTTTGCTCTTGTTGCCCAGACT
GGAGTGCAGTGGCCCGATCTCAGCTCACAGCAAACTGCCTTCTCGGTTCAAGCGATCTTCCTGCTTCAGCCTCCTGAGTAGCTGGGATTACAGGCACGCG
CCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGATTTCGCCATGTTGGCCAGGCTGGTCTTGAGTTCCTGACCTCAGGTGATCCACCTGCC
CTGGCCTCTCGAAGTGCTGAGATTACAGGCATGAGCCACCGCGCTGAGCCAGTCAAATTAGTTTATAGTGTTACACAAATCCTCTGTTTCCTTTTTGATT
TTCTGTCTGGTTGTTCTGTTATTGAAAAGTGGGGTATTGAAGTCTCCTAAGTATGATTATAGAACAATTTCTCTTTTCAATTGTGTTAACTTTTGTTTCC
TGTATTTTAGGTCACTGTTGTTAGGTGCATATGTTTATAACTGTTATATGTCCTTGCTGGATTGAACCTTTTATCAATATATAATATCTATCTTTGTGTT
TTGTAACCTTTTTTGACTTAAAGTGTTATTTTATCTGGTAATAATTTAGCCCCAGCTCTCTCTTTGTTACTCTTTGCATGGAGTATCTGTTTTCATTTTT
TCTTATAACGCCTTTGCTCTTTGTATCTAAAGTGAATCTTGTAGATAGATGATAGATTGTGTTTTCCAATTTGCCAATCTCTCTCTTTTTTTTAATTTTT
ATTTATTTATTTATTTTGAGATGGAGTTTCACTATTATTGCCCAGGCTGCTGGAGTGCAGTGGCACAATCTCGGCCCACTGCAACCTCCGCCTCCTGGGT
TCAAGCGATTATCCTGCCTCAGCCTCCCAAGTAGCTGGGACTATGGGCGCACGCCACCATGCCCGGCTAATTTTTTGTTAGTAGAGACGGGGTTTCACCG
TGTTAGCCAGGGTGGTCTCGATCTCCTGACCTCATGATCCGCCTGCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTAT
TTTTTAAAATTTAATTTAATGTTACTTTTTTGAGACGAAACTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACAGTCTCGGCTCACTGCAACCTCCACCTC
CTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAAGCACCCACCACCACGCCCTCTTATTTTTTCGTATTTTTAGTAGAGACA
GGGTTTCACCATGTTCTCCAGGCTGGTTGTGAACTCCTGATCTCAGGTAATCCACCTACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACC
ACGCCTGGCCAATCTCTCTTTTTAATTGGAAAGTTTAATTCATTTACATTTAAAGTAATTACTGGTAAGGATGGATTTACTTCTGCCATTTAGCTCTTTC
TTTTCCATATGTTTTTTATGCCTTTTGTTCCTCTAATGCTGCCTTTTTATGTATTTAGTTGATTTTTTATAGAATTATAATCCTGTTTTGATTTTGTGTG
TGTGTGTTACTTTCTTAGTGGATGCCTTGGGGATAATGATGTAATTAACATCTTAAATTTATAACAACCTAGTTTGAATAATGCCAGCTTAGTTTAAATA
GTACGCAAATACTCTGCTCCTACTCATCTTTCTCTCCTCCTTTATATTTTTATTGTCACAGATTACATCTTTATATAGTTTGTGCCTATTAACAGAGGTT
TGTAATGAATTTTTATGCATTTGTCTTTTAAATCATGTAAAAGGGAAAAACCCAAGAGTTACCAAAATTACAATAACATTGGCTTTTATATTTACCTATG
TAGTTATTTTTACTAGTGTTCTTTATTTCTTGTTATGGATTTGAATTATTGTCTAATGTCTTTTCATCTCAGCATTAAGAATTTCTTTTAGCACTTGTAC
GGCAGAATGAACTTTCTCACTTTTTGTTTATCTGGAAATATAATTTCTCCTTCATTCTTGAAAGGCGGTTTTACTGGCTAGAGAATTCTTAGTTCACAGC
TTTTTTCTTTTAGGACTTCAAATATGTCACTGCATTGCCTTCTCATTTCCATGGTTTCTTATGGGCAATCAGCTGTTAACTTTTGTTTGATGAGTTAAAT
TTTCTTGCTTCTTTCAAAGTTCTCTTTGGTTTTGACAATTTGACTCTGTCTCAGTGTGGATTTCTTTGAGTTTACGCTGCTTAAAGTTTATTGAGCTTTG
TGGAGGTATATACTTGTGTCTTTCATCAGATTGGGGAAGTTTCTGACCATTGTTTCTTCAAATATTTTTTCTACACCCTTCTCTTTCTTCTTTCTGTGAC
TCCTATTATGCATATGTTGGTACGCTTGGTAGAGAAGAAAATGAACAGTATTGCCCAGGGAACAAAATGCCAGAGAACAAAAAATACAGAGGGCAGAAAA
AAGTTTGAGAAAGAATTTTAGTGTTCTGAATATTAGTGGTCTTTAGAAATATGAGATTATAACTATGAAACAAGATCAGAGTGCTGTGAAAAGGAATAAT
TAGAGAGAGTTCTTAGAAATAAAAATATGATAGAAGAGTTGGAAGATAGAGTTGAGGAAATCACCTAGGAAGGAGAACAAAAAGAAAGGTGGAAAAATGG
AGAGAAAAGATAAGAAAATTGGAGAATCAATTTAGGAGGCCCAAGTCTAATTAATAGGAGCAATAGAAAGAGAACAGAAAAGATGAAAAGGAGGAATTTA
TAGTAGATAGAAGAAAAAAATTTTACAGAAGTGAATGATGTGAATTACTGATGAACAGAGCCAGCTGACTATGCAACAAGATGACTATGCAACAAGATGA
ATGAGGAGATATCTACAGCAGGCTTATTGCTTGGAAATTTCAGAATACCAAAGCAAAGAGATCATCCTAGAAGTTTTCTTAGAGAAAAAAACAGGTCAGT
AAAAAAGGTAAAGAATAAGAATGGCATAATTTTCTCAGTGCTAGTCCCAGAAACTAGAAATCATTGAAAACATTTTGAATGAATAATTTCTAACCTAGAA
TTTTATTTTATTTTTTTGGGGACGGGGTGTTGCACTGTCGCCCAGCCTGGGGTTCAGTGGTGCCATCACGGCTCACTGCAGCCTTGACCTCCTGGGCTCA
AGTGATTCTTCCACCTCAGCCTCCCAAGTAGCTGGGACCACAGGCATGCGCCACCACATTTGGCTGATTTTTGTTTGTTTTTTTTTTTTTTGTAGAGACA
GGGTTTTGCCATGTTGCCTGAGCTGGCTTTGAACTTCTGAACTCAAATGATCCTCCYGCCTCAATCTACCAAAGTGCTGGGATTGCAGGCATGAAGCACC
GTGCCTGGCCCTAACCTAGAATTTTATACCTAACTAAATGAGGTGTGAAGATACAATAAAGATATTTCAAATATGCAGTTTTATAAAATTTACTTCTGGT
TGGAGTTTACGGGGGTCCAATAAATAGCACCCCTTTTGCTTTCCTGAATTTTCAACAAATTGGGTGAAACGAAGGAAGCATATGGAGACCAGAAGATAAT
TTTATTTTTATTTAGTTTTTATAATTTTATTTTTGATCACGTTCAGTTTGGAGAAGGCGGCTTATACTTTCAACTGGTTTACTGATACCGAGTGCCAGAA
TTAGGCAGACTTAGCCCTCAGGAACTGGCAGAGCTGAACAACTGCAGGCCCTATGTGAGCCTTACACCTGTAAATGTTAGAGTATGATGGAACAGAATGG
GAAGGAGAGGGGACGGGGCTAAGTTTTGTCTGGATTATTTTCCCAAACTCACTGATGAAGTAAGTTACCTCTTCTCCTTAGGCAAGGAATGAATGAGGGG
AGTGGAAAGAGGTCAGGGATGTTATGATAACGGGTATCCGTCTACATAGAATGAAATATCGAAAGTGGGACATAATTATTTTCTTCAATATCTTTCATGT
TTTCTTCCTTTTTTTGAGACTGAGTCGCACACTGTTGCACAAGTTGGAGTGCAGTGGTGCAATCTCAGCTCACTGCAATCTCCGCCTCCCAGGTTCAAAC
GATTTTTGTGCCTCATTCTCCCCAGTAGCTGGGATTACAGGTGTGTGCTACCACACCTGGCTAAATTTTTTTGTATTTTAATAGAGACGAGATTTCGCCA
TGCCAGGCCAGTCTTGAACTCCTGGCCTCAAGTGATCTACCTGCCTTAGCCTCCCAAAGTGCTCGGATTACAGCCGTGAGCCACTGTGCCTGGCCTCATG
TTTCCTTTCTTAGAAAGCTGCTGGAGGGTATGTTCCACCAAAAACAAGGGAATAAATCATGGAAGAGCTAAAAAGAAGAGTCAGCATGAGAGAGCGTAAG
GGAATTGGTAGGATGATAGTGAAAGGAACTCTCAGTATAACGACAACTGTAGTGAAAGTATAGTAACGACCAGAAAGCTCCCAAGAAGGGATATCCAAGG
AGAGAACAGCAACAACAAAACCAAATTACTTGATGTGTTTGATCTTACTGAGAAGATATTTATAGTTCTGTCAATGAATTATTGATAGGTATGTAGAAGA
AGCTTAAGAAAAATGAAGTGATTAATTTCAGGTAAAACTGAAAAGTATACCAAAAGGGAAATGTGATTAAGTATATATATTTCTTAAGTCAAAAGCTAGA
TCCAGTAATAGAGTGGCTTAAAAAACAAAGAGTTTTATTCCTTTCTCATATAATAGTTGCTGGGTAAATGGTCAGGAAATCTAGATGAGTAGTTTGTTCC
ATGTGGTCATTCAGGGGCCTAAGTTACATTGATCCTGCTGTCTCACCAAAAGTATGGCCAAGGACTAGCTGAGTGGACATGACCTGGGTTTGTTTGAAAT
GCAGAATATTGGAACCCACTCCCAATCTACTGAATCAGAATCGCATTTAGTTGTTTATTCCTATACACAAAAGTTTGGGACTCACTGGTCTGGATTAGAA
CATGATGGTTGAATGATTGAAGCGGGGCAGTTGAAAATTTTATTCAGTGAGAAGAGAAAGAGAGCATGAGGAAGTGAGAACTTTATCAGAAGGCCACATC
AGACTGCAGAGAAGTTTGTGAAATGTAGACTAGTCATGTGCTCAGGAAAAAGGAGAAAGTTAATTTTTAGGGACATTTAGGAAACTCTGTGCTACAGTAT
AGTTGGCTTAACTGTGAATAATATTGGCATATCTTATTAAAATCATCCTAGGAGGATGGTGGTAGGGTGGGGAGGTACTTACGTTGCACAGTTATGTATG
TTTTTAAGGGGAATATTTGAGATAGCTAAATCCATACCTTTCATGTAGGAAGTTAGCAGATAATAGSTAAGGCCGGGCATGGTAGCTCATGCCTGTAATC
CCGGCACTTGGGTAGGCCAAGGCAGCAGGATCGCTTGAGCCCAGGAGTTCGAGACAGCCTGGGCAACATGGTGAGACCCTGTCTCCATAAAATTTTTTAA
AAAATTGCCAGGTGTGGTCGTGTGTGCCTGTGAGGCTGAGGTGGGAGGCTYGCTTGAGCCCAGGGGTCAAGGCTGCAGTGAGCCATGACTGCACGCCACT
GCACTCCAGCGTGGGTGACAGAGTGAGATACTGTATAAAAAAAAAAAGCTAAAACAAAACAAGAAGTATTATCTTAAGCATGTTATTTAGAAATATGGAG
ATAAATAAAAATAACTGAAAGTAGGTAGTTGCTTCTGAGGAGAGAAATTGGGAGTTGGCAAGAGAGTACTGTTTTTCAACCATGTAAATGTATTTGTTTT
ATTAAAAACAGATTAGAGGCAGGSGTGGTAATCCCAGCMCTTTGGGAGGCCGAGGCGGGCAGAACATGAGGTCAGGACCATCCTGACCAACATGGTAAAA
CCCCGTATYTGCTAAAAATACAAAAATTAGCTGGGCGTGGTAGCACACGCTTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGATTTGCTTGAACCT
GGGAAGTGGAGGTTGCAGTGAGCTGAGAGTGCACTCCAGCTTGGCAGCAGAGTGGGATTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGATGA
GAAAAGACAGTCTCTACTGTTCAGATAGGAAGTAAAAACATAAATAGGTTTAAGTGCTAAGTGCTGTGAGAAAAGTAAAAAGAGTTCATTAAGAAGAGGC
ATACTTATCTGAGCCCACCCTGGGTAAGAGGGTGGAGGAGTAGGTTATGGAAAGCTTTCTGAAAGAGAGACATTTCCTAGTTATATTGTAGACAACATAA
AGTATGATGCAATTAAACATCTTTTGGATTTCATGTATTTTTAAAGTGTGAACAATTAAAAATAATTCAGATTACTTTAAAAAAATCCATTTAACCCATT
TATTGGGTGCCTRCTTTGTATTAGGCACTGTGGTATGCCCAGAAGATGTAATGATAAGCAAAATCAGAAATGATTTCTTACCTCATAGACTTGAGAATCT
CATGGGGAGACTGACACGAATCAGATTGTTCACTGTAAGACTGTACAGAAGTCCCTTCATTTCTGCTTTCAGGATCACTTTCAGGATCACTTYTTACAGC
CATGGTTCATTAAGTGTGGCCCCCCAGTCCAGCCACATCAGCTGGGAGGATCGTCTTAGCCCAGGAATTYGAAGCTGTAGTGAGTTAGAATGGCATCACT
GCACCCCAGCCTGGGTGACACAGGGAGACCCTGGCTYTGAAAAAAAAAAAAAAGTACTTTTTCTTGATAATTATTAAGATATAGTTGGTTATTTAAGGTT
AGAATTTCATTTAATACCCATTTACCACATTCTAAAAATGTAACCAAGAACTAGAGGTTAGTTCTGATAATATTTTTTTCCATGATTTGAGGTTATTTGA
ATTCTATTATTTTTATTTGTTTCAACCAAGTAAAGTGTGCAGGGGAAGCAGTGAGCCTTCATTTCTTTTCTTTTTTTGAGACAAGTTCTGGCTCTTATCA
CCTAGCCTGGAGTGCAGTGGTGCTATCTCAGGTCACTGCAACCTCTCCCTCCTGGGCTCAAGCCATCCTCCTACCTCAGCCTCCCAAGTAGCTGAAACTA
CAGGCGCATACCACCACACCTGGCTAATTTATGTATTTTCTGTAGAGACAGGGTTTTACCATGTTGCCCAGGCTGGCCTCGAACTTGCGAGCTCAAGCAA
TCAGCCTACCTCAGCCTCCTATGCAGCTGAGATTACAGGTGTGAGTCACTGTTCCCAGCTGAGCCTTATCTTCAAAATACTCTCTCCTCCGAGAGAACTT
CGTTTCTAGGAATTACATCTTTTTGGGGAAAATTTTGTACTCTTGATAGCTTCAAAGAAAAAATTGAAAATAGCAATTTTGTGATAAAATTTTTGAGGCA
ATAAGACATTGGCTACTCTTACAAGAAAAGATGTGGGGGTGATTATCGTTAATTATAACTTAATTGTACTTTTACAAATAAAGAGTGTAATTGGATTGTT
TGTAACTCAAAGGATAAATGCTTGAGGGGATGGATACCCCATTCTCTATGATGCGCTTGTTTTACATTGCATGCCTGTACTGGAACATCTCTTGTACCCC
ATAAATATATACACCTACTGTGTACCCTTAAAAAGTAAAAAATAAAGGTGAGGAAGATGAGAAAATACAGTCTTTTTCATAACACATATTCCTATTAGCA
ATTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAATGGCGTGGTCTCGGCTCACTGCAACCTCCTATTAGTAATT
TAAATGTATTTTTAGTTATATGAAAAATTACTCAAAGTAGCTGACGCAGTGACTCATGCCTGTAGTCCTAGCAGTTTGGGAAGCCGAGGCAGGAGGATTG
CTTAAGCTCAGGGCTTCGAAACCAGCCTGGGTGAGATAGCGAAATCCTGTCTCTACAAAAAATACAAGAATTGGCTTGGCATGGTGGCACACACCTGTAG
TCCCAGCTAGTTGGGTGGCTGAGATGGGAGGATTGCTTGAGCCTAGGGAGGTCAAGGCTGCAGTGAACCGTAATTGTGCCACTTTACCCCCCAACCTGAA
CGACAGAGCAAGACCATGTCTCAAGAAAGAAGAAGAAGAAAAAGATTACTCAAAATGAAAACCTGTCAATTTTCTGAGCCTGGGACTCTCCGGGTACATT
GATCTATATTAGGTACATTGATTTTTTTCTTTTTTTAATCTTTGTAGCTTTTGTTTATGTATACAAACTTGATTTATGGAGTATTTTTTAAGTGGATGAA
TAAATTGTCTAAAATGTTTTACAAGCAAAATTGTGAATCAGCATTGTTATTTCAAATCTTTGTTGTTTTATGGCTTTTGTCAGATGACATCTACAAAATT
ATTAAAGAATCGTTATAGCAGACTAGCATTAAAAATTTAAAGATATTTTGGTTACTAGACAAGGTAAAACTAATCTTTTAGAAATATAACTCATTTTAAT
TTTTGAAACAGAGCTCATTTTAGTTGTTAAAGTGAGGAACCTGCAGCAGTTCTCACAAGAATTTAGAAATAGTCATATGTTTTGACAACTTTTCTGACAG
TTATGTAAAACACCTTATCAAGAATAATAAAAGCAAAATGTATTAATTAAACAAATTCATATGTATAAAAATTAGGAGCAAAAGCATTCTTTTGCAGTTG
TAAGTTTCTATAGCTTTTACTGGAAAATGTTAGTCAAAATATTAATGGTGAAAATGTAGTGTGGTTTAAAATTTTTTTTAATTAAAAAATTTTTAAATAT
ACTTTGCTAGACTCCAACTGACACCATATCTAGTGTGGTTTTGACTTTAGTTTTCATTATAATAATTTAGAAAGAAGAACCTAATACATTTTTAAAGTAA
AAGACAGTATTACTCTGGAAAAGCAAGGCAGAGAATGTAGAGGACTGCACTATAAAGAAGAATTATTGGCCAAGTGTGGTGGCTCATTCCTGTAATCCCA
GTGCTTTGGGAGACTGAGATGGGAGGGTCACTTGAGGCCATGAGTTTGAGACAAGCCTGAGCAACATAGTGAGACTTTGTCTCTACAACAAAAAAAAATT
AGCCAGGTGTGGTGGTGTGCGCCTGTGTTCTTAGTTGCTTGGGAGGCTGAGGCAGGAGGATCATTTGAGCCCAGGAGTTCCAGGCTGCAGTGAGTGATTA
TTAAAGAGTGAACTCTTTATTTTAGGTAGGATTTTTTTGTTTATATGATGTAAAGTTATATGATAGAGATGTTTACCTAAATTTGTAATTTAGTAAATCA
ACCAAGTAAAATCAAAGATGGTACATTTTAATTCTATGCAGTTTGCTTTTGCTGGCAGAAGGACTCTAATTTTTATTCATATTATTAATGTTTGTTTAGA
AACGGATCTGAATTTAAGGTGTATAGGGCAAAGTGAATAGTAAAAAACATCCTGATTTTTTAATAAAATCACTTTTTTTTTTTTTTTTTGAGACAGGGTC
TCACTCTGTTGCCCAGACTGGAATGCAGGAATGCAATCTTGGCTCACCGCAACCTCTGCCTCCTGGTCTCAAGCGATCCTCCCACCTCAGCCTCCTAAGT
AGCTGGGACTACAGGCGCATGCCACAGTGGCCGGCTAATTTTTGTTTTCTTTGTAAAGATGGGGTTTCACCATGTTGTCCAGGCTGGTCTTGAACTCCTG
GACTCAATCCGCCAGCCTCGGCCTCCCAAAATGTTGGGATTACAGGTGTGAGCCATGTGCCTGGCCTTGACATTATTATTATTATTATTATTWTTTTTTT
CGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCTGTGGCGCGATCTCAGTTCACTGCAACTTCCGCTTCCCGGGTTCAAGCAATTCTCCCGCCTC
AGCCTCTTAAATAGGTAGGATTTTACAGGCGCCCACCACTGTACCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTG
GTCTCGAACTCCTGACCTTGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGGCACCATGCCTGGCTGACATTATTTTTTAGAA
CACTTTTAGGTTCACAGCAAAATTGAGCAGAAAGTGCAAAGTTGCCATATATACCCTGCATCCACACATGCATAGCCTCCCCCACTTTCAACATCTGGCA
CCAGAGTAGCATGTTTATTACAGTGGATGAACCTACATTGGCCCGCATTGATACCTTATCACCCAGTGTCTATAGTTTACTTTAGGGTTCATTCTTGGTA
ATGTGCATTTTGTATCATTATACAAATGTGTAATGACAGATATTCACTATTATAGTGTCATAGAGATTATTACTATTACTTTTGTTTTTTTTTAAACTCT
TAAGTTCCTTTTTGTTGTTGTTGTTTTTGAGACAGAGTCTTACTCTGTGGCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAACCTCCGCCT
CCTGGGTCCCGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCACGCCCAGCTGATATTTGTGTTTTTAGTA
GAGACAGGGTTTCACTATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGC
CATTGCACCCGGCCCCTGTTGGTTTTTAAAGTATACTTCAGCGAATTCATTTGAACCCGTTTTTACTTCAAGGTGGAGAAAGTCTATTGTTTTCCCATAT
TTAGAGAGTCAAGTTTGAGGTAAGTTCGAGGTAGGCTAGAGGTACAAATAGATGCTAGTTGGTGGTAAAGTCTTGTGGGCAAGATTTTACCATTTAGGAT
TCCATAAACGGATTCATTTATAGCACATAAAGATTGGGATTCTCCATCTTTGAGATGGAGTTTCGTTCCTTCTTGTTGCCCAGGCTGGAGTACAATGGCA
TGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTTTCCTGTCTCAGCCCCTGAGTAACTGGGATTACAGGCGCACGCCACCATGCCTGG
CTAATTTTTGTATTTTTAGTAGAGGTGGGATTTTATCATATTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACCTTGACCTCCCAAA
GTGCTGGGATTACAGGCATGAGCCACCACACCCAGCCAAGATTGGAATTCTTGTGTTTTCTTTATTCTGTTTCCTTTCATGTTAATTGTGATACATTCAA
TTGCAAGTTTTAGTTTTCTATTGAAATTCTTAAAGAAATATGAGACAACCTTTACTTCTAAAATTCTTTATTTTGGTGCTGTTTTACCACAATTACATTA
GAATTCCCTTGATGAGCATTTGGCTATTTACCTAGTGCACTGTAACTCCTTCTCATATAGTTTTCTGAGTTTTGTCTTTTTTTTTTTTTTTAACAATTTC
TTCAGTTTTTAGAACAAGTTTAAAAAATTGTTTTTTAATGTCTAACCATAAAAAATTGTTTTTGCATTTTAAATAACAGATTTTTCTCTTTTTTTTAACC
CAATAGTTTGCTTGCCTAAACTGGACTTGAAGCAATTTAAACTACTGGAGATCTGCCATTTTATAATATCACAATTGGAAAGAAACAGATTTTCAAATAA
TGGAAGAGTCTAAAACCTTAAAAAGTGAAAATCATGAACCAAAGAAGAATGTTATTTGTGAAGAAAGCAAAGCAGTTCAAGTTATAGGTAATCAAACATT
GAAAGCTAGAAATGATAAATCCGTAAAAGAAATTGAGAACAGCTCTCCAAATAGGAATAGTAGTAAAAAAAATAAGCAAAATGATATTTGTATAGAAAAA
ACAGAAGTTAAATCATGTAAAGTAAATGCTGCCAACCTTCCAGGTCCTAAAGATTTGGGGTTAGTCCTTCGAGATCAAAGTCATTGCAAAGCAAAAAAAT
TTCCTAATTCACCRGTGAAAGCCGAAAAGGCAACCATTTCACAGGCAAAATCAGAAAAGGCAACCAGTTTACAGGCAAAAGCRGAAAAATCACCAAAGTC
ACCTAATTCAGTGAAAGCAGAAAAAGCATCCAGTTATCAGATGAAGTCAGAAAAAGTACCAAGTTCACCAGCAGAAGCAGAAAAGGGACCCAGTTTACTG
TTGAAAGACATGAGACAGAAGACAGAATTACAACAGATTGGAAAAAAAATTCCAAGCTCCTTTACTTCTGTGGACAAAGTGAATATTGAAGCTGTAGGGG
GAGAAAARTGTGCTCTGCAAAACTCACCACGATCTCAGAAGCAACAGACATGTACAGATAATACTGGTGATTCTGATGATAGTGCTTCAGGAATTGAAGA
CGTATCGGAYGATTTAAGTAAGTCATTTTTTGGAGGGATTTTTGTATATTAATGTTCTTTAGATTATCCCCGGKTTAACCATTTTAATTACAAAAAGTCA
TGTTTATACATAATTGTTYAGCACTTTTGTTCCCGTATGAAAACATCCACATTAATAATACTTGCATTAATGGTTTCTTACTAGATTGATCCTTGGTGAA
GCTAAAAAAAAAAAGCCTTTTCATTTATTATGGTAGGTACAAAGACTGTGCAAATAAAAATTTAGTATCTTCTTTAGTTGGTACACACATGCTCGTACAC
ATACACACTCTTGTTTAAATGGTCTTGATAAGGTATTGCTCATTCATTCACCAAATATGTATGTATTGAGTTCTTCTTATATATATATCAAGCATTTGTT
TACAATGGAAAACCAAAACAAACAAACAAAAAAACCCATAGCCCTAAACTTCAAGGAAGCTTCCAGTCTGATAGGAGGGTGGTACAGATAAACAATGATT
TTCAGTGCCAAAAACTTAATTGAAGTTGAGAGAGCACATGATTAAATAGTGAGATTTAGACTTTGGGCAGACAAAATAGGTGATATAAATTGTGAGACTG
AGTATTACTGAGACTTAGTACGGCTGGAGCAGAAAGTTGAGGTTGAGAACGGCAAAAGATGCAGCTGAAAGGGAACACAGGAATATCAGGGCCTTCTAAG
CCATGCCAGAAAGTTTGGACTTTATCCTGAGTATTTTCAGAAGCCATTGAAGAATTTTTTTTTGTTTTTTGTTTTCTGAGACAGAGTCTTACTGTGTTGC
CCAGGCTGGAGTGCAGTGGTGCGATCTCCACTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTGTCTCAGCCTCCTGAGTAGCTGGGACTATAGG
CACGTGCCACCATACCTGGCTAACTTTTTTATTTTTAGTAGAGACGGGATTTCACCATATTGGCCAGGCTGTTCTTGAACTCCTGACCTTTTGATCTGCC
TGCCTTGGCCTCCCAAAATGCTGGGATTACAGGCATGGAAGAGTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCACGCTGGAGTGCAGTGGCG
CAATCTTGGCTCACTGCGAGCTCCCCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCTCCGAGTAGCTGGGAGTACAGGCGCCTGCCACCAAGCCT
GGCTAATTTTCTGTATTTTTAGTAGAGACGGGGTTTCACCGTGGTCTCAATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATT
GCAAGCGTGAGCCACTGTGCCCGGCCTTTGGAAGAGTTTTAAGTAAAGTAATGCTGTGATCAGATTTTTAAAAAAATCCTTTTGAGTATAATGCAGGAAA
TTCTTTGATAGGAACAGGACTGGAAGCAGGGATTGGTTAGGACACTTAGAGTTTACTTTGAGAACTGTTGTAAAATTCATTTTGTTGTGGGATCCTGATT
TTAGTTTTAATTGTTTAGAAATATTGTCTATGTCTTTTGAGTAACTTTAATCCTGATTTTGTTTAAATTAAATAATTTCTTTTATAATCTTTTTTTCCTA
GTGTTTTCATGGCTGGAAAAATACAGCGTTATCTTGATGTAGAAATAAAAAGAACCTATTTCTGAATCATTATTTGCCACACTTTGAGAAACACTGGTAA
AGAATTCTGAAATAGCTTGTTTTTATTTCTTGTGGTACACAGATGATGGTATATCGACAGACTTAAAAGAATTTTAATAGAGTTGACTTTATGTGTCTCA
GTCTCAATTGTATATTAAGGCTGAGGGCAAGGCCAAATTTAAAAACTAAGTCAGTTTAGAGACAGAATYAAATAAGTGATAATACTGGTAATGTTTAGAT
ATGGGAAAAATGTAAACATCATGGTACTTGAATGATTCAGGAAATAGTGGTGGTTTTTTTTTTTGTTTTGGTTTGGTTTTGTTTTTGAGACAGGGTTTTG
CTCTGTCACCCCGGCTGGAGTGCAGTGGTGTGAACTTGGCTCCACTGCAACTTCTGCCTCCCACGTTCAAGCAATTCTCCTGCATCAGCTGGGACTACAG
GTGTGCGCCACCATGCCTGGCTAATTCTATATTTTTAGTAGAGACTGGGTTTCACTGTGTTGGCTAAGCTGGTCTTGAACTCTTGGCCTCAAGTGATACC
CCCACCTTGACCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTACACCGGGCCAGTAAATAGTGGTGTTTAAGGTCACTTAATTGGCCAGGCGCGGT
GGCTCATGCCTGTAATCCCAGCACTTTGGGACGCCGAGGTGCATGGATCACCTGAGGTCAGGAGGTCGAGACCAGCCTGGCCAACATGGTGAAATCCCAT
CTCTACTAAAAATAGAAAAATCAGCCGGGTGTGGTGGCACATGCCTGTAATCTAAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCCTGAACCAAGGAGA
TGGAGGTTGCAGTGAGCCAGGATCGCGCCACTGCACTCCAGCCTGGATGACAGAGCGAGAGTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGATAGTTA
AGGGTCTTGTTATTTGAATTGGTGAAAAACATGATTTAAAGATTATTTATTTTTTGAGACAGAGCTTCACTCTGTTGTCCAGGGTGGAGTGCAGTGGTGT
GATCTAGGCTCACTGCAACCTCTGCCTCTGAGTTCAAGCGATTCTCCTACCTCAGCCTCCCAAGTAGCTGGGACTGTAGGCGCCTGCCACCACGCCCAGC
TAATTTTTGTATTTTTACTGGAGATGGGGTTTCGCCATGTTGGCCAGGCTGATCTCAGACTCCTGACCTCAGGTGATCCGCCTGCCTCAGCCTCCCAAAG
TGCTGGGATTACAGGCATGAGCCACTGCCCTGGCCAAAGATTATTTTCTTTTAAAGTCAACAAAATAATTGAGATGACATAGAGAGATAGTTAAGAATAT
GGGCTCTGGAGTGAAATTGCATGGGTTTTGAATTCCAGCTTCTTTACTTACTTTGTAACCTTCAATAAACTGCTTATCACTGAAAAATATGTTTTCTCAT
TTTTAAAAAAGTGGAGATGCTGCTGCCTATGTTATGAAGATTAAGTGAAATAATCCAGTAGAGGGTTTCATGTAGTACCGGACACGTGGGCATGCAATGG
CAATGACTATCACTTATTATATTACTCCAATTAAATGCAGTTTTTACTTGTTAACATGGAGAATGAGTTGAACTAGTTTCAGGAAGCTAGCTTAAGGAAG
CTAGTAGACCAAGTAGAGGTTCTTTTGGGAAACTTGGTATAACAAATTAATAAAAATGATTTGTAGTATACAGTCATTTTTCATAAGTAAGTGCTTCTCA
TGTTTTAAAGAATTCTCTTTAAATTCATGTATAATATGATATGTATAGTATTAGCCTTGAAGTCATGTTTATACGTAATTGTTTAGCACTTCTTTTTTTC
CCATATGAAAACATCCAAATTAATAATGTTTGAATTAATGATTTCTTATTAGATTGATTCTCAGTGAAATAAATACAGTAAAACCTTTATATCTAGATCA
TTATCTTTTTTTTTGGAGACAGAGTCTTGCTCTTTTGCCCTGGCTGGAGTGCAGTGGTATGATCTTGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGT
GATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTTACAGGTGCATGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAAATGGGGTTACACCAT
GTTGATCAGGCTGGTCTTGAACTCCTGACCTTGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGTCCAGCTGTCT
TTTTTTTGTTGTTTTTTGAGACAGAGTCACCCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCACAGCTCACTGTAACTTCTACCTCCTGGGCTTAAGT
GATTCTTGTCCTTCAGCCTCCTGAGTAGCTGGGACTGCAGGCGTGTACCACTACACCCGGCTAATTTTTGTATTTTTAGTAAAGATGGGGTTTCACCATG
TTAGCCAGGCTGGTCTTGAACTCCTGACCTCAAGCCATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCTACCATACATGGCTAGA
TCATTATCTATTTGGACTTGATAGGTTATATAGAAATTTGATTGATCTCAGTCTTCTCCATTAGGCCTAACTTYAGCTCCCACCTGGCACATCATTTTTC
TTTTTGTCATTTATTCATTCATTCAATAAAATTTTGTTTTTTGGTGTCCACTACATGCCAGGAACTGAACTAGTCATTAGGAATATATAAGTGATGGAAC
CGATAATTCCACTCTTATGGAGTTAATCTTCTAGTGGGATGAAACAGATAACAAACACAATAAATAAGAAAAATATGTAGTAAGTTGGCCGGGCACGGTG
GCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCTAACATGGTGAAATCCCGTT
TCTACTAAAAATACAAAAAACTAGCCAGGTATGGTGGCGTGTGCCTGTAGCACCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGG
CGGAGGTTGCAGTGAGCTGAGATCGCGTCATTGCACCCCAGCTTGGACACCAAGAGCGAAACTCCATCTCAAAAAAAAAGAAAATAAAATATAGAGAGTA
AGTTAAGTAAGGTGGTTTTAAATCCTTTGAGAAAAATGAAATAGGAACGACATAGGGAATGATGCTACTGTTGGTATTGGTGGAGTTAAAGTGTCAATGA
GAAAGTGACATTAGAGCAAATACTTGAAGGAAAGAGGTGAACCAGCCAGGTGAATATTTGAGGAGAGAGTGTTCTTGATCTGGGTTTCTCAAACTTTAAT
GTGTATATGAATTGTTTGGGATTCATATTAAAATGCAGAGTCTTGGGTCTCATTTCCAGAGTGTTTTGATTCAGAAAGCCTAGGATAAGGCCTGATAAAT
TGGATTTCTAATAAGCTCCCAAGTGATGCTGATGCTGCTGGTCAAGATAATGCTTTCAAGCAGCCTGCACCAACTCATCTTACTTTCACTTACATCACCC
TTCATTGTGTTTTCAGTATAGTAAGCAGAATGATCCTGTTAAAATGAGTCAGATCACATTACTAGTATTTAGAGTGTTTCAGTGGCTTTCCATCCATCAG
AGTAAAAGCTAGTGTTCTTACAGTGGCTAGTAGAGCCTTACACGATCTGTGACACTCCCCTATTTCTCTGCCTTGCCCTCATTTGTTTACTTCTCACCCT
TTCTCTCTGCTCCATCCGCATAGTTTTCTTGAATTTCCTCAACTGAGAAGATAGATATCCATATGAGGAACTTTGCATTTGCTTTTTCCTCTGCGTCAAA
CACTCATTCCCCAAATGTCCATATGGCTAGCTCTCTTAAACTTCCTTTGCCTTCTTTTTTTGAGATAGGGTCTCACTCTGATGCCCAGGCTGGAGTGCAG
TGGCGTGATCTCAGCTCACTTCAACCACCGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTTATATGTCATAAAATTCA
TCCTTTTAAAGTATATACTTCTGTCTTGCTGTTGGGTCAATTTTTTTTATTTAAAAAATCTAAGTATTCAAGGCCAGGTGCAGTGGCTCGCGCCTGTAAT
CCCAGCACTTTGGGAGGCAGAGGCGAGTGGATCACCTGTGGTCAGGGGTTCGAAAACAGCTTGGCCAACATGGCGAAACCCCGTCTCTACTAAAAATACA
AAATTAGCTGGGCGTGGTGGCGCATGCCTGTAATCCCAGCTTCTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGC
CGAGATTGCACCACTGCACTCCAGTCTGGGCAACAAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAGAATATTTTACTAAAAATCTAAGTATTAAGTGTT
CAGTAGTTTTTATTATATTCACAAAATTGCGCTGCCATCACTATCTAATTCTGAACATTTTCATCACTCTACAAAGAAACTCCATACCCATTAGCAGTCA
CTATTCATTACCCGCTCCTCCTCCCCACTGACAACCATGAATCTACTTTCTTTCTCTTTAGATGTACCTATTTTATATAAATGAAATAATACAATATGTG
GCCTGTTGTGCCTGCCTTATTTGGCTTAGCATATTTTTTTCAAAGTTAATTCATGTTATGGCATGTATTAGTACGTCATTCCCTTTTATTGCCGAATAGT
ATTGCATTATATGGATATATTACATTTTGTTTGTCCATTCATCAGTTGATGGATATTTGGATTGTTTCCATCTTTTGATTATTCTGAATAATGCTGTTCT
GAACATTTGTGTAAAAGTTTTTGTGTGGATGTATGTTTTCATTTTTTCAGTATATATATTTAGAAATGGAATTGCTAGTTGTATGCTAACTCTATATTTA
AGTTTTTTGGTGATAAATACATGTAAGATTTTACCATCTTAACCATTTTAAAGTATACAATTCAGTGACACTAAGTACATTCACAGTGTTGCACAGTCAT
AACTAGTGTCTAATTTCATCATCCCAAAAGGAAACCCCATGCCCATTAAGAGTTACTCCCCATTCCCCACTTTCCCCAGCCTCTGGCAACTACTAATACA
CTTTCTGTTTCTATGTATTTGCCTATTCTAAATATTTCATAGAAATGAAATCATACAATATGTGGTCTTCTGTGTCTGGCTTTCATTTAGTGTCATGTTT
TTAAGGTTTATCCATGTTGTAACGTGTATCAGTACCTCATTCCTTTTTAAGGCTGTTGTTATGGACTGGATTATGTCCCCTCCCAAATTCATATGTTGAG
GCCCTAACCTCCAACATAATTGTATTTGGAAACAGGGCTTTGAGGTGGTAATTAAGGTTAAATGAGGTCATAATGGTGAGGTCCTAATCTGGCCTTATAA
AAAAGGAGAAGAGAGAACCTCTGTCCTATAAGGAAAGGCCATGTGAACACACAGCAAGAAGGTGGCTGTTTGCAACCCAGGAGAGAGCCCTCACCAGACA
GTGACCTTGCTGACACCTTGATCTTTGACTTTCCAGTCTCCAGAACTATGAGAAAATAAATTTCTGTTGTTTAAGCCACCCAGTCTGTAGTATTTTGTTG
TGGCAGCCTGAGCTGACTATGACACCTGAATAATATTCCATTGTATACCAATGCCACATTTTGTTTATCCATTCATCAGAAATGGGTTTTTGGATTGTTT
CCATCTTTGGCTATTGTGAATATTCTATGAACATTCATGTACAAGTATTTGTGTGGATACAGGTTTTCAATTCTTGTTTTGTGAGAGTATTAACATGTAA
TGAACTATTGTTTTTGGAACACAATTTAGGACGTTCTGCCTGGTATTATTTTGTTTTATATGTTGATTCCAGAAAATTAAATAATTTCATATATTTCTGA
CTTTTGAAGAAAGGCAGCTTTCTCTAATTCTTTGTGTTAGCAGAAACGATACTTTTACAAGATTTGCTGATGTTGGTTACCTTGTCACACAAGGCCAGTT
ATAAATATGGAAAAGAGAAGAAGGTTACATTATTAGATTGTCTTCTTACCATCCTTTTTCATGAAAAGTAGAAATAATACTAGGATTTCATCTTTTCTTC
TACATTTCCATAATAAAATGGTTACTAAAAAACTAAATCATTTTTCCAAATATTAGTACATAATTGCAAGTTGCTTATAGTGCATCAATATTCCTCCAAC
TGTAATTTAAGAAACACTTATGTAACCTAGCCATACTTCTCATGTTTGAGTCCTTTTTATAACATCCTTATCTGAGTTTGCCTTCCTAGTCTAGAAACTC
CTGTGCTCTTGTGGTAGGAAATGCACCATCTCCAGAGGCATACCATTTCTTTGTTCAGAAAATTAGTGCTATCAAAAGGTAGGCTTGACTGTCAGGGTTC
CTCTAGATGCCATGCAATTTTGAGGACAGAATGCCATGCAATTTTGAGGACAGGCTTTTGAGGACAGAATGGAGAGATTTGTTGATGATCTATGAGCATT
TCTTTTTTGAAATACTTGTAGATACATCCAGATTCATTTATTTATTCAACATGACACAGAGCATTAGCTCAGATCTAGGCATTGTATTAAAATCTGAAGG
TAAAAGTAAGACCCYGGTCATTAGCATCAAGAAATCCGTCATCTAATGTAGGGGACAGATACATGAATACAAATTCCATTACTCTGTAAATGTGAGATAA
TAGAGGGTAATAGAACAAGAGAATGTCAGACTGGCTTATGGAAACAAGTGGTGCTTAAGCTGAATTTTGAAGGACAGGTAAATATTAATGGGGGAGCATC
AATGGAGAAGGGAGTAGCATATGTAAAGATATTGAGACTTGAAGCAGCTTTGGTGATTAATTCTGGCACATTTAATATGAAGTGAAAAGTGTCGTGGCAA
GATCTGAGGTTGGAGTTACAGGTAAGTTAGCTAGATTTTTTTCTTTAGGTTTTGGCTTAAATGATAACTCCTCAGAGAAGCCTTCTCTGGCTCCCATATC
TAAAGTTGGTCTCCCTCTCAGTTCCTTGCTTTTTTCCTTTGTAACATTTATTACAACTTGGAATTATTCTGTTTACTGCCTTCATGAGGTCAAGGGACTG
TGCGTAATATGCTAGGGAGTTAAAACTTTATTCTGAACTCTTCAAAAGCCATTTATGTGTTTTAAGCAAGAGAATAAGGTGATTTGGTTTATATTTTAAA
AATCGCGCTGGTGGGAGAACCTACTGTAGGTTAGATACATACTGCTAGATGCTGCAGATGCAAAGGTGAAAACATAGTCTGTGCCTCAAAGAGATTACAA
TCTAGTTAGGAGGCAGAGAAGCAAAGGAAAACCATTAATGTAGTGGAGATATCCAGGAGTTCTGTGGAAGGAAAGAAGAAGGAGCCTTGTGTGGGTTTGT
GGTCTGGAGTATACATATGTTGTTTTAATTGCTAGTGAATTTAGTTCAGTGACTAATCTTCTTTGAGTGGGACTCCAAACAGTTTTTTTATCAGATTGAC
TTCAGAGATTCTCCAAGATGATTATGTTATATTAGCTTTGTGTAATTAGCTTTGTGTAATGTAAGTCTCAGTTATGTATCTCTTGATGGATAGATTGGAA
GAACAAGCTAGTCATTTGACCCATAAAGGTTTTTCTTTGTGACTTTGGATACCATGTCTACCTCTTACCTATATTTTATATATGCATACCAACTTGTATA
CTTTCCTAAGGAAAATATAAGGAAATAATATTTTTTCTGTGTATAAATTTAATGTCTGTTTTCCATTAAAAAATTTAAAAATTTACCAGTTCTGATGATA
ACTGAGTGATTGCTTTCTTTTCTAGGTAAAATGAAGAATGATGAATCTAATAAAGAAAATTCTTCAGAGATGGACTACTTAGAAAATGCCACTGTGATAG
ATGAATCTGCATTGACACCTGAGCAGAGGCTGGGGTTGAAACAAGCAGAAGAACGCTTAGAAAGAGATCACATCTTTCGACTTGAAAAAGTATACTATGT
TGTTTTAGTTATTTGGGGGGAAATGTGTGTTTCATAACTGTTTTCCCCAAGTACAGCTTTTTTTATTTTTCTTTTATTCATAAGACAGAGGTTGCATTCA
TCTTTCCTTACTTCCCTCTTCTCTACCTTTCTTCTTCTTTCCCTCTTTTCTTCCTTGCCTCTCTTTTTCAGCAGTTACTTATTATCTGTGAGTCTGACTT
CATTCATCCCAAGAGTTGGCAAACTATGGTCTATCCCTTGCTTTTGTTTTTGAATGGGTTAAAATACACCTAGTCTCCCCACCGTTTTTGGTAAACATTT
TATTGGAATATAGCCATGCCTATTTGTTTACATGTCGTTTATGGCTACTTTCATGCTACGATGGGAAATTTGAGTTGAGTAGTTGTCACAGAGCTTATAT
GGCTTGAAAAGCATAAAATATTTAGTCTTTGCCAAAGCATAAAATGTCTACCAAAATATTTATTCGCCCCTTTATAGACGAAACTTGCTGACCTCTGATT
TAGGCACTCATCAAATAGACACTGAGCACTTGTTTTGTGCCAGGTATTCTGATAGGCACTGGGGATGTATTGGTGAAAATGGCAGTTTCTTCCCATTAGA
AGTTAAAAGTCCATTCAGATTGATGGAAATAAAATAGCATTTTATTTATTGAACCTGTATTTATTGAACATTAACTGCGTAATAGGAACTATCCTAGCCA
TTGGTATCTTATTCCTGTGTATTAATTTCTTAATCTAGAAATACACATTCCTGGCCTCAATAAAAACACTGCTAGGTTTTGAAGGAAAGAATCACAAATC
ACGGCCAGGCCCAGTGGCTCACGCCTGTAATCCCAGCATTTTGGGAAGCCGAGGTGGGCAGGTTGCTTGAGGTCAGGAATTCGAGACCAGCCTGACCAAC
ATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCGAGGTGTGGTAGTCGGTACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTG
CTTGAACCCAGGGGGCAGAGGTTGCGGTGAGCCAAGATTGTGCCACTGCACACCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAA
AATCACAAATAAAACTATTGACAAACAGATACTTGGGTTATTTGTAAATATGCTTACAAGGAAATAGGTCATCATTCTTGATAAATAAGGAAAGAAATGG
TATGATTTTGTATAGTTTAGAAAAATGAAATTATATCTAGATTGAACAAGACAATCCTGGGTTATTAATAGAACTTACAGCAGAGTAGTCGCCACATGAA
AAGAGAAAGGAATATCAAGAAGTAGAGGACCATAATACAGGAGAGAGTTTGGGTTGTATAGTTAGTATTACAAGATCCTAGTTAAAAGGAAGTCTTTTTT
GCAATTTGCTCTTATACTTTTTGTTTTGTTTTGTTTTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGTTGGAGTACATTGGCATGATCTCAGCTCACTGC
AACCTCTACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCTTAAGTAGCTGGTATTACAATTGTGCGCCACCATGCCTGGCTAATTCTTGTATTTT
TAGTAGAGACGGGGTTTCACTATATTGGCCAGTTTGGTCTCGAACTCCTGACCTCAAATGATCCACCCACCCTGGCCTCCCAAAGTGCTGTGATTATAGG
CAGGAGCCACCGTGCCCGGCCTTTTACTTAGTTATGTCTTTACTTAGTTCTTTCACTTTTCCTCTGGAATTAGTAAATTTCTGGATGACATCTCAACTGA
CCTTGGATAAATCTCTATCACTGGAACCTGATTCTATCTCCTTATTTATAATATAATAAAGATTGACCTACCTGGTAAAATAATTCAATTCTGTTCATCT
TTATTTAGTACTTAATACATAGCAGATTTTGTGCCAAAAACTTTACTTGTGTTATTTAATCCTCATAACAGCCCTATGCGCTAGGTGTTATAATTTTGTC
CATTGTCAGAATAAATATTGAGTGCCTTTTATGTGCCATGATCTAGTACCTGACGTTTTAAAAAACGTGATTGCTTTTCTAGGAGTTCACTAGAGAAAGA
CACATAAGCAAATAAGAAAATAAGCAGAGAACTGGTTGGGAAGTTACATAGGAGTGAAGCAGGAAAGGTCAGTTGTTATTGAAAGAAGGAAGAAGTTGGG
ATGCAATAGGTATTTGATGGTAGTAGGAAAAATGGCCTGGGGTGAAAATAAAGCTTGGAAGCATTGGAAAACATTTTATTTGTTGTTCAATTTATATAGT
CAGTAATGATGTAAAGTTACTGTGCCAGTACCAGCGTAGATATTTGTAATCCCTTTTCTTTCTACCTCTTTATTTCTCATGCCCTCCAAACTTATTTTCA
ATTCATTGTACTCTTTTTTTTTTTTAAATTATTTGGCCTCTTGAACTTGGTACAATTCATTGTACTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCA
TTCTGGTTGCCCAGGCTGAATTGCAGTGGTTCAGTAATGGCTCATTGCAGCCTTGACCTCCCAGGCTCAGGTACCTAAGTCTCCCGAGTAGCTTGGGACT
ACAGGCATGTGCCACCAAGCCTGCTAGTTTTTTGTATTTTTTTAGAGATGGTGTTTTGCCAGGTTGCCCGGACTGGTCTCGGCCTCCCAACGTGCTGAGT
TTACAGGTGTGAGCCACAGTGCTCGGGCAAATTCATTGTACTTTTTTTTTTTTTTTTGAGACAGGGTCTCATTCTGTCTCCCAGGCTGGAGTGCAGTGGC
GCGGTCTCGGCTCACTGCAACCTCTGCCTCCCAGTTTCAAGTGATTCTCATGCCTCAGCCTCCCAGGTAGCTAGGACTACAGGCATGCGCTACCACAACT
GGCTTGTCCTCTTAAGTAACATTTTTCTTTATCAAATTTAGACACTCATTAAGAATATTCCCAGGTTTTTGTTTTTTTTTTATTTCTTCAGGTCCTTTAG
TTCAGTGTTTCCATAGATTATCTAATTGAGGAATAAAGATGTAGACTGTAGACTTTTGCTCTGTACCAAAGAAGAAATAAGTCCAAACCATTAGATCAGA
AGGCTAAATTTTCCTATGGTTGAATGTTAAATATTGAGTTGGAAATACCCAGAAATCTTTGTTCTAGCTTGTTTGCAGAAAGGTAAAGATTTACTAGTTG
GTTTATTTAACAGTAGAATAAAATATAATAAACAGTGTTTAACTTTTTTTATGTATTTTTTTTCTGTGAAACTAGAAAGTTTATGATGATGAGAGCAGTT
TTGTCTGATTTGATGTTGTGCCCAATATGTGCCTTGCACGAAGTGGTTGGTTGGTAATTAGACTGTGCACAGTGGTCAAGTGCGTGGATTTTGGAGTCAT
TGGGTCTAGCTCTGCCACTTATTGGTTGGATAACCTTGGATAAATTATTTAAATTCTTTAAACATCAGTTTACTCATCAGTAAAATGGGATTGATAACAA
TTATAACACCTAGCTCATAGGACTATTATGAGGATTAAATAAGATAATACAAGTAAAGTTTTTAGCACAAGTCCTGGTATGTAGTAAGAAATAAAGATGA
GCTACTTGTAGAACTGAATTATTTTTACCAGGTGGGGCAGTTTTCTATTATAAATAAGGAGATAGAATCAGGCTGTAGTGATACAGCTTTATCCAAGGTC
AGTTGAGATGTCCTCTGATGCCTTCTGACTCCCCATTCTGTGTAATACCAAGATTTTCTTGGTAGACTTGTCTTTGGTCTGCTAACATTTTACAATTGAA
AAGTTTATATGATTGATTTCATGACTTCCTTAGTGACCTCATCAGTACACAGGGCTTTAGGTATTCTGTATGTATGCTTTCAACTCCTGAAAGCAACTCT
TTTTACCACCTTCACCACTCTCACCTTGAACTAAGCCAACATAATCTCTTTTTTGGATTATTGAATTATGCTGTTAACTGCAATAGCCTTTCCTGCTTCT
ATTCTCAATATAGAAAGCAAATGATCCTTTTAAAATATAAATTAGATCTTGTAATTCTCTGCTCATAAACCTTCAATGGCTTTCCCTCATACTTAGAATA
AAAGCCAGAGTCTTCACAAGGGATTTTGTGATCTGTCCCCTATTAGCTCTCTGTTCCCAGTTATGCTAACTTTTTTGTAGTTTCTCAAATATTTTAGGTA
CCTTCCTGCCTCAGGGCCTTGGCATTCACTTTTCCCTCTGCTTGAAATGTGTCTTTTCAGATATCCACACAGCTTAATCCTTCACTTCCTTAAAGTTACT
TTATCAATAAGGTCTTAAGTGATGTCTCTACTTTTAAAAAGCAGTAACTCCCCCGACCCCAGGCATATTTGTGCATTTGTTTATTACCTGTCTCCTTACA
CTGTAACGTAAATTCATATAGACAGGGATTTCTATTTTATTTACTGCTCTTATCCCCAGCTCCTAGAAAAATGTTTGCTGTATAATATGAGCTCAATATA
TTTGATGAGTAAAGAAGTAGTTGTTTTGAAACTAAGAGGTAGCGTTTTCTTTGAGGACTTAATTCATTCTCCAGTAGGAACTGATTTGACAGAATTTTTA
TGCTAGAGAATTGAAATAACTAGATTGAGCCAACTTTTCTTATTTACTTGTTGCCWTGGGCAAATTAATCCCTGAGATTTAGTTTGCCAATAAAATGGGG
AGTTCTGATAGGGTTGTTGAAAGGTTAATACTCTATAAGGGATGGCTATATTTATTTTTAGTCTGTAGCAGGATTGTTGCTAAATTTGGAGCAAGTTTCT
CATTTAAAAGAAATTATGTAATTTTCTGAGGTGAAAGAATCTTTTTGTCAGAAGCTGAAGCCTGTTGAATATCATAAATCAATCTGAAATAAAAACTAAG
CATTGCTAAAGTTTCAGTGTAAGGCATTAGAAACTTTTAAAATTCCACATGTATTTATTGTGTGTTTGTAATTTTTTATTGTGTAATCTGCGTAGAATGT
TGACTTCAGATTCAGGTGTACAGGAATTTAAATTCAGTGTCTTCCACTTAATACTTGCTATATCCTTGTAAAAGGTGCAGGTTCTATGGGCTTTTGTTTT
CACATCTATAAGATGAAAATAATGTCAATTTAATCAGATGATTAGGGGAATTAAAATGACAAATTGTATGTTAAACACCTAGCATAGTGCCTGGCACATA
ACAAGTATTCAGTAATTACTAAGTTTTATTAGTATTTTGAGAATACATACACGAAGTATGAGTGACGTTCTGTGACTGATAGTTTAGTGTGTTAGAATTG
TTATTCCCTTCAGTTGTGACCTCAAGAGGTTATTCATTTATCCCCATGATACTGTGATTGGAGTGTTTTTCGAACTCAACTTTTGAAATTTCTTACATGT
TTGTGGCCCATTCTTTTGAAATCCCCAATTCGAGGGCAGATTTTATTTTTTTATGGTAATCAAAATGGCTGCAAGTTAAATTTGAAATCAGTTTTGGGGA
CAACATTGGAATAAGACTAAATAGCAAGACCACTTTTCTTTTTTTTTTTTTTTTTTTTTTTTGKTAATACGAAGTCTTGCTCTGTTGCCCAGGCTTGAGT
GCAGTGATGCGATCTCGGCTCGCTGCTGCAAACTCTGCCTTCTAGGCTGAGACAATTCTTCCACCTCAGCCACCAGAGTAGCTGGGATTACAAGCCTGCG
CCACCATGCACGGCTAAATTTTGTATTTTTAGTAGAGAATGGGTTTCTCCATGTTGTCCAGTCTTGTCTTCAACTCCTGAGCTCAAGTGATCTGCCAGCG
TCGTCCTCCCAAAGTGCTGGGATTACAGGCATAGCCACCACACTCAGCCCGACTGCTTTTCTTACATTGGATTCTAAAGATGATAGTAGGTGAATATTAA
ACATAATTTAGCATTACCATGATATTGTTAGATATCGTATTAAAGTTAGTATGTAATCTCCTATGATAACTATTTTGAAAAAGGACTACTATCTCTTCAG
TATATAAGTTTATTAAAAACTATTACTTTAGAAGAAGGAAAGGATAAAGAAAAAACCTTCAGTGCTTATTTCTGTCTACTTACATAATTGTATTATTCAC
TTATATAGTCAATAGTTTACTCCTCTGTTTTCTGAATAAAGTGCATTTTTAAAATTTGTCTCTTCAGCGATCACCAGAATATACCAATTGTCGGTATCTA
TGCAAACTTTGCTTAATTCACATTGAAAATATCCAGGGGGCTCATAAACATATAAAGGAGAAACGACATAAGAAAAATATTTTGGTAAGTTCTTTTTAAA
AAATACTTTTATTTATTTTTCAAGTTGTAAAACCATATTGAATATTTTTTATTTGTGAAACTAAAAATGAAATATTTGTCCAATCTTATATTGGTAACTG
AAGTGATAGCTTTGGAAGCAATTGTTGCCTTCCTTATCTGAGATAATCAGGAAGGAACCTTGTTGAGACCGGTTTGCTCATCCTTTAGAATGTTGATTCC
TAAGTTTAGAGCTGTTAGGTACAATTAGTCCATCCAACTGATGTTTATTGAGTTCTTGTGTGCTASTTCTAGGCAGTGGTGAATAAGATAGTTGTGGTTC
CTGCCCTCAGATTTTCTAAGAATTGATGAGGGCATGCGTTGAATAAAGATTTAAATATAATGAGTCTTGTTAGGGGGGGAAGATTGTGCTAAGGAGGTGT
ATGAAGATATTTTACTTGATCTAGAACAGGGGAGGTTTCTCTGAGAAAGTGACTTTTGAATGAAGTAGTAGTTTAAATGGCAAAAAGGTGAGTGGCCTAG
AAGGGTAAGTGGGAGAGCATTTTACACAAAAAGCAGCATGAATTAAAAGTCTTTAGGCAGGAAAAGGCATGGCATATGAGTAACTTTAAGTCTAGTATGA
TTGGAACAAAGAGAGCTGGGGGAAAATGATGTGATGTGAAGCTGGAGAAGTGCAGACAATTAAGAAACTTATAAGCTTCGGGAATTTGTAATTTTTCAGT
TATTTCTATTGAAATATCCCATAGACATAGATATGAATAGAGGGCTTTTAAAAATGTATTAGTAAATTAGCTATTTAATTTTTTCTTTTTAAAGTTACAA
CAGCAGTAATAATACTGTGTAACCTCTTATCTCTAGGTCTTAGCTCATGTATCTTCTTTAAGAAATATTCTACCTGACCCTCTCAGCAAGTCTGGGTTGG
ATACTCCTTCTCTGTGCCCCCATAACAACTTCCACATATTTTGATCAGAAAATCTAACACATTGTATTCTGGCTGTCTACCTTCTCTTCCCTTCTAGACT
TCAATATGCAGTGTTCTAGAAGGCATATTTAGTTATTTTTGTTTCTGAGTTCCTTAGGACAGTGTCTGACAACAGTAGGTGCTCAACATAGTTTTCTTGA
AAACAACAAATGAACTGAAGCAGATAGAACAGGGACAAGGGAGTAGTTTAGGTGATAATAATTAGGAATTTTCCAGAAATGTCAGAAGATGCCTATCATT
AGTTCCAGGAAGCTCGGGCTTGCAAGCAAGAAACCTTTTTTTTTTTTTTTTTGGAGACAGAGTCTCACTCTGTCTTCCAGGCTGGAGTTCAGTGGTGCAA
TCTTGGCTCACTGTAACCTCTGCCTCCCAGGTTTAAGCGATTACCCTGCCTCAGCCTCCCAGGTAGCTAGGATTACAGGCATACCATGCCTGGCTGATTT
TTGTATTTTTAATAGAGACGGGGTTTCACCTGGGCAAGCAAGAAACTTAAAAAGAAAATCATACCTAGGCTGGGTGCAGTGGCTAAGGTCTGTAATCCCA
GCACTTTGGGAGGCTGAGGCAGGTGAGTTGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACGTGGCAAAACCCTGTTTCTACTAAAAATACATAAA
AATTAGCTGGGCATGGTGGCATGTGCCTGTAATCCCAGCTTCTTGGGAGGCTGAGGTATAAGAATTGTTTGAACTCATGAGGTGGAGGCTGCAGTGAGCC
AAGGTCACACCACTTCACTTTAGTCTGGGCGAGGGAGCGAGACTCTATCACAAAAAAAAGAAAAAGGAAAACTATACCTATACACATTACAGATTGAGTA
TACCTTATCCTAAATGCTTGGGACCAAAGTATTTTGGATTTTTTCAGATTTTGGAATATTTGCATTATACTTTAATGAGCATTTCCTTTGAGCATCATGT
TGGTGTTCTAAAAGCTTCAGATTTTGGAGCATTTCACATTTTGGATTTTCAGATTAGGGATGCTCAGCCCGTATAGGGAAACTTTAGAACATTATAGAAA
TGAACAAAAAGAAAGCAAACTTGAATGCAGCCATATAGGACRTATACTTTTGGTGAAGTTAGAGTAACAGTGGATTTACTTTTCCCTTGAAATGACAAAC
AAAAAAAAAATACAGAAATATGAAGCAGTGGTTTTCAGGCGACAGAGTCAATGAATGAAAAACAAATGGCCTGAGCCCAATGTTGGCTCCAGCTTGAGAG
TTTCTAGGTTGCACTATAGGGAAGGGAACCCAGTGGACTCTCACAGTTGAAGAGAGAGACCTTAGAGTGCACTAAGTCCAAGATAGCTAAAATTCACAGG
ACAGTGTAACTAAAATGAGAAAACTGCACAAAAAGAAATCCAGAGAACTGTGGATGATCCTCTTAAAGTATTCAGCACAATGCTGATTGGTGCATGCATA
TGAAAAAGCTTCCTGAACCCAGGGAAAGAATTGTCAGAGGAAATTAGACCAGTGATTGGTGCTCATACAGGACTTCTTCCTATCCAGACTGGAAAGCCTC
GTGCTTCATGGGACACTGGGTAGAGTACTCAGAAGAATCTTGTTTCAGTAGTAGGGATATTTAGCCCTAAACTAAATGTGGTCTGGTCCTACATAAAATA
TTTTAAAGGCAACATTCAAAATGATAAATGGTTTCCAAGTATTTAATGTCATTACAGAACAAAGCTTAGGAATATTACAGAAATACAAAAATACTCATCA
CTGAAAAAAGTTCACATAATGTAGCATTTAGTCAAAGATTATCAGGTATGCAAAGAGGCAGGAAAATACAAATCATGATGAAGAGAAAAGTCAGCTATAA
TAACTGACCTTGAACTGACGCCTTTGTTAGGATTAGCAGAGAAGGACAGTAAGACAGTTAATATAACTGTATTCTTGATGTTTCAGAGATGAAGTAGAGA
CATGGAAAATATAAAAAAGATATGAACAGGACTATTAGAAACGAAAACTACGACATCTAAGATTAAAACTATATTGGGTAGGAATAATAGTACATCAAAC
ATTGCAAAAGAAAAGGTTAGTGAACTCTTGAAGATAAGCAGTGGAAACCACCAGAGTGAAACACAGAAAGAAAAAATTAAACAAAAAGAAAAAAGTTAAT
GAGCTCTGGATAATTGATCAATATACATGTACTTGTTCTGTACAAATTTTTCCAGAACACTGAAGAGGAGAAATACTTCCCAGTTCAGTCTGTGAATATG
AGGTCCACGTAACTCTGATATTCAAACCAGAGACATATTGCAATAAAGGAAAACTTTATTCTTAACTTGTTGACTCCGACGGGAGAAAAAAAAAGAAAGA
AAACTTTAGGCCAAAACTCCTCATGAACATAGATGCAGAAATTCTAAATATAACTTTAGCCAATTGAATCCAACAGCATATTAGAGGAATGAATGTGTCA
TGATCAAGTGGGGCTTTATTCCAGGAGTGCAGTGTTAGTTTTACATTAAAAAATCCCTCATTGGCCAGGCGCAGTAGCTCAGGCCTGTAATCCTAGCACT
TTGGGAGGCTGAGGAGGGCGGATCACCTGAGGTTAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAACCCCGTCTCTACTAAAAATACAAAAATTAGCT
GGGCATCGTGGCTCATGCCTGAAATCCCAGCTACTTGGGAGGCTGAACCCAGAAAGTTGAGGTTGCAGTAAGCTCAGATCGTGCCACTGCACTCCAGCCT
GGGCAACAGAGCAAGACTTCATCTCAAAAAACAACAAAAACAAAAAAAACCCCGCTCATTGTGATTTACCATGTTAGCAAACAGAGAAAACTATGTGATT
ATCTCAGTAGATGCTGAAAAAGCGTTTTCAAAAATGCTTTGATAAAAAGTCTAAGCACAGCCAGGTGCGGTGGATCATGCCTGTAATCCCAGCACTTTGG
GAGGCTGAGGTAGGCAGATCACCTGAGGTTGGGAATTCGAGACCAGCCTGGCCAATGTGGCGAAACCCCCTCTCCACTAAAAATAYGAAAATTAGCCGGG
CTTGGTGACCCACACCTGTAATTCCAGCTACTCGAGAGGCTGAGGCAGGAGAATCGCTTGAATCCCAGAGGTAGAGGTTGCAGTGAGCTGAGATGGCGCC
ACTGCACTCCAGCCTGGGTGGCAGAGTGATACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGTCTAAGCAAACTAGGAGTAGAAGACGACTTCTATAACA
TGATAAAGACATCTACAAAGCTGGGTGTGTTAGTCCCAGCTCCTTTGGTTGTTTGAACCTAGGAGTTTGAGATCAGCCTGGGCAATATAATGAGACCCTG
TTAAAAAAAATCTACAAAAAACTAACAGTTATCATCATACTTAAGTATGAAAGACTGAATGCTGTCCCCCCAAGATTAGGAAAAAAGACAGGTATGAAAG
TAGTGTAGCTGCCATGGAAAAGAGTACGGTGGTTCTTCAACAAATTAAAAATAGAACTACAGTATGATCCAGTAATTTCACTTCTGGGTATACACTTGAA
AGAATTGAAAGCAGGGTTTCAAAGAGATATTTATACAACCAGGTTCATGGCAACATTATTCACAATAGCTAGTATGTGGAAGCAATTCAGATATCCATTG
ATGGATGAATAGATAAGCAAAATGTACAGTATTCATACAATGGAATATTACTCAGCCTTAAAAAGGATGGAAATTCTGCATTATGCAACAACATGGATGA
ACCTTGGGAAATTATGCTAAGTTAAATAAGCCTTTTAGAAAACGAAAAATAGTGTGTGATTCCACTTACATGAGGTTTTTAGAGTAGTCAGAATCAGAGA
CAGAATAGTGCTTGCCATAGGTTTGGAGGAGGGGAAAATGGGGAGTTATTGCTTGATAGATAGTTTTGATTTTGCATTTGTGTTCTGTGTTATAGTATTT
GGTTTTTATTTTGAGCATTATGGAGTTTAATAACATGTTTGTTTTTTTTCAAGATAGAGTCTTGCTCTATCGCCCAGACTGAAGTGCAGTGGCGCTATCT
CATCTCACTACAACCTCCACCTCCTGGGTTCAAGCAGTTCTTCTGCTTCAGCCTCCCGAGTAGCTGGGATTACAAGTGCATGCCACCACGCCTGGCTAAT
TTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCCTGATCCACCCGCGTCAGCCTCCCAAAGTGCGGG
GATTAYAGGTGTGAAACAGTGCACCTGGCCATAACATGTATTTTTGCAAGGTCACTCACCCTGGCTTCTGTGAAAGAAGCCTGAGAAGGGTCTGTTTGGG
GAGACCAGTTAGCCTTTCATAATAATCTAGTTAAGCTGTGATGAACACTGACCTGAAGTAGTAGTTAGTGAGAATGGAATTGAGTTTTAAGAGAGATTCA
GGATGTAGAATTGTGGGAGTACAGGCCTAGGATGTCTTGAATGATCATAAGGTGTCTGATTTGATATGTTATCATAGTTTGTGGTGCCATTTACTTAGCA
GAAATAAAAAATGTTTCATAACATTCTGAGTTTGAGACACTTACAGAACATTTCAAGTAGAGATGTCCCACAGTCATTTGAATATAAGGATCTGGAACTT
ATATTAGCAGTTGGAGATTCAGGTTTGGTAAACTTCAGCAGTTGAAATCATAGTTGTGGATGAGGTCACCAAATGAGTAAGGACAGAATGTCAAGGAATA
CAAACATTTAAGGGACTAGTAGAGGAAGAACAGTGAATAGATTGGTGAATGAGTAGAATAATAGGAAAAATAGAGAAAGGTGTTAGAGAAGCTAAAAGAA
AGGAAAGTTTCAAGATGGTAGTTGAAAATGTGATAATATAGATAAAAATAATCTAAAAGCTTAAAAGATGTCTGATTTGGTGCCTGTAGTCTCAGCTACT
CAGGATGCTGAGGTGGGAGGATTGCTTGAGCCCAGGGGTTTGGGTCCATACTGGGCCACGTAGCAAAATCCTGTCAATTAAAAAATAAATAAAAATTTAA
AATGTCAGATTTGGCAACTAAGGAGGTTTTGATAATCCTGGGAAGAACAGTTTCTGCTTTAGAACTAAAAAAGACATAGTTTTGAGTGAGAAGGGATAAG
GAAATAAAAGGAGAATAGACTCAACTTTCAGGAAACTTCATTGTGCAGAAAAGAAGGGAAGATTGGTAGTAGCTAGACTGGCACACAGTTTTTTTTTTCT
TTTAATTTGGCAGAGTAAAGTTCTTATCACAGTTTTAATTTTTTAATTTAAATAATCATTTAATTAATCTTTCTCTCTTGACTGTAAGCTCCATGAGGGC
TGGGATTATATGCATTATTTTTTTCCCATCTTAGCACAGTACCTGGCATATAGTTGTTCCATAAATATTTGTTGATTAATGATTTAAATGGAGTGGAAAG
AGCATACGGGTTGGAGTTAGAACTAGATTTAATTCTCAGTTCCACCTTGTAGTTGTAGGACGATATTTAACATCTGTAAGCCTCAGTATTCTTATGTATA
AAATGGTTTTGGTAGTATCTATCTGGGGAGTAATATTGTGAGAATTAAATGACATAACATCTGTAAAGCACTTGGCACGGTGCCAGGTCCATAGTGGGTA
CTCAATAAATGATAGTTGTTGCTGTTAGTGTAGAGGCGAAGAGTGCTTACTTAATGTGCCAGGCTTGGTGGCTCACGCCTGTAATCCTAGTACTTTGGGA
GGCCAAGGAAGGTGGATCTCCTGAGCTCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAAACCCCATCTCTACCAATAATACAAAAAATTAGCTGGGC
GTGGTGGCACGTGCCTGTGGTCCCAGCTACTTGAGAGGCTTAGGTGGAGGAGCGCTTGTATCTGGGAGGTGGAGATTGCAGTGAGCAGAGATTACTCAAT
TGCACGCCACGCCAACCTGGGTGACAGAGGGAGTGAGATCCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAGAGGGCTAAGAGGGCTTACTTAATGAAAA
CACAGACTAGTAGATTGTGTAATGTTTAAGGAGAAGGAGATTATTACTGAGTGGGTAAAGAAGGATGGAATTCAGAGCACAGGTGATAGTATTAATCATG
ATTTAAATGGAGCATTTCATTATGTTGGAAAAGAAAGATATTAAGGGTTCGCTGAATATTTGACTTTTAAGCTGTAACTTGAAGGATGATTAGTTTTACC
AGGTGGATACACATAGGGGACAAAATGATTTAAAGGCATGGAGACCCAATGGCACATAGAGTATTTGGAGACTGGTGACTGTTTAAATGTGGATGTCTGT
CAAAAATATTGGAGAGGGTGGAGGGAATGGTTGGAGGAAGGCCTAGAAATGCAAATTGAGACCAAAATGCTTTATATTCCATGTTAAGAACATGTTGCAT
TGTCTTACCGGCGCATTGAAGGTTTTTTTTTTTTTTGAAATTTTTTTATTGTGGTAAAATATATATAAGATAAAATTTACCATTTTAACCATTTTTAAGT
GTACAGTTCAGTGACATTAAGTACATTTACATTGTTTTGCAATCATCTCCACTGTCCACCTTCATTCAGAACTTTTTCATCATTCTATACTGAAACTCTG
TATCCATTAAGCAATAACTCCCCATTCCCCTCTCCCTGCAGCCCCTAGTAACCACCATTCTATTTTCTGTTTCTATTTGCTTGTCTATTGTAGGTACCCC
ATATAAATGGAATCATACATTATTTATCCTTTAGTGTTATTTCACTTAGCATGTCTTCAGGTCAACCGCGTTGTAGCATCTGTCAGAATTTCTTTCCTTT
TTGAGGTTGAATAATATTCCATCGTATCTGTATGCCATGTTTTGTGAATCATTTCATCCATGGATGGACACTTGGGTTGTTTCCACCATTTGACTGTTGT
GAATAATGTTGCTGTGAACATCGATGTACAAATACCTATTTGAGTTCCTTTTTTCATTTGTTTTTTGTATATACCCAGAATTGGAATTGCTGGGTCAAAT
GGTAAATCCATGTTTAGTTTTTTGGGATTGCCATGCTGTTTTCCACAGTGGTGACATCATTGTACATCTTTACCAGTAATGCACAAGGGTTCCAAATTCT
CCACATTCACACCAACTCTTGTTTTCTGCCTCCCCCCGCCCCCCCATAATAGCAATGCTGATGGATATGAAGTGGTATTTCATTGTGCTTTTGATTTGCA
TTTCTCTAATGATTAGTGGTATTTAGCATCTTTTCATGTACTTATTTGGCATTTGTATATCTTTGGAGAAATGTCTATTCAAATCCTTTGTTCACTTTTG
AATTGGGTTGTTTGTTTTCTTATTGTTGAGTTTAAGGGATTATTTATATATTCTGGATATTAATCCCTTATTAGATACATGATTGCAAATATGTTCTTCC
ATTTTGTGGGTTGTCTTTTTACTCTGTCAGTAGTGTCTTTTGATGAACAAAAGTTCTAAATTTCGTCCAGTCTAATTTATCTGCTTTTACTTTTGTTGCC
TATGTCTTTTGTGTCATATTCAAGAAATCATTGCCAAATCCAATGTCATGAAACTTACCTTCTGTTTTTTTCTAGGAGTTCTATGATTTTACATTTCTTA
GTTACGGTTTTATAGCTATAAGTGTAGGTTTTAGTATCTTTCTTTTCTTTTTTTGTTTTTGAAATGAGGTCTTTGTTGCCCAGGCTGGAGTACAGTCATG
GCTCGCTGTAGCCTCTACCTCCTGCACTGAAGTGATCCTGCCTCAGCCTTCCAAGTAGCTGGGACCACAAGCATGTGCCACCATGCCTGGCTAATTTTTT
ATTTATTTTTATTTTTTTGAGACAGAGTTTCATTCTTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTCGGCTCATTGCAACCTCCGCCTCCTGAGTTC
AAGCAGTTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGCATCTGTCACCATGCCCGGCTAGTTTTTTGTATTTAGTAGAGACGGAGTTTTGCC
ATGTTGGTTGGGCTGGTCTTGAATTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCC
TAATTTTTTATTTTTGTAGAGGTGGAGTCTCAACTATGTTGCCCAGGCTAATCTCAAATTTCTTGGCTTCAGCAGTCCTCCTGCCTTGGCCTCCCAGAGT
ATTACAACTGTGAGCCACTATACCTGGCCTAGTTTTAGTTTCTGACATTTAGGTCTTTGATCCATTTTGAGTTAATTTTTGTATATGATCTAAGGTCAGA
GTCCAGCTTCATTCTTTTACATGTAGATATTCAGTTTTCCCAGCAACATTTGTTGAAAAAACTGTCCTTTCCCCATTGAGTGTTCTTGGCACCCTTGTCA
AAAATCATTAGACCATACATGCCAGGGTTTATTTCTGGGCACTCTGTTCTTTTTTTTTTTGAGCAGAATCTAGCTCTGTTGCCCAGGCTGGAGTGTAATG
GCATGATCTCAGCTCACTGCAACCTCCACCTCCCTGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGACAGGCATGCACCACC
ACACCCAGCTTATATATATATGTGTGTGTGTGTATATATATGTATATATATGTATATATATTTTTTTAATTTAGTAGAGACGGGGTTTCATCATGTTGGC
CAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCGCCCACCTCTGCCTCCCAAAGTGCTTGTAGGCATGAGCCACCACGCCTGGCCTGGGCTCTCTGTT
TGATTCCATTGGTCTACATGTCTGTCTTTATTTTTATTTTATTTTTTTGAAACAAGGTCTTGTTTGTTGCTCAAGCTGGACTGCAGTGGTGCAATCTCAT
TTCACTGCAACCTCCACCTCCGGGGCTCAAGCCATCCTCACCTCAGCCTCCTGAGTAGGTGGGACTGGAGGTAGGCACCACCATGCCAGGCTAATTTTTA
TATTTTTTGTAGAAACAGGGTTTCACCATGTTGCCTAGGCTGGTCTCAAACTCTTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCCAGAGTGCTAGGAT
TACTGGCATGAGCCACCATGCCCAGCCATGTCTGTCTTTATGCTAGTACACATAGTGGTTTGTTTTGTTTTCTTTTGTGTTTTGAGACAGAGTCTTGCTC
TGTTGTCCAGGCTGGAGTGCAATGGCACGATCTTGGCTCACTGTAACCTCTGCTTCCGGGTTCAAGCAGTTCTCCTGTCTAAGCCTCCTGAGTAGCTGGG
ATTACCATTGTGTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGGTGGGGTTTCTCCATGTTGGCCTGTCTGGTCTCGAACTCCTGACCTCAA
GCAATCCACCTGCCTTGGCTTCTCAAGTTGCTGGAATTACAGGTGTGGGCTACCTGACCTGGCCATGTTGTTTTGATTACTATAGCTTTGTAGTACGTTT
TGCAGCCAGTAAGTGTGAATCCTCCAGCTTTGTTCTTTGTCAGGATCGTTTTGGCTATTTGGGGTCCTTTGAGAGTCTGTGTACATTTAGGATTGATCTT
TATATTTCTGTGAAAAATGTCATATATATATATATATATATATATATATATATATATATATATATATATATATATATAATTTTTTTTTTTTTTTGTAATG
GAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGACTCACTGCAAGCTCCACCTCCGAGGTTGAAACGATTCTCCTGTCTCAGCCTCC
CAAGTGGCTGGGATTGCAAGTGCCTGCTACTATGCCCACCTAATTTTTGTATTTCTATTAGAGACGGGGTTACACCATGTTGGCCAGGGTTGTCTGCATC
TCCTGACCTTAAGTGATACGCCTGCCTTGGCCTCCCAAAGTGTTGGGATTACACATGTGAGCCGCTGCATCCGGCCTTTTATCATTTTTTCATTAAGTCT
GTTGCTATTAGTTCTTTGGATGGATCCTAAGTGAAACGGCCGGGCGCTGTGGCTCACGCCTGTAATCCCACCACTTTGGGAGGCCGAGGTGGGTGGACCA
CGAGGTCAGCAGATGGGGACCATACTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCCAGGCGAGGTGGCGGGTGCCTGTAG
TCCCAGCTACTCGGAAGGCTGAGGCAGGAGAATGGCGTGAACCCCGGGGGGGCGGAGCCTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCGGGGC
GACAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGTACTGAAACTTAGATGCTTATGTAAGACTTAGATACTTAGATTATAATTAAGAATTGCA
GAAATGATCACAGAGACTTAGAAAAATGAGTTTGACTTACCCCTCATGTTTGATAATTCCTTACCTGAGGTAAGCTTTACTTAGGTTAAGTCTGAATATG
GTAACAGTTAGTGAAAATAGAAATGGACCAAAGTCTTTAAGTATATTTGATTGGGTAGGGAAACCAACTAGCTTTGGCTATTATATCTGATGGGAGCGTC
ATGTTTCAAAAGATAAGAGATGGTTTCTTGAGTGAAAAATGTTAATAGAAAATGCCTGTGTGGGGAGGGGATGTGTTAATAATACTAAATAAAAGAGAAT
GATTGTGGCTCAGTTGTGTTAAAGAATGAAGGAGATAGTAGGATATGAAATTGTGGGTTATTTTCTTCTTTGTATTTTCCTGTGTTTTATGTAGCTTTTG
TAATTAACATTTTTTAAATCAGAAAATAATTAATAAAAGTCATTGCATATATATAGCAAAGTGTCTTTTTAGCTCCTAGATTTAAATTGGCTTTAAAACT
TTTAGCAGAATAGAGGTTTTTTGAACATTTCGCATAGCGTTGGATAAAATCACAAAGAGAAATCACTGGTAAATAGTAGGCAGGAAGTTTTCCTGTGACC
ATTTAACTTGATACTGTATATGCTGATTAGATAGGATTCAAGACTTTTCTGCTACATCTAAGACAATCTGCCTTGGTGCAACAAAATCGTCAAGTTAGTA
TTGTACTTAAGGTACCTTGGCTTTAATGTAGCATTTCAGAATTTATGCAGACAGTACAGTGGAACAAATTTTTAAAAACTTAGTAGCATCCCCTCCCCAC
ACAGTACCTCTCATTCTCAAAACCCTGCTTCCCAAAGGCAGAAGTCTTTTGTTCACTTCCGTATTGTAGGTATCTGGTAGATGGAAGGTGAATATTTTTG
TTGAGTTAGTTTATTTCTGTCTTTCCCTGCTAAATATAAGAACAATTAAAATAGAAACTTTTTTTGTTTTTATTGTTGTGAATCATTACATTAATAGGAA
AAACAAGAAGAAAGTGAGCTTCGTTCTCTGCCACCTCCTTCCCCTGCCCACTTGGCTGCTTTAAGTGTTGCAGTCATTGAATTAGCAAAAGAACATGGAA
TAACAGATGATGACCTCAGAGTCCGTCAGGAAATTGTGGAGGAAATGTCAAAGGTTATAACGACATTTTTACCAGGTAGAAATACATTTCATATTTGATT
TTGAAAATCACAAAACTCTTCCCTTGCTCCTCTTGAACTAGAGTACATTTCTTAATGTTTTTCTTCCCTTTTCTCCTTAAAAGTAGATAAAATTTATTGT
TTTATGAATGAATTTTTGAGGGAAATATTTCACACAAGGAAATTGAGAATTATGGCACAGCACACTTTTGTACTAAGAAAAAAAGATTTTAAAAATGCCA
GATGTAGAACTATTTCTTGGCGGTCAAATATTTTAGTTTTTCAATATCACTGATTTCTGAGTGGACTATTTTGTTATATTATTTTCAGTATAAACATTTC
ATCCAGTCACTGAACTAAATTTCTGTTGCCTGATGGTGGGGAAAAATTAATTTACTTTAATAGGGCCTTTAGAAAAAGCTTATTGTTTGGTACAAGGGAG
TGTCAGATTTATTTTAGATATTTATATATGGACTATTTGCTTAGCCCATATCTTTTTTGCATCAGTATAGGGTTAAAGTAAATGTATCTGACGTAAGACT
TATTTCTTCCCACCAAAGGGATTTTGGAAAGTTGATAAATTATACTTTCATATAGATCCATTTTGAGATTTATAAGAAAGAATATAAAATTGAAATTTAA
AAATGGAATTTTTAAAGTATTTATATCATAATATGGCTTTCTACCTAAAATACATTGAATCCTTGTTTAAGTTACATGTAAAAATTATTTACTATGATAA
GAAAAGGAATGAATTTTTATGGGTTTAGTGACTTGAATGACTTTCAGACATTTTATGAACTTGARAAGTAGACTTTTATATATACAACTGAGGATGAAGT
TAAACTTTCTAAGAAACTAAATCTTCTTGATCTGTCCCAATCATATTATTTTCAAATTGGCCTCTGGTGAGATCCTTTTAACATTTGCCTTATTATGATT
TTTGGAATAACATGTTTCATAGTCTGGGAAAGCTGTAAGTAGTGTGTTACTGCTTTTCTTTTTTTTCTATAAACTCTTGAGAACCACAGTGTTTTGGGTT
TTAGGTTTACAGAATTAACTGACTTGGCTTCACTTCGTATTTTATAAAAGCATTGGCATTGAATGTTTATGATCCTTTCCCCAAAGTGCTCTTACATAAA
TATTTAAGAGTAAATAAATGTAGTTTGTGACAGTAGCCATAGCTAAGTTGGTACATTAGTTACTGTTATATATTGAATGCTAAACATATTGTCAGTCATT
TCTAAATGAACTATTACTAAAATTTTGTTTAAACAGTAAGCTTCTGTGAGTAGTTTCTCTCTCCCTTCTCTGTTCCTACACTCCATAACTGGGAACCATT
TTTTTATTCTATAGATCAGTTAGAAAGGGTGTTCTTCTTGTATAATTGTCTTACTAGAAATGGAAGACGTAGAACTGAAGTGTGTGAAATTTTCCYRTCG
CTGTTTTTTTACATCTCTCATATTTGCATGCTATTTCATGCTTTGATGTTTTTCCTTTATTCCAGAATGTTCACTTAGGTTGTATGGCTCATCTCTGACT
AGATTTGCTCTGAAAAGTAGTGATGTTAATATAGATATAAAATTTCCTCCCAAGGTAAGTAATTAGAATCTTTCCTGTGTGGTTCTTAACTAGTACTTAG
TAATTTTTATGGATTATCTTTGTAGAGAAAGGATAGGGAAATATAAAACTCTGGTTTGTATAGTGTTACCATCGTGACTAAACAGTGCTTTTGGAAATTA
CTATTAGATTTCAGACAAAGGCAGGATAAAAGAAATAAGGGACAAGGGCAAAAGGAAGCAGAAGAGGAAAGCTGGAAAAAGGAAAAATGTTTATATTTGA
ACATGTTGAATAGTTAATACTTCTGGTAAGCAGTATAGAAGGTGGGAAGAGTTTTGAAATCAGATACCTAGATTCAGATCTTATCTGTGATAAGCAAGTT
GCTTGAACTTTTTGAGCTTCAGTTTTCTCATTTCCAAAACAGGAATAATAATTTTTATATTAAATGAGATAATATTAATATATGTCAGGTGTCTTAATAT
AGTATCTGGTACATATGGGTACTTTTAATAAGTAGTACCTAGAATCATTAGAACAATATTGATATTGTTCTAATATTGTTATCAGTATTAGAACAATATT
GTTTAGCACTGCTGACATTCTTTATTGACATATCAATCTTTTAAAATAAGTCAATATTTTATGTTTTAAATTGAATAATATGTTTATGTTCAGGGAGGTT
TGATTTGGGTGAAAATTTGGTGTTTGTAGGGTGATACATTTACTTTATAATTAATGTATGGTTATTAAATATTTTTGTTGTTTGTTTTTGAGACATAACC
TCACTTTGTTTCCCAGGCTGGAGTGCAGTGATGCAGTCTCGGCTGACTGCACCCTCCACCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTCCTGAGT
AGCTGGGATTACAGGTGTGTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCTTGTTGGTCAGGCTGGTGTTGAACTCCTG
ACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAATGTGCTGGGATTACAGGTGTGAGCCACCGCACCTGGCCTAAATATTCTTAAATAGCAAAAAACACTT
TAAACATTTGACAAGCTTGTTACATAAAATAGTATTTTATTCTAAGCCTTTTGACTAAGCTTCCAGTTGTCTATATCCCTTAAAGTTTTTATCTCAACAA
TTTGTTTTTCACAGTCATCTGGTCAACTCATTTCTCTTTTGTTTTGATGGGAAATTCCAGAACCTTTTCTTGCTTTAAGAAACCATTAATTCTAAGAGTG
TTTCTGGAATAAAAGTGCTATATCATTTATTAGATTCTACTTCTTTGAACAAKATTTGTTGACATAAAAGTAAAACATGGCCAGGTAAGGTGGCTCATGC
TTATAATTCCCGTGCTTTGGGAGGCAAAAGTAGGAGGAATCCTTCTTGCCAGGAGTTCAAGACCAGCCTGGGCAATATAGCAAGACCTTGTCTCTTAAAA
AAAAAAAAAAAAAAAGTATTAGCTGGATGTGGTGGCACACACTTACACTCCTAGCTACTCGGGATGCTGAGGCAGGAGGAGTCTTTGAGCCCAGAAGTTC
AGGCTGTAGTGAGCTATGGTCATGCTGCAGCCTGGACAATACAGGGAAACCTCATCTCAAAAAAAAACAAAAAAAAAACACGATTCTGTTTTCACTATTT
AAAACACAAAGCATGATTATATTTAAATGTTATTCTTTAATGAAATTGAGTTTTCCTTAATGTTCTGCTGTCCGAACTTTGAAATTAGTATATCGATTTA
TTTTTGAAACTTTTTTAGATGAATCATCCAGATCTTCTGATAAAAGTACTTGGGATTTTAAAGAAAAATGGTGAGTTTCTTTTCTTTTTCTTTTCTTTTT
TTTTTTTAATTTGTCTTTCTAAAGGTACATGTGTTGTTTATATATGGCTAACCAAGTTAAAACTAAACTGCTGGCATAGTTGAGTCATTGCATTACAAAT
GGAGATACATACACACACTTGTTTATAGATATACTAGAAAATATAATTTAACTGTAACTTAGGTAAAAAAAAAAATGCCATATTAAAATTGATATGTAGG
CTGGGCACCGTGGCTCACACCTGTAATCCCAGCACTCTGGGAGGCTGAGATGGGTGGATCACCTGAGGTCAGGCGTTTGGGACCAGCCTGACTAACATGC
TGAAACCCCGTCTCTACTAAAAACACAAAATTAGCCAGGCGTGGTGGCACGTACCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGAAGAATTGCTTGA
ACCCGGGATGCGGAGGTTGCAGTGAGCTGAGATTGCGCTGCTACACTCCAGCCTGGGCGGCWAAAGTGAAACTCCGTCTGGAAAATACAAAAACAAAAAA
CCTTCATATGCAAAAAACTACTGCCTTTTGGGTAATTAAAAAATATTTGCTTTGAATATTATGGGCATTTCTTATGTAAAAGAAGACAAAACCTATAATC
ATTATGAGGTCATTACTGAAAGAAGATTAAGGAGAGACTTGGAATAAAAATGTATGCATGCATTGAGTAAATATGTTTTTTCCCACCTAAAGCATCTATA
TTAATTTAATCATTTATATTACATCAGTTGAATCATACCTAGTTGAGTTTTTCATGTGTGCTTTTTCTGTCTGGATTGCCTTTGTAAACACATCATTCAT
ATAGGTAAGAAAAATTTAAAAATTACAAGATTCTCAAACCAGGCTCCAGGTCATGTGTTACAATCTTCAAGATTTGCTTGGTTTTTACTTACTGTTTTTC
TTGTTACAAAGTGAATGCTTAAGATTAAGCTTGGGAGCTGGAGCTAGACTTTCTGGGCTCAGATTTTAGTTCTGCCACTTACTGGTTGTGTGTCCTTTGA
CAAATTATTTGTGTTAATACCTTAGCTTTCCCATCTGTAAAATGGTAATATTACATTGTATCTTTTTGATGAGAAAGTTGTTGTAAGAATGAGATAGGCT
AAACTATAGTTTAGAAAAGTGTGGGATATACAATAACTTCTTATTACGTTTTTGCTGTTGTGATTGTTATTATTACCCTAAATTATATGAATCAAAAGTA
TTTGCAATTTGGGTTAGAAGAGAGAGCTTTTTTTTAAAGCCATACTCTCTCATTGGCTTTAATATGAATTCTAAATTTCTTTTTTCTTTCTGTCCACACA
ATCAGCTCTTATCAGTTTCCTGTTGGCCATTGTCTTGGGAAAATAGTTTTCTAGGAATGAGTTTGGTACAGTGTATCATATAAAGGTATTTTAATACAGT
TTTCTTTCTTCAATACTTGTTTCTAATTGCCGAAAAACTTTTAAGTTTACTACAGATAAGAGGTAGACATAGCATTTACCTCTTCAGACTTCCTAGGTAG
TATCATCCTAGCACAAATATTTAATATATGCCTTTTCCATCCAAGATATATAAGTAGATTATCTTAAGTCATACAATGTAGGCTTATAAAACTCAGTCTG
ATTGTAAAATTGATTATTTCTTCCTTTATGTTCTTACTGTATCTTCTACAGGTCACCTACAGGATTTATATGTTTATATATTTGTGTCCCAAACCCCTTA
TTGACCTTTTTTGTGTTTTACTCATTGTCATATTGACCCTGCTTAATGCAGTTTCTGACATATAGGTCTTCAGCACGTGTTTTTTGACTAAATTAATAAT
TACAACAAGTACTATTGAGAAATTTTCTTTGAATTACAARTGATGTTAATCTATCTGGTTTTTTTTTGTTGTTGTTATTTTTGTTTTGTTTATTTTGAGA
TGGAGTCTCGCTCAGGCTGAAGTGGGAATGTAGTGGCACGATCTCGGCTCACTTCAACCTCTGCCTCCTGGGTTCAAGCAGTTCTCTGCCTCAGCCTCCC
GAGTAGCTGGGATTACAGGCGCGTGCCACCATGCCCGGATAATTTTTGTATTTTTAGTAGAGACGAGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACT
CCTGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCGGCCAATCTATCTGTTTTTATTTAGATTAGA
CATTTATGGCATGGGGCTTACCCTTGGAGATACAGAGAAAGATTTCAGGGTAGAAATGTGCTTCATCCGGTTAGTCCTTCCTTAGCAGCTTTGATTAGGC
AAACTCTTCATATACTAACGGGAAATGTGGCCTGAAGAGTTAGGTTGTAATTACATTGGTAATTTAAAAGAACTAAACTGTCAAAGCATGATAGGTCCTC
CTTTCATGGCTCCTGTGGAACTAGCTCTCAGGAGTAAGGGGTGTCCTCTCTTTGCTGTTATCTATGAAGGTTTAACAACTTTGACTAGATTATCTACTTA
CTTGGAAATATTAAAACTTTTAGGGATGTTAAGACCTTTCTTAAGGTGATTATAATTTTTGGACAGTATTTGGGGCTGTACCTGTGGTTTGTGATATACA
GCAAATGACACCAGGAGAGGTAAGAGATTTCGCTGGGTTGGTGCTCATAATGAGAAGAGTGGATTATCCCACAGAAGCAATGAGAATAATTTTCAGAAGG
AAACTGTTACTTAATGTTTACTGTAGAGTACGTATTTTAGAGATGTTGACATTAGCTTACTTTTTTTTTTCCTTATTAGTATTATATGTAGATGTGGAAT
CTGATTTTCACGCTAAAGTTCCTGTTGTGGTGTGCAGAGATCGAAAAAGGTTGGTAACAATGAAGATAAAATATTTAAAAAAACAAACCCCAACAACCAA
ATTTGTAGTGAATGATCTTTAAGAGAAAAAGTTTTTGTTTTAGATTTCTCCTTGGATGAATATGACTAAGCTAGTTTCTATTCATTAAAAATAGCAAGCT
TACCAAATGCATGTGAACAAGAAATATATAGAACATCAGACAGTTGAAAATAAAATACTCTAGGCAAAACTTCAATTTTTTTTTTTTCAAGTCATTCACT
CACCCAAGAGTATTGCATTTACTTATATGCAGGTACTACTTTGCTCTATGGATACAGACATAAAGAAGAAATAGCCTCTCTTCAGTCACTTGAGCCCAGG
AATTCAAGACTAGCCTGGGCAACATAGTGAGACCTTGTCTCCMCAAAAAAAATAAAAAAATCAGCCAGGCATGGTGGGTGTGTGTGCCTGTGGTCCCAGC
TACTCGGGAGGCTGAGGTGGGAGGATGGCCTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCCGTGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGTG
AGACCCTGTCTCAAAAAAAAAAAAAAAAAAGCCTCTCTTCTCAAGGATCTCACAATCCATTAGAATTTAGAGTTTAGTTTTTATTTCACTTACATTGAAT
GAGTTGATTTAAATTGAATAAACTCAAGATCAGTCCTAAATTGAAGACTGATCTTGCCTTTCTAGTTAGATGTCTATAAGTCTAAGAGATCAAAGTGCCT
TTGAAAGCAGAAACTAAATCCTATTTGAAAGTAGTGTGGGAGACATGGAAACAATACAGAAATGATATTCTTTTATTGATTATTAACTTGTATTATATTT
TAAGATCAAGGTATTTTCTTATTCAAAGCTAGATGAGTCTATGGCGATCTAGTTCAGATTTATTTTCTAAACTAGAAAAATGGGACCTGGAGTGGTTTAT
CAGTTTGTCTAGATTCACATCATTGAGGGGGAAACTATAATTGGAAAATGGAGGCAAAGTGACCTTTAGTGTTTTTTCTGCCACATTGTGTTAAATTGCC
TGTGTGTGACACCTCAGATTTATTCTTCTCCCTGCTTTCAAAATATCTTCACTACACTTCTGTCATCCCATTTAAGGTTGCTGCTATTTTCACTTACACA
GAAGTATAATTTGTGGGTTAATCTGCAAATCCTGTCTAATCTTTACTCTGAAAATAACATATTAGTACAATTGTGAAAGCTTGGATAGGAAAAATTAGAG
TCAAGAAGTATAGCCAGTCAGTTAAGTATTCATTTTTTGCTATTATCATGTAGAAAGCAAGAGGATTGAACTAGGAAATTACCTTGCACTATTTGACATT
GAAGAGATCAGTGCCCTGTCTCTCATGTATATCAGTTTTGATAATTCATAATGCTGCTTTTGAAATTAATTTCTCATTAACTTAAATACTAAGTTTGGTT
GAMATTTATTTCTGAAGTACAAATGAATGTTAAAAACATCTTTCTTTAATTCGTATGGAACTCTAGTTATGGAATGACATGTAGTTTTCAGTTAGCTCTA
AATTTATTAAAACATTTGTTTTTATTAGGGCTTTWACGGTACTATGTTACAATATGATAACTAGAAAGAAAATAGCCACAGGATTTGAAGTATTCTGCTT
TTAAGGGTATTAATACAATGAAATTTGTTTCTTTCTCATTCACAGTGGTTTACTTTGTAGAGTGAGTGCAGGAAACGATATGGCATGTCTCACTACTGAT
TTACTTACTGCCCTTGGCAAAATAGAACCTGTCTTTATTCCCTTGGTGTTAGCCTTTCGCTACTGGGCTAAGGTAAGTGAAAGAGAGGAAAACTACTTAT
TTATATTTTTAGAAGGAAATGTATTTAATCTTCAAAATTAGGCCTTTTCTTGTACTGACATGTAACRTCAATCATAACATGTGGGAGAAAGTAGTTTTCT
GTGCTAGACAGAAAGTTGGTGTGGCAGGTTGTAATTTATGGACATAAAAATAAATTTTTGTAGACACACTTATGGATATATTTTAGAATTTTTAATTGTC
ATGCTATATTCTCCTTTTATGTACTATAGAAATGTTCTCTTTCATATCAGCATATGAGGCTCAAGTTTTCACTCTTACTGTAAGTTAAACTTGTAAGGTT
TTAAGATGTATATACATTAAGATTCTTTTGTTGGCATATTTTTTTCCCCAGTCTCTAAGAATGCTATTCTCTTTCCTCTAAATCATTGATAACATGTACC
AATTTCTGATTGGGCAACTGCTGAGCATTAGTTATTTAAGTTTCCTAAATTAGTCTTAATTTGTATGTCTAAAGGCTGTGGTTGCCCTGTGTTTATTTCT
TTGATGTGGGGATAGGGAGTAGTAGTTAATTATCAATATCAGTCCAAATGACTAGAGAGAGAGATTTTAGCCTTTTGTTTGTGTATTCCTGCCCTATCGG
TAGAGTATTCATCACTTGTTAGACTGGTGAGTAAATTCTCAGTCATATACAAAGAAAACTGGTTAAGGGGATGGTGTTAGAGTGGTAACTTCATAGCAAA
AATAGAGAAGTCTCTGGAATTTTTTGTCTGGGCTCTGTTTAGAGAATTGCCCCCATGCTTGGAGCAGCACCAGCTGGCTGAGTACGAAACAGTCAGAAAG
CCTAAGGTTGGGGCTTCTTTATACTCAAGGCCTTTGTATTTGCTGTTTCCTTCATCTAGAATGTTCTTACCTTAGGTATTTAGAATGCTTCACTCTTACT
TTTTTCAGGTTTATGCTCACATTGATTACCAGCTGCCATACATAAATTTGTTGCAGTCTGTACTGTGAAATTGTAAACTCTTTGAGGGCAGGGATTTTAA
TGTTTTATGTATTCACGGCTGATCCCCACTTCCGCTTATTTTACTGTGTCAGCACATAGTAGGCACTCAGTAAATATTTGTTGAATAAATGACCTAGTTT
CTTCAGAAAGGAGTTGTGTTTTTTTTTGTTTGTTTGTTTAAGTAGAGATGGGGTCTCATGATGTTGCCCATGCTGGCCTTGAACTTCTGGGCTCAAGCAG
TCCTCCCACCTTGCCCTCCCAGGTGCTGGAATTATGGGTGTGAGGCACTGTGCCTGGGCCAGAAAGATTTTTAACCCATGGAAGAGAGTGGAGGCAGTAA
AATAGGTTGAGGGAGGGTGACTACTTCCTCTCATTTATCTTATACTCTATGCCTAGCATACTATAGGAAATCAGTGTATGGAATGGAGTAAACCAATTCC
AGGTATGGTTTTTTTTACTAAGTTTTTTTTTGTTTTTTGAGATGAGGTCTCTGTCACCTAGTGCTGGAGTGAGCGATCACGGCTAACAGTAGCCTCGACC
TCCCAGGCTCAAGCGATCCTCCTGCCGCGGGCTTCCAGAGTACCTGGGACCACAGGCGTGTACCAACGTGCCTGGCTAATTTTTTATTTTTTATTTTTGT
AGAGATGGGTTCTCATTTTGTTGCCCAGGCTGGTCTTCAACTACAGGGCTCAAATGATCCTCCCACCCTAGCCTCCCAAAGTGYTGGGATTACAGGTGTG
AGCCACAGCACCCAGCTTTGCTAAGTCTTCAAGCAAGGTACTTCACCTATCTGAGCTTCAATTTTTTTCACCTGGAGAGAATATTTTGGTAATGCTATTA
GATAATTCATGAGAATATACTTCAGGCTCGAAAATACTACAGAAATATAAAGGATGATGGAATACACAGTTGCTTCTTTGTTGGTACTTTTAAATTATGC
CCTAATTTTTTTTGTGGTCATAAAGTCATGTCAGTTTTCTCCCAGACATTGTTCTACTCAGTAAAATAAGTAGTCTGTGTTAGAAGATTATAAATGATAC
TCAGATACATTCTTTTTATTTTGGAAAAAAATATGGCCCATAAATATTGTTTCCTAAAGTGACTCTTGGAAAAGGTTGCTCATGGTGTTTTAGTAGTTGA
TCCATGTAGATTCTAAATATGCCAGTCAATGGACACTGAAACATATATTACAAAACTGGTTGTAGAATGGTTTCTTTCTGTTTCCAACAGAATAACATGT
CTCGTTTTTGTCATTTGTGTTAGTTGCAAAGAAAGTTTTTTCATGGTATTCATTTTCTTAAGAAACTTAGAAATAATTCCTAGTTTATTTTTCTTCTAAA
AGATTTTTTTAAAATAGCTTTGTTTTTCTTGAAGTTTTAAGCCATATTGTACATTATCTAGTTAAGCACGCATTTTTCCATGATTTGGGGGTTCAGGACA
ATTCTAGTATATAATTTACTCTTATAACTGTGATATGAGATTGCAGTTGATTATTCTCTGGCTGTCTTAAGTAGTTATAGTCTTTGMATTTTAGTAATGG
GAAATAGTTTTCTAGATAAAGCTTCTTAACTCTAGGTGGCAGAACTCTTTAGCCTTATCATCAGTACATTATTAGTCAAGTTACCTGACTTAGAGCCACT
TGTCGTGGTTAATGTAAGAATTGCATTTTAGCACTATTTGTCATCTGAAAGAGATATCTGGGTTTTAAGAGCTCTCTCTTAAACTGCTTTAATCTTGTTT
ATCTGTGAGATGTCTGGTAATGTTAGCAGAATATATTGACAGTTCTTTATAGTTGCAAAGGAATTTTTGGTTAAGTTGACTTATTCATTAGGCAGTTTAC
CCTTGTCTTAATATTTTGGATAAGTGAGAGTTTATTCTAGTGGAATGTTTCAAATTCTTTTTTGACAAGTGTTTTTAGTTGTCTTTTATTTTGAGTTGCA
ATCTTAAATGTACCAAGATATTATGCTACGGTATAATTACTCTATATTATTATTATTATCCTAAATCTTCATTGTCTACAGAAGAAAACAATGATTTAAA
AATGAATCCAACCAATCCAGTATAGACCAATCGTATATAGATGCTACAATCTAAATGAAATATAAGCAAATGAAATATATCCATGTATCAAAGGTTAATA
TGCCATGATCTTGCATGATTTACTTCAAGATTATAAGAATGGTTTAATATCAGGAAGTCTGTTCACATAATTTATTATATTAACACATGAAGCAGAAAAA
AAAATCCTAGATGCTGAAAGGGCATGTTCTCCCTAACAGAAACTTTTAAGTCAGCTAGAAATGGAAGTTTATGATGAAAACCATTTATTAAAAACACACA
AAAAACAAAGGCAAAACAATAAGAAACATCATTTAAGCCATATATGTTAAGATAAAGAATATTGCAGAGAAGTTCACCATTGATGTTGTACATTGTTTTG
GGATTTTAGGAAATGCAATAAGAAAATGAAATAATTGAATGTAAATATTGGGAAAAGTATAAAATTATCTCTTTGTGCGAATGATATGATTGTACACCTA
GAAAACCCTAGTAAAAAACTACTAGGATTAATAAGAGAATTTAGTAAGATAACTAAATACAAGATAAATATACAAAAGTGAATGGCCATTCTCTGCCATA
AAAATAGCCTGTTAGAATGGAAATGGGGAAAAATGTGTACCTTTATGACAGCAACATAAATTATAAAACACTAAGGAAGAGATTTAATAACAAAGATATA
AGAAGAAATTATATTATTGAAAGATGAAAGCAAAATCTGAACAAATCCATGCATTCAGCAAACATTCGTTAAATGCCTTCTGTGTGTCAGACACTGTTCT
AGAGGCTGGGAACATCTAACAGGACATACAGAGTCCTGCTTTCATGGTGCTCACATACTTCTGGAAGAGTCAAACAGTAAAGAAATACATAAATAATAAT
ATCTGCTAGAGCTTAGTGCTACAAAAATGAAATGATAGAATGAATGACATTACTCTGAATGGTCAGGAAAAGACTCTGAAGAGATGATATTTAAGCTCAG
ACGGGTAATAGCTAGCCACATGAAAATCTGATGGAAAACTCTCCAAGGCACAGTTAGTCCAAAGCTTCCAAGGTGGGAATGAACTCAGGAGGAGCAAAAA
GGAAGGCTGTAAAACTGCTTTAATCAAGAGTATGCTATTGGCATAGAAATAGAAAAATAGATCTGTGGAACAGAATAGAATGCTCAGATGATCTAGTGTA
CAGATTTTATTAAATAGTGCTTTCACAACTGTATCTTACTGGAAGAAAATAATGTTGGACTCAGCATGCTAAATGCAAAAATAAATTTTACTTAAATGAA
AATTTAAAATTTTAGAAGAAAAATGTAGGAGTATGTATATGTAAATAATGGGATGGGGAGATCTTTTACTATGATAGGATACCTAGAAGGTGTATAGTTG
TCCTCAGTATCCAGTGGTAGGGGGATTGGTTCCAAGACCCCCAAGGATACCAAAATTTGAGGACGCTCAAGTCCCTTATACAAACTGTGTGTTATTTGTA
TCTAACCTTCACATAGACTCTAACATACTTTAAGTCATCACTAGATTACTTATAACATCTAATACAGTATAAATGCTCTGTAAATAGTTGTACTGTATTT
TTTAATTTGTATTTTTTATTATATTGCTATTTTTAGTTTTTAAAATTTAACATTTTAATTTTTTTCAGAGACAGAGTCTCACTCTGTTGCCCAGGCCAGA
GTGCAGTGGTGCCATCATAGCTCACTGTAACCTTGAACTCCTGGGCTCAAGGGATCCTCCCACCTCAGCTTCCTGAGTAGCTAGGACTACTGGTGTGTGC
CACTGTGCCTGGCATATTTTTGTTTTGTTTTGTTTTGCTTTTTCAAGAGGCAAGGCCTTTGCACCTGGCGTTTAACAAATTTTTCAATTATATATATTTT
TAGAGACGGAGGTCTTGCTATGTTGTCTGGGCTGGACTCAAACTCCTGGACTTCTGCCTCTGCCTCTTGAGTAGCTAGCTGGGACTACATCAGCTGCAGG
TGATATGTGTCCATCACCACACCTTGCAATAAATAAATAAATAATTTTACTTAATGAAGAAAATGTATATATAAATTTTTTGATGGGGTGTTGCCCAGGC
TGGAGTGTAGTGGCGCAATCTCAGCTCACTGCAACCTCTACCTCCTGGGTTCAAGTGATTCTCCTGTCTCAGCCTCCCGAGTAGCTGAGATTAAAGGTGC
CTGCCACTGTGCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTTAAGTCATCCACCC
ACTCTGCCTCCCAAAGTGCTGGGATTACTTGCATGAGCCAGTGTGCCCGGCCTAAAAAATATTTTCAGTGTGCAGTTGATTGAATGTGCAGATGCAGAAC
CCATTGATATGGAGGGCTGAGTGTCTGAAATAAGCATATTTAAACTAAAGCATAGTGAAAATAAAAAATTTTATATGGTAAGATATAAATAATATCAAAA
GAAAAATAGTAGATTGGGAAAAATAACATCTTTCAAATGCATATATCAGACGTAAAGGGTTATTATCTATAATTAAAACTCTTATAAATTGATGTATTGG
ATGAAAATAGAAAAACTGGCAAAATATTTAATAGGCAATTTAGAAAAGAATAAATCCCAAATGGTTAGTAAACATACACAAATTTCATAATCTCTTTAGG
GTCAAGGACATGCAAATTAAAGTAACCATCAGATACTACATTTCACCCATCCCATTGAAAATTATTGAAAATTATTTTTTAAGTGATAATACCTAGTGTT
TGAAGGGGTGTATGCACAGGATAATACCTAGTGTTCGAAGGGGTGAACACACCTGGGTTCCTAGTGGAAAATACGAATTTTTGTAGTGATTTTGGAAAAA
CGATTCTTAACAATATATTTTAAGATTAAAATATATCACTCATTTTTTAATTTAACAAACATTCCTAGGCATACAGCTCATAGAAATAAGCACCAATACT
TAGGAAACATGTATAAGGATGAACATTACAGCATTATTTGAAGTGGCAAAAACTGGGAACAAAATGTGAATGTTCTTGAATGGGGGAACTGTTACGTAAC
CATCCATATCATAGACTATAATTTAAGCATTTAAAAGAATGTGTTGGCTGGGCATGGTGGCTCATGCCTATAAATACCCAGAACTTTGGGAGGCCGAGCG
GGGAGATCTTTTGAGCCCAAGGGTTCGAGACCAGCCTGGGCAACGTAAGTAAAATTTGTCTACAAATAGTCTACAAAATAAAAAAAATTAGCTGAGCATG
GTGGTGCATGCCTGTAGTCCCAGCTATGTGGAAGGATCACTTGAGGCTGGGAGGTTGAGCCTGCAGTGAGTCATGATCATGCCACTGCACTTCACCCTGG
GCTACAGAGCAAGACCCTGTCTCAAAAATAAAATAACGTGTTAGATCTTGCTAACTGACTTAAAGGGACTTTCTTGATATATTGTTAAGGGAGAAGAGTA
ATATACAGAGAGATGTCTATAATATACTATTTTGGTAAAATAATGTTGAAAAACTTAAACTTCTCCCTATACCTATATAGGAAATAGAAATGTATGTGTA
TTTGTATATGAGTATAGAAAAAGGCCTAGAAGAAGACATAGAAGGTTGTTAATTGAAGTAGAAGTAGAGGCAAGATGAAAAAATATTTTTAAAATGTGTC
CACAGTAAAATAACTACATGTAATATTATTCCTTTTAACAAAAATATGTATCTTTGTATGAATTTTAAAAAGARTGAAAAAAAYGATCATCAACATTTTA
ATGGTTATTTTAGAGTGATGATATTTCAAGTTATTCCTTATRTTTTTCATTGTCATTTGAACTTTTTACAATGATTAGGGTAGGAAAAAGCAAGCTACTT
TTATCATGAAAATTAAGAAAGCTAAATGGTAGTACTTTTTTCCCCTTCATTTTGCAGTTGTGCTATATTGACTCCCAAACTGATGGTGGAATCCCTTCTT
ACTGTTTTGCTTTAATGGTGATGTTTTTTCTACAACAGAGAAAACCCCCTCTTCTTCCTTGCTTACTTGGAAGTTGGGTAAGCATGAATTTGTGACATAT
ATATGCATATATATATATAGTTTGCTCTTGCAGAGAACTCTGCTCAAACATTTTAAGCTGGAATTCTGGTTTGTCTGTTTGTCCATCTTTTTTTTTTTTT
TTAAATAATTTTTCCACTACCAATTTGGAATGCCTTTTTATATAGATTGAAGGCTTTGACCCAAAAAGAATGGATGACTTTCAGCTGAAGGGCATAGTAG
AAGAGAAGTTTGTGAAGTGGGAATGTAATTCAAGTAGTGCAACTGAGAAAAACTCAATTGCTGAGGAAAACAAAGCTAAGGCAGACCAACCAAAAGATGA
TACCAAGAAGACAGAAACAGACAACCAAAGTAATGCCATGAAGGAAAAACATGGCAAAGTAAGCCTTTTTGTTTTTGTTTTTTGGCTTTTCTATCTGTAG
AATTTGTRATATTCTTCGATTGAAGCTATTTTAATTGTAGATTGACTGACCTTGAGCAAGCCTCTTGGCCTCATTTTCCTCATCTATAAAGTGAGGGGTT
GATCTGGTTTAGTTTTTCAGTACCAAGATTCTCTAATGAATTTATGCCTTATTTTGGAAAACTTGTGTTGTTTGAATCATGTCAAGATAAATCTGTCATT
TTTCATCTAGACAAGGAAAATTTCCTTTAAGAGTTGGGCTCTGACCAGACTTCAGCATATGGGAATTTTGTTGCCAATTGGGTGGAGAAATAAAGCCCCT
GTGCTCTAAGAGAGGGTAGCTTTGCTTATTTGATCATTCAGCATTCATTTTTAAGGACCTGCTATGTGCCAGGCATTATCTTGAGTGCTAGAGAACCAAA
GGTACATGGATTATGTCCTTCAGAAGCTTGTAGTCTTCTAAATGGACAGATGCATTATTACAGAAATCTGAACATTTCTGAAATCATTGCTCTAGCTATA
TTGAATTATTTGTAGTTTCCTGATATACTTGACTATTGTATTCAACTCTTCCACTTTCCTGTACTACTGTATACTCTCTCCTCAAACCACTAATACTCTC
AGCCAATGCTTGCTTATTACTTCACTGGGAACTTGCCATGTTCTTATCTAAAGTCATTTTCTTCACTTGCGTATTCAGTCTCATCCTTTCTTGTCTTTTC
CAGAATATCACTCTAGCAATTATTCCCTCATAAATTGCCAATTTTTCATTCCCTACAAAATCAAACATGCTCTTACTTCTCCCACTGTAAGAAAAATCTG
ACATCACTTCCCCTCCCAGCTATTCCTTTGCTCCCTTTTGCAGCGAAACTTCTTAAAGAAATGTCTGTATTTACTATTTTTGATTTCTCTGTTTCCCCTT
AACTCACACTAATCAGGCTTTGATGTCACCCCATCAGTTTGCCAAAACTTGTATCATCAATGTCAGTAACCTCCACATTACTAAATCCCGTGGTCATTTC
TCAGTTTCTGTTGTTTTTGATTTATTAGCAACACTTGCCAGTTAATTACTTCCCTCTCTGAAAATTTTATTCACTTGACTTTCAGGACACCAGACCCGTG
TCTGGTTATTCCTTCTCAGTTTCCTTTGCTGGTTTCTTTTTTCCTCTGTAATCTCTTAAAGTTGAAGTGCTGTAGTTCACGATCCCTTTTTTCTTGTGTA
TGTACATTCCCTTGGTAATCCCATCTAATCCTGTGGATTTTAAGTACTGTCTGTATGATGATCACTCTCAAATTCAAATCTCCAGCCAGACCTCTCTCCT
GACCACCATAATTGTATAACCAACTGCCCATTTATTGTCTCTACTTAGATATCTAATAGTCTTTTTTTTTTTTTTTTTTTTTTCCTGAGACGGAGTCTCG
CTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGTTCACTGAAACCTCTGCCTCCCAGGTTCACACCATTCTCCTGCCTCAGCCTCCCAAGTAGC
TGGGACTACAGGTGCCCGGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGA
TCTCGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCTCCGCGCCCGGCCGTCTAATAGATGTCTTAAACTTAATGTGTCTA
AACTGAATTCCTGATCCTCCCCTCAAACTTGCTCCACACTTAGTTTTTTCATCTTAATTGTTTGCACTGCATCCTTTCAGTTGCTCAATTAACTGAAAGG
ATGTTCCTTTCGGTTAACCTTGGAGTCATCCTTTACTTCTCTTTCATACCCTATATCAAGTCTTGTCAGGAAATCCTGTCATCTCTACTTCAACATGTAT
CCAGAATTTGATTACCTCTCACTACCTCCACTGTTACCTTCCTGGTCCTAGCCACCATCATCTCTGGCCTGGGATACTACTATAGCCTCCTAACAGGTTT
CCCTGTGTCTACCCTTTCCTCTTATGGTCTGTTCTTAAAAATCAGAACAGTTCTTCTAAAACTTAAGCCAGATCATGCCCTTCCCTCTCGCCACACTCAA
ATGCTTCAGTTGTTCCTCATTTCATTTAGATAACAAGCCAAACAGCCCTTCCTGGCTCTTTGCTTTCTTTCCTCTTCTACTCTTCCTCTCACTCTATCTT
GGTTTGCTTTTTAAAACTGGTCTCATTCTTTGTGTGTTTGCCCTGTTTCCCATTCCTGTAGCACCCTTCCCTCTTCTTAAACCGTACCTTCTCAATAATT
CTTATCCTGACTACTCTATTGAACACTGTAACCTTCTCCTGCTTCCACACTCCCATCCTTTTTAGCGTACTCAACTCTTTTTTTTTCTGTAGTACTTATC
TTTTAAGTTACTATGTAATTTACTTACTAAAGATGTTTGTTGTCTTTCCATAGAAAGTAAGATCCATGAAGGCAAGATCTTTGGGGTTTTTTCCCTCAAA
GATGTATCCCGAGTGCCTGGAACACTGCCTTGCACAAAGTAGGCACTCAATGAATAGTTGTAAAATGGAATGTGAGAATGATTGTTTCATTGTGTTTATG
CTGCCTAGTGGTTACTTTTAGCCAGGTTTCATCTAGCTAATTCTTTGGAATTCAGGTGTTACCTCTTCTGTTATGATTCCCCTGATTAGAGGCCCATCTT
AGCATGTAGCCCTTACTATAATTGTTAAATTGTCTCTCCCCTCCTAATAGTCTATGAAGTAGGACCTTATTTAGGTGGCAGTATAGTATAGGGATTCACC
GCATGGACCCAGTGGCCAGGTGGTCTTGAGTCAAATCCTTGACCTATAGTATCCACTTCATGGAATAGTTAGAATTGTTAATATATGTGCCGCTTTTAGA
AGAGTGAATGGTACATGGTAAACCTTATGTATAAGTGTGAGCTTTCTTTATTTTATGATATTCCTAACAATGTCAGGGACATAGGAGGTTCTAAAGAAAT
GTTTGCTGAATGAAGGAATTAGTTTTTTTGAAAGCCAGGGCATTTACTTATATTTTAAAATTAATTATTGGAAAAACGAGTTGTAGTAGTTATGCAGTGG
TTTGCAGCTTTGGCTGCACATGAAAATTACTTAAGGGAGCTTTAAAAATACCATTGCCTAGGCTGATAGCCTAGTCAGTTATCAGAATCTTGGGAGGGGT
GTAGAAGGTGGGGTTGGTGTGGAATTCAGGTATTGGTGTATTTTACTGCTCTCCACATGATTCTAATGTGCAGCCAAGGTTGAGAATCACTGGTTCAGTG
GAAAGAATGCAGAATTCCTAGGAGTCAGTAAACTGGGACTTTGTTCCCAGCTTTGCTTCAAACTGACTGCTTTTTGGCAAATTACTCCTTCATGTCTCAG
TTTTTGAAAACGTGATCTCCAAGGTCTTCTCTAACTGAAAATTTGTTGATTTTTATGGTTTTGTTAAGCTTAAATGAAAAGTATTTTTTCTTTTCCAGTC
TCCTTTAGCATTGGAAACACCAAATCGGGTATCCTTGGGACAGTTATGGTTAGAGCTGCTTAAATTCTACACACTGGATTTTGCTTTGGAGGAATATGTC
ATATGTGTACGGATACAAGATATTTTAACAAGAGAAAATAAAAACTGGCCTAAAAGGCGAATAGCCATTGAAGGTGAGATGATATGTTGTATTTCATTTG
GAGAATATTTTTTATGTGCTACTCATTATCTAATTCAGTGTTAATAATCCTTTGGCTTTGTGGCACTATATATATATGTCACTAGATTGTCATTCTTTAT
TTTTAATTTTTTTAGAGACAGGGTCTTKCCCTGTTGCCCAGGCAGAAGTGCAGTGATAGGATCATGGCTTACTGCAACCTCAAACTCATGGGTTCAAGGG
ATCCTCAGCTTCCTGAGTAGCTAGGACTATAGGCTTGTGCTACCATGCCCAGCTAATTTTTTTTATTTTTTGTAGAGATGGGGGTCTCACTGTGTTGCTC
AGGCTGGTCTGGAACTCTTGGCCCCAAGTGATCCTCCTGCATTGGTCTCCCAAAGTGCTCGGATTATAGGCATGAGCCACCGTGCATGGCCTTCATTATT
TATTTAGATTCTTTGTCAAGTCTATTATAGTTTTATAGAATTAGTATTTATTTAAAGATTTCTGCCATATATGGTTAAGGTCAGTAATTAGCATTTTTTA
AATGTTGAAAATTTTATTTTTTAATTATGCAAACTTGCAGAAATACAGAAAAATATGTTATGAATAATATAAGATCTTTTTGAATAAATTTGTGTCATAA
GATTATGAGAAAGTTTTCATTGTCTTTTAAAGTACCTCACCTAATAAATGTGGCTTCGCTAAAGGAGAAAAATAAAAACTGATGTTGACAAAGTTTCACA
TCAGATCCCAAGACCATTAAGATCTTTGGAGATACAGAAAACAATAGAGTGGCTCCTCAATTCTTAATCAAAAATTTAAATTTCACAGCATGTCACTTAC
CTTTTGTAGATAAGAAATTGAATTTATGTCCGTTTTAGTCTGTTCAGCCTACATATTATTCCATTCCCTCACACCTGCTGGCCTTCTCTACTGTGAGTTC
AACCCAGAAATATTCTGAAATATACATGCAAACATTTATACACATCTTGTACTCTTATATATAGTAAATAAATGAGCTCTGAAGCCTGCCAGCCATAATT
TATCTCTTTTTTTTTCTTTCTTTTCCCCCCCTCTTTCATTTTCTTTGGGAAGTGAGGAAGAAAGTAGAAAAATCTTTTTAAAGCCTGTGGATTTAGATAG
CAGCAAAAAGTAACAGATGCCCCAACTTTAACAGTTTGAAGCCTGGCCTGTTAATACCAAAAGATCTTCAGTAGTGGAGAGCATATGTATTGTCTTTTTG
GTGCACTGTTCTTTTTTCCTGGGGGTTATCTATATTTAAGGCTTACAGATATTTTCAGAAATCTGTCATGTTATTAATAATAAGGATGCAGCTGTGTCAA
GACTTTACAGGGTAGTTATTTTTGACTGGATCAAAGTTTAAATATTGGTTTAATTTTTACTTTTTTAGGTTTCTTGCTTTTTTGCTCTTTCTTCCTACTA
CTGTCTTTTACTTTTTAATCTCACTAAAGTTAAATCTTAAAATCAGTTTTTTTTCAAGTTGAAGCCTTGAGAGTTTTAAGTTTGTTTTACTTGTTTATAT
TGCAAAGAGCATATAACTATATTAAAAAACACTGTGACCCGGGTGCAGTGCCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAAGCAGGCGGATCAC
CTGAGGTCAGAAGTTCAAGACCAGCCTGGCCAACATGGTGAAACTCCATCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCGTGTACCTGTAGT
CCCAGCTACTCCGGAGGCTGAGTCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCATAGCACTGTACTCCAGCTTGGGGGAC
AGAGCAAGACTCCATCTCAAAAGAAAAAAAAAAACTCCTTTTTCCACAATTTCATCATTGAAACTAATTACTTAGTTGGCCTTCTCAGCCATCCCATTAT
TAGTGACCTTATTATTAGTCTTGTTTATTTTTCCTTTTAGCTTTTTATTTTATGAGAGAAAGAAAAAAATGTTGCAATTGTATTTCCTCCCATTTTCAGG
AACTTTCACTGGGAGTCTAGCTTAGAAAAACCCCTTGGGAAAATGTATTCTCCTGACAGTTTATCAGTTAAGATCTACTTGTATGAGCTTGGAAATGTAG
TTTGTTAGTAGAGACTTAGCTATTTACCATTTTCTCTTTTGCTAGATCCATTTTCAGTCAAGAGGAATGTTGCACGGAGCTTAAACAGCCAGCTGGTTTA
CGAATATGTTGTGGAGAGATTTAGGGCAGCTTATCGGTATTTTGCCTGTCCTCAGACGAAGGGTGGAAATAAGTCTACAGTGGATTTCAAGAAAAGAGAG
AAGGGGAAAATAAGCAATAAGAAACCAGTCAAGTCGAACAATATGGCAACCAATGGTTGTATTCTGCTTGGGGAAACCACAGAAAAAATAAATGCAGAAA
GAGAGCAACCTGTTCAATGTGATGAAATGGACTGTACATCACAGAGATGTATTATTGACAACAACAATTTGTTGGTAAATGAACTAGATTTTGCTGACCA
CGGACAGGACTCTTCATCTCTTTCTACCAGCAAAAGCAGTGAAATAGAGCCAAAATTAGATAAGAAACAAGATGATTTAGCGCCTTCAGAAACTTGTTTA
AAAAAAGAGCTCAGCCAATGTAATTGCATTGATTTGTCTAAGTCGCCTGACCCAGATAAATCTACTGGAACAGACTGCAGGTCAAATTTAGAAACAGAGA
GTTCACATCAGAGTGTGTGCACCGACACATCTGCTACCTCTTGCAACTGCAAAGCTACAGAAGATGCTTCTGACCTTAATGATGATGATAACCTCCCCAC
CCAGGAATTATATTATGTGTTTGATAAGTTTATTTTAACCTCTGGCAAGGTAGGATACAGTTTGTAAATGATCTGTAAGATTTTGTGGTTGTTGTATGAC
TATGTATATTTTTTAGATTAGAAATGTAAAAATAGCTATATAAAGTGGTGACTTGTTTTGGAATGATATTTTGGTATGTATTTTACCTTTTGTGTTTTTC
ATATAGTTGCCTTTAAATAATGTATATAAAGCCTCAAAAGGTTTCAGCATTCTATTACCAGTTGRTTTCCTTTACTTTCTCATATATGAAAGGATTCATC
TGATATTTCATGAAAATCTTAGCAAAGGTAGCATGCATTTTAAATGTTGCTTATTTTGTATTTTTTTCCCCAACAAAAGCCACATTCAAGCTTATTTTTA
TACATAAAATTTTTCTTCCCCCCCCAAAATAAAAGGTTTGTAAATTCTAATAGTATTCTACTTTAAAGATATTTTTAGAGGGGGGAAATATAAGCATACT
AAAGGTAGTTGAGGGAAACTAAGATTAATAGTCAAAAAAATGAAGAATCCAGATTCTGTTTCTGCTACTGAGCCTCTGGATTTCGGCTTATCCTATATGA
ATTACAGGAATCCAAACTTTTCTACTTTTTCTTTTCAAGTAAGATAGTATGAACTTATTACTACTATTATTTTGAGACAAGGTCTGGCTCTGTTGCCCAG
GCTGAAGTGCAGTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCCGGGCTCAAGCCATTCTCCCACCTCAGCCTCCTGAGTAGCTGGGACAACAGGC
GCATGCCACCATGTCTGGCTAATTTTTGTATTTTTTTGTAGAGATGGGATTTCGCCATGTTGCCCAGGCTGGTCTCGAACTTGTGAGCTCAAGTGATCCG
CCTGCTTTGGCCTCCCAAAGTGCTGGGATTATAGATGTGAGCTACTGCACCTGGCCAGATAGTCTGAACTTTAACTCATAAAGGAAATCATTTAAAATCA
TAGGAAAAAACCCATTGAACAGGAAGTAAGCGATAACTGCTTTGTGAATAAAACAAAGTTTTAACCGAATCACAGTACTTCAAGTGCATTCCAGATAATT
GCAATATCATTATTAGTATCCATGTGAAAAAATGATTATACAGATCATGCATAAGCCAAGTAGAATATTAAAAAAAAACAAAAGGAAAGTCATCTAGCCT
TATCCAGGCTTATTGTTTTATCGTAGTTATTGACAAGCTTTAAGATGTTTAACCTAATTATTAAATAGTATTGCCTGTTTTTTAAAAATCTGCTTTATTA
AGGTATGGCTAGCATTTAAAAAGCTATAGATATTTAATGTCTACAACTGGATGTGTTTGAACTTAAGTATATATATTATTATCACTGTCAATGCCACAAA
CCTATCCATCCATCAGCTCCAAAAGTACCCTCCTCTTCTTTTCCTTTTGTTGTTAGAGAACTTAAGAGGTACCTTATTAGCAAATTTAAGAATATAATAC
AGTATTATTAATCTGTACAGATCTCCAGAACTACTTTGTACAGATCTCCAGAACTTATTTATTTTGCACAAATGAAACTTTGTACCCTTTGACCAACACC
TCCCCATTTTCCCCTCCCAATAAGCAGTATTTCTTCATTCTATGTAAATATACATCTGTTGCATTTTATCTAGGTTGCAGTATTTAAGGCACATGCACTA
TTGAAAGCATCAAATAAATGGCAGGTTTTTAGAAAACTTAATTATATAACTTCAGTTTACATGTCTTATGCTTTATACTTTTTTTCCTGGAAACTTAGGG
TAAGTACTGTTGTTCCAGTTTTCATTTTTACTATTTAAAGAGTTTCCTGCCTAAATATGTCATTTTTTAAAAAAAGCTTTGAAAAGGTGATAGAGATTCT
TGTAGTACTGTTAATTAGCCCACAGTGCATCATTCTTACAAAGAGAGATTTCCTTATATAATTTGTATCAGAATTTATGGCTATATAAATGTCCAGGCTA
ACATTGGAGAAAGACACTTTAGGATGTAGGCATATTACAATAAAGAAAAGAGTATTGGTGTTTTTTAAACATATGTGTTTCTTTCTTTGAGTTGGCATAA
ATTTTTGTGTTTTAACCACTTGTTTGGTGTCCATTGAAATACATTTAAAATGGTTATATAGGGTTTGGAGTTCATTTTGTGGCTATTGGATAAGTTACTC
TTCGTATGAAGCTAATTTATTTTTAGTGTTCAGTCTGCAGTTTGGTCTCTTGAGCAACTAATTTAGTAAATTAGTTTAATAATTTATTAAATATTAAATA
ATTTAATAATAAATTAGTTTAATTAATTTATTAATTTAATAAACCAACTAAGTGAGGGTTCTGTGATTGATTCAGAAAATAGAAAATGTTTGGAGTGAAA
TGAAAGGTGCACCTTAAAATTTCTTTATAACCTATTTTGTTAGATCTCAGTAAGTTAAAAATAAATGCATATATTTTCCTTTGGGAGCTGTTTGAATGAA
CTCATACTTTCTGCATCTCCTGGCATTTTCTGTATCTTCCATTTTCAGGTTAATTTAATCCTTGATATAATTTTAGTGGGGAAGAAAAAGTGGTTGACTC
AAAAAACTTTTTTGTAGCTAATACTGCATTTTAACAACATGTTTTTTTTTTTAATTACCTCCTGAAAGCACAGGTTATCAAAACTGAGTTACATAAAAGA
TTTGTTTTGAATTCACTTCCTAAGTGATGAAGTCCCTCAAARGTTTATTAGATTAGATTTCTTTTTATYTTTGTGTAGCCACCAACGATAGTATGCAGCA
TCTGCAAAAAGGATGGCCATTCAAAGAATGATTGCCCAGAGGATTTTAGGAAAATTGATTTAAAACCTCTACCACCAATGACAAACCGATTTCGGGAAAT
ACTTGATTTAGTATGTAAAAGATGTTTTGGTAAGTCTTTCATTACTACAACTATTGGGACTAGATTCCTTCTTAGATATTAAATATTAATTTTCTGATTT
AAAAACAGTTTGTTTACGTTTTGTTTTGCTAGAGGTTTTTGAATAGATACCCAAGCACAGATATTTACTAAATGACTATTATGTGCAGGGCATCATGGTA
AATGCCAAGGGGAATTGAGAGTCCATATATATTGCTTTTAAGGAGCTTAAAATATGGATATGAGCTGTCTAACATGGTAGCTTCTAGCCTATGTGGCTTT
TAACTTTAAATCAATTAAAATTAAATTAAAAACCAAGTTCTTCAGTTTTATACTAGACATATCTCAAGTACTCAGTAGCTACATGTGGCTAGTGGCTGCT
GCATTGGACAGCATTGTTGATAGAGAACATTTTCATCACTGCAGCGTTCTTGGATAACACTATAGATGAGTTAATATGGCATTTATGTAAATTGCCATAA
TTGGAAATAGAATGTGTTACATGCTATAGTAGTGGTAAACAAAACGCAGTGTAAACACAATTTTATCTGGGGTGGATTAGAGGAATCAGGATTAATGATG
TGATATTTGAGATGAACCTTGAGCTGCATTTTTAAACGTCAAAGATTATGCATAAAAGCATAGAGTGGCCGGGCGCAGTGGCCCACGCCTGTAATCCCAG
CATTTTGGGAGGCCGAGGTGGGCCGATCATGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTGCTAAAAATACAGAAATTA
GCTGGGCATGGTGGCCGGTGCCTGTAGTCCCAGTTACTCGGGAGTYTGAGGCAGGAGAATCGCTTGGACCTGGGAGGTGGAGGTTGTGGTGAGCCAAGAT
TATGCCACTGCACTCCAGCCCGGGCAACAGAGTGAGACTCCGTCTTAAAAAAAAAAAAAAAAAAAAAAAAAAGCATAGAGTGCATAATTTGTTTGGGGGA
ATAATTGCCTTTGATTTGGTAGGGTATAAGAAAGGCAATAGAGAGAGATAAGCCTATAAACATATTTTGGGGAACGGCTTGCATGCCTTTATTCAGCAAA
CGTTTACAGAGTACCTGGGAGTCACCTTTACTCAGCAAACATTTATGAATTACTTCCAGTGTCCAGGTAAGATAAAATTTCTGGTCATAACATTTAGTGC
TTCATTGTAATCGCTCCCTTCTTCCCCATTTCTGCCTCCCACCAGGCAACTACTTTTCTGCTTTTGTCACTATAGATAGTTTGCATTTTCTAGAGTTCTG
TATAAGTGGAATTATACAGAATGTATTCTTTTTTTGTCTGGCTTTTTTCACTCAGTATAATTACTTTGAGATTCATTTATGTTGTTGTGTATCGGTGGTT
AATTTCTTCTTGTATCTGAGTAGTGTTCCATTGTATGGTTATACCACAATTTGTTTATCCATTCACCTGTTGATAAATATTTGTCTCATTTCAAAATTTT
GGCTGGGTGGGTCTGGGTATGGACATATGCTTTTATTTATCTTGACTAAATACTTAGAATGGCTGGGTCATGGCACGTGTTTTTTAGCAGCTTTATTAAG
ATACAATTTACATTTATTTTTACTTAGTAATTTATTTACCTCAATGTGGGCTCATAGATATTTGATGCCTTGGGTTATAATTGAATATAATTTTCTTTTG
TTCAGATTATTCTAGCTTTGGCCATTGGGAACTCTTTTACTTGACTACCTGGTCCCTTTTATATATATCCATCAGTGTGTGGTTTTTTTTGTTTGTTTGG
GTTTTAACACTTCCATACTTTCTGGCACTACAAGATGCTCCTGGCACTGCATGTATATTTTGTGCCCTACTCCTAGAATTAGGCATTTGTCCAAGGAGCT
GTGGTTCCTTTTATTGGAGAATGAGATTAGAAACCAAGACCTGAACACTAGATGTGCTTGCTGTTACTGGGCTGTCACTGCTTTGAGGCCATCTCAGAGC
AACAAAATATGTGTGTATATACTAACCTATGTATATAAACTTACTATAAAGATTTCTATATGTAGCCGTCTTTTTTTTTTTTTTTTTTTGGAGACTGAGT
CTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCCATCTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCCAGCCATTTCTCCTGCCTCAGCCTCCCGA
GTAGCTGGGACTACAGGCTCGTGCCATCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTC
CTGACCTTGTGATCCACCCTCCTCAGCCTCCCAAAGTGCTGGGCTTACAGGTGTGAGCCACGGCGCACAGSCTGTATGTAGCCATCTTATCTGTATTAAA
CCAAACATGATTTCATAATGGTATATCCAACTCGAACTCATTACCACATGGCTCGTTTTAGCCCCCACTCCAACAGTGAGAAACCTGGTTCCCACCATCT
ATTATTCATTTTTTAAATTGTTCCATTTTAGTACATATGTATAGCAGTATCAGAACTGTTAACCAATACCCCTGTGGGAAACAACTTTATTAACTAGAGT
ACCGTGCTTATGTATGGTTTCTTTTGCCCTTAGTCTTATCGATTCCACTCATTTTCAAATTTACTTAGGTCAGCACCTTTCCCCCCACTCCCTCATGTGA
AGTTGTTTCATACATTTATAATATAGTTAGATTATTTTGTCACAGTCTACATTACATCCTGAGATCCCCTGACCTCCTAGATGATTTTTTTAAAATTGCA
TACATTAAGGCTCACTCTTTGTGCTGCAAAGTTCTGTGGGTTTTGACAAGTGCATTGTGTCATGTATCCACCATTAGAGTGTCATACAGAATAGTTTCAC
TGCCCTAAAACAAGTTAACGAATTACATTAATTTTWTTTAACTCCCCTTCTTCTGTAAGCACTGATAACTGCATTTGTTTTTAAAAAGCTGAATATTAGT
TTAATTCATTATAACAAATTCTTAATAAATTACTGCTTTGTTTCTGTTACTGTGTTAACTTTTGGGGATAAGTCTGGAAGAGATAGGGAAAAAAAGACTT
TGTTCTTAAGAAATATATGGACTTATTTGGAAAAATAAGATGAATATAAATGAAATAACTAGAAAACCAAAAGGACAAAATAAATTAGGTACCAGACTGT
GGCACACAGTTTGAAGAACTAAAGAAGTGTGGAACTAAGGAGAGATCATTGAAGGCTGTGGTTAGGCAAAACAGTTTATAGGGAAGATAGAAATTTTGAC
CAGGCATTTGAGGGAACTGTTAAATTTGAGTGGGCCAGATGCCTAGTATAGCAACATGAATACAGATCTTAACAAATGGGAAAATAAGCATGGATATGGG
GGAGAGTGAAGAAGTAAATAGGTTTGTAGATATACGGAAAATGATCATGTGAAATGTACATATATCTTAAAAATTATTTTTCTGTTTCATTTATTTTCGT
TTCTTCCCCTGGGTTGCTAAAACAGAAAAACAGTTTTTTTCCTTCTATCTCCCAGACCCTTCCCCAGTAACATTTATGGTTTTAAAGTCAGAGAAGTCAA
CAAATAATGAACAAACTGTAAGTAAAATTTTTAGGGTAAAAACTTGAAGATGTTTTCAGATTCTGTTTTCCTTACTTTTCTTTTTCCTTTTTTCTTCTTT
TTATAAACCCAGATGAGTTATCACCACCTTGTTCTGAACAACACAACAGGGAGCAAATTTTAATTGGCTTGGAAAAGTTTATTCAAAAAGAATATGATGG
TATGTCATAGGTTAAAAAATTTATTGCGTTTTTGCTGTAGTCATGTAGTCTTGAGTTTCATTTATTTAAAAATATTTATTGAATGCTATGTGTTAAGTAC
TGTTCTAGTTGCTGGGAATACAGTGCTAATAAAAGAGATGAAACCTCATGAAGCTTATGTTTCAAATGGGGAGACAAATAGTTGACTAATAAATATATAA
TATTATATCAGCAAATAATACATGCTGTTAAAAGTATAGGAGATAAAAGAACTGAAGTGATGGAGTGTTATGATAGGCCTCTCTCATAAGGTAGCATTTG
AGGAGAATCCTGAATAACATGAAGGAGCAAGTTATATAAATATCCAAGGAGAAAACATTGTTGATGGAACAAGAATAGATTATGTTTGGCATATTTGAGG
AATAGCCAGGAAGTCAGTGTGGCTGGAGTGGAGTATTAGAGGTAGATTGTAATGTATAGAAGAGGTCAGAGAGGGGGTCTAGGGATTAAGTCATTAGTGC
CTTATGGATGTTGGTAGAAAGCCTTTGAATTTTATTTTGAGTACCTAATGAGAATCTTTTAGAGGATTTTTAGTTAATAAATGACATGATCTGAGTGAAT
GGTTTGCTGGGCTATAAGACTGGAAGCAAGCAGAACATTTAGGAGGCTGTTGTGTGAGTCCAGAGTAGATGAGAAGTGGTCAGATTTGGGATATATTTTG
AAGGTAGAACCAATAGGATTTGCTGATGGAAAATGTGAGGCATGAGAGAAAGAAAGAAATCAAGGATGGTTTCAAGGTTTTTGCTATAACAGTTACAGTA
GGTGGTCCTATATAACTGAGATGGCAAAGAGCAGGAAGAGTAAGTTTTGGGCATGGGGATGAAGAATCAAGATTTTTGTGACTAAATATTTTAGAAAAGG
ATAAAAGTTGACTTTAATCAGAATGAATTTGTACTTTTACAAGATGACCCATTATGTGCTACATATTACAATTAAAAGTATTTGAAAACAAATATTTTTT
AAATTAAAAAATCATATCATCATTATTGTTTTTTAGAGACAGGTTCTCACTCTGTTGCCCAGACTGGAGTGCAGTGGCATGATCATAGCTCACTGCAGCC
TCAAACTTCCGGGCTCAAGCAATCCTCCTGCCTTAGCCTCCCAAGTCGTTAGGACTACAGGTGTGTGCCACCATGCTTAGCTAATTTATTTTTTATTAAG
AAATATTTTTTTTGGCCAGGTGCGGTGGCTTACACCTATAATCCCAGCACTTTGGGAGGCTGAGGAAGGTGGATCACCTGAGGTCAGGAGTTCGAGACGA
GTCTGGCCAATATGGCAAAACCCGTCTCTACTAAAAGTACAAGAATTTGCTGGGTGTGGTGGCACACGCCTGTAGTCCCAGCTACTCAGGCTGAGGCAGG
AGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGGTCATGCCTTTGCACTCCAGCCTGGGCGACAAGAGCGAAACTCTGTCTCAAAAAWAT
ATATATATATATATATATATTTTTTTTTTTTTTTGAAATAGGATATTACTCTGTCACCCGGGCTCAACTGCAGTGGTGCAATCATGTGATCAGGGTTCAC
TTCAGCCTTGACCTCTGAGGCTCAAGCGATCCTCCTACCTTAGTCTCCTGAGTAGCTGGGACCACAGGTGCGCGCCACCACACCCAGCACATTATTTTTT
GTAGAGATGGAGTCTCACCATGTTTTCCAAGCAGGTCTCAAACTCCTGAACTCAAGTGATCCACCCACCTCAGCTTCCCAGAATTCTAGGATTACAGGCA
TGAGCCACCGCACCTCGCCTTCTTTTTTATCTTAAAAAATTTTTGTAAAGACAAAGTCTCACCATGTTGCCCAGCCTGGTCTCAAACGATCCTCCCACAT
TGGTTGGCTTCCTGAAGCGCTGGGATTATAGGAGTATATAAAGTATTGACCAAATCTAAGTCTCTATTATATAAAATCATGCTCAGTTTTATTTGCTGAT
GAGTATAGCTTCTTTTTTGCCTCTCAGCTATCATTGAAATTTCAAGTAGAGCATCAGAACTGGATGGGGGTATGAAGTTTTGAAAGTATAAAGTGTCCTA
TAAATGTGTAGTCTACTTTAGAATTAATAGGAAGAGCCAGGCCCAGTGGCACACACCTGTTATCTCAGCCACTTGGGAGGTTGAGGTGGGAGTATTGCTT
GAGGCAAGGAGTTCAAGACTGTAGTGTATAATGATTGTGCCTGTGAATAGCCAGTGCACTCTAGCCTGGGCAATATAGCAAGACCCTGTCTCTAAAAAAA
AAAAAGTAATAGGAAGAAAAATCCAATTCTGTTAAACCACAGCTTATTTGAAATGGTAGCTGTTATTGGATGACACTGAGTCTGAAGGGTTAACCCTATC
ATAATTTATATCAAGTGGACTATAATCACTCATTTTTGGAAGAGCATCGTATACTAAGGTGATATTTGTAAACCTACATGAATTGTGCTTTGAAAGAACT
AATTTATTTTTAAGAGGGCAGTCCTCAAATATTGATCTTAACTATTGGTAGTGATGTTGAGAATGTATAAAAGCAGATGGATTTATTATGTAAGTCGGAA
AAAGCTAAAAGTCTCAATGATTGTTTGGATGTGGACATTGAGAGACAGATATTAAGGATTGCACCTGTRTTTCTGATGTGGGCATCTGTGTACATGATGG
TACTATTTGCTAAGAACAGGGATAATAGAAATAGTAATAGATTTGGGGCAAAGTTGATAGTTCAGACGTGTTGAATGTATGATGTCTGTGGAAAATTGGA
AAAAGCAGTTGGGTACATGGGTATGGGAACTTGGGCAAAAGCTTGGGCTCAAGATGTTTTGGAATTTCTCAGTATTTCTTCCAGTGGTAGGTAATTTAAA
TCATAGAAATGGACAAGAGCATGTTGTATTAGGTCATCAGCAGATAGCAGAAGACTCCTCCTCTCTGCTTATAATAAGGCCTTGGACTTTGTTTTCCTTT
GCTTAGAAAAGGCAAGGTTGTGCTTATTTGGCTCTTCTAAGAATGGATTTGGATTTCGTGATAGTGATCTGGATATTTGTATGACCCTGGAAGGCCATGA
AAATGCAGAGGTAAGAGTGTTTGGAAAGCGTTATGTAAGTTTATTTTCTCCCAATGACGATTCTATGTTTATTTTTGTATGTGATATTGATAAAAATGTG
GTATCACTCTTTGTATAAATATATTAGCAAAATAAGTGTTTGAAATATGAAAACAGTAGCATTTTCAGTTTAGAAGACATTGAACTCTTAAGTAAAAGTG
TTTCAGTAATTTTATGATACAAAAACCATGTCACTGAGAGTTACAGTGATTTGTAATGAATTTTGGGAAAAAATATATCACGAAGTTGGAATTTTTTCAC
TAGAACCAATGGGAAGCTGATGCATCAGTTTTGTAGTGAACATTGATCTTTCATACTTTGTCTTCTCATATCTCTTTCATTAGATGATGTCTTTGTGTTA
CTATAGGTAGTAAATATAGGTGGTCATCTAATTTATAATTGGTTTTGTTCTAAAAGTTAGTTATAATTTTTGACCACTCACATAAAATTTTTTCCATAGA
AGCAATGTTACAGATGATATGCTAAGGGCTGGGCGTGGTAGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCATGAGGTCAAGA
GATCAAGACACTCCTGGCCAACATGGTGAAACCCCGTCTCTACGAAAAATAAAAAAAATTAGCTGGGCATGGTGGCACGCGCCTGTAGTCCCAGCTACTC
AGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGGTCACGCCACTGCACTCCAGCCTGGTGACAGAGTGAGACTC
CGTCTCAGAAAATTAAAAAAAAAATAAATAAATAAAATGCTAAGATAGCTTTTAGAAACTCATTTTGGGCGGGGAGGAGAACTAACATTTATTGAGTTCC
CAGTATACACTTTTACATACATTATCTCATTTCATTCTTACAACCACCTTCGAGGTAGGTATTATTTCCCCCATTTTACAGATGAGGAAACTGAGGCTTT
GAAAGATAAACTGACTTGTCCAAGTTCACACAGCTAGTAATTGTTGGAGCCGGGATTCGTAACCCAGGTCTGTCTGACTCCAGAGTTCATGCTCTTTCCA
TTGTATCTCACTGCCTCTCTGTAATTTTTTTAACCCATAATGTWGCTGAAATATAGTACTAATAGTACTGTAGAACCTAACCACTGCTTTCTGAAACTGA
TAGCTTTCTGAGTTCCACCGTGAGATGCCAGGAGCAGACCTTCCCCAAGTGCAATTTCAGCAGTAAGAGTGGGTACTTACGCTTTCCTTTTTTGTATACC
AGGCCTTAATAGTGGGAAGGAGATTGTCCAAGCTCCAGGGAAGAAAAAGACTGATTGGACAGGGAAGAAGTGTCCCAGGCCTTCTCAACAGCAACTAGCA
AAGGAGGGTATCYTTGTAGATGTTCAGTCCTTTACCAGCCTAGCTATTGTTATTTATGTTTCAAAATGCGGGACTGTTTGCAAGATTGGGGTGAGGCCCA
GCTTCTGGCATCTGTAGTGGTGTCAGTATCGCCTCTGTTACATTATAAAAGAATTCAGCAGAATAGTGTGCTTTTCTAAAATCATTCTTTTGAACGGTGG
TTTTGAAATTGTTAGACCCGGAGTAAAGATGGCAGTGATGACTTAACTTCTGGCCATAAGAAGTTGCTTCTGGTGTCTTAACATCTTGTTTTATAAAGAA
ACTGAAAAGTTGCAAGTATTTTATTTGTTCTCCTTTACTTAAATTCTGCTTAGAGCCACCTACTTGGAAAGTGGCTGCCCTTCTCCATTCTGAAGAGTAA
GAATTGAGGGAATAGGAAATGATTTTTATACCCAGGAAAGAGGTTAGAGTTTTAGATATCTTCTATGTAAAATTTATTAAACTTCTAATCACTAAGGGTT
TGTATATTATATATAATCTGTGCCATTCCTACTGGGAAGTTGAAACAATGAAAATAATAAATCATTTTCTTTCAGATGAGCCATAATTGAAACTTTTAAG
ATTAGCATAATTGTATCGTTGAATAATAAAGAGAAAAATTACCTCCTTTGTTAATTTTATCATATGTGAATTAGTAACTAATGGTTTCTTTGAAATCCTT
TGGTTTAGCTGCAATGGCTCCTGCTCTCATGTAGCTAAAAAGAACATGTTGGAAAAATGCAAATGACTTTATAACTCTTGGGATTGATGTTTATACCCTT
CAGCTATTTCCAGTTAATTTTTAATGCCATAATCATTATGTATTATGATTATCATTACCATACCAACTCTGCTGTCTCTGGTTTTTACAAGAGTAACACA
TTTAAATTTACAGAGGTAAGAATTTCCTTGGAGAAATAGGTGCTGGTGATAATAGGAGTATCTTTCTTTTCCATATCAACATAATTATAATAAATAACTC
ACAGATTTAAAGGCTTATTTTGTGCCAGGCATTCTGCTGAGTGCTTTACATACATGTCTCATGTAATCCTCCCAACAGCTCTGCAGGACAGGAGTTTATG
ATTATCTTGATTTTATAGAATAGTAATGTAATGCTCAGAGAGGTTAAACATCTGGTTAGTCACACAGCTAATCAATACTTAGTTTAAGATTTGAGACTGG
GTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGTGAACACGGTGAAAC
CTGGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCACGGTGGCGGGTGCCTGTAGTCCCAGCAACTCGGGAGGCTGAGACRGGAGAATGGCATGAACC
CGGGAGGCAGAGCTTGCAGTGAGCCGAGATAGCACCACTGCACTCCGGCCTGGGCGAAAGAGCAAGACTCCGTCTCAAAAAAAGAAAAAAAAAAAAAAAA
AAAAGATTTGAATCCAGGTTTGTCTCAATTTGGAGCCTATGTACTTAATCAGTATATTGTTTTGCCCTCACCAAACTCACCTCTAGTTGTTTATTCACTT
ATTGAAAACCATATTCTTCTCCTGTCTTTGTGCTTCTCAAACTTTAATCTGCATGTGAATTACCTTGGGATCCTGTTAAAATGCAGATTATGATTTAGTA
GACTGGGGAGGGTCCTCAGATTCTGCATTTCTATCAAGTTTCCAGATTATGCTGATACTGTAGGTCTATGAATCACTTACTTGGAGTAGCAAGGTTATTA
TAGAGCTTTATGGCTGGAAATTGTAAATGCTACTATTAAATGCTTAGATTAAAGTAGAATTTGCACAAGGTGAAATTGAGTCAAACTTATTTATTTGATT
TGTTTTTTAGAAATTAAATTGTAAGGAAATAATTGAAAATTTGGCAAAAATTCTTAAGAGACATCCAGGTATGAATTTTRAATCTTATCTGTAAAACAAA
ATAAATTTTTTTAGCATATATGAAAATTATTTAACCTACTGAAGTCTTTTTTTTTTAAATTAGGTTTAAGAAACATTTTGCCTATAACTACTGCCAAAGT
GCCTATAGTAAAATTTGAACACAGGCGAAGTGGGTTAGAAGGCGATATCAGTTTATATAATACGTTGGTAAGTTTATCTTTATAGGCCATGTATATACTT
TTCATTTTAAAAGTTTACAGATTACTGACTCTATGTTTAAAACTTTCAAATGTGAACAGTATAAGGAAAAAGTATTTTACTAGTTATCTTGATAGTTCCT
TCAGATTGAAGGTCAGTTTTTGTTTGACTCATTAATAGGTGTTTTACATTTTACATTTATATATTTTGTATTTGGAGTGTATTTTACTTTTAAATCTGAT
TTGTAGTTTAATTTTACGAAATTTGAAATCCTTTCAAATATGTAATTATTTTTCAGGCTCAACATAACACAAGAATGCTAGCTACTTATGCAGCTATTGA
TCCTAGAGTGCAGTATTTGGGATATACTATGAAAGTGTTTGCTAAGGTATTTATGAAAAAATTAATGATCTGCTTTGTTCATGATAATTAAAATGAAACA
TAACTAATGTCAGATTTGTGAAAAATTTTGTCTCAGTTTTGTTTATCTGAGCTTTTAAAAAAGAAACTTTCAGTATTATATAGCTTGAATAGATACCTAT
CAGAGTAGGGTGGCTCTGTCTTTTTTTCCTGTATGTATTCTATTCCCATGTGCAACTGACTAGTCAGTTTCTCAGCAGTAACATTTCTCAATGCAGTGAT
TTYAGCCCCAGGCATGGGAGTTGGCATATCATCCTAGTTAAGAATTTCTGAGTTAAGAAATCTTATATTTGAGTTTAGTGATAAGTTTTTCTGACCCAGA
AAACAAAACAATACCAATAATACCTTACGCTTCTCCTATTATAACACTTGTTATGACATTGAATTTAGTTTTCTCATTCTTTTGCTAATTGTGTAAACTA
GGTGAGAACAGGAACCTCTGTTTCTCTAGTTCATTGTAGTGCCTGCTTTGTGGTAGCTGCTCAGTGGAATGATTAATTTTATTAATGTGTTAGTGGAAGA
GTTTTAGTAGGGGAGAAAGTTGGTCAGATTTTCATTTCATAAAGCTTCCTCTTTCTAATAGGAAGGCTATTGTTGTTGTTGTTGTTGTTCCTGTTGTTGA
GATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGGGATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTTAAGCGATTCTCCTGCCTCAGC
CTCCCAAGTAGCTGGGATTACAGGCATTCACCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGCCTC
AAACTCCTGACCTCAAGTGATCCTCCAGCCTCGGCCTCCCAAAGTGCTGGGATTATTGTGCCTGACTGGAAATCATATTTTTAAAGATATTCCTGTACAT
GTCTTTCTAGACAAGAGTGTATCTTAGAAAAGCATAGAGGCACATACTACATACAAGACTTGATATGCCTACTTTTCTAGATTCACCTAACAAGGTAACT
CTAACATGACAGTTTTGTTATAACTACATAGAATTCTGTTAATTAAATCACCCCTTTTCCCTTTAAATATAGATATAAGCTAAATCCTTGCTCAAGGGAA
GAAGTCTCTGAAGATTCTTTCAGGTTTCATTCCTCCTCCCTCTCCTCTCCCCCCTCCCCTATATTTTTTTAATTTTTATTTTAATTTCATGTTTTTTTGA
GATGGCGTCTTTCTCTGTCACCCAGGCTGGCGTGCAGTGGCACAATCTCGGCTCACTGCAACCTCCACCTCCTAGATTCAAGCAGTTTTCCCTGCCTCAG
CCTCCAGAGTAGCTGGGATTACAGGTGCCTGCTACCACGCCTGGCTAATTTTTGTATTTTTGGCAGAGACGGGGTTTTGCCATGTTGGCCAGGCTGGTCT
TGAACTCCTGACCTCCTCCGCCCGCCTCGGCCTCCCAAAGTGCTGTGATTAGAGGCGTGAGCCACCACCCCCAGCCTTTATTTTTATTTTTGAGGCAGGA
TTCCACTCTGTTGCCCAGGCTGGAGTAAAGTGGTGTGATTACAGCTCACTGCAGCCTTGACCTCCTGGGCTCAATTGATCCTCCTACCTCAGCCTCTTGA
GTAGCCAGGACTACAGGCGTGTGCCACCATGCCCAACTATTTTTTGTATTTCTTGTAGAGATGGGGTTTCGCCATGTTGCCCAGACTGGTCTTGAACTCT
TGGGCTCAAGCAATCCACCCTCCTCAGCCTTTCGAAGTGCTGAGATGACAGGCATGAGCCACCATGTCTGGCTTCCTTGTTCTTTTTTTTTTTTGAGACG
GAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCTATCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCC
CGAGTAGCTGGGACTACAGGCGCCCGCCACCACACCCGGCTAACTTTTTTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCCCTTGTTCTTTGTTT
TTTATTTATTAAAAAAGATGTTTATCCTAACCACGAGACCATCAGGGGACTTCGTTCTTTTTTTAATGGTTGCATACCATTCCATTATGTGAATAGTCGT
TAATTATTTTAAACCTGCGCCTGCACTTTATTGATGAACCTAAAACTATTTCTGATTTTTTGCTATTAAAATAGTGCTGCAATTAAAAAAACCTTCTTAG
TCATTTCACATATGTTTTGGCATGTTTGCAGGGTACATTCTTAGAATAGGATTGCTGGTTCAAAGAAAATGTGCTTTTGTAATTGTGATATTGTCAAATA
TTCTTCATAGTGTTTGTATTAATTTATACTCTCACCTGCAGTGTGTGAGAGTACCTGTTTCCCCACGTCATGTATAGTAGTTTTTTGTTTGTTTGTTTGT
TTGTAAGATGGGGTCTCACTGCATTACCCAGGCTGGTCTTGACTTCCTGGGCTGAAGCTTTTCTTTCACCTCAACCTCCCAGAGTGTTGGGATTATAGAC
GGTGCAGTTTGTTTTTAACTCAGTTTAACCCAGTTCTGTGGGTTAAAAAAAATGATGTGGCAGAATGTTTAATATACTTCTGCATGGAGTAAGACTCTGA
AGTTTTGTTTTCAATCATGTTGTTTTTTAGCGATGTGACATTGGGGATGCTTCCAGGGGAAGTTTATCTTCATATGCATATATCCTTATGGTGCTGTACT
TTCTGCAGCAGAGAAAGCCACCTGTTATCCCAGTTCTACAAGAGGTAGGTGTTTAAGAAAACTATAAAGGAGTTTTTTTTKAAAACAATAGATCTAAACA
CAGGAGATTTTGCTTGGTTCATGTCATCATGAAGGATTTTTCCATCATGGTTGTCCTAAGTTTTCTCTTTCCATTAATGCTATAATTAAACAATGAATAT
TTTTGAAAAATTTATTATGGGAGAATATAGACTACCAAAAGAATATTAGATGAATAGAACCATTGAATATCTTTTGTAATGTTTTTAAATTTTACAGTCT
TAGAGTGCTGTGGATGATTGTGAAGTTCTTGTAGCCAGCCATGAACTCATATATTTTATAGTCTCCAAGATGCAAGTACATAAGTTTCTTCTTTCTAGAA
TATTTTCCCTCCTGTTGCCTGGCAATGAAGATTGATTTATTCTTATGTATACTTTGGTCAACCTTGTGAATTTTGGTTTAGAATGAACCCAGGGAAACTC
TTCCTTATCTCTTCTGAAGTCATATTAATTACATTAAACATAAGAATGTACATTGAAAGAAACAGATTATACTCATTCACTCAGAATTGGTGACTTATAA
AGTTCCTTTTTGTAGTCAATTTATACTCTCTGAAATTGGTACAAAGGAGATATTAATCATCCATCTGTTCCGCCTGATTCTTGGCACAAAGTAGATTTGT
AGGCGTTAGGGAGGATCCAATTCAAATTTTTTAGAATGGTGACTATTTTTATTTAGGAGACAAGCATCAGACTTGGTTGGAAAAGTCACATATTCTGGTT
TCACATAATCTTTGATAGTTATGGCAAAGAAGAAAATCACAAAATAGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCG
GGCAGATCACGAGGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATATAAAAATTAGCCGGGCGTGGTGGTGCGTG
CCTGTAATCCCAGCTACTCGGGAGACTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAACTGAGATCTCACCACTGCACTCCAGCC
TGGTGACAGAGAGGGAGAGTCCATCTCAAAAAAAAAAAGAAAAGAAAAAAAAGAAAAATCACAAAATTATAAGCCATATAGTAGGTGTCAGATAGCCTTA
GTAAGTTTTAAGAAGTTCTAATGAATATATATGGTTTTACCAGCGTTTCCTTCCCTGTTTTAAACAATGGATGGGAATCCTTTCCTAGCCAAAGATTTAA
GTTGCTGAATCTGTGTTGGGTGATGTATGTTTGGGTGTGTGTTTAAAGTATTTTTTCAGAGCAGTTTTAAGTTCACAGCAAAATTGAGAGGACTGTAAAG
AGTTTCCAACATACCTCCTGTACCCACACATGCATAGCCTCCCCCATTATTAACCCCACCAGAGTGGTACATTTTTTACAACTGATGAACCTACATTGAC
ATATAATCACCCGAAGTCCATAGTTTGCAATTAACATTTATTCTTGATGTTGTATATTCTAAGGGTTTGGACAATATATAATGATGTACACATTTTATCA
TAATCAATGATACATCAATATATGCCATTACAGTATCATACAGTTTTCAGTGCCTTAAAAATTTTTGTACTTTGCCTAGTCATCCTCCCCTCAACCCCTG
GCAACCACTAATCTTTGTGCTGTTGTCTTCATAGTTTTGACTTTTCCAGAATATCATATTGTTGGAATCATATAGTATGTAGCCTTTTCAGATTGACTTC
CATCACTCAGTGATATGTGTTTAAATTTCCTCCATGTCTTTTCATGGCTTGATAGCTCATTTCTTTTTCTTTTTCTTTCTTTTTTTTTTTTAATTTTTAA
ATGTTCAGACTTTTTTGTTGAACCTCTAAATCTATTTTATCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACACAGTCTCGCTCTGTTGCCCAGGCTGG
AGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCTCCGGGGTTCAAGCGATTAAAGCAATTCTCTTGCCTAAGCCTCCTGAGTAGCTGGGATTAC
AGGTGTGCACCACCACGCCCTGCTGGTTTTTGTATTTTTAGTAGAGTGGGGTTTTACCATGTTGGCCAGGCTGGTCTCTAATGTCTGACCTCAGGTGATC
CACCCGCCCCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCTGGCCTATCATTTCTTTTTAGTGCTCAGTAATACTCCATTGTTGGGA
TGTACCACAGTTTATTCATTCACATATGGAAAAATATCTGTTTTACTTCCAAGTTTTGGCTATTAAGAATAAAGCTGTTACAGACATCTGTGTGCAAGTT
TTTGTATGGACATAGTTTTCAGGTCTTTTGGGTGAATACGAAGGAGTCACATTGCTGAATCATATGTACGAGTATGTTTAGTTTTGTAAGAAATGGCCAG
CTGTTTTCCAAAGTGGCTGTACCAGTTTGCATTTCTACCAGCAATGTGTGAGAGTTCCTGTTGCTCCACATCCACCCAGCATTTGAGTACTTGTCCATGT
TCTGGATTTTGGCCATTCTTTTAGGTGTGTAGTAGTCTTTCTTTCTTTCCTTTAGGTGTATAATCATCTGTCTGTCTGTCCATCCATCCTCCCTTCCTCC
TTCCCTCTCCCCCCCTCCCCTGCCCTCCCCTCCCTTCCTCTCCCCCGTCTTTTTTTTTTTTTTTTTTTTTTTAAAGGTAGCGTCTCACTCCTGTTGCTGC
CCGGGCTGGACTGTGCAATCATGGCTCCCTGCAGCCTCAACTTCCCAGGCTAAGGTGATTCTCCCACCTCAGCCTCCTGAATAGCTGGGACTACGGGTGC
ACACCACCAAGCCCAGCTAATTTTTTATATATTTAGTAGAGATGGGGTTTTGCCATGTTGCTCAGGCTGGTCTCGAACTCCTGGGCTCAAGCCCACCTCG
GCCTCTCAAAGTGTTGAGATTACTTTTAATGGCAAAACCGCAATTACTTTTGCTTCAATCTAATATTTTGTTTTATTTATCTATTTATTTATTTTTGAGA
GAGGGTCTTGCTCTGTTGTCCACGCTAGATTACAGTGGCACAATCTCCACTCACTGCAACCTCCACTTCCTGAGCTCAAGTGATCCTCCTAAGTAAGCCT
CCCAAGTAGCTGGGATTACAGACATGAGCCACCATGTCTGGCTAGTTTTTGTATGTTTTATAGAGATTGGGTTTCTCCATGTTGCCCAGGTTGGTCTCGA
GCTCTGGGCTCAAGTAATTTGCCTGCCTTGGCCTCCCAAAGTGAGTGCTGGGATTACAAGTGTGAGCCACCTCACCTGGCCACTGTTGTTTTAATTTGCA
TCTCCCTGATGACATTATGCGGAAATCTTTTCATATGCTTATTTTGCCATTCATATGTCTTCTTTGGTGAGGTTCTTTGGTCCATTTTTTTAAACAGGTT
ATTTTCTTACTGTTGAGTTTAAGGAGTTCTTTGTGTATTTTGAATAATAGTCCTTTATCAGATGTGTGTTTTGCAACTATGTTCTCCATGTCTGTGGCTT
GTTTTTTCATTCCCTTGACGTTGTCTTTTGCAGAGCAGAAAATTTTAATTTTAGTAAAGTCCATCTTGTCAATTATTTCTTTCATAGCTCTTGCCTTTGG
TGTTGTGTCTAAAAAGATATCACTATACTCAAGGTCATACAGATTTTCTCTTGTGTTTTCTTCCAGGAGTTTTATTTTACATTTAGGCCTGTGAGCCATT
TAGAGTTAATTTTTGTGAACGGTATAAGGTCTATGCCTAGATTCATTGTTTTGCGTGTGGATGTTCATTTGTTTCAATACCATTTGTTGAAAAGAATATT
ATTTCTCCACTGTATTGTCTTTGCTCCTTTGTCAAGGATCAGTTGACTATATTTATGTACTATATTTATATACTTTTGGGCCCTCCACTGTTGCATTGAT
TTATTTATTATTTCACCAATGCCATACTCTCTTATTTATAGTAGTGTTATAATAACTCTTGAGGTTGGGTTGCATCAGTCTTGCAGCTTTGTTCTTCTCC
TTCAATATTGTGTTAGCTATTCTGAGTCTTTTGCCTCTCTATGTAAACTTTAGAATCAGTTTGTCTATRTCCACAAAATGACTTGCTAGAATTTTGATTG
GGATTGAATTGAATCTGGAGACCAAGTAGGGAAGAACTGACATCTTGACAATTTTGAGTCTTCCTGTCAATTATAATGGAATATCTCTCCATTTATTTAG
TTCTTTGATTTTGCTCATCAGAGTTTTGTAGTTTTCCTCATGTAGCCCTTGCACATATTTTGTTAGACTTACACCTATGTATTTCATTTTTTGGTGCTGA
TGTAAATGGTATTGTATTTCTAATTTCAAATTCCACTTGTTCATTGCATGTATCTGGGAAAGTGTTTGAATTTTTTATATTAATCTTGTGTCTTGTAAAC
TTGCTGTAATTGCTTATTCTTGGAGTATTGTTTCAATTTGGATTTTATGCATGGATTATCATGTCATATGTGAACAGTTTTATTTCTTCTCAMCCTGTAT
ACCTTTTATTTCCTTTTCTTGTTTCATTGCATTAGCTAGAACTTCCAGTGTCAGCATTACCTAAGACTTCCCAGATGTTGAAAAGGAGTGGTGAAAGAGA
ACATCCTTGTATTATTCCTGATTTTACAAGGGAAAGCATTGAGTTTTTCACCATTTGAGTATGATGTTAGCTGTAGGATTTTTGTAGATTTGTTTAACAA
GCTGAGGAAATTTTCCTCCATTCTTAGTTTATAGAGTTTTTTTTTTTTTTAATCATGAATGTGTGTTGGATTTTGTCAAATGCTTTTTCTGCATCTATTG
ATCGTGACTTTTCTTCTTTAGCCTGTTGATGTGATGGGTTACTAAGGAGAAAACACACACTCAAACCCAAAATGCTTTTTATTTCTTTTTTTTTTTTGAG
ACGGAGTTTCGCTCTTGTCACCCATGCTGGAGTGCAGTGTTGCAATCTCTGCTTACTCCAGCCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGC
CTCCCCAGTAGGTGGGATTACAAGTGCCCACCACCATGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCACGCAGGCTAGTCTCGAA
CTCCTTATGTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCCTGAGCCCCCACGCCCAGCCCCCAAAATGTTTTTTCTATTCTC
TTACTCAACAACAATAATCACAGAAGACTTCTGTGACCAAATGTGTTGGGGGGGTTTTCCCCATATACCAAGCAAGCAACCACTTCTGCGTTGAACACCA
TGGTGTCCTCCAATTCAATTCTGGCACCATCTGTAGTATCAGATTCCACTGGTTGACGGCTCAGTCCCACAAGACTATCCCCAGTTTAGACACCAGTTGC
AAGTCTAGGCCCTCCAGAACTTCTGACTGACCAGCTTAAAGTTTGGGTTCCTATGACGACCTCTTTGGGTTTGATTAATTTGCTAGAATGGCTCACAGAA
CTCAACCATTTACTTAGGCTTACTGGTTTATTATAAGGGATATTACAAAGGATATAAATGAAGAAATACATAAAACAAGGTATGGGAGAAGGGATGAGGA
GTTTTCATGCCCTATCAGGGCATACCACCATCTAGGAACCTCCATGTGTTCAGCTATCAAGAAGCTATTTGGACCGAGACCTTTGGGTTTTTATGGAGGC
TTCATTACATATGCAAGATTGATTAAGCCAMGCTGTTCGCCATTGGTGATCAACTTAACCTTTAGCCCTTCTCCGCTCCCCAAAGGTTGGGGTATAGGGC
TGAAAGTCCCAACCCTGTAATCATGCCTTGGTCTTTCTGGTGACCAACCCCCATTTTAAAGATACCTAGGGGCTGTCAGCCAGTAGTCAACTTGCTTGCA
TACAAAAAGACTTCTCTTTGGAGATTCCAAGGATGTTACGAGTTGTATGTCAGGAAATGGGTTTGGAGGCCAATTATAACATCACAATTACATCAGTTGA
GTTTGAGATGTTGAACCTGCTTTGTATAACTCTCTTTTGTACATTATTGGATTTGATTTGCTAATATTTTGTTGAGGAATTTTGCATCATTGTTCATGAG
AGATTGGTCTGTAGTTTTCTTTACTTACAATGTCTTTGTCTGGTTTTGGTATTAGGGTAATGCTGGCCTTGTAGAATGAGTTAGGAAGTGTTCCTTCTGC
TTCTGTCTTCGAAAGATGAGGCAGAAGGAACACTTCCTAACTCATTCTTCGAGAATTGGTTTAATTTCTTCCTTAAATGTTTGGTAGAATTCATCAGTGT
ACCCATCTAGGCCTAGTGCTTTCTTTTTTGGATGGTTATTAATTATTGATTCAGTTTATTTAATAGATATAGGCCCATTCAGATTTTCTGTTTCTTCTTG
TGTGAGTTTTGGCATATTGTGTCTTTTTTTTTTTTTTGAGATGGAATCTCACTCTGTTGCCCAGGCTGGAGTACAGTGGCGTGATCTCGGCTCACTGCAA
TCTCCGCCTCCTGGGTTCAAGCAATTCTCCTTCCTCAGCCTCTGGAGTACCTGGGATTACAGGTGCCCGCCACCATACCCGGCTCATTTTTGTATTTTTA
GTAGAGACAGCGTTTCACCAATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGC
GTGAGCCACCGCCCCTGGCTGGTATATTGTGTCTTTTAAGGAATTAGTTCATTTCATCTAGGTTATCAAAATTGTAGTTCATAGTGTTATTATTCTTTTA
ATGTCCATGAGATATGTATTGATATCCCCTCTTTCATTTCTGTTGTTAGTAATTTATATACCTTCTCTTCTTAATTAGCCTGGCTAGGAGTGATTTGTTT
TTTAACAAATTTGTTCACTGGATGATATTTAAAATTTACCATAAATTAATTAGGCCTGCCAAGGCCAGCATTACTCTCTGTATTCTTATTCTTATTCTTA
TTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCACATCCCAGGTTCACGCC
ATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTAAAGGCGCCCACCACCATGTCAGGCTTATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGT
GTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGACCCGCCCACCTGGGCCTCCCAGAGTGCTGGGATTACAGGCGTGTGCCACCGCGCCCAGCCTACT
CTCTGTATTATTATAATCGTTGTTTAGGCTTTAAATAGGGATCATATGTACTAATTCTCCAGTAATATCATTTGCCACTTTGCCGGAATACTATGATTAA
CAAAAATGGACCACAAATTTGATTTTCTTGGTGGTTTGTCTGTATTCTCTCCTTACCCATGGATTAGGAGTCACTGAGGTAGCATGAAGTAATAGAAATA
CCAAGGCATGGTATTTAGAGCCAGAAATAACTAGTCAGAATCCTAATTCTAACATTTTGGCCTTAACAATCTGCATAAGTCTGAGTTTCATCATCATTAA
AAATGTAATAATGATAATATTTCAGTGTTGATATGAGGAACAGAAACATTTAATGCTTTTGAATGTAGTAGGTGCTAAAGTAGACATTCATAAACAGTGC
TTGCTTTTATTATTATTTTTACTATTATGATTTATGCTCATTAGCAGCATTATTGCTATTATTATTGGAAAAATGTAGGTAGGACTACCATATTCAACTT
TAAAAACTCTTTCATTATCTGTTTAACAGACATCTGCTTAATATTGATCAAACAAGAGACAGTTCATGGAATGTTTCCTATCATAATGAGGTTTGATTTC
GGGGGACTTTGTGATATATATAGACTGATGATACATGGAATTTTGTTTCTGGCCTTTTTTAATGGTTGTCATATGGGACCTCATTGTCCATTGCTCTGGC
ATCATTTAAGTATTGACCATTGGCATCAATTATCTTTTAAGGGTAAGGATATGTTTAAAGAAGCTAATGATGTCTGCCTCCATTTGTAATTAAGCTTTAA
CTTTATATGGCTGGGTATTACTAAGGCACAGCTAAGAGCATTTTTTTGATGGTCAGCAGTACTAAGTTCTTTACGTCAAAAAGAGCTGTCCTAGGCAGAA
GATTTTTGCTCTACCCTAGCAAATCATAATAAGTAAAAGCAAATTTTCACATAAAAATTAATTCCAAAAAAGATTTGGGAGTGTTCACACATGATTTTAT
GAAAAATTTTTTTAACCCATATCAGCTTAAAATTTGCAACTTAATGAATGAATCTTGAGGACATTATGCTAAGTGAAGTAATCCAGTCACAGAAAGACAA
ATACTATTTGATTCTACTTATATGAAGTACCTAGAGTAGTCAAATTCATAGGGACAGAAAGTAGAGTGGTGGTTGCCAGGGAATCTCAAGGAGGGAGAAA
TGGGAAGTAATAGTTTCATAAATACAGAGTTTTAGTTTTACCAGATGATAAGATTTTTGTGAATGGATGGTGGTGATGGTAGCGTGACAGTATGACTATA
CTTAGGCCGCAGGACTGTATGCTTATGATGGTAAATTTTATATTTTGTGTATCTTACCACAACTAAAAAATTACAAGTTAGGCCAGTCGCAGTGGTTTAC
ACCTGTAATCCCAGCACTTTGGGCGGCCGAGGGGGGTAGATTACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGCAAAACCTCATCTCTACT
AAAAAATACAAAAATTAGCCAGGCATGGTGGCATATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCACAAGAATGGCTTGAACTGGCGAGGTGGAGG
TTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTAAACAGAAAAATGCAATGTAAATATAACAGTACATATT
AGAATATCACAATAAGATAAGAATTTTGGAAATGTTTAGGGTCATTCTTTACATAAATATGATTGACTTATTTGGTGATCCTTATAATATGATTGACTTG
TTTAGAGGGAGGACTGAGTGCTAAGTTGAAGATGATTCGTGTTGAATGAGAGAGAACAGAGAGACAGCAGGGAGAGAGAGTGTGTGTGTGTGTGTCTGTG
TGTGTGTGTGTGTAAAAGTGTATAGCATTAGTGCTTCTGGGGGCTGAAACAGAGTGGAGAGAATTAAACACAGTGAAACATGAGAATTCAAAAGAATAGG
CAAAATGAGTGATGATTAACGTTACAAGGCCCACAGACCTACTCCACTGTGTTATCAGCCAACGTAGTTGGGCTGGATCATGGATATTACTGAGAAGTAT
GAAATCTCTTAAAAACAATCATGATCTAAAGAGTTGGATTGTTGTTACTCAGAAGTATGAATTATCTCAAAACAGGGTTCTAAAGAGGTAGTTTATTTCA
ATATCTAGCAAATAAATCTGTGTTTACAAAACATGAAATACCTATAATAGCGTCTGAATCTTTAAGGATAAAATATTACATGTCAGCCCCTTAATATCTT
CACTTCTTTCTTGAGGTCAGAAATCCTATGTCTTTTGTTTCAGATATTAATAGCTGCAATTGCCTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAA
TCTCGCTTAGTCACCCAGTCTGGAGTGTAGKGGCACAATCTCAGCTCATTGCAACCTCAATCTCCTGAGTTCAAGCGATTCTCCTGCCTCCGCCTCCCAA
GTAGCTGGGACTACCAGCACGAACCACCACGCCCAGCCAATTTTTTGTATTTTTATTAGAGACGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTC
CTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCGGCCTCAGTCTTTCACTTTTGTTTTATGAA
ATGTCGGAATATGTGCTAGATGACTTTTAGTAAACTGTATCTGTTTAAGTAATATGTAAATGTTAAAAAGCAACTTATTAGCCCTAGTCCCTGGAAGCTT
GATTTCTGTGTAACATACTTACATATTAAATATAGTCATTCAACAAACATATATTAAGTGTTCTCTATGTGGCTTTGGTCTAGTAGGGTTCTGGGTTTCA
GAGATAAGCCATAGTCCTTACCCACAAAGAACTTAAATCTGAGGATAAAATTGGAGGGGCCAGACATGTAGTTAATTTTATAAATCACTGTCACATCAAA
AATGGAAATGGCCATTGGGCCCAGGCCCACCTTAACTAGTGGATTTAAATGGTATTGTGGTTTAACTGTATTCTGGGACCCATTAGTCACGGTAGAGGGT
AAAGAGAAGGTGGTGTGGTATGTTTTCTCCATTTATAAACTACTGACTGACTAATTTATATAGTCTTTCCTCATTTTCACTGGGAAAAGTGAGCACTTAG
GGAGATGATTGTCTTGCCCAGAACCACTATTCCTCAGGATAGAGGCTAGAAATTAGGTCTCCTGACTGAATCTGTTGCACCTTCCTACTTTATTGCATCT
CTTAAGCCTCCTTTAGAATAAAAGTATCAATTACTTGTGGAAGTCAGTTACACAGACATCTTACGGGATACTTTTCTTGTAAAAATAGCGTTTTTTTCTC
CTTTTTTCTTCTCCTTAGGACAGCGGATTATTATTCATAATAAAGTTTATAGTCTTTATCAAAATGTAAGGGAAAGCTTCCTAATTTTCCTTTTTTTTTT
TTGTTTTTTTGTTTTTTTGTTTTTTTTTGGTGAGATGGAGTCTCGCCCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTGACTGCAACCTCTG
CTTTCCAGGTTCAAGCATTTCTCCTGCCTCAGCCTCCCGAGTAGATGGGATTACAGGTGCACGCCACCACGCCCAGCTAATTTTTTGTATCTTTAGTAGA
CACTGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCATGATCCACCATTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCA
CCGTGCCTGGCCCTAATTTTCCATTTTTACAAAATGATAGTCCAATTGCTTTTTAGCCTTATCTGATATAGATAAATGATTAAAGGTACTAGGTCCCAAA
ACAGTTCTGTTGCCTTCCTTTGGGTGCACAATCAGTGGGTATTATCTATTTTGTATTTTTATATCTGTGATCCTTTGATGAAACTGCTGTTTCATCATGA
CTGCTGTTTCTTTTTTAAGTTTTGCTTCATTATTCTTGGACTGGATATGTTTTGATAGGTCAAGTAGATAACATCAAATGTATCATTTGGAGTTTAATGC
TCTTAAAAGACATCCTTTTCCAGCTTTGGTCTTTCAGATACGTTTTATTCATTAACTTCTTGGCATCAAATTATACCATCATCCTGACATGTTCTTTTTG
GAAGAAGTATTTTAGTATGTCTTATAGGTAAATTCTAAAATGGTATTAGAGTATTTGGACCTTTGGGTTGGATCACTTGAAATCTAATAATACAATTAAT
TTTTTTATGCAGATCTTTGATGGAAAACAGATTCCACAGAGAATGGTTGATGGATGGAATGCTTTCTTCTTTGATAAAACAGAAGAACTGGTAATTTTAA
AATAGTCTTTATGTTCTAGAATGCTCACTGATATATGTTAGCATCTGTATAATTTAATAATTTTACTTAAATTTGCTGTCCATGTTTTGGATAGTACTGT
ATAGACATTGTTCTTTTCTTTTTTTTTTTATATGTAGAAAAAGCGTTTACCTTCACTTGGAAAGAACACAGAATCATTAGGGGAGCTTYGGCTGGGACTG
CTTCGTTTCTATACTGAAGAGTTTGATTTCAAGGAATATGTAATTAGCATTCGGCAGAAAAAGCTGTTGACAACTTTTGAGAAGCAGTGGACTTCCAAGT
GCATTGCAATTGAAGGTAACATTTAAGCTGATATTAATTCAGGAGCAACCAAAATTTGGTCAACGAAATTGAGGGGAAAACTGAWATACATTAGGATTTG
GAAGATTCTTCCTCTTTTATCAGTTTTCCTCCTTTAATGTGTAATTTTAGAGGAAGAGTTTGCTGATTTGTATAGTCTGAGTACATATAAGTATTAGACT
TCAGCGGTGACTTCTAAGTATATTTTTATGGTACAGTGAATGTAATTCTTAATCATTGATATATTTCTTTTGTAGACCCTTTTGACTTGAATCATAACCT
TGGTGCTGGAGTTTCCAGAAAAAGTAAGTTTTAAATATAGAGATTCTCTGATTTTAAAACTCTGACACATTAATGTCTGCATCTTTATTGTTTTCTTCTT
TCTTTAATAGTGACCAATTTCATCATGAAAGCATTTATCAATGGAAGGAAACTTTTTGGTACCCCTTTTTATCCACTCATTGGCAGAGAAGCTGTAAGTT
TACATTATATGAATTGTGAATCTTTTCTTTTTTTAAMTAGAACAARAAACTTAATTGTGTTTCCAAACTGATGTTAGATATAGGGAAAGAGATGGTCATA
GCTTTGTATATTTTTTCTTATTGCATTTATCATAGTCCATAGTGAGATATATATTTTCAAAATTTTATTTGTTTAAACTATTTGTTAAATTCTGTCTTCT
CCACTAGACTATAAGCCCCACGAAGACAGGATTCATGTCTGTAAGGTTCACCTATTTCCAGTACATACATAGTGTCTGGCGCATTGGATGTACCAAATAA
GGATTTGTTGAGTGAATGAGAATAGTCAGTCAAGACTCTGGATTGTTGAATTTTAGGTGCTGCTCATTGTCCCTCTTTTATCTTCAGAAATCTCGATGAA
AATATACACATAGAAGACAAAACCGAAGAAATATTTTATTATTTGTTGGGGCTTCTCTAATTTTTGTATAGCTTTAGTAAGCTGAATTAGATGGCATGGA
ACCGAGAAGTTTCCTTCTACCTGAATTGGGTGGGAGAGTGTCACACATTCCTCTTGGCCTCACTCTGGTTTTTGCCTGCTTTCTTATGGTTAGGGAGACT
GCAGGAGGTTTTAGCTTCAGAGCAGGAGACTTAGAAGAAATCTCAAGAAAGAGAACAAATGTATTAGGGTTCTCTTAGAGGGACAGAGCTAATAGGATAT
ATATAATCCTATTATATATATACACAGACACACACACACATATATATATACACATATATACATATATATACACACATACATGTATATACATATATATACA
CACATATACATGTATATACATGTATATACACATACATGTATATACATATATATACACATACATGTATATACATATATATATACACACATATATGAGTTTA
TTAAGTATTAATTTACATGATCACAAGGTCCCATAATAGAGTGTCTGCAGCTGAGGGGCAAGGAGAGCCAGTCCAAGTCCCAAAATTGAAGAACTTGGAG
TCCGACATTTGAGGGCTGGAAGCATTCAGCACAGGAGAAAGATGTAGGCTGAGAGGCTAGTCCTGTCTTGCCTTTTCACATTTYTCTGCTTGCCTTATGT
TCACTGGAAGATGATTAAATTATGCACACTAGATTAAGTGCAGATGTGCCTTCCCCAGCCCACTGACTCAAATGTTAATCTCTTTTGGCAAAACCCAACA
GACACACCCAGGATTAATAGTTTGTGTGCTTCAGTCCAATGAAATTGACATTCAGTATTAACCATCACAACAAACGTGCATTTACATTGCATAGTGAATG
TCCTTGAACTTGTTCAGTCCAGTTTCAGGTGTCTTATTTCTTGGGGGTAGAATAAGAAAAGCAGAGAGAAGTCTTCTTTTCCCTTGGAGCACTGGTTCTC
AGATACTTTTATTTTCTAGCCTCTTATGGGGTAATAATAATTAAAATGGAGAAAAATAAAATAATAGTAAAATTTGAAACAATGCAAAAAATGTAAAAAC
GAAATTACTGAAAAAAGGAAAACCAAACAATTTTTTTTTCTTTTTTTGAGACGGAGTCTCGCTCTGTCACCAGGCTGGAGTGCAGTGGCGTGATCTTGGC
ACACTGCAACCTCCGCCTCCTGGATTCAAGCGATCCTCCTGCCTCAGCCGAGAGTAGCAGGGACCACAGGCGCCCGACACCACGCCCAGCTAATTTTTGT
ATTTTTAGTAGAGAGGGGATTTCACCATGTTGACCAGGATGGTCTCAATCTCCTGACCTCATGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTGC
AGGCATGAGCCACCGCATTTGGCCTAATTTGACTAATATTTTAATTGAAATAGAAACAATGAAAAACAGATCAAAACAAATACAATGATACACTGATAAA
GCATTTTACCTGAGAATTGTGAGGAATCCAACTATTTGTGTTTATATATGCATATGTTCAGTAGGAACCTCACAGTGTTGCATGCTGTCAGACCTTTTTG
TTTATTTTTGTTTTTTTGATACAGGGTCTTGCTCTTGTCCCCAGGCTGGAGTGCAGTCGTGCAATCATAGCTCACTGCAGCCTTGGACACCTAGGCTCAA
GTGATCCTCCTCCCTTGGCCTCCTAAAGTGCTGAGATTTCAGGCATCAGCCACCATGCTCAGCCCCATGTAGTGACACTTTTTTTTTTTGAGACGGAGTT
TTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACCACAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCGGCCTCCCAA
GTAGCTGGGATTACAGGCACGCGCCACCACACCTGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGCTGGTCAGGTTGGTGTTGAACT
CCCAATCAGGTGATCCGCCCATCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCAGCCTTTTTTTTTTTAATTTTTTTTTTGAGA
CAGAGTCTCACTCTTGTTTCCCAGGCTGGAGTGCAACGGCACAATCTTGGTGCACTGCAACCTCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCC
TCCCAAGTAGCTGGGATTACAGGCATGTGCCACTACGCCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTGGTCAGGCTGGTTTTGA
ACTCYGGACCTTAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCGCTGTGCCTTTCCGAGACTTTTTAGTAGAATGCTA
AATTAGAGTCCTCGGTAAACTGGAAATGGGCCCATTTTAGTTTATGCATGCAAATTTTTAGTAATTCTTAATAATGCAATATATTATAATTACATATAGA
TGTCAAAATCTTTGGTCTTGAATGTCATTTGGGGCCTAGCAGAAGGGGCCCATGAGTCTGCTAATCATTTTTTGATTTATTTTATTCTCTTTCAAAAGTC
AGTATGTAGTATTCCATAACTTGGATATACTAGTTTATCTAACTTTTCTTTTGATGGACATTTAGGTTATCTTCATTATGTCAGTGTTAACAACTTACAC
AGGTTGAGCACTCCAAATCTGAAGCCTGAAATTTACTGAGCACTGACATGACCCTCAAATGAAATGCTYATRTGGAGCATTTGAGATTTCAGATTTTCTG
GTTTGGGGTGCTCAGCTGGTATAAATGTAATGCAAGTATTCCAAAATCCAAAACACTTCTGATCTCAAGCATTTTGGATAAGGGATTCTCAACCTGTATG
GTCAAAAATGTCCTTGTACATAGTCTTTCATGCTTATACTTCATACCTATTTCACTCCTAGTTACTGAGATTATAACAGCATGCAAGATAGATTTGCCTT
ATTTCCCTAAATTAATGAAAGATAAAGATAAGTATATTTCCTGTCCTTTCATCTTTCTTGTTCTTTCAGTTATTTTTCTACATCATTATGTTCTCCTATA
TATTGACCCATTTTGTCCCTATCCATCAGCTGTCTTCTGTCATTTTTCTTCCCCATTTAACTTACATTTTGTCTGCTCTCTAGCATACACTTTGGCTTTT
TTTTTTTTTTTTGAGGTGGAGTCTCACTCTGTCACCCATGCTGGAGTGCACTGGTGCCATCAAAACTCACTGCAGCCTCCACCACCCAGGTTCAAGTGAT
CGTCCTGCCTTGGCCTCCAGAGTAACTGGGATTACAGGTGCACGCCACCATGCCCAGATAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCACGCTG
GCCAGGCTGGTCACAAACTCCTGACCTCAAATGATTGCCCGCCTCGGCCTCCCAAAATGCTGGGATTACAGGTGTGAGCCACCTCGCCTGGCCATCTGAC
ATATACCTTGAATTGCTTTGTGCCACAGTCCTTCCTGTGCACTCTTCTGTATTGTACCTTATATGAATTCAGGTATCCACCATGTGCCTGTCCTTGGGTA
GCTGTACACTAATGGAAAAAAGTAAAAAAGCTAGACAATTTTAAGTATATAGTACAGTCATAAACGTTTACCAGCCTCAACTGGACTTTCAGTACTGTGT
GACAGTCATATTTCTTTAGTTACCTTTAGCTCCTATTCTATTAGAACTATTTCAAATTTACTTATTTTACTCAAAATGCAGTATGCCGGCCAGGCGCGGT
GGCTCATGTTTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCACAAGGTCAGGAGTTGGAGACCAGCCTGGTCAACGTGGTGAAACCCCATCT
CTACTAAAAATACAAAAAAAAAAAAAAAAAAAAAATTTAGCCGAGAGTGGTGGTGCACGCCTGTAGTCCCAGCTTGGCTGAGGCAGGAGAATCGCTTGAA
CCCGGGAGGCGGAGGTTGCATTGAGCTGAGATTGCAGCACTGCACTCCAGCCTGGGCAACAGAACGACACTCTGTCTCAAAAAAAAAAAAAAAAAAAGCC
ATATGCCCTGCACTTTGTCCCACCTTTTACCTCTGCCCTTCTCACTCCAGTGGATGCTTTTCCTCTGAGACAGTACGTAGTATCAAATAAATAGTCCTTT
AGCTTTCTGCTACTAGATCTATAAATCTACCTGCATCTATAGGTATCTCTTCTTTATGAAAAATTACTTCTTACATATGTACTCTAGATTATTCTGTCTA
CTTTGAGTCTTCAACCTCTTCATCTGTGAAAAGCGTTTTCAGTTAAAATACATAAAATGTCATTGCAGATCAGCATTTATAGATGAACAGTTGCTCTCAG
TTTTAATGATAGGGAACACTAACTTTGAACCCCAATTAAATGAACTGTTATCTCCCTCCAAAATAATTMTATTCTTAGTGGTAAACTTATAAAAGATTAT
ATCTAATTATTAGTATTAGCATATTTAACATTTCTTCAATAAAATTTTTTTGTGGAAATTTGCTTTCTCTCATTATGTAAGTACGTATATTACATCTTCA
ATTTTGTCACAGCACCTAAAAGATTTACTACTTGACTCTTTACAGAATAAGTTTGTTGGCCTCAGGTGTAGGCCGCCCTAACTGGGGCGGAAGGATAGAG
AAAAGTGGATTCAAGAGATATTCAGCAATAGAATGGATACAACTTGGTCATTAATTAAAAGTGATGGGTGAGAGAGAACAAGTTCAGGATGCTTCTTAGG
TTTCTGTCTTAAGCATCTTGGGTGAATTAAGACCTTTATGTTGTCCTGGCAAAAACTAGGATGATGATTTTAATTAGCTACATTGATTTATCAGTAGTAA
TGAAGAATTGTATCTCTTGTCTTTAAAAAAAAAAAAAAAAAAAAAACACAGGATGGGCATGGTGGCTCATGCCTGTAATCTATTACTTTGGAAGGCCAGG
GCAGGAAGATCGCTTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACACAGCGAGATGCTGTCTCTAAAAAACCAAATAAAACCAAACCAAACAGCTTCA
TTGGAATAGAGTCCACATTATATACAATTCACTGTGCAATTCAGTGGTTTTTAATATATATACAGGATTGTGCAACCGTCCCCACAATTTAATTTTAGAA
CATTTTCATCTTCTCTAAAATAAACCCTTGTCCTCATTAGCAGTCAGTTCTCATTCCGTCTCTTCCCCTCTTCTCAAACCACTAATCCACTTTTTGTCTC
TGTAGATTTGCCTATTTTGGACATTTCATATAAGTGAAATCATATGATATGTAACATTTTGAAACTGGCTTCTTTCATTTTAGTGTGATGTTTTCAAGGT
TCCTTCATGCTGTACCATGTATCAATACTTCATTCCCTTTTATGGCTGAAAAATATTCCATTGTATGGATATACCACATTTTATTATCCATTCATCAGTT
GTTGGACATTTGAGTTGTTTCTACTTTTTGGCTATTATGAATAATGCTGTTGTGAATATTTGTGTGCAAATTTTTGTGAGAATATGTTTTTATTTCTCTT
GGTATATACTTAATAGTGTAATTGCTGTGTCATTTTGATAAATTTATGTTTAACTTTTCAAGGAACTGTTTTCTAAAGTGGCTGTGCTACTTTACATYCC
CACCAGCAATACATATGTGTTCTAGTTTTTCTGCATCCTCACCAATACTTGTTATTGTCTTTTTAAAGCTATAGGCATCTTATTGGGCGTGTCTCTTATA
CTTTTATCCTTGAGTTTAGGTAAATGTGACAACACCTAAGTGGACATGTTCTCTTGACTTCCAGAAGGATGGACACTGTTAGGACCAACTAGTCTTCGTG
ACAGTGCAAAACTAAGCTAAAGTTTAGAAGGATAAGCAAGGTGCAAAGATAAAGCAGAAATAAGTCTGGTTCTAAGACTTTGGAAAATTATTTACTTCTT
TTTAGTTCCCTACCTTTTCTTTAGGTCTGTTCCTCTTTACATAATACATGTTACATGTTCTTAAAAAGCTGTATTAAATCCAATCATATTTCACATAAAC
CAGATAATTGCTTTTTTTGTTGTTGTTAATTTATTTATTTTTAGTTTTTAGAGACAGAGTTTCGCCACTTCGTCCAGGCTGGAGTGCAGTGGCTATTCAT
AGGCACAGTCATTATGCACTACAGCCTCAAACTCCTGGCCTTGAGTGGTCCTCCCATCTCAGCCTCCTGAGTAGCTGGGACTACAGACTTTTTTTTTTTT
TTTTTTTTTTTAGATGGAGTCTTGCTGTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTTGCTTACTGCAATCTCCACTTCCTGGATTCAAGCAACTC
TCCTGTCTCTTCCTCCTGAATAGCTGGGACTACAGGCACACGCCACCATGCTCAGCTAATTTTTGTGTTTTTAGTAGAGACGGGGTTTTGCCATGTTGGC
CAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCCCCTGCCTCAGCCTCCCAAAGTGTTGGGATTACAGGCATGAGTCACTGCACCTAGCCTACAGGCA
ATTTTGTACAGAGAATAATTCCTTTCCAGAAGTAGCCCGATRTAGCAGAAAGCATGAGTTTTGTTGTGAGACAGACTTAGCTCTACATCTTTTATGTGAG
ACTTAACCTGTTTTTTCTATGGGCAAATGACCTGAACTCCTGAATCAGTTTCCCCATCTGTAAAGTGAGGATGAAAATAGTATCTACTTTATTGAGATTT
TTCTTATTCATCTGTAGCATCTTTGTGTAATGTCATATGGATGTAACTTGGTTAGTACTATTAGCAACTGTGATGATGATGATTGTGAATCTTATTTTCA
TATCTTGGGTTTTCTTACAGTGAAATATTTGTTGCTGTTATTTTCTTTGTAAAAATAAACCATGTTTGCATCTTGGTCTTCTTTCCATTTGGATTCAAAA
GTTTTATAGTGATTCCTCCTAGTAAAATTGCRTTTTCTCCCTAGGAGTACTTCTTTGATTCCAGAGTATTAACAGATGGAGAACTGGCTCCCAATGATAG
ATGTTGCCGTGTGTGTGGAAAAATAGGCCACTACATGAAAGACTGCCCTAAAAGGAAAAGGTTGGCAAATGAATATATATCAACATTTTGAGGAAAATAA
ATGAGAGGCCAATTTGTAGCTATAATTATGTTCAGAAATGTTTAACTGAGAAAGTTTAGGGTATTTAATTATACCTAAGGTAAATGTTCATTTGAGTGGA
ATTTTGTAATAGGGTAAGATTTGCATGTGGTATAATAGTATCTTCTAACATTCATTTGTTCATTTATTCATTAATTCACTCAGTTTTTTTTTGTTTTTGT
TTTTGTTTTTATTTTTGTTTTTTTTGAGACGGCATCTCGCCCTGTCGCCCAGGCTGGAGTGCAATGGTGTGATCTCGGCTCACTGCATCCTCCGCCTCCC
AGTTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCACACCACAATGCCCAGCTAATTTTTTGTATCTTTAGTAGAGATGGA
GTTTCACCAACATTGGCCAGGCTGGTCTCGAACGCCTGACCTCGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGACACCATG
CCAGCCAGTTTTGTGTTTTTTTTAAATGAAGAACTGTTTATTGACACCGTCTATGTGTTGGGAATTGTTCTAGGAGAAATAAAAGTGACCAAGACGTTGG
GTTCTTGCTGAGGATCTCACAGTCATGCAAACTGATAATTAAAATACAATTAATGGAATTCTTGAGATAACATGCTGTGAGCTATATTTATAGATCTTGG
GGAATGTACATCTTCTATACTCCCTCAAAATATATCTACGAATTATAGTCTCCCAGGTTCTGTATACTGTAGTAGGTCAGGAAGATCTCTTTCTTTTGTC
ATCAAGTCTGGCCTAAAATAAAAACTTGGAACTTTTGAGACAGAACGAACTTCCAGTTTCCATCACTGCTATTTACTATTAAATTTAGTCAAGACACTTA
TCTTCTCTAAGCCTCAATTTCTTTTTAAAACTGGAGATAATAAATATCAACCTCTAAGGATTGTTAAAGGTTTAAGATTTGGTATTTTAAAAAATTTAAT
ATAATATTGTTTTACAAAACTACTGGAAAACCGAGTTCCTGCCAAATGAGCAGGTGTGCCATAAATGTTTGTTCCCTTGCCTTCAAAAAGACGCATGAAA
TGATGGGCATGTTAGTCCTTTTGTTATTGTGAGAGTCCTGCRTAGTTTGTTCTGTGACTCACTTAATTTACAAGTCCCTAGCCCCACATTATTGGTATCA
GCAGTTTACTGTTTAGACTAAAGAAGAAAGACAGTGAAGAAGAGAAGGAAGGGAATGAAGAAGAGAAAGATTCCCGAGATGTTCTTGACCCCCGAGACCT
CCACGATACTCGAGACTTTAGAGACCYGAGAGACCTCAGATGTTTTATATGTGGAGATGCTGGACATGTACGAAGGGAGTGCCCAGAGGTCAAGCTGGCC
CGTCAGAGGAATAGCAGTGTGGCAGGTAAATAGAAAAGGCCAAACATAGTTTCTGGTAGAAACGAAGTCATTTATGTTGCTTGCATGCTAAATGACCCTA
ATTCCTCTCTGTTGCAAACCTAATTGTATGATTTTGGACCTTACAATTTCTTAAAGAGATAAAATTTAGACAATGAGGCTTTTACTTTTAATAGTACTTG
GATAAGTTTATTATCAAGGTTTCCACAGTCTGTTGTATTCAATTATCTCCCTGTAAGTATTCTTTAGATTTTTATTTTTATTTTTATTTTTTTGAGATGG
AGTCTCGCTCTTGTTACCCAGGCTGGAGTACAGTGGCGCGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCC
TGAGTAGCTGGGATTACAGGCGCATGCCACCACGCCCAGCTAATTTTTAGACTTTTAGTAGAGACATGGTTTCACTGTGTTGGCCAGGCTGGTCTCAAAT
TCCTGACCTCAGGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGCCTATTCTTTGGATTTGAGTCAGATT
CTTCATCTGTTTCTCTCACTAACATTCTTTACAAGAGACTTTTTTCCTAGAAACATATTGGAGAATTATATTTCTTCCCACTGCTGTTATGAGAGAAGGA
TACCTGTTCATGTTATATTTCACAAGGAATTTGAGAGTTAAATAGTAACCCAAGTAAGAGTTTATTAAAAAAAAATAAGAGAACATTTTAGAAGTAGTGA
TTTCCAGTTACTCAGATTCTTACTGCAGAAAGGTTTGTGTGTGTGTGAGAGAGAGAGAGAGAGAGAGACATAGAGAGAGACAGACTCTTGTTGCCCAGGC
TGCAGTGCGTGGTATGATCACAGCTCAGTGCAGCTTTGACCTTCTGGACTCAAGTGATCCTCCCACCTCAGCCTCCCAGAATACTAGGATTACAGATATG
AGCCACTGCACCCAACCAGAAAGTATTTCTCAAATAAATATGTTGTCTCCTTTAGAAAAGCAGAATAACATTTGTTCTTGCTTCTAGGATCAGTGTTATT
TTTTTTCTTGATCTGCTAGTTTGACAAATAGCTTTTAAAATTAAGTAGCTCAGTTGCTGCAAGTCCTTCGTTAATATACTTAAGGTTTAAAAGTCCAAGT
TTATAAAATTGCAGAGATATTTGAGATTCTTTTACATAAGAAGGGAGTTTATTTATTGTCATTTCTCTGCTACTTTCCTTATCTGTTGATTTTCTTTGTG
ATGCCTTCTCTTAGCAGCCCAGCTGGTCCGCAACCTTGTAAATGCTCAACAGGTGGCTGGTTCAGCTCAGCAACAGGGTGATCAGTCCATAAGGACTAGA
CAGTCATCAGAATGTGTAAGTACTCTGCCTGTGAATGTGTTAGTCTTGACTGATGATAGCAGTATCTTTAATGGGTGATAGTGTTTTCTCTCAGACTGGC
TAATACAATCTTCCAGATTACACAGTGCTTTGTATATATGTCCTTGCTAGGCACATAAGGTGGAATGAGCATTCCTTTTGGAATAATGTAGATCTGGGTT
TCTGTCTACAGAGAAGCTACTTAATTTAYATGAGCCTACTCTTCAATTGTACAATAACTACCTAATAAGATGGATTAAAAATAAGGTAATGACTTTGAGG
TTTCAGACTTTGCTTAGTGGAAAAATATCAGTACCATTAATAAAAATAGACCAAAAAATTGAGATGTTTTAGGCATTTAGTGTTGTTAGGGCAATATATA
CATGGCATTTTGCTTGCATGAAACTTCTGTCTTCTCATAGCTTGACCTGTGGATACCTAGTGAAATACACCCTGTAAAAAAACAGTATTGAATGAGAATT
CAGACTCATAAGTTTATTTTACTATCTTTTCTTTTTTTTTAAGATGGAGTCTCACTCCATTGCCTAGGCTGGAGTGCAGTGGCGTGTTCTCGGCTCACTG
CAACCCTACAATCCACACCCCTGGGATCATGCAATTCTGTCTCCATCTCCTGAGTAGCTGAACTGCAGGCAATACTATCACGCCCAGCTAATTTTTGTAT
TTTTAGTATAGACTGGGTTTCACCATATTGGTCGGGCTAGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCTCCCCACAGTGCTGGGATTAC
AGGTGTGAGCCATTGCGCCCAGCCCAGACTCATAAGTTTAATATTGTTTGTTGAGTTGCTCTTAACCTTTGTGTAAATCTATATTCACCTTGTACTTCTT
AATTAATAATGACTCTAAATAACACTCTAAATCTGACATAATATTCAGTGCTTTACACTTAGCAAATTTAATCCTTGGAGTGGCCATGTGAAGTGGTAGG
TATTAGTATCATCAAATTTTACAAATTGGGAAACTGAGAATAAGAGAGTATAAAAATCAAACCGAAGTCTTTCTAGCATCAAATCCATTAACCGTTTAAC
ATGCTAAATCTAATGTGATTTGTGTTTTAGAAAAAACATTCAAGTATTTGAAGAGTATTAGGGAGAATCTTTGGAAAACATTTAGGAAATTTTCCACCCT
CACCTCAAACACTTGAATACCTATTATGTGCTTGATACTTTCATAAACAACAATAATCACATTTAATGTAGTTAACATTTGTTGAGTGTAAACTATGTGC
TGTACATGCATTCATTCTTTGTGATTATAAAATATTTCAAAAGTACAGAAAAGTATAGAAAATAAATCTCTATGTATCATTACCAGGCTTTAACAGTTTT
TAACATTGTTATTTTAGCTTTATTAAAAAATCACCCTCAGTTGAACACCCTGTACATTCTTCTTTGATCCCATTCCTATCTTAAAAGCTTCCTACCATCC
TTCCCTTGCTACAGAAATGTATCTGCTATCTTGAACTTGGTGGTTATATGTTCCACATGCATTGTTCAGTTAATCTTCTCAAAAACCTGAGGCAAATTCT
GATTATATTTTATAGGTAAAGAAACCGAGGTTTCAGTTTCTTGCCTGAGGTCAATAGACACTTGGAATCAGAACGCGAACCCTCAGGCTCTCTGTCAGCA
AAACTTATGCTCTAACCACTTTTCTATGCTGCCCTAATTTTCATTTTATGCTACTAGTCCTCACTTTTCTCTCACCCGTGCTTTCGGAAAGAGTCTGTCT
AATGGACATTGCTATTCTGATGTCTAACAAAGCACGTCAACATGCCTAAAATATAGTTAATCTTTCCTTTCAACCCCCAGGACTTGCCTCTTCCTCCTGT
GTTTTATATCTCGTTGAATGATCCCATTTTCTATCTAGTTTCCAAAACTTTTCCCTCTCCTTCAACCTCTATGTTCAGTCACTAAGTCCTGTTGTTTCTG
CCTTAAAAAAAGCTAGGTGTTTGCCTCACTCCTGTAATCCCAGCACTTTAGGAGGCTGAGGTGGGTGGATCACCTGAGGTCGGGAGTTTGAGACCAGCCT
GACCAACATGGTAAAACCCCATCTCTGCTAAAACTACAAAAAATTAGCTGGATGTGGTGGCAGGGAACCTGTCATCCCAGCTAGTTGGGAGACTGAGGCA
GGAGAATCACTCGAACCCAGGAGGCGGAGATTGCAATGTGCCGAGATTGCACCACCGCACTCCAGCGTGGGCAACACAGCGAGACTGTCTCAAAAAAAAA
AAAGTATCTCACAGCCATTTGCTTCCCTCTATCCCTGTTTGTGTTTCCTTAGCCTAGGCTACTATCATCTCCTAATCAGTCTCAACAGCCTTTTAGCAGT
CTCCTAATCAGTCTCAACAGCCTTTTAATTTTTACTTATCTATTTATTCATTCATTTTTGAGACAGCGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTG
GCACAATCATGGCTCACTGCAGTCTTGACCTCCCAGGCTCGGGTGATTCTCCCATGTCAGCCTCCAGAGTAGCTGGGACTCCAGGCATGCACCACCACAC
TTGGCTAATTTTTGTATTTCTTGTAAAGATGGGATTTCGACATGTTGCCCAGGCAGGTCTCAAACTCCTGAGCTCAAGTGATCTGCCTGCCTCAGCCTTT
GAAAGTGCTAGGATTACAGTCTTGAGCCACTGTTCCTGTCTCTCATCAGCCTTTAAAAAAATTCTCTATTTTATTCTTATTAAACCAGGATAATCTTTCT
AAAGTTCAGATTGATCATGTTCYATACCTGTTTAAAACCCTTCAGTGGTTTACCACTGCATTTAGGATATAGTCTRAATTACAAGGCTTATAAGACACTT
CATTGTCTTGCCCCTATTTAGCTCTTCAGCCTCGGCCATTCCCCTGCCATTATATATACTCCAGTAATATTAAACTTCTTTCAGATTCCAATTACTTTAA
AAAGCCATGTGTTTTCATACCTCTAGACCTTCAATCATATTGAACACTCTTCCTCTCCCCTTATCTCTCCCTTCTTGTATCAGACTGATTTCTGTTTACC
CTGAGTCTCAGCTAAAAGATCACTTTTTCTAGGAAGCTTTCCCTGATTTCTCTTCTCTCCTTCTCCCAAAGTGACTTTAGGTGTTCCTGCTCTGGGATTT
CATTATGTAGTTGACCCTTGAACAAAACAGGTTTGAACTGCGTGAGTCTACTTATACATGAATTTTTTCCAACAGATTGTGGTTGGAAAGTACAGTATTC
CCAGGATGCAAAACCCAAGTATTCAGAGATCCAACTTTTTGTATATATGGGTTCTGTAGAGCTGACTGTGGGACTTGAGTACAGGATTGTGGGGGTCCTG
GAACCAATCCCCTGCATATCCTGAGGGACAGCTGTACACTGTACATTCTTTATCATAGTACTCATTATACTTATTATGATTGCTTATGTAATCTTTGTCT
GCTCCCTTCCTTATCCCCCTTAAACGTTGAGCTCCATGAGGGCATACATGTTGGTATTACATTTTTATTACCTAGAACAATACTTAGTACATAATTGACA
CAATAAATACTTGTTGAGGGACTGAATGAAAGTGACTATGAGATATTTAGATGGAAGTTTTGAGTTTGCAATAGGAAGTATGTGTTCTGCACGATGGGAA
CCATGTCTGGGCTCTCGTTTCTTTGGACAATAAAACGATTTGTGAGGCAATACCTACTTGAAAAGGGGGTTTGAGTACCTTGGGAAAAACTAATTATTTG
TTATGATATACATCATAGAGTTCTGTTTTATAAAGTTTTTAATTTTGTATTTTATCTCTACTTTTATAAAATTAAGATGTTTATAAATTAATTWAAAAAA
ATTTTTTTTTTGTCTGCAGTCTGAATCACCATCTTATTCTCCTCAGCCTCAGCCATTTCCACAGAACTCTTCCCAGTCAGCTGCTATTACTCAGCCTTCA
TCTCAGCCAGGATCCCARCCTAAGCTTGGCCCACCTCAGCAGGGAGCCCAACCTCCCCATCAGGTCCAGATGCCACTGTATAACTTTCCCCAGTCACCAC
CAGCTCAGTATTCTCCCATGCACAATATGGGATTGTTGCCAATGCACCCTCTCCAGATCCCTGCCCCGTCYTGGCCCATCCATGGCCCAGTGATCCACTC
TGCACCAGGCAGTGCCCCCAGCAATATTGGCCTAAATGATCCCAGCATCATCTTTGCACAGCCTGCTGCCAGACCTGTGGCAATCCCTAACACGTCTCAC
GATGGACACTGGCCCCGTACTGTGGCTCCAAATTCCCTGGTAAACAGTGGTGCAGTGGGGAATTCAGGTAACCTTTCCTTTTCTTCTTTTTTATCTGCAT
GTCTTTTCTTCTTTTGTATCTGTCTGTAGAAACAATGTGAGGAAAAAGAAGGAAAGCAGTATTTGTGGAGGGGACAGTACAGGATTAGATAAAGATTAAG
AATATGGGCTCTGGACTCAGACTGCCTGGATTTGAATCCTGGCCCTGCCATTTATTATGTAGCTTGGGCAGTTAATCTCTTTGTGCATTGGTTTCATCTG
TAAAATAGGCCATCTAACTCACAGGGATGTTGTAAATGTTAAATGAGGTGTAACACACATAAATGTTAGCTATTATTTTAGTATTTTAAAAAATTTTCAC
TGCCACTCAGTTTGGTGTATTATTTATTACACAGTTGATGAAATTGAAGAGTTAAGTAACTTCACTGTCTTACTGTCATGGTTAATAATGGTAGGTTGGC
CGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCGGAGGCAGGTGGATCACCTGAAGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGT
GAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCACGCCTGTAATCCCAACTATGTGGGAGGCTGAGGCAGGAGGCTCGCTTGA
ACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTCCAGCCAGGGCGACAGAGCAGAACTGTCTCAAACAAAAAAAAGATCAAGGAAA
CCAAAAAAATTAATGATGGTAGGTCCAAGAGTTAAACGAATTTCTTTGTTCAAAACCGTGCTGCTGCATGCCCTAGACACTATTTTTTCTCAGGAACAAT
TCTTTAAAAAAGAAAAATAGTTTTTTTTCTGATATCTAAGTAATAAATGTTCATTATAGAGTATTTGAGAAATAAATCATCTATCATCTCAATTCCTAGA
CATAAATACTAAGGAATATTTTGGTGTATTACTATTCAGTCATTAAAAAAAAACTGCATATTTAAGAAAATAGTTGATACATGCTATAAATCTAGTTTTA
CATCCAGCTTTAAAATACATAGACACACACACACACACATATATACACACATACATATAAATATTTATACACACTTAAACATACACAGGCCGGCACTGTG
GCTTACACCTGTAATCCCAGAACTTTGGAAGGCTGAGGTGGGCAGATCAGTTGAGGCCAGGAGTTTAAGACCAGGCTGGCCAGCATGGCAAAACTCTTGT
CTCTATTAAAAATACAAAAATTAGCCGGGTGTGGTGATGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGGAA
AGAGAGGTTGCAGTGAGTTGAGATCATGCCATTGCATTCCAGCCTGGGCAACAGAGTGAGACTCTCTCAAAAAAAAATAAATAAATAAATAAAATTAAAA
AAAAGTATATATATATATATATTTAGACAAAGTCTCAAAGTGTTGTCCAGGTTGGAGTGCAGTGGCTATTCACAGGCCAATCTAGCATACTACAACCTTG
AACTCCTGGGCTCAAGTGCTCCTCCTGCCTTAGCCTCCTGAGTAGCTGTGGGACTACAGGCACACACCACTGTGCCTGACTTATGCCCAACTTTTTAGTG
ATAATTATTTTTATCTTAAGAACTATTAGCACTTTGGGAGGCTGAGGCGGGTGGATCACAAGGTCAGGAGATCAAGCACATCCTGGCTAACACGGTGAAA
CCCCGTCTCTACTTAAAAAATACAAAAAATCAGCTGAGCGTGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGGATGGTGTGAA
CCCGGGAGGCAGAACTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAACCT
ATTATGGAAATTTTGAAACATACACAAAAGACAGTAAAGTATATAATGAACCCCCCTCCCCATTAACCAACTTTAACAGTTATCAATAATTTGCTATTCT
TTTATCGGATTCCTAGCCATTAAAAATATTTTTGACTTGACTGATCAAATCTCAGACATTGCATCAAATTTGCTTTTTAACTTCAGTTGTGTCACTTAAA
AAAAACATGAGATCATTGCCATACCTAGTATCATCTAATACCCAGTCCTTGTTCAGTTTTTCCTGTTTATCTAAAAAAGTATATAGTTTTTTGAGACAGT
CTCGCTCTGTTGCCAGGCTGGAGTGCAGTGGAAYAATCTCGGCTCACTGCAACCTCCGCCTTCTGAGTTCAAGTGATTCTCCTGCCTCCCGAATAGCTGA
GACTACAGGTGCGCACCACCATGCCCGGAATTTTTTTTTTTTTTTTTTTTTTTTTAGAGGGAGTCTTGCTTTGTCACCCAGGCTGGAGTGCAGTGGCACG
ATCTCAGCTCACTGCAACCTCCGCTTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTAGAGGCGCCTGCCACCACGCCTAGC
TAAATTTTGTATTTTAGTAGAGACGGGGTTTCACTATGTAGGTCAAGCTGGTCTTGAACTTCTGACCTCAAATTATCCGCCTGCCTCGGCCTCCCAAAGT
ACAGGGATTACAGGTGTGAGCCACCGCGCCTGGCCCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCATTCACCATGTTGGCCAGGATGGTCTCGATC
TCTTGACCTCATGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGATTTACAGGCRTGAGCCACTGTGCCCAGCCTAAAAAAGTATTCCTATTATCGATTT
ATTTGAATCAAAATTAAAACTGTGTGTTTGGTTTTTATATCTCTTTGATTTTTATCTCTCTTAACTGTCCTTTATAACAGTTGCTGCTTCTGTTTTTTTT
CCGATATTAACTATAAGGCACTGTAGAATTTCCCATATTCTGGAGTTGGCTGATTATGTCTTTGTGGCATCATTTAATGTGTACCTCTGTCCCTGTATTT
CCTGTAAACTGGGATTTAGATTCAGAGACTGGATTAGATTCAGGCTCTTTCTGTTGGTAAGAATGCTGCTTGGTGGGTCCGTGTATTTCCAGTTTCCTCA
CTTCAGAAGGAACTTACTGTCTGGTTGTAACTATTTTAGTGACTTAAGATTGATCTGTGAGTTAGGTTTTATCAGCCTGTTTTACCCATTATCAAATTCA
TCATTTTTACTTAATAGCCTTAGCTGCCATTGATAATTGTTGCCAGTATCCATTATTTTGCTGTCTCCAGCTTCTTTTGGAACAATGCAAGTAAGGTATT
TTGCTGAGCAAAAATGCCAGAATATGGTAACTTAATTAGATTTCTAAGATCAGAGGATATATGGCATACATGGTCCTTCTCATATATCATTCAACATGTT
TATTGTGTATATGCCATGACATGCACTGTGATAGTCACTGAGTTATAGAACCATGAAGACAGACCCAGTGTTTTGCCCTTTGATGTATCAGCTCCATTTT
TATAATTTGAAGTCTTCCATCCCCCTGCAACTTGTTGTTCTCAGTGTTTTAGTCATAGTGAACTAATTAATGTCCCACAAACATACTGTACTATCTCTTA
CCCCTGGTTGCTTATCTAAGTTGTTCCTTCTGCTTGGAATGTCCTCTCCGTTACCTCTGCTGCTCACTCTCACCTTCTTCTGTGCTGCCTCAAAGCTTGG
CTAACTCACTCATCCTCCATTTTTAAATTTAGATCACTTTCTTCAGGAAATCCTCATTTTCTTAGTATTCATATCATAACATTTGTCTTACTGTGCTGAA
ATTGTCTGTTTACTCATCTGCATAACCCATTAGACTGAACTTCTAGAAGCAAAAAATTGTTTTTTGTCTGTCATTTTCTGTCTAGTAGTGAGTTTAGTTT
TCTCTTTAGTAGCCTGCCATGTTCCTGTTATATAGTATTATTATCTAATAAGCTATACTTAATATTATTCATTGTATAGATACTCAATTCATAATTGTTA
TTAAAGCTACAGTTACACTGTGTTGAAAATGGAAGGACTGAATGGAAATATATTAAAATAATAATCATAGTTGTATCGGAGGAGATTATTATGAGTTTTT
TTCCCCCATTTTTCAAATTATCTTTAATGAGATTGTATTACTCATTTTCTGGAAATTTTGGGTTATGAAAAACAGGCAAAGGGGATTGGAATATATCTTT
TAAAAATACCCTTTTATGTTAAAACATCATTTCTCATTTGGTTATGACCTAATTCTGGATATACCAGTTTCACTTATTTTTGTAAACCCTGAGCCCTTCA
GATTCAGCCCTTAGTTGTAACTTGGCTTTTATGAATTCACAGTGAACTAGCTGGTTTGCTTACTTTCTGAGAAGATTCAGCTTCTAAGAATGCAGTTCAC
ACGGGCTTTAGTTTTTTTTGCTGCCTACTCTTTCCTATCCCGTACTTAATTTGAGTTCCTGCTGAGAAGTTTAGTGAATAAGGGCAGTTATTCCCTTTTA
TTCCCTAGCACACTGTGACTCTGAATGAGAAAAGCCACCAGAATGATCCAGAATATAAACTGGGTACTGCACTTCGAAAAATGTACTTAAAGATACATTT
TAAAGGGAAATAGATTTGGGGGGATAGTTAGCCATAAAAAGAATAGGACTTACATTTTTTGAGTACCTACCTATATGCTAGCTCTTGTGCAAGCTACTTT
CTTTTGGTTATCCAATTTAAACCTCATAATCTGAGGTTCAAAATGGAACCTTAGTAGTTTTAGGAAATGAGATTTGAGCTTAGACTTGTTTGGCCTCAAA
GCCCAAGTTCTCAACCATTATGCCACAATGCCTCAAGCTTGTAATAGGATCTCCTTCCAGGCCAAGATATAATTGATTCTGGGATAGTTGGCATTGTCTT
TAGGATAAAATCTTAAGTTCCTTTGCATGATGTACTAAGGTTTTTTGAAATGTATATCCCCACCTACCTGTCCCGCCTTTTCTCTTACCACTTCCTCCAT
CACTCCTGTCTCTATGTTGCAGATTGTTGTGCAGTTCCCCAAACTTGATGTGCTTTCCTGCTTTCAGGCTTTTGTACATGATACTCCTTCTCTCTGAAAT
GCCCCCCACCCCCTCCCTATTTTGCCTAAATTTTTCCTTGTTTTCTAGAACTCATATTAGTCAATCATCTTACGAAGACTGTCTCTAACCTTCAAAGACT
GGGTTAGCCCTCTCTTCAGAACATTTTGCCTGTTCTACTAGCAATTATTACATATTGTTGTGTATATATATATCTCTTCTTGTATGTCTCTTATGAATAA
TTTGAGCAAATACCAATGCTTTATTCTTTAAAAAAGTTTGTTTGGTATTCTCTGAATTTAGCATAGTTCTTAGCCAATGGTAGGTACTGAATATATCTTT
GTGGAATGAAGGGATATTTCAATGAATGAACTAATGTTTTTAAATGTCTTTTTCCCTCTTGTTGAAATGCAGAGCCAGGCTTTCGAGGACTGACTCCTCC
AATTCCTTGGGAACATGCACCGCGTCCCCATTTCCCCCTTGTCCCAGCTTCGTGGCCTTATGGTTTGCATCAAAACTTCATGCATCAGGGAAATGCCCGA
TTCCAGCCCAACAAACCTTTCTATACTCAAGGTACCACTGCTTACAAATTAGTTAACAGGCTTGGGTGGGTTTTATTCTGGGATAGAGAGCCTTAGTGAA
GGCCAGGATCTGGGAGTGAAAATTCATGAATTCAGTAAACATTTACTGAGAAATTATACTGTGTGTCAGATGGTGCTAGGTGCTTGTAAAACAAAATCTC
CATTACTTGATGCACACTTTATTAGGAAAGCCAGACATGTTAAATAGAAAAGGAGTTTAGATGAATCAGTTAACATTGCCCTAGCAAATCCAAACAGGAT
GTGGATTTAAGATTATTACATCACAAGATTTTGACAGTTGAGCTAGATCTTGAAAGAGATGCAGGAATTTTTTTTTTGCCTAGAGATGAGAGAGGAGGAG
GAGTATGCTTAGCTGAGGGATTAATATATGCAGTCACTGAGTTTTGCCTGGCATAATGAAAAAGAGTAGAAAATATTAGGGCTAGAGGACGGAGGTATAT
GGGAAAGATGGTGATAAGGCTAGAGAGGGTAGGCTTAGMCCATATTATGGAGTTTGGACTTGGTTTACTGAGCATTGGGGACCTAATTAAAGGTTTTTAG
TGGAACGAAGACATAATCATATTTGTTTAGTAAACGTAGGACTTGAATGACCTTAAAATTTATTATGTTCTGCTGGTGCTATTGTAGTACTAATAATGGC
TTTGACTGGGTAATGAATATTACAAACAAAGAATTCCTAGAAACTTGGAGCATTTTATCTAACCTACTTGCCTCAGAGGTATTTGTTCTTATAGGCATTG
TCTGAGTCTGGCCTTCAGCTCTTTGTTAACTTAGTTCAGAACACTTGGGTCAGAGTCAGTATAGTTAAACTAGGAGTTCAAGAAGTTAAAACAGGCACTC
AGGAAATGCTGATTGAATGAAATGATAACTTAAAGGGGAAGTGCCTGGTATGGTCTCAGGCTTGTTATATTTAAGCCTTCTTAAACCACCCATATACTAC
TGGGGCATCCCTGTATTGTAGAGTGGCAGAGCCTTGACTGTGGTTGAGCTCTTCTCTTGAGCAAAGAACTGGGGCTGAAGGAAGTTACTATTAGTCATAA
GCCCTTTTAGGAGGGGAGAGTCTGCAACTCTTTTCTAGTGGGTTTTTTCCCTTTGATTCCKCCTCTCCATCTTTCGTGTCCTCTCCTTTTTTCACATACA
GGTATTTCCTTCCCTTCTTCATTTTTCTCCCCACCCTCTCAAATGTTTTGCAGCATGCTTTATCACCTCCTATTATATAAATAGAAAAAAAGAAAGCTAA
CTACAAGTTAATTCTAAGGTGTTGTCAGATAAACAGGCACAAGCCTTTCAGTTTCCTGTCTGTGTTGTATCCAACAGACAGATGTGCCACCCRTCGGTGT
AGAGAGCGTTGTCCCCACCCACCAAGAGGAAACGTGTCGGAGTAATGMGAGTCCATTTTCTTTCAGCTGGTCTACCGATGCACAGCAACCAGCCAATCCT
GCTGTCTCAAGGGTATCCGTACCTCAATGTCAGTTACATTCAGCAGAAAAAGTGACATTTAATGGAAAGCAAAACAAATCAGGTCCTGATTTAAAATTTT
AACACGTTTAGATAGCTTATTTAAATTCTAAGACTGTTTTTACAGACTGTATTATTTGTATATAAATATGAACTATAGTTTTTACTAGTATCACCAAATT
GAGTGATACAAATTTCATCTATTTTATTACCCTATTTTTAAGGGAATTTTATGTTTTGTTTAACCTTGATGAATTGTATAAAGAGAGAATTTAAAAAATT
ACATTCTTTATTTTCTATTAGCTGTATTCATACTTTGGTTGCTTCAGACTTTATATATTGTTCTTAAAAGTTAGGAAAGAATTTCATGTGTTTTAAATTG
TCACTTCTATTCTTTACAGAACCTTGTAGTGCCAAAAACTTTTTAAAAGGTAAAAAAATAAAATAAAATTACAACATGAAGATTCAGATTTTTTTTCTTT
TCCATACTTGTATATTGAACATTCAAACTTGAATGGAAAGTTGATTTTGTCTGTATTTGAAGTACTTCTATTTTAAGTTAATAAATCTTTTTGACAAGAG
TTAAATTTGGTTAAWCTGTTGTATAGATGATGGAAATATTACGTAACAAGATTTCTTTTAATTTCAGTGAATAGAGCATTCTAAATCACAGATTTTAGTT
TTAGAGATTCAAGTAACATTTCATATCCTTTATTTGGTTGGATGTTCACAACACCCATATGAGGTTGATAGAAGCGGAAGCCATTTCCATTTTATCTTTG
AAAATAAAAACTGAAATGCAAAGCAGTCAGTAAATTCCAAAAAGCAAACAATGCTGGAGTCTGAATTGAAAAGTATTTGGAAAGAGAATTTTAAAACACT
GAGACTAATATTGGCAATTAGAGTGGAGGGAAGATTACTTTTTTTTTTTTTTTTTTTTGAGATAGAGTCTGTCTGTCACCCAGGCTGCAGTGCTGTAGTA
TGATCTCGGCTCACTGCAACCTCTGTCTTCTGGGTTTGAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCACCACCACACTTG
GCCAATTTTTGTATTTTTAGTAGTGGCGGGGTTTCATCAYGTTGGTCAGGCTGGTCTCGAATTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAA
AGTGCTGGGATTACAGGCGTTGAGCCACTGCACCCAGCCCAGACTGTATTCATTTTGAGTCCTATACTTCCACCTGGAAAGCACACTTGCCAAGATGATA
ATTATTTACCAGTAATACTTGGAATTAATTATTATTGGGTATTGGAATTCAGACTCGAGTTGTTGGTGGCATAATGTTTTAGCTGTTTTAGCAGTGAGGT
GAGGTAATTTTCTCTAACCCCTTAATTAGTCCGTCCAGTTGCCTGGGATTTTAGGCTAAATGATGCTATATATCTATTTGGAAAGGTGCAGAATAAGTAG
ATAAAAATGTAAGGACAGTGGGTTATCTTTGCTGCGCTTCCTCTGATATACATTACTTAAATAGGAGACTGCTTGGGCCCTTGCCATATTTTGCAACATG
GAAGATATTTGAAACCTATTGCAGGAGGTTGAGGGTATTCATGCTGTATTTACAGCCCTGAGTTAAATATATTTACTATTTTTTTTACCTAACCTGAGTT
AGGTATATTTACTATTTTTTCTTATTAAAGCGTCAGCATCTTTCAGAATCCTATTAAGTGGTGGACTTAAATCATTTATTAACAAGATACCTGACCCAAC
TATGCATTCATGTTAAAATGACTTGGAGCATTCAAGATTTAAATTAACATTCAATACTTCATGTCCTTCCACATCTTGGAGAACAGGTAATGACGTATAC
AGGGGTGTTTATTATTCTCTTTACTTTTGTACATACAGTAGGCCCTCCATATCCATGGGTTTTGCATCTATGGATTCAACCAACCACGGATTGCAGATAT
TAAAAAAAACTGTGTCTGTACTGAACTTGTACAGTTTGTTATTATTCCCTAAACAATACAGTATAACAACTTTTCCCACAGAATTTCCATTGTATGAGGC
ATTATATGTAATCTAGAAATGATTTAAAGTATAAAGGAGGATGTGCATAGGTTATATGCAAAGACTACACTATTTTATATCAGGGACCTGAGCATCCTTG
GATTTTGGTATATCTGCGGGAGGTCCTGGAACCAACCCCCCACCAGATACCAAGGGGAGGATTGTATTTGAAATATTCATTAAAAATAAAACAACTTCCA
ATAACAGAATGCCCCAACCCCTCAGCCTTTCTTCCTTAAGGAAGGCAGTATAAAATACCACTTGGCAAAACCTATTAACTGGCAACCTAGTAACCAACAG
CCTAGGTTTTACTTATATGATAGTGTTATAGATACTAGTTTTCAGCATCTCATTTGCCCCTCCTTCAGTAACTGCCAGTGTTCAATAATTGGCAAAACTG
TTCTGTTGAAAAACATATAGTTTAAAATTGATATAGTAGAAACTCAGATTTTAAGTCTGCAAAGTAGATTATGAGTTCAGATTCATTGTAGAGCAGTTAA
GTAGAAAATTATCAATCTTATACAGGGAGAACACACACATTTAAGACCAAATTGTTTTGAAATGTTCTGTTTAATGACATGGAGATTAGTATTTTCCCTT
GACATTAGGGTTATTAAAAATATAAATATGTACTGTATATTTGTTTATATCCCCTACAGATGGACATTTTTGCTGTTTCCAGTTATTCTTATATATACAT
ATTATATATGTAATGTGTAAAATGATGATGGGATAAAGCTATTTGTGTGTACATGTAATTATTCTATTAGGGTAAATTCCCCTAAATGGGATTACTGGGT
AAAAGGATCAAAAGTCCTAAGGTTCCTGCTACATATTGCCAAATTGCCCTTCATAAAAGTGGTTATCAATCTGTAGTTCCAGCAAACAATACGTAAAATG
TGTTGGTATGCTTATAAAAAAGCTTTTAACTCCCAACAACTCATTTCTTCCTTGTAGAAATTAACATGTTTATTGTAAAAAGAAAATAAGCATTATATAA
AAGTACAAAGTTTAAAAATCATTCAAAAGTTCATCAGCCAGAAAGAAGTACTATCTGGTGAACTTCATTCATTCCAACCATCTCTCTTAATCATACAGGC
ACATATATACAAATAGTTTTACAAAAGTGGGCTCATATGCTATATTTAACAAATATAGCAAATTAACAAAAGGAAAACAAGTGTGAAACTGAAAAAATGC
TCAATTTAAATACTTTTTTCCCCACAAGAGAATCTAGTCTTGTAAGATTTCTCCTAAAATTAAGGACAATTACGGAAAACAATAAAGAGGCTATTTTTTT
TTCTAGCTTCATGTATGTTTTAATTAGAGACTGTACGTGATTCCTGCTATGAAAGATGAAACCAGCACACTCTACTTGTTATTTCTATATAGACAGTGTT
CATAATATTTGACTTTATAATCATTGCCCATTATTTTTAAAGTTTCTGAAGTGTTTACTAACACTCCTTTTACTGATTCTTTGTTCCTAAGTCCTTAATT
TGATTCATTTCTTCTTTAGTTGAATTTCATTATTGGGCGGTTTTTTCCCAAAGACTCATGATTTGTACTTTTAAGTTCTTACAAACTTGAGAACATCTAT
AGCCTTTGTATTTTAAGACAACTTTGGCAAAGTATAAAATTCCTGGCACTTTTTCTCAAACCTTTGGAGCCTTTTGCTTCATTGCCTTCTTGTTATAAGA
TCTGAGACCATCCTGACCCCATTTAATTCTTTTTTCTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACT
GAAAGCTCCGCCTCCCGGATTCACGCCATTCTCCTGCCTCAGCCTCCCTAGTAGCTCTACCCGCCAGCACACCCAGCTAATTTTTTGTATTTTTAGTAGA
GACGGGTTTCACTGTGTTAGCCTGGATGGTCTCGATCTCCTGACCTCATGATCCGTCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
CGCACCCGGCCAATTCTTTTTAAACCATCAGAATATTTCTTTATTCTACATATTTCTCTTTTCCATTTTTTATTTCCTCCAGCCTATTTTCTCTGTGCTG
TTTTATGTTTTGTGGTTTCTAGTATAAGGCCTTTAAACTCCACCAATCTTATTTTTCATCTCTTAATCTCTTTTGAACTTTTTTTTTTTAAAGAGATCAT
GTCTGCTGTCTTTTTTGAGCAGGTGGAGAATTTCTGTCACATTAACCTTTTTGAGGGAGTGGGCAATCTGTGATCGTTCTTTTCTAAATAATGCTTATTT
AAACTTCGGTCTACTGAAGAATAACAAACAGGAAGAGGTTAGAGGAATGAGCTTGAAGTTGGGTTGTTAATATTGGAACCCTCTCACCAAACCCATTCTT
CTTCTTCTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTTTTGCCCAGGCTGAAGTGCAGTGGCACGATCTCAGCTCACCGCATCCTCTGCCTCCCA
GGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAACTGGGATTACAGGCATGCGCCACCATGCCCGGCTAATTTTGTATTTTTTAGTAGAGACAGGGT
TTCTCCATGTTGGCCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCAC
CTGGCCAAAAATGCATTATTTCTTTTGCCCCTTGGAACACATCTCCCTTACTTTCTTAGTATTAAAAGGCGATTGTGCCCTATGGCAAAGCTTTTAAGTC
AGTGTATTTCAAATTATTGGAAGTGAAATCGATTAAGTGGTTTCATCCAATATTAAAAACTGTTAACAAGTAGGAAACACCAGAATTCACTTTGCATAGT
AAGTATTCTTTCCTGAAATTTGTCTCAGTACAGAATACAGATGTGTACAGAGGTAAGATGTAAAATACGTTTTTAAAATGTATGCTGTAGTCAAAAAGTT
TAAAATGCTTCATCCATAGGCAAGCACATAGATGACAGAAAGAGCCTTACAGCAAGGTTTGTCCTCAAGCTCCATCTCCTGTGTAATTTTATCAAAACGA
TATCTACAGACATGCAACATGTCTTACTCTTACCTCCTTCTTCTAATTAAAGAATAGGGACATTCTCTTTCCTGCTATTGATTGGCTGTGGTACCTCAAT
TTTGGTCCACATATTACCATATGTCTAAACAAGTATGTTTTAATGTTTGTTTAGGGAGGTTTATTTCTGTTACTAAAATTTATTGGGCTTTGTGCGTGGG
TTTATTTTTACTTTAAAACATATTTTAAGACAAAGTTTTATTTTAAGAGTGTACTGGATGACAGCTTGGTTGGTCCATGGGTCATTTCTGTCCATGCCAG
AAGACATTTCTTTCTACCTAGATCACTTTCATAAAGAAATAACTGCTATGACACTGTAATACATTTACGTACAGATGCTTATATTTAATCTTAAAAGGTA
GTCCTATATAGTTCTATCAGAAACCGTAAGAGCTCTTTCAGACCACTTTTATTAACTCAGGTATTACGAAAGGAACCATTGAAGAATATGAAAGCTCAAA
TAAGATTAAAAAATGCTTTAATACTGCTGAAGTCTTTCAATTCTAGAGCAGGCATAGAATATATAGAATGTTTACCTTATGACCAGATACAACCTCCCAA
GAAAAACTGGATCCTGCAGGGCAGCTGGTCTTCACAGTTCCTGCTGGGACTACAGTTGCAGAAGTCATTCCATCACTTTTCTCTTTTTAAGGGAGTTAAG
TACAGGTAAAGGAACTCTTCTAGCAAAGATCTTAATAATCTCTTGATTATCGATGTCCGTGGAGGCTTTTTAGTCCTTCCTTTGCTTCTGCATTCTTGAC
CCTTGGCTTCTTTCACTCACTCTCTCCTAATTCTCCTGTCTTTCTGAATGGGCCATTCCAGTTTTCAATAGGTGACTTCTATTTCTTCCTGTGTTGGTGT
TGCCTATGGTTCTGTTGTGTGCATTTCTGATATATATTAACACTCTGGGAAGTCTTATTGACAGATTCCACCATTACTTAAACATTGTCAATTCTGGCCT
AGATCGCTATGTTAAACTCTGGTCCCTATCTCCAACTTTATGGGCTTTTGTTTTTAGCTATACCATAGCTGTCTCAAATTAAACTTGTTAAACTGAATGC
ATCATTTTCATTACTACCACCATCCTCTAATTCTCTGCCCCTCTAAAAGCTGTCTCTTCCTGCTGTATTTTCTGACTTTGTGAATGGCACGACTGTCTAG
CAATTTAGGTCAAAACCATGACTAATATTAGATACTTTCCTCTCCATCAAATCTTTTTCAATCCCGTTACCCTACTGCTACTGACTAGGCCTGGATAATG
TCAATGCTTATATGATAAAGGCTGGATACCTTAACCTGGATTTCAAGCTTGTGGGCAAGAACAAATGAAACTATGAAAAAATGGGCTGTATAAAGGGTAT
TAAGTGCTGCTCTCTGTTGAACTGTTTGATGAAACTGGCTTTAATGATCCAGAAGCAGCCTTACATTTGAATGCATTCTATTCTTTCAAAACTGCTACAA
ACCAGTTTTCATGTTTATTACCACTTGCTGCTGCTGGAAAAAAGTTAGGAGCAACTATGTTTTACTCCTTTGATCTTTGAATAACAGCAGCAGCACAAAT
CCCAGGATTCTCAAAGCAGTTCCAACCACAACAAACCAAAAACTAAACTACAGCGAAATGGGAAACAGGTGTGTCCGGTTTAATAAAAAGGGAAAGGGTC
ATCAGGTGGCCACAGCCTTTCCTTGTCAGTCATATCCCCAACCTCCAGATCCTTTATACTCTCATAAGTTTGAATACAGTCAAGGTTAGTTGGGTCAAAA
ACTGATGTTGATTATGATTAAAAAGATACAAAACTCAGCACCTCCTTCATTAAAAATAAAGGTTGAGAAACTTGATAAGAAAAAAACTAAAATATTCTTA
TAGCTGCCTGGGGGAGATCTTAATCCTTCCACATACAGATATCCTYATATCCACAGGAGGCCATGTGGACTAAAACCAAACTGAGTCCATTACTCATTCC
CTCTCCGGCTCTTCTTGTGGCTCTTCTTAGACCTGAAATGGCAACACATATAAATAATTATATTAAGAAGCAGCCAGGCACGGTGGCTCACGCCTGTAAT
CCCAGCACTTTGGGATGCCAAGGTAGGCAGATCACCTGAGGTCAGGARTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAGTACA
AAAATTAGCCGAGCATGGCGGCGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGGGACAGGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCTGTGAG
CCGAGATTGGGCCATTGCACTCCAGCCTCAATGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAGGAGTCCTGAGAAAGACCTTGGTATGCTGACATTG
ATGGGGATGGAGCTGACACTCAATATTCATTAAACTGCTTGGTATTTTTTTGACTCAGAGCAACACTCTTGAGTCAGGCATTACTATCCAAATTTTACCA
TTGAGGAAATGACCTCTTAGAGGTTAAGAGTACACCAAACAGGCCCGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACCGAGGTGGGCGG
ATCACAAGGTCAGATTGAGACCATCCTGGCTAAAATGGTGAAACCCCGTCTCTACTAAAAATATAAAAAATTAGCCAAGGGTGGTGGCGGGCACCTGTAT
TCCCAGCTACTCGAGAAGCTGAGGCAGGAGAATGGCGTGAGCCCAGGAGGTGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGAGA
CAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGTGCACCCAACGGTATATGGCACATGGGGGTTTCTAATGAAATCTTATCAA
ATGAAAGTGACTTGTCCAAGGTCACTCAACTGTTAAGTTTTAAAACTTGGGACTAAACCCCATGTTTTCTGAGACCAAAGCTCATCCATTGTCCAAAGCT
GCAATCCTGTAAAGCAAAACAGGTATCAGCTTGAACCCGGGAGGCAGAGGCTGCAGTGAGCCAGGTTCACGCCACTGCACTCCAGCTTGGGAGACAAGCA
CGAAACTCAGTTCTCAAAAAAGAGAAAAAAGAAAAAGTTATCTAACCCCAGTAATTCTCAAAGCAATAGACCAATTTTGTCTTGTAATGCAGGAGAATTC
CTAACATCCCCCAACAAAACAAGAAAATTTCAGGTCCAGTTAGTTGTAATTTGGACTATTTCTGTAAAGTTAAAATAGAGGTCAATTCATTACCTTTCGG
GAGACTTTGAGTGGCTCCTGTGTCTGTGACTACGGTGATGACCTGGGGAAGAAAAGGCCATTGCATAAGATCCTACCCTTCTACTCTTATTAAACTGTCA
TTCTCACCTCCCCTAATACCTGCCATTGGCTTAATATTCTTTTGGCCTATGCAGGGGACACCTCTTAGTGGAAGCAACTCTGAATTAGTGGAGGAAGAGG
GAGCAAAGAAAGTAGTAATGAAACCAGTTCAAATACATATACATTCAAGGGCTTTATGACTAATTTCACAAACATCATATTGGGTTTTCACTATTATGTT
AGATCTTATTCCTCCAATTTTAGATGAAAAAACTAAAGCAAACCTTATCAGCAAAGCTTATAAGTGACAGTCAAGCTGTGAACCTTAATTTTCAAATTCT
ATGTCCATTTGCTTTTCTGTTAGGCAGTACAGTCAGGCACTCCTGTACTGCAGGAGGCTAACTACTCCTTTTACATTTCTTTGTTAAGACAACCTGTGGC
AAAAGGCCCACAAGCTTTACCTGGGGACTTGGAACGGGATCTGTGCCGCCGATCTCGGGACCTGCTGCGGTGACGTCTTGGACTCTTGCTCCGATGCCTT
TCTCGGCGAGGGGAGGGGCTGTAGAAAAGACTGGTCAGACTACCAGATCTGGTTAGCAATATACATATAACACCAATACCACCACCCCCTCCCCAAAGCC
CTATCCTTCATCACAAATGACTGAAGGCCTACCTTCTCCTTTTGGGAGATCGACTCCGCCTATAAAGAGGAGAGGAAGAAGAAAGCCTAGGTTGGCRCAC
TGGATGTGGTAGATTGCAAAAACRGCCCCAATCTTATYCTTCACGCTTCTCTGTATCACCCACCTCTGTATCCATGTCTTTTGTCACGTAACTCTAGCAC
CCTCCCATTCTAACTTTAGGACTGGTGACATGACTYGCTTTGGCTAATGAGATATTTGCAAATGTGATAAAAGCAGATACTGGAAAAACATTTGCATGAC
CGGGTTTGTTTGCTCTTGAGTTCTGCCACTACCATGAGAATATGCCCAACTTAGCCTGCTAGAGGATGACACAGAGAAGAGAAATTTCCCCCGTCATCCA
AGCTAAGGCAATTCCATACCAGCCAGTAGACAGCCGACAACAGAACAGGTACTTTAAAAACTGCCTATCCAAGCTCTGCTTAAATCATTGACTGCAGACT
TGTGAAAGGAACAAATGGTTATTGTTGTCTGCCAATGAGGTTTTATAGGTGGTTGTTTTGCAGCAACAGATAACTAATATATTGGGCAAACATTCTCCAT
AGACGTGCATTTTTCCTTCTCTAAAATCCAAACTTCTAGGCTACAGTGCTCAAAATCTTCTGGGAAAAGGCCAATGACTAGGCTTTACCTTCTGGGAGAC
CGGCTCCTACTCCTCCTGTAGCGCAGTGTGGGAGAGCGACGGGGCTTGTCCAAGTCTCGGTAGCTTCTCCGGCGGTGATCAGGTGATGGCACTCTTTCCA
ACTGGAAACAAGATGATTGGGTCATTGAAAGGCACAGGCTTATAAAGAGCCATCTAGGAACACTAATTATACTTCACGCCCCATCTTGTCCCAAAGTCCA
TCTCCATGTGACTTTAAAGCACAGTAACCTGACTACAAAGAGGGAAGCACTTACCCTATTAACTAACAAAACTTATTATGAGCTATATAAGACAGCCAAA
ATGACTCATAGGAGAGGGAACAGAAACAGACCTGTGTGTGTGTATGTGTGTATGTTTAGTTTATCTGCAGCCTGGGCAACATGGTGAAATCCCATCTCTA
CAAAAAAAATACACAAATTAGCCAGGTATGCTGGCACGTGCCTGTAGTTCCAGCTACTTGGGAGGCTGAGATGGGAAGACTGCTTGAGCCTGGGAGGCCG
AGAATGCAGTGAGCCACTGCACCTCAGCCTGGGCAACAGAGCAAGACCCTATCTCAAAAAAAAAAAAAGTTTGCTTCCTGGAACAACTGGGCAGCTTGGT
TGTTTTCAACTTTTCAGCACCGTAACTAGTACTGAAAGAACATGACTATGCGGTTGACATTTTCCCCCTCCTAAACAAGGTTTATTCCTTAGGATAGGTG
CAATTATGAAAGTGTTCTTTCTTTCCAAGTATTTAATAGCTGCCACCATTTATTAGGCAATTATAATGTGCCAATACTCTGCTAAGGGCTTTAAGTTTAT
AATCTTATTTAATACTTTTAACAGTCTTGGGGAAAAAAGTATCATTAACCTCACTTTACATAGGAGAAAACTAAATTTAAGTAATTTGCGTAAGATTATA
CTACTAGTATATGGCAGAGCTGAGGTGCTTTTAATAAGGAAATATTGTTTTTGGCTAGAGTTAGAAAAAAAATTTTTTTTGAGACGGAGTCTCACTTTTG
CCCARGCTGGAGTGCAGTGTTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTGCTGCCTCAGCCTCCTGGGTAGCTAGGATTA
CAGGCACCCACCACAACGCTGGCTAATTTTTGTATTTTTAGTAGAGACGAGGTTTCACCACCACGTTGGCCAGGCTGGTCTTGAACTCCTGACCGCTGGT
CATCCACTCGCCTTGGCCTCCCAAAGTGCTATGATTACAGGCTTGAGCGACCACGCCCGGCCAATAGAGTTAAAAATTAAAGTCTAAAAACAAAAAACCA
TTCCCATTTTCTATTACTCCCTCCCCTACAACCATAAAAGTCTCAGGTGCCAGACCTTCTCATCCTCCTCTTCTTCCTCTTCACTGGACTCCACATCATC
CATGTCCTCTTCCAGAGCACTAACTCGAGGCTCCAGTTGCTCAGCTTCCTCTAATACATAGCGTTTCTACAGAGAAAATGATGAGAGTTAGGGGTTGTTG
CCATTTCCCCTATTTCTTGAAACCTCAACACTGGGCTTCAGGGTTCCAAGGAGCAACAGCTGAGGCAATTTCATTTCAAAGACAGTTCAAGATTTTCCTA
ACAAGTTTAATAGACCTGAAATCTATAAAGTTCTCCTATAAACATAAATACAAACCTGAAGAGAACATCTTCATTTTCTATTGACTCTATTCCCTGTACC
TTATACTCTAAAGTCATGGGAATATCAATCAGTATAGGTACAGCCTAGAACCAAAAGTAAGGGCTTCACACACAGAGAAAATCCAAGGGCTAATAAGTTC
ATGGCTGGTAGTTCCACTAGAAGAGGCCTAGCCCTAGAGTAGTACCAAATCTCCAGTAGACCCAGGATCTCGGGAGCTGTTGATATTCATGCATTTTGAA
CTGGTTCCATTTTAATCTGGGATATGGCTTAGCAATGTTTATTTGAGTGGCTAAGGATCAGAGAGGCAAAGCTGATTTCAAAAATGCCAAATGGCTAAAT
GTAGTGGCATGTACCCGTGGTCCCAGCTCCTTGGGAGACTGAGGTAGGAAGATCCCTTGAGCCCAGGAGTTTAAGAACAGCCTGGGCAACACAGCAAGAC
ATTGTCTTGCTATAAGAATTGGGCCCTCAAAGTAGGTTTTCAAATTTATAATCTCATTCTTTCCACTACATGCCCTACAGTGCCAACATGGAACAGGAGA
GCTGTATCACACTCATTTCCTGAAAAGATGCCTCATGGATAATCGTTTATCACTAGGAAAGGGAAGCAGGATGGTGAAGGCAAGTTTAAGGAATTAATGG
CTCAGTCTCCCACTCCTGGCCCTATTTTTATCTGTTTTATGTCCTGGCTTTTTACATGAAGATTAGTTTAAAAAAAACGTTCATGAAGTTAAAAACTCCC
TACCTACTCTAGCTACAATACCCTTGATGTAACATCCTGAATAAATTTCTTTTTTCATGATAGACAGGTAATGTGCTGACTTTGTAACAAGGTTTGAGGG
AGGCACAACTCACACATGCACCTGAACTACAAAAGGATGGAGAAAAACAAAGTTTCCTTGTTTTAAACCATTCACTTTTAAAGCCCTACCCTTCAAATAT
TTTATCTATTTTCCTCTCACTCCCAATCCACTATCTTGGGACTCCCAGACAGGAAGACTATTCATTAAGAGGACCCATAAGATCCACAGGCTTCAGTGTT
TAAGCTGTGTGTATGTGTTTGTCTGTCTGCCCGTCTAGGAAGAGAAGGGTGACTCTGGTAACAGACTTTTATTTCTTACCTGTAGTCGGGGCAGAATGAT
ATCACAGACTCTCTCACTGTGCAATARTTCATCAATAAACTCATCAACATGCATCAATTCAAACTCTGCAAGAAAAAGTCATTAGAGCAAACAACCTGGA
AATAAAAGATTTAGATGCCAAAAAGTAAAAGAAGTGTTAAGACTTCATATCAGGACATCTATGTGCTAGGCCTCTTTAGAAGAGATTAAGGGATGAATGA
AGATGTCCCAATTAGCAGGAGACAAACACAAAAACAAGCACAAACAGTCCTGAATTATGTAGGGATGATCTTGAAGAGATCATATAACTCAAATATAATT
TCTCATCTGAACCTTCAATGTTTCTGAATTTAGAACATGTATCTTATATGGCACATGGAGTGATAGCTTTTGAGAACTGGCTAGGAGTGGTGGCTCACGC
CTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGTTAGGAGTTCAAGACAGGCCTGGCCAACATGGCGAAACCCCATCTCTACTAA
AAACACAAAAATTAGCTGGGCATGGTGGTGGGCACATGTAATCCCAGCTACTCAAGAGGCTGAGGCAGGAGAATTATTTGAACCTGGGAGGCAGAGGTTG
CAGTGACCTGAGACCACACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCTCAAAAAAAAAAAAATTATATGTCTATATATATGTGTGTGTG
TGTGTATATATATATATACATCTATATATATATAAAAGTATCATTAACCTCACTTTACATAGGAGAAAACTAAATTTAAGTAATTTGCGTAAGATTATAC
TACTAGTATATGGCAGAGCTGAGGTGTTTTTAATAAGGAAATATTGTTTTTGGCTAGAGTTAGAAAAAAAATTTTTTTTTGAGACGGAGTCTCACTTTTG
CCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTGCTGCCTCAGCCTCCTGGGTAGCTGGGATTA
CAGGCAATTTATATTATATATAAATTATGTTATATATAAATTATGTTATATATAAATTATATATGATTATGTATATTTATATATTTGTATGTAAATATAA
TTATAAAATGTATATATATGTGTGTGTATATACACATATACAAATACATATATATACATACATACATATACATATATAGCTTTTGAGAACTTCCATGGTA
AACATTACCTTACTTCTGGGGTTCTCAACCATGGGCAATTTTGCACATGCCCATCCCCCTACTTAGAAGGAGGTGTTACTTCCATCTAGTGGGTAGAGGC
TAGAGATACTGCTACTCATTCTATGATGCACAAGCCAATCCTCACACAAAAGTTATATGACCCAAAATGTCAATAGGTTCAGAAATTCTTAGTTTTACGT
AATAAAATAATAAATAAATAACTCCATCATGGCCATGACCATGTCCATCTTGTTCACCATGGTATTTACACCACATAGCACAGTATGTGACATGTCAATG
GCACTTAATATGTATTTATTCAATGAATGAATCAATAAGTTTAAAGTATAATACCAAATTCTATTTTTTTAAGATGGAGTCTTGCTCTGTCGCCCAGGCT
GGAATACAGCGGCGTGATCTCGGCTCACTACAATCTCCGCCTCCTGGTTCAAGGGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGC
ACCTCCACACCCTGCTAATTACTGTAGTTTTAGTAGATATAGGGTTTCACCATACTGACGAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCCAT
GTTGGCCTCCTAAAGTGCTGGGATTAGAGGTGTGAGACACCGTGCTTGGCCCCAAATTCTTAACCTTCTACTGTTTAATGATACATGTAGGGGGAAAGGT
AAATGTTCCTATCTTCTGTTATGACACCAAGTGAGAAAAGGTTTTGACTGCATTACCTGGAATCCCTCCTTAGCACATTAAGTAATCTCCTTGTAGAAGG
TATGGAGCTGCCTCTCTTGGATATACTTATTTTTCAGTGGGATTCCTGTATAAAAATGAGTAGTCTTATATGCTGCAGTGTGAATTACAGTGTTAGAGGA
GAGGCCAGTAGAAAGAACTGTGAAGATGTAAAATATGGAAAACTAATTTTGTCTGAGAGGGCTGGGGAAGGTTTTTATGGAGAAGCCATTCTGCAGCTAG
ATCTTTTGGGATGGAGCACATGTAAAGGGGGCATATGATGCAAGGCAGGGATTAACATAAGATGCACTTGGAAAGGGAGACAGACAGAGGCAGGCTGGGT
AAGGCCAACACGAAGCTAGTAGTCAGACTGAAAACTCCCRTGAGGGACAAGGGAAAACCTGCATAGAGACAGTAACAATGTAGATGAAAAGGAGCATTCA
CACTGTCTATGACAATGCAAAGGTAGAAGTACTGGTAAAATAAAAACTGGCTTAAAAATGACAATCAGGAGACTTAGCACCATACTTACCCCCATTTCGG
TTCTGGCTCTTGATTTTTCGATAGTCATTGTACAAAGGTTCCAAGTACTTGTAGCAATCAATTGCAGTGCCTGTCAGCCTCATGTAAAGTGCCCCCAGCA
TGCGGACATACCTGAGAGACAGATGACAGTGAAACAACAGGCCATCCTAGAAGTTCCTGAGTTTTACAACTAGCTGTTCTCATGACAGTAGTGGATAAAC
ATGTTCTTCTCTTTGGCAGGTAAGAAAGCTGCAATTGTGGAGGTAGAATGCAGCAGAAGAAAGACAGCTAAAATATGGAGACCTGAGTTCAAGTTCCCAT
GCTACCATTTATGGCTGTGGGAACATCATACATATTGATCAACTTTCAAATATATCATCAGTAAAACTAGAATAAAACCTATTTACCTCACAGGATTACT
CTAAGAATCAAAAGAAATACTGAATTTTATTTTATTTTTTAAGGCAGAGTCTTGCTCTGTTGCCCAGGCTGCAGTGCAGTGGCACGATCTTGGCTCACTG
CAACCTCCGCCTCCTGGGATCAAGCAATTCTCATGCCTCAGCCTCCATGTAGCGAGGATTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTGTATTTT
TATTTATGTATTTATTTATTTCTTGAGACAGAATCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCAATTCACTGCAGCCTCCACCTCCTG
GGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTATAGGCATGTGCCAACACACCCAGCCTAATTTTTGTATTTTTAGTAGGGACCGGT
TTTGCCATGTTGGCCAGGCTAGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTTAGCAACCATGC
CTGGCATATTTTTGTATTTTTAGTAGAGACGGGGTTTCCCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGCAATCCACCTGCCTTGGCCTCC
CAAAGTGCTGGGATTACAGGTGTGAGCCACCACACCTGGCCATATATTGAATTTTAAAACAGAAAGAAGATATATTTAATAACAATACAAGAACAAGTAC
ACATAAACATGACTGCTGGTTTTGGAAAAAAGTAAGTCATCTGGGTTCAAATTCTGACTCCGTAATTTACTAAGTCTGTGACACTACTGGTCAAATCATG
TGTTTTCTCAATCCTTGTAAAACGGAGATAATGCTACCTAATTTATGGCTTGGTATATAAACAAGAAATGCATTGAAAGTGCTAAGTATAGCACAGAGCA
CACAGTAAGTGCCTAACAAAAGTTAGGTATTTTCTAGCTGTTAATGCTTTATTAGAGTCGTTCCAGCCAGGGGCGGTGGCTCACGCCTCTAATCCCAGCA
CTTTGGGAGGCGAGGCAGGTGGGTCACCGGGTCAGGAGATCGGGACCATCCTGGCTAACGCGGTGAAATGCCGTCTCTAGTAAAAATACAAAAAATTAGC
CGGGTGTAGTGGTGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGCCGAGCTTGCAGTGAGCCGAGACTG
CGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCTGTCTCAAACAAAAAAAAGAGTTGTTCCTCTTCCCTTTTTCCTATATCTAACTACTTAAATT
TCCTCTTGGGTAACTAGGAGGCTTTTGAAAGTCATAGTTTCTTTGTACGAGAAGCAGAATACTGTAGCAAAGAATATGAACTCTGAAGCCAGATTTGCCA
CTTACTAGCTGTTTGAACTTGGGCAAAATTAATTAATCTCTGTGCCTCAGTTTCCTCTCCTGTAGAATAGGGATTAAAAGTTTAGAAGGTTGTTGTGAAA
GTGAAATGAATTATTATATGCAAAGCCCTTACAGCATGGCACATAAGAAGCTATTATGTCTGTCTCCTATACTTGTTTGTGATTTCCTCGAGAATCGGTA
ATACGGTAATAAGCTGACATTTTCTAGGTGTTTACCATGCAGCAAGTGCTGTGTTCAGAGATCTGCATGCATTACGTTCTTTCACTCTTATATTATAGTC
ACCATTTTACAGATAAGCAAAGTTTAGAAAATTAAGTAACCTCTCCAATGTCATAGTTAATGGGCAACAGAATCTGGATGTGAACCCAGATCTTACACCT
CTTAACCACCACCTTTTGTTGTTTGATTTTCACCCCTGAGCGTCCAGTGCCTACCAACATATCAGGCACTCACTTTTGCTTAATATGTATTTAGTGAATC
TGTGAAATCCTTTTTCAGGGAAAAATTACCAAAACTGAGAAAGTAAAGTAGAAGATTAATACAATCAGAACAGATAAAATACAAACTTGGCAGGGTGTGG
TGGCTCATGCCTGTAATCCCAGCACTCTGGGAGGCCCGGGGGGGGAGGGGATTACCTGAAGTCTGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACC
CCATCTCTACTAAAAATACAAAAATTAGCCAGGCGTGATGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCACTTGAACCCAG
GAAATGGGGGTTGCAGTGGGCCGAGATCGCACCACTGCACTCCAGCCTGGGCAACACAGAGAGACTCTGTTTCCAAAACAAAAAACAAACAAAAAATACA
AACTCAAGGGCTCAAAAGCAAAAATCTGGAGTGGAACTCTCTAGAAATGAGATACATTGTGTACACCCCTCTTAACCAAAGCCCAATTCTAAACCGCCAA
AATTAAACCTCTTATATTAGCTAGTGAACATTGCACTCACTTGAAATCTTCATTTTTGATAAACTCTACAATGATATCCTTCTCGGGTTGAATTTGAAGC
ATCTTCAAGGTTAAACACAGAAAGGGTGTTGGTTTTATGTTGCCACCATAGACGCCACCCACAAACCTTAACTCCATGGCTTTATCGACTACAAGTTCAG
CTAAAAAACAAAAACAATACAGTAACATATTAGGGCTAAGCTCTTCCTAGTTGGAGTGGAGTTAGTTCAAGCTTTGGTTCTCCTAAATATACATCAACAG
TGTAATATTAGGAGAACGAATGTGTATTAATAACAGTAACGACAACAGCTAATATACATTGAGAATGGATAATAAAATAGGTACCCTGCTAAGCTTTTCA
TATTATCTCACTTAACCTTTTTTAACAAGTCATGAAGAAAGTTCTAGCAATGTTCTTATTTCCAGGTAAGGAAAATGAGGGCTAAGAAAGGTAAAGTGAC
TTGCTCAAGGTCCACAGATTGTCACAGGACATGGATTTAAAGCCACAATTCAAATCGGAAGATTACCTGGAAGACTTCTCTGAAGCACTGATATTTATAA
ATACTGGAACCGGCCCAGATCTAAGAATAGTAAGATCATGAATTTGGTTTCAGGCATATTAACGTTAGGTCCTTAAAGACCTTCAACAGATTGTGTCAAA
GTGTTATATCCGGATCCCTGAGCTTAACACTGTTGCAACCCAGCCTGCTATCATTAAATACGGAATAACTCACAACACCCAACTGAGACAGCCTTCAGAA
TATGACCTTACCAGATTCATCTGTGCCTCTAATACTCAACACAAGACGAGGCACTTAGCAGGCACTCAAAATTTTTCTGAATGATCGACATACTCCGTTC
CAGTACCACCCCCAGAGGCCAGTCGCTAGTCCTACCCGCGCTCGGTCAGGAGAAATGGGCCACAAGGGGGCTGAGAGGCGCTCCGCGCGCTTCCACTTAC
CTGTAAGTCCAAAGCACTCCTCTTTCCAGTACTTGGACTCATAGATTCGCGTTCGAATGATCTTCTCCACCAGATATTGAGGGTTGGTGCCATGGATGCT
GTGCGCATCCTTCACTGTACGGTTAGCCATTTTAGAATGCCTTCAATTCTATTTCCGTCGGATCCTTTAATGCCTCACATCCAGGTTCAGAAAAAGCACC
TAGAGGAATGGAGAAAGGTGGAAGAAGTTTCACTAAACAGCTTAGGCGACCATCTTGAAGCCGGAAACACCGTAGTGTAAAGGGCTTCCGCTCCCCGCGT
CGCCTATCGAATCAATGATGGCGGCTGCATGTTAGCGGATGTACGTCATGCGCCCCTCTTAGGTGTACGGAGTGGGCGGGGCGAGCTAGTTGGTGTCGCA
ACGAAGGGACGGTCTGGGGGCGGGGCCACGCCGATTGGCGCGAAGTTTTCTTTTCTCCTTCCACCTTCTTTTCATTTCTAGTGAGACACACGCTTTGGTC
CTGGCTTTCGGCCCGTAGTTGTAGAAGGAGCCCTGCTGGTGCAGGTTAGAGGTGCCGCATCCCCCGGAGCTCTCGAAGTGGAGGCGGTAGGAAACGGAGG
GCTTGCGGCTAGCCGGAGGAAGCTTTGGAGCCGGGTGAGTGTGGCGTCCAGCGGGCTGCGAGGGACTCGGGGGAGGGCGCATCGGAACCTCTGAAACTGA
GGACGTTCTCTGTAGACTCAGTCATTGATTCTTTTAGCTGACATGTACCAAGCGCCTGTTCAGTGCCAGGCACTGTTCTGAACTGTTAAGAGCGTTCCTC
TGTTCCACACTCCGATTCCTAAAAGGCTTCCCGCGCTGCAGGGAACTGAGTTTGCAGGGGGGAAGGCGGAAGCCAACAGCCTAGAAGCAGGAGCATTCCT
GCCCTCCGCACCCTGATGCTCAGTGATGACTTTCCCTCCATCTGCATTTGTAAAGCACTCTACTTGTTTCGTTCTTTGAGCTATAGTGTAGGAACCACTA
CAGGGAAGGCGGAGCAGAGGTTATTACCCCATTTTACGGACGTAAATTGCGCCCAGGGAGGGACGTGTCTTAGGTCGCTTTTCGTGACTAAGCAGTCTGG
GCTCCTACCCAGATCTTTTTTTCAGATGAGCTCCTAACTGCTGGGCTGTCTGTCATTCACCTTCTTTTCAGAAGAGAAGTCTGGTGGCCCCCTTCCTACT
TCTCTTTTCTAACCCCGGAATTGAAGAGTCTTCTGCTGTGACAGTTGGAAAAGGCATTCTTATCCTGATCTATTTGTGAAACTGCAATGATTATATACGA
TTCTAGTTGTCTGTAACACATGAATAATAGTACCCTCGTCTCTGCTGTGTTAGGTGGGCTGGAAATGCCAAAGGAGTTTCCAATATGACAGAATGGTTTA
AGTCCCTTTGCAACAGTTTTTAACTTTAATGGAGGGCAATATGTGGACTTTAGGAGGTTTGTGAATCTGCCGAAATTGAATGCAAAATTTTGCTTGAATT
ATGTTAGTTCCATAGTATTCATCAAATGATACTTAATAAATAAAACCACTGTACCTTACAAATAAATGCAAGGGATTAAGGTAGTGGGAAAGTGGATTTA
CCATTTTGCATTTTTTCACTTAATCTTCCATTATCCTAAAATAGTGCCTGGCACACGATGGGTACTTAATAAATATTGGTTGAATAAACGGAAGATTCTA
TTTTCTCCATTTTGTGGGTAAGCAAATTGAGGCCCAATCCACAATGTTCAGTCAGTGGCTGGGAAGCCTGATTTATTGTAATAAGTACACCAAAAGCAAG
CTCTCAGTTACATATTAACATTATCCAGTTTCACACAGTGTGTTGTAAGGTGAAGTAGTTAAGAGCACAGTAATTGCAGTCTGGCTTTTCCGGGTTTGAG
TTAAGGCTGTGCCATCCTGTATAAGATAGGATAAGTTATCACCTTGAAGTGATAATAACATCTACTTTTCTTTTTTTTATTTTGAGACAGAGTTCTGCTC
TGTCACCCAGACTAGAGTGCAGTGTTGCGATCTCGGCTCACTGCAGCCTCCACCTCCCGGGTTCAAGTGATTTGCCTGCCACCATGCCCACCTGATTTTT
GTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCCCGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCTCAAAATGCTGGGA
TTACAGGCGTGAGCCACTGCGCCCAGCCTTTGTATTTCTGTTTTATCCTTGTGTGCATTTTATAAGCGTCATGAAGACATTTACAACCCCTGTATCACTG
TCTTTTAATTTCACTTTGTTAGATGTTTTACACCTATTGTTCTGCCTTATTCCTAGTATTTCTAAATGTTACAGTTTCATTTCTTAGGAATTGACCTTTC
TGTTTTCCTGGATGGAAAGAGATACGGCATAGTACAAGATGGACACAGATGATACTAAATTGCCTGTGTGTAATCTTCGTAGACCATGACTTCAAATAAA
ATGTTTTCTTAGTCTAAAATGTATGGGAGTGTAGCAGGGGCAGAAAATAAGTCTGATCTCATTTGAAGGGAGGGACTGACTATGTCTTAGAATCCA


SNP Information

Context             (SEQ ID NO:65529):
AATGGCTGCAAGTTAAATTTGAAATCAGTTTTGGGGACAACATTGGAATAAGACTAAATAGCAAGACCACTTTTCTTTTTTTTTTTTTTTTTTTTTTTTG
K
TAATACGAAGTCTTGCTCTGTTGCCCAGGCTTGAGTGCAGTGATGCGATCTCGGCTCGCTGCTGCAAACTCTGCCTTCTAGGCTGAGACAATTCTTCCAC
Celera SNP ID:            hCV26412896
SNP Position Genomic:     48764
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,4)   total(G,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65530):
TTATTTTTTATTTTTGTAGAGATGGGTTCTCATTTTGTTGCCCAGGCTGGTCTTCAACTACAGGGCTCAAATGATCCTCCCACCCTAGCCTCCCAAAGTG
Y
TGGGATTACAGGTGTGAGCCACAGCACCCAGCTTTGCTAAGTCTTCAAGCAAGGTACTTCACCTATCTGAGCTTCAATTTTTTTCACCTGGAGAGAATAT
Celera SNP ID:            hCV1918072
SNP Position Genomic:     71884
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65531):
CAAGGGAGTAGTTTAGGTGATAATAATTAGGAATTTTCCAGAAATGTCAGAAGATGCCTATCATTAGTTCCAGGAAGCTCGGGCTTGCAAGCAAGAAACC
T
TTTTTTTTTTTTTTTTGGAGACAGAGTCTCACTCTGTCTTCCAGGCTGGAGTTCAGTGGTGCAATCTTGGCTCACTGTAACCTCTGCCTCCCAGGTTTAA
Celera SNP ID:            hCV26412897
SNP Position Genomic:     50736
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65532):
GGGGGTTCAGGACAATTCTAGTATATAATTTACTCTTATAACTGTGATATGAGATTGCAGTTGATTATTCTCTGGCTGTCTTAAGTAGTTATAGTCTTTG
M
ATTTTAGTAATGGGAAATAGTTTTCTAGATAAAGCTTCTTAACTCTAGGTGGCAGAACTCTTTAGCCTTATCATCAGTACATTATTAGTCAAGTTACCTG
Celera SNP ID:            hCV1918073
SNP Position Genomic:     72687
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65533):
TTGCATTCCAGGAATAAATCCCATTTGATCGTGGTGTACAATTCTTTAACTGTGCTGCTGATTTCAGTTTGCTAGTATTCTGTTGTGGATTTTTGCATGA
R
TGTTTATACTATTTTCATTTTAAGCCTCAGCCTCCCAGGTAGCTAAGCATACATTCAGTGACATTAAATTTATTTACATTATTGTGCAACTATCACCACC
Celera SNP ID:            hCV7843325
SNP Position Genomic:     16714
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65534):
ATCAGCTGGGAGGATCGTCTTAGCCCAGGAATTCGAAGCTGTAGTGAGTTAGAATGGCATCACTGCACCCCAGCCTGGGTGACACAGGGAGACCCTGGCT
Y
TGAAAAAAAAAAAAAAGTACTTTTTCTTGATAATTATTAAGATATAGTTGGTTATTTAAGGTTAGAATTTCATTTAATACCCATTTACCACATTCTAAAA
Celera SNP ID:            hCV16168519
SNP Position Genomic:     27837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65535):
TCAGTTTCCTGTCTGTGTTGTATCCAACAGACAGATGTGCCACCCGTCGGTGTAGAGAGCGTTGTCCCCACCCACCAAGAGGAAACGTGTCGGAGTAATG
M
GAGTCCATTTTCTTTCAGCTGGTCTACCGATGCACAGCAACCAGCCAATCCTGCTGTCTCAAGGGTATCCGTACCTCAATGTCAGTTACATTCAGCAGAA
Celera SNP ID:            hCV25750633
SNP Position Genomic:     135148
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(A,1|C,37)   total(A,1|C,71)
SNP Type:                 UTR 3


Context             (SEQ ID NO:65536):
CACTGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTTGTGATCCACCCTCCTCAGCCTCCCAAAGTGCTGGGCTTACAGGTGTGAGCCACGGCGCACAG
S
CTGTATGTAGCCATCTTATCTGTATTAAACCAAACATGATTTCATAATGGTATATCCAACTCGAACTCATTACCACATGGCTCGTTTTAGCCCCCACTCC
Celera SNP ID:            hCV1918074
SNP Position Genomic:     89471
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65537):
CCGTATTGTAGGTATCTGGTAGATGGAAGGTGAATATTTTTGTTGAGTTAGTTTATTTCTGTCTTTCCCTGCTAAATATAAGAACAATTAAAATAGAAAC
T
TTTTTTGTTTTTATTGTTGTGAATCATTACATTAATAGGAAAAACAAGAAGAAAGTGAGCTTCGTTCTCTGCCACCTCCTTCCCCTGCCCACTTGGCTGC
Celera SNP ID:            hCV26412899
SNP Position Genomic:     61859
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65538):
CTGCCCGTCTAGGAAGAGAAGGGTGACTCTGGTAACAGACTTTTATTTCTTACCTGTAGTCGGGGCAGAATGATATCACAGACTCTCTCACTGTGCAATA
R
TTCATCAATAAACTCATCAACATGCATCAATTCAAACTCTGCAAGAAAAAGTCATTAGAGCAAACAACCTGGAAATAAAAGATTTAGATGCCAAAAAGTA
Celera SNP ID:            hCV25922273
SNP Position Genomic:     147927
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,2)   total(A,2|G,30)
SNP Type:                 INTRON


Context             (SEQ ID NO:65539):
AGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGGTCATGCCTTTGCACTCCAGCCTGGGCGACAAGAGCGAAACTCTGTCTCAAAAA
W
ATATATATATATATATATATATTTTTTTTTTTTTTTGAAATAGGATATTACTCTGTCACCCGGGCTCAACTGCAGTGGTGCAATCATGTGATCAGGGTTC
Celera SNP ID:            hCV8330392
SNP Position Genomic:     92398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65540):
AAAAGCAGATGGATTTATTATGTAAGTCGGAAAAAGCTAAAAGTCTCAATGATTGTTTGGATGTGGACATTGAGAGACAGATATTAAGGATTGCACCTGT
R
TTTCTGATGTGGGCATCTGTGTACATGATGGTACTATTTGCTAAGAACAGGGATAATAGAAATAGTAATAGATTTGGGGCAAAGTTGATAGTTCAGACGT
Celera SNP ID:            hCV1918077
SNP Position Genomic:     93569
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65541):
TTGTAAACTTGCTGTAATTGCTTATTCTTGGAGTATTGTTTCAATTTGGATTTTATGCATGGATTATCATGTCATATGTGAACAGTTTTATTTCTTCTCA
M
CCTGTATACCTTTTATTTCCTTTTCTTGTTTCATTGCATTAGCTAGAACTTCCAGTGTCAGCATTACCTAAGACTTCCCAGATGTTGAAAAGGAGTGGTG
Celera SNP ID:            hCV1918079
SNP Position Genomic:     105293
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,3)      total(A,3|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65542):
AACATCTTTCTTTAATTCGTATGGAACTCTAGTTATGGAATGACATGTAGTTTTCAGTTAGCTCTAAATTTATTAAAACATTTGTTTTTATTAGGGCTTT
W
ACGGTACTATGTTACAATATGATAACTAGAAAGAAAATAGCCACAGGATTTGAAGTATTCTGCTTTTAAGGGTATTAATACAATGAAATTTGTTTCTTTC
Celera SNP ID:            hCV25759866
SNP Position Genomic:     69935
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,1|T,35)   total(A,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:65543):
AAAGCTAACTACAAGTTAATTCTAAGGTGTTGTCAGATAAACAGGCACAAGCCTTTCAGTTTCCTGTCTGTGTTGTATCCAACAGACAGATGTGCCACCC
R
TCGGTGTAGAGAGCGTTGTCCCCACCCACCAAGAGGAAACGTGTCGGAGTAATGCGAGTCCATTTTCTTTCAGCTGGTCTACCGATGCACAGCAACCAGC
Celera SNP ID:            hCV25752677
SNP Position Genomic:     135093
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65544):
GGTAGTTGCTTCTGAGGAGAGAAATTGGGAGTTGGCAAGAGAGTACTGTTTTTCAACCATGTAAATGTATTTGTTTTATTAAAAACAGATTAGAGGCAGG
S
GTGGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGAACATGAGGTCAGGACCATCCTGACCAACATGGTAAAACCCCGTATCTGCTAAAAATACAAA
Celera SNP ID:            hCV16168520
SNP Position Genomic:     26924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65545):
ATCCTTCACGCTTCTCTGTATCACCCACCTCTGTATCCATGTCTTTTGTCACGTAACTCTAGCACCCTCCCATTCTAACTTTAGGACTGGTGACATGACT
Y
GCTTTGGCTAATGAGATATTTGCAAATGTGATAAAAGCAGATACTGGAAAAACATTTGCATGACCGGGTTTGTTTGCTCTTGAGTTCTGCCACTACCATG
Celera SNP ID:            hCV25922029
SNP Position Genomic:     144636
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,2)   total(C,31|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65546):
AGGAAACTTTTTGGTACCCCTTTTTATCCACTCATTGGCAGAGAAGCTGTAAGTTTACATTATATGAATTGTGAATCTTTTCTTTTTTTAAATAGAACAA
R
AAACTTAATTGTGTTTCCAAACTGATGTTAGATATAGGGAAAGAGATGGTCATAGCTTTGTATATTTTTTCTTATTGCATTTATCATAGTCCATAGTGAG
Celera SNP ID:            hCV16180859
SNP Position Genomic:     113346
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65547):
TGGGAAGGAGATTGTCCAAGCTCCAGGGAAGAAAAAGACTGATTGGACAGGGAAGAAGTGTCCCAGGCCTTCTCAACAGCAACTAGCAAAGGAGGGTATC
Y
TTGTAGATGTTCAGTCCTTTACCAGCCTAGCTATTGTTATTTATGTTTCAAAATGCGGGACTGTTTGCAAGATTGGGGTGAGGCCCAGCTTCTGGCATCT
Celera SNP ID:            hCV25751988
SNP Position Genomic:     95413
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,3)   caucasian(C,40)   total(C,53|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:65548):
CAGGATCACTTTCAGGATCACTTCTTACAGCCATGGTTCATTAAGTGTGGCCCCCCAGTCCAGCCACATCAGCTGGGAGGATCGTCTTAGCCCAGGAATT
Y
GAAGCTGTAGTGAGTTAGAATGGCATCACTGCACCCCAGCCTGGGTGACACAGGGAGACCCTGGCTCTGAAAAAAAAAAAAAAGTACTTTTTCTTGATAA
Celera SNP ID:            hCV16168526
SNP Position Genomic:     27770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65549):
TAGACTTTTTGTTATTAATCTTAGAGCAATTAGAGTTGTTTACTGGGTACTAACTGAATTGTTTTAATTCTAGAATCCTAAATAATTACATAATTTGGGG
K
AAATGTTTAAAAACCATCATTTCTGCAGAGTATTTTTCTTTCCTTTTTTAAATCTTTATTTTATTATGTACAGACTATATTCAAATAAACCACACACTCT
Celera SNP ID:            hCV8330364
SNP Position Genomic:     8914
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,5)      total(G,5|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65550):
TCTTTTGTTTCAGATATTAATAGCTGCAATTGCCTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAATCTCGCTTAGTCACCCAGTCTGGAGTGTAG
K
GGCACAATCTCAGCTCATTGCAACCTCAATCTCCTGAGTTCAAGCGATTCTCCTGCCTCCGCCTCCCAAGTAGCTGGGACTACCAGCACGAACCACCACG
Celera SNP ID:            hCV1918080
SNP Position Genomic:     110531
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65551):
CATTTGGCTGATTTTTGTTTGTTTTTTTTTTTTTTGTAGAGACAGGGTTTTGCCATGTTGCCTGAGCTGGCTTTGAACTTCTGAACTCAAATGATCCTCC
Y
GCCTCAATCTACCAAAGTGCTGGGATTGCAGGCATGAAGCACCGTGCCTGGCCCTAACCTAGAATTTTATACCTAACTAAATGAGGTGTGAAGATACAAT
Celera SNP ID:            hCV8330365
SNP Position Genomic:     24457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65552):
AAGTAGCTGGGATTACAGGCATGTGCCACTACGCCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTGGTCAGGCTGGTTTTGAACTC
Y
GGACCTTAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCGCTGTGCCTTTCCGAGACTTTTTAGTAGAATGCTAAATTA
Celera SNP ID:            hCV1918081
SNP Position Genomic:     116005
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65553):
AAAGACAGTGAAGAAGAGAAGGAAGGGAATGAAGAAGAGAAAGATTCCCGAGATGTTCTTGACCCCCGAGACCTCCACGATACTCGAGACTTTAGAGACC
Y
GAGAGACCTCAGATGTTTTATATGTGGAGATGCTGGACATGTACGAAGGGAGTGCCCAGAGGTCAAGCTGGCCCGTCAGAGGAATAGCAGTGTGGCAGGT
Celera SNP ID:            hCV25760085
SNP Position Genomic:     122227
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65554):
TGTAGCACTTGATGAAACAGAACATATCCTGTTTCTGTTTTTAAAGTAATGAGAACTGTTAGCTAATAAAATTGGATAATCCCAGCCAGATATGATAATT
Y
AGAGAATACCACCGAGAGGTGTTGAATTGTGGGATGGTTTAAAAAGAAAAGCCGACTTTGTGTGTGTGTGTGTATGTGTGTGTGTGCGCGCGCGAGCGCG
Celera SNP ID:            hCV288342
SNP Position Genomic:     7308
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65555):
ATCTTCATTATGTCAGTGTTAACAACTTACACAGGTTGAGCACTCCAAATCTGAAGCCTGAAATTTACTGAGCACTGACATGACCCTCAAATGAAATGCT
Y
ATGTGGAGCATTTGAGATTTCAGATTTTCTGGTTTGGGGTGCTCAGCTGGTATAAATGTAATGCAAGTATTCCAAAATCCAAAACACTTCTGATCTCAAG
Celera SNP ID:            hCV1918082
SNP Position Genomic:     116469
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65556):
TTCATTATGTCAGTGTTAACAACTTACACAGGTTGAGCACTCCAAATCTGAAGCCTGAAATTTACTGAGCACTGACATGACCCTCAAATGAAATGCTTAT
R
TGGAGCATTTGAGATTTCAGATTTTCTGGTTTGGGGTGCTCAGCTGGTATAAATGTAATGCAAGTATTCCAAAATCCAAAACACTTCTGATCTCAAGCAT
Celera SNP ID:            hCV1918083
SNP Position Genomic:     116472
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65557):
CTCAGCCTCCCAAAGTGTTGGGATTACAGGCATGAGTCACTGCACCTAGCCTACAGGCAATTTTGTACAGAGAATAATTCCTTTCCAGAAGTAGCCCGAT
R
TAGCAGAAAGCATGAGTTTTGTTGTGAGACAGACTTAGCTCTACATCTTTTATGTGAGACTTAACCTGTTTTTTCTATGGGCAAATGACCTGAACTCCTG
Celera SNP ID:            hCV1918084
SNP Position Genomic:     120342
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65558):
TTTGTATATATGTCCTTGCTAGGCACATAAGGTGGAATGAGCATTCCTTTTGGAATAATGTAGATCTGGGTTTCTGTCTACAGAGAAGCTACTTAATTTA
Y
ATGAGCCTACTCTTCAATTGTACAATAACTACCTAATAAGATGGATTAAAAATAAGGTAATGACTTTGAGGTTTCAGACTTTGCTTAGTGGAAAAATATC
Celera SNP ID:            hCV1918085
SNP Position Genomic:     123929
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;JBIC-allele(C,288|T,1179)   total(C,288|T,1179)
SNP Type:                 INTRON


Context             (SEQ ID NO:65559):
CCTTTTGGGAGATCGACTCCGCCTATAAAGAGGAGAGGAAGAAGAAAGCCTAGGTTGGCGCACTGGATGTGGTAGATTGCAAAAACGGCCCCAATCTTAT
Y
CTTCACGCTTCTCTGTATCACCCACCTCTGTATCCATGTCTTTTGTCACGTAACTCTAGCACCCTCCCATTCTAACTTTAGGACTGGTGACATGACTCGC
Celera SNP ID:            hCV25921590
SNP Position Genomic:     144538
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,2)   total(C,31|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65560):
GATGAAAAAATATTTTTAAAATGTGTCCACAGTAAAATAACTACATGTAATATTATTCCTTTTAACAAAAATATGTATCTTTGTATGAATTTTAAAAAGA
R
TGAAAAAAATGATCATCAACATTTTAATGGTTATTTTAGAGTGATGATATTTCAAGTTATTCCTTATATTTTTCATTGTCATTTGAACTTTTTACAATGA
Celera SNP ID:            hCV25759726
SNP Position Genomic:     76974
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,39|G,1)   total(A,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65561):
CCCAGCTACTCGGGAGACTGAGGCAGAAGAATTGCTTGAACCCGGGATGCGGAGGTTGCAGTGAGCTGAGATTGCGCTGCTACACTCCAGCCTGGGCGGC
W
AAAGTGAAACTCCGTCTGGAAAATACAAAAACAAAAAACCTTCATATGCAAAAAACTACTGCCTTTTGGGTAATTAAAAAATATTTGCTTTGAATATTAT
Celera SNP ID:            hCV26412901
SNP Position Genomic:     65962
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65562):
ATATAAATAATTATATTAAGAAGCAGCCAGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGATGCCAAGGTAGGCAGATCACCTGAGGTCAGGA
R
TTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAGTACAAAAATTAGCCGAGCATGGCGGCGGGCACCTGTAATCCCAGCTACTCAG
Celera SNP ID:            hCV25921665
SNP Position Genomic:     142548
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,1)   caucasian(A,2)   total(A,29|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65563):
TGAGGTGGGAGGATGGCCTGAGCCTGGGAGGTTGAGGCTGCAGTGAGCCGTGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTC
A
AAAAAAAAAAAAAAAAAGCCTCTCTTCTCAAGGATCTCACAATCCATTAGAATTTAGAGTTTAGTTTTTATTTCACTTACATTGAATGAGTTGATTTAAA
Celera SNP ID:            hCV26412902
SNP Position Genomic:     68913
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65564):
AGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTGCTAAAAATACAGAAATTAGCTGGGCATGGTGGCCGGTGCCTGTAGTCCCAGTTACTCGGGAGT
Y
TGAGGCAGGAGAATCGCTTGGACCTGGGAGGTGGAGGTTGTGGTGAGCCAAGATTATGCCACTGCACTCCAGCCCGGGCAACAGAGTGAGACTCCGTCTT
Celera SNP ID:            hCV26412903
SNP Position Genomic:     87946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65565):
TACATATGTATAGCAGTATCAGAACTGTTAACCAATACCCCTGTGGGAAACAACTTTATTAACTAGAGTACCGTGCTTATGTATGGTTTCTTTTGCCCTT
A
GTCTTATCGATTCCACTCATTTTCAAATTTACTTAGGTCAGCACCTTTCCCCCCACTCCCTCATGTGAAGTTGTTTCATACATTTATAATATAGTTAGAT
Celera SNP ID:            hCV26412904
SNP Position Genomic:     89732
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,6)   total(A,4|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65566):
ACATGAGACAGAAGACAGAATTACAACAGATTGGAAAAAAAATTCCAAGCTCCTTTACTTCTGTGGACAAAGTGAATATTGAAGCTGTAGGGGGAGAAAA
R
TGTGCTCTGCAAAACTCACCACGATCTCAGAAGCAACAGACATGTACAGATAATACTGGTGATTCTGATGATAGTGCTTCAGGAATTGAAGACGTATCGG
Celera SNP ID:            hCV27488537
SNP Position Genomic:     33408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65567):
GTGGGTTTTGACAAGTGCATTGTGTCATGTATCCACCATTAGAGTGTCATACAGAATAGTTTCACTGCCCTAAAACAAGTTAACGAATTACATTAATTTT
W
TTTAACTCCCCTTCTTCTGTAAGCACTGATAACTGCATTTGTTTTTAAAAAGCTGAATATTAGTTTAATTCATTATAACAAATTCTTAATAAATTACTGC
Celera SNP ID:            hCV26412905
SNP Position Genomic:     90036
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1|-,8)   total(A,1|-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65568):
GTGCTCTGCAAAACTCACCACGATCTCAGAAGCAACAGACATGTACAGATAATACTGGTGATTCTGATGATAGTGCTTCAGGAATTGAAGACGTATCGGA
Y
GATTTAAGTAAGTCATTTTTTGGAGGGATTTTTGTATATTAATGTTCTTTAGATTATCCCCGGTTTAACCATTTTAATTACAAAAAGTCATGTTTATACA
Celera SNP ID:            hCV27488538
SNP Position Genomic:     33510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65569):
TGCTTAATGCAGTTTCTGACATATAGGTCTTCAGCACGTGTTTTTTGACTAAATTAATAATTACAACAAGTACTATTGAGAAATTTTCTTTGAATTACAA
R
TGATGTTAATCTATCTGGTTTTTTTTTGTTGTTGTTATTTTTGTTTTGTTTATTTTGAGATGGAGTCTCGCTCAGGCTGAAGTGGGAATGTAGTGGCACG
Celera SNP ID:            hCV16154482
SNP Position Genomic:     67340
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65570):
TGGTGAACACGGTGAAACCTGGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCACGGTGGCGGGTGCCTGTAGTCCCAGCAACTCGGGAGGCTGAGAC
R
GGAGAATGGCATGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATAGCACCACTGCACTCCGGCCTGGGCGAAAGAGCAAGACTCCGTCTCAAAAAAA
Celera SNP ID:            hCV26412906
SNP Position Genomic:     96783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65571):
TGCCACTGTATAACTTTCCCCAGTCACCACCAGCTCAGTATTCTCCCATGCACAATATGGGATTGTTGCCAATGCACCCTCTCCAGATCCCTGCCCCGTC
Y
TGGCCCATCCATGGCCCAGTGATCCACTCTGCACCAGGCAGTGCCCCCAGCAATATTGGCCTAAATGATCCCAGCATCATCTTTGCACAGCCTGCTGCCA
Celera SNP ID:            hCV25753482
SNP Position Genomic:     127871
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,36)   total(C,67|T,5)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65572):
CTTTAGGTGTATAATCATCTGTCTGTCTGTCCATCCATCCTCCCTTCCTCCTTCCCTCTCCCCCCCTCCCCTGCCCTCCCCTCCCTTCCTCTCCCCCGTC
T
TTTTTTTTTTTTTTTTTTTTTTAAAGGTAGCGTCTCACTCCTGTTGCTGCCCGGGCTGGACTGTGCAATCATGGCTCCCTGCAGCCTCAACTTCCCAGGC
Celera SNP ID:            hCV26412907
SNP Position Genomic:     103450
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65573):
GTTGCATCAGTCTTGCAGCTTTGTTCTTCTCCTTCAATATTGTGTTAGCTATTCTGAGTCTTTTGCCTCTCTATGTAAACTTTAGAATCAGTTTGTCTAT
R
TCCACAAAATGACTTGCTAGAATTTTGATTGGGATTGAATTGAATCTGGAGACCAAGTAGGGAAGAACTGACATCTTGACAATTTTGAGTCTTCCTGTCA
Celera SNP ID:            hCV26412908
SNP Position Genomic:     104869
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65574):
GGATAGTACTGTATAGACATTGTTCTTTTCTTTTTTTTTTTATATGTAGAAAAAGCGTTTACCTTCACTTGGAAAGAACACAGAATCATTAGGGGAGCTT
Y
GGCTGGGACTGCTTCGTTTCTATACTGAAGAGTTTGATTTCAAGGAATATGTAATTAGCATTCGGCAGAAAAAGCTGTTGACAACTTTTGAGAAGCAGTG
Celera SNP ID:            hCV8330401
SNP Position Genomic:     112689
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65575):
ATCAGCATTTATAGATGAACAGTTGCTCTCAGTTTTAATGATAGGGAACACTAACTTTGAACCCCAATTAAATGAACTGTTATCTCCCTCCAAAATAATT
M
TATTCTTAGTGGTAAACTTATAAAAGATTATATCTAATTATTAGTATTAGCATATTTAACATTTCTTCAATAAAATTTTTTTGTGGAAATTTGCTTTCTC
Celera SNP ID:            hCV8330402
SNP Position Genomic:     118169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65576):
TATTTTTAAAATGTGTCCACAGTAAAATAACTACATGTAATATTATTCCTTTTAACAAAAATATGTATCTTTGTATGAATTTTAAAAAGAATGAAAAAAA
Y
GATCATCAACATTTTAATGGTTATTTTAGAGTGATGATATTTCAAGTTATTCCTTATATTTTTCATTGTCATTTGAACTTTTTACAATGATTAGGGTAGG
Celera SNP ID:            hCV25759698
SNP Position Genomic:     76984
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:65577):
GCTAAGGTAAGTGAAAGAGAGGAAAACTACTTATTTATATTTTTAGAAGGAAATGTATTTAATCTTCAAAATTAGGCCTTTTCTTGTACTGACATGTAAC
R
TCAATCATAACATGTGGGAGAAAGTAGTTTTCTGTGCTAGACAGAAAGTTGGTGTGGCAGGTTGTAATTTATGGACATAAAAATAAATTTTTGTAGACAC
Celera SNP ID:            hCV25753773
SNP Position Genomic:     70267
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65578):
CCAAATGAGCAGGTGTGCCATAAATGTTTGTTCCCTTGCCTTCAAAAAGACGCATGAAATGATGGGCATGTTAGTCCTTTTGTTATTGTGAGAGTCCTGC
R
TAGTTTGTTCTGTGACTCACTTAATTTACAAGTCCCTAGCCCCACATTATTGGTATCAGCAGTTTACTGTTTAGACTAAAGAAGAAAGACAGTGAAGAAG
Celera SNP ID:            hCV25758600
SNP Position Genomic:     122042
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,2)   caucasian(A,38)   total(A,68|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65579):
GCAAAGAACTGGGGCTGAAGGAAGTTACTATTAGTCATAAGCCCTTTTAGGAGGGGAGAGTCTGCAACTCTTTTCTAGTGGGTTTTTTCCCTTTGATTCC
K
CCTCTCCATCTTTCGTGTCCTCTCCTTTTTTCACATACAGGTATTTCCTTCCCTTCTTCATTTTTCTCCCCACCCTCTCAAATGTTTTGCAGCATGCTTT
Celera SNP ID:            hCV25751160
SNP Position Genomic:     134861
SNP Source:               Applera
Population(Allele,Count): african american(G,10|T,26)   caucasian(T,40)   total(G,10|T,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:65580):
GTTTAAGTTACATGTAAAAATTATTTACTATGATAAGAAAAGGAATGAATTTTTATGGGTTTAGTGACTTGAATGACTTTCAGACATTTTATGAACTTGA
R
AAGTAGACTTTTATATATACAACTGAGGATGAAGTTAAACTTTCTAAGAAACTAAATCTTCTTGATCTGTCCCAATCATATTATTTTCAAATTGGCCTCT
Celera SNP ID:            hCV11286161
SNP Position Genomic:     62865
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,11)   total(G,2|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65581):
TATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCCTGATCCACCCGCGTCAGCCTCCCAAAGTGCGGGGATTA
Y
AGGTGTGAAACAGTGCACCTGGCCATAACATGTATTTTTGCAAGGTCACTCACCCTGGCTTCTGTGAAAGAAGCCTGAGAAGGGTCTGTTTGGGGAGACC
Celera SNP ID:            hCV11286163
SNP Position Genomic:     54706
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65582):
AAGACAGAAACAGACAACCAAAGTAATGCCATGAAGGAAAAACATGGCAAAGTAAGCCTTTTTGTTTTTGTTTTTTGGCTTTTCTATCTGTAGAATTTGT
R
ATATTCTTCGATTGAAGCTATTTTAATTGTAGATTGACTGACCTTGAGCAAGCCTCTTGGCCTCATTTTCCTCATCTATAAAGTGAGGGGTTGATCTGGT
Celera SNP ID:            hCV16180869
SNP Position Genomic:     77708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65583):
TTAAACATCTTTTGGATTTCATGTATTTTTAAAGTGTGAACAATTAAAAATAATTCAGATTACTTTAAAAAAATCCATTTAACCCATTTATTGGGTGCCT
R
CTTTGTATTAGGCACTGTGGTATGCCCAGAAGATGTAATGATAAGCAAAATCAGAAATGATTTCTTACCTCATAGACTTGAGAATCTCATGGGGAGACTG
Celera SNP ID:            hCV8330372
SNP Position Genomic:     27513
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65584):
AGTCTGAATCACCATCTTATTCTCCTCAGCCTCAGCCATTTCCACAGAACTCTTCCCAGTCAGCTGCTATTACTCAGCCTTCATCTCAGCCAGGATCCCA
R
CCTAAGCTTGGCCCACCTCAGCAGGGAGCCCAACCTCCCCATCAGGTCCAGATGCCACTGTATAACTTTCCCCAGTCACCACCAGCTCAGTATTCTCCCA
Celera SNP ID:            hCV25758640
SNP Position Genomic:     127718
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,2)   caucasian(A,35|G,1)   total(A,63|G,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65585):
GACTTAATTCATTCTCCAGTAGGAACTGATTTGACAGAATTTTTATGCTAGAGAATTGAAATAACTAGATTGAGCCAACTTTTCTTATTTACTTGTTGCC
W
TGGGCAAATTAATCCCTGAGATTTAGTTTGCCAATAAAATGGGGAGTTCTGATAGGGTTGTTGAAAGGTTAATACTCTATAAGGGATGGCTATATTTATT
Celera SNP ID:            hCV8330373
SNP Position Genomic:     47856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65586):
CCCAGTACAAATTATCTCCAAATTGTATAACTAGTGGTGGTTCACATCTGTAATTCCGGGATTCCTTTGGGAGGCTGAGGTGGGAGAATTGTCTTGGTGC
Y
CTAAAGTGTTGGGATTACAGGTGTAAGCCACTTTACCTGGCTTCAACACTCTCTTTAACTTGGTGGTAAGTAAGGCAGGAATGAAAGGAAAAGGAGATAT
Celera SNP ID:            hCV1918059
SNP Position Genomic:     20159
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65587):
ATCAATGGAAGGAAACTTTTTGGTACCCCTTTTTATCCACTCATTGGCAGAGAAGCTGTAAGTTTACATTATATGAATTGTGAATCTTTTCTTTTTTTAA
M
TAGAACAAGAAACTTAATTGTGTTTCCAAACTGATGTTAGATATAGGGAAAGAGATGGTCATAGCTTTGTATATTTTTTCTTATTGCATTTATCATAGTC
Celera SNP ID:            hCV25754502
SNP Position Genomic:     113337
SNP Source:               Applera
Population(Allele,Count): african american(A,35|C,1)   caucasian(A,40)   total(A,75|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65588):
GCAAGGCAGGGATTAACATAAGATGCACTTGGAAAGGGAGACAGACAGAGGCAGGCTGGGTAAGGCCAACACGAAGCTAGTAGTCAGACTGAAAACTCCC
R
TGAGGGACAAGGGAAAACCTGCATAGAGACAGTAACAATGTAGATGAAAAGGAGCATTCACACTGTCTATGACAATGCAAAGGTAGAAGTACTGGTAAAA
Celera SNP ID:            hCV25921817
SNP Position Genomic:     150240
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,5)   caucasian(A,2)   total(A,23|G,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:65589):
TTGGAGCCGGGATTCGTAACCCAGGTCTGTCTGACTCCAGAGTTCATGCTCTTTCCATTGTATCTCACTGCCTCTCTGTAATTTTTTTAACCCATAATGT
W
GCTGAAATATAGTACTAATAGTACTGTAGAACCTAACCACTGCTTTCTGAAACTGATAGCTTTCTGAGTTCCACCGTGAGATGCCAGGAGCAGACCTTCC
Celera SNP ID:            hCV25752365
SNP Position Genomic:     95144
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,28|T,2)   total(A,64|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65590):
TTATTTGTTATGATATACATCATAGAGTTCTGTTTTATAAAGTTTTTAATTTTGTATTTTATCTCTACTTTTATAAAATTAAGATGTTTATAAATTAATT
W
AAAAAAATTTTTTTTTTGTCTGCAGTCTGAATCACCATCTTATTCTCCTCAGCCTCAGCCATTTCCACAGAACTCTTCCCAGTCAGCTGCTATTACTCAG
Celera SNP ID:            hCV25757847
SNP Position Genomic:     127594
SNP Source:               Applera
Population(Allele,Count): african american(A,29|T,1)   caucasian(A,32)   total(A,61|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65591):
TCTAATACCCAGTCCTTGTTCAGTTTTTCCTGTTTATCTAAAAAAGTATATAGTTTTTTGAGACAGTCTCGCTCTGTTGCCAGGCTGGAGTGCAGTGGAA
Y
AATCTCGGCTCACTGCAACCTCCGCCTTCTGAGTTCAAGTGATTCTCCTGCCTCCCGAATAGCTGAGACTACAGGTGCGCACCACCATGCCCGGAATTTT
Celera SNP ID:            hCV26412910
SNP Position Genomic:     130334
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65592):
GCTTGGGTGGGTTTTATTCTGGGATAGAGAGCCTTAGTGAAGGCCAGGATCTGGGAGTGAAAATTCATGAATTCAGTAAACATTTACTGAGAAATTATAC
T
GTGTGTCAGATGGTGCTAGGTGCTTGTAAAACAAAATCTCCATTACTTGATGCACACTTTATTAGGAAAGCCAGACATGTTAAATAGAAAAGGAGTTTAG
Celera SNP ID:            hCV26412911
SNP Position Genomic:     133860
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65593):
GTGGGGAGGTACTTACGTTGCACAGTTATGTATGTTTTTAAGGGGAATATTTGAGATAGCTAAATCCATACCTTTCATGTAGGAAGTTAGCAGATAATAG
S
TAAGGCCGGGCATGGTAGCTCATGCCTGTAATCCCGGCACTTGGGTAGGCCAAGGCAGCAGGATCGCTTGAGCCCAGGAGTTCGAGACAGCCTGGGCAAC
Celera SNP ID:            hCV3122430
SNP Position Genomic:     26467
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65594):
CTTGGGTGGGTTTTATTCTGGGATAGAGAGCCTTAGTGAAGGCCAGGATCTGGGAGTGAAAATTCATGAATTCAGTAAACATTTACTGAGAAATTATACT
G
TGTGTCAGATGGTGCTAGGTGCTTGTAAAACAAAATCTCCATTACTTGATGCACACTTTATTAGGAAAGCCAGACATGTTAAATAGAAAAGGAGTTTAGA
Celera SNP ID:            hCV26412912
SNP Position Genomic:     133861
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,11)   total(G,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65595):
GAGACAGCCTGGGCAACATGGTGAGACCCTGTCTCCATAAAATTTTTTAAAAAATTGCCAGGTGTGGTCGTGTGTGCCTGTGAGGCTGAGGTGGGAGGCT
Y
GCTTGAGCCCAGGGGTCAAGGCTGCAGTGAGCCATGACTGCACGCCACTGCACTCCAGCGTGGGTGACAGAGTGAGATACTGTATAAAAAAAAAAAGCTA
Celera SNP ID:            hCV3122431
SNP Position Genomic:     26651
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65596):
GTCAAACTTATTTATTTGATTTGTTTTTTAGAAATTAAATTGTAAGGAAATAATTGAAAATTTGGCAAAAATTCTTAAGAGACATCCAGGTATGAATTTT
R
AATCTTATCTGTAAAACAAAATAAATTTTTTTAGCATATATGAAAATTATTTAACCTACTGAAGTCTTTTTTTTTTAAATTAGGTTTAAGAAACATTTTG
Celera SNP ID:            hCV25751746
SNP Position Genomic:     97380
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,37)   total(A,1|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:65597):
GGCATTGTCTGAGTCTGGCCTTCAGCTCTTTGTTAACTTAGTTCAGAACACTTGGGTCAGAGTCAGTATAGTTAAACTAGGAGTTCAAGAAGTTAAAACA
G
GCACTCAGGAAATGCTGATTGAATGAAATGATAACTTAAAGGGGAAGTGCCTGGTATGGTCTCAGGCTTGTTATATTTAAGCCTTCTTAAACCACCCATA
Celera SNP ID:            hCV26412913
SNP Position Genomic:     134594
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,7)   total(G,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65598):
CATGTAAAGTAAATGCTGCCAACCTTCCAGGTCCTAAAGATTTGGGGTTAGTCCTTCGAGATCAAAGTCATTGCAAAGCAAAAAAATTTCCTAATTCACC
R
GTGAAAGCCGAAAAGGCAACCATTTCACAGGCAAAATCAGAAAAGGCAACCAGTTTACAGGCAAAAGCAGAAAAATCACCAAAGTCACCTAATTCAGTGA
Celera SNP ID:            hCV3122432
SNP Position Genomic:     33114
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,10|G,28)   total(A,14|G,56)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,10|G,30)   total(A,15|G,63)   
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65599):
GCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCACCACCACACTTGGCCAATTTTTGTATTTTTAGTAGTGGCGGGGTTTCATCA
Y
GTTGGTCAGGCTGGTCTCGAATTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTTGAGCCACTGCACCCAGCCC
Celera SNP ID:            hCV26412915
SNP Position Genomic:     136340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65600):
TCTAGGAACCTCCATGTGTTCAGCTATCAAGAAGCTATTTGGACCGAGACCTTTGGGTTTTTATGGAGGCTTCATTACATATGCAAGATTGATTAAGCCA
M
GCTGTTCGCCATTGGTGATCAACTTAACCTTTAGCCCTTCTCCGCTCCCCAAAGGTTGGGGTATAGGGCTGAAAGTCCCAACCCTGTAATCATGCCTTGG
Celera SNP ID:            hCV16185231
SNP Position Genomic:     106531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65601):
GAGAATCTCATGGGGAGACTGACACGAATCAGATTGTTCACTGTAAGACTGTACAGAAGTCCCTTCATTTCTGCTTTCAGGATCACTTTCAGGATCACTT
Y
TTACAGCCATGGTTCATTAAGTGTGGCCCCCCAGTCCAGCCACATCAGCTGGGAGGATCGTCTTAGCCCAGGAATTCGAAGCTGTAGTGAGTTAGAATGG
Celera SNP ID:            hCV16185232
SNP Position Genomic:     27693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65602):
TTGCTGTTATTTTCTTTGTAAAAATAAACCATGTTTGCATCTTGGTCTTCTTTCCATTTGGATTCAAAAGTTTTATAGTGATTCCTCCTAGTAAAATTGC
R
TTTTCTCCCTAGGAGTACTTCTTTGATTCCAGAGTATTAACAGATGGAGAACTGGCTCCCAATGATAGATGTTGCCGTGTGTGTGGAAAAATAGGCCACT
Celera SNP ID:            hCV25753637
SNP Position Genomic:     120732
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65603):
TTCATTAAAAATAAAGGTTGAGAAACTTGATAAGAAAAAAACTAAAATATTCTTATAGCTGCCTGGGGGAGATCTTAATCCTTCCACATACAGATATCCT
Y
ATATCCACAGGAGGCCATGTGGACTAAAACCAAACTGAGTCCATTACTCATTCCCTCTCCGGCTCTTCTTGTGGCTCTTCTTAGACCTGAAATGGCAACA
Celera SNP ID:            hCV26412916
SNP Position Genomic:     142346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65604):
AATTGAAGAACTTGGAGTCCGACATTTGAGGGCTGGAAGCATTCAGCACAGGAGAAAGATGTAGGCTGAGAGGCTAGTCCTGTCTTGCCTTTTCACATTT
Y
TCTGCTTGCCTTATGTTCACTGGAAGATGATTAAATTATGCACACTAGATTAAGTGCAGATGTGCCTTCCCCAGCCCACTGACTCAAATGTTAATCTCTT
Celera SNP ID:            hCV3122436
SNP Position Genomic:     114384
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65605):
AGAGATCAGTGCCCTGTCTCTCATGTATATCAGTTTTGATAATTCATAATGCTGCTTTTGAAATTAATTTCTCATTAACTTAAATACTAAGTTTGGTTGA
M
ATTTATTTCTGAAGTACAAATGAATGTTAAAAACATCTTTCTTTAATTCGTATGGAACTCTAGTTATGGAATGACATGTAGTTTTCAGTTAGCTCTAAAT
Celera SNP ID:            hCV25759016
SNP Position Genomic:     69803
SNP Source:               Applera
Population(Allele,Count): african american(A,36|C,2)   caucasian(A,36)   total(A,72|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65606):
TGAGCCACTGTTCCTGTCTCTCATCAGCCTTTAAAAAAATTCTCTATTTTATTCTTATTAAACCAGGATAATCTTTCTAAAGTTCAGATTGATCATGTTC
Y
ATACCTGTTTAAAACCCTTCAGTGGTTTACCACTGCATTTAGGATATAGTCTAAATTACAAGGCTTATAAGACACTTCATTGTCTTGCCCCTATTTAGCT
Celera SNP ID:            hCV3122437
SNP Position Genomic:     126523
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65607):
TAGAGATGGGGTTTCATTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTCATGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGATTTACAGGC
R
TGAGCCACTGTGCCCAGCCTAAAAAAGTATTCCTATTATCGATTTATTTGAATCAAAATTAAAACTGTGTGTTTGGTTTTTATATCTCTTTGATTTTTAT
Celera SNP ID:            hCV8330410
SNP Position Genomic:     130855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65608):
CTTATTAAACCAGGATAATCTTTCTAAAGTTCAGATTGATCATGTTCCATACCTGTTTAAAACCCTTCAGTGGTTTACCACTGCATTTAGGATATAGTCT
R
AATTACAAGGCTTATAAGACACTTCATTGTCTTGCCCCTATTTAGCTCTTCAGCCTCGGCCATTCCCCTGCCATTATATATACTCCAGTAATATTAAACT
Celera SNP ID:            hCV3122438
SNP Position Genomic:     126576
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65609):
TTGAACATTCAAACTTGAATGGAAAGTTGATTTTGTCTGTATTTGAAGTACTTCTATTTTAAGTTAATAAATCTTTTTGACAAGAGTTAAATTTGGTTAA
W
CTGTTGTATAGATGATGGAAATATTACGTAACAAGATTTCTTTTAATTTCAGTGAATAGAGCATTCTAAATCACAGATTTTAGTTTTAGAGATTCAAGTA
Celera SNP ID:            hCV8330411
SNP Position Genomic:     135815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65610):
GAGTAGGGTGGCTCTGTCTTTTTTTCCTGTATGTATTCTATTCCCATGTGCAACTGACTAGTCAGTTTCTCAGCAGTAACATTTCTCAATGCAGTGATTT
Y
AGCCCCAGGCATGGGAGTTGGCATATCATCCTAGTTAAGAATTTCTGAGTTAAGAAATCTTATATTTGAGTTTAGTGATAAGTTTTTCTGACCCAGAAAA
Celera SNP ID:            hCV16076339
SNP Position Genomic:     98203
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65611):
TTTTTTTTTTTAATTACCTCCTGAAAGCACAGGTTATCAAAACTGAGTTACATAAAAGATTTGTTTTGAATTCACTTCCTAAGTGATGAAGTCCCTCAAA
R
GTTTATTAGATTAGATTTCTTTTTATCTTTGTGTAGCCACCAACGATAGTATGCAGCATCTGCAAAAAGGATGGCCATTCAAAGAATGATTGCCCAGAGG
Celera SNP ID:            hCV25752768
SNP Position Genomic:     86942
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,34)   total(A,70|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65612):
AAATATGTATCTTTGTATGAATTTTAAAAAGAATGAAAAAAATGATCATCAACATTTTAATGGTTATTTTAGAGTGATGATATTTCAAGTTATTCCTTAT
R
TTTTTCATTGTCATTTGAACTTTTTACAATGATTAGGGTAGGAAAAAGCAAGCTACTTTTATCATGAAAATTAAGAAAGCTAAATGGTAGTACTTTTTTC
Celera SNP ID:            hCV25759055
SNP Position Genomic:     77042
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,33|G,7)   total(A,67|G,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:65613):
TTGAATTTATTCACTGTTAAAGTTTCTAGTTTCAGAGAAACAAAATAACCAACACTTACCTGTAGGGCCTGGCCAGGTGGCTCACTCACGCCTGTAATCT
Y
AGCACTTTGGGAAGTGGAGGCGAGAGGATTGCTTGAGCGTAGGAGTTTGATATCAGTCTGAGCAGCATAGTGAGACTTTGTCACTGCCAAAAAATAAAAG
Celera SNP ID:            hCV26412956
SNP Position Genomic:     8318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65614):
TGATGATAGTGCTTCAGGAATTGAAGACGTATCGGACGATTTAAGTAAGTCATTTTTTGGAGGGATTTTTGTATATTAATGTTCTTTAGATTATCCCCGG
K
TTAACCATTTTAATTACAAAAAGTCATGTTTATACATAATTGTTTAGCACTTTTGTTCCCGTATGAAAACATCCACATTAATAATACTTGCATTAATGGT
Celera SNP ID:            hCV25760243
SNP Position Genomic:     33574
SNP Source:               Applera
Population(Allele,Count): african american(G,18|T,20)   caucasian(G,1|T,37)   total(G,19|T,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:65615):
CTGGGCTCAAGCCATCCTCCCACCTCAGCCTCTTGAGTAGGTGGGACTGTGGGCGCTTGCGACCACACCTGGCCAATTTTTTTTTTTTTTTTTTTTTTTG
K
ATTTTTGTAGAGATGCAGTTTCACCATATTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGTGATGTGCCTGCCTCGGCCTCCCAAACTGCTGGGATTA
Celera SNP ID:            hCV26412958
SNP Position Genomic:     13116
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65616):
AGGCATGAGCTACCATACATGGCTAGATCATTATCTATTTGGACTTGATAGGTTATATAGAAATTTGATTGATCTCAGTCTTCTCCATTAGGCCTAACTT
Y
AGCTCCCACCTGGCACATCATTTTTCTTTTTGTCATTTATTCATTCATTCAATAAAATTTTGTTTTTTGGTGTCCACTACATGCCAGGAACTGAACTAGT
Celera SNP ID:            hCV1918061
SNP Position Genomic:     37774
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65617):
TTTGCAAACTGAGATAATTTTACTTCTTCTTTTCCAATTGAGATGCGTTTTGTTTCTTTTGCCTAATGGCGTTGGCTAGAACTTCCAGTACTGTGTTGAG
Y
AGAAATGGTGAACACAGGCCGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGA
Celera SNP ID:            hCV7843314
SNP Position Genomic:     16010
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65618):
GAATCGCTTGAACCTGGGAGGCGGAGGTTGCGGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGCCTCAAAAAAAAA
W
AAATAAATAAATAAATAAAAAGAAATGGTGAAAACAGACATCTTTCCCTTGTCTTGATGTTAGAGGAAAAGGTTTTCATTTTTATCATTGAGTATGATGT
Celera SNP ID:            hCV26412959
SNP Position Genomic:     16312
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65619):
CTTGTAGATACATCCAGATTCATTTATTTATTCAACATGACACAGAGCATTAGCTCAGATCTAGGCATTGTATTAAAATCTGAAGGTAAAAGTAAGACCC
Y
GGTCATTAGCATCAAGAAATCCGTCATCTAATGTAGGGGACAGATACATGAATACAAATTCCATTACTCTGTAAATGTGAGATAATAGAGGGTAATAGAA
Celera SNP ID:            hCV1918062
SNP Position Genomic:     41815
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65620):
AGACCGGTTTGCTCATCCTTTAGAATGTTGATTCCTAAGTTTAGAGCTGTTAGGTACAATTAGTCCATCCAACTGATGTTTATTGAGTTCTTGTGTGCTA
S
TTCTAGGCAGTGGTGAATAAGATAGTTGTGGTTCCTGCCCTCAGATTTTCTAAGAATTGATGAGGGCATGCGTTGAATAAAGATTTAAATATAATGAGTC
Celera SNP ID:            hCV1918063
SNP Position Genomic:     49766
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,3)   caucasian(C,32|G,2)   total(C,39|G,5)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,9)      total(G,2|C,9) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65621):
CAGTGGACTTCCAAGTGCATTGCAATTGAAGGTAACATTTAAGCTGATATTAATTCAGGAGCAACCAAAATTTGGTCAACGAAATTGAGGGGAAAACTGA
W
ATACATTAGGATTTGGAAGATTCTTCCTCTTTTATCAGTTTTCCTCCTTTAATGTGTAATTTTAGAGGAAGAGTTTGCTGATTTGTATAGTCTGAGTACA
Celera SNP ID:            hCV25750372
SNP Position Genomic:     112885
SNP Source:               Applera
Population(Allele,Count): african american(A,26)   caucasian(A,29|T,1)   total(A,55|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65622):
TGGATTTTCAGATTAGGGATGCTCAGCCCGTATAGGGAAACTTTAGAACATTATAGAAATGAACAAAAAGAAAGCAAACTTGAATGCAGCCATATAGGAC
R
TATACTTTTGGTGAAGTTAGAGTAACAGTGGATTTACTTTTCCCTTGAAATGACAAACAAAAAAAAAATACAGAAATATGAAGCAGTGGTTTTCAGGCGA
Celera SNP ID:            hCV8330381
SNP Position Genomic:     51542
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   (G,-|A,-)   Caucasian(A,9|G,65)   Asians(A,14|G,62)   total(G,127|A,23)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65623):
ATCCCAGCACTTTGGGAGGCTGAGGTAGGCAGATCACCTGAGGTTGGGAATTCGAGACCAGCCTGGCCAATGTGGCGAAACCCCCTCTCCACTAAAAATA
Y
GAAAATTAGCCGGGCTTGGTGACCCACACCTGTAATTCCAGCTACTCGAGAGGCTGAGGCAGGAGAATCGCTTGAATCCCAGAGGTAGAGGTTGCAGTGA
Celera SNP ID:            hCV1918065
SNP Position Genomic:     53486
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65624):
ATCTAATTCAGTGTTAATAATCCTTTGGCTTTGTGGCACTATATATATATGTCACTAGATTGTCATTCTTTATTTTTAATTTTTTTAGAGACAGGGTCTT
K
CCCTGTTGCCCAGGCAGAAGTGCAGTGATAGGATCATGGCTTACTGCAACCTCAAACTCATGGGTTCAAGGGATCCTCAGCTTCCTGAGTAGCTAGGACT
Celera SNP ID:            hCV8330382
SNP Position Genomic:     81528
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,3)      total(G,1|T,3) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65625):
ATTTTGTATTTTTAGTAGAGACGGAATTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAATGTTCCACTCACTTCGGCCTCCCAAAGTAC
R
AGGATTATAGGCATGAGCCACCATGCCTGGCCTTTACTCTGTTTCTTTTCTGGCTTTTTTTTTTTTTTGGGGACAAGGTCTCACTCTGTCCCCTAGGCTG
Celera SNP ID:            hCV11286175
SNP Position Genomic:     13955
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65626):
AGCCCTATCCTTCATCACAAATGACTGAAGGCCTACCTTCTCCTTTTGGGAGATCGACTCCGCCTATAAAGAGGAGAGGAAGAAGAAAGCCTAGGTTGGC
R
CACTGGATGTGGTAGATTGCAAAAACGGCCCCAATCTTATCCTTCACGCTTCTCTGTATCACCCACCTCTGTATCCATGTCTTTTGTCACGTAACTCTAG
Celera SNP ID:            hCV25921535
SNP Position Genomic:     144497
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,27)   caucasian(G,2)   total(A,3|G,29)
SNP Type:                 INTRON


Context             (SEQ ID NO:65627):
GATATTTTGGTATGTATTTTACCTTTTGTGTTTTTCATATAGTTGCCTTTAAATAATGTATATAAAGCCTCAAAAGGTTTCAGCATTCTATTACCAGTTG
R
TTTCCTTTACTTTCTCATATATGAAAGGATTCATCTGATATTTCATGAAAATCTTAGCAAAGGTAGCATGCATTTTAAATGTTGCTTATTTTGTATTTTT
Celera SNP ID:            hCV8330383
SNP Position Genomic:     84465
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65628):
GCTCTGTCTCCCAAGCTGGAGTGCAGTGGCATGGTGTTGGCTCACTGCAACCTCTGCCTCCTGGGCTCAAGCCATCCTCCCACCTCAGCCTCTTGAGTAG
S
TGGGACTGTGGGCGCTTGCGACCACACCTGGCCAATTTTTTTTTTTTTTTTTTTTTTTGTATTTTTGTAGAGATGCAGTTTCACCATATTGCCCAGGCTG
Celera SNP ID:            hCV11286176
SNP Position Genomic:     13056
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65629):
TAAGTCATTTTTTGGAGGGATTTTTGTATATTAATGTTCTTTAGATTATCCCCGGTTTAACCATTTTAATTACAAAAAGTCATGTTTATACATAATTGTT
Y
AGCACTTTTGTTCCCGTATGAAAACATCCACATTAATAATACTTGCATTAATGGTTTCTTACTAGATTGATCCTTGGTGAAGCTAAAAAAAAAAAGCCTT
Celera SNP ID:            hCV25759526
SNP Position Genomic:     33619
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,21)   caucasian(T,36)   total(C,1|T,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:65630):
GAGTTTTGCCTGGCATAATGAAAAAGAGTAGAAAATATTAGGGCTAGAGGACGGAGGTATATGGGAAAGATGGTGATAAGGCTAGAGAGGGTAGGCTTAG
M
CCATATTATGGAGTTTGGACTTGGTTTACTGAGCATTGGGGACCTAATTAAAGGTTTTTAGTGGAACGAAGACATAATCATATTTGTTTAGTAAACGTAG
Celera SNP ID:            hCV937783
SNP Position Genomic:     134239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65631):
AATTCCAGAACCTTTTCTTGCTTTAAGAAACCATTAATTCTAAGAGTGTTTCTGGAATAAAAGTGCTATATCATTTATTAGATTCTACTTCTTTGAACAA
K
ATTTGTTGACATAAAAGTAAAACATGGCCAGGTAAGGTGGCTCATGCTTATAATTCCCGTGCTTTGGGAGGCAAAAGTAGGAGGAATCCTTCTTGCCAGG
Celera SNP ID:            hCV1918069
SNP Position Genomic:     64953
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,9)   total(G,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65632):
CTTGGTATATACTTAATAGTGTAATTGCTGTGTCATTTTGATAAATTTATGTTTAACTTTTCAAGGAACTGTTTTCTAAAGTGGCTGTGCTACTTTACAT
Y
CCCACCAGCAATACATATGTGTTCTAGTTTTTCTGCATCCTCACCAATACTTGTTATTGTCTTTTTAAAGCTATAGGCATCTTATTGGGCGTGTCTCTTA
Celera SNP ID:            hCV28035051
SNP Position Genomic:     119398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65633):
AAGGCCTACCTTCTCCTTTTGGGAGATCGACTCCGCCTATAAAGAGGAGAGGAAGAAGAAAGCCTAGGTTGGCGCACTGGATGTGGTAGATTGCAAAAAC
R
GCCCCAATCTTATCCTTCACGCTTCTCTGTATCACCCACCTCTGTATCCATGTCTTTTGTCACGTAACTCTAGCACCCTCCCATTCTAACTTTAGGACTG
Celera SNP ID:            hCV25921574
SNP Position Genomic:     144524
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:65634):
TATCCTTATGGTGCTGTACTTTCTGCAGCAGAGAAAGCCACCTGTTATCCCAGTTCTACAAGAGGTAGGTGTTTAAGAAAACTATAAAGGAGTTTTTTTT
K
AAAACAATAGATCTAAACACAGGAGATTTTGCTTGGTTCATGTCATCATGAAGGATTTTTCCATCATGGTTGTCCTAAGTTTTCTCTTTCCATTAATGCT
Celera SNP ID:            hCV25754440
SNP Position Genomic:     100781
SNP Source:               Applera
Population(Allele,Count): african american(G,30|T,8)   caucasian(G,40)   total(G,70|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:65635):
ATTGCAAAGCAAAAAAATTTCCTAATTCACCAGTGAAAGCCGAAAAGGCAACCATTTCACAGGCAAAATCAGAAAAGGCAACCAGTTTACAGGCAAAAGC
R
GAAAAATCACCAAAGTCACCTAATTCAGTGAAAGCAGAAAAAGCATCCAGTTATCAGATGAAGTCAGAAAAAGTACCAAGTTCACCAGCAGAAGCAGAAA
Celera SNP ID:            hCV25755065
SNP Position Genomic:     33183
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,39|G,1)   total(A,74|G,4)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65636):
GAATTTTAATAGAGTTGACTTTATGTGTCTCAGTCTCAATTGTATATTAAGGCTGAGGGCAAGGCCAAATTTAAAAACTAAGTCAGTTTAGAGACAGAAT
Y
AAATAAGTGATAATACTGGTAATGTTTAGATATGGGAAAAATGTAAACATCATGGTACTTGAATGATTCAGGAAATAGTGGTGGTTTTTTTTTTTGTTTT
Celera SNP ID:            hCV11730532
SNP Position Genomic:     35369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65637):
TAGTATATGGCAGAGCTGAGGTGCTTTTAATAAGGAAATATTGTTTTTGGCTAGAGTTAGAAAAAAAATTTTTTTTGAGACGGAGTCTCACTTTTGCCCA
R
GCTGGAGTGCAGTGTTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTGCTGCCTCAGCCTCCTGGGTAGCTAGGATTACAGGC
Celera SNP ID:            hCV7834030
SNP Position Genomic:     146105
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65638):
CCATTTTTTTATTCTATAGATCAGTTAGAAAGGGTGTTCTTCTTGTATAATTGTCTTACTAGAAATGGAAGACGTAGAACTGAAGTGTGTGAAATTTTCC
Y
GTCGCTGTTTTTTTACATCTCTCATATTTGCATGCTATTTCATGCTTTGATGTTTTTCCTTTATTCCAGAATGTTCACTTAGGTTGTATGGCTCATCTCT
Celera SNP ID:            hCV25751213
SNP Position Genomic:     63496
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65639):
GGAGAGAAATTGGGAGTTGGCAAGAGAGTACTGTTTTTCAACCATGTAAATGTATTTGTTTTATTAAAAACAGATTAGAGGCAGGCGTGGTAATCCCAGC
M
CTTTGGGAGGCCGAGGCGGGCAGAACATGAGGTCAGGACCATCCTGACCAACATGGTAAAACCCCGTATCTGCTAAAAATACAAAAATTAGCTGGGCGTG
Celera SNP ID:            hCV26412960
SNP Position Genomic:     26939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65640):
CATTTTTTTATTCTATAGATCAGTTAGAAAGGGTGTTCTTCTTGTATAATTGTCTTACTAGAAATGGAAGACGTAGAACTGAAGTGTGTGAAATTTTCCC
R
TCGCTGTTTTTTTACATCTCTCATATTTGCATGCTATTTCATGCTTTGATGTTTTTCCTTTATTCCAGAATGTTCACTTAGGTTGTATGGCTCATCTCTG
Celera SNP ID:            hCV25751215
SNP Position Genomic:     63497
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:65641):
CAGATTAGAGGCAGGCGTGGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGAACATGAGGTCAGGACCATCCTGACCAACATGGTAAAACCCCGTAT
Y
TGCTAAAAATACAAAAATTAGCTGGGCGTGGTAGCACACGCTTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGATTTGCTTGAACCTGGGAAGTGG
Celera SNP ID:            hCV26412961
SNP Position Genomic:     27009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65642):
CACAGGTTATCAAAACTGAGTTACATAAAAGATTTGTTTTGAATTCACTTCCTAAGTGATGAAGTCCCTCAAAAGTTTATTAGATTAGATTTCTTTTTAT
Y
TTTGTGTAGCCACCAACGATAGTATGCAGCATCTGCAAAAAGGATGGCCATTCAAAGAATGATTGCCCAGAGGATTTTAGGAAAATTGATTTAAAACCTC
Celera SNP ID:            hCV25752849
SNP Position Genomic:     86969
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65643):
TGCAGCTTTGTTCTTCTCCTTCAATATTGTGTTAGCTATTCTGAGTCTTTTGCCTCTCTATGTAAACTTTAGAATCAGTTTGTCTATATCCACAAAATGA
C
TTGCTAGAATTTTGATTGGGATTGAATTGAATCTGGAGACCAAGTAGGGAAGAACTGACATCTTGACAATTTTGAGTCTTCCTGTCAATTATAATGGAAT
Celera SNP ID:            hCV11286143
SNP Position Genomic:     104882
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,6)   total(C,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65644):
AACTCCTGGACTCAATCCGCCAGCCTCGGCCTCCCAAAATGTTGGGATTACAGGTGTGAGCCATGTGCCTGGCCTTGACATTATTATTATTATTATTATT
W
TTTTTTTCGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCTGTGGCGCGATCTCAGTTCACTGCAACTTCCGCTTCCCGGGTTCAAGCAATTCTC
Celera SNP ID:            hCV26412962
SNP Position Genomic:     30893
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65645):
ATGTTTTAAAGAATTCTCTTTAAATTCATGTATAATATGATATGTATAGTATTAGCCTTGAAGTCATGTTTATACGTAATTGTTTAGCACTTCTTTTTTT
C
CCATATGAAAACATCCAAATTAATAATGTTTGAATTAATGATTTCTTATTAGATTGATTCTCAGTGAAATAAATACAGTAAAACCTTTATATCTAGATCA
Celera SNP ID:            hCV26412963
SNP Position Genomic:     37000
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,6)   total(C,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65646):
GCTCTATGGATACAGACATAAAGAAGAAATAGCCTCTCTTCAGTCACTTGAGCCCAGGAATTCAAGACTAGCCTGGGCAACATAGTGAGACCTTGTCTCC
M
CAAAAAAAATAAAAAAATCAGCCAGGCATGGTGGGTGTGTGTGCCTGTGGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGGATGGCCTGAGCCTGGGAGG
Celera SNP ID:            hCV1918070
SNP Position Genomic:     68743
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTRON


Gene Number:                 415
Celera Gene:                 hCG33047 - 84000314084378
Gene Symbol:                 PASK
Protein Name:                PAS domain containing serine/threonine kinase;DKFZP434O051;KIAA0135;PASKIN;STK37
Celera Genomic Axis:         GA_x5YUV32VWPT(46623748..46679140)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12575):
ATACAGGTAGGAGCAAGTCTTGGCTCCTCTAAGGGCTAGAAATGCATATTCCCAGAAAATTCATAATCAGCTAATCATCTCGAAGAAAAAACTTGGATTT
TTCCAGGCCAGGCCAGCTGGTCTGCCTTGTAGCCGTGTGCCCTTGGACAAGCTGCAGAGAGTCTCATTTTCCTCATCTATAACACATTACCACACTGGTG
TACTTACAGAACATGATGACAACATGATTAGCCTGTGCTAGTGAGCCAGGGAAAGAAAGCACACAAGGCTTGCTCTGCCAACTCTCAAGTCCTCCATAAA
CACCCAATGTCTCAGCAGCACCCATCTGAGGATAGCGGGGGCTCCTACCGCTCCACTGTTGGTGACTAAGTCAGGCGATGACGGAAGCTTCCATCTATCA
CTCCCATGCACTTTATTCCACCCACATCACTTCCAGAACATCAGCCTCAAAGTTCCAAAGTGAATGTGACTGGTACTTTTGTGGTAATCTCCTTGTGACT
TAAAAGTAGGTTGCCATAGTTACCAATCATCTTTGCTGGCACAGAGAGCACAATGTTATTTTAAAAATTAGGTTTGTTTCTTCATAAATTTATTTTCATA
AGGGATGCATGATTATTCATACACTGTATACAAATCTAGAAAACACAAAATGTATAGATCCTTCTTAAACCTGCTGTTTGGACAGACTCAGCCCGTTTGA
TGTGTTTTCTTTCTTTAGCAGGTAAAAGTACATACATGCATGCATACTGTTCAGAAACTTTTTTGTTTTGAGATGGAGTCTCATTCTGACCCCGGCTGGA
GTGCAGTGGTGTGATCTCAGCTTACTGCAACCTCTGCCTCCCTGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCACAC
CACCATGCCTGGCTAATTTTTCTTTTTTTCTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTC
AAGTGATCCACCCGCCTTGGCCTTCCAAAGTGCTAGGATTACAGGCGTAAGCCATTACGCCCGGCCACATCTAGGCACTTTAGAAGTCAATCCTCAGGCC
TATAAAAATGGTAAGGCAAGACTCAGAAATAATTTCTCTCAGAGATTAAAGGTTTCTATTGCTATGGTAGGACATAGAAACACAGCAGTCAGCCATAACA
TTTATTTCGAATCTCATTTCCTAAACATATGGTTAATATAACAATATTGCGGTTCTTTTCTTTTTCCTTTTTTTTTTTTTTTTTTTTTTTTTGAGAAGGA
GTATCCCTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGTTCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCGGTTCTCCTGCCTCAGCCTCCTG
AGTAACTGGGATTACAGGCACACGCTGCCACGCCCAGCTAATTTTTGTATTTTTTGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGGCTTGATCTC
CTGACCTCGTGATCCACCCGCCTTGGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCATCTGGCCAACAATGTCATGGTTCTGTCTCAGACGG
CATACTAGTACCCATATTTGTGCTAGGATTTGCCTTCAGTGGAATTGGAAAAAACCACATCCTTTTTGCAAACGCCATCAATGAGTCAGCCTGCTGAAGG
AGCACCTCAAAGAGCATATCCACCTGCCCTGGGCCACTGAGGACCCCTAAGGAGCACGGCAGTCCTTCTCCAGACCGACACAGCACCCACACCCAGGGCC
AGACCACGTGCAGCACAGCCCACATCCCCCAACCAGCAGATGTCCCCAAGGGAGCTGGGCCTGGTACCTTCTGGGTCCTCCTCCCCCCGCTCCTCCCCAT
CCTTCAGGCTCTGTTCACTGAGGTCGGCCACGATGCCACTGCTGTGTTTCTTCCCTTCTTCATCGCCGGATTCTTCAGACTCGACCCGCCTGTCAACTGA
ACCCACACATGTCAATGAGAATTCACATCCACTTTATGGGACTTTGAGGAACATATAATAAACACCCGGTTGTAAGTCAAAAGGATTTCATTTAAACATG
TTTGTTGAATCCAGTTCAACGAACATCTGAGTGTCTCCCATGTCCCAGCACCATTTGAGGCATATGGCCGCGGGGAGAATGGGGAGCAGAGTGTGGAGCC
CACATGGATACTTAGGTGAGGAACACACTACTTCTGCCCTCAAGGAGCTTGTGAAGAATTGCCCAGTGTTCTGAAAGCCTTGGATCACCTGTGATTAAAT
CCACTAATGGAACCCGGTAGTGAAGCACCTCCTGAGTGCCTTTCACTTTTGGGCTGGGGGATCACCACTGTGACCCTTCTGCCACATACCTCCATCCATG
CTCTACTATTTATCTGGCTAAGAAAACCAGCCAAGTTCACAGGCCCACGTTCTGAAAGAAATCAAGACTAACTCAAATCAGACTGTGGGCAGGGAGGATC
ACTAAGGAAAAGGAGAATACAGCCAATAGTGCTGACCGCCCACAGAAAGCTCATTGGTGTGAAATGAGCTTTCACACTGGACACTGGACAGAGTGTTAGC
AACTTAAGGCTTTTAAAGGTTCATAAATATTTTTTGAATTAAAGAATAAGGCAATTCAATGTGTCAGGTAAAAATTCTTTGGTAAGGTTGTCAAATCATT
TTTCTTTTTTATAACTTTACTCATGACCTCTTTTGGAAGTCTGTCTGGAAAACATGAGGCACTAACACATTACTTGGAATTATCAACCATACTGAAAATA
CTCTTTCCTGACTATGGTTTATCTACAAAGAGATGTGCTCTTTGAGGGAAAAAGTTCAATTTCATCTTTGTACTTCCCGCTTAGCCTAGCAAAGTAAAAC
CCAAGAAAGGATTGCTGTAGAAAACAAGTCCTTATAAAACCCACCTCCAAAACCTCCAAATCCATCTCTTCTTCCCTACCCCCGCAATGACGGTGGCTCA
CTTACTTATTAGCTGCAGCCTGGGCTCCTGCCCTGCCTCCTAACTCGTCTCTGTGACTTGTCTTGCCCTGCTTAACCTATTCTCCCCTGCCAGAGAGTCT
GATCTAATTCTAAAATCCAAATCTGATCTTTTGAGTCCAAAAGTATTTCTGGAATGCTCTTCCTGAGTTTGCATCTTGCTGCTAGAGATGCAGCTTTGGC
AAATCGTTTCCATTTGAAAGCCTCAATCTCCTAGTCTGTGGAAGGGAGCTAGTATAGCACCTATGCCTCAGCAAGTTGCTGTCACGGTTAAATTAGAAAA
GGCACAAGAGCAGTTAGCACGTGCATGACATGCAGTAGATATATAACAAATTAGTCACCACCAGGCACAGGTCACTTGGTGGTCCAGGCTCAGGGAGAGA
AAGTTCTACTGCATGACAATCTGGCACAAAAACCCCAGTAAGAGGAGGAGTGGTGTGAGGTTAGCAAAGGCTTAGCTAACGAAGGTTGGCCAAAGTGAAG
CCTGAGGGCAGCAGAGAGGGTCTGGAACATGGGACAGTGGCTCTGCATGTAAGAAAATGACTTTGGTGTACTGGGGATGATGGGCTGGTGAACAGGGACA
ATCAATCTAGCCTAGAGATGATGAAGGTCTGAGTTAAGGTACTGGCAATGGGAATGGAGGACGTATCGGAGATTTGGAGATACTTTCAAAAGTAAAAGTC
AGAGCTCCTTGACTAACAGGACATGGGTGGGAGTGGGACAGTGAGAAAAGCCGGGCTTTTATATCTGTCATTTACCAAGACATGGAAACAGCTGAAGAGG
GAGTGGGAGGATATGAAGAGGCGCTTCTTAAAAAGACTCAAAGGGTATGAAGTCCAAGACCCTTAACACTACCGCCCCCATCCCCACCACATACGATTTG
GTCAAACTCTCCTCCACACCTTTTGACAGCAGTTTTCTCCGTCTTGAGTGATTCTTGCTCTTTTCCCTCACCCTATCCCCAACCTCGTTGCCTTCGAGTT
ATTCTTCAGGCTCCAGCTCAGAGCTCGCCCTGCTTCTGCAGCTGTCACCACTCCCTAACATGTCAGGCCTTCCTGCTGCACCCGCCCTCCTTCCCCAGCT
CCACATTCCTCTTCCCTACCCCTTTCACATAAGGCAGTGACTGCTCTTCTGGGAGGTCTGTACCCCTCACCAAACCATGGGACCCAAAAGTACTTAAGCT
GATGACACAACTGATTCCCCAGTTGCTAAGTGGGTGTGTGCACGCATGTTTACACACATACTGTACGTGCACGTATATGACTGTACCTACAGATATGCAG
AAAATTATAAACACATGTGTACGTATAACATATACATATATGCATGTGGTTTTTTTTTCCAACAAAGTGAATGAGGAGGAAGAAAGTTGAATTCAGACTT
TTTGGAACTATGACAGCTTTGAAAACAGGTATCACCTTGTGTAACTCAATCTTCCGGTTCCTTGTTACCCCTTCCCAACAGTCCATTCGATTTCAAGAGA
AGACCCTTCTCCACCCTCACCACGTGAACCAAGGAGCAGACTCTGGTAGATCCCAGCGCCTCAGTTTCCTCGTCAGCTGACCGAGGAGGCTCCCCCGCCC
GTCAATCTCAGAGGCTCGGGGCGAGGCTCCAACTGGACTGAATGGAGCCACCGCGTCCCATTCAGCCCCACCCCCGGCCTGGCCTCGCGCCGCCGCTCTC
CCCCTAGCTCTGGGTCCTTCCCGGCCGCTGCCGCCCCCGGGCCGGGGCTCCCCCGAGGTCCAGCGCCTCCCCCGCTCCCCCGGGTCCGGCTGTCAGCTGT
CAGGGGGCCGCGCGGCGGCGGCCAGAGGCAGGACGTGGAGTTTCTCTCAGGCACGGAGCAGTTCCAGCCCGCAGCTCCCCCCGCCCGCTGGGCCCTTGGG
CCGCCGCCCGCAGGGGCCGCTCACCCTCCATCATCTCCTGCGACTGTTGCTGCCCCGCGCCGCGTTCCGCCGCCATGTTGGCTGCTCTTCCCCTTTCCGG
AATCTGTCGCCTCAGACCCCTCAGCCAATCAGGGCTCCCGCCTCAGAGCCGGCCCTGCCAATGGGATTCCGGCGCGGCGACTTCAGCCGCGCCGCGCCTG
CGTGGGCCCAGCGCCTCATGGGAGTTGTAGTTCCGTCATGAGGCCGCGCGCCGCGCCTCCCCCAGAGCAGGTAATTTCAGGCGGCGGAGCCGGAACAGTC
TGGAGGCGAGAAGCTGGGAAGGAAAGCAGAGGGAGTCGAAGCGGGACGCACAGAGCCGTAGCTGCAGGCAGACGGAGTGGACGTCTAGGCAGAGTGGAGA
GACGCCCTGGGCTTGAGAGTTGACTTATGTCACTGTCTCGACCTCGGAGGCGTGGAGGGGCCGCGGGCCAGGCGGATCTTTCCGTGGCTGCAAGGTGCGG
GCCAGTCCTACGTGCATCCCTGACCTCTGCGAGCCTCGCTGGCTGCGTCTGTACAATGGGCCGAACGGCAAGAGCAACAACATTCTCCCGGCGTCCCCGC
GCGGATTTTACCCATGCGAAATGCCGCCTTCTCTTGACGCTCGGAGCAGGCGGGCAGGTGCGGGGCACTTGCGCTGGTGGGGCCGCTAGCCAGCTGGCTG
GCTCCGGGGCGCCAGCTGGGCTCCCCTTGCAAGTCGTTCCCAGCCCAGTGCGGACGCTGCAGCCTTCGTCTACCCTGCGGAGCCACCCGGCCCATGAACG
AGCCGCCCCGCGTCCTCCGCCTTCAGAAAGAGGCCTCCAAGAGGCGAGCTCTGCGCTACTCACCCATTTTGATCGCGAGTCGGGAGGAAACCGCATCTGC
CCGGCCCGGGGGCGGAGGCGCCCATTATTCCTTTGGCTCCTCCGAAGCGCCGTAGGGGTGTTTGGTGCGTCCCTAGCAACCCTTAGCGCGGGCTTCTAGA
CTCTGGCTAGCTTAGTCCCGCCCATACGCGCAAGTGGCTGGTCCGTGGAGCTTGTCAATCGGTGCGAGTCGCTGTGCGATTGGTCGGTGGGATAAAAGCG
CGGAAGGGCTCCTTTCCGTGGTGTGTAGCCGGCTTGGCGTGACCCTCGCCTGATCCAGGTGAGATACCTGCGCTCGGGAGAGCGGGCCGGGCTCCGCCAT
CTCCCCAGGGCGGCTGTGGGGCCTGCGCGGCTCCGCGCCCCTGGCCCAGGAGGATCCGCCGCCCGACTCTTAGACCAGCCCGACCCCGGGTCTCCCGCCC
CTGCGCCCGTCGCCCTTCGCGCACCGCCGAGCCCGCGTCCTYTCCGTGCCCAAATCGCGGCGGGGTTGCGGCCGTTGGCCCTGGGCCCCGCGCCCCCAGC
GTCTTCGGGGTGCCCTTCAGTGTAGCCTGCCCGGTGGGCGCCGAGGCCCCGCGCCTCGGGTCGCCTCGGGACCCTGCGCTCTCTTCACCGCAGCCGGCCC
TGCGGGGCGAGCTCCAGGAGAACCAGCCCGGATCCCGCCAGCCTCCTGCACTGGGCGTGTGGGTCCCTGCGGGCTCAGCCGGCGCCGCGGGGTCGGGGGC
GCGCGCCGCCGGCGCTCGTGGTTACAGCAAAGACCTGGACTTGAGCCTTAATTTTTTCACTAATTTTTCTTTCCCAGAGTACGGCAGGGGCCTGCGCTGC
CGTCTTGAGGCCTTTCTCGTCCTTACCTTCCGCATCTCAGTACCATTCGATGTCCATTTTTCTCTTAGGGGTTCCCTCTCTTCATCTTTCTGCTGCTACC
TTAATTTAAGACTTTATAATTTCTTGCCTGGATTACTGTAGCCTTTCTCCTGCTTTCCAGCCTTGCACCGACATGGTCCCTGGAGTAATCTTTGTAAAAT
GCATATCTGGCCATGTTACTCCTAAGCATTGAATCCTTAAAAGTTCATTTTGGGGATAAAATTAAGACTTTGGGCAGGCATAGGAGGCTCTGGGCTCATG
CTTGGCCCTTCCAGGCCCACGTCCACCTACTCTTCTGGGTACTGAACTCCTCTCTGGGAGGCTTTGCCTCTGAAAGACTTCTTCACTCTGCTTGGWAGGG
CCCGGCTCTGCAGGTGCCTCCTCCAGGACTGACATCCTTGCTGTGTTCTACTGCACTGTTCACCTTGTTGGCCTCATCCTGAAACTGGTTCTCCTTTTTG
TTGTACAGCTGTGCTGACAGCAATGGGAGCTGTTTGCTTCTTAGCTTATGTTCTGGTGGGAGGGGGACAGTTGCYTCTAGAAGTTCGCCGAGATGCTCCC
TGCAAAGTTGTCCTTGCTTCTGTTTGGTCTGAGGTGGGGTCACTTGTGTCTTCTGGAATCAAAACTAGCAATGGGAATATGGTTACTCGGTGGCACCATT
AGGTGCTGTCTGCTGGGTTTGGGTTCCCGTGTCTGCAGCTCACAGTGGATACAAAGGACAATTTTAAAAATTTGGGCCTGGACGTGCAGGTATTTCTGGT
TAACGTCTGAGTCAAAATTTAGTGATCTAAGGTCATGTGAAGCCAGACTCTGTTCTTTCTTGAGGCCAGGCTGTGGCTGTGGAGTGCACGGGAGGCTCCA
GGGGCCTATGCTGTTCAGTGACAAACTGGCCCACGTGGACTTCAGATGCCCAGGAGGCACAGCGGGAAAAAGGATGCATCTTTCCTGCTGTCCTCCCCGC
TCCCGCAGAGGGTCCCATCAGTTTCCCTCCTGGATAGGCTTGTAACTCTCAGTAACCTAATTAAACTTCCACAACTTTAGTTGGTATTTATTTACTTTCT
CCCATGAAGGACAAAAAATTGCATGCCCTTACCCTCCCTTTGCTTTTTTTCCCCCTTTCCATTTCATGTTAGTTACTTTTACAAAGAAACTTCTGTAACA
TTTACAATATATTCTGAATAGTTATATTACTTTTTTATYATTTTATTTTTTGAGACAGGGTCTTGCTCTGTGGCCCAGGCTGGAGTGCAGTGGTGCTGTG
TCCTCTCACTGCAGCCTCCGCCTCCTGGGCTGAAGCGATTCTCCCACCTCAACCTCCCAAGCAGCTGGGACTACCAGCATGTGCCACCACACCTTGCTAA
TTTTTAATTTTTTTTTTGTAGAGATGRGGTCTCCCTATGTTGCCCAGGCTGATCTCGAACTCCTGGGCTCAAGTAATCTGCCTGGCCTCCCAAAGTACTG
GGTATATGACTTTTTAAAATAGTTTTGTAACATTGACATTGCAGTCTGAAGAGTTATATTTTTTAGGAATTAAAGTTTTCTAACAATGTATTCTGAAGAG
TTATATTACTTTTTTAAGAAAGTAAGGTTTTACAACATTTACAATGTATTCTGAAGCTATAATTAAGTGTCCTGAGCTTTGTCTATAGGTTGGTTCTAAA
AGTAGAAAAAACTGCCTCACACTATAATCATGTCATTGTTATTTATTATGGCAATAATTAGTGCATTTGGATGCTTAGAGAAGGAGATGTAAACCTGTAA
CTAAAGGTCCCATTCATTGTTGCTGCTTGTAGGAAAGCTGCACACTCGAACCCCAAACCCTATATGTAATAGCTTCCTACACATCTGCAGGTTTGCAGAG
CCTTTGCCTTCCAGGGTCCTAGGCTGGGTTTGTGTGTGAATGTCTCTGAATTTTTTGGCCGTATCAGTTTATTCATACAAAAGAATAAAGGCAGTGTTAG
TCATGAATTGTACCAGCAGAGTGGATGCATTTGAACCCATCACCCTAGGAAATCAGGGGACCTGTGCCCTTGTGCCTCTTCCCCACTCTTGCACCTGCCT
GACCCAGAGGGAASCAYCTGCCTGAAATTTAGGTTTACCAGTCTCTTATTTAAGAAGTAGTTTAATTACATAGGTGTGTTTCCCTGAACTACTTATTTAG
ATTATTTCATGACAAAGGAATCCTCCTGCTGATTGTCTTCCGTAACTTGATTTTTTCCACTCGTATATGGCTAAGATTCACCCTTGTGTGTAGTTYATTT
GTTTTCACTGCTGTAATTAGTGGTATGAATATACCAGAATTTAAAATCTATCTTCTTGTTAAAGAGTGTTTGGGTTTCATTTCCTTTTTTCCTCCCTCTC
TCCCGCACTCCCTCCCTTTCTTCCCTCCCTTTTTTCTGCCTGTCTCTTTGCCATTGAGAACCATATTGTCCCGAACATTCTGGTGTCTTCTTATCTGTTT
GCAAAAATTTCTCTGAAATATAAATCTAAGTGAAAAGTGCTGTATCCATATARACAAATGTTTCACTTGAATTGTTTTCTAAAGAGATTATATTAATGTA
TTAAGAGTTCCTGTTGATCCAAATCCTTTTTGACATTGGGTATTACTAGATTCTTCATTTCTGCTGACTTAGTAGGTATAACATYATCATGATTAGGATT
TCCTCTCCTGTAAAACGCTTGTTCCTATTTCTTGACATTTTTTATTGGGCCATGTGTCTTTTAAAAATGTTTAAATTTTAAATAGTTGATCTTTTAAAGC
TATTCTGGATATTAATTTTCTGTTGGTTATGTATGTGGCAAATATCTTCTCCCAAATTGTGGCTTGTTCTTTCRTTTTCTTTATGGTATTCTTTGTGAAG
CTGTGTTCTCATTTTTTTTTTTCTTTTTTTTKGGGGGGACGGAGTCTCGCTGTGTCGCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCATTGCAACCT
CCACCTGCCAGGTTGTGTCGCCAGGCTGGAGGGCAGTGGTGTCATCTCGGCTCATTACAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCTGCC
TCCAGAGTAGCTGGGAATACAGGTGTGTGCCACCATGCTCAGCTAATTTTTTTTTTTTTAGTAGAGATGGGGTTTCACCACATTGGTCAGGATGGTCTTG
ATCTCTTGACCTCGTGATCTGCTTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGATGTGTTCTCAATTTTAAYGTTAAACTTATTAATCTTATT
TTATAGCTAGAGTTTTTTGTGCSTTGTTTAAGAAAACTTTCCCTACCCCAAAGTCTTACAGATAGCCTCTTTTCTCCTAAAAACTTAGTGATTTTATTTT
ATATTTTATTTGGTTTGACAGGTCTCGCTTTGTTGCCTAGGCTGGCCTCCATCTCCCTGGGCTCAAGCAATTATCCTGCCTTAGCTTCTAGAGTGGCTCG
GACTATAGGTGCAGGCCACGAGACCTGCCTGGCTAAAAAGTTTAGTGTTTTGACTTCCACASATCAGATCTTTTATGCCCTGGGCACCATAGTGAGACCT
CATCTCCTAGTTAAAAAAAAAGATGGCCATGTGAAGATACATACAAACAGGGAGAAGTCGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCAGTTTG
GGAGGCCGCAGCAGGTGGATCACGAGGTCAGGAGATCGAGACCATCTTGGCTAACACGGTGAAACCCTGACTCTACTAAAAATACCAAAAATTAGCCAGG
CGTGGTGGCGGSTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAAGTCGCGCC
ACTGCACTCCACCCTGGGCGACACAGCGAGACTCTGTCTCAAAAAAAAGAAACAAACAAACAGGGAGAAGCTCTGTGATGGCGAAGGCGGAGACTGGAGT
GACGCAGCTGCAGGTCAAGAACACCAAAGATGGCCAGTATGGCCAGTAGCCACCAGATGCTAGGATAAGGCAAGGAGGGGGGACTCCTTGGAGTTCCATA
TTGGAAGAGGTGGTGTTGGGAGGGCCACCTCCCCTTTCCTCTTCACCCCAGGCCTGCCTTGTCTTGGAAGGGCCTCGTGTGGGCATCCTGCTAGCTTGTC
CAAGCTCGCTATTCCTGGAAGGCTGCTCCTCAGCCAGTTCACGGCTATAGGTGTGCCAGTGTGGGARGACYTGGGTGGAAAGAGGCCTGTGTGTGTCTTA
GAAGTGGGCACCAGACCCTTTGGCTGGGAACTCTGGGGTTCTGGATACCCAGAAGGTGGTCCAGAAGAGGGTATATGGGGTGTGGTTGGGCTTGCCTTGG
CCCCAGGGTCTCCTMATTTCGTGGGGGAAACTCCAGCCATGGTTCTGGTATTGGCCACAGCCTCCTCTTGCTGTTTATCTAAAGCCTGGATGACCAGGTG
GGGGCTTCCTGYCAGTAGAGGAAATCTTCTTGCTTTAAGGGCTCTTTTTGTTGAGTTTGGCCATGAGGACAGGGTATTGGTAAATGTGTACTTGTGTTTC
AAGTGCTTGCCAATATGCAGGATGGAACTCTTAAGTATCTCCACTCTGCAGGGTGGTCACATGAATGTATACATGTGACAAGACTGCATGGAACACGTGC
TCACATGCGCGCACACACACACGCTCATGTACACATGTGCACACGCACACACACGCAYGGACACACACGCACACCCMCACACACACACACCTGCAGGTAA
ATGCCTTGAAATCTGGACGAGGCTGATGGATGGTATCAAGTCAGTTTCCTGGCTGTGACACTCTCCTGTAAGATGTCACCATGAGAGGGAACTCGGAAGA
GTATGTGAGATTTTCCTGTATTTCCACCCTGTATCAGCATTTGAATCATGTATAAGAGAAAAGCTAAAAATACAAATCTCTGGTGCCAGGCCTGTCTCTA
GGAGACATGGCCTCTTGGCCATGGCCCCCGCGACCTCACTTGTTGGCAGCACCCAGGTGATTCTGTGCACAGCTGGTCGGATGGTCAGGACTCACTGTTT
AGGGGAAAGCTGAGACCATGGGAGCTGTGCAGCCCCCACGTGCTGATGGGTTCATCATGACCTGGGAGTATTTTCAGTTGGTGTGTACCTGCAGTCCCTG
CCTTCCCTCATGGCTCCTTCCCACCCTGTTCTTTGTTTTCCTCTCTCTCTCCTTCCCTCTTTCCCATATCTTCCTATGTATTTTTCTTGGAAAGAGCTTC
TTTTTTTTTTTCTTTTTTTTTGACATGGAGTCTCTCTCTATCGCCCAGGCTGGAGTGCAGTGGTGTGATCTCRGCTCACTGCAAGCTCTGCCTCCCGGGT
TCACACCATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCRCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTGGAGACGGAGTTT
CACAGTGTTAGTCAGGATGGTCTCGATCTCCTCGATCTCCTGACCTCGTGATCCGCCCTCCTCAGCCTCCCAAAGTGCTGGGATGACAGGYGTGCGCCAC
CKTGCCTGGCCCGGAAAGAGCTTCTTTTAGCACCACTTTGGGTGGACCATTCTCCCATYGCGGGTTCTGACCCAGGATGGCGGTTGGTGRTGTATGTCTT
TTGGGGCYGAGCTGAACTCAGCATTATRAATTAGTTGGTTAAACTGTCTTTGTGTTTTTGCATTGCAGATGTTAATCAGCTTCATGTTGTTTTCTAGTTG
TTAGAGKTGGAAGCTTGGCAGTTGGCCTCCCTTCTTCCCATGGAGGACGGGGGCTTAACAGCCTTTGAAGAGGACCAGAGATGCCTTTCCCRGAGCCTCC
CCTTGCCAGTGTCAGCAGAGGGCCCAGCTGCACAGACCACTGCTGAGCCCAGCAGGTCGTTTTCCTCAGCCCACAGACACCTGAGCAGAAGGAATGGGCT
TTCCAGACTCTGCCAGAGCAGGACRGCGCTCTCTGGTAATGACCTTCGACCACTGCAGGCCTTAKCGCRTGGAAATACAAATGTGGAGTTGCTCTGTGTT
CTCATGGAAACCCTCTCACCAGGGATTGAAGTCACTCTATTCCTGCAGAGAAAAGTTCGTGGTTTAAGTGCTCGGCTCATGCTGGCAGATGACTCCGGCA
GGACCCTTCCTGCTGCTTTTACTCTGCTGTGATTCCCAGGCAGCWGGCGCTTCTTTTCAGGCAGCAGGTGGAACTCACCTTCACATTTCAGGGTCAAGTT
ACAACAAAATGTTATTTCTTACTTTAGAGTATGTGAGAACGCTGTTCTAGGTTAGGCTATTTTACTTAGRGAATTGCAGCTTTGCTCGTGCAGTTTACTG
AGCTAAACGYGGTTTAGCTGGTGGACCAAGAATCATGGGGCAGAAGTCTGTTGGTGCCTCCTMTGTCCAGATTCCGTTGGTGCCTCCTTTGTCSAGGCAC
CCCAAAGGWCTGGGCCATGGTGAGGAAGGAAGCGTCACTTGCCTTTCAGGGGCTGTCTGATGGAGGCACTTGGGGAGACAGCAGGCTGTGTGCTTGAAGT
TGGGGTAGACCTGGAAAATGGGGAAGTGGGGCATAGAGCTGCGGGAAATGGTGGCTGGGAGTCTGGTCTCCAGGTCAAGGAGCACTTCGACACTGGAGTA
GGAGGGTGTTGGAGCTGAGCTTGTGCACTGGAGTGTCTGAGGGTGTAGAGCGGAGGGCCCTGTGGAGAGTGCCCAGGATACTGCAGGGAGGGGTGGGCTG
GGAGGCACACAGCGCCCTTGGGAGTGGGCTTCACCCAGGCGCTGATCAGGAATGTTCTCAGTGAGTGTTGACAGGTGTGTTCCTTTTTTGGAGCATCATT
CTGGTGGCTGCATGAGGAGCAGGGGTGGGAGCCGGAGGTACAGGGCCTTGAGACATGAGAAGGAGCTGCGCTTGGTGACTGCTGTCTGGGGAAGAGCAGG
GGCGAGAGTGGCTGGATGGCCACGTGGTTTCCAGCCTCAGAGAATGGTCGGGGTCAGGCCACTCACTGAGAAAGTCAGGGGTCCTGGCTGGAGGACATGG
AGGGGAGGGGATGGGAGAGAAATGGAAGGGTCAGGTCTTGAGTGCTTGGTTTTGAGCACTGGAAGAATGTATCTGGTGTCTCCAGAGATGGGGAAGCAGG
CGAGTGGGCCGTGGGAGGTCCAGGCTGGAGGTGCGAGTGTGAGAGTCTTCAGTGCATTTCTAATTAGATGTATTTAAAGCTACCGAGGAATGGGTGAGAT
GGAGCCAGGGTCACTGAGAGGTGGGAGGTGGGGGAGCCCAGGTGCCCGAGGAGGGTGGTGTGGGAGGAGGGTGAGGCCTGAGGAATGACGGGGCTGAGGG
TTTTGGGAGCCATTGGAGGCGTTGCTGAGAGAACGCTGCACAAGGAGCTCTTGAATCGTAGGAACGCTTCCAAGGAGGAGGTGACGGGGCAGCCACCGGA
GTGGCCATGGGGTCTTGGAATGACTGACAGAGGACAGAAGGTGGGAAGGAAGGAACCTTTGAGTGTAATTAAGCTTTTTTGTTTTTTGGGACAAGGTCTG
ACTGTTGCTCAGGCTGGAGTGCAGTGGCGCAGTCATAGCTCGCTGCAGTCTCAAACTCCTGGGCTCAGGCAATCCTCCTGCCTTAGCCTCCTGAGTAGAT
GGGGCTGCAAGGGCACGCCACTATGCCCAASTGATTTTTACAAATTTTATTTTTAGTAGGGACAGGGTCTCGCTGTGTTGTCCAGGCTGGTCTTGAACTC
CTGAACTCAAGCAACCTTCCTGCCTCAGCCTTCCAAAGAACTGGGATTATAGGCACGCCTGGCTTTGARTGTAATTTAGACACAGAAGTGTTGATCTTAT
GCTGTTTGTGCTTCCGAGTGGACCTGGTGGTTGCCTAAGTGGATTCTGGGGACCATGTTCAGACACGCAGTGAGAGTGTGTGTTAGCTGTGCAGACTGAC
TTAATCCTTAGATCTTTTTGCAGGAGTTGAGGGCAAGGGCTGTGTGCTTTGCCTGTTTCAGAAGGTGGACTCTGGCAGCTGTGTGAAGTCTAAAGCTTCG
CTTCGCTTCTCTTTTCAGAAGACAGATGGAGCTCCTATTGTCTATCATCACTGGCTGCCCAGAATATTTRTACRAGTAAACTGCACTGCCCTGCTGCCCC
TGAGCACACGGACCCGTCCGAACCRCGGGGCAGTGTGTCCTGCTGCTCCCTGCTGCGGGGACTGTCCTCAGGGTGGTCCTCACCTCTGCTTCCGGCCCCT
GTGTGCAACCCTAACAAGGCCATCTTCACGGTGGATGCCAAGACCACAGAGGTATTTGCTTCTCTTTTAGATCCAGCTGTGTAGATGTGGATTTGTGGTT
TGTGCCTTAAACCTGGGATTTGTGTGTTTTAATGCAATTAGAAAAACATTTGGGCACTTCGGGAGGTGGGAAGTTTGCTTGAGCCCAGGAGTTCAAGACC
AGCCTGGGCAACATAGCAAGATCCCATCTCTACAAAGAAATTAGCCAGGTGCGGTGGCACACACCTGTAGTCCCAGCTACCAGGGAGGCTGAGGCAGGAG
GATCACTTGAACCCAGGAGTTCAAGGTTGCAGTGAGCTCTGATTGCGCCGCTGCAGTGAGCTCTGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAGT
GAGACCCTGTCTGTCAGGAAAAGGCTGGCTTCTRCATGGTCGTCCTGGGCTGTTCTGGGCAGCTGGTGGAGCTGCTGGGGATGTCTGCATCCTTGCTCCT
CTTTGTGATTCCTCAGATCCTGGTTGCTAACGACAAAGCTTGCGGGCTCCTGGGGTACAGCAGCCAGGACCTGATTGGCCAGAAGCTCACGCAGTTCTTT
CTGAGGTCAGATTCTGATGTGGTGGAGGCCCTCAGCGAGGAGCACATGGAGGCCGACGGCCACGCTGCGGTGGTGTTTGGCACGGTGGTGAGTGGATGCG
GGTGCAGYGTTCAGTCTGGCCTCAASACCAGCAGTGTGTGGCAGGAACAGCTCRGTGTTCCCTACCAGGAGCTCTGCTGGGGGTTGGGTGGCACCAGGAC
ATCTCAGCTTCTTCAGCTGAAAATGTCATCCCAGGCGCCGTTTCCCCGCTTCAGCTGCAGTGGGGGTGGGGGCCCTTTAAGAAYGAATCATCGCAGGAAT
GGACACTGTGGCTGTGGCTGGACTCCTGGGAGGTGTCGTGGGTGGCCCTTGCTTTGTCTGAGGGCTGTAGCTTCACTAAYGTTTTGCAGTCCTGCCGGGC
AGCACATCAGATGCTCAAGAGTAATATGGTTTTATTGTCTATTGATTTTTACATTCTGTTTGGTGTTTGTGGGAGCGGGCGGGGGTGTTGGCCTGGAAGC
ATTTCCCTAGACAGTGTTGATTCTCTCACCTGTGCCATGTGTCCAACCTGGATGTTGACAGGTGAGCTGAGTTGGATGTGGAGGACTGAGCCCAAGGCAT
GGAAAAAGCCCAAGGCATGGCTGATTGTAGGGTTTCCCCTCGTCAGCCGGTCGGGGACTGGGGGAGTAGCGTTGGAGGGCAGTGGAGGTTGGGGTATGAT
CTGAGGCTCTAGTAGTCATCCAGATCCTCCAGGTTGCCTGTTTCCCACCTAGTGTGTGGCTTTCACACAGAAGACCCCATTGCTTGAACTGAACTGATGT
CACAGGCTTAGGACCAATTGTATCAGAAAATCACTGGTTCAAGAAACTGACTACTAAGAAGAAAAAAACTAAGATATTCACCATGTGTTGGTGTCTGTTT
CTTTAAGAAATAACAGATACTGCTTTTTTCACCCTGCAATATTACCATGAACTGAGAATGAAATCTACTCTCTTGATAAAACTTGCACTTGGAGATTTTA
ATGTTCAGTATGGGAAATCTTGTTTGTGCTTTGGTAAATTTCTGAAATGAAARTCAGGTAAGCAGAAGTTGAAAACGTTGCAGTGCCTGGAGTTTGGGCC
TCCTGGAGGCAGGTGCCCCACCCATACTGGTCTTTTGGGTTCATGGCATGCAGGTGTGAACCTGTCTGTTTCCACAGGTGGACATCATCAGCCGTAGTGG
GGAGAAGATTCCAGTGTCTGTGTGGATGAAGAGGATGCGGCAGGAGCGCCGCCTATGCTGCGTGGTGGTCCTGGAGCCCGTGGAGAGGGTCTYGACCTGG
GTCGCTTTCCAGAGCGATGTGAGTGTGCARCTTTGCCTCATGTCTCATGGACGCTGGAGCCGGCGTCGTTCTCCTCTTCAGCAAGTGCTGGTCCCTGTCT
CATTCCTTTGGGAAGAAAGAGAGGATGAGGAGCCTGGAGGGTCTGCCCAGTGGTACCCTCGCTGATTGCGTGTGCTTGGGCAGGGAACGAACTTCCTATA
CTTCAGTTCCTCACCTGTGAACTGGGGCATAATCATAACTCCTCATAAGATTGTTTCAACATTTAAATGAGATAATATATGTAAACCCCCCAGGATAGTA
GCTGGCATTAGAGACAGCCCTCATATGTGAACTGGGATGTTATTAATGAGCTGTGGTGTGGGCCAGGCTCCTGAAGAACAAGAAGGCCCACAATTTAGGT
AYGTCTCTGGTAGAAGGAGACAGATGATGAAGCTCTTATCAAATTCATGTGTATATGTCTCTTGCCCTTCCGATGGAGAAGTCATGTTGGGGTCTTGCTT
TTGGCTTGAACATATTGAAGCTTAGTTAAATTTACAGCTGGAGCACAAGAAGCTTTTATGATAAGCACGGGGCTTTTCCTCCAGGGCACCRTCACGTCAT
GTGACAGTCTCTTTGCTCATCTTCACGGGTACGTGTCTGGGGAGGACGTGGCTGGGCAGCATATCACAGACCTGATCCCTTCTGTGCAGCTCCCTCCTTC
TGGCCAGCACATCCCAAAGGTAGGGCTCCTGACCTCCCRCACTGTGTGATGGGGTGGAGTTCTTAKCTCTGAATCCATAACTGGAGAYGCAGACCAAGGG
TTTCTGAAGGCAAGGGTGGCCTTAGGGGTGGGACATGCTCAGTTTTGAGCTTCCTGTGCGCTGAGGCCTTGACCAAGGGCCGGAGCCTATGTGGTCTCCC
AGCTGACCACTCTTGTCCCCTGAGTCTTCTCCCAGGAGCTGGGCCACCCACAGAGGTGGATGCTGGGACGCTGCCCAAGGCTGAGGGGTGGGAGGTAACA
TCCACAGCTGCGCAGCTGGTGTAGTGCTGCCTGTGGGGCCAGTATCCTGGTGCCAGATCAAGGATGGCACAGTTGCCAGTGGCGTGGCTGAGCCCCGAGC
CTGAGCCCCACAGTCCTCCCTCCCTCCCTCCCTGCTGGTGCCYGGCCCCTCACTGGGGTGTCTCACTTGCCCYGGGGTTGCTGTGCCTGGGGCGGCTCTG
GACACTGAGTCCTCCCCACCCACAGAAGGGCTCTTTCCTGGGCCAGCTGGGCCTGGGAGGAGAGGGAAGGCAGAGCAGTGTGGGTGTGAGATGTCCTGGG
GACCTTCCCCGATGACGTGGGGTAGAAGTCGGGTCGGACGCAGCACAGACTCAGTGCTCTGTCCACGTGAAACACGGCTTAAGCCAAACGACAAGCCTTT
CTTTCAGAATCTCAAGATTCAGAGGTCTGTTGGAAGAGCCAGGGACGGTACCACCTTCCCTCTGAGCTTAAAGCTGAAATCCCAACCCAGCAGCGAGGAG
GCGACCACCGGTGAGGCGGCCCCTGTGAGCGGCTACCGGGCATCTGTCTGGGTGTTCTGCACCATCAGTGGCCTCATCACCCTCCTGCCGGATGGGACCA
TCCACGGCATCAACCACAGCTTCGCGCTGACACTGTTTGGTTACGGAAAGACGGAGCTCCTGGGCAAGGTGGGGCTGCCCTGGGCGCCTGGCTCCCGTTY
CCTGGGAGGAAGCTGCTGTGCTCTGCAGTGCGGGCTTGCGTGTGGCACAGGCCTCGCACCCGGCAAGCTCTCCAGCTCGCTCCTTTACCCAGGAAGGAYC
TTGGGTCCAGGGAGGGAGGTCCCTGCTCATGGCTGCCAAGCTCCTTCCTCTCCACCCTTCCCCAGCAACCACCGTCGGAGGGAGAGGAGCACTGTGCTTC
GAAGCCCTGAGAGATCTGGTCTGACTGATGGACCAGGGTTTACGACACAACTGCGGGGGTTCATTTCTCACCCTAGTAGAAATACTAAAAAGTAGCTAAG
CTGAATTGTAGTTACGTTAAATTTAAGTTAGTTRAAAAGCAGTTAGTGTTCTTCCTGGATGAGGGGTTCCCACAGGAGCTGAGGGCATTGAGACCTTGCA
GGGATTTTGGGGGCATGGACACTTGTGCCCTCTGTGAGGTTAGAGCGGGTTCTGGCATTACAGCTATGGGCAGTGTCCCKGTGAGGGGGCCACACACAGG
TTCAGAGGAAGCATCTGTCAGAGCAGCTCCTGGCCTGGGAGGAAGGCCCCACAGTCCTTCTGTCCTGGGTGCAKGTCACTGTTCCGGCCACCAGTGAGCC
GCGTGAGGTGAGGCTTGCARACACAGGCTCCCAGATCCATCTAAACATGGGGCCAAAGGCCAGATGTCTGCTCCAAAGATGTGTCGATGTCACTGTAACT
TGCCGCAGAGTATGTTTTTACCTTTTTCTTAAGGGGAAAATCACAGATCACATGTTGAGCATCYGAGGGGCTTCAGGTGCGTCGAAGGGCATTTGGCCCG
AGGCCTTTCCTGACCTTAAGGGTGAACCCTCAGGGACTGGCTCTCCTTGTGTTCATTCCTCCCCCAGGGGGACGGTCCAGTGGGTCAGCGTGGATCCTCC
AGGTTCTGAAATGTCCCTGCTTTGTTTTCTAGAATATCACTTTCCTGATTCCTGGTTTCTACAGCTACATGGACCTTGCGTACAACAGCTCATTACAGCT
CCCAGACCTGGCCAGCTGCCTGGAYGTCGGCAATGAGAGTGGGTGTGGGGAGAGAACCTTGGACCCGTGGCAGGGCCAGGACCCAGCTGAGGGGGGCCAG
GGTAAGACGTCCTCTTCCTCCTGAATGCGCCTGTAGCTGCTGAGCCCCAGACAGCCCCATGCCTCTGAGACAGGGCTGGGAGGAGCAGGAGCTAYTGTCC
CTCCAGAGGCTCAGGGGTGGTGGGGGGCGGAGTAGGGGGTGACTGTTTTCTGGTTTGATGTTCCTCTCTGTCTCGGGGGCTGTGACATATTCTTATAAAC
ATATGAGCATAGAGAAGAGAATAGAAAACCCCCCAAGAGTGCATCACCAGTGCCCATGATATCCGAGACACAGCATCCGAGACACAGCTAACTGACCGTC
TTGTCTTTTCTAAGTAAACTTATATAGCTTCATGTAGTTTAAGTGAAGCCATGTAGCATATCGGATTACCGCTGACCCTTGAACAACTGGGTTTGACATT
AGAGGGTCCACTTATACACAGATTCTTTTCAACCTCAGAAATCCAGTACTGGTGGGAGGTGAAGTTGGCGTATATGGAGGGCTGACTTTCCATGCACCTG
CGTTCCACGGGTGGGCTGTGGGACTTGAGGGTGCTCGGATTTTGGCATTCTGGGGGTCCTGGAACCCATCCCCTGAGTGTACTGAGGGTTGACTGCAATT
CCTAAATTGAATGTTCTACCAGTATTTCCTGGTTTAATTATGTTTATCCCACATAGTTTTAATTTAACATTTTAAATGATTTCAACAAATACTCCGAGTC
CCTTTCATATGCACAGTCTTAGGTGTGTGGCTTGTGAAGACAGGGTGAGCACACTGCCTCCTGTCCCGAGGGACCCACTCTGGCTGGGAGCAATGAGGGG
CAGTAGAACCYGCTGATGTCCTGGCAGGGCCCACGCCTGAGCTCCTGGTAAGGAGCAGGCCCCTGGCTGCTTCCACAGTGCTCAYTCTTGTTGACAAGCA
TGGGGTGGGGGTGCGCCCTGTCCCTGGCTCTGCCCTGGTGGGGACCCCGGAACTCTGCCTCCAGGGCCTCTGCCCACCTGGAGCGTGGGCTCACTGGGTG
TGGTTCTGGAGTTCCTGGGGCAGGCTGGGGCCCAAGGGTCCAGGTGATGGTGTGGCAGGGGTGTCAGGTGGGGGGGTCTCTGTTCTATGGAAGGACACAG
TGGGGGTGAGAGAGAGAGAGTGGCCAGTGCTGGCAGAAAGCACAGCCRCCTCGGGGCTCTGCATCGTGGTGGGGCCAGGCGGGTCGGCAGGTGCTGGCTT
GCGAGGTTGTCCTGCMTGCGGTCACTCGGGTATCGAATGAGTGCGAAAGTGGATTTAATACAGTCACTGAGAAAAACTACAGCTTCACGAGACTGACCAG
CCTGGTGAGATAAACATTTACCGTCAGACACTCTTTAGCTGTCTGGGCATTGTGTGAGTTCTTTGGCACATGCGCCCAGCCTCCTTCCCCACAGGGTCTC
GCCTGGGGCATTAGAAGCTGGATTGTAACATTTGTTTTAAAAGATACTTTGTTAGGCTGTTGGTTCTCCTTACAATCCYGGCTTTCCTTAGCATGTGGTT
CCCTTCATTGTATCTGGGTTTTTCTATCTCAGTCTGTCCTTTATACAAGCTTTTTCCTCTAGCACTAATTATATTCCCCTTCCCCTTTTTCCAGAATTCC
AAATTCTGACCTGTGCATGCATGCCTGTGTTGAGTACATGCTGTTTGTCGGATATTTGGTGGTGGGGGGAGGGGATCACATTTCTGTTACTCTCGCATTG
TTTCCTTAGGATGAATTCTTAGAAGTGGAACTTCTGGATTCAGGGAATGAACACGTTTGCTAGTTACTGTCAAAAATGCCTCTTGGAGAAGTTATGCCGA
ACCACCCAACTGTCCTGGTCACAGAGCAGGCTTCTCTCGGCTTGGGGCTAGGGTTCTTTCTGGGGTCGTCCTTTTTTTTTTTTTTTTTTGAGACAGAGTT
TCGCTCTTGTTGCTGAGGCTGGAGTGCAGTGGCACCATCTCGTCTCACTGCAACCTCTGCCTCCTGGGTTCAGGTGATTCTCCTGTCCCAGCCTTCCGAG
TAGCTGGGATTACAGGGATGTAGCACCATGCCTGGCTAATTTTGTGTTTTTAGTGGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCA
GCCTCAGGTGATCTGCCCGCCTCGGTCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCGTGGCCTCCCAGGGTCCTTCCTAATGCAGGCTGCT
TTCTCTCATGTAACCAAGAGACATACWTTCATCCCCTACCACGTGCCAGGCTGCRCTGCGTGCAGATGCCCCTGCGCTCACGGGGACTGGAGGGAGCCAG
GTGACATGGAGCCCAGGAAGTGGCCAGAGCTCGGGAGGAAGGCAAAGAGGGGAAGAGGGCATGCAGTCTTAGGCTTGGGGKCCCAGGAGGCCTAGGGAAG
CCTTGTAGATACCCAGGTACAGCATTTCTGGGATCAGGAGCCATGATCCCAAGGCCTCTAATACTTCAGATATGGCAGGGAGGCCAGGTGGAGAGACCTG
GAGGAGTGAGGCCACAGAGTTGGGGGGCCATGGCCGAGACTTCGGCTTCTATCCAGAGTCAGATGGGAGCTGTTGGAGGGTTGTCAGCMGRTGAGKGCCG
TGCTCTGACTTGGGTGTTAATAGGATCATGGTAGCTGGCTGCAGGTGTCCTGGGCCAAGGAGCAGGGAGACAGGAGGCAGAGAAGAGGGCGCTGGGTTGG
ACCTGGGACGCCTGGGGTGGTGAGAGGTGGTCGATGCTGGTCATGCTGTGAAGCAGTCTCAGTGAGTTCCAGGCGAATGAGCAGATTYGTTTTAGGGAGT
GCCTGTGAAGAGCAAACGCTCTTTTTTGGTGTTGCTGCCAGATCCAAGGATTAATGTCGTGCTTGCTGGTGGCCACGTTGTGCCCCGAGATGAGATCYGG
AAGCTGATGGAAAGCCAAGACATCTTCACYGGGACTCAGACTGAGCTGATTGCTGGAGGCCAGCTCCTTTCCTGCCTCTCMCCTCAGCCTGCTCCAGGGT
AAGTCCYTTGGTGGGAGGTTGCAGGTTTACTAAAAGTCCAGACAGATGGTAGGTGAATGAGGAACAAGTCAGAGAGAAATGTTCAGCCTATTATTCATAG
TAACATTGAAAACTCACATGTGTTSAGCACCTGCTCTCTTCCACACACACTGACTGCTGGGTTTTCTGTGCTGCCTGGCTGAGTCCTTATCAGCCTGTAT
GGGAGGGCACCATGGTGTTACTGTCTCACTGTAGGGATAAGGAAACAGGCTGTGGAGAGTTCCAGAATGTTGAGGTAGATTTCAGAGAACTGATGGAATC
ATAATTTTATCATTTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTAGACAGAGTCTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGYGCGATCTCAGCTCA
TTGCTCATTGCATTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGACTACAGGCGCCCGCCACCACGCCCG
GTTAMTTTTTTGTATTTTTTTTAGTTTCACCAYGTTGGCCAGGATGGTCTCGATTTCCTGACTTTGTTATCCACCCGCCTTGGCCTCCCAAAGTGCTGGG
ATTAATTTTATCATTTTCAAAGTCATATGAAGCTGTTCTCTTTGCACATTTTAAAATATTCTATTTAGAGTAAAGAAAGTTTATATTAGAGAATTAGGAA
CATTTGGAAAAGTAGAAATAAAAACTTGTTCTATTCTCATAGTCGTATTGTACATAGCACGTGTGTGTGTATTTTTAACCCATTTTCTTCTTCGGAATCT
TTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCAGCTGCCCAGGCTAGAGTGCAGTGGCGTGATCTTGGTTCACTGTAACTTCTGCCCCCTGGTTCA
AGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGACTACAGGCACCTGCCACCACGCCCGGCTAATTTTTGTATTTTTACTAGAGGCGGGGTTTCACT
ATGTTGGCCAGACTGGTCTCGATCCCTTGACCTCATGGTCCACCCGCCTTGGCCTCCCAAAGTCCTGGGATTACAGGTGTGAGCCACCATACCTGACCCA
GAATCTTTTCTTATGCACAGCATGCAGTAAAGGTGCCCAAACTGTAGGTGCCCAGGTGGCCCAGGACCCTTTCTTGGCTGCCTGCAGACCCTGGGTCCYT
TCCTGCACTGTGCCCCCTACACCCTGCTGCCCTGGGTCAGGGCAGAGGTTAGACTGCCTGCCGTTGAGCCTGACGCATGCATTTCCTTCTGTCTGCCTTC
TGCTTATTGCTGTGTCTGTGATATTTATCCACATAGTTGTGTTTTCTAGTCTTGAAATTATTTAAAAAATATGTAATAGATACATATAAAGTATGTATGT
ATGTTTAAAAATATGTAATGCATGGGCCAGGCGCGGTGGATCACGCCTATAATCCCAGYACTTTGGGAGGCYGAAGTGGGTGGATCATGAGGTCGGCAGA
TGGAGACCATCCTGGCTAACACGGTGCAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGG
GAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCTAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCC
GTCTCAAAAAAAAAAAAAAAATGTAATACATGCATATGTGTTTTTTTAATTATAGAAGAATAATGGTAAAAGCAATAGTTCCCCTGGCCGTCTTCCAATC
CCCCTCCTCCAATCCTACTCTTTCCCCCAGGGGACCGCAGTCAGCAGTTAGAGCCTTCCAGGCCTTCTTTCTTGTGCATTTAACTATAGTTGTATATTAT
ACTTCTATGTGTGCATGTGCATATGTGTGCTCACATGTAACTGCTTCTGTTCCCTGAGCACGGCTGGGATTATACCATACACAGTGTCCTAAATGTGTGT
GTATGTGTACGYACACACATGTCCTGCAGATCTTCCTCTACAGGCCTCCTCGGAACCGAAGCCTCCTGGATGGCACCCTAGCTCATGGGCCACTTTCCCA
CTGGCCGATGTGCCGGTGCTTTCTCTTGTTTGCTTAGCCTCCCTGATTTTCCCTTTGCCACTGTGGGTCCGCGTTGAGTGGCGTGAGAGGGTAGCTGTTG
GCTCTATTTGCTCYACTTCCACTGYGAGTGGAACAGAGCAGGCGCTCAACACGTGAGTTTTCAATATTACTATGAATAATATTGCTGTGCGCACCTCTCC
AGAGGTGCCACCAAGCTGAAGTGGGGCGGCCGTGGTTGAGGGCCCAAGTCTGACCCGTGGGTGCTCAACAGCACTAGCGGCCGGGCCCCCTTGCCAGTGC
TCCCGTTGTCTGGGACATCTTGGTGGACAGAGGCCACGTGGCCCGTTGCTATCCTCAGGACCTTGGACACAACTCATCTTCCAGGACTTGGTGGTACCAA
GGGAGTTGCCCAAGATCAGCCAATTCCTAGTCTTTCTATTGCATTGGACGTTTCTGGATGTCACAGTTCTGAGAGTTTGATTAGCATCCACTGCACAGCT
AGTGCAGTTATGACTATAGAGATTTATCCATTCATTCCCCGCTCAGTCATTCACTCACTCGTTCGCTTATTCAACAAATAAGCATTACAGAAGACTTGGG
GTGTGTCCCTAAGAATTGTAGTCTGGTCAGGACAATAAGCTGAAACAGTAAGACAGAACAGGGTTAGGAAGCATGAAGGAAGGAGGTGAGCTGTACGGAG
TGCTTTTGTGTTTTAGGGACTACGTTGGGTGCTTCCTCGTAAGTTGTCTCCTTTAGTTCTCCTGGTAATCCTGGGAGTGTAGTCTGATTTTTAGCAAATG
GATGCTGAAGCTGAGTGAATTGTTACACTGGGCATCAGGTCCTCRAAGAGACCCCAGGTGATGTGCTCAGACAGCAGGTGGGGGTCTCGGGTCTCCACGG
GGGTCAGGTCCTGGTGCTTCCCCACTGGAGGACCTACGGTCCCTGGGGCTGCCCTGGGTTGAGGTCCCAGCAGCTCAAGGCCTGTGTGCASTCGGCAGAT
CACATCCTTCATGCCCTGACTGCATGCTGGCCAGAACTGAGTGGCGTGGCGATGCCTGGCTGCCAGGGCAGCTGGAGGATGTCCTCRTGTTTCCTGAGTT
GCTGTCATGCTGAAAGTCAGAGATCCACAGTTTCACAATCTCTTAGCCAAAATTATGAAATCCAAAAAGCCCCCAACACTGAAATATTTTTCTTAGAATT
GATGCTAAAAGCATTGGAYGGTCAAATTGGCCCTAAGCACGTGAGAAGCTGTTTGTGGTTTTCCCTTGACCTCTGCAGTTTGAGTGTTCAGAGGCCTTGC
TGCAGACACAGGGCAGTGGATGCCCGTGAAGCCCTCTCCCCAGCCTGCTGGGGTCTCCCTAGCAAGTGGTCATATGACTTTTCTGAAATCCCCAAACACA
TCTGGCCCAAGGGTTTTGATGGAAGGGCCGTGGACCCAGGTGACTGTGGAGAGAACGGGTACTGAGGCTGCAGCAGCCCGCTAAGGCCCCAAGAGCATGG
GTGAAGATGCAGTGCTGCCCAGGGGCCTCAGCTTTGTGTCTGGACTGTGCCCCAGAAGTTGCCCAGACTCTTTGGCAAGGGGCTTTGTGAGACCCTCGTG
GTGTGCATTCGCCTCCTGTCTTACCTGATCCTGCAGGAGGATGTGCAGTTTCCTAGCATTTGCATGGGGTTTGTCTCAAGCATGGGATGGATGGAGAGCG
GGAGAGGGAGGTACAGGGGAGAGAGAGATGGGAGACATGGAGGGAGAGAGGCGGGAGACATGGAGGGAGAGAGGCAGGCAGACGCAGACCCTCAGCCTCC
CCCTCAGTTCCCCTCAGAAAACTGCTTTTCCTCAGAACTTGGCTCACAATCCCTTTCTCTGTGGAACCCACCCTTGGGTTGTATCCTTCCTCTTCCGTCT
TTTTTTTTTTGAGATGGTCTTGGCCATTGCCCAGGCTGGAGTGCAGTGGTGCGATCACAGCTCACTGCAGCCTAGACTCCTGTGCTCAAGCGAGGTTCCC
GCTTCAGCCTCCCAAGTAGCTGAGACTACAGGTGTGTGTCACCACGCTGGCTAATTTTTAAATGTTTTGTAGAGACGAGGTCTCACTATGTTGCCCAGGC
TGGTCTCGAACTCCTGGGCTCAGCCTCCCACAGTGCTGGGATTACAGGTGTGGGCCACTGTGCCCGATCCTGTCCTCTTTCTGAGCCTCTGGTATACCTT
TATTAGGTTGCTGATGTTAACCTGTGTGTCTGTCCCCGAGTGAGKTGGTGCGGTCACATTCTGTGCATCTGGTGCCCAGTGTCAGTCTGTCATGTGGAGG
CCAGTGGCTGGGCTGACAGGAGGCCTGGGTCCCTTGGCTCTGTGATCATCCTGTCTGGACTGTGGCAGCCTCCTCATGGGTCACCATGTGCTGAATGCTG
GAGGACATTGTGTGCCACCTCTTAGGAGCCGCCCTCACCAGCCTCCTCTCTCTTTTTCGGCCCGTGTCCCCTTCTTTTTTTGTTTGTGTTTGAGACGGAG
TCTCACTCTGTCACCCATCTCACCAGTGAGCTGGTACAATCTCAGCTCACTGCAACCTCTGCCTCCCAGGCTCAAACCATTCTCCTGCCTCAGCCTCCAA
GTAGCTGGGATTATAGGTGCCTGCCACCTCACYGGGCTAATTTTTGTATTTTTAGTAGAGACAGGACTTTGCCATGTTGGCCAGTCTGGTCTCGAACCTC
CTGACCTCAAGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCCCCTGGCCCCTGGCCCCTTCTGTGTG
GGCCCCATCTGAGAGCCATTTCCCAAATCTGAGAGCCATTTCCCTAGTCGGCTGTGAAATCGGATGGTGTTTGTAGTCAATCAGTTGTTTTTTTACTGTT
GTGGAGTTTACCAGGGACTCTCCAATCTCTCTCTCGTTTCCTCTCACACCTCCTCAAGGCAGCAGCACGGACTTCCCCTTGCAGGTGGGGCCGAGGCTAG
GCTGCACGGCTGACGGGGGGTTTGGGGGCCCTGAGATGAAGCGAGAGCGCTGACCAAAGCATTGGCAAGTKCTCCTGTACTTTACTGTTGGGCTTTTGGT
AGCRTTCTCTGCAAAATCATTTCTAAATGTGGACTTAATTTGGAGAAATTTGAGACTAAGTGCTTTATTTTTTAACTTGGTCACAAAATTTGGTCTTTTT
CTTGTTATAAATTGGTGGCATTAAATGCTTTGTACTTAGTTCTAATGGAGAATCGGTGCAMTCTCTCCTTTTGACTCATCTGTGGCCCTACATGATGGTC
ACCCATGTCATTATCCCCAGGGTGGACAATGTCCCAGAAGGAAGCCTGCCAGTGCAYGGTGAACAGGCGCTGCCCAAGGACCAGCAAATCACTGCCTYGG
GGAGAGAGGAACCTGTGGCAATAGAGAGCCCCGGACAGGATCTTCTGGGAGAAAGCAGGTCTGAACCAGTGGATGTGAAGCCATTTGCTTCCTGCGAAGA
TTCTGAAGCTCCAGTCCCAGCTGAGGATGGGGGCAGTGATGCTGGCATGTGTGGCCTGTGTCAGAAGGCCCAGCTAGAGCGGATGGGAGTCAGTGGTCCC
AGCGGTTCAGACCTTTGGGCTGGGGCTGCCGTGGCCAAGCCCCAGGCCAAGGGTCAGCTGGCGGGGGGCAGCCTCCTGATGCACTGCCCTTGCTATGGGA
GTGAATGGGGCTTGTGGTGGCGAAGCCAGGACTTGGCCCCCAGCCCCTCTGGGATGGCAGGCCTCTCGTTTGGGACACCTACTCTAGATGAGCCGTGGCT
GGGAGTGGAAAACGACCGAGAAGAGCTGCAGACCTGCTTGATTAAGGAGCAGCTGTCCCAGTTGAGCCTTGCRGGAGCCCTGGATGTCCCCCACGCCGAA
CTCGTTCCGACAGAGTGCCAGGCTGTCACCGCTCCTRTGTCGTCCTGCGATCTGGGAGGCAGAGACCTGTGCGGTGGCTGCACGGGCAGCTCCTCAGCCT
GCTATGCCTTGGCCACGGACCTCCCTGGGGRCCTGGAAGCAGTGGAGGCCCAGGAGGTTGATGTGAATTCGTTTTCCTGGAACCTCAAGGAACTCTTTTT
CAGTGACCAGACAGACCAAACGTCATCAAATTGTTCCTGTGCTACGTCTGAACTCAGAGAGACACCCTCTTCCTTGGCAGTGGGCTCCGATCCAGATGTA
GGCAGTCTCCAGGAACAGGGGTCGTGTGTCCTGGATGACAGGGAGCTGTTACTACTGACCGGCACCTGTGTTGACCTTGGCCAAGGCCGACGGTTCCGGG
AGAGCTGTGTGGGACATGATCCAACAGAACCGCTTGAGGTTTGTTTGGTGTCCTCTGAGCATTATGCAGCAAGCGACAGAGAAAGCCCAGGACACGTTCC
TTCCACGTTGGATGCTGGCCCTGAGGACACGTGCCCATCAGCAGAGGAGCCAAGGCTGAACGTCCAGGTCACCTCCACGCCCGTGATCGTGATGCGCGGG
GCTGCTGGCCTGCAGCGGGAGATCCAGGAGGGTGCCTACTCCGGGAGCTGCTACCATCGAGAYGGCTTACGGCTGAGTATGTCCCGGGCCCCATAGGAAG
AAGTGTGGTGCTCCCAGAGCACAGTGCAGTGGGGGTGCAGGGCCTTCCTTGTTCTGGGGTCTGATGGGGTTTCACCCTGGAATAGTGTYAGCAGAAATCA
TGTTTTCAAGGAGAATGCATATCATCCACCCCTAGAAAATTAAGATTACGAATGTGTGTGCCTGGGGAGGGTGGCGCCCAAGGTCCCAGGCCACCTGCCC
CATGCCCGTCAGTTCCAGCTGTGCCCCCYGACTCAGGCCATACACTTAGAGAGCCGCTCCTCCCAGCAGCCTGGGGAGATYCCGTCGGGAGCAGGAGAAG
CGTGGGGGTGTCACGCTAGAGTCTGTCTCTCCACCTCCCACCAGCCCCCACCTCAGTGGTCACACAGACAGGCCGAGAGGGATGTGAGCGTGGTGAGATG
CTCACGTGTTCTTCTTCCGTGCTTTTGGTGTTTAGGCTGCCCTGATCTCTGAAAAACCTGCCCTTCTGTGAGGGTCATGTGATCGGGCCCCTCTGCTTGC
CCCTTTGAGATTGATTCTGTTTTACTTTCTTTTTTATTTTCATTTCTTTTTTTTTTTTTTTTCTTTTTTTTTGAGACAGAGTCTCTCTCTGTTGCCCAGG
CTGGAGTGCAGTAGCGCGATCTCAGCTTACTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGACTACAGGCA
CCCACCAGCACGCCCGGCTAATTTTTTCTATTTTTAGTAGAGACGGGATTTCACTGTGTTAGCCAGGATGGTCTCGTTCTCCTGACGTCGTGATCCGCCC
GCCTCGGCTTCCCAAAATGCTGGGATTACAGGTGTGAGCCACCGTGCCCGGCCTATTTTTTTTATTTTTTGAGACAGAGTCTTACTCTGTCCACCCTAGC
TGGAGTGCAATGGCATGGTCTCGGCTTACTGCAACCTCCGCCTCCTGGGTTCAAATGATTCTCCTGCCCCAGCCTCCTGAGTAGCTGGGACTACAGGCGT
GTGCCACCACACCCAGCTAATTTTTTTGTTTTTTTAGTAGAGACAGTGTTTCACTATGATGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGATCCACCT
GCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGAGCCAGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAG
GATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACCATGCCTGGCTGTATTTTCCTCAT
TTCTTAATAGGTCCACATTATTTTAGCCAGTTGTTTCCATATTGCTGATTTTGTAGTGTTGATAGCTAGGGTTTTTTTCTTACACTTAAAAGAATTTTGT
AAATAATACGTGTTATTTGTAGAAACATTAGAAATATAAACAAGAAGAAAATAAAATGGGCTGTAAACCCCCACCACCAAAGAAAGCTAACCACACTTAT
GTTGGTGTATAGCTAGGAGGCTGTGGAAAATGCACACATGCTTTCTCTATGTAAGTGGGTATGGAATTGAATATGGCTGTTAGTGAGTAGAGTAGGTACA
TGTGTACATGCTTTTAATGTAAGCCATTCACATTCTTGTCACTGGAAGGCCGAAGACCCACCGTGTGTAGGGCACGTTGAGTGCAGGTTCTCCCGGCTAT
TCTGAGTTGGGGGTTGTCTGCACCCTCCGCTACAGGCCTCTCTGGAGGGCTTCCTTGGCCTCTGGCTGCCCTGAGTGAGGAGGTGTGGTTGTTGCAGGCC
TGCAGGCTATGCCCCAGGGGTCTTTCCCTGGCCGGCCCTGACAGCTTTCCTCCAGGCCTTGGTGCTGCCTGCCTCTGCCTGGGCTGCTCTCTGGTCTGTG
TTCTGGGGATTGAACTTTCTAACTTAAAGCTGCTGGGGATTGGACTGTTGCATTCTGGGGACTGGACTTTTCTAACCTAAAGCTGCTGTCTAGCCAGGTC
AGCACAGGCCTGTGCGTTCTTACCTTCTCACCCTTCAGGTATACAGTTTGAGGTGAGGCGGGTGGAGCTCCAGGGCCCCACACCTCTGTTCTGCTGCTGG
CTGGTGAAAGACCTCCTCCACAGCCAACRCGACTCAGCYGCCAGGACCCGCCTGTTCCTTGCCAGCCTGCCCGGCTCCACCCACTCTACCGCTGCTGAGC
TCACCGGACCCAGCCTGGTGGAAGTGGGTATTTGCARTCAATGCCTGCCCTGGACTTGCCTTGTACTGTGTGGCAAATATCCTAGTTGGCATCTCTCTCT
GTTTCCTTGGGGACGGGAATACAGTCTGTTTGTAGCTTTTTTTTTTTTTTTCTGGGACGGAGTCTTGCTCTTGTTCCCCAGGCTGGAGTGCAATGGTGCT
TTCTCAGCTCACTGCAACCTCTGCTTCCCGGGTTCAAGTGATTCGCCCGCCTCAGCCTCCCGAGTAGTGGGGATTACAGGCACGCGCCACCACGCCTGGC
TAATTTTGTATTTTTAGTAGAGACTGGGTTTCTCCATGTTGGCAAGGCTGGTATTGAACCTCCTGACCTCAGGCGATCCACCTGCCTCAGCCTCCCAAAG
TGCTGGGATTATAGGCGTGAGCCATTGCGCCTGGCCCTCTTTGTAACTTTTCACACTGTCTTTTAATATCCAGTGTGACTATGAAGCCACTTTAGGTCGG
GCATGGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCTAACACAGTGAAAC
CCCATCTCTACTAAAAAAAATACAAAAATTTAGCCGGGCATAGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAA
CCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCCAGACTCCGTCTAAAAAAAAAAAAAAAAAAAAGAA
GCCACTTTAAATCTGCCTAGGCCCATGTATATGGTGGGGTGTAAACACGTTTCGACATGTGTGCCAGTTGGGATCAGTGTGCTGAGGCTGCTTGGGGTGC
CCTGTGGAGATAGGCTTTCAGACCTGTCTGAGAGCATGRGAGGAGAGGGGACTGGAGTGCAGGGCACACCTGCCTCKGGCGGCTGCTGAAGACGCAGGGG
GACCACTGTGGGTGCTGCACCTCTGCCCGGTGCAGTTGCATGTGACCCCACAGACCTTCTTCTGCATTGCAGGTGCTCAGAGCCAGACCCTGGTTTGAGG
AGCCCCCCAAGGCTGTGGAACTGGAGGGGTTGGCGGCCTGTGAGGGCGAGTACTCCCAAAAGTACAGTACCATGAGCCCGCTGGGCAGTGGGGCCTTCGG
CTTCGTGTGGACTGCTGTGGACAARGAAAAAAACAAGGAGGTAACCTGGCTGTSGGSGGGGAGTGGCGCYGGGCACCACTTCACATGGCTCTCGACTTTT
GGTCCCAGTTCTCAAACCTGGGGTTTTTGGAGGAGTCCTCTAGGTATGGCACCAAGCACACAACCTGGCATGTGGGCGGTTTCCGGATTCAAAGAGGCTC
TCCCAGCAGCACACACGTTGACATCCAGGGTTGCTGATCCCGTCCAATTGTAGATTCAGACCTCGAACAGGCCAGGCTCAGGGCTTCGCCTCCTGCCATT
GTGTTGAGATCCCACATCTGGACCTGTGTTCCCTCCTTTCTGAGCCTGGGGCTTGCACCATTCTCCTACTCCCCACTGAGATGCTCATATCTCACGGGCA
CTGCACATGCATGCTGAAAACATGCTTAATCTTTTCAAATAACCTGCTTTGGGTTTCATTAATTTTTCTTATTTATAATCTATTTTCAATCTTGTGACTT
TTCTCTTATTATAAAAAATTTTTTTCATTATTTTTTCTTACTTTGGATTTAATTTTATTTTCTTCTTCTATTTTCCTAAGGTGGTATCTTAGATCATTTA
TTTGAGCTATGCTTTTTTCTAATATAATCATTTAATGTTTTAATTTTTCTCCAACCCCAGCTTTATCTGTGTATCACATATTTTCATATGTTGTGCTTTC
ACATTCATTCATTTACAAATACGTTGTTACTTTGTGTTATTTAGAAGTGTGTTGTTTAATTGCCAATTATTTGGTGATTGTTCAGATATCTTTTTGTTTT
TAATTTCTTTATAGAGAACATACTTTGTATAATGTCAGTTTCTTTAAATTTGTTGATGCTYGTATTATGTTTTGAAGTCTCTACCTATACTTGTGGATTT
GCTTGTTTCCCTTTGTAATCCTCCCAGATTTTACTTCATATATTTGGAAGCTCTGTTGTTATAGGAATACCCATTTAGTATCATAGCATCTTCTTGATGA
ACTAATTCCTAATTTGATATGCCTTGTTCTGAAGTCTACTTTGATATTAGTATGACTACTCCAGCTTTCATTTGATTTGTGTTCACATAGTAAACTTTTC
TCATTCTTTTACTTTTAGTCATTTATGTCTATATTTAAAATGGTCTTCTGTAGGCAGCATACACTTGGATCTTGCTTTTGAAATTCAGTCTGAAAGTCTC
TAATTGAGGTGTTTATACCGTTGATGTTTAATGAAATTACTGATATGGCTGGATTTAAATCTATAATCTAAATCTAGATGTTTTCTATTGTTTCTGGATA
TTTCYGTGCTTTGTTATTTTCCCCTCTATTTTTCCTACTTTCTGTTGACTATATTTTATTATGTCATGTTTTTGTTTCTTGTTAGYTTTTAATATTTCAT
CATGATTTTTGGCATCGGTATTGAGATATAGTTCACATACCATATAATTCACCCATTTAGAGTGAACAGTTCAGTAGATTTTAGTATATACAGAATTGTG
CAACCATCACCACAAACGAAGAACATTTCATGACCTCAGAAAGAAACCTCATACCCATCAGTAGTCAGTCGCATAACCCCCGTCCTGCTCGAATTTCCTC
CATCCCATCCTGGGCAACCACAAATCTACTTTCTGTCTCAATAGATTTGCCTATTCTGGACACTTCATATAAATGGAATCATGCACAGCATGCTCTTTTG
TCACTGGATTCTTTCATCTAACATAATGTTTTCAAGGTTCATCCATATTGCAGCATGTATAAGTACTTCATTCTTTTTTATGACCGAGTAATATTCCATT
ATATGAACAGACACCATATTTTGTTTATCCGTTTATCAGCTGATGGACATTTGTGTTGTTTCCATTTTTTGGCCATTAGGAATAATGCTTCTATGAACAA
TTGTATATAAGATTTGTGTGAACATATGTTTTCAGTTCTAGGCATATACCTAGTAGTGCACTTCATGGGTCATGTCGTAACTCTGTGTCTAATGTTTTGA
GGAACTGCTGAACAGTTTTCTAAAAAGGTTATACTGTTTTTACATTCCCATCAGCAGTGTACAAGGGTTCCTGGTCTACATATCCTTGTCAACACTTATT
ATTGTCTTTTCATTTCTAGCCATTCTAGGGGGTGTGAAGGGGTAGCTCACTGTGGTTATGATTTGCATTTCCCTGATGACTAATGATGTCAAGTGTCTTT
TCATGATCTTATTGGCTGTTTGTAAATCTTCTTTGGAGAAATGTCTGTTCTGATCCTTTGCCCATTTTTTTTTTCTTTTGAGACAGAGTCTTGCTTTGTC
GCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTTAGCCTCCTGAGTAGCTGGGATC
ACAGGTGCACACCACCAGGCCCAGCTGATTTTTGTATTTTTAGTAGAGATGGGGTTGCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTT
ATCTACCCGCCTTAGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACTGTGCCTGGCCCTGCCCCTTTGCCTACTTTTAAATTGGGTTGTCTTTTTA
TTATTAAATTGTATGAGTTCTGTATTTTAGATACAATTTCTTGATCAGATATATGATTTGCAAATATTTTCTCCATTAAATGTGTTGTCTTTTCACTTTC
TTGATGTTTCATTTGAAGCACATTTTATTTTATTTTATTAATTTTATTATTTATTTTCTCACATTGATTGTACTTTATGGATGGTTTATAGGAGGTAAGG
ACTTTCTGCTTAAAATATTTAAAATTTACATGTGTACACAAACATACACATGTTCCCCCACCCGTGGGGAAGGACAAGATGACTCTGAATAGAGGATGGA
GGAGGAGGAGAGGGTGTAGACAGAGGGCCCTTGACTCCTACAGGGGCAGCAGGATAAGGAACAGAGTGGGGCAGAAGGTGGGTTATTAAGAAGCATCTTG
CAGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACAC
GGTGAAACCCTGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGGGCACCTGTAGTTCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGG
CATGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTTGTCTCCAAAAAAAAAAAAAA
AAAGAAGCATCTTGCTTACTGACATGAAGCCACATGCCCAGCGAGAGCATGGATGAGGCCTCATTGGTGTAGAGGAGGCCCTTGGAGGGTGGGCACATGA
TGCCCAACTAGCCAGCCAAGGCCAACGTCCCAGGGGTAGGGCGGAAGTGGGGTGGYGTGCACAGGGCACGCAGCCCAGGCCTCTGCTGTCCCCACCTCCC
TCCCCACCCTCCGARAGAAAAGACAGTTTGGGCCTCAGCCATGGACSGACGCCGTTACTGGCAGCGTCTCCTTAAACTACAGAGATACAATGTGTATCAA
CAGGGTGATCGCTTCTGACCCACTCAGGCAGACACCTAGAGGTGCTGCATGGGCCAGAACCAGTCCTATGGTATCTTTGGTTTGTGGGCTTCCCTCCCGA
CTTGAATCCTCCCTCTGTCCAGCCTCTGGGGTGGRCCTCAGGGCTGGGAACGGGCTGCTCGATGGCGCAAGGCCCAGCCTGACAGCCCTTGGAGGCTGGG
GGTGCTGCCCTTGCCAGCCACGGGCAGCTTACTCACTGGGGTGCTGGGACTTGTATGAGAAGATCTCGGCAGCCAGCTGCTGCGGGTCCAGGAGCTGCGG
GAAGTGCCCCATCATGGCCTCCACCGGGTGCGGGGTGTGTACACCACACAGCTTGGTGTACACGCTGGCCTGTTCCTTGGCCAGGCTGTCTGCCCTGCGC
CGTGGGCCCCTGCCAGCCCCTGGGCTTTGCACTGGGGRCTCCTGAAGACTGGGAAGCAGAAACATTTTAAATGGATGACGTTTAGTTGGTCTCTTTTACC
GTTTGTCACTTGTGTTTTGGTGTTATATCTAGGAAGACTCTGCCAAGCCCAAGGTCATAAAGATTTACTCCCATGTTTTCTCTAAGAGTCTTATGGTTTT
AGATTTTACATGTAAGTCTTTGATCTATTTTTGAAGTTAATTTTTGTGYGTGGTGTGAGACTGGGGTTGRACTTCACCCTTTCGTATGTGGATATCTAGT
TGTACTAGCACTGCTTGTTGAAGACTGTCCTCTCCCCATTGAGTGGTTTTTGGCACCCTTGTCAAAAATCAGTTGACCATAGATGCRTGGATTTGTTTCT
GGACTCTGAATTCTATTCCATTGATCTATAGTCTGTCTTTCTATCTTAAGTGTGTCCTTAAGCCAGTACCACACTGTCTTGATTACTGTAGCTCTGTAGT
AAGTTATGAAACTGGAAAATGCTAGTCCTTCAACTTTGTGTTTTTTTTTTTTCCAAGCTTGTTTTGGCTATTTTGAGATTGTTTTGGCCATTTTTCACTT
TCTTAAGGATTTTAGGATGAGCTTGTCAGTTTTGCAAAAAAGCCAGCTGAGATTCTCATAGGAATCACATTGAATCTGTAGCTCACTTTGGAGAGTATTG
TCATCTTAACAATATTTAGTCTCCTGATCTGTGAACGTGGAAAGTTTTCTATTCATTTAGATCTTTAATTTCTTTCGGTAGTGTTTTGTAATTTCAGTGT
ACAAGTCTTGTTGTTCTTTTGTTAAGTCTCCATTATTTTTATGTCCAGTTTCTTCTTTTTTCCAGGTTTATTTTTCATTTGCTAGAATATATTCGTTGCC
AGTTTTTCCAGGAAGGATTCATGGGTACTATACATTCAGTCCTTGTATGTATTAAAGTGTGTTTATTTTTCTCTCATATTTTAGTGATGATATGCCTTTC
TCCTCTCAGAACTTTTTAGACCTGTATCTGKTGTAATCTAGCATTATTTTGAAGTGAATTTTGCTGACAGCAAAACGTGATTTATTTTTCTTTCTAGATG
TAAAATCTTTGTCTTTCAAAGTTTTCACCAGGATGTCTTTAGGGGTTTATGTTTGTGTGTGTTTTCTTTATTCTTGCTTGATACTTGGTAAGACTTTGAT
CTGAATATTTAAAGCTTCCGTTCTTTGGTTCCGTTAATTSTTTCCTTCTCCCTCCTCCTGACRCTCATTTTAGGTGTGCATGGGCCCCCCTGGAGGAGCC
TGCCCTCTTGTCTCCTTGGCCCTGCAGCTGGACAGGCCGCAGGCCTCTTCACCTAGAGTGTCAGGGCTCCCGCCCTCCCGGAGGCTTCTGGAGCTCTGCC
ACATCTCAGCAGGCCCTTCTTTTGCTCCTCAGGACCACAGCCTGCTTCCCCTCGTCTTCTTGCTTTCCCTCAGTCTCACTTCTGGCCTTTTGGGCCATAG
TGACCCTCCCGTCAAAGGGTCTTCAGAATTTGTCTCCTTTCACCTCTCACAGGCTGGCACCCAAGTTGCCCCCTTCTCTCCTGATGACGGTGAGAGRCCT
GGATGTTGCCCAGGCTCCGATGATTCTTCCTGCTCCCGCCCTGGCCCCGATGCCCTCCCGATGCCCACTTACGTTGCCTGCCCAGCCCCCCGCCTCCCTC
ACACCTCCTCACAGCTCAGGTGCGCTCTGCCACAGTCCTGTGCTCCCGCTGCCCTCTGCCTGGAGGGCCTTCCCCGAGGCGCTCAGAAGCTGCCTTCCYG
GGACTCACTCCCTATCCCATGCACCTCGCAGGGGCTGCACCCCCGCGGCACTTCCTGCCCCATCTTTTTTTCCTTCTTGGCACTCATCGTTCCTTGGTGC
GTGATCTCACTCAGCATCTYTTCCTGACACCTGAACAGGCCCATCCTGTGGTTGGCACCYGCTGGGTTGCCCRTCGCTCCTTCAGCTGCGTGCCGACACC
CACGTAGCAGCAGGYGTTGTGTTGGGCGACCAGATTTTCAGCRACTTGCAGTGTTCTTTCTTTTGTGAATGGTATCTTTTTCTGTTACACTTTGACTATC
ATTGACTGTGGTAGCACTGTTTTTCTTATATTTACCTTATGTCTGTCAGTCTTGCTAAASTCTGATTAATCTCAGAGTCAATGTTGAAAACATGTCTAAG
AGTGATAGCTTTTCTTTGTATTTTCTAGTTTTCTGGCTTCTTCGTTTATTCTCTTGGCCAGGGCTTTCYAGTCCTTGGTTGAGAAGTCGGGGTGACGTGG
ATGTTCTCCGGGGCACATGCCCTGAGGCCTCTGGGGCCCTCTCTCCAGCCCAGGTTATGGCTCCCTCAGCTCCACCTGGATTCTCCATCTCACCCATCTG
TCCACCTTACAGAATGGGCASTAATGACGCTGCATTTCTGGTCAGCTGCTGACCCCCTTCTGTGCTTCCTTGTGCTGCAGGCGTTTATCACTTTGTTTCT
TCTTTCATGTCCGTGGGACTTAGGGGAGGTAAATGCAGGGGATGTGTCTGCCGCATGGACCAATGGTGGCCCTGGYGTAATGGGATGCYTGAGGACTGGG
TGGCCCTGGTGKAATGGGATGCTTGAGGAYTGGGTGKCCCTGGTGTAATGGGATGCTTGAGGAYTGGGTGKCCCTGGTGTAATGGGATGCTGGAGGACTG
GGTGTCTCTGGTGTAATGGGATGCTTGAGGACTGGGTGGCCCTGGCGTAATGGGATGCTTGAGGACCGATGGTGGCCCCTGGTGTAAYGGGATGCTTGAG
GACCAGGTGGCCCCGGCGTAATGGGATGCTTGAGGACTGATGGTGGCCCCTGGTGTAACGGGATGCTTGAGGACCGAGTGGCCCCTGGCGTAACGGGATG
CTTGGGGACCGGGTGGCCCCGGCGTAATGGGATGCTTGAGGACTGGGTGGCCCCTGGTGTAACGGGATGCTTGGGGACCGGGTGGCCCTGGCGTAATGGG
ATGCTTGAGGACCGGTGGCCCCTGGTGTAACGGGATGCTTGGGGACCGGGTGGCCCCGGTGTAATGGGATGCTTGAGGACYGGGTGGCCCTGGTGTAATG
GGATGCTTGAGGACCGGGTGTCCCTGGTGTAATGGGATGCTTGAGGACTGGGTGTCCCTGGTGTAATGGGATGCTTGGGGACCGGGTGGCCCTGGTGTAA
TGGGATGCTTGGGGACCAGGTGGCCCTGGTGTAATGGGATGCTTGAGGACCGGGTGGCCCTGGTGTAATGGGATGCTTGAGGACTGGGTGGCCCTGGTGC
AATGGGATGCTTGAGGACTGGCTCCAGCTATTTCCACTACGCTCTGTCTTCCTCACAGGTGGTGGTGAAGTTTATTAAGAAGGAGAAGGTCTTGGAGGAT
TGTTGGATTGAGGATCCCAAACTTGGGAAAGTTACTTTAGAGATCGCAATTCTATCCAGGGTGGAGCAYGCCAATATCATCAAGGTGATGGTTTCCTCTT
CAGAGATACCCTAACTTGGCTCATGTCAAATGTCTTCAATTTKTTGACTTGAAGATGTTTTGGTAGAGTTGGACTTGGCTTTGTCTCTTCCTAGGTATTG
GATATATTTGAAAACCAAGGGTTCTTCCAGCTTGTGATGGAGAAGCACGGCTCYGGCCTAGACCTCTTCGCTTTCATCGACCGCCACCCCAGGCTGGATG
AGCCCCTGGCGAGCTACATCTTCCGACAAGTGAGAGCAGGCCAGAGCCGTGTTAGTGTGAACGCAGGCCTGGGTGCCTGGGTCYGGTGGCTGCAAAGATC
AGTGATCCATACTCGGTTCTCTCTCTGAGCTGGATCTAGCCTTCTGTGTGGGGATTTCATGGAGTAGGATATATATTTTGAGAAGAAAATTCTATGATTG
AAGTAGAGAAAGTGAGGTTGGGAAGGAAGGATGAGGCCAGATACAGTCCTGGAATGACTGAGAAAGTATGTTTAATGGTTAAGGTTTATTTACATACATA
AAATATCCACAACAATCATAAAAATTAACCAGTAAGGGTTAGGRTGCAGCCAGAGAGYGTCTCAAAGGCATGTGTGCGGCACAGCGGCCTGCAGGTTGTA
AGTGCCCACTAAATGGTGGCTGTTGAGGTAATTAACCAGCAAAACTGAGATCCTGACATTCTCACTTTTCAGTAAGTATTTGTCTTGATCTGTTTCGTGT
CTAATTACATATTGAACTTCGGCCATTATTTTATTGGAATGGGAGAGTGATGATCCAAATAGGAAGGCACCCTAGCAGAGGGACAGGGGGAAGAAACGGT
AACTCGTGTTGGGTTTTAAGGAGAGGGTGGCGGTTCCATCCTGTACTGCTCCCAGCTCCCCCAGAAGAACTGGAGAAATACCAGCAAAGGGCTGTGTAGA
CAACTCACATTTGCTCTTGGATTGTTTGCTGGGGACAACTCGATTTCTAATGACAGCTTCCGTGAATCAACATTTCTTCCTTAAAGCTACACACTCTCGG
GTTGTTGGGTTTCCGAAGTTTAGTTTCTCAGGCTCCTACTTGTAAGTTTCAGATATTATGGTTCTGCAAAAAAGGGTCACCTCTCTCSCTCTTCCTGTGT
TGGAAGGTGACRTCCTCCCTTTAGTTTGTGGCCAACACTTGTTTCTGAAACTTTTTACAGYAAACAGAGTATCTGTATGAGGTTATGTTGAGGGTCGCTT
GTTAAAAGCTGCTGCCTGACAGCTGTTAATTCTGGGGCTAGTGAGACACATAATTATGGTGTTTATACTCTAAAATTTTTGCCAAAAGAATCTCTACCCC
TTTTGTAAATATATAGACATAAATGTTATTCTATGTAAATACAGATGCACAATTTTATAAAGTATATGATCGCACATCAATGTATGTAGGAATCATGCTG
GTTCTCAGGGCATTGCCTGTCAGCTCCAGATTCATCAGGACYTGCTCAGCAGCGGGGTCGGGGAGCTGGGCCTGGGAACAGCCCTGGCTTGGTTCAGGCC
GCTCCAGGGCAGCATGGCCRGTCCAGGGCACAGAAGCATCTGCAGGAAGAGCAGCTTTCTTCAAGTCGCTCTTTAGCCCTTTGTGGTTAATCTCTCAGTA
CTAGTTAATAAATCTTAATGAAACTTTCCATGTTCAAGTTCATGTGTGATTTCTGTCTCCTGATTGGATCCTGACTGATTTGTATATATCTACATATATA
TGTAAGTATGTATGCATGCATGCTTGTATATGTGTATTTATGTGTGTACCTATGTACAAGTATATGTTATGTGTATAGGTATGCACACGTGTGTRTGCAG
GTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATRTATAAATATGCAGGTATGTATATATAAATATGCAGGTAT
GTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATTTATTAAATGTAAGTTAATCGGGCTTAGCTAACCTGTGAT
TATTGCTCCTGATTTGAAAGATACTCATTTGTAAATATAAATTTGTCTCAAAAGATCAACATGATACATCCATGAARTCACTAAGTTGATTGGTATAATG
GGTGTCCAAATTATGACAGTCAGACGTTTAATTCATCCTAGTTGAGCTAAACTGAAAGGCCGATGTTGCTGGCCTCTGTTATTGGAGAGGCAGAGTGGGC
AGGCAGTGGAGCACTGCAGCTGCACCTCCGTGGGAACGAAGCCCGTTTCCAGTGTAACTGCTTTAAGTCTGCATCATTGAGTAGCCACACATTTGGGGAA
AGGATGGCTGATACGTCATGCTGCTCTCTGAGAAGCCACTGAGGCTGTGCTCCCAGCTCTGCCCCAAATTGCTGCCTGAACTCTGGGCAAGTCACTTTCC
CTCCCTGTGAGCTGAGGTTATCGACTTGGTGCTTTCTCTTGGGTACTTCCCACTTAACACCAAACCTGCACCCATTCACTTGCCCACCATGAGTGTCTTT
GAGCTGTGGCTTTGTGGCCTGTCTTTCCTCCTGAAATAGGCATGGTGTGCGTTGGTGGGGGCGAGTGTCTGCTGGGAAGCTTTTCTCAGCAGCAAACAGA
ACTCACGAGTCTCATTGATGTTGCCACCTTGCCGGCTAACGTGGCCATCCCCAGTGAACACGCCTCCTGAAGGGCTTTGTTTCCTGTTTGCTTCCAATCA
TATCTTCAGCATTGAAAAATCTTTCCTGTCCCCAGTTCATTATGAGTCGGAGGTTTATTTTTTCTTTGKGTTTTTTTTTGTTCCAGTTTATTTTAAATGC
ATATTTTAGTTGAATTGCTTTTTTAAAAAGCCCCCTCTGGCCTCCTGATTCCAGCTAGTGTCAGCAGTGGGATACCTGCGCTTGAAGGACATCATCCACC
GTGACATCAAGGATGAGAACATCGTGATCGCYGAGGACTTCACAATCAAGCTGATAGACTTTGGCTCGGCCGCCTACTTGGAAAGGGGAAAATTATTTTA
TACTTTTTGTGGGACCATCGAGTACTGTGCACCGGAAGTTCTCATGGGGAATCCGTACGTATGCGGCTGCGGTGCGGCCCGTCCTCGTGTCCTCTGTCAG
GACCCTGAGGGTGGCTTGATTTTGGGTGGGAAAATGGCTTCCTTTGTGCCTCTTTGTGATGAGTGTTGAGTGGTCAGGGTGATATGCTGGAAAGTAAGTG
GGCAGKCAGGCAAGGTCATATTGGGCAAAGGCACTGGGCGATGGATATAGGAGTTAATAATTTTATTTTCTCAGCTTTTATTTGTTTGGAGTTTCATATA
ATAAAAAGCCAAGAAAAATATTGAAGAGTCCYCCAAAATGGCACTCTTCAAATAAGTGAAGAGGATTCTTTTTAGTTAGGTTTATTTATTTTGATGACAG
GAATAATATCTATTTCAATAAAATACCGCGGGGCTGACCATACAAGAAATCAAGCACTAGAGAAAGTCCCGAGGCAGAGGATTCGTGCTGAAGGTGGAGC
CCTTGGCTGGAGGGGCTGTCGCTGACCAGCCAGACTCCATGTCACTGGAGTGGGCCAGCTGAGCCTCTGCTCTGCTGTGGRGAGAAGCGGCGTCCTTGGG
TGTGTGGCTGAGTTTGCATCTCTGCAGTCTGGGGAGCCTGTGAGTYGGGGGCCGGCCTGGGCAGGGCCTCCTCTCGGGGGACTTTAGAGAGGAAAGCAAA
ACGGAAAGGAAGATTGTKGTTCATTTGTAGGGCCTGAGTGGAGACTGTCTGCTGACGTGCCCGATCACTGTCTCATCTGCCTGTAAACCAAATGTGTCTR
TGTGTATGAAATAGACTTTATTAAGTCAGAAAYAGATARCAGGTGTTTTCCACTAACACCTACATGTATTTTAGAGAGGTGTGGTTGGAATGCATCTCTA
GGTGAGTTCATGGTTAGAGAGTCGGATGATCACAGCACTGCTTGGACYCTCCTGGCCCYCYGCTGCAGYGCTCTGCTGCACCGCCCATATCTGCTCCATG
TGGTTCTCTAGGAGGGAAGCTGATGCTGCCCCCACAGRAGAGGCACACGGGGTCCCTCACAGACCTGCTGCACCTGACCTGGYGGCCTGAGGCCAGGGCA
TTTGCTCGCAGTCACGCRCGAGCTCCATGCCGTGYCTTGGGCTCTCGGGAGGGCCTCAGCATYGGGGAGAGGAGTGGCTGGGCYCTGGATCCTGGTGTCT
GCTTAGGCCATATTTCATTAGGAGGTGCAGGTTCCAGGCTGCACACCCTGAGTCCTCAGAGCCCAGCAGCCTCAGCCTGCGCCAACCTCTCCATGCCAGG
CAGCGTTGAGCTCTTCTGGGCCTGGATGCCCTGTGTGCAGAGTATGGAGGAAGTGAAAATGGGCTCTTCCCCGCTAGAACCTCCATGCATCTTCAGAGCC
ACCAAACAGCGTGAAATATCGAAGGGGGTTGGTCTAAGAAGGGCCGTGGAGTTTCCCTTCAGATCTAGTTTGGTTGCCCTAGAGCCTGGTGGGCGCTGGT
GGGCTCTGCCTGCCCTGCAGTGGTTGTCGTGCCCTCCGTGCTGGAGGGAACTGCCTGTCCCCTGTCCACTGACCCATGATGCCTGCTGCATGGCTTGTCA
CCCCTTCCTGTACCCAGGCCGTGAAGCTTGGGGAGGGTGCAGGGGGGATCCAACCTGGGCGAGAGCTCAGTGCTGCTTGGCCACCTTGGCCCTGCCTCCC
AGAGCTGTGGCTCCCACCCTCTCCCTGAGCGCCTGCCCTGCCAGGGCTCTGCCCTGCCTCCTGGCCTCTCCTTTCTGGCTGTGAGCGGTGTRCTGCTCCT
GGGCCTRCGGGGCTGCAGGCCTCCTCTCAGGAGCTCCTTCCTCCCTCCTGCGTCCTCTCCCCATCTCCCTGGATGAAAGGGTTTCTGAGTTCTTATTCTC
AATCCCATCCTCAGGGCCCTGGCTTCTGTCTTGTCATCTTCATCTCCGTCTACTCCAGGGTCGGCAGACTGTGGCCTTAGGTCCCTCTTCCCCTTCCTCA
GGCCCTGGCAGCTGCCATTCTGCTATTTTCTCTATGAATCTGACTACTCTAGGGACCTCCTATACGTGGAATCGTACAGCATTTGCCTTTTGGTGACTGG
CTTATTTCACTTTGCATAAAGTCCTCAAGGTCCATCCATGTTGTGGCCTGTGCCAGCATCTTCCTTTTCAAGGCTGAATTTGATTGCGTTTTCTGGATAT
GCTGTACTTATTCATCTGTCAGTGGACATTTGTGTTGCTTCTACCTTTTGCTTCCATCTTTATGTTGTTCGTGATGCTGCTACAAACGTGTGTGCAAACA
TCCCCTGCCTCTTGTTTCTATAAATAAAGTTTTATTGGAATGGAGCTGTGCTCATTTGCTTATGTGTCGTCTGTAGCTGCCTTTGTCCTACATGACAGAG
TTGAGTTGCAGTGGGGACCATGTGGCCCAAAACCTGAAATATTTACTATTTGACCCTTCACAGGAAAAGTTTGCCAACCTCTGTTCTGTTCTATTGGATA
TTTCTCTTCAGCTTCTAAACATCTTGAAATCTCTCTAAAAAACAGAAACAACACAAAAACAAAAACTGCTGAAACTGATTTTCTTGCTCTAGCCCCTACA
GCTCTCATCCGTCCGCTCAGCTTCCCTGCGGTCTGTGCTAGCCACCCCACCACCCTGCTGACTCAGCCTGGGGGCCCGACTTTCACCCACGCTGCTGCTC
TGGCCTCTGTGATCTGCCCTCTTGAGCCCTCCCCTCCCCTCCCCTCCCCTCCCTCCCAGCCCCTCTTCTCCGAGTCCAGCCCGGGGCTCTGTCCGTGCCA
CTCTTCTCACTGCTGTGGTTTCTCTTGGCTCCCTTGTCTAATTCTGGTTCTGAGAACAGGCTGCTGCTTCCCAGACCTCTTCTGGGGACAGACCCCCAGC
TGCGGACCTGGAGACGCATGGCCTTGGCCAGTGCAGGGGCAGGGCTGTGGGTGCTGGTGACCTGGCTCTGGTGCGTGCTTGGCAGCAACTTCACCTCACC
AAGCCTTGCTCTTCTGTGCAAAATGAAAGTCATATTTATCTTGCTAGGTTGTTGTGAGGATTTGGGTTAAGCCATGTAAAATGCTGGTACAGCRTTGGCA
TCTCTAGGTACCCAATAGATGGTAGCRTGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGCATGGATRAGGATGTTTACGGTGACAGGAAATAA
ATGGTAGCGTGGATGAGGATGTTTACGGYGACAGGAAATAAATGGTAGCGTGGATRAGGATGTTTACGGTGACAGGAAATAAATGGTAGCRTGGATGAGG
ATGTTTACGGTGACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGGCGACAGGAAGTAACAATAGTCCTTTGGGTGTCTTCTCCCTGAAGCTTGC
TCCTCCATTTGGCCCACTGTGTGAACACCCACCTTCACCACGTCCTTCTTGTTTGCTTTCATCCTTCGGTGTTTTTCCCTGTTCAGTCTCGTCCTGCAGC
ACCCTTCACATCGTCGCCACAGCCATCTTCCTAAAGGGCATGTGTGTCCATGGTCACACCAAGCCCGTTCACACCAAGATCGTGAACATGCCTGATCACG
TCTGAAGGGCACGTGACCCTGTTCTGAAGTGGCCTGCAGCTCCCGTGGCCCTCAGCAAAGCCAATGGACGTGTACTCTGCTTCCTCCAGGAAGCCCTCCC
CCCGCTCCCCCCTCTGGTAGACACGTCTTGTGGTTGGTGTCCACAAGGAAGTTCCTGATTAGCCTCGGAGCTGCCCGATGGCCTCTCCACTCCTGGCACA
TGGCCTGCTGGCTGGCCTGGGGCAGAAGTGCGTGGAAATGGAGGGCGTGTTTGAGGGGTGGAGTGACCCTCCTCTTGGGAAACCACTGCCTGGCCTGTGT
GCTGGTCGGGAAGGGCCATGGTGCTTCCCATGGGCGGGCTTGGCAAGCCTGCGCTGAGYGCCGTGGCGTCCTGATGCCTCCTCCTCCTCAYAGCTACAGA
GGGCCGGAGCTGGAGATGTGGTCTCTGGGAGTCACTCTGTACACGCTGGTCTTTGAGGAGAACCCCTTCTGTGAGCTGGAGGAGACCRTGGAGGCTGCCA
TACACCCGCCATACCTGGTGTCCAAAGGTGAGCGTGAGCTGCAAGTGGTAGACAGTCGACACTGTCCTTAGAGACCAGMCACTTTTTTTTCCCATTTCCT
CATTCCTCAGTGTATCTCTGTCCATATCAACAGTCTCATTTGTTTCTTTTCTATTCATCAAATAATTTGCATATGACTTTAAAACATCTTGATAATTTAG
TTTTTGTTAATGTTCCTCTTTGGATCTTAGAGGCCCTCTTGTGAGAAACACACTTGCAGTCAGGACAGGGAGGCTCCAAGTGGCCCTGTTGACTTGGTGC
CTACATGGTTAAAGGAACTGGGGCCCGAATCCAGATGCAAGGCTGGGGGCTTCTCTCAGCTTGTGCTGGCATCCCCTCACCTGTCATGTTAACCCTGCGT
TATTCACAGCTCTGCATTGCCAGAGCCCCTGAGAATAGAGCAGTTAGGAACCTCTGCACCACCTGGATTTTGGTTGAGTGGGATGGCATCTTGAACTCCA
AGCTTTCATTTCAGAGGCAATGAATGTTTCCTGCAGCTTCTGTCCAAGCACAGCTGGGCCCTGCACTAGAGGTTCCTGGGCCGCCACCTGCYCAGTCAGA
GGCTCTGCGGGGGGGTGGTGAGCACCCAGGAATCTSAGATGTGCTCCACTTCATCCCAATCTGGACCTACCATCTGTGTTCTTTGTGTCCCCAGAACTCA
TGAGCCTTGTGTCTGGGCTGCTGCAGCCAGTCCCTGAGAGACGCACCACCTTGGAGAAGCTGGTGACAGACCCGTGGGTAACACAGCCTGTGAATCTTGC
TGACTATACATGGGAAGAGGTGTKTCGAGTAAACAAGCCAGGTGAGGCTTCTCAGCATCCCTCCACCCCACRTGACTTCACTTGGAATAACGAGGTCCCC
AGGCTGCCTTCCTAGGTCAAAAGGAGGAAAAGGAGGCTCTCTCCCCCATGCTGTCTTGGACACAAATGTCAGGGCCTATAGCTGACCTGTCACCTGTGAG
AGGGGGTTTGATTCTGTCCCGAGGCCTCTGGACACCACTGGGGTTCAGGGTGTGGCTTTGGACCTTGGAGGGTGGGCAGGTGTCATGGGAGCTCCTGGCA
GAAGGGGTCGGAACCCTCAAAGATGGTTTGAGGAATGCAGCTGGTGATGGTCTGACTGGGCCGAAGGGGAGGATGAGGCCACAGATGCTGAGAGTGATTC
TCTAGCAGCCGGCGGGGCCGAGGGCTCTTCAGACAAGGCTCTGGCCACAGAGCCAAAACCACTGCTCAGAGCATTTGGACCAAGCTGCGGTTGATGGCCC
TGGGCTTAGATCCCCACCTTGGCAGGATCTGTACTTCCGGGACATTGCCAGTTGGATTTCTGAGGGCCTCACCTTAGGCTTTTGTTCTAGGACTTCTTCA
AGTGAGAAGCAAAGTATTTTAGAACCTTAAGTTGTTAGCACGTGATACAGTTACCTTYTTGTTTCTTCAGAAAGTGGAGTTCTGTCCGCTGCGAGCCTGG
AGATGGGGAACAGGAGCCTGAGTGATGTGGCCCAGGCTCAGGAGCTTTGTGGGGGCCCCGTTCCAGGCGAGGCTCCTAATGGCCAAGGCTGTTTGCATCC
CGGGGATCCCCGTCTGCTGACCAGCTAAACACCAATTTCTTCCTGCTTTTCTCCACTTGGTTTGGAAAATCACACAGTTTTCAGGCTCCATCTGTTTGGA
GAAAATACATTCTGAAGCATCCCCAATTCACCTTCTAAAAACTCATGTGCAGGTTTGATAAACACCAGAACAGAAGACAGTGATGCTGTATTATTTTAGA
TTTATTACATAGATTTGGAATTCACTTTTTTCATGACCTAGAAAAAAACATTCCAGTGTTCAACTGTTTTATATTATTAAAGGGCTTTTAATTTGTGAAC
TTCTGAAGGCATGAGTGTTTTCTCTTTCTACTTTTGTATATGTGCATGTTTTGTTTCCTCTGACTTGGTATATGCTCATCTGAGTGACGGATATGTGAAA
TTTGTAGAACTGGTTAGTCMAATGGCCAGACTATTTCATTAATTTATTTCCTCAAATGCTTTTCAAATTAAAGCACCTTTGTTAGTAAACAGTTATCCTG
ACTTGGATGTTGTGAACTGTTCCCGTGTGCTAAGTGTGAGAAATACCTGGTTTCCTCATTTTTCCATGTGTGCACCCCACTTGCCACAGTTGGAGAGAAG
TCTAGCCTTGGCCATTCTGGGGTTCCTTTTACAAGCAGGCCCTGCCAGGGGTGGGCCTAGGGCTCTGAAGCTTGCTCCATCTGGTAAGACGGGGGAGGGT
GGCTTCCTCAGGGACCTCCCTTCTGTCTGTAGCAAGACTCTGCTGTCAAACACGTGGCTGGCTCACTGCCAGCAGTCCCCAAATATCCCATGGCCAGCCA
GCTCCCACCTCTGTCCACATGAGGGGCTTCCTGGCCCAGCCCCCACCTCTGGTCTGTGTGAGGGGCTCCAGCCCTGTATTCCTCCGAGCTGCTCAGGTTC
CAGGGTGTTTGTCAGATACTCAACTGGCTGCTTCCCTCCCTTAGACTCCAGTCCATCCCCCTCAGACAGACTTGGCTAGGTCAAGTACTTAGGATTGTTT
TATTTCATGTCTGTGTTAGAGAGGAGGGAATAGCTAGAGGTGAGAGCAGAACCTTTCATTTTTTTCCCCTGCTGAGACAGTAGGAAAAAAACCAAAAACC
TAAACCCCTACCCTTTTCCCACATGTCATCACTTGCAGACGGTTTTTCCACATTCTGAGACTCCTGCCCAGAACCCTCTGGAAGCTGCCTGGGAGCCAGG
CTGCCTCCTGCGTGGTTCTGAGCTATTTCTAGTGGTTATTTAGGAGGCACTCAACTGTTTTGGGATGATCAGAGTTAATTTTAGTCCCATCTAGTAGGAT
ATGGGCTATTGCCATCCCTTTCTTCAGAAAGTGCTGCCTGAGCCTCGCTGCCACCACAAGTGACTGATGGAGTTGGTGGGGGAGGACCCTCCTCTATCAG
GGACATTCAAGGTACAAGGGTTTTACAGGTGTGTATTAAAGTCAGTGATGTTCACTCTTCAGAATTCAAAGAGTTTTCTGATGTTTTAAGAACCCCTACC
TTGTAGTGTTTATGGTGCTTATAACACAGAGGATGTTATAGAATGGTGTTTGTTTGTTTGTTTATTTATTTAGAGACAGAGTCTTATACTGTCGCCTGGG
CTGGAGTGCAATGGTGCGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCC
ACCACCACGCCTGGCTAAATTTTTGTATTTTTAGTAGAGACGAGGTTTCACTATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCATGATCCGCCCGCC
TCGGCCTCCCAAAATGTTGGGATTACAGGCATGAGCCACTGCGTTCGGCCACAATGGTGTTTGCAGACAGGTGTTTAATGGGTTGAGAATGCATAGTCTG
AGCTTTCTAAGAACTGTTACTTCTTTATAAGAAAAAATAATTAAAGCTCATCTGACTTCATGGCAGTGGAAGGTCTGGTATTTTGCAAACGTTCTTTGCA
GAAAGAACCCAGAGAGGAAAGTTCTGAGGCTGAGGCTGACAATTTTTCCACTCCATTTTTTTTTTTTTTTTTAAGATGGAATCTTGCTCTGTCACCCAGG
CTGGAGTGCAATGGTGCAATCTCGGCTCACTGCAACCTCCGTTCCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAAGTG
TGCGTTATCACGTTACCTGGCTAATTTTTGTATTTTTAGTAGAGGCAGGGTTTCACTATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCC
ACCCATCTCAGCCTCTCAAAGTGCTGGGATTACAAGCATGAGCCACCGTGCCCAACCCACTGCATATTTTTAAAGTATGGTTCGAGAGAGCAAAGTTTTC
ACACAAGACTGAAGGTGATGTCAAATTTTTTTTTTTTTTTTTTGAGAAGTACTTTCGCTTTTGTTGCCCAGGCTGCAGTACAATGGCGTGATCTTGGCTC
ACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGACACTACAGGTGCCCACCACCATGCCTGGCTAATTTTTGT
ATTTTTAGTAGAGATGGGGTTTCACCATGTTTTCCAGGCTGGTCTCAAACCCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATT
ACAGGCGTGAGCCACCACACCCGGGCTCATGTCAATTTTTCATAGTAATCCCCATGTCCCAGCTGTCATTTTATTTCTAGAGCTAGACAAACTGTTCAGG
TTCCTTGATTCTTTCCAGGGAGTTGGGGTGGCTCATGGGATTTTCTTAGGCTTTTGGTGTAGCATTAACACAATTTATTGTGAGATGTTGACAGTTGAGT
ATTTTGAGAAGAAAATTACATTATAAAAAACAACAAAGGCAACCAATTTTTTTTTTCCTTTTGTTTTTTGAGACAAGGTCTTGCTCTGTTACGCAGGCTG
GAGTGCAGTGGTGCAATCATGGCTCACTGCAGCCTCAACCTCCTGGACTCAAGTGATCCTCCCACTTCAGGCTCCTGAGTAGCTGGGACTACAGGTGCAC
GCCACTACTCCCGGCTAATTTTTTATTTTTTGTAGAGACAGGATTTTCCTATGTTGCTCAGGTTGGTCTTGAACTCCTGAGCCCAGGCAATCCCCCCCAC
CTCAGCCTCTCACAGTGCTGGGATTACAGGCGTGGGCCACTGCACTCTGCCAAAGCAACCAATTCTTTAGTTCTACACGGATTAGAACCTTCCTTTTCTT
TGACATAATCCTTTTGTCAAAAGACAGTTTTACATAAATTGTTTGGCACCCCACTCCATGCCTGGCGCAAAGCAGATATGTAAATGTGTGCCCATGCAAG
AATCAAATCCTTTATGTCAGTCCAGAATGAAGTAGATAAAACAAGAAATGCTTATAAATTAAGGCTTTGGTGGCAGGATTTAGGCAGCTGAGAAAGCACA
CCTTTTTATTCTTCACAAGCATCACCTTGTGAAAGATGCCTACGCTCTTAGGTCGAGAGAGGAAATTTAAGAATGAATACACATTGGGCTAAAACTTTAC
TATATTTCATCCTAAGAGGGAACCAGACCTCGAAGTTGGGAAGGCTCTTGCTTATAAAGGGAAATGTGCCGTAATTCCTGTCATTTTACTTGGGTCTTTT
AAAAACGGCAAATTCTCATCTTCCACTGGCTGAGAGTAAAAAGAAAGAAAAGCGGTAAAGACTTCTTTTTGTGCGTAGGTGGCCCCGGTGTTCACGCTGA
ATACAGATTTTTACACAATAAAATCTTAAATATCTCTACATGGAACGGAATCCATTTTTCCTGCCTCGGGAAGGATTTCTGCGCTCTCGGGTGAAGTTCC
CGAAGCAAGGAACCAGTTCCCCTCTACCTGTACTCTTGAGAGGAATTCTCAGGTCATCTGAAACACAAGTATGGGCCAGGACGACCCATTCGTTCACGCG
GCCCAGAGCTCTGCGAAACGGGACACGGCAGTGCAACGGGAACAACCGGACACCGAGGCCCCCGAAGGCTGAGGCCGCGGCAGAGGCGGCGGCACGGTGA
CGGGCGCGACTCCGGCCTTCCGGCTTTCTAAGGGGCGGCCCCGGGACACCTGAGCCCCGCGGGGCCGTGAACGCTCAGCACAGCTCCGGGCCGGAATCAC
GATCCACCACACCGCGCTGGCGCTGGGAACGGCGTCGGTGACGGACCGGGGGCCGGAAGTGAAGGACGGGGGAGGACCGCTGCTTCCGGCGCCGTAACTG
CTGCCATCTTCTCCGCGCTATGGCTGCGTTCGGCCGTCAGGTAAGCTCGAGCTGGGCGCGCGGGCTTCTCCGGGTCGCAGGCGGGCGGGCAGCGACGCAG
AGGAACCGCGGCCGCCGAGTGTTTCACGGCCAGGTCGTGGAGCCCTCCCGGAGGTCCGTGCACGCTGACCTGGTTTTGGCATCCTGGACCCGTGGCTCTG
CTCAATTATTGTGGGATATAGAGTTGACATTTTTTTTTTTTTGAGACAAAGTCTCGCTCTGTCTCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACT
GCAACCTCCGCCTCCCGGGTTCAAGCAATTCTACTGCTTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCCGCCACCATGCCTGGCTAATTTTTGTATT
TTTAGTAGAGACGGGGTTTCACCGTGTTGGCCAGTCTGGTCTGTAACTTCTGGCCTCAGGTGATCCACCCGCCTCGAACTCCCAAAGTGCTGGGATTACA
GGCGTGAGCCACCGCGCCCGGCCTGAGTTGACTGTTGAACAAGAGTTTGAACTTCACAAGGAAGATAACATGTACTTTTCATTAAGAGGAAGCGGAATCA
GCATAGAGGTCTTTAGGCTTGAGCCCAGTTCCACGGGCCGCGCCCGCTGACCCCAGCGACTGCCAGGTGTTCCTGGCGGAGGGAGCATCTGGACAGGGGA
GGCTGGAGAGCAGCCAGAGCTTGGGCTTGGCAGGGTGGCCCCAGGGCGACAATCGATGACGCTGGAGAAGGGGTTGGGACCGATGTGAAGGTTTTAGAGC
AGGGGTTCCCCAACCCCCGGTACCGTCCCTTGCCTATTAGGAACCAGGCTGCACAGCAGGAGGTGAGCGGCAAGTGAGCCAGCCAGACTGTATTTACAGC
CGCTCCCTTCGCTGGCATTACCGCCTGAGCTCCGCCTCCTGTCAGACCAGCCGCCTTAGATTCTCACTGGAGCGCGAACCCTATTGTGAACTGCGCCTTT
GAGGGGTCCAGGTTGCGCTCCTTATGAGAATCTGATGCCCGATGATCTGTCACTGTTTCCCATCAACCCCAGATGGCACCTCCTGGTTGTAGGAAAACAA
GCTCAGGGCTCCCAGTGATTCTACATTATGGTGAGTTGTATAATTATTTCATCTTATATTACAACGTGAAAATAACAGAAATAAAGTGCACAACAAATGT
AATATGCTTGAATCATCCTGAAACCCCTCACCAGTCTGTGGAAAAATTGTCTTCCATGAAGCCAGTCCCTGGTGCCAAAAACGTTGAAGACTGCTGGCTT
AGAGTGCCTGGATGATTTGTGCATAGTTTGTTAAGCACCAGCCTGAACCACTGAAGACTTTTGAGGTCAACTGGAATTGTGTATGCAAGTTGACTAATTA
CTGTGACCCTTGAACAACACAGGGGTTAGGGGCACCAGACCGCCCCCACACCAGTTGAAAATCAGTGTATAACGTTTGACTCCTCCAAAACTCAACTACT
AATAGCCTACTCATGACTGGAAGCCTTACCGACAACATAAACAGTTAACACATATCTTGTATATATATATATTGCATTCTGTATTCTTAAAGTAAGCTAG
AGAAAAGAAAACGTTATTCAGAAAATCATAAGGGCAAAACCCCGTCTCTACAAAAAATACAAAAATTAGCAGGGTGTAGTGTGCACCTGTAGTCCCAGCT
ACTCAGAAGGCTGAGGTGGGAGGATTACCTCAGCCTGGGGAAGTCAAGGCTGCAGTGAGCCATGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGTG
AGACCCCCGTCTCAAAAAACAAAAAGAAAATCCTAAGAGAAAATGTATTTACTATTCATTAAGAGGAAGTAGATCCTCATAAGGTCTTTAGGCTGAAGAG
GAGGTGAAGGAGAGTTTGGTCTTGGTGTCTCAAGGGTGGCAGAGGCGGAAGAAAATCCACATATAAGTGGATCCAAGCAGTTCAAACCCTTGTTGTTCAA
GGGCCAACTCTGTATCCCACAAGATTCTTCTCGTGGAATGAATTTAAGAACATGAATCTGGAAAGTAGTCTGAGGTCCAGACTTTTCTGGCACACATGAC
CAGGTGGCCTAGAAATAGTTTTTCCCTCTTCCTCCATGTCCCTGCTCCCATCCTTAAAGCTGCAAAAGCTAACAATATTGTACCTGCTTGAC


SNP Information

Context             (SEQ ID NO:65647):
TGCAGTCGGCAGATCACATCCTTCATGCCCTGACTGCATGCTGGCCAGAACTGAGTGGCGTGGCGATGCCTGGCTGCCAGGGCAGCTGGAGGATGTCCTC
R
TGTTTCCTGAGTTGCTGTCATGCTGAAAGTCAGAGATCCACAGTTTCACAATCTCTTAGCCAAAATTATGAAATCCAAAAAGCCCCCAACACTGAAATAT
Celera SNP ID:            hCV11526825
SNP Position Genomic:     25787
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65648):
GTGTATAGGTATGCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATATATAAATAT
G
CAGGTATGTATATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATTTATTAAATGT
Celera SNP ID:            hCV26232156
SNP Position Genomic:     42071
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65649):
TGTATAGGTATGCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATATATAAATATG
C
AGGTATGTATATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATTTATTAAATGTA
Celera SNP ID:            hCV26232157
SNP Position Genomic:     42072
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,6)   total(C,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65650):
AGAGATCCACAGTTTCACAATCTCTTAGCCAAAATTATGAAATCCAAAAAGCCCCCAACACTGAAATATTTTTCTTAGAATTGATGCTAAAAGCATTGGA
Y
GGTCAAATTGGCCCTAAGCACGTGAGAAGCTGTTTGTGGTTTTCCCTTGACCTCTGCAGTTTGAGTGTTCAGAGGCCTTGCTGCAGACACAGGGCAGTGG
Celera SNP ID:            hCV11526826
SNP Position Genomic:     25919
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65651):
GTATAGGTATGCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATATATAAATATGC
A
GGTATGTATATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATTTATTAAATGTAA
Celera SNP ID:            hCV26232158
SNP Position Genomic:     42073
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65652):
TATAGGTATGCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATATATAAATATGCA
G
GTATGTATATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATTTATTAAATGTAAG
Celera SNP ID:            hCV26232159
SNP Position Genomic:     42074
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65653):
CGTAGTGGGGAGAAGATTCCAGTGTCTGTGTGGATGAAGAGGATGCGGCAGGAGCGCCGCCTATGCTGCGTGGTGGTCCTGGAGCCCGTGGAGAGGGTCT
Y
GACCTGGGTCGCTTTCCAGAGCGATGTGAGTGTGCAACTTTGCCTCATGTCTCATGGACGCTGGAGCCGGCGTCGTTCTCCTCTTCAGCAAGTGCTGGTC
Celera SNP ID:            hCV25982519
SNP Position Genomic:     16793
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65654):
TACTTAGGGAATTGCAGCTTTGCTCGTGCAGTTTACTGAGCTAAACGCGGTTTAGCTGGTGGACCAAGAATCATGGGGCAGAAGTCTGTTGGTGCCTCCT
M
TGTCCAGATTCCGTTGGTGCCTCCTTTGTCCAGGCACCCCAAAGGACTGGGCCATGGTGAGGAAGGAAGCGTCACTTGCCTTTCAGGGGCTGTCTGATGG
Celera SNP ID:            hCV16165035
SNP Position Genomic:     13063
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,644|A,815)   total(A,815|C,644) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65655):
TTTACTGAGCTAAACGCGGTTTAGCTGGTGGACCAAGAATCATGGGGCAGAAGTCTGTTGGTGCCTCCTATGTCCAGATTCCGTTGGTGCCTCCTTTGTC
S
AGGCACCCCAAAGGACTGGGCCATGGTGAGGAAGGAAGCGTCACTTGCCTTTCAGGGGCTGTCTGATGGAGGCACTTGGGGAGACAGCAGGCTGTGTGCT
Celera SNP ID:            hCV16165036
SNP Position Genomic:     13094
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65656):
CGGGGACTGGAGGGAGCCAGGTGACATGGAGCCCAGGAAGTGGCCAGAGCTCGGGAGGAAGGCAAAGAGGGGAAGAGGGCATGCAGTCTTAGGCTTGGGG
K
CCCAGGAGGCCTAGGGAAGCCTTGTAGATACCCAGGTACAGCATTTCTGGGATCAGGAGCCATGATCCCAAGGCCTCTAATACTTCAGATATGGCAGGGA
Celera SNP ID:            hCV2780390
SNP Position Genomic:     21981
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,7)      total(G,7|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65657):
GGCCCGGAAAGAGCTTCTTTTAGCACCACTTTGGGTGGACCATTCTCCCATTGCGGGTTCTGACCCAGGATGGCGGTTGGTGGTGTATGTCTTTTGGGGC
Y
GAGCTGAACTCAGCATTATAAATTAGTTGGTTAAACTGTCTTTGTGTTTTTGCATTGCAGATGTTAATCAGCTTCATGTTGTTTTCTAGTTGTTAGAGTT
Celera SNP ID:            hCV25984265
SNP Position Genomic:     12308
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,29|T,1)   total(C,59|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65658):
CTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCGTGGCCTCCCAGGGTCCTTCCTAATGCAGGCTGCTTTCTCTCATGTAACCAAGAGACATAC
W
TTCATCCCCTACCACGTGCCAGGCTGCACTGCGTGCAGATGCCCCTGCGCTCACGGGGACTGGAGGGAGCCAGGTGACATGGAGCCCAGGAAGTGGCCAG
Celera SNP ID:            hCV2780391
SNP Position Genomic:     21827
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65659):
TGGTGTGGCAGGGGTGTCAGGTGGGGGGGTCTCTGTTCTATGGAAGGACACAGTGGGGGTGAGAGAGAGAGAGTGGCCAGTGCTGGCAGAAAGCACAGCC
R
CCTCGGGGCTCTGCATCGTGGTGGGGCCAGGCGGGTCGGCAGGTGCTGGCTTGCGAGGTTGTCCTGCATGCGGTCACTCGGGTATCGAATGAGTGCGAAA
Celera SNP ID:            hCV2780392
SNP Position Genomic:     20748
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;JBIC-allele(G,134|A,967)   total(G,134|A,967)
SNP Type:                 INTRON


Context             (SEQ ID NO:65660):
TGGGAGCAATGAGGGGCAGTAGAACCCGCTGATGTCCTGGCAGGGCCCACGCCTGAGCTCCTGGTAAGGAGCAGGCCCCTGGCTGCTTCCACAGTGCTCA
Y
TCTTGTTGACAAGCATGGGGTGGGGGTGCGCCCTGTCCCTGGCTCTGCCCTGGTGGGGACCCCGGAACTCTGCCTCCAGGGCCTCTGCCCACCTGGAGCG
Celera SNP ID:            hCV2780393
SNP Position Genomic:     20485
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65661):
TTTTCTAGAATATCACTTTCCTGATTCCTGGTTTCTACAGCTACATGGACCTTGCGTACAACAGCTCATTACAGCTCCCAGACCTGGCCAGCTGCCTGGA
Y
GTCGGCAATGAGAGTGGGTGTGGGGAGAGAACCTTGGACCCGTGGCAGGGCCAGGACCCAGCTGAGGGGGGCCAGGGTAAGACGTCCTCTTCCTCCTGAA
Celera SNP ID:            hCV2780394
SNP Position Genomic:     19525
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;JBIC-allele(T,391|C,1088)   total(C,1088|T,391)   (T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65662):
CAGCAGAGTGGATGCATTTGAACCCATCACCCTAGGAAATCAGGGGACCTGTGCCCTTGTGCCTCTTCCCCACTCTTGCACCTGCCTGACCCAGAGGGAA
S
CACCTGCCTGAAATTTAGGTTTACCAGTCTCTTATTTAAGAAGTAGTTTAATTACATAGGTGTGTTTCCCTGAACTACTTATTTAGATTATTTCATGACA
Celera SNP ID:            hCV16179376
SNP Position Genomic:     8714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65663):
AGGCCCTCAGCGAGGAGCACATGGAGGCCGACGGCCACGCTGCGGTGGTGTTTGGCACGGTGGTGAGTGGATGCGGGTGCAGCGTTCAGTCTGGCCTCAA
S
ACCAGCAGTGTGTGGCAGGAACAGCTCAGTGTTCCCTACCAGGAGCTCTGCTGGGGGTTGGGTGGCACCAGGACATCTCAGCTTCTTCAGCTGAAAATGT
Celera SNP ID:            hCV25983467
SNP Position Genomic:     15626
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(C,3|G,31)   total(C,4|G,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:65664):
CAGAGTGGATGCATTTGAACCCATCACCCTAGGAAATCAGGGGACCTGTGCCCTTGTGCCTCTTCCCCACTCTTGCACCTGCCTGACCCAGAGGGAACCA
Y
CTGCCTGAAATTTAGGTTTACCAGTCTCTTATTTAAGAAGTAGTTTAATTACATAGGTGTGTTTCCCTGAACTACTTATTTAGATTATTTCATGACAAAG
Celera SNP ID:            hCV16179377
SNP Position Genomic:     8717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65665):
ATGTCTGCTCCAAAGATGTGTCGATGTCACTGTAACTTGCCGCAGAGTATGTTTTTACCTTTTTCTTAAGGGGAAAATCACAGATCACATGTTGAGCATC
Y
GAGGGGCTTCAGGTGCGTCGAAGGGCATTTGGCCCGAGGCCTTTCCTGACCTTAAGGGTGAACCCTCAGGGACTGGCTCTCCTTGTGTTCATTCCTCCCC
Celera SNP ID:            hCV2780395
SNP Position Genomic:     19264
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;JBIC-allele(C,186|T,1295)   total(C,186|T,1295)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65666):
TCCCTGGGAGGAAGCTGCTGTGCTCTGCAGTGCGGGCTTGCGTGTGGCACAGGCCTCGCACCCGGCAAGCTCTCCAGCTCGCTCCTTTACCCAGGAAGGA
Y
CTTGGGTCCAGGGAGGGAGGTCCCTGCTCATGGCTGCCAAGCTCCTTCCTCTCCACCCTTCCCCAGCAACCACCGTCGGAGGGAGAGGAGCACTGTGCTT
Celera SNP ID:            hCV2780396
SNP Position Genomic:     18599
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,1)   caucasian(C,1|T,1)   total(C,4|T,2)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65667):
GTGTAAACACGTTTCGACATGTGTGCCAGTTGGGATCAGTGTGCTGAGGCTGCTTGGGGTGCCCTGTGGAGATAGGCTTTCAGACCTGTCTGAGAGCATG
R
GAGGAGAGGGGACTGGAGTGCAGGGCACACCTGCCTCGGGCGGCTGCTGAAGACGCAGGGGGACCACTGTGGGTGCTGCACCTCTGCCCGGTGCAGTTGC
Celera SNP ID:            hCV25985429
SNP Position Genomic:     32439
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,35)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:65668):
TGAGAATGAAATCTACTCTCTTGATAAAACTTGCACTTGGAGATTTTAATGTTCAGTATGGGAAATCTTGTTTGTGCTTTGGTAAATTTCTGAAATGAAA
R
TCAGGTAAGCAGAAGTTGAAAACGTTGCAGTGCCTGGAGTTTGGGCCTCCTGGAGGCAGGTGCCCCACCCATACTGGTCTTTTGGGTTCATGGCATGCAG
Celera SNP ID:            hCV2780397
SNP Position Genomic:     16553
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65669):
GGCAGCTGTGTGAAGTCTAAAGCTTCGCTTCGCTTCTCTTTTCAGAAGACAGATGGAGCTCCTATTGTCTATCATCACTGGCTGCCCAGAATATTTGTAC
R
AGTAAACTGCACTGCCCTGCTGCCCCTGAGCACACGGACCCGTCCGAACCGCGGGGCAGTGTGTCCTGCTGCTCCCTGCTGCGGGGACTGTCCTCAGGGT
Celera SNP ID:            hCV25983101
SNP Position Genomic:     14774
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,37|G,1)   total(A,73|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65670):
TTGGGTGGCACCAGGACATCTCAGCTTCTTCAGCTGAAAATGTCATCCCAGGCGCCGTTTCCCCGCTTCAGCTGCAGTGGGGGTGGGGGCCCTTTAAGAA
Y
GAATCATCGCAGGAATGGACACTGTGGCTGTGGCTGGACTCCTGGGAGGTGTCGTGGGTGGCCCTTGCTTTGTCTGAGGGCTGTAGCTTCACTAATGTTT
Celera SNP ID:            hCV2780398
SNP Position Genomic:     15784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65671):
CGACGGCCACGCTGCGGTGGTGTTTGGCACGGTGGTGAGTGGATGCGGGTGCAGCGTTCAGTCTGGCCTCAAGACCAGCAGTGTGTGGCAGGAACAGCTC
R
GTGTTCCCTACCAGGAGCTCTGCTGGGGGTTGGGTGGCACCAGGACATCTCAGCTTCTTCAGCTGAAAATGTCATCCCAGGCGCCGTTTCCCCGCTTCAG
Celera SNP ID:            hCV2780399
SNP Position Genomic:     15654
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,16)   caucasian(A,13|G,17)   total(A,25|G,33)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65672):
CTGCCTCCCAGAGCTGTGGCTCCCACCCTCTCCCTGAGCGCCTGCCCTGCCAGGGCTCTGCCCTGCCTCCTGGCCTCTCCTTTCTGGCTGTGAGCGGTGT
R
CTGCTCCTGGGCCTGCGGGGCTGCAGGCCTCCTCTCAGGAGCTCCTTCCTCCCTCCTGCGTCCTCTCCCCATCTCCCTGGATGAAAGGGTTTCTGAGTTC
Celera SNP ID:            hCV27488638
SNP Position Genomic:     44992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65673):
ACCTGCTGCACCTGACCTGGTGGCCTGAGGCCAGGGCATTTGCTCGCAGTCACGCACGAGCTCCATGCCGTGCCTTGGGCTCTCGGGAGGGCCTCAGCAT
Y
GGGGAGAGGAGTGGCTGGGCTCTGGATCCTGGTGTCTGCTTAGGCCATATTTCATTAGGAGGTGCAGGTTCCAGGCTGCACACCCTGAGTCCTCAGAGCC
Celera SNP ID:            hCV27488639
SNP Position Genomic:     44363
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,329|C,404)   total(C,404|T,329) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65674):
TATGCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATATATAAATATGCAGGTATG
T
ATATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATTTATTAAATGTAAGTTAATC
Celera SNP ID:            hCV26232160
SNP Position Genomic:     42080
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65675):
ATGCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATATATAAATATGCAGGTATGT
A
TATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATTTATTAAATGTAAGTTAATCG
Celera SNP ID:            hCV26232161
SNP Position Genomic:     42081
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65676):
TGCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTA
T
ATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATTTATTAAATGTAAGTTAATCGG
Celera SNP ID:            hCV26232162
SNP Position Genomic:     42082
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65677):
GCACAGTCTTAGGTGTGTGGCTTGTGAAGACAGGGTGAGCACACTGCCTCCTGTCCCGAGGGACCCACTCTGGCTGGGAGCAATGAGGGGCAGTAGAACC
Y
GCTGATGTCCTGGCAGGGCCCACGCCTGAGCTCCTGGTAAGGAGCAGGCCCCTGGCTGCTTCCACAGTGCTCATTCTTGTTGACAAGCATGGGGTGGGGG
Celera SNP ID:            hCV15763895
SNP Position Genomic:     20411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;JBIC-allele(T,379|C,1094)   total(C,1094|T,379)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65678):
GCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTAT
A
TATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATTTATTAAATGTAAGTTAATCGGG
Celera SNP ID:            hCV26232163
SNP Position Genomic:     42083
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65679):
ATAAATGGTAGCATGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGGCGACAGGAAATAAATGGTAGCGTGGAT
R
AGGATGTTTACGGTGACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGGCGACA
Celera SNP ID:            hCV26232164
SNP Position Genomic:     46456
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65680):
CCAAGGTCATAAAGATTTACTCCCATGTTTTCTCTAAGAGTCTTATGGTTTTAGATTTTACATGTAAGTCTTTGATCTATTTTTGAAGTTAATTTTTGTG
Y
GTGGTGTGAGACTGGGGTTGGACTTCACCCTTTCGTATGTGGATATCTAGTTGTACTAGCACTGCTTGTTGAAGACTGTCCTCTCCCCATTGAGTGGTTT
Celera SNP ID:            hCV11526833
SNP Position Genomic:     36949
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65681):
TCATTGCATTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGACTACAGGCGCCCGCCACCACGCCCGGTTA
M
TTTTTTGTATTTTTTTTAGTTTCACCATGTTGGCCAGGATGGTCTCGATTTCCTGACTTTGTTATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTAA
Celera SNP ID:            hCV15763896
SNP Position Genomic:     23105
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(A,1|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65682):
CAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGGCGACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGC
R
TGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGGCGACAGGAAGTAACAATAGTCCTTTGGGTGTCTTCTCCCT
Celera SNP ID:            hCV26232165
SNP Position Genomic:     46491
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65683):
CCCATGTTTTCTCTAAGAGTCTTATGGTTTTAGATTTTACATGTAAGTCTTTGATCTATTTTTGAAGTTAATTTTTGTGTGTGGTGTGAGACTGGGGTTG
R
ACTTCACCCTTTCGTATGTGGATATCTAGTTGTACTAGCACTGCTTGTTGAAGACTGTCCTCTCCCCATTGAGTGGTTTTTGGCACCCTTGTCAAAAATC
Celera SNP ID:            hCV11526834
SNP Position Genomic:     36970
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65684):
TGTGGATATCTAGTTGTACTAGCACTGCTTGTTGAAGACTGTCCTCTCCCCATTGAGTGGTTTTTGGCACCCTTGTCAAAAATCAGTTGACCATAGATGC
R
TGGATTTGTTTCTGGACTCTGAATTCTATTCCATTGATCTATAGTCTGTCTTTCTATCTTAAGTGTGTCCTTAAGCCAGTACCACACTGTCTTGATTACT
Celera SNP ID:            hCV11526835
SNP Position Genomic:     37087
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65685):
TCACACCTCCTCACAGCTCAGGTGCGCTCTGCCACAGTCCTGTGCTCCCGCTGCCCTCTGCCTGGAGGGCCTTCCCCGAGGCGCTCAGAAGCTGCCTTCC
Y
GGGACTCACTCCCTATCCCATGCACCTCGCAGGGGCTGCACCCCCGCGGCACTTCCTGCCCCATCTTTTTTTCCTTCTTGGCACTCATCGTTCCTTGGTG
Celera SNP ID:            hCV11526836
SNP Position Genomic:     38499
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65686):
TGCACCTCGCAGGGGCTGCACCCCCGCGGCACTTCCTGCCCCATCTTTTTTTCCTTCTTGGCACTCATCGTTCCTTGGTGCGTGATCTCACTCAGCATCT
Y
TTCCTGACACCTGAACAGGCCCATCCTGTGGTTGGCACCCGCTGGGTTGCCCATCGCTCCTTCAGCTGCGTGCCGACACCCACGTAGCAGCAGGCGTTGT
Celera SNP ID:            hCV11526837
SNP Position Genomic:     38620
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65687):
CCATCTTTTTTTCCTTCTTGGCACTCATCGTTCCTTGGTGCGTGATCTCACTCAGCATCTCTTCCTGACACCTGAACAGGCCCATCCTGTGGTTGGCACC
Y
GCTGGGTTGCCCATCGCTCCTTCAGCTGCGTGCCGACACCCACGTAGCAGCAGGCGTTGTGTTGGGCGACCAGATTTTCAGCGACTTGCAGTGTTCTTTC
Celera SNP ID:            hCV11526838
SNP Position Genomic:     38660
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65688):
CTTCTTGGCACTCATCGTTCCTTGGTGCGTGATCTCACTCAGCATCTCTTCCTGACACCTGAACAGGCCCATCCTGTGGTTGGCACCCGCTGGGTTGCCC
R
TCGCTCCTTCAGCTGCGTGCCGACACCCACGTAGCAGCAGGCGTTGTGTTGGGCGACCAGATTTTCAGCGACTTGCAGTGTTCTTTCTTTTGTGAATGGT
Celera SNP ID:            hCV11526839
SNP Position Genomic:     38673
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65689):
AGAACGAATCATCGCAGGAATGGACACTGTGGCTGTGGCTGGACTCCTGGGAGGTGTCGTGGGTGGCCCTTGCTTTGTCTGAGGGCTGTAGCTTCACTAA
Y
GTTTTGCAGTCCTGCCGGGCAGCACATCAGATGCTCAAGAGTAATATGGTTTTATTGTCTATTGATTTTTACATTCTGTTTGGTGTTTGTGGGAGCGGGC
Celera SNP ID:            hCV16165046
SNP Position Genomic:     15880
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,162|T,1313)   total(C,162|T,1313) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65690):
AGAGGATGCGGCAGGAGCGCCGCCTATGCTGCGTGGTGGTCCTGGAGCCCGTGGAGAGGGTCTCGACCTGGGTCGCTTTCCAGAGCGATGTGAGTGTGCA
R
CTTTGCCTCATGTCTCATGGACGCTGGAGCCGGCGTCGTTCTCCTCTTCAGCAAGTGCTGGTCCCTGTCTCATTCCTTTGGGAAGAAAGAGAGGATGAGG
Celera SNP ID:            hCV25982458
SNP Position Genomic:     16830
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,8)   caucasian(A,35|G,3)   total(A,65|G,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:65691):
TGAGGGCATTGAGACCTTGCAGGGATTTTGGGGGCATGGACACTTGTGCCCTCTGTGAGGTTAGAGCGGGTTCTGGCATTACAGCTATGGGCAGTGTCCC
K
GTGAGGGGGCCACACACAGGTTCAGAGGAAGCATCTGTCAGAGCAGCTCCTGGCCTGGGAGGAAGGCCCCACAGTCCTTCTGTCCTGGGTGCATGTCACT
Celera SNP ID:            hCV16165047
SNP Position Genomic:     18980
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,324|G,963)   total(G,963|T,324) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65692):
ATCTCTGCAGTCTGGGGAGCCTGTGAGTCGGGGGCCGGCCTGGGCAGGGCCTCCTCTCGGGGGACTTTAGAGAGGAAAGCAAAACGGAAAGGAAGATTGT
K
GTTCATTTGTAGGGCCTGAGTGGAGACTGTCTGCTGACGTGCCCGATCACTGTCTCATCTGCCTGTAAACCAAATGTGTCTATGTGTATGAAATAGACTT
Celera SNP ID:            hCV15764191
SNP Position Genomic:     43918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65693):
TGTCCCGGTGAGGGGGCCACACACAGGTTCAGAGGAAGCATCTGTCAGAGCAGCTCCTGGCCTGGGAGGAAGGCCCCACAGTCCTTCTGTCCTGGGTGCA
K
GTCACTGTTCCGGCCACCAGTGAGCCGCGTGAGGTGAGGCTTGCAGACACAGGCTCCCAGATCCATCTAAACATGGGGCCAAAGGCCAGATGTCTGCTCC
Celera SNP ID:            hCV16165048
SNP Position Genomic:     19074
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,396|T,1079)   total(G,396|T,1079) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65694):
TGGAGTGACCCTCCTCTTGGGAAACCACTGCCTGGCCTGTGTGCTGGTCGGGAAGGGCCATGGTGCTTCCCATGGGCGGGCTTGGCAAGCCTGCGCTGAG
Y
GCCGTGGCGTCCTGATGCCTCCTCCTCCTCACAGCTACAGAGGGCCGGAGCTGGAGATGTGGTCTCTGGGAGTCACTCTGTACACGCTGGTCTTTGAGGA
Celera SNP ID:            hCV25984279
SNP Position Genomic:     47159
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,19)   caucasian(C,4|T,26)   total(C,15|T,45)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65695):
TTTAGATTATTTCATGACAAAGGAATCCTCCTGCTGATTGTCTTCCGTAACTTGATTTTTTCCACTCGTATATGGCTAAGATTCACCCTTGTGTGTAGTT
Y
ATTTGTTTTCACTGCTGTAATTAGTGGTATGAATATACCAGAATTTAAAATCTATCTTCTTGTTAAAGAGTGTTTGGGTTTCATTTCCTTTTTTCCTCCC
Celera SNP ID:            hCV29041193
SNP Position Genomic:     8896
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65696):
TACACACTCTCGGGTTGTTGGGTTTCCGAAGTTTAGTTTCTCAGGCTCCTACTTGTAAGTTTCAGATATTATGGTTCTGCAAAAAAGGGTCACCTCTCTC
S
CTCTTCCTGTGTTGGAAGGTGACGTCCTCCCTTTAGTTTGTGGCCAACACTTGTTTCTGAAACTTTTTACAGCAAACAGAGTATCTGTATGAGGTTATGT
Celera SNP ID:            hCV16179387
SNP Position Genomic:     41288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65697):
CAGGTGGATCACGAGGTCAGGAGATCGAGACCATCTTGGCTAACACGGTGAAACCCTGACTCTACTAAAAATACCAAAAATTAGCCAGGCGTGGTGGCGG
S
TGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAAGTCGCGCCACTGCACTCCAC
Celera SNP ID:            hCV29041194
SNP Position Genomic:     10412
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65698):
AGCTCCCTCCTTCTGGCCAGCACATCCCAAAGGTAGGGCTCCTGACCTCCCGCACTGTGTGATGGGGTGGAGTTCTTAGCTCTGAATCCATAACTGGAGA
Y
GCAGACCAAGGGTTTCTGAAGGCAAGGGTGGCCTTAGGGGTGGGACATGCTCAGTTTTGAGCTTCCTGTGCGCTGAGGCCTTGACCAAGGGCCGGAGCCT
Celera SNP ID:            hCV16177131
SNP Position Genomic:     17588
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,37|T,1)   total(C,71|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,327|C,766)   total(C,766|T,327) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65699):
TTCTAGTTGTTAGAGTTGGAAGCTTGGCAGTTGGCCTCCCTTCTTCCCATGGAGGACGGGGGCTTAACAGCCTTTGAAGAGGACCAGAGATGCCTTTCCC
R
GAGCCTCCCCTTGCCAGTGTCAGCAGAGGGCCCAGCTGCACAGACCACTGCTGAGCCCAGCAGGTCGTTTTCCTCAGCCCACAGACACCTGAGCAGAAGG
Celera SNP ID:            hCV29041195
SNP Position Genomic:     12492
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65700):
GGGCTGAAGCGATTCTCCCACCTCAACCTCCCAAGCAGCTGGGACTACCAGCATGTGCCACCACACCTTGCTAATTTTTAATTTTTTTTTTGTAGAGATG
R
GGTCTCCCTATGTTGCCCAGGCTGATCTCGAACTCCTGGGCTCAAGTAATCTGCCTGGCCTCCCAAAGTACTGGGTATATGACTTTTTAAAATAGTTTTG
Celera SNP ID:            hCV11935543
SNP Position Genomic:     8027
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65701):
GCCCATATCTGCTCCATGTGGTTCTCTAGGAGGGAAGCTGATGCTGCCCCCACAGGAGAGGCACACGGGGTCCCTCACAGACCTGCTGCACCTGACCTGG
Y
GGCCTGAGGCCAGGGCATTTGCTCGCAGTCACGCACGAGCTCCATGCCGTGCCTTGGGCTCTCGGGAGGGCCTCAGCATTGGGGAGAGGAGTGGCTGGGC
Celera SNP ID:            hCV27520632
SNP Position Genomic:     44283
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,564|T,715)   total(C,564|T,715) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65702):
GCAGAGAAAAGTTCGTGGTTTAAGTGCTCGGCTCATGCTGGCAGATGACTCCGGCAGGACCCTTCCTGCTGCTTTTACTCTGCTGTGATTCCCAGGCAGC
W
GGCGCTTCTTTTCAGGCAGCAGGTGGAACTCACCTTCACATTTCAGGGTCAAGTTACAACAAAATGTTATTTCTTACTTTAGAGTATGTGAGAACGCTGT
Celera SNP ID:            hCV29041196
SNP Position Genomic:     12845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65703):
TATCCTGGTGCCAGATCAAGGATGGCACAGTTGCCAGTGGCGTGGCTGAGCCCCGAGCCTGAGCCCCACAGTCCTCCCTCCCTCCCTCCCTGCTGGTGCC
Y
GGCCCCTCACTGGGGTGTCTCACTTGCCCTGGGGTTGCTGTGCCTGGGGCGGCTCTGGACACTGAGTCCTCCCCACCCACAGAAGGGCTCTTTCCTGGGC
Celera SNP ID:            hCV29041197
SNP Position Genomic:     17943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65704):
CAGGGTTTACGACACAACTGCGGGGGTTCATTTCTCACCCTAGTAGAAATACTAAAAAGTAGCTAAGCTGAATTGTAGTTACGTTAAATTTAAGTTAGTT
R
AAAAGCAGTTAGTGTTCTTCCTGGATGAGGGGTTCCCACAGGAGCTGAGGGCATTGAGACCTTGCAGGGATTTTGGGGGCATGGACACTTGTGCCCTCTG
Celera SNP ID:            hCV29041198
SNP Position Genomic:     18834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65705):
GAGGAGACCGTGGAGGCTGCCATACACCCGCCATACCTGGTGTCCAAAGGTGAGCGTGAGCTGCAAGTGGTAGACAGTCGACACTGTCCTTAGAGACCAG
M
CACTTTTTTTTCCCATTTCCTCATTCCTCAGTGTATCTCTGTCCATATCAACAGTCTCATTTGTTTCTTTTCTATTCATCAAATAATTTGCATATGACTT
Celera SNP ID:            hCV25983113
SNP Position Genomic:     47379
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,29)   caucasian(A,2|C,34)   total(A,7|C,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:65706):
ACTTCCCCTTGCAGGTGGGGCCGAGGCTAGGCTGCACGGCTGACGGGGGGTTTGGGGGCCCTGAGATGAAGCGAGAGCGCTGACCAAAGCATTGGCAAGT
K
CTCCTGTACTTTACTGTTGGGCTTTTGGTAGCATTCTCTGCAAAATCATTTCTAAATGTGGACTTAATTTGGAGAAATTTGAGACTAAGTGCTTTATTTT
Celera SNP ID:            hCV29041199
SNP Position Genomic:     27771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65707):
TTCTGAGGGCCTCACCTTAGGCTTTTGTTCTAGGACTTCTTCAAGTGAGAAGCAAAGTATTTTAGAACCTTAAGTTGTTAGCACGTGATACAGTTACCTT
Y
TTGTTTCTTCAGAAAGTGGAGTTCTGTCCGCTGCGAGCCTGGAGATGGGGAACAGGAGCCTGAGTGATGTGGCCCAGGCTCAGGAGCTTTGTGGGGGCCC
Celera SNP ID:            hCV25982029
SNP Position Genomic:     48758
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,8)   caucasian(C,39|T,1)   total(C,67|T,9)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   JBIC-allele(T,289|C,1200)   total(C,1200|T,289) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65708):
ACAGACCTGATCCCTTCTGTGCAGCTCCCTCCTTCTGGCCAGCACATCCCAAAGGTAGGGCTCCTGACCTCCCGCACTGTGTGATGGGGTGGAGTTCTTA
K
CTCTGAATCCATAACTGGAGACGCAGACCAAGGGTTTCTGAAGGCAAGGGTGGCCTTAGGGGTGGGACATGCTCAGTTTTGAGCTTCCTGTGCGCTGAGG
Celera SNP ID:            hCV25982172
SNP Position Genomic:     17566
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,4)   caucasian(G,33|T,1)   total(G,61|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:65709):
GGTGGCCCTGGCGTAATGGGATGCTTGAGGACCGGTGGCCCCTGGTGTAACGGGATGCTTGGGGACCGGGTGGCCCCGGTGTAATGGGATGCTTGAGGAC
Y
GGGTGGCCCTGGTGTAATGGGATGCTTGAGGACCGGGTGTCCCTGGTGTAATGGGATGCTTGAGGACTGGGTGTCCCTGGTGTAATGGGATGCTTGGGGA
Celera SNP ID:            hCV11526840
SNP Position Genomic:     39781
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65710):
TGCCAATTATTTGGTGATTGTTCAGATATCTTTTTGTTTTTAATTTCTTTATAGAGAACATACTTTGTATAATGTCAGTTTCTTTAAATTTGTTGATGCT
Y
GTATTATGTTTTGAAGTCTCTACCTATACTTGTGGATTTGCTTGTTTCCCTTTGTAATCCTCCCAGATTTTACTTCATATATTTGGAAGCTCTGTTGTTA
Celera SNP ID:            hCV27968364
SNP Position Genomic:     33561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65711):
ACAGTGTTAGTCAGGATGGTCTCGATCTCCTCGATCTCCTGACCTCGTGATCCGCCCTCCTCAGCCTCCCAAAGTGCTGGGATGACAGGCGTGCGCCACC
K
TGCCTGGCCCGGAAAGAGCTTCTTTTAGCACCACTTTGGGTGGACCATTCTCCCATTGCGGGTTCTGACCCAGGATGGCGGTTGGTGGTGTATGTCTTTT
Celera SNP ID:            hCV27841782
SNP Position Genomic:     12202
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,5)   caucasian(G,34)   total(G,63|T,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65712):
GGCCAGGGTAAGACGTCCTCTTCCTCCTGAATGCGCCTGTAGCTGCTGAGCCCCAGACAGCCCCATGCCTCTGAGACAGGGCTGGGAGGAGCAGGAGCTA
Y
TGTCCCTCCAGAGGCTCAGGGGTGGTGGGGGGCGGAGTAGGGGGTGACTGTTTTCTGGTTTGATGTTCCTCTCTGTCTCGGGGGCTGTGACATATTCTTA
Celera SNP ID:            hCV16122009
SNP Position Genomic:     19695
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;(C,-|T,-)   (T,-|C,-)   WICGR7_african_american_pooled(C,47|T,52)   WICGR8_asian_pooled(T,7|C,76)   WICGR6_caucasian_pooled(T,46|C,49)   total(C,172|T,105)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65713):
CTCGCTGTGTTGTCCAGGCTGGTCTTGAACTCCTGAACTCAAGCAACCTTCCTGCCTCAGCCTTCCAAAGAACTGGGATTATAGGCACGCCTGGCTTTGA
R
TGTAATTTAGACACAGAAGTGTTGATCTTATGCTGTTTGTGCTTCCGAGTGGACCTGGTGGTTGCCTAAGTGGATTCTGGGGACCATGTTCAGACACGCA
Celera SNP ID:            hCV2780409
SNP Position Genomic:     14469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65714):
GCCAAGGCCAACGTCCCAGGGGTAGGGCGGAAGTGGGGTGGCGTGCACAGGGCACGCAGCCCAGGCCTCTGCTGTCCCCACCTCCCTCCCCACCCTCCGA
R
AGAAAAGACAGTTTGGGCCTCAGCCATGGACGGACGCCGTTACTGGCAGCGTCTCCTTAAACTACAGAGATACAATGTGTATCAACAGGGTGATCGCTTC
Celera SNP ID:            hCV27479253
SNP Position Genomic:     36215
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,652|G,845)   total(G,845|A,652) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65715):
CCTCATTTCGTGGGGGAAACTCCAGCCATGGTTCTGGTATTGGCCACAGCCTCCTCTTGCTGTTTATCTAAAGCCTGGATGACCAGGTGGGGGCTTCCTG
Y
CAGTAGAGGAAATCTTCTTGCTTTAAGGGCTCTTTTTGTTGAGTTTGGCCATGAGGACAGGGTATTGGTAAATGTGTACTTGTGTTTCAAGTGCTTGCCA
Celera SNP ID:            hCV9034622
SNP Position Genomic:     11112
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65716):
GTGGGGTGGCGTGCACAGGGCACGCAGCCCAGGCCTCTGCTGTCCCCACCTCCCTCCCCACCCTCCGAAAGAAAAGACAGTTTGGGCCTCAGCCATGGAC
S
GACGCCGTTACTGGCAGCGTCTCCTTAAACTACAGAGATACAATGTGTATCAACAGGGTGATCGCTTCTGACCCACTCAGGCAGACACCTAGAGGTGCTG
Celera SNP ID:            hCV27479254
SNP Position Genomic:     36247
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,414|C,521)   total(G,414|C,521) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65717):
GATGGAGCTCCTATTGTCTATCATCACTGGCTGCCCAGAATATTTGTACAAGTAAACTGCACTGCCCTGCTGCCCCTGAGCACACGGACCCGTCCGAACC
R
CGGGGCAGTGTGTCCTGCTGCTCCCTGCTGCGGGGACTGTCCTCAGGGTGGTCCTCACCTCTGCTTCCGGCCCCTGTGTGCAACCCTAACAAGGCCATCT
Celera SNP ID:            hCV25983198
SNP Position Genomic:     14825
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65718):
AGTGCCTGTGAAGAGCAAACGCTCTTTTTTGGTGTTGCTGCCAGATCCAAGGATTAATGTCGTGCTTGCTGGTGGCCACGTTGTGCCCCGAGATGAGATC
Y
GGAAGCTGATGGAAAGCCAAGACATCTTCACCGGGACTCAGACTGAGCTGATTGCTGGAGGCCAGCTCCTTTCCTGCCTCTCACCTCAGCCTGCTCCAGG
Celera SNP ID:            hCV25985441
SNP Position Genomic:     22498
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65719):
CCCCTCTGGCCTCCTGATTCCAGCTAGTGTCAGCAGTGGGATACCTGCGCTTGAAGGACATCATCCACCGTGACATCAAGGATGAGAACATCGTGATCGC
Y
GAGGACTTCACAATCAAGCTGATAGACTTTGGCTCGGCCGCCTACTTGGAAAGGGGAAAATTATTTTATACTTTTTGTGGGACCATCGAGTACTGTGCAC
Celera SNP ID:            hCV16165058
SNP Position Genomic:     43132
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,11)   caucasian(C,28|T,2)   total(C,53|T,13)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,572|C,699)   total(C,699|T,572)   (T,-|C,-)   no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65720):
TGAGGGTGGCTTGATTTTGGGTGGGAAAATGGCTTCCTTTGTGCCTCTTTGTGATGAGTGTTGAGTGGTCAGGGTGATATGCTGGAAAGTAAGTGGGCAG
K
CAGGCAAGGTCATATTGGGCAAAGGCACTGGGCGATGGATATAGGAGTTAATAATTTTATTTTCTCAGCTTTTATTTGTTTGGAGTTTCATATAATAAAA
Celera SNP ID:            hCV16165059
SNP Position Genomic:     43406
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,130|G,991)   total(G,991|T,130) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65721):
ATGGAAAGCCAAGACATCTTCACCGGGACTCAGACTGAGCTGATTGCTGGAGGCCAGCTCCTTTCCTGCCTCTCACCTCAGCCTGCTCCAGGGTAAGTCC
Y
TTGGTGGGAGGTTGCAGGTTTACTAAAAGTCCAGACAGATGGTAGGTGAATGAGGAACAAGTCAGAGAGAAATGTTCAGCCTATTATTCATAGTAACATT
Celera SNP ID:            hCV25983843
SNP Position Genomic:     22607
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,6)   caucasian(C,19|T,19)   total(C,47|T,25)
SNP Type:                 INTRON


Context             (SEQ ID NO:65722):
GCTCCTGTGTCGTCCTGCGATCTGGGAGGCAGAGACCTGTGCGGTGGCTGCACGGGCAGCTCCTCAGCCTGCTATGCCTTGGCCACGGACCTCCCTGGGG
R
CCTGGAAGCAGTGGAGGCCCAGGAGGTTGATGTGAATTCGTTTTCCTGGAACCTCAAGGAACTCTTTTTCAGTGACCAGACAGACCAAACGTCATCAAAT
Celera SNP ID:            hCV11935550
SNP Position Genomic:     28731
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;JBIC-allele(A,275|G,1220)   total(G,1220|A,275)no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65723):
GAGAGTGGCCAGTGCTGGCAGAAAGCACAGCCACCTCGGGGCTCTGCATCGTGGTGGGGCCAGGCGGGTCGGCAGGTGCTGGCTTGCGAGGTTGTCCTGC
M
TGCGGTCACTCGGGTATCGAATGAGTGCGAAAGTGGATTTAATACAGTCACTGAGAAAAACTACAGCTTCACGAGACTGACCAGCCTGGTGAGATAAACA
Celera SNP ID:            hCV16177141
SNP Position Genomic:     20816
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,395|A,516)   total(A,516|C,395) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65724):
GCCTCCTTCCCCACAGGGTCTCGCCTGGGGCATTAGAAGCTGGATTGTAACATTTGTTTTAAAAGATACTTTGTTAGGCTGTTGGTTCTCCTTACAATCC
Y
GGCTTTCCTTAGCATGTGGTTCCCTTCATTGTATCTGGGTTTTTCTATCTCAGTCTGTCCTTTATACAAGCTTTTTCCTCTAGCACTAATTATATTCCCC
Celera SNP ID:            hCV16177142
SNP Position Genomic:     21079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65725):
TACATTCAGTCCTTGTATGTATTAAAGTGTGTTTATTTTTCTCTCATATTTTAGTGATGATATGCCTTTCTCCTCTCAGAACTTTTTAGACCTGTATCTG
K
TGTAATCTAGCATTATTTTGAAGTGAATTTTGCTGACAGCAAAACGTGATTTATTTTTCTTTCTAGATGTAAAATCTTTGTCTTTCAAAGTTTTCACCAG
Celera SNP ID:            hCV11935553
SNP Position Genomic:     37731
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65726):
CATCTCTTCCTGACACCTGAACAGGCCCATCCTGTGGTTGGCACCCGCTGGGTTGCCCATCGCTCCTTCAGCTGCGTGCCGACACCCACGTAGCAGCAGG
Y
GTTGTGTTGGGCGACCAGATTTTCAGCGACTTGCAGTGTTCTTTCTTTTGTGAATGGTATCTTTTTCTGTTACACTTTGACTATCATTGACTGTGGTAGC
Celera SNP ID:            hCV11935554
SNP Position Genomic:     38715
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65727):
ACATCTTGATAATTTAGTTTTTGTTAATGTTCCTCTTTGGATCTTAGAGGCCCTCTTGTGAGAAACACACTTGCAGTCAGGACAGGGAGGCTCCAAGTGG
C
CCTGTTGACTTGGTGCCTACATGGTTAAAGGAACTGGGGCCCGAATCCAGATGCAAGGCTGGGGGCTTCTCTCAGCTTGTGCTGGCATCCCCTCACCTGT
Celera SNP ID:            hCV9034777
SNP Position Genomic:     47584
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|-,11)   total(C,2|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65728):
TGCAATCTCTCCTTTTGACTCATCTGTGGCCCTACATGATGGTCACCCATGTCATTATCCCCAGGGTGGACAATGTCCCAGAAGGAAGCCTGCCAGTGCA
Y
GGTGAACAGGCGCTGCCCAAGGACCAGCAAATCACTGCCTTGGGGAGAGAGGAACCTGTGGCAATAGAGAGCCCCGGACAGGATCTTCTGGGAGAAAGCA
Celera SNP ID:            hCV16177072
SNP Position Genomic:     28057
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,38|T,2)   total(C,69|T,5)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,151|C,1132)   total(C,1132|T,151) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65729):
TCATGCTTGGCCCTTCCAGGCCCACGTCCACCTACTCTTCTGGGTACTGAACTCCTCTCTGGGAGGCTTTGCCTCTGAAAGACTTCTTCACTCTGCTTGG
W
AGGGCCCGGCTCTGCAGGTGCCTCCTCCAGGACTGACATCCTTGCTGTGTTCTACTGCACTGTTCACCTTGTTGGCCTCATCCTGAAACTGGTTCTCCTT
Celera SNP ID:            hCV9651949
SNP Position Genomic:     6996
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;(T,-|A,-)   WICGR8_asian_pooled(T,11|A,72)   WICGR6_caucasian_pooled(T,22|A,73)   total(A,145|T,33)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65730):
AACGGAAAGGAAGATTGTGGTTCATTTGTAGGGCCTGAGTGGAGACTGTCTGCTGACGTGCCCGATCACTGTCTCATCTGCCTGTAAACCAAATGTGTCT
R
TGTGTATGAAATAGACTTTATTAAGTCAGAAATAGATAGCAGGTGTTTTCCACTAACACCTACATGTATTTTAGAGAGGTGTGGTTGGAATGCATCTCTA
Celera SNP ID:            hCV15764201
SNP Position Genomic:     44000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65731):
TGGAGACTGTCTGCTGACGTGCCCGATCACTGTCTCATCTGCCTGTAAACCAAATGTGTCTATGTGTATGAAATAGACTTTATTAAGTCAGAAATAGATA
R
CAGGTGTTTTCCACTAACACCTACATGTATTTTAGAGAGGTGTGGTTGGAATGCATCTCTAGGTGAGTTCATGGTTAGAGAGTCGGATGATCACAGCACT
Celera SNP ID:            hCV15764202
SNP Position Genomic:     44039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65732):
AGTCATAGCTCGCTGCAGTCTCAAACTCCTGGGCTCAGGCAATCCTCCTGCCTTAGCCTCCTGAGTAGATGGGGCTGCAAGGGCACGCCACTATGCCCAA
S
TGATTTTTACAAATTTTATTTTTAGTAGGGACAGGGTCTCGCTGTGTTGTCCAGGCTGGTCTTGAACTCCTGAACTCAAGCAACCTTCCTGCCTCAGCCT
Celera SNP ID:            hCV2780410
SNP Position Genomic:     14331
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65733):
CCTACATGTATTTTAGAGAGGTGTGGTTGGAATGCATCTCTAGGTGAGTTCATGGTTAGAGAGTCGGATGATCACAGCACTGCTTGGACCCTCCTGGCCC
Y
CTGCTGCAGTGCTCTGCTGCACCGCCCATATCTGCTCCATGTGGTTCTCTAGGAGGGAAGCTGATGCTGCCCCCACAGGAGAGGCACACGGGGTCCCTCA
Celera SNP ID:            hCV15764203
SNP Position Genomic:     44159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65734):
GCGGTTTAGCTGGTGGACCAAGAATCATGGGGCAGAAGTCTGTTGGTGCCTCCTATGTCCAGATTCCGTTGGTGCCTCCTTTGTCCAGGCACCCCAAAGG
W
CTGGGCCATGGTGAGGAAGGAAGCGTCACTTGCCTTTCAGGGGCTGTCTGATGGAGGCACTTGGGGAGACAGCAGGCTGTGTGCTTGAAGTTGGGGTAGA
Celera SNP ID:            hCV2780411
SNP Position Genomic:     13109
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,3)      total(A,3|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65735):
CTTGATTAAGGAGCAGCTGTCCCAGTTGAGCCTTGCAGGAGCCCTGGATGTCCCCCACGCCGAACTCGTTCCGACAGAGTGCCAGGCTGTCACCGCTCCT
R
TGTCGTCCTGCGATCTGGGAGGCAGAGACCTGTGCGGTGGCTGCACGGGCAGCTCCTCAGCCTGCTATGCCTTGGCCACGGACCTCCCTGGGGGCCTGGA
Celera SNP ID:            hCV29041200
SNP Position Genomic:     28637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65736):
TGTTATTTCTTACTTTAGAGTATGTGAGAACGCTGTTCTAGGTTAGGCTATTTTACTTAGGGAATTGCAGCTTTGCTCGTGCAGTTTACTGAGCTAAACG
Y
GGTTTAGCTGGTGGACCAAGAATCATGGGGCAGAAGTCTGTTGGTGCCTCCTATGTCCAGATTCCGTTGGTGCCTCCTTTGTCCAGGCACCCCAAAGGAC
Celera SNP ID:            hCV2780412
SNP Position Genomic:     13010
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65737):
AGGTCCCAGGCCACCTGCCCCATGCCCGTCAGTTCCAGCTGTGCCCCCTGACTCAGGCCATACACTTAGAGAGCCGCTCCTCCCAGCAGCCTGGGGAGAT
Y
CCGTCGGGAGCAGGAGAAGCGTGGGGGTGTCACGCTAGAGTCTGTCTCTCCACCTCCCACCAGCCCCCACCTCAGTGGTCACACAGACAGGCCGAGAGGG
Celera SNP ID:            hCV29041201
SNP Position Genomic:     29581
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65738):
CCGAGCTGAACTCAGCATTATAAATTAGTTGGTTAAACTGTCTTTGTGTTTTTGCATTGCAGATGTTAATCAGCTTCATGTTGTTTTCTAGTTGTTAGAG
K
TGGAAGCTTGGCAGTTGGCCTCCCTTCTTCCCATGGAGGACGGGGGCTTAACAGCCTTTGAAGAGGACCAGAGATGCCTTTCCCAGAGCCTCCCCTTGCC
Celera SNP ID:            hCV2780413
SNP Position Genomic:     12407
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,22)   caucasian(G,21|T,13)   total(G,33|T,35)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,26)   caucasian(G,18|T,16)   total(G,30|T,42)
SNP Type:                 UTR 5

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|G,3)      total(G,3|T,3) ;no_pop(T,-|G,-)   ;(G,-|T,-)   (T,-|G,-)   African American (pooled) - WICGR(G,36|T,64)   Asian (pooled) - WICGR(G,33|T,51)   Caucasian (pooled) - WICGR(G,46|T,50)   total(G,115|T,165)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:65739):
TCCCAAAAGTACAGTACCATGAGCCCGCTGGGCAGTGGGGCCTTCGGCTTCGTGTGGACTGCTGTGGACAAGGAAAAAAACAAGGAGGTAACCTGGCTGT
S
GGGGGGGAGTGGCGCCGGGCACCACTTCACATGGCTCTCGACTTTTGGTCCCAGTTCTCAAACCTGGGGTTTTTGGAGGAGTCCTCTAGGTATGGCACCA
Celera SNP ID:            hCV29041202
SNP Position Genomic:     32754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65740):
TAGCACCACTTTGGGTGGACCATTCTCCCATTGCGGGTTCTGACCCAGGATGGCGGTTGGTGGTGTATGTCTTTTGGGGCCGAGCTGAACTCAGCATTAT
R
AATTAGTTGGTTAAACTGTCTTTGTGTTTTTGCATTGCAGATGTTAATCAGCTTCATGTTGTTTTCTAGTTGTTAGAGTTGGAAGCTTGGCAGTTGGCCT
Celera SNP ID:            hCV2780414
SNP Position Genomic:     12328
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,7)   caucasian(A,12|G,20)   total(A,35|G,27)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,12)   caucasian(A,18|G,18)   total(A,44|G,30)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65741):
ATAGTGACCCTCCCGTCAAAGGGTCTTCAGAATTTGTCTCCTTTCACCTCTCACAGGCTGGCACCCAAGTTGCCCCCTTCTCTCCTGATGACGGTGAGAG
R
CCTGGATGTTGCCCAGGCTCCGATGATTCTTCCTGCTCCCGCCCTGGCCCCGATGCCCTCCCGATGCCCACTTACGTTGCCTGCCCAGCCCCCCGCCTCC
Celera SNP ID:            hCV29041203
SNP Position Genomic:     38297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65742):
TCCTCAGCCTCCCAAAGTGCTGGGATGACAGGCGTGCGCCACCGTGCCTGGCCCGGAAAGAGCTTCTTTTAGCACCACTTTGGGTGGACCATTCTCCCAT
Y
GCGGGTTCTGACCCAGGATGGCGGTTGGTGGTGTATGTCTTTTGGGGCCGAGCTGAACTCAGCATTATAAATTAGTTGGTTAAACTGTCTTTGTGTTTTT
Celera SNP ID:            hCV2780415
SNP Position Genomic:     12259
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,24)   caucasian(C,13|T,15)   total(C,17|T,39)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65743):
ATCCTGTGGTTGGCACCCGCTGGGTTGCCCATCGCTCCTTCAGCTGCGTGCCGACACCCACGTAGCAGCAGGCGTTGTGTTGGGCGACCAGATTTTCAGC
R
ACTTGCAGTGTTCTTTCTTTTGTGAATGGTATCTTTTTCTGTTACACTTTGACTATCATTGACTGTGGTAGCACTGTTTTTCTTATATTTACCTTATGTC
Celera SNP ID:            hCV29041204
SNP Position Genomic:     38743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65744):
GAGTGCAGTGGTGTGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACACCATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCC
R
CCACCATGCCCGGCTAATTTTTTGTATTTTTAGTGGAGACGGAGTTTCACAGTGTTAGTCAGGATGGTCTCGATCTCCTCGATCTCCTGACCTCGTGATC
Celera SNP ID:            hCV2780416
SNP Position Genomic:     12053
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,3|G,33)   total(A,5|G,67)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65745):
GTGGCTCCCACCCTCTCCCTGAGCGCCTGCCCTGCCAGGGCTCTGCCCTGCCTCCTGGCCTCTCCTTTCTGGCTGTGAGCGGTGTACTGCTCCTGGGCCT
R
CGGGGCTGCAGGCCTCCTCTCAGGAGCTCCTTCCTCCCTCCTGCGTCCTCTCCCCATCTCCCTGGATGAAAGGGTTTCTGAGTTCTTATTCTCAATCCCA
Celera SNP ID:            hCV27493556
SNP Position Genomic:     45007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65746):
CTTTTGTGAATGGTATCTTTTTCTGTTACACTTTGACTATCATTGACTGTGGTAGCACTGTTTTTCTTATATTTACCTTATGTCTGTCAGTCTTGCTAAA
S
TCTGATTAATCTCAGAGTCAATGTTGAAAACATGTCTAAGAGTGATAGCTTTTCTTTGTATTTTCTAGTTTTCTGGCTTCTTCGTTTATTCTCTTGGCCA
Celera SNP ID:            hCV29041205
SNP Position Genomic:     38860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65747):
CCTATGTATTTTTCTTGGAAAGAGCTTCTTTTTTTTTTTCTTTTTTTTTGACATGGAGTCTCTCTCTATCGCCCAGGCTGGAGTGCAGTGGTGTGATCTC
R
GCTCACTGCAAGCTCTGCCTCCCGGGTTCACACCATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCGCCACCATGCCCGGCTAATTT
Celera SNP ID:            hCV2780417
SNP Position Genomic:     11973
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(A,2|G,28)   total(A,4|G,60)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65748):
ATCTCAGAGTCAATGTTGAAAACATGTCTAAGAGTGATAGCTTTTCTTTGTATTTTCTAGTTTTCTGGCTTCTTCGTTTATTCTCTTGGCCAGGGCTTTC
Y
AGTCCTTGGTTGAGAAGTCGGGGTGACGTGGATGTTCTCCGGGGCACATGCCCTGAGGCCTCTGGGGCCCTCTCTCCAGCCCAGGTTATGGCTCCCTCAG
Celera SNP ID:            hCV29041206
SNP Position Genomic:     38969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65749):
CCTGAGGCCTCTGGGGCCCTCTCTCCAGCCCAGGTTATGGCTCCCTCAGCTCCACCTGGATTCTCCATCTCACCCATCTGTCCACCTTACAGAATGGGCA
S
TAATGACGCTGCATTTCTGGTCAGCTGCTGACCCCCTTCTGTGCTTCCTTGTGCTGCAGGCGTTTATCACTTTGTTTCTTCTTTCATGTCCGTGGGACTT
Celera SNP ID:            hCV29041207
SNP Position Genomic:     39121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65750):
CTCAAGCAATTATCCTGCCTTAGCTTCTAGAGTGGCTCGGACTATAGGTGCAGGCCACGAGACCTGCCTGGCTAAAAAGTTTAGTGTTTTGACTTCCACA
S
ATCAGATCTTTTATGCCCTGGGCACCATAGTGAGACCTCATCTCCTAGTTAAAAAAAAAGATGGCCATGTGAAGATACATACAAACAGGGAGAAGTCGGC
Celera SNP ID:            hCV2780419
SNP Position Genomic:     10162
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65751):
TGCAGGCGTTTATCACTTTGTTTCTTCTTTCATGTCCGTGGGACTTAGGGGAGGTAAATGCAGGGGATGTGTCTGCCGCATGGACCAATGGTGGCCCTGG
Y
GTAATGGGATGCTTGAGGACTGGGTGGCCCTGGTGGAATGGGATGCTTGAGGACTGGGTGGCCCTGGTGTAATGGGATGCTTGAGGATTGGGTGTCCCTG
Celera SNP ID:            hCV29041208
SNP Position Genomic:     39276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65752):
CACTTTGTTTCTTCTTTCATGTCCGTGGGACTTAGGGGAGGTAAATGCAGGGGATGTGTCTGCCGCATGGACCAATGGTGGCCCTGGTGTAATGGGATGC
Y
TGAGGACTGGGTGGCCCTGGTGGAATGGGATGCTTGAGGACTGGGTGGCCCTGGTGTAATGGGATGCTTGAGGATTGGGTGTCCCTGGTGTAATGGGATG
Celera SNP ID:            hCV29041209
SNP Position Genomic:     39289
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65753):
AATCGGGCTTAGCTAACCTGTGATTATTGCTCCTGATTTGAAAGATACTCATTTGTAAATATAAATTTGTCTCAAAAGATCAACATGATACATCCATGAA
R
TCACTAAGTTGATTGGTATAATGGGTGTCCAAATTATGACAGTCAGACGTTTAATTCATCCTAGTTGAGCTAAACTGAAAGGCCGATGTTGCTGGCCTCT
Celera SNP ID:            hCV2358151
SNP Position Genomic:     42277
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65754):
GAAGGGCCTCGTGTGGGCATCCTGCTAGCTTGTCCAAGCTCGCTATTCCTGGAAGGCTGCTCCTCAGCCAGTTCACGGCTATAGGTGTGCCAGTGTGGGA
R
GACCTGGGTGGAAAGAGGCCTGTGTGTGTCTTAGAAGTGGGCACCAGACCCTTTGGCTGGGAACTCTGGGGTTCTGGATACCCAGAAGGTGGTCCAGAAG
Celera SNP ID:            hCV9651953
SNP Position Genomic:     10867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65755):
GGCCTCGTGTGGGCATCCTGCTAGCTTGTCCAAGCTCGCTATTCCTGGAAGGCTGCTCCTCAGCCAGTTCACGGCTATAGGTGTGCCAGTGTGGGAAGAC
Y
TGGGTGGAAAGAGGCCTGTGTGTGTCTTAGAAGTGGGCACCAGACCCTTTGGCTGGGAACTCTGGGGTTCTGGATACCCAGAAGGTGGTCCAGAAGAGGG
Celera SNP ID:            hCV9651954
SNP Position Genomic:     10871
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;(T,-|C,-)   African American (pooled) - WICGR(T,36|C,64)   Asian (pooled) - WICGR(C,84)   Caucasian (pooled) - WICGR(C,96)   total(C,244|T,36)
SNP Type:                 INTRON


Context             (SEQ ID NO:65756):
CAGATGCACAATTTTATAAAGTATATGATCGCACATCAATGTATGTAGGAATCATGCTGGTTCTCAGGGCATTGCCTGTCAGCTCCAGATTCATCAGGAC
Y
TGCTCAGCAGCGGGGTCGGGGAGCTGGGCCTGGGAACAGCCCTGGCTTGGTTCAGGCCGCTCCAGGGCAGCATGGCCAGTCCAGGGCACAGAAGCATCTG
Celera SNP ID:            hCV2358153
SNP Position Genomic:     41642
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(T,-|C,-)   Caucasian(C,84)   African-American(T,9|C,73)   Asians(C,82)   total(C,239|T,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:65757):
ACCCTTTGGCTGGGAACTCTGGGGTTCTGGATACCCAGAAGGTGGTCCAGAAGAGGGTATATGGGGTGTGGTTGGGCTTGCCTTGGCCCCAGGGTCTCCT
M
ATTTCGTGGGGGAAACTCCAGCCATGGTTCTGGTATTGGCCACAGCCTCCTCTTGCTGTTTATCTAAAGCCTGGATGACCAGGTGGGGGCTTCCTGCCAG
Celera SNP ID:            hCV9651955
SNP Position Genomic:     11015
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,2)      total(A,2|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65758):
CCCCATAGGAAGAAGTGTGGTGCTCCCAGAGCACAGTGCAGTGGGGGTGCAGGGCCTTCCTTGTTCTGGGGTCTGATGGGGTTTCACCCTGGAATAGTGT
Y
AGCAGAAATCATGTTTTCAAGGAGAATGCATATCATCCACCCCTAGAAAATTAAGATTACGAATGTGTGTGCCTGGGGAGGGTGGCGCCCAAGGTCCCAG
Celera SNP ID:            hCV2358154
SNP Position Genomic:     29389
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   JBIC-allele(C,461|T,1022)   total(C,461|T,1022)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65759):
ATTCGTGCTGAAGGTGGAGCCCTTGGCTGGAGGGGCTGTCGCTGACCAGCCAGACTCCATGTCACTGGAGTGGGCCAGCTGAGCCTCTGCTCTGCTGTGG
R
GAGAAGCGGCGTCCTTGGGTGTGTGGCTGAGTTTGCATCTCTGCAGTCTGGGGAGCCTGTGAGTCGGGGGCCGGCCTGGGCAGGGCCTCCTCTCGGGGGA
Celera SNP ID:            hCV27989934
SNP Position Genomic:     43781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65760):
GACAAGACTGCATGGAACACGTGCTCACATGCGCGCACACACACACGCTCATGTACACATGTGCACACGCACACACACGCACGGACACACACGCACACCC
M
CACACACACACACCTGCAGGTAAATGCCTTGAAATCTGGACGAGGCTGATGGATGGTATCAAGTCAGTTTCCTGGCTGTGACACTCTCCTGTAAGATGTC
Celera SNP ID:            hCV2358156
SNP Position Genomic:     11377
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,11)      total(A,11|C,1) ;no_pop(C,-|A,-)   ;WICGR7_african_american_pooled(C,3|A,97)   WICGR8_asian_pooled(C,5|A,78)   WICGR6_caucasian_pooled(C,38|A,57)   total(A,232|C,46)
SNP Type:                 INTRON


Context             (SEQ ID NO:65761):
GGACACCTACTCTAGATGAGCCGTGGCTGGGAGTGGAAAACGACCGAGAAGAGCTGCAGACCTGCTTGATTAAGGAGCAGCTGTCCCAGTTGAGCCTTGC
R
GGAGCCCTGGATGTCCCCCACGCCGAACTCGTTCCGACAGAGTGCCAGGCTGTCACCGCTCCTGTGTCGTCCTGCGATCTGGGAGGCAGAGACCTGTGCG
Celera SNP ID:            hCV16177082
SNP Position Genomic:     28573
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,6)   caucasian(A,17|G,11)   total(A,29|G,17)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,13)   caucasian(A,23|G,15)   total(A,44|G,28)   
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIC-allele(G,508|A,747)   total(G,508|A,747) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65762):
AAGTCATATTTATCTTGCTAGGTTGTTGTGAGGATTTGGGTTAAGCCATGTAAAATGCTGGTACAGCATTGGCATCTCTAGGTACCCAATAGATGGTAGC
R
TGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGCATGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACG
Celera SNP ID:            hCV11935566
SNP Position Genomic:     46327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65763):
CACATGAATGTATACATGTGACAAGACTGCATGGAACACGTGCTCACATGCGCGCACACACACACGCTCATGTACACATGTGCACACGCACACACACGCA
Y
GGACACACACGCACACCCACACACACACACACCTGCAGGTAAATGCCTTGAAATCTGGACGAGGCTGATGGATGGTATCAAGTCAGTTTCCTGGCTGTGA
Celera SNP ID:            hCV2358157
SNP Position Genomic:     11358
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65764):
TCCAGGTCACCTCCACGCCCGTGATCGTGATGCGCGGGGCTGCTGGCCTGCAGCGGGAGATCCAGGAGGGTGCCTACTCCGGGAGCTGCTACCATCGAGA
Y
GGCTTACGGCTGAGTATGTCCCGGGCCCCATAGGAAGAAGTGTGGTGCTCCCAGAGCACAGTGCAGTGGGGGTGCAGGGCCTTCCTTGTTCTGGGGTCTG
Celera SNP ID:            hCV16177083
SNP Position Genomic:     29263
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   JBIC-allele(C,146|T,1157)   total(C,146|T,1157)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65765):
CTGGCATTAGAGACAGCCCTCATATGTGAACTGGGATGTTATTAATGAGCTGTGGTGTGGGCCAGGCTCCTGAAGAACAAGAAGGCCCACAATTTAGGTA
Y
GTCTCTGGTAGAAGGAGACAGATGATGAAGCTCTTATCAAATTCATGTGTATATGTCTCTTGCCCTTCCGATGGAGAAGTCATGTTGGGGTCTTGCTTTT
Celera SNP ID:            hCV9651959
SNP Position Genomic:     17202
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,4)   caucasian(C,8|T,10)   total(C,22|T,14)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(T,-|C,-)   Caucasian(T,38|C,46)   African-American(T,13|C,71)   Asians(T,13|C,71)   total(C,188|T,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:65766):
TACATGTATTTTAGAGAGGTGTGGTTGGAATGCATCTCTAGGTGAGTTCATGGTTAGAGAGTCGGATGATCACAGCACTGCTTGGACCCTCCTGGCCCTC
Y
GCTGCAGTGCTCTGCTGCACCGCCCATATCTGCTCCATGTGGTTCTCTAGGAGGGAAGCTGATGCTGCCCCCACAGGAGAGGCACACGGGGTCCCTCACA
Celera SNP ID:            hCV15764212
SNP Position Genomic:     44161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65767):
TTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGATGTGTTCTCAATTTTAATGTTAAACTTATTAATCTTATTTTATAGCTAGAGTTTTTTGTGC
S
TTGTTTAAGAAAACTTTCCCTACCCCAAAGTCTTACAGATAGCCTCTTTTCTCCTAAAAACTTAGTGATTTTATTTTATATTTTATTTGGTTTGACAGGT
Celera SNP ID:            hCV2780420
SNP Position Genomic:     9923
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,5)   total(G,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65768):
TTTTAGAGAGGTGTGGTTGGAATGCATCTCTAGGTGAGTTCATGGTTAGAGAGTCGGATGATCACAGCACTGCTTGGACCCTCCTGGCCCTCTGCTGCAG
Y
GCTCTGCTGCACCGCCCATATCTGCTCCATGTGGTTCTCTAGGAGGGAAGCTGATGCTGCCCCCACAGGAGAGGCACACGGGGTCCCTCACAGACCTGCT
Celera SNP ID:            hCV15764213
SNP Position Genomic:     44169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65769):
CACATTGGTCAGGATGGTCTTGATCTCTTGACCTCGTGATCTGCTTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGATGTGTTCTCAATTTTAA
Y
GTTAAACTTATTAATCTTATTTTATAGCTAGAGTTTTTTGTGCCTTGTTTAAGAAAACTTTCCCTACCCCAAAGTCTTACAGATAGCCTCTTTTCTCCTA
Celera SNP ID:            hCV2780421
SNP Position Genomic:     9879
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;WICGR7_african_american_pooled(C,32|T,68)   WICGR8_asian_pooled(C,5|T,78)   WICGR6_caucasian_pooled(C,29|T,66)   total(C,66|T,212)
SNP Type:                 INTRON


Context             (SEQ ID NO:65770):
AGGCCTCATTGGTGTAGAGGAGGCCCTTGGAGGGTGGGCACATGATGCCCAACTAGCCAGCCAAGGCCAACGTCCCAGGGGTAGGGCGGAAGTGGGGTGG
Y
GTGCACAGGGCACGCAGCCCAGGCCTCTGCTGTCCCCACCTCCCTCCCCACCCTCCGAAAGAAAAGACAGTTTGGGCCTCAGCCATGGACGGACGCCGTT
Celera SNP ID:            hCV27498864
SNP Position Genomic:     36156
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65771):
CGTGGGACTTAGGGGAGGTAAATGCAGGGGATGTGTCTGCCGCATGGACCAATGGTGGCCCTGGTGTAATGGGATGCTTGAGGACTGGGTGGCCCTGGTG
K
AATGGGATGCTTGAGGACTGGGTGGCCCTGGTGTAATGGGATGCTTGAGGATTGGGTGTCCCTGGTGTAATGGGATGCTGGAGGACTGGGTGTCTCTGGT
Celera SNP ID:            hCV29041210
SNP Position Genomic:     39312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65772):
TAAATGCAGGGGATGTGTCTGCCGCATGGACCAATGGTGGCCCTGGTGTAATGGGATGCTTGAGGACTGGGTGGCCCTGGTGGAATGGGATGCTTGAGGA
Y
TGGGTGGCCCTGGTGTAATGGGATGCTTGAGGATTGGGTGTCCCTGGTGTAATGGGATGCTGGAGGACTGGGTGTCTCTGGTGTAATGGGATGCTTGAGG
Celera SNP ID:            hCV29041211
SNP Position Genomic:     39330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65773):
AGGGGATGTGTCTGCCGCATGGACCAATGGTGGCCCTGGTGTAATGGGATGCTTGAGGACTGGGTGGCCCTGGTGGAATGGGATGCTTGAGGACTGGGTG
K
CCCTGGTGTAATGGGATGCTTGAGGATTGGGTGTCCCTGGTGTAATGGGATGCTGGAGGACTGGGTGTCTCTGGTGTAATGGGATGCTTGAGGACTGGGT
Celera SNP ID:            hCV29041212
SNP Position Genomic:     39337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65774):
TGGTGGCCCTGGTGTAATGGGATGCTTGAGGACTGGGTGGCCCTGGTGGAATGGGATGCTTGAGGACTGGGTGGCCCTGGTGTAATGGGATGCTTGAGGA
Y
TGGGTGTCCCTGGTGTAATGGGATGCTGGAGGACTGGGTGTCTCTGGTGTAATGGGATGCTTGAGGACTGGGTGGCCCTGGCGTAATGGGATGCTTGAGG
Celera SNP ID:            hCV29041213
SNP Position Genomic:     39364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65775):
AATTTTAAATAGTTGATCTTTTAAAGCTATTCTGGATATTAATTTTCTGTTGGTTATGTATGTGGCAAATATCTTCTCCCAAATTGTGGCTTGTTCTTTC
R
TTTTCTTTATGGTATTCTTTGTGAAGCTGTGTTCTCATTTTTTTTTTTCTTTTTTTTGGGGGGGACGGAGTCTCGCTGTGTCGCCAGGCTGGAGTGCAGT
Celera SNP ID:            hCV2780424
SNP Position Genomic:     9474
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65776):
AGCCACTGTGCGTGGCCTCCCAGGGTCCTTCCTAATGCAGGCTGCTTTCTCTCATGTAACCAAGAGACATACTTTCATCCCCTACCACGTGCCAGGCTGC
R
CTGCGTGCAGATGCCCCTGCGCTCACGGGGACTGGAGGGAGCCAGGTGACATGGAGCCCAGGAAGTGGCCAGAGCTCGGGAGGAAGGCAAAGAGGGGAAG
Celera SNP ID:            hCV15878059
SNP Position Genomic:     21855
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,370|A,1093)   total(G,370|A,1093) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65777):
CCTGGTGTAATGGGATGCTTGAGGACTGGGTGGCCCTGGTGGAATGGGATGCTTGAGGACTGGGTGGCCCTGGTGTAATGGGATGCTTGAGGATTGGGTG
K
CCCTGGTGTAATGGGATGCTGGAGGACTGGGTGTCTCTGGTGTAATGGGATGCTTGAGGACTGGGTGGCCCTGGCGTAATGGGATGCTTGAGGACCGATG
Celera SNP ID:            hCV29041214
SNP Position Genomic:     39371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65778):
AGATTATATTAATGTATTAAGAGTTCCTGTTGATCCAAATCCTTTTTGACATTGGGTATTACTAGATTCTTCATTTCTGCTGACTTAGTAGGTATAACAT
Y
ATCATGATTAGGATTTCCTCTCCTGTAAAACGCTTGTTCCTATTTCTTGACATTTTTTATTGGGCCATGTGTCTTTTAAAAATGTTTAAATTTTAAATAG
Celera SNP ID:            hCV2780425
SNP Position Genomic:     9285
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65779):
TGCTGGAGGACTGGGTGTCTCTGGTGTAATGGGATGCTTGAGGACTGGGTGGCCCTGGCGTAATGGGATGCTTGAGGACCGATGGTGGCCCCTGGTGTAA
Y
GGGATGCTTGAGGACCAGGTGGCCCCGGCGTAATGGGATGCTTGAGGACTGATGGTGGCCCCTGGTGTAACGGGATGCTTGAGGACCGAGTGGCCCCTGG
Celera SNP ID:            hCV29041215
SNP Position Genomic:     39488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65780):
ATTGAGAACCATATTGTCCCGAACATTCTGGTGTCTTCTTATCTGTTTGCAAAAATTTCTCTGAAATATAAATCTAAGTGAAAAGTGCTGTATCCATATA
R
ACAAATGTTTCACTTGAATTGTTTTCTAAAGAGATTATATTAATGTATTAAGAGTTCCTGTTGATCCAAATCCTTTTTGACATTGGGTATTACTAGATTC
Celera SNP ID:            hCV2780426
SNP Position Genomic:     9153
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65781):
CACTGGGCGATGGATATAGGAGTTAATAATTTTATTTTCTCAGCTTTTATTTGTTTGGAGTTTCATATAATAAAAAGCCAAGAAAAATATTGAAGAGTCC
Y
CCAAAATGGCACTCTTCAAATAAGTGAAGAGGATTCTTTTTAGTTAGGTTTATTTATTTTGATGACAGGAATAATATCTATTTCAATAAAATACCGCGGG
Celera SNP ID:            hCV29041216
SNP Position Genomic:     43532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65782):
GCTTCTGTCCAAGCACAGCTGGGCCCTGCACTAGAGGTTCCTGGGCCGCCACCTGCCCAGTCAGAGGCTCTGCGGGGGGGTGGTGAGCACCCAGGAATCT
S
AGATGTGCTCCACTTCATCCCAATCTGGACCTACCATCTGTGTTCTTTGTGTCCCCAGAACTCATGAGCCTTGTGTCTGGGCTGCTGCAGCCAGTCCCTG
Celera SNP ID:            hCV25984083
SNP Position Genomic:     47936
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,1|G,31)   total(C,1|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:65783):
TGGCCTGTGTGCTGGTCGGGAAGGGCCATGGTGCTTCCCATGGGCGGGCTTGGCAAGCCTGCGCTGAGTGCCGTGGCGTCCTGATGCCTCCTCCTCCTCA
Y
AGCTACAGAGGGCCGGAGCTGGAGATGTGGTCTCTGGGAGTCACTCTGTACACGCTGGTCTTTGAGGAGAACCCCTTCTGTGAGCTGGAGGAGACCGTGG
Celera SNP ID:            hCV25984229
SNP Position Genomic:     47191
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,34|T,2)   total(C,65|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:65784):
TTCCACTAACACCTACATGTATTTTAGAGAGGTGTGGTTGGAATGCATCTCTAGGTGAGTTCATGGTTAGAGAGTCGGATGATCACAGCACTGCTTGGAC
Y
CTCCTGGCCCTCTGCTGCAGTGCTCTGCTGCACCGCCCATATCTGCTCCATGTGGTTCTCTAGGAGGGAAGCTGATGCTGCCCCCACAGGAGAGGCACAC
Celera SNP ID:            hCV27493567
SNP Position Genomic:     44148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65785):
TTTGCTTTTTTTCCCCCTTTCCATTTCATGTTAGTTACTTTTACAAAGAAACTTCTGTAACATTTACAATATATTCTGAATAGTTATATTACTTTTTTAT
Y
ATTTTATTTTTTGAGACAGGGTCTTGCTCTGTGGCCCAGGCTGGAGTGCAGTGGTGCTGTGTCCTCTCACTGCAGCCTCCGCCTCCTGGGCTGAAGCGAT
Celera SNP ID:            hCV2780427
SNP Position Genomic:     7839
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,2)      total(C,2|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65786):
CCTCACCAAGCCTTGCTCTTCTGTGCAAAATGAAAGTCATATTTATCTTGCTAGGTTGTTGTGAGGATTTGGGTTAAGCCATGTAAAATGCTGGTACAGC
R
TTGGCATCTCTAGGTACCCAATAGATGGTAGCATGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGCATGGATGAGGATGTTTACGGTGACAGG
Celera SNP ID:            hCV29041217
SNP Position Genomic:     46294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65787):
CATCCTGAAACTGGTTCTCCTTTTTGTTGTACAGCTGTGCTGACAGCAATGGGAGCTGTTTGCTTCTTAGCTTATGTTCTGGTGGGAGGGGGACAGTTGC
Y
TCTAGAAGTTCGCCGAGATGCTCCCTGCAAAGTTGTCCTTGCTTCTGTTTGGTCTGAGGTGGGGTCACTTGTGTCTTCTGGAATCAAAACTAGCAATGGG
Celera SNP ID:            hCV2780428
SNP Position Genomic:     7175
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65788):
TGGCCCAGGAGGATCCGCCGCCCGACTCTTAGACCAGCCCGACCCCGGGTCTCCCGCCCCTGCGCCCGTCGCCCTTCGCGCACCGCCGAGCCCGCGTCCT
Y
TCCGTGCCCAAATCGCGGCGGGGTTGCGGCCGTTGGCCCTGGGCCCCGCGCCCCCAGCGTCTTCGGGGTGCCCTTCAGTGTAGCCTGCCCGGTGGGCGCC
Celera SNP ID:            hCV2780429
SNP Position Genomic:     6242
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   ;(C,-|T,-)   WICGR7_african_american_pooled(C,48|T,52)   WICGR8_asian_pooled(C,34|T,49)   WICGR6_caucasian_pooled(T,44|C,51)   total(C,133|T,145)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65789):
ATGTAAAATGCTGGTACAGCATTGGCATCTCTAGGTACCCAATAGATGGTAGCATGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGCATGGAT
R
AGGATGTTTACGGTGACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGGCGACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGGTGACA
Celera SNP ID:            hCV29041218
SNP Position Genomic:     46374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65790):
GGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGCATGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGG
Y
GACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTAGCGTGGATGAGGATGTTTACGGTGACAGGAAATAAATGGTA
Celera SNP ID:            hCV29041219
SNP Position Genomic:     46429
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65791):
AGTTTATTAAGAAGGAGAAGGTCTTGGAGGATTGTTGGATTGAGGATCCCAAACTTGGGAAAGTTACTTTAGAGATCGCAATTCTATCCAGGGTGGAGCA
Y
GCCAATATCATCAAGGTGATGGTTTCCTCTTCAGAGATACCCTAACTTGGCTCATGTCAAATGTCTTCAATTTGTTGACTTGAAGATGTTTTGGTAGAGT
Celera SNP ID:            hCV25982918
SNP Position Genomic:     40169
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38|T,2)   total(C,73|T,3)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,20)   caucasian(C,19|T,1)   total(C,39|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65792):
TTCTCTTTCTACTTTTGTATATGTGCATGTTTTGTTTCCTCTGACTTGGTATATGCTCATCTGAGTGACGGATATGTGAAATTTGTAGAACTGGTTAGTC
M
AATGGCCAGACTATTTCATTAATTTATTTCCTCAAATGCTTTTCAAATTAAAGCACCTTTGTTAGTAAACAGTTATCCTGACTTGGATGTTGTGAACTGT
Celera SNP ID:            hCV11935570
SNP Position Genomic:     49320
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:65793):
ATCGCAATTCTATCCAGGGTGGAGCACGCCAATATCATCAAGGTGATGGTTTCCTCTTCAGAGATACCCTAACTTGGCTCATGTCAAATGTCTTCAATTT
K
TTGACTTGAAGATGTTTTGGTAGAGTTGGACTTGGCTTTGTCTCTTCCTAGGTATTGGATATATTTGAAAACCAAGGGTTCTTCCAGCTTGTGATGGAGA
Celera SNP ID:            hCV25983212
SNP Position Genomic:     40243
SNP Source:               Applera
Population(Allele,Count): african american(G,20|T,2)   caucasian(G,20)   total(G,40|T,2)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,40)   total(G,73|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65794):
GCACGGCTGACGGGGGGTTTGGGGGCCCTGAGATGAAGCGAGAGCGCTGACCAAAGCATTGGCAAGTGCTCCTGTACTTTACTGTTGGGCTTTTGGTAGC
R
TTCTCTGCAAAATCATTTCTAAATGTGGACTTAATTTGGAGAAATTTGAGACTAAGTGCTTTATTTTTTAACTTGGTCACAAAATTTGGTCTTTTTCTTG
Celera SNP ID:            hCV27915509
SNP Position Genomic:     27804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65795):
CCTAGAGGTGCTGCATGGGCCAGAACCAGTCCTATGGTATCTTTGGTTTGTGGGCTTCCCTCCCGACTTGAATCCTCCCTCTGTCCAGCCTCTGGGGTGG
R
CCTCAGGGCTGGGAACGGGCTGCTCGATGGCGCAAGGCCCAGCCTGACAGCCCTTGGAGGCTGGGGGTGCTGCCCTTGCCAGCCACGGGCAGCTTACTCA
Celera SNP ID:            hCV27514247
SNP Position Genomic:     36435
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,142|G,979)   total(G,979|A,142) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65796):
GGTCTTGCTTTTGGCTTGAACATATTGAAGCTTAGTTAAATTTACAGCTGGAGCACAAGAAGCTTTTATGATAAGCACGGGGCTTTTCCTCCAGGGCACC
R
TCACGTCATGTGACAGTCTCTTTGCTCATCTTCACGGGTACGTGTCTGGGGAGGACGTGGCTGGGCAGCATATCACAGACCTGATCCCTTCTGTGCAGCT
Celera SNP ID:            hCV9651966
SNP Position Genomic:     17391
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(A,16|G,22)   total(A,21|G,51)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;WICGR7_african_american_pooled(A,15|G,85)   WICGR8_asian_pooled(A,24|G,59)   WICGR6_caucasian_pooled(G,42|A,53)   total(G,186|A,92)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65797):
CAGTCCTGGAATGACTGAGAAAGTATGTTTAATGGTTAAGGTTTATTTACATACATAAAATATCCACAACAATCATAAAAATTAACCAGTAAGGGTTAGG
R
TGCAGCCAGAGAGCGTCTCAAAGGCATGTGTGCGGCACAGCGGCCTGCAGGTTGTAAGTGCCCACTAAATGGTGGCTGTTGAGGTAATTAACCAGCAAAA
Celera SNP ID:            hCV27514248
SNP Position Genomic:     40744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65798):
TTGCCAGTGGCGTGGCTGAGCCCCGAGCCTGAGCCCCACAGTCCTCCCTCCCTCCCTCCCTGCTGGTGCCCGGCCCCTCACTGGGGTGTCTCACTTGCCC
Y
GGGGTTGCTGTGCCTGGGGCGGCTCTGGACACTGAGTCCTCCCCACCCACAGAAGGGCTCTTTCCTGGGCCAGCTGGGCCTGGGAGGAGAGGGAAGGCAG
Celera SNP ID:            hCV9651967
SNP Position Genomic:     17973
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65799):
AGAGCAGCTCCTGGCCTGGGAGGAAGGCCCCACAGTCCTTCTGTCCTGGGTGCATGTCACTGTTCCGGCCACCAGTGAGCCGCGTGAGGTGAGGCTTGCA
R
ACACAGGCTCCCAGATCCATCTAAACATGGGGCCAAAGGCCAGATGTCTGCTCCAAAGATGTGTCGATGTCACTGTAACTTGCCGCAGAGTATGTTTTTA
Celera SNP ID:            hCV9651968
SNP Position Genomic:     19120
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   African American (pooled) - WICGR(A,2|G,98)   Asian (pooled) - WICGR(G,84)   Caucasian (pooled) - WICGR(A,3|G,93)   total(G,275|A,5)   (A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65800):
GATGTTTTGGTAGAGTTGGACTTGGCTTTGTCTCTTCCTAGGTATTGGATATATTTGAAAACCAAGGGTTCTTCCAGCTTGTGATGGAGAAGCACGGCTC
Y
GGCCTAGACCTCTTCGCTTTCATCGACCGCCACCCCAGGCTGGATGAGCCCCTGGCGAGCTACATCTTCCGACAAGTGAGAGCAGGCCAGAGCCGTGTTA
Celera SNP ID:            hCV25983798
SNP Position Genomic:     40354
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,40)   total(C,72|T,4)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65801):
GCGTGCGCCACCGTGCCTGGCCCGGAAAGAGCTTCTTTTAGCACCACTTTGGGTGGACCATTCTCCCATTGCGGGTTCTGACCCAGGATGGCGGTTGGTG
R
TGTATGTCTTTTGGGGCCGAGCTGAACTCAGCATTATAAATTAGTTGGTTAAACTGTCTTTGTGTTTTTGCATTGCAGATGTTAATCAGCTTCATGTTGT
Celera SNP ID:            hCV25984304
SNP Position Genomic:     12290
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,20)   caucasian(G,24)   total(A,2|G,44)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(G,38)   total(A,6|G,70)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65802):
GTTTACTAAAAGTCCAGACAGATGGTAGGTGAATGAGGAACAAGTCAGAGAGAAATGTTCAGCCTATTATTCATAGTAACATTGAAAACTCACATGTGTT
S
AGCACCTGCTCTCTTCCACACACACTGACTGCTGGGTTTTCTGTGCTGCCTGGCTGAGTCCTTATCAGCCTGTATGGGAGGGCACCATGGTGTTACTGTC
Celera SNP ID:            hCV15878066
SNP Position Genomic:     22725
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,318|G,1165)   total(G,1165|C,318) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65803):
TAGGGGTTTATGTTTGTGTGTGTTTTCTTTATTCTTGCTTGATACTTGGTAAGACTTTGATCTGAATATTTAAAGCTTCCGTTCTTTGGTTCCGTTAATT
S
TTTCCTTCTCCCTCCTCCTGACACTCATTTTAGGTGTGCATGGGCCCCCCTGGAGGAGCCTGCCCTCTTGTCTCCTTGGCCCTGCAGCTGGACAGGCCGC
Celera SNP ID:            hCV15878067
SNP Position Genomic:     37940
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,267|C,1190)   total(G,267|C,1190) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65804):
TTTCTTTATTCTTGCTTGATACTTGGTAAGACTTTGATCTGAATATTTAAAGCTTCCGTTCTTTGGTTCCGTTAATTCTTTCCTTCTCCCTCCTCCTGAC
R
CTCATTTTAGGTGTGCATGGGCCCCCCTGGAGGAGCCTGCCCTCTTGTCTCCTTGGCCCTGCAGCTGGACAGGCCGCAGGCCTCTTCACCTAGAGTGTCA
Celera SNP ID:            hCV15878068
SNP Position Genomic:     37963
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,171|A,1296)   total(G,171|A,1296) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65805):
GGCGCTGGGTTGGACCTGGGACGCCTGGGGTGGTGAGAGGTGGTCGATGCTGGTCATGCTGTGAAGCAGTCTCAGTGAGTTCCAGGCGAATGAGCAGATT
Y
GTTTTAGGGAGTGCCTGTGAAGAGCAAACGCTCTTTTTTGGTGTTGCTGCCAGATCCAAGGATTAATGTCGTGCTTGCTGGTGGCCACGTTGTGCCCCGA
Celera SNP ID:            hCV25985976
SNP Position Genomic:     22388
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65806):
CCGTGGGTAACACAGCCTGTGAATCTTGCTGACTATACATGGGAAGAGGTGTTTCGAGTAAACAAGCCAGGTGAGGCTTCTCAGCATCCCTCCACCCCAC
R
TGACTTCACTTGGAATAACGAGGTCCCCAGGCTGCCTTCCTAGGTCAAAAGGAGGAAAAGGAGGCTCTCTCCCCCATGCTGTCTTGGACACAAATGTCAG
Celera SNP ID:            hCV2780363
SNP Position Genomic:     48172
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,10)   caucasian(A,30|G,4)   total(A,52|G,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;(G,-|A,-)   JBIC-allele(G,655|A,826)   total(G,655|A,826)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65807):
CAGCCAGTCCCTGAGAGACGCACCACCTTGGAGAAGCTGGTGACAGACCCGTGGGTAACACAGCCTGTGAATCTTGCTGACTATACATGGGAAGAGGTGT
K
TCGAGTAAACAAGCCAGGTGAGGCTTCTCAGCATCCCTCCACCCCACATGACTTCACTTGGAATAACGAGGTCCCCAGGCTGCCTTCCTAGGTCAAAAGG
Celera SNP ID:            hCV2780364
SNP Position Genomic:     48124
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,24)   caucasian(G,4|T,32)   total(G,16|T,56)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,2)      total(G,2|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65808):
CACCCTTCAGGTATACAGTTTGAGGTGAGGCGGGTGGAGCTCCAGGGCCCCACACCTCTGTTCTGCTGCTGGCTGGTGAAAGACCTCCTCCACAGCCAAC
R
CGACTCAGCCGCCAGGACCCGCCTGTTCCTTGCCAGCCTGCCCGGCTCCACCCACTCTACCGCTGCTGAGCTCACCGGACCCAGCCTGGTGGAAGTGGGT
Celera SNP ID:            hCV25984166
SNP Position Genomic:     31429
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,37)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65809):
TGAACTCCAAGCTTTCATTTCAGAGGCAATGAATGTTTCCTGCAGCTTCTGTCCAAGCACAGCTGGGCCCTGCACTAGAGGTTCCTGGGCCGCCACCTGC
Y
CAGTCAGAGGCTCTGCGGGGGGGTGGTGAGCACCCAGGAATCTGAGATGTGCTCCACTTCATCCCAATCTGGACCTACCATCTGTGTTCTTTGTGTCCCC
Celera SNP ID:            hCV2780366
SNP Position Genomic:     47892
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65810):
GTATACAGTTTGAGGTGAGGCGGGTGGAGCTCCAGGGCCCCACACCTCTGTTCTGCTGCTGGCTGGTGAAAGACCTCCTCCACAGCCAACGCGACTCAGC
Y
GCCAGGACCCGCCTGTTCCTTGCCAGCCTGCCCGGCTCCACCCACTCTACCGCTGCTGAGCTCACCGGACCCAGCCTGGTGGAAGTGGGTATTTGCAATC
Celera SNP ID:            hCV15757080
SNP Position Genomic:     31439
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,36|T,2)   total(C,65|T,7)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,187|C,1310)   total(C,1310|T,187) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65811):
GTGTGCTGAGGCTGCTTGGGGTGCCCTGTGGAGATAGGCTTTCAGACCTGTCTGAGAGCATGGGAGGAGAGGGGACTGGAGTGCAGGGCACACCTGCCTC
K
GGCGGCTGCTGAAGACGCAGGGGGACCACTGTGGGTGCTGCACCTCTGCCCGGTGCAGTTGCATGTGACCCCACAGACCTTCTTCTGCATTGCAGGTGCT
Celera SNP ID:            hCV15757084
SNP Position Genomic:     32477
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,5)   caucasian(G,34|T,2)   total(G,65|T,7)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,170|G,1309)   total(G,1309|T,170) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65812):
AGGGGTTGGCGGCCTGTGAGGGCGAGTACTCCCAAAAGTACAGTACCATGAGCCCGCTGGGCAGTGGGGCCTTCGGCTTCGTGTGGACTGCTGTGGACAA
R
GAAAAAAACAAGGAGGTAACCTGGCTGTGGGGGGGGAGTGGCGCCGGGCACCACTTCACATGGCTCTCGACTTTTGGTCCCAGTTCTCAAACCTGGGGTT
Celera SNP ID:            hCV15757085
SNP Position Genomic:     32725
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,24)   caucasian(A,5|G,31)   total(A,19|G,55)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,332|G,419)   total(G,419|A,332)   (G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65813):
CAAAAGTACAGTACCATGAGCCCGCTGGGCAGTGGGGCCTTCGGCTTCGTGTGGACTGCTGTGGACAAGGAAAAAAACAAGGAGGTAACCTGGCTGTGGG
S
GGGGAGTGGCGCCGGGCACCACTTCACATGGCTCTCGACTTTTGGTCCCAGTTCTCAAACCTGGGGTTTTTGGAGGAGTCCTCTAGGTATGGCACCAAGC
Celera SNP ID:            hCV15757086
SNP Position Genomic:     32757
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,34)   caucasian(C,13|G,21)   total(C,17|G,55)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65814):
ATCCACGGCATCAACCACAGCTTCGCGCTGACACTGTTTGGTTACGGAAAGACGGAGCTCCTGGGCAAGGTGGGGCTGCCCTGGGCGCCTGGCTCCCGTT
Y
CCTGGGAGGAAGCTGCTGTGCTCTGCAGTGCGGGCTTGCGTGTGGCACAGGCCTCGCACCCGGCAAGCTCTCCAGCTCGCTCCTTTACCCAGGAAGGACC
Celera SNP ID:            hCV25985902
SNP Position Genomic:     18500
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,32)   total(C,63|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:65815):
GCCGCCAGGACCCGCCTGTTCCTTGCCAGCCTGCCCGGCTCCACCCACTCTACCGCTGCTGAGCTCACCGGACCCAGCCTGGTGGAAGTGGGTATTTGCA
R
TCAATGCCTGCCCTGGACTTGCCTTGTACTGTGTGGCAAATATCCTAGTTGGCATCTCTCTCTGTTTCCTTGGGGACGGGAATACAGTCTGTTTGTAGCT
Celera SNP ID:            hCV25985835
SNP Position Genomic:     31537
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,12)   caucasian(A,30|G,6)   total(A,46|G,18)
SNP Type:                 INTRON


Context             (SEQ ID NO:65816):
TGCTTTATTTTTTAACTTGGTCACAAAATTTGGTCTTTTTCTTGTTATAAATTGGTGGCATTAAATGCTTTGTACTTAGTTCTAATGGAGAATCGGTGCA
M
TCTCTCCTTTTGACTCATCTGTGGCCCTACATGATGGTCACCCATGTCATTATCCCCAGGGTGGACAATGTCCCAGAAGGAAGCCTGCCAGTGCACGGTG
Celera SNP ID:            hCV25982064
SNP Position Genomic:     27961
SNP Source:               Applera
Population(Allele,Count): african american(A,32|C,2)   caucasian(A,40)   total(A,72|C,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65817):
TCCGAAGTTTAGTTTCTCAGGCTCCTACTTGTAAGTTTCAGATATTATGGTTCTGCAAAAAAGGGTCACCTCTCTCCCTCTTCCTGTGTTGGAAGGTGAC
R
TCCTCCCTTTAGTTTGTGGCCAACACTTGTTTCTGAAACTTTTTACAGCAAACAGAGTATCTGTATGAGGTTATGTTGAGGGTCGCTTGTTAAAAGCTGC
Celera SNP ID:            hCV9651975
SNP Position Genomic:     41312
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65818):
GTTCTGCAAAAAAGGGTCACCTCTCTCCCTCTTCCTGTGTTGGAAGGTGACGTCCTCCCTTTAGTTTGTGGCCAACACTTGTTTCTGAAACTTTTTACAG
Y
AAACAGAGTATCTGTATGAGGTTATGTTGAGGGTCGCTTGTTAAAAGCTGCTGCCTGACAGCTGTTAATTCTGGGGCTAGTGAGACACATAATTATGGTG
Celera SNP ID:            hCV9651976
SNP Position Genomic:     41361
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65819):
TATGTGGCAAATATCTTCTCCCAAATTGTGGCTTGTTCTTTCGTTTTCTTTATGGTATTCTTTGTGAAGCTGTGTTCTCATTTTTTTTTTTCTTTTTTTT
K
GGGGGGACGGAGTCTCGCTGTGTCGCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCATTGCAACCTCCACCTGCCAGGTTGTGTCGCCAGGCTGGAGG
Celera SNP ID:            hCV26232138
SNP Position Genomic:     9532
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65820):
AATATGCAGGATGGAACTCTTAAGTATCTCCACTCTGCAGGGTGGTCACATGAATGTATACATGTGACAAGACTGCATGGAACACGTGCTCACATGCGCG
C
ACACACACACGCTCATGTACACATGTGCACACGCACACACACGCACGGACACACACGCACACCCACACACACACACACCTGCAGGTAAATGCCTTGAAAT
Celera SNP ID:            hCV26232139
SNP Position Genomic:     11312
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,5)   total(C,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65821):
CTGAGAAAGTATGTTTAATGGTTAAGGTTTATTTACATACATAAAATATCCACAACAATCATAAAAATTAACCAGTAAGGGTTAGGATGCAGCCAGAGAG
Y
GTCTCAAAGGCATGTGTGCGGCACAGCGGCCTGCAGGTTGTAAGTGCCCACTAAATGGTGGCTGTTGAGGTAATTAACCAGCAAAACTGAGATCCTGACA
Celera SNP ID:            hCV2780371
SNP Position Genomic:     40758
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,12)      total(C,12|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65822):
CCACCCCAGGCTGGATGAGCCCCTGGCGAGCTACATCTTCCGACAAGTGAGAGCAGGCCAGAGCCGTGTTAGTGTGAACGCAGGCCTGGGTGCCTGGGTC
Y
GGTGGCTGCAAAGATCAGTGATCCATACTCGGTTCTCTCTCTGAGCTGGATCTAGCCTTCTGTGTGGGGATTTCATGGAGTAGGATATATATTTTGAGAA
Celera SNP ID:            hCV2780372
SNP Position Genomic:     40484
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,7)   caucasian(C,32|T,6)   total(C,59|T,13)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;(T,-|C,-)   JBIC-allele(T,332|C,409)   total(C,409|T,332)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65823):
CAGATTCTGATGTGGTGGAGGCCCTCAGCGAGGAGCACATGGAGGCCGACGGCCACGCTGCGGTGGTGTTTGGCACGGTGGTGAGTGGATGCGGGTGCAG
Y
GTTCAGTCTGGCCTCAAGACCAGCAGTGTGTGGCAGGAACAGCTCAGTGTTCCCTACCAGGAGCTCTGCTGGGGGTTGGGTGGCACCAGGACATCTCAGC
Celera SNP ID:            hCV25983446
SNP Position Genomic:     15608
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65824):
TGTACACCACACAGCTTGGTGTACACGCTGGCCTGTTCCTTGGCCAGGCTGTCTGCCCTGCGCCGTGGGCCCCTGCCAGCCCCTGGGCTTTGCACTGGGG
R
CTCCTGAAGACTGGGAAGCAGAAACATTTTAAATGGATGACGTTTAGTTGGTCTCTTTTACCGTTTGTCACTTGTGTTTTGGTGTTATATCTAGGAAGAC
Celera SNP ID:            hCV2780374
SNP Position Genomic:     36738
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65825):
TATTGTTTCTGGATATTTCTGTGCTTTGTTATTTTCCCCTCTATTTTTCCTACTTTCTGTTGACTATATTTTATTATGTCATGTTTTTGTTTCTTGTTAG
Y
TTTTAATATTTCATCATGATTTTTGGCATCGGTATTGAGATATAGTTCACATACCATATAATTCACCCATTTAGAGTGAACAGTTCAGTAGATTTTAGTA
Celera SNP ID:            hCV2780376
SNP Position Genomic:     34086
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65826):
TGAGGTGTTTATACCGTTGATGTTTAATGAAATTACTGATATGGCTGGATTTAAATCTATAATCTAAATCTAGATGTTTTCTATTGTTTCTGGATATTTC
Y
GTGCTTTGTTATTTTCCCCTCTATTTTTCCTACTTTCTGTTGACTATATTTTATTATGTCATGTTTTTGTTTCTTGTTAGTTTTTAATATTTCATCATGA
Celera SNP ID:            hCV2780377
SNP Position Genomic:     34005
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65827):
CCATGAGCCCGCTGGGCAGTGGGGCCTTCGGCTTCGTGTGGACTGCTGTGGACAAGGAAAAAAACAAGGAGGTAACCTGGCTGTGGGGGGGGAGTGGCGC
Y
GGGCACCACTTCACATGGCTCTCGACTTTTGGTCCCAGTTCTCAAACCTGGGGTTTTTGGAGGAGTCCTCTAGGTATGGCACCAAGCACACAACCTGGCA
Celera SNP ID:            hCV15757090
SNP Position Genomic:     32770
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,32|T,2)   total(C,64|T,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65828):
CCCCTAGAAAATTAAGATTACGAATGTGTGTGCCTGGGGAGGGTGGCGCCCAAGGTCCCAGGCCACCTGCCCCATGCCCGTCAGTTCCAGCTGTGCCCCC
Y
GACTCAGGCCATACACTTAGAGAGCCGCTCCTCCCAGCAGCCTGGGGAGATCCCGTCGGGAGCAGGAGAAGCGTGGGGGTGTCACGCTAGAGTCTGTCTC
Celera SNP ID:            hCV2780378
SNP Position Genomic:     29529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65829):
GTCACCCATGTCATTATCCCCAGGGTGGACAATGTCCCAGAAGGAAGCCTGCCAGTGCACGGTGAACAGGCGCTGCCCAAGGACCAGCAAATCACTGCCT
Y
GGGGAGAGAGGAACCTGTGGCAATAGAGAGCCCCGGACAGGATCTTCTGGGAGAAAGCAGGTCTGAACCAGTGGATGTGAAGCCATTTGCTTCCTGCGAA
Celera SNP ID:            hCV2780379
SNP Position Genomic:     28098
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)   Caucasian(C,3|T,303)   Chinese(C,19|T,41)   Japanese(C,3|T,17)   Tfrican(C,0|T,100)      total(C,25|T,461) ;(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65830):
GGCCTGAGGCCAGGGCATTTGCTCGCAGTCACGCACGAGCTCCATGCCGTGCCTTGGGCTCTCGGGAGGGCCTCAGCATTGGGGAGAGGAGTGGCTGGGC
Y
CTGGATCCTGGTGTCTGCTTAGGCCATATTTCATTAGGAGGTGCAGGTTCCAGGCTGCACACCCTGAGTCCTCAGAGCCCAGCAGCCTCAGCCTGCGCCA
Celera SNP ID:            hCV27505151
SNP Position Genomic:     44384
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,662|T,801)   total(C,662|T,801) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65831):
GGGGAGGACGTGGCTGGGCAGCATATCACAGACCTGATCCCTTCTGTGCAGCTCCCTCCTTCTGGCCAGCACATCCCAAAGGTAGGGCTCCTGACCTCCC
R
CACTGTGTGATGGGGTGGAGTTCTTAGCTCTGAATCCATAACTGGAGACGCAGACCAAGGGTTTCTGAAGGCAAGGGTGGCCTTAGGGGTGGGACATGCT
Celera SNP ID:            hCV25982210
SNP Position Genomic:     17539
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,27)   caucasian(A,3|G,37)   total(A,10|G,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:65832):
TGGAGTGGGCCAGCTGAGCCTCTGCTCTGCTGTGGGGAGAAGCGGCGTCCTTGGGTGTGTGGCTGAGTTTGCATCTCTGCAGTCTGGGGAGCCTGTGAGT
Y
GGGGGCCGGCCTGGGCAGGGCCTCCTCTCGGGGGACTTTAGAGAGGAAAGCAAAACGGAAAGGAAGATTGTGGTTCATTTGTAGGGCCTGAGTGGAGACT
Celera SNP ID:            hCV15841233
SNP Position Genomic:     43846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65833):
AGCTGATGCTGCCCCCACAGGAGAGGCACACGGGGTCCCTCACAGACCTGCTGCACCTGACCTGGTGGCCTGAGGCCAGGGCATTTGCTCGCAGTCACGC
R
CGAGCTCCATGCCGTGCCTTGGGCTCTCGGGAGGGCCTCAGCATTGGGGAGAGGAGTGGCTGGGCTCTGGATCCTGGTGTCTGCTTAGGCCATATTTCAT
Celera SNP ID:            hCV27505152
SNP Position Genomic:     44318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65834):
CTGCTTGGACCCTCCTGGCCCTCTGCTGCAGTGCTCTGCTGCACCGCCCATATCTGCTCCATGTGGTTCTCTAGGAGGGAAGCTGATGCTGCCCCCACAG
R
AGAGGCACACGGGGTCCCTCACAGACCTGCTGCACCTGACCTGGTGGCCTGAGGCCAGGGCATTTGCTCGCAGTCACGCACGAGCTCCATGCCGTGCCTT
Celera SNP ID:            hCV27505153
SNP Position Genomic:     44238
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,493|G,606)   total(G,606|A,493) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65835):
GACGGAGTTTCACAGTGTTAGTCAGGATGGTCTCGATCTCCTCGATCTCCTGACCTCGTGATCCGCCCTCCTCAGCCTCCCAAAGTGCTGGGATGACAGG
Y
GTGCGCCACCGTGCCTGGCCCGGAAAGAGCTTCTTTTAGCACCACTTTGGGTGGACCATTCTCCCATTGCGGGTTCTGACCCAGGATGGCGGTTGGTGGT
Celera SNP ID:            hCV27855585
SNP Position Genomic:     12191
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,32)   total(C,65|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65836):
TCACAGCTACAGAGGGCCGGAGCTGGAGATGTGGTCTCTGGGAGTCACTCTGTACACGCTGGTCTTTGAGGAGAACCCCTTCTGTGAGCTGGAGGAGACC
R
TGGAGGCTGCCATACACCCGCCATACCTGGTGTCCAAAGGTGAGCGTGAGCTGCAAGTGGTAGACAGTCGACACTGTCCTTAGAGACCAGCCACTTTTTT
Celera SNP ID:            hCV25983669
SNP Position Genomic:     47288
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(G,36)   total(A,4|G,66)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65837):
ATATGCAGGATGGAACTCTTAAGTATCTCCACTCTGCAGGGTGGTCACATGAATGTATACATGTGACAAGACTGCATGGAACACGTGCTCACATGCGCGC
A
CACACACACGCTCATGTACACATGTGCACACGCACACACACGCACGGACACACACGCACACCCACACACACACACACCTGCAGGTAAATGCCTTGAAATC
Celera SNP ID:            hCV26232140
SNP Position Genomic:     11313
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5)   total(A,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65838):
TATGCAGGATGGAACTCTTAAGTATCTCCACTCTGCAGGGTGGTCACATGAATGTATACATGTGACAAGACTGCATGGAACACGTGCTCACATGCGCGCA
C
ACACACACGCTCATGTACACATGTGCACACGCACACACACGCACGGACACACACGCACACCCACACACACACACACCTGCAGGTAAATGCCTTGAAATCT
Celera SNP ID:            hCV26232141
SNP Position Genomic:     11314
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,5)   total(C,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65839):
ATGCAGGATGGAACTCTTAAGTATCTCCACTCTGCAGGGTGGTCACATGAATGTATACATGTGACAAGACTGCATGGAACACGTGCTCACATGCGCGCAC
A
CACACACGCTCATGTACACATGTGCACACGCACACACACGCACGGACACACACGCACACCCACACACACACACACCTGCAGGTAAATGCCTTGAAATCTG
Celera SNP ID:            hCV26232142
SNP Position Genomic:     11315
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5)   total(A,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65840):
GAAGGGCTTTGTTTCCTGTTTGCTTCCAATCATATCTTCAGCATTGAAAAATCTTTCCTGTCCCCAGTTCATTATGAGTCGGAGGTTTATTTTTTCTTTG
K
GTTTTTTTTTGTTCCAGTTTATTTTAAATGCATATTTTAGTTGAATTGCTTTTTTAAAAAGCCCCCTCTGGCCTCCTGATTCCAGCTAGTGTCAGCAGTG
Celera SNP ID:            hCV25984105
SNP Position Genomic:     42969
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,21)   caucasian(T,24)   total(G,7|T,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:65841):
AGCTGCTGAGCCCCAGACAGCCCCATGCCTCTGAGACAGGGCTGGGAGGAGCAGGAGCTACTGTCCCTCCAGAGGCTCAGGGGTGGTGGGGGGCGGAGTA
G
GGGGTGACTGTTTTCTGGTTTGATGTTCCTCTCTGTCTCGGGGGCTGTGACATATTCTTATAAACATATGAGCATAGAGAAGAGAATAGAAAACCCCCCA
Celera SNP ID:            hCV26232145
SNP Position Genomic:     19735
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,4)   total(G,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65842):
AAAAATGCCTCTTGGAGAAGTTATGCCGAACCACCCAACTGTCCTGGTCACAGAGCAGGCTTCTCTCGGCTTGGGGCTAGGGTTCTTTCTGGGGTCGTCC
T
TTTTTTTTTTTTTTTTTGAGACAGAGTTTCGCTCTTGTTGCTGAGGCTGGAGTGCAGTGGCACCATCTCGTCTCACTGCAACCTCTGCCTCCTGGGTTCA
Celera SNP ID:            hCV26232146
SNP Position Genomic:     21472
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65843):
AAAATGCCTCTTGGAGAAGTTATGCCGAACCACCCAACTGTCCTGGTCACAGAGCAGGCTTCTCTCGGCTTGGGGCTAGGGTTCTTTCTGGGGTCGTCCT
T
TTTTTTTTTTTTTTTTGAGACAGAGTTTCGCTCTTGTTGCTGAGGCTGGAGTGCAGTGGCACCATCTCGTCTCACTGCAACCTCTGCCTCCTGGGTTCAG
Celera SNP ID:            hCV26232147
SNP Position Genomic:     21473
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65844):
TCAGCTCCAGATTCATCAGGACCTGCTCAGCAGCGGGGTCGGGGAGCTGGGCCTGGGAACAGCCCTGGCTTGGTTCAGGCCGCTCCAGGGCAGCATGGCC
R
GTCCAGGGCACAGAAGCATCTGCAGGAAGAGCAGCTTTCTTCAAGTCGCTCTTTAGCCCTTTGTGGTTAATCTCTCAGTACTAGTTAATAAATCTTAATG
Celera SNP ID:            hCV9651986
SNP Position Genomic:     41720
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65845):
AGAACTGATGGAATCATAATTTTATCATTTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTAGACAGAGTCTCGCTGTGTCACCCAGGCTGGAGTGCAGTGG
Y
GCGATCTCAGCTCATTGCTCATTGCATTGCAAGCTCCGCCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGACTACAGGCGCC
Celera SNP ID:            hCV26232148
SNP Position Genomic:     22986
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65846):
TATATATGTAAGTATGTATGCATGCATGCTTGTATATGTGTATTTATGTGTGTACCTATGTACAAGTATATGTTATGTGTATAGGTATGCACACGTGTGT
R
TGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATATAAATATGCA
Celera SNP ID:            hCV9651987
SNP Position Genomic:     41995
SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(G,1|A,6)      total(G,1|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65847):
GTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGACTACAGGCGCCCGCCACCACGCCCGGTTACTTTTTTGTATTTTTTTTAGTTTCACCA
Y
GTTGGCCAGGATGGTCTCGATTTCCTGACTTTGTTATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTAATTTTATCATTTTCAAAGTCATATGAAGC
Celera SNP ID:            hCV26232149
SNP Position Genomic:     23133
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65848):
CTCAGCCCACAGACACCTGAGCAGAAGGAATGGGCTTTCCAGACTCTGCCAGAGCAGGACAGCGCTCTCTGGTAATGACCTTCGACCACTGCAGGCCTTA
K
CGCGTGGAAATACAAATGTGGAGTTGCTCTGTGTTCTCATGGAAACCCTCTCACCAGGGATTGAAGTCACTCTATTCCTGCAGAGAAAAGTTCGTGGTTT
Celera SNP ID:            hCV16165023
SNP Position Genomic:     12665
SNP Source:               Applera
Population(Allele,Count): african american(G,32|T,4)   caucasian(G,20|T,18)   total(G,52|T,22)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65849):
GCCCACAGACACCTGAGCAGAAGGAATGGGCTTTCCAGACTCTGCCAGAGCAGGACAGCGCTCTCTGGTAATGACCTTCGACCACTGCAGGCCTTAGCGC
R
TGGAAATACAAATGTGGAGTTGCTCTGTGTTCTCATGGAAACCCTCTCACCAGGGATTGAAGTCACTCTATTCCTGCAGAGAAAAGTTCGTGGTTTAAGT
Celera SNP ID:            hCV16165024
SNP Position Genomic:     12669
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,39)   total(A,1|G,77)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65850):
GGAACTCACCTTCACATTTCAGGGTCAAGTTACAACAAAATGTTATTTCTTACTTTAGAGTATGTGAGAACGCTGTTCTAGGTTAGGCTATTTTACTTAG
R
GAATTGCAGCTTTGCTCGTGCAGTTTACTGAGCTAAACGCGGTTTAGCTGGTGGACCAAGAATCATGGGGCAGAAGTCTGTTGGTGCCTCCTATGTCCAG
Celera SNP ID:            hCV16165025
SNP Position Genomic:     12970
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,122|G,1359)   total(G,1359|A,122) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65851):
GGTACAATCTCAGCTCACTGCAACCTCTGCCTCCCAGGCTCAAACCATTCTCCTGCCTCAGCCTCCAAGTAGCTGGGATTATAGGTGCCTGCCACCTCAC
Y
GGGCTAATTTTTGTATTTTTAGTAGAGACAGGACTTTGCCATGTTGGCCAGTCTGGTCTCGAACCTCCTGACCTCAAGTGATCTGCCCACCTCGGCCTCC
Celera SNP ID:            hCV2780380
SNP Position Genomic:     27333
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65852):
CAGGTGTGGGCCACTGTGCCCGATCCTGTCCTCTTTCTGAGCCTCTGGTATACCTTTATTAGGTTGCTGATGTTAACCTGTGTGTCTGTCCCCGAGTGAG
K
TGGTGCGGTCACATTCTGTGCATCTGGTGCCCAGTGTCAGTCTGTCATGTGGAGGCCAGTGGCTGGGCTGACAGGAGGCCTGGGTCCCTTGGCTCTGTGA
Celera SNP ID:            hCV2780381
SNP Position Genomic:     26945
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65853):
GTCTCCACGGGGGTCAGGTCCTGGTGCTTCCCCACTGGAGGACCTACGGTCCCTGGGGCTGCCCTGGGTTGAGGTCCCAGCAGCTCAAGGCCTGTGTGCA
S
TCGGCAGATCACATCCTTCATGCCCTGACTGCATGCTGGCCAGAACTGAGTGGCGTGGCGATGCCTGGCTGCCAGGGCAGCTGGAGGATGTCCTCATGTT
Celera SNP ID:            hCV2780382
SNP Position Genomic:     25691
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,8)      total(G,8|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65854):
CTCTGGCAGCTGTGTGAAGTCTAAAGCTTCGCTTCGCTTCTCTTTTCAGAAGACAGATGGAGCTCCTATTGTCTATCATCACTGGCTGCCCAGAATATTT
R
TACAAGTAAACTGCACTGCCCTGCTGCCCCTGAGCACACGGACCCGTCCGAACCGCGGGGCAGTGTGTCCTGCTGCTCCCTGCTGCGGGGACTGTCCTCA
Celera SNP ID:            hCV25983099
SNP Position Genomic:     14770
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65855):
TGTCTCCTTTAGTTCTCCTGGTAATCCTGGGAGTGTAGTCTGATTTTTAGCAAATGGATGCTGAAGCTGAGTGAATTGTTACACTGGGCATCAGGTCCTC
R
AAGAGACCCCAGGTGATGTGCTCAGACAGCAGGTGGGGGTCTCGGGTCTCCACGGGGGTCAGGTCCTGGTGCTTCCCCACTGGAGGACCTACGGTCCCTG
Celera SNP ID:            hCV2780383
SNP Position Genomic:     25545
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,8)      total(G,8|A,2) ;no_pop(G,-|A,-)   JBIC-allele(G,524|A,951)   total(G,524|A,951) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65856):
TATTTAAAAAATATGTAATAGATACATATAAAGTATGTATGTATGTTTAAAAATATGTAATGCATGGGCCAGGCGCGGTGGATCACGCCTATAATCCCAG
Y
ACTTTGGGAGGCTGAAGTGGGTGGATCATGAGGTCGGCAGATGGAGACCATCCTGGCTAACACGGTGCAACCCCGTCTCTACTAAAAATACAAAAAATTA
Celera SNP ID:            hCV2780384
SNP Position Genomic:     24059
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65857):
CAGAATCTTTTCTTATGCACAGCATGCAGTAAAGGTGCCCAAACTGTAGGTGCCCAGGTGGCCCAGGACCCTTTCTTGGCTGCCTGCAGACCCTGGGTCC
Y
TTCCTGCACTGTGCCCCCTACACCCTGCTGCCCTGGGTCAGGGCAGAGGTTAGACTGCCTGCCGTTGAGCCTGACGCATGCATTTCCTTCTGTCTGCCTT
Celera SNP ID:            hCV2780385
SNP Position Genomic:     23799
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65858):
CTTGTTTGCTTAGCCTCCCTGATTTTCCCTTTGCCACTGTGGGTCCGCGTTGAGTGGCGTGAGAGGGTAGCTGTTGGCTCTATTTGCTCTACTTCCACTG
Y
GAGTGGAACAGAGCAGGCGCTCAACACGTGAGTTTTCAATATTACTATGAATAATATTGCTGTGCGCACCTCTCCAGAGGTGCCACCAAGCTGAAGTGGG
Celera SNP ID:            hCV27487539
SNP Position Genomic:     24825
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,287|T,1000)   total(C,287|T,1000) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65859):
TGTTGCTGCCAGATCCAAGGATTAATGTCGTGCTTGCTGGTGGCCACGTTGTGCCCCGAGATGAGATCCGGAAGCTGATGGAAAGCCAAGACATCTTCAC
Y
GGGACTCAGACTGAGCTGATTGCTGGAGGCCAGCTCCTTTCCTGCCTCTCACCTCAGCCTGCTCCAGGGTAAGTCCCTTGGTGGGAGGTTGCAGGTTTAC
Celera SNP ID:            hCV2780386
SNP Position Genomic:     22530
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,36|T,2)   total(C,68|T,4)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65860):
ACCTGGAGGAGTGAGGCCACAGAGTTGGGGGGCCATGGCCGAGACTTCGGCTTCTATCCAGAGTCAGATGGGAGCTGTTGGAGGGTTGTCAGCCGATGAG
K
GCCGTGCTCTGACTTGGGTGTTAATAGGATCATGGTAGCTGGCTGCAGGTGTCCTGGGCCAAGGAGCAGGGAGACAGGAGGCAGAGAAGAGGGCGCTGGG
Celera SNP ID:            hCV2780387
SNP Position Genomic:     22196
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65861):
GAGAGACCTGGAGGAGTGAGGCCACAGAGTTGGGGGGCCATGGCCGAGACTTCGGCTTCTATCCAGAGTCAGATGGGAGCTGTTGGAGGGTTGTCAGCCG
R
TGAGGGCCGTGCTCTGACTTGGGTGTTAATAGGATCATGGTAGCTGGCTGCAGGTGTCCTGGGCCAAGGAGCAGGGAGACAGGAGGCAGAGAAGAGGGCG
Celera SNP ID:            hCV2780388
SNP Position Genomic:     22191
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65862):
TGGAGAGACCTGGAGGAGTGAGGCCACAGAGTTGGGGGGCCATGGCCGAGACTTCGGCTTCTATCCAGAGTCAGATGGGAGCTGTTGGAGGGTTGTCAGC
M
GATGAGGGCCGTGCTCTGACTTGGGTGTTAATAGGATCATGGTAGCTGGCTGCAGGTGTCCTGGGCCAAGGAGCAGGGAGACAGGAGGCAGAGAAGAGGG
Celera SNP ID:            hCV2780389
SNP Position Genomic:     22189
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,5)      total(A,2|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65863):
CCTGAGTGGAGACTGTCTGCTGACGTGCCCGATCACTGTCTCATCTGCCTGTAAACCAAATGTGTCTATGTGTATGAAATAGACTTTATTAAGTCAGAAA
Y
AGATAGCAGGTGTTTTCCACTAACACCTACATGTATTTTAGAGAGGTGTGGTTGGAATGCATCTCTAGGTGAGTTCATGGTTAGAGAGTCGGATGATCAC
Celera SNP ID:            hCV15841240
SNP Position Genomic:     44033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65864):
CAGGAGAGGCACACGGGGTCCCTCACAGACCTGCTGCACCTGACCTGGTGGCCTGAGGCCAGGGCATTTGCTCGCAGTCACGCACGAGCTCCATGCCGTG
Y
CTTGGGCTCTCGGGAGGGCCTCAGCATTGGGGAGAGGAGTGGCTGGGCTCTGGATCCTGGTGTCTGCTTAGGCCATATTTCATTAGGAGGTGCAGGTTCC
Celera SNP ID:            hCV15841241
SNP Position Genomic:     44335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65865):
TGCCCCGAGATGAGATCCGGAAGCTGATGGAAAGCCAAGACATCTTCACCGGGACTCAGACTGAGCTGATTGCTGGAGGCCAGCTCCTTTCCTGCCTCTC
M
CCTCAGCCTGCTCCAGGGTAAGTCCCTTGGTGGGAGGTTGCAGGTTTACTAAAAGTCCAGACAGATGGTAGGTGAATGAGGAACAAGTCAGAGAGAAATG
Celera SNP ID:            hCV25983891
SNP Position Genomic:     22581
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,5)   caucasian(A,38)   total(A,67|C,5)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65866):
TGTAATAGATACATATAAAGTATGTATGTATGTTTAAAAATATGTAATGCATGGGCCAGGCGCGGTGGATCACGCCTATAATCCCAGCACTTTGGGAGGC
Y
GAAGTGGGTGGATCATGAGGTCGGCAGATGGAGACCATCCTGGCTAACACGGTGCAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTG
Celera SNP ID:            hCV26232150
SNP Position Genomic:     24072
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65867):
GAGCTCTGATTGCGCCGCTGCAGTGAGCTCTGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACCCTGTCTGTCAGGAAAAGGCTGGCTTCT
R
CATGGTCGTCCTGGGCTGTTCTGGGCAGCTGGTGGAGCTGCTGGGGATGTCTGCATCCTTGCTCCTCTTTGTGATTCCTCAGATCCTGGTTGCTAACGAC
Celera SNP ID:            hCV11526820
SNP Position Genomic:     15334
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65868):
CCTATGTACAAGTATATGTTATGTGTATAGGTATGCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATAT
G
CAGGTATGTATATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAA
Celera SNP ID:            hCV26232152
SNP Position Genomic:     42049
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65869):
TATATGTTATGTGTATAGGTATGCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTAT
R
TATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATT
Celera SNP ID:            hCV26232153
SNP Position Genomic:     42061
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65870):
TGCATGTGCATATGTGTGCTCACATGTAACTGCTTCTGTTCCCTGAGCACGGCTGGGATTATACCATACACAGTGTCCTAAATGTGTGTGTATGTGTACG
Y
ACACACATGTCCTGCAGATCTTCCTCTACAGGCCTCCTCGGAACCGAAGCCTCCTGGATGGCACCCTAGCTCATGGGCCACTTTCCCACTGGCCGATGTG
Celera SNP ID:            hCV11526823
SNP Position Genomic:     24612
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65871):
CAGCTGCACAGACCACTGCTGAGCCCAGCAGGTCGTTTTCCTCAGCCCACAGACACCTGAGCAGAAGGAATGGGCTTTCCAGACTCTGCCAGAGCAGGAC
R
GCGCTCTCTGGTAATGACCTTCGACCACTGCAGGCCTTAGCGCGTGGAAATACAAATGTGGAGTTGCTCTGTGTTCTCATGGAAACCCTCTCACCAGGGA
Celera SNP ID:            hCV25982157
SNP Position Genomic:     12625
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,16)   caucasian(A,18|G,18)   total(A,36|G,34)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,18)   caucasian(A,18|G,22)   total(A,36|G,40)   
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65872):
TGTTATGTGTATAGGTATGCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATATAT
A
AATATGCAGGTATGTATATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATTTATT
Celera SNP ID:            hCV26232154
SNP Position Genomic:     42065
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65873):
CGGTGCTTTCTCTTGTTTGCTTAGCCTCCCTGATTTTCCCTTTGCCACTGTGGGTCCGCGTTGAGTGGCGTGAGAGGGTAGCTGTTGGCTCTATTTGCTC
Y
ACTTCCACTGCGAGTGGAACAGAGCAGGCGCTCAACACGTGAGTTTTCAATATTACTATGAATAATATTGCTGTGCGCACCTCTCCAGAGGTGCCACCAA
Celera SNP ID:            hCV11526824
SNP Position Genomic:     24814
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65874):
TATGTGTATAGGTATGCACACGTGTGTATGCAGGTGTGTATATATGTGCACATGTATGTATCTAAATGTATGTATAAATATGCAGGTATGTATATATAAA
T
ATGCAGGTATGTATATATAAATATGCAGGTATGTATATATAAATATGCAGGTATGTATATGTTTGTATATATGTGTATAAATATGCGTATATTTATTAAA
Celera SNP ID:            hCV26232155
SNP Position Genomic:     42068
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Gene Number:                 416
Celera Gene:                 hCG34615 - 208000044408199
Gene Symbol:                 FLJ21977
Protein Name:                hypothetical protein FLJ21977
Celera Genomic Axis:         GA_x5YUV32W5TR(1436424..1485610)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12576):
TCTTTTCTTTTCCTTTCTTTTTTTTTGAGATGGCGTCTCGCTCTGTCGCCCAGGCCGGAGTGCGGTGGCGTGATCTCAGCTCACTGCAACCTCTACCTCC
TGGGTTCAAGCAATTCTTCCGCCTCAGCCTCCCAAGTAGCTGGGACTATAGGTGCGTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGG
GTTTCACCGTATTGGCCAGGCTGGTCTCGAACTCCTGACCTTGTGAGCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCCACCATGC
CCGGCCATATTTTTGTTTTTTTTTTTTTAAAGAGACAGGGTTTAACCATGTTGCCCAGGCTGATCTCAAATTCCTGAGCTCAAGTGATCCTCCCATCTCA
GCCTCCCAAAGTGCTGGGGTTACAGGCTTGGACCACTATGCCCGGCCAATCCTTTATCTTTCCTGCTTCCTTTTTATTTCTGGACTAATCACTATCCCTG
GACCCTGCTCTGGGGCAGATTCTCACCTTTAGCCTCCATGAGGAGGTCAGTTCTCCTACTCCTTCTGGTCTCAGGGAGACCCCAGGTCTCGCCCACACCA
ACCCAGGGACCCAGAAGGGCAGGGCGGGGCAGGGCTCTCACCACAGGCTTTCCCAGCTGAGTCCAGCAACACACTCTGCACAGTGGCCTTTGTGAGGACA
GCGCCCCCAGCCCGCTGAATCACAGGGATGGTGTGGAAGGCAATTTCACTGGAACCCCCTCGGGGATAAAAGCCTCCTTTCATGTAGTGGTTGACCAGCA
GGGCGTGCATGGAAAAGGCACTGTGGTTGGGGGTGACACCTGCAGAAGCAAGGAAGGGTGGTGAGCTGGCAAGAGAAGGCACCAGCACCATTCAGAAAGG
AACGTGGAATTCTGTGAGATAACACACAGCCCAGTCTATCCGAGGAACCACATGTTCCTCAGGGTCCAAGGCAGCCAGAGGAGCCTTTCCATCTAGACAT
GGGGTACCTTAGAGATCTTGGCGCCAGTAGGAATACCCCCCCTGCAAACTGCCATGCTGCCAAGACCAAGGAGGATAGTGTTGCTTGAATTGAAAAATCA
TCCAAGGCATGGATGAACAGAATTTTGACCAAGGAGTCCAGCAGGTGGCCAGACTTCTCATCCACAAGCTCCAGAGGGCCTGGGGTTTACACTGCTCCAT
ATCAGTCAGCCAGGCAGGGTCGAGAAGAAAGATTGAGAGATGAGAGGGCAGCCGTTCCTCCTCCAGAAGCTGCCCAGAGCCCAGGCCCAGTACCCACCGT
AAGTGGGGAAGATGTAGCTGAGTACTGCCTGGAGCTCAGAGGAGGCCCCCAGCTGCTGCAGGACCTCAGCCAGGCTCTGGGTGGATGCTTGAAGGAATGG
AGAGAAACGAGTCAGCAGCCCACACCTGTCGAGGAGCTGAACCACGGGCAATGGGAGGAATTTCAACAGGATGGCATGAGGGGCTCCACTGGATACCACC
TGGGGGAGTGAATGAGGACAGCAGGCCTCACCTCTAGAACCGCTTTGACAGAACTGCTATCCCCATAGCCTGGACCAGCCCAAGAATCCAGCAACACTTA
CCCCTGACTGAACTTTGCTGAATTTGAATATTTTTAAAAAATCTATACTCTGTGAATTTTTCCCATCCTACACTCGGATGAGTCCTTTTTTTGCTTTTAA
TTTTCCTGCTCAAATTCCTTTTCAAAAATCCCAATCTGGTCTCGGATGCAGTAAAAAGGAGTAGTGATCTGATGTCATGGAAGCCAGCCTAGTCAGGGAG
GAGAGCAGGGCATCCCCAGAGGCCAGGGTGACAGCAGCAGCCGTGGAGCCAAGGCTCCAGAGAGAGAGAGACAGAGAACTGGATGGACTTGGGTGGAGGC
TGAGCTAAGAACAGATGTGACTCTTCCTCCCTTCCTGCCTCCCGCACTGCACTCTCCACCCCCAGTGCCTCCACTAATAATAAAGAAACCCAGCCTTATC
GAGAACAAACTCTGGGTCCTCAGCATGTCCATGTTACCTTAACCAGCTTTATATACTTGTCAATGATAGCTTCCTCCTGTGGAAACTTCTCCTTGAGGCC
CTGAATGTAGGCTTTCTCTCCACTGTACATGGGGTACTCCTTTCGGCCATTGGGCCCTTCCAGTACCATGATGTCAAAAGGAGAGGACAGGGGAGCCCAG
TCCAGCTGCCCTTCAGTGATCTGGTCCAAGATAAAACGGCCAATGCTGCCCTCTTCCATACGCCCAATGTAATGGATTCCTGTTGGGAGATGGAAAAACA
AGGTAGTAAAGGGATATGGGGATTGAGCCCTGGAAAGGTGGCTGAGGAAGTGAGGTGGAAGAGTTTATCTGGCCTGGCCAAGTTCACGCCCAGAGTGAGC
TGCTCACTCTGTCTGTAGGGAGGTGTCACAGCAGAAACCGCCAGATCGCTGCCCGATTCAACTCCCAGTAGCTATGCTGTCACATAAGAAAACTGCCCAG
AGGCTGGGCACGGTGGCTCACACCCATAATCCCAACACTTTGGGAGGCAGAGGGAGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGACAACA
TGGAGAAACCCCATCTCTACTAAAATACAAAAAAATTAGCGGGGTGTGGTGGCCCACTTGGTGGGATTACTGAGTGTAATCCCAGCCACTCGGGAGACTG
AGGCATGAGAATCACGAACTCAGGAGGCAGAGGTTACAGTAAGCTGGGATCACACCACTGCGCTCCAGCCTGGGTGATGAAGTGAGACTCTGTCTGAAAC
AAACAAAGAAAAAAAGTACCCAGAGAGAAGATGGCACTTCCAAAACAACAGAAATGCTCAGTATCACCCCACAAGGGCTGCTCCAAGCCTCTTCAACATA
CAGCCATGCTCCCAACCCTTTTCCACACAAGCCTTACCTGTGTCAAATTCAAGGCCATTCTTTCCAAAGGTATGACAGCAGCCCCCTGCCTTGGTATGTT
GTTCCAGCACCAGGACTCGCTTGCCAGCTTTAGCTAGAATTGCAGCTGCAGCCAGGCCCCCAAAGCCACTGCCAATTACCACCACATCCAGCTTCTCCGG
CACTTGGTTGGCTGAAAAAGCTACAGCAGAAGGGCCAAAGGGTGGGTTTCTCAGGCAGGGGCAGGGAAATAGCAAAGATAGGGAAACCAAAGAAGACTTC
TCTAGCTTGTACAGTGCAAGAAACCTCTAGAGTGGTTTGGCACAGAACTCTTGACTAACATGTTTCAAACATTTTACCTGGGAATACTCAGAACCAGCCA
GGCAGATTTGGGGTTTTGCTTATTTGTTTTTTGAGACAAGGTCTCACTATGGCCCAGGATGAAGTGCAGTGATGTGATCACAGCTCACTGCAGCCTTGAA
CTCCTGGCCTCAAGCAATCCTCCTGCCTCTGGTTCCCGAGTAGCTGGGACTACAGGTGCATGCCACCATGCCGGGCCATTTTATTTTTATTTTTATTTTT
ATGTGTTTAATTATTTTTTAAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCCGCTTACTGCAAGCTCCGCCTCCTGGGTTC
ACATCATTCTCCTGCTTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCACCACCACGCCCGGCTAATTTTTTTTTTTAATATTTTTTAGTAGAGATGG
GGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACATGCATGAGCCACCGCG
CCCCGCCTATTTTATGTTTTATAGAGCCAAAGTCTTGCTATGTTGCCCAGGCTGATCTTGAACTCCTGGCCTCAAGTGATCCACCCACCTCGGCCTCCCA
AATTGCTGGGATTACAGGCATGAGCCAACACACCAGCCCACAAGCCGGGTTTCTTTGGAAGATGCAGGGTCTGCAAGCAATAGTGGAATAGCTGGGTCTT
ATGGTGGCTCTTCCAGGTCCTGATGAAAAGGCTTGGGCAGGACAGAACTGCTCAGAGGCTGCAGCTCTGAGAAATCACAGCACCAGCCCCTCCCATAGGG
AAGGTCTGGGGGCAGTGCTGAGGGAGGCAGCACCTTCTCAGAAGACAAAACTGGATAGCAAGTGGTGCTATATGGGTACTTCCGACACAAGATCTGTTCT
TTAACAATCACTGGCAAAGAACTGAGATCTGGGATGTTTCAAGATACAAGAGAACTTGGCAAACTGCTTATTTTTTTAATGTTTTTAGAGAGATCAATAG
TAAAAAAAAATTTCACATGTAAGTATATAAGATAAATACATGAAACAAGTGTCACAATGCAATACTTAGTGGAACTATGTATAATGCACTCTGATATTTT
CTATTCTACTGCATTCTAAAATACTAGTTGTGGCCAGGCGTGATGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGCGGATCGCTTGAG
GCCAGGAGTTCGAGAGCCTTGACAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGCCCACTACTCGGGAGGCTGAGGCAGG
ATAATCACTTGAACCCAGGAGGCGGAAGTTGCGGTGAGCGGAGATCGCGCCACTGCACTCTAGCATGGACAATAGAGCGAGACTCTGTTTCAATAAATAA
ATAAATAATGCCAGTTGCAACTCACTAAATTGATTTCATAGCCCACTAATAGATCACAATCCGGTTTGAAAAGCAGTTAAGCTAGTCATCTCATTTTTAG
ACCAGCCCAGGTAGGTGCTAATGGTTATGCAGCAAATTAGTGACAGAGTCCAAGCTAAAACTCAGTTCTCAGAAGTCCAGATGATTAGTCCTTCCACTTA
GAACAGTACTGTCTCCGATTGTGTAGCAAGATATGACACGGAGAATTCTAAAATTTACAAGTGAGAGGGACTCCGTAGATCAAACAGGTGATCCATTATT
TTTTAAAGCAGCAGAACTCTTTAAACTCTAGAAGCAACCACAAAATATGTTTTAAAGATGAGAGTGGAGAGCAGGCTCTGAGCCTGAGGCGCCTTGTTGA
ACCTCTGCCAATGTTTCAGAACTAGGGTTCAATCCTTACGATTTGGGACCATGCAAAGCCTGTTAAATCACCGGACGGGCAAAACGCAATTTCCTACGCA
TTTCTGTGCTGCTCCCCCACACCCCTGAGCTCGCATGGGAGGGTAGGTGAAAAAGTTAAGGTCCTGGAACCAAGTGGAGGAATGAGTCACGGGGATTATC
AGTTCCACGAGCCACGGGGATTACAAGTGGCAGGGCGGGTGCCAACACCTTGCAAACCAAGGACAATGACCACACCCTTGGGACTACTATTCCCGGGGCC
TACTAGGGCAAAGGCTATCGACAGTGTTGCACACTAAAGCGGGGCTCCTCCACGTGCAAGGAAGCCCTCCTAGTACTTTACATATGGGGAAACTAAGGCC
CACGTCTGGTAGCGGCTGCCTTGGCAAAATGAGAACCCAAATCTGTGAGAAAGCCTCGAGTGCAGCCCCGGACCCCAGGGTCCCTCCTGCTACCTTGTTT
GAGAACCTTCTTCCTGGCCTCCTTGTCAGTTACCAGGGGCGCTGGGGGCCGTTTGACATCTTCGGAGAAAGGATTCGGGGAGCTGCCAGAGAATAGTCCC
AAGTAAACTTTGCAGAGGACGGCCAGCAGCAGCACAGCCAGGAGCAGCACCAGCGGAAGCCACATCACGCCGGCGTCGGGTCGGGTAAATGGGACAGCTC
CGACTGCGCTCAGCCTCTAGGACTGTGGCTCCGCCCGGGCTAGTTCGCTCTCCAGTCAGGAGGCGGAGGCAGCTTTGAGCACTGATTAACCAGCCAGCCA
GCGAAGAGCCAACTCTCAGGTGATGATTGACCCTCCCGGCTCTCCGTACTTCTTTTGGGTTTCCATTGCCTACTGGGAAATGTAGTTCTCGGGGCCAGGG
GAGCCGGCACGGAAGCGGCTGTGCGCATGAGCAGATGAGGCCTAGCCGAGGCGGCGGGACCCCCAAGTTTGGAAAGCTCTKTTAACGGTGAGAACGCGTT
AACACTTGCCAAGGGGAGTGGTTGGTGCCTGTGCGGAGCTAGCAGCCGGCCTGAGGAGGGAGGGAGAATGTGATCCGGTGGAAATTATCACTATGGGGCG
AGACAAGGCCGAGAGTTGTAAGACTGAAAGAGARTCCCGACTGGGAGACAGGAGTCCTGAGTTCTGGTCCTGGCTCTGCCCTGGACTCGCTGCCTTGAGG
TGTTAAATTGCTTTCCTCGTCTTACGCCTCCAGGCTATGCGAAAGTTCTGTCCAAAGGCTGCTCACAGCCCCTGTCTGACTGGTTGTCATGATGAATTGA
GCTCTCTGTTACCTGCGCATCACAACCGGTGAGCGTCTGTCTCTGTGCCCCTCAAAGTGGCCCATAGTTTTGTCCTGGGGGCCCGCCTGGGACGGAGTCC
TCTATGGCGGGTCCCTAATGACACCCCATCCGTGGGGAACCTGGGGGACGGGGAGCCGCCCATGGACAAGCATGGTGAAAGGATCAGCTAAGGGCCCATC
TAATTTAAATTCCTATGCAGAGAATCTAACCTCCAGCAAGCAGTTGAAGAATCATACCCCCTCCTTGCCTAAAGAGGGTGCATAATGAATACTTGATTGG
AGAAGGATCCATTTTTACAGGAAGGCCGTTTCCTTAGGTCCAACTATCAGGAATTTGCCTTTGAGTACTTCCTTGTTTAATGGAATTGTTGCTCTTTTCT
TCTCTGCTACAGATAGTAACTGTCCCTACTGAAGGCCCCAGGAGTGCTCCAGCCAGGTGTGGAAAGCTGGTCACGATTCTATGCTACTTGGTTCATTTTC
TACACAGCAACAGAAGAGCCCTCCTGAGATTGCTATTACCATACCCGCCTGTCACCTTGCCAAGGCTGGCCAATGTGTGTTTTGTCATAGGCTGTCATGG
AGGCCATGATGGAGGAAAAGGAAAGGGGAGGCAGATGTTGAGGCCCCAGAGGCCACAGTGAGAGCAGTTTAGTTCCTGGGGTGCCAGGACTAAGGGGGCA
TTGCCCTGTCCCCCGGATTACAGTGAGCCACATGTCAAGCCCAAGAGCCAGGAGGTATTCTTCCTCTCAGTGTTAATAATCAAAGCATCCTGACACCAGC
AGCCAGTTTTTATGGCATCCTGGAGGGCTGACCTCATAGAGAGGCTACCCTCCTTCCTTAGTCACCCAAAGTTGTGAACTATGATTGTCAGTTGTGTGTG
GGCCATCTGCCCACTTAGGATGCAATTTTTGATGTGACAGACATTCCGGATGTCCAATTCCCCTGTGATGAGGTATGAGCCTTGTCCAGCCCTTTTCCTG
AGGGAAGCAATGTCAGATGAAAGACTTAGAATTGCCCAAACTGGCTAGCCAGCTGCCACATGCACAGTATTGCTGATAACTGAGAAAGGTTAGAACATCG
TGTTGCATTTTGAATTTCTACCATTGTTGGAACCAGGTCTAGTATTATAAGCCCCTGACCCAGCCTGTGTGTGAGGCCTARACAAAGCCTGAGCACTTCA
GCTAAGACCACCCACCAAGGTGACACCTTTAGCCTCACGCCTTTGATAAGCTGGCCCAGGTCCCAGTAACTCCATTGTCAGAAACAGACCCCATCCCTTC
TAGTGGTGCTGCTGCCTTTTGGACACAGAATCCAGCTCACAGTCCCCTGTGTGGTCCCCTTTTGGCCATCCTGTGGCTTGGGTAGTAAGAGGTAAGCATT
TGGCTGAGGCAAGTTGTTCATTCAGAATAAATTCACAGCTGCTTAAATTTTGTCAACAGGCCGAGCGTGTTGGCTCATGCCTGTAATCCCAGCACTTTGG
AAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGTTCAAGACCAGCCTAACCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCAGGGTG
TGGTGGCRCACGCCTGTAATTCCAGCTACTCGGGAGACTGGGACAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCACGGC
TGCACTCCAGCCTGGGCAACAGGGCAAGACTCCAACTCAAAAAAAAAAAAAAATTGTCAACAGAGGCATAACTGAATGGTGAAACCAGTTTTCTTTTTCA
ATTTCTTTTTTTTCTTTTGTGCAGAGCTGAGGCTTCGAAGACCTCAGAGGACTTCTCTCAGCACTCACAGAAACCTCCTACACCCTCGGATGGCACAAAG
GGACTGTTTTCTTACTCTTAGTCTGAGTGACTGCCAAGGAAGGCAAAGGTAGAGCAACTGGATCTCTGGCTCTCCACATAGCTTCTGATCTCAGACCTTA
CTAAAATGCTTTCTGGGCCCAAGGACAAAGCTCACATGAACAAATGATTTTGAGTCATGAATGAAAAATCTTGCTCTTTCCATAGTAAAGAAGAATTAAG
AGATGGACAGGTAAGCATGCACTCTTATTTGGGAAAGGTGGTGTTGGTTTGAGATATATCATTAAGTATAGTAAGAATATATTAAGAGAATATTTGGAAA
AATTTAGAAACCCTCATTATAGTTCTCTTTGTTCTGTAAGAAGGAGCTTCTATTCACCTCAGGGTCAATTGCTTTTCCTAATAGCTTGTTTTGTAAGTGA
GTTATGAGATTTTTGTTTTCTTTTTGCTTGGGTAGTGGGGAGAATTTCATTGAGGAATCACCCAAGAAATCTGTATTTCATTGATTTGGATCATTACCTT
ACTAGCCTCTTCCCTGTGAAACGCTTGCTTTGGCCTGATCATCCTCAGGACTCAGTTCAATGTGATATGTCTTTGTATGAGCCGGGCAGCTAACCCTACA
TGCCTTACCTTTCACACTACTTTGCCCACCCAAAAATGGTCTTAAATGGAGGCTGTGGGATTCAGTGGCCAGACTGGGACAAAGCCTTTGCTTTGGGTCT
CCAGAAAGATTTTCTTCACTGTAGTAATATGCGAACTGTTCCAAAGAGGGAAGTCTTTGGACACTGGAGGGGACTGAATTGGAGAAGGAAAGGAAGGATG
AAATGAATCTCAGGTACACAGATGCCTGCAGGAAGTTGTTCAGCACAATGAATCACCAAATATTTTAGAGATAAAATTTCAACAAAAATTTGAGAAATAT
ATTTTGTGCTTAGTACTGTGCCAATGGTTGTGAAACATATAAAAGAAATATAAGAGCCTGGAGGCAGTGGCTCACGCCTGTAATCCCAACACTTTGGGAG
GCTGAGGTGGGCAGATCACTTGAGGTCGGGAGTTGGAGACCAGCCTGGCTAACATGATGAAACCCTGTCTTTACTAAAAATACAAAATTATCTGGGCATG
GTGGTGCATGCCTGTAATCCCAGCTACTCAGGAAGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGGGATCACACCATTG
CACTCCAGCCTGGGTGACCAAGTGAGACTCTGTCTCCAAAAAAAAAAAAAAAAAAAATGAAAAAAGAAATATAAGAGAAGGTCCTTATGCAGGCCTTTTG
CAGAGGAACTTTTGCTGCATACAAGGGTTACTGGACTTAGAGGTGTGAGACAGCATTGTAGCCCCAGCTAGTAAGGTAGGTTGCCTTGAGTAGGTGGAAC
TGACCTTGATCAGAGAAGAGAGTGGAGGTGTATTCTGGAGGAAAACTACATGAACAAAGGGATGGAAGTGAGGAGAGGGATCTGCAGCAGGTGTGTTGAT
TGCATTACAGTGGGAAATAAATGCTTAGCCATCATGAGCTCCTTTACCAGGGAGCTTGGTCAGCTGTGAGGTGTTTTGGCCTCCATCCTTGCATCTGGAA
CATGAAGAAATGAAAGTTGTGTTTAATGAGCATTAGTTGGAAAGGCAAAAAAAAAAAGCAGAAGGATTAGAGTAACAGGATGATCTGGGATTCCAGGGCC
TTGGCATAATACATTCACATGGTTCAAAATGCAAAAAGTACAGAACGATATATGTATTGTGAAGAAACCACCTTCCACCCTTGTCCCCCCAGCCACTCAG
TTTTTCTGCTGGAGACAAAGCTACTGCTTCCTTGGGTATAACTGTGAAAATGGTCTCTGCAGAGACAAGCAAATGTGCTTATGTACTTTTAAAAAATAAA
ATGGTAAAATAGTGTATAGACTCTGTCCTTTGCTTTTTCACTTAATACATCACGGAAATTGTCCCATATTGCCTGTAAAGTAAAGCACTTTCTCATTTGT
CTTTATGGCCATATAGTATCTCACTGAGTGAATGTGCTTTTATTTATGTAAATCAGCCCATTAATGAACATTTAGGTTTTTCCAGCCTTTCCCTATTATA
AACAGTATGACAAAGAATCACACTATAAATGTAAACATGTCGGTTTTGCACATGGATGAATATATCTGTTAGATAAATTACTAGAATGCAGTATCAGGCC
CCGCATGTACAAAACATGTATGATTTCATTAGGTACTATCAAGCTGTAGAGGTGGTAACAGTTTACTCTCCAGTGTGTTATGCACTCTGGCCAATGTACA
TGTTATCAGACTTTTTGATCTTTGATAATCTGACTAATGAAACACAGTAGTTTTACATGACTCTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTC
TGTTGCCCAGGCTGGAGTGCAATGACGCGATCTCGGCTCACTGCACCCTCCGCCTCCCAGGTTCAAATGATTCTCCTGCCTCAGCCTTTCGAGTAGCTGG
GATCACAGGTGTGCACCACCACGCCCGGTGTGCTAAAAATACAAAAAAAATACTTTTTTGTATTTTTAGTAGAAACAGGGTTTCACCATGTTGGCCAGGC
TGGTCTTGAACTCCAGACCTCAGGTGATCCACCCACCACAGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACGGTGCCTGGTGACGTTTTTCTGTT
TTGCTTTTTTTTGTTTTGTTTTGTTTTAATGAGTGAGGTTGAACATTTGTTCATATGTTTAAAACCAATTTGTGATTGTGCAGGATGGCTCGTGTCTGTA
ATCCCAGCACTTTGGGATGTCAAGGTGGCTTGAGCCCAGGAATTTGAGACCAGCCTGGGCAACCATATGTAGACCCCATGGCTACATGGGCATGGTGGTG
TGCACCTGTGGTCCCAGCTGCTTGGAATGCTGAGGTGGGAGAATCCCTTGAGCCAAGAAGTGAGTGAGCCATGATCGTGCCACTATGCCCCAAGTGGGGC
AACAGCGCGAGACTCTATCTCAAAAAAACCCACATGGAGAAACCCCGTCTCTACTAAAAATACTCTACTAAAAATTAGCAGGGCGTGGTGGCGCATGCCT
GTAATCCCAGCTACTCAGGAGTCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCATAGGTTGAGGTGAGCCGAGATTGCACCATTGCACTCCAGCCTGG
GCAACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAGCCACNNNNNNNNNNNNNNNNNNNNTAAATTACTAGAATGCAGTTTCAGGCCCCGC
ATGTACAAAACATGTATGATTTCATTTGGTACTTTCAAGCTGTAGAGGTGGTAACAGTTTACTCTTCAGTGTGTTTTGCACTCTGGCCAATGTACATGTT
ATCAGATTTTTTGATTTTTGATAATCTGACTAATGAAACACAGAAGTTTTACATGACTCTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTT
GCCCAGGCTGGAGTGCGGTGGCGTAATCTCAGCTCGCTGCAACTTCCACCTCCCAGGTTGAAGCCATTCTCGTGCCTCAGCCACCTGAGTAGCTGAGATT
ACAGGCATGTGCCACTACATCCGGCTAATTTTTGTACTTTTTAGTAGACATTGGGTTTCACCATGTTGGCCAGGCTAGTCTTGAACTCCTGACCTCAAGA
GATCCTCCTGCCTTGGTCTCCCAAAGTGCTGGGATTACAGGCGTGGGCTACCACACCCGGCTGGTTTTTCTTTTTTGCCTTAATGATTTTTTTTTTCTCT
GAGATTAAACTTTATTAAAGTTACTTTTCCAGAAAATTCAGTGAATATGGTAACATAGGAACAAACTTAGGCTCATAAGCCCTTTACATTTTTACATAAT
CTTTAATGATGTTGATCAGGAAATTCTTTCACTGGTAGAATTACTTCTCCATTCTCCAGAATTGTATCATCTGGGAATATTCTGGGCTTCTTTTCAATGG
TGCCATATGGTTTTTTTAGATACATGATACTTCTTGGTGCTCTATATGTTCAGAGAAACTTCTCTAGTAACAAACTATAGAAATGATGATTTTTTATTTT
TTAAACAGTAGAGACAGGGTCTCCGCATGTTGCCCAGGCTGCTCTCGAACTCCTGGGCTCAAGCAATCCTCCTGCCTCAGCTTCCCAAAGTGCTGGGATT
GTAGCTGTGAGCCACCACACCTGGTGATTTTTAGGATTTTAAAAGAACACGTTGAAAAATTAGCTCTGTATCTGTGAAATGAGTTACAAACAATTGGCCG
AGTATTTTGGTCGGTTTTTTGTTTTTCATCTGTARCAGGGGATAGGTTTGGCTGAGCAGAAAGGCCATAGGAAACTGCTTCACTAAACTTCGCTCACTCA
GAACCCTCAGACTTTCAAAGAGCCAGGAAATCGGTATAAAATTTTTGAGATAACATTAATTAAGCTTTTTGCAGTTTTTCCTAGGACCAGATTAAACAGA
AGTTTTCCTTTACAGTATTCATTATGGTTGGTATCTCCAGAGTTCATCCTTTTTTTGTGGTACTGGGAAAAGTTGCAACATTTACCTTTGCAGGGACATG
GATGGAGCTGGAGGCCATTATCTTTAGCAAACTAACACAGAGCAGAAATCCAAATACCACATATCCTCACTTATAAGTGGGAGCTAAGTGATGAGAACAC
ATGGACACATAGAAGGGAACAACACACACTGGGGCCTATTGGAAAGTGGAGGGTTGGCCGGGCCCGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAG
GCYGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTAGTCGGGCC
TGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGAAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCGAGATCGTGCCAC
TGTACTCCAGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAAAAAAAGAAAAAGTGGAGGGTGGGAGGAGGGAGAGGATCAGGAAAAATAACTAGTG
GGTACTAGGTCAAATACCTGGCTGATGAAATAACATGTACAACAAACCCCTGTGACCCAAGTTTCCCTATGTAACAAACCTGCACATGTACCCCTGAACT
TAAAAGTTAAAAAAAAAAAAAGTATGACATTTAAACTATTATCTTTGGGGGATTAATATGTGCCTAGGAGATTGACCCTTGTCTGTTTTACAGGGTGAAA
GATTGTCTGCTGGATATTCTCCATCATATGACAAGGACAAGAGTGTTCTGGCTTTCAGAGGAATCCCTGTATGTATCACCCACAACTTGGTACCTTCTGC
CAGGGCTTTTGTTGTGTGTTACTGTGTGGTGCCAGAACTGTGGTAGACGCTGGGGACACAAGGGTGGCATAGACCTTAGCTTCCAAGAGCTCACACTTGA
GGGGAGTGAGGGGAGGGTGTATGGAACACAAACATACAAAACAACTTCTATTTAATAAGATAATTGCCATAATGAAGCAGGCTATAAAACGCAGAGAGAA
TACCAAAGGCACACCACAGTCTGAAATGAGTGTATGAATTTTTGTTTATTTACATTCAAGGTGGACATACACTTGTCCCCAACATCACCCAAGTTCCACA
TCATAGTTAAAGTTTTCCAGGTACCTCAATTTAAAATGGACTTCAAGGCCAGTAAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGG
CGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACACAGTGAAACTCCATCTGTACTAAAAATACAAAACTAGCTGGGTGTGGTGATGCACAC
CTGTAGTCTCAGCTACTTGGGAGGCTGAAGTAGGAGGATCACTTGAGCCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCAGGCCACTGCACTCCCGCCT
GGGCAACAGAGTGAGACTCCGTCTCAAAAAATAAATAAATAAAAAGTAAAAGAAAATAAAACTGACTTCAGTCAACCCATCAGGGCACACTAGGTCCTTT
TGGCCTCCAGTGTCAAGGACATTCAGTACAGTGGGTGGGAAGCGTTTGTGTATATGGGGGTATGTGGATTCTATCCTCAAGCTAAAGGTCAGCTGCCTCT
ACAGATCTCAGAGTTGAAGAACCATGGCATTCTCCAGGCTCTGACCACAGAAGCTTATGAATGGGAGCCAYGTGGTAAGGTTCCCTTCAGGGCCCTTGGA
GTCTGGGTGGGACCCAAGTCAGACCTTCCCATGCATCTGCTGTTCATCATTTGAATTTCTCTCACTCCTTGTCTTTCAGAATTTTGTAGATGTATCAGTC
CTTGGGGAAAAATAGAATCAACACTGAATTAGGAATCAAAAGACCAGAGTTCTGATCTTCCTCTGCTAGTGGTTTACTGTGTGCCTCTGGGCAAGCCATA
TGATCTCTAATATTAGTACCTCCCTTATCCTCAAAGGGATGTTATGAAAATGAGACACAATATAGGAAAAGCCTTTGAAAAGTTATTCTACTTCATCTGC
TTTGCAAGGCGCTTCCCCATACTATATTTAAAGTTCACTCTACTTGCCAAGTGATTATGGAGAAAGGTACACTCCAGCCTGGCCAACATGGTGAAACCCC
ATTGTATTAGTCCGTTTTCATGCTGTTGATAAAGGCATACCCAAGACTGGGAAGAAAAAGAGGTTTAATGGACTTACATTTCCACATACCTGGGTAGGCC
TCACAAACATGGTGGAAGGCAAGGAGGAGCAAGTCACATCTCACATGGATGGTGGCAGGCAAAGAGAGAGCTTGTGCAGGGAAACTCCTGTTTTTAAAAC
CATCAGATCTTGTGAGACTTATTCACTATTATGAGAACAGCACAGCAGAGACTGGCCCCCATGATTCAATTATGTCCCACTAGGTCCCTCCCACAGCACA
TGGGAATTATGGGACTTACAAGATGAGATTTAGGCGGGGACACAGAGCCAAACCACATCACCGTCTCTACTAAAAATATTTTAAAAATTAGCCAGGTGTA
GTGGTGTGTGCCTGTAATTCCAGCTACTCTGGAGGCTGAGGCACAAGAATTGCATGAACCCAGGAGGTGGAGGTTGCAGTGAACCGAGATTGTGCTACTG
CACCCATACCTGGCCACTAGAAATATGAACTTTTAAAAAAATACTCTTTTTTTTTTTTTTTTGTTAGGGACAGGGCCTTGCTTTGTCCCCCAGGCTGGAG
TGCAGTGGTGCAATCATAGAATTTGTGGGTTCAAGCAGTCTTCCCACCTCAGCCTCCTGAGTAATTGTGTACCACCAGGCATAGCTAATTTTTTTTTTTA
AGAGACAGGTTCACCGGGCACAGTGGCTCACGCCTGTAACCCCAGCACTTTGGGAGGCTGAAGCAGGCAAATCACGAGGTCAGGAGTTCAAGACCAGCCT
GACCAACATAGTTAAACCCCGTCTCTAGTAAAAATACAAAAATTAGCTGGGCATGGTGGTGCACGCCTGTAATCCCAGCTACTCAGCAGGCTGAGGCAGG
TGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGTACTGCACCCTGGCAGCAAAGCAAGACTCCATCTCAAAAAAAAAA
AAAAGAGACAGGTTCTTGCTGTGTTGCTCAGGCTGATCCTCACCTTATCCTCCTGAGTATCTGGGAATATAAGTGTGAGCTTCTATGTGTAGCTAAAAAA
TATTCTAATATAGGAACATCATTTGGACATCTGTGAAGTTTCTTTTAATGGAATTTTATCTTTATGGTGACAAACCCAGCATTAATACATTAATAATTTT
TACTTTAAATACATATATATATATATATATATATATATATATATATTTTTTTTTTTTTTTTCTTTCCAGAGACAGGGTCTCACTCTGTTGTCCAGGCTGA
AGTGTAGTAATGTGATTGTAGCTCACTCCAGCCTTGAACTCCTGGGCTCCAGCTGGGACTACAGGTGTGCACTACCATGCCTAGCTAATTTTTAAAAAAT
TTGAGATGGAGACGGTCTCATTATGTTGCCCAGGCTGGTCTCAAACTCCTGGCTCAAATGATCCTCCCACTTTGGCCTCTCAAAGTGCTGGGATTACAGG
CATGGTGGCATGTGCCTATATCTCTGGCTAACTTTAAAAAAAAAAAAAAGTAAAAAATAAATGTAGGCTGGGCACGGTGGCCCACGCCTGTAATCCCAGC
ACTTTGGGAAACTGAGGCGGGCGGATCACAAGGTCAGGAGTTCTCTACCAAAAATACAAAAATTAGCCAGGAGAATCACTTGAACCCGGGAGGCAGAGGT
TGTAGTGAACCGAGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTTCTTCTCAAAAAAAAATATATATATAATAAATAAAAATAAATGTA
AAAGAGAATTAATAAATAAGCTGACTCAATTGGCAGTGCTCTTGACTATATGAGTAAGTGGAAGAGAGCTGAAATAAAGGAGACAATTATAAAAAGGAAA
AAAGATAACCTAATTAACGTGAGCTGTGTTAATTATCCTGACTATTTGTCCTTTGCCCCCGTGTTCTTCTGTTGGTCAGGGGAAAACAGTATTTATGTCA
CACGTAGGAGGCATCTCCCTCATTCCAAGAGAAAAGGAGAAGCTCTTACGTGGTTTGGGCATTTGTGTTGAGGTTTTAAGCACCAGCTTGCTATTGCTGG
TGGAAACCTTGAACTTTTGTTGACTAACCTGTTTTGACAGCATATTCCCACCCCCTTGCCACTGTGGTTCCTGCTCCTGGCTCACAGACTTTGATCAAGC
TGTTTGTAGGCGAGGGTGTATGGGGTTGGGGAGGGATTGGTTAAGTTGCTGGTAGATGAGGCTCTGACAGGTGAAGAATCAATAAATCAATAAAGCTGCA
TGAAGGTAAGAGGGTGAAGGATCCTGTTCAGCTTCATAATAAGCATTGCATCCTGCTGTTCTACTCTTCCCCCAGTCCCTTTTTTTTTGAAACAGAGTCT
CACTCTTGGCGCCCAGGCTAGAGTGCAATGGCGCAATCTTGGTTCACTGCAACCTCCGCCTCCCGAGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGT
AGCTGGGATTACAGGCATCTGCCACATACCCAGCTAATTTTTTTTTTTTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGT
CTCAAACTCCTGACCTCAGGTGATCCACCCACCTCAGCGTCCCATAGTGCTGAGATTATAGGCGTGAGCCACCGCACCCGGCCTACTCTTCCCTTTTTGT
TCAGCCACTTTGTCCCTCCTTTTTAGCTCCTATGCTGAAAGTAAGTTTTATTTTCTTGATCCTCCAAGGTTGAATATTCTCTTAAAGCTGTCTTAGGAAC
TCCAAGGCTCAGTGTCTGCTACTCCGGACTGGAGCAGGTGAGATGGAATTTCCTAAAGGTCCAGATATTTAGGACCCTGGACCCATCTCACCCGCTGCCT
CTGTCCATTGCCCTGCTGGACCTGAGCCCACACCTATGTTGATAATAATAGCTTACATTTGGGCCACGTGCTCTCCTAGGAAGTAGAATTACCCCATCCT
CACAACAGCCCCATGAGGGGTTACAGATGATAAGTAACTTGCCTGAAGACATACAGCTAGTAAGAGGCAGAGATGAAGCATTCACAAGTAGTTTGGCTCT
CAAGTGTGCTTTCAGTAACTATCCTCTACTGCTTCCCAGCCGCTTTCTCTTCCTTATTATCCATTAGTGTCTGGTAGCATTTCATTTAATCTGCAGGTAT
ATTCTCCCAACAGTTTATTGTCATGTGATGTCCTCAGCCAAGATTGTGAGGCAGAGAGGAGCTGTCCCAACCTACTATACCACCGAGGCTGGAGAGATCA
TATTTTTGGTATTAAACTGGAGTCTCTCCATCCTTCACATTGTTGATGTCCTCTGTAGCAAACCGGAAAAGTCAGTGACAGAAGATGCCGCTAGCRGTTT
GAGCCAGAGAATGACAGCTCTGGTTTGGAGAAAAGGGCCGGATGGTGGCTCTAGAAAGCCCATCCTTCTGCTCTTCTTTTTTTCTCCCCCTTATATTGTG
CTTTCATTCATTCATTCATTCATCAAACATTTGTTGAGCACCTATTATGTGTCAAGCTCTGTGCTAGCCTCTGGAAAACCTGCCCTCATGTAGCTCACTG
TGGAGTAGGAGAAACAATGACTACACTATGATAAGCACGGGTTGTCAGGGTCTCACAGAGCAGTGGCCCCTCATCCAGACCGATGAGGTCAAAGAAGGCA
TCCAGGCGAGGATGGTGTCAGAGCTAACTGAAGAATGAGAGGGAGCTGCACCAGCAGGGGTTGGAACTGAAGGTGGCAGTGCCTGGAGTCTTGATTCCAG
CAGAGGGAGAGCAGTCTGTGAAAAGGCACCAAGGGTGGGAGAGGGCAGAGCACATGGAGGAACTTCAGGTAGTTCTGGATGGCCCTGGGGCAAAGCTAGA
GAGGTAAGAAGAATCTACAAATGTTCCTCGAGTTACATGAACTTCCATCCCAATAAACCCATTGGAAACGAAAAATTTAAGTCAGAAGTGCATTTAAGGC
TGGTCCGAGTAGAATGATTTTTACAACGAATTGATCACAACCAGTTACAGATGTCTTTGTTCCTTCTCCACTCCCACTGCTTCACCTGACTAGCCTTTAA
AAAAACAAAAAATTTAAAAACAAAAAGAAAAGAAAAATGCATTTAATACCCTGATAAATCCATCAAAAAGTCAAACAATTGTTAAGTGGAACTGTCATGA
GTTGGGGAACCATCTGTAGATTGTGAAGTTATGTGGATACTGTGCTGTAGAGTATGGGTTTTATCTTGAGGACTGTGGAGAATCCCTGGAGGGTTTTGAG
CAGTGATGTCGGATCTTACTTTTCTTTTCTTTTTTTTTTTTTTGAGGTGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGACATGATCTCTGCTCA
CTGCAACTCCGCCTCCCGCGTTCACGCATTCTCCTGCCTCAACCTCCAGAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCAGCTAATTTTTTGTAT
TTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGATCTCGTGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAA
GCATGAGCCACTGCGCCCGGCCAATCTTACTTTTCAAAAGCTCACTCTAGCAAACCTGTGAGGAGAGGATCAGAGGGTGTTAAGATCCAAGGCAGCCAGA
TGTGGTAGTGCGTGCCTRTAGTTCCAGGTACTCAGGAGGCTGAGGCAGGAGGATTGCTTGAGTCCAGGAATTCTGGGCTGTAGTGTGCCATGCTGATCAT
GTGGCCCCACTAAGTTCAGCATCAATATGGGGACCACCCGGGAGTGGGGGATCACCAGGTGGCCTAAGGAAGGGAAAACTGGCCCAGGTCAGAAATGGAG
CAGTTCAAAAATCCTGTGCTGATCAATAGTGGGATCATGCCTGTGAATAGCCACTGCACTCCAGCCTGGGCAACACAGTGACACCCCATCTCTTAAAAAA
AAAAATAGGCCCAAGGCAGGCAGACAAGGCTGGGGTCTGCAGTAGAGGCCCAGACATACCTAGATCTCAGAGGGTCTCCTTTTCTCCTACTATTGCAGTT
GTGAGTAYAGAGGTGGTCAGAGCCCAAGAAGAATGGGAAGCTGTGGACACCATCCAGCCAGAGACAGGTAACTGTACGAATGCTGCTGTCTCCCCATAGC
CCCTCTGCCASCAAAGGCAYCATCCACACATGTGGCAAATGTTTCTGTGAGTCTGGGACTAGGAGATAGAATTCSTGAGAGTGCTCATTTTAACTATATA
ACATAGATTACAGTAYCTTTTTCAAATCCTAARATGATGACATCCTACCTCTGGAGGAAACCAGAGTGAAGGCCATGGAGAAAGGGCTGCCATCCCTGTC
CATCTTTCACCCAGCCATGAGAGAAGACAGGGTTGACCTTGGTTAGGGCAGCTTCTACAGAGTGGCAAGGCTGGGTAGGAGGATGGAGATGGGCCCCTGT
GTAAGGCTGCTCAGGTTGTTTACTGCACAAGGAAGTCCCTGGGGATGGGAGCTGAAGCAATCTGCTGGAAGGCTCTGAAGGCTGAGTAAAAATTGTCTCC
TGTTTCTTTCTAAGAGGTTGGATGAAGAGATAGAACTAGGACCTATATCTAGCCTGAGCCTCTCTTCAGCTCCTTGGGCCCAGTGAATAGTATCAGCCAT
TGCCTATATTGCTAACTAATCAGTTAATTCCCTATTGGCTATAACAGAGGTGTATGGTTGGGGGTTCCTATACAGGGTGTAAGAAGGGAAAAGTGGAAAT
TAGGAAAGGCCCTTAAACAAACTGGTTGCATGCTCTTATGTGRGTACCCACCCCAGGCAGTGACTTGCCCCCTCGTAGATGAGAGCATTTAGGGATCACC
TCGTGGGGCAGATCCGCCCCATACCCACCACAGAGGCTGACCTAGCAAGACTGAATAGCCTCGTCCAAAAAGAGAGTCCTCTTCGCCGACAATGCCAGCC
TCTTGAAAGAAGATTGGTTGTAGCTGTARGTGTCTGATGTTCAACTGGAAGCCAGTGCTTGGCTTGGAAGTGACAAGTAGGAGGGCCTCAGTAAATGTTT
GTTGACAGAATGACTCCTATAAATCCTGGCATGTCTTCCGTTTTGCCACAGGGAGCCAAGCTAGCTCAGAGCAGCCTGGGCAGCTAATCTCCTTCAGTGA
GGCCCTGCAGCACTTCCAGACTGTGGACCTTTCCCCCTTCAAGGTATGAGGGTAGCAGGGTTTGGAGTCTCAAGCAAAGTGCCTTTTCCCTAGGAGCCAA
GCCTCTATCCCACCAGGACAGGGCATTGGGCAAGCAAATCTCCCCTAAGATCTTGGTGCCCAGGATCATGGGTGGCCTAGGACCCATGCTTCATTTGGGG
CCTTGGTAGCTTTTGTGGGACTATGCCCTTACAGCTCCTGTAGCCCTGTCATTCAGGGGCCTGTATAGCTGTTTATCTACTCTTCCCTTTTAGGGATGGG
GACATCTAGAGTCAAGTACTAGGTAGATCCTTGCAGAGGCAAGGCAAACTGTTCAGGGAGCTGAGTGATTCATGGCCAGTGGAGGAAAACCTTCCATTCC
CTCAAGGAACCAGAAGCTATTTAGGAATTTAAGAAAGATATAAGCTGGAAAAAGAAGGAATATTTGGGGGAATAAACGCTAGGGGTGGGSTGGGTGCTGG
GCATAGTGGCTCACACATGTAATACCAGCTCTTTCGGAGGAGGCTGAGGTGAGGGGTCACTTGAACCCAGGAGTTCAAGGCTGCAGTAAGCTATGATCAC
ACCTGGGCAACAGAGTGAAACCCTGTCTCCGTAAAAAAAAAAAAAAAGCTGGGGAGCTTTCTGGGCCATATTGAGTAACAATACGTTTAGAGAAATGTGA
TTTCAGGTCTTCTACCTAAAACCTTGCTCAGGGGAGAGAGGCTAAAAAGATAGGAACCAAGTTGTTTTATAGGACCCAGAGAGCCGAAAGCTACCGAAAT
CAGAATATTCTAAGGCTTGCAGTAGTGACCCTGAGCCATGAGAAGCCAACATGACCTCACTTGGGAAGTGCTGGTTGTGACCAAAAGATTCCAGCTACCC
CTCAGAGTCATCTAACTCTAGTGGGTCCCCACCTCCTGGGAAACCTGTCCTGGCATTTGTCTGACTGCCTGGGGGAGCTGGGCAGGTGTAACCCCTGTGG
GAGTCAGTGGAATACCTAGTTCTGGAAAAGCCCAGAGGACTAAATGCAAATAATGGCTGATAATACCTACGCTTGGGGATGTCTTTCACCTTGCAAAAAA
TCTGGGAGCTGGAAGAGCCTGGCTCTAGAGACTCAACAGGTGCCTYGCAGCTTCTGCCTCCTTCCCTTGGCCCAAAGGCCAGCCAGATAGCTGGGGGAGT
TACTTTCTGCAAGCACTGCCTCTGGTCTGAGCCTGATGGGAAGTTGATTAAGGGAAATGAACCAGCATTCTGCCCATTGCCTGCAACTTCTTCCCCAGAA
AAGAATCCAGCCAACTATTCGAAGGACTGGGCTCRCCGCCCTCCGACACTACCTCTTCGGGCCTCCAAAGCTCCACCAGCGCCTTCGGGAAGAAAGGGAC
TTGGTCCTGACCATTGCTCAGTGTGAGTGCAATGCGAGCCCACAGGGCAGTTGCTGCATCTGTGGTTGGGCAAGACCGTGTGTGCTGACCCTGTGAGGCT
AAGCCAGGAATATTGCATGTACCATGGTTGGCGGGTGAGAGTGGGAGCTGAGAACTGGATGTCTCACAGTCCAGATCTCACATTCTCTGAGAAGCACCCG
GTTCTCCCATGAGGGGCAATCTGGCAGAGAGTGTGGGTGTGTTTTGGGGCAGGTGGCCTGGATAGCCAAGACCCAGTGCATGGCCGAGTCCTCCAGACCA
TCTATAAGAAGCTGACYGGCTCCAAGTTTGACTGTGCCCTTCATGGAAACCACTGGGAGGACCTGGGCTTTCAGGGTAAGAGGGAGGAGTAGCTCATCTT
CTTTTTCATGCCTCTGATTCCAGGACTAGAGTGAGAGGCCAGGTCGTTCTCTTCCAGTGCTATGAGGGGGAAGATCTTGGGGGAGTATTCCGGGAAGAGG
GTGCAGCAAATGCAAAAGCCCTGAGGGGGCGCCTGCTAGTTCTGCTTGAAAAATAGCAAGAGTAGGTCGGGCGTGGTGGCTCACGCCTGTAATCCCAGCA
CTTTGGGAGGCTGAAGAGGGCAGATTACTTGAGGTCCTGAGTTCGAGACCAGCCTGGCCAACATGATGAAATCCCATCTCTACTAAAAATACAAATATTA
GGGTGGGGTGCGGTGGCCTGTGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTAGGTGGATCACGAGGTCAAGAGTTCGAGACCAGGCTGGCCAACATG
GTGTAAGCCCGTCTCTACTAAAAATAGAAAATTTAGCCAGGCCTGGTGGTATGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTT
GAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCACGGCACTCAAGCCTTGGTGACAGAGTAAGACTCTGTCTCGGAAAAAAAATTAAAAATA
AAAATTAGCCAGGCGTGGTGGCACGTGCCTGTAATCTCAGCTACTCAGGAGGCTGAGGCAGGAAAATCACTTGAACCCGGAGGCAGAGGTTGCGGTGAAC
AGAGATCGCACTACTGCACTCCAGCCTAGGTGACAAAGGGAGACTGTCTCAGAAAAAAATAGCCAGAGTGTGGCTGAGGTGGAGATGAAAGTGACAGGAG
GAAAGATCACTTGGTGGTCTTTTAGGCTGTTGTAAACATTTACTGTAAGTGATATGGAAAACACTGGAGTGATGTGACAGAATCTGGCATTTTTGGGTTT
TTTCCTCTCTAAAAAATATTTATGAAAATTTTATCATATATTATTTTACTTTCTGAGTGAAACAGAATCATTTCACCAGTTTTTGGATTGTACTATTTTT
TTTCAAAACCATATCAAATTGGCTGGGCATGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCCAAGGCAAGTGGATCACCTGAGGTCAGCAGTTC
AAGACCAGCCTGGCCAACATGGCAAAACCCCAATTCTACTAAAAATACAAAAATTAGTCGGGTGTGGTGGCACGTGCCTGTAGTCCCAGCTACTCGGGAG
GCTGAGGCAGGACAATCGCTTGAAACCGGGAGGATGAGGTTGCAGTGAGCCAGGATTGCGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTATC
TCAAAAAAAAAAAAAAAAAAAAAGACAAAACCATATCAAATTATATTTGTATAGAATAGGAAAATAACTTTGAAAGGAAACTTTAAGGCCGGGTGCTATG
GCTCACTCCTGTAATCCCAGCACATTGGGAGGCCGAGGCAGGCAGATGACTTGAGGTCAACAGTCTGAGACCAGCCTGGCCAACATGGCGAAACCCCATC
TCTACTAAAAATATATAAATTAGCCAGGCATGGGGGTGTGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGC
GGAGGATGAACCCAAGATTGCACCACTGCACTCCAGCCTGAGTGACACAACAAGACTCTGTCTCAAAAAATTTTAAAAAAAAGATAAAAGGAAACTTTAT
GTACCCCTAATTAACTGGTGGTCTGTTGGTATGGCAACATGGTTAAGTCCCTGTTCCCTCTCTCATCTATCATGTAATTGTCTTAAATGTATCCTCTCTA
TATATTGAGAATCGCACCAGTAATGTTAAGATTTTTGTTTCAATCAACAAACATAATTTTTTTGAGGAGGGGTTCTCACGAAGAACCAGAAAACCTGCTA
GACAAATTGTAGAAGAGCTGTGACACTGCAATAAACATAATTTCTGAATCTCTGGAGAAAAAGGAAAATCTGGGCCAGGCACGGTGGCTCACACCTGTAA
TCCCAGCACCTTGGGAGGCCACGGCGGGAGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAAATAGTGAAACCCTGTCTGTACTAAAAATACAA
AAATTAGCCAGGCATGGTGGCGCGTGCCTGTAGTCCCAGCTACGTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGACGTGGAGGTTGCAGTGAGC
CGAGATCTCACCACTGCGCTCCAGCTTGGGCAACAGAGTAAGACTTCGTCTCAGAAAAAAAAAAAAAAGATAAGAAAAAGGAAAATCTATTGTATTTACT
CTTTCCATTGTTTGTTCTTCCTTCCTAACCCTCTTTTTTTTTTTTTTTTTTTCTATTTCAAGGACTTCCTTTAGTTATTCTCTTAGGATAGGTCTGCTGG
CTATAAATTGTCTTTGTTTTCCTTCATCTGAGAATGTCTCAATTTCCCCTTCACTTCTGAATTCTCTGGATATAAAATTCCAGGTTGACAGTTCTTTTTT
TTCAGCACTTGAAAATGTGCTACTTCCTTCTGGCCTGCATAGTTTCTGATGAGAAATCCACTGTCATTTGAATGATCTCTCCCTTATAAGTAAGGAGTTC
ATATTCTCTTTCTGCTTTCAAAATATTTTTTGTGCCAGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGACTGCTTGA
GACAAGGAGTTCAAGATCAGCCTGGGCAACATTATGAGAACCTATCTCTACAAAAAATAATTTTTTTTTTCTTGAGATGGAGTCTCACTCTATTGCCCAG
GCTGGAGTGCAGTGGCATGATCTCAGCTCGCTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTTCTAAGTAGCTGGGACTACAGGC
CTGTGCCACCACACCCAGCTATTTTTTGTATTTTTAGCAGAGATGGGGTTTTACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAAATGATCCAC
CTGCATGAGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCATGCCTGGCCAAAAAAAAAAACTTTTGTTTAGTAGCCAGGTGTGGTGGCGCATGC
TTATAGTCCCAGCTACTGGGGAGGCTGAGGCAGAAGGACTGCTTGAGCCCAAGAAGTCGAAGCTGCAGTGAGCTGTGATAGCACCGTTACACGCTAGCCT
GGGTGACAAAGTGAGACTCTGTCTCAAAAGAAAGATCTTTGCTGGCCGGGCGCGGTGGCTCATCCTGTAATCCCAGCATTTTGGGAGGCCAAGGCGGGTG
GACTACGAGGTCAGGAGTTCGAGTCTAGCCTGGCCAATATGGTGAAACCCCATCTCTACTAAAAAAATACAAAAATTAGCCAGGCATGGTGGCATGTGCC
TATAGTCACAGCTGCTTGGTGTGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGATTCCATCTCAAAA
AAAAAAAAAATCTTTGCTTTGTCTTTGGTTTTCAGGAATTTGACTGTGATGTGTCATTGTGTGGATTTATTTGGGCCTCTCCTGTTTGAGGTTAGCTCAG
TGTCTTGAGTCTGTAGGTTTGTGTCTTTTGCCACATTTGGTCAATTTTCAGCTGTGATTCCTTTGAATACTTTCTTCAGCTCCACACTTTGTCCTCTCTT
GTGGGATTCCAATGATACAAATGCTATCTTTGTTCATTTTTTAAAATCTTTGTTATAGCCTCAGATCTCCAAGGCTCTGTTCATTTTGGTTTTTGTTTTT
CTGTCCCTCTGTTGTTCATATTATGTTATTCTATTATTACTGTCCCATATTCAAGTTCACTGATTCTGTTGTCTCCGTTCTCCTGTTGACCCCATCCAGA
GAGTTTTTAGTTCTAGTTCTTCTATTTTTCAGTTCTAAAGTTTCCATTTGGTTCTTCTTTATATCTGCTGTTTCTTTACTGAAACTTTCTATTTTTTCAT
TTTTTCAAAGTGTATTTGTTCATAATTGCTTACCAAAGGCATTTTATGGTAGATCCTATAGTCACTTTCTATCATTGCTGTAACAAATTACCACAAACCT
AGTGGCTTAAAACAACACAAATTATTGTCTTATAGTTTTCTAGTTCAGAAGTCTGACTCAGGTCTTACTGAGAACCTGTGGTCAAGATCAAGGTGTTGGC
AGCACAGTGTTCTTTTTGGAGGCTCTGGAAGAGAGTCCATTTCCTTGCCTTTTGCAGCTTCTAGAGGCCACCTCCATTCTTCCATCTTCAAAGCCAGAAA
CAGCATCTCTCTGAGCCCGATTCCTCACATCTCTTTCTCTGGCTCTGGGCTTCCRCCTTTCTTTTCCACTTTTAAGGACCCTTCTGATGACATTGGGCCC
ACCCAGACAGTCCAGGATCATCTCCCTCTCTGCTGATCAGCAACCTTAATTCTACCTGCAGTCTTAATCCCCTTTGCCATGTTACATAACATAGTCATAG
CTTCTGGGGACATGGTCATCGTGGGGCGGGGGGATTATTTTGCCTACCACGGCTGCTTTAAATTCCTTGTCAAATAATTCCAACAACTGTGTCATCTCTG
TTGGTGTCTGTTGATCATCTTTTCTCATTCGAATTGAGAATTACCTAGTTCTTGGTGTAACAACTGATTTTTTATTGTATCTTAGACATTTTGGGTAGTC
TGTATGAGACTCTGGATCTTACTTAAATCTTCTACTTTAGCAGGCCTCCCCTGTTACTGTGCCAGCAGGGGAAGGAGGGACGTCACCATGTTACTGCCAG
GTGGGGGTGGAAGTCCGGGTATCCCACTTGGCTTGCAGTAATACCAAGTTCAAGACCAGCCTGGCCAACATGGCTGGTGGGGCCAGGGGTGCCTCGTTAC
TCTTCCTATGTGGCTTCCACATTGCAGAGGAGGCAAGGGGGCTCCTTACCACTGGGAAAGATAAAGTCCCAGCTCCCTGCCCGGCCTTCTCTGACGCTAC
CCTTGTGGAGCTAAGGGGTGCCTTGATACAGTTAGGCCAGGATGGAAGTCTAGGGTCCCTGCTCAGCCTTTTCTGGAGAAGAGTGGGGATGGGGCCACAT
TTTTCTCTGTGGTGTTTTGCTGCAGTAGGGTGGGTATTGGCTAAAGCCTTCTGTCTTGCTACACTGCCTCTTTCCCCACCCTTTGGCTAGAGAGAGCAGC
TTTCCTTGGGGCTTTTTGGTCTGCTCCCATTGGCATTTCTGGGTTGCTGTCTTCTCCATCTGGGATATATTAGGCAAAAAGAAACCCAGGAATTCACCAG
AGAGTCATTTCTCAGCTCTCAAGATTCCTAGTAAGTCTGTCTTCCCTCCTTTCAGAGCCTTCTGTTTATTTTATATAGTAATGTCCAGGGCTTTAGCTGT
ACTTAGTGGGAGGAATAGGCAGAAAGTGCATTATTCATCTTGTTCCAGAACTGTAAATTCAGCCTTTTTTGTAAAGGATTGCTTTGGTGGTTTTGTGTAG
AAGTAACTATCAAGGGTCATAGGCAGCAGCAAGAAAACTGATGTGGGAGGCTGCCTCCAGGGCGCTGGGGTCCCCATTTGGTGCATAGCCCCTGCTTAGC
TCATTAGAATGAGCCCCACAAGTGTGGCAGAAAGTGGACGTGTGCTGCTCATGCTCCGCTAGCCTGGGAAGAGGCCAGTGTCAGGGCAGCTTCCCATGGC
AAGCCCTTGAAGCATTGCTCGCTGCCACACCCTGTTTCCTCACGGTCTCTGTTACAGGAGCGAATCCAGCCACAGACCTGAGAGGCGCAGGCTTCCTTGC
CCTCCTGCATCTGCTCTACCTGGTGATGGACTCAAAGACCTTGCCGATGGCGCAGGAGATTTTCCGCCTGTCTCGTCACCACATCCAGGTGAGACTTTGG
TGGGAAGCCAGAGGAAAGGAAAGGGCCGTGGAGCTAGGACCTGAGTGGCCGAGAGGGCTCCCAGGACAGCTGAGATAAACCAGGAATGGGCTTCCCCGTC
AGTCTGACCTGCATTGAAATATGAGCTGTACCGCTCATTAGCTGTGTAGCTCAAGCAAGTTCCTCGACTCCTCAGAGCCTTGATTCCCTCATCTGCAGAA
TGGAAATCATAGTGTTGTTAGAAATGCTTGTTCTTTGGTGCCGTAAAGAAATAGCACTTGAACATAAATTTAATTTCTTCAGCAAGGATTTTTTTTACTT
TCTGCAGAAAGGGTACACTCACTAGCAGTTTTGCCACGAGAGTACACTGAATAAATGAGACAGGATCATTTATAACTTGACCCATATACTTTACTGCTGT
GTCCGGTTTCTATTGGCTGGAATGGGACTTCACATTCGTATTTGTCTTGATTGGCTAGCAACTTAGAACTTTTTAAAAGAAGCAAAGGAAGAGGAGAACA
AAGGAAGGAAGAAATAACTTGTGGAATGCTGAGAAAGGTAAAAACACCTTCAAATAAGGAAGAAGAATAGGCTATGACTTAATGCTTGCTTGGACYAGTA
TAAGCATGCCAGGGCAAATATTTAGGCTAAATTGTGGGAGCTAAGAACATAAAGTACAGTGACTTCTTCATTATGGCTAGCAGATATTTAAGAATGTTAG
CAGAGGTCTTTGAATAAATTTTGCTTCTAAGAGAAGTTACTATTTATCTTAATTAGATGGGGAGGAAAGTCTTTGAAGAGGAACGTCTACTTTACTTTTT
ACAGTGTGACCCTGAAAATCTGAGGTCTCAGTTAATTTAGAAAGTTTATTTTGCCAAGGTTGAGAACACATGCCCGTGACACAGCCTCAGGAGGTCCTGA
TGATATGTGCCCAAGATAGTCAGAGCACAGCTTGGTTTTATACATTTTAGGGAGACATGAGACATCAATTAACATATGTAAGAATGAACATTCATTCAGT
CCAGAAAGGCGGGACAACTAGAAGCAAAAGCGGGAGGACTCGAAGCAGGGAGGGGACTTTCAGGTCATAGGTAGATAAGAGACAAATAATTACATTTGAG
TTTCTGCTTAGGGTCTCCAAAGGAGGCAATCAGATATGCATTTATCTCAGTGAGCAGAGGGGCAACTTTGAATAGAATGGGAGGCAGGTTTGCCCTAAGC
AGTTCCTGGCTTGACATTTCCCTTTAGCTTAGTGATTTTGGGGGCCCAAGATATTTTCCTTTCACATTTTCCCCCTTTTCTTTTTTAAAATCTTTTGGAG
AAAGCATTTTAGAAGAAAATGAATCTCTGGTCTTAGGTTTCATCTGATCTCTTACGGCTAGGATGGTTTATTCCTAGACGGATAGGTCCCCGAGTTATTA
GGAAAGTTCATTTTTAGAAGGTTGTGAAGTCTCATGTCCTATGAAGAGAAAATACGGGGAGGAAGTGAAAACAACAACAACAAACAAAAGAACAATCCTG
GATATCAATATAGGCCACATTCTTCTGAAGTCTATACATCAGTAGGCAGGTATGAAAGTGGCTTATGTATGTAAATAGGTTGCTGTTATTTTCTTCTGAA
GTTGTCTGGCTTCAGTTTGCAGGGCTGTAAGAAAGTACGGCTTAATTTTCAGTGACTCCAAATTAGGAAAATGGAAAAAAAAAGGAGGAAAAGAAATTTA
AAACATTATTTTGTTTTGTTTTGTTTTGTTTTTTTGGAGACGGAGTCTCGCTGTGTCCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATAGCACACTGCA
GCCTTCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCACATGCCACCACGTCCGGCTAATTTTTGTATTTTT
AGTAAAGACGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAGCTCCAGACCTCGTGATCTGCCCGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGTGT
GAGCCACCGTGCCTGGCTGAAAACATTATTTTGAAGACTTGTAGCCAAGAAAAATTAGAATTCAGCCCAAACTGTAGAAAATTATTAAAATTGAAAAACA
TTAGGCAAGACTAGGATCTAATGACAGGTGTACTATAGTTTTTGAAACATAATTTTTCTTTCTCCAGTTTCCTGTTTTTACTAAAGACAAATCATGGTAG
GACCGATTTGCTTTATAATACTTAGCCAGATTATTTGTATAAAGTACAGCAAGAATAGTTATTTTTCACATAGGCTTTTTTTAAAAATTGGCTTTGATGG
AACTTTGTTATATAGAAGGAATCTCAGGCAAGACTTTTTTTTAAAGCCAAGCCTTGCCATGGATTTGTACCATCAAATATCTATGAGTTGGGTGAATTTC
CTCTCCTCTTGAGGTTCCAGGATAAACCTGGGGCTCCTGGGCCTGYCATAAAGTAACATTCTTTACTTAACACAAGTCAGAAACCCTGTTCAGGGACTGT
GTACACAAAATATGAGGCCAGTTTCCCAAGGGCGTTATTGGCTTCATAAATCAAGTTTGAGTTCTTAAAAGAAATGACATGGTTCCAGTCAAAGCCTTGG
TAAAATAATTAGTTTCTCCAGTTGTGTCCTATTAGCAGTGAAAACAGATTCTTATTGTATTTATGCAAATAACTGTATTGCCATAAATTAAGAATACTCA
CAAATAGTTTCCAAATTCTGGAGAACTCAGGTAGAGAGAAACAAATATGTTCCAAATTTTGGTCATAGCAGTATACTAAATTGTTAAAAGCTGTCAATAG
CTCAAAAGAGAAGTTTGAAGACTCTGAAAAACAAAACAAAGGATCAGCAACGTTTTAAGCAAAAGGYCAAAAAAATTAGTTCAATCCATGCAGTTAATTC
CTGTTCTGCTTTGATATTCATGAACATTTTAGCTCTCCATGAGTCTGAAAGTTTTTCCTCTATTCTGATGTCACAATCTCCAAAGTTATCAGAAACCTKC
ATTCAAGAGCCCCTGTTAGAGTTTTAAGATGATGATTATTATTTATTTATTTATTTTTAGACTACTCTTGCTCTGTCGCGCAGGGTGAAGTGCAAGTGGT
GCAATTTTGGCTCATGGCAACCTCCACCTCCCAGGTTCAAGCGATTCTACTGCCTCAGCCTCCGAGTAGCTGGGATTACAGGCACCTGCCACCACACCCA
GTTAATTTTTGTATTATTAGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATGTGCTCGCCTCAGTCTCCCAA
AGTGCTGAGATTACAGGCATGAGCCACCATGCCTGGCCTTTTATAGCTGATTATAAAACCACCTTCTAAAGAGGACCAAACAACACAACAATTGTCTGTG
GATGACAAAAAGTTTTAGGGAAGCCATTGTTGAAGACCCAGTTGACAAGGAAATTTGTTATCTCTGTGGCACAGAATAATTTAACATAACAATTATAATT
ATTACTGATAATGTACACTAAGTTATATCAGAATTTTAGGAGTTTCCCATAATTTTGGAACACATACCAATAACACATTTATACAAATACAGCCCAAAGA
AAATCGTACACCATTTCATATTTGACAATGCTTCCTGTATAATTTTTATACCAAATAAGCCAAATTATGTCATTTTTGGACTTTATGGAGCCTAATATCT
TAAAGGATTTATCAGGTCAGAAAAAGACATAATTTATGATTTGATTTTGGAAAGTTTGTCAAATATCAAAGGTTTAAAACTTGATATCACAAAATAGGAT
CACAGGTCATTATAAGATAAGTCATTCTTTTAACCAAAGCAATAACTCAAGGATTTCAAAAAGAAGGTGAAAATCTCCATTCCTTGAGAGCGGAGACTTG
ATTTTTCAATCAATAAGCCCTAATAAAAACAGCATGAAGCCAATTAAATTTATTTTTCAAAATTTTGTAAACAATCTATAAAATTTTAATCTTGACCATA
AGATATAACTTCCATAAGCCTTTTATAACCTTTATAACCTTTATTAAGGGGCTGGTTAATGCTTCAAGAAAATCTTGTTAATCTGATGCAGGGGCTCATG
TGCTGCTTTTGCATCAGTGTGCCTTTGACATTCATGATTAATTTATAAAGAAACTTAACCTATTTTATCTTTAAAAAATCAGCTCTTGCAATCTCATGCA
CCCACCTCTTCCGCAATAGTCCCTGGGCCTTGAAGAGTTGAGTAGCTTTAATTTCTGGCCCCGTGTCTTAGGAATGCAGTTTATTCTGATTGGCATCTTC
TACCAGGCCTGAAGATGAGGCTTTAATTGCTGTCAATGTTTAAGATTTGGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAG
GCAGGCAGATCGTGAGGTCAGGAGATCAAGACCATCCTGGCCAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCG
GGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGTGGAGCTTGCAGCGAGCCGAGATCTTGCCACTGCACTCC
AGCCTGGGTGACAAAGCAAGACTCCTTCTCAAAAAAAAAAAAAAAAAAAAAAAAGATTTGGCAGGACATAGGGCTGGGTGCAGCGGCTCATGAGTGTAAT
CCCAGCACTTTAGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGGTCAAGACCATCCTGCCTAACGTGGTGAAACCCCGTCTCTACTAAAAATACAAA
AAATTAGCTGGGTGTGATGGTGGGTGCCTGTAGTCCCAGCTACTCATAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCAAAAAAAAAAAAAAACATTTGGCAGGACACGGTGTTCCTTTTAGACCCAGGAGT
TAAAGCCCTGTAACTCAATGTCACAAGGACTTTTTTTTTTTGAGACAGAGTCTCACTTTTGTCACACAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCAC
TGCAACCTCCACCTCTCGAGTTCAAGTGATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCGTGCCACTATGTCCATCTAATTTTTGTAT
TTTTAGTAGAGATAGGGTTTCACTATGTTGAACAGGCTGGTCTCGAACTCTGGACCTCAGGTGATCCACACGCCTTGGCCTCCCAAAGTACTGGGATTAC
AGGCGTGAGCCACCGCGTCTGGCCAGCACTTTAAAAGCACATACAGAAAGATACACGGATGTAATAACCTTAATTTAAAAACAAGACAATTCAGTTACTT
ATCTAGGGATGGGTCTCGGGCTGTAGACTCTACCATCCCAGAAGCAGGAAAAAAAAAAAAAAACAAAAAAAACTCATCTTCCCTGTTAGAAGTGAGCTCA
AACTCCATAAAGAAATTACCTGCCTTCCATTGTCATGGAAACAGGAAATCTTACCTTCCTTGTTAAAAGCAAGTAAAACTCCAAAAAAAAAAAAAAGAGG
AGTTGTACAACAAAATAAACTTTAGATCTTTTTTGTTTTTTTGTTTGTTTGTTTTGAGATGGAGTTTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGT
AATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCAACTCTCCTGCCTCAGTCTTCTGAGTAGCTGGGGTTACAGGCGCCCACCACCACGCCTGG
CTAACTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATCATATTGCTTGATCCTGGGAGGTCGAGGTTGCAGTGAGCTGTGATTGTGTCACTGCATT
CCAGCCTGGGTGACAGGGCGAGACTCTGTTTCAAAAAATAAAAATAAAATGGAGGGATTGCTACATTTTGCTACTTGAGAAAACCATAAAACCCAACCCC
AGAGGGCAGGTCCAGACAGAGATAGAGAAGCTACTGGTCTCAGGCTGGTCTTGAACTCCTTACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGTT
GGGATTATAGGTGTGAGCCACCACGCCCAGCCAAAGATCTTGAACAAATTTGGGGAGATCAGGGATTCTCTGGAGGGTGTACTCCCAGACCTCAGCAAAT
TGTTCTGTTGTTTTGAGCCATAAAGTTAGCTCATGCTGGTACCAAGCATGGATAGGAGATTTGTCAAAGGCCAGGGGTACCTCCACTCAGAATCCCTCTG
TGGTTACCAAAATGTGAACCCTGAAAATCTGAGACAGGTCTCAGTTAATTTAGAAAGTTTGTTTTTCCAAGGTTGGGAATGCGCACCTGTGACACAGCCT
CAGGAGGTGCTGATGACATGTGCCTAAGKTCATCAGAGCACAGCTTGGTTTTACAGTTTTAGGGAGATATGAGACATCAATTAACACATGTAAGATGAGC
ATTGGTTCCTCCGGAAAGGTGGGAGGACTGGAAGCAAAAGCGGGATGACTGAAAGCAGGGAGGGGGTTTCCAGGTCATAGGTAGATAAGGGACAAATGGT
TGTGTTCTTTGAGCATCTGATTAGCCTTTCCAAAGGAGGCAATCAGATATGCGTTTATCTCAGTGAGCAGAGGGGTAACTTTGAATAGAGTGGGAGGCAG
GTTTGCCCTAAGCAGTTTCCAGCTTGACATTTCCCTTTAGCTTAGTGATTTGGGGAACCCAAGATATTTTGTTTTCACAATAGAAACTTCAGCTGGCTCA
TTGGGAAAATTAGAGACAATGTACAAAAGTAGCAAGCACAGCTGTGCTGTTGCTGTTTCAACTCTCTGCCCTCCCTGAGGAAATGCYTTGCACAGGGGTA
GCATCTCTTGGCCCTGAAAGAGAAGAGTTAGCCTCCACGGGCCCAAGAGGAGGAGATGGACCTCCATGGGTTATGTGAGCCACAGACTTACCAACAGGCC
AGAGGTGCTTCAGTAGCTCCTCTGTCTCTGTCTGGACCTGCCCTCTGGGGTTGGGTTTTATGGTTTTCTCAAGTAGCAAAAGGTAGCAATCCCTCCATTT
TATTTTTATTTTTTAAAACAGTCTCACCCTGTCACCCAGGCTGGAATGCAGTGGCACAATCACAACTCACTGCAACCTCTACCTCCCAGGCTCAAGCAAT
CCTCCCACCTCAGCCTCGGCTGGGACTACAGGTGTGCCGTACCATGCCCAGCTAATTTTATTTTTTTAATAGTCTCTCCATTTTAGAAAACAAATTTGAC
CTGTTTCCTGCCATCTGTCTATCCCATATTCATGGGACCTAGGATTCATTCATTCACTGAATGAATATTTTTTCAGCATCCCTTGGTGCTATTCTTCTTG
GTACTTGGGATACATCAGTAAATAAAACAAAGATTCTTCCAGCAGAGATGACCATAAGCTCAATATATCAATACATTATAGAGTGCTCTAGAAGGTAATA
AGTACTAAGGAAAAATAAATAGGATAGAGTTGAGAGAATGTGGAGAGACAGTTACAGTATTTTTATAGGGTGGTCAGGGTAGCTGTCATGAGAGAGTGAG
ACTTAAACCAAACCTTGGAGGTGGGAATGTTAGCCAAGCTGATATCTGGGAGAAGAACATACCAGGCAGAGGGATTAGCTAGAACTAAGGTCTCAAGAAA
GGAGTGTGTCTAGCATAGGTAATGAGTAGTAGGGAAGCCACCGGAGTGAAAAGAACACAGGAAGTTTCACTCATGTCTGTATGAAGAGACCACCAAACAG
GCTTTGTGTGAGCAACAAGGCTGTTTATTTCACCTGGGTGCAGGCGGGCTGAGTCCGAAAAGAGTCAGCGAAGGGAGATAGGGGTGGGGCCATTTTATAG
GATTTGGTTAGGTAGTGGAAAATTACAGTCAAAGGGGGTTGTTCTCTGGCTGGCAGGGGTGGGGGTCACAGTGCTCAGTTGGGGAGCTTTTGAGCCAGGA
TGAGCCAGGAGAAGGAATTTTACAAGGTAATGTCATCAGCTAAGGCAGGAACAGGCCATTTTCACTTCTTTTGTCATTCTTCAGTTACTTCAGGCCATCT
GGATTTATACGTACAGGTTTGGGCCCAGAGGCCTGACAGGAAGGGCAGTAGGAGAGGTGGTCGTAGATGATGGGCCAGAGGGCGCAGGGCCTAGCAGGCC
ATGGAAAGGACTCTAGGTTTTACGCTAGGTAAAATGAGGAGGCACTGCAGGGCTTTGAGCAGCAGAGTAACACAGTCTAACTTACTTTTTTTTTTTAATG
GATCCTACCAGCTGCTAAGTTAAGAATAATTTCCAGTGAGGGCTTTTGTAGTAAATTAGAGATGATGCTGGTTTGTCAATCTCCCCTTCCAGCAGAGGAA
TGTGTGGGTAAGAGAGTCACAATGTTTCTGAACAAAGCCATAGCTCCTAAGTGGTGAAGCTGGGCCTAGAGCCCCTGTTTCCTGACAGCTGGCCTGGCGG
TGGGCTCTGTACAGCATTGATTCCCAGCCAGCAGCACACCCTGAAAAGTCACATAGCAGTGGGAGTGCAGATGCTTAGACTCTCCCCATCAGAACCACTC
AGTTGGAATCTTCAGGGTTGGGGCCAGGTCAGCAGCAGCCGCAGAAGATACTCTGGTCTTCCTGCTTCAGCAGACAAAGGTTTCTAAGCCCAAACGTGAG
GCATGAGGATAAATGAAATTGTAAATGGAAGCAGAAAAATGTCCAGGTCTGAGTTCCTCTGCTGTGTTTTAGTCAGTTTCAGTGCAGTATTTTAGNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNACAGCGTTTCACCATGTTGGTCAGGCTAGTCTTGAACTCCTGACCTCAAGTGATGTGCCCACCTCGGCCTCCAAAAATGCTGGGATTAC
AGGAGTGAGCCACCATGCCTGGCCAATCAGTGGGCTTTTTAAGAATGTTCCCGGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAGGC
CGAGACAAGCAGATCACCTGAGGTCGGGAGGTCGAGACCAGCCTGATCAACAGATCAACATGGAGAAACCTTGTCTCTACTAAAAATACAAAATTAGCCA
GGCATGGTGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTAAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGTGGGAGCCGAGATCGTGC
CATTGCACTCCAGCCTGAGCAACAAGAGCGAAACTCCGTCTCAAAAAAAGAATGTTCCTGAGAATGGATGAACACTAAGTTCAGGTCCTCTGTTAATAAT
GTTGTTACCATACTGTTTTTCTCATATTTATTTTTAGATTGAAAGAAATCAAGGGAAGGGATGATATTATGCAAGTATATATGATCATTAAATAGGCAAT
ACCTGAAGGTACAGAGGTATACATGAAGGTCAGCATCAATGGTGTTCTCAGCTACCCATGTTGAGGCAAGTATAATAACGACGAACATTTGTTAATACCT
ACTTGGGCCAGGTGTTGTGCCTAGTACTTTGCACATGTGATCTTAAGTAATGCTCACAGCAACTCTGTGAGGTGGGTAGTGGGATAAAATGTTAAGTGTT
GACAAAATCTGTCTCATAAGGCCAGGCGCAGTGGCTCATGCCTGTAATCCCAGCGCTTTGGGAGGCTGAGGTGGGCAGATCACTTGAGGTCAGGACTTCA
AAACCAGCTTGGCCAACATGGTGAAACCCTGTCTCTACTCAAAATACAAAAATTAGCTGGGCGTGGTGGCACGTGCCTATAGTCCCAGCTATTTGGGAGG
CTGAGGCAGGAAAATCCCTTGAACCCAGGAGACAGAGGTTGCAGTGAACCGAGATCACGCCACTGCCCTGCACTCCAGCCTGGGCGACAGAGCAAGACTC
CATCTCAAAAAAAAAAAAAAAAAAAAAATCTGTCTCTTGGAGTTGTTGTAATGATTAGTGACTTAACTCTACCCAGTGTGGCACTAGCGCTGGATTTCCA
AGACCACCTGCAGGTTCAATGATTCCTGAGAGACTCAAGGGACTCTACGTATAGTTATACTTAACAGTTCTGATTTAGTACAACAGAAGCAAAATCAGCA
AAGGGAAGAATTACATGGGACAAATTCCAYAGGAAACCAGGTGGTGATGTCCAAGAGGCCTCTCCCAGTGGAATCACACAGAACACACTTCATTCTTCCA
CTGCCAAATTGTGCAATACGTATAAAATGTCACCAATCAGGGAAGCTCATTAGAGGTACCCAGTACTCAAGGTTTTTACCATGACATGCTGGTCATGTAG
GCACCCTCTGCCTAGCACATACCAAAACTCTGGAATCACAGAGGGAAAGCTGGTGTTCTGCATAAAGTATCTTTTTTGTGTTTGTTTTTTTGAAAAAAAA
AAAAWWTTTTTGTAGAGACAGGATCTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTAGACTCAAGTGATCCATCCGCCTGTAATCCCAAAGTGTTGGA
TTGTGAGCCCTGGGCCCAGCCAGCAAAAACTATCTTGTTTGCATGAGCAGTTGAGGAACAATGTTAGGGAATGATGGGAACCATCTCAAAATCCAAGTTC
TCAGCTGTCAGCCATGGCCTGATCTAAGAATTTTCTAAGGCTCAGGCTCTAAGGAGTCTCAGGCCTGCTGTGTTAACTTTTTTCTGCACAGCACTCAAAG
TTTATGTCCTTTTTGATTTTGAGAGATGGGAAGACTGAGTTTCACAGAGGTTGGGTGACCTTCTCAAGGACACACAGCTACCAGGTAGCCAGGCCAAGAT
CTGGAATTCAGGTATCATGGAAGACCCTGAGAAAAATCTCTGTGGAGCCAGAAGACCTTCTGCAGTTCAGCACTGTCCAGAACTTTCTGCAGTGACAGAA
GTGGTCTAGATATTGGAAATGCACCATCCAGTACAGCAGCCACTAAGCACACGTGACTACTGAGCACTGGAAATGTGGCTAGTACCACTAAGGAGCTGAA
TTTATATTTGTTTTTCATCTTTAACTCATTTAAATAGCTACATGCAGCTGGTTGCCACCATACTGGGCAGTACAGTTCTATACTATAATGTAATGGATTT
TTCTTCAACTGGGAAGCAGGTGGGATAAATAGACCTTGGTTCTTGTTCTGTACTAAGGAATGCACTGGTCTATGTGTTCCTCTCACTGGGTGTCCTTGTG
TATGTGCAACAGGGGAAAATAACATGTCATGTCTGCAAGTTCCCTGAAAAAAAGGCCCTTTCCATTCAGGGATTTTGCAAGCTTGGTTTCATTGTTATTA
AAGAAAGGAGCTTGCCTGACTAAACATAGAGCATTAAAGCTGTCCCTGTAGGGGATTCTGAGGCCCTTCCTGGTGAAGCTCCCCTGCCAGACTCAGGCTG
CCTCCTCTTGGGGTCTGACCCGCACAGCTGGCTCTCAGGCCTCTGTGTTATCGTGAGATGGGGTGTCCCCCCAAGTCAGGATGACCTTCTACCCACGTGC
GTCTTCTCTGTCTTAGGATGAGGTGCTCACGATCAGCCAGACAACCAGAAGCCCAAAGAAGGGGAGAGGAGACTTTAAGAACCCGTAGGGCTAGTTAGAG
CACCGAGCCTCTCACTTCTGTCTTCATCCTGACACCAGGAGATGATGTGGGCCCAGGGGTTGGGTCTGCTGCAGGCCAAGGAGAGCTGACGGGTCAGGAT
GATGAAGAGGCTGGAGAGCTAGCACGGGGGTTATGCACATCAGCTCTGGAGCAAATAACCTCAGTTGGTATCCTGGTTCCCATGCCTTAGGAAAGTTACT
AAAGGTCACTGAGCCTTAGTTCCTCATCTGTAAGATGGGAAGAAGATTATTAGGAAAATTAAGTGGAAGCAATAATAATATCAGCTGTTGCCTCTGGGGC
TGTGCTTGCCTGCGAGCCACACCAGGCTGCAGATGACAGGAAACACAGTGAGAGCTGGAGTTGCTGCTGACTGGGTGCCCCTCCATTCCAGCAATTCCCT
TTCTGTTTGATGTCCGTGAACATCACCCACATTGCCATCCAGGCCTTGAGAGAGGAGTGTCTCTCCAGGTGAGTCCCCAAACACCAGCTGGTTAGAGTGA
CCCAGCAAAGCCTTGTTCGTCCCCACTCTGGCTTAATTTTCCCCAGCTCTACTCCACCTGCTGGCTCCTGGAGGGYCTGGACAAAGTCCCCATGCACCGG
TCTCCCCAGGACATCCCTTCTCCCACCCCTGGCCTTAGATGTCAGGCTCCTGGGGAATGGTGGGGGCATCCTGGGTTTGGGCTGGCTCCCCTSGGGAAAT
GGGGAAGGAAGGCGGGAGGGAACCTAGGTCTCAGCCTTCATCCACCGCTGAGCAGGTCACCTTGCCTTTTTCCTGCAGAGAGTGTAATCGGCAGCAGAAG
GTCATCCCCGTGGTGAACAGCTTCTATRCCGCCACATTCCTCCAYCTCGCACATGTCTGGAGGACACAGCGGAAGACCATCTCAGACTCGGGCTTTGTCC
TCAAAGGTGTGCTCTTTCTTCTGGGGAGGCCTAGGCTGAATGCACAGTGTCCCAGGTCCAGAGAGCCCAAGGTGGTTGCTAGACTGGTTTTGGCTGCAGT
TCTTCCCCATCCACACTTTCTCAAATTCCAGCTTACCAAAATCTCCATCACCCACCCSCTGGAGTCTGCTAGTTCTCCTTTCTCTGCCCTGACTGTYGCC
CTTTTCTGGTCTTATACTTATGACAAGCATATATTCTGATCAAAAATTGGGAGCCAGGGTCCAATAGTTGGACTATTCAAAGTTGCAATTGTGCAGACAA
GGTAGAGTGTGTGGTCCCTGTGGCTGTAGCTGGCTCCCTAGCCTACCTCTCTGGTGATCTCTCCATCTGAGGCTCCTTCACTTTCTCTCCATGGGATAGG
GGTTGGGGGTACTCCCTAGAGCTGCTAGGCTTGAGGCCTTGACTGTTGTGTCACCCAGAGCCCCCTCAAGCCTTCTGCTCCCCAATTCTCTCTGTTGCAG
AGTTGGAAGTATTGGCCAAGAAGAGCCCACGGCGGCTGCTCAAGACCCTGGAGCTGTACTTGGCCAGGGTGTCAAAGGGACAGGCCTCCTTGTTGGGAGC
ACAGAAGTGCTATGGGCCAGAAGCCCCTCCCTTCAAGGATCTCACCTTCACAGGTGAGAGTGACCTGCAGTCTCACTCATCCGAAGGCGTATGGCTGATC
TGACCTCCGAGATGAATGGAGGCTTAAAGGCTGAGCTGCAGGGGCTTTCAGGGGGTCAGTGGAGCCATGTCAGGAGCCTGGCCAGGCCGCACCCCTTGCT
GTCTCAGCAGATGGGATATAGGAAGCTCCTGGGCTTAGCTGTGGGAAGCCAAGTACCCTCACCGGCATKGGACATGAGGGGCAGCTAGACTTCACCCCCT
TCCCGCAGACCTGCCTCCAGAGCAAGGAGAATTCTGCCTTAATCTGTTGGGCTCCAGTCTCCGGGTTGAATTCCAGTGTATCCCACTGGGAGTGAATGGA
TCATGAGGTGGGATGGCCCCATCTGGATGTTCTGCAGATCCCCACATGGGAGGAGATTCCCAAGTAGAGGCAGCCAGAATTCTGACTCCCTGGCAGCAGC
AGGGCTTTCAGGCACCAGTGTCTGTGTTGTTAGAACTCAGAGGAAGAGGCAGGGGCAGCAGCCGACAGGGGGCAGCATGACCCAAGCAAGGGGCCTGAGG
CCTCAGTGGGGGTAGGGCAAGGAGGTACCTCACAGGTGGGTGTGAGGCCCCCTCTGGAGTTTCTGGCCATTCACTTACCCACTCTCTTCTCCCCCTGACC
CCCGCTCCATTGTTTATGATGGAAAAACGGACATTTGGCTAGGTGTCTCTCACGGCTGCTCCATCCTAGCCCCCACAAGCTGGGGCTTCCTCCTGTAGAT
GCTGTGCATGCCCCATGATGAGTTTCTGGCCTAATTGAGGGAAGGAGGAAATTCATACCAGCAGTTTTCAAATAAAAGAATTGTTCTAATTAAGCGTCTC
AGGTGTTTTTTTCCAAGACAAGTCTTGCACCATCCTGTGGTCCTGTCATTCCGGAACCTGGTTAGAGCCAGGCACACCTAAGGGTGAAGGCATAGGTGGG
TTCCAGCCTGGTCATGGGCTCCAGGAGACAGAAGGTTGCCTGTGCTGCAGCCAAACCTTGCTGAATTCATAGGATGTCCATCCTCTGCTATACTTACAAG
CCCAGAGACTCCTTGCAAGCTCTAGCCAGTGGACGAGGTAGCCCAGCTCTTGTTAAGATTGACTGGTATAAGGCATCCACACCACGTTTTTCCTGCATTT
GCTTCTGGCGAAGGCCAGCACTGTTGGTTCCTTCCCAAAAGAGCCTCCAGACTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAG
GCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTGAAAATGCAAAAAATTAGCCGGGCGTGGTGGCG
GATGCCTGTAGTCCCAGCTACTCAAGAGGCTGAGGCAGGAAAATGGTGTGAACCCGGGAGGCGGAGTTTGCAGTGAGTCGAGACTGTGCCATTGCACTCC
GGCCTGGGCAGCAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAGAGCCTCCAGGCCAGGGTACCTGAGCTGGGGAGTGGGGGGCAGGTGAGAGCC
CCACTATGCTACCTTCTGTCCTCCGGACCCCCTCAAGTGGAATGCTATGGAAGACCACTATCTGGCCCTGCAGGCCTCTTTAAGTCTGACCCACTGCAGG
GGGAAACATCACAGAGGTAGGGAAGAGAGGTGGCCACCCAGGCGTGGAGGGGAACTCCTGACTGCTGTCAGCAGGATGCCTCAAGGGTGGGGCTGGTAAC
AAACCCCATAGTTTGCCTTGTGTTGTCTGCCTGACCTGAACTAACCCCTTCATTCACAATACTTCCTCCAGTCTGGTCCTCAGCTAACCAACAGAGATAG
CAGGGAGATTGCTGGGCATGGCATGGCAGGAGTTGAATTGCAGGGGAGAAAAGCTGCAGCTCGGCCTCCACTTTGGAGTATCAGGTTGGGTGATTCTTCC
CTCTGCAGGGTCCTTTCTGCCCACCATCCACCTGTTTAGTGCCCCCCAGATGACAGAGTACTCACAGCTTCAGACCCTGGAACATTAGCAATAATGTAGT
CTGGCAATTTTAAATTTACAGTTCTGTTAATGAACTGGTTGTGAGGGGTACCTGAACCCTCTGAAAGCAGATGCAAAAATCTTTTTTTTTTTTTGAAATG
GGATCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAATCTCCACCTCCCGGGCTCAAGCCATCCTCCCACTTCAGCCTCC
TGAGTAGCTGGGACTACAGGTTTGTGCCACCATGCCCAGCTAAGTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGGTCCCCAGGCTGGTCTCAAAC
CCCAGAGCTTAAGGAGTCCGCCTGCCTCTGCCTCCCAAAATGCTGGGATTATAGGCATGAGCCACCGTGCCCAGCCACAAAAATCTTAATCTGTGTATAT
TTATAGGGAAAGGGGCTAGGCCTTTCATAGGAGACTTAAAATACTCCCCGTCTCTACAAAGGTTGTCAGAACCACTAATGTAGTGCAACCTTTATTCTCT
CCCCTTTAAAAAACCATCCCTGGCACCTGCTCTTTGTGTAGGCTGTCAAGTAGGGCTAAGAAGTCTATGGAGAAGACATGGAGGCAGATCCACAGAGGAG
CTCATTTCTTTTTTATTTTTATTTTTTGAGTCGGAGTCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACCTCTACCTCCCGG
GTTTAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGCATGCGCAACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGAAAGGGT
TTCCATGTTGGCCAGACTGGTCTCAAACTCCTGATCACAAATGATCCGCCCGTCTTGCCCTCCCAAAGTGCTGGGGTTATAGGCGTGAACCACCGCACCC
GGCTGGGGTATCTATGGTATGGTTCTTGGCACAAATCAGCAAGTTCAACTTGCCAATTGATCAGAATTTTTGTTTTGGGATGAAAGAATCCAATTTCTGG
AGCTCAGAAGCCACATAGTCCAGAGGACCTGGGGGTGAGGATGAGTCAGGGTGGTTGCAGCCTTGCCAGGCCTCACGGCCTCTGGTCCAAGCTGACACAG
GCTCACTCACACCCTGCTCTTGGCCCCTGGGCATGCCTTCTCAGATGGGACCTCTTCTTGGCTACTGCATTCTCCCTGCTATTTAGCTCTCTAGCCTCTG
ACATCCCACCACCACTTCATTACCCAAGAGAATGAACTAAGGTCTAGCAAAGGAAAGTAACTTGCCTAGGATCACAGAGGCAGGGTAAGAACCAGACTGA
AGACTGTCCATGCTAGCCTGGTGCTTTTCGCACAGCCCTGCAGTGGCCCTGGGCTCACCAGCCAAACATGCTGGGCAATGTGCCTACGAAGTAATAAGCC
AGGCTTGGTACAATTGTGAAAGGCTGTCCTCTCTTGCTCAGTGGGCATATGTCACTTGAAGCTGCCTGGCAGTGCTTTATTAGGGCATCCGAAGAAATAC
TGCCTTAAATGGAACTGCATCCCAAGCCCATTGCCACAACCTTCTCCCTGTTGGGAATGTGAGACTGAACTGAACACCCGGATGCAACTGATCCTGAGGC
CTGGCACTGTGCCACCTCCCTATTGGGTTCATGGCAGTCCCTGCAAGCCTGGCTGGGACTCCTCTGTCATGCAAAGCAGCTCTGGCCCCTCCAAGGCTGT
CCAATTGTCATCTGTGTGCTACTCCACCCCCAGCATGGGGATGAACCCAGGTGAATAGGTGGGTGACAGTGAGAATCAGCCCAGGGCAGGTGGTGCAGGA
AAAGAGCTGGGAAAGCACTTGTCTCCTTTATTGAACATCTGCAGGGGGCACCTCTGCACTGACCAGGCAGCCAGAGAAGCAAGCAGGCAGGTGGTGGGGG
GCAGGGGAGCATGGGGCAGGAAGACGCCCACCCTCATTTCCAGTCCTTGAAAAATTGCTTGAAGATGGGACTCTCACGGCCCTGAGGCAGAATCTCCACC
TGCAGGGACAGCGGGGGAGAAGTCTGGTTCACAAAGTTGCCACCTCTGCCTCTGCCCAGGAGGACAGGAGGGGGCCAGAGCCAGGGAGGAGGGTGTGGGC
GCCTGGCCTGAATCCATGTGCAGTCCAGGCTGGGAAAGCTCCCCTGGATGAGCCATGAGATGAGAACCAAGATTTCAGGGACACAGACAGAGGCAACAGA
CTGCTTCAAGGGCGTGGGTGCACAGTTTAATAAATGCCACCAACGGTAGCTGAGCCCTGTCAGCTCCCCACGGGATGACTTGTGGACACTGTGCTGCGGC
AGGAGGGGTGGCACCAGCCAGGGACAACGGCCCAGAGGAGGAGTACCCAGTTCTCTGGGCACCCAGGAGAGTGCTGCCCAACATCCTCTTTGAAAATAAT
AAGTATTTTGACATTTTGAAGGATTGAGATGGGCTTTCCCACTGGATGGGTCTAAGAGGGAGGCCTGGTTGTTCCTGACAGTGCCCAAGGCTCTCCTGCC
CTTCCTGGCCAATTTGAGGGGTCAGGGGCCACAGGAAGAGCCCTAGGAAGAGGGCTGTGGTTGTGCGCATCTCCTCACCTGAGTGTTCGGGGCGTACTGC
ATGCGCGAGATGAAGCCCTCGGCCACCTGCAGGGCTGCCTGCCGCTCCTTCTCATTCGCTTTTCGCCCTAGATCATAGGAAGGAGATTTTTAAAAAGAGC
AGGGACCCTCTTTAGCTGCCATCCCATTTTTCTTGAGGAAATTTAAGGGAGTCCACAGAAGAGCCAGCAATTTTTACAATAAATGGACCAGGGGTCCCAA
GAATGCCGAGGGGCTCTTTGGAGATGTGGAGTCAGTCCCTTAAGAATTTTCCCAAACCGGCAGCACCAAGGTAGATGAAAACCCCTCGTCTGCCCGGGTC
TGATCATGCAAAACTCTGCTCTGACCTGGGCCCCTGGAATATTTCAGGGAGGGGAACAGGTGTTCACCCTAGCATCAGACTGTGAGGCCGCAGGTCTCCT
TTTCCTCTAGGACCCCTCACCTCTTGAATTCATCAAGCCTTTTCTGAAAAACTAAATAAGACAAAGGGTACAATTTATTATAGAGGTGATTTACTCCCAT
AATGCCAGCAGGGCTACACTGGCCTAACAGTTATGCTAACTAAGCACTTACAAAAATGAAGACCCCACGTAATCCAGTCATTTCTGCTAGCAGTCCTGAG
AACTCAAACTGCTCATTCCAGGCTTTTTTATTTTTATTTTTTCTGAGACGCAGTCTCGTTCTGTCGCCCGGGCTGGAGTGCAGCGGCACCAACACGGCTC
ACTACAGCCTCAACCTCCCAGGCTCAAGCAATCTGCCCACCTCAGCCTCTCGTGTAGCTGGGACCACAGGTGCACGCCACCACACTCAGCTAATTTTGGG
GGGTTTTTTTTTTGTAGAGAAGTGATATTTCGCCATGTTGCCCAGGCTGCCAGACATTTTTCCAAGGAAATGATACCGAAACGATGCCGTGATGTGGTTG
GCTCTCTAGGCAGGCTATAAAATGCCATGAACTACAATGTATCTGAAATTAATATGCTGGATTCCTTCCTCTGTCAACTGACCAGCTGCCCCCCTACCCA
TGAGATCCTTCTCTTCCTGGCCTCCCAAGTTTCCTGTTTTTCCTCTGATTTCTCTTTCCATAGTTGTTGGGTTCCTTGCTCCGGTTTATACATGCTTCTG
TGGGCCTCTGTGAACCCCCCTCTGCTTGGCATTGGTTCCATGGGATATGTGCCCTCTGGCAGGAGAGAAAAGGCAGCCCTGCAGCACACGCCTCTCGCTT
TCCACTCTTTTGCTGCTCCCAGCTCCTCCCTTTCACTTCTATCCCTGCTGAGTTTCAGAAGCAATACTATGAAATGCCTGGTAGCAGCTATCTGTAGATA
CCCACCTACTTGTCTGCCTTCCTGACCAGGCTAGGGGCTGGCATTTTCTCCACCTTGGTTGACCCCACAACTGGGTGTTGAGCAAATGCTATTGCTGAAA
ATTCTCAGACCCCAGGCAGAGACTGAGAACAAGTTTGTTTCATTTTCAGTCAAACCAAGCAGAACAGGCTCTGCCCAACAGTGTTTCTATTTCCAGAAGA
TAGAATCTTTTGGAAAAACAAGTTCTACAGGTTCACCACTCACTGCATAAAATGATGTTTAATTTGTCTAAAATTCATTTCTGTCAAACCTTGAGACAGA
ATCCCAGGATCAGGGGTCCCAGAAGCCCCAAAGGTCTAGAGCTGGGCTAGGGCAGTGGTTCTCAAAGTGTGATCCCTGGAACCAGCAGCACAGACATAAC
CCATAACCTTGTTAGAGATGCATGTTCTGCCCCACTCCAGACCTAGTGAATCAGAATCTATGGGGGTGGAGCCCAGCCATCTAAACAGGCCGTGGGGTGA
TTCTGAGGCTTGCTGTAGTTTCAGAGCCATTGTCTAGAATTTAGGAGGTGGGAACAGCAAAGAGAAAATGGCGAGGCAGTGGCTCACATCTGTAATCCCA
GCACTTTGGGAGGCCGAGGCCGGTGCATCACTTGAGGTCAGAAGTTCGAGACCAGCCTGGTAGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCC
AGGTGTGGTGGCACGCACCTGTACTCCCAGCTACTCGGGAGGCTAAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGT
GCCACTGCACTCCAGCCTGGGTAACAGAGCAAGATTCCTTCTCAAAAAGAAAGAAAGAAAGAAAGAAAGAAAATAGCAAGGCCTAT


SNP Information

Context             (SEQ ID NO:65875):
TGGCAAATGTTTCTGTGAGTCTGGGACTAGGAGATAGAATTCCTGAGAGTGCTCATTTTAACTATATAACATAGATTACAGTACCTTTTTCAAATCCTAA
R
ATGATGACATCCTACCTCTGGAGGAAACCAGAGTGAAGGCCATGGAGAAAGGGCTGCCATCCCTGTCCATCTTTCACCCAGCCATGAGAGAAGACAGGGT
Celera SNP ID:            hCV25760701
SNP Position Genomic:     20333
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:65876):
TGAGAAAGGTTAGAACATCGTGTTGCATTTTGAATTTCTACCATTGTTGGAACCAGGTCTAGTATTATAAGCCCCTGACCCAGCCTGTGTGTGAGGCCTA
R
ACAAAGCCTGAGCACTTCAGCTAAGACCACCCACCAAGGTGACACCTTTAGCCTCACGCCTTTGATAAGCTGGCCCAGGTCCCAGTAACTCCATTGTCAG
Celera SNP ID:            hCV27912215
SNP Position Genomic:     7581
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65877):
TGTAGTTCTCGGGGCCAGGGGAGCCGGCACGGAAGCGGCTGTGCGCATGAGCAGATGAGGCCTAGCCGAGGCGGCGGGACCCCCAAGTTTGGAAAGCTCT
K
TTAACGGTGAGAACGCGTTAACACTTGCCAAGGGGAGTGGTTGGTGCCTGTGCGGAGCTAGCAGCCGGCCTGAGGAGGGAGGGAGAATGTGATCCGGTGG
Celera SNP ID:            hCV27833926
SNP Position Genomic:     6081
SNP Source:               Applera
Population(Allele,Count): african american(G,3|T,35)   caucasian(G,1|T,35)   total(G,4|T,70)
SNP Type:                 UTR 5


Context             (SEQ ID NO:65878):
TCCTGTTCTGCTTTGATATTCATGAACATTTTAGCTCTCCATGAGTCTGAAAGTTTTTCCTCTATTCTGATGTCACAATCTCCAAAGTTATCAGAAACCT
K
CATTCAAGAGCCCCTGTTAGAGTTTTAAGATGATGATTATTATTTATTTATTTATTTTTAGACTACTCTTGCTCTGTCGCGCAGGGTGAAGTGCAAGTGG
Celera SNP ID:            hCV2763600
SNP Position Genomic:     31899
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65879):
AGCAGTATACTAAATTGTTAAAAGCTGTCAATAGCTCAAAAGAGAAGTTTGAAGACTCTGAAAAACAAAACAAAGGATCAGCAACGTTTTAAGCAAAAGG
Y
CAAAAAAATTAGTTCAATCCATGCAGTTAATTCCTGTTCTGCTTTGATATTCATGAACATTTTAGCTCTCCATGAGTCTGAAAGTTTTTCCTCTATTCTG
Celera SNP ID:            hCV2763601
SNP Position Genomic:     31767
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65880):
GCCAAGCCTTGCCATGGATTTGTACCATCAAATATCTATGAGTTGGGTGAATTTCCTCTCCTCTTGAGGTTCCAGGATAAACCTGGGGCTCCTGGGCCTG
Y
CATAAAGTAACATTCTTTACTTAACACAAGTCAGAAACCCTGTTCAGGGACTGTGTACACAAAATATGAGGCCAGTTTCCCAAGGGCGTTATTGGCTTCA
Celera SNP ID:            hCV2763602
SNP Position Genomic:     31346
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65881):
GCAAATAATGGCTGATAATACCTACGCTTGGGGATGTCTTTCACCTTGCAAAAAATCTGGGAGCTGGAAGAGCCTGGCTCTAGAGACTCAACAGGTGCCT
Y
GCAGCTTCTGCCTCCTTCCCTTGGCCCAAAGGCCAGCCAGATAGCTGGGGGAGTTACTTTCTGCAAGCACTGCCTCTGGTCTGAGCCTGATGGGAAGTTG
Celera SNP ID:            hCV25749717
SNP Position Genomic:     22346
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,28)   caucasian(C,2|T,26)   total(C,4|T,54)
SNP Type:                 INTRON


Context             (SEQ ID NO:65882):
GAACAAAGGAAGGAAGAAATAACTTGTGGAATGCTGAGAAAGGTAAAAACACCTTCAAATAAGGAAGAAGAATAGGCTATGACTTAATGCTTGCTTGGAC
Y
AGTATAAGCATGCCAGGGCAAATATTTAGGCTAAATTGTGGGAGCTAAGAACATAAAGTACAGTGACTTCTTCATTATGGCTAGCAGATATTTAAGAATG
Celera SNP ID:            hCV2763603
SNP Position Genomic:     29496
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65883):
CAGCTTCTAGAGGCCACCTCCATTCTTCCATCTTCAAAGCCAGAAACAGCATCTCTCTGAGCCCGATTCCTCACATCTCTTTCTCTGGCTCTGGGCTTCC
R
CCTTTCTTTTCCACTTTTAAGGACCCTTCTGATGACATTGGGCCCACCCAGACAGTCCAGGATCATCTCCCTCTCTGCTGATCAGCAACCTTAATTCTAC
Celera SNP ID:            hCV2763604
SNP Position Genomic:     27355
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65884):
GTCTCAGCCTTCATCCACCGCTGAGCAGGTCACCTTGCCTTTTTCCTGCAGAGAGTGTAATCGGCAGCAGAAGGTCATCCCCGTGGTGAACAGCTTCTAT
R
CCGCCACATTCCTCCACCTCGCACATGTCTGGAGGACACAGCGGAAGACCATCTCAGACTCGGGCTTTGTCCTCAAAGGTGTGCTCTTTCTTCTGGGGAG
Celera SNP ID:            hCV25751634
SNP Position Genomic:     41628
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65885):
GTGGCTGAGGTGGAGATGAAAGTGACAGGAGGAAAGATCACTTGGTGGTCTTTTAGGCTGTTGTAAACATTTACTGTAAGTGATATGGAAAACACTGGAG
T
GATGTGACAGAATCTGGCATTTTTGGGTTTTTTCCTCTCTAAAAAATATTTATGAAAATTTTATCATATATTATTTTACTTTCTGAGTGAAACAGAATCA
Celera SNP ID:            hCV2763605
SNP Position Genomic:     23870
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65886):
CCTTCCATTCCCTCAAGGAACCAGAAGCTATTTAGGAATTTAAGAAAGATATAAGCTGGAAAAAGAAGGAATATTTGGGGGAATAAACGCTAGGGGTGGG
S
TGGGTGCTGGGCATAGTGGCTCACACATGTAATACCAGCTCTTTCGGAGGAGGCTGAGGTGAGGGGTCACTTGAACCCAGGAGTTCAAGGCTGCAGTAAG
Celera SNP ID:            hCV2763606
SNP Position Genomic:     21690
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,6)   total(G,6|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65887):
AACAGAGGTGTATGGTTGGGGGTTCCTATACAGGGTGTAAGAAGGGAAAAGTGGAAATTAGGAAAGGCCCTTAAACAAACTGGTTGCATGCTCTTATGTG
R
GTACCCACCCCAGGCAGTGACTTGCCCCCTCGTAGATGAGAGCATTTAGGGATCACCTCGTGGGGCAGATCCGCCCCATACCCACCACAGAGGCTGACCT
Celera SNP ID:            hCV2763607
SNP Position Genomic:     20843
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65888):
GATCATATTTTTGGTATTAAACTGGAGTCTCTCCATCCTTCACATTGTTGATGTCCTCTGTAGCAAACCGGAAAAGTCAGTGACAGAAGATGCCGCTAGC
R
GTTTGAGCCAGAGAATGACAGCTCTGGTTTGGAGAAAAGGGCCGGATGGTGGCTCTAGAAAGCCCATCCTTCTGCTCTTCTTTTTTTCTCCCCCTTATAT
Celera SNP ID:            hCV2763608
SNP Position Genomic:     18396
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65889):
CTCTGCCTAGCACATACCAAAACTCTGGAATCACAGAGGGAAAGCTGGTGTTCTGCATAAAGTATCTTTTTTGTGTTTGTTTTTTTGAAAAAAAAAAAAA
W
TTTTTGTAGAGACAGGATCTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTAGACTCAAGTGATCCATCCGCCTGTAATCCCAAAGTGTTGGATTGTGA
Celera SNP ID:            hCV7934267
SNP Position Genomic:     39606
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,7)   total(A,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65890):
CAATCTGGCAGAGAGTGTGGGTGTGTTTTGGGGCAGGTGGCCTGGATAGCCAAGACCCAGTGCATGGCCGAGTCCTCCAGACCATCTATAAGAAGCTGAC
Y
GGCTCCAAGTTTGACTGTGCCCTTCATGGAAACCACTGGGAGGACCTGGGCTTTCAGGGTAAGAGGGAGGAGTAGCTCATCTTCTTTTTCATGCCTCTGA
Celera SNP ID:            hCV25749848
SNP Position Genomic:     22917
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65891):
AGGTGGTCAGAGCCCAAGAAGAATGGGAAGCTGTGGACACCATCCAGCCAGAGACAGGTAACTGTACGAATGCTGCTGTCTCCCCATAGCCCCTCTGCCA
S
CAAAGGCACCATCCACACATGTGGCAAATGTTTCTGTGAGTCTGGGACTAGGAGATAGAATTCCTGAGAGTGCTCATTTTAACTATATAACATAGATTAC
Celera SNP ID:            hCV25750961
SNP Position Genomic:     20211
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,35)   caucasian(G,38)   total(C,3|G,73)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65892):
GGAGACAGAGGTTGCAGTGAACCGAGATCACGCCACTGCCCTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAA
A
TCTGTCTCTTGGAGTTGTTGTAATGATTAGTGACTTAACTCTACCCAGTGTGGCACTAGCGCTGGATTTCCAAGACCACCTGCAGGTTCAATGATTCCTG
Celera SNP ID:            hCV26995975
SNP Position Genomic:     39128
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65893):
GATGGGAAGTTGATTAAGGGAAATGAACCAGCATTCTGCCCATTGCCTGCAACTTCTTCCCCAGAAAAGAATCCAGCCAACTATTCGAAGGACTGGGCTC
R
CCGCCCTCCGACACTACCTCTTCGGGCCTCCAAAGCTCCACCAGCGCCTTCGGGAAGAAAGGGACTTGGTCCTGACCATTGCTCAGTGTGAGTGCAATGC
Celera SNP ID:            hCV25751765
SNP Position Genomic:     22535
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65894):
GAGCCCAAGAAGAATGGGAAGCTGTGGACACCATCCAGCCAGAGACAGGTAACTGTACGAATGCTGCTGTCTCCCCATAGCCCCTCTGCCAGCAAAGGCA
Y
CATCCACACATGTGGCAAATGTTTCTGTGAGTCTGGGACTAGGAGATAGAATTCCTGAGAGTGCTCATTTTAACTATATAACATAGATTACAGTACCTTT
Celera SNP ID:            hCV25750948
SNP Position Genomic:     20220
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,40)   total(C,75|T,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65895):
CCAGAGAGCCCAAGGTGGTTGCTAGACTGGTTTTGGCTGCAGTTCTTCCCCATCCACACTTTCTCAAATTCCAGCTTACCAAAATCTCCATCACCCACCC
S
CTGGAGTCTGCTAGTTCTCCTTTCTCTGCCCTGACTGTCGCCCTTTTCTGGTCTTATACTTATGACAAGCATATATTCTGATCAAAAATTGGGAGCCAGG
Celera SNP ID:            hCV25750060
SNP Position Genomic:     41858
SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,4)   caucasian(C,36)   total(C,66|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:65896):
TGCACCGGTCTCCCCAGGACATCCCTTCTCCCACCCCTGGCCTTAGATGTCAGGCTCCTGGGGAATGGTGGGGGCATCCTGGGTTTGGGCTGGCTCCCCT
S
GGGAAATGGGGAAGGAAGGCGGGAGGGAACCTAGGTCTCAGCCTTCATCCACCGCTGAGCAGGTCACCTTGCCTTTTTCCTGCAGAGAGTGTAATCGGCA
Celera SNP ID:            hCV25752870
SNP Position Genomic:     41493
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,39)   total(C,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:65897):
CTATCCTCAAGCTAAAGGTCAGCTGCCTCTACAGATCTCAGAGTTGAAGAACCATGGCATTCTCCAGGCTCTGACCACAGAAGCTTATGAATGGGAGCCA
Y
GTGGTAAGGTTCCCTTCAGGGCCCTTGGAGTCTGGGTGGGACCCAAGTCAGACCTTCCCATGCATCTGCTGTTCATCATTTGAATTTCTCTCACTCCTTG
Celera SNP ID:            hCV25750602
SNP Position Genomic:     14571
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,37|T,1)   total(C,71|T,5)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65898):
CTGAGACAGGTCTCAGTTAATTTAGAAAGTTTGTTTTTCCAAGGTTGGGAATGCGCACCTGTGACACAGCCTCAGGAGGTGCTGATGACATGTGCCTAAG
K
TCATCAGAGCACAGCTTGGTTTTACAGTTTTAGGGAGATATGAGACATCAATTAACACATGTAAGATGAGCATTGGTTCCTCCGGAAAGGTGGGAGGACT
Celera SNP ID:            hCV7935931
SNP Position Genomic:     35329
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65899):
GGACACATAGAAGGGAACAACACACACTGGGGCCTATTGGAAAGTGGAGGGTTGGCCGGGCCCGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGC
Y
GAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTAGTCGGGCCTGG
Celera SNP ID:            hCV26063050
SNP Position Genomic:     13103
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65900):
GATTTTAAAAGAACACGTTGAAAAATTAGCTCTGTATCTGTGAAATGAGTTACAAACAATTGGCCGAGTATTTTGGTCGGTTTTTTGTTTTTCATCTGTA
R
CAGGGGATAGGTTTGGCTGAGCAGAAAGGCCATAGGAAACTGCTTCACTAAACTTCGCTCACTCAGAACCCTCAGACTTTCAAAGAGCCAGGAAATCGGT
Celera SNP ID:            hCV2763610
SNP Position Genomic:     12635
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65901):
AGGCAGGCGGATCACGAGGTCAGGAGTTCAAGACCAGCCTAACCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCAGGGTGTGGTGGC
R
CACGCCTGTAATTCCAGCTACTCGGGAGACTGGGACAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCACGGCTGCACTCC
Celera SNP ID:            hCV27845570
SNP Position Genomic:     8008
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,38)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:65902):
CGGAGCTAGCAGCCGGCCTGAGGAGGGAGGGAGAATGTGATCCGGTGGAAATTATCACTATGGGGCGAGACAAGGCCGAGAGTTGTAAGACTGAAAGAGA
R
TCCCGACTGGGAGACAGGAGTCCTGAGTTCTGGTCCTGGCTCTGCCCTGGACTCGCTGCCTTGAGGTGTTAAATTGCTTTCCTCGTCTTACGCCTCCAGG
Celera SNP ID:            hCV27845571
SNP Position Genomic:     6234
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,35|G,1)   total(A,71|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:65903):
CCTCTGCCTAGCACATACCAAAACTCTGGAATCACAGAGGGAAAGCTGGTGTTCTGCATAAAGTATCTTTTTTGTGTTTGTTTTTTTGAAAAAAAAAAAA
W
ATTTTTGTAGAGACAGGATCTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTAGACTCAAGTGATCCATCCGCCTGTAATCCCAAAGTGTTGGATTGTG
Celera SNP ID:            hCV7934271
SNP Position Genomic:     39605
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,8)   total(A,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65904):
GAGACTCAAGGGACTCTACGTATAGTTATACTTAACAGTTCTGATTTAGTACAACAGAAGCAAAATCAGCAAAGGGAAGAATTACATGGGACAAATTCCA
Y
AGGAAACCAGGTGGTGATGTCCAAGAGGCCTCTCCCAGTGGAATCACACAGAACACACTTCATTCTTCCACTGCCAAATTGTGCAATACGTATAAAATGT
Celera SNP ID:            hCV7934272
SNP Position Genomic:     39330
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65905):
TACGAATGCTGCTGTCTCCCCATAGCCCCTCTGCCAGCAAAGGCACCATCCACACATGTGGCAAATGTTTCTGTGAGTCTGGGACTAGGAGATAGAATTC
S
TGAGAGTGCTCATTTTAACTATATAACATAGATTACAGTACCTTTTTCAAATCCTAAGATGATGACATCCTACCTCTGGAGGAAACCAGAGTGAAGGCCA
Celera SNP ID:            hCV28972351
SNP Position Genomic:     20275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65906):
CCCAAACACCAGCTGGTTAGAGTGACCCAGCAAAGCCTTGTTCGTCCCCACTCTGGCTTAATTTTCCCCAGCTCTACTCCACCTGCTGGCTCCTGGAGGG
Y
CTGGACAAAGTCCCCATGCACCGGTCTCCCCAGGACATCCCTTCTCCCACCCCTGGCCTTAGATGTCAGGCTCCTGGGGAATGGTGGGGGCATCCTGGGT
Celera SNP ID:            hCV25753645
SNP Position Genomic:     41376
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,37|T,3)   total(C,71|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:65907):
CCGCTGAGCAGGTCACCTTGCCTTTTTCCTGCAGAGAGTGTAATCGGCAGCAGAAGGTCATCCCCGTGGTGAACAGCTTCTATGCCGCCACATTCCTCCA
Y
CTCGCACATGTCTGGAGGACACAGCGGAAGACCATCTCAGACTCGGGCTTTGTCCTCAAAGGTGTGCTCTTTCTTCTGGGGAGGCCTAGGCTGAATGCAC
Celera SNP ID:            hCV25751596
SNP Position Genomic:     41645
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,38|T,2)   total(C,73|T,5)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65908):
CTTCAGCTGGCTCATTGGGAAAATTAGAGACAATGTACAAAAGTAGCAAGCACAGCTGTGCTGTTGCTGTTTCAACTCTCTGCCCTCCCTGAGGAAATGC
Y
TTGCACAGGGGTAGCATCTCTTGGCCCTGAAAGAGAAGAGTTAGCCTCCACGGGCCCAAGAGGAGGAGATGGACCTCCATGGGTTATGTGAGCCACAGAC
Celera SNP ID:            hCV11537874
SNP Position Genomic:     35787
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65909):
CACAGAGGCTGACCTAGCAAGACTGAATAGCCTCGTCCAAAAAGAGAGTCCTCTTCGCCGACAATGCCAGCCTCTTGAAAGAAGATTGGTTGTAGCTGTA
R
GTGTCTGATGTTCAACTGGAAGCCAGTGCTTGGCTTGGAAGTGACAAGTAGGAGGGCCTCAGTAAATGTTTGTTGACAGAATGACTCCTATAAATCCTGG
Celera SNP ID:            hCV27521541
SNP Position Genomic:     21029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65910):
GGCACCATCCACACATGTGGCAAATGTTTCTGTGAGTCTGGGACTAGGAGATAGAATTCCTGAGAGTGCTCATTTTAACTATATAACATAGATTACAGTA
Y
CTTTTTCAAATCCTAAGATGATGACATCCTACCTCTGGAGGAAACCAGAGTGAAGGCCATGGAGAAAGGGCTGCCATCCCTGTCCATCTTTCACCCAGCC
Celera SNP ID:            hCV25750165
SNP Position Genomic:     20316
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,39|T,1)   total(C,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:65911):
GGCCCAAGGCAGGCAGACAAGGCTGGGGTCTGCAGTAGAGGCCCAGACATACCTAGATCTCAGAGGGTCTCCTTTTCTCCTACTATTGCAGTTGTGAGTA
Y
AGAGGTGGTCAGAGCCCAAGAAGAATGGGAAGCTGTGGACACCATCCAGCCAGAGACAGGTAACTGTACGAATGCTGCTGTCTCCCCATAGCCCCTCTGC
Celera SNP ID:            hCV8695235
SNP Position Genomic:     20108
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,31|T,1)   total(C,65|T,1)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,36|T,2)   total(C,72|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65912):
CAGTTCTTCCCCATCCACACTTTCTCAAATTCCAGCTTACCAAAATCTCCATCACCCACCCCCTGGAGTCTGCTAGTTCTCCTTTCTCTGCCCTGACTGT
Y
GCCCTTTTCTGGTCTTATACTTATGACAAGCATATATTCTGATCAAAAATTGGGAGCCAGGGTCCAATAGTTGGACTATTCAAAGTTGCAATTGTGCAGA
Celera SNP ID:            hCV25760502
SNP Position Genomic:     41897
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,35|T,1)   total(C,62|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:65913):
CGGCCAATCTTACTTTTCAAAAGCTCACTCTAGCAAACCTGTGAGGAGAGGATCAGAGGGTGTTAAGATCCAAGGCAGCCAGATGTGGTAGTGCGTGCCT
R
TAGTTCCAGGTACTCAGGAGGCTGAGGCAGGAGGATTGCTTGAGTCCAGGAATTCTGGGCTGTAGTGTGCCATGCTGATCATGTGGCCCCACTAAGTTCA
Celera SNP ID:            hCV25750451
SNP Position Genomic:     19718
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,4)   total(A,2|G,32)
SNP Type:                 INTRON


Context             (SEQ ID NO:65914):
GTCAGGAGCCTGGCCAGGCCGCACCCCTTGCTGTCTCAGCAGATGGGATATAGGAAGCTCCTGGGCTTAGCTGTGGGAAGCCAAGTACCCTCACCGGCAT
K
GGACATGAGGGGCAGCTAGACTTCACCCCCTTCCCGCAGACCTGCCTCCAGAGCAAGGAGAATTCTGCCTTAATCTGTTGGGCTCCAGTCTCCGGGTTGA
Celera SNP ID:            hCV27509124
SNP Position Genomic:     42569
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,10|G,1481)   total(G,1481|T,10) 
SNP Type:                 UTR 3


Gene Number:                 417
Celera Gene:                 hCG37602 - 104000116593592
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VUFE(32570409..32584808)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12577):
GTTTTCTATCTATCCTGCCCCTTCTATCCTTCATATCACAATGGAGCACAAATTATAATTAAGAGATACAAAAGCATTCAGTCACTTCCATTTTTTTCTT
TAGATACTTACTATATTAAGTCTTAAATGAACATATTGGCATTCCAAATTATTAAGATAATGTCATGCTGGTCATTGAAATGCTAAATTAACATGAAGAC
TACATTTCAAAAATACAAAAGTATAAATAGGAGTGTTTTGTATATTCATACCACGATTTTTGCCCTTAGAGGAACTCTGAAGTACATTGTTATATGTCTG
ACTAATGTATTCAACCCTGGAATTTTTGGGGAAGCATTTGTTTTTTTCTGAAATATACTGTCCCACTAAAGTATCAAATTGGGCATACATGATGACATGA
AAAGCATTTCCCAAACCATAGTTAATTTAAGTAAAATGAACTTAATATTATACAGCCTTAACTAGAAATGAGATGTCTTGCCACACTACCAGTTCTGTCA
ATAGAAGTTGAGTGAATAGATTTATATCTATTAACTAGAAAAAAGTATAGGCATAAATTAACATGTCATCTGATGTGAGCAGATTGAGAAAGCCAACAAA
TTTCTAGTTATTCAATTTAAAGGACACTGAAGTACCACAATGTATACATTCAATTTGACTACATAATAATAGCTGCTATTTACTTAGCACTTCTTCATCT
ACATATTCTGTAATCTTCATTACTATCCTGTATTAGTCCATTCTGACACTGCTATAAAGATACTATCTGAGACTGGGTAATTTATACGGAAAGGAGGTTT
AATTGACTCACAGTTCTGCATGGCTGGGGAGGCCTCAGGAAACTTATGATCATGGTGGAAGGGGCAGGGGAAGCAAGACACGTCTCACCTGGCAGCAGGA
GAGAGAAAGAGCACAAGGGAAACTGCCACATTTAAACCATCAACTCTCCTGAGAACTCCCTATCACAAGAACAGCATGGAAAAAACCCCCCCATGATCCA
ACTGCCTCCCACCAGGTCCCTCCCCCAAAACATGCGGGTTACAATTCAAGATTAGATTTGGGTGGGGACACAGAGCCAAACCATATTATTTTGCACTTGC
TCCCTCTCAAATCCCATGTCTTTTTACATTTTAAAACCAATTATGCCTTCACAACAGTCCCCCAAAGTCTTATTACAGCATTAACTCAAAAGTCCAAGAC
CAAAGTCTCATCTGAGACATGGCAAGTCCCTTCCACGTATGAGCCTATAAAATCAAAAGCAAGTTAGTTACTTCCAAGATACAATGAGGGAACAGGCATT
GGGTAAATGTTCCTGTTCCAAATGGGAGAAACTGGTCAAACCAAGGGCCACAGGCCCCATGAAATCTGAAACCCAGCTGGGCAGCCCTTAAATCTAAAAG
CTCCAAAATCTCCTTTGACTCCATGTCTCACATTCAGGGCACACTGAAGTAAGGGGTGGGCTTTCATACCCTTGGGCAGCTCCGCCCCTGTGGCTCAGCA
GGGTACCCCTGTGGCTTTCACAGGCTGGCATTCTGTGGCTTTTCCAGACGTATACTGCAAACTGTCGGTGAATCTACCTTTCTGGGGCCTGGAGGACAGA
GGCCCTCTTCTCACAGCTCCACTAGGTAGTGCCCCAGTGGGGACTCTGTATGAGGGATCCAACCCCATATTTCCCTTCCGCATTGCCCTAGCAGAGGTTC
TCCATGAAGGCTCTGCCTCCATGGCAGACTTCTGCCTGGACATCCAGGCGTTTCTATACATCCTCTTAAATATAGGCACAGGTTCCCAAACCTCAACTCT
TGTCTTCTGCGCACCTGCAGGCCCAACACCACGTGAAAGCTGCCAAAGCTTGGGGCTTGCACCCTCTGAAGCAATGGTGCGAGCTGTAACTTGGCCCCTT
ACAGCCACAGCTGGAGCTGGAGCATCAGGGATGCAGGGCACCATGTCGTGAGGCTGTACAGAGCAGCAAGGCCCTGAGCAGGAAACCATTTTTCCCTCCT
AGTTCTCAGGCCTGTGATGGGAGGGGCTGCCCCGAAGATCTCTGCCATGCCCTGGAGACATTTTCTCCATTGTCTTGGTTATTAACATTTGGCTCCTTGT
TACTTATTACTTATTACTTTTTACTTATTATTACTTATTACTCCTTGTTACTTATTCAGATTTCTGCAGCTGGCTTGAATTCCTCCCCAGAAAATGGGGT
TTTCTTTTCTACTACATGGTCAGGCTGCAAATTTTCCAAACCTTTATGTTCTGCTTCACTTCTAAACCTAAGTTCCAATTTCAGACCATATCTTCGTGAA
TGCACATGACTGAACGCTTTCAGAATCAGCCAAGTCACCACTAGGATGCTTTGCTGCTTAGAAATTTTCTTCTGCCAAATACCCTAAATCATCTCAAAGT
TCATCAGTTCTCTAGGGCAGGGGTAAAATGCTGCCAGTCTTTTTGCTAAAGCATAGCAAAAATAACCTTTGCTCCAGTTCCCAATAAGTTCCTCATCTCT
GGGACCATTTCAGCCTGGACTTCATTGTCCACGTCACTATCAGCATTTTGGTCAAAAGTATTCAAAACAAGTCTCTAGGACGTTCCAAACTTTCCTATAT
CTTCCAGTTTTCTTCTGAGCCCTCCAAACTGTTCTAACCACTGCCTGTTACCCAGTTCCAAAGTCACTTCCGCATTTTCAGATTATCTTTATAGCAGTAC
CCAACCCTGCCAGTACCAATTCTCTGTATTAGTCAGTTTTTACACTACTATAAAGAATATCTGAGACTGGGTAATTTATAAGGGAGGTTTAATTTACTCA
TAGTTCTGCATAGCTGGGGAGGCCTCAAGAAACATACAATCATGGCAGAAGGCAAAGAGGAAGCAAGGAAAGTCTTACATGGTGGCAGGAGAGAGAGAAA
GCACAGGGGAAACTGCCATATTTAAACCATCAGATGTTTTGCGATCTCCCACACTATCACGAGAACAGCATGGAGGAAATCACTTCCATGATCCAAACAC
CTCACACCAGGTCCCTCCCTCAATATATGGGGATTACAATTCAAGATAAGATTTGGGTGGGGACACAGAGCCAAACCATATCACATCCTGAAAGTAGGTA
TCTCTAATCCCATTTGACAGATGCAGAAACTAGGACTCAGAAATGTTAGAGAATTGGTCCCAGAACACTATATTATACATTTATTAAGAGGCAAAATCTA
AATTTGCATTCAAGATTCCAAGTCTACTGCTGCTTTATTTTTTTGCACATGCCAATAGTAAAAGCTTGGTTTTCAAACTGTATCACAGATTAAGATAGAT
TAAATTAGAACAATATTATAATAATTAGAGGATGTTAGAACTCCTCTATTTCACAGAAATAAAGGTTAAATGATACCCAAAGTAACAGGTATCATAGGTA
AGAAATTAACACCTTTTTTTAAATACCAATACTCATGTATTATTCCTTTACCCTGCATTCTCCAGATACAGATAAAAGGGCTGACTACATTTTTTTTAAA
TATGTGAATTGTTCTAAAATTCAATACTTTTCTACATTCTGGTGAGATCCTCTTGGTAAATTATATAATTAAATATCAGTCAAAACATACTAAAAAATGT
ATTGTGGTGCTGCATATAATGTATATGTACTCTGATTTTCACATATTTGTCTACATATACATTTGTCAATTCACAATAACAGAGTGATGTGCCAAGTAAA
CTATCGTGTAGTTTCACTTTTGAAAATTTAACAATAGAATATAAGTTTTGTTTTTCACAGTCTAAGTAAGTATAGGTTACTGTGGTTCATTTTAGAACAT
TCATTAGAAAAGTAACGTGTCTCTTCTAAAATGCTATTTGCTAACATTTTAGAAACTGTATGTTAAATAAAGAAGAAACATTTAAAGCAAGTGATGATGT
AATTTTTGTTTTAAAATTTTAGGGATATTCTGCACAATGTAAAAATTTCAAGGGCACACTTAGCACTTTTTTTGAGAAAGAATAAATGGTAGCTACTGTT
GTAGTGGGAGATGTGCAATGTGGAAGCTTTAAAATTGATAAACATTTATAAGCAAAATAATAGTAAATAATATTTTCCTTTTTTCTAAAATAATTGTCAG
ATTTACAAGTGAAATCAATACTGTATTCTCTCAAACTTGTTTTAAAAGCTTTGTCAGAGTTTGTATCTTCATAAAAGTATTGCAAAAATTAATTTTAACA
AACCAAATCCCTCTTGAAAAGAATCAAAAGGAATAAGAATGTGAATGTCAGCCATAAGAAAGCATTTTTAAAACTGTGTTTTCATATAAGCAGTTCTGCA
TGCAGGAAACAGAAACTGCTGAGTACCACTGCAGATTGGACACTGCTGTTAACAGCTCCAAAGTCTAAGAGAAGTGGAATCTCTGAAAATAAAAGTCATT
ACTTAAAATTTTAATTACCAACATAATTTTTAGAGTTGTCACTTTCAACAAAATCATCCCTGAAAAAACTTCACAAGTAAAAATAGTTAAATACAACAAC
AAAGAATTGCAGGGGATAGAAAGAATCGATATTGTTAAAATCGCCATACTGCCCAAAGCAATTAGCGGGTTCAGTGCTATTGCTCTCAAAATACCAATGA
CATTCATCACAGAATTAGAAAAAAACTATTTTAAAATTCATATAGAATCAAAAAAGGGCACAAATAGCCAAAGCAATCCTAAGCCAAAAGAACAAAGCTG
GAGGCACCGTATTACCCGACTTCAAACTACTACAAGGCTAAAGTAACCAAAACAGCATGGTATTGGTACAAAACAGACACATAGACCAATGCAACAGAAT
AGAGCCCAGAAATAAGACCACACACTTAAAACCATCCAATCTTCAACAAAGTCAACAAAAACAAGTAATGGGGAAAGGACTCCCTATTCAATAAATGGTG
CTGGGATACCATCTCACACCAGTCAGAACAGCTATTATTAAAAAGTCAGAAAATAATAGATCCTGGTGAGGTTGCAGAGAAAGGGAAATGCTTATACACT
CCTGGTGGAAGTGTAAATTAATCCAGCCATTGTGGAAAGCAGTTTGATGATTTCTCAAAGAACTTAAAACAGAACTACCATTCGACCCAGCAATCCCATC
ACTGGGTATATACCCAGAGGAATATAAATGATTCTACCATAAAGACGCATGCATGTGTATGTTCACTGCAGTACTACTCACAATAGCAAAGACATAGAAT
CAACCTAAAAGCCCATCAACAGAAGACTGCATAAAGAAAATGTGGTACATATACACCATGGAATTCTACACAGCGATAAAAAGAATGAAATCATGTCCTT
TGCGGCAACATGGATGGAGCTGGCAGCCATTATCCTAAGCAAACTAACACAGGAATAGAAAACCAAATACCACATGTTCTTCTCAGTTATAACTAGGAAC
TAAACATTGAGTACACAGGGACACAAAGAAGGGAAGGACAGACACTGGGGCCTACTTGAGGGTGGGAAGAGAATGAAGACTAAAAACCTATCCATCAAGT
ACTGTGTTTATTTCCTGGGTGATGAAATAATCTGTACAGCAAACCCCTGTGGCACAAAATTTGCCTATATAACAAACCTGCACATGTACCTCTGAACCTA
AAATAAAAGTTTAACAAAAAAGAATTGCAGGGTTTTTTGGGGAGTGGGCAGGGGAGAAAAGGAACCAATAAAACAATGATTATGACAAAACCTTTATCCA
TAGTTTAAAATTAGAACACAAAACATCTAACCACCTGCCAAAACATGAATCACAAAATTGATATTTTAAGGACAAGTCATTAATTTGTAGCATAAATAGC
TGACAACCTTAGACTAAATGTGTCATTGCTGATAAATGATTCACATCTTCAATACTGAAAGCTGACAAGCATTCAGAACATTAAAACAATATATCACAAC
ACAGACTGTTAAATATTAGGTGGACAGTCAGTGCATGAGTTTAGCTGTACCAGGATTATTTTAAGAAAGTTCGGGCACTTTGAGTGTTTTTTTTTTTTTT
TAATCCATAACTTTCTGTAAGAACCACACTGTGGATCATAACATCTGAGCTATAAGGATTAAGAGTGTAACTGGGGCCCGTTGGGTGGGGGGGCGGGACA
GCATTAGGAAAAATAGCTAACGCATGCCGGGCTTAATACCTGATGAGTTGATAGGTACAGCAAACCACCATGRCCACATGTTTACCTATGTAACCTGCAM
ATCCTGCACATGTACCCTGGAACTTAAAATAAAAATTATAATTAAAAAAAGAATTGAGTAGCTGCACCACTAGAAAGATGGCAGTAGCAAGACAGAAGAA
AGGAAAAGGGCTCAGGTTTAAGCGACTGGAATCATTCCTACATGATTCCTGGCGGCAGAAACGTGACAAGGTGCGTCTCAGACGACTAGAAGTGAAACCT
CATGCCTTGGAATTGCCAGATAAACATTCCTTGGCCTTTGTTGTACGCATCGAAAGGATTGATGGCGTGAGTTTACGGGTGCAGAGAACCACTGCAAGAC
TTCGCCTAAAGAAAATTTTTAGTGGTATCTTTGTAAAAGTTACCCCCTAGAATCTAAAAATGCTGCATATAGTGGAACCTTATGTGACCTGGGGATTTCC
AAATCTGAAGTCTGTCCGAGAACTCATTTTGAAACGTGGACAAGCCAAGGTCAAGAATAAGACCATCCCTCTGACAGACAACACAGTGATTGAGGAGCAC
CTGGGGAAGTTTGGCTTCATTTGCTTGGAAGACCTCATTCATGAAATTGCCTTCCCAGGGAAGCATTTCCAGGAGATCTCATGGTTCTTGCGCCCTTTCC
ACCTCTCAGTGGCCCATCATGCTACCAAAAATAGAGTGGGCTTCCTCAAGGAGATGGGCACACCTGGCTATCGGGGTGAACGCATCAATCAGCTCATCCG
TCAGCTGAACTAGACCCAGGTGAGGCAGGGCTGAAAACTGCCCTTGGGCTGACTTTTGATAGGCCATGCCTTGCCACTTTACAAGTTCTTTTTGCATTTA
CTAGTATTTAAGAGTAACCTTGAGATTGGGAGGAAAGAGGAGGCTGGTACAAATAGATGGAGACCTGCTGGGATCAGTGAATGCCTGATTAGGACATGGG
GCTATGCATAGCCTAAGAGTTATAGGCTTAAAGATGTCGAGTAACTAAAAACTGTATTGCTGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTT
TGGGAGGCCAAGGCGGGCAGACCATGAGGTCAGGAGATTGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATGAGCTGG
GTGTGGTGGCACGTGCCTGTAGTCCCAGCTACTCGAGAGGCTAAGGCAGGAAAATCGCTTGAACCCAGGAGGCAGAGACTGCAGTGAGCCAAGATTGCGC
CAGTGCACTCCAGCTGGGCGACAGAGCGAGACTCCATCTCAAAAAACAAACAAACAAACAAACAAACAAACAAAAAACTATTGCTGCAGTCATTCAGATG
GAAATGGGGAAAGAATAATATTAATAACTGATTTCAAAAAGGACTTGAAGATGTGAATCATCTATTTTGCTGAAGAAATCTTAACTTTTTGAAATTACTT
TTTATTGCTGTTGTCATACTCTTAGGTGACAAACTGCGGTAAATTTTTTATCAGTGAAGTGGAAGCATGCGTTTTGTTGTTTTGGGAATTTTTATCAAGT
ATCTTCAGAGAAGATTATTTCCTGCTTTATCTTCAAAAACTGGAAAGGAAGGGTCAAAGAAAAGACAGTAGCTGGCCGGTCGTGGTGGCTCATGCCTGTA
ATCCCAACACTTTGGGAGGCTGAGGCAGGCAGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAATGCCATCTCTACTAAAAATA
CAAAAATTAGCCGGGCATGGTGGCACGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGTGGAAGTTGCAGTG
AGCTGAGATCACGCCATTGCACTCCAGCCTGGGCAACAAGCGAAACTCTGTCTCAAAAAAAAAGAAAAGACAGTAGCTTATGTTCATGTCAAGCACCTCT
CATCACAGTCTAGTTCCAAGGAAAAATTCCAGCGTTTTCTACATTGGGTGCTGTGTCATCTGAAATCGGCACATTCCATGGAGGAAGGAGTCCTGCTTTG
TTGCATGTATCCTAGGGTTTAATGTTGGTAAATGAGTCACTCTAGCATTTGTAGAAGGCTCCCTGAGACTCCTACAGCAGTCGACCAAGCCCAAGGACAT
AATTGAATCTGGAGAGTCCTGGGGCCTTGTTTTGATAAAGACTTGAAATACACATAGGAAGAAAGGCATAAAAATAAATGTTCACTTGTCTCTGCTGTGA
AAAAAAAAAAAAAGAATTAAGAGTACAGAGAGCAATAGAAAGAGGGAGATCTTTTAAATTACATTGGAAGCAGTAAGTTTTCTTAGTTAGCCTGAGGAGG
AACTCTGTCCCTGTCCCTGCCTCCCAAAAGGGAGCAAAAGGGTATAAATAGTTTATAAGAAGCATCCACTTGAAAGTTTAATTTTTCTCACAGTGCGAAA
AAGAATAAAATAATACCAGAAAAGGTTATTATGATTTCTGAAATGTAGCATAAAGCCAAAACCTGAAAAGAAGAAGAAACACTGAATTAGACAAGGGTAT
GCAATAGAGAACATGAGGGGTTCACACCTTCTTGACACTGCAGGGAGTAGCTGAAATGACTGGTTGACGCTATTTGTGGGTCTTGGTTTGAATAGGAGGC
AATTTGATTCTCTCCCTACTAGCATCAAGAAATCACATCATACACAGTACAGTGGTACATGCCGAGGCCCTTCCAGTTGTAGGCTGGCCCCATTTTTCAT
TCATGTGGGAAAGGAAAACTGAATAAACTCAATACAGCTATGATCCCCACACTGAGGAAAACTCTCTGTAACCATAAAGCCCAACTCATGTTTTTACATC
TAATCCGTAGTCTACTCTAAGATTATTGTTGTAAATTCATCTGCTCTAAGATTACTGCTGTAAATTCATTTAGAATTACATAGCTAGATAGAATGAAAAG
GTAATTTGTCAAATGAAGCTAAATTGGAAGATACTTTTACATTATAAAAACTATAACTATTTAGACAATTTAGAAAACAGCAAAAAGTTTAAATTAGAAA
ATAAAGTCGCCATTCTTTTGACAGAAAACCAGCAAACACTTCCATATATAGCCTGCATCTTTTAAAAAAACTGCATCTATTTATTTTGGGGATAACAATA
TAAATGGCTAATTTGCACCTTGCTTTTTATGTGTGGTACTATTCATCTGTATACTTCACATTTTGATAAAACTCCTATGTCAATAGATATTTTACATGAT
TCTTTAGTAGTTGTAAAGTATTTGGCTGTAACTTCCATTCTCCCGTTATTGGTCATTCTTTGGTTTTTCACTATTATAAATACCACTGTACACACCTTTG
CAAATGTCTGATTATTTCCCTAAGTTAAATTCCTAGAAGGGACTGGAAAGCCGATGGACAACTTTAGGGTTTATCACATGGATCCTTAAACTGCCTCTCC
TTACCTGCTCCAGGAAAAGTAGGCAAAACATGGACACATGTATTTCCCCATATTCGCTTCTAACAGAAAACAAATCTGGTGAACTGGCTATTGATAAAAT
TTGCCTATTTCTCTGTTGGGGTGTTTGTCTTCTCTTGATTAGTAAGAATGTTTTGGATGTTAAGTACTTAAACACTTAGTCCATTGAGGACATAGCTATA
AAGCTCTCATTTTGAATCAAAATTTCAAATATTTCAAGTATGATGATATAATCTGTGATGTTCAGAGCCCTGGCTGTTGTTCACATGATAATTCCTTTAG
CCATATCTCTGTTTGAAGTGTATGTGAGCTTGAAAATAAAATGACCAGTCAAATGTAGTTCTGGTTAAAGATGGTATATTTAACACATGCTTTTATTTCA
GCTCCCTCTCAAACCCAGTATATGTTTTTAAAAGCATACACCTCTAAGAATAAAGAGAAGAGACAATACCAGCAACAGTTCACAAGACAGAAAGCAGATG
GACAAGGATTGTTGGCTTCCTAAGATCTGTTAAGTCACCAGTGGGGAAAGCTAAGAAGCAACCTAATTATTATGAAAAAAAATTCTGAAAGGCTCAAAAA
CTGGGGGTAAAGGTAGGGGTTCAAAATCAGGAAGACTGGTTCAAAGTCTGTTTAAGAACATTTACAGGTTTCTTTTTATAGAAATGGTAGGTCAGACTAT
GAGTGCCAACCTGCCTGCCAAAAACCAAAGTGCTAGATAAAAAATATTTTTAAAAAATATCCAGGCCAGGCGCGGTAGCTCATGCCTGTAATCCCAGCAC
TTTGGGAGGCTAAAGCAGGCAGATCACTTGACGTGAGGAGTTCAAGTGAGGAGTTCAAGTCCAGCCTGTCAACATGGCGAAACCCTGTTTCTATTAAATA
CAAAAATTAGCGGGTATGGTGGCATACCTGTAATCCTAGCTACTCGGGTTGCTGAGACAGGGAAAAGCTTGAACCCAGGAGGTGGAGGCTGCAGTGAGCC
AAGACTGTGCCGCTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAATACATACATACATATACATATATATATATACACACACGCACAT
GTGTGCGCACACACACATATATATCTCCTTAAAAGCACCATCAAGCTGACAAAATGATAAAGAATTAGGCTAAATCTAAAGGAAAGCATCCCAAGTTACT
TGTGCTCAGAGAATAACAGATTTAGGCAAATTTGGATTTCAACTAAAAGGACAGAAAACTAGAAAAATGGACAAAAAAACTTATACTTTACAATACAGGA
ACTCCAAATGGCCAATAAACATATGAAAAGTTACTCAGCTTAATTAGTAATCAGGGAAATGCAAATTAAAACGACAATAAAATAACTTACATACCCATCA
GACTGACAAAAATTAAACATTTGACAATAAGATGTGTCCTGAGTTTAAGGATGTAATCATTTTGGAAGACAGTTTGGTATTATCCAGTAAAGTCAAAGAC
AAGAATGTCCTATGATGTAGCAACTCCATCAATAGATATGTATTCAAAAAGAAATTTATACTTGTAAATAAATTAATGTGCATATACAGTAAAATGTGTA
AGAATGTTGGCAGCAGCATTTTTTTGGTTAAATAAAAACTACAAACTAGTCAAATGTTCATAATAGTGGAATGATTTATAAACATCCATATATCTTATCT
CTGAGGATATAATTCTATACAGCAATGAATAAACGACAGCTGTACACTACAACATGAATGAATCCTACAATGTTGAATGAAAAAAGCAAGATGCAAAATG
ACATATATAATATTCTATTCACATAAAATTCATATACATATGATATTCTATTAACATGGAATTCAAAATATACAAACTGAGTTATATTGTTTAAGGATGT
TTATATAGGTAGTAAGAAAAACAAGAAAACAACGATCACATTTGTCAGGGCAGTGGTTACCTCTGGGGAGGAGGAACAAAATAGGATTTGTAAACTTATA
TGGTCATACTGGAGGCCTCCAAGGTATTGGCAATATTCTATTTCTTGCCCTGGTTGGTAATTACACACTGCTAGCTTTATTATTATTATTTTTCATTAAA
TTGTATGTATGGTCATGCACGACATAAATTTCAGTCAATGATGGACAGCATTTATAGTGATGGTCCCATAAAATTATAATGGAGCTGAAAAAGTCCTATC
ACTTAGCTGCAGCTGTGCATTGTAATACAACACCATGCTTATGTTTGTGGTGATGCTGGTATAAACAAACCTACCGTGCTACCAGTTATAGAAAAGTACA
GCAAATACAACTGTGTACAGTACATAATACTCGATAATGATAATAAATGACTATGTTGGTGGTTTATGTATTTACTGTATTATACTTTTTTCATTATTTT
AGAGTGTACTTCTTGTCCTTTTTTTTTTTTGTTAACTGTCAAACACTCTCAGCCAGGTCTTTCAGTAGGTATATCAGAAAAAGGCACTGTTATCACAGAA
AACGACAGCTCTGTGTTTGTTATTGCCCCTGAAGGCCTTCCAGTGGGATAACATGTGAAGGTTGAACACTGATGACACTGACTTTGTATAGGCCTAGGTT
AATGTGTGTGTTTGTGTATTAGTTTTTAGTAACAGTTTTAAAAATAAAAACATCTTAAAAATGGAAAAAAGCTTACAGAAGAAGGACATAAAATTTTCTT
TACAGCTGTACAATGTGTGTGTTTTAAGCTAAGTGTTACTAAAAAGGAGTCAAAATGTTAAAAAAATTAAAAGTTTACAAAGTAAAAAAGTTACAGTAGG
CTAAGGTTAATTTATTATTGAAGAAAATTTTTCTATAAATTTAGTGTAGCCTAAGTCTACAGAGTTTACACTACAGTAGACTTCATATAATAAATGTCCT
AGGCCTTCACATTCACTCACTACTCAATGACTCACAGCAACTTCCAATCCTGGAAGCCCTATTCACAGTAAGCACCTATACAGGTGTACTATTTTTTTCC
TCTTTTATATTGTATTTTTATTGTACCTTTTCTATGTTTAGATACATAAATACTTACCGATGTATTAGAGGTGCCTGCAGTGTTCAGTACAGTAACATGC
TGTAAGTTTGTGGCCTGGAAGCAACAGCTATACCATATGGTCCAGGTGTACTGTAGGACATACCATTCAGATTTGTGTAAGTTCACTCTATGATGTCTGC
ACAATGATGACATCGCCTAATGATGCATTTCTCAGAACCTATCTCTGTTGTTAAGCAATACATGACTGCATATTTGTTTTGTTCATTCTCATGTACATAT
GCTTGTTTCACAGTAAAAAAAAATGTAACTCAAAATAAAAAATAGAAAAAGAAACAGATAGCATGACCTCCCCTACTCCAGTCTTTGATGATTTCTTACC
TTTTGTTGTCTACATTTTCTCTTTCTAGAACTCCTAAGCTGGTTCTCTAATTCTCTTATCTTCTCCCCTATTTTACATTGCTGTCTTTTTGCTCTTATTT
CTGGGATATTTTCTTACTTTTATCTTTCAATCCTTCAACTGAGCTTTTCATTTATGTTATCATCCTTTTAACTTTCAAGAGTTTAGTTTTATTCTCTGAA
TGTTCCCTTTTTCAAAATCCTTTAATTTGATAAATGCATTATTTTTCTTATTTCTGAGGATATAAGTAATAGGTTTGAGGGAAGTTTCCTTATCCAAGAT
GACTGCTCTGTTGTTTGTTCTGATCTCTGTCCTGAAGCTAGAAGCTCTCCCCTTCCTTTCACCCTATCCTTCTCCTCCTTCCTTCTAGGCTGAGGGTTGG
TGGGGCTCCGGACTAAAGGATTCCAGACACAGCTGAGAGTAGAAATATCTTAAAAACAAAAGGAAGTTTAAGTGAGCCATTACATACCAAATTATTAATG
GCATTCATTCAGTTGAAGAACACAGAGAAAAAGAAGAATGAAGAAAAATTAACAGAACTTCATGGACCTGAGAGACAGTATCAAATGGCCTTACATATGA
ATGGAGTCCCAGAAGGGGAAGACAATGAAAATTCAAGAGAAAGATAATGAAGACATAATGACTAGAATTAGTTAATTTAGCATGGTCACAGGACACAATA
TTTTTAAAACATTCTATATATGCGACAAACAATTGGAAAATAAAATTTATATTAATATAATTTAATAACTAGCAAAACACATATACACAATAGATATGGG
ACAAAAGATGTGCAAGAGCTTTACAGGAAAAATGAGAAAATATTGCTGAAAGGAACTAAAGATCTGAAAATATTGTTGAAATAAACTAAATATCTGACTA
AATGGAGAGATATACAGTGTTCCTGGATTGGAAGACTCAATATAGACTCAATCCCCAAATTGAAGTCTCTTATACCCAAATTGATTTAATTTCAATGCAA
TACCAATCATAATCCCAGCAGGCTTTTTTTGTGTGTGTATAGAAATTGACAGGCTGACTCTAAAATTTATAGGGAATACAAAGGACCTGGAAGAACCTTA
GACTTTGGCCCTGCCTTCTGGGGAAGGGTTAGTTATCTCTTTAAAGATGATTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCA
GGCTGGAGTCCAATGGCACAATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTGAAGAGATTCCCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGG
TGCGCGCCACCACGCCCAGCTATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCGC


SNP Information

Context             (SEQ ID NO:65915):
GGGGCCCGTTGGGTGGGGGGGCGGGACAGCATTAGGAAAAATAGCTAACGCATGCCGGGCTTAATACCTGATGAGTTGATAGGTACAGCAAACCACCATG
R
CCACATGTTTACCTATGTAACCTGCACATCCTGCACATGTACCCTGGAACTTAAAATAAAAATTATAATTAAAAAAAGAATTGAGTAGCTGCACCACTAG
Celera SNP ID:            hCV8950974
SNP Position Genomic:     6173
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:65916):
AGCATTAGGAAAAATAGCTAACGCATGCCGGGCTTAATACCTGATGAGTTGATAGGTACAGCAAACCACCATGGCCACATGTTTACCTATGTAACCTGCA
M
ATCCTGCACATGTACCCTGGAACTTAAAATAAAAATTATAATTAAAAAAAGAATTGAGTAGCTGCACCACTAGAAAGATGGCAGTAGCAAGACAGAAGAA
Celera SNP ID:            hCV8950968
SNP Position Genomic:     6200
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(A,-|C,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:65917):
CCTATGTAACCTGCACATCCTGCACATGTACCCTGGAACTTAAAATAAAAATTATAATTAAAAAAAGAATTGAGTAGCTGCACCACTAGAAAGATGGCAG
T
AGCAAGACAGAAGAAAGGAAAAGGGCTCAGGTTTAAGCGACTGGAATCATTCCTACATGATTCCTGGCGGCAGAAACGTGACAAGGTGCGTCTCAGACGA
Celera SNP ID:            hCV11837666
SNP Position Genomic:     6285
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 UTR 5


Gene Number:                 418
Celera Gene:                 hCG37678 - 119000107835637
Gene Symbol:                 MECP2
Protein Name:                methyl CpG binding protein 2 (Rett syndrome);MRX16;PPMX;RTS;RTT
Celera Genomic Axis:         GA_x5YUV32VY5K(1240443..1328587)
Chromosome:                  ChrX
OMIM number:                 300005
OMIM Information:            METHYL-CpG-BINDING PROTEIN 2;MECP2


Genomic Sequence (SEQ ID NO:12578):
CTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTAGCCAGAATGGTCTCGATCTCCTGACCTCGTGATCTGCCCGCCTCGGCCTCTCAAAG
TGCTGGGATTACAGACGTGAGCCACCATGCCCAGCCGATTATAGTATATTTTTCTACTTTTCAATGGCAAGTGTGAAACTGTATAACTTAAGTTCCTTCT
ATTCAACCTAAGGAATTTAGCAAGATTCTCTTCATTATTTTTTAATATTTCAAAAACTTCTTGAGTTCTAGTCTTGTACATTATTCTTTCCAATCTAGAT
TTAAGTTGTTATAGCCCATGAAACTTCTTGACTTTTGATTGAGCAAAGAATTTCCAGAGTTATTGATGAAGAATTAACATTTCTATAATGTTAATGCTTC
CCCTCCAGGAATACGGTAGCGTCTGTTTTTGTTTTTGTTTTCTTCAGGTCTTCTTTTAGATTTTTCAGTAAAGTTTTATAGCTTTTTGATGCAGGTTTTG
ACATTTCTTATTAAGTTTATTCCCAGCTGTTTTATAATTTTTGTAGTGAGAGTGAGTTGAATCTTTTTTCCCTCATTACATTTTCCAGCTTTTTATTACT
GGTCGTGTTTACATGCCTGCATCCTAACACCGGGGAACTGACTTGAAATGGGCCTTTCTCCCCGCAGAGACGCACCAAGAATGAGGTTTAAAAGAGAATG
GAAGAAGGATGTATGTGGGGCTTTTTATTTTTGTTTTTTAATTGACACATATTTAGGGAGTACAATTTGATATTTCAATATATATTTATGTTGCACAATG
GTCCAAGCAGGGTAGTTAATATATCCATCAGCTCATGCATGTACCATTTCTTTGTTGTGGGAACTTTCAAAAGTCTCTCTTCTAGGTATTTTGTAACATA
CAATATATTGCTGTCAACCATAGTCACCCTGCTGTGCAATAGAACAACATAATTTTTTTTTTTGAGACAGAATCTCGCTGTGTCACCCAGGCTGGAGTGC
AGTGGTGTGATCTCAGCTCACCAGGTTGCTCTGCCTCCTGGGTTCGAGCGATTCTCCTGCCTCAGCCTCCCAAGCAGCTGGGACTATAGGCACCCGCCGC
CATGCCCAGCTAATTTTTGTATTTTTAGTAGAAATGGGGTTTCACCATGTTGGCCAGGCTGCACTCAAGCTCCTGACCTCAAGTGAGTCACCCACCTCAG
TCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACTGCACCTGGTCAAAACACCAGAATTTATTCATCTTATCTAATAATAACTTTGTACCTGTTGACCA
ACCTCTGCCCATCCTCCTCTCCCCGATCCTCTCCCCAGTCTCTGGTAACTACTGTTCTACTCTCTGCTTCTATGATATCAACTCTTTTTTGTTTTTGAGA
TTCCACATATGACTGAGATCATGTGGTATTTGTCTTTCTGTTTCTGGTTTATTTCCCTTAACTTTATGTCCTCCAGGTTCATTCATGTTGTCTTAAGTGA
CAGGATTTCATTCTTTTTTATGGCCGAATATTATTCCATTGCATATATGTACCACATTTTCTTTATCCATTCACCTGTTGGTGGACACCTAAGTTGATTC
TGTATCTGGCTATTGTGAATAGTCATTCAATAAAAATGGGAGTGCAGATAACTCTTCCACATACTGATTTCATTTCCTTTGGATATATACCGGTAGTAGG
ATTGCTGGTAGTTCTATTTTCAATTTATTGAGAAACCTCCATACTGTTCTCCATAGTTGACTATACTAACTTACTACCCCACCAACAGTATGAAAGTATT
CCCTTTTCTCCACATCTTTGCCAACTTGTCTTCTTTTGTCTTTTTGATTAAAGCCATTCTAACTGAATTGAAGGGGTATCTCATTGGGCTTTTGATTTGA
ATTTCCCTGATGATGAGTGATGTTGAACTTTTTTTCCCCTCCCTCCCTCCCTCCCTTCCTTCTCTTTCTTTTTTCGAGACAGGGTCTCACTCTGTCACCC
AGGCCAAAGTGCAATGGCACGATCCTGGCTCATTGCAGCCTCAAACTCCTGGGCTCAAGTGATCCTCCCACCCCAGCCTCCCAAGAAGCTGAGATGACAA
GTGTGCACAACCATGCCTGGCTAATTTTTTGTTTTTTTAGAGACAGTGGTCTTGCCATGTTAACCAGGCTGGCCTTGAACTCCTGGACTCAAGTGATCTT
CCCACCTCGGCCTACCAAAGTGCTGGGATTACAGGTGTGAGCCAAGGTGCCTGGCGAGATTTTTCCCATATACCTGTTGGTCATTTAAATGTTTTCTTTT
GAGAAATGTCTATTCAGGTTTTTTGCCCTCTCCTAACCTTTTATTTTATCTATCTATCTATCTGTCTGTCTGTCTGTCTGTCTATCTATCTATCTATCTG
TCTATCCATCCATCCATCCATCCATCCATCCATCTATTTCGAGATGGAGTCTCGCTCTGTCACCCAGGCTGTAGTGCAATGGCACGATCTCGGCTTACTG
CAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGTGCGTGCCACCACGCCCGGCTAATTTTTTTTTGT
ATTTTTAGTAGAGATGGGGTTTCACCATTTTAGCCAGGATCATCTCAATCCCCTGATCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGAGATTAC
AGGCGTGAGCCGTCGTGCCTGGTCACCTTTTTTTTTTTTTTTTTTTTTTTAAAGACAGGGTCTTGCTTTGTTGCCCAGGCTAGAGTGCAATGTGCAATCA
TAGCTCACTGCAGCCTCAAACTCCTGGGCTCAAGTGATCCTTCCACCTCAGCTTTCCAGGGAGCTGGGACTACAGGTGTGTGCCACCACGTCTGTCTAAT
TTTTAAATTTTTTTTGTAAAGACGGGGTCTTGCTTCTTGCTATGTTGCCCAGGCTTGTCTTGAACTCCAGTTCTCTGATTTTTAAAAAAAATCATAAGTA
GATGTTGAATTTTATCAAATGCTTTTTCTGCATCTATTGAAATAATTATGTAGTGTTTTTCCCCTTAAGTTTGTTAAGGTTGGGTTTCTAATTTTAAACC
ATATTTGCATTCTTAGGATAAAACTCAACTCGGTTGTGATAGATCATATACTGCAGGATTCAGTTTATTTGTCTAGAATTTTAAAACTTATTTCCACATC
TTGTGTCATACTTTTCTTGGCTCATCATAGTAGATATATTAGTCTAGTAAAATAAGTTTGGAGACATTTATTTCTTTTCTGTGTATGATTGGAATTGCCT
ACTCATTAAAGATTTGGTAGAAGTCATCCATAAAGCCCTCTTGGTCTGTTTCTCTCTCTCTCTCTCTCTCTCTCTCTGTGTGCGTGTGTGTCTGTGTGTG
TCTGCGTGTCTGTGTCTGTGTGTAGGAGGATGGGTAGCTTTTTAAATACATAGTCAATTTCATTGTGGTTACAGGGATTTTCTGTTTCTAAAGTCGGTTT
TGGTAAGCTGTACTTTCCTAGGAATGTATTCCTTTTGCTTATGTTTTCAAATTTACTGACACACAGTGCATAATAAAACCTTTTCATGAGTAACATAATT
TACTTTTCTCTTTTCTCTTTATATCCAGCTTGTTAGAGGGTTGGCTTTTGTTTTTCAGCTTTTCAAAGAAGCAGGTTTAAAATTTTCTCAATCCTCTCCA
TCATTTGTTTCTATTTCATTAAGTTTTATTCATCCTTATTTTTCTTTCTTCTACTTTTGCAGGCTTACTCTGTCATTTCTTTATGGCTTCTTGAATTGGA
TGTTCAGCGTGATGACTTTTGGACTGCTTTAGCCGCATCTCTATACTTCAGCATCGCACACCCAATGGCTTACTCAACATCTCCACTTTCACACCACTGG
GCACCCCAAGCTTAATACAGCCAAAGCAGAACTCTTGATCTGCACCTCTGAAAATGTACTTTTCCTGTAGTTCTCCCCACTATGGTGAAAAGCACCCTTA
TTTCCCCAGTTGCTCAGGCCCCAATCTCAGGAATCATCCTTGTTTCTTCCCTTGCTCTATGCCCTACATCCAATCCTTTTGTTCAGTTCTGAAAACATAT
CTTGAATCTCACAACTTCTCAGAGCTGCACTGCTGCCACCCTAGTTAAAGCTACCATCAACTCTTTCTCCTAGACTGTTCCAGGGCCTTGCAACTAGCCT
TGTGCTGTAGTTTTGTTTCATCACGTCCAGTTCTCCACTCTACACCTGCAACATAGATCAGACAGCTCCTGGCTCAAAATCCTCTGAGGGCTTCTCATCT
TAGAATAAACTCTCGGTTCTGGCCGGGTGCGGTGGCTTACGCCTGTAGTCCCAGCACTTTGGGAGTCCGAGGCGGGCGGATCACTTGAACTCAGGAGTTT
GAGACCAGCCTGGGCAACATGGTGAACTCCCATCTCTATCAAAAATACAAAAACTTAGCCAGGCGTGGTGGTTCGCATCTGTGGTCCCAGCTACTTAGGA
CGCTGAGGAGGGAGGATCGCTTGAGCTCAGGGTGGACGTTGCAGTGAGCCAAGATTGCGCCACTGCACTGCAGCCTGGGTGACAGAATGAGACCCCATCC
CCACCCCCCCCAAAAAAGAATGAACTCCCAGTTCTCATAGTGGCCCCAGCTGCCTTTCCAATCACATTCCCTACCACTCTCCAGCAACACTGACTTCCTC
GTTAGTCCCCAACATGCCAGGCATAGTCTCTCCTCATGTCCTTTGAACTTGCCTGGAATGTTCTTTCCCCAGATATTCATATGAGGGAGTAAAATGAGGG
TGAAAACCAGCAGATATCTAAATAGCACCCCCTTCACTTAGTTTATCTTTCTCAAAGCCCTTATCACTATGTGAAATGATATATTATACTTATTTGTATG
CTAGTATGAATCTTCCCGGCAAGAATGTTAGTTTGCTGTCTGTTCAGTACCGTGCATCCAGAGCCTGGAAGAGTGCCTGGCACATAGCAGGTAGTCAATA
AATGAATGGGGGCAAGCAGCCAAATCAGAATCAGGTTTTCTTGCTAAGCATAGAACTAACAGAAGGATCATTGAATGGATTGGATAATGACTGGCATCAG
GGTAAGGTCCCCTTAACAAACACTCCTGTCCTGAACACCTGGTTAGCTAACAGTTTTCTCATACTCTTATTTTCCCAAAACACAATTGCTGGATCTCAGC
TCCAAATCAACTCTTCTAGGAAAGTGAAAAATTGCTGGATCTCAGCTCCCAAATCATATCTTCCAGGCAGAGCTAACATTGCCCCTTATTCACACCTCCA
CCAAACCATCTGATCCAACAGTGACAGGTGTCACGAGGCCTTGGCATGCACTCTCTTCCCCCGCCAGAGTTCTGCGAAAGCCAGGGTTGCGATTTGTTGT
CAGTTTATTCCCCGCCTCTATGAGAGTGTGAGCACTGGGCAGGCTCGGATGAAATAATGCATTGAGTAGGCCTCTGAAACCAAGGCCCCTCAGCTGGGGC
AACGTCAGGCTCCAGGGTGGGCAACTTTGCTGCTTCTGCCGAAGATAGTGATATTGAGAAAATGTGGGTGCAATGAAACGCTTATTGCAGCGCACTCGGT
GCATCTGTGGACAGAGGGTCAATCGCCCCTCAGAGCAGCGCAAACAGGCGTCCCAAGCCTAGGCCTTCACTTGCCCCAGCATCCGCAAGGGTCCATTAAT
CCTTAACATTCAAATTCCGCCCACTAAACCAGTCCCTCCGCGCCCAAGCCGCCTCTTTTCCCCAAACGACGGCCGAAAGCAGCCAATCAACAGCTGGAGG
GGTCCGCCCCCTTTTCCCTGGCCGAAATGGACAGGAAATCTCGCCAATTGACGGCATCGCCGCTGAGACCTCCCCCCTCCCCCGTCCTCCCCGTCCCAGC
CCGGCCATCACAGCCAATGACGGGCGGGCTCGCAGCGGCGCCGAGGGCGGGGCGCGGGCGCGCAGGTGCAGCAGCGCGCGGGCCGGCCAAGAGGGCGGGG
CGCGACGTCGGCCGTGCGGGGTCCCGGCGTCGGCGGCGCGCGCGCTCCCTCCTCTCGGAGAGAGGGCTGTGGTAAAAGCCGTCCGGAAAATGGCCGCCGC
CGCCGCCGCCGCGCCGAGCGGAGGAGGAGGAGGAGGCGAGGAGGAGAGACTGTGAGTGGGACCGCCGTGGCCGCGGGCGGGGACCCTTGCCGGGGGGCGG
GGGTCAGGGGCGGGACGTGGCGCGGGAGGGGCCCGCGGGGTCGGACGACACGGCTGGCGGATGGCGTCCCTCCTCTCTACCCTCCCCCTCCCGCCGCCGC
CGGTGGCGACTCTCCCCTCGGCCCGTCACCCGTGCTCGCGGGTGACCGTCCTCGGCGCGGCCTCCCTGGAGCCGCCTTCGCCTGACGCCCCTCTTCCTCC
CGCCCTCGACGCGCATCCCGGCCCCCGGCCCCGCGGGCGCCCCTGTCGCCGGGGTTCGCCTGTCGGGGCTGCGCGCGCTCCTGCCCTTCTCGGGGCTTTG
GGCCGCGGCGCCGTCGCGCGCCCGCGGCCCCGGCCTCTCCCTGGATCGCGCTCTCCCCCTCCCTCCCTCGCGCGCCCCCTCTCCCGTTACTCGGCCCCCC
CACCGGCGCGCGTGCGCACTTCGCCTCCCGTCGGGAGAGTGCGCCACAAGGGCTCCTGAGCTCTCACCCCCATCTCTGGGCTTTGCCTCCCCCTCCTTCT
CGCCCATTCCATGAATTTCTGCCCCCCGCTACCCCCCCGCGAGCGAGTAGGTCCACCGGCTCCTTTCCCCATCTAGCAGGAACAAGTAGGTGGGGATTAT
TATCCACAAAAGGGACTAGACATTGTGTTCTGGGTCCCACAACTCATCATAAAGAGGTGGTTATAGTTCCCATCAGGAGCCGTGGGTAGGGGACTGTGCG
TCCAGCAGCACCCGAGGCTCTTCGGCGCCAGAGGCTCTAAGGTGCGAGCGTGTCCCCAGGGTGCTCAGAGGTTCTTTGGAGTGCTGTGGCCTCGGAATGT
GAGCACCCTCCCATCCTACCCTCCCCTTCGCCGGCGATCTTCCAGTTACATAAGTGGAGTGGGACATAGTAGGTAACGGGCTCTCATCGCCCTGGAGCGC
TCGGGATCACCGGTACCAGATGGGGCAAGTTCATCGCGACGCTGTGGCTCCTGTTAATTGTGCCTGAAAGGTTATCCTCTGTTCAGTTTGGTCATGACCG
AATCACCCAAACTGAAACTCAGATGACTTTTATATGGCAGTGGCAATGTTTCTGTGGTTTTGCACTAAAGACTTAAGGTCATTATGAAGAGTGTAAAAGG
ATTGCTGTCGCAGGGGAGACCGTTTATGACATTGCTAAGTATGGACCCCGAGGGGGAAAAAGCTCATTCTGGAATTGCTCTGTGGCGGTTGCTTCTGTTG
CGAGTGTGTTCGGGTGTGGGTTGGTCACAGCAGAAATGGGCTCCACCACAAAATTGATATTCCTGACTCATGGTCAGGCAGATGTGTGCTTCTGGTTATT
TTTCCAGGAACAGGAATGGGCTCTGCCGAGCCTTTCACACGTTGTGTCTCTGCTGTGCGGGATCAGTACCCCAGACTGTGAGATAACAGGATCGAATTCA
GGGGTTGGTTGGTGATCCAGGAACCATACCTACTTGGATGTGATACTGAGTGGCCTAGACGTTGTAGGACTCTCATAAGTTTTAGACATTTTGTTATACT
GTAAAAATGAAGCATATACGGCCTCAGTAGTAACATTGCACTAATAGGTAATTATTACTCTAGAGAATTTTGGGTTCCATGGCTGGAATGTTCATCAGTA
TCTCAGCAATTTCAGTTAATAACCAGATTAAGCTGACCTCTTGAGTCTTTTGAAATCTGCTGGGTCCCTATAATAAGACAGGGTCTGGATTTTTTAATCT
TTTGGGAATTTCCACCAAGGATTTAGGGAAATAGGCTTTTATGGGCTTTTCAGGATTTCTATTTCAAATCCCAATGAGGAAGTCTAGGAAACACTTGCTT
TTATTTTCTTGCCTGAATATGTCAGAACCTTAAATCACCCAATCAATCTAGAAGTACTACAGTTGATTAAAGTAAGTCACCACAGGTCACCCATTCGTGG
CAGGTCAGCTAGGTGGCTGATCACTGGAATACAGTCATATCCCCAGGCATACACACGAGCCTCACTTGACGATCCCAAAGTTTGTACATCTGAGCTTGAG
ACGTGACAAGTTGAGGTCTCTGCTTTGTTCTTCATAGTTGGCAGTTTGTCTCCTCGGGTGCCCCTCCGGTTAGCTGTTTATCATACGTCTAGCCCTATCA
ACAGTGCAGGCAGCTTCCAGAGTATAGTTTTCTCTGCAAAGTGCCTGGTGGAGGGGTACCTCCTTTTCCATTGTCCTAATGGCTCCACTGGGCTTCCATA
CCAGCCCTTTCCAGTGTCTTAACAGCTCAAAGAAACCCATCTGTGGCTTTCTTGTTAGCACTGGCCTATCACACCTTCCTATTGCCTGTTAACTAAAATT
TTGCCTGGAATGCTTTAAGCTTAGAGTACTGGGTCTTTGTTTYACCCGATTGATAGGAGAGTGTCATGCAGTCAGCCGAACTCCGACTTCTGTGCTGTTT
AAATCCTTAGGTAGGTCTGGGGCAAGGCACAAACCACTGTGTATTCAAAGGGTTATGGTGCTTGCATTCTGTGTGTATATGTTTGTAATTTCCAACCAGA
GTCGTTTCCCGTGCCTGCCCTGCCTCTGTGCAATCTAGTCTAGTAGGGTAGGGAGGCAAGCTGTGGAGTTTGAAAAAAAAAAAAAAAGCTAGATGAGTTT
AATAGGCTGTTACCCCCTCCAGAACATTCCTCCCATGTGGAGATGAAACGAGAAGTTCATTTCTTTAACCTAAAATAAAGAACAACAGAGATAAAATTGT
TAGTTCCTTATTGGAGCCTGGTTTCCATTGCTAATGTACCTGCTTGGGACTCTGCATGATAAATGACGTGTCCTGGAACCTGAAATCTTTTATAAAGGTT
AATATCAGCAGAAATCTTTTAATTAGCTAAGAGCAGCTTGTTCTCAAGCTGCCCGAGTTATCTTGGAGGAGAGAATCACAGGAAATGTTTGATATTTCTA
GTAACCAGTGTTTTCAGTGCGTGGGGTAAAGCACACTCCTAGACTGGCCAGTCCCAAAGAGTGTGGCAGGACACCTGCTTGTTTTCCCTGCCCTCTGCTA
TGGTGACATCCTTGCAGACCAGTCTTGCGTGGCTGGCAGACGCAATCTTTTTTTCTTGGGTAGAGCATTATCACCGCTGCGATGGAAGGACCTTGTCCTC
GGTGCCTCCATACCAGCCCTTTCCAGTGAAACTACTGCTGTCCCGGCAAGCCCCTGTGCGTGTGCATCATTCCGGGTAGGACAAGATGTGAACAGGTCCC
TCTTCTTTGGGCTTAAGTAGAAGTTGTGCTCTTCTGCTTTTACCTGTGTGCTCTTCTGCTTTTACCTGTTCTCTTCTGCCTTTCTCTTGCAAGAAACCTG
TCGAAAGCTTGCTTTGCATGCCATTGCTTAAATACTTTGATGGTATGTATGGTATGTGGGATAACTGAGTGGGAGCCGGAATTGGGGGGTGGGCAGGGCA
TCCCCACCCCCACCCCCACATCAAAGGGGGAATGACCATTTCGTTAGAGAATAAAGCCTGAGTCTTATAACTTCTTCAAGCACATGTATGCTGGGTCTCC
TGGCGTGTGAATGTGTTCCCGCTGTGCTGTGTGGCTGTTTTGCAGTTACTGTAGACACTGTAGTCTGGGCTCTCATTATTGCCTCTGAAGTTGACAGGAC
CAAGCCTTAGTAAGGATGCACTTGTCTTCCTAGCCCAAGAGCTAGGGGTGTTTTATATATATATTAACTTTCTTTTTTAGATTTCATAAACTGCTCTCAT
TTTCTCTTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTGAGACAGTCTCACTCTGTCACCCATGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAAC
CTCTGCCTCCCGGGCTCAAGCAGTTCTCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCTGCCACCACGCCTGGCTAATTTTTGTATTTTTTTT
TTTTTTTTTTTTTTTTTTTTAGTCGAGACGGGGTTTCACCATCTTGGCCACGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCGCTTCAGCCTCCCAA
AGTGCAGGGATTACAGGCGTGAGCCACCGCACCCAGCCTYTGGCTCTTTTCTTTTTGACATGAAATCTTAAGTTAATTATCTTAAACTTTAAGAACTAGA
AGGATTCTTAGTCCAGCACCATCAGTTTACAAACAAAAAAAACTTGTGTCCCTGAGAAGTTGTGACTTTTCCAGGGCCTCCTAGCCAGGATACCAGTTTG
GTTTTTATTATATAGCTAGCCGAGTAATACTATTAACTTGACTTCTGGGATTTCAAAGTATTCTATGACTTGACTGTTTAAGGGAATTATGAGGCCTCAC
TGAACCTCAAAAGATAATTTTAGGTACCATCCTGGTAGCTGTAGAGCAGCAACAGACCAGTAAAAGACTTGGTTGGTGTTGCCCTTCTTCTGGGTTTGAT
TACATGAGTAATTGTGTGAATAGTCTCTAAGTTGTATGCTCTGAGCTTTCGTTTTTAGCTTATAAAAGTGCTACTCTTGGGCCAGCATAGTATCAGAAAT
TAGCTAATTCATATGGGGCAGTTTAGGCTTTAACTAGGAAATGATGGTTATCTTAATGACAAAAAAGGTACTGACAAAAGTCCTTTTTTGAACATGTGTT
CAAAAGAAAAAGAGAAACTATCAAACTAATAACTGAGTTTGTTGAACATCGAGATTGACTGATCTGAGAGGCTTAAAACTGATTGCCCTGAAATAGACTT
GCATGTTTTGGATGATGGCTTTGGGTCTCCCAGAGCACTTGGTTTCCCTTGGTGCTGATTTTTTCTCTCAGGATTAAAGCCCCTTTATGTGATGTTGTTA
CAGCAGCTTATTGCAACTTCATTCAGCTGCTTGAAAAAGAAGGGAGACTGCCTCTAGGTTCCATGTGTTCTTTCAGGGATGGTATTTTGATGTTGCGTAT
TCTCTTGAACATGTATTCTTCCCTGAGAATTTCTGTGTGCCGTGGTAGAAGAAATACTTGCCAGAAATCGCCACTCATGGTATGCTTTTGTAGTGTCGAA
GTGTCCCCTAGAGGTGACAAGGCTTGTGATAGTGTTGATTCTAACAAGCATGAATCTTTCCTTTATTTTAGCACTGTGTGTTACGTGCCAGTAATTTGCA
GCTTATCCTTTGTTTCTAGCTAGGTAAGCTGGGAAATAGCCTAGTACTTTGTCTATGTGTTTATCTTCAAAATGTCCCAAATAGCCCTGGGAAAAAGGTC
GTGCAGCTCAATGGGGGCTTTCAACTTACAATTTTCTTTGTTTTAGGCTCCATAAAAATACAGACTCACCAGTTCCTGCTTTGATGTGACATGTGACTCC
CCAGAATACACCTTGCTTCTGTAGACCAGCTCCAACAGGATTCCATGGTAGCTGGGATGTTAGGGCTCAGGTAAGTAACCTTCCTTTTTTTTTTTWTAGT
ATATGTCCTGGTTTGGCCATCTGTTTTTTTTTTTTTTAAAAAAAAAAAAAAAAGGAAAAGAGGAAAAAAATATACTACTCTTGGACAGTATAAAAGTACC
CCAAAGACTAAAGACATAACTGTGCCAAACTGTGCCATATAATAAAAAAAAGTCACTTCCCTGAGCCCTGAAAGGTCAGTGTGTGTAGGGTTACTTGGTC
GCCACAGCGTGATCTGGGGGCGGGCGTCAGATTAGAGCCGGAACTGGTGATCTGCAACTTCAGTTCACCTTGAAGCAGGTCAGCTGAGCTGAGAGCGCTT
GCACTGAGCCCTTTTGCGCTGCTGCTGTTGCCTTAGCGGTCTTCAGCATGTGTTTGCTTTGGTTTGGGGTAAATGGCTTAGTGGTCAACATTAGTGAGCA
GTGGTAATGCATTTTCAGATATGGGAACTGGTATGTGGTTGGTTCCCTAGAAGGACACCCTCCTGAAAGCTGTCTCAGAACACCGGGGGCCATGGCTAAT
GTCATGTGCTTGCTACACTCCTCCCATGGTAACTAAAGAGAGTACCCAGATATACATCTGGTTCTTGGGACTCTAGAGGAGGATGAGTACTTTGTAAAAA
CCTGGGGGCCCCAGTCATTCTAGGTCTGACACTCAGGTGCTGTATCAGCTGCAGTTTGAACTACTTGGCACCATTGTGTGGACTTTAGTTTTGTAAAAAT
GAATGGTTCCTTAATTTCTCAACCTTCAGGCTCAACATCTCAAGCTGTTTGTTGTTGTTGTTGTTGTTGTTGTTTTGTTTTGTCTTTTTGATTAGTGGTC
ACTCCGCATTTGATGTTTTGACATGTGGATTTCAGAACTTCTGTGTGGTAAAGCAGAATGTTCCAATTGAATTTTCCCATTTTTTTTCCCCTAAGCAAAA
ATGTGAGTTTTCACTTATGCGGCCATTGTGATTCCGACTGAGACCCTAAGTCGTTCTTTGTTGTCTCTCTAGTGGTTTCTGACACCTCAGTGTGAAGCTG
TTGTAGACATCCATAAGAAATAGCCTGCTTAGGGATTATGTGAGGGCAAGGTTTGGCTGAAGGAGAATAGAAGGTGTGGAAGGAAGCGGAAGACCAGAAG
AGCATCACACTGCCTCAAGTCCCAAATTTGATTCTGCTCCTGATCCTGTGACTCAAATTGTCATTCTCTTTTACTGCTGTGGGGTGTGCTCTGGGCCCAG
CTGACAGGACATTCTTTGTACTCCACGTATTTATGCTGGTGGGAGTTGTATGGCTAGTGCTTTGTGCTTTGTCTCAGAAATTGTGTGGACTAAATGTAAT
ATGGGCAGTGAATGGGTTTCTTCTGGAAGATGTTAGGCCTGGAGGGTGGTTTGGGTTTTTACGAGTCTTTTTCTCAGATTACAGATTACGAATGGATGTT
ATAAAACAGGCAGTGTTGACACCATACAGTTTCTCCTAAGAAATGTACAGAGAGTTCAACCTGAGGAAGCTAATTGAAAATAAACTTTTAAAAAGAAATG
TAGAAAGAGGAAATTTAAAAAGTATCTTATGAATGGGAAAGATGTAGCCATTTGAGCTTCAAAGAACTTTTGAGGGAATTCTCAAAGGACAGTACCCGTC
TTTAGTAGATAAATGCTTGATATCTATTTTTCTTCTTTTACTTTTTAAAGAATTACTAAAATAATACATGGATTTATAGAAAAATCAAACCACTTAAAAA
TTGATCAGGTGGCTGGGCAAGGTGGCTCATGCCTGTAATCACAGCGCTTTGGGAGGCCTAGGCGGGTGGATCACCTGAAGTCAGGAGTTCGAGACCAGCC
TGGCTAACACGGCGAAACCCCATCTCTATTAAAAATACAAAAATTAGCTGGCCATGGTGGCTTGAGCGTGTAGTCCCAGCTACTCGGAAGGCTGAGGCAG
GAGAATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCAAGATCACACCACTGCACTCCTGCCTGGGTGACAGAGTGAGACTCGGTCTCAAAAAAAA
AAAAAAAAAAAAGTATCAGGTAAAAAAATGAAAGCTCCCCGCTTAATCTCTGCTCCCACTACCCAGAATAACTGCTGTTAATAGCTTAATGTAGATCCTT
CTAAGTCTTCTAAGACTAAACTGTGTACTTTTTGTGTTGTAATTAACAGGAGGGTTTTTGTTTTGTTTTGTTTTTTCTTTTTTTGAGATGGAGTCTTGCT
CTGTCATCCAGGCTGGAGTACAGTGGCACAATCTTGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTG
GGATTACAGGCGCCTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGTTTCACCATGTTGGCCAGGCTGGTGTCGAACTCCTGACCTCA
GGCGATCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCTCAGGATGGTGTTATATATACATATTCTGCATTTT
TCCATCTCATATATTCATCTCTGCCTCATTTCTTTTAAATAGCAGTGTAGTCCAGGGCTGACTTACCGTCATGCATTTCGTTGTCTCTCTATGTTATTAA
AAATGCTACAGGATTGAAATTCCTCATGTGCCAGTCATTTTGAAGAATGGCTGCCTAGACTTGGAATTTCTGGTGGATACCACCACATCACTGTCCAAAA
TGGCTATCCCAGTTCCCACAACAGTCTGAGAAAGTGCCATTTTCCCATATCGTCCCAGAATTGGATATACATCTTTTAAATTGGTGCCGCTTGGATTATT
ACTGAGGCTAAACCTCAATAATCATTGTCATAGCTCTTAATGTATTAAAGATGTTAACTCTTTGTCATGCAGATATTTTCCTGTTTTGTCTTACGTCTTG
ATTCTTGTCTTTCTGATATATAAAATTTATGTTATGATTTATTCTTTTGCTTTCATACTTAGGAAATCCTTTTTTACTCTTTTTTTTTTTTTTTTTTTTT
TTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGTTGGAGTGCAATGGCGTGATCTTGGCTCACTGCAAGCTCCATCTCCCGGGTTCATTCCATTCTCCT
GCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCA
GGCTGGTCTCGATCTCCTGACCTTGTGATCCGCCCGTCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCCGCCAGGAAATCCTTT
CCTACTCTTAACAACAGATCAATAGTCATCTATATTTTCTTCCTAAAAAACCTGATGATGTATTATATTCATACATACGTATTTAATACATACAAAAGGG
CCAGATGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAAGAGTTCAAGACCAGCCTGGCCAAGATGG
TGAAATCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGGTGGCGGGCACCTGTAATCTCAACTACTGGGGTGACTGAGGCAGGAGAATCGCTTG
AACCCAGGAGGCAGAAGTTTCGGTGAGCCAAGATCACGCCACTGCACTCCTGCCTGGGCGATAGAGTGAGGCTCTGTCTCAAAAATAAAAAATAAAAATA
ATAATTTTATAGTTAAGTTGCCCTGTGTTTTTCCTGTGATTAAAAAAAAAAATACCTGTTTTGTATTTAACTTTGGGGTGGGATAAGGTATAGCCCACTT
AGTCAGTTGTGTCTAAGCCACTTGATGAACCAGTCAATCCAGTCTTCACCTTTAACAAATGCTGATTTCTTCAAGTGAGCAAAATATCTCTTAAACTTTT
TCCTATTTTCTCTATAAAGTTGCTTTTTTCTGAATTTTTTCTTTATGAGGCTTGATGGGCAGCCCTATCAGCAGACAATCATTCATTCACCCAACAAATA
TTTGAGTATCTGCTTCAAGCCAGGGGCAGTGCTAAGCCCTGGAAGTGGTATCTTCTCCTTATCCGGGAGTGGGGCTACAGTGTTCATTCCAGAAGACTCA
AGAAAATAGCAGATCATCACAAAAGTAGGTTTTACATAAATGAGGAGGAATCCACAGGGTTGTGTATATGTGTGTGTATTTTAAATTCTGACATAAGTTG
GAGCTTTAGGGTAGACTGTGACATAAGAGTAGTTTGTTTTCCAACTCATGTAATTGCCGGCTGATTTTTGTCTTGAATTATGATAATGGTAACTTCTGTT
GAAACAATTCTGTATTCATCTTAGCTTGGTTGGGATGCAATAAAAGTTTTGTACTGGTAAAAATGATAATTTTCTTCCATGATGATTTTGAAGCTTTTCT
GTAACACCTGATAAAAATAGAGGGGCCAGGCATGGTGGCTCATGCCTGTAGTCCCAGCTACTCGGGAGGATGAGGTGAGAGGATCCCATGAGCCCAGGAG
TTTTAGGCTACAGTGAGCCATCATCACACCACTGTACTCCTGTACTCTAGCCTGGGCAGCCTCGTTCTTTAGAGTAAGACACTGTCTCTTTAAAAAAAAA
AAAAAAGAAAAAAGAAAAAAAGAAAAGGCTTTTAGTGAATATATTTTTAGGGTAGCAAGTGTAATTTTTATAAATTGCATTATTTGAATCTAATAAATAC
CCTCAAAGCTGAAGTCGAATTCTGATTTTGATTGAAAATATTTTTTACTTAAAGGAAGAGGGATAGAATAAATGACACGATTAAGGAAAAGACTTCTTGT
ATAAGGCCGGGGTTTTTTAAATGATTTTTTGAATAGTTAGATGGACAATACGGAATTAAAAAGGTGGTGTAAAAAGTTATACGGGGCTGGGCACAGTGAC
TCACGCCTGCAATCCCAGTACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTAGCCAACATGACGAAACATCATTTC
TACTAAAAATACAAAAATTAGCTGGGCTTGGTGGTATGCACCTGTAATCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCGTTTGAACCCAGGAGGCAGA
GGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTCAGAAAAATAATAATAGAAAAAAGTTATATGGGGCT
GGGCATGGTGGCTCATGCCTGTAATCCCAGCAGTTTGGGAGGCTGAGGCAGCTTGATCACTTGAGGTCAGGAATTCGAGACTAGCCTGGCCAACATGGTG
AAACTCCGTCTCCACTAAAAATACAAAAATTAGCCAAGCGTGGTGGTGCGTGCCTGTAGTCCCAGCTACTTGGGAAGCTGAGGCAGGAGAATCGCCTGAA
CCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCGTTGCACTCCAGCCTGGACGACAAGAGCGGAACTCCGTCTCAAAAAAAAAAAAAAAAGAGTT
ATATTGTAAAGTATCTCTGCTACCCTGCCCCAAACATTCATTTCTTTCCCTGGAGGCAGCCACTATTACCTGTTTCTTTAAAAAAAAAAAAAAATTGTGG
CCGGGCACGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGTGGAGGTGGGTGGATCATGAGGTCAAGAGATCGAGACCATCTTGGCCAACATGGTA
AAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGA
ACCTGGGAGGCAGAGGTTGCAGTGAACTGAGATCACGCCGCTGCACTCCAGCCTGGCAACAGAATGAGACTCCATCTCAAAAAAAAAAGCGTGTGTGTAC
CCGTGTGTTAAATTTTTATTATAAAATATATATAACAGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCTGATCA
CGAGGTCAGGAGATCGAGACCATCCTGGCGAGCACGGTGAAACCTCGTCTTTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGCGCCTGTAGT
YCCAGCTACTCTGAGAGCCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGTCACTGCACTCCAGCCTGGGCGA
CAGACCGAGACTCCGTCTCAAAAAATATATATCGATATATATAACAATTTACAGTTTTAATCATCTTAACTGTACAGTTCAGTGGCACTGAGTACATTCA
CATTGTTGTACAGCCATTACTACCATCCATCTCTACAACCTTTCGTCTTGCAAAACTGAAATTTCATACCTATTAAACACTAACTCCCACTTCTCCCCTT
TCCCCCACCCCACCCTCTGGCAACTACTATTCTACTCTTTGTCTCTATTGGACATATTTTTGTGTGTTTAGGTTTGTGTATATATTTTACATGTGTGTAT
AAATACACAAGGGTATGTGGGCGTTGTGTTTTTACACATACTATAAAATATTGTGCACATTTGTTTATTTTAATGTATCCTGTAGATTATTTAGAATCGG
TTCATACAGAGCCGTATCATTCCTTTTAAGGGTTGGGTTTAAATAGTCTGTTATGGATGTACCACAATTTATTTAACCAGTTTTTAAATTTTTTACTTAT
TTTTTTTAATGTTTTTTTAGAGACAGGATCCCACTCCATCACCCAGACTGGAGTGCAACAGCATGATCATAGCTTACTGCAGCCTTGAACTCCGGGGCTG
ATGTGATCCTCCCACCTCAGGCTCTCTTGTAGCTGGGACTACAGGGATGTGCCGCCATGCCTGGCTAAATTTTTTATTTTTATTTTTATTTTTATTTTTG
GTAGACACGGGGTTTCACTGTGTTGCCCAGGCTGGTCTTGAACTCCTTGGGCTTGAGTAATCCTCCTGCCTTGGCCTCCCAAAGTGCCGAGATTACAACC
ATGAGCCATGGAGCCCGACAAGAGTAGCCTTTTATTTGCAGACCATTAGAGAAAAAGTTGCGTGTAAGTAGATAAGCATACGAATTTATCACTGCAATAC
TGTTTGTAGAGATCACAGAGCTGTTAGGCTAGGAAGAAGTTTTTAGCAGTTAGCACTAGAAAGCAAAACTTTGGAAACTTCCATTTCATCAAAAGTGACC
TCATCTGAGTAGGGCATGTGAGGGAAGGACCTTTTTACTCGACAAGGGGAACTTGCCAGTTCTTGTTTGTGAACCTTGAAGAAAGTGGAGCATTTTTATT
TTGGGACCATTCTAGGTTGTGGTAGTTCCTTGGTACTCGGGGTTGGAGAATCTCCCTCTGCTGCTGGACCTTCTGCCTCCTCATGCTGTAATATGCATAA
GAGGTGTCCTAGAAGTATTCAGGAACAGGCTGTGGTTGCTTTGTTGTTCTGTGACTGTTGAACTCTTTATATAGCAGTACTTTTTTAAGCTGTACTAATT
GAGCATTTATTATGTGTCAGTTACTGTGCTAGCTGCTGGAAACTATCCTACCCTCAGCAGTCTTCTGGTCTAATGGGAGGTACAGACAGGCAAATGGGCT
ATGACTTTACAAGAGGCTAACTTCTGTGATGGAGAGAAGTTCCAGCCACTAAGGGAGCACATAAAAATCAGAGGAGATCCTACCAAGAATTGGGAGGTAG
GTCAGGGAGGAGACTTCTTTGAAAAATGGCATCTAAGACCTGAACAGCAAGGAAACATTAGCTAGGTCAAGGACAAAGCATCAGTGGGGAGAGATGCATG
AGTCTTTTGGAAGGACCAGCATGTGTAGAGGCTCTGACAGGAGAGAATCTCTCAGGCCCATTCAGAGAGTCCACTGTGTGAAGACGAGGCATGAACAACC
AGCCAGGACATGTGGAGAGGAGCATTTTTCTTTTTTTCTTTTTTCTTTCTTTTTTTTTTTTTTTTTTTTTGAGACGTCTTTCTCTGTCACCCAGGCTGGA
GTGCAATGGCATGATCTCGGCTCACTGCAACCCCCACTTCCAGGGTTCAAGCAATTCTTCTGCCTTAGCCTCCCAAGCAGCTAGGATTACAGGCACCCGC
CACCATGCCCGGTTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATGTTGGCCTCAAACTCCTGACCTTAGGTGATCTACCCGTCTCGGCCTCCC
AGAGTGCTGGGATTACAGGTGAGAGCCCCCACGCCCGGCCAGGCTCGGCTTTCTTTCCAGGCCCCGTCACACTCTTAGATGTTCCCTGGGCCCCAGAAGG
CAGCGTGAGGTGCTCTGCCCATCTATGCTGTCCTTTTCCACCCCACCCTATCCACTGGGCCCCTGGGGCTCCCACTCCACTCCAGGTCTCTTCATGGACC
CTTCTTTCCCTTCACTTCTGTCCCAGGAGACCTGGGAGACTCATGGGAACAGGCATCATCTTCTCCAGCACAGTTCATTGTCTAATGCACGAAAGTGCTG
GGCTGTGAGAAGGTCAGGAGCTTACATGGAATGGGAGTCAGCTGTGGTACAAAGTACGCTGCTTAGTTCTACTGATTTTTTATTTTTTATTTTTACATAA
GACTTTGATGGTAAAGGAAGCAGTGTGTGAGCAAGCTGACTCCTGTCTTGTCAAGTACCAGGTCCACTCTGATGAGCCCCTGTGGACAGCACTGCTGTAA
CTCCCCAAGCCTGGGCTCAGGAGGTGGGCCCTAAGCGCTGTTCCCAGCTCTTCCTCCATGCTGTCAGCTCTTCCACCATTCTTCCTGGCGTCATTCTAAG
GTCCTGTCTTCCCCCGCCCTCTTCCTTCCTGGCTTCTACGCTCAGCTCAAGTAGTAGCTGTTTGGGTACTTTTCACCCAGACTTAGGAAATGTTATCAGT
TGGTCGTATTCCTGTCAGCCCTCTTACTATGGAACTCAAATAGGACAGATTCAGCTGAATTCCCAGCCCTGTGGTTGCACTCTTTGTCTGCCCTGCTTCC
CCAAGGTAGCCTGCTCCCTAAAGGTCACCGAGATACTCCCCATGCAAGGTTTTTGTTGTATTACACATGACAACATGGAATAAAGTGTTTTGCAAATTTA
CTGGATGATATCCTACTATGTGGAACATCCTACAACTTACTCTTTTCACTCAACATTTGACTTTTGAACCTGGTCTGTAYTGCTCCGTGCAGACCAATGT
TCATTCATTTGATATGTCTCCTTGTGCCATAGAAATAGTTTTACAATAGAAGCCTGTCCAGAGCCATGAGGGAGAAGGGGATTGTAGAGAAACAAGGATT
GGCATCTGGTTTATGTTTACATCCTTTAGTCCTGTTAACCGAGAAGAAGATATTTTTATTTCCATGTTTGCGAAAGCTTTCCACAAAAAAAAGCATCCAT
TTTCTAGACTTATTAATAGGGCAGTCCAAAGGTTTTATTTTTAGATTTGAAAGAAAGCAAAGTAGGCTTCTGAGATATGCACATTTCCCTGTGTCCCTGT
CTCTTTTGCAACATTCCACATTGCTGCTAAAACTTGAACATGAGCACTTTCAAGCATGTGCTTACTTTCTATGTATGACTCATTTTTTAAAACATTAAAG
CATTTTCGGCCGGGTGTGGTGGCTCACGCCTATATTCCTAGCACTTTAGAAGGCCGAGGCGGGTAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTAG
CCAATATAGTGAAACCCCATCTCCACTAAAAATACAAAAATTAGCCGGGCATGGTGGCGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAG
AATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCAGAGATCGAGCCACTGCACTCTAGCCTAGGTGACAGAGCGAGACTCTGTCTCAAAAAAATAAA
AATAAAGCATTAAAGCACTTTGTCTGGTGGTATGTAAGTTTTGGCATTACTTAGATAAGTTGTATTTTAAGTCTTTCTACACACAATAACTTATTTTTAA
AATACAAGTTTCTGTGTACTTCCGGGTTTTGTGTTTTTGTAAACAGCAGAAGGTATTAGTCCATATTAAGTACTAATTTGTTCTAATATTTTCAGCTGTT
TTTGGAATTACACTTGGCAAAAAAATAGACAAATGTCTGCAGTTGTGACAGTTTGTTTTTTTGTTCTTTTTAACTCCAGAATAAATAATTCTAGTGAGTT
TTTTTCTTGGCTTGTAAGAACATGGGAATGATTAGAGTCATCATAACACTTAAGTAGTTATAGAAGGTTGAACATCTGTAGTCAGTTGTATAAAATTTCC
TAGTCATCCTTCCAGGTTGTTTAAGACAAACAAATACATAGTATTTATTAAGCTCTTATAAATTTTAATTGTAAAACATCATTGTACAAAACTTTGAAAA
TGCGTATAGGTACAAAGATAAAAAATTAGGCCAGGCATGCCATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGGATCTTTTGAGC
CCAGGAGTTCAAGACCAGCCTGAGCAACATATTGAGACCCTATCTCTACAAAAATATCATAAAACAAAATAGAATCACTCTGGCGATTCCACTATCCAAA
AAAAAAAAAAACTGCTGTTAATATTTGGTATGTATCTTTCTAGACCAAGGCCTCCAACTTTGGTTGAGAATTCAGCCGGGTCTGTGACCTTGGATGGGAA
AAACATTCACTCTTTATTTTCACTAATGTCTCTGAAAACCCAGATTTTTAGCTGGGCATGGTGGCTCGTGCCTGTAATCCCAGTGCTTTGGAAGCCCGTG
GAGGGCAGATCACTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATAGCAAGACCCTGTCTTTTAAAAAAAAAAAAAATCCAGCCGGGTGTGGTGGC
TCATGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCAGGCAGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAATCCTGTCTC
TACTAAAAATACAAAAATCAGCCGGGCATGGTGGTGGGCGCCTGTAATCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGAAGGTAG
AGGTTGCAGTGAGCCAAGATCACACCATTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAATCCACATTTTCTTCAAT
GACAATTGTAAGCAACAGATCATGGTAGTATTAGAATAGCAGTGACTGTCACCAGTAGAGATCAAAGATACTTTCATATCATATTATAGTTGTTACAGAT
ATTTTGAAATATATATGTCCATCACTGCTTCAAACTTAAGGTAATTATTAGACCCATCTCTAGATCTGGTTATTTAATGATTTACTGAAGAAGCACATAT
TATTTGAGAACGAACTCTTGAAATATGTTGTTAATTTCTGTGCATTTTACACATTTCAAAACATTCTTCTGAGGAGGGGTCCAGAAGGCCAAAAGGGTCC
ATGGCAGAAAAAGGTTAAGAACACCTGTTCTGTACTTTGTACCATGTGGCTACAAATATAAAAACAGACGTTAAGCCGGGTATGGTGATGCACACCTGTA
GTTCCACCTACTTGGGAGGCTGAGGTGGGAAAATCACTTGAGCCCAGGAGTTTGAGGCCAGCCTGGGCAACAGAGCAAGACCCCATCTCTTAAAAACCAG
TCAGCACTTGACTAGTCAGTTAGTGGGGGAAAACACAGGTACAGTAAAAGGAGTCAAAATTACACTTAAACTTAGGTCATCTTATTATATCAAACATTTA
TTAACATGTTTAGTGTTTTGTGTATATTATGCAAAGTGTAATGCAACTAAAACTGTTTAACACTTCTCGATATCACATAAATTTGTTGGTGCATAATAGC
CTAAAAGTTACTTTTGCTGTTGGCATTTTATTTTATTACTTACTTATTTATTTATTTATTTATTTATTTTGAGACAGAGTCACACTGTCGCCAGGCTGGA
GTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCCTGGTTCAAGCGATTCTCCCGCCTCAGCCTCCTGACTAGCTGGGACTACAGGTGCGCGC
CACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATAGGGTTTCGCCATGTTGGCCAGGATGGTCTTCATCTCTTGACCTTGTGATCTGCCCACCTCG
GCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACCACGCTGGGCCTGCTGTTGGCATTTTAAACATCCTTCTAGAGTCTTTCTTATTTGCCTGTAAGC
ACGTACACATGTTGTTGTTGTTTTGAGACAAGGTCTGTCGCCCAAGCTGGAGCACAGTGGTGCAATCACAGCTCACTACAGCTTCGACCTCTTGGGTGCA
AGTGATCCTCCCAATCAGCCTCCCAAGTAGGTGGGACTACAGGTGTCCGCTACCATGCCCAGCTAATTTTTGTATTTTTTTTGTAGAGACGGAGTTTCAC
CATGTTGCCCAGACTGGTCTCAAACTCCTTTGCTCAAACGATCCTTCCGCCTCGGCCTCCCAAAGTGCCGGGATTACAAGTGTGCACCTCTGTGCCTGGC
CCACATATTGTTTTAGATGAATGAGATCATATATGTACTTTTGTAACTTGCTACCTTTCCTCAACAAAATGTTGTAAATATCCATGTCCATAAAAATAGA
CGTATATCTTCACTTTTCCCTAAAATGAAAATAACTTAACTTGCATTTTCTTTTTTGTTTTTGTTTTTGTTTTGAGACAGGCTCTTGCTCTGTTGCTCAG
GCTGGAGTGCAGTGATGTCACAGCTCACTACAGCCTCCACCTCCAGTTTCAAGTATTCCACCTACCTCAGCCTCCAAGATAGCTAAGACTACAGGCACAT
GTCACGACGCCTGGCTAATTTTTAAAATATTTTTTGCAGAAATGGGATTTCACTATGTTGCCCAGGCTGGCCTCAAACTGCTGGCCTCAAGTGATCTTCC
TGCCTTGGCCTCCCAAAGTGCTGGGATTACAGTCGTGAGCCACTGTGCCCAGCCTGCATTTTCTTATTATAAAAGTAATACATGTTCAATGGACAAAAAA
TTTTCAGAAAATATGCAAAGATGAAAAGTAAAAATTGTCCATAAATCTGTCATCTACAGATAAAGATAACTTCTGGATAATGTTTTTCTACCATCATTTT
TAGTAATCACATAACATTTCGTTGTATGTCTATGCCTTCATTTAATTAAGAGGCATTTCCATTATTTCTGCATGTTCATGACTCTGAATGATGATATGTC
TGCCTGCTGATGGCTACAACCCTGTTTCTGCATTTCAAACCTCTCTCTTGAGCTCCAGATTTGATGGCCTCGTCAGCATTTACTTGAGTTGCTCATAAGT
GTCTCAAATTTAACAAGTCCCAGTCTTGATTTTTTTYCCCCTTCAAACCTATTCCTCATGTTGTCTCTATTTCAGTAAACAATATCAACATCCACCCAGT
TACTCAGTCCAAAATTCTAGGAGTCATCCTTGATTCTGCTCTTTCTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGACTGCG
GACTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCTTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCC
GCCACCGCGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCC
TCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTCTTTTTTTTTTTTGATACGGAGTCTCATTCTCGTCATCCAGGCTGGAGT
GCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTTCTGCCCCAACCTCCTGAGTAGCTGGGCCTGGCTAATTTTTTGT
ATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCCTGAACTCCTGACCTTGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTAC
AGGCGTGAGCCACTGCACCCGCCCTGATTCTGCTCTTTCTCTCATCATCCCTGATCTGTCAGCAAGTCCTGTTAGGCCAACCACTTCTCAGCATCTGCAC
TGCCAGTATGCTAGTCCAAGCCACAAAACACCTCTCAGAGGTACGCAACAGGACTTTGTTGTTGTTGTGTGTGTGTGTGTTTTTTTTTTTTTACGGTAGA
ATTATTTTATAACTTGAAGTGTAGGGATGACCTTCCTTTTAAAATTTTATTTATTTTCTTAATTTTTTATTCCCATAGATTTTAGGGGAACAGGTGGTAT
TTGGTGACATGAGTAAGTTCTTTAATGGTGATTTCTGAGATTTTGGTGCACCCATCACCCGAGCAGTGTACACTGAACCCAATTTGTAGTCTTTTATCCC
TCACCCCCTCCCACCCTTTCCCTCAAGTCCCCAAAGTCCATTGTATCATTCTGATGCCTTTGCATCCTCATAGCTTAGCTCCCACTTATGAGTGAGAACA
TACRGTGTTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAATAGTCTCTAGTTCCATCCAGGTTGCTGTGAATGCCATTAAGTCATTCCTTTTTAT
GGCTGAGTAGTATTCCTTTGTATATATATGCCACAATTTCTCTATTCACTTTCTGATTGATGGGCATTTGGGCTGGTTCTATATTTTTGTAATTGTGAAT
TGTGCTGCTATAAGCATGCGTGTGCAAGTATCATTATGCAACGGGACTTCGGATGACATATTGAACAACTTCCTCACTGATATCCTTGTGAAACGCTACA
TATTTCATGGGTCTGTTTGTTATACCAACACTCAATTCTGAATGATGGAATTATTTCACATTTAGTCTCTTTTTCATCTAGCCATTATAGTTTAGTTTAA
ACACCAAGTTCCATTCCTGCTGCATGCTGAAGGATTTGCAGTACATCAGGCTATAGTCCATCAATTCATTCCACAATTGAGTAAGTAAGGTATCTATAGT
ACCTCAGGCCCTGTGTTAGGCAGGGATGGGGTAACCTAGACAGATTTGGTACCTGTCCTCATGGAGCTTGACTTTAGCGGCAGAGACAGATCTTAGATAA
TTGTACCAGTACTTAAGTGTTCAGAAGGACAAGTATGGAGGTGGGAGCCACTCCAGTCCTCTACAGTCACGTGCTGCACAACAACGTTTCAACCGACAAC
AGAGCACACATACAGTGGTGTTCCCATAAGATTAGAATGCCATATTTTTACTGTACCTTTTCTATGTTTAGATATACAAATACTTACCATTGTGTTCCAG
TGATCTACAGTATTCAGTATAGTACCATGCTGTACAGTTTTATAGCCCAGGAGCAATAGGCTATATACCGTATAGCCTAGGTGTGTAGTATGCTACACCA
TCTAGATTTGTGTAAGAACACTCTCTGATGTTAGCACAAATAAATCGCCCAATGACACATTTCTCAGAACATATCCCTGTTGTTGAGCGACTCATGACTG
TACAATGGGGGAACAGCTCAGCCTGCCTTCCCCAAGGAGGCAACGCCGATGCAGGGAACCGAGGGTTGAACAGAAGTGGGCAAGGTGCAGAGAGGAAAAA
GGCTTTCCAGATGGAGAAGAGCATGTGTGAAGGCCCTCAGTCTGGCAAGAGCTTAGTCCTGTGTGGCAGGAGCTGAACGAGGGGTTAGGGGAGAGTGGCA
AAGGGTCCGGGCCATCAGAGAGGTCAACAGGGGCTGGATCATGCAGGATTTTGAATGTTAACATCAGAGCGATAGAAAACATGAAGGGTAAGGTGGTTTG
GGTTTTGAATTTTTATCAAAATATTGCAACTACTCGGCAACAAGTTAGATATAACAAAAGAGGTCATCGTAAAAACAGCAGTCTACCCCTTCCCCTTCCC
TTCCCTGACTCAGACATGACAGCTTTTAACTGTTTCTGATTTTAGTTCCTTTGATGGTTACCTCCAAAATTAAATCATATGCTTATACATCTTTCTTGAT
TTGCCAACTTTAGGGAACTGTGTTAACTCCCTGAAATGAAAGAGAATGACTTAGCTTACGTTACCTCCCCATGTTGAAATTCATATTCACATTTCTCTGT
AATTTTTTTTTTGAGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGATGTGATCTCGGCTCACTGAAACCTCTGCCTCCCGGGTTCAAGCAAT
TCTCGTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCACACCAGTGCACTGGGCTAATTTTTGTATTTTTAGTAGAGGCGGGGTTTCACCATGTTG
GCCAGGCTGGTCTTAAACTCCTGACCTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCTACCATGCCAAGCCCACATT
TCTCTGTAAATTTTAAACAGTATTTTAGTCCATATGTCAGTTCCCCTCTKTTTAAGATAAGGATATTAATAACCCTACTTTTCCTTCCACTTTCCCTCCT
TAACTTCTGCGTCTTAAAAGCTGTACTTGACCATACCCATTCTTGCATTTGTTAACATGTGTGTTCTGCCCTGCAACCACAGCCAAGTTGTAGCTTAATT
CTAAAGTCGAAAATAACATTATTTACATTATTACACATGTGAGTATTGTTCTTGGCGAGACCAAATAATGAATGTGCCCAGGATTACATTTCCTTCTTTA
CAGATCTGGACCACTCAAAGGAGAATGACCAATCAAGGTCAAATGGATTCCCTTTTCTTAGACTCTGTCACCTGCTTAAAATCCTTGCTAGGATTTAATC
TACTTCATATTCAAACCTTGGCTTGCTTATATAGCTCTTTGTTTTGCCCACCATTTCTAGTTGCCTTTTTATTTTGTTTACTATTCCTCCTTGATTATGT
TGTAAAATGCTATTAGCAGTGCTGTTTATTTCGTACGATTCGGCTTTTTCCCCACTGAAGACCTTTCTCTTGGAAGGCCTCTGCCCTTCTGCAATCTGGG
CAAGTATCTGCTCTTTGATTTAAGGTTGCATATACAGCTGTACCTGGACCTTCTCCTCACTGGGCTCTTGGGTTGGAGCCCGTGTCTTAAAACCCATATC
TTCCTTTCACATGGTTTACTCCCTCGTTTTCTGGACTGCATCCTTAAATAATGTGCTCAGATAGAGTGCATGGGGAGTAAACTGTAGTGGATACCGTTGT
CACCTACCCCATATCCATTTCTTCTTTGCCCATTCCTAACAGAATCCTGATATTATTCACCTTTCTACCTTATTCCCAACTTCAGAAAGGATCCTTAAGT
CATTCCACACATTGCATTCCTTTGGCAACTGTTACTGGTCAAGGATGGACATACGATCTAAGTTGGTTCACTCAGACTGAAGGGAAGGACTTCCATGGCA
CGTTCAGGGAAGACTTTCTCTTTTTCTCTCACTGGAGTAAGTGAGAAAGGTGTTGCTGGGGGCTCTTCTGTAACCTCAGACTGAGGGACAAAGCCTGAGG
ATAAAGCCTGCTCACCAAGGAAGGCGGAGCAGAGAAACGGGAAGAACCTGGGTCTTGATGCCGTTGCTTAGCTGGTGATTGCACTGTGGCTGGGGCCTGT
CCTACCTGAGCTAGGGACTCAGATAGGATGGACTTTCTTACTGAATGAGCCAGCTTCAGTTTTCTTTTCTGTTACTTGTAACCAAAAGCATTGTAACAGA
TAGGTCTTCTGAGTCACTGCATGCCTGAAATACCTTTCTTCTACTCTTACACTTGATTGGCTGAGTATAGGGTTCCAAGTTGAAAATCATTTTTTCTCCT
AACTTTGGAGGCATCTCTTCTAGTATGCAGAGTAACAAATGCAACAAATGCCTGATGCCAATCTTATTATGGTTCTTTTGTAGGTGCCCTTCTTTTCTCT
TCCTTCCCTGGAAGTTTTTAGGATTTCGTCTCCTTATTTTTAGTGTCCTGAAATCTCATGAGAATATGTCTAGAGTTGTGTCTTGTTCACTCGTTGTACT
GTGGTCATTCAATCTGAATACTTTTGTCAACTCTTTTTTTTAAAAAAAAATTACTAATTTACATGCTTTCATTTTCTCTATGGGGACTACTGTTTAACTT
TGGACCTCTTATATTGGTCTTCTGTCTTCTCTCATATTTTTCATTTATTGGGCGGTGGGGGGTGCTCTGAATTTTGGAAGATCTCCTGCATTTATTTTCT
TTTTCCTTTTTTCTTTTTTTTTGAGGCAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTAGCCTGATCTCGGCTCACTGCAACCTCTGCCTTCCAGG
TTCAAGCAATTCTGCCTCTGCCTCCCACGTAGCTGGGATTACAGACCTGCACCACCACGCCCGGCTAATTTTTGTATTTTTAATAGAGATGGGGTTTCAC
CATGTTGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCGCCCGCCTCAGCCTCCCAAAGTGGTGTGAGCCACCGCACCCAGCCTCCTGACTTTAT
TTTCTATCCCTTCTGTTAAATTCTTTATTTCAGCCAAACCTTTTTTTTTTTTTTTTTAACTTACTGTGAAGCCTGTGTGCCTACTGCCTAGATTAGACAA
TTGTTAACATTTTGGCGTATTTTCCTGGTCTGTATAGATAGGGTGCATTTTTATACCTTTTTGCTCACCATTTAAAAGGAACTCACAGATGTCACGACAT
TTCACCCCTAAGTACTTCAGTATACATCTCCTAAAAATAAGGACATTTTCCAATATAAGCACAATACCCCGATCACATCTTTAAAAGTTAACAATAATTC
TCTAATGTTATCAGGCACCCACTTTAAATTCAGATTTCCTCCAAATGTCTCTTATCGCTGTTGAGGGGCTCCAAAGCAATTAAGATTTATACATTGCATT
TGAATATGCTTCCTTTGTCTCTTATTTATTTATTTATTTTATTTTGAGACAGAGTCTCGCTGTCTCCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCA
CTGCAACCTCCGCCTTCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGATTACAGGTACGCACCACCACGCCCAGCTAACTTTTTTG
TATTTTTAGTAGAGACAGGGTTTCTACTAAACCATGTTGGCCAGGCTGGTTTTGAACTCCTGACCTCAAGTGATCTGCCCGCCTCGGCCTCCCAAAGTTC
TAGGATTATAGGCGTGAGCCACYATGCCCAGCCCCTTTGTCTCTTTTAACAAGAACAGCCTACCCACCTCTCCTTCACTTGTGATACTGACTTTTTGAAG
CAGTCAGCCCAATTGTCATCTAGAAGGGCCCACATTTTAAGATACATATTTTTAGAGATGGCGTGTCACTATGTTGCCTAGGCTGGCCTTGAACTCCTGG
CCTCAAGTAATCCTCCTGCCTCAGCCTCCCAGGTAGCTGGGACTACAGGCTTGTGCCACCACGACTAGCTGGCCCACATTTTAGATGTCTCTCTTTTCTT
GTGATATAATTTAACTTGTTTGTCCATATATATTACTTGTAGRCAAGAAGTTAGGTCTACAGGCATGTTCAGGTTAAACATTTTGGGCAAGAATATTTCA
TAGGCAGTACTGTGTACTTCATATAGCATCAGCTCACCAGGCACTTAATGGTTGGTTACCCTGTGGTTTGTGATGCTACGTTTTAACACTTGATTAAAGA
AGGAGGTGACTGCCAAATCTCCCCATTGTAGACATACAGTTTTCCTGTGGTAATTGATATATAATCTGTGATGTGATGCTTTGGCACCATACAAATATCC
TATTGCCCAACAGCCATTTGCATAATTATTTTAGCATTCATTGATCCTTGCCTGAAACCATTATTACATTGGGGGTTGCAAAATGATAGTTTTTTTAATT
GTCACCTCTTCTACATTTAGTACTGTCATTCCTCTGTAATGAATTTTCCCTCATCAAATAAGGAGGCATTATATTTCCTCCTAAAAAGACAGTATAGATG
CTTAATCTTTGCCTTTATTACATTTCAGAGTAAGGAGTTGGTAGAATAATCACCTCAAATGGTGGCAAAATATTTGCTGTTGTGTTTCCTTTTCTCTTTC
ATGTCAATATGGACTCATAGGGATTTATTTATTAAATGTTTTACAATTCAAATTGGGTCAACAAGAGTCCCTTCATGTTGGTTCCTATATTCTCCTGGCA
TACCCTCATTAATTAGTCTTTGAGCAATTTCTTGTTTTCTGGCACAAGATATTCCATCCCAATATGTGCTTTTCGTGTCCTAGAACTGATTCCAAGGAGC
TCTGGTTCCTTATAGTGGCAACGGTATTTAGAATCCAACATGTGGGTACTAAATGTGCTGATTCTTACTGGGGTAACATTATATCTAGGCACTTTCAGAG
GACATCGCTAGAAAATATATTCAGTTTTTATTTTTTATTTTTAATTTTTTTGTAGAGACAAGGTCTCACTATGTTGCCCAAGCTGGTTTCGAACTGAGCT
CAAGCGATCCTCCCACCTCAGCCTCCCAAAGTGCTGGGATTACATCTGTCAGGGCAAACTGCTGGTAAATATTTTCACAAAAGAAAAATAAAAAAACCAA
AGTGCTGGGATTACAGATGTGAGCCACTGTGCCCTCCATTTTTTTTTTAAGTCATAAATACATAATGATGTCTTCTATGGCAATTTAACATTACAGGGTT
CTTCCTTAACTTTTTTTTTTTTTTTCTTTTTTTTGAGGCAGGGTCTTGCTCTATTGCCCAGGCTGGAGTGGTGCAGTGGTACAATCCTAATTCACTGCAG
CTTCAAATGCCTAGGCTTCAAACAATCCTCCTCCCTCAGCCTCCCGAGTAGCTAAGACTACAGGTGCATATCACCATGCCCAGCTAATTTTTAAAAATTT
TTTGTAGAGATGGGGGGTCTCGTTGCGTTGCCCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCTCCCATCTCGATTTCCCAAAGTGCTGGGATTAC
AGGTGTGAGCCACCATGCCTGGCCAACTTTTATTTGATCTGTATATATCTTTTCCTTACACTGAAAATGTTGGGTCTTACTAATGTTAACATAGTTACTT
ATTTGCTTTATCTTGTAATAGACATAAAATTACAAAATTATAATACCAATATTACGATAAATAGCTGGGCATGGCGGCGCTCGCCTGTAGTCCCAGCTAC
TCAGGAAGCTGAGGTGGAGGGACTGCTTGAACCTAAGAGTTTGAAGCTGCAGTGAGCTGTGGTTGTGCCACTGTACTCCTACCCGGACAACAGAGTGAGT
GGGGGGAAAAAAAAGAAATAATGGAAGATCCAGAGAAAGCCCCAAATATTTAAAAATTAAACAATACACTTTGCAGCTTCCTCACCTCTCTCAGCCTTCA
TAGAATTGAAGAGAGTTAGGGCCTTGCACTAGATTAGGCTTTGCCTTAAGGAAATGTTGTGTTTGATTTGATCTTTTATCCAGACCATTAAAACTTCCTT
AACGTTTATTAGTAATAAGGCTATTTCACTTTCATATCATTTGTGTGTTCACTGGAGTAGCACTTTTAGTTTCCTTCAAGAACTTTGATTCACAACTTGG
CTAACTTTGGTACAAGAGGCCTAGCTTTTGGCTTCTCGGCTTTCAACATGCCTCTCACTAAGCCTGATCATTTGGTTTTTGGTTTAAAGAGAAAGACATA
TGACTCTTCCTTTTACTTGAATGCTTAGAGGCCATTGTAGGGTTATTAATTGGCCTAATTTCAGTACTGTCTTGTCCAAGGGAATAGGGAGGCCCAAGGA
GAGAGAGAGAGATGGGGGAACAGCTGATTGGTGGAGTAGTCAGAATATACACATTTATCACTTAAGTTTTGCCATCTTTTCTTTTTCTTTTTCTTTTTTT
TTTTTGAGACAGTCTTGCTCTGTCACCCAGGCTGGCATGCAGTGGCATGATCTCAGTTCACTGCAACCTCTGCCTCCTGGGCTCAAGCAATTCTCCTGCC
TCAACCTCCCGAGTAGCTGGTATTACAAGCGTGCGCCACCATACCCAGCTAATTTTTATATTTTTTAGTAGAGACAGGGTTTGCCATGTTGGCCAGGCTG
GTCTCGAATTCCTGACCTCAAGTGATCCACCCGCCTTGGCCTCCCAAAGTGCGGGGATTACAGGCGTAAGCCACTGCCGCCTGGCCAAGTTTGCCACCTT
TTTTATTTTTTTTATTTTTTGAGATGGAGTCTCACTCCATCACCCAGGCTGGAGTGCAGTGATGCAATCTCGGCTCACTGCAGTCTCTGCCTCCTGGATT
CAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCATGTGCCAGCACGCCCAGCTTGTTTTTTGTATTTTTAGTAGAGACGGGGTTTC
ACCATGTTGGCCAGGCTGGTCTCCAACTCCTGACCTCAGGTGATCTGCCCGGCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCCCGCCCG
GCCAAGTTTGCCATCTTTTATGGGTGCAGTTTGTGGTGCCGCAAAATGATGATAGTAGTAACATCAGAGAGCATTGATCACAGATCACCATAACAAATAT
AATAATGAGAAATTTGAAACATTGTGAAAATTACCAAAATGTGACAGAGACATGAAGTAAGCACATGCTATTGGAAAAATGGCACTGGTAAACTTGCTTG
ATGCAGGGTTGCCACACACCTTCAATTTGTTAAAAACTCAGTATCTGCGAAGTACAGTAAAGCAAAGCACAATCAAATGAGGTGCGCCTGCATATTACAA
CCAAGAGGCTTTTCGCAGAAACACGAGTGTGCTTCAACATTCAAAAATCAGTTGGTGTAATTCACCACATTAAGATAATAAAGGAGGCCGGGTGCGGTGG
CTCACACCTGTAATCCCAGCACTTTCAGAAGCCGAGGTGGACAGATCACTTGAGGCCAGGAGTTTGAGAGCAGCCTGGCCAACATAGTGAAATCCTGTCT
CTACTAAAAATAGAAAAATTAGCCGGGCAGGGTGGCACGCACCTTTAGTCCCAGCTATTCGGGAGGCTGAGGCAGGTGAATCCTTGAAACCAAGAGGCGG
AGGTTGCAGTAAGCTGAGATCACGCCAATGCATTCTAGCCTGGGCAACAGTGAGACCCAGTWTCCAAAAAAAAAAAAAAAAAAAAAAAAGATAATAAAGG
AGAAAAACCATATAGTCTATTCAATAAATACAGAAAACGCATCTGACAAAATTCAGTGCCCTTTCATGATAAAAATTCAGCAGATTAGAAATAGAGGAAG
TGCATGTATGAAAGAGCTACAGATAGATTGTACTTAATTGTGAAATATTGAACATGTTACCCCGAAAATCAGGAAAAAGGCAAAGATGTCCACTCTAACC
ACTTCTATTCAACATTATACTAGAGGTCATAGCCAGTATAATGAGGCAAGAAAAAACATAAGAGGCATTAATATTTAAAGGAAGTAAAACTGTTTCTATT
TGTAGGTAATGTCGAAAATGTGAAAGAAACTATCAGAACCTGCTAGAACTAAAAAGTGAATTCAGCAAGGTCTCAGGGTACGAGATCATTCAAAAACTAA
TCAGAAATGAAATTTCAAATGCAATATCGTTAGGAATAATTTAATAAGAAATGTACAAGATTTACACGCTGAAACTGAAAATGTTGCTGAAAGAAATTAA
AGACCTAAATAAATGGAATGTTGTACCATGTTCATCAGCTGAAAGACTAAGTGTCTTTACAGTGTCAGTTCTCCCTTCATTGAACTGTAGATTCATAACC
CCAGTCATAACTGCAGGGTTTTTTTTGTAGAAATTGATTGTAAAATGTATATGGAAGCTGGGCACGGTGGCTTATGCCTGTAAACCAGCACTTTGGGAGG
CTGAGGCAGACAGATGACTTGAGGTCAGGAATTTGAGACCAGCCTGGCTAACATGACGAAACCCCGTCTCTACAAAAAATACAAAAATTAGCCAGACATG
GTGGCACACACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCATGAGAATCACTTGAACCCGGAGGTGGAGGTTGCAGTGAGCCAAGATCATGCCACTGC
ACGCCCGCCTGGGCAACAGAGTGAGACTTTGCCTCAAATAAATAAATAAATAAAACGTATATGGAAATGCAAAGGACCTAGAACATCCAAAGTAAACTTG
AAAGAGAACAAAATTAAGGGGCTTATGTGATGTGACTTTATAGTCATTTGATTTTTAACAGAGGCACCAGAACAGTCCGGTGCGGGAAAGGAAAGTCTTT
TAGCACGTGCCGGATGATGGCAAATGACATCCATACCAGACAAAAATGAACCTTGACCTTACCCTAAATATTAGTTTCTTAGAGTTGCCACAAACTAGGT
GGCTTAAAACCACAGAAATTTGGCTGGGTGCGGTGGCTGACGCCTGTAATCCCGGCCTTTGGGAGGCCGAGTCGGGCAGATCACCTGAGGTCAGGAGTGC
AAGACTAGCCTGGCCAACGTGGTGAAACTTTGTCTCTACTAAAAATACAAAAAACTTAGTCAGGTGTAGTGGTGCACACATATAATCCCAGCTAGCCAGG
AGGCTGAGGCAGGAGAATTGCATGAACCTGGGAGGTTGCACTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCGTCTCAA
AACAAAACCACAGAAATTTGCTGTCTCATAATTCCAGAGTCTAGAAGTCCAAAATCAACTGTCATCAGGGCCATGGTCTCTGTGAAACCTGTAGGGGAGT
CCTTCCTTGCCTCTTCCTAGCTTCCAGTGGTTGGCAACCTTTGGCATTCTTTGATTTGCAGCTGCATTACTTCAATATCTGTCTTCCTCATCACACAGCA
TTCTCCATGTATGTCTCTGTCTTTACATGGCCTCCTTCTTGTAAGAACAACAGTAATATTGGATTGGGGCCTGCCCTACTCCAGTGTGACCTCACCTTAA
CTAATTACACCTGCAACAACGCTGTTTCCAACTAAGGTCTCAGTGTGAGGTACTGAGGGTTAGGACTTCAACATATCTTTTTTGGGGGACATAGTCCAAC
CCATGACACTACTTCACACCATACATAAAAATTAATTCATGAGAGATTATAGACCTAAATGTTTTAAAAGCTAAAAATATAAAGCTTCTGCAAGAAAACA
TAGGAGAATATCTGTGCAGTCCAAAGAATAAGGTTTTTTTTAAACACAATTTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTG
CAACCTCTGCCTCCCGAGTTCAAGCGATTCCCATGCCTCAGCCTTCCAAGTAGSTGGGATTACAGGTGTGCGCCACCATGCCTGGCTAATTTTTGTATTT
TTAGTAGAGGCAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAG
GTATGAGCCACCGTGCCAGGCCAAAAAAAGATTTATTAGGATACATGAAGCAATAGCTATTAAAAGAAAAAATAAATTGGACTTCATTAAAATTTAAAAC
TTTTGGTCCTCAAAAGATACCATTAAGAAAATGAAAAGACAGAGCTGGGCGTGGTGAGGCTTGCCTGTAGTCACTACTGGGTACTTGAGAGGCTGAGGCA
GGAGGATCACTTGAGCCCAGGAGTTCTAGGCCAACATAGGCAATATAGTGAGACAGTGTCTCTTAAAAAAAAAAAGAAAAAGAAAAAACAAAAGAAAATA
GGCTGAGAGCTGTGGCTCATGCTTGTAATCCCAGCACTTTGGGAGTACAAGGCAGATGGATTGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGGCAACAG
TGAAATCCCATCTCTACAAAAGATACAAAAAATTAGCCAACCATGGTGGCGTGCACCCGTAGTCCATAGTCCCAGCTACTCGGGAAGCAGAGGCAGGAGG
ATTGCTTGATCCCAAGGAGGTCAAGGCTGCAGTGAGCTGAGGTCGYGCCACCGCACCCCAGCCTGGGTGACTGAGTGAGACCCTGTCTCAAAGAAAATGA
AAAGACAAGTCCACCAAGAAAACAGTTGAGACCAGTCATAGAAAAAATAGAAAGTCATATCTGACAAAGGATTTGTATTCAGAAGAATTCCTATAACTCG
GTAATAAAAAGACAACCTGATTTTTAAAGGGTGAAAATATTTTAATGGATACTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTGTGTCACCTAGGCTGG
AGTGCAGTGGTGCCATCATACATAGCTCACTGCAGACTCGAACTCCTGGGCTCAAGTGGTCTTCCTGCCTCAGCCTCCTGCGTAGCTAGGACTACAAGCA
CGTGCCACTATGCCTGGCTAATTTTTAAATTTTTTGTAGACATGGGCTGGTGTGTSTCTGTGTTGTCTAGGCTGGTCTTGAACTCCTGGGCTCAAGTGAT
CCTCCCACCTCTGCCCCCCAAAGTGCTGGGCCACCACGCCTGGTGTGGTGTCACCAGAGATGAGCCACCATGCCCTGCCTGATACTTTWCTTTTATCATC
TGTTTATTTCTTGTTTATGGGTGTTTCTGTTCTGATTTTATGACTATTCTGTATTCTAAGATTTCTCTGAGAATATTATTTGTTTCCTCTAAGGACAGAC
TTGGTCTCTCTTCCATGGGGCTGGTTCTTGAGCCGCCAGGGATGGGGGGAGGACCTGGGTAGCTGCTGCGCTGCCCCTTCTCTGCTGTGRTGGAGTGGCC
CGTTGCCTGCGGGGTCTGTCTCTGAAGGGTGGTTTGGAGAAGTTCTGTGGAGGCGAGGCAGGGGTCAGCTCTTGCCCCATGGACCCTCAGAGACTGGGAA
AAGGTAGGCATCACCTGGGCTGCTGCCAGCCACATCAAGAGCCTTTGGGGTGGGTGGGGTGGGGGCCGGGGAAGGGAAGGTTCTAGCTGTTGATTTAGAA
AAGACCCATTGATTTCTTGCCTGAGGGAAGAAGTGGCACCTTGCCACTCCAAGTTTGCTCTGCTCACCAGCCCCAACAGCATCAGCCTCACCTGGGAGCT
TATTGAAGGTGCCCTGCCCCAAAGCTTGTGGGTCGGGATCTGGCAGTCAGCAGCCCCCAGGTGTTGCACACATGACAGCACTGCTTGCCCCTCCTCTCGT
CTGGTCTGGTCTGGTCTGGTCTGGTCTGGTCTGAGAGCTTCTTTGGGGCTCTGACAGGTATACAGGCTCTCATCTGCTCTACAGCTCTCTTGTAGTACAT
TCCTCTCTGTTCCATTAGTCAACATGTTCTTGCCTACTTCCAGCATCTAGAAATTTGCTGAGTGTATCTTATCCGTTCAGAGGTCCTCTCCTGCTATTGC
CTCTGTTAGAAATTTCTTCCCTTTCATATGTCTGTACTTCGGTTTCTTTGAGGTTTGAAGGGTCAAGTGGCAATTACATGTAGGCAGTTGGCCATCCTCT
GGTGAAGGCTTTAAAGCCCAGGAATAACAAGATCCATTATGTCTAAAACTAGCAAAAACCCTACCTGTCACATGGTGAACTGAATTAGAGGTGATGGGGA
CAGAAGCCAGATTGGAGTGAGTGGAAGGTGAGGGAGTGGAGATTGGGTATAGACAACTCTCTTTAAGAAGTTTTGTTGTGATGGTGACCAGAAAAATAGG
AGTGGGGTAGAGGGGGATGAGGGTGTTTTTCACGTGGGTGAATATGAGAGCATGTTTACATCCTTCTGGGAATGGCCCAGGAGAGAGGGGAGCGTGAGAA
GGAGGAAATGGGGACCTGGAGGAGCAGACTCCTTGTGTGGAGGGGGGAAGCGGCATCTAGAGCTGTTGCAGGAGGTGGGCTTTGAGTAAATGCTTCCTCT
TTGGTAAAGACGGGGAACGGGAACGGTAGAAGTTGCACGGACCCTTTGTTAAAGCTCAGAAGCTGAGCGAGAATTAGAGCTTAAGTTTATGGAGTAGTCA
GAATAAAGTACCCCTAACTGTATTCTTGCACAGTGCAGGAAGCCAGGGGTCTGAAATCAAGATGTTGCAGGGCTCCATTCCCCCCAGAGCCTCTAGCATG
GATCCTTCCTTGCCTCTTCCAGCTTTTGGTGGCTGCCTGGCAGTCCTAGACTTTCCTTGGCTTGCAGTTGCATTGCTCCATTCTCTGCTTGTGTCTTCAC
ATGGCCTTCTCTGTGTCCCCGTATTCTTCTCTGGATGCTTGTCACTGTATTAGGCCCACCCTAAATCCAGGATGATCTCATATCAAGATCCTTCACTTAA
TTACAGAAGCAAAGACCTTCCAAATAAGGTCAGAGCCACAGGGTCTGGGGGTTAAGACATACACCTAACTATTCGGGGCTACCATCGAACCCCTGTAGAA
GCCTGTCCATTTCCAGGATAGCAGAGCCCAAGGAAGGGCCAGAAGTCCCCCCAAAACAGTTGTTTGCATTCACCAGATTCTAAGCTATAAGCAGATGGGC
AGTGGCAGTCGGTCCTAATCCATATACCATTGGCAACAATAGTTTAGTTCACTGTAGACATAATGAGATGCTTATCTTCTGCTAAGTAGTCCTCATGGTA
ACAGCCATATTACTCCTGGCTTTGAGTGACAGCGCTGTGCTCTTGTCTGGTGCCCATATACTTCAGCAGCTGGAAACAAGACAGTGCTCATGATTCACCG
GAAAGTTTCTGTAGTTAAAATCAAGTGATCCCTTGAGTCTATTCTAATATTTGTCTGTACCATGTTCTGTGACGAGACATGGAAACAAAACATTAAGAAG
TGAAAGTATCTTTGATTATGCTCTTGAAGACAACTTTTTGTTTGTTTGTTTTGTTTGAGACGGAGTTTCACTCTTGTTGCCCAGSCTGGAGTGCAATGGT
GTGATCTCGGCTCACTGCAACCTCCGCATTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCCAGGATTACAGGCATGCACCACCACGCC
TGGCTAATTTTTTTTATTTTAGTAGAGACGGGGTTTCACCATGCTAGTCAGACTGGTCTCAAACTCCTGACCTCAGGTGATCCGCCTGCCTCTGCCTCCC
AAAGTGCCGGGATTACAGGTGTGAGCCACCGTGCCTGGCCGAAGACAACTTTTTAAAGATGCATATGCTCTGGGCTGGGTGTGGTGGCTCACACCTGTAA
TCCCAGCACTTTGGGAGGCCAAGGCGGGCAGATCACCTGAGGTCAGGGGTTCAAGACCAGCCTGGCCAACATGGTGAAACACCGTCTCTACTAAAAGTAT
AAAAATTAGCCGGGTGTGGTGGCGGGTGCCTGTAATCACAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCCAGAGGCGGAGGTTGCAGTGA
ATTGAGACTGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTTGGTCTCAATAAATAAAATAAAATAAAGATGCATATATGCTCTGAAGGCTGGC
TACATTTTATTTTTTCTCAAACAACTTTTACAGTGGATAGTGCTGTAAAAGTTGTTTAGCTCTGGTCATTTTATCTTTTTTGTGATCTGCAAAAGGAGAT
CCTTTTCCTTTTCACTGCCTCTAATACCCAACTCCAATACTCCTTTGACCTCACAGGCACTTAGAATCCATCAGTGGCTCCATCTTTTCTCAGACTTCAC
CTCCTTCGTATCCTTATTCCTCTCCTTTGTAGCTTCAGTGCCAGTCAGACGTCGTTACTCCCTGGCACACTACCTCAGCCCTTCGGCACTTTCTTGCTTT
GTTATATTCAGTCGACAAAGCCCCAGCCTCATGAAATTCAGTCATGTCTGCCCCATGCCTGCTCCGTCCTGAAGCTGAATGTGACTCCTTCATTGATTCC
CCCTTTAAGTTCATGTCTACCCCAGGTAAACTTCTTGCCGCCAAGCCCACCTGCATACTGCAGTTCCCCGGTCTCTCCTAGCCCCTCCCACCCTCCTCAT
CAGCTGTCACACCTCCTTGCAGCTGATATCTTAGTTCCCAGAGAGCACAGAAGCAAGCTCAAGAGAGTGTCTACAGGCCAGCGTCTACTCCTTCGCTCTG
CCTCCCTCATGCTGTCACGGAGCGCCTGTCCCAGGCCCTCACTCCTGTTCTAAGGCATCTCTCCAGTCCTCTACTGCACTCTCCCCCATCAGAGATTCCT
CCCTCGCCTGCCCTAGAAACTTGTTGCTACTTCTCCCACCTTGACAAAAGCTGCTCCCAACCCCCCACCTGTCTAGCATCTCTGTTTTCCTTTACCAGCA
AGACTCCAGTCCCTGTCTCCACACCCTCTTCAACCTTCTCCAGTTGTTCCTTTGCTGCCACAGCTCTGCCAAGCTGCTCCATGAGGTCTCCAGTGATGAC
CTTCATGTTGTTAAATCTGGGAGCTGCTTGTCACTTCTTTTCCCAGAGCTGTCGTCGTCAGTTAACCCCAATACCCATACGAGACAATCCTTTCCCTCCC
TTGAGTCTCTGCACTGATGTGCACCTTCTCAGTGCAAACCACAGCTTTTGTCTCTTTCTAGCTGAATACATGACTGACTGTGCTTATCTTAGCTGTCACC
CCTGCTGGAGCAGAAGCTCCACAGGACAGGATTGTCTCCTTGATTCACAGATGTAGCTCAAGCTCCTAGAACAGTGCCTGGTGTCTGTGGGTCCTCAGGA
AGTCCTAGGTGAGTGTGTGAATGTCTGTCCTCCTCGGTCTTTTCTGTTTCGCATGTGATGTTGGAAGGCCTCAGGTTCAGGCTTTTCTTCTCCACCCTCA
CTCCCGAAGTGATTCCGTCCAGCCTCATGGCTCCCAAATTTATGTCTCCAGGCTGACTGGGTCACGGGAACTCCTTATCCTCCCTAGACCTTCTCTTTCC
CTGGTCTTCTCCTTTCCAGTAAACAGCAACTCCAACTCCTGCTCCTCAGGCCAGAAACCTGGCGCTGGTTACCTCATTTGTTCACAAATACTGTTACTCC
ACCTGCAAGATGGATACAAAATCTCATGAGTTCCCCTGCCTCCAYGGCCCCCACCCTGGTCCAGGTGTCCAGCTTCCCTGCCTCTGCCCTTGCCCCCTGG
TTCTTTGTTTAGTCCTGCAATATTGTGCTCTTCTGTTCAGAACCCTCCAGTGGGTCCCTGCTTGCTCAGAGTCACAGCCCAACAGGATCACCTCTCTTGC
CACTCTCCCACCACTCATGCACTGCGGCCTCACTGGCCTCCTGGCTCCTCCCTGGACCCTCCAAGTATGCCCCTGCCTCAAGGCCTTGACCTCTCCTCTG
CCCTCTGTCCCAGGTATCACACATGTCTGCTCAAGTGTCACCTTCCCAATGTGGCCTTCCCCGAGCACACCCATGTCTGTAAGTCAGGCAGCCTGCCTCT
GCCCCACCAGTTCCCCCTGCCTAGCATAGGACTTGTCACCATCTGCCACAAGCTGTGTTACTGCTTGGTTTTGTTTGTGCTCTCCCACTCCCTTCCCCTC
CCTCCCTCTCCCCACCCCTATAGAATCTGAGTCCCATGAGGACAGAGATTTTTTTTTTTGCCTCTTCCTCAATATATCCCCAGTGCCTAGAATCATGCAT
ATTTTAATTTATTGAGTGAATTAACAAATAAATTCTGCAGTGGGACATTGCTCTAAGGTTTTGTCTTATAAGAGGGACAGAAGAACATGCAGCCTGCTCT
GCTGTTGGCTCCTTAGCTTCTCCATGGCTAACAGGAACAATATTGTTTATGAGATAATCAAAGCCATAGTCATGAGTTAGAAGGTACATATAAAGGCAAA
TATGTGGAGATTGAGTTACTTTGGCGGGGGCGGAGGGGTGTGTAGTTATCTGAAAACATGGAACAAATCAATGAGAGTCTAAATAGCACCCACATATTTG
CCCCTCTTTTAAAACATACCTCCTTTATGAGTGTAGAATTTAACAGCACAGTTTCCCAGTGCAGCTTTGCGAAACAAGAGAAATGAATTTTAAAGGCTGT
CAGGTGCCTTTGCAATCTGTGGCTTAGTATTTGTGTAACAACATTTGTGTTTTGCCAACAGAKGTACTGCTTAAAGTACCCATGAGAATGGCCTCTGTGG
TTTTCTACTTTCTCGGATGGAACCTTAGGAACTGATTATTGAGAAGAGGCTGATACTGCCCACCTCAGCTCCCAGGCAGGCTTCAGGGCCTTGGTTACTA
CTCCTTTGGGCCCTCACTGACCCTTGCAGACGTCTTTTGCAACCTCTGTAGCCAGAAGAGACAACTGCTTTCTGGCATGTTGCTCTTTCCCTAATGGCTT
TATGAGCTTCTTGAACACCAAAGCATGTGTGACTTCCTCACGCCTTCCCCTGTATAGTATAGCACCCCTAACTGTATGTGTAAGGAGAAGGAGTGAGCAA
TTGATGGCGTCCCCCTGGATCTCCAAGGGAATGGGAAGGGGCAGGGTTTCTGGATTCAGTCATGTGGAATCTGGTCGTTGGTGTCTAAATGTGCCTGTTA
CTTGTGCCCAATGTCCAGGTTCACCAGGAGGCTTAGCCTGCTCATTTCCCTGCTAGTAGCTATATTTTGGGAGAGCATTTTTTATGCTCTAATTGAACTT
TGTGGGTCTCAGCAATTTGAACAATGTTTTGTTTTTCTTCTGGTCAGGTTACAAAGGAAAGAAAAGGAATCTGGTGTTGTAGGAGGTGGTGTGTTGTGTA
ATTACTTGTTTTTTTTTTTTAAGTTTTTTTATATTTTTGCAACAAGGCAAGTTTTCTTTGAATAAATAATGCTGGGAGCTTATCACATAGAAGGCATATG
TGTTGTACTCAGTACATTCTGAATTATCTGGGTTTATTTTTATCTCTTGAATTCACTTATAAACAATTCAAAGGCTGCTTTTTTAGCTAACAGAAATAGG
AAGAGAATCTCAGAATCTGTTTTGTCATTTTTTCAATGGGTTGAGTTATAGTGATTATGCTAACTCGGTGGAAAAGCAGTGTAGTGAGTAAACCCCACAT
ACGGCATATCATGAACATTTTGTTGCTTTTTTGGCTTCTGACCATCTTCATACCTTTTTTTGTGTTAAAAGTCTCCCCATTGTGTATATCTTAGTAAGAG
GCAGGTGGACCCTAGTTTCTACCTAAGAAAACCTGAAGATGGGGTTGGGGGCCTGTGGTGTACTTCCTTCTCATGCTGTCCATGACCACTGCAGTGGCTT
TGTAAGGATCCAGGACCCAGGGCCCCTCAGTGGGTGTCTTCCATTTCTCAAGATTGCCTCTTGGTTGTGAGATGACGGTTGCTGCTCTAGTCATTGCATC
CACTCCTCCAGGTAGGAAGAAAGAGGTCATAGGGGAAAGGCAAAATGGCACTTGACATCTTAACTTCTAGGCCCATTCAATATTTCCATTTCCATCTTCA
CACCCATCATCTTGTCCTAGGGAACAAACAGCACCAGCAGCTCAGTAGCTATAACAGCAATTATTATTTCTCACACATGGGTCTGGGTCAGCTGCAAGAT
GGGATTCAGATCTGTTCTCAAGCCTGTCGTTCCAGGACCCAGGAGGGAGAAGCAGCTGCCAGGGGAAGTCTCTTCGTAGGCGGAGGTCAGGAGTCCAAGA
GGAGTGAGCAGAGTCACAGAAGCCTCTTAAAGCCTCTTCTTCCCCCATCCCATCAACACGTGAGCAAGCCCAGAGTCAGTGGGTGGGAGGTGTGCTCCGC
CCATAGTCAGTAGAACAAGAGCAAGCTTGAAAGAGAACGATGAACAGGAGTGCACTCGGCCACTGTCTCCTTAGCCATAACGTAGTCCCATGGTCTGCTG
GGAAGCGGGGAATAACTCTCCTTAGCTGAGCGCAGGGTCTCATTAGTAAGGCAGATGGAGAACATGGATGTTGGGGGACAACTGGCAGTGCCTGCCACAG
GGGAATGGATATATTCCCTCCCCTTGCTCTCTGGAAACTAGGGGATGGCGATGAAGCCTAGGTTTGGCCAAACCCATTCTGCCTTCAGGGACTTTGACTC
TTGAGGGACAGTGAGGGATTAGTCATGGTGGTGGCAGTTGAGTCACAAAACCAGCAGTGGTGGCTAATGTCCAGTGATGACATGCAACAGTGCCCAGGGT
GGGTGTCCCAACCAGCAGGTCCCTGCAGTATAACCTTGGCTGTGTTTGCAGTGGTGCAGCCTCTATTCCTGCTGCTTTTCTGAGCCTAGTTCTCTAGTTC
TCTCTCCATTTCCAGATCTGCTGCCCAAGAACTCCTTTGTGATTGAATTTAACCAGAGTTGATTTCTGTTGCTTGAAACTCAGGACCTTGATGCAGTGTG
CAGGGTCTGGGCAAGGTAAAAACACACTTTCATGATTTCGCCTCAAGTATAGTAGATGAGCTTAGGCTTTTTGAGCCAGGTAGCCTTGGGATTAATTCTC
AGCTCTTGCACCTAGCAGGTGACCTCAGCAATCAAGTCACTTGCCCTCCTTGAGCCTCAGTGTTGCCCTCAGTTAAACATTGCTCTCGTGTGTTGCTGAG
CATTCAGTGAGATTGTATATAAAGTGATCATTGTGAAGGTATTGGGACATAATTTGGGAAAGCGTCCTGGTCTAAGCTTTTGATTGGCTCTCCATCATTT
GGGTAATGGGATAGTGATTTAGGAGTAYCATAGCAGCTCAAGGGGCCCTTCTGGAAAGGGTATGAGGAAGGTCAGGGACAAGTCTGAAATGAATCATCCT
AGGCTTAATGCCTGTGACTGGGCAGTGGGTACAATTATCTCAGGCTAGTCAGTAGTCATTTATTGTGAGAATACATGGGCAGATTTTTTAATTTCCTTCT
CAGTCTAGACTTGAATGCAAACAGTTCTTATTGCTAACTTACCACTAGTCACCACTAATGAACAAAGACTATGAACAGGAAATTCATAAAAGAAGAGATA
CAGATGGCCAATGAAGATAGGAAAAGAGTTCTGCCTGCTGGTAATCAAAGAGATGCAAACGAGAACAAAAATGATGCCTTTTCACCTACCAAATTTGTCA
AGATTAAAAAGAAAGCAAAGAGCCAGCGTCAGCTGATGTTCATACCTGCACCTGCTCGGTAGCTTGCTAATGTTCTGCCTGCTCCACACGCCAGGCCAGC
CTCCACGGCGCAGCCAGGTGAGGCCTTTCCTTGTATACAGGCACGTTTGGATTCACTGTTGCATAAGTGAGACATGTGCATGCTTCACAATTCAGGAAGT
GCAAACTCCAGAGTGATGCAAGGTCTGAGTGTCCCTGCTGCCCTGGTCTCCCAGCTGCCTAGGCCTCTCTTCAGGGAACGGCTGCATCCAGGGTCTTGTC
TGTGTCTTTTGAGGTGTTCTATGTACACGCAGACACATCTAAACCTATTTTTATTTTCCCTGCACCTGCTTGGGCTACTGTAAGCTGTTAAATTTTTTTT
TCTAGGAATTTGTCCATTTTGTCTGACTAGCATAAAGTTGTTCATGTTATAGTTTATACATTTGCAACATCTGTAATTATGTCTGCTTTTTCATTCCTAG
TGTTTGTTGTTTACTTGTACCTTCTCCCGTTTTTCCTTGTCTTGGTAAAAGCTCATTAGGTTCATTGGTCTTACAAGAAGCAGACATGTAGGCATTATTG
CCCTGTATTACTCTGTGTCTCTTTTCTAGTTCATTAAATTCTGCTTTTGCTTTTATCTTTATTATTTTTTCTATGGTCTTAGAGTACATTCTCTGTGTTT
TGTTGTTGTTGTTGTTGTTGTTTGTTTTTTGTTTTGAGAGAGAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTAGTGCAATCTCAGCTCACTGCAA
CCTCCACCTCCTGGGTTCAAGTGATTCTCGTGCCTCAACCTCCCGAGTAGCTGAGATTTACAGGCATTTGCCCCACACCCGGCAAATTTTTTGTATTTTT
AGTAGAGATGGGGTTTTGGCATGTTGACCAGGCGGGTCTCGAACTGCTGACGCCAGGTGCTCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGC
ATGAGCCACCACGCCTGGCCCTAACTTCTTAAGTTATAAATTTGGTTCATTGATTTTTCTACCCTTTTTTCAAATGTAAACATTTAAGGCTAACCCTCTG
GAACTACTTCAACTGTATCTAGCAAGTTCTGATAGTATTGTCACTTTAAGTTAGCCCAAAGATATTTTAAATTTTCTTTGTTTCTTCCTTTGACTCACAT
ATTATTTTAAAATGTGTTTTTCAATTTCCAAGCACATGGCTTTGGGTTTGTTTTTTTTTTTYCCTAGTTGCTCTAGAAAAAAAAATTGACTGCATGAGGT
GGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGCCAAAACCTCGT
CTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGCACACACCTGTAGTTCCAGCTACTCGGGAKGCTGAGGCAGGAGAATCACTTGAACCGGGAGGCA
GTGGTCACAGTGAGCCAAGATTGTGCCAGTGTACTCCAGCCTGGGCAACAAGAGCAATACTCCGTCTCAAAAAAAAAAAAGAAAAAAAGAAAAAATCAAC
TTCTAACTAAATGGCACTGTGATCAAAGAACTTGGTCTGTGTGACACCAGTTCTTGCAGTTGGTTGAGAAGTGCTCCATGACACATTATCCACAACCAGT
GGACAGAATATGTCACCACCAAGCATGGGTGCAGGATTCTACATATATTCATTACCTCTGTCTTATCCGTTTGTTGTGAAAGTATTTTCTCTTCTTACTG
TCATTTTGTTTACTTGATTTATCAACTGATGGAATACGTGTTAAAACCTACTGTGGTGATGGACACATCAGTTTCTCCACAGAGTTTGGTCATTTTCATT
TTATTATTTATTTTGAGGCCACATTTTCAGTTTTAGATACAGTTTCACATTCCTGGTGTATTGAACCCTTTGGTATTATGAAGCGACCATACTAATATGT
TATTTTTTTTTAAATTATTATTTATTTTATTTATTTTTCTTTCTTTTTTTTTTTTTTGAGACAGGGTCTCCCTCTGTCACCCAGTCTGGAGTGCAGTGGT
GCAATCTCAGCTCACTGCAACCTCCGCCTCCTGGGCTCAAGTGGTCCTCCCACCTCAGCCTCCTGAGTAGCTGGGATTACAGGCTTGCACCAGCGCGCCT
GGCTAAGTTTTTGTATTTTTAGTAGAGACAGGGTTTTGCCATGTTGCCCAGACTGGTCTCAAACTCCTGGGCTCAAGCAGTTCACCAGCCTTGGCCTCTA
AAAGTGTTGGGATTACAGGTGTGAGCCACCACGCCCGGCCATCCCAGTTTTTTATTTTCCTCCTTTCTGTGTCTTTATGCATCAGTGAGGTGGAGCTTTT
GAAAATGTCAGATAGCTAGATTTTTTTTTTTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTCACTGCAACCTC
CACCTCCCAGGTTCAAAACAATTCTCCTGCCGCAGCCTCCTGAGTAGCTGGGACTACAGGCACGTGCCACCACACCCGGCTAATTTTGTATTTTTAGTAG
AGATGTGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTCACCTCAGCTGATCACCCGCCTCAGCCTCCCAAAGTGTTGGAATTACAGACGTGAGC
CACCATGCCCAGCTGATAGCTAGATTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCGGTGGCGCGATCTCGGC
TCACTGCAAGCTCCGCCCCCCGGGTTCATGCCATTCTCCTGCTTCAGCCTCCAGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCGTGGCTGATTTTT
TTTTTTTTTTTTTTTTTGKATTTTTAGTAGAGACGGGGTTTCACCGTGTCAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCAGCCT
CCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTCGAGATTTTTTAAAAAATCCATTGTCTGTTTCGTCCTTTAACATCTATTTGATTTC
TGATGTATTTAGATTCATTTATAGCATATTTGTGCATTCTATTTTTCCATATTTTCTGTTCTTTTAAATTTTCCTTCTCCTTTCTTGCCTTCTCTTAGAC
TTTTAAAAAAATTGTAGTAAAATACACATCACCTAAAATTTACCATTTTTAAATGTACAGTTCAGTGGCATTAAATACAAATTGGAGGCCAGGCATGGTG
GCTCATGCCTGGAATCCCAGCACTTTGAGAGGCTGAGGTGGGAGGATTGCTTGAACCTGGAGGTCGAGGTTGCAGTGAGGTGTGATCACACTACTGCTAT
AGCCCAGGCAACAGAGTGAGAACCTATCTAAAAAAACAAACAAACAAACAAACAAACAGATTGGCATCACACAGTGTGTGTGCTGCTGTGCTGTGCTGTT
ATCATTTAACATTAAAACATAAACATCAGCACTGTTATGGACTGAATGTTTGTGTCCCCCAAAATTCCAGTGTTGAAGCTCAAACCTCCAATGTGATGTT
ATTTGGAGATGGGGTATTTGAGAGGTGGTTAGGTTTAGATGAAATCAGGAGGGAGGGTGGGTTTCGCATGATGAGATTAGTGTCCTTATAACAAGAGACA
GCAGAGAGCTTGCTTTCTCCACCATGTGAGTATGCAATGAGAAGGCAGCCATCTCCAAGTCAGAAAGAGAGCCCTCACCAGGGGCTGAATGTGCTGACAC
CTTGATCTTGGACTTCTAGCCTCCAGAACTGTGAGAAATTTCAGTTGAATAGGCCCCCCAGTCTGTACTATTTTGTTATAGCTTGAGCAGACTAATACAC
CCATGTTATGAAAAGCTATAAACATCCCTTTAAAGGCCACCTAACGCGTCGTATTACCTCATGCATCTTCTCTGCTGAGCTTTCCAAAAGAGTGGCTTAG
GCTGGGCCTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATG
GAGAAATCCCGTCCCTACTAAAAATACAAAATTAGCTGGGCGTGGTGGCGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGCCAGGAGAATCACTTG
AACCTGGGAGATGGAGGGTGCAGTGAGCCGAGATCGTGCCATTGCATTCCAGCCCGGCCAACAAGAGCGAAACTCCATCTCAAAAAAAAAGAGTGGCTGG
CCGGGCGCAGTGGCTCACGCCTGTAATCCCCGCACTGTGGGAGGCCGAGGTGGGTGGATCACGAGGTCAGGAGTTCAAAACCAGCCTGGCCGAGATGGTG
AAACCCCGTCTCTACTAAAAATAGAAAAACTAGCCAGGCGCAGTGGCAGGCGCCTGTAATCCCAGCTACTTGGGTGGCTGAGGCAGGAGAATCGCTTGAA
CCTGGGGGGCGGAGGTTGCAGTGAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGTGACACAGTGAGACCCCGTCTCAAAAAAAAAAAAAAAAAAAAAA
AAAGTGGCGTATGTTCCCGGTCTCCACCTCTCATTCGCCAGCCCCTGTGACCAAACCCCTGGGATTAGATCTCCATCGGGTCCCTCCCCTCACCCTAACC
TCACATGCAGTGGTTCCTGAGAAGCTGCTGTTTATCTGATCACGGGAKCCAGCAGGATCTGAGGGCTCATTCACTGAATCTGTACTACCCAACAAGGCAG
GCTTGTCCTTACCCACACTTTTCAGGTGAAAACTTAATCAGATTCAAGCGTTTATCTTAGTGGCCTCTTCGTGGTGTGTGATTTCCTTCTTGCAGCTCTT
TACTGGCTAAAACTCTTCACTGGGAGTTAAACCAGGTGTGGTCCTTGACCCTCATCATTTTGTCCCATCTCCTATGCTGGGCTCTGTATCCTTGTCTCCA
AGCAGTCTCGTGTGACAGGGAAGTTACCTATTATTGTATGGTCCCCTCTTCTTGTCACCTCTGGTGTGGCWCTTGTTCCATTTCTTGTTCAATGAATGTG
ATTTGTGAATGTGCCACATCTGTGGGAGGAAGGCAGTTCGCAGCAAGAGTTGTAGTTCCCTTGCTTTGCCCTGAGGGCCAGGACTTTACACTAGATTTTT
TTGTTGCATTCCTGCACTCATAAAGTACACSTAAACTTAGAGGTGGTGTGTTAAATGCTAGAACTTAAAACTGAGTTCAGCTAGGCTCAAGTGCCCCACA
ATTTTTGTCCCACCAGACAATTTCATGAATATCTACAGATTGTTCCCTCAATATRCCTCAATATTGAGGCATATTGATTTGGGGAGCACAGACAAGTCAA
GGTTGATGTGCATCCGCTGAACATGATCTTAAGTTGTTGAAGTAGGTATTATTAATGAACGAACGTCTATTTTAGCTCCAAGAGCCCCTGGTCTTCCAGA
AGAGACTCCCAATGATCTTCCAGAAGCAGSTGGGCTTCTTTTGGTCCTCCCCCACCCAGGTGCAGTCCCGTTCTCCCTGCCTGGGTGAGTTTGATTCCTC
TGCCGTGGAATAGGCTAGGCTGCTACCTCTTGAGCCTCTTCCACCAGGCCATCCATTAGGTGGCGACAGAGAGCACTAAAAGGAACTACTATGGAAATAA
AACTTGTTTTGCTTCTTGGGGGGAAAAAAAAAGAAAAAGGCTTGTGGGGCGTGTGTGCATTTTAGTCAGATTTTACTGTGCAAAACATTTGAGAGATTTC
TGCCCTCTTTCTCCCTTCCATTCTTCTCAACCCACTGGGCGCCCTACCACCCCTGTCTCCTTCAAGATAAGGTAGATCAGAAGACCAAATAGACAAATGC
CATGTCCACTGTTTTCTGTCACAGTTGATAGCCATACCAGTCACCCAAGCTGGAAACCCAACASGCCCCTGCCCTTCACTGCCCACATCCAAGGGAGCCA
CCAAGTCCCACAAATTGTTCCTTTAWCTGTTTGTCCCTCTTTTGTCTTCTGTCATCCCTTCTACCGCTGTCCTGGTTCAATCCCTCATCTTGCTCTGGGA
CTCCCATGATAACTTATGATCTTTCCTCCACCTCTCTATCTTCCACACAATCCCTATCATCAATCTCATTCCCCTGCTTTAAACCCAAGAGTGGCACCCT
GTGTTTGAGTGACATCAGGGCCCCTCATGTGGCTCCTGCTTCTCTTTGTGGCCCCTTCTGTTGCTGCTGCTTTTCTTATGGACATAGCCCTCAGCAGTCC
AGGACTGCTTGTAGTTCCTCCCAGGTACCATGTTTCTTGCACTCCTGGCCTTTSTCATTGGCTCCCCTGCCCAAGTCCCCTTCTCTTCTCCTTTCCTTCC
CCTGTGGCCTTGCCTTGTCGTGCTTATCCTTGAAGACCCTGTCAGGYATCTCTTCCCCAAAGAGCCCTGCCTAACCACCGCCCCCCTCCCCCCCGCGACA
CACACACCTGGGTTAGKCCCTGCCTCTCCACGCCTGTGCCTCCTGCCAAGTCCTCAGAGGTCTCTGATCCCATGTGCCTCCAGGCATGGCATAGGGGGAC
TGTGACACAGCCTCTCGGCCCACAGACCCCTGATTGTGGGCTTGCTCACTGCCCCAGTCAGTCCTCTTATTGAKGATTCCGTGCCAGTTCCTGWCTCCAG
CACACACACGCATGTAGGCCGCCCTCCTAGTGCCTGGCTCCTTCCCTGTCTCTTCTGCCACTCATTCCCATGGTCGTATCCTGGAGTTGGTCATCTCTGG
AACTCCACCCACGGAGTTCTAACTTAGCTCTGCCTATGATGAGGACTTACTGTCTTCCCAGCTTGCAGTGTCAACCACTGTTTGATGCCCCTGGGACTCC
ATTGGTCTTCCCTCCTCTTGTGAACTGTGCCCATCACCAGACGAACTTGTTTTAGAATTTACCATCGTAACTGAGCTCCCTTCAGCGCATACCTCCTTGG
CTCCTGCTCAGTCTCTGTTTCTCCTTTTAGCCAAACTCTCTAAGAGTTCTCTCCACTCATGGGCCCTCTTCCTTGCCTGCTGCTCCTTGCTCAGCTTGCT
CCATGAACACTTGCTTTTCCACATTCCATGAAATAATCTTAACAGTCATCAGTGGCTGTCACTCCTTCTCAGCCCTTTCCTTGTGTCTCTTCTGGTACCT
CATACTCTCCAGGTGGCCATCTCACCTCACATCTTGAACCCTCTGGGTTTGGGAGAATTCTCACCTCACGAGTTGATGGGAGGCCTGGCGACCTCTGATT
GTAGTCACTGCAAATGCCAGATGCTTATTTGCCTAGCTTCCCTTTCGGTCAGGGCAGCAGTTGGCAAACGGTATCTCAAGGGCCAAGTCCGGCCCACTGC
CTGTTTTCGTAAATGAAGCTTTACCAGGACCCAGTTCCACCCCGTCCTTTGTGCATTGTCCAAGACTGCTCTCCTGTACAACAGCAGGTGGGCTGGTTGT
GACAGATACTGTCTGGCCYACAAGGTGGAAAATACTATCTGGCCCCTTACAGAAAGAAATTACCTGAGTTCTACACGAGGGTGTAGGTATGTACCCTGGC
CTCTGCCAGTCAGACTCACATGCTAGGAGGAGCAGGGCCAGGCAGGAGAGCCGTGTCTCCTGGCATTGGGGCTGCAGGAAAGACGAGCTCCTAGGCCACA
GTGCCAGTGGCCAGTGCTGCTGCCTTGCAGGGTCGCACAGGCAGTGCTGGCTGTTTGGACTGGCTTGGCAGAAGGATTTGAAGTATTGTTCCTAGCCAAC
TGGACTCAAACCTGTTCCTCCAACCCTCTAGGGATTCTCTTATCACCCAGTAGCCTTTTCCCCCTAGTTTTAAAAATTGCAGTAAAATACACAAAAGATA
AAATGTACTGCCTTAACCATTTTTAAGTGTACAATTCTGTGGTATTGAGCACATTTATATTGTGCAACCATCACCACATGCATCTTCAATAGCTTTTCAT
CAGTCCTTGTCTGCATAAATCAGCTAGAGTTGGTTTCTATTGATTGCCACCAATAATCTTGACAGATATGTCTGATCTTCCTTCTCTGCACTGACTCCTC
TTTCTCTGTCTCCTCTGCTGATTCTTTCTCCTCATCACAACTCCAAATAGCAGGGGGAGGGTTGTTTACACTTATATTCAGCACGCCCTCACGCACTCRC
CTGGCTCTTCAGACCTCTCCCCTGAACTCCAGATTCATACATCCAGCTGCCCTTTAGGCCTCTAGAAAGCTAAATACCTCAGTATCAAAAACATGAGAAA
CGGAAGCCAGAGTCCTGGATCTCTCGCCCTTTCGCTGTCCCGGTGCCCATGCCCTTCAGGGATGGCACCTAGACCAGCTCCCTGCATCCCTGCCTAGACT
CTGCAGTAGTCTCACGTGGCAGACCCGGAGGTCACTCTCCTCTCTGGATGCCCTGCGGACACTCCGGTTAGCCTCAGCTGCAAGAGCCTCCTCACCCAAG
GTCACGCCATTTCCAGGACAGCACCCTGGTGACTGAGCGAGGTAAGGGTACAAGGCCCTTATAGGGCCTTCTCTTTGACTTCTTCCCACCTCCCTTTATG
GATGTCAGTTCCTGATGAACATCTTACACCTCAAACCGTGACCCAACATCTGCTTCTGCAGAGCCCCCCTGTGGCATCTTGTGCCCTCCTGCCCCACTCC
CTCTACTCTATATCTTCCCATAGTTAGAATGGGCTTTTTTTTTTTTTTTTTGAGATAAGGTCTCCCTTTGTCACCCAGGCTGGAATGCAATGGCACAGTC
ACGACTCACTGCAGCCTCAACCTCCTGGGCTCAAGCAGTCCTCCCACCTCAGCCTCCCAAGTAGCTGAGACTACAGGTATGCACCACCACACCTGGCTAA
TTTTTATATTTTTTGTAGAGACTGGGGTCTCCCTATGTTGCCCGGGCTGGTCTCGAACTCCCAGGCTCAAGCAATCCTCCCGCCTTGGCCTCCCAAAATG
CAGGATTACAGGCGTGTACCAGTGTGCCCAGCCTCAGATGGGCTCTTTGAAAAATGTTTATTAGATCAGGTTACTCCCTTGAGAAAAACCCTCTCAGAAT
AAAACCCGAAGTCCATTACTTGAAAGCAGAGCCAGCTTCATGGGCCTTTGTAACTGCCCATGGGCTTGCTGGAACCCAGGCTTGGTTTAATACTCTACTC
TCACCATCTCAAAATTCTTAATTTTTGAACAAGAGGCCCTGCATTTTCATTTTGCACCAGGCTCCACAAATTGTGTAACTGGGCCTGCCTCAGCAGCCAC
ATGGAACATGATCCCTCCTTGCCTATTTGAGCTCATTCTCTACCATTCTCTCCCTTGCTCACCTGGCTCCCACTGCTCTTGCTCTTCCTGGAACTTGCCA
TAATGTTGCTAGAGTCAGAGCCTTGGCTCTTGCTGCTCCTCATTGGCTGGACCCCTCTTTACTTGACCTGCTCCCTCACCACTCACTTCCTTCAGATCTG
TGTTCAGATTTCGTCTTCTCAGAGAGGCTTTTGGCCCCTGTCCATCTCTCTGAATTTACCTCTGACCTCTCCCCCACCACCACTGCGCTAAGCTGCCTCA
GAACTTTGTAGACATTCTGTCTGGTCTTCTGATGTTTCCCCCTTGGAAGAATCCCAAGGTGCCTGAAGAATGCTTTCTTTATCCTTGAAGTTGAGTAGGT
TGACTAGAGTCTGGCTTGCTATTGAGCATTCTTTATCAAATTGTCCTGGGAACATGGTGTATTCTTTCAGTCTGCAGATGTAGTCGTTGCTGTTTCAGGT
CAGCTCTCTTATGGATCTTTGACAGCATCTTCTGTTCCATTTGTTGAGTTCTGTACTTCAGGGACACAAATTCCTCATGTTGGATTGTCTTTGTCTCTCT
TCCAATGCTATTAGCTTTGCCGTAATTGGTTTAGCTTTTGTCTTTTTCATCTGCATTCACTTTGTCTAATTTGATTTTCAGCTATGTATATTCTGTTTCT
GGCTGTTTTTCAATGTATTTATTAGTTTCATAATGATGTGTTTTGGTCTGCAGTTTGTTTCTCTAGGTTGGAAATTTGTCTTTTCATCTTATTCTGTTTT
ATCATCCCATCTTTGAACTCTTTTATTGGGAACATGTTCTTATGAAGTTGTGGGGAATTTTTTTCCCTTCCTTGTGTATTCTCTTCTTGGTGGGAGACTT
TGCCTTTCTCGTGCCATCTCCCTCCCTGGGCCTCTTTTTTTTCTTCTGGCCATAATATGTTTGCCTAGTTACCATGTCACTTCTTTTCGTCTTGGCTCAG
GCTTGGATGGCTCTGCATAGTCGTTCTGTTTGCTTTGAGACAGTGGAGGAATTCTTGGCTCTCTCTTCCCAGTTTCTTGGCATCTTCTCTTGCTGTTTTC
CCCTCTGAGCTATCGCGTGCAGGCTTGTTATCTTGTATCCGGAGAGAATTTGCACGCTGGAGGGAGCTGCAGCCATGTAGTYTTCAGCCCTATCTGGATT
CTTCTCTTTGTTCTAAGAACTGTGTTGGWTGTCTTACTAAGGCTCACTCTAGCTGCACGAGGGATGTGTGTGCCATTTCCATGGGGATAGGGGGCACCTC
AGTCTCTGGGTGGTTCCATAATCTGTGTATACCTAAGAGCAGTTGCTTCCCACAGAGCTGGGCTGGCTCACTGGGCACTTTGCCATTTCTCCTGCACCTC
CCAGCTGGAGTTTCTGGGTCTAAAAGGAAAAAGTGAAGGACTCCCACTTGGTTGCTTCTCTCCAGCTTACTGACTGCAAATTCCCAGGGCGTTGCCCGCT
CCCTAGGGTGGTTTCTGGGGGACGGGGCAGGAGCCTGGCTTTGCTGCTGCTTTGTCCTCTGGAGTCTTTTCTCAGACTGCTTTGAATTACACCCCTTTCC
TTTGTGTGCTGAAATCTTCCCTTCACACTCTCCTTCCCTGCCTTTCTTTTGTGTCTTATCTTACTAGGACTGGAAGAGGGCAGTTGTGCAGGAGGTCTGC
ATCTAATTCCCTAATCCATGTGAGAGTGCTCCTGTTGTGTGCTTTGTGACATGATGGTGAGAAATACTCCCTAGAGCAGTGGCTACCAGAAGGAAGCCAT
CCCCCCCCTGCCACACACACACACACACACACACACACACACACACACACACACACTCCTTCTGGCTGTCCTCAGATGCCTATTCTAGGTAAATGTCAGA
TTCCAAAGAAAATCCAGTTGAGATCTTTTTTCTTTTTTTGAGACGAGAGTCTTGCTGTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTG
TAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCGCACCACCACACCAGGCTAAAATTTTTTTGT
ATTTTTAGTAGAGACAGGGTTTCACTGTGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGTTCTGCCCGCCTCAGCCTCCCAGAGTGCTGGGATTAC
AGGCTTGAGCCATCGCGCCCGGCCTCCAGTTGGGATCTTGACTGGAATGACTGGTGTTCAATCATTATAGTTTCCACCTAATTTGTATTTGTACACAGGA
CAGTTACTAATTTGTTGGTACTTGTTTGATCCCCAGTCCCTAGAGTTGTTTATGGGGTGGAGCTTCAGTCCCTGCTGCTTCCCCTGTGGCAGCAGCTGGA
GTCAGGGTGGGGACCCAGGGTGCTGCTGGCAGATTCTTGAGACAGGTAGAATCTCCTCTATATTGGTGTCTCTCTCTGTCCCAGCAGTGCCCAGGAAAAC
CTGGCCAGCCTGTCACTGACCTCTCCACCTAGGGCACTGGTGGTTCAGGTCCTTCTATTTGCCACCGGCAAACCGTACTTCTGCCAGTCTGGCTCTTAGG
CCCAGTTTCTCTGATCTTGCAGATTTTCYTGGGCTCTGCTACGGAATCCTCATACCTCCGGCAGGTCCCTCCTTTGCCCATGTGTTTAACTGTGGTGGAA
TCGTGTGAGAGCTGCTTCTCTCGCATGGATCCCAGCCACACCACATTCTACAGCGGTTCCTCTGAAGGCATTGATAGAGATATTTCCTCCTGTTTTGCAT
TTCGTTGGTCATTTCAGTAGAATCAGGGTGAAATAAACATGGGGGCTCAGATGTCAGCATTACGAACCAAGTACGTCAGGCAGGCTGATGTGGACTGACC
TACACTAGTGAGACGCAAGATGACGAAAACAAGGGCACTCACTCCAAGTTACTGATGAGATGTTTGGATCAAATGAGCCAGTCCTTAAGCAGAGTTCTCT
AGTAAAAGAGATCTCCTTTCTGCCCTTTCTTGTTCCCCAAAATGTGTTGCCTTCATGGTGAAAATTTATTTTGGCAGATTTTCTCTTCTTTGATAAAAGC
AGCCAACACTTTGTTAAAAGTCTGTGAAACTTATTTACATGAAGTATGTAAAGGTAAGAAAAAAACATTATCAACAAGAAATGGAGAAAGCCAGCAGCTG
AGGACAGAAAAGTCATGCACAGTGTCAGTGTCTATGGAAACAGGCCACTTGGACCTTGAGGACTAGGTATTTGGAATTGGAGGTGAGCTTGGCCTGGTGA
GTCTCTAACCACTTGTGTGTAGGATCAGTGTGAGAACCCTGCTAGAATATAGTGGCAGAGATGCAAGGGGAAATCATTGGAGAAGTTACCAGGGAATGAT
GAGCTAATCTGAAAAAAATACATGTTTCTAAGTTGGGCGTGGTAGCTCATCTGTAGTCCCAGCTACTTGAGAGCCTGAGGCAGGAGGATCGCTTGAGCCC
AGCCTGGGCAGCACAGCRAGACCCTATCTCCCTAAAAAAAACTTTTTCGTTGTTTAGTTTTGGGATTTTTTTTTTTCCTGGTCTTTTTTCCCCCTTTTTG
TGAATAACGGGATCTCACTATGTTGCCCAGGCAGATCTCGAACTCCTGGGCCCAAGCAATCCTCCTGCCTCTGCCTTCCTAAGATTACAGGTATGAGCCA
CTGTGTTAAGCAAAAAAACTTTTTTAAATGAAAATCATTTTTTAAAAGACAGGCTTTCCAGGGGAGGGTATTATTCCACTTATATGAAGTGTCAACAGTA
GGCAGATTTGTGGAGACAAATAGATTAGTGGTTACCAGGGGCTGAGAGGAGTGGGAGTGGGGAGCAACTGCTTAATGGGTAAAGGGTTGTCTTTGGAACT
AGAGAGTAGTGATGGTCGCATGACATTGTGAATGTACTAAATGCTATTAATGATAAATTTTATGTTATGTGTATTTTACCACAATTAAAAAAAAAAGATC
AAATGTCCTCAGAATAGCCAACAACCTTCCACTTGGCTAAATGCCTACTCATTAAACTTCTTGAACTAAATTCCTTTCTGATTGTCATGGTTATTGTGTC
CTGGGCTTCAGAGTTTCACATTCAGGTTGGCTTGGTCCAGTCTGTCATGTATCACTATAGGTCCCCACATTGGCCTCTTCCTCAGACGGACAGCCCATCT
ATCTGCCGGGGCTCTGTGCCACAGCCAGATAGACTTGCTCTGAGACAGCTGTGTGGGCTCTGAGCACTGGCCAGGCATCACAAAACCTATCTTTATGATT
TAGAATAATTGGTGGTCAGCTGCTGTTTTAATGTTGTTGTTTTTTTTAATTTAGATATAATTCACATACCATGAAATTTACTCATTTAAAGTGTACAATT
CATTCTTCAGTATAATTCATAGGCTCACAGAAAAAATTGTTTAAAAATAAAATGTGCAATTCAGTGTCTTTTAGTACATTCACAGAGTTGTGCAACCATC
GCCTCTGTGTCATTCCAGAACACTTTCAGCACCCAAAAGAAACCCCAGACACAGGAGCAGTCACCTCTTATTACCCGCAGCCCCTGGCAACAACTCATCC
ACTTCCTGTCTCTATGGATTTGCCTATTCTGGACATTTCCTATAAATGGAATTATGCACTATTTGGCCTTTTGTGTCTGGCCTCTTTCACTGAGCGTAAT
GTCCTCAAGGTTCATCTGCATTGTAGCATGTGTCAGAATTTCTTTCCTTTTTGAGGCTGAATGATATTATATCCTATAGATAATGAGGTTTTGATTATCC
ACCCATCCCTTGGGAATGCATATTTGGGTTGCCCCCACCATTTGGCTGTTGTAAACTGTGCTGCCATGAACACTGGTGTACGGATATCTGTTTGGTTACT
GGTTTTGGTTTTTTGTTTGTTTGTTTTGGTTTTTTGAGACAAGGTCTTGCTCTGTCGCCCAGGCTGGATTACAGTGGCAYGATCTCTGCTCACTGCAACC
TCCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGACTACAGGTAGCACTCACCACCATGCCCGGCTAAATTTTTTTGTATT
TTTAGTAGAGACAAGGTTTCGCCATATTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACA
GACGTGAGCCACCGCACCCGGCATAGTTGTGGCTTTTTGAGAGTGTATGGCTAGGAGTAAAATTGCCAGGTCATATGGTAACTCCATGTTTAACATTTGA
GAAACTGCCAAACTGTTCTCCACAGCAGGAATTTTTTAACCTGTATGTGGTGGGCTTGTGTTTCGGTTTTCATTTTACACATCTATAAAGATGAGATTTG
CTGTATGGCACTGGTTGCCTGTATTTGGGGAGGGTTCTGCTTTTGGTTGGCAAGAACTGCATTTTATTTAAGCTTAGCAAAACATAACTGGTTTCTCGCA
TCTTCTCAAAAGTGGAGGAYTAAGAAATGGACTGCGAATTCAGAGCAGGGCAGCTGAACCTCAGGCTCCACCCTTGTAGCCTTCAAGCTGAACCTCATTC
TCTCTTGCTCCCTGGAGACCACTGAGACACTCTGCCTGTGCCAGTTTGATTTCTCACATTTTTAAAGGGCCAAAGCTTGTGTCTCAAAGTGCTATAGCCT
TTATTGATTCATGCAGAGAAGCCTCCTTGATTCCGTAATTCTGCAGCTAATACTGGAAGTAGAAAGAATTGGAAACACCATCTGGATGACACTTTAGGGT
GGAAGCAGCCAGTACAAGGGGGGGCTCATTATTTCCTCTGGTCCCAGACTGTTCACCTGGAGCTGTAGCCACCACCCTGCCCTTAGGTTAACTGCCTCGA
GTGGTAGTTTAGCTCTTTGTGCTGTGCCGAGGGATAACTGGAAGTGAAAGGTGCTGAGAAATGCCATCTCCTGAAAGTGGCGAGCATGAGTGAATTTACG
AAAGGTTGGGATATTGCTGGGGCTCTGGAAGTTTCTCTGGAGCTCACTCCAGGGGACAGGGAGGGGGCTGGATTCCAATTCAAGTGAAAAATACCTTTCA
TCTGCCTTGTTCACCTGGCTTTTTTGCCTTTTTGTAAAATCTGAAAACCTCAGGGATTGAGTAGTCTTTCCTTAACTGCAGTTGCCTGTCTGGCCACACC
TGCCAGCTGTTGCTTGTACCCCTGTAATTTGCACGGCCTTCCGGGCCTTTCTCACAAGATCACTGCAGGTCACATTCATGAGGAAAATGCAGGCAGTTCC
TGCCATCAGACCCCTCAGGATGTCATGGTTTGGCCTGAAAACAAGATTCCTGCAACTCTAATTTTCCTTTGCTAGATCAAATGAAGGATTTGATCTAATG
TTTGCATTCTAGCAGCAAAATCATTGAATATTTTATTTCTTAAGAGCCTTACTTCATATTTTGTAGGTATTTTAAGATTTTGTAAAGGCCTTTCTGCTTC
AACGTGTGATGTGTGCATTCTTAGAAAAAGATCTTGTGTTCTGTAAWTCACACAATAAAAACATGAGTTCGTGCAGGAAAAACTGGGGCGGGGTGGATCA
CTCCAAACTTGTGTGGTGTGGTAACTGGAGCTCACTGATGAAACCATGAACAGTTCTGGCTGAAAGAACCCCACAGTACACTGAGGTCTGTTGGCATCGC
CGCCAGCACCGCCCCGGTCCCTTTGTGCGCGCCACCACACCTGGCTAATTTTTTATTTTTAGTAGAGAGGGGGTTTCACCATGTTGGTCAGGATGGCCTC
GAACTGACCTCGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCTCCGTGCCCAGCCTTCAGCTTTTTTTCTTAATGTCTTT
GTGTAATATGAAGGCATTCTCTTTAATTGTTAAAAAGCTTGCCTACCACTGCTTCAAAATATTACTGTCAGTTGGCATAGCTTCTGATTATATTGATGTC
ATCTCCCTTCTTTTAAACATGTTACCATATTGGCACTGTATTTCCCCTAGCCCATTGATCACTTGAGAGTTAGTCATAGTCCTCGTGCTGTTTCACTCCT
AAACGTTTAAGCATGCCTTTCCTAAGAGCAGACAGTACAGTTAAGACACTCAGGAAGTTTAGCAATGAGCTAACACAGAACCTTACATTTCTCCACATAC
CCCATAAATGCCTTTTTTAGAGCCTTTGAGCCTGGAATGCAGAGTCCAGGACTGTGTGTTGTATTCGATTGTGTCATCCCTTCAGTCTCCTTTATCAGAA
ATGTTCCCCCACCCCCTTGTTTTCTCTCATCATCTTGAGTCCAGACCGTGGTTGCATGGCACRCCCTCTCTGGACTCTTCCTGCTGTCTCCTCACGGTAA
GCTTCAGTCTCCTACTCGTGATGCTGGTTCATCTCAGCAGCACTGAGGGGCCTGAGCTCAGTTTGGTCGTGTGTTAAGGTGGTGCCTGCCAGATTTCTCC
ACAGAAAAGGGCCCCGTACTTTTATTTGCTCTTCAGCCTGTGTATTCCTTCCTTTCTTGCCAGCTTGTGGGTGGCTTCTCTAGCAGCTTCTGTAAGATAC
TCAGTTTGGCAGTTGTAGTTGTTTCAGCAGGAGAGGTGTCTGCATACCTGACCACCACATGGCTAGAAGTCGATCCATCCTCTGGCGTAACCATCCTCCA
TGCTACTGTCCCTGGGGCACTGAGGCCCTCCTCAGTGACTTCCTCCACCTCATCTTCCGCCATCTCCAAGCCACCAGTGTCCAACGGACTACTGATATGT
CCCAAACTCATCATTTGTTTATTCACCAATTCAGAGCCCACCTTTTTTTCAGCACTGAGCTAGCCTCTCCTTGCTAGAAGCTTACGGTCGAAGGTCTCCA
GCCATCAGAAGAAGCACGTGGAGCGCTGCGTCCGTGTTGTGGTTATTCATCCAGCATGTGTTGAGTAAGGGTTGCACCTGTGCCTGGCATTATGCATTGA
GCGGGGAGATGGGGGTTGGCACGCACAGTGGGGTGTTCTAAGTACACTGAGGGCTCGGGTGCCCTGGCTCATAGAGCAGGGAGGGAGGCAGGAGCAGGGA
AGGTGTCTCAGAAGTGCCATCTTTTTTTTTTTTTTTTTGGGAAGTGGAATCTTGTTCTATCGCCTGGTCTGGAGTGCAATGGCACTATCTCAACTCACTG
CAGCCTCCGCCTCCCAGGTTCAAGCGATTCTCATGCCTCAGTCCCCGAGTAGCTGGGACCACAGGCGCACACCACCACACCCGGCAAATATTTTGTATTT
TTAGTAGAGGCGGAGTTTTGCCATGTTGGCCAGGCTGGTCTTAAACTCCTGGCCTCAAGTGATCTGCTCACCTCGGCCTCCTAAGGTGTTGGGATTACAG
GCATGAGCCACTGCGCCCGGTCTAGAAGTGCCATCCTAACTGAACCTGAAAGATGAAAGTTCTCCAGATGAACCTGAAAGTTCTCCAAATGAAAAGGTGG
GAGGGGGTGACAGGGTTAGGCCCAGAGCCTCTGGTGACACAGGGTGGGCATCATTGGTCACTTTTTCCTCGAGGGAGGGGCGTCACACGGGTGATAGGGT
GGGAGCTATAACCATGTTGATAGTGCCGCCTCTGCCCATCTGGCCTGGCATGCCCTGAGCCCTCTGTCCCACCTGTGGAACTCATAAGCCCTGACAGCCC
ACTCACTCCTGATTCATTATCCACACCCCTGTGCTTCCRCTGTGCCTGGAGCAAGCTTTCTTCAGGGGGAAGGGAGGCTGGAACTATGTTGTAGTTACCT
ATTTGTCCTCCCTTCCAAACTGTGAGTTCTTGGAGGTGGAAGGATGCTGCAGGATCTGGCTCAGGACGAAGGCAGTTGGTGAACAGACACGTGTGTTTTT
GACTCACGGTGATCTCAGACAAGTTCCTCTGTCTAGTCGAACTTCTTTTTTTCCATCTGTAACACTCAGGAGTTGAATAGGTGGTTTTTCTGAGGATACT
TCAACTGTAAAATGTATGAACTTGTGAACTAGCTATTTAGTTCTCCTCATAATCAAGATTGTGTGTGTGTGGGGGGTTCTGATTAGAGGGAGGATGAAGA
GAGGTGTATGGGGTTTTTTTTGTTTTGTTTTCTGTTTGTTTGTTTGTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATT
TCGGTTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAACTGGGATTACAGGCATGCACCACCATGCCCAGCTAA
TTTTTGTATTTTTAATAGAGATGGGGTTTTCGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTG
CTGGGATTATAGGCATGAGCCACCACACCTGGCAGGTTTCTTTGAAAAAGTTTGTGTTTCGGCAAACACCATAAACCCCCTGGGGGACAGCCTTGGGGAG
TCACCTGGCACCCTAGCCCAGCCTCCCTCCCTTGGGTCCTGCAGTGAAGGCTTAGTGAGGGTGTGCAAATGCCCAGGTCACCCTGGGACTGGGCAGGCCC
TCTGGGCTAAGGGTAAACTCATTTGGAATACCTGTTTTCTATCATTGTTTTTTATTTGTTAAATTTAAAGGGTACAAGTGCAGTTTTGTTGCGTGGATAT
ATTGTATAGTAGTGAAGTCTGAGCTTTCAGTGTAACCATCACCTGAATAGTGGACATTGTACCCGTTAAGTAATGTCTCATCCCTCACCCCCTCCCACCC
TTCCCAGTCTCTCCAGTGTCTGCCATTCCTCACTCTGTCCATGTGCACATGCTATTCAGCTCCTGCTTCTAAGTGAGAACGTACGGTATTTGACTTTCTG
TGTCTGAGCTGTGTCACTGAAGACAATGGACTCCAGCTCCATCCACGTTTTTTATCATTTTTACCTGCACTCCACACCCAGCACAATCCAGGCTTCTTTG
TGGGTTTTTTGAAATTTGTCTTTAATTATAAAAGTAGCAGCCAGCAAATTAACAAACACCCATGTGCCTTTCATTGCACAGAATTGAAAATCATCATACT
ATATTTGCTTCAAGTAATTTCCATTAGAAAGAACTAGAATATTACAGTAGAGTTAAAGACCCTTTATTTCCCATCTTCAGTGCTCTTAAAAGTTCATTTA
GGGCCAGGCATGGTGGCTCACACCTATAATCCCAGCACTTTGAGAGGCCCAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACA
TGGCGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGCGCATCTGTAATCTCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGC
TTGAACTCAGGAGGGAGGCAGAGCCTGTATGCAGTAAGCCGAGATTGCGCCACCACACCCCAGCATGGGTGACAGAGCAAGACTCCGTCTCAAAAAAAAA
AAAAAAAAAGTTCATTCATTGTACACTTAGAAATAGTTAAAAAGGTAAACTTTGTTTTGTGTGTGTGTRTATATATATATATATATATATATGTATTTTT
TTTTGAGACATATATGTGTCTGGTTTGTTCGCCCAGGCAGGAGTGCAGTGGCATGATCAACGGCTCACTGCAGCCTCAACTTCCTAGGCTCAAGTGATCC
TCCTGCCTCAGCCTCCCGAGTAGCTAGGATTACAGGCACACACCACCATGCCCAGCTAATTTTTTTTTTTTTTTTTTTTTTTTGTAGAGACAGGGTTTTG
CTATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGCGATCCACCTGCCTCACCTCCCAAAGTGCTGGGATTACAAGTGTAAGCCACCACACCTGAC
CTGTTTTGTATATTTTACCACAATAAAAAGCCTTTAAAACCCCAAGCAGACAGTTCATTTTCATTCAGGCCCAACTCAGAATCTGATCACAGCGGGGTTT
CCCCCCTTTCTAGCGAGTAGCTGAAGAACTGTTTTCTCTCCTTGATGGTATAACTGTCTCTGTGGGTGTTGCTCCCCTGCCGCTCCAGTGGTTTTGTTTT
TGTTTTTGTTTTTTTGAGACGGAGTCTTGCGATCTCAGCTCACTGCGACCTCTGCCTCCTGGGTTCAGGCGATTCTTCTCCCTCAGCCTTCCATGTAGCT
GGGACTTACAGGCACCTGCCACCACGCCCGGCTCATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATGTTGGCCAGGTTGGGCTCGAACTCCAGACC
TCAGGTGATCCACCTGCCTCAGCCTCCCACAGTGCTGGGATTACAGGTGAGAGCCACTGCACCCAGCCGGCCCCTCAGTCTTTTCCTTCTCAATCAGTGG
CACCACCATCTTCCCAGGCTTTGGACATGGTCCCTGACTCACCCTTGCCCCTCACCCCCACACTAATCCACCTGCGAGCTCTGTTGCTTCACCACCTAGA
CCAGCCCCAAATCCTCAACTGCCCCCACCCTGGKCCACACCTGGACCACTGCTAGAGGCCTCTCATGGGCCCTCCCTGTTTTTCTCTTGCACTCCCCGGG
CTTTCTGGCACAAGATGCCCCAGAAGCAGAATCACATATCTCTCCTGGGAGCCAATCTAGTGTGTTTACTGCCCCTGGAGTGTTATTGTTGGCCTTAGAA
TATGTCCCACTACAGGTTTGCAGAGCACTGTAGTCAAAAGTCATTTGAAATAAATCTTTTCTCTGTGGTATATTGTCAATTTGATATAGAATTAAATTTG
TTTCTTTTCTTTTTTCTTTTCTTTTTTTTTTTTTTTAAGAGACAGGGTCTTGGCCAGGCGTGGTGTCTCATGCCTGTAATCCCGGCACTTTGGGAAGCCA
AGGTGGGTGGATCGCCTGAGGTCAGGAATTCAAGACCAACCTGGCCAGCATGGTGAAACCCCGTCTCTGCTAAAAATACAAAAATTAGCCGGGCGTGATG
GCAGGTACCTGTAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAAGGCTTGAACTCAGGAGTCGGAGGTTGCAGTGAGCCAAGATCACGCCATGGCACT
CTAGCAAGACTCTGTCTCAAAAAAAAAAAAAGAGAGAGAGAGAGACAGGGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGATGTAGTCATGGCTCACT
GCAGCCTCATACTCCTGACCTCAGGTGATCGACCCGCCTCGGCCTCCCAAAGTGCTGGGATCGTAGGCTGAAGCCACCATGCCTGGCCCGAACTCATTTG
TTTTTATTTGCATTAAGTGTAATAAGGTTTTGTTACTTTTAGTTTGAATTTTATTTTGGGTAATATAAACATTTACATGATTCAGAAGTCAGAATTACAC
TGAGGCATGTTCAGCTAGGCCTCACTCCTGTGCCTGTACCCTTACCTTTTTCCCCCTACCCCATGCAGGGAATCAATTTCATTAGTTCCTGGTGTGTCCT
TCCTTAATACCCCCCCTTCTTTCTTTGGTAGAATGCAGTAGATATGTTTGCGCTTTGCTCCCTTTGCTTCACAGTGGATCCTGGAAATGACTCCATCGCA
GTTCTTAGAGCTCTTGTTTAGTCCCTTTGGATCTGCACAGTACTCCAGTGTGTGGGCGCACCATAAGTTTATTCAGCAAGTGCCCTGGTGATAGGGATCG
GGGGTATTGGAAGCCTTTGGCTGGTAAAAATAATGTTGTAGCAAATAACATCATGCATATGTTCTTTGAGATTTCTGGAGGTGTCTCTTTAGCATAGATT
TCTAGAAGGCATTCCTTACGTCACGTTTAGGTTTATAGTTTGACCTCATGGTGATTAAGGTATTTGGGAAATGCAAATGAGAGTTTCGAAGAAGCCAGAT
CTTTCCCATTAGTTCACTGTTTTTCTCTGACATTAGGACCGTCCGGGTTCTAGGGAGCAGCCCTGGCGTTAGGCAGTGCCATGATGGATTGTGTAGAAGT
AGCGATTCCCATCTGTCTGCTTTCTTGGCCCACTCTGCTGGTGGCTCCCCTTCCCTCCCTCCTTTATGGGGAGCTGGGGAGCTGCCTAGGGGTCCATTCT
CAAAGGCTGATCTCTGGTGGGCAACAGGCCACACCTAGCTTTCCAGGGTTCTTCGTCATTTCCCATTGAGAGCTGTAAGACTCAGAGACTTGAAAAGGAA
GCTCTGGCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTYGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGCCC
AACATGGTGAAACCCCGTCTCCACTAAACATACAAAAATTAGCCTGGCGTGGTAGCACACGCCTGTGATCCCAGCTACTCCGGAGGCTGAGGCAGGAGAA
TAACTTGAACCCGGCAGGCGGAGGTTGCGATGAGCCGATATTATGCCATCGGCAACAGAGCGAGACTCCATCTCAAAAAAAAAACAAAAAACAAAACAAG
GCGAGCTCTGTGCTGGGACAGATTAGGGACCCCTCTTTACAGCAAGAAAGACTGCTCTGTGGGTTGTAGGATGCCTTTGTGTATGCAGTGGCTCTAGGTG
ACTCTGGCAGCCACACTCTGGGCCCTAAACTTCTGGAGGAAGATACAGGATAGGGAGGAACTCAGGSGTGAGTCATGGTGGGGACAAGACATTCCCTCAC
TCTAAGACCTTGTCACTAGATTGGAACATCTSTTGCCTCCCTACACCTGACCTGATGGTTCTGGAGAGATACGTCCTTGCAGCTTCTGAGTCCCAGCACT
AAGCAGCCTTTGGTAACTTCCCTACATCATTTGAGTTCTGGTTTCCTAAGGATGCTTGCCAGTGAGTGCCATGGTGCCCTCATTGCACAGTCTGTGCAGT
GTAGACAAGAGGGGAAGTCTCTTGGGGTAGACCAGCCGCAAGGCGGTGACTAGCACTGATGTGAACCACATGGGACAGGGGAGTTGTGGGGCTGAGAACA
CGGAGGGTGGGAGTAGTCATGCTCTTTTCCAGAATGAACTGCTAACGAAGGGACTCGCAGGTGGCTGCTGCTTCTTTCCAAGCTGCCCCTGTTGTTGCAG
AGGCTCTGGAGTCCTAGGAGGTTTCACGGTGGCATACTCGACAGAGTACTAGAGCATCATGGCCAGATAGTGATGCTGGGGTGTGGGGCCTCACGGTGGC
CATTTCTGACGAGACCCCACCGGGCCAAAGTGATGTGTAGAGAAGGAGCTGCTTCGGTCACCAGAAAAGAACGGGGAAGCCTCCCACACTAGAATAGGTA
GGGTGCTCTTCTSCACCGGCAGGAAGGGGATGTATGGCTCTGCCTGGACCACACCTTTTTCCTTGCTCTTCCCTCCGCATCTGCTGTGGCCGAGGCCATT
CCTCATCAGGGAACATGTGTTAGAGGCTCACGCCACCTGGGACCACTTGTCTTATCACCCCCAGGACCCTAGGCGGTAGTTTCCTGTGGCCTGAGTTAGC
TGATATTTATATAGTGCCATTGTGCCTTTTCTCCTGTGATGCTCACAGTAAGGATGCCTAGATGGGGTTACCTGTTGTCAAGATAAGGAAACTGAAGCAC
AGAATGCTGAGGTCATTTGCTGGGTTCATGTTTGGAAAGCGGCAAAGGATTTCAGTGCAGGTTGGCTGGCTCCAAACCTGTGTGTGCTTTCCATGACACT
GTACTGTGTGCCTCATTGAGCCTCATTCTAGAAAACCAAAAACACACCCAAGSCCCGGCCTTCACAAAGGAGACCCCTCCCCCATTTGGCTCCCTTTCCA
GCAGTCGACGGCCTCTTGTCAGCCATCGAGCCCAGAGTCCCTTGAAGTGCGACTCATGCTGGGGTGGTATGCTCAGGAGCCGCAGTGTTTCCGCTCAGAG
GAAAGGGCTCTGATTCTCCTGCAGTGCTAGGAGACTTGTGGGTGGCCACAGTGCAGGTCAGGCACACCGGCCAGCACCACCCACAGCCCAAATTCCTAAA
GAAATATTTGGGTCCCAGCTTGGCCCGAGTCTCTGTTGTCCTGGGGAAGGACATCAAGATCTGAGTGTATGATGGCCTGGGGCCTTGCATGTGGTGGGGG
TCCAAGCCTGCCTCTGCTCACTTGTTCTGCAGACTGGCATGTTCTCTGTGATACTTACATACTTGTTTAACACTTCAGGGAAGAAAAGTCAGAAGACCAG
GACCTCCAGGGCCTCWAGGACAAACCCCTCAAGTTTAAAAAGGTGAAGAAAGATAAGAAAGAAGAGAAAGAGGGCAAGCATGAGCCCGTGCAGCCATMAG
CCCACCACTCTGCTGAGCCCGCAGAGGCAGGCAAAGCAGAGACATCAGAAGGGTCAGGCTCCGCCCCGGCTGTGCCGGAAGCTTCTGCCTCCCCCAAACA
GCGGCGCTCCATCATCCGTGACCGGGGACCCATGTATGATKAMCCCACCSTGHSTGAAGGCYGGACAYRGAAGCTTAAGCAARGGAAATCTGGCCGCTCT
GCTGGGAAGKATGATGTGTATTTSATCARGTAAGTAAGAGCAACTCCTATSTCTACRGGGCAGGGAGGGCAGGGACAAGGATCCCTCATGGAGCAGGAAA
ATGTATGTGCCCAGGGTGGGGTCGGGGGGAACATAAACAATGAACACTGAGACCAGGTGTGCTTGAAATGACCGTGTACAGAGGTCGCTGCCCTGAGTGG
GAAGTTCTCAAGGTAGCAGGCCCTCTATCCTCTCCACACCTCAAGTCTTTATCTGGGGATGGAATAGCTGCGGAAGCAGAGGAACTTGCAGAGCYAGGGG
TTCAGAGGGGTGAAGAAGCATGTTTCAGTTCTGCCTTTTAAATGATCCCAAAAAGGTTAGCAGTTTTCAAATGACATTTGCAGACAGCCTCATTTAATTC
CATGAGAAGGGTGAGCAAAGGATTATCTTGTTGAAACTGATTCCTGGAGAGACTGAGCACCGTACCTGAGTTCAAACTTGGGAATGTTCTAGATGGTGAC
TCAGGCCCAGGCACCAACCAGCAGAATGGGCCTCAGCCTGACAAYCSTTCTGTACCAGGCCTGACTCTTTGGTTGCTGAACTTTGGAGAGGCCTGGGGGG
GTCAGCGGCAGGCAGACGAGTGAGTGGCTTTGGTGACAGGTCCTCAGGGGCAGCCAGGCAGTGTGACTCTCGTTCARTAGTAACGTTTGTCAGAGYGTTG
TCACCACCATCYGCTCTGCCCTATCTCTGACATTGCTATGGAGAGCCTCTAATTGTTCCTTGTGTCTTTCTGTTTGTCCCCACAGTCYCCAGGGAAAAGC
CTTTYKCTCTAAAGTGGAGTTGATTGYGTASTTCGAAWAGGTAGGCGACACATCCCTGGACCSTAATGATWBTGRMTTSRYGGTAACTDKGAGAGGGAGC
CCCTCCYGGYGAGAGYAGAAACCACCTAAGAAGCCCWAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAGCGGCACCACGW
GACCCAAGGCGGCCACGTMAKAGGGTGTGYAGGTGAWAAGGGTCCTGGAGAAAAGTCCTGGGAAGCTCCTTGTCAAGATGCSTTTTCAAASTTCGCCAGG
GGGCAAGGCTGAGGGGGGTGGGGCCACCACATCCACCYAGGTCATGGTGATCAAAYGCCCCGGCAGGAAGYGAWAAGCTGAGGCYGACCCTYAGGCCATT
CCCAAGAAAYGGGGCYGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCRAAAAGARAGCCGTGAAGGAGTCTTCTATCYGATCTGTGYAGG
AGACCRTACTCSSCATCMRGARGYRCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGMAGTGGTGAAGSYCCTGCTGGTGTCCACCCTCGGTGAGAA
GAGCGGGAAAGGACTGAAGACCTGTAAGAGCCCTGGGCGGAAAAGCAAGGAGAGCAGCCCCAAGGGGCGCAGCAGCAGCGCCTCCTMACCCCCCAAGAAG
GAGCACCACCACCATCACCACCACTCAGAGTCCCCAAAGGSCCCCGTGCCACTGCTCCCACCCYTGCCCCYACCTCCACCTGAGCCCGAGAGCTCCGAGG
ACCYCACCAGCCCCCCTGAGCCCYAGGACTTGAGCAGCAGYGTCTGCAAAGAGGAGAAGATGCCCAGAGGAGGCTCACTGGAGAGCGACRGCTGCCCCAA
GGAGCCAGCTAAGACTCAGCCCGCGGTTGCCACCGCCGCCACRGCCGCAGAAAAGTACAAACACYRAGGGGAGGGAGAGCGCAAAGACATTGTTTCATCC
TCCATGCCAAGGCCAAACAGAGAGGAGCCTGTGGACAGCCGGACGCCCGTGACCGAGAGAGTTAGCTGACTTTACACGGAGCGGATTGCAAAGCAAACCA
ACAAGAATAAAGGCAGCTGTTGTCTCTTCTCCTTATGGGTAGGGCTCTGACAAAGCTTCCCGATTAACTGAAATAAAAAATATTTTTTTTTCTTTCAGTA
AACTTAGAGTTTCGTGGCTTCAGGGTGGGAGTAGTTGGAGCATTGGGGATGTTTTTCTTACCRACAAGCACAGTCAGGTTGAAGACCTAACCAGGGCCAG
AAGTAGCTTTGCACTTTTCTAAACTAGGCTCCTTCAACAAGGCTTGCTGCAGATACTACTGACCAGACAAGCTGTTGACCAGGCACCTCCCCTCCCGCCC
AAACCTTTCCCCCATGTGGTCGTTAGAGACAGAGCGACAGAGCAGTTGAGAGGACACTCCCGTTTTCGGTGCCATCAGTGCCCCGTCTACAGCTCCCCCA
GCTCCCCCCACCTCCCCCACTCCCAACCACGTTGGGACAGGGAGGTGTGAGGCAGGAGAGACAGTTGGATTCTTTAGAGAAGATGGATATGACCAGTGGC
TATGGCCTGTGCGATCCCACCCGTGGTGGCTCAAGTCTGGCCCCACACCAGCCCCAATCCAAAACTGGCAAGGACGCTTCACAGGACAGGAAAGTRGCAC
CTGTCTGCTCCAGCTCTGGCATGGCTAGGAGGGGGGAGTCCCTTGAACTACTGGGTGTAGACTGGCCTGAACCACAGGAGAGGATGGCCCAGGGTGAGGT
GGCATGGTCCATTCTCAAGGGACGTCCTCCAACGGGTGGCGCTAGAGGCCATGGAGGCAGTAGGACAAGGTGCAGGCAGGCTGGCCTGGGGTCAGGCCGG
GCAGAGCACAGCGGGGTGAGAGGGATTCCTAATCACTCAGAGCAGTSTGTGACTTAGTGGACAGGGGAGGGGGCAAAGGGGGAGGAGAAGAAAATGTTCT
TCCAGTTACTTTCCAATTCTCCTTTAGGGACAGCTTAGAATTATTTGCACTATTGAGTCTTCATGTTCCCACTTCAAAACAAACAGATGCTCTGAGAGCA
AACTGGCTTGAATTGGTGACATTTAGTCCCTCAAGCCACCAGATGTGACAGTGTTGAGAACTACCTGGATTTGTATATATACCTGCGCTTGTTTTAAAGT
GGGCTCAGCACATAGGGTTCCCACGAAGCTCCGAAACTCTAAGTGTTTGCTGCAATTTTATAAGGACTTCCTGATTGGTTTCTCTTCTCCCCTTCCATTT
CTGCCTTTTGTTCATTTCATCCTTTCACTTCTTTCCCTTCCTCCRTCCTCCTCCTTCCTAGTTCATCCCTTCTCTTCCAGGCAGCCGCGGTGCCCAACCA
CACTTGTCGGCTCCAGTCCCCAGAACTCTGCCTGCCCTTTGTCCTCCTGCTGCCAGTACCAGCCCCACSCTGTTTTGAGCCCTGAGGAGGCCTTGGGCTC
TGCTGAGTCCRACCTGGCCTGTCTGTGAAGAGCAAGAGAGCAGCAAGGTCTTGCTCTCCTAGGTAGCCCCCTCTTCCCTGGTAAGAAAAAGCAAAAGGCA
TTTCCCACCCTGAACAACGAGCCTTTTCACCCTTCTACTCTAGAGAAGTGGACTGGAGGAGCTGGGCCCGATTTGGTAGTTGAGGAAAGCACAGAGGCCT
CCTGTGGCCTGCCAGTCATCGAGTGGCCCAACAGGGGCTCCATGCCAGCCGACCTTGACCTCACTCAGAAGTCCAGAGTCTAGCGTAGTGCAGCAGGGCA
GTAGCRGTACCAATGCAGAACTCCCAAGACCCGAGCTGGGACCAGTACCTGGGTCCCCAGCCCTTCCTCTGCTCCCCCTTTTCCCTCGGAGTTCTTCTTG
AATGGCAATGTTTTGCTTTTGCTCGATGCAGACAGGGGGCCAGAACACCACACATTTCACTGTCTGTCTGGTCCATAGCTGTGGTGTAGGGGCTTAGAGG
CATGGGCTTGCTGTGGGTTTTTAATTGATCAGTTTTCATGTGGGATCCCATCTTTTTAACCTCTGTTCAGGAAGTCCTTATCTAGCTGCATATCTTCATC
ATATTGGTATATCCTTTTCTGTGTTTACAGAGATGTCTCTTATATCTAAATCTGTCCAACTGAGAAGTACCTTATCAAAGTAGCAAATGAGACAGCAGTC
TTATGCTTCCAGAAACACCCACAGGCATGTCCCATGTGAGCTGCTGCCATGAACTGTCAAGTGTGTGTTGTCTTGTGTATTTCAGTTATTGTCCCTGGCT
TCCTTACTATGGTGTAATCATGAAGGAGTGAAACATCATAGAAACTGTCTAGCACTTCCTTGCCAGTCTTTAGTGATCAGGAACCATAGTTGACAGTTCC
AATCAGTAGCTTAAGAAAAAACCGTGTTTGTCTCTTCTGGAATGGTTAGAAGTGAGGGAGTTTGCCCCGTTSTGTTTGTAGAGTCTCATAGTTGGACTTT
CTAGCATATATGTGTCCATTTCCTTAYGCTGTAAAAGCAAGTCCTGCAACCAAACTCCCATCAGCCCAATCCCTGATCCCTGATCCCTTCCACCTGCTCT
GCTGATGACCCCCCCAGCTTCACTTCTGACTCTTCCCCAGGAAGGGAAGGGGGGTCAGAAGAGAGGGTGAGTCCTCCAGAACTCTTCCTCCAAGGACAGA
AGGCTCCTGCCCCCATAGTGGCCTCRAACTCCTGGCACTACCAAAGGACACTTATCCACGAGAGCGCAGCATCCGACCAGGTTGTCACTGAGAAGATGTT
TATTTTGGTCAGTTGGGTTTTTATGTATTATACTTAGTCAAATGTAATGTGGCTTCTGGAATCATTGTCCAGAGCTGCTTCCCCGTCACCTGGGCGTCAT
CTGGTCCTGGTAAGAGGAGTGCGTGGCCCACCAGGCCCCCCTGTCACCCATGACAGTTCATTCAGGGCCGATGGGGCAGTCGTGGTTGGGAACACAGCAT
TTCAAGCGTCACTTTATTTCATTCGGGCCCCACCTGCAGCTCCCTCAAAGAGGCAGTTGCCCAGCCTCTTTCCCTTCCAGTTTATTCCAGAGCTGCCAGT
GGGGCCTGAGGCTCCTTAGGGTTTTCTCTCTATTTCCCCCTTTCTTCCTCATTCCCTCGTCTTTCCCAAAGGCATCACGAGTCAGTCGCCTTTCAGCAGG
CAGCCTTGGCGGTTTATCGCCCTGGCAGGCAGGGGCCCTGCAGCTCTCATGCTGCCCCTGCCTTGGGGTCAGGTTGACAGGAGGTTGGAGGGAAAGCCTT
AAGCTGCAGGATTCTCACCAGCTGTGTCCGGCCCAGTTTTGGGGTSTGACCTCAATTTCAATTTTGTCTGTACTTGAACATTATGAAGATGGGGGCCTCT
TTCAGTGAATTTGTGAACAGCAGAATTGACCGACAGCTTTCCAGTACCCATGGGGCTAGGTCATTAAGGCCACATCCACAGTCTCCCCCACCCTTGTTCC
AGTTGTTAGTTACTACCTCCTCTCCTGACAATACTGTATGTCGTCGAGCTCCCCCCAGGTCTACCCCTCCCGGCCCTGCCTGCTGGTGGGCTTGTCATAG
CCAGTGGGATTGCCGGTCTTGACAGCTCAGTGAGCTGGAGATACTTGGTCACAGCCAGGCGCTAGCACAGCTCCCTTCTGTTGATGCTGTATTCCCATAT
CAAAAGRCACAGGGGACACCCAGAAACGCCACATCCCCCAATCCATCAGTGCCAAACTAGCCAACGGCCCCAGCTTCTCAGCTCGCTGGATGGCGGAAGC
TGCTACTCGTGAGCGCCAGTGCGGGTGCAGACAATCTTCTGTTGGGTGGCATCATTCCAGGCCCGAAGCATGAACAGTGCACCTGGGACAGGGAGCAGCC
CCAAATTGTCACCTGCTTCTCTGCCCAGCTTTTCATTGCTGTGACAGTGATGGCGAAAGAGGGTAATAACCAGACACAAACTGCCAAGTTGGGTGGAGAA
AGGAGTTTCTTTAGCTGACAGAATCTCTGAATTTTAAATCACTTAGTAAGCGGCTCAAGCCCAGGAGGGAGCAGAGGGATACGAGCGGAGTCCCCTGCGC
GGGACCATCTGGAATTGGTTTAGCCCAAGTGGAGCCTGACAGCCAGAACTCTGTGTCCCCCGTCTAACCACAGCTCCTTTTCCAGAGCATTCCAGTCAGG
CTCTCTGGGCTGACTGGGCCAGGGGAGGTTACAGGTACCAGTTCTTTAAGAAGATCTTTGGGCATATACATTTTTAGCCTGTGTCATTGCCCCAAATGGA
TTCCTGTTTCAAGTTCACACCTGCAGATTCTAGGACCTGTGTCCTAGACTTCAGGGAGTCAGCTGTTTCTAGAGTTCCTACCATGGAGTGGGTCTGGAGG
ACCTGCCCGGTGGGGGGGCAGAGCCCTGCTCCCTCCGGGTCTTCCTACTCTTCTCTCTGCTCTGACGGGATTTGTTGATTCTCTCCATTTTGGTGTCTTT
CTCTTTTAGATATTGTATCAATCTTTAGAAAAGGCATAGTCTACTTGTTATAAATCGTTAGGATACTGCCTCCCCCAGGGTCTAAAATTACATATTAGAG
GGGAAAAGCTGAACACTGAAGTCAGTTCTCAACAATTTAGAAGGMAAACCTAGAAAACATTTGGCAGAAAATTACATTTCGATGTTTTTGAATGAATACR
AGCAAGCTTTTACAACAGTGCTGATCTAAAAATACTTAGCACTTGGCCTGAGATGCCTGGTGAGCATTACAGGCAAGGGGAATCTGGAGGTAGCCGACCT
GAGGACATGGCTTCTGAACCTGTCTTTTGGGAGTGGTATGGAAGGTGGAGCGTTCACCAGTGACCTGGAAGGCCCAGCACCACCCTCCTTCCCACTCTTC
TCATCTTGACAGAGCCTGCCCCAGCGCTGACGTGTCAGGAAAACACCCAGGGAACTAGGAAGGCACTTCTGCCTGAGGGGCAGCCTGCCTTGCCCACTCC
TGCTCTGCTCGCCTCGGATCAGCTGAGCCTTCTGAGCTGGCCTCTCACTGCCTCCCCAAGGCCCCCTGCCTGCCCTGTCAGGAGGCAGAAGGAAGCAGGT
GTGAGGGCAGTGCAAGGAGGGAGCACAACCCCCAGCTCCCGCTCCGGGCTCCGACTTGTGCACAGGCAGAGCCCAGACCCTGGAGGAAATCCTACCTTTG
AATTCAAGAACATTTGGGGAATTTGGAAATCTCTTTGCCCCCAAACCCCCATTCTGTCCTACCTTTAATCAGGTCCTGCTCAGCAGTGAGAGCAGATGAG
GTGAAAAGGCCAAGAGGTTTGGCTCCTGCCCACTGATAGCCCCTCTCCCCGCAGTGTTTGTGTGTCAAGTGGCAAAGCTGTTCTTCCTGGTGACCCTGAT
TATATCCAGTAACACATAGACTGTGCGCATAGGCCTGCTTTGTCTCCTCTATCCTGGGCTTTTGTTTTGCTTTTTAGTTTTGCTTTTAGTTTTTCTGTCC
CTTTTATTTAACGCACCGACTAGACACACAAAGCAGTTGAATTTTTATATATATATCTGTATATTGCACAATTATAAACTCATTTTGCTTGTGGCTCCAC
ACACACAAAAAAAGACCTGTTAAAATTATACCTGTTGCTTAATTACAATATTTCTGATAACCATAGCATAGGACAAGGGAAAATAAAAAAAGAAAAAAAA
GAAAAAAAAACGACAAATCTGTCTGCTGGTCACTTCTTCTGTCCAAGCAGATTCGTGGTCTTTTCCTCGCTTCTTTCAAGGGCTTTCCTGTGCCAGGTGA
AGGAGGCTCCAGGCAGCACCCAGGTTTTGCACTCTTGTTTCTCCCGTGCTTGTGAAAGAGGTCCCAAGGTTCTGGGTGCAGGAGCGCTCCCTTGACCTGC
TGAAGTCCGGAACGTAGTCGGCACAGCCTGGTCGCCTTCCACCTCTGGGAGCTGGAGTCCACTGGGGTGGCCTGACTCCCCCAGTCCCCTTCCCGTGACC
TGGTCAGGGTGAGCCCATGTGGAGTCAGCCTCGCAGGCCTCCCTGCCAGTAGGGTCCGAGTGTGTTTCATCCTTCCCACTCTGTCGAGCCTGGGGGCTGG
AGCGGAGACGGGAGGCCTGGCCTGTCTCGGAACCTGTGAGCTGCACCAGGTAGAACGCCAGGGACCCCAGAATCATGTGCGTCAGTCCAAGGGGTCCCCT
CCAGGAGTAGTGAAGACTCCAGAAATGTCCCTTTCTTCTCCCCCATCCTACGAGTAATTGCATTTGCTTTTGTAATTCTTAATGAGCAATATCTGCTAGA
GAGTTTAGCTGTAACAGTTCTTTTTGATCATCTTTTTTTAATAATTAGAAACACCAAAAAAATCCAGAAACTTGTTCTTCCAAAGCAGAGAGCATTATAA
TCACCAGGGCCAAAAGCTTCCCTCCCTGCTGTCATTGCTTCTTCTGAGGCCTGAATCCAAAAGAAAAACAGCCATAGGCCCTTTCAGTGGCCGGGCTACC
CGTGAGCCCTTCGGAGGACCAGGGCTGGGGCAGCCTCTGGGCCCACATCCGGGGCCAGCTCCGGCGTGTGTTCAGTGTTAGCAGTGGGTCATGATGCTCT
TTCCCACCCAGCCTGGGATAGGGGCAGAGGAGGCGAGGAGGCCGTTGCCGCTGATGTTTGGCCGTGAACAGGTGGGTGTCTGCGTGCGTCCACGTGCGTG
TTTTCTGACTGACATGAAATCGACGCCCGAGTTAGCCTCACCCGGTGACCTCTAGCCCTGCCCGGATGGAGCGGGGCCCACCCGGTTCAGTGTTTCTGGG
GAGCTGGACAGTGGAGTGCAAAAGGCTTGCAGAACTTGAAGCCTGCTCCTTCCCTTGCTACCACGGCCTCCTTTCCGTTTGATTTGTCACTGCTTCAATC
AATAACAGCCGCTCCAGAGTCAGTAGTCAATGAATATATGACCAAATATCACCAGGACTGTTACTCAATGTGTGCCGAGCCCTTGCCCATSCTGGGCTCC
CGTGTATCTGGACACTGTAACGTGTGCTGTGTTTGCTCCCCTTCCCCTTCCTTCTTTGCCCTTTACTTGTCTTTCTGGGGTTTTTCTGTTTGGGTTTGGT
TTGGTTTTTATTTCTCCTTTTGTGTTCCAAACATGAGGTTCTCTCTACTGGTCCTCTTAACTGTGGTGTTGAGGCTTATATTTGTGTAATTTTTGGTGGG
TGAAAGGAATTTTGCTAAGTAAATCTCTTCTGTGTTTGAACTGAAGTCTGTATTGTAACTATGTTTAAAGTAATTGTTCCAGAGACAAATATTTCTAGAC
ACTTTTTCTTTACAAACAAAAGCATTYGGAGGGAGGGGGATGGTGACTGAGATGAGAGGGGAGAGCTGAACAGATGACCCCTGCCCAGATCAGCCAGAAG
CCACCCAAAGCAGTGGAGCCCAGGAGTCCCACTCCAAGCCAGCAAGCCGAATAGCTGATGTGTTGCCACTTTCCAAGTCACTGCAAAACCAGGTTTTGTT
CCGCCCAGTGGATTCTTGTTTTGCTTCCCCTCCCCCCGAGATTATTACCACCATCCCGTGCTTTTAAGGAAAGGCAAGATTGATGWTTCCTTGAGGGGAG
CCAGGAGGGGATGTGTGTGTGCAGAGCTGAAGAGCTGGGGAGAATGGGGCTGGGCCCACCCAAGCAGGAGGCTGGGACGCTCTGCTGTGGGCACAGGTCA
GGCTAATGTTGGCAGATGCAGCTCTTCCTGGACAGGCCAGGTGGTGGGCATTCTCTCTCCAAGGTGTGCCCCGTGGGCATTACTGTTTAAGACACTTCCG
TCACATCCCACCCCATYCTCCAGGGCTCAACACTGTGACATCTCTATTCCCCACCCTCCCCTTCCCAGGGCAATAAAATGACCATGGAGGGGGCTTGCAC
TCTCTTGGCTGTCACCYGATCGCCMGCAAAACTTAGATGTGAGAAAACCCCTTCCCATTCCATGGCGAAAACATCTCCTTAGAAAAGCCATTACCCTCAT
TAGGCATGGTTTTGGGCTCCCAAAACACCTGACAGCCCCTCCCTCCTCTGAGAGGCGGAGAGTGCTGACTGTAGTGACCATTGCATGCCGGGTGCAGCAT
CTGGAAGAGCTAGGCAGGGTGTCTGCCCCCTCCTGAGTTGAAGTCATGCTCCCCTGTGCCAGCCCAGAGGCCGAGAGCTATGGACAGCATTGCCAGTAAC
ACARGCCACCCWGTGCAGAAGGGAGCTGRCTCCAGCCTGGAAACCTGTCTGAGGTTGGGAGAGGTGCACTTGGGGCACAGGGAGARGCCGGGACACACTT
AGCTGGAGATGTCTCTAAAAGCCCTGTATCGTATTCACCTTCAGTTTTTGTGTTTTGGGACAATTACTTTAGAAAATAAGTAGGTCGTTTTAAAAACAAA
AATTATTGATTGCTTTTTTGTAGTGTTCAGAAAAAAGGTTCTTTGTGTATAGCCAAATGACTGAAAGCACTGATATATTTAAAAACAAAAGGCAATTTAT
TAAGGRAATTTGTACCATTTCAGTAAACCTGTCTGAATGTACCTGTATACGTTTCAAAAACACCCCCCCCCCACTGAATCCCTGTAACCTATTTATTATA
TAAAGAGTTTGCCTTATAAATTTACATAAAAATGTCCGTTTGTGTCTTTTGTTGTAAAAATCAAGTGATTTTTTCATAAGGTTCTTTTACTATTGGAAAA
GATGGGCAGCACGCAGTTTTATTTTATTTTTGTAAGTTTTTTAATACATGTGAAAGCAAAGAATACTCAGCATGCCTTTCTAAGTGACGCGTTTGCACCT
TTTGTTGGGAAGTACTGTATCCTGTGCTGTTAGCATTCTCGATAAATCTCTCTGTGAAAGTGACTCAAGGTCTGGGCTTTCATTATAAGACAGAAGTCCC
CCTCCAGCTCACATGACAGCATGGTGCTGCGTTTCCTCATTGGATCTGGCTGTCCCTGGACACAGGTAGCTGCCTTCAGGCCTGCCACGAGCGGCCAAGG
GAAGCCTCCTCCATATGCTGGCCTCGCTGGCCCCTCAGCTTCTTCCAAGCCAGTGCTCTCCAGGCACACTGCTCCAGCGTGTGACGGGAAGGGCCTGGCA
TGAGTCAGCCTGCAGCACAACCTCCCTGCTCCAGACCCGTATGGTAGGGGCACCCCCTAGGTCTGGATGTGCTGTGGTGCTTTTGGACACCCCCACCCCC
GCAGGCTGTGGCTCCTCCTGTGTCTCATTCTGGCCAGGACCCTCACGTGCCCTCTGTTGACTGCTAACGTGGTTCTCTGACCAGGCAAGGGCAGGCTGAG
GGGTTTGCCCAAAGGGGGCCCCCTTGTTACTGGCTTCCTTGGCTCTCAGGAGCAGCCTCACCAGGTTGGTAAGGGGCTGGAGGAGACAACTGCTCAAAGG
AGTCCAGCTTCACATGCACATGCTAGAAGGTACCCTCGGAAGGCCTGGCCTTCAAAGGTAGATCCCAGGGTTGAAAAGTCAACTTGTATGCATTGAGCAT
CTCGTATGCCAGCCCTGTTCCGTGAGCTGATGGGCCTTTGTGTGTAAGTAGGACCAAGTGCCCCCGTGGAGGTTAGCATGGGTGTGCAGTCATTTCAGAT
ACTTGAGTTGGTACATCTCAGTAAAGTCTGTCCCGTGAGAAGCCATGGGTTTCATGGTATGGTTGGCATCTTCCTTGGGAGTGGCCACAGTGGTGGTGGC
TTCAGGAAAGAGACTCCAACAGGGGCCAGCTGTGGGCCTTGGGCACTTCTCGTTTCTAGGAAAAGTCCTAAGTCTGTAGGGCTAGGGGTGGGGAACCCCT
TCGCTGTCAGGATCAAGAGGGCAAGGGGAACTGTCGCTGGAGGAGACATCCAGCTGGAGAAACAAAAGAGTAAGTCTGCGTTGCTGCTTGTGGGGTCTTC
CCCATCTCAGGGCGGGGACCGGGGGTGGCGGTCCAGACAAGTAATCAAGGACGATGCCCAGGAGGGGACAGGTACGGGGTGGCAGGAGCTCTGCCGGCGG
GCTCAGGAAGCCTTCACCACAGCTGCCTGAGCTCACCCTTGCCAAATGAGGGCTGGGGCAGCAGCAACGCATACACTCACGGCTGTGGCGGGCAGCGTTC
TCGGCATATTTCAGGACACCTAAGGAGACTGAATGGCTCAAGGCTGCTGCCGTGTGCAGGGGGCTAGACGTGGGGCGGGCAGGCAGGGCTCCTGGTAACA
GCCCTGCAGGCCGCAGTGGAGAGCAGGGTTCCGGCAGGGCCGCCCAGGAGCTTTCGGAAGGCCCGGCCCCGGCCCCTTTCCGAGCAGCCCGGGCCTCCGC
CCTGCCCTCTGTCCCCAACGCCGGGAGCCGCCGTTCGTCCTCCAGAGCCCCGCCCGGGCGAGCCCGGGAGGCCGATCGCCGCTCGCGGAACCCGCCGGGA
CCCGGGCCCTCCCCGGCGCGGGGCGCCCCCGTGTGACCCAGCGCGCGGCCGCGGCGCGCAAGATGGCGGCGGGCCCGGGCACCGCCCCTTCCGCCCCGCC
GGGCGTCGCACGAGGCCGGCTCGAAGGGGAAGTGAGTCAGTGTCCGCGGACCCGGCCGGCCCAGGCCCGCGCCCGCCGCGGCCCTGAGAGGCCCCGGCAG
GTCCCGGCCCGGCGGCGGCAGCCATGGCCGGGGGGCCGGGCCCGGGGGAGCCCGCAGCCCCCGGCGCCCAGCACTTCTTGTACGAGGTGCCGCCCTGGGT
CATGTGCCGCTTCTACAAAGTGATGGACGCCCTGGAGCCCGCCGACTGGTGCCAGTTCGGTGGGTGGCGGCGGGCTGCCGGGGGGCGGGAGGCGCGCGGG
CTCCTGGCGCCGACGCCTGACGCCCCCCGCCCCGCAGCCGCCCTGATCGTGCGCGACCAGACCGAGCTGCGGCTGTGCGAGCGCTCCGGGCAGCGCACGG
CCAGCGTCCTGTGGCCCTGGATCAACCGCAACGCCCGTGTGGCCGACCTCGTGCACATCCTCACGCACCTGCAGCTGCTCCGTGCGCGGGACATCATCAC
AGCCTGTGAGCGCGGGACTCCGGGCACCCCACGGCTGGGAGGCCGGCGGGCCCCACGGGGCTCCCCCACCCGGGCCTCAACCTTCCTTTCCTTCCTTGGC
GTCCCAGGGCACCCTCCCGCCCCGCTTCCGTCCCCAGGCACCACTGCCCCGAGGCCCAGCAGCATCCCTGCACCCGCCGAGGCCGAGGCCTGGAGCCCCC
GGAAGTTGCCATCCTCAGCCTCCACCTTCCTCTCCCCAGGTAAGAGGGCCCGGTTGTTAGGCTCGGTGGACCCAAAGAAGAGCCCACCTTGACCACGGCC
ACGGCTGTAGACCCTGCTGCTGGTCTCTGCCTGCCTCTCACTGGTGTCTTTATGAAGCTTTTCCAGGCTCCCAGACCCATTCAGGGCCTGAGCTCGGCCT
GGTCCCAAGCCCTGCTTCCCTGTGGCCTCCACCGCCATCTCCAGCCCCTTCTTCTACCAAGGTAGGTGTCCCCTGCCCCCCAGGGAAGATTCGAGACAAG
GAGGAAGGAATTCAGCCTTTGATGTAGCGCAGAGCCCCAGTCAGCCAAGCTGGGTCAGCTGGGAGGCAGCTGTGGTGGGGAGAGCCTGGAGCCTTGGGCA
GAAGGGAAGAGACAGGGACCCCACCTGATCCAGGCTCTCTTCCCACAGCCAGGCCCAGAGAGCTCAGTGTCCCTCCTGCAGGGAGCCCGCCCCTTTCCGT
TTTGCTGGCCCCTCTGTGAGATTTCCCGGGGCACCCACAACTTCTCGGAGGAGCTCAAGATCGGGGAGGGTGGCTTTGGGTGCGTGTACCGGGCGGTGAT
GAGGAACACGGTGTATGCTGTGAAGAGGCTGAAGGAGGTGAGTGTCGCACCCTGGCAGGGACCCTGGAAGGCCATCAGATAACCCTCACCACTTCTCCAG
CCTTTCCCCCTCGCTTCCCCACACAACTCCTTCAGCCCTCATTCTGGCGTAGGGTCCCTGGCCCCTTGGTGGTTCTGGGCCTCGGGTAGGTGGCACTGGT
GGCCCGAAGGCCTTCGCTTCGAGAGCCTCACGCTGCCCGTCTTCCCTGCCCCTTCCCCCACCGCACCCTGGGGGCTGCAGAACGCTGACCTGGAGTGGAC
TGCAGTGAAGCAGAGCTTCCTGACCGAGGTGGAGCAGCTGTCCAGGTGAGGCCAGAGGGGGAGCCACACCAGGTCCCGTGGGGCTTCAGACCGCACACCA
CAGGACCTGGCTCCCTTGGGCACCTGAGGCCTGGCAGGCCCGGGCGAGCTGAGGCCCCAGCCAGGGCTGCCCACCCAGTCTGGCCTGATGGAAAGTGCTC
CCCTTTTTCAAACAGGTTTCGTCACCCAAACATTGTGGACTTTGCTGGCTACTGTGCTCAGAACGGCTTCTACTGCCTGGTGTACGGCTTCCTGCCCAAC
GGCTCCCTGGAGGACCGTCTCCACTGCCAGGTAGGCTCACCTGGCCCGGCACGCTTCCCAGGACCCAAAGCACTCCTGACACCTGGCTGGAGCCGGGCGC
GGGGCCTAGGGCTTTCAGCCTGTGTGAGTGGGTCCTGCCAGCAGGCCAGGCCTGCACTTCCAGCTCCCCAGCAGCACCCGGCTCAGGATTTGGCCCACGG
TGGGGTCAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGGTGGAGTCTTGCTCTGTCATCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACCA
CAACCTCCACCTCCCGGGTTCAGGCGATCCTCCTGCCGCAGCCTCCCGAGTAGCTGGGACTACAGGCATGCACCACCACACCTGCCTAATTTTTGTATTT
TTAGTAGAGATGAGGTTTTGCCACATTGGCCAGGCTAGTCTCGAACTCCTGACCCCAGGTGGTCTGCGCGCCTCAGCCTCCCAAAGTGCTGGGATTACAG
GCGTGAGCCACCACGCCTGGCCCGACCCAATGTTTTCTATAGAGCTCTTTCCCAGGCCTCTCCCCTTTGCAAGCAGCGTAGCTGGAGGGTCTCATCAGCA
AGCCCCGGAGGCGAGGGGGTCTGGGGCTACCAGCTGGACCACCTACAGCTGAGGGAGGGCCCCCTTGCCTCCTCCTGCATGCTGCGTTTGGGGAGAGCGG
GAAGAATGCCTTCAAGGACTTCCCGACCACCAGGGACAAAGGGATGAGCCCTGGGAGCCGAAGCCCAGCAGATTCTATTGAACGTGTCCCCAGCCATTGC
TTAAGAAGTGCAGGTCACGGAGACTTTGCTCCTCGTTTTCCAGAAGGGGGAAACTGAGGCCTAGAGAGTGAAGTGGCTGTTCCAGGCTGCACGGTGACAG
GTAGAAGGATGGTTGGGATCAAGGAACGGCCATCCAGCAACCTCCCCTGTCCCCCTTTGCCACCCCAGACCCAGGCCTGCCCACCTCTCTCCTGGCCTCA
GCGACTGGACATCCTTCTGGGTACAGCCCGGGCAATTCAGTTTCTACATCAGGACAGCCCCAGCCTCATCCATGGAGACATCAAGAGGTGAGGAGGGGCC
CTTGAGAACTGCCGGGGCAGGGCCTGCAGCAAGGGGGGCCCCGCGTCCTATCAATGTGGGGATCAGGCATGGCCTGGGACCTCAACACCCCGGCATCGCA
CAGGTGTGGGAACGGGCCAAGGATGGGCCCTACTGATGAGCAGAGGCCCCCAGGCAGCTGGAGCGCTCAGGGCAGTGCCAGCGCTTTCTGTGGGCAAGGC
ACCGGGCTGGCAGCCTCGAGTCCAGCCTTATCTAAGCCGGGCAGGTGTAGGAGCTAGGACCGGGCTGACGCCACTGTCTTCTCTCCCCAAGTTCCAACGT
CCTTCTGGATGAGAGGCTGACACCCAAGCTGGGAGACTTTGGCCTGGCCCGGTTCAGCCGCTTTGCCGGGTCCAGCCCCAGCCAGAGCAGCATGGTGGCC
CGGACACAGACAGTGCGGGGCACCCTGGCCTACCTGCCCGAGGAGTACATCAAGACGGGAAGGCTGGCTGTGGACACGGACACCTTCAGCTTTGGGGTGG
TGAGCCACTGACCCCTCTGCTGGCTCAGAGGAGGAGAAGCCACAGGCAGGCAGAGGTGGGGGCTGCAGAGTGCACTGCGGGCCAGGGGCCATCTGCCAAG
ACCCCAGGAGGCTGCAGCTCCAGGGTCCCCCTCCCTCCGAGGCCCTCCTCCTCACCCTGCACCTAACTGTGTGTTTGTAATTTGTCTTCAAGTGGGCTCT
CCGAGTTGCCCGAGCTTCAGTCCCATAACATCTGGCTCTGCCTTTGTCCACACCCTTGTCAGGCCCAATCCATGTCCACACCAGAGGCCTCTTCCCTGCC
AAGGCCACTGCCATGCTCTCCCTCTTCCCTCTCTCCAGGTAGTGCTAGAGACCTTGGCTGGTCAGAGGGCTGTGAAGACGCACGGTGCCAGGACCAAGTA
TCTGGTGAGCCCCTTGAGGCAGGGCCAGGAGGGACACACAGCTGCTGGCAGCCAGCAGGCACAGCCCCAGTGGCGGGGATAACTGGGGCGCAGTGCCCAT
GGATGCCTCTGCTGCCACAGTGGCCTCATTTTTGAAAGTAGGCAGGGCTCCAAACAACTTCGTTTACCTTGCCGAGGACAAACCTGTCTGTCCTGCAGAC
ACTATGGGCCTTGTACAGACCCCACCTGGGCTGGGGGCAGGGGGAAGGGCGGTCCCAGGGCACTGAGACCCAAGCTGCAGTGGAACTCAGAGGACTCTGG
CCGGAGAAAGGCGGTGGTAGAGAAGAAGCAGGCCCCGAGGAACCTCCTGGGCCCCAGCAGGCTGCAGCTGAGCTCTCCGCACCGTGCAGGGCAGCCTGAG
CTGCCTCACGGTCTTACTCCACTCAGTCTGCCTCACCGTGGACT


SNP Information

Context             (SEQ ID NO:65918):
GGCTGTGCCGGAAGCTTCTGCCTCCCCCAAACAGCGGCGCTCCATCATCCGTGACCGGGGACCCATGTATGATGACCCCACCCTGCCTGAAGGCTGGACA
Y
GGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCAAGTAAGTAAGAGCAACTCCTATCTCTACAGGGCAGGGAGG
Celera SNP ID:            hCV27541529
SNP Position Genomic:     71468
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65919):
AGGCAGGGTGTCTGCCCCCTCCTGAGTTGAAGTCATGCTCCCCTGTGCCAGCCCAGAGGCCGAGAGCTATGGACAGCATTGCCAGTAACACAGGCCACCC
W
GTGCAGAAGGGAGCTGGCTCCAGCCTGGAAACCTGTCTGAGGTTGGGAGAGGTGCACTTGGGGCACAGGGAGAGGCCGGGACACACTTAGCTGGAGATGT
Celera SNP ID:            hCV15765411
SNP Position Genomic:     81512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65920):
CTCCCAAAGTGCTGGGATTACAGGTGTGAGCTACCATGCCAAGCCCACATTTCTCTGTAAATTTTAAACAGTATTTTAGTCCATATGTCAGTTCCCCTCT
K
TTTAAGATAAGGATATTAATAACCCTACTTTTCCTTCCACTTTCCCTCCTTAACTTCTGCGTCTTAAAAGCTGTACTTGACCATACCCATTCTTGCATTT
Celera SNP ID:            hCV8966337
SNP Position Genomic:     28150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65921):
CCTCCTGAGTTGAAGTCATGCTCCCCTGTGCCAGCCCAGAGGCCGAGAGCTATGGACAGCATTGCCAGTAACACAGGCCACCCTGTGCAGAAGGGAGCTG
R
CTCCAGCCTGGAAACCTGTCTGAGGTTGGGAGAGGTGCACTTGGGGCACAGGGAGAGGCCGGGACACACTTAGCTGGAGATGTCTCTAAAAGCCCTGTAT
Celera SNP ID:            hCV15765412
SNP Position Genomic:     81529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65922):
GTGGCGTGCACCCGTAGTCCATAGTCCCAGCTACTCGGGAAGCAGAGGCAGGAGGATTGCTTGATCCCAAGGAGGTCAAGGCTGCAGTGAGCTGAGGTCG
Y
GCCACCGCACCCCAGCCTGGGTGACTGAGTGAGACCCTGTCTCAAAGAAAATGAAAAGACAAGTCCACCAAGAAAACAGTTGAGACCAGTCATAGAAAAA
Celera SNP ID:            hCV8966338
SNP Position Genomic:     37746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65923):
ACAAAACATTAAGAAGTGAAAGTATCTTTGATTATGCTCTTGAAGACAACTTTTTGTTTGTTTGTTTTGTTTGAGACGGAGTTTCACTCTTGTTGCCCAG
S
CTGGAGTGCAATGGTGTGATCTCGGCTCACTGCAACCTCCGCATTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCCAGGATTACAGGC
Celera SNP ID:            hCV8966339
SNP Position Genomic:     40585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65924):
ATTCGATTGTGTCATCCCTTCAGTCTCCTTTATCAGAAATGTTCCCCCACCCCCTTGTTTTCTCTCATCATCTTGAGTCCAGACCGTGGTTGCATGGCAC
R
CCCTCTCTGGACTCTTCCTGCTGTCTCCTCACGGTAAGCTTCAGTCTCCTACTCGTGATGCTGGTTCATCTCAGCAGCACTGAGGGGCCTGAGCTCAGTT
Celera SNP ID:            hCV15765560
SNP Position Genomic:     63363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65925):
CATTCCCAAGAAACGGGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTG
Y
AGGAGACCGTACTCCCCATCAAGAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAGCCCCTGCTGGTGTCCACCCTCGGTGA
Celera SNP ID:            hCV27540513
SNP Position Genomic:     72797
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:65926):
TCTGGCCTGGCATGCCCTGAGCCCTCTGTCCCACCTGTGGAACTCATAAGCCCTGACAGCCCACTCACTCCTGATTCATTATCCACACCCCTGTGCTTCC
R
CTGTGCCTGGAGCAAGCTTTCTTCAGGGGGAAGGGAGGCTGGAACTATGTTGTAGTTACCTATTTGTCCTCCCTTCCAAACTGTGAGTTCTTGGAGGTGG
Celera SNP ID:            hCV15765567
SNP Position Genomic:     64739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65927):
ACTCCCCAGAATACACCTTGCTTCTGTAGACCAGCTCCAACAGGATTCCATGGTAGCTGGGATGTTAGGGCTCAGGTAAGTAACCTTCCTTTTTTTTTTT
W
TAGTATATGTCCTGGTTTGGCCATCTGTTTTTTTTTTTTTTAAAAAAAAAAAAAAAAGGAAAAGAGGAAAAAAATATACTACTCTTGGACAGTATAAAAG
Celera SNP ID:            hCV27158890
SNP Position Genomic:     11596
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65928):
TCTGGAGGAAGATACAGGATAGGGAGGAACTCAGGGGTGAGTCATGGTGGGGACAAGACATTCCCTCACTCTAAGACCTTGTCACTAGATTGGAACATCT
S
TTGCCTCCCTACACCTGACCTGATGGTTCTGGAGAGATACGTCCTTGCAGCTTCTGAGTCCCAGCACTAAGCAGCCTTTGGTAACTTCCCTACATCATTT
Celera SNP ID:            hCV15765568
SNP Position Genomic:     69732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65929):
CCCCCGTGCCACTGCTCCCACCCCTGCCCCCACCTCCACCTGAGCCCGAGAGCTCCGAGGACCCCACCAGCCCCCCTGAGCCCCAGGACTTGAGCAGCAG
Y
GTCTGCAAAGAGGAGAAGATGCCCAGAGGAGGCTCACTGGAGAGCGACGGCTGCCCCAAGGAGCCAGCTAAGACTCAGCCCGCGGTTGCCACCGCCGCCA
Celera SNP ID:            hCV15765495
SNP Position Genomic:     73141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65930):
TCTGCAAAGAGGAGAAGATGCCCAGAGGAGGCTCACTGGAGAGCGACGGCTGCCCCAAGGAGCCAGCTAAGACTCAGCCCGCGGTTGCCACCGCCGCCAC
R
GCCGCAGAAAAGTACAAACACCGAGGGGAGGGAGAGCGCAAAGACATTGTTTCATCCTCCATGCCAAGGCCAAACAGAGAGGAGCCTGTGGACAGCCGGA
Celera SNP ID:            hCV15765496
SNP Position Genomic:     73243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65931):
ATTAACTGAAATAAAAAATATTTTTTTTTCTTTCAGTAAACTTAGAGTTTCGTGGCTTCAGGGTGGGAGTAGTTGGAGCATTGGGGATGTTTTTCTTACC
R
ACAAGCACAGTCAGGTTGAAGACCTAACCAGGGCCAGAAGTAGCTTTGCACTTTTCTAAACTAGGCTCCTTCAACAAGGCTTGCTGCAGATACTACTGAC
Celera SNP ID:            hCV15765497
SNP Position Genomic:     73563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65932):
CTCAGGCCAGAAACCTGGCGCTGGTTACCTCATTTGTTCACAAATACTGTTACTCCACCTGCAAGATGGATACAAAATCTCATGAGTTCCCCTGCCTCCA
Y
GGCCCCCACCCTGGTCCAGGTGTCCAGCTTCCCTGCCTCTGCCCTTGCCCCCTGGTTCTTTGTTTAGTCCTGCAATATTGTGCTCTTCTGTTCAGAACCC
Celera SNP ID:            hCV8966343
SNP Position Genomic:     42745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65933):
AGCTTTGCGAAACAAGAGAAATGAATTTTAAAGGCTGTCAGGTGCCTTTGCAATCTGTGGCTTAGTATTTGTGTAACAACATTTGTGTTTTGCCAACAGA
K
GTACTGCTTAAAGTACCCATGAGAATGGCCTCTGTGGTTTTCTACTTTCTCGGATGGAACCTTAGGAACTGATTATTGAGAAGAGGCTGATACTGCCCAC
Celera SNP ID:            hCV8966344
SNP Position Genomic:     43763
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,16|G,67)   TSC_42_C(G,12|T,71)   TSC_42_AA(G,12|T,71)   total(G,91|T,158)no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65934):
ATATTTTAAATTTTCTTTGTTTCTTCCTTTGACTCACATATTATTTTAAAATGTGTTTTTCAATTTCCAAGCACATGGCTTTGGGTTTGTTTTTTTTTTT
Y
CCTAGTTGCTCTAGAAAAAAAAATTGACTGCATGAGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACCTGAGGTCAGG
Celera SNP ID:            hCV8966345
SNP Position Genomic:     47962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65935):
ATGCTAGAACTTAAAACTGAGTTCAGCTAGGCTCAAGTGCCCCACAATTTTTGTCCCACCAGACAATTTCATGAATATCTACAGATTGTTCCCTCAATAT
R
CCTCAATATTGAGGCATATTGATTTGGGGAGCACAGACAAGTCAAGGTTGATGTGCATCCGCTGAACATGATCTTAAGTTGTTGAAGTAGGTATTATTAA
Celera SNP ID:            hCV8966349
SNP Position Genomic:     52055
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   TSC_42_A(A,16|G,67)   TSC_42_C(G,12|A,71)   TSC_42_AA(A,37|G,46)   total(G,125|A,124)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65936):
CTGACATTGCTATGGAGAGCCTCTAATTGTTCCTTGTGTCTTTCTGTTTGTCCCCACAGTCCCCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTG
Y
GTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCT
Celera SNP ID:            hCV27528191
SNP Position Genomic:     72327
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65937):
AAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCC
W
AATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAGCGGCACCACGAGACCCAAGGCGGCCACGTCAGAGGGTGTGCAGGTGAA
Celera SNP ID:            hCV27864930
SNP Position Genomic:     72437
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:65938):
AAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCCCCATC
M
AGAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAGCCCCTGCTGGTGTCCACCCTCGGTGAGAAGAGCGGGAAAGGACTGAA
Celera SNP ID:            hCV27864931
SNP Position Genomic:     72818
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65939):
AAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCCCCATCAAGAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGG
M
AGTGGTGAAGCCCCTGCTGGTGTCCACCCTCGGTGAGAAGAGCGGGAAAGGACTGAAGACCTGTAAGAGCCCTGGGCGGAAAAGCAAGGAGAGCAGCCCC
Celera SNP ID:            hCV27864932
SNP Position Genomic:     72861
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65940):
CAGAGGAGGCTCACTGGAGAGCGACGGCTGCCCCAAGGAGCCAGCTAAGACTCAGCCCGCGGTTGCCACCGCCGCCACGGCCGCAGAAAAGTACAAACAC
Y
GAGGGGAGGGAGAGCGCAAAGACATTGTTTCATCCTCCATGCCAAGGCCAAACAGAGAGGAGCCTGTGGACAGCCGGACGCCCGTGACCGAGAGAGTTAG
Celera SNP ID:            hCV27864933
SNP Position Genomic:     73265
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:65941):
TAGAGAAACAAGGATTGGCATCTGGTTTATGTTTACATCCTTTAGTCCTGTTAACCGAGAAGAAGATATTTTTATTTCCATGTTTGCGAAAGCTTTCCAC
A
AAAAAAAGCATCCATTTTCTAGACTTATTAATAGGGCAGTCCAAAGGTTTTATTTTTAGATTTGAAAGAAAGCAAAGTAGGCTTCTGAGATATGCACATT
Celera SNP ID:            hCV27158685
SNP Position Genomic:     20985
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65942):
CTTCTGTGTTTGAACTGAAGTCTGTATTGTAACTATGTTTAAAGTAATTGTTCCAGAGACAAATATTTCTAGACACTTTTTCTTTACAAACAAAAGCATT
Y
GGAGGGAGGGGGATGGTGACTGAGATGAGAGGGGAGAGCTGAACAGATGACCCCTGCCCAGATCAGCCAGAAGCCACCCAAAGCAGTGGAGCCCAGGAGT
Celera SNP ID:            hCV27856846
SNP Position Genomic:     80627
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,1)   total(C,73|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:65943):
TGAGGGGGGTGGGGCCACCACATCCACCCAGGTCATGGTGATCAAACGCCCCGGCAGGAAGCGAAAAGCTGAGGCCGACCCTCAGGCCATTCCCAAGAAA
Y
GGGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACT
Celera SNP ID:            hCV27929819
SNP Position Genomic:     72710
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65944):
CAGTGCAGGTTGGCTGGCTCCAAACCTGTGTGTGCTTTCCATGACACTGTACTGTGTGCCTCATTGAGCCTCATTCTAGAAAACCAAAAACACACCCAAG
S
CCCGGCCTTCACAAAGGAGACCCCTCCCCCATTTGGCTCCCTTTCCAGCAGTCGACGGCCTCTTGTCAGCCATCGAGCCCAGAGTCCCTTGAAGTGCGAC
Celera SNP ID:            hCV15765575
SNP Position Genomic:     70753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65945):
ACGGATATCTGTTTGGTTACTGGTTTTGGTTTTTTGTTTGTTTGTTTTGGTTTTTTGAGACAAGGTCTTGCTCTGTCGCCCAGGCTGGATTACAGTGGCA
Y
GATCTCTGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGACTACAGGTAGCACTCACCACCATGCC
Celera SNP ID:            hCV8966350
SNP Position Genomic:     60980
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65946):
GTGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAGTTCATTCATTGTACACTTAGAAATAGTTAAAAAGGTAAACTTTGTTTTGTGTGTGTGT
R
TATATATATATATATATATATATGTATTTTTTTTTGAGACATATATGTGTCTGGTTTGTTCGCCCAGGCAGGAGTGCAGTGGCATGATCAACGGCTCACT
Celera SNP ID:            hCV8966351
SNP Position Genomic:     66569
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65947):
CTGACTCACCCTTGCCCCTCACCCCCACACTAATCCACCTGCGAGCTCTGTTGCTTCACCACCTAGACCAGCCCCAAATCCTCAACTGCCCCCACCCTGG
K
CCACACCTGGACCACTGCTAGAGGCCTCTCATGGGCCCTCCCTGTTTTTCTCTTGCACTCCCCGGGCTTTCTGGCACAAGATGCCCCAGAAGCAGAATCA
Celera SNP ID:            hCV8966355
SNP Position Genomic:     67534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65948):
GACCCCACCGGGCCAAAGTGATGTGTAGAGAAGGAGCTGCTTCGGTCACCAGAAAAGAACGGGGAAGCCTCCCACACTAGAATAGGTAGGGTGCTCTTCT
S
CACCGGCAGGAAGGGGATGTATGGCTCTGCCTGGACCACACCTTTTTCCTTGCTCTTCCCTCCGCATCTGCTGTGGCCGAGGCCATTCCTCATCAGGGAA
Celera SNP ID:            hCV8966356
SNP Position Genomic:     70313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65949):
TGAACTTTGGAGAGGCCTGGGGGGGTCAGCGGCAGGCAGACGAGTGAGTGGCTTTGGTGACAGGTCCTCAGGGGCAGCCAGGCAGTGTGACTCTCGTTCA
R
TAGTAACGTTTGTCAGAGCGTTGTCACCACCATCCGCTCTGCCCTATCTCTGACATTGCTATGGAGAGCCTCTAATTGTTCCTTGTGTCTTTCTGTTTGT
Celera SNP ID:            hCV8966357
SNP Position Genomic:     72177
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65950):
GTGGCTATGGCCTGTGCGATCCCACCCGTGGTGGCTCAAGTCTGGCCCCACACCAGCCCCAATCCAAAACTGGCAAGGACGCTTCACAGGACAGGAAAGT
R
GCACCTGTCTGCTCCAGCTCTGGCATGGCTAGGAGGGGGGAGTCCCTTGAACTACTGGGTGTAGACTGGCCTGAACCACAGGAGAGGATGGCCCAGGGTG
Celera SNP ID:            hCV15765507
SNP Position Genomic:     73996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65951):
GGCCATGGAGGCAGTAGGACAAGGTGCAGGCAGGCTGGCCTGGGGTCAGGCCGGGCAGAGCACAGCGGGGTGAGAGGGATTCCTAATCACTCAGAGCAGT
S
TGTGACTTAGTGGACAGGGGAGGGGGCAAAGGGGGAGGAGAAGAAAATGTTCTTCCAGTTACTTTCCAATTCTCCTTTAGGGACAGCTTAGAATTATTTG
Celera SNP ID:            hCV15765508
SNP Position Genomic:     74247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65952):
CTTCTCTTCCAGGCAGCCGCGGTGCCCAACCACACTTGTCGGCTCCAGTCCCCAGAACTCTGCCTGCCCTTTGTCCTCCTGCTGCCAGTACCAGCCCCAC
S
CTGTTTTGAGCCCTGAGGAGGCCTTGGGCTCTGCTGAGTCCGACCTGGCCTGTCTGTGAAGAGCAAGAGAGCAGCAAGGTCTTGCTCTCCTAGGTAGCCC
Celera SNP ID:            hCV15765509
SNP Position Genomic:     74769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65953):
CCCTCAGGCCATTCCCAAGAAACGGGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATC
Y
GATCTGTGCAGGAGACCGTACTCCCCATCAAGAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAGCCCCTGCTGGTGTCCAC
Celera SNP ID:            hCV11680852
SNP Position Genomic:     72788
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:65954):
GGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTC
S
CCATCAAGAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAGCCCCTGCTGGTGTCCACCCTCGGTGAGAAGAGCGGGAAAGG
Celera SNP ID:            hCV11680853
SNP Position Genomic:     72812
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65955):
GGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCC
S
CATCAAGAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAGCCCCTGCTGGTGTCCACCCTCGGTGAGAAGAGCGGGAAAGGA
Celera SNP ID:            hCV11680854
SNP Position Genomic:     72813
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|A,-)   no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65956):
AGGAAGCGAAAAGCTGAGGCCGACCCTCAGGCCATTCCCAAGAAACGGGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGA
R
AGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCCCCATCAAGAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTG
Celera SNP ID:            hCV27929820
SNP Position Genomic:     72765
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65957):
AAACCTCTCTCTTGAGCTCCAGATTTGATGGCCTCGTCAGCATTTACTTGAGTTGCTCATAAGTGTCTCAAATTTAACAAGTCCCAGTCTTGATTTTTTT
Y
CCCCTTCAAACCTATTCCTCATGTTGTCTCTATTTCAGTAAACAATATCAACATCCACCCAGTTACTCAGTCCAAAATTCTAGGAGTCATCCTTGATTCT
Celera SNP ID:            hCV27158690
SNP Position Genomic:     25037
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65958):
GGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCCCCATCAAGAAG
Y
GCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAGCCCCTGCTGGTGTCCACCCTCGGTGAGAAGAGCGGGAAAGGACTGAAGACCTG
Celera SNP ID:            hCV11680858
SNP Position Genomic:     72824
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65959):
TTGATTGCTTTTTTGTAGTGTTCAGAAAAAAGGTTCTTTGTGTATAGCCAAATGACTGAAAGCACTGATATATTTAAAAACAAAAGGCAATTTATTAAGG
R
AATTTGTACCATTTCAGTAAACCTGTCTGAATGTACCTGTATACGTTTCAAAAACACCCCCCCCCCACTGAATCCCTGTAACCTATTTATTATATAAAGA
Celera SNP ID:            hCV27466443
SNP Position Genomic:     81806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65960):
GGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCCCCATCAAGAAGC
R
CAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAGCCCCTGCTGGTGTCCACCCTCGGTGAGAAGAGCGGGAAAGGACTGAAGACCTGT
Celera SNP ID:            hCV11680859
SNP Position Genomic:     72825
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65961):
GACTGCGGACTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCTTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACA
G
GCGCCCGCCACCGCGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCA
Celera SNP ID:            hCV27158693
SNP Position Genomic:     25294
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,3)   total(G,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65962):
AGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCTTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACC
G
CGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCGCCTCGGCCT
Celera SNP ID:            hCV27158694
SNP Position Genomic:     25307
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,2)   total(G,1|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65963):
GGATTGCCGGTCTTGACAGCTCAGTGAGCTGGAGATACTTGGTCACAGCCAGGCGCTAGCACAGCTCCCTTCTGTTGATGCTGTATTCCCATATCAAAAG
R
CACAGGGGACACCCAGAAACGCCACATCCCCCAATCCATCAGTGCCAAACTAGCCAACGGCCCCAGCTTCTCAGCTCGCTGGATGGCGGAAGCTGCTACT
Celera SNP ID:            hCV16398
SNP Position Genomic:     77007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65964):
CTTTTTTTTTTTTGAGACAGTCTTGCTCTGTCACCCAGGCTGGCATGCAGTGGCATGATCTCAGTTCACTGCAACCTCTGCCTCCTGGGCTCAAGCAATT
C
TCCTGCCTCAACCTCCCGAGTAGCTGGTATTACAAGCGTGCGCCACCATACCCAGCTAATTTTTATATTTTTTAGTAGAGACAGGGTTTGCCATGTTGGC
Celera SNP ID:            hCV27158695
SNP Position Genomic:     33693
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,2)   total(C,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65965):
TTTTTTTTTTTTGAGACAGTCTTGCTCTGTCACCCAGGCTGGCATGCAGTGGCATGATCTCAGTTCACTGCAACCTCTGCCTCCTGGGCTCAAGCAATTC
T
CCTGCCTCAACCTCCCGAGTAGCTGGTATTACAAGCGTGCGCCACCATACCCAGCTAATTTTTATATTTTTTAGTAGAGACAGGGTTTGCCATGTTGGCC
Celera SNP ID:            hCV27158696
SNP Position Genomic:     33694
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65966):
TTTTTTTTTTTGAGACAGTCTTGCTCTGTCACCCAGGCTGGCATGCAGTGGCATGATCTCAGTTCACTGCAACCTCTGCCTCCTGGGCTCAAGCAATTCT
C
CTGCCTCAACCTCCCGAGTAGCTGGTATTACAAGCGTGCGCCACCATACCCAGCTAATTTTTATATTTTTTAGTAGAGACAGGGTTTGCCATGTTGGCCA
Celera SNP ID:            hCV27158697
SNP Position Genomic:     33695
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,2)   total(C,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65967):
GGAGGCTGAGGCAGGTGAATCCTTGAAACCAAGAGGCGGAGGTTGCAGTAAGCTGAGATCACGCCAATGCATTCTAGCCTGGGCAACAGTGAGACCCAGT
W
TCCAAAAAAAAAAAAAAAAAAAAAAAAGATAATAAAGGAGAAAAACCATATAGTCTATTCAATAAATACAGAAAACGCATCTGACAAAATTCAGTGCCCT
Celera SNP ID:            hCV27158698
SNP Position Genomic:     34862
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65968):
ACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCCGAGTTCAAGCGATTCCCATGCCTCAGCCTTCCAAGTAG
S
TGGGATTACAGGTGTGCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGGCAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACC
Celera SNP ID:            hCV27158699
SNP Position Genomic:     37054
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,1)   total(G,1|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65969):
TTCAAACTTCGCCAGGGGGCAAGGCTGAGGGGGGTGGGGCCACCACATCCACCCAGGTCATGGTGATCAAACGCCCCGGCAGGAAGCGAAAAGCTGAGGC
Y
GACCCTCAGGCCATTCCCAAGAAACGGGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTA
Celera SNP ID:            hCV8966361
SNP Position Genomic:     72685
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,34)   total(C,71|T,1)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65970):
GGGGCGCAGCAGCAGCGCCTCCTCACCCCCCAAGAAGGAGCACCACCACCATCACCACCACTCAGAGTCCCCAAAGGCCCCCGTGCCACTGCTCCCACCC
Y
TGCCCCCACCTCCACCTGAGCCCGAGAGCTCCGAGGACCCCACCAGCCCCCCTGAGCCCCAGGACTTGAGCAGCAGCGTCTGCAAAGAGGAGAAGATGCC
Celera SNP ID:            hCV8966362
SNP Position Genomic:     73064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:65971):
GCTCACTTGTTCTGCAGACTGGCATGTTCTCTGTGATACTTACATACTTGTTTAACACTTCAGGGAAGAAAAGTCAGAAGACCAGGACCTCCAGGGCCTC
W
AGGACAAACCCCTCAAGTTTAAAAAGGTGAAGAAAGATAAGAAAGAAGAGAAAGAGGGCAAGCATGAGCCCGTGCAGCCATCAGCCCACCACTCTGCTGA
Celera SNP ID:            hCV11680717
SNP Position Genomic:     71216
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:65972):
CAGGACCTCCAGGGCCTCAAGGACAAACCCCTCAAGTTTAAAAAGGTGAAGAAAGATAAGAAAGAAGAGAAAGAGGGCAAGCATGAGCCCGTGCAGCCAT
M
AGCCCACCACTCTGCTGAGCCCGCAGAGGCAGGCAAAGCAGAGACATCAGAAGGGTCAGGCTCCGCCCCGGCTGTGCCGGAAGCTTCTGCCTCCCCCAAA
Celera SNP ID:            hCV11680718
SNP Position Genomic:     71298
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:65973):
CATCAGAAGGGTCAGGCTCCGCCCCGGCTGTGCCGGAAGCTTCTGCCTCCCCCAAACAGCGGCGCTCCATCATCCGTGACCGGGGACCCATGTATGATGA
M
CCCACCCTGCCTGAAGGCTGGACACGGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCAAGTAAGTAAGAGCAA
Celera SNP ID:            hCV11680719
SNP Position Genomic:     71443
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65974):
CTCCAGTCCCCAGAACTCTGCCTGCCCTTTGTCCTCCTGCTGCCAGTACCAGCCCCACCCTGTTTTGAGCCCTGAGGAGGCCTTGGGCTCTGCTGAGTCC
R
ACCTGGCCTGTCTGTGAAGAGCAAGAGAGCAGCAAGGTCTTGCTCTCCTAGGTAGCCCCCTCTTCCCTGGTAAGAAAAAGCAAAAGGCATTTCCCACCCT
Celera SNP ID:            hCV15765516
SNP Position Genomic:     74811
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:65975):
GAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCCCCATCAAGAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAG
S
CCCTGCTGGTGTCCACCCTCGGTGAGAAGAGCGGGAAAGGACTGAAGACCTGTAAGAGCCCTGGGCGGAAAAGCAAGGAGAGCAGCCCCAAGGGGCGCAG
Celera SNP ID:            hCV11680860
SNP Position Genomic:     72872
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65976):
GGCCTGCCAGTCATCGAGTGGCCCAACAGGGGCTCCATGCCAGCCGACCTTGACCTCACTCAGAAGTCCAGAGTCTAGCGTAGTGCAGCAGGGCAGTAGC
R
GTACCAATGCAGAACTCCCAAGACCCGAGCTGGGACCAGTACCTGGGTCCCCAGCCCTTCCTCTGCTCCCCCTTTTCCCTCGGAGTTCTTCTTGAATGGC
Celera SNP ID:            hCV15765517
SNP Position Genomic:     75106
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65977):
CCATTGAGAGCTGTAAGACTCAGAGACTTGAAAAGGAAGCTCTGGCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGT
Y
GATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGCCCAACATGGTGAAACCCCGTCTCCACTAAACATACAAAAATTAGCCTGGCGTGGTAGCACACGCC
Celera SNP ID:            hCV27927657
SNP Position Genomic:     69263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65978):
CTGACTCTTCCCCAGGAAGGGAAGGGGGGTCAGAAGAGAGGGTGAGTCCTCCAGAACTCTTCCTCCAAGGACAGAAGGCTCCTGCCCCCATAGTGGCCTC
R
AACTCCTGGCACTACCAAAGGACACTTATCCACGAGAGCGCAGCATCCGACCAGGTTGTCACTGAGAAGATGTTTATTTTGGTCAGTTGGGTTTTTATGT
Celera SNP ID:            hCV15765518
SNP Position Genomic:     76026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:65979):
AAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCCCCATCAAGAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAGC
Y
CCTGCTGGTGTCCACCCTCGGTGAGAAGAGCGGGAAAGGACTGAAGACCTGTAAGAGCCCTGGGCGGAAAAGCAAGGAGAGCAGCCCCAAGGGGCGCAGC
Celera SNP ID:            hCV11680864
SNP Position Genomic:     72873
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65980):
ACCCTCGGTGAGAAGAGCGGGAAAGGACTGAAGACCTGTAAGAGCCCTGGGCGGAAAAGCAAGGAGAGCAGCCCCAAGGGGCGCAGCAGCAGCGCCTCCT
M
ACCCCCCAAGAAGGAGCACCACCACCATCACCACCACTCAGAGTCCCCAAAGGCCCCCGTGCCACTGCTCCCACCCCTGCCCCCACCTCCACCTGAGCCC
Celera SNP ID:            hCV11680865
SNP Position Genomic:     72987
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:65981):
GGGGACCCATGTATGATGACCCCACCCTGCCTGAAGGCTGGACACGGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTT
S
ATCAAGTAAGTAAGAGCAACTCCTATCTCTACAGGGCAGGGAGGGCAGGGACAAGGATCCCTCATGGAGCAGGAAAATGTATGTGCCCAGGGTGGGGTCG
Celera SNP ID:            hCV27862991
SNP Position Genomic:     71524
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65982):
TGTCAGAGCGTTGTCACCACCATCCGCTCTGCCCTATCTCTGACATTGCTATGGAGAGCCTCTAATTGTTCCTTGTGTCTTTCTGTTTGTCCCCACAGTC
Y
CCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACT
Celera SNP ID:            hCV27862992
SNP Position Genomic:     72288
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65983):
CACCATCCGCTCTGCCCTATCTCTGACATTGCTATGGAGAGCCTCTAATTGTTCCTTGTGTCTTTCTGTTTGTCCCCACAGTCCCCAGGGAAAAGCCTTT
Y
GCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACTGGGAGAGGGAGCCCCTC
Celera SNP ID:            hCV27862993
SNP Position Genomic:     72305
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65984):
CTACAGGCTTGTGCCACCACGACTAGCTGGCCCACATTTTAGATGTCTCTCTTTTCTTGTGATATAATTTAACTTGTTTGTCCATATATATTACTTGTAG
R
CAAGAAGTTAGGTCTACAGGCATGTTCAGGTTAAACATTTTGGGCAAGAATATTTCATAGGCAGTACTGTGTACTTCATATAGCATCAGCTCACCAGGCA
Celera SNP ID:            hCV29369112
SNP Position Genomic:     31243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65985):
TCATTGTGAAGGTATTGGGACATAATTTGGGAAAGCGTCCTGGTCTAAGCTTTTGATTGGCTCTCCATCATTTGGGTAATGGGATAGTGATTTAGGAGTA
Y
CATAGCAGCTCAAGGGGCCCTTCTGGAAAGGGTATGAGGAAGGTCAGGGACAAGTCTGAAATGAATCATCCTAGGCTTAATGCCTGTGACTGGGCAGTGG
Celera SNP ID:            hCV29369113
SNP Position Genomic:     46328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65986):
CTTTACCAGGACCCAGTTCCACCCCGTCCTTTGTGCATTGTCCAAGACTGCTCTCCTGTACAACAGCAGGTGGGCTGGTTGTGACAGATACTGTCTGGCC
Y
ACAAGGTGGAAAATACTATCTGGCCCCTTACAGAAAGAAATTACCTGAGTTCTACACGAGGGTGTAGGTATGTACCCTGGCCTCTGCCAGTCAGACTCAC
Celera SNP ID:            hCV29369114
SNP Position Genomic:     54219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65987):
TCTTTCTCTGTCTCCTCTGCTGATTCTTTCTCCTCATCACAACTCCAAATAGCAGGGGGAGGGTTGTTTACACTTATATTCAGCACGCCCTCACGCACTC
R
CCTGGCTCTTCAGACCTCTCCCCTGAACTCCAGATTCATACATCCAGCTGCCCTTTAGGCCTCTAGAAAGCTAAATACCTCAGTATCAAAAACATGAGAA
Celera SNP ID:            hCV29369115
SNP Position Genomic:     54899
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65988):
CACAGTCCCCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCA
Y
GGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCC
Celera SNP ID:            hCV27529669
SNP Position Genomic:     72381
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65989):
CCCGGGTTCATGCCATTCTCCTGCTTCAGCCTCCAGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCGTGGCTGATTTTTTTTTTTTTTTTTTTTTTG
K
ATTTTTAGTAGAGACGGGGTTTCACCGTGTCAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTAC
Celera SNP ID:            hCV27158700
SNP Position Genomic:     49619
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65990):
GTCAGGCTCCGCCCCGGCTGTGCCGGAAGCTTCTGCCTCCCCCAAACAGCGGCGCTCCATCATCCGTGACCGGGGACCCATGTATGATGACCCCACCCTG
H
CTGAAGGCTGGACACGGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCAAGTAAGTAAGAGCAACTCCTATCTC
Celera SNP ID:            hCV11680722
SNP Position Genomic:     71453
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65991):
TCAGGCTCCGCCCCGGCTGTGCCGGAAGCTTCTGCCTCCCCCAAACAGCGGCGCTCCATCATCCGTGACCGGGGACCCATGTATGATGACCCCACCCTGC
S
TGAAGGCTGGACACGGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCAAGTAAGTAAGAGCAACTCCTATCTCT
Celera SNP ID:            hCV11680723
SNP Position Genomic:     71454
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(T,-|G,-)   no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65992):
TGACCAAACCCCTGGGATTAGATCTCCATCGGGTCCCTCCCCTCACCCTAACCTCACATGCAGTGGTTCCTGAGAAGCTGCTGTTTATCTGATCACGGGA
K
CCAGCAGGATCTGAGGGCTCATTCACTGAATCTGTACTACCCAACAAGGCAGGCTTGTCCTTACCCACACTTTTCAGGTGAAAACTTAATCAGATTCAAG
Celera SNP ID:            hCV27158701
SNP Position Genomic:     51448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65993):
TAAGTTGTTGAAGTAGGTATTATTAATGAACGAACGTCTATTTTAGCTCCAAGAGCCCCTGGTCTTCCAGAAGAGACTCCCAATGATCTTCCAGAAGCAG
S
TGGGCTTCTTTTGGTCCTCCCCCACCCAGGTGCAGTCCCGTTCTCCCTGCCTGGGTGAGTTTGATTCCTCTGCCGTGGAATAGGCTAGGCTGCTACCTCT
Celera SNP ID:            hCV27158702
SNP Position Genomic:     52230
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:65994):
TATCAACAAGAAATGGAGAAAGCCAGCAGCTGAGGACAGAAAAGTCATGCACAGTGTCAGTGTCTATGGAAACAGGCCACTTGGACCTTGAGGACTAGGT
A
TTTGGAATTGGAGGTGAGCTTGGCCTGGTGAGTCTCTAACCACTTGTGTGTAGGATCAGTGTGAGAACCCTGCTAGAATATAGTGGCAGAGATGCAAGGG
Celera SNP ID:            hCV27158703
SNP Position Genomic:     59269
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,12)   total(A,12|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:65995):
TGTCCCCACAGTCCCCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTG
R
CTTCACGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGA
Celera SNP ID:            hCV27158704
SNP Position Genomic:     72375
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65996):
GGCTCAAGTGATCCTCCCACCTCTGCCCCCCAAAGTGCTGGGCCACCACGCCTGGTGTGGTGTCACCAGAGATGAGCCACCATGCCCTGCCTGATACTTT
W
CTTTTATCATCTGTTTATTTCTTGTTTATGGGTGTTTCTGTTCTGATTTTATGACTATTCTGTATTCTAAGATTTCTCTGAGAATATTATTTGTTTCCTC
Celera SNP ID:            hCV3275666
SNP Position Genomic:     38289
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:65997):
GCTGTGCCGGAAGCTTCTGCCTCCCCCAAACAGCGGCGCTCCATCATCCGTGACCGGGGACCCATGTATGATGACCCCACCCTGCCTGAAGGCTGGACAC
R
GAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCAAGTAAGTAAGAGCAACTCCTATCTCTACAGGGCAGGGAGGG
Celera SNP ID:            hCV11680726
SNP Position Genomic:     71469
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65998):
CTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACTGGGAGAGGGAGCCCCTCC
Y
GGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAGCGGCACCACGAGACCCAA
Celera SNP ID:            hCV27158705
SNP Position Genomic:     72407
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:65999):
TTCTGCCTCCCCCAAACAGCGGCGCTCCATCATCCGTGACCGGGGACCCATGTATGATGACCCCACCCTGCCTGAAGGCTGGACACGGAAGCTTAAGCAA
R
GGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCAAGTAAGTAAGAGCAACTCCTATCTCTACAGGGCAGGGAGGGCAGGGACAAGGATC
Celera SNP ID:            hCV11680727
SNP Position Genomic:     71483
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66000):
AAGGGTCCTGGAGAAAAGTCCTGGGAAGCTCCTTGTCAAGATGCCTTTTCAAACTTCGCCAGGGGGCAAGGCTGAGGGGGGTGGGGCCACCACATCCACC
Y
AGGTCATGGTGATCAAACGCCCCGGCAGGAAGCGAAAAGCTGAGGCCGACCCTCAGGCCATTCCCAAGAAACGGGGCCGAAAGCCGGGGAGTGTGGTGGC
Celera SNP ID:            hCV27158706
SNP Position Genomic:     72638
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66001):
CCCCGGCAGGAAGCGAAAAGCTGAGGCCGACCCTCAGGCCATTCCCAAGAAACGGGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCC
R
AAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCCCCATCAAGAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAA
Celera SNP ID:            hCV27158707
SNP Position Genomic:     72758
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66002):
CCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCCCCATCAAGA
R
GCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAGCCCCTGCTGGTGTCCACCCTCGGTGAGAAGAGCGGGAAAGGACTGAAGACC
Celera SNP ID:            hCV27158708
SNP Position Genomic:     72822
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66003):
CACCACCACCATCACCACCACTCAGAGTCCCCAAAGGCCCCCGTGCCACTGCTCCCACCCCTGCCCCCACCTCCACCTGAGCCCGAGAGCTCCGAGGACC
Y
CACCAGCCCCCCTGAGCCCCAGGACTTGAGCAGCAGCGTCTGCAAAGAGGAGAAGATGCCCAGAGGAGGCTCACTGGAGAGCGACGGCTGCCCCAAGGAG
Celera SNP ID:            hCV27158709
SNP Position Genomic:     73104
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66004):
TTGTTATAAATCGTTAGGATACTGCCTCCCCCAGGGTCTAAAATTACATATTAGAGGGGAAAAGCTGAACACTGAAGTCAGTTCTCAACAATTTAGAAGG
M
AAACCTAGAAAACATTTGGCAGAAAATTACATTTCGATGTTTTTGAATGAATACGAGCAAGCTTTTACAACAGTGCTGATCTAAAAATACTTAGCACTTG
Celera SNP ID:            hCV15765525
SNP Position Genomic:     77945
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66005):
GGGGAAAAGCTGAACACTGAAGTCAGTTCTCAACAATTTAGAAGGAAAACCTAGAAAACATTTGGCAGAAAATTACATTTCGATGTTTTTGAATGAATAC
R
AGCAAGCTTTTACAACAGTGCTGATCTAAAAATACTTAGCACTTGGCCTGAGATGCCTGGTGAGCATTACAGGCAAGGGGAATCTGGAGGTAGCCGACCT
Celera SNP ID:            hCV15765526
SNP Position Genomic:     78000
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:66006):
GAGCTCCGAGGACCCCACCAGCCCCCCTGAGCCCCAGGACTTGAGCAGCAGCGTCTGCAAAGAGGAGAAGATGCCCAGAGGAGGCTCACTGGAGAGCGAC
R
GCTGCCCCAAGGAGCCAGCTAAGACTCAGCCCGCGGTTGCCACCGCCGCCACGGCCGCAGAAAAGTACAAACACCGAGGGGAGGGAGAGCGCAAAGACAT
Celera SNP ID:            hCV11680870
SNP Position Genomic:     73190
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66007):
TGCTTCAATCAATAACAGCCGCTCCAGAGTCAGTAGTCAATGAATATATGACCAAATATCACCAGGACTGTTACTCAATGTGTGCCGAGCCCTTGCCCAT
S
CTGGGCTCCCGTGTATCTGGACACTGTAACGTGTGCTGTGTTTGCTCCCCTTCCCCTTCCTTCTTTGCCCTTTACTTGTCTTTCTGGGGTTTTTCTGTTT
Celera SNP ID:            hCV15765527
SNP Position Genomic:     80291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66008):
TCCTGGGAAGCTCCTTGTCAAGATGCCTTTTCAAACTTCGCCAGGGGGCAAGGCTGAGGGGGGTGGGGCCACCACATCCACCCAGGTCATGGTGATCAAA
Y
GCCCCGGCAGGAAGCGAAAAGCTGAGGCCGACCCTCAGGCCATTCCCAAGAAACGGGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGC
Celera SNP ID:            hCV27973212
SNP Position Genomic:     72656
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66009):
AAGGCTGGACACGGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCAAGTAAGTAAGAGCAACTCCTATCTCTAC
R
GGGCAGGGAGGGCAGGGACAAGGATCCCTCATGGAGCAGGAAAATGTATGTGCCCAGGGTGGGGTCGGGGGGAACATAAACAATGAACACTGAGACCAGG
Celera SNP ID:            hCV25617618
SNP Position Genomic:     71557
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66010):
AGAGGAGGCTCACTGGAGAGCGACGGCTGCCCCAAGGAGCCAGCTAAGACTCAGCCCGCGGTTGCCACCGCCGCCACGGCCGCAGAAAAGTACAAACACC
R
AGGGGAGGGAGAGCGCAAAGACATTGTTTCATCCTCCATGCCAAGGCCAAACAGAGAGGAGCCTGTGGACAGCCGGACGCCCGTGACCGAGAGAGTTAGC
Celera SNP ID:            hCV27158710
SNP Position Genomic:     73266
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66011):
CTCATGCTGCCCCTGCCTTGGGGTCAGGTTGACAGGAGGTTGGAGGGAAAGCCTTAAGCTGCAGGATTCTCACCAGCTGTGTCCGGCCCAGTTTTGGGGT
S
TGACCTCAATTTCAATTTTGTCTGTACTTGAACATTATGAAGATGGGGGCCTCTTTCAGTGAATTTGTGAACAGCAGAATTGACCGACAGCTTTCCAGTA
Celera SNP ID:            hCV27158711
SNP Position Genomic:     76646
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:66012):
GTTTGCTGCAATTTTATAAGGACTTCCTGATTGGTTTCTCTTCTCCCCTTCCATTTCTGCCTTTTGTTCATTTCATCCTTTCACTTCTTTCCCTTCCTCC
R
TCCTCCTCCTTCCTAGTTCATCCCTTCTCTTCCAGGCAGCCGCGGTGCCCAACCACACTTGTCGGCTCCAGTCCCCAGAACTCTGCCTGCCCTTTGTCCT
Celera SNP ID:            hCV15823589
SNP Position Genomic:     74645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66013):
CATTGCTATGGAGAGCCTCTAATTGTTCCTTGTGTCTTTCTGTTTGTCCCCACAGTCCCCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTA
S
TTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGA
Celera SNP ID:            hCV11680735
SNP Position Genomic:     72331
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66014):
ATGGAGAGCCTCTAATTGTTCCTTGTGTCTTTCTGTTTGTCCCCACAGTCCCCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAA
W
AGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAA
Celera SNP ID:            hCV11680736
SNP Position Genomic:     72338
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66015):
TGTCTTTCTGTTTGTCCCCACAGTCCCCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACC
S
TAATGATTTTGACTTCACGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGC
Celera SNP ID:            hCV11680737
SNP Position Genomic:     72363
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66016):
AAACCAGGTTTTGTTCCGCCCAGTGGATTCTTGTTTTGCTTCCCCTCCCCCCGAGATTATTACCACCATCCCGTGCTTTTAAGGAAAGGCAAGATTGATG
W
TTCCTTGAGGGGAGCCAGGAGGGGATGTGTGTGTGCAGAGCTGAAGAGCTGGGGAGAATGGGGCTGGGCCCACCCAAGCAGGAGGCTGGGACGCTCTGCT
Celera SNP ID:            hCV15765531
SNP Position Genomic:     80886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66017):
TGTTTGTCCCCACAGTCCCCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGAT
W
TTGACTTCACGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCG
Celera SNP ID:            hCV11680738
SNP Position Genomic:     72371
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66018):
TGCAGCTCTTCCTGGACAGGCCAGGTGGTGGGCATTCTCTCTCCAAGGTGTGCCCCGTGGGCATTACTGTTTAAGACACTTCCGTCACATCCCACCCCAT
Y
CTCCAGGGCTCAACACTGTGACATCTCTATTCCCCACCCTCCCCTTCCCAGGGCAATAAAATGACCATGGAGGGGGCTTGCACTCTCTTGGCTGTCACCC
Celera SNP ID:            hCV15765532
SNP Position Genomic:     81117
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,40)   total(C,71|T,1)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66019):
AGGCAGTTCGCAGCAAGAGTTGTAGTTCCCTTGCTTTGCCCTGAGGGCCAGGACTTTACACTAGATTTTTTTGTTGCATTCCTGCACTCATAAAGTACAC
S
TAAACTTAGAGGTGGTGTGTTAAATGCTAGAACTTAAAACTGAGTTCAGCTAGGCTCAAGTGCCCCACAATTTTTGTCCCACCAGACAATTTCATGAATA
Celera SNP ID:            hCV15765533
SNP Position Genomic:     51931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66020):
GACATCAGAAGGGTCAGGCTCCGCCCCGGCTGTGCCGGAAGCTTCTGCCTCCCCCAAACAGCGGCGCTCCATCATCCGTGACCGGGGACCCATGTATGAT
K
ACCCCACCCTGCCTGAAGGCTGGACACGGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCAAGTAAGTAAGAGC
Celera SNP ID:            hCV27860181
SNP Position Genomic:     71441
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66021):
AAGATAAGGTAGATCAGAAGACCAAATAGACAAATGCCATGTCCACTGTTTTCTGTCACAGTTGATAGCCATACCAGTCACCCAAGCTGGAAACCCAACA
S
GCCCCTGCCCTTCACTGCCCACATCCAAGGGAGCCACCAAGTCCCACAAATTGTTCCTTTAACTGTTTGTCCCTCTTTTGTCTTCTGTCATCCCTTCTAC
Celera SNP ID:            hCV15765537
SNP Position Genomic:     52664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66022):
AGGGTCAGGCTCCGCCCCGGCTGTGCCGGAAGCTTCTGCCTCCCCCAAACAGCGGCGCTCCATCATCCGTGACCGGGGACCCATGTATGATGACCCCACC
S
TGCCTGAAGGCTGGACACGGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCAAGTAAGTAAGAGCAACTCCTAT
Celera SNP ID:            hCV27860182
SNP Position Genomic:     71450
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66023):
GCTCAACACTGTGACATCTCTATTCCCCACCCTCCCCTTCCCAGGGCAATAAAATGACCATGGAGGGGGCTTGCACTCTCTTGGCTGTCACCCGATCGCC
M
GCAAAACTTAGATGTGAGAAAACCCCTTCCCATTCCATGGCGAAAACATCTCCTTAGAAAAGCCATTACCCTCATTAGGCATGGTTTTGGGCTCCCAAAA
Celera SNP ID:            hCV2597090
SNP Position Genomic:     81225
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,6)      total(A,6|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:66024):
TGATAGCCATACCAGTCACCCAAGCTGGAAACCCAACAGGCCCCTGCCCTTCACTGCCCACATCCAAGGGAGCCACCAAGTCCCACAAATTGTTCCTTTA
W
CTGTTTGTCCCTCTTTTGTCTTCTGTCATCCCTTCTACCGCTGTCCTGGTTCAATCCCTCATCTTGCTCTGGGACTCCCATGATAACTTATGATCTTTCC
Celera SNP ID:            hCV15765538
SNP Position Genomic:     52726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66025):
CATCATCCGTGACCGGGGACCCATGTATGATGACCCCACCCTGCCTGAAGGCTGGACACGGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAG
K
ATGATGTGTATTTGATCAAGTAAGTAAGAGCAACTCCTATCTCTACAGGGCAGGGAGGGCAGGGACAAGGATCCCTCATGGAGCAGGAAAATGTATGTGC
Celera SNP ID:            hCV27860183
SNP Position Genomic:     71510
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66026):
CGCCCCGGCTGTGCCGGAAGCTTCTGCCTCCCCCAAACAGCGGCGCTCCATCATCCGTGACCGGGGACCCATGTATGATGACCCCACCCTGCCTGAAGGC
Y
GGACACGGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCAAGTAAGTAAGAGCAACTCCTATCTCTACAGGGCA
Celera SNP ID:            hCV28016638
SNP Position Genomic:     71462
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66027):
CCTTCTGTTGCTGCTGCTTTTCTTATGGACATAGCCCTCAGCAGTCCAGGACTGCTTGTAGTTCCTCCCAGGTACCATGTTTCTTGCACTCCTGGCCTTT
S
TCATTGGCTCCCCTGCCCAAGTCCCCTTCTCTTCTCCTTTCCTTCCCCTGTGGCCTTGCCTTGTCGTGCTTATCCTTGAAGACCCTGTCAGGTATCTCTT
Celera SNP ID:            hCV15765539
SNP Position Genomic:     53054
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66028):
TAGGATGCCTTTGTGTATGCAGTGGCTCTAGGTGACTCTGGCAGCCACACTCTGGGCCCTAAACTTCTGGAGGAAGATACAGGATAGGGAGGAACTCAGG
S
GTGAGTCATGGTGGGGACAAGACATTCCCTCACTCTAAGACCTTGTCACTAGATTGGAACATCTCTTGCCTCCCTACACCTGACCTGATGGTTCTGGAGA
Celera SNP ID:            hCV2597092
SNP Position Genomic:     69667
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,2)   total(G,2|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66029):
CCCATGTATGATGACCCCACCCTGCCTGAAGGCTGGACACGGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCA
R
GTAAGTAAGAGCAACTCCTATCTCTACAGGGCAGGGAGGGCAGGGACAAGGATCCCTCATGGAGCAGGAAAATGTATGTGCCCAGGGTGGGGTCGGGGGG
Celera SNP ID:            hCV27860184
SNP Position Genomic:     71529
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66030):
ACCATCCGCTCTGCCCTATCTCTGACATTGCTATGGAGAGCCTCTAATTGTTCCTTGTGTCTTTCTGTTTGTCCCCACAGTCCCCAGGGAAAAGCCTTTC
K
CTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACTGGGAGAGGGAGCCCCTCC
Celera SNP ID:            hCV27860185
SNP Position Genomic:     72306
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)   no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66031):
ATACATGTTTCTAAGTTGGGCGTGGTAGCTCATCTGTAGTCCCAGCTACTTGAGAGCCTGAGGCAGGAGGATCGCTTGAGCCCAGCCTGGGCAGCACAGC
R
AGACCCTATCTCCCTAAAAAAAACTTTTTCGTTGTTTAGTTTTGGGATTTTTTTTTTTCCTGGTCTTTTTTCCCCCTTTTTGTGAATAACGGGATCTCAC
Celera SNP ID:            hCV2597093
SNP Position Genomic:     59518
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66032):
CAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACTG
K
GAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAGC
Celera SNP ID:            hCV27860186
SNP Position Genomic:     72390
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66033):
TATCTTGTATCCGGAGAGAATTTGCACGCTGGAGGGAGCTGCAGCCATGTAGTCTTCAGCCCTATCTGGATTCTTCTCTTTGTTCTAAGAACTGTGTTGG
W
TGTCTTACTAAGGCTCACTCTAGCTGCACGAGGGATGTGTGTGCCATTTCCATGGGGATAGGGGGCACCTCAGTCTCTGGGTGGTTCCATAATCTGTGTA
Celera SNP ID:            hCV2597094
SNP Position Genomic:     57229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,5)      total(A,5|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66034):
GGCACCACGAGACCCAAGGCGGCCACGTCAGAGGGTGTGCAGGTGAAAAGGGTCCTGGAGAAAAGTCCTGGGAAGCTCCTTGTCAAGATGCCTTTTCAAA
S
TTCGCCAGGGGGCAAGGCTGAGGGGGGTGGGGCCACCACATCCACCCAGGTCATGGTGATCAAACGCCCCGGCAGGAAGCGAAAAGCTGAGGCCGACCCT
Celera SNP ID:            hCV27860187
SNP Position Genomic:     72591
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66035):
TCGAGACCAGCCTGGCCAACATGCCAAAACCTCGTCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGCACACACCTGTAGTTCCAGCTACTCGGGA
K
GCTGAGGCAGGAGAATCACTTGAACCGGGAGGCAGTGGTCACAGTGAGCCAAGATTGTGCCAGTGTACTCCAGCCTGGGCAACAAGAGCAATACTCCGTC
Celera SNP ID:            hCV2597095
SNP Position Genomic:     48166
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66036):
TTCGCCAGGGGGCAAGGCTGAGGGGGGTGGGGCCACCACATCCACCCAGGTCATGGTGATCAAACGCCCCGGCAGGAAGCGAAAAGCTGAGGCCGACCCT
Y
AGGCCATTCCCAAGAAACGGGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATC
Celera SNP ID:            hCV27860188
SNP Position Genomic:     72692
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66037):
TAAGGACAGACTTGGTCTCTCTTCCATGGGGCTGGTTCTTGAGCCGCCAGGGATGGGGGGAGGACCTGGGTAGCTGCTGCGCTGCCCCTTCTCTGCTGTG
R
TGGAGTGGCCCGTTGCCTGCGGGGTCTGTCTCTGAAGGGTGGTTTGGAGAAGTTCTGTGGAGGCGAGGCAGGGGTCAGCTCTTGCCCCATGGACCCTCAG
Celera SNP ID:            hCV2597096
SNP Position Genomic:     38490
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66038):
AAAAGCAAGGAGAGCAGCCCCAAGGGGCGCAGCAGCAGCGCCTCCTCACCCCCCAAGAAGGAGCACCACCACCATCACCACCACTCAGAGTCCCCAAAGG
S
CCCCGTGCCACTGCTCCCACCCCTGCCCCCACCTCCACCTGAGCCCGAGAGCTCCGAGGACCCCACCAGCCCCCCTGAGCCCCAGGACTTGAGCAGCAGC
Celera SNP ID:            hCV27860189
SNP Position Genomic:     73041
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66039):
GTGGTCTTCCTGCCTCAGCCTCCTGCGTAGCTAGGACTACAAGCACGTGCCACTATGCCTGGCTAATTTTTAAATTTTTTGTAGACATGGGCTGGTGTGT
S
TCTGTGTTGTCTAGGCTGGTCTTGAACTCCTGGGCTCAAGTGATCCTCCCACCTCTGCCCCCCAAAGTGCTGGGCCACCACGCCTGGTGTGGTGTCACCA
Celera SNP ID:            hCV2597097
SNP Position Genomic:     38156
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66040):
TCTACTAAACCATGTTGGCCAGGCTGGTTTTGAACTCCTGACCTCAAGTGATCTGCCCGCCTCGGCCTCCCAAAGTTCTAGGATTATAGGCGTGAGCCAC
Y
ATGCCCAGCCCCTTTGTCTCTTTTAACAAGAACAGCCTACCCACCTCTCCTTCACTTGTGATACTGACTTTTTGAAGCAGTCAGCCCAATTGTCATCTAG
Celera SNP ID:            hCV2597098
SNP Position Genomic:     30923
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66041):
AGCATTGCCAGTAACACAGGCCACCCTGTGCAGAAGGGAGCTGGCTCCAGCCTGGAAACCTGTCTGAGGTTGGGAGAGGTGCACTTGGGGCACAGGGAGA
R
GCCGGGACACACTTAGCTGGAGATGTCTCTAAAAGCCCTGTATCGTATTCACCTTCAGTTTTTGTGTTTTGGGACAATTACTTTAGAAAATAAGTAGGTC
Celera SNP ID:            hCV27835473
SNP Position Genomic:     81586
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,1|G,35)   total(A,2|G,68)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66042):
GTCCCCACAGTCCCCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGA
M
TTCACGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGAC
Celera SNP ID:            hCV11680740
SNP Position Genomic:     72376
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66043):
CCCACAGTCCCCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTT
S
ACGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCC
Celera SNP ID:            hCV11680741
SNP Position Genomic:     72379
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66044):
CCACAGTCCCCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTC
R
CGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCC
Celera SNP ID:            hCV11680742
SNP Position Genomic:     72380
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66045):
CCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACT
D
GGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAG
Celera SNP ID:            hCV11680744
SNP Position Genomic:     72389
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66046):
TAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACTGGGAGAGGGAGCCCCTCCCGG
Y
GAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAGCGGCACCACGAGACCCAAGGC
Celera SNP ID:            hCV11680745
SNP Position Genomic:     72410
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66047):
AAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCCCCATCA
R
GAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAGCCCCTGCTGGTGTCCACCCTCGGTGAGAAGAGCGGGAAAGGACTGAAG
Celera SNP ID:            hCV27951599
SNP Position Genomic:     72819
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66048):
GGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATTTTGACTTCACGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAG
Y
AGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAGCGGCACCACGAGACCCAAGGCGGCCAC
Celera SNP ID:            hCV11680746
SNP Position Genomic:     72416
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66049):
CCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAGCGGCACCACG
W
GACCCAAGGCGGCCACGTCAGAGGGTGTGCAGGTGAAAAGGGTCCTGGAGAAAAGTCCTGGGAAGCTCCTTGTCAAGATGCCTTTTCAAACTTCGCCAGG
Celera SNP ID:            hCV11680747
SNP Position Genomic:     72500
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66050):
AAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAGCGGCACCACGAGACCCAAGGCGGCCACGT
M
AGAGGGTGTGCAGGTGAAAAGGGTCCTGGAGAAAAGTCCTGGGAAGCTCCTTGTCAAGATGCCTTTTCAAACTTCGCCAGGGGGCAAGGCTGAGGGGGGT
Celera SNP ID:            hCV11680748
SNP Position Genomic:     72519
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66051):
GGCCTTTGTCATTGGCTCCCCTGCCCAAGTCCCCTTCTCTTCTCCTTTCCTTCCCCTGTGGCCTTGCCTTGTCGTGCTTATCCTTGAAGACCCTGTCAGG
Y
ATCTCTTCCCCAAAGAGCCCTGCCTAACCACCGCCCCCCTCCCCCCCGCGACACACACACCTGGGTTAGGCCCTGCCTCTCCACGCCTGTGCCTCCTGCC
Celera SNP ID:            hCV15765543
SNP Position Genomic:     53147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66052):
ACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAGCGGCACCACGAGACCCAAGGCGGCCACGTCA
K
AGGGTGTGCAGGTGAAAAGGGTCCTGGAGAAAAGTCCTGGGAAGCTCCTTGTCAAGATGCCTTTTCAAACTTCGCCAGGGGGCAAGGCTGAGGGGGGTGG
Celera SNP ID:            hCV11680749
SNP Position Genomic:     72521
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66053):
GTCGTGCTTATCCTTGAAGACCCTGTCAGGTATCTCTTCCCCAAAGAGCCCTGCCTAACCACCGCCCCCCTCCCCCCCGCGACACACACACCTGGGTTAG
K
CCCTGCCTCTCCACGCCTGTGCCTCCTGCCAAGTCCTCAGAGGTCTCTGATCCCATGTGCCTCCAGGCATGGCATAGGGGGACTGTGACACAGCCTCTCG
Celera SNP ID:            hCV15765544
SNP Position Genomic:     53217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66054):
GTTTGTCCCCACAGTCCCCAGGGAAAAGCCTTTCGCTCTAAAGTGGAGTTGATTGCGTACTTCGAAAAGGTAGGCGACACATCCCTGGACCCTAATGATT
B
TGACTTCACGGTAACTGGGAGAGGGAGCCCCTCCCGGCGAGAGCAGAAACCACCTAAGAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGG
Celera SNP ID:            hCV27532118
SNP Position Genomic:     72372
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66055):
GTGCCTCCAGGCATGGCATAGGGGGACTGTGACACAGCCTCTCGGCCCACAGACCCCTGATTGTGGGCTTGCTCACTGCCCCAGTCAGTCCTCTTATTGA
K
GATTCCGTGCCAGTTCCTGACTCCAGCACACACACGCATGTAGGCCGCCCTCCTAGTGCCTGGCTCCTTCCCTGTCTCTTCTGCCACTCATTCCCATGGT
Celera SNP ID:            hCV15765545
SNP Position Genomic:     53374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66056):
TGTCAAGATGCCTTTTCAAACTTCGCCAGGGGGCAAGGCTGAGGGGGGTGGGGCCACCACATCCACCCAGGTCATGGTGATCAAACGCCCCGGCAGGAAG
Y
GAAAAGCTGAGGCCGACCCTCAGGCCATTCCCAAGAAACGGGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGT
Celera SNP ID:            hCV27532119
SNP Position Genomic:     72671
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66057):
GAGTGGGAAGTTCTCAAGGTAGCAGGCCCTCTATCCTCTCCACACCTCAAGTCTTTATCTGGGGATGGAATAGCTGCGGAAGCAGAGGAACTTGCAGAGC
Y
AGGGGTTCAGAGGGGTGAAGAAGCATGTTTCAGTTCTGCCTTTTAAATGATCCCAAAAAGGTTAGCAGTTTTCAAATGACATTTGCAGACAGCCTCATTT
Celera SNP ID:            hCV15765472
SNP Position Genomic:     71795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66058):
AGCAGCAGCGCCTCCTCACCCCCCAAGAAGGAGCACCACCACCATCACCACCACTCAGAGTCCCCAAAGGCCCCCGTGCCACTGCTCCCACCCCTGCCCC
Y
ACCTCCACCTGAGCCCGAGAGCTCCGAGGACCCCACCAGCCCCCCTGAGCCCCAGGACTTGAGCAGCAGCGTCTGCAAAGAGGAGAAGATGCCCAGAGGA
Celera SNP ID:            hCV27860190
SNP Position Genomic:     73071
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66059):
TGGAGAGACTGAGCACCGTACCTGAGTTCAAACTTGGGAATGTTCTAGATGGTGACTCAGGCCCAGGCACCAACCAGCAGAATGGGCCTCAGCCTGACAA
Y
CCTTCTGTACCAGGCCTGACTCTTTGGTTGCTGAACTTTGGAGAGGCCTGGGGGGGTCAGCGGCAGGCAGACGAGTGAGTGGCTTTGGTGACAGGTCCTC
Celera SNP ID:            hCV15765473
SNP Position Genomic:     72045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66060):
GGGGGACTGTGACACAGCCTCTCGGCCCACAGACCCCTGATTGTGGGCTTGCTCACTGCCCCAGTCAGTCCTCTTATTGAGGATTCCGTGCCAGTTCCTG
W
CTCCAGCACACACACGCATGTAGGCCGCCCTCCTAGTGCCTGGCTCCTTCCCTGTCTCTTCTGCCACTCATTCCCATGGTCGTATCCTGGAGTTGGTCAT
Celera SNP ID:            hCV15765549
SNP Position Genomic:     53394
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66061):
AGTGATCAGGAACCATAGTTGACAGTTCCAATCAGTAGCTTAAGAAAAAACCGTGTTTGTCTCTTCTGGAATGGTTAGAAGTGAGGGAGTTTGCCCCGTT
S
TGTTTGTAGAGTCTCATAGTTGGACTTTCTAGCATATATGTGTCCATTTCCTTATGCTGTAAAAGCAAGTCCTGCAACCAAACTCCCATCAGCCCAATCC
Celera SNP ID:            hCV27487966
SNP Position Genomic:     75772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66062):
ATAAAGTGTTTTGCAAATTTACTGGATGATATCCTACTATGTGGAACATCCTACAACTTACTCTTTTCACTCAACATTTGACTTTTGAACCTGGTCTGTA
Y
TGCTCCGTGCAGACCAATGTTCATTCATTTGATATGTCTCCTTGTGCCATAGAAATAGTTTTACAATAGAAGCCTGTCCAGAGCCATGAGGGAGAAGGGG
Celera SNP ID:            hCV2277191
SNP Position Genomic:     20780
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66063):
CTCAGAGTCCCCAAAGGCCCCCGTGCCACTGCTCCCACCCCTGCCCCCACCTCCACCTGAGCCCGAGAGCTCCGAGGACCCCACCAGCCCCCCTGAGCCC
Y
AGGACTTGAGCAGCAGCGTCTGCAAAGAGGAGAAGATGCCCAGAGGAGGCTCACTGGAGAGCGACGGCTGCCCCAAGGAGCCAGCTAAGACTCAGCCCGC
Celera SNP ID:            hCV27536042
SNP Position Genomic:     73124
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66064):
CCTATGCTGGGCTCTGTATCCTTGTCTCCAAGCAGTCTCGTGTGACAGGGAAGTTACCTATTATTGTATGGTCCCCTCTTCTTGTCACCTCTGGTGTGGC
W
CTTGTTCCATTTCTTGTTCAATGAATGTGATTTGTGAATGTGCCACATCTGTGGGAGGAAGGCAGTTCGCAGCAAGAGTTGTAGTTCCCTTGCTTTGCCC
Celera SNP ID:            hCV15765769
SNP Position Genomic:     51771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66065):
CCTCCAGGGCTCAACACTGTGACATCTCTATTCCCCACCCTCCCCTTCCCAGGGCAATAAAATGACCATGGAGGGGGCTTGCACTCTCTTGGCTGTCACC
Y
GATCGCCAGCAAAACTTAGATGTGAGAAAACCCCTTCCCATTCCATGGCGAAAACATCTCCTTAGAAAAGCCATTACCCTCATTAGGCATGGTTTTGGGC
Celera SNP ID:            hCV15765400
SNP Position Genomic:     81217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66066):
GAAGAGCTAGGCAGGGTGTCTGCCCCCTCCTGAGTTGAAGTCATGCTCCCCTGTGCCAGCCCAGAGGCCGAGAGCTATGGACAGCATTGCCAGTAACACA
R
GCCACCCTGTGCAGAAGGGAGCTGGCTCCAGCCTGGAAACCTGTCTGAGGTTGGGAGAGGTGCACTTGGGGCACAGGGAGAGGCCGGGACACACTTAGCT
Celera SNP ID:            hCV15765401
SNP Position Genomic:     81504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66067):
CGAGGTCAGGAGATCGAGACCATCCTGGCGAGCACGGTGAAACCTCGTCTTTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGCGCCTGTAGT
Y
CCAGCTACTCTGAGAGCCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGTCACTGCACTCCAGCCTGGGCGAC
Celera SNP ID:            hCV2597102
SNP Position Genomic:     17701
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66068):
GAAGCCCAAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAGCGGCACCACGAGACCCAAGGCGGCCACGTCAGAGGGTGTG
Y
AGGTGAAAAGGGTCCTGGAGAAAAGTCCTGGGAAGCTCCTTGTCAAGATGCCTTTTCAAACTTCGCCAGGGGGCAAGGCTGAGGGGGGTGGGGCCACCAC
Celera SNP ID:            hCV11680750
SNP Position Genomic:     72530
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66069):
CATCTTGGCCACGCTGGTCTTGAACTCCTGACCTCGTGATCCACCCGCTTCAGCCTCCCAAAGTGCAGGGATTACAGGCGTGAGCCACCGCACCCAGCCT
Y
TGGCTCTTTTCTTTTTGACATGAAATCTTAAGTTAATTATCTTAAACTTTAAGAACTAGAAGGATTCTTAGTCCAGCACCATCAGTTTACAAACAAAAAA
Celera SNP ID:            hCV2597104
SNP Position Genomic:     10240
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66070):
AAATCTCCCAAAGCTCCAGGAACTGGCAGAGGCCGGGGACGCCCCAAAGGGAGCGGCACCACGAGACCCAAGGCGGCCACGTCAGAGGGTGTGCAGGTGA
W
AAGGGTCCTGGAGAAAAGTCCTGGGAAGCTCCTTGTCAAGATGCCTTTTCAAACTTCGCCAGGGGGCAAGGCTGAGGGGGGTGGGGCCACCACATCCACC
Celera SNP ID:            hCV11680751
SNP Position Genomic:     72537
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66071):
GAAACGGGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACC
R
TACTCCCCATCAAGAAGCGCAAGACCCGGGAGACGGTCAGCATCGAGGTCAAGGAAGTGGTGAAGCCCCTGCTGGTGTCCACCCTCGGTGAGAAGAGCGG
Celera SNP ID:            hCV27531106
SNP Position Genomic:     72806
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66072):
GTGGCTTTCTTGTTAGCACTGGCCTATCACACCTTCCTATTGCCTGTTAACTAAAATTTTGCCTGGAATGCTTTAAGCTTAGAGTACTGGGTCTTTGTTT
Y
ACCCGATTGATAGGAGAGTGTCATGCAGTCAGCCGAACTCCGACTTCTGTGCTGTTTAAATCCTTAGGTAGGTCTGGGGCAAGGCACAAACCACTGTGTA
Celera SNP ID:            hCV2597105
SNP Position Genomic:     8543
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66073):
AAAGGGAGCGGCACCACGAGACCCAAGGCGGCCACGTCAGAGGGTGTGCAGGTGAAAAGGGTCCTGGAGAAAAGTCCTGGGAAGCTCCTTGTCAAGATGC
S
TTTTCAAACTTCGCCAGGGGGCAAGGCTGAGGGGGGTGGGGCCACCACATCCACCCAGGTCATGGTGATCAAACGCCCCGGCAGGAAGCGAAAAGCTGAG
Celera SNP ID:            hCV11680752
SNP Position Genomic:     72582
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66074):
ATCTTCTCTTGCTGTTTTCCCCTCTGAGCTATCGCGTGCAGGCTTGTTATCTTGTATCCGGAGAGAATTTGCACGCTGGAGGGAGCTGCAGCCATGTAGT
Y
TTCAGCCCTATCTGGATTCTTCTCTTTGTTCTAAGAACTGTGTTGGATGTCTTACTAAGGCTCACTCTAGCTGCACGAGGGATGTGTGTGCCATTTCCAT
Celera SNP ID:            hCV15765550
SNP Position Genomic:     57182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66075):
CTAGGGCACTGGTGGTTCAGGTCCTTCTATTTGCCACCGGCAAACCGTACTTCTGCCAGTCTGGCTCTTAGGCCCAGTTTCTCTGATCTTGCAGATTTTC
Y
TGGGCTCTGCTACGGAATCCTCATACCTCCGGCAGGTCCCTCCTTTGCCCATGTGTTTAACTGTGGTGGAATCGTGTGAGAGCTGCTTCTCTCGCATGGA
Celera SNP ID:            hCV15765551
SNP Position Genomic:     58629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66076):
CAAGATGCCTTTTCAAACTTCGCCAGGGGGCAAGGCTGAGGGGGGTGGGGCCACCACATCCACCCAGGTCATGGTGATCAAACGCCCCGGCAGGAAGCGA
W
AAGCTGAGGCCGACCCTCAGGCCATTCCCAAGAAACGGGGCCGAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAA
Celera SNP ID:            hCV11680757
SNP Position Genomic:     72674
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66077):
TTTGTCTCTTCTGGAATGGTTAGAAGTGAGGGAGTTTGCCCCGTTCTGTTTGTAGAGTCTCATAGTTGGACTTTCTAGCATATATGTGTCCATTTCCTTA
Y
GCTGTAAAAGCAAGTCCTGCAACCAAACTCCCATCAGCCCAATCCCTGATCCCTGATCCCTTCCACCTGCTCTGCTGATGACCCCCCCAGCTTCACTTCT
Celera SNP ID:            hCV27520259
SNP Position Genomic:     75827
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66078):
GGGTGGGGCCACCACATCCACCCAGGTCATGGTGATCAAACGCCCCGGCAGGAAGCGAAAAGCTGAGGCCGACCCTCAGGCCATTCCCAAGAAACGGGGC
Y
GAAAGCCGGGGAGTGTGGTGGCAGCCGCTGCCGCCGAGGCCAAAAAGAAAGCCGTGAAGGAGTCTTCTATCCGATCTGTGCAGGAGACCGTACTCCCCAT
Celera SNP ID:            hCV11680758
SNP Position Genomic:     72716
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66079):
CCCCCTCCCACCCTTTCCCTCAAGTCCCCAAAGTCCATTGTATCATTCTGATGCCTTTGCATCCTCATAGCTTAGCTCCCACTTATGAGTGAGAACATAC
R
GTGTTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAATAGTCTCTAGTTCCATCCAGGTTGCTGTGAATGCCATTAAGTCATTCCTTTTTATGGCT
Celera SNP ID:            hCV27994143
SNP Position Genomic:     26204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66080):
GAGAGACTGAGCACCGTACCTGAGTTCAAACTTGGGAATGTTCTAGATGGTGACTCAGGCCCAGGCACCAACCAGCAGAATGGGCCTCAGCCTGACAACC
S
TTCTGTACCAGGCCTGACTCTTTGGTTGCTGAACTTTGGAGAGGCCTGGGGGGGTCAGCGGCAGGCAGACGAGTGAGTGGCTTTGGTGACAGGTCCTCAG
Celera SNP ID:            hCV15765483
SNP Position Genomic:     72047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66081):
GGGGGGTCAGCGGCAGGCAGACGAGTGAGTGGCTTTGGTGACAGGTCCTCAGGGGCAGCCAGGCAGTGTGACTCTCGTTCAATAGTAACGTTTGTCAGAG
Y
GTTGTCACCACCATCCGCTCTGCCCTATCTCTGACATTGCTATGGAGAGCCTCTAATTGTTCCTTGTGTCTTTCTGTTTGTCCCCACAGTCCCCAGGGAA
Celera SNP ID:            hCV15765484
SNP Position Genomic:     72196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66082):
TGTATTTGGGGAGGGTTCTGCTTTTGGTTGGCAAGAACTGCATTTTATTTAAGCTTAGCAAAACATAACTGGTTTCTCGCATCTTCTCAAAAGTGGAGGA
Y
TAAGAAATGGACTGCGAATTCAGAGCAGGGCAGCTGAACCTCAGGCTCCACCCTTGTAGCCTTCAAGCTGAACCTCATTCTCTCTTGCTCCCTGGAGACC
Celera SNP ID:            hCV15765558
SNP Position Genomic:     61520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66083):
GCAGACGAGTGAGTGGCTTTGGTGACAGGTCCTCAGGGGCAGCCAGGCAGTGTGACTCTCGTTCAATAGTAACGTTTGTCAGAGCGTTGTCACCACCATC
Y
GCTCTGCCCTATCTCTGACATTGCTATGGAGAGCCTCTAATTGTTCCTTGTGTCTTTCTGTTTGTCCCCACAGTCCCCAGGGAAAAGCCTTTCGCTCTAA
Celera SNP ID:            hCV15765485
SNP Position Genomic:     72212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66084):
CCTTACTTCATATTTTGTAGGTATTTTAAGATTTTGTAAAGGCCTTTCTGCTTCAACGTGTGATGTGTGCATTCTTAGAAAAAGATCTTGTGTTCTGTAA
W
TCACACAATAAAAACATGAGTTCGTGCAGGAAAAACTGGGGCGGGGTGGATCACTCCAAACTTGTGTGGTGTGGTAACTGGAGCTCACTGATGAAACCAT
Celera SNP ID:            hCV15765559
SNP Position Genomic:     62547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66085):
TGCCTGAAGGCTGGACACGGAAGCTTAAGCAAAGGAAATCTGGCCGCTCTGCTGGGAAGTATGATGTGTATTTGATCAAGTAAGTAAGAGCAACTCCTAT
S
TCTACAGGGCAGGGAGGGCAGGGACAAGGATCCCTCATGGAGCAGGAAAATGTATGTGCCCAGGGTGGGGTCGGGGGGAACATAAACAATGAACACTGAG
Celera SNP ID:            hCV16166552
SNP Position Genomic:     71551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 419
Celera Gene:                 hCG37756 - 146000220348744
Gene Symbol:                 MIC1
Protein Name:                colon cancer-associated protein Mic1
Celera Genomic Axis:         GA_x5YUV32W66L(2561760..2602154)
Chromosome:                  Chr18
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12579):
GATCAGAGTTTTTAAAGATAGTTTGGTGCTGGGTGTGGTGGCTCACGCTTGTAATCCCGGCACTTTGGGAGGCTGAGGCAGGCGGATCACCTGAGGTCAG
GAGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCCATCTGTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGCACTTGCCTGTAAACCCAGGTAC
TCGGGAGATTGAGGCTGGAGACTCACTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGA
CTCCATCACAAACAAACAAACAAACATAATTTGGCAGGTAGGGGCTCAGGAAGCAGAGTGCTGATTGGTCAAGGTTGGAGATGGAATCCTAGGGGGGTCG
AACTGAGGTTTTCTTGCTGTTTTCTACTCCTAGATGGGATGGCAGAACTGATTGGCCCAGATTACCGGTCTGGATGGTGTCAGCTGATCCATCCAGTATA
GGATCTACAAAATATCTCAAACACTGATCTTAGGTTTTACAATAGTGATGCTATCCCCAAAAGCAATTTGGGGCGGTTCAGACTCTTGGAGCCAGAGGCT
GCATGACCCCTAAACCGTAATTTCTAATCTTGTAGCTAACTTGTTAGTCCTGCAAAGGCAGACTGGTCCCCAGGCAAGAAGGGAGTCTTTTCGGGAAAGC
GCTATTATTAATTTTGTTTCAGAGTCAAACTATGAACTGAATTCCTTCCCAAATGCCCAGCAATGAACAAGGACAGCTTAAAGGTTAGAAGCAAGATGGA
GTCGGTTAGGTCTGATCTCTTTCACTGTTATAATTTCTTCAGTTATAATTTTTGCAAAGGCAGTTGAAACTGTGTCTTTGAAAAGACACAGCAGAAACAT
CTGTTACATAAACAACAGAAATGAGGAAGAAAGTATCTGACTCAGTAGCAAAGGAAATCCACAGAAAGAATGTTCTGAGAACGGAAGCAATGATCAGACC
AGGTAGGGATATGATAGAAAGAAAATTCTCATCTAATTCAAATTCTGGCCAGTCCTTTTGGTGATTTCCATACTAATACTAGGCACTTTAAAATGTGAGT
TCTGGTAACACATGGAACCTCAAAGTAGAAATGTCTGTTGTTCATTTTTAAAAGACTATTTGCAGAGTTTTGATGTTTATCAATGAAAAGAGTTTTTTTT
TTAAATTTATGAAGAATAGGGAATCCTATATGGGCATGGGGCAAATAATCAAACTGTTTTAATGCAGAAAAAAATGTGCAACAGAAAGAGATAGCTCATG
GAGGGATAAAGACTTTATTCTGGACCCTCTAGATTCTGTGGGGCCTGCAGTAGCTTCAAGATGCCCCAGCATGTCCTGCGCCCACACCCCTGTCAAGATC
ACTGTGGTCAGGGCGTCTTGCCCATGGCCAGTGTATTAGTCTGCTTGGGTTGCCACAACAAAATACCACAGACTGAGGTTGAAAACATTTATTTTCTCAC
AGTTTTGGAGGCTAGAAGTCCTAGATCAAGGTGCCAGCAGCGTTGCTTCCTCTGAGGCAGCTCTTCTTGGCCTGTAGGTGGCGCCTTCTTGCTGTGTCTT
CACATGGGCGGCCCCTCAGTCTGTGTGTCTAGGTCCTAATCTTCTCTTATAAACACACCAGTCATACTGGATTAGGGTCCATCATTTTACCTTAACGGCC
TATTTAAAGGCCTTATCTCCAAATACAGATGCATTTTGAAATACTAAGGGTTAGTACCTCAACATCTGAATTCTGGGGGGACACACTTCAACCCATAACA
TGCAGGCAGACCTCAATGCTGCTTGCAGACCCAAGGCGAACTGCACAACAATCAAGCCTGGCTCTTAGGACAAAAACATCTGCCAGAGTCAACCAAACTG
AATTCTCTGGGAAGGACGAGATGCCTGGTGTCATAAAAAGACCATAGTCTTTTTTAAGTGTGATGCATGCGCACACAGGCACGCATACACACACGCGCAC
ACACGCGCACACACTGCACTGCTGCCCTGTCCTTGGCAGACATTCCTGTGGGGTCATGTTCGAAATATGCACTTCTGTGGAGTAGCTTGGGTTTTCTTGG
AAGTCTCTTTTTCTAAACTTGTACCTAAGCTGATGGCCTGTGCCTGCTTGGGCATGAGGGGTCGGAGTGGGGATGGGTCAAGACTGACTCCTGTTCACTG
TGAAGTAGAGGAAGGCAGTGATAGCCAGACAGGGACGTGTGTTTAGGGAAGTCCTCTGTGTTTTCAGTTCTGTTTTTGTTTTGTTTTTATGATGGGAGAG
ATGAGCAAATATAAAGGCTGCTTCTAGGAGCAGGAGTGAGGAGAGGTTGCCTATATGAGAGAAACGGGATGGTCAATACTGTAGGTTTTTTTGAGAAGGT
GAAATATGGAATTCATTTTTTAAATTTTTTAAATTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGATGTGATCTCTGC
TCATTGCAACTTCTGCCTCCTGTTTATATAAACAGGCCAAACCCTGTATGTATGTATGTATTTATTTATTTTTGAGATGGAGTTTCGCTCTTGTTCCACT
TGTTGCCCAGGCTGGAGTGCAATGGCACGATCTTGGCTCACTGCAACCTGCAACTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGG
GATTACCAGCACTCACCACCACAGCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCTTGACCT
CAGGTGATCCACCTGCCTCAGCTTCCCAAAGTGCTAGGATTACAGGCATGAGCCACTGCACCCAGCCGAAAGATGGAATTCAAAGAAGTGCTGGTAAGTC
ACTGTGGTATTTGTGAAAAAATAAAAATAAAGAGGGTTTGGGCTAGGCGCGGTGGCTCATGCCTGTAATCTCAGCACTTTGGGAGGCCAAGGGGGGTGGA
TCACCTGAGGTTGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTGAAAATACAAAATTAGCCGGGTGTGGTGGCGCATGCCTGT
AATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCGAGAGGTAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGCA
ACAAGAGGAACAAGAGCAAAACTCCATCAAATAAATAAATAAATAAATAAATAAAAACAGGGTTTGGCCTTGGGCAGGATGGACCGTTTTCTAGAAGGAC
AGCCGTGGTGCGCTGCACAACTGGTATGAAGCCCAGTTTCCATCTGAAGTCCTCGATGTTCATGGAAATAGGGGCGAGACAGTCTGAGGAGTGTGAAGAA
GGCCTGAAAATATCCTTGCAGAGAACAGGAGAGACAATGACTGGGACAGCCAGGCAGGGCTGAGGGCCCATTTGAATTTCCCGCAGTGCCCTCTGTCCTG
TTGTGTGACCCCTCCAGCAGTAGGTACTGGGAAAGCAGGTGGCTGAGTTCATCCAGGACTGAGGCTCTGCCAGACAAGAACAGTGCAGCAAGGATGTTGA
AGGTAATGGCAAAAAATAACTGGAATGCAGAGAAATGAAATCAAAGCTGATGAGGAGGGAAGGGAAGAGAGGAGAGGGCAGATAGACTTGGGTAGAGAGG
ACAGAACAATGACAGGGCAAACTGGTGATGTTGAGGAAGAGTCACAGGGAGCAGCTAAACAAGCCAGCTGCAGGGATGGCACTGTGTGGCTGGAGAGCAG
GGTTCTGGAGTTATCGGTTTTTCCATGTGTGACATGGGCCTGGGTGGGTGAGGCTGAGTGTAGAAGTCTTACATTTCCAGTCTTGTCACTCCTCTGATGA
GTTTCAGACCAATATATCCATCTGCCTAGATGTCATTTCTCCTTGGATTCACATGCTCCAAACCAAACTCCTGGGCTCAGACATCAAAGCCACTCAAAAA
TAGCTCTCTGAGAAATAGAACTACCATATGATCCAGTAATCCAACTTTTGGGTATAGACCCAAAAGAATTAAAAACAGAATATTGAACAGATATTTGCAT
AGCTTTATTCACAACAGCCAAAGGTGGGAACAACCCACATGCCCATCAACAGACGAATGGATAAACAAAATGTGCTATATACATAAAATGGAATCTTTTT
CGGCCTTAATGAAGGAAGGAAATCCTGACACATGCTACATGGATGAACCTTGAGGATATTTTGCTAAGCAAAAGAAGCCAGACACTAATGGACAAATACT
ATAAAATCCACTTATATGAGATACTTAGAGTAGTCAAATTTAGGGACAGAATCAGATTTGCAAGATAAAAAGTTTCTGGAAACGTATTTCACAATAATGT
GAATATGCCTGATACTACTGAACACCTCAAAAAGGGTTAACACGGGGCCGGGCGCGGTGGCTCATGCCTGTAATCTCATCACTGTGGGAGGCCAAGGTGG
GCAGATCACCTGAGGTTAGGAGTTGGAGACCAGCCTGGCCAACATGGTGAAACCCGGTCTCTGCTAAAAATACACACAAAAAAATTAGCTGGGCATGGTG
GCAGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGATGCGGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAACCGAGACAGGGCCATTGCAC
TCCAGCCTGGGCAACAAGAACGAAATTCCGTCTCAAAATAAAATAAAATAAACAATAAAAATAAAGGGTTAACATGGGGGCTGAGCACGGTCAGCGAGAG
AATCACTTGAGGCCAGGAGTCTGAGACCAGCCTGGGCAACAGAGAACGCTGTCTCTACAAAGCATAATAATAAAAAAATGAGCCAGGTGTGGTGGCATGC
ACCCGTGGTCCCAGCTACTTGTGAGGCTGAGATGGGAGGTTGAGACTGCAGTGAGCCGTGTTCGCATCACTGCTCTCCAGCCTGGGCACAGAGACACTCT
GTCTCTGAAACAAACAAAAAAAGAGGGGCTAACATGGTAAATTTCATGTTTCTTATCAAGTAAAAAGGCTTGCTGACCCACAATCTATATTAGGTTTCCC
TGTTACTAGCAAGGAGTGAAGGATGTGCTATCCCAAAATATGTCCAAAAATTGGTATATTATTTTGAGCTAAAAACACCGGAGAAATTGTAGTTTCAGAA
AGGGCTAGATGACCTGTCGTTTCCTACAGGGAATAAGCAGTAAAGATTCCTCTGGGAGTGGCACCCTCTCTGTACCCGGGTCAGAAAATAGCCCTTATCA
CCAGAGACTGGGAGTTGGGGCTGCAATGGACCTGAATAAATGAACTTCCCAAGTAACACTTACCTTCCACTAATTTTACACCCTCCCCAATATTTCTCCT
AGTGACTCTCTTAGAAATGTATCGCCCCAGCCAGATGCCTTTTGTGCTTTCTTCTCAAATGCATCATTCTTTGTCTAAAAAGTATAAAAGCATCTTGCTG
TGGCCACTTCTTCAGACCTCACTCTCTTTTGAAGGTCCCCATGAAAAACTAATAAAGTGTGTATGCTTTTCTTTTGTTTATCTGCCTCTTGTCAATTCGG
TTTCTGGCTCCAGCGGAAGAGCCCGCAGAAGCGCTGAGGGGACTGGAGACGGTCTCTGGCGCCCCTACACCTGCTCAGTGAGCCTTCAGCCCCTTCTCCC
TGACGAAGCTCCCAGAGGCTGGAACTCTGGCGCGGGAGGCACTTGGGAAATCCTCCCGAAAGCAAGGAGGAGCCTTTCCTAGACCGGGAGCGGTCCCACG
CGGGGGTACAGGTTGGGGCAGGGGCGACCGAGCCGGGCACAGGAACTCGCAGCAGGGTAGGGTTGGCGGCTACGCCGCCCTCGGTCCGCGGGGAACCACG
CGGGCTTCCGGGTCACGCCGCCGCGTTCCGACCGCCCTCGGGGAGAGGGGAGGAGCCTCCAGCGCCGGGCGGGGCGTGGTTAAGGCCGGTGGGCCCCACC
GCAGCCAGACGCTGCCCGTTTAAGCGCAGAGGGCCGCGGGTCACGTGGTGGGCGGGGTGGGGGCGTGGCACCAGGAAGCGGCGTCCGCGCCGGGCCCAGA
GCCGCAGCCGCAGCCGCCGCTACAGTCCGGGCCGGGCTCCACCGCGCATCCTGCTCCACTCTGGCGACCGCCCCCGGGGCCCCCGCCGCGGGCGCGGCGC
CCGCCATGGGCGAGGAGGACTACTATCTGGAGCTGTGCGAGCGGCCGGTGCAGTTCGAGAAGGCGAACCCTGTCAACTGCGTCTTCTTCGATGAGGCCAA
CAAGCAGGTCCGGCGCGCCCGCGCTTCCTCCCCCGCGCGGCCCTGCCGGGGTCGTGGGCGYGCCAAGGCCGGTCCCGCGCGACCAGGCCCGAGCGTCCCC
TCCTGTCCTGTCCCGTCCCGTCCCAGCGCGGGAGGCGGCGCGCGCTCCTTCCTTGTTGGGTGGGCTCAGCCGCGGCCAGGTGTCCTCGCAGGTGACCTCG
GGGCTGGACCCCCGAGCCAGCTGCGCGGATGCAGTGGCCCCGTGGCCAGTGTCTCAATTGTTGGCGCGCCCGTCTTATCTAGGCTTCTTTTGTTGTGTTT
GTCATTAGTTACACTCGTAGTCAAGGGTTTAGACGTCGAGATTTTCATTTTCCTTGAAATTTTGTAAAGGGGGAAAAGACTGTACTTCAGGCGTATCAGC
GGCGCCGATGCGCGAACCGGYGTTAGAACTTGGAGCCTCGGGAACCCGACCCGGTGTCACGGTGGCATCCTTTTCGCTCTCTGCTCTTGGTTTTTAAAAT
TCACCTGAGCAGCCAAACATCTGTACCTTGATATGTGCCGTGTTACTTTAGTTGAACCCAGGGTGGTGTATAACAGAAATAATCGCTTGCGGGTTGGCTT
CTGAGTTTAGATCCTTTCAGAGTTCAGGCTGTTAACCTTGCTGCTTTTCCCTCTCAGGTTTTTGCTGTTCGATCTGGTGGAGCTACTGGCGTGGTAGTTA
AAGGCCCAGATGATAGGAATCCCATCTCATTTAGGTAATGGTATAGACACTTTCAGATCATTTTGTCATGTAAACAGAATGATGTTTTTCTAATTCAAAT
GGTTTTTTATAATTTTGTCATTTGGTCTGCCCTAAGAGGCCTGAAGTCTGTGTGCGCACATGGAATTCCTGTCTGTAGGGAGGGTCTTCGTGGCACTTAC
TAGCACCTCTTGTCAGAGTGGAATATCTGGAGCAGTTGATTTGGGAGCCAAATACTTCAAAAGTGGGGCAGCCACTTCCTAGCACTGGAAATTAACAAGT
CAGCGTGATGATGTGCCCATTTCTGGTTTGTTCACAGAGGAGGGCGTTCATTTCTTTAGCCCAGGTCTTTCCAGAGTGGCAGGTGGAGGAGATTCATTGT
TTCTCATGTAATAATACAAGAAAATCATGGCTTCCACTATACTTAAGGTGACTGCATAGTCCCAGTTCGCACTGTTGAACAGGTTTAATGATCAACAGCA
GGGCCTTTCACTTTCAGAAGTGTCTCGATTTGGATGATAAGCTATCTGGCCACYGTAACACTGGTGCTTACAGAAGGTGAAAGTATAATGTAGGCCCTCA
ATTCAGTAGTGACTTAAAAAATTTTACTGTTGGTCTGTGTTAATGAGAAACTGTCCTTTTTTGAGAGGGAGCCTCCCTCTGTTCCCCAGGGTGGAGTGCA
GTGGTGCRATCTTGGCTGACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCTTCAGCTTCCCAAGTAGCTGGGATTAGAGGCGCCCACCACCA
CGCCCGGCTAATTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTGGCCAGGCTGGTTTCGAACTCCTGACCTCAAAACGATCCGCCCGCCTC
AGACTCCCACAGTGCTAGGATTACAGGCATGAGCCGCTGCACCCGGCCTGAGCAAGGTTTTAAAGTATGGATGGGGTKCGAGCATGGTGTTTTGGGGAAC
TCTGGGTCTGTGTAACTGAAGGTTACATAGGGTGTCTCCACAGGGAAGGGGAAATGGTGGTGGTGTGGCCACTGGCAGGGGCCAGCTTGAACCTTACATA
TTCTCCTATGAAATTAGAGCTTTATCTTCTTATTGAAACTTATCAGGTGGGGTGTGGGATGATCATGTCAGTGTTTGGCAAGATCATGCTGTTCACAGCA
CGGAGGCTGGCTTAGTTGGGAGCCTGTCAGAGTTAGGGATGCTATGGAGAGTAGCAATCAGCGAGCCATGTGTGGTGAAGAGCAGCGCTCTGGTGGTGTA
GAGTGGCATTGCATAGGCAATCAAGGGATACTTAGGAAGATGGGTCTCTCGTAAGACCCGGGGGTCGGTTGGGTGTGGAAAACGAGTGAGCCCGTGATAA
TCTAGATTGGGGGCTCTAAGAAGTTTGTGGGTGGGGGGAAGGTACTGAATTTAACTTAAAAAGAGTTTTTAGACTGGGCRCGGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACTTGAGATCAGGAGTTCGAGACCAGCCTGGCCAGCATGGTGAAACCCTGTCTCTACTAAAAATACA
AAAATTAGCCAGGTGTGGTGGCACGTGCCTGTAATCCCAGCTACTCGGAACGCTGAGGCAGGAGAATCACGTGAACCCGAGAGGCAGAGGTTGCAGTGAG
CCGAGATCATGCCACTGCACTGTAGCCTGGGCAACAGAGCAAGACTCYGTCTCAAAAAAAAAAAAAAAAAGATTTTTAAAAGCAGCTTTATTGAGGCATA
GTTGACACATAATAAACTGTACACACTTAATATTATGCMATATGTGAGTTTTGACATGTATACACCCATGAAACCATCACCACAATCAAGGCAATGAACA
TGTTCAGACCCCGAAAAGTTTCCTTGGGCCCTTCTGTAATCCATCCCTTGAGTTTTTTTTTTTTAAATGAATTTTTAATTTAAAAAATGTATGTATTGGA
ATAGAGACRGGGTCTCACTGTGTTGCTGAGGCTGGTCTCGAATTCCTGTGATCCTCCTGCTTCATCCTCTCACAGTGCTGGGATTACAGGTGTAGGCCGC
TGTGCCCAGCTGAGTTCACTTTTTAACATCTGTCTGAGGCGGTCATGAGACACTGTAGTGGAGCCATCTGGGTTGCATAATGAATGTGCTGTGAGATGCA
CAAGTAGATAGTTCTTTCCAGAAGCTTTGCTGTGAGAGAGAAACAGCAGTTACGGAGAAGGCTCCTGAGCGGGTCTATAGTTATTTATGTTGGAACAATT
CTCAGGTGATATGTGTGTGTGATCTGAATTCTTCAATCACTTGTTACCCATAATACTGTAAGTTTCCCAGCAAGTTCTTTCCAGTTGGATTTGGTAGTTT
GAAAAGAGGTCCTACTGATGGCTTCCGAAACATAATTTTAATTTTAGACTAGAATTTGCTGCCTCCTGAATATAGATTGTGTCTTTTGCCTTTTCAATAA
ATGGTAGTAGCTAGAATTCGGTTATTTAACTACTAACACAATCTTTCTTCTTAAAGAATGGATGACAAAGGAGAAGTGAAGTGCATTAAGTTTTCCTTAG
AAAATAAGATATTGGCTGTTCAGAGGACCTCAAAGACTGTGGTAAGACTTATCTTTAAAATACAGCATTAAAGGGCATTAGAAATACATTTGGAAGAGAA
GGAATCGCAAATTTTCAGTGTTAAAGGAAACTTTTATTATCTTACTGTTGTGAAAGGTATAGTTATGTTGCATTGTATTAGAGCCTTCAAAAACGAAAAA
GACATTTGAGTGGGTTAAAAAAATGACCTTAGTTTGATTTTTAAATTAAATTAAAAATTTTTTTTTGAGCCAGTCTTCCTTTGTTGCCCAGGCTGGAGTG
CAGTGATGTGATCTCGGCTCACTGCAGCCTCGATCTCTCAGGCTCAAGTGATTCTCTCGCCTCAGTCTCCCTTAAAAATTGTTAAAAAATAATTTGGAAC
TTCRTGTGTCTTTTGTATTGCTTGATAGCAGCATAGAATATGTGAGGTATTTTTGGCTACTTTGTGAATTAGCCTTTTCATCTCTCATTTCTGAGTGCTA
GATCTGATAGGAGCAGATATTCCAAGTTGAAGCAGCCTACAGGCACTTTAGCCYGTGTAAATGTTCACCATTGCCGTTTGTAGAGTAGAGGGAAGGCTGT
TAGAAACAGGCAGAATCCTCTGTTAGTTTCTTCCATCAGTTTTAAGTGTTAAAGTCTTGGGGAAGCCTCTTAGTGCAGCAACACATTTCTCTGACATCAG
CTGCTTGAGGAATGAATTTTTGAAAGGAGTTACTAAACTGTAACTGAATATTTGTATTAACTTAAAAAAAAWTGAATCGTAAGCCTGCTGCTGTTGAGAC
AGATGATCCGAATTGGTCTTTTTATCTTTCCTGTGTTTTGGTTGTCTTCAGTTATTTTCTGGTCAYTTTTTAAGTTAATATTTATTTTTCTTGTCTTGTA
GTATGCCAACGTAGGTTGGCAGTATGCTGCCTAATCCAAATTTGTGTGTGTCTGTGTGTTTTTCCTTTCAGGATTTTTGTAATTTTATCCCTGATAATTC
CCAGCTGGAATACACACAGGAGTGCAAGGTATGACCCCAGGCCCTTTCTCAGCTGCTGGTGTCAGTGGTGTTGAGCTGGGTTATGTAGTGGAGAGCGGGG
CATYGGGGTCGCAGGGAGCACAGACTTGAAGTCAGACTGTCCCTCATGTTGATTCCCAAACTGGAGTCAGGCGGGGTGTTTGCTTTGTGACACTGAACAG
TTTTCTAAGTTTGAAAGCTTGTTCCTTTGGAGGGGGAGGGTTCAATGGATGATGCGTGGTGAACACCCAGTAGTGCTAGCCCTTGGGGCTGTCGTCTGTC
TTGCCCTTTTTCTCCTCACTGGGCTGACAGCACATCTGGGTCTGGGCCCTGGGATGCCTCACAGCCACCTGGAGTGGAGGTTTCTGGTGAGGAGTTTCTT
TTTCTGTTTCCTGAAGTTTCCTTTCCTCAATTTGTTGTCTTTGTCTTGTCCTTACTCTTTCTTTCTTCTCCTAGGTGTTGATTCTAATCCACATTAATGA
GATTTGCTGGGTGTAGTAAACTAGGCTAGAGGGAGCTGAGCTAAAATTGGCAGTGTGGCACCTTGGGCGCTGACAGAAGCTGCTAGTGGTTGGGGTAGGG
CTTTCTGCATTTTTGTGACTGTTTTGCTCAATGGAGTTCAGGGCGGACTCTTTGGTGAGGAGAGGTGCATCCCCACCACTGTCCTGCCTGCCCTGCAGTG
GCCCCGTGTGAAGAGACCCTCAGCCCGGCCCTTCTCAAACCTGTCTGCCCTCAAGCGAGTCGGGTGTGTGTCTCAGGGTCCTCAACCCATTTTAGTCAAC
ACTCACTAAAGACCCTTAGGCCTTTGTACATTTTTAATAACCATTTTTATAACGTGGGTGACTAAGAATGTTGGCAGTATGGTGATTCCTGCAGGTAGAA
GCTGCTGTCTGTGAGCTCTGGTCAGTTACTTTTCTACAAAACACAGACTTCTCCTGTTCTGTTTAGTAGAAGGAATTAGGATTCAGGTTCTTGAATGAAG
AGTTATGGGCAAAAATCAGGGAACATTGTATTTAAAAGAAAATTTGTTTTGTTAATTAGTAAACATTCCGGGGAACGTTCATTAAAGAATGACAAACYGC
AGAGTTTGTGAAGCTTTTGAAGAGAGTTATATGTGTTTTTTCTTATTAATTAAAAATATTTTTAAAAAATTTTTCTTAGACTAAGAATGCCAACATTCTA
GGATTCTGCTGGACTAGTTCAACTGAAATTGTCTTCATAACAGATCAAGGAATCGAATTTTACCAGGTATTATGTTTATCATTTATGTTTGTTGGTTAAA
GTTCAGTGATAGCATTCTGGCAGCCTTTTGAATTCAGTACTGAATATATATATATATATTTTAAACATTTTCTAGAGATGGAGTCTTGCTCTGTTGCCCA
GGCTGCAGTGCAGTGGCACCATCATGGCTCACTGTAATCTCAAACTCCTGGGCTCAAGCAATCCTCCTGCCTCAGTCTCCTGAGTAGGTGGGACTACAGG
CATGTACCACCATGCCTGGCTAATTTTTCTTTTTATTATTTTATTTTATTTTATTTTATTTTTGAGACGGAGTTTCGCTCTTGTTGCCCAGGCTGGTGGA
GTGCAATGGCGCGATCTCGGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGTCTCAGCCTCGTGAGTAGATGGGATTACAGGCATGCAT
CACCATGCCCGGGTAATTTTGTATTTTTAGTAGAGACGGGATTTCTCCATGTTGAGACTGGTCTCGAACTCCCGACCTCAGGTGATCCACCCGCCTCGGC
CTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCCTGGCTAATTTTTAAACTTTTTTGTAGAGACGAAGTCTTGCTATGTTGCCCAGGC
TGGTGTCAAACTCCTAACCTCAACTCCTGCCTTGGCCACTCAGCTTTAGTCTCTTGCTGGGGATTTTATTCTTTTTTTTTTTTTTTATAATTGCAAGTAA
TAAATTAAAAAAAAAAAAAAGAAAAGAAAAAGGGCTTGGTGGCCCRTGCCTGTAATTCCAGCTCTTTGGAAGGCCAAGGTGGGTGGATGGCTTGAGTCCA
GGAGTCTGAGACCAGCCAGGCCAACATGATGAAATCCCATCTCTATAAAAAATACAAAATGTTAGTCAGGCATGGTGGTGTGCGCCTGTAGTCCCAGCTA
CTTGGGAGGCTGAAGTGGGAGGATTGCTTGAGCCTGGGAGGCAGGAGGTTGCAGTGAGCCAAGATCACAGCACTGCACTCCAGCCTGGATGACAGTGAGA
CCCCATCTCAAAAAAAAAAACAAAAACACAACAACATTAAAAAGTGGGCAAAGGCCAGGTACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGACC
GAGGTGGGCAGATCACCTGAGGTCAGGAGTTCGAGACCAGCATGGCCAACATGACGAAACCCTGTCTCTATTAAAAATACAAAAATTAGCCAGGTTGGTG
GCAGGCACCTGTAATCCCAGCTACTAGGGAGGCTGAGGCCAGGGAATTGCTTGAACCTGGAAGGCGGAGCTTGTAGTGAGCTGAGATGGTGCCACTGCAC
TCCAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAGTGGGCAAAGGACATGAGCAGACACTTTTTAAAAGAAGACACACATGCGACCAAC
AAACATAAAAGAGCTCAACATCACTGATCATTAGAGAAATGCAAATCAAAACCACAATGAGAAACTATCTCACACTAGTCAGCATAGCCATTATAAAAAA
GTCAAAGAATAACAGATACTGGCAAGGTTGTGGAGAAAAGGGAACCCTTATGCACTATTGCTGGGAGTGTAAATTAGTTCAACCTTTGTGGAAAACAGTA
TGGCGATTCCTCAGAGAGCTAAAAGCAGAACTACTGTTTGACCTAGCAGCCCCATTACTGGGTGTAATATGCAGAGGAATATAAATTATTCTACCATAAA
GGCACATGCACGTGAATGTTCATTGCAGCACTGTTCACAATGGCAAAGACATGGAATCATCCTAAATGCCCATCAGTGACAGATTGGATAAAGAAAATGT
GGTACATATATACCATGGAATACTATGCAGCCATAAAAATGAAYAAGATCATGTCTTTTGTGGGAACATGGATGGAGCTGGAGGCCATCATCCTTAGCAA
ACTAACACAGGAACAGAAAACCAAATACCACATGTTCTCACTTCTAAGTGGGAGCTAAATGTAAGTTATGAATGCAAAGAAGGAAACAACAGACACGGGG
GGCTACTTGAGCAGGGGAGGGTGGGAGGAGGGAGAGGAGCAGAAAAGATAACTATTGGGTACTGGACTTAATACCTGGGTGATGAAATAATCTGTACCAC
AAACCCCGTGACATGAGTTTACGTATGTAACAAACCTTCACATCTATCCCTGAACCTAAAAGTTAAAACAAAAAACATTCAAACATTGCAAGATATGTAA
TATGGAAAGCAAATGTTCCCTATAATCCCGATAAATAATTATTATGAACAGTTTGGTGCATATTCCTCTATTTTTAAAAATAAATACAAACTTCTTTTTA
ACAAAAAGGGGAATGTTGTATATAAACTTTTGCAGCTAGCTTTTTTTTTTTTTGTCCAAAGTGTATCTTGGACATCTTTCTATATTTTATTCTGACTGGG
TAGTATYCCACTGTATGGATGGACTGCAGTTTAAAAATTTTCTTGTTATKGGACATTGGCTGGTTTTCCATTTTTTTGTGATTACAAATAACCCTTCAGT
AACATGCTTGTACACACTTCTTTATATTAGAGGGAGAGTTGCAGTATAGGTACGAACATCTGAAAAGCTGAACCAGTATCGCCAAATTTCTTCTAGACAT
GTGTATTTTCACTAGCAATATAGGAACTTCTGCTTTTCATACCTTTAGGAGGACTGGATATTATCAGTCTATAGACATTTGCCAACCTGAGAGGTAGAAA
GACTTTTTTTTTTTTTTTTTTTTCTGAGACAGAGTCTCACTCCGTCGCCCAGGCTGGAGTGCAATGGTGCGATCTCGGCTCACGGCAACCTCCACCTCCT
GGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGTCTACAGGCGCCCAGCACCACGCCTGGCTAATTTTTGTATTTTTAGAAGAGGTGGGG
TTTCACCATGTTGGCCAGGCTGGTCTTGAACCCCTGGCCTCAAATAATCCACCTATCTCGGCCCCCTAAAGTGCTGGGATTACAGGCGTGAGCCACCATG
CCTGGCCGAAAGACATTTTAATTTGCATTTTACATTACTAGGGAAGTAAGCATCTTTTCATTTGTATATTGTCCATTTGTATTTTGTTAACTTCCTCTTA
AAATTTTTTTATTTTGTAATAATTATTTTGAGACAGGATCTCTGTCACCCAGGCTGGAGTACAGTGGCACAATCACGGCTCACTGCAGCCTCGACCTCCT
AGCCTCACGTAGTCCTCCCACCTCAGCTTCCTGAGTAGCTGGAACTACAGGTGTGTGCCAGCACGCCCAACTTAATTTTTTTTTCCTTTTTTTTTTTTTG
TAGAGATGAGGTCTTGCTGTGTTGCCTAGACTGGTCTTGAACTCCTAGGTTCAAGCCATTCTTCTGCCTTGGCCTCCCAGAGTGCTGGGATTTATGGGCA
TGAGCCACTGTGTGTGGTCAAAAATATTTTTTTTACTGTGGTAAAAAAACATACAACATTTATTATCTTAACTGTTTTTAAGTGTTCAGTTCAGTAGTGT
TAAGTATATTCATTCACATTGTTATGAAATAGCTCCAGAACTTTTTTCATCTTGTGAAACCAAAACTATCCAGTAAACAACTCCCCTTATCCCTTCCCTG
CAGCCCCAGCAATCTCTATTTTACTTTCTGTTTCTATGAATTTGACTCCTTTTTTTTTAAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGG
CGTGATCTCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAGGCGATTCTCCTGTCTCAGCTTCCTGAATAGCTGGGATTACAGGTGTGCGCCACCACGCC
TGGCTAATTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTGGCCAAGCTGGTCTTGAACTCCTGACTTCAGGTGATCCACTCACCTCAGCCTCCC
AAAGTGCTGGGATTACAGGCGTGAGCCACTGTGTCCGGCCGAATTTGATTACCTTTTATACTTCATATAAGTGAAATTATACAGTATTTGTCCCTTTGTG
ACTGGCTTATTTCATCTACCATAATTTCCTACAGGTTCCCCCATGCCATAGCATGTGATAGGGTTTCCTTTTTAAGACTGATAATACCGCACTGAGCGTA
TACACCACATTTTGCTTATCCATTCATCTGTTGAGGGACATTTGGGTTGCTTCTGCCTCTTGGCCATTGTGAATAGTGCTGCTGTCAATACAGGTATGCA
GATACCGCTTCAAGATCCCGTTTTCAGTTCTTTTAGATTTATACCCAGAGTGAGATTGCTGGAGCAGATGGTAGTTCTGTTTCTGAATATTTTAGGGAAC
CGCTATACTGTTTTCCATAGCAGTTACACCATTTTGCAATCCCTCCAAGTGTACAAGGGTCCCAGTTTCTCCATATCCTCACCAACACTTGCTGTTTTGT
TTTGTTTTGTTTTTGATACTAGCCATCTTAATTGTGGTTTTGATTTGCGCTCTTTGTTGATTAGTGATGTTGAGCACTTTTGTGTGTGTGTTTTGGCCAC
TTTGTGTATCATCTTTGGAGAAATGACTAATTCGGGTCATTGTGCCTATTTTTAAAATCAAATTACTATTATTTGTTGAATTGTAGTTCTTTATATATTC
TGATATTARCACCTTCTTAGAGATACAATTTGCAAGTATTTTCTCCGAATCCGGAGGTTGCCTTTCCACTCTGTGGATTGTGTCCTTTGATGTACCTGCC
TGTTTCTTTTCATCTGTTCCAGCTTCCTGACCTATTAAGCATGCTTCTGAGATCTCTAAGGGGAACTAATTTAGAGGGTGTTAAGAGTTCTTTCAGGTTT
TAATTTTGTTGACCTAATGAAAGTCATATAATTTAGAATGTATGGTTAGAGAAAATACACCTGTGTGTTAATGCCATGGTGCTTTGCTGTAAGGCCATCA
TCGAAATCTTAGTAATGACTGGCTGGGCAYGGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGTGGGCGATCATCTGAGGTCAGGAGTTCG
AGACCAGCCTGGCCGCCATGGCGAAACCCCGTCTCTATTAAACTCCATCTTTACTAAGTGCCGTCTCTACTGTCTCAAAATAAAAATACAAAAATTAGCT
GGGTGTGGTGGTGGGCGCCTATAATCCCAGTTACTTGGGAGGCTGAGGCAGAAGAATCCCTTGAACGTGGGAGGTGGAGGTTGCGGTGAGCCGAGATTGT
GCCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCGTCTCAAAAAAAAAAAAAATTTGTAATGACCAATAGGAGAACTTTAAACAAACTTTAGACA
AATTCCATACACACAGAAATAGAATTTTGTACATGTGATTGCATGGGAAGGATGGCTTGCTTTCTGGGGGAGTTCCCTATGGTAATCATTTAAAAGTCTG
TCTTTCTGTTCTCTGCAGTGGGAAAGTATACCTTAAGGTTACCTAGATGGCTTCAGATCTTCAAGAAAAAAGTTAAAAAGAAAGAAGACTCTAGCACATC
CTAATTATTATAGTTCTTAAGAAGCTTACGGCTCCTGCCCCTGACTTGCGCAGCAGTTCTTCAGTGCAGTGTACCATGAGCATTAATGTCTTGGGGGCTC
TGTACAGTGTTCTGTAATATCGGAATATTTAGGGTACATTGAAAATGTGCCTGGATTATAAAGTACTGCATTTGTATGGAGTCTTATGAACACATCTGCT
AGAAGAAGGGAGCTCCTCCCAGGCCCAGTGTAGACTGGAGTCGAGGTGGAGGCCAAGCAGAAGGCAGATCTGCCATGGTCTGGGAGGTGGCCGAGTTAAC
ACATGGGGTCCTGGAGGTGTCAGTTTCTTTTGGCCGTTTCCTGGATGAGGAGAAATTTGTTGTAAATTGCTCTTAGGTGTATCCATGTGCTCCACATGCC
CAGGCATGTGGAGGCACAGATAAGGATTTTGGAGGGAAACAGCCTACCCAGGCTATAATTGCTTTGTTAAGGGGCAGGTTCCCTAATCCACTCTTGGAGC
CTTGTTTCTCATCTGGCTAATAGGGCCAGTGATGCCTGCCTCTCAGTCGTGGCAAAGAGTAAATGAGTTAGGAGGCTCTGTAAAGCACCAAGCATAGGGC
TGGTTAAGTAGTAGCTGTAATAAGTACAAGTGAGAATGTTCATTTCACTTAGTGGGTTTCTTCTGCTTTTTATTCTCAGAGCGCACTGTAAGGATCTTCT
GACAGTTTGCTGTTATTGATTTATTTATTAATTGAGACTGAATCTCGCTCTGTCACTCACGCTGGAGTGTGATGGTGCAATCTTGACTCACTGCAACCTC
TGCCTCCTGGGTTCATTCAAGCAATTCTTGTGCCTCAGCCTTCTGAGTAGCTGGAATTACAGGCATGTGCCACCACGCCTGGCTAATTTTTGTATTTTTA
GTAGAGATGGGGTTTTACCATTTTGTCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCACCTTAGCCTCCCAAAGTGCTGGGATTAGTTTGC
CGTTTTTTAAATGAAGATCCTGTTTCTTAAACTCTGCTTCAGGTATTACCAGAGAAACGGAGTCTGAAACTCTTGAAGAGCCACAATCTCAATGTGAATT
GGTACATGTACTGCCCCGAGAGCGCCGTGATCTTGCTGTCTACCACRGTCCTGGAGAATGTCCTGCAGCCTTTTCACTTTAGGGTAAGAGGAAGCCTCCC
CTGAAAAAAACACCTTTCCCCAGTTGTCCCCTGTTCCTGTAGCATCCTAATGTGTCAGGCACGTTAGGGACAGGTTCCTCTAGCCGTAACGTCACCGCTC
TGACCACTAGAGGGCACTCTGTATACCCGTCAGCTCCTGGAGCCATTCATTCTATGCTGGGCAGACAGGCTGTGAGAGGACATGGGGGACGGTGGAAAGG
ATCCAAAGACGAAGTCTGTGTTTATCCTTGTTGGTTTTACACAGGGAATGATGAAACATTGAAGGGGTTTAATAAGCTTTTCCTAAAACATTTTCCCCCT
AAACAGGCTGGCACTATGTCGAAGCTGCCCAAATTTGAGATTGAATTACCAGCTGCGCCTAAGTCAACTAAACCCAGCCTTTCCGAAAGAGACATCGCAA
TGGCTACCATGTATGTCCGTGTCAGAGAGAATTCCATCCTGTGATTGCTTTCAGTAATATAAATAATAGAAGGAGTGTGTTACAAGCACCACGTGATGCC
CTGACCCCTAGAACACATAAGGAGGACTCCCCTTGTTCTGGGTATTCAGTGTATAGGTCCTGTGAACATAGAAAACCTGCAGTGTTTTTGGCATTCCTTT
TTGATTTTTATCAGCTTTGTGATGCTAAGGAATTCCTTTACCTTTCTAGCCTGATAAAACAAGAACATTGAACCAATTTATTTCTTAGTATCTTTGTTTT
AGAATTTCTTCTTCTTTTTTTTTTTTTTTCGAGACAGAGTCTTGTTCTGTCCCCTAGGCTGGAGTGCAGTGGTGCAGTGTCGGCTCACTGCAGCCTCCAC
CTCCCAGGCTCAAACGATTCTTCTGCTTCAGCCTCCCAAGTAGCTGGGATTACAAGTGTGCGTCACCTCGCCCGGCTAGTCTTTGTATTTTTGGTAGAGA
CAGGGCTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCTGCCTTGGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCA
CTGTGCCTGGCCAAGTTTATTTTTTTTAAAAGCTCAGTTAAATAATAATTGTTCTAAATAAGAAAATAGATTAAGATTTTATGTAACAGACATGGAACTA
AATTACGTATATATAGAGGTATATTTTCTTTTACTTTTTTTTTTTGTTTGTTTTTGTGATGGAGTCTTGCTCTGTTGCCAGGCTGGAGTACAGTGGCACG
ATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCGTGCCACCATGCCCAAC
TAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGGTGGTCTCGGTCTCTTGACCTCTTGATCTGCCCTCCTCAGCCTCCCAAAGTG
TTGGGATTACAGGCGTGAGCCACCACGCCTGGCAGTACGGAGGTATATTTTCATTTGAAAAAGTGGATATCTCAGTTTTTAARTTTGTAATGAAAATTTT
AAACACACAATAGAGACTAATAAAAAAGAACCCCTGTATGCCTGTATCTGATTCGACAATAGTCAAAATTTTGCTTCTAAGTTACTTCTGATTCTTCTGT
GGCCTAAAACAGTGGCCCAAACTTTCAAACTTTATGGTAGTTAGTATAATGTTCTTTCATTTCTTCTTCCTTTTTTTTTAAACRTACTCTTCTGTGGCAT
TCCTGTTTATTTTTAAATTTTTTTTGGAGAGTGTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGTTACAATCTCAGCTCACCACAACCTCCGCCTTCTAGG
TTCAAGTGATTTTCCTGCCACAGTCTCCCAAGTAGCTGGGACTACAGGCGCATGCCACCACATCTGGATAATTTTTGTATTTTCTGAAGAGATGGAGTTT
CACCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCGGGTGATCCTCCCGCCTCATCCTCCCAAAGTGCTGGGTTTATAGGCATGAGCCGCCGTGCCC
AGCCAGCATTCCTGTTTAGACAATAGATAAAGTGAGAGCAGTCCTGGCTGAAGTGGAGGTGGGGACCTGTTCCCTCCCACCTTGGTCTCCTCCTTGTCCC
TGGGCAGGCCCAGCACAGAGTTTACCACTGGACTAGAATATGCATTCAGGAACTGTTCACAGCAACATTTATTAGATGGCACTTAAATAGAAAAGGCTGA
GCATGGTGGCACACACCTGTAATACCAGTGACTGGGGAGGCCAAGGCAGGGGGATCGCCTTGAGGCCAGGAGTTCAAGACCAGCCCGGGCAACATAGTGA
GACCCTGTTTCTACAAAAAAATTTAAAAATTAGCCAGGCACGGTGGCACGTGCATGTAGTCCTAGCTACTGGGGAGGCTGAGGTGAGGGAAGATCGCCAA
AGCCTAGGAGGTGGAGGTTGCAGTGAGCTGTGGTTGCACCACTGCATTCCAGCCTGGGTGACAGAGGGAGACCCTGTCTCTGAAAAATGAAAAAAAAAAA
TAGTGATTATATTTTCCTGTTATTAAGGAATATACATTCATTATACAAAACTTGGAAAACAGAGAAGAAAATGAACTTAGCATATCACTCAAGTATAACT
ATTACATGTGTTTCTTTCCAATCATTTTAGACTCTATGCTTAGGTTTGGGGTTTTCTTTTAAAATATTATGATCAAGCTGTGTTTAGTGTGTGTTCTCTT
TTCCACTTAACTTTATAATAGGCTTTGAGTAACTGCATGTTTCTTTGTAAACACTTGTTGGCAGCAAAATACTCCATTAAGTGAATATCTTATAATTTAC
TTAACCGTGATGCCATTTAGAACAAAGGAATTTTGAATGGCCAGATGTGATTTATGTCTGTTTGTTCCCTAATTAGATACGGGCAGCTGTATGTTCTCTT
CTTGAGGCATCATTCTCGGACCTCCAACAGCACAGGAGCGGAGGTGGTCCTCTATCATCTACCACGGTAGATTTCATGCTTTGTTTTCCCTCTCTCTCTG
ATTTTAAAATGTGAACTGYAGCTTGTTGATCTGTTTTTTGCTTTCTATCCTACAGAGAAGGTGCCTGTAAAAAGATGCACATATTGAAGTTAAATAGGAC
GGGAAAGTTTGCCCTGAACGTGGTGGACAACCTGGTAGTCGTGCATCATCAGGATACAGAGGTACAAGCTGTCTGCGTTTCTACCAAAGTTAAGGTTGCT
TAAAAGCCTTGTGAAAATTGGTGGCTGGGCACGGTGGATCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGACAGATTGCTTGAGCCCAGGAGT
TCGAGACCAGCCTGAGCAGCATGGCAAAACCCCACCTATATAAAAAATACAAAAATTAGCCGGGCGTGGTAGTGCACGCCTATAGTCCCAGCTACTTGTG
GGGCTAAGGCTGGAGGATGGCTTGAGCCCAGGAGGTCGGGGCTTCAGTGAGTGGAGATCGCGCCACTGCACTCCAGCCTGGGTGATGGAGCAAGATCCTG
TCTCCGAAAAAAAAAAAAAATTGGCAAAATGTCTGAATAAGACTAGAAAGTGCATTTTTATGCTAAGAGTTTTGGTCTTCCAGATGGAAATGGGTTTGGT
AGTCTYAAGTAGTTTAGAAAAAAGTGATTGTGTCAGTTGATTAAAGATAATTCAAAACTATTTCAGAAACTAACGCTTGAGATTTGACCTTGGAAGAAGG
TGGGAATCCGCTCCATTCCACGAGTACTTGAACTCTSTGTTGCAATTGTGAGCATGGATGACAGTGCTGGGGGATAATGGTTTTGAGGCCGTGTGGACCA
GGACAACTAGAATGGGTCCTGTGGGCTGGGCCTCTGATATAAAGAAGCTGCTTMCCTCCTCTACCCTCCCAGAGGGTGGTGACGCTAACTCTGTGACACG
TGAGGATGTTTCCAGTTGAAATGACAGAGATCTGCTTAGGTCACTTTGAGTGAGCTCATCAAAGGAAGCATGTCATAAATGCAGGAAATACTTGTGAGAG
GAGATAAAAATATTAAAAGAGAGTTGTGATGTTAATSACAAATTCCTTCTCAAGTAAGAGCTAGCCTGTAGGGWGGAAATGCAAACACAGGCTTTTAAAC
TGATTTAAACAGCAAGATGGGATGGAATGAAAGCAACTGGGCAAACCATGATTGATTTTGGCCTCAGTCTTGTCTTTTTCCCCCCCAGACATCGGTAATA
TTCGATATCAAGTTACGGGGAGAGTTTGACGGCTCCGTTACCTTCCACCACCCCGTGCTTCCYGCTCGATCGATCCAGCCCTATCAGATCCCCATCACAG
GTAACACGGGTTCTGTAGAGGAGTCTGTGCTGCCCTTTCACCATGTGGCTGTGTTCTCACCATGATCTTTGGGAGTCACGTTAAAAGTGGAGTGAGGAAT
AAACAGAGATTCCCAGATCTGTCTGATTTTGCCAGGGGCCATTTGTTCCAGTTTTGTTGTTGTTTTGAGACAGTCTCACTGAGTCACCCAGGCTGGTAGG
TAGTGTCGTGATCTTGGCTCACTACARTCTCCACCTCCTGGGTTCAAGTGATTATCCTGCCTCAGCCTCCCAAGTAGTGGGGATTACAGGTGTGTGCCAC
CGTGCCCAGCTAATTTTTATATTTTTTTAAATTTATTTTTTTGACAGAGCCTCACTTTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTG
CAACCTCCACCTGTCTGTCACAAGGTTCAAGCTTGTGAGGTATTCAAGCAATTGAACCAAGTATTCAATCGCTTAAATACTTGTGAGAGGAGATAAGGTT
CAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGTGCACCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTT
CACCATGTTGGCCAGGCTGGTCTTGAACTTCTGGCCTCAAGTGATCTGCCCACCTTGGCCTCTCAAAGTGGTGGGATTACAGGCATGAGCCACCACGCCT
GGCCCAAATTTTTATATTTTTGGTAGAGATGGGATTTCACCATGTTGGCCAGACTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGCTCTCC
CAAAGTGCTAGGATTACAAGTGTGAGCCACCATGCCCAGCCTGTTCTAGTTTTTTAAAAAATGCAACTACTACTGATCCTATAAGCTAAAATTATGTTGT
GAAAAAAGCATTTTCTAAGATAGATGAATCTCCCTTGGGAGGAAATAGAATAATTTATCTTCCCTGAGCTTTAGAATGGATAGTTTTGATTAGCCGTTGA
TGGTGAAATATGTTTTAATATTGAATACACCCGTAACGTTTTCTGTTTGCCTTAGCTCTGTAAYGCTGAAATTAACTTTGGCTGTAGGTTTGTTACTGTA
ACCTGGGATCACTTTTCTCTTTCTCACATTCCGTGTGACAGTGATGATGAATATTGCATTCTTTGGGACTGACAGTCAMAGTAAGTGCTTCGGCTGTGGC
TCTTAGGCTTACCCAAATCAGTCCTCCTTCTGTCTGGAGAGGTGGGGTTGGGAAGTCAGAAGAGTGGAGGTCAGGAATTCAGGAAAAGGGAAAGAAGTCA
TTTATTTGCTTCGTTTTGCCTTTTTCCAGTGTAATTGATTTTAAGATAGAACTGAAAGAATATTCAACACACACTCTCTCTCTTTTTTTTTTTTCCTTAA
ACAGAACTTTATTTTCTCACAGTTCTGGAGGCTAGAAGTTCAAGATCAAGATGTCTGCAGGTTTGCTTTCTTCTGAGGCCTCCCTCCTGGCAGGCCTCTT
TGCAGATGGCCACCTTCTCACTGTGTTCTCACAGGGTCTTTCTTCTGTGCCTGTCCCTCGCAGCAGTCTCTCCCGGCTCTCTTTTGAAGGAGATTGGAGT
GCAGAATTGGCTAGTCTGAGGTTTCAGTGTGCAAGACGTAGTCAGATGGCTCACATTTGGAACCCTRGTAGTAATGTTTTATTCTTTGTCCGATGGCATT
GGGCGGGTTGACCCAGCCTGCAGTCAGGATTTCCTTGTACCGTTCACCCGGGAGTTCAGAATCGCACTCTGGCTGAAAGTTCAGCAAGAGCACCATTGTC
AGCCTGACTGCCCTGTCTTGCTGGACCAGCCAAAAGCTTAGTTACTTTCTGGCACAGTTGGAGGAAGGAGCTGGTTCTTAACAGACGTTCAATTAGGTCT
TTTKGCTTTCTGTGTTCTTTCAAGCTTCTTCCTTTTCCTTTGTAAATAATGTTAGTATTGAAAGAATAGATTTTGCCAAGTGATTGTCTTGTGTCTGCTG
CCCACTTGGCATGAAGGTAACTGCTGGTGAATTGGGGGAAAAAAACTAAACATTTAGAACAAGCCTGTCCAACCCACGGTCTGTGGGCCACATGTGGCCC
AGGACAGCTTTGAATGCAGCCCAACACAAATTCTTAAACTTTCTTAAAACATTATGAGATTTTTTTAATGATATTTTTTAAGCTCATCAGCTATTGTTAG
TGTTAGTGTATTTTATGYGTGGCCCAAGACCATTCTTCTTCTTCCTCTTAAGGCCCAGGGAAGCCAAAACATTGGACACCCCTGGCTTAGAACCTTCAGC
TCTGTTCCGGTGGTACAGGACCAGTTAGGAGGCATCAGGTTCTAACCATCTGGTCATAAGGGAACAGATGCGAGGCCTGGTCACAGTAACAGCCCGTGCA
GAGATCAATAGGAGGAAATCAGGAATCCACTGAGGGTCTGGGGATCTAGGTAGTGTGGGCTGCAAAGCATTTTCAGAGGTTAGTGACTCTCCTTTTGTTT
CCTGCTGGGCTGTGAGCCCTGGCGGCTTGATGCATCCGTGTGTCTTGCCCACTGTGCTGCCACTGGGTGGGCGTGCTCAGGAATTGAATGGGCCTGTTGA
GAAAGATATAACCAGCACTTTTGGGAAGAGTCAGCCACCCTTTTTCTTTTTGTTTTGGGCCTGTTAGAACAGTGGGTCTCAATCTGACTACATATTAGGA
TCATCTGGGGGGCCTTAAAAATGAAAGCTCTCACCTGACAGTGTGTAGGTCAGCCACCCAAAGGTGAGGGCTRTGCACTCGGCGCAGACCTTGACACTTA
GGTCCAAAGCGCGAGTGCTCTTCGCCAAAGCTTGTCTGCCTGGGCTCTTTCCTACCTTTGGGTGGTCTGTTCACAATGACCCTTTCTCTGACCAGCTGAT
TGAAACCTGCCTTCTGATTGTACCTGGGTAATTGGAACAGAACCAGGAGTCATGGTTAGCTTGTAGGGCTGCCTGCATGGCTCATGAGCAGTATAACTGG
TTGTTAACGGTCCCTGTCATGTGAGGTTTTGGGGGTCTGCTTCCCAGACGAGCTCACTGTGCTTGGACCTACTCTATGCAATGGATAATCGAACTAATTA
TTTAGATAATTAAGTGGCTGGGCACAGTGGCTCATGCCTGTAATCGCAGCATGTTGGGAGGCTGAGGTGGGCAGATCACTTAAGCCCAGGAGTTGGAGAC
CAGCCTAGGTAACATAGACCTTGTCTTCACAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAAAAAGTTAGGGCATGGTCACATGCCTGTAGTCCTAGCTA
CTCTGAAGGCTGAGGCAGGAGGACCACTTGAGCCAAGGAGTTCGTGGTTATAGTGGGCTATGATCAACTACTGCACTCAAGCCTGGACAGCAGAGCAACA
CCCTCTCTTAAAGAAAAAAAAAGATAATTAAGCTACAAGCCACATTTATTTGAAACATTCTCCGTGGATGATCTGGGTATTTGATTTTGAATCCTTCAAG
TAAATTTCTCAGTTCCTTAACGTGCATATGTAAACGATCATGAGTCATCTTTGGTTATTAAAAATAACCCAAACCACAGTGATTGAAGCCTTGACATGCT
TTCTTTTTCTTGGTGAGATTTTCCTGGATTGTYAGCTCCTTCCCCCTTCCTCCCCGTACGTGCTTTCAGTGAGACGGAACAGTTCATTTCTTCCKTGACT
ACAATTGAATAAACATTTCGTAATGACATTAAAAAGTATTGACTTTTGTGTCATAAGTACCAGCATTTGCAGCATTTTCTGACTGCATCGTTGCACTTAT
GTTTTCTCAATTTGTAGGTCCTGCTGCCGTGACCAGCCAGTCTCCTGTTCCATGTAAACTCTGTATCCTTTACTRAGGTGTGGCACCGTGCACAACAGGG
CAAGTGGTCACCCTCAGAGAGTGGTCCTGAAGTCCTCCTCCGGGCAGCTGTGAATAAMACTCCGAGAGCCACCCCGCAGGCAGCTTCCCTGACTGTCCAG
GGGCCTYGCGTTTAGCGTGGACYCAGTACATGGTGGGCAGGGGCGAGTGCTAGCGGAAACTGGGTTTGCTTTTTGTTTYCATCTTTTCCTGGTTTAGAAT
TTCCTATAACATGTGGATTCTTCATCTTGGATTGTCTTTCAACCTGACATCATTATCAGCGCAAGCCAAGGTAGGTCAGCGGGGACAGTTGTCGTGTTAC
AACATGGTGCTTGTTGACTTTGGATCCCAGTTGTAGCCAGGGACGTTTTCAAGGTGAATCTCTTAGAAATGACCCCTCCTTTCAAGCGTGGGAATGGGAT
TTTTTTTTTTCACTTTATAMGTTTTTTACTATATGTGCATTTTATCAAGAACATATACTACTTTTAATAATTAAAGCAACAACTAAGAATGCCATTCTCC
TGCTTAAGCCCATTCTGGAAAAGCCAGACTCCACCCCAGGGTGGATGGAAAGCCGGACTCCACCCCAGGGTGTCTCCCTCATTTCTCCCATCRACCTTCC
CACCGGTGTCCGTGCCCTTTTCTGTTCTGCATGAGCCCGGGAGGTGTGCTCCTCTTTCTGGCCTTGCTGAGGAAGCCTCCTCAGTCTGTTAATTGTCTCT
TCCTGGGTAATYTCTTTATTAGAGAAATCTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCGTTGCCCAGGCTGGAGTGCAATGGCGTGAT
CTTGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAATAGCTGGGATTACAGGCATGTGCCACCACGCCCAGCTA
ATTTTGTATTTTTAGTAGAGACGAGGTTTTTCCATGTTGGTCAGGCTGGTCTCAAACTCCCAACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAAAGTGC
TGGGATTACAGGCATGAGCCACTGTGCCCGGCCTAAAGAAATCTTATTTTTTTAAGGCAGGGTCTTGCTCCGTCACCCAGCCTGGAGTGCAGTAGTGCTA
TCTCAGCTTACTGCAGCCTTGAGCTCCTGGGCTCAGGCGATCCTCCTGCTTCAGCCTCCCAAGTAGCTGGGCCTACAGGCGCACATCACCACGCCCAGTT
AATTTATTATAATAATAATAATAATTATTTTGAGACGGAATCTCGCTTTGTCACCAGGCTGGAGTGCARTGGTGCCATCTCGGCTCACTGCAACCTCCAA
CTCCTGGGTTTAAGCGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGGCATGCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGATA
CGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACC
ACAGCCGGCCTATAATTTTTTTTTTGTAGAGACAGGGTCTTGCCATGTTGCCCCTGTGTCTCTAATACCTCGCCAGGCTGGTTATTAGAGAATCTCCTAT
GTTACTCTTTAATCCTCTGTGTATTTTCCTGCCTTTCCTCTGGAATTCCTAAGAACTCTTGAGGAGAGAATTAGCCCTGATGCTGTAGGCATCCACTGTA
TGTAATGCATTGTTGTGCCTTGTCTGTAACCCATAGCCTCATGTGACATCCACTGTATGTATGTAATGAAGTCATTTCTCTCCTGTGCATCTCGCTGGTG
TTTTCCTGTACAGCTGCTCTGTACCTGCCTTGGGCCAACTGAAAAGGGGGTCACCCAGATGATTTTTTATGTGGCACTTCATTCTCCTGTGGCATCCCAA
TTGGGAAAGGCCACACCAGATGCTGGCAGTGTGGGTGATCAGTACATTTATGGGTCGATGAATGGATGAGTTATGATGTTCCATTGAGAGCCTCTGGAGT
TACCTTTTAAACTAATGAGCTGTTGTAGGAGAAACCAAAGCACAGGACTGAAGTTGATGCCACGTGTTGACATCTTTTTCTATTTTAAACGTTAAAAGAG
GGGCTAGGTCTAGGGAAGTCCCCGTTTGGAATGAAGGACTAGGAGCTACACCTTTGATGTGCCCCTGAATGCAGAGGTTACTTGGAAAAGAGTCAGCCAG
GTGTGCGGTGGTTGGGCTGTCATCCTCCTGTGGTAGACACGCTCCTGAATTGCTCCTGAATGGCTCAGCTCTGCTTTGGTTAGGAAGGAAAAGCTACACT
GACTGTACTTTGCGGCTTTTTATCACCACCTGCCACCCGCCCCGCAGATGTTTAGGGGAACCACTTTTGGGCTTTTGTTACGGTTTGCATCATACTGTTT
TATTTGCTGCCTCTTAAAATCCAGGTTACCTCTGGAACCTCCAAGTGAAACTTGAGCCCATAGTAAATCTCTTACCAGACAAAGGAAGACTCATGGACTT
TCTCCTCCAGAGAAAGGAATGCAAGATGGTCATCCTGTCTGTCTGTTCACAGAGTAAGTTGAATCCTTCCCCCTTGCTCTGATTCCAGTGTGAGGCCTGT
GCTGCCCAACACTTTTTATCGGGATGTGGGCTACATTGTTGTGTCTTGTCTGTGACCCACAGCCTCATTCTTTATGTGAGGGGTGGCTATGTGACCCCCT
AGGAAAGGCTGCTAAATGGAAAGATGATTTGTAGAGATACTGGTAGAAAAGAACAATAAATGGGATGGTTCTGAATGAAAGTGGGCACACAGGAGGGGAG
TGGGCCACCACCCCTGGCCTTCACACACACCTCTTTCAAAATCCAAGCCACTCACTGCATATGTGTCTTCTTTAAGAATCCCCTACTGAGGCCAGGCATG
GTGGCTCATGCTTATAATCCCAGCACTCTGGGAGGCTGAAGCAGGAGGATTGCCTGAGCCTAGGAGTTCGAGACCAGCCTGGACGACAACATGGCAAAAC
CCTGTCTCTMCAAAAAAAAAAAAAAAAAAAAAAAAAATTAGCTGAGTTTGGTGGTATACACCTGTGGCCCCAGCTACTCCAGAGGCTGCCGAGGGAGGAT
TCCTTGAGCCCGGGAGGACGAGGCTGCAGCGAGCCGTTTGTGTCAGTGTACCTCCAGCCTGGGCGACAGAGCAAGACCCTGTATCCAAAAAAAAATAATA
ATAATAATCCCCTACCAATATGTGCTGTTGGTGTTTGTTTTTGTTTTGGTATAGATGGGGTCTTGCCTTGTTGCCCAGGCTGGTCTCAAACTCCCAGCGT
TAAGTGATCCTTCTGCCTCGGCCTACCCAAAGTGCTGGGATTATAGGCATGTGCCACTGAGCCTGGCCTGCTATAGCTTTTTTTTTTTTTTTTTTTTTTA
ACCGTAACCAGAAAGGGGTTGCGAATGACATCTAGCTGTCAGGTCTTTAAAGTATTGTATTTCTTARAGTGTCCTTTAAAGGTACTTTTGCATTGGTAAC
CTTTTGAGATTAGTTTTTATCATAGCAACGTGTGGAAATTCTGAAGCTGACATGAAGTTGGTTTGATCCGTGTGTGAACATTGTGCCTTTCCAGTGTTAA
GTGAGTCAGACAGAGCATCGCTGCCCGTGATAGCCACTGTTTTTGATAAACTCAACCATGAGTATAAAAAGTACCTGGATGCCGASCAGAGTTATGCGAT
GGTGAGTTACATGGAGTATGACAAAGGGTCCTCCTCCCCCACCCCCTCCCGGGTATTTTCTAAGTAATTATGATGCAAAATTGTTTCCTATATATTAGAA
TAAGGTCGCTGAGATTTGCCGCCTGCCATAGGGCAAGGTGGCAGTAGTGGKGGATAGTGGAGGAGTAGTAAATTCAGGGTCCCTGCATCCCACKAGCTGG
CGGCTGCATCTCACTTCATACCTTCACTGTTTTTGTTTTTCCCATCTGTGTTTGATCTTGCCTGTAGATCCTTGGTCTACTGTTATAGATGAGAAAAATC
AGTCTCTGCTTTGCAATATTTTGTATATTTTTCTGTTATGCCAGAGTGAGGACTTAGAAAATTAAATTAGAAATATTTATATTTGCCACACCTTTCTTCC
CTTTTGGGAAAGAATCCTGTTGAGATAGTGACGATTCAGTGTTAGCACTTAGCAGGCGTGTTTGTAGTCAAGGTAATAACCATGGCTTATCGCCACCAAT
TCCCGCTGTATTACTTGTACATCATATCTTCTGAAGCCAGAAGAAAAGTTTAGGACAAGGAGAATGAATTATTTCAATTCCAGGATCTGATTAGTCCTAG
GCTGAAAATGGTTTTAAACCAACAAAAGCCCCAGAACTCCACTCCCCTTTAGCTGTTCATGGAAGGGTAAGAGGTCTGAGACAGGCACTGAAGAGGGCCA
GTTGCTGGGACAGTGTCCATTCCTACGCTGCCAGACGTGAGGGATGGCYRAGTCCTTTTGGACTCTATTGCTGTGGGTGTTCTGGGCTGTGGGAATCAGT
AGGTCTGATCCCAAATGGCAGTTTCTGTGCCGTCCCACACGGTCTGCTGGGCTCCATAAACCGTCATGACTCAGCAGTGTGGGCCACTGACCAGCCACAT
GAGCAGCATCTGGAGTTTCTTGGAAATGCAAGTTCTCAGGCTACACCCCACAGCTATTGCATAATCTGCACGGATCTGAACTGCTTTTTTTTTTTTGAGA
CGGAGTTTTGTTCTTATTGCCCAGGCTGGAGTGCAATGGTGAGATCTTGGCTCACCGCAACCTCTGCCTCCTGGGTTCAAGGGATTCTCCTGCCTCAGCC
TCCTGAGTAGCTGGGATTACAGGCATGCGCACAGGAAAAAGTTGTATCTAAGTAGAGAAAGTGTTTTCCGCTCATATCCTGGGTCCACATCGAAGAATTC
AGTCCTTGTGGATGAACTGTAAACAGCACCCTTCCTCTAAGATGCYGAAGATCATAGTTTGTGGTTTTTTTCTTTCAGGCRGTGGAAGCAGGGCAGARCC
GAAGCAGCCCGCTCCTCAAGAGGCCGGTGCGGACCCAGGCGGTGCTGGACCAGTCAGATGTGTACACCCATGTCCTGTCAGCCTTNGTGGAAAAGAAGGT
GGGCYGCAGCTTTCCGCCTCTTCTGGACTGAGAATGCTCAAAACAAGGAAGTTGCTGAAAACGAGGAGACTTCATGTGATTAGAGTCACTTGAAGTGATT
AGAATCACTGGAGTTTCCTTGGGTGAGGCCCTAGAGCTGGTAGTTTGGCTTCTAATGCTGAGGCCTAAAGCATAATTGTTGACGGGTGGTTCTGGAGCGA
TKTGTGCAAAACCAGTGAAAGATGAACACTGGGCCATTTTAAGATGGAAACAAGGTGGGGGTTGGATAGRGAGTTATATGCAGCCTCTTTTGCACCTCGT
TGGTATTTGTAAGACCACATTTTTTTCTCCCTAGGAGATGCCTCATAAATTTGTGATAGCCGTGCTGATGGAATACATTCGTTCTCTTAACCAGTTTCAG
ATTGCAGTACAGGTACCTTCAAATCATCTGGGCCCAAGTTAAAACAGAAGGAATTTAAAAAAAAAACACAGTCACTGTCTTAGAAGATGACTCATATGCT
AAGACAGGTCTGCCTCCCTGACTCAGAATGCTGAGTGACTCCTGACATTATTAGTTGGAATGGGAAGTGTAAGGTCAAGTTGGGGTCTTTACCTGCATGA
CGAAACCACTTCTTGTAATGACAGACTTTTACTGTGTTGGTTAGAATAGCCAGTCCTTGGGGAGCCTCTAGTCTGTTGTAGCTGAATGATTTGGAAGTGT
TCTTTCACTTTTTACTTTTGTCCTCAGCATTAYCTACATGAACTTGTTATCAAAACCCTTGTCCAGCACAACCTCTTTTATATGCTGCATCAGTTCCTGC
AGTACCACGTCCTCAGCGACTCCAAACCTTTGGTATGCATTGCCAGATTTTTACTTCCATTGTGGTTAAAAATGGAAAATTTTAACCGTTATCTTTCCAA
CTGAAGTGGGTCTAAAAATGTCTTTCAGGCTTGTCTGCTGTTATCCCTAGAGAGTTTCTATCCTCCTGCTCATCAGCTATCTCTGGACATGCTGAAGGTA
ACTCTGATGTGTGAGGTTTTAGACTATGGAAACTAACTCTGTTCCTGTTGTTTGCACTGACCTGGACTTCTCTCCCTTACTGCTAGCGACTTTCAACAGC
AAATGATGAAATAGTAGAAGTTCTCCTTTCCAAACACCAAGTGTTAGCTGCCTTAAGGTTTATCCGGGGCATTGGTGGCCATGACAACATTTCTGCACGA
AAATTTTTAGATGCTGCAAAGCAGACTGAAGACAACATGCTTTTCTATACAATATTCCGCTTTTTTGAACAGCGAAACCAGCGTTTGCGAGGGAGCCCCA
ATTTCACACCAGGTGAGAATGCAATGAAAAGACTTGGGGTAACCATAGCCTCAAAGAGTAGCAGAGGGCACTGGCAGCTGGTGGGCGAGGACCCTGGGTT
AGCATTTTTGTAAACAACACAATTTGATAACAGCCCACCTAGCCCTTGGCCCATTATTTGTAGTAGAGTGAATTCAGTATACTGACAGAATCTGAATTAT
GCTCTGGAACTCACCGAGGAGGTGTGTTTTGAGTCAAGACACATTTAGGACCCAGATCAGGCACAGCCCATCTCTTATAGCAGATCTTGGAATATCTCTT
AAAGCCAGGAATAAGACGGCAAATGGTGGCTAAGGGTTTTAAAGGGTCTGGGGCTTATTAAGGTTTCAGTTTTATGAAGTATACATTGGTTGATCATTCT
CATTTTTTTTTTGAGACAGAGTCTCGCTCCGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTCGGTTCACTGCAACCTCCGCTGGGTTCAAGCGATTCTT
CTGCCTCAGCCTCCTGAGTAGTTGGGACTACAGGTGCGTGCCACCACACCCGGCTGATTTTTGTATTTTTAGTAGAGATGGGGTTTTACTATATTGTCCA
GGCTGGTCTCAAACTCCTGACCTCATGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTTTGAGCCACCGCACCTGGCCCTGGTTGATCAT
TCTCATCTCCAAATAGTTATACAACCTAAGACATCATCTTTAGGATAGGGAAGGATCAGGGCTGTCTAATGAAACTTCTAGGTCTATTTCTAGCTCAATG
TAAGACGGCATTTAGTTACCATAAGGACAGGTTAGATAGAATCTCTTCCATTTAGCTTTTGTATTTGTCTCTCAAAGCAGATAGGGTAACCCCAAAACTT
AGGAAAACAATGTATTTTATTAAAGAAAAATAAGTTAAAACCCAGTAGACACACCTACGAGATGCTTTCTTTGTCCCTCATTTCATGCCACATCTAACTG
GCAATTAAATCTCTTCCTTTCTAGGGGAACACTGTGAAGAACATGTTGCTTTTTTCAAACAGATTTTTGGAGACCAAGCTCTAATGAGGCCTACAACATT
CTGAAATCACTTGCTGTTTTTTTATATAAAAATGTGTACAAAGTTAATTTATTGCATTAATAAAGCTCTTTAAACTATAAAATGTTATAAAGTGTATCTA
CAACCTCAACTGTCACTAAAAATATGGTATAGAACTTGTGGGATGGCTTACTCCTAAAAGGAGAGACAGACAGTGCATTGATTGGCCTTTACAGAGTGTC
AGTGAGCGGATCACATTCACAGCCATCTAGTGTCACCTCCTGCTTGCCAAAGAATGAGGTTTCTTTCCTGAAGAGGCTGGGAGAAGTTTAGTGTCCTGTG
GTTGCCTCCAGATCTAGTAATACTGCTTCCCAAGTCAACTGTGCATTCCTGAGTTCACAGGCGCTACGTTCAAAGCTGCTGCCAAACAACCGATGGTTGG
CACCATCCGGTGTTCAACTTGGCCTTGCCGATGCAGCACCCGTCCAGTGGTAAACCGACCGACCCTTAGACACAGTTCAGTCAGGATGCCCTGCGAGAGG
GCTAGAAATTTAGAAGCCGTTCGCGCTCTGTTCCTTTGTATCGCTCTTCAGTGGCACAACTTTTGGCTTTATTTACTGATGGCCCTATGAGAGAGAGAGA
CTTTTTCTTATTTCTGCAGGAGAAAGGGAGCTAGTTGGCTGGGCATAGTGGCTCACGCCTGTAATCCCACTTTGGAAGACTGAGGCAGGAGAATTGCTTG
AGACCAGCCTGGACAACAGAGTGAGACCACATCTCTCTCCCTCTCTTTTGGAGATGGGCTCTTTGCTTTCTTCCTCAGGCTGCAGTGCAGTGGTATGAAC
ACGACTCACTGCATCCTAAGCCCACCCTTCTGGGCTCAAGCAAGCTTCCTGCCTCAGCCTAACAAGTAGGTGGGACTGCAGACGCACACCACTTCACCTG
GCTAATTTTATTTTTGTAGAGATGGAGGCCTCACTATGTTGCCTAGGCTGGTCTCAAACGATTCTCCTGTCTCAGCCTTCCAAAGTGCTCATCTCTTTTT
TTTTTTTTTTTTTCTTAAAAGGAACTAGTATATTAGATTGTAATAGAACTACTTTCTATCCCCCGGAGATGATAAAAAGCCCCTCATTTTCTTAATCTTC
TACTTCAGTGCTTCAATTTAGTGACAAAGCTATAAATGAAGCAAATCAGTATTGTTCTTTCAACCGTGGGTCATTTTTGTGCAAGGTGAAGTGGCCATAG
AAGTAAAAGGATCAAGGACAGTCTCGAGATGAAGAAAGGCAGCAAGCACTTTGCTAAGAAACGGGAAATCCATGAGGGACATAAAAAGCTGTTCTGCAGC
ACTGCTGGTGTGAGAGCTGGCTGCCAGATGGACTCCTTCATCTCAGTGGCAGGGAGGAGCTGCCCTGCCTGCTGACACTCAGATCCATTCAAGGACTGGC
TCCAGGCCTTTGTGAAGCAGACAGATCAGGCCTCCAGAAAAAACATCGACAACTTCCTAATAAAGTAGTCTGCACCATCATGAATCCCCTGGATGGGTTT
TTTCTTTTAGAAGAAATTTTTTTACTCAGTATCATTTATCATTATCAAATGACCATTAGTATGAGTTCAAATACTTGAAAAGAATGCCTCAGGATAGAAT
TCCCTTTCAGTAATGTCCTTCTATTGTGCCACCCTTTTAAGATGAGAACTCTTACCTATGTAACTGAGTAAGACAGGGAGAAATATTAATCCGTGAGTGG
CTCCCAGTAAGACCATGGCCAAATACATCCTGAAGTAGAATATCTGGAAAATTTGAGATTTGGCAAAAGCCAACACCACAATCCCTCCAAATTTTGTAAG
TGTGATTCCACTGAACACCTAAAAGAAGAGATACTGTGTTAGAAACCACTTTTACCAACCTGTAATTGAACAAAAACACTTCCTTACAAGGATTTCTCCC
AGGTTCAAGTGATTCTCCTGCCCCAGCCTCCTGAGTAGCTGGGATTAAACAGGTGCACGCCACCATGCCTGGCTAATTTTTGTGTTTTTAGTAGAGATGG
GGTTTCACCATGTTGGCCATGGTCTCGAACCCCTGGCCGCAAGTGGTCCGCCAGCCTTGGCCTCCCAAAGTGCTGGGGTTATAGGCATGAGCCACCGTGG
CCAGCCCTTATGGGGATTTCTTAATATTCAAGGTTCAAAGCAATGGGAACTGAACCCAGGTAGCATCATCTACTACCTAACACTATTTGCTGCCTTATGA
TCCTGGGGGAGAGGTATGACCAAGTTAAAAGCTGTGTATTCTGCACAGACACTGCATCGTGTCTCCCAATTGATTATCTTTCTTTATATTCTCAGGTGAA
AACTTAAATATTTAAAAGTGTTACGAAACAAAGTTTTAGTTTTTACTCTTTACCAGGTATTTTCTACAGTGGTAAAGAGATAGGCTAAGCCAGGGTGTAG
AGTTGAACCAAGACGACTCTCCAGGCACCAACCGCACATCACACGCTGGGTTCTGGCCCGGGCTCCCCTGCATTTTAAATGGGAAAGACTGCCAGCTGTC
TCATGTTTAACTTGTCTGTTATTTTCCTGCTTCAGCACACTGCCACCTAAAAAGGAGCCGTACCAACAGGTACAGTTCCACAGAACGTCCGTTCTGTCCA
CGATGTGGCAGCTAATTCATGAATTGCCTGAAAGCTTGCAATCCTTAGAAGCTGCTTTGTAAGTACAGGATCCAGACTCTTCAGTCACTGAGGAGGATTA
CTTTGTGGTGCGACTCTGCCGGCGTGGCCCTGCTCAGGGTACTCACGGAGCTGCCCATGTGGGCAAGTGCCTCTTCCGCGCGCTCCACGCGGCTGCCTTT
CATGCTCACCGTGAACGCTCTGGTTATGTGGCTGCAGAACTCCACGGAGATGCCACAGCTCTGAAATAAAGCACTTCCTTTAGGATGGCTCTCTTCCTGT
TGAAGACCCTAGGCAGCCACCCCGTTCTGAGGATGGGTGCTAATTACCCAGGGCACCCTGGGTGCTAGAGGAGGCCAAGCATCCCATTGGACTTACAAGG
CCTCCATCACACCAATCTTACTGTACCAGGAACTTTTTGGGGCCCTCTCTACACACAGCCAAAAGCCTGGTTTTCTGTGGCACGTTTGTGTTGACCAGGA
GAAATTGCTGGAACCCGTTAAGGTCACCCCACCCGCACCGAGCTGGCGCATTGTCACAACTTCTTTTCTTGGACCTCAGTGCTCCCCTATCTGAAGCAGG
GCTCATATCTGAGAGTACGGATACACTGTTCTATTTTCCATGAATACCTTCTCGAGTGCTCTCATCTTTAATGATTAAAAGTACCTGATAACCACATAGG
AGGCAAAAGGCACTGGTCGGAGAGCTCCTGGGGCGGGGTGCAATTTTCTAAGTAAAAAGTGAACATCCTGCTGTCATCAGGCTACAGGCTTGTGCAATCT
CTAAAGAATAACAAATTACAGGCAGACTAGCCCAGAACTAGGCCAGGAAATCACATTTCCATGGTCAGAGGCACCATCAGGTATACTAGTATAGCCGCAA
GGAATGGGACAAGAGAAAAAATTGAACAGAAATTGCCTGTAATGTGCCTATGCTCCCAGATGTCCAACTCAATGCTCGCTCCCTCTATGCCCTGTCCCAC
CACCATCCAGCACTCCTCCAGCACTCATCCTGCCTCTCCATGTGTGCCAAGAGCAAGCGCCAGACTTGGTATCTTACTCCATCTTTAGGGTTTACATGGA
ATCTAAGACAGCCAATTCCCCCAAGTGAAACAGGAGCTAGGGACAAACTGAGACTGTATGAGGACTCACCATCACCAGGTTGACCAAGGATACAGCGTTC
AGACTGATGCCCCAGAGCCACATAACTCCAAACATGTTGACCAAGACCATGGCGATGGTGGCACACATGATGACTGCAGACCAGAGCTCACAGCCCAGGA
GGACCATGGTCACCAGAAATATCGCGCCCAGGGACACACCGAGGTTGAAGATAGTGTCGTCAATGATGGTCAGGTACTGTTCGTAGAAGACATAAAACAC
ACTGGAGGGGAGAGGGGAGGCCTCATTAAAGCTCGCTCTCACTCCCGAACACTGCGTGTTCATCCTGTCACCACTGCCAAGTGGTCAGACTCCTTTGGGA
AACATCCCTTGCAGAAAACCTTGCTGGCTGTCTACAAGACTCACCGAAAGCAACTCACTTGACCTCTCATGGCCACTGACCACCCAGAGAAGGGCCCAGC
AGTGATGCAAAATGTATATTTTTGATAAAGTTTCTGTTTATAAGCCCAATCTATGCTATTTTATAGACATTTACAGAGAGCATTCCACAGCATTCTGAAA
AAACACAAAAAAACAAAGAATCCTGATCTATCCTGAGACACTACCTCAGGCTCAGCGGGGTCCGTGCAAGGCCTGAGGAAAACATGCTTTCATTTATTTT
CTGCCAGAGCTAACCGGCTCTTAACTTCTTCCAAACAAATCCAGGCCTTCCTGCTTTAAGCGAGATCATGGGGAGGCAGGAAAAATAAATCACTTGTTTC
TCCTACCTTTCTACAGTTTCTAAATTCAGTAGTTCATACATAATACTTTTCTTCCTGGGAAAAAAAACCCCTAACAATATAAAAAGTCTACATACAGGCA
GCATCCCAAATAACCAGCAGTTAGGGATTCTGGTTCATTGTTGGCCAAGAATGTGGGCCGGGCCCTGCTCTGAGCCGCCTGCTCTCCAAGCGCCCCCTGC
CTTAAGCCATTTTCCAGTGTGTGTCTCTTGCAGCTGTGCAGTGGCGCAGAGATCAAGTTTTGCGTCTCTAGCCCTCAGGCCTTCACAGAGACTTTAGATT
CTGAACTCCTTTGCCCAGCACCCATTTCCTTTGATATACTGCCCTGTGCTCAGAATGGAGCAGGGGCCAGAACCCAACCTGAAAATCAGCATCTTGCCAA
GGGAACCCTCCCCACTCCCACCCAGTGTAGGCCCTTTGCTGGGTAAACCCCATTGAAAAAGGGCAGGCTTTACCTGTAAGGAAATACTCGGTAGGCACTG
CCGTTAATGCCCATGGTTTCGGTGACATTACTGGCTATAAGTCGGGCTTTCTTCAGAGCGTCAATAAAGTCAGCAGAGGTCTGCAGCACGGTGTGGTAGG
TCATGAAGTACGTGGCTCCGACCCTGGTGCCATGGCCAAGGAGGATGTTAACTGCAGAACTATAGGCAGCATGTCCCCTGAGGAAAGAATCCTGGGTGTC
AAGAGAGTCCAGGTCTTGCAAAATATCAGCAGAATCTGAGCACTTGAGGCTAAGCAAAATCACCTGACCCTGGACTCAGAGGTCAGACCCAGCTGTACAT
TTCAGGGATGAAGAAGGCCCCCAGATAAGGGAACACCAAAGGTTTAGCTTGTTCTCTCCCAGACTGGCTTCTTTTTTTTTTTATTTTGAGACAGAGTCTT
GCTCTGTAGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCCTGCCTCAGCCTCCCGAATA
GCTGGGATTACAGGCACCTGCCACCACGCTCAACTAACTTTTGTATTTTTTTAGTAGAGACAGGGTTTTGCCATGTTGGCCTGGCTAGTCTTGAACTCCT
GAGGTGATCTCAGGTGATCCGCCCACCTCGGCCTCCAAAAGTACTGGGATTACAGGTGTGAGCCACTTCGCCTGGCCAGATGGGCTTTTCTCGATTGCTC
TGGGTTCTTTGGTACATAGCTGCTGTTTCTCCACCTGGTTTCATGTATAATCAAAGGTACAGGGTTTACTCAGTCCTGTTGTGTAATAGGAAGCAGGAAA
GGGCAAGGGCCCTGGGAACAACCTCAGCCCTGCCACTTACTGGTCATGTAACCCCGAGCAAAATGACCACCTCTGAGCCCCAGTCTCCTCTTCTGTAAAT
GGGTATACCACCACCTACTCATAGGCTGCGTGATGAGAAATGGAATAATGTCAGGGAGTGCCTGGCATGACGCTGGCACCCTGGAGGCTCCCCAGGAACG
GTGGCTACTGCCTTCAGAAAAACTGAATCTACTTCAACTTATTTTACGTAGGCCAAAGCATCCAGTCAGTGAGTAAATCAAGCTGCAAGATTCA


SNP Information

Context             (SEQ ID NO:66086):
GGAAAAGGGAAAGAAGTCATTTATTTGCTTCGTTTTGCCTTTTTCCAGTGTAATTGATTTTAAGATAGAACTGAAAGAATATTCAACACACACTCTCTCT
C
TTTTTTTTTTTTCCTTAAACAGAACTTTATTTTCTCACAGTTCTGGAGGCTAGAAGTTCAAGATCAAGATGTCTGCAGGTTTGCTTTCTTCTGAGGCCTC
Celera SNP ID:            hCV27004475
SNP Position Genomic:     24282
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|C,6)   total(C,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66087):
GGGCCTACAGGCGCACATCACCACGCCCAGTTAATTTATTATAATAATAATAATAATTATTTTGAGACGGAATCTCGCTTTGTCACCAGGCTGGAGTGCA
R
TGGTGCCATCTCGGCTCACTGCAACCTCCAACTCCTGGGTTTAAGCGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGATTACAGGCATGCGCCACCAC
Celera SNP ID:            hCV27004476
SNP Position Genomic:     28069
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66088):
TAGCTGTTCATGGAAGGGTAAGAGGTCTGAGACAGGCACTGAAGAGGGCCAGTTGCTGGGACAGTGTCCATTCCTACGCTGCCAGACGTGAGGGATGGCT
R
AGTCCTTTTGGACTCTATTGCTGTGGGTGTTCTGGGCTGTGGGAATCAGTAGGTCTGATCCCAAATGGCAGTTTCTGTGCCGTCCCACACGGTCTGCTGG
Celera SNP ID:            hCV3204004
SNP Position Genomic:     31250
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66089):
GAATCACTGGAGTTTCCTTGGGTGAGGCCCTAGAGCTGGTAGTTTGGCTTCTAATGCTGAGGCCTAAAGCATAATTGTTGACGGGTGGTTCTGGAGCGAT
K
TGTGCAAAACCAGTGAAAGATGAACACTGGGCCATTTTAAGATGGAAACAAGGTGGGGGTTGGATAGAGAGTTATATGCAGCCTCTTTTGCACCTCGTTG
Celera SNP ID:            hCV3204005
SNP Position Genomic:     32102
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66090):
AGTGCAGCAACACATTTCTCTGACATCAGCTGCTTGAGGAATGAATTTTTGAAAGGAGTTACTAAACTGTAACTGAATATTTGTATTAACTTAAAAAAAA
W
TGAATCGTAAGCCTGCTGCTGTTGAGACAGATGATCCGAATTGGTCTTTTTATCTTTCCTGTGTTTTGGTTGTCTTCAGTTATTTTCTGGTCACTTTTTA
Celera SNP ID:            hCV15881222
SNP Position Genomic:     10372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66091):
TAATGAAACTTCTAGGTCTATTTCTAGCTCAATGTAAGACGGCATTTAGTTACCATAAGGACAGGTTAGATAGAATCTCTTCCATTTAGCTTTTGTATTT
G
TCTCTCAAAGCAGATAGGGTAACCCCAAAACTTAGGAAAACAATGTATTTTATTAAAGAAAAATAAGTTAAAACCCAGTAGACACACCTACGAGATGCTT
Celera SNP ID:            hCV3204006
SNP Position Genomic:     34067
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,6)   total(G,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66092):
AGTGACTTAAAAAATTTTACTGTTGGTCTGTGTTAATGAGAAACTGTCCTTTTTTGAGAGGGAGCCTCCCTCTGTTCCCCAGGGTGGAGTGCAGTGGTGC
R
ATCTTGGCTGACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCTTCAGCTTCCCAAGTAGCTGGGATTAGAGGCGCCCACCACCACGCCCGGC
Celera SNP ID:            hCV29312114
SNP Position Genomic:     7708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66093):
TGATGTGATCTCGGCTCACTGCAGCCTCGATCTCTCAGGCTCAAGTGATTCTCTCGCCTCAGTCTCCCTTAAAAATTGTTAAAAAATAATTTGGAACTTC
R
TGTGTCTTTTGTATTGCTTGATAGCAGCATAGAATATGTGAGGTATTTTTGGCTACTTTGTGAATTAGCCTTTTCATCTCTCATTTCTGAGTGCTAGATC
Celera SNP ID:            hCV29312115
SNP Position Genomic:     10004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66094):
TACCAGAGAAACGGAGTCTGAAACTCTTGAAGAGCCACAATCTCAATGTGAATTGGTACATGTACTGCCCCGAGAGCGCCGTGATCTTGCTGTCTACCAC
R
GTCCTGGAGAATGTCCTGCAGCCTTTTCACTTTAGGGTAAGAGGAAGCCTCCCCTGAAAAAAACACCTTTCCCCAGTTGTCCCCTGTTCCTGTAGCATCC
Celera SNP ID:            hCV29312116
SNP Position Genomic:     18547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66095):
CCTTTCCAGTGTTAAGTGAGTCAGACAGAGCATCGCTGCCCGTGATAGCCACTGTTTTTGATAAACTCAACCATGAGTATAAAAAGTACCTGGATGCCGA
S
CAGAGTTATGCGATGGTGAGTTACATGGAGTATGACAAAGGGTCCTCCTCCCCCACCCCCTCCCGGGTATTTTCTAAGTAATTATGATGCAAAATTGTTT
Celera SNP ID:            hCV11779541
SNP Position Genomic:     30486
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66096):
GGGTCCACATCGAAGAATTCAGTCCTTGTGGATGAACTGTAAACAGCACCCTTCCTCTAAGATGCCGAAGATCATAGTTTGTGGTTTTTTTCTTTCAGGC
R
GTGGAAGCAGGGCAGAGCCGAAGCAGCCCGCTCCTCAAGAGGCCGGTGCGGACCCAGGCGGTGCTGGACCAGTCAGATGTGTACACCCATGTCCTGTCAG
Celera SNP ID:            hCV25616030
SNP Position Genomic:     31781
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 UTR 3


Context             (SEQ ID NO:66097):
GGTCCTGAAGTCCTCCTCCGGGCAGCTGTGAATAACACTCCGAGAGCCACCCCGCAGGCAGCTTCCCTGACTGTCCAGGGGCCTCGCGTTTAGCGTGGAC
Y
CAGTACATGGTGGGCAGGGGCGAGTGCTAGCGGAAACTGGGTTTGCTTTTTGTTTTCATCTTTTCCTGGTTTAGAATTTCCTATAACATGTGGATTCTTC
Celera SNP ID:            hCV29312117
SNP Position Genomic:     26923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66098):
CCTGCTATAGCTTTTTTTTTTTTTTTTTTTTTTAACCGTAACCAGAAAGGGGTTGCGAATGACATCTAGCTGTCAGGTCTTTAAAGTATTGTATTTCTTA
R
AGTGTCCTTTAAAGGTACTTTTGCATTGGTAACCTTTTGAGATTAGTTTTTATCATAGCAACGTGTGGAAATTCTGAAGCTGACATGAAGTTGGTTTGAT
Celera SNP ID:            hCV11779542
SNP Position Genomic:     30267
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66099):
ATCTAAGTAGAGAAAGTGTTTTCCGCTCATATCCTGGGTCCACATCGAAGAATTCAGTCCTTGTGGATGAACTGTAAACAGCACCCTTCCTCTAAGATGC
Y
GAAGATCATAGTTTGTGGTTTTTTTCTTTCAGGCGGTGGAAGCAGGGCAGAGCCGAAGCAGCCCGCTCCTCAAGAGGCCGGTGCGGACCCAGGCGGTGCT
Celera SNP ID:            hCV25616031
SNP Position Genomic:     31746
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,38)   total(C,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66100):
AAAAAATTGAATCGTAAGCCTGCTGCTGTTGAGACAGATGATCCGAATTGGTCTTTTTATCTTTCCTGTGTTTTGGTTGTCTTCAGTTATTTTCTGGTCA
Y
TTTTTAAGTTAATATTTATTTTTCTTGTCTTGTAGTATGCCAACGTAGGTTGGCAGTATGCTGCCTAATCCAAATTTGTGTGTGTCTGTGTGTTTTTCCT
Celera SNP ID:            hCV25616032
SNP Position Genomic:     10466
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66101):
TAGGTCACTTTGAGTGAGCTCATCAAAGGAAGCATGTCATAAATGCAGGAAATACTTGTGAGAGGAGATAAAAATATTAAAAGAGAGTTGTGATGTTAAT
S
ACAAATTCCTTCTCAAGTAAGAGCTAGCCTGTAGGGAGGAAATGCAAACACAGGCTTTTAAACTGATTTAAACAGCAAGATGGGATGGAATGAAAGCAAC
Celera SNP ID:            hCV25758595
SNP Position Genomic:     22637
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,34)   caucasian(G,40)   total(C,2|G,74)
SNP Type:                 INTRON


Context             (SEQ ID NO:66102):
CCTCAAAACGATCCGCCCGCCTCAGACTCCCACAGTGCTAGGATTACAGGCATGAGCCGCTGCACCCGGCCTGAGCAAGGTTTTAAAGTATGGATGGGGT
K
CGAGCATGGTGTTTTGGGGAACTCTGGGTCTGTGTAACTGAAGGTTACATAGGGTGTCTCCACAGGGAAGGGGAAATGGTGGTGGTGTGGCCACTGGCAG
Celera SNP ID:            hCV3203987
SNP Position Genomic:     7978
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66103):
AAACGAGTGAGCCCGTGATAATCTAGATTGGGGGCTCTAAGAAGTTTGTGGGTGGGGGGAAGGTACTGAATTTAACTTAAAAAGAGTTTTTAGACTGGGC
R
CGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACTTGAGATCAGGAGTTCGAGACCAGCCTGGCCAGCATGGTGAAACC
Celera SNP ID:            hCV3203988
SNP Position Genomic:     8480
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66104):
GAAAAAAAAAAAAAATTGGCAAAATGTCTGAATAAGACTAGAAAGTGCATTTTTATGCTAAGAGTTTTGGTCTTCCAGATGGAAATGGGTTTGGTAGTCT
Y
AAGTAGTTTAGAAAAAAGTGATTGTGTCAGTTGATTAAAGATAATTCAAAACTATTTCAGAAACTAACGCTTGAGATTTGACCTTGGAAGAAGGTGGGAA
Celera SNP ID:            hCV7490206
SNP Position Genomic:     22206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66105):
ACTTCTGATTCTTCTGTGGCCTAAAACAGTGGCCCAAACTTTCAAACTTTATGGTAGTTAGTATAATGTTCTTTCATTTCTTCTTCCTTTTTTTTTAAAC
R
TACTCTTCTGTGGCATTCCTGTTTATTTTTAAATTTTTTTTGGAGAGTGTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGTTACAATCTCAGCTCACCACA
Celera SNP ID:            hCV7490207
SNP Position Genomic:     20284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66106):
CCTCAGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACGCCTGGCAGTACGGAGGTATATTTTCATTTGAAAAAGTGGATATCTCAGTTTTTAA
R
TTTGTAATGAAAATTTTAAACACACAATAGAGACTAATAAAAAAGAACCCCTGTATGCCTGTATCTGATTCGACAATAGTCAAAATTTTGCTTCTAAGTT
Celera SNP ID:            hCV7490208
SNP Position Genomic:     20083
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66107):
TTAGCTGTTCATGGAAGGGTAAGAGGTCTGAGACAGGCACTGAAGAGGGCCAGTTGCTGGGACAGTGTCCATTCCTACGCTGCCAGACGTGAGGGATGGC
Y
GAGTCCTTTTGGACTCTATTGCTGTGGGTGTTCTGGGCTGTGGGAATCAGTAGGTCTGATCCCAAATGGCAGTTTCTGTGCCGTCCCACACGGTCTGCTG
Celera SNP ID:            hCV2950791
SNP Position Genomic:     31249
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66108):
AAGAGTTATGGGCAAAAATCAGGGAACATTGTATTTAAAAGAAAATTTGTTTTGTTAATTAGTAAACATTCCGGGGAACGTTCATTAAAGAATGACAAAC
Y
GCAGAGTTTGTGAAGCTTTTGAAGAGAGTTATATGTGTTTTTTCTTATTAATTAAAAATATTTTTAAAAAATTTTTCTTAGACTAAGAATGCCAACATTC
Celera SNP ID:            hCV25616039
SNP Position Genomic:     11698
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:66109):
CCCCGAAAAGTTTCCTTGGGCCCTTCTGTAATCCATCCCTTGAGTTTTTTTTTTTTAAATGAATTTTTAATTTAAAAAATGTATGTATTGGAATAGAGAC
R
GGGTCTCACTGTGTTGCTGAGGCTGGTCTCGAATTCCTGTGATCCTCCTGCTTCATCCTCTCACAGTGCTGGGATTACAGGTGTAGGCCGCTGTGCCCAG
Celera SNP ID:            hCV27468698
SNP Position Genomic:     9009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66110):
ACTCTGTATCCTTTACTAAGGTGTGGCACCGTGCACAACAGGGCAAGTGGTCACCCTCAGAGAGTGGTCCTGAAGTCCTCCTCCGGGCAGCTGTGAATAA
M
ACTCCGAGAGCCACCCCGCAGGCAGCTTCCCTGACTGTCCAGGGGCCTCGCGTTTAGCGTGGACTCAGTACATGGTGGGCAGGGGCGAGTGCTAGCGGAA
Celera SNP ID:            hCV25753389
SNP Position Genomic:     26858
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(C,34)   total(A,2|C,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:66111):
AGGCGAACCCTGTCAACTGCGTCTTCTTCGATGAGGCCAACAAGCAGGTCCGGCGCGCCCGCGCTTCCTCCCCCGCGCGGCCCTGCCGGGGTCGTGGGCG
Y
GCCAAGGCCGGTCCCGCGCGACCAGGCCCGAGCGTCCCCTCCTGTCCTGTCCCGTCCCGTCCCAGCGCGGGAGGCGGCGCGCGCTCCTTCCTTGTTGGGT
Celera SNP ID:            hCV1016934
SNP Position Genomic:     6361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66112):
CAGCCCGCTCCTCAAGAGGCCGGTGCGGACCCAGGCGGTGCTGGACCAGTCAGATGTGTACACCCATGTCCTGTCAGCCTTCGTGGAAAAGAAGGTGGGC
Y
GCAGCTTTCCGCCTCTTCTGGACTGAGAATGCTCAAAACAAGGAAGTTGCTGAAAACGAGGAGACTTCATGTGATTAGAGTCACTTGAAGTGATTAGAAT
Celera SNP ID:            hCV7490156
SNP Position Genomic:     31905
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,22|T,10)   total(C,52|T,14)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66113):
TCAAGGGTTTAGACGTCGAGATTTTCATTTTCCTTGAAATTTTGTAAAGGGGGAAAAGACTGTACTTCAGGCGTATCAGCGGCGCCGATGCGCGAACCGG
Y
GTTAGAACTTGGAGCCTCGGGAACCCGACCCGGTGTCACGGTGGCATCCTTTTCGCTCTCTGCTCTTGGTTTTTAAAATTCACCTGAGCAGCCAAACATC
Celera SNP ID:            hCV1016935
SNP Position Genomic:     6721
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66114):
AAGCAGGGCAGAGCCGAAGCAGCCCGCTCCTCAAGAGGCCGGTGCGGACCCAGGCGGTGCTGGACCAGTCAGATGTGTACACCCATGTCCTGTCAGCCTT
N
GTGGAAAAGAAGGTGGGCCGCAGCTTTCCGCCTCTTCTGGACTGAGAATGCTCAAAACAAGGAAGTTGCTGAAAACGAGGAGACTTCATGTGATTAGAGT
Celera SNP ID:            hCV7490157
SNP Position Genomic:     31886
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,7)   caucasian(C,25|T,13)   total(C,52|T,20)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66115):
ATTAGAATAAGGTCGCTGAGATTTGCCGCCTGCCATAGGGCAAGGTGGCAGTAGTGGGGGATAGTGGAGGAGTAGTAAATTCAGGGTCCCTGCATCCCAC
K
AGCTGGCGGCTGCATCTCACTTCATACCTTCACTGTTTTTGTTTTTCCCATCTGTGTTTGATCTTGCCTGTAGATCCTTGGTCTACTGTTATAGATGAGA
Celera SNP ID:            hCV27513428
SNP Position Genomic:     30694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66116):
AGGGGAATGTTGTATATAAACTTTTGCAGCTAGCTTTTTTTTTTTTTGTCCAAAGTGTATCTTGGACATCTTTCTATATTTTATTCTGACTGGGTAGTAT
Y
CCACTGTATGGATGGACTGCAGTTTAAAAATTTTCTTGTTATTGGACATTGGCTGGTTTTCCATTTTTTTGTGATTACAAATAACCCTTCAGTAACATGC
Celera SNP ID:            hCV7490247
SNP Position Genomic:     14307
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66117):
GCATAGTCCCAGTTCGCACTGTTGAACAGGTTTAATGATCAACAGCAGGGCCTTTCACTTTCAGAAGTGTCTCGATTTGGATGATAAGCTATCTGGCCAC
Y
GTAACACTGGTGCTTACAGAAGGTGAAAGTATAATGTAGGCCCTCAATTCAGTAGTGACTTAAAAAATTTTACTGTTGGTCTGTGTTAATGAGAAACTGT
Celera SNP ID:            hCV1016936
SNP Position Genomic:     7554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66118):
TTGGATCCCAGTTGTAGCCAGGGACGTTTTCAAGGTGAATCTCTTAGAAATGACCCCTCCTTTCAAGCGTGGGAATGGGATTTTTTTTTTTCACTTTATA
M
GTTTTTTACTATATGTGCATTTTATCAAGAACATATACTACTTTTAATAATTAAAGCAACAACTAAGAATGCCATTCTCCTGCTTAAGCCCATTCTGGAA
Celera SNP ID:            hCV7490176
SNP Position Genomic:     27220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66119):
GCTGGAATACACACAGGAGTGCAAGGTATGACCCCAGGCCCTTTCTCAGCTGCTGGTGTCAGTGGTGTTGAGCTGGGTTATGTAGTGGAGAGCGGGGCAT
Y
GGGGTCGCAGGGAGCACAGACTTGAAGTCAGACTGTCCCTCATGTTGATTCCCAAACTGGAGTCAGGCGGGGTGTTTGCTTTGTGACACTGAACAGTTTT
Celera SNP ID:            hCV7490249
SNP Position Genomic:     10704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66120):
TTTTCTGACTGCATCGTTGCACTTATGTTTTCTCAATTTGTAGGTCCTGCTGCCGTGACCAGCCAGTCTCCTGTTCCATGTAAACTCTGTATCCTTTACT
R
AGGTGTGGCACCGTGCACAACAGGGCAAGTGGTCACCCTCAGAGAGTGGTCCTGAAGTCCTCCTCCGGGCAGCTGTGAATAACACTCCGAGAGCCACCCC
Celera SNP ID:            hCV7490177
SNP Position Genomic:     26775
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66121):
GCATAATTGTTGACGGGTGGTTCTGGAGCGATGTGTGCAAAACCAGTGAAAGATGAACACTGGGCCATTTTAAGATGGAAACAAGGTGGGGGTTGGATAG
R
GAGTTATATGCAGCCTCTTTTGCACCTCGTTGGTATTTGTAAGACCACATTTTTTTCTCCCTAGGAGATGCCTCATAAATTTGTGATAGCCGTGCTGATG
Celera SNP ID:            hCV25756708
SNP Position Genomic:     32170
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,34)   total(A,65|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66122):
ATGGATGACAGTGCTGGGGGATAATGGTTTTGAGGCCGTGTGGACCAGGACAACTAGAATGGGTCCTGTGGGCTGGGCCTCTGATATAAAGAAGCTGCTT
M
CCTCCTCTACCCTCCCAGAGGGTGGTGACGCTAACTCTGTGACACGTGAGGATGTTTCCAGTTGAAATGACAGAGATCTGCTTAGGTCACTTTGAGTGAG
Celera SNP ID:            hCV7490196
SNP Position Genomic:     22454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66123):
TTGATTAAAGATAATTCAAAACTATTTCAGAAACTAACGCTTGAGATTTGACCTTGGAAGAAGGTGGGAATCCGCTCCATTCCACGAGTACTTGAACTCT
S
TGTTGCAATTGTGAGCATGGATGACAGTGCTGGGGGATAATGGTTTTGAGGCCGTGTGGACCAGGACAACTAGAATGGGTCCTGTGGGCTGGGCCTCTGA
Celera SNP ID:            hCV7490197
SNP Position Genomic:     22337
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66124):
CATAAATGCAGGAAATACTTGTGAGAGGAGATAAAAATATTAAAAGAGAGTTGTGATGTTAATGACAAATTCCTTCTCAAGTAAGAGCTAGCCTGTAGGG
W
GGAAATGCAAACACAGGCTTTTAAACTGATTTAAACAGCAAGATGGGATGGAATGAAAGCAACTGGGCAAACCATGATTGATTTTGGCCTCAGTCTTGTC
Celera SNP ID:            hCV15881211
SNP Position Genomic:     22674
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,20|A,1473)   total(A,1473|T,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66125):
CAAAGACATGGAATCATCCTAAATGCCCATCAGTGACAGATTGGATAAAGAAAATGTGGTACATATATACCATGGAATACTATGCAGCCATAAAAATGAA
Y
AAGATCATGTCTTTTGTGGGAACATGGATGGAGCTGGAGGCCATCATCCTTAGCAAACTAACACAGGAACAGAAAACCAAATACCACATGTTCTCACTTC
Celera SNP ID:            hCV8141369
SNP Position Genomic:     13744
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66126):
GTCACCCTCAGAGAGTGGTCCTGAAGTCCTCCTCCGGGCAGCTGTGAATAACACTCCGAGAGCCACCCCGCAGGCAGCTTCCCTGACTGTCCAGGGGCCT
Y
GCGTTTAGCGTGGACTCAGTACATGGTGGGCAGGGGCGAGTGCTAGCGGAAACTGGGTTTGCTTTTTGTTTTCATCTTTTCCTGGTTTAGAATTTCCTAT
Celera SNP ID:            hCV27493646
SNP Position Genomic:     26907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66127):
GCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAGATTTTTAAAAGCAGCTTTATTGAGGCATAGTTGACACATAATAAACTGTACACACTTAATATTATGC
M
ATATGTGAGTTTTGACATGTATACACCCATGAAACCATCACCACAATCAAGGCAATGAACATGTTCAGACCCCGAAAAGTTTCCTTGGGCCCTTCTGTAA
Celera SNP ID:            hCV3203990
SNP Position Genomic:     8839
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66128):
GACCTCCAACAGCACAGGAGCGGAGGTGGTCCTCTATCATCTACCACGGTAGATTTCATGCTTTGTTTTCCCTCTCTCTCTGATTTTAAAATGTGAACTG
Y
AGCTTGTTGATCTGTTTTTTGCTTTCTATCCTACAGAGAAGGTGCCTGTAAAAAGATGCACATATTGAAGTTAAATAGGACGGGAAAGTTTGCCCTGAAC
Celera SNP ID:            hCV25616040
SNP Position Genomic:     21619
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,40)   total(C,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66129):
AATTTAGAATGTATGGTTAGAGAAAATACACCTGTGTGTTAATGCCATGGTGCTTTGCTGTAAGGCCATCATCGAAATCTTAGTAATGACTGGCTGGGCA
Y
GGTGGCTCATGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGTGGGCGATCATCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCGCCATGGCGAAACCCC
Celera SNP ID:            hCV3203994
SNP Position Genomic:     16830
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66130):
CTCAGTCTTGTCTTTTTCCCCCCCAGACATCGGTAATATTCGATATCAAGTTACGGGGAGAGTTTGACGGCTCCGTTACCTTCCACCACCCCGTGCTTCC
Y
GCTCGATCGATCCAGCCCTATCAGATCCCCATCACAGGTAACACGGGTTCTGTAGAGGAGTCTGTGCTGCCCTTTCACCATGTGGCTGTGTTCTCACCAT
Celera SNP ID:            hCV3203995
SNP Position Genomic:     22863
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,15)   caucasian(C,20|T,20)   total(C,39|T,35)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,12)      total(C,2|T,12) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66131):
TGGCTGTAGGTTTGTTACTGTAACCTGGGATCACTTTTCTCTTTCTCACATTCCGTGTGACAGTGATGATGAATATTGCATTCTTTGGGACTGACAGTCA
M
AGTAAGTGCTTCGGCTGTGGCTCTTAGGCTTACCCAAATCAGTCCTCCTTCTGTCTGGAGAGGTGGGGTTGGGAAGTCAGAAGAGTGGAGGTCAGGAATT
Celera SNP ID:            hCV3203996
SNP Position Genomic:     24079
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,6)      total(A,2|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66132):
TCATCTTTGGAGAAATGACTAATTCGGGTCATTGTGCCTATTTTTAAAATCAAATTACTATTATTTGTTGAATTGTAGTTCTTTATATATTCTGATATTA
R
CACCTTCTTAGAGATACAATTTGCAAGTATTTTCTCCGAATCCGGAGGTTGCCTTTCCACTCTGTGGATTGTGTCCTTTGATGTACCTGCCTGTTTCTTT
Celera SNP ID:            hCV7490230
SNP Position Genomic:     16509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66133):
TGTGTTGGTTAGAATAGCCAGTCCTTGGGGAGCCTCTAGTCTGTTGTAGCTGAATGATTTGGAAGTGTTCTTTCACTTTTTACTTTTGTCCTCAGCATTA
Y
CTACATGAACTTGTTATCAAAACCCTTGTCCAGCACAACCTCTTTTATATGCTGCATCAGTTCCTGCAGTACCACGTCCTCAGCGACTCCAAACCTTTGG
Celera SNP ID:            hCV25749890
SNP Position Genomic:     32633
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|T,2)   total(C,74|T,2)
SNP Type:                 UTR 3


Context             (SEQ ID NO:66134):
GGCAGCTTCCCTGACTGTCCAGGGGCCTCGCGTTTAGCGTGGACTCAGTACATGGTGGGCAGGGGCGAGTGCTAGCGGAAACTGGGTTTGCTTTTTGTTT
Y
CATCTTTTCCTGGTTTAGAATTTCCTATAACATGTGGATTCTTCATCTTGGATTGTCTTTCAACCTGACATCATTATCAGCGCAAGCCAAGGTAGGTCAG
Celera SNP ID:            hCV25754195
SNP Position Genomic:     26979
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(C,4|T,32)   total(C,5|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:66135):
CATTTTCAGAGGTTAGTGACTCTCCTTTTGTTTCCTGCTGGGCTGTGAGCCCTGGCGGCTTGATGCATCCGTGTGTCTTGCCCACTGTGCTGCCACTGGG
T
GGGCGTGCTCAGGAATTGAATGGGCCTGTTGAGAAAGATATAACCAGCACTTTTGGGAAGAGTCAGCCACCCTTTTTCTTTTTGTTTTGGGCCTGTTAGA
Celera SNP ID:            hCV3203999
SNP Position Genomic:     25468
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,5)   total(T,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66136):
AGCCCAACACAAATTCTTAAACTTTCTTAAAACATTATGAGATTTTTTTAATGATATTTTTTAAGCTCATCAGCTATTGTTAGTGTTAGTGTATTTTATG
Y
GTGGCCCAAGACCATTCTTCTTCTTCCTCTTAAGGCCCAGGGAAGCCAAAACATTGGACACCCCTGGCTTAGAACCTTCAGCTCTGTTCCGGTGGTACAG
Celera SNP ID:            hCV27472368
SNP Position Genomic:     25118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66137):
TGGGTCTCAATCTGACTACATATTAGGATCATCTGGGGGGCCTTAAAAATGAAAGCTCTCACCTGACAGTGTGTAGGTCAGCCACCCAAAGGTGAGGGCT
R
TGCACTCGGCGCAGACCTTGACACTTAGGTCCAAAGCGCGAGTGCTCTTCGCCAAAGCTTGTCTGCCTGGGCTCTTTCCTACCTTTGGGTGGTCTGTTCA
Celera SNP ID:            hCV27482097
SNP Position Genomic:     25673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66138):
GCTTATAATCCCAGCACTCTGGGAGGCTGAAGCAGGAGGATTGCCTGAGCCTAGGAGTTCGAGACCAGCCTGGACGACAACATGGCAAAACCCTGTCTCT
M
CAAAAAAAAAAAAAAAAAAAAAAAAAATTAGCTGAGTTTGGTGGTATACACCTGTGGCCCCAGCTACTCCAGAGGCTGCCGAGGGAGGATTCCTTGAGCC
Celera SNP ID:            hCV15846723
SNP Position Genomic:     29810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66139):
TTCAGTCCTTGTGGATGAACTGTAAACAGCACCCTTCCTCTAAGATGCCGAAGATCATAGTTTGTGGTTTTTTTCTTTCAGGCGGTGGAAGCAGGGCAGA
R
CCGAAGCAGCCCGCTCCTCAAGAGGCCGGTGCGGACCCAGGCGGTGCTGGACCAGTCAGATGTGTACACCCATGTCCTGTCAGCCTTCGTGGAAAAGAAG
Celera SNP ID:            hCV7490164
SNP Position Genomic:     31798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66140):
GTGCCCTTTTCTGTTCTGCATGAGCCCGGGAGGTGTGCTCCTCTTTCTGGCCTTGCTGAGGAAGCCTCCTCAGTCTGTTAATTGTCTCTTCCTGGGTAAT
Y
TCTTTATTAGAGAAATCTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTTGCTCGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTTGGCTCACTG
Celera SNP ID:            hCV12087046
SNP Position Genomic:     27512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66141):
GGGTATTTTCTAAGTAATTATGATGCAAAATTGTTTCCTATATATTAGAATAAGGTCGCTGAGATTTGCCGCCTGCCATAGGGCAAGGTGGCAGTAGTGG
K
GGATAGTGGAGGAGTAGTAAATTCAGGGTCCCTGCATCCCACGAGCTGGCGGCTGCATCTCACTTCATACCTTCACTGTTTTTGTTTTTCCCATCTGTGT
Celera SNP ID:            hCV7490165
SNP Position Genomic:     30651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66142):
CATTCTCCTGCTTAAGCCCATTCTGGAAAAGCCAGACTCCACCCCAGGGTGGATGGAAAGCCGGACTCCACCCCAGGGTGTCTCCCTCATTTCTCCCATC
R
ACCTTCCCACCGGTGTCCGTGCCCTTTTCTGTTCTGCATGAGCCCGGGAGGTGTGCTCCTCTTTCTGGCCTTGCTGAGGAAGCCTCCTCAGTCTGTTAAT
Celera SNP ID:            hCV7490166
SNP Position Genomic:     27393
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66143):
GAACGCTGAGGCAGGAGAATCACGTGAACCCGAGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTGTAGCCTGGGCAACAGAGCAAGACTC
Y
GTCTCAAAAAAAAAAAAAAAAAGATTTTTAAAAGCAGCTTTATTGAGGCATAGTTGACACATAATAAACTGTACACACTTAATATTATGCAATATGTGAG
Celera SNP ID:            hCV27004471
SNP Position Genomic:     8748
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66144):
TTAGTCTCTTGCTGGGGATTTTATTCTTTTTTTTTTTTTTTATAATTGCAAGTAATAAATTAAAAAAAAAAAAAAGAAAAGAAAAAGGGCTTGGTGGCCC
R
TGCCTGTAATTCCAGCTCTTTGGAAGGCCAAGGTGGGTGGATGGCTTGAGTCCAGGAGTCTGAGACCAGCCAGGCCAACATGATGAAATCCCATCTCTAT
Celera SNP ID:            hCV27004472
SNP Position Genomic:     12646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66145):
TGGCTACTTTGTGAATTAGCCTTTTCATCTCTCATTTCTGAGTGCTAGATCTGATAGGAGCAGATATTCCAAGTTGAAGCAGCCTACAGGCACTTTAGCC
Y
GTGTAAATGTTCACCATTGCCGTTTGTAGAGTAGAGGGAAGGCTGTTAGAAACAGGCAGAATCCTCTGTTAGTTTCTTCCATCAGTTTTAAGTGTTAAAG
Celera SNP ID:            hCV7490259
SNP Position Genomic:     10154
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   (C,-|T,-)   Caucasian(T,30|C,52)   African-American(T,13|C,63)   Asians(T,2|C,78)   total(C,193|T,45)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66146):
CTGACTGCCCTGTCTTGCTGGACCAGCCAAAAGCTTAGTTACTTTCTGGCACAGTTGGAGGAAGGAGCTGGTTCTTAACAGACGTTCAATTAGGTCTTTT
K
GCTTTCTGTGTTCTTTCAAGCTTCTTCCTTTTCCTTTGTAAATAATGTTAGTATTGAAAGAATAGATTTTGCCAAGTGATTGTCTTGTGTCTGCTGCCCA
Celera SNP ID:            hCV7490186
SNP Position Genomic:     24804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66147):
TTTTGTCCAAAGTGTATCTTGGACATCTTTCTATATTTTATTCTGACTGGGTAGTATTCCACTGTATGGATGGACTGCAGTTTAAAAATTTTCTTGTTAT
K
GGACATTGGCTGGTTTTCCATTTTTTTGTGATTACAAATAACCCTTCAGTAACATGCTTGTACACACTTCTTTATATTAGAGGGAGAGTTGCAGTATAGG
Celera SNP ID:            hCV27004473
SNP Position Genomic:     14350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66148):
TCTCTCCCGGCTCTCTTTTGAAGGAGATTGGAGTGCAGAATTGGCTAGTCTGAGGTTTCAGTGTGCAAGACGTAGTCAGATGGCTCACATTTGGAACCCT
R
GTAGTAATGTTTTATTCTTTGTCCGATGGCATTGGGCGGGTTGACCCAGCCTGCAGTCAGGATTTCCTTGTACCGTTCACCCGGGAGTTCAGAATCGCAC
Celera SNP ID:            hCV7490187
SNP Position Genomic:     24567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66149):
AACGATCATGAGTCATCTTTGGTTATTAAAAATAACCCAAACCACAGTGATTGAAGCCTTGACATGCTTTCTTTTTCTTGGTGAGATTTTCCTGGATTGT
Y
AGCTCCTTCCCCCTTCCTCCCCGTACGTGCTTTCAGTGAGACGGAACAGTTCATTTCTTCCTTGACTACAATTGAATAAACATTTCGTAATGACATTAAA
Celera SNP ID:            hCV3204000
SNP Position Genomic:     26533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66150):
TTTTGCCAGGGGCCATTTGTTCCAGTTTTGTTGTTGTTTTGAGACAGTCTCACTGAGTCACCCAGGCTGGTAGGTAGTGTCGTGATCTTGGCTCACTACA
R
TCTCCACCTCCTGGGTTCAAGTGATTATCCTGCCTCAGCCTCCCAAGTAGTGGGGATTACAGGTGTGTGCCACCGTGCCCAGCTAATTTTTATATTTTTT
Celera SNP ID:            hCV27004474
SNP Position Genomic:     23127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66151):
CTGAGCTTTAGAATGGATAGTTTTGATTAGCCGTTGATGGTGAAATATGTTTTAATATTGAATACACCCGTAACGTTTTCTGTTTGCCTTAGCTCTGTAA
Y
GCTGAAATTAACTTTGGCTGTAGGTTTGTTACTGTAACCTGGGATCACTTTTCTCTTTCTCACATTCCGTGTGACAGTGATGATGAATATTGCATTCTTT
Celera SNP ID:            hCV7490188
SNP Position Genomic:     23964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66152):
CATGCTTTCTTTTTCTTGGTGAGATTTTCCTGGATTGTCAGCTCCTTCCCCCTTCCTCCCCGTACGTGCTTTCAGTGAGACGGAACAGTTCATTTCTTCC
K
TGACTACAATTGAATAAACATTTCGTAATGACATTAAAAAGTATTGACTTTTGTGTCATAAGTACCAGCATTTGCAGCATTTTCTGACTGCATCGTTGCA
Celera SNP ID:            hCV3204001
SNP Position Genomic:     26595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   (T,-|G,-)   JBIG-allele(T,749|G,749)   total(T,749|G,749)    
SNP Type:                 INTRON


Gene Number:                 420
Celera Gene:                 hCG38007 - 104000117478587
Gene Symbol:                 SELP
Protein Name:                selectin P (granule membrane protein 140kDa, antigen CD62);CD62;CD62P;GMP140;GRMP;PADGEM;PSEL
Celera Genomic Axis:         GA_x5YUV32W2NG(7916628..7969951)
Chromosome:                  Chr1
OMIM number:                 173610
OMIM Information:            SELECTIN P;SELP


Genomic Sequence (SEQ ID NO:12580):
TCTATATATAAGATCATGTTGTCTGAAATCATAGACAAGTTCTTGTGATTTGGATGTCTTTTATTTCTTTCTCTTGCCCAATTACTCTGGCTTGGATTTC
CAGTACTGTGCTGCATAGAAGTGGCAAAAGTGAATATCCTTGCCTTGCTCCTGATCTTACAGGAAAAGCTTTCAACCTTTCACTATTGACTATAATGTTA
GCTGTGGGCTTATGTATATGGCCTTTATTTTGTTGAAGTTACTTTCTTTCCACACCTGAGGGTATTATTCCTTCCTATTGCCTGAGGGCACTATTCCTTC
TTTACCAATTGTTATCATAAAATTATGGTAAAATTTGTCAAATGCTTTTTCTGCATATATTGAGATGATTATATGGCTTTTGTCCTTCATTCTGCTAATG
TGTGTATCACATTTATAGATTTTCTTATGTTGAACCATCCTTGCATCCCAGGGGTAAATTACACATGATCATGGTGAATAATCCTTTTAATGTGATGTTG
TTGCTTTGTAGTTACTGTGAGACTTAGATAAAACATATAATAGTTATAACAGGCTATTTTAAGCTGATAAAATTTAACTTCAAGGATAAAAAAACTCCAC
ACTTTTACTCTCCCTCCACATTTTATAGGTTTTTAATATTTTTCAGACTTTATGTTTTTGATGTTATAATTTACATCTTTTATATTGTGTATCTGTTAAC
TTATTGTGGTTATAATTATTTTTAATAGTTTTGTCTTTTAACCTTCATTCTAAAGATATAAGTGATTTATACAGCACAATTATAATATTGGAAAATTCTG
AATTTGACTGTATTTTTATTTTTACCTGTGACTTTTATACTTTCGTAGATTTTCATGTAATTAATTAACATCCCTTTCTTTCAGCTTGAAGAATTCCCTT
TAACATTTCTTGTAAGGCAGGTCTCGTGTTGATGAACTACCTCAGCTTTTATTTGTTTGGGAAAGTCTTTATCTCTTCTTTATTTCTGAAGGATGGGACT
CTTGGTTGGCAGTTTTTTCTCTTTCAACACTTTGAATATATCATCTCACTCTCTCTGGGCCTAGAAGCATTCTGCTGAGAAATCTTGTGATAGCCTTATT
GCAATTCTTGTCTGTGATATGCTTCTTTTCTCTTGCTGATTTTAGGATCCTGTCTTTGTCTTTGATTTTTGATAGTTTGATTATTATGTCTTGGTGTAGT
CTTTTTTGGATTGAACCTGACTGGAGATTTTTAAGCTTCCTGTACCTGAATATTAATATTTTATTTCAGATTTGGGAAATTTTCAGCTAGCAATCTTTAA
ATATGCTTTCTGACCCCCTTTTCCTCTATTTTCTCCTTCTTAAACTACTGTAATGTGAACATTAGCTCTCTTTTTTAATTTTTAATTTAATTTTTGTTTT
TATTTTTTGAGATGCAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTTTGCCTTCTAGGTTGAAGAGATTCTG
CTGCCTCAGTCTCCCCAGTAGCTGGGATTACAGGCATGTGCCACAATCCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACTGGGTTTCACCATGTTGGT
CAGGCTGGTCTTGACTCCTGACCTCAGGTGATCCACTCACCTTGGCCTCCCAAAGCGCTGGGATTATGGCATGAGCCACTGAGTCTGGCTGAATGTTAGC
TCTCTTGATGCTGTCCCATAAATCTTGTAGGCTTTCATCATTTCTTTTCATTCTTTTTTCTCCTCTCACTGTATATTTTCAAAAACCTGTCTTCAGTTCA
CAGATTCTTTCTTCTGCTTGATCAAGTCTGCTACTGGTGATTTCTACTGCATTTCTCACTTCATTCATTATATTTTTCAGCTCCAATTTCTTTTATGATT
TCAATCTTTCTGTTACATTTCTTATGTTGTGCATTTATTGTTTCTCTGATTTCACCAAATTGTTTCTCTGTGTTTGCTTCAAAGTAACTGAGCTTCTTTA
AAAACAATTATCTTGAATCCATTGTCAGGCCATTTGTAGTACTCCATTTCTTTTGGGTCAGCTACTGGGAAATTATTGTGTTTCTTAGGTGGTGATATTT
TAATTTGGGTTTTCATGTTTCTTGCTGCCTTACACTGCTGTCTGAGCATCTGGTGGATCTGCCCCAATTTCAGGCTGTATGGGCTGACTTTGGTGGAGAA
ATACCTTCTTATGTGGAATAATGCGAGGATGCTGGCTGGGTGGGATGCAAAAGTTCTGACTTCAGTAGGGGCAAAGCTGTGTGGTCTCCATGCAGATCTG
TCAGCTGAGGTTGGTGTTAGTGAATACTACAGGGATCCTTAGAGGCCAACACTGTGGGTATCTACAGTGGCAATGAGGCTGTTGAGGTTTTCAATTGTGA
CAAGTCCTCCATATCTCTTTTTTTCCCCACCTGGGAAGTCATGACTGAGGACATCCCTCTTGGAATTAGGTCTAACTTGCAGGCCTGCTCCTGGTGGTGG
TGACACTGGTGTCTGATGAACAGTGCCCATGGAGTGGCCAAGAGCCAAGGCCTGAAGCATGGGCATGCATGGAGGGACCACAGCACCAGATTCAATTGTA
GCAATGGTACCAGTGCCCAAGGCACAGGCATACTTACTATCACATTGATAATGGTGTGTAAAATGCAGGTACTTATAAAGCAGCTAAGGAGCCAGGGACT
TTACTGCATGCATACGCAGAGCTACAGTGGCTCCAGGATCCAGGGTGTGGGCTAGCTCTCCTTGGTGGCTGAGCTGGTGACTAGAGCATGGACAGGCACA
GAGAAACCTTGACTCTAGGACCCAGGGTGTTCACTAGCTCACTATAGTGGTGGCTCTGGTGTTGGAGGTGTGGGTGTGTGTAGTACAGCCTCAGAGACAG
GGTCTGGAGCGCAGGTGTGCACATTACTACAGCAGCTCTGGAGTTGAGAATATGGGTTACCTTTCTACAGTGGCTGAACTAGTGTCTGGAGCAAAGACTT
TCACAGAGAGAACTTGGCTTGGGGTTCCAGGGTGAGATCTAGTTCACAACAGCAGTGACTCCAGTGTCTGAGACATGAGGAGGTGCACTGCAGCCACAGA
GCCACAGTCCAGAGTGTGAATATCTGTAGAGCAGCCACAACTTTTGGGGATCAGGAACACACATAGACTTGTGAGAGGTGGTAACCCTGGCCCCAGTCCT
GGGGCAGTGCAACAATAGCTGCTTCTTGGTGAGGGGGTGTGAGGGGTAGTGCAACTGTGTTTCCCTTTTTAGCATCCTGCTATGGGAATGGCTGTTGGAC
AAAAGATGCCAGTGTCCTCTGTGGAGCAGGACACTGGGGGCCTCAGTGGCTCTGTGTCACATGACTGACACAGATAGCCTACAAATTTCTTTATTCGTAG
CTATCTCCTGGTGTCTCATATATGCCAGTCTCACCGGTGATTCTTCTACATGGATATTCTTTCTTTTCTCCATTGTGTTGTTCCAAATTCTTTAACAGGC
TCTTGAGCCCCATCCCCCAACTCCCCACCCTTGTGAGGGCTATTTTGGTTTGTGTATAACTGTCTATGTTTGTTTTTTTGTTGGGGCATAAGGCTGACAT
CTCCTACTCCACCATCTTGCTAATGTCACCTGCATAGGAATCTTTTTATGCTTTCCTTATATTCACTAAAATTTAACAATATCAAACTTAAAAACATATG
ATCAATTGAACTTATTAATATCAAACTTATTATAAATAAGAAACTACCAGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAACATTTTGGGAGGCTGAG
GTGAAAGGATCACTTGAGCCCAGGAATTCAAGACCAGCCTGGGAAATATAGAGAGACCCTATCTCTAGAGATTTTTTTTTTTAATTAGCCAGTAGTGATG
GCACACATCTATAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGAATTGCTTGAGCCCAGGAGGTCAAGGCTGGAGCAAGCAGTAATCATGCCACTGCAC
TCCAGCCTGGGCCGCAGAGTGAGACCCTGTCTCAAAAAAAGAACCTACTAGTCTACATACCACACTTCCTCATCCCCATCTGAGACTATATATATTTTTT
CTAACATGAGGCAATGCCAAAAAGAGGGGCTGGTGAGTGAAAGTAAGAACAGAAAGACATGGAGGCAAGTCTTATAGAATAATAGCCAACACTTAAACTT
ACACTTAACAGCGTGATAGGTATTGTTCCAAACACATTAAATTCATTTAATGGTCCTTACATGTCTATGTATTTGGTGATTATTATCCTTATTATTCACA
TTGCTGAGTGTATTATTCTGTTCTCATGATGCTGATAGAGACATACCCGAGACTGGATAACTTATTAAAAAAAAAAAGGTTTAATGGACTCACAGTTCCA
CGTGGATGGGGAGTCCTCACAATCATGGTAGAAAGCAAAAGACACGTCTTACATGGCAGCAGGGAAGAGAGAGAAATGAGAACCAAACAAAAGGGGTTTC
CCCTTATAAAACCATCAGCTCTCATGCGACTTATTCACTACCATGAGAACAGTATGGGGGAAACCACCCCCATGATTCAATGATCTACCAGGTGCCTCCC
ACAACCTGTGGGAATTATGGGAGCTACAATTCCAGATGAGATTTGGGTGGGGACACAGCCAAACCACATCACTGAGGAAACTGAGTTATAGGGAGATTAG
TAACGCCCAACACAGCTGGTAGGTGGTGGAGCCAGGCAGTCTGACTCTAGGGTCTGGACTCTGAACTGCATCATGCTGCCAAGAAGTTCCTCATTTTTTC
CTCTCTCTAAGTTTCCCTTATTCCCCTACAGTCATTCCTTCAACAGCATTTCCTTCACCATCTTTTCTACTTCTACTATATAATTAATTTTTTCTTCTTG
GTCCCAAATTCCAACGTGCAAATGCAGCCTTATATACCCTAATTCATCTTTACCTTTAGACTTTCTTCCAATGTTTCTACTTCATTCCATTTTAAATTTA
TCCATGAGATGCCTATTTACAAGCTGTAACCATCATGAAGTGAATGAAGAATAATACCTACTACTGTACAATAGAATTCCAAGAGTATAAATAGGAGTTA
TGGCTTTCTGACTTGAAACTAAATACTTGATACTTGATTTTGCTGTCTGAGATCAATCTGAAAAGTAATAATAATCACTAACATTTGTTGAGCATCAATT
GTGGGCCAAGTGTCATTTCAATCACTCTGTACATATTAACTCATTTCATCCTACAACAACCCGGTGAGGCAAGTTCTGTTATTCTGTTTTACAGTTGAGG
AAACAGAGGCATAGAGAGCTTAAGTAGTTTGCCCAGTAGATAGCCAGAAGAGGAGCCAGGATGGGTCTCGGGCAGTTTAACAGCACAGCTGAAGTCTTAA
CCACTATGCCAACAGCTTTTTGGTCCTACACATCCCATGGGAAGAGGAAAATAAAAAGGTATCTATTTGTATACCTTTTTATTTCTGATATAAGAAGCAG
AATTCCTTTCACATGACCTATGTCTATTTAATACGTCATTTTGAAACTTACCAATAAAATTTCCCAAGCGCCAGAAAACTGTTAGTGGCTTTTTCCATTT
CTCTCTATTTTTTTTTGTGCTACTAATTTTGCTTCTTTCCCTCAGAAGGCTGCCGGAATAGTAAACATTCACTGACATGTCATAATTACTGGAAAATGGG
CACTGGAAAATCACATTGTAATTAATTCAAAGCATGTTTTCCAAATGTACTACTTTAAATTGGAGCTTATATCATAATCCAAGGAAACCTTTGTGTGTGT
ACTGTTCCCACATTGCTCAGCCTGGGATATCCAGGAGTAATTCACCTTGCGCCTGCCTCCAGACCATCTTCCATGGAAGGGGGTGACCCCTTGCCTCTTG
GCAACCACTATTTCTAAGCTGCCAACATTACTCTTGCATTATCAACATTCTAACTTCATGGGAAGGGCTGTGGTGAGTTTCTGGAATGTGAATAGGAAGT
TGTTTTTCTAAACAGCCTGACACTGAGGGGAGGCAGTGAGACTGTAAGCAGTCTGGGTTGGGCAGAAGGCAGAAAACCAGCAGAGTCACAGAGGAGATGG
TGAGTTTATTTTTTTCTGCATGGGAAGTGGTTGAAGTGAGTTGRAGTGGTATGGRGTAAAGTCAGGCAGGTAAAGGTTCAGAAAGTGAGGAACAGCGATA
GCCATGGAGTTTTATGTTGAATTGCCTATTAGATTTTGTGAGTACTTTTAAACTTGCTGTCCACTTTGACCCTCCCAACACCCTTGTGAGTTGAGGTTGC
TATTTCTATTTTACAAATAAAGCCATCGTGGTTTACAGAGGCTGTGTTTTATCTAAGCTTCACTGTTAGGCTACATGATGTTGGGATCTGGGGCCTGTCC
TCTGGCTCCGCAGSTGCTGTTCCTCCTACTAGAATTTATAGGGGMTCTCTGAGAATAGATCATGGTAAACCTGTCACCCCATTTTCCAAGACTGTACTTC
TCTCTGGGATAAATGATGGAATAAATGGAAGACTGGGTAGGTGCCCTGGGACAAGCTTACAATTGAATAGTTTCTCATCCCCATCCCTCCCATTTCTTTC
TGTGAGCCTATGAATCTTCTGGGACTGATCTGGAATATCCACATAGTTTCCTTTTCTGCCCTAAGACTCAATCTTGTTAATGACTCAGTTTCTTCTTCTA
TAAAATGGATATAGTAATAATACTCTATAGTTTCATCATGAGGATTAAATAAGATTTTGCTGAAAAGCATCCAGATCTGAGCCTGACACATAGTAAGTGA
TTAGTAAATGTTAGCCATTATTGTTACAATAAAAAGAAAATTCTTAGGAATAGTGGGGTTTAGGATTCAGGGAAGATCCAAGGATAGCTAGGCATTTTGA
ACTCAGCAATGTTATATGCTCATGGATAAGATGCACGTGGTTAGGCTACTTCTAATTCAGGGAAGATCCAAGGATAGCTAGGCATTTTGAACTCAGCAAT
GTTATATGCACCTAGATAAAATGCACATGGTTAAGCTACTTCCAATTTTCCTCAGACTTTCCAAGAGTATCCCACATAGTCCCAGGGTCCGAAATCCTGC
AGTCTGTGGCTATGGAGGAACCAGGCAGGTCTCTGTTTTTGAGCACCTTTCTGTGGGACTCCAGAAAAAAGTACCGCATACACCTGATTCATCCTACTGC
TTTGCTTTACTATAGCACACTTTTCAAGTACTTATAATGTGGGTTTCTGTGTTGGGGAAAACAGGAATAAGAGTATGATAAAGAGAAGAGGAAGGAGTTT
GAGCCTGTCTTAAGTTTGAACCACAATGACCTAAGGATATGAATTACTTTTGTCCTGTCTTTTTGCATGTCATACTTCTGAATTGGTTAACTTAAATGAG
CAGTTATTCCTCTCTTCCTTCTACTCTCCTTGGCATCCTCCTCTATTTCAAAGGTATGAACTTATTGGATCAGAGAGTTCTTTGAGATTTTGATGAAAGT
TACAACTTGTCTTTCCCAGATGAAAGCAAAAACATCGACATAAACACCAACCTTTAGAGACAACCACAGGAGGTTCCCAGACCTCCATGTGGATCCCAGG
GTAAGAACCCTTCTCGATTGCCTSCTGGGCTTTATGTTCAGAAGCCCCTCTCTTGGTACCCTGAAATTAGGCTTGAGCTCTACAGCGAAGTGCTAAGGCC
CCAGCCCTGGAATGGTTTTTAATATTTCAAAGACAAGACCTCTTCCTTTTCCTCTGAGCACATTTGGCCCCAAAGATTCAGAAACCTCAAACTGCCTGTG
TAAATTTTGCTTCAAGTTCAGAGAGTGGCTTTAATTAACTTTTAGGACCTGAGAAAATGAGGATAAGGTTTTTCTGGTGGGGTATTTTCAATCASATAGA
TCTCAGAGGAGTAGCTCTTGATTGGGAACTTATAGTTAAATTGCACTGATGTTTGTCAAAGTTTTAGCGGGCTATGGCCGGGCTCAGTGGCTCATGCCTG
TAATCCCAGCACTTTGGGAGGCCGAGGCGCATAGATCACTTGAAGTCGAGAGTTCAAGAGCAGCCTGGCCAACATGGTGAAACACCATATTTACTAAACT
TACAAAAACTGGCTGGGCATGTTGGCATGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGACAAWCTCTTGAACCCAGGAGGTGGAGGTGGCAG
TGAGTTGAGATCACACCACTGAACTCCAGCCTGGGTGACAGAGCAAGACTTGTCTCAAAAACAAAACAAAAAAAAAGTTTTAGTGGGCTAAGGAGCAGGT
CTGGATTTTCGTCCATTTATACCTTTTAACCACCTTATGTGGCTTCCAGTCCTTACTCTTCTTTTCATTACCTGTTTTTCAAAATGCAACTAAAATAGTT
CAGACTCTCCTGGGCTAGCCACCAGCTCTTAGAATGTGCATCTTCAGAGATCTTTAAGTAGAAGCTTATTGATCAAATCCTCAAAAATCAAAATGACTTA
CTACATAAAAAACTGTGTTTAGAAAAAACCCTGGACCTAAACCTAGAGAGTAGGCACACAGTGGTTTTATAAATGACATTCATTATATTGTCTTCAAGGT
GTCTAATCTTTTTGATTAAAAAGTAAATCAGAAACTTCATGAAGTCAAATACAGAGCAAATCCTCACTATTTGTAGAGATATAACTCATCTCTGATCCAA
TAGACTTTTTAAAAAATTTTAAGTGTCGTACTTTATTTTTAATGCTAATATTTTACTCAAAATAATGGCAATTGGTAGTCTAAATTAAATATATGCTTGG
ATTCTAAGTGTTGATGTCCTGGGTCCCTTCTTGTCTATATTCATAATTTGCTCTTTGGCTTAGAGACAACCTCTTTTCTCACTGTATTTCTTTTTCCACC
CCTAAGCTGGGCTACCAATATCTGTGCCACACCACTAACACCACCACYGTCCAGAAACATAAGGGAACTAATGTATTAGCTGTAATAGCTTGTAACATCT
GGGCTTTGCTACCAACAAGTTGTATAGTTCTGCATCCTCAACAACTCTCATATTCACCTCCCCTATTTGCATTCCCACTGATGCCAGACCAAACCWGTCC
CTCTTTAACTCTCACTGGGACCATTGCAATAGCCTCTTCTTTTGCAGTGCAATCTCCCTGATTGTAACTCATTTAAAAAAAAAAAAGTATCGCACTACTC
TCACCCCTATAATATCAGCATTTTTGGAGGCCAAAGAAAAAGTATTGCTTGAGCCCAGGGGCTCCAGGCCAGCCTGGGCAATATAGTGAGAACTTATCTC
TACAAAAAATTAGCCGGGTGTGGTGATGCATGCCTGTAGTCCCAGTTACTCAGGAGGCTGAGATGGGAAGATCACTTGAGGCCAGGAGGTGGAGGTTTCA
GTGAACCCAGATCATGCCACTGCACTTCAGCCTGGGCAACAGAGCAAGACCCTGTCCCCCAGCCCCACAAAAAAAATCATACCACCATTAAGTGCATGTG
TTCATGATACTTCTCTGTTCAGAAGTATCCCTTCTGCCAACTGGTATTTGTGACCCACAAGATATGGTCTCAAACTACCTTTTCAGTTAACCTCTAGGAT
CTCCCAATCTTCAGCAGGCTGGAGTGCAGTAGTGCCATCTCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTYCTGAG
TAGCTGGGATTASAGGSATRHRCCACCATGCCCAGCTAATTTTTGTATTTTTTAGTGGAGTTGGTTTCGCCATGTTGGCAAGGCTGGTCTTGAACTTCTG
ACCTCAAGGGATCTGCCTGCCTTGGCCTCATAAAGTGTTGGGATTACAGATGTGAGCCACCGTGCCCAGCTTCCGTTGGCTTATCATTGCACTTAGAATA
AAATCTCATCCCCTTGTTTTGGATCCCAAAGCCCGATGTGATCTGTCACTACCCCCGGCTCRTATTTTTCTCTCCATTGCTCATTCCATTCTGGCCACAC
TAATGTCTTCATGTTCTTTGAACACACTGCAGTTTGCTTCCACCTTAAGGCCTTTGAAATAGCTTTTTCTTCTTCCTTTAATGCTCTTCTTCCTGCTTCT
CACTGGCTGGTTTCTTGCAGTCATTCTTCTCTCCACTTAAACATTATCTCATTAAWGAGGTCTTCCCTGACGTTCCTGACCAACATAGTGACACAGTCAT
TCTATCACATAAGTTTCATTTCCTACCTAGCACTTATGGCTATATTCTGTTAATATTTTTCATGTTTACTTGTTTAGTACTGTTGTGTAGTTATTAGTAT
TTGTTTCATTGTCTTCTCTACCAATAGAATGTGCATTCTATGAGGACTGGAATTATGTCTGTTTTCACCATTTTATTTGTTCACTTAGCTATTATCACTA
CTGTAAAAGTAATGCATTCAGTTATAATTATTATGTATTTTTCCAACATTTTCTTATTTAGCATATTTTTGTCTTACTTTCAGTTATTCCTCTGCCATTA
TTCATTCATATATTTATCCATAAAATGTTTATTGAGTATTGAGTATGTGCCCTACCATGGCTGGGGATTCAGACCTGAGTAAGTAATAGTCCTTGCCCTT
GAGAAGCCTCTGTCAGTAGCTTCCTCAGCTGTATGCTCACATGTTTGTTGCGCATTTAAATTGTGGACCTCCTGCTCAAGAGAATATTCAGAAACGGAGA
TGCTGATTAGAGGACAYTGGAAACAGATGACCATAAGGAGGTCATCTTTACTTCCCAGGAAAGCAGAAGAATGAGAAGAGAATAGGGCCATGGAGGTGGG
AACCTAGAGAAACACTTACCTCTGCAAGGGAAGGCAGAGGATTGAGGTAGATTCAGAAGAAGACTCAGAAAAGTTTCTCAAACATTAGAGCAGAAGAACA
ACAGAAGAGCTAAGGGAAGCATTTTAGGCAAAAGGAAGTAGTGGTATTTACTGCTACAGAAAGGTCAAGGAAGATAAGGGTGGAAAGTCTTCATTTGGTT
TGGTAATGAGGATGTCAGCAATGAAGTTTGCAGGGACACTTTGATAGGATGGTCGGGCAGTGGGCTGGAGAGTAAGGGGGAGGCAAGGAAGTTAAGAAAG
TTTAGCTATAAGAGGAAGGAGAGAAACAGGCAGATGTGGGCAGGAGGACAAAGGGTCAAGGGAGGGACATTGTTTGATTCCGCCTTTCTAAAAGCACAAA
GCTGTGGTCTACAATGTAGACAAAAAGAACAAGATCTCCTTTCTGTGGCACTATTCTTGCCAACTTTGTAAGCCACCTGGAACGTGGCAAGCCATGGGAC
ACCTACTAGCCTCTGGTACCTCCTTGTGTGAAAAGTTAGGTCAAGGCATTTGCTTCTTCCACTTTCTCTCTGCTTTTCTCTTCACCCTGCAATCATTATT
AGTTTTTTTGCTTGTTTGTTTGTTTTGTTTTTTGAGAAAGAGTCTCACTCTGTTGCCAAGGCTGGAGTGTCTCGGCTCACTGCCACCTCTGCCTTCTGGG
TTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGACATGTGCCACTATGCCTGGCTAATTTTTGCATTTTTAGTAGAGACGAGGTTT
TACCATGTTGCCAGGCTGTTCTCGAACTCCTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGRGATTAGAGGCATGAGCCACTGCACCAG
CCCAGTTCTTTATTAAAGTAAAATTAAAGATAATCATGGTACTTAATGAAGGCTTACACAGGCACAGGATGTTATTCTAATGACCCAGTCTCTGACTCCT
TTCCAGCAACTTCCAGTTGAACCAGCCTTCCAGAGAACATTAAAGACTAGCAGAGCATGTGGATGCTTCTAGAGAGGAATTTCCTCTTGTTTTAGTATTT
AACTTGCTTAGTAACACAGGACAGAGCAGCATCCTGCAGACTATAATGCAGAGTAGGAGCAGGTATGAGAAGGCCTGCCCACCCCAAGCAGGTTTCAGAG
GAAAACTGTTACTCAAAGAAGATTTTTAAACATCATCCATTCTCCATACCTCCACACAAAATCCCTATCAGTTGCCTTACAGTTAACACAGAATCTTGAA
CTTGGGCCACATTAAACATGGACAGACTTAGTAGGTCATGAACCATCTGAGATTCTCTAAACTACTGCAAGCATGCATTTGTTTTGAAGAAATCTGACCA
CGGCTTTTATCAGATTTTCAAAATTCATAAGCCCTGGAAGAATAAGAATAACTGTGTTAACCCTATGCACATTCATGTGAGCAAGCTTGGGCAAATCATT
TACGCTCACTGAGTCTCAGTGGTGGGGAGTGGTGGCTGCCCCATCTTAGGCATTCGAAGTCTGAAAGACTTCCTGCAGAACAGCAGATAAATGCTAAGTT
GGCTTGGAAGTGACCTTTATGKTCTCCYATAGCTCTGAAATAACCTGTAAGAGGTGAATCTTGGTATTTGGTGATGCATAGAAACAGAAAAGTATGTCAG
ATTAAAGCAGGGGATGCACACTGACTTGCATTTTCCTTTCTTAGATGTTGTGCCTTCATCAAAAGCACTGTACCAGTCCTCTAAAACCTTCAAATGTTTA
AAACAAGTTGTCTCGCTCTCTCTCACTTTGTTTTATCTTGTGTGGTAGAGAATTTGCTGATGAAATTTTGCTTAAAAAAAGTTCAAACAAACAAACAAAC
AGGTTAAAATGGGAAACATCTCTTTTTGGAAATTTTGTTTAAACCAAATCTTATTTAAAAGTTTAAACAAACAAGTCAAAGCAGGAAACAGTGGGTAGGG
TTGGCCACTGTGATGGGAGACTGGGAGCCTCACCGACTCCTTCGCCCTACACACTCTTGTGAGCTGGCCCCAAAGCCAGGGAAATCCCTAGAAATAMKCT
GTTCAGGGAGAAAACCACTTCCACAGGAAGAGTACCACTAAATTTAAAATCGTTGCACTCCTTCTGCAATCTGTCTGAATAGAGGCAAAGCCCAGGTTCA
AAGGCAAGCACTCAGGTCCCCTTCATGAAGGCTGCAGAGTTGTGCTCTTCAGCAGCAATATTTTTGCTCCTATACCTCCAAAAATATCCTGGAACACTAT
GTTACCTCTTACACCTTTCTAAGTGGAAAGCTACAATTTTTTATCCCAAATTTTAAAAGCAAAAGAAGATTGGATTTTCCAGTGTATTACAAAAATTAGA
CKGTAAAAATAAAATTGTTACATAATTTCTTAAAGTTTATCCAATGGAATAAAGTACTAGCATGATCTGCAATCCTCATCACTTAAAAGACCACAAGCAG
GCTCTTAAGAAATTTTATATTATTCATTTTTCTCTCCTTGAATAGTTATTTCTATCCCACTTCTACAGTATTTAGCCTAAGATTACACATTTTAAGCTTA
AAGTATTTTCTTGATTATTATACTTCTTTGCAAAATAAAAATATAAAATTTCAATTTTCTACAACTGTAAGTCTCTATGTGTTAAAATGTTTTTCTTTTC
TATTGAGTTAGCATKACAACTACTTTCAGTACACAATTAAATAAAGTAAATATACTRCAAGTTTTGACAAGTAACTTAAAMCTTTATATTTAAATTGCTA
TTAAAGATTCATCTCTAAGACAGGAGGAGCTTTCCCTCATTTGTTCATATATCCATGAATGAATATTACTTATCAACAAAATTAGACAAGTTTGGCATCA
ATATTAYTCCCATATTTCATTTTCAAGGATTTAAACATTGAGAAACTTCATTCATATGAATAAGTAAATGGAATTAGAAGTTTTATTATAGCAATGTCTC
AATTCCTTGAAGTCCTTCCAAGTTATATGCCCCAAATTATATAGTGATTTACTATCAAAATKTAGTCAGACTTGACAACTTAATCGGGTGCTCCCTCAAA
GCTGATGAAAGGAAATAAATGGAAATCACTAGACTTGAAAACGGATTTGCTGCAATATCATTTACAATATTCAAATTCTTAATACCTATACCAATATTTC
GAATCATCTCTGGCATACGAATGTATTTATATCCAARGGCAAAGCTCTGGAATAAATAAGAAATTAGTAAAAGGTAYAATTTTTCTCTTATAAAGTGGRA
GAAAGGTGTATTTTAGGCAGATTGTTTTTAAGAAAGTATATATGTGAAAGTTGAGAATCTGAATACAGATTTAATTAACACTCTCTTTGCTTGTGAACCC
CTTGGGAAGTCAGCCTTATCCTGGTTTGAAGAATTCCACTTCAGCRTTTGGAATGGTGCATTTTGAAATGTGATAGGAAGAACAGCTTGTGACACAACAC
AATTCAGAGAAAGCAGYGGGGTTAGGTTCRCACCAAAGGGTTATCGATCACTCTGCATTTTGTGCAAATAAACAGCTGTAAATCATAACGTTATGATACT
CTCAGTGTTTAATCATAGGTCCTGCAGAGATCAGCAGCTTATAAGAAYACAAAATATGCCTACTTACCAAAGTCAAGATTCAGAAGCTCCCAGATGAARA
GTTCTAGGCTTATGAGATAACTCTACTCTCTGGGACACATTAACTGGTTTGAGTTGAGTTCTCCCTGGTATCTGGTCAGGCTGTAGTCAAAAGTGCATGA
ACACATGCACACACAYGACCCCACACTGTCCCATGCACCCTACTGGGCGTGACACATACACAACCCCACACTGTCCCATGCACCCTACATAATCCATCAC
TGGGCGTGACACACACACACACACACACACACACACACACACAACCTCACACTGTCCCATGCACCCTACATCATCCATCACTGGGTGTGACACACACATA
CACACAATCCCACACTGTCCCATGCACCCTACATCATCCATCACCAGGACATGATACATGAACACACACACAACACCACACAGTCCCATGCACCCTACAT
CATCCATCACTGGGGTGTGACACAAACACACACACACACAACTCCACACCATCCCATGCACCCTACATCATCCATCACTGGGGCATGACACACGAACACA
CACACAACCCCACACAGTCCCATGCACCCTACATCTCATCACTGGGGTGTGACACACACACACACACACACACACACAACTCCACACCATCCCATGCACC
CTACATCATCCGTCACTGTGGCATGACACACACATACACACAGAACCCCACACTGTCCCATCCACCCTACATTATCCATCACTGTGGCATGACACACACA
CACACACACACACACACACACAGAACCCCACACTGTCCCATGCACCCTACATCATCCATCACTGGGGCATGACACACGCATACATACACAACTCCACACA
GTCCCATGCAGCCTACATCATCCATCACTGTGGCATGACACATACACACACACACACACACACACACACACACACACACAACCCCACACCGTCCCATGCA
CCCTACATCATCCATCACTGGGGCATGACACACGAACATACACACAACCGCACACCGTCCCATGCACGCTACATCATCCATCACTGGGGCATGACACACG
AACACACACATAACCTCGCAGCAAATTGTCACAGACCAAATTGTGGTCTGAGGCAATTTGAGATTTCTTTACAGGAAAGGTTTTAGGTAGCAGTCTGGCT
GGGATAGTGACAAAACTGCAAATGCATAGCAAATGCACTGTTTTTATGTTGATAGTAATGTTGAGTGGCTTTAGAGGGGAACTGATGTAGCAGCTAGGCT
TGGTCATGTCGCATGCTTTATCATCCAAAACAGCAATGCAGCATGGGATTTAGAAGCCTGGAGGTTAATGAAGGTTAAAAAAAAAAAAAAAAAAAAGTAC
AGTGGAAAGAGCTCTTTCTTGTTTCAAAGTCAAGCTCTGCTACTGTCATTCTGAACGTGTTATTTAGATGCCCCAAGCTTCAGTATTTTCATGTGCAACA
TGAGGAAGTCGGACAAGATGAGCATCACTAGAACTTAGATGCCCAAAAACATTTTTTGTTGTTTTTTTGAGACGGAGTCTTGCACTGTCGCCCCGGATAG
AGTGCAGTGGTGTGATCTCCGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCGACCTCCCAAGGAGCTGGGATTACAAGCACCCG
CCACCACACCTGTCTAATTTTTTTTTAATGTACTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAATTCCTGACCTCAKGATCCGC
CCACCTCAGCCTCYCRAAGTGCTGGSATTACAGGCATGAGCCACTGTGCCTGGCCCCAAAAACATTTTAAAAATATTCATAGATTTGATGAAATCCCAAC
AGAAGAGAGTTCATGAGAAATAATAGTTGCTATAGATCCAAGGGGAACAAGTTTACTGCATATATTAAGAAATATTAAATATATACATACATATGTATAT
TAAACATTGAATAGTATTGTAGATGTGTACAGAAATGAAAAAGCAAGAAGATAAAACAAAGATCCATAGTACAAAATAGATGGCATAGCATAACACAATT
TGTTGATGCTCTGCACCTCAAAGTATAGGTTAGACATTATTTGTGTGGGTCAGGAAGTTCTCATGTGACTTTCTGTTATTCTTGGGTATGACATACCACT
TCTTAAAAAGATTGTTTTATAATAATAATGACAGCCATATTAATGTGTTTAGCTTTCTTCCATACACATTAAAAATGTATCTTAAAATAAAAACATTGGT
GGCACAAACTACTCAATAAACATTTGTTGAATGAATGAAGAAATGAACTCTGTCCCCAGCCTTGCTACAGTGTCCATCCAGGGTAGAACTTAGAAGCAGG
GCAATGAGAAGCAAGAAGGAAGCAGAGGGCTTGAACCACTCTTCCAGTGGAAATTGGCACAATTATACTTCAACATAATGATTGTTAACTAGAATTATTT
TTGGCCATGTTGGTGGTGTATGGATACTAAAAGAAAGTTTTCTCTTCTTGTTTCAGGCCAACTGCCAAATAGCCATCTTGTACCAGAGATTCCAGAGAGT
GGTCTTTGGAATTTCCCAACTCCTTTGCTTCAGTGCCCTGATCTCTGGTAAACTTTATGYTAACTTTTCACTTAGGCCTAAGTAATTAGGGTAGAGCCCA
GATCTATGTGTGAGAAATTTAAGGATTGTAGCCAGTTGGTTTGAGGCATGGGAAAACTGTCCAAGTCCAGATTGCTGGAAGACAAATGTACCYAACGCCA
TCATATTGGTAGAAAGGGCATAGGAAAGAACTTAAAATGATATATCCAGGACGAATGTATCCATTAGGCACAGTAGACACAGACGCACAAAATTTTYAAA
GACCCACACAYGTCTGAATTTCTTTTATAATTATTTTCTTTGAAGTCAAAGAAAATGTTTTAATATATAGTGATATATTCATCTTTGTACCAGTGCAGTT
GCAAAATAGAATTTTTAATATGTTAGCATGGAGGAAGAAGCCTACATAGGCAAAGTTGCCTGAAGTCTATGAAAGTCATRATGCAGCCCTGGCTATATCA
GAATGAAGTCTTTAAGGCAAAACAATGCCCTGGAAATGTCAGCAAGGGAGGTACAAGCATGACTAACCCTCATGCAGGCAGCAGAGGAGAGGGTTGGATA
GAAACAAGCCTTTAAATAAACAGGAAAGAAACCCATTTCCAGGCCTGATTGCTTGCTTTGTACACCTCTTCATGTGGGAAATGGCCTCTCCTGCCCCGGG
TGGACTCCCAYAGACTATGATAAGAGTGCTGTAGTACCTTTATACTTTTGAAACGCACATTCTTTAGTTCATTTGGTATCAAAAACACTTGTGAAAAAGG
GCTGTTCTGAGCCCTATCTTAATAAGGGAGTATTCAGACATGGAAGAAGTAGAGTAGTTAATGAAAGACAAACAGCCAAGAAGAATGGAAAGACTATAAG
ATTGYAGATCAGGATATCTGATTTCCCACCCGGGTTCTGCCACAAACCTACTGTGTTTCACTCATTCAACAAGTATTTATTGAAGGCCTATTAAGTGCTA
AACTCTAGGCTCAGTGCTAAGGATCCAAAGCTAAAAAGAAAACACCGTCGGAGATTTACAACCTGGCAGATGTAGMCTGTATCATAGAAACAGACATTAC
CGTACATGGCAATGAGCACAATGGAGGCAGGGATGAGGTGCTGTGGGAGCCTGGAGGAAGGAACACAGAGTCCACCTGGGAAAGCCATGGAGAATAGGTG
GAGTAAAGTTTATCAGACATAAGAAGAGAGGACAGCCAGGATTGTGGGGAGAGCATGTGCAAATTCAAGGAAGTAGGAATTCTGTTTTGCTGAGAAAGTA
CATACAGTGGGCAATGAGGCTGGACCAACTGGTAGGCTCCAGGTCATAAAGCATGTTATTTTCCATGTGAAGAGGTAGAGCYTGCCCTTAAGACATTTTA
TATGTCATTTAATCTGAGCTTGGGCAAATTACTTATGTCTCCTTCTTTTATAAAAGGACAGGAGTAARTTAGATGACTTCYAGGGTCCCTCCTAACTTTG
ATATCTTATGATTCCAAACCTTTAACATCAAGGATCCTCAGAAGATGACATTTTCCTATTCTGACATCATTCACACTTTTAAGTGAAAGGTGGAAACCAC
TCTTTTTCCTTCAAACAACTACATTAGACATAAACTAGTCGTTGTTTTGTGTATTAATGTTCTGGTCGGAAATTCATCTGAGTATGCAGAAGCATACTTG
GGATCACGGCCTCTTTTTTGGTGAGGGGTACTAACCTGGCACTCMCTCTCCTTTACTCTAGAACTAACAAACCAGAAAGAAGTGGCAGCATGGACTTATC
ATTACAGCACAAAAGCATACTCATGGAATATTTCCCGTAAATACTGCCAGAATCGCTACACAGACTTAGTGGCCATCCAGAATAAAAATGAAATTGATTA
CCTCAATAAGGTCCTACCCTACTACAGCTCCTACTACTGGATTGGGATCCGAAAGAACAATAAGACATGGACATGGGTGGGAACCAAAAAGGCTCTCACC
AACGAGGCTGAGAACTGGGCTGATAATGAACCTAACAACAAAAGGAACAACGAGGACTGCGTGGAGATATACATCAAGAGTCCRTCAGCCCCTGGCAAGT
GGAATGATGAGCACTGCTTGAAGAAAAAGCACGCATTGTGTTACACAGGTAGGGCCTTCTCTACTTTGAAACTTTCCTGTTAAAAAAAAAAAACCCTGCC
TTCTCTGGTTGGCCAACATAACCACCGAGTCAACACAAAGATACAAAGGCAGGACATGAAATCAAGGGGTAAATTGTTAGTCAATCAGTATTATTGAGCA
CCTTGAAGAATATAAGATCAGAATTAGAGAAAACTAGCTGCTTAAAACTAGAGGGAAATTTTAATATCATCCAGCTCACCTGTCTCATCTTATAAMTGAT
GAAAAGGACACTCACGAGGTTTTAGTTTCTCAAGGCCGTGGAGCAGGACAGAAGCAAAGTGAGGACCAGAAACCAGTCTCCCAAATTTTAGGTGTAGAGC
TTTTTTTTCACCCCTGTGTCTTGTATAACAGAGAGTGTAAATTGGAAGGAAATTTAGCCCTGCCCCTAGGTGACACAGCTGTAACTAATAGCTACTGAAT
GTCAGTATGCTCTAGGCATTGTGTTATTAGTTTATTTAGTTCATGTGTCATTTGCTCATTTAATATTAGTCAAATTTAGTCCTCATGACAACTCCATCAG
TCAGGTTTTTCTATTACTCTTACTTTGCTGATGAGGGAAAGGCTCAGAGCTATTAAGTAATCTGCCCAGGGTTCTAAGCTAGTTGATGGTGGAGCCAGTT
TCACACTCATGTTGATTCCAAAGTTGGTGTTTTTTAGCCATGTAAACTACCACATTCTTTGCTCTACATTTTTATGAGACAATTTGAGAATATAACCAAG
GATTGTAAATGCTTTATAGTTTCTCTTCAACAACAACATATCTTTAGATCCATTGAACTTTGGTGGGAGGGTAGTGGTGGGGAGTGGGCAGGAAAGGAAA
GAAGTAATTGAAGGTGAAATACTTCGAGTGTATTTTAATTCTCAACTTTACCAGTGCCAGAGTAAGCAGACATTCCTGAAAGCTTGGTCTTCCTCTAGTC
ACGAGCCTAGTGTCAGAGCTGATTCCTTCTTTCTGATGTTGCTTCCCTGTCCAGAGGGGCCGGTTCTGTCCTTTGTAGCACACGAACACTGTGCCTAAGG
ATGGTATGGACTGCCCCGAGCAGGAAGTTTCTAAGTACTCTGAAGCTTCTTTGATAAATCATCTGCCATACATATTCTGAATTCTTTAGATTTTAAACAC
CTCTCCCTCAGAAGCCCTCAACAGTACAGGTATGGAACAGAATACACAGAATAAAGCAAGCCTTCTACATTGTCCCTCTTCTCCCCAAGCCTCCTAGCTG
AGGCAAAACATATCCATGAATGCATTATCATATAATCAGATCTACTTTATAAATAATGCATTTATATATAAATAAATTGATTAATTGAGCATATATTCAT
GGATCAGGATGGACATTACCAGGATATTAGCTCATCCTACTGCTCTCCCAGTCAGCTCTCTACCCCTTTCTGGGCTATGCCTCCCTAGAATTATCTCTTA
TCAGATAACCTTGACTGCCACTAGCTGTTTCAATATGCCACTACTTCCCCTTCACACCCAACCTTCAAAATCCATTTCTGCAAGACAGTCTTCCTCAATA
AAGCTTGCCAAAAAAATTGCAAGATAGAAAAAAGATAAAAAATTACTGGCATAAATGATGACACTCCTCTAACCCACAACAGTGGTAGAGACATCACTAA
TTAATACAACTTTACCTGAACACAGATGGGTTTTATCTCCACCAACACAGTACTCTAAGCAGCCACTACCATTGATTGTCGTTTTGCCATCTRAGATGTA
AAGGATGTAGAGAAGCATCAATTATCCATGGGAGATGAGAAATAGATATATTTACTGTAATATGAAATTAAGTTTGATTGTTGGAATAATTCTCCACATG
TCAGGAATTATTAGACCTCAGAGCAGGCTATCGAAAAAAGATTTATTCATTGAATCATCATGAATAAATCATCTTCTCCCTGGAGATCCAAAGGAATAGA
CAAATTGCTAACCTATCTATTCAGGAAACCCTGAAATGGGATAGAATACAGAACATTGTCTCTTTTTTTCCCCTAGAGTTCTGAGATCCCAAGGAAGCTA
TAATTGGGGAAACATTTGTATGCTCCAAGAACATAGGGCAGGCAGGGGTTGCTACTGTAAGGTATTAAGACATTGGTGGGGTTAAGGTCAGGGAGCGAAG
TGAATAGGATGTGGACCAAACCTGTATCCATTTAGCTGCTATTGCCTCCTACATCTTCTCTTTATTTGAACCCTTCCCAGTGTCTCAGTGCAGCTTCACC
AAATTCACTGGCTGCCAYAGGAACTTCTTCCTATAGAACCTTGCATGGTTTATAGAATTTTAGTATCTCAGAATTGAGAGGAAACATAGAGATCATGTAG
CACAGCATATCCACATATGACATATGGATATTCTTTTGTAATATACTTCCAAGTGAACCAGCATGTGGACAGGGCTTAAGACAGAGGAAGTAACCACCAG
AAAACAGTTCAGCCATAGAACTTACCCCCAACTATGACCTCATTAATAAAAACATCTCAGTGCTTTGAAAGTATCAATTCTAATACTAATTCTCATCAAG
TGCATATACCCTAAAATACTTTCTTGCAGGAAAGAAACCATGGCCCTTCTCTATTCTGTCACCTGAGTGGCACTATCTTGGTGAAGAGGACATGGCAGTT
CAGCCATAGTCAGTACTCTCTTCGCCTGCTGTATTCAGACTCATGAAACATCACCTCATAAGATTGTTTGTCCTTTACCATGAGTACGTCTTAAACATCT
CATTTGGCTCCTCTGTTTCTCCACTGTAGGATTCTGGACATAGATTTGAAGCAAATGAAAGGTGAAAGGGTTTGGGCTCTAACACTGTGCAAGCTGAGCT
CAGAGAAGTAACTTGCCTAAGGTCACATAGCAAGTAGGCAGCAGAGCCAGGATTCATATCACACCTGTGTGACCCCACGCCCCACATCTGGTGCCTAACC
TCAATGCAGTAATACGTGACATTGGGCTTCCATAATAAAACAATGCTTGGTTTGAAAACCACAGCCCATTTTGTACCACATAGGGTTTCTCTGTCCACAC
ATCTGTCATTGGCTCCATTTGTCCCTCTGTGTCCACACACAACAATACCCTCCTTAGGAAATACTAAATGCAGTATGAAATGGGAGCCACGCAATACTCC
AGCAGGCCCCTACAATGCTTTTCACAAGGGACAGGTTGGCTCTCTAGAAGATACTGTGCTTCCCTCTTGTCTGGCTAGCTCAGTCCTATCTGAGAGGGGA
TGAGTCTGTGGTCAAAACGAGAATTCAGCCTTTCCTCACATCTGTGAATGTCCATGACTCTGACCTTTCCATATCTATGCAGCCTCCTGCCAGGACATGT
CCTGCAGCAAACAAGGAGAGTGCCTCGAGACCATCGGGAACTACACCTGCTCCTGTTACCCTGGATTCTATGGGCCAGAATGTGAATACGGTGAGGCTTC
CTTTTTGTTGATATTATTTTGGTTTTATGCTAGAGATGATGCCAAGAAGTAAATAAATCATGTTGAAGTCTCTCCAGTGAGAATAGRATGGTACCAGCCC
CCCTCTATCATCTGTCTCCTCCACTCAGTGTCCCTAGACACACACTCTAGGTAAAAACATTTTATTCTTGGGAGAAAACATTGACTCATAAATTTCAAAA
AAGAAAAGGGAAAGGGAAAGGAAGCAAAACCAACAGAACTTTCAGGCTAATTTTACTTGTTTGAAGTAAAAACTTGTGAAAGAATGACTATTTCCCAAGA
TGCAGCCAATACAAAGAGACCAAGTAGAGATGGATAGCTTGGGTTAAAAGTTTAGAAAATTAGAGTTAAGAGGGTTACACAAATAGTTACAGCTTTCAGC
AAACATGACATTSCTGTTAATTCTACATGGAAAATAAAAATCACTATTTTGTCTCCTGCAGTGAGAGAGTGTGGAGAACTTGAGCTCCCTCAACACRTGC
TCATGAACTGCAGCCAYCCTCTGGGAAACTTCTCTTTTAACTCGCAGTGCAGCTTCCACTGCACTGACGGGTACCAAGTAAATGGGCCCAGCAAGCTGGA
ATGCTTGGCTTCTGGAATCTGGACAAATAAGCCTCCACAGTGTTTAGGTATGTAGACCTTATTCTTTTCATCCTCACTGACATAGAATTTTGGGGGAGAA
GAGGACACAATGAGCTTTCTCCATTAAAAAATGTGAGAAATAATGACCATCTAGGTTAGATGGAAAACTCTGGTTATCACTGTTAACTGTCAACCAGAGT
AACATTAATTTCAATTTTCATGGTATTTTTTTATGGGTAGAGTGACTTAGTCAGTTTAATTGTTGATTCGCAGGCAAAAACATTACAAAGGGACCCCTCT
TTCCCTTTGTTAATTGTAAAGTAAACAGAGTACAATGATGAGGACTTAGGGGTTAAGAATTATTAATTTGATAATTTTACCTAACTTCTCTACATGAAAA
ACAAGGGTGTTTGATCTTTCCAAGCAGCTATTGAAAACACCATTTAACCATTCTAGTGCATCAACCTGCCTGCCACTTTGGGAAGGTGTGACTGCTGCAG
AATTTGAAGGCTTCCAAGGTGATGGACAAAATTTGTCCAAGGACTCACACTATTATTCTGTGGTTGGTTTTAGCTGCCCAGTGCCCACCCCTGAAGATTC
CTGAACGAGGAAACATGAYCTGCCTTCATTCTGCAAAAGCATTCCAGCATCAGTCTAGCTGCAGCTTCAGTTGTGAAGAGGGATTTGCATTAGTTGGACY
GGAAGTGGTGCAATGCACAGCCTCGGGGGTATGGACAGCCCCAGCCCCAGTGTGTAAAGGTGAGTTTCAGGTAGTTGGGATGTATAATGTCCATTGCACC
CAGTCCTTACTTAGTGCATAGATGAAATTGACCAGCTTATGGAGAAGCTGGCCTGAATTGCCAAAATTTAATTCTCTTCCTACCTGCCATTCAGCTAGAT
TGGGTTCATCTGAGATGAGAAAGGAAAAAAATTCCTTTCTTTCCCCAAACACAAATGCAGGCAGTTTCAGAATGGCCTCATTCATAATTTCCCCATAAGA
TTAGAAAGGGTGGCCTCTACATCTATAAGTGGACACTAGAAGACCTACTGAGACAGGTTTATAGAAGTATAGGGAATAGAGGACATTAAGAATACAGCTT
GGAGGAATCTTTGTTTTTAACAGACTCAGATCACCCTGGGAACTGGTAATCCAAGTCTGGACAAACATCATTAGGGTCTCTTGACCTTTACATCTTGCTA
GCTCCACCTGCATTTCAGAGGTGGTTCCACCATTGCTCTCTGTGTGGCTTTTCTCCTTTCTCAGTATCTTTCTCTTTATCCTTGGTTATTCTCTCCAGCT
GTGCAGTGTCAGCACCTGGAAGCCCCCARTGAAGGAACCATGGACTGTGTTCATCCGCTCACTGCTTTTGCCTATGGCTCCAGCTGTAAATTTGAGTGCC
AGCCCGGCTACAGAGTGAGGGGCTTGGACRTGCTCCGCTGCATTGACTCTGGACACTGGTCTGCACCCTTGCCAACCTGTGAGGGTAGGATTTTTCATTA
GCAACCTCCATTCTGTCCAAGAAGGAATCATGGCATGGTAGAGAGGCCAAGGGCTCTCAGTGTCGGGGTGATCTCTTCTAAGTTCTTGCACTAGAGCAAG
CTCTTCAACCTCCAGGAACCATGGTTTTCTCATCTGTGAAATGGAGCTAAGAATTGCAAGGTGCTTGTGAGGATTAAGTACATAAAAAGTATACAATTAA
ATAGCATGTATAAAGTACCTAGCATAGAGCTTCTGCTCTACTGACATATCCGAGGTATAGGACCATGTCCTATACTTGAGAGGGAGTTGGGAGCAGCGGC
TAAGGTGGCTAAAGAGAGTGGTTCACCATGTAGTCTTTGAGGGTAGCCTTTGACAAAGAAGCAAAGGAAGGAACACTGCATCGAAAAAGTGTGTGATGCA
ATCCCAGGCAATTACATAATTCCRCCAAAATGAATTCTCTGCAATTGCCTCACACCCTCAGTTTATAAGGCGGACAGTGGTAATGGGAGAATAGGAAATT
TACGATAGATTAGTGAATTCCCAGACCTGGATGACAAGCCCAACCCTGCTACTATCTAGCTATGAGACTTTAGAGAAGTCACTTAACACTTCTGAACCTC
ACTTTTCTTGCCTAAAACATAAGAGAGAAGAGAGAAACACTAGAGGATTTTGGTGTTTTTGTTTGTTTGTTTGTTTGTTTGTTTRTTTGTTTGTTTTGAG
ACASAGTCTCACTCTGTCGCCCAGGCTGRAGTGCAGTGGCRCGATCTCAGCTCASTGCAACCTCYGCCTCCCARGTTCAARCGATTCTCCTGCCTCAGCC
TCCCGAATAGCTAGGATTACAGGCAACTTTTTGTATTTTTAATAGAGACTAGGGTTTCACCACTTTGGCCAGGCTGGTCTCAAACTCCCGACCTCAAGTG
ATTCACTCACATCAGCCTCTCAAAGTGCTGGGATTATAGGTGTGAGCCATTGTGCTCAGCYGGATTTTTGGTTCTTAAATGCTCTGAGTCTGTAAAAACC
AGAGGTCAAAGCCCAGAGCAAAGAGGTAGTCTTTACACTTTGAAAAGTTTCAGAAATAGCCTGGAAATRAAATGCTTTATCAAGGAAGAGCATGAGGAAA
CCAATCTTTATCAGAACTGAGGTCACTCAGGGCTTAATTGTGCTCAGGAATTCACTTTGGCTGCACTCACTTGGCAACTGAAGTCTGATTAGGATGACAT
CCTGTGTTCTAGAGACAAAGCCCGGTCAGGATCATTTTACAGGACTAGGTAACAGTGTCAACAATAAGCTATGCTAGTCCAGCTTTTTTTTTTTTCCCTA
TAAGTCCAGCATTTTCCTGTATATACTCTTTTCAGRTTCAATTTCACAGATAATGTCAATATTTAATGAGCACTTTCAATGTACAAAACACTCTGCTCAG
CTCCAGAATAAAACTATGAATGACTGAGCCCAACTTCGAGGAGACCAYGGTATAATGGGGAAGAATGACAATCATGTATGAACAGCGCAAGAACAGAGGC
TGTGGGAGCACATTGCAGGGGCTTCTACCCTTAGTTAAGGTGGGAAGGGAGGGCTTCCTAAGGAAAGGGAAGTCTAAGCTGAGACCTGAAGGGCAGGTGA
GAGTGAGTCAGGCCAAGAGGGGCATGGGAAGGTGTTCCAGGCAGTCTCTCTTTTGGAAAATGGAGGTTTTAGGGTTCTGAACACACTGAAAATGTGGACA
GGAAAGATATAGCATCTAGGAATTTTTTCTGAGGAAGAACCCGGCCCTTCCATTACCTGGCTTTAGAAGATACCTTTTCCACTTAGCTATTTCGTGTGAG
CCGCTGGAGAGTCCTGTCCACGGAAGCATGGATTGCTCTCCATCCTTGAGAGCGTTTCAGTATGACACCAACTGTAGCTTCCGCTGTGCTGAAGGTTTCA
TGCTGAGAGGAGCCGATATAGTTCGGTGTGATAACTTGGGACAGTGGACAGCACCAGCCCCAGTCTGTCAAGGTACTGTAACAGTGGTAATGTTTTTCTG
TGTGTCTCAGCTCGTTAGAGGCATCAGCATCTGCACTGAGCATTGGCATGCCTTTCTTTATCAGATATTCACTGAGAACCTACTATGGGCCATGTCCTTT
GTGCTTGGGACCAGGGATGAGATGAAAYGGTGCGTGAAGCCAGTCTTAGGCACATGTCCACTATAGTATAGTCAAGGTGAGGTTTGCACTGATTGACACA
TATAGGGTGCATTGGAATGAAGAAGATGGGGCTTGGGGGAATAAATCATGCATGAGGAATAGCATGGGATGGGGAAGGGTAATGGACAAGGTGTTTAGCT
CAGTCCTGTCACTTCCTGTCCTTAAGCTAGTGGTTTAGACTCTCTGAGGCTCAGTATCTTCTGTAAAATGGGGCTACTATTATCAGCCTTACCTACCTGC
CTCACTAGTAGTTGTGAATTAATGTGTGTAAACGCAACTTTAAAACTCTTATAGGATTTATAGGGAAAATGATGATGATGACATGTTACCTTATAAATCA
CATGTCTGTGGTCTGATTTGACAAAATGATCCTCTTTCAATATGTTAGGTTTCTAATCTTTTGCTCTTATACTAAGGCACTCATGGGGGGCGGGTGTGGT
GGTTCACAAGGATTATTATTTTTTTTACGAGGAGTACCTCACACTAAAGTCATGTTCCAGAAGTGTAATATTGACATTTTGTGTTTTCATTTACGGAGAC
CTCTGAGCAATCTATGTGACTCCCCTGGGTTCCTAAGTATACCTTGATTTTAAAATGAGGCAGTGGTTTGAAAGCAGGTCTTGAAGAGATATTTGTGCAC
CCATGTTCATAGCACTATTAATCACAACAGTTAAAATGTGGAAGCAACCCAAACACCCATCAATGGATGAAAGGATAAGTAAAAAGTATTCCACATACTT
ACAGTGGAATATTATTCAACCTTAAAGAGGAAGTAAATTCTGACCTCTGCTACAAACATGAATGAACCTTGAAGACATTATGCTAAGTGAAATAAGCCAC
TATGAAAGGACAAATACTGTATGATTCCACTCATATGAGGAACTTAGAGTAGTCAAAGTCATAGAGACAGAAAGTAGAACGGAGGTTGCCAAGGGCTCGG
CGGAAGAGGGAAATAGGGAGTTATGGTTTAATGGATACGGAGTTTCAGTTTGAGATGATGAAAAGAGTTTTGGAGATGAATAATGGTGATGGTGGCACAA
TAATATGAATGTGCTTAATACCACTGAACTGTACACTTGATATTGGTGACATGGTAAATGGTAAATTAAATTTCATGCTACGTATATCTCACTATAATAA
AAAATTGAACAGCAAAAAAAAAAAAAAAGAAAAAACAAGAAGGCAATAGAATAGATGGCTATACACCATGATGCTGACACYTAGTCTGAGTTATGGAATG
TATTGTATATGTTATCTGGGAGAAAAAGACACAATGAGCTCTTTGACACACTTAAAACGGATCATAAGGGATTATTCAAGCCATTGTTGTCTCCAGGAAG
GTAAATGTCTAATCAAGAAAAGATAGTTGGATATTCTCTTAAGTATCCAGAGATGTGGTCTCACTAACCCCCTTCATAGGCCTTCTGAATGTTTCCCACT
CCTGAACTCAGTGTCTGCATGTGACGCAAAGCCTTAATGATATTATTACTATCTATTACTACCACTGCTACTAATATAGCAGCTAATGTTCATTGAGCAC
TTTCTATGATCTCAGTCTAACTCTATGAGGTAGTTACAATTATTACTACCATTTTAAAGATGAGAAGAGACAACACATGGAATATGTGTGCTCTCTTCGT
ATATGGTTATTTATTTTACATCTTTGAGATCATGGTGTATATTATAATTTTTACTCTGATTTTTTATTTAACATCATACATTGAGACCTCTCTCCTATCT
TTACAAGTTAAAATATATTATTTTTAGTGACCTTTAACATTCTTTTCATGGATCCACCATMATTAATTTCCACCCTCAATTAATGGCATTTGTGTTTGTT
TTCAATATTCCGCTCTTACAAATAATGTCTTCACAAAAATCTCTAAATAGATTTTTTGGTATGCATCTTGATTACATACTTAGCATAAATTCTTGGGTCC
AAAAGCATGATAACTTAAAAATTATTGACACATGTTGCCAAGATGYTCAACAAAGGTTTAGCATTTCCTAATAAAATCCTTCATGTGCCGTTATAATTAA
ATGACACTTTTTCTTATCTTCTATGTTAAACAAGCCCAATTCAGGAATCCCTGTTCTTGACACTAGAAAGAGTTAATGGTCAAAAATCAATGAGTACATG
TGTATTACTGTTTCTTTATTCCTTACTTCCTCATCCCTTAGCTTTGCAGTGCCAGGATCTCCCAGTTCCAAATGAGGCCCRGGTGAACTGCTCCCACCCC
TTCGGTGCCTTTAGGTACCAGTCAGTCTGCAGCTTCACCTGCAATGAAGGCTTGCTCCTGGTGGGAGCAAGTGTGCTACAGTGCTTGGCTACTGGAAACT
GGAATTYTGTTCCTCCAGAATGCCAAGGTAAGAGTGTATTCTTTCTAACATCATGGAAATAAATTGTAGGCAGTATTTTTAAAGGCTGGATTTTAGAGGT
GACAACTATGTAAGATCCACCTTGAAATGGACTGGAAAATTCATAAATACTCTCACTCATCCTCTTGTCCTATAACCCAAGGATCCCAAATGCAAATGCC
TCCGGGRGATAGGCAGATTACACAAGTGTCAGGATGTCTGGCCATAGACAGTAGGGCATGGCCCTTGCTAACTCCTTATCAGGGTCTTTACCCAGACCTG
AAGGCTCCTGCCACAAACCAGGTAAACTCTTCTCACCTGGCCAAACATGGCATCTGGAAAGAAGACCAGGTGGGAAAAAAATTGCTTCAGAGTGGTTGTC
CCAAGGCTGGTCTGGCACTTCTAGGAACCACAGGGTATAATGGTAAAATGGGAGGGGCAGAATTTACAAGTACCCAGTTGCAAACACTCCAAGATCTGTA
TAAAATTGGAGAAATAGACTTAGAATAAGGTGAAGAGTGATAGAAAAAAGAGAAAAACTAATCTGTATACTGGAGGTTACGGGATTCTCAGAAGAAAGAA
ATGTGTGGATTCAGTATAAACATTCTATCTGCATTGTACTTGATATACATACATTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGTAATG
GCACAATCTCGGCCCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGTCTCAGCTTCCCGAGTAGCTGGGACTACAGGTGCCCRCCACTGCAC
CCAGCTAATTTTTGTATTTTTGGTAGAGATGAGGTTTCACCATCTTAGCTAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGACTCGGCCTCC
CACAGTGCTGGTATTACAGGTGTGAGCCACTGCTCCCGGCCTTGTACTTGATATTTAACAAGCCAGTGTGCTCTGTCAGTATTGCAACATCTTGTATGAA
CTTGAACGGGTTCTAGTCATCCATGTTTGTGAATTGAAGGATAGACGTATATTTTTTATATTCCCCAAGCTTTTTCCCCCTCAATGTATCCAATTCCTTA
GTTAACTTTTATAGACAATGCTGCTTTTTAAACGCAAGATTTTCATTTATAAAAATHTGCAGAAATATAATAAAGAAATGAAGAAATATCCTCTTAAATA
CTCCTATCCTAAAATAGACACTGTTAGGCTTCTGGTATGAATTCTTCCAATATTTTCTCCGCTTTTCCTCCTATGCAATTAATATTTTTATGATGTATAT
ACAATTTTAACAATAAAGTTGAATGGRTAAAAGACTAGACAGTTCTACATTATTTGCCATACCTTTCACTTTGTATAGACTTTCAACATTTGAGTGAAAG
TGGGCAGATACATATTTTTTACTAAAAGGAAACCACTCACTATTCAGGTCACACAAAAGCATAATCACATACACACACACACACMCCCCMCMCACACACC
CCATTGTTAAGCTAGGTCAACAGTAAATGAATGAATGAATGAATGAATGAATGAATGAACAAATGGACAAGCAAACAGCAGAATTGAATGTCCTTCATCG
CCAGGCACCAGAGAGGATGGCAAGCCCCTGGACTTAGGGTTGGGTGCACCTTCAGAGCTGGGTCTGGAGAGAACAGGGCGGGGCTGTGACCTTGCCCCTT
AAGTGCTCATCCTGGCTACGTTGAAGTCTGGACATATCACAAAGTCCACACAACTTTGGGGAAGTTGTGGGAAGAACTGGGAATCCCTGAGGACAGTGAT
CACAGTGATTGAAACTCTTACAGGCAAGCCTGGGTGGTGCAGGGCACAGATTACAGTTCATTGCTCCATACTGTCCTGCCTCTGGGTGTTTCACAGCAAG
GAGGTTGCCACTCACCACGGCTTCCTGTGACCTTCCAGTTCCCTTCTGCTTTTAGTTCTTTATTTACTCTGAACTTTCTCCTCTTGTTGCTGGGTGCACA
TCAAGTGAAATACCCAAATGTGGGCTGGGCAGGAAGGTACCATGCAGWGTGCAATCCACTCGCTGTTGTAATACTTCTGAGAGAGTGTTATCAGACAATT
TCCCTTTTTAATGTCCTCCCACCCCTCCACATCTACCCCTGCTGTCAGAAGGCAAAGCCACAGAAGAGCTGGAAATGGGTTCTGTGGTACCAACATCCTC
ACCCACACCCTTTCCCCCATAAGTCCTTGCAGTTTATAGGCTTCTTGAGTTGTGTCCTCTCCAGCCCCACATACACACTTACTACAGAAATACTTTTCAA
CTAGAAGAAAAGAACCAGATCTTTGGACAAGTTGATCAGATTGAAAGGAATGTAGCTAGAGAGGGGAAGGAATGAAGGGAAGAGAAAGGCGTAGAAAGTG
TTCTTGAAACCTCATGCTGTTTAAGTCAGTGGCTGAAAAATGACCCTAGGAGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAAYAAAAGCCAA
AATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGRGAGAAYATTTTT
GCAATCTACTCATCRGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCAA
AGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAGACACATGAAAAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAA
AACCACAATGAGATACCATCTCACACCAGTTAGAATGGCGATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTT
TTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATGGTGGAAGTCAGTGTGGCAATTCCTCAGGGATCTGGAACTAGAAATGCCATTTGACCTAGCCA
TCCCATGACTGGGTATATACCCAAAGGATTATAAATCATGTTGCTACCAAGACACATGCACAGGTATGTTTATTGCGGCACTATTCAAAATAGCAAAGAC
TTGGAACCAACCCAAATGTCCAACAATGATGGACTGGATTAAGAAAATGTGGCACATATGCAAGGATTTTCCTTTTTCCCATTTCGAAGATAAAGCAACT
GAGGCTCAGAAAGGTTATTGTCTAGTGATAGATTGCTAGCAAGTAACAGAGCCAAAATTTGGGCGCAGATTCCACCACTTGGTTGGGAAAGGGGGAAGAA
AGTATTTTCCTCCATTTCTGTGTTTCCAATCATTTGTCATTGTTTTCTGGTAAGGTCATTGGGGTGTTTCTGAAGAAGGTATCAAGGGAGAAACCAGTTC
CACCCCTGTCTAGAAGCAACAAAAATGAGTTGCACCACTATCCTCCCAAACAGAGCACCAGCTTCCTTTAAAAATCACCTCTAAAGCTGTTTGTGATTGA
GCACTTCAGGATGTCAATCAACTGTAAGCTGCTGCTATTTTACACCTCTACAATCTCTAACTGGTGATRAAGCATCATGAAATTCAAACAATCACTTTTA
GCCAAATACCATCGTTGTATATTAATCACACACACACACACACACACACACACACASASACACASASMGAGAGAGAGAGGGAGAAAGAGAGAGAGAGTTA
CAGAGTTCAGGTTGCTGAATTATAAAATGATCTCTTCTTTTCTCCTCTGCCATGCCCATGATAGCCATTCCCTGCACACCTTTGCTAAGCCCTCAGAATG
GAACAATGACCTGTGTTCAACCTCTTGGAAGTTCCAGTTATAAATCCACATGTCAATTCATCTGTGACRAGGGATATTCTTTGTCTGGACCAGAAAGATT
GGATTGTACTCGATCGGGACGCTGGACAGACTCCCCACCAATGTGTGAAGGTAGGCTGTGGGTCTGTCCTTTCTTATGGCTTTAAAGATGACATCAGAGA
ATGGAGAATCATCAGGGATTTATATAAAAGTGTTCTTGAGCTGAAGCAAACAACACTCTCCACAACAATGGTAATCTAGATAAAAAAGTTCTCCCTCTCT
TTAAATAATATTTTAATAGCTTTAGTTAAATATTCCACAGTTTCAAGAACATCCTGGCCAACATGGTGAAACCCCGTYTCTACTAAAAATACAAAAAATA
GCYGGGCATGGTGGTGCAYGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGYGGAGGTTGCAGTGAGCTGAGAT
TGTGCCATTGCACTCCAGCCTGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAATTGCACAGTTTCAGGAAGTGCTTTCATGTCATTATAGCATTCCTGT
TTACCACAATTCTAAAATAATAAGGAAAGGCAGTATCATCTCATTTTATAGATAAGGAAGAGACACAAGCTTAAAGAGGTTAAATWACTCGTCCAGGGTC
ACACTGTTAGTAAGTGAAAAGGCTCAGCTCTATGTCACTGAAAGTTTTACTTCCTTACAGAGTCTTCTTCAGCTACATTCTTCATTTCTTCATTCCTACA
TTCACCTTCAACTGAGCATTACTAAATCCCAGCCACAGACCTTATTTAGGGATGGGTGAGATTTAACCCTAGCATAACTATGTGTGCACTTCCCTCCTCT
CTCCACTTCTATATTGAATATAAGCTTCTTGAAGGCAGGAGCTGTGCCTTCTTCATCTTTATACCCCCTGCAGCAGCTAGACAGAATAAAAATGGGTGTG
TGTGACAAATATCTGTTGAATTGAAGGTGATCATTTACCAGTAAAATTTACTCAAACACAAGCTTTGGTAATTTAGTGGAATTCTCAAAGGCAGGGGCCA
GATCTTATCTGTCTTTAATTCCCCTGAGACATCTGGCTGGCAAAGTATCTAGTATATTTTATGTTCTAAAATAGAAGTGCACTGAATTAATTAATTCATA
GCTCCTGTTTAGTTGCAAAAGGTGCTATTGTTCTAATGTATTGTTCAGTGTAGAGTTAGTAATAATGAGACCAGTGATAATGGTAATAATTATTGCTTAA
TGTAGGACTACCTATTTCATAAGCATCATCACATTCARTCCACACAAATGACCCTTAAGTTGGTTATTACTATGCCCATTTTAAAGGTGAAGAARCTGAG
GCTTTGAGAGGTTAAGTAGCTAGCAAAGTTCATATAGCTTGAAGTATGGAGACAGGATGCAAACCCAGGCCTAGTCTGATTATAGGGCTAGTGTTTTGAC
CACTGAACTACACTATCACCCAGTGGCAGAGCTTCTGAATCTCAGGTAAGTCACTTGTGAATTTARTCTTTTCCACTCCACAGATTGCAGCTATAACTGC
TAAATGAACTTTAGAAATGGCAGTGCCTGGTGATCAGATGAGAGAATATGTTGGTAGAAATCTATTCGTGTTACACAAAAACAGCTAAAATATTATTTAT
TCCTTCCTGTGGAATGAGCACTAGATTAATATCCAAAGACTTGTATTGCTCTCTCTCCAAGTCATGTGCCATTAGGAAAGTCTTGTCACACCCTTAGGCT
CCCGTTTTCTCAATTCCAAAAGGAGAAGAGTGGACCAGACCATCTTTGAGGTCGCTTCCCTGGTCAAGAATTCTGTAGGGTGAAAGACATAAAATGCTAC
CATCTGCTGTCAAAAAGATATACTACAAGTTCCCTGAGAATTCTAGAACATGTATGGAGGAAAGCATTTGGGCTTGTGGTTTTTCACTCATTCATTTATT
CCTCACTCTCTTATTCATTTATTCCATTGACATTTCTCATAAGTTCTATTTTCCCACATTTTAAGGCTAAAGAATATTTAAAAAAACCTTTAAAAATCTC
ATTCACATTTTAAATCATGTAGGCAACCAACATGGCTGCTAAATCTGTAATCTCTAAAGCCCTTGCTTCCCTTCACTACTTTCCAGCCCCCCTTTCTCTG
CAGGAGGAGGCATTTGCCTCCCACTTTGCAGGCCCCATCCCCACTCACTGTCAAGACCCAACCCTGACCATGAACAGCAGCTTTAACCCACTATGGCCCT
TGGAATTATCAACCTTGACTGATCCTGATCTTGAGCCCTGGTTTTTGCATTTGTGTTTCTTCTTCGTTCTCCAAATTTATGCTCTAAATTTAGGCAAATG
GTTCCTCTTATTTTCCCATATGCCTGAACCCATTAATTTTTAACCCTCAGCACTGCCCCCTAGAACCCCAATTTTCACATGGTGTTTTGCAGAGTWCTAG
GATACATCAGATGGACTCAGGGGCCTCCAAGTAAGCAGAGGCAGTGTGGCAGGTGGAGTTCTCAAGCTGTCTCTTCAGAGTGCAATGTGAGATTTCATTT
TGGGGGATGGCTCTACCGATAGTTCCACTTTAGTTAGAATGCCGGTTCCCTGGGCCCTCTGGGATGTGGCCTCTGCCTAGTTGTTCCTCAGTATCTGCAG
GGGGAATTGGTTCCAGGACTCCCTGCAGATACCAGAATCCCCAGATGCCCAAGTCACTTATATAAAATGGCATAATATTTGCATATAACCTACATACATT
CTCCTTTAGACTTTTAAACCYTCTTTAGATTACGTATAATACCTAATGCAAAGCCTACACATCACTTCATCTGCATGGATTCAACATACTCAGCACATGG
CAAATTCAAGTTTTGCTTTTTGGAACTTTATAMAATTTATTTTTTTTCTGAATGTTTTTGATCCACAARGAGTTGAATCCGTAGATGCAGAACCCTTGGA
TACAGAGAGTCGGTTATTTTTCAGCCTTGTCTCTGCCTTTGCCCTTCAGGACCTGAAGTCCTTTTCATGAGCCTAAGCAGTGCTTGAGGTTCTTGTGCCA
ACTTTGATGATGCCACCTGCATGATGGAGTGCTTGTACACAGTTTCCGTATCCCTCCTGTCCCTGCCTGTTGGACCACTTTCATGATACAGACTGCTGAA
TTCCTAATCCCTTAACACTGTCTGTCATTGATCCTCTGGTGACCATGTTTGGCTGCTGAACCCAACTCCTAATGTCTATTTTCACTGCGTGGGGAGGGGT
CCTGGTTCCAAGTCCCAACCTCAACTCTGCTCTTCTGCCATGTGCCTGCTTACTCACGTCCTAAAATATGGTGAACTGGTGCCCCCTAAAACTCTGGCCC
AGCTGACATCTCCATTTTTTTCTTCATTCCCCCAACATTTCTCTGAATCTGTGGGGCTTCCTAGTTTTATTCCTAAAGTTTGAGTTTACAATATTCAACT
CAGATACATTTATTATTCATACTATATCTTCTTTCCAGAAAATTATTGAGAAAACTCTATCAAACTCAAGTAAAATGATATAATGAAAGGAAACAGATAA
TTTACTAAATCTATTTGAAATAATATAAATCAATATGTTTAAGAATTCAGATGCAATCATGTATACTTTCTTGATGGACTATAGAAGAACACCAATGAAT
ACCCATATGTGATAGMACTGCCTTGGTAGTCAGTGAAAATAGAACACTAAGCGTGCAATAAATGCAAACCTTATCTGTTTTCTATTTTTGTAATTATTCA
GGAGTTTTTTTTTTTTTGCCAAAGTTTTAGAGTAGGCTCAAGAATATGACCACTTCTCAAAGTTATGCACAAAAGTCATTCCTGGGTATAACTCTTTTCC
TGCATCTGCACTAATCTCCATTCCAGCAGCATCCTTGATAACTCCACAAATGTCATTCATCCCATGTTTGCTGAGTGCCCACCATATGCCGGATCTGGGT
TAGGCTTCCATGTAACTCATCTAGGCTGCCCCTCAAACAGGTAAACCCACTTCTTTACATGATCCAGAGCCAAATTCTTAGTATGTAAGGGTCAAGGTTA
ATTTTTACCTGAGAGAGTTCAGAGACTTTTATAAATATGAAAGTCTGGATATGTAACCTTGGCTGAGCATGACTGATAAGACTGAAACCAAAGCACTATC
CCCCAAATGAATTTAATGCTGTAGTAGTTCTCATTTTATACTAGGGCCCCCTTCGGTTAATTTTTAAAAACAGTAATTCCTCTTGTTTCTTTTCAAACCA
GGTAGGCATACCTTTTAGAATGCATTTAAATTAAATTGTATTCATTACTGTATTCATTCAATTCATAAGTATTTGTAGAACCCCTCCTATGTGTCAGGCC
CTGTTCTCTGGGATACAGTGTTCAAAGAACTGACAAGGTCCCTGCTTTCCTGCAGCTGACATTATACATATTCTTCAGTTTAAAGTTGTAATTCTGGGAG
ATTATGAAAAAGTTATTTTTGTGAAAATGTTCACAGATGACTTCATGTCTAGGAGTTACACCAGTAGACATGTTTCAAAAAKGTTTAGTAAATTGATTTG
ATGTGTCAGATATGAAGTTGTTAATTACTCAACAATTTGAGAGTACTGAACTGAAATTCACTGTGTTATTTTGGCTATTTGAATGGATTCATGCAATAAG
AATCCATAATCCTTCAATGAATAGCTTGTTACTGAAAAATACATGGGCCAGTATGTAAAAGCCAAATACTGTACATTGGTTTTCCATGAGGGAGCATATA
GGTCTTGAAGAGGTTTGTAAAAATCAAACTATCTAAGTAAATGAGACTTATCTGACCAAGGTATTGTTKTCAGAATAGCCTTAGATTTAAAGAAAGAWTA
RTCACTTCATTTGTCTATAACCCAACATTTATTGATAAATAATAGTCTTATATTAGAGAATYAATGGGGAGAAARGAATAATGCTAAGAAAATATGTAAC
TGCAATAATTTGTAAAAATACTTTTGGGGGGAAATTGTGAATTAAAATTTAAATTCATTTATTCATTCACTTGGCAAGTGGTTACTGAGCACTGCCTCTT
GAGATCCTGGGATGGSAGTTATGGAAGACTCAAGGATGAATCATTCTTGGGTTTTAGACACTTTCCCATCCAGTAGAAGAGTGAGGGTATGACATGGGAC
ATGACARCACATCAGTTCAGACAAAAAGTTGAAGAATTCAGAGGAGAAGAGTTCAGGCTGTGGTGATCAGCAGAGTCTTCAGAGACTTTAYGARTTAAAT
CCTGGAGGATTAGTGGGATTTTAYGYCATRAAAGTGGAAAAATTCTCAGGGGAATGTGAGCCAAGAACCAGAAGCAATAACACACAAAGTCACTTCAGGG
AATTCCAAGAAACTAATCTATCTTGACCAGGAGGTTTTGAGTTTTCCTGTGTTATCTGGATGGGTGGTATTAAAATACAACAGCAAAATAAACAAAACAA
TTAGTGAGGAGATTCAAATGGAAGAAATAGTTTGAGGCAGAAAGCAATCATTGCAGTTTTAGGTGTGTTGAATTTGAGAAGATGGCRTGATATATGGGAG
CAAGTAGTCTCAGGCAAGAGGAAGGGCGGAAATGAAATCCTGGATTGCACCCATTCAAGTAAGATAGAGGGAGCTGCGGCAGGCTACGAGGTCTCTGAAG
CAGAGGGTGTAGAGAAAATAGGGTGACWTTGTAAGTTCTTGAGTATGGCTGYCTAAATCTTTGACTTCTTTGTCTTCGTGACTTGTACCTATACTCTTCT
CTGTAAGCTTACCATCCTCCCACTGCCCTTTGCAGCAAATGACCTACATGATATGTTGTGGAATGCTGCTGCCTAGCAAAATACCTGGAATATAGGTGCT
TAATAAATATTTTTTGAATATATAAGTGAATGAACTTTGTGTAACACAGAACTTCTGAATAAACTTGGAGATTGTGACACTCTTAATTTGATACTCTAGC
CATCAAGTGCCCAGAACTCTTTGCCCCAGAGCAGGGCAGCCTGGATTGTTCTGACACYCGTGGAGAATTCAATGTTGGCTCCACCTGYCATTTCTCTTGT
RACAAYGGCTTTAAGCTGGAGGGGCCCAATAATGTGGAATGCACAACTKCTGGAAGATGGTCAGCTACTCCRCCAACCTGCAAAGGTAATAATATGTACT
TGCTAAGACAGTTCTACTTTTGGAAATTTATTCTACAACAACAAACAATTATCTAGTTCTTATATGTGAACTAGATAATTGTATATATTACCATTATTTG
GGTTTAGCAAACAGCTGAAGGATTTTAAAATGTCTAAGGAGTGACAGGATATTTTTATGTTTGTGAATAAAAGGTATATTGATTCTTAAGCAGGAATTTT
GTTTCATGGCTTCTTTTTTTGAAAGAGCTTTGTTGAGTGAACGGAATGGTCTCCATTAATTTATTGCTGAGAGAAACAGACAATACTGGGGTAGAGTCAC
TGGTCCAGTTTTTCAAATCTAGGAATTGAGGTGCAGAGAGGTCAATCATCATCTTCCTGCCACATGGCAAGTTAATGACAAAGCTGGTGGGATCATTCAA
ATGGAAGAAATAGTTTGAGACAGAAAGCAATCATTGCAGWAAATTTCAACTTTCACATTGACCTTTAGTCAGAGAACAGTACCATTTCYCAATAAGGCAG
GGTTGGGCAGGCAGTTGGCCCATGTATATTTGGCTTTCTGCTGAATTTCTTATATTTCTGTACCATTTCTTGCTTCTTTTTAAAATAGCAACAACAATGA
CTCCTCTGATTTCTTCTCTKGGCCAGGAGAATCATCTCCTCAAGGATGMTTTTTAATAATTTTCCTCATCTGGTTTTCTATCTCTGACACTGAYAGTTTT
TCTTAACTTCCTTAAATAGCTCTTGCAGGAGCCTCCCTTGTTATGAAGGGAGTGAAAAGCAGTTATTCCAGATTAGCCTTAACTCTGTTAACGCTTCTTT
TAATTGGGAGGTCTCTGAATKGAAACATTTTCTCACAACAGKCATAGCATCACTTCCTACTCCAGGGKTGCAATGTCCAGCCCTCACCACTCCTGGGCAG
GGAACCATGTACTGTAGGCATCATCCGGGRAMCTTTGGTTTTAATACCACTTGTTACTTTGGCTGCARCGCTGGATTCACACTCATAGGAGACAGCACTC
TCAGCTGCAGACCTTCAGGACAATGGACAGCAGTAACTCCAGCATGCAGAGGTAAGGTGAAAAGGAGCAGGCAGTTCTGAACCTGCCTTCCTGCAAGTAC
TCAAGCTAGCCATTGTGCCTGTATGTTGAAGTCTCACCCAACCACAACCACTACTCCAAGTGTCATCTCCCTTATGAAATCCACACCAATCCYATTAGAA
GTAATGTGTCACAGGCATTTCACTTCTGTCCTTCCTCAYGTCACAAGCTAAAGCTAATACACAAGTACTCAGAGACTTAAAGGAAGAAACATTTGYAGAT
GTCCAAGATGTGTTAGAAAAATAGRCATATTAAATGTAAAACCTGCTATAGAAATTGGTAAACTAGAAGTTGCATATTATGTGACAGTATAAACATTCCA
TATTTTCATAATAATTTGAACCTAAATAAAAAGTTAAGCCATACATGATATTTCCTGAAGAGCTATCGYCCTACACATAAAGCATTGAGACCTATGTTTC
TTTCATTTTTGTATCCCCCACAAAACATAGCACAGTGCTTTGCAAATGTCACTACTGATAAATAACATTTATTTGAATTAAATYTAATTTCTTGACCTTT
AMTTTCYTATCCATAAATTAGAAAGAATAACSCTGAAGTTCCCTGAAAATGTAGTYTAAGGAGGATGACAGTCTACTTCTTTCAAACTTCCAGTGTCCAG
ATATGCTGAACACTTATTAAGTATTTYAATAAACACATACTGACATGCCAGTTGATCACAAATGTAGTAATAAYATTTAGACTAAYAGTATTTTAAGAAC
CAAAATTTTGTAAATAGTATATKTGGAGGCAAGATTTATCAWTGCATTAGCAGGTATTTGTCGGATGCTACTATGTGTCCATCTTTGCATCTTGGTTCTT
TGGATATCACCCTTCGAGAGAATATTTTCATATATGTGCTGTTAGAAGAGCTACTGTGAATATTGGAAGTGGCTCATATCCTTTCTGACCTTTTACATTC
TGCCTCATTTATTGGCAATGTTAGGTTACAAAAGAAACTATAATCTSTTTCACCTCCAATCCACATGTTGTTTCTCTTGCATTMTTTCTTTTCTGCAGCT
GTGAAATGCTCAGAACTACATGTTAATAAGCCAATAGCGATGAACTGCTCCAACCTCTGGGGAAACTTCAGTTATGGATCAATCTGCTCTTTCCATTGTC
TAGAGGGCCAGTTACTTAATGGCTCTGCACAAACAGCATGCCAAGAGAATGGCCACTGGTCAMCTACCGTGCCAACCTGCCAAGGTACAATTTTCATGTG
GGTTAAGAAGTCACTTTGATGTGGAAAATAACAAAATCAGTGTTTCTTCCCTGTGTCTTTCTCATAGTGGTCTTGCTTTCCATCCCCGGGTTTCCCCCTG
CTTAATAAGTGTTTCACAATGAATCAGGCAGAATCTCCTTGCCTTATAAAGTAGTGGAAATTAAACCCAGTGACTGTGTAGGTAATCACCCCTCCTCTTC
AGTGTTCAGTTTGTGAAATGAAACCTTTTGCTTCGTTATAATCTCTGTTTAACAGACCTTGAAGTTTCAAAATGTTTTAAACTGGGAGTTATTTCATGCA
GATTTCTAATTTATTATCTCAGAAGACCTTTGCTTACCACCTAACTCTAAAAACCTCCTAGCAGATCTTCCTTAATTAAATTCCATCTGTTTGCAAGGTA
TATTTCAGCCCCCTATTTTTTCCCCTCATAGCTTGTCCTGACTGCCTTTTGTTACATAACTGAATCTTTGCCAAAAAATTATGCACAGTTTATTTTATTT
GCCTAAACTTACATGTATAGGCTTCTTATGTCTACAATTTAATTTCTTTTATTGGGACCTTACCCTAATTCTTTTGGAAATTACAGTTTATATTTAAGTC
TTAGGAATAAATTAAGGCCCCACTTTTATTTTATTTGCCCATACTTACATGTATAGGCTTCTTGTGTCTACAATTTAATTTCTTTTATTGGGTCCTCACC
CTGATTCCTTTGGAAATTACAGTCTATATTTAAGCCTTAGGAATAAAATAAGGCCCCACTTCCCATTCTGTTGCAGTGGATTTATGAATTCCAGATCTTC
TTTCATGTTAGCTTGTCAGCATTCCCAGGACCTTTGGTGATCCTACTTGATYGCACATCTTAGAGTTCTTGAAAACTTTCTGGGAGAGAAAGACTAGTCT
TTTGCATAATACACTTCTTATGTCTTGCATGTGTGTGTGTTTGTTTTGTAGCAGGACCATTGACTATCCAGGAAGCCCTGACTTACTTTGGTGGAGCGGT
GGCTTCTACRATAGGTCTGATAATGGGTGGGACGCTCCTGGCTTTGCTAAGAAAGCGTTTCAGACAAAAAGGTAAATAGGAAAGAGTCTTCTCTTTGCAT
CTTGGTTACATAAATCAAAAGAAATTGATTTATGTAATTTAGGGTGGGGAGGCAAAAACCACAACTTCAGTAGTTCATGTTGGAAAACATTTGCATTAAA
AGAAAATAAAGCCAAGATAAGTGATCTTGAGAACTGATTGTCCATTAGAATCACCTAGGGAACTTCCTAAAAATATAGATCCTTCTATGGGGAGACTTGG
TAGTGGGTGTGGAAATCTGAATTTTTCAAAAGCTCTCTCCCAAAATTCAAATGAGGCTACTTTGCAGTTTTGCATTTGGGGCCTCTGGTCTAAGTACCCT
AGGCTATCACTAAAGCTAATTAGAAAGGTGTTATGCTTCCTGACTTCACTCATTTCTTCATGTAGCAGTCATTTATTCATCAACTCTGTTAGAGTGTGAG
ACTCATAATGATGGTTTCTGATATTAAGGAAGGAAAAATCCAGTAGGGGAGACAGGTGAAATCAGTGCCGGTAGTGAAGTGTAGTAAGTGTGTTAGGACA
CAAATACAACCTAGGTATTATTAGAACATAGACTAGGGATGCCTAAACCAGACTGGCAGGTCAGAAAGCCTTTTTCAAGCTTAGCTTTGAAGAATGAGAG
GCATTTAGCCAAGGGGAAAATGGAAATAGAGTTCCATCAGAGAAAATGGCATGTAGAAAGACATGAAAGTGTAAAATCAATGAGAAGATGGTATGTTTCG
CAGTTCAGTGCATCTGAATCAAAAGGGGATTATGGAGGAGGCAGGAGATGAAGTTAGGGGCAGAAGAAGCTGCCCCTGTATTGGTGACCTGGTGTGATAA
GCTAAGAGATTTGCTTTTTCTCCTGAAAATTTGTAAAGTTGATGCAGGATTTAAACAGAGAAGACCAAATAGATGAAAACTCTCTGTAAGGGAAACTGTG
TTCATCAGACTGTTCATCAGAAAAAGAACTTTAGTCTAGGAATTAAAGATGGGAACATCCCATCTCTTAAGGTTTAAAACATCCTTTCTCAATCTTCTCC
AGACACTTAGCCTGCCTATAAGTTCATAAAGTTTTGTTTATAACCTAATGGGGCTCTTCTTCATCACTCCTCATAGAAAGTAACTGGGGGCATCAGAGAG
ACCATTAATTGCTCAAATCAAGGTAATGGAAAGTGGCTATGTTAAAATATCTGAAAGAGATCTCATTGAATTTCTCTATTGTTGACATAGGTCTCAACAC
CTATTCTTAACTGCTCAGAGGCAAAACCACGTGTTCCTTACTCTTATTCTTTCTCCATTTACAATGCTACCAAAACATTGAGGCTGTTTTTCCAAATTTC
CTTCATATACTCTCCTGTGAGTGGCTAAGACAATAGACAAAGGTCAATACTCTGCTTCAATACCAAAGAGATGTACTGAGAGCTACAGTGAATCCCTCCA
TGCAAAATGTGTGCTTGCTCAACCAAACCCAGAAGGCAGAGGCAAGAGCTCCTAGACCTTAATCTCTATGATCATGTAGGAATCACTCTAATCTTGATGT
TTCCCCCAAGTCCTTTCTTTGACTTTGAGACATTTCCAGAGGACCCTCTAACAGTGGAGAAGGACAAATGGCCACTCATGCCCCAATATTTTTAATAATA
AATACATTCATTTGTTGGGGATGGGAGCTTTTTTCCTCAGCTTCTCCCAATTTGATTTTAGGCTTTGAAGTTTTCTATGGCCAAATAAGAGGAAAATGCT
GCAGCCATAGCTGAAAATTCAACTATGAGAGTCTGTTATTTGGATAAAAATATGCTACCAGGGAGGAAAAACATCCACTGTTCTGTTGGTTTGGATTCAT
GTATGTGATTAGCTTGCTCAGCTAAGGGCTGAGGGCAAGTGACACAAGATGCCCTCAAAAGAAATTGATTTATGTATTTACTGAAAGGAAGGAGGAAGAA
AGTGACAGGACTCTGGAGTTAAATATTGTCGAATGTTTAATTTAGCCTAAAACACTTTCTACCTTTCAGGGAGAAACTGTTCCCAATATTCCCCTTATAA
TGAGCCCTCCTGAAAATCAGTCTACTGGTTTTCCCCAGTAATTTCTATCCTTAATGACCCTCTCTTTCATCTTGTTTTTTTTTTTTAATCATTCATTCTT
GTCTTCTTGCTGATTTTAGATGATGGGAAATGCCCCTTGAATCCTCACAGGTAAGGTAGAAATGTTTTATGATTGAGTAAATTTTGCTACCTTAACTTTA
WAATTCACTGTAATATGTCAGAATGATTACATGCAATGCCTGCCTCCTTTTTACAATGTCTTTTGCAATGTCTTCTTTTCTACTCTGAAGTAAAATACAC
AGATAACAAATATTCTAATTAAAATATAAAGTAGGAATAAAAYGAAAAGTAATTTATAATAAAAACAAGATGCAAAAACTTAGGCGCTGTGCCAGTAGAT
GCAATGAGGTCATCAGAAGCGTGCACCTTCCACAGAATCACTAGGAAAGCAACGCCCACGCAGGTGGACTGATGGGGGAATGTTGTATTAGTGACTCAAA
GAGCATTAGAACTGTGGCCAACACCAGCCTAATTTTTCAACATGGTGAACAACTCCGGTAAAGAGTCTGAAAACCTGTGATAATTGTCCTTTGATTCATA
TGGCAATTGCATTTTAAAGATGCAAAAAAATGCTTAATATTTACATGTAAAGTGCTTGAGTTCCAGGCTCAGAGATTTTTAACCTGTATGAATATCGAGC
AGATATTCCAAAGTTATGTGGGATGTTGGACAATTCTTTTGTGTCCTGTACCCCTTGCTATTTATAATCTAGCAATAGTTTTCAAAAAGGGACAGTATGC
CCCCAAGGGTATTTTTTTATTTTTGTAATGAACAAGAGTTCTACTGACATTGAGTGGGCAGGAGGCAGGGGTGCTGGATATCTTTTAAAGACATTTCCGT
CCTGGAGGACATGGAAATCCTTATATGAACTCTATTGTCGTAGACATCCAGCACCCTTGCCCCATACCCACTCAATATCGGAAGAACTCTTGGTTATAAA
AATCAAAAAACACCCCTAGGGGTCATATTGCACCCTTTGAAAACTATCGTTAGATTATCAAGTGTTAATGCCAAGAATTTTGTAACTACCTCTTGTCACC
TAGAAGAGGTTGCAGCAACTTAGAGGGTATAACAGGTATTCAGTACATAAAGCATGAACAATAACTTAGTGTGGGTGCAAAATGCAATGCAAATTACCCA
GAGCTGGTAAGTGGGATATCGAATATTTCTTTGGCATTTATTTTTCTTTCCTTTCTAAAGCAGAATTCCAAGGGTGGATGGTAATTTGTGGTTTCTGGAA
ATACTATGTGTTGGACTGTGTTGTCGAGAACTAAGCAGTATATTGTTGCCATCCTTGTGTTTCTGTTCTTTAGCCACCTAGGAACATATGGAGTTTTTAC
AAACGCTGCATTTGACCCGAGTCCTTAAGGTAAGATCCCTATAAAGATATTTTTGAAGGAAATAGAACACTAGGGAAAAATGGAAGANTATAAAGCTTAA
CTTTTCTTTACATAATCATATATTAAATTTTAAGTATGTATTAAATTTTCAGGCATGAAGGAAATTGTGTTGGCAGTAGGACACAGGTATGACAATGGAG
TTACAAAAGAGTTCACAAAAGGATTTTCATTTCCTCCAGGACAGAAATGTCCTAACAAGACATAACTTATTTCAGGATGTGTAACATTTCCATTATTAAC
TGCTAGGTGGTGATGATGTGGCCTTGCCTGCAAAGCAGAAGTCAGGACTGCTGAAAAATGTTTACGAACTGTTATGGARTCAATTCCCTATGCTACCTGC
TGGAAAAACAAAAATAATCTGATGCTATCCCTCTCCCAAAAAGTGGGTAGTTGAGTGTCCTACAAAAAGCCTGAATGGCAGAATATTCGAAATCTAGAAA
GAAAAGATTATGCTGCGCCTCAGGGTGTAGATATGATGAGYAATTTTTTTCTTTCTTTTATTTTTTTAAGGAAATGATAATTATTTAAATTTCTTTGGTC
TCATTTCCAGAGACCTGTCCTTTTCCTGGTCTCCTCATTCAGCCTCCATATGATCCTGTTGTGAACATCAAGTTTCCTGCTACACTGGACTTAACTATAA
TGCATTTGCTGCAGGTTTCCATAAACACCCATGAATCAAAGACATGGAATTACCTTAGATTAGCTCTGGACCAGCCTGTTGGACCCGCTCTGGACCAACC
CTGTTTCCTGAGTTTGGGATTGTGGTACAATCTCAAATTCTCAACCTACCACCCCTTCCTGTCCCACCTCTTCTCTTCCTGTAACACAAGCCACAGAAGC
CAGGAGCAAATGTTTCTGCAGTAGTCTCTGTGCTTTGACTCACCTGTTACTTGAAATACCAGTGAACCAAAGAGACTGGAGCATCTGACTCACAAGAAGA
CCAGACTGTGGAGAAATAAAAATACCTCTTTATTTTTTGATTGAAGGAAGGTTTTCTCCACTTTGTTGGAAAGCAGGTGGCATCTCTAATTGGAAGAAAT
TCCTGTAGCATCTTCTGGAGTCTCCAGTGGTTGCTGTTGATGAGGCCTCTTGGACCTCTGCTCTGAGGCTTCCAGAGAGTCCTCTGGATGGCACCAGAGG
CTGCAGAAGGCCAAGAATCAAGCTAGAAGGCCACATGTCACCGTGGACCTTCCTGCCACCAGTCACTGTCCCTCAAATGACCCAAASACCAATATTCAAA
TGCGTAATTAAAAGAATTTTCCCCAAATGCCGTGTTCCTCTATTTTATGGTTTGTTCAGTAAGGTCTGTATACATCACATTGTTTACCATCAGTGTAATA
ACACACAATTATGGTTGTCCTATTTACACCTCAACCATTCATTCAGTCAGCAAATATGTATCGCACACCCTACACTGCAAGAGAAAATCAGAGAAATGGA
AAAATTCTTCATCACCTTAATATTTTACAGGGAAGAACAAATGTGTTTTACATGTTCTTTAAATCCCATGTTTAATAAATAGGTCATTGAAAGTTATATA
GTATTTATCTGGAACTGATGTTAAAAAAAATAGAGAGCCAAAAATTATAGTAGTCATCTTGTCTCTGTAAAATGTAATTAAATAAATATGTCATGTACAC
TGTATATACATAAGCAAACATGCAAATAAAAAAGCAGCCTACTCAAAGGTTACAATAATGTTGCAACAATTCTGGTAGTAACCTTGGGATTTAGGGACAC
AGTGCTTTCAAAACGTTTCTCTGATACACTGCCAGTAGCATCTCTGACTGCTTATTTAAATGTCAATCAGTAGGCTAGGTGTTCTAGGACTTTGGTCTCA
ACCCTGTTTCCTGAGTCAGAATCTACATTTTGTAAAAGTTCCCCTGGGAATTCTGATGGTCTGCCAACTTTGGGAGACACTGATAATATTGTAGATAAAG
AAGTGTAAGCAACTGTTCAGTTAGGGAGACAATAGATACCTGCATGGAATAACAAAAGGTAATTAACATGATTATATAATTTGAATAGTGTTGTAATAGT
TCATAAAATGGAAAAGCCAATTTGAGCCCAGAATCTGGGAGATAGGCAGAACTCTGGACTGTAAAGAATGGCCCAGCAAAGAGGAAGAAAATGGGCATTC
TAAGTTGGTGCAATAATATCAGCACAGGAGAAAAGACAGAATATTGGGGGGAGTGGGGAGGGAGGAAGAGGCTGTTGATGAGCCTGATATCATTAACAGA
GACCTCATGTGAGGTGCCAGATTACAATTTATTGAATGTACTGAATGCATAAAGCATAAGACAGAAACCTGGAGCCATGCAGATACAGGGAACCCAGGAC
AAGTCATTATGATGCCTCAGACAATATAATTCGCAGATTCTCTATCAATAGCAAAGTAAGATTTAAGGTGCTGTGAAACAGTCAGATCCTTCAAGAAAAA
CAAGAATACAAGGGGTCCTGGAGACAGGAAAATATGATCATAATAATAAATTTGTGATTCCTTCTTTCTCTCTTTTTCTCTTTCTTTCTTTTTCTTTCTT
TCTTTTTTTTTTTTGATGGAGTTTTGCTCTCGTTGCCCAGGCTGGAGTAAAATGGCATGATATCAGCTCACTGCAAACTCCACCTTCCAGGTTCAAGCAA
TTCTCTTGCCTCAATCTCTCGAGTAGGTGGGATTACAGGTGTCCACCACAACGCCCGGCTAATTTTTTATATTTTTAGTAGAGAAGGGTTTCACCATGTT
GGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATTCACCCGCCTTGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACTGCGCCTAGCCTCTGT
GTGTTAAGTGCTGGAACTATAGTTTACAGTAGCATTTTATCCTCCCAACATACCCTATCAGGAAAAATTATTATTGTCATCCTTATTTCACAGATGTCAA
AACTGAACAGAGAGGTACAGTAACTTGCCCAAGACAACACAGCTAGTAAGTGAAACTGAAATCTGGACAACTGATTTTTTTCAGCCAAGCTCTTCAAGCC
CGCTGCTATGCTGCAGCTTAGCTGGCGACAGGCCCTTATCAAGGCAGAACTGTGCCTTGATAGAGGCCAGGAAGGCGATTCAGAGCAGTAGGCCTTGTCC
ATGTGTTTGTTCCCTGCTTCTTCACCACTTGAAAATAGTGTTTCAGTGCCCAGTAACAGGGCACAATACTCTTTTCCTCAGATTAAAAGGGGAGCCATCT
GCTTAAGGTGGTTGGGTGCCACTGCACTGCACAGAAGGTTCTCCAAGTGTGAGCTTGGACCCAGGCAGGCCTCAGGTCAGTGGTAACGGACGACTGCTTC
CGTGGTGTTGGCAGGTGGAAATGGAGGGATACAGCTTTGTCCGGCTCATGAATCCCTGGGCATTGTCCCGCCTGCTAGAGCCTCTGATCTCTGCCCCTTC
TTCACCTGCAGTAAAACAGTCACTAGTTTGGTTGCTCTCCCTAATACCTCTGGTCACTGGGAGCTGTGATCTCACCAAACCCCTGCCAGGAAAAGCCCCA
GAAAAAGCGGAGGGAGTGAGAGCCAGAGGCTGCTGCTGCCGTTTGCAAGAACTGCAGGGGAGGAGGACGCTGCCACCCACAGCCTCTAGAGCTCATTGCA
GCTGGGACAGCCCGGAGTGTGGTTAGCAGCTCGGCAAGCGCTGCCCAGGTCCTGGGGTGGTGGCAGCCAGCGGGAGCAGGAAAGGAAGCATGTTCCCAGG
CTGCCCACGCCTCTGGGTCCTGGTGGTCTTGGGCACCAGCTGGGTAGGCTGGGGGAGCCAAGGGACAGAAGCGGCACAGCTAAGGCAGTTCTACGTGGCT
GCTCAGGGCATCAGTTGGAGCTACCGACCTGAGCCCACAAACTCAAGGTAACTCAGGTGTGGAGTCCGGGTGGGCTTCTCTAGAGAGGAAAATCTATTTC
TTTTAGAGAACATTCCCTTTGCAATGTCATGGCTTTTTTTTTTTTTAACTTCAGGTAAGTAAATATAACTAATAGGAGAGTATACTGAATTAAATAAACT
GGGCAAATGCTAATTTTGCATCCAACAATGTAGTTTATCATTCTGAGGGTTTAGAAAGCACCCTATTTGATTGGTTAGATGCTACCTTCTTTTCAAGTTT
ATTTTCAATACAGTTTTGTTAGTATGTTTGTGTTGGCTTATATATTGGTTAATTCAAAGGCACCAGGCACTTGCTCCCTCATTAGCCCTTCCTGCAAACT
CCTGTTCCAGATTTTTAGTTGTATAGTATTTTTATGAGACTCCTAGTTACATATTATTTATTCCATTGTCTACATAGCTTCATCTTCTAAAACTAAAAAT
GAACACCTTGTGCTTTTTGTCATATAATTTTATTGCTGCCTTATAAATGACTTTCAAAATATCATCAGTTCTTGTATGTTTTTGTACTTTCACCTTTTTT
CTGCTTCATATTTGACTTATTTATCCTATTGAATGTGACTCTTCATTTTTTTTTCTCTCTGTTCATCATGTCCTGGGATATGGTTTACCTTGGCTACTTA
AAGGCATATGTAACTGAGAGGAGGTTTAATTCAGATAAAATACTATCCTTGAGTTGCAAACTATTTTTTCTAATTGAAATGTTAAAAATAAGACTTCTCA
GAAATTAACTAAATCATACAGTCTATTCAATATTTCCAGTTAGTTATTTTTTAAATGGTAAACCTGCTAGTGTGACTCACTTTTTTTCCTTACATCACAC
TTCATTATGAAAGATGTGTTCCTCTTTTACAATTACAAAACCAAAGTAATCTGCCAAAAAATAATGTAATATTTTGAGATCTTTTAGTGTATAATATTAA
CCTTTTTAAAACTCTCATTGTAACTGGGTTATTTTGGAGGGTATTACATACCATCTTGGTCTTATAATAAGAAGAGATCCCTCCTTCTCAAAAATAATCA
TTTTAAATATCGTACTTCAAAGTGATAATCTAGGTCACACCCACACCCTTTGGGAACTGCCGTAAGCTAAAACCCCAAGGAAAATAACAGTCCTTCTAAC
ACTAATCTTGCCTGCTCATGAGTAGAATGCAGACTTGGTTGTTGGCTTTCTTGTAGCATGCTGGGTTCATGCTTGGGAGTTTTTTCTCTTGTCTGTAGTT
AGCGTTGAAAATAACAAGCAAAATACCGGAGGCAGAACCAGATAGGGCAAAGGTCTGATTCACATGGTGAGTACACAGGGAACCATGACTGGTCATTCTG
TCCCCTCATCCTGTGGGTAAGTTTCCAAAGTTCTGGAGATTCGTTCCTCTGGTAGCAATTGTTGAGTCAAAACCATAGAAACACAACCCAGACAAACTGT
CATATTGTTTAACCCTAAATCATATCATTTCTCTCTAGCATTTTCTTATGAAAAATCTAATCCATATATCTGGCTGCTTAAACTAAGAACTTGTTCTAAC
TTGTCCTGCCCCTAGAGCTATGATACTCACTAGGTGAATATCAACATAGCCAACTCCATCTTTTGGCAAAGTGTATTTTAGCACAAAGCAGACATCTATC
TACTTATTTCATATAATATTAGCAGGACAATGCCTTTTAAAGGTAAAATGTATCTATTATTCTTGCTCCAAGTCTAAGGTGAACACTTTCAAAAATTTCC
TTAGAAAACTTGTTTAGTCACTCACATGTATACAAAGAGATATTGAAGAAAAGATATACATACATTTTCCTTCTAGGGTTCTAGCTTTATATGATTTTGT
GATTATGAACAAATCATCTTTAAACAATCCTTATAAATGAAAAACTCGTCGTACACATTGTTTGAATTCATATGATCTGTAACTTTTTAATCAGATAGAT
TATTTTCCAATAGAAATTGTTCAGATCAAAATAGACATACCTCAGTATGAATACACAGCATACATAGTAAAAACATGTTAGGAAACATCTCTCTGTTGAA
ATTACTCCACGTAAGAGACTGATATTTTTTAGTAAAGATTTTACACCATCATCTACATTTCTGTATTAAAGATCTGGGGCAGGGGAGGACAATAACTTTT
CAATTGTACTAAAAATAAATAAATAAAAATGGACTTCCACATTAGGGACATTAGTATATAGAATCCTGGAATTCTTAAGTTAGAAGAATGCTAAGAGTTC
ATTTAATTCATATTCAACTTCCACGCTTTAACCTTCTACTTTTCCCCTTTCCCTCAGCACCAATGACCTTACCAAGTAGTTGTCTAATTTCTACTTGAAT
GCTTCCAGTGATGGAGAATCCACTACCTTCTCTATCTAGCTATTCTAAAAGTACTTACGTGCCTCCTTTAATTCTGCCCCCACATATTAACACAGTTTCT
GTATTCCACATATTACAATTTGTGAGCATTACTGTAACTACAGATTTGTTTTTGCTTTCTGAGAAAACCTGAAGGGTAAAGACTAACTCTTATTACATTT
ACAAAATAATATTACTAGCTAACATGGATTGAGTATTTCTAGTGTGCCAGCTCTATGCCTTTTGCACATATCAACTTATTTAAAATTATACAACAATTCT
GTGAAGGAGATTTCAGTATTAATCTCATTTCATAGTTGTAGAAACTGAGGCACAAATGGATGAAGTAAACTTTTCAAAGTAAAACAATAAGAGGTAGATA
TAGGCTTCAAGTCCAGAGATACTGAATTCACAGCCTGCACCCTAGCCACCGCGCTGTATAGAAGTCATGGCATATGTGGGTGCTGTTATGTCTTGATTAT
GGCTGGGCCACTGTCCCCACATTAGGAAGCAAAACAAAGCCACTCTGATCAACTGATTTAGACATTTGCAAGGTATTTTCTCCAAATTCTCTTTCCTTTT
ACCCTCATCTTTGAGTTTAAGACAAGGATAAGACTGATTTGCCTTTAGAGGTACAGAACAATAACAACAACAGCAAAAACAGGAAAGTAACCCACCACTC
ACAACTCTCCCTGTTGTCTGTCCTCTCTCTAATTTTATTTAAAATCATGAATGCAGTGGTTTCACATTTTTTAATCTTGGTTCTGCCACTTATCAACTGT
ATCTCTTGGACAAGTTACTGACTCTTTCCAAAACAGTTTTTTCATTTGTTTGTTTCCAATATGAATCCCAGGGCTTTTACCCCATTAGCCATCTCTCACC
TCTCAACTAGAAATAAATTCCACCAAATCAATACTTTTTCACAATGTTCCCCAGTAGATTAAAACTATATTTGATTGATCAGTTGAAAAACAGCTCATAT
ATTTATTCATAAAGGATTTGGTC


SNP Information

Context             (SEQ ID NO:66153):
AACATTTGAGTGAAAGTGGGCAGATACATATTTTTTACTAAAAGGAAACCACTCACTATTCAGGTCACACAAAAGCATAATCACATACACACACACACAC
M
CCCCCCACACACACCCCATTGTTAAGCTAGGTCAACAGTAAATGAATGAATGAATGAATGAATGAATGAATGAACAAATGGACAAGCAAACAGCAGAATT
Celera SNP ID:            hCV27242955
SNP Position Genomic:     30685
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,2)   total(A,2|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66154):
GAAAGTTGAGAATCTGAATACAGATTTAATTAACACTCTCTTTGCTTGTGAACCCCTTGGGAAGTCAGCCTTATCCTGGTTTGAAGAATTCCACTTCAGC
R
TTTGGAATGGTGCATTTTGAAATGTGATAGGAAGAACAGCTTGTGACACAACACAATTCAGAGAAAGCAGTGGGGTTAGGTTCGCACCAAAGGGTTATCG
Celera SNP ID:            hCV27495783
SNP Position Genomic:     14246
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,14|A,32)   PGA-EUR(EAN-PANEL(G,6|A,38)   total(G,20|A,70) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66155):
TATGAAGGGAGTGAAAAGCAGTTATTCCAGATTAGCCTTAACTCTGTTAACGCTTCTTTTAATTGGGAGGTCTCTGAATGGAAACATTTTCTCACAACAG
K
CATAGCATCACTTCCTACTCCAGGGGTGCAATGTCCAGCCCTCACCACTCCTGGGCAGGGAACCATGTACTGTAGGCATCATCCGGGAACCTTTGGTTTT
Celera SNP ID:            hCV27523240
SNP Position Genomic:     40042
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|G,47)   total(G,47|T,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66156):
TCACTCTGCATTTTGTGCAAATAAACAGCTGTAAATCATAACGTTATGATACTCTCAGTGTTTAATCATAGGTCCTGCAGAGATCAGCAGCTTATAAGAA
Y
ACAAAATATGCCTACTTACCAAAGTCAAGATTCAGAAGCTCCCAGATGAAAAGTTCTAGGCTTATGAGATAACTCTACTCTCTGGGACACATTAACTGGT
Celera SNP ID:            hCV27495784
SNP Position Genomic:     14448
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66157):
TTCTCACAACAGGCATAGCATCACTTCCTACTCCAGGGGTGCAATGTCCAGCCCTCACCACTCCTGGGCAGGGAACCATGTACTGTAGGCATCATCCGGG
R
ACCTTTGGTTTTAATACCACTTGTTACTTTGGCTGCAACGCTGGATTCACACTCATAGGAGACAGCACTCTCAGCTGCAGACCTTCAGGACAATGGACAG
Celera SNP ID:            hCV27523241
SNP Position Genomic:     40130
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66158):
TTCTGACACTCGTGGAGAATTCAATGTTGGCTCCACCTGCCATTTCTCTTGTGACAACGGCTTTAAGCTGGAGGGGCCCAATAATGTGGAATGCACAACT
K
CTGGAAGATGGTCAGCTACTCCACCAACCTGCAAAGGTAATAATATGTACTTGCTAAGACAGTTCTACTTTTGGAAATTTATTCTACAACAACAAACAAT
Celera SNP ID:            hCV16171674
SNP Position Genomic:     39149
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;PGA-AFRICAN-PANEL(G,2|T,44)   total(G,2|T,44)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66159):
CAACCACAACCACTACTCCAAGTGTCATCTCCCTTATGAAATCCACACCAATCCCATTAGAAGTAATGTGTCACAGGCATTTCACTTCTGTCCTTCCTCA
Y
GTCACAAGCTAAAGCTAATACACAAGTACTCAGAGACTTAAAGGAAGAAACATTTGCAGATGTCCAAGATGTGTTAGAAAAATAGACATATTAAATGTAA
Celera SNP ID:            hCV27523242
SNP Position Genomic:     40439
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   total(C,1|T,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66160):
CATCTTTGTACCAGTGCAGTTGCAAAATAGAATTTTTAATATGTTAGCATGGAGGAAGAAGCCTACATAGGCAAAGTTGCCTGAAGTCTATGAAAGTCAT
R
ATGCAGCCCTGGCTATATCAGAATGAAGTCTTTAAGGCAAAACAATGCCCTGGAAATGTCAGCAAGGGAGGTACAAGCATGACTAACCCTCATGCAGGCA
Celera SNP ID:            hCV27495785
SNP Position Genomic:     17480
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,43)   total(G,1|A,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66161):
TAGAAGTAATGTGTCACAGGCATTTCACTTCTGTCCTTCCTCATGTCACAAGCTAAAGCTAATACACAAGTACTCAGAGACTTAAAGGAAGAAACATTTG
Y
AGATGTCCAAGATGTGTTAGAAAAATAGACATATTAAATGTAAAACCTGCTATAGAAATTGGTAAACTAGAAGTTGCATATTATGTGACAGTATAAACAT
Celera SNP ID:            hCV27523243
SNP Position Genomic:     40496
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   PGA-EUR(EAN-PANEL(T,2|C,44)   total(C,91|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66162):
TTTTGTGTATTAATGTTCTGGTCGGAAATTCATCTGAGTATGCAGAAGCATACTTGGGATCACGGCCTCTTTTTTGGTGAGGGGTACTAACCTGGCACTC
M
CTCTCCTTTACTCTAGAACTAACAAACCAGAAAGAAGTGGCAGCATGGACTTATCATTACAGCACAAAAGCATACTCATGGAATATTTCCCGTAAATACT
Celera SNP ID:            hCV27495786
SNP Position Genomic:     18745
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|A,40)   total(A,40|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66163):
GTTGCATATTATGTGACAGTATAAACATTCCATATTTTCATAATAATTTGAACCTAAATAAAAAGTTAAGCCATACATGATATTTCCTGAAGAGCTATCG
Y
CCTACACATAAAGCATTGAGACCTATGTTTCTTTCATTTTTGTATCCCCCACAAAACATAGCACAGTGCTTTGCAAATGTCACTACTGATAAATAACATT
Celera SNP ID:            hCV27523244
SNP Position Genomic:     40669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   PGA-AFRICAN-PANEL(C,22|T,26)   PGA-EUR(EAN-PANEL(T,2|C,44)   total(C,66|T,28)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66164):
AAAGTTGTAATTCTGGGAGATTATGAAAAAGTTATTTTTGTGAAAATGTTCACAGATGACTTCATGTCTAGGAGTTACACCAGTAGACATGTTTCAAAAA
K
GTTTAGTAAATTGATTTGATGTGTCAGATATGAAGTTGTTAATTACTCAACAATTTGAGAGTACTGAACTGAAATTCACTGTGTTATTTTGGCTATTTGA
Celera SNP ID:            hCV27495787
SNP Position Genomic:     37582
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,22|T,26)   PGA-EUR(EAN-PANEL(T,4|G,42)   total(G,64|T,30) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66165):
ATTGAGACCTATGTTTCTTTCATTTTTGTATCCCCCACAAAACATAGCACAGTGCTTTGCAAATGTCACTACTGATAAATAACATTTATTTGAATTAAAT
Y
TAATTTCTTGACCTTTAATTTCCTATCCATAAATTAGAAAGAATAACCCTGAAGTTCCCTGAAAATGTAGTTTAAGGAGGATGACAGTCTACTTCTTTCA
Celera SNP ID:            hCV27523245
SNP Position Genomic:     40784
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66166):
CTGTACATTGGTTTTCCATGAGGGAGCATATAGGTCTTGAAGAGGTTTGTAAAAATCAAACTATCTAAGTAAATGAGACTTATCTGACCAAGGTATTGTT
K
TCAGAATAGCCTTAGATTTAAAGAAAGAATAGTCACTTCATTTGTCTATAACCCAACATTTATTGATAAATAATAGTCTTATATTAGAGAATTAATGGGG
Celera SNP ID:            hCV27495788
SNP Position Genomic:     37869
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|G,43)   PGA-EUR(EAN-PANEL(T,2|G,44)   total(G,87|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66167):
ACAGTGCTTTGCAAATGTCACTACTGATAAATAACATTTATTTGAATTAAATCTAATTTCTTGACCTTTAATTTCCTATCCATAAATTAGAAAGAATAAC
S
CTGAAGTTCCCTGAAAATGTAGTTTAAGGAGGATGACAGTCTACTTCTTTCAAACTTCCAGTGTCCAGATATGCTGAACACTTATTAAGTATTTCAATAA
Celera SNP ID:            hCV27523246
SNP Position Genomic:     40832
SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   PGA-AFRICAN-PANEL(C,22|G,26)   PGA-EUR(EAN-PANEL(G,2|C,44)   total(G,28|C,66)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66168):
GATGGCACCAGAGGCTGCAGAAGGCCAAGAATCAAGCTAGAAGGCCACATGTCACCGTGGACCTTCCTGCCACCAGTCACTGTCCCTCAAATGACCCAAA
S
ACCAATATTCAAATGCGTAATTAAAAGAATTTTCCCCAAATGCCGTGTTCCTCTATTTTATGGTTTGTTCAGTAAGGTCTGTATACATCACATTGTTTAC
Celera SNP ID:            hCV27523247
SNP Position Genomic:     47287
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,1|G,41)   total(G,41|C,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66169):
CGTATATCTCACTATAATAAAAAATTGAACAGCAAAAAAAAAAAAAAAGAAAAAACAAGAAGGCAATAGAATAGATGGCTATACACCATGATGCTGACAC
Y
TAGTCTGAGTTATGGAATGTATTGTATATGTTATCTGGGAGAAAAAGACACAATGAGCTCTTTGACACACTTAAAACGGATCATAAGGGATTATTCAAGC
Celera SNP ID:            hCV11342138
SNP Position Genomic:     28081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,3)      total(C,2|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66170):
GAGTGTAATGGCACAATCTCGGCCCACTGCAACCTCCGCCTCCCGGGTTCAAGCAATTCTCCTGTCTCAGCTTCCCGAGTAGCTGGGACTACAGGTGCCC
R
CCACTGCACCCAGCTAATTTTTGTATTTTTGGTAGAGATGAGGTTTCACCATCTTAGCTAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGAC
Celera SNP ID:            hCV27242960
SNP Position Genomic:     29991
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66171):
CACTTTGGCCAGGCTGGTCTCAAACTCCCGACCTCAAGTGATTCACTCACATCAGCCTCTCAAAGTGCTGGGATTATAGGTGTGAGCCATTGTGCTCAGC
Y
GGATTTTTGGTTCTTAAATGCTCTGAGTCTGTAAAAACCAGAGGTCAAAGCCCAGAGCAAAGAGGTAGTCTTTACACTTTGAAAAGTTTCAGAAATAGCC
Celera SNP ID:            hCV27242962
SNP Position Genomic:     25661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66172):
GAGTGAAAGTGGGCAGATACATATTTTTTACTAAAAGGAAACCACTCACTATTCAGGTCACACAAAAGCATAATCACATACACACACACACACCCCCCCC
M
CACACACCCCATTGTTAAGCTAGGTCAACAGTAAATGAATGAATGAATGAATGAATGAATGAATGAACAAATGGACAAGCAAACAGCAGAATTGAATGTC
Celera SNP ID:            hCV16161194
SNP Position Genomic:     30692
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,2)      total(A,2|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66173):
GAAATAGCTTTTTCTTCTTCCTTTAATGCTCTTCTTCCTGCTTCTCACTGGCTGGTTTCTTGCAGTCATTCTTCTCTCCACTTAAACATTATCTCATTAA
W
GAGGTCTTCCCTGACGTTCCTGACCAACATAGTGACACAGTCATTCTATCACATAAGTTTCATTTCCTACCTAGCACTTATGGCTATATTCTGTTAATAT
Celera SNP ID:            hCV27507428
SNP Position Genomic:     10156
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|A,47)   total(A,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66174):
GTTTGTTTGTTTGTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAA
R
CGATTCTCCTGCCTCAGCCTCCCGAATAGCTAGGATTACAGGCAACTTTTTGTATTTTTAATAGAGACTAGGGTTTCACCACTTTGGCCAGGCTGGTCTC
Celera SNP ID:            hCV27242963
SNP Position Genomic:     25481
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66175):
TTGAGTGAAAGTGGGCAGATACATATTTTTTACTAAAAGGAAACCACTCACTATTCAGGTCACACAAAAGCATAATCACATACACACACACACACCCCCC
M
CACACACACCCCATTGTTAAGCTAGGTCAACAGTAAATGAATGAATGAATGAATGAATGAATGAATGAACAAATGGACAAGCAAACAGCAGAATTGAATG
Celera SNP ID:            hCV16161195
SNP Position Genomic:     30690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66176):
TCTTAATACCTATACCAATATTTCGAATCATCTCTGGCATACGAATGTATTTATATCCAAAGGCAAAGCTCTGGAATAAATAAGAAATTAGTAAAAGGTA
Y
AATTTTTCTCTTATAAAGTGGGAGAAAGGTGTATTTTAGGCAGATTGTTTTTAAGAAAGTATATATGTGAAAGTTGAGAATCTGAATACAGATTTAATTA
Celera SNP ID:            hCV27507429
SNP Position Genomic:     14077
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,4|T,42)   total(C,4|T,42) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66177):
TTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCCA
R
GTTCAAACGATTCTCCTGCCTCAGCCTCCCGAATAGCTAGGATTACAGGCAACTTTTTGTATTTTTAATAGAGACTAGGGTTTCACCACTTTGGCCAGGC
Celera SNP ID:            hCV27242964
SNP Position Genomic:     25474
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66178):
GTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTC
Y
GCCTCCCAGGTTCAAACGATTCTCCTGCCTCAGCCTCCCGAATAGCTAGGATTACAGGCAACTTTTTGTATTTTTAATAGAGACTAGGGTTTCACCACTT
Celera SNP ID:            hCV27242965
SNP Position Genomic:     25465
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66179):
GTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTGCAGTGGCACGATCTCAGCTCA
S
TGCAACCTCTGCCTCCCAGGTTCAAACGATTCTCCTGCCTCAGCCTCCCGAATAGCTAGGATTACAGGCAACTTTTTGTATTTTTAATAGAGACTAGGGT
Celera SNP ID:            hCV27242966
SNP Position Genomic:     25455
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66180):
TAGAGGATTTTGGTGTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTGCAGTGGC
R
CGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAACGATTCTCCTGCCTCAGCCTCCCGAATAGCTAGGATTACAGGCAACTTTTTGTATTTTTA
Celera SNP ID:            hCV27242967
SNP Position Genomic:     25441
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66181):
AGAGAGAAACACTAGAGGATTTTGGTGTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTG
R
AGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAACGATTCTCCTGCCTCAGCCTCCCGAATAGCTAGGATTACAGGCAACTT
Celera SNP ID:            hCV27242968
SNP Position Genomic:     25429
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66182):
TTTCTTGCCTAAAACATAAGAGAGAAGAGAGAAACACTAGAGGATTTTGGTGTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTTGAGACA
S
AGTCTCACTCTGTCGCCCAGGCTGAAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAACGATTCTCCTGCCTCAGCCTCCC
Celera SNP ID:            hCV27242969
SNP Position Genomic:     25404
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66183):
AATAAACAAAACAATTAGTGAGGAGATTCAAATGGAAGAAATAGTTTGAGGCAGAAAGCAATCATTGCAGTTTTAGGTGTGTTGAATTTGAGAAGATGGC
R
TGATATATGGGAGCAAGTAGTCTCAGGCAAGAGGAAGGGCGGAAATGAAATCCTGGATTGCACCCATTCAAGTAAGATAGAGGGAGCTGCGGCAGGCTAC
Celera SNP ID:            hCV27478378
SNP Position Genomic:     38587
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRIGAN-PANEL(G,2|A,40)   PGA-EUR(EAN-PANEL(G,2|A,40)   total(G,4|A,80)JBIC-allele(A,663|G,812)   total(G,812|A,663)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66184):
TATGTAAGATCCACCTTGAAATGGACTGGAAAATTCATAAATACTCTCACTCATCCTCTTGTCCTATAACCCAAGGATCCCAAATGCAAATGCCTCCGGG
R
GATAGGCAGATTACACAAGTGTCAGGATGTCTGGCCATAGACAGTAGGGCATGGCCCTTGCTAACTCCTTATCAGGGTCTTTACCCAGACCTGAAGGCTC
Celera SNP ID:            hCV22271550
SNP Position Genomic:     29407
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(A,1|G,31)   total(A,4|G,60)
SNP Type:                 INTRON


Context             (SEQ ID NO:66185):
CATCTGCACTGAGCATTGGCATGCCTTTCTTTATCAGATATTCACTGAGAACCTACTATGGGCCATGTCCTTTGTGCTTGGGACCAGGGATGAGATGAAA
Y
GGTGCGTGAAGCCAGTCTTAGGCACATGTCCACTATAGTATAGTCAAGGTGAGGTTTGCACTGATTGACACATATAGGGTGCATTGGAATGAAGAAGATG
Celera SNP ID:            hCV11342144
SNP Position Genomic:     26828
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;JBIC-allele(T,598|C,865)   total(C,865|T,598)
SNP Type:                 INTRON


Context             (SEQ ID NO:66186):
TCGAATCATCTCTGGCATACGAATGTATTTATATCCAAAGGCAAAGCTCTGGAATAAATAAGAAATTAGTAAAAGGTATAATTTTTCTCTTATAAAGTGG
R
AGAAAGGTGTATTTTAGGCAGATTGTTTTTAAGAAAGTATATATGTGAAAGTTGAGAATCTGAATACAGATTTAATTAACACTCTCTTTGCTTGTGAACC
Celera SNP ID:            hCV27507430
SNP Position Genomic:     14099
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,45)   total(G,45|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66187):
TATCCTGGTTTGAAGAATTCCACTTCAGCATTTGGAATGGTGCATTTTGAAATGTGATAGGAAGAACAGCTTGTGACACAACACAATTCAGAGAAAGCAG
Y
GGGGTTAGGTTCGCACCAAAGGGTTATCGATCACTCTGCATTTTGTGCAAATAAACAGCTGTAAATCATAACGTTATGATACTCTCAGTGTTTAATCATA
Celera SNP ID:            hCV27507431
SNP Position Genomic:     14317
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,3|T,45)   PGA-EUR(EAN-PANEL(C,13|T,31)   total(C,16|T,76) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66188):
AACTGCCAAATAGCCATCTTGTACCAGAGATTCCAGAGAGTGGTCTTTGGAATTTCCCAACTCCTTTGCTTCAGTGCCCTGATCTCTGGTAAACTTTATG
Y
TAACTTTTCACTTAGGCCTAAGTAATTAGGGTAGAGCCCAGATCTATGTGTGAGAAATTTAAGGATTGTAGCCAGTTGGTTTGAGGCATGGGAAAACTGT
Celera SNP ID:            hCV27507432
SNP Position Genomic:     17060
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66189):
TTTAAATAAACAGGAAAGAAACCCATTTCCAGGCCTGATTGCTTGCTTTGTACACCTCTTCATGTGGGAAATGGCCTCTCCTGCCCCGGGTGGACTCCCA
Y
AGACTATGATAAGAGTGCTGTAGTACCTTTATACTTTTGAAACGCACATTCTTTAGTTCATTTGGTATCAAAAACACTTGTGAAAAAGGGCTGTTCTGAG
Celera SNP ID:            hCV27507433
SNP Position Genomic:     17711
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,44)   total(C,44|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66190):
AAAAGTTGAAGAATTCAGAGGAGAAGAGTTCAGGCTGTGGTGATCAGCAGAGTCTTCAGAGACTTTACGAGTTAAATCCTGGAGGATTAGTGGGATTTTA
Y
GCCATAAAAGTGGAAAAATTCTCAGGGGAATGTGAGCCAAGAACCAGAAGCAATAACACACAAAGTCACTTCAGGGAATTCCAAGAAACTAATCTATCTT
Celera SNP ID:            hCV27507434
SNP Position Genomic:     38324
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66191):
AAGTTGAAGAATTCAGAGGAGAAGAGTTCAGGCTGTGGTGATCAGCAGAGTCTTCAGAGACTTTACGAGTTAAATCCTGGAGGATTAGTGGGATTTTACG
Y
CATAAAAGTGGAAAAATTCTCAGGGGAATGTGAGCCAAGAACCAGAAGCAATAACACACAAAGTCACTTCAGGGAATTCCAAGAAACTAATCTATCTTGA
Celera SNP ID:            hCV27507435
SNP Position Genomic:     38326
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,46)   total(C,46|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66192):
AACACTTCTGAACCTCACTTTTCTTGCCTAAAACATAAGAGAGAAGAGAGAAACACTAGAGGATTTTGGTGTTTTTGTTTGTTTGTTTGTTTGTTTGTTT
R
TTTGTTTGTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCTGAAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAACGAT
Celera SNP ID:            hCV27242970
SNP Position Genomic:     25385
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66193):
TGAAGAATTCAGAGGAGAAGAGTTCAGGCTGTGGTGATCAGCAGAGTCTTCAGAGACTTTACGAGTTAAATCCTGGAGGATTAGTGGGATTTTACGCCAT
R
AAAGTGGAAAAATTCTCAGGGGAATGTGAGCCAAGAACCAGAAGCAATAACACACAAAGTCACTTCAGGGAATTCCAAGAAACTAATCTATCTTGACCAG
Celera SNP ID:            hCV27507436
SNP Position Genomic:     38330
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,21|G,27)   PGA-EUR(EAN-PANEL(G,4|A,42)   total(G,31|A,63) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66194):
CATTCAAGTAAGATAGAGGGAGCTGCGGCAGGCTACGAGGTCTCTGAAGCAGAGGGTGTAGAGAAAATAGGGTGACATTGTAAGTTCTTGAGTATGGCTG
Y
CTAAATCTTTGACTTCTTTGTCTTCGTGACTTGTACCTATACTCTTCTCTGTAAGCTTACCATCCTCCCACTGCCCTTTGCAGCAAATGACCTACATGAT
Celera SNP ID:            hCV27507437
SNP Position Genomic:     38752
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,39)   total(C,39|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66195):
CCATGTATATTTGGCTTTCTGCTGAATTTCTTATATTTCTGTACCATTTCTTGCTTCTTTTTAAAATAGCAACAACAATGACTCCTCTGATTTCTTCTCT
K
GGCCAGGAGAATCATCTCCTCAAGGATGATTTTTAATAATTTTCCTCATCTGGTTTTCTATCTCTGACACTGATAGTTTTTCTTAACTTCCTTAAATAGC
Celera SNP ID:            hCV27507438
SNP Position Genomic:     39820
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|T,47)   total(G,1|T,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66196):
TCTGTCCTTCCTCATGTCACAAGCTAAAGCTAATACACAAGTACTCAGAGACTTAAAGGAAGAAACATTTGCAGATGTCCAAGATGTGTTAGAAAAATAG
R
CATATTAAATGTAAAACCTGCTATAGAAATTGGTAAACTAGAAGTTGCATATTATGTGACAGTATAAACATTCCATATTTTCATAATAATTTGAACCTAA
Celera SNP ID:            hCV27507439
SNP Position Genomic:     40525
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,22|G,26)   PGA-EUR(EAN-PANEL(G,2|A,44)   total(G,28|A,66)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66197):
TATTGTTGTCAGAATAGCCTTAGATTTAAAGAAAGAATAGTCACTTCATTTGTCTATAACCCAACATTTATTGATAAATAATAGTCTTATATTAGAGAAT
Y
AATGGGGAGAAAAGAATAATGCTAAGAAAATATGTAACTGCAATAATTTGTAAAAATACTTTTGGGGGGAAATTGTGAATTAAAATTTAAATTCATTTAT
Celera SNP ID:            hCV16191218
SNP Position Genomic:     37962
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66198):
ATAGGTCTTGAAGAGGTTTGTAAAAATCAAACTATCTAAGTAAATGAGACTTATCTGACCAAGGTATTGTTGTCAGAATAGCCTTAGATTTAAAGAAAGA
W
TAGTCACTTCATTTGTCTATAACCCAACATTTATTGATAAATAATAGTCTTATATTAGAGAATTAATGGGGAGAAAAGAATAATGCTAAGAAAATATGTA
Celera SNP ID:            hCV16191219
SNP Position Genomic:     37898
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;PGA-AFRICAN-PANEL(T,3|A,43)   PGA-EUR(EAN-PANEL(T,19|A,25)   total(A,68|T,22)JBIC-allele(T,528|A,929)   total(A,929|T,528)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66199):
TAATGTACTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAATTCCTGACCTCATGATCCGCCCACCTCAGCCTCCCAAAGTGCTGG
S
ATTACAGGCATGAGCCACTGTGCCTGGCCCCAAAAACATTTTAAAAATATTCATAGATTTGATGAAATCCCAACAGAAGAGAGTTCATGAGAAATAATAG
Celera SNP ID:            hCV27242979
SNP Position Genomic:     16226
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66200):
AAATAATATTTTAATAGCTTTAGTTAAATATTCCACAGTTTCAAGAACATCCTGGCCAACATGGTGAAACCCCGTTTCTACTAAAAATACAAAAAATAGC
Y
GGGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATTGT
Celera SNP ID:            hCV12006152
SNP Position Genomic:     33403
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66201):
TATATTCCCCAAGCTTTTTCCCCCTCAATGTATCCAATTCCTTAGTTAACTTTTATAGACAATGCTGCTTTTTAAACGCAAGATTTTCATTTATAAAAAT
H
TGCAGAAATATAATAAAGAAATGAAGAAATATCCTCTTAAATACTCCTATCCTAAAATAGACACTGTTAGGCTTCTGGTATGAATTCTTCCAATATTTTC
Celera SNP ID:            hCV27480805
SNP Position Genomic:     30357
SNP Source:               dbSNP
Population(Allele,Count): PCA-AFRICAN-PANEL(A,5|C,39)   PCA-EUR(EAN-PANEL(A,21|C,25)   total(C,64|A,26)   (C,-|A,-)   no_pop(C,-|A,-)   no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66202):
ATGAAGCATCATGAAATTCAAACAATCACTTTTAGCCAAATACCATCGTTGTATATTAATCACACACACACACACACACACACACACACACACACACACA
S
AGAGAGAGAGAGGGAGAAAGAGAGAGAGAGTTACAGAGTTCAGGTTGCTGAATTATAAAATGATCTCTTCTTTTCTCCTCTGCCATGCCCATGATAGCCA
Celera SNP ID:            hCV22273160
SNP Position Genomic:     32867
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,7)   caucasian(C,2|G,2)   total(C,9|G,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:66203):
TGATGAAGCATCATGAAATTCAAACAATCACTTTTAGCCAAATACCATCGTTGTATATTAATCACACACACACACACACACACACACACACACACACACA
S
ACAGAGAGAGAGAGGGAGAAAGAGAGAGAGAGTTACAGAGTTCAGGTTGCTGAATTATAAAATGATCTCTTCTTTTCTCCTCTGCCATGCCCATGATAGC
Celera SNP ID:            hCV22273161
SNP Position Genomic:     32865
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,4)   caucasian(C,4)   total(C,12|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:66204):
AGGCTTGGTCATGTCGCATGCTTTATCATCCAAAACAGCAATGCAGCATGGGATTTAGAAGCCTGGAGGTTAATGAAGGTTAAAAAAAAAAAAAAAAAAA
A
GTACAGTGGAAAGAGCTCTTTCTTGTTTCAAAGTCAAGCTCTGCTACTGTCATTCTGAACGTGTTATTTAGATGCCCCAAGCTTCAGTATTTTCATGTGC
Celera SNP ID:            hCV11342153
SNP Position Genomic:     15796
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,7)   total(A,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66205):
TGATAAATAACATTTATTTGAATTAAATCTAATTTCTTGACCTTTAATTTCCTATCCATAAATTAGAAAGAATAACCCTGAAGTTCCCTGAAAATGTAGT
Y
TAAGGAGGATGACAGTCTACTTCTTTCAAACTTCCAGTGTCCAGATATGCTGAACACTTATTAAGTATTTCAATAAACACATACTGACATGCCAGTTGAT
Celera SNP ID:            hCV27507440
SNP Position Genomic:     40856
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   total(C,1|T,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66206):
ATTTCAATAAACACATACTGACATGCCAGTTGATCACAAATGTAGTAATAACATTTAGACTAACAGTATTTTAAGAACCAAAATTTTGTAAATAGTATAT
K
TGGAGGCAAGATTTATCAATGCATTAGCAGGTATTTGTCGGATGCTACTATGTGTCCATCTTTGCATCTTGGTTCTTTGGATATCACCCTTCGAGAGAAT
Celera SNP ID:            hCV27507441
SNP Position Genomic:     41023
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|T,47)   PGA-EUR(EAN-PANEL(G,2|T,44)   total(G,3|T,91) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66207):
AATTTTTTTTTAATGTACTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAATTCCTGACCTCATGATCCGCCCACCTCAGCCTCCC
R
AAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCCCAAAAACATTTTAAAAATATTCATAGATTTGATGAAATCCCAACAGAAGAGAGTTCATGA
Celera SNP ID:            hCV27242980
SNP Position Genomic:     16216
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66208):
CTAATTTTTTTTTAATGTACTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAATTCCTGACCTCATGATCCGCCCACCTCAGCCTC
Y
CAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCCCAAAAACATTTTAAAAATATTCATAGATTTGATGAAATCCCAACAGAAGAGAGTTCAT
Celera SNP ID:            hCV27242981
SNP Position Genomic:     16214
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66209):
AGCACCCGCCACCACACCTGTCTAATTTTTTTTTAATGTACTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTTGAATTCCTGACCTCA
K
GATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCCCAAAAACATTTTAAAAATATTCATAGATTTGATGAAA
Celera SNP ID:            hCV27242982
SNP Position Genomic:     16193
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66210):
GATAACTCTACTCTCTGGGACACATTAACTGGTTTGAGTTGAGTTCTCCCTGGTATCTGGTCAGGCTGTAGTCAAAAGTGCATGAACACATGCACACACA
Y
GACCCCACACTGTCCCATGCACCCTACTGGGCGTGACACATACACAACCCCACACTGTCCCATGCACCCTACATAATCCATCACTGGGCGTGACACACAC
Celera SNP ID:            hCV27242983
SNP Position Genomic:     14616
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66211):
TTTTGCATTTTTAGTAGAGACGAGGTTTTACCATGTTGCCAGGCTGTTCTCGAACTCCTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTG
R
GATTAGAGGCATGAGCCACTGCACCAGCCCAGTTCTTTATTAAAGTAAAATTAAAGATAATCATGGTACTTAATGAAGGCTTACACAGGCACAGGATGTT
Celera SNP ID:            hCV27242984
SNP Position Genomic:     11673
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66212):
GAGTGCAGTAGTGCCATCTCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTTCTGAGTAGCTGGGATTACAGGCATGC
R
CCACCATGCCCAGCTAATTTTTGTATTTTTTAGTGGAGTTGGTTTCGCCATGTTGGCAAGGCTGGTCTTGAACTTCTGACCTCAAGGGATCTGCCTGCCT
Celera SNP ID:            hCV27242985
SNP Position Genomic:     9722
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66213):
GGAGTGCAGTAGTGCCATCTCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTTCTGAGTAGCTGGGATTACAGGCATG
H
GCCACCATGCCCAGCTAATTTTTGTATTTTTTAGTGGAGTTGGTTTCGCCATGTTGGCAAGGCTGGTCTTGAACTTCTGACCTCAAGGGATCTGCCTGCC
Celera SNP ID:            hCV27242986
SNP Position Genomic:     9721
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66214):
CTGGGATGGGAGTTATGGAAGACTCAAGGATGAATCATTCTTGGGTTTTAGACACTTTCCCATCCAGTAGAAGAGTGAGGGTATGACATGGGACATGACA
R
CACATCAGTTCAGACAAAAAGTTGAAGAATTCAGAGGAGAAGAGTTCAGGCTGTGGTGATCAGCAGAGTCTTCAGAGACTTTACGAGTTAAATCCTGGAG
Celera SNP ID:            hCV27495809
SNP Position Genomic:     38207
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,22|G,26)   PGA-EUR(EAN-PANEL(A,2|G,44)   total(G,70|A,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66215):
TGGAGTGCAGTAGTGCCATCTCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTTCTGAGTAGCTGGGATTACAGGCAT
R
CGCCACCATGCCCAGCTAATTTTTGTATTTTTTAGTGGAGTTGGTTTCGCCATGTTGGCAAGGCTGGTCTTGAACTTCTGACCTCAAGGGATCTGCCTGC
Celera SNP ID:            hCV27242987
SNP Position Genomic:     9720
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66216):
GGCTGGAGTGCAGTAGTGCCATCTCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTTCTGAGTAGCTGGGATTACAGG
S
ATGCGCCACCATGCCCAGCTAATTTTTGTATTTTTTAGTGGAGTTGGTTTCGCCATGTTGGCAAGGCTGGTCTTGAACTTCTGACCTCAAGGGATCTGCC
Celera SNP ID:            hCV27242988
SNP Position Genomic:     9717
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66217):
CATCTGGGCTTTGCTACCAACAAGTTGTATAGTTCTGCATCCTCAACAACTCTCATATTCACCTCCCCTATTTGCATTCCCACTGATGCCAGACCAAACC
W
GTCCCTCTTTAACTCTCACTGGGACCATTGCAATAGCCTCTTCTTTTGCAGTGCAATCTCCCTGATTGTAACTCATTTAAAAAAAAAAAAGTATCGCACT
Celera SNP ID:            hCV15955119
SNP Position Genomic:     9096
SNP Source:               dbSNP
Population(Allele,Count): (T,-|A,-)   JBIC-allele(A,397|T,1074)   total(A,397|T,1074)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66218):
AGCAGGCTGGAGTGCAGTAGTGCCATCTCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCTTCTGAGTAGCTGGGATTA
S
AGGCATGCGCCACCATGCCCAGCTAATTTTTGTATTTTTTAGTGGAGTTGGTTTCGCCATGTTGGCAAGGCTGGTCTTGAACTTCTGACCTCAAGGGATC
Celera SNP ID:            hCV27242989
SNP Position Genomic:     9713
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66219):
ATGTTGGCTCCACCTGCCATTTCTCTTGTGACAACGGCTTTAAGCTGGAGGGGCCCAATAATGTGGAATGCACAACTTCTGGAAGATGGTCAGCTACTCC
R
CCAACCTGCAAAGGTAATAATATGTACTTGCTAAGACAGTTCTACTTTTGGAAATTTATTCTACAACAACAAACAATTATCTAGTTCTTATATGTGAACT
Celera SNP ID:            hCV27495810
SNP Position Genomic:     39172
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,45)   total(G,1|A,45) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66220):
ACAATGACTCCTCTGATTTCTTCTCTTGGCCAGGAGAATCATCTCCTCAAGGATGATTTTTAATAATTTTCCTCATCTGGTTTTCTATCTCTGACACTGA
Y
AGTTTTTCTTAACTTCCTTAAATAGCTCTTGCAGGAGCCTCCCTTGTTATGAAGGGAGTGAAAAGCAGTTATTCCAGATTAGCCTTAACTCTGTTAACGC
Celera SNP ID:            hCV27495811
SNP Position Genomic:     39894
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|T,47)   PGA-EUR(EAN-PANEL(C,2|T,44)   total(C,3|T,91) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66221):
TAGGATCTCCCAATCTTCAGCAGGCTGGAGTGCAGTAGTGCCATCTCAGCTCACTGCAACCTCTGTCTCCTGGGTTCAAGCGATTCTCCTGTCTCAGCCT
Y
CTGAGTAGCTGGGATTACAGGCATGCGCCACCATGCCCAGCTAATTTTTGTATTTTTTAGTGGAGTTGGTTTCGCCATGTTGGCAAGGCTGGTCTTGAAC
Celera SNP ID:            hCV27242990
SNP Position Genomic:     9695
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66222):
TACTTCTTTCAAACTTCCAGTGTCCAGATATGCTGAACACTTATTAAGTATTTCAATAAACACATACTGACATGCCAGTTGATCACAAATGTAGTAATAA
Y
ATTTAGACTAACAGTATTTTAAGAACCAAAATTTTGTAAATAGTATATTTGGAGGCAAGATTTATCAATGCATTAGCAGGTATTTGTCGGATGCTACTAT
Celera SNP ID:            hCV27495812
SNP Position Genomic:     40974
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,4|C,44)   total(C,44|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66223):
AAACTTCAGTTATGGATCAATCTGCTCTTTCCATTGTCTAGAGGGCCAGTTACTTAATGGCTCTGCACAAACAGCATGCCAAGAGAATGGCCACTGGTCA
M
CTACCGTGCCAACCTGCCAAGGTACAATTTTCATGTGGGTTAAGAAGTCACTTTGATGTGGAAAATAACAAAATCAGTGTTTCTTCCCTGTGTCTTTCTC
Celera SNP ID:            hCV11975277
SNP Position Genomic:     41463
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): Northern Ireland, France, Scotland(C,250|A,1750)      total(A,1750|C,250)Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(C,5|A,90)   Irish and French(C,189|A,1326)    ;(C,-|A,-)   ;WIAF-CSNP-P(1(C,11|A,95)   total(A,95|C,11)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66224):
GACATGCCAGTTGATCACAAATGTAGTAATAACATTTAGACTAACAGTATTTTAAGAACCAAAATTTTGTAAATAGTATATTTGGAGGCAAGATTTATCA
W
TGCATTAGCAGGTATTTGTCGGATGCTACTATGTGTCCATCTTTGCATCTTGGTTCTTTGGATATCACCCTTCGAGAGAATATTTTCATATATGTGCTGT
Celera SNP ID:            hCV27495813
SNP Position Genomic:     41042
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|A,47)   total(A,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66225):
GTGATGGACAAAATTTGTCCAAGGACTCACACTATTATTCTGTGGTTGGTTTTAGCTGCCCAGTGCCCACCCCTGAAGATTCCTGAACGAGGAAACATGA
Y
CTGCCTTCATTCTGCAAAAGCATTCCAGCATCAGTCTAGCTGCAGCTTCAGTTGTGAAGAGGGATTTGCATTAGTTGGACCGGAAGTGGTGCAATGCACA
Celera SNP ID:            hCV25617100
SNP Position Genomic:     23819
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36)   total(C,73|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66226):
AAAGAGACCAAGTAGAGATGGATAGCTTGGGTTAAAAGTTTAGAAAATTAGAGTTAAGAGGGTTACACAAATAGTTACAGCTTTCAGCAAACATGACATT
S
CTGTTAATTCTACATGGAAAATAAAAATCACTATTTTGTCTCCTGCAGTGAGAGAGTGTGGAGAACTTGAGCTCCCTCAACACGTGCTCATGAACTGCAG
Celera SNP ID:            hCV25617101
SNP Position Genomic:     23013
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(C,2|G,30)   total(C,2|G,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:66227):
ATATTCCCCTTATAATGAGCCCTCCTGAAAATCAGTCTACTGGTTTTCCCCAGTAATTTCTATCCTTAATGACCCTCTCTTTCATCTTGTTTTTTTTTTT
T
AATCATTCATTCTTGTCTTCTTGCTGATTTTAGATGATGGGAAATGCCCCTTGAATCCTCACAGGTAAGGTAGAAATGTTTTATGATTGAGTAAATTTTG
Celera SNP ID:            hCV2481787
SNP Position Genomic:     44686
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66228):
TTAATTCTACATGGAAAATAAAAATCACTATTTTGTCTCCTGCAGTGAGAGAGTGTGGAGAACTTGAGCTCCCTCAACACGTGCTCATGAACTGCAGCCA
Y
CCTCTGGGAAACTTCTCTTTTAACTCGCAGTGCAGCTTCCACTGCACTGACGGGTACCAAGTAAATGGGCCCAGCAAGCTGGAATGCTTGGCTTCTGGAA
Celera SNP ID:            hCV25617102
SNP Position Genomic:     23117
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66229):
TCTTGCAGGAGCCTCCCTTGTTATGAAGGGAGTGAAAAGCAGTTATTCCAGATTAGCCTTAACTCTGTTAACGCTTCTTTTAATTGGGAGGTCTCTGAAT
K
GAAACATTTTCTCACAACAGGCATAGCATCACTTCCTACTCCAGGGGTGCAATGTCCAGCCCTCACCACTCCTGGGCAGGGAACCATGTACTGTAGGCAT
Celera SNP ID:            hCV22272598
SNP Position Genomic:     40021
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,20)   caucasian(G,30)   total(G,42|T,20)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,22|T,26)   PGA-EUR(EAN-PANEL(T,2|G,44)   total(G,66|T,28)   (G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66230):
ACTGCCTTGGTAGTCAGTGAAAATAGAACACTAAGCGTGCAATAAATGCAAACCTTATCTGTTTTCTATTTTTGTAATTATTCAGGAGTTTTTTTTTTTT
T
GCCAAAGTTTTAGAGTAGGCTCAAGAATATGACCACTTCTCAAAGTTATGCACAAAAGTCATTCCTGGGTATAACTCTTTTCCTGCATCTGCACTAATCT
Celera SNP ID:            hCV9945928
SNP Position Genomic:     36817
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66231):
TACACTTCTTATGTCTTGCATGTGTGTGTGTTTGTTTTGTAGCAGGACCATTGACTATCCAGGAAGCCCTGACTTACTTTGGTGGAGCGGTGGCTTCTAC
R
ATAGGTCTGATAATGGGTGGGACGCTCCTGGCTTTGCTAAGAAAGCGTTTCAGACAAAAAGGTAAATAGGAAAGAGTCTTCTCTTTGCATCTTGGTTACA
Celera SNP ID:            hCV2952972
SNP Position Genomic:     42510
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)   Irish and French(A,195|G,1320)   Northern Ireland, France, Scotland(A,260|G,1740)      total(G,3060|A,455);(G,-|A,-)   WIAF-CSNP-P(1(G,32|A,66)   total(G,32|A,66) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66232):
CCAGATTAGCCTTAACTCTGTTAACGCTTCTTTTAATTGGGAGGTCTCTGAATGGAAACATTTTCTCACAACAGGCATAGCATCACTTCCTACTCCAGGG
K
TGCAATGTCCAGCCCTCACCACTCCTGGGCAGGGAACCATGTACTGTAGGCATCATCCGGGAACCTTTGGTTTTAATACCACTTGTTACTTTGGCTGCAA
Celera SNP ID:            hCV11975283
SNP Position Genomic:     40068
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,20)   caucasian(G,32)   total(G,44|T,20)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,11|T,92)   Irish and French(T,-|G,-)      total(G,11|T,92) ;WIAF-CSNP-P(1(T,34|G,70)   total(G,70|T,34)(G,-|T,-)   PGA-AFRICAN-PANEL(G,22|T,26)   PGA-EUR(EAN-PANEL(T,2|G,44)   total(G,66|T,28)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66233):
AGTGCCCAGAACTCTTTGCCCCAGAGCAGGGCAGCCTGGATTGTTCTGACACTCGTGGAGAATTCAATGTTGGCTCCACCTGCCATTTCTCTTGTGACAA
Y
GGCTTTAAGCTGGAGGGGCCCAATAATGTGGAATGCACAACTTCTGGAAGATGGTCAGCTACTCCACCAACCTGCAAAGGTAATAATATGTACTTGCTAA
Celera SNP ID:            hCV11975284
SNP Position Genomic:     39106
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,35|T,5)   total(C,49|T,27)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)   Irish and French(C,172|T,1343)      total(C,172|T,1343) ;WIAF-CSNP-P(1(T,34|C,70)   total(C,70|T,34)(C,-|T,-)   PGA-AFRICAN-PANEL(C,21|T,25)   PGA-EUR(EAN-PANEL(T,2|C,42)   total(C,63|T,27)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66234):
CATCAAGTGCCCAGAACTCTTTGCCCCAGAGCAGGGCAGCCTGGATTGTTCTGACACTCGTGGAGAATTCAATGTTGGCTCCACCTGCCATTTCTCTTGT
R
ACAACGGCTTTAAGCTGGAGGGGCCCAATAATGTGGAATGCACAACTTCTGGAAGATGGTCAGCTACTCCACCAACCTGCAAAGGTAATAATATGTACTT
Celera SNP ID:            hCV11975285
SNP Position Genomic:     39101
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,9)   caucasian(A,21|G,19)   total(A,50|G,28)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)   Irish and French(G,700|A,815)      total(G,700|A,815) ;WIAF-CSNP-P(1(G,33|A,69)   total(G,33|A,69)(A,-|G,-)   PGA-AFRICAN-PANEL(G,11|A,35)   PGA-EUR(EAN-PANEL(G,20|A,24)   total(G,31|A,59)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66235):
TTGATACTCTAGCCATCAAGTGCCCAGAACTCTTTGCCCCAGAGCAGGGCAGCCTGGATTGTTCTGACACTCGTGGAGAATTCAATGTTGGCTCCACCTG
Y
CATTTCTCTTGTGACAACGGCTTTAAGCTGGAGGGGCCCAATAATGTGGAATGCACAACTTCTGGAAGATGGTCAGCTACTCCACCAACCTGCAAAGGTA
Celera SNP ID:            hCV11975289
SNP Position Genomic:     39088
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,36|T,4)   total(C,50|T,26)
SNP Type:                 NONSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)   Irish and French(C,172|T,1343)      total(C,172|T,1343) ;(C,-|T,-)   WIAF-CSNP-P(1(T,33|C,68)   total(C,68|T,33)PGA-AFRICAN-PANEL(C,20|T,24)   PGA-EUR(EAN-PANEL(T,2|C,42)   total(C,62|T,26)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:66236):
TACGGTGAGGCTTCCTTTTTGTTGATATTATTTTGGTTTTATGCTAGAGATGATGCCAAGAAGTAAATAAATCATGTTGAAGTCTCTCCAGTGAGAATAG
R
ATGGTACCAGCCCCCCTCTATCATCTGTCTCCTCCACTCAGTGTCCCTAGACACACACTCTAGGTAAAAACATTTTATTCTTGGGAGAAAACATTGACTC
Celera SNP ID:            hCV25617110
SNP Position Genomic:     22687
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(G,8)   total(A,3|G,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:66237):
GTGTAACATTTCCATTATTAACTGCTAGGTGGTGATGATGTGGCCTTGCCTGCAAAGCAGAAGTCAGGACTGCTGAAAAATGTTTACGAACTGTTATGGA
R
TCAATTCCCTATGCTACCTGCTGGAAAAACAAAAATAATCTGATGCTATCCCTCTCCCAAAAAGTGGGTAGTTGAGTGTCCTACAAAAAGCCTGAATGGC
Celera SNP ID:            hCV340981
SNP Position Genomic:     46379
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66238):
TGTTTTATCTAAGCTTCACTGTTAGGCTACATGATGTTGGGATCTGGGGCCTGTCCTCTGGCTCCGCAGCTGCTGTTCCTCCTACTAGAATTTATAGGGG
M
TCTCTGAGAATAGATCATGGTAAACCTGTCACCCCATTTTCCAAGACTGTACTTCTCTCTGGGATAAATGATGGAATAAATGGAAGACTGGGTAGGTGCC
Celera SNP ID:            hCV25617111
SNP Position Genomic:     6445
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,36)   total(A,1|C,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:66239):
CAAATAAAGCCATCGTGGTTTACAGAGGCTGTGTTTTATCTAAGCTTCACTGTTAGGCTACATGATGTTGGGATCTGGGGCCTGTCCTCTGGCTCCGCAG
S
TGCTGTTCCTCCTACTAGAATTTATAGGGGCTCTCTGAGAATAGATCATGGTAAACCTGTCACCCCATTTTCCAAGACTGTACTTCTCTCTGGGATAAAT
Celera SNP ID:            hCV25617112
SNP Position Genomic:     6414
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,4)   caucasian(C,26|G,10)   total(C,60|G,14)
SNP Type:                 INTRON


Context             (SEQ ID NO:66240):
GTAAGCAGTCTGGGTTGGGCAGAAGGCAGAAAACCAGCAGAGTCACAGAGGAGATGGTGAGTTTATTTTTTTCTGCATGGGAAGTGGTTGAAGTGAGTTG
R
AGTGGTATGGAGTAAAGTCAGGCAGGTAAAGGTTCAGAAAGTGAGGAACAGCGATAGCCATGGAGTTTTATGTTGAATTGCCTATTAGATTTTGTGAGTA
Celera SNP ID:            hCV2480415
SNP Position Genomic:     6144
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66241):
CCTCCTTTTTACAATGTCTTTTGCAATGTCTTCTTTTCTACTCTGAAGTAAAATACACAGATAACAAATATTCTAATTAAAATATAAAGTAGGAATAAAA
Y
GAAAAGTAATTTATAATAAAAACAAGATGCAAAAACTTAGGCGCTGTGCCAGTAGATGCAATGAGGTCATCAGAAGCGTGCACCTTCCACAGAATCACTA
Celera SNP ID:            hCV25617113
SNP Position Genomic:     44943
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,33)   caucasian(C,1|T,33)   total(C,6|T,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:66242):
AATAGATTTTTTGGTATGCATCTTGATTACATACTTAGCATAAATTCTTGGGTCCAAAAGCATGATAACTTAAAAATTATTGACACATGTTGCCAAGATG
Y
TCAACAAAGGTTTAGCATTTCCTAATAAAATCCTTCATGTGCCGTTATAATTAAATGACACTTTTTCTTATCTTCTATGTTAAACAAGCCCAATTCAGGA
Celera SNP ID:            hCV9945934
SNP Position Genomic:     28846
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66243):
GGGTTGGGCAGAAGGCAGAAAACCAGCAGAGTCACAGAGGAGATGGTGAGTTTATTTTTTTCTGCATGGGAAGTGGTTGAAGTGAGTTGGAGTGGTATGG
R
GTAAAGTCAGGCAGGTAAAGGTTCAGAAAGTGAGGAACAGCGATAGCCATGGAGTTTTATGTTGAATTGCCTATTAGATTTTGTGAGTACTTTTAAACTT
Celera SNP ID:            hCV2480416
SNP Position Genomic:     6155
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,4)   caucasian(A,8|G,2)   total(A,14|G,6)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,21)   caucasian(A,22|G,16)   total(A,37|G,37)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;(G,-|A,-)   JBIC-allele(G,411|A,1088)   total(G,411|A,1088)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66244):
TTTTTATTTAACATCATACATTGAGACCTCTCTCCTATCTTTACAAGTTAAAATATATTATTTTTAGTGACCTTTAACATTCTTTTCATGGATCCACCAT
M
ATTAATTTCCACCCTCAATTAATGGCATTTGTGTTTGTTTTCAATATTCCGCTCTTACAAATAATGTCTTCACAAAAATCTCTAAATAGATTTTTTGGTA
Celera SNP ID:            hCV9945935
SNP Position Genomic:     28661
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66245):
AACATGGTGAAACACCATATTTACTAAACTTACAAAAACTGGCTGGGCATGTTGGCATGTGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGACAA
W
CTCTTGAACCCAGGAGGTGGAGGTGGCAGTGAGTTGAGATCACACCACTGAACTCCAGCCTGGGTGACAGAGCAAGACTTGTCTCAAAAACAAAACAAAA
Celera SNP ID:            hCV2480417
SNP Position Genomic:     8171
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,6)      total(A,5|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66246):
ATGGAGTTTTTACAAACGCTGCATTTGACCCGAGTCCTTAAGGTAAGATCCCTATAAAGATATTTTTGAAGGAAATAGAACACTAGGGAAAAATGGAAGA
N
TATAAAGCTTAACTTTTCTTTACATAATCATATATTAAATTTTAAGTATGTATTAAATTTTCAGGCATGAAGGAAATTGTGTTGGCAGTAGGACACAGGT
Celera SNP ID:            hCV22271510
SNP Position Genomic:     46088
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,32|T,2)   total(C,64|T,6)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66247):
GTGGGGAGTGGTGGCTGCCCCATCTTAGGCATTCGAAGTCTGAAAGACTTCCTGCAGAACAGCAGATAAATGCTAAGTTGGCTTGGAAGTGACCTTTATG
K
TCTCCTATAGCTCTGAAATAACCTGTAAGAGGTGAATCTTGGTATTTGGTGATGCATAGAAACAGAAAAGTATGTCAGATTAAAGCAGGGGATGCACACT
Celera SNP ID:            hCV2480418
SNP Position Genomic:     12422
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,3)      total(G,3|T,3) ;JBIC-allele(G,406|T,1083)   total(G,406|T,1083)   PGA-AFRICAN-PANEL(T,22|G,26)   PGA-EUR(EAN-PANEL(T,21|G,23)   total(G,49|T,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66248):
GGCTTCTGGTATGAATTCTTCCAATATTTTCTCCGCTTTTCCTCCTATGCAATTAATATTTTTATGATGTATATACAATTTTAACAATAAAGTTGAATGG
R
TAAAAGACTAGACAGTTCTACATTATTTGCCATACCTTTCACTTTGTATAGACTTTCAACATTTGAGTGAAAGTGGGCAGATACATATTTTTTACTAAAA
Celera SNP ID:            hCV15868017
SNP Position Genomic:     30527
SNP Source:               dbSNP
Population(Allele,Count): JBIG-allele(G,122|A,1347)   total(G,122|A,1347)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66249):
AGTGGTGGCTGCCCCATCTTAGGCATTCGAAGTCTGAAAGACTTCCTGCAGAACAGCAGATAAATGCTAAGTTGGCTTGGAAGTGACCTTTATGTTCTCC
Y
ATAGCTCTGAAATAACCTGTAAGAGGTGAATCTTGGTATTTGGTGATGCATAGAAACAGAAAAGTATGTCAGATTAAAGCAGGGGATGCACACTGACTTG
Celera SNP ID:            hCV2480419
SNP Position Genomic:     12428
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;PGA-AFRICAN-PANEL(C,23|T,25)   PGA-EUR(EAN-PANEL(T,22|C,22)   total(C,45|T,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:66250):
AAGTGGGTAGTTGAGTGTCCTACAAAAAGCCTGAATGGCAGAATATTCGAAATCTAGAAAGAAAAGATTATGCTGCGCCTCAGGGTGTAGATATGATGAG
Y
AATTTTTTTCTTTCTTTTATTTTTTTAAGGAAATGATAATTATTTAAATTTCTTTGGTCTCATTTCCAGAGACCTGTCCTTTTCCTGGTCTCCTCATTCA
Celera SNP ID:            hCV27242933
SNP Position Genomic:     46541
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66251):
TCTGACCTTTTACATTCTGCCTCATTTATTGGCAATGTTAGGTTACAAAAGAAACTATAATCTCTTTCACCTCCAATCCACATGTTGTTTCTCTTGCATT
M
TTTCTTTTCTGCAGCTGTGAAATGCTCAGAACTACATGTTAATAAGCCAATAGCGATGAACTGCTCCAACCTCTGGGGAAACTTCAGTTATGGATCAATC
Celera SNP ID:            hCV8919466
SNP Position Genomic:     41284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66252):
GTGCCCAGCTTCCGTTGGCTTATCATTGCACTTAGAATAAAATCTCATCCCCTTGTTTTGGATCCCAAAGCCCGATGTGATCTGTCACTACCCCCGGCTC
R
TATTTTTCTCTCCATTGCTCATTCCATTCTGGCCACACTAATGTCTTCATGTTCTTTGAACACACTGCAGTTTGCTTCCACCTTAAGGCCTTTGAAATAG
Celera SNP ID:            hCV27497501
SNP Position Genomic:     9962
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66253):
GGGTTGGCCACTGTGATGGGAGACTGGGAGCCTCACCGACTCCTTCGCCCTACACACTCTTGTGAGCTGGCCCCAAAGCCAGGGAAATCCCTAGAAATAC
K
CTGTTCAGGGAGAAAACCACTTCCACAGGAAGAGTACCACTAAATTTAAAATCGTTGCACTCCTTCTGCAATCTGTCTGAATAGAGGCAAAGCCCAGGTT
Celera SNP ID:            hCV27497502
SNP Position Genomic:     12898
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|T,42)   PGA-EUR(EAN-PANEL(G,2|T,42)   total(G,4|T,84) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66254):
AATAAACTTGGAGATTGTGACACTCTTAATTTGATACTCTAGCCATCAAGTGCCCAGAACTCTTTGCCCCAGAGCAGGGCAGCCTGGATTGTTCTGACAC
Y
CGTGGAGAATTCAATGTTGGCTCCACCTGCCATTTCTCTTGTGACAACGGCTTTAAGCTGGAGGGGCCCAATAATGTGGAATGCACAACTTCTGGAAGAT
Celera SNP ID:            hCV11975290
SNP Position Genomic:     39058
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)    ;WIAF-CSNP-P(1(C,3|T,101)   total(C,3|T,101)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66255):
GTTAAAATGTTTTTCTTTTCTATTGAGTTAGCATGACAACTACTTTCAGTACACAATTAAATAAAGTAAATATACTGCAAGTTTTGACAAGTAACTTAAA
M
CTTTATATTTAAATTGCTATTAAAGATTCATCTCTAAGACAGGAGGAGCTTTCCCTCATTTGTTCATATATCCATGAATGAATATTACTTATCAACAAAA
Celera SNP ID:            hCV27497503
SNP Position Genomic:     13581
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,3|C,41)   total(A,3|C,41) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66256):
GAAAACGGATTTGCTGCAATATCATTTACAATATTCAAATTCTTAATACCTATACCAATATTTCGAATCATCTCTGGCATACGAATGTATTTATATCCAA
R
GGCAAAGCTCTGGAATAAATAAGAAATTAGTAAAAGGTATAATTTTTCTCTTATAAAGTGGGAGAAAGGTGTATTTTAGGCAGATTGTTTTTAAGAAAGT
Celera SNP ID:            hCV27497504
SNP Position Genomic:     14037
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,22|G,24)   PGA-EUR(EAN-PANEL(A,21|G,23)   total(G,47|A,43) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66257):
CTCTCAGTGTTTAATCATAGGTCCTGCAGAGATCAGCAGCTTATAAGAACACAAAATATGCCTACTTACCAAAGTCAAGATTCAGAAGCTCCCAGATGAA
R
AGTTCTAGGCTTATGAGATAACTCTACTCTCTGGGACACATTAACTGGTTTGAGTTGAGTTCTCCCTGGTATCTGGTCAGGCTGTAGTCAAAAGTGCATG
Celera SNP ID:            hCV27497505
SNP Position Genomic:     14499
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,2|A,44)   PGA-EUR(EAN-PANEL(G,13|A,31)   total(G,15|A,75) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66258):
AGAGCCCAGATCTATGTGTGAGAAATTTAAGGATTGTAGCCAGTTGGTTTGAGGCATGGGAAAACTGTCCAAGTCCAGATTGCTGGAAGACAAATGTACC
Y
AACGCCATCATATTGGTAGAAAGGGCATAGGAAAGAACTTAAAATGATATATCCAGGACGAATGTATCCATTAGGCACAGTAGACACAGACGCACAAAAT
Celera SNP ID:            hCV27497506
SNP Position Genomic:     17193
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,45)   total(C,45|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66259):
GCCTTTAGGTACCAGTCAGTCTGCAGCTTCACCTGCAATGAAGGCTTGCTCCTGGTGGGAGCAAGTGTGCTACAGTGCTTGGCTACTGGAAACTGGAATT
Y
TGTTCCTCCAGAATGCCAAGGTAAGAGTGTATTCTTTCTAACATCATGGAAATAAATTGTAGGCAGTATTTTTAAAGGCTGGATTTTAGAGGTGACAACT
Celera SNP ID:            hCV11975294
SNP Position Genomic:     29207
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,34)   total(C,67|T,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(T,-|C,-)    ;WIAF-CSNP-P(1(T,3|C,103)   total(C,103|T,3)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66260):
GCCATCATATTGGTAGAAAGGGCATAGGAAAGAACTTAAAATGATATATCCAGGACGAATGTATCCATTAGGCACAGTAGACACAGACGCACAAAATTTT
Y
AAAGACCCACACACGTCTGAATTTCTTTTATAATTATTTTCTTTGAAGTCAAAGAAAATGTTTTAATATATAGTGATATATTCATCTTTGTACCAGTGCA
Celera SNP ID:            hCV27497507
SNP Position Genomic:     17297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   PGA-AFRICAN-PANEL(C,23|T,25)   PGA-EUR(EAN-PANEL(T,23|C,23)   total(C,46|T,48) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66261):
TGAAGGAACCATGGACTGTGTTCATCCGCTCACTGCTTTTGCCTATGGCTCCAGCTGTAAATTTGAGTGCCAGCCCGGCTACAGAGTGAGGGGCTTGGAC
R
TGCTCCGCTGCATTGACTCTGGACACTGGTCTGCACCCTTGCCAACCTGTGAGGGTAGGATTTTTCATTAGCAACCTCCATTCTGTCCAAGAAGGAATCA
Celera SNP ID:            hCV11975295
SNP Position Genomic:     24630
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)    ;WIAF-CSNP-P(1(G,3|A,103)   total(G,3|A,103)
SNP Type:                 INTRON


Context             (SEQ ID NO:66262):
AGAAAGGGCATAGGAAAGAACTTAAAATGATATATCCAGGACGAATGTATCCATTAGGCACAGTAGACACAGACGCACAAAATTTTCAAAGACCCACACA
Y
GTCTGAATTTCTTTTATAATTATTTTCTTTGAAGTCAAAGAAAATGTTTTAATATATAGTGATATATTCATCTTTGTACCAGTGCAGTTGCAAAATAGAA
Celera SNP ID:            hCV27497508
SNP Position Genomic:     17311
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,46)   PGA-EUR(EAN-PANEL(T,1|C,45)   total(C,91|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66263):
ACCATTGCTCTCTGTGTGGCTTTTCTCCTTTCTCAGTATCTTTCTCTTTATCCTTGGTTATTCTCTCCAGCTGTGCAGTGTCAGCACCTGGAAGCCCCCA
R
TGAAGGAACCATGGACTGTGTTCATCCGCTCACTGCTTTTGCCTATGGCTCCAGCTGTAAATTTGAGTGCCAGCCCGGCTACAGAGTGAGGGGCTTGGAC
Celera SNP ID:            hCV11975296
SNP Position Genomic:     24529
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,9)   caucasian(A,2|G,8)   total(A,9|G,17)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(A,5|G,90)   Irish and French(A,257|G,1258)      total(G,1348|A,262) ;WIAF-CSNP-P(1(A,11|G,95)   total(G,95|A,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:66264):
TTCTGAGCCCTATCTTAATAAGGGAGTATTCAGACATGGAAGAAGTAGAGTAGTTAATGAAAGACAAACAGCCAAGAAGAATGGAAAGACTATAAGATTG
Y
AGATCAGGATATCTGATTTCCCACCCGGGTTCTGCCACAAACCTACTGTGTTTCACTCATTCAACAAGTATTTATTGAAGGCCTATTAAGTGCTAAACTC
Celera SNP ID:            hCV27497509
SNP Position Genomic:     17905
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,46)   PGA-EUR(EAN-PANEL(T,2|C,44)   total(C,90|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66265):
TGAAATAATATAAATCAATATGTTTAAGAATTCAGATGCAATCATGTATACTTTCTTGATGGACTATAGAAGAACACCAATGAATACCCATATGTGATAG
M
ACTGCCTTGGTAGTCAGTGAAAATAGAACACTAAGCGTGCAATAAATGCAAACCTTATCTGTTTTCTATTTTTGTAATTATTCAGGAGTTTTTTTTTTTT
Celera SNP ID:            hCV2229248
SNP Position Genomic:     36716
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,6)      total(A,3|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66266):
TTATTATACTTCTTTGCAAAATAAAAATATAAAATTTCAATTTTCTACAACTGTAAGTCTCTATGTGTTAAAATGTTTTTCTTTTCTATTGAGTTAGCAT
K
ACAACTACTTTCAGTACACAATTAAATAAAGTAAATATACTGCAAGTTTTGACAAGTAACTTAAACCTTTATATTTAAATTGCTATTAAAGATTCATCTC
Celera SNP ID:            hCV2480420
SNP Position Genomic:     13515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,3)      total(G,3|T,1) ;PGA-AFRICAN-PANEL(T,2|G,42)   PGA-EUR(EAN-PANEL(T,13|G,31)   total(G,73|T,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:66267):
TTCTACAACTGTAAGTCTCTATGTGTTAAAATGTTTTTCTTTTCTATTGAGTTAGCATGACAACTACTTTCAGTACACAATTAAATAAAGTAAATATACT
R
CAAGTTTTGACAAGTAACTTAAACCTTTATATTTAAATTGCTATTAAAGATTCATCTCTAAGACAGGAGGAGCTTTCCCTCATTTGTTCATATATCCATG
Celera SNP ID:            hCV2480421
SNP Position Genomic:     13557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;PGA-AFRICAN-PANEL(G,22|A,22)   PGA-EUR(EAN-PANEL(G,22|A,22)   total(G,44|A,44)
SNP Type:                 INTRON


Context             (SEQ ID NO:66268):
GGTCAATCATCATCTTCCTGCCACATGGCAAGTTAATGACAAAGCTGGTGGGATCATTCAAATGGAAGAAATAGTTTGAGACAGAAAGCAATCATTGCAG
W
AAATTTCAACTTTCACATTGACCTTTAGTCAGAGAACAGTACCATTTCCCAATAAGGCAGGGTTGGGCAGGCAGTTGGCCCATGTATATTTGGCTTTCTG
Celera SNP ID:            hCV29397261
SNP Position Genomic:     39640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66269):
ATCTGCATGGATTCAACATACTCAGCACATGGCAAATTCAAGTTTTGCTTTTTGGAACTTTATATAATTTATTTTTTTTCTGAATGTTTTTGATCCACAA
R
GAGTTGAATCCGTAGATGCAGAACCCTTGGATACAGAGAGTCGGTTATTTTTCAGCCTTGTCTCTGCCTTTGCCCTTCAGGACCTGAAGTCCTTTTCATG
Celera SNP ID:            hCV29397262
SNP Position Genomic:     35969
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66270):
GTCTTCTTGCTGATTTTAGATGATGGGAAATGCCCCTTGAATCCTCACAGGTAAGGTAGAAATGTTTTATGATTGAGTAAATTTTGCTACCTTAACTTTA
W
AATTCACTGTAATATGTCAGAATGATTACATGCAATGCCTGCCTCCTTTTTACAATGTCTTTTGCAATGTCTTCTTTTCTACTCTGAAGTAAAATACACA
Celera SNP ID:            hCV25617120
SNP Position Genomic:     44801
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,34)   caucasian(T,32)   total(A,2|T,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:66271):
TTTATTGAAGGCCTATTAAGTGCTAAACTCTAGGCTCAGTGCTAAGGATCCAAAGCTAAAAAGAAAACACCGTCGGAGATTTACAACCTGGCAGATGTAG
M
CTGTATCATAGAAACAGACATTACCGTACATGGCAATGAGCACAATGGAGGCAGGGATGAGGTGCTGTGGGAGCCTGGAGGAAGGAACACAGAGTCCACC
Celera SNP ID:            hCV2480423
SNP Position Genomic:     18076
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66272):
CGTATAATACCTAATGCAAAGCCTACACATCACTTCATCTGCATGGATTCAACATACTCAGCACATGGCAAATTCAAGTTTTGCTTTTTGGAACTTTATA
M
AATTTATTTTTTTTCTGAATGTTTTTGATCCACAACGAGTTGAATCCGTAGATGCAGAACCCTTGGATACAGAGAGTCGGTTATTTTTCAGCCTTGTCTC
Celera SNP ID:            hCV29397263
SNP Position Genomic:     35933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66273):
GGCCCCACTTCCCATTCTGTTGCAGTGGATTTATGAATTCCAGATCTTCTTTCATGTTAGCTTGTCAGCATTCCCAGGACCTTTGGTGATCCTACTTGAT
Y
GCACATCTTAGAGTTCTTGAAAACTTTCTGGGAGAGAAAGACTAGTCTTTTGCATAATACACTTCTTATGTCTTGCATGTGTGTGTGTTTGTTTTGTAGC
Celera SNP ID:            hCV25617121
SNP Position Genomic:     42352
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,32|T,2)   total(C,70|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:66274):
CTGTTTTGCTGAGAAAGTACATACAGTGGGCAATGAGGCTGGACCAACTGGTAGGCTCCAGGTCATAAAGCATGTTATTTTCCATGTGAAGAGGTAGAGC
Y
TGCCCTTAAGACATTTTATATGTCATTTAATCTGAGCTTGGGCAAATTACTTATGTCTCCTTCTTTTATAAAAGGACAGGAGTAAGTTAGATGACTTCCA
Celera SNP ID:            hCV2480424
SNP Position Genomic:     18382
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;(C,-|T,-)   PGA-AFRICAN-PANEL(C,23|T,25)   PGA-EUR(EAN-PANEL(C,9|T,35)   total(C,32|T,60)   JBIC-allele(C,414|T,1067)   total(C,414|T,1067)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66275):
CCCTGCAGATACCAGAATCCCCAGATGCCCAAGTCACTTATATAAAATGGCATAATATTTGCATATAACCTACATACATTCTCCTTTAGACTTTTAAACC
Y
TCTTTAGATTACGTATAATACCTAATGCAAAGCCTACACATCACTTCATCTGCATGGATTCAACATACTCAGCACATGGCAAATTCAAGTTTTGCTTTTT
Celera SNP ID:            hCV29397264
SNP Position Genomic:     35821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66276):
TCCCTGCACACCTTTGCTAAGCCCTCAGAATGGAACAATGACCTGTGTTCAACCTCTTGGAAGTTCCAGTTATAAATCCACATGTCAATTCATCTGTGAC
R
AGGGATATTCTTTGTCTGGACCAGAAAGATTGGATTGTACTCGATCGGGACGCTGGACAGACTCCCCACCAATGTGTGAAGGTAGGCTGTGGGTCTGTCC
Celera SNP ID:            hCV25617122
SNP Position Genomic:     33069
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,20)   total(A,1|G,49)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66277):
TGAAGAGGTAGAGCTTGCCCTTAAGACATTTTATATGTCATTTAATCTGAGCTTGGGCAAATTACTTATGTCTCCTTCTTTTATAAAAGGACAGGAGTAA
R
TTAGATGACTTCCAGGGTCCCTCCTAACTTTGATATCTTATGATTCCAAACCTTTAACATCAAGGATCCTCAGAAGATGACATTTTCCTATTCTGACATC
Celera SNP ID:            hCV2480425
SNP Position Genomic:     18468
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;(A,-|G,-)   PGA-AFRICAN-PANEL(G,6|A,42)   PGA-EUR(EAN-PANEL(G,6|A,40)   total(G,12|A,82)JBIC-allele(G,154|A,1345)   total(G,154|A,1345)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66278):
CAGGCCTAGTCTGATTATAGGGCTAGTGTTTTGACCACTGAACTACACTATCACCCAGTGGCAGAGCTTCTGAATCTCAGGTAAGTCACTTGTGAATTTA
R
TCTTTTCCACTCCACAGATTGCAGCTATAACTGCTAAATGAACTTTAGAAATGGCAGTGCCTGGTGATCAGATGAGAGAATATGTTGGTAGAAATCTATT
Celera SNP ID:            hCV29397265
SNP Position Genomic:     34566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66279):
ATCACTAATTAATACAACTTTACCTGAACACAGATGGGTTTTATCTCCACCAACACAGTACTCTAAGCAGCCACTACCATTGATTGTCGTTTTGCCATCT
R
AGATGTAAAGGATGTAGAGAAGCATCAATTATCCATGGGAGATGAGAAATAGATATATTTACTGTAATATGAAATTAAGTTTGATTGTTGGAATAATTCT
Celera SNP ID:            hCV2480426
SNP Position Genomic:     20893
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66280):
TTTACAGGACTAGGTAACAGTGTCAACAATAAGCTATGCTAGTCCAGCTTTTTTTTTTTTCCCTATAAGTCCAGCATTTTCCTGTATATACTCTTTTCAG
R
TTCAATTTCACAGATAATGTCAATATTTAATGAGCACTTTCAATGTACAAAACACTCTGCTCAGCTCCAGAATAAAACTATGAATGACTGAGCCCAACTT
Celera SNP ID:            hCV2480427
SNP Position Genomic:     26036
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66281):
TTATAGCATTCCTGTTTACCACAATTCTAAAATAATAAGGAAAGGCAGTATCATCTCATTTTATAGATAAGGAAGAGACACAAGCTTAAAGAGGTTAAAT
W
ACTCGTCCAGGGTCACACTGTTAGTAAGTGAAAAGGCTCAGCTCTATGTCACTGAAAGTTTTACTTCCTTACAGAGTCTTCTTCAGCTACATTCTTCATT
Celera SNP ID:            hCV29397266
SNP Position Genomic:     33686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66282):
AGATAATGTCAATATTTAATGAGCACTTTCAATGTACAAAACACTCTGCTCAGCTCCAGAATAAAACTATGAATGACTGAGCCCAACTTCGAGGAGACCA
Y
GGTATAATGGGGAAGAATGACAATCATGTATGAACAGCGCAAGAACAGAGGCTGTGGGAGCACATTGCAGGGGCTTCTACCCTTAGTTAAGGTGGGAAGG
Celera SNP ID:            hCV2480428
SNP Position Genomic:     26148
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66283):
ATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAACATTTTTGCAATCTACTCATC
R
GACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCAAAGGATATGAACAGAC
Celera SNP ID:            hCV29397267
SNP Position Genomic:     31815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66284):
GCTTTTAGTTCTTTATTTACTCTGAACTTTCTCCTCTTGTTGCTGGGTGCACATCAAGTGAAATACCCAAATGTGGGCTGGGCAGGAAGGTACCATGCAG
W
GTGCAATCCACTCGCTGTTGTAATACTTCTGAGAGAGTGTTATCAGACAATTTCCCTTTTTAATGTCCTCCCACCCCTCCACATCTACCCCTGCTGTCAG
Celera SNP ID:            hCV2480429
SNP Position Genomic:     31248
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,3)      total(A,3|T,2) ;no_pop(T,-|A,-)   JBIC-allele(A,86|T,1411)   total(A,86|T,1411)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66285):
TAGCTTCCTCAGCTGTATGCTCACATGTTTGTTGCGCATTTAAATTGTGGACCTCCTGCTCAAGAGAATATTCAGAAACGGAGATGCTGATTAGAGGACA
Y
TGGAAACAGATGACCATAAGGAGGTCATCTTTACTTCCCAGGAAAGCAGAAGAATGAGAAGAGAATAGGGCCATGGAGGTGGGAACCTAGAGAAACACTT
Celera SNP ID:            hCV29397268
SNP Position Genomic:     10717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66286):
TGGTTCTTAAATGCTCTGAGTCTGTAAAAACCAGAGGTCAAAGCCCAGAGCAAAGAGGTAGTCTTTACACTTTGAAAAGTTTCAGAAATAGCCTGGAAAT
R
AAATGCTTTATCAAGGAAGAGCATGAGGAAACCAATCTTTATCAGAACTGAGGTCACTCAGGGCTTAATTGTGCTCAGGAATTCACTTTGGCTGCACTCA
Celera SNP ID:            hCV15952023
SNP Position Genomic:     25769
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,225|G,1268)   total(G,1268|A,225) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66287):
TTGCTCTTTGGCTTAGAGACAACCTCTTTTCTCACTGTATTTCTTTTTCCACCCCTAAGCTGGGCTACCAATATCTGTGCCACACCACTAACACCACCAC
Y
GTCCAGAAACATAAGGGAACTAATGTATTAGCTGTAATAGCTTGTAACATCTGGGCTTTGCTACCAACAAGTTGTATAGTTCTGCATCCTCAACAACTCT
Celera SNP ID:            hCV27523229
SNP Position Genomic:     8948
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|C,39)   total(C,39|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66288):
CACCATGTAGTCTTTGAGGGTAGCCTTTGACAAAGAAGCAAAGGAAGGAACACTGCATCGAAAAAGTGTGTGATGCAATCCCAGGCAATTACATAATTCC
R
CCAAAATGAATTCTCTGCAATTGCCTCACACCCTCAGTTTATAAGGCGGACAGTGGTAATGGGAGAATAGGAAATTTACGATAGATTAGTGAATTCCCAG
Celera SNP ID:            hCV15952024
SNP Position Genomic:     25124
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,131|G,770)   total(G,770|A,131) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66289):
AAACCTGTATCCATTTAGCTGCTATTGCCTCCTACATCTTCTCTTTATTTGAACCCTTCCCAGTGTCTCAGTGCAGCTTCACCAAATTCACTGGCTGCCA
Y
AGGAACTTCTTCCTATAGAACCTTGCATGGTTTATAGAATTTTAGTATCTCAGAATTGAGAGGAAACATAGAGATCATGTAGCACAGCATATCCACATAT
Celera SNP ID:            hCV325253
SNP Position Genomic:     21418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;JBIC-allele(T,209|C,1060)   total(C,1060|T,209)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66290):
TTCTACTAAAAATACAAAAAATAGCTGGGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGG
Y
GGAGGTTGCAGTGAGCTGAGATTGTGCCATTGCACTCCAGCCTGGTGACAGAGTGAGACTCTGTCTCAAAAAAAAATTGCACAGTTTCAGGAAGTGCTTT
Celera SNP ID:            hCV27242941
SNP Position Genomic:     33478
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66291):
GCTTTAGTTAAATATTCCACAGTTTCAAGAACATCCTGGCCAACATGGTGAAACCCCGTTTCTACTAAAAATACAAAAAATAGCTGGGCATGGTGGTGCA
Y
GCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATTGTGCCATTGCACTCCAGC
Celera SNP ID:            hCV27242942
SNP Position Genomic:     33419
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66292):
AGATAAAAAAGTTCTCCCTCTCTTTAAATAATATTTTAATAGCTTTAGTTAAATATTCCACAGTTTCAAGAACATCCTGGCCAACATGGTGAAACCCCGT
Y
TCTACTAAAAATACAAAAAATAGCTGGGCATGGTGGTGCATGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGT
Celera SNP ID:            hCV27242943
SNP Position Genomic:     33378
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66293):
TGAAGCATCATGAAATTCAAACAATCACTTTTAGCCAAATACCATCGTTGTATATTAATCACACACACACACACACACACACACACACACACACACACAC
M
GAGAGAGAGAGGGAGAAAGAGAGAGAGAGTTACAGAGTTCAGGTTGCTGAATTATAAAATGATCTCTTCTTTTCTCCTCTGCCATGCCCATGATAGCCAT
Celera SNP ID:            hCV27242944
SNP Position Genomic:     32868
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|C,5|A,5)   total(A,5|C,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66294):
AACTGGTGATGAAGCATCATGAAATTCAAACAATCACTTTTAGCCAAATACCATCGTTGTATATTAATCACACACACACACACACACACACACACACACA
S
ACACACACAGAGAGAGAGAGGGAGAAAGAGAGAGAGAGTTACAGAGTTCAGGTTGCTGAATTATAAAATGATCTCTTCTTTTCTCCTCTGCCATGCCCAT
Celera SNP ID:            hCV27242945
SNP Position Genomic:     32859
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66295):
CTAACTGGTGATGAAGCATCATGAAATTCAAACAATCACTTTTAGCCAAATACCATCGTTGTATATTAATCACACACACACACACACACACACACACACA
S
ACACACACACAGAGAGAGAGAGGGAGAAAGAGAGAGAGAGTTACAGAGTTCAGGTTGCTGAATTATAAAATGATCTCTTCTTTTCTCCTCTGCCATGCCC
Celera SNP ID:            hCV27242946
SNP Position Genomic:     32857
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,6)      total(G,4|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66296):
ATAGCCTTAGATTTAAAGAAAGAATAGTCACTTCATTTGTCTATAACCCAACATTTATTGATAAATAATAGTCTTATATTAGAGAATTAATGGGGAGAAA
R
GAATAATGCTAAGAAAATATGTAACTGCAATAATTTGTAAAAATACTTTTGGGGGGAAATTGTGAATTAAAATTTAAATTCATTTATTCATTCACTTGGC
Celera SNP ID:            hCV27497510
SNP Position Genomic:     37975
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,19|G,21)   PGA-EUR(EAN-PANEL(G,2|A,42)   total(G,23|A,61) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66297):
TAAAAATCACCTCTAAAGCTGTTTGTGATTGAGCACTTCAGGATGTCAATCAACTGTAAGCTGCTGCTATTTTACACCTCTACAATCTCTAACTGGTGAT
R
AAGCATCATGAAATTCAAACAATCACTTTTAGCCAAATACCATCGTTGTATATTAATCACACACACACACACACACACACACACACACACACACACACAG
Celera SNP ID:            hCV27242947
SNP Position Genomic:     32769
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,4)      total(G,4|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66298):
GACATGGGACATGACAGCACATCAGTTCAGACAAAAAGTTGAAGAATTCAGAGGAGAAGAGTTCAGGCTGTGGTGATCAGCAGAGTCTTCAGAGACTTTA
Y
GAGTTAAATCCTGGAGGATTAGTGGGATTTTACGCCATAAAAGTGGAAAAATTCTCAGGGGAATGTGAGCCAAGAACCAGAAGCAATAACACACAAAGTC
Celera SNP ID:            hCV27497511
SNP Position Genomic:     38291
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,2|C,46)   total(C,46|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66299):
AAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAGAA
Y
ATTTTTGCAATCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGT
Celera SNP ID:            hCV27242948
SNP Position Genomic:     31794
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66300):
ATGGGACATGACAGCACATCAGTTCAGACAAAAAGTTGAAGAATTCAGAGGAGAAGAGTTCAGGCTGTGGTGATCAGCAGAGTCTTCAGAGACTTTACGA
R
TTAAATCCTGGAGGATTAGTGGGATTTTACGCCATAAAAGTGGAAAAATTCTCAGGGGAATGTGAGCCAAGAACCAGAAGCAATAACACACAAAGTCACT
Celera SNP ID:            hCV27497512
SNP Position Genomic:     38294
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66301):
CCTGTGTAAATTTTGCTTCAAGTTCAGAGAGTGGCTTTAATTAACTTTTAGGACCTGAGAAAATGAGGATAAGGTTTTTCTGGTGGGGTATTTTCAATCA
S
ATAGATCTCAGAGGAGTAGCTCTTGATTGGGAACTTATAGTTAAATTGCACTGATGTTTGTCAAAGTTTTAGCGGGCTATGGCCGGGCTCAGTGGCTCAT
Celera SNP ID:            hCV8919477
SNP Position Genomic:     7895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66302):
CAATAAAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATG
R
GAGAACATTTTTGCAATCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCA
Celera SNP ID:            hCV27242949
SNP Position Genomic:     31788
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66303):
GGGATCATTCAAATGGAAGAAATAGTTTGAGACAGAAAGCAATCATTGCAGTAAATTTCAACTTTCACATTGACCTTTAGTCAGAGAACAGTACCATTTC
Y
CAATAAGGCAGGGTTGGGCAGGCAGTTGGCCCATGTATATTTGGCTTTCTGCTGAATTTCTTATATTTCTGTACCATTTCTTGCTTCTTTTTAAAATAGC
Celera SNP ID:            hCV27497513
SNP Position Genomic:     39689
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,3|C,45)   total(C,45|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66304):
AAGCAAAAACATCGACATAAACACCAACCTTTAGAGACAACCACAGGAGGTTCCCAGACCTCCATGTGGATCCCAGGGTAAGAACCCTTCTCGATTGCCT
S
CTGGGCTTTATGTTCAGAAGCCCCTCTCTTGGTACCCTGAAATTAGGCTTGAGCTCTACAGCGAAGTGCTAAGGCCCCAGCCCTGGAATGGTTTTTAATA
Celera SNP ID:            hCV8919478
SNP Position Genomic:     7624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66305):
CTCACAACAGGCATAGCATCACTTCCTACTCCAGGGGTGCAATGTCCAGCCCTCACCACTCCTGGGCAGGGAACCATGTACTGTAGGCATCATCCGGGAA
M
CTTTGGTTTTAATACCACTTGTTACTTTGGCTGCAACGCTGGATTCACACTCATAGGAGACAGCACTCTCAGCTGCAGACCTTCAGGACAATGGACAGCA
Celera SNP ID:            hCV27497514
SNP Position Genomic:     40132
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|C,47)   total(A,1|C,47) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66306):
ATAACCCTGAAGTTCCCTGAAAATGTAGTTTAAGGAGGATGACAGTCTACTTCTTTCAAACTTCCAGTGTCCAGATATGCTGAACACTTATTAAGTATTT
Y
AATAAACACATACTGACATGCCAGTTGATCACAAATGTAGTAATAACATTTAGACTAACAGTATTTTAAGAACCAAAATTTTGTAAATAGTATATTTGGA
Celera SNP ID:            hCV2229254
SNP Position Genomic:     40927
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   PCT-TFRICTN-PTNEL(C,22|T,26)   PCT-EUR(ETN-PTNEL(T,2|C,44)   total(C,66|T,28)   (T,-|C,-)   Caucasian(T,8|C,66)   African-American(C,33|T,39)   Asians(C,78)   total(C,177|T,47)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66307):
GTGCAATGTCCAGCCCTCACCACTCCTGGGCAGGGAACCATGTACTGTAGGCATCATCCGGGAACCTTTGGTTTTAATACCACTTGTTACTTTGGCTGCA
R
CGCTGGATTCACACTCATAGGAGACAGCACTCTCAGCTGCAGACCTTCAGGACAATGGACAGCAGTAACTCCAGCATGCAGAGGTAAGGTGAAAAGGAGC
Celera SNP ID:            hCV27497516
SNP Position Genomic:     40168
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|A,47)   total(G,1|A,47) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66308):
GCAAGTACTCAAGCTAGCCATTGTGCCTGTATGTTGAAGTCTCACCCAACCACAACCACTACTCCAAGTGTCATCTCCCTTATGAAATCCACACCAATCC
Y
ATTAGAAGTAATGTGTCACAGGCATTTCACTTCTGTCCTTCCTCATGTCACAAGCTAAAGCTAATACACAAGTACTCAGAGACTTAAAGGAAGAAACATT
Celera SNP ID:            hCV27497517
SNP Position Genomic:     40393
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66309):
ACTTCCAGTGTCCAGATATGCTGAACACTTATTAAGTATTTCAATAAACACATACTGACATGCCAGTTGATCACAAATGTAGTAATAACATTTAGACTAA
Y
AGTATTTTAAGAACCAAAATTTTGTAAATAGTATATTTGGAGGCAAGATTTATCAATGCATTAGCAGGTATTTGTCGGATGCTACTATGTGTCCATCTTT
Celera SNP ID:            hCV2229255
SNP Position Genomic:     40986
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   PCT-TFRICTN-PTNEL(C,21|T,27)   PCT-EUR(ETN-PTNEL(T,4|C,42)   total(C,63|T,31)   (T,-|C,-)   Caucasian(T,13|C,67)   African-American(C,35|T,43)   Asians(C,76)   total(C,178|T,56)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66310):
TTCATTTTTGTATCCCCCACAAAACATAGCACAGTGCTTTGCAAATGTCACTACTGATAAATAACATTTATTTGAATTAAATCTAATTTCTTGACCTTTA
M
TTTCCTATCCATAAATTAGAAAGAATAACCCTGAAGTTCCCTGAAAATGTAGTTTAAGGAGGATGACAGTCTACTTCTTTCAAACTTCCAGTGTCCAGAT
Celera SNP ID:            hCV27497518
SNP Position Genomic:     40802
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,3|A,45)   total(A,45|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66311):
AGAGCTACTGTGAATATTGGAAGTGGCTCATATCCTTTCTGACCTTTTACATTCTGCCTCATTTATTGGCAATGTTAGGTTACAAAAGAAACTATAATCT
S
TTTCACCTCCAATCCACATGTTGTTTCTCTTGCATTATTTCTTTTCTGCAGCTGTGAAATGCTCAGAACTACATGTTAATAAGCCAATAGCGATGAACTG
Celera SNP ID:            hCV2229256
SNP Position Genomic:     41247
SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   PGA-AFRICAN-PANEL(C,4|G,38)   PGA-EUR(EAN-PANEL(C,17|G,27)   total(G,65|C,21)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66312):
TTTTGTATCCCCCACAAAACATAGCACAGTGCTTTGCAAATGTCACTACTGATAAATAACATTTATTTGAATTAAATCTAATTTCTTGACCTTTAATTTC
Y
TATCCATAAATTAGAAAGAATAACCCTGAAGTTCCCTGAAAATGTAGTTTAAGGAGGATGACAGTCTACTTCTTTCAAACTTCCAGTGTCCAGATATGCT
Celera SNP ID:            hCV27497519
SNP Position Genomic:     40807
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,1|C,47)   total(C,47|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66313):
CAAAAATCAATGAGTACATGTGTATTACTGTTTCTTTATTCCTTACTTCCTCATCCCTTAGCTTTGCAGTGCCAGGATCTCCCAGTTCCAAATGAGGCCC
R
GGTGAACTGCTCCCACCCCTTCGGTGCCTTTAGGTACCAGTCAGTCTGCAGCTTCACCTGCAATGAAGGCTTGCTCCTGGTGGGAGCAAGTGTGCTACAG
Celera SNP ID:            hCV25617130
SNP Position Genomic:     29081
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,34)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66314):
AGGGTTGGCCACTGTGATGGGAGACTGGGAGCCTCACCGACTCCTTCGCCCTACACACTCTTGTGAGCTGGCCCCAAAGCCAGGGAAATCCCTAGAAATA
M
TCTGTTCAGGGAGAAAACCACTTCCACAGGAAGAGTACCACTAAATTTAAAATCGTTGCACTCCTTCTGCAATCTGTCTGAATAGAGGCAAAGCCCAGGT
Celera SNP ID:            hCV27523230
SNP Position Genomic:     12897
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,2|C,42)   PGA-EUR(EAN-PANEL(A,2|C,42)   total(A,4|C,84) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66315):
ACTGAATTAATTAATTCATAGCTCCTGTTTAGTTGCAAAAGGTGCTATTGTTCTAATGTATTGTTCAGTGTAGAGTTAGTAATAATGAGACCAGTGATAA
T
GGTAATAATTATTGCTTAATGTAGGACTACCTATTTCATAAGCATCATCACATTCAATCCACACAAATGACCCTTAAGTTGGTTATTACTATGCCCATTT
Celera SNP ID:            hCV2480434
SNP Position Genomic:     34281
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66316):
TTACCTCTTACACCTTTCTAAGTGGAAAGCTACAATTTTTTATCCCAAATTTTAAAAGCAAAAGAAGATTGGATTTTCCAGTGTATTACAAAAATTAGAC
K
GTAAAAATAAAATTGTTACATAATTTCTTAAAGTTTATCCAATGGAATAAAGTACTAGCATGATCTGCAATCCTCATCACTTAAAAGACCACAAGCAGGC
Celera SNP ID:            hCV27523231
SNP Position Genomic:     13202
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|T,47)   total(G,1|T,47) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66317):
GTATTGTTCAGTGTAGAGTTAGTAATAATGAGACCAGTGATAATGGTAATAATTATTGCTTAATGTAGGACTACCTATTTCATAAGCATCATCACATTCA
R
TCCACACAAATGACCCTTAAGTTGGTTATTACTATGCCCATTTTAAAGGTGAAGAAACTGAGGCTTTGAGAGGTTAAGTAGCTAGCAAAGTTCATATAGC
Celera SNP ID:            hCV2480435
SNP Position Genomic:     34338
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66318):
ATTCATCTCTAAGACAGGAGGAGCTTTCCCTCATTTGTTCATATATCCATGAATGAATATTACTTATCAACAAAATTAGACAAGTTTGGCATCAATATTA
Y
TCCCATATTTCATTTTCAAGGATTTAAACATTGAGAAACTTCATTCATATGAATAAGTAAATGGAATTAGAAGTTTTATTATAGCAATGTCTCAATTCCT
Celera SNP ID:            hCV27523232
SNP Position Genomic:     13707
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,46)   PGA-EUR(EAN-PANEL(C,3|T,41)   total(C,5|T,87) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66319):
GCTTAATGTAGGACTACCTATTTCATAAGCATCATCACATTCAATCCACACAAATGACCCTTAAGTTGGTTATTACTATGCCCATTTTAAAGGTGAAGAA
R
CTGAGGCTTTGAGAGGTTAAGTAGCTAGCAAAGTTCATATAGCTTGAAGTATGGAGACAGGATGCAAACCCAGGCCTAGTCTGATTATAGGGCTAGTGTT
Celera SNP ID:            hCV2480436
SNP Position Genomic:     34395
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66320):
AAGTAAATGGAATTAGAAGTTTTATTATAGCAATGTCTCAATTCCTTGAAGTCCTTCCAAGTTATATGCCCCAAATTATATAGTGATTTACTATCAAAAT
K
TAGTCAGACTTGACAACTTAATCGGGTGCTCCCTCAAAGCTGATGAAAGGAAATAAATGGAAATCACTAGACTTGAAAACGGATTTGCTGCAATATCATT
Celera SNP ID:            hCV27523233
SNP Position Genomic:     13862
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,7|T,41)   PGA-EUR(EAN-PANEL(G,17|T,29)   total(G,24|T,70) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66321):
CCTGAACGAGGAAACATGACCTGCCTTCATTCTGCAAAAGCATTCCAGCATCAGTCTAGCTGCAGCTTCAGTTGTGAAGAGGGATTTGCATTAGTTGGAC
Y
GGAAGTGGTGCAATGCACAGCCTCGGGGGTATGGACAGCCCCAGCCCCAGTGTGTAAAGGTGAGTTTCAGGTAGTTGGGATGTATAATGTCCATTGCACC
Celera SNP ID:            hCV11975300
SNP Position Genomic:     23900
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66322):
AAATGGTTCCTCTTATTTTCCCATATGCCTGAACCCATTAATTTTTAACCCTCAGCACTGCCCCCTAGAACCCCAATTTTCACATGGTGTTTTGCAGAGT
W
CTAGGATACATCAGATGGACTCAGGGGCCTCCAAGTAAGCAGAGGCAGTGTGGCAGGTGGAGTTCTCAAGCTGTCTCTTCAGAGTGCAATGTGAGATTTC
Celera SNP ID:            hCV2480437
SNP Position Genomic:     35496
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|T,5)      total(A,4|T,5) ;PGA-AFRICAN-PANEL(T,5|A,35)   PGA-EUR(EAN-PANEL(T,19|A,23)   total(A,58|T,24)   no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66323):
AGAATTCCACTTCAGCATTTGGAATGGTGCATTTTGAAATGTGATAGGAAGAACAGCTTGTGACACAACACAATTCAGAGAAAGCAGTGGGGTTAGGTTC
R
CACCAAAGGGTTATCGATCACTCTGCATTTTGTGCAAATAAACAGCTGTAAATCATAACGTTATGATACTCTCAGTGTTTAATCATAGGTCCTGCAGAGA
Celera SNP ID:            hCV27523234
SNP Position Genomic:     14330
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,22|G,26)   PGA-EUR(EAN-PANEL(G,21|A,23)   total(G,47|A,45) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66324):
CAGCAAACATGACATTGCTGTTAATTCTACATGGAAAATAAAAATCACTATTTTGTCTCCTGCAGTGAGAGAGTGTGGAGAACTTGAGCTCCCTCAACAC
R
TGCTCATGAACTGCAGCCACCCTCTGGGAAACTTCTCTTTTAACTCGCAGTGCAGCTTCCACTGCACTGACGGGTACCAAGTAAATGGGCCCAGCAAGCT
Celera SNP ID:            hCV11975301
SNP Position Genomic:     23097
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,38)   total(A,2|G,76)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66325):
CTTGCCCTTAAGACATTTTATATGTCATTTAATCTGAGCTTGGGCAAATTACTTATGTCTCCTTCTTTTATAAAAGGACAGGAGTAAGTTAGATGACTTC
Y
AGGGTCCCTCCTAACTTTGATATCTTATGATTCCAAACCTTTAACATCAAGGATCCTCAGAAGATGACATTTTCCTATTCTGACATCATTCACACTTTTA
Celera SNP ID:            hCV27523235
SNP Position Genomic:     18481
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   PGA-AFRICAN-PANEL(T,3|C,45)   PGA-EUR(EAN-PANEL(T,1|C,45)   total(C,90|T,4)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66326):
GAGCACCTTGAAGAATATAAGATCAGAATTAGAGAAAACTAGCTGCTTAAAACTAGAGGGAAATTTTAATATCATCCAGCTCACCTGTCTCATCTTATAA
M
TGATGAAAAGGACACTCACGAGGTTTTAGTTTCTCAAGGCCGTGGAGCAGGACAGAAGCAAAGTGAGGACCAGAAACCAGTCTCCCAAATTTTAGGTGTA
Celera SNP ID:            hCV11975302
SNP Position Genomic:     19396
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66327):
CTTATATTTCTGTACCATTTCTTGCTTCTTTTTAAAATAGCAACAACAATGACTCCTCTGATTTCTTCTCTTGGCCAGGAGAATCATCTCCTCAAGGATG
M
TTTTTAATAATTTTCCTCATCTGGTTTTCTATCTCTGACACTGATAGTTTTTCTTAACTTCCTTAAATAGCTCTTGCAGGAGCCTCCCTTGTTATGAAGG
Celera SNP ID:            hCV2480439
SNP Position Genomic:     39849
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,3)      total(A,3|C,2) ;no_pop(C,-|A,-)   (A,-|C,-)   no_pop(A,-|C,-)   PGA-AFRICAN-PANEL(A,8|C,40)   PGA-EUR(EAN-PANEL(A,21|C,25)   total(A,29|C,65)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66328):
GGTCTTGAAGAGGTTTGTAAAAATCAAACTATCTAAGTAAATGAGACTTATCTGACCAAGGTATTGTTGTCAGAATAGCCTTAGATTTAAAGAAAGAATA
R
TCACTTCATTTGTCTATAACCCAACATTTATTGATAAATAATAGTCTTATATTAGAGAATTAATGGGGAGAAAAGAATAATGCTAAGAAAATATGTAACT
Celera SNP ID:            hCV27523236
SNP Position Genomic:     37901
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,1|G,47)   PGA-EUR(EAN-PANEL(A,2|G,42)   total(G,89|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66329):
AAATACTTTTGGGGGGAAATTGTGAATTAAAATTTAAATTCATTTATTCATTCACTTGGCAAGTGGTTACTGAGCACTGCCTCTTGAGATCCTGGGATGG
S
AGTTATGGAAGACTCAAGGATGAATCATTCTTGGGTTTTAGACACTTTCCCATCCAGTAGAAGAGTGAGGGTATGACATGGGACATGACAGCACATCAGT
Celera SNP ID:            hCV27523237
SNP Position Genomic:     38116
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,1|G,47)   total(G,47|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66330):
GGAAATGAAATCCTGGATTGCACCCATTCAAGTAAGATAGAGGGAGCTGCGGCAGGCTACGAGGTCTCTGAAGCAGAGGGTGTAGAGAAAATAGGGTGAC
W
TTGTAAGTTCTTGAGTATGGCTGCCTAAATCTTTGACTTCTTTGTCTTCGTGACTTGTACCTATACTCTTCTCTGTAAGCTTACCATCCTCCCACTGCCC
Celera SNP ID:            hCV27523238
SNP Position Genomic:     38728
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(A,18|T,22)   PGA-EUR(EAN-PANEL(T,2|A,40)   total(A,58|T,24) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66331):
CCAAAAAGGCTCTCACCAACGAGGCTGAGAACTGGGCTGATAATGAACCTAACAACAAAAGGAACAACGAGGACTGCGTGGAGATATACATCAAGAGTCC
R
TCAGCCCCTGGCAAGTGGAATGATGAGCACTGCTTGAAGAAAAAGCACGCATTGTGTTACACAGGTAGGGCCTTCTCTACTTTGAAACTTTCCTGTTAAA
Celera SNP ID:            hCV11975306
SNP Position Genomic:     19084
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,101|A,-)   Irish and French(G,-|A,-)      total(G,101) ;WIAF-CSNP-P(1(A,3|G,99)   total(G,99|A,3)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66332):
GTAGAAAGTGTTCTTGAAACCTCATGCTGTTTAAGTCAGTGGCTGAAAAATGACCCTAGGAGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAA
Y
AAAAGCCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAGAATGGGAG
Celera SNP ID:            hCV27242950
SNP Position Genomic:     31691
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 421
Celera Gene:                 hCG38087 - 30000054210229
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W40L(5874002..5887898)
Chromosome:                  Chr5
OMIM number:                 603390
OMIM Information:            PHOSPHODIESTERASE 8B;PDE8B


Genomic Sequence (SEQ ID NO:12581):
CTTATTTGACATCTGTGTATCTTCTTTGGTGAGGTGTCTTTTCAGATTTTACCCATTTATTAATAGGTTGTTCATTTTCTTATGGTTGAGTTTTAAGAGT
TCTTTGTGAATTTTGGTTAACAGTCATTTATCAAAATAATTTTCCAAATATTTTCTTCCTGTCTGTGATGTCTTCCCATTCTCTTGACAGTATCTTTTGC
AGAGCAGAAATTTTTAACTTTGAATTAAGTCTAACTTATCAATTACTTCTTTCATGGTCATGCCTTTGGTGTCATACCTAAAAAGTCATTGCCAAACTCA
AGATTGTTTAGATTTCCCCTATGCTATCTTCTAGGAGTTTTATAGTTTTGCATATTACATTTAGGTTAGATTTCCTTTTTATAAACTTTTTGATTGAAGA
ATAATATGCAAACAAAAGTTTAAAAGTCATAAGTATACAAGTTGATGAATTATCACAAAGTGAACACATTCATAACTATCACACAGGTTAAGCAATAGAA
CCAGTACTTCAGAAGCCTCTCTTGTCCCCTTTCTCAATCATAGCTCCCTCCCTTTCTATTCACACTTTTAAAACCATAGGGTAATGTTGCCTGTTTTTGA
ACGTTAAGTAAAATGAAGTAATATAGCATATACTATTTTATGTCTGGCTTCTTTTGCTTAATGTTACATTTCAGAAATAATCCATCTTATTGGGTGTTGC
AGTGTTTAATACATTTTCATTGCCATGTAGTCTTCCATTATGTGATTACATCACAATTCAATGTTAATGGACATTTGAGATGTTTCCATTTGGAGCTGTC
ATGAATAATGCTGCTGTAAACATTCTTGGACATATCTTTTGGTGCTCACTGGGCACATTCCTATTGGGTATTTACCTAAGATAGATAGTGAGTGTCACTA
TATTTCCAGTTTGTGCCCCACTGTCCCAGCTTATGCCTAGACGTCCAGAGTAATAATTTTCCTCCCTTTCATTTTCAGAAGTGTCCCAGTTTGGCTAATA
AATGAATTATGTCTTTTGATGAATAGAAATGTAATGTAGTCCAAGAAATCTTTTCCTACCCCGAAGTCATGAAGACAGATGCCTGTATAATCTTTTAGAA
GTCTTATTGTTTTAGTTTTTACAGTATTTTATGTTCACCTAGATAAAATAACCTTTTATATTTACCACTTGTATGCTCTTTATTCACTCCTCAACAGTCA
GGTTTCCTTCTGGTATCATTTCCTTTAATCTGAAATAATTATTGTCATATTTCTTATAACGAAGATCTGTGGGCAATGAACTGTCCTTAGTTTTACTTTG
TCCAGAAATGTCTTAACTTGAAAGCTGTTGTTCCTGTTTTCTGTTTCCGTAGTTTCTCATGAAAATTTAGCAGTCATCTGAATCATTGTCCCACTGTGTG
TATTGTGTAGTTTTTCTCGGGCCGCTTTTGTCTTTGGCTTTCAGCAGATTAATTACAATGTGCCTAAACATAGTTTTCTTTGTATTTTTCCTGTCTGTCA
TTTGTTGACTCCTTAAATCTGTAAATATATGCCATTCAGCAAATTTGGAAAATTTCCCATCTATTTTTTTCCCAAATGCTTTTATCTCCTCTCACTTTTC
TCCACCTGGGACTTCAATTACTAATGTTAGGCATTTTGATACTGCCCACAGATCCCTAGGTCTCTGTTTATTTTTTTCAATCTTTTTCTCTGTTCTTCAG
ATTGGACAATTTGTATTGATGTATTCATGTTCAGAGACTTTTTCCTCCCTAATCTCTAGTCTGTTATTAATCCCATACAGTGAATATTTATTTCCAATAT
TGTATTTTTTCAGTTCTAAAATTCTCATTTGTTCTTACGTTTTCTATTTTTGGCTGAGAGTTCTTCTTTATTTGTTATGAGTTTTTTCTTTATTTTTCTG
CACTGAGGTTAATCATAATAGTGATATTAAAGTCTTTGGGAATTCCAACATCTGGGTCATCTCAGGGTTGCCATTATGTTTCTTAGGTGATGTGATTTGG
GATTGTATCATGGGCATTGTGAATGATATGTTGTGGAGGCTCTTTATTGTTTCATTTTAGCAGGCGATTAGCTTGATTACACTCACAGTGTAAACATGAT
GTCACCTGAGGTGGGTGGCAGCTCAAATCTCAGTTCAGAGATTTTTAAATTTTTAGTTGGACTCCTTAAAATCTTCCCTGTGCATGAACAGTTCCAGGAT
CAGCCAGAGATGTGAGCAGAGTTTGTACACAAAATTTAGGTTCCCTCCTCATTCTCTAGTAACTCTGGTTGCCCCAGGCTCCATCTTCTGGTTCCTTAGG
CAAGATTGATGGTAGGTTCTCCATCACAGTTGGACCGTCCCATGCCGTGGTGTGACTGTGGCCTGCCCTCATGGCAAAACTGAAAAACTAGGTAACTCAC
CAGATGCTAGATTCCTTCTCCAGATCTTTCTCCAAATCTGCCTGCTTTTGTTCACGCTCCAGAGCCCTTAGGTTGTCATTTTTTGTGTGTTTTGTTAAAG
TGTGTTGTTGTTATCAGTGAGAGGGTTGGTGGTTATAGGAATTTACTCGTTCTTACTGGAAGAGGACCCCAGTTCATTGACATTAAATATAATTAGTCAT
GTATTTGCATTTAATGCTGCTATCTTACTATTTATATTATACCCACCTATTCTATTCAGAATGTTTTTCTTATCTTGATTTCTATCCATTTAAATATTTT
CCATTTCCTCCCCTTTTAGCTTATTAGTTAACTCCCTGTTTATACCCTTTTTGTAATTAGTAGAAATTACAAAATTACTTTTACCTTGTTAACCCAATGT
TAATATCTCTACCCTTCTTTAACACAGTAGAAGGAATGTAGAATACTTAAATTCCAGTTATTTCCCTCCGGATTCCATGCTCCTGTTGTCGTGCATTTTA
ATTCTATGTATTTTTAAATCCCAGAAGAAATTACTGTCATTTTCTACACTCAATATTCATTTAGATTTACACACAAATTTACCTTTTCTAAATGACATTA
TTTTCTCCATCTGTGAGCTTCCATCTGAGATCATTTGCCTTCTTTCTAAAGACCACCCTTTATTATTATTTTTTTTAGTGCAATAGTTCTAGTAACAAAT
TCTCTGTTTTTGTTTGTCTGGAAATTCTTTTATTATTATTATTATTATTGAAGTATATTTTTACTAAGTATAGAGTTCCAGGTTGCCACGTATTTTATTT
CAGCATTTTGAAGATATCATTTCATTGTGTCCCACCTCCCATTATTTCTGTTTTTCCTTGGCTATTTTTAAACGTTTTTCACCTATATTTTGCTTTTACC
AGTTCTTCTTTAATGCACTTAGGTATTTTTTTTTCTTCATATTTTTTTTTCTCTTTAGGGCCTACAGTGCTTCTTGACTTTGCAGCTTGATTTGTTTCTT
CAATATTGGAATATTCTCCACCATTTTCTCTTCAAATATTGTTCCTGACGCGTTCTCTCTAATCCTACTGAGAGTGAAATTACATGTATGTGACACCTTT
TCTCTGTGTCCTGGATGCCTCTCACATTCTTCTTATATTTGCCATCCTTTTGTCTCCCTGCACCTTAGTCTGGATCTTTTTCTTTTTTTCTGACATATAT
TCCAGTTCCCCAGTTCTCTGTTCACTGTGTCTAATATCCATATAAACCCATCCATCTGGTAACTGATTTTAACAATGGTAGTTTTATGACTAAAATTTCC
ACTTGATTTTTAAAATGTTTTCTAGTTCTTTGTCAAAATGTTGTTTCTTGTCTTTTAATTCTTTGAACATATTTTCAAGTCTGTGTGTGTAACCCTAGTA
TCTGGATCTTCCACGTGTCTGTTTAATGTTTTTTCCCTCTCTTGGCTTTTGGTCAACCTTTTTTTCCCTTATAACTGCTTATTTCTTCTGAGCATTGGAT
TTTAAATTTAGAGATAATTTGATGCTCTGAATGATGGCATATTCCCGCAGACAGAATTTAGTTTTCCTTCTAGTTGGCAGCTGGGAAGGGGACAGGCGAT
AATAACTCAGTGACTGAGATGAGTCAAAGAACCATTTCGTCCTATGTGAAGGCTGGCCTATCTCCAGGTCAATTCTGTTCCTAGATTGCAGCTCATTGGG
GTCCCCATTGAAAACCTAACATGTTTGCCAAGGTCCTCACTCTCTGATGGGCCCTGAACTCCAGTTTTATCCTTCCATTTCTGTGTGGTGGATGGAAGCT
CTGCTCAGCTTCTCGGCTTCTGGAATTGTCAGTGGCCTTCAGGGGATATGGACACCAAAAGCCACATTTTCCTTCTTGCCTTCCTTTCTCTCGCAGATCT
TGGTCTGACAAAGTCTCACTGCACTGGTATCTATCTGATACTTTCAAATAGATTTTTAAAACTTCTTTCCAATTTCTCTAGTTATTCTTATTGGAGAGTC
GGCCCAAGAAAAGTAAGGTTCAGAGAGAATAAATAAATTGTCCAGGGTCATACAGACCCTGAAAGTAGAATCTCTATGAAATCTATTTAAATAGGTGGCA
CAAGACCAGAGAAATCTGAGACTTACAGCAGCCTGCATGCCCAGCCTTCACCATCCTTTGTCATTTGGGTATTAAGTTTGACAGTTGCTATGTTTAACTC
TCTTGTTTTACAAAACTGATATCCATAGAGATGGTGTGATTTGTCCATGACCACACAGCGAGGTAATATGTGAGTTGGGGTAAAATCTAGGTCTGTGCTC
CTCGGTTTTTTCCTGTTAAATCTTGCTGCCCCCATCTTTTTTTTTTTTTTTTTTTTTATTGTTACTTAGGTACCCAGACCTACATCCCAGCTTTAGTAAG
ACATCTCAGTGCTCAGTGGTCCAAGAAGATTCTTCTCATTTGTAGAAAATTGTCCTTGATTTATGCAGCCACAACCACATATGAGTGTCACCTGTTACCT
TCTTTTTTCCCCTCTTTCTTCGCTTCTCTTTTTATCTCTGAATTTTTACATTGCCACTGACATCTTGCCTGTGGCTAATAGACACGTCCACACTGAGAGA
CATGCTCTAGTAGAGTGGGTTCAGGACTGCATAATTAGTTTGTCCTCTTTTATGCCTGGGAATATTATATCAGATTCTCTAAAAGGTTTTGAAACGTAAG
GTGAAAAGGGAAATGATAAAATAAGGCATTTGAGATTTTTAAACTCATGATCAGCTGCTTCCCTTGAAAATAATTCATAATCTCTTCCAGAATTGCTTGT
AAAGGCTTTTAACTTTTGTGGTTTATCTGCTGTTCTCTTAAGCACATGGTATATATTTATAGGTTCTTACCTTAAATTTTAGGCAGAATCATGAATTAGA
TACTGGGAATAAAGCTGACCAGAAGTAAATCATTTCCCACATCTTATCTTTGTAAGGCCTGAAAATGTGATATTCCACGCTGTTTTTGAAGAGAAAGCAT
TTTGGTGGTTACCAGGAGGAAAGAATGGGGCAGGTTGGAAGTGTCACTGGTCTGGCAGCCTGGAGACCTCAATTTTATCCCATTGTGACCTCTCACTTAT
GTGCGACCTTGGACACATCACATACAATTTAGGCCTTATTTGGCAATATGTAAAATGAAAAGGTTGGACAAGATACCCCTTGGGAGCCTTACAATTCTCA
AATTTTTGGAAAACTATCCTTTACTGTGAGGCCAGTGTCTGGAACAGCATTTTGTAATATGAATGAGGACTTAAAGCAATTTTTTATTTCCTGTGATCTT
GTGGGAAGAGGGTGGGTAAAGTTAGATAATCTAGAAGTTGACATTTGTGTTTTCATGTAAGCAAGTCAAATGTTCTGGACTACATTTTGTTTCAAGCTAA
AGAGCTTATGCTGTGATGACCCAGCTTATTAAGTTAGATAACAAATGTAAGGCACCTATTTCATTTCCTTATCACTGTGGGGCTCAGTAAGGAGTTTCCA
AAAGAATGAATGAGAGATTATCATCATAATATCTATCACTTATCAACTGCCTGCTGTGCCAAGATACATCCGTGAGTAATACAGATTTGGCATCTGTCCT
CTCCAAGGGGTAAGTATTATTACCCCTAGTTCCACGTGTGGAAAATGAATTCCAATCTGGTCTTACATTAAAAACCATTGATGTGGCGCCTGCCTCGCGC
ACTGTGTGTGCACGCTGCAAAGACCAGCAAGCTCCTTGGACCTTGGAGCAGGCCTGCTGCCTTCATGTCCACTCTCCTCATCAATCAGCCCCAGTATGCA
TGGCTGAAAGAGGTGGGGCTCCGAGAGGAAAATGAGGGCGTGTATAATGGAAGCTGGGGAGGCCGGGGAGAGGTTATTATGACCTGTTGCTCTGCTAACA
ACTAGCCAATAGCAAGAGTCCGACAGGCCAGTGTGGCAGACTATGAAGAAACTGTAAAGAAAGCAACAGAAGCATGGAAAATCTGGGCAGATATTCCTGC
TCCAAAACGAGGAGAAATAGTAAGACAGATTGACGATGCCTTGTRGGAGAAGATCCAAGTACTAGGAAGCTTGGTGTCTTTGGAGATGGGGAAAATCTTA
GTGGAAGGTGTGGGTGAAGTTCAGGAGTATGTGGATATCTGTGACTATGCTGTTGGTTTATCAAGGATGATTGGAGGACCTATCTTGCCTTCTGAAAGAC
CTGGCCATGCACTGATTGAGCAGTGGAATCCTGTAGGCCTGGTTGGAATCATCACGGCATTCAATTTCCCTGTGGCAGTGTATGGTTGGAACAACGCCAT
TGTCATGATCTGTGGAAATGTCTGCCTCTGGAAAGGAGCTCCAACCACTTCCCTCATTAGTGTGGCTGTCACAAAGATAATAGCCAAGGTTCTGGAGGAC
AACAAGCTGCTTGGTGCAATTTGTTCCTTGACTTGTGGTGGAGCAGATACCGGCACAGCAATGGCCAAAGATGAACGAGTGAACCTGCTGTCCTTCACCG
GGAGCACTCAGGTGGGAAAACAGATGGCCCTGATGGTGCAGGAGAGGTTTGGGAGAAGTTTGTTGGAACTTGGAGGAAACAGTACCATTATTGCCTTTGA
AGATGCAGACCTCAGCTTAGTTGTTCCATCAGCTCTCTTCACTGCTGTGGGAATAGCTGGCCAGARGTGTACCACTGCGAGGCGACTGTTTGTACATGAA
AGCATCCATCATGAGGTTGTAAACAGACTTAAAAAGGCCTACGCACAGATCCGAGTTGGGAACCCATGGGACCCTAATGTTCTCTATGGGCCACTCCACA
CCAAGCAGGCAGTGAGCATGTTTCTTGGAGCAGCGGAAGAAGCAAAGAAAGAAGGTAGCACAGTGGTCTATGGGGGCAAGGTTATGGATCGCCCTGGAAA
TTATGTAGAACCGACAATTGTGACAGGTCTTGCCCACGATGCATCCATTGCACACACAGAGACTTTTGCTCCGATTCTGTATGTCTTTAAATTCAAGAAT
GAAGAAGAGGTCTTTGCATGGAATACTGAAGTAAAACAGAGACTTTCAAGTAGCAACTTTACCAAAGATCTGGGCAGAATCTTTCGCTGGCTTGGACCTA
AAGGATCAGACTGTGGCACTGTAAATGTCAACATTCCAACAAGTGGGGCTGAGATTGGAGGTGCCTTTGKAGGAGAAAAGCACACTGGTGGTGGCAGGGA
ATCTGGCAGTGATGCCTGGAAACAGTACATGAGAAGGTCTACTTGTACTATCAACTACAGTAAAGACTTTCCTCTGGCCCAAGGAATCAAGTTTCAGTAA
AGGTGTTTTAGATGAACATCCCTTAATTTGAGGTGTTCGGCAGCTGTTTTTGAAGAAGACAAAGAARATTAAAGTTTTCCTTGAATAAATGCATTATTAT
GACTGTGACAGTGACTAATCCCCCTATGACCCCAAAGCCCTGATTAAATCAAAAGACTCCTTTTTTAAAAATCAAAATAAAATTGTTACAACATTAAAAA
AAAAAAAAACCATTTACCACTTAGCAACATTGGCAGCTTTAGTTCTCCAGCAGCCTACATACATTTTGTGCTAAGGAGCAAAGTAATCTTCCATTTACCA
AGAGCTTTTTTTGCTTTTTAATGATGTATTAAATTAAACACCCACTCACCAAATATCTGTGAGTGTTGGTTGCGCAGATGGATTTGAGTGTTTGGTGCTG
GGGTGCATCTTGTCACAGCTGATCACTTACTGGTTCTCTGACTGTGGCTGGGTGGAGTTGGCATCTGTCTCCTAGGTTCCTCCTGCCCCCAACAGTTTGT
GGTTATGGTGATAAAATTATTGTGTGACAAATATCATGGCAGACATATAAACAGAGGAAAGGGGACAGCAATTGAAAGAGTATCAAACACACTTTAAGGT
TCTAACTGTTTCAGTTACCAAGGCTCAGGAAGGCGTATGTTGTGTGTTAAGGGATCCAGAGTCACTCAGACAGTGTTCCTCTCCCTCTAGCAGGGTATGA
AACTACTAATGGCCCCAGACCCTCATCATCACTGTGAAATTCACTGTAAAATCTTTGGAATTTTGATGAGTCAAAAGTGGAATCTGGTTATTTTGATTTG
CATTTTTGGATTGCCAGAGAGGCTGAGCATTGCTGCCTGGTTTTACAGCCCATTTGTGTATTTGTTTTGAGCATTGCTTGTCCTTTTCTTGACCCTTTTT
AATTGGGATGTTCGCCTGTTTTATTATTGTCTTAGTAGAGATTCAAAAAACTCTAATAAGGATGCCAATCCCTTTACTATCATATATTACTAATATTTTT
TCTCAGTTTTGTATTTAAATATTTATTATGCTTTTTAATATGTTTTTCTTACTAAAAACCTAACAATCTTTTCTTGGTTTATGTCTTTGATGTTATTTTT
AACAAAAGGCTTCCGGGCCCTTGAATGCTGGAAATGTTCACTTAAATTGTTTTTCAATATTCTCATGGGATTTTTTTTCTCATTTAAAATTTTAATCTAT
CTGGAAGTAATTTGGGTATATGTCATGATGCATAGAGCTGACTTAATTTTTCTCCATATAGTTAACCAGTTATCTCAATATTATTATTGAATTATCCATT
ACTTTCTCACTGATATAAAATGACATTTTTATTACATAATAAATCACATATATCGCTTTATATATATGTATAGATATGTGTAAAATTGGGTCAGTTCTAG
ATTTTATCTTTTTGTTGATCTCTCTGCTGGAAGCATACTATTTTGATAGTTGTATCTTTGAAGTATTATTGTCACAACTGGCAGAGCAAAATACTTGTAA
CTCTTCACAGTTTTATTAGCCAGTGGCTGGAATTTATTCCTCTATATGGATTTGAGAATCATTTCACAAGTTTAAAAAGTTGTGCCAGTGTATTTATAGC
AATTAGTATATAGGTTAATTTGAGAGAGACTTAGCATTTTTTTAGTACTGGTTTTCCACCCAGGAAAACAGCATCTCATTCCATTTATTTCAGTCATATT
TTCTGACACTCAGATAGTCTGAGTGTGCGATATGATGTGTTAAGGCACAGGTTCTGGAGTCAGAGAGTCTCAGTTCAAATCCAAGTCTAGCCATTTATTA
GCTTGTATATCAGTGAAAGGTTTTCCCCAGTGAGTGGGACATAGTGTTGCTCAGTAAACATTTGTTGAAGAAATGTTTGAATGAAATAATTTATTCCTAA
ATTTTTTGTTTTTGCAGTTGTGAATGAGTTTTAGTCTGCATGCTTGCCAGCAATTAACATTGTCAGTTTTTTAGATTTTAGCCCTTCTACTAGGTGTGTT
TTAATTAGTAATTCCCTGGTGACAAATGATGGCAAGCATCTTCTTTGGTGAGGTGTCTGTTCAGATCTTTTGTCCATTTGTTAATTGGGTGTTTGTTTTC
TTAATGTTGAGTTTTCAATGTTCTTTGTGTATGTTGGATATAAGTCCGGTATCACATTTATGTTTGAAAATATTCTCTCCTCATATGTGGTTTGTGTTTT
TATTCTTCCCACAGCTTATTTTGAAAGCAGAAGTTTTTAATGTTAATATAATCCAATTTACTATTTTTTTCTTTCATGGATCCTGCTCTGTAGTATAATT
TTAAGCCCCTTATATCAACTCATAAAAACAGACAGGGCAATAATGTAAATTGACAGAGCACACAGTCCATAAGCAGCATCTTTCATAAAACTAAGGATTA
GAGTATATGTCTATAAACTAAAAAATATGAGCAGTTAGGGCCAAACCACTGACCGTAACAAGGAAGTCTGCAGGAGGAAGCAGCTGGCAGACAAACAGAC
TTCTGGGGATCCCAGGGCTGGGGACCCAGAAACTTCTCTCAACACTTGTCCCAAGAAGGGGACAGTCCCCCAGGAGTGGAGGGCTTGCTGTTGATGTGAA
CACATTCGCTTAAAGTGGAGGGGGCTTCCCAGGCTCCAGTTGGCAAACAGTAAGGACAAATGAGAAAAGTATGCCCACAAAGCAGAAGAGAAACTGCAAC
CTAATATTTCAAATGAGCTAAAAGAAATTAAGAAAATGATTAAAAGTTACAAAAGAACAGGACGAATGCAAATTAAAAAAAACACAGGTTACATCATTAG
ACAACAGAAAAATATGAAAGGGAATTGATTACTCAGAAAAGAAATAGAAATAAAAGCAAAAAAAAATCTAGGAAAGGAAGGTCGAACTGGAAGAAATATA
AGAGTGAATAAACAGTGCAGAAAGCACTGTATAGAAATTGGAAAGGAAGAAGAAAAACACAGAAATAAAGAAGACAAGAAACTATTTGAGAAGTGATAGA
ATGCAAGACAGGCAAAGGAGCTCCACAAATATATGATGATTCATTATATAATATATATATGATATATATAATATATATTATATCTATCTAGATAGGTCCA
CATATATAATACATATACATATATAACTCCTCTATATAATAGGAGCCTCTGAAGAGAAAAAACCAAACCCCGTTGTGTACTGGGAAAATCAATCCAAAAG
GACAACATCAATGCATATTCTAGTAACATAATTGCACTATAAAGGAAAAAAGTCTTTTGGGGCATCTAGGCAAAAAGACCAAGTCGTTTATAAGGAAAAG
AAATCAGATTGGCATCAGAACCTGAGAGCAATGCTTTAAGCCAGGAAATACTGGAGAAGATATGTTAAAGATAATCTAGAAAAGAAAAAGTGAGCCAATT
ATTCTACATTCAGCCAAACTGGACCCTCAAATATAAGAACCACAGACAAAACTGTGCGAACATGCCAGACCTCGGGGAATGAATTTCCCATTAACCCTTC
TTGAGGAACCTTCTGACAATTACTGTGACTGGAGAAACTTTAGCATAAGGACTGGTGGTTGACACGTGAGACTTTGGGGTACGTTAGCTTCTGGTGAGAC
CCCTGGCTTTCTCAGAATTCCATAAGTGTTCTTGATCCAAAGACAGCTGTAAAAAGTGGTTCTATGATCCCTTGGTTGGAATACCATTTCTCCTCTGCTC
AGGTGTTGGCTTTGACTCCAGTCATTTGGCTTGTGATTATTTCATATCCCTCCTTTTAAGAAGCCACACACCAATGCACCTGTAGCTTGTGTGGCCAATT
GCCCACCCAAAGGATACATATCATCAGATCTCTCTAATATCAACAAGGGGAAGTCATTTGTTTCCATTGAGATTCTTTCTGTTTAAACACAGGAGAGCTC
ATTCAACCTTATTTAATAAGGAGAAAAAAGGCAATTAATTGGCTCACCTAACTGAAAAATCCAGAGTTAGATATGGCTTTGGGCAAGTCTTGATCTGGTA
ATTTGGAAGTGTTACAAAGGATCTTGTTTCTTTCCATTTCTCCACTCTGCTTTCCATGGTGTTGCTTTCGTTCTCACATGGTGTCAAGATGTTACGAGAA
ACAACCTCACTACACATTTCTTTTTGATAAACAGTGAGAATATTTATTAAAAGTAGAATAGCTTTTTCCCAGCATTGCTAGCAAAATCCTGGGATAAACT
GAGTGGACTAGCCCAAGTCAAATGACTACCCCTAACCAATTGCTGTAGCAGTCCAAGTCACGTGACTACTCCTAACCAATTGCTATAGCCAGGAAAATGA
AATGCTTAGTTATGGTTACCTGTCCTCCTCTTCTTCCTCCTCCTCCTCTTCTTCATCATCTTCTTCTTTTTTCTTCTTTTTTTCTTCTTTCTCTCCCTCC
TTTTCCTCCTCATCTTCCTTCTCTTCGTTTTCCTCTTCTTCTTTCTCTCCTTCTCCTTCTTCTTCTTTCTTCTTTCTTCTTCTTGTTTCACTCTGTCACC
CAGGCTGGAGTGCAGTGGTATAAACATGGCTCACTGCAGCCTCAACTTCCTGGGCTCAAGCAATTCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACA
GATATACACCACCGTGCCTGGCTAATCTTTTTTACTTTTGGTAGAAATAGTGTCTCACCATGTTACCTAGGCTGGTCTTGAACTCTTGGCTCCCCAAAAG
CTGGGATTATAAGTGTGAGCCACCGCTCCCAGCCCACATGTCTTTAGAACCAAACAGAGATTTCCAAACAGAAGTCAGTGACTCCTGGAAGGAGAAAGGA
AGGAATGGACTGGGGAGGCTATCTAAAAAAGAATTTTTAAACGTGTTGAATTTTATCAAAGTGCTATCTTGACATTTCTTGAGATGATCATATATTGACT
CTTATTGATTGTGGTGAGTTATGTAAATAGATACTCTAAGTTAGGGAAGGCAACCTACTTAGCTGTGCTCTGTGGGAGTAACTGAGGTTCTGGGAGAATC
TGCTTGTTTCCCCTTTTCTTCTCTTTTTCCTTCTTCCAGCTCTTATGTGTACTTCTCTGCCTCTCCTCAACCCTCTGATACTGGTGTTCTCCAGAGTTCT
GTCTTTGGTCTTCTGCTGTGAGTGATGGCAAGGTTTTAACTGCCTTTCCTGTATGCTGGTGTCACTCTCCCTGAGCTTCATACTTACATATCCCAGAGCC
TGACTTTGCATTTTGAAAGGACTAGAGACATCTCAAACTCAGTACAAAGGCAGGGGCCTTTGTACTGTGTCATCTCATGGAGAAGGTAGAAAGGGCAAGT
GAGTGTGGGAGACAGAACAAAGAAAGCAAGCGGAATTCATCCTTTTATCAAGAGCCCTCTCCTGTGATAACTAACCCACTCTCAAGATAACAGCATTAAT
CCATTCCTGAGGGCAGAGCCCCATGACCTAATCACGTCTTAAAGATCCCACCTCTTAATATAGTCAAAATGGCGACTAAATTTCAACATGAATTTTGGAG
GGGAAATTCAAATCATAGCACCCCTCACCACTGCTCCTAGTGTAGACACTCATCATCTTTTGTCAACACCAGTAGTTCCCAAACTTTAGCAAGCATCACA
TTCATCTGGAAGGCCAGTCATTACACACTGGGCCCACCCCTAGAGTTTCTGATTCAATAGATCTCGGATGGGGCCTGAATGTTTCCCCTTCTAATAAGTT
CCATGTGATGCTGATGCTGCTGGTTCAGGGACCACACCTTGAGAACCACGGGGATCATTGCAGGAACTCCTTTCTGATCTCTGTTCCTCCCTTAGTCTAT
GCACATTTCAACCAGAGTGATCCAGCCAACTACAATCCAGCTATGCTACACCTTTGTCCACCTAGCAAAGCCCAGGCTTCTCACCACAGCAGCCTTCTGT
GACCTGGCTCCTTCCTCCCTCTCTAGCCACATGGTCTGTTCCACATTGCCTGGGACTGTTCACACAAACTCTGTTCTTTGCCATCCTTGTGCCATTCCAT
CTGCCAAAAATGCTCCTTCCATCGGTCTTCACTTGGCTCATTCTCACTGATCCTTCAACATTGATCTCCAGTGTGGTTTCCTGGAAATTTGCCTGAATCC
CCAGATTGAGCTAAGTTGCCCTTAGGTTTCTCTGGCTTCATGGTCATCTCACTCCCACTCTGCTCCCCACTCCTGTCTTCAGACTGTGGGCTTTTT


SNP Information

Context             (SEQ ID NO:66333):
CTGGGCAGAATCTTTCGCTGGCTTGGACCTAAAGGATCAGACTGTGGCACTGTAAATGTCAACATTCCAACAAGTGGGGCTGAGATTGGAGGTGCCTTTG
K
AGGAGAAAAGCACACTGGTGGTGGCAGGGAATCTGGCAGTGATGCCTGGAAACAGTACATGAGAAGGTCTACTTGTACTATCAACTACAGTAAAGACTTT
Celera SNP ID:            hCV26380610
SNP Position Genomic:     7570
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66334):
GAAGAAACTGTAAAGAAAGCAACAGAAGCATGGAAAATCTGGGCAGATATTCCTGCTCCAAAACGAGGAGAAATAGTAAGACAGATTGACGATGCCTTGT
R
GGAGAAGATCCAAGTACTAGGAAGCTTGGTGTCTTTGGAGATGGGGAAAATCTTAGTGGAAGGTGTGGGTGAAGTTCAGGAGTATGTGGATATCTGTGAC
Celera SNP ID:            hCV27484630
SNP Position Genomic:     6445
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:66335):
GAACTTGGAGGAAACAGTACCATTATTGCCTTTGAAGATGCAGACCTCAGCTTAGTTGTTCCATCAGCTCTCTTCACTGCTGTGGGAATAGCTGGCCAGA
R
GTGTACCACTGCGAGGCGACTGTTTGTACATGAAAGCATCCATCATGAGGTTGTAAACAGACTTAAAAAGGCCTACGCACAGATCCGAGTTGGGAACCCA
Celera SNP ID:            hCV547957
SNP Position Genomic:     7066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66336):
CTTTCCTCTGGCCCAAGGAATCAAGTTTCAGTAAAGGTGTTTTAGATGAACATCCCTTAATTTGAGGTGTTCGGCAGCTGTTTTTGAAGAAGACAAAGAA
R
ATTAAAGTTTTCCTTGAATAAATGCATTATTATGACTGTGACAGTGACTAATCCCCCTATGACCCCAAAGCCCTGATTAAATCAAAAGACTCCTTTTTTA
Celera SNP ID:            hCV1958293
SNP Position Genomic:     7767
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;POOLE|_CEPH(G,75|A,113)   total(G,75|A,113)
SNP Type:                 UTR 3


Gene Number:                 422
Celera Gene:                 hCG38206 - 66000115877713
Gene Symbol:                 ARHGEF11
Protein Name:                Rho guanine nucleotide exchange factor (GEF) 11;GTRAP48;KIAA0380;PDZ-RHOGEF
Celera Genomic Axis:         GA_x5YUV32VSLS(4385653..4507924)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12582):
AAGGGACATTGAGAGGGAAGGCAAAGAACTAAGAGAAAAATTGCTGGTCCACTGCCCCATGGGAAAAAGAAGTCTCTGGGGGGTTGAGGAGATAAACCAA
TGGACTCTGCTTCTAGCTCCACCCTCCCCAGTTTCTCCTCAAAAAGCTCTGCACCTCTCCCATCTTTCTGAGAAGGTTCTGCCAAATTCATTGTTCTTTG
GTTTTATCACTTTCCCCCCGGGGCCTGGCATGGTGCCTGTGACAAGGAGACAGCACAGGTAATAAAAGGAAAGCCAACCACAGACCCTGGAGCCAGACTG
CCTGGGTTCCAGCTCTGTGACTCTGGGCAAGTTATTCTCCCTCTCTGGGCCTCTGTTTCCCCATCTGAAAATAAGGTTGATATTATAATAGTACCTACTT
CAAAAGGTTGCTGAGAAAATCGAGTAGTTAATTCTTGTAGTTTGCTTGGAACAGTATTTACATCGCAAGCACTATATATGTTTTGGGTATGATTATTACC
TGATATTAAAATTTTATTGGGAATTCAACAGGTTAAATGAACATAATATTCTGAGTGACAATGAAATGACATCTGTAACAGAGATTTTAGGACTGGTTGT
TCTGGCTACCCAGAAGTATTCTAGAGAAATCAAAATCAGCTAATGAAAAAACCACAGAATTTTCTCACCCTTAGGAGTAAGCAGTATCTTAATTAAGCCT
CTCACATCATCTTCCCAACTGATAAAGGTTTAAGAGGAGTGAAAGATCGTCAATGAAACAATGGCACTATGTCTCCAGTGGTGATTTTAATTTGCCAGGT
CTGTCCCTTAACAGCACCCTAGAAGGAGAATGACAGCAACCTGGAGTTCATCTCTTTAAAAGAAACACCAGTCAGGGATGGAGATGTCTGCTCATGGATG
AGAAGTTGCTTCTCTAGAATTCACATCGTGAACCATTCAAGGTTTTTCATCACTGCTCTCCGTCAGCTATTCAATCAAGCATTGAGTTTCTAGAATCTCT
CCCAGAAATAAAAGCTGACCATACCCACCTACCCACCTTTTTCTTTGCTTCTCACTACTTAAAGATAATCAGGTATGAATTCTAGCCTCAATCTATCAAT
TAATGGGATTTCATGCAGATCACCTAAAACTTCTCTGTGCCATAGTTTCCTTAACCTTAATGTAAAGACATAACAACTAGTGCCCTACCTATTCCCCAGG
ATGTTGGGCAGAGAAAAGGATTCATCTATTGATAGAGTTCTGTGGGAAAAAAGTTCAAAGGACTATGTTCATTTAAGGCAGAGGTGTCTAATCTTTTGGC
TTCCCTGGGCCACACTGGAAGAAGAATTGTCTTGGGCCACAAGTAAAATACACTAACACTAACGATAGCTAATGAGCTTTTAAAAAATCTCATAATGTTT
TAAGAAAGTTTATGAATTTGTGTTGGGCTGCATTCCAAGTTGTCCTCGGCCACATGTGGCCTGCAGGCCCCAGGTTGGACAAGGTTGTTTTAAGGTAACG
CTCCCTAAGATTTATCCTGATTTTCCTGCCCAGCACTCTATAGCTTACAGAGCCCAGGCTTGTTCATATTAAATCCTTACAAACTGCAGTTGGCAGTTCA
CAAAGTTATCTAGTTCTCCGGACTCCTAGTCTAGTCTAGCTCTTTCCATTGATCACCAGCTGCCTCCAGATTCCTACAACCCAGTCTGTCTAGGACACAA
TCTAATCTATTTTGTTTTTTAACCTGAGACTTGCAGTTTACTTAAATGGCCAACTAACTTCAGGGAACTCTATCTTACTAAAGCCACCCTCATAATCTTC
AAAGTGGAGTGTTCAAGGAGATGCTTGAGGAAAATACTTAAGAATGCACTCATGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCATGG
CTAACACAGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAAGA
GAATGGTGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGTCTCGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAA
AAAAAAAAAAAAAAAGAATGCACTCATAATAGTATTTAATTATAGCAAAAATAATTAGGTTTTACTAACACTAATGACATGGCATTCTCACTCAGTCACT
ATGTCAGAAGTCATCTGTCACACACAGTATATGAGGAGGTTCCAAGAACCAGAGGTAACATCACCATTGACGTTCATTTTCTTCATGATGTACGCCACCC
ACCAGACAAAAACAAGCCTGTTAACTGCTACAAACTTTACAATTCTTTGTAATGACAGAGAATGACCATGAAAATCTTTGCTGTGCAGATTAACAATCTC
CTGGGGAAAGCCTAAAATGAAATACTGAACATGGAGGAGATGCACAGTTTTATTTCAGTGTTCTATGATGAGAAATGGCTGTCAAGAGTATGCTACCTAG
CACTTACTTGCAAAAACAAAAACAAACAACAAAAACACCGCTTAATCTGTCCCTTCAAGCTGTCCCTTCAAGGTTAAGATGACAGTCTATCTACGAGCGA
GGAAGTCACTGCTTTTCTAAAGAAACACATACTTTAGGAAAAAGTATTTTGAAGACGGATGACTGGAAATGGTTCCAATATTGTGATTTTTTTAATTACC
AAAAACAATGGTTTCACCTATCAAAACCTTTGCACACTGAAAAATTAGGAAACAGAATTTGAAAACCTATTTTTTAAAGTTAAATGAAATTTCTTAATGG
CTGGAACCCATTTGTTAAGAATATAAAAATGTAACACCTTCCAATCATTCAAGAAGGATTGACTTAAGATATAAATTTACTAGTTGAATTTCAATTAGAA
GTCTTTGCATTGTTGATGAATGGGATTGGAAAATAAGTATCATGATTTAATAAATGCAATCAAGGGCATACTTCTTCTGTTTGAATCTACCTATCTTTGG
CAAGCATCTTTTCCAGTTATGACAGCAATTAACTTTCACCAAAAAGCATGATTTAAAAAATGTTCATTTTTAAATTTCAACCTTTTAATATTTCTACACT
AGGCAATGTTGTATAAGATATGTAATAAAATATATGTAAATACTTGCTTTAAAAATATTACATATATTAAGAACACATTATCATTATTATTATCATTTTG
AGATGGAGTTTCACTCGTCACCCAGGCTGGTGTGCAGTGGCGCAATCTTGGCTGATTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAAC
CTCCGGAGTAGCTAGGATTACAGGCGCTCCCCACCATACCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCT
CGAACTTCTGACTTGAGGTGATCCACTCGCCTCGGTCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCCAAGAAAACATTATTTTAAA
ATGTGTGGCAACCAGTGGTCTGTCACCACAGAGCAGTGTCCACATTTGAGAGCATCATTTTTGCGGGTAGTATGGGAAAGAAAGACACAATTAAGTCAGC
AACAATCTAGACTGTGCTTCAAATGCTGGGCAGATCACCTGTTTTGGGGAGTTCTGGCCTAGGGGTTGGTGGAGACAGGGTGAAGGAAGCAGGTTCTTTT
ATTTGCCAACCTATACCTGATATACATTAAAGGGAAAGTTCCTGGTTCATAGTAGGTCTTCAACTGATGCTTATTCGTTTCTTTTTCCTCTTGCAATTTG
CATATCTACCACTTCTAACACTGGTGAGGTCACTCCAGAGCTCACGAATGTGTATAGATAATTTACATATACATATCCACCCCCTCCCAGAACAATCCAG
GTAGTGTGAAAGGAGAGAACTTATGCAAACACCCCACTGCCTGCAGAGTATTTTACAATGGCATTTACCTAGGCAAGAAGGCAAAGTCCACTCCCCAATC
CTAGTGAGAGTTTTTTTATTTTAATAATTTTTAAAAAAAAATTTTATTATTATTAGTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGACTGGAGTGCA
GTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCAAGCGATTCTCGTGCCCTAGCCTACCGAGTAGCTGGGATTACAGGCACGCGCCACCA
CGTACGGCTAGTTTTGTATTTTTAGTAGAGGGGGGGGGTTTCACCATGTTGGCCCAGGATGGTCTCGAACTCCTGACCTCAGGCCCCGCCTCGGCCTTAA
TGATTTTTAATCATAACGCTCGGCACCTTCTGACAAATGTCACGTTACTTGTAAAGATTTAGAAACTGTGATTCTATGAGAGGGGGTTATGAAAATAGAA
TTGCTCTGGAAAGGCTCTTCCATAGAGTTCAAAGACACTTTACACAGCCTGCTATTAAGATGCCCAACCCAACCCGAGAGGAAACAGCGAAGGGTCTTCC
CCCTAAGTCGGTGGTATTAGAAGTGGGAAGGACCACAGAAACGGGAGGAAACAGTTAAAAGAACTGACACCACGAAGGAGGCCGCAACAAATGTTTGAAA
AATAAGATCAGAAGAGAGGTGGAGAGAGGGTGAGCCGCAGCTGCGGGCGCCGGGGTAATGCCGGTGGACGCAAAGAGGTAAACCTGCACCCGTGGGCAGG
GGCACGGGGCGCGGGCACGGTGGCTGGGCGGGCAGGGGGTAGGAAACAAAGGTCGGCTCCCGAGCAGAAGTCAATAAAAGGGGGAAAAGCAGCCGAGGAA
AAGCGGCGAAAAGGCGGCAGGGGTGGCGGTGGCGGTGGCGGCGGCGGGGACGGCGCGCGGTGCCTGGCGGGGTCAGGGCCGGGGTCGCCCGCGGGCCGGG
CCGGGGATCCGGCTGAGATGGGAACCCGCTAGGCCGCGCCGAGGGGCAGGGCCGGCGACTGAGGGGCCGCAGAGGGGACCGGCCGAGGAGCGACGGCAAA
GGGTTGTGGGGGGCAGGGCGCGCAGGGAGGCCGGGACAGGGGCGGGCCGGTCGGCGGGAGTCGCGGCCGCGGGAACCGAGGCAGGGAAAGGCGGTCAGCT
TCCCGCCCCCGCCCCCGGCCGCCGCGGCGTGAGGGGAAAGGCCGGCGGGCGGCGGGCAGCGCAGCGAGGAGGAGGAGCCTGCGGCCCCGCCCCGCGGGAG
CGAGGGAAGGAGAAAGGCTCGCAGGGAAGGAGGGAGGGAAGGGGGGCGGCCGGCCGGGCCTGCGCCCGAGCGAGCGGCGAACCGAGGGGGAAGGGGCCCG
GAAGGAGGCGAGCGCGGCCGCGACGCCGGCAGTCGGACGCCCGCTCGTGCCGGCCTGCCGCAGCCGCCGCAGCCTTCCCTGTGCGCCGAGCCTGGCGTCC
CGAGCGGCCGCGAAGGCCGGAACACGGCGGTCGGGCGCGGGGCGAGCGGCGCCGGGAGCCCGAGGCCCGGCCGGGCGTCCTGCGCGAGGCACTGCGGGCT
CCTGCCTGCGAGATTAGGCGAGGGGCGGAAAGGGAGGCAAGGAGAGGCCGAGAGGAGACAGGCGATCGGATTTTCCAGGAGTCTGGTGTGGAAGAAAAAC
CCACCTCGAACTCAAATCCACAATAATAATCCGAACGAATAATAAGGGAGCCGTCTTTCTGGCCGGGCGAGAGAGAGGGAGAGAGAAGGGGGAACGGGAG
GAAGCGAAATCTCCGTTTCATGGAGGCTGAGGCAAGAGAAAATTTCGGAGCCTGGATGTGGAGGAGCCCAACAGCAGAACTAACTCAGGAAATTGTCTTT
CAGAAAAAGGCCGAACGTAGGCTGGGTCTGAGAATCAGGCTGGGGTAGGTGGAGGAACCTGCAAGTTTAAAGGAAAAAGAAAAGGAGAGAATATTTTCAG
AGATTATCTCTGGTTTGTTATCATTACTACCATCTTAAAGGTAAAAAGCATTGCATTTCAGGTGTTCTTTGATTTTTATTTTATTTTTTTTTTTGGTGCA
ATTGGCTCATTTAAGAATTTCAAAACATTTAATGTAAAAGCTTTTTTTTTTTTAAGGAAGTCCATAAATTTTGGTTCCCAGGGTTGCACTGGACTTGGAA
GGAGTGCTGTTGTGTACATACTATTGTATGGTTTTATTTATTATTTTACTGTACAAATCAGCYGAAAGAATTTTTCCAAGTGCCATTTCGGATTTATTAA
TCCTTTTTTTTTTCCTTTCCTCAAAGATATTTGCTGTTGTCATATTAAGCATTGGAGACTAGAAAATTACTTTCCCCCTTTGAGCTAGAGGGTCTCTTGC
CAACAGAAGGACAGCTGAGAAAGCTGGATTTAAAGGATGGTTTTATCTGTACTTTGCAGTTAACAGTGATATTTTGAAGGCACATTTTTCTGTGATTCAT
TTTTTTTTGGCCATAGTGCTAACCTTGAAGAGATTCGTGGCTGGGTTTTTGGTTTCTGAGAAGGTCGTAGTTTTTCCTCTTTTCCTTTTTTTTTCTTTTT
TCTTTTCTTTTCTTTTTTTTTAAAGCGGGGGAGGGGAAGAGGGGCTGAGAAAGGAAATCATGTTCACTGGTAGAAGTAGAGTGGAGCATCAGTTACCAGG
GTCCTGAGAGCTGGAGGAGAAAGGATTCTATCTTCAAGTTGGGAGGCCCTCCTCTCACCTTGCTCAAAAATTGCAAGCGATTCAATCCTGATCAAGACAC
CAAAGCTACAGGATTCTGGAACCGTGGAGACACCGAGAAACCATGAGTGTAAGGTTACCCCAGAGTATAGACAGGTAGGTTTGCTAATAATTTGATTTTT
CAACATTGACTAAAGGAAAGACTGGGAGGGGTGGTGTTGCATTTTAATAAATGGTTGAAAATAGGGGTCTGGGTGGGCTATGGGAATTGGTGGGCTAGGA
GCATTAGTCTCTGGGGACTGTCAGCCTATGTGGTTATGTGCAAAAACATAGCTCTTGATTCAGCGTCTTTTGAATATAAGCAATAAACAGTGAAGCCAGG
AGAGGGAAAGGAGGAGGATGTGCTTCCAGTGGCTTTTGACTTTTGCCAGGGTAGAGGCTGAATTTGAGTCCACCCAACTTGCTAGTCTCAGGTGGGGGCA
AGCCAGTCTTGTGAGCTCCTAGGGTTGCACTAGGGGGACTGGCTTTAGGTGTTGGAGCTGCTGGGAGAAGGGCCCTGGCAGAGGCGTGGGCCTCCACCAG
GCTGGTTGGTATGGAATGGTGGGGCTTGGTGACGGGGTGGATCCCATTTCTAGAAATGAAGAGGATGTTCTTGGCCTGAATGATGGGACAGAAACATCCT
TTGCACCCATGCAAGTCTGGATTTTTACCAGTAGCTGACATGGTCCCAAAATGCATAGATCACATTAGAATTTCCTCTCCTCCAAGCTTAGAGTTTGAAT
TGAGACCTGCCAACCGGCTGATGCTCTAGGTTTAATCTTCCAAGCTGTTCTTAATAAGCTTGACTCTGCAAAATGGGCCTTCCCTCTGCCTGGAGCCAGA
AGAAATTGTTTTGGGCTCGTAGGCCTGCTGGGCAGCAGCACTGGCCCTCAGAGTCTGAACACATGACACCCCTTSCCCCAAGAGTCTGCCCAGCCACCTC
TATCACTGGTAATGTTACTGTGTGGTTGCAATTCTTACCTCCAAATGATTGGTACAACTTTGTAAGGTGTCTGCCTTTTCCTTCCCTCCCCTACCCCTCC
TCAACGCTTCTCCCCATGAGAACCTTGCTGTGGGGGGTGTGTTTTGTGGGCACTGCACACATCCTAACTGGATAGATGGGTGGTTGAAGGACTGAACAAG
CAAATGAAAGGACTGGGCCTGGAAAAAAATATTATTGGAGAGATAGGGAAGAATATTTGCAAGGGAGCAATTGTTCCCTCCATGCCCAGTCCACCTTCGG
TTATCCATGCTAATAATAATTTCCTTTTGGTTGTGGAATGTGGCCTAAAATGCATATAATCTCTCTCTCTCAAGCACTAATCTCTGTATTGCCTCAGAGT
CCCATTTAGATTAGTTCAGCAGTCCCTAGATGGGAACTGACTTGGCAGTGGAGAAGAGGAGGCAGACAGCCACAAAGGATGTACGGCCAGTTCAGACCTC
CTTCCTCCTTTCTGTTGGCCTCTCTGCAGTTTGACCCTTGGAAAGGGAGAACTGAGGTGTGTCAAGGTGAGGAATTGGAATGGTTTACATGGCTGCCCTT
CTTCCCTTTTCATCCTCTTGGAGTTTGAGAATTAGTGCACTTGCCTTTTTAAGATTTGGATGGTGAACTCTTTCTGGTAAATGCAAGGATTTGAGAAGAT
GGGAACCCAAGTTTTGGGGGCGTGCAAGAAGGAGGAGGCGGTGAGCCTTCCTGGGTTGATGTGAGACACTCCTGGGGGTTTGGATATCCTCATAGATAAA
AATCTCAGGATTTGCCCAGCACATTACAGTTTCCTAAGTGCTTTCGTAGAACATATCTCATTTGAATCTCACAGTGGTTCTGTGTGAGGTAGACAGAAGC
ATCAGAGGTTATTATTCATGTTTCACAGAAGGGGAAACTGAGGCTCAGAGAGGCTACCTGGCTTGCCCAGTGCCATCTTGCCTGGCTAGTGGCAGAATCT
GGACTCAAAGACTCAAACACAGGTCTTCTGAGTCTGAATCTGTAGCTCTTTCATTGCCCCATCATGTCTAACTAGGCTTCTGTACTGGTCCTGTAGAATG
TGTGGGGCACCGTTTTCTCCTTTCTCTTTGGTAGTAGGGTAAAGTGCCCGTCAGCAGTCAAGGTCTTCCCTTCTACTTTTCTGTCTTGGGGCTCCTACCT
TGGGGGTTCAGTCTTGGGGCTCATACCTGTAAGTCCTATAGTTAAAGCACTATTTTCTCTTGTAAGATAGTGCAGCTTTGCAGGGTAAGGGTATTCCTCA
CCTCCACCCTGCCTGATTCTCTTCCCCATTAAGAGTGGTAGGACTCAGATCCCCTTCAGACATCCCCAGCTAGCTGCACTGAATCTTACTCCCTTAACTG
TAGGCTTATTCAATTGTAACTTTGGGCAACATCAGCCTCAAGACTCTATGGATTTTAAATAATTTACAGATTTAAATCACACTGAAAGGAATAATACGCT
GCGGATTATGGAGTCTAGTATTCTTTCAGTTTATCAGTTTGCTGTGTAGAGAGCCTAGTGTAAGGTGCTATAGGAGAGTTTTAGAAAATTAAGGTGTACA
GTACTTGCTCACAGAGAGAGCATGCAACTGGGGGACTGGGAAACACGTAAGACTCTTGAAGACCACATAAAGCAACACCAGACTGTAAGCCCCTCACAAG
CAGGRACAGTTTGGTTTGCCTGTATGAAATCCTGTGTGCCTAGCTTAGTGTCTTGCATGAGGTGAGTACTCAAGAAATGTTTGACAAATGAATGTTAGAG
TGAATGAACAGATCAGCAAGTACAAATTATTTCATTGCGGGTTGTTTCAACATTCACGTGTTAATTTCAAATGTAGTCAAATAAGGTCAATTAGAGAAGG
TTTCCTAGGTAATGTGTATTTTCTAGAAAATAAATGACAYAATAAAGGACTATGTATTTGGAAAGAGATTGTAGCTGAGAGTAAGAAAATTTTGGAATAT
TTACTTGGCAGTCTTTCATCTCCTGTAGCACCCTGTTCAAGAGTGACTCCTGGGTCCATAGAAAGCATAAAGTATTTGCAACTATTCTTTATCTTTCAGT
GTTAATCAGTTGTTACTGAAAGATGGGCTAAAGTGTAGCTGTTCATGTCCCTTTCAGTTTTTGTCCATGGGCAACTTACTGCCCATTAATATATATTCCT
TTCAAGAGTTTCTAAAAATGTGTTTGCTATTGCAAACAGAGATAATGATACTAAATTATTTTTACAGGAGTGGTCATGAGTTTTGCTAAGCCATCTATAT
CTGTTAGCCTGGTTCCCCCATGGCAAATGTTTTTGAGATGGACAGGAGGGTTAGGGGTTTGCATCCATGAAACATCTTTCCTCTGCCCAAAGTTAGTTCA
TGTGAGGATCAAACCAAAGTACTTTAAGCCAAGAGTTTGTGGTTTGAGTCCTGGCTTTCCCCTTAACTATGTGACCTTGGGGAAGTCACATGCCTCCTCT
GGCTTCCTCATGTAAAGCAGTAGTAGTTCATTTCTATAAAGTACAATCCAGTTCTCAAACATTTTTATATGGTGTGTCATTTGAGGATTATAATGTTTGT
TTCATCTCTCTCACAAGCCTATTGAAAGGAGCAAATCAAACGAGATAATGTATTTCAAATTGTTTTCTAAACTGTAAACTCTATATAAATTATAGATGGT
AAATTCACAGATTTGATTTAGCTTCGTGCACAACTTTCTGAGCTAAGTATCCCAAAACAAAACAAGGTGACTGAAATCTTTATATCATTTTGAAGAATTT
AAGCAGAGTGAACTGGCTTTATTGTTGTAGAAGTGCATGGGGTCAGGAGGAAGGAGTATTTTTCCAATAGATAGGGTACTAGAAGAATGTGAGAAGAGAA
GGGTTACTGAATCTCCTTCCCAGGAACTCTGATGAATGAGAGAGACTTCATCTACCTTGGCTCACCTTAAATGTCTGTTAGTGATGGGGATAGAAAGGAT
TTGTTCTGTGATCTCCAGCCATTCCTTGTCTTAAAAGCGTATGACTTTCCTAATTCAAAATAAATCTAGACCCAGCAACTGTTCTCTGTCAGGGGTCTCT
TCGCACCTTGGCTTCTGGTCTTTATTGACTCCTGGGACCAAGAAGTCCCCAGACATTTAGCTGAGTTTCTACCTAGATTAGAAGGTTGGCCTCCCAGAAT
GGAGACAGGGATCCAGAGCTACGTATGATAAGTCCCGGAAATGCTGAGTCTTTTCCAAAATGTACCCTTGTTCCCATCTAGGGGTGTGAGATGAGAGACA
CAATGGATTTGCAGCTGAAACATTTGGCAATTAATCACCATTATGAGAAGGAGCAGACTAAGCTTAACTTCAGATACTCAAAAACATTTCTGAAAGAGTG
CCCTTTTATTAATGTATTTGTTTAGCTTTTTTAATAGACAAGAAATAAGAAAAATTAAATGACAATACGAGTTCATCAAAAATAAAAAGATTTTGTGAAC
AGCACATAGCTAATCTCCTAGTTAGTATAAAGGTAAAGGAGTTCTGGAAGCTCACAGCCTCTGTGGAATGGAGTTTAGAAACTCTAGTTTGTATAGTGTT
TCTTGCTGCTTTAATGTTCTGATAATCTGATGTTTGTGAAAAGGCTTTGTTAACTGTTGAGTTCTATAAACGTAAGAGGAGTTATTTTAATCTATATTGA
CTGAATCTGTTTCACCTCTTCATAGTAGCATTGCCTTTAAAAATTCATTTTTATTGGTTTATTATTTTTTAAGCTTAACTCAAAGATATATCACGTGGCT
TGGAAACTCTTTTTGCTGTGGATTGTGGTGTTCCTTCTTTTGTCAATCACTATATTGATAAAAGACCCAAGCATACACCTGCTAGTGGCATGCAAGATCA
CTCCTTTGCCCCATGGGGTAAACCGTACTGAAGAAGTTGCTGATCCTGGTCTCAAAAAGAAAAAAGTATAACTTCATAAAAAGTCATGTTAGATCTTTTG
TGAAAGGAGGTTTGGAGTTCTGAGGAAAGAACACAACATCTGAGTTAGTAGACGTGGATGATGGAGCCAGCTTTGTTAGCAGCTGGGTGAATGACCTTGC
AAAGGTGCTTACCTGCCCTCGACCTCAGTTTGCTTATTTGGAAAAATGAGGGAATTAGGCTAGCCAGCCTCTAAGATTTGATTCCTTTTAGCTATTACGT
TCTTTCAGCCTCTGAAACCAGAATGCTTTGTGTCCTTTCAGTGGGCCAAATGGTTTTTCAGAAATCATTGTCTGGCTTTCCTGAAAATCAGTGAAAATGA
AAGCTTGAAAAGAACAGAGAACAAAGCTGCCTGATCAAATGGGAGAGAAGATGGAAGTACAGGGACATGGAAACATGGGGAGGAACTGAGAAATCCATGG
CCCCTAATAGAATTGGAATAGGATTTGGAAGGTGGTTTTGTTTTTTGTTTTTTGGGACAGGGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGA
TCATGGCTCACTGCAGCCTTGACCTCCCCAGGCTCAGGTGGTCCTCCCACTTCAGCCTCCTGAGTAGCTGGCATTACAGGCATGTGCCACCACACCTGGC
TAATTTTTGTAGATATGAGGTTCACCATGTTGCCCAGAGTGGTCTCAAACTCCTGAACTCAAGCAATCTGCCCACCTCGGCCTCCCAAAGTCCCAGGATT
ATGGGTGCAAGCCACCACGCCAGGCCTGGAAGGTGTTCTTAAGGTCTGGAAGAATACCCCAATTTATTGTACTAAAACAATTGGACAGATTTCAGGAAAA
AATCACAAAAATCTGGCAGGACTTCAAGGGATCCTCTTGCCCTTTACTCTGGACTCCAAATAGGGTGTCTCTTAACCTAGTAAAGACAGGTTGAAGGCCT
CTCCCATTTTCAGTGATCTCTGGAGGATGGTTCCATTAGTTCAACAATTAGAAATCCCTTTGGATACGAAACTTCCTCTGCCACAATTTAAAACCATTTT
ATTGTCTTTCTATTGTGATTTCAGCRTAGGCCTTAAAGTCACTAGTATCCCTCTATTACCATTGTTGACTTCCTTAAGATTTTCCTCCTCATTTTAAAGA
ATAGCAAACTAAGACATGAATATGTGAGAAAGGGGCTTTGAAAAGTTAGAGTGAAGTAATTTCAGAGTCTTGCTTTCCAGACCCTGCTCCTTTCTCTCCA
GTATTTGGGAGCAGCCACTACAAAGTGGTGTGATGGGATCTGTAGTCATCAGTCACAGCCTGGCCTCAAATCATGTAGGGAACCAATCTAGCAGCCCTCC
TGGTGATGACCTGTGATCTGTGGCGCTTGACGGTTGGTTGGACTTGAAATATTTATCAGATGGCTCAGTGCAGTTCTCAGTGTTCTGAGAGATAGTACAG
GAGAACATAGAGCTTACATTCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCT
CACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCTGCCTCAGCCTCCCAAGTAGTTGGGATTACAGACACCTGCCACCACACCCGGTATACTTTTTG
TATTTTTAGTAGAGACGGGGGTTTCACCATGTTGGCCAGACTGGTCTCGAACTCCTGACCTCAAGTAAACCGCCCACTTCAGCCTCCCAAAGTGCTGGGA
TTACAGGCATGAGCCACCGTGCATGGCCTCAAGCCTAAATGCTTGTTGGGAAATGTTATTAACAAARCAACACAAAATAAAAAGATGGTACATAATTGCT
GAATCGTTATGTACACCAAAAGGTACATTTAGAGAAGAGTGCAAGGTTGGTGCTAATAAGAATAGTCAAAGGCAGAGTAGTTAGGAATTATTCAGGTCGA
AGAAAGAGAAGAGGCCATTTCAGACTAGAGGAGCAACACGAGCAAGGTTCTGTCTGGGGTGGCACCAACATGGTGTGGTCTCCAAGTGTTAAGATTATTG
TAGAGCAGAGAGAAATTAGATTGATAAGATGGGTAGGGTAGGGAGAATGAAGGGATTCAGACTTTATGTGGTAGTAGAAAGGGAGCCGGGGAAGGTTTAT
GTATTATATGGTGATAAACATAGTRTTTAAAGAGAGAATTCTGATATTAATATATAGAGCAGAAGAGAGCTTGGGGTTAGGAAGCCTAGGAGTTTTTGTA
GCAATCTTAGGAAAAGATAACGAGCTTCTGAATCAGAACGGTTATGGTGGGGACAAAGAGGAGTGGCAGGATTCCCAAGACGTTTTGGTAGCRGAATTAA
CCAGTATTTTAAGACTGAATCAAATTTATTTATTTATTTATTTATTTTGAGACAGAGTTTYGCTCTTGTTACGCAGGCTACAGTGCCATGGCACGATCTT
GGCTCACTGCAACCCCTGCCTCCCAGGTTCAAGCAATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCYGATCCCATGCCTGGCTAAGT
TTTTATATTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCTGGCTAGTCTCAAACTCCTGATCTCAGGTGATCCGCCCGCCTCCACCTCCCACAGTGC
TGGGATTACAGGTGTAAGCCACCGTGCACTGCCCTGAATCAAATTTTATTCCCAAATTTATGAGACTGGTGGACTAGGAGAAGGGTAGTGCTATTGATAG
ACTAGGATCTTCAGTAGAAGTCATTTTGTCTGCCATTGATACCTAGCAATTTACTGAATACAGTGGATACTTAACCTTCCTTAGACCCTTAGGTTAGGCC
ATTTCTACCAAATAGTTTTAGAGCTCTTCAATACAGCTTTTTAAGAGAAGCAGGAGGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAG
GCCGAGGTGGGTGGATTACCTGAGGTGAGGCGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAGATACAAAAATTAGCCTGATGT
GTTGGTGCACGCCTGTAGTCCCAGCTACTTGGGAGGCTGAAGCAGGAGAATCACTTGAACCCGGGAGACAGAGGTTGCAGGGAGCTGAGATCGCACCCCT
GCACTCCAGCCTGGGTGACAGAGCAAGACTCTGCCTCAAAAAAACAAACAAAAAACAAACAAAAAAAAGTGAGTAGTCAGTTCTGGGAGATCCCTTAGGA
AGTTGGGTCATGGTTTGAGGAGATTAGCATGTATTTGATGGATCCTGATTAATCAGCCWTATATATATATATATATATATTCATATATGTATTCATATAT
GTATTCATATATATATTCATATATGTATTCATATATTCATATATATATTTTCATATATATATTCATATATATTCATATATGTATTTTCATATATATATTC
ATATAGATTCATATATATATTCCATATAGATTCATATATATATTCCTATATATAGATTCATATATATATTCCTATATATAGATTCATATATATATATTCC
TATATATAGATTCATATATATATATTCCTATATATAGATTCATATATATATATTCCTATATGTATTCCTATATATATTCCTATATATATTCCTAAAYATA
TACATATATATATTCCTATATATATATTCCTGTATATATATTCCTATATATATATATTCCTGTATATATATATATTCCCACATAGCCACCCAAACTCTGG
GGCTGGAGGGCCATCTATGTGGAAATCATTCTAGTTGACTAATGTAGAGAATATAGGACTTTAAGTGAGCCCCAGCTGAGTGACTAACTAGCTATGTGAT
CAGGATAATTTGTACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCRCACGTGGTGGTGCATGCCTGTAATCCCAGCT
ACTCGGGAGGCTGAGGCAGGAGAATGGCTTGAACCCAGGAGGCAGAGGTTGCGGTGAGCCGAGATTGCGCCATTGCTCTCCAGCCTGGGCAACAAGAGCG
AAACTCCATCTCAAAAAAGAAAAAAAAAAAAAAGCATTTTGTGAATTCCATGGTGCCAAACATACGGTGAGTKTTGTTAGGGCATTTGGTTTGGCAGGGA
CCCCAGATTGTCCTAAACTCTCCTCAGCTGCCACTAGAATACCCATGCTTGAATTACCCTCAGTCCTGTGCTGATTCTCAACTAAGGACAGACAGGCATG
GCTGTGGGACCATAGTGAACAAACACAGGACAGTAGTTAAAAATGAGGGGCCTAAGCGCTCATCCCAAAGCAGATCCTTTGCTAGAAACCCACAATGTCT
TTCCTTCCTAGCCCAAGCTCCCCAGCTTGGGATTCATGACTTCTTTCTTCAGTTTAGCSCACATCTCAATAATCGTAGGTCTCATTACTGTACCCTGTCG
CCCTGCTTCGGGTAGACCAGCCTCATTCCTGGGCCCACATCCCTCTTTGCACACCTTTATATCAGTGTTCTCTGTCTTCTCCCAACTCCATTACTCTTAT
TTCCTTCAAGGAAGTCTTTGCTGGTTAATATCACCAAACCCTACACCTTTATATTATTCAGCATTCCTTTTGCACATACATACAGCAATTCAACTTTATC
TTATTTGCTTGTATAAAATAATTTGTGTAAAAGTTCTAGCAGAATATCTAGCACGTGGTAGACTGTTATGTTGGTTCTTTTATATGGTTCTTGTGTTTTA
TCCTGTTCCTAAGGGTTCAAGAGCAGTGTCTCCTCATTGTTCTGGGTTGTCTTCTTTGGCCCAGCTTAGTTCTCTTTAGACACGGTATACTCCCTATGTG
CTCTTTCCTGACTCGAACACAGCTCATTCTTGACACTGCTGATTCATTCCATGCCTAACCAAGGGATTTTAAGAAAGCAAGCTCTAAACACTCCTGCCAG
GAACTAAGACCAAAATTCCTCTCGTTCTCATTGGGTGCTAGGTCTTTGGTACTTGGTATTTCTTGCAGGGACAGAGCAGCCTTGTTGGGGTTGCCTGCCT
TCAGCCTCTCAGAGTTCTGGGGATTTCCCCATGGCGGCTTGATTTCCGGGCTGCCTTTCCCTGCAGGAGTCTGATGGGCACAAGGCCTACCCTGCCATTG
TCCCGCCTGCCCCAGGCTGGCCCCATTCATTTCCCAGAGCAGGGCCTTCAGAAACTTCCCCCCAAGAGACTGCTGCTGCAGAGAAAGGCCACTGTTGTTC
TGGGGGGAGGTGGCTGGAGAGAGTGTAGTAAATAGCTATGTGAATGGGACCTTGTGTGCAGCTAGAACCACAGACCCTCTTCCCTTCAGAGCCCCAGGGA
GAGGGGAAAAATACCACTAGGATTTCAGTGTCTTCACAGGAACAGGGTTTCAGGTTTGGGAARCATTCATGCCATCCCTCAAATAAGAAGCTTGGTCTGT
TTAACAAATCTTCACTTATCGTAGTGCTAGGCATCAAGGATTCAACCAGAATATGCTGCATACCTTGCCCTTAAGGAGCTTATGGTTTTGTGGAGGGAGA
CAGAAGTAAGTATGATAGCACCCAAACTTACTCCTGTGATAACAGTTGAAGCACTGGGAGAGACACCTAAAGAAGGTTTCCTGGTGGAGGAAAGGACCTT
TACATTGAGGCCAAAAAATAAAAGCTAGGCTGGAGTAAGGGAAAGTCTAGGCAGAGGGAACAGCAGGTACAGAAGCCTCAAGCAAGAAAGAGCATGGTGK
TGTGAGAATTGCAAGTGGCTGTGATCTGTAGTGAGACCATAGAACCATTAATTAAATGAAACTGGAGAAAAGGAAAATGAGTAGGAGCCAAGGCCTGAGG
ACCGTGTAATGCTCTTAGAGGTTTTGGACTTGATCCTGAGGGCAGTGGAAGATCATTGTGAGATTTTAAATAGAGGGTGACATGATCAGATATGCTTTCA
CAAAAGCAAGATCACCATGGCTACAGTGCAGACATGGGATTAAACAAGTGAAAGGGTGGAGAGAGGGAAGATGGGTTAGGAGACCTTTGTAGTAACCTTG
ACAAGAGATGAATGTGGTCTCTGCTACGGAAGTGACTTCAGAGAGGGAGAAAAATGAGAGATCAGAGGTTACGAAGTTGATTATATGGGGGTATGCGGAG
GCATGAAGGAGAGTGTGGGGCAAGGATGATACCCTTACCCTTCTCTTGGGCTACTGCATAGTACTATTCAATAAAAAAAAAGGAACTCTGGAGGAAGAAC
ATAAGATGGTTGAGGGAGAGAGGAGGAGAGGAGTCAGCATCCCTTTGGACATGTTGTGTTTGAAGTGCCTGTGGGAGATCCAAGGAAAGATGTTCAGCAG
ACAACTGGAGCTTGGGCTGGAGGTCAGGAGGGGATAGAGAATCACATTAGCAGGTCATCAACACCTAGACGGAGCAGCAGAAGCATAAGACTGTCCAGGG
GCAGGGTGTAGAGAGAGCAAAGGGCTGTGCACAGAACCCTGAGAGGCATACATTTAAAAGGGAGGTGAAGGAAGATGAGAGGCATACATTTAAAAGGGAG
GTGCAGAAGAGACTGGCAGGGAGTGACAGAAGCAACCAGGGCAGTGAGGAACCTCCAAAGTAAAGAGAGGGAGTGATTAACAATGTCAAGTTCTCCTAAG
AGGTCATGGACGAAAAGGACAGAGAAATGCCTGGACTTAGTAACTGGGAGGATGTTCATGGCCTCCGTGCGTGGTTTCTGGGCAGTAGCAAGGGAAGGAG
CCAGTTTCTAGTGGGTCCAAGTGAGAATAGGAGGTGAAGAAATGGTGATGGACATAGTCTAGTCAATTCTTTCATGAAGTTTCRTCAGAAAGGAAAAAAA
AAATGTCGCTCCTGGTCCTGTCAGGTAGGACTTTAATTTTTTCAAGGTAGGGATGTATTGCCCTAGGTCAGAGGTTCTCAATCTTTAGAATCCTTTAGAA
TCAGCTGGAGAGCTTGTTAAAATACAGGTCTGTGGGCCCCACCCAAAACGTTCTGACTCAGTGTGTTTGAGCTGAGTTTGGGGCCTGAGGATCTGCATTG
TTACAACTTCCCAGATGATGCCAATACTGGCATTCTGTGCTTCCAGAGCCACTGCCTTATGACATCTGTGCTCTTAACGAACTCTTTTTATGTTCTCAGA
ACAGAACTTTTGTTCACTGTCTATTTCAAAACTTGTCAGTGGCTCTACTCTGCTGGGAATTGCTTCGGTGGCTGGTGAATACCTTGGAGCAGACTGGTCA
CTTTGTAAGCTTAACGTAAGCTCCCCATCTGGGAAACCTTGCTTACCCCATTTCTGTCTACCTCTGACATAGGTGCAAATAAATCCTGTCTACTAGAGAT
CTTTAAGGATGGTGGGCTTACAGGATTTTTTGTAATTTCAAAATTAAAGCCCAGAAGAGTCATACATAAGAGAAATGTCAAAGCTTATAGTAAATGTCAA
AATCAAATATATATAATTTCAATAATTCAGTTTTGGATTAAGTGAGAGAATAAATTTCCTAAAATGGTTTCTCAAACTGATCCCAGGTTCTGAATTTTCC
AGTGGTAAGGATCCTTGGAATGTCATTGTTGCCTCTTAGAATGTTGTTAGAGCTCTTAACACGTGGTTACTGCACTCAAAGAGCTTAGGGCTCCAGAACA
TGCTTCCACAGAGTGATCGGTTGTTCTACGCTTGCAGGAGTCCACACCACCACTATGGCTTCTCTGCTCAAGGGGTGGGAGTAGGGATCCCATGCAGTTC
TGGGGTTCTGTTCTAGGGCCTTTGCCACTCCCCTTGAAATTGGGTTCAGGGACCACACTACTGTGGTTTCTGAGAGCCCCCTGACCTTCGAGCCTCTTCC
TCCTCTCCTGCTTTTCTTTTTGCCCTGTGCATTAGTGGGCCGTTTCTCATCATCTCCAGGTTCTCCAGACCAATGGCTCTGAGTCTGAGATGCAGATRTG
GGTCCGAGGATAGTGGTAGGTACATGACATGGCCTGGCAATTCTTGTGCCATAGGGTTTCCTAAATAACACTTCAGGCCTTAGGATCATTTAATTAAGTA
ATGGGAAACCCAGAAGAAATCCTAGTTCTCTTAGCTCAGCCTAGTTCAGGGCTAATAGCTACACTTCTGCTGGAACTCATGCCTGGAGACACATCCTTTT
ACTAATCCTGAACTTGAGGCCTGGCAGGTTGAGAAAGAACTGGGCAAGATACGGGGGGAGAGACCACTCCCTTGTTAAGATCCTCCTTCCCATTTGTTGG
TGTGGCCTATGGGAATTTTAAAATTCATTCAGCACATTTACTGAATACATATTAAATGTTAGGCAGCATTCCGGGCACTGGGGATACACTGGAACTTTCA
CTCTGCTGGAGCAAGAGAGACAACAAGCAAGTGTTTAAAATTATTATTATTGTGATCCATCATATAAATGAATTTTATAAGACCTGGGTTCATAACTGCT
GTGGGAGAGGCAGGAGGAAAGATGTGACAGGATTAAAGGAGGGATTAGAGTCAAGAAGAGAAGTCAGTTTTTAAAGTGGGCCAGGGCGGGGGCGGGGGCA
TAATTCATGGYAAGAGAAGAATGGAAGCTTGAGGACCCAGATAAGAGTGCAGTGATGATGAGGCTTCTTGGTATTTCTGCACTACAAGATGTATTTGGCA
AAGTGTCTTGTCCATTATCTCATTGAGGTGGTCCAGGGCAAGGATTTTCATTCCCATTTTATAGATAGGGAAGCATGCTCAGGGAGGCTTTAGTAACTTG
CTTAAGGTCCAGAAACTAAGAAGTAATGGAGTTGGGATTTTTTTTTTTATTCTGTGCCTACTGAGCCCTAACCTAGTGCTGTTCCTCTTTTCCTATACCC
CTGTCAAGGCTTGGTGGTAAAAATGTGTAATTCTTAAGGGAGCCAGACATCAGATTTGCCTGACAGTAGTGAMAGACAGTGAAATTTGCCTGACTAGGAA
AGAGATAGGTAAATCAGGAGTCAAGTCCCCCAAGTTTTTCTGTCTCTTCCCAATACAATTTCCTTGTCCATGGCCCCTTTAGGACCTGAGGTTTGCATTC
ACTGTCTAAGAAGAGGATAAGTCCCTCTTCTTTGCCTCCTCATTGGTTAATGGTGGGGAGAGTGGCACGCTGGGGCTGGTAATGTTTCAGTGAGGCTGGG
AAAGATGCAATCTCCTCAAAAGTGGCTCAGCACTCTGCCACTTAGCAGTGCAGCATCTTTTAAGCTACTCAGGGGCCCTATCTTTGTGTACACTATGGTG
CCTGGGACTGTGTAGTAAATGGATGCTCGGTAAAGTTTTATTGAAAAACAGGTACAATTTTTTTAGTTAACAGCTTTATTGAGATATACAATACCATAAA
ATCTACTGCTTTAGAGTGTACAGTTCAGTGATTTTTAGTATATTCACAGAGTTGTGCAACCATCATCACTGTCTAATTTTAGGACATTTTAATCACCCCC
AAAGAAACCTTGGCCCATTAGCAGTCACTCCCCATTGCCCCCTTCCCCTAACCCCTGAAAACCACTAATCTACTTTTTTCTCTATGGTTTTGCCTATTCT
GGACATTTCATGTAGATGTAATAACACAATATGTGGTTTGTTGTGTCTGGCTTCCTTCACTTAGCATGATATTTTAAAGATTTAACCATGTTTTAGTGTG
TATAAGTACTTCATTCTTTTTATGGTTGAATAATATTCCACTGTATGGATAGACTACTTTTTGTTTATCCATTTATCAGTTCATGGACATTTAGGTTTTT
TCCACTTTTTGGCTATTGTGGATAATACTGCTATTAACATTTGTGTGCAGGTTTTTGTGTGGACATATGTGTTCATTTCTCTTGGGTGTATACCTAGGAG
GGGAATTGCTGATCATATGGGAACTCTGGGGAACTGCCAAACTGCCTTCCAAAGTGGTTGCACAGCCGGGCACAGTGGCTCACGCCTGTAATCCCAGTGC
TTTGGGAGGCCGAGGCAGGTGCATCACCTGAGGTCAGGAGTTCAAGACCAGCCTAACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAG
CTGGGCATGGTGGTAGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGAGGCAGGAGAATTGCTTGAACTCAGGAGCTGGAGGTTGTAGTGAGCTGAGA
TTGCGCCATTGTACTCTAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAACAACAACAACAACAACAACAACAACAAAAACCACCAAAGTGGTTGCAC
CATTTTACATTTCCACCAGCAATCTGTGAGGGCCCAGTTTTTTCATATCTTTCTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTTCAGTTGCCTA
GGCTGGAGTGCAATGGCACAATCTTGACTTACTGCTGCCTTGACCTCCCCAGCTCAGGTGACCATCCCACCTTAGCCTCCTGAGTAGCCAGGACTACAGG
TGCATGCCACCACGCCTGGCTAGTTTTTTGTATTTTTGGTAGAGATGGGGTTTTACCATTTTACCCAGCTGGTCTCGAACTCCTGGACTCAAGCACTCCA
CCCACTGCAGCCTGCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCAGCCAGTTTCTCCATATCTTTACCAACACTTTCTTTTTGATTATAGCT
AGGATTGTGGGTGTGAAGTGGTATCTCACGGTGGTTTGATTTGCATTTCCTTAATGCTTAAAGATGCCAAGCATCTTTTTATGTTGATTATTTGCATATT
TTCTTTGGAGAAATGTTTACTCAAATCCTTTGCCCATTTAAAAATTGGGGTTATTTGTGCTTTTATTGTTGAGGAATGAATAGAATTTTAAGCTAAGTCA
TTTAACCTCTCTTGGCCTCAGTTTTATCAATTGTAAAGTGGGAAAGTTGGATTTGATCTCTGAGATCGATTCAAATATAGTATTATTTGATCTTTGGTAA
TTTGGTCACTCTTTTAGGGCTCTACTCGCCATCATGTTGCAGTCCAGTCTGGTAATTAGGGGTATGACTTTTATGTTGAATCAACCTAGGTTTCCTGTTA
CTTAACCTTTCTACGCCTGTTTTTCCCTTTGGAACATGAGAAAAAAAGTATTTCTTTCATGAGGTTCCTCTGAAGATTAAATAAAAATAATGCATGTGAA
GTGCTTAGCAAAATACCTGATGTAGTTAAGAATTCAATAAATGTCAGCTATTATTATTATATCATTACTTCATGTCTTATAGTCTCCAATTAACAAGCCA
GCTCCCCATCCCCTGGATGTGACTTGCTTGTCCTGATCTTGGAGCCTTTGCACAGATCAGTATTGTTCAGTTTATCCATTGCTCCCAAACAGGGGCTTAA
CGTAATTCTAATCATTTATTTTGCTCAGAATTCTGGCGGTTGATTGGGCTGAGCCAAGCAGTTGTTTTCACATGAGGTCTCTCATGCAGCTGTAGTCATA
TAGGGATAGGGCTGGGCTTCCAGAGACTTCTTCACTCTGGCACCTTTGTTGGAAGGGCTCAAACAGCTGGGGCTTGAAACAGCTAGAGCTCTTCAGGGAT
CTCTCTTTCTCTTTCCCACCACCCTTTCTCTGGAATCTCTAGATTATCTTTCTACATGGCGACCTCAGAGTAGCTGACTTCTTAAAAGGAAGATGAAGGC
TCTCAGAGCAAGCATCGCAAGACATTTGCAGAGGTGATGTCTTGATGAGCTAGCCTTGGGGGTCTGTTAGTTGAGGCAGTCACAAAGGCCAACCCAGGAT
CAGGGGAGAAGACATAGACTCTACCTCCTGATGGGCAGTGGCAAGGCTGTGAAAGAGCATCAGGGATGGGAACTACTGTTGCAGTTACTTTTGGAAAATT
CATTTGCCACAATTATTTAACTCCTTTATTGTTAATTTTTGTCCCTCCTCTCCTTCAAATACCAGTTCAAAACTAACTTACTAGTGAGGTCTTACCTTAT
TAACTCTCCTTGATGTGGGTTTCTTCTTTCTCCTATAGCTCTCACCATGTAGGTCCCTTTTGATTTTTATATGACATCCAATTATCTTTTCTTGTGCCTC
TGTATCTGTCAATACTCCCACAGTACCCACAACCAGACAGCACTCTTTTTTTTGTGTGTGAGACAGGGTCTCACTCTGTCACCCAGACTGGAGTGCAGTG
GCGTGATCTTGATCTTGGCTCACTGCAGCCTGGATTTCCTGGGTTCAAGTTATCCTCCCACATCCTGAGTAGCTGGGACTACAGGCATGTGCCACCGCAC
TCGGCTAATTTTTGTATGTTTTGTAGAGACAGGGTTTTGCCAAGTTGCCCAGGCTGGTCTCAAGTGATCCTAGGCTCAAGCGATCCTCCTGCCTTGGCCT
CCTAAAGTGCTGGGATTACAGGTGTGAGCCACTGCAGCCAGCCTAGACAGTACTCTTTAAGTAATGTTGACCAGCTACCTGAAAGAGTTTACTAAAAATC
TCCAATTAGGGTTTTTCCAATAACTTTAATCAGCTAGTGATCAAATGTTGACTGGTTCTCTCGGCATTAAAAATTCTCACACTTTTTCAGACTGACCCCC
AACTCTGGTCCATGCTGCACTTTAGGGAAGGCCAAGTTCTCCACCCGTTTGTTTTCTCACATGTTATCACATCTAGGCATAAAGATTGATAGACACTGAT
AGACAGTGGGTCAGGATAGATCCATAATAACAGTTAGCATTTGTTCAGCACTTTACTGATTTTGGAAAGTGCTTTAACAACAGGGATTCTGAAACATAGC
TGTTACAGTTATTATTCTCCTTAATAGTGAGAAAGCTGAGGCTCACGGGAGTTGGTACTTGAAATCACATAGCATTGAACCTATGCTCTGACCCTAAATC
CTGGACTTCCTCCCCTTGCTTGAGGAAGGCCTCTGGCTTGGCCCCACTGGATCTCGGAAATTGCCTTCTACCTTCTAGTCTTTGTTGAGGGTACTGAACT
TTGATGAAATCTCTTCTACAGTTCTAGCCCTACCTTCTCTATTATAATCATCTGGGTGATCTGGGACTCAGAGCTTTGTTTTCCTCACATGGTCTTGCCT
CTGCTTCTTTGATTATTTACCCTGGAGATTGTGTTGCTTGGGCGCCCTATGAGCTTGGTTACTTTGAAAAAATGCACTCCCATTAGGGGAAATTGTGTGT
GTGTTCTAGGAGGATGGTCTGAGAAATAGTGCTTAATAAAATAGGAAGCACAGAATGGGCAAAAGGACAGGAAGGTAGCTACAGAAGGTAGAGAAAAGAA
TCTCCCAAAGTGGTAACTTTGAAGTTCTCTTTTCTTCAGTTGAGGAGAGAACAGGCAGATGCAAAACTGATGCTGTCTCTGCCTCTGACTCTGCTGGTAT
CTGCCGCTGACTGCAGAATGATACTTACGTCATCAGGGACTCTTCACTGAGAATTGGCTTCATTTTATTTTCTGTCTTGATGATCAAATATTTGGTGAAT
GTAGTTAGGGTGCTGTTGCAAGAACCAGGACATAAACCAGGCAAAGGATAAGAATCCACTTAATACAATAATCCTTGCAGTACCAAGCATTATACAGTGT
TTTTATTCTTCAAAGCAGTTTCCATCTATTGTTATACCTACCCTCATCACAGACTTGTAAGGAAGAACCTGGGCATGAAGAAGGAGCCATCTCCCTCCAA
GTGACTTAGTTTCCCTTTTCTCCTCTCCTTCCTTCTGCCTGGGTTCCCATAGGACACACTTTTTTGACAGATCTTTCCAGCTTTTGAAATTGCCCCCTTC
TGATATAACTTAGCTCCTTGATCTATCCTCCCTTGAATAGAGTGCCTTCCCTCCCTGGTAGTAATTAACAGGGGAGCCCGCTCATCTGTGTGGCTGCCCA
GACTGTCATCATCAATCTCACGGAGAGCCCTTTATATGAAAGCTACAAGATTAGAAAATAAATTGGCTAGGGCAGAAAGATTACCAACTCAGGCTAGGAA
CCCGCATGTTCAGGAAGATGTGGTGGGGAGGGGTGCTGAGGAGGGAAGAATGAGGTAACTAGCTGGCAGCACAGATCCTCCTGGAATCCAAGGTCCTTTT
TCCCTCTCTACCAGATTTATGCCCTGTCTCATTTCAGCTACCATTGTCTCAGTCAGCATCTACACCTACTTTGTATTGTGYGCTTATTTATCTTCGACAT
GCATCGGGGAAGATAATGGAGACAAGTAGTACTTGCCTTTAGGGAACCTCAGGCCTGTTGGAAAGGCACCTGCAAAAGACCTAAGAACCTGGAAGCAGCA
GAGTACATCACTTGAAAGGAAGAGTAAAGGCACCACAGCCCACAGCAGGAGTGCTTACTGTCTGTACCATCAGTTTGGTAGAGATAACAAATCTCCCCTT
CTCTCTGATTTTACTTGCAAGTCTTATTTGGCAATTAATTGACTTCAGCAAGAGATGTTCATTGATCCTAAGTTGATGTGCCTGCACTGTGCTAGACAGA
GGTTGTGGGGATTTAATTTATAAGAATATACTTAACATGAGGTATGTGTTCAAAAAATAGGAAAGTAATAGTCATTCCAGGTGCCAGAGGAGTGACATAT
CTAACACACATTTTAAAAGGTTTTCCCTGGTATTGTGAATACACAAGGGGTTCAAGAGAAAACATGAGAGAACTATTAAGCTATTACAGTAGTCTAGTCA
AGAGATGATGGGCATAATTATGGAGTTAAAAATCTGTTGTTTTGACTATGGCATAGATACAAACTTCTTTAACTGTGGAAAAAGATAGGTTTCTGTTTTT
TTTTTTTGCCTTTCACCCATTCATTTTATCTTTAATACGGCTTTTGGTCAGAGATGAAAAGGAGATTATTATAAATGGACCCTCAAGTCAAGAGATAAAT
ACATTAAAAGATATTTACATAGCATAGCAGGCTGGGCACCACCTATACCTGCAGACAAGTTTTTTGAGGTTAGCGAGTTGGCTGATTTAATTGCTACTTC
ATCTAACCTTCATGACTTCACAATCCATAGCCATTTATTTTGTATCATAATAATCCCTTGTGTATGTGCAGCACTTGGAGTTTTATAGTTTGAGAATTTT
CATGTATATTCTTCTTTTATAACAGCTTTTTGAGATATAATTCATATGCCATGAGATTCACCTAAGGTCGTGCACCCATTATCACTGTCTATAATTCCAG
AAATTTTCATCACCCCAAAAATAAACCTCAAGCCCATTAGCAGTCACTTCTCATTCCCGCTCCCTACAGTCCCACCAGGCAACCACTAGTCTACCTTATC
TCTATGGATTTGCCTATTTGGGACATTTCATATAAACGGAATTATACAAAATGTGGTCATTTGTATCTGGCTTCTTTCACTTAGCACGATACTTTAAAGG
TTCATTGTGGTGTAGCATGTATCAATACTTCATTTTTTTTATGCCAATTAATATCCTGTTATGTGGATATACCGCCTTCTATTTATCTGTTCATCAGTTG
ATGGACACTTGTTTCTACTTTTTGGCTATTATGAATAATGCTGCTATGAACATTTGTGTATAAGTTTTATGTGGGCATATGTTTTTATTTCTCTTGGTTG
TATATGTAGGAGGGGAGTTGCTGGATCATATGTTAGCTCTGTGTTTAGCATGTTAAGGAACTACCAAACTTTTCCAAAGTGGTTGTACCATTTTACATTC
CCACCAGCAATCTGTGAGGGTTCTAGTTTCTCCACATCCTCTCCAGCAGTTGTTATTATCTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCC
CAGGCTGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCTCCCCCTCCCTGTTTCAAATGATTCTTCAGCCTCAGCTTCCCAAGTAGCTGGTATTACA
GGCGCATGCCACTGCGTCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGATCTCAAACTCCTGACCTCAGCTGATC
TGCCCGCCTTGGCCTCCCAAAGTGTTGAGATTACAGGCGTGAGCCACCGTGCCTGGCCTATTATCTGTCATTTTATTATAGCTGGACAGTGGGCATAAAG
TAGTATCTCATGGTTTTGATTTGCATTTCCTTAATGACTAATGATGTTGAGCATCTTTTTATGTGCTTATTGGTCATTTGTATATCTTGGTTAGAGAAAT
ATCTGTTCACGTCCTTTGCCCATTTTTTATTTAAGTTATTCGTCCCTTTATTGTTGAGTTTTAAGAGTTCTTTATAGATTCTGTATACTAGACCCTTGTC
AGAGACATATGATTGGCAAATAATTTCTCCCATCTCATGGATTGTCTTTCCACTTTTATTGATAGTGTCTTTTGACACACAAGACGTTTTAATTTTAATT
ATGTCTAATTTCTTTTGTTGCTATGCTTTTGGTGTCATGTCTGATAAACCATTGCCTACCTCAAAAGTCACGAAGATTTACTCTCATGTTTCTTCTAAGA
GTTTCATAGTTTAACTCATATAGTCTATGGTCCATTTTGAGTTAATTTTTRTGTATGGTATGAGGTAGGGGTCCAACTTCRTACTTTTGCTTATGGATTT
CTGATTGTCCCAGCCCCATTTGTTGAAAAAACTATTCTTTCTCCATTTAATTGTCTTGGCACCTTTGTTAAAAATCAGTGGACCCATAAATGTGATGGCC
TATTTCTGGTTTCTCAGTTCCATTCCATTGATCTCTGTCATTATGCCAGTACTACACTGAAGCTTGGTAATAGGTTTTGAAATCAGAAAGTGTGAGTTCT
CCAACTTTGAGTTTTTTTCAAGACTATTATGGCCGTTCTGGGTCACTTATATTTCCATATGAATTTTAGGATCAGCTTGTCAATTTCTATTAAAAAATCA
ACAGAGATTTTGATAGGGATTGCATCAAATCTGTAGATAACTTTGTGGAGTAGTATCATCTTAACAATTTTAAACCTTCCAACCCATAAACATGGATGTC
TTTCTATTTATTTAGGTCTTTACTTTTTTAAATGATGGTTTTTAGTTTTCAGTGTACAAGTCTTGCACTTCTTTTCTCAAATTTATTCCTAGGTATTGTA
TTCTCTTTAATGCTATTGTGAATGGAATTGTTATTTTTAATTTCATTCAGATTTTTTATTGCTAATGTATAGAAATACAATTGAATTCTGTATCTTGATC
TTGCATCCTGCAACCTTGCTGACTTTGTTTTTATTGTAATAGGTTTTGTTGTGGATTCCCTATATTTTCTCTATGCAAGATCATTCCATGTATAGAGATA
AGTTTTTCTTCTTCCTTTCCCACGTGGATGGCTATTTCTTTTTCTTGTCTAATTTCCCTAGCTAGACTCAGCACATTGTTGCACAGAAGTAGTGAAAGTG
GCCATCCTCAGTTTATTCCTGATCTTAGGGAGAAAGCATTCAGTTTTTCACCATTAAGTATGATAGCTTTGGCTTTTTTATAGATGATGTTCATCAGGTA
GAGGATTTCTATTTCTAGTTTGCTGAATTTTTTTATTGTAAAAGGGTGTTGGATTTTGTCAGACGCTCTTTTTACATCTATTGAGATGATCATGGTTTTG
TTCTTCAATCTCTTAATATAGTATGTTACACAAATTGAGATTCATRTGTTAAACCAACCTTGCATTCCTGGGATAAATCCCACTTGGTCATGGTAAAGAA
TCCTTTATCCATATTGCTGGATTCAATTTGCTGATATTTTGATGAGGATTTTTGCAAATAGARTCTTATTGGATCCTTGAAACAACCCTATGTGATTAGG
GTCCAYATGAAGAAACTGAGGCATAAGTTGTTTGCCTGTGACCACATAGTGTCAAACTGGAACAGGAATGCAAGACTTTTGAATTTAGTCTAACTTTTTT
TCCACTGCTTTATTTGGCCTCTCGTTTAGCATCTATAACCCACAGTTGATTCCATTTATTTAAACGATTTCCTTTTATGAAACACCATCATTACTGTCTT
GGACTGAAAACTTCCAGAGGGTGGTCTTGTTAATGCTCTCATTACATGACCACCTAATCAGGACTTAATATTGGATCCATTTGAGGTGATAATGAAATTT
ACATCCTTGATGGTTATTATTTTGATTTTAAATATATCCTTGTCATTGTCTCTTTTTTGATTCAGGAGCATTACAGGGCAAGGACATGCCTGTGATTCTG
CTTTCTTTTTTGGTGTTCAGCATTTGCCATCCTCAAATACTTGACACATACTTGATAAAGGCTTTAGGATTGGAAGGATGCATGTCTATAGTGCCCACCT
GAAAGCATCTAAGGACAGGTTCTGTTGGCCAAGGATCCACTTGGCCTGAAATCTCTGTGTTCTTCTCTTCAGCCTGTACTGTGTACCCCATCACATCACT
CTCTTTCCCATCTTCCTACAGAGCAACTGGCATGTCAGAGACTGTAATTGCTGAGAATTTACTGACAGAATCTCAACATTAAATCTTTTGCTTTCTCCAC
CTTTTCTGATGTGTGCACAGGCTATTACACATTTCACATTTAGATATCCAGAAAAGCTCTTTGGGGCAGCTTGGAAGAGTGGGTGGGGAGCACATGGACA
GACATTTACCTGGAAGTATATAACATTTTGCTGGCTTTTGAATTCAAATGAATGCTTTTAAATTCTCAATGCCTACATTTAATGCAGTTGCTTTATCGAT
ATCAGCATTGTAATTTATCCTTGCTGTGAACTCCTTAGCTCTTGCTCTAGTATAAAATAGGAAAAAAATGACCATTCATTTTAATGTTAGTCAAAGCCCA
ACATCCCTAAGAATATATCTGCTGCAAAACAAAACCCCGTATTATATTACAAAGGCAAATGAAAGTGTGCTTTGTAAAAATTATCTGTCTTTGCTGATTA
TTTGTGTTGCTTCTCCATTAATATGTGTGTTTGGAACTTGCCTATGCATTAATTGATTAAATAATCATATGTATGTACAAACAGATAAAATGCAAGACTG
TATGTACATATTGTGATTTTCTTCCATTTTAAATTCAAAGACCATAGCCTCATTTTAGGATCTAGCAGCACTATGACCTGGACAATAAACAGAATGTTTT
GGGACAGCCTTATATTACCACTAAAAAGAGCGAGTACCTGCATCTCTATAATTGAGTAAGGGAATGTTTAGTTTCTAATATGGACCCAGAATAATTTTTT
TTCTTAATGCTGTTTTTTCTTTTAATCACTTTATTAAGGTATATTTGATGTACAATAAATGTGCACACTTACAGTATATAATTTGATGTGTTTTGACATA
CATGTACATCTGTGACACTATCCCCACAATCAAGATAAAAAACATACCCATCACCTCCAAAAGTTTCCTCATGTTCCTTTGTAATCCGTCTCTCTCTTCT
TCTTTTTTTTTTTTTTCTGAGACAGAGTCTCGCACTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAAGCTCCGTCTCCCAGGTTCA
CGCTATTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACACCTGGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCA
TGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCATCTCTCTTCTTTTCTCCCCTCTCCCTTCCCTAGGC
AACTACTTGCCTCCTTTCTCTCACAGTAGATCAGTTCACATTTTCTATAATTCTATGTAAATGTAATCATACACTATATGCTCATTTCTTGTCTTTTTTC
AACCAACACAATTATTTTGCAGTGGATCTATATTGGTGTGTCTATCAATAGTGTGTTCCTTTTCATTGCTGAGTAGTATTCCATTTTATGAGTAATTTGT
GTATCTGTTCACCTGTTCATGGACATCTGGGCTGCTACAAATAAAGCTGCTGTGAACATTCATGTACAGGTCTTTGTGCAGACATGTTTACATTTTTCTT
CTCTAAATCCTAGAAGAATGGCTGGGTCATATGATAAATGTGTGTTTAATGTCATAAGAAATTTCCAAATTGTTTCTCAAAGTGGTTTTATAATTTCACA
TTCCCACTGGCAGTGTATCCTATTCCCAGTTGTTCTATATCCTGGTCAACACTTGGTAAGTTCAGTCTTTTTAATTTTAACCATGTTAGTACATACATAG
TAACATCTTATTGTGGTTCTAATTTGCATTTCCCTGATGACTAATAATAATTTTATGTGTCATTTTGTCATGTATATGCCTTTTTTTGTTGAAGTATTTG
TTTGGGTCTTTTATCCATTTTCAGTGTCTTTTAAAACTTGTTTAAATTTGCATACAGTAAAATGCTTTGTCTTTTGAGGAACAAAAGTTCTTAATTTTGA
TGAAATCCAATATATAAGGTTTTTCTTTTATAGTTTGTACTCTTTGTATTTAATGAATAAATCTTTGCCAATTTCATAGCCACTAAGATTTTCCTCCTCT
GTTTTCTTCTAGACATTTTATGGTTTTAGCTCTTACATTTARATCTGTGATTTATTCTTCGTTACTTTTTGTGTAGTGTGTGAGAGAAGAGTTGAGGTTA
ATTTATTACTRTTTTTTGCATATGAGGTCCAGTTGTTCTGGCACCATTACTTGAAAATCATATTCTTTCCTCATTGAATTGTGTTGGCATCTTTGCTGAA
AATCCATTGATCGTATATGTGTGGTCCAGACTCTACTGTGTTCCACTGATCTATATCAAAAACACACTGATTTGATTATTGTAGCTTTACAATATGTTTT
AAAATCAGTTAATCAAGTCTTCCAATGTTGTTCTTCTGTTTCCAGAATTGTTTTAGTATTCTAGGTCTTTTTCATTTCTTTTTTTTTTTTTTCTTTTTGA
GACAGAGTCTTGCTCTGTCAGCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCC
TCCCAAGTAACTGGGACTACAGGCGCCCGACACCATGCCCAGCTAATTTTTTTTGTATTTTTAGTAGAGACGAGGTTTCACCATGTTAGCCAGGATGGTC
TCAATCTCCTGACCGCATGATCCGCCCACCTTGACCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCTGGTCTTTTTCATTTCTATAT
AGATTTTGGAATCAATTTGTCAGTTTCTGTAAAAGTGCCTTCTGAGATTATGATTGGGATTGTGCAGAAACCATAGATCAGTTCAGAGAGAATTGGCATT
TTAACAACATTCAGTTTGTCAGTCTATAAATACCATGTATTTCTTCTTTTATTTAGGTCATTAAGTTCTCTCAGCAATGTTTTGTAGTTTTTAGTGTCAA
GTCTTATACATTTCTTATCAAATTTATCCCTATTTCATATTTTTGAGGCTATTTTAACTGGTAGTATTTAATTATCAATTTTCATTTATTTTTGTTGGTA
TGTATAAACATACTTGATTTTTATATATAGATTTCATATCCTGAAACCTTGCTAAATTTACCTATTCTCTCATAGCTTTTTTGTTAATTCTCTAGGATTT
TAGAATCAGCTTGCTTGATTCTAAGTCATGTTGTCTGGAAATATGACAGTTTTACCTCTTCATTCCAATCTGTATGTTTTATGAGTTTTGGAGAATATCA
GGATTTTAGAACTTCTTGGTAGACCTTTGGAGCAGATGTTAGATTCTCTCTTACCAGAAATTCTTTAAAAATCAAAACAAAAGAAATTATTAAATCCTCT
TCTCCGTTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGCTGGAGCACAGTGGCGCGGTCTTGGCTCACTGCAACC
TCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTGAGCCTCCCAAGTAGCTGGGATTACAGGTGCGTGCCACCACGTCCGGCTAATTTTTTGTATTTTTAG
TAGAGACAAGGTTTCACCATGTTAGCCAGGATGATCTCGATCTCCTGACCTCGTGATCCACCTGCCTCGACCTCCCAAAGGGCTGGGTTTGCAGGCATGA
GCCACTGCGCCCGGCCTTCTCCATTTCTTTATTAATTCAGTGAACATTTAGTACCCACTGTATCAGACACTAGTGATTCATGGAAGAGACGGACATACAA
ACAAATAATTATAATTTAACAAGTAAGTGTAATAAGTGCCATGGTAGTTATGATACAGAGTGTGCTGGGAATTTAGAGGCAGGACCATTCAGAATCTGGG
CAGTGAGATGATCTCTGCAGACCCTGCTGTTCTGGAAGGGTATGACTGCCTGAGGAATACTTGGAGGTCATTGATAAGAAAGTATTTAAACTGAGCTATC
TGGGGAAGTTCCACCTCTTCGCCATCCTGATTGTCCATATTTGCTTTATTATTATGGGGAGYCTGAAAGGAATACATCTTTATCAATAGTTCTTCTCCTT
CCTATTTTCTTTTTTAAATCTTAATGGTATGGCAGCAGCCTTAGCTTCTAGCCTTAAATCTCACTAGTCTGGATGTCGTGGGGTGTGCCTGTAGTCCCAG
CTACTTGGGGGCTGAGGTGGGAGGATCGCTTGAGCCCAGGAGGTGGAGACTGCAGTGAGCTGAGATTGTGCTACTGCACTCCAGCCTGGATGACAAAGCA
AGATTCTCTCTCAAAATAAATAAATAAATAAATAAATAATAAAAACTCTATTATGGAAAATTTCAAACAAGAGTAGGATGAGATAAGGAACAACAGTTAT
CAACTCATGCCAATTTCATTTTGTCTACACTCCTACATACCCTTCATCAGATTATGAAGCAAATCACAGACATTTTATCTGTAAATTTTTCAGTATGTAT
CTCTAAAAGATGAAAACGCTTAAAAATACAGTCACAATACTGTTACCACACACACAAAATGAACAGACGCCAAACAACCTAACAACAGAGAAAAATAATT
TTAAAAACAGGAATATTAGGCTGGGCACCGTGGCTCACGCCTGTAATCCCAGCACTTCAGGAGGCCGAGGCAGGTGGATCACTTGAGGCCAAGAGTTTGA
GACCAGCCTAGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCAGGTGTCTATAATCCCAGCTACTCGGGAGGC
TGAGGCAGGAGAATCGCTTAAATCTGAGAGGCGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCAGACAGAGCAATAGTCTGTCTCAAAAAAAATAAAA
AGATAAAATAAATAAAAACAGTAATATTAGAAGTAGCTCCCTTTTGTTGCTCGCTGACCATGTGCCAGGCCTGTAATGGGTGCTATGGGTGCCTCATTCA
GTCCTCACAATAGACACCTGGGGGTTTAGGTCTTATTTGTGATTGGCTGGGTAGTCTGACTCCTGGCAAGCGTTTTTCCTACTGTTCTTTTGTTGTTTCA
TTACGGATTAAAATCTTAGAGATATCCACACACTCCTGGTTTATTTTTAAGACTGCAGTAGTCATCACATCACTCTTCCAATCCCCATATTGTGAAAAGG
TATCTCTCCCCCTCCTCAGTTGAGAATTCCCAGAGGGCAGGGACCATAATAGCAAAGTGACTGGCACCTGGTGGAAATTCAGTAAATGTTTTTGATTGGG
TGAATGAGTGTATCTGGCTCCCCCTGGGAGACATGCTCGTTGGGCCAGGTCGCCAAGAGTCCCATGGCTGACCTTCCATCCCAGTGCTTCCTCCTCCAGT
GGAAAGAGGCACTAATCCACACATGCCTGTGCTGCATGCAGTAAGGCCCTTCAGGATATTGTGACCATTAGCAGACACACACTGCGCATTACTGAGGACC
TAGAGTGTAATTATGGCAGTAGACCTTCAGGCTGCAAAGATGGATAAGACAATCCCTGCCTCAAGTAGCTCAAAGACCATTAAATAGATGACCACAGTGC
AAGATGAATGCAGTGATGGCGATGTGCCCTGTGAGTTAGGAGCAGGGTAAAGATAACCCAGCCAGGGGAGGAGAGTGGGGTTGCTTGTTTGTTTGATAAA
TACTCATATAGTACTTATGTACCAGGCACTGTTCTAAGAACTTTGCACATAATAATTCCTTTAATCCTCATAACAGCCTGTGAGCGTCCCCATTTCATAG
CTGCGTATAATGAGACAGAGCATTAAGCACCTTACCCAAATCACACAGCTGGTAAGTAGTAGAACTAGGATTCAGATCTAGGCAGTGTGGCCCTAGGTTC
TGTCCTCTTAACCACTATATCAAGCAGTCTCTGAAATTCCTGAAGTAGAGGGGAAAATGAGAAGCATAGACAATTTGTATCAAATTGWCCAGGATGTATT
GTTTAACTGGCTATGTGGTCAGAGAAAAGGAAGAGTCAAGATTGATTGCCAGAATTCCTACCTGGGGCTTGAGAGAATAYGAGAGGAGGACAGAGGTGTG
GTGCATGGAGATGAGTTTGTCAGTGTGTTGAGTTTGAGCATCTGTTGGCTGTGTTGTCCCCTAGAGAGTTCCATATGGAGCCTGAAATCTAAAAGAGACT
GAAGGCTGAAGACAAGAATGAGAGTCCGCATTGTTACAAAAGTTGGTTAAAAGGAGAGTACGCACTGTCTCCTAAGAAGGAAGGGTAGGATAAAGTAGCA
AGTCTGAAAGCAAGAGGAATCAACATTGTTGCATGCAGAGAGAGGTCCAGTGAGATGAGATCTGGAAAAGAAAATGCTCTGAACTTCTCAGTTGAGGGGC
TGTTGGTAATCTTACTGAAAACAATCTCATCAGAGTTCTAGAGGCAGAAGCCAGATTGCAGTGGATTGAGGGGTAAGTGGGAGGTGAGAAACTGGAGACA
GTCGATGTAGACGACTCTTCCCAGGAGTCTGGATGAGAAGTGGAGAAAAGAGATTGGTTGATTGGTAATAGCTAGAGGGGATTGTTGGGTCAAGGAAATA
TTTTTTCCTTTAAGAGAGAATTGGATCACTTTAGCCCAGGAGTTTGAGGCTGCGGTAAGCTACAGTGGCACCACTACACTCCAGCCTGGACAACAGAGCA
AGACCCTGTCTCAAAAAGAGGAGAAAAAAAAAGAGAGAGAGAGAATTGAATAAATTTCTGGGCTGAGGAGAAAGAGCCAATACAATTAGATCTTGAAGAT
TTAGGAGRGGCATGAGTGAGATTTGAGCTTGAACTAGAGGGAAAAGGCTAAGATGAGTGTGAGGAGCTTGTAGGTAGAGGTAGGAAATTGMAGAAGAACA
GTGCTTAAAGGCTCCAGTTATTTTTATGTGGTAAGAGGCAATACAATCTAATGATAGGGAGAGGGTGGGCTTTAAATATGGAGGCTGAGGAGAGCTGTAA
AGTTTTAGCGTTGTGGTGGAAAAGGTCATGGAAACACTAATAAAACCGTGATTGGAGGCACCAAAGGCCTCAGCAAGGCTGGAGACCTTGAATCTGCATG
TTAGATCACACAGCAGTGTGATTTTTCCCTAGCKGAGTGCAGCTAACAAAGTAGAAGTAAAGCCCGAAAATGGGAGCTTTTCTCCAGAGCTAGTTTGTTG
GACAAATTTGATGGGAGGACTGGGRATACAAAGGAATCAGGACTGCTGCCGTAGGTGATCAGCTATGGAATTCAGGCGAAAAGGAAGAGAAGCTGAGAGG
ACGTTGATACCTGGGAGGAAAATACCAGGGTCTGGTGATGTCACCAAGAAGAGCAAATGTGGTGAGACCAAATGTATGAGAGGAAACTGGAGCCTGTGTT
TTTGAAGGTGGAAGTATTGTGAGCAATGTCAAGATTCAAAATGTAGTTCTGGGTGTGAGTAGTGGAGGTGGGGATGGGAGTGAAAGTCATGAAAATTAAG
GGAAGAAAAGGAACTCAAAGTGGGTTGAAGGAGAGACACCCATAAATGGAGATTTGCTATACAGAATGAAAGGTGTTGTAATAGAGGGAGGGAGAATACC
AAGTAAAGTAGGGGCCAAAAGGAAGGTGTGAGCAGCCATGCTGGGGGAGAGGTAGGGAAATGCTTCACCAAGAAGCATTAATGTTTGAGGAATTCATAGG
GGCTTGAGGAATAAGCAGGAGTTTTTGCCAGGCATCCAAGGAGTAGGCATGGTGAGACATGGCTGTGCTACATACAGCAGCACAGGGAAAACCTAAACTG
CCTTTGAAAGAAACCCACCCACCGGAGAAGGTTCTTGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATAGTGGGGAGTTATGAGCAGT
TGGGGACAGACCCAAGTACATGATGGAAGGGAAATGGAATTCAGCCCTGCAAGTAAACCAGATTTCTATACAATAGAGCAATAGTGGCTAGAGGTCTGGC
AGAGGTAGTCAGTTGTAGGCATCCAGGACTAGATAGCAGAGCAAAAGATGAGGAGTCCACCTGAATATTAGCCTGTCAACTTCATATACCTCCTCTTCCA
CATCACTGCCCTGTCAACGCCCCCTAAAAAGTACCCTTATCTAAAGACCTGCAACGACTTTGCACCAGACAAGGAAGGGAAATCTGGCTTGTGCCCTATT
TTAGTTTTCTCCCTGAGACCTAGCTATAATGTTTCTTCATGTACATTAGACAGTAAATTTTGTTGAATGAATGGCCAAGAAATGATGAGGATGGCGGTGA
TGATGATTGCAACTAAAACTTATATAGCATCTACTACACACCAAGCACTGTTCTAAATGTTTTTCAATACTCAACAGCAATGCTGTGAAGTAGGTACTCT
TTTTATCCAGAGTCAACACAGATGATTTAGCAAAAATACTGAACTAATACCTAGACAGAGAAACTACTTACTTTGGATATATGGGCAACAGTTACCCATT
CAGAGTAGACAGTAAGGAAAGTAGTGTCTTCTGAGAATCTCTTATGAGAGTACTAGGAAGGACGTTTTCTTCATATCTGTAAAACCAGAAAAGCATGGAA
GTGAAGGGCTGGTTCTTTGTTCATTTTGTTTGTGTTATCGTTTTTTTGAAATATATTGCACRTATCATAAAATTCATCCATTTAAATTATATGGTTAAGT
GATTTTTAGTATAGTCACAGTTGTGCCATTATCACATCCTAGTTTTAGAATTTTTCAGTATCCCAAATGGAAACCCTATGCTCTTCCCTTTCCTGCTCCC
CACTCCTTCATCCCTGCCCCAGTTAGCCATTAATCTACTCTCTGTCTCTATGAATTTGCCTATTCTGAATATTTCACATACATGGATTCATATAACATGA
AGTCTTTGTAACTGGCGTCTTTCACTTAGCATAATGCTTTCACGGTTCATCCATGTTGTAGCATGTATCAGGATTTCGTTCTTTTTTTAATTGCCAGTTA
ATATGTTATTGTGTGGATATGCCATCTTTTGTTTATCTGTTAATCAGTTGATGGACATTTGGGTAGTTTTCTACTTTTTGGCTTTTGTAAATACTGCTAC
TATGAACCTTCATGTACAAGTTTTTGTGTGAACACTTTTCACTTCTCTTGGGTATATACCTAGGAGTGGAATTGCTGGGTCATATAGCATATGTGTGTTT
AACATTTTGAAGAACTGTGAAACTATTTTCCAAAGTGGCTGCCCTATTTTACATTCCCACCAGCAATGTATTAAGCTTCTCATTTCTCCACATCCTCACC
AACACTTGTTATTTTCCATTACTTTTGTTCTAGTCATCCTAGTAGATGTAAAATGGTATCTCATTGTTGTTTTGATTTGCATTTCCTTAATAACTAATGA
TATTGAGCCTCTTCCATATGCATATAGGCCATTTGTATGTCTTCTTTGGAGAAGTATCTTTTCAGATCTTTGCCCATTTTTTAATTGTGTTGTCTTTTTA
TTGTTGATTTGTAAGAGTTCTTTATATATTCTGGTTACAAGTCCCTTATCAGATATGTGGTTTGCAAATATTTTCTCCCATCCTCTGGGCTGTCTTTTCA
CTTTCTTGATGGCATCCTTTGAAGCACAAAGGTTTTTTATTTTGATGAAGTCCAGTTTTTATATATTTTTTCTTTTTTTGCKTATGCTTTTGGTGTCATA
TCTAGAAAACCACTGCCTAACTCAAGGTCACAAAGATTTATTCCTATGTTTTCTTCTAAGAGTTTTACAGTTAGGTCARTGATCCATTTTGAGTTAATTC
TTGAGTTAATTCTTGTATATGATGTGAGGCAGGGGTCTAGCTTCATTATTTTGCATGTGGATATCCAGTTGTCTTAGCACCATTTATTGAAAAGTCTATT
ACCTCTCCACTGAATTGTCCTGGCACTGTTGTCAAAATGAATTGACCCTAAATGTGAGAGTTTATTTCTGGATGTTCTGTTTTATTGATCTATGTCTATC
CTTATGCCAGTCGCATACTGACTTGCTTACTGTAGCTTTCTGGTAGATCTTGAAATCAGGAATTATGAGTCCACCAACTTGATTCTTTCTCARGATTGTT
TTAGCTATTCATTTTCATATGAATTTTAGGGTCAACTTCTCAATTTCAAAAAAAATTGAGATTTTAATAGGGATTTCATTTAATCTGTGGATCAATTTGT
GGAATGTTGCCATCTTAACTATCTTAAATCTTCCACTCTGTAAACATGGATGTCTTTTCATTTAATTGTTTTCCGTGATATTTTATAGTTTTTAGTATAC
AGGTCTTGCACTTATTTTGTTAAATTTATTCCTAGATATTTTATTCTTTTTGCCGCTATTAATATGGGATTGTTTTCTTAATTTCATTTTTGTATTGTTC
ACTGCTAGTGTATAGAAATACAATTTTTCAGTCCAAGTATGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCTGAGATGGGAGGATCGCTTGAGG
CCAGGAGTTTGAGACTGGCCTGGGTAATGTAGCAAGACCCCATCTCTACAAAAAATTTAAAAATAAAAATTAGCCAGGCTAATTATCTACTTGGGAGGCT
GAGGTGGGAAGATCCCTTGAGCCCAGGAGTTTGAAGCTGTAGTGGGCTACGATCACACAACTGCACTACAGCCTGGGTGACAGAGCAAGACCCTGTCTCT
TAAAGAAAAAAAGAAATGCAATTTTTCATATGCTGATCTTATATCCTGCAGCTTAGTTCTAATTTTTTTTGTGTGGGCTCCTTAGGATTTTCTGTATGCA
AGATCACATCATCTGTGAAAAGAGAGAGTTTTACTTTTTCCTTTTCCATCTGGATACCTTTTATTTCTTTTTCTTGCCTAATTGCCCTGGCCAGAACTCC
CTAGTTCAACATTGAATGGAAGTGGCTAGAGCAGACATTCTTGTGTTTTTAAAATTTATTTTATTTTTTATAGAGATGGGATCTCGCTGTGTTGCCCAGG
CTGGTCTCAAACTCCTAGGCTCAAGCAGTCCTCCCTCCTTGGCCTCCCTAAGTTTTGAGGTTACAGGCATGAGCCATCACACCCAGCCCAGATATTCTTG
TCTTGTTGCTGACCTTAGGGGCAAGTCTTTCCCTGTTGAGTATGATGTTAGCTGTGGGGTTTTCATCTGTTTTTGAGGGAAGGGTGAGATTGAATTTGAT
AGGTGCTCCAGGCAGCAGGTTCATGTTGAGAAGAAAGCAAGAGAGGTTCAGATTGAGATTCAGCTGATGCATATTGAATCGAGTGTGTGAGGAGAATGAG
AGCCTTTTTACATTGGAATGAAGTGGCAAATAATAAGATTACAGGTCCTGGATATCTTAGTGTCTTTCAGCGTTTCCAGCCAGGTAGACTGGCTTTACCC
TCCATAGAAGTTTTCCAGCTAGCTTAGACTAGCTCATGAATCTGTGTTAGTAAGGAGTCCTGTGTTTAGATCAAATTATGGTTCAGAGTCAGGTTTAGAA
TCCAGGAGAAATAAAAGATAAGTATGCATCCCTTGTGGGTACCCTTTAAGAGCCTAGCTCAGTACCACCAACCTTAGGATAGCTCTCCTTGATGAGTTCC
ATTTTCTGATGACTATGTTTATTACTCAGTACATTCTGTGTACAGTTGGCACTTTGTGGATTTGGACTTAACTTCTCTTATTTGTACATTGCACAAACTT
AAGTCTGTTTTGCCTGTGTCTCCTAACTCCTCAAGATTGTATGTTTCCTAAGGACAAGAACCATGCCTGCACCTTAATATATGCCTCAAATGTCAAAGCA
TTTCTCTGTACCAGTAAATAGTTGTTAACTGTTGATAAGGGTAAATATGGTCATAAATACAAAGATCTCTGAGTCATTTGGGAAGCATATTAAGTATAAG
TCCATTTTATACTGGATAAGCAGACTTTTCATAGAGGTGAAGATCCCCTAAAAGTCATGATTTTAAGATGTGACACAGAGACACTTGGGTTTTTAAAAAT
GTGCAGAGACATTCATACTAAACTGCCCCCTAGGATTTATTTAGTTTCATTCTTAATTATCTACAGGTGATATACTGGGCAGTCTGACTTTTTACTTCCC
ATGGACCTTATCAGCATCTCTGCTAACCCCTACTCCTGAGTGCAATCTTGTAGTTCAACAATAGCTAGGAGGAAAAGCCTTTGAAAACAAATCCATGCCT
TGCCTTTTGTTTCTTTCCCCACCTTGTGAAGGAATGAAGTAGGACTTAGGAGAACAGCTCCCTTTGGATCCCTCTCAAAGGTGATACCATTGGCTCCCAG
CTTAGAGTAAGAAGCTCTGAGAAGTTGAATGAAGGGTGAGATAGAGATGCTGAACCCATTCTTCCAGCTTCTTCTAGTGTTGTTATTTCCAGAATGGCCA
ACACCCCTACATTGATACATAAACACATTCCAAGGCCTTGTGTAATACAAAGTTCACCGTCCTCCTGGAATAGGAGCCCTGGGTTCTAGTTCTCACTCTG
CCACTGGGGGAAAATCCAATTAAAGTCTGGTTTAGTCAGCTTGGGTCACCATAGACTGGGTGGCTTAAACAGCAGACATTTATTTCTGGTAGTTTCTGGA
GGCTACAAATCTAAGAGCAAGGTGCCAGCATGGTCACATTCTGGTGAGGGCCCTCTTCCTGGCTTGTAGACGGCTGCCTTCTCACCGTGTGCTCACATAG
CCTTTCGTGTGTGTGTGTGTGTGTGTGTGTGCGTGCGTGCAAGCTTCCTGATGTCTCTTCTTAGAAGGACACCAACCCCATCATGAGAGCCCTACTCTCA
TGACTTAGCCTAACCCTAATTACCCTCCAAAGGCCCCATCTCCAAATGCCATCACATTGGAGGGTAGAGCTTCAACATAGGGATTTTGGGGGACACAAAC
ATTCAGTCCATAACAAAGGCTGTAGTCCTTAGTTTCCTTGTCTGTGAAATGAGAGTGTTGAGATTCTTTCTAGCCTTTATCATTTATAATTCTGTGAGAT
GTAGATTTGCATTATTTTCGAGTTYGAGTTATATGAAATGTTTCCCTCTACATTTTCTTGGGCAACTGAGAACTGAATAGGGCTAGGTTTAAATAGAGTT
AGGCAGTTAGGCTTATTCTTTTATTTAATAAGCATTTTTGGAGCATCTACGGTGTTCCAGGAACTGAACTGTTGTAAACATTGGAGCTGTAACAGAGAAC
AAAAGAGACAAAAAAAAAAAAACAAAAAAAAAAAACCTTTGCCTTCTTGGAGCTTACATTACATTCTAAACAAATTAAATAAGAAAGTTATTTGTTAGAT
ATTACTGTGTATTAGATAATATGGTTACAGAGACAGAACAGGAAGTATCAGGAATGTGGGATTGCAATTTTAGATAAGGCGGTCAGAGAAAAGATCACCT
TAGGTGGTATTTGTGTCAAGAAGGGAGAGAGAATGTTTAATTCTGTGTGGCCAGATTGGAAACTGAGACCCTGCTAGGGAAAGCACCTTAACCAAAAATC
GTACGGTAGCCTTGTTCTTCCTCCCAGATGCTGACAACTCACTTCTGTGTGCACATACTCCTCCCCCCGCCGCACAACCCCATCATTCTGTTTTGTGCCA
GACACTCTACACTAATTAATGATTTCACAGCCCTTTTATAAATCTCAGCCTAAGGACTGTAATAAGAAGTTCCATTGAACACCCCTGCTGCCAGTACTGC
CTGAGTCTGGGAAGTCTGGCTGGCTTAGAATCTGTACCAACCCCTRAGACRATCTGATGTTTAAATACTGTGATGCCCTTTCTCCCCTTTTCAATGCTTC
TTACTCTCTTTTGCTGGTTTCTCTTTCCTTTTTCCACATCTTTCCATATAACCATCTATCCCCAGCCATTTTATTCTCTCATTCTCTTGCTCTTCCCTTT
CTTTTGTAACTTCCACATTTCCTCCTACTTCTTTGTTTTTGTTTTTTCATCTCATGTCTGTATTTATTCTATCTCTAACTCTCCTGTTTTTTCTCCTCCT
TTCCATCCTGTCATTCCCTTGTACCCTGAAATGTATGTGGAGAACAGGTGTGACACAGGTGAGGAGTTCTCTTCATTTACCCAGTCAGTCATGTCCTGGT
ACCTCTGCCGCCTCCCCCTAACTCTGTGCTGCCTGAGCATGCAGAACCCTTGAGGGGAGAGATTCTGACACAAGTCAGTTAGAAAGGGCTACCAACCTTA
GCCAGCCTGGCCCTGCAGGAGCCACCCCTCACTAGGCCTGTGGCACAGAGCTCATGCTGCTGTTCTCAGGGTGCTTCACTGGGGCCCTTCATCTTCTGGC
TCAGGCTCCTGGCACATTACACTTAGTGTATTATGGGGGTGGCATCACATACCAGTCAAATCGTTAAAGGTTCAGTGTGATCCAGGGAAGGAGGTGCCAG
CAGATGGTGAAACTTTTCTCAGTCTCTGCCTTTCTGACCTGAGCCCTATCCAATTGTCTGGAAAGCCAGATCTGCCTGACTTCCCATGCTGTTACCAAGA
ACCAAAGTATTGAGCCCCAGGCCAGAGCTGTCTKCTGCACCAGAGGGCACACAGGATCAGAGAGCAATTCTCTTCTTGTCCTCAGAACCCTTTTTTTCTA
AGCCCAGGAAAGAGAGAAACTAGATTCTACCCATTTCTACCCTATGATTACGGTGCTTTTGGTGGAATACATCCTAGGTCTCTCACTCCCTCTCACAGTC
CCRCTCTGTCTTCAAATCAGAGTCAACTTCAGGATTGGAAGGAATCTTGGCAGTCATCTAATTAAACTGGCCCTCCGATTCTTAGCCCATATGATTGTGT
GATTCCATCTTGGATAGCTCCACTTTCTCTTTGGCTATCTAGTCTTTTAAATTTGTGAYGTGTGGGCCAGGTGCAGTAGCTCATGTCTATAATCCTAGTG
CTTTGGGAGTCTAAGGCAGGAGGATCCCTTGAAGGGCCAGGAAGTTCAAGACCAGGCTGGGCAGCATAGCAAGACCCTATCTCTACCAAAAAAAAAAATA
GATTTGTGATGTCCTGGCTGCCATCAATTGTCAACTGATTTGCCACACAAGTGGATTGAAGAATGCTGTGTGTAGAAACCTATATTTTACAGTGAATGTT
TTATGTGTATGTACATATACRCACATGCCCATGCAAAAACATGTTTTTCATCCAACTGGCCAGCAGAGGAGAATGCAAAATTTCAAAAATGGGAGATATA
CTCTTTTCTTTCAAGGAGTTTGCAGCTTAGTTGGGGAAACCAGAGATGTAGAAGTATATTGATCTAAGAATACCTAGAAAAGGGTGTCAAAACAAGTGCC
CTTTAATATAGAAATCAGGTCTCTTTAGAATGAACTCCAGGGAAAGTTCATATTTTTGGTCATACTGAATGTGTGAAATATAACTTGAAATAAATGGTTT
GAATGGGTTTGTGTTGACTTTTTCACTTTGATTTTGTTGTAAGAGACTAAGTAGCAGTACAAGAATAAATTTGTGAGGATTGAAGTTAGGAGAGGCTAAA
TCAAGGAAAGCTTCATGGGATTAATGCGTTTTAAGTAAGGTTTTGATAGAATTGGGTGAGTACCAGAACTGTTTGGGGGCATTTCTCAGTCTGCTCTGTC
AACCAGAATTCTGGGGGTTCTGAATGGCCTTGAGAAACTGCCCTGACAACCTTCAGTTCTGACCTCTGAGCTGTCGCTGTTCAAAAGACCTTTAGGATGT
TGAAGTCCACTTCCTATTTGAGATGCCCCTCCATCCATCTTTTGCACTATCCAACATTAGCTTCACCTCCTGAAAGTCCCTAGAGGTGATTCCAGGGAAC
CCAGACCCTCTGAAGGCGGTCAACATTATGGGGGTTGGGGGGATGCAGCCAGCCCTGAGACCACTGGGAGCTATAAGGGACAGCATTCTCTTTTTAATGG
TGGGTWTAAGGCAGTCATCAAACCAAGCTGAGCAAATCCACTGCCCAAGCAACGGGCAGTAACACAGGAAGGAAGAAGGGAAGTACTATACAAAGTGTGA
GTGTGCTGGAGTTTGAAATAATGGGAACATCAGCCCTACATTTCAGAATAGAAGAGCAGCATATTTAGAAACGAAGGCAAGGCCTGGCATTCCTTCCTGT
TAGCCAAGATTAGAAGGAGCTGTGAGAGGGGTAGATTTTCTGCAGGACCTCTCTATGATCTTGGGAGTAAGAGTTAGAGTCCTAGATTCCTTTGGCCTTC
TGGATGTCATCATTTCCACATCCTGTCTCCAGCCAAGGCTCTCCCTTTCTGGAGAGATTGAAGTTGTTGTTTCCTATTTCACAGGATTCCTTTTATTTTT
ACGTYTGGGGGGTCTCACCCAGGGAATTCCTTCCTGATGTCATCTTTGTGGGATGTAAAGGAGGGAATGAGGGGAGGGGCCCCAAGAATGTTTCTCTTTC
TGTGAAAGTTTTTTTCAGCTCTTACTGCCATTCAACATTACTTGTATCCATGAGATGGCTTCTTTCCTCCCTCACCCCACCCGTCTTCAGTTTCCTGGAA
ATGGAATGGGSGCTGGAAGAGAGAAAGGATGGAAATTCCCATTGCATCTCTCTCGGCTATGCAGTGGTTCAGATGGGGTTTTGGTGAGGGGGGTTGGGAG
AAGTAGAAAGATGGAGTCAGCCCTGGAGGGAGAGGCCAGGAGACTGCTGAGCTGATGGTATGGGCCTAATTACTCCCTGCCTTGAGCTTGCCTGTAATTG
TGGTTTCTGAGAGCCAGCACGTCCTGGAAATCTGCTGGTACAGCAGAGATTTGGGGTTTCCGCCTGGGATGGAGTTGAATTTTCCACTTGGAGCAACTTG
CCCAGCCCCCATTTTTGGTTGGGGAGCAGAGTGAATCCTTAAAGCTCAAAAGGAGCGATTAGGATAGTGGTAGGAATATAAGGCCTTCCTTTGGAACTGA
ACGAGAGGTTGTATGCTCTGAAATGCTAGACATTTTTGAAAAGTTCAGAGAGGCGGCAGATAGCAGGACCTGGTAAAGAGTTGTATGGTTAAAGTTAGAA
TGTCAACTGTGTCCCAAACCTAGGACAAGTGATTTAATCTTTTTAGACATTAGTTTCTCCATCAGTGATTTGATTTGAATATGTGTCTTTTCTAACAAGG
ATGTCCCTTAAGTCATAGGTAGAGAAACGCTAGATGAATACAAGGGAGCAACTTAAGCCCCCCTTTTCCCATGGTGGTGATAAAAATAATAGCTAACATA
TTTTAAGCACTTAATGTGTGCCCTGTGCTAAACGCTTTAATGAATTCTACCATTTAATCTCTTAACAATCCCGTGTAATAGTTACTTCTGCTATAGCTAA
GGGAACGTGGGGTTAAGAGGTTAAATATGTTACCTGAGGTCATGGCCCCAGTGAGTGTCAGCATCAGGATTCTAAAGCCTGTGCATTTGGCCAGCAGACG
TATAAATAGTTGTCTGCACTGCATTTTACTCGCTTGTGTCAGGAAACACTCAGAGCCAGGCTGGCTTAGTGAGGCTGGCTGTTGGATTTGGCATCAGAGA
ATCTGAGTTCAAGTCCTAGCTCTGGCTCTCACCAACCCTGGGACCTCAGGCAAGTCCTTTATCTTCTCTGAACCTGTTTTCCATTCATGAAACATATTTT
CATAGTTGTTCTGAGGGTTAAGTGAGATACTATCTGGCACAACACCTGCTACTCAGCAGATGCTTAGTGTATGTTAGCAGAATCTGAATTTGAATGAGGG
GAATTCGAATAAGTGGCATAGTATAGACTCAAGCAGCCCTAGTCCCTGCCCTCCTGAATTTGTGATCTGAGGTTTTAGAACACTGGCATAAGTTAAGGAT
GTATCTATGGCAAAGTCAAATGGATGGTGAGGACTCTCTCTAGACAGAGTGCAAAGCATTAGCAGAGTAAAGGCTCTGAAGTTAAAATGCTTGGGTTCAT
ATCCCAGCTTCATCTCACTTGCTGGATGCATGAAATCAAGCAAGTGGCTCAGCCTTTCTGTAGCCCATTTTCTTATCTGTAAAATGGCAACATTAATAGT
GCCAACTCATGAGGTTGTTGTGAGGATTAAATGYAATACATAAGAATGGCTAATATGAATAATCAACAATCAATCAATAAGGAATTCTTACTGAGTGCCA
GGCCCTGGCCTGAGCATTTTTTGCATGTTTTAAATAATTTAGTCCTAACACTCTCATGAAATAGAATCCTAACATTCTTATGAATTCTCTCTATTATTAT
CCCCATTTTATGGATGAGTAGTCTGAGGCAAGAGATTAAGTAACTTGCCTAAAGTCACACAGCTAATAAATGTCAGGGCCAGCATTTACATCTGGGAGGG
GAACTCAGGAGCCTACATTCTTGTCTCAGTAAGTGCTTTAAGAATTTGCTAGCTCTTATTATTATTATCATCATGAGTTCCCATTTATCAATCAGTCACA
AGAATTTACTAAGAGTATATGCTTAGCACTGTGTTAGTTATTRCAGGCTYTATCAACAAARTATATGTGACAGGATTTCTGCTTGTGAGGAGTTTATCAT
CTAGTTGGAGTGAGATATGAACAATATGGATGAAATGATTTGATAACRAGTGCCAAATAGCATAGTATGGACTCAAAATGCAGTAGAAATGGACTTAGTT
ACTGAAAGGATCATTGGGTAAGTTGGACTAGTTAGGAAAGTTTACTAGAGACAGTACTACTTGAATTCAGCCTTAGAAAAGTGGGCTGAAGGGCAAGGTT
GGGCTGTTTGGAGCACTAGAGTTTGGGAGGATTTAGAATTTCAAGGTTGGTCATTCAGCATTCAACAAATTTCTGTTGAGTGTATCTTATGTGCCTCACT
CGATGGAGAATGAGATCCAAACTGATTGCTCAGTCGCTGTTGTTTCTCTCCTGGCCAATCCAGGTTCATTTCCTGGAGATTGTGTTTTGTGGACTAGCAG
TTTCCCAGTTGAAATGCTAGTATTGCCCTGTTCGAGGTGGTCCATTRTTGATGTAATAAAGCCTCATTATCATGTGATTTGTGCCTGGATAGAATCATTA
TATGTGTCTAGGTCCTGGAAAGGAACTGCAGGGACCACATGGTTCATTCATCTCTTCCTCTCTCCCATCATTTCACCGCCCCGCTTCCCAATCCCATACA
TGCACATGCAACCACACTTTTTGCTTAGGAGAAATATAAGGCCTAGAACTAAGACCATAATCCAAATATTCAAACCTTTAGGATACTTTATTTAAACTGT
GCTGCGTGAATTGTGAGTCAAATTAAGTGCTGTAGGACAAATGCCTACCATTTTTGTAAACCTACAGAGGGAATTATAAGCCCATATCCCAGTGCCAATA
ATTTTTGTCTTCCTAACACCCGTTTCACTGTTGTGCAAGCCCCTCAGTATCAAAGATGTAATTCAGTAGAAAGAGTGTAAGAGACAGCAACACTTGCTGG
AAGTGGTAGGAGCCACTGCTCTAAAAACCACTTTTCCTCCCACAGAATGGTCTGGGATCTCCCCCAGTGGAGAGGGCACCCTCCATTTGTGTGATCTAGA
TCTGCAAAGTGCCTGCATAGCCAGAGCCAATGGGCATTCTTTTGGTTTGTGGCCTGCCTATTGCACCTCCTATCAGGCAGCTACATGTTGAGTTTGTTGC
TTGGGGTTGTCTTTGTCATAAACACAGTGGCTAATGTTCTAGTGGTCCAAGGCCCATTAGTCAATGTGAGGGAATGGAGTAAACAACAGAGAGATCCAGA
GTGGATCCTGGGTGATGAAACTGTGGCGAGAGCTGCAGGGATCTGGCTACTGGAAAACTTGACTCTGATTTTCTCTTGGCTGGCCTTCTGTCAGCATCCT
AGCCAACTATGTATATCAAGTATACTTTGTAGAGCTCAGTCTATGGGTTGAGAGACCCATTTTAGGTTGTTGGAGACTTGGTGCTAAAGAAACAAAAAAA
TAGAAGATGTAAGTCTCTCCTTCAGAACAGGTATTTTATTAAACAGATCACACGGTAGAATACGTGAGTTTCTTTTAAAAGCAGTACACAGGCAGGGATC
TGTGATGATAGCATAAGTCAGATGCTTAAGGGCCAGGAGATGTAAAGAATAGAAGTGTCATCATTCGAGAGTTCATTGAGGAAGGCTTCCTCAAGGAGGG
GAGCTTCCGCACAGGTTTTCGAAGGGTAGAACAGGAATTTCCAGGGGGACCTGGAATAACCTCCCCTGTCTGCACGCCCTTCTTTCTTCTACTTCTGGCA
GGGCTTCCTGAAGTCACCAGCCAGGAATGTGGAGGGTATGGACTCAGCCTGTGAAGCTCTGGCCCGCCTCCCACTTCTGCCCCCCATTACAGCTGGGAGC
TTAGGTTGCCATGACTCAGTTTGCATCTACCTGCAGTTACCTCAGCTGAAGAACAGGTTGCCTACAGCCTGCCCAAGGAAGGGGATTGCAAAGACAAGCA
GACCTCATACCATCAACTCCCATTACTTCCACAAGTTACCCATTTGATGGTTTAACCTCAGTGGTTTTAAAGTAGAACACTAACTTTCCTCTGCCACCCA
GTACTTTCCTATCGATGTTGGTATGAACTCAGGGAAAGGGAGCTAATTTAAAATCCACCTTAAGAAAGTAAATTAGAAAGGTGAATCTTCTGGGCCAAAT
GACACACTTTTAAAAAGCAAAATGAAGACTTCTTGGATTGGCCATTATCCTGGGTACCTGTTTCATGGTTGGTCCTTTATTTGTGCCAATAATCAAAAGT
CGACTCAAGTAACAACTCCGTTTATACAAGGTATAAAGTATGCCTTCTTTGAAGAAAATCCAGTCTTTTGAGAATTTATATTTAAGGTATTATCACTTTC
RTGATGATTTACTTCAGAACATATTTACTTATCTTTTCAGGAAAACATTAGGTAAAACAAGATATGCCTGTAGGGCCGGGCACRGTGGATCATACCTATA
ATCCAAGCACTTTGGGAGGCCGAGGCAGGTGGCTCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCCACATGGCAAAACSCCATCTTTACTAAAACTA
CAAAAATTAGCCTGGCATGTTGACACACGCTMTAATTCCAGCTGCTCAGGAGACTGAGGYACAAGAATCACTTGAACCTGGGAGGCGAAGGTTGCAGTGA
GCTGAGATCGCACCACTGCACTCCAGCCTGTGTGATAGAGTGTGACTGTCTCAAAAAAATTTTAAAAAGATACTCTTGTAGAGTGGTTTTAGGATGACAA
GTAATTTAATTATCACAGTGCCCTGCAAAAAGTACAAGGCTTGGTCTTCCCATCTTACTGTTAAGAAAGCTGAGACTGAGAAGTGGTGTGGCTTGCCCAG
TGCCACACAGTGGCTACGATGTGGYGAGGAGGAAACCTCATTCCACAGATGGAGGCCTTTCCCTTCGGCCCTGGCAAGTCCCTGTGACAGATGCTTGTTC
TTTATCTTGTAGGTTCTAGGTTCTGCTCATCTCCTTTGCCCTTTGTTGAAAACCAGGAAACTCAAATGAAAATATACTTTTTCATCTTGTGGATATCACC
AATGCAGACACAGAATTGCTTCTAGATCATGGTTGGTGATGGTGTCTGTTGTTTCTTTTCCAGTTGAAATGAATTTGGCTGTGGCCTGCCCTCCCTTTAT
TCTTTAGAGAGAATCTTTCCTTTCCAGGCTAGGGATGTAGTTCTGCCTGGGTGCAAGACCTGATACGCTGAAGAAGAATTATAAGGGACAAAGAATCAAG
CAGAATTAAGAAAGGACGTGAGATGACCTAGCTCAGCTCCCTCGTCGTGGGGATGATAGGGCCAAGGCACAGGGAGAGGAAGCTGGGACTTTGGTATCAG
ACACACTTGAACTTGTGTCCTGGCTCTACTATTTAATAGCTGTATGGCCTGGGGCGACTTATGTAACTTWGCTGAACCTCATTTTCCTTATCCGTAAAGG
AAAATAACACTGTTATCTCACCAGGTTGTCAGGATTAAATGAATGCCTGTAACACATGTTTATTATATGTAATTTTCTTCTCCCTTTTCAAGGATATATA
AAAAGATAAGGGCAGAGTGGGTCTAGAACCCAGATGTCTAGGCTGCCAGCTGTCAGTCCTGTCCTCTTGTCAGAAGGGCCCGCCCCCTCCCTCCTGCTGG
GGCAGCCTCCATGATTTCCCTTCCTGTGGCTTTGCTCTCCACCCCTGACTTCTACTCCTAATAATCAGATCTTGGATCTTCCWGAAAGTTGCTTTATGTT
GTCTGGAGTTGCACAGCTAGTAAATGGCAGAATTAGCACCAATATCTAGGTCTCCTGGCTTCCTCTTGATGTCTTGAGATGCTATTCTTTTCATTGAACA
TAAGTTTGATGGAGGACTCCGTGACAAAAGCAAATAAATATAGGCTAAACATAATATTCRGCAGTAGATCATCTAGGAGATCTTAGGAGATCTGTAAAAT
GGTTGCATCTATATTAGATAACTCAAGACTTGATTTTGTGTTTCAAGGCAGGATGTGCTTGCTTTGGCAGTAGCTTACTAATTGTGTCTGACTTAGGGCT
TCAGCAAAGAATAGCACCCATTTTTAAAGTACTGCAGAGTGCCAGCCATTGTACTAGATACTGTACTTACATTACACCAATTCTTAAAACAGCCTGATAG
GATAGGTGGCTAGTATTCCCATTTTGTAGATGAGAAAACTGAGGTTCGCAGAAAATAGTTTGCTCTCAGTCCCATAGATGGCCAGAGGCAGAGCCAGGCC
TGTTCTAACTCCACACTTCACCACACTGCTCCTCAATATCAATGTAAATTCCTGGGCATAGCTTCGGCATTGAGCTTTTTCTGAGAAATATGTGACAAAT
TGGATAAGTCCGATGTGAGCTTGTGCCAATACCTATGCTGATAGAGCCTGCAAGGCTGATGGGGTGTTGGGTTCTGAGTGGAGAAAAGGGTGCACAGCCT
AGGGCAGTGCTGGATTGTTCTACTAAGGGGTGAAGATGGTGCCCTCAGAGCCGGGCTCTGCTTCGTTTCTGGGAGACAGTTGTGYCTCTTTACTCTAGGA
CTCACAGTCCAGCGAACAAGGAGAGAGGTCGACAATGTGGAAGGTGCTTTTGCAGAAATATATACCAGGTGCTGTGGGAGACAGAAGTTCCTGGAGGGTT
GACTGGGCAGGCTTCTAGTTTTCTCTGACTGTTCTGAAGGGCAAGGAGGTCTCACCACTGGAGAGAAGGTGGAAGTGTGGTGCAGCTGTGGCCAAAGGAG
GCCAGACCAGTGCTGTCCAATAGAAAGATAGTGCAAACCACATGTAATTTAACATTTTCTAGTAGCCATAGTAAAAAAAAAAATAATACAGGTGAAATTA
TTTTTAATGATATATTTCATTTAACCCAATATATTCAAAATACTCTAATATAAAAAGTTATTGAGATATTTTACATTCTTTTTTTTTTCACTAAAACTTT
AAATCTGATGTGCATTTTATACAGTGTATTTCAATTTGAGCCAGCCACATTTCTGGTGCTCTTAGCCACATGTGACCTGGGGTTCCTGTTAAGACAGTGC
AGGGCTAGAGGGTACTCCCAGTGTCAGCTCCTAGTAACCCACTCTCAGCAGTCTGTCCCTCACCTGTGCTTTCTAGTGCATTCCACGCATCGCTGTCTTT
CAGGTGCACATCTGCTCTGCCGCAGCTGGTGTCTGGGCCTCCAGCCTTTCCTCCTCCAGGCCACTCTAGTCACTGCAGTCAGACTTATCTTTTTAAAGGC
TAAACCTGATCCTATTACTTCTTCGAGAAAGCCTTCAACAGCTCCCCCATCTGTAAATAATCAAATCTATAATCCTTAGATACCGTTTAAGGCCCTCCAT
AACCTGTCTTTTTCCCTCCATCATACTCCCTAGCAATGATATGTTACTTTAGTATTTGCAGAACCTTTTGACATACTTTATCCCACTTAATTCTCACAGC
AGCTGTGTGAGATAGGTAGGGCAGGGCAGGTGAATTATAAGGCTCAGAGAGTTTAAGAGAGGTTCCTGGCTGGGCATGGTGTCTCACACTTGTAATCCCA
GCACTTTGAGAGGCTGAGGCGGGAGGATTGCTTGAGCCTAGGAGTTCAAGACCAGCCTTGGCAACAAAGGGAGACCCCATCTCTACAAAAAAAAAAATTT
TTTTTAACTAGCCAGATATAGTGGTGCAGACCTGTAATCCCAGCTACTTGAGAGGCTGAGGCGGAAGGATCAGATAAGACCAGGAACTGGAGGTTTCAGT
GAACTATTATCATACCACTGCACTCCAGCCTGAGTGACAGAGCAAGACTTTGTCTCAAAAAAAAAAAAAAAAAAAATAGAGAGAGAGGTTCCTAAGCTCA
GCCAGCTAGTAAGTGGCAGAATCAGGAYGGAGACCCTTGTCTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGATGGAGTGC
AGTGGCGTGATCTCGGCTCACTGCAAGCTCCGCCCCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCTACC
ACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCGCCCGCCTCTTTT
TAATTTTATCTCTTGTTACACTCCTTGTTGTGAGATCCATCCCCTTTTCTCCCATATTGCATTGACAGCCTCCCCAGAGTCCCTGTGTCCTCCCTCTGCC
TTCTGCTGCTTCCTCCCCTAGAATGTCCTTCCACAGCATAGCTACCTGTCAGAATTCTCCCCTTCCTCCAAGGCTCTGGTTAAAGTCCACCTCCTCTCTG
ATTTCTTCTTTGTCCATCCCCTCCCCAAATCTAGTTTGTAACTACCAACACACTTTAACATGCAGTTTCTTATTTAGTTGATGCTTCACTGTCTTATTTG
CAGAATTCAGTTGTAGCAATCTGGGGCATTGAAGAATTTAGGAGCTTAAATAGTTCTTACAGGGTCACCAGTGGTACTCYCCGCCTAAGTCCATAGAGAG
GCTAACACCCTTCTAGTTTATTAGTCTTTGTTAAACCTATGAAATTATGAATTTAATCCTAATTTATATGCATTGTGGAGGTCACTCAAAAATGTTTCTC
TCAACAGCTGTGATAAGTATAGGCTTATTTTGATGTCTAAAGATCTGTTACCTGTATCTGATTTCATCTTCCAACACATATTTATTGAATATCTACTATG
TCCTGTGTTCTGGACAAGTATGCATGAGAACAACATACACGAAGTTTATCATTAAATGGGAAAAGAGCAGACATTTTAAAAAGCACCCAAACCGGCCGGG
CACAGTGGCACATGCCTGTAATCCCAGCACGTTGGGAGGCTGAGGCTGAGGATCCCTTGTGCCCAGGAGTTTGAGACCAGCCTGGGCAAGATAGTCAGAG
CTCATCTCTATTTAAAAAAAAAAAAAAAAAACAAGCTGGGCAGCTACTCAGGGAGCTTAGGTGGGAGGATTGCTTGAGCTCGAACCCAGGAAGTCGAGGC
TGCAGTGAGCCGTGATTGCATCACTGCACTCCAGCCTGGGCAACAGAGTGAGACCCTGTCTCAAAAAAAAAAAAAAGAAGAAGAAAAGGCACCCAAACAA
TAGTGTAGTTACTATTGAGTTAGGCACATTACAAAGGTAAATTTCAGGGAAACTCAACACATTAAGTGTCAGAGAAGGCCTCTCTGAGAAAGGGACACTT
AAGCTGAACGCTGAGGAATGAGTGTGGGTTCCCCAGGCCAAGGTGGGGAGAGAAAGCCCCTGAGGTTGAAATACAGTGAGTGAGAGGGAGGGTGACCAGA
TACACAGCTTGAGAATAGGCATGAGACCTCACCCAAGGACCTGCTAGCCATGTGCAGGATTTGGAACTTCATGCAAGGACAGTGGGAAACCACGGAAGGG
TGTATATCCTCTAATTTCTCTCTTTAAAAGATCACTCTGTGTGTAAGAATGGGTAGGGGCTAGAGTAGACATGGGGAGGCCAGTTCTTCTAGGTGAGAGA
TGATGGTCTCTTAAATGAGCGTGGTGGCAGAGAGGGGGAGAAGAGAAGTAGGTGGATTTCAGAAATGTTAGGAGGTCATATCAGTAGGACTTGTCAATTG
ATTGGATTTGCAGAGAGATGTCAAAGATAATCTCAGATTTCTGGCGTGAGCAAGTGCACGGCAGTGTTTTACTGAGGAGGAAACATTTGATCAGGAGCAG
GGCTGGGGAGATTGATTGCAGTTTGACTGTTGTAGCTTTGAGGTGTCAGTGAAGGTGATTTGGTCCTCGCAATTACCCTTTGAGAAAGGTAGTATTACYT
ACATTTGTTATTGGGAAACTAAGGTTTGAAGAGGTTGGATGACTTGCCTAAGACTACATAGCCAAGAAAGGGCTGAGCCTGAGCTTGTGCCAGTATTTTG
ACTCCTAAAGCTGTGCTTTTAAAACCATACCACATGTCCTGTGTGCTGAATATTCGATGTGGAACCAAGCTAACCAACCTTCTCAACACACGAGTTCTCT
GCCTCCCTTCTCCACACACACCTGTCTGCCAAGTTGTCTGCTCTGATAGTCAAACAAATCCTAAAATCTCTTTTTGTCTAAGACCTTCATGAAAGTAGAA
AGGTGAGGTTTACTGGCCCTGCCCTACCTAGAATTTGAACACCCTGGGGGTATTTTTCACTCACTCTTTCTAGTTCTGTTCCCCTCACACCTGACATTTT
TCAAGCATAGCTCACCTACTGTACACCTGAAAAAAAAAAAAAAAACACACAATAAAACCATTTGCAGAGGGCTTTACACTTTCAAAGCACTTAATAAATA
TTATCTTTTTTGCCCTCACATCAGCCCTGGAAGAAAGAAAGGACGTATATGGGTCCTTCAGCTAACATTTTTGGAGCRACCCTCACTATGCACCAGGCAC
TGTGCTGGAACTCAGCTGGTGATACAAGGATGAATAAGACATGGTCCCTGTTCTYAGGGGCTTAAAGTCTAAAAGAGATGACAGACTAACAGATGATATC
AATATGTGTTCATTTTGCAGATAAGAAAGATGATAGACTGATGATAGACTCATAARTTAAGGGACTTGTTTCAAGAGTTTCTCCAAGTTACGGTCCTCTG
AATAAGGAATGGCTTGGGCTGCTTGTTGAAATAGATTCCACACCACAGACCTGCTGAATTGGATCCCTAAGGGTGGGGCCTCAAGTGATTCGTATGCTGC
TGGATAGCTAGAAAGTGATCCAACTGAGGAGTGAACCTTCTCTGGTGCACTGCCAGAGACCATTTGTCTATTCTCTAGTTTAAGAGATGAGGGAACTGAT
GCTTATAGATCAGCAGCGGTTGTCTGCAAACAGCCGTCTTTCCTCATAGCCCTTACTGTAGGGATGTGCAGGTCTAGGACGGTGTGTTTGCCAGCCTCAG
ACCAGAGGGAAAATTCTACCCGGAGGCAGAATCCATAGAAAGTTAGGGTGCCAGGAGCCTGCTGAAAACTCCACCCTGGGAGATAAGGGAAACCAACCAG
TAAGACCAGGTCAGAGTTCAGTAAGTATGGACTTTATCTGGAGCTAAGGTCCTGGTAGGGTGTCTCTTGTCTCTTTCCTGGTTTACTGCTCTTGTCTTTA
GGGAAGGGCCCAGGAATATTACTTTGCCCCAGACTCAGGAAAACCTAGCTCAGCCTGTGTATAGTGTGCTTTTTTTATCTTTCTCTATCCATCTATTTTA
TGTATGTGTATTATGTATTTATATACATATATAGCATATGTGTATTATATATATCTTTAATCATGTCATATATGTATATATTATATGTGTGTGGGCACAT
GTGATGTATATATGTGTATATGTCTGGAATGTGTGTGTATGTATGTAAAAGAGAAAATAAAGACCAAACAAATCTACATGTGGCATATACAGGTCATATA
ATTTTTTATTTAGGAGCACAGACCTTGAAGTCACACCAACTCTATGCACATCTTAACTTCATTTATTTAACCTCTCTGTTCACACACTGGAAAATGGGGA
TGTACTACCTGTTTCACCAGACTTTTGTGAGTATTGAATTAGATAAGGTTATATCAAGTGCTTAGCACAGCACGTGGTAAGTAGTAAGAACTTTATCATT
ATTACCACAGAACGTGGATGTTCTAGGCCTTGTCCTCATTTACACATTTGTGATGGGGTAGGCGTAAGGGTGAGTAGACCAGGAACCTCCCATTGACAGA
TGGAAAGGACGTGATGTTATTTGCTTCTCTTTGTTTCTTTAAACTCCAGAAGCCAGTCCTGTTTGGCCACCTTAAGTTCGAACTCGTATACTTTGTAGGG
GTCTGAGTGAAGCAGTGGGCAGTGTAAGCTGTGGGCAGTGGTGACTGGGAAAGGTAAGACATGCCCATCTGGAGAGGGCTGCCACCACTCATTTTCAGCT
GATTGTCTCTATGTGAGACCGTAAGCTCGAGGATGCCAGAACTTCTGACTGACCTTTCAAGAGAAGTCAGAAATCTGTATTTTATTGCTTAGCAACTAAC
TTTTAAAATATATATATATATACACACACACACATATATATACACATTCACACACAGACACACCGCAGACCAACAAAAAGGATATGTGGGCTCTCTGGAA
GGTCACCAAGCATCTCCTTGCTTTGTCGCCCACCCTGTGGGCTGGGGTGAGGAGCATGTGGATGCATAGTTAGAAGGCACCTGCTCTGTGCCTTGTGCTG
CACTCAGGCATACCGGGAAGTCCMCACTGCAACCTCTGMCCTCCAGCARATAGGCAGGACTGACGCACCAGGCCACAGGGAGCCTTGGAGGAGGGGAGAA
TGTGTGCGCCAATGCGGGCTGCATTGTAAAGAAGAGGAAGAGTTCTGCGAGTTACTCTACAGATATTGTAAGTGAAAAAAGCAAAGTGCAAAAAGGGGAT
GATACTACCTGTTGTGTAAGGAAGAAAGGAAAATAAGAATATGTATAGGTATTTATTTAGTTTTACAAGAAGAAACACAGCAAGGAAACCAAAAACAAAT
GAAAATGATTACTTGGGGAATGGGGAGAAAGAATAGGTACACTTCTGAATATACTTTTAAAATTTCATTTTGATTTTTCAACCATGTAAATGTTTGATAT
ATTCAAAAAATGAAATAAGCTTGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATC
GAGACCATCCCGGCTAAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGA
GGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGT
CTCAAAAAAAAAAAAAAAAAAAAAAAAATAAGCTTGAAAAAAAGAAAACCCTAAAATTCAGTACAAATATAAAAAGAAACATAAATATATCTCAAATTGA
TAACATAAAAACAGATTAAGACCAAGGACAGTGGCTCACGCCTGTAATCCCAGTGCTTTGGGAGGCCGAGGCAGGTGGATCACTTGAGCCCAGGAGTTCT
AGACCAGCCTGGGCAACATGGCAAAACCCCATCTCTATAAAAAATACGAAAATTAGCCAGGCGTGGTGGTGTGTGCCTGTAATCCCAGCTACTTGGGAGG
CTAAGGCAGGAGGATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGTAATTGTGCCACTGCACTCTAGTCTGGGCGACGGAGTGAAACCCTGTCT
CAAAAAACTAAACAAAACAAACAAAAAACCCAGTGGATTAACCCAGAAATTTTCACACACATTACTGATGATACTGGGATACAGTCTGAGGACAAAACAA
AACTGCAAGAAAATCTTGAACTTCATAGGTTTGTTGTTACTAGTGATACTGATGTAGTAACTCCAGGAACTATCTTTTCTGCATATTGAATAGAGCAGTG
AGTAAATATATTGGTATTGTTTAGGAACGGGGTTCTCAATATGAGAAAAGGAAGACAAAATGTGGAATGGGGAAGATGAAGAACCCTGTTGTGTTGAGTT
CAAATTGGAGATACCAGTGTGAACTCAAAAATTTATAATAAATTTTTCTAACTCTGTCCATTAAAAGGGCCTGGAACGAGGGACAGCTCAGCAGCAATGA
GTACCTAGCAGTCAGATCTTGTTTGTAAATGCATTTCCTGCTAAAAGGAACAGGGCTCCTTGGAGAAATGTTTAATTCCAGGTCTGGCATAGGGGAAGTA
CAAGGTGAGCATGGAGTATCTTTTTGTGCCAGAAAGCAAGGACATGATCAAAGACAGATGGTGACATGTTAAAAGGACACAGGAGCTGGCTTTCAGAAGC
TCCCACTGGTCAAATTGGAACATTTTAAACTTTTTTTTTAAAGGGTAATAGACTATAATATATTATTACTTTGCGGGGGAAACAGGATCTGTGAGTTCAT
AGCACTACTCCAGAAAAGGGATGAGATGACATTCTTTATAAAAGCTTACTGGCTAATATATGTTGAAGGAATGATAGAATTAGCAAATTGCCATTTTGCA
GGCACCAGTGCAATAAGCGCTTTAGGCAAGAATCATCTATGRATAGTAAAACTATTGGATGAGAGATTGTTGGAAAACAGAGTATCTATGCAGTCTCAAA
ATATCATCCCACAGATTTCTCATTAATTCAAATGAGAAAATAGATTTTTACCATTGAAAAAATCTCAGGAATACCACTTTACCTGAGTAATCAAACCTAC
CGTCACCAAAATGGGGCAAGCTATCCAACATCACTTATATAATAGTCTCTTAAAAATGTTTAACATGAATCTAACTGTGAGGAGGCATCAGATGAATCCA
GATTGTAGGACATTCAACAAGATTACTGGCCTAGACTCTGCAAAATGTCAGTGTTATGAGAGACAAGACCAAGAAAAGTAGGGAGAGTTCTAGATCAAAT
TAATCTGAGAGACAGGACGTAAGTATAATTCGAGATCTTTGATTGGCTCCTGAACTGAGGCAATTGGGGAATAGCTACAAAGAACTTAATAAGACAGTTG
GGGAAATTTGAATGTGTACTGTATATTAGATAATATTGTATCAGACTCATTGGGTGTGCTGATGGCATTGTGGTTATACAGAAGAATTTCAATGCTCTTA
GGGGATATAGGCTAAAATAGGGGTAAAGTGTCATGATGTCTACAATTTTCAAGTGAGAAAAAATGTATAAACATAGATAAAGCAAATGTTACAAATGTTA
GTTGCTGAATCTAAATGAAGGGCATGTAGATATTCACCATGCTACTTCTTCAATGTTAATGTAGTTTGACCTTTTTCAAAATAAAATGTTGGGGTAAATG
AAATGTGTGCTGCAGTGGTCAGGGATTGCTTTGTGGAGTCAATGCCATTTGATCAGGACCTTGAAAAAGTAGTAGGAGATGGACAGAGATGACAAGGGAT
GGCAACCATCAAGTCAGAGGTGGGAATGAGTATAGCATCGCTTAGGATCCAGTAGAGGTAGGTAGTAGGCAAGTAATCAGAGACGAATTTGAAAAGACGT
TTGGGTCCACAGGATGAAAGTCCTTTAATACCAAGTTATTGGAGGCACATCTGATTGTGTAGATAATAAGGAGAGAAATGATAAGTTCTTGATGAGAGGG
CCTGAGGGAGTAGTATTTGAGTAAGTTAGTCTGTGGTGGTGGAGTGCTGGATGGACTGGAGAGTGGAAAAGAGGTTTTTTTCAGTAATCCAGGCATGAGG
CACTAGACATGTGGCTTCAAGGGATGAGTGTCAATGATTATGTAAAGAAAGGAGCGAGTCTGGGAAACGATTATAAAGAACCTAAAGGTTTCTTTGACTG
GCAGTAGGGGATAACTGAGAAGTTGGGTCAGAAAATCTGTCTCAGTGGTGCCATTTAGAGTACAAATTTGGGGGGAAATTCTCCACTCCTCAGGGCCGCC
TCCATAYCCSCAGGTTTAGGCTGAGCAGAATCTGAGCTCTGCTGCCAAATTTTGATGAGAATGTCCTCAGGAAAAGGGAGGGGCCACCATTAAAATCTTT
TCTATCTATGACAGCCTCCATTTCAGGCCAAACTACCCTCCTCTCTCCTTTCCTTGTTTCTCAGATTTTTAACCTTCCAAGGTCTTCCTCCCAAATATGT
GCTCAGACTCACAACCCAGCTGACACAATAGTCTGTCCATTGATTCTATCCACCAGGCCTGCCTTCCATAGGCATTTCTTCCTCCTTCAGTTCAATGGTA
GTTTTCTCTCCTTTAAGCTCTCAGAAAAAAAAATTTTTTTTGCATCTGTTGCAAGTATACTTACGTTGCCATCTCCTTGTCCCCCACATACCTGCCCTAG
CCTCTGATTTTATTTTAGAGAAACTTTTGGTTACTGCTGAAATGGTCTTTGTCCATGCCCCTAACAATTGTTGACAGCAGGGACATGGACCTTTTGGTTC
ATTTGCCTTTGATTATGTGGAACTGCTCATGCCTCAGCTCAAATGCAAACCAAATCAGGTTCTCAGGTTCAGATGCACCTTCTAGGCTTTAATATGGGCA
TAGGAAACCAGCTTCCTGGTGGGGTCAAGAACAAGGCAAGAAGGCCCGAGGTGTCCCAAGATAAGATGGGCTTTCTCTTTAGGTAGGAAGGAGGAGGAGT
TCAAGCCCAGCGTGGATAGCCCTGTGCAGTCATAGAGAATAAAGTAGGCAGAACATGTAGGAGGAAGGAACAGTATAGGCAGAGACAGAAGCCAGAAACC
ATAGCAAGTGAAAGGAGGACAGTAAAGAGCAGGGACCAAGAATAGGACTGAGCCCCTCCCTATTGCGTCAGGCACTGGGGACACAGCAGCAAGACCCTCT
CTGCTTTCATGGACCTTCCAACCTTGCCTGTCTGTACGGCTTTACAGACAAGTGAACAGCGCATTTTCAGTTGGGTATTTGAGCTGCAGGAAGGACAGAT
ACTGGGAGCTGTGGAAAACATCAAAGGGCACTTCCCCGGGCATCAGGCATTATACTTCCTGTTAGATGCTGTGGCGAATGGCCTAGCTGAGGCCAGATGA
CTGTTCTCCCAAGTACAGTGGGGAGGTTCTAAAAGGTTTTAAGCAGCAAAATGACATGGGTAAATTTGGATGTTAGAAAGCTGATGGCTGTTAGTAAGCT
CACCTTGTGGCCAGGTGCCTCCCCTGGGTCACTCTTGGCTCTGTTGTGGTTTTTCTTCGAACCAACCATCCCTAGTGTCTTGTCTGGTTTATGTCGTGTT
TTGTTTTTCTTTCTCTTTCTTCCTCCTGTCCTGCGTTGCTCTCTCCTGGGCCCACGCTCTCTTCTTCCTTGATGTCCTTCTCTCTCTGATCCAAAGATCA
GCCAGTAAAAAGCAGTCTCACCTGTCCAGGTAAGAGGGGTGCCATTGTGAGGGGGAACGAAGACCCACTCCTTTATATTTATAAGTTACTTGTACCCTCA
CATGGTTTCAAACATTAAAAGTACCAAAGAATATAATAAAAGCCTGCATTTCCATTCCTGTGCCCCAGCCACCCAGTTTCCCTCCTCAGAGACAACTGTG
TTATATGTTTCTTTTGTATTCTTCCAGAGATATTTTAGATATTTTTGGATATGTAAATAAATATTTAAACATATATAAACACATAATTTTATTCTCTCCT
TTACTCACTTTTTTAAACTGTCCAAATAATTCTATATTTTGTTTATTTCACTCAGTAACATATCATGGAGATATTCTGTATCATGTATAAAGAGCCTCTT
CATTCTTTCTTATGACTGAGTTCTGTGTCATTGTATTACTGTAATTTATTTAACCAGTCACTCATTGTGAACATTTAGATTATTTCCAGTGCTTTGCCRT
CACACACAGTGCTTCCATGAGTAGCCTTCTACTTAGTCTTTTGCTATAGGTAGGATAGGAATTGCCCCTTTCTGAGGGGCAGCAACTATTGATTCAGGAA
CTTGCAACTTGTACACTTTTCCAAAAAGGAGTGCCACAGCAGTTATTGAAATTTCTTCTATTCCTGTGAGGGTCCTAGTTGAAGAGGAGATGAAGCAGTG
AATCCTTTGGTTTGGTGATGTGTACCACTTGAAGGTTTGGGGTCTTTAGTAGTTTCTAATTAGGCGAGGTGCCTCAGGCTGGCTGAGGGACTGGAGCTGA
ATATGGGGTTGGAATACTACCGCCAAACAGACCAGATTCCTGTCCTCCCATGGTACCCAAAGGATAAATGGAATTTTCAAAGGCTTGGGCCGTTCCTCTA
CTGTCTTTTCTAGAAAGTGTGCAAGTTGCCAGTTACCCAGCGGGCTTATACTCATGCCCATTTACCCTCCTGGAGATCACTGTTATGGAGAGGTGGAACT
TTGAGGGACAAAGAGATGAAGCTAAATGGGGAGCTTGTCTCTGCTGCCACCACTACAGCCACATGTTGTGCTCATGCAGACCTCTGTATGTGTTTGACCC
ACCTCGTCCTTCCCTCCAGTCTCCCCTTCCTTTGCAAATCATTGCCTAAAACTAACTGGCTGTTTGTTTTTTCCCTGTCTTTTTCTTGCATTCATTTTCT
CTGCTGCTCCGTTCTGTTCCATCAGCCCCATTGCAGCCTGGTAAGACCCAACAAGCATGTACACGTGTGYACATCCCCTTCTTGCTATTGTCTCTTTGTC
GCCTAACTCCAGGAAGGGTTATTTCCCTTCACACCTTGCTGGGTATTAAAGAGATCATGCTTGCCCTGCCAGCCCAGGATTCCAGATAGGTGGTGTTACC
AGTGGTGTACACATGGCTAATGTCCTACCAGATTGGGTTACAGGGCGGGTAGGTTGGTCTCTCATTATCCAAGRCTCAGGGCCCCTTTTGACAGAGCCTC
CATCTACTACAAGGCTGATCCCCCCTGCTGAGCTCATTGACATGCTTTCCTTACTCCTTCTCCAGGTTAAGTAGCCTGTCTTCTCTGGGAGATTCTGCAC
CAGAGCGCAAGTCCCCTTCCCACCATCGCCAGCCTTCGGATGCCTCTGAGACAACAGGTAACCTCCTTGGGCATTAACATACAAAAACAGCCAGGCATGG
TGGCACATGCCTGTATTCCCAGCTACTTGGGAGGCCAATGGGAGGATCGCTTGAGCCGAAGAGCTCTGGTCTGTAGTGTGCTATGCCAGTCAGGTGTCTG
TACTAAGTTCAGCATCAATATGATGACCTCCCAGGAGCAGGGAACTACCAGGTTGCCGAAGGAGAGGTGAACTGACCCAGGTCAGAAATGGAGCAGGTCA
GAACACCCATGCTTATCAGTAGTGGGATCACACCTATGAATAACCACTGTACTCCAGCCCGGGCAACATAGTGATACTCCATCTCTTTTTAAAAAAAAAA
AAAAAAAAGGCACATGGCTGGGCGTGGTGGCTTATGCCTGTAATCCCAGCATTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGTCAGGAGTTTGAGAC
CAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAACACAAAAATTAGCCAGGTGTGGTGGTGCGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGA
GGCAGGAGAATTGCTTGAACCCAGAAGGCAGAGGTTGCAGTGAGTCGAGATCGCGCCATTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCAAA
AGAAAACCCACATGGACACAGAGATGTACACTCATACAGACAGATCTGTATACTCCAAATGTAAAGCAACTTAGTGTTTATGTTAAGCACATGATGTATA
CTAGGCATTGTGTTAATGGGTTTTATATAAATTGCCTCCGTACATCAACATAGAAACTAGGTTTTATTATCTTTATTTTGCAAATGAGGGAGCTGAGGCA
CAGAGAGGTTAAGAAATATGTCCAAGTTCGCAAGCTTACTGGGGACTTGAAACCAGTTCTGTTTTAACTCTAGAACCCACGCTTTAATCATTGCAGGATG
CAATCACACATACTCATACACATGTACGATGTCTAGTATACACTCACAGGAATGGAGACATTTGGTAGTGATAACCTCTGTTTCTTTTTGTTTTTTAATT
CTGTATTTTTTTAAAGGATACATGACAAGAAGAAAACCCTTTTATTTCAGAAATAAAAGGGTTTTCTTCTTGTCATGTGTCCTTCCCTAGATTTGGCAAG
AGACCACTCCTAAGTCACCCTGCATGAGTTATCCAGCTCTATAAAAAGAATCAACAAGCATTGGTATACCACTTGCTGCATTCATTGGATGTCACTTAAC
ATGTAACTTCTAGGCTCACTTGGGCTTCAATCCTGGGAGGCTCCTTATTGGTAATATTAGTCTTCAGGAGGATGGCTAGACCTGGTCCTACCCCTTCTTT
GACCAGTCTCACCCGGGCACACCAAAAGGGACAGACATGTTTGTGAGAGACAAGCATTTTAGCACCTCAGAGAAGGGTAGTTTCTTATTTGGAATACAAA
GTTAAGTTATAGGTTTTGCCAACCACCAAGGGAGGCGTGTCATTGCRATAGTGTTTAGACAGGAATAGTCTAGGGAATTTGTTTAGTGTGAAAAGGCTTC
TTGAAGAAGAAAGGCACTGGGGCTTCCCTGGGTTGGTCTTGGCATGTGTACACTAACCTCCCARTGACACTGCGTACTCAACCTTTCTCTCCGCCTTCCA
GGTCTCGTTCARCGCTGTGTCATTATCCAAAAGGACCAGCATGGCTTCGGCTTCACAGTCAGTGGGGATCGCATTGTTCTGGTGCAGTCTGTGCGGCCTG
GTGAGTGCTGCATCCCTCCTGCCCACGGTGGACAGTTCTTGCAAAGCCACCATGTATGTGACAGTGCCATTCTACCTGTGCTTTCCTGTGGGGCATGAAT
GAATTACTCTAGAACTGGTTCTCCATGGGTGCGTGGGGAAGCCTCTTCAATGCTAAGCCCCCAGGCAGAATTTCTAGAGATTGCACCTCATGCTCGCTTC
CCTAGCTGGAAAGTGAAAAACCAGCAGAATAGCTGTCAGGTCATCATCAGGCAGATGTCTGATTGCCATCGAAGGGAGCCCCTCATACTGGGTCACAAGA
TTCCATGGAGGAATCAAAGGCCCCCTTTCTTCATATTTACCTCCACATTACCTGGCTAAGTGCACAGATGGTCACTTTCTACAGAGGTTTATAACCTGAG
ACAGGCACAATGGTCCAAATGATTACAGAGCACATTTGCTGATACAATTAACATTAAATAATAAATTACCAACAGATGAATGATATATGTTGGATGTGAT
GTCAGGGGAAATGGTGTTTGGAAGTTTGAGTAGTTTGTGATTTGAGGCATAGTCATTTTCCTTGTGATCATTTGGGAAGCCCTCTTAAAAGAAACAGGAT
TTTAGAAGTAGTTTGAAAGATGGAAATGAAAAGCAAATCAGCAGGATAGGAATTTGGTGGGAAGGAAGTGAAGAGTGGGTGGGCATCATAGCCAAATCCA
TCAAGTTACCAATTGTGTATAGAAGGGGTGTGAACAGTCAAAACTCTAGCATATGCCAGGTAGTGGAACCACTGTTGGTGGTCCAGGCTGAGGAAGACAA
TCAAAAAGGCGATGGGTGGCCAGCTGTGGTGGCTCACGCCTGTAATCTCAGCACTATGGGAGGCCGAGGCTCGCGGATCACGAGGTCAGGAGATCGAGAC
CATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAGAAATTAGCCAGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCT
GAGGCAGGAGAATGGCATGAACCCGTGGCCGGAGCTTGCGGTGAGCCAAGATCGTGCCACTGCACTTCAGCCTGGGTGACTGAGCGAGACTCCGTCTCAA
AAACAAAAAACAAAAAACAAAAAAAAAAGAAAGGCAGTGGGTGTGGGAGAGTCCTTAAAGGGTAAAGAAGTGTCCCTAAAAGGAGTGAACTTCAGTGCAG
TAAGTAGCATTGGGCTGGTGACATGGAGCATCCTAGGCTTGGCTTAAACAAGAGCACAAGGAAGGGATTGGGAGCAGGTTTCCTGATAGTGCAGAGCAGG
AGGGAAAATATACTTGCATTGATTTTGGAGGAAGATATGAGATATGTTCACAGGAAAGGTGAAAAGAGAATTTCAAATGTATGACCAAAATGAGTATGTG
GATCATATAAGGATATAAATAAGTATGGCTTCTTATATTTGGGAGTAAACTTATATCAGTGGGAGGTTTGTTTTGCATATCCTGGGGTGAAGCTCTAAAA
AGATAGTTTTATTATTTGCTTCTCTTATTTCTCAGGGTTCCTGGACTAGGGTGAGACAGAGTTAGTGGAACTGCCAGTAACTTGTACTTTTCCTCTGCTG
GTCTATCTGGTACAGAAAATGTGTATGGGATCCCCTCCAGTGAAGTCAAGGTTCAGCTCTCCTTTACCTTCTTCCTTCTCTTAGGCTGAGCAGAGTCAGA
CCCAGAGAAGAAAGAAGGAAAAGATGGCTTACAGGGAGAATATGAGTTCTAGAGTCTGTGTGTGTGAGAGTTGTGTGTGTGTGCATGCATGCATCCCTGT
GTGCATGTGTGTGTTGGGGAGGAGAGTAAAAGAGACTTCATTTGGATTGGCATTGAAGTCACAAGAGTAACAAAGCAGCGGTTATCTTTTCCAGATACAT
ATTAGGTTTCTTTAATTCACTGTCAAAGTATAGTCTGTGTTCTGCCTGTATTAGAATCACCTAAGCCCAAGATGATTGAAATCCTTTTYCTTGGGGCTGA
CCTCGGAAGCACTGAATTGCTTTCTGGCAAGAGGTCCAAGAAATACACTTTTTAAAAATTCCCACAGTGATTCTCAKGCTTGCTGAAGTCTGAGAATTTC
TGCTCAAGTTCCTTAACTCTGAAGAGTTTAGTTTAAAAAAAAAAAACACTAAGTTATTAGAAGTCACCTCACGTGTTTCATACATTCAGGCAAGATAGTT
CTGTTGTCTTTAACGTTAGTTTCTAAATGAACGTATAAGAGGGAATTTCAAGCTATTTGCAAGTACTCTTCCATAAATAGCACACTTTAGCTGAGGGTAG
TCTTGAGTCCCAGTATTGAAAAGCCAAATTGGAATGTAGTCATCACTGAATTTTTCTTTTTAGAGTAGAAACATTTAGATGGGCTTTGTGGGAGTTTTGT
TTTGATCAGAGGAATGCAACTTAAAGATTTAATGATCACGTTGGGGCAAATGTACAATATGTAATTTTTATGCTTCTCATTAACTTGTTTTGGCTTTAGT
GTTTTTTGTGCTTCCTGGATGTAAATTAAACTAGGAATATAAGTCATTTAAAACTATCTTGTGAGGCTGGGCGAGGTGACACATGCCTATAATCCCAGCA
CTTTGGGAGGCAAAGCCAGGAGGATTGCCTGAGCTCAGGAGTTCCAAGACCAGCCTGGGCAATATGGTGAAACCCTGTCTCTACAAAAAATACAAAAATT
AGCATGTGTTGGCACATGCCTGTAGTCCCAGCTACTTCGGAGGCCGAGATGGGAGGACCRCTTGAGCCCAAGATGTTGAGGCTGCGGTGAGCCAAAATCG
CACCGCTGCACTCCAGCCTGGGTGACAGAGTGAGACACAGTCTCAAAACAAACAAACAAACCATATTGTGGTCAAAACCACTGTAGCCTCCAGTTGAATG
ACAAGTTGCAAAAGTCAAGAGCATGTTCTTTTGAGCACCTCACAGTCAGTCACCATCAGAAGCTCTTAATTTGGTCCATTTTAAAGGGAGAAACTGGGCT
GAGTATGGAGGCTCACGCCTATAATCCCAGCATTTTGGGAAGCCAAGGCAGGAGGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACACAGTG
AGACCTCATCTCTACAAAAAAAAAAATTTTTTTTTTTTAATTAGCCAGGCATGGTGGCATGCACCTGTAGTTCCATAGCTACTTGGGAGGGTTGAGTTGG
GAGGATCACTTGAACCCAGAAGATCCAGTCTGTAGTGAGCTGAGATCACGCCTCTGCACTCCAGCTTGGGCTACAGGGCAAGGCTGTCTATAAAAAAAAA
GGAGGGGAGAAACTGTAAATGGCTTAAAACAGTTTTTTTAAAAGAAAKAAAACAGTTGTCTTTAATGATGTGAATACCGAGAATATCTTTATGAACCTCT
CAGGACTTAGGAAACTCTTGTTTTAATCCTTTTCTCTGAATTTCTCTTAATTATTATTTTAACAATTATGTTTCATACAGTAAACTCATTTCCCCCCCCC
CCCCCGGAATATAACTGATTTGACCTTGGAACATATCCAGATACACTCGAATGAAGCACACGTGCTCTTCCCAGAGCCTGGCCCTGCCTCGCTCCTGCCT
TGGCCTGGCTATCAGAAGTCTGGCATCTTATTTAGGTGAAAGGAAGAGCAGGAGATGGGACCTTATATAGTTCACTCTAGCTTAAAAGTAGTTGTGTCAC
TGGAGTAGAATAGGAAGTACACCCAGAATTTGAGATACTTAACACAGAGAAATAAGAGGAAATTTCAGAGGAGAGGTGATCTGACAGGGACCTTCGTGTA
GCTTCAGTGGAAGAGGTTGTTGGGCACTGCTGACCAGGCCTTCTCCTTACAGGAGGTGCAGCCATGAAGGCCGGTGTGAAAGAGGGCGACCGGATCATCA
AAGTGAGTGACCCCAACACACACTCCCACTCCCAGCAGTGGAAATAGATGTGCAGGGCACTCCTGGCCTTGGCCCATCCTGCACACTTTCATCTTGATAC
CAACTGCCAGGCAGCCACTGAGTTAGGAGTGGTACCATACGAGGGAGCACAGTGGTATAGCATGAGAGAGAGTGAGGAGGAGGATAGCTGTGTTCTACAT
TTTAGGCCTTTCTTGACTCTAAAGCAACCAAGCTTCTAGAACAAGTTTTATTATTCTTATTTCACAAATGACCAAAATAAGATTAAGAGGGAGGGTTAGT
AACTAGTGAAGGATCCAAGACTTCAATTCTCAGGTTGATATTCTTTCCTCCATATAATGCCAACCTGGGGTCTTTGCCCATTCTGAACTACTATAACCTG
CCCTGGTCGTTCAGACCTTTCTTCGACAGAATGGTGTTCAAGACTAGCCTGGGCAACATAGTGGGGTGCATTAAGGAAATCCTAGATGCAGAGACTTCTT
AGTCCTCTGTAATGAGGAAGCACACTGGGTCAGTGGACATTCACATGTGTGTGAAGCAAATGGTTAGAAAAGTGTATACCAAAAATAAGTGAATGAATGA
ACAAATTAAGGAATGAAGACACAGGTCTTGTCCTTGAAAACTCATAGGCTAGCTGGAGAGACAGAACAAATAGCAGATACAAACAGAACAAATTCATAGT
GTGACTTGAGTAAACAAGTGACCAGAGGAGGCTAAAGAGCATTGGAAAATGGCTTCCTAAAAACATGGCATTTTGGGCCAGGCRCAGTGGCTCACGCCTG
TAATCCCAGCCCTTTGGGAGGCCAAGACGGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCATCTCTCCTAAAAATA
CAAAAAATTAGCTGGGCGTGGTGGCTGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGTGGAGCTTGCAGT
GAGCCGAGATGGGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAGTGGCATTTTGAACTTACAGAAG
GATCCCCTAGCTGTTCATTACCATTACTCAATACTGTTTGTCCCTCCAACAGGTCAACGGCACCATGGTGACCAATAGCTCACACCTGGAAGTGGTAAAG
CTGATCAAATGTGAGTTGGAGAGAGGTGACAACTAAARTAGGGAAGCAGATGATCCGAGAGGGAGGAAAGGAGGGAGGAAAGGTCAGGCCTGGCATTCCA
GGAGGTTTCCTTTGTAGATATGTGAGGCAGCTAAAGTCACATCTTTAATCKTAACATGGAGTGATCCACTTAAGTGGCCACAATTCCCTATTACTTCAAG
TGGAGACAGTACTAGGCTCTCATGAGACATCTTCATTTTTACCCACACTCATCTTTGCCACACCTATTTAGACCATATCCTACTGAGACCAGGTCTCCCT
CAAATACCTTTCAATTCCCTCTGCCATTCATGGACATTCTTCCTCATTTGTTTTCTGTTTGGCAGGGAAAAGCAACAATAATCTGTTTATAGCCAGGAAG
GCCCAACAATTGAGTCTGCACAAATATTCAAATAGAAACAACAAATGTTGAAGAAAGAATTGAAGAATGTGGGAAGTTTGGGGAGAGCAGAGGGCTAGAA
TCTGAGTGCCTGGTCTGTGCCATGTGGGCAGTATGCTCAGAGTGTGACACTGGCTACTTACTTTAGTGAGATAAAGGGGGAAACAAGAGGCTGCTGAGGC
AGCCTGTGGGGCGTGTTCCCAGATATTTATGAGTGGAATTCTAGTTGAGGTCTCTGCATGAAGGAAGGGCAGGAAGTAGTACTTGGGCATGAAGGCAGGG
ATTAGAGAATGGGTGGGGCATTAAAAGTGAGGAGAACTTAATCTACAGAATAATGAGTTTAATGACAGGACAAGGGAGAACAGCCCCCYCYTGTATAGCT
GGACTGTCTCTCCAGAACAGCACTCCTGGAACAAGTCTCTCTCTGTTTCCCTCTAGCTGGCGCCTATGTCGCACTCACCCTCCTGGGCTCTTCACCTTCA
TCCATGGGCATCTCTGGGCTCCAGCAGGACCCATCCCCAGCAGGAGCTCCCCGAATCACGTCAGTGATCCCCTCACCACCACCTCCTCCACCTCTACCAC
CTCCACAACGCATCACAGGACCCAAACCTCTGCAGGTAATAATCCTCCTGGCTTTCTTTCCTCACCCTAATGTCCTGWTGAAAAGCTCCGCATTGGGGAG
GARAGCAAGTTAAATCCAGTGGGGCTGTGGTAAACAGAGACAAGCCAAAAGACATATGAAAGACCATTGAAAGAGTTGAACAAAAATGAAGGCTGCACAA
TAACAGTTGTTCCATGCCTTAGTGTCCTCCTTCCATGCAAATGCATATGAGGTTTTATCACACAGCAACATTGTGTGTTTCCTAAATGTGTAGAAGACTC
TAAGGATGCTGTCTAAAAGTGCTCCTCATCAGAGAGAGAGTGTACACTTCAGGCAGGGGCAGAATGCATCTGTTTAAGACCATTGCCAGTCAGTGTTAAC
CAGGGTTTGGAATAAAGTCAAGGAGTGGGGGAAAGGCTTCCTAGAGAAAAAAGCCTGCTTTGAGGTGCAAAATATAGAGCCCACTCAGTAGAGGGAGGGA
CCAGAAAAGGACAAAAACAAGTAGAGGCTAGGCGCAGTGGCTCACACCTGTAATTCCAACACTTTGTGGGGCTAAGGTGGGAGGATCACTTGAGCTCAGG
AGTTCGAGACCAGCCTGGGCAACATGGCAAAACCCTGTCTCTACCAAAAATACAAAAAATTAGCCAGACATGGTGGCATGCACCTGTGGTCCCAGGTACT
CAGGAGGCTGAGGCAGGAGGGTTGTTTGAGCCCAGGAGGYGGAGGTTGCAGTGAGCCATGATCGTGCCAATGCACTCCAGCCTGGGTGACAGAGTGAGAC
CCCATCTCAAAGAAAAAACAAAACAAAAAAACAAGTAGAAAGAGAACTCTAGAAGCAAGAAACACCTATGTGAAGAGTTAAAAGAGGACAAGATGCAGAC
AAGTATAGGGAACAGGACTTTTCAGTTGGAATGAAGACTGAGCCCACAAGTCCTGGGAGACTTTAGAGAGCAACTTGATACCAAAGGTGATTACAGCCAA
ATTGAGGCATAAACTCAAAATAAGATTTTGTGTTTACTGCATTCCGGCAAGGTACTGAATAAAACATACTTATGATCCAGGCTCTATTCTCATAGCTGTC
CTTGCCCAGGAACCAGCAGATAGAAGAGAGCTMAGCTGTTGAGTTAGTCCCTAACTCTTATATTGCCATATTTTCCATGTCTAGGATCCCGAAGTTCAAA
AACATGCCACCCAGATCCTCAGGAATATGCTGAGGCAGGAAGAAAAAGAATTACAGGTAAGGTCACTGCCAAGGGTAGACTGGCCATTGCCTGAGTGAAA
TAATACTTTATCAGAGCAGCCTGCCAATGTACACAACTTAATTTACAGGCAATATCCTATCACAGTAAAACCTCAAAAAATAAAACTTCCKGACCACTAA
AGAATTGTCATTGGCCAGTAGAATTTGTTAAAGCAGAATTTCACCAATAAAGTGAATAGGATTCTCCATGTGTAATAGATTAGGATAGTGAATATGTACA
CAAAAAAAAGTCAACAGAGTTTATCTGGGACATTTCCAAGGAAGGGAAGGAAAAGAGGGAAGAAAGGGATGGGTAGGTGAGTGCTGGGCCAGACTGAAAG
AGGTGGGGAGCACTTGGGTGAAGGATGAAGAGAGTTTACAGGCCTAGGAAGTGATGTGCACAGAGAACAGTAAGAAGATTAATTTACTGGAGTGGAATAA
CCAGATTCCTATTATAGCCATCCATGTAAGTGCCACCATATATAAAACACTGTTTTAGTTTCTAGGCTATATAGAAATAAAAAAGATTAGATGGTTCCTC
CCCTCAACATGTTTAAAATCTAATGGAGGAAATTCAAATTACAGTAGGAGGGAGAGTGGGAGGAACAAAGAGCTTACAATAAGAGAACAAAGAAGAGAAA
AATTAATTAATAATGGGAAATATGGGGAAGCRCTTCACAGAGAGGATAGTATTTCAGCTGGGCCTTGAAGAGTGGTACTTTAGTAGGCAAAAGAGATGAG
GGAGGGAATGCCAGTGAAAAGACAGCATAGGTCAAAGGCACAAAGATATGAAAATACAAGTATTTATTTCACAAGCACTGAGTCCTTGCTATATGCTAGA
TACCGTGTGTGTGTGTTGGAGCAGTAGATGGGGGTAATGTTAGGGGTGGGTGTTGGAATGGTTACAAAGATAAACCTCTCCTTTAATGAGTTAGTGATTC
CATAGGATATGGATGAATGAATGAAGATATACTATATTATGATAAGTGCTAACATTTATATATTGGCAAATGTCAGAGTAATCAAGACAGTATAATACTG
GTTCAAGGATAGACCTGTAGATSAATGGAATAGAATTCACATGCCAGAAATTAACCCATACATCTATGGTCAATTGATTTTCAACAAAGGTACCAAGACA
ATTCAATGGAGAAAGAATAGTATTTTCAACAAATGGTGCTAGGACAACTGGATATCTACATACAGATACTTAATTTGGACCCTTACCTCATACAGTAAAC
AAAATTTAACTCAAAGTGGACAAAGACTTAAATGTAAGAGCCAAAACTATTTTTAAAAACTGTAAAACTCCTAGAAAAAATTTTAGGTGGGAGTAAATCT
TCATGACCTTGGATTGGGCAGTGGTTTCTTAGATATGACACCAAAAGCATAACCTCCCCCCAAAAAAATAGTTGGATTTCATCAAAATTTAAAGCTTGTA
TATGTCAAAGGATTCTATCAAGAAAGTAAAGACAACCCATAGAAGAAATGGGGAAAAATATTTACAATTCAAGTATCTGATAAGGATCTAATGCCAGAAT
ATATAAAGGACTCTTAAAAGCTCAGCAATAAAAAGACAACCCAATTTAAAAACTTGCAAAGGATTTGAATAGACAGTCTCTAAAGAAGACAGACATACAA
ATGGCCAATAAGCATGGGAAGATGCCCAGCATTGTTATTCACAGGAAGATGCTAATCAAAATGACAATGACCTACCACTTCTCACCTATTAGGATGGCTA
TAACCAAAATAATGGAAAATAACAAGCGTTGTGAGATGTGGAGAAATCTAAACAATACTTGTTTATGTTTTGTCTGCATATTCACTGTGCTAATCTATTC
CGCCATTGATGGTGGGAGTGTAAAATAGTGCAAGCACTCTGGAAAACAGTTTGACAGTACTTCAGAACATGAAACACAGCAATACTATATGACCCAGCAG
TTCCACTCCCAGGTATATATCCAAGAGAATTGAGAACATAGGTTCACMCAAAAACTTGTACATGAACATTCATACCAGCATTATTAATAATAGCCAGAAA
GTAGAAACAACCCAAATGTTCTTCCGCTGATGAATAGATAAGCAAAATATAGTCTGTTCATACAATGGGATTTTACTCAGCCATAAAAAAGAAAGAAGTA
CTAATAAATGCTACAACATGGAAGAACCCTGAAAACACTATGCCAGGTGAGAGAAGCCAGACACAAAAATCTACAGGTYGTATTATTCCACTTACATGGA
GTGTCCGAAATATGCAGATTCATGAACAGAAAGTAGATCAGTGGTTGCCAGAGGGTTGAAGGAAGGGGAAATTGGGAGTGACTGCTTACAGGTACCAGCT
TTCTTTTTGGAGTTACGGAAATGTTCTGGAATTAGGTAGTAGGGGTGGCTGCACAACTCCGTGAATATACTAGAGACCACTTAGTTGTACACTTTAAAAT
GGTGACGTTTATGTCATATGAATTACAGCTCTATAGCAATTTAAAAAAATTTTAATGCTCTTAAAGTCCAAAACAAAGCATAATTATTTATGCAATAATC
AGAAGGCTTCGTGAGGTGATGCTTGAGTTGGRTTCAGTCTGCTGTTAATAGAACGTTGAAAATGTCAGTGGGACCAGGAGTGGTAGCTCATGCCTGTAAT
CCCAGCACTTTGGGAAGCCAAAGTGGGAAGATTACTTGAGCCTACGAGTTCAACACCAGCCTGGGCAGCATAGTGAGACCATGTCTCTAAAAAAGTTTTA
AAAATTAGCCAGGCATAATGGTGCATGCCTGCAGTCCTAGCTACTTAGGAGGCTGAGGTAGGAGGACCGCTTAAGCCCAGGGGTTTGAGGCTGCAAAGCT
ATAATCGCACCACTGCACTCCAGCCTGAGTGACAGAGCAAGACCCTGTCTCAAAAAAAAAAAGAAAAAGAAAAAGAAAAAATGCAGTGAGTCTTGTGACT
GGAAGGTGTTATTGGCCATGAATACCATGAGGAGCTTGGAATTTGTTTTGAAGTCTGTGGGAATTAATCAAAGAACTTTGAGTGGGGGACTGATGACATT
TTCAAACCAGTGTTCTTTGGAGAAGTGTGTTAAATGTAAGGAAACCATCGAGGAGGCTATTGCAGTAGATAAGCAATAATGACAGATTTAACAAGAACAG
CAGGAGTAAGAGCAAAAAGGAGAGGATAGCAATGGGAGACTTGTCAGAGGGCCAATCAGTAGAACTTATCCATTGGTGAAGGAGAAGAAAGAATAAAAGA
TGGCTCCAAGTTTGTGTGTCTGGGTAGATCAGGTGATACCAGTGACAGAGTGAGATAGAGGAGAGGAGCAGAGCTTAGGGGAAGGAAATGAAGGTCAGCT
TTGGGTATACTAGTGTAAGGTGCCCATGAGACATTCAGATAAAAACCAGCCACCAGGCATATGGAGATAACAGGGCTGAACTTAGGAGAAAAGCCTGGGT
TGAAACAGAGATTCGGATATCCTCAGTATGAAGGTGATAGTTGAAACTGGGGACTGGATGACCGAAAGAGATCACCCAGAACACCAGTACAGAGAGGAGA
GAGCTGAGGATGGAATTTTGGGACATAGGTGCTTCTACAGCACATGGCACCAACCTCTAATAATCACACCACTTGCTATTACATTTGATTTTTGAAAGAG
TAGCCTGCGCAGTAATGGGAGGAAACTAGATTGTATATGTTGATGAGCAACTAGAAACAAAGAAGTGCAGGGCCCTAGTTGTAGACTAATGTTTTGAAAC
ATTTGGCTGTGGGCTGGGCATGGTGGCTCATGCCTATAGTCCCAGCACTTGGGGAGGCCAAAGTAGAGGATCACTTGAGGCCAAGAGTTCAAGACCCCTG
GGCAACATAGCAAGCCCCTGTGTCTATTTAAATAAATAAATAAAATAAAATCAGAAAACCACAGGCTCATATCCCTTTACAAAAAAAGAAAAAAAAGTGG
CTGTGAAAAGAAGGGGAAACAAATGGGGCAGTGGCTTGAAGAATCATCAGAAATGATTGAAAGACTTTTGTTGGGGTGGTTTGTTTTTGTTTTAAATCAG
GAAACTCGAACATTTTGTAGGATGGAGAGAAGGAGCCATTGGAAAAAGGAGACTTTGAAGATATGTGAACAGTGCCCAAGAAGAGCCCAAAGCAGTCAGA
GGGTTAACTTTTTGAAAGATTTAGACATAGTTTTTCTTCTGAGCCAGGAGAAAAAGATGACTGAAGATGTTTTGAAATGGAGTACAGTTGGGAAGGTTTT
TACCAGATGGTATTATCTGCCAAGGCTAGAGAAGGGTTGGGGTTTGATGGGCATGGAGAAGATGAAATATTAAGTATGGGGAATTTGTAAAATGGTTGTC
AGGTAGTAGTGAAGCCCCAGATGAGCCTAGATAATATGTGAACCCAATGTCTTTATTTACCAACAAGCTTTATGGAGCATCTCCTTTTGTAATGAAATGT
TAATAGCTGCCATGTATTCAGGTATCTGACTTTGCGCTAGACATTCTGCTAAGCACTTCATATACATAATCTCACTCCACTATTACACCCGTCCCATGAG
GCRGGTATTGTCATCTCCATTTTATCAATGAGGATGTATTCAAGCTTGCCCAAGTCTATACAGCTAGTAAGTGGAGGTGCCAGAAGTCAAAGCCAGGTGT
CCCTAACTGTGAAGCCCTGAGGAGTGCTAGATAAGTGGCTAGGATGGTACCTGCTCTCCAGGAGCTTCCTGAGGATGGGACTGGCACAGGCATTGGCTGT
TGTAGTCGACACTGCTTCCTCTCATTTCTTGTGGTTCCATTGTGTGTAGGTTCCCTYTTAAGCACTTTTTTATGTTCTGGTCTGGACAATCAAATATTTC
ATACTTGAGTGGTAGCTGAAGAAGGCCTCATTTGGGATGTGGGACTTAAGGCAGACCTTGAAGAATGGCTCAGATTAGGACAGGCCTTTGTGTTTGTCTT
CTTTCTGTGGTTGTCTCCTGTGTTCTTTTTCTCATCACTTACATCTTTTTCTGATCCTGAATGATGTTGAAATACCGTGCATCTACTTGGAGGCAGAGAC
CTCTTCTCTCTCATCTTTGTTTTGGGATAACTGCCTATTCTCCCCACTGGTGAGTCATCCATTCTCTATTAACCACCCCTCTGCCTTTTCCCCTCCCCCT
TCTCCTCCTCACCCATCCCTAGCGTATCTGTGAGGTCTATAGCCGGAACCCCGCCAGCCTACTGGAAGAGCAGATCGAAGGTGCCCGGCGGCGAGTCACT
CAGTTACAGCTGAAGATCCAGCAGGAGACTGGTGGCTCAGTGGTGAGTGATGTAGGCACAGCTCTAGTAAGGGCACATGCAGTAGAACTGGGGGTAGAGT
GAGGGAAAAAGCAAGGACAGAAGGCTTCTTGGGTTATGCCAGGACCTCAAGGCTGAACTAGTAAGTGTTTAGTATTTTACAAAGAAACCAAGGTCAGCAC
CAAAGAGGCTGAGCATTGTAGTGACACTTGGGATACCATAAAAAGAAAAAGCCTATTTCTTGCCCTCCAACAACATAGGCAATGGAAAGAAAGAAATATG
AAATAAACAGATTGTCAGTGTTAGTCTCTGAATTATTCTTCCCTTCTGGGTAGTTCTTCATAGTGGATGTATGTACATTTCTATACTGGTTTTACCCAGT
ATTTCATCTGGTACCCTTTCCCACCACCTATACTCAAGTAATGAGTCTTCTCAAAGAAATACAAGTACTTTTTAAAGTCAGACTACATAAAAGACCCCCA
GTCTGTTGAGATGGATCTGTATCAGCAGATAACCACACTTTATGGAAAACTCCAGAGAGTAGATGATTCTTTATCTATTCTCTTCAGGGACTTTGCTATT
AGTGTCTTACTGCTCTCCATCAGGCCTTAATTCTTGGGGTAAATAAGAAGTAACTCTCCAGAAACTTTAAGGTCTCCAAGAATAACATTTGACAAAGCCA
ATAGGAATTAATTAAAGATGATCTACTTTTGCTTTTAGGATATCCAGATCAAAAAAGTTTGGGAAACATAGGCAAATACATTTAAACTGCTTCATTTTCT
GAAGGACTTCTCATATTACATGGCTGATAGGTAGGAGCTCAGGTTGTGGACTTAGACCATCTGGATTCAAATCCAGCATCACTTCTCATCAGCTTAAAGA
CTCTTGGGCAAGTTAATTAATCCATAGGAGCCTTAACTTCCTCATTTATAAAATGGAGATCACAGTGTTGTCAGAGTTAAAGCATGCCTTTGACAGAGGG
GCTGTACATGTTTGCTGCTGCCACTGCACTGTTGATTGTGCTATGAGGTGATGAGTCTGAGAAACTAAGCTTGGAATCTGAAGGTCTGAGCGCCAACCCT
GGCCTTAGGGTTGACCTGCTGTGTATCTTGGGCAAGTTACTTAAGATCTCTGAGCTTCTGTTTCCTCATTGATAACATGAGAGTAACATGCCTAAGCCAG
AGCCATTGAAAGATTAAATGTGACATAGAAAAGTGCTTTGTAAACAGCAAAGCACTATCAACATCGCTTCCTTCACATCCCACTAGCTCAGTCAGTCTCA
GGCCAATGCCTGTCCATCCTCCTCAAAGATCTCCAAAGGTAAACCTTTTATATYTTCCCTCGGTCACCTGCTTGAGTCTTTTTTTATACTTCTTGATGGT
TAAGAAGTTCTTTCTTGTATCCAAATAAGGCAATAGATGCTTTGAGGTCCAGGGTGATTGGATAAAGCTAGCTTTTAGAATTTCAGTAATGGTAAAGCTC
CCTTTCCACCATTAGGGGTCATTGTCATCCTCAAACTGTACAAATGAAGCAATATCTCTTCTAGCTGGGCATTTTTGAGGCAATGAAGCGGAAGAGGCCA
CTAATTGTAAGCAAATAAGGCACTGATTGGTGAAAGAAAACCGTAGGGGGAGAGGCTCACAGAATTTGCCCACCCTGTGGGCCTTTCTGTTTCAGGACAT
ACTTCCACTATATGGTGACACCAGCCAGAGACCATCAGAAGGTAAGTCCCCCATCACCCCTTTTTTCTCTGGCATATCTCTAGTCCAGGTTTCTTACCTG
TTTACCCTCSCCATGGGGCAGATTCCAGGAAAGAAAATATATAGTGCCTGCCCTCTGAGAAATGAAATAATGGGAGAAAGCAGTACAAATACACAGGGAA
GCTGGATACAACTTAGGCAGTAGAATAGAGTGTATAGCCAATAGCCGGGATAGATAAGGGCTAGTAAGATACCAGAATGAGTATGGTCCAGACAGCAGCT
TGCCTGACAGCTCCTGGCACTAAGGAATTCAGCAAATATTTGTTGTAAGAAGAAATGGGTGGTGACCAGAAGAGGGTTGGGAAGGAGTTGAGGAGCAAAA
CTAGTTGTGAGAGAGAGTTATGGAGTCTTATTTCAGGAGGTGACATGGCCTGTGCCCAGGTGCATAGACAGGTGAAAGCTAGATGTGATGAGAGCAGAGG
GGAGGTGTGCCGGGAAGTGTCCGAGTCTAGAGGTCATGGGATGAGAGAGCTGAAGGGAAACTGGTGAAAGAAAAGGTGGCAGCTCCCTCTTCCTGCCCTG
CACACAGGTGCCCAGAATAAAGGCTCTCTTTCCCCTAGGCCACAGCTCCTTCTGTRTTAYAGAAACTATTTTCTTCTCAGGCYGGCTCTCTCTGGATTCC
CAGGAGGGGGACAGTGGCTTGGACTCTGGGACAGAACGCTTTCCTTCCCTCAGTGAGGTGAGTYCCAGCAGGGCAAGGCCCATTCAGAACGTGCATTCGG
GGTCCCTTCCCTTGACCCAAGTTCTGCTGCCTACCAGCTGCACTGAGGCCTCTGTGTGCCTCTTCCATCGTTCTAGTTCCAAGGATATAATCACTGTGCT
CTGGGTTCCAAAGCAGAAATTTCAGATGCATCCAACATGCAAGATTATCAAATCTGGCTTTCATTTTATCATTGTCAACTCTGTTATATAAAGAGTAGGR
TGGAGAGGGCGGCCATGGCATTAACTGTGGCAAGCCTTTGAGAGTGAGGGAGCAGAGACGAAATAATCTAAAACAGTGACTTGACCAAAAACATATTTCC
ACCTGTCCAGGAATAACATCGTCTTAGATTAATACAGTGAACCCAACCTATTCAGAAGTGGTAGTCTTTTTTTGCTGTGGATCTTTTTCTTCCCAAATAG
CTTGTCTTTTCTGGAATGACTAAAAGAATTTCAGGTTTTGACCTCAAAGGTTATCTCTTCCAGGTGTTCTCAGTTTGCACATGTAAACTATGAACGGCAA
TACAAAAGTAAGAATGAATGGAAGAAGTAGTAATGAAGTTAGCAAAATATTTGCTTAGCCAGAGTAATTAAATATGTGAATATGTGGTTGAAAAGATGTT
AAAAACCTAATTTTAGATCACAATTGGAATTTTATTTTCTTACTGCCCTGTCCATGGGAAAATGGTGAAATATATGTGAAAGGATCGGTATGTGGGAAAG
TCACCAAGAAAGTGGAGTGGGACAGGGATCCTAAAGAATCTACAGTTGACATTATCTGGAAGGCCACAGAGTTGGTGATGAAGAGTGTGTGCTGTGAGTT
GAGGCTGCCTGGGTTAAGTCCAGGATACACCTCATGACTAGCTCTCTGACTTAGCAAGTCTCATAACCTCTTGGAGTCTCAGTTTCTTTGTGTGAAAATG
GGACGAATAATAGTATCTACCTCAAAGGGCTACTGTGTGAATCGAATGAGATAATGTGTAATGAAGGGCTTAGTATAATACCAGGCACAGAGCAAGTACT
GCACTTCTCTTAGCTGATGTTATAAGTATGGTTATCACCACCAACACCAAATGAGCTGAGCCTTGAGGGTCTTCCGGACAAGGTTCCTTCTCACAGAATT
CTTTGTTTCTCTAGTCATTGATGAATCGGAACTCGGTACTGTCAGACCCTGGGCTAGACAGTCCTCGAACCTCCCCTGTGATCATGGCCAGGGTGGCCCA
GCACCACAGGCGGCAGGGCTCGGATGCAGCAGTCCCCTCAACCGGTGACCAGGTGAGTGATCTGGAGCCACCCTGCAGTTTTCCTTTTCTCAGAAGTGAG
ATTTGGAGGCATGGGTGTTACCAGTACATCGTCTTGGATCATCAGACTAAACCCCTGCTTCAGCAACCCAAACTTTGAGACAGTCACTTACATAGAGAGC
AAATAGTAAAGAAAGAGAACATGGCATAAATAGAGATATGAAAGTAAGGCTGGCTCCATTTCTATGTGGAGAGTGGGTGAATGCATCTGTAGGGAGTAAC
AGCTAAGGAGCGGATAGCTGGTCTTTCTGTCTATACAGAATAGGAAATAGGTTTAGGCAGTGTTTCTCCAGGATACTAATTTTCAGTTTCCCCGTTCCTT
AGCAAAATCCTTTTCTCAAACAAAATCTTATTACTTGGAACCGTAACATAGAAAAGAAAAAAAAAAAACTCAGCTCCCCTAGGACCTTTACTGATCAACC
TCCCCCTGCCCTCAAGGGCACTTCCATGGAGCCCTAAGGTTCTGCAAAACCTGATTTGAAAGGCCCTGCTCTCAAGGGTGGAGCTAGATCCAGGAGAGAC
TTCAGGAAGATGGGTTTTGACTTAATGCAAACAGCTTGCAAAGAAGCTGGGCTGTCTGGCAATGGAATGGACTTGAGAGCCAGAGAATTGCCTGTTGTTT
TTCAGACACCGTTAACCGTGTCTAACAACGTTCAGACGTTGTTAGACATCTAAATATTCAACGTTCTACCTGTATAATGTTACTTAATATTTTTCTTTAA
GCCAAGTTTAAGTTCTTTAAACTTAAATTCATCTCAAGGAAATCTGTCATTACCTTAAATTAAAACCAGCATCATGATACACTGTAAATGTAGAGTAAAT
GTAACACTAAATATAAGTTTAGAACCAAGTTTGTTAAATTCTACCTAGAAAGATATAAGACAGTGTAGAAGAAAGCTGCCATTTATATTAAAAAGAGGAA
AAGGAGCCTCTTTCTTAAGACATCTCTGGATGAATGTTTAAGAAACTGATGGTTATTGCCTCTGATGAGGGGAATTAGTTGGCTTGAGGACGAAGTGGAT
GGAAGACTTTTTATTATCTTTACCCCTTTGTGTCCTTTTAATTTTAAACTACGTGATGTAACTTGCTCAAAAAGTAGAGATAAAATTTAAAACAACCCGA
AAAATAAACTCTAGATCAATTCTATTGCTTGTCAAAGGCTTTAATTAAGCTTGAGGGCAATTCTGCCTTGGTTAAAGGTATTAAAGCTATGCAGGCACCA
GGCTGAAATTTTTCCTGGGTTAATCAAAAGGATGGAATGAGAACTGAAAAGAAACTAACTTTCTTACAATATGAGCCAGTATTATTTAATGCCATGTCCA
GATAGCACCTAAAATCATTTTGACCCTCAACAAAAATCATCTCACTTAAAATCCTTATAGTTCCACTTCCCATGCTGGAAAACACTGGTGTCAGGAGTTA
AACAGGTGGTATTTTCAAACTGTGGGTTGTCATCTTTTGGGGAGTCATAGTTTCAGTATTGAAGGTCATGAGCAGCATCTGTTTTAATGAAGTAGAATCT
AATAGCATGGAAAAGAAAATAACAGAATTCATCACATGTAATAAAAGTATTTTGTGAAACTTCTGTTTTAATTACATATGTGTGTGCTGAGTTGCAGTGA
AAGCATATTTATTAGAAGTCATGGTCAACAGAAAGTTTGAAAGCTACTTTCTGGAGTTCTTTTGACTCTGGGAGCCTGTTAATCACTGAGTCCAGGAGGA
GGTCTTCAGAAGATGGGGTCTCTAAAGTAATTTGGATAATGAGGGAGAAATGGTACAAGGAAGAAAACAGAGCAAACGATAATCCTACTCACTGAGCTCT
CTTTGGTGGTGTTGTGATTTTAGTAAACTTGTCCTCTCACCTTGGAGTTCAGGGTTCCAAGCAGCATCTTTTTTCTCTTAGAGCATTTATCCCTCTGCTG
TTACTTCCCTATGTGGCTTACCTCAACTTTATATGCTTTATCTCTGTAGGCACCTGGCACATAGTAGCCACCTTCATAATGTGTAGTGAATGAATGACTG
AATGGGAGTAATCAAAATTGTCTTCTGAGTGGCATCTTAGGGGAGGACTTATCCAGGACACAGAGCTCTTAAGTTTCTTGAAGCTGAAGTTTCACAGTGT
GATCTGTAGAAGAGAGGATCATGGCCTAAGTGAACATACTTTTTTATAAATCTAGAGTTATGCAGGCATCAAAAGAAAATTCTAATCAAGAGCTACTGTG
CAAAAGAAGAATACATGTGACCAAGCCTCTCTGAACCTATTCTGGTTGGGCTGCCAAATTCACAAAAAATAGAATTTAAAAAAGATGACAACATATGATA
CTCTAGTGTTACCCATTGTATAAAGTTTGGTTATTCTTACAATGTGGAGGGGAAAGGTGGGGAAAAGGATCGGACAGGTATTAAAATGCCTAGTGTACCA
GCTGCTGTGCCAGATCTTTACCAAAAAATCTCAAGTAATTCTCACAATCAGGAAAAAAGTTGGCCATTAGAATCTTCGTGTGGTCTAAGGGAATGTTCAA
GGGCTAGCCTTGTTACTGGCAGGGTCAGAACTAGAATTTAGTTCTCCTGGTCCCCAACACGGAGCTCTTTCCTATCCTAGCCGCTCTTTCATTGCCCTCT
CTATACCCCTATCTTTGTAGAACTAAAGGACCAAGTTCAGTTTGCTAAGGGGTTCAGGCGTCTATCCTGTTCTAGGAAAGGCTTTCCTTCAGGTGGCTCA
TAGAAGCAGGTGTGGGGTCAATAGTGTTGGAGCCCTTGTTTTCCTTCTGAAATTTTTTCATCTTCTGAAAACTAAGTTGGTATTTTCAAGTGTTAAGAGC
AAATAGAGTATAATTTCCAGTTTCTTAGTAGTAATAARTGTTAATAACAGCATAGGAAGAAAACCTATACTTTCCATAAAACTGTCAGCAGCAGGGAAAT
GGATGCATAAGGAACTCTCACTTTCTGTTATGTCATTCTATAACATTTGATCTTTTTAATAATAAGCATATTCTACTTTTGTAATCAGAAAGAATATGTA
TTTCTAAAGACTTTAAAAAAAATCCTCCCCGTAAACAAGCAAAAGCTTAGTGCTTTTCAGGTTTCACCAGAGAGCTCAGTAGAGCCAGAAGTGCTCACCC
ACCACCTTCTGGGGCTCTCAGACCCCAAGAGGGTCAGAGAGTAGGGTGTTTCGGAGAGGAGGATACTCAGGATGTGTCTGGGAAATACAAATACAGCACA
TCAGGCCTGATTCTGCAGCTTTGAGCACACCAGTCAGTCTGTCTGGGCCTCACTTTTTTCAATTATAAATGAGTGTTAGACTCTAGTGTCTGAGATACCT
TCTGGGCCGCTCATGTTCTGTGACTCAGTCATTCTGGGCATAGAGACCATAAATATCCAGGAAAACAAAAAAGGGGTGAGGAGCATCAGAGAGGAACTGT
CAGGAAAAGCCCCTTAAGAAAGTGGGTTAGGAGGGTATCATAGGTCTGGGTTAAAATAGGCACATTTAAGCTGAGTGGGTTCCAGAAGCAGAGACCTTGT
TGGGGAATCACTGGAAATGAAAAATATCAAATTGAGTGAGAAATACAGTTAGTAGAAAAGCTTTGAAAGCTCAAGGAACCTTTAGGAGAAAAATTTGTTC
AGTGAAGCATCTGAGAAGTTTATGCAATATGAAGTCTTATCATACCTAATCCATGGCATGTCCATTAAGATTAGGTTTTTATTTAAATTAGCGTAAGGGG
GAAAGAAAGGAAAGCCAGACTAAGAAATTTGGATTTTAGACAGGTAATGGGGATCTAACACAGATTCTTGAGCGGGCAAACAAAATAATGCAAATGGTGT
TAGAGAAAGATCAGCCGCATCTCCATTTGTTCAGAGAGGCAGAGATCTACTAGTAGGCTCTCCGATCATTATTTAGCCACCAGTACTTACTAGGCACAGA
ATAACTGTTCAGTAGCACTGTGGTAGACACTAGGTTTGGAGGATGTGTGTTTGGGGTAGGGGTGGCTGTTTACTCTATTAAGTAAAACAGCCCCCAACCC
AGCAGTCCAGCAGGAGCTGTTGGCTCTTATTTTGTTGACTGACAGTCCCACCCCAGATCTTTTGCAAACAGGAAGAGAGCATTTTCTCCTACTTCCCATC
TTCATATGTCATGTGACMAGGCTGCTCTGAATCTGCCCTGCCCCACCCAGAAGCAGTTGACTTCCTGCAAGTGGAAATCATTTCATCTGTGCTCTGATTT
TGGGGGCGGGAGTGAGATGCCAACGTTCACCAGACCCGGGTGGCTTTGTGAGTGCTGTGCTGCAACTAAACAAACTTCACTGAGGTGGTTGAATCCTCTG
TCCTCTATAACCTCTCATCTCTGCAATTTGACTCTCTCCCCCAGGGTGTAGATCAAAGCCCAAAGCCTTTAATTATTGGCCCAGAGGAAGACTATGACCC
GGGTTATTTCAACAACGAGGTAACGGTTTSCTAGTTTTCTCCTTTCATCATTTTTTTTTGTCATACAAGCTGCTCTTGACTAGAAGCAGTTTGACTAGCA
TCAGCTGTGAAGGGAACTTGAGGCGGGGAGCCTCCTGTTATGAACCCAGGACGGGGAATCACATGGGAGCTAAGCTGGAACCCGCTGTGCTGCTGTGCCC
GGCTTCCCACCATGCTCATCCTTCTGCCTTCCAGAGCGACATCATATTCCAGGATCTGGAGAAACTGAAGTCTCGGCCAGCTCACCTGGGGGTTTTTCTA
CGTTACATCTTCTCTCAGGCGGACCCCAGTCCACTGGTAAGTCAGAATCATCTGTCTTGATTGAGTGCCTGCTGGTACTGGGCAGAGAGGACCTCTAGCC
TCTGTTTCTGCTCCCTGGCTGTTACAAGTCAGATCCATGGGCACAGTCAGGCATTTCAAGGACAGACAAAATAGCCAAGAAGATGAAACCTATGGAGAGG
GGATTTTTCACTGTATGACACAGCTAACTAACTACATCAGCTGCCTAGGGAGGAGCAAGAGAGCAAGGCCAGGAAAACTCATTCTTGATCAGTTCAGGAA
GTCGTCTTGGAGAAGTTGCTCTTCCTAGAGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCACTGTCGCCGAGGCTGGAGTGCAGT
GGCGCGATCTCAGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCTGTTCTCCTGCCTCAGCCCCCCGAGTAGCTGGGACTACAGGCGCCCGTCACCATG
CCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTATTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCACCCACCTCAGCCTC
CCAAAGTGCTGAGATTACAGGCATGAGCCACCACGCCCGGCCTCTTCCTTCGTTTTTTAAACGAAGGTAGATACAGACCGACTAGGGAGTTGAGAGAGTG
GCCCTGTGAGAAAACTTGCAGATGGCAAGGCTTAAAGGGTCTTCCGTGTGAAGGTGATGACAAGAAGGAATGTGAAGGGATGGAGACCAAAGTGCCGGGG
AAAGTGCTCAGAGCCAGCAACCTTCCCAGTTTCCTTATTCTGCTCAACTGCTTAGAACGGGAGGGCAGATGGAGTAGAGGAGTTGCGGTTGTATTCTTCA
GAATAAACTTCTCACCTGGGGCATGGGCTGCTGTTTTGTCTTTCTGGGGATACCATCAGAAGCCAGAATGAACAGCCATCCACAGGTATTCATTGAACAC
CTGTGTGCATGTCCAAGTGCCAGAAGCATTCCTGAATAAAGACAGGGCACACCACAAAGAGAAATAAAACATGAACCCTTAGGAAACAAGACGTAAACCA
GCACAAGACACAAGTGAAATAGCACGTGTGGAGAGGATACAGAGTTGAGGAGTGATCAGTGTTGAAGATGTGCCCGTGGGAAAGGGGGTGGGGATTATTT
TACCACAGGTTTCTGAAATACTCTGACCCCAGCTTTCTCAACTGTTCTGAACTGGAGAATTCTTTGTTGTGGTAGACTGTTCTGTGCCTTTGGGGAAATA
TGGCTGCATCACTGGGCTGTACCCACTAGATGCCAGTAGCACCGCACTTGCCCAGTAGTTGTAACAACTAAAAATGTCTCCAGACATGGCCAAACGTCCC
CTAGGGGGCAAAATCACTGCTGGGGGAGAACCACTGCTCTAACCCAGTTCTCTCTCCTCCTAGCTTTTTTACCTGTGTGCAGAAGTTTATCAGCAGGCAA
GCCCCAAGGATTCCCGAAGCTTGGGGAAAGACATCTGGAATATTTTYCTGGAGAAAAATGCGGTAAGGCAGTCATAGATTGGATTATAATTTTATCATAT
TCTTTGAACTACTCAGAGGCAGGGAAAATTAAGCAAAACATCCAGGCCAAACRGAGACAGGTTCTTAAAGAGAAATCTAGGCTGAGAGATTAATATTCCT
GGATTCTGTTCCTAGCGCCACTCTCAAAAAATCTCACAGTACCTCTGTTGTTCCACATATAGAATACACATTGCCTGTCTCTGGAATGTTTGGAGGAAGA
GMTTGTACCAAATTCTCCCTATTCTCCCCTCATTCAGTGCCCTGGTTCCCCCCAACCCTCCCTGCCTTGCCCATCCCTAGGCCGAAGAAACAGAGGTCTA
GAGACATCAGATGACCTAGATCCGTGAGGCAAGAGGAGAACCCAGGTTTCTGAAGCTCAGTCTGAGTTGCTATTACTGCCCAAAGGCAGGAGTCAGAGAT
GGGAGGCCCCAGAGTGTCTGGGATAGACAGCACGCTGTGCATTGGGACAGAGTTCCCGGGGTATGTCAGGGATCCCGCTGGCAAGAGCATTTCTGCCTGC
AAAGGGCAATCGCCATCCCAGACTTTCTAATCTGATCAACTAGACTAATTCCAAGGTGACTTTATTCTTTTGGCAGTAAGCTAGTAGGGTTAATGAGGTT
GGAGAAAATTGGTTTTTCTTAAGAGTTTTATATTTGCCCTCTTAAATGGGTCTTGAGTAGGGAGGTTAGAGCTGCCAGTTGTTCTCTGTTGGTTGTTATG
GAACCTTTCCAGTATCCAGGTGTCAGGGACTTGTGTAGCAAAAGCCAGAACACCATGCTAACTGCAAGGCTGGGTGACACAAGGCTAGCTTTCCCATGGG
AGTGAGCGGGAGGGAAAGTCCACCAAATAGCCTAATGAAGGCTTTTCCTTTTCCCTTGCTGCTAAGTCAGCACAGGTCCACTTTTTGGACAACATGCCAT
CCCATGCGCTCTAATGGCCTGGAAATAAGAGTGAAAAAAACTGCCTGTGCCGCCCTCAGAATATAGTACCAGCTTGCTCTGTAGCCTCAGACTCCATTTC
CCAAAAACCCTAGCCTAGAATTCAGGTGTGCAGTTGGAGAGTGATGAGAAGGATGGTAGGCAGATGTAGGCGAAAAGGCAAGAAGTTCATGTGGCCAAGC
CCTCCTCGCCTTGCACACTGCTCATCTCCCTGGAGTGTGCAGACCTGACTGCTTCTGCTCCACACTTCTGTTTTTTAGCCTCTGAGAGTGAAGATCCCTG
AGATGCTACAGGCTGAAATTGGTAAGTTGGCTCATTGGTCGGTAAGTCTCTTCTTGGTAGCTTTCTTGTCCTGAGCTCTCAGGAGGCTCCAGAGGACAGA
AGGGACATAGTCCCTGTCCTTGGGCAACCGTCCTGTAATAGAGGAAAAGACCCATGGGATGATTGCTCCAGAACACTRCACAGTAGCTTACGGACAGGTG
CAAATGGGACAGACCCTGCCTAGGCGCTCACTCTGCCGGGGGGAGCTTGTYATGGGAAGACATTGGACTTGGAGTTAGGAGACCTGGGTTCATGTCTGCC
AGCCTTCTACATGACCTCTCTGGGCCTCCGTTGGCTTATCTGAACAAAGAGGAAACAGACTTGATTAGGGATTCCTCAGCCAGGTTGATTGTCAAGAATC
CCTTGGGGAACTCAAAAAATACAGAAACTAGGGCCTCGCTCCATCCTCCCTGCAGAGTTGGAATCTCCAGAGTGGTTTTTCTTATTGTTTTTTTTTTGGG
GGGGGGAGGGGGGGTTATTTTTGTTTTTATAAGTTCCCTAACTAATACTGACAGCAGCGAGTCCAGAGTGAGGACCAGGCAGGCTAGATGGTGCCCGTCT
CCCTTCTCCTTCTAATCATGAGTAGAAGAATTAAGGRGAGGCAGTCTAAGGTGATGTCAGCCTGAGAAGCTAATCACTGGCAGCTTTTTAGAGGACAGGA
ATTGGAAGCTGCATTTAGAAAGAGATGATTTACGGGCACATGTGACGGGGAGGAAAGCCCAGGCATAGGGTAAACAGAGCTTGCTCAAAAGCAGAGTGAG
AATGAAACACAGCTCCCAAGGACTTAGCCTAKCCTGGGTGGAGCTAGATGCAGGGACTAGAGGAGAGACATCTTTCAGTTTCTACTGGGGAGCTCAGGTT
TCATGGAGTGTGAAGTGCTTGCCTTTTTTAGCCTTGTGAGCTGCTTCTGGAGCAGTAGAGGGGAACAAGCCTCTCAGAGGTCTGCACTTGGATGTCAGAG
AATGGTACTTAGACATATCCAATGAGAGGGACTTTAATACTTCTCTTAATGGAGCACAGAACATCCAGAAAATATTTTTGTCCTTGCCTTGGACTTTAGA
TATCAGCATCCAGTCCTGAATTCAGGAATGACCTGAGAGGTCCAGGCCTCCTCTCCTTTTAGACTAACAGGGCAGAAAGCCAGCCCTTCCTCCCAGTGTC
ATAGGGAGCTGAAATGCCTTGAGATGCTCAGCAGAAGGGATCCCCCTCCACCCCCAGTACCCCATCCACTCTGCTTTCTCTGATCTCCCACTACAGACTC
GCGCCTGCGGAACAGCGAAGATGCCCGTGGTGTTCTCTGTGAAGCTCAAGAGGCAGCCATGCCTGAGATCCAAGAGCAGATCCACGACTACAGGTTGGCC
CAGGAGCTGACCTCCCACCTCTCTCCTCGTTCACCTCCKCCTCTTGGCCCTGGCWCCTTCCCTCTGGGACGTGCACATATCTCTTGTTATATGTGTTTGT
CTTGTTCTTTCTGGATGTCCATCTGTTGAGTATTTGTGTATATTTCTTTCTTTCCCTGTGTTTATCTGGCTTAGAACGAAGCGCACACTGGGGCTGGGCA
GCCTGTATGGTGAAAATGACCTGCTGGACCTGGATGGGGACCCTCTCCGAGAGCGCCAAGTGGCTGAGAAGCAGCTGGCTGCCCTTGGAGATATTTTGTG
AGTCTTTCAGCTTCCTCCCACCCCACTGAACATCCTAAGCAGGTTGACATATTTTGTGGGTCTGTTCTTTCAACCTCTCCCCCTCTTCCACTTCTTGCCT
GATTCTCCTGCCCCTGAAAGATGGGGAGTCCTGCACTCCTGCTGCATTGGTCAGGCTGAGGGCTGCAGGTGTTCAAGGGTGTGGCAGAGCCTGGAGCTCC
TGATAGTCATTTGGTGGTTATGACAGACCACGGGCCCCAGGAATGTGGTAAGCTTTCTGCTTTCCCCTGCTGGCCCTCCTCCTGACCTCTCTCCCTTCCT
GCCTCTAAGATCTTATCTGTCACAGAGAGTGAGGCCAGTGATGTGTGTGCCCAGTGGATAAAGTTCCTTCAGGAGGCAGCTAGAACTGGCTTAGGGGAAA
TTGAACCATCTTTTACTAATCCACATCAGAAAACTGAACTAGTGCAATATACTAAGGTGCTTCTGGCACAGCCGCTTTTGTTATGTTTTTCTAGCGCCAT
TTTCGAAAGTGTCATAGGCACCTGTGATGCAAGCCCCAGTATCACAGACTTTATGGGGACACTTCAGGCTTAGAAGCAATTTTTTGCCCTACTACTGCTT
CTCACTAAGTAGTTATGTGACCTTGGTTAAGCCATTCCATACAAGTCAGATCCATAGGCACAGCCAGGCACTTTAAGGACAGGGTAAAAATAGCAAAGAA
GATGAAACCTATGCAGTCTCTGCTAAGGCTGATATTTCAACTCGGCAAATATTTATGGAGTTCCTGCTATGTACCAAATACTTGTGCATCAGACGTACTT
CTCTCCTTTTCCCCCACTAACCCTCCTTTCATCTAGGAAAAACTTACCCTCCTCCTAGCCTCTAACCAGGTGACCAGCCTCTGTCTTTGCAGTCTGAGTC
ATCTGTTCTTTCTTCCATTCCAGGTCCAAGTATGAGGAAGACAGGAGGTAAGCAAGTCTATGATGTGGATTTGCAGCTTTCAAGGTGGAAGGAGTGGGGT
TGAGCTACTATGCTTTCCATTTCTGACAATCACAGGGGAGTCCCTCATGTTGTACAACCATGAAGGACCGTGGTTCCTGAAAGTCTAGCACTCAGGTGTC
TGTATGACCATAACATAGGGGTGATGAGGCCCACGCCCCTGATGCTCAGGGATCACTGCCTGGGGATGTGGGTCTGCTCCTCAGTGGGAAGACACCAAGC
TGCCATCGCTTCTCACAGTCCCATACCTGGTGGCAGCTTCTCTACCCAGATGAGCCCTTTGTCTCTCTTCTCACGTCTTTCCCTTAAACTACCTCAAGTA
GTAACAGTAATCGTGGAATCAGCCTGTTAGTGACATCTGCAGAGGGGAGCTGGGGTGCAGCATAGTTCCTTTCTTGGCACATGTTAGAATTTTTTTTTTT
GCAGCCTATATATTTATCTCATTGTTTTTCATTAGCCAAGGTTAAAATGAGTCTGCATTCCCTGAGCATACACATTAATAAGGGAGAGAAAATGGGGTTA
GGAGTCTGTTTAAGAGGGAAATACAGACAGAGCTGAAGCCTTGCTGCATTGAATGCATAGAGTGGGTCATCATCCATCCAGCAAATTGTGGGTACAAGGA
CATTTTTAAACAGAGCTCTGGACATTTTCATTTGTGGCAGTTGGAAGCCACCTGACAGCTCCTTTTCCATCTCTTTTTCTCTGTACTGGGGTGGGAGGAT
GGTGAAGGCAGTGTACCTTGGCAGAGGCTGCTTGGCATTTCTCCTTTCCCCTGGCCTCCCCACCCCTGCACATATGCCTGAGAGTATCAGCTGCAGACCT
CAGCCAGTCCTCCACATCTGCCTATGGCTTGACCAGGCAGGAAATTATTTACTTACATTTTAGGGAATTGGCATGTTCTTCCACTGACCATCATCTGCTC
ATGGGGAAGAGTTCTGCTTAGGGAAAGAATAAGACTTCTCCTGGGAAAAGTCTTATTCTTGGTTACCTGTGGGCTCACTGTGTGGAGAAGGTCACAGCCC
AGACTTTTAGCCAGCTTCTGCCTGCTGTCCCATTTAATTATTCTAGACTTTTCTTTGAATACTTTCACCTGTAACTACCCCTTCCCCACTCCACTGCRTG
GTGGTGAAGAGATTGTTTGGCACAGGGAAGATAACTTGAGCTCTCTGATTCAGGACACTGTTCCTCTTTTACAGCGCCCCCATGGACTTCGCCCTCAATA
CCTACATGAGCCATGCTGGGATCCGTCTTCGAGAGGCACGACCTTCCAACACAGCTGAAAAGGCCCAGTCTGCTCCTGACAAGGACAAGTGGCTACCGTT
CTTCCCTAAGACCAAGAAGGTGAGGGCCGGGCATGGTGGCTCATGCCTGTAATCCTAGTACTTTGGAATGCCAAGGCGGGTGATTGCCTGAGCTCAGGAG
TTCGAGACCAGCCTGGGCAACATGGTGAAACCCCATCTCTATTAAAATACAAAAATTAGTCCAGCATAGTGGTGCATGCCTATAACCCCAGCTAATCGGG
AGGCTGAGGCACGAGTATTGCTTGAACCCGGGAATTGGAGGTTGCAGTGAGCCAAGATCATACCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCTG
TCTGAAAAAAAATAAAAAGAAGGTAACAGAGCTGTCCTGGAAAATATCTCCTCTTGATGCAGTTCTCTGTGCTGAGGTAGGTCAGGAAAGCCGTTTTGCA
GGTCTCTGGCTACATCCCTCCACCTGGATGTGGAGTCAGTGAGGACCCCCAGACTAGAGCAGCTCTCAGTCTCTTCCAAACCCAGGCCAGAGGCGAACAT
GCTTGTTAGGGTACCAGCAAGAGTCAGCTCTCCAGTTACTTGCTGAGGGCCAGCCTTGGGGGACAGTGGCAGAATTGATTAGCAGCCACRCCTGGGTATC
AGGACCTCCTGCAAACACCAGTGTCTCCTGTCTCAGCAGAGCAGCAATTCCAAGAAAGAAAAGGATGCCTTGGAGGACAAGAAGCGAAACCCTATCCTCA
AATACATTGGGAAGCCCAAAAGCTCTTCTCAAAGCAGTGAGTATTTGGGGAGCAACAGCCTTGGGCATTCCTTGGGCAGGGACCTCAGCCCTTTCRTGTA
CCAGTATGTTGGCAGAGKGCCTTCCTGTGTTTCTGGGAGCCACAGGCCCAAACTCAGACCACAGCCACTTTCTCCCCTTGCCAAATCCAGTGCAGGATCT
CTGAGGTTCAGGTGAATGTTTCCGAGCCAGGGAAGCCGTGCCGGTCCCTGGGTCTTAGTCTAGGAACCCAGAGCAGTTCTAGCTACCAAACGACCACGTG
AGAAACATTTCCCCTCGGCAAGGATCGCCCTGTGGACAGAAAATGCCCCCTTCACCTTCATCCAAGGGTCTATAATTGGTCCTAGCACACAAGACTACAG
TAGTATAGATGCGGGCGGGGGATGGTTGAGTCACTATTAAAGTAGAACTAGTCAGGTTGGGGGCAAGTTTGGGACCCAGAGATTCCCCTAATGCCATCAG
TAACCCAAAACTCAACTGATCCTATCATTGATCTCTTCCCAGCGTGTGTCATTTGTCTGGAAATTGTTGCTGGCCCCTCCCAGTCAGTACCTTAAGCCCC
CCAATATCAATGGGAATCTGTGAAGGGCAGTGGGGTGGGCTGGCCTCCCTTTCTGAAATTGCTGCATTGCAGGAAACGGAAAGAGATTCTTCTAGATCAG
CCTTGATTTTCGCCACTACCTTTTAATTTTTTGGCTTGATGTAATTTTTATTTTGATTCTTAAAACATTGATTGACTTTTCATGGTTTACTTTTGTTTTT
GTTTGTTTTTCTTTTAGCATTTCATATTCCCTTGTCCCCTGTGGAAGGTAAAAGGACCATTTTATTTGGGTTTGTCTTTGCATTAGCATTGAGTTTCCAT
CTCCCAAATCTTGKCTTTTCTGTTTCTTTCTCATCATCTCCCATCCTGTTCCTCCTCCCTCCCTTTCTTTCTTCTCTCCATTTCTCTTATGCGTTGCTCA
TTGTTGCTAAAGCTGCTGTGTGCTGCAAACCCTGTGGGGGATTGGGGAGGGCACCACCCTCATGCCAGGTACGAGACCTTGTCTCCTAACTCAGAGTTCC
AGGGGGCAAGGCCCCTTCTCCTGCAGGGACAGCTCCTTCTGGTAGTTCTGGCCAAGACTAGACTTCTGGTTCCTCTGGCAGTTTTTCCATAGCCTGAGGC
CTTTTCTCTATAATTCAGTCACATCTCCAAGGATGAGGGTCCAAAAATCCAGAGTTCTGTATAAGTGAGGGGAACCCTCACACATTGAAGGGTCTTACAG
TGAAGCAGAAGTGCCTCAGATTTTTTTTTTTTTTTTTTTTTTTGGAGACACAGTTTCACTCTGTGGCCCAGGCTGGACTGCAGTGGTGTGATCTTGCCTC
ACTACAAACTCCGCCTCCCAGGTTCAAGGGATTCTCGTGCCTCAGCCTCCCGAGTAGCTAGGACTACAGCCATGTGCCACTACACCCAGCTAATTTTTGT
ATTTTTAGTAGAGATGGGGTTTCACCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCGGGCGATCCGCCCGCCTTGGCCTCCGAGAGTGCTGGGATT
ATAGGCATGAGCCACTGCGCCCGGTCAGTGCCTCAGATTTTTGTTTTCAGTTAAAATAATTAAAATGTCAGTTTTGAAGGTGATTTTATTTTTTATGTAA
AGTATGGGTCTCCAACAGTTTTTCTCTTGGATATTTTTGTTCTTATCATCTACTTAAGCCCTTCAGTATAGCACCTCCATCTCTTTTGACGTTTGACTGC
CAGCACTGTATAACCACAGCAGTGAAAAAAGAATGACCCTAAATGTATTTTAGAGGACCTAGTATCTTCCAGAATCCATGTATTTAAAACATTAATGTGA
TACACATTAACCCACAAGAAGCTTAGAGCCTACAGTGAATTGTCACAGAATTGAGCAAGTTCATTTCCTGTTAATAAGGTCCATATGCGTGCAACTGATT
AACACTTTCTAGGTTCTACAATAAATATATATATAKAKAGAGAGAGAGACAGCAATGGGATGCAACCTGGAAACTATTCTGTTACTGCAATTTATTTTAT
GTAAAAGTGACAATTAAAAATATTATCTTCCAAATTAGTTTAAAAGTTACTAAATTCCTAGACTGTATGCCATTTTAAGCAGTAAAAATAAGGAATTAAT
GTAAAAAAGTTTATAAAACAAGGGGAAAAAAAAGAATGGCCTTGAAATCCAGTCCTCAGGTTTTTTTGTTTTTGTTTTTGTGTTTTGAGACAGGGTTTCG
CCCTGTTGCCCAGGCTGGAGTGCAGTGGTCTAGTCATAGCTTACTACAGCCTTGAACTCCTGGCTCAAACAGTCCTCCCACCTCAGCCTTCCAAGTAGCT
GGGGCCACAGACATATATCACCACACCTGGCTAATTTATTTTTTGTAGAGAGAGGGTCTCACTATATGCCCAGCCTGGTCTCAAACTGCTGGGCTCAAGT
GATCCTCCTGCCTTGGCCTCCAAAAATGCTGAGATTGTAAGCATGAGGCATTGTGTGCCTCGCCACTTTGCTCTTTTTAAAAATGCATTTCCTTCTACCT
GTTTCTCCCCTGTTACTCTGGGTCATTCAGTTATACCAGATCTCAGGGCTACGCCTGTATTTTGCCACAGCTAAGGTATAACTCTATCTAGAACATTAAT
TGTGCATTTTCCAAGTGGCCCATGGGAAAGGGAAGAGTGGACTCAGCCTGCCGGCTTTCAGTTATAGGATGTTCCCAGGCTCCCACATCATCACCCAGCC
AGGGCGGCTCAGGGCTGCGGCTGCCCAGCTGGCCCTGGCATCTGCATGGCTTCAAGGCCCAGATGCACGTTCAGGCTGGGACAGGCAGATCTGCTCTTAA
TCTCCAAAGTGAGAGTGATGGTAATAGCCCTACTCCTGTMATGTGCACCCACAGCTACTTACACAGTTTTAGAAAAATATTCCCTAGCCACTTGCCTAAA
GGCTGTCAAGTTGTAAACTGTGAAGACAGCAGCTAAATTTTTTTCTGTTCTCTCTGACTTAGAAGTTTTCTTATGAAAGTCAGATTTTGAGACAGATTTG
TAAGTTTGTATATGTAGATGTCAGAATCTCTGAAGTAGGATCAGGGCCCAGACCCTGGGCTGTTGATATTGCCTCCCCATTTCCCCTTGTCCTTTCCGCT
GGTCTCAGGCAGCCAGCATTTCTAGCCCACCCCTGTTCTAATATGGATGGGCTCAGAACTGAGCTAGTTGACTTGAAGGTGAATTCCTTATCTCTCTTCC
CTCCTGCTGAGAGCCACAGAACTCTGGGTCTGAGTTCTCCAGGGGCTGTAGTTGGCATTACCTGTGCCTTTTCACTCTACCATCTGCCCTCTCTGTCTGA
ACAGGAACAGCTCTCTTCTGTCTTAGCTTTGAAAGGGGGCTGGAATTTGAATGCCAGTGAAGTCTCTCCTCTGTTCCTCCTAGGTCACCTCTTACGGTAC
TAAAGAGTCTGATTCTGTAGTGATGAAGGCCAGAGAAGGGCAGAAAGGACAGGAAGGAGAGGCAGAGAAAAACAAATAAAGAACTCTAAAATTCATTTAA
ATTTGAGAAATGTCTGATATATTTTGGCAACATGGCCAAATTACATGTAGATGTGCTTTGGTCTTCCTGGCTGTTTTTTAACCTGTATGTGGCTTTTAGG
AAAAACCTAATCATGACTTTCAAGCAGAAGCGTTATTATAATAATGTGAGAGCCAAAAGAATGCTTATGGAAAATATACTTCCAAACCCTCTCATTTTGC
GCATGAGGAAAGAATCAACCCAGAAAGGTAGTGTGACTGCCCAGGGCCACACAGCATATTCATAGAAGAGCCAGGACCAGAACACATCTCCTGACTCTTG
GTCCAGTGCTGTTCTCATCCACGCTTGCTCATTGCTCTGTCTTCTGGGATCTGGGGAAGTCCAAGCCTGAGAAGCCATCCCTGAACAGCAAGCCTAGTGT
CCTTCATTTTCTTTTTGCTTCTAGTCAAACCAGGCAATGTGAGGAACATCATTCAGCACTTTGAGAACAACCAGCAGTATGATGCCCCAGAACCTGGGAC
ACAACGACTCTCGACCGGAAGCTTTCCTGAGGACCTGCTGGAGAGTGACAGGTAGCACTGGCTGGATGGGACTCGCCAGCTGCTCGAAGAGTGGGTCATG
GGCAGGGCTGATGCTAGGGTTTAATTCCAGCTACTTGACCCCTCTCCACTAGCTTCTAAGGCTCCCTTTACAGAACTTCCTCCCCACCCCCAGTAYCTTC
AGGAGACACATTGTGTGCCAGTGAACAGGCCAGTGGAAGAGCAAGCAGATCCCCGACTTCCAGCCCAAGAACTACACACTTTTCAAATTCCCTTTGGATT
TATCACCTGACTACTCAGTAGCCTTCATCCAAGATCGAGCTAGGTGATAAAAAGCAGCTAATCAGGAAACCCTAAGTGACAAGGATAAGGAAGACTATAG
TGGGGGCAAGAGGGAGTCCTGGGGAAAAAAGACCCAGGCAGGCAAAAGAAAGTGGTTTCCTGTCTGTATGTGAAGAAGAGAGCCAGAGATGAGGTTCTGC
TGGGTACTTTAAAGACAAATGATGTAACTATAGGCATCAGATGTCCACCTCAGCAAAGAGAGGCAAAGTGGATTGATTACAAATGGACTGTTTTTCCCTT
TTCAAGAAGAAAAAGGGGAATTGAGACTGGCATCTCTCATATTCTTCTTTGGTCAGGTTCTAACTAGAGTCCCCATCTGGTATGAAAACTTGTTCTTGGA
CTTACTTGCTCTTGATTGTGGCATGACAGCAGTCAAGTCATGTCTAAAATTCTATAGCCAACACTTAAAAACCAACACCACCCTTAAAGGTGACTTAAAC
AGGTAGAGTAATATGGTCTTGTGTGGGGGGAAATAATGCTTGTGTACAGTCAAGCCTCAGAGCCACTGAGCTGGAGTATAGGCAGGCATGAAAGCAAGTC
AGTATGCAGCAGCGTGGATATTCAAGCCATTTTGCCTTCGTTTGTTTGTTTGTTTGTTTTGGGGATTTTTTTTTCTTTTTTAAAGAGACAGGATCTTTCT
CTGTCACCCAGGCTGGATTGCAGTGGTGCAATCATAGCTCACTGCAGCCTCAAACTCCTGGGTTCAAGGGATCCTCCCACCTCAGCCTCCTGAGTAACTA
GGGATACAGGCATGCACCACTGCACCTGGCTAATTGATTTTTATTTTTATTTTTTTGAGACAGTCTCACTATGTTGCCCAGCTTGGTCTCGAACTCCCAA
CCACAGCAATCTTCCTGCCTCAGCCTCCCAAAGTGCTAGGATTATAGGCATGAGCCACTGCACCTGGCCTATTTTGCCTTTGAAATAACTAATTATCAAA
CCATAAGCCAACCTTTCCTGCTTGAATGCAGGTTACTCCTTTCTGTTTATATGAAGCCTTTTTTCAGCTTAACACGTGTTAAAAGATTTTGCTGCCATGA
GAATTGACAGATTTACAGGAGACAAAGGTTAGATTTGTACTGGGGGAAGGTTGAGTTCTAACATTAATGGGTAAGTTAAATACGCAAATTATGTGATTCC
TGTGGAAGCACATGATGTCGTAGATATATCAAATATTTTAAGATTATAAGACATCAACATTTTGAGAAAATATTTGAGACCATTTACAAAGTTGCATTCT
TGGCATTGCTAGGTAAATTTGCCCTAAGACACTYGCTAGGATCCTAAAGCTACTCTAAGCAGAAGCCTTTGGGTTTGATGATTATCAACTCATTGGCAAT
CTCAGAAGAAATAGTATTAGCAATATGGTGGGTCAGAGATTGTTGTAGATACTCAACAGGTATAAGATGCCCCAGTTCTAGAAGGCAATACCCTAGGAAT
TTGGGGGCAAAGACAGATGATATGCCTCACTTCTTGGTGAGGAGCATTACTTACTTCTGGGTGCTTGAAGGAAGGTGCTTAGCTCTGCAGCCCCAGTAAC
TCCACTGGGTGTTTGTTGTGGTGGTACAGTGACCCATTAGGACACTGAAAAGTGTTCCGAGTTAGTCTGGGTTGGGATTGTTCTAACACAATTCTGGAGG
GTGAATTCAATAAGGGATCAGTGGGCAGTATGTTTTCTAACCCTGCAGACAAAACCCTCAGGACCCTAGGAGATGAGCTCCATTTTGGATCATCTGGCAG
TTTGGGCACAATGAATGGAGACCGAGACATTTAGCTCCTCATTGCAGCAACCTGCTGTGCTATTAAGAGCTCTGCAGACATTTCCAGGCCTCCTGTGGTC
CTAGAAGCAGAGCAGGATGTAGATTACTAATAATATCAGAAAACCAGCCCAACAGGGCCACAGCATGGAGGTGGGGTGACCATCMTGGGGCRGCTAGGGG
TCAGAGGTGCCAGCTGTCTTGGGCTGATGCACTGCAGGACTCGACACCGCAACACCCAGTCATCAGCATCTCATCAAACCCCAGAGACACTCAGTAGCCA
AGCACGGCAGGCCAAGGAGCGGGTCCTGCCTATCAGTAAAAAGGCCCCTTTAAGCACAAGCCTGTCTGCTCTTGAGAGGAAATGGAATCTTAGGAACAGT
ATTGTTAAGATAAGAATGGAAMTCATCCACATCACAACTGGAAGGMTAAGAATCCAGCAGCAGATAGAACTTTCTGACAGGCAGTGTGGAAAATCCTAAA
ATGAGCTGTGAATATAGTGACTCCACTTTCCTCTTAAGACCTCTTAAAAGAGGTTCGCCTCAGGCAGAGTTAAAGGTGGGAGCTGACCCGTTCCAAAGCA
GAGGCAACGTGAACTGGCCACTAGGGGCAGGGAGCTGGGACCTTGTGTTCCCTGTTGAGGGACGATGATGTCTACCACCTTCTTGACAGAAGCATGGTGT
CTCAGGCCTCTGGACACACTACAACTCAGAGTCTGTTAGCCCCAGATTTCATCTTCCTGTTAGGATCCCTTCCTAATAGCTCCAGAGGAAGATGACTGTC
CATCCATCAGGCTAGGCTGGGGAGAGAGGAGGAGTTTGTAGAGCAGCAAAAATAGTCTGTCATTGAGAAGCTTCCACTGCCATCCAGCTGCTTTGGCCAT
GTTCAGGAGGAGAACCTGTGGCACGGAGGCATCTTTGAGATGGAGCCACAGGTAAGAGTTAGCCAGGRTGTAAGCATGGCCCACTGACTTCCCAAGTCCC
AAAGTCTTTTGTCCCTTCCCCCCAGTTCACGCTCAGAGATTCGCCTGGGCCGCTCTGAAAGCCTCAAGGGCCGGGAAGAGATGAAACGGTCTCGAAAGGC
AGAGAACGTGCCCCGCTCTCGCAGTGATGTTGACATGGATGCTGCTGCGGAGGCTACTCGCCTGCACCAGTCAGCCTCGTCCTCTACCTCCAGCCTCTCC
ACCAGGTGGGCAGGGCTACAACGGCTGCRCCCATGGACATCTCAGGGGTGGCGGCAAGGATAGAGGGTTGCTGAGAGTTGACATTCCCTCCACAGGTCTC
TTGAGAACCCAACCCCTCCATTCACTCCCAAAATGGGCCGCAGGTAAGTGATGGGCACGGTGGTGCCTCTGTTTGGTGTCTCTGTGTCCCATCCACACCC
AGCTGCTCCTCTCACCTGCAAGGGGCTGGTTGGGTGGCTGTCTCCTCTTCTGGGCCCACTGGTTTCCCATGTGCATGGGGCAAGCAGGTCGGGCAGGAGA
GGGARGGCCAAACCCTCTGTGTGAGTTCTTCCTCCTAAATGAAGCTGAGCTGCCTGTTTTCCCCCAGGAGCATTGAGTCCCCCAGTTTGGGGTTCTGCAC
AGATACCCTCCTTCCCCACCTCCTAGAGGATGATCTGGGCCAGCTGTCTGACCTGGAGCCAGAGCCAGATGCCCAAAATTGGCAGCATACAGTGGGCAAG
GATGTGGTGGCTGGGCTAACCCAGCGGGAGATTGACCGGCAAGAGGTCATCAATGGTGAGAACGTGCTCCACTGCCCCCAGCTCCRCTCACACGTGTGGG
AATAGGTCCAGAATGCCTAAGACACAAGGGTGGGAAAGAGGTAAATAGGGTGGGGGGCCCCTGTGTGCTGGAGCAGGTCCACATTGCCTGTTGCTATAAG
GTTCCCCTCAGTTCTGGCCCTTGGAGTAAGAGAAAAGTTGCTGTATGATCTGAAACTGGCACTTCAGTTCCCCCAAAAATAGAGTGGTGTGGGAACCAGG
TCAGGGACTCTAGATACTTGCTGATCCGTTTTCTCCCTGGCTTTCTACCCTCCTTGTCACAACCACCGCTCAGAGCTGTTTGTGACTGAAGCTTCCCACC
TGCGCACACTCCGGGTCCTGGACCTGATCTTCTACCAGCGAATGAAGAAGGAGAACCTGATGCCCCGGGAGGAGCTGGCCCGGCTCTTCCCGAACCTGCC
TGAACTCATAGAGATTCACAGTAAGGAGCCTGTGCCCCTCCAGACTCCTCTTCTGCTGCCCTTCAGCTTCCTGTTCCACTTTGGCCCCACTGCCAGGACC
TCCCTGAGTAGGTAACCTCCCACCAATCCCTGGTGAGAAAAAGATCTGTGGACAGCCTGAAACCAGCACTGGAGTTCACCCCGAAAGTACAATGGTTTCC
AGACCCTTCCCATGGCACTGCTGTCAGAGATTCACTTCTCTCTGTCAGAAAGGTTCTGGCAGTTGAGCTCAACCCCAGGCATTTCTATTTGTTCTCTTCC
TGCCCCAGATTCCTGGTGTGAAGCCATGAAGAAGCTCCGGGAGGAAGGCCCCATCATCAAAGAGATCAGTGACCTCATGCTGGCCCGGGTATGGCTCCAA
ACTTCTCCCTCTTGGCAAGGAGGAGATTGGGGGAGGCAGGGTCTCATTACCCAAGGCCAGAGAATTTGGCAAAGGCAGGGGTCTGGTCCCAGGCAGGGGT
TTGATGCCTGGCCCCGTGTCCATTCTGCCTCTTCAGTTTGATGGCCCTGCCCGAGAGGAACTCCAGCAAGTGGCTGCACAGTTCTGTTCCTATCAGTCAA
TAGCCCTAGAGCTAATCAAGACCAAGCAACGCAAGGAGAGTCGATTCCAGCTCTTCATGCAGGTGCGTCCTTGGCCATGCCTTGGCCTTCCTTCATCTCC
ATCAAGGTCACCAAGGATCTCCTGAACTTCTCTCCTTCTGGCCACATCATCCCTGTCTACAGCAACTCCCTCTACCCTTCGACACACGCTCCTCAAAAGC
ACTGACTCACTCTAGACAAAGAGACTTCTGTTTGTTGGAAAGAATCCTGGATTAGCAGTCAGAGGCCTGGCTCACCCACCAGCACCTGTGTGTCCTGAGA
TGGATCTCAGTTTCCTTGTCTATAGAATGGCAGCAATATGCCTGCCCTTCTGTTTTGACCATATCCCTTTGGATTGGTGTCTCCCTGCCACCACACACCC
TTCTCTACATCTTTAAGGAAGAAGCTTCCACTGCCATTTCTGAGTGATCCATCTGGCGTTAGGACCTGTTTGTCATGTTCACACCCATCTTGGCCCTGAG
CCCATAAGCCAGCTCCCAGCCACGCTGACATCTCCTCCCTTCTGTGTCTCCTGCTGTCTAGGAGGCTGAGAGCCACCCTCAGTGTCGGCGGCTGCAGCTG
AGAGACCTCATCATCTCTGAGATGCAGCGGCTCACCAAGTACCCGCTGCTGCTGGAGAGCATCATCAAGCACACAGAGGGTAGCACCTGGGRAGGGGCTG
GCATCACAGKCAGTGGGCCTCGTGCCAGACCCTCATTCTGACACTGCTTTGTGACCTTAGCAAGTCACTGTGCCTTGTGGTCTTTGGTGTCTTCGTCCTT
TTTCTGTTGTGGGGTGTTTCAGAGAAGAAAATGATTGTAAATGTCCTTTGGAAAATATAAGGTGTTTAATAGTGGGAGGAGTAGGGGCCACCATCGAAGG
CCACCTGTGTGGGCCTTTGTGCAAATCCAAGGAAAGCATCCGGTGCCCAACACAGGCTGGCACTCAAGGGCACCTGGGTCCCTCTGGTTGCATGGGGCTG
GATTTTATCCCCATTCATGCCCCCTGCAGTGCACAAAAGACACAGCCTATGTGGTTACACTAGAGGGGCAGGGGACCAGACTGAACAAGAGGGTCTAGCC
TCAGGTTATCACTCTCCCTGGGATCCTGGGCATCTTTCACTACCCCCAAATTTCAGACATTGGAGTCAGGACAGAGAGGTGTTAGGAACCCCAATCTGAT
TTGAACAGGCTTTCTAGAGGCATAATTGTGGCCATTTACCACAGTCTCTGTCCCTTGCATCTGTAGAGCTGGTTGTAGTAGAGGCAGGGATTCCCAGGAG
CTATCAGCGTCTTCAAAGCAGTGATCTGTCTGAGACCTGAAGATGCTCAGTAAAAGTTACCCTTACCACTTGGGGTCCTCATGTGAGGCAAGGGTGGCTC
CCCTCCACCCACGCCTGCTGGTTTGAAGCAAGCCAGCTGCCATGGATGAATAGGCAGATAACAGCTGGCGCCATGTTRGACTTCTCAGGCAGGAGCCCCA
ACCATCTCTTCTGTCCATTTTGGTAGGTGGCACCTCTGAGCATGAGAAGCTGTGCCGGGCCCGGGACCAGTGCCGGGAGATTCTCAAGTATGTGAATGAA
GCGGTRAAACAAACAGAGAACCGCCACCGTTTAGAGGGCTACCAGAAACGCCTGGATGCCACCGCCCTGGAGAGGGCCAGCAACCCCCTGGCAGCAGAGT
TCAAGGTAGGAGGCAGAGGCTGCAGCAGTCAACCCCTCACACTTTGTGGGTACCCTTAGGAGCAGAACACTGGTCAGGGCTTGGAGAGTCTTAGAGGTAG
GAGACAGAGACCAGATAGGGTGGCACAATGGAGCCCCAGAAGACACACACCCTGCTATTGTCACCCTGTCCCTAGATGGACAAGGCAGGCCGCCCCACCT
AAGAAAGACTAGATGTTGGAACTCAGCCTGAGAGAGCAGGGGATGGGGTAGAACTGGAGGTAAGGTGGAGATCTTCTGGGAGGGAATAGAGCTGGAGGCA
TGGGCAGGAAAAGCAGTATGTGATCTTCTTGGGACTGTAGCTGGCACGTGGTAGGGGCAGGTGGGAGACCCAAGTCAGARCCATTGGTATATCCCCCTGC
TGCCACATGGCACATGACTTCACAGTTACCTTTTTGCTTGTCTTCATCCCGCACAAGAGAGTAAGGGCAAGGACTTYTTCTTATTTACCAATTCCCAGCA
CCTTAACACAATGTCTGGCACACAGTAGGCTCTCAAACACTTGAATGAATGAATGAATGAATGAATGAATGGTGTCTCCTTAACAGAGCCTGGATCTTAC
AACCAGAAAAATGATCCATGAGGGACCCCTGACCTGGAGGATCAGCAAGGATAAGACCTTGGGTATGTGCCAGGGGACTGGGACTGAGCAGGAACCTGTA
GTGGGTGGGCCTCCCTGGGCTCTTCTGTCTTTCCCAAGCATKGAAACATGACTGGAGGTGATAGCTCAGGACATGGGAAGGGAATAATCAGAGAGAGAAA
TGGGGTCACCAGACTCCCAGGACTTCCTAGAGCCTCCAAGAGCCTGTGGCCCTGCATTGTGCTCATGAGGGATGAGTAGGCACCAGGGAACACCTTCCCA
TGACCATACCCCTCCAGACCTCCACGTGCTGCTGCTGGAGGACCTCCTAGTGCTGCTACAGAAACAGGATGAGAAGCTATTGCTGAAGTGCCACAGCAAG
ACTGCTGTGGGCTCCTCAGACAGCAAGCAGACCTTCAGCCCCGTGCTCAAGCTCAATGCTGTGCTCATCCGCTCTGTGGCCACAGGTACCTGGGGAGATG
GTCCAGGCTGGCCTGGGGCTCAGGGACCATGTCCAGCAAGTGCTGGGTGAGGCAGGGCCAGTCTGGAGCCTTTACAGGACCTACCTGTCCACCTGTGTTC
CTTTCCTCCTGTCCTGACCCAGCCTAAGTGGTAGGACTGGCCCAAAGTGGGGTAGGATGAGGGTTAGGATGGGGACCAAGAGGAAGACAGACAACCTGGC
ACAGGGGTGGTCAGCAGTCCCCAAGCACAGTGCTGGATGGGATGTGCACACCCAGGATGGGTGAGAGTGTCTGAGCAGGATTGGGAAGAATGGGATTAGG
CAGAATGAGTAGGACAAGCCTTTCTGCTACAGAGTGACTTGGGCAGAGCTTGGTTACAGAAGATGTTAGTACCCACGGTACAGAGCTGGGTCCAGTGGAC
AGGGACATTTCAATGAGAAGTGTAGTGTGTGTGAGAAAGGGCTCTGGAGCAAAATTCTCTGGATTCACTTTCTTCGTCTGTAAGATAGGAGTGATACCTA
CCCTACCTCTTGTGGGCATCAAAAGGGATGACGGGTATGAAAAAGTTTTATAAACCCTTGACCAGGCACTGTGGCTCATGCCTGTAATCCCAGCCCTTTG
GGAGGCCGAGGCACTCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCTATCTCTACTAAAAATACAAAAATTAGCCAG
GCATGTTGGCAGGCACCTGTAATTCCAGTTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGCAGGTTGCAGTGAGCCAAGATGGCAC
CACTACATTCTAGCCTGGGTGACAGAGCAAGAATCCGTTTCAAAAAAAAAAAAAGTTTTATAACTCCTAAGCACCATACACCTATCAGCCATCACTGTTA
TTAGAGCAGGAGAGGAATGGGGGTGGCTGTGGAAGATGACATTAGGGGTCCTGGAATTTCCTCTGTCCCTTATGTAAGTGGGTTCCAAGTGGTCCTGAAG
ATCCACATCTGTCTCGTGCTGCACTCTCCATCTGCGTTGAGGGTCAGGGCTTTGAGTCCCACTCTGTCACCCTGGCCCAGGCTGCAGTCACACCTGCCAT
CCCTAGTACAGACCCTTCTACCTTCCTTTCCTCACACAGATAAACGGGCCTTCTTCATCATCTGCACCTCCAAGCTGGGCCCACCCCAGATCTATGAGCT
GGTTGCATTGACGTCATCAGACAAGAACACGTGAGAATTGATTGAGGGGTTACCCGTAACTGTGGTCCCTTTCGGACCAGGGTGGTGTTTATGAGGACAG
TGGGTAGCAAGGCCAGGTTTGGGCCCCAAAGCAGTCCCTGGACAAGGGGTTGGGAAGGAAGTGGGAGGTAGGACAGAAGTAGAGAAGCTGGGAGGGGTCA
TCACCCCCGACCTGGTCACCAGGCCCGCTTCTGGGAGAATGAGCTTCTGGCAGTCTTCCAGCCGCTGCTGCTGCTTCTTTCCTTCCTGCCCTACTCCCTT
CACCATTAGGCAGATTAGATTCATGCATCCTTCTCAGGCATTTGCCTCCCACCCAGCCCATGTTCTTTGACAGCAGCTGCCAGAGGTGGCATGGTACAGT
GGAAGGAGACAGGTTGAGTCAGACTGTTTCCCAACTCCAGGGTTTTCATCTGTAAAATGTGGCTAATGCTACCTGTTAGAGGATTACTTTAGAGGGAAAA
CATAGAATGCTTTGCACAGAGTGTAACAGAGGGTTGGTGTCCAGGATTTGGTAGCTGCAAGTAATATAACCGCAAGGGAGCAGCCAGGGAGGACTGTACA
GGGAGGTGGGCACCTGCCAGGCAGAGGGTTCTTAGGGCCTGGAAGCCCTGTTCCAGTGGGCTCAGTACGGGGTGGTGYGTGCTGCTATCTTGCTCTCACT
ACAGTCCTCTCTGTTCCTGCCGAGCAACAGATGGATGGAGCTCTTAGAAGAGGCCGTGCGGAATGCCACCAGGCACCCCGGAGCTGCCCCAATRCCCGTC
CATCCTCCACCCCCAGGTCCCCGGGAGCCAGCCCAGCAGGGCCCCACACCCAGCAGGTGCAGTGCTTAGCCCTCCAGACCCTGCACTCTCTCCACTCCAA
ACCTCCTGTTTCCTGCTGCTTTTAAGCCCTTCGCCCCCGTGGGTAGACAGCCACAACAGGGAAATGCTAGCAGGGAGCAGACAGCTCCAAGTGCTGGCAG
ATGGAGGAACATGCCCCCTGTCCCTGCTTCTTGTCCCTGTCTGCTCCCCCACAGCCTGCCACCTGGCTATAATAGAGCTGAGCCTGAAGAAGGGTGAGGG
GGATGTAGAGCAAGGGACCAGAGAAGCTCAGCYAGCAGCCCCCCTCCTCTCTGGGTTGCCAAGCAGACCAGCCAGGTGAAGAGGCCCACACCGTCCTTCT
CGGATCCTACTCCATTGCCCATTCTAATGCATGAGTCCAGGGTGGAATCTCATGGGATCTCATCCTGTGTTGGTTTCCTTCCTCAGGGTAGAACTGGATG
ACTCAGACGTGTTCCATGGTGAACCTGAACCTGAGGAGCTGCCTGGAGGTAAGGGCCCTGAACTGTCCTGTGGGAGCCAGCCCAGGCCTTTTTCTGTAGG
CACAGGTTGGGTGTGAGTATGGGGGCGATGGGAGAGTCCATCAGGGCCCGGGGTGTGAGGTTTTGATAAAGAGTAGAGAAGAAACAGGGCGGGAGGAAGA
GTCTGGAAGAGGAAGGAGAGCAGACTGAACAGACTTAAGAAAGGGTGAACTCGCTCACCTGACCAGAAATTCCCACCCAGCCTCTCTGGGTGACGGCATC
AGCYGTGGAAGAAGACGAGCAGTCTGGCGGGATCCACGGGCCCTGCATCCTCCAGCCAGGGGTTACTGTTGGGGAGGGAGATACATGCTGCAACAATGAG
AATGGAAAACATGGCGGGGCTGGGGAGCTCAAAGGGCTTAAGATGCAGTTACTGTGATGGGATTGGTAGAGGGGACAGCATTCTCATTGAGAGCTTGCGT
GAGAAATAACCTGGGGTCTTGGGTTTCAGGAGAAATCTCGGGTTTCCTGGCTGGGTCCCTGTTGTTTCCTTCTGCTTAGAATGCTTTTCCTCCTAACGCC
ACACCTCCTTCACGTCTTCATTCCAGTGTCCTCTTGGCCCAATCTGTTTAATACTGTAGCCAGCACTGTCCAGCCCCTAGCCCCATGCCCTGTTGTTGTT
TTCTTCTTTCCGGTGGAAGTTACTGCCTTCTAACAAACTACATAATTGACTGAAGTGTCTTATTTTTGTATGTCCCTCCCCTAGAATGTAAGCTCAACAT
AGGCAGGGATCTTTTTGTTTTGCTTACTGTTGTATGCCAAGAGCCTGGGACAGTGCTGGCCATGGGAAGTTCTCAGTAAACAACTGTAGAATAAGTCAGT
GTTCCCAGCCCCTTGGCTCCAAAGCTGCCCATAGGCTCTCCCATACGTGCCCTCTCCCTTTCCYTGCCTTACAATCTTCTCTCATCCGAAACAGGCACTG
GGTCCCAGCAGAGGGTCCAAGGGAAGCACCAGGTCCTGCTAGAGGACCCTGAGCAGGAGGGCAGTGCAGAGGAAGAGGAACTGGGTGTCCTGCCTTGCCC
TTCCACATCCCTGGATGGAGAGAACAGGGGCATCAGGACAAGGAACCCCATCCACTTGGCCTTCCCAGGCCCTCTGTTCATGGAAGGGCTCGCTGACTCC
GCTCTGGAAGATGGTGAGTGCTTCAAGGCCCTGCCGTCAGCCCCTGGTCCCCAGTCGCACACCCAGTGTGAACTGGCAGGCGCCTGCACCCTCCACCTTC
CCGAAGGCTCTTCCTGGTGTGCTTGAGGAGAGATGGATGCGGAGACAGATGTCATTCCCCACCCAACCCCCACCAGCTAGTTGGCCAGAGCCCTCCAGCT
TCACCTGTGCCTGAGGTCACCACCTTGGGGTCAGTGGGGCAGTACAACGATCCTTCTGGCGTGGTGTGCAGTCCCATGCTGGGAAGACATCACCCTGTTT
CCCCTCCAGTGGAGAAYCTGCGACATCTGATCCTGTGGAGCCTGCTGCCAGGTCACACCATGGAAACTCAGGCTGCCCAGGAGCCCGAGGACGACCTGAC
ACCCACACCTTCTGTCATCAGCGTCACCTCTCACCCCTGGGACCCAGGCTCCCCAGGGCAAGCACCCCCTGGGGGTGAAGGGGACAACACCCAGCTTGCA
GGGCTGGAGGGGGAACGGCCAGAGCAGGAAGACATGGGTCTCTGTTCTCTGGAACACCTACCCCCAAGGACCAGAAATTCTGGGATATGGGAGTCTCCAG
AACTGGACAGGAATCTGGCTGAAGATGCTTCAAGCACAGAGGCAGCAGGAGGTTACAAAGTTGTGAGAAAAGGTAAAATAAATGGGAGTGTCCAGTGGGG
AGACAAGCWCCCTTGCTAGGTGAGATAAGTCTTCCGAACAGCTGCTTCCTTCCCTATACTCCCCCTGGGTACCGTGTGAGCAGAGACCTACGCTGGGTCC
TGGAAGAAGGAGACAACGCCGATATCAGGCAGGCTTTGGAGTTGGACATTCGAGATTCAGAGCTTAGCTCTGCCACTTAATATCTGTGTGGCTTTAGACA
AAATTCTGAATCATCTCTGAACTTTGTTTTATAGCACATAAGGACATTTCTTTCTGCCTGGCACAAACCAACTACCAGTACCAGTCTCTGTTAGTGCTCC
TCACTGATCTCCTGTTCCCAGGGAARAGAGCCACTCTTCTCAGGAGCCTCAGGCCGGGAAAGACAGGGCAGGTGCATGCAGCCCCTCACGCCAGGCAACA
GCTCCAAGGGCAGTAGAGGTGGCAGCTGGGACTGGAAGGGGTGGAGGACAAAGCTGGGAAGACATTTGGCGAGTGAGGGATGTGGGGAGTGAACAAGGTG
GCAGGGAGGGCACCCCGGGTTGGGAAACACCATGGACGGCCTTGAGACAAGAAAAGCCAAGACAAGCTCACAGGGAGGCCAATAGATGAGCCCAGGGAGG
AAGGTCCCCACCCCGGGAAGAGTGGGCTGGTCTGAGAGGGTGGCAAGAAAAGTAGAACAAAGCCTGGGGCACACATGGGATGGGGTTCCACGCTAGTGGG
CCTGCCCTCCCCTGGGATTCCAYTCTGCCTCCCTTCCAGCAGCATTTTTCATTCCATCTGCCCAAGGGCCACCTGTCTCCTGGGTTTCTGGGAACTGACC
TTCCTTCTCTGTCTCTCGGTGAATTGGTGGAAAGTTCTCTGCACTGCCTGGGATGTCATCGTGTATGATCTTGTGTTCACCTTGTTCTTCCCATTTTCTC
CTCCCCCTGTCCCCACCTCCTGCCCTCTCTCCTTCCTGTTCTCTCTCCCTTCCCTTTCCTTGTGTTTTGGTCTCTCCTCTTCCTGGTGGTGGTGGTGTCG
GTGCAGCTGAGGTGGCAGGCAGCAAGGTTGTCCCTGCACTACCAGAGAGTGGCCAGTCAGAGCCTGGGCCACCTGAAGTGGAAGGCGGAACAAAGGCTAC
GGGTAATAACTTTCTCCTTGGAGCTAAAGACAGGCCAAGACTGGAGTGTGGAACCTGTGAGGGCAGAGTCGGACCCCTGCCCATGGTCACACACACACCC
ACAAGCTCCCTCAGCTGCCTGGAATGGGGAGGAGGAAGATCTGGCTCTAAAGACGGGGAGATCTGGTTCTAAAGGCTGGCTGTCCATCCAGCCTTAAGAA
GCCACCTGTCCAGGCTCCTGTTCAGAATGGCAGGGATAAATGCCTGTGTGCAATTGTGGGAGGGGCAGGGAAGCCTGGCCTGGGGGTGGGGACCTAGTGT
CCTTCACCTGATATGCAAGCAGCCACTTCCCCACCTCAGCCGCCGCTCCAGTGTCACTGTGGAAATCGGCTGAAAGAGCCTCCCAGATTCCGCGGTGGTT
CTCTGTGCTTCCTGCCTGTCAGGAACCCTCCACGTCCTTCCTCCAGCTCTCTCTGACACCCCTTGGTTGGGTCAAGGGACCTCCAGAGGATCGTGGCATG
GATGGAAGAGGGGCAGGGCAGGGCTGTAGTTCATCCAGAGCTGGAGTCAGGCAGGGCAAGAGGGCTGCTGCCTGCTCCTTTCAGAAGAGCCTGAAACCAG
CTCACAATCTGTTTACTCAAGGAGGGGGAGCCACTCCAATTTCCCCAAATGAAACACTGCAKCTCTGCCACTTCTCCCTTGAGTTCATCGCTCAGCATCT
CCCCCAGCTTGGGGCCAGACTGAGCAAGTGTCATCTAGAAGGTCTCGGGAGCAGGGCTTTTAGGGGGCTGGCAGACAGTGAGCAAGGCCCACGTTCTCTG
AGTTTGTCTGGAGAGGACTGCCTGGCCTGCTCTGTCAGGTGGCTGGGGAATCCCACAGGAACGGGAGGATAGCTTCGACTTCTCTGTTTGCCTCCTGATC
TCATTCTCTTACTGTGGGGACAGGGAACTGCTTTTATGTCAGCATGCCATCAGGACCCCCGGACTCAAGCACCGACCACTCAGAGGCACCCATGAGCCCC
CCTCAGCCTGACAGCCTCCCTGCAGGGCAGACAGAGCCTCAGCCTCAGCTGCAGGGAGGCAACGATGATCCAAGACGCCCCAGCCGCTCTCCTCCARGCC
TGGCCCTCAGGGACGTGGGCATGATCTTCCRTACCATTGAGCAGCTCACTCTCAAGCTCAACAGGCTCAAGGTGAGGGAARCAGGGCTTGGGTCCCTGCA
GGCCTTCAGTCCATCACCCCAAAACCATTCCCCATGAGTGAGATGTGTGTCTTCGCGGGASSCCTAGATCCTGTCCTGGCCCAGGGATCTTCCCCCAGCC
CRCCCAGCCACCCTTAAATCACACCCTCCTYCCCAAGGCCCAGCACAGACCCCTTCCCCAGGGGCCTTAGGAATAGAAGGACTCGAGCAGACATTCCCCC
GCCGACTCTTCCAGGATATGGAGCTGGCCCACAGAGAGCTGCTCAAGTCCCTTGGGGGAGAGTCATCTGGTGGCACCACGCCTGTGGGCAGTTTCCACAC
AGAAGCAGCTAGATGGACAGATGGCTCCCTCTCACCTCCCGCTAAGGAGCCCCTAGCTTCTGACTCCAGGAACAGCCATGAACTGGGGCCCTGCCCTGAG
GATGGTGAGTGAAGCCAGGTCCCTCTCGGTTCCTACCAYTGGGGGAGAAGTCTGCCAACTCRTGAGGACACATCACTAAGCAGTGAGAGATGGTGGTTCT
GAGAGTGGTTTCCCCTTGAGTGAAACGAGTTCATTCTCTCAGCTTCAGAGAGGGATCTTTTYAGGGAAGTCCCACAGAAGCTCCCTGGCAAAATGGGGAG
CTTAGCACTGAGCCCTCTTTTTCCTTGTGCTATGGAGGTAACAAACCAGGAGGAGCCTGTTCTCACCTCTAAGACTTGTTCTTTTTTTAATTTTATATAT
ATATATATATATATATATATTTTTTTTTTTTTTTTTTTTCTATTTATTTGAGACAAGGGCTGGCCTGGCTATGTTGCCCAGGCTGGTCTCAAACTCCTGG
GCCGAAGTGATCCACCCACCTCAGCCTCCAAAGCAGCTGGGATTGCAGGTGCACACCATGGTGTCGGCCTAAGACTCGTGCTGATTAAATGATTCAGAAC
CACACTGGGTGGGCCAGGGACACAGCTATGTCATAACTCAGGAAGACAAGGCACATACCTACCTGACCTAAGGGCTTTAGGCGCTGATGAAAGTGGAGTT
CAGTAGACAGCCCTTTTCAAGCCCTACGAGAAACTGGGGTTTCTGGAGGAGAAGGAAGGTGATGAAGGATCTGTTCTCGTGAGCCTGAACTTTCTAGACA
AAACATGTGGAAGCGGTCACCTCAGGCTGGCCAGTTCCTCACCTTCATCCTCCTCCCACAGGCTCTGACGCCCCCCTGGAAGACAGCACAGCAGACGCAG
CCGCGTCACCAGGACCATAACCGTACAAACCACCAAATCCTCTGCGTCCCCACTCCTCCTTCAGGGACTGGCCTGAGACCGGGGCACAGGGTAGGGGGGA
TCCCAACACTCCTCCCTGTGGAGGAGGCAGTTAGGGAAACTAGGATCCAGCCAAGGCCCGGGGGGAGACCCGCATGTTGCTTGGTCTGCTCAAGTCGGAG
TCAGGTTTCAGTGTCTTTTCCCTCCCTYAGCCCAACCCTCCAAGGCCTCATGTCTCCTAAGCATGCTGACTGCATCYGAAAGGCCCCCACTCACCATGGT
CTGCCCTCACCCCACATATGTGTGTACACGCGCACGCCTGTATGTGCGCTGCCCTCAGACATGCAAGTGAAAGGAGGAGGCTTCTGTGTAAATGCACTTT
CTTCCTCCCCTCTTTCTCCATAAGACCCCAGGCAGAGGTGGGTGCCTCCCCTCCCCTCTTTGTCACTTTGGTTTCCTATAAATATGTATGTATCGTATGT
GCATCTTTGCTATTGTAAATAACTTTGACCTTTTTTGTTCCTGTTCCTGAAGTGCTGGAGGCAGTTATGGAAGGAGCTGCTTAGGGAAGAGGGGTTTCAC
TTGTATCTCCTTAGTTAACAACCCAGTTCCAGGATCGAGCCTAAAGCGGGAGCCAGGCCTGAGTGTTCCTGTCCCTGTGAGTGGGAAGGTCTTCTGGCTC
CCCATCCCACCTGGCTCCAGAGCCTGCCCTCCACAGCTTGCTGCCAAGCTACTCCCTCCCTCCCTGGACTTCTCATCTTCACAAGATGGGGATCATGGGG
GTTTCTTACCCCACCTATGTCCCCCTCTTCCCCACCCTGTCCCTGTAGAAAACCAGTGAAGCAGGTACGGAGCTGAGGACTGGGCCCCAGGAGGTGGGGA
CAGGGGTCTGAATGCCGAGTCCCTGAATTCACCCAGGACCATCCAAGGGGCCACCGCAGCATTGGCCCCATCACCACGTCCTCACCCAACTCTYCCTGAT
GAATAGAATATACACACTGTGCTAGGTGTATATATACATATATATATATATAAATATATATATAATATATAAAATATAGATATGGAAATGACTGTTCTGC
TGTTAAGATAATGTATACTCTTTTATTTTCTTCCTTTCATGGTTAAGATTTTTTTTTTAAGAAAAGTYAAATATCCTTCAGTGGTGGTGTGTGTGTTTCT
TGGAATCGCTGTGATAAAAGGTACGGTGTTTGTTCCCTGTAAGACTGGTTAGGATTGGATAGTGGGAACCAGAGGGAGCCCTCTCACCCCCAGACCCAGA
TCTTGCCTGTTCCCTCCCAGAGCTTCAGCTGTGCACTCACTGAACTAGGGACTGGGCAAACTTAAGTTGTACAACCCCCATGGAGAAAACATGACAAGAC
ACTGAACTCAGTTACACACACACAGATATATATATAGATACATATATATACACACATATATAGATATACACACACACACACATATATATACACATATATG
TGTATATAAAGGAGCAGTGGACCCAGAGTCAAGAGGTCTCATGAGCTGCCCTCAATGAGCTTGAAGACTTTAAAAGCCAAATCTAAGTGGGAGGGTTGCC
TCAGGCCTGGCCAGTTCATCACTGTCATCATCCATCCACATCCTCCCACAGACGCAGCCACATCACCAAGACTGTAACCATTCACCTCTGTCTCCTGGCA
TTCAGTGTTGGATTAAAGTGACAAATTCTGTCTCTTCCAGCCCAACCCTGACTCCTCTACCTCTCACAATCCTCAGCTGTGTCCTCATTAGGGTACAGTC
TATTTGGGCATCAGAATTGATACAGGAGTCATTAGTGATGAAGGGTGGGATAAAGATATGGGCTGAAAGGGTCACTGAAGCTCTGGAGGACATGGCAAGT
TTCCCTGCAGAAGCTGGGGTGACCATCATCCAGCACCTCAATGTGTTCAGTGTTGGGAATTCAAAGAAATGATAGGTTTTCCCTGGTGAAGCTGGCTCCA
CAGCCAGCTGCAGAGACAGAGCTGGGACAGTCAGACTAGGAGGGCTCCAGGCACTCAGAGGCAGGAGACAGGCCTAGGTGCCACTGAGCCACACAAAGTA
AGACAGCAGGACAAGGGAATTCTAGGTAGGCAGAGGCAGTGGGATGAGGGAAGTAGGACTAGAGAATGTGGAACAGGTTGAATCTGCTTAGAAGTGAGGA
AGAAAGGCTGGTCTTTGCTGATCTGCGCCATCTTGGACACTGCTGTATAGGTTTACAGGTAGGCTCCCCGAAGCCAGTCCTGTGCTCTCTGGGCACTGGC
AGGTGACCTCAATGGAGGCAGCACTGAAGGGTAAAGGTTTGGGGACCCTGACTCAGCTCAGGAACCTCTGGTTTCAGATTGCTGACTTCTGCAGGCAGGT
TATTAGGGTTCATGTTCAATGCTTAGCCTTTGCTATGTAGATGTTGAGCGTTTAGCACCCTCTCCAAAGTGGCCTGCCAAGCCTTTGTTCATTTTCTTAA
GCTGAACCCTTACCTCTCCTCCAAAGCAGTCAAACACCTGGGCCAGCCAGACGGGGAAGCAGAAGGGAGCGGGCATGGAGCCTGTGCTTAATTCCTCTGC
TTCACCTACTCCTGCTCCCACTCCCTCCCAAGCTTATGTGTGTCAGTTACTAATCCCTATCCCAAATCCTTCTGAATGCAAACCCTGGCATAATGCATGT
CCCCTAGGGAACACGGTGGGGGAATGGCTATTGCCTGAGCAAGGAAGAACTAGCCCCCAGGAGGCAGAACGGCAATGCCCCTGGCTAACTGAGGCCAGAG
GAGCTGAGATCATCCCCAGCGGAACTGTAATTCAGACCACTTTTCTGCCATTCCTGGCATGTAACATGGACAGACGCAAAATCTAAATGTTCCAAGTAGT
TCTGGAAGAAAGTTTTCAGACGACCTCAAGGAAAAGTATAGCAACAGACTTTGTTATTGGTCTGAGATCTCCCCCAGGGAGGTCACCCCACACAGGGACA
GGAGGTGCTTCTGTAGCCCCGAGTCTTAGAGGCAAGCAGGTGGGAGGGGGCTAGGGGAAGAATGCCATGGCCTCATCCTCCCTGAGTTTGGCCTTGATGG
GATCCCTTGGCAACATCAGCTCCTGGATTATGGCGTACGCAGGACATTGTGGGGCGAAGCAATTTTTCTGAAAAGAAAAGGAAGGCTGACATCTGACAAG
AGGAATGAAGATTAGTCCTCTGGCAGAAAAAAAAAAATGGTCCTGGGGCAGGGTGGGTTAGGGGCTGGGGGACATGCAGAAAAAGCAGAGTGATTAATAC
TGCTGATTTTCCAGCAAGAGGAATGGAGGTTATGTTGTGATTATTAAAAAGAAGCAGAGAAACTACAGACCTTCCTTGGAAATGGGGAGACAGAAGCTGC
CTGCAGCAGCTGTCTAGTATGACAGCTGATAGGGGCAACGTCTGCTTCAGCAGGAGAGAGTGAAAGGGACTCACAGCCAGGGACAGCCACAGCAGCCCCA
CTGGACCCTTGGATGCACTCTTGGCCTTGGAGAACTGCATCTGATACTGCACCGTGGCGAGGAAGCCCTCCAGCCCCACCTCTGTGATGCGGTTCCCTGG
TGGAAGTTACAGACAGGTGGCCTCTTAGCACCACAGGCCTCATTGGCACCTGACACACCAGACATCCCCAGCATCCCAGTTCCTCCAGCTCCCCACTCCA
GACTCACTGGCCCAGGCACACCTTTCCCTGACCTAGCCCTTCACTCAGCTCTTACTCACACACTCCCCATCTCTCTAACTCCTCTCATTACTCCAATCGC
CTGTCCTCAGCCTCCTCCCAGACTCAGCACTTCCTCTGGCCCCTCCAGCCCTGTGCCAGAGAGCCTTGGGGGACATGTAGCCCAAAGATGGGAGGACCAG
CTCTGCTCCATAGAGTCGGGGTAAACACCCTCAGGCAGGACAGGGCCCGGGTAGCCTCATGACAGGAGGACAGGGGAGGTTGGCAGACATACGGATGAGG
TTGAGGTGCAAAAGGACCTTGTTCCCAGGCATGAAAACTTTCCCATCTCGGTGCTCCACAGGCTCCAGGAGAGGGTTGACCACCTCAGTAGCCTCAACAA
CCAGCTGCTAAAGCAGAATACTAATTGCAGCAGACAGCAGGGGAGCTGGTCAACAGGCCATTCATTCATTCATTCATTCAACATACATGTTTTGACTGCC
GGCTATAGTCCAGGCTTTGTCCCAAGTGCTGGGGATACAAAAATAAATAAGCCCATACCCTCAAGAAGCTCCTTTGTGTGGAGGAGCCAGAAAGTGAAAG
TAACGTGGTCTGGAGTGAGCGCTGACAGAGGCAAGCTCAGAGCACTGTGGGAGCACGGAAAAGGCCAGGCCAGGAAGGGCCTCCTGTGAACGCACATGAT
ATTGTCAGATGAAGACGGGAAAGGTGTTCTAGGCAAAGAAAGCAGGTGCAAAGGCTCTGGAAGCGTGAAACAGTATGTCGCATTCAGATTTTACTAAGTG
TTTCCCAACACCTAGAGCAATGAGGAGAATGGATTGGAGGGAAGTAACAATGACGGCATGATGAAAAGAAATTGCAGTAGTCCTAGTACAATCAGCAGCC
TGATCAAGACAGAGGCAGAGATGAAAAATGGAAACTGAAAGGCAACCCCAATCTCTTCCTCCCTCTGAACGTCCTCTTTTGTAAGATTTTGTCTTGAGTG
CCAGAGAAGACTCCTGAAAGGAGAGGGGCCCTTCCCTGCCTAGGGTGTGCAGGGAGTCTTCCAATGGAAGAGAAAAATAAAGAGAGGCGGATGCTCAGGC
AGCTGACAGAACGGAGGGATGAGGGACCATAAGAGCACTGAAGGCAGCCCAGGAAGATTTCCAATGCAAGCAGCAAGTTGGTCCAGGTTGTAAGGGGGCA
GAGAAGATCCAGGGGCAAAAGAGAGAGGGTCTGAAGAAGGACCCATGCACAGGGTAGCGTGGGGCAGTGCCATGACCATAAAAATGCCCTGCCTTCCTCA
GGGAGCTGCTGAGAGGGGCAAAAAAGAAGACGCATTGTTCCTATGCAACAGTCCAAGCAAGTGATGGAGGTGGTGATGAGGAACTGAGGGCCTCTGTGCC
TCTGGGCCTCTGGGGAAGTAGCCTGGCTGAGTTGAGACAGCAGATCCAAAGTGTGGGCTACTAATAGACAAGGAAAAATAGAAGGGGTCTGCTCTTGTTA
TTCCCACAGAAGCCCAAGGTGAGATGGGAGGGGGTTTCAGGTGAGGTTGGGACAGGAGTGGAGGACAAATTTGAAGGCAAATGGCTGCTGCCACAGCATG
GGGCTGGAGACCACATTCCAGGAGGGGCTGGGGTGAGACGTCTCAGGCAAGCCTGGAATCCCAGGGGTGTGCCCCCTGCCTCCACTCCTCCTGGCAACTT
ACCTCGGACTCCAGGAGGATGCTGCGCTTCTCTCTGCTCCCGATCTTGATCCCTTTTGCCCTGCTTGGCTTCTGTTCAGGGATGGTTACCTCTGGGGCCA
GAAGAGGAGCCAGAATGCACAGTGCACACTTCTGATACCACCCAGGCTCCCTCCCCAGAGAAAACAGGCTGTGAGGCAAAGAGACCCCCCAACTTTGGGT
TTGGGTGCAATAGAAATGGCTGGAGGGGGCTGGGCGCTGTAGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAAGCAGGAGGATCTCCTGAGGTCA
GGAGTTCGCAACCAGCCTGGCCAACATGGTGAAGCCCCATCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACGCACCTGTAATCCCAGCTAC
TGGGTAAGCTGGGGCAGGAGAACTGCTTGAACCCAGGAGACAGAGGTTGCAGTGAGCCAAGATTGCACCTCTGCACTCCAGCCTGGGCAACAGAGTGAGA
ATCCATCAAAAAAAAAAAAAAGAGAGAGAAAGAAAGAAAGAAAAGAAAGAAAGAAAGAAAAAGAAAGAAAGAAAGAGAAAGAAAGAAAAAGAAAAGAAAA
GAAAAAAGAAATGGCTGGAGGGGGCCCCAGCTAGGTGTATGGGTTCTTTGAAGACAGGGCCACAGAGCTCCAGCTCCAACAAAGGGAATGAGGACAGCAG
TGGGTCAGGATGTCTGGGCTGGATGCGGCTCTCCACATCATCCCACTGTGAGAAGGAAATCAAGCCCAGAGGGGCATGGCGAGATGAGCTCCAGGCAGGC
GCACCCAGGCCCAGAACAGCTTCCTGCACCCGGCCCGGCACTCTTCCCTCCTCCACACAGGAAGATGCCACCCAGGGGCACCCGCACTTACTCCCCTTGC
CTGCCTTTGTGGCATCTTCCTTCTTAGGGGTTCCTTGTGTGGGTGACTGCCCAGACCCCAACTTCTCCTCTTTCTTGGCCAATTCCTGTGGAGAATGTGA
GAAGAGAGGGGCAAGTCCCACCTCCGGAGGGGATGGGCAGTGGTGAGGGAAGGAGCCCAGGTTAGGACCCGGGGCCTTAGGGGGAACTTCAAAGGCCCAT
GTGGCCTTCTTCCCTCCACCACCTCTGTACATGATGGAAGCCCCCTCCCCTGTCCGTCCAGCACCCAGGATCTGTCCCATTGCACACCTACCCATGATTT
CTCCTTTTTCTTGCCCAGGCCCTTAGGGGTTTTCATTGTCTGCGTCTTGTCTGTCTTGTCCACCAATGCACTATTGCTGATCCCTACCATCTGACTCTTC
TCACGGTCCGTTTTGGAGTCCCCGTGTCGAGAGGAGGAGGGCTGTGCTCACAAATGGGAGGGAAGGGGGGAAGAAGCCAGAGCCCCTTCCTCAATGGGGG
CATGAAAGGTAGCTATACCCATACTTGGGGAGCAGTCGAGCTGACAGCACCCTCCCACCCACCTCCCTGCCTAAATGCTAAAATAATTTGTATAGGACTC
CTCTGGGGTGAGATGCTTTCGGGAAGAAATAGCAGAGGGACCTGGGTGGGGTGAGATGAAGGGTGAGGCAGGGTCTCAGACTTATATTGAGGGGGAAAAA
ATAACAGCTTTTATTGAGCTAAGTGCCAGGTGCTATTTTAACTGCATTGCAGGAATTGAGTCTTTAAATCCTCTCGACAGTCATGAAATAGGTACAACTA
TCCCCACTTACAGATGAGGAAACTAAGGCAAGGAGAAGTTAAGTAACACAGGCCAGGTGCAGTGGCTCACGCCTGTAATCCCAATACTTTAGGAGGCCGA
GGTGGGCGGATCATTTGAGACCAGGAGTTCGAGACCAGCCTGGTCAACATAGCGAAACCCCATCTTACTAA


SNP Information

Context             (SEQ ID NO:66337):
TATCCATATTGCTGGATTCAATTTGCTGATATTTTGATGAGGATTTTTGCAAATAGAGTCTTATTGGATCCTTGAAACAACCCTATGTGATTAGGGTCCA
Y
ATGAAGAAACTGAGGCATAAGTTGTTTGCCTGTGACCACATAGTGTCAAACTGGAACAGGAATGCAAGACTTTTGAATTTAGTCTAACTTTTTTTCCACT
Celera SNP ID:            hCV7619076
SNP Position Genomic:     29306
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;(T,-|C,-)   Caucasian(T,84)   African-American(T,84)   Asians(T,84)   total(T,252)
SNP Type:                 INTRON


Context             (SEQ ID NO:66338):
CATTCCTGGGATAAATCCCACTTGGTCATGGTAAAGAATCCTTTATCCATATTGCTGGATTCAATTTGCTGATATTTTGATGAGGATTTTTGCAAATAGA
R
TCTTATTGGATCCTTGAAACAACCCTATGTGATTAGGGTCCATATGAAGAAACTGAGGCATAAGTTGTTTGCCTGTGACCACATAGTGTCAAACTGGAAC
Celera SNP ID:            hCV7619077
SNP Position Genomic:     29263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66339):
CAGGAGGAAAGATGTGACAGGATTAAAGGAGGGATTAGAGTCAAGAAGAGAAGTCAGTTTTTAAAGTGGGCCAGGGCGGGGGCGGGGGCATAATTCATGG
Y
AAGAGAAGAATGGAAGCTTGAGGACCCAGATAAGAGTGCAGTGATGATGAGGCTTCTTGGTATTTCTGCACTACAAGATGTATTTGGCAAAGTGTCTTGT
Celera SNP ID:            hCV7619078
SNP Position Genomic:     20111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66340):
TCCAGGAGCTTCCTGAGGATGGGACTGGCACAGGCATTGGCTGTTGTAGTCGACACTGCTTCCTCTCATTTCTTGTGGTTCCATTGTGTGTAGGTTCCCT
Y
TTAAGCACTTTTTTATGTTCTGGTCTGGACAATCAAATATTTCATACTTGAGTGGTAGCTGAAGAAGGCCTCATTTGGGATGTGGGACTTAAGGCAGACC
Celera SNP ID:            hCV11333168
SNP Position Genomic:     78857
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66341):
TCAGCAAGGATAAGACCTTGGGTATGTGCCAGGGGACTGGGACTGAGCAGGAACCTGTAGTGGGTGGGCCTCCCTGGGCTCTTCTGTCTTTCCCAAGCAT
K
GAAACATGACTGGAGGTGATAGCTCAGGACATGGGAAGGGAATAATCAGAGAGAGAAATGGGGTCACCAGACTCCCAGGACTTCCTAGAGCCTCCAAGAG
Celera SNP ID:            hCV25761165
SNP Position Genomic:     106742
SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,5)   caucasian(G,24|T,2)   total(G,47|T,7)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,14|T,2)   caucasian(G,22)   total(G,36|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:66342):
AAGCTTCCACTGCCATCCAGCTGCTTTGGCCATGTTCAGGAGGAGAACCTGTGGCACGGAGGCATCTTTGAGATGGAGCCACAGGTAAGAGTTAGCCAGG
R
TGTAAGCATGGCCCACTGACTTCCCAAGTCCCAAAGTCTTTTGTCCCTTCCCCCCAGTTCACGCTCAGAGATTCGCCTGGGCCGCTCTGAAAGCCTCAAG
Celera SNP ID:            hCV22271682
SNP Position Genomic:     102468
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,9)   caucasian(A,36)   total(A,63|G,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:66343):
GTGAGGACACATCACTAAGCAGTGAGAGATGGTGGTTCTGAGAGTGGTTTCCCCTTGAGTGAAACGAGTTCATTCTCTCAGCTTCAGAGAGGGATCTTTT
Y
AGGGAAGTCCCACAGAAGCTCCCTGGCAAAATGGGGAGCTTAGCACTGAGCCCTCTTTTTCCTTGTGCTATGGAGGTAACAAACCAGGAGGAGCCTGTTC
Celera SNP ID:            hCV7619002
SNP Position Genomic:     114362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66344):
CCGCTAAGGAGCCCCTAGCTTCTGACTCCAGGAACAGCCATGAACTGGGGCCCTGCCCTGAGGATGGTGAGTGAAGCCAGGTCCCTCTCGGTTCCTACCA
Y
TGGGGGAGAAGTCTGCCAACTCGTGAGGACACATCACTAAGCAGTGAGAGATGGTGGTTCTGAGAGTGGTTTCCCCTTGAGTGAAACGAGTTCATTCTCT
Celera SNP ID:            hCV7619003
SNP Position Genomic:     114239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66345):
GCCTTCAGTCCATCACCCCAAAACCATTCCCCATGAGTGAGATGTGTGTCTTCGCGGGAGCCCTAGATCCTGTCCTGGCCCAGGGATCTTCCCCCAGCCC
R
CCCAGCCACCCTTAAATCACACCCTCCTCCCCAAGGCCCAGCACAGACCCCTTCCCCAGGGGCCTTAGGAATAGAAGGACTCGAGCAGACATTCCCCCGC
Celera SNP ID:            hCV7619004
SNP Position Genomic:     113902
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   no_pop(G,-|A,-)   JBIG-allele(A,592|G,873)   total(G,873|A,592)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66346):
GAGCAGCCAGGGAGGACTGTACAGGGAGGTGGGCACCTGCCAGGCAGAGGGTTCTTAGGGCCTGGAAGCCCTGTTCCAGTGGGCTCAGTACGGGGTGGTG
Y
GTGCTGCTATCTTGCTCTCACTACAGTCCTCTCTGTTCCTGCCGAGCAACAGATGGATGGAGCTCTTAGAAGAGGCCGTGCGGAATGCCACCAGGCACCC
Celera SNP ID:            hCV7619006
SNP Position Genomic:     108978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66347):
AGCCATGCCTGAGATCCAAGAGCAGATCCACGACTACAGGTTGGCCCAGGAGCTGACCTCCCACCTCTCTCCTCGTTCACCTCCGCCTCTTGGCCCTGGC
W
CCTTCCCTCTGGGACGTGCACATATCTCTTGTTATATGTGTTTGTCTTGTTCTTTCTGGATGTCCATCTGTTGAGTATTTGTGTATATTTCTTTCTTTCC
Celera SNP ID:            hCV7619007
SNP Position Genomic:     92055
SNP Source:               Applera
Population(Allele,Count): african american(A,5|T,13)   caucasian(A,1|T,7)   total(A,6|T,20)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,15)      total(A,2|T,15) ;(T,-|A,-)   JBIC-allele(T,244|A,491)   total(A,491|T,244)   no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66348):
GTGAAGCTCAAGAGGCAGCCATGCCTGAGATCCAAGAGCAGATCCACGACTACAGGTTGGCCCAGGAGCTGACCTCCCACCTCTCTCCTCGTTCACCTCC
K
CCTCTTGGCCCTGGCTCCTTCCCTCTGGGACGTGCACATATCTCTTGTTATATGTGTTTGTCTTGTTCTTTCTGGATGTCCATCTGTTGAGTATTTGTGT
Celera SNP ID:            hCV7619008
SNP Position Genomic:     92039
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,15)      total(G,15|T,2) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66349):
ATCATCTCTGAGATGCAGCGGCTCACCAAGTACCCGCTGCTGCTGGAGAGCATCATCAAGCACACAGAGGGTAGCACCTGGGGAGGGGCTGGCATCACAG
K
CAGTGGGCCTCGTGCCAGACCCTCATTCTGACACTGCTTTGTGACCTTAGCAAGTCACTGTGCCTTGTGGTCTTTGGTGTCTTCGTCCTTTTTCTGTTGT
Celera SNP ID:            hCV27494332
SNP Position Genomic:     105010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66350):
TTTTTGTAGCAATCTTAGGAAAAGATAACGAGCTTCTGAATCAGAACGGTTATGGTGGGGACAAAGAGGAGTGGCAGGATTCCCAAGACGTTTTGGTAGC
R
GAATTAACCAGTATTTTAAGACTGAATCAAATTTATTTATTTATTTATTTATTTTGAGACAGAGTTTCGCTCTTGTTACGCAGGCTACAGTGCCATGGCA
Celera SNP ID:            hCV1818070
SNP Position Genomic:     13893
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66351):
TCACCACCTTGGGGTCAGTGGGGCAGTACAACGATCCTTCTGGCGTGGTGTGCAGTCCCATGCTGGGAAGACATCACCCTGTTTCCCCTCCAGTGGAGAA
Y
CTGCGACATCTGATCCTGTGGAGCCTGCTGCCAGGTCACACCATGGAAACTCAGGCTGCCCAGGAGCCCGAGGACGACCTGACACCCACACCTTCTGTCA
Celera SNP ID:            hCV16183901
SNP Position Genomic:     111117
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,27|T,5)   total(C,52|T,12)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,539|C,954)   total(C,954|T,539) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66352):
TAAGATGGGTAGGGTAGGGAGAATGAAGGGATTCAGACTTTATGTGGTAGTAGAAAGGGAGCCGGGGAAGGTTTATGTATTATATGGTGATAAACATAGT
R
TTTAAAGAGAGAATTCTGATATTAATATATAGAGCAGAAGAGAGCTTGGGGTTAGGAAGCCTAGGAGTTTTTGTAGCAATCTTAGGAAAAGATAACGAGC
Celera SNP ID:            hCV1818071
SNP Position Genomic:     13725
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66353):
GTCCCTGTCTGCTCCCCCACAGCCTGCCACCTGGCTATAATAGAGCTGAGCCTGAAGAAGGGTGAGGGGGATGTAGAGCAAGGGACCAGAGAAGCTCAGC
Y
AGCAGCCCCCCTCCTCTCTGGGTTGCCAAGCAGACCAGCCAGGTGAAGAGGCCCACACCGTCCTTCTCGGATCCTACTCCATTGCCCATTCTAATGCATG
Celera SNP ID:            hCV16183902
SNP Position Genomic:     109433
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,550|T,947)   total(C,550|T,947) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66354):
AAACCGCCCACTTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCATGGCCTCAAGCCTAAATGCTTGTTGGGAAATGTTATTAACAAA
R
CAACACAAAATAAAAAGATGGTACATAATTGCTGAATCGTTATGTACACCAAAAGGTACATTTAGAGAAGAGTGCAAGGTTGGTGCTAATAAGAATAGTC
Celera SNP ID:            hCV1818072
SNP Position Genomic:     13367
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66355):
TATTTTAAGATTATAAGACATCAACATTTTGAGAAAATATTTGAGACCATTTACAAAGTTGCATTCTTGGCATTGCTAGGTAAATTTGCCCTAAGACACT
Y
GCTAGGATCCTAAAGCTACTCTAAGCAGAAGCCTTTGGGTTTGATGATTATCAACTCATTGGCAATCTCAGAAGAAATAGTATTAGCAATATGGTGGGTC
Celera SNP ID:            hCV1817997
SNP Position Genomic:     101034
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66356):
GGTTGTTTCAACATTCACGTGTTAATTTCAAATGTAGTCAAATAAGGTCAATTAGAGAAGGTTTCCTAGGTAATGTGTATTTTCTAGAAAATAAATGACA
Y
AATAAAGGACTATGTATTTGGAAAGAGATTGTAGCTGAGAGTAAGAAAATTTTGGAATATTTACTTGGCAGTCTTTCATCTCCTGTAGCACCCTGTTCAA
Celera SNP ID:            hCV1818073
SNP Position Genomic:     9540
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66357):
ATCTGCATGGCTTCAAGGCCCAGATGCACGTTCAGGCTGGGACAGGCAGATCTGCTCTTAATCTCCAAAGTGAGAGTGATGGTAATAGCCCTACTCCTGT
M
ATGTGCACCCACAGCTACTTACACAGTTTTAGAAAAATATTCCCTAGCCACTTGCCTAAAGGCTGTCAAGTTGTAAACTGTGAAGACAGCAGCTAAATTT
Celera SNP ID:            hCV1817998
SNP Position Genomic:     98240
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,5)   total(A,1|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66358):
CTCATGTGAGGCAAGGGTGGCTCCCCTCCACCCACGCCTGCTGGTTTGAAGCAAGCCAGCTGCCATGGATGAATAGGCAGATAACAGCTGGCGCCATGTT
R
GACTTCTCAGGCAGGAGCCCCAACCATCTCTTCTGTCCATTTTGGTAGGTGGCACCTCTGAGCATGAGAAGCTGTGCCGGGCCCGGGACCAGTGCCGGGA
Celera SNP ID:            hCV16183903
SNP Position Genomic:     105778
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   JBIC-allele(A,589|G,886)   total(G,886|A,589)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66359):
TTGCTCACAGAGAGAGCATGCAACTGGGGGACTGGGAAACACGTAAGACTCTTGAAGACCACATAAAGCAACACCAGACTGTAAGCCCCTCACAAGCAGG
R
ACAGTTTGGTTTGCCTGTATGAAATCCTGTGTGCCTAGCTTAGTGTCTTGCATGAGGTGAGTACTCAAGAAATGTTTGACAAATGAATGTTAGAGTGAAT
Celera SNP ID:            hCV1818074
SNP Position Genomic:     9305
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66360):
TTACATTGAGGCCAAAAAATAAAAGCTAGGCTGGAGTAAGGGAAAGTCTAGGCAGAGGGAACAGCAGGTACAGAAGCCTCAAGCAAGAAAGAGCATGGTG
K
TGTGAGAATTGCAAGTGGCTGTGATCTGTAGTGAGACCATAGAACCATTAATTAAATGAAACTGGAGAAAAGGAAAATGAGTAGGAGCCAAGGCCTGAGG
Celera SNP ID:            hCV7619080
SNP Position Genomic:     17300
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66361):
AATTGTCACAGAATTGAGCAAGTTCATTTCCTGTTAATAAGGTCCATATGCGTGCAACTGATTAACACTTTCTAGGTTCTACAATAAATATATATATAGA
K
AGAGAGAGAGACAGCAATGGGATGCAACCTGGAAACTATTCTGTTACTGCAATTTATTTTATGTAAAAGTGACAATTAAAAATATTATCTTCCAAATTAG
Celera SNP ID:            hCV1817999
SNP Position Genomic:     97338
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66362):
GAGTGGCAGGATTCCCAAGACGTTTTGGTAGCAGAATTAACCAGTATTTTAAGACTGAATCAAATTTATTTATTTATTTATTTATTTTGAGACAGAGTTT
Y
GCTCTTGTTACGCAGGCTACAGTGCCATGGCACGATCTTGGCTCACTGCAACCCCTGCCTCCCAGGTTCAAGCAATTCTCATGCCTCAGCCTCCTGAGTA
Celera SNP ID:            hCV7619082
SNP Position Genomic:     13961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66363):
GATGGTTCCATTAGTTCAACAATTAGAAATCCCTTTGGATACGAAACTTCCTCTGCCACAATTTAAAACCATTTTATTGTCTTTCTATTGTGATTTCAGC
R
TAGGCCTTAAAGTCACTAGTATCCCTCTATTACCATTGTTGACTTCCTTAAGATTTTCCTCCTCATTTTAAAGAATAGCAAACTAAGACATGAATATGTG
Celera SNP ID:            hCV7619085
SNP Position Genomic:     12626
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66364):
GGGCCTTCCCTCTGCCTGGAGCCAGAAGAAATTGTTTTGGGCTCGTAGGCCTGCTGGGCAGCAGCACTGGCCCTCAGAGTCTGAACACATGACACCCCTT
S
CCCCAAGAGTCTGCCCAGCCACCTCTATCACTGGTAATGTTACTGTGTGGTTGCAATTCTTACCTCCAAATGATTGGTACAACTTTGTAAGGTGTCTGCC
Celera SNP ID:            hCV7619086
SNP Position Genomic:     7575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66365):
CATAAATTTTGGTTCCCAGGGTTGCACTGGACTTGGAAGGAGTGCTGTTGTGTACATACTATTGTATGGTTTTATTTATTATTTTACTGTACAAATCAGC
Y
GAAAGAATTTTTCCAAGTGCCATTTCGGATTTATTAATCCTTTTTTTTTTCCTTTCCTCAAAGATATTTGCTGTTGTCATATTAAGCATTGGAGACTAGA
Celera SNP ID:            hCV7619087
SNP Position Genomic:     6163
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   SC_12_A(T,3|C,18)   SC_12_C(T,10|C,13)   SC_12_AA(T,2|C,11)   total(C,42|T,15) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:66366):
CCCTTTAAGCACAAGCCTGTCTGCTCTTGAGAGGAAATGGAATCTTAGGAACAGTATTGTTAAGATAAGAATGGAACTCATCCACATCACAACTGGAAGG
M
TAAGAATCCAGCAGCAGATAGAACTTTCTGACAGGCAGTGTGGAAAATCCTAAAATGAGCTGTGAATATAGTGACTCCACTTTCCTCTTAAGACCTCTTA
Celera SNP ID:            hCV11970883
SNP Position Genomic:     101946
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66367):
GGTCCTGCCTATCAGTAAAAAGGCCCCTTTAAGCACAAGCCTGTCTGCTCTTGAGAGGAAATGGAATCTTAGGAACAGTATTGTTAAGATAAGAATGGAA
M
TCATCCACATCACAACTGGAAGGCTAAGAATCCAGCAGCAGATAGAACTTTCTGACAGGCAGTGTGGAAAATCCTAAAATGAGCTGTGAATATAGTGACT
Celera SNP ID:            hCV11970884
SNP Position Genomic:     101922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66368):
CCTGTGGTCCTAGAAGCAGAGCAGGATGTAGATTACTAATAATATCAGAAAACCAGCCCAACAGGGCCACAGCATGGAGGTGGGGTGACCATCCTGGGGC
R
GCTAGGGGTCAGAGGTGCCAGCTGTCTTGGGCTGATGCACTGCAGGACTCGACACCGCAACACCCAGTCATCAGCATCTCATCAAACCCCAGAGACACTC
Celera SNP ID:            hCV11970885
SNP Position Genomic:     101692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66369):
CAGGCCTCCTGTGGTCCTAGAAGCAGAGCAGGATGTAGATTACTAATAATATCAGAAAACCAGCCCAACAGGGCCACAGCATGGAGGTGGGGTGACCATC
M
TGGGGCAGCTAGGGGTCAGAGGTGCCAGCTGTCTTGGGCTGATGCACTGCAGGACTCGACACCGCAACACCCAGTCATCAGCATCTCATCAAACCCCAGA
Celera SNP ID:            hCV15939568
SNP Position Genomic:     101685
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,6)      total(A,1|C,6) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66370):
TGAATTGTCACAGAATTGAGCAAGTTCATTTCCTGTTAATAAGGTCCATATGCGTGCAACTGATTAACACTTTCTAGGTTCTACAATAAATATATATATA
K
AGAGAGAGAGAGACAGCAATGGGATGCAACCTGGAAACTATTCTGTTACTGCAATTTATTTTATGTAAAAGTGACAATTAAAAATATTATCTTCCAAATT
Celera SNP ID:            hCV1818000
SNP Position Genomic:     97336
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66371):
TTAGCATTTCATATTCCCTTGTCCCCTGTGGAAGGTAAAAGGACCATTTTATTTGGGTTTGTCTTTGCATTAGCATTGAGTTTCCATCTCCCAAATCTTG
K
CTTTTCTGTTTCTTTCTCATCATCTCCCATCCTGTTCCTCCTCCCTCCCTTTCTTTCTTCTCTCCATTTCTCTTATGCGTTGCTCATTGTTGCTAAAGCT
Celera SNP ID:            hCV1818001
SNP Position Genomic:     96214
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66372):
ACGGGCACATGTGACGGGGAGGAAAGCCCAGGCATAGGGTAAACAGAGCTTGCTCAAAAGCAGAGTGAGAATGAAACACAGCTCCCAAGGACTTAGCCTA
K
CCTGGGTGGAGCTAGATGCAGGGACTAGAGGAGAGACATCTTTCAGTTTCTACTGGGGAGCTCAGGTTTCATGGAGTGTGAAGTGCTTGCCTTTTTTAGC
Celera SNP ID:            hCV1818002
SNP Position Genomic:     91432
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66373):
GATTCTGTTCCTAGCGCCACTCTCAAAAAATCTCACAGTACCTCTGTTGTTCCACATATAGAATACACATTGCCTGTCTCTGGAATGTTTGGAGGAAGAG
M
TTGTACCAAATTCTCCCTATTCTCCCCTCATTCAGTGCCCTGGTTCCCCCCAACCCTCCCTGCCTTGCCCATCCCTAGGCCGAAGAAACAGAGGTCTAGA
Celera SNP ID:            hCV1818003
SNP Position Genomic:     89602
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,8)      total(A,8|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66374):
TGTTGGCTCTTATTTTGTTGACTGACAGTCCCACCCCAGATCTTTTGCAAACAGGAAGAGAGCATTTTCTCCTACTTCCCATCTTCATATGTCATGTGAC
M
AGGCTGCTCTGAATCTGCCCTGCCCCACCCAGAAGCAGTTGACTTCCTGCAAGTGGAAATCATTTCATCTGTGCTCTGATTTTGGGGGCGGGAGTGAGAT
Celera SNP ID:            hCV1818004
SNP Position Genomic:     87218
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,4)      total(A,4|C,1) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66375):
ACAAAAAAAAGTGAGTAGTCAGTTCTGGGAGATCCCTTAGGAAGTTGGGTCATGGTTTGAGGAGATTAGCATGTATTTGATGGATCCTGATTAATCAGCC
W
TATATATATATATATATATATTCATATATGTATTCATATATGTATTCATATATATATTCATATATGTATTCATATATTCATATATATATTTTCATATATA
Celera SNP ID:            hCV26628248
SNP Position Genomic:     14859
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2|-,3)   total(A,2|-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66376):
GTTTTCCTTCTGAAATTTTTTCATCTTCTGAAAACTAAGTTGGTATTTTCAAGTGTTAAGAGCAAATAGAGTATAATTTCCAGTTTCTTAGTAGTAATAA
R
TGTTAATAACAGCATAGGAAGAAAACCTATACTTTCCATAAAACTGTCAGCAGCAGGGAAATGGATGCATAAGGAACTCTCACTTTCTGTTATGTCATTC
Celera SNP ID:            hCV1818005
SNP Position Genomic:     85938
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66377):
ATGTATTCATATATTCATATATATATTTTCATATATATATTCATATATATTCATATATGTATTTTCATATATATATTCATATAGATTCATATATATATTC
C
ATATAGATTCATATATATATTCCTATATATAGATTCATATATATATTCCTATATATAGATTCATATATATATATTCCTATATATAGATTCATATATATAT
Celera SNP ID:            hCV26628249
SNP Position Genomic:     15023
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,2)   total(C,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66378):
TCTGGGTTCCAAAGCAGAAATTTCAGATGCATCCAACATGCAAGATTATCAAATCTGGCTTTCATTTTATCATTGTCAACTCTGTTATATAAAGAGTAGG
R
TGGAGAGGGCGGCCATGGCATTAACTGTGGCAAGCCTTTGAGAGTGAGGGAGCAGAGACGAAATAATCTAAAACAGTGACTTGACCAAAAACATATTTCC
Celera SNP ID:            hCV1818006
SNP Position Genomic:     82000
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66379):
ATAGCTGCCATGTATTCAGGTATCTGACTTTGCGCTAGACATTCTGCTAAGCACTTCATATACATAATCTCACTCCACTATTACACCCGTCCCATGAGGC
R
GGTATTGTCATCTCCATTTTATCAATGAGGATGTATTCAAGCTTGCCCAAGTCTATACAGCTAGTAAGTGGAGGTGCCAGAAGTCAAAGCCAGGTGTCCC
Celera SNP ID:            hCV1818007
SNP Position Genomic:     78603
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66380):
TATAGCAATTTAAAAAAATTTTAATGCTCTTAAAGTCCAAAACAAAGCATAATTATTTATGCAATAATCAGAAGGCTTCGTGAGGTGATGCTTGAGTTGG
R
TTCAGTCTGCTGTTAATAGAACGTTGAAAATGTCAGTGGGACCAGGAGTGGTAGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCCAAAGTGGGAAGAT
Celera SNP ID:            hCV1818008
SNP Position Genomic:     76632
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66381):
CCTAACTAATACTGACAGCAGCGAGTCCAGAGTGAGGACCAGGCAGGCTAGATGGTGCCCGTCTCCCTTCTCCTTCTAATCATGAGTAGAAGAATTAAGG
R
GAGGCAGTCTAAGGTGATGTCAGCCTGAGAAGCTAATCACTGGCAGCTTTTTAGAGGACAGGAATTGGAAGCTGCATTTAGAAAGAGATGATTTACGGGC
Celera SNP ID:            hCV7619014
SNP Position Genomic:     91237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66382):
AGCCATAAAAAAGAAAGAAGTACTAATAAATGCTACAACATGGAAGAACCCTGAAAACACTATGCCAGGTGAGAGAAGCCAGACACAAAAATCTACAGGT
Y
GTATTATTCCACTTACATGGAGTGTCCGAAATATGCAGATTCATGAACAGAAAGTAGATCAGTGGTTGCCAGAGGGTTGAAGGAAGGGGAAATTGGGAGT
Celera SNP ID:            hCV1818009
SNP Position Genomic:     76279
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66383):
GGAAACTGGTGAAAGAAAAGGTGGCAGCTCCCTCTTCCTGCCCTGCACACAGGTGCCCAGAATAAAGGCTCTCTTTCCCCTAGGCCACAGCTCCTTCTGT
R
TTATAGAAACTATTTTCTTCTCAGGCCGGCTCTCTCTGGATTCCCAGGAGGGGGACAGTGGCTTGGACTCTGGGACAGAACGCTTTCCTTCCCTCAGTGA
Celera SNP ID:            hCV7619015
SNP Position Genomic:     81656
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,9)   caucasian(A,9|G,19)   total(A,36|G,28)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)   JBIG-allele(G,245|A,1250)   total(G,245|A,1250) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66384):
GAGGCGAACATGCTTGTTAGGGTACCAGCAAGAGTCAGCTCTCCAGTTACTTGCTGAGGGCCAGCCTTGGGGGACAGTGGCAGAATTGATTAGCAGCCAC
R
CCTGGGTATCAGGACCTCCTGCAAACACCAGTGTCTCCTGTCTCAGCAGAGCAGCAATTCCAAGAAAGAAAAGGATGCCTTGGAGGACAAGAAGCGAAAC
Celera SNP ID:            hCV22272788
SNP Position Genomic:     95190
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,31)   caucasian(G,36)   total(A,3|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:66385):
ACTATCAACATCGCTTCCTTCACATCCCACTAGCTCAGTCAGTCTCAGGCCAATGCCTGTCCATCCTCCTCAAAGATCTCCAAAGGTAAACCTTTTATAT
Y
TTCCCTCGGTCACCTGCTTGAGTCTTTTTTTATACTTCTTGATGGTTAAGAAGTTCTTTCTTGTATCCAAATAAGGCAATAGATGCTTTGAGGTCCAGGG
Celera SNP ID:            hCV7619016
SNP Position Genomic:     80654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66386):
GAGGGAATAGAGCTGGAGGCATGGGCAGGAAAAGCAGTATGTGATCTTCTTGGGACTGTAGCTGGCACGTGGTAGGGGCAGGTGGGAGACCCAAGTCAGA
R
CCATTGGTATATCCCCCTGCTGCCACATGGCACATGACTTCACAGTTACCTTTTTGCTTGTCTTCATCCCGCACAAGAGAGTAAGGGCAAGGACTTTTTC
Celera SNP ID:            hCV25618678
SNP Position Genomic:     106380
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,24)   caucasian(G,26)   total(A,2|G,50)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,9)   caucasian(G,14)   total(A,1|G,23)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66387):
AGAGCCATTGGTATATCCCCCTGCTGCCACATGGCACATGACTTCACAGTTACCTTTTTGCTTGTCTTCATCCCGCACAAGAGAGTAAGGGCAAGGACTT
Y
TTCTTATTTACCAATTCCCAGCACCTTAACACAATGTCTGGCACACAGTAGGCTCTCAAACACTTGAATGAATGAATGAATGAATGAATGAATGGTGTCT
Celera SNP ID:            hCV25618679
SNP Position Genomic:     106477
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,40)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:66388):
TCATGGGCAGGGCTGATGCTAGGGTTTAATTCCAGCTACTTGACCCCTCTCCACTAGCTTCTAAGGCTCCCTTTACAGAACTTCCTCCCCACCCCCAGTA
Y
CTTCAGGAGACACATTGTGTGCCAGTGAACAGGCCAGTGGAAGAGCAAGCAGATCCCCGACTTCCAGCCCAAGAACTACACACTTTTCAAATTCCCTTTG
Celera SNP ID:            hCV16183910
SNP Position Genomic:     99596
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,33)   caucasian(C,2|T,34)   total(C,5|T,67)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,67|T,1428)   total(C,67|T,1428) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66389):
GGGAAGTTCTCAGTAAACAACTGTAGAATAAGTCAGTGTTCCCAGCCCCTTGGCTCCAAAGCTGCCCATAGGCTCTCCCATACGTGCCCTCTCCCTTTCC
Y
TGCCTTACAATCTTCTCTCATCCGAAACAGGCACTGGGTCCCAGCAGAGGGTCCAAGGGAAGCACCAGGTCCTGCTAGAGGACCCTGAGCAGGAGGGCAG
Celera SNP ID:            hCV16152307
SNP Position Genomic:     110564
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66390):
AAAAGCTCTTCTCAAAGCAGTGAGTATTTGGGGAGCAACAGCCTTGGGCATTCCTTGGGCAGGGACCTCAGCCCTTTCATGTACCAGTATGTTGGCAGAG
K
GCCTTCCTGTGTTTCTGGGAGCCACAGGCCCAAACTCAGACCACAGCCACTTTCTCCCCTTGCCAAATCCAGTGCAGGATCTCTGAGGTTCAGGTGAATG
Celera SNP ID:            hCV16183911
SNP Position Genomic:     95418
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,20|G,1471)   total(G,1471|T,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66391):
CTGCAGCTGAGAGACCTCATCATCTCTGAGATGCAGCGGCTCACCAAGTACCCGCTGCTGCTGGAGAGCATCATCAAGCACACAGAGGGTAGCACCTGGG
R
AGGGGCTGGCATCACAGGCAGTGGGCCTCGTGCCAGACCCTCATTCTGACACTGCTTTGTGACCTTAGCAAGTCACTGTGCCTTGTGGTCTTTGGTGTCT
Celera SNP ID:            hCV28028258
SNP Position Genomic:     104992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66392):
CCTCAAATACATTGGGAAGCCCAAAAGCTCTTCTCAAAGCAGTGAGTATTTGGGGAGCAACAGCCTTGGGCATTCCTTGGGCAGGGACCTCAGCCCTTTC
R
TGTACCAGTATGTTGGCAGAGGGCCTTCCTGTGTTTCTGGGAGCCACAGGCCCAAACTCAGACCACAGCCACTTTCTCCCCTTGCCAAATCCAGTGCAGG
Celera SNP ID:            hCV16183912
SNP Position Genomic:     95396
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,536|A,953)   total(G,536|A,953) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66393):
GAAAAATGCGGTAAGGCAGTCATAGATTGGATTATAATTTTATCATATTCTTTGAACTACTCAGAGGCAGGGAAAATTAAGCAAAACATCCAGGCCAAAC
R
GAGACAGGTTCTTAAAGAGAAATCTAGGCTGAGAGATTAATATTCCTGGATTCTGTTCCTAGCGCCACTCTCAAAAAATCTCACAGTACCTCTGTTGTTC
Celera SNP ID:            hCV16183918
SNP Position Genomic:     89453
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,6|A,1495)   total(G,6|A,1495) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66394):
AACTATTTTCTTCTCAGGCCGGCTCTCTCTGGATTCCCAGGAGGGGGACAGTGGCTTGGACTCTGGGACAGAACGCTTTCCTTCCCTCAGTGAGGTGAGT
Y
CCAGCAGGGCAAGGCCCATTCAGAACGTGCATTCGGGGTCCCTTCCCTTGACCCAAGTTCTGCTGCCTACCAGCTGCACTGAGGCCTCTGTGTGCCTCTT
Celera SNP ID:            hCV16183919
SNP Position Genomic:     81764
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,33|T,5)   total(C,62|T,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,282|C,470)   total(C,470|T,282) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66395):
GTCCTTAGTTTCCTTGTCTGTGAAATGAGAGTGTTGAGATTCTTTCTAGCCTTTATCATTTATAATTCTGTGAGATGTAGATTTGCATTATTTTCGAGTT
Y
GAGTTATATGAAATGTTTCCCTCTACATTTTCTTGGGCAACTGAGAACTGAATAGGGCTAGGTTTAAATAGAGTTAGGCAGTTAGGCTTATTCTTTTATT
Celera SNP ID:            hCV11970893
SNP Position Genomic:     42925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66396):
TGCTTATGCTTTTGGTGTCATATCTAGAAAACCACTGCCTAACTCAAGGTCACAAAGATTTATTCCTATGTTTTCTTCTAAGAGTTTTACAGTTAGGTCA
R
TGATCCATTTTGAGTTAATTCTTGAGTTAATTCTTGTATATGATGTGAGGCAGGGGTCTAGCTTCATTATTTTGCATGTGGATATCCAGTTGTCTTAGCA
Celera SNP ID:            hCV11970894
SNP Position Genomic:     39679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66397):
TATTCATATATATATTTTCATATATATATTCATATATATTCATATATGTATTTTCATATATATATTCATATAGATTCATATATATATTCCATATAGATTC
A
TATATATATTCCTATATATAGATTCATATATATATTCCTATATATAGATTCATATATATATATTCCTATATATAGATTCATATATATATATTCCTATATA
Celera SNP ID:            hCV26628250
SNP Position Genomic:     15034
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66398):
ATTCATATATATATTTTCATATATATATTCATATATATTCATATATGTATTTTCATATATATATTCATATAGATTCATATATATATTCCATATAGATTCA
T
ATATATATTCCTATATATAGATTCATATATATATTCCTATATATAGATTCATATATATATATTCCTATATATAGATTCATATATATATATTCCTATATAT
Celera SNP ID:            hCV26628251
SNP Position Genomic:     15035
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66399):
ATTTTCATATATATATTCATATATATTCATATATGTATTTTCATATATATATTCATATAGATTCATATATATATTCCATATAGATTCATATATATATTCC
T
ATATATAGATTCATATATATATTCCTATATATAGATTCATATATATATATTCCTATATATAGATTCATATATATATATTCCTATATATAGATTCATATAT
Celera SNP ID:            hCV26628252
SNP Position Genomic:     15047
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66400):
TTTTCATATATATATTCATATATATTCATATATGTATTTTCATATATATATTCATATAGATTCATATATATATTCCATATAGATTCATATATATATTCCT
A
TATATAGATTCATATATATATTCCTATATATAGATTCATATATATATATTCCTATATATAGATTCATATATATATATTCCTATATATAGATTCATATATA
Celera SNP ID:            hCV26628253
SNP Position Genomic:     15048
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66401):
AGTTTGACAGTACTTCAGAACATGAAACACAGCAATACTATATGACCCAGCAGTTCCACTCCCAGGTATATATCCAAGAGAATTGAGAACATAGGTTCAC
M
CAAAAACTTGTACATGAACATTCATACCAGCATTATTAATAATAGCCAGAAAGTAGAAACAACCCAAATGTTCTTCCGCTGATGAATAGATAAGCAAAAT
Celera SNP ID:            hCV1818010
SNP Position Genomic:     76048
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,5)      total(A,5|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66402):
GAAGATATACTATATTATGATAAGTGCTAACATTTATATATTGGCAAATGTCAGAGTAATCAAGACAGTATAATACTGGTTCAAGGATAGACCTGTAGAT
S
AATGGAATAGAATTCACATGCCAGAAATTAACCCATACATCTATGGTCAATTGATTTTCAACAAAGGTACCAAGACAATTCAATGGAGAAAGAATAGTAT
Celera SNP ID:            hCV1818011
SNP Position Genomic:     75123
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66403):
ATTCAAATTACAGTAGGAGGGAGAGTGGGAGGAACAAAGAGCTTACAATAAGAGAACAAAGAAGAGAAAAATTAATTAATAATGGGAAATATGGGGAAGC
R
CTTCACAGAGAGGATAGTATTTCAGCTGGGCCTTGAAGAGTGGTACTTTAGTAGGCAAAAGAGATGAGGGAGGGAATGCCAGTGAAAAGACAGCATAGGT
Celera SNP ID:            hCV1818012
SNP Position Genomic:     74732
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66404):
TTCCTATATATAGATTCATATATATATATTCCTATATATAGATTCATATATATATATTCCTATATGTATTCCTATATATATTCCTATATATATTCCTAAA
Y
ATATACATATATATATTCCTATATATATATTCCTGTATATATATTCCTATATATATATATTCCTGTATATATATATATTCCCACATAGCCACCCAAACTC
Celera SNP ID:            hCV26628256
SNP Position Genomic:     15197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66405):
TTTACTGCATTCCGGCAAGGTACTGAATAAAACATACTTATGATCCAGGCTCTATTCTCATAGCTGTCCTTGCCCAGGAACCAGCAGATAGAAGAGAGCT
M
AGCTGTTGAGTTAGTCCCTAACTCTTATATTGCCATATTTTCCATGTCTAGGATCCCGAAGTTCAAAAACATGCCACCCAGATCCTCAGGAATATGCTGA
Celera SNP ID:            hCV1818013
SNP Position Genomic:     73933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,7)      total(A,7|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66406):
CATACAGTGGGCAAGGATGTGGTGGCTGGGCTAACCCAGCGGGAGATTGACCGGCAAGAGGTCATCAATGGTGAGAACGTGCTCCACTGCCCCCAGCTCC
R
CTCACACGTGTGGGAATAGGTCCAGAATGCCTAAGACACAAGGGTGGGAAAGAGGTAAATAGGGTGGGGGGCCCCTGTGTGCTGGAGCAGGTCCACATTG
Celera SNP ID:            hCV25618680
SNP Position Genomic:     103286
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:66407):
GCCCCAGCTGAGTGACTAACTAGCTATGTGATCAGGATAATTTGTACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCC
R
CACGTGGTGGTGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCTTGAACCCAGGAGGCAGAGGTTGCGGTGAGCCGAGATTGCG
Celera SNP ID:            hCV26628257
SNP Position Genomic:     15469
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66408):
TGATCCGAGAGGGAGGAAAGGAGGGAGGAAAGGTCAGGCCTGGCATTCCAGGAGGTTTCCTTTGTAGATATGTGAGGCAGCTAAAGTCACATCTTTAATC
K
TAACATGGAGTGATCCACTTAAGTGGCCACAATTCCCTATTACTTCAAGTGGAGACAGTACTAGGCTCTCATGAGACATCTTCATTTTTACCCACACTCA
Celera SNP ID:            hCV1818014
SNP Position Genomic:     71951
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,6)      total(G,6|T,4) ;JBIG-allele(T,584|G,901)   total(T,584|G,901)no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66409):
GAGAATGGCTTGAACCCAGGAGGCAGAGGTTGCGGTGAGCCGAGATTGCGCCATTGCTCTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAAAAAG
A
AAAAAAAAAAAAAGCATTTTGTGAATTCCATGGTGCCAAACATACGGTGAGTGTTGTTAGGGCATTTGGTTTGGCAGGGACCCCAGATTGTCCTAAACTC
Celera SNP ID:            hCV26628258
SNP Position Genomic:     15620
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66410):
AGGAGAATTGCTTGAACTCAGGAGCTGGAGGTTGTAGTGAGCTGAGATTGCGCCATTGTACTCTAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAC
A
ACAACAACAACAACAACAACAACAAAAACCACCAAAGTGGTTGCACCATTTTACATTTCCACCAGCAATCTGTGAGGGCCCAGTTTTTTCATATCTTTCT
Celera SNP ID:            hCV26628259
SNP Position Genomic:     21754
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66411):
CAGAACAAATTCATAGTGTGACTTGAGTAAACAAGTGACCAGAGGAGGCTAAAGAGCATTGGAAAATGGCTTCCTAAAAACATGGCATTTTGGGCCAGGC
R
CAGTGGCTCACGCCTGTAATCCCAGCCCTTTGGGAGGCCAAGACGGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCC
Celera SNP ID:            hCV1818016
SNP Position Genomic:     71384
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66412):
GCTCCTCTCACCTGCAAGGGGCTGGTTGGGTGGCTGTCTCCTCTTCTGGGCCCACTGGTTTCCCATGTGCATGGGGCAAGCAGGTCGGGCAGGAGAGGGA
R
GGCCAAACCCTCTGTGTGAGTTCTTCCTCCTAAATGAAGCTGAGCTGCCTGTTTTCCCCCAGGAGCATTGAGTCCCCCAGTTTGGGGTTCTGCACAGATA
Celera SNP ID:            hCV25618684
SNP Position Genomic:     103005
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:66413):
TGAAATCCTTTTTCTTGGGGCTGACCTCGGAAGCACTGAATTGCTTTCTGGCAAGAGGTCCAAGAAATACACTTTTTAAAAATTCCCACAGTGATTCTCA
K
GCTTGCTGAAGTCTGAGAATTTCTGCTCAAGTTCCTTAACTCTGAAGAGTTTAGTTTAAAAAAAAAAAACACTAAGTTATTAGAAGTCACCTCACGTGTT
Celera SNP ID:            hCV7619024
SNP Position Genomic:     68777
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,4)      total(G,4|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66414):
GTTGACATGGATGCTGCTGCGGAGGCTACTCGCCTGCACCAGTCAGCCTCGTCCTCTACCTCCAGCCTCTCCACCAGGTGGGCAGGGCTACAACGGCTGC
R
CCCATGGACATCTCAGGGGTGGCGGCAAGGATAGAGGGTTGCTGAGAGTTGACATTCCCTCCACAGGTCTCTTGAGAACCCAACCCCTCCATTCACTCCC
Celera SNP ID:            hCV25618685
SNP Position Genomic:     102729
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,35|G,1)   total(A,69|G,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|G,1)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66415):
TTCCAGATACATATTAGGTTTCTTTAATTCACTGTCAAAGTATAGTCTGTGTTCTGCCTGTATTAGAATCACCTAAGCCCAAGATGATTGAAATCCTTTT
Y
CTTGGGGCTGACCTCGGAAGCACTGAATTGCTTTCTGGCAAGAGGTCCAAGAAATACACTTTTTAAAAATTCCCACAGTGATTCTCAGGCTTGCTGAAGT
Celera SNP ID:            hCV7619025
SNP Position Genomic:     68689
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66416):
CAATATGGTGAAACCCTGTCTCTACAAAAAATACAAAAATTAGCATGTGTTGGCACATGCCTGTAGTCCCAGCTACTTCGGAGGCCGAGATGGGAGGACC
R
CTTGAGCCCAAGATGTTGAGGCTGCGGTGAGCCAAAATCGCACCGCTGCACTCCAGCCTGGGTGACAGAGTGAGACACAGTCTCAAAACAAACAAACAAA
Celera SNP ID:            hCV1818019
SNP Position Genomic:     69460
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66417):
CCCAGACTTTTAGCCAGCTTCTGCCTGCTGTCCCATTTAATTATTCTAGACTTTTCTTTGAATACTTTCACCTGTAACTACCCCTTCCCCACTCCACTGC
R
TGGTGGTGAAGAGATTGTTTGGCACAGGGAAGATAACTTGAGCTCTCTGATTCAGGACACTGTTCCTCTTTTACAGCGCCCCCATGGACTTCGCCCTCAA
Celera SNP ID:            hCV25618686
SNP Position Genomic:     94398
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,25)   caucasian(A,1|G,33)   total(A,2|G,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:66418):
GGGGATAACTGAGAAGTTGGGTCAGAAAATCTGTCTCAGTGGTGCCATTTAGAGTACAAATTTGGGGGGAAATTCTCCACTCCTCAGGGCCGCCTCCATA
Y
CCGCAGGTTTAGGCTGAGCAGAATCTGAGCTCTGCTGCCAAATTTTGATGAGAATGTCCTCAGGAAAAGGGAGGGGCCACCATTAAAATCTTTTCTATCT
Celera SNP ID:            hCV7619026
SNP Position Genomic:     61907
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66419):
TTGTCCCTCCAACAGGTCAACGGCACCATGGTGACCAATAGCTCACACCTGGAAGTGGTAAAGCTGATCAAATGTGAGTTGGAGAGAGGTGACAACTAAA
R
TAGGGAAGCAGATGATCCGAGAGGGAGGAAAGGAGGGAGGAAAGGTCAGGCCTGGCATTCCAGGAGGTTTCCTTTGTAGATATGTGAGGCAGCTAAAGTC
Celera SNP ID:            hCV16183920
SNP Position Genomic:     71838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66420):
ATGAAGGCAGGGATTAGAGAATGGGTGGGGCATTAAAAGTGAGGAGAACTTAATCTACAGAATAATGAGTTTAATGACAGGACAAGGGAGAACAGCCCCC
Y
CCTGTATAGCTGGACTGTCTCTCCAGAACAGCACTCCTGGAACAAGTCTCTCTCTGTTTCCCTCTAGCTGGCGCCTATGTCGCACTCACCCTCCTGGGCT
Celera SNP ID:            hCV22271561
SNP Position Genomic:     72589
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(T,32)   total(C,2|T,62)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(T,38)   total(C,2|T,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:66421):
GAAGGCAGGGATTAGAGAATGGGTGGGGCATTAAAAGTGAGGAGAACTTAATCTACAGAATAATGAGTTTAATGACAGGACAAGGGAGAACAGCCCCCTC
Y
TGTATAGCTGGACTGTCTCTCCAGAACAGCACTCCTGGAACAAGTCTCTCTCTGTTTCCCTCTAGCTGGCGCCTATGTCGCACTCACCCTCCTGGGCTCT
Celera SNP ID:            hCV22271562
SNP Position Genomic:     72591
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,38)   total(C,67|T,3)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,32)   total(C,61|T,3)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66422):
ACCACCTCCTCCACCTCTACCACCTCCACAACGCATCACAGGACCCAAACCTCTGCAGGTAATAATCCTCCTGGCTTTCTTTCCTCACCCTAATGTCCTG
W
TGAAAAGCTCCGCATTGGGGAGGAAAGCAAGTTAAATCCAGTGGGGCTGTGGTAAACAGAGACAAGCCAAAAGACATATGAAAGACCATTGAAAGAGTTG
Celera SNP ID:            hCV22271564
SNP Position Genomic:     72878
SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,25)   caucasian(A,6|T,18)   total(A,13|T,43)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,25)   caucasian(A,11|T,27)   total(A,18|T,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:66423):
CTCTCATGTTTCTTCTAAGAGTTTCATAGTTTAACTCATATAGTCTATGGTCCATTTTGAGTTAATTTTTATGTATGGTATGAGGTAGGGGTCCAACTTC
R
TACTTTTGCTTATGGATTTCTGATTGTCCCAGCCCCATTTGTTGAAAAAACTATTCTTTCTCCATTTAATTGTCTTGGCACCTTTGTTAAAAATCAGTGG
Celera SNP ID:            hCV11333190
SNP Position Genomic:     28081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66424):
TTGCTCTCCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAAAAAGAAAAAAAAAAAAAAGCATTTTGTGAATTCCATGGTGCCAAACATACGGTGAGT
K
TTGTTAGGGCATTTGGTTTGGCAGGGACCCCAGATTGTCCTAAACTCTCCTCAGCTGCCACTAGAATACCCATGCTTGAATTACCCTCAGTCCTGTGCTG
Celera SNP ID:            hCV11333197
SNP Position Genomic:     15673
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66425):
GGAGAATTGCTTGAACTCAGGAGCTGGAGGTTGTAGTGAGCTGAGATTGCGCCATTGTACTCTAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAACA
A
CAACAACAACAACAACAACAACAAAAACCACCAAAGTGGTTGCACCATTTTACATTTCCACCAGCAATCTGTGAGGGCCCAGTTTTTTCATATCTTTCTT
Celera SNP ID:            hCV26628260
SNP Position Genomic:     21755
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66426):
GAGAATTGCTTGAACTCAGGAGCTGGAGGTTGTAGTGAGCTGAGATTGCGCCATTGTACTCTAGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAACAA
C
AACAACAACAACAACAACAACAAAAACCACCAAAGTGGTTGCACCATTTTACATTTCCACCAGCAATCTGTGAGGGCCCAGTTTTTTCATATCTTTCTTT
Celera SNP ID:            hCV26628261
SNP Position Genomic:     21756
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,2)   total(C,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66427):
CTACCAAACTTTTCCAAAGTGGTTGTACCATTTTACATTCCCACCAGCAATCTGTGAGGGTTCTAGTTTCTCCACATCCTCTCCAGCAGTTGTTATTATC
T
TTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCTCCCCCTCCCTGTTTCAAAT
Celera SNP ID:            hCV26628262
SNP Position Genomic:     27261
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66428):
ATTGCCTACCTCAAAAGTCACGAAGATTTACTCTCATGTTTCTTCTAAGAGTTTCATAGTTTAACTCATATAGTCTATGGTCCATTTTGAGTTAATTTTT
R
TGTATGGTATGAGGTAGGGGTCCAACTTCGTACTTTTGCTTATGGATTTCTGATTGTCCCAGCCCCATTTGTTGAAAAAACTATTCTTTCTCCATTTAAT
Celera SNP ID:            hCV26628263
SNP Position Genomic:     28051
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66429):
CCTCTGGGCTGTCTTTTCACTTTCTTGATGGCATCCTTTGAAGCACAAAGGTTTTTTATTTTGATGAAGTCCAGTTTTTATATATTTTTTCTTTTTTTGC
K
TATGCTTTTGGTGTCATATCTAGAAAACCACTGCCTAACTCAAGGTCACAAAGATTTATTCCTATGTTTTCTTCTAAGAGTTTTACAGTTAGGTCAATGA
Celera SNP ID:            hCV26628264
SNP Position Genomic:     39582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66430):
AATAGTCTAGGGAATTTGTTTAGTGTGAAAAGGCTTCTTGAAGAAGAAAGGCACTGGGGCTTCCCTGGGTTGGTCTTGGCATGTGTACACTAACCTCCCA
R
TGACACTGCGTACTCAACCTTTCTCTCCGCCTTCCAGGTCTCGTTCAACGCTGTGTCATTATCCAAAAGGACCAGCATGGCTTCGGCTTCACAGTCAGTG
Celera SNP ID:            hCV1818021
SNP Position Genomic:     66564
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,7)   caucasian(A,3|G,7)   total(A,20|G,14)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66431):
TTGAAGCACAAAGGTTTTTTATTTTGATGAAGTCCAGTTTTTATATATTTTTTCTTTTTTTGCTTATGCTTTTGGTGTCATATCTAGAAAACCACTGCCT
A
ACTCAAGGTCACAAAGATTTATTCCTATGTTTTCTTCTAAGAGTTTTACAGTTAGGTCAATGATCCATTTTGAGTTAATTCTTGAGTTAATTCTTGTATA
Celera SNP ID:            hCV26628265
SNP Position Genomic:     39619
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66432):
GAGACAAGCATTTTAGCACCTCAGAGAAGGGTAGTTTCTTATTTGGAATACAAAGTTAAGTTATAGGTTTTGCCAACCACCAAGGGAGGCGTGTCATTGC
R
ATAGTGTTTAGACAGGAATAGTCTAGGGAATTTGTTTAGTGTGAAAAGGCTTCTTGAAGAAGAAAGGCACTGGGGCTTCCCTGGGTTGGTCTTGGCATGT
Celera SNP ID:            hCV1818022
SNP Position Genomic:     66447
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66433):
TTTAATAAGCATTTTTGGAGCATCTACGGTGTTCCAGGAACTGAACTGTTGTAAACATTGGAGCTGTAACAGAGAACAAAAGAGACAAAAAAAAAAAAAC
A
AAAAAAAAAAACCTTTGCCTTCTTGGAGCTTACATTACATTCTAAACAAATTAAATAAGAAAGTTATTTGTTAGATATTACTGTGTATTAGATAATATGG
Celera SNP ID:            hCV26628266
SNP Position Genomic:     43124
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66434):
CCAGGATTCCAGATAGGTGGTGTTACCAGTGGTGTACACATGGCTAATGTCCTACCAGATTGGGTTACAGGGCGGGTAGGTTGGTCTCTCATTATCCAAG
R
CTCAGGGCCCCTTTTGACAGAGCCTCCATCTACTACAAGGCTGATCCCCCCTGCTGAGCTCATTGACATGCTTTCCTTACTCCTTCTCCAGGTTAAGTAG
Celera SNP ID:            hCV1818023
SNP Position Genomic:     64774
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,32|G,4)   total(A,64|G,6)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;(G,-|A,-)   no_pop(G,-|A,-)   JBIC-allele(G,616|A,877)   total(G,616|A,877)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66435):
CCCATGGGATGATTGCTCCAGAACACTGCACAGTAGCTTACGGACAGGTGCAAATGGGACAGACCCTGCCTAGGCGCTCACTCTGCCGGGGGGAGCTTGT
Y
ATGGGAAGACATTGGACTTGGAGTTAGGAGACCTGGGTTCATGTCTGCCAGCCTTCTACATGACCTCTCTGGGCCTCCGTTGGCTTATCTGAACAAAGAG
Celera SNP ID:            hCV25618690
SNP Position Genomic:     90851
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,36)   total(C,69|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:66436):
GTTCTCTCTCCTCCTAGCTTTTTTACCTGTGTGCAGAAGTTTATCAGCAGGCAAGCCCCAAGGATTCCCGAAGCTTGGGGAAAGACATCTGGAATATTTT
Y
CTGGAGAAAAATGCGGTAAGGCAGTCATAGATTGGATTATAATTTTATCATATTCTTTGAACTACTCAGAGGCAGGGAAAATTAAGCAAAACATCCAGGC
Celera SNP ID:            hCV25618691
SNP Position Genomic:     89347
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66437):
TGAGGCGGAAGGATCAGATAAGACCAGGAACTGGAGGTTTCAGTGAACTATTATCATACCACTGCACTCCAGCCTGAGTGACAGAGCAAGACTTTGTCTC
A
AAAAAAAAAAAAAAAAAAATAGAGAGAGAGGTTCCTAAGCTCAGCCAGCTAGTAAGTGGCAGAATCAGGATGGAGACCCTTGTCTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV26628267
SNP Position Genomic:     54157
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66438):
TTCATTCTTTCTTATGACTGAGTTCTGTGTCATTGTATTACTGTAATTTATTTAACCAGTCACTCATTGTGAACATTTAGATTATTTCCAGTGCTTTGCC
R
TCACACACAGTGCTTCCATGAGTAGCCTTCTACTTAGTCTTTTGCTATAGGTAGGATAGGAATTGCCCCTTTCTGAGGGGCAGCAACTATTGATTCAGGA
Celera SNP ID:            hCV1818024
SNP Position Genomic:     63799
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66439):
AGAGCAAGACTTTGTCTCAAAAAAAAAAAAAAAAAAAATAGAGAGAGAGGTTCCTAAGCTCAGCCAGCTAGTAAGTGGCAGAATCAGGATGGAGACCCTT
G
TCTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGATGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCCGCCCCCCG
Celera SNP ID:            hCV26628268
SNP Position Genomic:     54239
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66440):
AGGGGCTTAAAGTCTAAAAGAGATGACAGACTAACAGATGATATCAATATGTGTTCATTTTGCAGATAAGAAAGATGATAGACTGATGATAGACTCATAA
R
TTAAGGGACTTGTTTCAAGAGTTTCTCCAAGTTACGGTCCTCTGAATAAGGAATGGCTTGGGCTGCTTGTTGAAATAGATTCCACACCACAGACCTGCTG
Celera SNP ID:            hCV7619031
SNP Position Genomic:     56956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,5)      total(G,1|A,5) ;(G,-|A,-)   Caucasian(G,26|A,58)   African-American(G,20|A,64)   Asians(G,34|A,50)   total(G,80|A,172)
SNP Type:                 INTRON


Context             (SEQ ID NO:66441):
GATAACTGAGAAGTTGGGTCAGAAAATCTGTCTCAGTGGTGCCATTTAGAGTACAAATTTGGGGGGAAATTCTCCACTCCTCAGGGCCGCCTCCATACCC
S
CAGGTTTAGGCTGAGCAGAATCTGAGCTCTGCTGCCAAATTTTGATGAGAATGTCCTCAGGAAAAGGGAGGGGCCACCATTAAAATCTTTTCTATCTATG
Celera SNP ID:            hCV1818025
SNP Position Genomic:     61910
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,7)      total(G,7|C,2) ;SC_12_A(C,6|G,17)   SC_12_C(C,6|G,18)   SC_12_AA(C,11|G,12)   SC_95_C(C,34|G,147)   total(G,194|C,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:66442):
GACTCCAGGAACAGCCATGAACTGGGGCCCTGCCCTGAGGATGGTGAGTGAAGCCAGGTCCCTCTCGGTTCCTACCATTGGGGGAGAAGTCTGCCAACTC
R
TGAGGACACATCACTAAGCAGTGAGAGATGGTGGTTCTGAGAGTGGTTTCCCCTTGAGTGAAACGAGTTCATTCTCTCAGCTTCAGAGAGGGATCTTTTT
Celera SNP ID:            hCV25618692
SNP Position Genomic:     114262
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,39)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:66443):
AGCAAGACTTTGTCTCAAAAAAAAAAAAAAAAAAAATAGAGAGAGAGGTTCCTAAGCTCAGCCAGCTAGTAAGTGGCAGAATCAGGATGGAGACCCTTGT
C
TTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGATGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCCGCCCCCCGGG
Celera SNP ID:            hCV26628269
SNP Position Genomic:     54241
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,3)   total(C,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66444):
CCTTCAGCTAACATTTTTGGAGCGACCCTCACTATGCACCAGGCACTGTGCTGGAACTCAGCTGGTGATACAAGGATGAATAAGACATGGTCCCTGTTCT
Y
AGGGGCTTAAAGTCTAAAAGAGATGACAGACTAACAGATGATATCAATATGTGTTCATTTTGCAGATAAGAAAGATGATAGACTGATGATAGACTCATAA
Celera SNP ID:            hCV7619032
SNP Position Genomic:     56855
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66445):
AAGCTTACTGGCTAATATATGTTGAAGGAATGATAGAATTAGCAAATTGCCATTTTGCAGGCACCAGTGCAATAAGCGCTTTAGGCAAGAATCATCTATG
R
ATAGTAAAACTATTGGATGAGAGATTGTTGGAAAACAGAGTATCTATGCAGTCTCAAAATATCATCCCACAGATTTCTCATTAATTCAAATGAGAAAATA
Celera SNP ID:            hCV1818026
SNP Position Genomic:     60542
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66446):
TTCCTCTTGATGTCTTGAGATGCTATTCTTTTCATTGAACATAAGTTTGATGGAGGACTCCGTGACAAAAGCAAATAAATATAGGCTAAACATAATATTC
R
GCAGTAGATCATCTAGGAGATCTTAGGAGATCTGTAAAATGGTTGCATCTATATTAGATAACTCAAGACTTGATTTTGTGTTTCAAGGCAGGATGTGCTT
Celera SNP ID:            hCV7619033
SNP Position Genomic:     52260
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;(G,-|A,-)   African-American(A,31|G,53)   Asians(A,30|G,54)   total(G,107|A,61)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66447):
ACTTTCAAAGCACTTAATAAATATTATCTTTTTTGCCCTCACATCAGCCCTGGAAGAAAGAAAGGACGTATATGGGTCCTTCAGCTAACATTTTTGGAGC
R
ACCCTCACTATGCACCAGGCACTGTGCTGGAACTCAGCTGGTGATACAAGGATGAATAAGACATGGTCCCTGTTCTCAGGGGCTTAAAGTCTAAAAGAGA
Celera SNP ID:            hCV1818027
SNP Position Genomic:     56778
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66448):
GATGCTTCACTGTCTTATTTGCAGAATTCAGTTGTAGCAATCTGGGGCATTGAAGAATTTAGGAGCTTAAATAGTTCTTACAGGGTCACCAGTGGTACTC
Y
CCGCCTAAGTCCATAGAGAGGCTAACACCCTTCTAGTTTATTAGTCTTTGTTAAACCTATGAAATTATGAATTTAATCCTAATTTATATGCATTGTGGAG
Celera SNP ID:            hCV1818029
SNP Position Genomic:     54880
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66449):
GACTCTCTCCCCCAGGGTGTAGATCAAAGCCCAAAGCCTTTAATTATTGGCCCAGAGGAAGACTATGACCCGGGTTATTTCAACAACGAGGTAACGGTTT
S
CTAGTTTTCTCCTTTCATCATTTTTTTTTGTCATACAAGCTGCTCTTGACTAGAAGCAGTTTGACTAGCATCAGCTGTGAAGGGAACTTGAGGCGGGGAG
Celera SNP ID:            hCV25618697
SNP Position Genomic:     87530
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,3)   caucasian(C,38)   total(C,71|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:66450):
CTCCCTCTTCCTGCCCTGCACACAGGTGCCCAGAATAAAGGCTCTCTTTCCCCTAGGCCACAGCTCCTTCTGTGTTATAGAAACTATTTTCTTCTCAGGC
Y
GGCTCTCTCTGGATTCCCAGGAGGGGGACAGTGGCTTGGACTCTGGGACAGAACGCTTTCCTTCCCTCAGTGAGGTGAGTCCCAGCAGGGCAAGGCCCAT
Celera SNP ID:            hCV25618698
SNP Position Genomic:     81683
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66451):
CCCCCTCCCTCCTGCTGGGGCAGCCTCCATGATTTCCCTTCCTGTGGCTTTGCTCTCCACCCCTGACTTCTACTCCTAATAATCAGATCTTGGATCTTCC
W
GAAAGTTGCTTTATGTTGTCTGGAGTTGCACAGCTAGTAAATGGCAGAATTAGCACCAATATCTAGGTCTCCTGGCTTCCTCTTGATGTCTTGAGATGCT
Celera SNP ID:            hCV7619038
SNP Position Genomic:     52083
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,3)      total(A,2|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66452):
ACTGGTGAAAGAAAAGGTGGCAGCTCCCTCTTCCTGCCCTGCACACAGGTGCCCAGAATAAAGGCTCTCTTTCCCCTAGGCCACAGCTCCTTCTGTGTTA
Y
AGAAACTATTTTCTTCTCAGGCCGGCTCTCTCTGGATTCCCAGGAGGGGGACAGTGGCTTGGACTCTGGGACAGAACGCTTTCCTTCCCTCAGTGAGGTG
Celera SNP ID:            hCV25618699
SNP Position Genomic:     81660
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,37)   total(C,1|T,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:66453):
CAGGGAGAGGAAGCTGGGACTTTGGTATCAGACACACTTGAACTTGTGTCCTGGCTCTACTATTTAATAGCTGTATGGCCTGGGGCGACTTATGTAACTT
W
GCTGAACCTCATTTTCCTTATCCGTAAAGGAAAATAACACTGTTATCTCACCAGGTTGTCAGGATTAAATGAATGCCTGTAACACATGTTTATTATATGT
Celera SNP ID:            hCV7619039
SNP Position Genomic:     51770
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,7)      total(A,7|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66454):
TTTCCCTGTCTTTTTCTTGCATTCATTTTCTCTGCTGCTCCGTTCTGTTCCATCAGCCCCATTGCAGCCTGGTAAGACCCAACAAGCATGTACACGTGTG
Y
ACATCCCCTTCTTGCTATTGTCTCTTTGTCGCCTAACTCCAGGAAGGGTTATTTCCCTTCACACCTTGCTGGGTATTAAAGAGATCATGCTTGCCCTGCC
Celera SNP ID:            hCV27509847
SNP Position Genomic:     64570
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,394|C,713)   total(C,713|T,394) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66455):
CTCTTCTGTCCATTTTGGTAGGTGGCACCTCTGAGCATGAGAAGCTGTGCCGGGCCCGGGACCAGTGCCGGGAGATTCTCAAGTATGTGAATGAAGCGGT
R
AAACAAACAGAGAACCGCCACCGTTTAGAGGGCTACCAGAAACGCCTGGATGCCACCGCCCTGGAGAGGGCCAGCAACCCCCTGGCAGCAGAGTTCAAGG
Celera SNP ID:            hCV27899407
SNP Position Genomic:     105906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66456):
GCCTGTAATCCCAGCACGTTGGGAGGCTGAGGCTGAGGATCCCTTGTGCCCAGGAGTTTGAGACCAGCCTGGGCAAGATAGTCAGAGCTCATCTCTATTT
A
AAAAAAAAAAAAAAAAACAAGCTGGGCAGCTACTCAGGGAGCTTAGGTGGGAGGATTGCTTGAGCTCGAACCCAGGAAGTCGAGGCTGCAGTGAGCCGTG
Celera SNP ID:            hCV26628270
SNP Position Genomic:     55314
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,8)   total(A,5|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66457):
TCTATGTGAGACCGTAAGCTCGAGGATGCCAGAACTTCTGACTGACCTTTCAAGAGAAGTCAGAAATCTGTATTTTATTGCTTAGCAACTAACTTTTAAA
A
TATATATATATATACACACACACACATATATATACACATTCACACACAGACACACCGCAGACCAACAAAAAGGATATGTGGGCTCTCTGGAAGGTCACCA
Celera SNP ID:            hCV26628271
SNP Position Genomic:     58408
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66458):
CTATGTGAGACCGTAAGCTCGAGGATGCCAGAACTTCTGACTGACCTTTCAAGAGAAGTCAGAAATCTGTATTTTATTGCTTAGCAACTAACTTTTAAAA
T
ATATATATATATACACACACACACATATATATACACATTCACACACAGACACACCGCAGACCAACAAAAAGGATATGTGGGCTCTCTGGAAGGTCACCAA
Celera SNP ID:            hCV26628272
SNP Position Genomic:     58409
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66459):
GCCTGAGTGACAGAGCAAGACTTTGTCTCAAAAAAAAAAAAAAAAAAAATAGAGAGAGAGGTTCCTAAGCTCAGCCAGCTAGTAAGTGGCAGAATCAGGA
Y
GGAGACCCTTGTCTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGATGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGC
Celera SNP ID:            hCV1818030
SNP Position Genomic:     54228
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66460):
TAAGCTCGAGGATGCCAGAACTTCTGACTGACCTTTCAAGAGAAGTCAGAAATCTGTATTTTATTGCTTAGCAACTAACTTTTAAAATATATATATATAT
A
CACACACACACATATATATACACATTCACACACAGACACACCGCAGACCAACAAAAAGGATATGTGGGCTCTCTGGAAGGTCACCAAGCATCTCCTTGCT
Celera SNP ID:            hCV26628273
SNP Position Genomic:     58422
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66461):
AAAGGGTGCACAGCCTAGGGCAGTGCTGGATTGTTCTACTAAGGGGTGAAGATGGTGCCCTCAGAGCCGGGCTCTGCTTCGTTTCTGGGAGACAGTTGTG
Y
CTCTTTACTCTAGGACTCACAGTCCAGCGAACAAGGAGAGAGGTCGACAATGTGGAAGGTGCTTTTGCAGAAATATATACCAGGTGCTGTGGGAGACAGA
Celera SNP ID:            hCV1818031
SNP Position Genomic:     52885
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66462):
AAGCTCGAGGATGCCAGAACTTCTGACTGACCTTTCAAGAGAAGTCAGAAATCTGTATTTTATTGCTTAGCAACTAACTTTTAAAATATATATATATATA
C
ACACACACACATATATATACACATTCACACACAGACACACCGCAGACCAACAAAAAGGATATGTGGGCTCTCTGGAAGGTCACCAAGCATCTCCTTGCTT
Celera SNP ID:            hCV26628274
SNP Position Genomic:     58423
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,3)   total(C,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66463):
AGCCTGGCCCACATGGCAAAACCCCATCTTTACTAAAACTACAAAAATTAGCCTGGCATGTTGACACACGCTATAATTCCAGCTGCTCAGGAGACTGAGG
Y
ACAAGAATCACTTGAACCTGGGAGGCGAAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGTGTGATAGAGTGTGACTGTCTCAAAAAAAT
Celera SNP ID:            hCV1818032
SNP Position Genomic:     50960
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,7)      total(C,7|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66464):
TGTCGCCCACCCTGTGGGCTGGGGTGAGGAGCATGTGGATGCATAGTTAGAAGGCACCTGCTCTGTGCCTTGTGCTGCACTCAGGCATACCGGGAAGTCC
M
CACTGCAACCTCTGCCCTCCAGCAAATAGGCAGGACTGACGCACCAGGCCACAGGGAGCCTTGGAGGAGGGGAGAATGTGTGCGCCAATGCGGGCTGCAT
Celera SNP ID:            hCV26628275
SNP Position Genomic:     58624
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66465):
CAGTTAGGGAAACTAGGATCCAGCCAAGGCCCGGGGGGAGACCCGCATGTTGCTTGGTCTGCTCAAGTCGGAGTCAGGTTTCAGTGTCTTTTCCCTCCCT
Y
AGCCCAACCCTCCAAGGCCTCATGTCTCCTAAGCATGCTGACTGCATCCGAAAGGCCCCCACTCACCATGGTCTGCCCTCACCCCACATATGTGTGTACA
Celera SNP ID:            hCV1468848
SNP Position Genomic:     115228
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,8)      total(C,1|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:66466):
GCTCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCCACATGGCAAAACCCCATCTTTACTAAAACTACAAAAATTAGCCTGGCATGTTGACACACGCT
M
TAATTCCAGCTGCTCAGGAGACTGAGGCACAAGAATCACTTGAACCTGGGAGGCGAAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGTG
Celera SNP ID:            hCV1818033
SNP Position Genomic:     50932
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,8)      total(A,8|C,2) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66467):
GGGCTGGGGTGAGGAGCATGTGGATGCATAGTTAGAAGGCACCTGCTCTGTGCCTTGTGCTGCACTCAGGCATACCGGGAAGTCCACACTGCAACCTCTG
M
CCTCCAGCAAATAGGCAGGACTGACGCACCAGGCCACAGGGAGCCTTGGAGGAGGGGAGAATGTGTGCGCCAATGCGGGCTGCATTGTAAAGAAGAGGAA
Celera SNP ID:            hCV26628276
SNP Position Genomic:     58639
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,3)      total(A,1|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66468):
ACAGTGGATCATACCTATAATCCAAGCACTTTGGGAGGCCGAGGCAGGTGGCTCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCCACATGGCAAAAC
S
CCATCTTTACTAAAACTACAAAAATTAGCCTGGCATGTTGACACACGCTATAATTCCAGCTGCTCAGGAGACTGAGGCACAAGAATCACTTGAACCTGGG
Celera SNP ID:            hCV1818034
SNP Position Genomic:     50882
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66469):
GCAAAAAGTACAAGGCTTGGTCTTCCCATCTTACTGTTAAGAAAGCTGAGACTGAGAAGTGGTGTGGCTTGCCCAGTGCCACACAGTGGCTACGATGTGG
Y
GAGGAGGAAACCTCATTCCACAGATGGAGGCCTTTCCCTTCGGCCCTGGCAAGTCCCTGTGACAGATGCTTGTTCTTTATCTTGTAGGTTCTAGGTTCTG
Celera SNP ID:            hCV7619040
SNP Position Genomic:     51225
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66470):
GAGGAGCATGTGGATGCATAGTTAGAAGGCACCTGCTCTGTGCCTTGTGCTGCACTCAGGCATACCGGGAAGTCCACACTGCAACCTCTGCCCTCCAGCA
R
ATAGGCAGGACTGACGCACCAGGCCACAGGGAGCCTTGGAGGAGGGGAGAATGTGTGCGCCAATGCGGGCTGCATTGTAAAGAAGAGGAAGAGTTCTGCG
Celera SNP ID:            hCV26628277
SNP Position Genomic:     58649
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66471):
ACGCCTCTGCACTCCAGCTTGGGCTACAGGGCAAGGCTGTCTATAAAAAAAAAGGAGGGGAGAAACTGTAAATGGCTTAAAACAGTTTTTTTAAAAGAAA
K
AAAACAGTTGTCTTTAATGATGTGAATACCGAGAATATCTTTATGAACCTCTCAGGACTTAGGAAACTCTTGTTTTAATCCTTTTCTCTGAATTTCTCTT
Celera SNP ID:            hCV26628278
SNP Position Genomic:     70048
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66472):
AAGGTATTATCACTTTCGTGATGATTTACTTCAGAACATATTTACTTATCTTTTCAGGAAAACATTAGGTAAAACAAGATATGCCTGTAGGGCCGGGCAC
R
GTGGATCATACCTATAATCCAAGCACTTTGGGAGGCCGAGGCAGGTGGCTCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCCACATGGCAAAACCCC
Celera SNP ID:            hCV1818035
SNP Position Genomic:     50784
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66473):
CTGAGGCAGGAGAATGGCATGAACCCAGGAGGTGGAGCTTGCAGTGAGCCGAGATGGGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTC
A
AAAAAAAAAAAAAAAAAAAAAGTGGCATTTTGAACTTACAGAAGGATCCCCTAGCTGTTCATTACCATTACTCAATACTGTTTGTCCCTCCAACAGGTCA
Celera SNP ID:            hCV26628279
SNP Position Genomic:     71656
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66474):
CGACTCAAGTAACAACTCCGTTTATACAAGGTATAAAGTATGCCTTCTTTGAAGAAAATCCAGTCTTTTGAGAATTTATATTTAAGGTATTATCACTTTC
R
TGATGATTTACTTCAGAACATATTTACTTATCTTTTCAGGAAAACATTAGGTAAAACAAGATATGCCTGTAGGGCCGGGCACAGTGGATCATACCTATAA
Celera SNP ID:            hCV1818036
SNP Position Genomic:     50701
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,5)      total(G,5|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66475):
ATTATTATCATCATGAGTTCCCATTTATCAATCAGTCACAAGAATTTACTAAGAGTATATGCTTAGCACTGTGTTAGTTATTGCAGGCTCTATCAACAAA
R
TATATGTGACAGGATTTCTGCTTGTGAGGAGTTTATCATCTAGTTGGAGTGAGATATGAACAATATGGATGAAATGATTTGATAACAAGTGCCAAATAGC
Celera SNP ID:            hCV1818037
SNP Position Genomic:     48361
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66476):
TAGCTCTTATTATTATTATCATCATGAGTTCCCATTTATCAATCAGTCACAAGAATTTACTAAGAGTATATGCTTAGCACTGTGTTAGTTATTGCAGGCT
Y
TATCAACAAAGTATATGTGACAGGATTTCTGCTTGTGAGGAGTTTATCATCTAGTTGGAGTGAGATATGAACAATATGGATGAAATGATTTGATAACAAG
Celera SNP ID:            hCV1818038
SNP Position Genomic:     48350
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66477):
TTTTTCAGCTCTTACTGCCATTCAACATTACTTGTATCCATGAGATGGCTTCTTTCCTCCCTCACCCCACCCGTCTTCAGTTTCCTGGAAATGGAATGGG
S
GCTGGAAGAGAGAAAGGATGGAAATTCCCATTGCATCTCTCTCGGCTATGCAGTGGTTCAGATGGGGTTTTGGTGAGGGGGGTTGGGAGAAGTAGAAAGA
Celera SNP ID:            hCV1818039
SNP Position Genomic:     46411
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,5)   total(G,5|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66478):
AATTTGCTAGCTCTTATTATTATTATCATCATGAGTTCCCATTTATCAATCAGTCACAAGAATTTACTAAGAGTATATGCTTAGCACTGTGTTAGTTATT
R
CAGGCTCTATCAACAAAGTATATGTGACAGGATTTCTGCTTGTGAGGAGTTTATCATCTAGTTGGAGTGAGATATGAACAATATGGATGAAATGATTTGA
Celera SNP ID:            hCV7619047
SNP Position Genomic:     48343
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66479):
CCATCAATTGTCAACTGATTTGCCACACAAGTGGATTGAAGAATGCTGTGTGTAGAAACCTATATTTTACAGTGAATGTTTTATGTGTATGTACATATAC
R
CACATGCCCATGCAAAAACATGTTTTTCATCCAACTGGCCAGCAGAGGAGAATGCAAAATTTCAAAAATGGGAGATATACTCTTTTCTTTCAAGGAGTTT
Celera SNP ID:            hCV7619048
SNP Position Genomic:     45021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66480):
TAATTAAACTGGCCCTCCGATTCTTAGCCCATATGATTGTGTGATTCCATCTTGGATAGCTCCACTTTCTCTTTGGCTATCTAGTCTTTTAAATTTGTGA
Y
GTGTGGGCCAGGTGCAGTAGCTCATGTCTATAATCCTAGTGCTTTGGGAGTCTAAGGCAGGAGGATCCCTTGAAGGGCCAGGAAGTTCAAGACCAGGCTG
Celera SNP ID:            hCV7619049
SNP Position Genomic:     44759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66481):
CTGAGTGAAATAATACTTTATCAGAGCAGCCTGCCAATGTACACAACTTAATTTACAGGCAATATCCTATCACAGTAAAACCTCAAAAAATAAAACTTCC
K
GACCACTAAAGAATTGTCATTGGCCAGTAGAATTTGTTAAAGCAGAATTTCACCAATAAAGTGAATAGGATTCTCCATGTGTAATAGATTAGGATAGTGA
Celera SNP ID:            hCV22273187
SNP Position Genomic:     74191
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,4)   caucasian(G,40)   total(G,74|T,4)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66482):
ATATGGTGACACCAGCCAGAGACCATCAGAAGGTAAGTCCCCCATCACCCCTTTTTTCTCTGGCATATCTCTAGTCCAGGTTTCTTACCTGTTTACCCTC
S
CCATGGGGCAGATTCCAGGAAAGAAAATATATAGTGCCTGCCCTCTGAGAAATGAAATAATGGGAGAAAGCAGTACAAATACACAGGGAAGCTGGATACA
Celera SNP ID:            hCV25618703
SNP Position Genomic:     81110
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|G,1)   total(C,77|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66483):
CCACAACGCATCACAGGACCCAAACCTCTGCAGGTAATAATCCTCCTGGCTTTCTTTCCTCACCCTAATGTCCTGTTGAAAAGCTCCGCATTGGGGAGGA
R
AGCAAGTTAAATCCAGTGGGGCTGTGGTAAACAGAGACAAGCCAAAAGACATATGAAAGACCATTGAAAGAGTTGAACAAAAATGAAGGCTGCACAATAA
Celera SNP ID:            hCV25618704
SNP Position Genomic:     72903
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,2)   caucasian(A,27|G,3)   total(A,49|G,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:66484):
AGGAATCTGGCTGAAGATGCTTCAAGCACAGAGGCAGCAGGAGGTTACAAAGTTGTGAGAAAAGGTAAAATAAATGGGAGTGTCCAGTGGGGAGACAAGC
W
CCCTTGCTAGGTGAGATAAGTCTTCCGAACAGCTGCTTCCTTCCCTATACTCCCCCTGGGTACCGTGTGAGCAGAGACCTACGCTGGGTCCTGGAAGAAG
Celera SNP ID:            hCV25618705
SNP Position Genomic:     111509
SNP Source:               Applera
Population(Allele,Count): african american(A,24|T,6)   caucasian(A,27|T,5)   total(A,51|T,11)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,529|A,932)   total(A,932|T,529) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66485):
AGGCACTGGGGCTTCCCTGGGTTGGTCTTGGCATGTGTACACTAACCTCCCAGTGACACTGCGTACTCAACCTTTCTCTCCGCCTTCCAGGTCTCGTTCA
R
CGCTGTGTCATTATCCAAAAGGACCAGCATGGCTTCGGCTTCACAGTCAGTGGGGATCGCATTGTTCTGGTGCAGTCTGTGCGGCCTGGTGAGTGCTGCA
Celera SNP ID:            hCV27490235
SNP Position Genomic:     66612
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,11|A,1466)   total(G,11|A,1466) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66486):
CTCAGGAGGCTCCAGAGGACAGAAGGGACATAGTCCCTGTCCTTGGGCAACCGTCCTGTAATAGAGGAAAAGACCCATGGGATGATTGCTCCAGAACACT
R
CACAGTAGCTTACGGACAGGTGCAAATGGGACAGACCCTGCCTAGGCGCTCACTCTGCCGGGGGGAGCTTGTCATGGGAAGACATTGGACTTGGAGTTAG
Celera SNP ID:            hCV22272389
SNP Position Genomic:     90778
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,5|G,31)   total(A,12|G,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:66487):
TCTCACTACAGTCCTCTCTGTTCCTGCCGAGCAACAGATGGATGGAGCTCTTAGAAGAGGCCGTGCGGAATGCCACCAGGCACCCCGGAGCTGCCCCAAT
R
CCCGTCCATCCTCCACCCCCAGGTCCCCGGGAGCCAGCCCAGCAGGGCCCCACACCCAGCAGGTGCAGTGCTTAGCCCTCCAGACCCTGCACTCTCTCCA
Celera SNP ID:            hCV25618709
SNP Position Genomic:     109094
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,29)   total(A,1|G,67)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66488):
TCTACCAAAAATACAAAAAATTAGCCAGACATGGTGGCATGCACCTGTGGTCCCAGGTACTCAGGAGGCTGAGGCAGGAGGGTTGTTTGAGCCCAGGAGG
Y
GGAGGTTGCAGTGAGCCATGATCGTGCCAATGCACTCCAGCCTGGGTGACAGAGTGAGACCCCATCTCAAAGAAAAAACAAAACAAAAAAACAAGTAGAA
Celera SNP ID:            hCV26628280
SNP Position Genomic:     73540
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66489):
CCCCCCTCAGCCTGACAGCCTCCCTGCAGGGCAGACAGAGCCTCAGCCTCAGCTGCAGGGAGGCAACGATGATCCAAGACGCCCCAGCCGCTCTCCTCCA
R
GCCTGGCCCTCAGGGACGTGGGCATGATCTTCCGTACCATTGAGCAGCTCACTCTCAAGCTCAACAGGCTCAAGGTGAGGGAAGCAGGGCTTGGGTCCCT
Celera SNP ID:            hCV1468852
SNP Position Genomic:     113697
SNP Source:               Applera
Population(Allele,Count): african american(A,22)   caucasian(A,30|G,4)   total(A,52|G,4)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(C,92|T,220)   Chinese(T,29|C,31)   Japanese(C,6|T,14)   Tfrican(C,19|T,81)      total(C,148|T,344) ;(T,-|C,-)   SC_12_A(C,7|T,13)   SC_12_C(C,5|T,16)   SC_12_AA(C,3|T,21)   SC_95_C(C,50|T,135)   total(C,65|T,185)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66490):
ACAGAGCCTCAGCCTCAGCTGCAGGGAGGCAACGATGATCCAAGACGCCCCAGCCGCTCTCCTCCAAGCCTGGCCCTCAGGGACGTGGGCATGATCTTCC
R
TACCATTGAGCAGCTCACTCTCAAGCTCAACAGGCTCAAGGTGAGGGAAGCAGGGCTTGGGTCCCTGCAGGCCTTCAGTCCATCACCCCAAAACCATTCC
Celera SNP ID:            hCV1468853
SNP Position Genomic:     113731
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,26)   caucasian(A,23|G,15)   total(A,29|G,41)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(C,146|T,166)   Chinese(T,5|C,55)   Japanese(T,6|C,14)   Tfrican(T,19|C,81)      total(C,296|T,196) ;(C,-|T,-)   (T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66491):
CAGCCGCTCTCCTCCAAGCCTGGCCCTCAGGGACGTGGGCATGATCTTCCGTACCATTGAGCAGCTCACTCTCAAGCTCAACAGGCTCAAGGTGAGGGAA
R
CAGGGCTTGGGTCCCTGCAGGCCTTCAGTCCATCACCCCAAAACCATTCCCCATGAGTGAGATGTGTGTCTTCGCGGGAGCCCTAGATCCTGTCCTGGCC
Celera SNP ID:            hCV1468854
SNP Position Genomic:     113781
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,20)   caucasian(A,5|G,31)   total(A,13|G,51)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66492):
TGTCATCATTTCCACATCCTGTCTCCAGCCAAGGCTCTCCCTTTCTGGAGAGATTGAAGTTGTTGTTTCCTATTTCACAGGATTCCTTTTATTTTTACGT
Y
TGGGGGGTCTCACCCAGGGAATTCCTTCCTGATGTCATCTTTGTGGGATGTAAAGGAGGGAATGAGGGGAGGGGCCCCAAGAATGTTTCTCTTTCTGTGA
Celera SNP ID:            hCV1818040
SNP Position Genomic:     46205
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66493):
CCCTCTGAAGGCGGTCAACATTATGGGGGTTGGGGGGATGCAGCCAGCCCTGAGACCACTGGGAGCTATAAGGGACAGCATTCTCTTTTTAATGGTGGGT
W
TAAGGCAGTCATCAAACCAAGCTGAGCAAATCCACTGCCCAAGCAACGGGCAGTAACACAGGAAGGAAGAAGGGAAGTACTATACAAAGTGTGAGTGTGC
Celera SNP ID:            hCV1818041
SNP Position Genomic:     45806
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,7)      total(A,7|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66494):
TATAAAATATAGATATGGAAATGACTGTTCTGCTGTTAAGATAATGTATACTCTTTTATTTTCTTCCTTTCATGGTTAAGATTTTTTTTTTAAGAAAAGT
Y
AAATATCCTTCAGTGGTGGTGTGTGTGTTTCTTGGAATCGCTGTGATAAAAGGTACGGTGTTTGTTCCCTGTAAGACTGGTTAGGATTGGATAGTGGGAA
Celera SNP ID:            hCV3178936
SNP Position Genomic:     116168
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66495):
TTCCCTAGCTGAGTGCAGCTAACAAAGTAGAAGTAAAGCCCGAAAATGGGAGCTTTTCTCCAGAGCTAGTTTGTTGGACAAATTTGATGGGAGGACTGGG
R
ATACAAAGGAATCAGGACTGCTGCCGTAGGTGATCAGCTATGGAATTCAGGCGAAAAGGAAGAGAAGCTGAGAGGACGTTGATACCTGGGAGGAAAATAC
Celera SNP ID:            hCV1818043
SNP Position Genomic:     37125
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66496):
ACACTAATAAAACCGTGATTGGAGGCACCAAAGGCCTCAGCAAGGCTGGAGACCTTGAATCTGCATGTTAGATCACACAGCAGTGTGATTTTTCCCTAGC
K
GAGTGCAGCTAACAAAGTAGAAGTAAAGCCCGAAAATGGGAGCTTTTCTCCAGAGCTAGTTTGTTGGACAAATTTGATGGGAGGACTGGGGATACAAAGG
Celera SNP ID:            hCV1818044
SNP Position Genomic:     37034
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66497):
CTTTGTATTTAATGAATAAATCTTTGCCAATTTCATAGCCACTAAGATTTTCCTCCTCTGTTTTCTTCTAGACATTTTATGGTTTTAGCTCTTACATTTA
R
ATCTGTGATTTATTCTTCGTTACTTTTTGTGTAGTGTGTGAGAGAAGAGTTGAGGTTAATTTATTACTATTTTTTGCATATGAGGTCCAGTTGTTCTGGC
Celera SNP ID:            hCV1818045
SNP Position Genomic:     32042
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66498):
GTGTTGGATTTTGTCAGACGCTCTTTTTACATCTATTGAGATGATCATGGTTTTGTTCTTCAATCTCTTAATATAGTATGTTACACAAATTGAGATTCAT
R
TGTTAAACCAACCTTGCATTCCTGGGATAAATCCCACTTGGTCATGGTAAAGAATCCTTTATCCATATTGCTGGATTCAATTTGCTGATATTTTGATGAG
Celera SNP ID:            hCV1818046
SNP Position Genomic:     29146
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66499):
CCCAGGAAAGAGAGAAACTAGATTCTACCCATTTCTACCCTATGATTACGGTGCTTTTGGTGGAATACATCCTAGGTCTCTCACTCCCTCTCACAGTCCC
R
CTCTGTCTTCAAATCAGAGTCAACTTCAGGATTGGAAGGAATCTTGGCAGTCATCTAATTAAACTGGCCCTCCGATTCTTAGCCCATATGATTGTGTGAT
Celera SNP ID:            hCV7619053
SNP Position Genomic:     44603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66500):
CTGACCTGAGCCCTATCCAATTGTCTGGAAAGCCAGATCTGCCTGACTTCCCATGCTGTTACCAAGAACCAAAGTATTGAGCCCCAGGCCAGAGCTGTCT
K
CTGCACCAGAGGGCACACAGGATCAGAGAGCAATTCTCTTCTTGTCCTCAGAACCCTTTTTTTCTAAGCCCAGGAAAGAGAGAAACTAGATTCTACCCAT
Celera SNP ID:            hCV7619054
SNP Position Genomic:     44434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66501):
TAAGGACTGTAATAAGAAGTTCCATTGAACACCCCTGCTGCCAGTACTGCCTGAGTCTGGGAAGTCTGGCTGGCTTAGAATCTGTACCAACCCCTGAGAC
R
ATCTGATGTTTAAATACTGTGATGCCCTTTCTCCCCTTTTCAATGCTTCTTACTCTCTTTTGCTGGTTTCTCTTTCCTTTTTCCACATCTTTCCATATAA
Celera SNP ID:            hCV7619055
SNP Position Genomic:     43651
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   SC_12_AA(G,6|A,18)   total(G,6|A,18)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66502):
CTGGAATCCAAGGTCCTTTTTCCCTCTCTACCAGATTTATGCCCTGTCTCATTTCAGCTACCATTGTCTCAGTCAGCATCTACACCTACTTTGTATTGTG
Y
GCTTATTTATCTTCGACATGCATCGGGGAAGATAATGGAGACAAGTAGTACTTGCCTTTAGGGAACCTCAGGCCTGTTGGAAAGGCACCTGCAAAAGACC
Celera SNP ID:            hCV1818049
SNP Position Genomic:     25681
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66503):
TGGGCTGGTCTGAGAGGGTGGCAAGAAAAGTAGAACAAAGCCTGGGGCACACATGGGATGGGGTTCCACGCTAGTGGGCCTGCCCTCCCCTGGGATTCCA
Y
TCTGCCTCCCTTCCAGCAGCATTTTTCATTCCATCTGCCCAAGGGCCACCTGTCTCCTGGGTTTCTGGGAACTGACCTTCCTTCTCTGTCTCTCGGTGAA
Celera SNP ID:            hCV27513454
SNP Position Genomic:     112223
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,60|C,1443)   total(C,1443|T,60) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66504):
CAGCCTAAGGACTGTAATAAGAAGTTCCATTGAACACCCCTGCTGCCAGTACTGCCTGAGTCTGGGAAGTCTGGCTGGCTTAGAATCTGTACCAACCCCT
R
AGACAATCTGATGTTTAAATACTGTGATGCCCTTTCTCCCCTTTTCAATGCTTCTTACTCTCTTTTGCTGGTTTCTCTTTCCTTTTTCCACATCTTTCCA
Celera SNP ID:            hCV7619058
SNP Position Genomic:     43646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66505):
TGTCTATCCTTATGCCAGTCGCATACTGACTTGCTTACTGTAGCTTTCTGGTAGATCTTGAAATCAGGAATTATGAGTCCACCAACTTGATTCTTTCTCA
R
GATTGTTTTAGCTATTCATTTTCATATGAATTTTAGGGTCAACTTCTCAATTTCAAAAAAAATTGAGATTTTAATAGGGATTTCATTTAATCTGTGGATC
Celera SNP ID:            hCV7619059
SNP Position Genomic:     39993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66506):
TTGCTTGGTCTGCTCAAGTCGGAGTCAGGTTTCAGTGTCTTTTCCCTCCCTTAGCCCAACCCTCCAAGGCCTCATGTCTCCTAAGCATGCTGACTGCATC
Y
GAAAGGCCCCCACTCACCATGGTCTGCCCTCACCCCACATATGTGTGTACACGCGCACGCCTGTATGTGCGCTGCCCTCAGACATGCAAGTGAAAGGAGG
Celera SNP ID:            hCV27498169
SNP Position Genomic:     115277
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,14|C,1477)   total(C,1477|T,14) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66507):
CTAGTGCTGTTCCTCTTTTCCTATACCCCTGTCAAGGCTTGGTGGTAAAAATGTGTAATTCTTAAGGGAGCCAGACATCAGATTTGCCTGACAGTAGTGA
M
AGACAGTGAAATTTGCCTGACTAGGAAAGAGATAGGTAAATCAGGAGTCAAGTCCCCCAAGTTTTTCTGTCTCTTCCCAATACAATTTCCTTGTCCATGG
Celera SNP ID:            hCV1818050
SNP Position Genomic:     20473
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66508):
TCCTCCTCTCCTGCTTTTCTTTTTGCCCTGTGCATTAGTGGGCCGTTTCTCATCATCTCCAGGTTCTCCAGACCAATGGCTCTGAGTCTGAGATGCAGAT
R
TGGGTCCGAGGATAGTGGTAGGTACATGACATGGCCTGGCAATTCTTGTGCCATAGGGTTTCCTAAATAACACTTCAGGCCTTAGGATCATTTAATTAAG
Celera SNP ID:            hCV1818051
SNP Position Genomic:     19498
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66509):
AGTAGCAAGGGAAGGAGCCAGTTTCTAGTGGGTCCAAGTGAGAATAGGAGGTGAAGAAATGGTGATGGACATAGTCTAGTCAATTCTTTCATGAAGTTTC
R
TCAGAAAGGAAAAAAAAAATGTCGCTCCTGGTCCTGTCAGGTAGGACTTTAATTTTTTCAAGGTAGGGATGTATTGCCCTAGGTCAGAGGTTCTCAATCT
Celera SNP ID:            hCV1818052
SNP Position Genomic:     18384
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66510):
TAGAACCACAGACCCTCTTCCCTTCAGAGCCCCAGGGAGAGGGGAAAAATACCACTAGGATTTCAGTGTCTTCACAGGAACAGGGTTTCAGGTTTGGGAA
R
CATTCATGCCATCCCTCAAATAAGAAGCTTGGTCTGTTTAACAAATCTTCACTTATCGTAGTGCTAGGCATCAAGGATTCAACCAGAATATGCTGCATAC
Celera SNP ID:            hCV1818053
SNP Position Genomic:     16963
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66511):
CTCATCCCAAAGCAGATCCTTTGCTAGAAACCCACAATGTCTTTCCTTCCTAGCCCAAGCTCCCCAGCTTGGGATTCATGACTTCTTTCTTCAGTTTAGC
S
CACATCTCAATAATCGTAGGTCTCATTACTGTACCCTGTCGCCCTGCTTCGGGTAGACCAGCCTCATTCCTGGGCCCACATCCCTCTTTGCACACCTTTA
Celera SNP ID:            hCV1818054
SNP Position Genomic:     15959
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66512):
ACGTTTTCTTCATATCTGTAAAACCAGAAAAGCATGGAAGTGAAGGGCTGGTTCTTTGTTCATTTTGTTTGTGTTATCGTTTTTTTGAAATATATTGCAC
R
TATCATAAAATTCATCCATTTAAATTATATGGTTAAGTGATTTTTAGTATAGTCACAGTTGTGCCATTATCACATCCTAGTTTTAGAATTTTTCAGTATC
Celera SNP ID:            hCV7619060
SNP Position Genomic:     38562
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66513):
GTTTTATAGCACATAAGGACATTTCTTTCTGCCTGGCACAAACCAACTACCAGTACCAGTCTCTGTTAGTGCTCCTCACTGATCTCCTGTTCCCAGGGAA
R
AGAGCCACTCTTCTCAGGAGCCTCAGGCCGGGAAAGACAGGGCAGGTGCATGCAGCCCCTCACGCCAGGCAACAGCTCCAAGGGCAGTAGAGGTGGCAGC
Celera SNP ID:            hCV27480773
SNP Position Genomic:     111826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66514):
GGGCTGCTGCCTGCTCCTTTCAGAAGAGCCTGAAACCAGCTCACAATCTGTTTACTCAAGGAGGGGGAGCCACTCCAATTTCCCCAAATGAAACACTGCA
K
CTCTGCCACTTCTCCCTTGAGTTCATCGCTCAGCATCTCCCCCAGCTTGGGGCCAGACTGAGCAAGTGTCATCTAGAAGGTCTCGGGAGCAGGGCTTTTA
Celera SNP ID:            hCV27480774
SNP Position Genomic:     113262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66515):
CAGGCTCAAGGTGAGGGAAGCAGGGCTTGGGTCCCTGCAGGCCTTCAGTCCATCACCCCAAAACCATTCCCCATGAGTGAGATGTGTGTCTTCGCGGGAG
S
CCTAGATCCTGTCCTGGCCCAGGGATCTTCCCCCAGCCCGCCCAGCCACCCTTAAATCACACCCTCCTCCCCAAGGCCCAGCACAGACCCCTTCCCCAGG
Celera SNP ID:            hCV15912609
SNP Position Genomic:     113862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66516):
TCTTGAAGATTTAGGAGGGGCATGAGTGAGATTTGAGCTTGAACTAGAGGGAAAAGGCTAAGATGAGTGTGAGGAGCTTGTAGGTAGAGGTAGGAAATTG
M
AGAAGAACAGTGCTTAAAGGCTCCAGTTATTTTTATGTGGTAAGAGGCAATACAATCTAATGATAGGGAGAGGGTGGGCTTTAAATATGGAGGCTGAGGA
Celera SNP ID:            hCV7619067
SNP Position Genomic:     36791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66517):
GTCTCAAAAAGAGGAGAAAAAAAAAGAGAGAGAGAGAATTGAATAAATTTCTGGGCTGAGGAGAAAGAGCCAATACAATTAGATCTTGAAGATTTAGGAG
R
GGCATGAGTGAGATTTGAGCTTGAACTAGAGGGAAAAGGCTAAGATGAGTGTGAGGAGCTTGTAGGTAGAGGTAGGAAATTGCAGAAGAACAGTGCTTAA
Celera SNP ID:            hCV7619068
SNP Position Genomic:     36708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66518):
AATCAAGCAAGTGGCTCAGCCTTTCTGTAGCCCATTTTCTTATCTGTAAAATGGCAACATTAATAGTGCCAACTCATGAGGTTGTTGTGAGGATTAAATG
Y
AATACATAAGAATGGCTAATATGAATAATCAACAATCAATCAATAAGGAATTCTTACTGAGTGCCAGGCCCTGGCCTGAGCATTTTTTGCATGTTTTAAA
Celera SNP ID:            hCV29185386
SNP Position Genomic:     47934
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66519):
CTCTATCAACAAAGTATATGTGACAGGATTTCTGCTTGTGAGGAGTTTATCATCTAGTTGGAGTGAGATATGAACAATATGGATGAAATGATTTGATAAC
R
AGTGCCAAATAGCATAGTATGGACTCAAAATGCAGTAGAAATGGACTTAGTTACTGAAAGGATCATTGGGTAAGTTGGACTAGTTAGGAAAGTTTACTAG
Celera SNP ID:            hCV29185387
SNP Position Genomic:     48448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66520):
TCTCCTGGCCAATCCAGGTTCATTTCCTGGAGATTGTGTTTTGTGGACTAGCAGTTTCCCAGTTGAAATGCTAGTATTGCCCTGTTCGAGGTGGTCCATT
R
TTGATGTAATAAAGCCTCATTATCATGTGATTTGTGCCTGGATAGAATCATTATATGTGTCTAGGTCCTGGAAAGGAACTGCAGGGACCACATGGTTCAT
Celera SNP ID:            hCV29185388
SNP Position Genomic:     48847
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66521):
AGGGCTGGGGAGATTGATTGCAGTTTGACTGTTGTAGCTTTGAGGTGTCAGTGAAGGTGATTTGGTCCTCGCAATTACCCTTTGAGAAAGGTAGTATTAC
Y
TACATTTGTTATTGGGAAACTAAGGTTTGAAGAGGTTGGATGACTTGCCTAAGACTACATAGCCAAGAAAGGGCTGAGCCTGAGCTTGTGCCAGTATTTT
Celera SNP ID:            hCV29185389
SNP Position Genomic:     56199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66522):
CCCATGAGTGAGATGTGTGTCTTCGCGGGAGCCCTAGATCCTGTCCTGGCCCAGGGATCTTCCCCCAGCCCGCCCAGCCACCCTTAAATCACACCCTCCT
Y
CCCAAGGCCCAGCACAGACCCCTTCCCCAGGGGCCTTAGGAATAGAAGGACTCGAGCAGACATTCCCCCGCCGACTCTTCCAGGATATGGAGCTGGCCCA
Celera SNP ID:            hCV16183894
SNP Position Genomic:     113931
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,532|C,955)   total(C,955|T,532)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66523):
TCAAATTGTCCAGGATGTATTGTTTAACTGGCTATGTGGTCAGAGAAAAGGAAGAGTCAAGATTGATTGCCAGAATTCCTACCTGGGGCTTGAGAGAATA
Y
GAGAGGAGGACAGAGGTGTGGTGCATGGAGATGAGTTTGTCAGTGTGTTGAGTTTGAGCATCTGTTGGCTGTGTTGTCCCCTAGAGAGTTCCATATGGAG
Celera SNP ID:            hCV879772
SNP Position Genomic:     35980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66524):
TGGCCCTAGGTTCTGTCCTCTTAACCACTATATCAAGCAGTCTCTGAAATTCCTGAAGTAGAGGGGAAAATGAGAAGCATAGACAATTTGTATCAAATTG
W
CCAGGATGTATTGTTTAACTGGCTATGTGGTCAGAGAAAAGGAAGAGTCAAGATTGATTGCCAGAATTCCTACCTGGGGCTTGAGAGAATACGAGAGGAG
Celera SNP ID:            hCV879773
SNP Position Genomic:     35888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66525):
GTGGGGACAGGGGTCTGAATGCCGAGTCCCTGAATTCACCCAGGACCATCCAAGGGGCCACCGCAGCATTGGCCCCATCACCACGTCCTCACCCAACTCT
Y
CCTGATGAATAGAATATACACACTGTGCTAGGTGTATATATACATATATATATATATAAATATATATATAATATATAAAATATAGATATGGAAATGACTG
Celera SNP ID:            hCV7618995
SNP Position Genomic:     115994
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:66526):
TGGAGGTCATTGATAAGAAAGTATTTAAACTGAGCTATCTGGGGAAGTTCCACCTCTTCGCCATCCTGATTGTCCATATTTGCTTTATTATTATGGGGAG
Y
CTGAAAGGAATACATCTTTATCAATAGTTCTTCTCCTTCCTATTTTCTTTTTTAAATCTTAATGGTATGGCAGCAGCCTTAGCTTCTAGCCTTAAATCTC
Celera SNP ID:            hCV7619072
SNP Position Genomic:     33962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66527):
ACAGGCTCAAGGTGAGGGAAGCAGGGCTTGGGTCCCTGCAGGCCTTCAGTCCATCACCCCAAAACCATTCCCCATGAGTGAGATGTGTGTCTTCGCGGGA
S
CCCTAGATCCTGTCCTGGCCCAGGGATCTTCCCCCAGCCCGCCCAGCCACCCTTAAATCACACCCTCCTCCCCAAGGCCCAGCACAGACCCCTTCCCCAG
Celera SNP ID:            hCV15912619
SNP Position Genomic:     113861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66528):
AGACATTTTATGGTTTTAGCTCTTACATTTAAATCTGTGATTTATTCTTCGTTACTTTTTGTGTAGTGTGTGAGAGAAGAGTTGAGGTTAATTTATTACT
R
TTTTTTGCATATGAGGTCCAGTTGTTCTGGCACCATTACTTGAAAATCATATTCTTTCCTCATTGAATTGTGTTGGCATCTTTGCTGAAAATCCATTGAT
Celera SNP ID:            hCV7619073
SNP Position Genomic:     32111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66529):
TGGAAGAGGAAGGAGAGCAGACTGAACAGACTTAAGAAAGGGTGAACTCGCTCACCTGACCAGAAATTCCCACCCAGCCTCTCTGGGTGACGGCATCAGC
Y
GTGGAAGAAGACGAGCAGTCTGGCGGGATCCACGGGCCCTGCATCCTCCAGCCAGGGGTTACTGTTGGGGAGGGAGATACATGCTGCAACAATGAGAATG
Celera SNP ID:            hCV29185390
SNP Position Genomic:     109904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66530):
ACAGTGCCATGGCACGATCTTGGCTCACTGCAACCCCTGCCTCCCAGGTTCAAGCAATTCTCATGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCC
Y
GATCCCATGCCTGGCTAAGTTTTTATATTTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCTGGCTAGTCTCAAACTCCTGATCTCAGGTGATCCGCCC
Celera SNP ID:            hCV1818069
SNP Position Genomic:     14080
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Gene Number:                 423
Celera Gene:                 hCG39289 - 93000022561622
Gene Symbol:                 ITPKA
Protein Name:                inositol 1,4,5-trisphosphate 3-kinase A
Celera Genomic Axis:         GA_x5YUV32W323(8830726..8852478)
Chromosome:                  Chr15
OMIM number:                 147521
OMIM Information:            INOSITOL 1,4,5-TRISPHOSPHATE 3-KINASE A;ITPKA


Genomic Sequence (SEQ ID NO:12583):
CCCAACCCCCTCTCACCTCCCCACTCCTACCACACACACACACCCCACACACACTACACACACCACACTCACACACCACACCCACCACACACACACTACA
CACACTCACACACCACACACACCACACTCACACCCACACCTACCACACACCACACCCACCACACATGCCACACTCACACCACACCCACACCACATACCAC
ACACCACACACACACCACATGCAACACACAACACACACATACCACACGTGCGCCACACATACATGCCATATACACCACAAACATAACCCCCCACACACAC
CACACATGCCACAATGACACATACCACACACACACTAGAGAGGCTCTGCTCCTGCTGGAGAAGACTTGAAGTCTCCTCAAAGGAACAGATGCTCCATTCA
GGAGCACAGGTCAAAGGCTGTGCCTTCCCTTCTCTCCCCAAGGTGAAAGGCCCTGCTTGTCATCTTAGGAAGCAGAAACCAGCACTGTGCCTGGCAGAGG
GTGATGAGTGGTGATTTTGCTCCTGCCACTGGTGCTGCCCTGGGGATGGGGTAGAGGTGGGCACAGCTATGAGGCAGGCTGGGGTGAGGACCCCAGAAAC
CCCTCACATCACACATCCCATTTTCCAGGCCCTTTTTTCTTCCCTAGTTTTGTACCTGAGGGTGATGTTTCTCTAGAAGAGATGCAGCCCTCAGTCATGA
TAAATCCTGAAATTTTTTTTTTTTTTTTTTTTTTTTGAGACGGGGTCTCTCAATCTGTTGCCCAGGCTGGAGGGCAATGGCTTCATCACGGCTGACTGCA
GCCTCAACCTCCCTGGGCTCAGGTGATCCTCCCACCTCTTCCTCCTGAATACCTTGGACCACAGGCATGTGTCACCATGCTTGGCTAATTTTCTTATTTT
TTGTAGAGATGGGTTTTCAGCATGTTGCTCAGGCTGGCCTCAAATTCCTAGGTTCAAGTGATCCTCTTGCCTGGGCCACCCAAAGTGCTAGGATTACAGG
TACCAGTCACTGGGCCCACCCCTGAAGGTCTTTGATGGGGGTGAAGACTCAGGCACTTCAAGAAGCAGACCTCAGGCCAGGCGCAGTGGCTCATGCCTAT
AATCCCAGCATTTAGGGAGGCCAAGGTGGGCAGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGACAACATGGAGAAATCTCATCTCTATTAAAAAT
ATAAAAATCAGCTGGGCATGGTGGCAGGTGCCTGTAATCCCAGCTACTCAAAAGCTGACACAGGAAATTTCCTGAACCCAGGAAGCAGAGGTTGCAGTGA
GCTGAGATCACACCAATGCACTACAGCCTTGGCAACAGAGCGAGACTCTGCCTCAAAAAAAAAAAAGCAGACCTGTAGGGAACAGGAGGATCAACCAACT
GAGATACCACAAGAAGATAGGTTCTGGCTGGGCACAGTGGCTCACACCTATAATTCTAGCACTTTGGTAGGCCAAAGCAGGAGGATTGCTTGAGCCCAGG
AATTCAAGACCAGCCGGGACAACAGAGTGAGATCCCTGTCTCTACAAAAAATTTAAAAATTGGCTGGGCATGGTGACACATGCCTCTGCCTGTGGTCCCG
GCTACTCGAGAGGCTAAGGCAGGAGGATCACTTAGGCCCAGGAAGTTGAGACCGAAGTGAGCTGTGATTGTGACTCTGCACTCCAGCCTGGGTGACCGAG
TGAGACCCTGTCTCAAAAATAAATAAATAAATAAAGGAAAAGAAAAAAGGTTATCTGCTCAGACATGTAAGCTGGCCTTGTGGCCAAGGCAGAGAGACTC
TCATGGCCTATCTCAGAACAGCCACCTAATGACCATCAAAACCTTGACACACTGGCGGGGTGCAATGGCTCATGCCTGTAATCCCAGCATTTTGGGAAGC
TGAAGGAAGAAGACTGTTTGAGGCTAGAGTTCAAGACTTGGCCAACATAGGGAGACTCCATCTCTACAAAAAGTTTTTAAAATTAGTTGAGCATGGTAGT
GTGTGCCTGTGGTCCCACCTACTCAGGAGGCTGGGGCAGGAGGATCCCTTGAGCCCAGGAGGTGGAGGCTGCAGTGAGCCATGATGGCACACTCTAGCCT
GGGTGACAGAGTGAGTGAGACTTTGTCTAAAAAAAAAAAAAAAAACCCAAAAACAAACAAAAAACAACCTTGACACATTCCTCTACACCCCAGTGTCCCC
CTTTTCTGTTGTTTAATTTTTTAAAAACTGTCTCTGGCGGTCAGGCGCAGTGGCTCACACCTGTAATCCGAGCACCTTGGGAGGCTGAGGCAGGCAGATC
ACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCCATTAATGTAGTGAAGCCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGCACACAC
CTGTAATCCCAGCTACATGGGAGGCTGAGGCAGGAAAATCGCTTGTGCCAGCAGGTGGAGGTTGCAGTGAGCTGAGGTGGTGCCACTGCACTTCATCCTG
GGTGACAGAGCAAGACTCTCAAAAAAAAAAAAAAAAATTTTATCTGGCCTGCTTAATGCTTAAGTGTTTGAACATCCCCACCATTTTTTTTTTTTGTGGC
ACTCAAGAGGCCATCCCTTCCACCTCCATACTAGTCAGTCTGATTTTTTCCACATCCCTTCTACTCAAGCATCAAAGACTGAGAAAAATGAGTCATAAAA
GAACAGATGTTCTAGGGTTTCAACGTTTATTCCTGGCATGACTAAGAGGACGGAAGAGCCTGCTGACCTCATCCTACAGCTATACAGGGACTCCCAGGCC
TTGCCCCAAGACGTACCCTTATGTTTTCTGACTGTAGTAGGTGGGGGCAGACTCTACCTTCAGAAGGAACTACAAGATGTTTCTTTGTTTTGAGATGGAG
TCTGGCACTGTCGCCTAGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCGGCTACCCAAGTATCTGGCATTACAGGTGCCCTCC
ACCATGCCCAGCTAATCTTTGTATTTTAGTAGAGACGGGATTTCACCACGTTGGCCAGGCTGGTCTCGAACTCCTGTCCTCAGGTGATCCACCCACCTCA
GCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATTGCACCCGGCCAGGAAATACAAGATGTTAATGAAAGAATTTGAGAACATGAGCGAGGTGGCTCA
TGGCCATAATCCCAGCGCTTTGGGAGGCCTGGGTGGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTAC
TAAAAATACAAAAACTAGCCAGGCCTGGTGGCGAGCACCTGTAATCTCAGCTACTCAGGAGGCTGAGGCTAGAGAAGCAGGCTGAGGCTCTTGAAGCCAG
GAAGCAGAGGTTGCAGTGAGCCGAGATCACGCCATTGCACTCGAGCCTGGGCGACAAGCACGCAGGAAGTCAGGGGACCTAGCCAGGATACACTGCCTTT
TCCATCAACTGGCTGTGTGTCCTTAACCTCCCTGGTGGAGCCACTTAACCTCTTTGGTACTTCCGTAATGTGAATGAGGAGGATAGATGGATATAAGGCC
CCTTACTGCTCTAAGAATCTATGGGATTGGATTTCAGTTCAGCATCCATTTCCAGGTTTGCGCTCATCTTTCCAATGAGAGACACCTGGGCAGGTAGAGC
AAAGAGCAATTCTCTGGCTGCTGGTATAGTAGACCTAAGGCTTGAGCAAGTGCCTGATACAAGAAGAAAAGGAATTGCCCCTTTTTCTTGGCAGCCAGGA
CAGAGACCCAGTGCCCAACCTGCTTATACCTCCAACCCTGCCCATCCATCGCCTGACAGACAGGAGTGCAGGACAAGTTCTCGCCCCTCATTGCCCTCCC
TACCTTTCCAGTTCTGGCAGTTCCTTGCAGGCTCTCCCCACCTTGGGTTTCCTCCCAGCCCCGTCTCTGAGGGCAGCACCTTCCCACATCCTGACGCAGG
TCAGTGTAGCTGTGAAGGAGGCAGAGGAGTGAGTGTCTGAGACACGAGTGATCCAGGTCCTTCAAGCTGCAGAGTACATCCCTCACACACATACTCAAGA
TTCCTCCAGATGGTTGTCCTAGAGAAGGTGGCGATGTGATTTCCCAGGTTCTCCGTGAAGTAGTCAAGTATTCAAACTCCTCTATGCCCTTCTTCCTCTT
ACCCCTTCATTCCCTCTATTTCTCCTGCCTCTCTCATTGCCATTCTTTCTTACATTATTTTGCTTCCTTCCTCAGTTCTCCAGGATCTTCACCTATTTGT
TTATTTTGAGATAGCGTATGACTTGTCACCCAGACTGCAGTGCAGTGGAATGTCATGGCTCTCTGCAGCCTCGACCTCCTGGGCTCAAATAATCCTCTCA
CCTCAGCCTCCTAAGTAGCTGGGACCACAGGTGCATGCCACCACACTCAGCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAAGTTATCACTCTGTTG
CCCAGGCTAGAGTGTGGAGTGTGGTGGTGGAGTGTGGTGGTGATCTCAGCTCACTGCAGCCTCGACCTCCCAGGCTCAAGTGATCCTTCCACTTCAGCCT
CTCCCCGAGTAGCTGAGACTACAAGTGCACACCACCACACCTGCCTAATATTCTGTATTTTTAGTAGAGACAGGGTTTTGCCATGTTGCCCAGGCTGGTC
TCGAACTCCTGGGATCAAGCAATCTGCCCGCCTTGCCCTCCCAAAGTGCTGGGGTTACAAGCCTGAGCCACTATGCTTTGCCGAAGATTCCCGTCTTCCC
ACTGAACCTTCCTCTTTCCTTCTCCTGGGCCATTCCTGAGCCCTGGCTGAGGGGAGAGAAGGGAAGGAAAGCCCCTCCTGCGGCCATCTCAGCATCCAAG
GCAATCCTTCTGGGGCTGCTCTGTCTCCAGGGCCCCAGCCATCCCCAGACACTGAGTGCCTGAGGGGGGACCCTCACTCCTGTGGCACTATGGTAAGATA
GGAAACAGTGGCTTCTCCTCAAAGCAGCCTCGCCGGTCGGTCAGCTGACTACCAACATGGGAAGTGGCCGAAGATCCACATGGAATGACACTGATAAGCA
CTTTGCAGTGTCTGAAACTCTTAAACATCAGTGCTGTCTTCCTAGTTTTACAGACACAACTCTGTGGGTTGGATGAGGTTTTTCTAAATGTACAAATGCA
GAAATATACGGAGGGAGTAAAGGGACTGCCTACAAATCACATCTAGAGTGTGGTGTACCTGATTTCAAGTCTTTTATTTTATTCTCGCAGCAACGGGAGA
ATCCGCAGTCGAGGGAGGTGAAATGACTTGCTGAACGCCACACGGCGGACTCCAAGCCCCGAGCTCCTATAACAGAGGAGGAGGAAGGCGGGCTCAGCTC
CTGCCACCCAGCAGCGGGGGAGATGCAGCCCGGGACTAGGCTGGGCCATGGGGACAGATCCAGGCCCCGCCCCCTGACCTTGTTCTCTGCCCGCCGGGAA
GTGGGGAACTTGCGGGGAGCAGCCTCAGCTAGTCCCTGGGGCAGAGTCTCCACTTGGGTGCACGCCCTGGGGTGGGGCTTCTTCGGGAAGCCGGGGGCCT
TCAACTCTGCTCAGGAGCTCGGGCCGGAGAAAGGCCCCGAGACTTGAAGCCCTTGCCCGGGAGGGATGAACACGCAAAGGAACCCGAGGAACGGGGTAGG
GGACCAAGAGTAGGACCAGCTTCTCCTGCGCGGGGACAGGGCCTGTGGAGCGGCCTGGAGGAATCTCTCCCAGCCGCGAAGCCCGGGAAGGCTGCGAGGC
CCCAGCGCGGAGCGGCCCCTCCCACCTCCCCGAGGGCAGGCGGAGCGAAGCCTCGGGGCCCGGGCCCAGGTTTTGTGCCTACGGAGGCTGGACTTCCCCG
CCACCCCGAGGAGTCACCGAGAGCCTTCTCTCCCTCGCAGGGGCCCTGGGAGGCCCGCGCTTTCTCTGAAAGTGGAAGGAGTGGGCGGGGGGCGCGGCCG
AGGCGGGGCGCGGGCGTGCAGCGGCGCAGGCTCCGCCCCGGGGCCGTCTCCAGCCGGGGGCGCCGAGCCGCTCCAGTCCCCGGCGCGCCGCGGGCTGGTG
GGCTCAGCGGCGGCGCCGGCACTGGGAAATGACCCTGCCCGGGGGCCCAACGGGCATGGCGCGGCCGGGGGGCGCGAGGCCCTGCAGCCCGGGGCTGGAG
CGGGCCCCGCGCCGGAGTGTCGGGGAGCTGCGCCTGCTCTTCGAGGCGCGCTGTGCGGCGGTCGCTGCGGCCGCCGCCGCGGGGGAGCCCCGGGCCCGCG
GGGCCAAGCGGCGTGGGGGACAGGTCCCCAACGGGCTTCCGCGGGCTCCCCCGGCCCCGGTGATCCCTCAGCTGACCGTGACAGCCGAGGAGCCCGACGT
GCCCCCGACCAGCCCTGGGCCGCCGGAGCGGGAGAGGGACTGCCTCCCGGCAGCGGGCTCTTCGCACCTGCAGCAGCCGCGCCGCCTTTCCACCTCGTCG
GTCTCCTCCACTGGCTCCTCGTCGCTGCTCGAGGACTCGGAGGACGACCTGCTGAGCGACAGTGAGAGCCGGAGCCGCGGCAACGTGCAGCTGGAAGCGG
GCGAGGACGTGGGTCAGGTACGGGCCGCGGGGGCGGGGCCAGCGCCGGGCGCGGGGGCTGCACGGGGGACCTGGCTGGGTGCTCCCGGAGGACCCGCTCC
TGTCCATGCTCCCTCCAGCGGAAGGTCCTGTTCTCGCGGTTTAGGAGGAATCTGGGGGTCAGAGGGAGGCGCCTGGCCGACCTCTCGCCTGGGCAACTTT
CACCTCGGCTCCGCCGGCGGGTCGTGGCGCTGGCCCTGGGGCGTCTAAGAAGCGGGGCGAGGAGCAGGCGACCCGCCGCGGGGACTGGGCGAAGCGGGGG
TAGCGGACCTTGTTGGCTGTGGGTTAGGACAGGAGGGATCGGAGGGGCTGAGCCTTGCCGGGTGAACCCTCGGAAGGAGAGAGGCGAAGGAGAGTTTCCC
TTACCCCCCGCCCCCTCTCCGGTGCCGCGGCCGCACCCCCGCCGTTGCCACGGTTTCCCTCTCCTGAGTGGGAGTGGAGCGGCGCTCCAGGCTCTGCTCG
GGAGCCGCTGCCGTCTGCTCCCAGCGCCCGCACGAGGCGTGGACGCAGGGGAGGGAGGGGCGTGGGCCTGGGAGCTCTGGCTGGGAGCGGAACGCAGCCC
ACCCAGTGCGCGCCCTGCCTCCCATCTTCCCGGCTCGCCGCTCCTGAGCGCGGCAGAGAGGGGCGGTAAACTGAGGCTGCAAGGGGGCAGGATCACTCTG
CTAGTCTCTGCCTCTGATAGCCTGGGTGTTCTGGGACCAGGTCTGACCCTCGGAAAACACAGCCCTGGGCACTGTTAAGTCATTCCTGACGCCCGCCACT
TAGGGATGTGCGGCTCCCGGGACACCCTCCTTGTTCCCCTCGTTTTAACCAAGGCCAAATACCTTGAATAACTGTCCGTGGTCAGCGCGAAGGACTTTCT
TTAGATCCACGTTTCGCAAGTGTCCCTGAGGCCGAGGAAGAGGCGAGGGGCGCCCCCGGCCTCGGGCGTCTGGGGCCTGCCCATAAGKCCGGGTCGGCGC
GGCGGGGCGGGGAGAGCTGTGGCCGCGCGCCTGCTCCGCCGCACAATCGGCTGGGACAAGGCAGGGAAGCTGTGGCGACCTGCAGGGGTTCACAAGCCCG
GAGGCCGATGGGGTTTGTCAGTGACACCAGAGGGGAAAAGCCTCACAGAGCAGGAACACCCCCCGCCGCCAGGTGCTGGGTGCGCCGGCTCGGTCACTAG
CCTGCCGCTTCCCCTTCTTCCCCGGTGGTCAGAGCAGCCCCGGACCCAGGATCGTTTCTGGGGTAACCCTTGCCTAGGTCGGGGGGCGGATGCCGGGGCT
TCCCAGGATGTGGAGTGTGGGGCAGTGAGAGGCCCCCCGCCCCGCCTCTTCGGAAAAGCCTGAGCAGCAGCTCCSGGGGCGCGGAAGCTCTGACACCTGA
GAGCCGGTGCAGGCGAAAGGGCGCGAAGCGCGGGCGCGTCCCGCTTCCCTCTTCCGCCCGCAGGGACTCGGCGAAGTGCCTGGGAGAGGGAGTGCGCTAG
GAGGAGGTCCTGCGGCCCAAGCCTGGGTGTAGAGACCGCCCCGGCTAAGGTCAAGCCTCGGGGACCTGGGCGACCCCGCCGCCCTCCGAGCCGTCGGGAG
CCGGTGCAAATCGCCGCTGAGGGCCCTTCCAGCTCCAAGGCTGCGGCTTCCAGGCCTTCCCCACCCCCAGGCCCGCCGGGGCCTCCCCGAAGTCAAACAG
CCACAGCGGCGGCAGATAAGCCAGGGGCTGTTGACAGAGGCTGCCTGAGTCCGTGTGGAAGGGCCCAGGGCGGACTTTGCCTCGCCGCAGGTCCCAGAGC
CGCACAGCGCGCCGGCCCAGGCCAATTTAGGGCTTCCCCAGGCAGGAAGCAAGGCTGGTCCGGCTGACCGTGAAGGATGCACGTGGGCCGGACTCTAGGA
CTCCCGGCTTACCAGCCCCTTACGCGCGGCCCAGGCAGGCCGGAGCCCAGGAAGTTTCTGCCTGCCTGCCTGCCTACCTCTCTGCCTGGGGCATACGTAG
TCCCCTTCACCTCCTAGGAGCCCTCTCCAGCCTGCCCAGAGCAGGGAAATTGAAACTGGGCAGCCTCACTCCGGCAGAGGAAAAAGTCACAGGCAGGCTT
TTCCTAACCAGCCAGGGGAGAAGTTGGAGGCCCACCCGCAAGGTCAGCTGCATGACTCTATGGCCTTGCCTGCCTCCTCAAACAATTGTGGGGTATTGCT
GGAGGAAAAGAGAGGGTGTTTGGCTCCTGTTCATCTGGTTTTCTTCTTTCTGTGCTCCAGGATAGGTAAGGAGACCTGGATGCCATCCCCTCCTGGACTC
AGAATTCCCACACATCGCTTTCCACTAATTATAGAGCAGAATTTAGGTTAACAGACTTCCTTTTTAAACAGCTAATGCCCATGGGAAGGTGAAGTCGTGG
GTCACTTATACCTTAGTGCAAATCGTTTTATAAATTTAAACTGATTGCTCTTCCCACCACCACGACCACAGGGAGTGCTAGTTTGATAGGGCARTTGGAA
CATGGGGAGGGTATTGGGCTGGTAGAGAGCTTCAACCAGAGCCTGGATGACTGGAGGCAGGGAGCAAGGGTGAGTGCCAAAGACAGAGCACTCACCCACC
TGCTGGTCTGCTCCRGCAGAAGATACACTGTGTATCTGGCATGAGCAGGTGTCTTCAAGGCTTCCGAATGGAGCTTAGACAAAGGAGGGTCTGAGGCTAG
TATCCAGCCAAGCCCTGCCCAGAGAGAGGTACTCCCTGTTCAGCCCTAGGAGTGAGGAATTATCAGAGGGCCCTCCTGTGACTTCATTAAAGTCTCTCAC
ACAGTCAGCAATCCTAGCCTTTGCCTCAAGATACCCAGGTAGCCTCTGGCTGTGTGTTAGTCTCCCAGAGAGGGCACCTTCATGGAGGGAGGCCCGAGCC
AGAGGATGTTCAAGCTTCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCTACCACCACACCGGCTAAGTTTT
GTATTTTTAATAGAGATGGGGTTTCACCATGTTGGCCAGGCTGCTCTCGAACTCCTGACCTCAAGTGATGCATCTGCCTTGGCCTCCCAAAGTGCTGAGA
TTACAGGTGTCAGCCACCGCGCCTGGGCTTACATTCAYTTTTAAAAGCGTGATGTTCTCTGGGGGAGGTATCTCCCTAAGGTGGAAGGTGGCAGTGATTT
GAGTTCCATGACACTTGCACAACTCCTGCCATGCTTGGCCATACCCATTACTGGCAGGGGGGCTAAATCCTGTCATAGCAACCTCAGGTGGTAGGACGGA
GGACTCAGATGAGATAATAGGTATGAAAATCTTTTGTAGGCTGGGAGCAGTGGCTCACACTTGTAATCCCAGCACTTTGGGAGTCCAAGGCGGGAGGATC
ACTTGAACCCCGGAGTTCGAGGCCAGCCTGGGCAACATAGCAAAATCCTGTCTCTACTAAAAATACAAAAAAAATGTCACGGTGGCTCACACTTGCAATC
CCAGCACTTTAGGAGGCCATGGCAGGTAGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGATGAAACCCCGTCTCTACTAAAAATATAA
AAATTAGCCAGGCGTTGGTGGTGCACGCCTATAATCCCAGCTACTCAGGAGACTGAGGCAGGAGAATCGCTCAAACCTGGAAGACAGAGGTAGCAGTGAG
CCGAGATCGCACCACTCAAATAAATATGTACATACATACATACAAAAATACAAAAAATCAACCAGGCATGGTGACTCACATCTGTAGTCCCAGCTACTCT
GGAGGCTGAGGTGGGAGGATCACCTGAACCCTGGAAGTCCAGGATGCAGTTAGCTGTGATCGYACCACTGGACTCCAGCCTGGACAATGGGAGTGAGACC
TTGTCTCAAAAAAAAAAAAAAAAAAAAAGTATTTTGTAACCTGCTAGCTAGGACTGGCCTTAGTTGCTGCTGCTCTTGATTCTTATGAGATGCAGAAAAC
CAAGGTCAAGAGAGTAGGTGATGACACCATTTTACCCCTGCTTGGGAGCAGGTCCATCAATCAAATGGTAGTAGCCCAGGTTTTTAGACACACATCAAAT
CCTCTTCTGCCAGGCCCACCTGCCAGCCCTCCTCACTGTTTCTGCACAGTTCTAAAAGGATGGTTCAGTTCCCTCACCCTGCCTAACCCAAGGCAAGTTT
CCTCTTCACTAAGTCCATTCTGGTCCCACTATCCCCTAAATTCTTCTAGCAGGTCCCTACAGCCATTAAACTCATTCTTTTGGATAAAGGCAAAGGTGGC
CATCCAGTAGAGAAGGGCCCCCAGGCAGGTCTCAGTGTTCCCCAGAAGTCAAAACTCAGACTGCCTTATTGCTGCACATCACTTCACCAYGCACAAAGCA
CTTTCTCAGGCCACATCCCATTTAACCCCCAAAGGGAGGCAGGATGGTAGCATCCTGCTGGGGATACTTTGGAACCTGCTGGGGCAGTTGGAACTTGGGG
AGGGAGGATGGGCTGATAGCTTCAGCCAGAGATTGGGAGGCTGGAGGCAGGGCATGAGGGGATGTAACTCCCCTTGATTTCCTTCTGTAAAATGGGAATG
ATACCACTTCACGCACTTGCTATGCATGTGCATTCATTATGGCTCTCAAACTGAGTGTGGGAGAAGGGGGTACAGGATGGTGCTGCTGAATATACATGGC
ACATACATCATCTTCCTGGAATTTTACTTGAGGGTTTGGAGGTGGTGAGTTTTATAATAAAACTTGGATTTATTATGCAGCAGAATGCAAACCTGGTGTG
TATTTAAAGATTTTAAAAGGAGTTTTGAAAGTGATGTCATGCTTCTAGTGGGCTGCTTCTGGCTACACCCCCAGATCCCTGGGGATTGGGCACGTGATCA
CACCCTAGTGTGCCATGTAAGGGCTTCAGTAGGAAAGTGGGAGCAATGCTGCCTGATGGAAGATGAGAAAGTGCCTGACATGCAATAGGCAGGTAGCATT
TGATGGTTCGTGTTACGGCAGCAGCTATGTCCTCCCAGGGGAAACAGGCCCACACAGATGGCAGTACTTGGTTGGGTTCACTCAGCTGGAAGGTGACACA
GCCATGACTGGAACCAACTACTGACTTCCCACCCAGTGCTCTACCATAACTTCCATCTCCTCCCCATGGGAAAGGGCTTTATGGTCAGCAGCCCTCTTCT
ACTTAGGCCACCTCCTCAGTTCTCTCTCTCCCTCTTAGAACTCCCTCTTGTCAGGGAGGTGTATTCCTCTGGGGGTACAACATGTGTAACTGTGCTAAAA
GGCAAGTGCCTCTGTGGGGAGGCGGCAGACACAGTTGACATGAGCCAACCTGTGTACTTCAGAGAGGACACAGGGCTGCCRAGTTGCGGGTGGTAAGAGG
AGAGGTCCAGAGGATGGGATGCTCTCAAGATTAGCTGGAGGCTAGAAGAGATAAGGGGCACACCAAAAAAACAAAAACAAAAAACAAAAAACAAAAAACA
ACCCTCGTCTCCTTCCCAGGTTTGTCTAAGTTGACAGGCCCTCAGGTTTGCACCTTATTTTCTTTCTTTTTCTTTTTTTTGAGACGGAGTCTCACTCTGC
TGCCAGGCTAGAGTGCAGTGGCTCGATCACAGCTCACTGCAACCTCCACCTCCCAGATTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACC
ACAGGYGCATGCCACCATGTCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCTAGGATGGTCTTGATCTCTTGACCTTGTGAT
CCGCCCACCTCAGTCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCTCGCCCAGCCCGGCATCTTATTTTCATGGCTTAAGATTTCTAGGTCCAGAT
AAAAACCAAGGGTGCCCTGGGCCTTGCCAGCTAATGAGTGCATAGAATCCAGGGATAGCAAGRGAGGCTTGGAGAGCCTTTTCTTTCTCCAGCCCTGTTC
TTTCTCCAGGCCCTGCCAGGCTGGCCTTCCTGCCCTGGGCCTGTGTACAGGTTTGTTTCTGTGTATGTCTGTCTCCCTAAATGAGAGGAACCAAGGTCCT
GAGTGAAGGAATCAGTGATTGAGATTTGTTCAGCTTCTGCCTCATACCATGGAATGGGATGGGGGAGCTGGGCGCCTATCATGCTTAAGCCTTATGTACT
ACTCACAGCAACCCAGTAAGGATAGTTATTTCCTCATTTTATAGATCTTTTTCTTACAGATGCACAGAGGCTTGTTTCTTGGGCCCTGGAATCTTTTGAG
GCATTGGTAGTAATAAAAATTTGGGGGGCCGGGCCTGGTGGCTCACACCTGTAATCCCAGCAGTTTGGGAGGCTGAGGTGGGTGGAACACCTGAGATCAG
GAGTTGGAGACCAGCCTGACCAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATAGTGGTGTGCACCTGTAGTCTCAGCTAC
TCGGGAGGCTGAAACAAGAGAACCGCCTGAACCCGGGAGGTAGAGGTTGCAGTGAGGCCAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGA
CTCCATCTGAAAAAAAAAAAAAAAAAAAAAAAAATGGCCCTACTCTAGACCAACTTAGAACATCCCTGCGGTAGGCCTGATAATCTGCAATTTTTAACAA
GGGTGACCATCAGGTAATTCCGATGTTCACAACAGTTCAAAAACCTCGACAGAGCATTTTCGTAACCTGCCCACGCGTTCTTCAGTGGCAGAGCTGGAGC
GCAAACCGGGGGCTTCAGATGCTAAGTCCAGGCTCTTGACAGCTCACTGGAGACGCTGGAATCACCTTCACTGCGCCTGTATCAGCACCCGCCACWCAGG
CGCACAAATAAACCTTCCCAGAGTGAATGAATGAATTAATGACTCATCCAGCCCCAGCTGCTTCCGGTGGGTCGGGGGCGTGGCGAGACCCTGTTTCAGT
GGAGGGAGGGCTTATGCATTGCCGAGACGCCGATTATCAGACCTTGACCCTGTCGCTTTCAGAAAAACCACTGGCAGAAGATCCGGACCATGGTCAATCT
GCCGGTCATAAGCCCTTTCAAGAAGCGCTACGCCTGGGTGCAGCTGGCAGGGCACACTGGTGAGCAGTGGGGCGGGTGGGCGGGTGCCCGCGACGGGAAG
GGGCTGGGCGGCGCTGACGGATGCCGGTCCTCAGGGAGTTTTAAGGCGGCGGGCACCAGCGGGCTGATCCTGAAGCGCTGCTCGGAGCCGGAGCGCTACT
GCCTGGCGCGGCTGATGGCTGACGCGCTGCGCGGCTGCGTGCCTGCCTTCCACGGCGTGGTGGAGCGCGACGGCGAAAGCTACCTGCAGCTGCAGGACCT
GCTCGATGGCTTCGACGGACCTTGTGTGCTCGACTGCAAAATGGGCGTCAGGTATGCGTGCCCTGCCAGGTCGGTTGGGGGGATCAAGTAGGGGTCCGGG
GCCGGGACAGCTGCTTGAGGGGGACCCGGGGCGAGTGCTCGAAGGGGTCTCCGTGTGCGCCCCCTCATGCCCTGGCCGCTGCCTGCGCCCCCACAGGACT
TACCTAGAGGAGGAGCTGACCAAGGCCCGTGAGCGGCCCAAGCTGCGGAAGGACATGTACAAGAAAATGCTGGCGGTGGATCCTGAAGCTCCCACGGAGG
AGGAGCACGCGCAGCGCGCCGTCACCAAGCCGCGCTACATGCAGTGGCGGGAAGGCATCAGCTCCAGCACCACCCTCGGCTTCCGCATCGAGGGCATCAA
GGTGAGGCAGGCGCGCTTCGCTGGCACCGCCGCAGCCCCACTGCGCGCTGTCTTTYCCGATCCCCCGCTCCCGCCCCGCCTGCCCCTCCGCCCTCTCCCA
CCGCCTCGCCGTCCCCTGCAACTGGGAGGTACCGCTGCTCTACGCTGTCCTCTTCCCCACTGGCGGGCCCGGGGCCCCTGACACTCCTGTCCCACATCCA
GAAAGCGGACGGCTCCTGCAGCACCGACTTCAAGACTACGCGAAGCCGAGAGCAGGTGCTTCGCGTCTTTGAAGAGTTTGTGCAAGGAGATGAGGAAGTG
CTGGTGAGAGCGGGATCCCAAACCCTGAGGTGTTGGGGAGCCTGAAGCCGAGGACTGCCCCTGTCATCTGGCCCAGTGCCCTCGGCTGTGTCCCCACCAT
GGCCCTCACCGCGCTGGCTCGCAACTGCTCTACGCTCCTTCCCTTCTGGGCCACGCTGGGCGGGGCCCTGGGTCCTCCTCCTGGCGGCATTTGCCAAGCA
CAGCGTGGGTCCCGGCTCCTCATCGTTAGCAGGGGCTCATTTGGCGTTTAGTTAATTTGCCCTCCTCTCCCACCCCACCCTCTGCAGAGGCGGTATCTGA
ACCGCCTGCAGCAGATCCGGGACACCCTGGAGGTATCCGAGTTCTTCAGGAGGCACGAGGTAAGCGGCGGCTGCCCGGGTGCCCGGGCCGCGAGGGCTAG
GGCGGGAACCCGGCAAGGGCGTCTCTGGGCAGGGCCGCGGCCTGACGGTGCGGGGCTCGCAGGTGATCGGCAGCTCGCTCCTCTTTGTGCACGATCACTG
CCATCGCGCCGGCGTGTGGCTCATCGACTTCGGCAAGACCACGCCCCTCCCCGATGGCCAGATCCTGGACCACCGGCGGCCCTGGGAGGAGGGCAACCGC
GAGGACGGCTATTTGCTGGGGCTGGACAATCTCATTGGCATCCTGGCCAGCCTGGCTGAGAGATGAGGCTGGACTCCTGTCCCCGCGGGCCGCTCACCTG
ACATGTGGACCTGCAGCTTTGTCCCCACTGTGCATGCCGGCTTGAGACTGGAGCCCCGCGGTGCAGGGCAGTTCACCGGGTCCTGCAGGACCAGGTGCCA
GCCACTAAGGGGGGGCACCGCCGATGCCAGGGGTTTTGCCCACCCGGGCCCCAGCGTTCCCAGAGCCAAATGACACTAACTTATAGAAGGGGAGGGGGCA
AAGGGCTTCTTCCTCAGGCCAGCTCTTCTGAGGAGGCTCTGCCCTCTCCAGAGGTGCCAGACCGCGGATTTTATTTAGCAAGCCCAGACCTTCCGGTCTA
ACGTCTCACACCACGACGGACTCCCCTTCCTAATAAAACTCAAAGACAAGATGCAGCTTCCTGTGCCTCAGGCCTCAGCCCCTCCCTCCTCCGGCCCCCT
CTTCCTCAGTTCCGGTCCCTGGCATCCACAGATCGCTGGAGGATGAGAAGAGCTTTTTATTAGAAGCATCTGCAGGGTGGGGGGTCTGCCCAGATGAAGG
ATGCTCATAATGGGAGAGCAATCCAGTGCTCCCCATGGACACCTGGGGTGTGTGTAAGGCGGCCTCTGGCCCCAAGATCAAAAGCTGGAAGTGGCTGGGC
CCTTCCCTGGGAGGCCTGGGCTGGTTTCCAGCATGGCAAGTGCAGCGCTGCCAGGCCAGCCCCGAGACAGGCCCAGACACACAGCACAGACTGCAGGGAA
CAGAGGCCGCTGGCATAACAGGCCACCCAGGAGCCTGAGGAGTATAGGGAGGGACCCTCAGTGCCTCAGTCCTTACCCTCAGGGCCCCTTGGGGCTCAGG
AGCGATAAGTGGGATTCCAAAGGTTCTGAGGTTGGAGGCCCCTGGATTTGAGGGGCTTGAGGCCAGAGGACAGCCAGGGGCCAAGAGGGCTACCTCCCCA
GCTTTTCAACTTCTCTGGACTCAGTTCCTGGGGCTGTGGGGGTCTTAGGCACTCCAAAGATCTGTTCCCCAGCCCAGAAGTCCCTTCCTCCTCTGGGGTG
GGCCCCAGCTCCATTGGCAGGAGTGAATTCAGCACATCCGGGTCCTGTAATGGAAGAGTCAGGGAGCAGGGGGGCATAGAGTTTTCTGGCCCTCCCTCCT
GACCCACAAGACCAGGATGTTAGATTAGGTCGGGGGCACACCTGAGTGCAGTACTGCAGACGCTCCAAGATGCTGGCAAAGCTAGGGCGGAGCTCAGGCT
CGTGCTGCCAACACTGGGTCATGATGCGGTACCTGGGGAGAGGCAGGAGTTCATGCCCACCCATGGTTGTGAAGGACCTCCCTTCCCGGGCAGCACTCAA
CTCACACAGGCCCTGGGCAGCCCCTAGGAGGGTCCATCCGGCCTCCTCCAACGACGAAGTCCAGCACCTCCTGGTTGGTGCGCCCAGGATAGGGCATGTA
GCCCAGTGAGAAGATCTCCCAGAGCAGCACCCCAAAAGACCTGCATCACAAGTGGGGGAACCAAGTGAGGCCCGTCAGGTGTAGCCTCCCCTCACATGAG
GTGGCTGGAAAGGACAGGATTAGCCTCAGGGGAGGGGAACAGTGGGGAAGGGGAGGGGAAGGGTGTTATCACCAGGAATCTGTCTTGGATGTGAAGATGC
CCTCCAGGAAGGCCTCTGGGGGCATCCACTTGACTGGGAGCAAGGCCCGGTCCCCCCTGCGGTAATAACTGGCCCTACAGGAGGGAGGAGGTGAATGATG
AGTTGTTCACCACCAAGGTGCGGGGAAAACCCCCTTGGAGCAAGAGCCTTCCCACCTCCCAAGTCCCGCACCGGTAGATATCTCGTGCCATCCCAAAGTC
CCCAATCTTGGCCACTCGGCTGGGTCCAGCGCAGCTCAGCAGGCAGTTCCGGGCGGCAATATCCCTACAGAGTAGGCAAAAAAAATCACTGCCAGAATCT
AGAAGTTCTTGCTCTTCCTGATCTATTTCCTTAAAAGCTGTGTGGAAGGGCTGTTCCTTGGGGAGGGAGTTGGGATGGGGGTCCCCTGAGCCAGGACTGC
TCCTAACCTGTGGATGAAGTGATTTTCCTCCAGGTAGTGGCAGCCCTGGGCTATGTCCTGGGCCAGTTGCAGCAGGTCCCGCATGACCAGAGGTGATGGC
TGGCCCTGGGTCAGGCAGAGGGGGCATCAGTCCATGTAGGTCTCAGACACATGGACAGGGTCTTTAGAGGGGCCTGGGGGGGGCTAAGACAAGGGTCTCA
CCAGGTGTGGCCGACTGTGCCTCAGGAAACTCTTCATGTCCCCTCCAGACATCAGTTCCAGCAGAATGAGGCGAGGGGTGGCCCTGAGGCTGAGCCCCAC
ACACCGCACAATGTTCTGATGGCGAAACTTGCTGAGTGGGGTGGGGGACATATCCCGTTACCAGGAGGGAGACGGAAACCATGTTTTAGGCTCCACAAAG
CTGGAGAGGCCCTCTGTGTCCCCTGACTTGCTACCTCAGCCTCAGGGTGAAGAGAAACTGTTCCCGGGCATTCCCCTCCCGCCTTCCAGCCCTGCCCCTG
GTCCCAGGTGCACCTGATGATGAGGGCCTCCATGAGGAAATCCAGCTCATCCTGAGGCGAGCAGAGTTCTGGCAGGGTCTGGGGAGGAAAAGGGCACAGT
TTCTGAGCTGCCCTGCACGCTTCAGGAGAGGGGGTTAACCCTAGCTCTAGTCATTGTCCTTCCCTTCAGGGTGTTCCGCTCTCCTACCCCCAGCCAGAAG
TCCCACTCCTCTCACCTTGATAGCTACCTGCAGGGGACTGGAGTCCCCAGGAAGGCCAATTACCAGTCCCTCATACACCTCCCCAAAGGCACCATGGCCC
AGGGCTCTGCAGGAAGACACGTTGGAAGGGAGTGGGCAGGCGGCCTGGAGAAGAGTCCTAGAGAGTCTAGTACCCCCTTTACCTCCCCTGCCCCTGCCAT
ATGCCCAGCTGACCCTATATAGACTCTCTCCATACCATGGCATGTCCCCAGGTAGAAGCCCTGCAAGGGTGGTGCTCACTGGCATAGAGCCAGGGCAAAA
AAGAGGGCAGATGCGGGCCAGAGTCAAGGTGGGAGTGCATGATGAGGACTTCCCTGGTCCCTGCAGACGCCCTGGGCGGGAGGCAATCCCTGGGCTCCAA
GAGTCATGATTTTTTTTCTTTTTTAAACGAAGTCTCACTCTGTCATGCAGGCTGGAGTGCAATAGCGCGATCTCGGCTCACTGCAACCTCTGCCTCTCGG
GTTCAAGTGATTCTCCTGCCTCAGTCTCCCGAGTAGCTGGGACTACAGGCAAGCGCCACAACGCCCAGCTATTTTTTGTGTTTTTAGTAGACACAGGGTT
TCACCATGTTGGCCAGGCTGGTCTCGAACCCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGCGCCAGATCATATTCT
TTTTTTATTGAGACAGAGTCTCACTCTGTCGCCCTGGCTGGAGTGCAATGGCGCAATCTCGGCTCACCACAACCTCCGCCTCCCAGGTTCAAGTGATTCT
TCTGCCTCAGCCTCCCACGTAGCTGGGATTACAGGCATGCGCCACCATGCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCA
GGCTGGTCTCGAACTCCCGACCTCAGGTGACCTGCCTGCCTCGACCTCCCAAAGTTCTGGGATTACAGGTGTGAGCCACCACGCCCAGCTGAGAGATCAT
ATTCTAAGAACTGGGACGGAGAGGTGACATTGAGCAAGTTACTTCCCCTTCTGGAGCTTCTCAGGGCCTCCCTCTCCCTTACACAAGGGATGTGGGCCAG
ATTTTTTCTGGGACTTATAATTCACTACAGCAGGGAGAGAATCAGAGGTGGGGATTCAGAGTGCATAGGTTCTCAGAAGGAGGCAGAAGACTTACCTGAG
CAGAGTAACATTGGCTGGGGAAACCTCGGTGACACCTGGTGGCAGAGGCCAGGACTGGGCCGGGCCAAGCCCCACCTGGCAATAATAGGGATTGGGGGCT
GTCCTGATGGCAGAGGTTCGAAGCTTGCTCAGCTCAAGCTCAGGGCTCGGCAGCCTCATCTCCTGCAGGCCCTGCCACTTCTTCTGCTTCACTGGGGGTG
GGAAGAATAACGGCACACCCTCCACCTGCCCATCAACTCTCCCTCCCCCACCTGCCCAGGACACCCCTCCAGATGCTCATTAAGGTAAACGTTTTCCCCA
GGCCTCCCCAGCTCCTTCCTATCTTAGAATCCCAGAGGAGTCTACCACGGCTCTGCTGCGGTGAGTGGTCTTGAAGTCAGCCCCGGGACCCCGCAGAAAC
CCATCCCAGCTCACTGGAGAGGAGCAGCCTTGAATCAACTGTGCCTGCTAGACGCTTCGTACCCAGAATCAGGACCCCACACACCATAAGGAGGCTCAGT
GTTGAGGTTGCCACCACAGCCACCATCAGAACCAGAGGGCCTGGGGGCTTGTGCAGGTCTAGGGAGAAAGAGAGACACCTCCAGTGGGAAGGTCTTCTCT
GTTCCTTTACCCTCAAGTTTTACCCACGCTTCAAGACTCAGCTCAAGTGTTAATTTTTCCATGATGCCTTCCCCCATTATCCTGGGCAAAAGCAACCTCT
CCCTCTTGAACACCCCTAAAGCACTTTATACCTCCCACAACAATCGTCACTTGAGATATACATTTACATAGCTATATCTAAACATCCTCCCACACTGGAC
GACAGGCCTCTGAAAGGCACTGTGCACCGATGAATCTCCAATCCCCTGCCCAGCACCCACCACAGGGCCTGGCACACAGCAAATCTCTATACCATCTTTC
CCAGTGGCCTACTGCTCCTCCCAGTCTGTGACCCCAGGAGTCCAGACCTTGGGCAAAGGTAGGACATACCCATGCAGGTGACGTTATCCACAGCTAGCTC
CATGCCTTCTGGGCACAGGCATTCAGCCAGCTGGAGCTCTGCCTGCCATTGGCAGTCTCTCAAAGGGCAGTGACTGCAGTTGAGGTGCCTTCGGATCTCT
ACCTCTCCGTGGTTCTCGGTGACTGTGAGTAAAAGAACTGATATGATATGGTGTGGTAGGGCTGGGATATAGTAAATACATGCCTTTGGCTGGGTACAGT
GGCACACGCCTATAATCATTGCACTTTGGGAGGCCGTGGTGAGCGGATCACCGGAGGTCAGAAGTTCAAGACCAGCCTGGCCAACCCCGCCTCTACTAAA
AATACAAAATTAGCCGGGTGTGGTGGCGCACGCCTGCAATCCCAGCTACTCCAGCGACTGAGGCTGCAGAATCACTTGAACCCGGGAGGCGGAGGTTGCA
GTGACCCAAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAAAATAAAAATAAATAAATAAATAAATAAATAAATAAATAA
ATAAATACATGCCTTTTCCAGCCACATGGTTAATTCTAGCCCAGGACTTTAGAGCAAAGAGCAGCACCAAGCTTACAAGGGTGGTGAGAGAAGCTGGGGG
ACTTCTGTCAAGCCTGCACACTCCCAGGTATTTGAAGCGAATTCATAGCAAGGGGGTACTTGAAAAGCACGCAGCATGCCCTGCATTGCCATCCAGCACG
ACTGGCAGCCCACTTTCCTTTTTTTTAAGACAGAGTTTTGCTCTTGTCGCCCAGGCTGGAGTGCAATGGCATGATGACAGCCCATTTTTCAAATGACCCT
ATGCTATGCAAGAATCCTGTGCTATGCAAGGTTATTCACAGTGCAGGTGGCTCTTCAGTGCAGTGCAGGAGTGGGCTCAGGGACTGCGGAAGAAGTCCAG
GCCAGGCTCAGAGGTGGGGTTGGGGCCAATACCTGCCAGAGGCTGCAGGAAGAGCTCGCTGCTGGGGTGTATGAAGGATACTCCATCTTCCCCATCAGCC
CAGAGGTTGTCAGTCTCTGAAGCGTCGCCCCCTGGAAGTGGAGAGTGATGGAGAGTTTGACTACAAAAATGGGGGATGGGGGAGAAGCTGGAATCTCCCG
GTGGAAATCCCAGTGTGGCCCTCTCTTCTCCAGCATCATGATGCAAATGCTGTCTGTTCACAAGTGGGAGTGAAGGAGGTGAGGAGGGGGTAATCAGCTG
GAGCCTGAAGGCCTCGCTGAGGCTGGCTGGGATGCCTCCTGCCTGCCTGAGCCCCTCCTGTCCCATGTCCTCACAGTCCCTTTCTGTGAGAATGTAGATC
ATGTGTGTATGTATGAGCAGTACAGCCCAGACAGGCACAAAGGCATTTACACTAGTTATTTGATCAAAACACAGATGACTGGGACTCTCCCTTACAGTTT
CTGATTCAGTATGTTAGAGAAGGGCTGAGAATTCGCATTTCTTTTTAAAAAT


SNP Information

Context             (SEQ ID NO:66531):
GGCTAGAGTGCAGTGGCTCGATCACAGCTCACTGCAACCTCCACCTCCCAGATTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACCACAGG
Y
GCATGCCACCATGTCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCTAGGATGGTCTTGATCTCTTGACCTTGTGATCCGCCC
Celera SNP ID:            hCV2758396
SNP Position Genomic:     12306
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66532):
CAGGCATGGTGACTCACATCTGTAGTCCCAGCTACTCTGGAGGCTGAGGTGGGAGGATCACCTGAACCCTGGAAGTCCAGGATGCAGTTAGCTGTGATCG
Y
ACCACTGGACTCCAGCCTGGACAATGGGAGTGAGACCTTGTCTCAAAAAAAAAAAAAAAAAAAAAGTATTTTGTAACCTGCTAGCTAGGACTGGCCTTAG
Celera SNP ID:            hCV26633677
SNP Position Genomic:     10463
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66533):
CATCTTATTTTCATGGCTTAAGATTTCTAGGTCCAGATAAAAACCAAGGGTGCCCTGGGCCTTGCCAGCTAATGAGTGCATAGAATCCAGGGATAGCAAG
R
GAGGCTTGGAGAGCCTTTTCTTTCTCCAGCCCTGTTCTTTCTCCAGGCCCTGCCAGGCTGGCCTTCCTGCCCTGGGCCTGTGTACAGGTTTGTTTCTGTG
Celera SNP ID:            hCV2758397
SNP Position Genomic:     12563
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66534):
TGGGCTGGTAGAGAGCTTCAACCAGAGCCTGGATGACTGGAGGCAGGGAGCAAGGGTGAGTGCCAAAGACAGAGCACTCACCCACCTGCTGGTCTGCTCC
R
GCAGAAGATACACTGTGTATCTGGCATGAGCAGGTGTCTTCAAGGCTTCCGAATGGAGCTTAGACAAAGGAGGGTCTGAGGCTAGTATCCAGCCAAGCCC
Celera SNP ID:            hCV8793963
SNP Position Genomic:     9215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66535):
GGAGCGCAAACCGGGGGCTTCAGATGCTAAGTCCAGGCTCTTGACAGCTCACTGGAGACGCTGGAATCACCTTCACTGCGCCTGTATCAGCACCCGCCAC
W
CAGGCGCACAAATAAACCTTCCCAGAGTGAATGAATGAATTAATGACTCATCCAGCCCCAGCTGCTTCCGGTGGGTCGGGGGCGTGGCGAGACCCTGTTT
Celera SNP ID:            hCV8793971
SNP Position Genomic:     13496
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(T,4|A,12)   SC_12_C(T,5|A,16)   total(A,28|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66536):
AGGCTGCTCTCGAACTCCTGACCTCAAGTGATGCATCTGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGTGTCAGCCACCGCGCCTGGGCTTACATTCA
Y
TTTTAAAAGCGTGATGTTCTCTGGGGGAGGTATCTCCCTAAGGTGGAAGGTGGCAGTGATTTGAGTTCCATGACACTTGCACAACTCCTGCCATGCTTGG
Celera SNP ID:            hCV12067775
SNP Position Genomic:     9738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66537):
CGAAGGACTTTCTTTAGATCCACGTTTCGCAAGTGTCCCTGAGGCCGAGGAAGAGGCGAGGGGCGCCCCCGGCCTCGGGCGTCTGGGGCCTGCCCATAAG
K
CCGGGTCGGCGCGGCGGGGCGGGGAGAGCTGTGGCCGCGCGCCTGCTCCGCCGCACAATCGGCTGGGACAAGGCAGGGAAGCTGTGGCGACCTGCAGGGG
Celera SNP ID:            hCV2758391
SNP Position Genomic:     7588
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,7)      total(G,1|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66538):
TAGGTCGGGGGGCGGATGCCGGGGCTTCCCAGGATGTGGAGTGTGGGGCAGTGAGAGGCCCCCCGCCCCGCCTCTTCGGAAAAGCCTGAGCAGCAGCTCC
S
GGGGCGCGGAAGCTCTGACACCTGAGAGCCGGTGCAGGCGAAAGGGCGCGAAGCGCGGGCGCGTCCCGCTTCCCTCTTCCGCCCGCAGGGACTCGGCGAA
Celera SNP ID:            hCV2758392
SNP Position Genomic:     7975
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,5)      total(G,2|C,5) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66539):
GTCGTGGGTCACTTATACCTTAGTGCAAATCGTTTTATAAATTTAAACTGATTGCTCTTCCCACCACCACGACCACAGGGAGTGCTAGTTTGATAGGGCA
R
TTGGAACATGGGGAGGGTATTGGGCTGGTAGAGAGCTTCAACCAGAGCCTGGATGACTGGAGGCAGGGAGCAAGGGTGAGTGCCAAAGACAGAGCACTCA
Celera SNP ID:            hCV2758393
SNP Position Genomic:     9094
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,8)      total(G,1|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66540):
GCAAAGGTGGCCATCCAGTAGAGAAGGGCCCCCAGGCAGGTCTCAGTGTTCCCCAGAAGTCAAAACTCAGACTGCCTTATTGCTGCACATCACTTCACCA
Y
GCACAAAGCACTTTCTCAGGCCACATCCCATTTAACCCCCAAAGGGAGGCAGGATGGTAGCATCCTGCTGGGGATACTTTGGAACCTGCTGGGGCAGTTG
Celera SNP ID:            hCV2758394
SNP Position Genomic:     10990
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66541):
CATGTGTAACTGTGCTAAAAGGCAAGTGCCTCTGTGGGGAGGCGGCAGACACAGTTGACATGAGCCAACCTGTGTACTTCAGAGAGGACACAGGGCTGCC
R
AGTTGCGGGTGGTAAGAGGAGAGGTCCAGAGGATGGGATGCTCTCAAGATTAGCTGGAGGCTAGAAGAGATAAGGGGCACACCAAAAAAACAAAAACAAA
Celera SNP ID:            hCV2758395
SNP Position Genomic:     11981
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,17)   total(G,17|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66542):
CATCAGCTCCAGCACCACCCTCGGCTTCCGCATCGAGGGCATCAAGGTGAGGCAGGCGCGCTTCGCTGGCACCGCCGCAGCCCCACTGCGCGCTGTCTTT
Y
CCGATCCCCCGCTCCCGCCCCGCCTGCCCCTCCGCCCTCTCCCACCGCCTCGCCGTCCCCTGCAACTGGGAGGTACCGCTGCTCTACGCTGTCCTCTTCC
Celera SNP ID:            hCV2758476
SNP Position Genomic:     14456
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 424
Celera Gene:                 hCG39291 - 93000022563540
Gene Symbol:                 DKFZP727M111
Protein Name:                DKFZP727M111 protein;FLJ12732;KIAA1403;MGC858
Celera Genomic Axis:         GA_x5YUV32W323(8854097..8893201)
Chromosome:                  Chr15
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12584):
TCCCAGATTCAAGGGATCCTCCTGCCTCGGCCTTCCAAGTAGCTGGGTTACAGACACGTGCCACCACTGGCTAATTTTTTTGTGTTTTTAGTGGAGACAA
GGTTTCAGCATGTTGGCCAGGCTGATCTCAAATTCCTGACCTCAGGTGATCCACCAGTCTTGGCCTCCCAAAGTGTTGGGATTACACACATGAGCCACCA
TGCCAGGCCTCCAACTGAGGGGCATTCTACAAAACACCCTACCAGTATTACTCCAAGCTGTAAAAGTCATCAAAAATATAAAAAGTCTATGAAATTGTTA
TAGCCAAGAGGCGCCTAAGGGGACTTGACAACTAAATGTAATGTAGGTCTGGCACAGTGGCTCACACCAGTAATCCCAACACTTTGGTAGGCCGAGATGG
GAGGATCCCTTGAGGCTGGGAGTTCAAGACCAGCCTGGGCAAGATGGCAGGACTCTGTCTCTACGAAAATAAAAATAAAAAATTAGCCAAGCCTGATGGC
ACACACCTGTGGTTCCAGCTACTTGGGTGGCTAAGGTAGGAGGATAGCTTGAGCCCAGGAGGTTGAAGCTGTGGTAAACTGTGATTGTGCCACTGCACTC
CAGCCTGGGCAACAGAGGAGACCCTGTCTCAAAAATAAATAAAGGCCCAGCATGATGGCTCATGCCTGCAATCCTAGCACTTTGGGAGCCCAAGGCTGGC
AGATCACTTGAGGTCAGGAGTTCGAAACCAGCCTGGCCAACATGGTGAAACGCTGTCTCTACAAAAAATACAAAAATTAACAGGACATGGTGATGGGTGC
CTGTAATCTCAGCTACACAGGAGACTGAGGCACGAGAATCTCTTGAACCTGGAAGGTGGAGGTTGCAGTGAGCTGAGATTGCGCCACTCCATTCCAGCCT
AGGCGACAGAGCGAGACTCTGTCTCAAAAAATACATACATACATAAATACATACATAAAAATAAATGTAATGTGGTATCTTTGATGTGATCCTAGAAAAG
AAACAATGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATTGAGACCATCTGGCTA
ACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCTGGACATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGAGGCTGAGGCAGGAGAA
TGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTACAGACTGGGCGACAAAGTGAAAAAAAAAATTATTCTTTTGCCAG
GTGCAGTGGCTCACTCCTGTGATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACCTGAGGTCAGGAGTTTGAGACCATCCTGGACAACATGGCGAA
ACCCCGTGTCTACTAAAAGTACAAAAATTAGCTAGGCGTGGTGGTGGGCACCTGTAATCCCTGCTACTTAGGAAGCTAAGGCAGGCGAATAGCTTGAACC
CGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCACCATTGCACTCCAGCCTGGGCGACATGAGCGAGACTCCGTCTCAAAAAAAAAAAAATTCTTTTTAG
CGACAAAGTCTCATTCTGTCACTGAGGCTGGGGTGCAGTTGTGCAAACAGCTTGCTGCAGCCTCACATTCCTGGGATCAAGCTATTCCCCCGCCGCTGCA
TCGCTAGGACTATAGGTGCCACCACACCCAGCTAATTAAAAAAAATTTTTTTTATAGAACAGGGTCTTCCTACGTTGCCCGGGCTGGTCTTGAATTCCTG
GCCACAAGCAATACTCCTGCCTCAGCCTACCAAAGTGCTGAGATTATAAGCATGAGCCACCACACCCAGTCTTTGAAACAAAAAAACATAGTCTTACCCA
ATAAAAATTTCATAAATCCTCGCTGGGTGTGGTGGCATGCACCTGTGGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACTTGAGCCTAGGAGGTC
GAGGCTGCAGTGAGTCATGACAGCACCACTGCACTCCAGCCTCGGTGACAAAGCAAGACCCTATCTCAAAAAAAAAAAAAAGTAAATCCTTAATATCATA
CAAAATCTAGTTTATATTTAGTATTCCCTAACAGTCTCAAAAAAACAGTTTCAAAAATGAAGATATAAACAAAGACCGCATTTCATATGTTATAGTCTCT
GCCCAGTGCAGTGGCTTACACCTGTAATCCCAGCATTTTGGGAGGCTGAGGTGGGCAAATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATG
GTGAAACCCTGTCTCTACTAAAAATACAAAAATTGGCTGGACGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTAGAACACCT
GAAGTCAGGAGTATGAGACCAGCCTGGTCAACATGGTGAATTGAAACCTTGTCTCTACTCAAAATACAAAAATTAGCCGGGCATGGTGGCATGTGCCTGT
AACCCCAGCTACCTGGGAGGCTGAGGCAAGATAATCACTTGAACCCAGGAGGCAGAGTTTGCAGTGAGCCGAGATCACACCATTGCCCTGCAGCTTGGCA
ACAAGAGCGAAACTCCGTCTCAAAAAAAAAAGAAAAAAGTTAGCCAGGTATGGTGGCACACGCCTGTAATCACAGCTACTTAGGAGGCTGAGGCAGGAGA
ACCACTTGAACCCAGGAGGCGGAGGCTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCAACAACATAAAA
TAAAATAAATAATAAATAAATAGTCTCGGCTGGTGCAGTGACTCATGCCTGTAATTCCAGCATTTTGGGAGGCTGCGGCGGGTGAGTCACTAGAGCCCAG
GAGTTTGACACCAGACTAGGTGACATGGCAAAACCCTGTCACTACAAAAAATAAAAGAATTAGCCACGTTTGGTTCAGGCCTGTGATCCCAGCTATTCAG
GAGGTTGAGGCAGGAGAATCGCTTGAGCTCAGCAAGCAGAGGGAAGCAGAGGTTGCAGTGAGCTGAGGTTGCACCACTGCACTCCAGCCTGGGCAACAGA
GCAAGACCCTATCTCAAAACAGTAGAAAAGATTCATCAGTAAGTTCATATAATGGCAACCTGATCCATCCATATAAAGTCTGCATCAACCTTTCACCTAG
TTGTTAAACAATGACTGTTAAAACTATTAGGTCAAAGGTTGATGAAGACTTTATATGAGGCTGGGTGTGTTTTCCAACCTTAGCAGGCACCAAAATTAAG
TGGAAGGCTTGTTAAAACAGAATGCTGGAGCTGGGGATGGTGGCTTATGCCTATAGTCCCAGCATTTGGGAGGCCAGATCACCTGAGGTCAGGAGTTCGT
GACCAACCTGGCCAACATGGTCCAACCGTGTCCCTACTAAAAATACAAAACTTAGCTGGGCGTGGTGGCACCATTGCCAGGAGCCATTATCTCGTTATTT
CATTGCGAACAATTATTTTCTACTATCATTCATTCTGCATATTTGGCTCCAGTTCCTCTCCCTCATCCCGCTGCCTCCATAACTTCTGACCAGGTCTAGT
ACTATTTTGGACCTCAAGATGACTAAATCCTAGTAGCCGAAATTTACATCTGTAGTTGAAGCCAAGAGGATTATAGATCTGCTATAGTGCGGGACCAGCA
GCATCACCTAGAAACTTGGTAGAAATACAAATTTTGGGGCTCTATTAGAAACCTACTGAATCGGCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACT
TTGGGAGGCCAAGGCGGGCAGATCACGAGGTCAGGAGATGGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAGTAGCC
CGGCATGGTGACAGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGTGCAGGTTGCAGTGAGCTGAGACTGC
GCCAGTACACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCACAAAAAAAAAGGAAACCTACTGAAACAGGCCAGGTGCAGTAGCTCATGCCTGTAATCC
CAGCACTTTAGGAAGCTGACGTAGGTGGATCACCTGAGGTCAGGAGCTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAA
AATTAGCTGGGCATGGTGGCGGGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGAGGTTGCAGTGTGCCGAG
ATCATGCTATTGCACTCCAGCCTGGGCGACAAGAGCAAGACTCCGTCTTAAAAAAAAAAAAAGAAAGAAAAAGAAAAACCTACTGAATCAGAAACTCAGA
GGTTGAGGCCCAGCAATCTGTTTCGTTTTGTTTGAAACAGAGTCTGGCTCTGTGGCCCAATCTGGAGTGCAGTGGTTCCATCTTGGCTCACTGCAACCTC
CGCTTCCCAGGTTCAAGTGATTCTCCTGGCTCAGCCTCTTGAGTAGCTGGGACTACAGATGGACACCACCATGCCCTGCTAATTTTTATATTTTTAGTAG
AGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTTAGGTGATCTGCCAGCTTCAGCCTCCCAAAGTACTGGGATTATAGGCATGTG
CCACTGTGCCTGGCCCCAGCAATCTGGTTTAACAAGACTTCCAGTTGATTCTGGTGCCTGTTAAAGTTGGAAAGCCACTGGACTAACATTGGCTGCCCCA
TGATGTCCTTTGGTCTAGAAATGATTTACTTAAGGTCCTACTATGTGCATGGCAACACGTTGGGTGCTCAGTATTTAGATGCAAAGTACAAGGTCTGGTG
CCCACAAGGAACTGACAGTCTATTCAAGGGAACAGGACATAAGCCTGTGAAAAGGTAACCGGTGACAGTTGGTAGTTGGCAGTGTGTTCTTAGCATACCA
CACAACTGGTGCAGGCGGTGAGATTCCAGGTGAATCCAAGGAAAGTTTGGTGAGTAGGCGTGGCTGGCAGAGGTTTTAGAGTTGACGCCAGCTAGGCCTT
AAAGAGTTATCCTTTGGAGACAGGGGTGGCAGGGAAAAGAGGGAGGATTTCCAAGAAGGGAGAGTGGGATGAACAAAGGCAAGATTCTGGAGAAGATGAT
AACCTTGCTAGCAAGGAAGCTTTATTCCCTCTCTTCTCACCACCACTATTTCTGCAGTGCACACTGGCAGTGTTCTTTCCTTGGGCCTTTTTCATGGTTA
CCTTCTAGCTCTTCCATAAACACATTCGTCACGTTGGGGTGTGTGTGTGTGTCCACGTTTCTGTGTGCTGCCGTGGGCGTGGGTGCTGGGATGTGGGATG
TGGTAACACTGGCTGGTGAGTGCAGAGGGACGTCTGAGGAACGCTGTGTCCCTGCCAGGGGTGTCGTAAGTGCAGAAGGGGCTGTGCCTGCTGTACATCA
GAAGCATGTGTGGGCCAGGCGCGGTGGCACATCCTGTAATCACAGCACTTTGGGGGGCCGAGGCGGGCGGATTACCTAAGGTCGGGAGTTCGAGACCAGC
TTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGACGTGGTGGCGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCA
CAAGAATCGCTTGAGCCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCGCCACAGCACTCCAGCCTGTGCGACAGAGCAAGACTCTGTCTCAAAAAAA
AAAAAAAAAAAAAGGATGTGTGTTCTGGGTGATGGTATAGAGCTTACGTGGGGGTAATAAACCGCCAGCCGCGCAGCACCGCGCTCACCAGTCCGCTGCA
CTGAACAAGCAAAGCCCAGAATGCTCCGAGATAAGACCGGGAGAGGCGGGGCTGGGCTGCGGGGCGGAAGCTGGAATCTGGCGGCGGCGGAAACGCGATC
TCTGCGGGGCAAGATGGCGGCGCCCAGACAGGCCTGGAGCACGTAGGTGGCGGGGCTGGAGGGACGGATTTCAGGTGATCTGGGAGGAGGACCCAGGGTA
GCGTGTCCAGTTTCTTTGCTGGAACCTGCCTGCGGGCCTTTGGTCTGTAAGGGAGCAACTGTGGCCTCCTCTGTGCATAGATCTCGGGCACGGCCCTTCA
ACGGGCGGCGAAAGCTGCGACTCGRTGATTCCTCATTGTAGAGTTGGGTGGTCCAGGAGGCTTAACTGGAGCCCTTRACCTGAGCGGTAAGGGCAGTCAC
GCGTCCCGACTCGGGATTGGATCCTGGCTCTGGAGGATAGGCTGCAATGTAAGAGCCCCAGAGACTCCTCAGAGGCCAACATAAACCCAGAGGTCCATTG
TTAGGACTACTTTTTTTTACGAGTTACTCTTTAGGCATTACTCTTTAGGATTACAGGCGTGAGCCACCGCGCCCGGCCAACCCATTCTTATTCTATTAAT
AACTGAAAATGTTATCACTTCTAGCACTGATTGGTTCTGGACAAATCTGCGCTGGATTTGTGGGGAAACACACTGGTGGCTTTACTTAGGACTAAAATAA
TTGTTACTGAGGTTTATTTATATAAGTAACAGGCACTGGGCTAGGCGTTTTGCGTGTATAGTCATTTAAATCCTCACACATTTCCTATTATATAGGACCT
GTTACTCACATTTTACAGTTGTGGAAATGGGACTTAAGACAGCATAGAGGCCGCGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
CGGGCGGGTCACCTGAGATCAGGAGTTCGAGACCAGTCTGGCCAACATGGTGAAACCCCGTCTGTACTAAAAAAATACAAAAAATTAGCCGGGCGTGGTG
GCAGGCGCCTGTAATCCCAGCTACTCGGGAGCCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGTTGCAGTGTGCCGAGATCGTGCTATTGCAC
TCCAGCCTGGGCAACAAGAGGGAGAATCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGGACAGCATTGATAATTTGCCTAATTTCGCACATTTAGTGCAT
TTAGTAAGTAGCGGAACTGGTATTTGACTTCTGGCCTATTGATTCCAAAACTGGTGCCCATAACCCCCTGGCTCTCTTTGTGATGTAGGTATGGCGCACC
CTATGAAGTGAGCTGGACTTTGCTTTTGGATCACATGAATCCATGGATAAGTAGGAATTGTTTCTGCTTATGTAGACTCTTATAGGAGTGAATTGTTACC
ATACTATGGATTCTCAGTTCATCTAGTTCAGCCTTCCTTAGGGCCTTTGGGTAGGCATTGGGGTAGGAGACTTTTTCCTTGTTTGTTGGTCAGACTGCCC
AACAATTAGATATGGTTATCTGCCCTTTGGCTATATAAATAATAAGAATCATAACTGGCGTTTGTGTCCTTTCATGTATGAGACTCTGTTCTAATCTTCT
TACATATATATAATTAATTCAGGAGGTAGGTACAGTTATCTTCATGTTACAGATGAGGAAACAAGCACAGTAACTTCAGTAAAATACCTTGCTTAAGCTT
ACACAGTTAGTAAATGGCAGAGCCTGGATTTGAACACAGGCAGTCCATTTTCATACTGTTTACCTCCCATCCAGGAAAAGGCACATCTGTATACTTCGCT
GTTGTCATGCTACAAATAGTAATTAATACAAGTTCTATGCCAAATTTAAGATGAAATTTTGTAGACAGGTCTTTGCTCACTTCATCCACTTCCTTCAGTT
CTCTACTTATCTAAGTTTTCTCTTTCAATATTGACCTCTATTTTTAACCTTTAGGGATTTTTCCCACCTCTGAAATCGTGTAGCACTGATCTTCTATGCA
ATTAATTTCATCACTGGGATGTACTGCCTTGTAAATTTATATGTGTGTTTACCATATTCTCTCACCCCAACTTTGGGTACATCATTGACCAAAGGAAGAC
CTTTACAATCTTGGAGACATCATTTAAACTGTAAACCTTTGGAATTTCTAGRCTTGTGTGGGCAAAGAGAGATAATGAAGTGGGAAATTATTAAAAGACC
CAGCATTTCGGCATGGTCTCTGTCTCCCCAGTAAGCCCCTTGAACCCAGGGACTGGATTTTACTCCCATTTCTTTATATTTACAGCCCCYTGTACACCGC
TCAGCCCAGAGTAAACTCTCAAAAAATTTTTTGATAATGTTCTTAAGGTCACACCGTCATGTGATTGTTTCACCATTTCTACCCCTTTAGCCTGCCCCCA
ACCCCTGTGTTGGGAGGTGTTTCCAAGGCTGGCTTAGTTATTAGATCTGATCCTGCTTAGAAGTAGATGAAGAAAAAGTAAGGAAATGTGTCATTCAGCA
CTTTTTTTTTGAGACAGAGTCTCATGCTCTGTCCCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCATTGCAACCTCCACTTCCCGGGTTCACGCCAT
TCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGCGCGTGCTACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGCATTTCACCGTGTT
AGCCAGGATGGTCTCGATCTTCTGACCTCGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAGCACRCCCGGCCTTCATTC
AGCACTATTGTTAGTTCCAGCTATCTAGCTTGTCTACCTCTCCATCTCATCCTCCTTCAACTTTTAGGAGGTGGTCAACTTCATCATGTTCTCCCATGTA
CCATATTTATTCCCTGCTTTTTTTTTTTTTTTTTTCAAGATGGAGTCTAGCTCTGTCACCCAAGCTGGAGGGCAGTGGTGTAATCTTGGCTCACTGCAAC
CTCCACCTCCTGGGTTCAAACCGTTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAGTACAGGCACATGCCACCACGCCTGCCTAATTTTTTTGTATTTTT
AGTAGAGATGGGGTTTCACCATGTTGGCCAAGCTGGTCTTGAACTCCTGACCTCAGATGATCCACCCACCTCAGCCTCAAAGTGCTGGGATTACAGGTGT
GAGCCACTGCGCCCGGCCCTATTCCCTGCTTCTATACCTTTGCCCAGCTCTCCCTTCTGGCTGGAGGCCTATCTTATCCTTCAAGGTCTGGTTCAGTGGT
TTTCAACTGGGGGTGATTTTTTTCTGAGGTGACATTTGGCAATGTCTGGAGACATTTTTACTTGTCACAACTAGGGGAGGAGGTTTGATGATGACGTCTA
GTGGGTAAAAGCCAGGAATGCCGCTAAACATCCTACAGTGCGCAGGACAGCTTCCCACAGCAAAGAATTACCCAGCTATAAAGATCAATAGTCCCTATTG
AGAAACCTTAGTGTAGTTGCAGCCTTTGCTCTTCAGGAGATTCTTTATAGTTCTTCCCCATCTGCCTCACTATTCCAGACTTCCAGGACACCCAGGCACC
ACACAGCAGTAGGCAGTAGAACATAGTGGGTAAGAGCATGGACTGACTGGGATTGAATCCTAATCCTAGCACACACTTACACTGAGACCTTGAGCAAATA
CTTAACTTCTCAGCACTATTCTTTTCTCAGCTGTAAAATTTGAATAATAGTAGTAACTGGCCCGTTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGG
GAGGCAGAGGCGGGCAGATCACCTGAGGTCGGGAGTTYGAGACCAGCCTGACCAACATGGAGAAACCCAGTCTCTACTAAAAATACAAAATTAGCTGGGC
GTGGTGGCACATGCCTATAATCCCAGCTACTAGGGAGACTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGTGCCA
TTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAATAGTAGTAACCTACCTCCTAGGCTGTTATGAGGATTAAATGAATG
AATATGGAAAAAGTGCTTAGAGAACAGTATGTGGTGCATACTAAGTGCTCAATAAGTGTTAGATATAACAATATTTTTATTATTATCAGCATCTAGCTCA
GGGGTTCCAAAACTAGCCAGCCAGCTTGCAGATATCTTTGGCCAGCCCAGCGTTTTTTGTTTTATAATTGATTTATAGTTTATATACCACAGAAGTCATC
ATTTTATTTTATTATTATTATTTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGTACGATCTTGGCTCACTGCAGCCTCCGCCTC
CCAGGTTCAAGTGATTCTTCTGCCTCAGCCTCCTGAGTAGCTAGGATTACAGGCACCTGCCACCACACCCGGCTAATTTTTTTTGTATTTTTAGTAGAGA
CTTCACCATGTTGGTCAGGCTGGTTTGAACTCCTGACCTCGTGAGCCACCTGTCTCAGCCTCCCAAAGTGCTGGGATTACTGATGTGAGCCACCGAGCCT
GGCCAGAATTCATCATTTTAAAAGTTTACAGGCCAGGTGCAGTAGCTCAGGCCTGTAATCCCAGTACTTTGGGAGCCCAAGGTGGGCAGATTTCTTGAGC
CCAGGAGATCGAGACCAGCCTGTACAACATGGTGAAATCCTGTCTCTGTAAAAAACACAAAAATTGTGGGGCACGGTGGCTCACACCTGTAATCCCAGCA
CTTTGGGAGGCCAAGGCAGGTGGATCATGAGGTCAGGAGTTCGAGATCAGCCTGACCAACATGGTGAAACCCTGTCTCTACTGAAAAACTACAAAAAATT
AGCCAGGCATGGTGGTGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTAGGAGTCAGAGGTTGCAGTGAGCCGAGA
TCGCGCCATTGCACGCCAGCCTGGGCAACAAGAGCAAAACTCCGTCTCAAAAAACAAAAAACAAAAAACAAAAAAAAAAACAAAAATTAGCTGAGTGTGG
TGGTGCATCTGTAGTCCTAGCTTTTTGGGAGACTGAGGTGGGAGGACGGCTTAAGCCCAGGAGGTAGAGGTTGCAGTGAGCYAAGATCACGCTACTGCAC
TCCAKCCTGGGTGACAGAGCCAGACTCTGTCACAATAAATTAATAAAGTTTACAATTCATGGCTTTTAGTATATTCACAAGGTTGAACATTTTCATTACT
CCAAAAAGACGCTCCATACCCATTAGCTGTCAATTCCCATTTCCCTCCAGCTCTCCTAGCCCCTGGCAACTACTAATCTACTTTCTGTCTCTATGGATTT
GCCTATTTTGGACATTCCATATGAACAGAATCATACAATATGAGGTCCTTTTTGGCTAGCTTCTTTCTTTCTTTTCACTAAATAAAATGTTTCTGAGTCA
TATAGCTTCTTTCACTTAGTATAATGTTTTCAATGTTTGTGCATTGGAACTTCATTCCTTTTTGTTGACAAATAAATGTAAGGTCTCTATGTTAATTTCT
TTTTTGCCTTTGTGCCATGGTTACGTAAAGTCTTAACCTTTGGAGAAACTGGGTGAAGACTACATATGGAAACTGTTCATACTATCTATATAAATCTGTA
AATCTAACATTATAACAAATCACAAGTTTAAAAAGTACATAAATTTACAGTATATAGAGAAAAATAGAAATATGCATATTTTATCATGATACAAAACATT
TGATTGCTGACCTGTTTGTTGATTTTTTTTATGTTTTTTCTTTCCTTTTTTATCCTCTAAGCCTCTGATCACTTATCATTGTCAAGGTTGAGCAGACAGA
GAAGTGCATACATTCTGCAGCTTGAGTGCCTAACTTGAGATTCTGTTTCTGACATTTACTGTGGATTTGGGGCAATTAAATTAACTTTCTGTGTCAAGTG
GGAGGATCACCCAAGCCCAGGAGTTTGAGGCTGTAGTAAGCTATGATAGCAGACTGCACTCCAACCTAGGTGACAGAGTGAGATCCTGTCTGTTTTTTGT
TTTGTTTTGTTTTGTTTTTTTGACAGAGTCTCACTCTGTCGCCCAAGCTGGAGTGCAGTGGCTCCATCTCAGATCACTGCAAGCTCCGCCTCCCGGGTTC
ACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGAATACAGGTGCCCGCCACCACGCCCGGCTAGTTTTYTATATTTTTAGTAGAGACGGGGTTTCA
CCGTGTTARCCAGGATGGTCTTGATCTCCTGACCTCATAATCCACACGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCATCCGGCC
AATGCAATTGTTTTCTTAATTCCATTTTCTGCATGTTCTTTGCTAGTGCATAGACATACAATTTTTTTTTTTTTTTTTGAGACGGAGTTTTACTCTTGTT
GCCCAGGCTGGAGTGCAATGGTGCAATCTCGGCTCACAGCAACCTCCATCTCCCAGGTTCAAGCGATTCTCCTGTCTCAGCCTCCCAGGTAGCTGGGATT
ACAGGCGCCCACCACAATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAGGT
GACCCACCCTCCTCGGCCTTACAAAATGCTGGGATTACGGGCGTGAGCCACTGCGCCTGGCCACAAATGTTTTTTATATTGATATTTTACAGCCCAAGGT
TTTTAATAATTTACATACCTTTAGGCCAAGCATGTTCTCTCCAGTTTGATACAGAATCATCACCCCCCCATTATGACAACATTTATCTGCTCGGCCCCTG
ATGACATTTTCCTCAGGTCTCCTGCTGGTTGTTCCTGAGAGTTTTATCACCTATAGATTGTAAACAACCTAAGTTGGCTATAAATATTGTTGCTAGGCTG
ATGACATCASGGAGGGCTGAAGACAGAGGGAATGGCAGTAAGGTATGAATGAGGAGGAATGAGTTCATGTTAACCCAAGGATAAAGAAGATCTTCGCTGT
TGCCCAATAAAGAGAATCAGGGTTCAGTTGCAGAGGGCCCATATTCTTTCTTGCTCTTAGGGATGAATAAGAGGGAACCCCCACAYGGAGACACTGCTGG
AGAGAGTCGTACTGGGGAGGCAGCTGGAGCAGCAAGATGCTGTYGAGACCGAAGCCAGGGGAGTCCGAGGTGGACCTGCTGCACTTCCAGAGTCAGTTTC
TCGCAGCTGGTGCAGCCCCAGCAGTGCAGYTGGTGAAGAAAGGAAATAGGGGCGGTGGTGATGCCAACTCAGACCGGCCTCCGCTCCAGGACCATCGGGA
TGTGGTGATGTTGGACAGTGAGTTCCCATGGATGTGAGGCTGAGAAGTAGAGAGGGTACAGCCTYGGGCCSCTCCCTCTTCCTGTTGTGGTTGGATTCAG
ACACATCATTATTATTTCAGACACTGCATAGCCTGTGTTTCTGCAGCCCCATTTTACAGAGGAAGAAAATGAGGCTCAAAGAGGTTAAATATCTTACCCA
AGATGACACAGCTTGAGCCAGGGCCCCATGGCAGCTGTCTTTCTTCCCTAGCCTGCAGTGTCTTCCTAGGAAGGTGTGCATATACTCACGTTTGGGATCT
TTTCTTTCTCAGATCTCCCAGATTTGCCCCCAGCTTTGGTCCCTTCTCCTCCAAAGAGAGCCAGGCCCAGCCCTGGCCACTGCCTGCCTGAGGATGAGGA
CCCAGAAGAGAGGCTGAGGAGGCATGATCAGCACATCACTGCTGTCTTGACTAAGATTATTGTGCGTCTCACTCTGGCTGAGTAGGATAAGATGTTCTAG
GGCAACAGGGATATTGGATGCTCGGGGTGGGTGAGGCTTATCAGTGGAGGGTGCTTCAGAAAGGTAGACTTTTACCCCTGAGGTCAGGWTGGGGGCTGGG
TTAGAATCACTGCCCTGAAGGGAGGAGGGTCCGTAACCCCCCAGAGTGAGGTTCTCATCGTTCAGAACTGGGCTAATAGGATCGGGTCCAGCCTGGGGAA
GTTTCTCCATTGTGCTTCACAACTTTGTGCTTTGTTGCTACAGGAACGAGATACAAGTTCAGTGGCCGTGAATCTGCCTGTGCCCAGTGGTGTTGCTTTC
CCTGCTGTGTTCCTTCGCTCGCGGGACACACAGGTAGGCAAGGGTAAGCTTAGGTGGTGCTCAGGAGACAGACAGGTGAGTCTCATAGTGCATCTTCTCC
AGGCAGGTAGTTTTAATGATGATAAGCAATTTAATTTACAAAGCAGGATCATACTAAGCACTTCATACCCATTACTTCTTTTAATCTTCATAACAAACAT
ATAAGGCAGGTATCATGATGATACCTTGGGGATGAGGAGTCCTTATTCCCATTTTTCATATGAGGAAACTGAGACCCCAAAGAGATAAATAACTTGTCCA
ACACCACACATCTAATAGGTAGAAGAGCCAGAACTTCAACCCAAGTCTGTCAGAGTCTAAGACCTTTACTCTTATAGACCTCTCCTTTTTCTGAGAACTA
GGGTTGTGATCCCTGGAAATTGAGCAAATCCCCTTTTATCTCTTTGTTCCAGAGGCCTTGATATAAAGAGGTTGAGAGGAAAGTGGGATGATGAGCATCA
GTRACCTGGGTTTTCTTTTTGCCCCACAGGGGAAATCAGCAACATCTGGTAAGAGAAGCATCTTTGCCCAGGAAATTGCGGCAAGGAGGATAGCTGAAGC
CAWGGGCCCATCAGTTGGGGAAGTTGTGCCCAACGTGGGCCCACCAGAGGGTGAGCCGGGGTTGAAGAGGATTGGGCTTGGCCTTTTTAAAAGACACAAT
CATARGGTCATTTTTGAAGATATGTCTTCCTGCCTCAAATGAGAGGTGCATTTGAGCCATCTCAAGTAGTCTGAGAATACTAGGTATGGGAGGCTTGGGT
CCATATCTGGGTCTCAGGTGCTGGGAGTGGGGCAGGCCATTATGCAGTCCTAAGAGAAAGGGAATAGGGCAGAAGTGTCTGGCAGAGACTGTAAAATAAA
TGTGTTGGCCAAGATCCCTTTAATGATGCAAATTATTAGCTTAACAGCTGGGAGCAGGCCCCTGGCTATAGATGCCTGCCTAGATATCTAAGAGGAGTCA
GAAATTAGGATGTTTCTGAGGAAAACCTTTTCATATAAGTACTAGGGAAGCAGTGAGTGGAGAAGCCACCTGGAGTCCCTGTGCCAGACCCAGTGGGGTC
TCCACTCTGAGGAAAGYTTGGGTCTATACCTGTCTCCAGGGCTAATAGCCTTATAGAAGAAGGCCAAAAAGCCCAGTTAGAGCCCTGGAGGACAGAGCAA
TGAATGTGATCATACCTTTCTTCCAGGTGCCGTGACCTGTGAGACACCCACTCCTAGGAACCAGGGCTGCCAGCTTCCTGGGAGCAGCCACAGCTTTCAG
GGACCCAATCTGGTCACAGGGAAGGGGCTCAGGGATCAAGAAGCTGAGCAGGAAGCCCAGACTATCCATGAAGAGAACATAGCAAGACTGCAGGCCATGG
CTCCTGAGGAGATCCTGCAGGAACAGCAGCGGTTGCTGGCCCAGCTTGGTATGGGTGCCTGGCTTTCCTGCTGAGACCAGGCTAGGAGAGGAATACCACT
TATTGAGCTAGGCTTACTGTGAGTTCCGGGCACTGTGCTGAGTACTTTAATGCYTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGTCTTGCTCTGTCACC
CAGGCTGGAATGCAGTGGCACGATCTCGGCTCACTGCAACCTCCACCTTCACGGCTCAAGCARTCCTCCCACTTCAGCCTCCTGTGTAGCTGGGATTATA
GGCACACACCACCACACTCAGCTAATTTTTTTTTTTTTTTGSGGGGACAGAGTTTCACTCTTGTTGCCTAGGCTGGAATGCAATAGCACAATCTCGGCTC
ACCACAACCTCCGCCTCCCGGGTTCAAGAGATTCTCCTACCTCAGTCTCTCGAGTAGCTGGAATTACACGCATCTGCCACCACGCCCAGCTAATTTTTTT
ATTTTTAGTAGAGGTAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCAACCTCAGGTGATCTGCCCTCCTCGGCCTCCCAAAGTGCTAGGATT
ACAAGCATGAGCCACCATGCCCGGCCTTTTTTTTTTTTTGAGATGGAGTTTCGGTCTTGTTGCCCAGGTTAGAGTGCAATGGCGCGACGTAGGCTCACTG
CAACCTCCGCCTCCTGGGTTCAAATGATTCTCCTGCCTCAGCCTCCTGAGTATCTGGGATTACAGGTGCCCACCACCATACCCAACTAATTTTTGTATTT
TTAGTAGAGACGGAGTTTCACCATGTTGGCCAGGCTGGTGTCGAACTCCTGACCTCAGGTGATCCACTGGCCTTGGCCTCCCAAAGTGCTGGAGCCACTG
CGCCTAGGTTTTTTTTTTTTTTTTAAGACGGATTTTTCCTCTTGTTGCCCAGGCTGGAGTGCARTGGCGCAATCTCTGCTCACTGCAACCTCTGCCTCCC
AGGTTCAAGCAATTCTCCTGTCTCAGCCTCCAAAGTAGCTGGGATTACAGGCGCCTGCCACCATGCCTGGCTAATTTTTTTATTTTTTGTATTTTTAGTA
GAGACGGGGTTTCCCTGTATTGGCCAGGCTGGTTTCGAACTCTTGACCTCAGGTGGATCAAAGTGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCAC
CGTGCCTGGCCCCCAGCGAATTTCTTTTAAGGTTTTTGTAGAGATGAGGTCTCACTATATTGCACAGGTTGGTTTTTGTTTTTTGTTTTTTGTTTTCAGA
GTCTCCCTCTGTCACCCAGGCTGGAGTGGAATGGCACGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTTGTGCCTCAGCCTTTTC
AGCAGCTGGAATTAGAGGTGTGTACCACCATGCTTGGCTAATTTTTTTTATTTTCAGTAGAGATGGGGTCTCACCATGTTGGCCAGGCTAGTTTCGAACT
CCTGGCATCAAGTGATCCACCGACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGACCTTTAATGCATTATTCAGTTCTGTCC
TTAAACTTGTCCTGTGAGGTAGGTGGTATTAACCCTATTTTACTTATGAAAGAAACTGAGGCCTAAAATTTAAAAGAAATTCTACCCAGGTCACACACCT
TATAAGAAGCACAGGACACAGGATTTAAACCCAGATCTACCTGGTCTCATATAGATCTACCTGGTCTCATATGCCCTGCTTTTTTTTTTTTTTTTTTTTT
TTTGAGACGGAGTCTCGCTCTGTTGTCCTGGGTGGAGTACAGTGACACGATCTCAGCTCACTGCAACTTGTACCTCCCTAGTTCAAGCGATTTTCCTGCC
TCAGCCTCCTGAGTAGCTGGGATTACAGATGTGCACCACCACACCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGTTTCACCATGTTGGCCAGGCT
GGTCTTGAACTCCTGACCTCCAGCGACCCATCTGCCTCGGCCTGCTGAAGTGCTGCGATTTTTTTTTTGAGATGGTCACCGTGCCCAGCCGAGGCCCTAC
TTTTTAACCACTGTGCTATGTATAACTGTACTACCCTGGTATAGTATACACTATGCTTTATTATAGCTATACTCTAGTATATGTATAGTCTCTTCTACTC
TGTGATACTGTTCTATGCTATGCCTCACCCCTAGTGTCTGTTCACCAAAATGCCAGGCACTCAGTCAATCTTGTTACCCACTGTATACTAGCACCTCTAT
AGASTATAATACGTGTTAGGGCTCAGTATGGTGCCTTGCCCTGTAATTCCAGCACTTTGGGAGGTTGAGGTGAGAGGATTGCTTGAGGCCAAGAGTTTAC
GACCAGCTTGAGGAACATCATGAGACCCCATCTCTACAAAAAATAAAGATATAAAAAATTACAGCCAGGTGTGGAGGCTCACGCCTGTAATCCCAGCACT
TTGGGAGGCTGAGGTGGGCGGATCACAAGATCAAGACATTGAGACCATCCTGRCCAACACGGTGAAATCCTGTCTCTACTAAAAATACAAAAATTAGCTG
GGCGTGGTGGCACACGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAAGAAAATCACTTGAACCCGGGAGGCGGACCTTGCAGTGAGCCGAGATCGTG
CCATGGCACTCCAGCCTGGGCGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAATTAGCCAGATATGGTGGTGCATGCCGGTAGTCCCAGTTACT
TGGGAGGCTGAGGCGGGAGGATTGCTTGAGCCCAGGAGTTTGAGGCTGTGGTGAGCTACGATTGTGCCACTGYACTCCAGCATGGGTAACAGAGCAAGAC
CCTATCTCTTTAAAAATATATATTTACAGCCTGAGCAACATGGTAAAACCCCGTCTCTAGTAAAAATACAAAAATTAGCCAGGCGTGGTGGCAGGCACTT
TTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCCCTTGAACCTGGGAGATGGAGGTTGCAGTAAGTTGAGATTGCACCACTGCACTCCAGCCCGG
GCGACACAGCGAGATTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAATAAATAAATATATATATATATATATATATATATATGTGTGTGTGCATAAATAAA
TTAGCTAAGAGAAGGAAATTCTTTCTGTAAATGCCTTCTTTTTGGCCCTAGTCAACATTAACTTATTCATTCTACAGCCACTTACATTGGAACTGTGACC
TGAAACCAAAGGGATAGGCATAGGAACCTGGGCCAGTGGACTGTGAGGGATAGAGGGAAAGGTGGGCAGGTGGGCAGGTGGGCCTAGTGACCCCACAGGT
GTGAGAAGGCTGGGTCATTGATGGGCCACAGGAGCACCCAGAAGGCTCAGGCCCAGGCTCGGAAGCAGCTTGTCCTGTCCTTGGCACCCACAGACAGGCG
ATATTCAGCGGGTTCCAGGTCTGTAGGAGGCCAGGGAGGATCTACCCTCACTCACTCTCCCCTCTACCTTCGCCTCTAGACCCCAGCTTGGTTGCTTTCT
TGAGATCTCACAGCCACACGCAAGAGCAAACAGGAGAGACAGCCTCTGAGGAGCAGAGGCCAGGAGGACCCTCTGCTAATGTCACCAAGGAGGAACCCCT
CATGTCAGCTTTTGCCAGTGAGCCCAGGAAGAGAGACAAGCTGGAGCCAGAAGCCCCAGGTTTGCAGGAGGCGGGGGTCATATTTTGGTGGATAAAAGTA
GGGGAAATTGTCCCTTTTCCTAGGCCTGGCAAATGAGAGAAGAGAGAAGCTTCTGTGCTTTTGGACATCTAACATTAATCCTCATTATTGGCTTCAAGTC
AGTCTTCATTGCTGATGCATGTCTTCTTCCTGCACATGCTTCCTGTTTTCTTGTCCTGTTACTGCCCCTTCTCCGCCTTCCCTTTTAAGAGGCAGCAATG
CGTGATGGCTGAATCCCACTCCACCCGCTCCCGGCAGACTATCTTCCTGTCCTTGCTGTAGCTGCCCCAGCTCTGGCTCTGTCCATCCCACTGTTCTTTC
TCTCTCTGCTCACAGTGCTGGGGGAAAGATGGCAGGGCCAGAGTAATAAGAGAGGCAGAATCTGACAAAGATCTTATGAACATGCCAGACCAGAAGCAGA
GAGGCCAGTGGAAGCACTCATTTCCCAGAAACTAGATTATTTCATTAGTGATTAWCAAAATAAGAAATTGAATTATGAGAGCCAGGAACCTCATGCCCCC
GGAGGAGCTCCAGGCCAGCTGAGCAGGTTGGGTGGGGGTAGGCGTGAAGGAGGAAAATGCTGTGGGATTTGTTTCTGTATCCTGCCCCCCAGGAGCAGTA
TAGTTGCCTCCTCCTCATTGTCCCCACTCTCCTACTCCTTTAAGGGCTGGTACTGGAAAGTGGAGATGGTGCCTTCCTGACATATGTGGTCCTCCTTCTT
CATCTTTTTCTCCTTTCTTTCTCTTTCTTCCTTCTCCTTCTCCTCCTCTCTCCCCTCCCAACAAATCCTTGGGGTCAGCAAGGGGCTGGAGCCCAGGATG
GAGTGTGTCTGTCATATTTGAGACTTTCACCCCAGCCCCAGGAGTTCCAGTCCCTGRGCCATGCCATTTAGCCATAAYCGAGGGTAGAAGCTGGCAGATC
CTGGAACAGAAGTGGATGTGGCAGCTGCTGGGTGATGGTGGGGACCCCTGTGGATAGTGAGCTGAGCCGTTTGGGTAATACTATCATGCTTTGTCTCCCC
AGCTCTGGCATTGCCCRTGACCCCTCAGAAAGAATGGCTGCACATGGACACTGTCGAGCTGGAGAAGCTCCACTGGACCCAGGACTTGCCCCCTGTCCGG
CGGCAGCAGACACAGGAGGTGAGGAGGGCCACCTGGCCTACAAGGGGTGGGTGAKATAGGGCAGGAGAGGAGCTGCTGCTCTTGCCCTCAGAACTCAGGC
CTTTCTATTGCCCAGAGCCTGAGAAGCATCTCTCCTTTGCTCTCACCCACCTTTACCATCACTCTGCCTGGCCCCCAAGGCCAGATAAGCCCCATTTCTG
GTAGAAGTAGAGTCAGTACCTAAGTCCTGAAAGGCCTGGGATTAAAGGTGGGGAGTGGGTGTGGGAAGGTTGCTGGAGCCCCCAGACCACAGTCCTCTTT
CTCTTCCCATTAGAGGATGCAGGCTCGRTTCAGTCTTCAGGGAGAACTACTGGCCCCTGACGTGGACCTGCCCACCCACCTGGGTCTGCACCACCATGGA
GAGGAGGCAGAGGTGAGGCATGGGACTGGAGAGGATGGGGCAGCTCTTTTAACAACCCCATGGAAAAGGATCTCTGGTCAACTGCCTTTGACCTTCTGTG
TGCCCTGTTCTAGTTCATGCCTTTGCTGTGCATTCAGTTTCTTTTTTTGGAGACAGAATCTCGCTCTGGCCCAGGCTGGAGTGCAGTGGTATGATCTTGG
CTCACTGCAGCCTCCACCTCCTGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCTGACTAGCTGGGATTACAGGCGCATGCCACCACGTCCAGCTAATTTT
TGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGAGCTTGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGAT
TACAGGCGTGGCATTCAGTTTCTTAGGCTCAAAATCTTGATCCTCTCTCCGTATTCTGGTCAGTTGCTAGAATTTGCCGATCTTCTGTCACCTCCTCATG
ATGCCTCCTGCRCTGTGGCCTTGCTTCCTTGGTCTGCTCACTCTCCATGCCCTCCATTCTCCGCCCCCCTGCCATTCCATGTCTCTCGGGGCTGCTGTGC
TGATTTCTTCTGGCCCAGCTCAGGCCATGCCTTGCCTCCAGAAGTTTCCCAGCTTCCCTCTGCTCACARAATAAGGTTCTGGTCTCAGCTGGGCAAGATA
TTCCTTCTACCTTTTGTCCCTGCTGACCCTGCTGCTCTGCCTCCTTCACTTCCTGCTACACCACTCTGCTGGCTTCTCCCCACATACCTCCTGTGCTCAG
GGCCCTCCAGGACTCCACTCGCTCCAGGAAATGCCTTTGCCTTTTGCTCCATGTCAGGCCATCAAAGCTCTACCCATCCACTGAGACCAATTTAATTTTC
CAGGTTCCCTTCTCTCTCTCTCCTGTCCGCCGGTCGCAAATTAAACATCAGTTATCACGTTCCTCTGCATCTGCCTCATGGCATGGTTACTTGTATGCAA
GTCTTATCTTTACCGGCTTGAGGCTCCATGGAAAGCAGGGCAGATTTCACTTATTTATCTTTGTCTTTCCTGTGATACCTTGCTTGGTGTTTTGGGGGCA
CTGTGCTGTATCCTGGCTGCTTCTGACTTCTTGTCCCTGCCCCAGAGAGCGGGGTATTCCCTACAGGAGCTGTTCCACCTGACCCGCAGCCAGGTTTCCC
AGCAGAGAGCACTGGCACTGCATGTGTTAGCCCAGGTCATCAGCAGGGTGAGTGGATTGCCAGCCTGGTCCTGCCCACCCTTCCCTTCACCCCACAGCCT
CAGACTTCCCCATCTCCTGCCCTTTTCACTCTGGCTCACTAGCCAGCTATGTGCTTTTAACAACCTAGGATCATAGGGGGGCAAACGAAGGATTAGGGCA
AAGCCTCTAGATAACTTCAGCATCTTCAGCAAGGTTTTACCCTCCTGCCCTCAGGCCCAGGCTGGTGAGTTTGGGGACCRGCTAGCAGGCAGTGTCTTAA
GCCTCCTTTTGGATGCTGGTTTCCTCTTCCTACTGCGCTTCTCCTTGGATGACAGAGTGGATGGGGTCATTGCAACCGCCATCCGTGCTCTTCGGGCTCT
GCTGGTGGCTCCTGGAGATGAGGTACCACAGGGATAGGAATGGGGCTTGGGCTGGGAGGTGCCAGGGTCCATATTCCTGTTYCTGGGCATGGCCCCATTG
CTAAGGCTTTGYGGGCAAGATGTAGAATGGGATGGCAGGCGTCTCCCTCATCTCCTAAAGTCCCTAAAGCCCAGGAGGCTTGCMTTTATGGTTTTTATTG
GGGAGCATCCTCTCTACTCCTGGATCCATTTCCTGGCCCCTTCAGCATTGCCCCCCAACTCCCGTTCCTCTGGCAGGAGCTCCTCGACAGCACCTTCTCT
TGGTACCATGGAGCTTTGACGTTCCCTCTGATGCCCAGCCAGGAGGACAAGGAGGATGAGGACRAGGATGAAGAATGCCCAGCAGGAAAAGCAAAAAGGA
AAAGCCCTGAAGAAGAAAGCCGGCCTCCACCTGACCTGGCCCGACATGATGTCATCAAGGTAAAGGGACAGCTTCTTTCCCATCCCATGGCCCAGGGGAC
AAGCACATGCTGGAAAGAGGGGCCATCAATGCCCAGGGTCCAGCTGCATTTGTCAGTGGGTTTCTCTCTCCAACTCCCAGGGGCTCCTGGCTACCAGCCT
GCTGCCTCGGCTGYGCTACGTGCTGGAGGTGACATACCCAGGACCTGCGGTGGTCCTTGACATCCTGGCTGTGCTCATCCGCCTGGCCCGGCATTCCCTG
GAATCAGCCACARGGGTGAGAAAAAAGGGAGCAGGGAATGGGCAAAAAGCCTAGCTGRGCCTTGTCTTGACCCACAGCCTCCCTTCCTCCCTTTTAYCTC
CTGTCTCCCATAGGTCCTGGAGTGCCCTCGGCTGATAGAGACTATAGTTCGAGAGTTCTTGCCCACCAGTTGGTCTCCTGTGGGGGCAGGGCCTACCCCT
AGTCTATACAAAGTACCCTGTGCTACTGCCATGAAACTACTTCGTGTCCTGGCCTCAGCTGGGAGGAATATTGCTGCCCGGCTGGTGAGCAGGACACAGG
GCAAGGGATGGGGGAATGCATGGGACAGGGTTGGGTTGGGAGCTAAACATGGCTCCTGAACTCTGGGTGGCCAGCTCTTGCCATCTTCTTCCTCTCTGAT
CCAGTTGCTTAGAAATGCAACAGAAATCACCAGGCATGAACCTGTTTACTGGAGCCTGTTTAYTGGAGCCTGGTGCATCATATAGGTATACTGTGGTCTC
ATGATGTAATAGGAGGTCTCCCTGTTCCCTAGACCCAGATCAGAAGGGCTTCATGCACATAGGCATTCATCATCTATAGCCAAGTAGCCCTAGAGAAGGT
GCCCAGCAAGCCTTGCTATAAAGAGGGAGGGCTGGGTGTAGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCACTTGGGGC
CAAGAGTTCAGGGGCCAGCCTGGMCAACATAGCAAGACTCYGTCTCTACAAAAAACAAAAACAAAAAATTAGCTAGATGTGGTAGCACATGACTGTAGTC
TCAGCTACTCGGTAGGCTGAGGTAGAAGGATCACTTGAGCTGGGAGGTGGAGGCTGCAGTGGGCTGGTTGCACCAATCACTGCACTACAGCCTAGGCAAC
AGGGCGAGACCCCGTCTCAAAAATACTACTACTGGCCAGGTGCAGTGGCTCACGCCTGTAATCACAACACTTTGGGAGACCGAGGTGGTGGATCACTTGA
GGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGCAAAACCCCACCTCTACTAAAACTACAAAAATTAGCCAGGTATAATAGTGTGCGCCTGTAGTCCCA
GCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGATGGAGGGTGGAGTGAGCCAAGATCACACCACTGCATTCCAGCCTGGGTGGCAGAG
CAAGATTCCATCTAAAAACAAATAATAGGGCCGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCATGAGGTCAG
GAGTTCAAGACCAGCCTGACCAAGATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGCATGCGCCTGTAATCCCGGCTAC
TCCAGAGGCTGAGGCAGAGAATTGCTTAAACCTGGAGGGGCAGAGATTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGA
CTCCATCTAAAAAAATAATAATAATAAAAATAAAAAAATAATAGGGGCTGGGTGCGGTGGCTCACACCTGTAATCCCAACGTTTTGGAAGGCCGAGGTGG
GTGAATCACGAGGTCAGCAGTTCGACACCAGCCTGGCCAACATAATGAAACCCCGTCTCTACTAAAAATACAAAAATTAGTCGGGCATGGTGGCGCATGC
CTGTAGTCCCAGCTACTYGGGAGGCTGAGGCAGGAGAGTCTCTTGAACCTGGGAGACAGAAGTTGTGGTGAGCCAAGATCACTCCACTGCACTCCAGCCA
GGGCAACAGAGCAAGACTCCATCTCAAAATAATAATAAATAATAAAAAGTAAAATAATAAAATTGAAATTTTAAATAAATAATAAGAAGGAAGGGCAGGG
TGGATGAGGTATGACTTTGTGGCACCAGAGGGGCCTGGGTCAGGGTTGAGTTAAGCCACTCTCTGTCCAGCTGAGAGTAGCTGGACTTGAGACTCACAGC
TGACCCTGATCCYCAGACTGTGCCCATTTCCAGTTGAGCAGCTTTGATCTCCGGAGCCGCCTGTGCCGCATCATAGCTGAGGCTCCCCAAGAACTGGCCT
TGCCCCCAGAGGAAGCTGAGATGCTGAGCACCGAGGCCCTCCGTCTGTGGGCTGTGGCTGCCTCCTATGGCCAGGGCGGTTACCTTTACAGGTGAGGAGA
GGCAGGGGGTAGGCTCCCCCTAGACACCTTCAGTTCTGCTCTTCTGGCCAAATCAAACACCTCAGCCTTGCTCAAGGTCCCAAGCTTGGAGGAAGGATAA
GAATGAGTGGGAGGGCTTCTGCCAGATGTGAAAAGGCTTAGGAGTCAGGCCCAGCCAGGGAAGAGGGGGATAAACCTGGCTTAACCGTATTCTATGCTCA
AAATCATTAGCCGGGCACTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGATGCCAAGGTAGGCGTATCACGAAGTCAGGAGTTCGAGACCATCCTGGC
CAATATGGTGAAACCCCGTCTCTATTAAAAATACAAAAATTAGCCAGGCGTGGTGGCACACACCTGTAATCCCAACTACTCGGCAGGCTGAGGCAGGAGA
ACCGGTTTAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACTCCATCACTCCACTGCACTCCAGCCTGGGCAACAGAGAATGTCTCAAAAAAAAAA
AAAAAAAAGCATTGGTATCTGTGAAATCACATTTAAATTCCCTGTTGGGGGCAGCCTTGAAGGACAACATCCTTTCCATTCTTTAGGGCTGAGCCTTCCA
AGAGTGCCCCACTCTTCCTCCTCATCCTCCTTTATCAAACTGCAGATCCCTGGGTCAGGGCCATGACCTGTGTCTCATGTCTCCACTTGCTTTCATACAG
TGAAAATCAGTCCCTGTTCTTCCCTAGGGAGCTCTACCCAGTGCTGATGCGGGCCTTGCAGGTGGTGCCGCGGGAGCTCAGCACCCACCCACCTCAACCC
CTGTCCATGCAGCGGATAGCCTCACTGCTCACTCTCCTCACCCAGCTAACCCTGGCAGCCGGCAGTACCCCTGCTGAAACCATCAGGTAGTTTATAGCCA
GGACCCACAGGACAGGTGGAGGGCTCCTCCACAGGGCTGGGGTGGCTGGAGTGTAAAGGGGCGTGAGGCAGCCAGATCCTCACTGTGGCMCCCTTTGGCA
CTTTTGTAGTGATTCTGCTGAGGCCAGCCTCTCGGCCACCCCTTCCTTAGTCACTTGGACACAGGTGTCTGGGCTCCAGCCTCTTGTTGAGCCGTGTCTA
AGGCAGACCTTGAAGTTGCTGTCCAGACCTGAGATGTGGAGAGCCGTGGGCCCAGTGCCCGTTGCCTGCCTGTTGTTCCTGGGAGCCTACTACCAGGCCT
GGAGCCAGCAAGTGAGTGCCTCCTGCCGGCTGTCCACCAGGCCCCCGCACCCTGCCTTCAGCTACATTCCACCCGTTGCTCCCTCTCTGTGTCCATCTCT
CCACTCCTACTTCCCCATTTACTATCTTCCCTTTTAATTCCTACCCTTCCTCCTCTTTCTACCTCCATATCCCCGTGGAGCTTCCCAGGAGCCATGTTGG
TGGGGACCAGAGAGCCCACGCAGCASCTCAGCCTTCCTGTAGCCTGTGTGCTCCCTCTTTATGCCCCCTACACATCGGGGCCTTCTCTCCCTTCAGAAGG
CTCAGCCTGCAGAAGCCTCCAAATGTGCTCYTTTGGGCTGTTGGGATGGTGGCATTGGCCTGGGTACACAGGGTCTAGGAGAATGAATGGCTGGGCCATC
AGCTCAGTGAATTCCTTGGTCCACCAGCCAAGCTCATGCCCGGAGGATTGGCTCCAGGACATGSAGCGCCTGTCAGAGGAGCTGCTGCTGCCACTGCTGA
GTCAGCCCACACTGGGCAGCCTGTGGGATTCCCTTAGGTATGTACTGTGTTTGGTAGCTGGGGGAAGCAGGGGAGGAGGCAATTTCTTTCCTTGTGGGAT
TCCTGGGTCCAGCTCCCAKGTCCATCCCAGGGTGCAGGCCCTCGGCCCGAGGGAAACCCGAGTCCCTAGCAGGCAGCAGTGGGGTGGGCTCTGAGGAGTG
TGAGCAGCACTGACCTCCACAGCCAGGCCCCCCGTTAGTCTTAGGTACAGACCCAGAAGCTCTTTCCAGCTTGGCACACGCCAGGCCAGAGTCCCCCTCA
GACTCTCCACTTCACCTACAGGCACTGCTCCCTTCTCTGCAACCCGCTGTCCTGTGTGCCAGCCCTTGAAGCTCCCCCCAGCCTCGTGTCACTGGGCTGC
TCGGGAGGCTGCCCCCRTCTCAGTCTGGCTGGCTCAGCCTCACCCTTCCCATTCCTCACTGCCCTCCTCTCTCTTCTTAATACCCTGGCCCAGATCCACA
AGGGGCTGTGTGGCCAGGTAAGTGTGGGGTGCCTGATTAGGGGCCAGGCAAGGGGCCAAGATGGCAGGAATCAGAAAGAAAGTGGGAGGGTGGGATGGGC
GCGGTGGCTCACGCCTGTAATCCCAGCAGTTTGGGAGGCCGAGGTGGGCAGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGGCCAACATGGAGAAAC
CCCATCTCTACTAAAAATACAAAATTAGCCAGGCATGATGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGG
GAGGCGGAGGCTGCGGTGAGCTGAGATCACACCATTGCACTGCAGCCTGGGCAACAAGAGCGAAACTCCATCTCAAAAAAAACCAAAAAGAAAGTGGGAG
GGTGTCCCATGGGGAAGGGAGGCCTTCTGCTGGCACTCATTTCCCTGAGTCTGGAGAGGGGCAGCCACCTGGGGAGCCCTAGAAGGCATGAGAGTCAATT
TCTAGATCTGAACAAAATTGCTTTTCCTCAGCTGGCTGCCATATTGGCTGCCCCGGGACTCCAGAATTACTTCCTCCAGTGTGTGGCTCCTGGGGCTGCC
CCACACCTCACACCTTTCTCTGCATGGGCCCTGCGCCATGAGTACCACCTGCAGTACCTGGCACTCGCTCTGGCCCAGAAAGYGGTAGGTCCCCCTGTCT
GACAGGTTCTCCTGTCATCCCATTATCTCCTTCCTGTTTCTGTGGAACCCAGCCTGCTTCTGCCAGGCCATGCAGCTCCCACTTTCCTCCAGACAYGCCC
TGGACCTSTGCCCTTCAGCCTCACTTTTATCCTCTTCCTCACTTCTCTCTGCCACGTCCCCTTCTCCTGTACTAGGTAGTTCCCTGCTTTTCTGTCTGCA
GGCAGCGCTGCAGCCACTGCCAGCCACCCATGCTGCCCTCTATCATGGTATGGCCTTGGCCCTGCTGAGCCGGCTGCTGCCCGGAAGTGAGTACCTCACC
CATGAGCTGCTGCTGAGCTGTGTATTCCGGCTGGAGTTCCTCCCGTAAGTGCTTGGTTGGTGGCATCAACTCAGCCCTTTTGGACGCTGCTGCAGTTGTT
AACAGAGCAGCCCTGAATTTGGAGCCAGGAGACCTAAATTCTCTTTCTTCCACCGACGACACTTAACTCTTCCGAGCTTCCATTACCTCATTAGTGAAGT
GAGGATCAGGCTAACCACACCCAAGAATGATTGTGAGACTTCAGTGTGACTGCATGGCTAAAAAAATGGTATCTAAATCAGTTACACACATGTAATAGCC
ATCCGCTACTGAGTGTTTACTCTGTGTTTGATACTCCCTTATGTATTTATCTACATTTTAAGTATTTTACTTGGACCATGAGATAGATACTATTATTATC
CTTATTTTACTCTGAGGAAACTGAGGCCCAGAGAAGTTATGTAAACTCATGCCTAGGCAGCTGGCTGTAGTGTGCATCCTCTTAACTGCTACACAGCACT
GCGCGGGAAGTAGTTAAGGGAGCAGAGAGGCACAGGTCTGGACCTAGGAGCCTCCAGGAAGTTCCAAAGAGCTGGCACAGCCTCCAAGTGCTGTGGTTCC
AGCCCTCATTTTTGGCTTTTGGGTCCCATTACAGGGAAAGAACATCAGGGGGTCCAGAGGCAGCCGACTTCTCTGACCAGCTGTCGTTAGGAAGCAGCAG
RGTCCCTCGGTGTGGGCAAGGGACTCTGCTGGCTCAGGCCTGCCAGGACCTCCCCAGCATCCGCAACTGCTACCTGACTCATTGCTCGCCAGCCCGAGCC
AGTCTGCTGGCCTCCCAGGCTCTGCACCGAGGGGAGCTACAGCGAGTCCCAACCCTGCTACTGCCCATGCCTACGGAGCCGCTGCTGCCCACCGACTGGC
CCTTCCTGCCACTGATTSGCCTCTACCACCGGGCTTCAGACACCCCCTCGGGACTCTCTCCCACAGACACCATGGGCACAGCCATGCGGGTCCTGCAGTG
GGTGCTAGTTTTGGAGAGCTGGCGCCCCCAGGCTCTCTGGGCTGTGCCCCCTGCTGCCCGCCTGGCACGGCTCATGTGTGTGTTCCTGGTGGACAGTGAG
CTGTTCCGGGAGTCCCCAGTACAGCATCTGGTGGCAGCCCTCCTCGCCCAGCTCTGTCAGCCTCAAGTCTTGCCAAACCTCAACCTGGACTGCCGACTCC
CTGGCCTGACGTCTTTCCCTGACCTCTATGCCAACTTCCTGGATCATTTTGAGGCTGTCTCTTTTGGGGACCACCTCTTTGGGGCCCTGGTCCTCCTGCC
CCTGCAGCGTCGGTTCAGTGTCACCTTGCGCCTTGCCCTCTTTGGGGAACACGTGGGAGCCTTGCGAGCTCTGAGCCTGCCTCTGACCCAGGTACTTTCT
CAGCCCAGCAGGACCTGCAAGGGTACCCTGCACTGGGCCTCGGGGGCAGTCCTGAGCCTTGAGGAGCTTTGGAAGACCTCAGCTTCCTCATCTTACCTCT
TGGGGGCTTTGAGGGGATTAAGAGAATCAATGAAAAGGGCTTAACATGGGCTGGGTGTGGTGGCTCACGCCTGTAATTCCATCACTCTGGGAAGCTGAGG
TGGGTGGATCACTTAAGGTCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAAACCCCATTTCTACTAAAAATACAAAACTTAGCTGGGCGTGGTTGCG
GGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTSAACCCGGGAAGCGGAGGCTACAGTGAGCCGAGATCGCGCCACTGCACCCC
AGCCCAGTGACAGAGCAAGACCCTGTCTCAAAAAAGAAAAAAGGAAAGGGTTTAACCTGGTGTCTGGCATATAGTGGGTATTCATTACTATTAATAAGGC
ATAGCTCCTTGCTTATCAGTGCTACAATCTAGATAAGAAGAGATTTACTGAAAACCTACATAGTTGTGAATTATTCAGATGCTAGGTGGTATCAGGATTC
AGAGAAGGGAAAGATCAAATTGGGCTTTGTGGAAGAAGTGGGGATTGACCCAGGCACTGTAGGTTGGGTAGAATTTGAATTGGTGAGGAGGTAGAAAGGC
AGGAGATTCCTAACAGAATAACATAAGCAAAAGGAGCATGACAAAGGGCAGAAGGAGGGAGGAGAGATTTCTGTTGGGAACTTAAGGCTAAAAATAAGAA
GTGAAGTCTGAGAGGGCCTCAAATATTAGGCTAAGGACTTAAATTTATAAGCTGTAAAGAGTTACTATGTTTGCCAGGTGCGGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCATTTGAGGTCAAGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCGTCTCTACTAAAAAAAAATA
CAAAAAATTAGCCGGGTGTCGTGGTGCATGCCTGTAATCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCCAT
GAGCCGAGATCATACCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAGAAAAATAAAAAAGAGTTACTGTGTTATGGCTGCGTG
AGGTGGCTCATGCCTGTAATCCAACATTTTGGGAGGCCAAGGTGGGAGGATTGCTTGAGGCCAAGAGTTTCTGACCAGCTTGGGCAAGAAAGCTAGACAC
CATCTCTACAAAAAATTATTSGAAAATTAGCCAGACCTGGTGATTTGCCCGTAGACCCAGTTACTCAGGAGCCTGAGGCAGGAGGATCACTTGAGCTCAG
GAGGTTGAGGCTGCCAGTGAGCTATGATCACACCACTGCATTCCAGACTTGGAAATAGAACGAGACTCTATTAAAAAAAGAAGTTATTGTATTTTGTTTT
TTGTTTTTAAGATTTTGGGTTTTTGTTTTTGTTTTTGAGACAGAGTCTCGCTCTGTTGCTCAGGCTAGAGTGCAGTGGCCTGATGATCTTGGTTCACTGC
AACCTCTAGCTCCCAGGTTCAAGCGATTCTCCTGCCTCAACCTCCTGAGTAGCTGGGATTACAGGCACACAGCACCATGCCTGGCTAATTTTTTTTTTTT
TTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGCTCGGCTCACTGCAACCTCCGCCCCTGGGTTCAAGCGACTCCCCTGCTTCA
GCCTCCCAAGTAGCTGGGACTACAAGCACCCACCACCATGTCCAGCTAATTTTTGTATTTTCGGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTC
TTGAATTCCTAATTTCGTGTGATCCGCCTGCCTCAGCCTCCCAAGTGCTGAGATTACAGGCGTGGCCCACTACACATGGCCAATTTCATGCTTTTTAATG
GCTGCTTCTCAGTTCCCAGTTTTCCCCAACATCTGCTCTGTAGTCTTTAACCCTGATCCTTGTGCTAGAAGGACAGATGTTTGTCTAGGACCTGATCTCT
GCCCTCATGATTTGGTTTCATGTGATCGTTATCCACACACSTTATGTATGTATATACATTCCTACCCTCCCCCTCAGCACGTCATTTCCCCTGTCACAGT
TGCCTGTGTCCCTGGAGTGTTACACAGTGCCTCCTGAAGACAACCTGGCCCTCCTTCAGCTCTACTTCCGGACCCTGGTTACTGGTGCGCTCCGCCCACG
TTGGTGCCCCGTGCTCTATGCTGTGGCTGTGGCTCATGTCAATAGCTTCATCTTCTCTCAGGACCCACAGAGCTCAGTAAGTTACATCTCCATCTTCAGA
GGAAGGAAGGGAGCTAGCAATTGAGCTGCCTCTGGGCCAGCTGGGGAAGAGGTAAGTGTCAAGCAAGGCCAGTGGTGGGTACCAGCCCTCGGCTCAGTGC
CACCTCTCCCTGTTCTGCTTCTAGGATGAGGTCAAAGCTGCCCGCAGGAGTATGCTGCAGAAAACATGGCTGCTGGCAGATGAGGTAGGGTCAGGGCCAT
TAGGAGGGTGGGATATTAGAGGATCTTGGGGGACAGAGACCACAACAGGATCTCATTACCCACTTCATAAGTTTTCTTTCCTTTCTGCAGGGTCTCCGGC
AGCACCTCCTGCACTATAAGCTTCCCAATTCCACGCTCCCAGAGGGCTTTGAGCTCTATTCTCAGTTGCCCCCTCTGCGTCAGCACTACCTCCAGAGACT
GACTTCAACAGTGCTCCAAAATGGGGTATCAGAGACCTAGGATAGTTGATATAGATGGAAAGATGGGTACGTTGTCCTGTATCCAGCCTTTCAACAGATG
TCTGGCCAGACGAAGAACATTGTGTCCTAATGGTAGGCAGGAGACCAAGGAGCAGAAGGCTTGCCTTCCTGGGAGCAGGTTGTTTGAGCTGTTTTAGAGC
AGTGAGCCCTACCATTACATCCTGATATCTGGGGCTTCTGAAGGTCTGTGCTGGGAGTGAAGAGTGGCTTAGCTATTTACCCGCTCTTTGGGGACAGGGC
AAACTAAATGCATCCCTTCTTACCTAACTCCCAACCCCTGCCCTGGGCTGAGGCATATGAATGCTATAGTTGTGCATTAAAATAAATGTTTTTTATCTCC
TGGAAATTTGATCTGGACTGATTTCAGCCATGTTAGTTCAGGGTTAGTATCTGGGGGTGGGTTATCCCAGGTGAGGAGCAGGACTGCTGTGAGAGAGATG
GGGAAGAATCATAAGTGGGAGGTAAAAACTTTGTCCACATCTGGAGACAACAAGAATGTGGGGCCTGCCAGGCACAGTGGTACACACCTGTAGTCCCAAC
TACTTGGGAGGCTGAGGCAGGATGATCACTTGATTCCAGGAATTCAATTCCAGCCTAGCCAACATAGTGAGACCCCATGTCTGTCTGTCTGTCTGTCGGT
CGGTCTGTCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATTTCTGAGACAGGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCG
TGATCATAGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGCCATTCTCCCACCTCAGCCTCCTGAGTGGCTGGGACCACAGGCAAGTGCCACCACGCCTG
GCTAATTTTTTGTATTTGTAGAGACGGAGTTTCACCATGTTGCCCAGGTTGGTCTTGAATTCCTGAGCTCAAGCAATCCACCCACCTCAGACTCCCAAAG
TGCTAAGATTACAGGCATGAGCCGCTACACTTGGCCTATTTTGGTAGTTTCTACATTGTTCTTTGGTCTGAATTCTAAACTTTAGGCTTTCTTAGACTGT
CTTTTGCTGTGTGGATTACTTATTGTGTTTGCAAGTAACCAGAGTCAGAGCAGTGTGCCAAGGCCTAGCCCTGTCAGTAGGTAGAGAGAACCCAGTCTTC
ATAAATGGAGCTGCTGAACACAGAATTATCCAATAGGTTTTTTTGGGTTTTTTTTTTTTTTTTTTTGACACGAAGTCTTGCTCTGTTGCCCAGGCTGGAG
TGCAGTGGGGCAATCTCAGCTCACCACAACCTCCCCCTCCCTAGTTCAAGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCGTGCC
ACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTCGAACTCCTGACCTCATGATCCGCCCA
CCTCAGCCTTCAAAAGTGCTGGTATTACAGGCATGAGCCACTGGGCCCAGCCTTTTTTTCTTTTTTTTTTTTGAGACAGAGTCTTACTCTGTAGCCCAAG
CCAGAGTGTAGTGGCATGATCTTGGCTCACTGCAACCTCCGTTTCTGAGGCTCAAGTGATTCTCATGCCTCAGCCTCCCGAGTAGCAGGGGCTACAGGCA
TGCACCACCACACCCGGCTAGTTTTTTGTATTTTTATTAGAAGCGGTGTTTTGCCATGTTGCCCAGGGTGGTCTCAGACTCCTAAGCTCAGGCAATCCGC
CCACCTCAGCCTCCTAAAGTGCTGGGATTATAAGTGTGAGCCACAGCATGTGGCCCCAATAGGTTTTATTAAGCAACTACTGTATCAGCAAATACCAATG
ATTCTCAAACTTTGTGACAAAAATCATCTGGAGGATATTTTAAAACAGATCACTGGGTCCTACCACCAGAAGCTGCTGATTCAGTACATCTGGGGTGAAA
CCCAAGAATCTGCATTTCTAACAAGTTCCCAGGTAATACTGATGCTGATGTTCAGAACAAACCACACAACCACAATTTGAAGAGCAGTGGCTTAAAGAGA
CTTTGCAAGGTAAATTCTGTGATCTCATAGTGTGATATCTAGTGTTAAGTAGGGCATAGAGACCAGGGTTTTTTTGTTTTTTGTTTTTTTTGAGATGGAG
TCTCACTCTGTCACCCAGGCTGGAGTGTAGTGGTGCAATCTCGGCTCACTGCAACCTCTGCCTTCCAGGTTCAAGCAATTCTCTGCCTCAGCCTCCCAAG
TAGCTGGGATTACAGGCACCTGCCACCACGCACGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTAGCCAGGCTGGTCTTGAACTCCT
GACCTTGTGATCCACCCCACCCCCACCGTCCCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTAAGCCACCACGCCTGGCTGAGACCAGACTTTTTAC
AAAATCACTGTTCTGTTTACACCTTGAATTAGACTTTACCAAGTAGCTAACTACTATAACTTCTCTTTTGAAGTATTTTGTATTAAACATAGGTCTCAGA
CTTTCAAGTTAGGATTTTTTTTTTTTTTTTTTTTTTGAGATGGGGCTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCGTCTCTGCAACC
TCTGCCTCCCAGGTTCAAGCCATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGCGTGCGCTACCACGTGTGTCTGATTTTGTATTTTTAGTA
GAGACGGGATTTTGCCATGATGGTCTAGCTAGTCTCGAACTCCTGACCTCAGGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGCATGA
ACCACCGCACCCGGCAAATGATCATTTAAGCAAATGATCGAAGACTCAAGACACAAAACTACCTGAAGGGAGTGGCTCCCACATTTGTAGGGTACCTTAC
AGAGCAATTTCCCTTCATATGATTTTGCAGGTGGTGGGGAAACTCTCAGGGCAGTTGTGGCCTGTGCTACATCACCCATTGACCAGAGGTGCCAGTACTA
GTGCTCAAGATCAATCGATCGATCGGTCTACCTACCTATCATCTATTGACCTTCAGTGCTACTAAAAACACTCGGATCTTCTAACGTCTGGTCCAGTCTT
TCACCCCATCACAGTGAGAGGCTGTGCACAGGGGTAACACAGGCAACGGAATTATATGAGGCAAACACAGAGATCCAGGTTTCTGGGAGTAGCAATGAGG
TTCAGCCTTGCAGTCACAAAGGCACCACTAAAAGGCACAAGTAATGGCAGGTAATGAGGCCTTACTTGGAGCAGTTTAGAGTACTTCCCACGTGTGGTGA
CGCATGCCACACACTCACCACCACCACCACTGCCACAAATGAAGTGCACACTCCACTGCTCCTGTCCTCAGGAACCTGGAAGCCCCCACCTGGTGTCCGA
GGTGTGGCTCCCACTTTAAGCGTGGGGCACCTCCTCTCCGGCCTCAAACCTACCCGAGCTCCCAGCAGGCTGCGGCACATCTGACGGCTGGAAACTAGAA
CCCCTGGGTGGGGACTCCTTAAGGCTCCTCCCGGAAGCGTAGGGACCTCGCTGCCCACACGCCCCTCCCTTTCCTCCTCTGGCGTCCTGGGGTCTGAGGT
GGGCGTGGCCAGACCAGCTTTAGGTCCGGGGAGTGTCTCGCCAGCGGCAGCACACCCCTGTAAGTGGTGGCCAGGGCTGCCGTGGCAAAATGAGCTGTCA
ACTTTAGGTTGACAGGGGTGTGGCCGCGACCGCAAGGGCTTTTGTTGCCGGGTGGACCCAACAGGGATGGGCTGCTGGGGACAGCTGCTGGTGTGGTTCG
GAGCCGCGGGTAAGTGCTATCTGGCGGTCAGGGGACCGTCCAGCCTGAGGCACTTTCCTAGGCTTGGGGGTGGCCGGTCAACAGGCCAGGTGTCAGTGGT
TCCTCCAGAGGCCTCGAACTCTCACAGCCAAATTTCTCCGGTCCGTGCTTCTGGAGTGCGGGCCGAGAAGCGCCAAGTGCGTGCGAATCCCAGAGTCTGG
ATCACGCAGCTTGGGAAGGAGGAACATTCTTTGGGGTCTCAGCACCGCCTTGGGGCGGGGCCACCAATCTAAGTTGAGGAAAGCATTGGGGAGGCTGCAG
GACCAAATTCATTGCGGCCCCTAAGTTATTCACTGGGAAAGGCGCTCGAGGAGAGAAACTGGCAGACCTATCAGCGCGCACCCGCGGGGCTTCTGCGACC
GGAGTCGGGTAGTGGCTTCCAGGCTGAGAGCGCGGCTGGGCCGGGTGACGGGTGTGGCCGCGACCGCAAGGGCAGCTGTTGCGGGGTTCTCTCTTTCTTT
CATATCCTATTTCCACCCGCCTTAACGTCCTGCGCCTTCTCCCAACACCTTTCAGGCGCCATTCTCTGCTCTAGCCCGGGGTCCCAGGAGACTTTTCTGC
GGTCCTCGCCCCTGCCGCTGGCAAGTCCCAGCCCCCGGGACCCGAAAGTCAGCGCCCCGCCTAGTATCTTGGAGCCAGCCTCCCCGCTGAATTCTCCGGG
TGAGCTTTAGACGCCTCCTTCCTCTTTCGCTCACCATACCAGACCCCTCTGGCCCAGCTAGGGGCTCGACGACCCTTGCCTCGCTCCTTGCTCTCAGGCA
CCGAGGGGTCTTGGCTGTTTTCTACCTGCGGGGCCAGCGGCCGGCATGGGCCCACACAGACACAATGTGACGGGGCGTACGCGGGGACCAGCGTGGTGGT
GACCGTGGGGGCCGCCGGGCAGCTGAGAGGCGTGCAGCTGTGGCGCGTGCCGGGCCCTGGCCAGTATCTGTAAGTGCACGGCGGAGGTAGGGTGGACAGT
GACCTGCTAGTTGGAGGTTTCACCCTCAGGGTAACGAAGTCCACGTGCGCACCGACTTGCGTCTTGGACTATTCCGCGGGGAGGTCCACCTTGAGTGCCC
TTCAAGGTGGCAGTAGTCGCCACCGAGTTAGCCCTTACCCGGAACCTCTTACACCGAGCGGAAGGCCCCCAACCAGGGCGGCGCCAAGGGGTGCTTGAGC
CTCCCCACATTTCCACGAACCCTCCTGAAATAAGTGTAATATCTGATTTTTCGGTGTGCAAACCTACCCTTCCCATCCCGTCAGAGTCGATTGCAGCCTC
CAAGTCCCTCAGATAAAAAATAATTCTGGAGCCTCCTCTGTCGCCAACTTCTGCCCGGAGCGGCCGGCCTGAGCACCGAAGGCCGGGGACTCACCGTCCG
TTCCCCGCAGGATCTCAGCCTACGGAGCCGCGGGCGGCAAAGGCGCCAAGAACCACCTGTCGCGGGCGCATGGCGTCTTCGTCTCAGCAATCTTCTCCCT
CGGTCTCGGGGAGTCGCTGTACATCCTGGTGGGGCAGCAGGGAGAGGACGCCTGTCCCGGAGTGAGCGCAGCCAGTGGGGATGGGGCGGCGCCGGCGCCG
GGGGCGAGGGCTGCCTGGGGGCCGGGGGAGCGTGCTTTCCTCGGTGCCGGGTCACCAGCACAGCGAGGGGAGGCTCCCGGGCCCCGCCGATTCCCTCCCC
CGCTGCCCGCAGGGTAGCCCGGAGAGCCAGCTCGTCTGCCTCGGGGAGTCTCGAGCCGTTGAAGAGCACGCGGCGATGGATGGGAGCGAAGGGGTCCCGG
GGTCGCGGCGCTGGGCGGGAGGTGGCGGGGGTGGCGGGGGCGCCACCTACGTTTTCCGGGTACGTGCTCCCTTCGGCGCTCAGCGTTGGGGTCCCAATCC
TCTCCCCAGGGGCGCTCACGCACCGGCTCTCCGTCCGTCCCTTGGGGTCCCCCTATCCCTGCGCTGGGCTGGGCTGGCCTGGGCTGGGCTGGGGGCCCCT
GCCCTTATCCAGGCCCCCTGGGCGGGAGCCCTCTCCCAGTGGCAGTGCCCCTGGACAGCTGGAGGGCGCTTCCTGGAACACGCCGCTGGCCCCACAGGTG
CGCGCTGGCGAGCTGGAACCGTTGCTGGTGGCGGCCGGAGGCGGCGGTCGGGCCTACCTGAGGCCGCGGGACCGAGGCCGGACTCAGGCCTCCCCCGAGA
AACTGGAGAACCGCTCGGAGGCGCCCGGGAGCGGCGGGAGAGGCGGGGCGGCAGGTGAGGGCGCGGGCCGCGGGGAGAGGCGGGCGTGCTCCCCGTGTGG
CTGCCAACCTTCCTGCTGTCGCTCTGCAGGTGGTGGGGGCGGCTGGACGTCGCGGGCTCCCTCTCCGCAGGCCGGCCGCTCACTGCAGGAGGGGGCGGAG
GGCGGCCAGGGCTGCTCCGAGGCTTGGGCGACCCTTGGCTGGGCCGCGGCCGGCGGCTTCGGGGGCGGCGGCGGGGCCTGCACTGCGGGCGGAGGCGGCG
GCGG


SNP Information

Context             (SEQ ID NO:66543):
TCCTCAGGTCTCCTGCTGGTTGTTCCTGAGAGTTTTATCACCTATAGATTGTAAACAACCTAAGTTGGCTATAAATATTGTTGCTAGGCTGATGACATCA
S
GGAGGGCTGAAGACAGAGGGAATGGCAGTAAGGTATGAATGAGGAGGAATGAGTTCATGTTAACCCAAGGATAAAGAAGATCTTCGCTGTTGCCCAATAA
Celera SNP ID:            hCV26633702
SNP Position Genomic:     12910
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(C,6|G,22)   total(C,7|G,53)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66544):
GGCGTGAGCCACCGCATCCGGCCAATGCAATTGTTTTCTTAATTCCATTTTCTGCATGTTCTTTGCTAGTGCATAGACATACAATTTTTTTTTTTTTTTT
T
GAGACGGAGTTTTACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCAATCTCGGCTCACAGCAACCTCCATCTCCCAGGTTCAAGCGATTCTCCTGTCTC
Celera SNP ID:            hCV26633703
SNP Position Genomic:     12378
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,6)   total(T,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66545):
AAAAATTAGCTGAGTGTGGTGGTGCATCTGTAGTCCTAGCTTTTTGGGAGACTGAGGTGGGAGGACGGCTTAAGCCCAGGAGGTAGAGGTTGCAGTGAGC
Y
AAGATCACGCTACTGCACTCCAGCCTGGGTGACAGAGCCAGACTCTGTCACAATAAATTAATAAAGTTTACAATTCATGGCTTTTAGTATATTCACAAGG
Celera SNP ID:            hCV26633704
SNP Position Genomic:     11082
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66546):
GCATTTCACCGTGTTAGCCAGGATGGTCTCGATCTTCTGACCTCGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAGCAC
R
CCCGGCCTTCATTCAGCACTATTGTTAGTTCCAGCTATCTAGCTTGTCTACCTCTCCATCTCATCCTCCTTCAACTTTTAGGAGGTGGTCAACTTCATCA
Celera SNP ID:            hCV26633705
SNP Position Genomic:     8686
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66547):
CCATATTCTCTCACCCCAACTTTGGGTACATCATTGACCAAAGGAAGACCTTTACAATCTTGGAGACATCATTTAAACTGTAAACCTTTGGAATTTCTAG
R
CTTGTGTGGGCAAAGAGAGATAATGAAGTGGGAAATTATTAAAAGACCCAGCATTTCGGCATGGTCTCTGTCTCCCCAGTAAGCCCCTTGAACCCAGGGA
Celera SNP ID:            hCV26633706
SNP Position Genomic:     8052
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66548):
CTTCCCTTTTAATTCCTACCCTTCCTCCTCTTTCTACCTCCATATCCCCGTGGAGCTTCCCAGGAGCCATGTTGGTGGGGACCAGAGAGCCCACGCAGCA
S
CTCAGCCTTCCTGTAGCCTGTGTGCTCCCTCTTTATGCCCCCTACACATCGGGGCCTTCTCTCCCTTCAGAAGGCTCAGCCTGCAGAAGCCTCCAAATGT
Celera SNP ID:            hCV25982803
SNP Position Genomic:     26726
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,29)   caucasian(G,2)   total(C,1|G,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:66549):
GTTTATAGCCAGGACCCACAGGACAGGTGGAGGGCTCCTCCACAGGGCTGGGGTGGCTGGAGTGTAAAGGGGCGTGAGGCAGCCAGATCCTCACTGTGGC
M
CCCTTTGGCACTTTTGTAGTGATTCTGCTGAGGCCAGCCTCTCGGCCACCCCTTCCTTAGTCACTTGGACACAGGTGTCTGGGCTCCAGCCTCTTGTTGA
Celera SNP ID:            hCV2758510
SNP Position Genomic:     26290
SNP Source:               Applera
Population(Allele,Count): african american(A,8|C,12)   total(A,8|C,12)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;(C,-|A,-)   JBIC-allele(C,584|A,885)   total(A,885|C,584)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66550):
GACTTTGTGGCACCAGAGGGGCCTGGGTCAGGGTTGAGTTAAGCCACTCTCTGTCCAGCTGAGAGTAGCTGGACTTGAGACTCACAGCTGACCCTGATCC
Y
CAGACTGTGCCCATTTCCAGTTGAGCAGCTTTGATCTCCGGAGCCGCCTGTGCCGCATCATAGCTGAGGCTCCCCAAGAACTGGCCTTGCCCCCAGAGGA
Celera SNP ID:            hCV2758511
SNP Position Genomic:     25113
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,12)   caucasian(C,1|T,1)   total(C,17|T,13)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;JBIC-allele(C,524|T,969)   total(C,524|T,969)
SNP Type:                 INTRON


Context             (SEQ ID NO:66551):
CAGTTCGACACCAGCCTGGCCAACATAATGAAACCCCGTCTCTACTAAAAATACAAAAATTAGTCGGGCATGGTGGCGCATGCCTGTAGTCCCAGCTACT
Y
GGGAGGCTGAGGCAGGAGAGTCTCTTGAACCTGGGAGACAGAAGTTGTGGTGAGCCAAGATCACTCCACTGCACTCCAGCCAGGGCAACAGAGCAAGACT
Celera SNP ID:            hCV2758512
SNP Position Genomic:     24818
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66552):
CAACTCAGACCGGCCTCCGCTCCAGGACCATCGGGATGTGGTGATGTTGGACAGTGAGTTCCCATGGATGTGAGGCTGAGAAGTAGAGAGGGTACAGCCT
Y
GGGCCCCTCCCTCTTCCTGTTGTGGTTGGATTCAGACACATCATTATTATTTCAGACACTGCATAGCCTGTGTTTCTGCAGCCCCATTTTACAGAGGAAG
Celera SNP ID:            hCV25982954
SNP Position Genomic:     13365
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   total(C,27|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66553):
GTGGTGCATGCCGGTAGTCCCAGTTACTTGGGAGGCTGAGGCGGGAGGATTGCTTGAGCCCAGGAGTTTGAGGCTGTGGTGAGCTACGATTGTGCCACTG
Y
ACTCCAGCATGGGTAACAGAGCAAGACCCTATCTCTTTAAAAATATATATTTACAGCCTGAGCAACATGGTAAAACCCCGTCTCTAGTAAAAATACAAAA
Celera SNP ID:            hCV11305224
SNP Position Genomic:     18373
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66554):
CTGGGTGGCCAGCTCTTGCCATCTTCTTCCTCTCTGATCCAGTTGCTTAGAAATGCAACAGAAATCACCAGGCATGAACCTGTTTACTGGAGCCTGTTTA
Y
TGGAGCCTGGTGCATCATATAGGTATACTGTGGTCTCATGATGTAATAGGAGGTCTCCCTGTTCCCTAGACCCAGATCAGAAGGGCTTCATGCACATAGG
Celera SNP ID:            hCV2758513
SNP Position Genomic:     23563
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,9)      total(C,9|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66555):
GTACACAGGGTCTAGGAGAATGAATGGCTGGGCCATCAGCTCAGTGAATTCCTTGGTCCACCAGCCAAGCTCATGCCCGGAGGATTGGCTCCAGGACATG
S
AGCGCCTGTCAGAGGAGCTGCTGCTGCCACTGCTGAGTCAGCCCACACTGGGCAGCCTGTGGGATTCCCTTAGGTATGTACTGTGTTTGGTAGCTGGGGG
Celera SNP ID:            hCV25985644
SNP Position Genomic:     26964
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,29)   caucasian(G,2)   total(C,1|G,31)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66556):
TGACATCCTGGCTGTGCTCATCCGCCTGGCCCGGCATTCCCTGGAATCAGCCACAAGGGTGAGAAAAAAGGGAGCAGGGAATGGGCAAAAAGCCTAGCTG
R
GCCTTGTCTTGACCCACAGCCTCCCTTCCTCCCTTTTACCTCCTGTCTCCCATAGGTCCTGGAGTGCCCTCGGCTGATAGAGACTATAGTTCGAGAGTTC
Celera SNP ID:            hCV2758515
SNP Position Genomic:     23158
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,19|G,19)   total(A,19|G,27)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,11)      total(G,11|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66557):
GCGCTACGTGCTGGAGGTGACATACCCAGGACCTGCGGTGGTCCTTGACATCCTGGCTGTGCTCATCCGCCTGGCCCGGCATTCCCTGGAATCAGCCACA
R
GGGTGAGAAAAAAGGGAGCAGGGAATGGGCAAAAAGCCTAGCTGGGCCTTGTCTTGACCCACAGCCTCCCTTCCTCCCTTTTACCTCCTGTCTCCCATAG
Celera SNP ID:            hCV2758516
SNP Position Genomic:     23113
SNP Source:               Applera
Population(Allele,Count): african american(A,8)   caucasian(A,33|G,5)   total(A,41|G,5)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,15)   total(G,1|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66558):
CTGGAGATGAGGTACCACAGGGATAGGAATGGGGCTTGGGCTGGGAGGTGCCAGGGTCCATATTCCTGTTTCTGGGCATGGCCCCATTGCTAAGGCTTTG
Y
GGGCAAGATGTAGAATGGGATGGCAGGCGTCTCCCTCATCTCCTAAAGTCCCTAAAGCCCAGGAGGCTTGCCTTTATGGTTTTTATTGGGGAGCATCCTC
Celera SNP ID:            hCV2758517
SNP Position Genomic:     22512
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66559):
GGCTCTGCACCGAGGGGAGCTACAGCGAGTCCCAACCCTGCTACTGCCCATGCCTACGGAGCCGCTGCTGCCCACCGACTGGCCCTTCCTGCCACTGATT
S
GCCTCTACCACCGGGCTTCAGACACCCCCTCGGGACTCTCTCCCACAGACACCATGGGCACAGCCATGCGGGTCCTGCAGTGGGTGCTAGTTTTGGAGAG
Celera SNP ID:            hCV29187216
SNP Position Genomic:     29418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66560):
TCCGTGCTCTTCGGGCTCTGCTGGTGGCTCCTGGAGATGAGGTACCACAGGGATAGGAATGGGGCTTGGGCTGGGAGGTGCCAGGGTCCATATTCCTGTT
Y
CTGGGCATGGCCCCATTGCTAAGGCTTTGCGGGCAAGATGTAGAATGGGATGGCAGGCGTCTCCCTCATCTCCTAAAGTCCCTAAAGCCCAGGAGGCTTG
Celera SNP ID:            hCV2758518
SNP Position Genomic:     22482
SNP Source:               Celera
Population(Allele,Count): no_pop(T,7|C,7)   total(C,7|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66561):
GGCAAACGAAGGATTAGGGCAAAGCCTCTAGATAACTTCAGCATCTTCAGCAAGGTTTTACCCTCCTGCCCTCAGGCCCAGGCTGGTGAGTTTGGGGACC
R
GCTAGCAGGCAGTGTCTTAAGCCTCCTTTTGGATGCTGGTTTCCTCTTCCTACTGCGCTTCTCCTTGGATGACAGAGTGGATGGGGTCATTGCAACCGCC
Celera SNP ID:            hCV2758519
SNP Position Genomic:     22280
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,26)   caucasian(G,2)   total(A,2|G,28)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,14)      total(G,14|A,2) ;no_pop(G,-|A,-)   JBIC-allele(A,314|G,1179)   total(G,1179|A,314) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66562):
GAAGATCTTCGCTGTTGCCCAATAAAGAGAATCAGGGTTCAGTTGCAGAGGGCCCATATTCTTTCTTGCTCTTAGGGATGAATAAGAGGGAACCCCCACA
Y
GGAGACACTGCTGGAGAGAGTCGTACTGGGGAGGCAGCTGGAGCAGCAAGATGCTGTCGAGACCGAAGCCAGGGGAGTCCGAGGTGGACCTGCTGCACTT
Celera SNP ID:            hCV27840398
SNP Position Genomic:     13086
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,39|T,1)   total(C,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:66563):
ATTAAAAGACCCAGCATTTCGGCATGGTCTCTGTCTCCCCAGTAAGCCCCTTGAACCCAGGGACTGGATTTTACTCCCATTTCTTTATATTTACAGCCCC
Y
TGTACACCGCTCAGCCCAGAGTAAACTCTCAAAAAATTTTTTGATAATGTTCTTAAGGTCACACCGTCATGTGATTGTTTCACCATTTCTACCCCTTTAG
Celera SNP ID:            hCV29187217
SNP Position Genomic:     8190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66564):
CTGCCATTCCATGTCTCTCGGGGCTGCTGTGCTGATTTCTTCTGGCCCAGCTCAGGCCATGCCTTGCCTCCAGAAGTTTCCCAGCTTCCCTCTGCTCACA
R
AATAAGGTTCTGGTCTCAGCTGGGCAAGATATTCCTTCTACCTTTTGTCCCTGCTGACCCTGCTGCTCTGCCTCCTTCACTTCCTGCTACACCACTCTGC
Celera SNP ID:            hCV8869747
SNP Position Genomic:     21469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66565):
CATTCAGTTTCTTAGGCTCAAAATCTTGATCCTCTCTCCGTATTCTGGTCAGTTGCTAGAATTTGCCGATCTTCTGTCACCTCCTCATGATGCCTCCTGC
R
CTGTGGCCTTGCTTCCTTGGTCTGCTCACTCTCCATGCCCTCCATTCTCCGCCCCCCTGCCATTCCATGTCTCTCGGGGCTGCTGTGCTGATTTCTTCTG
Celera SNP ID:            hCV8869748
SNP Position Genomic:     21312
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66566):
GTTGTGATCCCTGGAAATTGAGCAAATCCCCTTTTATCTCTTTGTTCCAGAGGCCTTGATATAAAGAGGTTGAGAGGAAAGTGGGATGATGAGCATCAGT
R
ACCTGGGTTTTCTTTTTGCCCCACAGGGGAAATCAGCAACATCTGGTAAGAGAAGCATCTTTGCCCAGGAAATTGCGGCAAGGAGGATAGCTGAAGCCAA
Celera SNP ID:            hCV25985759
SNP Position Genomic:     14603
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,1)   caucasian(A,2)   total(A,27|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66567):
TGAAAGGCCTGGGATTAAAGGTGGGGAGTGGGTGTGGGAAGGTTGCTGGAGCCCCCAGACCACAGTCCTCTTTCTCTTCCCATTAGAGGATGCAGGCTCG
R
TTCAGTCTTCAGGGAGAACTACTGGCCCCTGACGTGGACCTGCCCACCCACCTGGGTCTGCACCACCATGGAGAGGAGGCAGAGGTGAGGCATGGGACTG
Celera SNP ID:            hCV8869749
SNP Position Genomic:     20728
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,17)   caucasian(A,1|G,1)   total(A,14|G,18)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,526|A,971)   total(G,526|A,971)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66568):
AAGATGTTCTAGGGCAACAGGGATATTGGATGCTCGGGGTGGGTGAGGCTTATCAGTGGAGGGTGCTTCAGAAAGGTAGACTTTTACCCCTGAGGTCAGG
W
TGGGGGCTGGGTTAGAATCACTGCCCTGAAGGGAGGAGGGTCCGTAACCCCCCAGAGTGAGGTTCTCATCGTTCAGAACTGGGCTAATAGGATCGGGTCC
Celera SNP ID:            hCV16186524
SNP Position Genomic:     13889
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,26)   caucasian(T,2)   total(A,2|T,28)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)   JBIC-allele(A,208|T,1283)   total(A,208|T,1283) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66569):
AACCTGGGTTTTCTTTTTGCCCCACAGGGGAAATCAGCAACATCTGGTAAGAGAAGCATCTTTGCCCAGGAAATTGCGGCAAGGAGGATAGCTGAAGCCA
W
GGGCCCATCAGTTGGGGAAGTTGTGCCCAACGTGGGCCCACCAGAGGGTGAGCCGGGGTTGAAGAGGATTGGGCTTGGCCTTTTTAAAAGACACAATCAT
Celera SNP ID:            hCV16186525
SNP Position Genomic:     14703
SNP Source:               Applera
Population(Allele,Count): african american(A,13|T,9)   caucasian(A,2)   total(A,15|T,9)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,20|A,1283)   total(A,1283|T,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66570):
TTCTTTCTTGCTCTTAGGGATGAATAAGAGGGAACCCCCACACGGAGACACTGCTGGAGAGAGTCGTACTGGGGAGGCAGCTGGAGCAGCAAGATGCTGT
Y
GAGACCGAAGCCAGGGGAGTCCGAGGTGGACCTGCTGCACTTCCAGAGTCAGTTTCTCGCAGCTGGTGCAGCCCCAGCAGTGCAGCTGGTGAAGAAAGGA
Celera SNP ID:            hCV25982095
SNP Position Genomic:     13144
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   total(C,27|T,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,32)   total(C,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66571):
GGCCCATCAGTTGGGGAAGTTGTGCCCAACGTGGGCCCACCAGAGGGTGAGCCGGGGTTGAAGAGGATTGGGCTTGGCCTTTTTAAAAGACACAATCATA
R
GGTCATTTTTGAAGATATGTCTTCCTGCCTCAAATGAGAGGTGCATTTGAGCCATCTCAAGTAGTCTGAGAATACTAGGTATGGGAGGCTTGGGTCCATA
Celera SNP ID:            hCV16186526
SNP Position Genomic:     14805
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,17)   caucasian(A,2)   total(A,13|G,17)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,555|A,934)   total(G,555|A,934) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66572):
AGCCCTCATTTTTGGCTTTTGGGTCCCATTACAGGGAAAGAACATCAGGGGGTCCAGAGGCAGCCGACTTCTCTGACCAGCTGTCGTTAGGAAGCAGCAG
R
GTCCCTCGGTGTGGGCAAGGGACTCTGCTGGCTCAGGCCTGCCAGGACCTCCCCAGCATCCGCAACTGCTACCTGACTCATTGCTCGCCAGCCCGAGCCA
Celera SNP ID:            hCV25985322
SNP Position Genomic:     29201
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,18)   caucasian(A,1|G,1)   total(A,9|G,19)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,643|G,842)   total(G,842|A,643)no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66573):
GCAGAATCTGACAAAGATCTTATGAACATGCCAGACCAGAAGCAGAGAGGCCAGTGGAAGCACTCATTTCCCAGAAACTAGATTATTTCATTAGTGATTA
W
CAAAATAAGAAATTGAATTATGAGAGCCAGGAACCTCATGCCCCCGGAGGAGCTCCAGGCCAGCTGAGCAGGTTGGGTGGGGGTAGGCGTGAAGGAGGAA
Celera SNP ID:            hCV2758520
SNP Position Genomic:     19755
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,1|A,59)   Chinese(T,8|A,8)   Japanese(T,6|A,34)   African(T,5|A,55)   (T,2|A,7)      total(A,7|T,2) ;(T,-|A,-)   (T,-|A,-)   Caucasian(T,1|A,59)   Caucasian, from CEPH families(T,13|A,303)   African-American(T,5|A,55)   Asians(T,14|A,42)   total(A,459|T,33)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66574):
TCCACCTTCACGGCTCAAGCAGTCCTCCCACTTCAGCCTCCTGTGTAGCTGGGATTATAGGCACACACCACCACACTCAGCTAATTTTTTTTTTTTTTTG
S
GGGGACAGAGTTTCACTCTTGTTGCCTAGGCTGGAATGCAATAGCACAATCTCGGCTCACCACAACCTCCGCCTCCCGGGTTCAAGAGATTCTCCTACCT
Celera SNP ID:            hCV2758523
SNP Position Genomic:     15842
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,10)   total(G,10|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66575):
TTTTTTTTTTTTTTTTGAGATGGTCTTGCTCTGTCACCCAGGCTGGAATGCAGTGGCACGATCTCGGCTCACTGCAACCTCCACCTTCACGGCTCAAGCA
R
TCCTCCCACTTCAGCCTCCTGTGTAGCTGGGATTATAGGCACACACCACCACACTCAGCTAATTTTTTTTTTTTTTTGGGGGGACAGAGTTTCACTCTTG
Celera SNP ID:            hCV2758524
SNP Position Genomic:     15763
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,8)   total(G,8|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66576):
CCTGGAATCAGCCACAAGGGTGAGAAAAAAGGGAGCAGGGAATGGGCAAAAAGCCTAGCTGGGCCTTGTCTTGACCCACAGCCTCCCTTCCTCCCTTTTA
Y
CTCCTGTCTCCCATAGGTCCTGGAGTGCCCTCGGCTGATAGAGACTATAGTTCGAGAGTTCTTGCCCACCAGTTGGTCTCCTGTGGGGGCAGGGCCTACC
Celera SNP ID:            hCV11305236
SNP Position Genomic:     23197
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,2)   caucasian(C,25|T,13)   total(C,31|T,15)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,13)      total(C,13|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66577):
CAGCAAGATGCTGTCGAGACCGAAGCCAGGGGAGTCCGAGGTGGACCTGCTGCACTTCCAGAGTCAGTTTCTCGCAGCTGGTGCAGCCCCAGCAGTGCAG
Y
TGGTGAAGAAAGGAAATAGGGGCGGTGGTGATGCCAACTCAGACCGGCCTCCGCTCCAGGACCATCGGGATGTGGTGATGTTGGACAGTGAGTTCCCATG
Celera SNP ID:            hCV2758527
SNP Position Genomic:     13230
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,15)   total(C,5|T,15)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,9|C,9)      total(C,9|T,9) ;(T,-|C,-)   Caucasian(T,36|C,42)   African-American(C,15|T,45)   Asians(T,21|C,39)   total(C,96|T,102)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66578):
TACAGGCACTGCTCCCTTCTCTGCAACCCGCTGTCCTGTGTGCCAGCCCTTGAAGCTCCCCCCAGCCTCGTGTCACTGGGCTGCTCGGGAGGCTGCCCCC
R
TCTCAGTCTGGCTGGCTCAGCCTCACCCTTCCCATTCCTCACTGCCCTCCTCTCTCTTCTTAATACCCTGGCCCAGATCCACAAGGGGCTGTGTGGCCAG
Celera SNP ID:            hCV25984282
SNP Position Genomic:     27417
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,24)   caucasian(G,2)   total(A,4|G,26)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66579):
AGACCGGCCTCCGCTCCAGGACCATCGGGATGTGGTGATGTTGGACAGTGAGTTCCCATGGATGTGAGGCTGAGAAGTAGAGAGGGTACAGCCTCGGGCC
S
CTCCCTCTTCCTGTTGTGGTTGGATTCAGACACATCATTATTATTTCAGACACTGCATAGCCTGTGTTTCTGCAGCCCCATTTTACAGAGGAAGAAAATG
Celera SNP ID:            hCV25982931
SNP Position Genomic:     13371
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,1)   total(C,27|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66580):
CCCAACAAATCCTTGGGGTCAGCAAGGGGCTGGAGCCCAGGATGGAGTGTGTCTGTCATATTTGAGACTTTCACCCCAGCCCCAGGAGTTCCAGTCCCTG
R
GCCATGCCATTTAGCCATAACCGAGGGTAGAAGCTGGCAGATCCTGGAACAGAAGTGGATGTGGCAGCTGCTGGGTGATGGTGGGGACCCCTGTGGATAG
Celera SNP ID:            hCV25983809
SNP Position Genomic:     20157
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,11)   caucasian(A,1|G,1)   total(A,10|G,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:66581):
GTGGCTCCTGGGGCTGCCCCACACCTCACACCTTTCTCTGCATGGGCCCTGCGCCATGAGTACCACCTGCAGTACCTGGCACTCGCTCTGGCCCAGAAAG
Y
GGTAGGTCCCCCTGTCTGACAGGTTCTCCTGTCATCCCATTATCTCCTTCCTGTTTCTGTGGAACCCAGCCTGCTTCTGCCAGGCCATGCAGCTCCCACT
Celera SNP ID:            hCV26633692
SNP Position Genomic:     28183
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;(T,-|C,-)   Caucasian(C,60|C,84)   African-American(C,60|C,84)   Asians(C,60|C,84)   total(C,432)   (C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66582):
GCAAGGGGCTGGAGCCCAGGATGGAGTGTGTCTGTCATATTTGAGACTTTCACCCCAGCCCCAGGAGTTCCAGTCCCTGGGCCATGCCATTTAGCCATAA
Y
CGAGGGTAGAAGCTGGCAGATCCTGGAACAGAAGTGGATGTGGCAGCTGCTGGGTGATGGTGGGGACCCCTGTGGATAGTGAGCTGAGCCGTTTGGGTAA
Celera SNP ID:            hCV25983771
SNP Position Genomic:     20178
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,10)   caucasian(C,1|T,1)   total(C,19|T,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:66583):
GTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCACTTGGGGCCAAGAGTTCAGGGGCCAGCCTGGACAACATAGCAAGACTC
Y
GTCTCTACAAAAAACAAAAACAAAAAATTAGCTAGATGTGGTAGCACATGACTGTAGTCTCAGCTACTCGGTAGGCTGAGGTAGAAGGATCACTTGAGCT
Celera SNP ID:            hCV26633695
SNP Position Genomic:     23841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66584):
AGGGAGGGCTGGGTGTAGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCACTTGGGGCCAAGAGTTCAGGGGCCAGCCTGG
M
CAACATAGCAAGACTCTGTCTCTACAAAAAACAAAAACAAAAAATTAGCTAGATGTGGTAGCACATGACTGTAGTCTCAGCTACTCGGTAGGCTGAGGTA
Celera SNP ID:            hCV26633696
SNP Position Genomic:     23824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66585):
ATTTGAATAATAGTAGTAACTGGCCCGTTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCAGAGGCGGGCAGATCACCTGAGGTCGGGAGTT
Y
GAGACCAGCCTGACCAACATGGAGAAACCCAGTCTCTACTAAAAATACAAAATTAGCTGGGCGTGGTGGCACATGCCTATAATCCCAGCTACTAGGGAGA
Celera SNP ID:            hCV2758530
SNP Position Genomic:     9738
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66586):
AAAAAATTACAGCCAGGTGTGGAGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACAAGATCAAGACATTGAGACCATCCTG
R
CCAACACGGTGAAATCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCACACGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAAGAA
Celera SNP ID:            hCV26633697
SNP Position Genomic:     18053
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66587):
GATACTGTTCTATGCTATGCCTCACCCCTAGTGTCTGTTCACCAAAATGCCAGGCACTCAGTCAATCTTGTTACCCACTGTATACTAGCACCTCTATAGA
S
TATAATACGTGTTAGGGCTCAGTATGGTGCCTTGCCCTGTAATTCCAGCACTTTGGGAGGTTGAGGTGAGAGGATTGCTTGAGGCCAAGAGTTTACGACC
Celera SNP ID:            hCV26633698
SNP Position Genomic:     17804
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66588):
CCACTGGCCTTGGCCTCCCAAAGTGCTGGAGCCACTGCGCCTAGGTTTTTTTTTTTTTTTTAAGACGGATTTTTCCTCTTGTTGCCCAGGCTGGAGTGCA
R
TGGCGCAATCTCTGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGTCTCAGCCTCCAAAGTAGCTGGGATTACAGGCGCCTGCCACCAT
Celera SNP ID:            hCV26633699
SNP Position Genomic:     16464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66589):
ATAGATCTCGGGCACGGCCCTTCAACGGGCGGCGAAAGCTGCGACTCGGTGATTCCTCATTGTAGAGTTGGGTGGTCCAGGAGGCTTAACTGGAGCCCTT
R
ACCTGAGCGGTAAGGGCAGTCACGCGTCCCGACTCGGGATTGGATCCTGGCTCTGGAGGATAGGCTGCAATGTAAGAGCCCCAGAGACTCCTCAGAGGCC
Celera SNP ID:            hCV2758534
SNP Position Genomic:     6277
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66590):
AAAGAGGGGCCATCAATGCCCAGGGTCCAGCTGCATTTGTCAGTGGGTTTCTCTCTCCAACTCCCAGGGGCTCCTGGCTACCAGCCTGCTGCCTCGGCTG
Y
GCTACGTGCTGGAGGTGACATACCCAGGACCTGCGGTGGTCCTTGACATCCTGGCTGTGCTCATCCGCCTGGCCCGGCATTCCCTGGAATCAGCCACAAG
Celera SNP ID:            hCV25984794
SNP Position Genomic:     23014
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,37|T,1)   total(C,45|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66591):
CCTGCCTGCGGGCCTTTGGTCTGTAAGGGAGCAACTGTGGCCTCCTCTGTGCATAGATCTCGGGCACGGCCCTTCAACGGGCGGCGAAAGCTGCGACTCG
R
TGATTCCTCATTGTAGAGTTGGGTGGTCCAGGAGGCTTAACTGGAGCCCTTGACCTGAGCGGTAAGGGCAGTCACGCGTCCCGACTCGGGATTGGATCCT
Celera SNP ID:            hCV8792656
SNP Position Genomic:     6225
SNP Source:               dbSNP
Population(Allele,Count): JBIG-allele(A,200|G,1297)   total(G,1297|A,200)no_pop(G,-|A,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:66592):
CTCCTGCCTCAGCCTCCCGAGTAGCTGGGAATACAGGTGCCCGCCACCACGCCCGGCTAGTTTTTTATATTTTTAGTAGAGACGGGGTTTCACCGTGTTA
R
CCAGGATGGTCTTGATCTCCTGACCTCATAATCCACACGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCATCCGGCCAATGCAATT
Celera SNP ID:            hCV8082337
SNP Position Genomic:     12209
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66593):
ATCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGAATACAGGTGCCCGCCACCACGCCCGGCTAGTTTT
Y
TATATTTTTAGTAGAGACGGGGTTTCACCGTGTTAACCAGGATGGTCTTGATCTCCTGACCTCATAATCCACACGCCTTGGCCTCCCAAAGTGCTGGGAT
Celera SNP ID:            hCV8082338
SNP Position Genomic:     12173
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66594):
TGTCTGACAGGTTCTCCTGTCATCCCATTATCTCCTTCCTGTTTCTGTGGAACCCAGCCTGCTTCTGCCAGGCCATGCAGCTCCCACTTTCCTCCAGACA
Y
GCCCTGGACCTGTGCCCTTCAGCCTCACTTTTATCCTCTTCCTCACTTCTCTCTGCCACGTCCCCTTCTCCTGTACTAGGTAGTTCCCTGCTTTTCTGTC
Celera SNP ID:            hCV25985381
SNP Position Genomic:     28296
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,2)   total(C,1|T,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:66595):
GCATCTGTAGTCCTAGCTTTTTGGGAGACTGAGGTGGGAGGACGGCTTAAGCCCAGGAGGTAGAGGTTGCAGTGAGCCAAGATCACGCTACTGCACTCCA
K
CCTGGGTGACAGAGCCAGACTCTGTCACAATAAATTAATAAAGTTTACAATTCATGGCTTTTAGTATATTCACAAGGTTGAACATTTTCATTACTCCAAA
Celera SNP ID:            hCV11305215
SNP Position Genomic:     11105
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,6)   total(G,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66596):
GTGAAACCCCATTTCTACTAAAAATACAAAACTTAGCTGGGCGTGGTTGCGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTT
S
AACCCGGGAAGCGGAGGCTACAGTGAGCCGAGATCGCGCCACTGCACCCCAGCCCAGTGACAGAGCAAGACCCTGTCTCAAAAAAGAAAAAAGGAAAGGG
Celera SNP ID:            hCV2758505
SNP Position Genomic:     30250
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,12)   total(G,12|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66597):
TAGTCTTTAACCCTGATCCTTGTGCTAGAAGGACAGATGTTTGTCTAGGACCTGATCTCTGCCCTCATGATTTGGTTTCATGTGATCGTTATCCACACAC
S
TTATGTATGTATATACATTCCTACCCTCCCCCTCAGCACGTCATTTCCCCTGTCACAGTTGCCTGTGTCCCTGGAGTGTTACACAGTGCCTCCTGAAGAC
Celera SNP ID:            hCV8869731
SNP Position Genomic:     32041
SNP Source:               Applera
Population(Allele,Count): african american(C,21|G,7)   caucasian(C,1|G,1)   total(C,22|G,8)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,7)      total(G,2|C,7) ;JBIC-allele(G,552|C,723)   total(G,552|C,723)no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66598):
TCTCCTGTCATCCCATTATCTCCTTCCTGTTTCTGTGGAACCCAGCCTGCTTCTGCCAGGCCATGCAGCTCCCACTTTCCTCCAGACATGCCCTGGACCT
S
TGCCCTTCAGCCTCACTTTTATCCTCTTCCTCACTTCTCTCTGCCACGTCCCCTTCTCCTGTACTAGGTAGTTCCCTGCTTTTCTGTCTGCAGGCAGCGC
Celera SNP ID:            hCV2758507
SNP Position Genomic:     28308
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,10)   total(C,8|G,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|G,7)      total(G,7|C,6) ;JBIC-allele(G,500|C,983)   total(G,500|C,983)
SNP Type:                 INTRON


Context             (SEQ ID NO:66599):
GCCTGTGGGATTCCCTTAGGTATGTACTGTGTTTGGTAGCTGGGGGAAGCAGGGGAGGAGGCAATTTCTTTCCTTGTGGGATTCCTGGGTCCAGCTCCCA
K
GTCCATCCCAGGGTGCAGGCCCTCGGCCCGAGGGAAACCCGAGTCCCTAGCAGGCAGCAGTGGGGTGGGCTCTGAGGAGTGTGAGCAGCACTGACCTCCA
Celera SNP ID:            hCV2758508
SNP Position Genomic:     27119
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66600):
GCCTTCCTGTAGCCTGTGTGCTCCCTCTTTATGCCCCCTACACATCGGGGCCTTCTCTCCCTTCAGAAGGCTCAGCCTGCAGAAGCCTCCAAATGTGCTC
Y
TTTGGGCTGTTGGGATGGTGGCATTGGCCTGGGTACACAGGGTCTAGGAGAATGAATGGCTGGGCCATCAGCTCAGTGAATTCCTTGGTCCACCAGCCAA
Celera SNP ID:            hCV2758509
SNP Position Genomic:     26831
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,16)   caucasian(C,1|T,1)   total(C,15|T,17)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,7)      total(C,3|T,7) ;JBIC-allele(T,485|C,1014)   total(C,1014|T,485)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66601):
TGAGGAAAACCTTTTCATATAAGTACTAGGGAAGCAGTGAGTGGAGAAGCCACCTGGAGTCCCTGTGCCAGACCCAGTGGGGTCTCCACTCTGAGGAAAG
Y
TTGGGTCTATACCTGTCTCCAGGGCTAATAGCCTTATAGAAGAAGGCCAAAAAGCCCAGTTAGAGCCCTGGAGGACAGAGCAATGAATGTGATCATACCT
Celera SNP ID:            hCV25985819
SNP Position Genomic:     15217
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,2)   total(C,31|T,1)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66602):
TGTGGCAGCTGCTGGGTGATGGTGGGGACCCCTGTGGATAGTGAGCTGAGCCGTTTGGGTAATACTATCATGCTTTGTCTCCCCAGCTCTGGCATTGCCC
R
TGACCCCTCAGAAAGAATGGCTGCACATGGACACTGTCGAGCTGGAGAAGCTCCACTGGACCCAGGACTTGCCCCCTGTCCGGCGGCAGCAGACACAGGA
Celera SNP ID:            hCV25983132
SNP Position Genomic:     20317
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,2)   total(A,2|G,30)
SNP Type:                 INTRON


Context             (SEQ ID NO:66603):
CCAACATTTTGGGAGGCCAAGGTGGGAGGATTGCTTGAGGCCAAGAGTTTCTGACCAGCTTGGGCAAGAAAGCTAGACACCATCTCTACAAAAAATTATT
S
GAAAATTAGCCAGACCTGGTGATTTGCCCGTAGACCCAGTTACTCAGGAGCCTGAGGCAGGAGGATCACTTGAGCTCAGGAGGTTGAGGCTGCCAGTGAG
Celera SNP ID:            hCV8869737
SNP Position Genomic:     31221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66604):
GTTCCTCTGGCAGGAGCTCCTCGACAGCACCTTCTCTTGGTACCATGGAGCTTTGACGTTCCCTCTGATGCCCAGCCAGGAGGACAAGGAGGATGAGGAC
R
AGGATGAAGAATGCCCAGCAGGAAAAGCAAAAAGGAAAAGCCCTGAAGAAGAAAGCCGGCCTCCACCTGACCTGGCCCGACATGATGTCATCAAGGTAAA
Celera SNP ID:            hCV8869738
SNP Position Genomic:     22764
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,8)   total(A,22|G,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66605):
TGGGCATGGCCCCATTGCTAAGGCTTTGCGGGCAAGATGTAGAATGGGATGGCAGGCGTCTCCCTCATCTCCTAAAGTCCCTAAAGCCCAGGAGGCTTGC
M
TTTATGGTTTTTATTGGGGAGCATCCTCTCTACTCCTGGATCCATTTCCTGGCCCCTTCAGCATTGCCCCCCAACTCCCGTTCCTCTGGCAGGAGCTCCT
Celera SNP ID:            hCV8869739
SNP Position Genomic:     22584
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66606):
GGTGCCTGGCTTTCCTGCTGAGACCAGGCTAGGAGAGGAATACCACTTATTGAGCTAGGCTTACTGTGAGTTCCGGGCACTGTGCTGAGTACTTTAATGC
Y
TTTTTTTTTTTTTTTTTTTTTTTTGAGATGGTCTTGCTCTGTCACCCAGGCTGGAATGCAGTGGCACGATCTCGGCTCACTGCAACCTCCACCTTCACGG
Celera SNP ID:            hCV26633700
SNP Position Genomic:     15654
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66607):
CGAGCTGGAGAAGCTCCACTGGACCCAGGACTTGCCCCCTGTCCGGCGGCAGCAGACACAGGAGGTGAGGAGGGCCACCTGGCCTACAAGGGGTGGGTGA
K
ATAGGGCAGGAGAGGAGCTGCTGCTCTTGCCCTCAGAACTCAGGCCTTTCTATTGCCCAGAGCCTGAGAAGCATCTCTCCTTTGCTCTCACCCACCTTTA
Celera SNP ID:            hCV8082300
SNP Position Genomic:     20455
SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,4)   caucasian(G,2)   total(G,28|T,4)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,3)   caucasian(G,2)   total(G,29|T,3)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,15)      total(G,15|T,1) ;JBIC-allele(T,314|G,1181)   total(G,1181|T,314)
SNP Type:                 INTRON


Context             (SEQ ID NO:66608):
GTTAGAATCACTGCCCTGAAGGGAGGAGGGTCCGTAACCCCCCAGAGTGAGGTTCTCATCGTTCAGAACTGGGCTAATAGGATCGGGTCCAGCCTGGGGA
A
GTTTCTCCATTGTGCTTCACAACTTTGTGCTTTGTTGCTACAGGAACGAGATACAAGTTCAGTGGCCGTGAATCTGCCTGTGCCCAGTGGTGTTGCTTTC
Celera SNP ID:            hCV26633701
SNP Position Genomic:     14000
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Gene Number:                 425
Celera Gene:                 hCG39350 - 65000099363247
Gene Symbol:                 ZNF225
Protein Name:                zinc finger protein 225
Celera Genomic Axis:         GA_x5YUV32VTL1(6822446..6855697)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12585):
TACACAAATTCACAATGCTATTCCCACCAGAGATCCCATAGTGGAGAAAAACCATACAAATGTGTGGAGTGTGGGAAGGGCTACAAAAGGAGGTTGGATC
TTGACTTTCACCAGCGCGTCCATACAGGAGAGAAACTGTATAATTGTAAGGAATGTGGGAAGAGCTTTAGTCGGGCCCCATGTCTTTTGAAACATGAGAG
ACTCCACAGTGGAGAAAAACCATTCCAATGTGAAGAGTGTGGGAAGAGATTTACTCAAAATTCACATCTTCATTCCCATCAGAGAGTTCACACTGGAGAA
AAGCCATACAAATGTGAGAAGTGTGGAAAGGGCTACAATAGTAAGTTTAATCTTGATATGCACCAGAAGGTCCACACAGGAGAGAGACCATACAATTGTA
AGGAATGTGGGAAGAGTTTTGGCTGGGCCTCGTGTCTTTTGAAACATCAGAGACTGCACAGTGGAGAAAAACCATTCAAATGTGAAGAGTGTGGGAAAAG
ATTTACTCAGAATTCACAGCTTCATTCTCATCAAAGAGTGCACACTGGAGAAAAGCCATACAAATGTGATGAGTGTGGGAAGGGCTTCAGCTGGTCCTCA
ACTCGTCTGACCCATCAGAGACGCCACAGCAGAGAAACACCTCTCAAATGTGAGCAGCATGGGAAGAACATTGTACAGAATTCATTCTCTGAAGTGCAAG
AAAAAGTTCACAGTGTAGAAAAGCCATACAAATGTGAGGACTGTGGGAAGGGCTACAACAGGCGCTTGAATCTTGATATGCATCAGAGGGTCCACATGGG
AGAGAAAACATGGAAGTGTAGGGAGTGTGATATGTGCTTTAGTCAGGCCTCAAGCCTTCGACTTCATCAGAATGTTCATGTTGGAGAAAAACCTTAGTGA
TGTGATGGTGCAATAAAGTCTTCACTCAGTCTTCATGAATGCAGTCTCATCTGAAAGTTCACAAAGGAGAGACACATTAAAATATGAGGCACATAGTAAG
CACTTCCCTTTGAGTATTTTATCTCTGAATCCATGCTGGTGATAAATTTCACCCATTCTTGGAAGAGGGAAAACATTTGTTTAAGATAACATCAGTGCTT
CAGCCATAGCTCAGCATGCCCCAGTAGTCTCAGGACCACCATAATGGAGAATCCTTGTAAATGGTGCAATAAAGCTTCATTCAGAAGTTTGATAATTACA
GCTATCATTCAGGAGACAGGCCTTAGAAAGAGTAAGAGTTCATGAATTTACCAGACTAATGGTGGACATGTCCAAATTGATGTCCACTAGAATGTAAACT
ACATGTGTCTTTGCTGCTAAGTCGTCACAGCCTTAACATTGATTAGCACTTTGTATGTGTTCAGTACTTGTTTGTTAAATCAATGAAAGGATAAAACATA
TGTATGGATTTGGATACAATTTTGTGTATCCAAAAAGGGAAGCCTGCAAAAAATAATTCTGGGAAACATGAGTTGAAATGCAGAGTAAACTCAGTACTGC
AATCCATAGCAATATTTTGCATATTATTATTTTTTCTTTTAAATTTTTTTCTTGATCAGATTTATCATATTCATTGAACATTATTTTATTGCACTTGGCT
CCTGGCTTCCCCCCATCCTGTGCTCTGAAGTCAGAGTATTATTTGTGGCTCTATGAAATGTCCATTGCTTGTATACGGTATAAATTTAATTATCTTTTGT
AGTTTTTCTCACAGTATAGACTGAAAAGGTTTGGTTAATTTTGCAATAACAGACCACTGCATATTTCACAATTAAGTGTTTTCAACAGTATTAAGGCAAG
ATTTACAGTAACACTTTTAAAGTGCCAGATGTACATTGACAGAAATTTTCTTAGTCAATCCTAGATTGATCATGATTTGTGATTTCTATGCAGGCCTTGG
TATGATTGCCTTTTAATTGCTGTACAATTTCTTTTTTTTTTTTAACTTCTCTGGTATAAAATATTCTAAATTTGAATGACAGCTTTTGTCAACCTTCTTA
TCCAATATTCTTCCACCAACGCTATGAAACAGGAAGAGAAAATGGAGTTTGGTAATTTCATCAAATATATTCATTATTGGGGGCAGGAGTAACATTTAAA
TCCTCCTCTTTATTGCTGGCAGTAAAAATATGTCTTTTGGAGAGCAGAACATGCCAGAATGTATAAGGTGCAACTGTTTGATATGAAAACCATAGGATAG
GAAACTATGCCTATGACACTAAAACTCCAAAAAGTAGAAGACCACATTGATGATGTCACTGCATTTTAAAATGGAAAGAACAAGTGTTCAAGAACAGGAA
TTTGTGTGAATTGCATTTATTCCTATAATAATATGAACTCAATGAGATGATGACATAGACACAATAACAAAAGGAGAAAAACAATGTGGCTTTTTTTAGC
CTTCATAACCTAATCAAATAAATATCTTTGTGTGTTTTATGTTCTTTTGAGTGTTTACATACTGTGTAAATGAATATTTTTACTGATCTTTGCTGGCAAT
GAGTGTTTGCAGGCATTTTTCCATTTTATACTTCCATGCATTTTTAATTTTTTTATGCCACGATCTTTTAAACAACCAGCTCTTGTGTGAATTAAGAGTG
CGAACTCATTCATTACCATGGTGGGGACACCAATGTTTATGAAGGATCTGCTTCCATGACCAAGCACCTTCCAATAGTCCCGACCTCCAACACTGGAGGT
CATACTTCAACATGAGATTTGGAGGGGATACATATTCAAACTATTGTCAGATGTTAATTCATCAGGTATACACCATAGTAATATCTTAAGTGTGTTAAGT
TAAAGTGATATATTTTCTAAGGTATAGAACAAATAGGGCTTATCACCCCCCTACAAGCAAAGAAAATGTCACAATGCTTAGTGTGCCATTTTTGATATTG
GATGCAACTTATTGTTTCGATTGTGCTACTCTGACTTTTATGAGTGACCCAAAAACTTTGACTTGTCCCAGACAAGAGAAGTTTGTGTAATATGTCCCAG
CTTCCACGTAAGCTTCTCTGCCACTAAAACCCTGTGACCCCGGGGGTCCAAAAGTGTTTGAAATGTCCGTGGCAGATAGTATGTTTGAAGCCTATGGTTG
GCCCTAATTGGAGAATCAAAATTCAGATGCTTAGTATTTTGAAGCAAATTTCTGCCATCCTCTGCATATACTTACTCTCCTCTGGAGAAGAAGCTTTTCA
TTTTGCTAGGGTGTTTTGTTTTGTTTTGTTTTTGTTTTTGTTTTTTGAGACGAGTCTTGCTCTGTGGCCCAAGCTAGAGTGCAGTGGTGCAATCTTGGCT
CACTGCAACCTCTGCCTCCCGGTTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTAGGATTGCAGGTGCCCGCCACCGCACCCGGCTGATTTTTG
TATTTTTAGTAGAGACGGGGTTTCACCATCTTGGCCAGGCTGGCCTCAAACTCCTGACCTCGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTA
CAGGTGTGAGCCACCACGCCCGGCCACTAGGGGTCTTAAAACGGACAGAACACTTGACCACAGACCACCAAATTAACATGTGACTTATGCTTTCCATCAT
GAATCGGGTGTTGACCCCTGCACCTTTTTAAGTTACATGTGCAGATTAGTATTCCATTTGGAAGTGGTATATATGAGATTGTGTTTGTGCAGGCTCTGAA
GCCACAGGTAAGTGCACCTAATATTCATCTCCCTACTCTTGCTGTATTCAGAATGAGTGAATATAAAGAGAAGTCATCTGAAATTATTGTGTCTCAGCAG
CAGAAAGAAGTGGAATACACGGTTGGACGCGGTGGCTCACGCCTGTGATCCCAGCATTTTGGGAGGCCGAGGCGGGTGAATCACCTGAGGTCGGGAGTTT
GAGACCAGCCTGACCAGCATGGAGAAACCCCCTCTCTACTAAAAATACAAAATTAGCCGGGCGTGGTGGCACATGCTTGTAATCCCAGCTACGCTGGAGG
CTGAGGCAGGAGAATCGCTTGAACGCGGGAGGCGAAACTCCCTCTCAAAACAAAAAACAAACAAAAAACAACCAAAACTGAAAGCTGGTAATGAAACAAA
TACGTATACACGAACATTTGTAGCAACACTGTTCACTACAGCCAAAAGGTGAAAAGAAGCCAAATGTGCGTCAATGTATGAATGGAGAAACAAATTGTAG
TATAAACATAAAATATTCATCTATGAAAAGGAATGAAGTACTGATACGTGGTATGATGTGAATAACATTAAAAATATTATGCTAAGCAAAGGGAGTTAGA
AACAAAATGTTCCATTCATTTTTATGATTTGTCCAAAATAGGTAATAGAAAAGAGAGAAAGATTCATGTTTCCCCAGGAATGGGATTATGGACAACAGTA
GTGATTGCTTAGTGGGCATGGGGTTTTCTTTGGGTGATAAAAATGTTTTGTAATTCAAGAGGTGGTGGTTTCACAATGAAGCAGCTACTTTGTCTGAGGT
TTAAACCCGGGGTTCGTCGTTAAGCGCCAGAAAAATTTAGGACACGGACACACAAAAACTCCTCAGTTTAGGAGCGGAGGTTTAATAGGAAGAAGAGAAA
GAGAAACGGGTTCCTCCATAGAGGAAGGGGTCTCCGAGCGGAAAAGGGTCGGCTGGCAGTGAATGTGCTGAGTTTTACAGACCAGTTTGAGGAGGCAGTG
TCTGATTTACATAGGGGTCATAGATTGGTTCGATCAGTTATGACGTTTACATAGTGCGTGGGGAAGGCTGGTCGCCCCACCCTAATCTTCTTATGCAAAT
AGGCTTCCCAGTTGATTGGCCCATCTTGCCAGCTTCTTACTGTGCACGTGGCTGACAAAGAGAAGGGAAGATGGAGCCGCCATCTTTAACATGATTGGCA
CAACTGCTGGTATCTATGTCTGCGGCAGCTGGATTTTACAGGCTGCTCTTCCTTAGGAAGGGAAATAATTTGGGGCTGCTTTTCATTAAAAAGAAAAGCC
TTACCGAGGGCTCCCATACCCTATCTGCCTAAGTGATGGCTTCTTAACTCGTATATATTAACAACACTGTATTCGTACTAGATGCCATTGCCATTGAATT
ATGTGCCTTAAAATAATTTTGTTTTGTGAATTACACCTCAAAAATATTTTTTAAATAATAAAACGACCACGTTAAAAACGTTTTGCATAGCGAAAAACAA
GTCAAAGGAAAAAAGCTTTTTGGTTGAGCAATATTTGATACAATGTTAATATGAGTATGTAAATAATACTTAACGGAGGGGAAAAAACTAAACACTCAAT
AGAAATGTGGGCAAACTATTTGACCAATTCACAAAGACTATAATAGTGGCAACGGAAAATATGCACGGATGTTCCACTTTATTTACAAAAGAACAAATAC
AAATTAAAACTACATTTAGAAACCATTTCTTACCATTAGATTAGCAAAACTTAACTCCTCGAAGACTGTGTCTTCTCGCTTGTTCCCTTTCCAATAACAC
TCCTGTTATCATTGGAGGCGTTTAGACTTCAGAAATTCCTGTCTATTCAGTATTTTCTGTCCTGGACCAGGGAGAGAGAAGGACGACTCTCAGGATAACA
GTTCACATTCCCCACTAGGCAGGCGCTCGTGGCTTTGGGATTCGTTCCCAGTGGGCACCTCGGAGTGGCAACGCTTCCCCCTGAAGAATGAGATTTTGAG
CGTTTTTCCTTCAGCATTCGGAGGAGTGTAATCCAAATGCTCTGTGGAGTCGTACACACTGGCTCCAGAAGGAGGATACAAGCAATTCTGGGAATGGTAG
TCCAGACGCTCAGTGGAGTAGCGGTCAGCTTGGCTCCGGCAGGCGAATCAGGGGATTTCTGGGAAATGTAGTCCAGACGCTCAGTGGAGTCTCGGTCAAT
TTGACTCCGGCAGGTGGATCCCAGGGAATTCTGGGAAGTGTAGTCCAGACGCTCGGGGTCGTCGCGGTCAGTTTGTCTCAGGAATTCTGGGAAGTGGAGT
CCAGACACTCAGTGGAGTAGCGGGCCACTTCCGCTCCGTTACTGTGAGGTTGCTGCAGTTTTGTCCCTGGTAGTTTGGGTCAGTTCCGCGAGACCCTTCT
GAATTTCCTGGACCTACGCATTGGATCCTTAACGAACTGGTGATCGAATTAGGGGAAAAGAAACCTCGTCGGAGAGCAGAGGTTTGGCGGAGCGGGGCCG
CTGTTTTCGTTCTCGTCAGTGGAGCCTTCTTGGGCTTGGGGCTCTCCTCGCGTCCCCGGGGTGTTTGGGACTTGGTCGGGTCGCGTCTCGCCTGGTTTTA
GGGTCTCCGGGGCTCTGAGCTCGCCCACTCGGCCTCCCTGCACCCCACGCGCGTGGCCACTTCCTCGCGATAAAACGCTGGGATGTTACTTAATCTCCTT
GGGTCTCCCGTTACAGTTCTTTAAGATGGGGAGTTTAGGACCATCCTAATAGAATCGTTTTGGGAACTGAAAGCGGTAACACAAATGAGAGCCTTAAAGC
AGCCCCTGTCACTTGGTGACTGGTGGTCTCTTGTTAATTTCCCACGAAGCCTGTCAGGTCCCCGGGTGGGGTGAAACTCCAGCTGCAGGGGCACCGGCCC
TTCTCCCTGATTCCTGCAAGACGCTGGGTGATCCCGGACGCCTTCTGACCTCTCTTTTAGGAAGGCGAGGGTTGCATCCACTTCCAGGAGGGGAGAGGAG
CATTTAACTTTTATGGGGCACGGCGACCACGGTCAGAGTGTTTCACAGCCTTCTCCTTACCCAGCCCGACCTTTCCAAAAGAGCTGCAGGGAGGGACTTC
TTGGCTTCTGAGGGCAAAGCTCTACGTGAGTGATCCTTGGCTTTTTTCTTTGACAGAGATGCTCACCCCAACCGAGAGTGTATAGGATGTGTCTTCGGGC
ATGGGTGTTGCTTTCAGTTGTCATGTTTTTCTAGTCTTTAATCTTGAAAGATAGCATAGCTTTCATCGTTTTTTCTTGGTATTTTATCCTTGTTATTTTT
GAAGAGTATAGATGAAGTTATTTTGGTCAAAGATGTTCATTTGGAGTTTTTCTGATGTATTTCACGTTTAACTTCAAAATATGCATTTTTTGCTGGAATA
CCACAGAAGTGGTAAATCTCTCTCTCTCTTTTTTTTTCTTGAGACGGAGTTTCGCTCTTGTCGCCCAGGCTGTAGTGCATGGCACGATCTCAGCTCATTG
CAACATCCACCTCCTGGGTTCAAGCTATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGTGCCTGCCACCACATCCGGCTAATTTTTGTATTT
TTAGTAGAGAAGGGATTTCACCATGTTGGCCAGGCTGGTCTCAGACTCCTGACCTCAGGTGATTCAACCGCCTTGGCCTCCCAAAGTGTGGGATTACAGG
CATGAGCCACCGTGCCCAGCCTGAAGTGGTAAATTTCTTATTGCAACATAACAGGGGCCATATGTCAGTTTGTCACTTCATTGGTGATCTCAACTTTGTT
CACTTGGCTAAAGTCATGTTTGTCAGATTTCCGCATTGTAAAATTATTTTGAATTTTTTTTTTTACCCCAGGAACACAGATTCAAGTTGCTCTCAATATA
CACTCCCTAATTTTTTAGTTAAATAAAATTTTGTAAGGAGAAATACATTTATTAGTGCACATTCTACTGTAAAGGTGAACTCTCCCTTCTCCTTCATTTG
CTTATTCATTCATTCAACTATAAATATTCTATCAGTGTAGATCCAGAATCCAGTCTTATTAAGTTAAATGACATGTGGATGAACAATTACCAATGCTTTG
TCCAACTTTATTGAGGTGTATTCTACATATCATAGAAACTACCCATTTCRTGTGTACACTTTAATGATTTTTAGGAACTTTGTGGAGTGGAATAAACATC
ACCATAATTCAGTTTAAATAATTTTCATCCCCCATTAAGCCTCCTTGTGCTCACTTATAGTTAATCCTCTTTGTCACCTCAAATATGCAGAGACCACCTA
YCTACTTTCTCGTTATRTACACTTGCCTACTCTGGAATTTCATAGATATAGGATCATGCAATATGTGGGCCTTCCTATGTGACTGGCTTCTTTCACTTAG
CATAATGTTTCCAAAGTTCATGCGTGTTGTAGCATGAATCAGTACTTCATTCCTTTTAATTTCCAAATAAGATTCCATTGTATGGATAGGCCACAATTTG
TCTATCCATGTACKCATAGGAGGGARTTTGTTGGTGTGCAGTTTTGGGTTACTATGAATGATGCTGTTGGGAACATTCATGTGTTAATTTACAATACACA
TTCGTGTTGGTGGATGGCATCCCTGGCCACACTTTCATGTCTCTTTTTCTGCCTTCCCTGGTACTTTCCAGGCAGGATTCTGCTTTCCCTTGGACTRTAT
CACTCAGGACTCTGAATATTCCCTGAAATAGGAGGAAAAATGACCACGTTGAAGGTGAGTAGAGCTTGCCTCTCTTGCTGTTAAAATTTCTTTTATGGAG
ACTTGTTCTGTCGCCAAGGCTGGAGTGCAGTGGCCTGATTTTGGCTCATTGCAACCTCCACCTCCGGAGTTCAAGTGATTCTCCTGCTTCAGCCTCCCAA
GTAGCTGGGACTACAGGCACACACCACCACACCCAGAAAATTTTTGTATTTTTAGTAGAGAYGGGGTTTCATCATCTTGGCCAGGCTGTTCTCAAACTCC
TGACCTCAGGTGATCTGCCTGCCTTAGCCTCCCAAAGTGCTGGAATTGCAGATGTGAGCCACCGTGCCCGGCCGTATTTCTTCTCACTACTCATATTCTC
ACAGGTTCTTCTCAGTCTTGGGAAGACTTAGGGAGTACAACAGAGATATAGCATGGGACAAACAGAATCTAGCTCTTCCCGTGTGAACACCTCCAATAAT
CCTTGTGTGAAGCAGCAGTTAAGCAGTTATAGCCTGTTGTGTTGTGCCAACACGAGAGCCAGCGTCCACAGGTGGCACTGCTCCTCCCAGGCACCATTTT
GGGGTGATCTTCTTTCTTCCTGACATGACACCTACTCAGATGCACCCAGTGCTCCAGGCACCCAAGGACAGTGATAACCATAGTCATGATAGAAAATCTT
TACTTTCAGTATGGTAAAGGGTACCTCACACAATGTTACCAGAAAATATAACAGCCTAGAGCAAAAATATTCACTACTTGTATATTTGAAACAGATAAAA
TCCAAAATAAGAATCTTATGTACAGAATAGAAAAAGAAAATCCAAAGGAATGTGAATAAAAGACATTAACAGGCAAGTTTAAAAGGAGAAATTGAGATGG
CCAATAAATATTTGAAAAGGTGATGGTATTATTTATAATCAAATAAGTGAGACTGTTAAATTCTTCCTAATATGATTACAAAAATCATGGGAAAATTGAT
AACCTGCTCTTGGTTATGGTAAGACAAATCAGTGTACACGTATCCTCTTGAAAGATTAGGGTTTGGTAAAAAATTGAGACCTGATATTATATGATCACAA
TTTTAAATATGCCTATTTATTGACATTTTAATTTTCATTTAAAATTATTTTAAATAAACAGTAGTAAAATCTACCCAAAATGTTTTTTTTTACAGGATTG
GTATTAATGAGCATATATAAAATTAAAGATTATTTAGAGTAGATAAAAATAGATTATCAATTCTTTGGAATACTATGCAGACATGAAATGAGATAAAATA
GATGGCAACAATGACAATAATAATAAAAAAAATTTTAAAAAGCTAGTGTTTATTAGGTATTTAGTCTGCAMTGATCAACTTTCCCAATGCTGCATGTATT
TCCTTGTTTAATCATTGAAAAAACTATAATATGAAAATTATTAGAGAGGGAGTAAATAGGTGAACTTGTCCAAGGTCATGTGACCAGGAAGGCACAGAGC
CTTGGGATGTGCTTTTAGGCACACTGTCTGCAGATCRTAGATCAATGCTGCAATCAATGTATGTAGTTTATGCCTTGAGAGTACACAGGATGTACTGTAT
AGCTGTCCCACACAGGTTACCACAAGCTTTGTTAGTTTGGTGGCAGATATTAAAGAAAAATGATAACATTCAGGGTTCAAGTATGAGAGAGAACAATGGG
AATTATCAGGCAAGACTGGGACTGAATTGTTAAATGTTACTGGGGCAGTTGGCAAGATTCACTGAAACCTATATACGTGCAGCCCAGGATGCTGCATTTA
GAGTCCTACAGGGTTACTTACAAGGAGACTCAGTAAGTGCACAAAGTAAACCTACAGGAGGTCTTTTCCATCACTGCACTTCTGGTGGAGCTCAGGAAAA
TCCATCATTATCAGGATACAGACAGAATGAATAGCAAATCTATGAGCTGGCTGGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
CAGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAATGTGGTGAAACCCCATCTCTATTAAAAATACAAAAATTAGCCAGGCATGGTGGCA
GGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCGGGAGGATCACTTGAACCTGGGAATCGGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCC
AGCCCGGGCAACAGAGCAAGACTGTCTCAAAATAAATAAATAAATAAAATAAAATAATAAAAAAGGAAGTCTGTGTGTTGACCTATGTCTCTCAAGATCC
AAAACAGCTTCTCATTCCTCCCCTCTGTCTGCTCAGTGCCACCCCTCTCTCAGTAGTCATTGGTCATGAGACTGAGGTTGCATATGTTCGATGCTGTAGG
AGGCAGTGACCTTCAAGGACGTGGCTGTGGTCTTCACTGAGGAAGAGCTGAGGCTGCTGGACCTTGCCCAGAGGAAACTGTACCGAGAAGTGATGCTGGA
GAACTTCAGGAACCTGYTCTCAGTGGGTGAGGACAGGCACCCTTTGTAAGGGAACATCAGGACCAGGAGTGGCTTTGTATCCTAGAGTGTTCAAGTTTGA
GTATGCATTGGGAACCTAAGTTTCCAGTAAATTTTACTTAGATTTTTTTCTAGGATATATTGGCACTAAGCACATGACTTTTCACGTTCACAGGGCATCR
ATCACTCCACAGAGATACTTTCCACTTCCTAAAGGAAGAAAAGTTTTGGATGATGGAGACAGCAACCCAAAGAGAAGGGAATTTAGGTAAGAAGCAAGCA
ACTCTGTGTCCTTGTGCRTGACTCTCCCATCKGTTTYACTTCTGTCCATTGCCCAGSTCTGTTGTCCTGGTCTAAATGGCCAGACCTCTTTCCTGAATTA
TTACAGCTGACTTTCGGCTGGTTTCCCTGCTCCCACTTTTCCCACCCTGACATCTGTTTTCCTCATGGCAGCCAATGTAWTCCTTAGGAAAGTCAGACTG
CCATTCCTCGGCTCAAAAGCCTTTCTGGCTTCTTTTTTTTTTTTTTGAGATGGAGTCTCGCTGTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGC
TCACTGCAAGCTCCGCTTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGAATACAGATGCCCGCCACCACGCCCGGCTAATTTTT
TGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGAT
TACAGGCGTGAGCCACCGCGCCCGGCTGGCTTCTTATGTTTACTTAAGTTACAAGTGTTTTAAGTGCCTTTTAGAGACCATGTGATCTGCTTTTCATCCC
CCACCACCTCTCTGACTACATCTCCTGTCCTCTCCCTTTTGCCTTGTCCTTCCAGCCACGTTGTCCTCCCTACCGTTTCTCTGACCTGCCAAGGACACTG
TATTGCCTGTTGTAGTAACCAATGACCACACATTTAGTCGACTAAACAACAAAAATTTATCATCTTTCTGTTCTTTAGGCCTGAAGTCTGACACGTCTCA
CCGGACAATTATCAAGCTGTCTGTAGGTGTTTGTTTCTTTCTGGATGCTCTTGAGGAGAAGCCTTTATTTTGGTTTACCAGTCTCTAGGCATTCCTTGGC
TCTTGTTTCCCTTCCTCCATCTTCAAAGGCAGCTACTTTGCATTTCTGACCCTTCTTCCATAGTCATGCTCACTCTGCCACTCTTCTTATGCCTCTCTCT
CCTGCCTTTCAGGTTCCTTGTAATTGTGTTGGTTACCCCTGGATGATTCACAATGACCTCTCTTTCTTGTTAGCTGATTAGTGACCTTAATTGCATCTGC
AATCCCAGTCCCCCTTGCTGTGTAATATAACATGTTCATAGGTCTTGGGTACTGGATGTGGACATCTTTTATGAATCATTGTTCTGTCTACTACTGAAGC
TTCTGCCTCAGAGCCCTTACTTGCTTTTCTGTCTGATCAGAATACTCTTTCACCTCAAAACTTTCTGGCTTCTCCTTTAAGCATATTCAAGTCTCTGTTC
AGTTTTAGAGAGGCCATTTCCAACCACCCTATTTAAAATACTATTCTAGGCCAGGCGCGGTAGCTCACGCCTGTAATCCCACTACTTTCGGAGACCAAGG
TGGGTGGATCACTGAGATCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAATCCCATCTCTACTAAAAATACAAAATTTGCCAGGCGTGGTAGTGTG
TGCCTGTAGTCTCAGTTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAAGCGGAGGTTGCAGTGAGCCGAGATGGCGCCACCGCACTCCAG
CCTTGGTGACAAAGTAAGACTCTGTCTCAAAAAAACAAACAAAACACTGTTCTATTTTTTTCTTCTTGTGCTGTCTTGCACTGTGTCTTATATATTTCTG
TTTACCTGTCACTTTTACCCCCAGGAATGTGATGTCTAAGAGGATGAATTTTAGCTGTTTTGCTCATGGCTGTCTATTCACAGGCTAGAAGGTATTGTTC
TGGTACATGGCAGGTATCTAATTATTTGTTATCCTGATAAATAAATTAATGGATGAGGGGAACTTCAGTGTCTCCAGGAATCATGGAGATAGATAGCTAA
TAAGTGATACACAAACTAGAGTGAATGAGAGCTATTGCAGAACATGTTTCTGTCTTTTGATGGCTGCCTATCTAATTAGAACTTTCTTAGGATTCCTTGT
TGGGATACTATTTTTAGGTATGTGCAGTTCACCTACATCCCATGGAAACTTCTAAGTGTTCTTTTTATGGCCACACTGAGTATTATGCCTTCTCTCTGAC
TTGTCTTGGAGCTTTATGTTTTTATTTTTATTTTTTAAAAATTTTCCACAAGTTATTGGGGTATAGGTGATATTTGGTTACATAAGTTCTTTAGCGACTT
GTGAGAATTTGGTGCGCTCATCACCCGAGCAGTATATGCTGCACCATATTTGTAGTCTTTTGTCTCTCGCCCTCCTCCCACTCTTTCCCGCAAGTCCCCA
AAGTCCATTTCTCTCTTTTTTTTTTTTAAGCAGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCCATCTCGGCTCACTGCAGGCTCCGCCTCC
CAGGTTCACGCCATTCTCCTGCCTCAGCCTCTCAAGTAGCTGGGACTACAGGCGCCCGCCACGATGCCCTGCTAATTTTTTTTATATTTTTAGTAGATAC
GGGTTTTACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCCATTGTCTCATT
CTTATGCCTTTGCATCCTCGTAGGTTAGCTCCCACATATCAGTGAGAATATATGATGTTTGGTTTTCCATTCCTGAGTTACTTCACTTAGAATAATAGTC
TCCAGTCTCATCCAGGTTGCTGCAAATGCTATTAATTCATTCCTTTTTATGGCTGAGTAGTATTCCATTGTATATAATACCACAGTTTTCTTTATTCACT
YGTTGATTGATGGGCATTTGTGTTGGTTCCACGATTTTGCAATTTTGAATTGTGCTGCTGTAAACATGCATGTGCAAGTATCTTTTTCGTGTAATGACTT
CTTTTCCTCTGGATAGATACCCAGTAGTGGGATTGCTGGATCAAATGGTAGTTCTACTTTTAGTTCTTTAAGGAATTTCCACATTGTTTTCCATAGTGGC
TGTACTAGTTTACATTCCCACCAGCAGTGCAGAAGTGTTCCCTGAACAACACATCCATGCCAACATCTACTGTTTTTTTGATTTTTGATTATGGTCATTC
TTGCAGGAGTAAGGTGGTATCGCATTGTGGTTTTGATTTGCATTTCCCTGATCATTAGTGATTTTGARCTTTTTAAAATATGTTTGTTGGCCATCTATAT
CTTCTTTTGAAAATTGTCTATTCATGTTCTTAGCCCACTTTTTGATGGGGTTGTTTGGTTTTTTTCTTACTGATTTGTTTGAGTTTGTTGTAGATTCTGG
ATATTAGTCCTTTGTCAGATGTACAGATTGTAAAGATATTCTCCCACTCTGTGGGTTGTCTGTTTATTCTGGTGACTGTTCCTTTTGCTGTGCAAAAGCT
CTTTAGTTTAATTAGGTCCCAATTATTTATCTTTGTTTTTATTGCATTTGTTTTTGGGTTCTTGATCATGAAATCCTTGCCTAAGCCAATGTCTAGAAGG
ATTTTTCCAATGTTACCTTCTAGAATTTTTATAGTTTCAGGTCTTAGATTTGAGTCCTTAATCTATCTTGAATTGATTTTTGTATAAGGTGAGGGATGAA
GATCCAGTTTCATTCTCCTACATGTGGCTAGCCAATTATCCCAGCATCATTTGTTGAAAAGGGTGTCCTTTCCCCCACTTTATGTTTTTGTTTGCTTTGT
CGAAGATCAATTGGCTGTAAGGATTTGGGTTTATTTCTGGGTTCTCTATTCTGTTCCTTTGGTCTATGTGCCTATTTTTATACCAGTACCATGCTGTTTT
GGTGACTATGGTCTTATAGTATAGTTTGAAATCAGTTAGTGTGATGCCTCCAGATTTGTTCTTTTTGCTTTAGTCTTGCTTTGGCTCTGCGAGCTCTTTT
TTGGTTCCGTATGAATTTTAGCATTTTTTTTCTAATTCTATGAAGAATGATGGTGATGTTTTGATAGGGATTGCATTTAATTTGTAGATTGCTTTTAGCA
GTATGGTCATTTTCACAATATTGATTGCACCCATCCATGAGCATGAGATGTGTTTCCATTTGTTTGTGTCATGTATGATTTCTTTCAGCAGCATTCTGTA
GTTTTCCTTGTAGAGGTCTTTTGACTCCTTGGTTAGGTGTATTCCTGAGTATTTGATTTTTTTTGCAACTATTATAATAGGGGTTGGGTTCTTGATTTGA
TTCTCTGCTTGGTTGCTGGTGGTGTGTAGAAGAGCTACTGATTTGTGTACATTAATCTTGTATCCAGAAACTTTGCTGAATTCTTTTATCAGTTCCAGGA
GCTTTCTGGAGGAGTCTTTAGGATTTTCAATGTAGATGATCATATCATTAGCGAACAGTGACAGTTTGACTTCCTCTTTACCGATTTGGGTGCCCCTTAT
TTCTTTCTCTTGTCTGATTGCTCTGGCTAGGACTTCCAGTACTATGTTGAGGAGTGGTGAGAGCAGATGTTCTTGTCTTGTTCCAGTTCTCAGAGGGAAT
GCTTTCAACTTTTCCCTATTCAGTGTTATGTTTGCTGTGGGTTTGTCATAGATGGCTTTTATTACATTGAGGTATGTCCCTTGTATGCCGATTTTGTGAG
TTTTAATCATAAAGCGTTGCTGGATTTTGTCAGATGCTTTTTCTACATCTATTGAGATGATCAAGTGATTTTCATTTTTAATTCTGTTTATGTGGTGTAT
CACATTTATTGACTTGGGTATGTTAAACCATCCCTGCATCCCTGGCATGAAACCCATTTGATCATGATGGATTATCTTTTTGATATGTTGTTGGATTAAG
TTACCTAGTATTTTGTTAAGGATTTTAGCATCAATGTTCATCAAGGATATCGGTCTGTAGTTTTCTTTTTTGATTATGTTCTTTCCTGGTTTTGGTATTA
GGGTGATGCTGGTTTCCTAGGATGAATTAGGAAGGGTTCCTTCTTTCTCTATCTTGTGAAATAGCGTCAAAAGAATTGGTATCAATTCTTCTTTGAGTGT
CTGGTGGAATTCTGCTGGGAATCCATCTGGTCCTGGACTTTTTTTGTTTGTAATTTTTAAATTACCATTTCAATCTCATGGCTTGTTATTGGTCTGTTCA
GGATATCTAATTTTTCCTGATTTAAGCCAGGAGGGTTGCATTTTTCCAGGAATTTATCCACCTCTTCCAGGTTTTCTAGTTTATGTGTGTAAAGGTGTTC
ACAGTAGCCTAGAATGATCTTTTGTATTGCAGTGGTGTCAGTTGTAATATCTCCTGTTTCATTTCTTAGTGAGGTTATTTGGATTTTCTCGCTTATTTTC
TTGGGTAATCTTGCTAATGGCCTATCAATTTTATTTATCTTTTCAAAGAACCAGCTTTTTGTTTCATTTATCTTTTGTATTTTTTGTTTTGTTTTGTTTT
GTTTTGTTTTGTTTCAATTTCATTTATTTCTGCTCTGATCTTGGTTCTTTCCTTTCTTCTGCTRGGTTTGGGTTTGGTTTGTTCTTGTTTCTCTAGTTCC
TTGAGGTGTGATCTTAGAATGTAAGTTTGTGCTCTTTCAGTCTTTTTGATGTAGGCATTTAGGGCTATGAACTTTCCTCTTAGCACCATCTTAGCTGTAT
CCCAGAGGTTTTCATRGGTTGTGTCATTATTGTCTTTCAGTTTGAATAATTTTTTAATTTCTATCTTGATTTCATTTTTGACCCAATGGTCATTCAGGAG
CAGATTATTTAATTTCCATGTATTTGCATGGTTTTGAAGGTTCCTCTTGGAGTTGATTTCCAGTTTTATTCCACTGTGGTCTGAGAGAGTGCTTGATATA
ATTTCAGTTTTCTTAAATTAATTGAGGCTCGTTTTATGGCCTATCATATGGTCTCTCTTGGAGAAAGTTCCATATGCTGTTGAATAGGATGTGTATTCTG
TGGTTATTGGATGAAATGTTCTGTATATATCTGTTAAGTCCATTTGTTGCAAGACATAGTTTAAATTCTTTGTTTCTTTGTTGACTTTCTTTCTTGATGA
CCTGTCTGATGCTGTCAGTGGGGTATTGAAGTCCCCCACTATTATTGTGTTGCTGTCTACCACATTTCTTAGGTCTATTAGTAATTGTTTTATAAATTTG
GGAGTTCCAGTGTTAGGTGCATATATGTTTAGGATTATGATATTTTCCTGTTGGACAAGGCCTTTTACATTATATAATGTCCCTCTTTGTCTCTTTTAAC
TGCTGTTGCTTTAAAGTTTGTTTTGTCTGATATCAGAATAGCTACCCCTGCTCATTTTTGGTGTCCATTTGCATAAAATGCCTTTTCCACCCTTTTACTT
TAAGTTTATATGACTCCTTACATGTTAGGTGAGTCACCTGAAGGCAGCAGATGGTTGGTTGGTGAGCTCATATCCATTCTGCAGTTCTGTATCTTTTAAG
TGGAGCATTTAGGCCATTTACATTCAATGTTAGTATTGAGATGTGAGGTGCCGTTGCATTCATCTTGCTATTTGTTGCCTGTGTACTTTGGTTTTTGTAT
TTTTTTGTTTTTGCTTTTTAATATGTGTTTTTGTTGTATAGGTCCTGTGTGATTTATGCTTTAAAGAGGTTCTGTTTTGATGTGTTTCCAGGATTTGTTT
CAAGATTTAGAGCTCCTTTTAGCAGTTCTTGTAGTGGTGGCTTGGTAGTGGCAAATTCTGTCAGCGTTTGTCTGAAAAAGACTGTATCTTCCATTCATAT
ATGATGYTTAGTTTTGGTGGATACAAAATTCTTGGCTGATAATTGTTTTGTTTAAGGAGGCTGAAGATAGGGCCCCAATCTCTTCTAGCTTGTAGGGTTT
CTGTTGAGGAATCTGCTGTTAATCTGATAGGTTTTCCTTTATAGGTTACCTGGTGCTTCTGTCTCACAGCTCTTAAGATTCTTTCCTTCGTCTTAACTTT
GGATAACCTGATGACAATGTGCCTAGGCAATGATCTTTTTGCAATTAATTTCCAAAGTGTTCTTTGTGCTTCTTGTATTTGGTTGTCTAGGTGTCTAGCA
AGGCTGGGCAAGTTTTCCTCGATTATTTCCCCAAATATGTTTTCCAAGCTTTTAGAATTCTCTTCTTCCTCAGGAACACTGATTATTCTTAGGTTTGGTC
CTTTAACATAATCCCATACTTCTTTGAGGCTTTGTTYATATTTTCTTATTCTTTTTTCTTTGTCTTTGTTGGATTGGGTTAATTCGAAGAACTTGTCTTC
AAGCTCTGAATTTCTTTMTTCTACTTGTTCAATTCTATTGCTGAGACTTTCCAGAGCATTTTGCATTTCTATAAGTGTGTCCAGTGTTTCCTGAATTTTT
TATTTTTTTTTATTTAAGCTATCTATTTCCTTGAATATTTCTCCCTTCACTTATTGTATCATTTTTTGGATTTCCTTGTGCTGGGCTTCACCTTTCTCTG
GTGCCTCCCTGATTAGCTTAATAACTAACCTCCTGAATTCCTTTTCAGGTAAATCAGGGATTTCTTCTTGGTTTGGATCCATTGCTGGTGAACTAGTGTG
ATATTTTGGTGGATGTTAAAGTGCCTTGTTTTGTCATATTACCAGAGTTGGTTTTCTGGTTCCTTCTCATTTGGGTAGGCTCTGTCAGAGGTAAGGTCTA
GGGCTGAAGGCTGTTGTTCAGATTCTTTTGTCCCACAGGGTGTTCCCTTGATGTAGTACTCTCCCCCTTTTCCTATGGATGTGGCCTCCTGTGAGCCAAA
CTGCCGTGATTGTTGTCTCTATTCTGGGTTTAGCTACCCAGCAAGTCTACCCAGCTCTGGGCTGGTACTGGGGGCTGTCTGCACAGAGTCCTGTGATATG
AACTGTCTGTGGGTCTCTCAACCATAGATATCAGCGCCTGTTCCAGTGGAGGTGGTGGGGGTGTGCAATGGACTCCGTGAGGTTTCTTAGCTTTGGTGGT
TTAATGCTTTATTTTTGTGCTGGTTGGTCTCCCTCTAGGAGGTGGCACTTTCCAGAGAGCATCAGCTGTGGTAGTATGGAGAGGAGCCAGAGGTGGATGA
GGCCCTAGAACTCCCAAGATTATATGCCCTTTGTCTTCAGCTACCAGGGTGGGTAGGGAAGGACCATCAGGGAGGGGGAGGGCTAGGTGTGTCTGAGCTC
AGACTCTCCTTGGGTGGGTCTTGCTGTGGCTGCTGTAGGGGATGTGGGTGAGGTTCCCAGGTTACTGGAGTTGTGTACCTAGGAGGATTATGGCTGCCTC
TGCTGAGTCATGCAAATTGTCTGGGAAGTAGGGGAAAGCTGGCAGTCATAGGCCTCACCCAGCTCCCATGCAAACCAAAGGGCCGGTCTCACTCCCACCA
TGCCCCCACTAACAGCCCTGAGTCTGTTTCCAGGCAGTGGGCAAGCTGGGCTTGAGACCTTGCCCCAGGCTACCACCTCTCAGCTGCAAAAGAAAAGGGC
TTGGGTCTTCCCCTGCCTGTGAGTCTGCACACTGGATTCACACCCTCCCCCAAGTTCTGGCCAGGAGGCTTCTTGCCYGGTTCAAACTGTTATAAAGTTC
AGCTGGATACTTCTTTCTCCTTGTGGAGTTCCCCACCCCCTGCTCCTCTGGCTGCCTTCCTGATGGATCCCTGTGATGCCAGGCAAGAATGGCCTGCTTA
GGGACCCAACGAGGTCCCAAGGCCTTTCTGTTGCTTTGTCTACCCCTGTATCTTACTCAGCTCTCTAAATTGACTCAGCTCCAGGTAAGGTCGGAAACTT
CTCCCACAAACAGACCTTCAGTTTCTCCAGTGAGGGTGTGTGTTCAGTAGAGGAGGCTTTTTCTCACTTCCACAGTTGGGGCACTCACAGTATTTGGGGT
GTCTCCAGGGTCCTGCAGGAGCAGTCCACTTCCTTCAGAGGGTCTGTGGGTCCTCTTGGGATTGCTAGTTTGTTTTTGCAGTTGATCTGGAGGTAAAATT
CGCAATGGGAGACTCTGTATGCCGCACTGTCCGTCTGAGTTGGAGCTGCAATCTAGTCCTGCCTTCCGTCCGCCATGATGATCTTGTCTTGGAGCTTTTT
GTAGGGAGAATATTCATCCGTGGAAAGAAACCTTTTATTTTATTTTTCTTTCTTTATTTTATTTTATTTTATTTTTTGAGACGGAGTCTGCCTCTGTCAC
ACAGACTGGAGTGCAGTGGTGCCATGTCGGCTCACTGTAGCCTCCGTGTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGTATATG
CCACCATGCCCAGCTAATTTTTTTGTATTTTTTAGTAGAGACAGAGTTTCACCATGTTGGCCAAGCTGGTCTCAAATACCTGACTTCAGGTGATCTGCCC
ACCTCGGCCTCCCAAAGTGCTGGGATTGCAGGGAATGAGCCACCACTCCTAGCCAAAAAAAACCTTTTCAAAGGAAGATTCTGATGTCTCCTTCTGAAAC
AGCTCTCCTATACAAGGGGAAAAAACTTTCAATTCTCTGATGTCTCAGAAAATAACCAGCTTTCCAGCTACCTTTCCTTCGAGAGATTTACCCATCTGCA
GCCTGTTTGCCTCTTCCAATGTACATCACCAATGTACATGTACATCACCAACCCCCGGTTTCTCTTTCCTTCTCCTAGAGAAAGAAGAATGAGGATAAGG
GTGACACAAGTCACACATCTGAATGTTGCCTGTATTTCTAGTCATCTTTGTTTGATAGCGTGGTATATATTTCTGCATCTTTATTTTTTACAAATTTGTT
AAACATGTTAAAGAATACAGATTTCGTACAGTCTTCCTTTTCTTTGTATAGAGACATGGTGCTGTATTTTGAACTGGTGAACTTTATATCCTGGAAGGAA
TCAGGAAACTGCCCTCTCAAAATGTTAACATCCTGAAAGAGACTCCTCCTTCTTCCCAAAAATCTCTTATTTATAAGGGATGATGTTTTAATTATATCCA
TGTACTAATGTGCACCAGTAGGTACACACTTACTTACTAATGTTTCCTAAGATTCAGCCATTGAAAATTAACTTTCCATTTGATTGATTTACTTAATTCA
GAATGTGGTAATATCCTGACCAAGATTTTCAATGTTTTATGACCATGAGCCATAGTAAGAAATACATCTTTCATCATCACCAGGATGAAAATATTTTGTG
CATGTAGATGTGTATGAGTACCTTTAGTAGGCATTTCATATAATGGCACCTTTCCTGTTTGTCACGATGCTATGATAATTTCTATTCTGGTTCTTTTTCC
TAAATGCTTTTTAGAAGGTTTCAGATTTATTTTACAGCTCACTAAGAGTCTGTAGTGTTTATTTTGAAAATGGGTATAAAGGTCTGTTTCTTTACATCAT
ATTTTTTCTGCTATCTGTTTTCAATGAGACAGTCCAATAACTTCACATGGAACCAATCAGGGCATGACCCCTTAGGCGTTCTTTTCATCCCAGGTGATCT
TACCAACTTTCATTGTCTCATCAGGATCATCCCCCTTTGTGTATTTCTGTCAGGTCCAGCCTTTCAGATTCCCATCAAAACTGAAGGTTTCTGATCCTTT
TCTATTTCAGGTAACCAAGTTATTGTTCATATCAGTACAGACAAATGAGATTATACATGTTCTGCAAAAATTCTTGTACAGGAATACTCTGAAAATGTAG
ACATAAATACTCCTAGGTATTTGATATTTAGTATTGTGAAGAGCTTAACCAATTGCAAAGTTTAAAGTGACAGCTCACAGAAGACTGCTGTCACTGCATA
CCAATGACAAATTCAGTGGTTTCCCCAAATTAYTTTCATGTTCCATATTCTTAAAATTATGGGTTTTTATAGGGGAAAGATGCATATTACAATTAGGAGA
AAAATCAAGTAAGACASAGTCCAGGGAAGTATCAAATGAGAACTTTTTATTGTACTCTCCCCATGAAATCAGGATGCATTACATCCCCAAGATTAAGGTG
TGACATTAGACGGGAGGAGAGCCTATCAGGGAAGCTTTCCTGAGCCCTGGTATTCAGAGTAATCGTTGTCTGTTAATTACATAGCCATTATTGGTTGATT
TCTTTCCCGTATGAGTAGTCTCAGTCTCCTGGTTGACTGATTCCACATGACCTAAAGCCTCACCATAAATCACATTGTTGGTCTTTCTCACATAGTGAGC
ACCACATTCTCCTCATAGGTGTGGCCACCCATAATCCTAAATCGTAGAATTACACCGTCCAGAGTGACTTACTAGACCTACTACCTCCAGGCAAACAAAG
ACACTCTCCTAGGGCATGACATTTTAAGGACTGAGAGATTGCCTCTCAGATGCTGAGGACATCACCCAGGCCTCTTTGTGACTTAGGATAATTTCTTTAC
TTCATAAGGATATACAATACAAACTAAAATATACAAAGTTTTGACGATGTTATGGCTTCTCCTTAAAGTTCACATTTGATTCATATTTCACTGTTTACAT
AATTTATTAGTTACATAATTTACCATGCAAGGTTTTATTTCTACCAAGTATTTCACATATGACACGTGGTGTGGTTCTGAATTGGTCTCATGCAAACCAG
AGTCCATAGTGTACCTGGAAAACACATTGGCTGGGCACAGTGGCTCAAGCCTGTAATCCCAGCACTTTGGGAGGCCAAAATGGGAGTATCACTTGTGGCC
AGGAGTTCAAGACCAGCCTTGGCAACATAGCAAGACCTTGTCTCTACAAAAAGTGTAAAAATTAGCTAGTTATGGTGGTATGTGCCTGTAGTCCTAGCTA
CTCAGGAGGCAGAGGTGGGAGGATCACTTGAGCCCAGGAGGTCAAGGCTGCAGCGAGCCATGATTGTGTCCCTGCACTCCAGCCTGGGTGACAGAGGGAG
ACACTCTCTTTAAAAAAGGAAAATACAGGGCTGGGCGCAGTGGCTTACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGAGGGCGGATCACGAGGTCAG
GAGATCGAGACCATCCTGGCTAACACAGTGAAAACCCATCTGTACTAAGAATACAAAAAATTAGCTGGGCGTGGTGGCGGGCGCCTATAGTCCCAGCTAC
TGAGGAGGCTGAGGCGGGAGAATGGTGTGAACAACCCAGGAGGTGGAGCTTGCAGTGAGCGGAGATCACGCCACTGCACTCCAGCCTGGGGGACAGAGCG
AGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAARGGAAAATACAATCTGAACATTCCCTATATTTATTAAAATTTCAGGCTATGTCCTAAGTATGAAA
TCTTGATAACACTGAATAAAAGCTTTACTTGCCCACATCTCTTAATTCTGTGTCATTATAGGAGGCAAGATCCAAATGGAGATGGAGACTGTTTCAGAAT
CAGGAACACATGAAGGCTTGTTCAGTCATCAAACCTGGGAACAAATTTCAAGTGACTTAACCAGGTTTCAAGACTCCATGGTAAACAGCTTTCAGTTCTC
CAAACAAGATGATATGCCCTGCCAGGTTGATGCAGGACTATCTATAATTCACGTAAGACAGAAACCTTCTGAGGGTAGGACGTGTAAAAAGTCCTTTAGT
GATGTCTCCGTCCTTGATCTTCATCAACAACTACAGTCAAGAGAGAAGTCTCATACATGTGATGAATGTGGAAAGAGTTTCTGTTATAGCTCAGCTCTTC
GTATTCATCAGAGAGTTCACATGGGGGAGAAACTCTATAATTGTGATGTGTGTGGTAAGGAATTCAATCAGAGCTCACATCTGCAAATTCATCAGAGAAT
CCACACTGGAGAGAAACCATTCAAATGTGAGCAGTGTGGGAAAGGCTTTAGTCGTAGATCAGGACTTTATGTTCATYGTAAATTACACACAGGAGTGAAA
CCTCATATTTGTGAGAAATGTGGGAAGGCCYTCATTCATGATTCCCAGCTTCAGGAACATCAAAGAATCCATACTGGGGAGAAGCCATTCAAATGTGATA
TATGTTGTAAGAGCTTCCRTAGTAGAGCAAATCTTAATAGGCATTCCATGGTTCACATGCGAGAGAAACCATTCAGATGTGATACATGTGGTAAGAGCTT
TGGTCTGAAATCAGCACTTAATAGTCATCGCATGGTCCACACAGGAGAGAAACGGTACAAATGTGAGGAATGTGGAAAACRCTTCATTTATAGGCAAGAT
CTTTATAAGCATCAGATAGACCACACAGGGGAGAAGCCATATAATTGTAAAGAATGTGGAAAGAGCTTCAGATGGGCCTCAGGTCTTTCAAGACATGTGC
GAGTCCACAGTGGAGAGACAACATTCAAATGTGAAGAATGTGGGAAGGGATTTTATACAAATTCACAACGTTATTCTCACCAGAGAGCGCACAGTGGAGA
AAAGCCATATAGATGTGAGGAGTGTGGGAAGGGCTACAAAAGGAGGTTGGATCTTGACTTTCATCAGAGGGTCCACAGAGGAGAGAAACCCTATAATTGT
AAGGAATGTGGGAAGAGCTTTGGCTGGGCCTCGTGTCTTTTGAATCATCAGAGAATCCACAGTGGAGAAAAACCATTTAAATGTGAAGAATGTGGGAAAA
GATTTACTCAGAATTCACAACTTTATACCCATCGTAGAGTCCACAGTGGAGAAAAACCATTCAAATGTGAAGAGTGTGGGAAAAGATTTACTCAGAATTC
ACAACTTTATTCTCATCGCAGAGTCCACACTGGAGTAAAGCCATACAAATGTGAAGAGTGTGGGAAGGGCTTCAACAGTAAGTTTAATCTTGACATGCAC
CAGAGGGTCCACACYGGAGAGAGACCTTATAATTGTAAAGAATGTGGGAAGAGCTTTAGCCGGGCCTCAAGTATTTTGAATCATAAGAGACTCCATGGTG
ATGAAAAGCCATTCAAATGTGAAGAGTGTGGGAAGAGATTTACTGAGAATTCACAGCTTCATTCCCATCAGAGGGTTCACACTGGGGAAAAGCCATACAA
ATGTGAGAAGTGTGGAAAGAGCTTCAGATGGGCCTCAACTCATCTAACCCATCAGAGACTCCACAGTAGAGAAAAACTACTTCAATGTGAGGACTGTGGG
AAGAGCATTGTGCACAGTTCATGCCTTAAAGACCAACAAAGAGACCAAAGTGGAGAGAAAWCATCTAAATGTGAGGACTGTGGGAAGCGCTACAAGAGGC
GCTTGAATCTTGATACGCTTTTGTCATTATTTTTAAATGACACATAACTGTTGTACTCATTTATGGGGTACAGTGTGATAGTTAATGCAAGTATACAATG
TGTAATGATCAAATCAGTGTAATTAACATACCTATCACCTCAAACATTTATCATTTATTTATGTTGGGAACCCTTAAAATTCACTGTCCTAGCTATTTGA
AAATAATACGTTGTTAATTACTGTCACCCTGTAGTGGTGTAAAACACTAGAACTTATTCCTCCTACCTGCCTGTATTTCTGTATTCATTAACCAACCTTT
GGCTACCACCCTGCCTCCTCACCTCTAAGAACTACTATTCTACTCTCTACTTCTATGAAGTTAACTTTTTGAGCTTCCACATATGTGTGAGAACATGTGG
TATGTATCTTTCTGTGCCTGGCATATATCACTTAATATAATGCCCTGTAAGTCTCATTCACTTTGCTGTGAGTGATAGAATTTTGTTGTTTTTCATGGCT
AAATAGTACTCTGATGTGTATATTTGCCCCATTTTCTTTATTCATTCATCCAGTGGACACTTAGGTTGATTACATACCTTGGCCTATTTCTTGGCTATCG
TGAATGGTGCTGCAATAAACATGGGGGGGTGGAGATAACACTTTAACATACTGATTTCCTTTTCTTTGGATATGTACCAAGTATCATATAATAGTATGAC
ATGACTCAAAATTAAGGAATAAGATTGTGGAAATTGGTTTTCAAAAAAAAATTCTCTAGTTTGAATATAGAGAAAAATTGGTGAGTGTCTTCAGCTGTCC
TCATACATAATGCATGTGAGCTCGCTTTAAGCATAAGTGAAGGAGTGGAAAAATCCTGGAGATAGAAATCAAGGGGTATACATGTGGATGTAAAAAATCA
ACAAAGATTCTTTTAAGAAAAGGTGTGTATGGGTAGGGAACAATAGCATGACAGCAGTGCGGCCTCTAACAGTCTGGAACCAGTTAGGAMAAAGAGCAGG
ATTGAGCGCCATTCCATTCATAGACACCGTGGTGATATTTTGAGTACATTAGGTTAAAAGGCTTTCTTCAGCAAAAYCTMTCTCTAGAGATAGATTTGAT
TTTTATAATCAAAYCTMCYMGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTG
ATTTTTATACTTAATGTTCTAGACTGTATCTTTTCAGGATGCTAGGTACTTTATGAAGATCCATGCTGTCTCAATTTGCATAGTGGGTTGGAGGTCCCTA
AGACAATCTCTCCAGATTCTATGATTTGCTAAGAGGACTCAGAATATAGTTGTACTCATGACTATATTATAGTGACAGGATACAAATAATCAGCAAAGGG
AAAAGGTTCTTGTATAATATCTGGAGGGAATCAGATGTAAATTTGTAAAGATCCTTTGTGCATGGAGTAACAGGTCTCAATTCCTCCAGTATTGAATTGT
GACTGTACTTGTGAAATGTCTACAATGGAAATTAATTATCAACCCGTACCAAAGGTTCTTATTGGAACTAATCATGTAGGTACCATCCCTCTGGKACATA
TCAAGATTCTAGACTCCAAGAAGGGGAGCAAGTGTTCAGAATAACTTGAACCATGCCTACCRGTTATGGAATGGKGGCAACCCTCTCAAACTCCGTGTTT
CCTAACACCAGCTAAAGGCCAGTCTTATAAGCAGTCCTTTCTAAGATTTGCAGTCTCAGGCCTGTTATATTAACTTTTTGTGCACATAGTACTAGAAAAC
TGTTGGCTCAGTCTTCTTTTTGTTTTGTGTGTTTTGGTTTTTAACTGTCACCGATACCAGAATAGCTCATCTCCAAGGTAACTGTAACAGAACACTYAGC
AGATTAAACAGAAAATACTTGCTTATTATAATTATTAAAAGTTTGGTAGGGTCTATGTCTGCTCTCTGGTGTGTCCTGGATCATCAACTTGGTTACAACA
TGGTGTTAACATGTGGGACTGATTGTGTTTCTTGTTAATATTTCTGTTTCTCCCAACCACGCTGAATATTAAATACCTAGTTCTATATCTAGTACCCTGA
GCTTATGTGGGGCTAATATTCTTTGCCATTTTTCACCACAGATTTGATTTCCTTTTTCTTTTGTGGACACTGGTGAGTTCCCTAATATAACTTTGACTTG
GTTATATTTTCACAATCGGTGGGGATTATTACAGATTATCATCCTTCCTCTGCATTTGAAAAAGGAGGGAGGCTTCAAGTCAGGTTAGTTGACCTTCCTT
TGTTGGTCTTATTATCCATAACATAATAAATAAATTGATGAGGATGGGCATGGTGGCTCACGCTTGTAATTCCAGCATTTAGGGAGGCTGAGGCGGCGTT
TTAGACCAGCCTAGCCAATGTGGTGAAACCTCATCTCTACTAAAAATACAAAAAATATGCCAGGTGTGGTGGTGTGCGCCTGCAATCCTAGCTACTCAGG
AGGCTGAGGCAGGAGAATCGCTTGAGCCTAGGAGGCGGAAGTTTGCAGTGAGCCAGAATCGTGCCACTGTACTCCTGCCTGGGTGATACAGTGAGTCTCC
ATCTCAAAAAAATAAGTTTATGAGAAGTCTATTAAATTGTTACATAATCTATATAGGTAGAAGGTTTCTATTTCAAGTGAACCAAAGTGTAACTTGAATC
GTCTAATGCAGACTCACAGCCCAAAAATAAATTCCAAGACATGTCCACTTTACAAATCCACAATTCCTTTGATGGGGTGGGAGGGCAGTTCTGGATAAGG
ATGGACCCTGCTAGATTGCAAAAAATTTACAGCACTAATTTTTTCCCCAGAGATCTCCATAAGGACCTATGGTCATGAACTTCTGTGACTGTGTACTCAA
AAAGAGAAATAATCACACATTTTGGCAGTGACTGAATTCTTGTTTTCAAGTAGGATAAATCCAAAGAGACTCACACTGAGACACATTATAATCAAAAAGA
CAAGGAACATCTTGAAAGCAGCAGCATGAAAGTGACTTGTCATGTACAAGAGATCCTCAATAATATCATCAATGGCTCTGGCCAGGTACAGTGGCTCATG
CCTATAATCGCAGCACTTTGGGAGGCTGAAGCAGGTGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTAGCCAACACGGTGAAACCCTGTGTGTACTA
AAACTACAAAAATTAGCCAGGCGTGGTGGTGTACACCTATAGTGCCAGCTACTCAGGAGGCTGAGACAGGAGAATCACTTGAACCTGGAAGGCAGAGATT
GCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGTGACAGAGGGAGACTGTCTCAAAAAAGAAAAAAAAAAAAAAAAAAAGATCATCAGTGGATT
TCTCAGCAAACCTCCAAGGCCAGATGATGTATTAAAGTGCTGGAAAAAAACCTGGTATATTGAGGATTCTATATTCAGCAAAACTATACTTCCAAAATGA
GAGATCAATTAATAACTTTTCAGAAAAACAAAAGCTGAGAGAATTGCCAGTAGACAAGTTATTCAAGAATTGAAAAGGTTGGGAGGCTGAGGCAGGCAGA
TCATTTGAGGCCAGGAGTTTGAGACCAGCATGGCCAACATGGTGAAACCCTGTCTTTACTAAAAATATAAAAATTAGCCGGGCGTGGTCGTGGGCGCCTG
TAATCCCAGCTACACAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCACTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGG
CAACACAGTGAGACTCCATCTCAAAAAAAAAAATTGATAAAGGGAATCAATCCTTCAAGTTGAAATGAAAGGATTTTAGACAATAACTTGAAATCATATG
AAAATATAAAGATCTATACTAAAGGCAATTGCATGAAGCAATACAAACAACATTATGATAGTAATTTTAGTTTGTAATCCCAGTTTTTATTTTCCATACA
ACGTAAAAGACAAATGCATAAAAATGACTACCAATCTATGTAAATAAGTACACGATATGTAAAGATGTACTATGAGATCAGTAACAGTGCGGGAAGGAAA
GAGCTGTGAAGGAGTAGGGTTTTTATATCTGATTGAAGTTAAGTTGGTATCAATTTAAAAGACTGTTATAACTTTAGGATGTTACATATACTTTTGGTGA
CTATAAAGAAAATATCAATGAAACATGCACAAAAGAAAATAAGAAGTGATTCAAGGCAAGGCAGGGTGGCTCATGCCCGTAATCCCAGCACTTTGGGAGG
CCAAGGCGGGTAGATCATGAGGTCAAGAGATTGAGACCATCCTGGCCAACATGGTGAAATCCCATCTCTGCTAAAAATACAAAAAAAATTAGTTGGGGAT
GGTGGCACGTGCCTGTAGTCCCAGCTACTCGGGAGGTTGAGGCAGGAGAATTGCTTGAACCCGGGAGGTGGAGATCTTGTAGTAAGCTGAGATTGTGCCA
CTGCACTCCAGTCTGGGCGACATAGTGAGACAACATCTCAAAAAAAAAAAAAAGTGATTCAAAATTAATCACTACAAAAAAAGAACTCAACACAAAGGAC
AATTGTAATGAAGGAAATGAGAGGCAAAAACACAATAGGACATATAAAAAACAAATTTAAAATGGTAGTCCTTACCTATGTATAATTAGTTTAAGTGAAA
TTAATGAAACTCCCCAATAAAAAGATGTAGTTTGTCAAAATGATTGAAAGACAATATGTAATTATATGCTCTGCACATTAGAATTAATGACATGCATAGG
TGAAAGGCAAATGATGGAAAAAGATATCCCATGTAAAAAAAATAACAGCACAGGTAGCTATACTAACAGATAAATTAGATTTTAAGTCAAAAACTGTTAA
ACGAGACATTAAATATTGCTAAAAGGTTCATTTCACTAAGATGAAACAGTTATAAACATATGTGCACCAAATATCAGAGTTCCAAAATATAAAATGTAAA
TACTGACAGAATTGAAGGGAGAAATATACAGCTCTCCAATAATAGTAAGAGACTCCCTACCTTTCTTTCAAATGCATAGGACACCCAGACAAAAGATAAA
TAAGGAAACAGATAATTTGAAGAACATTATACACCAATTCAACCTGAGAGACATTGACATAACTCTCCGCCCCCCAACAGAATACACATTTTCTCAACTG
CACATGAAACATTCTTCAAGACAGACCATATATTAGGCCACAAAACAAGTCTTGATAAATGTAAAAGTTTGACACCATAAAAATATATTTTCCAACTACA
GTCTAGATCATAATAACTAGACATCAATAGCAGTATAAAAAGTGAAAAAAGCCTGAGGCGAGAGGATCACTTAAGTCTAGAAGTTTGAGACCAGCCTGAG
CAACATGGTGAGACTCTGTCTCTACCAAAAAAACAAAAAACAAAAAGGCTGGGCCGAGGTGGGCAGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGG
CCAACATGGTGAAACCCCGGCTCTACTAAAAATATAAAATTATTCGGGCGTGGTGGTGCATGCCTATAATCCCAGCTACTTGGGAGGCTAAGGCAGGAGA
ATCTCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGTCATTGCACTCCAGCCTGGGCAACAAGAGGGAAACTCCGTCTCAAAAAAAAAAA
AGTATATATTTGCTAGTTTTGTCAGCTGAGAGGGTCAAGAATAAAAAACACTAAGGTAGCAGCGATCATACCTAGCACTCAGTTCTTTGTTTCTAACTAC
ATTTTCCACAAATAGGAACCAGAAGTCCTAGGAGAAATATCTGATCTCATGGCTAGGGTAGGGAAAATACCCAATGAACTTGAAAAATACCTAATGAACT
TGGAACACACAGTATCAGAAAGTAAACCAGTGCACAAAGAGCTCATATCATGATGAACAGGAGGAGCCAGAAGGCAAGAGGGGACTGCTTGAAGAGGATT
TTACTGGCAAAATCTGAGACAACCAGAGAATCAAAATACATAATAACAGTAGTAGATGTGAACTCATTAATATAACAAGAATTCACAAATCCACACTGGT
ATAAACAAATAAATAATATAGATGGAAAGCTTTTTCTTAGAGCATAATGCCAAAAAATCAACATAGAATGAGTTGGAGTATCTCAGTTTTTCACCAGATA
GTAGTAACTTTTTAGGGGAAAAATAATTTTAGAGTGCAGAATTCTGGAGAGAAACCCCTTAATCAACTGTTCAAGTTTAGCAGCACCAGTAATGGATAAA
AACTAGTATCTGGTATATCCTGAGATCATGCACTAAGGACAGAAATTGATCATAATCCAGAAAGACATAATCTTGAATGTTGGAATCGCTGAAGATCAAA
ATGTTAAAAATATAACCCTGGAAAAAATAATTTTAAATTTTTTAGAAGATATTGACTGATTTACATTTCTTTCTTTTCTTCCTTTTTTTTTTTGTTTTTT
TTTCTGAGACAGAGTCTCGCTCTGTCACTCAGCTGGAGTGCATTTCCCTTCCTTCCTCCCTCCCTTCCACTTTTTTTTTTTTTTTCTGAGACAGTGTCTC
GTTCTGTCACCCAGATTGGAGTGCAGTGGCGTGATCTCGGCCTCCCAGGTTCAAGTGATTCTTGTACCTCAGCCTCCTGAGTAGCTGGGATTACAGGCAT
GTATCACCATGCCACGCCCAGCTGATTTTTTGTATTTTTAGTGGAGACAGTGTTTCACTATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTAAT
CCGCTGGCCTTGGCATCCCAAAGTACTGGGTTTACAAGCGTGAGCCACTGCGCCTGGCCGAGATGGAGCATCTCAATAAATTTTGTCATTTGGAAGGGCC
GACTAGAGCAACAATACAGCTGTAACTAGTATAGAAATAGCAGTCAGTCAATTTTCAAAGAGGGGGATGTGTGGCATTGTGTGGTTAGCATAGTAACCTT
GTTTTTATGTAAACACAATTGTGAAAAGGTATTTTTTTAGTTTATAAAATGAATCTAGAATGTGAGACTTCATTTTTTAAAAAACAAAAATATAGATTGA
TAAGTGTATTAGTCCATTCCCCCATTGCTATAAAGAAATACGTGAGTCTGGGTAATTTATAAAGAGGTTTCATTGGCTCACACAGAGTCCTGCAGCCTGT
AAAGGAAACATGGCAGCATCAGCTCAGCTTCTGGGGAGGCCTCAGGAAACTTACAACCATGCTGCAAGGCGACTAGGGAGCCAGCACTTCACATGGCCAG
AGTAGGAGGAAAAGAGCGAGGAGTGAGATGCTACACAATTTTAAACAAGCAGATCTCATGAGAACTCTATCAGGAGAACAGCACTAGAGGGATGGTGCTA
AACCATTAGAAACCTCCCCGGTGATCCAATCGCCTCCCACCAGGCCCCAACTCCAACACTGGGGATTACATTTCAACATGAGATTTGGGTGGGGACACAG
ATCTAAACCATATCAATAGGCCAATGTATGTTTATGGGGAGAAAAAAATCTGGTTATCTTTTTTTTTTTTTTTTTTTCCGTGACAGAGTCTTGCTCTGTC
GCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAACCTCTGCCTCTCAGGTTCAAGCGATTCTCCTACCTCAGTCTCCCGAGTAGCTGGAATT
ACAGGCACGCACCACCATGCCCGGCTAATTTTTGTATTCTTAGTAGATATGGGTTTTCACCATGTTCTCCTGGCTGGTCTCGAACTCTTGACCTCATGGT
CCGCCCGCCTTGGCCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCAGCCCCTGGTTATCTTGAAGAAAGATTTTAGATGGGTTTTTTTC
TGATTTTGCTTTATTCTATTATTTATTTGTATCAACCAATGTAAGCCAGAT


SNP Information

Context             (SEQ ID NO:66609):
TGTAGGTACCATCCCTCTGGTACATATCAAGATTCTAGACTCCAAGAAGGGGAGCAAGTGTTCAGAATAACTTGAACCATGCCTACCAGTTATGGAATGG
K
GGCAACCCTCTCAAACTCCGTGTTTCCTAACACCAGCTAAAGGCCAGTCTTATAAGCAGTCCTTTCTAAGATTTGCAGTCTCAGGCCTGTTATATTAACT
Celera SNP ID:            hCV8713565
SNP Position Genomic:     26975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66610):
AAACTGTTGGCTCAGTCTTCTTTTTGTTTTGTGTGTTTTGGTTTTTAACTGTCACCGATACCAGAATAGCTCATCTCCAAGGTAACTGTAACAGAACACT
Y
AGCAGATTAAACAGAAAATACTTGCTTATTATAATTATTAAAAGTTTGGTAGGGTCTATGTCTGCTCTCTGGTGTGTCCTGGATCATCAACTTGGTTACA
Celera SNP ID:            hCV8713566
SNP Position Genomic:     27197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66611):
ACCATAATTCAGTTTAAATAATTTTCATCCCCCATTAAGCCTCCTTGTGCTCACTTATAGTTAATCCTCTTTGTCACCTCAAATATGCAGAGACCACCTA
Y
CTACTTTCTCGTTATATACACTTGCCTACTCTGGAATTTCATAGATATAGGATCATGCAATATGTGGGCCTTCCTATGTGACTGGCTTCTTTCACTTAGC
Celera SNP ID:            hCV27840404
SNP Position Genomic:     8001
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,38|T,2)   total(C,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:66612):
TACTGTTTTTTTGATTTTTGATTATGGTCATTCTTGCAGGAGTAAGGTGGTATCGCATTGTGGTTTTGATTTGCATTTCCCTGATCATTAGTGATTTTGA
R
CTTTTTAAAATATGTTTGTTGGCCATCTATATCTTCTTTTGAAAATTGTCTATTCATGTTCTTAGCCCACTTTTTGATGGGGTTGTTTGGTTTTTTTCTT
Celera SNP ID:            hCV11707395
SNP Position Genomic:     14368
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66613):
GGACGTGGCTGTGGTCTTCACTGAGGAAGAGCTGAGGCTGCTGGACCTTGCCCAGAGGAAACTGTACCGAGAAGTGATGCTGGAGAACTTCAGGAACCTG
Y
TCTCAGTGGGTGAGGACAGGCACCCTTTGTAAGGGAACATCAGGACCAGGAGTGGCTTTGTATCCTAGAGTGTTCAAGTTTGAGTATGCATTGGGAACCT
Celera SNP ID:            hCV25623970
SNP Position Genomic:     10917
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66614):
TTAGAGCTCCTTTTAGCAGTTCTTGTAGTGGTGGCTTGGTAGTGGCAAATTCTGTCAGCGTTTGTCTGAAAAAGACTGTATCTTCCATTCATATATGATG
Y
TTAGTTTTGGTGGATACAAAATTCTTGGCTGATAATTGTTTTGTTTAAGGAGGCTGAAGATAGGGCCCCAATCTCTTCTAGCTTGTAGGGTTTCTGTTGA
Celera SNP ID:            hCV11707397
SNP Position Genomic:     17907
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66615):
AGTATGCATTGGGAACCTAAGTTTCCAGTAAATTTTACTTAGATTTTTTTCTAGGATATATTGGCACTAAGCACATGACTTTTCACGTTCACAGGGCATC
R
ATCACTCCACAGAGATACTTTCCACTTCCTAAAGGAAGAAAAGTTTTGGATGATGGAGACAGCAACCCAAAGAGAAGGGAATTTAGGTAAGAAGCAAGCA
Celera SNP ID:            hCV25623971
SNP Position Genomic:     11100
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,40)   total(A,74|G,2)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66616):
CTTTCCACTTCCTAAAGGAAGAAAAGTTTTGGATGATGGAGACAGCAACCCAAAGAGAAGGGAATTTAGGTAAGAAGCAAGCAACTCTGTGTCCTTGTGC
R
TGACTCTCCCATCGGTTTCACTTCTGTCCATTGCCCAGCTCTGTTGTCCTGGTCTAAATGGCCAGACCTCTTTCCTGAATTATTACAGCTGACTTTCGGC
Celera SNP ID:            hCV25623972
SNP Position Genomic:     11218
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,30)   caucasian(G,40)   total(A,8|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:66617):
ATGTTTTCCAAGCTTTTAGAATTCTCTTCTTCCTCAGGAACACTGATTATTCTTAGGTTTGGTCCTTTAACATAATCCCATACTTCTTTGAGGCTTTGTT
Y
ATATTTTCTTATTCTTTTTTCTTTGTCTTTGTTGGATTGGGTTAATTCGAAGAACTTGTCTTCAAGCTCTGAATTTCTTTCTTCTACTTGTTCAATTCTA
Celera SNP ID:            hCV11707398
SNP Position Genomic:     18337
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66618):
ACATCTGCAAATTCATCAGAGAATCCACACTGGAGAGAAACCATTCAAATGTGAGCAGTGTGGGAAAGGCTTTAGTCGTAGATCAGGACTTTATGTTCAT
Y
GTAAATTACACACAGGAGTGAAACCTCATATTTGTGAGAAATGTGGGAAGGCCTTCATTCATGATTCCCAGCTTCAGGAACATCAAAGAATCCATACTGG
Celera SNP ID:            hCV25623990
SNP Position Genomic:     23977
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,34)   total(C,67|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66619):
AAGGAAGAAAAGTTTTGGATGATGGAGACAGCAACCCAAAGAGAAGGGAATTTAGGTAAGAAGCAAGCAACTCTGTGTCCTTGTGCGTGACTCTCCCATC
K
GTTTCACTTCTGTCCATTGCCCAGCTCTGTTGTCCTGGTCTAAATGGCCAGACCTCTTTCCTGAATTATTACAGCTGACTTTCGGCTGGTTTCCCTGCTC
Celera SNP ID:            hCV25623979
SNP Position Genomic:     11232
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,10)   caucasian(G,40)   total(G,68|T,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:66620):
CACATTCGTGTTGGTGGATGGCATCCCTGGCCACACTTTCATGTCTCTTTTTCTGCCTTCCCTGGTACTTTCCAGGCAGGATTCTGCTTTCCCTTGGACT
R
TATCACTCAGGACTCTGAATATTCCCTGAAATAGGAGGAAAAATGACCACGTTGAAGGTGAGTAGAGCTTGCCTCTCTTGCTGTTAAAATTTCTTTTATG
Celera SNP ID:            hCV27830718
SNP Position Genomic:     8397
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,36)   total(A,2|G,72)
SNP Type:                 UTR 5


Context             (SEQ ID NO:66621):
AAGTTCATGCGTGTTGTAGCATGAATCAGTACTTCATTCCTTTTAATTTCCAAATAAGATTCCATTGTATGGATAGGCCACAATTTGTCTATCCATGTAC
K
CATAGGAGGGAGTTTGTTGGTGTGCAGTTTTGGGTTACTATGAATGATGCTGTTGGGAACATTCATGTGTTAATTTACAATACACATTCGTGTTGGTGGA
Celera SNP ID:            hCV27852242
SNP Position Genomic:     8214
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,40)   total(G,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66622):
GCAGTGTGGGAAAGGCTTTAGTCGTAGATCAGGACTTTATGTTCATCGTAAATTACACACAGGAGTGAAACCTCATATTTGTGAGAAATGTGGGAAGGCC
Y
TCATTCATGATTCCCAGCTTCAGGAACATCAAAGAATCCATACTGGGGAGAAGCCATTCAAATGTGATATATGTTGTAAGAGCTTCCGTAGTAGAGCAAA
Celera SNP ID:            hCV25623998
SNP Position Genomic:     24031
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,37)   total(C,1|T,71)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66623):
GATACATGTGGTAAGAGCTTTGGTCTGAAATCAGCACTTAATAGTCATCGCATGGTCCACACAGGAGAGAAACGGTACAAATGTGAGGAATGTGGAAAAC
R
CTTCATTTATAGGCAAGATCTTTATAAGCATCAGATAGACCACACAGGGGAGAAGCCATATAATTGTAAAGAATGTGGAAAGAGCTTCAGATGGGCCTCA
Celera SNP ID:            hCV25623999
SNP Position Genomic:     24281
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,1|G,37)   total(A,4|G,72)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66624):
CCAGGAGGTGGAGCTTGCAGTGAGCGGAGATCACGCCACTGCACTCCAGCCTGGGGGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAA
R
GGAAAATACAATCTGAACATTCCCTATATTTATTAAAATTTCAGGCTATGTCCTAAGTATGAAATCTTGATAACACTGAATAAAAGCTTTACTTGCCCAC
Celera SNP ID:            hCV26635110
SNP Position Genomic:     23336
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66625):
TCTGGAACCAGTTAGGACAAAGAGCAGGATTGAGCGCCATTCCATTCATAGACACCGTGGTGATATTTTGAGTACATTAGGTTAAAAGGCTTTCTTCAGC
A
AAATCTATCTCTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTA
Celera SNP ID:            hCV26635111
SNP Position Genomic:     26373
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,14)   total(A,2|-,14) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66626):
GAACCAGTTAGGACAAAGAGCAGGATTGAGCGCCATTCCATTCATAGACACCGTGGTGATATTTTGAGTACATTAGGTTAAAAGGCTTTCTTCAGCAAAA
Y
CTATCTCTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATAAT
Celera SNP ID:            hCV26635112
SNP Position Genomic:     26377
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,2|-,14)   total(C,2|-,14|T,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66627):
CCAGTTAGGACAAAGAGCAGGATTGAGCGCCATTCCATTCATAGACACCGTGGTGATATTTTGAGTACATTAGGTTAAAAGGCTTTCTTCAGCAAAATCT
M
TCTCTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATAATCAA
Celera SNP ID:            hCV26635113
SNP Position Genomic:     26380
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,2|-,12)   total(A,2|C,2|-,12) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66628):
CCATTCATAGACACCGTGGTGATATTTTGAGTACATTAGGTTAAAAGGCTTTCTTCAGCAAAATCTATCTCTAGAGATAGATTTGATTTTTATAATCAAA
Y
CTACTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATACTTAA
Celera SNP ID:            hCV26635114
SNP Position Genomic:     26414
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|T,7|-,10)   total(C,7|-,10|T,7) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66629):
TTCATAGACACCGTGGTGATATTTTGAGTACATTAGGTTAAAAGGCTTTCTTCAGCAAAATCTATCTCTAGAGATAGATTTGATTTTTATAATCAAATCT
M
CTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATACTTAATGT
Celera SNP ID:            hCV26635115
SNP Position Genomic:     26417
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|C,7|-,11)   total(A,7|C,7|-,11) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66630):
ATAGACACCGTGGTGATATTTTGAGTACATTAGGTTAAAAGGCTTTCTTCAGCAAAATCTATCTCTAGAGATAGATTTGATTTTTATAATCAAATCTACT
M
GAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATACTTAATGTTCT
Celera SNP ID:            hCV26635116
SNP Position Genomic:     26420
SNP Source:               Celera
Population(Allele,Count): no_pop(A,7|C,7|-,11)   total(A,7|C,7|-,11) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66631):
CATAGACACCGTGGTGATATTTTGAGTACATTAGGTTAAAAGGCTTTCTTCAGCAAAATCTATCTCTAGAGATAGATTTGATTTTTATAATCAAATCTAC
Y
AGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATAATCAAATCTACTAGAGATAGATTTGATTTTTATACTTAATGTTC
Celera SNP ID:            hCV8713553
SNP Position Genomic:     26419
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,17)   total(C,1|T,17) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66632):
AATTGTGACTGTACTTGTGAAATGTCTACAATGGAAATTAATTATCAACCCGTACCAAAGGTTCTTATTGGAACTAATCATGTAGGTACCATCCCTCTGG
K
ACATATCAAGATTCTAGACTCCAAGAAGGGGAGCAAGTGTTCAGAATAACTTGAACCATGCCTACCAGTTATGGAATGGTGGCAACCCTCTCAAACTCCG
Celera SNP ID:            hCV8713554
SNP Position Genomic:     26895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66633):
TTGGAACTAATCATGTAGGTACCATCCCTCTGGTACATATCAAGATTCTAGACTCCAAGAAGGGGAGCAAGTGTTCAGAATAACTTGAACCATGCCTACC
R
GTTATGGAATGGTGGCAACCCTCTCAAACTCCGTGTTTCCTAACACCAGCTAAAGGCCAGTCTTATAAGCAGTCCTTTCTAAGATTTGCAGTCTCAGGCC
Celera SNP ID:            hCV8713555
SNP Position Genomic:     26962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66634):
GTTGTAGCATGAATCAGTACTTCATTCCTTTTAATTTCCAAATAAGATTCCATTGTATGGATAGGCCACAATTTGTCTATCCATGTACGCATAGGAGGGA
R
TTTGTTGGTGTGCAGTTTTGGGTTACTATGAATGATGCTGTTGGGAACATTCATGTGTTAATTTACAATACACATTCGTGTTGGTGGATGGCATCCCTGG
Celera SNP ID:            hCV27834718
SNP Position Genomic:     8226
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,19)   caucasian(G,38)   total(A,3|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:66635):
TGTGGGAAGGCCTTCATTCATGATTCCCAGCTTCAGGAACATCAAAGAATCCATACTGGGGAGAAGCCATTCAAATGTGATATATGTTGTAAGAGCTTCC
R
TAGTAGAGCAAATCTTAATAGGCATTCCATGGTTCACATGCGAGAGAAACCATTCAGATGTGATACATGTGGTAAGAGCTTTGGTCTGAAATCAGCACTT
Celera SNP ID:            hCV25624000
SNP Position Genomic:     24119
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66636):
ATTGTGAAGAGCTTAACCAATTGCAAAGTTTAAAGTGACAGCTCACAGAAGACTGCTGTCACTGCATACCAATGACAAATTCAGTGGTTTCCCCAAATTA
Y
TTTCATGTTCCATATTCTTAAAATTATGGGTTTTTATAGGGGAAAGATGCATATTACAATTAGGAGAAAAATCAAGTAAGACAGAGTCCAGGGAAGTATC
Celera SNP ID:            hCV2814100
SNP Position Genomic:     21933
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66637):
TGGTTTCCCCAAATTATTTTCATGTTCCATATTCTTAAAATTATGGGTTTTTATAGGGGAAAGATGCATATTACAATTAGGAGAAAAATCAAGTAAGACA
S
AGTCCAGGGAAGTATCAAATGAGAACTTTTTATTGTACTCTCCCCATGAAATCAGGATGCATTACATCCCCAAGATTAAGGTGTGACATTAGACGGGAGG
Celera SNP ID:            hCV2814101
SNP Position Genomic:     22017
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66638):
CCAGTCTTATTAAGTTAAATGACATGTGGATGAACAATTACCAATGCTTTGTCCAACTTTATTGAGGTGTATTCTACATATCATAGAAACTACCCATTTC
R
TGTGTACACTTTAATGATTTTTAGGAACTTTGTGGAGTGGAATAAACATCACCATAATTCAGTTTAAATAATTTTCATCCCCCATTAAGCCTCCTTGTGC
Celera SNP ID:            hCV27858027
SNP Position Genomic:     7850
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,25)   caucasian(G,40)   total(A,5|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:66639):
CTCCGGAGTTCAAGTGATTCTCCTGCTTCAGCCTCCCAAGTAGCTGGGACTACAGGCACACACCACCACACCCAGAAAATTTTTGTATTTTTAGTAGAGA
Y
GGGGTTTCATCATCTTGGCCAGGCTGTTCTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTTAGCCTCCCAAAGTGCTGGAATTGCAGATGTGAGCCAC
Celera SNP ID:            hCV25623963
SNP Position Genomic:     8662
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,21)   caucasian(C,3|T,37)   total(C,18|T,58)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,2|T,36)   total(C,16|T,58)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66640):
AGAAAAGTTTTGGATGATGGAGACAGCAACCCAAAGAGAAGGGAATTTAGGTAAGAAGCAAGCAACTCTGTGTCCTTGTGCGTGACTCTCCCATCGGTTT
Y
ACTTCTGTCCATTGCCCAGCTCTGTTGTCCTGGTCTAAATGGCCAGACCTCTTTCCTGAATTATTACAGCTGACTTTCGGCTGGTTTCCCTGCTCCCACT
Celera SNP ID:            hCV25623980
SNP Position Genomic:     11237
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,40)   total(C,70|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:66641):
AGACAGCAACCCAAAGAGAAGGGAATTTAGGTAAGAAGCAAGCAACTCTGTGTCCTTGTGCGTGACTCTCCCATCGGTTTCACTTCTGTCCATTGCCCAG
S
TCTGTTGTCCTGGTCTAAATGGCCAGACCTCTTTCCTGAATTATTACAGCTGACTTTCGGCTGGTTTCCCTGCTCCCACTTTTCCCACCCTGACATCTGT
Celera SNP ID:            hCV25623981
SNP Position Genomic:     11257
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,7)   caucasian(C,40)   total(C,71|G,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:66642):
AATAATTTTCATCCCCCATTAAGCCTCCTTGTGCTCACTTATAGTTAATCCTCTTTGTCACCTCAAATATGCAGAGACCACCTATCTACTTTCTCGTTAT
R
TACACTTGCCTACTCTGGAATTTCATAGATATAGGATCATGCAATATGTGGGCCTTCCTATGTGACTGGCTTCTTTCACTTAGCATAATGTTTCCAAAGT
Celera SNP ID:            hCV27838519
SNP Position Genomic:     8017
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,5)   caucasian(A,38)   total(A,71|G,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:66643):
TACTATGCAGACATGAAATGAGATAAAATAGATGGCAACAATGACAATAATAATAAAAAAAATTTTAAAAAGCTAGTGTTTATTAGGTATTTAGTCTGCA
M
TGATCAACTTTCCCAATGCTGCATGTATTTCCTTGTTTAATCATTGAAAAAACTATAATATGAAAATTATTAGAGAGGGAGTAAATAGGTGAACTTGTCC
Celera SNP ID:            hCV29187674
SNP Position Genomic:     9771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66644):
ATTATTAGAGAGGGAGTAAATAGGTGAACTTGTCCAAGGTCATGTGACCAGGAAGGCACAGAGCCTTGGGATGTGCTTTTAGGCACACTGTCTGCAGATC
R
TAGATCAATGCTGCAATCAATGTATGTAGTTTATGCCTTGAGAGTACACAGGATGTACTGTATAGCTGTCCCACACAGGTTACCACAAGCTTTGTTAGTT
Celera SNP ID:            hCV29187675
SNP Position Genomic:     9937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66645):
CCAGACCTCTTTCCTGAATTATTACAGCTGACTTTCGGCTGGTTTCCCTGCTCCCACTTTTCCCACCCTGACATCTGTTTTCCTCATGGCAGCCAATGTA
W
TCCTTAGGAAAGTCAGACTGCCATTCCTCGGCTCAAAAGCCTTTCTGGCTTCTTTTTTTTTTTTTTGAGATGGAGTCTCGCTGTGTCGCCCAGGCTGGAG
Celera SNP ID:            hCV25623988
SNP Position Genomic:     11380
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,24)   caucasian(T,30)   total(A,4|T,54)
SNP Type:                 INTRON


Context             (SEQ ID NO:66646):
CCACAGTAGAGAAAAACTACTTCAATGTGAGGACTGTGGGAAGAGCATTGTGCACAGTTCATGCCTTAAAGACCAACAAAGAGACCAAAGTGGAGAGAAA
W
CATCTAAATGTGAGGACTGTGGGAAGCGCTACAAGAGGCGCTTGAATCTTGATACGCTTTTGTCATTATTTTTAAATGACACATAACTGTTGTACTCATT
Celera SNP ID:            hCV25623989
SNP Position Genomic:     25261
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,3)   caucasian(A,34|T,2)   total(A,69|T,5)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66647):
ATCGCAGAGTCCACACTGGAGTAAAGCCATACAAATGTGAAGAGTGTGGGAAGGGCTTCAACAGTAAGTTTAATCTTGACATGCACCAGAGGGTCCACAC
Y
GGAGAGAGACCTTATAATTGTAAAGAATGTGGGAAGAGCTTTAGCCGGGCCTCAAGTATTTTGAATCATAAGAGACTCCATGGTGATGAAAAGCCATTCA
Celera SNP ID:            hCV25624049
SNP Position Genomic:     24915
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66648):
TCCAGTCTCATCCAGGTTGCTGCAAATGCTATTAATTCATTCCTTTTTATGGCTGAGTAGTATTCCATTGTATATAATACCACAGTTTTCTTTATTCACT
Y
GTTGATTGATGGGCATTTGTGTTGGTTCCACGATTTTGCAATTTTGAATTGTGCTGCTGTAAACATGCATGTGCAAGTATCTTTTTCGTGTAATGACTTC
Celera SNP ID:            hCV2814093
SNP Position Genomic:     14001
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66649):
TCATTTATCTTTTGTATTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTCAATTTCATTTATTTCTGCTCTGATCTTGGTTCTTTCCTTTCTTCTGCT
R
GGTTTGGGTTTGGTTTGTTCTTGTTTCTCTAGTTCCTTGAGGTGTGATCTTAGAATGTAAGTTTGTGCTCTTTCAGTCTTTTTGATGTAGGCATTTAGGG
Celera SNP ID:            hCV2814096
SNP Position Genomic:     16664
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66650):
AGAATGTAAGTTTGTGCTCTTTCAGTCTTTTTGATGTAGGCATTTAGGGCTATGAACTTTCCTCTTAGCACCATCTTAGCTGTATCCCAGAGGTTTTCAT
R
GGTTGTGTCATTATTGTCTTTCAGTTTGAATAATTTTTTAATTTCTATCTTGATTTCATTTTTGACCCAATGGTCATTCAGGAGCAGATTATTTAATTTC
Celera SNP ID:            hCV2814097
SNP Position Genomic:     16816
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66651):
GTAAAAAATCAACAAAGATTCTTTTAAGAAAAGGTGTGTATGGGTAGGGAACAATAGCATGACAGCAGTGCGGCCTCTAACAGTCTGGAACCAGTTAGGA
M
AAAGAGCAGGATTGAGCGCCATTCCATTCATAGACACCGTGGTGATATTTTGAGTACATTAGGTTAAAAGGCTTTCTTCAGCAAAATCTATCTCTAGAGA
Celera SNP ID:            hCV8713543
SNP Position Genomic:     26290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66652):
ACTTCTTTGAGGCTTTGTTTATATTTTCTTATTCTTTTTTCTTTGTCTTTGTTGGATTGGGTTAATTCGAAGAACTTGTCTTCAAGCTCTGAATTTCTTT
M
TTCTACTTGTTCAATTCTATTGCTGAGACTTTCCAGAGCATTTTGCATTTCTATAAGTGTGTCCAGTGTTTCCTGAATTTTTTATTTTTTTTTATTTAAG
Celera SNP ID:            hCV2814099
SNP Position Genomic:     18418
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,9)   total(A,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66653):
AGCATTTTTTTTCTAATTCTATGAAGAATGATGGTGATGTTTTGATAGGGATTGCATTTAATTTGTAGATTGCTTTTAGCAGTATGGTCATTTTCACAAT
A
TTGATTGCACCCATCCATGAGCATGAGATGTGTTTCCATTTGTTTGTGTCATGTATGATTTCTTTCAGCAGCATTCTGTAGTTTTCCTTGTAGAGGTCTT
Celera SNP ID:            hCV26635108
SNP Position Genomic:     15220
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66654):
TCTCAGCTGCAAAAGAAAAGGGCTTGGGTCTTCCCCTGCCTGTGAGTCTGCACACTGGATTCACACCCTCCCCCAAGTTCTGGCCAGGAGGCTTCTTGCC
Y
GGTTCAAACTGTTATAAAGTTCAGCTGGATACTTCTTTCTCCTTGTGGAGTTCCCCACCCCCTGCTCCTCTGGCTGCCTTCCTGATGGATCCCTGTGATG
Celera SNP ID:            hCV26635109
SNP Position Genomic:     19678
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Gene Number:                 426
Celera Gene:                 hCG39730 - 66000115828378
Gene Symbol:                 TAGLN2
Protein Name:                transgelin 2;HA1756;KIAA0120
Celera Genomic Axis:         GA_x5YUV32VSLS(1507941..1527357)
Chromosome:                  Chr1
OMIM number:                 604634
OMIM Information:            TRANSGELIN 2;TAGLN2


Genomic Sequence (SEQ ID NO:12586):
CACGGGCACTGGGAATGCAGTGCCAGCAATGCTGTGGCCCGAGTGGCCACCTCCACGAACGTCTACGTGCTGGGTTAGTGGCTGGAGAGAGGGCCAGGGG
CTGGGAGAAACTACTTGGGAATCGTTTTTGGAGGCCCAGAAAGAGGATCATGGGTGTGGGACCCCTGGGATGATGATGGGTGAAGGTCAGTGGCCCTGGG
GCCCCTGCTACTCTGTACACTCCCTCAGGCCCTGACCACCATCCCTCCATTCCCCCCTGCCTAGGCACTAGCCCTCATGTTGTCACCAATGTGTCCGTGG
TGGCTTTGCCCAAGGGTGCCAATGTCTCCTGGGAGCCTGGCTTTGATGGTGGTTATCTGCAGAGATTCAGTGTCTGGTACACCCCACTGTGAGTGACCTG
CTCCTGCCATTTCTCTGTGCCAATCTTGCCTCCTTTCCTCTCCTCCTTGAACCTATCTGGCCTTCTGCCCTTTCTTCTGTCCCTCTATCCCTCACCAGTC
CTGGCTCTGCTTCCCTGTTTCCAGATTCTGAGGCATTCAGGGCCAAGGTCCTGAGACCTTGGATGGTTGAGCAGAGGGGAGGTGGTTAGATCTCTGGACC
CCAGATCTTCTGGTCTTCCTAGCTCACGAGGTGCCCCCCATGTCCTCATGTCTCCCAGGGCCAAGCGTCCTGACCGAATGCACCATGACTGGGTGTCCTT
GGCAGTGCCTGTGGGGGCTGCTCACCTCCTAGTGCCAGGGCTGCAGCCCCACACCCAGTACCAGTTCAGCGTGCTAGCTCAGAACAAGCTGGGGAGTGGT
CCCTTCAGCGAAATCGTCTTGTCTGCTCCGGAAGGTGAGAAGCTTCTCGTCCCAGAACAGCAGAGACAAGGATGGGGAAGGGCTGCTGGGAGAGCTGGGA
TATGGGAGGCCCTGGGTGGGAAGGGGCAGAGGTGCTGGCCAGCTTGGGGTCCAGAGGGGTGTGTGGAAGATGATTTGAGCTTGTCTTCAGGGGTTCTGGG
AGAAGAGTTGGGCACTGGGAGTTGTGGAAGGCCAGGGGAGGGGCGCTGGGAATCCTTGCTCTGACCTGCCTTTCTGTCCCACGCAGGGCTTCCTACCACG
CCAGCTGCACCCGGGCTTCCCCCAACAGAGATACCGCCTCCCCTGTCCCCTCCGCGGGGTCTGGTGGCAGTGAGGACACCCCGGGGGGTACTCCTGCATT
GGGATCCCCCAGAGCTGGTCCCTAAGAGACTGGATGGCTACGTCTTGGAAGGCCGGCAAGGCTCCCAGGGCTGGGAGGTGCTGGACCCGGCTGTGGCAGG
CACAGAAACAGAGCTGCTGGTGCCAGGCCTCATCAAGGTATGTGCGAAAGGCGATACAGAGAGAGGCCTCCTAGGGGCTCTCCTGCGTCCTTCTCCATTC
CCCAAACTCTATCTTCTCATCTTGATTTGAGCTCTTCACCTCTGCGTCCTACCTCACCCTTCCGTCCCACGTGCACGGTCTTTCCGCGCCCCGCTGGGTT
GGGCGGTGCTGGGCCCTGACCTCCCTCCTGGTACCCCATCCCCATCGCAGGATGTTCTCTACGAGTTCCGCCTCGTGGCCTTCGCGGGCAGCTTCGTCAG
CGACCCCAGCAACACGGCCAACGTCTCCACTTCCGGTGAGCACCTGGCGTGAGGGAGGAGCCCCAGGGCTGCTCCGAGTCCACTGACCCTCCCTCGTGGA
CCCCTGCCTAGGTCTGGAGGTCTACCCTTCGCGCACGCAGCTGCCGGGCCTCCTGCCTCAGCCCGTGCTGGCCGGCGTGGTGGGCGGAGTCTGCTTTCTG
GGAGTGGCCGTCCTTGTGAGCATCCTGGCCGGCTGCCTCCTGAACCGGCGCAGGGCTGCCCGCCGCCGCCGCAAGCGCCTCCGCCAAGGTAAGTCCCTCC
ACCCTCAGCCCTGCTACTGCGCACTTGGGCCTAGCCTCCTTAAGCCCCTCCTACCTGGGGGAAAAGCCCTCGCTCCTGTGTGATCCAGGTGCATTCTCTT
AGTCCTGCATCTGGTCCTGCCTACGCTTTTCCCAGCCGGATGGGGTTGGGCGCCTGGTGTTGGGTGAGAGAGTCTCCGCCTAGAGGGCCTTGATTTTTGC
CTGTGTCACCTACTATTCTCATGCCCTTCCAGATCCACCTCTTATCTTCTCTCCGACCGGGAAGTCAGCTGCACCGTAAGTGCCTCCACCTCCTTGGCTT
TCTTCTGCCTTTCCATTGTACGTGCCAGTATCTTCTGCTTCCTTTTTTGCATCTTTACCAGGGGGATGTTGGGTGTTGGGGAGGAACAAAAGTGGGAGAG
GGTAAGAAGGGGTGTGCAGTGGCCCCAGCCTGAGGCCGTTCCAGTATGGCCTGTGCCTTCCCTCCACCCCTCCACCTTGTTGGTCCTTTCCTCGCTTGTT
CTTCCTAGCTCTGCTCTGTTGTTCACCAAACCTCTCAAGGCCTGACGCTGGCTCCTGGGAGGGGGACCTGCCCCTACCACAGACCCTGATCTCCTGTCCT
TCCCCAGCTCTGCTCTGGGCTCAGGCAGTCCTGACAGCGTGGCGAAGCTGAAGCTCCAGGGATCCCCAGTCCCCAGCCTGCGCCAGAGTCTGCTCTGGGG
GGATCCTGCCGGAACTCCCAGCCCCCACCCGGATCCTCCATCTAGCCGGGGACCCTTACCTCTGGAGCCCATTTGCCGGGGCCCAGACGGGCGCTTTGTG
ATGGGGCCCACTGTGGCGGCCCCCCAGGAAAGGTCAGGCCGGGAGCAGGCAGAACCTCGGACTCCAGCCCAGCGTCTGGCCCGGTCCTTTGACTGTAGCA
GCAGCAGCCCCAGTGGGGCACCCCAGCCCCTCTGCATTGAAGACATCAGCCCTGTGGCACCCCCTCCAGCAGCCCCACCCAGTCCCTTGCCAGGTCCTGG
ACCCCTGCTCCAGTACCTGAGCCTGCCCTTCTTCCGAGAGATGAATGTGGATGGGGACTGGCCCCCGCTTGAGGAGCCCAGCCCTGCTGCACCCCCAGAT
TACATGGATACCCGGCGCTGTCCCACCTCATCTTTCCTTCGTTCTCCAGAAACCCCTCCTGTATCCCCCAGGGAATCACTTCCTGGGGCTGTGGTAGGGG
CTGGGGCCACTGCAGAGCCCCCTTACACAGCCCTGGCTGACTGGACACTGAGGGAGCGGCTGCTGCCAGGCCTTCTCCCTGCTGCCCCTCGAGGCAGCCT
CACCAGCCAGAGCAGCGGGCGAGGCAGCGCTTCGTTCCTGCGGCCCCCCTCCACAGCCCCCTCTGCAGGAGGCAGCTACCTCAGCCCTGCTCCAGGAGAC
ACCAGCAGCTGGGCCAGTGGCCCTGAGAGATGGCCCCGAAGGGAGCATGTGGTGACAGTCAGCAAGAGGTGAGAGCAGTCCCTGCCCATCCCTGCCTCCG
CCTCAGTCCCACCCCAGACCTCTCACCCCTCTCCCAATACCCTGCACCTTCTCTGCTCCACTCCCACCCTGGGAACGGGAAAACTTGTCCCTTTTAGAAG
CTTTTGCTGAGGTCCAGGGATTTTTCAGGGGAAACCCATGACCTAACGTGAGTTTGCGGTCGCTGAATTCAGACTTTTCTGAACAGCCTCTATTCCTCCA
CCCACACCATATGTTTGTCTTTTTTTTTTTTTACAGGAGGAACACATCTGTGGACGAGAACTATGAGTGGGACTCAGAATTCCCTGGGGACATGGAATTG
CTGGAGACTTTGCACCTGGGCTTGGCCAGCTCCCGGCTCAGACCTGAAGCTGAGCCAGAGCTAGGTGTGTGAGCCCCCCGGAAAGGCAGGCATCTCGGCC
ATACTGTCCCACATCCCCCCGCCACCTTAGGACCCATCTATTCCCAGTCAGGCCCTGCCTCCCAGGCTCCTCTGCTCTAGACTGTGCCTTGCCCCCTTGG
GCCATCTGTACTGGAAGGGCCTAGCGAGCTTCACATCTGAGCTCTTCACTCAGTGAACCTCAGGGCTTCTTCTCATTGTCCTGCCCGCCTCTTGCAGGTG
TGAAGACTCCAGAGGAGGGCTGCCTCCTGAACACTGCCCATGTTACTGGCCCTGAGGCCCGCTGTGCTGCCCTTCGGGAGGAATTCCTGGCCTTCCGCCG
CCGCCGAGATGCTACTAGGGCTCGGCTACCAGCCTATCGACAGCCAGTCCCCCACCCCGAACAGGCCACTCTGCTGTGAACATCCCTAATGTGAGGCTGT
GAAAAGGCATATGGACCTGCAAAGGAGGCCCCCAACCAGACAGACCTAGTTTCAAACGAGGGCACTGCCCCTGCCTGCCCCTTTGGTGCCCAGGCACAGA
CCCTGATAGTGGGTTTGGGTCACCTTGGTATGGAATGTATGTGCTGACCCCCTAGGTGAGTCTGGGGATTGGAACAGGGATCTTAGGTCTGCCTCTCTCT
CTCTCTCTCTCTCTCTCTCTCTCTCTGTGTGTGTGTGTGTGTGTGTGAAGTTTTTTACAGGTGAATAAACAAAGTTTGAAAGATGTTTCTGTGTGTTATC
TGTCTTTGAGAGAGTGCCAGGAAAATCCCTGGACCCTTAAAGAAGAGGAGAATCTTCTTGAATAAATGGAGGTGCATTCAGCATTCATTCAAGAAACATT
TATTGAGTGCTTACGGAGGCCAGCTACTAAAGGCCAGCCACTGAAGTAGATACTGAGAAAATACAAAGCTCTGGAAGCACGCCTTTGCCCTTGAGGAGTT
CTTTCTAGTCAGTGAGGCGGACAAAGAAATAGTTACCGTATGATAAGTTCCGTGATAAAGCTATGTGTTGGTTATTGTAGCACAAAGGAAGATGTTGCAT
TCAAGGCCACCTTTAGTGAACGCTAATATCGTGTGCTGGGACAAATGCCACATATTGGGGGGGAGTCCTCAGGACCCTCACAGATAGATGGTGGTAATAA
TAGTATTCACTATGTGCCAGGCACTGCTCTAAGCCCTATAGGTGGACTGTTTAGTTCTCTACAATTCTATGAATTAGGTAGTACTATTAGCTCTGTTCTA
TAGACCAGGGAACTCAAGCACAGAATGCACAACAGTCACACAGCAGGTAAAGGGTAGAGCAGGTGGGGAGCCAGTCAAGGAAGGGAAACTGTCCTAGGCA
GAGGAATAGCCTTTGTAAAGGCACAGAAGAGTGAGAATGCTTGACAATCAGTGGGACTGGAATATAGGGCTGTGTAGGACTCGGGGAGGGAACAGAGAAT
AATAGAAAGGTTGGACAGGACTGGATATTGACATCCTGGAATCTCAGGTTCAAGGGAGGACTCTATCATGTGTGCAGAACTCCACCCCGGGGGACTCTAT
TCAACTGAAGCCTGAAAGGATGGGGGGCTCTTTCTTCACCCCTGAACTGTGCTGTCCTCCACCCTCAGAGACAAAAGAACCCCAGCCAGCCTCCTCGCGC
TGAGGTCTCCCCCTCTGATCCCTCCAGGATTTAGGAAGAGATACCAGGTCATAGAAAAGGAGATGAAAGGCAGGGAGAAGACAGGTCTGAGCCCTGGGTC
CCAACACCGAAAACACCCCTAGGGCCCTGGGCAGAGTGACCTCACTGTTAGTCCCTGCCCAGGCTTGAAGTAAGAGGTGAGCAAGATCACGTGGGGGTGC
TGTCCCGGCCTGCAAGTCCCAGTCCTGTCACACACTAGTCAGTTGGGGTCGGGGGAAGGCCTTCCTGTGCCTCCTTTTACCTTGCCAGCCTCTAAACTAG
GAGGCTTCTTCCTACATAAACACGCCCACAGTGTTTAGCTAACTTTCTAGGCAGAAAGTTTCCTACTGGGGCACAAGTCTACGGGCTCTCGGTGGAGGCT
GAGGTACTCACGGGTGGAGACCACTGCAGCCGCCTTTGTAGATTCAGACTCCCCGAACCTTTAACCCTTGCTCTGGTCTACTGTCCCTCTGTCTCAAGCA
GTCCTCCCTCCTTCTGCGCTGCGGCGCCTTTAAACCTTCTTGGCCCTTGCCCCGCCCCGGGTCCGCCCCGTCTGAGGCGGGACCCTCCTGAAAATCCCCG
GCTGGGCAGGGCGCACCACTTGCAGCTGCAGCCCTTGCCTTGAGTCAGTGCGCYGCTCTCCAGCCCGCTTGAACGGTGAGCAGGTCGGGGGTACGGGGGT
CGGGGACATGTGCGTGCTGTGTAGAAAGCAAGAAGCCAGCGCTTTGAACTTGCTCCAGCGAGCTCGGGGATCAAGGGCTGGTACCAGGCAAGRGTCCGGT
GACTRCTTTACCCCGCCCCGTGCTGTCAGGTCCTGTCCCCAAGCCCTGACCCGACATTGTTGGACGATGAGGTCAGGCGAGGTTAGCCCATGCATAGACA
GGGCGTCCGTCTGGAGCAGGGACTCAGGGACTGAGCCCCACCCGCGGGCTCCATCKCTGAGTCCTCACTGGGGCGAGGGGAAAAAAGGGCGTCGGACTTT
AGCTGGCTGGCCCCGAGTGACCCCGGGTCGTGGCGCCGGCCCTGGGCCAGCTCGTGCTCCTGGGCTTTYCCGCGCGACCCTTCACTTCCTGGTTCCAGGA
GCACGTGTGAGCACTGCGTGCCCTCTGAGTCCCCGAGGCCGCCCTTTTCATTCCTGTTCCTGCTAGCTTGCTATTCTGGGGACTTGAGGTCACGGGCTGG
GGCTAGGGGGCTCTGCATGGGTCGCACGGTGACCTTCTGTGAAGCTCCAGTCATCTCTATGACGGTCCCCTGACCTCGGGGGTCTGGGTGCTGCAGCCCT
GACTGCGCCCCGGGGTGCCCTGTGTGAGGTTGTGGGGGTGGTGGTGGCTGCTTTTACCCTGCCCGAGCGCCGCTGCCCCCACCGGGTGCCCCCTGCTGCT
GGGAAAGCCGGTGGTGGCCGCGGGCGGACGGGCGGGCTGCCCAGACCACTGCGTCACCCCAGCGGCGGGAGGGCGGTGGGTGACTCATCTGTTGTAACGG
CCCAGGGTGTGGTCGTGGGGGTGGGGGGCGGCGGCTGGGAGGCCGGACCTGCAGGACCGGAGGTGGACTGCCGCCTCCCCCCGCGCCCTGTGCCTCCTGG
GGCTACCTGAAGCCGGTGTCCTGGGAGATCTGTGAGCAGTTGGTATCTGTGGGGCAGAGAGAAACGGGGTGAGAGTGGGGATGGAGTGTGGGATTCGATG
TAGAAGACCTGCGGCTGGGACGGGGCTCCCCCAGTGTTCTCATTGACTTCAAAGCACCAGACAGCAATRGCTCTCTATCTCTAGCCCCCTCCCAGTTTCT
CCTCCCCACTACAAGGGGCAGACCTACAACTGCAGAGGAGGCCAAGGCAGGGCGGGCCCAGTAGGGCCCTACCATTCCAGAACCAACAAATAGGTTTTGT
CCAACCGCAACTCCCTCCCTCACCCCAAGGCCTCTGCCCCTGTCCCCCACCCCGGGATTGGCCCCTAATCCTTTCTTCATTCCATCCCTTCTCCCTCCAG
AATTTTCAGCTGTGGGTTCTCTAGCTCAGAACACTTTCCCTTCCCAGGGGATTTCTTCTCCTGAACAACTACTTCCTGMGTCCTCTTCTTCACCCCAACA
CGGGTCATTTCCTATCTTCCCCCACACGCTGTCCATCCCCACTATAGCTGTCTCCTGGAATAATCTCTTGCACCTGGCTACACCCGAGCACTGCTGAGAC
GATCCCACTTCTGCTCCCGTGCTCACAGCCTGCTCACCACAACGTCTGTGTTGACAGGGTGTTTCTGCCCGGAGCCCCCACCCAGCCTCCAACACTGTTT
GGTACACAGAAGCCATGGCAACRGCCCCCACCTCATCCCCTCCTCCCACGCAAGCTTTGGAGCTTCCTGTTTGTGTAGCCTCAGCTTTCTCTTCTGCTCC
TGACTCTCGGTGGTGAGGGGCTGCCCTACGGTGGTTCCCTTAATTGTGGGCCGCCCCCCATCCTTGCTGCTGGCTGTGGCACCTCGCTCTGTGGGCTGGT
GCCCTCACTGTGCTGCTCTTTGAGAACACTCCCTGTCCCAAATCTGAGTTGGGAAGTTCTCCTGTGTTCCATCTGCACGGTGGATGGAGAGTCCCTTTGT
CTTCCCAATTAAACACCCTAGCCAAGAACCCTGAAGTCCTCCCTGCCCCCACCCATGTCCGCCTTTTCTTTGGCTTTGGCTTTGGTGAGGTAAGCTTCCA
GCCCAGGGTCTGGGTGGGGCCGAGTGCCTTGCGTGGCCCCTCCCCGTTTCCCGCCTATTGTAACTCCAGGGTGAGGGTGAGGGTTGTTCTCACAGCTGCA
GTAGCGCTAGGGTTTAGGTTGCTCCCTGCCAGTCCATCCCCCAGGTTGTTCAGCTGTCACCTTCCTTTGGGGTCCCCAGCTCTGGGGGTCCCCCACACCT
GTCTTCCAGCTGGGCATATCTCTTCTCACCCTGGTAGGCAACTTGCTTACTGTTTTCTTTATGTTTGAGGGAAGGCAGGGGCAGGTCCCCTGGGTGTCCC
TAGGGTGGGCCTTCCCAGCTCCAGCAGCCRCAGCCCATSAGCTTCTGCCTGCCCGTGGGGGTGGGGAAGAGAAACAGCTGCTGACCAGGCCTGGCCTGGT
TGGAACTGCCCCTTCTCAGGACCCCGCCCTATGGYTCTGGCACCTCAGAGCTTGAGGGCAATGGCCCCAGAGTGGAGCAGATACASTGCAGCTGGAGGCC
GTGACCCTGCCAGCTGTGTCCAGGCCCCAGCGTTGGGCGGTGGAGGGGGTTCCTCAGCATCCACTTTCCACCCAGTGGTGGGTCTGGGAGGCCAAGTTTG
TCCTGCCTTGGGGGGTTGGGGGGCACTGGAAGTGTCTGGCTTCAGGCCTTTCTCTCTGCTCTTAACCCCAGTGTCTAGGTTAATCATTCTCCTGCCCTTT
CTTTACCTGTGCCATGGTGATCCCCGAGCCTCAGGCCACTTGGTCCCTGGAAACAGCCCTGAGCACAGCCACTCCCAGGAGAGAGGTCTGGAACTGGGCT
GCGGAAAGGGGGCTTACTGGTGGTAGTAGCTCTTAGCCCCTTCCTCTTCCTACCTGTCTTCCAGCCATTCCCCTGTGCATCAGAGGTTAGAGGTTTCTAT
GGTGGAGTGGCCTCTGGGAAGGGCAGGGATGCTTCTCTTGGTTTCTCCTCAGAACTCAGCCACCCCACCCCGCCTGCCTTCCCCAAGCTGATGGTGTGTG
TGCCTGGCGCTGTGGGTCGGGGCCCAGACTGACATTTATCTGGCCCAGCTTTCGGGCTGGGGGAAGTGGAGGGGGCGGGTTGCTCTTAATGAGGTTTAAA
AATAACTGATTTAGGGGAGGATCTGCYGGAAATGTGCAGCTTGATAAGCTGGGGTAAAAAGGAGCAGCCATGTTGGAGTCGGGACGGGAGGGACTGGCCC
AAGACACAGCCTCTGCGGCCGAGAGGTGTTGAGGGTTTGAGGCAGGCTGGTCCCCTTGTATTTCGCAGAGCCCCAAGGTCCATTGAGAGGGGGTGACRGG
ATTGTTTAACCTGGGTGTGTGGGAGAGGGGGAGCTGGAGTGACTTCATCCCTGAAGGCCAACCTGGCCTGGAGCCAGATGTGGTTAGAAGGGGTGGCTCT
CTTTCTTCCCCTTGAACGCAGATGCCTGTCCTGGGGGTCCCCTTTCGTGAGCAGCCTGACAGCTAGCTCTGTTTTGGAGAAGAGAGAAAAGCCAAACCAG
GGTGGGGATGGGACAGAAAATGGGGACTGTGGCCCATTCTTGGTTCTTGGCTCCCCTTGGCATCCATACCATGCCCGGGTCTTGCTCAGCCCCTGAGTGT
CAGACCCAGGTGGTGAGTGTGGTGGGAACACACTGCCACAGTGAGGTCCGCCAACTCAGGCCATTGGTCGGGAAACCACCCAGTTCTTGCTAATCAAGCT
CCTCCAACGAAGTTAAAGAAACCCTCCTGTGTATTTCCCCGTCTTGCCTTCTCTTCTCCAGGTTTCCCCAAAAATATCACCCAGGGCTCCTGTATTAGTT
TCCTATTTCTGCTGTAACAAATTGCTACAAGCTTAGTGATTTAAAGCAACACAAATACAGCATCTTACAGTTCTACAGACTCAACAGGGGTCTCACTGGC
TAAAATACAGGTGTTGGCAGAGCTGTGTTCCTTCTGGGGGTTTTTGGGTGAATCTATTTCCTTCCCTTTTCTGGCTTCTGGAGGCCACCTGCATTGCTTG
GTTCATGGCCCTGTGTGACTCTGACTTCTACTTCCATTTTGTTGTTGTTGTTGTTACTTCTCCCACTCTGACTCACCTATCTCCCACTTTCAGTTAGTAA
GGCCCTTGTGATTACACTGGGCTCATTTAGATGATGCAGGATAATCTCCCCATTTCGAGATCTTAATCACATCTACGAAGTCCCTTTTTGTCATATAAGA
TAACAATATCCACAGGTTCTGGGAATTAGGACATGGACACCTTTTGCGGGGGCATGATTCTGCCTGTCATAGCTCCTAGAGGGGAAAGTAGAATTTGTTT
TTATTGCCTGGTTTTTCATAGGAAATTCGATTTGTTTGCTGAAATCCCTCAAGGACCTATTCAAGCCTACCTCTTCCAGAAAGCCTTCCCAGGCTGCTTC
TGCCCGTCTGCTTCTTTTAACTCCTACAACATGTGATCTGAACTGTGCACTTTAGTATTCTTTGTGTGCAATCCTTACCTGTTCATATGTACTCACTTTG
TCTCCCTGATGGCACTGTGGGCACTTGAGGACCAAGGACTTCTACTATCTCTTTCACAATCCCTAGCACAGATAGTAGGTGCTCAATTAAAATCCAGTGG
TTTGCACCAACCTAGATGGTTAAAAAAAAAGCAAAGAAAACCCAGAGGTTGAGGGAGGGTAGATCCAACCAGTTTCCTAAGCTGTTCCACATTCCTCCTC
CTCTCCCCAAATCATTCTCTTTCCCAGGGCTATAAAGAGCAGGGTTGCATTTGGTARCAGTTCTGGTCCTCATCCTTGGGGCTCACCGTGGGGGAAATGG
TGTATATCCCTGCAGGCAGAATTCCTGAATTCCCCACTCCCCAGGCTGCAAGGTGTTGACCAAAAGCCCGGGTGTGTCCTCTCCCTAGCTCCCCGCAGCC
ACCGCCACCCATTGGAATGGCCAACAGGGGACCTGCATATGGCCTGAGCCGGGAGGTGCAGCAGAAGATTGAGAAACAATATGATGCAGATCTGGAGCAG
ATCCTGATCCAGTGGATCACCACCCAGTGCCGAAAGGATGTGGGCCGGCCCCAGCCTGGACGCGAGAACTTCCAGAACTGGCTCAAGGATGGCACGGTGA
GAGCCGGGCCCCACTGGCTTGGAAGTGCAGGGAGAGCAGGACTGGGTCCAGTGGACTGGGGATTGTTTAACCTGAAGAGGAGAAGACTGAAGGCACACAT
GTCCCAGCCTCTTCCTCAGCTTGAAGGCCTTTGTCAAGGATGTGAGAGGGCCCATGCTTTCCTCCCTTCCCGTGGAGTGGAGGGTAAGGGTGAATGTGCC
TCCCAGGCAGTGGAAGACTGAGGTGACACTGAGGAAGAATGTCTCTAAGGAAAGAACTGTGGGAGGGTATATTAGCAAGGAAAGACTAAACACTGGCTTT
TCACTCTGGGCTCGGAGGAAGGAGGCTGGCAAGAAGGACTGTGAGGCTTACTCTAGTGAAAGAGTCCAAGCTGTCTTCAGGCAAGACAGGAGCCTCTCTG
GTTCATTGTCTCTGGTTCTGAGGGTGGTGYACGCTGAGCTGCGATAGGTAGGCATATTCTCACCTTTCCACCCCTGCTGTCCTCATCCAGGTGCTATGTG
AGCTCATTAAYGCACTGTACCCCGAGGGGCAGGCCCCAGTAAAGAAGATCCAGGCCTCCACCATGGCCTTCAAGCAGATGGAGCAGATCTCTCAGTTCCT
GCAAGCAGCTGAGCGCTATGGCATTAACACCACTGACATCTTCCAAACTGTGGACCTCTGGGAAGGTGGGACAGGGCGAGGGGCTGGGTCCTGTCATCCA
GGAGGCCAGAGATTGGGCTGGGCCCTCTTGACCAGGCAGAAGGGGCTGTTTTCTGGCTCCCTGCAGAGAAAGAGGGGTGTGTTTGTGTTCCATGGAGCAC
TTGGTCATATTGGAGGCTGGAATGGAGAAGGGTATGGAAATGAACAGTAGAAATAATTAGGAAGCCAGGCCTGCTGACTTAGCGATAGAGGCGGAACCCT
GGTATCTAGGACACTGCGGAGGCTGACACATTCCCATTCTCCTTCCCAGGAAAGAACATGGCCTGTGTGCAGCGGACGCTGATGAATCTGGGTGGGCTGG
CAGTAGCCCGAGATGATGGGCTCTTCTCTGGGGATCCCAACTGGTTCCCTAAGTAAGTATTGCTGGGACAGCCGCAGGGTCCAGCAGGTGCATTGTTTCT
GCCCAATCCTGTCCCTAGGAAATAACTTATCTCAGTAGCAGCTGGCCCTTTACAAAGCACTTTCAGAAAATTCCTCATCTCACTTAATCCTCACAACACC
CTCTGGGATGGCAAATGACTGTCCCTTTGGACAGATGAGGAGGTGGCTTCAGAGAGCTTATGGCTCTCGAGGGCAGAGCTGGCACCAGCCCTTGAGCCAA
CAGCAAAGCCTGTGCTCTGTCCAAGGAAGGGATTTACTAGGGCAGCCTGTGATCTCCTCTAACCACCACTCCCTTGTCACCCAGGAAATCCAAGGAGAAT
CCTCGGAACTTCTCGGATAACCAGCTGCAAGAGGGCAAGAACGTGATCGGGTTACAGATGGGCACCAACCGCGGGGCGTCTCAGGCAGGCATGACTGGCT
ACGGGATGCCACGCCAGATCCTCTGATCCCACCCCAGGCCTTGCCCCTGCCCTCCCACGAATGGTTAATATATATGTAGATATATATTTTAGCAGTGACA
TTCCCAGAGAGCCCCAGAGCTCTCAAGCTCCTTTCTGTCAGGGTGGGGGGTTCAGCCTGTCCTGTCACCTCTGAGGTGCCTGCTGGCATCCTCTCCCCCA
TGCTTACTAATACATTCCCTTCCCCATAGCCATCAAAACTGGACCAACTGGCCTCTTCCTTTCCCCTGGGACCAAAATTTAGGGGCCTCAGTCCCTCACC
GCCATGCCCTGGCCTATTCTGTCTCTCCTTCTTCCCCCTGGCCTGTTCTGTCTCTGAGCTCTGTGTCCTCCGTTCATTCCATGGCTGGGAGTCACTGATG
CTGCCTCTGCCTTCTGATGCTGGACTGGCCTTGCTTCTACAAGTATGCTTCTCCCACAGCTGTGGCTGCAGGAACTTAATTTATAGGGAGGAGCCTGTGG
CAGCTGCTGCCCCAGCCACAGCTGCACTGACTGTGCTCACCACACATCTGGGGCAGCCTTCCCTGGCAGGGGCCCTCGTGGCTTCTCATTTTCCATTCCC
TTCACTGTGGCTAAGGGGTGGGGTGAGGGGATGGAGAGGGAGGGCTGCCTACCATGGTYTGGGGCTTGAGGAAGATGAGTTTGTTGATTTAAATAAAGAA
TTTGTCATTTTTGAATGGACTCTGGCTGTGTCTGGGGCCACTGTGCCACTGTGGGGAAGGGAGGAATACTGGGCAAAGTGCAGTGAGTGATACAGGAAGG
AGGGCAGAGATGAGAGGTTGCAGTGCTAACCCCTGTCTTGAGTTTCCTCCCCATCCTCATTCTCACTTGCTTTGGGGGGTGGTGTAGGTTGGAATTGAGA
GGGGACAGGACCTCACAGCTGAATGCAGACTATGTAGGCAGTGTCCACAGGGAAGTAAGGCCCTTTCTAGTCAATGGAATTGGCTAATCCTGCCTGCTGC
CTTTGGCTGGGTCTGCCTCTACAGTTGGAACAGCTTCTCAGTCACTGAGAGGGTGGGGCTGGCTGCTGGCACAGCCATCAGTCCTGGCAAGTGAAGCTGT
CTCCAGGTGAGAGGTCCCTCAGGCGGGCTTGGGGTGAGGTGGTCTGTGTTGGAGTGGTGAGGGTGGGGGTTGCAGTGGTGAGGAAACGTGGAGAGCTGGG
GAATGAGCAGGAGTGAGTTGGTGGTGGTCGCTGGAGGGAAGAAGCCGTGTTGATTGATCCTAAGCACCTGTGAACTAAGTGCCTGGGAGAGACTAAAACT
TCCTTTCTAGGGTGTGGCCTTGGGCCATGATCATCAATTTTGGGTCAGGTTGTCTCTAGCACCTATCCTTGACCGAGGCATGAGTGTTCCACCCACAGTT
TCTTTTTTTTTCTTTTCTTTTTTTTTTGAGACAGAGTCTTGCTTTGTCACCCAGGCTGTAGTGCAGTAGCATGATCGCTCTTGTTCTCCAGGCTGGAGTG
CAGTGGCATGATCTCGGCTCACTGCGACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCAC
CACGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTTTCCACGTTGGTCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCTGCCAGCCTC
GGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCGTGCCTGGCTATTTTTTGTATTTTTTATAGAGATGGGGTTTCACCATGTTGGCCAGCCTGGT
CTCGAACCCCTGAGCTCAAGCGATCTGCCTGACCTCATGGCTCTGCCTTTTCTTGCCATCTCCCAACTCCCCAGCCTCAGCCTCCCAAAGTGCTGGGAGC
CCCACCCATAGTTTCTAACCACTAGGTGTTACCTTTACCCCAAGGCTTCCCAGTCAGACTCTGTGTCTCCCCAGGGGGAATTTGAGGGACGCTGGGCCAG
TCTGACATTAAGTTCCAGCCCCATCAGCCTCACCCAGAGGCCTGGCCTTCCTTGCCCCTTTCCCCTTTTCTACCTGAGGGTATCTCTGTCTCCTAGGAGG
AGAAAGCCACAACACTGTGCCTGAGGGAAACAGGTTTGTATCCAGAGCTTTTGTTCTCTCCCCTTTTGTTCCCCTGCTTCTCTGAGGCTCCCTCTTCCAA
AAAGCACCCACTAGGGGCGAGGCCCAATGCCAATTCTTCATAGCCATGGCTGTCAGCCTCATCCCCACACCACGCTTAGCCTTGCCACACCACACCTCGG
GAGAGACTGTATTTGCTTGCTTGCTGCACTCCCACAGGCTGTGGCACAGATAAGATAGGCTGCAGCCTATGGGCAAATTCCCAGGGGATTAGATCCTTTA
TCTCTCATTCAGGAAGGCTTTGTGGAATGCTAGTCAGGGAGAGTGATGTCATTGCAGAGAAAACATTGAATTCGCTATGTATACTAAAACAACAAGCCGT
TTGCCACCTTCCCTGGTTTAACTATTTATAGCTATAAATTATTGGCCACACGCCTCACAACTCTGAGAAATGCCATTTGTTACAGTGCCAGCGCTGAGAA
CCACTGCCTTCTCCCAGAAGATTCTCACAAACGCCCAGGAGGTGGATATTACTGTAATGTGTTCCCCATTTTGTCTTTAGATGAGGATACTGGTCTCAGA
AGGGCCAAGGAATGTGCCCAGGGCCACAAAGCAATTAAGGGAGAAGCAGGGATTTGCATCCAATCAAGCTGGCTCTGAACCTGGCTGAGCCTGTGCAGCT
CTAGGCTCAGCAAGAAGTGAAGCTGTCAAGGGACTAGGGGACAGAGGTGGTGGTGGGTGGCAGGGCAATGCTCCTCATCTGTAAGCTGAAGATGATAATT
CCTTCCTCGTGAAGTTGCCGTGAGGATTAGATGAACCCTGGAAAGCACTTTGCATGGGGAATGCTAGCACATAGTGCTCAGGAAATGGAAGTGTGGGGAA
TAAAAGGTGGAACATTTGTGTATGGACCCTGGGCTGAGAGGGAGCTGATGCCCAGCAGTTTCATGCCCTTCACCACTGTCCTGTTGAACACGGGCCAAGA
TGCTTTCAGTGGCCTTATCCCCTTTACCTGGAACAGCTTATTTTCAAGGGAGACACCAGCTGTATTTGAGAGGGGCTCAGCCATTGGGCTCACCTTCTTC
TGGCTGCACCCACCACCACCCAAGCCTTGTGAGGAATCTCAATGTTCCCTTAATTCATCTAACTGCAGACTCAGCTGCTTCCTTCTGGAGCCGGCCTCCA
GTGGCATCTCAACATTTTCCAGCTTTCTGTTTGTCTGCTTTCTAGCATTTTGTCTCACCTGAGGTTACAATTTCATCCTTAACTTGGCTTCTCTCATCTC
TGACCCCACTTCAGGCCCTGGGGCCCAGACTAGGCACCAGCCTGTGTATGGTTCTGCCTTTTCTTGCCATCTCCCAACACCTTATTCTGTGTGGCTGTCT
ACAGTGGTGTCTCTCTCTCTTTTTTTCTTACATTTTTCTTTATTATTATTATTATTAATTATTATACTTTAAGTTCTAGGGTACATGTGCATAACGTGCA
GGTTTGTTACATAGGTATACATGGGCCATGTTAGTTTGCTGCACCTATCAGCTCGTCATTTACATTAGGCATTTCTCCTAACGCTATCTCTCCCCCAGCC
TCCCACCTCCACAACAGGCCCCGGTATGTGATGTTTCCCTCCCTGTGTCCATGTGTTCTCATTGTTCAACTCTTTCTTTCTTTCTTTCTTTTTTTTTTTT
TTTAACTTTAAGCTCTGGGATACAGGTGCTGGACATGCAGGTTTGTTGCATAGGTATACGTGTGCCCTGGTGGTTTGCTCCACCTATCAACCCATCACCT
AGGTTTTAAGCCCCGCATACATTAACTGTTTGTCCTGATGCTCACCCTCCCCTCGCCACACCCCTTCCCCGACCACAGACCCTGGTATGTCTTGTTCCCC
TCTCTGTCTACGTGTTCTCATTGTTCAACGCGCTACAGAGGTGTCTCCTAACACTCTGCACTTGCAGGGCTTCTCCTGCCGCCTGGAACAATCTCCTTCC
AGGTGCTGCCCTCACTTGCTCCTTTATCTCCTTCAGGTTTTTGTTTAGACGTCATCTTCCCTGATCACCTCATTTAAAACTGCACACTTCACCCTCAGCC
TGGACCCCGTGCTCCATTCCTGCTTTCTTTTATCACCACCTGACACCCAATATATTTTACTTATTTATTTTCTGTCCCCACCCATAGAATGTAAACTACA
CAAAGGCAGGCTTTTGTTGGTTTTGCTCATGTAGAGTAGTGGTTGGCATGTTGTAGGTGCTGGATAAATATTTGTTGAATGAATGAGTGAGCATGACACC
ACCCTCATGCTCCTCAGCCCCCTGGCTTGGCAACACAGTGCCCAGCCAGCCCAAGGGCCTAGCAACCCAGCCTTTCATCATATCTGAGATACAGCCCAGC
TCATGTCTCTGCTTCCAATGCTTCCAGATTATTCATTTCCAAAAAATAAAAACCCAAGAAGCTGCATTTCCTACAGATAGAGGAGAGGAGGTTGGAGGGT
GGATTGCATGCTCTGGACACATGGAAGGTGATTTGAGGATTTGGGGGAAAAAAATGGGAGGAGGGCAGGAGGAAGAGGTAGGAGCCAGCTTGGGTTCATT
TGCTCCTTGCCTTCAGCCTGGAAGTGGAAAATCACTGTGGAGGTGGAGGGAAAGTAGGCTTGGCCCATGATGGCCAATGGAAAGGAGAGTTGGGGAAGGG
AGGCAGAGAGGAGGAGGAAGAGGGGGAGAAGGAAGAAGGTTTCAGATGCTCCACCCAGTTTGGCTCACCTGTGGGTAACAAGCGTAGCTCTCTGCAGCCT
ATTCATATGCGTGTGAGTGTGCATCCAGGTGTGTGAGAATTCTCAGGGCTAGGGCTGGGGGCCAGGGGGTGGGGTGCGGTGCAGGTGGGAGGAGATAATC
TGTGACTGTGTGTGGAGGCTGCCTATGAGTATGTGTTTACCAAGGATTGGGGATAATGGGTGCAGAGAGGTGTTTGTCCTGCGTGTGTAGGCATCTGTGT
GTTTGTACATGGTTCCGTGGAGAATAATATGTCCCATTCCTGCCTCCACAGCTGAAGGAGGCCTTTGAGAGCTTGGCAGAAGGCCCAAGGAGCAGTGGAA
TGGGGAAAGTGCTGGATGATAGGACCCCAGGGAGGGAACAATAAAGGGCCTGGGATTAAATTTGTTGAAGAAAAGGCTAAAAGGGTGAATTAATAACTGT
CTTCTTGCAAAGAAATGGATTTTAGTCCCTGTGGCCAGGGAGGTAGATTAGAAGAAAATGCACCAAAGTTGCATCTAGAGAAATTTAGATTAGACAAGGA
AAAATGATCCTCTTGACTCTGAAGGTTATTAGCCTTTGGAATCTCTTAAGGGTCAGGAGGAATGTCTTCAATAATAGGACAAAATGCATCTTCTTGCAGA
GGAAAATGGGCAGTTCTGCCTGGGAATCGTCATATACACACTCATTTTTTTCATTCATATATTCATTCATTTAACAATTATTGAGATCCTACTTTATGTC
AGGGTTTATGGAGGATGTGGATTATTAATACATGATCTCTTTGCTCAAAGAGTGCATAGTTCTGTAGGGGAGATACAACACAGATAGAAGCCATACTATT
TATTTATTTTTTGAGACAGAGTCTCTCTCTGTTGGCCAGGCTGGAGTACAGTGGTGCGATCTCGGCTCACTGCAACCTTTGTCTCCCGGGCTCTAGCAAT
TCTTCTGCTTCAGCCTCCCCAGTGGCTGGGATTACAGGCGTGTGCCACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTCACTGTGTTG
GCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCAACTCGGCCTCTCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCAGGCCAGAAGCC
ACAAGAATTTAGGAAACCTGTGACATTTGCCTTTGGAGAAATGCAAATAGGGCTTTTTGGGAAGACTACTGCCTCCCTCTCAATGCTCTGGATGAATTCC
TGGATGGTGACTGGTGGTGATGTCATGGGGAGCTGAGGCCGCGTACCTCAGGGATCATCTCCCCTGATCAGCCCAGGGGAGTAGGAGAGCCAGCTGGGGG
GACTGCTCTGGAAAAAGGAGCAGTCCCTGGCTTTGTGGTCAGAAGTCAAGTTTCAGTGTGGAGCGAGGGGCTATTTCTTTCCTGCCTGGGGTGGGGAAGG
GCAAAAAGGCCTGAGTCAGGGTGAGAACCAGGGATCAGGTAAGGACAGATCAACATCAATGGAGCTGGGGGTAGGTCTGAAGGGGTTATATAAACACTTC
CTCAGACACTGGGACTGTCAGCTGTTTCACATCATTGCTGGCAGGACCTGAATTTTTTTTTTTCTTTTTCTTGAGATGGAGTCTTGCTCTGTTGCCCAGG
CTGGAGTTCAGTGGTATGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCCTGCCTCAGCCTCTTGAGTAGCTGGGAGTACAGAT
GCCTGCCACCACACCTGGCTAATTTTTGTATTTTTAGCAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCAC
CCACCTCAGCCTCCCA


SNP Information

Context             (SEQ ID NO:66655):
TTCCCTGGCAGGGGCCCTCGTGGCTTCTCATTTTCCATTCCCTTCACTGTGGCTAAGGGGTGGGGTGAGGGGATGGAGAGGGAGGGCTGCCTACCATGGT
Y
TGGGGCTTGAGGAAGATGAGTTTGTTGATTTAAATAAAGAATTTGTCATTTTTGAATGGACTCTGGCTGTGTCTGGGGCCACTGTGCCACTGTGGGGAAG
Celera SNP ID:            hCV26627230
SNP Position Genomic:     13359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66656):
CAAGGGTCCGGTGACTACTTTACCCCGCCCCGTGCTGTCAGGTCCTGTCCCCAAGCCCTGACCCGACATTGTTGGACGATGAGGTCAGGCGAGGTTAGCC
C
ATGCATAGACAGGGCGTCCGTCTGGAGCAGGGACTCAGGGACTGAGCCCCACCCGCGGGCTCCATCGCTGAGTCCTCACTGGGGCGAGGGGAAAAAAGGG
Celera SNP ID:            hCV26627225
SNP Position Genomic:     6289
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,9)   total(C,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66657):
AAGGGTCCGGTGACTACTTTACCCCGCCCCGTGCTGTCAGGTCCTGTCCCCAAGCCCTGACCCGACATTGTTGGACGATGAGGTCAGGCGAGGTTAGCCC
A
TGCATAGACAGGGCGTCCGTCTGGAGCAGGGACTCAGGGACTGAGCCCCACCCGCGGGCTCCATCGCTGAGTCCTCACTGGGGCGAGGGGAAAAAAGGGC
Celera SNP ID:            hCV26627226
SNP Position Genomic:     6290
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66658):
AGGGTCCGGTGACTACTTTACCCCGCCCCGTGCTGTCAGGTCCTGTCCCCAAGCCCTGACCCGACATTGTTGGACGATGAGGTCAGGCGAGGTTAGCCCA
T
GCATAGACAGGGCGTCCGTCTGGAGCAGGGACTCAGGGACTGAGCCCCACCCGCGGGCTCCATCGCTGAGTCCTCACTGGGGCGAGGGGAAAAAAGGGCG
Celera SNP ID:            hCV26627227
SNP Position Genomic:     6291
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66659):
CCTGGTAGGCAACTTGCTTACTGTTTTCTTTATGTTTGAGGGAAGGCAGGGGCAGGTCCCCTGGGTGTCCCTAGGGTGGGCCTTCCCAGCTCCAGCAGCC
R
CAGCCCATCAGCTTCTGCCTGCCCGTGGGGGTGGGGAAGAGAAACAGCTGCTGACCAGGCCTGGCCTGGTTGGAACTGCCCCTTCTCAGGACCCCGCCCT
Celera SNP ID:            hCV27836627
SNP Position Genomic:     8430
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:66660):
CAACTTGCTTACTGTTTTCTTTATGTTTGAGGGAAGGCAGGGGCAGGTCCCCTGGGTGTCCCTAGGGTGGGCCTTCCCAGCTCCAGCAGCCGCAGCCCAT
S
AGCTTCTGCCTGCCCGTGGGGGTGGGGAAGAGAAACAGCTGCTGACCAGGCCTGGCCTGGTTGGAACTGCCCCTTCTCAGGACCCCGCCCTATGGCTCTG
Celera SNP ID:            hCV27848242
SNP Position Genomic:     8439
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,4)   caucasian(C,38)   total(C,72|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:66661):
GGGTCCGGTGACTACTTTACCCCGCCCCGTGCTGTCAGGTCCTGTCCCCAAGCCCTGACCCGACATTGTTGGACGATGAGGTCAGGCGAGGTTAGCCCAT
G
CATAGACAGGGCGTCCGTCTGGAGCAGGGACTCAGGGACTGAGCCCCACCCGCGGGCTCCATCGCTGAGTCCTCACTGGGGCGAGGGGAAAAAAGGGCGT
Celera SNP ID:            hCV26627228
SNP Position Genomic:     6292
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66662):
CCGGTGACTACTTTACCCCGCCCCGTGCTGTCAGGTCCTGTCCCCAAGCCCTGACCCGACATTGTTGGACGATGAGGTCAGGCGAGGTTAGCCCATGCAT
A
GACAGGGCGTCCGTCTGGAGCAGGGACTCAGGGACTGAGCCCCACCCGCGGGCTCCATCGCTGAGTCCTCACTGGGGCGAGGGGAAAAAAGGGCGTCGGA
Celera SNP ID:            hCV26627229
SNP Position Genomic:     6296
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,9)   total(A,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66663):
GGGTAGATCCAACCAGTTTCCTAAGCTGTTCCACATTCCTCCTCCTCTCCCCAAATCATTCTCTTTCCCAGGGCTATAAAGAGCAGGGTTGCATTTGGTA
R
CAGTTCTGGTCCTCATCCTTGGGGCTCACCGTGGGGGAAATGGTGTATATCCCTGCAGGCAGAATTCCTGAATTCCCCACTCCCCAGGCTGCAAGGTGTT
Celera SNP ID:            hCV27850261
SNP Position Genomic:     10857
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,5)   caucasian(A,26|G,12)   total(A,57|G,17)
SNP Type:                 INTRON


Context             (SEQ ID NO:66664):
ACGGGGGTCGGGGACATGTGCGTGCTGTGTAGAAAGCAAGAAGCCAGCGCTTTGAACTTGCTCCAGCGAGCTCGGGGATCAAGGGCTGGTACCAGGCAAG
R
GTCCGGTGACTACTTTACCCCGCCCCGTGCTGTCAGGTCCTGTCCCCAAGCCCTGACCCGACATTGTTGGACGATGAGGTCAGGCGAGGTTAGCCCATGC
Celera SNP ID:            hCV25967810
SNP Position Genomic:     6193
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,1|G,37)   total(A,1|G,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:66665):
ATTCCATCCCTTCTCCCTCCAGAATTTTCAGCTGTGGGTTCTCTAGCTCAGAACACTTTCCCTTCCCAGGGGATTTCTTCTCCTGAACAACTACTTCCTG
M
GTCCTCTTCTTCACCCCAACACGGGTCATTTCCTATCTTCCCCCACACGCTGTCCATCCCCACTATAGCTGTCTCCTGGAATAATCTCTTGCACCTGGCT
Celera SNP ID:            hCV16153817
SNP Position Genomic:     7479
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66666):
TGGGGCGAGGGGAAAAAAGGGCGTCGGACTTTAGCTGGCTGGCCCCGAGTGACCCCGGGTCGTGGCGCCGGCCCTGGGCCAGCTCGTGCTCCTGGGCTTT
Y
CCGCGCGACCCTTCACTTCCTGGTTCCAGGAGCACGTGTGAGCACTGCGTGCCCTCTGAGTCCCCGAGGCCGCCCTTTTCATTCCTGTTCCTGCTAGCTT
Celera SNP ID:            hCV7479440
SNP Position Genomic:     6469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66667):
GACATGTGCGTGCTGTGTAGAAAGCAAGAAGCCAGCGCTTTGAACTTGCTCCAGCGAGCTCGGGGATCAAGGGCTGGTACCAGGCAAGGGTCCGGTGACT
R
CTTTACCCCGCCCCGTGCTGTCAGGTCCTGTCCCCAAGCCCTGACCCGACATTGTTGGACGATGAGGTCAGGCGAGGTTAGCCCATGCATAGACAGGGCG
Celera SNP ID:            hCV25956929
SNP Position Genomic:     6205
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,36|G,2)   total(A,74|G,2)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66668):
ATTGTTGGACGATGAGGTCAGGCGAGGTTAGCCCATGCATAGACAGGGCGTCCGTCTGGAGCAGGGACTCAGGGACTGAGCCCCACCCGCGGGCTCCATC
K
CTGAGTCCTCACTGGGGCGAGGGGAAAAAAGGGCGTCGGACTTTAGCTGGCTGGCCCCGAGTGACCCCGGGTCGTGGCGCCGGCCCTGGGCCAGCTCGTG
Celera SNP ID:            hCV7479433
SNP Position Genomic:     6356
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,8)      total(G,8|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66669):
GCCCCGGGTCCGCCCCGTCTGAGGCGGGACCCTCCTGAAAATCCCCGGCTGGGCAGGGCGCACCACTTGCAGCTGCAGCCCTTGCCTTGAGTCAGTGCGC
Y
GCTCTCCAGCCCGCTTGAACGGTGAGCAGGTCGGGGGTACGGGGGTCGGGGACATGTGCGTGCTGTGTAGAAAGCAAGAAGCCAGCGCTTTGAACTTGCT
Celera SNP ID:            hCV25968474
SNP Position Genomic:     6054
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,8)   caucasian(C,37|T,1)   total(C,67|T,9)
SNP Type:                 UTR 5


Context             (SEQ ID NO:66670):
TCACAGCCTGCTCACCACAACGTCTGTGTTGACAGGGTGTTTCTGCCCGGAGCCCCCACCCAGCCTCCAACACTGTTTGGTACACAGAAGCCATGGCAAC
R
GCCCCCACCTCATCCCCTCCTCCCACGCAAGCTTTGGAGCTTCCTGTTTGTGTAGCCTCAGCTTTCTCTTCTGCTCCTGACTCTCGGTGGTGAGGGGCTG
Celera SNP ID:            hCV101510
SNP Position Genomic:     7723
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66671):
CAGGCCTGGCCTGGTTGGAACTGCCCCTTCTCAGGACCCCGCCCTATGGCTCTGGCACCTCAGAGCTTGAGGGCAATGGCCCCAGAGTGGAGCAGATACA
S
TGCAGCTGGAGGCCGTGACCCTGCCAGCTGTGTCCAGGCCCCAGCGTTGGGCGGTGGAGGGGGTTCCTCAGCATCCACTTTCCACCCAGTGGTGGGTCTG
Celera SNP ID:            hCV27854150
SNP Position Genomic:     8586
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,38)   total(C,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66672):
CAAGAAGGACTGTGAGGCTTACTCTAGTGAAAGAGTCCAAGCTGTCTTCAGGCAAGACAGGAGCCTCTCTGGTTCATTGTCTCTGGTTCTGAGGGTGGTG
Y
ACGCTGAGCTGCGATAGGTAGGCATATTCTCACCTTTCCACCCCTGCTGTCCTCATCCAGGTGCTATGTGAGCTCATTAATGCACTGTACCCCGAGGGGC
Celera SNP ID:            hCV101504
SNP Position Genomic:     11630
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,16)   caucasian(C,16|T,20)   total(C,38|T,36)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;JBIC-allele(C,303|T,438)   total(C,303|T,438)   no_pop(C,-|T,-)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66673):
GACTGACATTTATCTGGCCCAGCTTTCGGGCTGGGGGAAGTGGAGGGGGCGGGTTGCTCTTAATGAGGTTTAAAAATAACTGATTTAGGGGAGGATCTGC
Y
GGAAATGTGCAGCTTGATAAGCTGGGGTAAAAAGGAGCAGCCATGTTGGAGTCGGGACGGGAGGGACTGGCCCAAGACACAGCCTCTGCGGCCGAGAGGT
Celera SNP ID:            hCV16107508
SNP Position Genomic:     9227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66674):
GTGAGAGTGGGGATGGAGTGTGGGATTCGATGTAGAAGACCTGCGGCTGGGACGGGGCTCCCCCAGTGTTCTCATTGACTTCAAAGCACCAGACAGCAAT
R
GCTCTCTATCTCTAGCCCCCTCCCAGTTTCTCCTCCCCACTACAAGGGGCAGACCTACAACTGCAGAGGAGGCCAAGGCAGGGCGGGCCCAGTAGGGCCC
Celera SNP ID:            hCV16250513
SNP Position Genomic:     7169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66675):
TCTGGTTCTGAGGGTGGTGCACGCTGAGCTGCGATAGGTAGGCATATTCTCACCTTTCCACCCCTGCTGTCCTCATCCAGGTGCTATGTGAGCTCATTAA
Y
GCACTGTACCCCGAGGGGCAGGCCCCAGTAAAGAAGATCCAGGCCTCCACCATGGCCTTCAAGCAGATGGAGCAGATCTCTCAGTTCCTGCAAGCAGCTG
Celera SNP ID:            hCV25959844
SNP Position Genomic:     11711
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66676):
CCCAAGACACAGCCTCTGCGGCCGAGAGGTGTTGAGGGTTTGAGGCAGGCTGGTCCCCTTGTATTTCGCAGAGCCCCAAGGTCCATTGAGAGGGGGTGAC
R
GGATTGTTTAACCTGGGTGTGTGGGAGAGGGGGAGCTGGAGTGACTTCATCCCTGAAGGCCAACCTGGCCTGGAGCCAGATGTGGTTAGAAGGGGTGGCT
Celera SNP ID:            hCV29185268
SNP Position Genomic:     9398
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66677):
CCATCAGCTTCTGCCTGCCCGTGGGGGTGGGGAAGAGAAACAGCTGCTGACCAGGCCTGGCCTGGTTGGAACTGCCCCTTCTCAGGACCCCGCCCTATGG
Y
TCTGGCACCTCAGAGCTTGAGGGCAATGGCCCCAGAGTGGAGCAGATACACTGCAGCTGGAGGCCGTGACCCTGCCAGCTGTGTCCAGGCCCCAGCGTTG
Celera SNP ID:            hCV101509
SNP Position Genomic:     8535
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,16|T,20)   total(C,47|T,27)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Gene Number:                 427
Celera Gene:                 hCG39926 - 30000054242299
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VTKB(453899..499735)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12587):
GCCACAAGATGAGCCAGTTTACTGATATGGCAGATGTCAGCTGATCCATCAAGTGCAGGGTCTGGGAAATATCTCAATCTCTGATCTTAGGTTTTACAAT
AATGATGTTATCCCCAGGAGCAATATGGGGAGGGTCAGAATCTTGTAGCCTCCAGCTCTATGACTCCTAAACTGTAATTTCTAATCTTGTGGCTAATTTG
TTAGTCCTACAAAGGAGGCAATCTAGTCCCCAGGCAAGAAGGGGGTTTGTTTTGGGAAAGAGCTATTACTTTTTTTCTTTTTTTTGAGACAAGAGTCTCG
CTCTGTCGCCCAGACTGGAGTGTAGTGGTGCGATCTCAGGCTCACTGCAACCTCCACCTCCAGCAATTCTCCCGCCTCAGCCTCCCAAGTAGCTGGGATT
ACAGGTGCGCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGACTGGTCTTGAACTCCTGACCTCAAGTG
ATCTGCCTGCCTTGGCCTCCCAAAATTCTGGAATTACAGGCGTGAGCCACCGTGCCTGGCCAGAGCTGTTATTTTTGTTTCAAACTATAAACTATAAATT
AAGTTCCTCCCAAAGTTAGTTTGGCCCACTCCCAGGAATGAACAAGGACTGGTTGGAAGCAAGATGGAGTTGGTGAGGTCAGATCTCTTTCACTGTCTCA
GTTATAATTTTGCAATTTCAACTTAGGAAGAAATAAAATACAGCTAGCTTGTGGGTATTCGATAGGTACACAAATTTTCTACCTTTCAGGCATGCAGAAG
GGAATTCTGCTAAAAGCATGCCACAGTCTCTCTCTTTTTTTTTTTTTTTTTCAGATGAAGTCTCTGGCTCTTGTCCCCAGGCTGGAGTGCAATGGCATGA
CCTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGGTTATCCTGCCTCAACCTCCCGAGTAGCTGGGATTACAGGTGCCGGCCACCACTCCTGGCT
AATTTTTTTATTTTCAGTAGAGACAGAGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGT
GCTGGGAATACAGGCATGAGCCACCATGCCCGGCCCAGTCTCTTCTTTAGTTTACTTTCATGTTGAATTTCACACATTTTAGATATTAGATAAGTTGTGT
TAAGTTTAAAACTAGGAAAATAAGCTATTTCTTAGAGACCAGTTCAAGTTCATGGTTAAAAATATTCATAAAATTGTGTATTCCACCTTCATCACTGTCA
GGGAGAAGAGATTCTCCTGGACATGAGGTATGGAATTCATTTCTTTTACTGCAGTACATTAGATAGTAAGCATCAAGGCTGGGTGTGGTGGCTCACGCCT
GTAATCCCAGGACTTTGGGAGGCTGAGGGGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAGGACTAAGCTCTGATTTTTT
TTTTTTTTTTTAATCTTCCTATCTAAGGGGACTGGGGAGTTATGCCTTACAAACCATGACTTCTCATCAGATGGGTTTTATTTAATCATGTATATCGTGA
CTTACTTTCCAATCTGACTCTGGCATAACAAGAAAATCAAAATGTTTTACCCCAAAATACATTTCCTTGCCATACCTTGAAATTGCCCTGCAAAGTCTTT
TGTGGGAAAAATGCACATCCTATAGAGAATCCCTTTTCCCTTTGTTTTCCTTCCTTTCTTTCCAGATCCAGGAGATAATCAACTAAGAAGCAGGCACCTT
TTTAATTCCTGTAAGAAACATTTTACAACCTGCTCTCTCTGAAGTCTTTTATCTGAGCGCTTCCTCTGCCCAATAAAACTCCGTCTCCACAATCTTCTAT
CTAAACCTGAACATTCCCTTTGATCCCAGGTCTTCAGACAAACTCAACCAATTGTCAACCAGAAAATGTTTAAATTTACCTATAGCCTGGAAGCCCCTGC
TTTGAGTTGTCCCGGCTTTCTAAGCCAAACCAATGTATTTGTTAAATGTATTTGATTGATGTCTCATGCCTCCCTAAAATATGTAAAACTAATCTGTACC
CTGACCACCTTGGGCACATGTTCTCAGGACCCCGAGGGCTGTATCACAGGCCATGGTCACTCATATTTGGCTCAGAATAAATCTCTTCAAATATTTTACA
GAGTTTGACTCTTTTAGTCAACAATGGTGCAACCCTGTCTTAAAAAAAAAAAAAAAAAAGATCAGCCGGCTGTGGTGGCATGTGCCTGTAATCTCAGCTA
CTCGAGAGGCTGAGGCAGGAGAATCGCTTGAATGCGGGAGGTGGAGGTTGCAGTGAGTCAAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAG
ACTCCCTCTCAAAATAATAAGCACCAGAAATTGTTATATTTGCTTCAGTAAATAGCTGGTTACATATGTCCTTTTTTGTTTGTCTCCACATGTCTTCTGC
ATGGGGTGACTAGGTTCTTTGAGGTTCACATAAAAGAGAAAATGAGAGGACTGAAGTATCTATACTCTTGGGGTCCATCTCATTTGGCAGTGCAAGGAAG
GGGAATTGGGGTGGATGGGTAGTGCAGAGGTTCTTAATTATTCCCAGGGAGGACATTTAGAGGTCTGTTCCAATTTTATGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTTGCCTCAAGTTGAGAGATTATTTCTATTTTTAAAATGTTTAATTTTTCTATTGCATTGTGTTATATTGACAAAGTCT
TGCTCACTATAGCCTAGAACTCCTGTGCTCAAATGATCCTCCTGCCTCACTCAGCCTCCCGAGTAGCTAGGACTACAGGCACATGCCACAATGTGGGGCT
AATTTTTTTTATAGAGATGGGTGTCTCACTATGTTGCCTAGGCTGGTCTCAAACTCCTGGCCTCTTAACAGTCCTCCCATCTTGGTCACCCAAAATGCTA
GCATTACAGGCATGAGACACCACATCTGCCCCCAAATTTTATTTTTAAAATGTTTACTTTTCCAAAATTGTAATGTCGACGGAGTCAAACTCTGTAAAAT
ATTTGAAGAGATTTATTCTGAGCCAAATTTAAGTGACCATGGCCCATGACATAGCCTCAGGAGATCCTGAGAAGATGTGCCCAAGGTGTTTGGGCTACAG
CATGGTTTTATATACATTTTAGGGAGCGTAAGACATCAATCAATACATGTTAAATATACATTGGTTCAGTTCAGAAAGATGGGACAACTCAGAGGTGGGG
GTGGGGGGATGGACCTGCTGTCACATTGGTATCTTACTGCTACAAAGTGTGTCAGTGTTAAGGTCTCTGTTTTTTTTTTTTTTCCTGAGACAGAGTCTCG
CTTTGTCACCCAGGCTGGAGTGCAATGGCATGATCTCAGCTCACTGCAACACCCACCTTCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGC
TGGCATTACGGGCCCACCGCTATGCCTGCCTAATTTTTGTGATTTTACTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGCCCTT
AAGTGATTCACCTGCCTTGGCATCCCAAAGGGCTGAGATTACAGGCATGAGCCACTGCAACTGGCCTCAGGTTTACTTTAGAATGCCCTTGGCTGAGAGG
ATGGGCCTATTCAGTTGGTTGGGGGGCTTAGAATTTTATTTTCGTTTTATAGTAAGAAGCCAAAGGACACAACAGAGTGAAAAGGCAACCCACTAAGAGG
GAGAAGATGGGGCCGGGCATGGTGGCTCATGCCTGTAATCCCAACACTTTGGAAGGCTGTGGCAGGAGGATCACTTGAACCCAGGAGTTTGACACCAGCC
TGGGCAATACAGGGAGACCCTGTCTCTAAAAAAAAAAAGAAAAGAAAAAGTGGGAGAAGATATTTGCAAATCCTATCTGATAAGGTGGTTAATATCCAGA
ATATATAAGGAACCAAAACACAACAAAAACCCATTAAAAAATGGGCAAAGCCAGGAGTTCAAGGCTGCAGTGGGCCATGATCATGACACTGCACTTCAGC
CTGGGTGACAAAGCGAGACCCTGTCTCTTAACAAAACAAAATAAAACAAACAAAACAAATGGGTAAAGGACTTGAATAGACATTTCTCCAACAAACATAT
ACAAATGGCATGACCAATAAGCACAAGAAAAGATGCTCAACATCACTGGTCATTAGCGAAAGGCAAATCAAGACCACAGTGAGATACCTCACACCTATTA
AGATGGCTACTATACAAAAATAAAAAGATGTCAGTGGAGATGTGGGGAAATTGGAACTTGTGCACTCTTGGAGGGAATGTAAAATGTTGCAGCCACTATG
GAAAAGAGAATGGCAGTTCCGCCGGGCGCAGTGGCTCATGCGTGTAATCCCAGCACTTTGGCAGGTCGAGGTGGGTGGATAACGAGGTCAGGAGTTCGAG
ACCAGCCTGGTCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCAAACGCCTGTAGTCACAGCTACTCAAGAGGCT
GAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGTGGTGAGCCGAGATCGTACCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTC
AAAAAAAAAAAAAGTACGGCAGATCCTCAAAAAATTAAAAATAGAATTACTACATAATCCAGCAATTCCACTTGTGTATATATATTCAGGAGTTGAAAGC
AACAGATATTTGAACATCTGTGTGTATACCCAAAAGGGTTAAAAAACAGATATTTGTATATCCATGTTTACAGTATTATTTCACAGTAGCCAAAAGTGGA
AACAACCTGTTATCCATTAACAGATGACTGAATGAACTGGTATATACATAAAATGGAATACTATTCAGCCTTAAAAGAAATTCTGACACGTTACCACATG
GATGAACCTTGAGGACATTATGGTAAGTGAAATCAGTTACAAAAAGACAAATGCTGTATGAGTCCTTATATGAAATACCTAGAGTAGTCAAATTCATAAA
GACAGAAAGAATGGTAGTCGCTGGGAAGGAGGGAGGGGAAGAATGAGGCGTTACCACTTACTGGGTACAGAGTTTCAGTTTTGCAAGATGAGTGCTGGAG
ATGGATGGTGGTAATGGTTGCATAACAATGTGAATGTATCTAATACCACTGAATTGTACCTTTAAAAATGGTTAAGATAGTAAATTTTACCATCTTCACA
GTTTCCCGAGATTGCAAGGCCAGCAGTTAAAGACAAAAACAAAACTATTTCCAACTGCCCTACAGTGTGCAGACCTTTCCCTTGTCCTGCCCTGAGTAGA
ACTACAGTTGTCATTCGTGATCCTCCCTTTAAAAAATTATGCTTGTGGCTAGGCGCGGTGGCTTACACCTGTAATCCCAGCATTTTGGGAGGCCGAGGCG
GGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTAGCCAACATGGTGAAACCCTGTCTCTGCTAAAAATACACATTAGCTGGATGTGGTGGTGCGCG
CTTGTAGTCCCAGCTGCTCGGGAGGCTGAGAGAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGCCGAGATCGCGCCACTGCACTC
CAGCCTGGGCAACACTGTGAGACTCTGCCTCAAAAAAAAAAAAATCATGCTTGCGTTTCATGGCGAATGTTACACATTCAAACTTATCAAATATATTAAT
AGTAAGAAAATAGGTTTCCTATCCGTTGTATATATTTGAGTTCCAGGCGAGATTTCCTTCGCAGAAAGAGTTCCGCAGATGAAAAGTAAAAGAAAATCCG
CGGCGAAAATAACCCGCGCGCAGAGGCCGGTCCCGCTACTAGCCCCGCCCAATCAACGAGGCCAATCAGCGGCCCGCAACGGGGGAGGGACACGCAGCCG
TCAGCCGAACAATTCGATGACGAGGCCCAGGAAGCACGCTGAAACCCTGGGCGGCGGCAAGCTGTGCGACCTCTTCTGCGGCCGGCCTGGGCAGGTGTCT
TCCTCGAGAGGCAGGCAGGGGATCCCGGACGTGAGTCCGTGCAGTTGGGTGTGTTGTGCGGCGGGTGGGGCGGGTTACCCGCCGTTACGCCCTGGCGGGT
CCAGCGGACTCGCGGCGCAGACGCTGGGGAGGCCGCAGGCGCGACCCGGGGCGGGGACCGTGCTAGCTGCGTGCGTCCGCTGCGGCCTGTGGGTGCCCCG
GGCTCCTACCTCAGCTCCCGCGCCGGCGGCTGCCTGTCCGCCGCGGTTGCGCGCGTTCCGGGGAGGTGCTTGGCCCAGAGAGCGGCCTACGGAGAAGGCA
CAGCGAGGGCAAAGCGAGACCTGRGCGCACGTTGAATTCTGTTGGCTTTGGTTATCTCTGAAAACTTTAAGCATAATTTGAATAAATGCTGTCAGCAGAA
TAGCTCGGATTTAGTTGTAGTTAATTTTCTAAAACTTCAAATCTGTGAATTAACACAGTTAACAACAACAACAAAAACGGACACAAAACAACCTCCAAAW
TGGATTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTGTGTCACCCAGGCTGGAGTGCGGTGGTGCTATCTCCGCTCACGGCAACCTCCGCCTTCCGGGTT
CCAGCGATTCTCCTGCCTCAGCCACCTGAGTAGATGGGACCACAGGTGCGCGCCACCAGGCCCGGCTAATTTGTAAATTTTATTTGTAGAGAAGGGGTCT
CCCTGTGTTGTCCAGGCTTGTCTCTGACTCCTGGGCTCAAAGGATCTTCCCATCTTGGCCTCCCAAAGTGCTRGGATTACAAGCGTGAGCCATTGCGCCT
GGCTCCAAATCTGATTTGAGTGTAAAAAGTTAGACACACCATAAGCTGTAGGTTTATTACTGGGTGGTGAAAAACAATTCAGGTTTTCTTTATAATAGTG
ATTATGAAGTGTTCTTCCCAGACTAGCTTTATCGTCATCTGGGAAATTGTTAAAAATGCAAATTCGCAAGTTTGAGAGCCATGGTTCCAAGAAACTGCAT
AAGCATACGAAATAAGTTGCAGCCTCCCGACTTATACCCTGGTACTTCTAGTCTAAAACAGGATTTGACTCTACTAATCCAGGTTAGTCTTGCCTTTCCC
RTTACTCATGTGCTTTCGTTGAAACCAAAGACTTTTTCTTTTGTGCCCATTTCTACTCACTGCCTGGCCGTCTGCACGACGATCTGTGTTTCCTGGTAGT
TCTCCAGTCTAGTAGCTACTATAAACTACTCTCCCTATTTCCCGCTCTGTGGAGATGTCGTTCCAACAGGTCCTCTCCACTCTAAGACCCTATCCTCTCA
GAGAAGCCCCTGAGAGCCATTAGTACTTTTGCCCTGGAGAGGCAGTTTAGGTAGAGCCAGTCTGGGTTCTACCACTTACTAGCYTGGTGGTCTTAGGCAA
GTTACTTTGTGTGATCTGTAAAATGAAGATGAGTGAAGATAAGAGTACTACTTCCAGTAGTTTTGTGAGGATTAAATTAATGTAACAGTGCTTAGCACAT
AGTAACAAAATATTAGCTACTTTTTTTTTTTTAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTCGGCTCACCGCAACCTGC
ACTCTCTGGGTTCAAGCAATTCTCCTGCCCCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACCACGCCCTGCTACTTTTGTATTTTTAGTAGAG
ACAGGGTTTCTCCATGGTGGTCAGGCTGGGCTGGAGCTCCCAACYTCAGGTGATGCGCCCGCCTTGGCCTCCCAAGGTGCTGGGATTACAAGCGTGAGCC
ACCGTGCCCGGCCTTTAGCTACTATTATACATATTATAATTTAAAAATTATTAGTACCGAAGCCTGAGACAGGAGAGAAATGGTAAAAATAGTAGGGACT
GCGGGAGAGAGAAAGAGTAGTGTCCCCTGACAAGTACTAGAATGACATAGGTGCCACCATTAAACGAAACTAGCTAGGATGGTTACTTTCGATTAACACT
TTGCTACTCAAGAGTGTGGTCTGCGGCATCACCAGGAGCTTGTTAGAAGTGGAGATCTCAGACCTACCTCAGATTTACTGAATCAGAATCGTTTTTTTTT
TTTTTTAACAAACTCTTCAGCAGGTTTAGATGTAGCTTTGTTTGGAGGAAGTGTGAGATTCGTTTTAGGATTTCTCAAGGAGTTCCAGCCTTCAATCAGT
GACCATGGGGATCTGGCAGGAGGGCTTGAATTTCTAGCTGATTCTTCTATTCTGTCTTACCCTCCTGTCTTCCATCATTTCTGCATTGCTAATCTCTATC
CCTGGAGAAATCTATGGAACTGCTGGTTATTACTGTAGAAAGTAACATAGTTGCCARTAGTACGACTTTGTGGATGTCACAGTCAAAACTCAACTGCCTG
GCTGGCACAGTGGCWCACCTGTAATCCCAGCACTTTGGGAAGACAAGGCGGCGGGCAGGGGGATCCTTTGAGCTCAGGAGTTCGGGACTAGCCTGGGCAA
CATAGCAAGACCCTGTCTCTATAAAAAAGAAAAAAAAATCTCAACTGCTTGACAGGCTTTTTATTCACTTCCCTTTGTAKAATGCCTCCTGTAGTACCTT
TTTTCCCCTCCAAATCTCCGTTTCCCCCATCCTAACCTCCTCACAGTGTTAGAAATGCAAATTACTCTTAATTTCTCTGTCCACTTCATATCATATTATA
ATATGAAATCTGTCAGTTTCTCTTTTTACTTTAGAAATTTTGTCTTCATCCATCTTCATTCATTTCTATTTATGGAGTATATAACCTCATTGCCTATGAA
GAACCCTTCCCGTAACCTTAATTTCATGCACTCCCATCTTGGAGCCTCTCTCCAGTTTACACACTCCCTTTGTCACCTACTTCTTAACCACTTAGAGAAT
TAGGCTTCTCACTGTCATTCTCTGAAAGGTCATAAATGGCCAACTAATTAACCAATCCAATGGCTTTTTTCCAGACTTTGTTCCTCTCCACTTCTCTGAA
GTATTGAATACGCTTGATACCACTTTCTTGAAATTAAGTCCCTCCTTAGTTTTTGCCCATTGCATATTTTGGCTTGTCTTCTATTGCCCTGATTAGCCTT
CACTCTCCTCTCTGGTATTTGCTTCTTCCATGGCTTTCTTCCTTAGTTGAACTCTTAATTTTTTCCAATAAAGTATACAGTTATTCAGTATTTCTAAGTA
TCTCCAGAGCATAACAGTGATTTTAGTGTTTTTTGTTTGTTTGTTTGTTTTTTAATTGAGTCAGGGTCTTGCTCTGTCACCCATGCTGGAGAGCAGTGGC
GTGATCTCGGCTCAGTGCAGCTTCAACCTCCCCGGCTCAAGTGATCCTCCCACCTCAGCCTCTCCAAGTAGCTGGAAATATAGACGTATGCCACCACACC
CAGCTAAATTTTGTTTCAAGTTTTGTAGAGATGGAATCTCCCTAAGTTGCCCAGGCTGGTGTCGAACTCCTGGGCTCAAGTGTTCCTCCTGCCTTGGCTT
CCCAAAGTGCTGGGATTACAGGCGTGAGTCGCCACAACCGGCCAGAAACTATTGTTCTATTTATTTTGTGCAGAGCTTTGGTTGTTCAGGCAGGAGGGTA
AATCTGGTCCCTGTTACTCCATCTTGGCCAGGAGTAGGAGTTGGGGAAGTGCTTTGGGAGTATAGAGTCCCCCCTTTACCCTTGGAGTATACATTCTAAG
ATCCTAGTAAATGCCTGAAACTTCAGATAGTACTGAACCTTGTATATATTCTATGTTATTTCCTATACATCTATTCCTCTGCTAAAGTTTAATTTATCAG
TTAGGCACAGTAAGAGATTAACAGCAATAACTAATAAAATAGAAAAATTATAACAATACACAATAATAACAGTTATGTASTGTGGCTGGAATTTTTTCAC
TTGAGGTGCGACAGCAAAACTAGCATGAATTTCTTTCTCCTCCTGTACAATTTCATGGATACAAGTTTTGTTCTTAACATAGATCTTAGCAACCTCATCA
TATGAGCTTTTTTTTCTTTAATTTTTTTTTTTCTTTTGAGTTGGATTCTCACTTTGTCACCCAGGCTGGAGTACGGTGGTGTGCTCTCAGCTCTCTGCAA
CCTCTGTCTCCCAGGCTCAAGCGATTTTCCTGTCTCAGCCATTCAAGTAGCTGGCATTACAAGTGTGTGCCACCATACCTGGCTAATTTTCATATATTTA
TTTATTTATTTATTTTGAGACGGTGTTTCACTGTTGTTGCCCAAGCTGGAGTGCAATGGCGTGATCTCGGCTCACCTCAACCTCCGCCTCCCGGGTTCAA
GTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCACGCTCGGCTAATTTTGTATTTTTTTGTAGAGATGGGATTTCTCCA
TGTTGGTCAGGCTGATCTCAAACTCCCGATCTTGGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACTGTGCCTGGCCT
ATTTATTTTTTGAGATGGAGTCTCGCTCTGTCGCCCTGGCTAGAGTGCAGTGGTGTAATCTTGGCTCACTACAACCTCCGCCTCCCGGGTTTAAGCAATT
CTCCTGCCTCAGCCTCCTGAGTAGTCAGGACTACAGGTGCTTACAACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTG
GCCACGCTGGTCTTGAACTCCTGGGCTCAAGTGATCCGCCTGCTGGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCAGCCCTTTATT
AAGTTGAGAACTTTCACTTTTTCACTTAAAGGAAGCACTTTATGGCTTCTCTTTGACATATCTGAATTGCCAGCATCGTTACTACTGTGCTTTAGGGCCA
TTATTAAGTAAAGTATAGATTCCTTGAACACACGCACTGAGATACCACAGCAGTCGTAACCCAGATGGATACTAAGTGACTGGAGTGTGACACCTACAGT
GTGGACATCGTCCCATGTGGGATGGAACAGGACAGGAAGAGAGTTCCTCACACTATCCAGAGCTGTGCATAATTGAAAACTTAGGAACTGTTTACTTCTG
GAATTTTCCATTTAATATTTTCAGACTGCAGTTGACTGTGGGTAACTGAAACCTCAGAAAGCAWAACCGTAGATGGGGTTACCACTGTAGAGTTACTGTG
TTACCTTGATCCAAAACCTTTACCTGAATGATTCCTTTAACCATTCCCGGTAGGCTTTCTCTGTTAAAGCTGCTGTACCAAATCCAGGGGTCAGTTTGCT
GCCCTCTGATCGCCTGACCTCTTAGCGGCATTCAACATATTTGTCTGCTCTCTCCTTTCTTCACTTGGCTTCTGAAATTCCAACCTCTCTTGGTTTTCTT
CCTGCCTCATAGCACTCACTAGAATTATCTCTTGCTGGTTCCTCCTCTTCTTTCTGATCCCCGAATGTTGGCTTGCCCAGGACTCAGTCTTTTGTCCTCA
TAATAAATCTTCTGGTGATCTTACCCAGATCATCTCTTTTAAACCCCGTCTACATTCTGATCGTTCTCAAATGYAGTCCCACTGCTCTCCTTAGCTTCAT
CCTGCATATTTATAATCTCTACTTGGACATCAGTGGACACTTCAGATTTACTATATCCAAACAAAACTCTTGATCTTTCAGAACTTGCAGTCTTCTTCAG
TCTTTTCCCTTCTCCCAGTTGCCCTGGCCACAAACATAGAAATCGTCCCAAATCTTCACTTGTCCTTACCGACATCCAAATTTTCAGCAATTTCTATAGT
GTATTTCTGTATTAGAGTAGCAAGAGATGTTATAAGAAATAAACCCCTATATCTCAGTATATGCCATAAATGAAATTAATTTTTGCTCACATGAAAGTGA
AAAGCTATATTCCCACTTAGTGGGTGGCCTTCCAGGTGGTCATTTAGGGGCCCAGGTGCCTGCATAGTTTGGCTGCCCTCCTCCAGGGCTCAGTGTCCTG
GGAATTCCCTGGTTGGGAGAGGGCAGCTGGGAGGTTTTCATGGGCCAGACTTGGATGTGGTGCATATCCCTTCTATCCGTTGGGTTGGCTAGAACTTAAC
TATTACGTGGCCATACTTCACAGAGAGGCTGAGACATACAGTCATCATTTGTCCAGAAGGAAGAAGAAATATGCCTAGTGACCTATTAGCTGGTCATTTT
GCCAGATGTAGTAGGGTCTACCTACAGATTTTAAAAGTCTGACCATTTGTCATCACCTTTGCTGCTGTCTTTAGCTCATGTCACCTTCATCTCTGAAGTG
GATGACTACAGATCTTCCTAACCTCCTGATAATCTTCCATTCTAATCTCTACATAGTAGCCATAGTAATGTCTTTTAGAATGTAAACCAGATTCTATCAC
GCCCCTATTTAAAAGCCTCAAGTGGCTTCTTGTTACACATAGAGTAAAAACCACACTCTTTACTGTGGTCTACCACTCCCTCCCCGCCTCCCCGCCTCCC
CGCCTCCCWGCCTCCCAGCTCATTCCCAAGACCCAGCTGTTCTGGCCTCCTTTCTGTTCCTTGACTGCTTCAGCTTCTTCTCCACTCAGGGCTTCTATAC
TTGCTGTGTCTTCTCTCTGGATGTTCTCCAAATCTTCCTAAGATTATCTTATTTTTCTCCTTAAATGTTCTTGTGGTTATCTGCTTGCATGTAACAAACC
ACTCTAAAGTGTAATGCTTTTTTTTTTTTTTGAGACGGAGTCTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCGCCTCACTGCAACTTCCG
CCTCCCAGGTTCAAGTGATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCGTGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGA
GACGGGGTTTCACTGTGTTAGCCGGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTASAGGTGTGAGCCA
CCATGCCTGGCCAAGTGTAATGGCTGTAAATAACACTTTTATTACTGCTGGTGATGTTGTGGTTTTATGGGGTGTGATGGGGCTCAGCTGGATAGTTCTT
TTATTCTACATGATGTTGGCTGGGTCACCAAGTCAGTCACCAGAGGTTGGACTGGAACCACCAAGATGGCTCACCCACATGGCTGGCCATTGATATTGGC
TGCAGGCTGGGAGCTCAGTGTGCCCCTGCACCCAGCCTCTTCGTGTGACTTGGCCTTCTTACAAGGTGGCAGCTGGCTTCCAAGAGGGGCGTGTTCCCAC
AAACATATGTTCTGTCTTAGGATTCTCCAGAGAGACAGTGAGGGTGGGAGGATGGATGGATGAGAGGGGATTTATTAGGGGAATTAGCTCATATGATTAT
GGGTGCCGAGAAGTACCATGATAGGCTGTCTACAGGCTGGAGATCCTGGAAGGCCAGTAGCCTGGCTCAGTCCAGGTGTGAAAGCCTTAAAACCAGGGAA
GCCTATGGTGTAATTTTCAGTCTGAGGCTGAAGGCCTGAGAACCTAGGGGCTGCTGGTTTAAGTCTGGGATTCCAAAGCCTGGAGAGCCTGGAGTTCTGA
TGTCCAGTGACAGGAGAAGAAGGGTGTCCCTGCTCCAGGAGAGAAAAGAAATTCCTTTTCTCTTTTTTGTTGTATTAGGGTCCCCAGCTGACTGAATGGT
GCTGGCCCCTACAGAGGGTGGATCTTCCACACTCAGTCARCTGACTCACAAACCAGTCTTCCCTGGAAACCCCTTCAGACACATCAGAAGGAATGCTTTG
CAGTTCTCTAGGTTTTCCTTAGTCCAGTCAAGTTGACACTTAACCATCACATGTTCCAAAGTGAAGTAGAAGCAGGCGACCCTCTTGAAGGCTAGGCCTA
GAACCATCATAGCCCCACTTCAACCAAAGGATTTTGGTTCAGTAGTCACAGGGCCAGCCCAGATTCAGGAGAGGGGGAAATACACTCCATCTTTCCGTGG
GGAGAGTAACAAAGCATTTGTGACCGTCTTAGATCTTAGGGGCCTACCCTGAAATACCCAGCATCGCCTAATCCATATGTACCACTGTCTTGCTTTATCT
TCTTAGGATTTATCACTATCTTGAGTTACATGTTTTTGTTTTTGTTTTTTTGCCAACTTACTGTCCTTCCTTCCCCCCTAGAATGTAACCTTCCTGAAGA
AGACCTTTGTCTGTGTAGACTCCTGGTATCCCTGTAACTTAAGACAGTGCCCAGCATGGTGGCTCATGCCTGTAACCTCAGCACTTTGGGAGGCCAAGGC
GGGTGGATCACCTGAGGTCGGGAGTTCAAGACCAACATGGAGAAATCCCTGACCAACATGGAGAAATCCCTTCTCTACTAAAAATACAAAAAATTAGCTG
GGTATGGTGGCACATGCCTATAATCCCAGCTACTTGGGAGGGTGAGGCAGGAGAATTTTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGYGC
CATTGCACTCCAGCCTGGGCGACAAGAGCRAAACTCCGTCACACACACACACACACACACACACACACACACACGCAAAGACAGTGCCCAGTATACAGTA
GGTATTTGGTAAATGTTGAACAAATGAATGCTGAACTCGTTCCACAACCATATTCTCATTATGAATTTCTTTTTAAAATTAACATCACCATTTTTGTTGC
TGGTAGGCCAAGGTCTGTAGAATTGATCTTCAGAGTGTGCCACATGTGTTCTTTCTGGTTTTCTTGCCACCACTCTTTTAGGCCAAGTACCACATCTTTT
TTCTGCTTCAGCCTCTTTGTTGGATAATGAATCCAGGTTTTCCTCCTCCTGTGCGCTTAGTGCTGGTGGTGGTGGTGGTTGTTGTTGTTTTTGAGACCGA
GTTTTACTCTTTCACCTAGGCTGGAGTGAAGTGGCACGATCTCGGCTCACTGCAGCCTCCGTCCCCCACCCAGGTTCAAGCGATTCTCCTGCCTCAGCCT
CCCAAGTAGCTGGGATTTACAGGTGTGTGCCACCAYGCCTGGCTAATTTTTGTTGTTGTTGTTKTTTTATTAGAGACTGGGTYTCACCATGTTAGCCAGG
ATGGTCTTGATCTCCTGACCTCATTATCTGCCTGCCTCGGCCTCCCAAAGTCCTGGGAGTTAGTCGTAAGCTTTTTTCCTCAGCAGTGTCATCACCACCC
ACCCACCTCTACCTCTCACCGTATCCATCCTCGCAATTGCAATTGCTGAAGCATACACTTTGCCCTCTGCCTCTCCCATCTTGAGCACTTAAGATGTTAC
CCATACCTCGGATTCCCATTCCTGTGCAGTCTTTCCACTTTCTAGTTTCTCCAGTCGGATGTGTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCACTCTG
GTTGCCCAGGCTGGAGTGCAATGGCATGATCTTGGCTCACTGCAACTTCTGCCTCCCAGGTTCGAGTTATTCTCCTGCCTCAGCCTGCCGAGTAGCTGGG
ATTACAGGCATGCACCACCATACCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGG
TGAGCTGCCCGCCTCGGCCTCCCGAAGTGCTGGGATCACAGGCGTGAGCTACTGCACCTGGCCAGATGTGCTTTCTTTATCCTTTGAACCTCTAAAATCC
TTGAGTCCTTGCTATGGCTTTATTTGCATTTGCTGCTTAACAAACATTTACTGAATGTCTTTCACGTGCCAACCACTGGGCTGGGTGTTGAGGTTGGGGA
GATGGAGGGACAAGATAGAGAGGCCAGTGGGAAGGTGACTTCAGATCTAGGTAAGATACTATCTTTCCCTAGAGAAGTTCACATTAACAGTGGTTTTCTG
TCTTGGCTACACATTAGAATCACTTGGGGAGCTTAAAAAGATCGAAGTGCCTGGGTCCTAATCCCAGAGATTCTGATTTAATGGTTTTGGGATATGGCCA
AAACATTGGGAGTTTYAGAAGCTCCTCGGGTGATTCTAATATGGAGCCAAGGTTGAGAGCTATTGTGCTAATGGAAGAGACAGACCGATAAATGGCTAAT
TTCATTGCTTCCAATGCCAGAAGAATATACAGGGCACAYGGGGAACAGGAGTATTTAATTTAGCCTAGAGTGATTTTTATTGTACAACTAGACCGTAAGC
TGTTTATGGGCAGGGCCCAGGGCTTTGTCATCTTGGGGTTCTCTTGCCTGATTCTTATATGTAGTAGGTATAAGATAGGCTGCCCAACAGAACTTTCTTC
GATGATAAAAATGTTCAAATGTTCTGTATCCACCCTGTCCAATATGGTAGCCACTACCCATATGTGACTATTGAGTGCTTGAAATGTAGCTAGGGGGAAT
GAGGAACTGAATTTTAAATTTTATTTAATTTTAATTAAATAGCTACATAGAGGAGTTACTAAGTGTTTAAATTATTTGACTGTTTATGCAGGGGCTTAGG
TAAGGCAGGTTATTTTCTCTGAATGGTTTTGAAGTTTAGTCACTGCATTTGAATCGTAAATTCCCACCTTTCTTTCTTTTTTTTTTTTTTTAAAGGCAGA
GTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCCATTCTCCTACCTCAGCCTTCTG
AGTAGCTGGGATTACAGGCACACACCACCATGCCTGGCTGAGTTTTTGTGTTTTTAGTAGAGATGGGGTTTCAACTTGTTGGCCAGGCTGCTCTCGAACT
CCTGGCCTCAAGTAATCCGCCCAGCTTGGCCTCCCACAGTGCTGGGATTACAGGCGTGAGGCACTGCACCTGGCAGTTTCCCACTTTTCTTATTTCTCAT
TTGTTAAAAAAAAACAGGGGGGGCCAAGCGCTGTGGCTCATGCCTATAATCCCAGTACTTTGGGAGGCCAAGGTGGGGTGGAGGTCGGGAGTTCGAGACC
AGCCTGACCAACATGGAGAAATCCCATCTCTACTAAAAATACAAAATTAGCCAAGTATGGTGGCCCATGCCTGTAATTCCAGCCACTTGGGAGGCTGAGG
GAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTCTAGCCTGGGCAAAAAGAGTGAAACTCTGTCTCAAAA
AAACAAAAAACCCAAAAATAGGGGGGAGATTCGTTAAAATACCTGTTTTTAAATTGACTTTATTGAGCTATAAATCACATACTATATAATCCACCCATTT
AAAGTGTCCAGTTCCACCAGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGAGGATAGCTTGAGCCTAGGAGTTTGAGACC
AGCCTGGGCAATATAGTGAGACCCTATCTCTACAAAAAAGTTAATTAATTTTAAAAAATTAGCCAGGTGTGGTGTAAGCTTGTAGTCCCAGCTACTCAGG
AGGCTGAGGTGGGCCGATCACTTGAGTCTGGGAGGTTGAGTCTGCAAGTAAGCTGGTATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGGGAGAGACC
CTGTCTCAAAAAAAAAAAAAAAAAAAGTATACAATTCAACGGTTTTGGGTATATTTGCATGTATTTGCAACCATTATTATAATTTTAGAACATTTTTCAT
TACCTCAAAAGGAAACCCTGTACCCTTTAGCTACTATACTCCCAAACCTTCAGCCTTAACCACCTGTTAATCTACTTTCTGTCTTAATAGATTTGCCTAT
TCTGGACATTTCATATATATGTACTYATATAATGTGTGGTCTTTCATATCTGGTTTCTTTCACATAAYGTAGCATTTTCAAGGTTCATATGTGTTGTAGC
ATGGTGTCAGTATTTCATCCCTTTTTATGGCTGAATAATATTCCATTGCATGGCTATACCAGTTTTATTTATCAGTTAATGGAAATTTGTTTGTTGTTGT
TGTTTTTTCTGTGATGGGGGTCCCACTCTGTCACCCAGGTTGGGGTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGCTCAAGCGATC
CACCTGCCTCAGCCTYCCAAGGGGCTGGGATCACTGGCTTGCGCTACCACGCCTGGCTAATTTTTTGGTTATTTTTTTCATTACCTAGCCTGGTCTTGAA
CTCCTGAGCTCAAGTGATCCACCTACCCAAAGTGCTGGGATTACATGTGTCAGCCACCACACCTGGCCCTGTTGATGGAAATTTGGGTTTTTCCCACCTT
TTGGCTATTACGAAAAATGTGGCTCTGAACATTCATGTACAAGTTTTTGTGTGGACATATATTTTCATTTCTTTTGGGTATATACCTAGCAATGGAATTG
CTGGGCCATATGGAAAAATACCTATTTTCTTATATCAGTGAGCATATTATGCATATATGCATTTTTTTAATATATGAACACCAATTTATTTTTATTTTGT
GTACCTTCTTCCTTAGATACTGTTCAGAAAGTGTTATCTTAACTCTAGAAGGAAGTAGTTTTCATTACAAAACAATCTGGCTGGGTGCAATGGCTCATGC
CTATAATCCTAGCACTTTGGGAGGCCAGGGTGGGAGGATCAGTTGAGGCCAGGAGTTTGAGACCAGCCTGGATAACATAGTGAGACCCTGTCTCTACTAA
AAATTAAAAAAAAAAAATTATCCAGGTGTGGTGGCACACACCTGTAGTCCCAGCTAGCCAGGAGGACCTCTTGAGCCCAGGAGTTGGAGGATGCACTGAG
CTGTGATTGTATCACTGTACTCCAGCCTGGGCAATAGAGCAAGACCCTGTCTCTAAAAATAATAATAATAATAATAATAWCCCAAAACCCAATTTATTTA
AAAAAATAATTCTATTTCATTATATATATTAAAAATTGTTTTAGCCTTATACAGGATGCTGTGTTCTTTGCTCCTTTGTGAATGTCTGTTGCTGGTAGCT
GGTTATGCTCATGATGATGACTGGATTGACCCCACAGACATGCTTAACTATGATGCTGCTTCAGGAACAATGAGAAAATCTCAGGTATTAAAAAAAATTC
GTGCATGTGTGTGAGACCTTATCAGTCCCATGATGSAAACAGTCTAGCTCTGTTGTTTTGCACAGAGCTATGAGGGTCATGGATCCATGATTAGCAATTA
TGCAGAATATTTTCTTGACACTGTTAATCTAAAATTATTTCAAACCTACCTGGTATTGAATTTGAATGTAAAGCCCTTGAAGTAGCAAAATAATATGATT
TTAGTTCTTAGTGTGTACATTTGAAACTTTTTTTTTGTGGTTCAGTACAATTTAAGAATATAACATGCAGAGTCATGAAATGATGAAGTCAGAATCTTAG
TCTTCATTAACCAAAGGCTATTTTTGTAACTAAACTATAAAGAAATAAAATGTTTCTATACTCTGTTTTAGGCAAAATATGGTATTTCAGGGGAAAAGGA
TGTCAGTCCTGACTTGTCATGTGCTGATGAAATATCRGAATGTTATCACAAACTTGATTCTTTAACTTATAAGGTTAGTTTTTTTATTGATAAATTTTAT
ATTTTTATATTATGTTAAATCGCTCTATATTCTTGTCTCTGCTGATAAATTTGTATTTCTAGTGTTTCCGTGTACCGTATGATTTTTATATRTCAAATTT
TTCTTTGGATACTCTAACCTTGGTTTCTTATTAGTTATTCTAGCCTTGGTTTTTCTAGTAGTACCTTGTATTTTCCTGTAATAACATWGACATCTCTGTG
TTGTAAGTATTTCTTTACCAGACTGCAGACTTCTTGGTGCAAGGAATACGTTTTATTGATCTTAATTCTCTGTCACCTRTCACAGGGCTGAGGCATAGTA
AACTCTCAACAAATGTAGCAAATGAAGAAATGTGTCTATTAYCAGCTTATACGAATAAGAGTTACTCTTAAGAAGGATTATTATAATTTAGTGTGTAATA
GCTATTCATTCCTTCATTTATCCAATCCTCTTAAAAAAATGTAGCTGAAGAGTTTACACAAAAATAAATAAGTCAAGGGATGTGAATGTAGTCGTTATGT
GCTGTGGGAGCCACCCTCGGTTGGCTGCGTAGGCAGGGTGAACTGGTAGCAGTGTGGAGGTAAGGAGGTGAGGCCTGGAATGGAGAAGGGGGGTGTCAGT
GAGATCAGTGGAGGCTGCAGAGGTCCAGCAATGCTGAAGGTCTGAAATGAGGCAGTGATGGGTTGAAGATAAGAGGCAGATATTAAACTTTTATGAGGTA
GAATAGGCAAATGTTGATGGCTTAGGGAAGTAGGGGGGATAAGGGATAGGGAAGAGCTAGAGTGAATGAGTCCCAGCTTGAGAGACTGGGAGAGTTTGTT
CACTGAGATCCAGATATAGCCCAATAAGATCTATACCCACCTGCTTGTGATTCTTATTAAGTACGAATACTGTCTCACCTGAGTGGTTGAGAAGGTGCGC
TTGGATAAAATTTGCTTCACTCCCATGATTTGAGGAAGCCACAAGAAAAAGAAAAGGAAAAAAAAATTGCTTCACTTTGTGTATTATTATTGTATAGTGA
GCTATACAAAAGTTTGGCTGCACAGCAAAAATGCAGAAATACCTTTTTACAGAATTTTTTTATTCCATTGTTTGTGACTGGTTTAAACATTCTAAGAAAC
ATGRTTGGCAAAATGGAGTCTTGAATTCTTTTTTTTTTTTTCCTAAGTTGTTTCTTTAAGGTTTAGAAAATAAACTGGTTTTACAAACCTTGCCTGAGAG
CAAAGGAAACTGCTGTGTTCTTCTATTTCCTTCTCTGCTCAGTGTCCTTCTTAAGTCTGTGTGCTGCTCAATTATTGTCATGTTTATCCACTGATGTGCA
TTTCAGCGCTCAACTCATGGTCCACACTCCGTTAAAAAATGCAAGTTGATGATCACAAAGTTATTCTAATGTTTGRAAARTACCCRCTACCCTCAGCGAC
TTGCCTGCTGGGTTGGTGGTGGCAGAGCTAAGTTCGTAGGAAGTCTGCTCCCGTGTAGAATTGTGTGCTGAAGGGTTGCCATGTGGGTGGTACCCTGGAG
AAGCTGCAGTTCCTGCCTTCCTGAGCATTCCATACAGCATGGGATGATTAATTGCTGATTAAAACATTAATAAAAGGCCAAAAGTCATATGCACATTGAA
GAAATACTCTGTTGTGTCCTTCATTTCATCGTCTGGCTTCATCTTGTTTCTGTTTCTCTGTCCCTTTGTTTCTCTCTGTGTATTTATTCTACTCTTCCCT
CCTGCCCTTCCTTCCTTCTTTCTCTTGTTAAATTGTTGCTTTGGAATTAGAAAGAGGCAGATTGGTCCAGATGCTCTGCTTGTGGATCTCTGCCTCCTTT
AGCTTTAAAGTTGCTGAAAGTCAGCAGAAAAACTGCCAGGTTAGGGCTAAGTATTGGATCTGTGCTCCTTATTTGTTGCCTACTTGCCCTTTGCAAAGAG
AACATGGGGAAGCAGGCCAGCTCTGCACTGTAATGTATTATAGCTGATAAATGCAARCTTGATCAAAACAACTRGCTCCTTACCTTGATTCCGATGACAG
CACTAGGCTAGAAACTTAACCCTTATATTATACTTTGACTCTAACTAATGTTGAATTGATTTTATGGTTACAGATTGATGAGTGTGAAAAGAAAAAGAGG
GAAGACTATGAAAGTCAAAGCAATCCTGTTTTTAGGAGATACTTAAATAAGATTTTAATTGAAGCTGGAAAGCTTGGACTTGTGAGTATTTGATGGTGTG
ATACTAATCCGTATAGTGTATATTTTTATTTATTAATTTCAAATAATATGAAGAAGTGAAAGCATCATGATGCTTTTTAACAGAGACCACCTGACTGACT
CTTTAACCAGAAGCTATTCATTCAGGATTAAAGGCACTACTATACTGCTTTGCAGTGGTCTGGTGGAAGATGAGCAGTGCAGACCGCTCTTTCTCCTCTA
GTTTGTATGGATTTACTTACTCAGCTCTGTGCACTGCTCCACCAGTTAATGGAGGTGAGGAGGTGGGGTGATAATTCTGTTCTGATCCTACTCCTTGTTT
TCTCTCAGTATATGCTGAGAAAAAGAAAAATGTGTTTTCTGTAGTTTTTCTCCTTGTTGTTTACTGTGGTGAGTGCTACTTTATAGACATATTGTTCATA
ATTATTGTTAAAATTTCCTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGTCCAGGCCGGAGTACCGTCGTGCAATCTTGGCTCACTACAACCTCTGCCT
CCYGGGTTCCAGCAATTCTCCCTGACTCAGCCTCCCGAGTAGCTGGATTACAGGCACCTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATG
GGGTTTTGCCATATTGGCCAAGCTGGTCTTAAACTCCTGACCTCAGGTGATCCGCTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACC
GCACCTGGCCAAAATTTCTATTTTTAAGAAGTCACTGTTTTCACTTKGGGAAGTGAAAACTTCCCAGACTTAATGCATTAATTTAGTTTTAATTCACTTA
CCAAAGTGAAAACATCAAGAAAACATAAATTTAATAACTTATAACATTTAGAAAGCTCATTTAAAAGCTCATAGACTTTTTTTTTCCTATTGTGTGTGCC
ACCAGAATTGACTTAGAGAGTCAGAGACCAGCCTTTGGTCTTGATCTGGCCATTAGCCCCACCTGCCAGAAGTGGTTACAGGCAGATCCCTGAAAATGAA
AGGCCCTTGCATCAGCACAGTGTAGGCTGGCAAAACTTGCCATATACTCCATCTTCCTGGTACAGTAAGAAGTGACCAAAAGAAAAAGGAGTGTTAGATG
AATAACGCCACCTTATTCTGGAAATGTAGAAGCAGATGCGTTCTCATACGTACACTCTGTAATTTGAGCCTTACAGCTACGTACAGGGTGGAACAGAACC
TAGATAAGGAAACAGATGGAACCAAAAATACTTAAGATGGAAATGCTGGAAAATATTTAGTTTCTGATTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCT
GTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCCGCTCACTGCAAGCTCCGCCTCCCAGGTTTACACCATTCTCCTGCCTCAGCCTCCTGAGTAGYTGGG
ACTACAGGCACCCGCCACCATGCCCGGCTAATTTTTTGTATTTTCAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCG
TGATCCGCCTGCCTCATGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGCGCCCGGCCACGTCTGGCTAATATTTTTGTGTTTTCAGTAGAGAC
AGGATTTCACCATGTTAGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCTGACCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCAC
CATGTCCCACCTTGTATTTACTGTTTATAAAAGAAAAAGGAATTTTATTTGTATCAACTGGCTAATTAATGCAAAATTTGTTTAGTGATTTTGCTAAGCT
GAACTCACACTAATAAAGGTAGTTATAAATATGTAATTTATGGAAACCCATTATTTTGTTGCTCTTTGAGATCCTTCTTGTTTTTCTTGTTTGCACTAAT
ACAGATTTTAGGCTATCTGAAAACTGTCAGGAAATGAAAAGTCATGCAGTGAATCATAAAATGAAGATGCACAGTTGATCCTCATTCTTCACAGATTCCG
TATTTATGAATTGACCTCATTAAGTCTGTGTAACCCCAAAGTCAATAATCGAGGTGTTCTGTGGTTACTCTGGGACACAGTGAAGAGTGGTAAAAAATTT
GGGTTGCCTGTTGCAGGCATTCCCAGCTGAGATGGAACAAGGCAATCAAAACTGTTTTCTTGTTTCAGCTCTCGTACTGCAAACAAGTGTCTTTTTTTGT
GGTCTATTTAGTGGTATATTTTTTCGTGCTTTTTTGAGGGGAGAGGGGTGATTTTTTTTATTTTTATTTTGAGACCAATCATTAAACAGCATCATTTCGT
TGTTTAAAACGGCCCTCTGATGTAGTGCTGAGCTGAGGTCTAGTGTTTCTAAGTGCAAGAAGGCCACGATGTACTTACAGAGAAAAGGAAAAGGTGTGTA
TTAGATAGGCTTCAGTCAAGCGTAAGGTATAGGACAGTTGTCCATGTGTTCAGTGTTAGTGAATGAACAATATGTATTTTAARTAAGGTGTCCTTAAACA
GGAATGTACAGAAACACACATAAAACAAGGTTATATATTGATCAATTGATAAAAATGTTATGACAGGTTTGCACGAACCAAACCCTGTATTTATTATAGG
AGTAATGGTTCAGTACTTGCTAATTGGTGTTTGAGGTGACTTTATAGAAGATAACTACTGTGAGGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAGCAC
TTTGGGAGGCCATGGCGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAATGCGGTGAAACCCCGTCTCTACTAAAAATAGAAAAAATTAGC
CAGGCGTAGTGGCGGGCACCTGTAGTCCCAGCTACATGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGTGGAGCTTGCAGTGAGCAGAGATTG
CGTCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCTAAAAAAAAAAAAAGACGATAACTACTGCGAATAGCAAGAATCAACTGTATTTTAGTG
AAATTTACAGTATCTTTTTTACATAGAGTTCTAGAATTTTTAAATGTTTTTCATGTATATTATCTTTGGTTTTCATGTTGGCCTGTGAAGACAGGTGGAT
ATTATTATTATTTTTTTTTTTTAGAGACAGGGTCTTACTCTGTCTCCCATGCTGGAGTGCAGTGGTATGCTCATAGCTTACTGCAGCCTCGAATCCGGGG
CACAGACAATTCTTCTGCCTCAGCCTGCTGAGTAGGCAGGAGCCAGGTGCACACCACTGCACACAGCTAATGGTTAGAATTTTTTGTAGAGATGGGGTCT
CGCTTTGTTGCCCAGGCTGGTCTTGAAGTCCTGGCTTCAAGCTATCCTCCCACCTTGGCCTGTCAAAGCACTAGGATTATAGGTGTGAGCTACCTYGCCC
AGGCTATTATTCTTATACATATGAAATACTGCAAACTAATATTTAGTTCCAAATTGGCTTTTGTCTTAAAATGGTTCACCAAGTAGTAATAAAATTCTCT
TTCTATTGTTTGTTTTTTGGTAAATTTAATTTAGCCTGATGAAAACAAAGGCGATATGCATTATGATGCTGAGATTATCCTTAAAAGAGAAACTTTGTTA
GAAATACAGAAGTTTCTCAATGGAGAAGACTGGAAACCAGGTGCCTTGGATGATGCACTARGTGATATTTTAATTAATTTTAAGTTTCATGATTTTGAAA
CATGGAAGTGGCGATTCGAAGATTCCTTTGGAGTGGATCCATATAATGTGTTAATGGTAAGATGGGATGAGGGCAAGGGCAACGTCATTAAGTTTCCTTT
TTAAAATACTTTCCAAACTCCACCATAATTACGTTAAGAACCTGTACTAGGTCACTTATACYGTATTGATGAACAAGCCACAAAATTGTAGAAATGATTT
TGTGCTTTTGAGTCCAGTTCTTTTTAGCTGTCTTAAGTGTTTTTKGTGGCTGATTTCTGCTTCTCTCTGTTTTAAGGTACTTCTTTGTCTGCTCTGCATC
GTGGTTTTAGTGGCTACYGAGCTGTGGACATATGTACGTTGGTACACTCAGTTGAGACGTGTTTTAATCATCAGCTTTCTGTTCAGTTTGGGATGGAATT
GGATGTATTTATATAAGGTATTATATGGATGGAGGGTTTTACAATTTTAACACATTTATTCACAATGAAAGAAGACTCTAATCCATTGAGAGCAATCTTG
CCTTGGATGTGGGTTGGAGGCAKTGATTAGAGGTGGCCCACGCTGGAGAGGAATTAAATGGACACTTCTTAGCTGACAGTTTTTTGATTCCTTGACCAGT
TAGTGGGTAAAAAAGTTCAGTCCTAATTTTCATAACCCAGTTAATGTTAACATTTGGGCATCTAAGTCAGAATAAAGCCAGGTGGGTTGGGTGTGGTGGC
TCATGCCTGTAATCCCAGCATTTTGGGAGGCTGAGGTGGGCAGATCACTTGGTCAGGAGGTCAAGACTAGCCTGGCCAACATGGTGAAACCCTGTCTCTA
CTAAAAATACAAAAATTAGCTGGGCCTGGTGACGTGCACCTGTAGTCCCAGCTACTCAGCAGGCTGAGGCAGGAGAATTGCTTGAACCTGAGAGGTTGCA
GTGAGCCAAGATTGCGCTGCTGCACTCCAGCCTGGACCACAGAGTGAGGTCTGTCTCAAAAACAAGGAAGAAAAAAAAAAGAATAAAGCTATGTGGATAC
ATTTAAAAATTATCATGTAGGTAATTTAGAGTATGTCATTCTATGTCTTTGCTAGAAATGATACCAAAATATTATTTTTTAAAAATTAGGTTATTTTTTG
AATAAGTGGTATATTCATGGCAGAGAATTTAGAAAAGGCAGATACAAGGAAATTAATTTTTAAAATAACCTATAATTTTATCACCTAGAGAAAATCTGTC
AGTAGTTTAAGGTATTTCTTTCTAGATTTTTCTAGATTTTAATTATCTTTCAAAGTTGGGATCATACTGTATATAGAAATTGGAAAGGACCACTACTGTT
CCCATCAACATAGCATAAATAATAATCATTGAAAGAAAATTTTAGATCTTTCTAGCAGAGTGAGTCAAGTAGCCAAGTATTTTCAATGATTTCATCTGGT
TAAAGCATTGTGACATTTCCTTAACCTTTTGCTGTAAGTATTATAGTATTTAGAACTAATTATTTACAAATTAAACACAGATTCTGTGTGGAAGGAAAGT
TGCTTGAGTATTGTCACCTTAATGATTGTATATTGGTCATTGTACTGGAAATTATCCAGTGCAAAATAGGATATCATCAACTATAAAAGAAAATAAGAAG
TAGTCATTTAATTTGTATGGCTAGAACTAATTGTTGTTGTTGTTGCTGTTGTTTTTGAGACAGTCTCACTCTGTCCCCCAGGCTGGAGTGCAGTAGTGAA
ATCTCGGCTCAATGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCTTGCCTCAGCCTCCTATCTGGGACTACAGGCCCGTGCTATCACGCCTGGCTGAA
CTAATTTTTAAAAACAATATTTTTAGTAAAGTTTCCCTTTTTCATTATAATTACTTACAGAGAAGGCAATTGTAGTTAGTACTTTATGCTTACTTGTTGC
ATTAAGGCTGTACTTTTCCATGAACTGGAAATAGCTACTCTTTACAAATAATATGTTTTCCTATAATCCTAGCACTTTGGGAGGCTGAGGCGGGCGGATC
ACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGATGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTAGSGGGCACCTTTA
ATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGTGGTTGCAGTGAGCCGAGATTGTGCCACCGCACACCAGCGTGGGTG
ACAGGGCGAGACTCCGTCTCAGGAAAAAAAGAGAAAAAATAGTAATAATAATATGTTTTTTTTTAATTAAAAATTTATAACAGTCTGGTTTGGATGAATG
GTAAAGACACTCTTTGAATGAAGGTCTTTTGGATGTGTAGGCCTAACCTTCATAGGTAAYGGCCTCTCCTGGTTCCCTTTTGGTGTTGGGCAGCTAGCTT
TTGCACAGCATCAGGCTGAAGTCGCCAAGATGGAGCCATTAAACAATGTGTGTGCCAAAAAGATGGACTGGACTGGAAGTATCTGGGGTAAGGTGTTTGT
GCACTTGTCCTTATTTTGAATAGAAATTCTGAGAATGARAGAACATAGAACAAAGAGAATGATAAAATAACAGGAGGCTTTCCATGACTGAATCTTTAAT
ATCAGAAGAACATGCAAGAAGCATTTTAGGTTTAAAACCAGTGACTTTTTATGCTCATCTAAAGTCACAGGGAAGGAATAGAAGTTGTATATATGTTGGC
TCTGATATTATCTGTCTTCCTTCAKAAGACTGTGTGAAGGATCCTAKGCTCGCTTTTGTTCATCTCGTTCTTTGCACAGGGTCTGGCATATTCTCAATAG
AAGTTTATTAAACAAGTGAATGAATGTATATATGAATTAATATCCATCTTAAATTTAATGGCCTTATATTGACTTGTGAAATTTTATGTTGTAGCTTTAC
TTTTTTTTAACTACGGGAAAAATTAGTTTTTTTATTCTTTCACATTTTATAAACATTCTCATGAATGTTCACTACCTTTGGTTGTATGTATCTAGCAATG
GGGATGGTTTAATAATGTTCCAAGGCATTTTATAAATGCAAGTCCATGACTGACACGGAATTCTGCAGATGGAATCCAAAATAAATGTTTCTTAAAAAGT
TGTGGGAACTAAACCAATTCAGCCTTCCTTCCTGGCTTCAGTGGACAGTGAAATGCCTCCTCTAGCTCAGGCTAGTTTCCCAACGTATATAAGCCTGATT
TGGAAAAATTAGAACTAATATTCCACTTTATTTTGTAAACTCCATAAAGAACTGACTTTTTAAATTAAAAATTTACTGAGGTAATTGTGGATTCACACAG
TAAGAAATACTACAGAGAGAGCCCGTGTACCCTTTCCCCATTTTCCTCCAGTGGTGACATCTTGCACAGCTTTAATAGTACAATATCAGAGCCAGGATAT
TGACTTTGATACAATCCACCAGTCTTATTTCGACTTCCCATTTTACCTGTACTCATTTGTGTTTGTGAAGCATTGCTTTTAAAGTGTTTACCTTTTAGAC
ATTTTTATAAAATACAATTTTTTATCTGCATAAAACATGTATAATTTGAATGGATTTTTAAAACATGATTTTGGACATAAGATGAAAAATTTAAAAATCA
GCATTACAGGGAGTCTACTTAAAACTTAAGATAATTTAAAACTCATTGGTGGGTGGTCAGGGAGGGTCAAAACCAAAGTAATGTCTTRTTTGGGAATGAA
ATGCAACATTAAAAGAAATGATCAGTGTTTTGTCTGTTTCTCTAAACAGAATGGTTTAGAAGTTCATGGACCTATAAGGATGACCCATGCCAAAAATACT
ATGAGCTCTTACTAGTCAACCCTATTTGGTTGGTCCCACCAACAAAGGTATAGCATATATTTTGTAAAAATTACTTAAAGTCAGTCAGAAATCCCTTGTA
TTTTAAAGAACTTTAGTGTTTGAGTCATTTTGCTAATAAGCGTTTGTCCAAGAAAAAATACTTTTGCACAGTGATTTTCACATTAAAAATGGCACAACAG
CATTTTAATTTATGTAACATACTTTCAGCATCAGTACTCAATGAATTTTGATGCATTCTGTACCTTAGTCCTGTGAGGAGAAAATTAAGTTGCTTTTCTC
TCGTTTTAGGCACTTGCAGTTACATTCACCACATTTGTAACGGAGCCATTGAAGCATATTGGAAAAGGAACTGGGGAATTTATTAAAGCACTCATGAAGG
AAATTCCAGYGCTGCTTCATCTTCCAGTGCTGATAATTATGGCATTAGCCATCCTGGTTAGTATTAATATATTAGCACTGTCGGGCCAGGCRCRGTGGCT
CACGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCTGTCTCTAC
TAAAAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGRCAGGAGAACGGGGTGAACCTGGGAGGCG
GAGCTTGCAGTGAGCCGAGATCRCACCACTGTACTCCAGCCTGGGCGACAGAGCAAGATTCCGTCTCAAAAAAAAAAAAAAATTATACATATATRTATAT
TTATATATCTATCTATATATATTTATATTTATATATCTGTCTATATTTATATATTTATTATATATAATATATATTTATATATTATATATTTATATTTATA
TATATATATGCACTGTCAGTATTTAGCAAGATTTATATTAAATCTTAGTATTAATATTAGTAATACTGGTTAGTATTAAATATTAGCACTGTCAATATTT
AGCAAGATTTACAGAAAAAAAGGCAATGCTAAAATTATTGGGCTTCTTTGATGTTGTAAATCAGGCTAAGTCACGCTTAATGAGAAGGCGATTTTTAAGT
GATACAGATTTTTTTCCTCCCCTCTGCCCCTCTAAATGATACAGACATATTATACTTACTTGTATATTTTTATAATCAAGAAAGTAGTTCTCTAGTTTGA
TTGCATATGTCATAGCAGTGATTTAGAATAATAACCTCTTTTTAAATGTGTTAACCTTGGTAAATTAATACACAGGAAATAGGAAGTTGATTTCTGTCTC
CCAGAAAGGGGGACTTCTTATTTCTAGTCAGTTTTTGCAGCAGTGAGAAGGGTAGAGCATTGAGTTTGACACAGAACCAGAAAGGGATGTGGAAGAACAT
GGGTATGCTGAGAAAGAGTTTGGGGATCCAGGAGCAGACATTAAGAAGAAATATTACTCGTCATCCCTCCATGGTCTRTTCAGTGTTTTTTGTTATCGAT
TTTTTAGCTATTACCCAAGTAAAGCAGTTGTCGCATAAAACAAAAAGAACTCAGATGTGCCAAGGGAAATTCTCTTCCCTAAGGATACAAGATTCACTAT
CTCTGTTCACTTTGAAATCGTTTCTTTTTTGGTTTTGTTTTTTGGCTTGTGATTACAGGATTATGTGGTTGACGGGTATTTTTTTGTTAGGTGACATTAG
TTCTATAGTCATAGTTTAGTCTCTGAAACTGAAATTWTCAGCAGAGTCTTCACCATCTGTTTTTGTTTCATGTGCTCCCTMAGGAAAGTTATGCTCTTTG
ACTTTTGCTGCTTTTGTCTTCAAATAGTAGTGTTTGAAAAACTAGTACAGAAATTTTCAAAGTTTCTGTTCTCAGGACCTCTTTGCAGTCTTAAAAATTG
AAGCCCACAAACAGCTCTTACTTAAGGTGATTATATTTATTGATACTTACATATTAGGAGTTAAAACAAATTTAAAACAYACGAGTACTGTACACGCAAG
CATGCATCCCCTGAGTCTGAGTGAGGCTGTCACTCTAGCATCTGGAAYGCTCCGTTGTATATTCAGGAGGGGACAGTGAAAAAGACAAATAATAATGTCT
TTGTATTATGAAAAGTTTTGATCTCATAGATCTCCTGAAAGTCTCAGGTATCCCCCGGGGGTCCCTGGGCCACACTGTAAGGAACTGCTGCCTACTTTTT
CCCATGGAATGTGAATCAAAACCTGTTGAATTTTAGCTGTAACTTAAGCCTAGTTTATATTTGTAAAAAGAAAATGTACAGAAGATTGTTTACATAATGA
TATACAACTTTAAATATTTTCAGCATTTACCTTATATGATGGGCATGAATCTAGAAACATGAATAATTATCAGACTAGAACCTTCTAATTTAAATATCTA
GGCTTCAGCCTGCCATTGTTATAGTTYAATCGAAATGTGTCTAGCTGATTAAAATGTCTACTGAAAGATTTATTAAGTTTTATTGGCCACTCTGGCCTTG
TATTAATCTAAAGAGGTCTCTAATGAAAAAAAGTCAAATTAACATGTTTATGTCTATAAATGCCACAAGTAAGTTAAATTACATAACTTTGTTAGCACTC
TGAATAAAATGCCTCATAACTTTTGTAAGTTAGCCATTGAGTCCTCAGGAAAATGTATTTCTTTTCCTTACAGAGTTTCTGCTATGGTGCTGGAAAATCA
GTTCATGTGCTGAGACATATAGGCGGTCCTGAGAGMGAACCTCCCCAGGCACTTCGGCCACGGGATAGAAGACGGCAGGAGGAAATTGATTATAGACCTG
ATGGTGGAGCAGGTGATGCCGATTTCCATTATAGGGGCCAAATGGGCCCCACTGAGCAAGGCCCTTATGCCAAAACGTATGAGGRTAGAAGAGAGATTTT
GAGAGAGAGAGATGTTGACTTGAGATTTCAGACTGGCAACAAGAGCCCTGAAGTGCTCCGGGCATTTGATGTACCAGACGCAGAGGCACGAGAGCATCCC
ACGGTGGTACCCAGTGTAAGTCAGCAACTCTTTTATTCTGCTGTCCCTTCATTACTGGTTCTAAATCCTTCTGGAAGAGGTCTGATTGTTTTTACTCTTT
TACCCCTCACCCTTAATTATATCATGAGTGATACAGCCACTCACTCTCTCCCCTTTCTGGTCAAAAGTTAGTTCAGCTTCCTCAGAAGAAATAAAATTAG
ATTTAACTTTTATGTAAAATACAATTTAACAGTAGTTTGTTAGAGCAGATGGTAATTCATATGAACCTTCATGGGAAGCCAGCRTATGAGCATGACAGAA
ATTTCTATCTTTGAAGAGATCAGAGAGAAGGCATCACTGAAGGCCCGGAGCTCTAGGGAAGGTACAGTAGAGCCCTAAAGGATTAGCTGGATGGAAGAGT
GGGCTGGGGCCAGGGATCAAAAACATTGCTTCCCCAAATCTTCAGTGTCATTGGCTGGCTAGACTATACTTTTTACCTGTAGAATGGTAAGAAGAAGTTT
TTCACCATTATCAGTCTTTTAAAGGGACATTTCCATTTCTGTTTGAGAGAGGAATTTGTATTGTCATTTGAAATGTTTAAATTGCAGCTGTTAAACCTTT
GAAACAGTTATGAGCATAATAGAATCTGGGAAATTATAGAATCCCTTCCCATAGTTTCATATAAAAATAAACATATCTACATGTATCTAGAAAGATGGAC
CAGGCGCGGCGGCTCACGCCTGTGATCCCAGCACTGGGAGGCCGAGGCAGGCGGATCACTGGAGGTCTGCAGTTCAAGACCAGCCTGGCCAACGTGGCAA
AGCCCCATCTCTACTGAAAATACAAGAAAATTAGCCAGGCGTGATGTGGTATGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGACAGGAGAATTGCTT
GATTCCAGGGGGCGGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACGTCGTCTCAAAAAAAAAAAAAAAAAAA
AAAAAMAMCTTAAGATGGTCCTTCCAGCTTTTATAGTTAGTAATTACCTGTCACCTATCTCARAAGTCTTCCAGKGACTTCCTATCTCACTTGAGGGGAA
AGCCAGTATTACAATGGCCTGRRAGCCTCCTTGGTCTCCCCTTCCCCCACATCCACTACCTCTCTGGTCACCTYTTCTCCCTCCGKGCTTACTCTACTTT
AGCCATAAGGGCTCCTGACTGTTCCTTGAACTTGAGAGCCTTTGTACCTGCTGTTCATTCTACAGTCTTCATTTATATATCAATCATATGGTTACTTTCT
TCAGGCCTTTACTCATTTTTATTATTTTTGGAGACAAGGTCTCACTCTGTGGTCAAGGCTGGGGTGCAGTGATCATAGCTCATTGCAGCCTCAAAATCCT
GGGCTCAACCGATTCTTTTGCCTCAGCCTTCTGAGTAACTAGGACTATAGGCATATACGACCATGCCTGGCTAATATTTTTTATTTTTTGTGGATATGGG
GTCTTGCTGTTACCCAGGCTGGTCTCAAACTCCTGGCCTCAAGCAGTCTTCTCACCTTGGCCTCCCAAAGTTATRGGATTACAGGTGTGAGCCACCATGC
CTAACCATATCACTTTTTCAGACCACCCTAATTTAAACTGTAATTTGACCCTGCCAGCCCACCCACATTCAGCACTCATCTCTTCTCTGCTTTTTTTACA
TAGCCTCTTTAATTCAACATATCACACTTGTGTGATTTTCTTCTAACCTAAATATAAGTTCCAGTGAGAACAGTTTTATGTATTTTGTTCCTGCTGTATC
CCTAACACCTAGAACTTAATATATGCTCAAGAAATATTTGTCAAATGAATTATTCTCACCAGGCAAGAGAAGTTGACAATACTGATGACCAATTCTCTTG
ACCCCTTCTAAGCTGGGCCACTAGACCACCCAGTATATGCGCTAAGCGTTCCCACTCCTCTGTGGGAGTACTGTGGAGTTTGGTGAGGTATAATAACATT
TATATAATTATAACCCAGCACTGGACCCTGGATTTGAAAGAGTTTGGAGCTTGCTACAAYGGATTTGGGTGGGAACTTTTTAGATATGTTTGATTACTAA
GACTTCACATTACATTAAACAGTTAAAATGTAATTTTGTACTTTATAGCATAAATCACCTGTTTTGGATACAAAGCCCAAGGAGACAGGTGGAATCCTGG
GGGAAGGCACACCGAAAGAAAGCAGTACTGAAAGCAGCCAGTCGGCCAAGCCTGTCTCTGGCCAAGACACATCAGGGAATACAGAAGGTTCACCCGCAGC
GGAAAAGGCCCAGCTCAAGTCTGAAGCCGCAGGCAGCCCAGACCAAGGCAGCACATACAGCCCCGCAAGAGGTGTGGCTGGACCACGTGGACAGGATCCG
GTCAGCAGCCCCTGTGGCTAGAGGAACACCAGCACAAACGACAGCCTCAAGTCTCCTTCGAGCTTTGTAAAGTATACTCTTYACTCTCTYTCTCTTCTCT
GCAAGAATTCTGATTACTACAAAGGTGCCAACTTCAACATTCACATTTCAACTTCAACATTCACATTTTTACTGACAATTAGAATTAACAAACACGTTAT
ATATGTAAAAGCTTTTCATTTCATCTTCTCTTTGATATTTACATCCCATAAAGTAAGAAGTGTTTATTTTAAGATGAACAGATGACAGGCATCACTGATT
CTGGATAGTTAAGGAGGCCAGTTTGAATTGGGGACATTGAAAAAGAAATTTTATTGTTACAGGCACTTACGGGAACCCACTAACCAATTTACATTGCCTA
GTGAATCCACTAGAGTTAAGGCCACCCACTTGATGCCTCCAGCATCTTCATGCAGCCATGGAGTATCGTTACCAGGATCAGTCTGACTGACACCTCAGCT
TATCTCTACGCAGGCTGCCCACAGGTCACTGTRGCTGTAGTTTCATCTTTTCCACAGCTATTACTACGCCTGCATCCTTATTGTTCCTTTTACTTTGTTT
ACTTAGAGAAAACTGAAGACTGCCAGGGCAATTTAGATAACATAGCTTGTTATATTGGTAATCTGTTTTACAGAGTCAGTCGACTGAAAATGACTTTATT
CTTTTCCCCCACCAATTGAAGTGCATGGGCTTTTTATAAAACCTATTTTTTGTGTTACTCAGAATCCTAGCAGTGGAGACTATTAGATATTACCATATCT
TAATTCATATTATAGCAAATCATATTGTCTTGTCCATAGGAAGTTTGCATTTTTAGAGATCTATACATAGAGAATACCATGATGAGGAAGAAGAGAGTTG
GGTGTCTTCCTTAACTGCAGACAGGACATCAGTCAGCACTTTACATTAGYCTTTCTGATTATCAAAAGCATTCCTCATTTTAAACTTTTTAAAAAGCAAT
GCATAAATTTTGTACCTGTCCTTAGCAGACTTCACAGACATCAGGTGTCCTTTGTTTTAACCATATTCACACTACAAGTTATGTTCAACTGCTTACTAAA
AGTGATACCAGTCAGGAATAAAGTCTTTAAATTTTCATGCAGATATTTGTATCCCAAGCACTTGCTTTTTTATTTTAATATGAAATGCAGAATACACATT
TTTGGATCCAGGAAGTGTTACTTACGTGCCTGTAACAATGTAATTTTAGGCCAGGTGCAGTGGCTCATGCCTACAGTCCTAGCACTTTGGAAGGTTGAGG
GAGGATGATCGCTTAAGTTCAGTTGTTGAAATGCAGAATACACATTTTTGGATCCAGGAAGTGTTACTTACGTGCCTGTAACAATGTAATTTTAGGCCAG
GTGCAGTGGCTCATGCCTACAGTCCTAGCACTTTGGAAGGTTGAGGGAGGATGATCGCTTAAGYTCAGTTGTTCAAGGCTATGTACTAAAAATAAAACTA
GCCAGGCATGGTGGTACACGCCTGTAGTCCCAGCTACTTGGAGGGCTGAGGCAAGAGGATCGTGAGGTGGCAGTGAGTTATGATCGAGCCACTGTACTCC
AGCCTGGGTGACAGAGCAAGACCTTGTCTCAAAATTATACATGTTAATATATTCTAGTTTAATATTGCAAACATCTTTAGAATTTCATCAGAAACGTGAT
TTTTTCTAAGAAATGCAAAAGGATTTTAGGATTTTTAACACAGAGGACATGTTTAACAAATGAATCCTGACAGACACCTGCAGTTTAGAATAAATTTGTG
AACATCCATGCGTATAAAGTGTCCTCTTGGGACAAGACATGTTCACACTGACTTGGGGAATATGCCCCCAAGGTGAGAGCTGTCTTTTGAACTGTGATCT
GACTCTGAAAAGTAGTGAATGCCCCAGGTGATAGACTGTAACTGTGAGTGGAATTAATGCTGCTTGCATGCCTTTTAATCCAAAACCAAATTCTTTTAAA
AAATTTTTAAATAAAATTTCACCTTTGTATTCTTTCATTACAGATATCCATTTGGGGATGAAGTCTACTTTGACAGCTAGCAAGGCGACATGCAACTGTT
GTTGAATGATGACAGCAATTCAGGAAAGACTTAAATATGAAAGCAAATTGAACACATCGGGTGTTTGTTATCAGAAAAGAGATGAGATGAGATAAGACTT
GTTTATTGACTAGCCAATATGTCATTAAAATTAAGGTTTATATTGTGAAGCTTTTTTGAAATTTTACTTTTTTTTGAGAGTTTTGCTCTGTCACCCAGGC
TGGAGTGAGGTGGTACAATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGAGATTCTCCTGCCTCAGTCTCCCGAGTAGCTAGGATTACAGATGT
GCATCACCATGCCTGGCTAATTTTTGTATTTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAAGTGACCCGCC
CTTGTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATTGTGCCCAGCCTATATAGTGTGAAGCTTTTAGGAAAATCAGARCAGGGTAGACAGCT
GTTAAAAACAATGTTTAAATGGAATAATGTTGAATGTTTACAGGCTGTAAGAACTATTGTATACACAAAATAATACACAAAGTTTGTACTTTGTGTACAA
ATACAAATTTGTACTTTGTGTACAAATAATACAAAAAGTTTGTATACACAAACTTTTTACGTTGTGGTTTGGTATATTGTCTTAACTGAATTTTCTTATA
AGAACCCCATGAAACTTACCTGAGTTTTTAAAATGCTATCCAGGACATCATACCTTATAGTATACATGAAACATAATGTAATCCAGGTTGTAATTTAGAA
CTTTTTTTTTTTTTTTAGCTGAGCACTTAATGTAATTAATTCCAGRTTATGACTCTTAAAAAACATTGGCCATTAGAGAAATAGTTCTATTTGCCCATCC
AAATCACCTGAATGACTTTTTGAAAGAATAGGGGTCCACATCCCCAGATCCCATCCCAGCTGTGCACAGTCTGAAGCAAGCAGAGTGAAACAAGTTGGCA
ACTTGTTCCAAGCGTGGGCCTTTGCAGTCTGTGATCCAGTGTTACTCCAGGTCCCAGTCTGTCCCATACTTGTCTTTTGCTACAGTTAGTTAGTTACTTT
GTTATCATCCCCTTGTAAACTGCCTTCAATATCTGGGATAAGGAAGACAAAGCTTAATGACAACTAAGGTTCTAGCTGACATCTTTCTTTCATATTTAAT
TTTTGTGAGTTTTCATCTGTTTTCTGTTTGTTTATGTGTCYTAGGTTCTTGACCTAACCACATGGGTTTTGTTTTTTGTTTTTATATTAGAACTTAGAAA
AGTTTGTTTTACAGCAGTATTATGGAACAGAAGAGACCATTTTAAATAATTTTTTTAAACAGCCCAAAACACACAAAAGATACTTGTTTTCTAGAGACAG
GGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCATAGCTCAGTGCAGCCTCCACCTCCTGGGCTCAAGTGGTCCTCCTGCCTCAGCCTCTT
AAGCAGTTGGGACTACAGGTGTGTGCCAGCATGCTTGCTRTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACTCAGGCTGGAGTCCAGTGGCTTG
GTCTCAGCTCACTGCAATCTCTGCCTCCCAGGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAAACTACAGGCGCATGCCACCATGCCCA
GCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGGCTGGTCTCAAACTCCCGACCTCAAGTGATCCGCCCGCTTCGGCCTCCCAA
AGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCTGCTGATTTATTTTTCATAGACACGGGGGTCTATGTTGCCCAGGTTGGTYTTGAACTCCTAGC
CTCAAGCGATCCTCCTGCCTCAGCCTCCCAATGTGCTGGGATTACAGGAATGAGCCACCATGCCCAGCCCAAGAAGTAGAGTTTCTTTTATACTGACTTT
GGCCTAAAAAAACAGATTTTCATGGAGGAAAAAAAAACCTAGATTTTTARTAAGACTATTTTATATACTTTTTTACATTGATCAAGTACATTATTTTTAC
CAAACAACATTGTTTCCCACTACATCCATGGTTATGTATAAAAAAMCGCCATTGTCAATTAAGATGTTAAAAAATTATTTCCATAAGAGTATTAAATTCT
AATCTATGATTCACTTAACTTCCTACTTTATAAACACTAGGTAAAGTAATCTCRCAAGCTGCCAAAGAACACATCCCAAGCAGTAATCACAGAYGATGAA
GCACCTTACAGGACCCCTCCACCCTCAAACGCGCATGTCCAGAGAAGTATTAATGCCTTAATAGACTACTGAAGGTTAACTATTTACATCATTCTAAAAA
TATTTTAAGCTGTATTACAGTGCTATAAATTCTCCTTTTAAGGAAAAAAGTAATAGATTGTTTCCTTACCGTGTTTGAAAGGAAAAAAAATAAATCCATA
GTAACTAATGGTCTGCCGATTTTTTCCCTGAATTTTTAAACTCCAACAAAGCATTATTTTGCAAAAAGTCCTTTAGCCCAAAGTCAGTGTCTCTGTTTTG
ATCTCTTTGTAAAAGAACTCTCTGTTCATCCATTCTCTTTCCCTGGGRCCGTAAAATAAGGCTGAAAAAGTCTTCATCTGGTACTGTCGGACCCTTTGTG
GTAGCAGGTGGTGGAGCACATCTTTGATCATCTAATCTGRATCCCTAGAAGTTTATGAGAGAGATTAAAAGACATACTGTGGGAAAGAAAGCACCAAGCT
ATGTTAAATCTCTCAGTCACAACAAGAAAACGCAGTTGTAAACTTTTATTTGGGGCTTCTCAGAAATTAATCTTTGTTTTTATATTGTTCTCTTTAGTTC
CCAGCCTGATTTCTGAAAGAAATAATCTTTAAACCTGAAACTGCATAAAATTTTTCCTTTAAAATGGCTTATATAGGTATAGCTGCTTCATTGGTTTAGT
ACGTGCATTATGTTAAGTCATACTGTTTTAATTATAATTGGTCACAAGGATAAAAGACAAGGTCAACTGTATCTAAGTATGACAGTTCAAGGTTATAATC
TAACAGGCATCAACTGTGTAACTTAACAAATCTTTAGAAATATGTACAAACCCCATGAGGAACTACCTTAAAAAAATCACGTCTTAGGCTAGGGGACAGC
AAACTGTAACCCAGTGCCGGCTTCTGTAAATGAAGTCATTTTCATTTTCCCATCAATACATATGTTTATATACTATCTATATGGCTGCTTCCCTACTAAA
TGGCAGAGTTGGGCAGTTGCAATAGATACCATATGGGCGGCAAAGCCTAAAATATTTTCTATCTGGCCTTTTACAGAAAAAGTTTGCCTGCCTCTGTCTT
AGGCTGTTAAATCTGTTAAGAAATAGCCCAGAMTGAATTTTTTTTTTTTTTTTTTTGAGACGGATTCTCGCTCTGTCATCCAGGCAGGACTGCAGTGGTG
TGATCCTGGCTCACTGCAACCTCCATCTTTCAGGTTCAAGTGATTCTTCAGCCTCAGCCTCCCAGTAGCTGAGACTAYAGGCATGCGTCACCACACCYGG
CTAATTTTTGTATTTTTAGTAGAGATGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCTTGACCTCAAGTGATCCACCCGCCTTGGCCTCCCAA
AATGCTGGGATTACAGGCATGAGCCTGGTCTCTGAATTTTTCTTTCAAGTTTGAGTATTATGATTCTTATATTAGACATGCTACTTGTCAAAAAATACAT
GCACTTACAAGTATACACCATAGTTTCTGGCATTGTAGCTCAAGAGTAAGAATAGAAGTGTGATAGCTGATATTTGAATATGCACTACATTGTTAGGGAC
TGTGATAAGACATAGATCCCTGAACATTTAAGCCCACAACCCTCAGAGGGTGCAGTTATTTACTGCCCTCCTAAGTGAGTGCCACCTCCACACATACCTG
GCTCATTCATTTCTCCTGTCATAAATTGATAATTTCAATGTCCTCCAATTAACCCAACACTTGGGCACTTAGTTCCTAGACTTCCTCACTTAGTTCCTAG
ACTTCCTCTGATTGAATGTCCTCATCCTTCACTTCGGCCTTAGCCATTTGGCTCCCATGGTCATATTCTAGCCTCTTGTTATCTCTATAGAAATGCCTCT
TCCAGTTCTTTGCCCATTTTTGAATCAGGTTGGTTTTTGTTGAGTTTTAGGAGTTTTCTATATATTCTGGGTATTAATCCTTTATCAGATATGTGATTTC
CAAGTATTTTATGTTGGGTTGCCTTTTTACTGTTGATAATGTCCTTTGATGCACAAGTTTTTAATTATGAAGTCCAATTTGTCTACGTTGTTGTTGTTGT
TCCCTGYTCACTCTTTTGGTTTTATAACCAAGAAATCACTGCCAAACCCAATGCCATGAGGCTTTCCTTTTTTTTCCCTTTAGAGACAGGGTCTCACTCT
GTGGCCTAAGCTGGAGCACAGTGACGTGATCATGGCTCACTGCAGCCTTGAACTCCTAGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGTGTAGCTGGG
ACTACAGGTGTGTGCCATTAATTTAAAAAAAWTTTTTTATAGAGATGGGGTCTCACTATGCTGCCCAGTCTAGTCTTGAACTCCTGGGCTCAAGCAATCC
TCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTATAAGCCACCACATGCTCCTCTTGAGTTTTATAGTTTTAGTTCTGATGCTTAGGTCTTTGRYC
CACTTTGAGTTTTGCATATGGTATTAGGTAAGGGTCCAACTTCATTCTTTTTGTATGTGGCTCTCTAGTTTACCCAGAACCRTTTGTTGATAAAACTGTC
TTTTCCCCCACTGAATGGTCTTGGCACCCCTGTTGCATATYATTTGACCACACATGCAAGGGTTTATTTCTGGGATCTGTATTCTATTCCATTGGTCTAT
ATGTCTGTCTTTTATGCCAGTACTGCACTGCTTTGATTAATGTAGCTTTGTAATAACCTGAAATAAAAAAATGTGAGCCCTAAAGCTTTATTCTCAAGAC
TATTTCGGATATTTGGGGATCCCTTGAGGTTCTATATGAATTTTAGGCTATATTTTCTATTTCTGTAGGAGGAAAAAGTCATTTGGATTTTTACAGGGAT
TGCACTGAATTTGTAGGTCACTTTGGATAGTATCGAAATGTTAACATTATTAAGTCTTCTAATCCATGAACATGGGATATTGTTCCATTTGTTTTCTTTC
ATCTCTTTCAGCAATGTTTTGTGGTTTTCATTATACAAGTCTTTGCCTCAGTGATTAATTTCTAAGTATTTTATTCTTTTTGATGCTATTTTAAATGGAA
TTTTAAATTTCTTTTCCAATTGTTCATTGTTAGTGTATAAACACACAACTGATTTTTGTGTTGATTTTGTATCATGCTACTTTGTTGAACTTGTTGATTA
CCTCTGTCAATTTTATTGATACTTTGTCCTTTCCAATGTGAATGCCTTTTTTTCTTTTTTTGCCTAATTGCTCCAGCTAGAATTTCTAGTACTACATTGA
ATAGAAGTGGCAAAAACCTGCATTCTGATCTCGTTCCTGATCTTGGAGGAGAGCTTTCAGTCTGTCACCATTGAGTATGATGTCAGCGGTACATGTTTCA
TATATGGCTTTTATTATGTTCTGGTAGTTTCCTACTGTTGCTAATTTTTAAGKTTTTATCATGAAAGAGTTTTGAATTGTCATTTTTTTCCTGTATGTGT
TTTTTCCCTTTATTCTGTTTATATTATGTGTTACACTGATTGATTTTCACATGTTGAACAATCAGTCCTTGCGTCCTGGGAATAAGTCCCACTTGGTCAT
GGTGTAAAATCCTTTACAGCAGGGGCGCTGCTAAATTTGGATTGTAGGCTTTTGTTGATTTTGCATCTGGATTCATGAAGGATATTGGTCAGTACTTTTC
TTGTAGTGTCTGTCTGGCTTTGGTATTGGCAATACTGGCCTCACAGAATGAGTTATGAAGTGTTCATTTCTTTATTTTCCTTCTTACAGCCTAGATTCTT
AAGTCCATTATTAAAATCACTTCCTGGCACATGTCTTCAACTACCATTCTCTCCCCTGAATCCCATTCTCCTGGAAAAATAGCAGTCTTGATTTATCTCT
GTGCCTCAAGCAGCTGGCCATGACTGGATAAAATACACAATTCCACTCACTAGTTTTACTTCCAGTGACTGAACCTCAGGTGGGTTCTTAGCACAGCACA
GTGTTCTTAATACTTTCCCCCTAGTTTCAGTTTCTCTAAGTCAACTATTTCCCACTTCCTTTCTCTTCAAATTTATAGTGCTCCCCAACTCCAATCTTAA
CTGATGACTACTTCTTTCTTTGGTGAGAAAATAAAAGCAGCCCGAGAGAATTCCTACTTGCTCCCATCTCCAAATCCGTACTCTGCTTTCCCTCTCTCAC
CTACACAAAAACTGTGTTCTTCAGTTACCCCAGACTTACCTACATCACTGACTCTTCTCTACTTGACCATTTCCATCTGTAGATAAACTACGTTTTCACC
CCCAAAAAGAAAAAAAAAAACCCCACATTTGCCTTGTATTTATTTTCTAGCTAATGGTCCATTTAACCCATTAAAGTTTCTATATTTACTATCTCCCCTT
TCACACTTCCCATTTTCTCACCCCACTCAATCCTTTGTCCCCACCATGCCACTGGAACAGTATCTTTCAAAATTATTCATAATCTCCATGTTATCAAATC
TAGTAGTTCCGTCATCATCTGACTCAGGTTCTTAGCAACATTTGCCACAGTTGAGCACTGCTTAAGATACACTCTTTACTTGATTTCCACCACACCACAC
CCCACCCCTCCCCAGCCCACCCTTGGGGTATCCTTCCAACTCTCTGSCTGTTGCTTCTTTGCCAGCTCATCTTCCTCCATCTAACCAGTAGATTTTGAAA
TGCTCAGGGCTTAGTCTTCCTGTCCTATTCTTTAGGTACTTTCTTCCCAGGGCTTTAATACCAGCTATAAGCTGATGTCTCCCAAATTTACTTCTCCCTT
GGGCTCCAGATTTTACATCAAATTGCCTATTTAACACCTCTACTTCATTGTCTATACCAGTCACACTTGCCATTCCTTGAACTGGCTAACAGTTTACCAA
ATTTAACATGTCTAAAACAGAACTCTTGCTTTTTCTCTCCAAACTTGCTTTTCTTCTAGTCATCTCCATTTCAGTGAATAGAACCATTCATTTCCCAGTT
ATTCAAGGTATAAGTCATCCTTGATTCTCTTTCCCTGAAACCCTCTACTCAATTTATTAAGAGGTCCTGCCAACTAACCATAATATATAACTGATATAAT
AGCTAATAATGTAGCCCTATGCTAACTACTTCTCACTGTTACCACTCTAGTCCAYATCACCAATATTTTTTGCCTGCATCACCATACAATCTTTCTAGCT
GGTTTTCATACTAACACCCTTGCCACTCTACGTTCTTCCATCAGTAGCCAGGATCCTCTTTGAGGACACTCCCAGTACCTTCCTAATACATCTAAAACAC
GACTTTATCATGGCCTCCAAAAGCCTAGATGATCTAGGCCCTGATTACTTCTCCATCCTCATTTTGTACAACTCTTCCCTTCCCCTACTCATCCCATGCC
AGTCACATCTGCCACTCCTTGAACTGGCTAAGCTTTTATATCCAAGAGGGGACTTGCTGTCTCTGCATGGAATACTCTTTCTCTAGATACTCACATGGCT
GACTGCTTCACTGCATTCAGGTCTCTGTTCAAATGACAATCCAGAAAGGTCTTCTCTAACCACCCTACCTAAAACAGACACTCCCCCTACCACCAACACC
TTTGCTTACCCACTACCCCTTTATCCTCCTTTAAAGTTCTTCATAGCAAGCATAATTACCTAATACAACACACATATACTCTCTCTCTATATATATAYAC
ACACACACACGTCTCTCCTAAAATGTAAGATCCTTTAAAAATCAAGTGTGTCCTCGATGCCTAGAATAGCAGCTGAAACATAATYGGTGTTCAATAATTT
TTTACTGAATGATGGACAATAATAACTCTCTAATACAAAATAAGCCCTTCCTGAATGAGAATTATAACACTACCAATGTTTTCAGTGGTATCTGAGCTGT
ATGCAGAAYGAAAAAAATATACAGACATACTTGACATTTTACAAGGATGTCAAAGAAATCTTCATCAGCCTCTTTGTTGTCATTAGTCATCAGGTGGCTA
AGTACCGACTGGCTGTTTTGTGTTAGACGAAGCCCTGGCAAATTACTGAAACTAGCCCTCTGGTCATCCAGACGGCGACTCTGTGAGCTGGCAAGAAGAT
CTAAAAACTCATCCGTGTTGGGGGATACCACAGGAACAGATGATGCTAAGAACAGAAGAAGAAAGCCAAAGATTAAAAAAAAACAAAAAACAAAAAACAA
AAAAACCTAGGCACATTTATTATATACCTAGATCTTTTCGGCCTTGCCAGTCCCAAGACCCGCCCTGCCCTCCTGCTATAGCGCTGACACTGATGGGCTT
TGGCTAGATGGGTGTGGTTTTTATTGGCTGGAGGGAAGAATGAGCCCCAGAGTACTTCAGATGACCCACTTGGACGTTATTCAGATTTGACTATATTTCT
CTATTTAATGCTCACTCAAAATGTAACTATAAGATATGTGACTAGATTTCAGAAATTGAACAAACTGTTTTTCTTACATAATTTCTCAGACCAGGTTGTG
TAGGACAGTGTTTTTTATTCCAAGCCCTGGATACAAATCATTTAGTAAACTAACAGTTAAGTGCTGCTGGCAAGTCTTGGTCTATGGTACAAGAAGTCTT
TTGGTAGCTGAAATAGAAAAATATAAGTAACCTATT


SNP Information

Context             (SEQ ID NO:66678):
TCGTCTCAAAAAAAAAAAAAAAAAAAAAAAACAACTTAAGATGGTCCTTCCAGCTTTTATAGTTAGTAATTACCTGTCACCTATCTCAGAAGTCTTCCAG
K
GACTTCCTATCTCACTTGAGGGGAAAGCCAGTATTACAATGGCCTGGAAGCCTCCTTGGTCTCCCCTTCCCCCACATCCACTACCTCTCTGGTCACCTCT
Celera SNP ID:            hCV8848436
SNP Position Genomic:     33475
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66679):
TCATGAAGGAAATTCCAGCGCTGCTTCATCTTCCAGTGCTGATAATTATGGCATTAGCCATCCTGGTTAGTATTAATATATTAGCACTGTCGGGCCAGGC
R
CGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCT
Celera SNP ID:            hCV1133322
SNP Position Genomic:     29892
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66680):
GGTCTCGCTTTGTTGCCCAGGCTGGTCTTGAAGTCCTGGCTTCAAGCTATCCTCCCACCTTGGCCTGTCAAAGCACTAGGATTATAGGTGTGAGCTACCT
Y
GCCCAGGCTATTATTCTTATACATATGAAATACTGCAAACTAATATTTAGTTCCAAATTGGCTTTTGTCTTAAAATGGTTCACCAAGTAGTAATAAAATT
Celera SNP ID:            hCV1133323
SNP Position Genomic:     25296
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66681):
TATTAAGAGGTCCTGCCAACTAACCATAATATATAACTGATATAATAGCTAATAATGTAGCCCTATGCTAACTACTTCTCACTGTTACCACTCTAGTCCA
Y
ATCACCAATATTTTTTGCCTGCATCACCATACAATCTTTCTAGCTGGTTTTCATACTAACACCCTTGCCACTCTACGTTCTTCCATCAGTAGCCAGGATC
Celera SNP ID:            hCV8222586
SNP Position Genomic:     44355
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,8)      total(C,7|T,8) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66682):
GGGGGCGGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACGTCGTCTCAAAAAAAAAAAAAAAAAAAAAAAACA
M
CTTAAGATGGTCCTTCCAGCTTTTATAGTTAGTAATTACCTGTCACCTATCTCAGAAGTCTTCCAGTGACTTCCTATCTCACTTGAGGGGAAAGCCAGTA
Celera SNP ID:            hCV26300150
SNP Position Genomic:     33408
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66683):
TACTAGGTCACTTATACCGTATTGATGAACAAGCCACAAAATTGTAGAAATGATTTTGTGCTTTTGAGTCCAGTTCTTTTTAGCTGTCTTAAGTGTTTTT
K
GTGGCTGATTTCTGCTTCTCTCTGTTTTAAGGTACTTCTTTGTCTGCTCTGCATCGTGGTTTTAGTGGCTACTGAGCTGTGGACATATGTACGTTGGTAC
Celera SNP ID:            hCV25921656
SNP Position Genomic:     25845
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,31|T,5)   total(G,66|T,6)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(G,15|T,1)   total(G,47|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66684):
ACAGTTGAGCACTGCTTAAGATACACTCTTTACTTGATTTCCACCACACCACACCCCACCCCTCCCCAGCCCACCCTTGGGGTATCCTTCCAACTCTCTG
S
CTGTTGCTTCTTTGCCAGCTCATCTTCCTCCATCTAACCAGTAGATTTTGAAATGCTCAGGGCTTAGTCTTCCTGTCCTATTCTTTAGGTACTTTCTTCC
Celera SNP ID:            hCV8222587
SNP Position Genomic:     43847
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,7)   total(G,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66685):
CAGGGGGCGGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGTGACAGAGTGAGACGTCGTCTCAAAAAAAAAAAAAAAAAAAAAAAA
M
AACTTAAGATGGTCCTTCCAGCTTTTATAGTTAGTAATTACCTGTCACCTATCTCAGAAGTCTTCCAGTGACTTCCTATCTCACTTGAGGGGAAAGCCAG
Celera SNP ID:            hCV26300151
SNP Position Genomic:     33406
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66686):
CTATCTATATATATTTATATTTATATATCTGTCTATATTTATATATTTATTATATATAATATATATTTATATATTATATATTTATATTTATATATATATA
T
GCACTGTCAGTATTTAGCAAGATTTATATTAAATCTTAGTATTAATATTAGTAATACTGGTTAGTATTAAATATTAGCACTGTCAATATTTAGCAAGATT
Celera SNP ID:            hCV26300152
SNP Position Genomic:     30309
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,11)   total(T,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66687):
AGAGAAAAGAAATTCCTTTTCTCTTTTTTGTTGTATTAGGGTCCCCAGCTGACTGAATGGTGCTGGCCCCTACAGAGGGTGGATCTTCCACACTCAGTCA
R
CTGACTCACAAACCAGTCTTCCCTGGAAACCCCTTCAGACACATCAGAAGGAATGCTTTGCAGTTCTCTAGGTTTTCCTTAGTCCAGTCAAGTTGACACT
Celera SNP ID:            hCV1235944
SNP Position Genomic:     13840
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66688):
TCTATCTATATATATTTATATTTATATATCTGTCTATATTTATATATTTATTATATATAATATATATTTATATATTATATATTTATATTTATATATATAT
A
TGCACTGTCAGTATTTAGCAAGATTTATATTAAATCTTAGTATTAATATTAGTAATACTGGTTAGTATTAAATATTAGCACTGTCAATATTTAGCAAGAT
Celera SNP ID:            hCV26300153
SNP Position Genomic:     30308
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,11)   total(A,11|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66689):
GAGGCGGAGCTTGCAGTGAGCCGAGATCGCACCACTGTACTCCAGCCTGGGCGACAGAGCAAGATTCCGTCTCAAAAAAAAAAAAAAATTATACATATAT
R
TATATTTATATATCTATCTATATATATTTATATTTATATATCTGTCTATATTTATATATTTATTATATATAATATATATTTATATATTATATATTTATAT
Celera SNP ID:            hCV26300154
SNP Position Genomic:     30195
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66690):
CCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAACGGGGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATC
R
CACCACTGTACTCCAGCCTGGGCGACAGAGCAAGATTCCGTCTCAAAAAAAAAAAAAAATTATACATATATGTATATTTATATATCTATCTATATATATT
Celera SNP ID:            hCV26300155
SNP Position Genomic:     30123
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66691):
TTTAGCTACTATACTCCCAAACCTTCAGCCTTAACCACCTGTTAATCTACTTTCTGTCTTAATAGATTTGCCTATTCTGGACATTTCATATATATGTACT
Y
ATATAATGTGTGGTCTTTCATATCTGGTTTCTTTCACATAATGTAGCATTTTCAAGGTTCATATGTGTTGTAGCATGGTGTCAGTATTTCATCCCTTTTT
Celera SNP ID:            hCV1235947
SNP Position Genomic:     17926
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66692):
TGGCTAACACAGTGAAACCCTGTCTCTACTAAAAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAG
R
CAGGAGAACGGGGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCACCACTGTACTCCAGCCTGGGCGACAGAGCAAGATTCCGTCTCAAAAA
Celera SNP ID:            hCV26300156
SNP Position Genomic:     30072
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66693):
TAATCTACTTTCTGTCTTAATAGATTTGCCTATTCTGGACATTTCATATATATGTACTTATATAATGTGTGGTCTTTCATATCTGGTTTCTTTCACATAA
Y
GTAGCATTTTCAAGGTTCATATGTGTTGTAGCATGGTGTCAGTATTTCATCCCTTTTTATGGCTGAATAATATTCCATTGCATGGCTATACCAGTTTTAT
Celera SNP ID:            hCV1235948
SNP Position Genomic:     17968
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,7)      total(C,5|T,7) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66694):
TTCTTTTTAGCTGTCTTAAGTGTTTTTGGTGGCTGATTTCTGCTTCTCTCTGTTTTAAGGTACTTCTTTGTCTGCTCTGCATCGTGGTTTTAGTGGCTAC
Y
GAGCTGTGGACATATGTACGTTGGTACACTCAGTTGAGACGTGTTTTAATCATCAGCTTTCTGTTCAGTTTGGGATGGAATTGGATGTATTTATATAAGG
Celera SNP ID:            hCV531843
SNP Position Genomic:     25918
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,17)   caucasian(C,5|T,7)   total(C,22|T,24)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   JBIC-allele(C,663|T,837)   total(C,663|T,837)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66695):
ATGAAGGAAATTCCAGCGCTGCTTCATCTTCCAGTGCTGATAATTATGGCATTAGCCATCCTGGTTAGTATTAATATATTAGCACTGTCGGGCCAGGCGC
R
GTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCTGT
Celera SNP ID:            hCV26300157
SNP Position Genomic:     29894
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,11)      total(G,11|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66696):
GGGGGTCCCACTCTGTCACCCAGGTTGGGGTGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGCTCAAGCGATCCACCTGCCTCAGCCT
Y
CCAAGGGGCTGGGATCACTGGCTTGCGCTACCACGCCTGGCTAATTTTTTGGTTATTTTTTTCATTACCTAGCCTGGTCTTGAACTCCTGAGCTCAAGTG
Celera SNP ID:            hCV1235949
SNP Position Genomic:     18216
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66697):
TTACCTTATATGATGGGCATGAATCTAGAAACATGAATAATTATCAGACTAGAACCTTCTAATTTAAATATCTAGGCTTCAGCCTGCCATTGTTATAGTT
Y
AATCGAAATGTGTCTAGCTGATTAAAATGTCTACTGAAAGATTTATTAAGTTTTATTGGCCACTCTGGCCTTGTATTAATCTAAAGAGGTCTCTAATGAA
Celera SNP ID:            hCV531845
SNP Position Genomic:     31827
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66698):
ATATGGATGGAGGGTTTTACAATTTTAACACATTTATTCACAATGAAAGAAGACTCTAATCCATTGAGAGCAATCTTGCCTTGGATGTGGGTTGGAGGCA
K
TGATTAGAGGTGGCCCACGCTGGAGAGGAATTAAATGGACACTTCTTAGCTGACAGTTTTTTGATTCCTTGACCAGTTAGTGGGTAAAAAAGTTCAGTCC
Celera SNP ID:            hCV26300159
SNP Position Genomic:     26123
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66699):
ATGGGCGGCAAAGCCTAAAATATTTTCTATCTGGCCTTTTACAGAAAAAGTTTGCCTGCCTCTGTCTTAGGCTGTTAAATCTGTTAAGAAATAGCCCAGA
M
TGAATTTTTTTTTTTTTTTTTTTGAGACGGATTCTCGCTCTGTCATCCAGGCAGGACTGCAGTGGTGTGATCCTGGCTCACTGCAACCTCCATCTTTCAG
Celera SNP ID:            hCV8848401
SNP Position Genomic:     40333
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66700):
AAATTCTAATCTATGATTCACTTAACTTCCTACTTTATAAACACTAGGTAAAGTAATCTCACAAGCTGCCAAAGAACACATCCCAAGCAGTAATCACAGA
Y
GATGAAGCACCTTACAGGACCCCTCCACCCTCAAACGCGCATGTCCAGAGAAGTATTAATGCCTTAATAGACTACTGAAGGTTAACTATTTACATCATTC
Celera SNP ID:            hCV8848402
SNP Position Genomic:     39194
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66701):
GTCAATTAAGATGTTAAAAAATTATTTCCATAAGAGTATTAAATTCTAATCTATGATTCACTTAACTTCCTACTTTATAAACACTAGGTAAAGTAATCTC
R
CAAGCTGCCAAAGAACACATCCCAAGCAGTAATCACAGACGATGAAGCACCTTACAGGACCCCTCCACCCTCAAACGCGCATGTCCAGAGAAGTATTAAT
Celera SNP ID:            hCV8848403
SNP Position Genomic:     39154
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66702):
TTATGATGCTGAGATTATCCTTAAAAGAGAAACTTTGTTAGAAATACAGAAGTTTCTCAATGGAGAAGACTGGAAACCAGGTGCCTTGGATGATGCACTA
R
GTGATATTTTAATTAATTTTAAGTTTCATGATTTTGAAACATGGAAGTGGCGATTCGAAGATTCCTTTGGAGTGGATCCATATAATGTGTTAATGGTAAG
Celera SNP ID:            hCV25922135
SNP Position Genomic:     25561
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,16)   total(A,49|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66703):
CAGAGTGAGACGTCGTCTCAAAAAAAAAAAAAAAAAAAAAAAACAACTTAAGATGGTCCTTCCAGCTTTTATAGTTAGTAATTACCTGTCACCTATCTCA
R
AAGTCTTCCAGTGACTTCCTATCTCACTTGAGGGGAAAGCCAGTATTACAATGGCCTGGAAGCCTCCTTGGTCTCCCCTTCCCCCACATCCACTACCTCT
Celera SNP ID:            hCV8848443
SNP Position Genomic:     33463
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66704):
TGGAACTGCTGGTTATTACTGTAGAAAGTAACATAGTTGCCAATAGTACGACTTTGTGGATGTCACAGTCAAAACTCAACTGCCTGGCTGGCACAGTGGC
W
CACCTGTAATCCCAGCACTTTGGGAAGACAAGGCGGCGGGCAGGGGGATCCTTTGAGCTCAGGAGTTCGGGACTAGCCTGGGCAACATAGCAAGACCCTG
Celera SNP ID:            hCV864759
SNP Position Genomic:     8515
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66705):
ATGATGGACAATAATAACTCTCTAATACAAAATAAGCCCTTCCTGAATGAGAATTATAACACTACCAATGTTTTCAGTGGTATCTGAGCTGTATGCAGAA
Y
GAAAAAAATATACAGACATACTTGACATTTTACAAGGATGTCAAAGAAATCTTCATCAGCCTCTTTGTTGTCATTAGTCATCAGGTGGCTAAGTACCGAC
Celera SNP ID:            hCV8848372
SNP Position Genomic:     45109
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,10)   caucasian(C,30|T,2)   total(C,50|T,12)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(T,-|C,-)   Caucasian(T,21|C,43)   African-American(C,33|T,37)   Asians(T,3|C,79)   total(C,155|T,61)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66706):
TTCATTCTTTTTGTATGTGGCTCTCTAGTTTACCCAGAACCATTTGTTGATAAAACTGTCTTTTCCCCCACTGAATGGTCTTGGCACCCCTGTTGCATAT
Y
ATTTGACCACACATGCAAGGGTTTATTTCTGGGATCTGTATTCTATTCCATTGGTCTATATGTCTGTCTTTTATGCCAGTACTGCACTGCTTTGATTAAT
Celera SNP ID:            hCV8848373
SNP Position Genomic:     41841
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66707):
GATGCTTAGGTCTTTGGCCCACTTTGAGTTTTGCATATGGTATTAGGTAAGGGTCCAACTTCATTCTTTTTGTATGTGGCTCTCTAGTTTACCCAGAACC
R
TTTGTTGATAAAACTGTCTTTTCCCCCACTGAATGGTCTTGGCACCCCTGTTGCATATTATTTGACCACACATGCAAGGGTTTATTTCTGGGATCTGTAT
Celera SNP ID:            hCV8848374
SNP Position Genomic:     41782
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66708):
AAATTTTATATTTTTATATTATGTTAAATCGCTCTATATTCTTGTCTCTGCTGATAAATTTGTATTTCTAGTGTTTCCGTGTACCGTATGATTTTTATAT
R
TCAAATTTTTCTTTGGATACTCTAACCTTGGTTTCTTATTAGTTATTCTAGCCTTGGTTTTTCTAGTAGTACCTTGTATTTTCCTGTAATAACATTGACA
Celera SNP ID:            hCV1235950
SNP Position Genomic:     19792
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66709):
ATATGTCAAATTTTTCTTTGGATACTCTAACCTTGGTTTCTTATTAGTTATTCTAGCCTTGGTTTTTCTAGTAGTACCTTGTATTTTCCTGTAATAACAT
W
GACATCTCTGTGTTGTAAGTATTTCTTTACCAGACTGCAGACTTCTTGGTGCAAGGAATACGTTTTATTGATCTTAATTCTCTGTCACCTGTCACAGGGC
Celera SNP ID:            hCV1235951
SNP Position Genomic:     19888
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,12)   total(A,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66710):
TACAGGGTGGAACAGAACCTAGATAAGGAAACAGATGGAACCAAAAATACTTAAGATGGAAATGCTGGAAAATATTTAGTTTCTGATTTTTTTTTTTTTT
T
GAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCCGCTCACTGCAAGCTCCGCCTCCCAGGTTTACACCATTCTCCTGCCTCA
Celera SNP ID:            hCV26300160
SNP Position Genomic:     23182
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,9)   total(-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66711):
TAATAACATTGACATCTCTGTGTTGTAAGTATTTCTTTACCAGACTGCAGACTTCTTGGTGCAAGGAATACGTTTTATTGATCTTAATTCTCTGTCACCT
R
TCACAGGGCTGAGGCATAGTAAACTCTCAACAAATGTAGCAAATGAAGAAATGTGTCTATTACCAGCTTATACGAATAAGAGTTACTCTTAAGAAGGATT
Celera SNP ID:            hCV1235952
SNP Position Genomic:     19979
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66712):
GGAGTTGGAGGATGCACTGAGCTGTGATTGTATCACTGTACTCCAGCCTGGGCAATAGAGCAAGACCCTGTCTCTAAAAATAATAATAATAATAATAATA
W
CCCAAAACCCAATTTATTTAAAAAAATAATTCTATTTCATTATATATATTAAAAATTGTTTTAGCCTTATACAGGATGCTGTGTTCTTTGCTCCTTTGTG
Celera SNP ID:            hCV26300161
SNP Position Genomic:     18980
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|A,6|-,7)   total(A,6|-,7|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66713):
AGGAATACGTTTTATTGATCTTAATTCTCTGTCACCTGTCACAGGGCTGAGGCATAGTAAACTCTCAACAAATGTAGCAAATGAAGAAATGTGTCTATTA
Y
CAGCTTATACGAATAAGAGTTACTCTTAAGAAGGATTATTATAATTTAGTGTGTAATAGCTATTCATTCCTTCATTTATCCAATCCTCTTAAAAAAATGT
Celera SNP ID:            hCV1235953
SNP Position Genomic:     20042
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66714):
TGTCATGTTTATCCACTGATGTGCATTTCAGCGCTCAACTCATGGTCCACACTCCGTTAAAAAATGCAAGTTGATGATCACAAAGTTATTCTAATGTTTG
R
AAAATACCCACTACCCTCAGCGACTTGCCTGCTGGGTTGGTGGTGGCAGAGCTAAGTTCGTAGGAAGTCTGCTCCCGTGTAGAATTGTGTGCTGAAGGGT
Celera SNP ID:            hCV8848486
SNP Position Genomic:     21076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66715):
ACCACGTGGACAGGATCCGGTCAGCAGCCCCTGTGGCTAGAGGAACACCAGCACAAACGACAGCCTCAAGTCTCCTTCGAGCTTTGTAAAGTATACTCTT
Y
ACTCTCTTTCTCTTCTCTGCAAGAATTCTGATTACTACAAAGGTGCCAACTTCAACATTCACATTTCAACTTCAACATTCACATTTTTACTGACAATTAG
Celera SNP ID:            hCV25921594
SNP Position Genomic:     34882
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,3)   total(C,73|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:66716):
ATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTTACAGGTGTGTGCCACCACGCCTGGCTAATTTTTGTTGTTGTTGTTGTTTTATTAGAGACTGGGT
Y
TCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATTATCTGCCTGCCTCGGCCTCCCAAAGTCCTGGGAGTTAGTCGTAAGCTTTTTTCCTCAG
Celera SNP ID:            hCV26300162
SNP Position Genomic:     15183
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66717):
ATCCACTGATGTGCATTTCAGCGCTCAACTCATGGTCCACACTCCGTTAAAAAATGCAAGTTGATGATCACAAAGTTATTCTAATGTTTGAAAAATACCC
R
CTACCCTCAGCGACTTGCCTGCTGGGTTGGTGGTGGCAGAGCTAAGTTCGTAGGAAGTCTGCTCCCGTGTAGAATTGTGTGCTGAAGGGTTGCCATGTGG
Celera SNP ID:            hCV1235954
SNP Position Genomic:     21086
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,12)      total(G,5|A,12) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66718):
CCCCACCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTTACAGGTGTGTGCCACCACGCCTGGCTAATTTTTGTTGTTGTTGTT
K
TTTTATTAGAGACTGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATTATCTGCCTGCCTCGGCCTCCCAAAGTCCTGGGAGTTAGT
Celera SNP ID:            hCV26300163
SNP Position Genomic:     15164
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1|-,8)   total(G,1|-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66719):
ATACAAAAGTTTGGCTGCACAGCAAAAATGCAGAAATACCTTTTTACAGAATTTTTTTATTCCATTGTTTGTGACTGGTTTAAACATTCTAAGAAACATG
R
TTGGCAAAATGGAGTCTTGAATTCTTTTTTTTTTTTTCCTAAGTTGTTTCTTTAAGGTTTAGAAAATAAACTGGTTTTACAAACCTTGCCTGAGAGCAAA
Celera SNP ID:            hCV8848487
SNP Position Genomic:     20804
SNP Source:               HGBASE
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66720):
ACGATCTCGGCTCACTGCAGCCTCCGTCCCCCACCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTTACAGGTGTGTGCCACCA
Y
GCCTGGCTAATTTTTGTTGTTGTTGTTGTTTTATTAGAGACTGGGTTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATTATCTGCCTGCC
Celera SNP ID:            hCV26300164
SNP Position Genomic:     15136
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66721):
TATTGTTAAAATTTCCTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGTCCAGGCCGGAGTACCGTCGTGCAATCTTGGCTCACTACAACCTCTGCCTCC
Y
GGGTTCCAGCAATTCTCCCTGACTCAGCCTCCCGAGTAGCTGGATTACAGGCACCTGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGG
Celera SNP ID:            hCV1235956
SNP Position Genomic:     22403
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66722):
AGACATGCTTAACTATGATGCTGCTTCAGGAACAATGAGAAAATCTCAGGTATTAAAAAAAATTCGTGCATGTGTGTGAGACCTTATCAGTCCCATGATG
S
AAACAGTCTAGCTCTGTTGTTTTGCACAGAGCTATGAGGGTCATGGATCCATGATTAGCAATTATGCAGAATATTTTCTTGACACTGTTAATCTAAAATT
Celera SNP ID:            hCV25921952
SNP Position Genomic:     19236
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,2|G,38)   total(C,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:66723):
CTGGGTATGGTGGCACATGCCTATAATCCCAGCTACTTGGGAGGGTGAGGCAGGAGAATTTTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCG
Y
GCCATTGCACTCCAGCCTGGGCGACAAGAGCGAAACTCCGTCACACACACACACACACACACACACACACACACACGCAAAGACAGTGCCCAGTATACAG
Celera SNP ID:            hCV26300165
SNP Position Genomic:     14598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66724):
GTGATCCGCTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCACCTGGCCAAAATTTCTATTTTTAAGAAGTCACTGTTTTCACTT
K
GGGAAGTGAAAACTTCCCAGACTTAATGCATTAATTTAGTTTTAATTCACTTACCAAAGTGAAAACATCAAGAAAACATAAATTTAATAACTTATAACAT
Celera SNP ID:            hCV1235957
SNP Position Genomic:     22647
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,8)   total(G,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66725):
TATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCGGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTA
S
AGGTGTGAGCCACCATGCCTGGCCAAGTGTAATGGCTGTAAATAACACTTTTATTACTGCTGGTGATGTTGTGGTTTTATGGGGTGTGATGGGGCTCAGC
Celera SNP ID:            hCV26300166
SNP Position Genomic:     13088
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(G,-|C,-)   ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66726):
GCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCCGCTCACTGCAAGCTCCGCCTCCCAGGTTTACACCATTCTCCTGCCTCAGCCTCCTGAGTAG
Y
TGGGACTACAGGCACCCGCCACCATGCCCGGCTAATTTTTTGTATTTTCAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGAC
Celera SNP ID:            hCV1235958
SNP Position Genomic:     23296
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66727):
TTAAAAGCCTCAAGTGGCTTCTTGTTACACATAGAGTAAAAACCACACTCTTTACTGTGGTCTACCACTCCCTCCCCGCCTCCCCGCCTCCCCGCCTCCC
W
GCCTCCCAGCTCATTCCCAAGACCCAGCTGTTCTGGCCTCCTTTCTGTTCCTTGACTGCTTCAGCTTCTTCTCCACTCAGGGCTTCTATACTTGCTGTGT
Celera SNP ID:            hCV26300167
SNP Position Genomic:     12609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66728):
AAAAGGAAAAGGTGTGTATTAGATAGGCTTCAGTCAAGCGTAAGGTATAGGACAGTTGTCCATGTGTTCAGTGTTAGTGAATGAACAATATGTATTTTAA
R
TAAGGTGTCCTTAAACAGGAATGTACAGAAACACACATAAAACAAGGTTATATATTGATCAATTGATAAAAATGTTATGACAGGTTTGCACGAACCAAAC
Celera SNP ID:            hCV1235959
SNP Position Genomic:     24383
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66729):
ACTCAAGAGTGTGGTCTGCGGCATCACCAGGAGCTTGTTAGAAGTGGAGATCTCAGACCTACCTCAGATTTACTGAATCAGAATCGTTTTTTTTTTTTTT
T
AACAAACTCTTCAGCAGGTTTAGATGTAGCTTTGTTTGGAGGAAGTGTGAGATTCGTTTTAGGATTTCTCAAGGAGTTCCAGCCTTCAATCAGTGACCAT
Celera SNP ID:            hCV26300168
SNP Position Genomic:     8206
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66730):
GCTGGGATTACAGGCATGCGCCACCACGCCCTGCTACTTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGGTGGTCAGGCTGGGCTGGAGCTCCCAAC
Y
TCAGGTGATGCGCCCGCCTTGGCCTCCCAAGGTGCTGGGATTACAAGCGTGAGCCACCGTGCCCGGCCTTTAGCTACTATTATACATATTATAATTTAAA
Celera SNP ID:            hCV26300169
SNP Position Genomic:     7845
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66731):
TGCCCAGGACTCAGTCTTTTGTCCTCATAATAAATCTTCTGGTGATCTTACCCAGATCATCTCTTTTAAACCCCGTCTACATTCTGATCGTTCTCAAATG
Y
AGTCCCACTGCTCTCCTTAGCTTCATCCTGCATATTTATAATCTCTACTTGGACATCAGTGGACACTTCAGATTTACTATATCCAAACAAAACTCTTGAT
Celera SNP ID:            hCV1791596
SNP Position Genomic:     11674
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66732):
GTTCGGGACTAGCCTGGGCAACATAGCAAGACCCTGTCTCTATAAAAAAGAAAAAAAAATCTCAACTGCTTGACAGGCTTTTTATTCACTTCCCTTTGTA
K
AATGCCTCCTGTAGTACCTTTTTTCCCCTCCAAATCTCCGTTTCCCCCATCCTAACCTCCTCACAGTGTTAGAAATGCAAATTACTCTTAATTTCTCTGT
Celera SNP ID:            hCV1791597
SNP Position Genomic:     8680
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|T,8)      total(G,2|T,8) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66733):
TTACCCTCCTGTCTTCCATCATTTCTGCATTGCTAATCTCTATCCCTGGAGAAATCTATGGAACTGCTGGTTATTACTGTAGAAAGTAACATAGTTGCCA
R
TAGTACGACTTTGTGGATGTCACAGTCAAAACTCAACTGCCTGGCTGGCACAGTGGCTCACCTGTAATCCCAGCACTTTGGGAAGACAAGGCGGCGGGCA
Celera SNP ID:            hCV1791598
SNP Position Genomic:     8457
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66734):
ATGAGCCACCATGCCCAGCCCAAGAAGTAGAGTTTCTTTTATACTGACTTTGGCCTAAAAAAACAGATTTTCATGGAGGAAAAAAAAACCTAGATTTTTA
R
TAAGACTATTTTATATACTTTTTTACATTGATCAAGTACATTATTTTTACCAAACAACATTGTTTCCCACTACATCCATGGTTATGTATAAAAAAACGCC
Celera SNP ID:            hCV8848412
SNP Position Genomic:     38950
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66735):
GTAAATTTTATTTGTAGAGAAGGGGTCTCCCTGTGTTGTCCAGGCTTGTCTCTGACTCCTGGGCTCAAAGGATCTTCCCATCTTGGCCTCCCAAAGTGCT
R
GGATTACAAGCGTGAGCCATTGCGCCTGGCTCCAAATCTGATTTGAGTGTAAAAAGTTAGACACACCATAAGCTGTAGGTTTATTACTGGGTGGTGAAAA
Celera SNP ID:            hCV864761
SNP Position Genomic:     6873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66736):
CTCAAGTGACCCGCCCTTGTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATTGTGCCCAGCCTATATAGTGTGAAGCTTTTAGGAAAATCAGA
R
CAGGGTAGACAGCTGTTAAAAACAATGTTTAAATGGAATAATGTTGAATGTTTACAGGCTGTAAGAACTATTGTATACACAAAATAATACACAAAGTTTG
Celera SNP ID:            hCV8848414
SNP Position Genomic:     37386
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:66737):
CGGCGGCTGCCTGTCCGCCGCGGTTGCGCGCGTTCCGGGGAGGTGCTTGGCCCAGAGAGCGGCCTACGGAGAAGGCACAGCGAGGGCAAAGCGAGACCTG
R
GCGCACGTTGAATTCTGTTGGCTTTGGTTATCTCTGAAAACTTTAAGCATAATTTGAATAAATGCTGTCAGCAGAATAGCTCGGATTTAGTTGTAGTTAA
Celera SNP ID:            hCV864762
SNP Position Genomic:     6424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66738):
ATTGATTATAGACCTGATGGTGGAGCAGGTGATGCCGATTTCCATTATAGGGGCCAAATGGGCCCCACTGAGCAAGGCCCTTATGCCAAAACGTATGAGG
R
TAGAAGAGAGATTTTGAGAGAGAGAGATGTTGACTTGAGATTTCAGACTGGCAACAAGAGCCCTGAAGTGCTCCGGGCATTTGATGTACCAGACGCAGAG
Celera SNP ID:            hCV25922075
SNP Position Genomic:     32285
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,38)   total(A,1|G,71)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66739):
CCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTCTAGCCTGGGCAAAAAGAGTGAAACTCTGTCTCAAAAAAACAAAAAACCCAAAA
A
TAGGGGGGAGATTCGTTAAAATACCTGTTTTTAAATTGACTTTATTGAGCTATAAATCACATACTATATAATCCACCCATTTAAAGTGTCCAGTTCCACC
Celera SNP ID:            hCV8222741
SNP Position Genomic:     17318
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,6)   total(A,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66740):
CCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTATAAGCCACCACATGCTCCTCTTGAGTTTTATAGTTTTAGTTCTGATGCTTAGGTCTTTGG
Y
CCACTTTGAGTTTTGCATATGGTATTAGGTAAGGGTCCAACTTCATTCTTTTTGTATGTGGCTCTCTAGTTTACCCAGAACCATTTGTTGATAAAACTGT
Celera SNP ID:            hCV8848382
SNP Position Genomic:     41699
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,9)      total(C,9|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66741):
TTTAGGTTTAAAACCAGTGACTTTTTATGCTCATCTAAAGTCACAGGGAAGGAATAGAAGTTGTATATATGTTGGCTCTGATATTATCTGTCTTCCTTCA
K
AAGACTGTGTGAAGGATCCTATGCTCGCTTTTGTTCATCTCGTTCTTTGCACAGGGTCTGGCATATTCTCAATAGAAGTTTATTAAACAAGTGAATGAAT
Celera SNP ID:            hCV25921813
SNP Position Genomic:     28325
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,31)   caucasian(T,30)   total(G,1|T,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:66742):
TCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTATAAGCCACCACATGCTCCTCTTGAGTTTTATAGTTTTAGTTCTGATGCTTAGGTCTTTG
R
CCCACTTTGAGTTTTGCATATGGTATTAGGTAAGGGTCCAACTTCATTCTTTTTGTATGTGGCTCTCTAGTTTACCCAGAACCATTTGTTGATAAAACTG
Celera SNP ID:            hCV8848383
SNP Position Genomic:     41698
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66743):
TTTTATGCTCATCTAAAGTCACAGGGAAGGAATAGAAGTTGTATATATGTTGGCTCTGATATTATCTGTCTTCCTTCATAAGACTGTGTGAAGGATCCTA
K
GCTCGCTTTTGTTCATCTCGTTCTTTGCACAGGGTCTGGCATATTCTCAATAGAAGTTTATTAAACAAGTGAATGAATGTATATATGAATTAATATCCAT
Celera SNP ID:            hCV8848457
SNP Position Genomic:     28347
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66744):
GCTTTCAGTCTGTCACCATTGAGTATGATGTCAGCGGTACATGTTTCATATATGGCTTTTATTATGTTCTGGTAGTTTCCTACTGTTGCTAATTTTTAAG
K
TTTTATCATGAAAGAGTTTTGAATTGTCATTTTTTTCCTGTATGTGTTTTTTCCCTTTATTCTGTTTATATTATGTGTTACACTGATTGATTTTCACATG
Celera SNP ID:            hCV1133308
SNP Position Genomic:     42653
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,14)   total(G,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66745):
TTTTTAATTAAAAATTTATAACAGTCTGGTTTGGATGAATGGTAAAGACACTCTTTGAATGAAGGTCTTTTGGATGTGTAGGCCTAACCTTCATAGGTAA
Y
GGCCTCTCCTGGTTCCCTTTTGGTGTTGGGCAGCTAGCTTTTGCACAGCATCAGGCTGAAGTCGCCAAGATGGAGCCATTAAACAATGTGTGTGCCAAAA
Celera SNP ID:            hCV8848458
SNP Position Genomic:     27960
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66746):
TCTTTGCAGTCTTAAAAATTGAAGCCCACAAACAGCTCTTACTTAAGGTGATTATATTTATTGATACTTACATATTAGGAGTTAAAACAAATTTAAAACA
Y
ACGAGTACTGTACACGCAAGCATGCATCCCCTGAGTCTGAGTGAGGCTGTCACTCTAGCATCTGGAATGCTCCGTTGTATATTCAGGAGGGGACAGTGAA
Celera SNP ID:            hCV582921
SNP Position Genomic:     31380
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66747):
ATATGGAGCCAAGGTTGAGAGCTATTGTGCTAATGGAAGAGACAGACCGATAAATGGCTAATTTCATTGCTTCCAATGCCAGAAGAATATACAGGGCACA
Y
GGGGAACAGGAGTATTTAATTTAGCCTAGAGTGATTTTTATTGTACAACTAGACCGTAAGCTGTTTATGGGCAGGGCCCAGGGCTTTGTCATCTTGGGGT
Celera SNP ID:            hCV8848491
SNP Position Genomic:     16239
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66748):
TACATATTAGGAGTTAAAACAAATTTAAAACATACGAGTACTGTACACGCAAGCATGCATCCCCTGAGTCTGAGTGAGGCTGTCACTCTAGCATCTGGAA
Y
GCTCCGTTGTATATTCAGGAGGGGACAGTGAAAAAGACAAATAATAATGTCTTTGTATTATGAAAAGTTTTGATCTCATAGATCTCCTGAAAGTCTCAGG
Celera SNP ID:            hCV582922
SNP Position Genomic:     31448
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66749):
AGAATCACTTGGGGAGCTTAAAAAGATCGAAGTGCCTGGGTCCTAATCCCAGAGATTCTGATTTAATGGTTTTGGGATATGGCCAAAACATTGGGAGTTT
Y
AGAAGCTCCTCGGGTGATTCTAATATGGAGCCAAGGTTGAGAGCTATTGTGCTAATGGAAGAGACAGACCGATAAATGGCTAATTTCATTGCTTCCAATG
Celera SNP ID:            hCV8848492
SNP Position Genomic:     16116
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66750):
GGCGGGCGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGATGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTAG
S
GGGCACCTTTAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGTGGTTGCAGTGAGCCGAGATTGTGCCACCGCACAC
Celera SNP ID:            hCV11613711
SNP Position Genomic:     27689
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,9)   total(G,3|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66751):
ATTGAGTCCTCAGGAAAATGTATTTCTTTTCCTTACAGAGTTTCTGCTATGGTGCTGGAAAATCAGTTCATGTGCTGAGACATATAGGCGGTCCTGAGAG
M
GAACCTCCCCAGGCACTTCGGCCACGGGATAGAAGACGGCAGGAGGAAATTGATTATAGACCTGATGGTGGAGCAGGTGATGCCGATTTCCATTATAGGG
Celera SNP ID:            hCV582924
SNP Position Genomic:     32136
SNP Source:               Applera
Population(Allele,Count): african american(A,14|C,24)   caucasian(A,11|C,27)   total(A,25|C,51)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;JBIC-allele(A,42|C,1239)   total(C,1239|A,42)no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66752):
TTAAACAATGTGTGTGCCAAAAAGATGGACTGGACTGGAAGTATCTGGGGTAAGGTGTTTGTGCACTTGTCCTTATTTTGAATAGAAATTCTGAGAATGA
R
AGAACATAGAACAAAGAGAATGATAAAATAACAGGAGGCTTTCCATGACTGAATCTTTAATATCAGAAGAACATGCAAGAAGCATTTTAGGTTTAAAACC
Celera SNP ID:            hCV1235961
SNP Position Genomic:     28139
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,8)   caucasian(A,29|G,3)   total(A,55|G,11)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(G,-|A,-)   ;JBIC-allele(G,19|A,1458)   total(G,19|A,1458)
SNP Type:                 INTRON


Context             (SEQ ID NO:66753):
GTTAATTTTCTAAAACTTCAAATCTGTGAATTAACACAGTTAACAACAACAACAAAAACGGACACAAAACAACCTCCAAATTGGATTTTTTTTTTTTTTT
T
GAGACGGAGTCTTGCTGTGTCACCCAGGCTGGAGTGCGGTGGTGCTATCTCCGCTCACGGCAACCTCCGCCTTCCGGGTTCCAGCGATTCTCCTGCCTCA
Celera SNP ID:            hCV26300170
SNP Position Genomic:     6620
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66754):
AATTTAAAAATCAGCATTACAGGGAGTCTACTTAAAACTTAAGATAATTTAAAACTCATTGGTGGGTGGTCAGGGAGGGTCAAAACCAAAGTAATGTCTT
R
TTTGGGAATGAAATGCAACATTAAAAGAAATGATCAGTGTTTTGTCTGTTTCTCTAAACAGAATGGTTTAGAAGTTCATGGACCTATAAGGATGACCCAT
Celera SNP ID:            hCV1235962
SNP Position Genomic:     29288
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,25)   caucasian(G,8)   total(A,5|G,33)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66755):
TTCCAGCTTTTATAGTTAGTAATTACCTGTCACCTATCTCAGAAGTCTTCCAGTGACTTCCTATCTCACTTGAGGGGAAAGCCAGTATTACAATGGCCTG
R
AAGCCTCCTTGGTCTCCCCTTCCCCCACATCCACTACCTCTCTGGTCACCTCTTCTCCCTCCGTGCTTACTCTACTTTAGCCATAAGGGCTCCTGACTGT
Celera SNP ID:            hCV582925
SNP Position Genomic:     33522
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66756):
ATAGCTCGGATTTAGTTGTAGTTAATTTTCTAAAACTTCAAATCTGTGAATTAACACAGTTAACAACAACAACAAAAACGGACACAAAACAACCTCCAAA
W
TGGATTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTGTGTCACCCAGGCTGGAGTGCGGTGGTGCTATCTCCGCTCACGGCAACCTCCGCCTTCCGGGTT
Celera SNP ID:            hCV26300171
SNP Position Genomic:     6600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66757):
GATCTGTGCTCCTTATTTGTTGCCTACTTGCCCTTTGCAAAGAGAACATGGGGAAGCAGGCCAGCTCTGCACTGTAATGTATTATAGCTGATAAATGCAA
R
CTTGATCAAAACAACTAGCTCCTTACCTTGATTCCGATGACAGCACTAGGCTAGAAACTTAACCCTTATATTATACTTTGACTCTAACTAATGTTGAATT
Celera SNP ID:            hCV11613714
SNP Position Genomic:     21657
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,19)   caucasian(A,20|G,20)   total(A,39|G,39)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,7|A,7)      total(G,7|A,7) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66758):
GTGACTTCCTATCTCACTTGAGGGGAAAGCCAGTATTACAATGGCCTGGAAGCCTCCTTGGTCTCCCCTTCCCCCACATCCACTACCTCTCTGGTCACCT
Y
TTCTCCCTCCGTGCTTACTCTACTTTAGCCATAAGGGCTCCTGACTGTTCCTTGAACTTGAGAGCCTTTGTACCTGCTGTTCATTCTACAGTCTTCATTT
Celera SNP ID:            hCV582926
SNP Position Genomic:     33574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66759):
CTACTTGGGAGGGTGAGGCAGGAGAATTTTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGCGACAAGAGC
R
AAACTCCGTCACACACACACACACACACACACACACACACACACGCAAAGACAGTGCCCAGTATACAGTAGGTATTTGGTAAATGTTGAACAAATGAATG
Celera SNP ID:            hCV8848496
SNP Position Genomic:     14630
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66760):
AGAAGAAATAAAATTAGATTTAACTTTTATGTAAAATACAATTTAACAGTAGTTTGTTAGAGCAGATGGTAATTCATATGAACCTTCATGGGAAGCCAGC
R
TATGAGCATGACAGAAATTTCTATCTTTGAAGAGATCAGAGAGAAGGCATCACTGAAGGCCCGGAGCTCTAGGGAAGGTACAGTAGAGCCCTAAAGGATT
Celera SNP ID:            hCV1235965
SNP Position Genomic:     32684
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,4|G,7)      total(G,7|A,4) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66761):
TCCAGCTTTTATAGTTAGTAATTACCTGTCACCTATCTCAGAAGTCTTCCAGTGACTTCCTATCTCACTTGAGGGGAAAGCCAGTATTACAATGGCCTGG
R
AGCCTCCTTGGTCTCCCCTTCCCCCACATCCACTACCTCTCTGGTCACCTCTTCTCCCTCCGTGCTTACTCTACTTTAGCCATAAGGGCTCCTGACTGTT
Celera SNP ID:            hCV1235966
SNP Position Genomic:     33523
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,15)   total(G,1|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66762):
ATGCCTCCAGCATCTTCATGCAGCCATGGAGTATCGTTACCAGGATCAGTCTGACTGACACCTCAGCTTATCTCTACGCAGGCTGCCCACAGGTCACTGT
R
GCTGTAGTTTCATCTTTTCCACAGCTATTACTACGCCTGCATCCTTATTGTTCCTTTTACTTTGTTTACTTAGAGAAAACTGAAGACTGCCAGGGCAATT
Celera SNP ID:            hCV1235967
SNP Position Genomic:     35333
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66763):
TTTTTAGAGATCTATACATAGAGAATACCATGATGAGGAAGAAGAGAGTTGGGTGTCTTCCTTAACTGCAGACAGGACATCAGTCAGCACTTTACATTAG
Y
CTTTCTGATTATCAAAAGCATTCCTCATTTTAAACTTTTTAAAAAGCAATGCATAAATTTTGTACCTGTCCTTAGCAGACTTCACAGACATCAGGTGTCC
Celera SNP ID:            hCV1235968
SNP Position Genomic:     35750
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66764):
CATCATACCTTATAGTATACATGAAACATAATGTAATCCAGGTTGTAATTTAGAACTTTTTTTTTTTTTTTAGCTGAGCACTTAATGTAATTAATTCCAG
R
TTATGACTCTTAAAAAACATTGGCCATTAGAGAAATAGTTCTATTTGCCCATCCAAATCACCTGAATGACTTTTTGAAAGAATAGGGGTCCACATCCCCA
Celera SNP ID:            hCV1235969
SNP Position Genomic:     37746
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,4)      total(G,4|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:66765):
ATAAAGAAATAAAATGTTTCTATACTCTGTTTTAGGCAAAATATGGTATTTCAGGGGAAAAGGATGTCAGTCCTGACTTGTCATGTGCTGATGAAATATC
R
GAATGTTATCACAAACTTGATTCTTTAACTTATAAGGTTAGTTTTTTTATTGATAAATTTTATATTTTTATATTATGTTAAATCGCTCTATATTCTTGTC
Celera SNP ID:            hCV25922081
SNP Position Genomic:     19637
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66766):
ATGGGATGAGGGCAAGGGCAACGTCATTAAGTTTCCTTTTTAAAATACTTTCCAAACTCCACCATAATTACGTTAAGAACCTGTACTAGGTCACTTATAC
Y
GTATTGATGAACAAGCCACAAAATTGTAGAAATGATTTTGTGCTTTTGAGTCCAGTTCTTTTTAGCTGTCTTAAGTGTTTTTGGTGGCTGATTTCTGCTT
Celera SNP ID:            hCV25921604
SNP Position Genomic:     25762
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,18)   total(C,53|T,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66767):
TATTTTTTATTTTTTGTGGATATGGGGTCTTGCTGTTACCCAGGCTGGTCTCAAACTCCTGGCCTCAAGCAGTCTTCTCACCTTGGCCTCCCAAAGTTAT
R
GGATTACAGGTGTGAGCCACCATGCCTAACCATATCACTTTTTCAGACCACCCTAATTTAAACTGTAATTTGACCCTGCCAGCCCACCCACATTCAGCAC
Celera SNP ID:            hCV8848425
SNP Position Genomic:     33975
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66768):
CTCACTTGAGGGGAAAGCCAGTATTACAATGGCCTGGAAGCCTCCTTGGTCTCCCCTTCCCCCACATCCACTACCTCTCTGGTCACCTCTTCTCCCTCCG
K
GCTTACTCTACTTTAGCCATAAGGGCTCCTGACTGTTCCTTGAACTTGAGAGCCTTTGTACCTGCTGTTCATTCTACAGTCTTCATTTATATATCAATCA
Celera SNP ID:            hCV8848426
SNP Position Genomic:     33586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66769):
ATGTTTATCCACTGATGTGCATTTCAGCGCTCAACTCATGGTCCACACTCCGTTAAAAAATGCAAGTTGATGATCACAAAGTTATTCTAATGTTTGAAAA
R
TACCCACTACCCTCAGCGACTTGCCTGCTGGGTTGGTGGTGGCAGAGCTAAGTTCGTAGGAAGTCTGCTCCCGTGTAGAATTGTGTGCTGAAGGGTTGCC
Celera SNP ID:            hCV11448443
SNP Position Genomic:     21080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66770):
TCCCTGGGACCGTAAAATAAGGCTGAAAAAGTCTTCATCTGGTACTGTCGGACCCTTTGTGGTAGCAGGTGGTGGAGCACATCTTTGATCATCTAATCTG
R
ATCCCTAGAAGTTTATGAGAGAGATTAAAAGACATACTGTGGGAAAGAAAGCACCAAGCTATGTTAAATCTCTCAGTCACAACAAGAAAACGCAGTTGTA
Celera SNP ID:            hCV25760248
SNP Position Genomic:     39640
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,34)   total(A,1|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:66771):
AAAGCATTATTTTGCAAAAAGTCCTTTAGCCCAAAGTCAGTGTCTCTGTTTTGATCTCTTTGTAAAAGAACTCTCTGTTCATCCATTCTCTTTCCCTGGG
R
CCGTAAAATAAGGCTGAAAAAGTCTTCATCTGGTACTGTCGGACCCTTTGTGGTAGCAGGTGGTGGAGCACATCTTTGATCATCTAATCTGGATCCCTAG
Celera SNP ID:            hCV25759451
SNP Position Genomic:     39548
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,32|G,2)   total(A,61|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:66772):
CTGTGGGAGTACTGTGGAGTTTGGTGAGGTATAATAACATTTATATAATTATAACCCAGCACTGGACCCTGGATTTGAAAGAGTTTGGAGCTTGCTACAA
Y
GGATTTGGGTGGGAACTTTTTAGATATGTTTGATTACTAAGACTTCACATTACATTAAACAGTTAAAATGTAATTTTGTACTTTATAGCATAAATCACCT
Celera SNP ID:            hCV1133313
SNP Position Genomic:     34460
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,9)   caucasian(C,16|T,8)   total(C,25|T,17)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,4|C,10)      total(C,10|T,4) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66773):
AAGACCCTATCCTCTCAGAGAAGCCCCTGAGAGCCATTAGTACTTTTGCCCTGGAGAGGCAGTTTAGGTAGAGCCAGTCTGGGTTCTACCACTTACTAGC
Y
TGGTGGTCTTAGGCAAGTTACTTTGTGTGATCTGTAAAATGAAGATGAGTGAAGATAAGAGTACTACTTCCAGTAGTTTTGTGAGGATTAAATTAATGTA
Celera SNP ID:            hCV16111164
SNP Position Genomic:     7484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66774):
TTTTATGTTGGGTTGCCTTTTTACTGTTGATAATGTCCTTTGATGCACAAGTTTTTAATTATGAAGTCCAATTTGTCTACGTTGTTGTTGTTGTTCCCTG
Y
TCACTCTTTTGGTTTTATAACCAAGAAATCACTGCCAAACCCAATGCCATGAGGCTTTCCTTTTTTTTCCCTTTAGAGACAGGGTCTCACTCTGTGGCCT
Celera SNP ID:            hCV8848391
SNP Position Genomic:     41307
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66775):
CTCTATATATATACACACACACACACGTCTCTCCTAAAATGTAAGATCCTTTAAAAATCAAGTGTGTCCTCGATGCCTAGAATAGCAGCTGAAACATAAT
Y
GGTGTTCAATAATTTTTTACTGAATGATGGACAATAATAACTCTCTAATACAAAATAAGCCCTTCCTGAATGAGAATTATAACACTACCAATGTTTTCAG
Celera SNP ID:            hCV8222575
SNP Position Genomic:     44985
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66776):
CAGAAAGGGATGTGGAAGAACATGGGTATGCTGAGAAAGAGTTTGGGGATCCAGGAGCAGACATTAAGAAGAAATATTACTCGTCATCCCTCCATGGTCT
R
TTCAGTGTTTTTTGTTATCGATTTTTTAGCTATTACCCAAGTAAAGCAGTTGTCGCATAAAACAAAAAGAACTCAGATGTGCCAAGGGAAATTCTCTTCC
Celera SNP ID:            hCV1133315
SNP Position Genomic:     30878
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66777):
GTTTTTTGGCTTGTGATTACAGGATTATGTGGTTGACGGGTATTTTTTTGTTAGGTGACATTAGTTCTATAGTCATAGTTTAGTCTCTGAAACTGAAATT
W
TCAGCAGAGTCTTCACCATCTGTTTTTGTTTCATGTGCTCCCTCAGGAAAGTTATGCTCTTTGACTTTTGCTGCTTTTGTCTTCAAATAGTAGTGTTTGA
Celera SNP ID:            hCV1133316
SNP Position Genomic:     31137
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,11)   total(A,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66778):
TTTTTGTTAGGTGACATTAGTTCTATAGTCATAGTTTAGTCTCTGAAACTGAAATTATCAGCAGAGTCTTCACCATCTGTTTTTGTTTCATGTGCTCCCT
M
AGGAAAGTTATGCTCTTTGACTTTTGCTGCTTTTGTCTTCAAATAGTAGTGTTTGAAAAACTAGTACAGAAATTTTCAAAGTTTCTGTTCTCAGGACCTC
Celera SNP ID:            hCV1133317
SNP Position Genomic:     31181
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,8)      total(A,3|C,8) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66779):
ACCTTTGCTTACCCACTACCCCTTTATCCTCCTTTAAAGTTCTTCATAGCAAGCATAATTACCTAATACAACACACATATACTCTCTCTCTATATATATA
Y
ACACACACACACGTCTCTCCTAAAATGTAAGATCCTTTAAAAATCAAGTGTGTCCTCGATGCCTAGAATAGCAGCTGAAACATAATCGGTGTTCAATAAT
Celera SNP ID:            hCV26300141
SNP Position Genomic:     44898
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66780):
ATGGCTCACTGCAGCCTTGAACTCCTAGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGTGTAGCTGGGACTACAGGTGTGTGCCATTAATTTAAAAAAA
W
TTTTTTATAGAGATGGGGTCTCACTATGCTGCCCAGTCTAGTCTTGAACTCCTGGGCTCAAGCAATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTA
Celera SNP ID:            hCV26300142
SNP Position Genomic:     41532
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66781):
GTGTGATCCTGGCTCACTGCAACCTCCATCTTTCAGGTTCAAGTGATTCTTCAGCCTCAGCCTCCCAGTAGCTGAGACTATAGGCATGCGTCACCACACC
Y
GGCTAATTTTTGTATTTTTAGTAGAGATGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCTTGACCTCAAGTGATCCACCCGCCTTGGCCTCCC
Celera SNP ID:            hCV26300143
SNP Position Genomic:     40498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66782):
ATCCAGGCAGGACTGCAGTGGTGTGATCCTGGCTCACTGCAACCTCCATCTTTCAGGTTCAAGTGATTCTTCAGCCTCAGCCTCCCAGTAGCTGAGACTA
Y
AGGCATGCGTCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCTTGACCTCAAGTGA
Celera SNP ID:            hCV26300144
SNP Position Genomic:     40478
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66783):
CTTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCTGGCTGCTGATTTATTTTTCATAGACACGGGGGTCTATGTTGCCCAGGTTGGT
Y
TTGAACTCCTAGCCTCAAGCGATCCTCCTGCCTCAGCCTCCCAATGTGCTGGGATTACAGGAATGAGCCACCATGCCCAGCCCAAGAAGTAGAGTTTCTT
Celera SNP ID:            hCV26300145
SNP Position Genomic:     38787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66784):
AGGAAGACAAAGCTTAATGACAACTAAGGTTCTAGCTGACATCTTTCTTTCATATTTAATTTTTGTGAGTTTTCATCTGTTTTCTGTTTGTTTATGTGTC
Y
TAGGTTCTTGACCTAACCACATGGGTTTTGTTTTTTGTTTTTATATTAGAACTTAGAAAAGTTTGTTTTACAGCAGTATTATGGAACAGAAGAGACCATT
Celera SNP ID:            hCV1235970
SNP Position Genomic:     38141
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,5)      total(C,5|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:66785):
CAGCCTCCACCTCCTGGGCTCAAGTGGTCCTCCTGCCTCAGCCTCTTAAGCAGTTGGGACTACAGGTGTGTGCCAGCATGCTTGCTGTTTTTTTTTTTTT
T
GAGACAGAGTCTTGCTCTGTCACTCAGGCTGGAGTCCAGTGGCTTGGTCTCAGCTCACTGCAATCTCTGCCTCCCAGGGGTTCAAGTGATTCTCCTGCCT
Celera SNP ID:            hCV26300146
SNP Position Genomic:     38454
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66786):
GCAGCCTCCACCTCCTGGGCTCAAGTGGTCCTCCTGCCTCAGCCTCTTAAGCAGTTGGGACTACAGGTGTGTGCCAGCATGCTTGCTGTTTTTTTTTTTT
T
TGAGACAGAGTCTTGCTCTGTCACTCAGGCTGGAGTCCAGTGGCTTGGTCTCAGCTCACTGCAATCTCTGCCTCCCAGGGGTTCAAGTGATTCTCCTGCC
Celera SNP ID:            hCV26300147
SNP Position Genomic:     38453
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66787):
ATCATAGCTCAGTGCAGCCTCCACCTCCTGGGCTCAAGTGGTCCTCCTGCCTCAGCCTCTTAAGCAGTTGGGACTACAGGTGTGTGCCAGCATGCTTGCT
R
TTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACTCAGGCTGGAGTCCAGTGGCTTGGTCTCAGCTCACTGCAATCTCTGCCTCCCAGGGGTTCAAG
Celera SNP ID:            hCV26300148
SNP Position Genomic:     38440
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66788):
TTTAGTAAGACTATTTTATATACTTTTTTACATTGATCAAGTACATTATTTTTACCAAACAACATTGTTTCCCACTACATCCATGGTTATGTATAAAAAA
M
CGCCATTGTCAATTAAGATGTTAAAAAATTATTTCCATAAGAGTATTAAATTCTAATCTATGATTCACTTAACTTCCTACTTTATAAACACTAGGTAAAG
Celera SNP ID:            hCV1235973
SNP Position Genomic:     39046
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,4)      total(A,4|C,1) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66789):
TTACTTACGTGCCTGTAACAATGTAATTTTAGGCCAGGTGCAGTGGCTCATGCCTACAGTCCTAGCACTTTGGAAGGTTGAGGGAGGATGATCGCTTAAG
Y
TCAGTTGTTCAAGGCTATGTACTAAAAATAAAACTAGCCAGGCATGGTGGTACACGCCTGTAGTCCCAGCTACTTGGAGGGCTGAGGCAAGAGGATCGTG
Celera SNP ID:            hCV26300149
SNP Position Genomic:     36264
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66790):
TGTGCATAATTGAAAACTTAGGAACTGTTTACTTCTGGAATTTTCCATTTAATATTTTCAGACTGCAGTTGACTGTGGGTAACTGAAACCTCAGAAAGCA
W
AACCGTAGATGGGGTTACCACTGTAGAGTTACTGTGTTACCTTGATCCAAAACCTTTACCTGAATGATTCCTTTAACCATTCCCGGTAGGCTTTCTCTGT
Celera SNP ID:            hCV11613726
SNP Position Genomic:     11264
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,11)   total(A,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66791):
GACAGGATCCGGTCAGCAGCCCCTGTGGCTAGAGGAACACCAGCACAAACGACAGCCTCAAGTCTCCTTCGAGCTTTGTAAAGTATACTCTTCACTCTCT
Y
TCTCTTCTCTGCAAGAATTCTGATTACTACAAAGGTGCCAACTTCAACATTCACATTTCAACTTCAACATTCACATTTTTACTGACAATTAGAATTAACA
Celera SNP ID:            hCV15966043
SNP Position Genomic:     34890
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66792):
TGTTGCCTACTTGCCCTTTGCAAAGAGAACATGGGGAAGCAGGCCAGCTCTGCACTGTAATGTATTATAGCTGATAAATGCAAACTTGATCAAAACAACT
R
GCTCCTTACCTTGATTCCGATGACAGCACTAGGCTAGAAACTTAACCCTTATATTATACTTTGACTCTAACTAATGTTGAATTGATTTTATGGTTACAGA
Celera SNP ID:            hCV25922123
SNP Position Genomic:     21674
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66793):
GCACTTGCAGTTACATTCACCACATTTGTAACGGAGCCATTGAAGCATATTGGAAAAGGAACTGGGGAATTTATTAAAGCACTCATGAAGGAAATTCCAG
Y
GCTGCTTCATCTTCCAGTGCTGATAATTATGGCATTAGCCATCCTGGTTAGTATTAATATATTAGCACTGTCGGGCCAGGCGCGGTGGCTCACGCCTGTA
Celera SNP ID:            hCV25921798
SNP Position Genomic:     29810
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,35|T,1)   total(C,73|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66794):
TGCTAAAGTTTAATTTATCAGTTAGGCACAGTAAGAGATTAACAGCAATAACTAATAAAATAGAAAAATTATAACAATACACAATAATAACAGTTATGTA
S
TGTGGCTGGAATTTTTTCACTTGAGGTGCGACAGCAAAACTAGCATGAATTTCTTTCTCCTCCTGTACAATTTCATGGATACAAGTTTTGTTCTTAACAT
Celera SNP ID:            hCV8848500
SNP Position Genomic:     9980
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66795):
AAGCATACGAAATAAGTTGCAGCCTCCCGACTTATACCCTGGTACTTCTAGTCTAAAACAGGATTTGACTCTACTAATCCAGGTTAGTCTTGCCTTTCCC
R
TTACTCATGTGCTTTCGTTGAAACCAAAGACTTTTTCTTTTGTGCCCATTTCTACTCACTGCCTGGCCGTCTGCACGACGATCTGTGTTTCCTGGTAGTT
Celera SNP ID:            hCV8848504
SNP Position Genomic:     7201
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Gene Number:                 428
Celera Gene:                 hCG40094 - 146000220060979
Gene Symbol:                 NY-REN-58
Protein Name:                NY-REN-58 antigen
Celera Genomic Axis:         GA_x5YUV32W46Y(41991145..42154853)
Chromosome:                  Chr12
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12588):
TTTCTTGTACTTTTTTTTTTTTTTTTTTAGACAGAGTTTTGCTCTTGCTGCCCAAGCTGTAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCCACCT
CCCGAGTTCAAGCGATTCTTTTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCACGCCCAGCTAATTTTCTGTAATTTTGGTAGAGAC
AGGGTTTCTCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
CGCACCCCACACCTGGCCTCTCTTACCTTTTTTATATATTCCATAGGGTTTTGTATGCACACAATCATATTGTCTGTGAATATAATTTTACAATAGTCTC
CCCTTACCTGCAGTTTCGGTTTCTGTGGTTTCAGTTACCTGTGGTCAACCTTGGTCCAAAAATACTAAATGGAAAATTCTAGAAATAATTCATGTTTTAA
ATTGCGGGCTGTCCTGAGTAGCATGATGAAATCTCATGCTACTCTGTTCCATCGTGCCTGGAATCATCTCTTTGTCTAGTATATCCATGCTGTATATGCT
ACCCACCTGTTAGTCACTTAGTAGCCAACTTGGTTATAAGATCATCATTATTATGATGCTGGTGTTCAAGGTCCATAGTAGCCTAAAACTATGTCACAAT
GCCTACCTCATTCACTTTACTTCCTCTTGTCATGTAGGTATTTTATCACCTCACATTATTGCAAGAATAGTACAGTATCTTGGGAGACCAGTCACATACC
TTTTATTACAGCATATTGTTATAACTGTTCTATTTCATTATTGTTGTTAGTCTCTTACTGGGCCTAATTTATAAATTAAACTTTATCATAGGTATGTATA
CATAGAAAAAAAATAGAGTGTATATAGGGTTTGGCACAATCCATTGTTTCAGGTTTCCACTGGGGGTCTTGGAATGTATCCCCAGCAGATAAGGGGGAAC
AACTGTACTTATTCCTTCCCATTTTAAAAATTGAGATTTGATTCACATGCCATAAAATTCACTTTTAAGGCATATAATTTGGTGATTTTTAGCATATTCA
GAAAGTTGTACAACCATCACCACTATTTTACTTCAGGATATCTTCATCATTCCAAATATAAACTCCATACTTACTAGCAGTCAATCTCCACTGTCCCAGT
CCCCAGCCCCTATTAATCTATTTTCTTTCCCTATGGATTTGCCCATTATTGACATTTCATATAAATGGAATTATATAAAATGTGGCTTTCACTTAGCATA
TAATGTGTTTAAGGTTCATCAATTTGTAGCATGAATCAGTAGTTCATTCCTTTTAATGGCTGAATAGTATTCCATTGTATGGATACACCATAGTCTGTTC
ATTCATTCACCAGTTGATGGGCATTTGTGTTGTTTCTACTTTTGGTCATTATGAATAATGTTGCTATGAACGTTTGTGCACAAGTTTTTGAGTGAATGTA
TTTTCCAATTTACATAGGTATATATCTAAGAGTGAAATTGCTGGGTCATATGGTAAACTTATGTTTAACCTCTTGAGGAACTGCCAAACTATTCCCAAAG
TAGTGGCAACATTTTTAATTCCCATCACCAGAGTATGAGGGTTCCAATTTCTCCATGTCCTAACACTTGTTCTTGTCCATTCGTTAAAAAAATTACAGCC
ATCCTAGTGAAGTGGTATCACCTGGTTTTGATGTGTATTTCCCTAATGACTAATTACATTGAGCATCTTTTCATGTGCTTATGGCCATTTGTATATCTTC
TTTGATGTTTATTGAAATCCTTTGTCCATTTTTAAATTGGATTTTTATTGTTGAATTATGAGTTCTTTATATTCTGAACAGTGCACCCTTACCAGATATA
TGATTTTCAGAATATTTTCTCCCATTCTGTGGGTTGTCTGTTCACTTTCTTGATACTGTTCTTTGAAGCATTTTTTTTTTTTTTTGAGATGGAGTCTTGC
TCTGTCACCCAGGCTGGAGGACAGTGGCACAATCTTGGCTCACTGCAACTTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCT
GGGATCACAGGTGCACGCCATTATACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTGACCAGGCTGGTCTTGAACTCCTGACTT
CAGGTGATCCACCTGCCTTGACCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATGGCGCCCAGCCTGAAGCATAAAGGTTTTGATTTTGATGTTTTAA
TTTTAATGCATTCATTTTTCCCTTGGTTGTGCTTTTTGTCACATCAAAGAAGCCACTGCCTAATTCAAGGTGATAAGGATTTAGTTATATTTTTTTCTAA
GAGTTTTATAATTTTAGCTCTTGTGTTCGGATCTTTGGTTCATCTTAATAGTCATAAATGGTGTGAGGTAGAGTTCCAATTTAATTTTTTTCCTCATGTG
GCTATCCAGTTTTACCAGTTCCATTTGTTGAAAAGACTACTCTTTCTCCAATTGAGTTGTATTGGTGTTTTGCTGAAAGTCATCTGACCATAAATATAAG
GCTTTATTTCTGGACTCAATTATATTCCATTGATCTGTACTCCTATCTTTATAAGAGTATAGTACTATCTTGATTACTGTAGCTTCATAGCAAGTTCTGA
AATCAGGATATCTGAGTCTTCCCAGTCTTTACGCTTTTTCTTATTGCTTTTTTGCATTGATTAGGGCCTCCAATTTCCTAAATAGAAGCGGTGAGAGCAG
AAAATTCTTGTCTTACATTTGTTATTCCTGATCTTAGGAGAAAATGATTTAATATTTCACCATTAACTTTTTCAAATCATTGAGGAAATTCCCTTCTATT
CCTAGGCTGCTTAGAGTTGGTTTTTTTTTTTTTTTCTAAAACATTAATGGGCTTTGAATTTTGTCAAATCCTTTTTCTGCATTTATTGAAACAATTTTTT
TTCTCTTTTGTTCTGTTAATGTGATGAATTACACTGATTTTTCAATGTTAAGTTCACTCTCCTTGGTCATGGTATGTAATCCTCTATATTGCAAGTTCAA
TCTGCTAATACTTAAGAATTTATATATATATATATATTCATGAGGACTATCAGTCTATAATTTTCTTGCAAAATGTCAAATTTTGGTATCAGGAAAAATA
ATTTGGCATGATTATGCTTGCCTCATAAAATGAGTATAGAAGTATTTCTCCCTGCTCTGTTTCCTGAAATGGTGTAGGATTGGTACTTTGTCCCCCTTAA
ATGTCTGATAAAATTCACTGGTGCAGTCATCTGCCCGGAGTTTTCTTTGTGGCAAGTGTTTTGCTTATAAATTCAATTTTTTTAACAGACACTGAAACAT
TTAGATTTTCTTTTCCTTCTTTTGTGTCATTTTTGGTAATTTATTTATTTATTTTTTTAGGAATTTGTCCATTTTGCTTAAGTTACTGAATTTATTGGCA
TAAAGTTGTTCCAAGTATCCCTTTAATATCTATGTGATTTCATTAGCATTTTGGCTAATGAAAATTAAAACTTCTGTATACAAATGTAGATGACAAATAA
TAAATCAAAAGAAATGTGTAACATATAGCAGAAAAAGTATGTATGTGCATGTGTATATGTATGGCAGGAGCAAACAATCTACTGGCACAGAGGGAATTAC
AGTACAGTGTGACAAATACCATGACAGGCACACAGAGAACACATAGAATGGATACCCAGTCCAATTTGGGGAGTCAAAACTATGATGTCCAGGTGGTAGG
TTAGCTTGTCCAACTATAGGTAAATGAATATAATCAAATTTATAGACACAAAAAAGCTGAGACTCAGATCCCCAGACATAGTTACTTCATCATGGTTACC
TACTTGTGAAGGTCAAGAGTCAACTGGCTCCCTTTTCACTGGCACAGCTTTAATTAAAACATAAAACACAACTTTGTTTTTGTAAAATAATAAATTACAA
AAAACACCAACCAGATAAAAAGTCCAAAAGACAAAATGTAAAACACTTGTATTTTGACTGACCTTCTTCCAGATATTTTTGTACACTTATATTAACATAT
GTACACACATATATTCACATTAGGACAGCACTGTACTTGCTAAACTACATTCTGCTTTTTTTTTCCTGAGGGGAAACTATATTTTTTGGACATACTTTAA
TGCAAATAAAGAACTTTCCATCAGTTTTTAATGGGTCAAGAGTATTCCATTGCATGTACCAATCATAATTTTCTTAACTAGTGTCCTAGTGATGGACACT
TGTTTCTAGAAGCATTATTTTTAAAAAAGGTGGCAAATAGTATCCTTATGAATCCCTTATTTTCCTTAGGGTATATGCCTCGGAAATGAGACAGCTGTGG
GGCAAAGGCTAATGCATATGTTAAATTTTGGTAAATAGGGTTGTACCAATTTCACCTTCACACCAAAAATGCCTGACAGTAATTGTATCCCACACCCCTA
TCAACAATGATAGACAAAAAACAACTGTTTGGAAGTGGGACAACTTTCCGTTTGTTAATTGAATATTTGTTTTTCTTGGCTTTTTGTATTTTTAATAGAT
GGGATTTCACCATGTTGGCCAGGGTCGTCTCGAACTCCTGACCTCAGGTGATCCACCTGCCTTGGCCTCCCAGCGTGCTGGGATTACAGGCGTGAGCCAC
CGCCATTTCCCGAATGATCTTTTTCCTACTGACCAATAATTTGTCATGTATAGTTTACTGGCTACCACAGAGATTTCTGGAGTTGTCTGGCTCCAGCGTT
TAAAAGTAATGGTTTTGGGCAACTCTGTGAAATGGAGATAACAATTGCACCTACCTTACAGAAATGTTAGAGTTAAATAAGATAACCTGAAAAAGTACTC
CAGTACTTGCCACACAAATGCTCAGCAAATGTGAGCTACTGTTATTATACTAAACACGCACACATACATGAGAATTTCTGGATTCTCTATTCTATCTCCC
ATGTCTCATCTATGTAATCCATCCAGCAACATTCCATTACCAACTCGCTGTCCTTTTTTTCCCTCCTCTTAAGAGACACGGTCCTTTCTAATGGCCCGTT
TTCCCTCATTTCAACAACAACAAAATCACCTCTCAGTTGTCCAATAATAACTACAGCCTGAAAATCATAATCTTGGGGGTAAAAATAAGCTGTACTTCAC
AAAGCAGTGAGAATCAAAGCCCAACCAAGGCACTGAACAAACGCTGGGGATGGGAAGGTGTCTGTTTCTTCCAACACGTATTTTGAAAGGCTGACCGCCT
ACTTTGTTTCAGACTTTGGATGATCATGGAAGTTCTCAAAAGCTAGCAACTCCTCTTCCAACTATTGTTTACAGCCTTAAGACAAGTAGTTCCCCATGTG
ACCCCAGGTGGGCCCTGAACTTGGGATAACCAGGACAGGAGACTTGGAGCAGGAGGTGCGGGGGCGAGGAGGGCTCTCTCCCGGGCGATTGGTCCTAACC
CGAGGTTCCCTCGTGGCAAGCTGAGCCGACTCCCCACTCGTGGGCTGATGCCCGAGGCAGACGCGGCAGGCAGGCGGCTTCGGGAGCGCATATCTGCACC
CATGGGGACGATGGCAGGCTGGCGAAGGGAGAGAGGTGGCGGCAGGACTACCATTTGAGGCTCTCAAATGGTGTGGGGAAGAGGGAAGGAGAGGCGCGAA
AAGGAGGAAAACCCCTGGAGACGCTGTGTCGGGCGGAGGCTAGGGAGACCGGCTTCGCGCTCCAACGACGCGCATCACTCAGACTCCAAGGCAAGTGCCC
GGGGCTAGATTTTCCGTCCCCTGGGGCTCTGGGGATCTCTGAGTCCATCCCAGGGCCCTCCAGGAACGCCTTCGGGAGCGCAGCCCGGCCCCGCCGCTGC
CGCTGTCACCCGTGGCCGCTCCCGCCTCGGTTCGTTTGTCTCCTCCCTCTAACGGCTCCGGCAGCAACCGGCGTCGGTGGCGTGGGTGACGTCGGCGTGG
GGGGTGGGACTTCCTGCTTCGCGTGCCGCTGGGCCAAGGGACAGAGCCCGCTCCTCCAGGCTGGTGGGGCGGTGCGATGAGGCGGCTTCTGGGCCATACG
TCAGCACGTGGGGTGGCGCCGCACCCCTGAGGATCCCGGTCCACGCGGAGGAGTGGGGCTTTTCACCGCCGCCGCCGCCGCCCTCGGACCTCTCCCGGGA
TACTTCACATTTCCCTAGGGACGGGAGCCCGAGGGGTCCGTTCGGCCCTCTTCCTCTCGCTGGGCCGACACCCCGCTGTAGGACCGTAACCCTTAGTCCC
AATGCCTCCGTAAGCGGAGTTGAGTGGGTGCCTGTGGTTGGAGCTGTGGAGGTGTCCCCGGTGGCGAGCGCGGCCAGAACTGCGGTCACTTAAGTTTTCC
GTGTGCGGGTTGCAAGGAGCGTGCGTGCGTCTGGTATGTAACCTCTCTTTCTGGGGACGGTGTCTTGTTTGTATTTTGGAATACTCATTTTGTCCCTCCA
CAAACTGCCCTTGAATCCTTTTTTTATTTTCCTGTTAAAGTAGTGGAAGCTCGTGCTAGAAAAGTAGGCAGAGAGACGCACGTGAAACTCTTCATGGAGC
TTTTGGATGCACTCTGGCTTGGTGGTTGTGTAGCCAGTTTGGTAATTGGCCAGACGTTTAAGTACCTCCAGCTTAATTTACGATGAAAAAGCTATGCTAC
CATTTTCCTTGGCTTTGAAGACAATTTGAATGAACAGTGATGTCGACTGTCATTACTGAGATAAACACCTAAAATATGTTAGCATATGCTGGGTTTAAAT
ACTTTGGTTAATCCTCAGTGTCCAACTTTTGACCATAATCAATGGGCATTTTGCTCTTAAGAATATCCACTGCTAAGTATTTGTAAAGCCTTTAGTTAGC
TGAAATGAGGAAGCTCTTTCAAATCTTACAGATCTCTAGGATAAGGAAAGACTTGTCTGAATTTCGTGTATATGATATATACTTCATAATCTGTTCAGAC
TTTAAGCAGCTCTAAAACAGAGTGGGTTGTTAAAGCAGTGCTTCTGTTACCAAGCAACATGTCTGTAAACAAGTCTGACATTTAACTAAAACACAATTAA
AGGTATCTATCCTACAGTTACCTGGATTTAGAATTTTCCATATTTATGAATTTAGCCTGTAAGTGGTTAGAATTAATACTCACCTTTTGTATTGAGGTTT
GATTTCAAACTCAGTTTGTTCAGAATTGTTAGAATGCTTTATTTATTTATTTATGACTGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTAGCGCGAT
CTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCGTGCCACCATGCCCGGCTA
ATTTTTTTATTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCCGCCCACCTCGGCCTCCCAAAGTGC
TGGGATTACAGGTGTGAGCCACCGCACCAGGCCAGAATGCTTTAAATTATAAGTGTCACACAGGACTCTCCTGAGAGTTGCAAATGGTTTTGAGTTGTCC
TTTGGTTATTTAGGACAGAGTATGCTGGGTATTCCCCTTACTTTGAGTGTTTTCTTTCCAGATCAGATGAAGTGCGCGGACTGTATTTAGAACATTCTCA
AATAATAGTGAAATACAATTTAGAATTCCATGCAGCACTGGGAGAATGAAACACTGATTATTCACAGGTAGTTTTTTTTTTTTTCTTTTTTTGAGACAGA
GTTTCATTCTTGTCGCTCAGGCTGGAGTGCAGTGGTGGGATCTCAGCTCACTGCAACTTCCGCCTCCCAGTTTCAAGTGATTCTCTCCTCTCAGCCTCCC
GAGTAGCTGGGGTTACAGGTGCATGCCACCATGCCCTGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATATTGCCCAGGCTGGTCACGAACT
CCTGACTTCAGGCGATCTGCCCACCTTGACCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCAGCGTGCCTGGCCTATTCACAGGTAGTTTTTAATCCTT
GGTTTACCAGTCACCTCACTGTCTCCTCTTATTGAACCCTTAATGATAAAATTTTTATGGCAAGTTGTTAGTTTTTAGAGCACTTTTTGAATGATCTTTT
CAATCAATAACCTTTCAAGTAAGCAAGTATGTGAGAAAATTTGAGACATGATGAGACTAAATGACTTCTTTGAAATCTATTAATAATGGGAATTGGAACT
TGAAGTTTAATGTTCTTTATGTCAGATACCCTTATGTATTGCTAAAATCCATGGACTTAATTTTAGTTCTCTCCTCCTTTTTTCTATATGCTGATGTTGA
AGTAATGAAATATTCAAAAGTTGGGCAAGATGGAGGAGACAAATCAAGAATGACTCGTATAATCCTTAGTAATCAGAAATCAGCATTATGTCATGGGATG
TTCTAATTCAAGAAGCTTAGAGTGAAATCTTAACAGAAAGATTAGTGAATTTTAGTGAATTGTCAGAATTTCCCCACCCCCAGGTACTGTCTCTTTGCCT
AAAAGTAGATGAGCTTGCTTTTAATTTTGTCATACATATTAGGTTCCATAAGTAAATTGCCCACATTGTTTAACCTATGTGCTTTTAGGGAATGTGTGTA
AATCTGTGTAAAAAACTTCCTTTTAACCCAAGTTCATGTTTCTTGACTTAAGGTGAATTATTTGAAATCCTCTCACCTTGCCTTTTCAAGTGTATGTTCT
TTATGGAAAAGGTGTCTCTGCCCAGATTGGTTTCTTCACTATCCCCTAAACCTGCTCTGTACTTTATCCTTTCCATATTAGTCTGCATATCTTTCTATCC
CCCGTGACCTGATCTTATTCCCTTCTTTCTTAAAATCTAAATTGTACCTTTTCTATAAGGTTCAACTCCACCATGACCTCATACATACATACATAGGAAT
AGTATGTATTTGTGAGTTAAATTTATTTGATACTTATACTTTTTATTGTATTATTTTAGCTTTCTTGACTTCCTAACTAGATTGTAAGCTTATTAAGGGC
AGGACTTCAGATCTCGATGAGCTGTATCCTTAGTCTTTTCCAAATACAAGTTGCTGAATAAATGTTTCTTAAAGATGACTGATATGATTAGGCTTTGTGT
CCCCACCCAAATCTCACCTTGAATTATAATCCCCATAATCCCCATGTGTCAGGGAAGAGACCAGGTGGAGGGAATTGGATCATGGCGGCGGTTTCCCCCA
TACTGTTCCTCGTGACAGTGAGTTCTCATGAGATCTGGTGGTTTTATAAGTGTTTGGTAGTTCCTCCTGCATTCATTCTCCTTCCTGCTACCTTGTGAAG
AAGGTGCCTTGCTTCCCCTTCACCTTCTGCCATGATTGTAAGTTTTCTGACGCCTCTCCAGCCATGTGGAACTGTGAATCAATTAAACCTCTTTCCTTTA
TAAATTACCCAATCTCAGGCAGTTCTTTATAGCAATATGAAAATGGACTAATACAATGACAGATAGGCATTTCTACTTTCCCCCACTTTTGTAAGTATCA
TGAAAGTAAGGTTGTTGAGAGAAGAGAGTAAGTGAAGGGGAAATGGCAACAGTAAACTATAAAAAAGATTGAAGAGTGGGAATTCACGGAATCAGAAATA
AAGATTCTGTTCCTAGAAAGTGAGTATTTGAGAATTTCCCATGGCAATACCAGCAGTAAGGACTCTCAGGAATGCTGGCACTATTCTTCAGTGGGCTTGG
GGAGTTTGGTCAATTTCCTGGTTCCTAGTAGAATATCAGTTTATTAATTATATTTTTTTCATCAGGACTGCCCTCTCTAGGTCATGGAGAGATCACTGAC
TGTCAAGTCTAGTACTATTTCTTTTTTCTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTGTCGCCCAGGCTGGAGCGTAGTGGTGCAATCTTTGTTCAC
TGCAACCTTGAACTCGTGGGTTCACGTGATTCTCCTGCCTCAGCCTCCCAAGTGGCTGGGGCTAACAGGTGCATGCCACCACACCTGGCTTTTTTTTTGT
ATTTTGAATAGAGACAGGGTTTCACCACATTGGCCAGGCTGGTCTCGGAACTCCTGGCCTCAAGTGATTCACCCACCTTGGCCTCCCAAAGTGCTGGGAT
TGTAGGTGTGAGCCAATGCGCCCGGCCTACTATTTCTTTTAACTGAGCTATAATCCAGGATGGAAGAAATTAAGGAAATGCCCAGTTATTTGCCTTCTGT
ATATTGTGACTTCAGATTGCTTTTGGATTAAAATTCAGAGTTAGTAGGAACCTAAACCTGGCCATTCCCTTTTGGAAAGCACCTATCTTCTGTCTCAAAA
TATGTCTATAAAATGTCCATGTAGTTTTTACAGTCTCACCAAAAATCCTGTATCTAATGCTTATAACAAAGAGTTACTTCAGTTGAAGATATAGAAAGTG
AAGTTGAGTCTCAGAATGCTTTCATAAATATTCGTTTGATTCAGTTACTTCTTGAGTGAATTTGCCATTCTAGCTTCTGAGTTGTTGCCCAGTAACACAA
TTGCAGTATAATATAGCAACCCTTGAAAACAGTAGCATTGGACTATAGGGATTTTCCTGATGAAGTTGCATTGCCTATCTCTGATGTTCATATTCAGCCT
CTCTCAAGTGTGATTGCATTTTGTTTTAAGGCAGCTATTTCAGATATTGTTAAACTTAAGGGGCATGCAATATATGCTCTTAAGGATATTTTTTAGAGTA
CTGATGAATTATAACTTCTTTCACATTGTTTTCCACATAGAGATGCATGATAATGTGTCCGGAATTGGTTCATTCTGGTGGGTTCTTGGTCTCGCTGACT
TCAAGAATGAAGCTGCGGACCCTCGTGGTGAATGTTGCAGTTCTTAAAGATGGTGTGTCCGGAGTTTGTTCCTTCAGATGTTCAGATGTGTCCGGAGTTT
CTTCCTTCTGGTGGGTTCATGGTCTTGCTGACTTCAGGAGTGAGGCTGCAGACTTTTGCAGTGAGTGCTACAGCTCTTAAAGGTGGCGCGTCCGGAGTTG
TTCATTCCTCCCGGTGGGTTCGTGGTATTGCTGGCTTCAGGAGTGAAGCTGCAGACTTTCGCAGTGAGTGTTACAGCTCTTAAAGGTGGCGCGTCCGGCA
TTGTTCATTCCTCCCGGTGGGTTCGTGGTCTCGCTGGCTTCAGGAGTGAAGCTGCGGACCTTCGTGGTGAGTGTTACAGCTCATAAAGGCAGTGTGGACC
CAAAGAGTGAGCAGCAGCAAGATTTATTGCGAAGAGCAAAAGAACAGAGCTTCCACGGCATGGAAGGGGACCCGTGTGGGTTGCTGCTGCTGGCTCAGGT
GCCTAGCTCTTCTTCCCTTATTTGGCCCCACCCACATCCTGCTAATTGGTCCATTTTACAGAGAGCTGATTGGTCCATTTTACAGAGTGCTGATTGGTCC
GTTTTTACAGAGTGCTGATTGGTGCGTTTACAAACCTTTAGTTAGACACAGAGCGCTGATTGGTGCATTTGCAATCCTTTAGCTAGACAGAAAAGTTCTC
CAAGTCCACACCGGACCCAGAATCCCAGCTGGCTTCATGTCTCAATAAGTATGTATTGAATTATTTTTTGTGTGAAGGACACGTGAAAATACTGGTTCAA
TTAAAGATTATTCTGGGCAGAAAAAGTATTATGTAATAACAGACTTCTCTACAACTGATATAGCCAGCCAGAGCTGGAGTGGATGAAGTTGAAATGGTTC
TTTATAACATTTTTGTATTACTTCTAGAGCTTCATAGAAAGCTGAGATCACTAAGCACAATTTAATAGGTACTCTAATTTTTTTTTTTTTTTTTGAGACA
TAGTCTTACTCTGTCAGCAGGCTAGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCC
AAGTAGCTGGGACTACAGGCACATGCAACCATGCCCAGCTAATTTTTTGATTTTTAAGAGAGACGGAATTTCACTATGTTAGCCAGGATGGTCTTGATCT
CCTGACCTTATGACCCACCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCCGGCCTAGGCACTGTAATTTTGTGGGAAGAGA
ATTGTGATTCAGGAGACCAAGGCTTGACTGGGTGAGTCACTTCACCTTTCATGGCCTATTTTCTCATTTGAAAACATAAATCTCTGAAAGTTTCCTTCAG
AAATGGTATGCTTCCAATTTAAAGCAAATTTTATTTCTCTTATATATGGGTTTAATCAATATTTGAGTGCCTATTATGTGTCTCATGCTATGCTAGGCAC
TGGGGAGATTGTGAATAAGACATAGTGCTAAGTCTCAAGCACCTTATTCTCTGATGGGAGAAATGGACAAAGTAATTAGTAATTTGTAATAAAGCATGTT
AAATGCTATAAGGATAGATAAGAATGTGTTTTGGGGCATGTAGGAAGAATACCTGGCCTAGAACTAGAAAGAATACACAAAAATTGAGGAATGTCTCTTT
AGAATCTTGTAAGTGTAGTTGTAGGGTGTACAGAGCAGTATTCAACTTGGCCCGGAGGAAGTTAGTCAAAGAAAACTAGGAAAACAATTCTTGAAGTTGG
AGAGAGAGAAGAGTCATCAACGTTAGTGGTAGTTGAAATACCAGGTATAGATGAGGTTCCTAGTGAGAGTTGTGTAGAATCAGAAGAGAGCTTGTGAACA
CCAGCATGTAATAGGAAGGGGGAGAAAGAAGGTAGGAAAACCAGAGTAGGGTAACGTTTTGGAAACCAAAGAAAGAATGCACATCACATTTAGTTTATTG
ATTAAATGGAAATTGTTGCTCAAGAAACATTGAGTGTGTAGTCCTATAAATGTAAACCTATCTAAATAAAGATGCCCTCTACAAAGATCTGAACTTGCAA
ATGGGGGTAGTTTAAGTCCTTGTTTAGCAGCGTAACAGAGGAAAGAGTATGTACTTTGGAGCCTGGATCCTGAGAGTGAAGGTTAGATTACTAGCTGCGT
AACTTTTTGAACCAGTTACTTAATTTTTTGGTCCTTAATGTATGGATTAAAATAAGGTAAGCTGTAAACTTGACTTTTAGTGGGCATTGTTGATTTTTAT
CCTTGCCATTATTAATGACTCTTCTGAACTACATACCCTTCTTTTCCTTCCCCATCCCCCGTCATATTCTTTCATCCTTCAAGATCCACCAAAATTCCTG
CCTTTTCTTTGATATCTTCCTCTATGGATGATATTACAAATTTTCTGTAATGGAATGAACATGTCCTGTGTCCCTTAGAATTAGCAACGTTATTCTTTTT
TCTTTTTCTTTTTTAAAGCCTTAAGAAGGAAATTGTATTATCTCACATGTAAGAAGTCTGGAGATAGGTGGTTCTAAGATTGTCAATTAAGTGGCTTAGT
GATAATCTTTAAGAACCTGGATTCTTTTTGCTTGGTCATCCTTTGAACTCAGCCTTGATTACTACAACTATCAACAAATTTTCCAAAGTTTGGAAGAGAT
AACTTCTTTCTTCTACCTAGCCCTTTTTAAACAGCTTTATTGAGATATATTTTACCTACCATAAAAACCACTCATTGTAAGTGTACAATTTAATGGTTTT
TAGCAACTTTATAGAGTTGTGCGACTGTCATCACAAGGCAATTTCTGACATTTTATCAGTCTCCTAGATTCTCTCAAGCTTATTTGCATTTAAGGTAACT
CCTTCCCACAGCCCCAGAGAACCACTGATCTACTTTCTATCACTATAAATTTGTCTTTTCTACATATTTCATATAAATGGAATCAATACAGTAGTCTTTT
GCATCTGGCTTCTTTAACTTCATGCTTTTGAGGTTTATTTAATGTATGTATATCAATGTTTTGTTCTTTTTAATTGTTGCATAGTATTCGTGTGTATTTT
CCATTCACCAGTTGAATAGTATTGGTGAATAGTATTTCCCATTTACTGGTAACCAGTGAATAGTATTTCCCATTCACTAGGTGATAGACATTGGATGGTT
TCCAGTTTTTGGCTGTTATGAATAATGCTGCTATGAAGATTTGTCTGTAATTCCTTGTGTGAGCATATGTATTCATTTGTTTTGGGTAAATTCCTAGGAG
TGGAATTGTTGAATTATATGGTAAGCTTATTTTTAACTTTTAAAGAAACTGTCAAAATGTTTTCCAAAGTAGCTGTACCAATTACATCCTACCAGCAATG
TATGATGATTCCAGTTTCTCCACATCCTCACCAACAGTTGGTATTATCTTTTTAATTATAGCCATTCTAGTTAGTATCTAGTAGTATCCCATTGTAATTT
TAATTTGCATTTCCCTGCACAGTAATGTTGGACACCTTTTTCTGTGGTTATTGGCCATTTGGTGGAATATCTGTTTAAGGCATTTGCCCATTTTTTAGCT
GGGTTTTTTTTTTTTTTTTTTTGGTCTTACTGAGTTGTAAGAGTTCTTTATATATGCTGGATGAAAGTTTGTATTGTTTTTAATATCAGAGATAAGATTT
GCAAATATTTCTCCCAGTTGGTGTCTTGGCTTTTCATATTTTTACTGTTGTCTTTTGAAGTGCAAAAGTTTTTAATGAAGTCATTTCTTTTGTGTGTGTG
GCACGTACTTTCATGTTATGTATACGAACTTTTTGCCTAATCCAAGGTCCCAAAGATTTTTCTTTGAGCTCCCAAAGGTCTTCTTTGAGCTCTTTCCTTT
AAATATAAGATTCATATTGAATTAACCGTGCATTTGATGTAAGAAGAGGATCTAAGTTCATTTTTTAAAAATGTGAATGCCAAATTATCCAGTACCATTT
GTTAAAAAGACTGTTCTTTTCCCTTCAATTGTATTGGCATCTTTGTAAAATATCAGTTGACTATAATGTAAGAATTTATTCCAAGACTCATGTCTATAAA
CCTATCCTTACTCCAACACTATTCTGTCTTGATTACTGCAGTTTTATAGTAAGTTTCAAAATAAGTAGTGTAACATTTTCTTCTTTTTCAAAATTGGTTC
TATGCTCTTTCCATTTCCATATACAATTTAGGATCAGCTTGTTAATTTCTACAAAAACACATCTGATGTTTGTAGGATTTGCATTGAATCTATCCATCAA
TATGGGAAGAATCACTAACTTAACCATCTTGAGTCTTCCAATCCATGAACATGTAATATCTCTCCATTTACTTAGATCTTTCATTTCTCTTAATAATGTT
TTTTACTTTTCAGTGTACAAATCGTGCACTTATTTGGTTAAATTTATTCCTAAGACTGTTATAATTTTGATGCTCTTGGAAATGGAGTTTTCATGATTTG
ATTTCAAATTGTTCATTGTTAGCACAAAAAAATGCAATCGTCCAGGCTTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGATCCAAGGCAGGTGGATC
ACGAGGTCAGGAGATCGAGACCATCTTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAGTTAGCTGGGAGTGGTGGCGGGCACCTGTA
GTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTAGAAG
ACAGAGCGAGAATCTGTCTAAAAAAAAATGCAACCAATTTTTGCATATTGTTTGTACATAGATGATCATGTCTCAAAACGATACTTTTTCTTTCCAATCT
CAATGTTATTTATTTCTTCATTTTTGCTTTAATTCTTGGGTTAGACCCTCCAGTAAGATGTTGAAGAGAAGTGTTGAATGTGCATTGCATTACTCCCAGT
CTTAGGGGGAAAACATGCAGATTTTTGCCATCAGGTATAATGTTAGCTGTAGATTTTCTATAGATGCCCTTTGAAGAAGGTTAAGGAAGCTCCCTTATGT
TCCTAGTTTGTTGCAAGTTTTTAATCATGAGTGGGTGTTAGATTTTGTCATGTTTTTTCCTGCATCTGATGATATGGTTATATGATTTTTATTGTTAGTA
TGCTATATATTAATTGATTGTTGGAGATTAAACCCACCCTGTATTCCTGGGACAGATCACACTTGGTCATGCTGTAAAATCTTTTTTTTTTTTTTTTTTT
TTTTTTTTTTATTGTTTGAGACAGACTCTTGCTCTGTGACCCAGGCTGAAGTGCAGTGGTGTGATTTTGGCTCACTGCAGCCTCAAACTCCTGGGCTCAT
GCGATTCTCCGGCTTCCGCCTCCCAAGTGGCTGGGGCTACAGGCTCATGCCACCACACCTGGCTATTTTTCTTTTTTTTTTTTTTTCGGTATTTTTTGTA
GAGACAGGGTTTTGCCATGTTGCCTGGGCTGTTCTTGAACTCCTTGGCTCAAGCGATTTACCTGCGTGGCCTCCCAAAGTGCTGGGACTACAGGCTTAAG
CCACCATGCCCAGTCCGTGCTGTATAATCTCTGTTATATGTTGTTGAATATGGTTTGTCTGATTATTATTAAGGAATTTTGGGTATATGTTCCTGAGGGA
TATTAGTCTGTTGGTTGCTCGTGATCTTGCTCTTACTGCTTTAAATGTTTGATAGCATTCATTAGTGCAGTTGTGGGGGCCTGGCCATTTCTTTGTGGGA
ATATTTAAAATTATTGGTTCAGTTTCTTCACTTCTTGTTATAGGTCTATTCAGATTTTCTCTTTCTTCTAGAGTTTTGGTAATTTGTATGTTCTAGGAAG
TGTAGTCCATTTCATATAAATTATCTAATTTGTTGATACGAAGTTTGTATTAAGAAATCCTTTAATAATTTAAGGTTGGCAATAATTTTCCCTCTTTCAT
TCTTGATTTTGGTAATTTGTATCTCTTATTTTCTTGGTCAGTATAGTGAAGTTTTTTTTTTTTTTTCGATTTTGTTGATCTTTCCAAAGAACCAACCTTT
TATTTCACTGATTATTTTTCATATCTATATTTTCTATTTCACTGATTTCCACACTACAAAATTATTATTTTTCTGCTTGTTTTGGGTTTAATATCCCCTC
TGCTCCTTATTTTTCTAGTTTCCTAAGATGGAAGCTTAGATTATTGGTTTGAGACCTTTTTTCTTTTCTCATATAAATGTTTAAAACTATACATTTCCTT
CTAAGCACTGCTTTAGTTGCATTCTGTACATTTTGGTTTGCTGTGTTTTGTTTTCATTCAATTCGAAATATATTTTAAAATTTTTCCTTGCAATTTCTTC
TTTGATCAATGGGTTATTTAGAGGTATGTTTTAAAATTTACCAATAATTGAGGTGTTCCTAGATTTATTTTTGTTCGGATGACTAATTCCATTGTGATCA
GATCACACATTTTTTATGAGTTCAATCTTTTAAATTTTATTGAGACTTGTCTTGTGCCCCAGTATGTGGTGTATCCTGGAAAATTTTCCTTGTGTTTGTA
AAAAGGTTGTATATTCTGCAATCATTGGGTGGTATTTTCTGTCAGTTATGTCAAGTTTATTGATGAGGTTAGTCAAGACTTCTATATCCTTGCAGATTTT
CTGTCTTTTTCTATCAGTCATTGCAGTCTTCAGCTGTTTCTGTTGAATTACCTATTTCTCTTTTTAATTATCTCTTTTTTTGCTTCATGTATTTTGGGGT
TCTTTGGTTAGATGGACAGTTATTGTTATATCTTCCTGATATAGTGACCCTGTTTTCATTATGAAATGGCCTCCTTTGTCTGTAATATTTCTTATCTTAA
AATCTATTTTTCTTGGTACTATAGCCACTCTAGTTTTTTTTGTGGTTACTGTTTCTATGGTGTATTTTTTTAAAAAAATCCTTTTAATTTTAACCTGTTT
ATGTCTTTGAATTGAAGATTTATCTCTTGTTGACAGCCTATAGTTAGGTTTTGTAATCCATTGTAATATAATCCCCCCTTTGAATAGAGTGTTTAGTTCA
TTCACATGTAATGTAATTGTTGATATTATTGGATTTACATCTGCATTTTTCATATTTGTTTTCTATTTGTCTCATTTGTTTTTTGCTTTTTCCTCTTTTC
TTTACCATCTTTCTGTGTTAAATATTCTTTAGTGTATCTTTTTATTTCTGTTGATTTCTTTTGCTATATTGTTAGGGATTACAATATGCCTTTTAACTTA
ATTACAGTCTCCTTCAGAATAATACTAAATTCTGATAAATTATAGAAACTTTCCTCCAGTGTTATCTGTTTTTTCTCTTTTTGGTGCTATTATTATTATA
TATATTACAGCTGTATGTATTACAAACTCAGCGACACAGTACTATAATTATTCCTTTATGTAGTCTTATGTCTTTAAACGAGATGAAGTGAAAATAATTA
TATTTTTAGAGTCTTTAATATTTACTGATGTAATTACAGTTTCCAATGAGCTTCATTCTCCTGTAGAGTATTATTTTTCTTTTTTTTCCAGACAGGTTCT
CCTGTTTTCCAGGCTGGAGTGCAATAGTGCGATCTTGGCTCACTGCAGCCACCGCTTACCCAGTTCAAGCAATCCTCCTGCCTCAGCCTCTCAAGTAGCT
GGAACTACAGGCACGTGCCACCACACCTGGCTATTTTTTGTAGAGATGGGGTTTTGCCATGTTGCCCAGGCTGGTCTCGAACTTCTGGGCTCAAGTGAGC
CACCCACCTTGGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCTAGATTAAACTTTATGGTGTGACTTCCTTTTATCCTGAGGGA
CTTCCATTGTTATTTCTCATAAGGCATGTCTCACAGCAGCGACTTGTCTTCGTCTTTGGTTATCTATCTGAAAATGTCTTTATTTCATCTTCATTTTTGA
AGGGCAGTTTTGCTGAATATAGAATTTTTAGTGGTGAGTTTTTTGTGTTTCTTTAAAAAAATTTGTTTTTTCCATGTCATTTCTGATGAGAAATCAACGT
TAATAATATTGTTGTTGCCCTGTATGTGAAGTCATTTTTCTCTCGCTCCTTTTTAAAGATTTCCTCTTTGTGTTTCAGCATTTGCAGGTTTCTTTGGATT
TGTTGGGCTGTTTAGATGTGTCAATTAATGTTTTTCATTAAATTAGGGAAGTTTTTGGCGATTATTTCTTCAAAACTTCTTTTCTGCCTCTTTCTCTCTT
TACTGACCTTCTAGAACTCCCACTGCATATTTCGTGTACAGTATGTCGTCACTTAACATTATTTTTTATTTTTCTTTTTCTTTGAGGTGGGGTCTTGCTC
TCTTGCCAGGGTGGAGTGCAGTGGCATGATCTCAGCTTAGTGCAGCTTCCACCTCTCAGGTTCAAGCGATTCTCTTGCCTCAGCCTTCCAAGTAGCTGGG
ACTATAGGTGCGCACCACCACACCCGGCTAATTTTTGTAATTTTAGTAGAGATGGGGTTTCACCCTGTTGGCCAGGATGGTCTCGATCTCCTGACCTCAT
GATCTGCCTGCCTTGCCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCGGCCGTCACTTAACATTATTGATAGGTTCTTGGAAACTGACT
TTAAGTGAAATGATGTATCATGAAACCAACTTTACCCTAGACTAATTGATAAAAACAATAGTTAAATTCCTATGGCATATCTCTGGTCAAAAAACATCAT
CAAACTTCTAAATAAAGACCCAAGACACTTCCAACATTAAACGTTGAAATAAATGTGAGCTATAATGTTTAAGAAAGATTAGTAAAAAAAACAAGTAAGA
TAGTTACTTACCTAATTTTTGGTGAACCAGTGAGTGACAATGGTCATAGTGGTGGTGGGTTAACCCAAGAAATAAATGTTTGCAAAGCAAAAAATATAAG
GGACACCTCTTACTATCATGCAGTTCAAAAATAATCACAAATATGGCAGGCTTGATAAGAGTGCTTTTGTACTACATAGTATTGTCATGCATTTACATGA
TTATATACTTTATTTGAAATTTCATTTTACAATAATTTGTATTCATTCATTCATTCATTTTCCAGCCTGCTCTAGGGTTCAGGCTTTCTGGTGGCTAGAG
CCTATCCTGGCACAGAACCAACCCTGGACAGGATGACATTCCATTGCRTGGTGCACTTAAATACACACCCATACTCATTCCTACTGGGACAATTTCAATC
TCCCAGTGAATCTAATGTGCACATCTTTAGGATATGAGAAGAGGAAACTGGAGTACTTGGAAAATACAAACAAATGTTTACTTAATCTTTTTTGGTGAAG
TGTCCATTTGAATGTTTTGCCCATTAAAAAAATTTTGATTGTTTATTTTCCTATCATTTAGTTTTGAGAGTTCTTTATTCTGGATGCAAGTGCTTTATAA
GATTTATGATTTGCAGTTTTTCCCCTGAGTCTGGTATATCTTGTCATTTATGTAACAGTGGATTTTGAAGAGTAGTGGATTTTGAAGTTCTTCATTTTGA
TGAAATCCAGTTTGTCAGTTTTTTCTTTTATGGACTGTGCTTTTGGTGTTATATCTGAGAAGTCTTAACCCAAGATCAAAATGATTTTCTCCTGTATTTT
TTTTTAGGAGGTTTATAGTTTAGGTTTTTAATTCAGGCCTCTGATTTATTTTGATCCTATTTTTGTATATGGCGTGGGGAGCAACTTGAAGTTCTTTKTG
TGTGTGTGTGTGTGTGTATGGAAAAGGCAATTGTTCCAGGACCATTTGTTGAAAAGACTATCCTTTCTTCACTGAATTGACTGCATTTTTGTCAGAAATC
AATTGACTGTTTCTATTTGACTCTATTTCTGGACAGTCTTTTTTGTTTAATGGATTTTTGTGACTGATTTAATACTACATAGTTTTCATTTCTATGGCAC
TTTAATAAGTGAAGTCAGGTAATGCAAGTCTTCTAACTTTGTTCTTTTTCAAAGTTTTTTTTTTGGCTCTTCTGGGTCCCTTGTGTTTCCATATGAATTT
TAGAATCAGCTTGTTAATTTCTATGAAAACTTGGTATTTTGAATGACACTGCATTGAATTTGGGAGAAATTAACATCTTAACAATATTGAATTTTCTGAT
CCACAAATATGGCATTTCTTGCTATTGTAACCTGCTTTTTAAAAACAATTATAAAATAGATATAGAGTCTCACTATGTTGCCCAGGCTGATCTTGAACTC
CTGGGGTGAAGTGAGCCTCCCACCTCGACCTCCCAAAATGCTGAGATTACGGGCATGAGCCACCACACCTGGCCATGACCTGCTTTTTTAATAGTCTCTT
TTTCCATTGTAAACACCACTATTAAGTTAGTACCATGAGGATAAGAACTGATTCTATCCTCCATTCCTACCTGGAATTTAGGATGCACTCAGTAAACATT
TACTGAATGACAAATAAAAGAAGATTCTTGAACATAAATGTTTGTGCATCTCTAATTAGTTTCTCAGGATTAATTCCTAAAATTAGAATTACTAAATGAA
AAGATATATTCATTTTGAAAGCTTTTGCTTAGTAGACTGTCCTCCAGAATTTTTAACTTTTGAGGTAGAAATTTCTTTTCTTTTCTTTTCGGAGTTGGAG
TTTTGTTCTTGTTGCCCAGGCTGGAGTACAATGGCCTGATCTCGGCTCACTGGAACCTCTGCATCCCACGTTCAAGTGATTATCCTCTCTCAGCCTCCTG
AGTACTGGGATTACAGGTGCTTGCCACCATGCCTGGCTAATTTTTGTATCTTTAGTTGAGAAAGGGTTTCACCACGTTGGCCAGGCTGATCTTGAATTTC
TGACCTCAGGTGATCTGCCCACCTCGGTCTCCCAAAGTACTGGAATTACGGGCGTGAGCCACCACGCCCGGCCTGAGGTAGAAATTTCTTGATAACTAAC
TATAACGCATGCATAATTGGTTAGCAAACAGTGTTCTTGGTGACATCCTTCCCCAAGGTTTCTCTGAAATTACATTACAAGCCTATGGGAGAGTAGGATT
CACATCATAGAAATTTTGTGGATCACTTTACTGTCATTAACAGTTTACTGGAATTGGGAACTATGAAGATGAACAAAACAGTAGAAGATTATATGTAGTT
TTTCCTTTGAGGAATTTATAGTTTCTTTGGAAAACGTAGTTTATATAGTTATAAAGCATCTGGAGGGGAAAAGTGCAGACATTATAGAATATAGAATAAA
TTAGGCCGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGCGAGGCCAAGGTGGGTGGATCACTTGAAGTCAGGAGTTCGAGACCAGCCTTGCCAA
CATGGTGAAACCCTATCTCTAAAAATACAAAAAATAGCCGGGCGTGGTGCATGCCTGTAATCCCAGCCACTCGGGAGGCTGAGGCAGGAGAATCACTTGA
ACCCGCGGGACGGAGGTTGCAGTGAGCTGAGATTGCGCCATTGTACTCTAGCCTGGGTGACAGGGTGAGGTTCTGTCTCAAAAAAATATATGTTTATATA
GAATAAATATCCTGGGGCAAGCACAAGGAAGGCAGGAACCTATAAAGCACATGGACAAAAGCTACTCTTTCTGTTCACTTTTAGAGCAACTAAAACTCCG
AAAATAGTTTTGTGATTTTGCAGACTGTAGGGTTTCAGGTTTGACTCTGTGATTTGTGGATTAATAGACAAGGTTTAAGAAGGTATTTTAATTTGGCATA
ACTGTATGAACAAAGTTGTGAAGGCAAAGAGAAATGTGTTTGAGGGTCTGTAAACTTAATTGACTCTAGCAAAGGGGTCCTGGGGGTCTGTAAACTTAAT
TGACTCTAGCAAAGGGGTCCTGTGGGGCAGCAAAATGTTTGAATTTGTATAGGGAGCTGGCTAATACGGGGCTGTGAGTTTAGCTGGGAAATTTAGATTT
GAGTCAGGAAAGMATAAGGATTATCATAGGAGTTATAGTGACGAAGGCAATGTATGAGAAAGATTGTTTTGGTGATATTTGTAGGCTATGTAAGAATGAG
AAAATACTAAAGTCTGGGACACTGTCTAGGAGGCTTCTGTTAAGTGTAAAATATTTAAGATTCGGCACTGGAGTGTGATGGCTCTAGAAATGGGGAAGAA
TGATTAAATTCAACAAACAGATGAAGAAGAATCAGTAGGATTAATTTGTTATAAATAGAGGATAGAGGATGGGTAGTGGTTAGGAAATGAGAGGAGGATA
GTGGTAACTGACTTTTTTAAGGAGACAAGTAGAAAATTTGAACCTAATGAACTGAATTTTTGTTAAGTTGATGTAGCGGATAAAATGTGATAACTTTTCC
TCACCTATTACTAGATTCATGACTGAGACCCCTATAACAAAAGACAGATTATCAAGAGGAAAGCATACACATTTATTTAATGAAACCTTTACTTTATATG
AGTCTTCAGAAGTGAAGACTGAAAGAAACAGGGAAACCTTTCTTTCCGTGTTTTTTCTAAAAAAAAAATCATTATTTCAATAGTTTTGGGGGAACAGGTG
GTGTTTGGTTACATGGATAACTTATTTAGTGGTGATTTCTGAGATTTTCCTGCACCCATCACTTGAGCAGTGTACACTGCACCCGGTGTGTAGTCTTTTA
ACCCTCACCCCCCTCCCTCCTTCCCCCCAGGTCCCCAGAGTCCATTATATCAGTCTTATGCCTTTGCATTCTCATAGCTTAGCTTCCACTTGTGAGAAGA
TACGGTGTTTGGTTTTCCATTCCTGAGTTACTTCAGTTAGAATAATGGCCTCCAATTCCATCTCGGTTGCTGTGAATAATGGCCTCCAATGCCATCTCAG
TTGCTGTGAATGCCATTATTTCATTCCTTTTTATGGCTGAGTAGTATTGCATTATATATATATATACCTACCACATTTTCTTTATCTACTCATTGGTTGA
TGGGCATTTAGTCTGGTTCCATATTTTTGCAGTTGCAAATGTGCTGCTATAAACATGCATGTTCAAGTGTCTTTTTCATATAATGACTTCTTTTCCTCTG
GGTAGATACCCAATAGTGAGATTGCTGGATCAAATGGTAGTTCTACTTTTAGTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCC
AGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGGCTACAG
GTGCCCACCACCACACCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTTACCATGTTAGTCAAGATGGTCTTGATCTCCTGGCCTTGTGATCCA
CCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACAACGCCCAGCCTACTTTTCATTCGTTAAGGAATCTCCACACTGTTTTCTATAGTG
GTTGTACTAGTTTACCTTCCCACCAGCASTGTAAAAGTGTTCCCTTTTCACTACATCCTTGTCACCATCTATTATTTTTTGATTTTTAAATTATGGCCAT
TCTTGCAGGAGTAAGGTGGTAGTGCATTGTGGTTTTGATTTGCATTTCCCTGATAGTGATGTTGAACATTTTTTCATATGTCTGTTGGCCATTTGTATAT
CTTTTGAGAATTGTCTATTCATGTCCTTTCCCTAATTTTTGATGGGAATATTTGGTTTTTTTCTTGCAGATTTGTTTGAGTTCCTCGTARATTCTGGATA
TTAGTCCTTTGTGGGATGCATAGTTTGTGAATATTTTCTCCCACTCTGTGGGTTGCCTGTTCACTCTGCTGATTATTTCTTTTGCTGTGCAGAAGCTTTT
TAGTTTCATTAAGTCCCATCCATTTATTTCATTTTTGTTGCATTTGGTTCTTGGTCGTGAACTCTTTGCCTAAGCCAATGTCTAGAAGAGTTTTTCTGAT
ATTATTTTCTAGAATTTTTATGGTTTCAGGTCTTAGATTTAAGTCTTTAATCCATCTTGAGTTGATTTTTGTGTAAGGTGAGAGTTGAGATTCCACTTTC
ATTCTTTTACATGTGGCTTGTCAATTGTCCCAGCACCATTTGTTGAATAGGTTGTCGTTTCTCTACTTTATGTTTTTGTTTGCTTTGTCAAATATCAGTT
GGCTGTAAGTACTTGGCTTTGTTTCTGGGTTCTCTGTTCTGTTCCATTGATCTATGTGCCTGTTTTTATGCCAGTACCATGCTGTTTTGGTAACTATAGC
CTTGGTATAGTTTGAAGTTGGGTAATGTGATACCTCCAGATCTGTTCTTTGTGCTTAGTATTGCTTTGCAGGCCCTTTTTTGGTTTCATATGAATTTTAG
GATTTTTTTTCTAGATCTGTGAAGAACGATGGTGGTATTTTGATGGGAATTGCATTGAATTTGTAGATTGCTCTTGGCAGTATGGTCATTTTCACAATAT
TGATTCTACCCATCCATGCGCATGGGATATATTTCCATTTGTGTCATCTGTGATTTCTTTCAGCTTTTTTTTTTTGTAGTTTTCCTTGTAGAGGTCTTTT
CGCCTCCTTGGTTAGGTATATTCCTAAGTATTTTATTTTATTTTTTGCAGCTATTGTAAAAGGGGTTGAGTTCTTGATTTGGTTCTCAGCTTGGTGGCTG
TTGGTATACAGCAGAGCTACTCATCTGTGTACATCAATTTTGTATCCTAAAACTTTGCCGAATTCATTTACCAGTTATAGGAGCTTTTTGGATGAGTTTT
TAGGGTTTTCTAGGTATATGATCATATCATCAGCAAACTGCAACACTTTGACTTCATCTTTACCACTTTGGATGCTCTTGATTTCTTTCTCTTGTCTGAT
TGTTCTGGCTAGGACTTCCAGTAGTGTGTTGAATAGAAGTGGTGAAAGTGGACATCCTTGTCTTGTTCTAGTTCTCAGGGGGAATGCTTTAAACTTTTCT
CTGTTCAGTGTAATGTTGGCTGTGGGTTTGTCATAGAGGGCTTTTATTATCTTAAGGTATGTCCCTTCTATGCCGATGTTGCAGACGGTTTTAATCATAA
AGGGATCTGAATTTTGTCATGCTTTTTCTGCGTCTGTTGAGATGATGTGGTTTTTGTTTTTAATTCTGTTTATATGGTGTATTACATTTATTGACTTCCA
TTTGTTAAGCCAACCCTGCATCCCTGGTATAAAACCCACTTGTTCATGGTGTATTTTCTTTTTGACATGCTGTTGGACTTGGTTAGCTAGTATTTTGTTG
AGGATTTTTGCATCTATGTTCATCAGGGATATTGGTGTGTGGTTTTCTTTTTTTGTTATGTCCTTTCCTGGTTTTGCTATTAGGATAATACTGGCTTCAT
AGAATGATTTAGGGAGGATTCCCTCTTTTTCTGTGTTTTGGAATAGCTTCAGTAGGATTCATACCAATTCTTCTTTGAATGTCTGATAGAATTCAGCTGT
GAATCCATCAGGTCCTGGACTTTTTTTTTTTTTGTTGGCATTTTTTTTGTTTATTACTGTTTCAATCTTGCTACTTGTTATTGACCTGTTCAGTTTGTTT
CTATTTCTTCCTAGTTTAATCTAGGAGGGTTGTATCTTTTCAGGAATTTATCCATCTCCTCTAGGTTTTCTAGTTTGTGTGCATAAAGATGTTCATAGTA
GCCATACAAAAGCACAATCTTTTGTATTTCTGTGGTATCACTTTTGATATCTCCTATTTTGTTTCTAATTGAGCTGTTTGGATCTACTCTCTTCTCTTGA
TAATCTCGCTAATGGTCTGTCGATTTTGTCTTTTCAAAGAGCCAGCTTTTTGTCTAATTTATCTTTTGTATTTTGTTGTTGTTCTTGTTGTTGTGTTTCA
ATTTCATTTAGTTCTGATCTTTGTTATTTCTTTTCTTCTGCTGGGTTTTGGTTTGGTCTGTTCTTGTTTCTCTAATTCTGTGAGTTGTGAGGTTAGATAA
TCTATTTGTGCTTTTTCAGAATTTTTGTTGTAGACAGTGATTGCTATGAACTTTCCTCTTAGCACCACTGTTTTTGCTGTATTGCAGAGGGTTGATAGGT
TGTGTCACTGTTATCGTTCAGTTCAAAGAATTTTAAAATTTCCATCTTGATTTCATTGTTGACCCAGAGGTCATTCAGGAGCAGGTTTAAATTTCCATAT
ATTTGTATAGTTTTGAAGCTTCCTTTGGAGTTAATTTCTAGTTTTATTCTGCTGTGATCTTAGAGAATATTTGATATAATTTTGATTTTCTTAAATTTAT
TGAGACTTGTTTTGTGGTCTATCTTGGAGAATGTTCCATGTGTTGATGAAAAGAATATATTCTGCAATTGTTGGGTAGAATGTTCTGTAAATATCTGTTA
AGTCCATTTGTTTTAGGGTATAGTCTGTTGTTTCCTTGTTGACTTTCTGTCTTAATGACTTGTCTAGTGCTGTTAGTGGAGTATTGAAGTCTCTCACTGT
TTTGTTGCCATGTATCTCATTTCTTAGGTCTAGTAGTAATTGTTTTATAAATTTCGGAGCTCCAGTGTTAGGTGCATATGTTTTTGGGATTGTGATATTT
TCCTGTTGGACTAATCCTTTTATCATTATATAATGTCTATCTTTGCCTTTTTAAACTGATGTTGCTTTAAAGTTTGTTTTGTCTGATATAAGAATAGCTG
TTCCTGCTCACGTTTGGTTTCCATTTGCGTGGAATATCTTTTTCCACCCCTTTACCTTATAAGTTTATATGAGTCCTTATGTATTAGGTGAGTCTCTTGA
AGGCAGCAGATACTTGGTAGATTTTTATCCATTCTGCTGTTCTGCATCTTTTTTTTTTTTCTTTTTTTTAATTGGGACAGTCTCACTCAGTCACCCAGGC
TAGAGTGCAATGACATGATCTCGGCTCACTGCAACCTCTGCTCCCTGGGTTCAAGCGATTCTCGTGCCTCTGCCTCCCGAGTAGCTGGGTTTACAGGCAC
CTGCCACCATGCCTGGGTAATTTTTTTGTATTTTTAGTAGAGATGGGCTTTTGCCGTGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGC
CCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCTGGCCTCTGTATCTTTTCAGTGGAACATTTAGGCAATTTACATTCAACATC
AGTATTGAGATGTGAGATACTATTTTATTCATCATACTAGTTGCTGCCTAATTACCTTTTTTTGTTTGCATTGTGTTATTGTTCTGTAGGTCTTGTGAGA
TTTATGCTTTAAGAAAGGTTCTATTTTGATGTTTTGAGATTGTTTCAAGAGTCAGAACTCCTTTTAGCAGTTCTTGTAGTGCTGGCTTGGCAGTGGTGAA
TTCTCTGAGCATTCGTTTGTATGAAAAAGACTCTATTGCTCTTTCATTATAAAATTTAGTTTTGCTAGATATGGAATTATTGGCTGATAATTTTTTGTTT
AAAGAGACTGAAGATAGGACCCAATTCCTTCTAGCTTGTAGGGTTTCTGCTGAGAAATCTGCTGTTAATCTGTTAGGTTTTCCTTTGTAGGTTACCTAAT
GCTTTTGCCTCACAGCTGTTAAGATTCTTTTCTTTGTCTTGACTTTAGATAACCTGATGACTGTGTGCCTAGGTGATCTTTTTGTGATGAATTTCCTGGG
TGTTCTTTGAGCTTCTTGTATTTGTTTGTGTGTGTGTATGTGTTTTAGACCAAGTCTTGCCCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTTGGCT
CATTGCAGCCTCCACCTGCCAGGTTCAGGTGATTGTCCTGCCTCAGCCTCCTAGTAGCTGGGACTACAGGCCCACACCACCATGCCTAGGTAATTTTTTT
TTTTTTTTAGTTTAGTTGGGGTTTCACCATTTTGGCCAGGCTGGTCTCAAACTCCTGACCTTGAGTGATCCTCCTGCCTTGGCCTCCCGAAGTGCTGGAT
TACAGGCATGAGCCACCACGCCTGGCCAAGCTGCTTGTATTTGGATGTCTAGATATCTATCAAAACCGGGGAAGTTTTCCTCAATTATTCCCTCAAATAG
TTTCCTAAACTTTTGGATTTCTCTTCTTCCTTAGGGACAGCAATTATTCTTATGTTGGGTCTTTTAACGTCCCAAGTTTCTTGGAGGCTTTATTCATTTT
CTAAAATAATTTTTTCTTCTCTTTTCTTTTCTTTTTCTTTCCTTCTTTCTTTTTTTTTTTTTTGAGATGGAGTCTCCCCCTGTTGCCCAGGCTGGAGTGC
AATGGCGTGATCTTGGCTCACTGCAACCTCCTCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCACGCCACTGTGC
CTGGCTAATTTTTGTATTTTTAGTGGAGATGGGATTTCACCATGTTAGCCAGGATGGTCTTGATCTCCTGACCTTGTGGTCCACCTGCCTCAGCCTCCTG
AGGTGCTGGGATTATAAGCTGAGCCACTGCTCCCAGCCAAAATTATTTTTTCTTTGTCTTTGTCAGATTGGGTTAATTCGAGAGCCCTGTCTTTGGGCTC
TAAAATTCTTCTACTTGTTCAGTTCTGTTGTTGGAACTTTTCAGTGCATTTTGCATTTCTCTAAGTGTGTATTTAATTTCCAGAAGTTGTGGTTGTCTTT
TTTTTATGATGTATATTTCTCTGGAGACTTTTTCATCCATATCCTGTTTTTTATTTTTTTTTTTATTTGTTCAAGTTGTTTTTCACTTTTCTCTAGTGCC
CCCTTGAGTAGCTTAATAATCAACCTTCCAAATTCTTTATCTGGCAATTCAGAGATTTGTTCTTGTTTTGGATCCATTGCTGGAGAGCTAGTGTGATCTT
TTGGGGGTGTTATCAAACTTCGTTTTGCCATATTACCAGAATTACTTTCCTGGTTCCTTTTTATTTGTATGTTTCAGTGGAAAGATCTAGAACTGAAGGA
CTGCTGTTCAGATTTTTTTTTTTTGTCCCACAGGGTGATTCCTTGATGTGGAGTCACCCCCTTCCCCTAGGGATGGGGCTTCCTAGGAGCCAGACTGAGG
TGATTGTTATTACCGTTCTGGGTCTAGCCACCCAGCAGGGTTACTGGGCTCCAGGCTGGTGCTGGCGAATGTCTGCAAGTTGTCTTGTGATATAATCTGT
CTTCAGGTCTCCCAGCTGTGGATACCAGCACCTGCTGTAGTGGAGGTGGCAGGAGAGTGAATGCTGGTTAGGCTAGCGGTTGAAGTTGTCATGTGGACAG
ACTCAGGACCTCTGATTAGCCAGGGAGTTGCAGGCAGTTGAATTAGCTGCTGTTTTCTCCGTTGGAACAGAGTTGTTCTGTTAGGAGTTGCTGAAATGGC
TTGAGTTGGTTGGCCTCCAGTCAGGAAGTGGCAATTTCAAGAGAGGAGCAGCTGCGGTAGTAGAAGGGGGATATAATCTTGCCCTGCATTGGCAGGATAA
GTACTGGGGTTTCTCAGATGATGGACAGGCCCATAGAGCTCCCGAGAGTTCATGTCTTTTGTCTTTGGAGTTTTTTGGCTGTCTTGTGGCATTTGCAGCA
GTAAACTGCTTTTTTCAAAGGGTCTGTCTCTCTGTTTTTTTGTGGACAGTCATGCAGAAGTATCGTTAGAGGACAAATGGGTATGCTCTAGCAGTAACAA
ACTGGGGGAAACTTAGTAAGTCCTGTTTGTTCAGATTCCTCTTTGTGTCTTCTCTCCTACAGGTATAGGGAGGACACCTCTGGATTGAGGATCTTATGAC
CTACTTTAGAGGAAGGTGAGATAAACCTTCTTGCTTCTGCTTTTTTCTCAAATGCCAAGGTGCCATATTTTGGGTAGTCTGTCTTAAATCCCATCTTTGA
GCTTCTGTTATAGAGAGAACATGTAAGTAGAGGGGGATTCATAAGCAGAGAGAGGTTAGGAACTAGGGTGCAAATTTCAGTGTCATTCAGATAAAGTAAT
AGATGAAGCTTTGAGAGGTGCAGCTTGACTTTTCTTACAAGATGGGAATAAGGGACCAGAGAATAAGGAAGAGTATTTAATAATTTCAGTTCAAGTGAAG
GGACTAGTATAATGCTTTATACAGGTTGAGGATCCCTAATCCCATAATCCAGAATGCTCTGAAATCTGAAACTTTTTGAACACCAACATGACACCGTGTG
GAAAATTTCAAACCTGACCTCATGTGATGGGTTGCAGTCAAAATGCAGGCATACAACACGCAGTTTATTAAGCACCTTCAAGGGAAAAATAAAATTACCT
TCAGGCTATGTGTATGTATAAGGTATATATGGAACATAAATGAATTTTATGTTTAGACTTGCGTCCCATCCCCAAGATACTCATTATGTACATGCAAATA
TTCTAAAATCTGAAAAAATTCAAAATCTGAAATCCTTCTGGTCCCAGGCATTTTACATAAGGGATATTCAACTTGTATTTACAGTTAGTAAAGTGCTTTT
GCCTACCTAATATTGTGACATTTTTAAAAGTTTGATTTTTCAACCTTAACTTTTCAAATGTATTATTATACTTGTACACATTAACTCATTACTATGGTTT
TGAGCTTTCCTATTTTCTAAACCGGTTTTCTTACGTCTCTGCTGTAAAAAATATTTTCTAAGATAATTTGTATAACTTGAAAAGTCTTACCACAAGGTGT
CATTGTAACCTATAAAAAGAATTTCCATGTAAACATTTGCGTTATCATTTGTACAATTTTTACATTTTTTTGTGTATAAACATTTTTTTGTTTCATATCT
CTTATTTTTTAGTTGTATCCTAATAGATTGTGTATCTCTTGTATTAAAGGAAAAAATAAAATAGCTCATGTTCTTGAGTTCTCATATTTTTGCACAAACA
TATGCTTTCCACCCACAAATTCTTTAAGAGTGTGTTGCTATAGAGATGATTTGTTTGAAGGAAAGAATGAGGAGGAGTAGCAGCAGGTGGACATTTAAGG
AACAAAATCCTTATTTTATGTCTTTGTTCCCGACAGAGCCAGCTTTAGAGTTTGCCCCTCTGCTTATGAAATCCCTATGGAAAAAAGGTAGTTATTCTGA
GTGTTTTACAGTGATGGTATTTGCAGTTTACTAAGATTCATTTGCCAAAGGTCAGTGTACAGGATTCCTCATTCTTATGTAGGATTAGTGCTTGAAGTAA
TTGTAATCTTTGAAACAACCTTTCTTTCACTTTAACTGGATTCCATTTTAGTGTTTATTCTTTGCTTTCCTATCTTGGTTTCCTGATAGGCCTTTTAACT
AGTGACATTAAAATACTTTTTGCTGGGGGATGGGTATAGGTATCTAATTATTAACTCCTGCTCTTGCTGCCCCCAAATTAATTTTCTTTTCTTTTCTTTT
TTTTTTTTGAGACAGGGTCTCACCTCGTCACCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAGCCTCGACCCTCCTGGGCTCAAGCGATCTT
CCCACCTCAGCCACCTGAGTAGCTGGGACCATAGGCACATGCTACCACACCGGGCTAATTTTTGTATTTTTCTTAGAAACAGGCTTTCACCATGTTGCCC
AGGCTGTTCTTGAACTCCTGAGCTCAAGGCATCTGCCTGCCTTGACCTCCTAAAGTGCTAGGATTATAGGTATGAGCCACTGCGCCTGGCTTCAAATTAA
TTTTCAAGATTATTGACTACCTGCTGCTACTGTCTTAGTTAAGGCCCTCATTATTACTTTCCTGGACCTTTGATCTCCTTTTCTTTTTCTCTTTCTTCTA
TTCTTCCTCCTCAAATCTATCCTCTGCAAATAAACGACTTATTTTTCTGAAATGTAAATGTGAGTCTACCCYGTAATGTCTTCTATCCATCTAAAAGTTT
AAAATCTTTCACTGGCTCTCCAAGACCATGGAATAAATTCCAGTCTTCTGCATGTGGCCTTCTAGGCCCTACCTTACCTCCCCAGGGTGTTCTCCTCTCC
TCTGCCCTCCACCACTAATGTTCTTCTCCTTAATCTCCATTATTTTGCACTTGATGTTTCTTCCTTGCATCCCTTTGTTAATTTTAGCTGCTGCTTTGTG
AAGTTTTCCCTGGCAGCTTCACTAGCAGAATTAGGGTTCTCTCCCTTGTCCATTCATACTACTGGTAAATATGTTATAATATTTTATAATTTTTTTGAAG
TTCCTCTCTTTTTAAATTGGCACATAGTTTACATATTTATGAGGTACATGTGTATTTGTTACATGCATAGAATGTGTAATGATCAAGTCAGGGTACTTGG
GGTATTCATCACCTTGAGTATTTATCATTTATGTTGGGAACATTTAAAGTCCTCTCTTGTAGCTACTTTGAAATATATATGATTCAAATTAATTATTAAC
TGTACTCTGCTCTGCGACATTAGAACTTGTATTGTCTATCTAACTGGATATCTGTATTCATTAAGCAACCTCCCTTTATCCCACCTTCCCCCACACACAT
ACTTCCTGGCCTTTGATATCATTTTATTCTCTACCTCCATGAGATCAACTTTTTTTAAGCTCCCACATGAGTACATGTGATATTTGTCTTTTTGTGCCTG
GCTTATTTCACTTATTGTAATGATCTCCATCTTTATCCATATTGCTACAAATGACATGATTTCATTCTTTCTCATAGCTGAATAGTATTTCACCATGTAT
ATATACCACATTTAAAAAAAACAGTTCAGGCCAGGGGTGGTGGCTGATGCCTGTAATCCCAGTACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGCCAG
GAGGTTGAGACTGTCCTGGCTAAAACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAAAAAAAAATTAGCTGGGCGTGGTGGTGGGTGCCTGTAGTC
CCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGTGTGAACCTGGGAGGCAGAGCTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGCTACA
GAGCGAGACTCCGTCTCAAAAAAAAAAAAAAGAAAAAGTTAATCCATTAATGGACACTTATGTCGATTCTGTATCTTTGCTATTGTGAATAGTGCTGCAA
TAACCTGAGTCCAGGTATCCCTTTGACATGCTGATATCTTTTCCTTTGAATAAATACCCCATTGTGGGATTACTAGATTGTATACTAGTTCTATTTTTAG
TTTTTTGAGAAATCTTCGTGCTGTTTTTCATAGTAGCTGTACTAATTTACATTCCTACCAGCAGCATATAAGAGTTCCCTTTTTCTCCACATCCTTGCCA
GCATCTGTTGTTATTTTTTTATAGTAGCCATTCTAATTGGGATAAGATGATATGTTGCTGTGGTTTTGATTTGCATTTCCCTGGTAATTAATGATGTTGA
GAATTTTTTCATATACCCATTGGTCGTTTGTATGTATTCTTTTGAGAAATGTTTGTGGCCTTTACCCACTTTTTAATGAGGCTTTTTTTTTTTTACCGTT
AAGTTTTGATTTTCTTGTATATTCTAGGTATTAGTCCCTTGTCAGGTGAATGGTTTGCAAATATTTTCTCCCATTCAGTGGGTTTTTTCTTCACTCTGTT
GATTGTTTCCTTTGCTGTGTTGAAGCTTTTTAGTTTAATATAGTCCCACTTGTCTATTTTTGTTCTTGTTTTCTGTGCTTTTGAAGTGTTAGCCATACTA
TTTTTGCTGAGACCAATGTCCTGAAGTGTTTTCCCTATGTTTTCTTCTAGTAATTTTATAGTCTTGGGTCTTACGTTTGTATCTTTGATCCATCTTGAGT
TGATTTTTGTATATGTGAGAGGTAGGGATCCAATTTAATTTTTCTGCATATGGATATTCAGTTTTCCCAGCACCATTTATTGAAGGGGACATTCTTTCCC
AAATGTATGTCCTTAGTGCCTTTGTCAAAATTAGATGGCTATTTGTGGATTTCTTTCTGGGTGTAATAATGTTTCCTTTGTATATCTGGGTGCTCTTGTG
TTGGGTGCATATATGTTTAGAATTGTTATCCTCTTGCTGAATTGATCCTCTTACTATTATATCATGACCTTTGTCTCTTTTTACTGTTTTTGACTTAAAG
CCTGTTTTAACAGATATATGTATAGCTACTCCTACTCCTGCTCCCTTTTAGTTTCTGTTTGCATAGAATGTCTTTTTCCATCCCTTTACTTTCAGTCTAT
GTGTTGTTATAGGTGAAATGAATTTCGCTGTTTTTGGAATTCTCTTTTTGTCTTTGATTGTTGACAGTTTGACTATAACGTGCTTTGTGGAAGACCTTTC
TGCACTGTATTTGGGAATCTCTGAGCCTCTTGTATCTGGATGTTTAAATCCCTTGCTAGACTTCGGAAGTTTTTATCTGTTATTTCATTAAGTAGGTTTT
CTATGCATTTTATTTTCTCTTTGCCTTATGAGACTCTGAAAATGAGAATATTTAGTTGCCTTGTGGTGCCCATATGTCACAAAGGCTTTGCTCACTGTTT
TTTATTCTTTACCTTTTGTCTGATTGGGTTATTTGAAAGACCTATCTTCAGGTTCTGAGATTCTTTCTTCTGCTTGATCTAGTCTGTTGTTGAAGCTTTC
AAATGTATTTTGTATTTCACTCAGTGAAGTCTTCAGTTCCAGAATTTGATTCTTTTTTTTTAATGATACCTATCTTTTTCATAAATTTCTCATTCATATT
CTAGGAATTGTTTTTCTGATTTCTTTATGTTATTTTTCAGTATTCTCTTGTATCTCACTGAGCTTCTTTAAAATCAATATTTTAAATTCTTTTTCCAGAA
TTTTGTGAATTTATTTTTGATTGGGATTTGTTGCTGGAGAATTATTATGTTCCTTTGGAGGTATGATATTTTCTTGCTGTGATGTTAGTAGCTGGGTGGG
TGAGCCCAATCTCAGGTTCCTGGGAAGAGTCCTTAGTTGCCAATGGTGGCTGAGTTGTGTGATCTCCAGGCCTCTGGATTGTGTGCTCTGGCATGGGGGG
TGGGTGAGGCCAGGTGGGCTTGTCTTTAGACTCCCCAGTGGTGCGTATAGGTGCTGGCTGTGTTAGGAAGGGGTGGGGTGATCCTTAGGCCCCCAGCACA
ATGTTCATGTTGTGAGAGGCAGTGTCTGTGCTGCAGCCCTACTGCTGGGGAGGGCAGAGTTGCTTTCAGTGATACCAGCTATATGCAGGCAAGTATTAGG
AACATGCATTTCACTTGCATTTTAGCCCTGGTGGTGGCAGACCATACTTGGCTTGTGTTTCAGTCCTGGTGGTGCAGCCTGTGTTTCACTCACATTTTAG
TCCTGGTGGTGGCAGCTCATGCTTGGCTTGTGCTTTAGCCTGGGCAGTGGAAGCTCATGCTTTGCTTATTCCTTAGTCCTGGTAGCACAGTGATGGCAGC
TGTGGGTGAGGGACTCTGGGCACATGAAAATGAGTGGTGGCTCCACTGCTGGAAGCAGTGGCTGAGATTGGAGCCAGAGGCGTGCACTTTGGCCCCAGCA
TCAGGAACCAGGCATGGTGGTAGCTGTGGGCTGGGTATGTCAGTGGGACTCCAGGGATGTGAAGAGACAGGTGCTGTTAAGCCCAAGCACAAGGTGCAGT
CTGTTGGGACTGAGTTCTCAAAATGGTGTCTTACTATAGCTGCAGGACTGGGATGGGGAGTGGAGAGGTTGGTGTGCCCCAGCGTGAGCTCCCTCTCTGG
AGCAATGCTGTTGTGCACTCTTCATGCAGTTCCCTTTGTTAGTTTCAGGGCCTGTGAGGGTCCAGGGCCTCTACTGTGGCTAGGATTGCAAGTATCCATG
GTGGGAATGTGGACCCCTGGGCATCTCTCATTTACCCTTTCCCCTGACTGGGAATTCTCTCCAGGCTCTTAGCTAATCTCGGATAAGCAGGCTGCCTCAC
TTCTCTCTCTTTCCTTGATTTAGGTGTTTCCTGTCACCTCTTTGTTGAATTCCTTAATGTTTTACAATTTAAAAACTTCCTGAATTTATGACTTTGTATA
GGTAATATGTGCACATGGTAAAAAAATTTTAAGTCCAGAAAGTTTAAATAGTCCATTTTCTCTCATCCTTATTCAGTCAGCAATTGTTGGTTAACAAGTA
TATTCCACTGACCATCATAAACTCCTTGAGGACAAGGATTTTCTTTTATTTATTTCTGTATTCCTGTATCCAACAAAGTGTCTAGCATATTAAAGGTACT
TAGAAAATATCCATGGAGTACTCTGAATATGGGCAGGCTCTTCTTTCCTCATGAGAAGTGTGCTTGACTTGATGGTCTGTATATTTTTTATATCTCTCAA
AACCCTTTTACTGTAAGTAGACCATTCAGTAAATGTGGTATAGCAGTCACTTAATAAATATTGGTTGTTTAATCAGTTTTTTAAAGTATATGGTTTTAAC
ATTAACCTGTGTGTCTTGAGGATGGCTTTTATTTATCTCCTTTTTCTGGCTGTGAAAAATTTTATACTTGCTTTGTGACAGATTCAAAATAATGAAGAGA
ATGTTTGTGTTAACTGCAGTAAAATATCAGTTAAACTCAGTTTTAAGTATCAATTTCTCTTTAACTTTTCAGATTACGGCATAAATCTCATAGAARTAAA
ATTAAATCAGGATTTATTTAAAAAACAATTTTCAGGATATGCTGTTGCATCAGTAGATAATCTTTATTGTGTATTAGCAGCCATATTATGGGTAGCCTTT
TCTATTTCAGAAGAAAGGTGGGACTGTGAGCAAAGAAGAATATACAACTCACACAGAGGTGCTAAGTGCTCATAAATCTTCTGGAAAGTCCCCATGTTAT
TGTAACAGACCTTACATTAAGAAATGTTAAAATGAATTTGGACAAGAATCATCTTTGCCTTTCAGATCACAACTTTCAGAGACTTTGGTAATTTACACTA
AGCATTTGAGGTTGAGTCATTACTATGTCCTACTTTCTAGATTCTTTTGTGTGAATTAAGCTGTGCAGAGGCAGACAGTACAATCGTAAAAATAGAATAA
CATTTTAATTTAGAGTGCTTGGTGGTTGATTGCTAACCACTTGAATACATATCTTCTTCCTTTTCTCATTCCTTGCTCTCCCTTGTTTCTTTCTAAATCA
CAATTACAGAGCCTGGCACCTTACCAGGGCTTTGAAGGGTCTGCTCCCAGCTGCACTTCAGGTTCTGGCAGGGCGTCAAGTTGTGACTTTTTTTTTGTAC
GCAAGACATCCTGGATGGCTATCCAAAGGCTGTTTGGGTGACTAGTGCAGGATTATCTCTGGATTTTGAAGAAATTCATTTCTAATGTTTTGTTTATAAG
TAAAGTAAATGCCTGGTGTAGGTCCTCCCTAGACTTTTAATGTTGTTTTTTAAAAAACATCATTCACTTTGAGGGCATGTAGTATTTAAAACATTGTTTT
GAAATATTCAAAGGCATAGCATGTGCTTTTAATGGAATGTGTTTTGGAAGCTTTCCATGAGCATCAGCAGCTGTGCTTTTTTGAATATTTTGAATTACCA
TACTTTGGGGCAGACATTGTACTACTCACTGCTTAAAAAATACAGTGCCTATGCAAAATAAAATGTCATATGGAGGTCTGTAAAGCTGGGACTAGTCAAA
AGAAGTGGTAGGAAGGACACGTGGATGTGATTATGTATTTGTAATGGTTGCAAAGAGAAGATGAAGAATTTGGAAAAAGGTTGTACTAGTCTTTTAAAAA
CTGCCTTTCACTGAGACTAGCCCAACAAGTGCTCACTGATTAACAGGCCAATCGAGATAATGTTTCACTTTTTTTCACTTATTGCTGTTTGAACTCTGTA
CTTTACTTTAAAAAATTTTCAATATGAATTTCTGTATTTAGTAAACTGCACAGTAGGAGACGTTTTATTGTGTATTTCAAGCATCTAATGTATGTGTAAG
TGTCTTGCAGATAATTGATAGCTGTGTATTGACTGATTGAAATCAAAGAAGTCTAACCATGGTAGGAATTTAAAATTGTGTTAGAAATTTTGAGTTTGAT
AAACCTTTTTATAAGTAAATATAAATACAAGAGAAAGCCATTGTATTAGTTACTTGTGGCTGCTGTTACAAATTACCATATAATAGGTGTCTCAAAACAA
CAAAAAAATTATTCTTTCAACATTTTAGAGATTAGAAGTCAGAAATCAAGTTGTTGGCCAAGCCACGTTCCCTCTGAAGGCTCTGGGTTAGAATCTTTTC
CTTGCCTTTTCCAGCTTTTTGTGGCTGTAGGTTTTCCTTGGCTTATGGCTACATCTTTCCAGTCTCTGTCTCCGTGGTCACATTGCCTCTTCCTCTTCAG
TCTCAAACTCCCTCTCCTTCTCTCTTAGAAGGATACATGTGATTGTTTTGGATACATAATCCAGCATAAGCCTCTCCTCTTAAGATCCTTAATTTAATCA
CCCCACCCTTTTTTTAAAAGTATATAAGGTAATATTCATAGCATCCAGAGATTAGGAAATGACATATTTTGAGGGCTAGCATTCAGCCCACTATTGTTTG
GAAGACTGTTTCTGAATTTGGAGGAGAAAAGTGAATCGAGGCTAAAGTAGCATTAGAATGGTGAGCACATTATTTGTTCATTTGTTATTTTTGAGCTCTT
AATATGTGCCTGTGGTTTTTTAGGTGTTGGGATTATGAACATGAGTAAGACATGTTTCTTGTCATGGACAAAGTTACATTCCATGTGTTGTATATACTAA
AATGCAAGATAAAACACAGAATAATGAACTATTTGGGAGGGTCTTTACTTCATGGAGGAAGTAATGCATTCCTGAGCTGGGTTTTGAAGGCTGAATAGGA
ATTCACTAGATCAGAATACAAAGAGATGGAAAAAGCCTTCTGAGCAAGGAAATTAGCATTTACAAAGCCATGGCGGTAGAAAACAGCAGTATGTGCTCAG
GAAGCTAAATGGTAATTAGTGCAATGAGACAAATTTTAGATTTGTTTTCATTTCTTTTTTTTTTTTTTGAGACGGAGTTTCGCTCTGTCACCCAGGCTGG
AGTGCAGTGGTGTGATCTTGGCTCACTGCAAGCTCCACCTCCCAGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTG
TCACCACGCCCAGCTAATTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGGTCTCAAGCTCCTGACCTCGTGATCCGCCCAC
CTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACTGGCCTGTTTTCATTTCTTATATACACATTAGCTATTAAAATCTCCCATTTTGCC
AGCTACAGCATAAATATTCTTTGCTGTGATGGTTCTTAAAGCAAAAATCTTTTCATAGATTAAGACGGTCTGTGAACAGCCATTAAATACATGAAAAAGT
GCTTCAGGAAAACGTAAATTAAAATCATAAGGAGATACCACTTTATGCCTCCTAGAAGGGCTACAATTAAAGGGACTCACAACATCACATTATTACCCAC
ACGACAGATGGGTTTGGTTGCTTGGCAGGTATCATCAACTCAGTGCTCACAACCAAAGAGGATTTAGCATGAGGATTTTATTACTTGCAACAAGTAAGGA
GAACATGGGGATAGTTCCTAAAGCAGGGGCCTGAGTCAGGTTTTATAAGTGTAGGATAACAAGGCATGATCTGATTGGATCTTGCAATGAGGTGGTACTG
GAGGCATGATCTGACAGGATCCCTCCATGGGATGATGCCAGAGCTTGATCTGATTGGATCCTGGATCCTGCCATGCAATGTCTGCTTCTTAATTCAGTCC
CCATTTCTTGGTCCAAGCACTTAGGTTCCTCCTGAGATTGCAGTCTTGGCTCATCTGAGCATGCTCAGGTTATGTGAGCTGAGGGTCCATGGCAGCTGAA
AAATAACTCACAATTTATTACATAAAAGTTGAACCAGAGGCAGCCCCCCTTCATCTCTCTCCTCCTGCTCCTTTTCTCCTCCTTTCTCCTCCCCCTCCCT
TTTTTCCTCCCTCCCTCTCCCCCTTTCCCTCGATCCCCTCCTCCCTCCCTCCCCGTCTTTCTTACCCCCTCCCTTTCTCTCTCTCTCTCTCTCTCACTCG
TTCCCTAACATTAAAGAGAAAATGCTGCTATCCGTGACTTCCAGGCCCGGGATTTCTACTTTTGGCTACAATAGAAACAACAAGAAGCCATATGTGTCAT
TGGCTCAGCAGATGGCACCACCTAGCCCAAGCAACAGTACACCTAACAGCAGTAGTGGAAGCAATGGAAATGACCAGCTGAGCAAAACCAACCTATACAT
CCGAGGATTGCAACCAGGCACTACTGACCAAGATCTTGTCAAGCTGTGTCAGCCATATGGCAAGATTGTTTCCACTAAGGCCGTACTGGACAAGACCACA
AACAAATGTAAAGGCTATGGCTTTGTAGATTTTGACAGCCCTTCAGCAGCACAGAAAGCTGTAACAGCACTGAAGGCCAGTGGTGTACAGGCACAGATGG
TAAAGCAACAGGAACAGGACCCCACAAATTTATACATCTCAAACCTCCCACTGTCAATGGATGAGCAGGAACTGGAGGGGATGCTGAAGCCCTTTGGCCA
GGTTATCTCCACCCGTATCCTTCGAGATACCAGTGGGACCAGCAGAGGTGTTGGCTTTGCAAGGATGGAGTCCACAGAGAAGTGTGAAGCCATCATCACC
CACTTTAATGGAAAATATATTAAGACACCCCCTGGAGTACCAGCCCCATCCRATCCCTTGCTTTGCAAATTTGCTGATGGCGGGCCAAAGAAACGACAGA
ACCAAGGAATATTTGTGCAAAATGGACGGGCTTGGCCAAGGAATGGAGACATGGGCATCATGGCCTTGACCTATGACCCCACCACAGCTCTTCAGAATGG
GTTTTACCYAGCCCCTTATAACATCACCCCCAACAGGATGCTTGCTCGGTCTGCACTCTCCCCATACCTTTCCTCTCCTGTGTCTTCGTATCAGAGAGTG
ACTCAGACATCTCCTCTAYAAGTACCTAACCCATCCTGGATGCACCACCATTCATACYTCATGCAGCCTTCAGGTTCAGTTCTGACACCAGGGATGGACC
ATCCCATTTCTCTCCAGCCTGCCTCCATGATGGGACCCCTTACCCAGYAACTGGGCCATCTCTGCCTCAGCAGCACAGGCATGTATATGCTGACGGCTGC
AGCTATGCAAGGAGCTTACATCTCCCAGTACACCCCTGTGCCTTCCTTCCAGTGTTTCAGTCGAGGAGAGCAGCGGCCAACAGAACCAAGTGGCAGTGGA
CACACCCTCAGAGCATGGGGTCTATTCTTTCCAGTTCAACAAGTAACAGTGGGATTCCCCTCCCCATCTTTACTGAGTAGAAATGAATTCTTGGAGATAC
TCATGCTCCCAAATTCCAGAGGGTTAACCAGGAATGGAGACCATCYGTYGGCCCTGCTAAGGACTAACACTTAGCCATCGTTTTTCACAGGCCTGGGCCT
GGAAAAAGAAATCTCTATGTTCCTGCCCTTTACTGTTGCTGATGGAGCCTGGGGGAGCCATCACTTTTTTTGTGTGCTACATTCAAGGAGATCAAAAAAA
CTTTTTTTCTTTTGCAAAAAAAAAAAAAAAAAGTTGAACCAGATTGGTCTGGTGCAGCTACAAGGTATTGGGAAAAATGTGGCGCAAACAGAATTCTCAA
TATGTTGGCTGGACATGGTGGCTCACACCTGTAATCCCAGTACTTTGGGAGGCTGAGATGGGCGGATCACTTGATGTCGGGAATTCAAGACCAGCCTGAC
CAACATGGAGAAACCCCATCTCTACTAAAAATACAAAATCAGCCGGGTGTGCTGGCACATGCCTGTAATCCCAGCTACTTGGGAGGTGGAGGCAGGAGAA
TCACTTGAACCTAGGAGGCAGAGGCTGTGATGAACTGAGATTGCGCCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAGAAAAAAAAAA
AAATTCTCATATGTTTTTGGTTGGAATAGAAAATGGTACAACCACGTTGGAAAAAGATTTGGCAGTTTCTTACACAAAGTTAAATATAAACCTGCTCCAT
GACCCAGCAATTCCACTCTTAAATGTTTACCACCACCCACCCCCAAACTGAAAATGTGTCCACAGAAAGTCTTGTACAAGAATATTCATAGCAGCTATAT
TCATTGTAACCAGAAACAACCAAATGCGCATCAGCAGGAGAATGGATAAACAATATGTGTTATATTTAAATGATGAAATGCTATTTAGCCTTAAAAAGGA
ACAGACTACTGAGATACACAAAAACATAGGTGAATCTCACAGCTATTTGGGTGAAACAAGGCAAATACATGAGAGTACGTACTGTATGATTTCACTTTAA
TATGTTCTGGATCAGGTGGAGCTATGGTGAGAATAACCACAAAAGTGGTTGCCTCTTGTGGGTGGGGTGATGGGGAAGGAGTATGAAGGAACTTTCTGGA
GTGATGGGACTGTTTTATATCTTGATGAAATTGAGGCTTTCTTGAATTCTTCCTTTTGTGAACTCATGAAATTGTGTGCATTCATGTGCTGCATATAACC
ACATACACAACAGTGGTACCATAAGATTATAATGGAGCTAAAAAATTTCTATTGCCTAGTGATTTGTGTTACAGTTGCTGTTGGAAATGGGTATTCAGTG
TCGCGGAAATCAACACTATGATAAAGGATCTCCCAGCAAGGCTAATTTACTTTCTGCAGAAAGGGTGCCACTCACTAGCAGTCTTGCCATGAGAGCACAT
ACAAACAAAGGAGACAGGGTCATTTATAATCTAATGCGTCCATGCTATGGCTKTGTCCAGTTTCCATTGGCTGGAACGGGACTTCACATTCTGTTCTTGT
CCTGATTGGCTAGCAACTTAGAACCTCCCAAAAGAGGTAAAGGTAGGGGAGAACAAAGGAAAGGAGGAAGTAACTTGTGGAATGCTGAGAAAGGCCAAAA
CACCTCCAAATAAGGAAGAGAAACAGGCTATAACCTAATGCTTGCTTGGGCCTATATAGGCATGCCAGGGCAAATATCTAGGCCAAAAGGTGGGGGCTAA
GCACACAAAGCATATTGGTTTCTTTATTATGGCTAGCAGATATTTAAGAATATTACCACAGGTCTTTGAGTAAATTTTGCTTCTAAGAGAGGCTACTATT
TATTCTCAATTAGACTGGAAGGAAAGTCCCTTTGAAGAGGAACCTCTACTTCATTTTGTACAGTTGCCTCCAATATTTAGTACAGTAACATGTTGTACAG
GTTTGTAGCCTACAAGCAATAGGCTATATACCATATATCTTAGGTGTATAATAGGCGATATCATCTAGGTTTGTGTAAGTACCGTACATTCTTTGATGTT
CACACAACAATGAAATTACTTAACAATGAGTTTATCAGAGCATATCCTTGTTAAGTGATGCATGGAGATAATATTTGTGCATTTCATTATRTGTAAATTT
TACTTAAAGGACTATAAACAAGCACATGAATAAAGGAGAAATAGTAGAATAAATTTTTAAAAAATGAATATTACATATCCATGTGGTAGCCTCACAACCA
TGAGGAGAATTAAGCCAACAGGATTTGTTGGAAGAAAAATGAAAAGGACTACAGTCCTTGACATGATGCTGAGCCCAATTTTTGAATTACTCTCCCTTCT
AAGTCCCTTTTTAAAAAATTGTGAATTATAAGGTTGGTTGCAGTGGCTCATTCCTGTAATCCTAACATTTTAGCAGGTCAAGGTGGGAGGATGGCTTGAG
TGTGGGAGTTCAAGCCAAGCCTGGGCAACATAGTGGGACCTTGTCTCTACAAAATAAAAATAAAAATTAAAATAAATAAAAAAAATTTAAAAAGCCAGGC
CTAATGACATGTGCCTGTAGTACCAGCTACTTGGGAGACTGAGGTGACTTGAGCTTGGGAGATTGATGGTGCAGTAAGCTGTGATCATGCCATTGCACTC
CAGCGTGGATGACAGAATGAGAATGTCTCAAAAAAAATTATGAATTATAATATACATATAGAAAAGTACACAACAATGTACAGCTGAGTGATTTACAAAG
CAAGTTACAAAGCAAACCTCCATATATCCACAAAAATCAAGAAGTAGAACGTTACTAGCCTCATCAAGTAATATTTTCCTGACTTTAATGATAATATAGT
TCCTTTCTTTATACATGCTTATACCTAAGCATGTATCCCCTATATACTATAGTGCTTGTATTTAATTTTTAAACTTTATATATTTGTAATAATCTATTTG
TAATAATTTAGTGTATATTCTTTTATGTTTGGCTTCTTCTGGACAATATGTCTGTAATATTCACCCTATATATATAGAGTATCTATAGCAGGGGTGTCCA
GTCTTTCGGCTTCCCTGGGCCACACTGGAAGAAGAATTATCTTGGGCCACACATAAAATACACTAACAGTAACGAAAGCTGATGAACTAAAAAACAAAAC
AAAACAAAAAAAACCATGCAAAACAAACTCTCATAAGGTTTTAAGAAAGTTTATGAATTTGTATTGGGCTGCGTTCAAAGCCATCATAGGCTGTATGTGG
CCCATGGGCTACAGGTTGGACAAACTTGATCTATAGCTTATTTTTATTGCAGTATAGTGCTAGTTCCATTATACCACTATTCGTTTCTTCAACTGTTGAT
GGTCATTGGATTTGTTTCTAGGTTTCAGTTGTTAGGAATAATACTGCTATGAACAGTATCATATAAATCTTTTTGTGGACCTGTGTATACCACATTTCAA
GTGGATATATGCCCAGGAGAGGAATTACTGAGTCATAGTATATGTATTTTTTTTTAACCTTAGTAGATAATGCTAGTTTTTTTCCCAAAGTGAATATGCC
AGTTTACACTACAACCTTTGCTTCCTCTCCTCTCCAGACTTATCGTCAGTCTTTTTGGTTTTCTCATTGAGATTTAAATATTATGAATAATTTTTACAAA
TTAGTAATTGAAAAGACAATTCAATAGAAAAAATTGGGCAAAAGATGCAAATGGATATTTTATAAAAGAAGATATCTAAATGGCCAGTAAACAAAGAAAA
GGTGCTCGGTCTCATTATTTATCTGGGAATCACCTTTTAGATTTTAGACGTGCTATTTTTCCTGCCTTGAGTTACTGAATATTTTTTCCTATATTGTGGC
AACTTTGTGCTTCTGCTTTTCACATTTAGATCTTCAGTCCAACTAGAATTAATTTTAGTGTGTAATAAAAAGAAAGGCGCAAGTTTCTTTTTTTCTACAA
GGTTATCTAGTTGTCCCAGTGGCCTTTATTGAAGACTCTCTTCTCCTTACGGTTCAGCAAAACCACCTTTGTTCTAAATTATCTTATATGGGTAGGTCAG
TTTATGGGCTGTGTCCTGTTTTATTGGTCTCTTTGTCTATAATTAAGCCAATGGCATACTATACCATCTTAATTACTGTATATTTGTAGTAAGTACTGAT
ATATAGTAAAGTCTTCTCATTTTTTTCTTTAAAATCATTTCCACTGTTGTTGGCCTGTCTTTTGTATTTCCACATAAATTTTTGAATCAGCATGTTAAGT
TTCTCACACATAGAGACACACTCATTTGGATATTAATTGATATCACATCATCTGTAGATTGGGGAGAATTTGTCTCTTTAGAATGTTTTCTAATCCATAC
ACCTAGTCCATATCTCTATTAGGTCTTTTTTAGTTTGTTTCAGTAGCTAGCCACAGTTTTCCTATAATAAATAGTTTGCACATCTTTTTACCTAGGTTTT
TGATATTTTTTATATTATTAAGAATGTCTTTAAACATACATTGTTGTTAAAGAATATCACTATTGAAAAAAATAAAAAATATTTTGTTGCTGGCATATGG
AATGCAATTAATTTTTGTATATTGCTCTATCTGCCAATCTTGCTAACTTGCTTTTTCTAATTATTTTTCTGTAAATTTGTTTAGATTTTCTACATACACA
ATCAGAACATGTGTATATAAAGATTTTTTTTTTTTAGTTTTTATACCTTCTATTCCTTTGTTTTGTTCTAGTTCTTCAATACAATATTGAATAAAAGTAG
CAATAATGGACTTTCTTGTTTTGATCACACTCTCAGAAAAAGATGTTTTAAGATTTTAAAGTCAGGTGTGGTGTTTTAAAATACTCTTTTTATATACACC
TTTGATGAGATTGATGCACTTTTAAGTTTCTAGTTTGCTAGGTTTATTTTTCTCTTTTTTTATTGAGGTGAAATTAATATAGCATAACATTAACTATTTT
AAAGTATATAATTTAGTGGCATTTATTACATTCACAGCATTGCGTAACAACTACCATTATCTAGTTCCAAAACATTTTACCACATCAAAGAAAACCTTGT
AACCATTAAGCAGTCAACTCCCATTTCCCCATTCCCTTAGTCCCTGGAAATCATCAGCCTACCTTCTATGTATTTATCTATTCTGGATATTTCATATAAA
TGGAATCATACACCAAGCACAGGAATGGTAGGTATTTTTTGTTAGTTCTGACAGTCCCTGAGCTGCTTATTTATTTTGTATGTCTATTTTCTGTCTATTG
TTCAGCCGAGTAATTTCTGTAGTTGTATCTTCCCAGTGCATTAATTCTTTTCCTCTTCCTCTCTATTTCTGCTGATGAGCTCATCTAATATTTTTATTTT
GGTCATTGTATTTTTTTCTTTTCTTTTTAAAGACAGAGTCTCAGTCTGTCACCCAGGCTGGAGTGCAGTGACACAATCTTGGCTCACTGCAGCCTCTGCC
TCCCAGATTCAAGCAGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGACTACAGGCGCATGCCACATCACCTGGCTAATTTTTGTGTTTTTAGTAGAGACA
GGGTTTCACCATGTTGGCCAGGCTGATCTCGAACTCCTGGCCTCAAGTAACCCACCTGCCTCAGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACC
AGGCTTAGCCGTATTTTTCAGTTTTAAAATTTCCACTTGGTTCTTCTTTTTACCTTCTTTTCTGAGACTTGTATTTCTTTGCTGTGACCCTCTTTTCATT
TATTTCAAGCTTGTTTGTCATTGTTTGTTTAAGCATTTTTATCATCAGTGCTTTAAAGTCTTTGTCAGATAACCATAACATTCCTGTCATCATAGTGTTG
GCTTGTTATCTTTTTTCATTCAGTTTGAAATCTTCATTCTTGATATGATCAGTGGATTTCTTTTTTTAATGTATGTATGTATGTATGTATGTATGTATTT
TTGAGATGGAGTCTTCCTCTGTTGCCCAGGCGGGAGTGCTGTGGTGTGATCACAGCTCACTGCAACCCCTGCCTCCTGGGTTCAAGCGTTCTCCTGCCTC
AGCCTCCTGAGTAGCTGAGATGACAGACGTGCACCACCACACCCTGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGT
CTCGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTAAGCCACTGTGCCTGGCCGACCAGTGGTTCTCTAT
CGAAACTTGGACATTTGGGATATTATAATATTGTGGATTCTATCTAAACTTTTTGTTTTAGCTGGCTTTTTCTGACACTTTTCTGGTAGAGGAAAGAGGG
CATACTACCTTGTTTTTGCCAGGTGGAGATGGAAGTACAAGGTTTTTTTGTTTGTGTTTTTGTTTTTTTTTAAGAGGTGGGAATCTTGCTTTGTTGCCTG
GGCTAGAGTGTGGTGGCATAATCATAGCTCACTGCAGCCTTGAACTGGGCTTAAGCAATCCTCCTACCTTAGCCTCCCAAGTACCTGGGCATATAGGCAC
ATGCCACCATGCCTAGCTAATGACTTTTTTTTGTTTGTTTTTGAGACAAGGTCTCACTGTGTTGCCCAGGCTGGTCTCGAACTCCTGGTCTCAACCAATC
CTCCCACCTCACTTTCTGAGTGGCTGGGATTTGCAGTCACAAGCCATAGTGCCTAGCAAGTCGAGGTTTCTAAGATGGCCTCTGTTGACACCTTAGTTTT
TTTTGGGAGGGGGGTTGCGGGAGGGGTCTTTGTTATTGCCAGGTAGCTGTAGTTCTGGCTCCCCATGTGATCTTCCCTGATACCCTGGAGAGGGTAGCCT
CATTACTGTTGGTGGTTCTGCCTGTCATAAGTCTCCACTAGGCCTTCTGTGCCAGCATTTCAGTGGGGTGAGGGAGGTCCTCTTTGTTACTCTTGGTGGG
GGGTGAAAGTTTAGGTTTTCCATGTGGTCTCCTCTGACATTGCAGGATCATTGAGCTTTATTACGGTTCAGGAAGCAATGGAAGTTTCTGTTTTCTGGTG
AGCCTTCTTGTGCACCATCTTGGCCCAGTATTAGGGTATTTTATTACAGCCTAGCTTGGCTTCCACCTAATCTTTGCTTGTGTGGATGGGGGTGGAACTA
CAGTTTTKTKTTGTGTGTGTGTGTGTGTGTGTGTGTGTATGGTATTTGGATAGAGTAGATTGTAATTGTCTACATATTATCTTGCTAGGCTCCCTCTTTT
TTGTTCCTTTGGCTAGAGAGTAGGCTTTTTTGTTCAAGACTTATTTGTCTGAATTAATTGGTGTTTCCTGGTTGCCAGTTTCTTCAGCTCTGTGTCTGAG
ATATATGAAAAAGAAAACCCAGGGAAATAAACTCACCACTGTATTTGTCCTTACATTCTCAGGTCCATAGCTAGTCAGCCTTCTAGTCTCCATTATTCAG
AGTCTTACGTTTGTCATATACCTAAATCCAGGACTCTTAGTTATATTAATGAGTATAAAAGGAAAATGTATATCTGTTCCATCTTCCTCAAAGTAGAAAC
CTTTATTCCATAAGTTTTAAAATGGAGTATCAATTTTCATTTAGTACTACATATTTTCTAATTTCTATTTTGACCTTTTCTTTGATTCATAAGTTATTTA
GAAATGTATTTCTTACTTTGTAAGCATATGTGGCTTTTCTGATTATTTTTTGTATTGAGTTTAGTTTAATAGCATTGTGGTCAGAGAAGGTATCTTGTAT
GATCTTGGTCTTTTAAAATGTTTGAAATTTTTTTTAAATACCTGGCATGTGGTCAACATTTATAAATGTTATGTGTATACTTGTGAGGAGTGTGTATTCT
GTAGTTACAGGGTATAGTCTTCCATATGTCAGTTAGGTCAGCATGGTTAATTGTGTTGTTTAAATTATCTGTGTTCTTACTGATTATTTTTTTAAATCTT
CTTGTCCCATTAGTTACCAAGAATAGTGGTGAAATTCTCCTCCTATCATTGTGAATTTGTCTATTTCTCCTTATAGTTTTGACAACTTCTGCCTTACTAT
TTAGTGGCCATAGTAAGTGCATGTAAATTTAAAATTGTCACATCTTTCTGGTGTATTTAACCTTTATCATTATTAATTTCTCTCTCCATTTTAAATAGTG
GGGGTTTTTTGCCTTTTAAAATCTACTTTTATTATTTTTTCATTGAGAGCAATCAATAAGAAAATCTTGTTTTAAAAGAGAAGATCAAATTTTAGTGTTG
TATCAGTGTACTTTTGATATGAGGACTCAATTTTAAGACAAACCTATAAACAATTTACTTTTCATTTTAGCCAATTTGTTCACAAATAAAATTTCTTTCA
TAAGATTCATCTCTCACAAACCTTTCATAATTTGCCCAGACCTTCTACAGCTTGCTCAGTCCTTTAGTTTTGTCTTATATTTCTCTTGTTTATACTGAAA
CAATCATTTTACCTTAGGACAAAAATTTACTTCCCTTTTTTTCTATCATTTCAACCACATAAGTTTTTTTATACAAAAATTACTGTCATTCTCTTTTCTT
ACCAAAAATACATTCTCATAGTTTTTTGTGTCTGTTTTTCACTTGTTCCTTTCTGCCTTGTTTTCATGTTTTTCCAAATTCATATTTTGAAATAATCTTT
CAATAACTTCTGAATTAGACAAATTACTTTTTAAATAAAAACACATTTTTATGCCATTTAAAACACTTTTTTCACCAAAAACAAATTTTGTTTTTTTCTT
GTACCCTTTGCATACAGAATTCTATGTATTAACTAGAATTTTAACTCTTAGCAATCTTAATTTTTAGTTAAATCTTAGTAATCTTAACTTTTAGTGAAAA
CCTAGGAAGTAAGCAATTTTGAGCTGTCACATATCAACATTTTATAAAGACACATTTTATAATCTTTAAAAATGTATTTTTTCCACAGAATAATTTTTAA
TGTGGAACCAAACATATTTATTAACCCCCAAATATTTTTTCTTCCTGTAAAGCTTTAGAAGTCAAGAGTAAATCTAAACTTACATTTAGGAATTAGTGTT
TCCTTATTTTAACTTATTTGGATTGCTACTGCAATAAAACAAGTCACAAGAATTTTCTGGTTTCTCAGTGCATGGAAAAGTTATGTTTACAGTATACTGT
AGTCTGTTAAGTTTACAATATAATTATGTCTTTAAAATGTAGATACCTTAATTGGAAAGTACTTTGTTGCTAAAAAATGCTATTGATCACCTGAGCCTTC
AGTGAGTAATCATCTATTAGCAGGTGAAGGGTCTGGCCTTTCTGCTGATGGCTGCTAACTATTTAGATGGTTGCTGAAGGTTGGGATGGCTGTAGCAGTT
TCTTAAAATGAGACAACAGTGAAGTTTGCCACATCAGTTGACTCTTCCTTTCATGAAAGATTTCTTTGGAGCATGAGATTCTATTTGATAGCATTTTACC
CACAGTAGAGTAAAAATTGAATGCCAGTTTTATGATGCAATTCATTAATTCCTTGGCAAATGTGTACTTTTGGCAGGATAATTTTGTGGTAGCTGCTACA
GATAGCGCATTCTGTATTTACAAAGATTGAATCCCAGTGCGTGTTAAATCTAAGAGTAAGGAGTATAGTGTTCTTGAGGGACTTTTCCCTCTGTATTAAA
ATATAATTTCAGAGGAAACCAAAACAACTGCAATTATAGTTTAAAGATTGTCTTAAGTAATACGTAGATATCACACTAATTTATCAGAGATGGTATAATT
CAAGCAAGGCTGAATAATTTAATGGTCGGTTTGCATAGGACAAAGATTTTTTTTTGTTATAAGAAGTGATTTGTAATAACCCATGGCTAAGGAAGATTCT
ATCAGGAAAAAAATATGTATGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGTATTATGGGACTAGAGAAAGAAATTAAAGGAGA
CAACTATTTTAATTAAAATTTTTGTTCTTAGTTATAAGAACACTTTGAAACATCATTTTTTATTTCTAGATGAAATAAACAGTGACGTTTGTAATACTGA
GTCAGTGCTTTTGGAGATAGGTGAGATTTAGTTTTCTTAACACAGTGTATAACACATAGGAGTTGATCAATATTTATGTGTTGACAAATTTCTCATGTGA
ATCTGTAGTCTGGGTGCAGCTTGCCTTGTGTCAAGTAAAAGACCCTTCAAAGCATTAATCATAGGCATAGTTACTTGCTGAAGGTCACCTTTTGAAGACC
TTGATTCTCCCTAGCCAGTTACCAAGTTCCAAATAGCTTTTCCTCTGATTTGGGAGTATGGATTTTATACCAGGATCTATACTTGAAGCTTACTGTGGTA
GCTTCAGGAAACATGACTCTGGTTTGTGAATTTAAGACTACCTAAACTGGGAAAGTCTGCTTCTAGTGGAGCTAGGTTAATACTTGAAGATGTGATTTTG
ATGGTCATAGAAGCATAGAAGCTGCATGGAGGTAAAGAAAATTGTTCAAGGTGTGATTCAGCTTTATATTTGCATTTTGTTTTATGAACAAATTAAAATC
TGAGAATTGGGCTTTGTAATAAAAATGATAAGGAGAGGCTGAGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGAATGC
CTGATGTCAGGAGTTCGAGACCAGCTTAGCCAGCATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGAGCGTGGTGGCGGGCTCCTGTAG
TCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGGTTGCAGTGAGTCGAGATAGCGCCACTGTACTCCAGCCTGGGCGA
ACGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAATTAGCCGGGTATGGTGGCAGGCGCCTGTAATCCCAGCTATTCAGGAAGCTGAGGCAGGAGAATTGC
TTGAACTTGGGAGTGGAGGTTGCAGTGAGCCGAGATCACACCATTGCACTCTAGCCTGGGCAACAGAGCAGACTCCTCTCAAAAAAAAAAAAAAAAGAAA
AAAAAAAGAATAATAAAAGTGATAAAAATATGTAACATTAAAGGAGGCTTACGTTTACTGATCGCAAATTATGTAATTATGTTTATTTCTCTGTGCAGGT
ATAATTTGGCTTCCTGAGATTCTGCCTTAGCAAGAAAGGAGTGGGAAATACCCTTGGAAAGAAAACTAAAACAGTAAGAAAGCCAAAACTTATTTTTACA
TGGTTGTCAGCACATTTACCGATATGGACACTTTTCCCAATAATTTTCCTCCTGGTGGAGACAGTGGATTGACAGGTTCTCAGTCGGAGTTCCAGAAAAT
GTTAATTGATGAAAGGTTACGATGTGAGCATCATAAAGCTAATTATCAGACACTGAAGGCTGAACACACAAGGTAAATTACTTAAATCTAGAAGTGGGGT
TTGGTTTTAAAAAGTTATTGGCATTATCTTGGCTGAATGTTTGCTATAGAATATAGTATAATTTTGTTATTTTGCAATGTATACATTTAAAACTTTTTTA
ATATAGTAAAATTTTTACTTTAAAATTACTTTGTTCCAAACTAAGTATGATATCAAGTGGGTTATGAATTTATAAGCCTTATTTTGAAAGTAGCAGGACG
TATAAGATTAAATGTATCCAGATGGCTAAATGTGTTCCCCATCTCCCACCAAAGTAAAATTGCATTCCAAAACTACAGTGTTAATAATTAAATGAAACTC
TGTAAATAAAAGATACTTGTGGGTTTAAAGGAATGTGTGATATTGGTCTTGTTTTTCTGTGGTGTTGATTGACTTTACATAAAGTAATGCAATTAGAAAG
AAAGGATTTACTCAAAATTGAATTCTCTTTAAAAAAAACCAGGTTGCAGAATGAACATGTAAAGTTACAAAATGAACTCAAGCACCTGTTTAATGAAAAG
CAAACTCAGCAGGAAAAACTTCAGCTCCTGCTTGAAGAACTAAGAGGAGAATTAGTAGAGAAAACTAAAGATTTAGAAGAAATGAAACTGCAGGTGAGAA
AATATATTTGAGTTTTGAGTTAGTATAAAAGCAGTCAGATACGTAGTGGAAGTAAGTAGTTTTGGTGAATATGGCAATTTCTGTCTATATCCTTAATGAT
TACTTTGCTGTATCTCCAAGTGGTACAATTTAATCTTCTTTCATATATTTTAGAATGTTAGCTACCATGTAAGGGAGCCATGAAACTGTTATTTTATGTA
AATTGGTATTATATTGCCTATTCTGATATAAATAATATTTAACCATTAAGAATAATTAGGGAAAAAGTGAGTTTGAATTGATAAAAATTCAGAATTAAAG
AATTTTTTTAAAAGAGTTACTAGTATTTGTATATGCATTATAACTGAAAGCTAAAAAAGGACAGCTATTCTTAAAGAGCTTCTTAAAAGAGACTGTAAAA
ACAGTATGTGAACATAATTTATGTGTACATTGTAACACAAATGGGTTTGTAAAGCAAAAGATAGTTGTCTCCAAAGTGCTGAAGTACAGTTTCTTTAGAT
CATTTTCACGCTATTCATTTTTTCATTTGTCTGGAAAATTGAGCAAAGCCAGACTTTAAACTCCAGTCAAATTTCCTGTAAATTTCAGATTAGTAGGTTC
TCACGAATAATATTTTCCCATATTTATTTAATCTCTGAAGAGCACCAGCTATTTATTTCTGCCTAACAATCTGATTGGTACAAATAATAAGGTATTATTA
ATATTAGAGTCAGAAGTTCATAGAGTAAGAAGGCATCTTTCAAGTCACCTAGTCTGGCATATCACCCAACTCTTAGATATCCTTTGACAGAAGCCTTGTA
AGTTTGTCATTCAATAACTTTTTCAAATCTACCATTGCTGGGAACACCACTAAGCCTGGCTTGGAGCCTCCACTATGCTCACTGTTTCATTCCTAGGTAT
ATTTAGGACATTTAAATATACAAATATAAACCTCAGAAATGTAAATCGAAGAGGGAAATGTAATTTAAGCCTGTAGAATCAATGCATTAATTTGTTTTGC
AAAAATTTAGAGCCCTGTATGAGTGGAAGYTGTGAATGCTGAACCCAAGATATTTGAGAGATTCTTCAGGTATTGCAAATTTAATTATTCTGTTTCATGA
GAGTGACATCTAAATGTGATTATTTGTACCAAGCACATCCAGAAAGTAAGTAAAGCACATCCAGAAGGCTGGAGTAGTTATATTAATTCAGATAAAAGAG
ACTTCCAGACAAAGAGTATCACTAAAGATAAAAAGGATGTTTATAATGAAAAAAAAGGGACAGTTCTTCCAGAAGATGATAACTTCAACAAGTAACTATG
TCTCTATGCCTAGTTTTCTCATGTGGTAAAGCGGATAAAAGTTTCTGCTTAACAAGAGTTGTGAGGACTAATGAGATAACATCTACATTTTTACTGCCAT
ACTTTCCACATAGTAAATATTCATAGATTATGACATGTTTATTTGAATTCAGGCTCCATGAAGGCAGGAACTTTTTTTCAGTGTGTCTTCAGTGTTTAGG
ATAATGCCTAGTAAACATCTATTTGTTGAATGAATGACGTGAAAAATTGAAATAAATGAATGAATTGGGATTGTTGTTCATATATTGCACTGTCTGTGTC
AAACATACCTACAGCCTCAGCATCTTAGAGTTGGTAATCATCTAGTTTTTCTTTGAATCTATTATGGGTTGAGTTGTATCCCCAACCAGGATATGTTGAA
GTCCTAACTCCTAGTACCTCAGAAGGTGACCTTATTTGGATGTAGGTTCATTACAGATGTAATTAGTTAAGCTGATGAGGTCATATTGGAGTATGATGAG
CCTTTAACTCAATATTACTGGTGTCCTTAAAAAAAGAGGAGAAGAGAGATGGAGACAGATGGGGTAGAGAGGAGCACTATGTGATGGTGGAGGCAGAGAT
TTAAGTGCTCCAGAAGCTAGAAAGAGGCAAGGAAAGTTTCTTCCCTGCAGATTTTAGGGGGAGCAAGGCCTGTCAACACACCTTGATTTCAGACTAATAG
CCTCCAAAACTGTGAAAGAACAAACTTCTGTTATTTAAAGCTGCGTCGTTTCTGGTATTTTATTATGGCAACCTAGGAAACGAATACACTGTCCAAAGCA
GAATCCTTTTTAGAACATCTTTCAGACAGGACTCTCTTCATTTTCTGCTTCAGTGCTTTCAGTGCTAGAGAACCTGGTGAACTTTTTAAAGTGATCCAAT
TGTATTTATAGATTAAAGTATGTTAAACATTTTCTCTCTCCTATTAAAATGAAGTCATCTACCCTATAGCCTCCCTGTTGGTAACTTTGGATGTTCCTCC
ATGTGAAAACTTCCCAAATGTTTGCTCACAAATATAATTTATCTAGTAAGGCTTCTGTTTTTTAAGATAAACATATCTAGTAAGGCTTCTGTTTTTTAAG
ATAAACATATCTAGTTTCTGTGTGATATTTATTTGGCAAAAATAAGCTAAAGAAACATCATGTATACATATAAACACACATTTTGAAGCAATTTAGCTAT
TTGTTTAATGGATGCTTGCAATTTGCGCAAATTGTAAGTTTAGAAAAGTAAATTCAACAAAGATCAAGAAATATTTCAATGAAGGTTTATGAAAGATGAT
TATTTTTAAAATATACGTGCATTATCTAGTCTGCCTACAAAAATGCTTTTTCTAAGATTTAATGTCATCTCTTTGGCTTTTATAGGAAAAAGATATAAGA
GATATTCATTTAAAGAACATTTCTGCATCAGTAGTGAATGGTAATGATAATAGTGCCTAGCTCATAGGATGACTGTAAGGATGAAATGAGACAGTGCATA
GAAAGTGTTAGTTCAGGCTGAGCATGGTGGCTCCCACCTTGAGAACTTCAGGAGGCAGGAGGATCACTTGAGGCTAGGAGTTTGAAACCAGCCTGGGTAA
CGTAACTGGGTAACTCTGTCTCTAAAAAGTAAAGTAAAATAAGTTAGCCTGACATAGTGGCATGCACCTGTAGTCCCAGCTACTAGAGAGGCTGAGTCAG
GAGACTTGTTTGAGCCTAGGAGTTTGAGGCTTCAGGGAGCCATGGTTACACCACCACACTTTACCCTGGGCAACAGCGCGAGACCCTGACTCAAAAAAAA
GTATTAGTATGGTACTTTGATCTAGTAAGTGGTCAGTACATGTTGTTATTGTGTTACTATGTACCATGTTAGCAAAACCTTTTTAAATATGGGGATCATT
TGATATATTCTAATAAAACGGAAATTACTTTACCAATGATTAATATACTCTTTTTGTGCTAATGAAAACTGTATAACCTAGTATACAGGTTCCCATTTTG
TTTTGGCTGCTGGGAAGCTCAGATCAAAGTATAATACTCAGTTTCAGTCATTAATTTATTAAGAATTTTTGGCATAGCAGTATTTGCCGCCTTAAAGTAT
TCTTTGTAAAAGATTGGCCTATTTTAGATTATTAAATGGCAAGTACTGCAGTGTTAAAGATTTGTTTTTATAGATTTAAAATAGGTAATGACACCTAGAC
TGTTGTATGATAAAGCATTCTTATGTTTCTTTGGAGACAAGTAGTGGCAATATTCCATTAGAAGTCTAAGACACTGCTGGGTGCAGTGGCTCATGACTAA
TCCCAGATCTTTGGGAGGCCGAGTTGTGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCCATTGAAAATAC
AAATATTAGCTGGGTGTAGTGGTACATGCTTGTCTTCCCAGCTGCTCAGGAGGGTGAGGCATGAGAATTGTTTGAACCTGGAGGCGGAGGTTGCAGTGAG
CCAAGATCGTGCCACTGCACCCCAGCCTGGGCGACAGAGCGAGACTCTTTCTCTCTCCAAAACAAACAAACAAACAAAAAGTAGCCTAAGAGAGAATATT
TTTTCCTAAAATGGGATGGGAAAAATCCTCTAATTCAGTCGGTGTCTTGGTTTATGTGTGCTTTGGAGGTATAGGGGATAGGAGAGGGAGAGATGGGGAG
AGACAGAGGAAGAGAGAATTTATTATGTGTGTATTTGTTTTTAATAAGATTCCTAGGAGGTAAGAAAAAGTTAGAGATGCTTTGTCAGAGACCTCAGATC
AGAAGACCCCTAAACTGTTGTATGCTATTAGATTGCACAGGCCARTGGTGAGGTGCACACCATTACAGGATTTAAAGCACTGTTGTTTCCAAGAGGCATC
TGTGATGTAATTGAACATATAATGCTAGAAGCTGCATGGATATTGTGCAGCTACATCACTCTACAGGGTAGTGAGCACAGGTTATCTTTGTTCTTTGCAG
TGCACTTTGTCTGGTTTTTTGGCTGCTGTTCTCTTTATTGCTGGTTTTAAGCAATTTGATTGACATACTTTGCAGTTTTTTTTATATCTGTAGTGCTTGG
GGTTTATTGAGTTCCATAGGTCTATGGGTTTACAGTTTTTATCAAACTGAAAATTTTTGGAGATTACTTCTAAAAATATTTTCTTTCTCCTCTTTCACCT
CCTTTGGAGACTCTTAATTACATTCTAATATTAGACCACTTAAAGTTCTGCCATAGCTTGCTGATGTTGTTTATTAATTTATTTTTARTATTTTTTGTCT
CTGTGCTTCATTTTGGTTAGTTTCTGTTGCCATGTTTTCAGATTGATTGATTTTTTCTTCTGCAGTATCTAACCTGCCATTAATTCCATGCAGTGTAATT
TTCATCTCAGAAATTGTAGTTTTCGTCTCTGGAAGCTCAATTTTGTTTTTTTTTTTTTGTTTTGAGACAGAGTCTCTCTGTGTCGCCCAGGCTGGAGTGC
AGTGGCGCGATCTTGGCTCACTGCAAGCTCCGCCTCCTGTGTTCATACCATTCTACTGCCTTAGCCTCCTGAGTAGCTGGGACTATAGGTGCCCGCCACC
ACGCCTGGTTAATTTTTWAATTTTTTATTGTTAGTAGACATGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCCTGAGCTCGTGATCTGCCTGCC
TCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCTTGCCCGGCCTTGGTCTTTTTATCTCTATCCAACATGTTCAGTCTTTTCTCTAGTTCTTT
GAACATATGGAATTCAGTTACAATAACTGTACAATAAAGTTTTAATGACATCTGTGTCATTTCTGGGCCTGTTTTAAGTTTATCCCCCCTGCCCCCACCA
CACACACACACACTCACTCTCACTCTCTCTCTCTCTCTCATGCTTCTCTGCATGCCTGGTAAATTTTTATTGGATGTTAGATACTGTGAACTTTGTTTTT
AAAATGCTGGATTTTTGTTGTTGTTGTTGTTGTTGTTGTTTTTGTTTTGTTTTGTTTTGTTTTTGAGACGGAGTTTTACTCTTGTTGCACAGGCTGGAGT
GCAATGGAGTGATCTCAGCTCACTGCAATCTCCACCTCCCAATATTTTTATATTCTGATACATGTTCTTGAGCTTTATTTTGGGACACAGTTAAATTATT
TGGAAACAGTTTTATCTTTCTGGGTCTTGCTTTTAAGATTTAAGTGGGAGCAGAGTAGTATTTAGTGTAGTGCTAATTATTTCCCACCACTGAGGCAAGA
CTCTTCTGAGTAGTATAACAATTTCTTTATGAAACAAAGGATTTTAATCTGTTTTTGGGGAACAGAAACTATTCTTAGGTCTTTGTGAGCTCTGCGTATT
CATCCTTCTAATCCTTTCAGGTGTGTATTTGCCTAGCCTTAGGTAGTTTCCTTGCACACATGTGTTAATCAGTACTCTACTGAATGAGTCAAGACTTTTT
GTAGGTCTTCATAGTTGTCTTTCTGTGCCCTCTTTTCTCTGCTACCCTGTCTTAGGACTCTAACCACCCCACTGTCCTTGGATGCTCAGTTTCATCTCCT
CAACTCAGGGAGTCCCTCATGACTGCATAGGTATCCTTTCCGGTGCCAGGTCCTGAAAACTCTCAAAGCTTATCTTCTATGTTTTGTGTCTCTCAGGGAT
CTGCCTTTTGCTTTCTTATGTCTAGTGTCTTGCAAACTGTTTAATTTTTGTCTGTTCTTTTGTTTGTTTCAGGCAAGAGAGCGAATCTGGGCTCTTATTC
TATCTTGGCTGAAAGTGGAAGGCTTTTTACTTTCAGTTTAACTTTTGGTTTTGGAAATCTCAAACATGTAATGCATTCCCATGTACCCATCATCCAGCAT
TAATAATTATTCATTCTGAGCCAGGCTTGTTTTATCTACTACTTTCTCCCACCCACTTCCACTTTTTTCCTCAATGTTTCTGGATTATTTTGAATCAAAT
AATATTCTTTCAACAAATAATTGAGTATATATCTCTATAACAAATCAGTGCAGTCTGTCTTAAAAGCATAATCACAATACCTTTGCCATATTTAAAATAC
TTATTCATTAATACCTTTTAATATCCCACCTTTGTTCAGATTTTCTTAATTTTCCCATGGTTTTGCTTGCCTAGTTTTGAAGTTAGATCATTTGAAACAG
GAGCCATGTAAGCTTTACCTATTAATCTCTTCCTTTTAATTGCTACCTCATCTTAGTTTGGACTCTTGATGTTGTCACCCAGACTTGATACTTGATACCG
TAAACCAGATTATGACATGAGCTTTCTGTCTGGTTTCTTTGGCTCCATTTACTGCCTCTTCTTCCCACAGCTACAGCTACTCTCCCACTAAAGCTTTTGA
TTCATCTTGCTTCTTCGTAAAATATAGATATGGTAGTGTCACTCTTAAGCTTAAAAACCTTCAATAAATAAGGTACAGAAAAATATATGTACAATATCCT
TTTTGTATAGAAATCAAAAGTGATATACATGCTTGTGTATCTGTAGATTGTTTTAGGAAGGGTACATAAGTTATTGACAATGATTGCTTCAATAAAAGGA
AATTGGATTACTGAAGTGAGAAGACTTTTTAGTCTTTTGTTTGAATTATTTTATTTATGTAATTGTATATATTCATTTTAAATAAAATAAATTTTTAAAG
TAAATACTATTGAATACTGAATAAATAATAAGAGTCTAAACCTGGTATTCAGGAACCTTTCACTCTTTGGCTGCAACCTAATTTTCCTTTTGTTTCCAGC
CAGAGTGCAGCCCTCCAAGGTGGCATTTGGAAATGTTACAGTGTTTAGATATTTCTACCAGTGTGCATATAGGGTCCCACAATTTTAAATTTTCTGTAGT
ACTTAATGTGGTCCCATTCAAAATGGCTTTAACTCACCTTTGAGAATCACTTTTCTCCCATACAGTCTCTGACACCCAGGCAAATTAAAATGTTACCTGG
CTTGAGTTTGGGTTCTATAAGCTTTCTATATAAGGGTTCTATATAAGCTTTAGTTTTCCCATTCCTTTGACGTGTCATGCCTTCTATCCTAAATGTGTTT
TCTCTTTTTTACYTGTCTGGTAAGCCTGTATTGCCTACTTTTATAGTTATTTGTGTGTATGAGTTATTTTTAACACCAGAGTTTGAAGTTTTTATGGGGA
GATATGTGCTTCATGTGAGTTTTTGTGATCTTTATAAAGTTATTTAGATACCTTGTGTGCCTCAGCATAGCTATACTGTGGCATTGTTGTAGGAATTAAA
TAAAGTAATGCATATAATGTGCTTAGAACAGGATGGTATGTAGGTTACAGTGCATTGTACAATGCTTTATATATAGTAAGCTCTCCATTCAGTAAAATGT
AATATTTTGAATACAATATTTGGACTMTTCATAAAAAAGGAAACTGAACATTATCATTTTTATAGAAATTAATATACATGCAAACTTTAGATTTTTTTTT
TTTTTTTTTACAACTAGTATTTGTTCCTCCTTCATTCATGAAATAGTTGAGTGGTTCCTATGTGCCAGACATTGGTGGGAGGTATTGGGAATACAACGGT
GAATAAAGACTGTGTTTTCCCACATGGGACTTACATAAATATTTAATTACTTATTAAAATACGAGTTCTATAAAAGAGTGTGACAAGGAGAAGCCTAAAT
TAGGTACAGTGTGAGAGTAAAAATGAGCCTTTTCTAATTGAAAATAAGTCTGAAAGGTTCTCTTTGGTATAACAAATTGTTACACCTTTATTTTGCCTGC
TTTGGAAAATAACTAGACTATTAGCCATTGTATACAACATGATAGTCTTAGCTGCCAACATAGTTATTCCTAACAATAGCAATAATAATCAGTAATTGTC
TTTACTTCATGTTAATGGAATTTTTGACATCTCCAAGAGCCTGAAATTGAGATTCTTAAAGTATTATTTCAAATGATGATTCTATTTGTATAGTGATCAC
TGTAAAAAAACTATATTGCAAAAACTTTCATGAATTCCATTGTCATAATTAGGAGAGAGGCTTTGAAATATGGAGAATTCTTGATTTTAATGTGATTTTA
TATTGTTTGCATTTCTCTACATATTAGATATTAACTCCACAAAAATTGGAATTGCTAAGAGCCCAAATACAACAAGAATTAGAAACTCCAATGAGAGAAC
GTTTTAGGAATCTAGATGAAGTAAGTAACTTATGTTGTTTACTATGCATTTATCCTCATGGGATCAAAGTCTTGATGAAAAGCATCATTCCCCTACCCCA
AAACCCTGCAGTAGTTCCCCCTTTTACTCAGTCATTGCAGTGGCCTCTAAGGCTTCACAGGATTGAACTCCCATTACCTCTCTGATCTCCTTTCCTTTTT
CCACATTGGCCTACTGATGTTTCTTTGGCATTCCAGAATTGGTGCGTTTCTTTATTTTTATTTTTAATTTTATTTCTTTTTTAATTTTTTTGCGACAGAG
TCTGGCTCTGTTGCCCAGCCTGGAGTGCAGTGGCGTGATCTCGGCTCACTTCAACCTCCGCCTCTCGGGTTCAAGCGATTCTCTTGCTTCAGCCTCCCAA
GTAGCTGGGATTACAGGCACGCACCACCGTACCTGGCTAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATATTGGCCAGCTGGTTTTGAACTCCT
GATCTCAAGTGATCTGCCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCCTGAGCCACCATGCCCAGCCTAATTGGCACATCTCTTTTGCCTTGAAT
ACTCTCCCTCCAGATACGTCGTGGCAAACTTCATCTCTTGTAAGTCTGCTAAAATGTCACTTTCTCAATGGGGCCTACTTTGACTGCTCCCATCTACCTA
TTTAATACTGCAACCTGCCTTTCCCATTACTGCTTAGACCTTTAGACCCCCTTACCTTGCTCTGTTTTTTATTTTTTTTTCTGGTATACATACCTTCTAC
TGTGCTGTATAATTTGCTTATTTATTGTGTTTATTTTCTGTTTTACCACCTCTAGAATGGAAGTTGCATGAGAGGAGGAACCTTTACCTGTTTTGTTCAT
TGTTATATTCCAAGTTCCTAGAACAGATTTTGGTATACAGTAGGTGCTCAATTAATATTTGTTGAAAGAGAGAATGAGTTTCATGCCACTTCATAAAAGT
AAAAATCTGTTACAGTTTTACTTCAGGTTGAGACTAGTCTCCTTTGGTGAAGTGTTGATATAATATGACTAAATGCTTAATAAAGGGGACAGGATAAGAC
TGCAGATAACAAGTATATTAGATACTTGGTAGACATTTTATATATGTTACCTTATTTAACAAATATACCTGGCCTTATACATACAAATGATTATTGTCCC
CTTCAAAATGGGCCCCTTTGGAGAGCTGTAGTCTAGTGATGCGGTAATTGCCCAAAACAGTTGTAGAATCGTCTTTTATAATGGCTTACTGGCTTGATAA
TATGATCTTTCTAATACAGTCCTAATGGCAAGCCATTATGGTTTGGGAGTAGGTTTAATTTTTGTAAATAAACAAGATCAGACCCAAGATAAGTGACCAA
GTTCAATAAAAACTTTTTTTTTTAAATCAAAGCAAAGTATATCTGCAGTAAAATAATGAAACCCATTTTSTTGGTTTACAAACTGGCTTAGAAATCTTTG
AACTAAAGATTTATGGTGAGCTGGGTATTTTAGGAGACATGCTTTCCTTGTTATCGAATTTCCTGTTAGTGTCTCCTGTATCTTTCTGCTTTGTGGCCTG
AGTTTCTTGTTGGGTATTCAGAATGCCAGCAGCTTTCATAGAGTACTGTTAGGAAGCAGGATGAGAACACTCCAGGGAATTGCATGTGTTCCTGGTTAGT
CAGTAGAGATGATGCTGCACGTATTCTTCAGGTTGGTCTGTTGAGTTAAACTATCATTGTAATATTTAATTAGATGTTAAAATGCTGTACTAAATATTAC
AATAACCTTACATCTCTTTTGAATTTGTTTTACTTATACTAAATTATACATTTAAAAAATCTATATTTTGAAAGGTGTGCTACATTCTTACATGTTATTT
TATTTAAGTCCAGAGATCAACACTTTCCTCATACTATACACTTTATCATAATGAGAACCAGTGAAGAAATAAGATTAATTGAATGGTAATTTACTTTTTG
GATATCTTTTCAGGAATGTACTACTTCTGTATGTAGGATACTTGTTATGAAGACCTTTCCAAATTCATTTGTATTTCTGTTAAATTTATTTTTTACTTTT
AGAGTGGCTATCATTATAATGTAATTTAAAATTATATTTGTAAAAGTGACTATTGGAGTGAGTACGAATTTTGTTTATAAATCTATGATAAATGCATTCT
CCCTTTAGGAGGTAGAAAAGTATAGAGCTGTATATAATAAGCTTCGCTATGAACATACATTTCTCAAGTCAGAATTTGAACACCAGAAGGAAGAGTATGC
ACGTATTTTAGATGAAGGAAAAATAAAATATGAATCAGAGGTAAGTGATTGATTATACGAGTTTCTTTGTTATTGTTCTGGTCAACACAATTTTATAATT
ATATATTTTTAAAAATTTCAAATTAGAGTCGATTGTATAGTTTTATTCATTAATGGTGGAGTATTCATCATGATTTTCATCAGCTTCGTATCAACAGTTT
TTTTGTGAAAGTTCTGTTTTGGGTGTAGATCTTTTAAATTCTATTTATCCTTTATTTTGTCCAGCCAATGGAGATAGACAACTTTGGGGAGTTTCATTGT
ACAAAGTCTTTTGTCTTATGTAGCCACAGAGATGGACTTCTCTCTGCAAATATAGTTAGTGTGATTCCTTACTTAGCATTGTTCTTTCTGCTTCTTGGAA
CCAAACCACATATGGGAAAGCACTAGCTGTCAGCCTGTGCACTTTGATATAAACAAGGGGTTTATACCTTAAAGTGTACCCATCAACTTCAAGAAATAGA
CTTTGTTTTTTTCTGCCATTTGCAACTGGAATGTTCTCTTTATGCTGCCTACAGCATACATTCCCACTTCATCTCCATTGCTTTTGGCAGCCTTTCTACT
CGTTTTGTGGTTTGTCTCCTAGTTTTGCCCAAAATGGGGTTTCTGTTTTTCATTGGTCGTGTTGCTTTTGGAATATTTTTCAAATTGAAAGAGAGGAATA
CTAATTTTATCCTGCCATATTCATAAAAAATAGGTTGGTATCTATAGTTATGTGAAATATTCTGTTTACAAACATATCTACATTTTAAATTTATTGCATT
GTCTTTATTTAGAATTAAGAGTTAAAATATACTTACCTTCCTTTACCAATTACTAAATATTTACAGTGTTCTAGGCATCTAATAAAAACTAAAACTGTTC
TATTTGGATCGGACTGATTTATTCTTATTAGTGAGCAAAGTGCCATGAGTGTTTCATCTGTAAGAAGCTATATGAACCTTGGAACATTTGTGTCCATTGA
CAGTGTAGTACCAGAACACTATAAATATTTATAATAGTTTTTCACATTAAAAAAAACTCTTTATAGCTTTAAGGCTTTAAGTGCTTTATTCACATATTAT
CTCACTTCTATTACAATAGTCAGTGAGATGGGGCTAGACTGTCTTATTTTCTTTGATTGATTGATCAAGAGGAGGTCTTGCTCTGTGGCCCAGGCTGGAA
TGCAGTGGCGCAATAATAACTCACTATAACTTCAGCTCAAGTGATCCTCCTGCCTCAGGTACCCAAGTAGCTAGGACCACAGGCATGTACTACCTCACCT
GGCTAATAAAACAAACAAATAAACAAAAAATACAAAAACTCTTGTAGAGATGGGGCCTTGCTATGTTGCCCCAGCTGATCTCGGACTACTGGCCTCAAGT
GATCCTCCTGCCTCAGCCTCTCAAAGTGCTGGAATTAGAGGCATAGACTATCGTGCCCAGCCCTTATTTTCTTCATTTTAAATGAATAAACTAAGGCACA
AGATAAGTGAATTTATTGGGGGAACCCACCCCCAATATTTCAATGTAGGTTCTTTCTATTTTCTGTAAGTGTTGGCCGGCTGAGAAATAAAGAGTACAAA
GAGAGGAATTTTACAGCTCGGCCCCTGGGGGTGCCGTCACATATTGGTAGGACTGTGATGCCCACCTGAGCCTCAAAGCCAGCAAGATTTATTAAGGATT
TCAAAAGGGGAGGGGGCATAAGAACAGGGAGTAGGTCACAAAAAGATCACATGCTTCAAAGGGCAAAAAGGAGAACAAAGATCAAAAGGCAAAGGGCAGA
AACAAAGATCACAAGGCAAAGGGCAAAAGCAGAATTACTGATAAGGCTCTATGTTCAGTGGTGCATGTATTGTCTTGATAAACATCTTAAACAACAGAAA
ACAGAGTTCGAGAGCAGAGAACTGGTCTGACCCCAAATTTACCAGGGTGGGGTTTCCCAATCTTAATAAGCCTGAGGGTACTGCAGGAGACCAGGGTGTA
TTTCAGTCCTTATCTCAACCGCATAAGACAGACACTCCCAGAGCAGCCGTTTATAGACCTCCCCCCAGGAATGCATTCCTTCCCCAGGGTATTAATTATT
AATATTCCTTGCCAGGAAAAGAATTTAGCGATATCTTCCTTATTGCATGTCTGTTTATAGGCTCTCTGCAAGAAGAAAAATATGGCTCTATTTTGTCTGA
CCCCGCAGGCAGTCAGACCTTATGGTTGTCTTCCCTTGTTCCCTGAAAATCGCTGTTATTCTATTCTTTTTCAAGGTGCACTGATTTCATATTGTTCAAA
CACACGTTTTACAATCAAATTTGTACAGTTAACACAGTTATAGTGGTCCTGAGGTGATGTACATCCTCAGCTTATGAAGATAACAGGATTAAGAGATTGA
AGTAAGACAGGCATAAGAAATGATAAAAGTATTAATTTGGGAACTGATAAATGTCCATATTAAAATGAAATCTTCATAATTTATGTTCCTCTGCCATGAC
TCCAGCCGGTCCCTCCATTTGGGGTCCCTGACTTCCCACAACATGAATTGTTCAAAGTCTCAGAGAATGTCAGCAGCCAGGTTATAGTAGAACTCAGATA
TACCAACTCCCAGCCCACAGCCTGTTTTGTTTTAGTCAGTTCCCTTATTGTTTTTATTTAATGCCATTATATTATATTTGCATATGCCATAACATTTRCA
AAATGCCCATTCTCTCCAGCTTCGGCTTAAGAAGGAGTGGGGGAGACCATACATATGCTAAGTCCATGTTCAATGTTGTACTCCTACACTTTGCACAAAG
AAGAATTTGTAATCTTCCACCCAGACCCTCAAACCCACAAACCAGTCCACCACTCGTATTCTATATGCCCTATACCTGAGTCTCGACAGTGTGTGGTCAA
CACAAAACCTGGACCTTACCCATTCGAAGGTGACCGGCAGTTTGAAGTTGCCACTCTGATTATGGGCCATCCAGCAACTGCAATTTTGTTAAATAGCTGG
TAATATATACACTACATGTGGTATGAAGGGTTTTGAATCCATAATTATGATAGACTTAAAGGAATTGCATGTAAAAATTTGTGGAAAATAGGAATGATAA
AGATTTCTAGCCTAAAACGAAGATTTAGTATATTGAAGAGAAAACCCTAAGGTTTCATATAGTGGTGCTTTATTTTGTACTTTCCTTTTAAAATCTAATG
ATGATACTTATCTGGTAAGGATTATTTGTATTCTCTAGTTTCTTAGTTTTGTTGTTTTTGAAATAGTGAAACCTGCATTCGAAATCTGATGACTAATCTA
TTTTTCACTTATGAAGGACTAAGTGATTCTCATTAAAATTTTTAAGGGGTTGGTATAGTCATTAATTTATCATTATTATTATTATTATTTTTGAGATGGA
GTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGATGCAATCTCGGCTTACTGCAGCCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGTTTCCCG
AGTAGCTGGGATTCAGGCAGGTGCCACCATGCCTGGCTAATTATTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAATTCC
TGACCTCAAGTGATCCTCCCACCTCAACCTCTCAAAGTTCAGGGATTACAGGTGGTGAGCTACCACATCTGGCCATCATTAATTTTCATATGTGATGTTT
TATGATAGTCTTAAGAATCTGAAGATAAACTGCAAGTTAAGAAGCCATAATTAGTAGAGGGTGGAAAAATAAGACTGAAGTTTCTTTCATTTTACTTCCC
AATTGATTATGTAGGAGCAGTATTACTGAGTGTATAATTGTGGATTTACTTTTGTTCAATCACCTTCATACTTCATTTTCTATATACAAAAACAGTAAAA
CCTGGTGAGATGATTGTGGATCATGAAACAGCAAATAGTTTCAAATATACTTTATAGAAACAACAAATTTAGTTTGAAAACTTCAAAGTAGAGCTGAATC
TTGTCATCTTCCAATTTTACAATTTAAACTAGTGTAAAAGGGATTCATGTAATAAAAATAATTGGATTTTCTTGTGTTAATTAGGACTTACACAGTACTT
GCACATTTTTACTTACACAGATGAAAGTAACAATATTATTTAGTGTGTTGGTTCTTAGGGGAATACTTTAGGAAGATTTTTAAAGTTTTTCCTGAGAGGG
ACTCCAGGAATACACATGTCCCTGATGATATTATAAACTAAAAAGAATATATGAAATAATATGTGAAAGAACATATCTCATCTTACGAATAAATACAGTG
TTGGCCAGGTGTGGTGCCTCATATTTGTAATCCCAGCACTTGGGGAGGCTGAGGCGGGTGGATCACGGGGTCAGGAGATCGAGACCATCCTGGCTAACAC
AGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCTGGTGTGGTGGCACGCACCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATCGC
TTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATTGTGCCACCGCACTCCAGCCTGGGTGACAGAATGAGGCTCTGTCTCAAAAAAAAAAAAAAAAA
AAAAAAAAAGTCATGCTTTTTCATGTGACTGTAAGAACATATTAAGTCTGGGACTTCATACAGGTGAAATGCTGAAGTTGCATATATAGTCATTATTCAA
AAGTGGGACTATTTTGTTTTTATTATATTAGGACTCATATTTTCTGGAAATAGTAATGACAATACAGAGTTGTAGGCGCAGGTAATTATAATGGTAGACT
GAGTGAAATAATCAATGGTAATTCAGTGGAGACAAAATACTAAGATCTCAGGAGAGAGGGAGGGACGAGGAGCACTACATCCTGTGAAAAACCATCAAAG
TGACAGTCCATAATGACAGGTCACTGAGTTTCTTCCATCATGCTTCGCAAACTGGTTGTGCTCTTCCTTGGCTTTATGTGTCAGGTGAGGAGCCAAAGTT
CCTATGGCAAAAAGAGAACTCCCCTGGTTCCCTGGAAATGCTGGGGTTTATTTCTTCTTTTTTTTTCTTGAGACAGAATCTCACTCTGTCCTCCAGGCTG
GAGCGCAGCGGCGCCATCTTGGCTCACTGCAAGCTCTGCCTTCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCC
ACCATGCCTGGCTAATTTTTTTGTGTTTTTAGTAGAGACGGGGTTTCACTGTGTTAGGCAGGATGGTCTTGATCTCCTGACCTCATGATCTGCCCACCTT
GGCCTCCCAMAGTGTTGGGATTACAGGCGTCCCGAGTCACCACACCCAGCCAAAATATGAACTTTAAGTATGTAAGTAATTTAAGTGATATTTTCTTCAT
GTAAGGAATGACAAAATATTTTTGTATAAAACATGCCATCATTAATTTAGGAAAAATAAATTATAGTACATAAAAGGGAAAAAGAGGAAACTCATCATAA
TAGTGATTATTTTTTTTTTTAATTTGTTACTTTTTCATATGTCTGATTTTTTTTTATTATACTTTAAGTTCTAGGGTACATGTGCACAACGTGTAGGTTT
GATACATAGGTATACATGTGCCATGTCGGGTTGCTGCACCCATCAACTCATCATTTACATTAGGTATTTCTCCTAATGCTATCCCTCCCCCAGGCCCCCA
CCCCCTGACAGGCCCCAGTGTGTGATGTGTCTTTATAGTAGCATAATTTATAATCCTTTGGGTATGTACCCAATAATGGGATTGCTGGRTCAAATGGTAT
TTCTAGTTCTAGATCCTTGAGGGATTGCCACACTGTCTTCCACAGTGGTTGAACTAATTTACACTCCCACCAACAGTGTAAAGCATTCCTATTTCTCTAC
ATCCTCTCCAGCATCTGTTGTTTCCTGACTTTTTAATGATTGCTATTCTAACTGGCGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCTCTGAT
GACCAGTGATGATGAGCATTTTTACATGTGGCTGTTGTCTGCATAGATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTTGCCCACTTTTTGATGGAG
TTGTTTGTTTTTTTCTTGTAACTTTGAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGATTGTAAAAATTTTCTTCCATTCTGTAGG
TTGCGTGTTCACTCTGATGGTAATTTCTTTTGCCATGCAGAAGCTCTTTAGTTAAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTT
GGTGTTTTAGTCATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGTATTGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGT
CTTTAATCCATCTTGAATTAATTTTTTTACAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATT
AAATAGGGAATCCTTTCTCCATTGCTTGTTTTTATCAGGTGTATCAAATATCAGATGGTTGTAGATGTGTGGTATTATTTCTGAGGCCTCTGTTCTGTTC
CATTGGTCTATATCTCTGTTTTGGTACCAGTACCAAAAGCTGTTTTAGTTGCTGTAGCCTTGTAGTATAGTTAGAAGTCAGGTAGCGTGATGCCTCCAGC
TTTGTTCTTTTGGCTTAGGATTGTCTTGGCAATGCAGGCTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATT
GGTAGCTTGATGGGGATGGCATTGAATCTAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTATCCATAAGCATGGAATGTTTTTC
CATTTGTTTGTGTCCTCTTTTATTTCGTTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCACATCCCTTGTAAGTTGGATTCCTAAGTATTTTA
TTCTCTTTGTAGCAATTGTGAATGGGAGTTCACTCATGATTTGGCTCTCTGTTTGTCCGTTAATGGTGTATAGGAATGCTTGTGATTTTTGCCCATTGAT
TTTGTATCCTGAGACTTTGCTGAAGTTGCTTATCAGCTTAAGGAGATTTGGGGCTGAGATGATGGAGTTTTCTAAATATACAATCATATCATCTGCAAAC
AGGGACAATTTGACTTCCTCATTTCCTAATTGAATACCCTTTATTTCTTTCTCTTGTCTGGTTGCCCTGGCCAGAACGTCCAACACTGYTGAATATGAGT
GGTGAGAAAGGGCATCCTTGTCTTGTGCTGGTTTTTAAAGGAAATGCTTCCAGTTTTTGCCCATKCAGTATGATATTGGCTGTGGGTTTGTCATAAATAG
CTTTTATTATTTTGAGATACGTTCCATCAATACCTAGTTTATTGAGAGCTTTTAGCATGAAGTTCTGTTGAATTTTGTCAAAGGTCTTTTCTGCATCTAT
TGAGATAATCATGTGGTTTTTGTCTTTGGTTCTGTTTATATGCTGGATTATGTTTATTGATTTGCATATGTTGAACCAGCCTTGCATCCCAGGGATGAAG
CCCGCTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTTGGTTTGCCAGTATTTTATTGAGGATTTTCRCATCAATGTTCATCAGGGATATTG
GTCTAAAATTCTCTTTTTTGTTGTGTCTCTTCCAGGCTTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTTAGGGAGGATTCCCTCTTTTTCTATT
GATTGGAATAGTTTCAGAAGGAATGGTACCAGTTCCTCTTTGTACCTCTGGTAGAATTCAGCTGTGAATCCATCTGGTCCTGGACTTTTTTTGGTTGGTA
GGCTATTAATTATTGCCTCAATTTCAGAACCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGGGTGTATTTGTCCAGGAA
TTTATCCATTTCTCCTAGATTTTGCAGTTTATTTGCATAGAGCTGTCTATAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCGGTGGCGATATCC
CCTTTATCATTTTTTATTGTATCTATTTGATTCTTTATTAGTCTTGCTAGCAGTTTATCAATTTTGTTGATCTTTTCAAAAAACCAGCTCCTGGATTCAT
TGATTTTTTTGAAGGGTTCTTTGTGTCTCTATCTCTTTCAATTCTGCTCTGATCTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTT
GCTTCTCTAGTTCTTTTAATTGTGATGTTAGGGTGTCAATTTTAGATCTTTCCTGCTTTGTCTTGTGGGCATTTAGTGCTATAAATTTCCCTTTACACAC
TGCTGTAAATGTGTCCCAGAGATTCTGGTACATTGTGTCTTTCTTCTCATTGGTTTCAAAGAACATCTTTATTTCTGCCTTCATTTCGTTATTTACCCAG
TAGTCATTCAGGAGCAAGTTGTTCAGTTTCCATGTAGTTGCGTGGTTTTGAGTGAGTTTGTTAATCATGAGGTCTAATTTTATTGCACTGTGGTCTGAGA
GACAATTTGTTGTGATTTCTGTTCTTTTGCATTTGCTGAGGAGTGCTTTAGTTCAATTATATGGTCAATTTTAGAATAAGTGCAATGTGGTGCTGAGAAG
AATGTATGTTCTGTTGATGTGGGGTGGACAGTTCTGTAGATGTCTATTAGGTCTGCTTGTTGCAGAGCTGAGTTCAAGTCCTGTATATCTTTGTTAACCT
TCTGTCTCGTTGATCTGTCTAATATTGACAGTGGAGTGTTAAAGTCTCCCATCATTATTGTGTGGGAGTCTAAGTCTCTTTGTAGGTCTCTAAGGACTTA
CTTTATGAATCTGGGTGCTCCTATATTGGGTGCATATGTATTTAGGTTAGTTAGGTCTTCTTGTTGAATTGATCCCTTTGCCATTGATCCATTTACCATG
GCCTTCTTTGTCTCCTTTGATCTTTGTTTTAAAGTTTGTTTTATCAGAGACTAGGATTTCAACCCCTGCTTTTTTTTTTTGCTTGATCTACCTTTGCTTG
GTAGATCTTCCTCCTTCTGTTTATTTTGAGCCTATGTGCGTCTTTGCACGTGAGATGGGTCTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATC
CAATTTGCCAGTCTGTGTCTTTTAATTGGTGCATTTAGCTCATTTACATTTAAGGTTAATATTGTTGTGTGTGAATTTGATCCTGTCATTACGATGTTCG
CTGGTTATTTTGCCTGTTAATTGATGCAGTGTCTTCATAGCATCGATGGTCTTTACAATTTGGCCTGTTTTTGCAGTGGCTGATACCGGTTGTTTCTTTC
CATGTTTAGTGCTTCCTTCAGGAGCTCTTGTAAGGGAGGCTTGGTGGTGACAAAAATCTCTGAGCATTTGCTTGTCTGTAAAGGATTTTATTTCTCCTTC
ACTTACGAAGCTTAGTTTGGCTGGATATGAAATTCTGGATGGAAAATTCTTTTCTATAAGAATGTTGAATATTGGCCCCCTCTCTCTTCTGGCTTGTAGG
GTTTCTGCCGAGAGATCCGCTGTTAGTTTGATGGGCTTCCCTTTGTGGGTAACTCAACCTTTCTCTCTGCCTGCCCTTAACACTTTTTCCTTCATTTCAA
CCTTGGTGCATCTGAAAATTATGTGTCTTGGAGTTGCTCTTCTCGAGGAGTGTCTTTGTGGCATTCTCTGTATTTCCTGAATTTGAATGTTGGCCTGCCT
TGCTAAGTTGGGGAAGTTCTTCTGGATAATATCCTGAAGAATGTTTTCCTGCTTGGTTCCATTCTCCCTGTCACTTTCAGATACACCAGTCAGACGTAGA
TTTGGTCTTTTCACATAGTCCCATATTTCTTAGAGGCTTTGTTCGTTTCTTTTTGCTCTTTTTTCTCTAACTTTGTCTTCTCGGTTTATTTCATTCATTT
GATCTTCAATCACTGATGCCCTTTCTTCCACTTGATTGAATCAGCTATTGAAGCTTCTGCATGCATCACGAAGTTCTCGTGCCATGGTTTGCACTCCATC
AGGTCATTGAAGGTCTTCTCTACACTGTTTATTCTAGTTAGCCATTCATCTAATCTTTTTTCAAGGTTCTTAGCTTCCTTGCGATGGGTTCGAACATCAT
CCCTTAGCTTGGAGAAGTTTGTTATTACTGACCTTCTGAAGCCTACTTCTGTCAACTTGTCAGAGTCATTCACTGTCCAGCTTTATTCCATTGCTGGCGA
GGAGCTGCCATCCTTTGGAGGAGAAGAGGCGCTTTGATTTTTAGAGTTTTCAGCTTTTCTGCTCTGGTTTCTCCCCATCTTTTTGGTTTTATCTACCTTT
GGTCTTTGATGTTGTTGACCTAAAGATGGGGTTTTGGTGTAGGTGACCTTTTTGTTGATCCTGCTGCTATTTCTTTCTGTTTGTTAGTTTTCCTCCTAAC
AGTCAGTTCCCTCAGCTGCAGGTCTGTTGGAGCTTGCGGGAGTTCCACTCCAGACCCTGTTTGCCTGGGTATCACCAGCAGACGTCACAGAACAGCAAAT
GTTGTTGCCTAATCCTTCCTCTGGAGGCTTCGTCCCAGAGGGTCAGCTTGCCTATGTGAGGTGTCTGTTGGCCCCTACTGAGAGGTGTCTCCCAGTTATG
CTACACGGGTGCCAGGGACCCACTTGAGGAGGCAGTCTGTCCATTCTCAGAGCTCAAATGCTATGCTGGGAGAACCACTGCTCTCTTCAGAGCTGTCAGA
CAGGGATGTTTAAGTTTGCGGAAGTTGTCTGCTGCCTTTTGTTCAGCTATGCCCCACCCACAGAGGTGGTGTCTAGAGGCAGTAGGTCCTGTTGAGCTGC
AGTGGGCTCCGCCCAGTTCGAGCTTCCTGGCCGTTTTGTTTACCTACTCAAGCCTCAGCAATGGGGGACACCCCTCCCCCTGCCAGGGTGCCGCCTCGCA
GTTCGATCTCAGACTGCTGTGCTAGCAGTGAGCAAGGCTCCGTGGGCGTGGGACCCACCGAGCCAGGCATGGGAGAGAATCTCCTTGTTTGCTGGTTGCT
AAGACCTTGGGAAAATGCAGTATTTGGGCAGGAGTGTCCTGTTTTTCCAGGTAGTCTGTTACAGCTTCCCTTGGCCAGGAAAGGGAAATACCCCGACCCC
TTGCACTTCCCGGGTGAGGTGATGCCCCGCCCTGCTTCAGCTCACCCTCTGTGGGCTGCACTCACTGTCCACCAGTCCCAGTGAGATGAACCAGGTACCT
CAGTTGGAAATGCAGAAATCACCCATCTTCTGCGTCCATCACACTGGGAGCTGCAGACCGGAGCTGTTCCTAGTTGGCCATCTTGGACCAACCGTCTCCT
ATTGTTTTCTTAAGTAATATAAAAAGTTAATGTAATAATTTAAAAACTAAGATCTGGGAACTTGAAACTTAATGTGCAAAATACTTACCATAATGCCTGA
CACATAGTAGATACTTAATTAATGGTATTAGTATCATTCATACCTCACAGTTATTATCATGGTACCAATTAACATAATAAATATACAGATACTTTTAAGT
TGATTTCAGATTTGTAAATCAGAATTTACAGAAGTTGAAGAAGTGAAAGAAAGAAATAGAGACAGGAGACCCATTTACCTTTAATTTATTCAGTGAAACA
CTTTATATATAGTTTAAAGATTATTACATATTTATTTCATGGCATTTTCTTTCTTTCTTTTTTAAGACAAAGTCTTACTCTGTTCCCCAGGCTGGAGTGC
AGTGGCGCGATCTTGGCTCACTGCAACCTCTGCCTCCTYGGTTTAAGCAATTCTCCTGCCTCAGCCTCCTGAATAGCTGGGAGTATAGGTGTGCATCACC
ACACCCAGCTAATTTTTCTATTTTTAGTAGAGGTGGGGTTTCGTCATGTGGGCTAGGCTGATCTTGAACTCCTGACCTCAAGTGATCTACCTACCTCAGA
CTCCCAAAGTACTGGGATTACAGGCATGAGCCACTGCACCCAGCCACATTTTTTTTCAATTTAGCAAAATCACTATACTCTTGTAAAGAAGCTTTTTACA
TGTTTGTTTTCCATTAATAATAACACACAGAATTAAAATGCAATTGTATTCAAAATGTAAAAAGTGAAATGTATTTTCATCAAAAGCACAAATTAAAGTC
AGTGTAAAAAAAAGTTTCCAAATTATTTTCTCTTTTCACTACTTGTAATACTTTATTCTACTTAACTTTTCTTTTTTTAAAAAATAATTTCAAGTTTTAT
TTTAGATTCAGGGGTTACATGTGTAGATTTGTTACACAGGTGTATTGCATGATGCTGAGGCAGAACTTTGGGGTAATAAAGATTCCGTCACCTAGATACT
GAGCATAGTGCCTAATAGGAAGTTTTTGAGCCCTTTCCCCCTCATCCTCTCCCCTCTCTGGTAGTCCCCAGTTCTATTGTTCCCATCTTTATGTCCATAT
GTAGTCAGTGTTTAGCTCCCACTTACAAGTGAGAACATGTGGTATTGGTATTTGGTTTTCTGTTCCTTTGTTAATTTGCTTTGGATGATAGTCTCCAGCT
GTATCTGTGTTGCTGCAAAGGACAAGATTTCATTCATTTTTATGGCTGTATAGTATTCCGTGGTGTATATGTACCATATTTTCTTTATCCARTTCACCAT
TGATGGGAACCCAGGTTGATTCCATGTTTTTGCTATTGTGAATAGTGCTGTGATGAACATATGAGTGTGTGTGTCAATTTAATAGAATGATTTACTCTCC
TTTCAGTATATACCCAGTAATGGGATTGCTGGAATGGTAGTTCTATTTTTAGTTATTTGAGAAATCTCCAAACTGTTTTCCACAGTGGCTGAACTAATTT
ACGTAGCCATCAATAGTGTATAATGTTCCCTTTTTTCTGCAGCCTTGCTAGCATCTGTTATTTTTTTTTTCCTTTTAGTAATAGCTATTCTGACTGGTGT
GAGATGGTATCTCATTGTGTTTTTTAATTTGCATTTCTCTGATGATTAGTGATGTTAAGCATTTTTTTCATGTTTGTTGGCTGCTTATATGTCTTCTTTT
GAGAAGTGTCTGTTTATGTACTTTGCCTACTTTATTATGGGGTTGTTTTTTCCTTGTTGAGTTATGTAAATTCCTTATAGATTCTAGATATTAGAACTTT
GTCAGATGCATAGTTTGCAGGTATTTTCTCCCATTCTGTGGGTTGTCTGTTTACTCTGTTGATAGTTTCTTTTGCCAAACCAAAGCTCATTAGTTTAATT
AGGTCCCAGTTATCACTTTTTGTCTTTGTTGTAATTGCTTTAGAGCAGTGGTCCCCAAAGTCCCTGGTGCCATTTGACACTGGGGACTGGTTTCGTGGAA
GACAATTACTCCATGAACCAAGGCTCTGGGAGGAATGGTTTCAGGATGAAATTGTTCCACCTTAGATCATCAGGCATTAGGGCATTAAATTCTCATAAGG
AGCATGCAACCTAGATCCCTCAGATGTGCAGTTCGCAATAGGGTTCACACCACTATGAGAATCTAATGCTCCCACTGATCTGACAGGAGGTAGAGCTCAG
GCAGTAATGGTCGCTCACCTGCTGCTCACTTCCTGCTGTGTGGCCCCATTCCTGACAGGCCATGGACTGGTAATGGTCCATGGCCTAGGGTTTGGGGACC
CTTGCTTTAGAGGGTCATAAATTTAGTCATAAATTTTTTGCCAAGGCTAATGTCCAGAATGGTATTTCCTAATTTATCTTGAGTTATCTTTTGGGTGTGG
TTAAAAGTAGAGATCCAGTTTCATTCCTTTGCATATGGCTAGCCAGTTTTCCCAACACCAGTTATTAAATAGGGAGTCCTTTCCCCATTGTTTGTTTTTG
TCAACTTTGTTGAGCATCAGATTGTTGTAGATATGCAGCTTTATTTCTGGTTACTGTATTCTGTTCCATTTGGCTGTGTGTCTGTTTTTGTACCAGTATC
TTTATATATACTTTTAAAAAATCATCTCAACAATGCTAGGAGTTAGATAATCATCTTCATTTTATAAATGAGAAGATAAAAACACTGAGAGACTGGCCCA
AGGTTGCACAACTAGTATATGGTCAGGATTCAAATCTAAGTAGTCTGGGGATTTCTGCTTCTGGCTAGGATGGAATAGGGATGGAATTTACTTTAAGGCG
TTTACTGAAAACTGGGACAAAAATAGGAAACCACAGTTTTCAGACATTGGAAAATAGGCAGCACAGGGCAGATCTGAGGGAAGGAAAACAAATGATAAGA
GCTCTATGATTGCCCCATCTTAGGTTCTGGAGAGTTTCCAGGCCACTGTGCAGAGATAAAAAACCTAAATTGAGCTACATGATCTTTGAGCTGAGGAGTT
GGAGTTCAGAATTTGAGAGGCCAAGGAAACTAGAATTTGAAAAGCAGAGTATTGCAGAGCTCCAGAGTTCTGCAGAGGGTAACTTTGCAGTATTGATTAG
CGCATGTGTGGAGGAAACTATACAAGGCCAGAGAAAGAAAATTATTTAGGTGGGACAGTCTCTAGAGTTCACATGGGACTGGGAAAATTTATTTTTCCGT
TAGACAGAGTGGAAAGATACTCTTAATGCATAGTACTTTGAGTAGAAATCTCAGAAGGATTTTGCCTCAGTAGCAGGGCCAAATTAGCCATAGACTAAAG
GCTATTCTGGTTCTGGTTAACAAGAATAAAAGTAAGATTTGAAAAGATCAGACTGTTTCTAAGTACAGTAACGTGTAGCTTAATGACAGGGATATGTTCT
GAGAAATGTGTCATTAGGCGATTTTGTCATGTGCAAACATCATGGACTATACATATATGCACCTAGATGGCACAGTATACTACATACCTATCCTATATGG
TACAGCCTATTACTCCTAGGCTACAAACCTGTAAAGCATATCACTGTACTGAATACTGTAGGCATTGTAACATAATGGTTAATATTTGTGTACCTAAACA
TATCTAAACATAGAAAAGGTTTAAACAGTAAAAATACAATATTATACTCATGGGACCCCTGTCATATGTATGTGGACTGTTGTTGACTGAAACTTCATTA
TGTGGCTCATTACTATATCTTAGCTGCATTCCAGAATGAAGATTCAGAAATAAGTAAAGGAAAACAAAGAATCCAGCTCTGAAAAAAACATTAAATTCAC
AATGTCTGACATCCAATCAGAAATGACTGGGCAGCCCAGGTGGGTTCATTGGTGAACTCTATCAGCCATTTAAGGGAGAATTTATGTTAATTCTCTATAA
TCTCTTCCAGAAGACAGAATCAGAGGAAATGCCTCCTAACTCATTCTACAAGGCCAGCATTATCCTAATACCAAAACCAGACAAAGACATCTTCACCTGG
GTAATAACAAGGGCTCCCATCCTCTGCCATGCTGTCACTAGAGACAGTATGAGGAGCTTGGACATCCACTCTCAACTGGCAGTAATGAGGTACCCTGCCC
TCATCCTGCTCTGACATGACATCCTGGGTCATGTCAGAGGAGGCCTAGTACAGGGTCAGGACTTTAACCACTACCCAGCTGCGTGTTATCAATGGAGGCC
ACATCTGGCCCTGTGGTATCGATGGAGGTAACATGAGGAGCAATAATAAATTACTCCTACGCTTCCCATCCAGGGAGGTGTCAGTTGAGGCCTAATGGGG
AACCAGAACTCCCACCCCTGTTCATTATGGGTATCATGAGAAGCCCTCCCACCTTGGGTATCAACAGAAGTAGAGTGGAGAATCGGGACTACTACCTCCT
CGTGGTAGTAATGAGGTGGCAACACCACCCATCCCCTACCATAGCAATATCACAAAAAGCCAGCTAATACAAACTTTGTTTAAGATCTGGAGTCTCATAA
CTTAATTCCCCAAATGTCCAAGTTTCCATTGAAAATTGCTTGTCACACCACRAACTAGGAAGGTCTGAAACTGAATGTAAAACACACTAATAGATGCCAA
CACTGAGATGCAGAGGTGTTAGAATTATTTGACAAACATTTCAAAGCAGCCATGGTAAGAATGATTCAATGAGGAATTATAAACSTGGTTGAAACAAACA
AACAAACAAAACCCAAAAGACTTAGCAAAGAAACAGAGAATAAAGAGAAGAAAATTGGAAATTTTAGAACTGAAAGAGTGACTAAGAAAGCCTGAGTTGC
CAGGCTCAACTGCAGAATGGAAGGGATAGAGGAAAAAACTACTGAGCTTAAAGGTAGAACATTAGAAATTACCCAATCTGAACAGACTAGAGAAAATAGA
TTTAAAAAGCAAATAAACAGATTCTCAGTATCCTGTAGGACTATAACAAAAGATCTAAGATTTCTGTCCCTGAAAGGAGAAAAGAGGGCAGGGTGAGAAG
GTAATGGAAGAAATAATGACTAAAAACTTTCCAAGTTTGGTAAAGGCACAAACATGTAGCTTCAAGAAGCTGAACACATTCACAGCAAGAGATACCATAG
TCAGGTTTAAAAAAAAACTATAGGAAAATCTTGAAAGCAGCCCAAGAAATTATATCTTACCCATTGGGGAAAACAATTAGAAAACTAGCTCATTTCTCAT
CAGAAATCAGAGGCCAGAAGGAAGTGGCACATTATCAAGTGCTGAAAGATAAGGACTGTCAACTCATAATTCTATATCCAGCAAAAATATCCTTCAGGAA
TGTAGGGGAAATCAAGACATTCTCAAATGAAGGAAAATGAAGGAACTTTTTGCCAGTAGACCTATCCAAAAGAGAAGTTTGTCTAAATAGGAAGAAAACA
GTAAAAAGAAGGAATCTCAAAGTATTAGGAAGGATAAATGTACATGGTAAACAGAACTGTGGGTATATGTAATAGACTTCCTTTTGCTTCATGAATTTTC
TAAATTTTGTTTGGTGGTTGAAGTAAAAATTTTAACTCTGATGTGGTTCTAAATATATAGAGAAAATATTTTAGGTAATTATATTATAAATGAGCAAGGA
CAAAGGGATATAAAAGGAGGTGAAGTTTCTACATATCACTCAAACTGACAAAATGAATTCAGTAGACCATGATAAGTTACATAAATATAATAACTAGAAC
AACCACTAAGAAAGCTATACAAGGAGATACATTTAAAACATTATAGATAAAATGGAATCCTGAAATATGTTCATGTAACAGGCAAGAAAAAGAAAACAGA
GAAACTAAGAGAAGAAACAGACCAAAATGGCTTAACGTATCAATCATAATAAATGTAAATGGTCTGAATACATGAATTAAAATACAGATATTTACAGTGT
AGATTTTTAAAAATGACCTAACTGTACTGACAGTCCCCAGATTACAGTGTTTGAACTTGGATGATTTTTCAACTTAACAATGGGTTTATTGGGATGTAAC
TCCATTGTAAGTCAGGGTGCTCCTTATGACATATGGTTTCTACTGAATGCATGTCATTTTATACCATTGTAAAGTTGAAAAGTTGTAACTTGAACCATCA
TAAGTCAGGGTCCATATGCTGTGTTGCCGGCATAAACTGCATTTTTCACTTTTCATGAGTTTATTGGGATGTAATTGCATCATAAGTCAAGGGGTAACTG
TATGATGTCTATAAGAAACTCCAAGTATAACAGTATAGGCAGTTTGTAAATAAAAGGATATACAAAGCTATATCATGGAATCATTAATTAAAAGCAGGAG
CATCAGTATTAATATCAGATAGAGCAGACTTCAGGGCAAAGGAAAATAACAAAGAAAAATACCAGATTTATATAGAAAGAGATTATATAGTGACAAAAGA
GGTCAACCCAGCAAGAAGACACAGGAATACTAAATGTATGTGCACCAGAGGTGCAAAATGTTTGAAGCAAAAATTGAAAGAACTAAAAGGTGAAATAGAC
AAATCTATAATTATAGTTGGTGACTTCATACCCCTCTCTCAACAAGTGATAGAACAATTAAAAATCAGCAAGGATAAATAAGAACGCAATAACACCATCA
ACCATCAGAACCTAAATAACATTTATAAAACATGCCACCCAAGGAGAACACCCAGACATGTTCTTTTGAAGTATTCGCTGAATGTATATAAATGCTCACT
GAACATATACAAGATAGACCATATCCTGGGCTATGAAATAAACCTCAACAAACTTATACAACTTGAAATCATAATGAGTGAGTTTTCTGACCACAATAGA
ATCAAACTAGAAATTAATAACAGAAAATAACAGGGAAATCTTCAAACACTTGGAAATGAAATGACATACTTAAAAAAATTTATGGGTCAAGGTGGAAATT
TCAAAGAAAAACATTTCAATGAGATTACATTTCAAAAAATACATTGGATGAAAATGAAAATGCAGCATATCAAAAATTTTAGGACACAGCTAAAGCAGTG
CCAAGAAACATTTATAGCACTAAATACATGCATTAGAAATGAGGGAACAAGTCAGTAATGTAAGCTCCCACCTCAAGAACCTAGAAAAAGAGTATCAAAA
TAAAAGTAAAGCAAGCAGAAGGAGGGAAATAATAAACATAGCAGAAATTGAAAACAAAAATAATAGAGAAAATCAGTGAAACAAAGAGCTGGTTCTTTGA
AAAGACAATAAAATTGACCAACTTTTAGCAAAACTAACAAAAAAGATGGAAGATAAAAATTTTACCTATCTCAGGAATGAAAGAGTATCACTCATGACCT
TGCAGACATTAGAAGGGAAATCAGATAATCCTTTGAACARCTCTACTCTAATAAATTTGACAATGCAGATGAAATGAATCAATTTCTTAAAAGGCACAAA
CGACCACAACTCATTTAATGTGAAATTGGCAGTTTGTATAGACCTATTACTGTTAGGGAAATTCAATCTGTAATTTTAAAACTCCCAAAATGAATAGTTA
ACTAGAGAATTTTACCAGGTGTTTAAAGAAGTATCAGTACCAATTCTACATAATGTCTTCCCCAAAAAGGGAAGAGGAATGTTACCAATAGGGGAATCTT
GGTTAAAGGATATACAGGATCCCGCTATATTAATCCTTATAATAATTCCTTGTGAACCTGCCATTATCTGAAAAAGTTTAATTTTAAAAGAAGTAACTGA
AGAAAGAAAAGACATCTTATACAGAGGAACAGATAATGACGACAGACTTATTTTTACAAGTAATAAAAGCCAGAAGACAGTAAAGCAATATCTTTAAAAT
ACCAAAAGAAAAAAGAAACCTAGGCAGTTTGATTCCAGAGCCTTTTCTCTTACCCATATCCCTATGTTATATCGTAAAGGTAATAACAACAAAGAAGGAT
GGAGTAATTAGGTAACACTACCTTTCCCTCTTGTGTGCCTTGGGGAATTGAAGTGCTATCATTTTTTGAAAAGGAAATCAGTCACTATTCCTAGTCCCTA
TTGTTTCTGTTTAGTTTCCTTTACTTCAATAACTTTTTAAAAAGTAATATTAGTTAACACATTGTCTTATCTGTCAAGTAAGTTTGTATTTAGAATAGAA
TAGAGTAAATGTAGAGGTAGCTGCAATACAGGCAGATTTAAATAAAGTTCATAAAAGAGAAATTTAAACAAAGCCCTTTGGAAATTTAGAGGAAAGATTG
AGAGCACAAGAAATTGAGGACATCAAGGAAGATGACATGTAAGTCTGATTGAGAATGGCGGAAAAAGAAAGAGCTGAGGCTGTATCCAAGATCTGTGCCA
AATGTCTGGGACACAAGTGGTGTTATGGCAGTGATTGAATGTAATAAGCTCTGCATCAGCAGAGGTTTTGTGTTTGCTTATCTGCTGGGTTGTATCCTTA
CTACCTAAAACAGTTTTGGGTACTTAGTAAGTACTCAGTAAATATTTGTTGCCTGAATAAATAAATGAATAGCAAAATTAGATGGCAGTTTTGTAAGAAT
GATTTGATATGTCTGGTTTAGGAGTTATAAACATGGAATCTAATTTTCAGTCATCAGCTAGCTGTCATCCAGTCTCATAGCTTCAACTATCACTTCAGCT
ATCACACAGATGCCTCCCAAAACGTGGAAAGAAAGCAATAATATGGGAAGTATGCAGGTCAAGAACATTGTGAACTGTGTGACCCTATGTGTAAAATGGG
GACTACAAGAGAAATTATTGTTAATGTTGATTTTACATGTAGAGCACTTAGCTCAGTATTTGATCCATAGTAAGTACTCAGTAAAGGGCACCATTGTCTG
AACTTGAGTTACACATTGACTCCTGACCTTAGATGAGCCATCACACCTCTAATATAGCACATTAAAACCATATCAGGTTACCTCATGTAAAAGGTAAACA
GTATCTTAAAGATCAGCTAGCCCAAGTTCTTCATTTAAACTGAGGACAGAATACAGTGGATAAAAAAGTAATCCGGGACCAAACCAGGAAGTAATAGTTA
TTTGTAAAGCGTGGGAGGAAAAATAGGAGAGAAATACTAATTAGTTGGGCTTTTGAGGACTTAACTCTAAATGCCACAGCTGCCTTCAAGGATAAATTTT
ATTCTCTGCAAAATAATATTTGTCTGCTGGATAGCTCTACCTATATTTCTCATTGGCATTTAAATTCAGCATGTCCAAAAACAAACTGGAATCACTATGT
GTTAAAACTAAAAAGGTTGTTAGAGTGCATGTAATTCAGTTTCCCATTTTACAGGTGTGGAGAACAGATCCTGCCCTGGGGTGGAGGTCTTAAACTTTTT
AGATTCATTGATAGTGCTGTGATCAAACAGTTGTTTCTTGGACCACTTTTGCCTAAGGTTTTGGAGCATTTCTTTAGTTTTTTCTGTTTTTGTTTTTTGT
TTTTTTTTTTTTTTTTTTGCAGGGCCGGGGAGCTTACAGTGAGTCTTTGATGTTCATCCTGGCTACAAACAACCTCTTGTCCTGTTTTGAGCAGTGGTTT
TCAACTTCTTCTTAACAAACAAAAAACCCAGCTGAATCATTTACTTAAGTTGAATCATTTGAAGAAACCCCAGAAAGAGACTAAAAATAGAAGCGTATGG
TTAATGCCAGAAATTTGGTGGGGGTGGTGGTAGGGGATAGATAGTTGGGGAGATCAGGAAAGGGAAAGAATGAGTTCTAGACCCTGATTGCTTGCCCCTG
GTCTCCAGAGGTGAGGAGCTTCTGAAATGCCTNAGAGGTTAGGAAACAGTTTGAAACCCACTGATTTGGAGGCCCACGAAGTCCAGCAGTGATAATTGGC
ATGAATGACAAGACCACTGGTGTCTCTGCTCTGCAAGTTCCCCAGTGACTTTAACACCTGCCCTGGAGTAATGATTTTTCAATTCTTCTTGAATCTAAGA
ACTAAGAACTAGGCCATCATTACAATTAGGACTTTAATAAACTCTCAGCTATCATTTAAAAACTCTCATCAATCACATTTGCTTTTATGTACACAGACAG
GCAGTTTTTGTGTGAATTAAGTTGCCCTGACATAGATAATTTTATTAGTATAGACTAGCTCAAGAATTACAGTCATGTGAGGAAAAGCTTTGGAGTAGTC
AGAGTTTTGGTCATGAACCCCTATAATGTTATGATGAATTTTAAAATACTTGATGTATGTTTAGTACTTACAGTATTATAATTTTAAATTTTAGTCAGCA
ACTGATTAAGCCCTGTTCTAGACACCACGTGGAGATACAGGGAAAACAGGACACAGTCCTTGACCTCACATTTGAGTCCCACTAAGAACAAAAAGATAGT
GATACTTAAAATTTTTTCCTTTGTACTTTGTTTCAGCACCTGAGCTTTGATTTTGTGCATTTTTTAATTTTACTGACTTGTAAAGCATGTTCATGACTGA
AAATTTAATAATTTAACCTTGTATGCTTTCTTTAAAATTATTATTAGATTGCAAGACTGGAGGAAGATAAAGAAGAACTACGTAACCAGCTGCTTAATGT
TGATCTCACAAAAGACAGCAAACRAGTGGAACAACTTGCTCGAGAAAAAGTCTATTTGTGTCAAAAATTAAAAGGTTTAGAGGCTGAAGTAGCGGAATTA
AAGGCTGAAAAGGAGAATTCTGAGGCTCAGGTGGAAAATGCCCAAAGAATACAGGTGCGGCAGTTGGCTGAGATGCAGGCTACAGTCAGATCCCTGGAGG
TAAGATTCTAATTACTTCCCAGTAGAGTATGGCATACTTTTTTAAAGTGCAGTTGACAAGCCTTTGATTTTTAGAGCATAAATGTATGCCCCCCAAGCTA
ATGCTGATGCATTTGTGTAATCCCAAGAGTATTTATTCTTTTAGTAAAGAAGAAAGCTATTGATTCATAAGCAATACGTATGCTACCACATTTACAAAGG
GGTATTTATTCTTTGGGAGTCAAGTCACCTATCTGAAATGTCTTAACTCTTAAAATGCCACATAATAGAATATGCAAAATAAAAATATATGTATTTGAGT
TTCYGAGCGTAAAGTCATCTCAAACCAGAAAGAATAATTTCTTTCAAGATAGTACATTCCTTACACTGGGATTTGAGGTCTTAAAGTCACAAATCCTGTT
TGAACAGAAATACCATACTGATGTATCTTACGACAGCTTCTTGCCAGAGTAGTAAAATCCAACTGTAAAGGTATACATGCCTTTACAGAATTATTTCCCT
GGGTTCATTAGAGAAAGATAAGTGTTGGCAGACCTGACTGGTACTCCTACGGGTATTGCCTTATGAAAATTCTTGGTTTCCATTTTATTCAGATACACTT
ATTCTTCTTAGTTCTTAGTGCCTAACTTGTAGCAAACATACCTGTTTAATTGTTTTTATTTATTTTGTATAGTTCAAAGTGTTTCTTTTTCCTTTGGAAT
AGTTATAAAATGATTTGGGTGGGGGGGACATTAGCGGGCATTTAATTTGTAGTTAAAATCAATATCCAAATCCAAGATGGTGATTTTTTTTTTCCCCAGC
CAGTGGTACAGGAGTACAATGGTATGTTTTGAAGAGTAGAAGTTACTTTTTATTTTGTTACATGAYGCTCTGTCAGTATTTACTGGTTTTCTGAATTAAA
AGTTGTCAGTATCATTGTACCTTAAACATGAAGCAGTTCATTGTGAGACTATTTATGTTGCCATCCTTCCATCCTTAATGTATTTTACACAGTGACAGAA
TAAGTGAGATGATTGCAGTTGAATATAGCATACAGTCCTGATGTGAAACTTYCCATTGAGGTCCTTTAGAGTGATTATTTTCAGGGCAAGTTGAATGATG
ACARAAGATTTATTTGTGACATTTTCAGAAGAGCCTATATTTAATTTTATTATTTGTCAGATGAAATGAAAATAAGCGTATGACAGCAAGCATTTCTTTC
TTCTTTAACTTTCTTGGCTATCATTGTGCCCAGAGAGTATTATTTCATATATGAAGAAAATAGTTTTTTTCCCTAATTGTTTGTCGAATATAGTCCTTAC
CACATTTAAGCTAGATGTTCCCCAACTTAAGGTGGTTTGACTTACTATTTTTTGACTGTCCGATGGTGTGAAAGCCATATATGCATTTATGTACTTTGAA
TTTTGATCTTTTCCTGGGTTACTGATATGTGGTGTGATACTCTTAATGCTGGGTAGCTGCACTGAGCCACAGTTCCCAGTCAGTCATGTGGTCATGAGGG
TAAATAACCTCTTTACAGAGTACTGTGTCGCCAAATGATTTTTTCCAACTGTAGGCTAATGCACGTGTGTTGAGGATGCTTAAGTTAGGCTAGTCTAAGT
TATGGACTTAGGTATTTTCAATTTGTGATGGGTTTATCAGGATGTAACCCCATCATAAGTCGAACAGCATCTATATGTACGAAATGAGATGTTATAAAAC
TGAAATTTATCCTTTAAATGCCAAAATGTCTTCATTTTAATTATGTTGAGGTCAGGTGTGGTCGCTTATGCCTGTAATCCCAGCAGTTTGGGAGGCTGAG
GTAGCTGGATCACCTGAGCTCAGGAGTTTGAGATGAGCCTGAACAACACGGGTGAAACCCTGTCTCTACAAAAAGTACAAAAATTAGCCAGGTGCCATGG
TGTGCACCTGAAGTCCTAGCTACTCGGGAGGCTGAGGCAGGAGAATTGTTTGAGCTTGGGAGGCGGAGGTTGTGGTGAGCCAAGATCGTGCCATTGCACT
GCAGCCTGGGAGACAGAGCAAGACCTTGTCTCAAAAAAAAAATATATATATATATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTA
TATATGTATATATATTATGTTGAATAGACATGTTTTTTCAAAAAAGATTTTAGTTTCCCTCCCCTCATGAAAGAGTACTATCGATATTACCATCCAGAAA
CTTTTTTGACAACCTGCAGACTTCATTAACAATCTTAATTGTGTCATGAGATCAAGAGCCTCTTTGCTCGTACTTAAAAAGTCTGCAGATGAGCTGAGGA
TTTTGAAATCATATCTTTCCCTGTTTCTTTTTTTAAAATCATTGATTTTAGATTTTCAATTTTTACTTGTTACTATCAATGAGCCCTGTCTTCTAGTTTC
TAATATGCTTTTTCTTATCTGTTATAGACTGGAAACTTCCAAAATGTTTGAAATAAGTCAGTGTTAAGAGTAAATAGACATCAAATGAATGCCTTAGGTA
CTTTCTGTCGTGAGAGAAGTGTATAAACTTTATTTTATTGATGGTCATTCATATGTTGTTTGTCTAGATGCCTTTGTTGCATATTTCCTGGAACACTATC
TTTCGTTTGAATTCTGCCAATTAGTTTGAGAAAATTTTTGTTACATTGGTATATGTTAAGTTGAGGTTTTGAATAATTTTAGTATAATTATAAATGTATT
TTAAATAGTGCTTATTTGATTTTGAAATACTTGAAAAATGATGAATTTTAAACTATTTTGTTTGTATGAAAGGCTGAAAAACAATCAGCTAATTTACGGG
CAGAACGYTTGGAAAAAGAGCTACAATCAAGCAGTGAACAAAATACCTTTTTAATTAATAAATTGCATAAAGCTGAACGAGAAATAAATACATTGTCCAG
TAAAGTAAGTTGTTTTATGTTTCTGTTTCATTCTTTAGAATGTTTGTTAGTATATAATGATAAATTTTATTTTTAATAATTGATTTCTTTATACTGAAAT
GTTTTATTATATCATTCTGCCTTCTAAGAAATAAATACATTGATCAGTAGAGTATGTTATCTTATGCCTCTATTTCATTCTTTAGAATGCTTGATACTGT
ACAGTGACAAATTTTGTGTTTAGTTCTCTGTATTGAAATATTTTTAATCCTTTATCATTCTACCTTCCAAATACATGCAGAATCTGATCAATTCTTATGA
CATCCACTGTGACTATTCCAGTCCAAGCCATGATTTTTCTAGGCTCCATTTCTGTGCTAGGTTGCTAACTGGTCTTTCTGCTTTCTACCCATTCAGAGCT
CTGTATGATCTGGATCCTGCAGTCTTTTCACAGCCATGACCTGTATTTTTCCTCCTGTTCACTTTGCTCCCTTTGGCCTTCTCACTCTTTGAGCAAACTC
ACATCTTGCTCAGGGTTTCTGCACTTGTCTGAGTTTGGCTCAGTCTTCCCTCACGTATCCACATAACTTGCTTCTTCACCACCTAGATGTTGCCTAACCA
GGGAGGCTTTCCTTGTCTTCACATTGTAAAACAGCATCTTCCTTCTTCCTCTGTCTTTCTCTCTGTCTTCCTTACCTGCTTCATAGCTCTTAATACTATC
TGATATAGTTATTTGGTTTTTATTTTTTGGTCTCTCCTTTTCTTTCCCACCACCTTCCCCTCAACCCAATGTAAGCTCCAAGAGAGCAGGGACATTGTTT
TCATCACTACTGCTTTTCCAGCTTCTAGAATGGTGCCGGCACATAGTAGGTACTCAAATATTTCTTCAATGAATAAATTAGTAGTAGCAGCATGATCTAC
ATTTATATTCTCCTTAACAGACTGGATTCAAATTCTGATTTTTTCATTACTAAAAAAAGCTGTGTGACCTTGGGCAGTTCACTGTCTCTCTGAAACTTAA
GTGCCTTTGTCTATGCAATGGGACTAATACCTACATTACAGAGTTGTGGCAAAAATTAAATGTAGCTGATGATGAAAATGATAATAGCAGTGATTATACA
CTGGTGATATCCTTAAATAAGAAAATATTGTAACATAAAGAATACAGAATTTTTAGTCCATTGACTAGTCTGTGTCTCACTGTCTCAATAACTATGTGTA
ACCTAAGGCAAGTTACCTAATATCATTAGGATCCAATTTCCTTATATCTGTAAGAACCCTTCCAGCCTACTAAGACTGTGTAAGAACTACTAGGAAATAA
TTTGATTGCCTCCTGATTAACTGTAAGTAGATTATATATTCAACAGATACACATTGAAAGCTTATAACTATAGAGTATACAAAAAAATAGATACAAAACA
CAAGTAAATTCAGGATATGGGGAGTTTCCATGCTTTTCTTCCAATTCCAGTATAAATTATTTTCAATTTTGTGAAATAATATTGAGTACGTAGTATTTGC
AGCACATTGTTCTTGACCTGAGTAGCCAGACTACACTGCTGGAATAATTGGAACCACAGATGTCGCAATAGGACATGGGATGTGCTGGCTTCTGCTGTGG
CTTCTCTCTTGGGGGGGYCACCAAGTATAATACTTTTCATGCAGTACATTTTACCTGAGCTCCCTAGCTCACCTGTGTGCTGACCCTGATTTTTCTTCTT
TTTTTCCATATATATATACTCTTCCCTATTGCTCTTTCCTCTTAGAGTTAGAGCCTAGGTGATTTCTCCTACTCCGCTGAAGAAAGAACAGCAATCTAGT
ATAGTATTTATTTCTCTGTGCTTGTTTATTAATACACATTGCTAAGAGTTGCCTGTCTTTTTAAAGGCACACTTGCCTTATTTTGCATATAAATGGAGTA
TTAAATACCATCCTTCAACTTTAAACAAACCAAGTTTCATTTGAAGTCTTGTATGTAAAGATTCCATTGGAAGGGTAGATTTTAAAATAATATTTCAAAC
ATGACTGCCACAGTTTTCTTTGCAACTTGAAGTTTTCATCAACATTTTGCAATTCTAGCAAATGGTTGTTTGCAGTGCAAAGGAACACCTGGGGTGTGTT
TGTCTTAGTTACTCAAATTCATAAATGTTTGTCAGATTTTAGAACAAAGTTATGTCAGTGTGAGTATCAGTGTCTTGGATTAAAAGGTATTACCAAAGAT
GGCCTGAAAATGATGACCTTAAAGAGATTTCACATTCAGTGAGGTAAATTCTTCTAGTTCCCTCATAAGGTTTTTCATTTTCAGAATGCCAATAAAAGGT
AGTTTTAAGAAAGCCACCCAACAGAGTTGTCCTTATTTACCTAAATTAATTGGGTAATTACATCTCAGAACTTTGAAAAAGATCAAGATTTAAGTACCAT
CTCTTTGGAATCTGTATCCAGAGCTTCTTAGGTAATACATATTGTCAATTATATTTCCATTTCTTGCTTATTTATGCTGKGCTCTTGTGTGTCTTTCTGT
GAGTATGTGTACTTTAACAGATACTGACCCCCTGTAAAATGCCCAGTTTTGCCAGTTTTGACATTTATTAAAGTTTTGTTAGTAATATCTGAATACTTCC
ATTGTGTCAAAACATAAAGCAAATTCACAACATAAAGGCCAGAATCTATATGGCAAACATTCTGTGAAGAACAGGGTGACTTGGTCCAGTGGAGCTTTAG
GAGACCATGAATTGCTTGAAATTTTATGCAACATTTTAACATGAGCATTTTATTTAAAAAAAAAATCCCTAATTTTCCTAGGATTTGGGACTTGATCACA
AAGAAGATTAAGAACCAAGGATCTAGGGGCAGAAAGAAACTTTACTGTAACATTTGGAATTTGGTTCAGATTACTCATAGAAAAGTGCTATTATTTGTCA
TTACTGGGTAATACATTTTCATACGTTAAGTAAAATTCCTTTTAGTATATTTTTAGGAAATTAACAGTGTTCATATAAGTGATGCATCAGTGATGTTAGG
ATAATAGAAATAAGGCAATAAAGAAAAACTTTAGATCCATAAATGAGTACATTTGAATGCAGAGAGGACAGGTAAATTGCTTGAGCATATACCACTGGTT
TAACAGCAAAAGTAGGCCTGAAGACAGACCTCACTTGTTGCTTGACTTCCTATTCGGTGTTCTTTCAGTTTCAATAATTGTAGTTTAGTTAAAAATGTCG
TCTCATTTCAGTAAATTTCAGGGTGAAATGAATAAGAAATAAGTTTTTGTAGATCTTTTACCATGAGATGAATCAACTTCCTATGAAATAAGATGGCTCT
AATTTTCCACCTCATGCAGCTATAGTATGTTTGTTAATGAAATGCTGTGTCATTCTTAACCTTTTACAGTTAGTATATAATAGCAGGTTATAATTACATT
TGTCATAGTGATTGGATTTTCTTTGTAATCATATTTCTTCAAAATTTTAAAGTATTTATAATTTAAATTCTATCTGTCCATGAAATTATAATGTAGTAAA
ATCCAATCTACAGAAAGTTTAAGTATTAAAACAAATTATCAGCTGTTGTCATGTAAACATCATTTTATAAAACTTGCTTTTATAGAAAATAACTTCCAAA
AGGAAATTAAAACCACAGGCCAGGTGTGGTGGCTTAACGCCTGTAATCCCAGCACTTTGGAAGGCCGAGGCGGATGGATCACGAGGTCAGGAGTTCAAGA
CCAGCCTGGCCAAGATGGTGAAACCCCATCTCTACTAAAAATACAAAATTTAGCCAGGTGTGGTGGTGCATGCCTGTAATCCTAGCTACTCAGGAGGCTG
AGGCAGAGAATTTGCTTGAACCCAGGAGACAGAGGTTGCAGTAAGCTGAGATTAAGCCACTGTACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAG
AAAATAAATAAATAAAAATGCAAAACTGATGTCAGCACAGGGTCACCATTTTATGTACGGTCATTTAAAAATCTACGAGTTAATTTGGAGGGATGTCTTA
TTGTAGTTACCAGTACATAAGGCAGTACTCACTTTTCTGTTTATTTCCTTTGGATGAGGATTTTGCATGAAACTATTCCTTGAAACGTTTTCAGGACCTT
TTGTTGATGGAATATCTTCCAATAAGACACTTCTATTTCTTATCCTTGCCCTCTTTGGCTCTAGGACCTTTTTTTGATTTGTGTCTGACTCCCAACTCCA
GTATTTATGGGGTTTTATTGGACTCTTAAGTAAATTGTCTTTTATTTTCCTGTTTCTGCCATCTCACATTTTCTGTATTTGATGTGTATGTATTTGTAGT
TTCCTACTCTGATTCCATACTTTTATATATTTGGATAATATATCAGAAAATGGGTTAATCTAACCTTTGTGTTTGTATTGATTAAATCCTTATTATATGA
CTATATCTAATTTTAGAAGCTCCTTACCAAAGAGAAGGGCTATGGAAAATGAATTTATATGATTTATACTTGTTCCTGCCCCCARTCCCCTACCTAATAC
TTGTGCACATGCGCACACAGACACAGTCTATACACATTACACTATTTTGTCACCAGATTCAATTGATTCTTCCTTCCCCCCTCCGTTTATTCATTTCTTG
CCTCTTAATTGATTTATTTACCTTCAGTTTCTTAAGCCAACAGATTCGCATTAGTTAATTGTGCCACCTTCAACAGCTAACCTGAAAAACAACCCTTTTG
TATGGTATATAAAGTTTATTCCCTGCCATTCCTCCACAGATTTCACATCTTCCGGTGCTCTACATGTAATGCTTAGCTTGTTTTAAGAGCAGACCATGTG
ATGTTATACATATAATAACATTTTGTATGCTGTTCCTTCTACCTAGAATACCTTCTTTGTCCCCAGCACATTTTTTATTCTTAAATTTAATTTTAATTTT
TTTTTAGAGACAAGGTCTCACTCTGTTGCCCAGGCTGGAATACATTGGCACAATCATAGCACTGCAGCCTCAAACCCCTAGACTCAAGTGATCCTCTTAC
CTCAGTCTCCCCAGTGGCTGGGACTAAGGGGCATGTCATGTCTGGCTAATTTTTAAATTTTTTTTTAGAGAAAGGATCTCACTATGTTGCCCAGGCTGGT
CTCCAACACCAGGCCTCAAACACTTCCTTCTGCCACAGCCTCTTGAGTAGCTGGGATTTTAGGTGCAAGTTACTGTATCCAGCTGTGGACACTTTTTAAA
AGGAAGGTTTCAGGCCAAGTGCAGTGGATTACAACTATAATCCTAGCACTTTAGGAGGCCAAAGCAGGTGGATTGCTTGAGGCCAGGAGTTTGAGACCAG
CCTGGTCAACATAGCAAGACCCTATTGCTACAAAAAAATTGAAAAATTATCTGAGTGTGGTGGTGTGCACCTATAGTCCTGACAGCTACTTGGAATGCTG
AGGAGAGAGGATCACTTGAGCCCAGGAGTTTGAAGTTGAAATGAGCTATGATCGTGCCACTGCACTCCAGCCTGGATGACATAGCAAGACCCTGTCTTTT
AGAAATATTAACAAATTTTAAAAGTTTCAGGGTTTTTTCCCCTGCAGATTTTCCAATCATTGAGTAGTTGATTTTAGATACTTGTAATTAAGTCTTTAAG
GCAAGATTAAGCCAAAGGACCATACACAGATATTCGTAAAGAAATGCCTCTGTTCTGTTAGGAAAGAACAGTATTTTCTTAATGTCTCCTTACTTGAAGT
ACTGTTGCAGGCACTGACACTTCTTTCTTCTTGGAAGATACTTAGACTCTACTTTACTACCAGAGCGTTTTCTTGTTTCCACTTATGTTTTGGGGTAAGT
ATTGAATGGCAAGAAAATGACCAATAGTAATTTCAGTTTTTAATTATCAACAGGTAAAAGAACTTAAACATTCAAACAAACTGGAAATAACAGACATCAA
ACTGGAGACAGCAAGAGCTAAGAGTGAGCTAGAAAGAGAAAGGAATAAGATTCAAAGTGAACTGGATGGTAATATGTGATTTCCCTTGCTGCTGCTGCTG
CTGCTTATTTTCAGATATGAACTCAAATTATTAAAATAGTTGAATCTGAATTTTTATTTCCAAATTTTCAACTTAATTTAGTTTTAATTTTGGAGTACAT
ATGAAATGTTTATTATATGTTGAGTGTTTTGTTCATTGTAAGATTTAATAACTTTAAAAAAATCAGTCTTATGTTTTTATCATAGTTATTGGATACATAA
ATGAATTTTGTAAATGGGATGCCATACTTCCTGATTTATAAATTTTAAATCTATTTATGGTGTAGTTATTAGTCCCAGGACATTTTAAGTCTGGAGAATG
TGAGGAAGATAATTGGGTTCCAGGCTTAATTTTTTTCAATTAAAAAGATTTTTTTATGTAGACCTCAGGCCAGTTCATTGTAGCCTAGTGCAGAGTAGGC
TTATTTATTTATTTTTTATTTTTATTTTTTATTTTTGAGATGGAGTCTCGCTCTGTCCCCCTGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGGAAG
CTCTGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGACTACAGGCGCCCACCACCAGGCTGGCTATTTTTTTGTATTTTTAA
GTAGAGACAGCGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCTGCCTGCCTCGGCCTCCCAAAGTACTGGGATTACAGGCATG
AGCCACGCCCAGCCGAGTAGGCTTATTTTTAAGTTCCAGTTTAATCTTGGAACATCTGTCTCATCAGATTTCCTCATTATTTATGTTGTTTCTAACTTGA
AGTATTTAAATAAGCTTACCTTTGGCCTGTAGCTATGCTTGAGTTGATCTGTAGTTGAACTCATTTCAGACAGAGTTTATGATGAATGCCTTTCATGTTT
TGAAATGGGGTCTCACCATGTTGCCCAGGCTAGCCTTGAACTCCTGGGCTCAAATGGTCCTCCTGCCTAAGCCTCCTCAGTAGCTGGGACTACAGGTGCT
AACACCGTGTCTGGCTGCTATGAATGATTTTTTCCAATTGTTAATTTCTATTTATTGACTCATGGATTTCCATAGAGTTAAGAAGTAAATTTTTTTAGGA
ACTTAAAGAATGCTGCATTTTGTTTTCACTTTGAGTTAGATGTGAATTTGCTTTAGTTATTCCATCTGCAAAGTATTTGCCATTTCATTGCAAAGATTTC
TGAATTCATTGTACAAACTTGAAAGTGTCCATGTTATTTATACTTCTGCTAGAGATCTAGCAATTCTGCTAGAATCAATAGGTTTTGAAGGGTTTTGTGA
TTTATTTCACTCTGCTATCAGCCAGCTTTTTCTATGAGGCTTAGGTCACAGAACCTCTTTAGAGGTGAAGTAAGTAAACCTCTGGTTATCATCCAGTTTG
ATCTCAACTCTCAATGTTCGAATGAGTAAATGTATACAGCTTTTATTAAAGTTTTTATATGTGTATGCACTAAATAAACAGTGACAGGAAAATTTGCTCT
GAGTTTTAGCCTGTTTCATTCTTATTTTAAGAGTGTTTATTAATGATGTGAGTATTGTTGAGAATATATATTTGTAGAGACTTTCTACATTCATTTGTCT
TACCAGCTTATGAATGCTTGCTGTTAAATGTGATTTTTCATCTTAATAACATTGAATATAGTACACTTTTCTCCTTGAAAAACACTAGGATTACAGTCAG
ACAATGAAATTCTCAAAGCAGCTGTTGAACATCACAAAGTGCTCTTAGTAGAAAAGGATCGTGAATTAATACGTAAAGTACAAGCTGCCAAAGAAGAAGG
TTATCAAAAACTTGTGGTATTACAAGATGAAAAGTAAGTACTTAATTACCTTAGTTTGACTTAAATATCCTTGCAAATGAAAACATTTTGCTGTCATATC
ATCTTTATTATAGTTCTTGTAACATAATTATGATCTCTTGTTTTAGGTTAGAACTCGAGAACAGRTTAGCAGATTTGGAGAAAATGAAAGTGGAACATGA
TGTCTGGAGGCAATCTGAAAAGGATCAGTATGAAGAGAAATTGCGGGCTTCACAGATGGCAGAAGAGATCACCAGGAAGGAGCTTCAGAGTGTTAGGTTA
TATATACATNTATATTTAAAGTTTTTCATGTTGAAATAAGGTCAGAGTTAACAAAATGATGTACAACTAGTACAAAGAATTCCCATGTGCTCTTCACCCT
GATCTCCCAAATACAAATACCTATGTAACCATATTATAATAATCAAGATTAAGAAATTAACATGAATATAATCAGGAAATCAGGCATTACTATTATAAAA
TCTATTAACTGTACTTAAATTTTACCAGTTGTCCCACTGATGTCTTTCTTCTGGTCTAAAACCCAATTCAGGATCACATGTTGCATTTAGTTACTTTTAA
TCTGGAACTTATGAACACTTTGACAAATACTTGTCAGTATTTTGTATATCCTCTCTCATTTTGGTTTTGTATTGCATTTTTCATGGTTAAATTCAGGTTA
GGCATTTTTAGCAAAACATCAAAGTCATGTGTCCTCAGTGAATTTCCATGATTTGGCCCCTTAACTGGTGATTTTAACCTTGATCACTTGGTTAAGGTGG
TATCTGCCACATTTTTCCCCTATAAAATTACTATTTTTTCCCTTTGTAATATATAATTATCTGTGGTTGCCCATATGATATTTCAAGTCTGTGTAAATAT
TCTCATATTTTGCCTTTATATAATCTTCCATTAATTTTAGTATCCATTGATAATTCTTATCTGAAACAGTTATAACTCTAGCATTTGCCAAATGGTGATC
TTTCCATTTCTATGATCCTTCCTCATTTATTAGTTGGAATTCTCCTGAAAGTAAGTGCTTTCCCTTCTCCTCTAAATATATTTATATCATTATGGATTTA
TACATTCATATTTTTTCTATAGATTATAAGATTTTGTTATTTTTTTTGTTGCTTAACTTTTCTCAGATTTGGCTATTGGAAGATCTTTCAAGTTGAATCC
CATGTCCTTTTGACATAATCCCACCATTTATTGTGACTTTTTTCTGTCATTACAGGATGTTCTGTGATTCTCTTTCACTTTCCCTGCCCCAGCCCTGGAA
TTAAACATTTATCTGAGGTGCTTTGATTCCTTTTTAATTGGAGAATGGCATTTAGAAACCAAAATCTCAACTCTAGGTATGCTTATTGGTACTAGAGAGT
CATTGCTTCTAGGTCCTCCCAGTGAACTGAAAATTACACATTTACATCTATTTCTTTATTTTTTCTCTATATTAATAATCTTGAGTTTACATTGATATTT
CCAGTTCTGTTCCAGCACCGTGGAGTTCATTCTGGTCTTCCTCTTTTCATACTTGCAATTCTTTTGACAGTGAGAAAACTGGCATTCATTATTCCTACCA
TATTTACTTATTTCCTCAGTCCTAAAATATAAAGTTGTTTTAGAATTGCTAACTCATCACTCAATGAAAAACAAACCTATTAACTTACATGTAATATTTG
TGTATAGTTGTTTTTATCTTTAGCCTTAGAGTATATAGTCAAAATATTATTTTCCAAAGTTACTTAGGATTTTTCTCACCAAATTCTCCTTTAATGTGGT
TTGTTATTCACTTATAAAGCAGGTTTATTCTTTCTATTCTATTCTGTTTTGAGTCCATACCTCATCCTTGTTTATTTATTTATTAATATGTTGGGCATTT
GGAATGTCTACATGGTTCTAAAGGACAGAACTATAATACACCAAAAAAAAACAAAAACAAAAAAACAAAACCTTCAAAAAAATGCCACTTCCCACATCTC
CTCTACCCTGTTCCCATTTCCCTCATCTTTTCTCATCTATCCTGCCCCATGTGAGATTAATCTCATTAGTTTCTGGTTTAGACTTCCTACATTTTTTGTT
TGTTTGTTTTTGTTCCTCACAAATACCAGATGTCATTGTATTTTTCCTTCTTTCTTATCAGTGCACCCTGGAAACTGCTTCAGATTAGTTCATAGGGATT
AGCCTCATTCTTTTTTATGGCTGCATAGCACTCCACTATGTGTATCTATCAGTGTTTAGTGAAATAGTCTCCTAWGTTCATTTAATTTCCAATATTTTGT
CTTTTTTTTTTTTTTTTTTTCAAACACAGTCTTGCTCTGTTGCCCAGGCTGGAGGGCAGTGGGGCGATCTTGGCTCACTGCAGCCTCCGCCTCTGCCTCT
GGGATTCAAGTGATTCTCCTGCCTCCTGAGTAGCTGAGATTACAGGTGTATGTCACCACAACTGGCTAAATTTTGTATTTTTAGTAGGGGTGGGGTTTCA
CCATGTTGGCCAGGCTGCTGTCAAACTTCTGGCTTCGGGTGATCTGCCCACCTCGGCCTCCCAGAGTACTGGGATTATAGGTGTTGAGCCACTGCACCTG
GCCTCCAGTATTTTGTGATTACAACTAATCAATAATGTTGTACATGTAAATATTTTCATTTTCTGGAGGTGTATCTTCAGGGTGAATTCCTGAAGTAAAT
AGGTGGGTCAAAAGGTAAATCATACGCAGTTTTGTTAGATATTGCCAAATTTCCATCCAAGAGAATTATATCACTTTGCATCTTAGTGTAGTTTAATTTG
CATTTCTCATATTACAAATGAGATTGAACAATGTTCCATGTGTTTAAGGGCCATTTTTATATCATTTTTGTATGTATTGTTTGTTCTTGTCTTTCCCTAT
TATACTTGGTTTTTTTGGCCTTTTTTCCCTTGCTTAAAAATTTTTTTTAAATTACCTTACTTTTTAAGAGTTCTTTATATATTAGGATTATRCTGCAGAT
ATTTTCTGCCAGTGTGTGTCAGCAGTCCTTTGATTTTGCTTCCGYTATTTTTTTGCCATGCAAAAATTTTTATTATGTAATCAAATTTAATCTGTTATTG
CCTCTGGGTATTAAGTCAGAGTTAGTACTCTCTCCCTGAACTGAGGTTAAAGAGGAATTCACTTCTTTTTGCTTGTATGGTTTCATTTTTTACATTTAGT
TCTCTGATCTATTTGAAGTGTATTCTTTTGTATGCTGTGAGGTATGGATTTGATCAGTTTTTTCTAAATGGCTAATTGATTGTCCCACACTTTTATTAAA
AACCTGTCTTTGCCCCAGTGATTCATGATGATGCTTTTATTGTATTTTAAATTTCCATATATACTTGGGTATATTTCTGGACTTTCTATTCTGTTTCACT
CATCTGGTTGTCTGTTCATGTGCCATTTTACATTAAAAAAATTTTTTTTGTTTTAATTTTTATTTAGAGACAGAGTCTTTCTTTGTTGCCCAGGCTGGAG
TGAGCGATCATGGCTCACTGTAACACTGAACTCCTGAGCTCAAGCAATCCTCCTGCCTCAGCCTCCCAAGTAGTTGGAACTTTAGGCGCCTGTACCATTA
TTATGATACTTTAATTATAGAGGCTTTATAGTATGCTTTAATGTCTGGTTGTGGTACTCAGTCCTTATAGTTTTTCTCTCAGTATTTTCCTAGCTATAAT
TATATGTTTGTTTTTTCATATCAACTTGAATATTAATGTCTAGCTCCATTAAAAAGTTTGTTTGCAGTTTTATTGGGATTCCATTAATTTTTTTCCAATA
TTTGAAAATTGTTAAAATACATGTAAAAATAAAATCTACCATCTTAACTATTTTTAAGTGTACAATTCAGTGGTATTGAATACATTCATATTGTGGAACC
ATCATTACCATCTATCTCCAGAGTTCTTTTTAGCTTGTAAAACAAACTCTGTACCCATTAAACAATAACTCCCCTTTAGCCCATCCTCCCAAACCCTGGT
AATCACCATTTCACTTTCTGTCTTTTAGGATTTTTGACTGCTCTACATACCTTTGTAAGTGGAATCAAACAGTATTTGTCTTTTTTTTTTGACTGGGTTA
TTTTACTTAGCATGATGTAATTACTTTTTTTTTTTTTTTTTTGAGACAGCGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCAC
TGCAACCTCTGTCTCCCAGGTTCAAGCCATTCTCCTGCCTTAGTCTCCCAAGTAGCTGGGATTAAAGGCGCCTGCTACCATACCTGGCTAATTTTTGTAT
TTTTGTAGAGATGCCGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCATGACCTCAGGTGATTTGCCCACCTCAGCCTCCCAAAGTGCTGAGATTACA
AGCGTGAGCCACCGCACCTGCCCTAATGTTCATTACTTTCTAAGGCTTAATAATATTTCAGTTCTACATATATACTATATTTATCGATTTGTTTATGGAC
ACCTGGATTTCTTCCACATTTTAGCTATTAATAATGCTGTTATGAACATGTGTGTACAAACATCTCCTTACGACCTTGGTTTCAGTTATTTTGGGTGTAT
ATCCAGAAGAAGAATTACTGGCTTATATTGTAATTCTGTTTTTAATTTTTTGAGGAACTGCCATTCTATTTTCTTCAGTGGCTGCACCATTTTAAATTCC
CACCAAAAATGCAAAAGACTTCTAATTTCTCCATATCTTCACCAGCACTTATTTCATGTTTTTAAAAAACTTAATTGACACACAATTGTACATGTTTACA
GGGTACAGTGTGATATTTTGATTCACGTATACAATGTGTAATGATCAAATCAGGGTAATTAGCATATTCAATCACCTCAAACATTTCATATGTTCTTTGA
TTTGGGAACATTCAAAATCGTCTCTTCTAGCTCAAATATACAATAAATTAGTGCTAACTGTAGTCAGTCTGTAGTGCTGTAGAACACCAGAAATTATTCT
TCCTATCCAATAGTAATTTTGTATTTGTTAACCAACCTCTGTCTTCCCTCCTCACTACCCTTCCAGCCTCTAGTAACCACTATTCTACTCTCTAGTTCTA
TGAAATAAACTTTTTAGCTTACACATGTGAGTGAGAACATGCAGTATATATCTTTGTGTGCCTGACTTATTTAATTAACAATTGTCCTCCATACTTGTCC
ATGTTGCCATGAATGACAGGATTTCATCCTTTTTTATGGCTGAATAGTATTCCATTGTTTATATATGCCACATTTTCTTTATCCATCCGTTGATGGGCAC
GTAGGTTGATTCCATATCTTGCTTACTGTGAATAGTTCTACAGTAAACATAGGAGTGCAGATATCACTTTGACATACTAATTTCCTTTGCTTTGGGTATA
TACCCAGTTGTGGAATTTCTGGGTCCTGTGGTAGTTCTGTTTCAGTTTTTTTTGAGACAGGGTCTCACTCTGTCACCTAGGCTGGAGTGCAGTGGTGTGA
TCTCGGCTCACTGTAACCTCTGCCTCCCAGGTTCAAGTGATTCTCTTGCCTCAGCCTCCTGAGCAGCTGGATTACAGGTGTGTGCCACCATGCCTGGCTA
ATTTATTGATTAATTGATTGAYTGTTATTTTTAGTAGAGACGGGGTTTCACTGTGTTGGCCAGGCTGGTCTCCAACTCTTGACCTCAAGTGATCCACCTG
CCTTGGCCTCCCAAAGTACTGAGATTATAAGCGTGAGCCACCGCACTTGGCCTGTTGTTAGTTTTTTTTGTAGAGCTTCCATACTATTTTTCTTAATGGC
TATACTAATTTACATCCCCACTAACAGTGTATTAGAGTCCCTTTTCTCCTCATTCTTGACAACATTTGTTTTGTCTTTTTGACAGGCATTCTAGCTGGTG
AGATGAAATCTCATTGTGGTTTGATTTGCATTTCCCTGATAAATAGTTATGTTGAACAATTTTTCATGAATGATCCATTCAGATCATTTGCCCATTTTTA
AATGAAATTACTTGGGGCTTTTTGCAGTTGTTTGAGTTTCTTGTTTATTCTAAATTTTAATCCCTTGTCAGATAAATAGTTTGCAGGTGGGCCAGGTATG
ATGGTTCACACCTGTAATCCCAGCACTTTGAGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTACAAGACCAGCCTGACCAACATGGTGAAACCCT
GCCTCTACTAAAAATACAAAATTAGCTGGGCCTGGTAGTGTGCGCCAGTAATCCCAGCTACACTGGAGGCTGAGGCAGGAGAATTGCTTGAACTCAGGAG
GCGGAGGTTGTGGTGAGCCGAGACCATGCCATTGCACCCCAGCCTGGGCAAAAAGAGCGAAACTCTGTCTCAAAAAAAAAAAAATTAGTTTGCAGGTATT
AATATTTTCTCCCATTGTATAGGTTGTCTCTTCACTCTGTTGATTGTTTCCTTGTTGTGCAGAAACTTGGTTTGATACGATCTCATTTATCTATGTTTGC
TTTTGTTGCCTGCGTTTTCTGTTGTTATAGTTGTTTCATTTATTTTGTTTTTGTATTTATATAAGGGATGGGATTTTGCTGTGTTGCCCAGGCTGGATTG
CAGTGGGTATTCACAGGTGCAATGCTACTATTGTTCAGCGTAGAGTTTTGACCCACTCTATTTCTGACCTGGGTCAGGTCACCCCTCCTTAGGCATTCTG
GTGGTCCTCTACTCTTGGGAGGTCATTATCCTGATGCGAAACTTAATGTGAATGCCCAATTGCAGTAGCGCACTACAGCATCTACAGCACAAAATTTCTG
GACTCAGGTGATCCTCTTGCCTCAGCTTCCCAAGTAGCTGAGACTATAGGCACGTGCCACCATGCCCAACTTGTTGCCTGTGTTATTGAGGTCTCACCCG
TAAAATCTTCCCCTAGGGCAATGTCCTGAAGTCTTTTCCTTGTGTTTTCCTGTAGTAGTTTCATAGTTTGGGGTCTCATACTTAAGTTTTTGATTTTTAT
ATATGATGAGAGATGGATCTAGTTTTATTCTTCTGCATTTGGATATGCAGTTTTCCCATAATCATTTATTGAAGAGGCTGTCCTTTCCCCAATGTATTTT
CTTGGTGCTTTTGTTGAAAATCAGTTATCTGTAAATATGTGGAATTATTTTTGACTTCTCTCTTCTGTTTCATTTGTGGGTGTATGTGTTTTTATGCCAG
TACTATGGTGTTTTGGTTACTACAGCTTTGTAGCATATTTTGAAGTCAGATAGTGTGATAGATAGCTCCAACTTTGTTCTTTTTACACAGGATTGCTTTG
ACTCTTTGGAGTCTTGTGACTCCATGCAAATTTTAAGATTTTTTTTTTCAATTTCTGTGAAGAAATTCATTGGTAATATGGTAGAAATTGCATTGACTGT
AGATCACTTTTGGTAGTATGGTCATGTTAACAATATTAATCTCCCAATCCATAAGCATGAGATTTCTTTTCATTTTTTGGTGTCTTCAATTTCTTTAATC
AGTATTTTATAGTTTTCCTTTTAGAGATCTTTTACCTCCTTTGTTAAATTTATTCATAGGTATTTTAATTTTTATAATTATAATAAAGAAGATTTCTTTC
TTTTCCAGTTAGTTTAAGTATGTAGAAATGCTACTGATTTTTGTATGTTGAGTTTTTTTATCCTGAAACTTTAATGAATTAAAAGTTCTAAGAGCTTTTT
GGTGGGATCTTTAGGTTTTTCTATATATAAGATAATGTCATCTGCAAGTGGACAGTTTTGACTTTCTCCTTTTTTATTTTGAAGCCATTTATTTCTCTCT
CATGCCTAATTGCTTTGGCTGAGATTTCCAGTGCTGTGTTGAATAAGATTGACAAGGGTGAACATCCTTGTATTGTTCTAGTTCTTAGGGGAAAAGCTTT
CAATGTTTTTTTGTTCAGTATGATGTTAGTTGTGGTTTTGTCATATATGGTATTCATTGTATTGAGGTATGTTTCTTTTATACCTAATTTTTTTTAAAGT
TTTTGTCATGAAGGAAAGCTGAATTTTTGTCAGACGCTTTTTCTGCATGTATTGAAATTATCGTTTTTTCTTCATTCAGTTGATACGATGTATCACATTT
ATTGATTTGCATATATTGAACCATCCTTGCATACCTGTGATAAATCTAACTYGATCATGGTGAATAATCTTTTTAACGTGTTGCTGGATTTGGTTTGCTG
GTGTTTTTGTTGAGGGTTTTTGCATCTGTATTTATTAGGGATACTGGCCATAGTGCTCTTTTTTTTGTTGTGTCCCTGTCTGGTTTTGGTGTCAGGGTAA
TGCTGGCCTCGTAGAGTTTGGAAGAATCCTCTCCCTTTCAATTTTTTGGAATAGTTTGAGAAGAATTAGTATTAGTTCTTTTTTAAAAGTTTGGTAGAAT
TCAGCAGTGAAGCCATCTGGTCCTGGGCTTTTTTTCTTGGGAGACTTTTTATTGATGATGCAGTCTTGTTACTCATTATTGATCTGTTCAGGTTTTGTAT
TTCCTTCTGTTTGGTTCAGTCTTGATAGGTTTTGTGTGTTTAGCAATTTATCCATTTTCTCTAGGTTTTCCTATTTGTTGTCCTACAGTTGCTCATAATA
GTCTCTAATGATCTTTAGTATTTCTGTGGCATCAGCTGTAATGTCTGCTTTTTCATTTTTGATTTTATTTATTTGGGTCTTCTCACTTTTAGTTAGTCTA
GCTAATGTTTTGTCAATTTTGTTTTTTCAAAAAACCAACATTTTGTTTTGTTGATATTTTATAGTTTTTTAGTCTCCTTTTTGCCGAGACCAGCTCAGTT
GGGGAGACCCTAACCCAGCGGCACTAGAGGGATTAGAGACACACACACAGAAATATAGAAGTGTGAAGTGGGAAATCCCCTGATTTCTCACAACCTTCAG
AGCTGAGAGCCCTGAACAGAGATTTACCCACATATTTATTAACAGCAAACCAGTCATTAGCATTGTTTCTATAGATATTAAATTAACTAAAAGTATCCCT
TAAGGGAAATGAAGGGATGGGCCAAATTAATTGCAGCAGGAACACACCCTTAAGACACAGATGCTCAGGCTTTTGTTTGTGGCTTAAGAATGCCTTTAAG
CAGTTTTCTGCCCTGGGCGGGCCAGGTATTCCTTGTCCTCATTCCCATAAACTCACAACCTTCCAGCTTGGACTTTATGGCCATTATGGACATGTTACAT
TGCTGCAGAGATTTTATTTATGGCCAGTTTTGGGGCCAGTTTATGGCCAGACTTTGGGGGGTTGCTCCCAACATGTCTCCCTTCTTAGATTTGCAAAGAG
ATAAAAGCAAGGGCAGCTTTGTCATGGTGAGCTACTTCTTGCAGGAATCAGGCCAGTTTTTTGGAATTATAGCAGGAGAAGGCAATCCTGGCTGTAATGC
TCCCATAGGTTGTATAACTGAATTGGTGGCTCTTAAGTCAGTGAACATTTTCCATTTTCCTGATTTTTTCTTAATTACGAAAATTGGAGAATTCCAAGAA
GAAAATGTTGGAGCTATGTGCCCATTTTCTAATTGTTCAGCAACTAATTTCTCTAAAGCCTCCAGTTTCTCTTTACTTAGCAGCCATTGTTCTATCCAAA
TTGGGTATCTGTTAACCATTTGAAAGGTATAGGTTCTGGAGGCTTAACAATGGCTGCCATCAAAAATTTTTCCCTAATGTTTGGCGGGAACTTTGTTTTT
TCCACTTGAAGTGGTTCTTTCAAACCTTGCAATTTTTTTTTCTAGTCCCGTACCAGGGACATACCTCATTTCATGCATTGTATATTGACTTTGAGGGCTA
TATAATTGTTCTGGAATTAGAACTTGTGCTCCCCATTGTTGTAATAAATCTCTTCCCCATCAGTTTATAGGTACAGAAGTTATAATTGCTTGAATAGTCC
CAGGTTGTCCATCGGGCCCCTCACAATGCAAAATATAACTACTTTGATATACTTCAGTGACTTTACCAACTTCAACTATGTTAAATTGAGCAGGTTGAAT
TGGCCACGTGGATGGCCAGTACTGTAGAGAAATGATTGAAATGTCTGCTCCTGTATCTACCAAACCTTTACATTTCTTTCCTTCAATAGTTATTTCACAG
GTAGGACATTTATCAGTAATTTGATTTACCCAGTAAGCTGCTTTGCCTTGTTTATTTGTGCTTCCAAATCCTCCTGTTCGTTTAATTTCACTTTTTCCCA
TTCCCACATACGGCACAATCAGGAGCTGTGCTATGTGCTTTCCTGGCTCTGCTTTCCAGGGAACAGAAGTAGATATAACAATTTGAATATACCCATTATA
ATCTGAATCAATGACTCCTGTATGTATTTGTACACCTTTTAAACTTACACTAGACCTTCCTAAAAGTAATCCTATAGTCCCTGCTGGCAAGGGTCCACAG
ACTCCTGTTGGGACCTTTTGCAGGGGTTCCCCAGGCAGAAGGCTCACAGCTTTTGTGCAGCATAAATCTACTGTGGAACTACTTGCTGTGGCAGGGGACA
GACATTGTACAGGGGTGAGGGAATGGCCTGTGCTGGAAATGCCCCGGTTTAGAACAGGGCCCGAGACGGCTCCCTCATGGCATTTCCCGAAATCGGATTC
CCTTCTTTATCAAACTTAGAGTGACACTGACTAGCCCAGTGTCTTCCTTTTTTACATTTTGGACATATTTCTGGCTCAACAGTTTTCTTTTTTCCCCTAT
CTGGTGGCCTGACTCGCTGATTTTTTCTACATTCTTTTTTAGTATGACCATGCTTCCCACAGTTAAAACAAGCTCCAGGAAATGGAGTATTTCCTTTATC
CACTCTCAGTCCTGCCATTGCCTGTGCCAACAAGGTAGCTTTATGCAGATTACCTCCGATACCATCACAGGCCTTGATATAATCAACTAAATGTGTTTTC
CCTCTGATAGGTCACAGAGCAGCCTGGCAATCGGGATTAGCATTGTGGAAAGCTAATAACTGCAACACTATATCCTGAGCAGCCAAATCTGCAATCATCT
TTTTAAGAGACTCCTGTAACCGAGCTATAAAATCAACATATGGTTCCCTTGGTCCCTGTTTTATAGCACTAAAGGAAGGGTATTGTTCCCCACATTAAGT
GATTTTTTTTCCCCAAGCTCTAATGTGCACACCTCTAAGTTGTTCTATGGCATCATCCTGCATGACCAGTTGTGCATCTAAACCAGCCCAGCCGCCAACC
CCCAAAAGTTGGTCTGCAGTTATATTAATTTGAGGTTGGGCCTGGGCATTGCGAGCAGCCCAAATGGAAGCTTCATCTGCCCACCAAATTTTAAATTGTA
AGAACTGAGCAGGAGTTAGACAAGCTCGAGTAAGAGCGTCCCAGTCAGTAGGAATCATCCGACTGGAAACAGTAACATTCCTTAACAGTCCCATTACAAA
AGGAGAACCTGGTCCATATTGACTTATTGCTTGTTTTAGTTCTTTAAGTAATTTAAAAGGAAAAGGCTCAAATATAGCTGTAATATTTCCCTCTTGATCT
GGGGGATGTATTCTAACAGGGAACTGCCAAGCCTCTAAATCACCCTCTTGTCTAGCTTGCCGAATTCCTGCCTAATAGAACTAAGAGCCATCGCTCGAGG
CGCTGCTCGAACAGTCACTGGGGCAGCTATTTTTCACCCAGTGTCCTCTGGAAAAGAAAGATCTGGGGGGTCATTTTCCTCAAAAAATAATGAGGGGGTG
CAGAAGGGTAGGGATGAACCTGTCCTTCCTTTGCCGCTTTAGCTTTAGCTGGCAAATAAACATGCTCTGTAACCTCTTCTGTTACTTCACTATACTCTTG
TTCCTCCTTGTTATCAGTGTGAAAAAGTTCTAAGATGAAACGAACCAGACCCCATACCTATCCCATTGTTACCCTGATGCTTCAGAGCTCCCCTTCTTAC
TCACCACAGGGATTGCTTTAAGAGTACTCGGGTGTCCTCCAGCTAGTTTTCTGTTCCCAGCCGTCGCTCTGGCGACCCTTCGACCTGGATTCGAGCCCCC
ATGAATGGGCGCCACTTGCCGAGACAGGCTTGGTAGGGGAGACCCTAACCCAGCGGCACTAGAGGAATTAAAGACACACACGCAGAAATATAGAGGTGTG
AAGTGGGAAATCAGGGGTCTCACAGCCTTCAGAGCTGAGAGCCCTGAACAGAGATTTACCCACATATTTATTAACAGCAAACCAGTCATTAGCATTGTTT
CTATAGATATTAAATTAACTAAAAGTACCCCTTAAGGGAAACGAAAGGATGGGCCGAATTAATTGCAGCAGGAATACGCCCTTAAGACACAGATGCTCAG
GCTTTTGTTTGTGGCTTAAGAATGCTTTTAAGCGGTTTTCCACCCTGGGCGGGCCAGGTGTTCCTTGCCCTCGTTCCTGTAAACCCACAACCTTCCAGCT
TGGACATTATGGCCATTATGGACATGTTACATTGCTGCAGAGATTTTATTTATGGCCAGTTTTGGGGCCAGTTTATGGCCAGACTTTGGGGGGCTTGCTC
CCAACATCTTTTTGTAAGTTTCTGTACTGATTTTTACGTTTTAGTTCTCTCTACTAACTTTGGGCTTTGTTTGTTCTTGTTTTTCTTTTCTTTTTTTTTG
AGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCGATCTGCTCACTGCAAGCTCTGCCTCCTGGGTTCACGCCATTCTCCCGCCTCAGCC
TCCTGAGTAGCCAGGACTACAGGCACCTGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACGGTGTTAGCCAGGATAGTCTC
GATCTCCTGACCTCGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACTGTGCCCGGCCTGTTCTTGTTTTTCTAGTTCCC
TGGGGAACATGATTATGTTGTTGATTTGAAGTTTCTGTACTTTTTTGATGTAGGCATTTATTGCTATAAACTTTCACTCTTAATTCTGCTTTTGTGGTAT
TCATTGCATAGGTTTTGGGTATGTTGCATTTTTATTTTTATTTATTTGTTTTTAAGAAATTTTTCTGTTTTTTTTTGTTTTGTGTTTTTGAGACGGAGTC
TCACTCTGTAGCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTAACTGCAACCTCCACCTCCCAGATTCAAGCAGTTCTCCTGCTTCAGCCTCCCGAGTA
GCAAGGCGTGTGCCACCACGCCCATATAATTTTTATATTTTTAGTACAGACAGGGTTTCACCATGATGGCCAGGATGGTTTCGATCTCTTGACCTTGTGA
TCCTCCTGCCTCAGCCTGCTGAAGTGTTGGGATTACAGGTGTGAGCCACCACACCCGGCCTTCAGTTAATTTTTTAATTTCCTCCTTGACTCATTGGTCA
TTCAGGAGCATGTTATTTAATTTTCATGTATTTGTACACCTTTCAGAGTTCTTCTTGTTACTGATTTCTAGTTTTATACTGCTGTTGTCAGAAAATATAC
TTGATATATTGATTTTTAAAAATTTATTGAGACTTGTTTTGTGGCCTAACATATGGTCTGTCCTGTGGAATGCTCCATGTTCTGATAAAAAGAGTGAATA
TTCTGGCCAAGCATGGTGGCTCATACCTGTAATCCCAGCACTTTGGGAGACCAAGGTGGGCAGATCACTTGAGGTCAGGAGTTGGAGAGCAGCCTGGCCA
AAATGGTGAAACCTTGTCCCTACTAAAAATACAGAAAAAAATTGATTGGGTTTGGTGGTGCGTGACAGTAATCCCCGCTACTCGAGAGGCTGAGGCACAA
GAACCCAGGAGGCAGAGGTTACAGTGAGCCGAGATTGTGCCACTGCCCTCCAGCCTGGGTGCCAGAGCAAGACTCCATCTCAAAAAAAAAAAGAAGAAGA
AGAATGAGTACTCTGCATTCTCCAGCTACTGGATGAAATGTTTTACAAGTGTCTGTGAAGTCCATTTGGTCTACAGTGTAGTTTAAATCTATGTTTCTTT
CTAGGTGATCTCTCTAATGCAGAGAGTGGGGTATTGAAATCCTCTACTATTATTGCATTGGTGTCTATCTTTCCCCTTAGATAATAATTATATTTGCTTT
AATATATCTTGGTTCTCTGGTGTTTGATGCATACATATTTACTATTGCTAATCCTCTTGCTGAATTGGGTTTTTTTTTCCATTATATAATGAACTTCCTT
GTCTCTTTACAGCTTAAAAACTTTTTTTTTTTACAGTTCTTTTTACAGTGTGACAAACTTTTCACAGTTTTTGACTTAAAGTTTATTTTATCTGATATAA
GTAAGTTGCTTCTGTTCATTTTTGGTTTCTCTTTGCATGGAGTGTTTTTTTTTTTTTCCCCCACTTCGTTTTCAGACTATGTATGTCTTTATGGGTGAAG
TGAGTTGTGTTTAGGCAGCTTATATTTGGGCTTTGAGTTTTTATGCCTTTACCCAGTCTATATGTCTTAATTGGGGGATGTAATCTGTTTACATTCAAAG
TTATTCTTGGTAGAGAAGGACTTAGTCCTGTCATTTTGTTAATTGTTTTCTGGTTGTACTGTAGATCTTCTGTTTCTTTCTTGCTCTCTTAATTGTTTAT
CTTTGTGGTTTGGTGGATTTCTGTAGTGACAAAGTTTGATTTCTTTCTCATTTGTATATCTATCTGCTCTACTAGTGAGTTTTATACTAGCATGTTTTCA
TGATGTTAGTCATTGTCTTTTCATTTTCAGTTGTAGGACTCCCTTAAGAATTTCTTGTTGAGTAGGTTTAGTGGTGATGAATTGTCTCAGTTTTTGCTTG
TCTGAGAAAGACTTTGTTTCTTCTTCATTTCTGAAGATAGTTTTGCTGGGTATAGTATTTTGGAATGGAAGTTATTTTTCTTTCACTACTTTTGAGTATA
ACATTCTGTTCTCTTCTTGCCTGTAAGGTTTCTCTTGAGAAATCTGCTGTTTGTCTCACGGGGATTTTCTTATATATGACTTGATGCTTTTTTCTTGTTG
TTTATAGAATTCTCTCTTTGATTTGATTTTTGATGTTTGAGTATAGTATGCCTTGGAGAGGACCTTTTTGGGTTGAATCAGTTTGGGGTCTTTGAGCTTT
TTGGATTTGGATGTTCATCTCTCTCCTAAGACTTGGGAACTCTACAGTTATGATTTTGTTTACAACGTTTTTGATACCATTTCCCATCTCTTATTCTTCT
GGAATTTTTATAATGTGAATATGTGTTCACTTAATGGTGTCACATAAGTCTCATAGGCTTTCTTCATCCCTTTTATTCTTTATTATTATTTGTCTGACTG
GATTATTTTAAAAGACCTGTCTTAATGTTCAAAAATTCTTTTTCCTGCTTGATCTAGACTGTTCCTGAAATTCTTGATTGTATTTTTAATTTTGTTCATG
GAATTCTTCAGCTCCAAGGATTCTGTTTGGTTCTTTTTTATGATATCTGTGTCTCTCAGATTTCTCATTCATATCATTTTTTCCTGATTTCGTTGAATTT
TCTATCTGTATTCTCTTGTATCTTTCCAAGTTTCCTTAACATTGTTATTTTTAATTTCTTTTCAGGCATTTTTTAGATTTCTTTTTCGTTAGGGTCTATT
ACTGGAGTATTATTGGGTTCCATTTGAGGTGTCATGTTTTCTTTTTCATGTTTCTTTTTTTTTTTTTTTTGAGACAAAGTCTCACACTGTCACCCAGGTT
GGAGTGCAGTGGCACAATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTTAAGCGATTTTCCTGCCACAGCCTCCCAAGTAGCTGGGATTGCAGGCACC
CACCACCAAGCCCAGGTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCAGTATGTTGGCCAGGCTGTTCTCAAACTCCTGACCTCGTGATCTGCCTGC
CTTGGCCTCCCAAAGTGCTGGAATTACAGGCGTGAACCACCACGCCCAACTTTTTTCATGTTTCTTGTGTCCCTATGTTATGGGTGCATCTGGTAGAATA
GTTGTCTCTTTCTATTTTATGGAGTAGCTTTTGTAAAGAAGGACTTTTTCCTGTATATTTGTCCTGCAGTATTGTTTGGGTAGTTGCTTTGGCTTTGTTT
CTATATTAGTACAGTAATGTAGTCTCCATATGATCTTTGGCTGTAATTCGTGTCAGCAGTGTCTGCAAGTACCTCAGTGGTCTCTGCTGTGAGTTTTTGT
AGAATGAATCTCATGTCTTTGGTGTTGATAGGGGCCTCTAGGTGGAACAGTTCTCAGGCCTTGGGTGTTGGGTGCTCATTGGGTATGGTGGCTTTGCCAG
TTGTGGGGTGGAATTGCCAGTGGTGGCTGTTGCCATATGGGCCCATCATTGGTCCCTACAGGTATGTGGGGTGCATTTCTGCTTCACCAGTTATGGGAAT
GGGATTGCTGGCAGTGGCTGGCAGCTAGTTCTTAAACCCTAGGGACTGCATGCACCAGTGCCCTTGGTCTTGGAGGTGGCCTCCCTGCTGTGCTAGATTG
CTTGTTCCTTTAGGTCTACTATATCAGCTCAGGTTCTGGAGTTTTGGCTTTACTGCTCTGTGTAGCTGAGGTTGTGGTGTTGGACCCTTTTATTTGATTG
TGGCATGATTACAGTGGGACCCTTCAGATATGGAAATACCAGGTCTGTTGAACCCCATGGCAGCATGTATTTCAGCATTGGCTCGGTTCTCAAAATGGTG
CCATGCTGTAGCAGCTTGGGTCACAGGGAGTGGGGGGACCCAGTGTGTGTTCCTTCTCTGGAGCAATGTAACCATGTGGACTCCAAGCAGCTCCCTGTAC
CGGATTCAGGGCCTGTTAGGACTCTAGGGCTCTTCTGTAGCTAGGTTTACACATGTCCACAGTGGTATTAGGGATTGCTAAGGAACTCCTACCTACCATT
TCTCACACAATGGGGAGTCTCTCTTGGTTCTGAGCCAATCCTGGCTGGGTGCTTTGCTTTCTTCTCTATGCTGCCATCTCAAGTCTCCATGATTAAGTGG
ATTTTTTTTTTCTCTTTCATGTGAATTCTGTTGTTCTCCCTTAGAAACTCTTACCTGAAGTGCAGTTATTTACTTGTTATTTTGGGCCTTTGTGGAAGAG
TGTTGGTCCTCTAGTCAGTCATCTTAATGATGTCTTCCTCATGTTTTTTTGATAGTAACCATCCTGATAGGTGTGAGGTAGTAAGTATCTCATTGTAGTT
TTGATTTGCATCTTTCTAATGATTAGTGATGTCGAGCATCTTTTAATATGCATCTTTTTTGAAAAACAGCTAGTCAAGTTTTTTGTCCATTTAAAAATTT
TATTTTTTATTCTTGTTTAGTTTTTCTCTGTATATTCTGGATATTAATGCCTTATCAGATACATGATTTGCAAATATTTTCTCCTATTCTGTAGGGTTTT
ACTCTGTTGATAAGTATCTTTTGTTGCAGAAAAATTTATTTTCATGGAGTTCATTTTGTCTGTTTTTTTTTGTTGTTGTTGTTATTGCCCTATGCCTTTC
GTGTCATATCCAAGAAATCATTATCAAATCAAATTCCATGAAGCCTTTCCCCCATCTTCTAAGAGTTTATAGTTTTAGGTTGCACATTTAGTCCTTTGAT
CTATTTTAAATTAATTTTCCTATATAAAGAGAGGTCCAAGTTCATTCTTTTATATGTATGTATCCAGTTTTCCCAACACTGTTTGTTGACAACATTGCCC
TTTCTTCATTGAATGACCTTGGTACTCTTGTCAAAAATCATTTGACCSTATATGGGAGGGTTTATTTACTCATTCTGTATTCTATTCCAGTTGCTTATAT
GTTGGTCTTTATGTCAGTGTCACACTATTTTGATTATTATAACTTTGCAATAAATTTTGAAATAAGGAAGTATGAGTTCTCTAGTTTTGTTCTTCAGGAT
TATTTCATCTACTTGGGTTGCCTTGAGATTCCATACGAATTTTAGGATAGATTTTTCTATTTCTGTGCAAAATATTGGGATTTTGATAGCAATTGCATTG
ATTCTGTAGATTATTTTTGGTAGTATTGACATCTCAACAATATTRAATCTTTCAATTTATGAACATGGGATGTGTTTCCATTTATTTATATCTTCTTTAA
TTTCTGTTAGCAGCGTCTTTTAGTTTTCTAAGTATTTCACCTCCTTGGTTCAGTTAATTTTTATGTATTCTTTTTGATGCTATTGTAAATGGAATTATTT
TCTTCATTTTCCTTTTCATAGTATTCATTGTTAGTGTATAGAGATGCAGCTAATTTTTGTTTGTTGGCTTTGTATTCAGCTACTTTGCTGAATTCATTGT
CTTTCTCTTGCCTAATAGCTCTGGCTAGAACTTCCAGTTTCATGTCAAATGGAAGTGGCAAAAGTGGGAGTACTTGGTTTATTCCTGATCTTAAAGGAAA
ACATTTCAGTCTCTCACCATTGCTTATGATACTCACTGTGGCTTTTTCATATATGGCTTTATTATGTTGAGGTAGTGTCCTTCTATTCCGAGTTTGTTAG
TTTGTTTTATCATGAAAGGGTGTTGAATTTTGTCAAATGCTTTTTCTGCATCAGTTGAGATGATCATGCATTTTTTTCTTCATTCTTTTAATATGGTGTA
TTATTAGGTTGGTGCAAAAGTAATTGTGGTTTTGGACCATGAATTTTAAATCAGTGTAACTAGGCTCAAACACATCTTTATTAATCAAAATAGGAACCAT
TACAGTCAACACATTTTTGCCAATGAGAAATAAGTTTATTCTTGTAGTATAAAAATCCATGCTTCGGGATTCTACAAACTTTTTTTCTTTTTTTTTTTTT
TTTTGAGACAGAGTCTTGCTCTTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAAGTTCCACCTCCTGGGTTCAGCGATTCTCCTGC
CTCAGCCTCCCGAGTAGCTGGGATTATAGGCACCCACCACCACACCTAGCTAATTTTTGTATTTTTAGTAGAGACGGTGTTTCACTATGTTGGCCAGGCT
GGTCTTGAACTCCTGATCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGTGTGAGCCACCACACCTGGTGGGATTAGACAAACA
CTTAGCATTTTCTGCATCCTGCTCGTTGTGGAAGCATTTTCCCTGCAAAAAGTTGTTGAGATGCTTAAAGAAGTCATAGTCAGTTGGCAAGAGGTCAGGT
GACTATGGCAGATGAGGCAAAACTTTGTAGTGCAGTTCGTTCCACTTTTGACGCATTGGTTGTGTGGCATACAGTTGGACATTGTCGTAGAGAAGAATTG
GACCCTTTCTGTTGATCAGTGCCGGCTGYGGGCATTGCAGTTTTCAATGCATCTCATCGATTTGCTGAGCATACTTATCAAATGTAATGGTTTCCCTGGG
ATTCAGAAAGCTGTAGTAGATCAGACCGGCAGCAGACCACCAAACAGTGACCATGAGCCTTTTTGGCACAAGTTTGGCTTCGGGAAGTGCTCTGGAGCTT
CTTCTCCATCCAGCCACTGAGGTGGTCATTGCCGGTAGTCGTATGAAATCCACTTTTTGTCGCATRTCACAATCTGCTTGAGAAATAGTTTGTTGTTGCA
TAGAATAAGAGAAGACTACACTTCAAAATGACGATATTTTAAATTTTCACTCAGTTCATGAGACACCCACTTATCTAGCTTTTTCACCTTTCCGAATTGC
TTCAAATGCCAAATGACCATAAAATGGTTGACATTGAGTTCTTTGGCAGCTTCTTGTGTAGTTGTAGAGGATCAGCTCCAATGATTGCTCTCAACTGGTC
ATTGTCAACTTCTGACGGCTGGCCACTATGCTCCTCCTTTTGAAAAGTAGACCTCTTTTTTTTAAATTTTTTTTCTGTTTCAATGCTTATTTCCCCTTTG
TTATTTTTTGTTCTATACGTGTGCTTTCTTTCTTTCTTGGTCAAGTCAGCCACTGCTTTGTGTATATATATATATTTTTTTTGTGGTAAAATATACATAA
AATTTACCATTTTAACTATTTTAAAACATACAGTTCAGTACATTCATTTAAATTAGGATTTTGGTTTATTTATTAGATCGACTGGTTTCCCATTTTCTAA
CTCATTAATTTCTGCTTTTATCTTCTGGTTCTTTGCCCTTAAAAAGTTTCTATAGTTTTATTGTTATCATTTAATGTACCTAAAATAAAATTCATCCATT
TTGTATACAGTTGTACAATCCTCACCATAATAAAAATATGGAATAGTTTCATCACCCCAAAAGTTTCTTTATGTCTCTTTATAGTTGACCTCCTTTCCTG
AGTCCCAACATTAGGCAACCCGTGACTTATCCATGCTCTGAGTGTATCAGTAGCCCATGTCTTTTTATTGCTGATTAGTATTCATTGTATAAACGTAATA
TGATTTATTTATTCTTTTGTTGGACAAATGTTGGGTTGTTTTTAGTTGGGGGCTATTATGAATAATGCTGCTGTGAACATTCATTTACAAGTCTTTGTGT
GGAAATATGTTTTTATTTCTCCTTGTTAAATACCTAGAAATGGGATTACTAAGTCATATGTTAAGTATATATTTAATTTTATAACATACAGAAATACTGT
TTTCCAATGTGGAAACACTTGAGAAGTTTTTTCATTCCAACTAGCAATATATGAGGATTTTGTTTGTTTTACATCCCTACTGACACTTGTTATTTTCAGT
CTTAATAATAATTCTAATTGGATATGTTGTAACATGTCACCTGTGGTCTTAATTTTATTGTCTCTGTGACTAGTGGTGGTTAGCATCTTTTTGTGTGCTT
ATAAGCTACTTTTGTGAAGTTTCTGTTCAAATATTTTGGCCACTTTTTACATTCAGAAGTTATCTTATTGATTTATAATAGTTATTTATGTGTTACGCAT
AAAAGCTCTTTCTTAGATACATATTTTACAGATATTTTCTCCTTATCTATGACTTTCCTTTTCATTTACTTGTGTGTGTATGTGTGTGTGTGTGTATGTG
TGTGTGTGTGTGTGTATGTGTATATATATATATATATATTTGTTTATTTTTTGATACAGGATCTTGCTCTGTTGCCCAGGCTGGAGTGCCGTGGTGCCAT
CTCAGCTCACTGCAACCTCTGCCTCTTGGGCTCAAGCGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCATGGCACCGTGCCTGGCTA
AGTTTTATATTTTTAGCAGAGACAAGGTTTCTCCATGTTTCCCAGACTGGTCTTGAACTCCTGAGTGGTGTTTTTTCCTGTGTTTTCACACCACAACACA
GAAAACTTCTGTGACCAAATGTATGGATTTCTACCCATCAACAAGCAAGCATTCAGTTCTGCAGTGGACAGCAGTCTGACATCTTCTAATCTAATTTGAT
TCTACTGCTCTCTAYATGGAGATAGCATCAGATCCTGCGGGTTGAAGGCTTGGTCCCACAAGATTGCCACCATTTCAGACACCAGTCTCACTTTCAGGAC
TCTGGAACTTCTGATCGACCAGGTTTTTAAGTTGGGGTTTCCATAACCTTCTCTTTCAGCTAAATTTACTAGAGTGGTTCACAAGCTTAAGGAAACACTT
TATGTTTCCCAGGTTATTGAAGAGGATTTTTTTTTTTTTTTTGAGACGGCGTCTCGCTCTGTCACCCAGGCTGGAGTGCAATGGTGTGATCTCAGCTCAC
TGCGGATACAAATAAACAGCTAGATGAAGAAATAATAGGCCAGGTGCGGTGGCCCACGCCTATAATCCCAGCATTTTGGGAAGCTGAGGTGGGTGGATCA
CCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTAGTTGGGCGTGGTGGCAGGTGCCTG
TAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGACTTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGGCCATTGCACTCCAGCCTGGGC
AGCAGAGCAAGACCCCGTCTCAAAAAAACAATAAGAAAGAGAAATAATAGGGTGAGATCTCAAGGGTCCAGAGCTCAGGAGCTTCTGTTCCTGTGAAGTT
GGAGTGTGCCATTCTCCTAGCACATGGGTGAGTTCTTGTTTACCTTCATGTAATCCTCCATGAGTTCAGCTGTCTGGAGGCTTGCGGTACCCTGTCCTCT
TGAGTCTTTTTTGGAGACTTCATTGGATAAACATGATTGAAGAATGGACAATCGTATGGAAATCTTATTGGACAAAAAGGGCATGATCTAATACTAATAG
ACTGTGCAGAGAATTGTAACAAGTCCTGTGCATTTAGATTCTTCTTGGCCCCTCTGTGTAGCATTATTTCCTCCTGGATAAGGAAGGGGCAGGACCCCTT
CAGAAATGCGGGTCTTATGACCTGCTGTCGGGTAAGGTAATTCAGAGGATTTTTTTATGACCAGTTCCAAGACAGAAAGATGGGGGAAGATTGGAGTATA
TTTTTAGTGTGTGTGGCCTGCCTTGGAGAGAAAAAGGCGCAGGTAAAAGGAGGACAGAAGGTCAGAGAGAGATTCTGTTTTCTGAGGCCCAGAGCACCCC
AGTATTATAACCAAAGACTGTCTTTCGCCTTTATCACTCTGAAGCTGTTCTGAAGCTGCCTCCCGAGCCATAAACAAAGGGCCTAATACGGTAACAAAGA
TACATGTATTGTTTTAGTCACTTAGGAAATGTGGACAAGGGCTATGGAAGTTACGAGCCAGGAACCATGAATGTAAACCCATATGTATATGTAAACCAAT
ATATATACATCATAATACTACACCACTTTATCAATTTTTTTCTTGTTTGTATTTTTTGTGTTCTCTTCAAGAAGTCTTTGCCTAATTCTGTGTTAAAAAG
ATATTTGTTTTCTTCTAAAAGATTAATATTTGGTTTTTACCTTTAGGTTTTAAGGTCTAATTCATCTTAACTTTTATGTGGTGTAAGGTAATGGCACACA
TATGCTTTTTATTTTCATGTAGGTATCCAGTTGTTCCAGCACCATTTTTTGAAGACTATCTTTTCCCTCACTGAATTACAGGTGTGAGTCTATTTCTGGA
CTCTATTCTATTTTACTGATCTTGTCTTTACACCAGTATCATACCATTTTGATTACTGTAGCTTTATAGTAAGTTTGGTTCAGGTAGTGCACGTCCTCTA
CCTGGTTCTTTTTTGTCTAAATTCTTTTGGCTTTTCTAGGTCCTTTGCCTTTCAAATATTAATTTTTTAATCAGTTTTTTATCTTTTTAAATTCTTGTTA
AAATTTTAATTGGGATTGTATTGGATTTTTAGGTCAATTTGAGGAGAATTGTTACCTTAACAATATTGAGTCTTCCAATCCATGAATATCATACATCTCT
CCATTTATTTAGGTTTCATTTCTTTCATCAGTGTGTTGCAGTTTTCATTGTATATATCATGTTCATCTTTGATTCAATTTTATTTCTAAATATGGTATAA
ATGGAGTTCATTTGACTTCTTAATTGTTCGTTGCATATAGAAATATAGTTTACTTTTATGTATTGATCTTGAATCCTGTGACTTTACTAAAGTCACATAT
TTTCTAATAGCTGCTTTGTTGATTTCTTAGAGTTTTCTAAGGTCATGTTGTATACCTTGGGCTTTCTTTTAGTTTACTTTGTTCATTTGGTTGTTTTTGA
GTTGAGAATTTAATTTTACTACAGTTTATTCTTTCATTCTTATTGGTAAGAGTATTTAGTGCTAATAATTTTCTTCTCATCACTGCTTTACGTGTATCCC
ATAAATTATATAGTGTTTTAATTATTATTTTTAAAGAAATTCACTAATTTTAATTTGCATTTTTCTTTCTGCCAAAGAGTTGTTTAACAGAAGATGTAGT
AGTTTGCTAAGTCTGCCATAATAAAATACCACAGACTGGGTGATCAAACAACAGGAATTAATTTTCTTACAGTTTTGGAGACTAGAAGTCATAGATTAAG
GTATTGCCTGGCTTGGTTTCTCCTAAGACCTCTCTTCTTGACTTGCAGGTAGCCACCTTCTTCCCACTTTGTCCTCACATGGCCTTTTCTCTGTGCCTTT
GCATCCCCTCTTGTCTATCCTTTTTGTAAGGACACTAGTCATATTGGATTAGGGCCCACCCATATGACTTTAACCTTAATTGTCTCTTTAAAGGCCCTAT
CTCGAAATGTAGTCATATCTTGAAGGAACATGTTTCAGTCTATAACAGAAGGTTTTTTAATTTCCAGGTAGGAGAACCTTTTTAAAAAGTTAATTTCGGC
TGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACAAGGTGA
AACCCCGTCTCTACTAAAAAAAAATACAAAAAATTAGCCGGGCGCGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCG
TGAACCCGGGAAGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAA
AAAAAAAAAAAAAAAAARAGTTAATTTCTAGCTTTATTGCATTGTGATCACAATATTGTTTGTACTCTTTCTGCTTTGTGGAACACTCTGATGTTTCTTT
GTAACCTAATCTATCAAGGGTAGGACTAGGGTAAAGCAATTGAGGCACCCAGGGTGCAAAAAATTTAAGGCGACAGTCTCACGGTGCTGACCCTGCACTT
GCAGGAGTCTTAGAATGGGTGTCTTCTTAAGTTCGCATTCTGGACATGTCACATGCCCAGCGACTATAGAACTATAGTCACTTAGTCCCATAGTATATGT
CAGTTATTGTGTTACGTAAACACATGGAGTCTTATAAGAGTATGAAGTTCTATATATATATATATATATGAAGTTCTATATATATATACATACACACACA
GACATACATACACACATATGTGTCTGTACACATARGATCTGCCTTGTTAACTGCGATGTTTARGTCTTCTGTATACTTGCTTATTTTTTGTCCACTTGAT
TTGTCTTGTACAAAGAATGATATATTAAAGTCTCCTATTATTACTGTGTTTCTGTATGTGACTCTTTGTATATCTTGTAGTTTTTGTTTCATAAAGGTGA
GTTTCATGGTATTTGGTACAGAATATAAATATTCATAGCAGTTCTATTTTAAGTGTGAATTGTAGCGTTTAGCATTAAAAATTGCTTTTTTTGTCTTTTT
TTTTTGCTTGACTTGTCTGATACCATCACCACTTCTGTTTTCATATAGTTTCCATTTGCCTGGTATACTTTTATCCTCTTATTTTTAAATTTTCTGAATC
GTTTTGCTTTTTAAATGTGTGTTTTATATGTAGCGTTTAGTTGGGTCTTGTTTTGTGGGCCAAATTTTAATAAATTAAACATTTTATTTTAATGGGCGAA
TTAAGTACATTCACATGCAGTGAGCCCTTGCCTGCAAAGATGTGCAGGCGGGAATGGGAGAGATCACTTGCTGGGATTTGGTATTTTTTCCTTCATTTTA
CTTAGTTACTTTGAGGTTTTGGGCATTTTCTGTCTGCCAGTTATGCTAAGGGTATGGTTTTGTGTGGCTTTATTTGTTCTCTTTGCTTTTTCTGTATTGT
TTTTGCAGAATATATGGATAACACAGAGCTAGACATCTGCTGTTATCCTCAACACTTGGAAATGCTTTATGTCTGCTTTTCAAATTCTAATATCTTAGTG
ACGTCTCTAATTATATAAAGTTTGAGTGGCTTTTAAAAATCATGTTCATTAAGTGGTAGGCTATGTTTTGAGACAGAGTTCTTGATCTGCATTACTTAGG
AAAGAATTACTTCAGGCAGAGGTATACTTATTAYTTACTTAGGTTTTATAACTTTATTTAAATTGTTAGTGGCTGTGATTCTAAAAGCATGAATCTGTAA
TAGATTTTAAGAACCAATCTTGTCTGTCCTTTTGCTTTTAGATGGGTACATTTTTTAGGACATATTCAAGACAGGTCGTTTTTAAATCTCTCTTTGACAG
TCTCCAGAAAGTAGGGGTAGACCCTCCCCAGGCATCCTACTCTAATGTTTTATCCTATGATAATCCCACAGTTTGGCCAGTTAGAATCTTTTCTGTTAGA
ATTTAAGCCTGTTTCTCCTGCTTTGGGTTTCTGTTGCCATAGTGATAAAATGTTCAGCATTCTGTCATTACTTGAACACAATAATGAACTTGACCCTTAG
GTTTTGTTTTGTTTTGTTTTTTAGTTTTTTGCTATATAAAACAGCTTTCATTCCTTTAGCTTTTCTTAAATGTGAATAATTTTCTATTCTGTTAGTCACA
TTGATAATTTTTCTTTGATTCCTCTGGAGTTTCACTTACAATGTGTAAATGACCTCAACTTATTTTAAAATAAAGACATAGTAACCAACATAAAATCTAG
CAGGATTAAATTCACACGATTTGCATGGCTTTTTTTTTTTAATGTTCAACAATTGTGGTATTTTTTCCTTGACAGTTATGATTTACTGATTTATAAGTCC
AGCTACATCAACCAGGTCTATTTTGATCATTCATTAAAATGGTCATAATTGCAGCACCTCCTATTTAGATAACCCGTGACAGATTGGAGACTTATCTGTG
AAGCAAAAGGTCTTACTAAGGAAATGGAAAGTATAAATCATGCAAAGCAGAAATATCCATTTATTTACAAATAATATATATCTGTGATAAGTAGATATTA
ATCTATTACATATTAATCACTGCTTTGACAGATCCTTTATTAATTATATACCAGTCTTTTCTTTTGATGAAAGTGTTTTTTTTTTACCACTAGCTTATCA
TAGTGCCAAGAGTAATAAAAATTATTTTTATAAAAGTACTGTATTTCAAAAGGCTGCTCCGCTGCACATTTATTCAATTTGCAAATTAAAACCATGTAAA
AATTAAAGGAGTTTAAATATAATAGAATATGTAGTCAACTTTTGGTTATGACAGCAACGCAACTCCAACTAATGCAAGCAAACAAAAGGGACTTTCTTGG
TTTACACAATTGTGGGAAAGATAAGGGTTTTGCTGGTTTCAGGGACACCTGGATCTAGGAACTCAAATGCAATTAGATAATAGTGACTTTTCTCCTCCTT
TTCTTTTATTCCTCCTCTCTTATTTTCTCTCTCCTCTCTTATTATCTCTCTCGTTTGTCTGCTGTCCTATCTCTGTGATGCTGGGAACATATGTTGAAGC
CAAGAGGACAAAGTTCTTGTTAGCAAACTCAAGTTTAAAAAGTCTAGAGTCGAGGCTGGGCGTGGTGGCTCACGCCTGTGATCCCAGCACTTTGGGAGGC
CGAGGCGGGTGGAACACCTGAGGTCAGGCATTTGAGACCAGCCTGGCCAACTTGGTTAAACCCCATCTCTACTGAAAATACAAAAATTAGTGGGGTGTGG
TGGCAGCCACCTATAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCGTGAACCTGGGAGGCGGAGGTTACAGTGAGCCAAGATTGTGCCACTGC
ACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTTAAAAAAAAAAAAAAAAAATCTAGAGACAAGTTTGGGTCTAGTTCACATGCTCATCCCTGGACCTA
CCACTGCGACCGTGGTATCAGGCACTCTGGCTCAGCCAAGGTTATATGCCCATGTCTCTGTGTGGAGTGGGTGAAGGAGGAGGAAGTAAATGATATGCAG
TTTGATATAATAGCAAATAACCAAGGGGAATAGCAATAACCAAGGGAAAGGGAAGCTGAACATTTATGATATCCTGTAGTCAATACCCCCTTAATTTATT
TTTTGCATGGCTTAAAGCCAGGGCTCTTATTTCCCATTTGGGGCTTTCTGTTTTTTTCTTGAGCTTTTAATGAACGTTTACATTTCATCAGTTTGGATTT
CTTTGCTGCCAGTGTTGGATATTTGCTTTTTTAAAAACAAACCAAAAAACTATCATTTAATATATCCACCTTTCTACTTAGACTCCATCTTGAAAAGAAT
TATATTGGCCCATTGGACACATTTTCTCCCAAGAATTTAAACTGTGAAGTAAGGGATGAAAGGATATGTGTCAATGTTTGAAGGACCAGGCAGGGCTGTG
GCATGTCTTTGCCTGTGATTCCTATCAATTATTGTATCCTGGTTTCAGTTTTCTAGTTCTCTTTTGAGTGGGTTCTTATATTCTTTCAGGAAAGTTTATT
TTTGCTAATAATGGCCAGTGTCAATTTCCAGTGCTCACAAGCAAGAACCATGCTTTCAGAAGGTTGGTATAAGAAGGCTACTGCCATTCTCATGAGACTT
GTAGGACTCTTTGACAGTAGAGAAATCACAGTAGAAAAATACAACTTCTATTGTTTGCCCTGTATGTTGCTTCCCTTTGATAGCAGGGACTCACATTAAA
TGAAGCCAAGAAGTTACATTAGAGCYTTTGCTGCCCAATATGATATTACTAGTCACAGATGACTGTTGAAACYTAAATTTAAATTAGAATTTTAAAAAAT
TAAAATTCAGTTTCTTCAGTCACATGAAGTACATTTCAAGTGTGCACTAGCAACATGTTGCTAGTGACTATCATATTGGAAGGCACAGATTGTAGAATAT
TTCCACCATCAAAGAAAGTTCTATCAGACAACACTGTTGGAGTATAAACTCAAGGGTAGGCATTCTGTCCTTGTTATTTTCTGATGTATCCACAACACTT
AGAATGGGCTTAGCATGTATAGGTACTCAATAAATATTTGTTGAATGTCGAAATAGCATATATTGGGAGGCCAAGGCGGGCAGATTACCTGAGGTCGGGA
GTTCAAGACCAGCCTGCCCAACATGGAGAAACTCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGTGGATGCCTGTAATCCCAGCTACTT
GAGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGYGGAGGTTGCGGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGCAACAAGAGTGAAAC
TCCATCTCTAAAAAAAGAAAAAAAAAAAAAGAAATAGTATATATCAGTATATCAGCTGCCTGCCACAGAAGACCTAGACCATGATCCTTACGGTTGACTT
CCCTATACTTTGAAGGGAACTTGAAATAGTTCCATCTTAATGTTATTCCAAAGTTTCCATTTAAACTTATTTATAGCTACATTTTCTGTTGTAACTTGGC
CCTCCAGTTCACCTACTATTTCTGCCTTCATAATTACTTCAAAAGTATAAAGTACTTGATCTCATAGTTAACTTTTCCCCCAACTTACTCATCCTTCACC
CTCTGATTTCTCCCTATCACCTACTCATTAAAACTTTTAACAGTTTCCACTGTAGCCTCTGGAATCCCTATTCTGATACCAATAACTTTTTTTGCAATCT
CAACATTTTTTTAATGCCTCTCCCCCTGCTGAAAACTGCTTTCTTCCTCTCATGGCATATAACCTGGAATGCCTTTTAAGTAGAAATTACTTTTCCTTCC
TCTCTCCTGCAACAAGAGACCAAGAAGAGAAATGAGCATTTGTAAGCCCCGTTTGTGCTTCCAGTTCATTGTTTGAGTATGGTTAAAGTGATTTTTTTCT
TTGATATTTGTGGCATCCAGTTTTATACCTGTCTTTTATCTCTTGCAGTTAATGACCTACAGTGTATTCCTTAACAGTCGCTGAGGACTTTGATATCTGG
CTCAACTTTTTTCTGTTTTCTGTTTCTCTTACCATCATTCTTGGTGACTATGTATTCATATTGTTGAACTACCCAACACCTTAGCCTTACAGTTTATTCT
ATCTGCACTCTGGCATTCTTTTATCTTTATTCTACTTTAGCATCTTGTACACCTAGACGCTTCTTGGACCTTGTCGTCACCTAGAACTGATCACTTCAAA
GACATAAATATCTTTTCTTTCTCTTATCCATGCTCCTGTCACTGAAGATACTGAAATTAGCAGTCTTTGGACTTCTCTTTTTCTTCCAGCCTATTAACCT
GGCTCCCTTGCTTCCTTTTCAGCTTGGAAACTGTTCGATGTTCTTACTTGTACATAAGCTAAGGATATGAATTTTCTCAACTTCTTGCCATCTTATAATT
CCGGTACCTTCATCCATTCTCTCCTCCCTTTCTATTTTGAAAATGTCCTTTTCCCCTTTACTTCTTAAGTGAACAGTGCTTTTAATCCCATCTCTCTACT
TCCTCTATACTCTTCGTCACCTGTATCTTTAATTTCTCTATCTCGGACTCTTATTTTTCCTTCAAGATCTAGTTCAAATTGCATCTCTTTTATGTAGCCT
TAACTTATCCTCTAATGAAAGTTAATTGCAGTTTTTTCTGTTCCTTGTACGTCTGTTATAAGGTATATTTTCTTTTGACTTACTGTGACACACCTTGAGT
ATTCAAAACCTAATAAAAAGAGATACTGTACTTTACTCCTAAATTTACAGCACTGTCTTTTGAAACTATCTGCCTTTTTGAACTTTAATACCATTAGTCT
TATTCCTATCTTATTTATCTTAAGATTCATTATCCCATAGAATCCTAAATGTAATGATCTTAAATCATGGACTAATTTTCTCCAAAAAAAAATGAGTTTT
AGATTCTAACCCAGTACTGCTTCAACAAAATGACCTGAAGGAAGGTCTTGTTGTATATCATCTTCTATAGTCTACCACAATGGTGCTCTTACTTAGTTCA
TATTTTCATTTAGTTGTTTTCCCCATCCTTTCATATTTTAATGAATTTTCAGATACTCTACCATTGGTTTCTTTGGCTTCAGCTTTTGTATGTAGGGCAC
TATTGTTTCTCTTCATGTCTGTGTAACCTATATAGAAAGCATTAGGCCATAACTTTCTTAACTGGGTCATGTTTCTTGTTAATTTACCAATTGTATCCAG
ATTCTCAACTGGAGCTAGGATATACTTAGGGCCTAAGTTTTCTAACTGTGGACCTGAGCTGGGACCCACAGTGTTCTCTGTTCCATTTTCATCTTCATGA
TTTTGTGGAAAGAAACCTTTATAAGTCAGTAACCTAAAAGCCCCAAGTTAGCCACCCTGCTACCTGAGAGGCTGAGGCAGGAGGATTGCTTAAGCCAAAG
AGTTTGAGCCCAGCCTAGGCAATATAGTGAGACCACATCTCTTATTTAAAAAAAAAAAAAGAAGGCACCCAGTTGATAACATTCATAAACATTTAATGGA
GGAAGTGCACAGAAAGTTTGAATGAGTAATCATGTAGCTAGAATTATGAAATAAGAATGTGACTGGTACTGACGGTGGAGCAAAAGGAAAAGGACTGGCC
CTCTTTAGATTTATCGTTTCTGGCATTTGTATGTAAACGTCTCAGGAAGCAATGGGTCATATCTTCAGGTTTTTTATGTTATATTATCCAATCATCTCAC
ACATTTAAACAGCTAATCCATGATTTGGGTTGGTTCGTTCAGTCTGCCAACAAATGTTTATTGAGTCCTTATTGTGTTTAAAGCACAGACCTAGGGTCTT
GAGAGTGTTGTCTAGATAAACACATTCTACTTGGGCAGATAAGACATGCTAATAATACCAAGCTATAAATAGGTGCCAAGTGAATTATATTTGAGATAGG
CGTTTGAAGAGTTTTGAAAGGGAGGAGGCTGAAGGGCCTATCCTGCCAAACCTAATTAGTGTAATGTCTTCCTCATGAGGTTACTCATTTGGTCACTAGA
GCTGCTCTGCTTTTTAAGGCTCTGGCTGTAGATGTATTATTCCCTTTGAAGAGTCTGCAAATGTGTAAGTATTCATTCATCTCAGGGATGAAAAGCTCCA
TAAGATATTTTATAGAATACAGGATGGTGTGTTGTATTAGTTTTCTTTTAAATCTGTAGCCTTGTTAGAAGGAAAATGAAGTAGCGTGTGTCTGAAAGAA
TTTTGCAAATTGTAAAATACTATATGGATGTAAGTTGGCCTCTCCTAAACTAGACTACTTTCTGATACCTTAGCAACACATTCTATAATTTTCCATGAAA
GGCCACTTTTTCAGGCTGTTGTTTATGTATATCAAAATCCTACCTGTCAGGTTTTTATCCATGTAGCGTTCCCCAGTACCCCTGGRCAGACTTGATTTCT
YATCCTCTCTATGCCCCTAGTTTGTAGATTTTCCTATCACAATAGCAGTAATTTGTTTTACATTTTTGTTATACGTGAACACAACCTARTTTCTTGAAGT
CTCAATCTTTGGTTGTGTTTGTGCTCTGGTGTCAAACAGGCATTCAATAAAATGACTCTTTAATTCAGTGAAATAAATGAATCATGGATTCTTAATAATG
CCTTTTGTTGGGTTGTGATTTTTAGGTTAAAACTTCAGCAACAAATTGTGACTATTGAAAATGCAGAGAAGGAAAAAAATGAAAATTCTGACCTAAAACA
GGTATGATTTTAGCGAAGATTTTCCTTTTATTTTTTCAAGTGCTTCTTTAAATTTATGTTTTGCAAATTTTAAAAAAATTTTGCCATCAGTATTTTTAGA
ATCTAACCACAATTGGTAACATATTGTTGGAGGTGATATGTAAAGATAAAATGTTTTAAAATGTTTAAACTTCTATACTTTAATAAGCTTCTTTGGCTAA
CTGCTATTATTCTTAAGATATATATATTTATTTATTAAATGCTGWGGCCCATGATAATTTTTAATTACAGTTATAAGGACAGTATTTTAATATTCAGAAT
TTTAAAAACTCAATARAAATATCATCCAGGTTTTAAGTTACTTGTGTGATTGACTTGTAACTTTATATCATGAGGTATTTTTTGCTATATCCCTATGAAA
TCCAAGATTTGTATTTATGGAAGGAAATTTGTGTTTATAATTAAAGTTATTTGGGTTCAGGAAAGATTTGTATAAAGTTGGGTAAAACATGGAAGAGTGA
TCTTTTCTGAATTCTATTTTCTTTTTTGTTGTTGTTTTTTTCCCTATAAATTATGAAGTAGGATTCCATTTTTAGAATTCATGCTCATATGCGAGTTGGT
ACTGCTTTTCATGTGCAGTTATGGTTTCTAAGTCTTAACTAGATGGACATAACGTTTGATACTCAGAAGTTATTTAGTATCATTGGCATTTGGGCTTTCT
GTCATGCTATGCATATGGAGAGGTATTAAGCTCTTTGAAGGTTGCTTATTCAAGCAGCTGTAATACAGATTTAATATTTGCCACTCCAGTTAAAAATAAA
GAGTGAATAGTTCTACATGGATAAATTTATTCTAAAATAGAAATCTGAGACATACCGTTTAGTTTTATTCTGCTAAAAATTGCTCTGTGGACCTTCAGAA
TCCTATCTGAATTGTTTTGTTACCATTAGGAAGTAATGAGATTATTACCCATTTATTTTGTTTATTATATAAGAATCTTGTTTCTTTTTACCCTTGAATC
TCATAATAGGTTCTTTTGATCCCTGTCTCTTGACTGTCTTTGCTTTGAAATGTCTTCAGAAAATGGCTAAGAGAGATAAAAGGAAGTGAAAGGAAAATAA
GGACTTTTATTGTTTACTAATTGGTAAAATAGCTTGTGGGGGAGGTATGTGTAACTGTCCCAAATAAAGAGATTTGGATATAATTTAGAAGAGTGTGAAT
CTTTCTAGCCTGTTAATCTGTAACTAGACTTCTTATGAGAAAAAGTACTCCCAGATAAAGGTAAATTGGGATGGAAAAAAAAGCTGTGAGTGACATTATG
TAGTTTGGTAAATGGCTGTAGAGGCCAAGGAATCTATAGCATTTATTAGATTTCCCAGAGCATCTTTCTTCTGCCCAGCACTGGACATACAGAAGGTTTG
GAAACCTTTTAAAAACAATGTGAGGAGTGATCCTTCCCACATTTACACTGAACAATTTTGATTGCTCGGAGAGTAGAACTTCTGGAAGGTTGCTGATCTC
AGGGTATGTGGGAAGAGGAGGATGGATTTTTTTTTTTAGCTGCTTTCCCAGCTGACTTGCTTTTAAAATCAGTTTTTTTTCCTAGGAGGTGAGGAGAAGG
CTAGAGTGGTAGGAGACTCACTCTAATCACTGGATTCCCTTTTCTCATCTCACTGCTAATCCCCCTGATAACCCTTCTCTCCATTCCCAATACCTCTCCT
GGCCTGCATATTTTGGAAAGAAGAGGGAGGGGACTCAGTGACTGAGGAATATAGTTCTTGATAGTCTCTGATTATAATAAGAAATGCTCCTGGGTGCTGC
TATTTGTTATTTCCTTTAGGGGTCATCTCCAAGGACACACCAGCTTGAGGGAGCATTTGCAAAGGGAGATGCTTAGTATCTTCTGCTTCTCTCATACCTT
ACCGCATTTATTTAGTGGGCTTTAATTTATCTTCTTTCTTCTCTTTTAAGCAAATCAGTAGTTTGCAGATCCAAGTGACTTCACTTGCACAGTCAGAGAA
TGACTTGCTGAATTCAAACCAAATGCTGAAGGAAATGGTGGAGAGATTAAAACAAGAATGCCGAAATTTTAGAAGCCAAGCTGAAAAAGCGCAACTAGAA
GCTGAAAAGTAGAGTTTGCTCTTTATGTACAAACTATTTTTTCTTTTTTCTATATAACATGTACTTATTTTAGTAATGATTCCAATGTTGATTATATTTT
AGAAACTAGTTACAAATACACTTTAATAGTGTACAATGGTCTACTGAGGTAATAATGTACTTTATGTTTTTATAGAATGAACTATACTGACTCTTGAATT
GTTTTTAAAAAAATTAAGACATTAAAATTCTGACAGTATAGTATTCTGAAAAACCTCAAAGAAAACTTTTTTTATTCATTGATTAAACCAAAACATTTCT
TCAAAAATCTATTCTTCTGAATGCCAGAGAACAGAATGGGTTTTTTGTTTTGTTTTTGATGTGCAAAACTTAATTCCTTGAATTAGAACTATCTTGGATT
TTCTTTGAAAAGCTAATTTATTTGTTTTTTTTTTTTTTTTTTTTGGTCTTAAAATTTGTTACTAGTAGACAGTATGGAGTAAAACTGGTAGGGATAAAAT
GATTGTGGTGATGTTCAAGATCTTATATCCTCTGGAAAAATTTGTTTAGATGTGGTAGAACACTGTACTATTTTGTATTTGCTTTGTCTTTATAACATGT
TGGCCTTGTAAGTAAGTTTTTATTTTAATCTACAAAACATTATTCTTTTCAAATTTCTTCTTCTGAAGGCCACCATGCCACATAAAACTGTATTTCTTCA
GTTTTTCTATTATTACATATTCAAAGGTTTGTCCATGCTTTTTTATATGGGGTTGAATTTCAAGAAAAGGAAGTAAGCAAGATAAATGTCCATAGCATGT
GACATTTCAGTTGATCCAACTTATTTTTCTTTTATTTTGTAAAAAACAGAAACATGTGCTTGGATTTCTCAAGTGTTTGATTGAAATGAGCTTAATAATT
CTAATGACAGTATAGCTAGCAAATTTAAGTAATTAATCATTGGTTTCTAAATAATATTCATAGAATTTCATAGAAGAAAATAGCTGAACTAAGGGTCAAT
GGAATGTGATTTTAGTTCCAGCTAAGATACTTAAAATCTTGTATGACCTTAGGCAAGTAATCTAACTTCTCAGGGTTTGTTATTTTCATTAGTACTGCCT
ATAGTAAGAATACTAAAAAAATCATATAAAGTATGCAGAATAGCTTTAAAAATATAAGTTGTTATGATGTTATTTTAAGATATCATTTATATGCATTTTA
CTCTAGTCAGAAGACATACTGCATTAAGATTTGATACCAGGCTTGATTTTCTTAAACCAAATTTATGAGGACAGATATTTGTAGTTTGATGGTTATTATA
CTTCACATCTGGTTATCAAGTGTTTGTCTTGCCATTAACTAGATGTGAGCCCTTAAGTTCGTTAACTGCTCTAATCCTCAGTTTCCTCATTTATAAAATG
GACAGAAGTATAAAGGTGACAGAAATACCTAACTCAGGATTTTTGTAAAGAACACATAGTTTTCTAAGTCCAGTGCCTTATTCATAGGAAGTGCTCAGTA
ATGGTGGGATTTCCAAACAAGTGGCCATACAGGAGGGCCTGCAGTTGGATAATTAAGAATGTGGTCAGACAGGTAGTGAGTTTGCTTATACTTGTGATAA
TATCTATTTAATCCTAAGAACTTATTTAACTTCCATGTTTTACATACATTCTTCTGACAGGACATTGGAAGAGAAACAGATACAGTGGTTGGAAGAAAAG
CATAAGCTTCATGAGCGTATCACAGACAGAGAAGAAAAGTACAATCAAGCTAAGGAGAAACTGCAGCGAGCTGCAATTGCCCAGAAAAAGGCAAGTGGTT
CTTATTAAAGTGATCTCTGGCCAGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCGGAGGCAGGTGGATCACGAGGTCAGGAGATCATTG
AGACCATCCTGGCTAACACAGTGAAACCCCATCTCTACTGAAAAAATACAAAAAAATTAGCCAGGCATAGTGGCGGGCGCCTGTAGCCCCAGCTACTCGG
GAGGCTGAGACAGGAGAATGGCATGAACCCGGGAGGCAGAGCTTATAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCT
GTCGCAAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAAAAAGGTGATTTCTATGGAGTAAAATATAATTAAATCTTTTTTTTTTTTTTTTTTTTTTTTTTT
CTGAGAGTCTGACTCCCATCACCCAGGTTGGATTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCATCCCCTGGGTTCAAGCGATTCTCATACCTCAG
CCTTTCGAGTAGCTGGAATTATAGGCACATGCCACCACACCCGACTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCCCATGTTTGCCAGACTGGTCTC
AAACTCCTGACCTCAAGTGATCCTCCCACCTCAGCCTCCCAAAGTGCTGGGATTAAGAGGTGTGAGCTACCGCGTCCATCCTAATAAACTCTTATAGGAG
AATAAAGTATATAGTTGAATCTGAGATTTTAGTGATATGTTTAATTTGATATATAAGCATGACATTTTGCTGTCAACCTTGCAGAAATAAATTGGGAAAA
TCCAAACTGTCCAGCAGGTTTGTTTCTAAATTTTGTATGTAAGTCAGTTGTTTTGAGCTGACATGCATTTTTCCATACAGAAGGTGTTTTTCAGAGTGAT
AGTTTCCAGGCCATCCCATGGAAGTCATATTTAACACATTCTCCAGTTAAATTATAGTGTGATTAAGCTTGTTTCATTTATACCTAATATCTGTTTTATT
GCTTTTGTGGTTAAAAGGCTTTTTTGTTTCCAATTCAGAAATACAAGAGCAAGTATTTCTTTGCTCCAGCAGGAGGAAATGGGACTCCCTTGGTTTCTGA
AACTGCCACAGGAGTTCCCACAGCATTGTGATCCTTTTTAAGTTTTACCTTTGCAGGCATACTTTTCTCCAGAACCTAACTTTGTTTTCTTGGAAACAAT
CCAGGGCATCATGGAAATAATGTATCTAGATGGATCTTCTAAATCAGTGACTTACAACTTTTTTCTATTTCAGCAAACCCAAGAATAATATAACAGGTCC
CATTAGTAACCATGACTTATGGTGGTGATTAAGGGAGGGGAAGGACATGGTAATCTTTTCAACAGGATTAGAGGAAGAGGAGGGACATGATAAAGTGTGT
GTGTGTGTGTGTGCGTGTTATATGTAAAGTCCCACAAATGATTTGAGTTGTCTTCATTTGATAAATTCCCCTAATAGTAGCATTTGTTGTGGAGAGGAGA
GAAGATCTGAGGTGAGAGGAAAATGCTTCTAGGTGCAGGAACCATTATCTTAATATCTGTTTATTGGAAAGGTTAACTGTTTATATTTGGATAAGAGAAA
ATAACTGTAGATCGTTCAGTTATTCTGAATTTGAAAACCACACAGCAGTTCCTAGACCCCTTTTTATGTAATTGGATATCACTGCCAAATGTTGCTGATG
GTTGGAGTGACAACATGAGTAGTCTAAAAGTCATTCCTTCTCTACTTTCTTGGTCTCTGAATATTACTTTTATCTTCTCATAATGCTAGAAGTAGTATTA
TTGGAAAAACAGCATTTATTATATAGGGATCCCAGTGTTTTATACCCAAATATGCACACTTGTTTGTTTTTCTGTATATGTCACTTTTCTTCCTTTCTGT
CGATGTAGGTACTGAAAAGTGTATGAATATTAATGGGATTTCAGAGGATTGTTTTATGACCTATGAACTCAGAAATCCTACTGATTTTTGTTTGCACTGT
GTTTGAAGCCTAGAAACATCTGAAGCCGTGTTACAGCAAGAAATTTTAAGAGCTAAATTTTGAGGCTTTAGGAATAAGTATCTTACAGATCAAATTCTAA
TTATTAAGGTTAGTTTGGGTTGAATTCTTTTGAAGCAAAAGTGACACCCAGTGGTGAGATTATCAGCTAATCATAAGTATACCAGAAGGAGTGGAGGAGG
TTATATTTTTAAAAATCTACAAAATATAGCCAGACCCCATCTCTATAAAACATGAAAAAACTGTGCATGGTGGCACATGCTTGTAGTCCCAGCTACTTGG
AAGGCTGAGGTGGGAGGATTGCTTGAGCCCAGGAGTTCAAGATTGCAAAGAGCTGTGATGGCACCACTGCCCTCCAGCCTGGATGACACAGCAAGACCCT
ATCTCAAAAAAAAATAATAATTAAACAAAAAAACCCCAAAACACTACAAAGTAACATTTCATTAGTATTGTGACAGGATGAATTTTTTTTTCTACTGAAA
TGTCTACCAGATGATGAGTGTGAAGATAGTAGATAGTCATTTTACTTTTTAAAATGTGATCTATGGATTGTGATTTAAGTCATAGTGAAATTGTTAAGGT
CAATTCAGTGAATGATTATGACCTAGAATTGTCCTAYTATGTGGGACACTGCCCTAGGAGCTTACAAGTTTACATCAATTAAAATAGAAAAACATCATGT
GTAACTTAGAAATACAATTAAAAAGTATATAASTATGTATAATTTTAGGACTGGAAGGGATCTTAGCATTCAAATAGCTTTTACAAGTTAGCAACCTAAA
GTAGGAGGTACCCAAGATTACTTAACTAGTAAGAATCAAAAGTTGACTAAAATCTACATGTTTCTGTTCTCAGTCTGGTGCTCTTTCCACTGCGCTGTTA
GGCTTTAATTTCCTACTTTCCTTGATTCCAAATACTTTACAACTTTTCGCTTAATATAGCTATGGTCCATATGAGTCGTTTCTTATGTCAGAATAATCAC
TGTAAATTAATTTAACTCATACCCTTTTCCCATTCAAGTTAAAGATAATGCTTCTATTTGACCATTTTGGCTATCAGATTACATAAATATAATTCATAAG
AGTGCAACAGACTTCTTAGATTCTTTAATGCCAAAAGTCATAGCATTTTTTGCCGTAAGATGTAACAAAAGTCACAAATTATGAACCCAGTGCAGAAATA
ATCCTTTGGAGTTGCTTTCCTGTGAAAAGTTCTTTTTTCCCTGAGGCTGGGTAAGATGGCTCGCTGCCGTCTGTGTTTACTCAGAGCTCCAAGCTCCTGA
GCACAGAGATTGTCATTTCTGCTGTTTTTAAGTAGTCTTTGGTGTAAATGATGTTTTGTTGTGTTGATTTGTTTGGAAAAGCTTGAACAGGATCTTGAGT
TGGGATGCCCTTCTGTGACTGATACATACAGAGAGAGTGTATTCCCCCCACCCCCATTGAAGAGAGATCTCTTGAAGTGAACACAGTGAGTTGGGTTTTT
TTCTTTTTTCTTGAGGAACCTGAAATGACAACTTGTTAATTTTATTCTAAGGTATACGTCTCTGAAATAATTCTTGGTCAGATACTATTATGAATGTTTT
CAAAAAAGAGATGAATCATAGTCTTGAAGTTGCAAAATATCTGATTGAATATGTTGTGTGGCCTAGATTACACTATACACTGGGGAGAAATAGAAGCCAT
GATTACTCCTTGGCTTTGATAACTATATAATCTTGCTGGAGAAATAAGATAACATGCAAGAAACACCTAAATAATCCCACTAGTCACTCCTGGGTGATTT
ATGTGGACTCTAAAGTTTGAGAACCACTGTGCTAGACAGACAAAAGTCTGAAGACAAGGAGACCAGTTAGGAAGCTGTTATAGTAAACTTAAAGTGAGGT
AAGAAGTCTAGAATTGGGGCTTGGAATATAGGAATGAAGGTAAAGCGTGACTGCCAGAGGTATTCCAAAGGAAAAAATAATTGCAGAATATATTGGTAAA
TAAGAAAGAAAACTATGAAGTATTTTAGCTGTGAGAAGATGTAAGTGGAGTTATGATAATGGATTGAAGAATGTCAGTTGAGTAGAAAGATAAAAAACAC
ATGTCAGATAGGAAATGATGGCAGTGCATCCATGTAGACATGACGTAGACTCTTAAGTAAAGATATTATATAGGTAACTAGAAATAATAGAATGTGAAGT
ACAGAGATGAATAATTCAAATTAGAGAAATATAATTAGAAACTCAGGATTTTGCAGATCACTGAAGAATACTAAGTTTACTTAGAACGAGGAGCTAGGTG
TGGTGGTGAACAGAGGTAGAAGCTATATTGTGATGTTATGGGAACCAAAGGTAAAGAAAGTTATCAAAGATAAATGGTCATTAACATGATCATTGAAAAA
AAGTTAATTGGATTTGACTAGAGGGTGGTAAAAGGGGAATCCCAGCCTTAATTCTTATATCTATATTGTTTTAATTGTTCTATTAGTCCTTTGTGTCATA
TTGTTTATAACACTAAGGCATCGATTTGACTATCCTGTGATTGTGTTGGACCACTCAAGTAAAAATTAGAATCATTCCTTTCCACTAATTTTACCTCTGG
ACTTTGCATTTCTTTCAGTAGAAGTTATTCTTCCAGTCACTTAGGCTTCAAACCTGTGATTCATCCTGAGGTCTGCCTTATCTCCAAATTTAGTCAGGCA
CTATATTAGTTTCCTAGGGCTGCTATGACAAATTACCACAAACCTTGTGGCTTAAAACAACAAAAGCTTATTCTCTCACAGTTCTGGAGCCTAGAAATCT
ACAGTCAGAGTGCCAGCAGGAGCATCCTTCTTCAAAAGGCTCTGGAGGAGGATCTTTTTTCATGCCCCTTGTGTAGCTTCTGGTAGTTGCTGGTAATCCT
TGGAGTTCTTGGGTTTTAGACAGGCACATCACTCTGGTCTCTGCCTTGTCTTTACATGATGGTCTCCCTGTGTATCTGTAGCTCTGTGTCCAGATTTCAC
TCCTGTTATGTAAGGACACCAGTCATAGTGGATTTAGGGYCCACTCGAATCCAATCTAACTTCATCTTAACTTGATTACATTTGTAGACCCTATTTCCAA
ATAAGGTTACTCTAGGGTGTTTTCCAATACCAGCAATCATTTCTTTGTTCTCTGGATACCAACCAGGTGTCCAAAAATTCAATTCTGAAACTATCTACCT
GGAGTTAGAGTCAGATCCCACAAGTTAAACGGCTCAGTCCCACAAGACTGCCCCAACTGCAGACACCAGTTGCAAGTCTGAGTCACCTATATTCTGACTG
ACTAACTTAGGGGTTCCCATGACCCCCTCCTCCAGTTTGATAATTTGCTAGAATGGCTCACAAAATTCAGGAAAACACTATATTTACCAGTTTATTGTAA
AGGATAAAAGTCAGGAATAGCCAAATGGGAGAAATGCATTGGGCAAGGTGTTGGGGGTCGGGGATTGTGGTGCAGAGCCTCCATGCCCTCTCTGTGTGAG
CCACCCTCCCAGCAAGTCAATGTGGTCACCAGCCCGGAAGCTCTCAAAATCTCATTGTTGAAGAGTTTCCAGCCCCCTCCCCTTCTTACGGGTCAGGGGA
GTGAACCTGAAAGCATTCACCATCTAATCACTTGGTCTTTCTGGTGACCAGCCCCCATCCTTAGGCTATCTAGGGACCTCAACTCTAAGTTACCTCATTA
ACATCAACTCAGGTATGATTGAAGGGGACTTGCTAAGAATTATACAAAAACCACTCCTATCACTTATACAATTCCATAGGTCTTAGCAGCTTTGTACCAG
GATCTGGGTACAAAGACCAAATATATTTCTTCTTATACCACAGTCACATTCTGGGTGCCCATGAATTTTTGGGAGACATTATTCAACCTAAAATAAGAAC
TCATAAAGCCTATGAATTCTTCCTTTATGATGCCTCTCAAATTTTCCCCCACCCCATATTTCTTTTCATTCCTATTACTAACATCCTTGGTCAGACTGTC
TTCCCTACGAGGTTTATCTGTATTCATTTATCCAATTTACTCAACATATCTGTTAAGCATCTATTATGTATCAGGTACTTACTCATTCACTGGAATACAG
AAGTAAACAAAGACCCTGCACCATGGAGTTTACATTGTAGTTTGTTAGGAGACATAGAATAAAGAAAGAAATACTATCAGGTGGAGGTGAGTACTAAGAG
GAAAATTGACAGGAGTAGGCTGGGTGCGGTGACTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGACAGATCACCTGAGGTCAGGAGTTTGAG
ACCAGCCTGGCCAACATGGGGAAACCCCATCTCTACTAAAACTACAAAAATTAGCCGGGCATGGTGGCGGGTGCCTGTAATCCCAGCTAGTCAGGGGGCT
AAGGCAGGGAGAATTGCTTGAACCCTGGAGGCAGAGGTTGCAGTGAGCGGAGATGGTGGCAGCACATTCCAGCCTGGGCAGCACAGCAAGACTCCATCTC
AAAAAAAAAAAAGGGAGAGAAAATTGACAGGAGTAGGGGGTGCTGTTTTATGTAGGTGGTCAGGCAAGGCTTCTCTGGTAAGGTAACATTTGAGCAGAGA
CTGAAGGAAAGGAGGGAGGATGCCATGTTGTTATATGTAAGGTAAGGGTGTTCCAGAGGGAATAGCAAGTACAAGAGAGGCAGGAATCTGCTTGGTATGT
TGAGGGAACACAGGAGGCCCAGGGAGCTAGAATAGAAAGAGGTATAGTAGGAGGCCAAATTTATGCCATGACTTCAGCTTTTATTCTCAGTTAAGGTAGG
AACACACTGGAGGTTTTTGAATTGAGAAGTGATATCTGAATTACATTTTTGAAGAATCTCTGGCTGTTGTGTAGAGGGGCAGAATAGGAGTCAGGGAAAC
CATGTTTTAGTYGTCCAGGTTACAGATCAGCACTAAAAAAGATGAGTTTAGAACTAAAAAAATACAATAACAATAATTAACTCAATGGATAGATTTAATA
GCAAACAACATCACCATCATCAAGAGATGAGCACAAATCAGTGACAGAGACAGAAGATGTACAGTGAGGAAAATAGAAATGCCAAGAGTTGGTTTTAAAA
AGATTACGAAATTGATAAAGCCTTGGCAAGACTGATTGTCCTCAGACTCCCCACAAAGTAGATGAGATGAGATTAGAGCCACAAATGAACAATGTAGTGA
ATGAAAAAAGGGATATCTATCTATAGATATTAACTATCTGCATATAGATATTAAAACAAAAGGAATAGTATAAAAACTATTATGCTAATTAATCATGCAA
TTTAGAATAAATGAATACATTTCTTTAAGAACATCTTAAACCTAATACAAGAAGAATTAGGTCATTTGGATAGTCCTGTATCTATTAATGAAATGAAATC
TTTAGTTAAAAACCTTCCACAAAGAAATGCCTCATTTGGCTTCACTGGTAAATTATTCCAAATACTTAAGGAAGAATTAATACTAATCTTAACGCAAACT
CTTCCAGATGATAGAAAAGGAGGAAACACATCTCCACTTATGAGATTAGAACCTGATAGAATCAATATAAGAAAAATTGCATTATAAACATGTAAAAATC
TTAAATATTAGCAAACTGAATTTAGTGATATAGAAAAATGATAATATAGCATGAGCATTTAGGTTTTATTCTGGGAATATAGGTGGCTTAACATGCAAAA
TTGTTCAGTGTAATTCAACACCCTAACAGAACAAAGAAGGAAAACTATTGTGATCTCTAGTGTGAAACATAATTTGACAACATTCAGTACCCATTCATGA
TAAAAACTTTTGCCAAACTGGGAACAGAAGGGAATTTTCAATCTTATAAATGGTATCTATAAAAATTCTGCAGCTAACATCATACTTACTGATTAAAAAT
ATTGACTGCTTCCCCTTACTTACCCAAGGTCAGGAACAGATGTCTACTATCACCATTTTGTTTAATATTTTATYGGAGGTTCTAGTTAGTGTAATAAGGC
AAGAAAAAGAAATGGAGGGGGAGGCTGGTCAAGATGGCCAACTAGAAGCAGCTGGTGTGTGCCACTTTCATGGAGAGAAATAGAAGGAGTAAGTAAATAC
AGCACCTTCAACTGAAGCATCCAGGTACACGCATTGGGATTCATCAAGAAAACAACTTGACCCAGAAAGAATGGAGAAGAGCAATCAGGACAGTCATCCA
CTTGGGAGTGACACAGAGCCAGAGGAGCCTCCTCTTCCCAGGGAAGTGGTGAGTGAGTGAGTGACCCCAGCGACCCAMGCTTCTCCCTTGGATCTTTGCA
ACYCACAGGTCAGGAGATCCCCTTGTGAGCCCACTCCACCAGGGTCTGCAGCCTGTTACACAGAATTATGTGGAGTCTCAGCAATGCAGCCGCTCAGATA
CACRTAGAGCCCTGGGAGCTTTAGATACCCAGGTTTCCCATCAAAAGCAACTGCAACTCCAGCCAAGCRGGACGTTAGACCCCTGTACATACCCCTAGGA
AAGAGGCTGTATACAGGGGATAGAGCAGTGACAGTCTGCAGGCCCCACTACCATGGCACCTTGCAGGATAAGACCCACTGGCTTGGAACTCTAGCCAGCC
ACTGGTAGCAGTGTTACACCTCTCTGAGATGGAGCTCCCAGAGGGAGGGGTGGGCTGCCATCTTTGCTGTTTTGTAGCCTTAGCTATTGCCTTCATTGCA
GCCACCCTATGGAAAAGCATCCAGACTGCTTTTTTATGCAGGTCCYAGACCCTGCTTTTCAATGGGTGGGGGACCTCCCGACCAGGGTCACTAGTCACCC
TTGTTGGTGTTTTCCAGCTGGCAGTGGTTCCAAGCCACCCTGGGACAGAGTTCCCAGGGGGAGGGATGGGGCTGTCATCTTTGATGTTTCACATTCTTAG
CCATTGTTGCCTTTGGGCTCTAGGGAGTCTGAGTTGGTTAGGGACTGGAGTGATCCCCTGGTACAGAGCAGCAGCTCTAAGGAGAAGTGGTCAGGCTGCT
TCCTCATGTGGCTCCTGGATCTCATTTCTCCTCACTGGGTGGGATCTCCCGACTGAGGTCTACAACCATACCCCAACCAGTGTTTTCTGGCCAGCAGCAG
TTTCAAACCTCCCTGGAATGGCTCTCCCAGAGAGAGGGGCAGGGTGCCAGCTTTGCTGTTTTGCAGCCTTATCTCTTTGCCTTTGGGATTTGGAGAGTCT
GAAGCAACTGTTCTCGAGGTACCCCCTCACAGCACAACTGCTCTATGAAAAAGTGGCCAGACTGCTTTTTTACTTGAATCCCTAATCCCATTCCTCCTCA
GTGGACAGGACCTTTTGACCAGGGTTTCCAGCCACCTGCACCAGTGTTTTTTGGCTAGCAACAGTTTCAAACCTCCCTGGAACAGAGCTCCCAAAGAGAG
GGGTGGACCACCACTTCTGCTGTTTAGCAGCCTTAGCTGTTGTCTTCAGGCTTTAGAGAGTCTGAGGTGATTAGCGGCTGGAGTGGACCCCTAGCAAAGC
ATGGCTACCCTATGGAAAAAGCTAGACGGCTTTTGTATGTGGGTCCCTGATCCTGTTACTCCTCACTAGGTAGGATCTCCCAACCGAGGTCTCTAGCCAC
CTCCTGTTAGTGTGTTCTGCCAGCAACAGGTCCGTGCCTCCCTGGGACAGAGTTCCCAGAGAGAAGGCAGTCCTCCATCTTTGCTGTTTCACAGACTTCC
TTGTTGATATCTTCAGGTACTGGAAAATTTAAGATGAAAAGGGATTGGAGCGGACCCCCAGCATACTGTAGCAGCCCTATGGAAAAGTGGCCAGACTGTT
ATTTGGGTCCTTGATTCTATATCTCCTCACTGAGCACGTCCTCCCAACCTGAATCTCCAGCCATCCCCACCAGGGCCATCCAGCCAGTAGCAGCTCTGTT
ACTGTCTGGGACAGAGCTCCTAGTGGGAGGGATGGGTTGCCATCTTTGCTGTCTTGTAGCCCTCACTCTTACTGTCTCCAGGTTCTGGAGAGTCTGTGGG
GACCAGGGGCTGGTACGGATGCCCAACACAAAGCACCTACCTCAGAAAAGTGGCCAGACTGTTCTCTATGCAAGTCCCAGTCCTCACTTCTCCTCCCTGG
GCAGGGTCACCCAACCTGGAACTGTAGCACAACTACCCTGAGCTTGCCTGACCACTTCAATCAGAGGCAGCCCAGCAGTTAAAGGAACACCCCCACGCAG
AGATGGAACCATCAGACAGAAGGAATCAACGGAAGAACTCTAGCAACACAGATGGTCGGAGTGTCAAATGGCCACTAGTTCTCCAACAAGGGTTCTTAAC
CAGGCTGAGTTGGCTGAAGTGACACAAATAGAATTCAGAATATGAATAGGCATGAAGATAATCAAGATTCAGGAGAATGGCAAAACCCAATCCAAGGAAT
CTAAGAATCACAATAAAACGATACAGGCACTGACAGATGAAATAGCCAGTATAAAAAAGAACCTAACTGATCTGATAGAGCTGAAAAACACAAGAATGTC
ACAATGCAATCACAAGTATTAACAGCAGAAGAGAGAGACCAAGCTGAATAATTTCAGAACTTGAATACTGGCTCTTTGGAGTAAGACAGTCAGACAAAAA
TAAAAAAGAAGAATAGAAAAGAATGAACAAAACCTCCAAGAAATATGAGATTATGTAAAGAGACCAAATCTACAAATCACTGGCATCCCTGAAAGGGTTG
GGGAGAAAGCAAACAACTTAGGAAACATATTTCAGGATATTGTCCAAGAAAACTTCCTCAGCCTCACTAGAGAGACCAACAGGAACTATAGAGAACAAAA
TTCTACACAGGAAGATAATCCCCAAGACACATAATCATCAGATTTTCCAAGGTCAAAATGAAAGAATATTAAAGGCACTTGGAGAAAAAGGGCAGGTCAC
CTACAAAGGAAACCCCCTCAGGATAACAGCTGACTTCTCAGCAGGAGCCCTTCAAGCCAGGAGAGACTGGGGACCTATAGTCAACATTCTTAAAAAAATC
TTCAACCAAGAATTTCATATCCAGCCAAACTAACCTTCCTCGACAAAGGAGAAATAAGATCCTTTTTAGATAAGCAAATACTGAGGGAGTTTTAGATAAG
CAAATGCTTGTTAAATGGAGACCCATCTCACAAGAGATCTTGACAGGAACACTAAATATAGAAAGATGGTTACCATGATTCTGCTGAGAGAGAGCATTAA
AAAAAAAAGATGGTTACCAGCCAATACAGAAACACACTTAAGTACACAGATGAGCCACACTATAAAGCAACCACACAAGCCAGCCTAATAACCAGCTAAC
AACACAATGACAGGATCAAATCCACACATATTAATACTGACCTTGAATATAAATGGGCTAAGTGCCCCCATTTAAAAGGCACAGAGTGGCAAGCTGGATA
AAAAAGCAAGACCCAGTGATATGCTGTCTTCAAGAGACCCATCTTATATGCAATGACACCCATAGGCTCAAAATAAATGGATGGAGGAACATCTGCCAAG
CAAATGGAAATCAGAAAAATGCCAGGGTTGCAATCCTAGTTTCAGACAAAACATTTTAAACCAACAAAAATCAAAAAAGACACGGGTTTACATAATGGTA
AAGGGTTCAATTCAATAAGAAGACGTAACTATCCTAAATATATATGCACCCAACATAGGAGCACCYGGATTCATAAAGCAAGTTCTTAGAGACCTACAAA
GAGATTTATACTCCCACACAATAACAGTGGGAGACTTCCACATTCCACTGACAGTATTAAATCCTTGAGGAAGAAAGTTAACAAAGATATTCAGGACGTG
AACTTAACATTGGACCAGATAGATCTGATAGACCTCTACAGAACTCTACATCCAAAAACAACAGGAATATACATTCTTCTCATTGCTGCATGGCACATAC
TCTGAAATTGACCACACAATCAGACATAAAACAATCCTCAGCAAATGCAAAAGAACTGAAATACCAAACACACAGCACAATAAAAATTGAAATCAAGACT
AAAAATATAATTGCTCAAAACCATTTACATGGAAGTTAACCTGCTCCTGAATGACTTTTGAGTAAAGAATGAAATTAAGGCAGAAATCGAGAAGTTATTT
GAAACTAAGAGAAAAAAGATACAACATACCAGAATCTCTGGGACACAGCTAAGGCAATGTTATGAGGGAAATTTATAGCACCAAATGCCCACATCAAACA
GTTAAAAAAGATATCAGCAACCTAGCAGCACAACTAAAACAATGAGAGGACCAAGAGAAAACCAACCCAAAGCTAGCATTAGAGCTGAACAGAAGGAGAT
CAAAACATGAACAGCCATTCAAAAGATTAACTAATACGGGAGTTGCGTTTTTGAAAAAATTGTTAGGCCACTAGTTAGCCTAATGAAGAAAAATGAGAAG
ATCCAAATAAACACAATTAGAAATGACAGAGGGGATGTTACCACTGACCCCACAGAAATACAAACAACCGTCACAGACAACTATAAACACCTTTCTGCAT
ACAAACTAACAAAGCTAGAAGAGACAGATAAATTTCTGGACACATACACCTTCCCAAGATAGAACCAGGAAGAAGTTGATTTCCTGTACAGACCAATAAT
GAGTTCTGAAATTGAGGCAGTAGTAAATACCTGCCAACCAAAAAAAGCCCAGGGCCAGATGGATTCACAGCCACATGCTACCAAATGTTCAAAGAAGAGC
TGGTACTGCTTCTCCTGAAACTGTTAACAAAAAATAGAGGAGCAGGAAATCCTTCCCAAATCATTCTGTGAAGCCAGCATTGTCCTGATAACAAAACCTG
GCAGAGACACAACAATGAAAACTTTAGGCCAATATCTTTGACGAATATTGATGCAGAAATCCTTAACAAAATGCTTACAAACCGAATCCAGTAGCACATC
AAAAACCTAATCTACCATGATTATGTAGGTTTTATCTTTGGGATGCAAGGTTGATTCAACATGTGCAAATCAATAAATGTGATTCATCACATAAACAGGA
CTAAAGACAAAAACCACATGGTTATCTCAATAGATGTAGAAAAGGCTTTTGATAAAATTCACCATCCCTTTCTATTAAAAACTCAATAAACTAAGTATTG
AAGGAACATACTACAAAATGTGAGAGCCATCTGTGACAAACCCACAGCTAACATCATACTGAATGGGCAAAATATGGAAGCATTCTCTTTGAAAACCAGC
ACAAGACAATTATACCCTCTCTCACCACTCCCATTCAACATAGTATTAAAAGTCCTGGCCAGAGTAGTTAGGCAAGAGAAAGAAAGAAAKAAAGGGCATC
CAAGTAGGAGGAGAGGAAGTGAAACTATTCATGTTTGCAGTCGACATGGTTTTATGTTTAGGAAACCCCCATAGTCTCAATCCAAAAAGCTCCTTCAGCT
GATAACTTTAGCAAAGTTTCAAGATACAAACTCAATGTACAAAAATCACTAGCATTCCTGTACACCAACAGCCAAGCTGAGAGCCAAATCAGGAATGCAA
TCCCATTCACAATTGCACAAAATAAAATACCTAGGAATACAGCTAAATGTGGGTGAATGATCTCTACAATGATAATTATAAAACACTGCTTAGACAAATC
AGAGATGATACAAATAAATGGCAAAACTTTCCATGCTCATGGATAGGAAGAATCAATATCATTAAAATGGCCATACTGTCAAAAGCAATTTATTGATTCA
GTGCTATTTCTATCACACTACCAATGGCATTCTTCATGGAACTAGAAAAAAACTTTTAAAATTCATGTGGAACCAAAAAAGAGTCCAAATAGCCACAGCA
ATCCTATGCCAAACAACAACAACAAAAAACGTGGAGTCATCATGCTACCTGACTTAAAACTATACTATAGAGCAACAATAACCAAAACAGCATGATATTG
ATACAAAAACAAACACATAAATCAATGGAACAGAATAGAGTAACCAGAATTAAGGCCTCACAGCTACAATCATCTGATCTTCAACAAAGCTGACAAAAAC
AAGCARTGGGAAAAAGGACACCCCATTCATTAAATGGTGCTGGGATAAACAGCTAGCCATATGCAGAAGATTGAAACTAGACCTCTTCCTTACACCATAT
GCAAAAGTCAACTCAAGAAGGATTAAAGACTTAAATGTAAAATCCAAAACTATAAAAACACTGGAGGACAACCTAGGCAATACCATTCAGGACATAGGAA
CTGGCAAAGATTTCATGATGAAGATGCCAAAAGCAATCACGACAAAAGCAAAAGTTGATAAATGGGTTCTAATTAAACTTAAGAGCTTCTGCACAGCAAA
AGAAACTGTCAACAGAGTAGACAGATAACCTACAGAATGGGAGAAGATATTTAGAAGCTATGCATCTGCATCTGACAAAGGTCTATCTAGCATCTATAAA
GAACTTAAATTTACAGGATAAAAACAACCCCATCAAAAGTGGGCAAAGGAAATGAACAGATCATTTTCAAAAGACATACATGTGACCAACAAGCATATGA
AATAAAGCTCAATGTCACTGATCATTAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTTACACCAGTCAGAATGGCTATTAAAAAATAAAAAAA
TAGCAGATTCTGGCGAGGTTGTGGAGAAAAGGGAATACTTTGATACACTGTTGGTGGGAGTGTAAATTAGTTCAACCATTGTGGAAAGCAGTGTGGTAAT
TCCTCAAAGAGCTAGAAACAACTACCATTGGACCCAGCAATCCCATTACTGGGTAAATATACTCAAAGGAATATAAATCTTTCTGCCATAAAGACACATG
CATATGTTCATTGCAACACTATTCACAATAGCAAAGACATGGAATCAACCTAAATGCCCATCAATGGAAGATTGGATAAAGAAAATGCGGTATATATACA
CCATGGAATACTATATAGCCATAAAAAAGAATGAGATAATGTCCTTTGCCAGGTACATGGATGGAGCAAGAGGCCATTATCCTTAGCAAACTAACACAAA
AAAGGAAAACCGAATACTGCATGTTTTCATTGTCATAAGTGGGAGCTAAATGATGAGAACACATGGACACAAAGGGGAGCAACAGATACTGGGGCCTACT
TGAGACTGGAGCATGGGAGGAAGGAGAGGATCAGAAAAAATAACTTGGGTACTAGGCTTAGTACCTGGGTGATGAAATAATCTATTTACCTATAAAACAA
ACCTGCACATGTACCTCTGAGCCTAAAAAAAGTTTTAAGAATAAAGAAATGGACATAAAGAGTAGACAGGAATTTAAAATTATTCACAGATGTCACTGTG
CATGCATAAAAGTCAAACCTATCAAACTATTAAAATTAATATGAATTTTTAAAATTTCTAAGTACGAAGTCAAGTAACAAATACTAGTTATTTTTCTTTA
CACACACAATTAGAAAATATTTAAATGCCATTTACAATAGCATAAAAATACCTAAAATACCTAGGAACAAATCTAGTGAAAGATGTTTATGACTTCTACA
CTGAAATACAAATACTGCTAAGAAAAATGGAAAAATGCCTAAAGGGAAAACTGTACCATGTTCATGACTTGGAAGATTCAATATTAAGGTGTCAGTTCTT
CCCAAATTTATCCATAAGTTGAATGCAGTTCTAATCAAAATCTCAGCAGGTTTCTTTGTAGAAATTAGAAAGTAGATTCTAAAATTCATCTGAAAGTACA
AAGGACTAGAATACCCAAAGCAATCTTGAAGAACAATAAARCTAGAGGACTTAAAACTACCAGGTATCAACACTAAATATAAGCTACAGTAATTCAGTGT
GGTATTGGCATAAGGATAAACAGGCAAATGGAACAGTATAGAGTCCAGAAATAGGTTTACACTAAAGGTACCACTGCATTTCGATAAAGGATGTTCCTTC
AAATAGTAGTGAGTCAATAGATTAAACTCAGCCTAACCTCACAACATAGATAAAAATGAACCATACACCTAAGTGTGATAGGTAAAAAAAAAAAATAAAG
CTTCTAGATGAAAACTTGGGAGAAAATTTTAGGATCTTGGGATAATAAAGATAAGCAGGATGCAAAAAGTTCCTACTATAAAATACATGATTGATGTAAT
TGATTTTATTTAAATTAAAATCTTTTTATTAAGGGATACTCTTAAGCAAAAGAAAATGACACCACAGGCTGGAGAAGGTCAATCTGCAATACATATATAT
CTGACATACGATTCATATCTTGAATATATAAAGAACTACAAATCAGTAGGAATCAGGTTACTCAAAAGTTTTAATGGACAAAAGACTAGGATGGACACGT
CACAAAGAAGGGATATCCAGATGACTAACATGCATAAAAAAAGATGCTCAATACCTTTAGCTATCAGGAAAATGTAAATTAAAACTACAGTGAGATACTG
TATTTCACCAAAACAGGATGCAAAAGCTAAAAGACCGACCATACCAAGTACTGGCAAAAATGTAGAACAGCTAGAACTCTCACATATTGCTGGTGGAAAT
GTAATTGGTAAAACTGCTTTAGAAAACTGGCAGTATCTACTAAAGCTAAAACATGTATACACTATGACCCATTCATAGGTATATACTGAAGAGAATGAGG
TACTTAATCTGCGAAAAACATGTTTAGGAATGTTCGTAAAATATTTATGATATCCCCAGACTGGAAAGAATTTAAATTTTCATTAACAGGAAAATGTATA
AAATGTGGTATATTTGTACAATGAATGACAACATTGCAATGAAAAAGAAGTACTGTGACAATRCATAACCATGGCTTAGTCATATAGATAAAATGTTGAG
AAAAAAGTCCAGATACAAAAGAGCATAAATTTATGATTTCTTTCATATGAATGGGTGGATGGATAGACAGATGGACTCCTTAACTGCCTATAAATTCATA
AATAAATACTTATGGTGATAAAAACCAGAAGAGTGGTTCCTTTGCCAGGGTAGACAGGAGCATAAGGAAGCCTTCTGAGATGTTGGAGGATGTGGGACAA
TCAAAGCATGAGAATGAATGCTCGTAGCAGAGTTATTTGTAATAGTCCCAACTGGAAATAATGCAGATAACCCTTAACGGTGTACTGAGTGAATATACTA
GGTTATGCAATAATCGTAAGTGGAATATAATATGTGGGAATGAATGAAGTATATCTGTAAGTAACATAAATCTCACTAACAATGTTGAGTGAAATAAAGT
CATTAATAAAAGACTACATACTATGATTGTATGTATATGAGGTTCAAAAATAGGCAAAAGTAAACTATAGTTTTGGAAGTAAATTAGTTGGTTACCCTTT
CAGAGGATGACAGGGCTAGTGATTGGAAGGGGGAAAGGTAGGGGCCCTTCTGGCATGGCAGTGCTCTTGACCTACAAGGAAATCATGCCAGCATTTGTTT
TGTGGTTTTTCTTTGAGCTTTACGTTTCTATTCTATGCATTTTGCTGTAAGATTATACTTCAGTTAAAAAAGAGTTAGAAAATACCTAAAAGGTTTGTAG
CGACTAAATGAGTTTTAACATTTTAGGTGTTTTTCTATTAAAAAACAAAAGGCCTGTGTATAAAAACTGAAAAAAAATACTACTTTTTTCCATACACTCC
TTTTGCATTTTACCTGGACTTTTCCGTATTGTTTAATGAAACCATACAAGATTTACTTAGGAATTTCTCCCTTTGTATATTGTAAAGTTTAAATTTTTTC
CTTTTAAGATTTAGAAAGGCAACTTTTAAACAGATGCATCCATATTTATCTTAGCTTTCTGATCCTTCAGTTTTATTAATTTGGTAGTACTTTATAACTT
ACAAACGTGCTTGTAATTTTGAATTTTACTTCAGTTCTTTTCTTTTCCTTTTTTGAGACAGAGTCTTGCTTTTTTGCCAGGCTGGAGTGCAGTGGTGCAA
TCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGAACTACAGGCACCCGCCACCACGCCCAGCT
AATTTTTATATTTTTAGTAGAGATGGGGTTTTACCATGTTGGTCAGGATGGTCTCAATCTCTTGACCTTGTGATCTGTCCGCCTCGGCCTCCCAAAGTGC
TGGGATTATAGGCGTGAGCCACTGTGCCTGGCTCCCCACCCTTTTTTTTTTTTTTTTTTTTAATGGGTTCTTGATCTGTTGTCCAGGGTGGAGTGGCACA
GTCATAGCTAACTGTAGCCTTGAACTCCTAGGCTTAATCCATCCTCCTGCCTCAGCCTCCCAAAGCACTGGGATTACAGGCATGAGCCACTGTACCTGGC
TCAGTTCTCTTAAACACATGCTATCTTCTGGAACAATGGAGAGCTCATTATTTCTTACCAGATGTACAGGCAGACTCAGTAGTAAAATTTGACTCCTTCC
CTTTGTAGATTTTTTTTTTGCAGCAATTATTGATAACAGTTTTTTTGTTTGGCATTCATAATTAATTGTCACATTGAGAATATTAGATAGATTTGTGGTT
TATTATCTTTGCAATTTTCAGTAAGAGCCATGTCTACTAACCTTTGTTTCTAGTATTCACTGAAAACATTCATATCTAAACACAGTTTTTGGTGAGTAAA
ATATTTTCTATATAGTTTTGTTCAAATAAGAGATTATGTATTAACATACTTGTTCATATTTCTCTTTTTAGAGAAAATCTCTTCATGAAAACAAATTGAA
AAGACTACAAGAGAAAGTAGAAGTCTTGGAGGCAAAGAAAGAAGAATTGGAAACAGAAAATCAGGTCTTAAATAGGTAATGTGTTTGTATGTGTATCTTC
CCCATGTGGTTATTTTGATGTCATAGAACTTTGTCTCTAAGTATAACGTACCTTCTTTTCTTTTAAAATATACATTTTAAAGATTTCTAAAACAGCTTGA
TAACTCCTAATGTACTATCCTTTTTTTACCCCCTAACTGAATGTTTCTTTAAACCAAAAGGTCTCTGTCACATACCAGGTGTTTGCCTTATGATTGGGAC
TAACAGAAAATGTCACTGGCTTTGGTAGCAAGGAGTGGTGTTAGTTGTTGCTGCTGTACAAGACAGTTGTAGCTATTGCATAGTTCTGAAAATTGTGCCT
ACAACTTTGAATCAAAGGTCAGTTTTGGTTTCCTGGTGTGGAGATTTTATTGAGCTGTAGTTTCGGGTTTTGCAGTCACATTCAAGCACATCTGATAATC
AGGATCATCAGCATTTTTAAAGCAGAGATTTGTCATATTAAGTTGTTGGTAGTGGCATTATATGACACATTTGATTCAAGTTAAGAAAAATCTTTTTAAT
TTAGTGAATTAGTGGTAGCCTTCAGCGCCTTGGCTATTCAAGTATAGATTTTTCTGTAATGGAAACTGCCTATAATATCATGCAGTGACGTTTTATGATG
TGCACTGGTGTTCTTGGGTGCAATTATTACCAACAGGTGAACAATTGTTTTTTAAAGAACATTCTAGAAGTTTCTAGACTGTAGAATTAGTGCCAGCCTT
ACAATACTCTATTCCAAAGTAGGAGGCCGCCTTTAGTTTATTAATTTGGTAGTAATTTGTAAATTACAAACATGCTTGTAATTTTGAATTTTGTTTCAAT
TCTTTTTTTTTTTAAACATGGGGTCTTCGTCTATGGTTCAGGGTGGAGTGCAGTGGCACGATCATAGCTAACTGTAGCCTCGAACCCCTAGGCTTAATCT
ATTCTCCTGCCTCAGCCTCCCAAAGCACTGGGATTACAAGCATGAGCCACCATTCCTGGCTCAGTCCTTCTAAAACAGAATTCAACTTACTTCCTCTTCC
ATAAACATTAATATTGAAATGTTAGCAATTCAAGATTGGCCAGTTGTGGTGCAGATCATCTAGAATTTTGAGTGATTTTGAAATTATATTTGATTACTGG
ATGTCGTGTCCAAAAAGATGATGATCTGTGAAGGCCTGGAAAGTTAGCCTTTTTCTCCATGTCATTTTTTCCTAAAGTTGTGTAGCTTCACCTTTGTGAT
TACCTTTTATAATAGGAAAAACCAGTGTTTTTCCTATTCTCACACAGTCAACACAACATTTCTGACACCAGATGTTTGGGGTTTTTTCCTATACATGGAG
TAATCAGTTTTCCAGTGGACACGAGCTAGGTGTCCTGTAATTCAGGTCTGATCCTGTCTACCTGGATTTAGCATCAGATCCCACAGGTAGAGGGCTCAGT
CCCACAAGACTGCCCCCCACTTCAGAATGCAGCCATAAGCCCCAAGTTGTAACCCGTGCTTCTGACTGGCTAAAAATGGCCATAAATTGGGGTTCCCATG
ACCTGCTCATCATGTTCAGTTAATTTGCTAGAGCAGCTTACAGAACTCAGGGAAACTTATGTTAACCAGCTTACTAGAAAGGATATTACAAAATATATAG
ATGAGCAGTCAGATGAARGAGATACATAGGAAAAGTTATGAGGAAGGGGGTGTGGAGTTTCCATGCCCTCTCTGGGCATGCCTCCCTGCAGACACCTGCA
CATGTTCAGCAACCCAGAAGCTCTCTGACCCCATGCTTTTGGGTTTTTATGGAGGCTTCATTACATAGGCATGATTGATTACATCATTGGCCATTGGTGA
TCAACTCAACCTTTAGTCCTTTACCTTCCCAGATGTCATGGGGTGGGGTTGGAGAGTGGGGCTGAAAGTTCCAACCCTCTAATCATGCCTCAGTCTTTCT
GGTGACCTGCCCCATCCTGAAGCTATTCAGGGGCCCCCAGCCACCAGTTATCTTATTAATATACAAAAGATACTCTTATCACTTCAGAGTTTCCCAGAGT
TTTAGGAGCTGTGTGCCAGGAACCAAGGGCAAAGACCAAATATATATTTCTTACTAAAATATTACACTGACATTTTGAAAATTAGATTGAACTATGAAAA
TCTCTATATTTGACCATATTTCACCTATTTAAAAATGGCAATTTTGTAAGCTTCAATCCAGCATTTTCTTTACACTTGACCCTTGACAACATGGGCTTGA
ACTGCATGGGTCTACTTATATACAGATTTTTATTCGGGCAAACATGGATAGAAAATATAGTATTCACAGGATGTGAAACCCACCAGTTCAGAGAACCAAC
TTTTCCATTATGAGGGTTCTGCAGGGCTGACTGCAGGACTTGTATGCACAGGCTTTGATATATGAGGGATGTCCTGGAACTAATCCCATGTGTATACTGA
GGGATGAACTGTATTTTTATTTGATTCTTTCTGTAAGATAAGGCACTCTTTTGGTTTAGAGTCTCCCTTTAGTTTCAGGATTCATGAATGGGGGTGAGTA
GGAGGGTAGGAGTGAGTACCAAAGTATCAAAAGATTTTAGATCTTTAATTAGCAAATAAAACTTTATAATGAGTTGATAGTCTGCAATGCTAATGATTGC
TAATGATTAAGATGTTATGTCATGTTTCTGTTTATCTTTCTAGGTAAACAGATTTTTTATCTATATATTATATATAGATCTCATAATTTAGAAATTCCAG
TTTAAAATTATATTCTGTGAATCATACTGTGCTTCAATAGGGTATAACCATGTTAAAGAAACATTTCTTTTTCTTTTTAAGACAAAATGTTCCTTTTGAA
GACTATACAAGGCTTCAAAAAAGACTAAAAGATATACAGAGAAGACATAATGAATTTCGAAGTCTAATTTTGGTTCCTAACATGCCTCCAACAGCATCTA
TCAATCCTGTTAGCTTTCAGTCATCAGCCATGGTTCCAAGCATGGAACTACCATTTCCTCCTCATATGCAGGTATGAGCATTTATTTTAGGGGGAAAAAA
AAAGTCGTACATTTTTGTAGGTTTTTATGTTTAAATATGGTGATAAAACTCAAATTATAACTTTGGTCAGTGCTCAAAATTCACCACAAAAATGGCATAA
ACATTTAAAACTACTTTTAACTTCTTCCCTTTCATTTAGCATAGAAATTTGCTGAATTCAGTTTGAATCATGATCCTTTAGTGTTGGTGCTGAGAGTGAA
ATCTCTTACTGGACGATAGAAAAGAGGAAACTTGATTGAGTCATTGAGTAACCTAGAGTTTGTAGCTTATTCATAATGTTAATAGTAATTACTACTGAGA
ATTTACTAACGCAGTGAACTGTGCATGTTCCGTGCAATGTCTAATACTAACGAAAAATGCTTTGAGGGCAGATATTACTATTCCTAATTCATAGATAAGG
AAACTGATTCAGAGTGAAGTGACTTGCATAAGGTCATAGCTAATAAGTGACAAAGTTTCAAACCTAAACCTGTTGAATCCAAAACCCGGGYTCTTTCTAT
TGTATCAAGCCCCTGAGGTATTGAAGGAATCAGATTGATTCTTTTTCAGAAGATGGGAGTATTAATAAGTAATTATGTTTTATAACATAAGCACAGAAGA
TTTTAATCACTGAATTGAATCTCAGGCCAAGTGCTTTGTTTATAATAAACTGCTGTTAAACACCAGTGTTGTTGGAAAGTTACCATGTAAGTATACCTGG
GCCCTGCATTAGTATTTTCTAATTCACTCCCTGGTGAATTTTATACCTAGAGAAGAACAGACTACGGGTTTTGCTTAAGGCTAGAGCCTGAGGCAGGAGA
GAAGCAAAACTAGATGGTAGTTTAGCCCATGCTACTGTTTTTAGACTGCTACAGTGGTCAGCATTTCCTTGCCAGATGTTATAGGCATATATAAAAGAGG
CAGTCCAAGGTTGCTACCTAACAGTTTTTCTAATAGTTTCTTTTGCTATGCTTTCTCTACATCATTTTAAGGAGGAACAACATCAAAGGGAACTCTCTCT
ACTTCGCAAAAGACTAGAAGAACTGGAAACAACACAAAGAAAACAACTAGAGGAACTTGGATCTTCCGGAGAATGATGTTCTTGGAGAACAGGCAGATCA
AAAGAGGTGAAGTTGGTGACTCAGTAAAACTTGACATTTTAACCTGTGGCATTTAGATACTTTTTACTGTTTGCCAAAACACTTGAATGTGCCTCAAGAA
AAGGTACCTACTACATGCTGTATTGTATGACTGTCAGGATTTTAAGATTATACAAGTGAAGCATTAAAAGAGAAATTCTCAGAGATATTTAGAATATTTG
ACAATGGTTTGAGAATGTAAAACAAAAAGGAACTAGTTAGAGTCAAGTTTTAAAATTTTTACTTTGTTGAATTTTTTTTTTTGGCATTTTGAGTGAAATA
TAACTATCATTAATTCTCTCTTCATCTTTGAGATGCTTGGCCATAACAGGGTCCATACACATCTTCTGGTTTACTATATACAAAAACTGTAGTTGAAAAA
AGATGACAATTTAAAAGTCAGCCTAAAGAATGTAAAGGTATCTATATACAAAAGGCTACCTTTTCTAAAATCTGTGTGCACATAATTAAAGAGCTTAATT
TTTTTTTAATCGTGTGTTTAATTTTACATCAACCATATAGCATATATTTAGCAATATGACAGTCTACTGATTTTGGCTTTGTTAGAATAGAGAATAAGTG
CAAATAATTAAATCCTATGGCTGTATTAACAAGGGGGCCATTGATTATAAAACTTGAACTCAGGTCCTTTTATAAACATTGTTGGTATTTAACTTTACTT
CCCATTACTGTGGATCTAACCAAATAATTATGTGTTTTGTGTCCCTAAGTATGCTCTCATTTTTTTTGGTCTACACCCATTGGAAGCCTTTTTAATGTGA
CATCTTTTAGAGGAATTCTGCTGGAATAATTTCATGTTAACGAGGCTAAAGCTCAAGTCTCCCAAATTAAGTGGAATGTTCATTATCCCAAGGTGTTCAT
AGTCAAAAGTCCCAGTTGATAGTGAAGAAGGCCAGGACTGTAATTGAGCAGTCCTTAGCACCATTTAGCAAACTAGGTTTACTTACTACATAATATAGCT
GCTTATTCACAGCATATACAGTGACACCTTATCTCTGAAAAATAATTTCCACGGAGCCACTTAGAATAAAAAAACTATTATAACTAGAAAATTGAAAAAA
AAAAAAGACAGTCCACAGTTACATCAAAATGTTTATTTTTTGGATATAGACATTTAAAACATTCATCTCCAAGAACAGCTTCAATCAGGTATACAATAAG
AAATAGACTTTAAATCCTAATACAGAAAAGGTAACAGAATTTTTTTGAATGCTGCTGTAGACACTAGTGTTAGAAAAAAAAGTTTATAAATGGTTTTGCA
CCAAAAAAATATGCAAAGAAACTTGAAAATAGAAATTGTTTGCCATTTGTTGCTCTGGTTGCTGTTTAATATAGACCCAGTGACTGATTGTCTTCAGCAC
ACATCTAATTTGGCCATTTACTGCATTTGGCTAATGTGATCCAAAATGTGATCTAGATAGTGCTTTTCACTGGAGGATTGACAAACACGCTACATACATT
AGTGAATCTTCATACCACCTCAGTGAGGTAGCTTAGAAATATTATACAGAAATTGAGGCACAAAGAGGTAAGTGACTTGCCCAAAGTTCCCAACAGCACA
GTCCCTGGAAGAGGAGGTAACTCTCCACACAGGACTCATGTGCCAGAAAGCTGGACAGGGACACCCTCATGTAGCATTTAGTAAATACTTAGATAAAGCT
GTAGCTGATCCTTTGAGTTTTCAGTACCCTAAAGTAGTAGGGGAAGTCTTTTGGGCAACTCTCCTACCCTTGGCTCTCAACTTTCCTACTGTTGTTCTCT
TATGAACTCCTTCACCTCTTTGAAGACTGTAGCAGCCTTCAATGGGGACCAGACCTCTCACCTTTATTCTGATCTGTCATCTATTTGGTAGTTTTGTTTG
TTTGAGGTGTGTCCGTTGGACAGACAATGGTCAAAAGCAACAGGATTGGGAAGGTGCCTATCAGGGTAGTAACTGCTTATTTTCTCTGATCAGTTTGTTG
AGGTGTCACCTCTCTCATGCTTTTCCAGATAATACAGAAGCAAAAAGGAATTGCCTTTAAGACAAATTCATATTTAAATCCTAATGCTCCATACAGTGTT
GGTAAATGATTTCAAGGAATATGTGATCAATGTTATTTGACTTGAAAAAATTTTCTTTCCTAGATGGGGGATTTGGAGCACCAAGGGTAAAAGGTGCCTG
CCACAAGAAAAGCTCAAGAGTTGCCAATTATGCTGTTTACTTCTTCTGGTTTAATAGAAGGAAAACACAGTGGTATTAAAACTGGTCATGAGCAGCAAAA
ATTCAGGAATTAAAAAATCAGCACTAAAAAGACTACAGTATAACTGGATAGAGAATTCTTTAAAAAGAAAGGCATGAATAAAATGGGTATTTTAAATTCT
TTCTCCTGCGAGGAATACTTTCAAAAAGTACATAGTAAGACTAAGATACCAAGTTGTATACTAATATTTTTCAGGCCTTGGGCCTCAAATATATATATTT
ATATATAATACTCCAGTGTGAACAGCAATTCGATGAAATGTAAAATGTATCTTTTTTTTTTTAAATCACACACAAGTATTCATAACCACAGGGTTCACCA
GAAATCTAAAGCAAGGAGACACTCACTCATATAGAAATGGAGTTACTCTTCCACAGATCGTTCTGATCAAAGGTTTTGGAACAGAAATGAATTAATGATT
TTTTTGTATAATATCCAACATGTCCACTATCAAATACATTTAGTATGAAAAAACAGATGAAGAAAAGGAACATACATTAGGACAAAGTATCTGGTTAAAA
TGCTGTTCATTTAAATAAAGCCCACTCTCCTTACTTTAGAGCTCCTTGGTGAAATGGAGGTGAGTTTGATGGAGTGCAGTTGATGACCACTGAAAAACAC
GAGCCCTTTCAACAATGTTGCAACACTGTTAGTTTTTGGTTTAAACACACACACACACTCACAAATGCTAAGTGTACACTACCAAATTCTGCGGTCAGCT
TTTCCAAGAACTACTGGGGAAAGTTTCAATGCTGCAAATCCTCGAGGTTGCCCTAACACCCCCACCTTGTTTCCAAATGACTCATTTCACATTTTGTTTT
GAGCACTGGCAGTATCCCTTTACAATGCAGAGGTGCAGTGTAGCACAAGTGCTACATAGCTGTAGTTTTCAAACAAAACCACTTATATCATTGTGCTTAA
GTGGAGACTGTAGTTACAATACTGACATTCGCTTACTGGCCTTGTATTCTCTGTAAACAAGGAGGCTGTTTGCAACAACCACTTCAACTCTATTTACAGA
AGGGTTCCCACGGTATACACACAGGCACAAGGGTTGGTATGCTTTCTAAAAGCTGTGCATGTGCCTTGGTCTCTTAAAAAGACAGTGCCCAAAGTGGAAC
CTATGTGCAAACAACAAATTAACGACACAGAGTAGCTCAAGCAGCCATTTTGCTCCCAAGTCGTCTGAAGAACTTTGCCAGATTAAGCCAGGCCCCAGAG
TGCTTACATCCACTTGCATTTCTTCTTTTCATCAAATAAGACTTTTACATGCAAGAGTTGTTTCTGAGCTTCTTCCAGCCCTCGTTCTCTTTCTAGTTTA
TTTAGAATCTGTTGACAATTAGAACAGTTATTTTAGATATTGTGGTTTTAGCGTTACAATTCTGTTTTTTGCATACCTGATGCTGTGAGTGGTAAAATCT
GTATGAAACAGATGCCAACATTTTCTTCCATCATTTACATACTCACTTTGCAAGTTGTTTTGCTAAGTCCTTATCACAGGATCAACAATACCTTGGCTTA
AAATAGAAGCTCGCAAGAAATACCAACTATTTGCTTACAAATATGGGGCCAGGCTTCCTAGGCCCTGCTTTATGCATTATGTCACAGCCATTCCAAGCAC
AGCAAGCATTCCTGGGCAGCCAACATGCAGGCAAGTATTTCTCCTTAAATGCAGCAGGCAGGGACATCCTGGTCAGAGACAGATCCTTCCCTTCCCTCCC
ATCTGGGCAGTGTAGTCCCTCCTCGTGCTTCCCTTCTCTCCCCTGACCCCTGGAACGAGGGATGCTTATCATGTTTAAGAACTCATTGCCTCTACCCTAC
CTTAGAGCTTCACTTCATCTTCAAGTAGCAAATGGAATTGGTGAGCTATTCTCACCATTGACATGGATAGCCTGTCCCAGCATGATTGGGGGGGAATCAG
GGAAGGGGGAGTTAACATTTGTTTGGAAACAAAGCATCTGATGAATGTGTCTGTTTGAATTTCCAAAGAAAAAAACCCAGATTAAGGAGAATTAATCATA
AAGGAGAATGGTTTATTGAAATAGTCGCTTAAGTTAGAAATATGTCATAATTTCATATAACGATTGAATACAGAATCTAGGCAATTTAACAAGCTTAGCT
TTCATTTTTAGCAAATTACAATCAAGCATAAGCTGACCCCATTTAATAGGGCCACTACTTACTCATCAAAGTTAACTTGAGTCAGGGTGGCTGTAGGCCC
CATGAACTCAAATGTAAATTCAGGCTGGTCCAAATGTGGGCAGCATGATAAAACTGTAAGGGGGGCAGCCATGTACAGGGTCTGGCTCAGTGCCAGGATC
CCCCATCTCAGACAGGCTTCCTGGCTTCCCTTTCTGGCCTTTTGGGATGCCAGAGCTGTTCTGAAACTGACAGAATGCTATAACCACATCCTTGTGCCTG
ATTCAAAGGTTAAAAACAATGTTATTTAAAATCTTACCTCATCAAAATATTTTACGATGTATTTGTAAATTTCTGTCAAGGCCACTTCTTCATTAAATTC
ATTTTCATGTTTCTAAAAGAAAGACTTGTTGAGAGATTCTGAAATGACGTAAAGTAACCAAATATAAGCTTATTTCTGCTTTCTAATGATACCTTAGATT
CCTGAGTTAAAAATTCTTCCATTTCTGAGGATGACAATGGAGGCAAATCCCTGATTGCTTTGTAATAAGATTTTACTTCTTCTTTGTAGGTTGGGATATC
CTTGGCATAGAGAAGCTTATTAGTTGGTGCTTCCTGGGGAAAAAAAAAAAAAAAAAGCAACCATCACCAAAAGAGTAAAAAAAAAAAAAAAAAAAGATGG
AGGAATTTATAATATTCCAATGTAGCTGAACCCCCACCACCAACCAGTTTTACCTCTTGCTAACAAGGCTTCATGCAGTAGGCCTTAAATGTTGTTGACT
GAATGACTGACTGCTATCTAGATAGTTCTGGTGAGTCACTGTTATTTTCAGGCAGATTAAATGCTAATATATTCTGCCTTCCTCTCATAAAAGAACTAAA
ATTATTATTTTTGCATGATTTTGAGTTACTGTAACAATGGAACTTATTTCAATCATAGTTCATTACTAATGGTTGTAAAAAGCCTGAATTAAAACATTTG
CTCTCATCCTCACCCACCAGTGAATTTGGCATTTACAAAAGACTTGATTGTAGGTCTGATTGAGCCCTTTATATAACCATGAAACTGGTAAGTAATTGGC
AGAGGCAGATTTTCCAGCTTGTCCCTTTTATTTCATTAGATTATAGACATCATCCAGTTTCTTCAGGGAAGCACATGGTCATTAGTATTGGTGGCTCTGA
TGTGTGATTTTGCAGAGGTTCTCTGGCAATTTGAATGATTCTACGTAATTATAACAGTGATATTTAAAAATTAAATATGATTTTATTTTTAAAAATCATT
ATTTTTCACAAAACTTTAAAAAATTCTACTCAGGGAAGATAGGTAAGTTAATGATAGGGCTAATGTCCCAGCCCATGAGGCTGAATCAATGGCTTGATGA
ATCATTCTGAAGGATGCCTAGAGACTGAGATATTATTGAGATTTTCTCATTTGTCAAATTTAAGTGGAACCCAGAAATCATGCTATCATTCATTCATTCA
ATAAACATTATTAAGCACTGGAGCAGGCATTGAGAGTACAATGATAAAGACTAGTGGCTGCCCTTGAGAAGCTTACAATCTAGTTGCAAAGACAGATTTA
TGAAGTGCTTACTATGATACAAATAATTAGCAGCAGTAGTTGACAGAAAGAGTTGGACAAATCAGAAATCATAATTCTGCTACTTTGTGTGGTTTCAGGC
AAGACTTGTAACCTCCCAGAACATCAATTTTCTCATCTATAAAATGAGGGTAATAATAACTACCTTATTTGGTACTTGTGAGGATTAAGTGAAGTGTGTC
AAGAACATAATTCATAAACAACTGTTTTTAGTGTGAACAAACATTTAAGTGCCTTTCAGTGTGCTGCATGCTAAGATGAACTTTATTAGTCAAATGAAGA
AAGTGCTGTAGGAAATATATTGGGGAAAGTTCACAAAGTAGGCATATGTAGACTGATCTGAGTCTCCTACAGTTTCTGGTCCTCATTAGGAAATCATATT
TGTCGAATGAATAAAATGTTTATGATGAATGAATGGGTAGGATTTTACTAGACAGAGGGACTGTGAGACAGGAAAGATGAGCAAAGGGGTGTGAGAACAA
GTTCATGG


SNP Information

Context             (SEQ ID NO:66796):
TTGAAATTATCGTTTTTTCTTCATTCAGTTGATACGATGTATCACATTTATTGATTTGCATATATTGAACCATCCTTGCATACCTGTGATAAATCTAACT
Y
GATCATGGTGAATAATCTTTTTAACGTGTTGCTGGATTTGGTTTGCTGGTGTTTTTGTTGAGGGTTTTTGCATCTGTATTTATTAGGGATACTGGCCATA
Celera SNP ID:            hCV26169207
SNP Position Genomic:     106052
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66797):
AGTTAATTTGCTAGAGCAGCTTACAGAACTCAGGGAAACTTATGTTAACCAGCTTACTAGAAAGGATATTACAAAATATATAGATGAGCAGTCAGATGAA
R
GAGATACATAGGAAAAGTTATGAGGAAGGGGGTGTGGAGTTTCCATGCCCTCTCTGGGCATGCCTCCCTGCAGACACCTGCACATGTTCAGCAACCCAGA
Celera SNP ID:            hCV8168167
SNP Position Genomic:     154718
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66798):
CCCATCATTGGTCCCTACAGGTATGTGGGGTGCATTTCTGCTTCACCAGTTATGGGAATGGGATTGCTGGCAGTGGCTGGCAGCTAGTTCTTAAACCCTA
G
GGACTGCATGCACCAGTGCCCTTGGTCTTGGAGGTGGCCTCCCTGCTGTGCTAGATTGCTTGTTCCTTTAGGTCTACTATATCAGCTCAGGTTCTGGAGT
Celera SNP ID:            hCV26169208
SNP Position Genomic:     114342
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,4)   total(G,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66799):
GGATAGATTTTTCTATTTCTGTGCAAAATATTGGGATTTTGATAGCAATTGCATTGATTCTGTAGATTATTTTTGGTAGTATTGACATCTCAACAATATT
R
AATCTTTCAATTTATGAACATGGGATGTGTTTCCATTTATTTATATCTTCTTTAATTTCTGTTAGCAGCGTCTTTTAGTTTTCTAAGTATTTCACCTCCT
Celera SNP ID:            hCV26169209
SNP Position Genomic:     115945
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66800):
AGTGCAGTTCGTTCCACTTTTGACGCATTGGTTGTGTGGCATACAGTTGGACATTGTCGTAGAGAAGAATTGGACCCTTTCTGTTGATCAGTGCCGGCTG
Y
GGGCATTGCAGTTTTCAATGCATCTCATCGATTTGCTGAGCATACTTATCAAATGTAATGGTTTCCCTGGGATTCAGAAAGCTGTAGTAGATCAGACCGG
Celera SNP ID:            hCV1802349
SNP Position Genomic:     117229
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66801):
ACCTCAGAAATGTAAATCGAAGAGGGAAATGTAATTTAAGCCTGTAGAATCAATGCATTAATTTGTTTTGCAAAAATTTAGAGCCCTGTATGAGTGGAAG
Y
TGTGAATGCTGAACCCAAGATATTTGAGAGATTCTTCAGGTATTGCAAATTTAATTATTCTGTTTCATGAGAGTGACATCTAAATGTGATTATTTGTACC
Celera SNP ID:            hCV29016794
SNP Position Genomic:     55330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66802):
AAACAAGATCAGACCCAAGATAAGTGACCAAGTTCAATAAAAACTTTTTTTTTTAAATCAAAGCAAAGTATATCTGCAGTAAAATAATGAAACCCATTTT
S
TTGGTTTACAAACTGGCTTAGAAATCTTTGAACTAAAGATTTATGGTGAGCTGGGTATTTTAGGAGACATGCTTTCCTTGTTATCGAATTTCCTGTTAGT
Celera SNP ID:            hCV29016795
SNP Position Genomic:     64270
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66803):
CCAGCCTTGCATCCCAGGGATGAAGCCCGCTTGATCATGGTGGATAAGCTTTTTGATGTGCTGCTGGATTTGGTTTGCCAGTATTTTATTGAGGATTTTC
R
CATCAATGTTCATCAGGGATATTGGTCTAAAATTCTCTTTTTTGTTGTGTCTCTTCCAGGCTTTGGTATCAGGATGATGCTGGCCTCATAAAATGAGTTA
Celera SNP ID:            hCV29016796
SNP Position Genomic:     72776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66804):
TTACAGGCGTGAGCCACAACGCCCAGCCTACTTTTCATTCGTTAAGGAATCTCCACACTGTTTTCTATAGTGGTTGTACTAGTTTACCTTCCCACCAGCA
S
TGTAAAAGTGTTCCCTTTTCACTACATCCTTGTCACCATCTATTATTTTTTGATTTTTAAATTATGGCCATTCTTGCAGGAGTAAGGTGGTAGTGCATTG
Celera SNP ID:            hCV1802384
SNP Position Genomic:     24429
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66805):
AACAGGATGGTATGTAGGTTACAGTGCATTGTACAATGCTTTATATATAGTAAGCTCTCCATTCAGTAAAATGTAATATTTTGAATACAATATTTGGACT
M
TTCATAAAAAAGGAAACTGAACATTATCATTTTTATAGAAATTAATATACATGCAAACTTTAGATTTTTTTTTTTTTTTTTTACAACTAGTATTTGTTCC
Celera SNP ID:            hCV1802386
SNP Position Genomic:     62027
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66806):
TTCTATAAGCTTTCTATATAAGGGTTCTATATAAGCTTTAGTTTTCCCATTCCTTTGACGTGTCATGCCTTCTATCCTAAATGTGTTTTCTCTTTTTTAC
Y
TGTCTGGTAAGCCTGTATTGCCTACTTTTATAGTTATTTGTGTGTATGAGTTATTTTTAACACCAGAGTTTGAAGTTTTTATGGGGAGATATGTGCTTCA
Celera SNP ID:            hCV1802387
SNP Position Genomic:     61713
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66807):
TGCTTTCTTTAAAATTATTATTAGATTGCAAGACTGGAGGAAGATAAAGAAGAACTACGTAACCAGCTGCTTAATGTTGATCTCACAAAAGACAGCAAAC
R
AGTGGAACAACTTGCTCGAGAAAAAGTCTATTTGTGTCAAAAATTAAAAGGTTTAGAGGCTGAAGTAGCGGAATTAAAGGCTGAAAAGGAGAATTCTGAG
Celera SNP ID:            hCV15961583
SNP Position Genomic:     87024
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,541|G,954)   total(G,954|A,541) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66808):
ATATTTGTGCAAAATGGACGGGCTTGGCCAAGGAATGGAGACATGGGCATCATGGCCTTGACCTATGACCCCACCACAGCTCTTCAGAATGGGTTTTACC
Y
AGCCCCTTATAACATCACCCCCAACAGGATGCTTGCTCGGTCTGCACTCTCCCCATACCTTTCCTCTCCTGTGTCTTCGTATCAGAGAGTGACTCAGACA
Celera SNP ID:            hCV25995449
SNP Position Genomic:     41809
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,28|T,12)   total(C,60|T,16)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66809):
ATATACCAACTCCCAGCCCACAGCCTGTTTTGTTTTAGTCAGTTCCCTTATTGTTTTTATTTAATGCCATTATATTATATTTGCATATGCCATAACATTT
R
CAAAATGCCCATTCTCTCCAGCTTCGGCTTAAGAAGGAGTGGGGGAGACCATACATATGCTAAGTCCATGTTCAATGTTGTACTCCTACACTTTGCACAA
Celera SNP ID:            hCV28008930
SNP Position Genomic:     67798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66810):
TAACATCACCCCCAACAGGATGCTTGCTCGGTCTGCACTCTCCCCATACCTTTCCTCTCCTGTGTCTTCGTATCAGAGAGTGACTCAGACATCTCCTCTA
Y
AAGTACCTAACCCATCCTGGATGCACCACCATTCATACCTCATGCAGCCTTCAGGTTCAGTTCTGACACCAGGGATGGACCATCCCATTTCTCTCCAGCC
Celera SNP ID:            hCV25996179
SNP Position Genomic:     41919
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66811):
GCTTGCAGTGAGCCGAGATTGCGCCACTGCAGTCCGCAGTCCGGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAA
R
AGTTAATTTCTAGCTTTATTGCATTGTGATCACAATATTGTTTGTACTCTTTCTGCTTTGTGGAACACTCTGATGTTTCTTTGTAACCTAATCTATCAAG
Celera SNP ID:            hCV26169210
SNP Position Genomic:     122518
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66812):
TAAGAGTATGAAGTTCTATATATATATATATATATGAAGTTCTATATATATATACATACACACACAGACATACATACACACATATGTGTCTGTACACATA
R
GATCTGCCTTGTTAACTGCGATGTTTAGGTCTTCTGTATACTTGCTTATTTTTTGTCCACTTGATTTGTCTTGTACAAAGAATGATATATTAAAGTCTCC
Celera SNP ID:            hCV26169211
SNP Position Genomic:     122935
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66813):
ATTTATTCTTTGGGAGTCAAGTCACCTATCTGAAATGTCTTAACTCTTAAAATGCCACATAATAGAATATGCAAAATAAAAATATATGTATTTGAGTTTC
Y
GAGCGTAAAGTCATCTCAAACCAGAAAGAATAATTTCTTTCAAGATAGTACATTCCTTACACTGGGATTTGAGGTCTTAAAGTCACAAATCCTGTTTGAA
Celera SNP ID:            hCV7522223
SNP Position Genomic:     87504
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66814):
CTGCTTCAGATTAGTTCATAGGGATTAGCCTCATTCTTTTTTATGGCTGCATAGCACTCCACTATGTGTATCTATCAGTGTTTAGTGAAATAGTCTCCTA
W
GTTCATTTAATTTCCAATATTTTGTCTTTTTTTTTTTTTTTTTTTCAAACACAGTCTTGCTCTGTTGCCCAGGCTGGAGGGCAGTGGGGCGATCTTGGCT
Celera SNP ID:            hCV16145980
SNP Position Genomic:     100175
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,6)      total(A,1|T,6) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66815):
TATATATGAAGTTCTATATATATATACATACACACACAGACATACATACACACATATGTGTCTGTACACATAGGATCTGCCTTGTTAACTGCGATGTTTA
R
GTCTTCTGTATACTTGCTTATTTTTTGTCCACTTGATTTGTCTTGTACAAAGAATGATATATTAAAGTCTCCTATTATTACTGTGTTTCTGTATGTGACT
Celera SNP ID:            hCV26169212
SNP Position Genomic:     122963
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66816):
GATCTCCTTTTCTTTTTCTCTTTCTTCTATTCTTCCTCCTCAAATCTATCCTCTGCAAATAAACGACTTATTTTTCTGAAATGTAAATGTGAGTCTACCC
Y
GTAATGTCTTCTATCCATCTAAAAGTTTAAAATCTTTCACTGGCTCTCCAAGACCATGGAATAAATTCCAGTCTTCTGCATGTGGCCTTCTAGGCCCTAC
Celera SNP ID:            hCV7522046
SNP Position Genomic:     32772
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(C,27|T,33)   Chinese(T,6|C,14)   Japanese(T,15|C,25)   African(T,30|C,30)      total(C,96|T,84)no_pop(T,1|C,4)    ;(T,-|C,-)   Caucasian(C,27|C,30|T,33|T,46)   Caucasian, from CEPH families(C,147|T,173)   African-American(C,28|T,30|C,30|T,32)   Asians(T,21|T,32|C,39|C,46)   total(C,347|T,367)
SNP Type:                 INTRON


Context             (SEQ ID NO:66817):
TTTATGTTGCCATCCTTCCATCCTTAATGTATTTTACACAGTGACAGAATAAGTGAGATGATTGCAGTTGAATATAGCATACAGTCCTGATGTGAAACTT
Y
CCATTGAGGTCCTTTAGAGTGATTATTTTCAGGGCAAGTTGAATGATGACAAAAGATTTATTTGTGACATTTTCAGAAGAGCCTATATTTAATTTTATTA
Celera SNP ID:            hCV7522224
SNP Position Genomic:     88252
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,11)      total(C,2|T,11) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66818):
TCACAGTAGAAAAATACAACTTCTATTGTTTGCCCTGTATGTTGCTTCCCTTTGATAGCAGGGACTCACATTAAATGAAGCCAAGAAGTTACATTAGAGC
Y
TTTGCTGCCCAATATGATATTACTAGTCACAGATGACTGTTGAAACCTAAATTTAAATTAGAATTTTAAAAAATTAAAATTCAGTTTCTTCAGTCACATG
Celera SNP ID:            hCV26169213
SNP Position Genomic:     126426
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66819):
GTGAGATGATTGCAGTTGAATATAGCATACAGTCCTGATGTGAAACTTTCCATTGAGGTCCTTTAGAGTGATTATTTTCAGGGCAAGTTGAATGATGACA
R
AAGATTTATTTGTGACATTTTCAGAAGAGCCTATATTTAATTTTATTATTTGTCAGATGAAATGAAAATAAGCGTATGACAGCAAGCATTTCTTTCTTCT
Celera SNP ID:            hCV7522225
SNP Position Genomic:     88304
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66820):
AAAAATCAAAAAAGACACGGGTTTACATAATGGTAAAGGGTTCAATTCAATAAGAAGACGTAACTATCCTAAATATATATGCACCCAACATAGGAGCACC
Y
GGATTCATAAAGCAAGTTCTTAGAGACCTACAAAGAGATTTATACTCCCACACAATAACAGTGGGAGACTTCCACATTCCACTGACAGTATTAAATCCTT
Celera SNP ID:            hCV26169214
SNP Position Genomic:     145966
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66821):
TGAAAACCAGCACAAGACAATTATACCCTCTCTCACCACTCCCATTCAACATAGTATTAAAAGTCCTGGCCAGAGTAGTTAGGCAAGAGAAAGAAAGAAA
K
AAAGGGCATCCAAGTAGGAGGAGAGGAAGTGAAACTATTCATGTTTGCAGTCGACATGGTTTTATGTTTAGGAAACCCCCATAGTCTCAATCCAAAAAGC
Celera SNP ID:            hCV26169215
SNP Position Genomic:     147590
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,1)      total(G,1|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66822):
GTCAGGATGGTCTCAATCTCTTGACCTTGTGATCTGTCCGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGTGCCTGGCTCCCCACCC
T
TTTTTTTTTTTTTTTTTTTAATGGGTTCTTGATCTGTTGTCCAGGGTGGAGTGGCACAGTCATAGCTAACTGTAGCCTTGAACTCCTAGGCTTAATCCAT
Celera SNP ID:            hCV26169216
SNP Position Genomic:     152442
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66823):
ATATCCTTGCAAATGAAAACATTTTGCTGTCATATCATCTTTATTATAGTTCTTGTAACATAATTATGATCTCTTGTTTTAGGTTAGAACTCGAGAACAG
R
TTAGCAGATTTGGAGAAAATGAAAGTGGAACATGATGTCTGGAGGCAATCTGAAAAGGATCAGTATGAAGAGAAATTGCGGGCTTCACAGATGGCAGAAG
Celera SNP ID:            hCV1802351
SNP Position Genomic:     98065
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66824):
CCAAATGTATGGATTTCTACCCATCAACAAGCAAGCATTCAGTTCTGCAGTGGACAGCAGTCTGACATCTTCTAATCTAATTTGATTCTACTGCTCTCTA
Y
ATGGAGATAGCATCAGATCCTGCGGGTTGAAGGCTTGGTCCCACAAGATTGCCACCATTTCAGACACCAGTCTCACTTTCAGGACTCTGGAACTTCTGAT
Celera SNP ID:            hCV1802352
SNP Position Genomic:     119315
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66825):
CTGAGTAGCCAGACTACACTGCTGGAATAATTGGAACCACAGATGTCGCAATAGGACATGGGATGTGCTGGCTTCTGCTGTGGCTTCTCTCTTGGGGGGG
Y
CACCAAGTATAATACTTTTCATGCAGTACATTTTACCTGAGCTCCCTAGCTCACCTGTGTGCTGACCCTGATTTTTCTTCTTTTTTTCCATATATATATA
Celera SNP ID:            hCV1802353
SNP Position Genomic:     91718
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66826):
TCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGTGGATGCCTGTAATCCCAGCTACTTGAGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGG
Y
GGAGGTTGCGGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCTAAAAAAAGAAAAAAAAAAAAAGAAATAGTA
Celera SNP ID:            hCV1802354
SNP Position Genomic:     126939
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66827):
TAATTTTCCATGAAAGGCCACTTTTTCAGGCTGTTGTTTATGTATATCAAAATCCTACCTGTCAGGTTTTTATCCATGTAGCGTTCCCCAGTACCCCTGG
R
CAGACTTGATTTCTCATCCTCTCTATGCCCCTAGTTTGTAGATTTTCCTATCACAATAGCAGTAATTTGTTTTACATTTTTGTTATACGTGAACACAACC
Celera SNP ID:            hCV1802355
SNP Position Genomic:     130086
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66828):
TTTGCATTTCCCTGCACAGTAATGTTGGACACCTTTTTCTGTGGTTATTGGCCATTTGGTGGAATATCTGTTTAAGGCATTTGCCCATTTTTTAGCTGGG
T
TTTTTTTTTTTTTTTTTTGGTCTTACTGAGTTGTAAGAGTTCTTTATATATGCTGGATGAAAGTTTGTATTGTTTTTAATATCAGAGATAAGATTTGCAA
Celera SNP ID:            hCV26169180
SNP Position Genomic:     14504
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66829):
GACTTGATTTCTCATCCTCTCTATGCCCCTAGTTTGTAGATTTTCCTATCACAATAGCAGTAATTTGTTTTACATTTTTGTTATACGTGAACACAACCTA
R
TTTCTTGAAGTCTCAATCTTTGGTTGTGTTTGTGCTCTGGTGTCAAACAGGCATTCAATAAAATGACTCTTTAATTCAGTGAAATAAATGAATCATGGAT
Celera SNP ID:            hCV1802356
SNP Position Genomic:     130189
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66830):
ATGGCATTTTCTTTCTTTCTTTTTTAAGACAAAGTCTTACTCTGTTCCCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAACCTCTGCCTCCT
Y
GGTTTAAGCAATTCTCCTGCCTCAGCCTCCTGAATAGCTGGGAGTATAGGTGTGCATCACCACACCCAGCTAATTTTTCTATTTTTAGTAGAGGTGGGGT
Celera SNP ID:            hCV1802357
SNP Position Genomic:     76939
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66831):
CTTATACCACAGTCACATTCTGGGTGCCCATGAATTTTTGGGAGACATTATTCAACCTAAAATAAGAACTCATAAAGCCTATGAATTCTTCCTTTATGAT
G
CCTCTCAAATTTTCCCCCACCCCATATTTCTTTTCATTCCTATTACTAACATCCTTGGTCAGACTGTCTTCCCTACGAGGTTTATCTGTATTCATTTATC
Celera SNP ID:            hCV1802358
SNP Position Genomic:     140232
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,3)   total(G,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66832):
TTTTTTTTAGGAGGTTTATAGTTTAGGTTTTTAATTCAGGCCTCTGATTTATTTTGATCCTATTTTTGTATATGGCGTGGGGAGCAACTTGAAGTTCTTT
K
TGTGTGTGTGTGTGTGTGTATGGAAAAGGCAATTGTTCCAGGACCATTTGTTGAAAAGACTATCCTTTCTTCACTGAATTGACTGCATTTTTGTCAGAAA
Celera SNP ID:            hCV26169183
SNP Position Genomic:     20698
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3|G,3)   total(G,3|T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66833):
AGGGGTGGGCTGCCATCTTTGCTGTTTTGTAGCCTTAGCTATTGCCTTCATTGCAGCCACCCTATGGAAAAGCATCCAGACTGCTTTTTTATGCAGGTCC
Y
AGACCCTGCTTTTCAATGGGTGGGGGACCTCCCGACCAGGGTCACTAGTCACCCTTGTTGGTGTTTTCCAGCTGGCAGTGGTTCCAAGCCACCCTGGGAC
Celera SNP ID:            hCV1802359
SNP Position Genomic:     143046
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66834):
CATTTGTATATCTTTTGAGAATTGTCTATTCATGTCCTTTCCCTAATTTTTGATGGGAATATTTGGTTTTTTTCTTGCAGATTTGTTTGAGTTCCTCGTA
R
ATTCTGGATATTAGTCCTTTGTGGGATGCATAGTTTGTGAATATTTTCTCCCACTCTGTGGGTTGCCTGTTCACTCTGCTGATTATTTCTTTTGCTGTGC
Celera SNP ID:            hCV26169185
SNP Position Genomic:     24690
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66835):
CCATTCATACCTCATGCAGCCTTCAGGTTCAGTTCTGACACCAGGGATGGACCATCCCATTTCTCTCCAGCCTGCCTCCATGATGGGACCCCTTACCCAG
Y
AACTGGGCCATCTCTGCCTCAGCAGCACAGGCATGTATATGCTGACGGCTGCAGCTATGCAAGGAGCTTACATCTCCCAGTACACCCCTGTGCCTTCCTT
Celera SNP ID:            hCV25996974
SNP Position Genomic:     42048
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,28|T,12)   total(C,61|T,17)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,24|T,8)   total(C,55|T,9)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66836):
TCACTGCAAGCTCCGCCTCCTGTGTTCATACCATTCTACTGCCTTAGCCTCCTGAGTAGCTGGGACTATAGGTGCCCGCCACCACGCCTGGTTAATTTTT
W
AATTTTTTATTGTTAGTAGACATGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCCTGAGCTCGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCT
Celera SNP ID:            hCV15998506
SNP Position Genomic:     59218
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,1)   total(A,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66837):
AAAAAGATGGAAGATAAAAATTTTACCTATCTCAGGAATGAAAGAGTATCACTCATGACCTTGCAGACATTAGAAGGGAAATCAGATAATCCTTTGAACA
R
CTCTACTCTAATAAATTTGACAATGCAGATGAAATGAATCAATTTCTTAAAAGGCACAAACGACCACAACTCATTTAATGTGAAATTGGCAGTTTGTATA
Celera SNP ID:            hCV29016800
SNP Position Genomic:     83840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66838):
CCAAATCCAAGATGGTGATTTTTTTTTTCCCCAGCCAGTGGTACAGGAGTACAATGGTATGTTTTGAAGAGTAGAAGTTACTTTTTATTTTGTTACATGA
Y
GCTCTGTCAGTATTTACTGGTTTTCTGAATTAAAAGTTGTCAGTATCATTGTACCTTAAACATGAAGCAGTTCATTGTGAGACTATTTATGTTGCCATCC
Celera SNP ID:            hCV29016801
SNP Position Genomic:     88066
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66839):
ACAGTGGGATTCCCCTCCCCATCTTTACTGAGTAGAAATGAATTCTTGGAGATACTCATGCTCCCAAATTCCAGAGGGTTAACCAGGAATGGAGACCATC
Y
GTCGGCCCTGCTAAGGACTAACACTTAGCCATCGTTTTTCACAGGCCTGGGCCTGGAAAAAGAAATCTCTATGTTCCTGCCCTTTACTGTTGCTGATGGA
Celera SNP ID:            hCV25991132
SNP Position Genomic:     42346
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,35|T,3)   total(C,72|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:66840):
GTGGGATTCCCCTCCCCATCTTTACTGAGTAGAAATGAATTCTTGGAGATACTCATGCTCCCAAATTCCAGAGGGTTAACCAGGAATGGAGACCATCCGT
Y
GGCCCTGCTAAGGACTAACACTTAGCCATCGTTTTTCACAGGCCTGGGCCTGGAAAAAGAAATCTCTATGTTCCTGCCCTTTACTGTTGCTGATGGAGCC
Celera SNP ID:            hCV25991133
SNP Position Genomic:     42349
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,40)   total(C,73|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:66841):
AATCCTTATTATATGACTATATCTAATTTTAGAAGCTCCTTACCAAAGAGAAGGGCTATGGAAAATGAATTTATATGATTTATACTTGTTCCTGCCCCCA
R
TCCCCTACCTAATACTTGTGCACATGCGCACACAGACACAGTCTATACACATTACACTATTTTGTCACCAGATTCAATTGATTCTTCCTTCCCCCCTCCG
Celera SNP ID:            hCV29016803
SNP Position Genomic:     94585
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66842):
TCATTTTACTTTTTAAAATGTGATCTATGGATTGTGATTTAAGTCATAGTGAAATTGTTAAGGTCAATTCAGTGAATGATTATGACCTAGAATTGTCCTA
Y
TATGTGGGACACTGCCCTAGGAGCTTACAAGTTTACATCAATTAAAATAGAAAAACATCATGTGTAACTTAGAAATACAATTAAAAAGTATATAAGTATG
Celera SNP ID:            hCV29016805
SNP Position Genomic:     136937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66843):
TCTGCCTTGTCTTTACATGATGGTCTCCCTGTGTATCTGTAGCTCTGTGTCCAGATTTCACTCCTGTTATGTAAGGACACCAGTCATAGTGGATTTAGGG
Y
CCACTCGAATCCAATCTAACTTCATCTTAACTTGATTACATTTGTAGACCCTATTTCCAAATAAGGTTACTCTAGGGTGTTTTCCAATACCAGCAATCAT
Celera SNP ID:            hCV29016806
SNP Position Genomic:     139340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66844):
GCAATCTGAAAAGGATCAGTATGAAGAGAAATTGCGGGCTTCACAGATGGCAGAAGAGATCACCAGGAAGGAGCTTCAGAGTGTTAGGTTATATATACAT
N
TATATTTAAAGTTTTTCATGTTGAAATAAGGTCAGAGTTAACAAAATGATGTACAACTAGTACAAAGAATTCCCATGTGCTCTTCACCCTGATCTCCCAA
Celera SNP ID:            hCV7522231
SNP Position Genomic:     98210
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   no_pop(T,-|G,-|C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66845):
GGTTTTTGAATTGAGAAGTGATATCTGAATTACATTTTTGAAGAATCTCTGGCTGTTGTGTAGAGGGGCAGAATAGGAGTCAGGGAAACCATGTTTTAGT
Y
GTCCAGGTTACAGATCAGCACTAAAAAAGATGAGTTTAGAACTAAAAAAATACAATAACAATAATTAACTCAATGGATAGATTTAATAGCAAACAACATC
Celera SNP ID:            hCV29016807
SNP Position Genomic:     141212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66846):
TTTCCCTATTATACTTGGTTTTTTTGGCCTTTTTTCCCTTGCTTAAAAATTTTTTTTAAATTACCTTACTTTTTAAGAGTTCTTTATATATTAGGATTAT
R
CTGCAGATATTTTCTGCCAGTGTGTGTCAGCAGTCCTTTGATTTTGCTTCCGTTATTTTTTTGCCATGCAAAAATTTTTATTATGTAATCAAATTTAATC
Celera SNP ID:            hCV7522232
SNP Position Genomic:     100892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66847):
CTAACATCATACTTACTGATTAAAAATATTGACTGCTTCCCCTTACTTACCCAAGGTCAGGAACAGATGTCTACTATCACCATTTTGTTTAATATTTTAT
Y
GGAGGTTCTAGTTAGTGTAATAAGGCAAGAAAAAGAAATGGAGGGGGAGGCTGGTCAAGATGGCCAACTAGAAGCAGCTGGTGTGTGCCACTTTCATGGA
Celera SNP ID:            hCV29016808
SNP Position Genomic:     142274
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66848):
TTTTAAATTACCTTACTTTTTAAGAGTTCTTTATATATTAGGATTATGCTGCAGATATTTTCTGCCAGTGTGTGTCAGCAGTCCTTTGATTTTGCTTCCG
Y
TATTTTTTTGCCATGCAAAAATTTTTATTATGTAATCAAATTTAATCTGTTATTGCCTCTGGGTATTAAGTCAGAGTTAGTACTCTCTCCCTGAACTGAG
Celera SNP ID:            hCV7522233
SNP Position Genomic:     100945
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66849):
AGAGCAATCAGGACAGTCATCCACTTGGGAGTGACACAGAGCCAGAGGAGCCTCCTCTTCCCAGGGAAGTGGTGAGTGAGTGAGTGACCCCAGCGACCCA
M
GCTTCTCCCTTGGATCTTTGCAACCCACAGGTCAGGAGATCCCCTTGTGAGCCCACTCCACCAGGGTCTGCAGCCTGTTACACAGAATTATGTGGAGTCT
Celera SNP ID:            hCV29016809
SNP Position Genomic:     142578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66850):
AAAACAAACACATAAATCAATGGAACAGAATAGAGTAACCAGAATTAAGGCCTCACAGCTACAATCATCTGATCTTCAACAAAGCTGACAAAAACAAGCA
R
TGGGAAAAAGGACACCCCATTCATTAAATGGTGCTGGGATAAACAGCTAGCCATATGCAGAAGATTGAAACTAGACCTCTTCCTTACACCATATGCAAAA
Celera SNP ID:            hCV1802360
SNP Position Genomic:     148306
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66851):
GGAAAGAATTTAAATTTTCATTAACAGGAAAATGTATAAAATGTGGTATATTTGTACAATGAATGACAACATTGCAATGAAAAAGAAGTACTGTGACAAT
R
CATAACCATGGCTTAGTCATATAGATAAAATGTTGAGAAAAAAGTCCAGATACAAAAGAGCATAAATTTATGATTTCTTTCATATGAATGGGTGGATGGA
Celera SNP ID:            hCV1802361
SNP Position Genomic:     151063
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66852):
ATAGATAAGGAAACTGATTCAGAGTGAAGTGACTTGCATAAGGTCATAGCTAATAAGTGACAAAGTTTCAAACCTAAACCTGTTGAATCCAAAACCCGGG
Y
TCTTTCTATTGTATCAAGCCCCTGAGGTATTGAAGGAATCAGATTGATTCTTTTTCAGAAGATGGGAGTATTAATAAGTAATTATGTTTTATAACATAAG
Celera SNP ID:            hCV1802364
SNP Position Genomic:     156591
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66853):
CCCTTTGATAGCAGGGACTCACATTAAATGAAGCCAAGAAGTTACATTAGAGCCTTTGCTGCCCAATATGATATTACTAGTCACAGATGACTGTTGAAAC
Y
TAAATTTAAATTAGAATTTTAAAAAATTAAAATTCAGTTTCTTCAGTCACATGAAGTACATTTCAAGTGTGCACTAGCAACATGTTGCTAGTGACTATCA
Celera SNP ID:            hCV15839023
SNP Position Genomic:     126473
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66854):
TTGTGCACCATCTTGGCCCAGTATTAGGGTATTTTATTACAGCCTAGCTTGGCTTCCACCTAATCTTTGCTTGTGTGGATGGGGGTGGAACTACAGTTTT
K
TTTTGTGTGTGTGTGTGTGTGTGTGTGTGTATGGTATTTGGATAGAGTAGATTGTAATTGTCTACATATTATCTTGCTAGGCTCCCTCTTTTTTGTTCCT
Celera SNP ID:            hCV26169190
SNP Position Genomic:     49408
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66855):
CATTCATTCATTTTCCAGCCTGCTCTAGGGTTCAGGCTTTCTGGTGGCTAGAGCCTATCCTGGCACAGAACCAACCCTGGACAGGATGACATTCCATTGC
R
TGGTGCACTTAAATACACACCCATACTCATTCCTACTGGGACAATTTCAATCTCCCAGTGAATCTAATGTGCACATCTTTAGGATATGAGAAGAGGAAAC
Celera SNP ID:            hCV1802294
SNP Position Genomic:     20148
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66856):
GTGCTTATTTGATTTTGAAATACTTGAAAAATGATGAATTTTAAACTATTTTGTTTGTATGAAAGGCTGAAAAACAATCAGCTAATTTACGGGCAGAACG
Y
TTGGAAAAAGAGCTACAATCAAGCAGTGAACAAAATACCTTTTTAATTAATAAATTGCATAAAGCTGAACGAGAAATAAATACATTGTCCAGTAAAGTAA
Celera SNP ID:            hCV27906849
SNP Position Genomic:     90008
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66857):
GTGCACCATCTTGGCCCAGTATTAGGGTATTTTATTACAGCCTAGCTTGGCTTCCACCTAATCTTTGCTTGTGTGGATGGGGGTGGAACTACAGTTTTTT
K
TTGTGTGTGTGTGTGTGTGTGTGTGTGTATGGTATTTGGATAGAGTAGATTGTAATTGTCTACATATTATCTTGCTAGGCTCCCTCTTTTTTGTTCCTTT
Celera SNP ID:            hCV26169191
SNP Position Genomic:     49410
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,1)   total(G,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66858):
TAAGATTCCTAGGAGGTAAGAAAAAGTTAGAGATGCTTTGTCAGAGACCTCAGATCAGAAGACCCCTAAACTGTTGTATGCTATTAGATTGCACAGGCCA
R
TGGTGAGGTGCACACCATTACAGGATTTAAAGCACTGTTGTTTCCAAGAGGCATCTGTGATGTAATTGAACATATAATGCTAGAAGCTGCATGGATATTG
Celera SNP ID:            hCV1802367
SNP Position Genomic:     58445
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66859):
CACTAATAGATGCCAACACTGAGATGCAGAGGTGTTAGAATTATTTGACAAACATTTCAAAGCAGCCATGGTAAGAATGATTCAATGAGGAATTATAAAC
S
TGGTTGAAACAAACAAACAAACAAAACCCAAAAGACTTAGCAAAGAAACAGAGAATAAAGAGAAGAAAATTGGAAATTTTAGAACTGAAAGAGTGACTAA
Celera SNP ID:            hCV11488865
SNP Position Genomic:     81185
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,8)      total(G,8|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66860):
TCCTCTTTCACCTCCTTTGGAGACTCTTAATTACATTCTAATATTAGACCACTTAAAGTTCTGCCATAGCTTGCTGATGTTGTTTATTAATTTATTTTTA
R
TATTTTTTGTCTCTGTGCTTCATTTTGGTTAGTTTCTGTTGCCATGTTTTCAGATTGATTGATTTTTTCTTCTGCAGTATCTAACCTGCCATTAATTCCA
Celera SNP ID:            hCV26169192
SNP Position Genomic:     58888
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66861):
GTAAAATGTAATATTTTGAATACAATATTTGGACTCTTCATAAAAAAGGAAACTGAACATTATCATTTTTATAGAAATTAATATACATGCAAACTTTAGA
T
TTTTTTTTTTTTTTTTTACAACTAGTATTTGTTCCTCCTTCATTCATGAAATAGTTGAGTGGTTCCTATGTGCCAGACATTGGTGGGAGGTATTGGGAAT
Celera SNP ID:            hCV26169193
SNP Position Genomic:     62092
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66862):
CCTGCATTCGAAATCTGATGACTAATCTATTTTTCACTTATGAAGGACTAAGTGATTCTCATTAAAATTTTTAAGGGGTTGGTATAGTCATTAATTTATC
A
TTATTATTATTATTATTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGATGCAATCTCGGCTTACTGCAGCCTCTGCCTCCCAGGTT
Celera SNP ID:            hCV26169194
SNP Position Genomic:     68472
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66863):
GGCTAATTTTTTTGTGTTTTTAGTAGAGACGGGGTTTCACTGTGTTAGGCAGGATGGTCTTGATCTCCTGACCTCATGATCTGCCCACCTTGGCCTCCCA
M
AGTGTTGGGATTACAGGCGTCCCGAGTCACCACACCCAGCCAAAATATGAACTTTAAGTATGTAAGTAATTTAAGTGATATTTTCTTCATGTAAGGAATG
Celera SNP ID:            hCV11166163
SNP Position Genomic:     70410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,5)      total(A,1|C,5) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66864):
CTGCATTCGAAATCTGATGACTAATCTATTTTTCACTTATGAAGGACTAAGTGATTCTCATTAAAATTTTTAAGGGGTTGGTATAGTCATTAATTTATCA
T
TATTATTATTATTATTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGATGCAATCTCGGCTTACTGCAGCCTCTGCCTCCCAGGTTC
Celera SNP ID:            hCV26169195
SNP Position Genomic:     68473
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66865):
CTTTGATGTTCACACAACAATGAAATTACTTAACAATGAGTTTATCAGAGCATATCCTTGTTAAGTGATGCATGGAGATAATATTTGTGCATTTCATTAT
R
TGTAAATTTTACTTAAAGGACTATAAACAAGCACATGAATAAAGGAGAAATAGTAGAATAAATTTTTAAAAAATGAATATTACATATCCATGTGGTAGCC
Celera SNP ID:            hCV1802298
SNP Position Genomic:     44391
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66866):
TGCATTCGAAATCTGATGACTAATCTATTTTTCACTTATGAAGGACTAAGTGATTCTCATTAAAATTTTTAAGGGGTTGGTATAGTCATTAATTTATCAT
T
ATTATTATTATTATTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGGGTGCAGTGATGCAATCTCGGCTTACTGCAGCCTCTGCCTCCCAGGTTCA
Celera SNP ID:            hCV26169196
SNP Position Genomic:     68474
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66867):
TCTGCAGAAAGGGTGCCACTCACTAGCAGTCTTGCCATGAGAGCACATACAAACAAAGGAGACAGGGTCATTTATAATCTAATGCGTCCATGCTATGGCT
K
TGTCCAGTTTCCATTGGCTGGAACGGGACTTCACATTCTGTTCTTGTCCTGATTGGCTAGCAACTTAGAACCTCCCAAAAGAGGTAAAGGTAGGGGAGAA
Celera SNP ID:            hCV1802299
SNP Position Genomic:     43753
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66868):
CCCAGGCCCCCACCCCCTGACAGGCCCCAGTGTGTGATGTGTCTTTATAGTAGCATAATTTATAATCCTTTGGGTATGTACCCAATAATGGGATTGCTGG
R
TCAAATGGTATTTCTAGTTCTAGATCCTTGAGGGATTGCCACACTGTCTTCCACAGTGGTTGAACTAATTTACACTCCCACCAACAGTGTAAAGCATTCC
Celera SNP ID:            hCV83818
SNP Position Genomic:     70889
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66869):
TCTCCAGCTGTATCTGTGTTGCTGCAAAGGACAAGATTTCATTCATTTTTATGGCTGTATAGTATTCCGTGGTGTATATGTACCATATTTTCTTTATCCA
R
TTCACCATTGATGGGAACCCAGGTTGATTCCATGTTTTTGCTATTGTGAATAGTGCTGTGATGAACATATGAGTGTGTGTGTCAATTTAATAGAATGATT
Celera SNP ID:            hCV8173514
SNP Position Genomic:     77792
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66870):
AGATATATATATTTATTTATTAAATGCTGTGGCCCATGATAATTTTTAATTACAGTTATAAGGACAGTATTTTAATATTCAGAATTTTAAAAACTCAATA
R
AAATATCATCCAGGTTTTAAGTTACTTGTGTGATTGACTTGTAACTTTATATCATGAGGTATTTTTTGCTATATCCCTATGAAATCCAAGATTTGTATTT
Celera SNP ID:            hCV7522023
SNP Position Genomic:     130716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66871):
TGGGAGTGACACAGAGCCAGAGGAGCCTCCTCTTCCCAGGGAAGTGGTGAGTGAGTGAGTGACCCCAGCGACCCACGCTTCTCCCTTGGATCTTTGCAAC
Y
CACAGGTCAGGAGATCCCCTTGTGAGCCCACTCCACCAGGGTCTGCAGCCTGTTACACAGAATTATGTGGAGTCTCAGCAATGCAGCCGCTCAGATACAC
Celera SNP ID:            hCV29016810
SNP Position Genomic:     142603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66872):
CACAGGTCAGGAGATCCCCTTGTGAGCCCACTCCACCAGGGTCTGCAGCCTGTTACACAGAATTATGTGGAGTCTCAGCAATGCAGCCGCTCAGATACAC
R
TAGAGCCCTGGGAGCTTTAGATACCCAGGTTTCCCATCAAAAGCAACTGCAACTCCAGCCAAGCAGGACGTTAGACCCCTGTACATACCCCTAGGAAAGA
Celera SNP ID:            hCV29016811
SNP Position Genomic:     142704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66873):
TGTGGAGTCTCAGCAATGCAGCCGCTCAGATACACGTAGAGCCCTGGGAGCTTTAGATACCCAGGTTTCCCATCAAAAGCAACTGCAACTCCAGCCAAGC
R
GGACGTTAGACCCCTGTACATACCCCTAGGAAAGAGGCTGTATACAGGGGATAGAGCAGTGACAGTCTGCAGGCCCCACTACCATGGCACCTTGCAGGAT
Celera SNP ID:            hCV29016812
SNP Position Genomic:     142769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66874):
TAAAAATCATGTTCATTAAGTGGTAGGCTATGTTTTGAGACAGAGTTCTTGATCTGCATTACTTAGGAAAGAATTACTTCAGGCAGAGGTATACTTATTA
Y
TTACTTAGGTTTTATAACTTTATTTAAATTGTTAGTGGCTGTGATTCTAAAAGCATGAATCTGTAATAGATTTTAAGAACCAATCTTGTCTGTCCTTTTG
Celera SNP ID:            hCV27906850
SNP Position Genomic:     123834
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66875):
GGCCACTTTTTCAGGCTGTTGTTTATGTATATCAAAATCCTACCTGTCAGGTTTTTATCCATGTAGCGTTCCCCAGTACCCCTGGACAGACTTGATTTCT
Y
ATCCTCTCTATGCCCCTAGTTTGTAGATTTTCCTATCACAATAGCAGTAATTTGTTTTACATTTTTGTTATACGTGAACACAACCTAGTTTCTTGAAGTC
Celera SNP ID:            hCV27906851
SNP Position Genomic:     130101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66876):
CCTACTATGTGGGACACTGCCCTAGGAGCTTACAAGTTTACATCAATTAAAATAGAAAAACATCATGTGTAACTTAGAAATACAATTAAAAAGTATATAA
S
TATGTATAATTTTAGGACTGGAAGGGATCTTAGCATTCAAATAGCTTTTACAAGTTAGCAACCTAAAGTAGGAGGTACCCAAGATTACTTAACTAGTAAG
Celera SNP ID:            hCV27906852
SNP Position Genomic:     137033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66877):
CTCCCCATACCTTTCCTCTCCTGTGTCTTCGTATCAGAGAGTGACTCAGACATCTCCTCTACAAGTACCTAACCCATCCTGGATGCACCACCATTCATAC
Y
TCATGCAGCCTTCAGGTTCAGTTCTGACACCAGGGATGGACCATCCCATTTCTCTCCAGCCTGCCTCCATGATGGGACCCCTTACCCAGCAACTGGGCCA
Celera SNP ID:            hCV25996779
SNP Position Genomic:     41958
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66878):
AGAGAATGTTTGTGTTAACTGCAGTAAAATATCAGTTAAACTCAGTTTTAAGTATCAATTTCTCTTTAACTTTTCAGATTACGGCATAAATCTCATAGAA
R
TAAAATTAAATCAGGATTTATTTAAAAAACAATTTTCAGGATATGCTGTTGCATCAGTAGATAATCTTTATTGTGTATTAGCAGCCATATTATGGGTAGC
Celera SNP ID:            hCV29016789
SNP Position Genomic:     37496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66879):
AGGGGTCCTGTGGGGCAGCAAAATGTTTGAATTTGTATAGGGAGCTGGCTAATACGGGGCTGTGAGTTTAGCTGGGAAATTTAGATTTGAGTCAGGAAAG
M
ATAAGGATTATCATAGGAGTTATAGTGACGAAGGCAATGTATGAGAAAGATTGTTTTGGTGATATTTGTAGGCTATGTAAGAATGAGAAAATACTAAAGT
Celera SNP ID:            hCV11166175
SNP Position Genomic:     22913
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66880):
TGGCTTTGCAAGGATGGAGTCCACAGAGAAGTGTGAAGCCATCATCACCCACTTTAATGGAAAATATATTAAGACACCCCCTGGAGTACCAGCCCCATCC
R
ATCCCTTGCTTTGCAAATTTGCTGATGGCGGGCCAAAGAAACGACAGAACCAAGGAATATTTGTGCAAAATGGACGGGCTTGGCCAAGGAATGGAGACAT
Celera SNP ID:            hCV25991944
SNP Position Genomic:     41652
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,37)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:66881):
AGATCAAGATTTAAGTACCATCTCTTTGGAATCTGTATCCAGAGCTTCTTAGGTAATACATATTGTCAATTATATTTCCATTTCTTGCTTATTTATGCTG
K
GCTCTTGTGTGTCTTTCTGTGAGTATGTGTACTTTAACAGATACTGACCCCCTGTAAAATGCCCAGTTTTGCCAGTTTTGACATTTATTAAAGTTTTGTT
Celera SNP ID:            hCV11220806
SNP Position Genomic:     92580
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66882):
TTTTATATGTATGTATCCAGTTTTCCCAACACTGTTTGTTGACAACATTGCCCTTTCTTCATTGAATGACCTTGGTACTCTTGTCAAAAATCATTTGACC
S
TATATGGGAGGGTTTATTTACTCATTCTGTATTCTATTCCAGTTGCTTATATGTTGGTCTTTATGTCAGTGTCACACTATTTTGATTATTATAACTTTGC
Celera SNP ID:            hCV11220807
SNP Position Genomic:     115648
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,3)      total(G,3|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66883):
TCTCAGCAGGTTTCTTTGTAGAAATTAGAAAGTAGATTCTAAAATTCATCTGAAAGTACAAAGGACTAGAATACCCAAAGCAATCTTGAAGAACAATAAA
R
CTAGAGGACTTAAAACTACCAGGTATCAACACTAAATATAAGCTACAGTAATTCAGTGTGGTATTGGCATAAGGATAAACAGGCAAATGGAACAGTATAG
Celera SNP ID:            hCV11492759
SNP Position Genomic:     150041
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66884):
GCACAAGTTTGGCTTCGGGAAGTGCTCTGGAGCTTCTTCTCCATCCAGCCACTGAGGTGGTCATTGCCGGTAGTCGTATGAAATCCACTTTTTGTCGCAT
R
TCACAATCTGCTTGAGAAATAGTTTGTTGTTGCATAGAATAAGAGAAGACTACACTTCAAAATGACGATATTTTAAATTTTCACTCAGTTCATGAGACAC
Celera SNP ID:            hCV11220808
SNP Position Genomic:     117466
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66885):
GATAAAATGTTTTAAAATGTTTAAACTTCTATACTTTAATAAGCTTCTTTGGCTAACTGCTATTATTCTTAAGATATATATATTTATTTATTAAATGCTG
W
GGCCCATGATAATTTTTAATTACAGTTATAAGGACAGTATTTTAATATTCAGAATTTTAAAAACTCAATAGAAATATCATCCAGGTTTTAAGTTACTTGT
Celera SNP ID:            hCV7522033
SNP Position Genomic:     130645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66886):
TCATCTGCAAACAGGGACAATTTGACTTCCTCATTTCCTAATTGAATACCCTTTATTTCTTTCTCTTGTCTGGTTGCCCTGGCCAGAACGTCCAACACTG
Y
TGAATATGAGTGGTGAGAAAGGGCATCCTTGTCTTGTGCTGGTTTTTAAAGGAAATGCTTCCAGTTTTTGCCCATTCAGTATGATATTGGCTGTGGGTTT
Celera SNP ID:            hCV26169202
SNP Position Genomic:     72389
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66887):
CCCTGGCCAGAACGTCCAACACTGTTGAATATGAGTGGTGAGAAAGGGCATCCTTGTCTTGTGCTGGTTTTTAAAGGAAATGCTTCCAGTTTTTGCCCAT
K
CAGTATGATATTGGCTGTGGGTTTGTCATAAATAGCTTTTATTATTTTGAGATACGTTCCATCAATACCTAGTTTATTGAGAGCTTTTAGCATGAAGTTC
Celera SNP ID:            hCV26169203
SNP Position Genomic:     72465
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66888):
ACAAAAAGCCAGCTAATACAAACTTTGTTTAAGATCTGGAGTCTCATAACTTAATTCCCCAAATGTCCAAGTTTCCATTGAAAATTGCTTGTCACACCAC
R
AACTAGGAAGGTCTGAAACTGAATGTAAAACACACTAATAGATGCCAACACTGAGATGCAGAGGTGTTAGAATTATTTGACAAACATTTCAAAGCAGCCA
Celera SNP ID:            hCV26169205
SNP Position Genomic:     81052
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66889):
GCCTCCCAGGTTCAAGTGATTCTCTTGCCTCAGCCTCCTGAGCAGCTGGATTACAGGTGTGTGCCACCATGCCTGGCTAATTTATTGATTAATTGATTGA
Y
TGTTATTTTTAGTAGAGACGGGGTTTCACTGTGTTGGCCAGGCTGGTCTCCAACTCTTGACCTCAAGTGATCCACCTGCCTTGGCCTCCCAAAGTACTGA
Celera SNP ID:            hCV26169206
SNP Position Genomic:     103522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,4)      total(C,4|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66890):
GGGGATAGATAGTTGGGGAGATCAGGAAAGGGAAAGAATGAGTTCTAGACCCTGATTGCTTGCCCCTGGTCTCCAGAGGTGAGGAGCTTCTGAAATGCCT
N
AGAGGTTAGGAAACAGTTTGAAACCCACTGATTTGGAGGCCCACGAAGTCCAGCAGTGATAATTGGCATGAATGACAAGACCACTGGTGTCTCTGCTCTG
Celera SNP ID:            hCV7522218
SNP Position Genomic:     86233
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(G,-|A,-)   no_pop(T,-|C,-)   no_pop(T,-|G,-|C,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 429
Celera Gene:                 hCG401256 - 79000075371031
Gene Symbol:                 FTCD
Protein Name:                formiminotransferase cyclodeaminase
Celera Genomic Axis:         GA_x5YUV32W8NG(517741..554101)
Chromosome:                  Chr21
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12589):
TTTTCAGTCTGTGTGAGTCTTTATAGGCGACGTGTGTTTCTTGTAGGCAGCAGATGGTTGGGTCTTGTTTTTTTTTTATCCATTCAGCCACTCCGTCTTT
TGATTGGAGAGTTTAGTCTATTTACATTCAAAGTTTCTTGGTTGTTTTTGACCAAACTCACATACTATCATTCATCGATTTGACTGTGCTGTAATTTTTT
TTTTTGGAGACAGGGTCTCACTTTGATGCCCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCAT
GCCTCAGCCACCCGAGTAGCTGGGATTATAGGTGCGTGCCACCACGCCCAGCTAATCTTTGTATTTTTAGTAGAGATGGGGTTTTGCCACATTGACCAGG
CTGGTCTCAAACTCCTGACCTCAAGTGATCCGCCCACCTCAGCCTCCCAAAGTACTGGGATTACAGGCATGAGCTACTGCACCTGCCTATTTACATTCAA
AGTTATTATTGATAAAGATTTACTCCTGCCATTTTGTTATTTGTTTTCTCATTGTTTTGTGGTCTTCCCTCCTCTTTATCTAGAAGAGTTTGTGTTGAAT
TGGTGTTATTTATTCCTTAAGTGGTAGAATTCACCGCTGAAACTACCCGAGCCTTGAATGGTCTCTGTGGGAACATTTTCCCCCTACAAATTCCATTTTA
TTGATAATGTCAACTGAAATTAAGGCTGTTGAGACAAATAATTCGATAAAGGTTTATTGGAAGCCAAATGTGAGGATCAACCCAGAGGAACACACCAACA
AAGTTGAGAGTGTTCTGGAATCTAAGTCAGAAGGTTTCTATAGGAGAGGCTAGGAGGAGGGAAAGGACTCCTCATACTCATGTCTAAGTCAGAAGGCTTC
TATAGGAGAGGCTAGGAGGAGGGAAAGGACTCCTCATACTCATGTTGTCCTTTTCTAGTCAGAAGGTTTCTATAGGAGAGGCTAAGAGGAGGGAAAGGAC
TCATACTCATATCTAAGTCAGAAGGCTTCTACAGGAGAGGCTAGGAGGAGAGAAAGGACTCCTCATACTCATGTTGTCCTTTTCTTTGGAGGGTACAACA
CAGAGGTTACAAGCATTGGCTACAGATGACAACATACAGGTCAACACATCTCTGTGCAAGACAGTCAGTAAACCTTTATGATTCAGGAATAAATCAGCAT
CTTTTCAGTCCATTAATCAGCACATCAGCAATCTGAGGAAATCATGATAAGATTCTTTACTCAGGGACCATTAATCATAAGACCTTCCCAAGCAGGCCAG
TTTGGAAGTCTGTTTACTTTTAAACTGTCAAATGTGACCTGTAAGGTTATCAGATATAAGGCTATTCAGAGTATCTATTTCTTCTTGAGTGAACTTTGGT
AGTTTGTGTCTTTTAAGGAATTGGTCAATTTCATCTAGGTTGTCAAATTTATTGGCATAAAGTCATTCCTAATACTTCCTTATTATCCTTTTTATGTCTG
TAGAATCTGTGGTAGTGGCATCTCTAATTTCTGCTAGTGGTAATTTTTGTCTTCTTTCTTTTTTCCCCTAAGTCTGGCTAGAGGTTTATCAATGTATGGC
CTTTTTCCTTTGAAGAACAGGTTTTTGGCTGGATCTTACAGAGCCCAGGTTGGACTAGAAATCATTTCTAGAACCTATACTAGAATCATTTCTCTTCTAT
AGGATGTTTCTTCTACCTCATTTTTGCCTTGGTGGGGGGATGGGAGAAAGAGCTTGATTCTTTTTTTTTTTTTTTTTCTTGAGATGGAGTCTCGCTCTGT
CGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAACATCCACCTCCCGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCTCAGTAGCTGGGAT
TACAGGCACCCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTTGCCAAGCTGGTCTCGAACTCCTGACCTTGTGA
TCCACCCACCTCGGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCTGGCCAAGAGCTTGATTCTTGATGAGAGAAATACATTGATACAGA
AGGAGGAGATTACACCTGCTCTTCCACACCCCTCATTGGCCCTAACACACTTCTGTGCAGTGTGTTGACATACCTCTTCTGCAGTCTTGAAAAGTGATTG
GGAAAGAAATACACTGAAAACTACAAACATCACTGAAAGGAATGAAAGAAGACATAAATGACCAGGCACAGTGGCTCACACCTGTAATCCCAACATTTTG
GAAGGCTGAGATGGGCAGATCTCTTGAGCCCAGGAGTTCAAGACCAGCCTCAGCAACAGGGCGAAACCCCATCTCTACCAACCCCCCACCACCCAAGTTA
GCTGGTCGTGGTGGTGCATGCCTGTAGTTCCAGCTATTCAGGAGGCTGAGGTGGGAGGATCACTCAAGCCCAGAAGGTAGAGGTTGCAGTGAGCTGAGAT
CGTGCCACTGCACTCCAGCTTGGGTGACAGAGCGAGACCCTTTCTTCAAAAAAACAAACAAACAAACAATAAATAAATAAACAGAAAAACACCTTGTGTT
CACAGATTAGAAGACTTTATATTGTTCAAAAATCAATAATTTTGATATGGATTACATTGGATCTGCAGATTCATGCAATCCCAATCAGAATCCTAGTGGC
TTCTTTACAGAAATTGACAAGCAGAAACTGAAATTCATATAGAAGTGTAAGGAACCAGAATAAGTAAAACGATCTTGAAAAAGGAGAACATTGAGGGACT
CATACTTCCCAGTTTCAAAATTGACTATAAAACTTACAGTTAACAAGACTGTGGTACTGCCATAACGATGGACATACAGATCAATGCAATGGAATGGGAA
GGTCAGAAATAAAACTGTACATAGATGGTTTTCAACAAGAGTGCCAAGACAATTCAGGAGGGACTGAATACTGTCTAACGCGTGGTGCTGGAACAAAGAG
GTATCCACATGCCAAGGAATGAGGCTGGGCCTTACTCCACACCACATACACAAATTAACTCAAAATGGATCAAAGACCTAAGAGGTCTCAAAGAGCTGAG
GCCAGAAAACTTGTAGAAAAGACATAGGGGTAAATCTTCGTGACCTTGGATTTGGCAATGGATTCTTAGAGATCACATCAAAAGCATGAGCAAAAGAGAG
AAACAGACAAATTGGACTTCATCAAAAGTAAAACAAAACAAAAAAACAAACTTTTGTGCTTCAAAGGACAGTATCAAAAAAATGAAAAGCCAACCCGGAG
AATGGGAGAAAACATTTGTAAATTGTGCGTTTGAAATGGGACTAGTATGCAGAATATTTAAGAACTCTGACAATTCAACAGTAAGAAGACAAACAATCCA
ATGAAAAATCACTACAGGACCTGAATAGATATTTCTCCAAAGAAGATACAGTATATAAATGGCCAATAAGCACGTGAAAAGATGCTCGAATCACTAGTCG
TTAGTGAAATGCAAATGAGATACTGTTTCCCGTCCTCCAGGAAAAAGATGGACAAGGTCATGTGCTGTTACGGACTCGGATGCCATCAGAGGCTGTCCTG
GGGAGGGGGGTTCGGAAGCAGGTTTTGTGGGAGCATTGCAGTCTCCTAAGTAATGTTGAGGAAGTAATTAAAGTAGAATGTCCTGGGCCAGGTGCGGTGG
CTCACGCCTGTAATCCCAGCACTATGGGAGGCTGAGGTGGGCGGATCACCTGAGGTCAGCAGTTCGAGACCAGCCTGGCCAACAGGGTGAAACCCCAGCT
CTACTAAAAATACAAAAACTTGGCTGGGTGTGGTGGCACGCGGCTGTAGTCCCACTACTCTGGAGGCTGAGGCAGGAGAATCGCTTGAGCCGGGGAGGCG
GAGGTTGCGGTGAGTGGAGATGGCGCCACTGCACTCCAGCCTGGATGACAGAGTGAGACTCTGTCTAAGAAAAAAAAAAAAGTCCTGCCAACCCAGCGGT
CCTTTTCTCAGAGGTAGGAAAGAATGAAGCAGTTTTATTGAATAAACATTAAAGCAGCCTTTGATGCCCAGAGGTTGCCAAGACAGAAGAACTCTCCCCC
TTCCTCCCAGCCAAGCCGACCGGCCCTGTTCCACGGGCGTCCTCACTGGAGGGGACCCGTCCCAACTCAGACCTCCAGGGCCGGGTTCCTCTGTCCTCGC
AGGGGCCGACGCTGGGGCAGACTCCCGCGTGACAGGGGACCAGTCCCCACCCCCGAGATTAAAAGGTTTACCTCATCGCAAAGGGACAGAAGGGAGCCGA
GGACAGGGGGAAGGGAAGGCTGGCTTGCCCTTTGGCACTTTAAGAAGCTCCTTTTCTTTCAGATTCTATTTGCCAGACAGTGGGGGGTGGCGGCAGGTGG
GAGGAGGGGGGTGGAGGAGCCGCCCCCCACGTGGCCGAGGGCACCCTCGAGGGCAGTGGATCCTCGCGCTCCCCTGACCTTGTCCCCGGCCTTCCCTCCC
CCAGAGATCCAGAGCTTCGCGGGCGCCGAGAAGGACGCGCGCGTGGTGGGCGAGATCGCCTTCCAGCTGGACCGCCGCATCCTGGCCTACGTGTTCCCGG
GCGTGACGCGGCTCTACGGCTTCACGGTGGCCAACATCCCCGAGAAGATCGAGCAGGTGCGCCCCGTGGGGAGGGCGCGGCCAGGAGGGTGCGGGGCGCT
CGGTCCGTCCCTGTGCGGCCCCCAGATCTTGGCTCCTGGCCGGGCACTGTCCGCAGGAGGGGACCCCGGGGACCCAGGCGGGCGGGGCAGGGATCGGCCC
TGGGCCTGGAAGTCCCCGTCCGAGGGCCCCGAGCCCCCCACCCCCATCCATGCGCTGCGCCCGCAGACCTCCACCAAGTCTCTGGACGGCTCCGTGGACG
AGAGGAAGCTGCGCGAGCTGACGCAGCGCTACCTGGCCCTGAGCGCGCGCCTGGAGAAGCTGGGCTACAGCCGCGACGTGCACCCGGCGTTCAGCGAGTT
CCTCATCAACACCTACGGAATCCTGAAGCAGCGGCCCGACCTGCGCGCCAACCCCCTGCACAGCAGCCCGGCCGCGCTGCGCAAGCTGGTCATCGACGTG
GTGCCCCCCAAGTTCCTGGGCGACTCGCTGCTGCTGCTCAACTGCCTGTGCGAGCTCTCCAAGGAGGACGGCAAGCCCCTCTTCGCCTGGTGAGCCGCCC
CGCGCCCGCCGCCTTGCCTGCAGTAAACGCGTTTGTTCCAACCCGGGGCCGCGGTGCCTCCTGCGCGTCCCCCCGGAGGGGAAAGGGCCGCGTCCCCCGC
GCGCGAGGCCAGAGAAGGCCCCGCTCCCACCGGTGCTGGGCCCCGACCGCAGCCCGCCGCTGCCCGCACCTGCGGAGTGCTTCTCACCCCTCATTAAAAT
CATCCGTTTGCATGTCTGCCTTTACCTCTGGCTCTTTGAGGGCGTGGAGGGCGCCTCGGCCGCTGCTCCGCCTGCAGGAAGCGCCGCTCGGTGCTCAAGG
AGGGAAGCCAGGAAGGAGCCGCAGCCGGCAGGGGCCCCCTCTTCCCCCTCCCCCCTTCCCCTCCCCCGGGCCTCCACGCCCACCCGCTTTCCCGCCCGGG
ACGGCGAGTCCTGTCCCAGTTTGGGTTTCCCCGAATGCCGAGCTGGGGCAAGGACTTGGTTCTGGCGGATGGTTGCGCACCCCTGCCGGCAAAATGGAAA
CGCAGCCCCTTGTTCAAAAGCGAAGAATTCGAAAGGGCAACAGCCGCGTTACAGTGAACCCGGACCTTAGGGCTGAGCAGTGGCAACGCAGGCGGGAGAG
CGCCGGGGAGCCCCGAGACCGTGGGGGTGCTGGGGGTGGGCGAGCACAGGGGAGCCCCGGAGACCATGGGGGTGCCGGGGGTGGGCGAGCGCCGGGGAGC
CCCAGAGACCGTGGGAGTGTTGGGGGTGGGCGAGGACAGGGGAGCCCCGAGACCGTGGGGGTGCCGGGGGTGGGCGAGCGCCGGGGAGCCCCGGAGACCA
TGGGGGTGCTGGGGGTGGACGAGCACAGGGGAGCCCCGGAGACCATGTCAGGTGCACCTTGCACCATCCCGGAGCGGGGAGCTGGGGAGCTGACCCATCA
ATTCCCCTCCCCCTGGGTCATCTCCCTGCCGGAGGCCGGAACAGCGAGAAGACGGGCCCTCAGTGAATTGGCGGGACCTTGGGGCTGAGGAGATACCCAG
TTCCAAAGTGCCCTGGAACGAGGGGCATTTACCGTGTCTCAGGGGAGTCTTGGCTCATGCTGCACAAGCCAGCACGCTCAGCCTGGTCCTCACACTGTCT
CAGCAATAGTGGCGAGGATGGCAGGGCTGTCACACATTAACAGTTCAGAGCTCGATGGAGACTGCTGGGGACCCCACTCTGGCTGGTAGCTACAACATTC
AGCTCCCAGGTGCAGATGGGCTGGATCCTGGGGTGCGGGCCCAACCTCATGCCCGGCAGACGAGGGGCCCACTGGCCTGAGAAGCTCTGGCTGGGTGCTG
ATTTCTGGCCTTACCTTTGAGGGTGGCCTGTGGCCACACCGGCAGTGGGCTGGCTCTGTGGCTGGGTGCTGATTTCTGGCCTTACCTTTGAGGGTCGCCT
GTGGCCACGCCGGCACTGGGCTGGCTCTGTGGCTGGGCCAGGAGCTTTGGGCCCCAGGCCTAGGGCTGCAGCCACACAGTCTCGGCCAGGTGGTCCATGC
CCCCTTCCCCTCGGTGCCAGCGAGTGGATACTTTCAGCAAGCCTGGGATAGGAAGGGCTGTGATGAAACGCACCAGGATTTATTTCAGTTGGGTGTGGTG
GGATACAGACACAGGACCCCTGACTTTAAAGGAGAGTGTGTCACAAAGTACTGCAGACCCAGCTACTTAAACCACAGGAGGGCACGTACCGTGCCACACA
GGGCCGCCCGGGGCGGGGCGCCGTGGCAACAGGACGCAGAAGGCGAGAGGGGAGAGCATGGCCAGAGGCTCTGTGGGGGTTTCCCTGGGAAGAGAGGCCA
GGGAGGGTAGGCACGAAGGAGCAAGTTTAGGATTGGACAGGTTAATTTCCCTGGGCTCCGGGCTATGGGGTGGTGTCTAGTTGACCACCGTCCTGCCCCA
GGGTGATTGAGGGCAGAGGAACATGGGTTTGGTGAGTGAGTCAGATAAGGGGTGGTTGGGTTTACAGGCTCCAGGTGGGTTGGCTTGTGCCTTAAAGGGG
AGCTCTGTTTGCAGGCACCTTTTGCTGTCTCTAGGAATTAGCCAGTCCTGGGAGGGCAGTCTCCACCTAGCCAGTAAGGCCCCCGAGAGGTCAAAGCATT
GTAAACCAGAAAACAAAAACCATATGAGTTATACAGGAACAGTCTGGTGGGCAGGTGGCATTCAGCCCCTGTGCTCTGGGTCTCTAGAAGAATGGGGTTC
TCAGCCTCTGGCCATGGGTCCCCCAAACAGCCTTAGTGTCTTCCAGGCTCTTGGGCTTGGCTTGGAGTGGCCCCTGGGGGCTTTGGCTGGGGCGGTGCCC
ATGGCTCACCCTCTGTCCATATAGTGGGGCCCAAGTTGTCCACTGTGCTGGGCTAGCCTGGGGGGGCCCTGTGGTCAGAAGCTAGACCCCCACCCTGGCA
GTGCCACCCCCTAGGCCCCTAAGCTGCAGGTGCACGTGGAACTTTCTGGAGGGCTCCCGTGCAGAGAGGGTGAAGCCCATTCCTGCACTTTTTCTTACTG
TACTATTAAAATGAGGAGAAATGGGAACAGGGTGAGGAGGGTGGCCCTGAAGTGGCTGGCGTGGCCATGTCTCCTGGGGCAGCACCCGGGCCCTGGGCAC
CAGCTCTTCCATCTGTAGACGGGAGGGCAGTGAGCTTCTAGGGGATGATTTCCACCTCCTGGGACGGAGGTGGGCACCGGCCCAAGTGAACTCGGATTCT
CCTGCACACAGCTTCCGTATTCAGTCATTTACTTATGGGCCCACTATGTTTGTCTCATACTCTGGGTTAGAAAAGTGTATGGCCTGCCTGGCCCTGGAAT
CAGTAGCCCTGGGCCTGTCACTGGGGAGAGATGGTGGAAACCCTGGTGTGGGCATAGCTGAGATTCTTTCTCCTGTAAGTGGGGTCCCTTAGGGTCCCCG
ATTCAGGAGCTATTTACAGCACCTGCCAGCATTTCTAATGTCTCAGTGCTGCCCCTGAGAACCAGCGCCGGCGTCACAACCAGCCCCATTCCCCCTCGTG
TTCTCAGCTGTAGCCAAGCCCTGGTCCAGCAGTAGCTGGGTAGGAAATGCATGCAGCTCCTGCCGGGGCCTCCCGCCCCAACCCTCTCTCCTGACAGGCG
ATTTGCTGGGCTGGAGGACAGGGCCAGGTCTTGGCCTTGGCACCGTCCTGGGTCACGAGTGTATGGTTCTGGTCACTCTGCTGTGGTGCGAGGATGAAGG
TGCCAGCCCAGTGTGGGCAACCCTCACAGCCAGAATGTTCCAGTGCCCCGCACCTCGGGACCCTGGATGTGTGCGGCTGCCGTCACAAAGTACCGCAGAC
CCAGCAGCTTAAACCACAGAAATTTATTCTATCACAGTCCTGAAGGCCCAGAGTACAAGATCAAAGTGTCTGCAGATTCTGTTTGTCTGAGGTCTCTCTG
CTTGGCTTGCAGGCGGCCGCCTCCCTGCTTTGTCCTCCTGGCCTTTTCTCTGAGTGCATCCCTGGTGTCTCTCCCTCTTCTCACCGCCCTGTCCATCTCC
ACATCCAATCCAGTCGGCGGTGCTGGGGGTAATCCAGTCTGCCATGCTGGAGGTCAGGCCTTCAGCAGATGGTTTCTCGAGGGAATGCAGTGCGGCCCTC
AACAGACCCCATCCTCCCCTCCTGGCCTCCAGACATGGATCCCTGACTCCATCCTCCCCTTGAGGCTCCACAGAGCTCTGACCCCATCCTCCCCTCCTGG
TCTCCCTCCAGACACAGATCCCTGACCCCATCCCCCACTCCCAGCCTCCAGACGTGGAGCCCTGGCTGGGGAACTCTGTGTGCTCCCAGCCTCTGAAGGT
TTCTGGGCTTACCTGGCTCCTGTCTCATCCCAGTCCCCCTGAGTAGCCACGGAGGTGGGGTCCCTAAGGCCCACATGGTTGGGGTTCCATTAAGAACTTC
AAGTGGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGACCGAGGTGGGTGGATCATGAGGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAA
CCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGTGTGGTAGCGGGTGCCTGTAGTCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATGGCGTGAACC
CGGGAGGCAGAGCTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAA
AAAGAACTTCAAGTGGGGCTGGGCTCAGTGGCTCACACTTGTAATTCCAGCACTTTGGGAGGCCGAGGCAGGAGGATCGCTTGAGCCCAGGAGTTTGAGA
CCAGCCTGGGCAACGTGGTGAGACCTCATGTGTATTTGTCTGATAAAGACATACGCAAGACTGGGTAATTTTTAAAGAAAAAGCAGTTTAATGGACTCAA
CAGTTCCACAATCATGGTGGAAGGTGAAAGAGGAGCAAAGTCACGTCTTACAAGAGGGTGTGTGCAGGGGAACTGCCCTTTATAAAACCATCGGATCTCG
TGAGACCATTCACTATCACAAAAACAGCACCGGAAAAAGCCGCCCCCGTGATTCAGTGACCTCCCACCGGGTCCCTCCCATGACGTGGGAACTATGGGCT
CTACAATTCAAGATGAGATTTAGGTGGGGACACAGCCAAACCATATCACCATGTCTACCAAAAATGGAAAAGTTAGCCAGTGTAGTGGTGTGTGCCTGTG
GCCCAGATGCTCAGGAGGCTAAGGTGAAAGGACCTCTTGAGCCTGGGGACCAAGGCTGCAGGAAGCCATGATTGTGCCGCTGCACTCCAGCCTGGCTGAC
AGAGTGAGACTTTGTCTCAAAAAAAAAAAAAAGAGAAAATGATAAAAGCACTGCAAGTGGGCAGCGGCTGAACGTGGAGACAGGAGTTCTCCCTTCTGAG
CACGGCCCTGGTGCCGCTGACTTCGTGGGGAGCCTGTAGTCAGGGGAGCAGCAGCTGGGGAGAGCTGGGGTCTCAGCTGCCTTCCCCCATATCGCACATG
CCCGTCTCGTGTGTATCTGCACTCTCACACGCGTGTTCCCCTGCCCTGCGCTCACATGTATCTGCACTCACTCTCACATGCTTGCTTCCCCTGCCCCATG
CTCACGTGTACCTGCACTCTCACACGTGTGCTCCCCTACCCCACACTCACATGTATCCTCGCTCACTCTCACACGTGTTCCCCTGTCCTGTGCTCACATG
TATCCACGCTCTCACACATGTGCTCCCCTGCCTTGTGCTCACGTGTATCTGCACTCTCACGTGTTCCCCTGCCCTGCCCTCACGTGTATCCTCACTCACT
CTCACACGCGTGCTCCCCTGCACTCTCCTGTCTGAGCTGAGCTGACCTCAGTTGGGTGCTGCGAGCCAGGGCCTCATGCTGGCCTCTCGCCCTCCACAGC
CCCAGGGGTCCAGGCTCCTCCAGGAACAAACGCAGGCCCCACGGGCTGCCTGGAAGGCCTCCCAGAAGGCAGCACAGGGTCACGAGGGTCACCCGCAGKG
GCACAGGGAGGCCTCGTCACGACAGGATTCCAGCCAGGCTSGCCTGATGCTMCTGGGGGTCCTCGGCACATGCCCCTTCACCCTGGCATGTGCTTCTTTT
CCGGGAACCCAYACTCTGGCTGAGTGGAGCCATCCCCTCTGGGTCAACAGCACCCGGGGTGGCTCTGCAGCACCCCACTCCGCGGCTGCACAGGGACCTT
GGCCCCACTGCTCCTTGTGCCTTGCTGGTTAATGAGAAGCCGGTGGGGAGGTGCTGCCGGTGAGCGTATAAAGGCCCTGGCGGCGGCTGCGGAGCACTGG
CCCTGTCCTTCCATCTGCYCAGAGAGGAGCATCTGGATCAAGGTGCTGGCCATGTCCCAGCTGGTGGAATGCGTCCCCAACTTTTCGGAGGGGAAGAACC
AGGAGGTGAGGCCCGARGAGCTGGTCAAGCATCTAGGGCTGATGGGGCAGCTTGAGTGGCTAAGGCCCAGGCCATGGAGGAGGTGGTGGGCTTGGTGTCC
CRGGTCGTCTTCCCAGGATGGGCAGAGCCGCTGCCCRTGGGCCCCAAGGACRTCCCGTGGCTCAGGGCCCTGGGGAGTGCCTGACCCAGGGGTGGGTGGA
ACACGACTGGTGCTTGTGGGGGCTGAGGCTTGGCTGTGGCTTCAGGGGCCTTTCGGGTGCTTTCGGTGGGGGGTTGGGCAGATCTCTGGGCCTCAAAGGG
CCTTGGTGCTCCCCCCTGAAAATGGGGCTCCTGCCACTGACTGAAAGGGCTGTGTGAGGYCACACGAGGTGGCCCAGCATGGTCCCCACTGCCGCCTCTC
CATCTCCACTGGAGTTAGCTTGCTGAGCYCCCACCCTGCAGCCACCATCCTCACTGGACCCAAAACGAAGTAGGCACAGAGGGGGCAGCAGGCCCCCAGG
TCCGGCCTCTCGCCTTCCACAGCCCTGAGGTCCAGGCTCCTCCGGGAACAAACGCAGGCCCTAAGGGCCACCTGGAAGGCCTCCCAGAGSGCAGCACCAG
GCCACAGGGGTCACCCGCAGGGGTGCAGGGAGGCCTCGTCATGCCGGGATTCCAGCCAGCACCAAGGCCCTGGGACAGGGCAAGATTTGGGGCTGAGCCC
CTGCTCCCAGCAGTCCTGCCACCCGGAAGGTTCTAGGCCCTTCAGGCCCCTCCCCCATGCTGGTGATCTGTCCCTCCCCTGCTCGGGGGTGGGGGTCCCG
GCCCCTCTGTGACCTGCGCCTGTGGTCACCTTCTTGGATCCCCGGCCACGTCTCTGGCATCTGTCTGTCGGAGCAGAGCCCGTGAGTCTCTCCTGGAGGC
ACCACCTGCAGCCCCTTGTGGGGACYGTGCTTGGGCCTGGAGTGACTGTGGCTGCTGTGAGGGTTCCCGGGCGGCCGCTGTGTGCGGGCACTTTCGGTGG
GAGCTCAGCTTGTCGGAGAGCCCCCAAAGGCTTGGCCCGCCTCCTCAGCCCCCATTTGTGTCTCRGGGTGCAGCCACCTCCAAGCTCCTTTTCCTTCTTT
CAAACGGGGAGACTGAGGTGTGGGGGCCGGGCCTGTGTCCCAGGTGATCGACGCCATCTCTGGAGCCATCACACAGACCCCGGGCTGCGTGCTGCTGGAT
GTGGACGCAGGCCCTTCCACCAACCGCACYGTGTACACCTTCGTGGGGCCGCCGGAGTGCGTGGTGGAGGGGGCCCTCAACGCTGCCCGGGTAGCTTCCY
GACTTATCGACATGAGCAGGCACCAAGGTGAGGTCTCTGGGCTCTCCTGTGGCTGCCGTGTCTCAGAATGTCAGGGCCGAGCCCTGTCCTGGTGTCCTGG
GAGAGGGGGTAGGCCCGGGGCCCAGGCTTGGAACGTGGGGTCCAGTGGGGCTGGCTCTGGCTCTCCTAGGAGGACCCTGGAGTGTGGGGGTCATGGCCCC
CAKCCTGCCTGCAGGGCTGTGCTCTGGGGGACCCCCAGGTCGCCAYGCTCCCACAGCACCGGGCCACCTTCACGGCTGGGTGGGGGGAGGGGGCCACGCC
GGGGAAGGTTTGTGGGCCCCGTCCACCTGCCCACTCGTCAAGGGGGCTGAGAGCCAGTCTTGGAGCAGGCACTGGTGGGGGAAGGGCTGCCTGRAAGCTG
ACCTGTCAACAGCCCACAAGCCAAACACCTCGGTGGGCAGGCAGGGCCAAAGGTGTGTGGACACACGGGCGCTGGCCAGGGGCTGGGCTGTGGGCCGCTC
ATGAGAGGCCAGGGATCCACAGTGATCCTGAGGGGTGGAYGGATGAGAAGCTTATCTCTAAGTGGCCAGCCCTGGGCGGTGGCGGCAAAGGCGGGGGAGG
CTGGCGTCCCCTGGGGTGGGYGCCGACCCACGGCTTGGTGTAGCCACAGCGAGGGACTCAGCTAGTGAGAAGAATGCTCTGGAAACGCAGAGTGGATTCT
CGGCTTCAGGGGAGGGGGTTGGGGTGGCCGGAACCCAGCCTCGAGCGCCCCCTCTTGGCCTGGCCGGGGCTGCCTGAGAGCTGAGCTTTGCACCCCTTTC
AAAGTTATTTTTGTGAGTGTTAGGAGAGGGACAGGTTTATCCCAGAGATGCCAGACCACCCGCTCAGGTGCTGCTGCTCCTGGGCTGAAGGACCTCCCCC
ACACTGGCTGGGAGGACGGTGCGGGAACTTCCGTTGTCCCGGGAGGGCTGGTGCTGCCGCTGGGGCAGGGCTGGGAGCGCCCAGGGCCGGCCTCCTCCCC
GTGGGTCAGTGTGAGCAGCTTGCTGGGTGTGTGGACTGGGGGCTGCCCAGGCCGGAGAGGACAGAGGGTCCGAGAACCCCGTGGAGCTCCCACCCGCTCC
CACACCTGGCCTCCTGCCCGGCCTCGCYGTCTCTCTGCAGGAGAGCACCCCCGCATGGGGGCCCTAGACGTCTGCCCCTTCATCCCCGTGAGGGGCGTCA
GCRTGGATGAGTGTGTGCTCTGCGCCCAGGCCTTTGGCCAGAGGCTGGCAGAGGAGCTGGACGTGCCAGGTGAGCGTGCCCCCCCGCCCCCCTCACYCTG
CTCCCGTCTCATTGGTGTGGGTTATTGGCTCCTTCTGTATCCCCCAGTTCCCTGCCCTTGACTGCTCTTGCAAGGGCAGAGTGTTCCAAAAAGCCAACAT
GCAGAAGCGCAGCTCCCTCAATACCGAAATAAACGCAGCCTCGCCTGCGGCCGTGCAGGCCCGGGGCCTCCTCAGACTACACCGCAGAGCAGCTGCACAG
GCAAACCAAGAGCCTTAAAGTCCACGCCTTCTAGAGCAGAATAATTTCACTTTGGGAAATTAACTAAATCAAGAAAATGATATGAAACAAACAGAGACAA
ACGGGACAAAGTGCATACCCACCCCTAGGCTGCACCAACCCAGCGCTCCTGGAAAGAAATCCCGAGGCAGGGACGTAGGTCACAGTCACGCCAGCGTGCA
GGGCACACGTAACCCCCGTCACGGTCACGCCGGCATGCAGGGCACACGTAACCCCCGTCACGGTCATGCCAGTCCCCCCGAAGGAAATCCCGACGCAGGG
CCCACGTCACAGTCACACTGGTGTGCGGGTTCACGAGTTTTTCCTYTTCTCTGCCGTTATATTTATGTGGTTGCTTGCGGTTCTGTTTATCATACAAAGA
AAACAGAAGCATGAACGTCCTGCCGTTAGCATGTCCCACATGTTCCATCCTAACCCTGCAATTCGCCTTTTCAGGGCCCTCTGAGGAGGGGGTGGGCAGG
GGTGCTGGCCCACACTGAGGGTCCACTGGGACCACCCGCATCCATCCAAGGCGGAGAACGGGCACTCCCCAGGAGAGGGTGCAGTAGAGGCCCATTCCTG
GGTTAGGCTGGAGGGAGCCCCTCCACCTGCGTCCTCCAGGAACTGAGTCCTGGACCCCCTGCCGGTCCAGGCCTGACCGCCGGGCTCTCCTGCAGTTTAC
CTGTACGGCRAGGCAGCCAGGATGGACAGTCGCCGGACCCTGCCRGCCATCCGGGCCGGGGAGTACGAGGCCCTCCCTAAGAAGGTGCCCCCACCCCGGG
CGGTCGGGCCTGGGAAGGAGGTGGACCTGCCCCTTTGTCCTGGCTGGGGTGGCTGGGCCGGGCCCCTCCTTCCCGGGACCCCGGGGGGCTGTTCCCTCCC
GTGGGGGATGTCTCACCCCAGAGCGAACTTGCTCACAGCTCCAGCAGGCCGACTGGGCGCCCGACTTTGGTCCCAGCTCCTTTGTCCCCAGTTGGGGGGC
CACGGCCACGGGGGCGAGGAAGTTCCTCATTGCTTTTAACATCAACCTGCTCGGCACAAAGGAGCAAGCCCACCGCATCGCGCTCAACCTGCGGGAGCAG
GGCCGCGGGAAGGACCAGGTGACCCCGTTCACTGACCCCATGGAGCCCCACCCAGCCCCTCGGGAAAGGGTTAGAGGCTGAGAGCCTCAGGCGGGGAGGT
CGGTGGGGATGGGGCACCGGCCGGACAGGGTTCGGCCTCCCACCTGCAGACCGGCCCAGCCTCCGCGTCCACACCGTGCGGGGACCGCGCAGGTCGGCAG
GTCAGGGGCGGAGTGAAGCTGGGGAGCTCTGGCCTCCTGGGGATTTTCCAGGGAACGAGGCAGGACTTCCCTTTGTTAACATGTGGCAGCATTTCCATAC
TGCTGGGAAACAGCGACTTCCGGAGTCCCAGGTGCCCTCAGGGGCCCCCCATATCCCTCCAGATGCCTTGGGAGCCCCGACACCCCTACAAACCTTCAGG
TGCCCCCAGGCCTTTCCCTCCACGTCTGCACAGCAGTGGTCACCCGGTCTGAGCGTCACTCCGGGTATAGATACCCGGAGAAAGCGGGGGGGACCACCTG
CCCATCTGTTCCCCACTCAGAGACCCCGGTCCCACAAACAGCCAAGGTCCTGGGACCCGGCTTCCCGACCTGCAGACTCAGCACAAAAGCACAGGGACCT
CTAAGTCCTGCTTTAGGCCCCGGCCAAGGGCAGAGGTCAGAGTCCCCCCACGTGGACTCAGTCACCCCGACAAGTGCGGGGCTGAGGGGACTTGTCGGGA
GCGGAGCAGATGGGATGGGAGAACGGCATGGGGGTGCCTGGGGCCCCACCCCTCAGCATTCCCCCAACATCTAGGACACAGCGTGGCTGGAAGGCAGGGC
CTAGGCTGGGCGGGGGCCTGCCGGGGTGGGCCTCCGGYGTCTGACCCTTGGGGCCTCCGTTTCCCTGTGGCAAGCGAAGTTTCTCTGGCCCTCCCCGGCC
AGCTCAGTGAGGGACGGAGGAGAACCACAGCACCCACSCAGGCACAGGCTCCTCCCCGTCCAGCTGGGGAATGCAAGTGCCAGGAGAGACTGGCAGGGCC
AGGCAGGATGAGCTTCCTAGTCCAGGCTGGGGAACGCTCTTCCTTTGCAGCCAGGACGTCTGAAGAAAGTTCAGGGCATTGGCTGGTACCTGGATGAGAA
GAACCTGGCTCAGGTGTCCACCAATCTTCTGGACTTTGAGGTCACGGCACTGCACACGGTCTACGAGGAGACCTGCCGAGAAGCACAGGTGAGCCCGGGA
GCAGCCGCTGCTGCTGTGAGGGGYGAGCCGATCTGTCCCGTGGGCAGGGCGGGGGCCCCACATCCTCCAGCCAGGGCCATTCTCCAGCCAGCCCCCAGGG
GGTRACGCTGCCTGTGCCTTGGCAGGAGCTGAGCCTCCCAGTGGTGGGCTCACAGCTGGTGGGCCTGGTGCCCCTGAAGGCTCTGCTGGATGCGGCCGCC
TTCTACTGCGAGAAGGAGAACCTCTTCATCCTGGAGGAGGAGCAGCGGATCAGGCTGGTGGGCCGGGCTGCCGAGGAAGGGTCGGACAGGGGCGTGCAGG
GAGGGTGGGGAGGCGGTGGCGGAGCTCACAGCCCTGGGGCGCAGCTTCCCTCCCCCTCCTCCCCCTTCATTTTATTGACTTGTGTTCAGAAGATGAGATT
TCACTTTTTATTTTGGACACCTTATTGAGGTTTTTTTGTGACCTATGATATGCTCAGCTGTGCAAATTCCACGGAGAGGACACCCCACCCTTTCTGCTTG
GTCTTGCCTCCTGGGCCGGCCATGCTCCCGTGGAGGGGCCTGTGCCTCCTCTCACCACCTCCATCGGGGCGTCCTGCACCCCTGGAACTGGCAGCTCATG
GATGTGTGTGCCTTTAGCTATGGGACTTAGATCCCCATCCACGGAGCGGCTCCTTCAGAAAGTGATTCCTTTTGTCTTGTGGACACCTGGGCCTCAAGGC
TTCTGGAGTCTGGGTTCCACCGGGGCCTCAGGTCCTGCTGGGGTGTGGCAGCGTCTGCAGAGCCGCTGTCCGCCTTGGTCTGTCCTTTCACTCGAGGTCA
CTGCAGAGCCGCTGTCCGCCTTGGTCTGTCCTTTCACTCAAGGTCACTTTGTTTTAGGTGTGTTTTTCGCAATAAGCACAATCCACTTAACTGGATTTTT
TGGGGACGTTTTGTCTGTTTGTGTTTTTACTGATTTAGCTCTCGTGACTTGTGGATTCCGTCCTTGTTTAGTCTCGGGCATATTTTCTTCTATTAGATCG
CTGACCCAGTTATTTAGTTCTCTAGCTGTAGGACCCCGTGATGCTGCAGCAGCTTTGATGTCTTCTCTGCCTCCGTCTTTACTTTCTCTTCCACTCCTTT
CCTCTGGATTCACAGTGGTTTTCCAAAACCCAGCCTCAATCATTGGTGCGTTTGTGGCCTTGTCTGTTGTATTCTTGGCTGTTAACAAAATTTTTTGTGA
CTTTACATTTTGTATAATTTCTTACAGAGAAGATACAGGTGGCCCTCCACTCCTGCCTCCCACCCATATTTTCCAAGTGCTTGCATTTTGCCCCATTTAT
TTGTGTATAATCATATTATATTTTTTTCCGGACTATTTAAAAGTTGGGTTGAAGACATTGTACTCTTTTACCCCTAATTTATTAAGGCTGTGTTTCTTAA
GAACAGGGACATTCTCTTACATAACCACAGTGTAATTATCAAAATCAGGAAATTCAACACTGATACAATCCTAGTATCTAATAATCCTCAGGCCATAATC
AAATTGCTTCAGTGTCCCAGTGATTCCCATCATAGCGATTTCTCCTCCAATCCGTGATCCAGTTCACGTAACACAGAGCACTGAGCCAACCTTTTCTCCT
TTCTTCCAACTGTTCCTGTCTTCCTTGTCCTTCATTGACCTTGACATAGTTTCAAAGGACAGACTTTTAAAAGCGCCTCAGTGGGGACTAGTCTGATGTT
GCTTGTGGCCAGATGTAGTTGTGCATTTTTATTTTAATTTAATTTGTTACTTCTTTTGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGC
ACAATCACAGCTCACTGCAGCCCCAAACTCCAGGGCTCAGGTGATCTTCCCACCTCAGCCTCTCAAAGTGCTGGGATTACAGGCAAGGACCACTATGTAG
TCCTGGCTAATTTTGTACAGATGGGGTTTTGCTCTATTGCCCAGGCTGGTCTCAAACTCCTGGACTCAAGCAATCCACTCACGTCAGCCTCCTAAAAGTG
TTGGGACGACAGGTGTGCACCAACACGCCCAGCCAGTTACGCATTTTTGGCAGGAAAAGCATAGATGGTATTGTGTCCTCCTCAGAGACGCCGACTCCCC
ATGATGCTCATTTTCTCAGGGTGCCGACGTGGACCCGTCACTTGCCAAGGCGACCCCCTTCCTCCTGGACCCTTCACTGCAATGTTACTATTTTTCCTTT
TGCAATTAATACGTTGTGGGGAGTACTTGAAGGTGTTTAAAGTATTGAGTAGGTAAATACCTGTTTATTACTGAAATTCCAGAGTTTTAGGAGCCAGTGA
CAGCATTCCAACGTCATCCTTTCTGTCTAAGCAGCAGCTGTCGCTTCTCCACATTTCCTTGTCTTCTTATGTGTGAGGCCCCGTCTGCTTTCCAGTGTGG
CGTTTTGTCTTCTTCTTTTTTTTTTTTTTTTTTGAGATGGAGYCTCACTTTGTCACCCAGGCCGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTC
CACCTCCCGGATTGAAGCAGTTCTCTGCCTCAGCCTCTCGAGTAGCTGGGATTACAGGCGTGTGCCACCGCACTTGGCTAATTTTTGTATTTTTTTTTTT
TAGTAGAGACGGGGTTTCACCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCGTCCGCCTCAGCCTCCCAAAGCACTGGGATTACAGGCG
TGAGCCACCGTGACTGGCTGGGGTTTTGTCTTCTTTACCTGAAGGGCCCCATGCCTGCGGCCTGCACAGGTCTGGCTGTGCCCGTGGCTGCGTGCTGCCT
CCTTGTGGTGAGGCTGCTTTGCTTTGTGTTGTGTGATTTTTGATTGCCAGTGCATGCTCTGTGGAATTTTATCTATGGTAATTCTTGGACACCTGGGTTC
AAAGTTTTCTCCTCCAAGGAGGGTTTGTGCTGGCGCTTGTGGACACTGCCTCACAGGACCCCCTGAAGCTGAGTTTTTGGCTTGGAGTTCTGGAACCACA
CAAGAGTGAATTCGGTGTCGGGTGAGGCCTGCAGCCCTGTCAGGGTGGCTTGTGATTAGGAATTCCCAGGAGATTTTTTTTTTTTTCCTGCTTCACCCAA
AGGGAAGGCAGGGACTGGGAAGTACCTCAACTGTTTCCTCTGGCGGGTGGCTGTTTCTAATTCATCCTTGGGGGTGTCACCTTCCAGGGGTCTCCAGTCG
GACCCCACTCTGAAGGCCCCAGACCTCCCCCACTCATCAGGGGCTGCCAGAGAGGGGCAGTTGCCCCCAGGGCAGACCCAGCTCCAGGCTGGCAGGCCTT
TCCGGACTCGTCTTTCTGGTCGTGTCTGGTTTCGAATGATGTCCTGTCTGCTAGCTTAGCCAGGCCTTTAAAATGCCCGGCATCTTCCTGGGGTTTTCTG
CGGAAGGAGGCTTTGCCTTGTGGCTTGCTGGTTCTATGCCACGGGGAGGCACTCTCCACCCYGCCCGGCTGCTGTCCGTCTCTGTGGGGTGGGGTGGGGG
TCGCATAGCCAACGTGTTCTGAATGGGTTTCCCAGAATGAATTCTAATCTTAAATGGGACTGTCACAACTTTATTTTGAATTTAGGTAAAACTCACTTTT
GTGGCATACAAGTTTATGTGTGGGTGACTTGGGGCTGTTCCTCAGCTTTTGAGGACTTGTTAGATGTGAAGACTTGGTGAATTAAAATCTTTCCCGCCCG
TCAGCGATGGGGCAGTGGTGCTGGGGGGCGGCGAAGCATGAGCAGCAGTTTGCTGAGGGGTCCCCAGGGGGCAACTCCTTTCTCTGGGCCTCAGGTTCCC
CAAGGGCAMCTCAGGGTGAYGGCTGTTTCCAGAAGCCTGTACGGGGTGCCTGCTGGGGCGGGGCCCACAGGGCTCCTGGCGGGGCAGMGGTGGGGGGTGC
CAGCCACGCCCCTGCCCTGCTCCCCGCAAAAGCACCTGTGTGCTYGGGGCAGGGGGCGGCTGCCGCAAGGGTGGGACCCGCGGGTTCCGAGGCTTTCCTG
GTGGTGGAGACGCGCCGAGGCCGTTTCCACTCCAAGCCCCTTTTCCAGGTGGTGAGCCGGCTGGGCCTGGACTCCCTGTGCCCCTTCAGCCCTAAGGAGC
GGATCATCGAGTGAGCCTCTGCCCTCCCGCCCTCTTCTCACCCCTCCCGGGCTCTGCCTCTCGGGCCTTGCGGGGCGCTGGGGTCCCTGCGTGGAGACCC
GGCTGAGTCCTCCCAGCGCCTCCCTTTGGGCGCCTACTCGGCCTGCGCCAAGCMGGGGTCTGGGGGCTGAGGGGGGCACAGAGACCCCGGCCGGGTCCCC
GCAGGTTCTCAGCCGAGTGGTCACCTCCCCGTGGGTGCAGACGGGCGTGGGGCCTGGGGCCGCCCCGGGAGGACTGCGCTCCCCCCACCAACCCCGGCCA
GACCCGCTGAGCCGCGCCCACCCTGCAGGTACCTGGTCCCTGAGCGCGGGCCTGAGCGAGGCCTGGGCAGCAAGTCCCTGCGCGCCTTCGTGGGGGAGGT
GGGTGCCCGCTCTGCGGCCCCCGGGGGCGGCTCGGTGGCGGCGGCCGCTGCGGCCATGGTGAGCGCGGGGGGAGGGGCAGGGGAGGCGCAGTTGTTGGGG
GGAGGGCGGGGAGGGGGAAGGGCGCTGTTGGGGGGAGGGCACGGGGTGGGGAGGGCGCGGTGGGGCCGCCCTGGGTGGAGACGTGGGGGCCACACGGGTG
GGACCCCCGCAGGGATCACCCGGGCCCCTGGCTCTTCCTGGGGTCGGTCCCGGGCCGTCTGGGGTCCCTGCGACCCCCACATCCACCCCTCTCGCAGGGT
GCGGCGCTGGGCTCCATGGTGGGCCTCATGACCTACGGGCGGCGCCAATTCCAGTCCCTGGACACGACGATGCGGCGCCTGATCCCGCCCTTCCGCGAGG
CTTCGGCCAAGCTAACCACGCTGGTGGATGCCGACGCCGAGGCCTTCACCGCCTACCTGGTGAGTGGCGGCCACAGCAGGGCTCCCCGGGCCCCACCAAC
AGCGAACCCCCAGCTGGGGCCCCAGTGAGAAGCGGGTCAGCCTCCGGCTGGGGAGGGGCTGGGGACCAGGAGGGGCCTGAGGGCGTCACCACTGGCCGCT
GTCTGGACCTTGACCACCAGCACCGCCCTCACCCCGGCAAGTGCTTGGGCCCAGCAGGGTTTGAGGGTTCGGCCAGGGTGACCCCACATTCACAGGCCAT
GGCAGCCGGTACAAGGGAACAGGCCCCTCCCAGCAGGGGAGCCAGGAGCCCAGGCTTGGGGGACCCCACAGACCTGGAGCAAGGCAGGGCCCTTCTTTAG
AAGCCTGCAATTCCAGGAAAGGAGGCCTGCAAGAATCTCAGGAACACAGTGATGAGTGCTCTCAGGCAGGCCAGAGASGACCCGTTTCAGCCACAGCATA
AGACAGAAACACCATCTTCAGATAACACCCACTCAGGCAGGCAGTGACCCCACCTCCCTCCAAACGGGACAGGAACATGAGCATCAGCTGGCAGGATGTG
CCCACAGATGGGTGCTGGGTGCTCAGAGCCTAGGGCAGGGGCCAGAGAGCCTGGGAAAGGGCAGTGACAAGGTCAGGATGCTCCCAAGCAGTTCCAGCCC
AGGAGAGGACAGGAGGGAAGGGCAGAAAAGAGAGAGAGAGGGAGGGGAGAGAGAAGAGAGGGAGAGTGGGGAGAGAGGCAGATGGCGGAGAGAGAGAGGG
AGGGAGGGATGGGGAGGGAGGGAGGGGGAGGAGAGGGAGAGGGGGAGAGAGGGAGGGGGAGAGACAGAGAGAGAGGGAGAGGGAGGGAGAGAGGGAGGGA
GACAGAGGGAGGAGGGGGGAGAGAGGGAGGGGGAAAAGGGGAGAGAGGGAGAGGGGGAGAGAGGGAGGGAGAGGGGAGGAGGGAAAGGGGAGGGAGAGGG
GGAGAGGGGGGAGAGAGGGGAGAGAGGGAGAGGGGGAAAGAGGGGAGGGAGGGAGGGGGGAGAGAGGTAGGTGGAGAGAGAGGGAGGGAGAGAGAGGGAG
AGAGGGGAGAGAGGTGTAGGGGCCAGCCCTACAGGGTCTGTGGGTTTTTCTCCCCGTGTGTAGAGATGAGAGATTATAGAAATAAAGACACAAGACAAAG
AGAAGAAAAGACAGCTGGGCCCGGGGGACCACTACCACTAAGACACGGAGACCGGTAGTGGCCCTGAATGCCTGGCTGCGCTGTTATTTATTGGATACAA
AGCAAAAGAGGCAGGGTAAAGAGTGTGAGTCATCTTTAATGATTGATAAGGTCACGTGAGTCACATGTCCACCGCACAGGGGCCCCTTCCCTGTTAGGTA
GCTGAGGCAGAGAGAGAGAGGACAGCTCACATCATTTTTTTTAATCCTCTTTTTAGAAAGATTAAAGACTAATACTTTTACTAAGTTTGCTACTGTTATC
TAGAGGGCGGAGCCAGGTGTACAGAGTGGAACATAAAAGTGAAACAGGAGCATGAGCTCTAAAGCACAGCATCACAGGGAGACGATTAGGCCTCGGGATA
ACTGCGGGTGGGCCCTTTACAAGAGGTGGTGGACCAGAGTCTTCTTCAAACTCCCCTGGAGAAAGGGAGACTGCCTTTTCCGATCTGCTAAGTAGCGGAT
GCTTTTCTTTGGCACTGACACTACCATAGACCATGCTCCGCTTGGTAACGGGCGCCTTCCCAGACGCTGGCCTTACCGCTAGACCAAGGAGCCCTCTAGT
GGCCCTGCCCAGGCCTGACAAAGAGCTCACACTCGTTTTTTGGTCACTTTTTAGCGTGCCCCTTCAACTCCTATCTGTGTATGGCCTGGTTTTTCCTAGG
TTATGATTGCAGAGCAAAGATTATTATAATGTTAAAGAGTAATTGCTACAAACTAATGATTAATAATTATATATAATCATATCTATGATCTATATCTAGT
ACAACTCTTGTTATTTTATATATTTTATTGTACTAAAACAGCTCGTGCCCTCGGTCTCTTGCCTGGGCACCTGGCTGGCTTGCCGCCCACAAGAGGGAGA
TGGGGAGGGGGGGTAGGGAGAGAGGGAGGGGAGTGGGGAGAGAGGGAGGTGGGGAGAGAGACAGGGAGGGACAGAGTGGGAGGGAGGGAGAGAGAAACAT
GTGCCCCAGCCTCTGGAGCAGGGCGGTGGGGGCGCCTGTGTTTCTGGGAGGGCCACAAGACCCCCAGCCCTAAGTTGGGAAGTCTACCTTACAAGGCTGG
GTGAGAAAGGCAGGCCCCAAATGCACGTGGAATCCACACACAGGCACAGAGGGAGCCAAGATGAGGGCCTCGGATAAACAGTCCCGGATTTGCAGAGGGA
GTCGCCTGAGGGTCCCGTTCTGGTCCTGTGGAGAGGTGAAGCTGGCTGGGCTTCTGGGTCTGGTGGGGACTTGGAGAACTTTTCTGTCTAGCTAAAGGTT
TGTAAACACACCAGTCAGCACTGTGTCTAGCTACTGGGGTGGGAACTTGGAGAACTTCTCTGTCTAGCTAAAGTATTGTAAAAACGCACCAGTCAGTGST
CTGTGTCTAGCTAAAGGTTTGTAAAYGCACCAATCAGCACTCTTTAAAAACGGACCAATCAGCACTCTGTAAAATGGACCAATCAGCACTCTGTAAAGTG
GACCAATCAGCAGGATGTGGGCRGGGCCAAATAAGGGCATAAAAGCTGGCCACCGAARCCAGCAAGCGCCAACCGTGGCGGGTTCTGTTCCAAGCTGTGG
GGGCTTTGTTCTTTTGCTCTTCGAACTAAATCTTGCTGCTGCTTACTCTTTGGGCCTTCGCTACCTTTACGACCTGTAACACTCACTGCCAAGGTGTGTA
GCTTCACTCCTCAAGTCAGCGAGACCACCAACCCACCGGGAGGAGCTAACAGCTGTGCTACGCGCCACCTGTRAGAGCTGTAACACTCGCTGCGAAGGTC
GGCGGCCTCACGGGGAGGAAGAAACAGCTCCCGACGCGCCACCTGTAAGAGCTTAACGCTCACTGTGAAGGTCGGCGGCCTCACGGGGAGGAAGAAACAG
CTCCCGACGCGCCACCTGTAAGAGCTTATGGCTCACTGTGAAGGTCKGCGGCCTCACSGGGAGGAAGAAACAGCTCCCGACGCGCCACCTGTAAGAGCTC
ACTGAGAAGGTCTCCGGCTTCACTCCTGAAGTCAGGCAAGACCACGAACCCGCCAGAAGGAAGAAACTCCGGACGTATCTGAACATCAGAAGGAACCAAT
TCCGGACACACTGTTTGCAGGGAGGTGTAGACGCTGATCACCGTTTCCAGTCATTTTAAAAATTCAGGTTTTATTTATTTACTTTTTACAGTAGATAGGC
CCTTCGGGGGTTCACCCCGCCTTCGCCACAGCCCGCCCAGTGCTCGCCTCTCTTGCTGCCTCAGAGCTCCGCCTTTCCTTCCCCTCGCACACAGCCCCGC
CCGCTCCCAGCCTGGCCCCTTGGGTTTTCCACTGGGGGAAGCACCCCCCTCCCCGGGGGGGCCCAGGGCACCCAACACCTGCTTGCAGAACCCTGCTTTC
TGGGATGCGCTTCTCATTACCGGGCAGGTTAAGCATGTTCCGTACATTTAGCAGTGGTTTTTACTTCTTTTCCAGGAAGTTATCTGGTGAATATTTTTTG
ACTCCTTTTATCTTAGTTTCTCTTGGGGCTTTCGCTGCCTTCTAGTATTTTTTTTTTTTAATAGGGGAGGCAGGCCTTGTTCTGGGCTCAGCTTTCCCCG
TTTGTTGTTCGTCTTTGGACTTTGCGTGTGGGGCTTCTGACAATGACTCTTAATCTTTATGTCGTGGAATGTGTCAATCCTGACTTTATATTTTTTGGGT
CTTGTATCACAGTTCAAATGGCCTCCCCAGAACAAGATGATCTTTTCTATACTTTAATGGGTTGATGAACTTTAGACCCGGACAGGCATTTGAAGACAGT
CATGAATTTAAGTATAAATATTAGAAATAGGCCAGGCATGATAGCTCACACCTGTAATCCTAGCATTTTGGAAAACCAAGGTGGGCAAATCCCTTGAGCT
CAGGTGTTTGAAACCAGCCTAGACCACACACCAAGACCCTGTATTTACCCACCCAAAAAGAAAAAAAAAAAATAAAGCCAGGCGTGGTAGCAGGTACCTG
TGGTCCCAGCTACTCAGGAGGCTTAAGTGGGGGTAGCTTGAGGCCAGGAGTTTGAGGCTGCAGTGAGTCGTGATTGCACCACTGCACTCTAGCCTGGGCA
ACAGAACGACACCCTGTCTCTAATGTAAACATATGTATATAAAACATARGAACAATTTTATGTTTAGAAATTTAAAATAAGGTGMATAATTAAAAAACAA
GTAGGAAAAGTACATAGATGAAAATGTAATCAAGGGACAGGAARGAAACAAGACGTGTGGTTTAGAGAACCATGAGCGGGGACAGTGAGACTGTGCTAGG
CATCAGTGGTCGAAATCAGTGGATTGGTTTACGCTCCCTGTGAGCCACGTGAAGGTGGACGGGGAGTGCTGGATTGGTTTACGCTCCCTGTGAGCAATGT
GAAGGCAGACGGGGAGTGCTGGATTGGTTTACGCTCCCTGTGAGCAATGTGAAGGCTGACGGGGAGTGCTGGATTGGTTTACGCTCCCTGTGAGCCACGT
GAAGGTGGACGGGGAGTGCTGGGTTGGTTTACGCTCCCTGTGAGCAATGTGAAGGCAGACGGGGAGTGCTGGATTGGTTTACACTCCCTGTGAGCCACGT
GAAGGTGGACGAGGAGTGCTGGGTTGGTTTACACTCCCTGTGAGCCACGTGAAGGTGGACGGGGGAGTGCTGGATTGGTTTACACTCCCTGTGAGCCACG
TGAAGGTGGACGGGGAGTGCTGGGTTGGTTTACACTCCCTCTGAGCAATGCGAAGGTGGACGGGGAGGGCTGGGTTGATTTACATTCCCTGCGAACAATG
TGAAGGTGGACGAGGAGTGCTGGGTTGGTTTACACTCCCTGTGAGCCACGCGAAGGTGGACGGGGAGTGCTGGATTGGTTTACACTCCCTGTGAGCCACG
TGAAGGTGGACGGGGAGTGCTGGATTGGTTTACACTCCCTGTGAGCCACGTGAAGGTGGACGGGGGAGTGCTGGGTTGGTTTACACTCCCTCTGAGCAAT
GCGAAGGTGGACGGGGAGGGCTGGGTTGATTTACATTCCCTGTGAACAATGTGAAGGTGGATGGGGAGTGCTGCATTGGTTTACGCACCCTGTGAGGCAC
GTGAAGGTGGACGGGGAGTGCTGGGTTGGTGTACACTCCCTGTGAGCAATGTGAAGGTGGACGGGGAGTGCTGGATTGGTTTATGCTCCCTCTGAGCAAT
GCAAAGGTCGACTTTTGAAAAACATAAGGAGATATCTGTACCTTGCACCAAATACATAAGTAATTTCCAGATGGAATAGAAAACTGTATTTCCCCAYCAC
CAACACAACCAAGCCTCACGATAAATCACAGAAAACAAAACGGACCGGGCGGGCAGGCCTCGGCCGGACGCAGATGAGGCCACCTAAAGCACACCCTTGG
CCAAGATCTGCCCAGGGAGACCATGGACACCGCAAGGCCTGGGTGTGAGAGAGTGTTCGTAGCGCGAGTCGCAGCTTGAGGATGGCTGTCCTKCCTCCGC
CTGCAACTGCTACAGACCCTTGTGCAGAGGACAGCCTGGGAGAGGGGCTGCAGCCAGGAGGCCTGGTCTGGATGATGCCCCAGCCAGTCAGGGAGACACT
GGGCATTTCTGTTCCTCGATCACTGCTGTCGGAATGGTCAAAGGATCCAGATCTGGCTGGCGCCCAGGGAGCATTTGCTCTCATCCATGGTCGAGGGTAG
GGGCTGTTGATGATGACTTTCTGGTGGAGAGTTGGCTGAATCTTCCAAGATGAAGTGAGCATATTCCCCACTGAGAACCCCTTGGCCAGGGCTCTGGCCA
CAGTCCGTGTGAGTAGGGCTCCCAGTGGGTCCTTGGAAGGTTGGTGTGTGGTCCCAGCTRTGCTCTTCCACACGGGGTGGGTCCGAGGAGCCGAGTGCCT
TACGGTGACGCCGTGAGCTACACACATGAGCACCTAGGAAAGGCCAGTGCCTGTGACCGGGGCAGGGACATGAGGGGCTTTGAGGTTTGCTCTTGGTCCT
TCTGCACAGTCTGAGCCTCTTATGCCCAGGCTTGGGGGCGGTGCAGCTGCTTGTGTTGGAGACACAGGCCCAGAGCCACTCCTGCCTACAGGTTCTGAGG
GCTCAGGGGACCTCCTGGGCCCTCAGGCTCTTTAGCTGAGAATAAGGGCCCTGAGGGAACTACCTGCTTCTCACATCCCCGGGTCTCTGACCATCTGCTG
TGTGCCCCGACCCCCCCTACCCTGCTCCTCCACCAAGCCTGATGCYAAGGGCTATAAACCACTGGCCCAACAGAAGCTTGGTTCCCAGAGAACTGGTCCC
TGCCTGGGACATGCTCCTTGCTACAGCCCCTTGTGGGAGCTCAGAGGGCATGGCTGCTCCCCCTACGGTCCCTCGCCCAGTGGTTCTGTCTCTTTATGGC
AGGAAGCAATGAGGCTCCCCAAGAACACACCTGAGGAAAAGGACAGGTGAGCCTGGAGGGCCGGCCGCACCGTGGGCCTCTGTGTCTGGGGAGTTGGTGG
CCAGGATCCCGAGTACCTGGGTGCTGTGACGGGGCGTGGTTGGCCTGGGCGTGCTGGGTGTTTGGGAATGACTTCCCATCGCCCGCTTCTGCAGCCTGCT
CAGCCCTGTTGGGGTGCAGTGTGTCCACTGCCTGCCTGTGTGTGCCGCYGYGCYCAGGCTCTCCTCTTGCTCCTTTCAGGCGCACGGYGGCCCTACAGGA
GGGTCTGAGGCGGGCAGTCTCTGTGCCGCTGACGCTGGYGGAGACGGTGGCCTCGCTGTGGCCGGCSCTGCAGGAACTGGCCCRGTGTGGGAACCTGGCC
TGCCGGTCAGACCTCCAGGTAGGGGGGCCCGGGGGACCCCAGGCCTCCTGCCGCAAAGCAGGAAGCAGCTGTTGGGGCTGAGTTGCTGGAGAGCACGGTG
GTTGGCTGGGCTGAGCCAGGTAGGGAGACCTCACTTCACGGGCAGTTCCCGGGGCTTTGGCCTCCTCCAACAGGGCCGGGGTGTCCGCTGCCTTCTAAGA
TCTCGCTCACGGCGGCACCACAGACGGAGACCCAAATGTGTCTGCAGAGCCCACCCTGACCACTGTATAAGTGTATACTCCCCCAAGACCCCTTGTATCA
CCCCCACTGTCTTGTTCTAGAAAACACCTATGTCAGCCCAGGCACAATGGTTCTCGCCTGTGGTCCCAGCACTTTGGGAGGCTGAGGCGGGAGGATCACT
TGAATAGAGGAGGTCGAGACCAGCCTGGGCAACATAGTGGGACCCTGGCTGTACAATAGATACATATGAGCCAGGCACGGTGGTGCCTGTGGTCCCAGCT
ACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAGCACAGGAGGTCAAGGCTGCAGTGAGCYGTGATCACACCACTGCGCTCCAGCCTTGGTGACAGAGCAA
GACCCTGGGTCAAAAACAACAAAACACGAGAAAGCACACAAGGCAGCTCTTGGAAGTAGATGCCTCACACTGACRGGCCACAGCTGGGCAGAGGGTCCCA
GAGAAGGAGCGTCTCTCTCATGGGCTCAGCACTTTCTGCAGCTGCCCTAAGACCTCATGGTCTTCGGGTTCTTTATAGGAAAGACGCCTCTTTTCAGCAT
CTGGTCCCAGAGAAGTGTCCCCTCAGTCCCTGGGAAGTGTCCCTGGGCAGTGGGCGGGCCGTTAGCCTGAAGCTGCCTCCGGGGGCCCTCCAGGGGATGA
CTGTCTCTAGAACTGTGGTCCTGGTTCCTAGAGTGGCGGAGAGCCTCCAGTGTGACTGCTCCCAGGCYTCCTGTGGGGCTGAGCCCTGCTTGGATAAGAG
AAAGTTTTGTTTTCTAAGCTCARTGGTGGGGCTTAGCCCTCTGTGGGGCGAAAGCGGGGGCTGCGCTGGGCTCCTTGTGAGGAGGAGGACGAAGTCCGGC
CTGTCCCAGAGCCCGTCAGGCAGAGACCCTCCTTCCGGCAGTTTGCTCAGCCTTGATCCATGTAGGGGCTCCCTGGGGTCCTTGCAGGTGGCGGCCAAAG
CCYTGGAGATGGGYGTGTTTGGCGCATATTTCAACGTGCTCATCAACCTGAGGGACATCACAGACGAGGCATTTAAGGACCAGGTGAGCAGGAGGCAGGT
GTGGTGCCCGGACCCCAYGTGGGGGCCTGGATTCACAGCCTCAGGGTGATTGCCGACTGGCYGTGGGCAGTGGGGGTCGGAGGTTGCTGCCCAGCAAGCT
GGGCTGAAGACTGGAACTACCAGACCCCTCTTTCCCTGTGTCCATCAGATCCACCATCGTGTTTCCAGCCTCCTGCAGGAAGCCAAGACCCAGGCTGCAC
TGGTGCTGGACTGCTTGGAGACCCGGCAGGAGTGACGGTGCGGGAGGCCTCTCYGGGCTCTGTGGCCCCTCCCTCGCCCATCCCCAGAGGGCAGAGCTGT
GACCTCGGTGGGGACACAGCTTGTTCRTGTGGGGCCCGGAGGRTAGGTGGGCAGGCAGCGGGGCATCGCCTGGGAATGGAGGCGCTGGCAGGGACAGAAG
GCCCCTAGTCCCATGTGACCTCCAGTAAAGTTTTGGCACCAAACCTGTGTTGTGTGTTGGCGGTTTTGGGGGCAGGGCTGAGAGCTGAGCTGCGGGTCTT
GGGGCAGGAGCAGGACATATGGTCAGTGGCCCATGGGAGCCAGGGTTGGAGGGAATGGGGTTGCAGCGTGAGGAGACAGACCTCAGCGCCAGGGTCCCCA
GACACCCAGTGCAGCCCACAGTGGGCAGGGTCACAGGTATTCAGAGGACCTGGGGTTCAGTGCAGGTCCCTGGGCTGTGAGGCCCCTTGTCTGAGGGAAA
GGGGCCCTGGTTCTGTGCATGGGACAGAAACCCCAGGGACAGCAGGACCTTCGACGCTGGAAGGATAGCCTCGCTTCCCAGGTGCAGCTCCCGGCAGGTC
TGGACAGTTCCACAGAGCACGGTACTGGCCCTGTCCTCAGTTCCCGTCCACCCTTCAACCAGTGGCTCCTGGGAGACTTTTCCTCCCTGCCTCAGCTCCC
TGCCCAGCCAGCCTCCTGTCTCCAGAGAAGTTCTCCATTAAAAAATAATTTAGCAAATCACTATACTCTCAAATTACTTCTAGATGGACTATTACATGTG
ACAGATGATGTATGAATGTATTTGTTAGTCAGCACTGCAGGATATTAAAAAGAAGATTACTGTGTCCTTGAGTGAAGCAGAAAACTCAAATGCCTTATTG
GAGAGATTTCCCATTCTGAAAATAGAACATACTTGTTCATGAAAAAAGATGTCATCATCCAAGACAAATGACAAGAATCCTACAGGGAGAAAAAACACCC
AAGGTGTGTGTGGGTACAGGGCCATCATCACTCAGCATGAAAGGTTCCTACATATCCGGCCGGCAGGGGGTGACAGGGAGGGGGTGCCGGGGAGGGGAGA
CTGGGAGGGAATGCTGGGAGGGAATGCTGGGAGGGGAGGCTGGGAGGGAACGCTGGGGAGGGGAGGCTGGGGAGGGGAGGCTGGGAGGGAACGCTGGGGA
GGGGAGGCTGGGAGGGGAGGCTGGGAGGGAACGCTGGGGAGGGGAGGCTGGGAGGGAATGCTGGGGAGGGGAGGCTGGGAGGGGAGTCTGGGAGGGGAGA
CTGGGGAGGGGACTCAGGAGGGAAGGCTGGGAGGGGACATTGGTGAGGGGACATTGGTGTTGGGGATGGTGAGGGGACATTTGTGAGGGGACATTGGTGT
TGGGACGGTGAGGGGGCATTGGTGTTGGGACCATGAGGGGACATTGTGAGGGGACATTGGTGTTAGGACCGTGAGGGAACATTTGTGTGGGGACATTGGT
GTTGGGACAATGAAGGGGACATTTGTGAGGGGACACTGGTGTTGGGACCATGAGGGGACATTGGTGTTAGGACCATGAGGGGACATTTGTGAGGGGACAT
TGATGTTAGGACCGTGAGGGAGGAGACATTTGTGAGGGGACATTGGTGTTGGGACCATGAGGGGACATTTGAGGGGACATTGGTGTTGGGACCATGAGGG
GACATTTGTGAGGGATGCTGGTGAGGGGATGCTGGTGTGGTGTAATTGGTGAAGGGCCAATGGTGAGCGGCAGTTGCTGGGTGGAGCTGTGGGTAGAGCC
TGTAGGTAGCTGGAAGTCCCTTCCAGTGGGACTGACGTTCCTGCCCTGCAGGGTCCGAGGCTGCACACGTGGGAGCTGGCACGAGAGAGGGGAGCGCCCT
CTCCCTGCAGAGGCCCTGGGCAGCTCCTGTGTAGCTCCTGTGGGTGGAGCCTGTGCACCTGCAGGGGCCTCTGCCTCCCTCCACCTGCGGGACCCGCGGT
GTTCACCTGGAGCACAGAGATCTGAGGGCTGACACTCAGGGCGCAGGGGCTTAGCAAAACAGGCGGGCCTCTTCTGCATCTCCTGCTGGCATTTGCGTAG
TTTTTTTGTGGGATGGGAAAAGGAGGAAAGGAAGAGAAAATAACTGACGTACTCCCCTGGAGCTGCAGGCTGTGTGGTCAGATGACAGAGCGGTGGAGTA
TGAAGAAAAGAGTGAGTCTTTTCAAAGGACAACAAAGTTTCAGGGTATCCAGAGTGAACTGCATTTCCCCAGTTTCACATGTTGACTCCTGACCCTGACC
CTCACCCTAAACCTGACCCTCACCCTCACCCTCACCCTCACCCTGACCCTAAACCTGACCCTCACCCTGACCCTCACCCTGACCCTAAACCTGACCCTCA
CCCTGACCCTCACCCTGACCCTGACCCTGACCCTAAACCTGACCCTCACCCTAAACCTGACCCTCACCCTCACCCTGACCCTAAACCTGACCCTCACCCT
GACCCTAAACCTGACCCTCACCCTGACCCTAAACCTGACCCTCACCCTGACCCTAAACCTGACCCTCACCCTGACCCTAAACCTGACCCTCACCCTGACC
CTGACCCTGACCCTAAACCTGACCCTGACCCTAAACCTGACCCTGACCCTGACCCTGACCCTAAATCTGACCCTGACTCCTGACCCCTACCCCCAACCCC
AACCCCAACCCCAACCCCAACCCCTAACCCTAAGCCCCAGACCTCTGGATGTGACCTTGTTTGGAAATGGGGTCCTTGCAGATGCAGTGAGCTCAGGTGA
GATCATCCTGGAGCAGGGTGAGCTTGGTCCAGTGTGACTTGGGTGAGGTTATCTTGGAATAGGCTGAGTCCTGGTCCAGTGTGACTCCAGTGAGGTCATC
CTAGAGCAGGCTGAGCCTTGGTCCACTGTGACTCTGGTGAGCTCATCCTAGAATAGGCTGAGCCCTGGTCCAGTGTGACTCGGGTGAGCTCATCCCGGAA
TAGGCTGAGCCCTGGTCCAGTGTGACTCGGGTGAGCTCATCCCGGAATAGGCTGAGCCCTGGTCCAGTGTGACTCGGGTGAGCTCATCCTAGAATAGGCT
GAGCCCTGGTCCAGTGTGACTCGGGTGAGCTCATCCCGGAATAGGCTGAGCCCTGGTCCAGTGTGACTCGGGTGAGCTTATCCCAGGATAGGCTGATCTC
TGGTCCAGTGTCTCGGGTAAGCTCACCTTAGAGCAGGCTGAGCCTGGTCCAGTGTGACTTAGGTGAGGTATTCTAGAGCAGGCTGAGCCCCAGTCCAGTG
TGGTGACTTGTATCCTTATCCAGGAGATCAGGAACCCTGGGATGCTGGGGAGAGGCCGGGGCAGGCCCTTCTCTAGTCCTCCTCTAGCCCTCCAGAGGAA
GCATGGCCCGGCTGATGCCTCCAGGCCTGTGGCCGATACTGGTAGTTGTTCAAGCTGTGTCTGTGGTGCCCTGTGATGGCCACCAAGCCCACTCCTGTCA
GGTCAGCACCTGCCTGTGGAGCCTCTGGTTCACTGTGGGGCTCCTGAGCTGAGCCTGAAGGACCCTGGGGTCTGAACAGCAAAAACTCACTGAGATCTCC
ACACAGAACACAACAGGCTCAGCACCTGCTGTCTCCCCGTCTAGTGTTAATCATGCGTCCACCCACAGAAGACCCTCAGCCATGGTGACACTTCTTAGAG
CACTTTGGGCCTGGCTGGGGCTGGAGGGAGAGTTTGCTGATCAAGGCTGTGGGGTCTGCACAGGCGGGGTCAGCCAGCACCTGCAGTTGATGTCCTAGGA
GGTCAGGGCTGGGCCCGGGGGAGCCATTGACCCTGGTGGGCGAGCGACAGCTGCAGTGTTTCCCTCCTGGCCACAAGACACCTTTGAGGTCTCTCCTGCG
CACAGAAGCTCGCAAGCAGGCACGCAATGGGTTCAAAGCCTTTATTGGGTCAGGGCTTGCTCCAGAGCTCAGGGGCCAGGTAGGTCAGGAGCCTTGGGAT
GGCTGCAGGGGGAGGGAGGCCGGGCAGCCTGCGGAGGGCCTGGGGAGACCTGGGGCTGGGCGGGGGCCGGGGCTACGGGGACCCCGTGGGAGGAGCTGGA
GAGGTGCAGGCCCAGGGCGTCGTCCGAGTGAGCAGCGGTGCTGGCCGTGTGGGACCCGGGCCCGCTTAGCACCATGGACGGGGTGGGCTCACGACCCTCG
ACTGCGGGGCCCGGGCGGCGGCGCTAGCAGATCCAGCGGATGAAGCGGTCGAAGAAGCCGGGTTGCGCCAGGCTGTCATAGTCCTTCTCGTGGAACACGG
CGGCGCGGTCACCCAGGCTGAGCGTGGTGAGCACGTCCATGTCCACGTCGCTGCCCAAGGCCAGCACGGTGGGTACCACGTTCTGCTTGCGCATGGAGTG
CGCCGACTCGTGCAGACTGTCGTTGCCCGTGACGCCGTCCGTGAGGAACACGAAGGACAGCTCTGCGTGCCTCCGGGCCCCGCCACGCGGGCTGCGCACG
ATGGCATTGATGGCGTGCACCACGCCTGCGCCCACGTGCGAGAAGGAGTTCAGGTATTGTGTGGTCTCCAGCGCCTCGTGGATGGCCGTGAGGTTGTGGC
TCAGCGGGAAGGCCACCTGCTGCTCGCCGGGGCCACCAAACTGCAGCAGCGCCACGCGTGCGTTGAGAGGGTCGTCGTCCCTCCGGGCCAGCGTCAGCCG
CCGCGCCACCTGCTCCACGAAGCGCCGGGCCTTGTGGAAGTTCTGCTCACCCAGCCGCTCGGAGCCGTCCAGCAGGAAGACGATGTCCACGGGCCGCTGC
GTGCACTGTGCCACGGACAGCTCTGTGGGGAGACGCAGGTGCGGGCTGGGCGGAGGAGAGGTGGGCAGGACCGGGCAGGTGCCAGCCCCGCACCTGTGCC
CTTCCATTCGCACCCTGCCTGCAACCTCACAGACCACTGGGCTCTGCGGGGGCGTTTCTGCAGGGCAGCCCTGGGTGTGGGTCCTTAGCCCAAGACACTT
TCAGGCGGCACTGCTGGGAGCCGCCATCTCCTCTGCTGGTGCTCCCAGGCCTGAGACCCTGACACAGGCCCCAGGCCCTGTCCACCTGCTGAGCACCATC
CCTGCACAGGCTGCCCTCCTGGGAGGGAAGGGGCCCAAAGCATCCTTTCATGGCTCAAGAATTTGCTGCCCACAAAAGGGCCACTGTCTGTGTAGTGTGG
GAGGTACTTAAGGAGGACCCTGGCTCTGACACCCCCAGCCTGACCCCTCAATCGCTGGGTCCCAGAGCTGCTCAGAACACCTAGAGCTGGCTGGGCCACG
TCCCTCCCGGAAAGACCAGGAGCCCCTGACTCTTCTGATTGGCCATGGTGGGGAGCAGTGGGCACAGGGGCAGCCAGACCTTCTGTGGCAGCCCAGGTGG
GTTCTGCCCTATGACTCTGTTACCAAGTGGGGCCCCCACCTGCCTGGGTGGTCACCAGCCCTGGGCATCGGGGACAGCTTGGGGGCCTGGCCATAGCCAC
AACCCAGGCCAGGCTGCCTACCACACGTGTGGGTGTCACGTGGGGCCAGAGACCACAGGACAGGACACGGACAGTCCTTGCGTGGACCTGGCCCTGTGGC
CTCACCAAGACCTCAGCTCCTGGGATGGGGGAGGGGAGGGACAGAGCCAGTTTCCCCAAGGGTGTCTGCTTCTCAGCCCAACCCCTGGACGTCGTCACAG
CTGGTACATGGACCCCCAGGAATGCACACAGAGGACCCTGACCCGAAACTCGGTTTCTGGGGGCCCTGGAGGTGCAACGGTCCAGCCCCGCAGGCAGTGA
GCAAAGCTCTGAACACAGCAGGGTGACCTCACGCTGCACCGCAGCCTTCACAGAACGCTTGAGACATGGACGCCGTCTGAGCACGCACGAGCTGGCAGAT
GGGGTTCCCTCAGTGAGCTTATGAGTGACGCAGCTCATTCAGTGAAAGGAAGGGCAGCCTCCCTGTTAAGGCCACACCTAGGAACCGGCTTAAATGTCCA
GAAACTCCTCAGGTACCGCTGGGCTTCCCAAACCCCCTCAAAACTAATAACATTTTCACTGCTGTCACCAAACATATGGAGACAGACATGCAAGGGGCAG
CTGGTTTTGGGGGTCTCTGTCCATTCATCAGTGTCTGTGGGGCCTGGAGGAGACGGGGAAGCTGTGGGGGCCGGCCAGGCACAGGGAGGCTGAGGCTGTT
GGGATGTCTGTGGACTCTGCTCTCCTCCTCCTGTGGAGGATCCTTCATCCCCACAGTGGGAAGACCAGCCTGGCCTGCCCTGTGCAGTGGGTGTGGGGAC
GAGAACCTGGCCCTGAGAAATGGTCACAGCCGTGCCCGGCAGGAGCCCAGCCTGGATGAGGGCTCCTGCAGTCAGAACGTCGGGGTCAGCTCGCCGTGGG
GGCCGCTCCCTTTGGATGGTGATCCCTGCCGCTCCCCAACATTGTGGACCCTGGGATTCTCTGCTCAGTCCTCTGAGGACCGCAGAGGTTGTGCCTGGTG
GATGCTCCCCCGACTGTGCTTTTGGAGACCCAGAGGTTGGGCTGGAAGGGTGCAGACACCCCGGGATCAGGGCTGCTGGCAGGCAGCTGTGGCCATTCGC
CCTACTGTGCATGACACCAGCCCAGATACGTCATGGTGCCAGGACTGCCAGCTTCCCCCAGGACTATCTGCTGCCCAACCGGAAGCCTTCACCTGCCACC
AGGTGGGCCGTGAGCGCCCACGAGTCACCATGCACGGGATTAGTGCCCACACCCAGCGAG


SNP Information

Context             (SEQ ID NO:66891):
CCTGTAACACTCACTGCCAAGGTGTGTAGCTTCACTCCTCAAGTCAGCGAGACCACCAACCCACCGGGAGGAGCTAACAGCTGTGCTACGCGCCACCTGT
R
AGAGCTGTAACACTCGCTGCGAAGGTCGGCGGCCTCACGGGGAGGAAGAAACAGCTCCCGACGCGCCACCTGTAAGAGCTTAACGCTCACTGTGAAGGTC
Celera SNP ID:            hCV3270797
SNP Position Genomic:     24073
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66892):
AAACGCACCAATCAGCACTCTTTAAAAACGGACCAATCAGCACTCTGTAAAATGGACCAATCAGCACTCTGTAAAGTGGACCAATCAGCAGGATGTGGGC
R
GGGCCAAATAAGGGCATAAAAGCTGGCCACCGAAACCAGCAAGCGCCAACCGTGGCGGGTTCTGTTCCAAGCTGTGGGGGCTTTGTTCTTTTGCTCTTCG
Celera SNP ID:            hCV3270798
SNP Position Genomic:     23823
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66893):
AGCAAGGCAGGGCCCTTCTTTAGAAGCCTGCAATTCCAGGAAAGGAGGCCTGCAAGAATCTCAGGAACACAGTGATGAGTGCTCTCAGGCAGGCCAGAGA
S
GACCCGTTTCAGCCACAGCATAAGACAGAAACACCATCTTCAGATAACACCCACTCAGGCAGGCAGTGACCCCACCTCCCTCCAAACGGGACAGGAACAT
Celera SNP ID:            hCV3270799
SNP Position Genomic:     21578
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,2)   total(G,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66894):
GGTGCCTGCTGGGGCGGGGCCCACAGGGCTCCTGGCGGGGCAGAGGTGGGGGGTGCCAGCCACGCCCCTGCCCTGCTCCCCGCAAAAGCACCTGTGTGCT
Y
GGGGCAGGGGGCGGCTGCCGCAAGGGTGGGACCCGCGGGTTCCGAGGCTTTCCTGGTGGTGGAGACGCGCCGAGGCCGTTTCCACTCCAAGCCCCTTTTC
Celera SNP ID:            hCV27511049
SNP Position Genomic:     20145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66895):
GGAGGGAGCCCCTCCACCTGCGTCCTCCAGGAACTGAGTCCTGGACCCCCTGCCGGTCCAGGCCTGACCGCCGGGCTCTCCTGCAGTTTACCTGTACGGC
R
AGGCAGCCAGGATGGACAGTCGCCGGACCCTGCCGGCCATCCGGGCCGGGGAGTACGAGGCCCTCCCTAAGAAGGTGCCCCCACCCCGGGCGGTCGGGCC
Celera SNP ID:            hCV25760761
SNP Position Genomic:     14610
SNP Source:               Applera
Population(Allele,Count): african american(G,6)   caucasian(A,1|G,15)   total(A,1|G,21)
SNP Type:                 UTR 5


Context             (SEQ ID NO:66896):
CACTCTAGCCTGGGCAACAGAACGACACCCTGTCTCTAATGTAAACATATGTATATAAAACATAGGAACAATTTTATGTTTAGAAATTTAAAATAAGGTG
M
ATAATTAAAAAACAAGTAGGAAAAGTACATAGATGAAAATGTAATCAAGGGACAGGAAGGAAACAAGACGTGTGGTTTAGAGAACCATGAGCGGGGACAG
Celera SNP ID:            hCV15832430
SNP Position Genomic:     25485
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66897):
GTCAGCGTGGATGAGTGTGTGCTCTGCGCCCAGGCCTTTGGCCAGAGGCTGGCAGAGGAGCTGGACGTGCCAGGTGAGCGTGCCCCCCCGCCCCCCTCAC
Y
CTGCTCCCGTCTCATTGGTGTGGGTTATTGGCTCCTTCTGTATCCCCCAGTTCCCTGCCCTTGACTGCTCTTGCAAGGGCAGAGTGTTCCAAAAAGCCAA
Celera SNP ID:            hCV25622546
SNP Position Genomic:     13697
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,22)   total(C,1|T,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:66898):
CACCTGGCCTCCTGCCCGGCCTCGCCGTCTCTCTGCAGGAGAGCACCCCCGCATGGGGGCCCTAGACGTCTGCCCCTTCATCCCCGTGAGGGGCGTCAGC
R
TGGATGAGTGTGTGCTCTGCGCCCAGGCCTTTGGCCAGAGGCTGGCAGAGGAGCTGGACGTGCCAGGTGAGCGTGCCCCCCCGCCCCCCTCACTCTGCTC
Celera SNP ID:            hCV25622547
SNP Position Genomic:     13603
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(A,1|G,25)   total(A,3|G,59)
SNP Type:                 UTR 5


Context             (SEQ ID NO:66899):
GGCTGATGGGGCAGCTTGAGTGGCTAAGGCCCAGGCCATGGAGGAGGTGGTGGGCTTGGTGTCCCGGGTCGTCTTCCCAGGATGGGCAGAGCCGCTGCCC
R
TGGGCCCCAAGGACATCCCGTGGCTCAGGGCCCTGGGGAGTGCCTGACCCAGGGGTGGGTGGAACACGACTGGTGCTTGTGGGGGCTGAGGCTTGGCTGT
Celera SNP ID:            hCV15963901
SNP Position Genomic:     11237
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66900):
CATATTCCCCACTGAGAACCCCTTGGCCAGGGCTCTGGCCACAGTCCGTGTGAGTAGGGCTCCCAGTGGGTCCTTGGAAGGTTGGTGTGTGGTCCCAGCT
R
TGCTCTTCCACACGGGGTGGGTCCGAGGAGCCGAGTGCCTTACGGTGACGCCGTGAGCTACACACATGAGCACCTAGGAAAGGCCAGTGCCTGTGACCGG
Celera SNP ID:            hCV29326690
SNP Position Genomic:     27160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66901):
GGCCTGTGTCCCAGGTGATCGACGCCATCTCTGGAGCCATCACACAGACCCCGGGCTGCGTGCTGCTGGATGTGGACGCAGGCCCTTCCACCAACCGCAC
Y
GTGTACACCTTCGTGGGGCCGCCGGAGTGCGTGGTGGAGGGGGCCCTCAACGCTGCCCGGGTAGCTTCCCGACTTATCGACATGAGCAGGCACCAAGGTG
Celera SNP ID:            hCV25622548
SNP Position Genomic:     12330
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,36)   total(C,71|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:66902):
GGAGGTGAGGCCCGAAGAGCTGGTCAAGCATCTAGGGCTGATGGGGCAGCTTGAGTGGCTAAGGCCCAGGCCATGGAGGAGGTGGTGGGCTTGGTGTCCC
R
GGTCGTCTTCCCAGGATGGGCAGAGCCGCTGCCCGTGGGCCCCAAGGACATCCCGTGGCTCAGGGCCCTGGGGAGTGCCTGACCCAGGGGTGGGTGGAAC
Celera SNP ID:            hCV15963902
SNP Position Genomic:     11202
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66903):
ATACATATGAGCCAGGCACGGTGGTGCCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAGCACAGGAGGTCAAGGCTGCAGTGAGC
Y
GTGATCACACCACTGCGCTCCAGCCTTGGTGACAGAGCAAGACCCTGGGTCAAAAACAACAAAACACGAGAAAGCACACAAGGCAGCTCTTGGAAGTAGA
Celera SNP ID:            hCV2372387
SNP Position Genomic:     28660
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66904):
TTTGTAAACACACCAGTCAGCACTGTGTCTAGCTACTGGGGTGGGAACTTGGAGAACTTCTCTGTCTAGCTAAAGTATTGTAAAAACGCACCAGTCAGTG
S
TCTGTGTCTAGCTAAAGGTTTGTAAACGCACCAATCAGCACTCTTTAAAAACGGACCAATCAGCACTCTGTAAAATGGACCAATCAGCACTCTGTAAAGT
Celera SNP ID:            hCV27882023
SNP Position Genomic:     23699
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66905):
GCCTTGCTGGTTAATGAGAAGCCGGTGGGGAGGTGCTGCCGGTGAGCGTATAAAGGCCCTGGCGGCGGCTGCGGAGCACTGGCCCTGTCCTTCCATCTGC
Y
CAGAGAGGAGCATCTGGATCAAGGTGCTGGCCATGTCCCAGCTGGTGGAATGCGTCCCCAACTTTTCGGAGGGGAAGAACCAGGAGGTGAGGCCCGAAGA
Celera SNP ID:            hCV15963903
SNP Position Genomic:     11019
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(T,601|C,878)   total(C,878|T,601)
SNP Type:                 UTR 5


Context             (SEQ ID NO:66906):
TCCCGGGCGGCCGCTGTGTGCGGGCACTTTCGGTGGGAGCTCAGCTTGTCGGAGAGCCCCCAAAGGCTTGGCCCGCCTCCTCAGCCCCCATTTGTGTCTC
R
GGGTGCAGCCACCTCCAAGCTCCTTTTCCTTCTTTCAAACGGGGAGACTGAGGTGTGGGGGCCGGGCCTGTGTCCCAGGTGATCGACGCCATCTCTGGAG
Celera SNP ID:            hCV25622549
SNP Position Genomic:     12165
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,24)   total(A,1|G,61)
SNP Type:                 INTRON


Context             (SEQ ID NO:66907):
ACCCTTGGCCAAGATCTGCCCAGGGAGACCATGGACACCGCAAGGCCTGGGTGTGAGAGAGTGTTCGTAGCGCGAGTCGCAGCTTGAGGATGGCTGTCCT
K
CCTCCGCCTGCAACTGCTACAGACCCTTGTGCAGAGGACAGCCTGGGAGAGGGGCTGCAGCCAGGAGGCCTGGTCTGGATGATGCCCCAGCCAGTCAGGG
Celera SNP ID:            hCV27882024
SNP Position Genomic:     26793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66908):
GGCAGGGCCAAAGGTGTGTGGACACACGGGCGCTGGCCAGGGGCTGGGCTGTGGGCCGCTCATGAGAGGCCAGGGATCCACAGTGATCCTGAGGGGTGGA
Y
GGATGAGAAGCTTATCTCTAAGTGGCCAGCCCTGGGCGGTGGCGGCAAAGGCGGGGGAGGCTGGCGTCCCCTGGGGTGGGCGCCGACCCACGGCTTGGTG
Celera SNP ID:            hCV15832437
SNP Position Genomic:     12940
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66909):
GTGCTGGGTGTTTGGGAATGACTTCCCATCGCCCGCTTCTGCAGCCTGCTCAGCCCTGTTGGGGTGCAGTGTGTCCACTGCCTGCCTGTGTGTGCCGCTG
Y
GCTCAGGCTCTCCTCTTGCTCCTTTCAGGCGCACGGCGGCCCTACAGGAGGGTCTGAGGCGGGCAGTCTCTGTGCCGCTGACGCTGGCGGAGACGGTGGC
Celera SNP ID:            hCV22272273
SNP Position Genomic:     27951
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,21)   caucasian(T,2)   total(C,5|T,23)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,11)   caucasian(T,22)   total(C,3|T,33)
SNP Type:                 INTRON


Context             (SEQ ID NO:66910):
GCCCCAGGGGTCCAGGCTCCTCCAGGAACAAACGCAGGCCCCACGGGCTGCCTGGAAGGCCTCCCAGAAGGCAGCACAGGGTCACGAGGGTCACCCGCAG
K
GGCACAGGGAGGCCTCGTCACGACAGGATTCCAGCCAGGCTGGCCTGATGCTCCTGGGGGTCCTCGGCACATGCCCCTTCACCCTGGCATGTGCTTCTTT
Celera SNP ID:            hCV9520204
SNP Position Genomic:     10699
SNP Source:               Applera
Population(Allele,Count): african american(G,13|T,3)   caucasian(G,6)   total(G,19|T,3)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,10)   caucasian(G,30|T,10)   total(G,56|T,20)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,2)   caucasian(G,15|T,7)   total(G,19|T,9)   
SNP Type:                 UTR 5

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|T,5)      total(G,1|T,5) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:66911):
CTGCCTCTCGGGCCTTGCGGGGCGCTGGGGTCCCTGCGTGGAGACCCGGCTGAGTCCTCCCAGCGCCTCCCTTTGGGCGCCTACTCGGCCTGCGCCAAGC
M
GGGGTCTGGGGGCTGAGGGGGGCACAGAGACCCCGGCCGGGTCCCCGCAGGTTCTCAGCCGAGTGGTCACCTCCCCGTGGGTGCAGACGGGCGTGGGGCC
Celera SNP ID:            hCV27476198
SNP Position Genomic:     20454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66912):
GCCTCAGGTTCCCCAAGGGCAACTCAGGGTGATGGCTGTTTCCAGAAGCCTGTACGGGGTGCCTGCTGGGGCGGGGCCCACAGGGCTCCTGGCGGGGCAG
M
GGTGGGGGGTGCCAGCCACGCCCCTGCCCTGCTCCCCGCAAAAGCACCTGTGTGCTCGGGGCAGGGGGCGGCTGCCGCAAGGGTGGGACCCGCGGGTTCC
Celera SNP ID:            hCV27476199
SNP Position Genomic:     20088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66913):
AAGAGCTTAACGCTCACTGTGAAGGTCGGCGGCCTCACGGGGAGGAAGAAACAGCTCCCGACGCGCCACCTGTAAGAGCTTATGGCTCACTGTGAAGGTC
K
GCGGCCTCACCGGGAGGAAGAAACAGCTCCCGACGCGCCACCTGTAAGAGCTCACTGAGAAGGTCTCCGGCTTCACTCCTGAAGTCAGGCAAGACCACGA
Celera SNP ID:            hCV27935619
SNP Position Genomic:     24247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66914):
ATCCTTTCTGTCTAAGCAGCAGCTGTCGCTTCTCCACATTTCCTTGTCTTCTTATGTGTGAGGCCCCGTCTGCTTTCCAGTGTGGCGTTTTGTCTTCTTC
T
TTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTTTGTCACCCAGGCCGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCACCTCCCGGATTGAA
Celera SNP ID:            hCV27042732
SNP Position Genomic:     18616
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66915):
TCCTTTCTGTCTAAGCAGCAGCTGTCGCTTCTCCACATTTCCTTGTCTTCTTATGTGTGAGGCCCCGTCTGCTTTCCAGTGTGGCGTTTTGTCTTCTTCT
T
TTTTTTTTTTTTTTTTGAGATGGAGTCTCACTTTGTCACCCAGGCCGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCACCTCCCGGATTGAAG
Celera SNP ID:            hCV27042733
SNP Position Genomic:     18617
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66916):
TCCTGCCACTGACTGAAAGGGCTGTGTGAGGTCACACGAGGTGGCCCAGCATGGTCCCCACTGCCGCCTCTCCATCTCCACTGGAGTTAGCTTGCTGAGC
Y
CCCACCCTGCAGCCACCATCCTCACTGGACCCAAAACGAAGTAGGCACAGAGGGGGCAGCAGGCCCCCAGGTCCGGCCTCTCGCCTTCCACAGCCCTGAG
Celera SNP ID:            hCV3270802
SNP Position Genomic:     11529
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,11)      total(C,2|T,11) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66917):
GCTTCTCCACATTTCCTTGTCTTCTTATGTGTGAGGCCCCGTCTGCTTTCCAGTGTGGCGTTTTGTCTTCTTCTTTTTTTTTTTTTTTTTTGAGATGGAG
Y
CTCACTTTGTCACCCAGGCCGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCACCTCCCGGATTGAAGCAGTTCTCTGCCTCAGCCTCTCGAGT
Celera SNP ID:            hCV27042734
SNP Position Genomic:     18643
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66918):
CTTTCGGTGGGGGGTTGGGCAGATCTCTGGGCCTCAAAGGGCCTTGGTGCTCCCCCCTGAAAATGGGGCTCCTGCCACTGACTGAAAGGGCTGTGTGAGG
Y
CACACGAGGTGGCCCAGCATGGTCCCCACTGCCGCCTCTCCATCTCCACTGGAGTTAGCTTGCTGAGCTCCCACCCTGCAGCCACCATCCTCACTGGACC
Celera SNP ID:            hCV3270803
SNP Position Genomic:     11460
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66919):
TCTAGCTACTGGGGTGGGAACTTGGAGAACTTCTCTGTCTAGCTAAAGTATTGTAAAAACGCACCAGTCAGTGCTCTGTGTCTAGCTAAAGGTTTGTAAA
Y
GCACCAATCAGCACTCTTTAAAAACGGACCAATCAGCACTCTGTAAAATGGACCAATCAGCACTCTGTAAAGTGGACCAATCAGCAGGATGTGGGCGGGG
Celera SNP ID:            hCV27042735
SNP Position Genomic:     23726
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66920):
TTGAGTGGCTAAGGCCCAGGCCATGGAGGAGGTGGTGGGCTTGGTGTCCCGGGTCGTCTTCCCAGGATGGGCAGAGCCGCTGCCCGTGGGCCCCAAGGAC
R
TCCCGTGGCTCAGGGCCCTGGGGAGTGCCTGACCCAGGGGTGGGTGGAACACGACTGGTGCTTGTGGGGGCTGAGGCTTGGCTGTGGCTTCAGGGGCCTT
Celera SNP ID:            hCV3270804
SNP Position Genomic:     11252
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66921):
TAGCATTTTGGAAAACCAAGGTGGGCAAATCCCTTGAGCTCAGGTGTTTGAAACCAGCCTAGACCACACACCAAGACCCTGTATTTACCCACCCAAAAAG
A
AAAAAAAAAAATAAAGCCAGGCGTGGTAGCAGGTACCTGTGGTCCCAGCTACTCAGGAGGCTTAAGTGGGGGTAGCTTGAGGCCAGGAGTTTGAGGCTGC
Celera SNP ID:            hCV27042736
SNP Position Genomic:     25261
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66922):
GCCCAGAGAGGAGCATCTGGATCAAGGTGCTGGCCATGTCCCAGCTGGTGGAATGCGTCCCCAACTTTTCGGAGGGGAAGAACCAGGAGGTGAGGCCCGA
R
GAGCTGGTCAAGCATCTAGGGCTGATGGGGCAGCTTGAGTGGCTAAGGCCCAGGCCATGGAGGAGGTGGTGGGCTTGGTGTCCCGGGTCGTCTTCCCAGG
Celera SNP ID:            hCV3270805
SNP Position Genomic:     11117
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,6)   caucasian(A,7|G,25)   total(A,9|G,31)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,8)      total(G,2|A,8) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66923):
GCGCTCCAGCCTTGGTGACAGAGCAAGACCCTGGGTCAAAAACAACAAAACACGAGAAAGCACACAAGGCAGCTCTTGGAAGTAGATGCCTCACACTGAC
R
GGCCACAGCTGGGCAGAGGGTCCCAGAGAAGGAGCGTCTCTCTCATGGGCTCAGCACTTTCTGCAGCTGCCCTAAGACCTCATGGTCTTCGGGTTCTTTA
Celera SNP ID:            hCV27042737
SNP Position Genomic:     28775
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3|-,6)   total(G,3|A,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66924):
CCTCGTCACGACAGGATTCCAGCCAGGCTGGCCTGATGCTCCTGGGGGTCCTCGGCACATGCCCCTTCACCCTGGCATGTGCTTCTTTTCCGGGAACCCA
Y
ACTCTGGCTGAGTGGAGCCATCCCCTCTGGGTCAACAGCACCCGGGGTGGCTCTGCAGCACCCCACTCCGCGGCTGCACAGGGACCTTGGCCCCACTGCT
Celera SNP ID:            hCV25622550
SNP Position Genomic:     10812
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,38)   total(C,67|T,1)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,1)   caucasian(C,16)   total(C,39|T,1)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:66925):
ACGGGCTGCCTGGAAGGCCTCCCAGAAGGCAGCACAGGGTCACGAGGGTCACCCGCAGTGGCACAGGGAGGCCTCGTCACGACAGGATTCCAGCCAGGCT
S
GCCTGATGCTCCTGGGGGTCCTCGGCACATGCCCCTTCACCCTGGCATGTGCTTCTTTTCCGGGAACCCACACTCTGGCTGAGTGGAGCCATCCCCTCTG
Celera SNP ID:            hCV25622551
SNP Position Genomic:     10741
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(C,1|G,31)   total(C,1|G,57)
SNP Type:                 UTR 5


Context             (SEQ ID NO:66926):
CCATCGTGTTTCCAGCCTCCTGCAGGAAGCCAAGACCCAGGCTGCACTGGTGCTGGACTGCTTGGAGACCCGGCAGGAGTGACGGTGCGGGAGGCCTCTC
Y
GGGCTCTGTGGCCCCTCCCTCGCCCATCCCCAGAGGGCAGAGCTGTGACCTCGGTGGGGACACAGCTTGTTCGTGTGGGGCCCGGAGGGTAGGTGGGCAG
Celera SNP ID:            hCV25622552
SNP Position Genomic:     29654
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,19|T,1)   total(C,50|T,2)   
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(C,12)   caucasian(C,29|T,5)   total(C,41|T,5)
SNP Type:                 UTR 3


Context             (SEQ ID NO:66927):
AGACGAGGCATTTAAGGACCAGGTGAGCAGGAGGCAGGTGTGGTGCCCGGACCCCACGTGGGGGCCTGGATTCACAGCCTCAGGGTGATTGCCGACTGGC
Y
GTGGGCAGTGGGGGTCGGAGGTTGCTGCCCAGCAAGCTGGGCTGAAGACTGGAACTACCAGACCCCTCTTTCCCTGTGTCCATCAGATCCACCATCGTGT
Celera SNP ID:            hCV25622553
SNP Position Genomic:     29462
SNP Source:               Applera
Population(Allele,Count): african american(C,14)   caucasian(C,33|T,1)   total(C,47|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66928):
TTTGGCGCATATTTCAACGTGCTCATCAACCTGAGGGACATCACAGACGAGGCATTTAAGGACCAGGTGAGCAGGAGGCAGGTGTGGTGCCCGGACCCCA
Y
GTGGGGGCCTGGATTCACAGCCTCAGGGTGATTGCCGACTGGCCGTGGGCAGTGGGGGTCGGAGGTTGCTGCCCAGCAAGCTGGGCTGAAGACTGGAACT
Celera SNP ID:            hCV25622554
SNP Position Genomic:     29418
SNP Source:               Applera
Population(Allele,Count): african american(C,18)   caucasian(C,33|T,3)   total(C,51|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:66929):
CGTCAGGCAGAGACCCTCCTTCCGGCAGTTTGCTCAGCCTTGATCCATGTAGGGGCTCCCTGGGGTCCTTGCAGGTGGCGGCCAAAGCCCTGGAGATGGG
Y
GTGTTTGGCGCATATTTCAACGTGCTCATCAACCTGAGGGACATCACAGACGAGGCATTTAAGGACCAGGTGAGCAGGAGGCAGGTGTGGTGCCCGGACC
Celera SNP ID:            hCV25622555
SNP Position Genomic:     29314
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,8)   caucasian(C,10|T,2)   total(C,34|T,10)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,3)   caucasian(C,33|T,3)   total(C,40|T,6)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66930):
ATCAGCACTCTGTAAAATGGACCAATCAGCACTCTGTAAAGTGGACCAATCAGCAGGATGTGGGCGGGGCCAAATAAGGGCATAAAAGCTGGCCACCGAA
R
CCAGCAAGCGCCAACCGTGGCGGGTTCTGTTCCAAGCTGTGGGGGCTTTGTTCTTTTGCTCTTCGAACTAAATCTTGCTGCTGCTTACTCTTTGGGCCTT
Celera SNP ID:            hCV28000735
SNP Position Genomic:     23858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66931):
GGTTCCTAGAGTGGCGGAGAGCCTCCAGTGTGACTGCTCCCAGGCCTCCTGTGGGGCTGAGCCCTGCTTGGATAAGAGAAAGTTTTGTTTTCTAAGCTCA
R
TGGTGGGGCTTAGCCCTCTGTGGGGCGAAAGCGGGGGCTGCGCTGGGCTCCTTGTGAGGAGGAGGACGAAGTCCGGCCTGTCCCAGAGCCCGTCAGGCAG
Celera SNP ID:            hCV25622556
SNP Position Genomic:     29123
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,26)   caucasian(G,4)   total(A,4|G,30)
SNP Type:                 INTRON


Context             (SEQ ID NO:66932):
GCTCACTGTGAAGGTCGGCGGCCTCACGGGGAGGAAGAAACAGCTCCCGACGCGCCACCTGTAAGAGCTTATGGCTCACTGTGAAGGTCTGCGGCCTCAC
S
GGGAGGAAGAAACAGCTCCCGACGCGCCACCTGTAAGAGCTCACTGAGAAGGTCTCCGGCTTCACTCCTGAAGTCAGGCAAGACCACGAACCCGCCAGAA
Celera SNP ID:            hCV28000736
SNP Position Genomic:     24258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66933):
TGAAGCTGCCTCCGGGGGCCCTCCAGGGGATGACTGTCTCTAGAACTGTGGTCCTGGTTCCTAGAGTGGCGGAGAGCCTCCAGTGTGACTGCTCCCAGGC
Y
TCCTGTGGGGCTGAGCCCTGCTTGGATAAGAGAAAGTTTTGTTTTCTAAGCTCAGTGGTGGGGCTTAGCCCTCTGTGGGGCGAAAGCGGGGGCTGCGCTG
Celera SNP ID:            hCV25622557
SNP Position Genomic:     29068
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,3)   caucasian(C,2)   total(C,19|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:66934):
GCCGCTGCTGCTGTGAGGGGCGAGCCGATCTGTCCCGTGGGCAGGGCGGGGGCCCCACATCCTCCAGCCAGGGCCATTCTCCAGCCAGCCCCCAGGGGGT
R
ACGCTGCCTGTGCCTTGGCAGGAGCTGAGCCTCCCAGTGGTGGGCTCACAGCTGGTGGGCCTGGTGCCCCTGAAGGCTCTGCTGGATGCGGCCGCCTTCT
Celera SNP ID:            hCV11373285
SNP Position Genomic:     16304
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66935):
GTCCCAGAGCCCGTCAGGCAGAGACCCTCCTTCCGGCAGTTTGCTCAGCCTTGATCCATGTAGGGGCTCCCTGGGGTCCTTGCAGGTGGCGGCCAAAGCC
Y
TGGAGATGGGCGTGTTTGGCGCATATTTCAACGTGCTCATCAACCTGAGGGACATCACAGACGAGGCATTTAAGGACCAGGTGAGCAGGAGGCAGGTGTG
Celera SNP ID:            hCV25622558
SNP Position Genomic:     29303
SNP Source:               Applera
Population(Allele,Count): african american(C,12)   caucasian(C,37|T,1)   total(C,49|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66936):
ACGGCGGCCCTACAGGAGGGTCTGAGGCGGGCAGTCTCTGTGCCGCTGACGCTGGCGGAGACGGTGGCCTCGCTGTGGCCGGCGCTGCAGGAACTGGCCC
R
GTGTGGGAACCTGGCCTGCCGGTCAGACCTCCAGGTAGGGGGGCCCGGGGGACCCCAGGCCTCCTGCCGCAAAGCAGGAAGCAGCTGTTGGGGCTGAGTT
Celera SNP ID:            hCV25622559
SNP Position Genomic:     28084
SNP Source:               Applera
Population(Allele,Count): african american(G,10)   caucasian(A,1|G,35)   total(A,1|G,45)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,2)   total(A,1|G,31)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66937):
TTGCTCCTTTCAGGCGCACGGCGGCCCTACAGGAGGGTCTGAGGCGGGCAGTCTCTGTGCCGCTGACGCTGGCGGAGACGGTGGCCTCGCTGTGGCCGGC
S
CTGCAGGAACTGGCCCGGTGTGGGAACCTGGCCTGCCGGTCAGACCTCCAGGTAGGGGGGCCCGGGGGACCCCAGGCCTCCTGCCGCAAAGCAGGAAGCA
Celera SNP ID:            hCV9520181
SNP Position Genomic:     28067
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,2)   caucasian(C,19|G,17)   total(C,25|G,19)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66938):
AGGCCCCCAGGTCCGGCCTCTCGCCTTCCACAGCCCTGAGGTCCAGGCTCCTCCGGGAACAAACGCAGGCCCTAAGGGCCACCTGGAAGGCCTCCCAGAG
S
GCAGCACCAGGCCACAGGGGTCACCCGCAGGGGTGCAGGGAGGCCTCGTCATGCCGGGATTCCAGCCAGCACCAAGGCCCTGGGACAGGGCAAGATTTGG
Celera SNP ID:            hCV9520182
SNP Position Genomic:     11690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66939):
GGAGGCCTCTCCGGGCTCTGTGGCCCCTCCCTCGCCCATCCCCAGAGGGCAGAGCTGTGACCTCGGTGGGGACACAGCTTGTTCGTGTGGGGCCCGGAGG
R
TAGGTGGGCAGGCAGCGGGGCATCGCCTGGGAATGGAGGCGCTGGCAGGGACAGAAGGCCCCTAGTCCCATGTGACCTCCAGTAAAGTTTTGGCACCAAA
Celera SNP ID:            hCV2811390
SNP Position Genomic:     29743
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)      total(G,1|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 DONOR SPLICE SITE


Context             (SEQ ID NO:66940):
GAGTCCTGGACCCCCTGCCGGTCCAGGCCTGACCGCCGGGCTCTCCTGCAGTTTACCTGTACGGCGAGGCAGCCAGGATGGACAGTCGCCGGACCCTGCC
R
GCCATCCGGGCCGGGGAGTACGAGGCCCTCCCTAAGAAGGTGCCCCCACCCCGGGCGGTCGGGCCTGGGAAGGAGGTGGACCTGCCCCTTTGTCCTGGCT
Celera SNP ID:            hCV25761001
SNP Position Genomic:     14645
SNP Source:               Applera
Population(Allele,Count): african american(G,6)   caucasian(A,2|G,18)   total(A,2|G,24)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66941):
ACGTAACCCCCGTCACGGTCATGCCAGTCCCCCCGAAGGAAATCCCGACGCAGGGCCCACGTCACAGTCACACTGGTGTGCGGGTTCACGAGTTTTTCCT
Y
TTCTCTGCCGTTATATTTATGTGGTTGCTTGCGGTTCTGTTTATCATACAAAGAAAACAGAAGCATGAACGTCCTGCCGTTAGCATGTCCCACATGTTCC
Celera SNP ID:            hCV27979004
SNP Position Genomic:     14246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66942):
TGTGTGCCGCTGTGCTCAGGCTCTCCTCTTGCTCCTTTCAGGCGCACGGCGGCCCTACAGGAGGGTCTGAGGCGGGCAGTCTCTGTGCCGCTGACGCTGG
Y
GGAGACGGTGGCCTCGCTGTGGCCGGCGCTGCAGGAACTGGCCCGGTGTGGGAACCTGGCCTGCCGGTCAGACCTCCAGGTAGGGGGGCCCGGGGGACCC
Celera SNP ID:            hCV25622560
SNP Position Genomic:     28039
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,1)   caucasian(C,36)   total(C,53|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66943):
CAATGCAAAGGTCGACTTTTGAAAAACATAAGGAGATATCTGTACCTTGCACCAAATACATAAGTAATTTCCAGATGGAATAGAAAACTGTATTTCCCCA
Y
CACCAACACAACCAAGCCTCACGATAAATCACAGAAAACAAAACGGACCGGGCGGGCAGGCCTCGGCCGGACGCAGATGAGGCCACCTAAAGCACACCCT
Celera SNP ID:            hCV27979005
SNP Position Genomic:     26597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66944):
TCTGCAGCCTGCTCAGCCCTGTTGGGGTGCAGTGTGTCCACTGCCTGCCTGTGTGTGCCGCTGTGCTCAGGCTCTCCTCTTGCTCCTTTCAGGCGCACGG
Y
GGCCCTACAGGAGGGTCTGAGGCGGGCAGTCTCTGTGCCGCTGACGCTGGCGGAGACGGTGGCCTCGCTGTGGCCGGCGCTGCAGGAACTGGCCCGGTGT
Celera SNP ID:            hCV25622561
SNP Position Genomic:     27988
SNP Source:               Applera
Population(Allele,Count): african american(C,18)   caucasian(C,32|T,4)   total(C,50|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:66945):
GCGTGCTGGGTGTTTGGGAATGACTTCCCATCGCCCGCTTCTGCAGCCTGCTCAGCCCTGTTGGGGTGCAGTGTGTCCACTGCCTGCCTGTGTGTGCCGC
Y
GTGCTCAGGCTCTCCTCTTGCTCCTTTCAGGCGCACGGCGGCCCTACAGGAGGGTCTGAGGCGGGCAGTCTCTGTGCCGCTGACGCTGGCGGAGACGGTG
Celera SNP ID:            hCV25622562
SNP Position Genomic:     27949
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,11)   caucasian(C,16|T,18)   total(C,19|T,29)
SNP Type:                 INTRON


Context             (SEQ ID NO:66946):
ATCTTCTGGACTTTGAGGTCACGGCACTGCACACGGTCTACGAGGAGACCTGCCGAGAAGCACAGGTGAGCCCGGGAGCAGCCGCTGCTGCTGTGAGGGG
Y
GAGCCGATCTGTCCCGTGGGCAGGGCGGGGGCCCCACATCCTCCAGCCAGGGCCATTCTCCAGCCAGCCCCCAGGGGGTGACGCTGCCTGTGCCTTGGCA
Celera SNP ID:            hCV25622563
SNP Position Genomic:     16224
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,37|T,1)   total(C,73|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:66947):
TCACCTTCTTGGATCCCCGGCCACGTCTCTGGCATCTGTCTGTCGGAGCAGAGCCCGTGAGTCTCTCCTGGAGGCACCACCTGCAGCCCCTTGTGGGGAC
Y
GTGCTTGGGCCTGGAGTGACTGTGGCTGCTGTGAGGGTTCCCGGGCGGCCGCTGTGTGCGGGCACTTTCGGTGGGAGCTCAGCTTGTCGGAGAGCCCCCA
Celera SNP ID:            hCV29326679
SNP Position Genomic:     12026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66948):
GGAAGGCCTCCCAGAAGGCAGCACAGGGTCACGAGGGTCACCCGCAGTGGCACAGGGAGGCCTCGTCACGACAGGATTCCAGCCAGGCTGGCCTGATGCT
M
CTGGGGGTCCTCGGCACATGCCCCTTCACCCTGGCATGTGCTTCTTTTCCGGGAACCCACACTCTGGCTGAGTGGAGCCATCCCCTCTGGGTCAACAGCA
Celera SNP ID:            hCV9520194
SNP Position Genomic:     10752
SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,13)   caucasian(A,14|C,16)   total(A,27|C,29)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,16|C,20)   caucasian(A,18|C,22)   total(A,34|C,42)
SNP Type:                 UTR 5

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:66949):
ACATAGGAACAATTTTATGTTTAGAAATTTAAAATAAGGTGAATAATTAAAAAACAAGTAGGAAAAGTACATAGATGAAAATGTAATCAAGGGACAGGAA
R
GAAACAAGACGTGTGGTTTAGAGAACCATGAGCGGGGACAGTGAGACTGTGCTAGGCATCAGTGGTCGAAATCAGTGGATTGGTTTACGCTCCCTGTGAG
Celera SNP ID:            hCV2952811
SNP Position Genomic:     25544
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66950):
CAGGAGTGACGGTGCGGGAGGCCTCTCCGGGCTCTGTGGCCCCTCCCTCGCCCATCCCCAGAGGGCAGAGCTGTGACCTCGGTGGGGACACAGCTTGTTC
R
TGTGGGGCCCGGAGGGTAGGTGGGCAGGCAGCGGGGCATCGCCTGGGAATGGAGGCGCTGGCAGGGACAGAAGGCCCCTAGTCCCATGTGACCTCCAGTA
Celera SNP ID:            hCV11958104
SNP Position Genomic:     29727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66951):
TGTGGACGCAGGCCCTTCCACCAACCGCACCGTGTACACCTTCGTGGGGCCGCCGGAGTGCGTGGTGGAGGGGGCCCTCAACGCTGCCCGGGTAGCTTCC
Y
GACTTATCGACATGAGCAGGCACCAAGGTGAGGTCTCTGGGCTCTCCTGTGGCTGCCGTGTCTCAGAATGTCAGGGCCGAGCCCTGTCCTGGTGTCCTGG
Celera SNP ID:            hCV29326680
SNP Position Genomic:     12400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:66952):
GAGGGGGTAGGCCCGGGGCCCAGGCTTGGAACGTGGGGTCCAGTGGGGCTGGCTCTGGCTCTCCTAGGAGGACCCTGGAGTGTGGGGGTCATGGCCCCCA
K
CCTGCCTGCAGGGCTGTGCTCTGGGGGACCCCCAGGTCGCCACGCTCCCACAGCACCGGGCCACCTTCACGGCTGGGTGGGGGGAGGGGGCCACGCCGGG
Celera SNP ID:            hCV29326681
SNP Position Genomic:     12603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66953):
TGGGGCTGGCTCTGGCTCTCCTAGGAGGACCCTGGAGTGTGGGGGTCATGGCCCCCAGCCTGCCTGCAGGGCTGTGCTCTGGGGGACCCCCAGGTCGCCA
Y
GCTCCCACAGCACCGGGCCACCTTCACGGCTGGGTGGGGGGAGGGGGCCACGCCGGGGAAGGTTTGTGGGCCCCGTCCACCTGCCCACTCGTCAAGGGGG
Celera SNP ID:            hCV29326682
SNP Position Genomic:     12646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66954):
GGGCCCTGAGGGAACTACCTGCTTCTCACATCCCCGGGTCTCTGACCATCTGCTGTGTGCCCCGACCCCCCCTACCCTGCTCCTCCACCAAGCCTGATGC
Y
AAGGGCTATAAACCACTGGCCCAACAGAAGCTTGGTTCCCAGAGAACTGGTCCCTGCCTGGGACATGCTCCTTGCTACAGCCCCTTGTGGGAGCTCAGAG
Celera SNP ID:            hCV11958107
SNP Position Genomic:     27546
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,4)   total(C,6|T,4)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,2)   caucasian(C,8|T,8)   total(C,10|T,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66955):
CCACGCCGGGGAAGGTTTGTGGGCCCCGTCCACCTGCCCACTCGTCAAGGGGGCTGAGAGCCAGTCTTGGAGCAGGCACTGGTGGGGGAAGGGCTGCCTG
R
AAGCTGACCTGTCAACAGCCCACAAGCCAAACACCTCGGTGGGCAGGCAGGGCCAAAGGTGTGTGGACACACGGGCGCTGGCCAGGGGCTGGGCTGTGGG
Celera SNP ID:            hCV29326683
SNP Position Genomic:     12794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66956):
AGTGATCCTGAGGGGTGGACGGATGAGAAGCTTATCTCTAAGTGGCCAGCCCTGGGCGGTGGCGGCAAAGGCGGGGGAGGCTGGCGTCCCCTGGGGTGGG
Y
GCCGACCCACGGCTTGGTGTAGCCACAGCGAGGGACTCAGCTAGTGAGAAGAATGCTCTGGAAACGCAGAGTGGATTCTCGGCTTCAGGGGAGGGGGTTG
Celera SNP ID:            hCV29326684
SNP Position Genomic:     13021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66957):
CTGGGGCCCCACCCCTCAGCATTCCCCCAACATCTAGGACACAGCGTGGCTGGAAGGCAGGGCCTAGGCTGGGCGGGGGCCTGCCGGGGTGGGCCTCCGG
Y
GTCTGACCCTTGGGGCCTCCGTTTCCCTGTGGCAAGCGAAGTTTCTCTGGCCCTCCCCGGCCAGCTCAGTGAGGGACGGAGGAGAACCACAGCACCCACC
Celera SNP ID:            hCV29326685
SNP Position Genomic:     15838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66958):
CTGGGTGTTTGGGAATGACTTCCCATCGCCCGCTTCTGCAGCCTGCTCAGCCCTGTTGGGGTGCAGTGTGTCCACTGCCTGCCTGTGTGTGCCGCTGTGC
Y
CAGGCTCTCCTCTTGCTCCTTTCAGGCGCACGGCGGCCCTACAGGAGGGTCTGAGGCGGGCAGTCTCTGTGCCGCTGACGCTGGCGGAGACGGTGGCCTC
Celera SNP ID:            hCV22272265
SNP Position Genomic:     27954
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,23)   caucasian(T,2)   total(C,7|T,25)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,8)   caucasian(C,16|T,18)   total(C,22|T,26)
SNP Type:                 INTRON


Context             (SEQ ID NO:66959):
TGTCTGACCCTTGGGGCCTCCGTTTCCCTGTGGCAAGCGAAGTTTCTCTGGCCCTCCCCGGCCAGCTCAGTGAGGGACGGAGGAGAACCACAGCACCCAC
S
CAGGCACAGGCTCCTCCCCGTCCAGCTGGGGAATGCAAGTGCCAGGAGAGACTGGCAGGGCCAGGCAGGATGAGCTTCCTAGTCCAGGCTGGGGAACGCT
Celera SNP ID:            hCV29326686
SNP Position Genomic:     15938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66960):
AGGCCTTTAAAATGCCCGGCATCTTCCTGGGGTTTTCTGCGGAAGGAGGCTTTGCCTTGTGGCTTGCTGGTTCTATGCCACGGGGAGGCACTCTCCACCC
Y
GCCCGGCTGCTGTCCGTCTCTGTGGGGTGGGGTGGGGGTCGCATAGCCAACGTGTTCTGAATGGGTTTCCCAGAATGAATTCTAATCTTAAATGGGACTG
Celera SNP ID:            hCV29326687
SNP Position Genomic:     19662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66961):
TGTGTGGACTGGGGGCTGCCCAGGCCGGAGAGGACAGAGGGTCCGAGAACCCCGTGGAGCTCCCACCCGCTCCCACACCTGGCCTCCTGCCCGGCCTCGC
Y
GTCTCTCTGCAGGAGAGCACCCCCGCATGGGGGCCCTAGACGTCTGCCCCTTCATCCCCGTGAGGGGCGTCAGCGTGGATGAGTGTGTGCTCTGCGCCCA
Celera SNP ID:            hCV22272193
SNP Position Genomic:     13528
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,15|T,1)   total(C,44|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:66962):
GGGGCAGTGGTGCTGGGGGGCGGCGAAGCATGAGCAGCAGTTTGCTGAGGGGTCCCCAGGGGGCAACTCCTTTCTCTGGGCCTCAGGTTCCCCAAGGGCA
M
CTCAGGGTGATGGCTGTTTCCAGAAGCCTGTACGGGGTGCCTGCTGGGGCGGGGCCCACAGGGCTCCTGGCGGGGCAGAGGTGGGGGGTGCCAGCCACGC
Celera SNP ID:            hCV29326688
SNP Position Genomic:     20009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66963):
AGTTTGAGGCTGCAGTGAGTCGTGATTGCACCACTGCACTCTAGCCTGGGCAACAGAACGACACCCTGTCTCTAATGTAAACATATGTATATAAAACATA
R
GAACAATTTTATGTTTAGAAATTTAAAATAAGGTGAATAATTAAAAAACAAGTAGGAAAAGTACATAGATGAAAATGTAATCAAGGGACAGGAAGGAAAC
Celera SNP ID:            hCV3270796
SNP Position Genomic:     25449
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,2)      total(G,2|A,1) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66964):
GCTGGGGGGCGGCGAAGCATGAGCAGCAGTTTGCTGAGGGGTCCCCAGGGGGCAACTCCTTTCTCTGGGCCTCAGGTTCCCCAAGGGCAACTCAGGGTGA
Y
GGCTGTTTCCAGAAGCCTGTACGGGGTGCCTGCTGGGGCGGGGCCCACAGGGCTCCTGGCGGGGCAGAGGTGGGGGGTGCCAGCCACGCCCCTGCCCTGC
Celera SNP ID:            hCV29326689
SNP Position Genomic:     20020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 430
Celera Gene:                 hCG40497 - 104000117293901
Gene Symbol:                 THPO
Protein Name:                thrombopoietin (myeloproliferative leukemia virus oncogene ligand, megakaryocyte growth and development factor);MGDF;MKCSF;MPLLG;TPO
Celera Genomic Axis:         GA_x5YUV32VYQG(11214091..11235160)
Chromosome:                  Chr3
OMIM number:                 600044
OMIM Information:            THROMBOPOIETIN;THPO


Genomic Sequence (SEQ ID NO:12590):
CCTGCACCGGGTGTGGGCAGCTGGGCGGTGGGCACACCACCGGGTCACAGATCACCGTTCGTCTCTGCAGAGAGGAGCAGAGGCATTGACGGGAGTGTCC
AGGCCCCTTGCTCCAGATCCCAGGACCCAGTGTGCCCTTCCAGGACCTCCTACCTGGCAGGTGCAGAGTGAGCAGAGCGGGTCGTAGTTGGGCGCCCAGC
GAGCCCCGTGGGGGCGCTGCTGCCCCTCGAAGAAGCATGTGTTGGGGTCTCGGGGCCGCCCAGGACCACCAGGTTTGGCGGGCGCTAGGGCCGGGAGACC
AGGCACCACAGGCGGCGCAGCAGAGGCTGTATCCGGAGCCCCCAGCGCCCGCACCCCCTCGGCCCCGGCCGCCTCCAGGCGCAGTCCGCCAACCTCACAT
TGGTTGGCTATGTGCACCTGGGAGGAGAGGCCAACTGAGGCAGCGCTGGGGCTCCCCCTCGCGTCTTTACCAGCGGCAGCTGGCCAGCCAGCAGGAGACA
CCTCGGCCCCCTGAGCGCTGCAGTGGCCCAGGAGGATGCCATTCGCTCCACAATCATCTCAGCTGCCAGGGATAGGGTGCCGGGCTGCCAGCCTCCTCAT
GTAGCTCATCCTCCCCACCAGCCGGGGGGGCGCTGTGATACGACCACCCCCAGGACTCAGAGACAGCAAGTGACTAGTGCAATGGCACACAGTGCCCCTC
CAACTCTGCACCCTCCCCACTGCCCCCACTGCCCACACTCGCCACCTACCTGCCCTCGGAGCTCCCCTCTGGGGCTACCCTTGGTGGTGATCATCAGGGA
GGCCATGCCTTTTGCCAGGTGCCGCAGCAGTTCCGGCTCCAGGTCCTTCACCACACCCTGGGCCTGCACATAGACAGGACAATGGATAGGAATAAGGCAC
TTTAGGGCTGAGCCTACTGTCCCCAGTTCACAGATGAAGAAACTGAGAGCCAGGGAGGTTAAATAAAGTCTTCATGGTAGCAAAGCCCATTGGCAATAGT
GTGGAGCTTGGAAGCCAGGTCTCTCTGACCAAGTCCATGAGAACTCACCCCACTTGAAGGGCTTAGTCCATCCCACCTACCCCCCTGAGGTCCAGGATAT
TACATACTATCCAAGACACCCCACCAAAAAAAGACTTAGAAAGGAGAATGAATAATAAAAAGCCAGTCAGAGTCATGCCCAGGTCTATCTGACTCCCAAG
CCCATGCCAGCTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGATTTTTGCTCTTTCTGTCCAGGCTGGAGTGCAATGGCGCCATCTCGGCTCACT
GCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTGGAGTAGCTGGGATTATAGGCATGTGCCACCACGCCCAGCTAATTTTGTATTT
TTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTAGTCTTGAGCTTCCTACCTCAGGTGATCCACCCACCTGGCCTCCCAAAGTGCTGGGATTACAGG
CTTGAGCCACTGCACCCAGCCTACAAATCACTGTTTAATTTATTTTATTTATGCCAGCTCTTCTATACCAGGCTGCCTGCTCTCTGCTTTCCCCAACACA
GGCCCACACAGCCCTTCAAGCTAAAAAACAGAAATGTTCCAAGCTGCCGCCTACCATCACATCCTTACCTCTGAGCCATAGAATCCCTTCAGCAGCCGCC
GAGGCCCTGGCGTTCCAGGAGGCCCAAGGAGGTGGGCAGTGACAGTGCCTTGTTCTGAGCCACCAAGCCCAGCCAGCAGCACTTCATAGTGCAGGTGACA
GTGGGTATCCAAGGAAAGCCAGGCGTGCCCTGCTGCTTGGCTCTTCACAGGGGGTAGCACCAGGGCTCCTGCTAGGGGCACGGGCAGCGCTGGGTCCAGA
CAGAGGAGAGATGACAGGTGAGAAGGTGGCCTAGGGCAAGCCCTCAAACCCAGCATTCCCAGCTCCCCAGCACACATTCCACGAGCTGGAAGACACTGTC
CATAGGTCCAGGGCCTGGAGAGCAGCAAGTTTTAGACCCTTGAACCTCAGCAACAGGAAGAGTCCGCCAGCAGGGCCACCCTATATGTCCCCACCTTCAG
ATGGCAACCGGAGCTTAGGCACAAAGAAAGACACACCAGGCTCCGGCTGTCTGCCACCATCCCTCAAATGTTCTAGGAAACCAAAGGGCAGACAGACCCC
TAAGGACACTCACTGTCATGGCGGGCGCTATGCCCACAGTAGGGCAGGGCAGCCACGTGCCCCCGAAGCTCTCCGTCTGGGAAGTCCTTGGTGCCCACGT
TCAGGAAGAGCTCATTCTGCAGCAGCATATGAGCCCCTCGGGCACCCAGCCCAGGGCAGATACCCACGGCCTGGGGGCAGGGGAGGATAGGCCTTCTCAG
CTCTCACACGAGTCCAAGGTTCTGAAGTCTTGGACCATTTTGTGCCCCCACTCCACCCACACACACTTCCACACACCAGAAACACAGGATAAGGACCTGG
CAGGCCCAGTTTCAAGGCCCTCCCCTGCTGCTTCCTAGCTATGTAACAACCTTCAAGAGTAACTTAACTTCTCCAAGTCTTCACTTCCTCATCTCTCAAA
TGGATACTGTGAAAGCCAAAAACTATGTAAGGCCACCAATGCAGCACCTAGCACATGGAAAGGCCCTATAAGTAGCAACCATTGCCATTACATTTACTAA
TATGTGGCCTGTGGCACTGTTCTCCAGGTCCAATGCTCCCATTTGACTGTGAGCTTGCTAAGCACAGGGGCCACATATGATTTGCTTTGTACTCTAGTCC
CTAGTCTGGGGCTCACTAAAAATGTCAAATCATGCCGGGCACGGTGGCTCTCGCCTGTAATCCCAGCACTTTGGGAGGCCGAAGTGGGCGGACCATGAGG
TCAAGAGATCAAGACCATCCTGGCCAACACGGTGAAACCCCGTCTCTACTAAAAATACAGAAATTAGCTGGGTGTGGTGGTGCACACCTGTGGTCCCAGC
TACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTAAGCCAAGATCACACCACTGCACTCCAGCCTGGTGACAGAGCCA
GACTCCATCTCAAAAAAAAAAAAAAAAAAAAGTCAAATGAATAAATGAATGAGTGGGAGAACCCATGAGTGAGTGGATGATAATGAACATCCCTGCTCAT
CCAACCTGGCTTCCCACAGCCCATGCATTGGGCCCTGGGGTCCAGCTCCACCTGGAGCCCTCACCGTGTGTCCTCCTGGCTGGAGTCCAGCCATGTGGCA
CAGGACAGTGCGCTGATCCCTCCGCTGAGGCTTGGTCTCCAGTGTCATGGCCACCACCTCACTGCTTGTCCCTACCACTTGCACCTGATGGGCAGGGATG
GAGGAGGGCAAAGTGGAGAGGCAGTAAAGGCCTGGGGCCTGCTGCCCACGCCACCCCTCCCCCACCTTCTGCAGCCCCTGGCTCTTACCTGATAGATCAG
GGAGCCATTTCCTAGCAGCGTGAGGCTGGCTGAGCCGGCAGCACCCGTCTGGACTGGGATCAGGGCATCAGCCCCACAAAGGACACTTTGCAGGACTACG
GAGGGGCAAGACAGGTGAGGCTAGGTTTACCCCATGGCCGCTTACACCCCCAGTCCACAGGATCTCTCCCACACCCACCCTGGCACTTGTCTGTGTCTCT
CAGTTGTGCATGCCCGGCGCACCAGGCCCCCCCCCCGCCTCACCGTCGCAGCTCTTCCTGGCAGCAATGTGTCCACTGATGCGCAGCCCTGGCCTGCCTG
CCCACTCCAGGGCCATCTGCAGCTCCCCCAGCACCAGCCAGTCCATCTCCTGGACTGTCAGGTTGGGCAGCACCTCAGCAAAGCCTGGTTCCTGGGGACA
GAGCAGGGTGTGATGGGCAATAGCAAGAGGCCAAGACAGGTGGCAGCGAGAGCCAGATCCCCACTCACCTGGGCTGAGACATTGGCCTGAAGTTCTCGCA
GTAGCTGCCCCTGGTGTAGAATCTGGAGCCTCAAGGGAACCTGGGTTAGTCCTGCAAGGCCGCACATGTGGGCCTTTCTGAGACAGGTGCTCTCCCTAAC
CTTCTCACGTGTTTTGCCCCCATCCCACTTACCCCCACTCCTGGGTTCCAGCAGCCCTCGGAAGAGCAGCAAAAAATGCAAGGAGTCCTCTGTGTCACTG
AGAGTGAGCAGGGTGATGCCCCCTACGCCCTGCTGTGGGGGGCCTTCTAGAGTCAGGATGGCACTGAAGGTCTCTGGGGAAGGGACGATGATGAGAGCCC
GTCAGAAACCCTCCCCCCCTTTCCTGGGTGATAGAGAAGACTCAGAACTTCACGCCCGGGGCTCTTTGCTCCCTACCTGCAGCCAGGGCCCGGTGCCGGA
TGAGAGGCCCCCAGACCTCCCCTGAAGGGTGAGTGAGTGTCACAAGTGCCACATGCAGCTGTTCTGCCCTAAGGAGCCGCAGAGACAACCGAGGCACTGC
CCGCCACACCCCACAGACCTGGAGCAGAGAGACAAGAAGGCCCTACGCTCAGACACTGTGCAGGCTAGGCCAATTAGGATGCCCAGGCAGGGCTTATGAA
AAAGGAACATGGAAAGGAACCTCCAGGGTGCCCTAGGAAGCTTAAGAAAGAACGCTGGAGCCAGATGCTTGGGTTCCAATCCTGGCTGCACCACTTACTA
GCTGTGTGACCTTGAACAAATCACATTATCCTACTGAGCCTCAGTTCCCCCTTCTGTAAAATGGGCATCATAATGTCAGTGCCTTCCTCCCACTGGGCTG
TGGTGAGGACCACGGGAGGCAATGCAGAGCATGCTCTCGGCACAGTGCCCAGACTGGGCAAGTGCTCATAAATGGCATCATCTCACCAGGCCATCTTGGG
TGGGGGCTGCAGGGTGCTCAAACAGGACACTGCCATTGGAGTCTGAGAAGCGGATCCTGGTAGGGCGGTCCAGCCTGGGAATGAGAGGTCGGGTGAGGCC
GGACTGAGCCAAAAGCAGCCCCTCCCAGCTCTCCCAGTTTCCCTCCCGGGCCCCGGCAGCTGACCCCTCCTTGCTCCTTCCCCTTTCTCACCGCCTGTAG
GAGATAGAGAAGCGGAGGCTAGAGCGCAGCAGCGAGACTCGGGCTCGTGCCACCGCCTGCGACCTCGGCCCTGTCAGCAGCGCCACGAAGTCTGGGACGG
GAGGAAGATGGCCTGAGCACTGTCAAACGCCGCTTTGGTGGCCCAGCCTCAACCACAACCCCGCTGTTCGCCAGCCCCCTACCCGTGTGGCCGTCACCAC
GGGCCCGCTCCTCAGCGCCTGGCTCCCCGCGGTCGCTATAACTGCGATGCTCCGGGTCCCGCGGATACTCGAAGGACAGGCCGCTCGGCTGCCGCTCCGA
ACTGCTGCGCTCTGCGGGCGGGGGGGTAAGAACACGGGCTTCAGCTGGCCATGGGAAAGGCCAGTCCGACGCCCCATCCAAGTGGCCCGGGACCTAGTAT
CGTGGCCCTGCCTCCCTCCCCGCAGGGCGGAGCAAGACTTACCCTGGGGGCAGGTCTGGCAGCAGTGTCCCGGCAGCTGGCGCGGCTGCCCACAGGCCGG
GGTTGGGCACTCTGGTTTGATGTTCTTGCAGCTGACCCTGCCAGGGCCCCTGGTACGGCGACCCCACTGAGGCTGCTCCCGGAAAAGGCGGGAAACCCAA
GTGAGTGCAAGATGCCAACTGATGAGACCCCCCCAGGCAAGGATGTCCCGCAGAGTCAGCCAGCTCTGCCACTTACAAGCTGCGTGACCCTAGACAAGCT
ACTTCATCTCTCTGGGCCTCAAGGTCCCTGTCTGGAAAATGGGGATAATAATACTCTCTATCTAGCAAGGCTGCCATGAGAGTTAGATGAGCAGGGAACG
AAACGGAGTTGGCACAGAGCCTCACACAGAGTGGGCGATCAGTAACAGCACCTAAGAATTGGAGGGGCTGATTCCCCTTCCTCCACCAGAAAAATATCCC
CAACATCTGCCGACTGGGCTCCTTCTCAGCAGCTCCGAGTCCACTCCRACGCCCGCGCGACCCGGCGCTCCCCACCCGCCAGGGCCCGGGCCGGCCGCGG
GGTGCACTCACCGCCTCGCAGGCGCACAGCACGCAGCGCATCACCCCGAATGGCTCCCCTAGGTCCGGGTGCCACGTCTCGTCCAAGGCATAGACCTTCC
CGCCGAAGGTGCAGCCTGCGGGGACGGGCTTGGCTGGAGGCCGCTGCCCAGCTCGCGCCGTGTGCCGCCCCGGGGGCTGCCCGCGGGTCCCGGGTCCCAG
GCACCGCGCCCTTCTGCCCCCGCCCACCCTCCGGGCCGCCCGCCGCGCCGAGCCACCTGCGCCCCGCGCCCCCTCCGGGCTGGCGCTGACTCGCCCCGAG
CCCGACTCCCCGCCCGCGCCTCCCCCGGGCGCCCACCTACCTGCCGCTCCCCGAACGGGCAGCGGCTCCTTCTCAGAACGGATGGGCAGCACGGGGGGCT
CKGGGCCGGCGCCGCGGGCCGGCCGGGAGCCGAGCAGCAGCAGCCCGAGGAGCAGCAGCGGGGCCGGCGGGGCCGGGAGGCTCGGCATGACGCGAACGGG
ACAGCTGGGGAGGAGGGAGGGAGGAGGGCGCGGGAGCGGGCGGAGGGAGGGAGGCGGGAGTGCGGAGGGCGGAGGGCCGGGCCGGGGGCGGTGCGGCGGG
AGGGGGCCGGGGCCGGGGCCGGGGCCGGGGCAGTGCCGCGAGGGGCTCGTCGGGCGGCCGCAGAGTCGGCGCCGGCCCGGGCGGGGCGGGAGGAGCGGCC
GGGAGGAGCGCGGGCGGGCCTCAAATGCGCGTCAGTTTCCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNGGGCTGGGACCGGGCAGGGGAGGAGGGAGGGGCGGGAGGGGAAGGGGGAGCGGGGGAGGGGGAGGGGAGGGACCAGGGGGCGCGAAGA
GGGGGAGGAGAGGCGGGCCCGGAGCCCCCCGCTGCTGGCGGCCACAGGGCGGCTGGACCAGGAGGTCGGTGTCCAGCCCAGGAAGGGAGCCTCAGGCTAG
GGAGGGGCAGAGGCTAGGCCTGAGGCCTGGACCGCTCTGTGAGCGAGGACCCGGTTCCGCCCGAAGGATGAAGACTTGTCTTTAAAGATGACAACGTACA
GGAAAGGTCCATCAGCCGATCTCCCCCTGCCTGGGCCCACAGCGCCCCCCAAACCCTCACCACCCTCTCTCACTGCCTAGCCTGCCTCCCTACCTTCTCT
CTGAGGTCGCTCCTCATTCTTGTGTTACCCAGGACAGGGACCTAGCCAGAAACCGGCAGCATTCCCCCTTCTGTGGAGTGACAGTATCTCCCTCTCATTG
TAACTTATCCTCAGGCGCATTCGACAGTCCCCTCTTGCTTTCTCACCCCCTTCCTTCACCCAAGGGACCCTCTGCCTCTCCAGCCCACTCCCAGCCTCCY
TTCTCTTGGTTCCCTGGTCATGCCTGCCTCCCTGTCTCCTGTCTCTCCCTCCCACACACACCCACTATCCTCCCAGCTATCCCAGCACCCTCCTTCCTAA
TCTTGGGAGACATCTCGTCTGGCTGGACGGGAAAATTCCAGGATCTAGGCCACACTTCTCAGCAGACATGCCCATCCTTGGGGAGGAGGAACAGGAGAGA
GCCTGAGGAAGTTCTGGGGGACAGGGGGATGATGGGATCAAGGTCAGGCCAGGAAGCCCCTGAGGACAGAGACTGTGGGGAGACTGGGACTGGGAAGAAA
GCAAAGGAGCTAGAGCCAGGGCCAAAGGAAAAGGGGGGCCAGCAGGGAGGTATTTGCGGGGGAGGTCCAGCAGCTGTCTTTCCTAAGACAGGGACACATG
GGCCTGGTTATTCCTCTTGTCACATGTGGAACGGTAGGAGATGGAAGACGGAGACAGAACAAGCAAAGGAGGGCCCTGGGCACAGAGGTCTGTGTGTGTA
GCCATCYAAGCCACTGGACCCCAGCAGACGAGCACCTAAGCTCAGGCTTAACCCAGTGCACGTGTGCGCACATACATGTGCCCCGCACCTGACAGTCCAC
TCAACCCGTCCAAACCCTTTCCCCATAACACCAACCCATAACAGGAGATTTCTCTCATGTGGGCAATATCCGTGTTCCCACTTCGAAAGGGGGAATGACA
AGATAGGACTCCCTAGGGGATTACAGAAAGAAAAGCAGGAAAGCAAGCATCCTGTTGGATTTCAGCAGCAGGTATGATGTCCAGGGAAAAGAAATTTGGA
TAGCCAGGGAGTGAAAACCCCACCAATCTTAAACAAGACCTCTGTGCTTCTTCCCCAGCAACACAAATGTCCTGCCAGATTCCTCCTGGAAAAAAACTTC
TGCTCCTGTCCCCCTCCAGGTCCCAGGTTGCCCATGTCCAGGAAAAGATGGATCCCCCTATCCAAATCTTCTCCGTGGTGTGTGTGGGTGGAGGAGTGGA
CCCTGGTCCAGGCAGGGGCTCCAGGGAAGAGAAGGCGTCACTTCCGGGGGCCTTCACCAGTGTCTGGTGGCTCCCTTCTCTGATTGGGCAGAAGTGGCCC
AGGCAGGCGTATGACCTGCTGCTGTGGAGGGGCTGTGCCCCACCGCCACATGTCTTCCTACCCATCTGCTCCCCAGAGGGCTGCCTGCTGTGCACTTGGG
TCCTGGAGCCCTTCTCCACCCGGTGAGTGGCCAGCAGGGTGTGGGGTTATGTGAGGGTAGAAAGGACAGCAAAGAGAAATGGGCTCCCAGCTGGGGGAGG
GGCAGGCAAACTGGAACCTACAGGCACTGACCTTTGTCGAGAAGAGTGTAGCCTTCCCAGAATGGGAGGAGCAGGGCAGAGCAGGGGTAGGGGGTGGGGT
GCTGGTTTCTGAGGGACTGATCACTTACTTGGTGGAATACAGCACAGCCCTGGCTGGCCCTAAGGAAAGGGGACATGAGCCCAGGGAGAAAATAAGAGAG
GGAGCTGCACTTAGGGCTTAGCAAACACAGTAGTAAGATGGACACAGCCCCAATCCCCATTCTTAGCTGGTCATTCCTCGTTAGCTTAAGGTTCTGAATC
TGGTGCTGGGGAAGCTGGGCCAGGCAAGCCAGGGCGCAAGGAGAGGGTAATGGGAGGAGGGCCCACTCATGTTGACAGACCTACAGGAAATCCCAATATT
GAATCAGGTGCAAGCCTCTTTGCACAACTTGTGAAAGGAGGAGGAAGCCATGTGGGGGGTCCTGTGAAGGAACCGGAAGGGGTTCTGCCAAGGGGGCAGG
GAGGCAGGTGTGAGCTATGAGACAGATATGTTAGTGGGCGCCTAAGACAAGGTAAGCCCCTAAGGTGGGCATCACCCAGCAGGTGCCCGTTCCTGGGCAG
CTGGTCTCAGGAAGGAAGTCCCAGAACTGTTAGCCCATCTCTTGGCCTCAGATAATGGAGTATTTCAGGACTTGGAGTCCARAGAAAAGCTCCAGTGGCT
TTATGTGTGGGGGTAGATAGGGAAAGAATAGAGGTTAATTTCTCCCATACCGCCTTTTAATCCTGACCTCTAGTGGTCCCAGTTACAGCTTTGTGCAGTT
CCCCTCCCCAGCCCCACTCCCCACCGCAGAAGTTACCCCTCAACATATTGCGCCCGTTTGCCAGTTCCTCACCCAGGCCCTGCATCCCATTTTCCACTCT
CTTCTCCAGGCTGAAGCCACAATACTTTCCTTCTCTATCCCCATCCCAGATTTTCTCTGACCTAACAACCAAGGTTGCTCAGAATTTAAGGCTAATTAAG
ATATGTGTGTATACATATCATGTCCTGCTGCTCTCAGCAGGGGTAGGTGGCACCAAATCCATGTCCGATTCACTGAGGAGTCCTGACAAAAAGGAGACAC
CATATGCTTTCTTGCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTTTTTTTTGAGACGGAGTTTCACTCTTATTGCCCAGGCTGGAGTGCAATGGTGCGAT
CTCGGCTCACCACAACCTCCGCCTCCCAGGTACAAGCGATTCTCCTGTCTCAGCCTCCCAAGTAGCTTGGATTACAGGCATGAACCACCACACCCTGCTA
GTTTTTTTGTATTTCGTAGAGCCGGGGTTTCACCATGTTAGTGAGGCTGGTGGCGAACTCCTGACCTCAGGTGATCCACCCGCCTTGGACTCCCAAAGTG
CTGGGATTACAGGCATGAGCCACTGCACCCGGCACACCATATGCTTTCATCACAAGAAAATGTGAGAGAATTCAGGGCTTTGGCAGTTCCAGGCTGGTCA
GCATCTCAAGCCCTCCCCAGCATCTGTTCACCCTGCCAGGCAGTCTCTTCCTAGAAACTTGGTTAAATGTTCACTCTTCTTGCTACTTTCAGGATAGATT
CYTCACCCTTGGCCCGCCTTTGCCCCACCCTACTCTGCCCAGAAGTGCAAGAGCCTAAGCCGCCTCCATGGCCCCAGGAAGGATTCAGGGGAGAGGCCCC
AAACAGGGAGCCACGCCAGCCAGACACCCCGGCCAGAATGGAGCTGACTGGTGAGAACACACCTGAGGGGCTAGGGCCATATGGAAACATGACAGAAGGG
GAGAGAGAAAGGAGACACGCYGCAGGGGGCAGGAAGCTGGGGGAACCCATTCTCCCAAAAATAAGGGGTCTGAGGGGTGGATTCCCTGGGTTTCAGGTCT
GGGTCCTGAATGGGAATTCCTGGAATACCAGCTGACAATGATTTCCTCCTCATCTTTCAACCTCACCTCTCCTCATCTAAGAATTGCTCCTCGTGGTCAT
GCTTCTCCTAACTGCAAGGCTAACGCTGTCCAGCCCGGCTCCTCCTGCTTGTGACCTCCGAGTCCTCAGTAAACTGCTTCGTGACTCCCATGTCCTTCAC
AGCAGACTGGTGAGAACTCCCAACATTATCCCCTTTATCCGCGTAACTGGTAAGACACCCATACTCCCAGGAAGACACCATCACTTCCTCTAACTCCTTG
ACCCAATGACTATTCTTCCCATATTGTCCCCACCTACTGATCACACTCTCTGACAAGRATTATTCTTCACAATACAGCCCGCATTTAAAAGCTCTCGTCT
AGAGATAGTACTCATGGAGGACTAGCCTGCTTATTAGGCTACCATAGCTCTCTCTATTTCAGCTCCCTTCTCCCCCCACCAATCTTTTTCAACAGAGCCA
GTGCCCAGAGGTTCACCCTTTGCCTACACCTGTCCTGCTGCCTGCTGTGGACTTTAGCTTGGGAGAATGGAAAACCCAGATGGTAAGAAAGCCATCCCTA
ACCTTGGCTTCCCTAAGTCCTGTCTTCAGTTTCCCACTGCTTCCCATGGATTCTCCAACATTCTTGAGCTTTTTAAAAATATCTCACCTTCAGCTTGGCC
ACCCTAACCCAATCTACATTCACCTATGATGATAGCCTGTGGATAAGATGATGGCTTGCAGGTCCAATATGTGAATAGATTTGMAGCTGAACACCATGAA
AAGCTGGAGAGAAATCGCTCATGGCCATGCCTTTGACCTATTCCYGTTCAGTCTTCTTAAATTGGCATGAAGAAGCAAGACTCATATGTCATCCACAGAT
GACACAAAGCTGGGAAGTACCACTAAAATAACAAAAGACTGAATCAAGATTCAAATCACTGAAAGACTAGGTCAAAAACAAGGTGAAACAACAGAGATAT
AAACTTCTACATGTGGGCCGGGGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGGCAGGAGTTTGAGAGCAGCCT
GGCCAACATGGCGAAACCCCGTCTCTACTAAGAATACAAAATTAGCCGGGCATGGTAGTGCATGCCTGTAATCCCAGCTACTTGGAAGGCTGAAGCAGGA
GAATCCCTTGAACCCAGGAGGTGGAGGTTGTAGTGAGCTGAGATCATGCCAATGCACTCCAGCCTGGGTGACAAGAGCAAAACTCCGTCTCAAAAAGAAA
AAAAAATTCTACATGTGTAAATTAATGAGTAAAGTCCTATTCCAGCTTTCAGGCCACAATGCCCTGCTTCCATCATTTAAGCCTCTGGCCCTAGCACTTC
CTACGAAAAGGATCTGAGAGAATTAAATTGCCCCCAAACTTACCATGTAACATTACTGAAGCTGCTATTCTTAAAGCTAGTAATTCTTGTCTGTTTGATG
TTTAGCATCCCCATTGTGGAAATGCTCGTACAGAACTCTATTCCGAGTGGACTACACTTAAATATACTGGCCTGAACACCGGACATCCCCCTGAAGACAT
ATGCTAATTTATTAAGAGGGACCATATTAAACTAACATGTGTCTAGAAAGCAGCAGCCTGAACAGAAAGAGACTAGAAGCATGTTTTATGGGCAATAGTT
TAAAAAACTAAAATCTATCCTCAAGAACCCTAGCGTCCCTTCTTCCTTCAGGACTGAGTCAGGGAAGAAGGGCAGTTCCKATGGGTCCCTTCTAGTCCTT
TCTTTTCATCCTTATGATCATTATGGTAGAGTCTCATACCTACATTTAGTTTATTTATTATTATTATTTGAGACGGAGTCTCACTCTATCCCCCAGGCTG
GAGTGCAGTGGCATGATCTCAACTCACTGCAACCTCAGCCTCCCGGATTCAAGCGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGTGCCC
ACCACCATGCCCAGCTAATTTTTGTATTTTTGGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGATCTTGAACTCCTGACCTCAGGTGATCCACCTGC
CTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCAGCCTTCATTCAGTTTAAAAATCAAATGATCCTAAGGTTTTGCAGCAGAAAGA
GTAAATTTGCAGCACTAGAACCAAGAGGTAAAAGCTGTAACAGGGCAGATTTCAGCAACGTAAGAAAAAAGGAGCTCTTCTCACTGAAACCAAGTGTAAG
ACCAGGCTGGACTAGAGGACACGGGAGTTTTTGAAGCAGAGGCTGATGACCAGCTGTCGGGAGACTGTGAAGGAATTCCTGCCCTGGGTGGGACCTTGGT
CCTGTCCAGTTCTCAGCCTGWATGATTCACTCTGCTGGCTACTCCTAAGGCTCCCCACCCGCTTTTAGTGTGCCCTTTGAGGCAGTGCGCTTCTCTCTTC
CATCTCTTTCTCAGGAGGAGACCAAGGCACAGGACATTCTGGGAGCAGTGACCCTTCTGCTGGAGGGAGTGATGGCAGCACGGGGACAACTGGGACCCAC
TTGCCTCTCATCCCTCCTGGGGCAGCTTTCTGRACAGGTCCGTCTCCTCCTTGGGGCCCTGCAGAGCCTCCTTGGAACCCAGGTAAGTCCCCAGTCAAGG
GATCTGTAGAAACTGTTCTTTTCTGACTCAGTCCCMCTAGAAGACCTGAGGGAAGAAGGGCTCTTCCAGGGAGCTCAAGGGCMGAAGAGCTGATCTACTA
AGAGTGCTCCCTGCCAGCCACAATGCCTGGGTACTGGCATCCTGTCTTTCCTACTTAGACAAGGGAGGCCTGAGATCTGGCCCTGGTGTTTGGCCTCAGG
ACCATCCTCTGCCCTCAGCTTCCTCCACAGGGCAGGACCACAGCTCACAAGGATCCCAATGCCATCTTCCTGAGCTTCCAACACCTGCTCCGAGGAAAGG
TGCGTTTCCTGATGCTTGTAGGAGGGTCCACCCTCTGCGTCAGGCGGGCCCCACCCACCACAGCTGTCCCCAGCAGAACCTCTCTAGTCCTCACACTGAA
CGAGCTCCCAAACAGGACTTCTGGATTGTTGGAGACAAACTTCACTGCCTCAGCCAGAACWACTGGCTCTGGGCTTCTGAAGTGGCAGCAGGGATTCAGA
GCCAAGATTCCTGGTCTGCTGAACCAAACCTCCAGGTCCCTGGACCAAATCCCCGGATACCTGAACAGGATACACGAACTCTTGAATGGAACTCGTGGAC
TCTTTCCTGGACCCTCACGCAGGACCCTAGGAGCCCCGGACATTTCCTCAGGAACATCAGACACAGGCTCCCTGCCACCCAACCTCCAGCCTGGATATTC
TCCTTCCCCAACCCATCCTCCTACTGGACAGTATACGCTCTTCCCTCTTCCACCCACCTTGCCCACCCCTGTGGTCCAGCTCCACCCCCTGCTTCCTGAC
CCTTCTGCTCCAACGCCCACCCCTACCAGCCCTCTTCTAAACACATCCTACRCCCACTCCCAGAATCTGTCTCAGGAAGGGTAAGGTTCTCAGACACTGC
CGACATCAGCATTGTCTCRTGTACAGCTCCCTTCCCTGCAGGRCGCCCCTGGGAGACAACTGGACAAGATTTCCTACTTTCTCCTGAAACCCAAAGCCCT
GGTAAAAGGGATACACAGGACTGAAAAGGGAATCATTTTTCACTGTACATTATAAACCTTCAGAAGCTATTTTTTTAAGCTATCAGCAATACTCATCAGA
GCAGCTAGCTCTTTGGTCTATTTTCTGCAGAAATTTGCAACTCACTGATTCTCTACATGCTCTTTTTCTGTGATAACTCTGCAAAGGCCTGGGCTGGCCT
GGCAGTTGAACAGAGGGAGAGACTAACCTTGAGTCAGAAAACAGAGAAAGGGTAATTTCCTTTGCTTCAAATTCAAGGCCTTCCAACGCCCCCATCCCCT
TTACTATCATTCTCAGTGGGACTCTGATCCCATATTCTTAACAGATCTTTACTCTTGAGAAATGAWTAAGCTTTCTCTCAGAAATGCTGTCCCTATACAC
TAGACAAAACTGAGCCTGTATAAGGAATAAATGGGAGCGCCGAAAAGCTCCCTAAAAAGCAAGGGAAAGATGTTCTTCGAGGGTGGCAATAGATCCCCCT
CACCCTGCCACCCCAAACAAAAAAGCTAACAGGAAGCCTTGGAGAGCCTCACACCCCAGGTAAGGCTGTGTAGACAGTTCAGTAAAGACAGGACCTGGAT
GTGACAGCTGAGCAAACAGCTAGAGCTTTGGCAGCTCAGCAGGAGGCTTTGCCAGGCATGGACGCCTGCCTCCCTCCTGTGGAGGTCAGGAGGAAGTGCA
GGAAGTGGCATGAGTCAGGCTCCTTGAGCTCACACAGCAGGAGAACAAGTACAAGTCAAGTACAAGTTGAAGGCTCATTTCCCAGTTCCCGCAAATGCAT
CTAAAAAGCAGCTCTGTGTGACCACCATAAACTCTGCTAGGGGATCTCTAAAAAGGAGTCAGGCTTATGGGGCTTTGCAAATAAGTGCTGCCTTGGTGCT
CAGGAAAAGGTTTGTGTTGCACAAAAACACAAATTCCACTGCAAAAATCAACCTGCTACCTCCAGAGGTTCCTGTAGGAAAACTAGTGGAAGCTTCTTCC
TCTCCCCGACCCCTGAGGAAGGAAAGGCTACCACGGAGGTAGAGGAGCCAGGAACCCAGAAACCCAAACACTGCCACAAATACCCCAGGGTCACCAAAGG
CATTCCAAAGCAGCAGAATGAAAGGCAATGTGCTAGGAACCTCGTGTACTTTACCTTTTGTAACATTCACACAACTCTGTAAGGTAGGTATTATCTTTTC
TGTTTTAGAGATGAGGAAACTGAGGCTCAGAGAAGCCAGGTGAGTTATCAGTGGTTACACGCCCTGTGGGCAGGAGAAGAAACACCCTAGTCTGACCTCA
CTCTAGGGTCCATACTCTCTCCAGTGTGGTACACTGTCCTATATGTCATTTAATGATTCTGTTTACTGGGAAAGACATACAAGTCCTTAAGGAGTAACAG
TTAGAGTTTTGAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCGGATCACAAGGTCAGGAGATCAAGGCCATCC
TGGCCAACACGGTGAAACCCTGCCTTTACTAAAAATATGAAAAATTAGCCGAGTGTGGTGGCAAGCGCCTGTAGTCTTGAACCCGGGAGATGGAGGTTGC
AGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCTCAAAAAAAAAAAAGAGTTCTGAGTAGAAAACCAAAGTTCTTA
GTGGAGGTGACCAATTTAGACATCTTCCCATGTCCCTCTCTCCCTTCACGGACAGAATAGTTTTCCTAGAGAAGGAATCAACAAATGCACAAAGCTCAAA
AATGTTGTCCAAATCTCAAATGCTGTCAGTTTCTGCATGGAAGAGAAGTAGTTCATTCATACTACAAATTCCAGCATGCAGTCAAGGGAATGTTAAGTGG
AAACTAACTTACTGACATATTGAGCTGGGTTAAATTTAATAATCAAATGAAACACTTTATAGCACATGAAAGTGCCAGCACCTAGGACACGATACACCAA
TAGAACCAGAGAATGATGGGTTCCCAGCACAGACAGATGAGAGACAAGAATGGCAAAACTTTAGGGCCAGGTATGGTGGCTCACACCCAGCACTTTGGGA
GGCCGAGGCAGGCGGATCACCTGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACTCCATCTCTACTAAAAAATACAAAATTAGCTGGGCA
TGGTGGTGCATCACCTGAGGTTGGGAGTTTGAGACTGGCCTGACCAACATGGAGAAACCTCGTCTCTACTAAAAATACAAAATTAGCTGAGCATGGTGGC
ACATGCCTGTAATCCCAGCTACTCGGAAGGCTGGGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAAGTTGTGGTGAGCCGAGATCGCGCCATTGCACTC
CAGCCTGGACAACAAGAGCGAAACTCCATTTCAAAAAAAAGAAAAAAAGAAATAGAATGTCAAAACTGCAAATGTCACCAGAAACTTCCAGGCATCTGGT
ATTGGTATGTGACTTACTCCACTTGTGGGCAAATGCGAGTAACTCATGGGCTTCTCCAGTGTGAACTTACCTGCCCTATTACAAATCTAACCCATTCCCA
AATCAGTCTGGTTGGTCCCATCCCTTCTTCCCACTAACACAAAAAAACAATTACAACCAGAACACTCCTATCCCTATTCAATGCTCTACCAGTTCTCTTT
CTTCTGCTACCCCAAGACCGCCAGGACAGTCTATGATAACCTACACACTATTACTTGTAATTCGTTTGTCTCACTCTCATTTGTCGTTCTCCAACCCCAC
AAAAAAACCCACCCCATGGAAAGGTTCTAGGATTTCATAAAAATTCATCCCAACTCCCTCCCCCTACTCTACCCATAGTAAGGTAAAAGAAACACCTCTT
CCTCCTCCCTGCTGAGGCCATTCATTTTCAACCCATTTCCCTAAATACTATTTCTAACACCTCACATGAAGATCCGAAAATGATGGGGAAGGAAATACCC
CAGGTATCCCAGCAGGGGACCAGCTCCCAGGCAAAACCAGATCAAACAGACAACTGTTTAATGCACAGAGAATCTTTTTGGATTGTTACCCTAAACTTCC
TAGGGGAAAACAGAACCCCATATGCTTTCCTAGAGACCTCTAATGCCAAGCTGAAGAGCCAGCTCACATGCTGGAGCCCTTATCATAGCCATTTCCTTAA
TGTTTTTTCTTCCCCTACTCATAAGTTAGTGACTGTAGTCAGGCCGCTACATGGTCCTGGCACTGGCCCTGGCTCTGGCCTGCCAACTTCATTGGTATTG
CTGCCCTGTCCACTTCCACTTACCCTCCCTCCCAGGTCACCACTGGAATGTAGAGCAGAGAGCCAGCTCCTCCAGCTGCTTCCAGAACCACCAAGTCCTC
TCGTCCTACTCTCTTCATAGTCATCTCCCATGCCTGTAGCTAAAAGCCTCTACCCAAAGCTTCCATAAAAATAATGAACATTTCTAGACTATGCAAGTGA
CTCATTCAAGTCAGCATGAACTGACTTCCTAAGAGACTGAAAGTGTTGGAAGGACATGAGCAGGGCTCCTTGCCAATTCAAAATTCTGCGCCAAATGGGT
GGTATCTTCTGGGCCTGGGGTACCCTCAGGAGCCAAAAGCACAACTCTCTCCCAGACTGAAAACCACACTGGAGGATAAATGTTGAGAACAGTCAGCCAG
GAGACTGAGATAACCCTGAACCCAGATACCAAAAGGCTGGAATAGATCCTACATTGACAAGTGATCAGCTGGCTGTGGGCCAGAAACAATACACCACAGA
CAAACTGGAAAAAACGATTTTACAGTAAATGGACTTTTTACAAAAAGGGGAGGGGCAGTCTGAAAAAGTAAAGTTTAATTTAAAAATCATATACATAAAG
CTTCTGATTCATTTTCAGCTCTCCCACTGTGTCTTTCACAGGCGAGTCAGTTTCCCATTGAGTGGAGGCCAGTTAAAGATGCCGCCACGGTGGACAGTGA
GCCAGCCCTTCCTCAACAGGTGAGCAAGAGCGGCTGCCACTCAGGCTTGAACAATGCCCATGACCTGAGTGACTTGGCAGAGAGGCTGGCTTCAGGCGAG
GTTCAGAAGGCTAGCTTCTTCATCAGGAGATAAACTCTGGAGTCCACCTCGAATCCATGCAGGTTGTTGGCATCCCCCTGCAGCCTCATGAGCAGGCCCC
CATAGGACACGTACGCAGAGCTGAAACAGAAGGCCCCATCCCGTGATTCTGGAGCACTGCCACTCAGCAGCTCTCAATCTCAGCCTAAGAAAGAGAAGAG
GCATCTTCCTACTGTTGTGTCACTAGGAACCAAAATTCTGACAAAGATCAATGCACAGGTATGTGCAAGGCACTGTTCCATCTCAGCCTAAGAAACAGAA
GAGGCATCTTCCTACTGTTTTGTCACTAGGAACCAAAATTCTGACAAACATCAATGCACAGATATGTGCAAGGCACTGTTCTTTATATTATCGAGGGTGG
AAAACACCTAGATGCCCCAAATCAGGGGAATGTTCAAATGAATCAAGACATATCCACTTACTGAAATGTTATGCAACTATTGAAACGTTTAAGAAAAGCT
TTACACCGGCCGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACGAGGTCAGGAGATCAAGACCATCCTGGCT
AACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAAAAAATTAGCCAGGCATGGTGGTGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAG
GAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGGCTGGGCAACACAGCAAGACTCCATCTCAAAAAAAA
AAAAGAAAAGAAAAGAAAAGAAAAGCTTTACACTAACATGGGGAAACATGTTTTACATAATGTTAAGCAAAAAGAGCAGAAGAAAACATAATAAACACCA
CAGTCTCCAAGAAAAAAACAGAACACCAGGATATGCAAAAAAGTCTATGTAAAAGGTTCTCTCTGGATATGGAATTACAGGTGACTTTTTTTTCCTTCTT
CACATTACTCTTCTGCATTTCAAATTACTTACAAAAAGCACATATTGTTTTAATAAGACTTTAAAGAAAAGAAAAAATAGCTGGACAGGAAAACCAAGGA
ACTAGGGATTGGGTTACAGAGTAGCCACACACACACACACACACACACACAGCCTTTTACAGAGTAGCAAAACACACACACACACACACACACACACACA
CACAAAGCCTAACAGTCTAATCACTTAATGCTGCATTTATTCCTGGGGAAGCAAGTCTCCTTTGCACTTTACACAGTGAGATAATCAGTTTCTCATGTGG
ACCACTGGGCCAGGAGGGCCTGACAAAGGGCAGTCTACATTTCAGACTGGAAACTGCTCCCAGAACTATTTCTTTCTAGTTCCCACCTCGGTCTGAGGTG
CCTGAGGAGAGGGACTCAACAGAGGAAGCAGGAGCATAGCTCAAAGTCTCAGAACATGGAAGAGGAAAAGAATCCTCACAAGATTACGTAACTTACAGGC
GTGTTGCTGCTTCAGTAGAAGTTTCATCTCCCTCAATCCTGTACACTTTTCCATACATTACATACTCAAACTGGTCAGCCCTATGGAGCAATAGCAGCAA
AGTTATTCTTAACAGTAATTAACAATATAAAAGATCCCATTTAAAAATGGTTACTGGTCAGCCGGGCGTGGTGGCTCAAGCCTGTAACCCCAGCACTTTG
GGAGGCCAAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCATCTCTACTAAAAATACAAAAAAATTAGCCGG
GCGTGGTAGTGGGCTCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAACTGAGATCGCGC
CACTGCACTCCAGCCTGGGCCACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAATGGTTACTGGTAACTAAATGCCAGCATTATAACAACAGGCAC
ATTACAAACATGATGTCATTTAGTCCTCATGGCAACCCCATGAGCTAGGCATGACCATCTCTATTTTATTGATGAGGAAACAGGCTGAAGGAGATTAAGG
TTACTCAACAAATAAGTGGTAGAGCTGAGAAATGAACTCAAGTGGGGTGCCAAAGTCTTTCCATCACACCAAGCTCCCTCCCAAGACACAAGACCCACAT
GGCCTAGGTCACTCAGCAGTTACCTCCTCAGCCTTCAAAAGGCTGCAACTCACAAGCATGTAATCACTGTTATAGATAAATACCTGGTTGTTTGAATTTT
TTTCTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGGGAT


SNP Information

Context             (SEQ ID NO:66965):
ACCCACCTTGCCCACCCCTGTGGTCCAGCTCCACCCCCTGCTTCCTGACCCTTCTGCTCCAACGCCCACCCCTACCAGCCCTCTTCTAAACACATCCTAC
R
CCCACTCCCAGAATCTGTCTCAGGAAGGGTAAGGTTCTCAGACACTGCCGACATCAGCATTGTCTCGTGTACAGCTCCCTTCCCTGCAGGGCGCCCCTGG
Celera SNP ID:            hCV25959118
SNP Position Genomic:     14452
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,26)   total(A,57|G,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66966):
GGTGCCCGTTCCTGGGCAGCTGGTCTCAGGAAGGAAGTCCCAGAACTGTTAGCCCATCTCTTGGCCTCAGATAATGGAGTATTTCAGGACTTGGAGTCCA
R
AGAAAAGCTCCAGTGGCTTTATGTGTGGGGGTAGATAGGGAAAGAATAGAGGTTAATTTCTCCCATACCGCCTTTTAATCCTGACCTCTAGTGGTCCCAG
Celera SNP ID:            hCV27483773
SNP Position Genomic:     9682
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,292|G,1169)   total(G,1169|A,292) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66967):
GTTATTCCTCTTGTCACATGTGGAACGGTAGGAGATGGAAGACGGAGACAGAACAAGCAAAGGAGGGCCCTGGGCACAGAGGTCTGTGTGTGTAGCCATC
Y
AAGCCACTGGACCCCAGCAGACGAGCACCTAAGCTCAGGCTTAACCCAGTGCACGTGTGCGCACATACATGTGCCCCGCACCTGACAGTCCACTCAACCC
Celera SNP ID:            hCV1841130
SNP Position Genomic:     8207
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,6)      total(C,6|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66968):
GCACCTAAGAATTGGAGGGGCTGATTCCCCTTCCTCCACCAGAAAAATATCCCCAACATCTGCCGACTGGGCTCCTTCTCAGCAGCTCCGAGTCCACTCC
R
ACGCCCGCGCGACCCGGCGCTCCCCACCCGCCAGGGCCCGGGCCGGCCGCGGGGTGCACTCACCGCCTCGCAGGCGCACAGCACGCAGCGCATCACCCCG
Celera SNP ID:            hCV12070392
SNP Position Genomic:     6048
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,29)   caucasian(A,8|G,28)   total(A,15|G,57)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,2)      total(G,2|A,2) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:66969):
TCACCTTCAGCTTGGCCACCCTAACCCAATCTACATTCACCTATGATGATAGCCTGTGGATAAGATGATGGCTTGCAGGTCCAATATGTGAATAGATTTG
M
AGCTGAACACCATGAAAAGCTGGAGAGAAATCGCTCATGGCCATGCCTTTGACCTATTCCCGTTCAGTCTTCTTAAATTGGCATGAAGAAGCAAGACTCA
Celera SNP ID:            hCV16283925
SNP Position Genomic:     11684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66970):
AAGATGATGGCTTGCAGGTCCAATATGTGAATAGATTTGAAGCTGAACACCATGAAAAGCTGGAGAGAAATCGCTCATGGCCATGCCTTTGACCTATTCC
Y
GTTCAGTCTTCTTAAATTGGCATGAAGAAGCAAGACTCATATGTCATCCACAGATGACACAAAGCTGGGAAGTACCACTAAAATAACAAAAGACTGAATC
Celera SNP ID:            hCV1775164
SNP Position Genomic:     11745
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,8)   total(C,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66971):
TTCAAATTCAAGGCCTTCCAACGCCCCCATCCCCTTTACTATCATTCTCAGTGGGACTCTGATCCCATATTCTTAACAGATCTTTACTCTTGAGAAATGA
W
TAAGCTTTCTCTCAGAAATGCTGTCCCTATACACTAGACAAAACTGAGCCTGTATAAGGAATAAATGGGAGCGCCGAAAAGCTCCCTAAAAAGCAAGGGA
Celera SNP ID:            hCV27491306
SNP Position Genomic:     14966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66972):
CCCATACTCCCAGGAAGACACCATCACTTCCTCTAACTCCTTGACCCAATGACTATTCTTCCCATATTGTCCCCACCTACTGATCACACTCTCTGACAAG
R
ATTATTCTTCACAATACAGCCCGCATTTAAAAGCTCTCGTCTAGAGATAGTACTCATGGAGGACTAGCCTGCTTATTAGGCTACCATAGCTCTCTCTATT
Celera SNP ID:            hCV15874311
SNP Position Genomic:     11258
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,299|G,1202)   total(G,1202|A,299) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66973):
GACATTCTGGGAGCAGTGACCCTTCTGCTGGAGGGAGTGATGGCAGCACGGGGACAACTGGGACCCACTTGCCTCTCATCCCTCCTGGGGCAGCTTTCTG
R
ACAGGTCCGTCTCCTCCTTGGGGCCCTGCAGAGCCTCCTTGGAACCCAGGTAAGTCCCCAGTCAAGGGATCTGTAGAAACTGTTCTTTTCTGACTCAGTC
Celera SNP ID:            hCV9473257
SNP Position Genomic:     13533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66974):
CAGCTGTCCCCAGCAGAACCTCTCTAGTCCTCACACTGAACGAGCTCCCAAACAGGACTTCTGGATTGTTGGAGACAAACTTCACTGCCTCAGCCAGAAC
W
ACTGGCTCTGGGCTTCTGAAGTGGCAGCAGGGATTCAGAGCCAAGATTCCTGGTCTGCTGAACCAAACCTCCAGGTCCCTGGACCAAATCCCCGGATACC
Celera SNP ID:            hCV9473258
SNP Position Genomic:     14061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66975):
GTAACTTATCCTCAGGCGCATTCGACAGTCCCCTCTTGCTTTCTCACCCCCTTCCTTCACCCAAGGGACCCTCTGCCTCTCCAGCCCACTCCCAGCCTCC
Y
TTCTCTTGGTTCCCTGGTCATGCCTGCCTCCCTGTCTCCTGTCTCTCCCTCCCACACACACCCACTATCCTCCCAGCTATCCCAGCACCCTCCTTCCTAA
Celera SNP ID:            hCV1841129
SNP Position Genomic:     7700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66976):
CCGACTCCCCGCCCGCGCCTCCCCCGGGCGCCCACCTACCTGCCGCTCCCCGAACGGGCAGCGGCTCCTTCTCAGAACGGATGGGCAGCACGGGGGGCTC
K
GGGCCGGCGCCGCGGGCCGGCCGGGAGCCGAGCAGCAGCAGCCCGAGGAGCAGCAGCGGGGCCGGCGGGGCCGGGAGGCTCGGCATGACGCGAACGGGAC
Celera SNP ID:            hCV12070399
SNP Position Genomic:     6502
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,2)      total(G,1|T,2) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66977):
ACATCCTACACCCACTCCCAGAATCTGTCTCAGGAAGGGTAAGGTTCTCAGACACTGCCGACATCAGCATTGTCTCGTGTACAGCTCCCTTCCCTGCAGG
R
CGCCCCTGGGAGACAACTGGACAAGATTTCCTACTTTCTCCTGAAACCCAAAGCCCTGGTAAAAGGGATACACAGGACTGAAAAGGGAATCATTTTTCAC
Celera SNP ID:            hCV25959711
SNP Position Genomic:     14543
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,23)   caucasian(A,3|G,17)   total(A,6|G,40)
SNP Type:                 UTR 3


Context             (SEQ ID NO:66978):
GTAAGTCCCCAGTCAAGGGATCTGTAGAAACTGTTCTTTTCTGACTCAGTCCCCCTAGAAGACCTGAGGGAAGAAGGGCTCTTCCAGGGAGCTCAAGGGC
M
GAAGAGCTGATCTACTAAGAGTGCTCCCTGCCAGCCACAATGCCTGGGTACTGGCATCCTGTCTTTCCTACTTAGACAAGGGAGGCCTGAGATCTGGCCC
Celera SNP ID:            hCV25968427
SNP Position Genomic:     13683
SNP Source:               Applera
Population(Allele,Count): african american(A,30)   caucasian(A,29|C,1)   total(A,59|C,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66979):
CATGTTTTATGGGCAATAGTTTAAAAAACTAAAATCTATCCTCAAGAACCCTAGCGTCCCTTCTTCCTTCAGGACTGAGTCAGGGAAGAAGGGCAGTTCC
K
ATGGGTCCCTTCTAGTCCTTTCTTTTCATCCTTATGATCATTATGGTAGAGTCTCATACCTACATTTAGTTTATTTATTATTATTATTTGAGACGGAGTC
Celera SNP ID:            hCV26041216
SNP Position Genomic:     12680
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,11)   total(G,3|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66980):
ACGGGAGTTTTTGAAGCAGAGGCTGATGACCAGCTGTCGGGAGACTGTGAAGGAATTCCTGCCCTGGGTGGGACCTTGGTCCTGTCCAGTTCTCAGCCTG
W
ATGATTCACTCTGCTGGCTACTCCTAAGGCTCCCCACCCGCTTTTAGTGTGCCCTTTGAGGCAGTGCGCTTCTCTCTTCCATCTCTTTCTCAGGAGGAGA
Celera SNP ID:            hCV26041217
SNP Position Genomic:     13321
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66981):
CATCTCAAGCCCTCCCCAGCATCTGTTCACCCTGCCAGGCAGTCTCTTCCTAGAAACTTGGTTAAATGTTCACTCTTCTTGCTACTTTCAGGATAGATTC
Y
TCACCCTTGGCCCGCCTTTGCCCCACCCTACTCTGCCCAGAAGTGCAAGAGCCTAAGCCGCCTCCATGGCCCCAGGAAGGATTCAGGGGAGAGGCCCCAA
Celera SNP ID:            hCV3083815
SNP Position Genomic:     10602
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,14)   caucasian(C,15|T,15)   total(C,37|T,29)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:66982):
CAGACACCCCGGCCAGAATGGAGCTGACTGGTGAGAACACACCTGAGGGGCTAGGGCCATATGGAAACATGACAGAAGGGGAGAGAGAAAGGAGACACGC
Y
GCAGGGGGCAGGAAGCTGGGGGAACCCATTCTCCCAAAAATAAGGGGTCTGAGGGGTGGATTCCCTGGGTTTCAGGTCTGGGTCCTGAATGGGAATTCCT
Celera SNP ID:            hCV25958005
SNP Position Genomic:     10821
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,35)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:66983):
AGGTCCGTCTCCTCCTTGGGGCCCTGCAGAGCCTCCTTGGAACCCAGGTAAGTCCCCAGTCAAGGGATCTGTAGAAACTGTTCTTTTCTGACTCAGTCCC
M
CTAGAAGACCTGAGGGAAGAAGGGCTCTTCCAGGGAGCTCAAGGGCAGAAGAGCTGATCTACTAAGAGTGCTCCCTGCCAGCCACAATGCCTGGGTACTG
Celera SNP ID:            hCV3083817
SNP Position Genomic:     13636
SNP Source:               Applera
Population(Allele,Count): african american(A,20|C,16)   caucasian(A,14|C,16)   total(A,34|C,32)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|C,12)      total(A,5|C,12) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66984):
ACCCCTACCAGCCCTCTTCTAAACACATCCTACACCCACTCCCAGAATCTGTCTCAGGAAGGGTAAGGTTCTCAGACACTGCCGACATCAGCATTGTCTC
R
TGTACAGCTCCCTTCCCTGCAGGGCGCCCCTGGGAGACAACTGGACAAGATTTCCTACTTTCTCCTGAAACCCAAAGCCCTGGTAAAAGGGATACACAGG
Celera SNP ID:            hCV3083818
SNP Position Genomic:     14519
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,4)   caucasian(A,14|G,6)   total(A,44|G,10)
SNP Type:                 UTR 3

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,8|G,13)      total(G,13|A,8) ;Samples from 30 Europeans, 14 Asians, 10 African-Americans, 7 African Pygmies(G,-|A,-)   ;(G,-|A,-)   WIAF-CSNP-P(1(G,9|A,19)   total(G,9|A,19) 
SNP Type:                 UTR 3


Gene Number:                 431
Celera Gene:                 hCG41333 - 84000315067342
Gene Symbol:                 ZNF259
Protein Name:                zinc finger protein 259;ZPR1
Celera Genomic Axis:         GA_x5YUV32VVY5(26666725..26689188)
Chromosome:                  Chr11
OMIM number:                 603901
OMIM Information:            ZINC FINGER PROTEIN 259;ZNF259


Genomic Sequence (SEQ ID NO:12591):
TATTGTGCAGTTAGATAGTAAGTGCTATAATCCAGGAATATACAGTGTTGTGTGAATAATGTGGAATCAGTTTATCTCCAGAGCAGAAAAAGGTGAAGGC
CGAAGAAGGCATTCAGAGTGATACTGGAGCTGTGTAGCAGGGGCTACTACTGTTCCCTCAAATCCTTTCTTCTCTTCTTCCTGAGTAATAGAGTCCTTTT
TCAGCTAGGCATACAGCCATCCAAAATAAAAACTATATTTCCCAGCCTCCTTTTCAGCTAAGTGTAGCCATGTGACTAAGTTGTGGCCAATGGGATGTCA
GTACAAGTGGTAATGGCAATATCTGGGATGTGTCTTTAAAAGGAAGGAACATGTCCTTCTCCTTTTCCTCCTTCCTGTTCCCTGGGAGGTGAACTTGGTA
GCTGGAGGTGAAGCAGCTGGAACTTGGATATGAGCGTCTTGTTGATGATAATAGTGCAACAAGATAAAAGCAGCCCGAGCTGGCCTACATTTACATGAGA
AGGAAATAAGACTCCATTTTGTTTAAGCTATTCTCTTGCATATATATATACACATATATATCAGCTAAGTGTAGCCATGTGACTAACTTGTGGCCAATGG
GATGTCAGTATGAGTGGTAAGAGCAGTATCTTGTATATATATATGTGTATATATACACACACACATATATATACATATATGTATGCAAGAATATAAAATA
TACATGTGTGTGTGTATATATATACACACATATATATGTCCCTTGCAGCCAAGTCTAATTCTAACTAATACAAACTAACTCTAAAAAATGAATATATATT
CACCAGGGGATAGGCTATTTCAAGCAGAGGGAAGCCTGTATAAAGGCTCAGGGAATGCTGTGGTTTTATGTGGCAGCAGATGAGACTGGAAATGAGTCAG
GATGAGCCACAGTGGAGGATGAATTAAATGGGCAGGAGTGTGGTAGAAAGACCTGTTGGAGGCTATGAATGCAATCAAGGTGACAGACAACTGGTGCAAT
GATGGTAGTGGAAATGGAGGAGAGGGGATTGATTCAAGATGCATTTAGGACCAAGAATCGGGAGCTTGTGAACGTGTGTATGAGTACTGTAGACGGAGTG
GGTGTGTCATCAGAGAAGATCTGAGCATTTGGGCTTGCTCTCCTCAGAGGCCCTGCGAGTGGAGTTCAGCTTTTCCTCATGGGGCAAATCTTACTTTCGC
TCCAGTTCCTGGGGCTCAGAGTCCCTGGCCCAGATGCCTCTTGCCATCTCATCTTCACCCTGCCTGGCTTCCCTTGCTTGTTCCAGGATTGTTTCATAAA
GAGGGATGTGGTTGGTCTTTAACCCTATGAATGCTGGCTGAGGATGCCTGCGGAACCTGTAGTGAAGCTTTCAGGGGCTGCTCGGGTTCTGGCTGGTAGG
TGAACACTGTCCATCTTGCCGGCTGGGACACAGTGACTCTGGGTAGTTGTGTAAGAGAGGGGCCCTTGGCAGACAAACAGGTTCTTCTCTGTTGGTGGGC
CAGCCAGCAGGTCAGTGGGAAGGTTAAAGGTCATGGGGTTTGGGAGAAACTGGGTGAGGAGTTCAGCCCCATCCCCCGTAAAGCTCCTGGGAAGCACTTC
TCTACTGGGGCAGCCCCTGATACCAGGGCACTCATTAACCCTCTGGGTGCCAGGGAAAGGGCAGGAGGTGAGTGCTGGGAGGCAGCTGAGGTCAACTTCT
TTTGAACTTCCACGTGGTATTTACTCAGAGCAATTGGTGCCAGAGGCTCAGGGCCCTGGAGTATAAAGCAGAATGTCTGCTCTCTGTGCCCAGACGTGAG
CAGGTGAGCAGCTGGGGCAGAGGGATGGGGGTCACAGTCCTAAGGGAGGGCATTGCAGGTGGCCTCAGGGGAGAGCCTGGGGTGGCCCCTAAGACGTCCT
CTTGGAACATTTTGGCAGAGTTGCCTCTTCGCCCTCATTATGGCTCAGTTTTTCCACCATGAAATGGGAGGGAGGGAGACAGGTGGGCAGGGGAGAGGTG
GTAGAAGTGGCCTAGAGAACTGTTCCTGGGGTCTGGGACCTTTGCGAAGGGGTTAGAGCACCACGCTCCCTGCTATGTGACTGAGGTAGCAAGAGCACGC
CCTCTTCCCATGTCTGAGGAAGACACCCTAGCCTCCTTGACTCACCTAGGTCAGTCCTCTTGAGCCCCAACAGCTCTGTGCTCCCCAGCCCAAGGAAGGG
GTAACAGGATTTCGGGCAGTTGCCCCTGCAGAGGCCCCCTGGGCAAGTCCCCTGCGCCATGTCCCTTCGTCTCCTTCTTCCCCTAACCAGGCCTCCCTCC
ACCTGTCTTCTCAGAGCAGATAATGGCAAGCATGGCTGCCGTGCTCACCTGGGCTCTGGCTCTTCTTTCAGGTGGGTCTCCGACCCTGACTTCAACGTGG
GGGTGTGGGTGGAGGCTGGCCAGAGGGCCCTGTCCACCCTGGGGGAGGAGAGCCCAGGCCCTGATTACCTAGTCCCTCTCCACAGCGTTTTCGGCCACCC
AGGCACGGAAAGGCTTCTGGGACTACTTCAGCCAGACCAGCGGGGACAAAGGCAGGGTGGAGCAGATCCATCAGCAGAAGATGGCTCGCGAGCCCGCGTG
AGTGCCCAGGGGAAGGGGTGTAGGCGAAGGGAGGAGACAGCTGGGCCATGCCATGATGACCTGCCTCTGCTGCCTCAACCTCTGTGGCCGCTGCTGGGAC
AGAGGAAAGGAGCGGTGCTAGCTCTGTCTGCAGATCCCGGCCATCCTGGGCTCTTTAGCGCCCTCTGCCTGCAGCCCCCGCCTTGACAACTCCGTAGCTG
TTGCCCCCTTGCTCACTGAGGCGCGGGACCTGGGATCAATCGGGAGGACGCCCGCTGCAGTCCCCAGAATCAAAGGATGATGTGGCGCATCTATGTTTCT
TTGGAGAGTGTTGTAGGTCTGGATTTGTATGGGCAATGTGTTTGTGCTTCGTGCGTGAGTTGTTACTGGCCAGGGCTAGGACAAGAGCCCTCGACCCTGG
GGCCAACGCCCTGCGTCCTTGGTTCCCCCAGAGGATCAGTGCGCGATGACTTGGGGACAAAGGAGATGATGGGGGCTAGCAGTCTGACGGCCTGGATATC
TGTCCCCTTCTCCAGGACCCTGAAAGACAGCCTTGAGCAAGACCTCAACAATATGAACAAGTTCCTGGAAAAGCTGAGGCCTCTGAGTGGGAGCGAGGCT
CCTCGGCTCCCACAGGACCCGGTGGGCATGCGGCGGCAGCTGCAGGAGGAGTTGGAGGAGGTGAAGGCTCGCCTCCAGCCCTACATGGCAGAGGCGCACG
AGCTGGTGGGCTGGAATTTGGAGGGCTTGCGGCAGCAACTGAAGCCCTACACGATGGATCTGATGGAGCAGGTGGCCCTGCGCGTGCAGGAGCTGCAGGA
GCAGTTGCGCGTGGTGGGGGAAGACACCAAGGCCCAGTTGCTGGGGGGCGTGGACGAGGCTTGGGCTTTGCTGCAGGGACTGCAGAGCCGCGTGGTGCAC
CACACCGGCCGCTTCAAAGAGCTCTTCCACCCATACGCCGAGAGCCTGGTGAGCGGCATCGGGCGCCACGTGCAGGAGCTGCACCGCAGTGTGGCTCCGC
ACGCCCCCGCCAGCCCCGCGCGCCTCAGTCGCTGCGTGCAGGTGCTCTCCCGGAAGCTCACGCTCAAGGCCAAGGCCCTGCACGCACGCATCCAGCAGAA
CCTGGACCAGCTGCGCGAAGAGCTCAGCAGAGCCTTTGCAGGCACTGGGACTGAGGAAGGGGCCGGCCCGGACCCCCAGATGCTCTCCGAGGAGGTGCGC
CAGCGACTTCAGGCTTTCCGCCAGGACACCTACCTGCAGATAGCTGCCTTCACTCGCGCCATCGACCAGGAGACTGAGGAGGTCCAGCAGCAGCTGGCGC
CACCTCCACCAGGCCACAGTGCCTTCGCCCCAGAGTTTCAACAAACAGACAGTGGCAAGGTTCTGAGCAAGCTGCAGGCCCGTCTGGATGACCTGTGGGA
AGACATCACTCACAGCCTTCATGACCAGGGCCACAGCCATCTGGGGGACCCCTGAGGATCTACCTGCCCAGGCCCATTCCCAGCTCCTTGTCTGGGGAGC
CTTGGCTCTGAGCCTCTAGCATGGTTCAGTCCTTGAAAGTGGCCTGTTGGGTGGAGGGTGGAAGGTCCTGTGCAGGACAGGGAGGCCACCAAAGGGGCTG
CTGTCTCCTGCATATCCAGCCTCCTGCGACTCCCCAATCTGGATGCATTACATTCACCAGGCTTTGCAAACCCAGCCTCCCAGTGCTCATTTGGGAATGC
TCATGAGTTACTCCATTCAAGGGTGAGGGAGTAGGGAGGGAGAGGCACCATGCATGTGGGTGATTATCTGCAAGCCTGTTTGCCGTGATGCTGGAAGCCT
GTGCCACTACATCCTGGAGTTTGGCTCTAGTCACTTCTGGCTGCCTGGTGGCCACTGCTACAGCTGGTCCACAGAGAGGAGCACTTGTCTCCCCAGGGCT
GCCATGGCAGCTATCAGGGGAATAGAAGGGAGAAAGAGAATATCATGGGGAGAACATGTGATGGTGTGTGAATATCCCTGCTGGCTCTGATGCTGGTGGG
TACGAAAGGTGTGGGCTGTGATAGGAGAGGGCAGAGCCCATGTTTCCTGACATAGCTCTACACCTAAATAAGGGACTGAACCCTCCCAACTGTGGGAGCT
CCTTAAACCCTCTGGGGAGCATACTGTGTGCTCTCCCCATCTCCAGCCCCTCCCTCTGGGTTCCCAAGTTGAAGCCTAGACTTCTGGCTCAAATGAAATA
GATGTTTATGATAGAAGTTTGCCTGGCGTGACTCTCATTTGGACCATGTCTGAAAGCAGTGGCCTCACCACTATCCCCAAAGCACACCCATCACCCACTC
CATTCCCTTGCTGCTCTTTCTCATCCACCCACTCCCAGTCCAGGTCTGTCAAAGGGGGTCTGGCTGGGCTCTGCTTCAGGGATCCTGGCTAGACAACGGC
TGTCTGTCACACCTGGCAGGAGGGCCTGGGTTACGGGCCCTTCCTCTGCACCTGCACTGTTCACTAGCCTGCTCCCCCACAGGACACTGTGCATGGAATG
CAGGCTGTGTCTGGAAGAGCTGTGGCCCTGGTGGACCTAAGATTCCTGAGGTGGGCTGCCTCCTTTGTTCCTGCTGTTCTAGAGTTTGAATGGCCTCTTT
TTATGCCGGACTCTCTTCTGGGGACTCCCCTCACTCAGGGGCACCAATGCTCCCTATAGATCCCCTGGGAACTGAAACTGGGGTGTGGTGGAGGACGTGG
AAAGGGTAAACACAGCTCCTTGTCTTTGGACTTCCCTGTCCGGCCCCCTTTCCTCCCAGCTCAGCCTACTGTCCCCGGGTTCTCAGCACCTGCCTGCTCC
CCAACCCCATAGCACAGACCCCACACATATGTAGGCTCATCATGCCTGCAGGCTGGTCTTCCCTGACACCGTGGATTTTGACAATGTTGGCAACAGAACT
GGGTTGTGGACCCAGCACCTGGAGAGAGGAAGTGCTAGAAAGGTAGAAATAATAAAAGGTGTTTTTGTTGTTGTTAGGAAACTGGAAAAGCATAGGTCAA
GGGCTATGATGGGGATGAGGAGGTAGGAGTGAAAATGAGGGCTGTGTACTTGAGGCTGGGATTGGGGAAGGTAGTGATGAGGACAGAATAGGGAGTGGGA
AGAACAGAAAGGGACAGAGGGATTCAGGGATTGTGAGAGAGGGGAAGAGGCTGAGCCACCCGGAGGGGCGACCTAGCACGCAAGCAGTATGTGGCCCAAC
ACTGGAACCAAGCAGCCCGGCTCCGGGCGCACCTTCTCAGGGATTCCTCAGGGACAAGTCCAGCCCCTTGTCGTCAAGGCTCTTGTAGACCGACGTAGGG
ACCAATAGAACCCCGTGCGGTGGAGCTATTGTGAAGGAGCAAAAAAGTGCCCTGGTTCTAAGAGGACGTCTTAGGGGAAGTGACGGCTGAGTTGAGGTGG
ATCCGGCTGGCGATGTAAGGTTCGAGCCATATAAACCCGGGAACCGGGAGCCCTTGACGACATTGTTCCCCGAGTGCCCGGAGTCTGCGGCTTTTTTTGG
GGTGGTGGCAGCTGGCGGAAGTGACGGGAGAGGGGTGGGGCCGCGAGAGCGGCGGAAGTAGGAAGCCGAGGTCTGAATTGCGCGTGGTGGCCATGGCGGC
CAGCGGGGCTGTGGAACCAGGGCCCCCGGGGGCTGCCGTCGCCCCGTCGCCCGCCCCGGCCCCGCCGCCTGCCCCTGATCACCTGTTCCGGCCCATCAGC
GCCGAGGACGAGGAGCAGCAGCCCACCGAGATCGAGTCGCTATGCATGAACTGTTACTGCAATGTGAGGCGGGGGCGCGGCCGCGAGCGGCGGGTGGGTA
GGGCTTGTGCCGGGACGAGCCGGGGGTCAGACCCAGCCAGGTGGGCCCGGCCGGGGACCCCGAGGAGCGCCCGGAGATAGTAGGGCGGGGAAAGGGAGTT
TCATTGATTTTTTTCCTTAGCTACTTTCTACTTCACCAGGGCATGACGCGCCTCCTGCTCACCAAGATTCCCTTCTTCAGAGAAATAATAGTGAGCTCCT
TTTCCTGCGAGCACTGTGGCTGGAACAACACGGAGATCCAGTCGGCAGGCAGGATCCAGGACCAGGGAGTGCGCTACACTTTGTCTGTCAGGGCTCTGGA
GGTGAGAGGACCTCAGAGCAGGTACCTCAGTATTCTAGAGAGAGATTCGGTACTGGGGTCAGAGCTCTGGTCCAGGMGGTCGGATCTTAAATAAATCCCC
CTATGTCTCCTAGCCTTAGTTTCTTTTGTAAAATGGTACTGGTGTTGTCATCAGCTCAAGTGAGATAMGATTTGTGAAAATGCTTTGTAAATGTTGTCTG
AGGGTATGAAATGAGCAGTAGTTGTTATGAATAGTATTCTCACCATTTGGACAGCCTGGCTCACACCACCTGTACTATTCGAAAGGAGCAGTCTGGACCC
TGTGGAGTGGCGAGAGGGAGAGACAGCTGGGCTGCGGTCTGATGGAAGGGGACGGTCTGGTTATTACTTGAGGAGAAGCTGTTCTGCAGTCTCTTTGTAC
TGAACGTATTCYTTTCTTCCCAGGACATGAACAGAGAAGTGGTGAAGACTGACTCTGCTGCCACAAGGATTCCTGAGCTAGATTTTGAAATTCCTGCCTT
TAGCCAGAAAGGAGGTAAGTTTAAGATCAGARTATTTGGGCTGTTCGCATGTAGCTAGAATCTTACCCTCTTTCTTGCAAAACCCCCTGGTGCCAGGTCT
AGTGGTTTGTGTATGGGTTCTACCATGTAATCATTGTRATCTTCATTAGTTAATCATGAGTGGAAAGCTTAGGTAAAACAGCTCGAGATGGTAGAAAGTA
ATGGTAATACCATAGTGTGTTTATTGTAGAATTTTAGCATCAYTATTATCAGACATGAATGGAACCTTGCACCTGGCCTTCTCATTTTAYAGATGAGGAA
ATTAAGACCCAGAGAGTTCAAGTGAATTGCCCAGGGTCATACAGGGACTTGATAGCAGAGCTGAGGCTAAGTCACACTTGTCTTTTGTTCTTGTTCACAA
GCTCTGACCACTGTTGAAGGATTGATCACCCGTGCTATCTCTGGCCTGGAGCAGGACCAGCCTGCACGAAGGGTAAGCTGGGGTTTTCTGATTGTAGCAG
CTCAAGGAATAATTGCTTATATAGAGTGTCCCATGTGTCTGAAGAGTCTCTGACTAAGTGTTGGAAACTTGCTGGGTAAGCATATGGTGGTGCTGGAGCT
GCTAGAATGTTGCATATGTTATAATTATTGTCTTTTCCACTTCCCTCCCTCAGTATATATTCAGGCCTCATCAGACAATATAACATTACCTCTGAAGAGC
CTTTCCTAATCCCCTTGGGTTATCTGTGTTTCCTGAGTATTCCACTGCATCTTATATTTATTATGACAGAAGTAATATATTATAGCTGCATCTTTAGTTA
TTTGTCTCCTTAATTGGTTGGGGAGTCCCATGAGAGGACTGATATATATACTATTATATCTCTAACGTGGCATGAGTGCCTGGGCTAAATGGTTGAATGA
GTGAGAAAAATGAGGCTCACCTGTCACCACCCGTCAACTTCAGGCTTGTTTGCTACATCTCATTGTGAAGCCTGAGTCACTCTGTTTCCACTCACACTGA
GATAGGTGGTGACTTCCTAATGGAAGTAACATGGGCATGACAAGGGGCAGGGCATAAGGTACACCACCAGGGCTGATGCTTTACTCTCTGTTCATGGCAG
GCAAACAAAGATGCTACAGCTGAAAGAATTGATGAGTTCATTGTCAAACTGAAGGAGCTAAAGCAAGTAGCCTCCCCTTTCACTCTGGTGAGTATTGAGA
GGCTGGAGTTGCCCTTGATTAGGGGAGGAGGGACCATTAAGACTGCTGGGATTTTCCACTGTGATGCCTGCGTGGTCTGATAGTAGGTGATGTAGGATTG
TTTATGATTTTCTTTTGCAGTGACTCTCTCTTCTCCCATTTGTTAGATCATTGATGATCCCTCAGGGAACAGTTTTGTGGAAAACCCACATGCTCCTCAG
AAAGATGATGCCCTGGTGATCACACACTACAACCGGACCCGACAGCAGGAAGAGATGCTGGGGCTTCAAGTAAGTGGACTGAAGGATCCAGAAGAATGCT
CTGGAATTATCGCGCACTCTGGATTGCTTGGAGTCAGTGGAACTTATTTTGCTGCTGCTGCTCTGTGTGCCCTATCTCAGCTTGTTTGTGCTTCTCATCT
TGCTTATGTCCAGGACTTGGGTAAACTTCACAGAAAGGATGGCAGTGGCTGTGATCCTATCTTAAGTCCTGTTCTTCCTTTGGTTGGGGCTTTACTTTGT
GGTTTCTCTAACTGATGAGGTGGCACCTGACATAACTGATGAGGTGGCACCTGAGCATTTCTCCCACTCCAGGGCAGGGTGTTGGGGACACTGAGGTATA
CCTGCCAACTTGCGACCTGCATCTTTGCTATTTTAGGAAGAAGCACCAGCAGAGAAGCCAGAAGAGGAAGATCTCAGAAATGAAGTGAGTCACATTGGCT
ACTGGTGAGGAAGGAGCAGAGTTGTGGGCTGAGACTGATGCTGTTCAGCATCTGTCTTCCTTGTCACCAACATAGATGACCACTAGCATACCAACTGAGT
GTCTTTAGCCTGAACATCCCATCTGGGAGGGCTCACCCTTTGTCCTCATGTTGTGTTCCAGGTGCTCCAGTTCAGCACAAACTGCCCAGAATGCAATGYC
CCCGCTCAGACCAACATGAAGCTAGTACGTATCTTTTGCCAAGCAGTTGGGTTGCTCTTCATCTGACTCAGGCATGAAGATTATAATCAGGCTGGGAGCA
TCCCTTTCAAGGAAAACACATGCTTTATACCCAGTGATAAGGAAGATATTATCTTTGATTAGACTGTGTACCTTGGGTTTTGTGTTCAAAGAGAAAATTA
GGCCATGGTCACTAGGCTGTGTGTGTGTGACCTGAGCCATGCCTTCAAATGTGTGAACAGGGATTGCCATGGGTTGGGAACTTGCCCTCTTCTGGAGGAC
TCTGTGGGCTGCCTCTTGTGAATATTTCCTGCAGTTCTGGGACCAGCATATGTTTGTGTGGGGTTTGGCTTTGTTTTTCCCCAGATGGTGGTCTTGTTCG
CCTGGAAGTAGATTTCCTTAACTCCGTTTTCCAGAAATCCCTCACTTTAAGGAGGTTATCATCATGGCTACCAACTGCGAGAACTGTGGGCATCGGACCA
ATGAGGTGGGTGGGCGCCATTATTTGGGAAGAAGACTAGCTTAAGGGTAACCCCCTTTTAACTATCATTCTTCCTAAGTACTTCAGTACTCGGGGGCAGG
GGGTGTAGAGTAGCTTGGGTCTTTTTCTTAGGTCTAGTGCAGGGTGATGAGCCCTTGAAGGAATGGGAATTAGCCTAGAGAAGAAAAGTTAGAGATTCTA
TAACTTGTTTAAGACATATTAAAGGTTGATGATATGGAAGAGAGAAGTCTTTTGACCCACTCCTCAGAGGTGTGGAAGTTCAGGGAGGCAGACTTTGACT
TCACAATGAAGAACTCAATAGAGCTGTCTGAAAATAGAATGAGCTGCCTTAGAGAATTATAAATTCCCTTCCCCTGAGTGTATCTGAGTATAAGCTAATT
AAATTCTTTAACCAGAATATTATAAAGGAGACCCACACATTGGATGCAGTGGATGAAAGGACTGCAATAAATGCTTAAAAGTCTCTTTCAACCCCAAAAG
TCTTTTTTTTTTTTTTTTTTAAGGKAAATTCAGAGTTTATTGGCAATTTGGGATAAGTTTTGGCACGTTACCAGGGTTGGGCACTGTTCCTGGCCAGCTC
TTGGTGTTTTTGGTTTGGGCGACTGCTGTTTAGAAGGCTMTTTCTTTGGTAGCTATTAATGRCCCTAACTGATTGGATGTCCAAGCCTACACTCCAGGTC
TCCTGGGTACCAAGTGAGGCTCAGGTCTTCTCTCTGTTGCTCCTGACTGTTATCGATGCAGGTGAAATCTGGAGGAGCAGTAGAACCCTTGGGCACCAGG
ATCACCCTCCACATCACAGATGCCTCAGATATGACCAGAGACCTCCTCAAGGTAACAGTCTGCTTGGGAAAGTCACTGTTGTCCTCATAAGTTAGATAAA
CTGTCTCTATCTAGGGGAAGTTGTCTTTTAGAAATAAYGTTCAGGGACATGAGGTATCTCCTACTTCCCTGGCTTTGAGGACCCCTGAGCAGAGGGAGTT
AATCTAAGATKGGAATTGCAGGTTTAGAAGGTGACCCTGTTAGCTCTTTCTGATGACCTGGTAGCTTTTTGGCCTCCAGTGTCTATCTGGGTCCTCTTCT
CTGTCTGTCCCCTAGTGACAGGATACCTGACAGCTCGAAGCTATGACTGAGTTTCCCTTTATTAAGTTGGATCTATTCCCGTGGTTCAGATGGACAGGAG
TGAGTCTCAAGCTTTAACAAGGGAGTCAGAGAAAACTGAGACAGCTGCCCTTGTCCGCAGTCTATCACTGCTGGTATTAATTGGGCAGGAGGCCTCTGGT
TGGCTTTCTTTGCTTCTGACTTAAAGCTTAAACTRACCTCTCATTTCACAGTCTGAGACTTGCAGTGTGGAAATCCCAGAGCTAGAATTTGAACTGGGAA
TGGCAGTCCTCGGGGGCAAGTTCACCACACTGGAAGGGCTGCTGAAAGACATCCGGGAACTGGTGAGTCACTTGAGTAGTGTGTAAACCACCTTTGAGCA
ATTTGGCTGTGTGAAGAGGGACTGGAAGACTTCAGACATCCTAATTTTCGGTGCTGGTAACTGTGGGTTTCTTTGCCTTAAAGCTGGTTTAAGAGACTTA
AATATTACTTTGGATGGTGAAGACAAGTTTATGGGAAATGTTGAATGGAAATTCCAGGCCTAACTTTGGGACTTTATAGTTATTTTGTGGTCTTGGACAA
GTCATTTATTTTACTGTAAAGTTAGGGGATGAGGGTCCTTCTAGCACCTAAAACTTCCCAACATAAAAAACATACATGTATGGGTTGACTTAGCCCAAAT
RTTTATCTCCTTGATGAATTATTTCACTTGATTCTCTGTTGGGCATTTTGTATTTGTAAATTGTACTTTTTCTTTGCATTTCTTCTCCAAATTAGTATCA
GAGATCATATTCTAAGAACATGTTTCGATTTTGTTTTACATTGCCAGTTTTGTTATCTTGGCACATTATCCCATAGACTCCTAGGAGTGACTGCCTTGGT
CAGAAAGGTGGTGTGGGCTAAATGGAAACCAAGTTTCCCTGACAGGGCACCCACTGTCACCCCCTGCCTAGTTTATGGTCAGGCCTAACAAATATAAAGC
CAGTATTCACATAGTTTGGATTATCATTTATTGCAGGTGACCAAAAATCCTTTCACACTGGGCGACAGTTCCAATCCTGGACAGACGGAGAGACTACAGG
AGTTWAGCCAGAAGATGGACCAGGTAAGAGGTCACTGGCCAGTCAGTACTTAGAATCCTGGGGCTCCAGTGAACAGGAGGCTGCATGCTCATGTCTTGCC
ACTTTTTGAACATCTAACCATCATGTTGGGGATTCTTCTTCTGGTTTTCTTTTCTTTTTTTTTTTTTTGGAGACAGAGTCTCGTTCTGTTGCCCAGGCTG
GAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCATGCGATTCTGCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCAC
ACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGACTGGTCTCGAACTCCTGACCTCGTGATCTGCCTGCC
TGGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCTGGCCCTCTTCTGGTTTTCTATATTCCATGTCTTCTTTCTTGTTTTTCTCCCTTA
TTTTGTTAGAGCATCTTCTCCAGTAGCTTCCTGGGAAAAAGTGCATGGGAAATAAAATTTCTGGGACCTTCCACATCTGAACATGTCTTTATTCTRTTAT
CACACTAGAGTGATTATTGGCTGGGAATACGATTCTAGGATAGAAATAATTTTTTATCAGAATTTCGAAGACTGCACTATGGTCTTCCAGTTTGGTAAAG
ACATTGTACTATAGTCTTCCACTTTGGCTATTGAGAAGTCTGAAGCCATTTGATTCCTGGTCTTTTATATGTGACCTAGTCTTGTGATCTCTTCGTTTCC
TTTGATGTGAAATTTCAGGGTGTGCCTTGGTGTGGGTCAGTTTTCATCCACTGGGCTAAGCACTTGGTAGATGTATTTTTTCAGTCTGGAAAACTCATGT
GGTTCAGTTCTAGGAAGCTTTCATGAATTATTCTATTGAAGATTATCTTTTTTCTGATTTTTTTTTTCTGTTCTTTCTGAAAACTCCTGGGTTTTAGATA
TTAGACTTACTTGTCTGGTCTTCTATAATTTACTCTTTTTTTGGTCCTATTTTTGGTTTCTTGGTTTTTTTGTTCTTCTTTGGGAGATTCCCTCAACTTT
ATTTTCCAACCCTTCAATTGAGGTTTTCATTTCCACTAAAACTTTTATTTTCCAAGGAGCTTTTTAAAAAATAGCATCCTGTCTTAAGGATGTAGTATTT
TTTCTTCTTGAGGATTATTATTTTTTAAATTTTTTCAGCATGCAGTTTATATAGCACTTATTGATACTGATGTTGGATCTTTTTTGACATTTTATTCTCC
TTGCATCCTTTTTTTCCCCATTTGATTTCCCATCTTTCAGTGTTAAGGGCTTTGCTCAGATGTCTGATAATCATTGATTGTCTTCTTACAAGTAGCGGGC
TAAAGACCTGAGTAGGGGGTGAGCCTTGTTGACMTGGGGCTTATTACAGGGGAATTTAACTTAGCTGTTTTGCTGAGGTGGCCTCCAATGCCAGAATTGT
TAGGTCTTTCCTCTTGGGCTAGTCAGACAAAGAGGCTATGCCTGCCAGACAAGAACCAACCCAATTTATATTACAGAATCCTCCAAAGTTTTAAGAATTG
GTGAAATTAGGTAGCTCTGAAAGTAGAGGGGAAAGGATCTAAAATAAGGACTGTTAGAAAAGCCAACATCAGCAAGCTGTGGACCAGGGGGTGCTGGCCC
AGTTGAAGGTAGAGGGAAAGGACTCAAGAACAAGGAGGTTAAATGACTGTGGCTGCTCCATTTCCTGGCCTGAGGGTAAAGACTTGGCTGGCAGTGTTCT
GAGAGCTGTGGGAAGGGGGCTGGGGTGTGTATGTATTCTGTTTCCCATAAGCTTACATTCATTTAACCTACTTGTTCTTGATTCCTTTCCCTCTACCTTC
AACTGGGCCAGCACCCCCTAGTCCACAGCTTGCTGATGTTGGCTTTTCTAACAGTCCTTATTTTAGAACCTTTCCCCTCTACTTTCAGAGCTACCTAATT
TCACCAATTCTTAAAACTTTTGGGGATTCTGTAATATAAATTGGGTTGGTTCTTGTCTGGCAGGCATAGCCTCTTTTTTTAAAAATTTTTCTTTACTTTC
ATTTATTTCATTTCTTTTTTTATTTATATATATATTTATTATACTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACATGT
GCCATGTTGGTGTGCTGTACCCATTAACTAGTCATTTACATTAGGTATATCTCCTAATGCTATCCCTCCCCCCTCCCCCGACATAGCCTCTTTTTACCAG
GGGTTATGTAAAATTTACTTGCTGTGTTCTCTCTCTCCTTTAGATCATCGAAGGTAACATGAAGGCCCACTTTATTATGGATGATCCAGCAGGAAACAGT
TACTTGCAGGTATAGTAGACCTTCCCTGATGTTTCATAGAGATACATTTTCTGATCTTCCTTGAATATGTATCATTTCCCTAGAAACTGAAAGACTTGAT
TCTAAATGGACTGCTTTTTACCAAGGAGGCAGAAGTTAGAAGATACATAAGGGAGAAAAGAGGGGGGTGTGGGAGGGGATTTTTTTTTTAAGTGTATGTA
AAGAAGGAAAAAAAAAGGATACTCTGAGGCCCCTTTTTTTTCTGTAGTCAAGCTCTTGTCCCAGTTCTGGAGTTTTCATTTTGCAAATCTGATTATGGAT
TGAGGAGAAATGGTACCTTGTCCGGAGGCCAAGATAGGAAACTGATAGGCTTTAAGTTGACTGAGGAGAGAGTCTGGTGATTGATGTACCTTTACCATTT
ATTGGATACTTACCATGGGTCAGGCAAAACTCTTCTAAGTTCTTTCCAAGATTAAGACCATTTGTCATACTTTTCATAAGAAGGTGCAGATATAACAAAA
TAGGTGGATTGTTCCCTGATTCTGGGGCTGGGGTCTTCTACCCCTGGCCCATGTGGGCTCTGTTGCTACCCACTAGTTCAGTCTAGCCATGGGAAATTGG
AGGCCAATAAAAAGAAAAAAACCCAAAACTCATTCTGTTCTTGGGAAGGTGGGAATTGGAAGCTGCCTGCAGAGAGGGGGAGTGGCACAGCGGCACTGAT
TGTCTCTCCTTGACCTTGCAGAATGTGTATGCGCCTGAAGATGATCCTGAGATGAAGGTGGAGCGTTACAAGCGCACCTTTGACCAAAATGAGGAGCTAG
GGCTCAATGACATGAAGACAGAGGGCTATGAGGCAGGCCTGGCTCCGCAACGGTAGCAGTGGGTGGCTCAAGGGCCAGCCTCCAGCGCTGCTCTTTCTGT
AGGTTATTTATTAGTATTGGATGAAGGCGAAGGCTGGGAGTGTCTTTCCCACCAGCCCTTGCCCATGGTGGGGAGGACATCTGGTYTGAGTCAGAGATCT
GTGCACACTTTCTAAACAGCTTGTGATGCAAGTGTGAGCCTATTGTGTTACTTGACCTTATTTTGGAAGTTTTGAATTGGCCTAGGAGGAAACCCAGAAA
TGAACCAGGGGTATGTCATCACTTTTTTCATATCAAGTCCTCACCCTCCTTCCACATAATGCTCTATCCTCTAAGGTTGGAACTCTGAAGTTGGAGAAGG
TGGAATAAAGTTACACCTGGAGTTTGTTGTTGGTTTTGAGTATATAAAATACTGACTTTGAACAGGAAAGGAGTCTCCTGAGGGGAGACCGAGTCCAGCA
CAAGTGAAGGAGTTACCATTGAAATGATGACTTTCAAACAGCACTGGCCTCTGTATTGACCYTATCCTTGTTTGATATCATGCTGTTAGAATTCAGCCTC
CTAAAGAAAATTTTCCCGTGTATCTACTGTAATTTGGGGATTGCAGCTGGCATTTAATTCATTCCTTCAGCAGATGCTTGCTTATCTACTTTATGCCAAG
CACACCACAGAACAGAGGACAAAATAAATCTCTTTCATGGAACTTGAAGTCTAGTGGGGAAAAATGACAATAAACAGATSAGGAAAACAGTACATCRGAT
GGTGATTAGTGTCATGGAGGAATGTAAAGCAGGGAATGGGGCTGGGTTGTGCAAGGAAATGGGGAGTAGGGAAGATCTTCTGAACAAGAAGGTGATAATT
TGACATTTGGGCAAAGCTGAGGAGGAGGTCAGGGAGTGAGCTGTGTGGGTATCTGGGGGAAGAGATTTCCTGGCAGAGGGAACTGCAAATGCTAGAGCTG
TGAGGTTAGAGCCAGTGGGGGTACCTGATCAGTTAGCCCTACTCTCAGTTAGAAATGTTGAAACACATTCATCCAGAGAGAAAGGAGGCTCTCTGCAGTT
CTTCTGAAAGTTAAGGACCAGTGAACACTCTGCTGCTTGGGCCCTGGACTTCCCAGCCAGTGTTCTTTGCACTGTAGTCTCCTGCCTCTCATAAACAAAA
GGTGACTCCTGTGGTGCAGACTGCAGGGTATTTGTTCAATAAAGACCAGTTCATTGATTAAGATGTTATCACAAACCTTATTGCTTTGTGTTGCAAACTT
TTTTTTTTTTTTTTTGGTAGAGACAGAGTCTCGCGCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTTATTGCAACCTTTGCCTCCCGGGTTT
AAGCAATTCTGCCTCAGCCTCCCGAGTAGCGGGGACTACAGGCGCACGCCGCCACACCCAGCTAATTTCTTTTGTATTTTAGTAGAGACGGGGTTTCACC
GTGTTGCCCAGGCTGGTCTCGAACTCCTGAGCTCAGGCAATCCGCCAGCCTTGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCTACCGCGTCCGGCT
GTGTTGCAAACTTAACTCTGAAGAATGAGTTAGAGATGATTTAGCAATCAGACATCTACTCTCGTTGCTCTGTTAAACTACTCTCAAAGGTCACAAGTGA
TTTTCCACTTGGAAAGTGTTATCTATTTCTGTCACATTTGATAGTGGACCATCTCTTCTTAACCCTTCTTTTGGCTCTCGAGATACTGTACCCTTGGTTT
TCCCTTCACTTTGAATATTTCTTATTTGGACACTTTGCCTCCTCCCCTCTTACTAAATTTGTTTCTGAGAGTTCTGCTTTCAGACATCTCTCCATATCAG
ATTCTTTGGCATCTTACTATCATGTGGGACTAACTTCCATACCTGTATCTCTAATTTCTGTAAGTGAGGGCGAGAGTAAGGTGTTTGGAGACTCAGGTTA
GCAAATGACTCATTCAAACTATAAAGCTTCAGTACTTTGGGCAAACTTCTCACAGGCAACTATTCTACCCTAAGAGATTATCTCTAGATATGTTTCCAGC
TGACTTGGGAATCTAAGTTTACCAGACAACCCTCTGATCTATCATTTGGTCTCTTAAGTAGACTTCCCCATAGTGTAGGTGTGCTCTGTTAAGATAAACT
GCAGTATCAGGTTCATTTTCCATTGTGAAGGAAAAAAAATGGCACTCTGGCTTATTACTGAATCTCTTGTGAGTTTGGTTGGTGTGAGGCAATCTCCCAG
AATCCACCCAGTTCCTAGGAAATGATGACCTGAGTTTCTGAACTTGAAGACTGAGGACCAGGTGCCAGACTGGGATAACCCAGCTAAGGTACTTCCTGCC
CTTTGATGACAAGGCATTCTTCAGTTTCATACCCTTCTCTTGAATTATCTTTCAGCTCCTTTCTCATTTCATAAAGTGTGTCAGGATGGGAGCTTACATA
TAGTTAACTGAGTCTTGCTCCACAGCACCCAGCATATGACACATGGTTAATAAAATCTGTTAAAATCCTCCATCATAGATTAAACCCTATTAGGACACTA
GGGATAACATCTATAGGTAAAAAGATAGGGAAAGGGTCTCGCTTTAAGGCCAGGGTAGGTGAGTCAAAGTGCCAGGAACATGTGGATTCAGTTTCACAGC
CATGAGTAACATTTAAGTGGAAAAGGTTTGTGATTGTGTTAAAAAAGGAAAGTGGTTCATGCATGAGGGCACGCCTCCTACTTTCATGGGTCAAGTATGT
GAAATGCAGCCATGTTCGGTCATTAGACGTGTGGACGAACATACAGGTAGGTACTGAATGTACATCTGTGTCATGATGAGTGGAGGAGGGGAGGTGAGTG
TTGGGAGCAAGTATGAAGGGCAGTTGACTTGGCCAACTGAAAACTTTAATGATGGCAACACTTTCATTCTAACATCAGTATATTTCCTTCTTTGTACACC
TGTGGTATGTGCCTGATGCACACTGCAGAAAATGGTGTCTCTGCTTACATTTAGGGCAGTGGTGGCTAAGACTACTTGGCTTTATTCCTATTAAAAAATG
TTTTTTACACACTTCTTTTTAAGGCAAATGGCAGTGTTTCCAACTGTGGAGAGAAAAAGCTGCTTATTTTGTGCGTTCACCTCAGTTTAGTATTGGCACT
TCCAATGCTTGTTTTCCTAGTCTGTAAAATGGGGATAATTAGGATAAACAAAATTATCCCCATTTTACAGGTGACAAAACAGCCTCAGAGAGGTTACTTC
CAGAAGGAAGCAGAGCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGACTGGAGTGCAGTGGCGTGATCTTG
GCTCACCACAACCTCTGCCTCCCAGGTTCAAGCGATTCTCTTGCCTCAGCCTTCTGAGTAGCTGGGACTACAGGTGCACGCCACCATGCCTGGCTAATTT
TTTTTTTTTTTTTTTTTTTGGAGACAGTCTTGCTCTGTCACCCAGGATGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAGCCTTGCCTCCTGGGTTCAA
GCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGACGCCCACCACTGCACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCA
TGTTGGTCAGGCTGGTCTCAAACCCCTGACCTCGTGATCCACCTGCCTTGGCCTCCCAAAGTGCAGGGATTACAGGCGTGAGCCACCGTGCCTGGCCAGA
AGTAGAGCTTCTAAGAGGCAGGTGTCAAACCCATGCCAGTCAGACTCTGAAACCTGAGGTCTGAATATTTTAAGCTCAGCTCCACAATTACTGTATTTGT
TCTATTAGATACAACTGCAGAGAGAGGCCAAAGCTCAGAGCAGGCCATTGGCACGGCATCTGATCCTGCTTAACTGCCCTGCAGCACAGGGTGGAGACAC
TTGGGCCTTGTCAGGCTAAGGGACTGGGGTAGGATGGGTAGCAGTGGAATTGAAGACAAAGAAAACAAATGGGCAGAAGATGGGTGGGTGGAAGTTCAGA
GGGCTATCCTGGCAGTGTTCACTGGAGCAGAAGTGTGAGGCTTTCTGAATGCCTGCTGACACCAGGGTGGGGCAGGGCTGTGTAGTGTGAGATGCACCAA
ATTGGACGAGAAGCCAAGGCAGGCTTGTGTATGGGGTACCCTGGGGCCCTCCGCCTAGTGAAGCCCTATCTTCTCAGCCCAGCGTCCTCGTCTCACAAGC
CCTCAGAGCCCCAGCCTGCTTTCCTTTCTGGGCCTGTGCTGCAACCCCCTCAACATGGCCCACTGGGTAAAAATTCATGCTTCAAGACTGATCCCCAAGC
CTGTTTTGTATTATATAAGTAAAGAATTTTTTAAACACTTATCCCCAGATAATGTGTATTTATTTATAAAGTATAGCCCTGTCTGCTTGACTAATATATT
AAAAAAGTGACCTTTTTGACTCTTGGTCCAAGAAACTATTGTTTGCACTTTTGTGTAGTTGTGTATAGCATCCTGCAAATTCTGTCAGAAGTCTGTGATT
TCAGTAACACTAAAACTTCTCTCTCAAATGGTACAAGTTTTCAGTTTTAAGACAAGTTCTGGGAATCTAATGTACAACATGTTGACTATAGCTAATAATT
CTGTATTGTTTACTTGAAGTTTGCTAAGACAAATTTGCTTAAGTGCCCCCCCACCGAACTACTACATAAATTAGTGAAGGATGTTTTACTTAATTTGATT
TTGGTAATCATTACACAATGTATAATTATATCCAGTCATCACATTGTACACCTTGAATATATATAATTTTTTGTCAAATAATAAAGCTGGGAAGAAAACG
ATAAAACTGACAATCTAACATATATGATGAGGTAAAAAGATCTGGTATTTCAAGAAATTTGGATGACCTCTTGCACCCCACTTCGCTAGCCTCTACTCCC
TAGAGTCATGTTCTGACTATGTGAAGTTGAGCAACTTCCTTAATCTTGCCACGCTTCAGTTCTTATCTGTAAAATATGATAATGAAACGATTTGAGAATT
GTGAGGGTTAAATGAGATAATTCAGGTAAAGCTCTAAACCCCCTGCAAAGAATAAAGTCTTTTCTTTCCCCCCAAAACTTGAGTGTTAGAATTCATTCTC
TCTGGTTTCTCTCTTTTACTATGCTAAAAAATGATCCAGGTCCGTCCTTCTCATTGGCAAGATTGTTTTACAGTTTCCTTCAAGAGATAACTGGGGGCTA
CTTGTAATAGAACACTAGAAGAGTTACACAGGTCTTAGAAACTACGTTTTTCATAGTAATTATGTTGGTTTGCACTTCCTGGCTTCCTTTCTTGGACGGT
AGGTACCTGGAAGCCTAGTGGAGCAGATTCCCCCCACTTAAAGATACTTATAAAAATAACGAACATAGTTCCGATGACCATGTGCCCAACACCGCTCTGC
GCACTTCACACAGTAATATCATCTCAGCCTGTGACCGTTCCGAGTTAGGTGCCGGGATTCTCCCTGTTTTGTGATAACTTGCCCGAGGTCGTACAGCTAG
CCAGCTATGGAACCAGTATTCAAACTCGGCTACGCTGCAGCCCGTGGCCCTCCACTTTCTTGCTCGTGCTCTGGAGTTTAGGCGGCCGATGGGGGCGGGG
TCCTTTGGGTCAGGTTGTGGCCTCATAGAACAGCGCTTGCTGCGGTTGGATGGATGGGTGGGTGGGTGGGTGAGTGAATGAAGAGAAGAAACCTGGTGGC
GTCGTCCCAGGGCTGTGGAGCGCCCCGAAGGTGCGCACGTCCCTGGCTAGCCTGCGAGCGCGTCCCGGTGGCCGCACCTGCCAGCCGCGCGATTCTTAGC
ACTCTCCGCCACTTCCGGCCGTGGCCCCGCCCTGTCGGGTGGCTGGCGTCCGTTACGCGTTGAGGCATTTTGTCCCCAGCGCCGACCCGTCTCTCTGCCC
CCGCCGCTGCCATGGCGGCAGCTCCGCCGCTTTCCAAGGCCGAGTATCTGAAGCGTTACTTGTCCGGGGCAGATGCCGGCGTCGACCGGGGATCTGAGTC
CGGTCGCAAGCGTCGCAAAAAGCGGCCGAAGCCTGGCGGGGCCGGCGGCAAGGGGTGAGTTGGTACCGGCCGGGGCGGGGCCTGCGACGTCTAGCCACCC
CTTCCCAACTCCGCCCTCGGCCGCCCGGCAGTTCCTTCCCTCTTGGCGGGTCTCTCGGCTTCTCCGCCGACCCCTGCTCATGCTCAGGGCCCCACTCACA
TCGCTTGAGGCCCCCCGCCTTGCCTCTGCCGCCCCGCTTACATCTCGAGCCTCTGAGCAGTAGCGTCAGTGCGTTAAAGCCGGGGTGTAACTTTGATTAC
TCTTTTCCCGCCTTGGTAGACTTCCGTCCTCTCCCATAGAGAATGAATATTGTGCCTCGAGAATAATGGAGCGGATTCAAAGCCTCTGTGCTTGGATCTT
TAGGGCCCGGTACCTGCCTGTGGGGATTCCCAGATCCCAAGGACTTGGTTCTGAATCAGAGACCTTTGATCACCTCCTGTTACTCTTAGTAATAGTCCTA
ACGTGAGAAGCTAACATTTATATAGTTATACTTTTCTTGCCAGGCACCATTATAAGAAATTTAAACATATATAAGTTTATTTAAGCCTCACCACACTACC
ATGAAGTGGGTATTATTTTCATATGGGACAACTTTGTGGCCCAGTGTAGTGGGCCCTACCAAATCGTTTTCCACCCAGAACCACAGAATGTGACATTTAG
AAATAGGGTCTTTGGAGATGTAATCAGTTAAGATGAGGTCATACTTGATTAAGGTGGGTGCCAAATCCAAGATGACTGTTTGCCTTTTAAAAAGAGGGAA
GTATGGATACAGACACAGCAACAAAGGAAAAACGACCATGTCTAGATGAAGGCTGAGATTGGATTGGATTTATGTTGCCAAAAGCCAAGGTATGCTTGGG
GCTACCAGAAGCTGGGAGAGGCAAGGAAAGATTCTCTGCTAGAGACTTTCCAGGGAGGATGGCCTTGCAGACACCTGGATTTCAGATTGCTAGCTTCCAG
AACTGCGAGAGAGTTTCTGTTGTTTTATGCCACGCAATTTGTGGTACTTTGTTACAGTAACCCTAAGGCACTGAGATACCCAGTGAAGTCACATTGTTCT
AAAGAACTAGTCCAAGTTCTTTTCTGGTTTGGTGCTTGCCTTATTATTGTCTTCGTCTTTCTG


SNP Information

Context             (SEQ ID NO:66985):
ATTCACATAGTTTGGATTATCATTTATTGCAGGTGACCAAAAATCCTTTCACACTGGGCGACAGTTCCAATCCTGGACAGACGGAGAGACTACAGGAGTT
W
AGCCAGAAGATGGACCAGGTAAGAGGTCACTGGCCAGTCAGTACTTAGAATCCTGGGGCTCCAGTGAACAGGAGGCTGCATGCTCATGTCTTGCCACTTT
Celera SNP ID:            hCV25971386
SNP Position Genomic:     12005
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(A,1|T,39)   total(A,1|T,77)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66986):
ACTGAGACAGCTGCCCTTGTCCGCAGTCTATCACTGCTGGTATTAATTGGGCAGGAGGCCTCTGGTTGGCTTTCTTTGCTTCTGACTTAAAGCTTAAACT
R
ACCTCTCATTTCACAGTCTGAGACTTGCAGTGTGGAAATCCCAGAGCTAGAATTTGAACTGGGAATGGCAGTCCTCGGGGGCAAGTTCACCACACTGGAA
Celera SNP ID:            hCV25966316
SNP Position Genomic:     11135
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,38)   total(A,2|G,76)
SNP Type:                 INTRON


Context             (SEQ ID NO:66987):
ACAGGAAAGGAGTCTCCTGAGGGGAGACCGAGTCCAGCACAAGTGAAGGAGTTACCATTGAAATGATGACTTTCAAACAGCACTGGCCTCTGTATTGACC
Y
TATCCTTGTTTGATATCATGCTGTTAGAATTCAGCCTCCTAAAGAAAATTTTCCCGTGTATCTACTGTAATTTGGGGATTGCAGCTGGCATTTAATTCAT
Celera SNP ID:            hCV2679528
SNP Position Genomic:     15762
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:66988):
TGGTCCAGGCGGTCGGATCTTAAATAAATCCCCCTATGTCTCCTAGCCTTAGTTTCTTTTGTAAAATGGTACTGGTGTTGTCATCAGCTCAAGTGAGATA
M
GATTTGTGAAAATGCTTTGTAAATGTTGTCTGAGGGTATGAAATGAGCAGTAGTTGTTATGAATAGTATTCTCACCATTTGGACAGCCTGGCTCACACCA
Celera SNP ID:            hCV25970942
SNP Position Genomic:     6868
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,3)   caucasian(A,38)   total(A,67|C,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:66989):
GTGTCTTTAGCCTGAACATCCCATCTGGGAGGGCTCACCCTTTGTCCTCATGTTGTGTTCCAGGTGCTCCAGTTCAGCACAAACTGCCCAGAATGCAATG
Y
CCCCGCTCAGACCAACATGAAGCTAGTACGTATCTTTTGCCAAGCAGTTGGGTTGCTCTTCATCTGACTCAGGCATGAAGATTATAATCAGGCTGGGAGC
Celera SNP ID:            hCV25970007
SNP Position Genomic:     9299
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,39|T,1)   total(C,74|T,4)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,39|T,1)   total(C,71|T,3)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:66990):
CCTTATTTTGTTAGAGCATCTTCTCCAGTAGCTTCCTGGGAAAAAGTGCATGGGAAATAAAATTTCTGGGACCTTCCACATCTGAACATGTCTTTATTCT
R
TTATCACACTAGAGTGATTATTGGCTGGGAATACGATTCTAGGATAGAAATAATTTTTTATCAGAATTTCGAAGACTGCACTATGGTCTTCCAGTTTGGT
Celera SNP ID:            hCV2679529
SNP Position Genomic:     12596
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,6)      total(G,6|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:66991):
CTAGGGGAAGTTGTCTTTTAGAAATAATGTTCAGGGACATGAGGTATCTCCTACTTCCCTGGCTTTGAGGACCCCTGAGCAGAGGGAGTTAATCTAAGAT
K
GGAATTGCAGGTTTAGAAGGTGACCCTGTTAGCTCTTTCTGATGACCTGGTAGCTTTTTGGCCTCCAGTGTCTATCTGGGTCCTCTTCTCTGTCTGTCCC
Celera SNP ID:            hCV29138168
SNP Position Genomic:     10811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66992):
GGTAGAAAGTAATGGTAATACCATAGTGTGTTTATTGTAGAATTTTAGCATCACTATTATCAGACATGAATGGAACCTTGCACCTGGCCTTCTCATTTTA
Y
AGATGAGGAAATTAAGACCCAGAGAGTTCAAGTGAATTGCCCAGGGTCATACAGGGACTTGATAGCAGAGCTGAGGCTAAGTCACACTTGTCTTTTGTTC
Celera SNP ID:            hCV25960175
SNP Position Genomic:     7490
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:66993):
CTTTCAGTGTTAAGGGCTTTGCTCAGATGTCTGATAATCATTGATTGTCTTCTTACAAGTAGCGGGCTAAAGACCTGAGTAGGGGGTGAGCCTTGTTGAC
M
TGGGGCTTATTACAGGGGAATTTAACTTAGCTGTTTTGCTGAGGTGGCCTCCAATGCCAGAATTGTTAGGTCTTTCCTCTTGGGCTAGTCAGACAAAGAG
Celera SNP ID:            hCV11484654
SNP Position Genomic:     13434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:66994):
CGCTGCTCTTTCTGTAGGTTATTTATTAGTATTGGATGAAGGCGAAGGCTGGGAGTGTCTTTCCCACCAGCCCTTGCCCATGGTGGGGAGGACATCTGGT
Y
TGAGTCAGAGATCTGTGCACACTTTCTAAACAGCTTGTGATGCAAGTGTGAGCCTATTGTGTTACTTGACCTTATTTTGGAAGTTTTGAATTGGCCTAGG
Celera SNP ID:            hCV26488220
SNP Position Genomic:     15386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66995):
CAAGCACACCACAGAACAGAGGACAAAATAAATCTCTTTCATGGAACTTGAAGTCTAGTGGGGAAAAATGACAATAAACAGATGAGGAAAACAGTACATC
R
GATGGTGATTAGTGTCATGGAGGAATGTAAAGCAGGGAATGGGGCTGGGTTGTGCAAGGAAATGGGGAGTAGGGAAGATCTTCTGAACAAGAAGGTGATA
Celera SNP ID:            hCV2310398
SNP Position Genomic:     15997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:66996):
GTCATTTATTTTACTGTAAAGTTAGGGGATGAGGGTCCTTCTAGCACCTAAAACTTCCCAACATAAAAAACATACATGTATGGGTTGACTTAGCCCAAAT
R
TTTATCTCCTTGATGAATTATTTCACTTGATTCTCTGTTGGGCATTTTGTATTTGTAAATTGTACTTTTTCTTTGCATTTCTTCTCCAAATTAGTATCAG
Celera SNP ID:            hCV26488221
SNP Position Genomic:     11601
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,388|A,1065)   total(G,388|A,1065) 
SNP Type:                 INTRON


Context             (SEQ ID NO:66997):
TTGGCAATTTGGGATAAGTTTTGGCACGTTACCAGGGTTGGGCACTGTTCCTGGCCAGCTCTTGGTGTTTTTGGTTTGGGCGACTGCTGTTTAGAAGGCT
M
TTTCTTTGGTAGCTATTAATGGCCCTAACTGATTGGATGTCCAAGCCTACACTCCAGGTCTCCTGGGTACCAAGTGAGGCTCAGGTCTTCTCTCTGTTGC
Celera SNP ID:            hCV25969390
SNP Position Genomic:     10440
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,37)   total(A,1|C,75)
SNP Type:                 INTRON


Context             (SEQ ID NO:66998):
GCTTATCTACTTTATGCCAAGCACACCACAGAACAGAGGACAAAATAAATCTCTTTCATGGAACTTGAAGTCTAGTGGGGAAAAATGACAATAAACAGAT
S
AGGAAAACAGTACATCAGATGGTGATTAGTGTCATGGAGGAATGTAAAGCAGGGAATGGGGCTGGGTTGTGCAAGGAAATGGGGAGTAGGGAAGATCTTC
Celera SNP ID:            hCV8907629
SNP Position Genomic:     15980
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:66999):
AAGGAGACCCACACATTGGATGCAGTGGATGAAAGGACTGCAATAAATGCTTAAAAGTCTCTTTCAACCCCAAAAGTCTTTTTTTTTTTTTTTTTTAAGG
K
AAATTCAGAGTTTATTGGCAATTTGGGATAAGTTTTGGCACGTTACCAGGGTTGGGCACTGTTCCTGGCCAGCTCTTGGTGTTTTTGGTTTGGGCGACTG
Celera SNP ID:            hCV2310399
SNP Position Genomic:     10325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67000):
CAGAGAAGTGGTGAAGACTGACTCTGCTGCCACAAGGATTCCTGAGCTAGATTTTGAAATTCCTGCCTTTAGCCAGAAAGGAGGTAAGTTTAAGATCAGA
R
TATTTGGGCTGTTCGCATGTAGCTAGAATCTTACCCTCTTTCTTGCAAAACCCCCTGGTGCCAGGTCTAGTGGTTTGTGTATGGGTTCTACCATGTAATC
Celera SNP ID:            hCV27492527
SNP Position Genomic:     7232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67001):
TCATTAGTTAATCATGAGTGGAAAGCTTAGGTAAAACAGCTCGAGATGGTAGAAAGTAATGGTAATACCATAGTGTGTTTATTGTAGAATTTTAGCATCA
Y
TATTATCAGACATGAATGGAACCTTGCACCTGGCCTTCTCATTTTACAGATGAGGAAATTAAGACCCAGAGAGTTCAAGTGAATTGCCCAGGGTCATACA
Celera SNP ID:            hCV25960754
SNP Position Genomic:     7443
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:67002):
GAGACCTCCTCAAGGTAACAGTCTGCTTGGGAAAGTCACTGTTGTCCTCATAAGTTAGATAAACTGTCTCTATCTAGGGGAAGTTGTCTTTTAGAAATAA
Y
GTTCAGGGACATGAGGTATCTCCTACTTCCCTGGCTTTGAGGACCCCTGAGCAGAGGGAGTTAATCTAAGATTGGAATTGCAGGTTTAGAAGGTGACCCT
Celera SNP ID:            hCV2679530
SNP Position Genomic:     10738
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,31)   caucasian(C,9|T,31)   total(C,16|T,62)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67003):
GAGAGGGAGAGACAGCTGGGCTGCGGTCTGATGGAAGGGGACGGTCTGGTTATTACTTGAGGAGAAGCTGTTCTGCAGTCTCTTTGTACTGAACGTATTC
Y
TTTCTTCCCAGGACATGAACAGAGAAGTGGTGAAGACTGACTCTGCTGCCACAAGGATTCCTGAGCTAGATTTTGAAATTCCTGCCTTTAGCCAGAAAGG
Celera SNP ID:            hCV25964997
SNP Position Genomic:     7112
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,35)   caucasian(T,38)   total(C,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:67004):
GGCACGTTACCAGGGTTGGGCACTGTTCCTGGCCAGCTCTTGGTGTTTTTGGTTTGGGCGACTGCTGTTTAGAAGGCTCTTTCTTTGGTAGCTATTAATG
R
CCCTAACTGATTGGATGTCCAAGCCTACACTCCAGGTCTCCTGGGTACCAAGTGAGGCTCAGGTCTTCTCTCTGTTGCTCCTGACTGTTATCGATGCAGG
Celera SNP ID:            hCV2679531
SNP Position Genomic:     10462
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,21|G,19)   total(A,27|G,51)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67005):
GGGCTGTTCGCATGTAGCTAGAATCTTACCCTCTTTCTTGCAAAACCCCCTGGTGCCAGGTCTAGTGGTTTGTGTATGGGTTCTACCATGTAATCATTGT
R
ATCTTCATTAGTTAATCATGAGTGGAAAGCTTAGGTAAAACAGCTCGAGATGGTAGAAAGTAATGGTAATACCATAGTGTGTTTATTGTAGAATTTTAGC
Celera SNP ID:            hCV25961389
SNP Position Genomic:     7338
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,12)   caucasian(A,35|G,5)   total(A,61|G,17)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,4)   caucasian(A,32|G,4)   total(A,48|G,8)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67006):
CACTTTGTCTGTCAGGGCTCTGGAGGTGAGAGGACCTCAGAGCAGGTACCTCAGTATTCTAGAGAGAGATTCGGTACTGGGGTCAGAGCTCTGGTCCAGG
M
GGTCGGATCTTAAATAAATCCCCCTATGTCTCCTAGCCTTAGTTTCTTTTGTAAAATGGTACTGGTGTTGTCATCAGCTCAAGTGAGATAAGATTTGTGA
Celera SNP ID:            hCV2679532
SNP Position Genomic:     6777
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(A,1|C,39)   total(A,2|C,76)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,9)      total(A,1|C,9) ;JBIC-allele(A,350|C,1143)   total(A,350|C,1143)
SNP Type:                 INTRON


Gene Number:                 432
Celera Gene:                 hCG41736 - 104000117023920
Gene Symbol:                 MYH7
Protein Name:                myosin, heavy polypeptide 7, cardiac muscle, beta;CMH1;MYHCB
Celera Genomic Axis:         GA_x5YUV32VVQK(29334650..29369631)
Chromosome:                  Chr14
OMIM number:                 160760
OMIM Information:            MYOSIN, HEAVY CHAIN 7, CARDIAC MUSCLE, BETA;MYH7


Genomic Sequence (SEQ ID NO:12592):
GACCCTTCTCCAGCCAGTGAGTGGGCCCAATGATGACAGCCAGGGCTGTATCGAGCTCTGCCTTGAGCTCCCTACGTGCATATCTGAAGATGAGGAGGGA
GCCAGCTGAGCCTCATGTTTGCAAGCCCACTTTCTGGTGGTGGGTACCCAAACTCTCTAGGCATTCTCAAAGCACCCCCCAGGCTTCCAAAAAGGGAGAT
GAGAATAAGAAAACAACCAGAAAGTGCAAAAGAAAATGGTGAACAAAACAAGGGCATCTTTTATTACCCCCTCTTCACATATTCTGGAATACCCTACCTT
AAAAACAAAACAAACCGTGCTACTTGGCCCTCTTCCCTTGAGTTGTTGTCTAATCTCATTCATTTCACTGCCAAACTCCTCAAATGCATGGTGTACACCC
ACTGCTTCCACTTCCTGTCCACTCATCTTTTTCCTCATTAACTCCCTGTGGCCTGGCTTTGCCTGTGACACTACACAAGCTGCTTGCTCCAAGATAATCC
AAGTTCTTTTCTCTGTCTTCCTGATACACAGGCTTTCTTTGGCATCTGACACTGCTGGCCACCTGCTCTTCTTGAAATGCTTCTTTTGGCTTCTAGGAAA
CTGCCCATTTCTCACTCTCCTTAGCTGTCTTTGAATCTCCTTCTCTTCTCTGCGGGCTTCTCTTCCTTCTCCCATCGCTGTACTGTGGGTATCTCCCAGG
CCTTTCCTCTTCTCTCCAACCTCATGGCTTCTTTCACATCCCCCGAGGTAGTCAGCCCTCTTTATCCAGTTCTGCCCACTGGTCTCATAGCTCCAGCTTC
CTTCAGGAAAGCAAAACATCTTCCATTGGTTGCCCCACTCTTACCTCCATTTCCCCCAAACGGAACACTGTCCTTCCTCCTACGTGTCCCTTTTGCCATT
ATTCCCATCCTTGCCGACATCGTGCAGTCATGCCTCTCCCTTCCTCATTTCTTGCGTCCAGGCTGTTAGCAAGGCATTTTATTCCTTCTTTAGAAAGGCC
TTCCAGCCTTGCCTTTCCGCTTCATGCTGCTGGTCTCGCTTTCCTGCCAACGTTGATGGCTACTGTATCCTCCTCTCGGGTCTCCCTGCCTCCAGCCTCT
CTTCCGCAAAGCACCCAATAATACCCCTGCTAGGCCCATCAAACTCTGGTTTCAAGACATCACAATGACTGCCATGGTTTAGAACTTTAGTCATTCCTCA
TTGCTTCCAGGGTATTATCCATTTTGCTGTCCTGGGAAACAGGGCAGAGTCCGTAGAAAGCCCTTTGAGCAAGACAGACCTGGGTCTGAATCCCAGTGCC
ACGTTTGCTACTTACCTTGAGCAAACATCTTAGCCTCTCTGAACCCCATTGCTCCTCCATAAAACACAATTAAAGTGACACACAATTGTGAACATGTGTG
AGATCATGGTGTATAAAACACTGTGCACCTGGCACAGGTGGTCACTCAATATGTATATAGCCCTTTCCCCTCTCCGACATTGGGGCCCTACCTTTTTTTC
CTTCCACCTATGTCTCCAGATCCCCCATACGCATAGCCTCATCAGGCATGTGTCCTCCGAGTCCTTATGAACTCACCACACCGTTCCCCTTCCATGCCTT
TGGTCACTCTGTGATTCTCATTGCCCAGAACATATCCTGATACTCAGTGCTTCTTAAAGCCCTCCCCTCACCAAGCTCCACTGTCATGTCCCCATCTTGA
AAGCTTATTTTATTTTATTTTATTTTGGGACAGAGTCTCACTCTGTCCAGACTGGAGTGCAGTGGTGCGATCTCAGCTCACTTCAACCTCCGATTCCCAG
ATTCAAGTGATTCTCATGCTTCAGCGATTCTCATGCCTCCTGAGTAGCTGGGACTACAGGAGTGCACCACCATGCCCGGCTAATTTTTGTATTTTTTGTA
GAGACGGGGTTTCACTATGTTGGTCAGGCTAGTCTCAAACTCCTGACCTCAAGTTATCTGCCTGCCTCAGCCTCTCAAACTGCTGTGATTACAGGTGTGA
GCCACCAACGCCCAGCCTGCTCCTATCTGGTGGCCTGACCAATGTCACCACTTGGCCTGGGTCAACTCCTGCTGGACCTCAGGACACACTGGCTTGTCAT
GAGGGAAGCTCAGTGGGCAGCAGTCAAGCAGTGATGCCTATCCCAGCTCAGGGCTGGACTGTGGGCCTAGACTGAGTCTAGGACAGTCTGAGAACCTTGG
CCTCCTGGCATGACGTTCCCAAGGGCAGTCACAGTCTGGGTAGAGCCGACCACAAGACTGCAGGATTTCTGATCTACTCTGGTCCAGACCATCCTTTGAA
CCAAGTGGACTTAGTGGGGCTGAAGGAGGTGTGGGGACAAAGAACCTATGGCAGGGCAACCGGCCCTCCTGTCTGCAGCCTGGCTTCCTCAATTTTGTGT
TCCTAACCTAAGAGCTGCCATTCAGTGAGGGCCCACAGTGTGTCTGCTGTGTGTAGACTCTGCTTGTGCAATCTCTAATGGCCTGAGTAGCCCTGGAAAC
AAAATGTGGCTATCCCCATGTTACAGATGACAAAACTGGCTCAAAGCAATTATATGACTGACGTAGACCACACAGCTAGAAAATGGAATCACTGGGTTTC
AAAGTGGATTTTTGTGACTGACTCCAAAGCTGACCAGAGTGCTCATCCTGTATGCTTCTGAGGCCTCTGGCCCTCCAGACCGGTCACTCCCCACAAAGTC
TCCCTTTTGGTGAGTTGTGTCCCTCCAAACACTCCCTGAAGGCAAGATCAACCTGCCCTAACTACCCCAAAGTGAACTAGGCCAGCCCCAAGCCTGTCTC
CGGCCCTCCATCTCTCTCTTTGTTCACATCCATCAGAAAGCAGAGACCTAGAGTAGGGAATGAGAGGGGGTGCACAAGTACAAAAGATTTTGAAGCCAGC
AGGAAGACAAAAGAATGACAAGAAGGAGCAGCTGTTTGTAAAGGGAAATCTGAGACAGGCAGAAAGCTCAGCTCCCTAATCCTAGGCTCGTGTGGAGCCA
GGGCAGGGTCCCCCCAAGGTCAGGGATTCTGGGGGCAGGCGGATGGGAGAGTCAGCCTCCACTCCTGGGTGGCTCCCCTCTGCCCTGTGCACAAACAACG
AGTGCCTCATTCCTCCCCTGCACCAAGTGCCCTGCCTCTTCCTGCCCCGTTTCTTCCTTCCCTTTGGGTACCGGAGCTTTTTTCTGATTCCCCTCTCTCC
ATGCTGACATCGCTTCTAATTCGCCCTGGTGTCTCCCTCCCTCACAATTACTGGGAGTAATTTTAGCAACTTTTCCTCTGAACTACCGCTGGCGTGTTCA
CAGCAAATGGCCCCTGTTTTGGCTTGACACTTGATCAGGGTGGTGACAGAGTGCAGACAAAGCCGGCACAATGCGGGGAGGGGAGGACGGGGGACAGATC
ACCTTCCTTTCACTTCAGGCCTTATTTGGTCTACCTTGCCGAAGCGGCCCTCCTTCCAGCCTCTCTTTATTTATAGCATTTTGCTTTGCTCTCCTTTATC
TTGCTATCACTTTGTAGCACACTCTGCACAATCCCCACCCACCCCAGCATGGTGGGGCCCCTGGCCCCTCACTCTCCCCACAAGGAATGTGCATGTGTGC
AAAGGGTAGGCCTGGATGCCATTTCTACAAACAGTTGACTAAAGCAGTCCAGAGCAGGGATCTTTCTTTGGGTCATTGTTATGTCCTTATTGACCAGAAT
AATGCCTGGCACATAGTAGGCACTCAATAAATACTTGTTGAATGGAGGAATCTGCAAAGCTGCTCAGTCTTCAGACAGCAGCAAGCAGCAGGAAGAGAAT
CATGATGTAACCAAGAGCAGGTGCTGGAGGAGCTAGGGAGTGAGTGGGGATCTTTAAGGACAGCAGGCCCTCTGATCTGTCTGAGCTGTGAGGCAAAGCC
TAGTTAGGGAGGTGAGTTCTATCTGCAATGAGAGGGGGCATGGGTGGAGAACAGTAACACCCAAACACCAACAGACCAGAGCCTCCCAAACCCGAAAGGA
GAGAAACAAAGTGTGATTGATTTCCCAAATGCAGAAAAGACTACCCAAGTCCCCAGCCAAGGAAGGAGGCTGGCCTGTGGTGAAGACACTGGCTTTGAAA
TGGCTCAACTACGTCCCAAGCACCCTTTGTGCATCTTAATTGCCCTGGGAAATCAGGGAGGGGTGGCAGTTTGGAGCTTGGAAAGCTGGAAGGTGGGGAC
GAAAGGAGTTTTTGCCCCTCATCGCCAATCCTTGAGGTTCCTACAGGGAACCTCAGACAACAGCTGTCTTAGGGGTTTCCTTCCAGCTCCAAGCAGCTGT
ATTATCTATAGCTTTGAGAGGGTCTGTCTCTGTCAATGGGGCTGATTCCTCAGCACCTGGCAGGGCCTGGGGGGGACTGCCAGAGTCTGTTCTGCCGGGC
ATGTTAGTAGCACAGACTACTGGGATAACCTCAGCAACTGTATACCTTAGCACTGCAGAGCTGCGGTGTTGTCAGACACAGCCCTTGCAGTTCGTGGTCT
ACCCCCACTTGCCTGCACCCCCCTTATAGCTGCTCAATGTCCTCAGACTGTACCTTAGTGCCTTGGTTACCAAGCAACCCCCACAGAGGCCTCCTCCTGG
ATTTTCCCTTCCCTGCTATGCCCACCCCACCTTCAAAATGTACCTGCTGCACCCATCCCCCAGGCCTGCCTCACTCCTTCCAAGCTGACAGCTAATCAGA
TGGACTAATCCGCATGCGCGGAAGAGCTGTGCTTGGGAAGAAGGGGGAGATTTCACACCAAATCGTGCAGTGGTTGCCTAGACACGGAGCCAGTCAAGCT
TGCATGCCCCGTTGCTAGAAGAGCATGGCATCGGTTGTGTTCTGTGCTCGTAGGCTGGGCCCCAGCTCCCTTTCCTCCCCTCCTTTGTGGCTGTTCCTCA
GGCCTGCAGAGGGGAAGATTTTTCCTGTCCTGTTACTCTGCCTCACTTGCCAGAACACTAGTCGCCTCCAGCTCTGGATAAAGCTGAGGCTGGGTGGGCC
AGACAACAGCTGTCTTAGGGGTCTCCTTCCAGCTCCAAGTAGTTGTATTATCTATAGCTCTGAGAGGGTCTGTCTCTGGGCTCAGGCCTTTAGTACCTGT
GGGGCAGAGCCAGGAACGTGAGTCAGGCAAACCGCTCCAAACTAGGACCAATGCAGCTGGGTCCTGCTCTCTGCGCATAGGGGGTCCCCACATCTTTGGA
ATCCCAGCCCACCTTTCCAGGCTACCCTCCACAGGCCGGGCTCCACTCCCATCTGCTGAGGTTTCCCACCTTGAATCCTGCTGCCCCGATTAGCTGTATA
ACCTTAAAGAATGCACTGTCCCTCTCCATTAAATGAAGTGCTTGGATGGATTGCTAAAGGCCTGTCTGGCTCGGAGGCTTGGTGACCTCAACACATTGCC
TGCTGGTCCAAGGAAATCAGTGCCTGAGCCAGAGTCCCCATCTCTAAGCTCCATGGTTATTGTTCTTGCCACCTGGCTAGGAAATGTCCTTCCAGCTGCC
CCAGTCTAGCTGCCTCACCCTGGGGCCATGCCCCCAACTCTGTCCTACCCTTCTCTGCTGCTGACACTCAGCCCCTTCCCAGCTTCCAGTTGGATACAGG
ACCTGGGCCAGGAGAGCAGGGAGGACACTGTGGAAATGCGGCCAGGCCATCAGGGGCCTCGCAGCAGGGGACTGGAGGGGGAGCAGTGTCCAGGGCCAGA
AGTGCCCTGCGGGAGAGCCAGGACATTGGCTGCCTGTGGTCTTGGTGGTCGTGGTCAGTTCCCTCTCCTGCCAGCTGTGGAATGTGAGGCCTGGCCTGGG
AGATATTTTTGCTGCACTTTGAGCCACCCCGCCCCCTGGAACTCAGACCCTGCACAGTCCATGCCATAACAATGACGACCACTTCCAATTGTTTCCTAGC
TGGAGAGGCGGGGAGGGGAGCACTGTTTGGGAAGGGGGGGAGCCTGGGGGAAATGCTTCTAGTGACAACAGCCCTTTCTAAATCCGGCTAGGGACTGGGT
GCCGTTGGGGGTGGGGGTGCCCTGCTGCCCCATATATACAGCCCCTGAGACCAGGTCTGGCTCCACAGCTCTGTCCTGCTCTGTGTCTTTCCCTGCTGCT
CTCAGGTAGGAGCGGGAGCTGGAGGCTTTACTCTGGGATAAGGGGGCTCCAGGCTTAGGAAGGGATTCCTCTTGGAATAGCAAGCTTCATGCAGGACTTC
ATGCAGAGTACCAGGTCCAGTCACTGGGCACACATGTGCAGGTCTAAACATGGGCGTATGTGCCACAGGAGTTCCTAGGGGMAGATATCTGCATCTGAGC
ATATGGGACCAATATGCATTACAGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGACAAGCCTGCATAGTCTGAATGTGAGAAAGGGTATGTACCT
CACTGACTGATACAGAAATATCAAGTGGGAGATGTGGGTGTATGATCACGTCTGTGAACGAGGAGGTTCCTTTGCAGGGAGGGAGAAAGAATGGTGGAGA
AGGATTCTAGGAAGTGTGTATGCCTTCATGTGATTCTGTGAGGCCTGGAATGTGTAGCTACCCCTGTCCATGCATGCAGAGGTTCTTGTCTATGCCTCCA
CGAGTMATGACTGTTATAGTATCTGTACCCTCTGCAGAAGGAACTCACAGGCACGGGGGTGTAGGATGTTCCAGGTCTTTGTGTACTGAAGAACACGCAG
TGATGTGATCTACTTACGTGGCACACATCCTSAAATGTGCACATTTGCTGTTGAGGCATATATGGCACCCTGGGGTTGGGGTGCGGATTGAGGTATGGGA
AGGAAGCCTGTCYTCATGTGAGAGGCATGCCCAAGCAGCAGGCATGAGTGTTCATCAGAGGGCTTGTGGAGGGTGTTTGGCTATGTGATGGGTGTGTCTG
TGAGAGGAAGCCCACAGTGTCTTCTCTCTGAGAATGTCCACAAAGTCTGACAACAAAATGGGGACAGGATGGAAAAGAASTCTCTTTAGAGTCATCAGAC
TTGCATTCAAGYCTTGGCTCTCCCACTTGTTGTCATGGGCTCTTGGCCAAGCAASCCATTTAACCTCGATTTCCTCATCTGTCAAATGGGGTGAAGACTG
AGTAGGAGAAAGTGCATTGAAGTGCTTTTAGACTGGAAAGTGCCGAACAAATGTGACCATTAGTTGTCTCTCAGATGGCTCAAAGAAAGGTACCACTAGA
TGGGTACAGGCAGGGGTGGGACCATCTCGCAGGAGTGAAGAGGATTAGGGTTCAGGTTGAGTTGACACCAGGAAGCTGTTAGAACTAGTTCTTGAGGAAA
AAGGGAATAGGGTTTGAAAAACAAGAAGGATGGGACCAGAGAAGCTGACCACCCTTTCCACCTTGTTTTGGAAGAGGGTGGATGCTGAAGAACAGAGCCA
GGGAGAAGCAGGAAGGTGGGACTGGTCAGGTTGGGCACAGCCTGCCCTGACACAGCCTCTTCCCTCTCTCCAGGTYCCCTGCAGGCCTTGGCCCCTTTCC
TCATCTGTAGACACACTTGAGTAGCCCAGGTAAGAAAAGCTGAAGCTAGAGYGTTGAAAATCTAGTAAGACTGGGCATTAGAGCCCCAAAGCCAGCCTAT
GGAACTCTAGTTTCTGCCATGTGCTGGAGAGAATATCTTGGCTATCAAGAGCTACTTACCTGTGACCAGGGGGTCCAGGGATAGATGAGGGTCAGAGATG
GAAATAGTTAGATTTCTGCTCCTACAGGGAGCTCAGAATGCTCTTCCTTCCCCTAGGAGAGCCCCAGCTTGAACAATAGTTWGTTGTTCCTTTTACCCTG
GCAGGTTTGCTAGGCTGCTCCTCTGGTTAAGGGGTAACCTCAAAGAGGAAGGGACTCACTGGTAACTCCTCTTGACTCTTGAGCATGGTGCTAGGTTTTG
GGGCTCCCACTGAAGGGGAGAGCCCAGGGAGGGAAGGGAAGAATGGGCAGATGGGAGKGCAGCCAGCTTCTGCTCACTCCAGGCACAGCCATGGGAGMTT
CGGAGATGGCAGTCTTTGGGGCTGCCGCCCCCTACCTGCGCAAGTCAGAGAAGGAGCGGCTAGAAGYGCAGACCAGGCCTTTTGACCTCAAGAAGGATGT
CTTCRTGCCTGATGACAAACAGGAGTTTGTCAAGGCCAAGATCGTGTCTYGAGAGGGTGGCAAAGTCACTGCCGAGACYGAGTATGGCAAGGTGGGTGTC
AGGCTGATGTGAGAGTCCACCCTGGCCACCTGTACACCTGGGTGGACAGAGAGGGGTACACCCATGCCCCATGCCCATGCAGACCTGAGGATGGTCCCAT
TCTCCTTCCCTYTGGGGAAGAATCCAGACCCTCCAAAGAGCCCTCTCCTTCCCAATATCCCTTCTGTCTTCCCTGTGAGATCCTGGTTCCTTCTCTCTTG
AGCACTATTGCCCTGTCACTCACCAACTCCTAACCCTCTTGAGGAAGGAGGGRAAGCCCAGGCTGACAGGAGGGCTTGGGTGGGGGCTCTTGCAGACAGT
GACCGTGAAGGAGGACCAGGTGATGCAGCAGAACCCACCCAAGTTCGACAAAATCGAGGACATGGCCATGCTGACCTTCCTGCATGAGCCCGCGGTGCTC
TACAACCTCAAGGAKCGCTACGGCTCCTGGATGATCTACGTGAGTSCTGCMCCTGGCCCTACGTTGGGATCTCTGTTCTTGCTCCATCCATGTCCACCCC
AGGAGCCAAGAGTGTCTTCTGTTTGTGTCTAGGCAGGGTTACACTCTAACCTCGTCCCAACATCCTTGGTTCAATTCCAACACTCTGGGGACTGGCATTA
CTCAGATTGAGTGCATGCAGAGGTTTTCCTTTCTCTTCTTTCTCTCCTGGGATCTTTCTCTAACTCCCAAAATCACCAGCCCTCCCCCTTCRCAACTGGC
AAGTCACTGCTCCTTTTCTATCCCCAGACCTACTCGGGCCTCTTCTGTGTCACCGTCAACCCTTACAAGTGGCTGCCGGTGTACACTCCTGAGGTGGTGG
CTGCCTACCRGGGCAAGAAGAGGAGCGAGGCCCCGCCCCACATCTTCTCCATCTCCGACAACGCCTRTCAGTACATGCTGACAGGTGAGAGGCCCTGGAA
GGGTCTTCCTGAAGGGAACTGGGATAGGCCGGGAGGGAGAGGGAGAAGGAAGGGAGAAGCCCCACGAGAGCATCCTGTGCAGCTCCTRACCTTTCCYCCC
CACCCTCTCCCCACAGACAGAGAAAACCAGTCCATCCTGATCACGTGAGTGTAGCTGCTACTGTATTCCCTTTCAGAATCTCCCTGATCCCAGCCTCCAG
CCCCATCAGGTGTCCCAGGCCCCGAGGCATAGACTCAGCCTCTTTCCCCSCAACCTCGTGCCCATCTCCTTCTTCTCTGACCATTACCCTGACCCCTCTC
TTTGCTCTCCCTCTTCCTTTCTGCTTTCCATCCCCTTCATGTTTTTCCTCTCCCACCTCCTTCACCCACTCTCCAACTCATCACGCGTTTATCCAGAAGC
TCATTATCGCCATGTCTTCACCTCTGCATTTTCTTTCCCTTCAGAAACATTTCCCATTCTTCCAGCCCTACCAACTTTTCCCAAAACAGCCCAGGCCCAT
CTCCCCTGTTTACTTTGCCCAGCCAAGCACAGGCTCAGCCTGCCCAAACCAGTGCCTTCTGGTGGCWWCCTTCCTGGTGYCAGCCCTGACCTCTGTGCAT
CAGAAGACAGTTGTGGATTTTGGGTGTAGATAACCTGGCAGCTTCTTGCCCAGGGCTCCTACTCTCGGGTAGGCCCAGGCATTCTCTCCTGATTTGAGGC
TTGYYGGTCTCCAGTAGTATTGTTCACTGCCCAATAAGCCCCTGTCTTCACAGCGGAGAATCCGGAGCAGGGAAGACAGTCAACACCAAGAGGGTCATCC
AGTMCTTTGCTGTTATTGCRGCCATTGGGGACCGCAGCAAGAAGGACCAGAGCCCGGGCAAGGTAGGCCTGCTGCCCTCCAAGGTCCTGTACCGCAGAAA
GGGAGGGAGAAGAGCTCTCACCTGCCTCCTTCTTGGCCTCTGCAGGGCACCCTGGAGGACCAGATCATCCAGGCCAACCCTGCTCTGGAGGCCTTTGGCA
ATGCCAAGACCGTCCGGAACGACAACTCCTCCCGCYTYGTGAGTGGTCCCTGACCTTGGCCTTGGGACTTGGACTGGTGGAGGAATGGTCTCAGATATGA
GCCTTCCCCCAACTCATCACCACTCTCTTCCMTCTCTCCAGGGGMAATTCATTCRAATTCATTTTGGGGCAACAGGAAAGTTGGCATCTGCAGACATAGA
GACCTGTGAGTGCCATGAATCTGCTAGGCTCAGCCTAAGCTCACCCTTGCTCTAGACCATCTGGTCTTGACCTCTCTCTCTCTCCCCTCCCTCCCTCTGT
TTTTCTCCTCTTTAAGTCTCTGTCTGTAGGTGTCTCTGTCTTCAGGTCTACATATCTGTCTCTCTCTGAGACTTCCTCTGCATCTTTCTCCATTTCTGTC
TCTGCATGGCTAGGTGTCTTTCTCTGGGATTTCTCTCTGAGACTATTTCTCTCCTTCTGGGTCTCTGTTTCCATCTCTCTGTGTGATCTCTTTGTGTCTG
TCCAACTAGTCTCTCTGGCTCTTCCCTTCCCTCTGCCTTTTGCTTGCTACATTTATCATTAATTTTCCTTGTGCCCAAACCCTAACTTTTCTTTCTCTCC
TTCTTCTCCCCACCTGTTCACAGATCTTCTGGAAAAATCCAGAGTTATTTTCCAGCTGAAAGCAGAGAGAGATTATCACATTTTCTACCAAATCCTGTCT
AACAAAAAGCCTGAGCTGCTGGGTGAGTCAGAGCCACCRACTGAGACCAACTATCTCCATGGCAACCTGGTCCCCTCTGCTTGTGGCTGGACTCAGCTGG
CATGCCCTGGGTTTCATGGCACTGCTGGATTCAATTCAGTGGGATGTGGGGCCAAGCCAAGCCCTGTCCTGTGCTCTTCCTCAGGCCATGTGCTGTGGCG
AGCAGCCTCCATGAGAGCCGGGGGCTTGTGTCCCACCCTAACCATGTTTTTTCCCCTAGACATGCTGCTGATCACCAACAACCCCTACGATTATGCATTC
ATCTCCCAAGGAGAGACCACCGTGGCCTCCATTGATGACGCTGAGGAGCTCATGGCCACTGATGTGAGTGTGTGAGGACCCAGCCAGGGGGTGGGAGGAT
TGGCAGYGAGGGGCAAACAGGGKTCCAAAAGCAGAGCTAAGACKCTGGCCATTGGTTGTTTAAAGTGGTATGGACCTCCTGAGAGCCAGAATGTGCCCTG
TGATCAGGGTGTACTGRGGAATGGATGAGGTGAGACAGGACTGGCCAGTATCTGGTGTTCTATCAAACCAGGAAGAGCTGAAASSCATGAGACAGAGAGA
CACACAAGCCAAGAAACAAGCATCACCGAGGGAGCAGGACGAGGAGGGAAGGCCATGCAGACGGCATGGGGCTGGAGGGGCTGTTAGGTGAACAGATGCA
GACAGGTATGGAAGGCCAGGCAGGAAGCAAGTGTAGGGCCAGGAAGCATAAGTGGGTAACTCAGAAAAGCTGTGGCCACTGACACTGGGGCTGCGGCCAA
CTGACGTCTGCTCTGCTCTTGCATCTTACATCCTTTGTTTTGGAGTTCCCTGCATCTTACATCCTTTGTTTTGGAGCTCCCCACTGGGTATGGGAGTCTC
AGAACCCACAGGGATTAAGGAGACAAGTTTTCTCTCCAACTTACAAGGGATCTCACTTACCCATCATACTTCTTTTTCTGGGGTCCGCCAATATGGGGCC
TCCCTACAGAAYGCTTTTGATGTGCTGGGCTTCACTTCAGAGGAGAAAAACTCCAYGTATAAGCTGACAGGYRCCATCATGCACTTTGGAAACATGAART
TCAARCTGAAGCAGCGGGAGGAGCAGGCGGARCCRGAYGGCACTGAAGGTGGGAGGCAGGGATTCTTGGGGGCAGCTGTCAAGTCATGGAGGGCCATGTC
TGCTCAGCAGTCATCTCTCTTCTCTTTTTTCTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGCGCAGTGGCACGATCTTGGC
TCACTGCCACCTCCACATCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGAATTACAGGCATGCACCACCATGCCTGGCTAATTTTT
GTATTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAGGTTGGTCTCAAACTCCTGACCTCAAGTGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGA
TTACAGGCATGAACCACCACACCTGGCCAGCAGTCATCTCTTTACCAACTTTGCTACTTGCCTTTTCCTTCCAGAGGCTGACAAGTCTGCCTACCTCATG
GGGCTGAACTCAGCCGACCTGCTCAAGGGGCTGTGCCACCCTYDGGTGAAARTGGGCAATGAGTACGTCACCAAGGGGCAGAATGTCCAGCAGGTGGGTC
CATCTTCAGATGATAATGGGTGGGCAGGGTAGGGAGACTGGCATGGTGGGATGAGAGTTTTCAAGTTCACTCTTCCCAACAACCCTGCTCAATATGGGTC
TCTCCTCCACCTTGCAGGTGATATATGCCACTGGGGCACTGGCCAAGGCAGTGTATGAGAGGATGTTCAACTGGATGGTGACGCGCATCAATGCCACCCT
GGAGACCAAGCAGCCAYDCCAGTACTTCATAGGAGTCCTGGACATCGCTGGCTTCSAGATCTTCGATGTGAGTTGGGACCCCTGGGAGTGGGAGAACAAT
CACTCACTCGCTCCCACATTCAACAGCTATTTGCTTAGAGCCAGCTGTGGACCAGACATGGGAAGGCAGTGGGGACTGTGTGGTGACAGAGGCAGTCATT
TWCTCTGTCTTCAGGGGAAGCCCTCCTTCACTGCYTTGACATGGAGGGGACCAGCCACGCCCTGCTGGGCTCAGGCACAGTGGACGGGCACAGCCCCAAT
GGCCACTCACACCCACTTTCTGACTGCTCCCACCCCTCATGCCCCCTGCAGTTCAACAGCTTTGAGCAGCTCTGCATCAACTTCACCAACGAGAAGCTGC
AGCAGTTCTTCAACCACCACATGTTTGTGCTGGAGCAGRAGGAGTACAASAAGGAGGGCATCGAGTGGACATTCATTGACTTTGGCATGGACCTGCAGGC
CTGCATTGACCTCATCGAGAAGGTGCCTCTTTGGCCTTACCACCTGAATTCTCCCTGCACACCCAACAAGAACACCATAGACAAAATAGCAGCCCCTCTC
CCTTCTGGGGAATATAAAAATAGAAGGGGCTGAAGGATCCGAGCCCTTGGTTCCAGAGCCTATGTTGTGCTGAGCACCCAGGACAGGGTGGCACCAGGGA
CAGCTGATTTCCCAGGGGCTTGARAGTGGACACATGGAGGATGGGCACCTGCATGATGACCTCCYACACCTGCATGTTTATTGGGCCTGGTTTATGCATC
CAAGGATCAGGAAGTGTGAGGGTGGTGTAGGGGATCATAAGAGTGCACCTATTTTCAACCCTAGCATCTCAGGCATCTGGGTCGTGGAGTGGTGTGTACA
GCATCGATAGAATCCATATTCCCAGACTTTCACAAAGGTCCTTCTGTCATCAGACAAAATCCTCCACCTTGAACCGGTTCCAGTCAGTAGATAACTGTAC
TCAGAGCTGAGCCTACTACCTTAACACCCAACATGGCACCTCCACGAGCAAGTATATTGACCATAGAGCAGAATCCATGTCCACCTGTGTGAAGGACACT
CAGTGATGCTCTCTCCTGCTTCCTCAGCCCATGGGCATCATGYCCATCCTGGARGAGGAGTGCATGTTCCCCAAGGCCACCGACATGACCTTCAAGGCCA
AGCTGTTTGACAACCACCTGGGCAAATCCGCCAACTTCCAGAAGCCACGMAATATCAAGGGGAAGCCTGAAGCCCACTTCTCCCTGATCCACTATGCCSG
CATCGTGGWCTACAAYATCATTGGCTGGCTGCAGAAGAACAAGGATCCTSTCARTGAGACTGTCRTGGGCTTGTATCAGAAGTCTTCCCTCAASYTGCTC
AGCACCCTGTTTGCCAACTATGCTGGGGCTGATGCGCGTAAGTAGGGACTGAGGCTCCCGGTACAGAGGAGCAGGGATTCTGCCAAGGTTCTGAGCCAGG
TCAATTGCTACACCCCACCACTTCAATGTCAGGTTGTACCCCAAGGTTTACAGACTCAGTGGGATGGAACTGGGTGAAGAAACTGAGGCAGCCACATTGA
AGGCCCTCACCCAGGGGCCAAATGCCAGCAAGGATGTAAAGAGGGGCTGTGATTCTTTACTCACACCCTACCTCCCCACACTGATGCTTCTTTTGTTGAC
TCTCCTTCCTGCAGCTATTGAGAAGGGCAAAGGCAAGGCCAAGAAAGGCTCGTCCTTTCAGACTGTGTCAGCTCTGCACAGGGTGAGTGGGACACAGCCC
CAGCCAACTTGGCTCCCCATCTGCCCAACCCCACCCAGCCCCACCCTTCCCTGCCTTGTTCATCCCCTACTCCTCCCGTTCCCTGTCTCCTTGGTGCATT
CGGGACCATTTTCACTCTGTCTTCTCTTCCCGTCATCTCCTGGCCTCTTCACTTATTTACTTCCCATCTCCCTTCTCTCCTCTTTCCCTTCTGTCTCCCA
CCCTCTCTCCTTATCCCTGTCTSSCCCCAGGGCCCCTTCATCTCTGTGACTTCTCGAATTCTCTCCATCTCTCTTTTCCTTCCTTCTTCTCCTCTCTTCT
TCCTGCATCTCTTTCTGGCATTTTCTTTACTTTTCTCTATTGCATTTTTGGCCACAGGAAAATCTGAACAAGCTGATGACCAACTTGCGCTCCACCCATC
CCCACTTTGTACGTTGTATCATCCCTAATGAGACAAAGTCTCCAGGTGAGGCCACAAACTMRGGCCAACCCACTGCTGGGCATWCACCGCCCTGGGAACA
GGACCTCCTAGGACATCTCCCTACCTACCACCACAGTGGTTTCCAAACCACATTCTTCTCCTCCCATCCCGCATGAGGCCTCCCAGGGTACCTCCCTCTC
AGCGCTACCTTGCACTTGCAGTGTGTAATGAGGGTGATGTGTAAGGCACTCTGATGGACATTACCTCATCAGTGGCCCTACAACCCCYTGGATAGCTGGT
TGTCCAAGACAGAATCTTAGTTCAACTTTAAATTTACCTGCAGAACCACTTAAKCCCCCAATGAGACATATTCAAATTGTTAATCCATTTTTGGCTAATT
AGGAGACAGAGGCTCAGGGACCTGGGTTCAAGACCTGGCTCTGTTCTTGATCAGCTTAGTGAACTTGGGCCAGTCCCRTAACCCCTCTGGGCTTAATTTA
CTCATCTAGAACATTGGATATATCTGTTCTGGCTACCACCTATGATAATAGKTGTGAATCATATAAAAAAGGAATGTGAAAGCCTTTTAGTTAAAAATGT
GGCTAGAAGAAAATGAAACAAATGATTATTACTAACTGACTTGCTAAGATTACAAGCTAATCAGTGACAAAGCCAGGATCAGAACCCAGAACTTCAGTCC
AGTGTTCTCACAGACTCCTCCTACTTCCTTCTTGCCACAGGSGTGATGGACAACCCCCTGGTCATGCACCAGCTGCGCTGCARTGGTGTGCTGGAGGGCA
TCCGCATCTGCAGKAAAGGCTTCCCCAACCGCATCCTCTACRGGGACTTCCGGCAGAGGTGGGTATGAGGGTGCACCAGAGCTCATAGAACAGGGGGAGC
CAGGCTGCCCTGATGGGAATGGGATCTGCAGGTGACCCTRGAATTCTRTGGGCAGAGCAGATCACTGCAGAGCATGGGTGACTCTGGACACTTCCCTCCT
CAGGTATCGCATCCTGAACCCAGCGGCCATCCCTGAGGGACAGTTCATKGATAGCAGGAAGRGGGCAGAGAAGCTGCTCAGCTCCCTGGACATTGATCAC
AACCAGTACAAGTTTGGCCACACCAAGGTGAGGAAAGGAGACTAATTAATTAAAGGAAGACATCTCTTTTCCATTGACTCCTCTGATGCTTTTCCTGTTG
TAATCATCTTAGCAAAATCTCTTACCTGTATGCTACCCCTCCCAGTGGAACATCTAGCACCACTCCCCTCATCCCAGCTCCAGCTGCCATTGACCTCCTC
CCTGCAATCCTTTTCTAGGMTGTTACCCTTCCTAAGGTAATCCCCACCATCTCTTTCCCTCGTACCCCTCCCTAGTCATGGCCAACACACACCTTGCCTG
CAGGTGTTSTTCAAGGCCRGGCTGCTGGGGCTGCTGGAGGAAATGAGGGRSGAGAGGCTGARCCGCATCATCACGCRTATCCAGGCCCAGTCCCGAGGTG
TGCTCGCCAGAATGGAGTACAAAAAGCTGCTGGAACGTAGGTGAGAGATCTCAAGAGGAGGTTTCCCGCTTCTCTGAGGCCCAGGCTGGTTCAGGGGCAG
TGTCAGGAAAAAAAGCTCAGCAGATCTTCAAACACAGAGACCTGCAGGAGGGGCTCATATGAACACACTGCAGTCACAGGGTCAGAGGCCTCAGGAAGGG
TGGGAGGGATGAAGGAAATGGGATATTCCCAAGGTTTCARGACCTCAGGTAGGAAGGAGGCAGGAGGCTCAGCACTCCTTTCAATGGGCCCCTGCAGAGA
CTCCCTGCTGGTAATCCAGTGGAACATTCGGGCCTTCATGGGGGTCAAGAATTGGCCCTGGATGAAGCTCTACTTCAAGATCAAGCCGCTGCTGAAGAGT
GCAGAAAGAVAGAAGGAGATGGCCTCCAYGAAGGAGGAGTTCACASSCCTCAAAGAGGCGCTAGAGAAGTCCGAGGCTBRCYRCAAGGAGCTGGAGGAGA
AGAWGGTGTCCCTGCTGCAGGAGAAGAATGACCTGCAGCTCCAAGTGCAGGCGGTGAGGCTCCTGGGCTACTGTTGGCTCTTCCACCCTGCTCTGCCTTC
ACTTCCCACAACCCTGCACCTCCCTGCACAGGGGCTCACTGTCTTGTTCCTTCAGTCAGAGGACTCTGGGATCAACACTTCTAAAGACCTCCAAAGAGGT
CCCTCAGGAGGAGGAAAGGGCAGAGGGAAAAGAGCTGACTTTTAAAAGCACAGGCTTTCTACTTGGGTTCAACCTAGATACACAGCTTAATTATTTTGTG
ACCTTGGGCAGACCAKGCATCATCTTTGAGCCTCAATTTCCTCTAGACAGGGAATAAAGCTGTCCATTTCATTAAGCCATCATACATAAGTGCTTGGCAT
CAGCAAATGCAATTCCCACCCTTCGATGGAGGAGACCAGAGGAAGAGGTCCAGATGAAGATTTCTGGTTCCTTTCCTCTCTGCTCCCCTCCCCAGTGTTC
CCAAGTTATACTATCCTGAAACTCTTCCCCTCCCCATACTTCTGAAGCTCTTGCCAAGTGGGGATATCCTAGAGTTAYCCTCCTATTTGAGTGATGTGCC
TCTCCTTCCCTCTACSTGCAAGAATGAGGACCTTACCCCCTGAACAGCCTCCCCTCTGTTCCTCACCTTCAGGAACAAGACAACCTGGCAGATGCTGAGG
AGCGCTGTGATCAGSTGATCAAAAACAAGATTCAGCTGGAGGCYAAGGTGAAGGAGATGAACRAGAGGCTGGAGGATGAGRAGGAGATGAATGCTRAGCT
CACTGCCAAGAAGCGCAASYTGGAAGATGAGTGCTCARAGCTCAAAAGGGACATCGATGATCTGGAGCTGACACKGGCCAAAGTGGAGAAGGAGAAACAC
GCAACAGAGAACAAGGTAAGGGCAGCTCCCTTTGGCTCCAGCCCGGGTCTCATCAGGACTCTCAGACCATACTGACCTTGACCCAGGCTAGCCACTYGGC
ATCCAGAGAGCAGCATGGACCTTGACATGGAGCTCCCCACAGATGGCACCAAGCTGGTGACCTTTGACCCTAAAGGAGATRGGATTCTTGGTCGGCAGGT
GAAAAACCTGACAGAGGAGATGGCTGGGCTGGATGAGATCATYGCCAAGCTGACCAAGGAGAAGAAAGCTCTGCAAGAGGCCCACCAACAGGCTCTGGAT
GACCTTCAGGCCGAGGAGGACAAGGTCAACACCCTGACTAAGGCCAAAGTCAAGCTGGAGCAGCAAGTGGATGATGTGAGTAGATTGAGAGTTGTGGGGC
CTAGATATGCCATGTCTATCTGTGCCCAGAGCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGTGTTTATGTTTAKAGG
GGGGTAGGGTTAGAGGATGTTAACTTTTCTGATATCTTTCTAGAAAGGAGCTGGGGAATGAAAAGTCAGAGGTGGTGATCAATTCTGAATTATGTATCTA
ATCTCACTGGTATGATCAATAATAGAGATGAGTTTTCTTATTTAATTTAAGTGCAATCCCATATATCTCTGCCTTTGACACAAGATTTAGAGGGTCATCT
CATAAGAACATGATAAATTTCTTTGGAAATTTTGTGAGGCTCCCCAAGTAGAATTTTTGAAATTCCAATATTTAAGGCAGAATCTGATCATTGTTCCCTC
TGATGCACATATGTCTGTTGACTCACTTATCACTCTGTATTTTAATTATTTAAGCTTCTATCTCAGCCATAAGACTACAAGCTTCCTTTAGATAGGAACT
TAGATCTATTCAATTTGGGGACTGCAGTGCTTAGCACAGAGCCTGATGCCCAGTAGGTGTTTATAGGATGCTGAAAGAATGAATACGGCGGCCAGCCGCG
GTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACGAGGTCAAGAGATCGAGACCATCCTGGCCAATATGGTGAAACCCCAT
CTCTACTAAAAATACAAAAATTAGCTGGATGTGGTGGCGTGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGAATAATCCCTTGAACCAGGGAGG
CGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGCGACAGAGTGAGACTCCATAAAAAAAAAAAAAAAAAAAAGGAGGAAGGAAGGAA
GGAAGGAGAGAAAGAAAGGAGAGAAAGAAAGAAAGAAAGAAAGGGAAAGAAAGAAAGAATACGGCTTTGGGGTTTCATCCCACAGTCATTTATTCCTTTA
TCTATAAAATATTGATTCAGCATCCCCTATATCTAGGCAATCTCACAGTCCCCTAATAACATTTGGCCCACTCTGGGGAAGGTTTCCCAAGTCCTGAACA
CAAAGATTTACCAAGTCCTGAGGTAACTGAACAACAAAATCACCAAGTCAGGATGCTTTGCCTCACTGGGCCTGGCTCCTTCTCTCTACCAGCTGGAAGG
ATCCCTGGAGCAAGAGAAGAAGGTGCGCATGGACCTGGAGCGAGCRAAGCGGAAGCTGGAGGGCGACCTGAAGCTGACCCAGGAGAGCATCATGGACCTG
GAGAATGACAAGCAGCAGCTGGATGAGCGGCTGAAAAAGTACTGTGTCCCCTCCCTGCTGCCCTTCCKCCTCCCCAGCCCATAACAGTACAAGCAGACCC
AAKACAGCCATCCTCTGAGGCAACAACCTCACGCAGCCTCCACAAGTGGAGGYGCAAACCATGGGAAAAGGCCTCCCAGGCAAGGGCTTTCCTCCCCTAG
TCCCAGATATCAGGGTYAGTTAGATGGTCCTCCCTGGCAAAAAGTCCATTGTATCCCATGAGWCCTTTCTTCTTGTTAGGCACTCAGTGGGAATGAAAAT
AACAGCCTTCCCCCTTCATACACATCTCTCTTTGGAGACCAGTTCCTTGACATGGAGGAAGGCTCCACATGAGAGCCTCTTAGGAAAGTCCCTTTGTGGC
TTTTCACAGAGAGCCCACAGGGCACCAAGAAATGCCCTCACATTMAAGAAGTCAGGGGWWCAGGGCCATTTCTTTGTTTTGCTTAACTTGTGGTTCCAAT
TCTTAGTGTAAGTTCTTCCAAAATGTATAGACTTTCCAGACTTGGTAAACAGTGAGCTTGCAGAACATATTTTGATAATTGAAGGTCTTATGGTGTTTCA
GGCTCAGGACTTTGAAAGGCTTTGAGAATCATCATAATCTACATCCTCATCAAGTTTGTGTTTGCACAGGAATCTTCATACCTTCCCAGGCACAGAATGT
GTTGAATAAATGAATAAATACACGATCCTATTTGATTCTCAAAACACCTTTTAAGGATGGTATCTTTAATTTCACTTTACCAAAGAGGAAAATAAGTTTC
AGAAAGGTTAGCTGAGTTACCCAAAGCAATAGTGACAAAATTAAAGACCATCAGAGCTAAAAAGGACCTTTGAAACAATSTAGTCCGACCCCCTCATTTT
ACATTATGAGAAAACAAGGACCAAAGATGGGAATGTCCTGTAGAGCCCAGGCCCCATCACCCTGTCTACAGCACTCCTCCCATTACATTCTTGTTGGATT
TCAATCTCACCGCAGGTGTTACACTTCCAGGGATCCTACATCACCCCCAGAAGCTGTTTTTCTAATGAAATCCTACTCTTTACCTGTATCATTACCATTT
TCAACCACTGGTGGACCCTCCTGAGGCCCCACGAGTCTCCCTTACCTCACCATCCCTCCTTCCCCACAGAAAAGACTTTGAGCTGAATGCTCTCAACGCA
AGGATTGAGGATGAACAGGCCCTCGGCAGCCAGCTGCAGAAGAAGCTCAAGGAGCTTCAGGTGAGGTCTGGACACCCACGCGGGATGCTGAGTCCCTGGG
CTGGTTCTGTTTCCCCTGCCCCCTCCTCTAGGGTGTCCTGTTCACAGCATTACAGGAACTGATTATGTGTCCATGGAGGCAGGCACGCAGCTATCACAGT
GTGCCCATGGATACATCCAAAAGGGGTCAGGTGATCCACAGAGACCCTGAAAAGGTCACAGGCCTGGAGGGCAGAATTCCTGGCTTCCTGTCTCAGCTCT
GCCTTAGTTGGGTGACCTCTGGGAGCCCACTCCAGATCTCTGGGTCTCCATGCCCTCCCCTGTTACATGGAGGTTTTTAAGAGTCCTTCGACTCTGMTGG
CATGACTTTCCTCCTTACTCTAGAGCAGAAGCTGTGTTAGGTCTTTAGTTGTCTGGTCAGACAAATACGGCTCTCTCATTTTCAACTTTTGTTATTTTTT
TATGACTAAACTGCTTAAAATATCCCCAGAACACAGGTCTCTTTGTCCATCTTTAAGAGCAAGTTTCAACCACTTTCCTTCCAATAAAGAGCATGTAGAC
TGTCAGGCCCTCGCCTAAAGGAAGGCTCTTCAAACTATCTTCCCCAAATCCTTTAATTCCCACCTCTCCASTGGAAGAGCTAAACTGACTTGCTGTTCCA
GAGAAGCCGAGAGCCTTTTAGAGCCGGGGGGATTCCAGTGGAGGGGTCCAGGCGGTGGGTCTGAGCCCTTTGTGTCTGACCAGGCACGCATCGAGGAGCT
GGAGGAGGAGCTGGAGGCCGAGCGCACCGCCAGGGCTAAGGTGGAGAAGCTGCGCTCAGACCTGTCTCGGGAGCTGGAGGAGATCAGCGAGCGGCTGGAA
GAGGCCGGCGGGGCCACGTCCGTGCAGATCGAGATGAACAAGAAGCGCGAGGCCGAGTTCCAGAAGATGCGGCGGGACCTGGAGGAGGCCACGCTGCAGC
ACGAGGCCACTGCCGCGGCCCTGCGCAAGAAGCACGCCGACAGCGTGGCCGAGCTGGGCGAGCAGATCGACAACCTGCAGCGGGTGAAGCAGAAGCTGGA
GAAGGAGAAGAGCGAGTTCAAGCTGGAGCTGGATGACGTCACCTCCAACATGGAGCAGATCATCAAGGCCAAGGCAGGCTCTGCTCGGCCTCCCCTCCTC
CAACTTCCTCCTCCCACCTCCCCTTTCTGTCCATGTAGTGTCTCTTCCTTCATGGTTCATTTTCCCACTTCCCTTCCTCTGCCTGGTTCTCAGATCCCCT
CCTTCTTTTCACACCTTCCCTCTTCTTTTCTCCTTCAGTTGCACCTCTTACACCCCTTCATTCCCCCCGCCCCCAACATCCATCATATAACTCTCCTTCC
CTTCTCAGGCTAACCTGGAGAAGATGTGCCGGACCTTGGAAGACCAGATGAATGAGCACCGGAGCAAGGCGGAGGAGACCCAGCGTTCTGTCAACGACCT
CACCAGCCAGCGGGCCAAGTTGCAAACCGAGAATGGTGAGCCTAGAGCAGGGGCTCCATGGWTCCCACCACAGTCTCCCCAACCTCCTGAGCCACTCCAG
CCTCGGGCACAAGCCAATACACGCACACACAGACACAGAGTCTCTCCAGAAAATGGGGCCTGAGGGCTAGAGGAGGAGGTGGGGATAGAGAGGAGTGCTG
ATCTAGAATGGTGCTTCCCCAGGTGAGCTGTCCCGGCAGCTGGATGAGAAGGAGGCRCTGATCTCCCAGCTGACCCGAGGCAAGCTCACCTACACCCAGC
AGCTGGAGGACCTCAAGAGGCAGCTGGAGGAGGAGGTTAAGGTAAGGGCTAGACTYGGGCCACCTGGCCCAAGCAAGGAGCACACTGACTAGCCTTGCAT
CAAATCACTTCCCTTCCCAGCAATAAGGCTGGCTGTGGACCAACAGTTCTCCAAGAATTCTAAAAAGAAATCACAGCCCAAACCCTGCCACATGCCATCT
ACTCCCCAGGCTGAGGCCCTCTGCTTCTGCTGCATCCCTGGACGGGAGGCAGGGTGTGAGAAGGAGGAGAGAAAATGAACTAGGGAGGCACGAGATGGCC
TTGCCCGGGCACGGCTAGGGGATGTAGGGACTGCACAAATGGGTCCTGGGATTTGCAGGGCCACCTGAAAACTGGAGAAAGAAATTCAACTGGAGCCTAT
TCCTAGCACTTTGCTGGACTCATGAAAAAGGAGAAAGAACATGATTTTTAAAAAACTCCAGGGTTCATACTAACCTGCCTCTTATAGCTCAGTGATCTTA
GGTTAGGGAAGTCCCCTAACCTTTCTGAGCCTGTTTCCCTCTCCCCAGCCAGGTAAAATGGCGGTGATGATGACCATGTCTGGTGTGGGGAGGAGCTCAG
GGCCAATGGCCATGAAGCTTTTCTTAAATAGTTCACTGCTGTATTGGCATTCTTTGTTATCAGCAAACAGTAAACCATGACAGGTCCACTGGGGGTTTGG
ACATAGATGAGGCCAAGGGATGATGTTGAGATTGGGGTGAGGAGAAGGGCAAGGGTGGGGTTGCTTTATGGAGAAAGCTGARCCCACCTCCTGGTGCCCA
CCCCTCCCCAGGCGAAGAACGCCCTGGCCCACGCACTGCAGTCGGCCCGGCATGACTGCGACCTGCTGCGGGAGCAGTACGAGGAGGAGACGGAGGCCAA
GGCCGAGCTGCAGCGCGTCCTTTCCAAGGCCAACTCGGAGGTGGCCCAGTGGAGGACCAAGTATGAGACGGACGCCATTCAGCGGACTGAGGAGCTCGAG
GAGGCCAAGTGAGTTCTGAGCAGCCTGACTTCTGGCTGAGGCCCCTTTGCAGGCAGGACTCAGCCCAGCCCCAGCCTCAGCAGATCCCACACAGGCGATG
CTTAGCTAGTGTTTGACAACACAGGAGGACTCTGCCCCGGCCCCACCTCCTTCTCCTCTCAGGGAAGCTTTTTGCTCGAATTATGTTTCTGATCCGAATA
TAAGACGWACAAAAGGTTTGTCTGAGGGCAGAGTGCTTCCGTCTGGGGCAGGGCACTGTGGCAGGGAAAGGCAGTGGGGAGGGCTGCAGAAGCCCATACC
TCCTCAATGTCCATAGCGCAGAGGCTGGGCCAGGGTCAGAGGGTGCCTGGGTCTCCACGCCCTGCTGGGATCCTCTGCCTGATGTTCTCGGCCCCTGGGA
CCTGTCCTCAGGCTTCTCCAGCTACACTTCTGAGGTTTCAAGGATTGTCTTTGAGAAGGTTCATGTTGTTTCCTCTTKYCCCCATCCACACCCTCCATCC
TCCCCACCCTCTGCCACCCTCCCCTGGGCAGGAAGAAGCTGGCCCAGCGGCTGCAGGAAGCTGAGGAGGCCGTGGAGGCTGTTAATGCCAAGTGCTCCTC
RCTGGAGAAGACCAAGCACCGGCTACAGAATGAGATCGAGGACTTGATGGTGGACGTAGAGCGCTCCAATGCTGCTGCTGCAGCCCTGGACAAGAAGCAG
AGGAACTTCGACAAGGTGGGCCCTGGGTGGGGSCCGCAGCCAGCATGCAGGGCAAGRGGRCATGAGGGGTTCAGTGAGAGGCCAGAGCCATCCTCCTTGG
AGGTGGGGGAGGAGGGCTGAGCCCAGGCAGGTCCTGAGACAGACCCTGGACATGGGGCTGAGGCTKGGGGGCTGAAGAGTGAGCCTTSTCCCCGGGCAGA
TCCTGGCCGAGTGGAAGCAGAAGTATGAGGAGTCGCAGTCGGAGCTGGAGTCCTCGCAGAAGGAGGCTCGCTCCCTCAGCACAGAGCTCTTCAAACTYAA
GAACGCCTATGAGGAGTSCCTGGAACATCTGGAGACCTTCAAGCGGGAGAACAAAAACCTGCAGGGTGTGCTGGGGGCCCAAGAGGCTGGGGAGGGGCTG
CACTGGCMGTGTTCCCATATGGTGCCACCCAAGGGCTCCAAGAGGCGTCTGGGCAAAGAGGCRTGTCCCTCCAACTCCACTGGACCTCAGCAGCCCTCAA
CCGAGTTACCGTGTTCCCCACACAGAGGAGATCTCCGACTTGACTGAGCAGTTGGGTTCCAGCGGAAAGACYATCCATGAGCTGGAGAAGGTCCGAAAGC
AGCTGGAGGCCGAGAAGATGGAGCTGCAGTCAGCCCTGGAGGAGGCCGAGGTGTGTGTGTGTGCAGGGCACGGGGTGCAGGGAGCTGAGCTCCAGGMTTT
TGGSCCSTGTTCTCATCCCCCGCTTTGTYGTTTTGTTCACTGTCCCATCCCCAGAGCCTAGRACAGAGCCTGGCACATAGTAGGCATTCAGTGAAGATTT
GTGGAGTGAATGAATGACCAGTCACTGAACTCTCTTCAYATARRCATTTTACCCATTGCATCTTAGCTGAGCTTCCCATTTCCACATACCTCCCGGTTCC
CACCTCTGCCTCCCTCTGTTTTCTTTTATACTCTATACCTGATTGCCTCTGTTTCCTTGGCAACACTTTTYTCTTCATTTTCCTYCTTRTCTTCATAGCT
GGCTCTCCCCTGTGAGGGCCTGAATCACTTTCTCTTAGGCTTATTTTTATTTTCTCTTAGATTCTCTTTTCCTCCACCTTCTGCTTCTTTGAACCACTTA
CACCACTCTTGAAGTCACTTCGTATCCATGATTAGTGAGCAGGCCCCCACCCTGCCCTGTGCCCTGACTGTCTGCCTGCATCCCCTCCCCCAACCCCTTC
CCAGGCCTCCCTGGAGCACGAGRAGGGCAAGATCCTCCGGGCCCAGCTGGAGTTCAACCAGATCAAGGCAGAGATYGAGCGGAAGCTGGCAGAGAAGGAC
GAGGAGATGGAACAGGCCAAGCGCAACCACCTGCGGGTGGTGGACTCGCTGCAGACCTCCCTGGACGCAGAGACACGCAGCCGCAACGAGGCCCTGAGGG
TGAAGAAGAAGATGGAAGGAGACCTCAATGAGATGGAGATCCAGCTCAGCCACGCCAACCGCATGGCCGCCGAGGCCCAGAAGCAAGTCAAGAGCCTCCA
GAGCTTGTTGAAGGTACTCACCCAGAGGGGACTGGCCTCCACGTGGCCTGGCGAAGCAGTAGTGTCTTGATACAGGCACCAGATTCCTCCTGCCCCTAGG
TTACTGCAGGGACCTCTGACAGGTGCCTTTAGTGAAGGGAACCGAGGCTGGCTCCCTGCTCATGCCCACTCTCCTGATCCTCAGGACACCCAGATTCAGC
TGGACGATGCAGTCCGTGCCAACGACGACCTGAAGGAGAACATCGCMATCGTGGAGCGGCGCAACAACCTGCTGCAGGCTGAGCTGGAGGAGTTGCGTGC
CGTGGTGGAGCAGACAGAGCGGTCCCGGAAGCTGGCRGAGCAGGAGCTGATTGAGACTAGTGAGCGGGTGCAGCTGCTGCATTCCCAGGTGAGCAGCTCC
CCTGCTSATTCCTGAAGGGAGCACAGGCTGGGGCTCAGCAAGCAAGGCTTGAGAGCTATGCATAGATGCTCAATGCTTTTCCTGCTCTGCCCAACCCTCC
CCCAACCCAGAACACCAGCCTCATCAACCAGAAGAAGAAGATGGATGCTGACCTGTCCCAGCTCCAGACTGAAGTGGAGGAGGCAGTGCAGGAGTGCAGG
AATGCTGAGGAGAAGGCCAAGAAGGCCATCACGGATGTAAGTCCCCCACTCCACCGACCCGATCCAGACCAGTGTCTCTCCGTGGGCTGGGCAGCAAGTG
TGTGAGGACTTGACCAGACCATGTGCCACCTCTCTCCTGCACACAGGCCGCCATGATGGCAGAGGAGCTGAAGAAGGAGCAGGACACCAGCGCCCACCTG
GAGCGCATGAAGAAGAACATGGAACAGACCATTAAGGACCTGCAGCACCGGCTGGACGAAGCCGAGCAGATCGCCCTCAAGGGCGGCAAGAAGCAGCTGC
AGAAGCTGGAAGCGCGGGTGCGGGAGCTGGAGAATGAGCTGGAGGCCGAGCAGAAGCGCAAYGCAGAGTCGGTGAAGGGCATGAGGAAGAGCGAGCGGCG
CATCAAGGAGCTCACCTACCAGGTGCGACGGGCGGTGACTCCAGGCAGAGCCCTGGCACCATAGCCACAGTGACAACCAGCTGAGGAGWATGAAGAGTTT
GCTCTTAGCCTCTTCCAGGGCGAGGATGGGAATGCAGCCCCCGTTTCACTTTGCCTAGCCCTGCCCCACTCTGAATGTCCCCTAGCTCAGAGGTCAGTCT
CTGAGCCTCCTGGCCTGGGAGCTCCATCTCAACACCCACTCTTAGCCCATCGCCAGGGGACACACACAGAATTCCAGACAAAGCTCACCCAGTACAGCTC
ACCAGAAAGCAAATATGTAGCCAGGGTCACCCCCAAAAGACACCAAAAACACACCCATCCCATTCAAACAAGCATAADAACTTTTTCATTGCCCAGGGCA
GTGTGGACTCTAGCTTTCTGAGGTGTTTTCTAGAATCAGACTCTGAATTAGAATTTGTTTCTTTTCCAATCCAGGATGTCACTATCYCTCTAAGCACACT
TTGTCCTTAACTTAGATTAAGTCAGTGTTTTCCTGGCCTGCATTGCAGCCCAGGAAATTCCATCACACTCATAGCCCCAAAGTCACTCCCAGCATGTGCC
GAGGTCCAGAGCAGGGGACTTCATCCBGCATGGGGTCCCCGGACCCTGAAAAACCTGCTCCCTGGAGCACTGCACACACACAATTTTGTGCATAATTTCA
GGAGTCCCACTAGTTCTTTGGACTCTTTCCTGGTACAGATCATTTAAAATATTTACACATATTTGGTAAGAAATTATAAGGAGAATTCAAGTGTTTAGTG
AGGATCAGAAAGTAGAATTGGSTCAGGATATCAGATGAAGCAGGGCAGGGCGGAGGGGATGCTACCTTCTATGACTGTGCCATCTTCACCCCCTGCCTAC
CCTCTGGCCCCCAGACGGAGGAGGACAGGAAAAACCTGCTGCGGCTGCAGGACCTGGTAGACAAGCTGCAGCTAAAGGTCAAGGCCTACAAGCGCCAGGC
CGAGGAGGCGGTGAGTGACCCTGCTGGGGAYTAGGCCCAGGRGAGGCATAGGAGAGCTCGTCCCCCAAGCCAGGAGTCTGAGAACCCAGGCCCCCTCTCA
CCTCATGCTCCCACCTCCCGCAGGAGGAGCAAGCCAACACCAACCTGTCCAAGTTCCGCAAGGTGCAGCACGAGCTGGATGAGGCAGAGGAGCGGGCGGA
CATCGCCGAGTCCCAGGTCAACAAGCTGCGGGCCAAGAGCCGTGACATTGGCACGAAGGTGGGTCCCTCTTTTGGGCTTTGCTAGTCACCCCCACAGCAG
GCATACCCAGACAGAGCACCCTCAAACCCGGGATGCTTCCTTTTCATTTATTCCACACACTTGAGCCACAYGGCCCCAGAGGCCAAGGTAATGCAGTTCT
CTGTGATTTCAAGGATTCTTCCAGCTCTAACTTTTTTTTTTTTTTTTTTTGAGACGGTGTCTCACTCTGCCGCCCAGGCTGGAGTGCAGTGGCACAATCT
CAGCTCACTGCAACCTCTGCCTCCTGGGTTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTATAGGCATGTGCTACCATGTCTAGCTAATTTTTATATT
TTAGTAGAGATGCGGTTTCACCATGTTGGCCAGGCTRGTCTTGAACTCCTGACCTTGTGATCCACYCGCCTCAGCCTCCCAAAGTACGGGATTACAGGCG
TGAGCCACCACTCCCAGCTCAGCTCTAAGTTTCAGTGGTTCTGGGAATTTCAGCSTTAGGGAGGGGTGCCACCCTAGAAGACCCTAATTTATATACAACC
AGTATATCCCAGTTTCCCCCCAACTGCTAGTTTCCAGTTCCCTTCCACCTAATTTTGTCCTGCAATCTTGTAACTMAAACCTAAAATGGACATCCCAGAG
AACCCGGGCCTGGCTTTGTTCTCRCCCAGGCAACTTCCCTCTGACCAACCCCAGAACCCTACCCTCCAGAACTTGCCCCCCGAMCATCGATCCCTGGAAA
CACATGTGCTGCTGCCACAGGGGCTTCCACCTGCCCACAMAGCAGGCCCCCCACCATCAGACCCCTCTCACCTTTGTTCCCRTGCCCTGTCCCTGCCCAA
TACCATCTCTCCAAGGACTGATTGGACTTTGTTTCCTTTCAAAAGGGCTTGAATGAGGAGTAGCTTTGMCACATCTTGATCTGCTCAGCCCTGGAGGTGC
CAGCAAAGCCCCATGCTGGAGCCTGTGTAACAGCTCCTTGGGAGGAAGCAGAATAAAGCAATTTTCCTTGAAGCCRAGATCCTGACTCCAGACTCTTCTT
CACTGCCCTGAGGACCCGGGGATGGGGTCTGGACTAGGGGAGGTGGAAATGCAGGGGAGTGGGGGCAAATTCAAAGGCCTGGCCTAGGAGGCCTTCGTGG
AGCAGCACTGAAAACCCCTTTCACTTCCCCCAAACCAGCCAAATGCAGCAGAGGCGACACCTCTCCTCCCAGCCTTCTCCCTGGTCCAGCCAGGATTTAA
AGGAGATTTAGGGAGACCCCTAAAGTTCACCTAGAGCACCCTGAGCCCATCTACTGTGGACCTGCACCCCAGCTTCCGTCAACCCTGCCCCACCCACCAC
CATGGATACTGCCCAGGGCTGGGCAAAGGGCAGCGGTTCGGGGTGTGGGTGCTGGCCAGTGCCCTTTCTGAGCCCGCAGAAGTGTGAACCACTGGGCCAG
GTGAGGCAATGGCTGCCTAAGTGCCAGTCCCAGGCGAGTCTCTGAGAGTACACAAGGATTCACAGCTGTAGCCTGCATCCCCTTTTAAATAGAGCCACCA
CCCTCTCCAGCCACCGCCAGAAGCCAGCATACCCCCTGCCCACCACAGGTGGGAGAAACACACCCTCAGCCCACCTGCCGTCCTCCTCAGCTCCTCCTGG
TGCCGAGCCCCCTTGGCCCAGGGTGCTCCCTTCTTCCCACTCATTTCTTCCCATTGTAATTCCCATTACCAAGCCCTTTGTCCTCTGGGCTTGTGGGAAG
ATGGGGTTCTCCTGGCCCATTTATGGCAAGCCATCTTGAGGGGAGGCAGACAGATGAGGGGCTGGGGAAGGTTATGTGTGAACAGGACTCTGGGGAGAGG
GAGGGAAGGGATGGCTCCCGAGAGGGCCAGGAGGTGGAGGAAAGAGTAAGTCTCCTCCAACTAAACAAGTTCAGCCCCTTTGGAGTTCCTGCCACAGCTG
GGTTGCTTAGGCAGGCCTGGGACTGTGGGCCACAGAGGTCAGGGGCTTGAAAGGCACTGGGGCTGTCGGCCCCACTGGGAACCTGGGAAGCAGTGGTTCA
GCCCTGGACTGGATCTCCCCCAACCCACCAACATACCCACTCGGAGCCCACTCCTGCTCTGTACCCAGCTCTGAGCTCGGAGCTCTGAGGACTGCGGCAG
CCAGAGCCAAGGGCCCTAAGCCGGAGAAGGAGAAACCAGTACTGGACAATAGCAGGTGACAGCAGAGGAGAAAAAGGGGGTAGGGAGGGGACAAGGAAAG
ACCTGAGGGGGTGGCAGTGGACAAAGAGATTGAGCAACCACAGGACAAGGTAACCAGAGGAAACAGAGACAAGGAAAAAAGATGCAGGAAATGAGGAGGC
CCCAGAAAGATCCGCAGGCGCCGCCACCTTTCTCCTCATAGCCACCTCCATTCTCCTTCCCTAGGCCAACCCAGACAGAGCTCCCTCAAACCAGGGATGC
TTCCTTTTCATTTATCCAGCTCAATTGAACCACACAGCCCCAGAGGCCAAGGTAATTCAGTTCTCTGTGATTTCTAGGATTCTTTCAGCCTTTTTGTTTT
TGTTTTTGTTTTTGTGACGGAGTCTCACTCTGCTGCCCAGGCTGGAGTGCAGTGGCACAACCTCGGCTTGGGCCGAGATCCCTAGGGCCATTCCTCTGGC
TAGGAACAGACTTGGACAGCAATGAAGAGATAACTAGAAACAAAGGAGAGAACCCTTGAAAAGGGAGCTATGCAGAGAGACCCAGGGCACCTAAGCAACC
AGAGCAAGAGAGACCGCAAGAGATACAGATCCTATGAGAATGGTCGGGGGCTGGATGCAGACAGCAGGGTTGAGAGAGGTCTGAGAGCCAAGCCAGGGAG
AAGGAGGGGTGCTGAGGGGGATGGGGAGAGAGGAAAAGAGAGGGAGCCTTGGAGGGAGAAGCTTGAAGAGCTGCGGGTGGTGATCCCGAGTGAAGGAAAG
AATCCTGGGTCACTTGCAAATGCAAGGAGAGTCAGGAAGGCGCAAGGAGATTGGAGAGGAGGAAGAGCCTGGAGCAAGATGTGGAGGCCCAGGGCGAGAG
AAGAGGCCAGCTCGGAGAGGGCAGAGCCTCATGTTAGACCCTGAGCCGGGTGGAGACACGGGCCAGGGAGAATCGGAGGCAGGCCCCACTCTGAGATGGA
GAAGCAGGCAGAGGGAATGAAGGTGAGACAGAGACAGATGCAACGGGGAGCCAGGCAGAAGACAGGCAACCTGTGCCAGGGAGGCCAGCCTTGCCTCCTT
GGCACCCTCACCTGTGGCCGAAGCCTCCATCCCTGTCCTTATATTCCAGGACTCCCAGCAGAATGAGGAGCTGTGTGCAAGGCAGCTTAGGGAGGACGGA
GAGCAATATGTGAGAGCAGGGAGAGAAGGAGCCTGGGGAAGGGAGAGGACGGTACAGCGGAGCAGACGGGCAGGGCCTGGGGCTGAGTGAACACCTTCCT
TCCTCCTCCTTCCACAGGAGCGGGGGACTACCCCCCACCACCTCCACTCCCCGCTGCCCTGCCACCACCACCTATACCAAGTGAGGCCTGCTCAGAGCAC
AGGGTTCCCTGAGGACAAAGCCTGGTCTTTGTCACCTGACCCCGACCCAGACTGACCTGGCGTTCTCAGCTCCTTATCATGTCCCCAGAGCTATGGGAAC
CAAGCAGTGACGCACTGGCCATGGGCTAACCCCCCGGCTCGAATTCTGGGGCCTCGAGTAACCTAGAGCTGGGGACAGGTGGCCTGCATCCCCTGGGGGT
AATGATTTGGCATAAGCACCTGCAGAAGATGGGGATGTGGGGTCAACTAAGGTCCCTCCAAGGACATTGAGAAAAGGTCCAAATGCTCTGGAAAGAGAGG
TGTGTTCCTGAGCCCAGGAATGGGGTGGCAGCGTCCTAGGGAGCTAGGGGAGAGGCCACATCTTAATGGAAAGTGCTCCTACCCAGAGAAGCTGACCCCT
GTCGTCCTACCCACCTCCACACCCTGGAGCTATATTGAGAGGTGACAGTAAACTGGTGGGAGGGGGGCTGGGAGGGTGTTCCTGGGTGTGAGGGTGGGGG
GAAGGCCAGAGCAGGGGAGTCTGGCTTTGTTTCCTGAACACAATGTCCACTTAGTCATAACAGGAACAGCCTGCTGAAGACCTGACACCTACAGCCTCTG
AGAGATGGCAGCATTGGAGGATGGGGAGCGGGGCCTTGAGGGCCTAGGGTGCTTGAGGACACCCACAAAGAAGGGAATGTGAGTATAAGCCCTGGAGGGC
TTGGAAAGGGGCAACAAAATTCTGCCTGGGGAGGGGGCAGGTGGCAGAGCCCCACCCCGATGGAATGCAGTGCCTGGGGACCAGATGGTGTAAATCCCCA
GGCCTGCCAGGCACCTGCACCCTCTGGCAGCCCGGTGAGGCAGAAGGGGACAGCCCCTCACCCACCCCCCTCCTCTCTCAGGCCCTAGGATTAGCACCAT
CTTCTTCTGCCCACCCCACCCCAGGAGCAGAGGGTAGCAGGGGAGGGCAAAAGCCTATGTGTGCAAATGCGGATGTGCAAATGTGTGCATCCATGTACAC
AAAAGAAAGTAGAAAAGAAATCTGCAAGCTTGAGTGGGTAAGTGTGAAAAATCTGCATGTGTGGCTGAAGATGGGCACAGACACGGTCAAGTCTGTATGT
GAGAGTGCTGAACTGGGGTTCTGTGTGAAAATCTGCCTGAGGCGGCAGGGAGAATCACTGCCATTGCGTGAGCAGGTTGGATGTTGGCCACTCTATCAGG
AGCATTAGGGAAGGGGTGGGGACTCCAGACGTGTCCCCAAACCAGGGTGGCCTCAAGACCTTGGGAGAACACTTGTCTGAAGACTTGGGGAACAGAAGGA
GACCAGGCATGGCACTTATGCAGACTGAGGCCAGGACAGAATTTCCTGACAAAAGAAAACTGAGCCATGGAGATGGACAACAGATCCCTTCCCTGGGCAC
CATACTGCAGCTTTTAGTCCCTAGCACTGGGGGCTCCAGTACTAACAGCAGGAAGATGCTCCCAGCCTGGGACTGTGTGAGGGAGGTCAGAATGGGAAGG
AGAGGCTGGGGAACAGGGGAGGAAAGCCCATGGTTGGGAGGCGGAGGACAGGCATTTGGCCTGCAGGAGAAGGTGACCCTCACCCATGTTTTCAGTTCAC
CCTTCGGGTTAAAAATAACTGAGGTAAGGGCCATGGCAGGGTGGGAGAGGCGGTGTGAGAAGGTCCTGTCTTCCCACTATCTGCTCATCAGCCCTTTGAA
GGGGAGGAATGTGCCCAAGGACTAAAAAAAGGCCGTGGAGCCAGAGAGGCTGGGGCAGCAGACCTTTCTTGGGCAAATCAGGGGGCCCTGCTGTCCTCCT
GTCACCTCCAGAGCCAAAGGATCAAAGGAGGAGGAGCCAGGAGGGGAGAGAGGTGGGAGGGAGGGTCCCTCCGGAAGGACTCCAAATTTAGACAGAGGGT
GGGGGAAACGGGATATAAAGGAACTGGAGCTTTGAGGACAGATAGAGAGACTCCTGCGGCCCAGGTAAGAGGAGGTTTGGGGTGGGATGCCCTGCAGCCC
GTCCACAGAGCCCCCACCGTGAGGGACCTCCTTCACCAGGAGTGGGGTGCAGGTCAGTTGGAGGCCTAAGGGCTCTATTAAAACTGCCTATCTCCAGGCC
CAGGGAAGTTCCCCCTGACACAAGGAGGTTCCACAGGAAACCCAGAAACCTCTTTTCTCCTTCTCTGACTCTCCATTTCTTTCTCTGCATCATTCTGAGT
CTCCTACATGTTGTCTCCATCTTTCCATCTTCCTTCCTCCTTTGGATGGCTTCCTTCCCTTGATCCTGGTTTTATCTTGCCTCTTGGTCTTCATCGACAC
TTGTCACAATCATGCTTCTTTGTCTCTCTCCCTTGTCCTTCCTTCTTGGCACGTGTTCTCACCTCCCTGCCTCTCTGCTTCTAACCCTGTTTCCACACCC
CGTCCCTCGCACTCATATTGACTCGGTGCCCTTTCTTTTCTGCCTCTGCGTCTTTCCCTTTCTGACTCCCTGGTCTGTCCTGCCTGTCTGCGCTCTGGGG
CTGCCTCCATCCCCGGGTGGCCTGCCTCTGTTGTTCTTCACTCTCCTCATCTGTTCTTCTCTCTGCCCGGCTCTACCTCTGTTGTTCCTTGCTCCACCCA
CGGTCCAGATTCTTCAGGATTCTCCGTGAAGGGATAACCAGGTGAGAACTGCCCCCATTTTCTCTGCAGAGACTGGGGCATGCTTCTCCTGGGAGCCGGA
TTGCTGGACCAGGGGTCTGCTGTCCCAAGCACTCAGCGCCAACCCTTAGCATACTCCAGCCAATGCCACCCCAGGGAAACCCCTTACAGAGATTGTCCTT
CAGCATCACCTCAGAGGGCAGGAGAAGCAGAGCCCTGAGTAGGGGAGGGTGCAACAGCAGGTGCCTCTCCCAGGGTGGAGGAGAGGAGCGGGGGTAGGGA
GGGGGGCTGCAGAGGACAAAGCCACTCGCTGGAGCCTGGGCTCCCTCAGGAGTAACATAGCCCTCCTGTCTCTGACCCAGGGGAAGCACCAAGATGACCG
ATGCCCAGATGGCTGACTTTGGGGCAGCGGCCCAGTACCTCCGCAAGTCAGAGAAGGAGCGTCTAGAGGCCCAGACCCGGCCCTTTGACATTCGCACTGA
GTGCTTCGTGCCCGATGACAAGGAAGAGTTTGTCAAAGCCAAGATTTTGTCCCGGGAGGGAGGCAAGGTCATTGCTGAAACCGAGAATGGGAAGGTGAGT
AGGGCATGGCGCCGGGGCAGAAGGGAAGGAGGTCTGGGAAAGAAGATGCAGAGGTGGAGCCACTTGCAGGGGGAGCTGAGAGGGCTGGAGAAAAGCCAAG
GCCAGTGGGGATGCCAGGACATGCTCCTTTGAGGAGCCCAGAATCTGATCCCTCTCAAATTGACCTGAGCTGGTGCAACAGGTGCCACCCAGGGCCATGT
TCCCCCTGCCAGAGAGGATGCTGAGGAAGAAGAACCTCAGTGTTCGCCTAAGAGGGGTCTTGTAGATAAAGAGGGCACAGA


SNP Information

Context             (SEQ ID NO:67007):
CCTCCCTACAGAACGCTTTTGATGTGCTGGGCTTCACTTCAGAGGAGAAAAACTCCATGTATAAGCTGACAGGCGCCATCATGCACTTTGGAAACATGAA
R
TTCAAGCTGAAGCAGCGGGAGGAGCAGGCGGAGCCAGACGGCACTGAAGGTGGGAGGCAGGGATTCTTGGGGGCAGCTGTCAAGTCATGGAGGGCCATGT
Celera SNP ID:            hCV15854138
SNP Position Genomic:     11899
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67008):
CAACTCCACTGGACCTCAGCAGCCCTCAACCGAGTTACCGTGTTCCCCACACAGAGGAGATCTCCGACTTGACTGAGCAGTTGGGTTCCAGCGGAAAGAC
Y
ATCCATGAGCTGGAGAAGGTCCGAAAGCAGCTGGAGGCCGAGAAGATGGAGCTGCAGTCAGCCCTGGAGGAGGCCGAGGTGTGTGTGTGTGCAGGGCACG
Celera SNP ID:            hCV16284922
SNP Position Genomic:     24772
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67009):
AGTCAGGATGCTTTGCCTCACTGGGCCTGGCTCCTTCTCTCTACCAGCTGGAAGGATCCCTGGAGCAAGAGAAGAAGGTGCGCATGGACCTGGAGCGAGC
R
AAGCGGAAGCTGGAGGGCGACCTGAAGCTGACCCAGGAGAGCATCATGGACCTGGAGAATGACAAGCAGCAGCTGGATGAGCGGCTGAAAAAGTACTGTG
Celera SNP ID:            hCV25952500
SNP Position Genomic:     19446
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,33)   total(A,1|G,65)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67010):
AGTGTTTGACAACACAGGAGGACTCTGCCCCGGCCCCACCTCCTTCTCCTCTCAGGGAAGCTTTTTGCTCGAATTATGTTTCTGATCCGAATATAAGACG
W
ACAAAAGGTTTGTCTGAGGGCAGAGTGCTTCCGTCTGGGGCAGGGCACTGTGGCAGGGAAAGGCAGTGGGGAGGGCTGCAGAAGCCCATACCTCCTCAAT
Celera SNP ID:            hCV16284924
SNP Position Genomic:     23708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67011):
CTGAAGCTGACCCAGGAGAGCATCATGGACCTGGAGAATGACAAGCAGCAGCTGGATGAGCGGCTGAAAAAGTACTGTGTCCCCTCCCTGCTGCCCTTCC
K
CCTCCCCAGCCCATAACAGTACAAGCAGACCCAAGACAGCCATCCTCTGAGGCAACAACCTCACGCAGCCTCCACAAGTGGAGGCGCAAACCATGGGAAA
Celera SNP ID:            hCV16071379
SNP Position Genomic:     19568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67012):
AAAACCTGCTGCGGCTGCAGGACCTGGTAGACAAGCTGCAGCTAAAGGTCAAGGCCTACAAGCGCCAGGCCGAGGAGGCGGTGAGTGACCCTGCTGGGGA
Y
TAGGCCCAGGGGAGGCATAGGAGAGCTCGTCCCCCAAGCCAGGAGTCTGAGAACCCAGGCCCCCTCTCACCTCATGCTCCCACCTCCCGCAGGAGGAGCA
Celera SNP ID:            hCV27487902
SNP Position Genomic:     27731
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,48|C,1447)   total(C,1447|T,48)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67013):
ACCTGGGCAAATCCGCCAACTTCCAGAAGCCACGCAATATCAAGGGGAAGCCTGAAGCCCACTTCTCCCTGATCCACTATGCCGGCATCGTGGACTACAA
Y
ATCATTGGCTGGCTGCAGAAGAACAAGGATCCTCTCAATGAGACTGTCGTGGGCTTGTATCAGAAGTCTTCCCTCAAGCTGCTCAGCACCCTGTTTGCCA
Celera SNP ID:            hCV25629370
SNP Position Genomic:     14016
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,38)   total(C,72|T,2)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67014):
TTAGAGCCAGCTGTGGACCAGACATGGGAAGGCAGTGGGGACTGTGTGGTGACAGAGGCAGTCATTTTCTCTGTCTTCAGGGGAAGCCCTCCTTCACTGC
Y
TTGACATGGAGGGGACCAGCCACGCCCTGCTGGGCTCAGGCACAGTGGACGGGCACAGCCCCAATGGCCACTCACACCCACTTTCTGACTGCTCCCACCC
Celera SNP ID:            hCV25629371
SNP Position Genomic:     12935
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,12)   caucasian(C,15|T,1)   total(C,23|T,13)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67015):
CACCTTTGTTCCCATGCCCTGTCCCTGCCCAATACCATCTCTCCAAGGACTGATTGGACTTTGTTTCCTTTCAAAAGGGCTTGAATGAGGAGTAGCTTTG
M
CACATCTTGATCTGCTCAGCCCTGGAGGTGCCAGCAAAGCCCCATGCTGGAGCCTGTGTAACAGCTCCTTGGGAGGAAGCAGAATAAAGCAATTTTCCTT
Celera SNP ID:            hCV12019386
SNP Position Genomic:     28869
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:67016):
CAGAGGAGAAAAACTCCATGTATAAGCTGACAGGCGCCATCATGCACTTTGGAAACATGAAGTTCAAGCTGAAGCAGCGGGAGGAGCAGGCGGAGCCAGA
Y
GGCACTGAAGGTGGGAGGCAGGGATTCTTGGGGGCAGCTGTCAAGTCATGGAGGGCCATGTCTGCTCAGCAGTCATCTCTCTTCTCTTTTTTCTTTTTTT
Celera SNP ID:            hCV25629372
SNP Position Genomic:     11938
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,12)   caucasian(C,20)   total(C,30|T,12)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,18)   caucasian(C,33|T,1)   total(C,51|T,19)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,15)   total(C,15|T,2) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67017):
AGAGTCCACCCTGGCCACCTGTACACCTGGGTGGACAGAGAGGGGTACACCCATGCCCCATGCCCATGCAGACCTGAGGATGGTCCCATTCTCCTTCCCT
Y
TGGGGAAGAATCCAGACCCTCCAAAGAGCCCTCTCCTTCCCAATATCCCTTCTGTCTTCCCTGTGAGATCCTGGTTCCTTCTCTCTTGAGCACTATTGCC
Celera SNP ID:            hCV25629373
SNP Position Genomic:     8312
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,15)   caucasian(T,32)   total(C,1|T,47)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67018):
ACCTGCAGGAGGGGCTCATATGAACACACTGCAGTCACAGGGTCAGAGGCCTCAGGAAGGGTGGGAGGGATGAAGGAAATGGGATATTCCCAAGGTTTCA
R
GACCTCAGGTAGGAAGGAGGCAGGAGGCTCAGCACTCCTTTCAATGGGCCCCTGCAGAGACTCCCTGCTGGTAATCCAGTGGAACATTCGGGCCTTCATG
Celera SNP ID:            hCV25629377
SNP Position Genomic:     16640
SNP Source:               Applera
Population(Allele,Count): african american(G,8)   caucasian(A,1|G,21)   total(A,1|G,29)
SNP Type:                 INTRON


Context             (SEQ ID NO:67019):
GGATTAAGGAGACAAGTTTTCTCTCCAACTTACAAGGGATCTCACTTACCCATCATACTTCTTTTTCTGGGGTCCGCCAATATGGGGCCTCCCTACAGAA
Y
GCTTTTGATGTGCTGGGCTTCACTTCAGAGGAGAAAAACTCCATGTATAAGCTGACAGGCGCCATCATGCACTTTGGAAACATGAAGTTCAAGCTGAAGC
Celera SNP ID:            hCV25629378
SNP Position Genomic:     11812
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,36)   total(C,70|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67020):
ACAGGGGTCCAAAAGCAGAGCTAAGACGCTGGCCATTGGTTGTTTAAAGTGGTATGGACCTCCTGAGAGCCAGAATGTGCCCTGTGATCAGGGTGTACTG
R
GGAATGGATGAGGTGAGACAGGACTGGCCAGTATCTGGTGTTCTATCAAACCAGGAAGAGCTGAAAGCCATGAGACAGAGAGACACACAAGCCAAGAAAC
Celera SNP ID:            hCV25629379
SNP Position Genomic:     11317
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,36)   total(A,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:67021):
AGACAGTTGTGGATTTTGGGTGTAGATAACCTGGCAGCTTCTTGCCCAGGGCTCCTACTCTCGGGTAGGCCCAGGCATTCTCTCCTGATTTGAGGCTTGC
Y
GGTCTCCAGTAGTATTGTTCACTGCCCAATAAGCCCCTGTCTTCACAGCGGAGAATCCGGAGCAGGGAAGACAGTCAACACCAAGAGGGTCATCCAGTAC
Celera SNP ID:            hCV16076177
SNP Position Genomic:     9805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67022):
CTTTTTCTGGGGTCCGCCAATATGGGGCCTCCCTACAGAACGCTTTTGATGTGCTGGGCTTCACTTCAGAGGAGAAAAACTCCATGTATAAGCTGACAGG
Y
GCCATCATGCACTTTGGAAACATGAAGTTCAAGCTGAAGCAGCGGGAGGAGCAGGCGGAGCCAGACGGCACTGAAGGTGGGAGGCAGGGATTCTTGGGGG
Celera SNP ID:            hCV896838
SNP Position Genomic:     11872
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,35|T,1)   total(C,70|T,2)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,15)      total(C,15|T,1) ;(T,-|C,-)   Caucasian(T,6|C,78)   African-American(T,1|C,81)   Asians(T,3|C,81)   total(C,240|T,10)no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67023):
TGAGAGGATGTTCAACTGGATGGTGACGCGCATCAATGCCACCCTGGAGACCAAGCAGCCACGCCAGTACTTCATAGGAGTCCTGGACATCGCTGGCTTC
S
AGATCTTCGATGTGAGTTGGGACCCCTGGGAGTGGGAGAACAATCACTCACTCGCTCCCACATTCAACAGCTATTTGCTTAGAGCCAGCTGTGGACCAGA
Celera SNP ID:            hCV28001382
SNP Position Genomic:     12756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67024):
AAGACAGTTGTGGATTTTGGGTGTAGATAACCTGGCAGCTTCTTGCCCAGGGCTCCTACTCTCGGGTAGGCCCAGGCATTCTCTCCTGATTTGAGGCTTG
Y
TGGTCTCCAGTAGTATTGTTCACTGCCCAATAAGCCCCTGTCTTCACAGCGGAGAATCCGGAGCAGGGAAGACAGTCAACACCAAGAGGGTCATCCAGTA
Celera SNP ID:            hCV16076178
SNP Position Genomic:     9804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67025):
CTACCAACTTTTCCCAAAACAGCCCAGGCCCATCTCCCCTGTTTACTTTGCCCAGCCAAGCACAGGCTCAGCCTGCCCAAACCAGTGCCTTCTGGTGGCA
W
CCTTCCTGGTGCCAGCCCTGACCTCTGTGCATCAGAAGACAGTTGTGGATTTTGGGTGTAGATAACCTGGCAGCTTCTTGCCCAGGGCTCCTACTCTCGG
Celera SNP ID:            hCV16076179
SNP Position Genomic:     9668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67026):
GGGAAAAGGCCTCCCAGGCAAGGGCTTTCCTCCCCTAGTCCCAGATATCAGGGTTAGTTAGATGGTCCTCCCTGGCAAAAAGTCCATTGTATCCCATGAG
W
CCTTTCTTCTTGTTAGGCACTCAGTGGGAATGAAAATAACAGCCTTCCCCCTTCATACACATCTCTCTTTGGAGACCAGTTCCTTGACATGGAGGAAGGC
Celera SNP ID:            hCV896839
SNP Position Genomic:     19763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67027):
TGCTACTTGCCTTTTCCTTCCAGAGGCTGACAAGTCTGCCTACCTCATGGGGCTGAACTCAGCCGACCTGCTCAAGGGGCTGTGCCACCCTCGGGTGAAA
R
TGGGCAATGAGTACGTCACCAAGGGGCAGAATGTCCAGCAGGTGGGTCCATCTTCAGATGATAATGGGTGGGCAGGGTAGGGAGACTGGCATGGTGGGAT
Celera SNP ID:            hCV27540442
SNP Position Genomic:     12452
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67028):
GAAAGAGAGAAGGAGATGGCCTCCATGAAGGAGGAGTTCACACGCCTCAAAGAGGCGCTAGAGAAGTCCGAGGCTCGCCGCAAGGAGCTGGAGGAGAAGA
W
GGTGTCCCTGCTGCAGGAGAAGAATGACCTGCAGCTCCAAGTGCAGGCGGTGAGGCTCCTGGGCTACTGTTGGCTCTTCCACCCTGCTCTGCCTTCACTT
Celera SNP ID:            hCV27540443
SNP Position Genomic:     16904
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67029):
ACAGCCTCTTCCCTCTCTCCAGGTCCCCTGCAGGCCTTGGCCCCTTTCCTCATCTGTAGACACACTTGAGTAGCCCAGGTAAGAAAAGCTGAAGCTAGAG
Y
GTTGAAAATCTAGTAAGACTGGGCATTAGAGCCCCAAAGCCAGCCTATGGAACTCTAGTTTCTGCCATGTGCTGGAGAGAATATCTTGGCTATCAAGAGC
Celera SNP ID:            hCV1839842
SNP Position Genomic:     7552
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,6)   caucasian(C,20|T,16)   total(C,38|T,22)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;no_pop(C,-|T,-)   JBIC-allele(C,416|T,1081)   total(C,416|T,1081)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67030):
CTCTGCAGGGCACCCTGGAGGACCAGATCATCCAGGCCAACCCTGCTCTGGAGGCCTTTGGCAATGCCAAGACCGTCCGGAACGACAACTCCTCCCGCTT
Y
GTGAGTGGTCCCTGACCTTGGCCTTGGGACTTGGACTGGTGGAGGAATGGTCTCAGATATGAGCCTTCCCCCAACTCATCACCACTCTCTTCCATCTCTC
Celera SNP ID:            hCV1839843
SNP Position Genomic:     10138
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,17)   caucasian(C,28|T,2)   total(C,41|T,19)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,9)      total(C,7|T,9) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67031):
CCTGCAAGAATGAGGACCTTACCCCCTGAACAGCCTCCCCTCTGTTCCTCACCTTCAGGAACAAGACAACCTGGCAGATGCTGAGGAGCGCTGTGATCAG
S
TGATCAAAAACAAGATTCAGCTGGAGGCCAAGGTGAAGGAGATGAACGAGAGGCTGGAGGATGAGGAGGAGATGAATGCTGAGCTCACTGCCAAGAAGCG
Celera SNP ID:            hCV27540731
SNP Position Genomic:     17615
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67032):
AAGGGGCTGAAGGATCCGAGCCCTTGGTTCCAGAGCCTATGTTGTGCTGAGCACCCAGGACAGGGTGGCACCAGGGACAGCTGATTTCCCAGGGGCTTGA
R
AGTGGACACATGGAGGATGGGCACCTGCATGATGACCTCCCACACCTGCATGTTTATTGGGCCTGGTTTATGCATCCAAGGATCAGGAAGTGTGAGGGTG
Celera SNP ID:            hCV1839847
SNP Position Genomic:     13424
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,8)      total(G,8|A,7) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67033):
CAGCTTAGTGAACTTGGGCCAGTCCCATAACCCCTCTGGGCTTAATTTACTCATCTAGAACATTGGATATATCTGTTCTGGCTACCACCTATGATAATAG
K
TGTGAATCATATAAAAAAGGAATGTGAAAGCCTTTTAGTTAAAAATGTGGCTAGAAGAAAATGAAACAAATGATTATTACTAACTGACTTGCTAAGATTA
Celera SNP ID:            hCV1839849
SNP Position Genomic:     15452
SNP Source:               Applera
Population(Allele,Count): african american(G,21|T,7)   caucasian(G,35|T,1)   total(G,56|T,8)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,12)   total(G,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67034):
TGTTAATCCATTTTTGGCTAATTAGGAGACAGAGGCTCAGGGACCTGGGTTCAAGACCTGGCTCTGTTCTTGATCAGCTTAGTGAACTTGGGCCAGTCCC
R
TAACCCCTCTGGGCTTAATTTACTCATCTAGAACATTGGATATATCTGTTCTGGCTACCACCTATGATAATAGGTGTGAATCATATAAAAAAGGAATGTG
Celera SNP ID:            hCV16071380
SNP Position Genomic:     15378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67035):
GTGATATATGCCACTGGGGCACTGGCCAAGGCAGTGTATGAGAGGATGTTCAACTGGATGGTGACGCGCATCAATGCCACCCTGGAGACCAAGCAGCCAC
D
CCAGTACTTCATAGGAGTCCTGGACATCGCTGGCTTCGAGATCTTCGATGTGAGTTGGGACCCCTGGGAGTGGGAGAACAATCACTCACTCGCTCCCACA
Celera SNP ID:            hCV27536060
SNP Position Genomic:     12718
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67036):
CTGATGTTCTCGGCCCCTGGGACCTGTCCTCAGGCTTCTCCAGCTACACTTCTGAGGTTTCAAGGATTGTCTTTGAGAAGGTTCATGTTGTTTCCTCTTG
Y
CCCCATCCACACCCTCCATCCTCCCCACCCTCTGCCACCCTCCCCTGGGCAGGAAGAAGCTGGCCCAGCGGCTGCAGGAAGCTGAGGAGGCCGTGGAGGC
Celera SNP ID:            hCV16076104
SNP Position Genomic:     23979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67037):
GAGCGAGCGGCGCATCAAGGAGCTCACCTACCAGGTGCGACGGGCGGTGACTCCAGGCAGAGCCCTGGCACCATAGCCACAGTGACAACCAGCTGAGGAG
W
ATGAAGAGTTTGCTCTTAGCCTCTTCCAGGGCGAGGATGGGAATGCAGCCCCCGTTTCACTTTGCCTAGCCCTGCCCCACTCTGAATGTCCCCTAGCTCA
Celera SNP ID:            hCV11722204
SNP Position Genomic:     26789
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|A,8)      total(A,8|T,5) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67038):
CCTGATGTTCTCGGCCCCTGGGACCTGTCCTCAGGCTTCTCCAGCTACACTTCTGAGGTTTCAAGGATTGTCTTTGAGAAGGTTCATGTTGTTTCCTCTT
K
TCCCCATCCACACCCTCCATCCTCCCCACCCTCTGCCACCCTCCCCTGGGCAGGAAGAAGCTGGCCCAGCGGCTGCAGGAAGCTGAGGAGGCCGTGGAGG
Celera SNP ID:            hCV16076105
SNP Position Genomic:     23978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67039):
CACTTTCCTTCCAATAAAGAGCATGTAGACTGTCAGGCCCTCGCCTAAAGGAAGGCTCTTCAAACTATCTTCCCCAAATCCTTTAATTCCCACCTCTCCA
S
TGGAAGAGCTAAACTGACTTGCTGTTCCAGAGAAGCCGAGAGCCTTTTAGAGCCGGGGGGATTCCAGTGGAGGGGTCCAGGCGGTGGGTCTGAGCCCTTT
Celera SNP ID:            hCV16076106
SNP Position Genomic:     21371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67040):
AGAACATCGCCATCGTGGAGCGGCGCAACAACCTGCTGCAGGCTGAGCTGGAGGAGTTGCGTGCCGTGGTGGAGCAGACAGAGCGGTCCCGGAAGCTGGC
R
GAGCAGGAGCTGATTGAGACTAGTGAGCGGGTGCAGCTGCTGCATTCCCAGGTGAGCAGCTCCCCTGCTCATTCCTGAAGGGAGCACAGGCTGGGGCTCA
Celera SNP ID:            hCV11722205
SNP Position Genomic:     26037
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,22)   caucasian(A,3|G,33)   total(A,11|G,55)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67041):
GAGCAAGGCGGAGGAGACCCAGCGTTCTGTCAACGACCTCACCAGCCAGCGGGCCAAGTTGCAAACCGAGAATGGTGAGCCTAGAGCAGGGGCTCCATGG
W
TCCCACCACAGTCTCCCCAACCTCCTGAGCCACTCCAGCCTCGGGCACAAGCCAATACACGCACACACAGACACAGAGTCTCTCCAGAAAATGGGGCCTG
Celera SNP ID:            hCV1843584
SNP Position Genomic:     22262
SNP Source:               Applera
Population(Allele,Count): african american(A,24|T,8)   caucasian(A,6|T,24)   total(A,30|T,32)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,2)   caucasian(A,6|T,26)   total(A,12|T,28)   
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|T,6)      total(A,2|T,6) ;no_pop(T,-|A,-)   ;JBIC-allele(A,57|T,1443)   total(A,57|T,1443)
SNP Type:                 INTRON


Context             (SEQ ID NO:67042):
AAGGGCAGAGGGAAAAGAGCTGACTTTTAAAAGCACAGGCTTTCTACTTGGGTTCAACCTAGATACACAGCTTAATTATTTTGTGACCTTGGGCAGACCA
K
GCATCATCTTTGAGCCTCAATTTCCTCTAGACAGGGAATAAAGCTGTCCATTTCATTAAGCCATCATACATAAGTGCTTGGCATCAGCAAATGCAATTCC
Celera SNP ID:            hCV11722208
SNP Position Genomic:     17216
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,11)   total(G,2|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67043):
ATGGACATTACCTCATCAGTGGCCCTACAACCCCTTGGATAGCTGGTTGTCCAAGACAGAATCTTAGTTCAACTTTAAATTTACCTGCAGAACCACTTAA
K
CCCCCAATGAGACATATTCAAATTGTTAATCCATTTTTGGCTAATTAGGAGACAGAGGCTCAGGGACCTGGGTTCAAGACCTGGCTCTGTTCTTGATCAG
Celera SNP ID:            hCV16284932
SNP Position Genomic:     15254
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67044):
TTGATCTGCTCAGCCCTGGAGGTGCCAGCAAAGCCCCATGCTGGAGCCTGTGTAACAGCTCCTTGGGAGGAAGCAGAATAAAGCAATTTTCCTTGAAGCC
R
AGATCCTGACTCCAGACTCTTCTTCACTGCCCTGAGGACCCGGGGATGGGGTCTGGACTAGGGGAGGTGGAAATGCAGGGGAGTGGGGGCAAATTCAAAG
Celera SNP ID:            hCV25953891
SNP Position Genomic:     28976
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(A,1|G,23)   total(A,2|G,50)
SNP Type:                 UTR 3


Context             (SEQ ID NO:67045):
GGGTGGATGCTGAAGAACAGAGCCAGGGAGAAGCAGGAAGGTGGGACTGGTCAGGTTGGGCACAGCCTGCCCTGACACAGCCTCTTCCCTCTCTCCAGGT
Y
CCCTGCAGGCCTTGGCCCCTTTCCTCATCTGTAGACACACTTGAGTAGCCCAGGTAAGAAAAGCTGAAGCTAGAGCGTTGAAAATCTAGTAAGACTGGGC
Celera SNP ID:            hCV27841129
SNP Position Genomic:     7476
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,37|T,1)   total(C,69|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:67046):
ATCTGAACAAGCTGATGACCAACTTGCGCTCCACCCATCCCCACTTTGTACGTTGTATCATCCCTAATGAGACAAAGTCTCCAGGTGAGGCCACAAACTC
R
GGCCAACCCACTGCTGGGCATACACCGCCCTGGGAACAGGACCTCCTAGGACATCTCCCTACCTACCACCACAGTGGTTTCCAAACCACATTCTTCTCCT
Celera SNP ID:            hCV16284933
SNP Position Genomic:     14962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67047):
GAGGCAACAACCTCACGCAGCCTCCACAAGTGGAGGCGCAAACCATGGGAAAAGGCCTCCCAGGCAAGGGCTTTCCTCCCCTAGTCCCAGATATCAGGGT
Y
AGTTAGATGGTCCTCCCTGGCAAAAAGTCCATTGTATCCCATGAGTCCTTTCTTCTTGTTAGGCACTCAGTGGGAATGAAAATAACAGCCTTCCCCCTTC
Celera SNP ID:            hCV15868916
SNP Position Genomic:     19717
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67048):
TGGGCAGAGCAGATCACTGCAGAGCATGGGTGACTCTGGACACTTCCCTCCTCAGGTATCGCATCCTGAACCCAGCGGCCATCCCTGAGGGACAGTTCAT
K
GATAGCAGGAAGGGGGCAGAGAAGCTGCTCAGCTCCCTGGACATTGATCACAACCAGTACAAGTTTGGCCACACCAAGGTGAGGAAAGGAGACTAATTAA
Celera SNP ID:            hCV27529139
SNP Position Genomic:     15949
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67049):
TGGCCTCCATTGATGACGCTGAGGAGCTCATGGCCACTGATGTGAGTGTGTGAGGACCCAGCCAGGGGGTGGGAGGATTGGCAGTGAGGGGCAAACAGGG
K
TCCAAAAGCAGAGCTAAGACGCTGGCCATTGGTTGTTTAAAGTGGTATGGACCTCCTGAGAGCCAGAATGTGCCCTGTGATCAGGGTGTACTGGGGAATG
Celera SNP ID:            hCV25629383
SNP Position Genomic:     11223
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,38)   total(G,75|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:67050):
CAAGGAGAGACCACCGTGGCCTCCATTGATGACGCTGAGGAGCTCATGGCCACTGATGTGAGTGTGTGAGGACCCAGCCAGGGGGTGGGAGGATTGGCAG
Y
GAGGGGCAAACAGGGGTCCAAAAGCAGAGCTAAGACGCTGGCCATTGGTTGTTTAAAGTGGTATGGACCTCCTGAGAGCCAGAATGTGCCCTGTGATCAG
Celera SNP ID:            hCV25629384
SNP Position Genomic:     11207
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,17)   caucasian(C,2|T,36)   total(C,21|T,53)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,10)      total(C,3|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67051):
ACAAAGCTCACCCAGTACAGCTCACCAGAAAGCAAATATGTAGCCAGGGTCACCCCCAAAAGACACCAAAAACACACCCATCCCATTCAAACAAGCATAA
D
AACTTTTTCATTGCCCAGGGCAGTGTGGACTCTAGCTTTCTGAGGTGTTTTCTAGAATCAGACTCTGAATTAGAATTTGTTTCTTTTCCAATCCAGGATG
Celera SNP ID:            hCV3083715
SNP Position Genomic:     27078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,9|A,16)      total(G,9|A,16) ;no_pop(G,-|A,-)   no_pop(T,-|G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67052):
GTTTTCCTGGCCTGCATTGCAGCCCAGGAAATTCCATCACACTCATAGCCCCAAAGTCACTCCCAGCATGTGCCGAGGTCCAGAGCAGGGGACTTCATCC
B
GCATGGGGTCCCCGGACCCTGAAAAACCTGCTCCCTGGAGCACTGCACACACACAATTTTGTGCATAATTTCAGGAGTCCCACTAGTTCTTTGGACTCTT
Celera SNP ID:            hCV3083716
SNP Position Genomic:     27327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(T,-|G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67053):
CCAGAGTTATTTTCCAGCTGAAAGCAGAGAGAGATTATCACATTTTCTACCAAATCCTGTCTAACAAAAAGCCTGAGCTGCTGGGTGAGTCAGAGCCACC
R
ACTGAGACCAACTATCTCCATGGCAACCTGGTCCCCTCTGCTTGTGGCTGGACTCAGCTGGCATGCCCTGGGTTTCATGGCACTGCTGGATTCAATTCAG
Celera SNP ID:            hCV25629385
SNP Position Genomic:     10839
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,16)   caucasian(A,1|G,23)   total(A,3|G,39)
SNP Type:                 INTRON


Context             (SEQ ID NO:67054):
CCAAAGAGGAAAATAAGTTTCAGAAAGGTTAGCTGAGTTACCCAAAGCAATAGTGACAAAATTAAAGACCATCAGAGCTAAAAAGGACCTTTGAAACAAT
S
TAGTCCGACCCCCTCATTTTACATTATGAGAAAACAAGGACCAAAGATGGGAATGTCCTGTAGAGCCCAGGCCCCATCACCCTGTCTACAGCACTCCTCC
Celera SNP ID:            hCV7533735
SNP Position Genomic:     20380
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67055):
CCTACCAACTTTTCCCAAAACAGCCCAGGCCCATCTCCCCTGTTTACTTTGCCCAGCCAAGCACAGGCTCAGCCTGCCCAAACCAGTGCCTTCTGGTGGC
W
TCCTTCCTGGTGCCAGCCCTGACCTCTGTGCATCAGAAGACAGTTGTGGATTTTGGGTGTAGATAACCTGGCAGCTTCTTGCCCAGGGCTCCTACTCTCG
Celera SNP ID:            hCV16076189
SNP Position Genomic:     9667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67056):
TTCCGGCAGAGGTGGGTATGAGGGTGCACCAGAGCTCATAGAACAGGGGGAGCCAGGCTGCCCTGATGGGAATGGGATCTGCAGGTGACCCTGGAATTCT
R
TGGGCAGAGCAGATCACTGCAGAGCATGGGTGACTCTGGACACTTCCCTCCTCAGGTATCGCATCCTGAACCCAGCGGCCATCCCTGAGGGACAGTTCAT
Celera SNP ID:            hCV1839850
SNP Position Genomic:     15848
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,14)      total(G,5|A,14) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67057):
CTCTGCTCCCCTCCCCAGTGTTCCCAAGTTATACTATCCTGAAACTCTTCCCCTCCCCATACTTCTGAAGCTCTTGCCAAGTGGGGATATCCTAGAGTTA
Y
CCTCCTATTTGAGTGATGTGCCTCTCCTTCCCTCTACCTGCAAGAATGAGGACCTTACCCCCTGAACAGCCTCCCCTCTGTTCCTCACCTTCAGGAACAA
Celera SNP ID:            hCV1839852
SNP Position Genomic:     17478
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,3)   caucasian(C,14)   total(C,19|T,3)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,14)   total(C,14|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67058):
ACACGCAACAGAGAACAAGGTAAGGGCAGCTCCCTTTGGCTCCAGCCCGGGTCTCATCAGGACTCTCAGACCATACTGACCTTGACCCAGGCTAGCCACT
Y
GGCATCCAGAGAGCAGCATGGACCTTGACATGGAGCTCCCCACAGATGGCACCAAGCTGGTGACCTTTGACCCTAAAGGAGATGGGATTCTTGGTCGGCA
Celera SNP ID:            hCV1839853
SNP Position Genomic:     17897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,13)      total(C,13|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67059):
ATGGCACCAAGCTGGTGACCTTTGACCCTAAAGGAGATGGGATTCTTGGTCGGCAGGTGAAAAACCTGACAGAGGAGATGGCTGGGCTGGATGAGATCAT
Y
GCCAAGCTGACCAAGGAGAAGAAAGCTCTGCAAGAGGCCCACCAACAGGCTCTGGATGACCTTCAGGCCGAGGAGGACAAGGTCAACACCCTGACTAAGG
Celera SNP ID:            hCV1839854
SNP Position Genomic:     18043
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,2)   caucasian(C,6|T,26)   total(C,12|T,28)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67060):
CCTTGACATGGAGGAAGGCTCCACATGAGAGCCTCTTAGGAAAGTCCCTTTGTGGCTTTTCACAGAGAGCCCACAGGGCACCAAGAAATGCCCTCACATT
M
AAGAAGTCAGGGGATCAGGGCCATTTCTTTGTTTTGCTTAACTTGTGGTTCCAATTCTTAGTGTAAGTTCTTCCAAAATGTATAGACTTTCCAGACTTGG
Celera SNP ID:            hCV1839855
SNP Position Genomic:     19945
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,9|A,9)      total(A,9|C,9) ;no_pop(A,-|C,-)   (C,-|A,-)   Caucasian(C,20|A,52)   African-American(A,23|C,59)   total(A,75|C,79) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67061):
ACTGTCCCATCCCCAGAGCCTAGGACAGAGCCTGGCACATAGTAGGCATTCAGTGAAGATTTGTGGAGTGAATGAATGACCAGTCACTGAACTCTCTTCA
Y
ATAAACATTTTACCCATTGCATCTTAGCTGAGCTTCCCATTTCCACATACCTCCCGGTTCCCACCTCTGCCTCCCTCTGTTTTCTTTTATACTCTATACC
Celera SNP ID:            hCV1839856
SNP Position Genomic:     25039
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,26)   caucasian(C,31|T,9)   total(C,35|T,35)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67062):
CTCCTTTTCTATCCCCAGACCTACTCGGGCCTCTTCTGTGTCACCGTCAACCCTTACAAGTGGCTGCCGGTGTACACTCCTGAGGTGGTGGCTGCCTACC
R
GGGCAAGAAGAGGAGCGAGGCCCCGCCCCACATCTTCTCCATCTCCGACAACGCCTATCAGTACATGCTGACAGGTGAGAGGCCCTGGAAGGGTCTTCCT
Celera SNP ID:            hCV27531635
SNP Position Genomic:     9010
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67063):
GGGCCTAGATATGCCATGTCTATCTGTGCCCAGAGCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGTGTTTATGTTTA
K
AGGGGGGTAGGGTTAGAGGATGTTAACTTTTCTGATATCTTTCTAGAAAGGAGCTGGGGAATGAAAAGTCAGAGGTGGTGATCAATTCTGAATTATGTAT
Celera SNP ID:            hCV16076110
SNP Position Genomic:     18297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67064):
GGAAGGGTCTTCCTGAAGGGAACTGGGATAGGCCGGGAGGGAGAGGGAGAAGGAAGGGAGAAGCCCCACGAGAGCATCCTGTGCAGCTCCTGACCTTTCC
Y
CCCCACCCTCTCCCCACAGACAGAGAAAACCAGTCCATCCTGATCACGTGAGTGTAGCTGCTACTGTATTCCCTTTCAGAATCTCCCTGATCCCAGCCTC
Celera SNP ID:            hCV16076111
SNP Position Genomic:     9197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67065):
ACCCAGGCTAGCCACTCGGCATCCAGAGAGCAGCATGGACCTTGACATGGAGCTCCCCACAGATGGCACCAAGCTGGTGACCTTTGACCCTAAAGGAGAT
R
GGATTCTTGGTCGGCAGGTGAAAAACCTGACAGAGGAGATGGCTGGGCTGGATGAGATCATTGCCAAGCTGACCAAGGAGAAGAAAGCTCTGCAAGAGGC
Celera SNP ID:            hCV25952954
SNP Position Genomic:     17981
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,7)   caucasian(G,32)   total(A,1|G,39)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67066):
AGAGGCCCTGGAAGGGTCTTCCTGAAGGGAACTGGGATAGGCCGGGAGGGAGAGGGAGAAGGAAGGGAGAAGCCCCACGAGAGCATCCTGTGCAGCTCCT
R
ACCTTTCCTCCCCACCCTCTCCCCACAGACAGAGAAAACCAGTCCATCCTGATCACGTGAGTGTAGCTGCTACTGTATTCCCTTTCAGAATCTCCCTGAT
Celera SNP ID:            hCV16076118
SNP Position Genomic:     9188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67067):
CTCTTCCCGTCATCTCCTGGCCTCTTCACTTATTTACTTCCCATCTCCCTTCTCTCCTCTTTCCCTTCTGTCTCCCACCCTCTCTCCTTATCCCTGTCTG
S
CCCCAGGGCCCCTTCATCTCTGTGACTTCTCGAATTCTCTCCATCTCTCTTTTCCTTCCTTCTTCTCCTCTCTTCTTCCTGCATCTCTTTCTGGCATTTT
Celera SNP ID:            hCV16284941
SNP Position Genomic:     14724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67068):
TCTCTTCCCGTCATCTCCTGGCCTCTTCACTTATTTACTTCCCATCTCCCTTCTCTCCTCTTTCCCTTCTGTCTCCCACCCTCTCTCCTTATCCCTGTCT
S
CCCCCAGGGCCCCTTCATCTCTGTGACTTCTCGAATTCTCTCCATCTCTCTTTTCCTTCCTTCTTCTCCTCTCTTCTTCCTGCATCTCTTTCTGGCATTT
Celera SNP ID:            hCV16284942
SNP Position Genomic:     14723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67069):
AAATCGAGGACATGGCCATGCTGACCTTCCTGCATGAGCCCGCGGTGCTCTACAACCTCAAGGATCGCTACGGCTCCTGGATGATCTACGTGAGTGCTGC
M
CCTGGCCCTACGTTGGGATCTCTGTTCTTGCTCCATCCATGTCCACCCCAGGAGCCAAGAGTGTCTTCTGTTTGTGTCTAGGCAGGGTTACACTCTAACC
Celera SNP ID:            hCV16076119
SNP Position Genomic:     8651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67070):
ACTGGTAACTCCTCTTGACTCTTGAGCATGGTGCTAGGTTTTGGGGCTCCCACTGAAGGGGAGAGCCCAGGGAGGGAAGGGAAGAATGGGCAGATGGGAG
K
GCAGCCAGCTTCTGCTCACTCCAGGCACAGCCATGGGAGATTCGGAGATGGCAGTCTTTGGGGCTGCCGCCCCCTACCTGCGCAAGTCAGAGAAGGAGCG
Celera SNP ID:            hCV27470468
SNP Position Genomic:     7958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67071):
AGAAGACCCTAATTTATATACAACCAGTATATCCCAGTTTCCCCCCAACTGCTAGTTTCCAGTTCCCTTCCACCTAATTTTGTCCTGCAATCTTGTAACT
M
AAACCTAAAATGGACATCCCAGAGAACCCGGGCCTGGCTTTGTTCTCGCCCAGGCAACTTCCCTCTGACCAACCCCAGAACCCTACCCTCCAGAACTTGC
Celera SNP ID:            hCV16071398
SNP Position Genomic:     28576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67072):
ACTCACTCGCTCCCACATTCAACAGCTATTTGCTTAGAGCCAGCTGTGGACCAGACATGGGAAGGCAGTGGGGACTGTGTGGTGACAGAGGCAGTCATTT
W
CTCTGTCTTCAGGGGAAGCCCTCCTTCACTGCCTTGACATGGAGGGGACCAGCCACGCCCTGCTGGGCTCAGGCACAGTGGACGGGCACAGCCCCAATGG
Celera SNP ID:            hCV16284943
SNP Position Genomic:     12902
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,35)   caucasian(A,1|T,29)   total(A,2|T,64)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67073):
GGTGATATATGCCACTGGGGCACTGGCCAAGGCAGTGTATGAGAGGATGTTCAACTGGATGGTGACGCGCATCAATGCCACCCTGGAGACCAAGCAGCCA
Y
GCCAGTACTTCATAGGAGTCCTGGACATCGCTGGCTTCGAGATCTTCGATGTGAGTTGGGACCCCTGGGAGTGGGAGAACAATCACTCACTCGCTCCCAC
Celera SNP ID:            hCV27540679
SNP Position Genomic:     12717
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67074):
TGCAGGGCACGGGGTGCAGGGAGCTGAGCTCCAGGCTTTTGGTCCCTGTTCTCATCCCCCGCTTTGTCGTTTTGTTCACTGTCCCATCCCCAGAGCCTAG
R
ACAGAGCCTGGCACATAGTAGGCATTCAGTGAAGATTTGTGGAGTGAATGAATGACCAGTCACTGAACTCTCTTCACATAAACATTTTACCCATTGCATC
Celera SNP ID:            hCV25629390
SNP Position Genomic:     24962
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(G,40)   total(A,4|G,72)
SNP Type:                 INTRON


Context             (SEQ ID NO:67075):
GTCAGCCCTGGAGGAGGCCGAGGTGTGTGTGTGTGCAGGGCACGGGGTGCAGGGAGCTGAGCTCCAGGCTTTTGGTCCCTGTTCTCATCCCCCGCTTTGT
Y
GTTTTGTTCACTGTCCCATCCCCAGAGCCTAGGACAGAGCCTGGCACATAGTAGGCATTCAGTGAAGATTTGTGGAGTGAATGAATGACCAGTCACTGAA
Celera SNP ID:            hCV25629391
SNP Position Genomic:     24929
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,25)   caucasian(C,26|T,4)   total(C,33|T,29)
SNP Type:                 INTRON


Context             (SEQ ID NO:67076):
AGGCCGAGAAGATGGAGCTGCAGTCAGCCCTGGAGGAGGCCGAGGTGTGTGTGTGTGCAGGGCACGGGGTGCAGGGAGCTGAGCTCCAGGCTTTTGGTCC
S
TGTTCTCATCCCCCGCTTTGTCGTTTTGTTCACTGTCCCATCCCCAGAGCCTAGGACAGAGCCTGGCACATAGTAGGCATTCAGTGAAGATTTGTGGAGT
Celera SNP ID:            hCV25629392
SNP Position Genomic:     24907
SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,2)   caucasian(C,36|G,2)   total(C,66|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:67077):
GCTATGTGATGGGTGTGTCTGTGAGAGGAAGCCCACAGTGTCTTCTCTCTGAGAATGTCCACAAAGTCTGACAACAAAATGGGGACAGGATGGAAAAGAA
S
TCTCTTTAGAGTCATCAGACTTGCATTCAAGTCTTGGCTCTCCCACTTGTTGTCATGGGCTCTTGGCCAAGCAAGCCATTTAACCTCGATTTCCTCATCT
Celera SNP ID:            hCV16175255
SNP Position Genomic:     6980
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,196|G,1307)   total(G,1307|C,196) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67078):
TACCAACTTTGCTACTTGCCTTTTCCTTCCAGAGGCTGACAAGTCTGCCTACCTCATGGGGCTGAACTCAGCCGACCTGCTCAAGGGGCTGTGCCACCCT
Y
GGGTGAAAGTGGGCAATGAGTACGTCACCAAGGGGCAGAATGTCCAGCAGGTGGGTCCATCTTCAGATGATAATGGGTGGGCAGGGTAGGGAGACTGGCA
Celera SNP ID:            hCV27487784
SNP Position Genomic:     12443
SNP Source:               HGMD;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67079):
CAGAAGTATGAGGAGTCGCAGTCGGAGCTGGAGTCCTCGCAGAAGGAGGCTCGCTCCCTCAGCACAGAGCTCTTCAAACTCAAGAACGCCTATGAGGAGT
S
CCTGGAACATCTGGAGACCTTCAAGCGGGAGAACAAAAACCTGCAGGGTGTGCTGGGGGCCCAAGAGGCTGGGGAGGGGCTGCACTGGCAGTGTTCCCAT
Celera SNP ID:            hCV25629396
SNP Position Genomic:     24518
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,37|G,1)   total(C,72|G,2)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67080):
ATGCCCCCTGCAGTTCAACAGCTTTGAGCAGCTCTGCATCAACTTCACCAACGAGAAGCTGCAGCAGTTCTTCAACCACCACATGTTTGTGCTGGAGCAG
R
AGGAGTACAAGAAGGAGGGCATCGAGTGGACATTCATTGACTTTGGCATGGACCTGCAGGCCTGCATTGACCTCATCGAGAAGGTGCCTCTTTGGCCTTA
Celera SNP ID:            hCV27487785
SNP Position Genomic:     13139
SNP Source:               HGMD;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67081):
AGATCCTGGCCGAGTGGAAGCAGAAGTATGAGGAGTCGCAGTCGGAGCTGGAGTCCTCGCAGAAGGAGGCTCGCTCCCTCAGCACAGAGCTCTTCAAACT
Y
AAGAACGCCTATGAGGAGTCCCTGGAACATCTGGAGACCTTCAAGCGGGAGAACAAAAACCTGCAGGGTGTGCTGGGGGCCCAAGAGGCTGGGGAGGGGC
Celera SNP ID:            hCV25629397
SNP Position Genomic:     24498
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67082):
AGGCTCCACATGAGAGCCTCTTAGGAAAGTCCCTTTGTGGCTTTTCACAGAGAGCCCACAGGGCACCAAGAAATGCCCTCACATTCAAGAAGTCAGGGGA
W
CAGGGCCATTTCTTTGTTTTGCTTAACTTGTGGTTCCAATTCTTAGTGTAAGTTCTTCCAAAATGTATAGACTTTCCAGACTTGGTAAACAGTGAGCTTG
Celera SNP ID:            hCV7533744
SNP Position Genomic:     19960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67083):
AAGGCTCCACATGAGAGCCTCTTAGGAAAGTCCCTTTGTGGCTTTTCACAGAGAGCCCACAGGGCACCAAGAAATGCCCTCACATTCAAGAAGTCAGGGG
W
TCAGGGCCATTTCTTTGTTTTGCTTAACTTGTGGTTCCAATTCTTAGTGTAAGTTCTTCCAAAATGTATAGACTTTCCAGACTTGGTAAACAGTGAGCTT
Celera SNP ID:            hCV7533745
SNP Position Genomic:     19959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67084):
AAGTGGCTGCCGGTGTACACTCCTGAGGTGGTGGCTGCCTACCGGGGCAAGAAGAGGAGCGAGGCCCCGCCCCACATCTTCTCCATCTCCGACAACGCCT
R
TCAGTACATGCTGACAGGTGAGAGGCCCTGGAAGGGTCTTCCTGAAGGGAACTGGGATAGGCCGGGAGGGAGAGGGAGAAGGAAGGGAGAAGCCCCACGA
Celera SNP ID:            hCV27863137
SNP Position Genomic:     9067
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67085):
GGTCCCTGACCTTGGCCTTGGGACTTGGACTGGTGGAGGAATGGTCTCAGATATGAGCCTTCCCCCAACTCATCACCACTCTCTTCCATCTCTCCAGGGG
M
AATTCATTCGAATTCATTTTGGGGCAACAGGAAAGTTGGCATCTGCAGACATAGAGACCTGTGAGTGCCATGAATCTGCTAGGCTCAGCCTAAGCTCACC
Celera SNP ID:            hCV27863138
SNP Position Genomic:     10245
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67086):
CTTGGCCTTGGGACTTGGACTGGTGGAGGAATGGTCTCAGATATGAGCCTTCCCCCAACTCATCACCACTCTCTTCCATCTCTCCAGGGGAAATTCATTC
R
AATTCATTTTGGGGCAACAGGAAAGTTGGCATCTGCAGACATAGAGACCTGTGAGTGCCATGAATCTGCTAGGCTCAGCCTAAGCTCACCCTTGCTCTAG
Celera SNP ID:            hCV27863139
SNP Position Genomic:     10255
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67087):
CATTGCCCAGGGCAGTGTGGACTCTAGCTTTCTGAGGTGTTTTCTAGAATCAGACTCTGAATTAGAATTTGTTTCTTTTCCAATCCAGGATGTCACTATC
Y
CTCTAAGCACACTTTGTCCTTAACTTAGATTAAGTCAGTGTTTTCCTGGCCTGCATTGCAGCCCAGGAAATTCCATCACACTCATAGCCCCAAAGTCACT
Celera SNP ID:            hCV2947841
SNP Position Genomic:     27187
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,10|T,14)      total(C,10|T,14) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67088):
GCCTGAAGCCCACTTCTCCCTGATCCACTATGCCGGCATCGTGGACTACAACATCATTGGCTGGCTGCAGAAGAACAAGGATCCTCTCAATGAGACTGTC
R
TGGGCTTGTATCAGAAGTCTTCCCTCAAGCTGCTCAGCACCCTGTTTGCCAACTATGCTGGGGCTGATGCGCGTAAGTAGGGACTGAGGCTCCCGGTACA
Celera SNP ID:            hCV27540680
SNP Position Genomic:     14065
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67089):
TCACCTTCAGGAACAAGACAACCTGGCAGATGCTGAGGAGCGCTGTGATCAGCTGATCAAAAACAAGATTCAGCTGGAGGCCAAGGTGAAGGAGATGAAC
R
AGAGGCTGGAGGATGAGGAGGAGATGAATGCTGAGCTCACTGCCAAGAAGCGCAAGCTGGAAGATGAGTGCTCAGAGCTCAAAAGGGACATCGATGATCT
Celera SNP ID:            hCV27540681
SNP Position Genomic:     17663
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67090):
GGAGGCCAAGGTGAAGGAGATGAACGAGAGGCTGGAGGATGAGGAGGAGATGAATGCTGAGCTCACTGCCAAGAAGCGCAAGCTGGAAGATGAGTGCTCA
R
AGCTCAAAAGGGACATCGATGATCTGGAGCTGACACTGGCCAAAGTGGAGAAGGAGAAACACGCAACAGAGAACAAGGTAAGGGCAGCTCCCTTTGGCTC
Celera SNP ID:            hCV27540682
SNP Position Genomic:     17738
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67091):
CAAGCCGCTGCTGAAGAGTGCAGAAAGAGAGAAGGAGATGGCCTCCATGAAGGAGGAGTTCACACGCCTCAAAGAGGCGCTAGAGAAGTCCGAGGCTCGC
Y
GCAAGGAGCTGGAGGAGAAGATGGTGTCCCTGCTGCAGGAGAAGAATGACCTGCAGCTCCAAGTGCAGGCGGTGAGGCTCCTGGGCTACTGTTGGCTCTT
Celera SNP ID:            hCV27528208
SNP Position Genomic:     16882
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67092):
TGTAGCTGCTACTGTATTCCCTTTCAGAATCTCCCTGATCCCAGCCTCCAGCCCCATCAGGTGTCCCAGGCCCCGAGGCATAGACTCAGCCTCTTTCCCC
S
CAACCTCGTGCCCATCTCCTTCTTCTCTGACCATTACCCTGACCCCTCTCTTTGCTCTCCCTCTTCCTTTCTGCTTTCCATCCCCTTCATGTTTTTCCTC
Celera SNP ID:            hCV16284950
SNP Position Genomic:     9350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67093):
ACCAGGTGATGCAGCAGAACCCACCCAAGTTCGACAAAATCGAGGACATGGCCATGCTGACCTTCCTGCATGAGCCCGCGGTGCTCTACAACCTCAAGGA
K
CGCTACGGCTCCTGGATGATCTACGTGAGTGCTGCACCTGGCCCTACGTTGGGATCTCTGTTCTTGCTCCATCCATGTCCACCCCAGGAGCCAAGAGTGT
Celera SNP ID:            hCV16284951
SNP Position Genomic:     8615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67094):
CAATATCCCTTCTGTCTTCCCTGTGAGATCCTGGTTCCTTCTCTCTTGAGCACTATTGCCCTGTCACTCACCAACTCCTAACCCTCTTGAGGAAGGAGGG
R
AAGCCCAGGCTGACAGGAGGGCTTGGGTGGGGGCTCTTGCAGACAGTGACCGTGAAGGAGGACCAGGTGATGCAGCAGAACCCACCCAAGTTCGACAAAA
Celera SNP ID:            hCV16284952
SNP Position Genomic:     8453
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67095):
ACCAACTTTGCTACTTGCCTTTTCCTTCCAGAGGCTGACAAGTCTGCCTACCTCATGGGGCTGAACTCAGCCGACCTGCTCAAGGGGCTGTGCCACCCTC
D
GGTGAAAGTGGGCAATGAGTACGTCACCAAGGGGCAGAATGTCCAGCAGGTGGGTCCATCTTCAGATGATAATGGGTGGGCAGGGTAGGGAGACTGGCAT
Celera SNP ID:            hCV27531216
SNP Position Genomic:     12444
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67096):
CTTCTGCTCACTCCAGGCACAGCCATGGGAGATTCGGAGATGGCAGTCTTTGGGGCTGCCGCCCCCTACCTGCGCAAGTCAGAGAAGGAGCGGCTAGAAG
Y
GCAGACCAGGCCTTTTGACCTCAAGAAGGATGTCTTCGTGCCTGATGACAAACAGGAGTTTGTCAAGGCCAAGATCGTGTCTCGAGAGGGTGGCAAAGTC
Celera SNP ID:            hCV27541053
SNP Position Genomic:     8067
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67097):
CTGCTAGTTTCCAGTTCCCTTCCACCTAATTTTGTCCTGCAATCTTGTAACTCAAACCTAAAATGGACATCCCAGAGAACCCGGGCCTGGCTTTGTTCTC
R
CCCAGGCAACTTCCCTCTGACCAACCCCAGAACCCTACCCTCCAGAACTTGCCCCCCGAACATCGATCCCTGGAAACACATGTGCTGCTGCCACAGGGGC
Celera SNP ID:            hCV2484759
SNP Position Genomic:     28624
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67098):
CTTTTGACCTCAAGAAGGATGTCTTCGTGCCTGATGACAAACAGGAGTTTGTCAAGGCCAAGATCGTGTCTCGAGAGGGTGGCAAAGTCACTGCCGAGAC
Y
GAGTATGGCAAGGTGGGTGTCAGGCTGATGTGAGAGTCCACCCTGGCCACCTGTACACCTGGGTGGACAGAGAGGGGTACACCCATGCCCCATGCCCATG
Celera SNP ID:            hCV16284959
SNP Position Genomic:     8179
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,20)   caucasian(C,18|T,22)   total(C,28|T,42)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67099):
CACGAGCAAGTATATTGACCATAGAGCAGAATCCATGTCCACCTGTGTGAAGGACACTCAGTGATGCTCTCTCCTGCTTCCTCAGCCCATGGGCATCATG
Y
CCATCCTGGAAGAGGAGTGCATGTTCCCCAAGGCCACCGACATGACCTTCAAGGCCAAGCTGTTTGACAACCACCTGGGCAAATCCGCCAACTTCCAGAA
Celera SNP ID:            hCV27863140
SNP Position Genomic:     13843
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67100):
GGTGATGGACAACCCCCTGGTCATGCACCAGCTGCGCTGCAATGGTGTGCTGGAGGGCATCCGCATCTGCAGGAAAGGCTTCCCCAACCGCATCCTCTAC
R
GGGACTTCCGGCAGAGGTGGGTATGAGGGTGCACCAGAGCTCATAGAACAGGGGGAGCCAGGCTGCCCTGATGGGAATGGGATCTGCAGGTGACCCTGGA
Celera SNP ID:            hCV27863141
SNP Position Genomic:     15742
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67101):
CCTTTTCTAGGCTGTTACCCTTCCTAAGGTAATCCCCACCATCTCTTTCCCTCGTACCCCTCCCTAGTCATGGCCAACACACACCTTGCCTGCAGGTGTT
S
TTCAAGGCCGGGCTGCTGGGGCTGCTGGAGGAAATGAGGGACGAGAGGCTGAGCCGCATCATCACGCGTATCCAGGCCCAGTCCCGAGGTGTGCTCGCCA
Celera SNP ID:            hCV27863142
SNP Position Genomic:     16309
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67102):
GCTGTTACCCTTCCTAAGGTAATCCCCACCATCTCTTTCCCTCGTACCCCTCCCTAGTCATGGCCAACACACACCTTGCCTGCAGGTGTTCTTCAAGGCC
R
GGCTGCTGGGGCTGCTGGAGGAAATGAGGGACGAGAGGCTGAGCCGCATCATCACGCGTATCCAGGCCCAGTCCCGAGGTGTGCTCGCCAGAATGGAGTA
Celera SNP ID:            hCV27863143
SNP Position Genomic:     16319
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67103):
AAGCAGCTGGAGGCCGAGAAGATGGAGCTGCAGTCAGCCCTGGAGGAGGCCGAGGTGTGTGTGTGTGCAGGGCACGGGGTGCAGGGAGCTGAGCTCCAGG
M
TTTTGGTCCCTGTTCTCATCCCCCGCTTTGTCGTTTTGTTCACTGTCCCATCCCCAGAGCCTAGGACAGAGCCTGGCACATAGTAGGCATTCAGTGAAGA
Celera SNP ID:            hCV16071405
SNP Position Genomic:     24897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67104):
TATCCATGATTAGTGAGCAGGCCCCCACCCTGCCCTGTGCCCTGACTGTCTGCCTGCATCCCCTCCCCCAACCCCTTCCCAGGCCTCCCTGGAGCACGAG
R
AGGGCAAGATCCTCCGGGCCCAGCTGGAGTTCAACCAGATCAAGGCAGAGATCGAGCGGAAGCTGGCAGAGAAGGACGAGGAGATGGAACAGGCCAAGCG
Celera SNP ID:            hCV27863144
SNP Position Genomic:     25423
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67105):
CCCTGCTGCCCTTCCTCCTCCCCAGCCCATAACAGTACAAGCAGACCCAAGACAGCCATCCTCTGAGGCAACAACCTCACGCAGCCTCCACAAGTGGAGG
Y
GCAAACCATGGGAAAAGGCCTCCCAGGCAAGGGCTTTCCTCCCCTAGTCCCAGATATCAGGGTTAGTTAGATGGTCCTCCCTGGCAAAAAGTCCATTGTA
Celera SNP ID:            hCV7533754
SNP Position Genomic:     19653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67106):
GGTAATCCAGTGGAACATTCGGGCCTTCATGGGGGTCAAGAATTGGCCCTGGATGAAGCTCTACTTCAAGATCAAGCCGCTGCTGAAGAGTGCAGAAAGA
V
AGAAGGAGATGGCCTCCATGAAGGAGGAGTTCACACGCCTCAAAGAGGCGCTAGAGAAGTCCGAGGCTCGCCGCAAGGAGCTGGAGGAGAAGATGGTGTC
Celera SNP ID:            hCV27536950
SNP Position Genomic:     16810
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67107):
GAATGACAAGCAGCAGCTGGATGAGCGGCTGAAAAAGTACTGTGTCCCCTCCCTGCTGCCCTTCCTCCTCCCCAGCCCATAACAGTACAAGCAGACCCAA
K
ACAGCCATCCTCTGAGGCAACAACCTCACGCAGCCTCCACAAGTGGAGGCGCAAACCATGGGAAAAGGCCTCCCAGGCAAGGGCTTTCCTCCCCTAGTCC
Celera SNP ID:            hCV7533755
SNP Position Genomic:     19603
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67108):
CTTACCCATCATACTTCTTTTTCTGGGGTCCGCCAATATGGGGCCTCCCTACAGAACGCTTTTGATGTGCTGGGCTTCACTTCAGAGGAGAAAAACTCCA
Y
GTATAAGCTGACAGGCGCCATCATGCACTTTGGAAACATGAAGTTCAAGCTGAAGCAGCGGGAGGAGCAGGCGGAGCCAGACGGCACTGAAGGTGGGAGG
Celera SNP ID:            hCV27541349
SNP Position Genomic:     11856
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67109):
TAGATGAGGGTCAGAGATGGAAATAGTTAGATTTCTGCTCCTACAGGGAGCTCAGAATGCTCTTCCTTCCCCTAGGAGAGCCCCAGCTTGAACAATAGTT
W
GTTGTTCCTTTTACCCTGGCAGGTTTGCTAGGCTGCTCCTCTGGTTAAGGGGTAACCTCAAAGAGGAAGGGACTCACTGGTAACTCCTCTTGACTCTTGA
Celera SNP ID:            hCV16076130
SNP Position Genomic:     7782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67110):
AAAATGGGGACAGGATGGAAAAGAAGTCTCTTTAGAGTCATCAGACTTGCATTCAAGTCTTGGCTCTCCCACTTGTTGTCATGGGCTCTTGGCCAAGCAA
S
CCATTTAACCTCGATTTCCTCATCTGTCAAATGGGGTGAAGACTGAGTAGGAGAAAGTGCATTGAAGTGCTTTTAGACTGGAAAGTGCCGAACAAATGTG
Celera SNP ID:            hCV16076131
SNP Position Genomic:     7055
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67111):
CCACAGTGTCTTCTCTCTGAGAATGTCCACAAAGTCTGACAACAAAATGGGGACAGGATGGAAAAGAAGTCTCTTTAGAGTCATCAGACTTGCATTCAAG
Y
CTTGGCTCTCCCACTTGTTGTCATGGGCTCTTGGCCAAGCAAGCCATTTAACCTCGATTTCCTCATCTGTCAAATGGGGTGAAGACTGAGTAGGAGAAAG
Celera SNP ID:            hCV16076132
SNP Position Genomic:     7012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67112):
GGCATGTGCTACCATGTCTAGCTAATTTTTATATTTTAGTAGAGATGCGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTGATCCAC
Y
CGCCTCAGCCTCCCAAAGTACGGGATTACAGGCGTGAGCCACCACTCCCAGCTCAGCTCTAAGTTTCAGTGGTTCTGGGAATTTCAGCCTTAGGGAGGGG
Celera SNP ID:            hCV2484760
SNP Position Genomic:     28366
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67113):
GAAGGAGCGGCTAGAAGCGCAGACCAGGCCTTTTGACCTCAAGAAGGATGTCTTCGTGCCTGATGACAAACAGGAGTTTGTCAAGGCCAAGATCGTGTCT
Y
GAGAGGGTGGCAAAGTCACTGCCGAGACTGAGTATGGCAAGGTGGGTGTCAGGCTGATGTGAGAGTCCACCCTGGCCACCTGTACACCTGGGTGGACAGA
Celera SNP ID:            hCV27128980
SNP Position Genomic:     8150
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:67114):
CCTCAGCCTCCCAAGTAGCTGGGATTATAGGCATGTGCTACCATGTCTAGCTAATTTTTATATTTTAGTAGAGATGCGGTTTCACCATGTTGGCCAGGCT
R
GTCTTGAACTCCTGACCTTGTGATCCACTCGCCTCAGCCTCCCAAAGTACGGGATTACAGGCGTGAGCCACCACTCCCAGCTCAGCTCTAAGTTTCAGTG
Celera SNP ID:            hCV2484761
SNP Position Genomic:     28337
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67115):
CTTACGTGGCACACATCCTGAAATGTGCACATTTGCTGTTGAGGCATATATGGCACCCTGGGGTTGGGGTGCGGATTGAGGTATGGGAAGGAAGCCTGTC
Y
TCATGTGAGAGGCATGCCCAAGCAGCAGGCATGAGTGTTCATCAGAGGGCTTGTGGAGGGTGTTTGGCTATGTGATGGGTGTGTCTGTGAGAGGAAGCCC
Celera SNP ID:            hCV16284960
SNP Position Genomic:     6813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67116):
CGACAAAATCGAGGACATGGCCATGCTGACCTTCCTGCATGAGCCCGCGGTGCTCTACAACCTCAAGGATCGCTACGGCTCCTGGATGATCTACGTGAGT
S
CTGCACCTGGCCCTACGTTGGGATCTCTGTTCTTGCTCCATCCATGTCCACCCCAGGAGCCAAGAGTGTCTTCTGTTTGTGTCTAGGCAGGGTTACACTC
Celera SNP ID:            hCV27128981
SNP Position Genomic:     8646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67117):
CAATATCAAGGGGAAGCCTGAAGCCCACTTCTCCCTGATCCACTATGCCGGCATCGTGGACTACAACATCATTGGCTGGCTGCAGAAGAACAAGGATCCT
S
TCAATGAGACTGTCGTGGGCTTGTATCAGAAGTCTTCCCTCAAGCTGCTCAGCACCCTGTTTGCCAACTATGCTGGGGCTGATGCGCGTAAGTAGGGACT
Celera SNP ID:            hCV27537327
SNP Position Genomic:     14050
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67118):
TCTAGGAAGTGTGTATGCCTTCATGTGATTCTGTGAGGCCTGGAATGTGTAGCTACCCCTGTCCATGCATGCAGAGGTTCTTGTCTATGCCTCCACGAGT
M
ATGACTGTTATAGTATCTGTACCCTCTGCAGAAGGAACTCACAGGCACGGGGGTGTAGGATGTTCCAGGTCTTTGTGTACTGAAGAACACGCAGTGATGT
Celera SNP ID:            hCV16284961
SNP Position Genomic:     6606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67119):
CTTCAGAGGAGAAAAACTCCATGTATAAGCTGACAGGCGCCATCATGCACTTTGGAAACATGAAGTTCAAGCTGAAGCAGCGGGAGGAGCAGGCGGAGCC
R
GACGGCACTGAAGGTGGGAGGCAGGGATTCTTGGGGGCAGCTGTCAAGTCATGGAGGGCCATGTCTGCTCAGCAGTCATCTCTCTTCTCTTTTTTCTTTT
Celera SNP ID:            hCV27128983
SNP Position Genomic:     11935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67120):
GCCAGACGGCACTGAAGGTGGGAGGCAGGGATTCTTGGGGGCAGCTGTCAAGTCATGGAGGGCCATGTCTGCTCAGCAGTCATCTCTCTTCTCTTTTTTC
T
TTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGCGCAGTGGCACGATCTTGGCTCACTGCCACCTCCACATCCTGGGTTCAAGTG
Celera SNP ID:            hCV27128985
SNP Position Genomic:     12032
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,16)   total(-,16|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67121):
GACAACCACCTGGGCAAATCCGCCAACTTCCAGAAGCCACGCAATATCAAGGGGAAGCCTGAAGCCCACTTCTCCCTGATCCACTATGCCGGCATCGTGG
W
CTACAACATCATTGGCTGGCTGCAGAAGAACAAGGATCCTCTCAATGAGACTGTCGTGGGCTTGTATCAGAAGTCTTCCCTCAAGCTGCTCAGCACCCTG
Celera SNP ID:            hCV27128987
SNP Position Genomic:     14009
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67122):
ATCAAGGGGAAGCCTGAAGCCCACTTCTCCCTGATCCACTATGCCGGCATCGTGGACTACAACATCATTGGCTGGCTGCAGAAGAACAAGGATCCTCTCA
R
TGAGACTGTCGTGGGCTTGTATCAGAAGTCTTCCCTCAAGCTGCTCAGCACCCTGTTTGCCAACTATGCTGGGGCTGATGCGCGTAAGTAGGGACTGAGG
Celera SNP ID:            hCV27128988
SNP Position Genomic:     14054
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67123):
CCGCTTCGTGAGTGGTCCCTGACCTTGGCCTTGGGACTTGGACTGGTGGAGGAATGGTCTCAGATATGAGCCTTCCCCCAACTCATCACCACTCTCTTCC
M
TCTCTCCAGGGGAAATTCATTCGAATTCATTTTGGGGCAACAGGAAAGTTGGCATCTGCAGACATAGAGACCTGTGAGTGCCATGAATCTGCTAGGCTCA
Celera SNP ID:            hCV27472590
SNP Position Genomic:     10232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67124):
GTACCTCCCTCTCAGCGCTACCTTGCACTTGCAGTGTGTAATGAGGGTGATGTGTAAGGCACTCTGATGGACATTACCTCATCAGTGGCCCTACAACCCC
Y
TGGATAGCTGGTTGTCCAAGACAGAATCTTAGTTCAACTTTAAATTTACCTGCAGAACCACTTAATCCCCCAATGAGACATATTCAAATTGTTAATCCAT
Celera SNP ID:            hCV27128989
SNP Position Genomic:     15188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67125):
GGCCTGAGGGCTAGAGGAGGAGGTGGGGATAGAGAGGAGTGCTGATCTAGAATGGTGCTTCCCCAGGTGAGCTGTCCCGGCAGCTGGATGAGAAGGAGGC
R
CTGATCTCCCAGCTGACCCGAGGCAAGCTCACCTACACCCAGCAGCTGGAGGACCTCAAGAGGCAGCTGGAGGAGGAGGTTAAGGTAAGGGCTAGACTCG
Celera SNP ID:            hCV27472592
SNP Position Genomic:     22457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67126):
AGGGTGTGCTGGGGGCCCAAGAGGCTGGGGAGGGGCTGCACTGGCAGTGTTCCCATATGGTGCCACCCAAGGGCTCCAAGAGGCGTCTGGGCAAAGAGGC
R
TGTCCCTCCAACTCCACTGGACCTCAGCAGCCCTCAACCGAGTTACCGTGTTCCCCACACAGAGGAGATCTCCGACTTGACTGAGCAGTTGGGTTCCAGC
Celera SNP ID:            hCV27472593
SNP Position Genomic:     24663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67127):
CTGGTCTCCAGTAGTATTGTTCACTGCCCAATAAGCCCCTGTCTTCACAGCGGAGAATCCGGAGCAGGGAAGACAGTCAACACCAAGAGGGTCATCCAGT
M
CTTTGCTGTTATTGCAGCCATTGGGGACCGCAGCAAGAAGGACCAGAGCCCGGGCAAGGTAGGCCTGCTGCCCTCCAAGGTCCTGTACCGCAGAAAGGGA
Celera SNP ID:            hCV27532245
SNP Position Genomic:     9904
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67128):
ATCAAGCCGCTGCTGAAGAGTGCAGAAAGAGAGAAGGAGATGGCCTCCATGAAGGAGGAGTTCACACGCCTCAAAGAGGCGCTAGAGAAGTCCGAGGCTC
R
CCGCAAGGAGCTGGAGGAGAAGATGGTGTCCCTGCTGCAGGAGAAGAATGACCTGCAGCTCCAAGTGCAGGCGGTGAGGCTCCTGGGCTACTGTTGGCTC
Celera SNP ID:            hCV27532246
SNP Position Genomic:     16880
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67129):
AACCCAGAACTTCAGTCCAGTGTTCTCACAGACTCCTCCTACTTCCTTCTTGCCACAGGGGTGATGGACAACCCCCTGGTCATGCACCAGCTGCGCTGCA
R
TGGTGTGCTGGAGGGCATCCGCATCTGCAGGAAAGGCTTCCCCAACCGCATCCTCTACGGGGACTTCCGGCAGAGGTGGGTATGAGGGTGCACCAGAGCT
Celera SNP ID:            hCV27541424
SNP Position Genomic:     15683
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67130):
CTGCAGAAGGAACTCACAGGCACGGGGGTGTAGGATGTTCCAGGTCTTTGTGTACTGAAGAACACGCAGTGATGTGATCTACTTACGTGGCACACATCCT
S
AAATGTGCACATTTGCTGTTGAGGCATATATGGCACCCTGGGGTTGGGGTGCGGATTGAGGTATGGGAAGGAAGCCTGTCTTCATGTGAGAGGCATGCCC
Celera SNP ID:            hCV16071414
SNP Position Genomic:     6732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67131):
AAGCTTCATGCAGGACTTCATGCAGAGTACCAGGTCCAGTCACTGGGCACACATGTGCAGGTCTAAACATGGGCGTATGTGCCACAGGAGTTCCTAGGGG
M
AGATATCTGCATCTGAGCATATGGGACCAATATGCATTACAGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGACAAGCCTGCATAGTCTGAATGT
Celera SNP ID:            hCV16071415
SNP Position Genomic:     6282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67132):
TGCCGGCATCGTGGACTACAACATCATTGGCTGGCTGCAGAAGAACAAGGATCCTCTCAATGAGACTGTCGTGGGCTTGTATCAGAAGTCTTCCCTCAAG
Y
TGCTCAGCACCCTGTTTGCCAACTATGCTGGGGCTGATGCGCGTAAGTAGGGACTGAGGCTCCCGGTACAGAGGAGCAGGGATTCTGCCAAGGTTCTGAG
Celera SNP ID:            hCV7533768
SNP Position Genomic:     14095
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67133):
GATGGCAGTCTTTGGGGCTGCCGCCCCCTACCTGCGCAAGTCAGAGAAGGAGCGGCTAGAAGCGCAGACCAGGCCTTTTGACCTCAAGAAGGATGTCTTC
R
TGCCTGATGACAAACAGGAGTTTGTCAAGGCCAAGATCGTGTCTCGAGAGGGTGGCAAAGTCACTGCCGAGACTGAGTATGGCAAGGTGGGTGTCAGGCT
Celera SNP ID:            hCV29359077
SNP Position Genomic:     8105
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67134):
CCCAAAACAGCCCAGGCCCATCTCCCCTGTTTACTTTGCCCAGCCAAGCACAGGCTCAGCCTGCCCAAACCAGTGCCTTCTGGTGGCATCCTTCCTGGTG
Y
CAGCCCTGACCTCTGTGCATCAGAAGACAGTTGTGGATTTTGGGTGTAGATAACCTGGCAGCTTCTTGCCCAGGGCTCCTACTCTCGGGTAGGCCCAGGC
Celera SNP ID:            hCV29359078
SNP Position Genomic:     9680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67135):
TTTTTCTGGGGTCCGCCAATATGGGGCCTCCCTACAGAACGCTTTTGATGTGCTGGGCTTCACTTCAGAGGAGAAAAACTCCATGTATAAGCTGACAGGC
R
CCATCATGCACTTTGGAAACATGAAGTTCAAGCTGAAGCAGCGGGAGGAGCAGGCGGAGCCAGACGGCACTGAAGGTGGGAGGCAGGGATTCTTGGGGGC
Celera SNP ID:            hCV29359079
SNP Position Genomic:     11873
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67136):
TGCTAAGATTACAAGCTAATCAGTGACAAAGCCAGGATCAGAACCCAGAACTTCAGTCCAGTGTTCTCACAGACTCCTCCTACTTCCTTCTTGCCACAGG
S
GTGATGGACAACCCCCTGGTCATGCACCAGCTGCGCTGCAATGGTGTGCTGGAGGGCATCCGCATCTGCAGGAAAGGCTTCCCCAACCGCATCCTCTACG
Celera SNP ID:            hCV27128990
SNP Position Genomic:     15642
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67137):
ACGGGGACTTCCGGCAGAGGTGGGTATGAGGGTGCACCAGAGCTCATAGAACAGGGGGAGCCAGGCTGCCCTGATGGGAATGGGATCTGCAGGTGACCCT
R
GAATTCTATGGGCAGAGCAGATCACTGCAGAGCATGGGTGACTCTGGACACTTCCCTCCTCAGGTATCGCATCCTGAACCCAGCGGCCATCCCTGAGGGA
Celera SNP ID:            hCV27128991
SNP Position Genomic:     15840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67138):
TCACTGCAGAGCATGGGTGACTCTGGACACTTCCCTCCTCAGGTATCGCATCCTGAACCCAGCGGCCATCCCTGAGGGACAGTTCATTGATAGCAGGAAG
R
GGGCAGAGAAGCTGCTCAGCTCCCTGGACATTGATCACAACCAGTACAAGTTTGGCCACACCAAGGTGAGGAAAGGAGACTAATTAATTAAAGGAAGACA
Celera SNP ID:            hCV27128992
SNP Position Genomic:     15962
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|C,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67139):
GTACCCCTCCCTAGTCATGGCCAACACACACCTTGCCTGCAGGTGTTCTTCAAGGCCGGGCTGCTGGGGCTGCTGGAGGAAATGAGGGACGAGAGGCTGA
R
CCGCATCATCACGCGTATCCAGGCCCAGTCCCGAGGTGTGCTCGCCAGAATGGAGTACAAAAAGCTGCTGGAACGTAGGTGAGAGATCTCAAGAGGAGGT
Celera SNP ID:            hCV27128993
SNP Position Genomic:     16362
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67140):
CAAGAATTGGCCCTGGATGAAGCTCTACTTCAAGATCAAGCCGCTGCTGAAGAGTGCAGAAAGAGAGAAGGAGATGGCCTCCATGAAGGAGGAGTTCACA
S
GCCTCAAAGAGGCGCTAGAGAAGTCCGAGGCTCGCCGCAAGGAGCTGGAGGAGAAGATGGTGTCCCTGCTGCAGGAGAAGAATGACCTGCAGCTCCAAGT
Celera SNP ID:            hCV27128994
SNP Position Genomic:     16846
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67141):
AAGAATTGGCCCTGGATGAAGCTCTACTTCAAGATCAAGCCGCTGCTGAAGAGTGCAGAAAGAGAGAAGGAGATGGCCTCCATGAAGGAGGAGTTCACAC
S
CCTCAAAGAGGCGCTAGAGAAGTCCGAGGCTCGCCGCAAGGAGCTGGAGGAGAAGATGGTGTCCCTGCTGCAGGAGAAGAATGACCTGCAGCTCCAAGTG
Celera SNP ID:            hCV27128995
SNP Position Genomic:     16847
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67142):
AAGCCGCTGCTGAAGAGTGCAGAAAGAGAGAAGGAGATGGCCTCCATGAAGGAGGAGTTCACACGCCTCAAAGAGGCGCTAGAGAAGTCCGAGGCTCGCC
R
CAAGGAGCTGGAGGAGAAGATGGTGTCCCTGCTGCAGGAGAAGAATGACCTGCAGCTCCAAGTGCAGGCGGTGAGGCTCCTGGGCTACTGTTGGCTCTTC
Celera SNP ID:            hCV27128996
SNP Position Genomic:     16883
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67143):
GCCTCTGCAGGGCACCCTGGAGGACCAGATCATCCAGGCCAACCCTGCTCTGGAGGCCTTTGGCAATGCCAAGACCGTCCGGAACGACAACTCCTCCCGC
Y
TCGTGAGTGGTCCCTGACCTTGGCCTTGGGACTTGGACTGGTGGAGGAATGGTCTCAGATATGAGCCTTCCCCCAACTCATCACCACTCTCTTCCATCTC
Celera SNP ID:            hCV27860256
SNP Position Genomic:     10136
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67144):
ACAGCCTCCCCTCTGTTCCTCACCTTCAGGAACAAGACAACCTGGCAGATGCTGAGGAGCGCTGTGATCAGCTGATCAAAAACAAGATTCAGCTGGAGGC
Y
AAGGTGAAGGAGATGAACGAGAGGCTGGAGGATGAGGAGGAGATGAATGCTGAGCTCACTGCCAAGAAGCGCAAGCTGGAAGATGAGTGCTCAGAGCTCA
Celera SNP ID:            hCV27128997
SNP Position Genomic:     17644
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67145):
ATGCCGGCATCGTGGACTACAACATCATTGGCTGGCTGCAGAAGAACAAGGATCCTCTCAATGAGACTGTCGTGGGCTTGTATCAGAAGTCTTCCCTCAA
S
CTGCTCAGCACCCTGTTTGCCAACTATGCTGGGGCTGATGCGCGTAAGTAGGGACTGAGGCTCCCGGTACAGAGGAGCAGGGATTCTGCCAAGGTTCTGA
Celera SNP ID:            hCV27860257
SNP Position Genomic:     14094
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67146):
CAACCTGGCAGATGCTGAGGAGCGCTGTGATCAGCTGATCAAAAACAAGATTCAGCTGGAGGCCAAGGTGAAGGAGATGAACGAGAGGCTGGAGGATGAG
R
AGGAGATGAATGCTGAGCTCACTGCCAAGAAGCGCAAGCTGGAAGATGAGTGCTCAGAGCTCAAAAGGGACATCGATGATCTGGAGCTGACACTGGCCAA
Celera SNP ID:            hCV27128998
SNP Position Genomic:     17681
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67147):
TTGGGGCTCCCACTGAAGGGGAGAGCCCAGGGAGGGAAGGGAAGAATGGGCAGATGGGAGGGCAGCCAGCTTCTGCTCACTCCAGGCACAGCCATGGGAG
M
TTCGGAGATGGCAGTCTTTGGGGCTGCCGCCCCCTACCTGCGCAAGTCAGAGAAGGAGCGGCTAGAAGCGCAGACCAGGCCTTTTGACCTCAAGAAGGAT
Celera SNP ID:            hCV27487955
SNP Position Genomic:     7998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67148):
TCAAAAACAAGATTCAGCTGGAGGCCAAGGTGAAGGAGATGAACGAGAGGCTGGAGGATGAGGAGGAGATGAATGCTGAGCTCACTGCCAAGAAGCGCAA
S
CTGGAAGATGAGTGCTCAGAGCTCAAAAGGGACATCGATGATCTGGAGCTGACACTGGCCAAAGTGGAGAAGGAGAAACACGCAACAGAGAACAAGGTAA
Celera SNP ID:            hCV27128999
SNP Position Genomic:     17719
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67149):
CTCTTTCCCTCGTACCCCTCCCTAGTCATGGCCAACACACACCTTGCCTGCAGGTGTTCTTCAAGGCCGGGCTGCTGGGGCTGCTGGAGGAAATGAGGGA
S
GAGAGGCTGAGCCGCATCATCACGCGTATCCAGGCCCAGTCCCGAGGTGTGCTCGCCAGAATGGAGTACAAAAAGCTGCTGGAACGTAGGTGAGAGATCT
Celera SNP ID:            hCV29359080
SNP Position Genomic:     16351
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67150):
TCTCTTTCCCTCGTACCCCTCCCTAGTCATGGCCAACACACACCTTGCCTGCAGGTGTTCTTCAAGGCCGGGCTGCTGGGGCTGCTGGAGGAAATGAGGG
R
CGAGAGGCTGAGCCGCATCATCACGCGTATCCAGGCCCAGTCCCGAGGTGTGCTCGCCAGAATGGAGTACAAAAAGCTGCTGGAACGTAGGTGAGAGATC
Celera SNP ID:            hCV27528594
SNP Position Genomic:     16350
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67151):
CATGGCCAACACACACCTTGCCTGCAGGTGTTCTTCAAGGCCGGGCTGCTGGGGCTGCTGGAGGAAATGAGGGACGAGAGGCTGAGCCGCATCATCACGC
R
TATCCAGGCCCAGTCCCGAGGTGTGCTCGCCAGAATGGAGTACAAAAAGCTGCTGGAACGTAGGTGAGAGATCTCAAGAGGAGGTTTCCCGCTTCTCTGA
Celera SNP ID:            hCV29359081
SNP Position Genomic:     16377
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67152):
TGGAAGAGGAGTGCATGTTCCCCAAGGCCACCGACATGACCTTCAAGGCCAAGCTGTTTGACAACCACCTGGGCAAATCCGCCAACTTCCAGAAGCCACG
M
AATATCAAGGGGAAGCCTGAAGCCCACTTCTCCCTGATCCACTATGCCGGCATCGTGGACTACAACATCATTGGCTGGCTGCAGAAGAACAAGGATCCTC
Celera SNP ID:            hCV7533775
SNP Position Genomic:     13950
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67153):
CGGGCCTTCATGGGGGTCAAGAATTGGCCCTGGATGAAGCTCTACTTCAAGATCAAGCCGCTGCTGAAGAGTGCAGAAAGAGAGAAGGAGATGGCCTCCA
Y
GAAGGAGGAGTTCACACGCCTCAAAGAGGCGCTAGAGAAGTCCGAGGCTCGCCGCAAGGAGCTGGAGGAGAAGATGGTGTCCCTGCTGCAGGAGAAGAAT
Celera SNP ID:            hCV29359082
SNP Position Genomic:     16829
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67154):
TACAGAACGCTTTTGATGTGCTGGGCTTCACTTCAGAGGAGAAAAACTCCATGTATAAGCTGACAGGCGCCATCATGCACTTTGGAAACATGAAGTTCAA
R
CTGAAGCAGCGGGAGGAGCAGGCGGAGCCAGACGGCACTGAAGGTGGGAGGCAGGGATTCTTGGGGGCAGCTGTCAAGTCATGGAGGGCCATGTCTGCTC
Celera SNP ID:            hCV7533776
SNP Position Genomic:     11905
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(A,3|G,33)   total(A,7|G,63)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,26)   caucasian(A,4|G,26)   total(A,6|G,52)   
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,14)      total(G,14|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67155):
CTCTGCCTTAGTTGGGTGACCTCTGGGAGCCCACTCCAGATCTCTGGGTCTCCATGCCCTCCCCTGTTACATGGAGGTTTTTAAGAGTCCTTCGACTCTG
M
TGGCATGACTTTCCTCCTTACTCTAGAGCAGAAGCTGTGTTAGGTCTTTAGTTGTCTGGTCAGACAAATACGGCTCTCTCATTTTCAACTTTTGTTATTT
Celera SNP ID:            hCV29359083
SNP Position Genomic:     21097
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67156):
CATACCTCCCGGTTCCCACCTCTGCCTCCCTCTGTTTTCTTTTATACTCTATACCTGATTGCCTCTGTTTCCTTGGCAACACTTTTCTCTTCATTTTCCT
Y
CTTGTCTTCATAGCTGGCTCTCCCCTGTGAGGGCCTGAATCACTTTCTCTTAGGCTTATTTTTATTTTCTCTTAGATTCTCTTTTCCTCCACCTTCTGCT
Celera SNP ID:            hCV29359084
SNP Position Genomic:     25185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67157):
CTGCATCCCCTCCCCCAACCCCTTCCCAGGCCTCCCTGGAGCACGAGGAGGGCAAGATCCTCCGGGCCCAGCTGGAGTTCAACCAGATCAAGGCAGAGAT
Y
GAGCGGAAGCTGGCAGAGAAGGACGAGGAGATGGAACAGGCCAAGCGCAACCACCTGCGGGTGGTGGACTCGCTGCAGACCTCCCTGGACGCAGAGACAC
Celera SNP ID:            hCV29359085
SNP Position Genomic:     25476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67158):
ATATTGACCATAGAGCAGAATCCATGTCCACCTGTGTGAAGGACACTCAGTGATGCTCTCTCCTGCTTCCTCAGCCCATGGGCATCATGTCCATCCTGGA
R
GAGGAGTGCATGTTCCCCAAGGCCACCGACATGACCTTCAAGGCCAAGCTGTTTGACAACCACCTGGGCAAATCCGCCAACTTCCAGAAGCCACGCAATA
Celera SNP ID:            hCV15859277
SNP Position Genomic:     13854
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,34)   total(A,66|G,2)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67159):
CAAAAACAAGATTCAGCTGGAGGCCAAGGTGAAGGAGATGAACGAGAGGCTGGAGGATGAGGAGGAGATGAATGCTGAGCTCACTGCCAAGAAGCGCAAG
Y
TGGAAGATGAGTGCTCAGAGCTCAAAAGGGACATCGATGATCTGGAGCTGACACTGGCCAAAGTGGAGAAGGAGAAACACGCAACAGAGAACAAGGTAAG
Celera SNP ID:            hCV27129000
SNP Position Genomic:     17720
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67160):
AGGTCCACTGGGGGTTTGGACATAGATGAGGCCAAGGGATGATGTTGAGATTGGGGTGAGGAGAAGGGCAAGGGTGGGGTTGCTTTATGGAGAAAGCTGA
R
CCCACCTCCTGGTGCCCACCCCTCCCCAGGCGAAGAACGCCCTGGCCCACGCACTGCAGTCGGCCCGGCATGACTGCGACCTGCTGCGGGAGCAGTACGA
Celera SNP ID:            hCV27129001
SNP Position Genomic:     23282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67161):
AGATCGAGGACTTGATGGTGGACGTAGAGCGCTCCAATGCTGCTGCTGCAGCCCTGGACAAGAAGCAGAGGAACTTCGACAAGGTGGGCCCTGGGTGGGG
S
CCGCAGCCAGCATGCAGGGCAAGGGGGCATGAGGGGTTCAGTGAGAGGCCAGAGCCATCCTCCTTGGAGGTGGGGGAGGAGGGCTGAGCCCAGGCAGGTC
Celera SNP ID:            hCV27129002
SNP Position Genomic:     24233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67162):
AAATGGACATCCCAGAGAACCCGGGCCTGGCTTTGTTCTCGCCCAGGCAACTTCCCTCTGACCAACCCCAGAACCCTACCCTCCAGAACTTGCCCCCCGA
M
CATCGATCCCTGGAAACACATGTGCTGCTGCCACAGGGGCTTCCACCTGCCCACAAAGCAGGCCCCCCACCATCAGACCCCTCTCACCTTTGTTCCCATG
Celera SNP ID:            hCV16284905
SNP Position Genomic:     28684
SNP Source:               Applera
Population(Allele,Count): african american(A,25|C,1)   caucasian(A,31|C,1)   total(A,56|C,2)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67163):
GGGGTTCAGTGAGAGGCCAGAGCCATCCTCCTTGGAGGTGGGGGAGGAGGGCTGAGCCCAGGCAGGTCCTGAGACAGACCCTGGACATGGGGCTGAGGCT
K
GGGGGCTGAAGAGTGAGCCTTGTCCCCGGGCAGATCCTGGCCGAGTGGAAGCAGAAGTATGAGGAGTCGCAGTCGGAGCTGGAGTCCTCGCAGAAGGAGG
Celera SNP ID:            hCV27129003
SNP Position Genomic:     24366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67164):
TTGTGATCCACTCGCCTCAGCCTCCCAAAGTACGGGATTACAGGCGTGAGCCACCACTCCCAGCTCAGCTCTAAGTTTCAGTGGTTCTGGGAATTTCAGC
S
TTAGGGAGGGGTGCCACCCTAGAAGACCCTAATTTATATACAACCAGTATATCCCAGTTTCCCCCCAACTGCTAGTTTCCAGTTCCCTTCCACCTAATTT
Celera SNP ID:            hCV16284906
SNP Position Genomic:     28455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67165):
ACTCTTTCCTGGTACAGATCATTTAAAATATTTACACATATTTGGTAAGAAATTATAAGGAGAATTCAAGTGTTTAGTGAGGATCAGAAAGTAGAATTGG
S
TCAGGATATCAGATGAAGCAGGGCAGGGCGGAGGGGATGCTACCTTCTATGACTGTGCCATCTTCACCCCCTGCCTACCCTCTGGCCCCCAGACGGAGGA
Celera SNP ID:            hCV25951978
SNP Position Genomic:     27522
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,21)   caucasian(C,1|G,27)   total(C,2|G,48)
SNP Type:                 INTRON


Context             (SEQ ID NO:67166):
CCATCCTCCTTGGAGGTGGGGGAGGAGGGCTGAGCCCAGGCAGGTCCTGAGACAGACCCTGGACATGGGGCTGAGGCTGGGGGGCTGAAGAGTGAGCCTT
S
TCCCCGGGCAGATCCTGGCCGAGTGGAAGCAGAAGTATGAGGAGTCGCAGTCGGAGCTGGAGTCCTCGCAGAAGGAGGCTCGCTCCCTCAGCACAGAGCT
Celera SNP ID:            hCV27129004
SNP Position Genomic:     24388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67167):
TGGAGGCCGAGAAGATGGAGCTGCAGTCAGCCCTGGAGGAGGCCGAGGTGTGTGTGTGTGCAGGGCACGGGGTGCAGGGAGCTGAGCTCCAGGCTTTTGG
S
CCCTGTTCTCATCCCCCGCTTTGTCGTTTTGTTCACTGTCCCATCCCCAGAGCCTAGGACAGAGCCTGGCACATAGTAGGCATTCAGTGAAGATTTGTGG
Celera SNP ID:            hCV27129005
SNP Position Genomic:     24904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67168):
GCTGGCTCCCTGCTCATGCCCACTCTCCTGATCCTCAGGACACCCAGATTCAGCTGGACGATGCAGTCCGTGCCAACGACGACCTGAAGGAGAACATCGC
M
ATCGTGGAGCGGCGCAACAACCTGCTGCAGGCTGAGCTGGAGGAGTTGCGTGCCGTGGTGGAGCAGACAGAGCGGTCCCGGAAGCTGGCGGAGCAGGAGC
Celera SNP ID:            hCV27129006
SNP Position Genomic:     25947
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67169):
TTTGGGCTTTGCTAGTCACCCCCACAGCAGGCATACCCAGACAGAGCACCCTCAAACCCGGGATGCTTCCTTTTCATTTATTCCACACACTTGAGCCACA
Y
GGCCCCAGAGGCCAAGGTAATGCAGTTCTCTGTGATTTCAAGGATTCTTCCAGCTCTAACTTTTTTTTTTTTTTTTTTTGAGACGGTGTCTCACTCTGCC
Celera SNP ID:            hCV27129007
SNP Position Genomic:     28071
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67170):
GATGCTTCCTTTTCATTTATTCCACACACTTGAGCCACATGGCCCCAGAGGCCAAGGTAATGCAGTTCTCTGTGATTTCAAGGATTCTTCCAGCTCTAAC
T
TTTTTTTTTTTTTTTTTTGAGACGGTGTCTCACTCTGCCGCCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCT
Celera SNP ID:            hCV27129008
SNP Position Genomic:     28132
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67171):
ATGCTTCCTTTTCATTTATTCCACACACTTGAGCCACATGGCCCCAGAGGCCAAGGTAATGCAGTTCTCTGTGATTTCAAGGATTCTTCCAGCTCTAACT
T
TTTTTTTTTTTTTTTTTGAGACGGTGTCTCACTCTGCCGCCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCTGCCTCCTGGGTTCTC
Celera SNP ID:            hCV27129009
SNP Position Genomic:     28133
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67172):
TCTTACCTGTATGCTACCCCTCCCAGTGGAACATCTAGCACCACTCCCCTCATCCCAGCTCCAGCTGCCATTGACCTCCTCCCTGCAATCCTTTTCTAGG
M
TGTTACCCTTCCTAAGGTAATCCCCACCATCTCTTTCCCTCGTACCCCTCCCTAGTCATGGCCAACACACACCTTGCCTGCAGGTGTTCTTCAAGGCCGG
Celera SNP ID:            hCV11436421
SNP Position Genomic:     16220
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67173):
ACTCCTCCTACTTCCTTCTTGCCACAGGGGTGATGGACAACCCCCTGGTCATGCACCAGCTGCGCTGCAATGGTGTGCTGGAGGGCATCCGCATCTGCAG
K
AAAGGCTTCCCCAACCGCATCCTCTACGGGGACTTCCGGCAGAGGTGGGTATGAGGGTGCACCAGAGCTCATAGAACAGGGGGAGCCAGGCTGCCCTGAT
Celera SNP ID:            hCV27467205
SNP Position Genomic:     15714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67174):
TTGTGCTGAGCACCCAGGACAGGGTGGCACCAGGGACAGCTGATTTCCCAGGGGCTTGAAAGTGGACACATGGAGGATGGGCACCTGCATGATGACCTCC
Y
ACACCTGCATGTTTATTGGGCCTGGTTTATGCATCCAAGGATCAGGAAGTGTGAGGGTGGTGTAGGGGATCATAAGAGTGCACCTATTTTCAACCCTAGC
Celera SNP ID:            hCV11436423
SNP Position Genomic:     13465
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,16)      total(C,16|T,1) ;(T,-|C,-)   Caucasian(T,20|C,64)   African-American(C,84)   Asians(T,33|C,51)   total(C,199|T,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:67175):
GCCAGAATGTGCCCTGTGATCAGGGTGTACTGGGGAATGGATGAGGTGAGACAGGACTGGCCAGTATCTGGTGTTCTATCAAACCAGGAAGAGCTGAAAG
S
CATGAGACAGAGAGACACACAAGCCAAGAAACAAGCATCACCGAGGGAGCAGGACGAGGAGGGAAGGCCATGCAGACGGCATGGGGCTGGAGGGGCTGTT
Celera SNP ID:            hCV11436426
SNP Position Genomic:     11385
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67176):
AATCTGAACAAGCTGATGACCAACTTGCGCTCCACCCATCCCCACTTTGTACGTTGTATCATCCCTAATGAGACAAAGTCTCCAGGTGAGGCCACAAACT
M
AGGCCAACCCACTGCTGGGCATACACCGCCCTGGGAACAGGACCTCCTAGGACATCTCCCTACCTACCACCACAGTGGTTTCCAAACCACATTCTTCTCC
Celera SNP ID:            hCV16076087
SNP Position Genomic:     14961
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67177):
AGCCAGAATGTGCCCTGTGATCAGGGTGTACTGGGGAATGGATGAGGTGAGACAGGACTGGCCAGTATCTGGTGTTCTATCAAACCAGGAAGAGCTGAAA
S
CCATGAGACAGAGAGACACACAAGCCAAGAAACAAGCATCACCGAGGGAGCAGGACGAGGAGGGAAGGCCATGCAGACGGCATGGGGCTGGAGGGGCTGT
Celera SNP ID:            hCV11436427
SNP Position Genomic:     11384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67178):
CTGGCATTACTCAGATTGAGTGCATGCAGAGGTTTTCCTTTCTCTTCTTTCTCTCCTGGGATCTTTCTCTAACTCCCAAAATCACCAGCCCTCCCCCTTC
R
CAACTGGCAAGTCACTGCTCCTTTTCTATCCCCAGACCTACTCGGGCCTCTTCTGTGTCACCGTCAACCCTTACAAGTGGCTGCCGGTGTACACTCCTGA
Celera SNP ID:            hCV27487899
SNP Position Genomic:     8892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67179):
AGCGCTCCAATGCTGCTGCTGCAGCCCTGGACAAGAAGCAGAGGAACTTCGACAAGGTGGGCCCTGGGTGGGGGCCGCAGCCAGCATGCAGGGCAAGGGG
R
CATGAGGGGTTCAGTGAGAGGCCAGAGCCATCCTCCTTGGAGGTGGGGGAGGAGGGCTGAGCCCAGGCAGGTCCTGAGACAGACCCTGGACATGGGGCTG
Celera SNP ID:            hCV25952781
SNP Position Genomic:     24260
SNP Source:               Applera
Population(Allele,Count): caucasian(A,2|G,18)   total(A,2|G,18)
SNP Type:                 INTRON


Context             (SEQ ID NO:67180):
CAAGCTGTTTGACAACCACCTGGGCAAATCCGCCAACTTCCAGAAGCCACGCAATATCAAGGGGAAGCCTGAAGCCCACTTCTCCCTGATCCACTATGCC
S
GCATCGTGGACTACAACATCATTGGCTGGCTGCAGAAGAACAAGGATCCTCTCAATGAGACTGTCGTGGGCTTGTATCAGAAGTCTTCCCTCAAGCTGCT
Celera SNP ID:            hCV27536400
SNP Position Genomic:     13999
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67181):
CGGCTGCAGGACCTGGTAGACAAGCTGCAGCTAAAGGTCAAGGCCTACAAGCGCCAGGCCGAGGAGGCGGTGAGTGACCCTGCTGGGGACTAGGCCCAGG
R
GAGGCATAGGAGAGCTCGTCCCCCAAGCCAGGAGTCTGAGAACCCAGGCCCCCTCTCACCTCATGCTCCCACCTCCCGCAGGAGGAGCAAGCCAACACCA
Celera SNP ID:            hCV25953004
SNP Position Genomic:     27742
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,20)   caucasian(A,2|G,24)   total(A,12|G,44)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,23)   caucasian(A,3|G,31)   total(A,10|G,54)   
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67182):
AGGAGCTCATGGCCACTGATGTGAGTGTGTGAGGACCCAGCCAGGGGGTGGGAGGATTGGCAGTGAGGGGCAAACAGGGGTCCAAAAGCAGAGCTAAGAC
K
CTGGCCATTGGTTGTTTAAAGTGGTATGGACCTCCTGAGAGCCAGAATGTGCCCTGTGATCAGGGTGTACTGGGGAATGGATGAGGTGAGACAGGACTGG
Celera SNP ID:            hCV7533786
SNP Position Genomic:     11244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67183):
TTGTTCACTGCCCAATAAGCCCCTGTCTTCACAGCGGAGAATCCGGAGCAGGGAAGACAGTCAACACCAAGAGGGTCATCCAGTACTTTGCTGTTATTGC
R
GCCATTGGGGACCGCAGCAAGAAGGACCAGAGCCCGGGCAAGGTAGGCCTGCTGCCCTCCAAGGTCCTGTACCGCAGAAAGGGAGGGAGAAGAGCTCTCA
Celera SNP ID:            hCV15859287
SNP Position Genomic:     9920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67184):
GATGAGGAGGAGATGAATGCTGAGCTCACTGCCAAGAAGCGCAAGCTGGAAGATGAGTGCTCAGAGCTCAAAAGGGACATCGATGATCTGGAGCTGACAC
K
GGCCAAAGTGGAGAAGGAGAAACACGCAACAGAGAACAAGGTAAGGGCAGCTCCCTTTGGCTCCAGCCCGGGTCTCATCAGGACTCTCAGACCATACTGA
Celera SNP ID:            hCV27530953
SNP Position Genomic:     17775
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67185):
TGAGGAGCGCTGTGATCAGCTGATCAAAAACAAGATTCAGCTGGAGGCCAAGGTGAAGGAGATGAACGAGAGGCTGGAGGATGAGGAGGAGATGAATGCT
R
AGCTCACTGCCAAGAAGCGCAAGCTGGAAGATGAGTGCTCAGAGCTCAAAAGGGACATCGATGATCTGGAGCTGACACTGGCCAAAGTGGAGAAGGAGAA
Celera SNP ID:            hCV27531399
SNP Position Genomic:     17696
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67186):
GGAGCAGACAGAGCGGTCCCGGAAGCTGGCGGAGCAGGAGCTGATTGAGACTAGTGAGCGGGTGCAGCTGCTGCATTCCCAGGTGAGCAGCTCCCCTGCT
S
ATTCCTGAAGGGAGCACAGGCTGGGGCTCAGCAAGCAAGGCTTGAGAGCTATGCATAGATGCTCAATGCTTTTCCTGCTCTGCCCAACCCTCCCCCAACC
Celera SNP ID:            hCV16284913
SNP Position Genomic:     26107
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67187):
GCTTCCCATTTCCACATACCTCCCGGTTCCCACCTCTGCCTCCCTCTGTTTTCTTTTATACTCTATACCTGATTGCCTCTGTTTCCTTGGCAACACTTTT
Y
TCTTCATTTTCCTCCTTGTCTTCATAGCTGGCTCTCCCCTGTGAGGGCCTGAATCACTTTCTCTTAGGCTTATTTTTATTTTCTCTTAGATTCTCTTTTC
Celera SNP ID:            hCV16284915
SNP Position Genomic:     25171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67188):
CTGAAACTCTTCCCCTCCCCATACTTCTGAAGCTCTTGCCAAGTGGGGATATCCTAGAGTTACCCTCCTATTTGAGTGATGTGCCTCTCCTTCCCTCTAC
S
TGCAAGAATGAGGACCTTACCCCCTGAACAGCCTCCCCTCTGTTCCTCACCTTCAGGAACAAGACAACCTGGCAGATGCTGAGGAGCGCTGTGATCAGCT
Celera SNP ID:            hCV25629365
SNP Position Genomic:     17516
SNP Source:               Applera
Population(Allele,Count): african american(C,26|G,4)   caucasian(C,34)   total(C,60|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:67189):
CTTGCGCTCCACCCATCCCCACTTTGTACGTTGTATCATCCCTAATGAGACAAAGTCTCCAGGTGAGGCCACAAACTCAGGCCAACCCACTGCTGGGCAT
W
CACCGCCCTGGGAACAGGACCTCCTAGGACATCTCCCTACCTACCACCACAGTGGTTTCCAAACCACATTCTTCTCCTCCCATCCCGCATGAGGCCTCCC
Celera SNP ID:            hCV25629366
SNP Position Genomic:     14984
SNP Source:               Applera
Population(Allele,Count): african american(A,29|T,5)   caucasian(A,36)   total(A,65|T,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67190):
TCACTTCAGAGGAGAAAAACTCCATGTATAAGCTGACAGGCGCCATCATGCACTTTGGAAACATGAAGTTCAAGCTGAAGCAGCGGGAGGAGCAGGCGGA
R
CCAGACGGCACTGAAGGTGGGAGGCAGGGATTCTTGGGGGCAGCTGTCAAGTCATGGAGGGCCATGTCTGCTCAGCAGTCATCTCTCTTCTCTTTTTTCT
Celera SNP ID:            hCV16076168
SNP Position Genomic:     11932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67191):
CCTCCCGGTTCCCACCTCTGCCTCCCTCTGTTTTCTTTTATACTCTATACCTGATTGCCTCTGTTTCCTTGGCAACACTTTTCTCTTCATTTTCCTCCTT
R
TCTTCATAGCTGGCTCTCCCCTGTGAGGGCCTGAATCACTTTCTCTTAGGCTTATTTTTATTTTCTCTTAGATTCTCTTTTCCTCCACCTTCTGCTTCTT
Celera SNP ID:            hCV16076095
SNP Position Genomic:     25189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67192):
CCCATCCCCAGAGCCTAGGACAGAGCCTGGCACATAGTAGGCATTCAGTGAAGATTTGTGGAGTGAATGAATGACCAGTCACTGAACTCTCTTCACATAA
R
CATTTTACCCATTGCATCTTAGCTGAGCTTCCCATTTCCACATACCTCCCGGTTCCCACCTCTGCCTCCCTCTGTTTTCTTTTATACTCTATACCTGATT
Celera SNP ID:            hCV16076096
SNP Position Genomic:     25044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67193):
TCCCATCCCCAGAGCCTAGGACAGAGCCTGGCACATAGTAGGCATTCAGTGAAGATTTGTGGAGTGAATGAATGACCAGTCACTGAACTCTCTTCACATA
R
ACATTTTACCCATTGCATCTTAGCTGAGCTTCCCATTTCCACATACCTCCCGGTTCCCACCTCTGCCTCCCTCTGTTTTCTTTTATACTCTATACCTGAT
Celera SNP ID:            hCV16076097
SNP Position Genomic:     25043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67194):
GAACATCGATCCCTGGAAACACATGTGCTGCTGCCACAGGGGCTTCCACCTGCCCACAAAGCAGGCCCCCCACCATCAGACCCCTCTCACCTTTGTTCCC
R
TGCCCTGTCCCTGCCCAATACCATCTCTCCAAGGACTGATTGGACTTTGTTTCCTTTCAAAAGGGCTTGAATGAGGAGTAGCTTTGCCACATCTTGATCT
Celera SNP ID:            hCV11722197
SNP Position Genomic:     28782
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,19)   caucasian(A,21|G,3)   total(A,24|G,22)
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   JBIC-allele(G,203|A,1278)   total(G,203|A,1278) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67195):
AGTTCAACAGCTTTGAGCAGCTCTGCATCAACTTCACCAACGAGAAGCTGCAGCAGTTCTTCAACCACCACATGTTTGTGCTGGAGCAGGAGGAGTACAA
S
AAGGAGGGCATCGAGTGGACATTCATTGACTTTGGCATGGACCTGCAGGCCTGCATTGACCTCATCGAGAAGGTGCCTCTTTGGCCTTACCACCTGAATT
Celera SNP ID:            hCV27509014
SNP Position Genomic:     13150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67196):
TCTGACCAACCCCAGAACCCTACCCTCCAGAACTTGCCCCCCGAACATCGATCCCTGGAAACACATGTGCTGCTGCCACAGGGGCTTCCACCTGCCCACA
M
AGCAGGCCCCCCACCATCAGACCCCTCTCACCTTTGTTCCCATGCCCTGTCCCTGCCCAATACCATCTCTCCAAGGACTGATTGGACTTTGTTTCCTTTC
Celera SNP ID:            hCV11722198
SNP Position Genomic:     28740
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,21)   caucasian(A,26|C,6)   total(A,31|C,27)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,4)      total(A,4|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67197):
CACTGATCTCCCAGCTGACCCGAGGCAAGCTCACCTACACCCAGCAGCTGGAGGACCTCAAGAGGCAGCTGGAGGAGGAGGTTAAGGTAAGGGCTAGACT
Y
GGGCCACCTGGCCCAAGCAAGGAGCACACTGACTAGCCTTGCATCAAATCACTTCCCTTCCCAGCAATAAGGCTGGCTGTGGACCAACAGTTCTCCAAGA
Celera SNP ID:            hCV27509015
SNP Position Genomic:     22556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67198):
TCCCCACCCTCTGCCACCCTCCCCTGGGCAGGAAGAAGCTGGCCCAGCGGCTGCAGGAAGCTGAGGAGGCCGTGGAGGCTGTTAATGCCAAGTGCTCCTC
R
CTGGAGAAGACCAAGCACCGGCTACAGAATGAGATCGAGGACTTGATGGTGGACGTAGAGCGCTCCAATGCTGCTGCTGCAGCCCTGGACAAGAAGCAGA
Celera SNP ID:            hCV27509016
SNP Position Genomic:     24101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67199):
TAGAGCGCTCCAATGCTGCTGCTGCAGCCCTGGACAAGAAGCAGAGGAACTTCGACAAGGTGGGCCCTGGGTGGGGGCCGCAGCCAGCATGCAGGGCAAG
R
GGGCATGAGGGGTTCAGTGAGAGGCCAGAGCCATCCTCCTTGGAGGTGGGGGAGGAGGGCTGAGCCCAGGCAGGTCCTGAGACAGACCCTGGACATGGGG
Celera SNP ID:            hCV27509017
SNP Position Genomic:     24257
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67200):
TATGAGGAGTCCCTGGAACATCTGGAGACCTTCAAGCGGGAGAACAAAAACCTGCAGGGTGTGCTGGGGGCCCAAGAGGCTGGGGAGGGGCTGCACTGGC
M
GTGTTCCCATATGGTGCCACCCAAGGGCTCCAAGAGGCGTCTGGGCAAAGAGGCGTGTCCCTCCAACTCCACTGGACCTCAGCAGCCCTCAACCGAGTTA
Celera SNP ID:            hCV27509018
SNP Position Genomic:     24608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67201):
CCGAGCAGATCGCCCTCAAGGGCGGCAAGAAGCAGCTGCAGAAGCTGGAAGCGCGGGTGCGGGAGCTGGAGAATGAGCTGGAGGCCGAGCAGAAGCGCAA
Y
GCAGAGTCGGTGAAGGGCATGAGGAAGAGCGAGCGGCGCATCAAGGAGCTCACCTACCAGGTGCGACGGGCGGTGACTCCAGGCAGAGCCCTGGCACCAT
Celera SNP ID:            hCV27509019
SNP Position Genomic:     26662
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67202):
GATCAAGCCGCTGCTGAAGAGTGCAGAAAGAGAGAAGGAGATGGCCTCCATGAAGGAGGAGTTCACACGCCTCAAAGAGGCGCTAGAGAAGTCCGAGGCT
B
GCCGCAAGGAGCTGGAGGAGAAGATGGTGTCCCTGCTGCAGGAGAAGAATGACCTGCAGCTCCAAGTGCAGGCGGTGAGGCTCCTGGGCTACTGTTGGCT
Celera SNP ID:            hCV27535973
SNP Position Genomic:     16879
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Gene Number:                 433
Celera Gene:                 hCG41751 - 104000117043361
Gene Symbol:                 CKLFSF5
Protein Name:                chemokine-like factor super family 5;FLJ37521
Celera Genomic Axis:         GA_x5YUV32VVQK(29390581..29405550)
Chromosome:                  Chr14
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12593):
CTGAGGTTCTGATTGGTGAGAGCGAGACCCATAGGTATCCAGCTCTTCTGAAACGGCACTGCCTCCTAAGATCCTGTTCTGGGATTGAGGTTTTCCCAGG
AGCACGGGAAGCCACCTTGAGGCCATGTCTGCCAGACAAAAGGCTAGGAAAGGGAGCTAGTGCAGTGAATCCGAACAGCAGGGCTGGATACCTAAGTGGG
CAGACACACCCTGTGGCCCTCAGCAGGTGCAGTTGAAACTTGTCCCAACCCAAGCCCAGGTGAGCAGGAAAGCATTCACTGTGGGGCTCCCCTTCCATTC
ACAGCCAACTAGGGGTAGGCACGGTGTGGCACTTCCATGCCAGGAGGTTACATGTGGAATTGGTCAGAGCTGGAATGGGAAACCAGCTCAGCCTCTTTCT
TTGTGATCTTGGGTAAGTTACTAAATTTCCTTGGGCCTCAGTTTCCTCATCTGTAACATGGGGATAATAGTTTCCATGTCATGGTTTCATTGTCGGGATA
AAATGAGATGATGCATGCCCAGGGCTTAGCACCATGCCTGGCACATGTAAGTGCACAGGAGCTGAGGCCAGCAGGATATGGAAGGGAGAGGACGTCTGCG
AGTACTGGGGGCAGAGGGTGAGGCAGTGAGAGTGGGGCCATGATACTGGCCTCATCACTGTTCCTGAGTGCCCCTGCTTTCCCAGCCACCACCTGCTTCT
TCTAAGTGCCCTCCATCCCACAGTTCCAGGTGCCCCAAGACTCATCAGAGCAGAGCAGTTTCTCCCAATTTTCCAGATTGCCCTTTGACTTCATCACTTC
TCTCTTTTGGGGCTGCTTTGCCCTAACGCATTGGAAAGATTCCTCTCACTGCAGTTTAAGTTATTCCTGGTTCCCTTTGTTGATTTCCTAGTCCTTGGTT
ACTAGAGGAGTATTTTCTAAGGGAAAGCACATGCAAATCAAGCCACATCATTCTAGGGGCAATGTCTGTGTATGGGTATGTTGGGTGCGTATGGGGGATG
AGGCAGGCCAATAGGCAAGCATGAAGAGAAGGACCTGGGGGGAAGGACACACTGGCCCACTCTCAGCACAGTGTCTCCCAAGCAGGCTGGACCCGGCTGA
CCTGTGTCTTTGGGGTCAAGCCCAACTGTAAGCCTTTCTGGGGCACACATACACCCTCCTGGCTAACAGTGGCCCATGTTTCTGGACCTGCTGAGGCTGA
GTGGGCTCACTTCATGGCCTGAAAGCAGTAGCTGACCCTGTCATGGGCTTGGTCCCCAAGGCTCTGTGAATGAGAGCAGGTTGGTTCCTGGAACTGAGAC
CTCCTTCCTGTTGGGTCTTAGGTGAGGCTGTTTCAGTTTCCCTCCTCTTCCTTGCTTCACCTTCTCATTTGTGCAATGGGGACACTCACCCACAGCTTCT
TCCATCAGACCTTGCCCATCCAGCCAACAAACTTAGGAAGTCAGGGTCTTCCAGCAGCCCTGTGAGGGTAGGCTTGTATCCCCGGTGGGGGGCAGTGACT
GGCGAGGGCAAGGGGGAGTTAGGGAGTGGGTCATGGACAATGGGGGAGAAGTCATAGCTGATGGGGGTCATAGAATTTTGGGGTCATTGAAAATGTGGAA
GAGGTCAGAGAACAAAGGGGATGGGAGTCAAAGGATGTCTAAGGGAAAGGAAATAATCACGAAGGTGGATGATCAGAGGGACACCTGGGAAGAGGGGAAT
GGTGAAACCAGACCCTGGATGGGGGGAGCAGGGATCATGGAAACGAGGCCTCTTGAAGGGAGGCCACAAGACATTTCCTAATTTTGGCTACCAAACCAAC
CAGGGAAATCCCGCTAATGCCAGTTCACAAGAATGCAGAACAGCAGACTGTTATTGCTTTGACCCCATGGCCAGAAAAATTCAAAGAGCAAAGTTTACCC
AATCAGCTACCAGGCATATAATGATGGTCATCACAACTTCCATGAGTATTGCATTTTAAGCAGCCTTTGGAAATACTTTCAGAGTTTTTTTGGTTTTGTT
TTTTAACCTCAAGTCACTCCCTAAAAAGACAGTGGAAATAAATTTGAATAAACAAAACAGGCTTGCTGAAAATAAAATCAGGACTCCTAACCTGCTCCAG
TCAGCCTGCTTCCACGAGGCCTGTCAGTCAGTGCCCCACTTGTGACTGAGTGTGCAGTGCCCAGCATGTACCAGGTCAGTGCAGAGGGCTGCCTGAGGGC
TGTGCTGAGAGGGAGAGGAGCAGAGATGCTGCTGAGGGTGGAGGGAGGCCAAGCTGCCAGGTTTGGGGCTGGGGGCCAAGTGGAGTGAGAAACTGGGATC
CCAGGGGGAGGGTGCAGATGAGGGAGCGACCCAGATTAGGTGAGGACAGTTCTCTCATTAGCCTTTTCCTACAGGTGGTTGCATTCTTGGCAATGGTCAT
GGGAACCCACACCTACAGCCACTGGCCCAGCTGCTGCCCCAGCAAAGGGCAGGACACCTCTGAGGAGCTGCTGAGGTGGAGCACTGTGCCTGTGCCTCCC
CTAGAGCCTGCTAGGCCCAACCGCCACCCAGAGTCCTGTAGGGCCAGTGAAGATGGACCCCTCAACAGCAGGGCCATCTCCCCCTGGAGATATGAGTGAG
TCTGCTGCCCCTCCCGAATGCCTGCCCTGTGTGTGCTGGCCAGGGTATGCGTGAGGGACCAGGGCAATTCCAGCTTACTTTCCCATTTTGATCTCAGAGG
GGCTGTAAAGGTTTGGGAGTTAGACAAGGTCTGTATTTGAGTCCTAGCTCTGACTCTCATTGGATGATCTTGAGTCAATTCAAGTTTTCAAAACTCAGGG
TTTTTTTTTTTTTCACCTGCAAAATGATATAATGCCCCATAGGCTAATGTGCAGATCAAATGAAATATAATGTATGTAAAAGTCTGTATTTATGTTGGTT
CTCTCCTTTTCTTTTAAAACATCCCTATAATGGCCCATGTTTTTTCTGGGTAAAATATTAGGGAATAATGGCATGATACAGGCATGAAGCATCCCAATAC
CAATTGATACTGCCCTGGCCATGAATGGGTTAGTTATAAGCATACTAAAGGAGTGAAACCCTTAACTTTTGGGGGCAGCTGGCTGGCTGGAGCTGTGGAC
TGGATATCTTTGATCATGATCATGGGTACTGTATTCTTTCACTCAGTGTGCCACATAAATATTATAGTTCTCTATTTGTGCCATGATATGAAAAATATTA
GGAAGTGCTGAAATATGAATGATGAAGCAAAATATTAAAAACTAGGGTCTTAGGGATTCCAGACATGTGATTTCACTTCTTCCTTCTAGTTCTGTCTTAG
CATTGGCTTTGGGGGTAGATGGAGAAGTTCAGTGGTGGGGAGGGGGTCAGATCTAACTGAGATTGGATCTAGTGTGGACACTACAGGTCATGACTCTTTG
GAGTGGTCTCAGAAGCTGGCTGGGTCCTGGGCCAAATCAGATGGCATGGGAGCTTCTTAGGGGAGGCGGGTGCCAGAGGTTAACTCAGCTGTCTTCCAGA
CCCCTTGCTGGGAGTCTGTGAACCCGAGAACCACTCAGGTGGCTTTCCCCAAAGTGTGTTCTGTGCAATGCTCATCCCATGAGCTGCTTCTCAGAAAAAA
GTGATGCCAGGTAAACTTGGGAAAGACTGCTGTATCTCCTACCCCTTGGAGATTCATACTGTCATTGTACATTAAAGTCTGCAAGAAGTCTGTAGAAAGT
AAACCGTTAAACTGGTGTTTCCCAAATTCATTTAAGCACCCAACAGGTGCAGGTGATTTATTAGGGAACCCACTTTGGGAAGTGATGTGCTAGCTAATTC
CATTTGCCAGGGCTTGTCTGTGTGGGGAATGGTCCCACAAGCTGGAGACTGTCGCCTGCCAGACTAATGGAGTCGCAGACCTGTGGGACATCTACTTTTC
AGTGTTTTTCATCTTTCTTTCTTTCTTTCTTTTTTTTTTTTTGCCATGAAATCCTTTCAGAATAAGTAAATAAGTCTTCCCATGCACTCTCAAGTATGCT
TATAATATAAGCTTGCACAGCGTCTGGAAGAATGTGCAGGAAATAGTTGAGGATAGCTTCTTCTGGGGAGTGGGGCTGGTAGGGAGAGACTATTAACTTT
CACTCTTTATACTCTTTAATACTTGGATGTCAGAGTGGTTTTTACTTTTGCAATAATGCTATAATAATAATAGAAACACCACCTAAAGTCCGGCCCGGTG
GCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCGAGGTGGGTGGATTACCTAAGGTCAGGAGTTCAAGACCAGCCTGGCCAACCATGGCCAACATCATG
AAACCCCATCTCTACTAAAAATATGAAAATTAGCTGGGTATGGTGGCGGGCATCAGGAGAATCGCTTGAACCCAGGAGGTAGAGGTTGCAGTTGAGCCAA
GATCGTGCCACTGCACTCCAGCTTGGGTACTCCGTCTCAAAAAAACAAAAACAAAAAATCAAAAAACAAACAAAAACACCTAAAGTGTAATCATTACAAT
AAGAAACCTCATGCTGAGTCAGATAGAAGCAGTGCTGGTCAATGGAGGCTAAGGCAGGAGCCTGCTCACCCTCCCCTGCCTCCCTCACGGTCCCAGGACC
AGTTGGAAAGCACTCTGTCACCTGCTACCCTCATTTACAGTGGGGAAAATTTAATAAAGGAGGGAGGTGACTTGTTCAAAGTTACACAGCAAGTGGGTTC
AGAACTGAGACAAGAGGCCAAGGCCCCAGACGGACCATTTCCTTCTTCTGGCACTCCCATGCCACCCCACCCTCTCTGTTTCCGGCCCATCTTTCCAAGG
CCTGACAAGTGCCGCCCCCACAGGTTGGACAGAGACTTGAACCGGCTCCCCCAGGACCTGTACCACGCCCGTTGCCTGTGCCCGCACTGCGTCAGCCTAC
AGACAGGCTCCCACATGGACCCCCGGGGCAACTCGGAGCTGCTCTACCACAACCAGACTGTCTTCTACCGGCGGCCATGCCATGGCGAGAAGGGCACCCA
CAAGGGCTACTGCCTGGAGCGCAGGCTGTACCGTGTTTCCTTAGCTTGTGTGTGTGTGCGGCCCCGTGTGATGGGCTAGCCGGACCTGCTGGAGGCTGGT
CCCTTTTTGGGAAACCTGGAGCCAGGTGTACAACCACTTGCCATGAAGGGCCAGGATGCCCAGATGCTTGGCCCCTGTGAAGTGCTGTCTGGAGCAGCAG
GATCCCGGGACAGGATGGGGGGCTTTGGGGAAAGCCTGCACTTCTGCACATTTTGAAAAGAGCAGCTGCTGCTTAGGGCCGCCGGAAGCTGGTGTCCTGT
CATTTTCTCTCAGGAAAGGTTTTCAAAGTTCTGCCCATTTCTGGAGGCCACCACTCCTGTCTCTTCCTCTTTTCCCATCCCCTGCTACCCTGGCCCAGCA
CAGGCACTTTCTAGATATTTCCCCCTTGCTGGAGAAGAAAGAGCCCCTGGTTTTATTTGTTTGTTTACTCATCACTCAGTGAGCATCTACTTTGGGTGCA
TTCTAGTGTAGTTACTAGTCTTTTGACATGGATGATTCTGAGGAGGAAGCTGTTATTGAATGTATAGAGATTTATCCAAATAAATATCTTTATTTAAAAA
TGGCCTAATCTGTATTTGGCATCCGTGGTGCCTGAACATCTCGCGGTCTCCCAGCCTGTCCCTTCTCCTTTCCACCATTGGCCCTCACCTCTGTCCACCC
TGCCAGCTCTCTCCGCCCTCCAGAGTTTCCGCTGCACCCTCCCGTCCTCTCCCATCTCTGTCTCCCTGGCCCATCCCAAACACCAGGGTGGGGGCTAGGC
CGCGCTCCCGGCATGCTGGAGAGACAGAGGCCCATTGAGGCATTGCAGCAGGCACAGAGCGCCCCCTTGTCCCCCAACAATCCGCCTTTGTCCTCCAGTC
CTGGCTGCTGCAGCTTGGTCCTGGGGGTGCTGCCTGGGCTGGGCTCCAGCTCACACCCTCCCTAAAAGGAAATGGGAGAAAGGACCGGCCAAACAAGAGG
GTTAAGGTTAGAGAAGGGGGACACAAATGTCTTCAGGCTTAGGTCCCTGGGGGCTCCCAGTCCTGCCCCTGTTCCTCTACTCACATCCCAGCTCCTCCCA
GTTTCTTTTCGGACCTCCTCCTCTCCCCTTCCTTCTCTATTCCAGGCTGGGTTGGGCTCTAAGCAAGGGGAGGGATTAGAGCCTCCTTCCTCTCTGCCCC
TCCCCATGGGTCTCTAGGGGGCTGGTGCAGGCAGCAGCAGAGGCACTCTGGGCAGCTGGGTGAGGGCCCATCTGGGCAAGGCCCCCAKCGCCTGCCTTCT
CTCCCGGGGCCCTGTGGGCAAGCCTCCTGCTTCACTTTCAGGTTTCTCGAAGTGCCTTCTTGCTCCTGTCTGTTTCCCCATCCTGCCAGATTTCTGTTTC
TCTTGCTGGGCTTTTGGCAGTAGGGGGCTGTGTTGGTGGGCCCTACGAAGATGCTCAGTGCTCGAGATCGCCGGGACCGGCACCCTGAGGAGGGGGTAGT
TGCAGAGCTCCAGGGCTTCGCGGTGGACAAGGCCTTCCTCACCTCCCACAAGGGCATCCTGCTGGAAACCGAGCTGGTAACAGCTGCCTCCCAACCTGGT
GCCTCCATCTCCCTGACCCCCGGCTCCTGGCCAGCCTTATGCCAGCCCCCAGCTCACCCTTCAGTAKCCTCCTTCCCCARGCCCTCTGGACACCTCTCCT
GCCCGCAGCTGCCCCTTCTTCGTCTCCTACTCTGCCTTCTTGCTGCCTCTCCACCCGGAGACATTTACAGCAGGTTTCAGTTGCAGCAGGAAGGACTGCA
GTTAGACAGGGTGACTTTTTGGGACATTGAGGAAGCTTGAGACATAGGGATGGGACAGGGGCAATGACAGCCTCTAACATGGCCACTTCTCAGCACGTCC
AAGAAGTCTAACTATCAAAAAGGGCAGACTTCCTGCAACTGCACTTTATCTGTGGTCTGCTGCCCAGAAACATCTCTTCTCAGGAAAGGATCTTCCCCTG
GTTACTTAGCAAGACCACAGTGTAGAGTTAAGGCCTCTGCACGTATGCCACCCTAGGTCATCAGAGCTAAAGGGGCTCCCAGAAACCACTGGGCAGCATC
TGCCTTCTCTCTTGGCATGGAATCAAAGGCTCTGGTCCTTGTCAGGGGGCTTTCAGGCATCTGGGGGTGGGGAAAGCATTATGAGGCAGGGGGCTCCTCT
TGGTCCCTGTGGAGTCGGGTCTCTGTGGGCACAACTCCAGGGGCTGGCATTCACACTGTACCTATGAATTACTGTGGGATAGTGCTCCTGGGAGCCATAT
GGCTTGGCCAGACTGCTGGGGTTGCTGGGTGAGCAGAGTGGGAGGCCGGAGACTGCCCTTGACCGGCAAATGCCCTGCAACGGTGGCTCCTGACACCAGG
GGATAGGGAGATGTGCCAGAGTCCTTCCTCCCCTCCAAGGACAGGTAGTAGGTGCCAGCCTAGGGGAGCTTCCAAGGAGGGGAAGGCAAAGCCCTGGCCC
CTGCCTGTGTCCCCTTCTTGGCATGTTCCACATGCTCGGTCCTGCAGGCCCTGACCCTCATCATCTTCATYTGCTTCACGGCCTCCATCTCTGCCTACAT
GGCCGCGGCGCTACTGGAGTTCTTCATCACACTTGCCTTCCTCTTCCTCTATGCCACCCAGTACTACCAGCGCTTCGACCGAATTAACTGGCCCTGTCTG
GTGAGGAACCCTGACCCCTAGCCCAGTTTGGGGCCCTTCCCTCTCCTCTAAATGATGCATTTTCCTTTCCTCCCCGAGCTTCTTTCCATTTCCACACCAC
AGCTGGGCTTTGTCCCATGCTATGCCCTGCACTCAAAGGTGTGCTTTGACTCACACTGATTTCACAGCTGCAGGGCCACGGGCAATCAGGAGGACCACAT
CCGCTAGATCTACTCTCCCACTCAGCAAAGGTCCAGCCCCAGCCCTGGCCTGGCTTGACCCCCCCGGGCTGGCATACTCCAGCCGCTGTCCCCTGGGTTC
CAGCCCCAGCGCCTGGCTTCTGGTCCTGGTTGCTCTGGTTCATCTGCTTCCACTCCCTGGGTAGCAGTGTGAGCGCTCTGTCTCTTGAATGTGCTTCATA
TTGTGTGAGGGGTATCCTATGGAGGGGTTCAGAATCCCTCAGGGTCGGGCTGCTGGCTAGCCTGGAAAACTTCAGGGTAACGCCCCCTGCCTTCTGAGGT
CCTGTTAACCCTGCACCCCTGGCCCCCAGGACTTCCTGCGCTGTGTCAGTGCCATCATCATCTTCCTGGTGGTCTCCTTTGCAGCTGTGACCTCCCGGGA
YGGAGCTGCCATTGCTGCTTTTGTGAGTTCAGCCCTGCAGGACTCCTTAGCCCCTCAAGAGCTCAGGCTGGTGCTTGCACACTTTCTGTATCAGAAGCCA
CAGCCAGGACTTGGGGTTCTGGCTTGCACCTCACCCTATACCTTAACCCAATGGCCCTATAGCCTCTGTTTTGCCATCCCCACTCCCACTCCCACAGGTT
TTTGGCATCATCCTGGTTTCCATCTTTGCCTATGATGCCTTCAAGATCTACCGGACTGAGATGGCACCCGGGGCCAGCCAGGGTGAGTGCCTGTGCTCTG
TGGAGAGGAGATGCCCTCCCCACCCTAGCTACCCATCCTGATGTGGGTCCCTACCTGGCTCTATCCTCACAGGGGACCAGCAGTGACTCTGGGGCTACCT
GGCTCCTAGGCCCAGCCAGCCAGAGAGGACAGTGGAGCCCAGACACGTCTCCTTGGGATTCACTAGCCCCCAGCCCGCCAAACCCCACCCCAGCCCTACA
CAGCAGTCTGGCCTGAGACGTCACTGGGGACTTATCTGTGGAGCCTGGTGCTCCAGGATGTGGCTTCTCATGAAGCTCTGGCCAGAGGAGGGGAACTTAT
TGGGGGAGGGGGGGTGGAGGGGAGGAATCTGGACCTCTAAGTCATTCCCAAATTAAAATATTCAAATTCTACTGGTGAGTCTCTTTCTTCCCCAGAAATT
AGGCAGGTCAGGAATGTCAAGGAGTATTCATGGGAATGTTGCCAGAGCAGGTCGTGGTCTGTCTCTGGGACTGGGTCTGAGCAGTGAGGATGTGGGGGCT
AGCCAGAAGAAGCTGAAGACATCCTCCAACACAAAACTTCTACGCTACACCTCTGTGTGCACGGCCACTTTGTGGTGTGCCTGGTGGCTGGGCATCTGGA
GTTCTGTGTCTGAGAAGGCACAGCCTTCCTCATGGGAGCATGCATGCACCACCACACCTGTTCCCGCAGGTTAGTGGGCTGGAGGCCAGGCGCTCGCCTG
GGGCGTGTGCAGAGCTCCCCCTTGTGGTGTGGGGAAGACTTGGCCCACAGGACGCAGGGAGAGGGCAGCCTGAGGTATCAGAGGAGGGAGAGATTTCCCA
AAATGCGAATGCTGGGAGAGCCGTTGATTATCAGCTGGTCCAATGCCCTCATTTCACATAAGAGAAAACAGGCCCAGCCAGGGGAGGTGAACTCATTTGT
GACAGAGCTAGGGCCAGAACGCAGCTCTTCTGACACCTAAGCGAGTGTTCTGGATACTGTACTGAGCCTCCTTGTAGCTCAGAAAAGAATGGCCAACTCT
TCCCTCCACTGCGGGTCCACCCTCCCAGCTTGCCAGCTCCTCAGCACACATTTCCTGAGCATCTCCCATGCACACTGTGCTGGGTGCCAGGGCCTCAGAG
GTGACGGGGGGCCTGCCCTTTAGCACTCACAGGCTGGGAAAGAGACAAGCTGGTCAAGAGCTCCCCACAGTGAATGCTATGGGAAGGCTCAGGGGAGTTT
GGAGCAGACACTGCCACAGCCCGGGAGTCAGCCCTGCTGGGCCGAGACAGACAGATGTGCAGCCAGACGTTCCTGCCCAGCCCGAGGAGCCCAGCATGGC
CTGGCTCAGCAGCTCCATCCCAGCTGACGTGCTATCTCCTGTCGCTGATGTGTGTGTGTTCCCGCCCTGAGATACAATCCTTCTTCTGGAGCGCTCCTTC
CAGCTGCAGGCCCCAGCTCCCAAGTCCTGCCCGAACCCTGGATCTTGAACTCTGGTCAGAGCGCTCTGCTTCCTTGGTGGCAGCCACTCCTCTCTCTTGG
TCTTTTTCCTGCCTCCTGCTTCCTGTTCTCCTATCCTTGTGTCCTGGCTCACCATCAGAACTGGCAGCCTCTCCTGGGCTAGAACCAACAGGATTTTGTG
TTTCTCTGGTCACTGCTCACATTTCTCAGGGCTTTATGCACAGTCCATTCTCATGGTCTCAGAGGAGGGATAGAAGAGGCTCCACTTGGGGAGTCAGGGA
GATGGGGTGCCAGGTGAACGGTTAAGGAGGCGGTCAGCAGAGCCTGGCTGCAAAGCCCAGTGGGGAGTGGGGATTTGCTTTGTGCAGAACGGGGTCAGGA
CCGGGCCTGTCCCACAAGCAGCTGTGTGATCCAGGCCAGACTGTCCCCAGTAGGAGCTTAGAGAGAGCAGAAATGTGACCACAGTGTTTCCCTGTACAGG
CACCTGTGCCATCTGTGTCTGTGTGAGAACCAACATGAAATGAGCAATGCCCAGGCTTGGTCCTCATGGCATATTGGTTTGGGCTCAGTGTTGATTGGCC
CCAGAGTCTCAAGATGCCCTCACGGTGAGGTGCTGAATCATAGGAGGCAGGGGGAGACCCCTGGGGAAGACAGGGAGGGGGCTCCCTGGGAGTTACTTCC
TAGGGGCTGACTAGAATGGAATCTCTCCCATCTCCTTTCCCATACCTTAATTCTCAGCCAGCTCTGAGCCTTTTCTGGCATTGGTGGAAAATTCATTTCA
GAAAGAATGGGTGTCCTAGGACACCTTTAATCATTGCAGCCTCAGGGGTGGGGTAGGTGGAGAGTGGCTTCAACTTCGGCACCAAAATTCTATCTCGTAG
CATCTTGGACTGGCTCACCATTTTGATGCCATTGTTTTCTTCACTTTTGAAATTTCTCCCTCTCCACCCTTGTGTGGTTGACTGAGCAGAACTGGGACTC
ACAGCTGTCCACGTCAGGCAGAACACCTCACTCCTCTGCACCTCGGTCTCCTTCCTTGTGGATATGGGATGCCTTGGCTCTGGCAGCTCTGATACAGGGG
CTGGGGGCCTCCCTCCTCTCAGGCCCCCTACTGCCCTGATCCAGGATGGACAGCTGGCAGGAAGGACAGATGGGCTCAGGCAGAGTTTGGCACTCATATT
TATTACAGGTTGGCAAGAGTGAGGTTCCCGAGGCAGTGTCACTCCTCATCGTGCATTTTTTGCTGCAAAAAGAATAAGAGGTGTGAGGGGGCAGCTGGCA
AGAGGGAGAAGTGTGTGGGGACAAATCCCTGGGGCTTTCAGAGGCCTAAGGGAGATGCCCTTGGAGGGAGAGGCAGGGCCCCAGGGATCCTGTGGTCCCA
CGTTAGAGGCACTTGTGGTTTAGGGGGATGGAACTGGGGATCTCTGCAGAAGTTCCAGTCAGTGGGGGGCTGTTTTGAGCAGGAGAGTGGATTCTCAGGT
TATGTAAGCTATGGGACCCTCAGAACTGCCTACATATAGGGCAAGCAGTGCCCACTCTGAAGGGCACCCATATCAGGGGGCATGCTAATGTGGAAGTGAC
TAGTGAAGCCCAGGGGAGGGACCCACCTTGGCACCAATGTCACGGCTCTTGGCTCGAAGCTTGTTGACCTGGGACTCAGCGATGTCCGCCCGCTCCTCTG
CCTCATCCAGCTCATGCTGCACCTTGCGGAACTTGGACAGGTTGGTGTTGGCTTGCTCCTCCTGTGGTGGGACAGTGGGGATGGGTGAATGAGCTGGAGA
TGGGCTATGGGATTCTCAGCCTCTCAACCTGAGGTTCCAGCTCCCTGTCCCTGAGGCACCCATGCCTCATGCATATTCCTGCAACAGCCTTCCCAAGGGT
ATCCTGCAACTGCCTTGCACTCTTCTCAAACATGTCCAGCACTCAGAGTCCTTCACGGCCATCCACTGCCCCAGACAAATCCCATGCTGCCCGATCTGGG
CCCCTTCAGAATCCTGTTTTGCTGCACCTGTCCCGGACCCCAGCTTCCTGTGCAGGCATGCTAATCAGCAACTCACATCCACCCAGATGTCTTCCCCACT
GCCCTGTGGCTAGCTGGGTCCCCTTCTAGGCCCAATTCCACCGCCACCTTCCTGCCTTCAGCTTCGGCTGCCCCACGTCCTGCACTAGCATCTACACTGC
CTTCTGTTGGGTTATGGTATCTGAATTGTAAGCAGCTTGTAGGTGGTGCCTTTGTTAATTCAGAACACCTGACAGCTCTGAGCATACCAGATGTGTCAAA
CAAATGTTTGAGAGTTAAAGTTTATAGCAAACTCTTTGTCCAGGCCCCTCTGTAGGAGATATTCATTGGTTCTCACAAATAGTAGGTGTGTTGATGAGAA
AGGGAAGAAAGCTCTGAACTCACCGCCTCCTCGGCCTGGCGCTTGTAGGCCTTGACCTTCAGTTGCAGCTTGTCCACCAGGTCCTGTAGCCGCAGCAGGT
TCTTTTTGTCTTCCTCTGTCTGGGGGTGGGAGGGTGGGAGAAGCTGGTTTGGAGGGGGAGCAAATGCAATCACCTTTCCCTCCTCCATCATTTTACTCTT
CTCCCCTTGCCTTTGCTGCCCCTCCCTGCAATGATCCAGGTCAAAGAGGTGGTGGGGAAGATTCTCTGACTCTATCGTAGGTCAAAGGGGCAATGCAAGG
TTGTCAGTCAGGGATCCACAGAGCAATGAAGGCTGAAGTCATAAAGCTAGAAGTAGGGGGAGGGGCTCAGAACCTAATGGAATTCCCTAATGTGGTAATA
TAAAAGCACCAGGTCTGTTCCAGCTCCAGTATGGTGGATAAAGCTCCAACCTGGACTTACATAGGTTCTCTTGGCCAGTAGTTCTTGACCAGAAAAAGAA
TGCAGAAAGAAGGGGGTATTATCATAATCCAGATTATTCTACATTCTAATATATTGTACTGGGCCAGAATTCAGGCATCGGGATCACTGGCTCCAACGTC
ACTCGATCATTCCTATCTCTTTATCATTGTATGTGCCAGGATGCCATTTCTACTTCTGTCCACAAATCACTCTGTGGTTCTGTATCTGTAACCTCTTTCT
TGTGCCTCTGGTATCCATCTATCAAATGGACTGACACCCTCGTCTCCTTGGCCTTTTCTTCCCAGGTACACTGAAAATAACGGGCCAAGGGCACAGCTCT
CAGCTATGCAAGTGGAGGTTTTAGAGCATTCTAGGGTCCTCTTTCTCTGTGGCCTTCTCTTTGTGTGCCAGAAGTTCTATGGAAGATTTCCGGGTCTTTT
CCCCTCCCCTGACTCTTATCCCCACAGTCGAAGGTGGAAGGATTCTTTGAACTGTTCTGAAGTCTTCATGGTAGCACTTAGAGTTATTAAAAAAAAAAAA
AAAGAAAGAAAGAAACCTGGGGAAAGACTAGTTAGAAGAGTTTTCAGGAAGTAGAAGTAGATTCTTCATTTGCTGGAAAAACTCATAGACTCAAGTCAAA
CTGACTGCAGAGCGTGAGAAGAACGTTAAATCTACCAACAGCATCTCAAGGAGGAGGTGAGAGGAGCCCTGTGAGGGCGGGGCAGTGGGGCCAGAGAAGA
AACTTCCACATCTACTCCTGGTGTCTGGCGTCCGCCGCACCTGGTAGGTGAGCTCCTTGATGCGCCGCTCGCTCTTCCTCATGCCCTTCACCGACTCTGC
GTTGCGCTTCTGCTCGGCCTCCAGCTCACCCTCCAGCTCCCGCACCCGCGCTTCCAGCTTCTGCAGCTGCTTCTTGCCTCCCTTGAGGGCGATCTGCTCG
GCCTCGTCCAGCCGGTGCTGCAGGTCCTTAATGGTCTGCTCCATGTTCTTCTTCATGCGCTCCAGGTGGGCGCTGGTGTCCTGCTCCTTCTTCAGCTCCT
CTGCCATCATGGCGGCCTGTGTGCAGGAGAGAGGTGGCAAGGAACATGGGCCAGGGGCCGGGGCCTTTTGCCCCCCAAGGATCTCCTTTCTCCCATCAGG
CCCTCAAATCCACAGAACTGCAGAGTTGGCTTGGTGTTACAGCACAGTGGCCTGGCCTGGACCCAAGGCCTTGTTTCTGTCTTTAGGGGAGGCGGAAGGT
GGGCGGTCACTTACATCCGTGATGGCCTTCTTGGCCTTCTCCTCGGCGTTTCTGCACTCCTGCACTGCCTCCTCCACTTCCGACTGGAGCTGGGTCAGAT
CCGACTCCATCTTCTTCTTCTGGTTGATGAGGCTGGTGTTCTAGACATGGAGAGAGAAAAATGATCAAATATATACTACACTTTGTTACCTGATTTCATA
CCCTTTCTCCAGAAAGAATTAAAGGTGGTCATTTTTTTTTTAAAACAACAAGCCCACTTTTAGACTATTGATCGTTTTGTACCTGCTTTCCCTTTTCCTA
TGAAAGTGCATACATTCTAGACATTGTATCTAAGATTACTAAACTCTGAAAAAAGACTTCAAATAGCAAAAGGTCTGCAGTATTACCCTGGAGCTCTTTA
GCAACATGTTTACGTAGGAGCATGACAATATTCCAAGGAAGATGGAAACAACTTTTTACCAGGACAATATTCCAGAGATGTTTATAGCTATACCAAGAAT
GTAGTGGGGTAAGGAAGAGGGGATGAGGTAAGTGGATGATGTCATTCTCACACATACTAGATTAAAGAACAAAACTCCACAGGGCACTGCAAAAGGTGAG
CACAAAGTCTCATTGCAGAGTATAACTGAAAACAGTGTGGGTGGGATTGCAGAAAATGGTGTTCTAGCCAGCTTGGTTTGCAAGAGATGCAGTTATGCTT
CTTTAAACTCCCAAACTCTCATCTTTACAGAGCAAGCCGGAGGCTGTCTTTCAGATCAAGAATATCAAATAACAGGATACATTCCACTACTCCCAGATTT
GTGGCTTTGGCAGGTATCAGCAATCAATCATGACCCTCTTAGCTTCTAAGTAGAGACCGCTTTCTTAAT


SNP Information

Context             (SEQ ID NO:67203):
ACAGCTGCCTCCCAACCTGGTGCCTCCATCTCCCTGACCCCCGGCTCCTGGCCAGCCTTATGCCAGCCCCCAGCTCACCCTTCAGTAGCCTCCTTCCCCA
R
GCCCTCTGGACACCTCTCCTGCCCGCAGCTGCCCCTTCTTCGTCTCCTACTCTGCCTTCTTGCTGCCTCTCCACCCGGAGACATTTACAGCAGGTTTCAG
Celera SNP ID:            hCV29359090
SNP Position Genomic:     6680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67204):
AACCGAGCTGGTAACAGCTGCCTCCCAACCTGGTGCCTCCATCTCCCTGACCCCCGGCTCCTGGCCAGCCTTATGCCAGCCCCCAGCTCACCCTTCAGTA
K
CCTCCTTCCCCAAGCCCTCTGGACACCTCTCCTGCCCGCAGCTGCCCCTTCTTCGTCTCCTACTCTGCCTTCTTGCTGCCTCTCCACCCGGAGACATTTA
Celera SNP ID:            hCV29359091
SNP Position Genomic:     6667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67205):
TCCAAGGAGGGGAAGGCAAAGCCCTGGCCCCTGCCTGTGTCCCCTTCTTGGCATGTTCCACATGCTCGGTCCTGCAGGCCCTGACCCTCATCATCTTCAT
Y
TGCTTCACGGCCTCCATCTCTGCCTACATGGCCGCGGCGCTACTGGAGTTCTTCATCACACTTGCCTTCCTCTTCCTCTATGCCACCCAGTACTACCAGC
Celera SNP ID:            hCV2231511
SNP Position Genomic:     7571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67206):
CCTGTTAACCCTGCACCCCTGGCCCCCAGGACTTCCTGCGCTGTGTCAGTGCCATCATCATCTTCCTGGTGGTCTCCTTTGCAGCTGTGACCTCCCGGGA
Y
GGAGCTGCCATTGCTGCTTTTGTGAGTTCAGCCCTGCAGGACTCCTTAGCCCCTCAAGAGCTCAGGCTGGTGCTTGCACACTTTCTGTATCAGAAGCCAC
Celera SNP ID:            hCV2231512
SNP Position Genomic:     8301
SNP Source:               Applera
Population(Allele,Count): african american(T,12)   caucasian(C,11|T,7)   total(C,11|T,19)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;JBIC-allele(T,217|C,504)   total(C,504|T,217)   (C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67207):
TCCTCTCTGCCCCTCCCCATGGGTCTCTAGGGGGCTGGTGCAGGCAGCAGCAGAGGCACTCTGGGCAGCTGGGTGAGGGCCCATCTGGGCAAGGCCCCCA
K
CGCCTGCCTTCTCTCCCGGGGCCCTGTGGGCAAGCCTCCTGCTTCACTTTCAGGTTTCTCGAAGTGCCTTCTTGCTCCTGTCTGTTTCCCCATCCTGCCA
Celera SNP ID:            hCV27850980
SNP Position Genomic:     6288
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,36)   total(G,72|T,2)
SNP Type:                 UTR 5


Gene Number:                 434
Celera Gene:                 hCG42025 - 103000085236727
Gene Symbol:                 SSAT2
Protein Name:                spermidine/spermine N1-acetyltransferase 2;SSAT2
Celera Genomic Axis:         GA_x5YUV32W2JD(7887954..7901576)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12594):
GTAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCTCGAGCAGCCGGGACTACAGGCGCCCGCCA
CCATGCCCAGCTAATTTTTTTGTATTTTCAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGGTCCGCCCGCCTCT
GCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCGGCCAGTCTCCATGTTTTCACAACTCTCCAATTCTTCTTTATCAGTGCTTCCAACTA
TCCACTTATTAGTTAGCCTTTGATGGATGTCTGCTTCCCTATGGGACTGTGGGCACCAAGAGGGTAGGAACCAGAGTGTTTTTGCTCATTAAGACAACTC
AATACTTGGCACAGTGCCTGGTACATTGCTAGTGCACAGTGAATATTTGTTGAATAAATGAATAATCAGTAACTTTCAAAGGGGGTTCTTAGGTGGAGCT
TTAATGGGAAGCGTCAGTGCCATTGCCTGGGCTCTGGGGGCAGCTGTGAGTCCAGATCTCATGGCTTCTGTTCAGGGCCTGGTCCACATCCAGCCTCTGA
CCTTGTGCCCAAAGGCCATTCAGGCAAAAAGAGGTGGAAGAGTCTTCTCCTAGAGGGAGGTAGTGCAAAGGTGGCATTAGAGCATTAAGGTGGCTCGGAT
CCAGAATCTTCTCCCCACTTTTCCACTCCTCCAACCTGAGTTTGCAAAAGCACTACCTTCCACTGCCCCCATATCTTCTTCTTGTGGCCTATTCTTCTTC
CCTCCCAGAGGTTTCCTTCCCCTCAAAATGTGCCGCCTCCCTTGAGCTGTTTCCAATGTTGTGCTCATGAACTTGAACATCATTCTCTCTTACCTGGTAA
AGCCCCCAGGAAGAGACGCCCTTGAGGCTTGGCCCAGAGGTTAAGGAGGGGAGCCAGGCCTAAGGGAGGCAGGGCAAGGGCCTTCATCTTCGACCCTTGG
CTCAAGACCACCCTGGACATACTCAGCTTCAGCTGAAGAGGGAGTCCCAAGACCAGGGGCAGATCCAGCCCTGGCCCCGACCCAGAAGACAACACCACCT
TCTGCAGAGTGTGTGGGAAAGGGACGGTAGAGAGAGAGGGAAGAATGAGCCGGGCCTACTGCCTGTGGCCTCACCCCTAGCTGCCTTAATTCTGCCTCTT
CGCTATGCCTCCACCTACTGGCCATTCTCACCACTTAAATCCTGCCCCAATTTTTTTTGGCTTGACCCTTTTTGAAACCACACCTGCCCCAAGTAAATAT
GCAGTCTAAGTCAAAACTGTTTGCTTGCTGTGGGGAGCTTCAAGATATGTCCCTCGCCCCTACCACCCACCTGAGTGCCATCCATAAGCCTTATTTTTAT
TTTTATTTTTTTGAGACAGGGTCTCACTGTGGCCCAGGTCAGAGTGCAGTGGCACATCATAGCTCACTGCAGCTTCAAACTCCTGGGCTCAAGTGAACCT
CCTGCCTCAGGCTCCTAAATAGCTAGGGCAGCAGACATGTGCTACCATGCCTGGCTAATTTTTTTTTTTTTTTAGACAGAGGTCTCTGCTATGTTGCCCA
GGCTGGTGTCAAACTCCTGGCCTCAAGTGATCCTCTGGTCTTGGCCTCCAGCACCTGGGATTACAGGCAAGCACCACCATGCCTGGCTAATTATTAATGA
AAAACAATTCTGTGGAGCCAGTCTTGTTATGTTCCCTGGGCTGGAAACCTTCCTAATATTGACATGTTGGACTCCCCTCTTCCCTCATTGCTCCAGGCTC
CACTGAATACAGGCAATGCCCCACTGTCCCCCTTTACTTGATCTTGGAGGTGGAGACTGAGCCAAGATGGGTTCTCTGGTGTCCCAAGAGCAAGGAGGTG
GCCTGAGCCTGCTGCCTGCTTGAGTCCCAGGTCCAAAGAGAAGGCCCAGGGCTCTGCATGAGGCTGGGGAATGTCTGTGGGGAGAAATGATTATCCTGAG
GCCTCAAAGCTGGGGTCTCAAGGAGGAAAGGGGCCAGTGGTAGAGGGGGACAGAGGCAGGCTGAGCTGGCCAGGGTGGGAAAAATAGACTCCGAGGAAAT
CTACCTCGGAGATTGAATTCTGCCTGAGTCCCTGGAGGGAGAAATATCCCGGGATTTGATTCTACATCACAGCTTCTGAGGCTAGTGGGGGCAGATGCTG
AGATCTCGGCCTGTTTGTCCAGCCAGGAATCCCGGCGCAGGCAGCCATCCAGGGCAGGAACCAGCTGGAGTGTGACAGAGATAAGATACGGGGATGTAGA
AATCAGGGCATCGGAGCCGCAGTCCCGACCTCCCTGCCCTCAGTTGACTCCCCTCTGAGCATTTGGCCTCCCCCTTGCAGCTCTCAACCCTTCCCTTCTC
CCTAAAAGTGTGGACTTAGATTCCCACGGCCAGCCACCCAGCAGTGCTTTACCAAGTCTTGGCTAGGGTTCCACCCCTGGGGTGTAGTTACCGGCAACCG
AAGGTTGGAAGCGGGGAAGAGCAGCCCCCCAAGCGCAATCCTCATGATGGGATGGCGTTTGCTGGTCAGGGGCCCAGAGACCTGTCTCAGGCGCAGCACC
TCCTCCCCATCCACCTCCAGCAGCACAGAGTCCCCCTCCATCTTGACTTCCACCTGCAGGAAGGTGGGAAGCAAAATCAGAGGCCCCTGGGATCTGTTTC
TGCCACCTTCCTGTGAGGCAGCCTAGTACTATAGTGGAAAGAACATGCCTTAAAGAAGCAGCTAGCATCCTTGGCCTTGGGTCACTCAGCTCTTGTCACT
TATATACTGACTGAGCCTTAGAATTCCCATCAGAAAAGATGGGGCCAAGAATAGCTACTTTGTGGGGGTTCGTGTGGATTAAACGAGATGACAGTGGTAA
AGGGATGCCCAATAACTTGGTTTTGTTCCCTTTCCTCAGACCAGCTCCAGACATCCCTCCCCTGAGGACCAGAGCTAGCTTACCTGGTGCCATCTCCCAT
CATCCAGCCGTGGTCCAGCACCCACCGTAAGCTGGGCCCAGTGATTGTGCAGTTGGATCTCAGGCCTGCCGTCTCGAAGTCCCAGCATAAACCAGTCATC
CTTAGGGTTGGTATCCCCATAAAAAATCACTCCCTCTGGGTCCCAGGTTCGAACCTCAAAGGAGGAGGAGGTTCTGGAAGGACACAGAAGGAAAGATTGT
GTATGTCATGTGTCCTTTGAGAACCAGTGTGGGTTTGGGGGAGATGGTGTTCACAGATAAGGAAAGGAAGACAGGGAAAAGAGAAGAGCTGATGGAGAGA
GGGCAGAACCAGGGGACTGGGTCAAGGGCTAGGCCAACCCCATACTTTGTGATCTTGGTGAGGTCAAAGGTCATGACAGCGATAGGCTCTTGTCCTGGGC
CATTGCTGAGGTGGACAGCCGGAGGGTCGTGGGCACTCTATCAGAAAGAGAAAACAAACAAAGCTGAGTAGGGACATGTCAGAGACAGACAGAGGGAGAG
GCCCTGCTACAGGGCCAGAGGAGAGAAGGGAAGACTGCATGAGCTGAGTGCCCTGTCCCGCTCCTGCACCTGGGTGGGGAGAACAGGTCTCAGGGCCCAT
CCCTGGCGGGTGTGACGCAGTAGTAGCAACAGCAGCAACAGCAGCAGGCGCGAGGTAGCCAGTGGGCCTCTGCTCTCCATAATCAGCCACTGTCCACTCG
GCGGCTCAGACAACTCTTGGGAGAATGTGTAGAGGCAGGCAGCCTTGCGTGTGGGCGGTGGAGGGTTAAAGGTTGCCCGGGGAGGAGGGGGTAAAGGAAA
CAGGGGCACTGACCCTTGACCCCTGCCCAGGGGCCCAGTCACAAGACTCAGCTATCACCCCTCTGGGGATCAATGGGGTGAAGGACAGAGTCCCCTCCAC
TATCATCCTCCACTGCCGAGAAAGTTTCTGAACTGGGAGAGGATATTCCATCTCCCCTCTCCTCCTCTAGGGCCTGATCTAGGTCCTCCAAGATTTCTGT
CCACTCGGGGAGCCTGCATTCACAGGCCTGAGGTCTAGAAACAGTCCTCCCCTGCGTCCCAAGTAGCATCCTGTATCAGGACTAGAAATGAGATAATGGA
ATCCTAAATTTCTAGCTGAGTGACCTTGGGCAAGTCACTTCACCTTTGTGCTTCAGTGTCCTTGTCTGTAAAATGAGGAAAATAATACTTTACGGGGTGA
CTGTGAAAGAGGGTTCATTGAGAAAATGCAGGCACAGTGCCTGGCATCTGGTCTGAACTCCTCCCCCAGTCTTTTCCCAGGCCTCTGAGGCCTGTCTCCC
AAGAAGGTATTGTCTGTGTGTATGATTCAGTGAATATTAAGAAGGGACCTGCCCCCCGCCTCTCAGTTATCTTCCCTTATCCATTTATTACAGGGCCTAA
ACAGTCTAGCAGTAGAAATCACCCACTCCCTGACCCATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTAGACAGAGTCTTGCTCTATCACCC
AGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCTGCCTCTGCCTCTCGAGTTCAAGCGATCCTCCTGTCTCAGCCTCCTTAGTAGTTGGGACTACAG
GTGCACGCACCACCACGCCCAGCAAATTTTTTTGTGTTTTTAGTAGAGACGGGGATTTCACCACGTTGCCCAGGCTGATCTCGAACCTCTGACCTGAAAT
GATCCGCCCACCTCAGCCTCCCAAAGTACCTGGATTACAGGCATTAGCCACAAGGCCCGACCCTCCCTGACGCATTTTATTTTATTTATTTATTTTGAGA
TGGAGTTTCGCTTTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCGGCTCACTGTAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGTCTCAGCC
TCCCGAGTAGCTGGGAGTAAAGGCATGCGCCACCACACCTGTCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTCTCA
AATTCCTGATCTCAGGTGATCCGCCTGCCTCTGCCTCCCAAAATGCTGGGATTACAGGTGTGAGCCACTGTGCCCACCCCATGACCCATTTTAAAATGCA
AATGACAGACCGGGCTTGGTGGGTCACATCTGTAATCCCAGCACTTTAGAAGGCTGAGGCGGGCAGATCACTTGAGGTCAGGAGTTCCAGACCAGCCTGG
CCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGTATGGTTGCCCATGCCTGTAATCCCAGCTACTCCGAGGGTGAGGCAGGAGA
ATCGCTTGAACCCAGGAGGGAGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGAGTGACAGAGTGAGAATCCGTTAAAACAAAAAAAAA
GAGAAGAAAAAAGAAAAAAAAATTAGCCGGGCGTGCCGGTGCGCGACTGTAGTTCCAGCTACTCCGGAGGCTGAGACAGGAGGATCGCTTGAACTCGGGA
GGTGGAGGCTGCAGTGAGCAGAGATCGCGCCACTACACCCCAGCCTGGGCGACAAAGCAATACACCATCTCCAAAAATAAATAAATAAATAAATATAAAA
ATAAAACATTTAAAAAATGCAAATGCCCCCAAGAGGTAACACTTCATGCTACTCAAGAGCTGCAGGAAACAGCTTTCAGAGCTGAGGGTCTTAAGGCTTA
CCCAGGGTCTGGGCGGGTGAGTGAGCCTGAGGCTAAAGCAGGTTATCACTGCATATGTCAATTTAAAAAGCACTGCGGGGGAGCCTTTGAACCGCGGGGT
ATCTCGACCCAGGTTGGGACACCCACACAACCGCAAGGAAGCCGCTTCACTCCAACCTTGAACTCTACCCAGGAGCCCAGTCACAAGATCCAGCTGTCGG
GGGTGGGGCTTGGGGGGGGACGCGGCCGTGCCTGTTCTCCAAGCTGATTGGCTGACAGTTGTGCCCCCTGCTGCGACAGAATTCGAGGGGGTGGGGCTAT
GCCCGGACAGAGGATCGCCTCGCTGGCCTACTCTCTCCTCCCGTACGGCGCCGGAATCCCAGCTCCACTTACCAGGCCGCGGCTACCCCGCCGTCCCCCC
CGACTCCCGCCACCCCGCTCTCTCAGGCTCTTCAGGATCCAAGTCCGTAGGCCCTTTAAGGGGTCTAGTTGCCGTTTGCGAGGCCCTGGGACTTTGGTCC
CAGACAGCGGGGATCCGGATGGCTTCCGTGCGGATCCGAGAGGCCAAGGAGGGAGACTGTGGAGATATCCTGAGGCTGATTCGGGTGAAGACTGCAGGCC
GGTAACCCGGGGGTCAGAGTGGCGCGGCCAGAGCGGGGTCGTAGGAGGCGGGGGCAGGGGGAGGGGCTCGCCTTGGGAACCTGCTCGGGGAGCAGCGGGG
CCCTTCTGCTCTAATCTAGCTTCCGTACCCACGCCTTAGGAGCTAGCCGAATTCGAAAAACTCTCGGATCAGGTGAAGATCAGTGAAGAAGGTGGGGGCT
CAGCGCCCAGGTTCTGGCGGAGGCTGGGGAGGAAATGAGGGATGGGTTCCCCAGGCGACAGCTCCAGGCTGGGCATACACCCACGTCCTCTTTCTCTATC
TCTTTGTCACAACTCCAATCTCGGCAGCCCTGAGAGCAGATGGCTTTGGAGACAATCCTTTCTATCAYTGTTTGGTAGCAGAGATTCTTCCAGCGCCCGG
GAAGCTACTGGGTAAGAGCACCTGGCCCTTAGAAGTCCACCTCTCCAGCCGGCCTCAGAGGTCTCCCCACAGGCTTCCAGAAGCCTTACTCCCCTTTTCT
CTCTCTCAGGGCCCTGCGTGGTGGGCTATGGGATATACTATTTCATCTACAGTACATGGAAGGGACGCACCATTTATCTGGAGGATATCTATGTGATGCC
RGAATATCGGGGTACTGGGCAGAAGCTGAGGCTGGGGTGGGAGCAAAGCACCCCACAGACCCCACTGTTATCCCCTGTCCCCAGAGCCCAGCCGGTGTCA
TTTTCTGATCCCCTTCAGCTCAAASAATAGCTATTTTTTGCCTCTTTCTCTCCACAACAGGTCAAGGGATTGGTTCCAAAATAATCAAAAAGGTGGCTGA
GGTGAGGAGATGGGTGGGGCGACAAGTGAGGACCTGAAGAAGCAAGGGTATATGGAGGGGGGACCCGGGTTGAAAGAGGGAGTGAGAAAACCTTTTTCTT
TTTTGACCCCAGAAAAGTTAGTGTTGTCTTCTCCCACAGGTGGCCTTGGATAAGGGCTGCTCCCAATTCYGCCTGGCCGTCCTGGACTGGAACCAGAGGG
CCATGGACTTGTACAAGGCCCTAGGAGCCCAAGATCTGACGGAAGCTGAGGGCTGGCACTTCTTCTGCTTTCAAGGAGAGGCAACGAGAAAGTTGGCAGG
AAAGTGACGCCATCCCTAGGAGGATCTCTGTCTTGAGTTTCTCCTTCCCCATCAGCTGAAGCACTCTTCAGAGACTACGTCCACAGACACTGATGCTGAG
GCCTCCCTGGAGGAAGGAGGGTTAGGGGTGCCTATCCTCAAGTATTGGAAGAGCAGAATTGAGGGAGAGACCTTTCTTCCTTGTTGAGGGTGAAAAATAA
ATAAGAATTACATGTCCTGATGTGGTGTTGGGTCTTTCTTTTATTTCTTTTTTTTTTTTTTTTTGAGACAGAGTCTCTGTCGCGCACGCTGGAGTGCAGT
GGTGCGAACTCCGCTCACTGCAACCTCTGCCTCACGGGTTCAAGCAATTATCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACGGGTGCGCACCACCATG
CCCGGCTAATTTTTAGTAGAGACGGTGTTTCACCATACTGGCCAGGCTGGTCTCCAACTCCTGATCTCGTGATCCGTCCGCCTCGGCCTCGAAAAGTGCT
GGGATTACTGGTGTGAGCCACTGCACCCAGTCCAAAGTCTTTTTTTTTTTTTTTGAGATCAAGTCTTGCTGTTGTCCTCAGGCCAGAGTGCAAGGAGTGC
AAAGGTTTGATCTTGGCTCACTGCAACATCCGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGACTCCCGAGTAGCTGGGATTACAGGCGCCTGCTACC
ACATGCGGCTAATTTTCGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTGGCCAGGCTGGTCTCAAATTCCTGACCTCAGGTAGTCCGACTGCCTCGGC
CCCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCAGCCCACAGTCTTTTCTTTTTCTTTTTATTTTTTTTGAGACAGAGTCTCGCTCTGTCAC
CCAGGCTGGAGGGCAGTGGTGAGATCTTGGCTCACTGCAAGCTTTGCCTCTTGGGTTCTCACCATTCTCCTGCCTCAGCCTCCTGAACAGCTGGGACTAC
AGGCCCCCGCCACCACGCCCGGCTAAGTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATC
CACCCACCTTGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGCGCCTGGCCTGACAGTCTTCATTTTCAATCTGGTATGCCCTACAAAAGCTCA
TGCCTGGCCGGGCTCAGTGGCTTATGCCTGTGATCCCAGCAGTTTGGGAGGCCGAGGCGGGTCGATCATCTGAGGTCAGGAGTTCAAGAGCAGCCTGACC
AACACAGCAAAACCCCATCTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCAGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAAT
CGCTTGAACCTGGGAGATGGAGGTTGCAGTGAGTCAAGATCATGCCACTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCCATCTCCAAAAAAAAAAAA
AAAAAAAAAAGCTCACGCCTGTAATCCCAGCATTTTGGATTTTGGGAGGCCGGCAAATTGCTTGAGCCCAGGAGTTCAAGAGCAGCCTGGCCAACATAGG
AAAGCAAAGTCTCGTCTCTACAAACAATACAAAAAAAGCCAGCACGCAATGGCATGCTCCTCTAGGCCCAGCTACTGGGGAGGCTGAGGCATGAGAATCG
CTTGATCCCAGGAAGTGGAGGTTGCAGTGAGCCGAGATCATGCCACTGGACTCCAGCCTGAGTGACAGAGCCATACCCAGTCTCAAAAACAAAAACAAAA
CAGCAACAACAAAAATCTCAACACTTTGAGAGGTTGAGGGTGGAGGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTAGGCAACATGGGCAAGACCACA
TCTCTACAAAATTAGGCCGGGTGCAGTGGTTCATCCTTATAATCCCAGCACTTTGGGAGGCAGGCAGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTG
GCCAACATGGTGAAATCCCATCTCAACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCACCCATGTAATTCCAGCTACCTGGGAGGTTGAGGCATGAGA
ATCGCTTGAACCCAGGTGGCAGAGGTTGCAGTGAGCTGAGATTGTGCCACCGCACTCCAGCCTGGGTGACAGATGGAGACTCTGTCTCAAAAAAAAAGAA
AATGGCCAGGCGTGGTGGCTCACGTCTGTATCCTAACACTTTGGGAGGCCAAGGCGGGTGGATCACTGGAGGTCAGGAGTTTGAGACCAGCCTGGCGAAC
AGGGTGAAACCCTGTTTCTACTAAAAATACAAAAATTAGCTGGTCTTGGTGGTGCAAGCCTGTAATCCCAGCTACTTAGGAGGCTGAGGCAGGAGAATCA
CTTGAACCTAGGAGGTGGAGTTTGCAGTGAGCCGAGATTGCACTACTGCACTCTGGGCGACAGAGCAAGACTCTGTCTAAAACAAACAAACAAACCCAAA
GAAAACAAAAACTAAATAAATAAAATTTGCCCAGGTCAGTAACAAATGCCTGTAGTCCCAACTACTCAGGAGGCTGAGGTGGGAGGATCACCTGAACCCT
AGAGGTCGAGGCTGAAGTGAGTCACGTTTGTGCCACCACACTCCAGCCTGAGTGACAGAGTGAGACCTTGTCTCAAAACAAAAAAAAAATAATAGGTTGG
GTACAGTGGCTCACGCCTATAATCCCAGCATTTTGGAAAACCAAGGTGGGTAGATCAATAGAGTCCAAGAGTTCAAGACTAACCTGGGCAACAGGGCAAA
ACCCGGTCACTGCAAAAAATACAAAAACATTAGCCGAGCTTGGTGGCAAATGCCTGTAGTCCCAGCTACTGGGGGGCTGAGATGTGAGGACGGCTTGAGC
CTGGGAGGTTGAGGCTACAGTGAACTGAGAACCTGTCAATGCACTCTAGCCTGGGTGACAGAGCAAAGCCCTGTCTCAAAAAACAAACTTTAATCACTAA
TGCAGAAGATAAAAGAGTATAAACTAGGAAACTTAATACTTCCAAAATTTTGTTTGTTTGTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGTTGGAGTG
AAATGGCACGATCTCACTCACTGCAACCTCCACCTCCTGGGTCCAAGCAGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACT
ACGCCTGGCTAATTTTGTGTTTCTAGTAGAGATGAGGTTTCTCCATGTTGGTCAGGCTGGTCTCCAATTCTGACCTCAGGTGATCTGCCCACCTCGGCCT
CCAAAAGTGCTGGGATTGCAGGCGTGAGCCACTGTGCCCGGCCAATACTTCCAAAATTTATCTTGCCCCCATCTTGTTTTGTCTTTGGTTTTCAGAGTTT
ACTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTTTCGCCTAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAAGCTCTGCCTCTCAGGTTCGT
GCCATTCTCCTCCCTCAGCCTCCCAAGTAGCTGGGACCACAGGCGCCTGCCACCACGCCCAGCTAATTTTTTTTTTTTTTGTATTTTTAGTTGAGACGGG
GTTTCACTGTGTTAGTCAGGATGGTCTCGATCTCCTGACCTAATGATCTGACCACCTCGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCACCGTGC
CCAGCCCAGGGTTTACATTTTTAATGTTATTACCCTCACCTTGGTCCCAGATCTTACTAATATTCATAGAATATCTTTGCACTCCAGTATCACTCCATTT
TCACAACCACCCCCATGTCTACATCCTTGGGCTCCAGCCCATTCATCACTTCATTAGCCATCTATAAAATGATCCTGGCCAGGCCAGGCGCAGTGGCTCA
CGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGATGTCAGGAGTTCCAGACCAGCCTGGTCAACATGGTGAAACCCTGTCTCTAC
TAAAAATACAAAAATTAGCTGGGCGTGGTGGTGGGCACCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGCAGAATTGCTTGAACCCGGGAGGTGGAGG
TTGCAGTGAGACAAGATTGAGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCCTCTTACAAAAGAAAAAAAAAAGTGATCCTATTAGGTGTTGG
GGCTGATTGGAGTGGGGTGAAAAGGGCCTGGGTTCTGTCCATTCTAAGGGAAACAGAGTGGAGGGTATTTAGGCTAATGGCTTTTTAAAGGGAGAATAAA
GAAAACTTGGGCTGGGCGTAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTAGATCATTTGAGGTCAGGAGTTTGAGACCAGCCT
GACCAACATGGTGAAACCCTGTCTCTACTAAATACAAAAAAAAAAAAAAATTAGCCGGGCATGGTGGCGCATGCCTGTAATTCCAGCTACTTGGGAGGCT
GAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAGCAAAACTCCATCTAA
AAAAAAAAAATTAAAATGTCTCTCAAATCTGTCCATAGCTCTATCCTTACTTGCAAAGTTCTCACTCTTTGAAAATTGCCACAACCTCCTTACTGGTCTC
CCAGCCTCCTTCTGTAATTTCTCCCCCAATTCCATGGGATTTTTTTTTTCACAGATATACATTATGTACTTTATTTTATTATTTAAATTTAATTTATTTC
TTTATTTTGAGACCAGTTTATGCAGCTGGTTTTTTTTTTTTTTTTTTTTTTAGACGGAGACTCGCTCTGTTGCCCCCAGGCTGGAGTGTAGTGGCATGAT
CTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAACCTCTTGAGTAGCTGGGATTACAGGCGTGCACCACCACGCCCAGCTA
ATTTTTGTATTTTTTTTTAGTAGAGATGGGTTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGATGATCTGCCCGCCTCAGCCTCCCAA
AGTGCTGGGATTACAGGTGCGAGCCACTGTGTCAAGCCCATAATTTTTGTATTTTTAGTAGACATGGGGTTTCTCCGTGTTGGCCAGGCTGGTCTCGAAA
TCCTGGCCTCAAGCAATCCTCCATCCACATAAATGATAATACATTTGCCCACGTGGCGATCAAATCCACAACCTTGGTGTTAGCACCTGGCTCTAACCAA
CTGAGCTAACTGGCTATTGCAAATCTTGATTTTTTTTTTTTTTTTTTTTTTTTTTTGTGACAGGGTCTTGCTCTGTTGCCCAGGCCAAGTGCAGTGGTGC
GATCATGGCTCACTGCAACCTTGACCTCCTGGGCTCAAGTGATTCTCCCACCTCAGCCTCTCAAGTATCTGGGATCACAGTCAGGTGCTATCAAGCCTGG
CTAATGAAAGCAAAATTTTTGTCTGGGCACGGTGGCACATGCCCGTAATTCTAGCACTCTGGGAGGCCGAGGCAGGTGGCTCACCTGAGGTCAGGAGTTC
GCGACCAGCCTGACTACCATGGTGAAACCCTGTCTCTACTAAATACAAAAAAATTAGCTGGGTGTGGTGGCACATGTCTGTAATCCAAGCTATTTGGGAA
ACTGAGACAGGAGAATCACTTGTACCTGGGAGGCAGAGGTTGTAGAGAGCCGAGATTGCACCATTGCACTCCAGCCTGGGTAACAAGAGCAAAACTCCGT
CCCCCAAAAAAACAAAAAAAAAAATTATTAATCTGGGCACTGTAGCTCACGCCTGTAATCCCAGCACTTTGGAAGGCTGAGGCGGGTGGATCACTTGAGG
TCAGGAGTTCGAGACCAGCCTGGCTAACATGGTGAAACCCCACCCGTCTCTACTAAAAATACAAAAATTAGCCAGATGTGGGGGCAAACGGCTGTAATCC
AAGCTACTTGGGAGGCTCAGGCAGGAGGATCTCTTGAACCCGGGAGGCAGGGGTTGCAGTGAGCCAACATCGTGCCACTGCACTCTAGCCTAGGCAACAG
AGTAAGACTCTGTCTCAAAAAACAAACAAACAAACAACAAATTTTTTATTGGAGACTAGGTCTCACTATGTTGTCCAGGCTAGTATTGGACTCCAGAGCT
CAAGCAATCCTCCCACTTTGGC


SNP Information

Context             (SEQ ID NO:67208):
GCTGGGCATACACCCACGTCCTCTTTCTCTATCTCTTTGTCACAACTCCAATCTCGGCAGCCCTGAGAGCAGATGGCTTTGGAGACAATCCTTTCTATCA
Y
TGTTTGGTAGCAGAGATTCTTCCAGCGCCCGGGAAGCTACTGGGTAAGAGCACCTGGCCCTTAGAAGTCCACCTCTCCAGCCGGCCTCAGAGGTCTCCCC
Celera SNP ID:            hCV25968964
SNP Position Genomic:     6668
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,38)   total(C,72|T,2)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67209):
TTGAAAGAGGGAGTGAGAAAACCTTTTTCTTTTTTGACCCCAGAAAAGTTAGTGTTGTCTTCTCCCACAGGTGGCCTTGGATAAGGGCTGCTCCCAATTC
Y
GCCTGGCCGTCCTGGACTGGAACCAGAGGGCCATGGACTTGTACAAGGCCCTAGGAGCCCAAGATCTGACGGAAGCTGAGGGCTGGCACTTCTTCTGCTT
Celera SNP ID:            hCV3289985
SNP Position Genomic:     7270
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,23|T,1)   total(C,52|T,4)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;no_pop(T,-|C,-)   ;JBIC-allele(T,90|C,1385)   total(C,1385|T,90)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67210):
GCTGAGGCTGGGGTGGGAGCAAAGCACCCCACAGACCCCACTGTTATCCCCTGTCCCCAGAGCCCAGCCGGTGTCATTTTCTGATCCCCTTCAGCTCAAA
S
AATAGCTATTTTTTGCCTCTTTCTCTCCACAACAGGTCAAGGGATTGGTTCCAAAATAATCAAAAAGGTGGCTGAGGTGAGGAGATGGGTGGGGCGACAA
Celera SNP ID:            hCV8727474
SNP Position Genomic:     7025
SNP Source:               Applera
Population(Allele,Count): african american(C,26|G,4)   caucasian(C,9|G,5)   total(C,35|G,9)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   SC_12_A(G,7|C,8)   SC_12_C(C,9|G,15)   SC_12_AA(G,4|C,16)   SC_95_C(G,88|C,99)   total(G,114|C,132)   no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67211):
CTCTCTCAGGGCCCTGCGTGGTGGGCTATGGGATATACTATTTCATCTACAGTACATGGAAGGGACGCACCATTTATCTGGAGGATATCTATGTGATGCC
R
GAATATCGGGGTACTGGGCAGAAGCTGAGGCTGGGGTGGGAGCAAAGCACCCCACAGACCCCACTGTTATCCCCTGTCCCCAGAGCCCAGCCGGTGTCAT
Celera SNP ID:            hCV8727475
SNP Position Genomic:     6901
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,6|G,12)   total(A,12|G,44)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   SG_12_A(A,6|G,17)   SG_12_G(G,9|A,15)   SG_12_AA(A,3|G,18)   SG_95_G(A,81|G,96)   total(G,140|A,105)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Gene Number:                 435
Celera Gene:                 hCG43680 - 104000116756539
Gene Symbol:                 AIF1
Protein Name:                allograft inflammatory factor 1;AIF-1;Em:AF129756.17;IBA1;IRT-1
Celera Genomic Axis:         GA_x5YUV32W6W6(4639535..4653353)
Chromosome:                  Chr6
OMIM number:                 601833
OMIM Information:            ALLOGRAFT INFLAMMATORY FACTOR 1;AIF1


Genomic Sequence (SEQ ID NO:12595):
GAGGCTGAGATGGAAGGATTGCTTGAGCCCAAGAAGTTGAGGCTGCAGTGAGCTATGATGGTGCCACTGCACTCCAACCTGGATGACAGAACAAGAAACT
GTCTCAAAAAAAAAAAAATAAAAAAAAAAAAAAGGTCAGGCACGGTGGCTCAGGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGGATTACTTG
AGCCCAGGCAGTCAAGACCAGCCTGGGCAACACAAGGAGACCCTGTCTCTAAAAAAAATTTTAAAAATTAGCCAGGTGTGGTGGCACATGCCTGTAGTCC
CAGTTACTCAGGAGGCTGACAAGGGAGGATCGCTTGAGCCTGGGAGGTCAAAGCTGCAGTAGCCATGTTTGTGCCACTGCACTCCAGCCTGGATAACAGA
ACGAGACCCTGTCTCCCTGTCTCAAAATATTAATGTGTGTGTGCGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTGGTCTCCATCCTGGCTCCTGG
CCAGACCTCCTAAAGCCCTTGTAATTTCCTAAATGATAAAGTGAAGGGAGCTTTTGTTATTCATAACAAGCTCTTTTCAACCACAACTGAGTTTATGTTA
GTAAGTTGACTTTTAGAAAGCCCCTAAGGTTGGGGTTTGTTGCCAAGGTAGGCAACTGTGTGATTAGAGAGTTAGAACTTTTAGCTCCAACCCTCTGACC
TCCAACTAATGGCTATTGAATCAAGTATGCCTGCATAATGAAGCCTCCATAAAAAAAAACAAAAAAGATGAGGGTTGGAGAGCTGCCAGGTTGATGAACA
CATGGAGGTGCAGGGAGGTGCCCAGAGAGGACAAGAAAGCTCCAAATCCCCCTTCCCCGATACTTTGTCCGGAGCAACTCTTCCATCTGACTGTTCCTAA
GTTTTATCCTTCATAATAAACTAGCTAACATAAGTAAAGTGTTTACCTGAGTTCTGCGTGCTATTCCAGCGAATTACTGAGCCAGAAGAGGGAGTCATAA
AAACAGTTAGGAGGCCTGGACTTGTTTGTGATTGGTATCTGGAGTGGGGGCAGCCTTGTAGAACTGAGCCCTTCAACTTGGGGATTAGATAACTGGTAAT
TATGGGTAGAGTGTCAGAACTGAATTAAACTGCAGGACTCCCAGTTAATATCTACCAAGAACTGAAGAATTGATTGGTGTGGGAGAAGTCTCCACATGAT
TGGTGTAAGAAGTGGTGTTCTTGGCCAGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCCGATCATGAGGTCAGGAGATT
GAGACCATCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCGGGTGCCTGTAGTCCCAGCTACTCGGGA
GGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCAGAGACTGCACCACTGCACTCCAGCCTGGCCAACAGAGCAAGACTCCAT
CTCAAAACAAAATAAAACAAACAAACAAAAAAAACTGAGATTCTTTGCAAAGAGCCTGGAATAACTTCCTTTTAGTCCTGGACTATAATGATGATGATAA
ATATACCTCGATGTAACCCTGAGATCCCAAGATTCACTAGCCCTTGAATAAAAAAAAGGAAAAAGAAAAAAACAGTATATTTTTTCGTTTTGCAAATCAC
AGTTCCCTTATTAAGATGGAATTGCTGCCAATTACAGAGAAGCTATTTGCCTAAGCCAAAAATCCATGAGGTTCACATGGACTTATAGTTACACAAATTA
GAAACAAATGTTATATTTAAAACCATAGAGAAATGCCCAGGTGATGAAAGCTGGGGTGAAGGAGTCTGCACATTCATTTCAAACTGTTAAAGGATTTGTG
GGCCATGCAATGGTCCCTTGCATTAGAGAAGTCAAAGAGCTTTGTGCAATCCTCTCCTGTCTGTGATCTGGAAGACACGTGCTCATCACAGAGCTCCAGC
TGCTCCGAGACTTTACTCCTTTCTTCAGCTGCACGCACTGCTCTCTCGCTTTTGTTAGGAATTGACTAATTCCTCCTCTTCCTCTTCCTCCTCCTCCTTG
CCATCTCTAGGCCCAGTCAGCATCTCTTGTTCATCCTCTGATCCCATGTCCAGCTATGGTTCTGGATTCAACACTAGCAGCAACAGTGGCGCTGACTCCA
CTTTAGGATCAATAAATATTTTTCTGGCTAGGCGCAGTGGCTCACATCTATAATCTCAGTACTTTGGGAGGCCAAGGTGGGTGGATCACAAGGTCAAGAG
ATCGAGACCATCTTGGCCAACATGGTGAAACCTCGTCTCCACTAAAATTACAAAAATTAGTTGAACATGGTGGTGCGCACCTGTAGTCCCAGCTACTTGG
GAGGCTGAGGCAGGAGAGTCGCTTGAACCCAGGATGTGGAGGTTGAAGTGAGCCAAGATCGCGCCACTGCACTCCAGTCTAGCGACAGATGGAGACTCTG
TCTCAAAAAAAAAAAAATAAGTATTTTTCTTTCTAGCCGTATATCCACCTTACATGGTCCCTCAACTCCCCAAGCCCACTCTGCCTGCCCCATCTCCTCC
TTCCACATCCTCTCCTCAACCTAGCACTTGGTTGGCAATGCCTTCCTCGATCCTCTGCCAAAGACCCTCTAGCCAGTGCTTACCCTGTCTGTTCTCTCTC
TTTACCCAAAGAAATACATAAAGTTTGACCAGAATGGAAACAGAGATATCAGTGAAAAAAGGTGATTTGGGGAAGTGTGCAGGCCTAGGAAGACAGAGGC
TTGTTCCTTTGCTTGCTTAAAATCTTTGATCAAACGGCCAGGCGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGGCGAGGTGGGCGAATCATG
AGATCAGGAGTTCAAGACCAGCCTGGCCAACATAGTAAAACCCCGTCTCACTAAAAATACAAAAAATTAGCCAGCTGGGCGTGGTGGCAGGTGCCTGTAA
TCCCAGCTACTCTGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGTGGAGGTTGCAGTGAGTGGAGATTGCACCACTGCACTCTAGCCTGAGTGA
CAGAGTGAGACTCCATCTCAAAAAAAAGAAAAGAAATCTTTGCTCAAATATCACTTTTTCAGAGAACGCTTCTCTAACCACTCTATTTATTTTATTATTT
TATTGTATTTTTTGAGACAGGGTCTCACTCTGTTGCCCAGACTGGAGTGTAATGGCACGGTCATGGCTCACTGCAGCCTTGATCTCCTGGGCTCAAGCGA
TCCTCTCACTTCAGCCTCCCAAGTGGCTAGGACCACAGGCGTAAGCCACCGTGTCTGGCCAGACCACCATATTTAAAACTGGGGACAAGTCAGGCTCACA
CCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGAGGATCACAAGGTTAGGAGTTCAAGACCAGCCTGGCCAACTTGGTGAAACCCCATCTCTACTAAA
AATACAAAAATTAGCCGGGTATAGTGGTGATCGCCTGTAATCCCAGCTATTCGTTAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGC
AGTGAGCTGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGATTCTGTCTCAACAAAAAAAGCTGGGTGCAGTGGCTCACGCCTGTAATCCT
AGCACTTTGGGAGTCCGAGGTGGGTAGATCACCTAAGGTCAGGAGTTCAAGACCAGCCTGGTCAACATGGTGAAACCCCGCCTCTACAAAAATACAAAAA
TTAGCTAGGTATGATGGCAGGTGGCTGTAATCCCAGCTACTCGGAAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTACAGTGAGCTGA
GATCAAGCCATTGCACTCTAGCCTGGGCGACAGAGTGAGACTCCGTTTAAAAAAAAAACAAAAAACAAAAAACAAAAAACTGGGGACCATTGGCAATAAT
ACTCCTATGTCCCCTCTTCCCTACTTTGTTTTCCTCCATAGGCACCTGGCGCCTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTT
GCCCAGGCTGGAGTGCAATGGCGCGATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTTAAGCGATTCGCCTGCGTCAGCCTCCTGAGCAGCTGGGATT
ACAGGCACGCACCACCAGGCCCTGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTCCAACTCCTGACCTTGTGAT
CCGCCTGCCCCAGCCTCCCAAAGTGCTGTGATTACAGGCGTGAGCCACTGCGCCTGGCCACCTAGCACCTTTAATATACTTATTTATTTGTATTGTCTGC
CTTCCCCAATTAGATCAACCATGAAGACAAGAGTTTTCATTTGTTGGGTTCTCTGGGCCTAGAGGCATGTCTGGCATATAGTAAGCATTCAGTAAATATC
TGTTGAGTGAACGTATGAATAAAGAAGTGAGTTCCTCCCAGCAGGCACTGAGAACATTGGGAGTACAGGGTTGCAGCTCTCTCTGCAGCAGGAGAATGTA
GCTGCAATAAAGGGAAGTCAAGAAGCCAGAGTCCAGCCAGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACAA
GGTCAAGAGATAGAGACCATCCTGGCCAACATGGCGAAACCCCATCTGTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGGGCGCCTGTAGTCCCA
GCTACTCAGGAGGCTGAGGTAGGAGAATTGCTTGAACCCAGGAGGCAGTGGTTGCAGTGAGCCGAGATTGCACCATTGCACTCCCGCCTGGGCGACAGAG
CAAGACTCCGACTCAAAAAAAAAAAAAAAAGCAGCAGCAGCAGCCAGAGGCCACTCCAGCATCTCCCCTACCTGGCTTGGGTCAGGGAGAGGGCAGTGAG
AAGTGAAAACTCCCAGCTACAGAAAAGGAAATATGTTGGGGGGAAGGGAGAAGGAAAGGTGTCTTCATCAATGCCGGGGCAGGGTAGATGGAGCCCTGGG
CAGGGAGTTTGGACCAGGAAATCTCAATGAGGGAAATGTGCTGTCCTCACCTCTCCAAGAAGCGACTGGCCAAACAGAGTGACAGAGGGGATAAAGGTTA
TGCCTAGGGAGGCATGTGTCAGAGGCTATCATCCACTCTGTTGAACCCACAGTGACCAGCACCACCATCACACAAACATGCCTGCATGTGTGCACGCACG
CGCAGTGTGCAAACCTGATGTCAGCCTCACTCCCTGGCTCTTCTGTCCACAAACGCTGTTTCTTTAAGTACCACTTTCAGTTCCTCCAAAGAATCTACTT
AAACTCTTAAATTCCTGATCTCTATAGATTTTACTAAAGATTTCAAAGGAGATAAGATGAGAGGGTTACGTTGCACATTCTAAAGCAAACAAATTAAAAT
GTTTTGTTAGACATTTCCATATTTTTAAGGGCCTCCTTGGAGCTGCCAGGCTGGGAGTGAGGTTTCTCTCCCTTTCTAAACCCTGTGCCCATCTTGTCAC
CCTCCTGGAGCTGCCAGCAGACTTCAGATTCTTCTCCGATCTACAGAGCAGAAAAATTCAGCCAGCCCTTCCTTGTCTTCCTATCCACAGCTGCCTGCCC
AGACTCATGAAACCTGACAAAATGCAAGGTCTTATCATTACCTGAACCTTGGACCTGTTCAAAAATACTAGTTCCTGAGAATAAATATCCCTGGTGTCTT
CCTGCCCTTCCTGCACACCTCCAGTGGCTTATCAAAATATTTGTTTCATGCGCACACTGGGCTCTCATTTAAGAGGAATTTGGGAGAATGTTATTTTCTA
ATCTGCATTTCACACCAGGCTCCCCCTCCTTCCTGGGGTGCTAGTGTCAGCAGAACCTGATGGGGAAGTGAGGTCTGGGAGGCAGAGGAGGAAGGAATGA
GGGGAAAGGGGAAGTTTGGGAGGAAGGCTTCTGAGAAGACTGGTGGGAGAGAAGGAGAGCCTGCAGACAGAGGCCTCCAGCTTGGTCTGTCTCCCCACCT
CTACCAGCATCTGCTGAGCTATGAGCCAAACCAGGGATTTACAGGGTAGGGAGGGTGGGATAGGCAGCRGCATTAGATCRGAGGAATGAGATGGACAGAC
CTGGGCTGTGGGCTAGGAGGGCAGTCAGCTGGCCTAGGGTAGCCCGGGCTGGTGTCAGGGTAAGGAGAGGAAGGGAGGGATGAGGGCTGATTAATTTTTT
TCACCCCACAGGAGGAAAAGCTTTCRGACTGCTGAAGGCCCAGCAGGAAGAGAGGCTGGATGAGATCAACAAGGTAGAAGGAAGAACTAAGGGGGCAGAG
CCAGGGGGATGGGGCGTGGATGGGGAGGGCCTACCCTGGCTCTTATTTTCCCCTCCATAGCAATTCCTAGACGATCCCAAATATAGCAGTGATGAGGATC
TGCCCTCCAAACTGGAAGGCTTCAAAGGTGAGGGGGAAACTGTAGGCGGTGGAGACAGGGCTGGGGGTAGGAGGGTTAGGATTTCCACAAGAACAAGGCA
GGAACAGCAGAGATAAAAAGTTTACTTTTGTGGTAGCAAAAGGGGAACCTGCCTTTATTGCCCTCCTGCCACACTGCGGTCCCTTTCCCGGGCCTGCCTC
TCTCAGCATCCCCTCTAGCTCCTTACAMCCTAGCGGGGCCCCTCAACTCCCCAACCCCACTTCCTCTGCCTGCCCCTCCTCCTCCTTCCACGTTGTCTCC
TCCACCTAGCAGTTGGTTGGCAACCCCTTCCTCAGTCCCCKGCTGAAAACCCTCSAGTCAGCGCTTATCCCTTCTGCTCTCTCCCCTCACCCAGAGAAAT
ACATGGAGTTTGACCTTAATGGAAATGGCGATATTGGTGAGAAAYGGGTGATTTGCGGGGGCAGGGTGGTGTGCAGGCCTAAGAAGACAGAGGTCTCTCC
TACATGCTCCATTCCTCATGATTTGGGAGGGGGCCCACCTACCACAGTGGGAGGAAGGAGAATGGGGATGCGGAAGTGGGAGAGGAGAGAGAGGGTCTCC
CCACCTTCTCCCCATCCCCATCCTCTGCCCCCAGATATCATGTCCCTGAAACGAATGCTGGAGAAACTTGGAGTCCCCAAGACTCACCTAGAGCTAAAGA
AATTAATTGGAGAGGTGTCCAGTGGCTCCGGGGAGACGTTCAGCTACCCTGACTTTCTCAGGATGATGCTGGGCAAGAGATCTGCCATCCTAAAAATGTG
AGTGTCAATTTCCAACCTCCCCTGTACTTACCTGTTTTCTCCTCCCCCATCCCTACCCTTGTCCACAGGCTCAACATTTCTACACGTTGCCCATCATCCC
TTCTTCCATCCTTAGAGGGACCCTTCCAAGGTCCCGACCCCATCCCTATCCATAGTCCTGGTCCCCAGAAACTCCAACCCCTGCCCTTCCTCTTCCCCCT
TCCACCCTCACATCCCCATCCCCTTCTAGCCTTTCCTAGCACCCTATGATTTATTCCCTTGAGAGGAGTGTTCCCTGATCCCTGTGCCTCTTCCCATCTC
AACCAGGATCCTGATGTATGAGGAAAAAGCGAGAGAAAAGGAAAAGCCAACAGGCCCCCCAGCCAAGAAAGCTATCTCTGAGTTGCCCTGATTTGAAGGG
AAAAGGGATGATGGGATTGAAGGGGCTTCTAATGACCCAGATAYGGAAACAGAAGACAAAATTGTAAGCCAGAGTCAACAAATTAAATAAATTACCCCCT
CCTCCAGATCAAGTCAGCTTAGTTTTTATTTGGGTGATTTTTTTCCTGGGTTTGGGAAGGAGAGACAGGTCTTGAGGGAAAGGTGGCAAGGATTTGGCCA
TATGAACAATCCATCAACAACGCTATAGTGTGTCCACTACAGCAGATGGTTTCACGCACCAAGGGGGATTCCAGCTGTGTAAGACAGCCTTAACCTCAAA
GAATGCAGGCAGGACAAAAACACATGTCCAAACAAGGTACTCAGGCCCATGACAGATTTCATGAAGAGCAAGGAATACCATGAACCAACATTCTCCACCA
CTATAAGCTTTGTCACTTTGACAAATCACTCAGCCTCTGTGAGGCTTTTTTCTAAAAATGGGGATAAAGTGACCTATGCTATTGTGCCTGACATATCATA
AGCCCTCAATAATGTTTAAAACTTGAATGAGCCGGGGCCGATGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGATGGGGTGGGCAGATCACCTGAGGT
CAGGAGTTCGAGACCAGCCTGACGAACATGAAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCTGGTGTGGTGGCGCATGCCTGTAATCCCAGCTA
CTTGGGAAGCTGAGGCAGGAGAATCTCTTGAACCCAGGAGGTGGAGGTTGTGGTGATCCGAGATCGCATCATTGCACTCCAGCCTGGGCAACTAAAAAGC
GAACTCCGTCTCAAAAAAAAAAAAACCGAACATACAAACAAACAAAAAACACTTGAATGGGTAGATGAATGAAAGAACTGGTGCTATTAAATAAAGCAAA
GAATTTACAGCTGGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTCAGGAGGCCGAAGCGGGCAGATTACCTGAAATCAGGAGTTGGAGACCAGCCTG
GCCAACATGGTGAAACCCCATCTCTACTAAAATACAAAAAATTAGCTGGGCATGGTGGCAGGTGCCTGTAATCCCAGCTACTCGGGAGACTGAGGCAGGA
GAATCGCTTGAACCCGGGAGGTGGAGGTTGCGGTGAGCCGAGATCACGCCATGGCACTCCAGCCTGGGTGACAAGAGTGAGACTCTGTCTCAAAAAAAAA
AAAAAAAAAAAAAAAAGACTGGAAGGAGAAACTCATTGGAGACAATGACTATGGACATCCCTTTTAAGAATTTTGCTGCAAAGGGTAACAAAACGGTATG
TGTGGTAGCCGGCCGGGGAGAAGGGAGAAGAGAATCATTTTGGAAGTTTGAAAACAGAAGTCATCTTAAATCTTACTGAGCCTCTGACTAAAATTCTCAT
CTGATTTCTGCAAACTTTTCTGCCTTCACTTTTCATAATGAATAAGCCGCCTCCTTTATTTAGCCATATCAGCCTAGGCACAGGCCCCCAAACTCATGCC
TCCACTAATCTGTTCTCTGCACCTGAGATGTACACCTTCTTCTGAAACTTGGGTAAGTTCTAACTCGTTCTTCATATCTATTTATTTATATATTTTTGAC
AGATATCTACTCCGATCATTCTTCATATCATTTTTTTTTTTTTTTCCTGAGATGGAGTCTCATGTTGGCCAGGCTGGTCTCCAACTCCTGACCTCAGGTG
ACCCACCCACCTTGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCTCCCGCTCCCGGCCCTTTTTTTCTTCTTTTTCTTTTTTTTTTTTTTT
TGAGACGTAGTCTCACTCTGTCGCTAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCCGTCTCCCAGGTTCAAGCGATTCTCCTGCCTCA
GCCTCCCAAGTAGCTGAGACTACAGGCACGCGCCACCAGTCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTTGCCATGTTGGCCAGGATGGTCT
CCATTTCTTGACCTTGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCCAGGACTACAGGCATAAGCCACCACGCCCGGCCTCATATCTCTTAATAAGAGTT
TTTCTAGAAACATTTCTCAATCACCCCAGGCATAATCATATTTTATTTCTCTACTTCTTTCTTTTTTTTTTTTTTTTGAGATAGAGTTTCGCTCTTGTTG
CCCAGGCTGGAGTGCAATGGCACGATCTTGGCTCACCACAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCCGACTCAGCCTCCCGAGTAGCTGGGATCA
TAGGCATGCGCCACCACGCCTGGGTAATTGTATTTTTAGTAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCGTGACCTCAGGTGATCC
GCCCGCCTGAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCATCCTTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGTAGTCTTGC
TCTGTCACCCAGGCTGGAGTGCAACCTCCGCCTCCCTGGTTCAAGGAATTCTCTGCCTCAGCTTCCCGAGTAGTTGGGATTACAGGCGCCCGCCACCACG
TAGGGCAAATTTTTGTATTTTTAGTAGAAATGGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCCTGATCTCGTGATCCACCTGCCTAGGCCTCCC
AAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCAGGCCTTATTTCTCTACTTCTATAATATCCTGTGCATTATCTCCAGCGCCTTCAAATCATAGTCA
TTGAATGATCTGTTGAATGGGTATAACTCTGATGGGAGCAGAGAGTTCTAGAATCGGGTAGTAAGAGACAAAGGAGGGTAACAGTACTGCATTTCACAAA
ATGAAACCCATTGTTAAGAAATTACAAATTCCCAATAATTTCAAATATAAAAATTTATTCATGAAAATTATAGGTTATAAAATTAAATGTCCGTCTTAGT
CGATGGTTGCCCATATTTTGATGAACGAGTCATTCCTAGCCTATCTTTGTTCAAATGATTTGCATACATTATGCAAATAGGTAGAACTGCCCGAAGAATG
CCTACGCTGCGTGGTGCGGACGAAACGCTTCCCGGGGCCTTTGGATTGGTCTGTCTAGCCACCTCATTTGCATGACGTAATATAATAACTGGAAGGCCCC
GCCCCTCTGGTGCATTTCCCCGCTCCAACCACCTCCTCAAACTCACGGCAAAGGGATGCGAGAGCTGGAACTCTTACCAGGCCTGCGGAAACTCAGCCCT
CCGGCAGCTAATCCCGCCCGCCAGCCCCCGTCCTCTCTCTCTTTCTCCCTAGCTGAAGGCGCCACGGGCCGTGTGTCGTTGCCTTCCACTTTTGGCGTCC
CAACGTCTCTCCGCTCCCATCTTTCTACTAACGTCCGACGCACGCTCCGCCTCTTTCTCCCACATTCGTCGTGTAAATTCTGCGTCCCAACCGCCCAGCC
GACCTGCACCGCATTCCCGCCCCCTCAACACGGCTCAACGGCCGACGCTGGGGGCCCGCCTCCTTAGCCAATCGGGGTCCTAGTGCCCTTAAGTCCCTCC
TCTTTATGCAAATAACCTCCGCATGCTCCGCGCGCCCGGCCCTTTTTTTTTTTTTTTTAAACTAAAGACAGCCCTGGAAGTAGAGGGTTAGGGTAGAAAG
TGCCCCGCCCTTTATGCAAATTAAGGGGCGTGTCTAGGCGCGGAGGGAGGTGGGAGGTGGGAGGGGGTGCTCCCGGGGGCGGCGGTTGCCCGGATGGGCC
GTTAGTCGGGGCTCAGCCGCGGAGTGAGCGAGGGAGACGGGAGGAGCCGAACCCGGCGCCATCCGCCGCCATCCTCCCCCGCCCCACCGCCATCCCGTCC
CGGGGAGCCCCTAGGCCCGGGTCCCGGATCCCCGCGCACCCGGCCAGGTGAGTCTGGGTGAACCGTGCGCTGACGCCCTTTTCCGGCGCGGGAGAGGTGG
TGGCGGTGGCGGTGGCGGCGGCGGCGGCGGTGGTGGGCCGGGGGGAGGAGAAGCTGCCATTAGCCGCCGCCATTTTGTCCTCCTGCTGCCGGGCCTGCTT
GCCCCTCCCCCTCCGGTACCTCTACTCCGGGACCCGCACCTCCGGCAGTTCATTCAGGATCCGTAGTCTGCCCCTAACCACCCACCGTCTTGGCTTCAGG
GGGTGACCCCTGCGCCTGGGTCCGTAACTCCCTACCCTCCGCTGCGCTCCTGGCTTTTCACCCCCATTTGTGGGCCCCCTCCCCGGCTGCCGCCCCGTGG
TGGGCCGCGCCCGACGGTTCTCTCGGAAGGGCGCTTTTCCTCCATATTGGACCCCCTCCTATCATCCAGCGCTGTGTTCCCCCCTCTGGACGCCCCTCTT
CGTGTCGAGCCACTCCCACTCTAGAATCCTGCTTTTATCCCAGCATCTTTGCTTTCTATGTTGCTCAGTCGCCCTATGTCTGCTTTTTCATTTTTCCTGT
TCCTCGTCTCCTTTCTCCCCCAACCCCGTTTTTCTTCTTGGGCCTCTGCCCCCTTACTTCGTTGTCTACATCCTTTTTTTTTTTGCCATTCCTGTTTCCA
TATATTTTCCACCTGCTTTCGTATTCATTATTTTCTGTTAGTTTTGGTCTATTCGCTACATGACTCTTGTATTCGTTTTCCCTTCATATATTTATCTTCA
CAGATTGGCCTCCTCAAACACCTACGAAGCAACATCCATCTTATCTCTAGCTTGTCATAAAGTTCTTTCTCCCCAATTTTAGCTTTCATTCTGGGCCTGT
CTGGATTTCCCTGCTTTCTTCCCCACTATTTCTCATCTCTTTACACTGTTCCCGTCCATAAACGAATGCCTGGTCACTCTGGAATGGACTGAGAGACCTG
TCGTCCGGCTTGCTTAGGGAGCTGGAGGTATCGAGTAAAGAAACACTGGTGATGGACATTTTTAATGAGGATAGGAAAACGAAGATGGCTCTGGCCTTGG
CCCTCTGTTTTCTGGCCCATGGTTACAGGGTGCTAAGGTGGCTCCATAATGCTTTTTCTCAGTTCTTCATATGGTAAAACAGTATTTCATCTGGAGGCGA
TTTTTTCCAGGAGCCAATACAGGAGCAAGTTTAGGAAAAGATGGGATATTTCAAATACTTGAGGTTCCTATAGCCTGGGAGTATGTACAGCCCTAGTTGT
TCTATGAGGATTTCTCTGGTACCAACCCCCATTCCGGCTGAGCAAGCTCATAAAATCCTTAAACTCCCAGCATACCTTCCTGCAAACCTTCCCAGATGGA
CACGAGGCTGCTGGGCTGGGAGCCTGGGGTACAGGGCCCTGGGGGCATGATTAGGGAGCTTGTGTCCAATAAACAGGGAATCTAAAGTGTTGTTTCTTCT
TCTCTGATGGAATTGTATGCTTCTTTTTTAGTTTTCTCTTGCTTGAATTTGTCCTGTTGTAAGTCTCTGAAACGATTTTGGTGGAGAGAGAAGAGATTAT
TACTTGTAGGGAATTACTCTTTGTAGACAGGCACAAAGGGCAGAGTGTTTATACTAGGAGGATGCTGGATTTTTACTTAGATTTCCTTGACAAAGGTGTC
TGGGGGAAAGGAGGGAACATGGCATTTGAGCTATGAGGGAGCTAAGTAGATCATGGTTGCTTAAGAAGAGTGGGCAGTTTACATAGACTGGAGGAAAAGA
CACCAGAGGGCCTCATATCTGAGTCCCTAATGATAATGCAATGGAGTTTTTAAGTTTCTGTTATGGTCTGTACAGGGGACAGAGACTGAGACACTTGCTG
TCTGGCCCACAGGCTCTGGCACGTTTTGGGGGAGGTGCCTGCAGGACCCAACATACTCAATGAGCTTCCAGCGCAATGTCCGATCGCTCGGGGCCGACTG
CCAAGGGAAAGGATGGAAAGAAGTATTCCTCGCTCAACCTGTTTGATACGTATAAGGGCAAGTCCTTAGAGATCCAGAAACCCGCTGGTGAGAGTCCTGC
AAAGATGCTTCTGATGGTTGAAAGCTAGGCATGCATGGGGCATACGTTTTAGAGCTCTTTAAAGGGAAGTGGCTGTAGTAGAAATACCAAAAGACTAGAG
GAGATTTCCCAACTTTAC


SNP Information

Context             (SEQ ID NO:67212):
GAAAACCCTCCAGTCAGCGCTTATCCCTTCTGCTCTCTCCCCTCACCCAGAGAAATACATGGAGTTTGACCTTAATGGAAATGGCGATATTGGTGAGAAA
Y
GGGTGATTTGCGGGGGCAGGGTGGTGTGCAGGCCTAAGAAGACAGAGGTCTCTCCTACATGCTCCATTCCTCATGATTTGGGAGGGGGCCCACCTACCAC
Celera SNP ID:            hCV15876778
SNP Position Genomic:     6945
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,35|T,5)   total(C,69|T,7)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,382|C,1103)   total(C,1103|T,382)no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67213):
CCTCAACTCCCCAACCCCACTTCCTCTGCCTGCCCCTCCTCCTCCTTCCACGTTGTCTCCTCCACCTAGCAGTTGGTTGGCAACCCCTTCCTCAGTCCCC
K
GCTGAAAACCCTCCAGTCAGCGCTTATCCCTTCTGCTCTCTCCCCTCACCCAGAGAAATACATGGAGTTTGACCTTAATGGAAATGGCGATATTGGTGAG
Celera SNP ID:            hCV3274002
SNP Position Genomic:     6841
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,30)   caucasian(G,11|T,25)   total(G,17|T,55)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,2)      total(G,1|T,2) ;JBIC-allele(T,633|G,862)   total(G,862|T,633)   (G,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:67214):
GCTTGGTCTGTCTCCCCACCTCTACCAGCATCTGCTGAGCTATGAGCCAAACCAGGGATTTACAGGGTAGGGAGGGTGGGATAGGCAGCGGCATTAGATC
R
GAGGAATGAGATGGACAGACCTGGGCTGTGGGCTAGGAGGGCAGTCAGCTGGCCTAGGGTAGCCCGGGCTGGTGTCAGGGTAAGGAGAGGAAGGGAGGGA
Celera SNP ID:            hCV25630726
SNP Position Genomic:     6180
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,17)   caucasian(A,1|G,17)   total(A,2|G,34)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67215):
CCCCACTTCCTCTGCCTGCCCCTCCTCCTCCTTCCACGTTGTCTCCTCCACCTAGCAGTTGGTTGGCAACCCCTTCCTCAGTCCCCTGCTGAAAACCCTC
S
AGTCAGCGCTTATCCCTTCTGCTCTCTCCCCTCACCCAGAGAAATACATGGAGTTTGACCTTAATGGAAATGGCGATATTGGTGAGAAACGGGTGATTTG
Celera SNP ID:            hCV25630727
SNP Position Genomic:     6855
SNP Source:               Applera
Population(Allele,Count): african american(C,34|G,2)   caucasian(C,37|G,1)   total(C,71|G,3)
SNP Type:                 UTR 5


Context             (SEQ ID NO:67216):
AAGCCAACAGGCCCCCCAGCCAAGAAAGCTATCTCTGAGTTGCCCTGATTTGAAGGGAAAAGGGATGATGGGATTGAAGGGGCTTCTAATGACCCAGATA
Y
GGAAACAGAAGACAAAATTGTAAGCCAGAGTCAACAAATTAAATAAATTACCCCCTCCTCCAGATCAAGTCAGCTTAGTTTTTATTTGGGTGATTTTTTT
Celera SNP ID:            hCV25630728
SNP Position Genomic:     7744
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,36)   total(C,2|T,70)
SNP Type:                 UTR 3


Context             (SEQ ID NO:67217):
CAGCTGGCCTAGGGTAGCCCGGGCTGGTGTCAGGGTAAGGAGAGGAAGGGAGGGATGAGGGCTGATTAATTTTTTTCACCCCACAGGAGGAAAAGCTTTC
R
GACTGCTGAAGGCCCAGCAGGAAGAGAGGCTGGATGAGATCAACAAGGTAGAAGGAAGAACTAAGGGGGCAGAGCCAGGGGGATGGGGCGTGGATGGGGA
Celera SNP ID:            hCV16286882
SNP Position Genomic:     6326
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:67218):
TTGTGGTAGCAAAAGGGGAACCTGCCTTTATTGCCCTCCTGCCACACTGCGGTCCCTTTCCCGGGCCTGCCTCTCTCAGCATCCCCTCTAGCTCCTTACA
M
CCTAGCGGGGCCCCTCAACTCCCCAACCCCACTTCCTCTGCCTGCCCCTCCTCCTCCTTCCACGTTGTCTCCTCCACCTAGCAGTTGGTTGGCAACCCCT
Celera SNP ID:            hCV16286883
SNP Position Genomic:     6728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:67219):
AGAGGCCTCCAGCTTGGTCTGTCTCCCCACCTCTACCAGCATCTGCTGAGCTATGAGCCAAACCAGGGATTTACAGGGTAGGGAGGGTGGGATAGGCAGC
R
GCATTAGATCGGAGGAATGAGATGGACAGACCTGGGCTGTGGGCTAGGAGGGCAGTCAGCTGGCCTAGGGTAGCCCGGGCTGGTGTCAGGGTAAGGAGAG
Celera SNP ID:            hCV26778738
SNP Position Genomic:     6169
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Gene Number:                 436
Celera Gene:                 hCG43690 - 104000116756770
Gene Symbol:                 APOM
Protein Name:                apolipoprotein M;ApoM;G3a;HSPC336;MGC:22400;NG20;apoM
Celera Genomic Axis:         GA_x5YUV32W6W6(4676735..4694532)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12596):
AGCAGCACCCAGAACCTCGTAGTAGCGCTGCAAGAAGGGCTGGAGGCGACTCTCCAGCCGCTGTAGCTCCTGGAGCACCTCGACATACTCCGCAGGGGAA
GGATGGCTGTGGACAAACCCAAGGGGCAATGAGCCAAAGCCTTCCTCAGATTCCCACCCTCACAGTCAACAGGGACCACATGTGCCCTCTTTCTCCCTGG
TCTCCCAGAGCCCTGGCCCAATCCTTCTCTGGACCAGCAGAGCTTCTATTCTCTTCAACCTCCGCCTCCCAGGTTCAAACGATTCTCCTGCCTCTGCCTC
CCAAGTAGCTGGGATTAAGTTGCCTGCCACCACACCCGGCTAATTTTTGTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTATCACCCAG
GCTGGAGTGCAGTGGTGCGACCTCAGCTCACTGCAAGCTCCGTCTCCTGGGTTCACACCATTCTCCTGACTCAGCCTCCCGAGTAGCTGGGACTACAGGT
GCCCGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATGTTAGCCAGGATAGTCTCGATCTCTTGACCTCATGATCCACC
CGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCGGCCTGTATTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGG
TCTCGAACTCCTGACCTCAGGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACTGCACCCAGCCAAAGCTTCTATTCTTT
ACTCCCACCCATGAGAGGATAGGGAGAAGAAAATGAACTGCTCCCACCCTCCCCACCACAATCCTGCACCTACAATGGTGAAAGACTAATTCTAAGAAAG
AGAGCAGGCCTTCGTGAACTCAGAGGAGAATTCCGATCAGGCTCAGGAGATACCATTTGGATTTCCTTGCCATAGGGAGAGCAGCAGTTCTTCTCAGCTG
CCTGTCCTAGCGTCATTTACCTATACCGAGAGAGCCCCTCCTCGCCCCTCAATGCTAACCCTTCAACTAAGACCTCCAAGTAATCCTTTCCCTCCCTTGC
CATGGTTCATTTCCTTCTCCCCATACTTCACTTAGGATTCCCCACCCACTAAAGATTCCCTCCATCTCTCACTTGGGTGCATTTGTTTCCGGGGCAGGTG
TTGGGCCCGCTGGGGCTGGGCCAGGAGTGAGCTCCGGGTTCTGGGCTGGGGCACGCTCCTCCACTTCTTCTGCCTCCATGGGCTCCCGGGGAGGTGCTTC
ACTTTCAACTGGTTCTGATGTTTGAGAGCTCAAGGCTACTGGCTCCGGGGTCACAGCCGGTGGCTGCGGGGGCGGCTGACTGTGCTGCGGTTGGGGCCCT
CCTCGACACTGAAGGTAGGGGAGAGTCAGGATACCAAAGGCAGGGTAAGACTGCTGCAGAGGATTACTCTACAGGAGACTGAACAGAGAAAGTATCCTAA
CTAGACTCCCTGAAGGCATGGCTCTGCAATTTTATCTCCGACTCGCTAGCAACTAGCATAAGACTGACACAAATTAGATGCATAATAAGCATCTGTAATT
TTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGTAACCTCCGCCTCCCAGGTTCAAGA
AATTCTCTTGCCTCAGCCTTCTAAGTAGCCAGGCCTACAGGCGCGTGCCACCACACCCAACTAATTTTTGTACTTGTAGTAGAGACAGGGTTTCACCATG
TTGGCCAGGCTGGATTGGAACTCCTGACCACACGTTATCCCCCTGCCATGGCGACCCAAAGTGCTGGGATTACAGGCAGGAGCCACCACACCCGGCCACA
GCATCTGTAATATTTGTAAATAAATTTCTAACAAAGAGTAGAGATTGTGGTTTCCTTTCCTCCACAAGTTGGTTTCCCAGCCTCCACAAGTTAAGAGAGT
AGAATCCTTTAATTGAAAAGAGATGCCATGAGACTAAGTCTGAAACAAACTCCCCAGATACCAGGCACCAAGAGGATTGGCAGAAATGAGAGAGCCTCAC
AAAGATACTTTTTCTGCCCAAAAGAATGAATACTGCAGAGAAGACTAGATTATGAAGGCCAAACCCTGTGGATGTGGCCAGTGAAGCCCTAACTCCCAGG
CTGAGAGAAAAGGGAGAGGGAGGGTGGAGAGAGACCCTAGCCAGCCTTGCCCACTTACCTCCATCCGGGATAGTAAGGTCTGTATATCCCTGATCATGTG
CTGAGCCATCACCAGCCGTACCCGGGGCTCACTCTACAATGAGAGAAGGTTTATCAGGGTAGGTTACAGATGAAGCCATGAGTTCTACCACCTACTAAAT
CAGGTCCCAGCCATCTCTCAGCCAGGTCCACCCCACCTCCCAGCCTCCTTCTCCCAGATCCCCTTCCCTGACCCTCGGAGGCCCCTCAATACCTGAATCG
GGGCCTGTTCCATGTTGATGTGAACATCCACAGCAGAGCCGTCACTCTGGGGAAAGGGTAAGGGAAGTTGTTCTGGGAGAAGCCAACACTAAGGCCTCCA
CACCTCCAATTCATTCCCTGGAGCCCTACCTCCTTTTCTCCTTAAAGACTGAGACCAATAGCACACCACAGGGCCCCCTGAACCCAATCTAAAGATGGAA
GCATCTATCTTATTAATTCCCTGGTGCTACCACAACCAAAGCTACCCACAAAAGCCCTCCCCTGTGGAACATAAGCTTACAGGAAGATTGAAGGTTCCAA
CCATGACATAGCTGTTGGCATTCCGGTCATGAACAGAGGCCCCAGGCCCCCGAGTACCAGGGGGGGATCCCCCACCATGAGTGGCTGAGGCAGACCCCGT
CCCAGAAGATGCCCCAGAAGGGAGGTGAGTCTGAGGAGGAGCCCGTTCCACCAGGTGGATAACCTTTCCCCCAACATCTGCAGAAAAATAGACACACACC
AAAACATAGTATGAACAGGTAAACCCATGGCCTCAGTTCATCCCTCCAGACAGTAGCCCCAACCTCTGAACTGCCTCCCCAGCCCCCTTACTGTATTCCT
GAAGCTTCTTATCATCTTGCAGAACTCGTCCCTGGTAAATGAGCCGTTGTTTTTCAGATGGGATGCTGACAGAGGCAGCAATGTGCTCCTTAAACTCTTT
TACATTCATCTGAAAAGAAGAGGCATGCACAGGAATGGAAAGAATGGAGGAAAGAGGAAGAACAAAGACAGACAACCGAGTTGTGGAGGTGAGGGGTAAA
AACCACCACAGAATCACTACCCGTTTGTCTTGACCGTGAGATCATTACTGTGCAAACCCTTAAACTAAAGTAACAGCTGTCAAAATACAGACAATAAATT
TGGCTTGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACATTAGGTCAGGAGTTCGAGACCAGCCTGGCCAACA
TGGTAAAACCCCTTTTTTACCAAAAATACAAAAAAATAAGCCAGGCATGGTGGTCGCCTGTAATCCCAGCTACTAGGGAGGCTGAAGCAAGAGAATCACT
TGAATTCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCATCACTACACTCTAGCCTGGGTGACAGAGAGGGACTCCATCTCAAAAAATTAAATAAATAA
ACTTAATGAAGCTCAGGTTATAGATCCAGGAAAAATAACACGGATGAAAAACAAAAAAAAAACACATGGACATTATATTATCTGTCTGGCATCCAAGGGA
GTATGTGTCTAGAGACATCAGTGACCCCTTTCCAAACACAAGATGATACCAGTTTATTTACCAGACTCTCCTGTGATTTCCAAGATTAAAAAATGGCAAA
GAAGATGGGGTCTGGTATCAGGTTAATGAAGAAAGACTAAGAAGATAAGAAAGCAAAAAAGGTCCCAGCACAGTGGCTCACACCTGTAATCCCAGCACTT
TGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACACGGTAAAACCCTGTCTCTACTAAAAATACAAAAATTAGCC
GGGCGTGGTAGTAGGCGTCGTCTGTAATCCCAGATACTCAGGAGGCTGAGGCAGGAAAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGAT
TGCGCCCCAGCCCTCCATCCTGGGCAACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAGCAAAAAGAGAAATATTTTTCCTAACTACAAACTGAC
TCTTGGGAAGTACCAGAGTATTTATATACATCTAATCACAAGTCTATATATGGCTTTCTTATATCCAGGTAATATCACATTTTAGAAAACCATGGACCAC
CCCACATGCAATTTGTCTCCAAGTATTACAGGAGTAAAGACACAGATAGCTATGTCCAAGGCTTTAAGCTCAAGAGACTCAAGCTATGCCATAAAAATTA
GTAATTTCACTCAACAGTCTATCAAGGACCTATCTCCATTATGGGTTCTGATTTCTACCCTTTAAAAACACAGCATAGACCTGACCAATGTCTATCAGTA
AGACACACTTGCTTAGGGTTCCTGTGCTGTTTCCCTTCCCAAAGGCCAGAGCCATGCCTGTCCCTTTGGGTTGGGGTCCACCCATGATGATGACACACAG
ATTCTTCCTTCCTCTGTATTTCCCTCTGCATTAAGTTCTATCCATGTGGAGGACAGAACAAAATCAGCCTCACTCACAAAACATCAGAAAACGTTCTACT
GGAATACGAACAAAGGGATCAATAAAAAGAAAATCTGAGGCCAGGTGCGGTGGCTCATGCCTGTAATACCAGCACTTTGGGAGGCCGAGGAGGGCACATC
ACCTGAGGTAAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATCAGCTGGGTATAGTGGCACACGCCTATA
ATCCCAGCTACTCAGGAGGCTGAGATAGGAAAATCGCTTGAACCCAAGAGGTGGAAGTTTCAGTGAGTCGAGATCGCGCCACTGCACTCCAGCCTGGAAG
ACAGGGCGTGACTCCATCTCAAAAAAAAGAAAAAAAAAGAAAATCTGGTGACCAGAAAATCAAGCTCATCTCTCAGGCTAAGGGGCCTAAACGAGGAAAA
GCTAAAGGTGTCTTCCAGAACTAGTGAGGTGTCTCACCTGGGCCCCCACAATAAAGGTACGAGTTTGAGAGTCCAAGGTCTTCACCAACACCTCCAAGCT
GTCAGGCTCCTCCACAGCGGTACTGGTACTATCATTAGGCTCCATGGCCGACAGGTCTCTAAAGAAGAACGAAGGAAGGAAGGCCCGCTGTTGCCCAGAC
CAGAGTGTACCCGAAAGACTCCCTAGCATTAATCCCTGCCCCAATACCTAAAAAGTTTCTCCTGCACACACACACATTCACACCTGTCCCCATCCCCCTT
CTGATTCCGGGGCACAGGGAGAGAAACACAAAGGGCAGGAGATCGACGGCTTAGGGAGCTGGAGGACGAGAGGTGGGAGGGGCTCCACGACGCCAATCAC
AATAAGCAGGGAGCCAGTCAGATTAGGAAGGAAGCACGAGACCAGAGACTAGTGTCATCACCGGTCACGGCAGGACAAGCGCCCCAGAGGTCGGAAAATC
CTGGGACAACGCGAAAGCGGTGGTCGCCCCACACTCTGCGGAGAAAGTGGTTTCGCGCACGCGCGCCACGCCCATCGAACCCTCCTAACTCACTATAGAC
CCGAAACGGCACTCACGGGGCGACAGACCTGCTAGCTGACTGCCCGCGTCTACTGCCTTCCCACGGTGTTCCAGCAGAACGGCACAACTAACCCACAGCC
AAACACACACACACACACACACACACACACACACACACACACACCCACCACCCCGCGGCTCCGCCCCCGACTTCCCCACGGACCGTCACTTCCGGTCTCC
CCCAAACCTGCCACCGACGGCCACTTCCGTTTCCCCGATAGTATTTGGGGATCTCGAAGCGATACTTCCGGCTCCCCCCAGGTCCCCAAGCTTTACTTTT
GTGGGGCACGACGAGAAAGTCCGCAGCCCCAAACAGTGAGTTTCTGAGGGCGAGTCGGGCCGGGGCCGGCCTAKGTGGGAGGGAGCCGAGCACCCCGAGG
AGCCGCCACCGCTGTCGCCCGGGGGACCGTACTACGCCTGCGTGCGTCGCACTACGGATGCGTGGACACTTAAGCATCGCCCCACCCCCTCCCCCCTCTG
GCGGCGTTCACGTCTGTGCGCGCGCTTGAGCGCTAGAAGATTGAGGTGGCTACCGTAAATGCCTGAAAAACAGTCACCAGCTGGGACTCTACCACTGCCT
CGAGAGGGGCTATGGACGGTCGTATGGACCTTGGACTTTGGAGATGGGGGATTATGCCACATTCATCTATGTTTAAATCTTGGCAGGCTGATAATTTCAG
GCGGCACTGTCCTAGCCAGCTAAAACTCTTCTCCACCCTATTGCCCTCGCTGCGCCCTTTCTTCTGTGCCTCCGGAAGTTACTCTTTCAGTAGGCGTTTG
GGGGCGGCACTGGTCAATTTTGTTCTCGGTTGCTTGGTTGGGCTAGATTTCGGTTCTGCCGGGTGGGCGTTTTAAGGGCTGTGGGCGTCACATTCGTCGG
TGTGTGGCCAAGGGGACATGACACGTTTTAGGAAAAGTAAACGTGCTACTAAGTTGCACGACTTGTCAAGAAAAGAGGCGCTTCCGAGTTTGAGAATTGG
GAGCAAATGGAGTCCGAGTGGACAGAAAGACAAGACCCTGACCGTGGGGAATTTAAAGGCCGGCCAGCGTGCTTCCGAAGGCCGGGGGTGGAGGCATTAC
CKCCTCTCCGTGCCCTCTTCTCTTAACCTGCCCTGGGCCAAGGGCCTCGGCCCCGCGAAACTGCGAGTCCTCCAGAAAGACACATCGCTGTTGGGGTGTC
CAACCTTTCTGGGATTCGTAGTTTATACCCAGGTCCTGGTTATATTTTAGTTAAGAGTTCTAATAAGCAGCTGTTTAATGAGCACTTGTGCCAGCCCATA
TACTACGGGTTTTGTGTATTATTTTAAAAAGCCTTTTAACGAGCTTTTAACATTTTTTAAGTGAGTACACTTAGACGAACATAAGTGTCAGAATTGACAA
ATCCAGGCCTACAGGACTCCAGATCGAGCACTTGTACTTTACTGCCCCAATAAAAAGCTGTTAACATTTTAGCTTATTTTTTTGAGAGAGGGTCTCGCTT
TGTCGCCCAGGCTGGAGTGCAGTGGCGCAATCACAACTCACTGTAGCCTCTGCCTCCCGAGCCCAACCGATCTTCCCACCTCAGCCTCCCTAGTAGGGAC
CACAGATGCACACCACCACACCTGGCTAATTTTATTTTTATAGAGATGGGGTCTTGCTATGTTGCCCAGCCTGGTCTTGCAGACTTGGCCTCCCAAAGTG
CTGGGATTATAGGTGTGAGCTACTGTGCCTAACCACATTTTAGCTTTTTATTACAAAAATTTTCGGCCGGGCGCAGTGACTCACACTTGGGAGGATGAGG
CGGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAAATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCTGGCGTGGTGGCGGG
CGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGAGAATTGCTTTGAACCCGGGAGGTGGAGATTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAG
CTTGGGCAACAGAACGAGACTCCCATCTCAAAAAAAAAAAAAAAAAAATKCAAACATTACACCAAAATAGAACAGTATTAATAAACTCTAATATACTGGT
CACCCAAATTTTGTTTGTTTTTTAACTAAATCGCAAGCCTCAGCCCTCGGCAAATTTTTTGTGGCAGTCCATGGGATATAAATTTATCAAGCTAGGTGTG
GTGGCTCATGCCTGTAATCCCAACACTTTAGGAGGCTAAGGTGGGCCGACTGCTTGAGCTCAGGAGTTTAATACCAGCCTGGGGCAACATGGTGAAACTC
CGTGTCTACAAAAAATTAGCTAGGCGTGATGGCGTGCACCTATACCTCCTACTCGGGAATCATCTGAGCCGGGGAAGTCAAAGTCATGCCTGGGCGACAG
AGTGAGACCCTGTCTTAAAAATAAATAAGTAAATAAATAATCTATCGAGGAAGATCCATCTCTCACAGCATTAACTGCTCCAGTCACTTGGTGCTATCCA
AGGACAACCTATTTGGCAATTCTTACTGCCTATTATTTGAGAACTTATTACCCACCAGAAACTAAGTGCTTTGCAAACATTACTATTAATTATAGCAAAT
ATATACTTTGGAMTTACCATGTGCAAGTCTTTGCTAAGGGCTTTATGTGCATTATTTCATTTAATCCTRTAAGATTGATGATTTGCCAATTTTACAGATG
AAAAAACAGACATAGCAGTTAGGGGTTGGTGGTGTTTTGTTTGTTTGGAGACAGAGTCTCTGTCGCCCAAGCTGGAGTGCAGTGGCACAATCAGGGCTCA
TTGCAGCCTCGACATCCCAGGCTCAAGCAATCCTCCCTCCTCAGCCTCCCTAGTAGCTGGGACTACAGGCGTGTGCCACCACATCGGCTAATTTTTGTAY
TTTTTGTAGAGACAGAGTTTTGCCATGTAGCCCAGGCTGGTTTTGAACTCCTGGGCTCAAGCCATCCGCCCACCTTGGCCTCTCAAAGTGCTGAGATTAC
AGGCATGAGCTACCTGCCCTGCCTGTAGTTAGGGTTTGGACACATTCTGCCTGACACCAACATCTATCCTCTCTAACAGCCAGATTACATAGCCTCTTTG
TAGTAATAAATGTTGAGTGAATGTGTCAGTGAACACTGCCAGGGTATACATATTTTTCTAATTGTAAACTAAAGAGAGCAATCCACCGTGCCCCAGCACC
TGCATCATACCTGTTCTAAAGCATTTACCAAGTTGTATTGCAATGGTTTGTCTACACAGCTAGTTTTCCCTCTAACGACTTCTTCAAGATCAGGGGCTAT
GTCTTATTCGTTTTTTTATGTCCCCGGGGATTAGCTAGTTCTTGGGAAACAACTGGGACTTGGGATTCAAAACAGTTTGCTAAGTGAATGAATGAGAGGC
CCAGTCAAGCTACTTCCCTTCAGTGCTGCACAGTGCAACAAATAACCAGCTCAGATACAGGTTCAAAGACCACAGGCTTCTCCCTGGACAGCTCAGCTCT
CCTCATAACTCCTGAGAAACCCTGGACATGCCAGGGTGTACTATGGAGTGGTTGCATCCGGAAGAGGGGGAGGAAGTCCCAAACACTAAGTAATCCAGGT
TTGGGTTGGAAAACAAGGTTGAAGTTACTCATTAGCAGGTGAAAGGGTCAAGGGTCGAACGCAAGGGAGCTGAAAGCAGAGTGGACTGAGCAGCCAGTAG
GGGAGAGAGCAGTTAAGGCACACAGAGCACCAGCTCCCTCCTGCCTGAAGATGTTCCACCAAATTTGGGCAGCTCTGCTCTACTTCTATGGTATTATCCT
TAACTCCATCTACCAGTGCCCTGAGCACAGTCAACTGACAACTCTGGGCGTGGATGGGAAGGAGGTATGGACTGAGATTRGGGGAAGCCTATGGTGGAGG
CTCTGAGGGACTTGGGTGGATGGCCTAGGATGACTGGAGACCATCTTGGGAAAGGAAGAGAGGAAGGGGGTGTGAGTGTTGTGATAATGAAAGCAAGAAG
AAAAATATCAGTACTGTGGCCATCAATGCAGAGGCATGGCAGAATTGGGGGGTGGGGTGGTTACCCAGGTTGACTGGGGAGGGGCAAAGAGGAAAAGTCA
TTTAATGACTCTTTGTCATGGATCCAATCCCCAGTTGGAAAGAGGAAGGCAGCCAACACCTCTACCCCTAAATCTTGCTGTTTTGACTGATGAAGAGGTT
GAACCCATCCTGTGCTGGAACCCACCCTCTTTTGCTCCCTTCATTGTCTCTCCAGTTCCCAGAGGTCCACTTGGGCCAGTGGTACTTTATCGCAGGGGCA
GCTCCCACCAAGGAGGAGTTGGCAACTTTTGACCCTGTGGACAACATTGTCTTCAATATGGCTGCTGGCTCTGCCCCGATGCAGCTCCACCTTCGTGCTA
CCATCCGCATGTGAGTGGTAAGGAGGCAGAAGCATCACTGGGTTCAGTCTCTGCCCAAAGTGTGAGAATCCACCCACCAAGAGCTGGCCTCTTAGCTGGT
ATATCTACTATGCTTGGCCCACGGAATTCAGTGGCTGTATTAATTGCCCTCTGGAGAAAGATGTGCCTAACCAATGCTTGGTAGCTTGAAACCCAAGGAG
AGCTGGGCTTCAATAACAAATACAATGGAGTAAATAGAAGCCGGGACAGGCCAGACGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGG
CGGACAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATATAAAAAACTAGCTGGGCATGGTGGTGG
GCACCTGTAGTCCCAGCTACTCACGAGGTTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGCRGTGAGCCGAGATGGCGCCACTGCACTCCA
GCCTGGGCAACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAGAAGCTGGGACACTATGGTTGGGGTGATGCTCATTCTTTCCTCCTTGCCACCACCAC
CTCTGCAGGAAAGAYGGGCTCTGTGTGCCCCGGAAATGGATCTACCACCTGACTGAAGGGAGCACAGATCTCAGAACTGAAGGTTGGTTCTTCCCAGCCC
TCACCCTCCCTTGAGTTTGGTTCTGCATCTCTGTTCTCATACTTCTCCCACCTGCCTTGACAGGCCGCCCTGACATGAAGACTGAGCTCTTTTCCAGCTC
ATGCCCAGGTGGAATCATGCTGAATGAGACAGGCCAGGGTTACCAGCGCTTTCTCCTCTACAGTGAGTAGGGATACAAGGCAGGAAGGGTTGGAGGGAAA
CAAGGGAGGGCAGGAGAACTMCTCACTCTGGGTCCTATGAYACCCTCCCAGGAAGAGCTAGGTGCTTCCAGGGGTTTTGACTGGCCTGACCCCACCTTGC
CCTTCCAGATCGCTCACCACATCCTCCCGAAAAGTGTGTGGAGGAATTCAAGTCCCTGACTTCCTGCCTGGACTCCAAAGCCTTCTTATTGACTCCTAGG
AATCAAGGTAAGGKGTTAAAATCTCATAAAACAGGATTAGGACTCACMAAGTCTTCTGGTGTTACAGGGTGAAAGAGGCTCGTGTGATGTCACCAGAGGG
ATGTGGCTAAGAGCTGTGATGTCACCTGAGGGAGGCAGGATGGGTTCTGGGCTACTCAAAAGAGAGGTTTCTGAGTTTGCACTGGATAAAGGGGGCAGAG
GGTCATACGTGGAGGGAAAAGAGCCTTAGAGACTCCCCTTTGACACAGGGAATGAAAGAACACGTTCTCCCCCACCCCATTACTATCAACTTTGCTTTTC
TCCCTGGACTTCCCTTCTGTCCTTCTTTTTCCCTCCCCCCATCACAGAGGCCTGTGAGCTGTCCAATAACTGACCTGTAACTTCATCTAAGTCCCCAGAT
GGGTACAATGGGAGCTGAGTTGTTGGAGGGAGAAGCTGGAGACTTCCAGCTCCAGCTCCCACTCAAGATAATAAAGATAATTTTTCAATCCTCATCTCAT
TCTGGGGTTTGTCTCCAGACGTCATTCCCACTCCTCCCATTTCAACATTCCCCCTGGATCCTCTACCACCTAAACTCCCAGCTGGACGGTGTCAGTAAGA
ACAGAGTGGCAGTAACTCTCACTTTGTAGTGGTATATTTAGGATTTGATGTGACACAGTTATTTATTGCTGAGTGAGCAAACCCCTAGCCCCCAAGTGGG
GACTACAGGCTTCAGTGCTTCCCCCACACTGCCTGAGCTACCAGCCCTTCTGCACTGGCCCTCCTGCCAATACTGCCTGCACTGTCCCCACTCCCTCTGG
CTCCCATGATCACCAGATCCGCCCTGCAGGCTCCCTGTCACCTGTGGGGCCCTATCCAGACCCCCTAATCCACTTGCCTAGCAGCCCCACTCTTCCCTCG
ATGGCTCAGATCCTGAGATCCAAGGAACACCCTGGGTTTCCCAACCACTCTCTTACTGCAGAGGTCTGTCTATCCTGCCCTGGTCTCCTCCACCCCAGGA
GAGTTTTCAAAGGTAGAGAGGACCCTTTGGTCTTTATTCACCACCATCATACTTTTTTTTTTTTTTGCTTTTAAAAAGTGGAGGTGGAAAAAAAAAAAAA
ACTGAAGGTGGGAGAAAAGTAAAAGCAAAAATAACAGCTGGTGAATCCAAGAGCAGTGCCCTCACTGTCCATAAACACAAACACCCTAAATAGTTCTGTT
CTCTCCTGTGTATGAAGGGGGGCCCTGCACCCTCGTACTCGGGTTTCTTCCCCATCCCTGAGGTCCCTATGCTTACAATTTGGGTCATGCCTCACACTTT
TCTCCTAAAGCCCACACTCTCTTCACCCTTTGCCCCCACCCCACGGTCACAGCCCCTTTCCCGGGTCTCCCCTCTGCTCCTCACCTTCCCTCTCCAACCC
CTCACTCTCCCAGTCAGTGGCCGCCTCATCCCCATTGGGCTCCCGGAGGCTGACAGCCAGCACCAAGGCCTGCAGGAGACCAAAGAGGCAGGCGAAGTGC
AAAGGGTGGGCAGTAAGTAGGCTCAGAACAGCATGGAGCCCATGCAGGGCAGCCAGGAAGGACAGTAGGCCATGTAGCCAGAGGCCCAGCGGTCCACGCA
GGCCCAGTGTGTCCAAGGCTGCCCGCAGTGGTCGTGAGCACAGGGCCAGCAGGGCAGAGGCCAGCAGCTCCAGAAGATGCAGGGTCAGGTTGGTGGAGAT
CTGCAGACACTCTTCTGGGCCCCCCAAGTACCGGGAGGGAGCTCCTGGTTCCCCCCGCAGCCAGCCCAACAGCTTCTCACGCCTACCAGGTTTCTCCAAT
GGGGCTCCTGGCCCAGGGACGCTCAGTCCCCCTTCAGGGGACACCCCTGGTCTCCTGGTGCCACCTGAATCCACATGATCCCATCTGAGTTTGGGACTGG
CCCCTCCAGCCTCCAGTCTCCCAGACTCTTGAGTGCTAGAGATAGGCTGGTCCCACTTGAGGGAATCCATTCTTTTGCTCCCTAGCTGCTCAACTTGGGG
CTCCTCCTTGCTTGGTTCGGAAGCAGCCCTAGAAACCCTCAATGCCCCCGAGTCCTTAGTCTTGGGATGCCCCACATCTTCCATGGTTTCTGGGGCACTA
TCCCAGTCACTTCCTGAATTCTCCGAGGAGCTGTCCACCCGTCTGGGTTCTGGGTAAGGCGGGTCAGGCCTCATTGGTTTCCGGCGGCCCCAAGGGCGAG
GTAGCCAGCCACCAAGCCGTCGCAGGAACATGGCTGGGGTGTGTAATGGGCCCCCAAATTCTGAGGCTGCTTCCTGGCACTACTCAGACTCTCAGGATCT
CCTCAGAAGCCAGAGTCTTTCTGGCTCAGAACAGGTATTTGCCTGGTGATGCAGTCCTACTCTGAATTCAGAAGTGGCTCCTCCCTTCTCTGAATAGTCA
TGCAGCCTCAAGTGTGGCAAGTAGTTTGCTTCCTCTTCAGTTCTGGGGTAAAGGGGGGCATACCCAAATTCATTCACCATCCACACCCCCACAATCTGAG
ATTCCAAGAATCTCAGATCTGACAAGGCCTGGGTCACCACCAGAGAGTCCTCTCTGCGTTTCCGGATTTCCTTCCCAGCAGGCAGCACCCCAAGTTTCAC
TCACCAAGGCCACACCCCAAGGTGTCCCAGAAACTGGGGAGGCAGTGCTCCATCCAATAAAGCGGGCAGGAAGGTGGCCCCAGGTCCTAGGTGCTCCTGG
ATCGTGTAGTCTTTAACTGCTGCCCCAAGGGACCTCAAGGAATAGGAATTCTCTTTGTTAGGAGGTGGAATGAAAGTGTCCAGCAAACTCCAGCCAGCAG
CGTTCGTCCCTTGATTTAGAGGGCTATGATTTCTACAAAGTGGCCCGACTGGCCCGCGAACACGCAGCAGAGACGCGGCCTCCACAAGGTCAGAACTAAG
ATGTCCTCAGAGATCCCCAGTTACGAAGCAAAGCGCGGGCCTACTTCGGGACCTACGCGTCCGGGCGCTGTGCGCGGGGACCGCTCCCGGGCCCAGCGTC
GGGGCCGCGGCCTTGGGGAGCCGCCGGGAGCCGCGAAGCCCGGAAGCAGCTGCACCAGGACTGGAAGGACCCGCGGGGGCGGTGCCGCAGCTCATGGGGC
GGACCCTGCGAATAGACCGCCCCCGTATACCCCGCGCTGTCTGTGCGCGCCGGACCGCCAAACCGAGATTAGCAAGGACCAGGACCTTAATATAAACCCA
GCTCCCCATTTTCCCGGGTTTCTCATGCTTCCCTAAACTCGGTCGCCCCCTACAGCCCCCTGCCCCTGGGTTCTTTTCCACATCCCCCACCACTCCTCCA
TTTCGCATCCAAGACTTCATGAAAGGCTTTCCCAGAAAAGAAAAAATGAGGAGTCTTGCGACTTGAACAGCCCTCCCCTGCCCGTCTGCAAATTTGAATT
CCTGGATTTCACAACAGTGAGCTCTTCTTGTGCCTACCACCCGGCATGAGCAAGACAAGGGGGTGGGTGGTGGGAGAGTGGGGAAGTGTGGGAAAGAAAA
GTGTAGACAAATGGGTGGAACAAAGAAGTTTAAAGTTTAGATTTGGGGGCTAGAGTTCTGGTCCCAGTTCAACTAAGTGTACAAGCTTGATAATCGTGGG
CCTTCCTATCACACTGGCCTCTTCCAGCAAAACCCTACCCATTCTCATCTCTAGAGGCCTTGACTTCCCTTATCACCCTGCATTATAATATTTGATAACA
TGGGCCGGGAGTGGTGGCTCATGCCTGCAACCCCAGCACTTTGGGAAGCCGAGGCCGGCGGATCACCTGAGGTCGGGAGTTCAAGACCAGCTTGGCCAAC
ATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCTGGGCGTGGTGGGGCATGCCTGTAATCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATCCC
TTGAACTCGGGGGGCAGAGGTTGTGGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGGGCAATGAGAGCGAAACTGCATCTCAAAAAAAAAAGAAAAA
AATTGATAACATGGCACTTTCCCTCTCCAGCTGTGAACTCTTTGAGGGTTGGGAATGTCTTTACCTGTATTCTTGGCACATAGTATATGGACTTATGTTT
GTGAAATCAGTGAATTGGCTGTAGTCAGGGAACTCCTCCTGGGGGAAGTGAGACTTGCACGAAGCTGGGCAATTCTTGGTCCAGGGGGGTTGAAAGAATA
GGTGGGGGACTCCCAGGAGGGTCTGGGACCTGAAAGTGAACCCAGATTGGCAGGGAGGTGACCTTATCATGCCACCTGGAGAGGCTGCCCCTTCTGACTC
AGGTGGGACTTGCATGTGGCTCCCAGGCTTCTGTTTGGCTTCCTCAAAATAGCTTCCAGAAAAGTGAATAAACCACAAATGGTTGATTTATTTCTGACTC
TCAGCCCGTCTCTCACGAAGACAGAGCCTATTGACCAAAAACTTCAGGATCTGCATCTGAGCAGATCCCAGGAAGGGGAAGTCAAAGGGCCCAGGTCAGA
GGCCCAAGTTCAGACTTCAGCAGCAGACTAGGGTCAGACTTTACCAAAGTCAGAACTCGAGGTTCATGTAAGTCCTTAGATCCCGCTCCCAAGCCCTGTC
TTTCTCCTCCCTCCTTCTCTCCTCCCTCCAGCTCAGTGTGGCCACCCGAGGGGGTCTCTCCCTCCCAGCCACAGCTCGGGTATCCCAAGCTGGGAAATGT
GTCACTCGGGGCTGGGGTGCTGATCTGTAGCCTAGTCCTTCCTGGTCCCTCTTGAGGACAGTGGGGATGGGATTGGCACGGCCCTCACCCCGGGGTCCCA
GCCCCATTCCTGGCTCCCAGCCCCCCCTCAGCAGCAGTTTGAAGCCCGGGCTGGAGATGGGCACCCCAAGTGGAAGGTTGGGAGGCTGAGGACCCTGCGA
CAGTGACAGCAGGTGAGCAGTGGATGTGCGGTGGTTGGAATCTTGGAAGTGGGTGTCACAGTTCTCGCAGTACTGGAGGGAGGGAGTAGGAGACCTGCAG
AGAAAGAAGAAAAAGCATTAAGGGCAGGGGAAGGAAAAGGGGAAGAGTTGAGGCCTCAGAGGGGGCTGGCAGGGTAGAATAGGATCTTTTCAGCTTTTCT
GCTAAGGAACAAATTGCCAGCTAGGCATAGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCAGAGGCGGGCAGATGGCTTTGAGCTCAGGAGTTTG
AGACCAGCCTGGGCAAAATGGCAACGCCTGCTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGCTGCCCAGGTTGGAGTGCAGTGCCATGATCC
TGGCTCACTGCAACTTCCACCTTAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCCGGGATTACAGGCACATGCCACCATGTCCCGGCAAAGCCTGCTTT
CTACAAAAAATATGCTTGAGCCCAGGAAGCGGAGGTTGCAGTGAGCTGAAATCACACCATTGCACACCAGCCTGGGCGACAGAGTGAGATGAGTGAGACT
TTGTCTCAAAAAAAAAAAAAAAAAAAAAAGGGACAAATTGCCTTCCTTCCTACTTAACAGTGAGGGATCCAGGCTGGTCCAAAGGTGGTGGTGAGTTATC
TGAATTAATTGTTCACTCAGTTACAGATCAAACTCCTTACTCCACTTTTCCCCTCCTTCTCACTACTGCACTTGACTTGTCTTAAAAACAAATTTCTTTA
AACCATTGTGGGATCCAGAGCAGAATAGTTGAAAGAAAAAAATGGTAACCAGACCTAGCAAACTCTTGGGCAAGGGGAGGGACATTAGTCATAATGACTA
TAGCTAACATTCATGTATTGCATACTATGCGGCATGCACTATTCTAGCATTTTACATATATTAACCCATTGAATCCTAACAACAATTCTTACTACCCCCA
TTTCTAAGATGAGAAAACTGGAACATGTAGACATTAGGTTGTTTGCCCAAGTAAGTGGAATCAGGCTTTAAATCCAGGGAGCTCATGTTTATAACCACTT
GACTATACTACCCTGTCAACCTACACATGAGGATAAGGAAAGAACTCTTCAGCACTGTGCTGGGGCGTCTGGTGTGGTGTGGCTGGGAGAGGCAGAACAC
AATGAGACATGGGTCTGAGCTAAAGTTTCCCCTTACCGGTTTTCCGGGCTCCTTGTCTCTCCATGGCTCTCCCTGACCATGCGGGCTACCTCAGGGAAGC
CAGCTTCTTCAGCGAGCTGAGCCGCATCCCTGCCACTCAGCTCACAGACCCCCACCCAGGCAGCCCCACGGCCCAGGAGATAGCTCACAGCTGCCCCCTG
GCCCGCTCGAGCAGCACACATCAGTGGGGTCCACCAGAAGGCATCCCGGGCGTTGATATTCCCCCCAGCTCCTCCTGCCTCATGCGGTTCCAGCAGTCTC
CTAAGTTCTGGCAGGTCCCCCTCCTGGGCTGCCCTCAGTATCCGGTGAGTCATCTTATCCTCAGCCTCAAGGGATCTCCCTTGTCCATGTCTTCCTG


SNP Information

Context             (SEQ ID NO:67220):
CCCCCCAGGTCCCCAAGCTTTACTTTTGTGGGGCACGACGAGAAAGTCCGCAGCCCCAAACAGTGAGTTTCTGAGGGCGAGTCGGGCCGGGGCCGGCCTA
K
GTGGGAGGGAGCCGAGCACCCCGAGGAGCCGCCACCGCTGTCGCCCGGGGGACCGTACTACGCCTGCGTGCGTCGCACTACGGATGCGTGGACACTTAAG
Celera SNP ID:            hCV26778784
SNP Position Genomic:     6174
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67221):
CACCCCGAGGAGCCGCCACCGCTGTCGCCCGGGGGACCGTACTACGCCTGCGTGCGTCGCACTACGGATGCGTGGACACTTAAGCATCGCCCCACCCCCT
C
CCCCCTCTGGCGGCGTTCACGTCTGTGCGCGCGCTTGAGCGCTAGAAGATTGAGGTGGCTACCGTAAATGCCTGAAAAACAGTCACCAGCTGGGACTCTA
Celera SNP ID:            hCV26778785
SNP Position Genomic:     6291
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67222):
CTTTGCAAACATTACTATTAATTATAGCAAATATATACTTTGGACTTACCATGTGCAAGTCTTTGCTAAGGGCTTTATGTGCATTATTTCATTTAATCCT
R
TAAGATTGATGATTTGCCAATTTTACAGATGAAAAAACAGACATAGCAGTTAGGGGTTGGTGGTGTTTTGTTTGTTTGGAGACAGAGTCTCTGTCGCCCA
Celera SNP ID:            hCV27898011
SNP Position Genomic:     8469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67223):
ATTGCAGCCTCGACATCCCAGGCTCAAGCAATCCTCCCTCCTCAGCCTCCCTAGTAGCTGGGACTACAGGCGTGTGCCACCACATCGGCTAATTTTTGTA
Y
TTTTTGTAGAGACAGAGTTTTGCCATGTAGCCCAGGCTGGTTTTGAACTCCTGGGCTCAAGCCATCCGCCCACCTTGGCCTCTCAAAGTGCTGAGATTAC
Celera SNP ID:            hCV7514752
SNP Position Genomic:     8700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67224):
CTACTTCTATGGTATTATCCTTAACTCCATCTACCAGTGCCCTGAGCACAGTCAACTGACAACTCTGGGCGTGGATGGGAAGGAGGTATGGACTGAGATT
R
GGGGAAGCCTATGGTGGAGGCTCTGAGGGACTTGGGTGGATGGCCTAGGATGACTGGAGACCATCTTGGGAAAGGAAGAGAGGAAGGGGGTGTGAGTGTT
Celera SNP ID:            hCV7514753
SNP Position Genomic:     9680
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(A,2|G,34)   total(A,4|G,66)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): SG_12_A(A,4|G,19)   SG_12_AA(A,3|G,21)   total(G,40|A,7)   (A,-|G,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67225):
ATATAAAAAACTAGCTGGGCATGGTGGTGGGCACCTGTAGTCCCAGCTACTCACGAGGTTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGCTTGC
R
GTGAGCCGAGATGGCGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAGAAGCTGGGACACTATGGTTGGGGTGAT
Celera SNP ID:            hCV25957506
SNP Position Genomic:     10671
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,2)   caucasian(A,35|G,5)   total(A,63|G,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:67226):
AGCAAATGGAGTCCGAGTGGACAGAAAGACAAGACCCTGACCGTGGGGAATTTAAAGGCCGGCCAGCGTGCTTCCGAAGGCCGGGGGTGGAGGCATTACC
K
CCTCTCCGTGCCCTCTTCTCTTAACCTGCCCTGGGCCAAGGGCCTCGGCCCCGCGAAACTGCGAGTCCTCCAGAAAGACACATCGCTGTTGGGGTGTCCA
Celera SNP ID:            hCV7514746
SNP Position Genomic:     6902
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,108|G,1373)   total(G,1373|T,108)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67227):
TCAAGTCCCTGACTTCCTGCCTGGACTCCAAAGCCTTCTTATTGACTCCTAGGAATCAAGGTAAGGGGTTAAAATCTCATAAAACAGGATTAGGACTCAC
M
AAGTCTTCTGGTGTTACAGGGTGAAAGAGGCTCGTGTGATGTCACCAGAGGGATGTGGCTAAGAGCTGTGATGTCACCTGAGGGAGGCAGGATGGGTTCT
Celera SNP ID:            hCV7514754
SNP Position Genomic:     11348
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,25)   caucasian(A,1|C,31)   total(A,6|C,56)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   JBIC-allele(A,110|C,1389)   total(A,110|C,1389) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67228):
ACCCGGGAGGTGGAGATTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCTTGGGCAACAGAACGAGACTCCCATCTCAAAAAAAAAAAAAAAAAAAT
K
CAAACATTACACCAAAATAGAACAGTATTAATAAACTCTAATATACTGGTCACCCAAATTTTGTTTGTTTTTTAACTAAATCGCAAGCCTCAGCCCTCGG
Celera SNP ID:            hCV7514747
SNP Position Genomic:     7850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67229):
TTGGCAATTCTTACTGCCTATTATTTGAGAACTTATTACCCACCAGAAACTAAGTGCTTTGCAAACATTACTATTAATTATAGCAAATATATACTTTGGA
M
TTACCATGTGCAAGTCTTTGCTAAGGGCTTTATGTGCATTATTTCATTTAATCCTATAAGATTGATGATTTGCCAATTTTACAGATGAAAAAACAGACAT
Celera SNP ID:            hCV7514748
SNP Position Genomic:     8413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67230):
TACCAGCGCTTTCTCCTCTACAGTGAGTAGGGATACAAGGCAGGAAGGGTTGGAGGGAAACAAGGGAGGGCAGGAGAACTCCTCACTCTGGGTCCTATGA
Y
ACCCTCCCAGGAAGAGCTAGGTGCTTCCAGGGGTTTTGACTGGCCTGACCCCACCTTGCCCTTCCAGATCGCTCACCACATCCTCCCGAAAAGTGTGTGG
Celera SNP ID:            hCV16179348
SNP Position Genomic:     11141
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,12|C,1475)   total(C,1475|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67231):
TCACCACATCCTCCCGAAAAGTGTGTGGAGGAATTCAAGTCCCTGACTTCCTGCCTGGACTCCAAAGCCTTCTTATTGACTCCTAGGAATCAAGGTAAGG
K
GTTAAAATCTCATAAAACAGGATTAGGACTCACCAAGTCTTCTGGTGTTACAGGGTGAAAGAGGCTCGTGTGATGTCACCAGAGGGATGTGGCTAAGAGC
Celera SNP ID:            hCV3233738
SNP Position Genomic:     11314
SNP Source:               Applera
Population(Allele,Count): african american(G,22|T,8)   caucasian(G,36|T,2)   total(G,58|T,10)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,9)      total(G,9|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67232):
GTGAGACTCTGTCTCAAAAAAAAAAAAAAGAAGCTGGGACACTATGGTTGGGGTGATGCTCATTCTTTCCTCCTTGCCACCACCACCTCTGCAGGAAAGA
Y
GGGCTCTGTGTGCCCCGGAAATGGATCTACCACCTGACTGAAGGGAGCACAGATCTCAGAACTGAAGGTTGGTTCTTCCCAGCCCTCACCCTCCCTTGAG
Celera SNP ID:            hCV25958714
SNP Position Genomic:     10815
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,19)   caucasian(T,38)   total(C,1|T,57)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67233):
TGAATGAGACAGGCCAGGGTTACCAGCGCTTTCTCCTCTACAGTGAGTAGGGATACAAGGCAGGAAGGGTTGGAGGGAAACAAGGGAGGGCAGGAGAACT
M
CTCACTCTGGGTCCTATGACACCCTCCCAGGAAGAGCTAGGTGCTTCCAGGGGTTTTGACTGGCCTGACCCCACCTTGCCCTTCCAGATCGCTCACCACA
Celera SNP ID:            hCV25972268
SNP Position Genomic:     11121
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,31)   caucasian(C,34)   total(A,1|C,65)
SNP Type:                 INTRON


Gene Number:                 437
Celera Gene:                 hCG91959 - 30000061117478
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VY4T(1996723..2009493)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:12597):
ACACTGCTGCTGGGAGTGCACATCAGTACAGCCATTATGAAAAACACTATGGATGTTCTTCAAAATATTCAAAATAGAACAACAATGCAATCCAGCAATC
TCATTTCTGGGTATAAATCCAAAGGCAATCCAATCAGTATGTTTAAGAGACATCTAGGCCAGGTGTGGTAGTTCATGCCTATAATCCCAGCACTCTGAGA
AGCTGAGATGGGAAGATCGCTTGAGACCAGGAGTTAGAGACCAGCTTGGACAAAACAGCGGGACCATGTCTCTACTTAAAAAAACAAAAAACAAAAAACT
TAGGAACTTCTGCCCCCTCATGATCACTGCAGTATTATTCACAACGGCCAAGATATAGAAACAACCAAAGTGCCCATCCAGGAATGAATATGTAAAGAAA
ATGTGTGTGTATATATATTTATGTATGTGTATATATATATATATATATATACAGAGTGTGTGTGTGTATATTTATATAATGGAATATTATTCAACCATAA
AAAAGAAAATCCTGCCGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCATGAGGTCAGGAGATTGAGACCATCC
TGGCTAACACAGTGAAACCCCGTCTGTACTAAAAAAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGTGCCTATAGTCCCAGCTACTCAAGAGGCTG
AGGCAGGAGAATGGTGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCACACCACTGCACTCTAGCCTGGGCGACAGAGCGAGCGAGACTCTGTC
TCAAAAATAAAAAATAAAAATAAAAATAAATAAAATCCTGCTATTTCCAACAACATGGATGAATCTGGAGGACATTATGCTGGGCGATATAAGACTGACA
CACAAAGACAACTACTGTATGTTCTCACAAGTAGAATCTAAAAAAGTCCAATTCATAGTAATAAGGCGGAACAGTTGTTACCACAGGATGCTGGGTGGGG
AAAGTGGAGAAATGTTGGTCAAAGGGTACAAATTCTCAGTTATAAAATGAAGAAGTTCTGAGGAATCTAATGTACTTCGTGGTGAGTTTACCGCACTGGA
CGCTTTAACAGTTTGGAAAGTTTTTGAAAAATCTAATAAATTATGGGGTAAAAGTTAAAAAAAGGCAATATTGAGAAATTAATGACATCAGCTGATTACA
GGATGACATCAAATCTTATTTCAGAAGTTAGTAATTATAGAAGAAACTGAATAAACTAAAATTTAAATCAAGCTTCCAAAATAACAATGAATTAACTGTA
AAGCAACTACAAGGAAAAAAGTAAATCCATTAACAAAACAAAAAACCAACACTCTCAACTCTCCTTCAAAGACATACATTGTAGGCCTGTAGAGGTGGTT
CACACATGTAATCCCAGCACCTTCAGGGGCTGAGGAGGATGGAGTGCAGCTGAGAGGCTGCAGTGAGCCGATATAATTTTACCGCACTCCAGCCTGGGCG
ACAGAGACCCTGTCTCAAAAAGAGAAAAAACAAACAAAAAACCAAAGATACATCTTGTAGTGACAGTCAGTCATTTCTTGCCTATTTCTCTCCTCCTCCA
TCCTCTACTCCCTCCCTGGAAAGAAGAGTTACAAAATGACTGAATCAAGTCACTGCCCTGTGGCTAAATAGGGATTCCAAATATCTTTTGATATAAACAA
ATACAAAATGCACAAGCCTTGTAGAAAAGAGTGGTAATTTTCATCCTCATGAGTACAATTTAAAGAAACAAATTTTAAATTAGAGTATAAAGTCACAAAT
CAATACATTAAAACCACCATCCATATCCAATCAACTCACAGCTCATCTGGGTGGGGTCCTCGCCCACTCTCTTCACTACTATGTGTTTCCCGCTCTCATT
CTGCACGTCTTTTTTCCCTTTGCTGTTTTTCTCCCCTTTCTTTATTCCCTCTTTTATGTCTATTCTGCCCAATGCTTCGAAATTTATTTCACCTCTTGTT
GCTCTTTCTCCCCAAACTTTCCCATTGTCCCCAGCCGCCACGTATTCCTGCCTCTTTTCCCCCATCTGAGCTCCCTGTCTGCTCTCCCTGTTAAAATCCC
TCTTCCCTGTTAAATTCCCTTTTCCCTGTTACATCTCCTTTGTTCCCACTCTCTAGCACCCCCAACTTCCTAGGCTTCCTCCTTGCTGTGGTTCTCCCTC
TACTCTCCTTTGTTACCCACTCCCCTCTCCTTCAGTCCCAGCACCACGTGGCTCTGTCAGCCGCGGCTCCGACTCTTACCTTTTCCGCCCCCCGCGTCTG
ACTGCAGTGCCTCCTCCTTTGCCGCCCCTCTCTATTTTGCTGCCCTTCAGCTCCCTGAAGCTCTCCCTTTTCCCTAATTTCTTTATGTGCTTTTCTCCCC
GTGCTACTTTCTCCATGCGTCCTCTTGCACTCTTGCTCTCTTTGCCAGTACCTAAATTATCATCCATTTTGCCGTGTACTCATTCTTTTCTCCCCAGTTT
TTCTTTCTGTCCCGTCGCTCCCCCTCTTTTCCTCTCCTGATCCCTCTCACCCACACATTCAGGAGGAAAGGGGAGGAATACGATGCCCACCTCCCGGAAG
AGCACATTTTCCAGTGGAGTAAAAATTTGGGAAGGAACGACAGTGGGTGTCACAAGACAGACTCGGGTGACCTCCTGCAACGCGGAGTCAGGAAAAGCAG
TGGCTGTGAAGGGGCAGCCTGGGGAGGGGAAGGACCCGGCGTGAGGAGGACACTAGGTGGCGCGCGGAGGACACTAGGTGGCGCGGGGGACGGTGTCTCA
GGACAGGGAGGGTCTGCAGAATCCCAGGACCTGGGAGAAGAAGCGGCTCCTTCAGGAGCTGGGCAGCGGGCGCTCCCCTCCAGGCGTCGACAAGGGCGAA
GCTCGGGGGTCTCGACTGGTGGGAATCCACCTCGCGAGGGAGGACTTGACTTCGCCCGGGGCCGAAGCAGGGGTCAATGAGAGTTTTAAGCAGGAACACG
ACCTGAATGGGGTTATCGACATGGTTATCTACATGGCAGAAAGGCAGGGGGCAAGGAACAGCCTGAGAGAGATTTTAAACCGACAGGGAAGCAATTCTCG
GACTTACGTGGGGAGAAGTGCCTGTTGCAGGGGCGAAGGGGCTATGGGTATTTTAAGGTCCGTAGCGATCCCCAGATCACTGGTACGGAGAAGTGAGGAC
TGCAAAGTGCACGTTTAATCCAGGCAGACGGAGCGAAGTAATGTTTAATCCACGTAGACTGAAACACACACACAGCGATAAGGCCTTTCCCTGGCGCAAT
CTGCTTCCGGGAGTGACGGAAACTGCTAGCGGAGAGAAAAAACTGGGAGGCCAGGGGGCGGGGCCTGGGCGAGCCGCGACCAGCAAGGGGCGGGTCGGAA
AGAGGGGCCTGACTCGGGGAGGGACCCTGAGAGGGTGGAGCCGGGCCGGAGCGGCAGTGGGCGTGGCTAGGTGGGGCGGGACGGAGCCGCGGCGGAGGAT
GGGGCGGGGTTTCATGGGGTAAGCGGGGCCGAAATAGAGCCTGTTATTTACTCTGGTTCACAGGCAGCATGTCTTTGGTTTTCTGACTACTTCTTGTCCT
GTGAAGCAGCGTTGCTGCCTGCCTATTTTAAGTTAATGTTTCAAAATTTAAGGTTAAAGCTTAAAGTTGTGGTCCACTTATATTAGAAACTAAGATGATT
TCTTAACAAGTTGAACTAAGTCAAAACCGATTTTTACAAGCTTGGTGGACTCCATCCACTCTTGCCGATGATGCTGAAGCTACTCAATAGTCAGGGAACT
AGGATCTCGCTGGGGATTTGATGTGGAGCCGTGGCTGGATCCAGGAACCCGGAAGACATTATGCCAAGCGAAATATGCTAGACACAGAAAGACAAATACT
GCCTGTGCTTTTACACGTGCAAAGTACAAACGTCAAATTTACAGTAACAGATTAGAAGGGTGGTTACCAGGGCTGGGGGATGTATCCTATGCCTTTATCA
CCATTATATTTTGGAAGCAGATAACTTCTCTGGCCTCACAGATTCACAGCTGGGCAGAAATTTTGCCTCAGGATGAATCACACCTTGATTCTCACCCATG
TGTGGTTCAGATAATATTTAGGGGGTATTCTGCCCTAAGAGCTGATACAGGAATGGATTAAGACTTTTGAGAGTTGATACTGAAATGGATTAAGTCTTTT
GAGATGGGCCAGCAGTTTTGGAGGCCCAGGTGGGCAGGTCACTTGAGCTCAAGAGTTCAAAACCAGCCTGGACAGCATCGTGAGACCCCCATCTCTACAA
GAAATACAAAAAGTAGCCAGGCTTGGTAATGCACTCTTGTAGTCCCAGCTACTTGGGAAGCTGAGGTGTCAGAATTGCTTGAGGCCAGGGATTTGAGATC
ATCCTGGGCAACATAGCCAGACCTCTCTACAAAAAATTAAATTATCTGGACATGGTGGCCTGCACGTGTGGGCCCAGCAACTCGGAAGGGTAAGGAAGGA
GGATCATTTGAGCCCAGGAGGTGAAGGCTGCAGTGAGCCATGAGAAGAGGAGATTTGGTTGGGTGCAGTGGCTAACGCCTATAATCCCCACACTTTGGGA
GGCCAAGGTAGCAGGGAGCTAACTTGCATTCTTCTGTTAGCTGAGGCGTTTGATGATAAATGAAAGCAGAAAGTTTGTGACTTATTTACGTTCTTTCCAC
AGAAAGGCCATATGTCCTTGGCCATAAAGAAAAAGAGACCTACAGCTTATCTGCTTCCTCTATTTTTTTTTATATGTTCTGGACCATGAAGAAAGATTTA
TAGCTTATTTGCTTTATCTCTTTGCTTTCTCCTGGTCCTTTCAGGCTGACTCCTTTTCCCCAATTAGGGCTCCACAGACTCTACCCTCAAAGGGCATTTT
TTTCTCACCCTCCTATAAAATCCCTCCCACAAATAAACCAGGATCCTATTTCCCAGCATGAAAAGTTTGTTGGAAAAAAAACTGAGGCTGCATGGGACCT
TCTTTCTCTTCTTCAAAACTACTTCACCTCTTCTCTCTTTTGTCTCTCTCTTCCTAACTGCCCTGCACAATTCTAGGTCCCCAGTGAATCCTTGGGTTGA
CATGCAAGGGAAGAACCCATAGGGAAAGGAAATCTCTGGCTTTCAGAGATAACTTTTTGGATATCTGGATGCATTCATAACCATCCTTGTGTTACCAGAA
AGGGGTCCTGATCCAGAACCTGAAACTTCCATTGCACAATTATAACTGAGAAAATTATTACAGTGAAAGAGATCTGACCTAATCAACTCCATCTTGCTTT
TAACCTCCAAGCTGCTCTTGTTCATTCCTGGGCATAGGCTGAACTAACTTTGGAAGGAACTTAGTTTATAGTTTGAAACAAAGACATTAACAGCCCTTTC
CCAAAACAAACCCCCTTCCTGCTTGGGGACTAGACTGCCTTTGTAAGACTAACAAATTAGGCACAAGGTGAGAGATGATGGTTTAGGAGTCATGTAGCTG
GAGGCTACAAGATTCTCACCCTTCCCAGATTGTTCCTGGGGATAACATTACTATTATAAAACCTAAGATCAGTGCTTGAGATATTTTGCATTCCCTGCAC
TTGATGGATCACCTGACACCAACCCAGATCCATAAACTGGCTCATCTGGTCTTGTGACCCCACCCAGGAACTGACTCAGTGCAAAATGACAGCTTCAGAT
CTCTATGATTTCGTCTCCTACCCAACCAATCAGCACTCCCGACTCACTGACACCTACCTATCAAATTATCCTTAAAAACCCTGATCCCCGAGTTTTCAGG
GAGACTCATGTGAGTAATAAAAAAATTTCAGGTTCCTGTACAGCCAGCTCCACATGAATTAAACTCTCTCTTGCAATTCCCCTGTCTTGATGAATCAGCT
CTGTCTAGGCAGCAGGGAAGGAGAACCTGTTGGGCAGTTACAACCAAAAGGGAGGGTTCTTGGATCTCATGCAAGAAAGAATTAGGGGTGAGTTCACACT
GTAAAGTGAAAGCAAGTTTACTAAGCAAGTAAAGGAACAAGGCAGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACATTGAGAGAGGCTGAGGTGGGCA
GATTGCTTGAACCCAGGAGTTCAAGAGCAACCTGGGCAACATTACAAAACTCTATCTCTACAAAAAATACAAAAATTAGCCAAGGGTAATGGTGTGCACC
AGTAGTCCAAGCTAGTTGGAAGGCTGAGGTTGGAAATTGCTTGAGCCTGGGAGAATTTTTTTTTTTGAGGCAGTGTCTGGCTCCGGTCACCCAAGCAGTA
GTGCAGTAATGCCATCTCGGCTCAGACTCTAATTCAACACGGAATGTTGAGCTTCTGAGCGTGATATAGCGGAAGTGCCTTCTCTTCCGGTCTCTCTGGT
CTTGGCCGCAGAAGCCAGATGACGAAGGGAACGTCATTGTTTGGAAAGCGTCGCAATAAGACGCACACGTTGTGTTGCCGCCGTGGCTCTAAGGCCTRCC
ACCTTCAGAAGTCGACCTGTGGCAAATGTGGCTACGCTGCCAAGCGCAAGAGAAAGTATAACTGGAGTGCCAAGKCTAAAAGACAAAATACCACCGGAAC
TGGTGGAATGAGGCACCTAAAAATTGTATACCACAGATTCAGGCATGGATTCTATGAAGGAACAATACTTAAACCCAAGAGGGCAGCTGTTGCAGCATCC
AGTTCATCTTAAGAATGTCTATGATTAGTCATGCAATAAATGTTCTGGTTTTAAAAAATACAAAAAAAAATACTGAATGTTTACTCCTGAAACTTATGAT
GCCTAGGTTGAGAAAGACTCAATTTTCCTCATGCTAAATACTTTATACATGTCCTTTATTCATGCATACATAGGACACTTTACACAATATAATTGTTGAA
AGTGCTTCTGAAATACTGTTCAAATTGTCTATAATATTTTTACACATGCACTATAAAAATTAAATTTATCAGACAATAAATATTAAATAATTTAATAAAA
TTGCATTTTTCAAAGGCTCTAACAATGCATATTTGAGTTATCATATTAAACATTGTATTCTATGATTTTTCAACTGTAATATAATTTTTTTTTGAGATGG
GATCTTGCTCTCTTGCCCAGGCTGCAGTGTGGTGGTGCAATCACGGCTCATGCAGCCTCCACCTCCCCAGGCTCAAGTGATCCTCTCACCTCAGTTTTTG
TGTTTTTAGTAGAGATGGGGTTTTATAATGTTGCCTAGGCCGGTCTCAAACTTCTGGGCTCAATCTGTCCACCTCAGCCTCCCAAAGTGCTAGGAATACA
GGCATGAGCCACAGAGCCCAGCCAAAACTACATTTTAAAAATAATTTTTTATCATTACACACTCCACTAGAAACCATTTAACCCAATTTATGGACTTACA
TTTCTTCCATTGAAGAACTTGAAGGATCCAAAAATCGAGGTGACATTCTCAGATTTGTGTGGCAAAAAAAGAATAGAAAAATAACAGATGCAAAGAATGT
GTTCCACCAATATGTGGAGGATCCCTTTTATTTTAAGTTCAGGGAAAGCATTGGAATGATACAAGAAAATAAACTGAAATTGTATAATGTGGAAACAAGA
GCTCTGTTGCTAATATGCAAGTTTATCACTGAGATTTTAACAACACAACATGCTAATTATACCTTAAAATATGTTTCTCCCAGTCTGGGCAACATGGCGA
AACCCCATCTCTACAAAAAAATCCAAAAATTAGCTAGGTATGCTGGTGTGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGAGAAGAGGATCACCTGAG
TCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGTGACTGAGCGAGACCCTGTCTCGAAATATTACAATATGTGACAG
CGCAGCTTCCATCAGAAATAATTTGTTCCTCTTTTGCCCACACAAAATATTCACCTCCACTTCCTCTAACATTTTTTTTTAAAAAAAAAAGCCCAAACAT
AACTTTCAGTTGCAAGCAAGGATCTCATGACAGTCTCATGACACTTCTGTTCACTGAGAGCCCAATAGAGTCCTCGTCACTCACGACATTTCATGGTGGA
ACAGAAAAATAAAACCTGAATTAACCCTCACATTCAGAAAAGGGAAACAAAGAAGGTACTACCCAGTAGGTCCATAGCAAATGTGCAATTTTGCTGAGAA
GATGAGTTAGGGCCTGGTTCCAGGAGGTCAGGAATGAATAACAGTACTTTTCATGGCTACAGTTCTCCTGAGAATAGGTTTCCAGTCCACTATATTTTGT
CGTTCTTAACTTCACCCGATGACATCCCTCATGCAGTATCAGAAAGTATGCCCTCCTTCTGCAGTAAGCATCTTTCCCCAGCTACTTCTTTTCCACTTCA
ATGTACCATCCCAAAGACTATTATAAGTCTAAATTTAATTTTGTTTTTATAAAATACTATGGACTGATAGAAGTCTCAAAAGTATAACATTATGAAAAGT
ATAACAAAAGATAGCATTTTATCTGATGCCATTTCAAAATAGAGACATTTTCAAAGCTAAACCCATGACTTTAGCTATACCCACGAGTTTTAGGAACCCT
TCCTTAGTTTCAGAATTTTATTCCAGTGCTTTTGAACTTCTTGGGCCACAGTCTAGTTTCTATTTACTACACTTGCCATTTCATCCACTCTCAAAAAACA
ATTTCACAAGAGTTACCTTAATCAACTGGCAGGTTATTTCAAAGAACGTTAGGGCTATGGCCTTGACTTGGACTTTGTTATAATTTTAACTTGCTGTTGC
CCCTCAAACCACTTCTCAAATGTGAGTTTTATCAGTTGCAGATGAGCTACTGCTGCAGACTTAAACATTGCTTGAAAATCAGCTAACTCATTTTTGAAGA
ATTTACAAAATATTGTGTCAAGTGCAGTTGAAAGCCATATGGCACATTAGCACCTTCTGCTTTCTTTTTGTTTGTTTTGTTTTGTTTTGAGATGAAGTCT
CACTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCTCTTGGTTTCAAGCAATTCTCTGCCTCAGCTTCCTGAATAG
CTGGGATTGCAGGTGCCTGCCACCACGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATCTTGGCCAGGTTGGTATTGAACTCCTG
ACCTCGTGATTCACCCACCTCAGACTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCCGGCCCAAGCACCTTCTGCTTTCTTGATCTCTATAC
TGGCAGGTGGTATTTCCAAGAATGATGCCCCCTCTCCAGGAAACGTTTGCACATGTCTGGAGACATTTTTGATTGTCACAATTGGTGGTGTTGCTGGTAT
CTGGTGGTAAGGAACAGTGATATGTGTTTCCTCCAAATCTCATGTTGAAATATGACCCAAATTGTTGAAGGTGGGCCGAGTGAAAGGTGCTTGGGTAATG
GGGTTGGGTCTCTTCTGAATGGCTTGGTGCTTTCTCCATGATAATGAGTGAGTTCTTAGTCTTAGTACACTCAAGACCTACCTGTTTAAAAAAGACTAGT
GGCCTGGCTGGTGGCTGAAGCCCGTAATCCCAGCACACTGGGAGGCTGAGGCAGGTGGATCACAAGATCAGGAGTTCAAGACCAGCCTGGCCAAGATGGT
GAACTCTGTCTCTATTAAAAATACAAAAAGTAGCCGGGCATGGTGGCGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGAGAATTGCTTGAAC
CTAGGAGGCCGAGGTTGCAGTGAACTGACATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGAGAGACTCTGTCTCAAAAAAAAAAAAAGAATCCTTCT
TCTAGTACACAGATGCATTTTAAAGGGGTCTTCTCTACTGCTTTTTCTCTCAAAATCAATTTCAGTTTGGCCTGTCTGTTCACATTTACATGAGGATCCA
AATTGTTGTTTTCATAGGTAAATGAGTGACTGAGTATCCTCAGCTTCGAACAGAAAGAGCATTTTGCTCCTTGCAGCTGATAGGCACCCCTAGGTGACCG
GGGGCCTCATGGGAGTATCTGGGAAGTTGACCCACCGTGATGTGTAGTGGCTCTACAGAGAACCCCCACAAAATTAGTTTTAAAAAGACTAATCCAGGAG
GTGCATATGGGTGCTAGTAACTTGTGCTTTGAGCCCTCCTGGAGGTGCTTAGACCTCCGGAGGAGAAACTGAGACACATAGGAGGGCGGCAGTGACTCAG
TGGTAACACACTGCGGAGTCTCTTTTGCAAGCAGCACATACTTTGACCTACTCCACAAAACCCTAGGCCACATCTCCTTTTCTCCTTTTAAGGAAACAAA
CAAACAAAAAAAGTGGGAACCAAATAATCTAAGAACGAGGAGAAAACCAGAAGAATGACGCCCCTTTCAGGCACTCCTTTGGTTTTATGGCACCTCTTCT
TGCAAGTGTTTGTGTGACATGAACTTATATGGTCTTTTTGTGCAGAAGTACATGAAGGAAAATTCAGAGCCCAAAGGTCAGCCTGCAACTGTAAAGTTCC
CAAGTTCTCTCTCTGCTTTCTTTTCTGCCTGCTTGAAGTCCACTGCTACTTTTCTAATGAGATAAAATCCACTGTTTGCAATTTCTTTTTGAAAACCAAT
GAGTTTCTACTAATACCTCATGATTAAAGTTCTGAAGTAAAAGCTACATGATCTTTGGTTATATGAGAATGTATGTGTGTGCTAATGTGTTTGTATACGT
ATTTTGTTGTGTTTTGGACACAAGGCGCTAAATTGGCTTAAAGAGTCCTCGTAAATTAAATAATAAGCCAAAATGTTTCTCAAGTTCACATGACTTAAGT
AAAATCTTTAATAAGTTAGCTTTAAAAGTATTGGTAAAATAGGCCAGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGG
ATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGTCAACATGGTGAAACCCCATCTCTACTAAAACTACAAAAATTAGCCAGGCATGGTGTTGGGCACCT
GTAACCCCAGCTACTCGGGAGGCTGAGGTGGGAGAATCTCTTGAACCCAGGGGGCAGAGGTTGTGGTGAGCCAAGATCACACTACTGCACTCCAGCCTGG
GCAAAAGGGCAAGACTCTGTTTCAAAAAAAAAAAAAAAAAAGTATTGGTAAAATAATATTAGAAATGTCTTAAGAATTGCCAGCATACATTTTTGTTTGC
ATTTATTGATCAAGCAATTTCATAGTTATCCCTGCCAAATACTATTGAGGCAGGAAAATAGCAGAGGGAATTGGAGTTTGGATAAAGGGTGGAATGAGTA
GGAGCAGAAGAAAGGTGAAGAGGTGGGTGCCCAAGCCTGTCATGAATGGTCTGTGTAAGTCATTAATAAGAGGATTTATGAAAAAAAAAAAACCTTTTAT
ATTTCAAGTTGTATATAAATTAAACAGAAATTATAATGGTCTTTCTAGTGACTGGGTTTTGATCCTTAAAAAAACCACTTATAGACTAAATAATTGGATC
AAAATACAAAATTTTCCTAAGGTATTGCTTTACTCTTAATATATTATTACAAGACACTATAATTTTTTTACACAAAGTTCAACTTTTATTGTGTCTTGCT
GTTTTCAGCTTTCTCTCCTCTTTTAAAAGGCCTGAAATAATAACTCTATCCTTCAACTAATTTTCAGCTCCTGTAAGTTTTTCTCTTTTAGTTTCTAACT
GTTGTGGCCTCATGCCAACATCAACAAAATGTTTTATCCTAGAGGTCTAAAGGAAATGTTTCCTTTCAATGTAATATTCCCCATAGGAAACAGCAGTTGC
ACTGGAGGAGGTCTTTTCTTTTGCCTTTAGATAACTGGCCTAATAAACAGATCTTACACTTTATCAAAATAATTCCTATGTCATTATTACTAAGTTTGGT
TTGGTTAGAAAAAAACTGAAATTAAAAAATTTTTTTTTAATTAAGGTTATCACATCCATGTATTTTCTGTATGTGCTTTTTTTTTTTTTTAAAGAGAGTC
TCACTTTGTCACTCAGGCTGGAGTGCAGTGGCATCATCTTGGCTCACTGCAACCTTGTCTCCAGGTTCAAGGGATTCTTGTGCCTCAGCCTCCCGAGTAG
CTGGGATTACAGGCACACACCACCATGCCCGGATAATTTTTTTGTATTTTTAGTAAAGATGAGGTTTCGCCATGTTAGCCAGCCTGGTGTCAAACTCCTC
ACCTCAAGTGATCTGCCACCTTGGCCTGCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCTGGCCTGTATGTGCTTTTAAAGTCCTTGTGTCACT
AAGTTACAGAGCTTTGACGTCTGGGTCTAAAAAGGACACCAAGTCCTGCTAAATCTTAAACACTGACAGCAGTTAAAGCCTCATTTTCAGACCTAATAGA
AGATGCCAATCAAAATAAACTGTGTTCTTGAGACGCAGGACAAGAAAGTAAAACTATTCAACTCCTCAAGGCCCAGGGGCTATTACAGAAGAGGTGGGCA
CATGAAATTGCAAGAGCTTACCTGGAGAGATAAAATAAGTTCAGTTTCTCTATAAATTAACCATTGATGTCAAAGGCACACTGATGCAAGACCAGCATAT
GAGCCTCTTTGTCAGATTAACAAGGTTTTCTTGGAGCATTGACCCACTCCATAATAAAGATTACAATGGT


SNP Information

Context             (SEQ ID NO:67234):
TTGCCGCCGTGGCTCTAAGGCCTACCACCTTCAGAAGTCGACCTGTGGCAAATGTGGCTACGCTGCCAAGCGCAAGAGAAAGTATAACTGGAGTGCCAAG
K
CTAAAAGACAAAATACCACCGGAACTGGTGGAATGAGGCACCTAAAAATTGTATACCACAGATTCAGGCATGGATTCTATGAAGGAACAATACTTAAACC
Celera SNP ID:            hCV26638867
SNP Position Genomic:     6575
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67235):
ACAATACTTAAACCCAAGAGGGCAGCTGTTGCAGCATCCAGTTCATCTTAAGAATGTCTATGATTAGTCATGCAATAAATGTTCTGGTTTTAAAAAATAC
A
AAAAAAAATACTGAATGTTTACTCCTGAAACTTATGATGCCTAGGTTGAGAAAGACTCAATTTTCCTCATGCTAAATACTTTATACATGTCCTTTATTCA
Celera SNP ID:            hCV26638868
SNP Position Genomic:     6762
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|-,6)   total(A,5|-,6) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:67236):
GGTCTTGGCCGCAGAAGCCAGATGACGAAGGGAACGTCATTGTTTGGAAAGCGTCGCAATAAGACGCACACGTTGTGTTGCCGCCGTGGCTCTAAGGCCT
R
CCACCTTCAGAAGTCGACCTGTGGCAAATGTGGCTACGCTGCCAAGCGCAAGAGAAAGTATAACTGGAGTGCCAAGGCTAAAAGACAAAATACCACCGGA
Celera SNP ID:            hCV29188653
SNP Position Genomic:     6498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Gene Number:                 438
Celera Gene:                 hCG93868 - 145000147124761
Gene Symbol:                 DTYMK
Protein Name:                deoxythymidylate kinase (thymidylate kinase);CDC8;TMPK;TYMK
Celera Genomic Axis:         GA_x5YUV32VWPT(47195487..47218923)
Chromosome:                  Chr2
OMIM number:                 188345
OMIM Information:            DEOXYTHYMIDYLATE KINASE;DTYMK


Genomic Sequence (SEQ ID NO:12598):
AAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCCGTCACCACACCCAGCTAATTTGTGTATATTTAGTAGAGACGGGGTTTCAC
CACGTTGGCCAGGCTGGTCTCGAGCTCCTGATCTCGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCAACGCACCTGGCCA
AGGAGCTAATTAAGGTTAAATGAAGTCCTAATGTGATAGGACCAACAGTTTTCATGTGTCTGCTGCACAGTTAACAGACCCATGATGCTCAGACAGCAGG
GTTTGCAGCAGAGAAAGAGTTTAACAAGGCCCAGGTGAGGAGGTGAAAGGAGACGTCTCCTCAAATACATCTCCCTCAGGAGTTCTGAGCTAAGGTTTTT
AAGGGGATCATGGAAGGTGAGGGGCTGGAAAATGGGGGTCGCTGACTGGCCAGGGTAAGGAGGATGATTCACTAGAATGTGGAAACTGCATTCCTTGCTG
AGTCAGCTCCTGTGGGGTCCTTCAGAGCAGCTGGCATCAGTACTTTCACTGGTATGCAGGGCCTGAAAGAATCTCAGGCTGGGCGTGGTGGCTCATGCCT
GCAATCCCAGGGCTTCAGGAGGCCGAGGCAGGATGACCGCTTGGGCCCACCAGTTCAAGACCAGCCTGGGCAACAGGGCAAGACCCCGTCAGTATTTAAA
AAAAAAAAAAAGCCAGATGTGTGTGCCTGTAGTTCCAGATACTTCAGATGCTGAGGCAGGAGGATCACTCGAGACCAGAACCTCAAGGCTGCAGTGAGCT
ACGATTGTGCCACTGCACTTCAGCCTGAACAAGAGTGAGACCCTGTCTCTAAAAAGAAAAAAAAATTAAAATAAAAAAAAAATCTCAAAGGGAAAAGTTA
AGGTTTCATAATGTTCAAGTTGTTATCTCTGGAGCAGTTAAGGGTAACTGTAATCTTATAACAAGAGTCTACCTGATTCTGAGGCACGAGGCGCCAGCTC
AGAGGGGCTCACCACATGACTGGTGCTGCGTGTGCTGCAAGCTCGGTTATTCCATTTCCCCCTCCCCTCTTCCTTGATTAATTTTGTGTTTTTAGTGACG
GTTTTCTTTTTTTATATTTTTTTAAAAATTGAGACAAGGTCTCACTCTGTCACCTGGGCTGGAGTGCAGTGGCGCAACCATGGCTCANNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNCTATTTATTTTGTAGAGATAAATAAATCTCCAAATAAGTCTATGTTGCCCAGGCTGGTCTCAAACTCCTGAGCTCAAGCAATCTACCTGCC
TCCCAAAGTGCTGGGATTGTAGGTGTGAGCCACCATGCCTGGCCAGGGATGGTTTCAATAAGGGTGCAACCCTAATCCGATAGGGCTGGTACCCTCATGA
GAAAAGGAAGAGGTACCAGAGCATTCTCTTTGCTATGTGCAACTCTAAAAGACAGCCCGTACCAGGCAGCAATCTGTCGGGCACCTTAATCTTGGACTTC
CAGCCAATAAATGCCTATTGCTTCAGTTCCCCAGTCTAAGGTAGTCTGTTGTGACAGCCCGAGCCCACTGATGGTGAGAAAGACTTTATTCCCTGTGTGG
TGGAAGTTGCAGCACACTAAGAAACAGGGACTAGCAAAAGAGCTTTCCTGCTCCTTCAGTTTTTTTGTTTTTGTGTTTTTTTTTTGAGACAGTGTCTCAC
TCTGTCACCCAGGCTGCAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGTCTCAACCTCCCAAGTAGCT
GGGATTACAGGCATGTGCCACCACACCCAGCTAATTTTTGTATTTTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNCTGAGGCAGGTGGACTCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAATCCTGTCTCTACTAA
AAATACAAAAAATTAGCCGGGTGTTGTGGCGGGCGCCTGTAAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGTCTGAACCTAGGAGGTGGATGT
TGCAGCGAGCTGAGATCACACCACTGGACTCCAGCCTGGGTAACAGACCGAGGCTGTCTGGGAAAAAAAGAAAAAAAAAAAAAGCAAGCAGAGAACCTAA
TGAACCCACGAACCCATGTGTTCACCTGCATCTTTCTGCAATTATCAGCCTGTGGCCAACTCCATTTCACCTGTATCTCTGACCACACAGACCCAGCATC
CCACCATTTCCCCTATAAAGTGGATGTACTCACCTATCAGGCCTCCAGAGTCTTGTGGAGTGACTCTTGCTCCCATTGCTCCTGGACAGACAGTGCTGGA
AATCAGGCCTGAGGCTGTCAGTGGCAGTACGAAGGACACTGGATGCTCAGCCACGCAGACCCTCCTATGCCCACGCCAGGGCTGAGGTCAGCAGGCTGGG
GTGTGGCAGTCATCCTTTGATCACGCAGGAACACCAAGAGAACTGCTAGGATGTGGACCAACCTGATGTCACTGAGTCACGGGAGCAGCTCCTGCCTGCC
TAACACTGGACTTCATGTAATGTCAGATGATTAAATATCTTAATGCTGTGAGCCACAGGAGGCTGGCTGGTATTCTGCTACCTGTGCTAAAAGGTATCCT
AAGAGAGGTACACCATGCTGGAATAGGCAAAAGCAAACCTGTTTCTTGTATCTTAGTAACACACTTCAAGGTGCTTATGTGCTTGAGCAATTCCTGCAGT
CAAATGGGCCCTCCACCCCCCAGTACACAAGGCCCAGCCAGCCAGATTCCCTCCATCTTCACCCTCCTCCCCCGTCCCAGGGGAGCCAGGAAAGCCATGC
ATCCACCAAGGCGGATGCGCTGTGTCCCTCTGCATCAGCCTGCTGAGTCCTCCTGGACCTGATGAGAGACAGTACCGCAGCCTTGCCCAGCCCCGGGAAG
GTGGTCTTCCTTCCTACAATCCCCTTCATCCTCTGGAAGGTGGTCTTCCTTACTACAATCCCCTTCATCCTCTGGAAGGCAACAAGATGGAATTTTATAA
GGAGACATCAATCAGAAAAAAGGATATTACTTTTATTACTTATCTATGTAAGGGAATAGTAAGTACTATTCTTAGTACTTGTAAGCGTTCGCTAGGTTGT
GCTGTGGTAACAAAGGATCCCGAAGTCTCAGTGACTCGAAATCACGATGGTTTACTTCTTGCTGGTGCTGCCCATCAGCTACAACGGCTGTACTTCATGG
GCCTTTGTTACAGGATCTGGGGTGAAAAACCAGCCCTCACTGTGCACATGCTGTGTTCATGCTGGGGGCAGAAGGGGAGGGACCAAACCACAAAACACCC
TTTAAAGCTTCTGCCTGAACAGGGCACATGACAGCAGACTACTTTACATTACCATTTGGAAGTCTCACCACTAAGCTTGACGTAAAGGAAGAAAGGGTAG
GCCAGGTGCAGTGGTTCACGTCTGTAATCCCAGCACTTAGGGAGGCTGACGTGGGCGGATCACCCGAGGTCAGGAATTTGAGACCGGCCTGGCAAACATG
GTGAAAACCCATCTCTACTAATACAAAAATTAGCTGGGCGTGGTGGCAGGTGCCTGTAATCTCAGCTACTTGGGAGGTTGATGCAGGAGAATAGGTTGAA
CCCGGGAAGTGGAGGTTGCAGTGAGCCAAGATCATGCCATTGCACTCCACTCTGGGCCACAAGACAGAAACTCCGTCTCAAAAAAAAAATTAAATTAAAA
AATAAATTGGCCGGGCGCAGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCTGAGATGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGC
TAACACGGTGAAACCCCGTCTCTACTAAAAAATACAAAAAAAATTAGCCGGGCATGATGGTGGGCACCTGTAGTCCCAGCTAGTGGGGAGGCTGAGGCAG
GAGAATGGGATGAACTCGGGAGGTGGAGCTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCAAAAAAAT
AAAATAAAAATACAAAAATTAGCCGGGCGTGGTGGTGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATAGCTTGAACCCGGGAGGTG
GAGGGTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGGGGACAGAGCAGGACTCCGTCTCAAATAAAATAAAAGCAATAAAAGTAAATTAAAA
AGGAAGAAAGGGCATAACTGGTAATAACAATATAACCCATATCCTTCCAGAACCCCAAACTGAATTGGGGAGGCTTCAGTCTGGAAAACATAAAGCTACT
CTAGGTATGCAATGATAATATAATCGCGAGCTTACACAAATGCTGGGAGTAAAGTCCGGGAAATTGTTGCCAATGACCTCAGCCCAAAGCACTGAAGTGG
GTGGTGGTCTCAAGAGCTCATGGGGAAAAAACCAATGCAAACTCAACACTTAGAAAGCTACCAGCAATTTCTTGGTCTACATCAGAGGCAGGTGGTTCTG
AAAACAGAGAACAGCTTTGAATTTCATCTATATTTCTGGCTGAGGGTGCCTCCCAAGAATAATCGCCTCGAAAGGTAAGAGTGCCTCGTCTGGTAGACTG
TAATCCAGGGCTACACAGATGATTCTGGGAAATGCAGTTCCTACCATTTCTTCTGCTAAGCAGAGAAAGTGATGTCTAGCTGACAACTGACAATATGGCA
CATATAGATAGTAGTATTTTAGATATCTAAAATAACAAAAAGTCTCACCTGAGAAATGTCCAGGCAGCCTGATATCCCTAAGATAACAGCAAACACTACT
GAGCGCTTTCTAGATACCGGGGACACTTCGCGGGACTTTTTCCACCTCTCTATGGCAGAGACAGTTTTTCCTATTATCATCATGACCCACATTTCAGAGG
AGTTGGAGGCATGGAAAGAGGAAACAACTTGCCCGTTCCCTCTCCGTGCTATAATTTGTATACATCATCTTTTAAAACGGACTTTTCGGCCAGGCGCGGT
GGCTCACGCCTGTAATCCCAGCACTCTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTA
CTAAAAATACAAAAAATTAGCCGGGCGTCGTGGCGGCCGCCTGCAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGA
GGTTGCAGTGAGCAGAGATCGCGCCACCGCACTCCAGCCTGGGTGACAGAGCGAGACTCTGTCTCAAACAAACAAAAACAACAAAAACACACACACGGAC
TTTCCAGAGCCCTGCAGTTTTGCGCTTCAGGGACAACAGTGAACATTTATCGATCCCATGGTTCTCCTACAATTGCCACGTGGCCAGCGTCTACACAGCC
CCCTATCCTGCCCCTGCTGTCAAACACAGCGTTTCCAGAACGCAGTCGTGCTGGGCTCCAGGTGAGCTTTGGGAGGAGCCCCGGCTGAGCCCCTGCACTG
GGCCCCGCGCTTCGGGAAGCATCTCGCTCGTTCGTCTCGCGCGCCGCGTGACCGGAGCCCTCACGCTGGCAGCGGGCACCGCAGGGCCCTGAGAGTCGGG
CCCGCTGCGCGCAGCCAGGGGCCAACGAGAGCCGACGCTGGGCGGGCAGCGTCCGGGAGCCCCTCCGACCCTGCGCTCCCCTCGTCCGCGCCCTGACCCC
GCGTCTCCGRCCGTCCAGCCCGCGCCGYGTCACCTCCCCTCCCGGAGCGAAGGGCCCTGCTCGCCCGAGGACGGAGGCCCGCACGGGACACGGGGCCCCA
GTTYCCGCCCCGGAAGCCCAGGACACGGCTCCAGTGGCGGCGCGGCCCAGGGCGCAGGCGCGGGTGTCGGTYCCACCGCGCGTCGTCCTCGCCCCGGCCC
CGGCCAATCCCTTCGAATTTGGCCGAGGCCGGGAAATACTAGCTAATCACGGCGCGCGCTGTTGACGCCGGCCAATGGGAGCTCCGGAAGGCTGCGTGGA
GACGCCAGCGGCGGGCGGTGGACAGTCATGGCGGCCCGGCGCGGGGCTCTCATAGTGCTGGAGGGCGTGGACCGCGCCGGGAAGAGCACGCAGAGCCGCA
AGCTGGTGGAAGCGCTGTGCGCCGCGGGCCACCGCGCCGAACTGCTCCGGTTCCCGGGTGGGTGCGCGCGGCGGGGGGTGCGCCGCGGCCTTCGGTGCCT
CTGCCTTCCCAGGGGCTCTTTGCTCCGCTTCGTTGTCTGCGGCTGGCGTGCTGTGAACTGTGCGATTTTTATTTTGAAAGACGGGCTTTCGCTGTGTCGC
CCAGGCTGGAGTGCAGTGGCGCCATCTCGGCCCACGGCAGCCTGGACCTCCCGGGTAGCCGGGAACATAGGCGCGCGCCACCGCGCCCGGTCCACGCTGC
GTGTCTTTAAGTGCGGGGTATGGTGATGACTGACGTGTAAACCCGCGCGAAACCGTGGTGTCTCCCCCAAAAGTCTCCTCCAGCTCTTTTGTAATCCATG
TCTCGTTTTTGTGGGTTTTTCTGGTGTTGTGTTTTGTTTGATGGCTGTTCGCGCTTTCAGGGGTTTTATAGCATATATTTAAAAGTTTTCAAGTGAAGCA
TTGACCTTAATCTTTGGCCACCCAGTCCACAAATTTTATAAATGCTTTCTTTGAAGTCTCTACTTTCTACCCGAGTTCTTTTTTCCTAAAGCATTTTTCA
TCCCAGCTTGTTTGCAGATTGCTGTTATTGCTCAGAGAAATTCCTTTGGCTTCCGCAGAAGATCCAAGCCTGTCTAGAGAWTTAGTAAAGTAAAATTCAA
CGTGAGACTTGAGTCCGGGAGAAATTCAGTCCAAACTATATTGTAATATAGAGGGAAAGCCTGATCTCACTTGCATTTTGTGTGTTTCTCTTTTTTTCTA
GAAAGATCAACTGAAATCGGCAAACTTCTGAGTTCCTACTTGCAAAAGAAAAGTGACGTGGAGGATCACTCGGTGCACCTGCTTTTTTCTGCAAATCGCT
GGGAACAAGTGTAAAAACCATTGCACACTGCTCCCTCTGCCCTTGCCACTTTCCTTCCTCCTGAGATTCAGTGAACGCAGCACTCGATTCTGAATGACAG
TGACAGTAGTGCTGGGCCTGATGTTCTTCTGTTTAGCAGTCCTGTGGGCAGAGGTGGTGAAGCGCCCTAGTTCCCAAAGGGCGCTAATGAATGCTGTTTC
GTCCTCCTGCTCCCCACACCCCATAACTAATAGACTTCAGTTTTTCGGGTTTTTTTAGACGGAGTTCCGCTCTGTCGCCAGGCAGAGGTGTGATCTCGGC
TCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCGTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCGCCCCAGCATGCTCAGCTAATTTTT
GCAATTTTAATTTACTTTATTTTTAAATTTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCTYTTGACCTTGTGAT
CCACTCGCCTCGGCCTCCCAAAGTTCTGGGATTACGCAGGTGTGAGCCACCGTACCTGGCCCTTTTTTTTTTATTTTTAAGACAAGGTATTGCTCTGTGG
CCCAGGCTGGAGTGCAGTGGCACCCGATCATGGCTCACTGCAGCCTCAACTTCCTAGGCTCAAGCAGTCCTCCCACCTCAGCATCCTGAGTAGCTTAGGG
CCATAGGGGCATGCTACCAAGCCCGGCTAATTTTTTTTTTTTTTTTTAATGTAGAGTCAAGGTCTCACCATATCACGCCCAGGCTGGTCTCAAACCCCTG
GCCTCATAGACTTAATGTTTTAAAGATAGCTTTAGGTATATAGAAAAACTGATCAAAAAGTAGAGTATGTAGAGCGCTCCCTACATACTACCCCTGCCTT
CCCCCCTTCCCCATTATTTATGTGCTGTGTTATGTTACATTTGTTAAAATTGATAACCAATATTGATACATTAGTAACTGAGTTTATATGAACTCTCCTA
CCACCTTTTTTTGTTTTACATCATTGTAGTAGGTTTCCTCTTCATTCAACACTTAATGTTGATGTGTGTTCTTTCAATGTTTTTATTTACATTTATATAC
ATATGTAGAAACTACTATAGTTAGAATTTTGTTTTTTAACATAAATGAGGTCATACCATACAAATTATTTGGCAGCTTTCTTTCTAACTCTGCCTTACAG
ATTTCTGCACTTACAGATCCCCTAACTCTGCCCTTCTCATTCTCTTTAATTGTCGTCGCATTGTCTCTAGAACCACGGTACGTGTAGCCAGTTCCCTGCT
GGTGAATCTTCAGTGGTTCCTCATCATCCGTGTTACATGAAACACTGCATTACTCTCCTCCGGCTTAGCTTTGTGTCTTGCTTGGAAAGGCTGTCCCCAC
TCCAAGTCTTAAATGAAAATGAGACCATTTTTAATAATCTTTTTAACACATCTAGAATTTATGGAGGCAATTGTTCTTCTGATTTTGCTTTTTGTGGCTT
TGTAGAAAAGTGATGAAACACGTATATGCCCAATTTAAAATGAAGAATAATCCTGATTTTACTTTTTAGATAATAATCTTATCCCAGGTACCCAGGGCTA
CGTCTCTTGTGTCCATCTATTCTCCTACAGGTTACTTGTTTCCCTAATAGATATTTAAGTTTCCTCTATGTCTAACTGTGGCTTGATAGTTTTTTTTTGT
TGTTTTGTTTTGGTTTTTTTTGAGACAAGAGTCTCGTTGTGTTGCTCAGGTTGGAGTGCAGTGGCTCAGTCTCGGCTCACTGCAACCGCCGCCTCCCGGG
TTCAAGCATTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCGTACGACCATGCACAGCTAATTTTTATGTTTTAGTAGAGACAGGGTTTC
ACCATGTTGGCCAGGGTKGTCTTGAACTCCTGACCTCAAGTGATCCTCCCACGTCGGCCTCCCACAGTGCTGGGATTACAGGCATGAGCCACCATGCCCG
ACCAATAGTTCATGTCTTTTTTGCCCTAATTAATAGTCCCTTGTTTGGATGTACCATAGTTCATTACCTACTAAAGGACATCTTTGTTGCTTCCAAGTTT
TGGCAGTTATAAATCTGTTATAAACATCCTGGTGCAGGATTTTGTGTGGTCATAAGCTTTCACTTCTTTTGGGTAAATGCCAGGGAGCACCACTGCTTTA
ATATGTGGTAAGACTATTAATTTTTGTGAAGAACTGCTAAACCATGGGTATCCAGTCTTTTGGCTTCCCTGGGCCACATTGGAAGAAATGTCTTGGGCCA
CGCATAAAATACACTAACAATTGCTGATGAGCTTAAAAAAAAAAATCTCGTAACGTTTTGAGAAAGCTTAACAAATTTGTGTTGGGCTGCATGCAGCCTG
CGGGCCTTGGGTTGGACAAGCTTGTGGTGAACTGTCTTCCAAAGTGGCTGCAGCATCTTGCATTCTCACCAGCAGTGAACAAGGGTTGCTATTGCTCCAG
AYCCTCACCAGCATTTGGTGTTGTCAGTGTTTGGATGTTTGCCATTCTGATAGGTGTGTGTGGCATCTCATTGTTCTAGTTTGCATTTCCCTGCTGACAT
ATGATGTGGAGTATCTTTTCATATGCTTGTTTGCCATCTGTGTATCTGGTTTCGTAAGGGATCTGTTGAGTGCTTTGGCCCACTCTTTTTTTTGGGACAG
GGTCTCAACCAGGCTAGAGTACAGTGGCACGGTCTTGGCTCACTGCAGCCTCTACTTCCCAGGCTCAAGCGATCCTCCTGCCTTAGCCTCCCAAGTAGCT
GGGACTACAGGTGCATGCCACCAKGCTAAGTTTTGTATTTCTTTTTTGTTTTCCTCGAGACAGTTTCRTTCTTGTCGCCCAGACTGGAGTGCAATGGGGC
GATCTTGGCTCACTGCAACCTACGCCTCGCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCAAGTAGCTGTGATCACAGGTGCCCACCACCACGCCCGG
CTAATTTTTCTATTTTTTAGTTAGTGATGGGGTTTCGTCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCTTTAGCCTCCCA
AAGTGCTGGGATTACAGGCACGAGCCACCATGCCCGGCCAATTTTGTATTTTTTGAGGAAATGTGGTTTCACCATGTTTCCCAGGTTGGACTCAAATTCC
TGGGCTCAAGTGATGAGCCTGCCTCCGCCTCCCAAAGTGTTGGGAATATAGGCATGAGCCATTACGCCCAGCCTTGGCCCACTTTTTAAGGGGGTTGGTT
GATTTCTTATTTTTGAGTTTTAAGAATTCTTTGTATGCTTTAGATAACAGTCCTTTATAAAATGTGTCTTTTATACATATTTTCTCCTAGGCTGTGGTTT
GCCTTTTCTGTTTTCTCACTCTCTTTCTCTCTTTTCTTTTTTTAGACAGGGTCTCTGTGTCATGCAGGCTGAGTGCAGTGCGCAATCACAGCTTACTGCA
GCCTCGACCTCCCGGGTTCAAGTGATCTTCCCACCTCAGCCTCCCAAGTAGCTGCAACTATAGGCACGTTAACACACCTGGCTAATTTTTGTAAAATTTT
TTGTAGCGATGGAGTCTCACTATTGTTGCCCAGGCTGGTCTTGAACTCCTGGACCCAAGCAGTCCTCYTGCCTTGGTTTCCCAAAGTGCTGTGATTAGAG
GCATGAGCCACCCTGCCTGGCCTTATTTTTTTTTAGGAGAAATGTCTTGCTCTGTTGCCCAGGCTGGAATGTTGTGGCATGATCACAGCTTACTGCAGCC
TTAAACTCCTGGGTTCAAGTGATCCTCCTGCCTCAGCCTCTGGAGTAGCTAGGACTACAGGTGCGTGCCACTATCCCTGGCTAATTTTTACATTTTTTGT
AGAGATGGGGTCTCACTATTGTTACTCAGGCTGGTCTCAAACACCTGGCCTCAAGGGATCCATCCCGCCAAATGGCTTCCAAAAGTGCTGGGCTCACAGG
CATGAGCCACCACGTCCGGCTGTCCTTTCCTTCTCTTGACAGTGTCTCTCACAAAGCACAAAGTTATTATTTTCGTGAAGTCCATCTTAATCAATTCTCT
CATGGGCTGTGCCTTTGGTTTTGTATCTAAACAGTCTGCCAAACCCCAGGTGATCTAAGTTTTCTCCTGTGTTACTGTCTAGGAGTTGCATAGTTTTGCA
TTTTACATTTGGGTCTGTGATTCATTTTGTCTTTTTTTTCCCCCACTTTTTGTGGAGAACGGGGTCTCACTATATTGCCCAGGCAGGTCTCGAGCTCCTG
GGCTCAAGCAATCCTCCTGCCTCTGCCTCCTTGAAAGCTGGGATTACAGGCGTGAGCCACCGTGCCAGGCCTGTGATTCATTTTGAATTTATGTTCGYGG
AGGGTATACGGTCTGGTCTAGATTTATTCTCTTTCATGAGGATGTCCAGTTGTTCCAGCAGCGTTTATTGAGGAAAATGCCTTTGCACCATTGCATCCCT
CTGCTGCTTTGTCAGAGGCCAGTTGACTCCTTATGTGGGTGCCCCTGTGATTTGAAGGCCCCAGTGAGACTGGCTGAGTCGAATGAATCGGACTTTTCTT
TCTCTGTCTTGAGCAGTGCTTCTCACTAGTGTCAGGCCCCGTGTCTTTGTACATCTGTGATCTTGGCAGCTGTAGGGATGATGGTGGACTTGTGGTATTT
GGCTGAGAACATCCTTGCAGTCCAGGCTAGGGGTCATGAGCATGGATGAGTCACCTGCTGGCTGTGCCCACGCTTCCCCCGCCACCATCCTCTGCTCTCT
TCTTTGCCTGTGCTTTCTTCTTCCTCGACAGGRTAGAGCTGGCCTCTCTGMCCAAGACAGCTGACAGTGCATCTCCTTTCCCCTGCCGTGTTTCTGGAAC
ATTGAACTTTACCAGTTGTGTTTGTTACTATTTAGTAAGGTTATCTTCTCCATGTTGGGTTTTGCTGGAGGTGTGGGTATGGCATCTTCTAGAGAAGATC
CAGACCTTTTTGGATTAAAAGTAAGGTTACAAATCACTGTGCTGTACTTGTTGTCATATGAGATTTCTGAGTTGTATTGTTGGGATAATTTTCTTTTTCT
TTTTTTGAGATGGAGTCTCGCTGTGTCACCCAGGCTGGARTGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCACCTCCTRGGTTCAAGCAATTCTCCT
GCCTCAGCCTCCYGAGTAGCTGGGATTACAGGTGCCTGCCACCATGTCCAGCTAATATTTTGTATTAGTAGAGACAGGGTTTCACCRTGTTAGCCAGGAT
GGTCTCGATCTCCTGACCTTGTGATCYGCCCGCCTCAGCCTCCCAAAGCGCTGGGATTATAGGGGTGAGCCACTGCGCACAGCCTGTTGGGATAATTTAA
GCTTGACAGTTCAAGGCCTATGAAACAGGACCAGGGCTCAGGAGCATCCTCTTTTTCAGGCCGTTAATTAAGGAAAAGTTGAGCCAGGGCGTGACCCTCG
TCGTGGACAGATACGCATTTTCTGGTGTGGCCTTCACCGGTGCCAAGGAGGTGAGTGCCACTTGGCCTCCTGTCAGGCGAGCACAGATGTGTGGACCCAG
GACTGCCCTTGAATGCGAGTACGAGTGACATGCCTCAGATTACTCTGCAGAGTTTCGTGATTCTTATATTCCTTTTATCTCTTTGCTAGATTAATTTGGT
TTTATCAATAAGAAGAGCAAACATTTATGTAGCTAGAGATTGTTTCACAGATAGAACCATAGTTGGTATTTGGATTATATTTTCCACACGCTTTTTTTTT
TTTTTTTGGGGAGACAGTCTCTCATTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCATTGCAACCTCTGCCTCCTGAGTTCAAGCGATTA
TCCTGCCTCAGTCTCCCGAGTATCTGGGATTATAGGCATGCACCACCGTGCCCAGCTAATTTTCATACTTTTAGTAGAGACGGGGTTTTACCATGTTGGC
CAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACTCATCTCAGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACTGCACCCAGCCTCCAGATG
CATTTTCAAAGATGGTTCATTTGTAGTACTTTTTTCCCCCGTTTTTTGAAAGAGGGCGTCTCCCTCTGTTGCCCAGGCTGGAGTACAGTGGAACAAGCAA
AGCTCGCTATAACAACTCTTGGGCCCAAGTGATCCTCCCGCTTCAGCCTCCCAAAGTGCTGGGATTACAGGCDCGAGCCACCGTGCCCGGCCACGCCCTC
ACTTTTTAATTCTGCCATTTCTTCATGTGTTAGCTTGAGTCCTTCCCCTCTGAAGTATTACGTTGTATAATAAGGAGGACAAGACTCATGATTCCTTTGC
TTCTTCCTGCTGTGCGGATCAGCTGACAGAGCCGCAGGCTCTGTGGGAGGTTCTCGTGGACGCCTTCCCTCAGCTCATTGTGCTGTTGTGTGATGTGTGG
CCTGCAGTCACAGCCTTTCTGGTCCTACCTTTCCTCCGGAAACAGGACAGCATTTGGAGGGAGATGGGATGAGTAAGGGAGGGAGAGAGGGTGCTSGCAC
AGCCCTGGCAAGAAGGGCCAGTGGATGAGACTAGGCTGGCACATAACAGGCTCTAGGAGTGCCTGTCTTCTTCCTGCTCTTCCACGGGAGAGGAGACCCT
GGCGTGTGTGTGGCAGAAAAGACACTGCCAAGGACCTCGTGCCTGTGTCCGGACCCAGCTGCTCTGTGCTGCAGGCGTYCTAGGCCGGGGGTCTCCAGGG
GYTCTGTACATAGACTGTTTGCTCCTGGCCAGCAGGCCTGTAGCTGYGCTGGGAGGGCCTCCATGGGGCCTGGGCTGTGGGTGGCRGGGACTGGCAGCCG
TTCTRTCTACCTACTTTTCTGTCCACTTGTCTGTTTACAAAGGAAAAACAAAGGTGACACTGGAGAAACSGACACRTTTGAGGTTCTAAAAATTAAACGA
GCCACAATATAAACAGTCTCACRTCTTGGTACCTCACCAAATGTCCCCTCATTTTTTCCTGTTTTTACGACTTTCGAAACAAAAACCTAGACTACACTAA
GCTTTAACTGTTGGGTTCTTTCTTGGCAGAATTTTTCCCTAGAYTGGTGTAAACAGCCAGACGTGGGCCTTCCCAAACCYGACCTGGTCCTGTTCCTCCA
GTTACAGCTGGCGGATGMTGCCAAGCGGGGAGCGTTTGGCCATGAGCGCTATGAGAACGGGGCTTTCCAGGAGCGGGCGCTCCGGTGTTTCCACCAGCTC
ATGAAAGACACGACTTTGAACTGGAAGGTGAGAATCCCAGAATTGCACACTAGGAAGCGTGGAGAAGTGGCTCAGGATGACACCGTGGTGGCTGGCACAG
TCGTGTCAGCAAAGCTGCTGCCGTTTCCGTCTGGTCCTCCCAGATGTGGAGCCCCGGGAGTAGTCGTTCAGGGGTTCTCGGTGCCAGCAAATTCTTTTTT
TTTTGAGACAGAATCTTGCTCTGGGTGCCAACCCAGGCTGGAGTGCAATGGCACGATCTCAGCTCACTGCAACCTCCGCTTCTTGGGTTCAAGTGATTCT
CCTGCCTCAGCCTCCRGAGTAGCTGGGATTACAGGCACGTGCCATCATGCCTGGCTAATTTTTTTTGTAGAGATGGGGTTTCTCCACGTTGGTCAGGCTG
GTCTCCAACTCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTATAGGCATGAGCCATCGCGCCCGGCCAGTGCCAGCAAATTC
TAACCCGATGAGTTTTGCTAAATGTTGACATTTGGCGCTTTGTCTGGTGGGTCAGGTGAGAGTCTGCGCAATCCTCCACATCCTCAGCCCCTCTTCAGAC
ACGAGCGCCAGCCTGTTCCTGCCACTGTGTCCTCTGGTGCGGCCTCTCGCTGGGCATGGGCCCTGCAGCAGCACCTGGCCATCTAAGTTCAGGAGGGTGC
TGTGTGCTGCCTCTCCCTTCAGTCCTGCCTCCTTCAYTCTCAGCAGTCCCAGGTCTGGCTCTGCTCCCAGGACGCTGGACTCTCCCCTCCCAGTGGACTC
GCAGGCTGGCCGCCTCTGCTCCTCCCGACCGCAGCCCCTACCTCTCTCCCAGACTCCAGTCGCCCGTGCCCACCGCTGCCCACGTGGCCTCTTTCCAGGC
RGCAGCCAGGGCTTCTGGCACGTCGGGCGCCAGCACTGTCGCTTGTGGCCACGGCCCGCRGAGCTTCAGTCCCTTGAGCTCCTCCTCCAGAGCAGGGCCG
AGGGTCTCGCCCCAGCCCGACTGGCTGTGCCTGCAGATGATGCTGGTCACGCAGCTTTTCGTTTCCCGGAACGCAGGTGGGATAGCAGTGCCCTTTTCTG
GCAGTGCGGCATTCTCTCTGGCAGTCATTCCGCCCGGAGAGGCTCATCTTGGGCGGTTCTGGGCGACAGCTGTGTGGCTGCACAGTGGCCAGTGAGAGGC
ATCTGGGAAGGTGGCCCTTGTGTAGGGAGTCACTCTCCTTCCGTCACGGTCACACCTCATGAAATGGTTAGATTCTTCCAAGTGCCTTCTACGCCCCTGG
CAGATTTTCTAGAATTTGCYGTCCCAGAAGCTTGAGAAGKGTCCGGTGCCACCCGACAGCAGAAGCCGGGATGCCGCTGAGAYGCCAGCGCTTCTGAGTC
CCTCTCACTGCCTGCCTTCTGGTGGAGAGAAGGCTGTCCTGCGGGCTTATGCCCTCCCCACGYTCCTCGCACCGTTCACGCCATTGTGCAGCACAGCTGT
TAGGACCAAATTCATCTTCCCCGCAAGGACGAGTCAGGCCCAGTGTTGCACTGGTCCTGCTGTCTGGCTTCTGCTGCGGAACTTCCTCACCTTCCAGGCA
GGGCCCAGGAGCCACAGGAGCGTGGGCRGGGCAGGGTCTGCCCTCTGTGCTTCCGACTCGCCGCTTGYGAGCTGGAGGGACAGTCACCTCGACCTGGTGG
GCTGGGTGGGYCTGGCTGTGCTGTGGGCTGTGCCTCACTCCTGCAAGTGGGCACTCAGCGGGGTTGGGGTCACGAGGCTGAGGTCGGCTTAAAGCAGGAG
TGGGCAGTTGGCACRTCATGTTTCTCCTGCATCAGGGCTGTGGCAGGAATGCCGGGTGACTACCGTAGACACTTGTCAAGGYTGAGGTTCAGAGAAAGGT
GTGGGGTATCCCGGAGGTCACCACAGTGTGCCAGGAGGTTCAGGTTGGCCTTCCAGAGCCCGGCCTGTGTGAAATCCCCACGAGCACAGAGGACAGAACR
AAACATGGTGTTGTTTTGARACAGGGTGTTACTGTGTCACCCAGGCTGGAGTAGAGTGGTGCCACATTTTTTGTAGAGACGGGGTGTCCCTGTGTAGCCC
AGGCTGGTCTTGAACTCCTGGGTACAAGCAGTCCTCCCTCGTGGGCCTCCCAAAGTGCTGGGATTACAGGCGTGGGCTCCCGTGACYAGCCTGGAACRTG
CTGATGAGCCTCTTTTTCTCCTGAAACCCCGGTGGGAACAGATGGTGGATGCTTCCAAAAGCATCGAAGCTGTCCATGAGGACATCCGCGTGCTCTCTGA
GGACGCCATCCGCACTGCCACAGAGAAGCCGCTGGGGGAGCTATGGAAGTGACCCAAGGCTGCCCACTGGAGACGCCTCTCCCTGCAGTCCCCCGAGAGG
TGGGAGACTCGCRGAAGGCCCYGTCCCCAGCRGAGTCCAGACCCCACAACTTCAGGAGCTCTTTCCCGGCAGCAGAGATCTGCAGGCTGCCTCTTYTGCC
CCGGAGCTGGGGTGCACTGGGGACCCCCGTGGTGGGGACCTTGGCAGTGTGGACATGAGCAGAGCGATGGAGCAGTCTCCTGCCCTCTCCCCTGTCCTGA
TGGCACTCTGTTGTATTTTCTTACTGAAGTTCAGTGATAACTCTGAGCAGTTTCATTGTGATCACTGTAAATGGTAATCAGTTGGAATTCTCCTAAATGT
CTTCCAGACACTAGTAAAAAAMGACCTGAAAATTGTTTGTGGAACGCTTCACTTTTCTTAGACTGAGGACGGAGCTGGCTTTGAATGGGAACCTCCATCC
CAGGAGAGAAGAGCCTTCATTGGGCCCAGTAGGGCCTTCCTGGACCCTGGTTCCTGCCTAGTTGAGGGAGTCCCACTGTGGGTCTGAACAGTTGCAGCCA
TGCCCTGGGCTCGCTGGGTCCAGCCAGGCTATATCCGAGTGTCATCACAGCTTACGTCCTGAACTCACCTAAGTTAACTCTGCTATTTTCATTGCAACCC
TGGAGCTTAACTTCTCATCCTATCCTTTATTTTTTATTTTTTTGGAAACAGGGTCTCACTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCGTGGCTCAC
TGCAGCCTTGACCTCCTGGGCTCAGGTGATCCTCCTACTTCAGCCTCCTGAGTAGCTAGGCCTACAGGCCTTCACTGTGCCTGGGTAATTTTTTTGTGGA
GACAGGATTTCGCTATGTTGCCAGCCAGGCTTGTCTTAAACTCCTGGGCTCAAGTGATCTACCTGCCTTGGCCTCCCCAAAGTGCTGGGAGTACAGGCAT
GAGCCACCATGCCGAGCCCATTGCATCCCCTTTTAAGTGACACTTAGAAGGAATGATTTGACACTCCTGGCAGAATCTGTCCCACAGAGCACACTCCGCA
TAGACAGCAGCATACAGTGTGCTGGAGTAGAAGGCAGGCAGGGTCCCCCATCTGTGGGGGCAGCAGCTGTGGGTCTCAGCACCCTTCTGTGGCCAAGAGA
CAAACCCAGGCAAAACAAAAGGATTTCACTCTTGGGTAAGCATTGCCAGGGGCTGTGGGATGGGCCTGGGTGAGGAACCTTCAGATGAGACTTTCCTGGA
CTATCCAGGTGGGCCCAGTGTCATCACAGGGGCCTTTTTTTGTTGTCTTAAGACTGGGTCTCACTCTGTCATCCAGGCTGGAGTGCAGTGGTGCAATCTT
GACTCACTGCAGCCTCTCTTTCCTGGGCTCAAGTGATCCACCTTAGCCTCCCAAAGTGCTGGGATTACAGGCTGGCGCCACCATGCCTGGCCCATCACGG
GTCCGCATAACAGGGAGGCAGGCGGTCCGAGTCAGGAAATGAGATGCCAACAGCAAAAGCTGGAGAGATGCCATGTTGCTGGCTGTGTGGTTGGAGGAAA
GAGCCATGAGCCAAGCAGTTTCTGGCATCCAGAAGCTAGAAAGGCACAGCAACGTTCTCCCCTAGAGCCCACAGCACGACATGGCTGTCTGCCCTCCGGG
TCTGGAAGAGGCTGTGCTGTTCCAGGCACTGAATGTGATCATCTTTTAGAGCAGCCACAAGAAGCGAATACGAGCATCGGAGAGGCCACAAGTCCTCAGC
CACCTCACCGGGGACCCAGCAGGGCCCCCTCCGGTCTGGCTTTGGGCCCTTCACACCTATACCAGGGCTGCCCACAGGGATGCACTGGCCAGAGTGAGCA
ATGTCCTCACCAAGCCCCCTGCTGTGCCCCAGGCATGGCCTCCCACAGGCCAGGACAGTCACTGCGCACTTGGGGAAGGCTTTGCTATGATTCAAATCGA
GGCAAACCCTGCAACTCCAGGCACTTCCTGTGACTTCCTCCTGCTGAAGATGGGAACCGCCATTTTACTTTCCTAAAATCCTATTTTCCTTGCACTTTTT
CCTTCTAGGGTTGTATGAGGTGGCTGATGCCACGGCTGGTAGAGAGCCAGGCTGCAGGCAGGACAGGCCCCCTGCCAGGGCTGGGGACACACCTGCTCAG
GGCCCCACAGCCCGCCACGCAGGCAGCCACATCCTTTACGTGTGAACGGGCTGAAACATTCACTTATTTTTTTTCTGGAACTCACATTCAATTAGAACTT
AAGGAAAAAATAGACACAAGGTTTGTTTTCTACTGAAACTTATTATTTGCCATTAAGAATTGCAAACTATACTACTAAGAATGAACAACATTCTCTTCAT
TAAGCCTTTTTCAAAACACACGAGACAAAGCTCCCCTTTGGTCAAGGTGTCCCACACATTCCCACTGCAGCTCCCAGCACAGCGGCGCACCATGAACTCG
GACGCGGAGCCCAAGGAATGGAGATCGCACCAGCCTTCCCTGCTTCCCCACCCCAACTACACCCAAGGGAGAAAGGATACGAGGAAATACACTATGTCTT
CAATGCTTGGGGGGCTGGGGGTGTCCTCTGCTACCAGGTGGGCCGGTCAGTGCCGACTGTCCGGCGCGCGTCCTCGGGGATCTCCGGCTCCCCGACCTAC
ACAAGCAGCAGCAGCAGCAGCGAGTCCTGCCAACGCCGCAGTAGCTGCTCATGAGAAAAGTGCCCACGCTCCCCAAGCCCTCCTGTTTACATTTCCTAGT
GGGGCAAAGCTACTTTCCCAGGACAGGCAGCAGAGCAGTGGGGCAGAGTGCACTCTGGGACCCGGGACAGCAGGTTACACAGGGTCAGGCGGTGGTGGGT
GCTGGAATCGGGGCTGAGGTTCTGGAAATGCCACCAGGTGATGCCACCCTGTGGTGTCTGCCCACCACACACCACAAGACTCAAGTGGTTTTCCCCTTTT
GGCCCTAAACCACCTAACACCTCAGCGGCATGGGAGGGCAATTCTCAGCAAGGCAAGGACATGGGGAAGGCTCCTGGGAGAGGCACGCCGTCCACCCTCA
AGCCTGACTGTCACAGGTGGAGGCCCCGCCCCCCCCGTCACCACACCTGGGGAAGCTGCCACAGAATGCCACAGCACTGGAAAGGGACACTCTGAGGGCA
GGCTCCAGCAGCAGCTCCAGGACAGCCAGCCGCCCTTCTGCCCAGGCCGCCCACGCTGTGTCCTGTGCACGCCATCTTCAGGTTTCCCACACACCCACTT
CCTGAATACTTTTCTCCCCAAAGCAAGGAGGAACCTCGCCTTCGTTCCTCCAACCTCATCTCCCACTGAGGTAGCCCTTGGTAAGCCAGGCTGGGCAGAG
AGGACACAGCGGTGGGCGCGCCCCCCTCGAGAGCAGCCCAGTCCTTGGGCGTGGGGCCGCAGTGTGGCTGCCGCTCCTCTCACGCCAGCCTGCACAGGTC
TTCTGAGACTCTGACTCAGGGAGCGCCCCAGAAATTCATGTCTGTGTCTGACAACTTCAAACAGGACTTTAATTCCAAACCAACCACAGAACCGGCGCCT
GGGAGCAAGTGGGACTGAGGCCCAGGTGCTAACACGGGGCTGGCAGTGTCGAGAGAACGCTCTGGAAGCTCCTAACAGACGGCTCCGCGTGCGGATGCAC
AGGCCCTGACGGGCACTCTGAGCTGGGCAGTCTGACACCAAGCAGTAAGGCCTCCCGGGCAGCGCAGCCTCAGTCCACGAGCACAGCGGGTGGCCCTCTG
GGGGGAGGCAGCACGGGGCGCAGCCCTCGGCAGGCGAGCGGGCGGGATGGATGAAACGCAGCGGCACCAGGAGCCCCAGGCTCTCACAGGTGCCACCCCC
GACCCCAGGATTTTCAAAGGGACAGGATTTCAAAGTCTTCATCTTCTGAGTCGAAGAATCTTTCCAGTCGCTCTACATCAGAAGAATCTAGAAGGAACAG
GACATAGCGCATCAGGCATCTTGGGTGGGCCACCTGGGTGTGAGTCAAGGGCCCTTGGCGTGGGGCAGACTGAGCAGTGCCTGCTCTGCAGCCCACAGAC
AGCTGTCCCCATGCGGGTGTGAACAGGTCCGGGGGTTGTGCAGACCTGCGAATATGGGGGGAGGGAGCAGAGAAGAGGAGCAGGGCAGGGTGAGGAGGGC
AGGGGGCGGCCGGCACAATCTCAGGCCTGAGGGGCCTCTGTCCCGCGTCTGACCCTCGTGGTCATCAGGAGTGGTTCCATTGCCATTGCCTTGTTTGTAG
AGTTTCCCACAGGGAGACAGAGATGAGGAGGACGCGCTCACGGCCACTCACTTCACTGCACGAGCCCAGGCCGGCTCCTGCGGCACGCTGGCCATGGTCC
GAGGGGTCTACGCCACCCATGGCCAGTGGTGCCCAAGTGAACCAGTCCCCCACCCAGGACTGCGTCACCACAGAGCCTGCATGTTCTGTCTGCTCCAGAC
CCCTGAGGACTCCATGGTAGCACGCCCAGCTCCACAGCGCCCGGGCAGGCAGCGCTGGTGGGGAAGACGAGGTGGGTCCTGGGCTGCTGGGCGCAAGCTT
GGAGGAGGGGACGCTCCACTCCATACCTGGTCTCACAGGCGAACCACTGCCAAGTGCTCACGGCTCAGGCTCACACACACCTTAATGGTCAAAACCAAGG
GGGCCAGGACTGGGGAAGCAAGGGCACAGATCGTACCTCCGAGGGACCCCACCTGGACTTGGCAGCTCTCACCTAGGGACAGGTTCAGGACGTCGGGGCA
GGCCAGATGTGAAGGCTGCTGCTCCACCAGCTCAAACATGGGCAGGGCACCTCCAAGCAGAGACAGCTGTTAGTGAGACATGGCCGTTAGGTGCAGCCTC
ACCCCAGTGCTTGCTGCGGCCAAGAGAAAGGGGCCAGCCGGCCACAGCCAGCGGACAAACCTGTCATCCCATCTCACTGATGAGAAAACAGAGGCAGCTC
CACACTAAAGGCTACACGAGAACCCAGTGTGGTGATCAACACACAGCACAGTCTGACCACCACGGCAGAGGGGGGTGGGCCACACGCACTCGGCCGGCGT
AGCTCAGCACCCCATCACCACCCCCATCTCAACAGGAGACGGATGAGGACACTGGAAATCCCATTCTAAAGTCAACACGCAACATCCGTCCCCAGGGTTG
TTAACTGTGTTGCCAGATGGGCAATCCAGGACGCCCCACCCTGCTCAGCTACATAGCTGTGCCAGGCGGGACAAAGCTCCCCACGGCCCAGTGAGGCTGC
CTGAGACCTGGACGCAGGCCTTCGACCCCTGCACGCCCCACTGCCTGTCTCCCTGGGTGGCTCAGCTCGGCTGTGGGTGTGGGGCGGCTACAAACCTTTT
TGACTTGCTGGCACCAATCATTGAAGTCATCTTCAGTCTTACAGAAAAACCCCTAAAACGAAATGACGATGAGCAGAACACGACACCCCCATCTGCAGTC
GGCTAAGAGGTGGGGGCTTCCATTCCCACTGCCAGTGGCGCAGCAGAGGCCCCCAGCATGCAGGTGCTGGACATTCCAGCCTGCCTTGGCTCCTGTGGCC
AGGAACGGAGCTCCGAGGGTGCCCTGTGCATGGTCCCCTGCACCAGTGCCCGGCTCCCCTCAGGCTCCACTGCGTTGCTGTGCCTTGATTCGCCCACGAG
ATGTTACGTGGTGTGCATCTCTCAAACCTCACCGAGTGTTCCGGGATTGGGGCAGGTTATGAGTTAGGGCCAAGTGGGGAGCTCTTCTCTCTGTGACTGT
GAGGCAGGGCCGCTGGGTCTCAGCCTTCGCCCAGCAGCTCCCTGGAAGCTTGGCGGCAAAGGCCACCGAGAACTGCCCAAGGACACCGTGACACAGGGAG
CCTCCTGCTGAGGAGCCAGGAGACAGGGGACCGGCCAAGGGTCACCGGCAATCACATCCTTAAAGCTGCCGCCTGTAATGACAGTCACTAGGAATTCTCA
ACGCTGCCAGATGCGCAGATGTTAACACAAAAAGAAACGAAATGGGGGGAGAAGCTCAAACTGGGCACTCTCTTCCCCTGAAGACACCATTCTGCCGCCT
CGGCGCTGGTGTAGGAGCACTCTCCCCCGGGGACAGGGGACATTCCTCCTCCTCACGGGTGAGGACAGTTATCCCACCAGGTGGCCCCTTTGGTCTCAAC
TCAACGTTCACGCGTCCACTCCTCTGTCTGCGGTGGCTGGCTCTCTAGCCTGACCTGACTGTTAGAGTGCCAATCACTGTAAGCCACCAAGCTGCGTTTA
CAGTAACAAACATACCTAATTCTAGTTCGACGAGGAATTCGTGACTAGGTTCTGGTAAGAAGTGTGCGCCAGGCTGCGCGCAGTGGCTCACGCCTGTAAT
CCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCATG


SNP Information

Context             (SEQ ID NO:67237):
AGCGATCCTCCTGCCTTAGCCTCCCAAGTAGCTGGGACTACAGGTGCATGCCACCATGCTAAGTTTTGTATTTCTTTTTTGTTTTCCTCGAGACAGTTTC
R
TTCTTGTCGCCCAGACTGGAGTGCAATGGGGCGATCTTGGCTCACTGCAACCTACGCCTCGCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCAAGTAG
Celera SNP ID:            hCV11536285
SNP Position Genomic:     10268
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67238):
TGTGGGTGGCGGGGACTGGCAGCCGTTCTATCTACCTACTTTTCTGTCCACTTGTCTGTTTACAAAGGAAAAACAAAGGTGACACTGGAGAAACCGACAC
R
TTTGAGGTTCTAAAAATTAAACGAGCCACAATATAAACAGTCTCACATCTTGGTACCTCACCAAATGTCCCCTCATTTTTTCCTGTTTTTACGACTTTCG
Celera SNP ID:            hCV27983658
SNP Position Genomic:     14376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67239):
CCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCGTACGACCATGCACAGCTAATTTTTATGTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGGT
K
GTCTTGAACTCCTGACCTCAAGTGATCCTCCCACGTCGGCCTCCCACAGTGCTGGGATTACAGGCATGAGCCACCATGCCCGACCAATAGTTCATGTCTT
Celera SNP ID:            hCV27962082
SNP Position Genomic:     9318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67240):
CTGGGCTGTGGGTGGCGGGGACTGGCAGCCGTTCTATCTACCTACTTTTCTGTCCACTTGTCTGTTTACAAAGGAAAAACAAAGGTGACACTGGAGAAAC
S
GACACGTTTGAGGTTCTAAAAATTAAACGAGCCACAATATAAACAGTCTCACATCTTGGTACCTCACCAAATGTCCCCTCATTTTTTCCTGTTTTTACGA
Celera SNP ID:            hCV27983659
SNP Position Genomic:     14370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67241):
GTGGCACGGTCTTGGCTCACTGCAGCCTCTACTTCCCAGGCTCAAGCGATCCTCCTGCCTTAGCCTCCCAAGTAGCTGGGACTACAGGTGCATGCCACCA
K
GCTAAGTTTTGTATTTCTTTTTTGTTTTCCTCGAGACAGTTTCATTCTTGTCGCCCAGACTGGAGTGCAATGGGGCGATCTTGGCTCACTGCAACCTACG
Celera SNP ID:            hCV11536287
SNP Position Genomic:     10224
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67242):
GGGCCTTGGGTTGGACAAGCTTGTGGTGAACTGTCTTCCAAAGTGGCTGCAGCATCTTGCATTCTCACCAGCAGTGAACAAGGGTTGCTATTGCTCCAGA
Y
CCTCACCAGCATTTGGTGTTGTCAGTGTTTGGATGTTTGCCATTCTGATAGGTGTGTGTGGCATCTCATTGTTCTAGTTTGCATTTCCCTGCTGACATAT
Celera SNP ID:            hCV11536288
SNP Position Genomic:     9902
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67243):
CTCAGCTAATTTTTGCAATTTTAATTTACTTTATTTTTAAATTTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCT
Y
TTGACCTTGTGATCCACTCGCCTCGGCCTCCCAAAGTTCTGGGATTACGCAGGTGTGAGCCACCGTACCTGGCCCTTTTTTTTTTATTTTTAAGACAAGG
Celera SNP ID:            hCV11536289
SNP Position Genomic:     7887
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67244):
TCCCTGTGTAGCCCAGGCTGGTCTTGAACTCCTGGGTACAAGCAGTCCTCCCTCGTGGGCCTCCCAAAGTGCTGGGATTACAGGCGTGGGCTCCCGTGAC
Y
AGCCTGGAACGTGCTGATGAGCCTCTTTTTCTCCTGAAACCCCGGTGGGAACAGATGGTGGATGCTTCCAAAAGCATCGAAGCTGTCCATGAGGACATCC
Celera SNP ID:            hCV27896733
SNP Position Genomic:     16887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67245):
CTTCCACGGGAGAGGAGACCCTGGCGTGTGTGTGGCAGAAAAGACACTGCCAAGGACCTCGTGCCTGTGTCCGGACCCAGCTGCTCTGTGCTGCAGGCGT
Y
CTAGGCCGGGGGTCTCCAGGGGTTCTGTACATAGACTGTTTGCTCCTGGCCAGCAGGCCTGTAGCTGCGCTGGGAGGGCCTCCATGGGGCCTGGGCTGTG
Celera SNP ID:            hCV410240
SNP Position Genomic:     14179
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,9)   caucasian(C,22|T,14)   total(C,35|T,23)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67246):
TGCCTTCTACGCCCCTGGCAGATTTTCTAGAATTTGCTGTCCCAGAAGCTTGAGAAGGGTCCGGTGCCACCCGACAGCAGAAGCCGGGATGCCGCTGAGA
Y
GCCAGCGCTTCTGAGTCCCTCTCACTGCCTGCCTTCTGGTGGAGAGAAGGCTGTCCTGCGGGCTTATGCCCTCCCCACGCTCCTCGCACCGTTCACGCCA
Celera SNP ID:            hCV27896734
SNP Position Genomic:     16083
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67247):
GCGTGTGTGTGGCAGAAAAGACACTGCCAAGGACCTCGTGCCTGTGTCCGGACCCAGCTGCTCTGTGCTGCAGGCGTTCTAGGCCGGGGGTCTCCAGGGG
Y
TCTGTACATAGACTGTTTGCTCCTGGCCAGCAGGCCTGTAGCTGCGCTGGGAGGGCCTCCATGGGGCCTGGGCTGTGGGTGGCGGGGACTGGCAGCCGTT
Celera SNP ID:            hCV410241
SNP Position Genomic:     14202
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,11)   caucasian(C,22|T,16)   total(C,41|T,27)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67248):
CCACTTGTCTGTTTACAAAGGAAAAACAAAGGTGACACTGGAGAAACCGACACGTTTGAGGTTCTAAAAATTAAACGAGCCACAATATAAACAGTCTCAC
R
TCTTGGTACCTCACCAAATGTCCCCTCATTTTTTCCTGTTTTTACGACTTTCGAAACAAAAACCTAGACTACACTAAGCTTTAACTGTTGGGTTCTTTCT
Celera SNP ID:            hCV410245
SNP Position Genomic:     14423
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,32|G,8)   total(A,66|G,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67249):
TCCCCTCATTTTTTCCTGTTTTTACGACTTTCGAAACAAAAACCTAGACTACACTAAGCTTTAACTGTTGGGTTCTTTCTTGGCAGAATTTTTCCCTAGA
Y
TGGTGTAAACAGCCAGACGTGGGCCTTCCCAAACCCGACCTGGTCCTGTTCCTCCAGTTACAGCTGGCGGATGCTGCCAAGCGGGGAGCGTTTGGCCATG
Celera SNP ID:            hCV410246
SNP Position Genomic:     14544
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,20)   caucasian(C,13|T,21)   total(C,29|T,41)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:67250):
ACCACAGTGTGCCAGGAGGTTCAGGTTGGCCTTCCAGAGCCCGGCCTGTGTGAAATCCCCACGAGCACAGAGGACAGAACGAAACATGGTGTTGTTTTGA
R
ACAGGGTGTTACTGTGTCACCCAGGCTGGAGTAGAGTGGTGCCACATTTTTTGTAGAGACGGGGTGTCCCTGTGTAGCCCAGGCTGGTCTTGAACTCCTG
Celera SNP ID:            hCV25936216
SNP Position Genomic:     16720
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,19)   caucasian(A,13|G,27)   total(A,32|G,46)
SNP Type:                 INTRON


Context             (SEQ ID NO:67251):
AGAAGAGCAAACATTTATGTAGCTAGAGATTGTTTCACAGATAGAACCATAGTTGGTATTTGGATTATATTTTCCACACGCTTTTTTTTTTTTTTTTGGG
G
AGACAGTCTCTCATTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCATTGCAACCTCTGCCTCCTGAGTTCAAGCGATTATCCTGCCTCAG
Celera SNP ID:            hCV28263
SNP Position Genomic:     13211
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|-,4)   total(G,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67252):
CCAGGCTGGAGTACAGTGGAACAAGCAAAGCTCGCTATAACAACTCTTGGGCCCAAGTGATCCTCCCGCTTCAGCCTCCCAAAGTGCTGGGATTACAGGC
D
CGAGCCACCGTGCCCGGCCACGCCCTCACTTTTTAATTCTGCCATTTCTTCATGTGTTAGCTTGAGTCCTTCCCCTCTGAAGTATTACGTTGTATAATAA
Celera SNP ID:            hCV9233101
SNP Position Genomic:     13673
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,3)      total(G,3|T,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67253):
TGTGGCCTGCAGTCACAGCCTTTCTGGTCCTACCTTTCCTCCGGAAACAGGACAGCATTTGGAGGGAGATGGGATGAGTAAGGGAGGGAGAGAGGGTGCT
S
GCACAGCCCTGGCAAGAAGGGCCAGTGGATGAGACTAGGCTGGCACATAACAGGCTCTAGGAGTGCCTGTCTTCTTCCTGCTCTTCCACGGGAGAGGAGA
Celera SNP ID:            hCV9233102
SNP Position Genomic:     13996
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,4)      total(G,4|C,1) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67254):
AGAGAAGCCGCTGGGGGAGCTATGGAAGTGACCCAAGGCTGCCCACTGGAGACGCCTCTCCCTGCAGTCCCCCGAGAGGTGGGAGACTCGCGGAAGGCCC
Y
GTCCCCAGCGGAGTCCAGACCCCACAACTTCAGGAGCTCTTTCCCGGCAGCAGAGATCTGCAGGCTGCCTCTTCTGCCCCGGAGCTGGGGTGCACTGGGG
Celera SNP ID:            hCV11536256
SNP Position Genomic:     17122
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67255):
GCAGGCTGGCCGCCTCTGCTCCTCCCGACCGCAGCCCCTACCTCTCTCCCAGACTCCAGTCGCCCGTGCCCACCGCTGCCCACGTGGCCTCTTTCCAGGC
R
GCAGCCAGGGCTTCTGGCACGTCGGGCGCCAGCACTGTCGCTTGTGGCCACGGCCCGCGGAGCTTCAGTCCCTTGAGCTCCTCCTCCAGAGCAGGGCCGA
Celera SNP ID:            hCV27523530
SNP Position Genomic:     15601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67256):
CGAAGCTGTCCATGAGGACATCCGCGTGCTCTCTGAGGACGCCATCCGCACTGCCACAGAGAAGCCGCTGGGGGAGCTATGGAAGTGACCCAAGGCTGCC
C
ACTGGAGACGCCTCTCCCTGCAGTCCCCCGAGAGGTGGGAGACTCGCGGAAGGCCCCGTCCCCAGCGGAGTCCAGACCCCACAACTTCAGGAGCTCTTTC
Celera SNP ID:            hCV11536257
SNP Position Genomic:     17065
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,2)   total(C,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67257):
CTGGGGGAGCTATGGAAGTGACCCAAGGCTGCCCACTGGAGACGCCTCTCCCTGCAGTCCCCCGAGAGGTGGGAGACTCGCGGAAGGCCCCGTCCCCAGC
R
GAGTCCAGACCCCACAACTTCAGGAGCTCTTTCCCGGCAGCAGAGATCTGCAGGCTGCCTCTTCTGCCCCGGAGCTGGGGTGCACTGGGGACCCCCGTGG
Celera SNP ID:            hCV7440073
SNP Position Genomic:     17132
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,15)   caucasian(A,10|G,18)   total(A,25|G,33)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67258):
AGAGGTGGGAGACTCGCGGAAGGCCCCGTCCCCAGCGGAGTCCAGACCCCACAACTTCAGGAGCTCTTTCCCGGCAGCAGAGATCTGCAGGCTGCCTCTT
Y
TGCCCCGGAGCTGGGGTGCACTGGGGACCCCCGTGGTGGGGACCTTGGCAGTGTGGACATGAGCAGAGCGATGGAGCAGTCTCCTGCCCTCTCCCCTGTC
Celera SNP ID:            hCV7440074
SNP Position Genomic:     17196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67259):
GGGATAATTTTCTTTTTCTTTTTTTGAGATGGAGTCTCGCTGTGTCACCCAGGCTGGAATGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCACCTCCT
R
GGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCATGTCCAGCTAATATTTTGTATTAGTAGAGACAGGGTTT
Celera SNP ID:            hCV11536275
SNP Position Genomic:     12582
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,7|G,27)   total(A,10|G,60)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67260):
TCACCTGCTGGCTGTGCCCACGCTTCCCCCGCCACCATCCTCTGCTCTCTTCTTTGCCTGTGCTTTCTTCTTCCTCGACAGGGTAGAGCTGGCCTCTCTG
M
CCAAGACAGCTGACAGTGCATCTCCTTTCCCCTGCCGTGTTTCTGGAACATTGAACTTTACCAGTTGTGTTTGTTACTATTTAGTAAGGTTATCTTCTCC
Celera SNP ID:            hCV11536276
SNP Position Genomic:     12251
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,12)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67261):
GTCATGAGCATGGATGAGTCACCTGCTGGCTGTGCCCACGCTTCCCCCGCCACCATCCTCTGCTCTCTTCTTTGCCTGTGCTTTCTTCTTCCTCGACAGG
R
TAGAGCTGGCCTCTCTGACCAAGACAGCTGACAGTGCATCTCCTTTCCCCTGCCGTGTTTCTGGAACATTGAACTTTACCAGTTGTGTTTGTTACTATTT
Celera SNP ID:            hCV11536277
SNP Position Genomic:     12233
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67262):
CGGGGGTCTCCAGGGGTTCTGTACATAGACTGTTTGCTCCTGGCCAGCAGGCCTGTAGCTGCGCTGGGAGGGCCTCCATGGGGCCTGGGCTGTGGGTGGC
R
GGGACTGGCAGCCGTTCTATCTACCTACTTTTCTGTCCACTTGTCTGTTTACAAAGGAAAAACAAAGGTGACACTGGAGAAACCGACACGTTTGAGGTTC
Celera SNP ID:            hCV27854532
SNP Position Genomic:     14286
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,24)   caucasian(G,38)   total(A,6|G,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:67263):
TCTCCGGCCGTCCAGCCCGCGCCGCGTCACCTCCCCTCCCGGAGCGAAGGGCCCTGCTCGCCCGAGGACGGAGGCCCGCACGGGACACGGGGCCCCAGTT
Y
CCGCCCCGGAAGCCCAGGACACGGCTCCAGTGGCGGCGCGGCCCAGGGCGCAGGCGCGGGTGTCGGTCCCACCGCGCGTCGTCCTCGCCCCGGCCCCGGC
Celera SNP ID:            hCV11536295
SNP Position Genomic:     6204
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67264):
GATCTTGGCTCACTGCAACCTACGCCTCGCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCTCAAGTAGCTGTGATCACAGGTGCCCACCACCACGCCCGG
C
TAATTTTTCTATTTTTTAGTTAGTGATGGGGTTTCGTCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCTTTAGCCTCCCAA
Celera SNP ID:            hCV26891613
SNP Position Genomic:     10401
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|-,5)   total(C,4|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67265):
TGTGGGGTATCCCGGAGGTCACCACAGTGTGCCAGGAGGTTCAGGTTGGCCTTCCAGAGCCCGGCCTGTGTGAAATCCCCACGAGCACAGAGGACAGAAC
R
AAACATGGTGTTGTTTTGAAACAGGGTGTTACTGTGTCACCCAGGCTGGAGTAGAGTGGTGCCACATTTTTTGTAGAGACGGGGTGTCCCTGTGTAGCCC
Celera SNP ID:            hCV29271252
SNP Position Genomic:     16700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67266):
CGCAGCCAGGGGCCAACGAGAGCCGACGCTGGGCGGGCAGCGTCCGGGAGCCCCTCCGACCCTGCGCTCCCCTCGTCCGCGCCCTGACCCCGCGTCTCCG
R
CCGTCCAGCCCGCGCCGCGTCACCTCCCCTCCCGGAGCGAAGGGCCCTGCTCGCCCGAGGACGGAGGCCCGCACGGGACACGGGGCCCCAGTTTCCGCCC
Celera SNP ID:            hCV11536297
SNP Position Genomic:     6110
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67267):
TTTTCCTAAAGCATTTTTCATCCCAGCTTGTTTGCAGATTGCTGTTATTGCTCAGAGAAATTCCTTTGGCTTCCGCAGAAGATCCAAGCCTGTCTAGAGA
W
TTAGTAAAGTAAAATTCAACGTGAGACTTGAGTCCGGGAGAAATTCAGTCCAAACTATATTGTAATATAGAGGGAAAGCCTGATCTCACTTGCATTTTGT
Celera SNP ID:            hCV25933332
SNP Position Genomic:     7181
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,20)   caucasian(A,8|T,16)   total(A,14|T,36)
SNP Type:                 INTRON


Context             (SEQ ID NO:67268):
AAGCCGGGATGCCGCTGAGATGCCAGCGCTTCTGAGTCCCTCTCACTGCCTGCCTTCTGGTGGAGAGAAGGCTGTCCTGCGGGCTTATGCCCTCCCCACG
Y
TCCTCGCACCGTTCACGCCATTGTGCAGCACAGCTGTTAGGACCAAATTCATCTTCCCCGCAAGGACGAGTCAGGCCCAGTGTTGCACTGGTCCTGCTGT
Celera SNP ID:            hCV29271254
SNP Position Genomic:     16163
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67269):
TACTGAAGTTCAGTGATAACTCTGAGCAGTTTCATTGTGATCACTGTAAATGGTAATCAGTTGGAATTCTCCTAAATGTCTTCCAGACACTAGTAAAAAA
M
GACCTGAAAATTGTTTGTGGAACGCTTCACTTTTCTTAGACTGAGGACGGAGCTGGCTTTGAATGGGAACCTCCATCCCAGGAGAGAAGAGCCTTCATTG
Celera SNP ID:            hCV25938369
SNP Position Genomic:     17422
SNP Source:               Applera
Population(Allele,Count): african american(A,16|C,20)   caucasian(A,15|C,23)   total(A,31|C,43)
SNP Type:                 UTR 3


Context             (SEQ ID NO:67270):
TCGCCCGTGCCCACCGCTGCCCACGTGGCCTCTTTCCAGGCGGCAGCCAGGGCTTCTGGCACGTCGGGCGCCAGCACTGTCGCTTGTGGCCACGGCCCGC
R
GAGCTTCAGTCCCTTGAGCTCCTCCTCCAGAGCAGGGCCGAGGGTCTCGCCCCAGCCCGACTGGCTGTGCCTGCAGATGATGCTGGTCACGCAGCTTTTC
Celera SNP ID:            hCV27520322
SNP Position Genomic:     15660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67271):
TTGCTCTGGGTGCCAACCCAGGCTGGAGTGCAATGGCACGATCTCAGCTCACTGCAACCTCCGCTTCTTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCC
R
GAGTAGCTGGGATTACAGGCACGTGCCATCATGCCTGGCTAATTTTTTTTGTAGAGATGGGGTTTCTCCACGTTGGTCAGGCTGGTCTCCAACTCCTGAC
Celera SNP ID:            hCV29271255
SNP Position Genomic:     15016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67272):
AGAGCCGACGCTGGGCGGGCAGCGTCCGGGAGCCCCTCCGACCCTGCGCTCCCCTCGTCCGCGCCCTGACCCCGCGTCTCCGGCCGTCCAGCCCGCGCCG
Y
GTCACCTCCCCTCCCGGAGCGAAGGGCCCTGCTCGCCCGAGGACGGAGGCCCGCACGGGACACGGGGCCCCAGTTTCCGCCCCGGAAGCCCAGGACACGG
Celera SNP ID:            hCV29271256
SNP Position Genomic:     6128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67273):
CTTCTGCTGCGGAACTTCCTCACCTTCCAGGCAGGGCCCAGGAGCCACAGGAGCGTGGGCAGGGCAGGGTCTGCCCTCTGTGCTTCCGACTCGCCGCTTG
Y
GAGCTGGAGGGACAGTCACCTCGACCTGGTGGGCTGGGTGGGCCTGGCTGTGCTGTGGGCTGTGCCTCACTCCTGCAAGTGGGCACTCAGCGGGGTTGGG
Celera SNP ID:            hCV410256
SNP Position Genomic:     16368
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67274):
GACGAGTCAGGCCCAGTGTTGCACTGGTCCTGCTGTCTGGCTTCTGCTGCGGAACTTCCTCACCTTCCAGGCAGGGCCCAGGAGCCACAGGAGCGTGGGC
R
GGGCAGGGTCTGCCCTCTGTGCTTCCGACTCGCCGCTTGCGAGCTGGAGGGACAGTCACCTCGACCTGGTGGGCTGGGTGGGCCTGGCTGTGCTGTGGGC
Celera SNP ID:            hCV27940171
SNP Position Genomic:     16328
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67275):
GCCACAGGAGCGTGGGCAGGGCAGGGTCTGCCCTCTGTGCTTCCGACTCGCCGCTTGCGAGCTGGAGGGACAGTCACCTCGACCTGGTGGGCTGGGTGGG
Y
CTGGCTGTGCTGTGGGCTGTGCCTCACTCCTGCAAGTGGGCACTCAGCGGGGTTGGGGTCACGAGGCTGAGGTCGGCTTAAAGCAGGAGTGGGCAGTTGG
Celera SNP ID:            hCV410257
SNP Position Genomic:     16411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67276):
TCCGTCACGGTCACACCTCATGAAATGGTTAGATTCTTCCAAGTGCCTTCTACGCCCCTGGCAGATTTTCTAGAATTTGCTGTCCCAGAAGCTTGAGAAG
K
GTCCGGTGCCACCCGACAGCAGAAGCCGGGATGCCGCTGAGATGCCAGCGCTTCTGAGTCCCTCTCACTGCCTGCCTTCTGGTGGAGAGAAGGCTGTCCT
Celera SNP ID:            hCV27940172
SNP Position Genomic:     16040
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67277):
CGGAGGCCCGCACGGGACACGGGGCCCCAGTTTCCGCCCCGGAAGCCCAGGACACGGCTCCAGTGGCGGCGCGGCCCAGGGCGCAGGCGCGGGTGTCGGT
Y
CCACCGCGCGTCGTCCTCGCCCCGGCCCCGGCCAATCCCTTCGAATTTGGCCGAGGCCGGGAAATACTAGCTAATCACGGCGCGCGCTGTTGACGCCGGC
Celera SNP ID:            hCV25972043
SNP Position Genomic:     6272
SNP Source:               Applera
Population(Allele,Count): african american(C,16)   caucasian(C,33|T,1)   total(C,49|T,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67278):
GCTGTGCTGTGGGCTGTGCCTCACTCCTGCAAGTGGGCACTCAGCGGGGTTGGGGTCACGAGGCTGAGGTCGGCTTAAAGCAGGAGTGGGCAGTTGGCAC
R
TCATGTTTCTCCTGCATCAGGGCTGTGGCAGGAATGCCGGGTGACTACCGTAGACACTTGTCAAGGTTGAGGTTCAGAGAAAGGTGTGGGGTATCCCGGA
Celera SNP ID:            hCV410258
SNP Position Genomic:     16515
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67279):
GTGCGGCCTCTCGCTGGGCATGGGCCCTGCAGCAGCACCTGGCCATCTAAGTTCAGGAGGGTGCTGTGTGCTGCCTCTCCCTTCAGTCCTGCCTCCTTCA
Y
TCTCAGCAGTCCCAGGTCTGGCTCTGCTCCCAGGACGCTGGACTCTCCCCTCCCAGTGGACTCGCAGGCTGGCCGCCTCTGCTCCTCCCGACCGCAGCCC
Celera SNP ID:            hCV27940173
SNP Position Genomic:     15437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67280):
GGTCGGCTTAAAGCAGGAGTGGGCAGTTGGCACATCATGTTTCTCCTGCATCAGGGCTGTGGCAGGAATGCCGGGTGACTACCGTAGACACTTGTCAAGG
Y
TGAGGTTCAGAGAAAGGTGTGGGGTATCCCGGAGGTCACCACAGTGTGCCAGGAGGTTCAGGTTGGCCTTCCAGAGCCCGGCCTGTGTGAAATCCCCACG
Celera SNP ID:            hCV410259
SNP Position Genomic:     16582
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67281):
CCCAGGCTGGTCTTGAACTCCTGGGTACAAGCAGTCCTCCCTCGTGGGCCTCCCAAAGTGCTGGGATTACAGGCGTGGGCTCCCGTGACCAGCCTGGAAC
R
TGCTGATGAGCCTCTTTTTCTCCTGAAACCCCGGTGGGAACAGATGGTGGATGCTTCCAAAAGCATCGAAGCTGTCCATGAGGACATCCGCGTGCTCTCT
Celera SNP ID:            hCV25943427
SNP Position Genomic:     16898
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:67282):
TGTACATAGACTGTTTGCTCCTGGCCAGCAGGCCTGTAGCTGCGCTGGGAGGGCCTCCATGGGGCCTGGGCTGTGGGTGGCGGGGACTGGCAGCCGTTCT
R
TCTACCTACTTTTCTGTCCACTTGTCTGTTTACAAAGGAAAAACAAAGGTGACACTGGAGAAACCGACACGTTTGAGGTTCTAAAAATTAAACGAGCCAC
Celera SNP ID:            hCV27940174
SNP Position Genomic:     14305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67283):
CAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCATGTCCAGCTAATATTTTGTATTAGTAGAGACAGGGTTTCACC
R
TGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCCGCCTCAGCCTCCCAAAGCGCTGGGATTATAGGGGTGAGCCACTGCGCACAGCCTGT
Celera SNP ID:            hCV25935443
SNP Position Genomic:     12687
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:67284):
GTCCGGACCCAGCTGCTCTGTGCTGCAGGCGTTCTAGGCCGGGGGTCTCCAGGGGTTCTGTACATAGACTGTTTGCTCCTGGCCAGCAGGCCTGTAGCTG
Y
GCTGGGAGGGCCTCCATGGGGCCTGGGCTGTGGGTGGCGGGGACTGGCAGCCGTTCTATCTACCTACTTTTCTGTCCACTTGTCTGTTTACAAAGGAAAA
Celera SNP ID:            hCV27838845
SNP Position Genomic:     14247
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,33|T,3)   total(C,61|T,5)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67285):
TGCTGTACTTGTTGTCATATGAGATTTCTGAGTTGTATTGTTGGGATAATTTTCTTTTTCTTTTTTTGAGATGGAGTCTCGCTGTGTCACCCAGGCTGGA
R
TGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCC
Celera SNP ID:            hCV25936192
SNP Position Genomic:     12540
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,36)   total(A,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:67286):
GTTAACACACCTGGCTAATTTTTGTAAAATTTTTTGTAGCGATGGAGTCTCACTATTGTTGCCCAGGCTGGTCTTGAACTCCTGGACCCAAGCAGTCCTC
Y
TGCCTTGGTTTCCCAAAGTGCTGTGATTAGAGGCATGAGCCACCCTGCCTGGCCTTATTTTTTTTTAGGAGAAATGTCTTGCTCTGTTGCCCAGGCTGGA
Celera SNP ID:            hCV497296
SNP Position Genomic:     11068
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67287):
CAAAAACCTAGACTACACTAAGCTTTAACTGTTGGGTTCTTTCTTGGCAGAATTTTTCCCTAGACTGGTGTAAACAGCCAGACGTGGGCCTTCCCAAACC
Y
GACCTGGTCCTGTTCCTCCAGTTACAGCTGGCGGATGCTGCCAAGCGGGGAGCGTTTGGCCATGAGCGCTATGAGAACGGGGCTTTCCAGGAGCGGGCGC
Celera SNP ID:            hCV7440065
SNP Position Genomic:     14580
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:67288):
CTTTCTTGGCAGAATTTTTCCCTAGACTGGTGTAAACAGCCAGACGTGGGCCTTCCCAAACCCGACCTGGTCCTGTTCCTCCAGTTACAGCTGGCGGATG
M
TGCCAAGCGGGGAGCGTTTGGCCATGAGCGCTATGAGAACGGGGCTTTCCAGGAGCGGGCGCTCCGGTGTTTCCACCAGCTCATGAAAGACACGACTTTG
Celera SNP ID:            hCV7440066
SNP Position Genomic:     14618
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:67289):
CTGGGCTCAAGCAATCCTCCTGCCTCTGCCTCCTTGAAAGCTGGGATTACAGGCGTGAGCCACCGTGCCAGGCCTGTGATTCATTTTGAATTTATGTTCG
Y
GGAGGGTATACGGTCTGGTCTAGATTTATTCTCTTTCATGAGGATGTCCAGTTGTTCCAGCAGCGTTTATTGAGGAAAATGCCTTTGCACCATTGCATCC
Celera SNP ID:            hCV11536284
SNP Position Genomic:     11798
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67290):
CACTGCCACAGAGAAGCCGCTGGGGGAGCTATGGAAGTGACCCAAGGCTGCCCACTGGAGACGCCTCTCCCTGCAGTCCCCCGAGAGGTGGGAGACTCGC
R
GAAGGCCCCGTCCCCAGCGGAGTCCAGACCCCACAACTTCAGGAGCTCTTTCCCGGCAGCAGAGATCTGCAGGCTGCCTCTTCTGCCCCGGAGCTGGGGT
Celera SNP ID:            hCV7440067
SNP Position Genomic:     17113
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67291):
GAGTCTCGCTGTGTCACCCAGGCTGGAATGCAGTGGTGTGATCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCC
Y
GAGTAGCTGGGATTACAGGTGCCTGCCACCATGTCCAGCTAATATTTTGTATTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCC
Celera SNP ID:            hCV25935809
SNP Position Genomic:     12613
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,37|T,1)   total(C,70|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:67292):
TACAGGTGCCTGCCACCATGTCCAGCTAATATTTTGTATTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATC
Y
GCCCGCCTCAGCCTCCCAAAGCGCTGGGATTATAGGGGTGAGCCACTGCGCACAGCCTGTTGGGATAATTTAAGCTTGACAGTTCAAGGCCTATGAAACA
Celera SNP ID:            hCV25935397
SNP Position Genomic:     12727
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,37|T,1)   total(C,74|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:67293):
GTGTAGGGAGTCACTCTCCTTCCGTCACGGTCACACCTCATGAAATGGTTAGATTCTTCCAAGTGCCTTCTACGCCCCTGGCAGATTTTCTAGAATTTGC
Y
GTCCCAGAAGCTTGAGAAGGGTCCGGTGCCACCCGACAGCAGAAGCCGGGATGCCGCTGAGATGCCAGCGCTTCTGAGTCCCTCTCACTGCCTGCCTTCT
Celera SNP ID:            hCV27983657
SNP Position Genomic:     16020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Intergenic Region Number:  1
Celera Axis ID:            GA_x5YUV32VSLL - 211000035830420 (225647..265647)
Chromosome:                19

Genomic Sequence (SEQ ID NO:12599):
CTCCCAGACTGAAGCAGTCCTGCTTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCAGGCCTACTTAAATTTTTTTTTTTTTAATTG
AACTGCACAAACAGAAAATGCACAAATGATAAATACTTAGTTTGATGAATGTTCTCAAGGGGAGAACACACCTGAACCCACCATGCAGATGGAGAATTAG
GAGAAGGAAGAGTGCTATGTCCTGTAATGTGATGGAGCGATAAGTTATCATCAAGGAGAAAAAGGCCGGGGCCTGGAGCGGGACAGTTCTAAGGGTGCTG
TTTGAATTGGTCAGGGAAGKTCTCTTTAGCAAATGATGGTGAAGCAGAGGAGATGGAACAGAGGCAAGGGACCCTCATTCTGTCATCAGAGGGAAGAGAA
TTCTAGGCAGAAGGAACAGCCAGTGCAAAGGCCCAGAGGCACGAGCAAGCTTGTGTTGGAGGAACAGTGAGGATGGCTGCTGCTCCATAAGGAATCTCTG
CGGCTTTAATCCAACTTCAAGTTTGGGGTGAACTTGAAGTTTAAAGAGGAAAGAAAGATGAGAAAGTAGGGGAAGAACTGGTTTCTCCTCCTGGCTGTGC
CTTTGTCTCCCTTGTGTGTGGAAGAGGTCCCAAGGCAGGGTAAAGTCGAGAYTCAGCTCTGGCACACTCTTCCTGTCTTCATCTCATGCCCAGTAAGAAG
CCCTGATTCAAGCCACCAGCCCAAGCCCAGGCCTCTGTCCCGACATAATAATAATTTTAGCTAATGTTTATCAAGCACTTACTATATGCCAGGCACTACC
CTAAGTGCTTTACATACTATAACTCATTTTCATCTCACCTGAGCCCTATGAGGAAATAGTCCACCATTCTCATCCCCATTTTACAGACAAGGAAACTGAA
GCACAGAGAAGTCAAGTAACTGGCTCAAAGTCACACAGCTATTTAGTGACAGAGCTGGGCTTCGGACCCACACAGCCTGGATCCAGACCCATGACCTTCA
CCATGGGGACAAACACACATGCACTTCCTACTCCACTGGTCTTTGCTGATCTAGTAACTCTCCTCCACTACCCACCATGACATAAATAAGCCTCAGCTGT
TCTTCCCTGAACCCACCCTCTGCAGGATTGTCCCTGTGCAGAACAGCTCATTCATAGATCAGAGCCTTCCCTGGAAGGGGAGTTGTCTTTTCATTTTGAA
GGCTGTCTTGGAATCTCGGCTAAACCACGGTTGGCTCCTGCGTCTGTGTTTTGACCTGCTTTCATACTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCG
CTCTTGTCACCCAGGCTGGAGTGCAATGGCGGAATCTTGGCTCACCGCAACCTCCGCCTCCCGGGTTCAAACGATTCTCCTGCCTCAGCCTCCTGAGTAG
CTGGGATTACAGGCATGCGCCACCATGCTAATTTTTGTGTTTTTAGAAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAG
GTGATCCCCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGYGCCCAGCCCCTTAATGCTCTTGAAAGAAAGGAGGAAGAAGTTCT
AGGACAGGAGAGACAGATTAGTGAAGCAACATTTAAATATTTACTTTTTGAATATGTCATACATTCACATGGTTCTAAAAAAGGTATGTGGTGAAAAGTC
TTATCACATCCTGTCCCCCAGGTCCCCTCCCCTGCAGAGTTATTAGCAGCTTATAAATCATATCTCGCTTTCTATCCTATGGACCAGCACTGCCCGGTGG
AACTTTCTACAATGATAGAAATGTTCCTTATCCAGGCTAGGCATGGTTACTCACACCTGTAATCCCAGCACTTTGGGACTCTGAGGCAGATGGATCACCT
GATGGCAGGAGTTCRAGACCAGCATGGCCAACATGGCAAAACCTGATCTCTACTAAAAATTCAAAATTAGCCAGGCATGGTGGCAGGTGCCTGTAATCTC
AGCTACTCGGGAGGCTGAGGCACAAGAATCGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATTATGCCACTGTACTCTGGCCTAGGTAACAGA
GTGACACTCTTGTCTAAAAAAATAAAAAGAAAGAAAATGGTTCTTATCTGTACTGTCCAATCCAGAGGCCACTGGCCACACATGGCTACAGAATGCTTAA
TGAGGCCAGTATGACTGAGGAACTGAATTTGTCATTTAATTTATCGAAATGTAAACAACCTAATGKAGCTAGTGGCTTCTGGATTGGACAGCGCAGCTCT
GCACATATACAGGTCAATTTGCATGTCTGTATKTTTAACTTTAATTTTTAACTTTATTTCCTCTTTCTGCCCCGCCACCCCCCACCCCCAGCAAGCAGGG
CAGCCTAGTGTACACGCTGTTTTTGTTTGTTTGTTTGTTTGTTCTTTGAGACAGGGTTTCACTCCTGTCACCCAGGCTGGAGTGCAGTGGCACGCTGTTG
GCTCACTATAACCTCCACCTCCTGGGCTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAACTGGGACTATAGGCATGCACCACCATGCCTGGCTAATTT
TTGTATTTTTAGTAGAGACGAGGTTTCACCATGTTGGCCAAGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACTCACCTTGGCCTCCTGAAGTGCTGG
GATTACAGGTCGGGGCCACCACACCCGGCCTGTACATGCTGTTTTGCATCTTGCTTTATACGTTGGGGAGTGCCAGATGTCACCATCTTTCGTTCTTCCT
CTGGGGCTGGTCAAATCCCCCTGAGAAAACTCCTCTGGCCTCCTGGCGGGGGGTGAAGGCCAGGCTGCCAGGGCCAGGCTGCCAGCTTCTGGGAGCTGCA
GGGGCAGAGGCAGGGAGCTGTCAGGCATTCAGCCAGCAAGACGCACTCAGTACCCACTTGGGGTTCAGAATCCCCCTCCCTCATCTTCAGATGGGCCAGA
TGTCCCCAAAGCCAGCGGCCCCTTTCTGTTTCACCCTGTCTACAGAATAAACCCCCAGTCACTGGGGGTGGGGGAAGAGTAAGGGGAGAGGGGAAACGAG
ATTTGGAGGTCTAGCTGCTGCTGAAACAGCCCTCAGTTCGTCTTTATTTTGCCTTCTGCAAAACTGGCCTGGTGTTGCCAGCTCCTTTTGAGGACTTTGC
TACCGGTTCTCAGCATCCCTCAATTGCTGGCTTAGGATTCATGGGTTTTTAGGGGTGGGGTGGGATTAGCATGTCCAGCTGCTTTCCAGTTTCCAAAGTT
CTGTCCCTATCATATTGCCTCTGATTTAAAAAAAAAAAAAAGCCATTTTAAAAAAAAGATGTAATTGAGGTTCAAGAGAGAGTGAAACTAGAGAGGTGTT
CAATCCATCACTTTTACACAGAAATTTCACCTTTTTTTCACTTATAAAATCTAATGAAAGAGTTCTATATTATTATGTTAATAATACAGTAGTAATATAA
CAGTATAATGTAATAGATAATTAATATATTATATTAATTATATATTATAATTAWATATTATATTATATATATTATATATTATATATTAATTATATATATT
ATATATATTATATATTATATTATAATATATTATATTATATATATTATATATTATATTATAATATATTATATTATATATATTATATATTATATTATAATAT
ATTATATTATATTATATATATTATATATTATATTATTATTATATTATAKTATATATATTATATATAATATTATATATATTATATATTATATATATAATAT
TATATATTATATTAATATTATAATATGTAACGCATAACATGTAATATTGATAATATAATAGGTGCGATGGCTCACACCTGTAATCTCAGCACTTTGGGAG
GCCGAAGCGAGAGGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGGCCAACATAACGAGCACCTGTCTCTACAAAAAATTAAAAAAAAAAAAATTAGG
CATGGTGGCATGCATCTGTAGTCCCAGCTACTCAAGAGGCTGAGGCACGAGGGTTGCTTGAGCCCAGGAGCTTCAGGCTGCAGTAAGCTATGATCACACC
ACTGTACTCCAGCCTTGACAACAGAGTGAGACCCTTTAAATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGACAGACAGACAGC
AAGCTTTAAATTTTCATCCCAAGCCTAGGTCAAGCAACAATCAGTCTTTCCACTTCCCAGCAGTCTTCCAAAGGAAGGATTATTTGTAAAAAGTGCCTGC
ACTTCCTGAGTTGGGTTGCTCTCTTGATCTTTGGAGGGGATCAGACAAGAAGGATGCGCCCAAAGCCACAAGGCATGATTTAAGGGCAAGACTGGGGGGC
GACTTCACCCAGGGAGGTGTTAATACCTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCTCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTCAGCA
CGACCTCCATCTCCCAGGTTCAGGTGATTCTTGTGCCTCAGCCTCTTGAGTAGCTGGGACTACAGGCGTGCGCCACCAGGCCTGGCTAATTTTGTGTGTG
TGTGTTTTAGTAGAGATGGGGTTTCATCATGTTGGCCAGAATGGTCTCGATCTCCTGGCCTGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATT
ACAGGCGTGAGCCACCGCACCCAACCTTTAACACCTTTTATCACCTGCCCTGCCTGATGATGATGGGCTTTGGGGTCCAGTCACATCTCCATTCCCTCAC
TTGTGGCAGGCACCAGGGTAACCAGCAAGCAAGCCCTGAAAAGAGAGACCTTGCCCGGAAACGTTGCAGCGTTCTCTTACGTGTATGCTTTGCCTTCTGA
GAATGGCGAGCATTGATGCAAGTGTATCCCTTTTAAGAATACTCAATGGGGCCAGGCGTGATGGCTCACACCTGTAAGCCCAGCACTTTGGGAGGCTGAG
GCGGGTGGATCACGAGGTCAGGAGATCGAGACCAGCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGGTGGCA
GGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGAAGGCGGAGCTTGCAGTGAGCTGAGCTCACACCACTGTACTCC
AGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAGAATACTCCATGGGAAGCTGGTATGATCTCAGTGGAGGGCAATTTAGCAATATCTATCAAA
ATGACAAGAACACTCACCCTTAGGCTCACAATCCCACTACTGGTGATTTMTCCTGCAGATGTAGTTGCACAGCTGTGGAAGGACTTACTTACAAGGTTAA
TCATTGTTGTTTGTGAAAGCAGCAGATTAGAAACAACCCAGACTCCACCAACGGGTAATGGTTACATAACTTGTGGTATATCCATCCATGGATTACTACA
CAGCACTAAAAAAGAATGAGAACTTTGGGAAGCCGAGGCGGGCAGATCACAAGGTCAGGAGATCAAGACCATCCTGGCTCACATGGTGAAACCCTGTCAC
TACTAAAAATACAAAAAATTAGCCAGGCATGGTGGCAGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGTGTGAACTCAGGAGGCG
TAGCTTGCAGCGAGCCAAGATCGTGCTACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCCTAAACAAAMAAAAAAAAAAGAATAAGAACAAGTC
TAGGAACTATTTTGAAAGATCTCTCAAACACATTTTTAAGTTAAAAAAGCAAAATGCAAAACTGTACATAATATGCTGTATTATCTATAAAATAGAGCAA
ATAAGAATTATAGGTATGCTTACTTGTACTCATATAAAGAAACTCTAGAAGAATACCAAGAACTGTGGATGAGGGTAGAATAGTGAATGGAAACTGACTG
ATTAGACTAAAGAGGTGGGAGTAAGACCTTTTATGTATCGCTTTACATTATTTGACTTTAGGACCATGTGGATGTTTGCATATTCAAATAATTAATTCTT
AAAAAGAAGATGAAAATAGAAGGTGGGCGCAGTGGCTCACACCTGTAATCCCAGCACTTCGAGAGGCTGAGGTGGGTGGATCACTTGAGGTCAAGAGTTT
GAGACCAGCTTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACATAAATTAGCCAGGCATGCTCGTGGGTGCCTGTAGTCCCAGCTACTCGGGAG
ACTGAGGCAGAAGAATCACTTAAACCTGGGGTGGCGGAGGTCGCAGTGAGCCGAGATCATGCCACTGTACTCCAGCCTGGGTGACAGATTGAGACTCCAT
CTCAAAAAAAAAAAAAGAAAGAAAATTAAGCAATAGTCCCAACATACTAAACGCATTTGTTTCTCTCCTCAAAGGAAAAATTAGAGGGCGAGTTATAGAG
GGTCTTGAGGTTGTGTGAGTCAGGATGGCCTAGGTTTTGCTGTAATAATGAACAGCCCTCAAATCTCAGTGGCTGAACTCATTGAATTTTATTTCTTGCT
CACTTACACAGCCACCACGGGATGTTGGGGGAGTACTGTTTATCTGAGTCATTCTGGGACCCAGGAGGATGGGCATTCAGCCCAACGTAATTACCATATC
TGGCAGCGGTGGCTGCGAAGGCTTCTCCTTGGATGCGATGCCGCAGCTCCCTCCCACTCACACTTGATTGGCCAAAGCAAGTCACATGACACTGCTTACC
TGCAAGGGGGCAGGGAGGTGCAACGCTACTAAGTGCCCGGGAGAGGGAGAACTGCAATTTCTTGGCAAGCGGCAAAAGATAACCACAGGGTACTGTTTCA
TCAAGGGCCGCCCAAAGCCCTGTCTGAATATGGGGCTCGTGTTTCCCCTGCTATGTAGTTACACAGGCCTCCTGCAGCTTAGTTTCAGCTTTTCTAGTTT
TTCATGGCTCCCAGAGGGAATATTTTCTATGCCGTATAGCCTSTTTTCACATGAAGCCATTTTGGGGTGTTATAGTAACAGCTGGTGACTTGATTTTATT
TATGTTGCTATGTGCTGAAAGCTTTATGAATGTTCTGGCTGTGCCAGTTACTAGCTGTGGGACATGGAACAAGTTATGAACAACCTATTTACCTTCTCCA
ACCCTTAGTTCATTTATCTGTAAAATGGGGATAATACTATCTTATAGGGCTGTTGGGGTTGTTGTGTGAGAAAGTGCAGTGTGTATGTGTATGTGTGTGT
GTGTGTGTGTGTGTGYGTGTGTGTGCAGAATGGGTAGAACCGTGCCCAGAAGTAGGAAGCCCTGCATATGTTCAATATTTAGCTATTATTTTGTTGTTGT
TGTTTGTTTGTTTGTTTTTTTGAGATGGAGTCTCTCTCTGTCGCCCAGGCTGGAGTACAGTGGCACAATCTCGGCTCACTGCAGCCTCCGCCTCCCGGGT
TCAAGCAATTCTCCTGTCTCAGCCTCCCAAGTAGCTGAGATTACAGGCGCGCACCACCACGCCCAGCTAATTTTTGTATTTTTAATAGAGGTGGGGTTTC
ACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGCGTAAGCCACTGTGCCCA
GCCTTAGCTATTATTTTTATTCCTTCAATTTTTTCTTTGGGGCAGTCTGGAGAACAGTTTCATGTGAACATTCTGATCACATGGAAAAGGGAAGGTTTAC
TCACGTGTCGGAAGAGGTGTGAATGGAAAGTAGTAAAGGCATGGTTTCTGATGTTCATGTTTGTGGAATCTGTCGTCTATGGCAGATGCTTCCCCGTGCT
ACCAATTTGTGTGTCTGAAAGGACACCCGTACATTCATYTGCATCCTCAAAATCTGTTCCTCCGTGGGTTTCTCCATCTCTGCAAAATGCACTGCTGTCC
ACTGTGTGCCTAAGCCAGCCCTGTTTGGTCAATTTTTTGAAGGCTGTAGGGTAGAGTGGTCAGGAACAAGAAGCCCTGGACCCAAGCTGTCAGGGTTCAA
ATCCCAGCTCACCTGGTATTGCAAATCGCATGGGTGACTCCAGGCAAGCAACTGAAGCCGTGTGTGCCTCGGTGTCCTCATCTGAAAAAGGGGAATGAGA
ATCATAGTATCTATCTTACAGGGATATTGTAAGGATGAAAGATTAGCTGTTGGAACTGTGCCTGGTGCAGAGAAACTACTTCATGTGTGCTTTGCACACC
CGAAACCTTCTTTTTTATATTTRTTTATCCTTGGCCTGGGGGCTGTCTCCTCTCACTCAGTGGTGTGTCTCATTTGTTCTCCTCTGTGCCTGAGCCAGCA
CATGGCACATCATATTTTCTCAGTAAATATCTGGCAGAAAAATGTATTCATCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAATAATACAAAAAT
TAGCCAGGCGTGGTGGCGGGCACCTGTAATCCCAACTACTTGGGAGGCTGAGGAGGAAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCAAG
ATCACGCCACTGCACTCCAGCCAGGGCGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAATATATAAATATATATATATATATATATA
TATACACACACACACACATTTACATAGYCCCGCCTTCATCAAATGTCACCCTGCCCCTTAAAATGCCGCCCATGCATGTTCTCCCACCTACTGCTTTTGT
TTCCAATCATTCCTAATGGCCCGGATCYATTGGATCCCAGCATCACTGCTTGTTAGCGCAGTGGCCTTGGGCAAGTCACTCCTCTGGTGCAGATGGGGGT
CCCTAAGACCACCCTCAGTTTCCATGATTCACTAGAAGGAATCACAGAACTGAGAAAAATTGTTATAGTCAAGGCTACAGTTTATTACAGCAAAAGGATA
CAGAGTAAAATCAGCAAAGGCAAGAGCCACACAAGGCGACCCCATCAGTCTCTCTGATTCCTTAATTATCTAACAGCAGCACATAGGGCAGAGGCCAAGA
GAGACCAGCATGAGCTGCCAGATGTCGTCTCTCAGTGAAGTCCCATGGACAGTGCTCAGTTCTCCCAGCAATGACATGTGACAACAATGATGTATTGCTA
GCCAGGGACACTTACTTGGGCCTTGGTGTCCAGGGTTGTTATTGGGGTCAGCCATGTAGACTTGTGCTGAATACTGCTGAGAGATCGAGACAGACGGTAA
GAACGGCTGAGAGCTGATGCACGCCAGGTGTCCTTCCATGCGTTGGCCAGGAGTGATCTCATTTTAGCCCATCCATGACCCTGTTAAATAGACATCTCCA
TTTTTCCAGACAAGGAACCAAGGCTCATTGAGGAGAGGTCACTTGCCTGAAGTCCCACGGCTAATAGGCAAATCCAGGAGTCTGATCCTTAAACCTCCAC
CCTTACAGATGTGGCCTTGGACATGGCTGCACACCCTCGCGTGAGTTCACTCACTCAGGATGTATTGAGCCATTGTTCCAGGGCAGGTAGCATTCAAAGC
ATCAGGGGTGCTGTTATAGSCAAGGCTACAGTTTATTACAGCAGAAGGACACGGAATAAAATCAGCAAAGGGAAGAGCCACATAGGGCAGAGGCCAGGAG
AGACCATCCCGAAGGGGAACATCCCTGTGCTTGTGGGGCTTCCATCTTAAGGAGGGCAAGCAGGCAATGGGCAGATCAGGAAACGAAGATATGACTTGCC
AAAGGGTGGTAAGTGCCATGGCCAAAAGGAGSCAGAGAGAGATGGGGTGTCTGCTTAGTTGGGAAGTCACAGAAGASCGGGACGTGATGTTTGAACAGAG
ACGATAATTATAATGGCCACTTTCAGAACACTTACTATTTGTTGGATAAGTAATAACAGTAATATATGTACCAGGCAATGTTCTAAATGCTTGAATGCAT
CTCATCTTTCCAATCACAGAGATGCTCTTATTATCATCACTTTACAAATGAAAGGGAGGTTAGGGAAGTTGGCAGAAGGCACACAGCCAGGAAGCAGGGG
CTCCAGGATCTCAGCCCAGGGATCTTGGCCTCAGAGGCTATGCTTTTCACCACTGTCCTGCCTCTCAGTGCATGGAGAAATGAATGTTCAGTGCCTAGAA
GGGATAATCAGGGAATATGGAGGTTAAGGAGGCAACTGAGGCACAGAGAGGTTAAATCRCAGGGTTCAGAAGTGTTGGGGGTGGGACTCAAAGCTAAATG
ATCTGCCTCCACAATCTAAGCTCATTACCACCAGACCAGTCATCCTTAAGCATGCATAGGAGTCCCCTGGAGGGCTTGTCAAACTAGATTGCTGGGGCCC
GCCCCCAGAGTTTCAGACTCAGTGGGTCYGAGGTGGCCCCGAGAAGGTGCATTTCTGTCCAGGTCCCAAGAACCGATGGTGATGCTGCTGGTCCAGGGCC
CACATTTTGAGACCCACTGCCCTAGACTGCCTCTCAGCACACGGAGGAATGAATAGCCAGCTTCCGGCGGAGGAAACTGAGGCTCAGAGAAGCTAAAAGT
GTCATGTGGAAAAAATCACATAGCCGTTAGACTGTGGTACCTGGATCTCAAACCCAGGCAATCCGGCTCCAGAGTGTTTTTAACCATTTCCCTGCACTGC
CTCCTGCCGGTCAAAAGAATAAAYGCATATGCAGGCAAGAATGAATGGGTGGTCCCATTTCCGTAGAAGGGGAAACCGAGGTCGGGGAGCTGGGCGGGGA
GACCCCAGCATCCTCTGACCTCTTTCCTTGCCTCCCTGCCCCCGCCCGCAGGTGAAGCTGGTGTTCGTGGAGGACCAGGCTGTGGTGGAGACGGTGTTCT
TCYTGACGTCGCGCACCAGGGCGCTGCTGCGGCGCTTCCCTCGCATGCTGCTGGTGGACCGGCTGCCGGGGCTGCAGGGCGCGCTGGATCTGCTGGCCGT
GCTGTGCGTGGACGGCTCGGGCCGTGCGCGCCAGGCTGCCTGCTGCGTGGCGCGCCCGGGCACACCGAGCCTGCTGCGCTTCGCGCTCGCGTCGCTGCTG
CAGAGCGCGCCAGACGTCAAGGGCCGCGTGCGCTGCCTCACCGCCGGGCCCGAGGTGGCGGCGCAGTTGCCTGCAGTGCGCCAGCTGCTGCCCTGCGCGC
GCGTGCAGATCTGCCGCGCGCAGGGCCTGGAGACGCTCTTCAGCAAGGCGCAGGAGCTGGGCGGCGCCGGCCGCGAGGACCCGGGCCTGTGGTCGCGCCT
GTGCCGCCTGGCTGGCGCGTCGTCGCCCGCAGCCTACGACGAGGCGCTGGCCGAGCTCCACGCCCACGGCCCAGCCGCCTTCGTGGACTACTTCGAGCGC
AACTGGGAGCCCCGCCGCGACATGTGGGTCCGCTTCCGCGCCTTCGAGGCGGCCAGAGACCTGGACGCGTGTGCCCTGGTGCGAGGCCACCGCCGGCGAC
TGCTGCGTCGTCTCAGCCCCTCGCGTGGCGTGGCGCAGTGCCTTCGCGACCTGGTGGCCATGCAGTGGGCCGACGCGGCCGGGGAGGCGGTGCCCGAGGG
GCCCGATGGCGGGGGGCCTTGGCTGGAGGATGAGCCAGGGAGGGGAGCCCAGGGGGAGAACGAGAGGGTGAGGGGCCTGGAGACAGGCGACTGGGGAGGG
GCTCCGAAAGAAGGAAGTATTTGGAGGGGAGCCCAGATGGAGAAGGAGTGGGCAAGGGCACTGGAAACCAGAGACTGGGGCGGGGCTCAGTTCGAAGGTG
AGAAGGGGAGGGCACTGCAGATCAGAGATTGGAGAGGGGGTCGGTTGGAGAATCAGAAGCCGAGGGGACTGGAAGGGGGTGTCTTGAGAGGGTCGAAGTT
AGAGAAAGGGCACCTGAGAGGGCCAGAGATTAGAGACTGGAGGGGGCCCCAGTTGGAGGGTGAGAAAGATTGGGGAKTGGAAGGTTATGTCTGGAGGGGG
TCCCAGTTGGAGGACCAGGCGCTAAGAGGATTGGAAGGGTATACCTGGAGGGTGGCCCAGCTGGAAGATCGCAGGAGTACCACCGACCTGAGGGGGACCC
AGTTTGACTATGAGAGGGTCAGGAGTCTTGAAGGAAGCCCCTGGAGGGGGGCGCAGCTGCACGATGAAAGGGCAGGGGGACTGAGAACTGCAGAATGGAA
GGGGCCACAGTCAGAAGTAGAGAAGGGGAGGGGGCTGGAGGTCAGAAACTTGAGGGGGATCCCCTTGGAGAAGTCCCTGGAGTTGGCCCCTGAGAACGGA
GACCAAAGGGGACCCCAGTGGGAAGATGAGAGGAGGAGAGGGCCAGAGATTGCAGAGGAGAGGGGAGCGAGGGTGGGGGTCAAAAGAAGAAGGGGCCTGG
AGGATATAGTTCTGGTCCAGCTGGGAGACACGAGGGTCACAGGCATGGAGAATGGAGATGGAGGGGGAGCCCGGTCCGTGGGCCCCAAGAGCCGAGCCGG
ACGAGGGATGGAGTGGGGAGACGCAGGAGGGCGGTGTCTAGGGCTGGGGAATGGAGTCGTGTCTGGCACCCCGGTGGGGACTGTATTGGAAGGCAGCCCA
GAATGGGCAGCGGCGAGGAGTGAACACCTGGCTGCAGGTGACGGCCTGCAGGAAGGAGGCGAAGATGGCCCCAGGGAACCAAAGAGGCTTTGCCGACCCC
CGGGAGAGGAGGAGGTGGACTGGGAACCCCTGGCCAAATTCCGAGCAGCCTGCGGGCCAGAGCTGGCAGACCTGGTGGCTGAGGAGTTGGCCTTTGCTAG
GCAGCATGGGACCCGGGGTTTCCACTGGACCGGAGCTGGCTTTGCCCTTAAGGACGGCACCTCGGACTTCTTCCTGGATGGGGCCCTGACACGCTGCAGC
TGCTCAATTCACGCCGCCCGCCGTCTGCCCTGCAGACACCTCTTTGCAGCGCGCCTCCTCACTGGGGCTGCCTTATTCCACATGGACCTGCTCAGGGATT
GCTGGGGGAGAGCCCCAGAGCCCTGACCCTTCATGCCTCTGCCCACCACCCTCCACCAGGAGGGTCGGAGGGCATTCTTCGATCCCAAAGATAATAGGGC
TGAGGCCAAGGAGACCGTTGCAGTCCCCCTGGCCACCTTCTGGGTCATCCAGGGACCTCCTCATGGCAGTTTGCCTCTCTGGGTCCAAGGGCAAGCTGTA
AGTGGTCTCTGAGGTCCTGGAGCCACAGCTTGGGAAGGTGTTGATGGGCAGGGTGGATTCTGAGGGCTTCCCTCTGGAGAGGAAGCATGTGATGAGAGGT
GTAGACAGGGTCAGGCTGGGACAGAAGGAAGGAAAGGGGCAGAGCTGGGGGGAGGGGGAGGAAGCGATCATATGGGGAGTGTCTGGCAAGAGTAGACTGG
CCAGTCTAGGGAGTGCAGCGGGGAGAGGGGAAAGGGAGAAAGTACAGAAGACAGATGAAGGAGAGGAGGTAAGCGAGAAAAAATGGAAAGGGGAGCCGGA
AATGGAGGAGAGAGGACAAGCAAAGAGACAGAAATGAAGACATGAGGAAAAGCTGGGGGAAGCAGGAGAGGAAGGGACGGGATGTAGGAGGGGGAAGAAA
AATCGGAGATGAGACAAAAGAAATGTGTGGGAGACGGGTAGAGACGAAATGCAAGGGGCGTGGTTTTGGTTTTTCTCCAAGACCTGGAGACATCGACCCC
CATCGCCTTCTGAAGAGAGAGGGAGGGCGGGCACTGGGGGTCAGGAGAGTCTCCAGCAGGGGAGGGGAATTGTTTGGACTATTGTTCTTCAGGATTGGAA
TAAAACAATCTTATTTTGGTTTCCGTGATGAGTTCTTGGCTTCTGGGGTTGGTTGGGAGTCCCAGATCCAGGGAACAGTTGAGATGGTCCAGCGTTCCTT
CATTCTTTCTACCGACAAGGCCTCCTGGGGCCAGATGGATAGAGGAGCCACAATGAATTCATCTCCATAGCAACTCAAGCTTCCTCCTCCATCATCTGGA
CCAGTGCGTCCCAGTGGCAACTTCTTGACATGAGTCGATTCTACCTTCAAATGACTGACTCATGCCAAATGTCCTGGCCACAGAATGGGCCTGTGACCCA
GTCCTGGTCAACGAGTCTGCTCAGGTTGAGGTGGGAGGCYTTTTTATTTTTATATTTTTGTAGAAACAGGGTCTTGCTATGTTACTCAGGCTGGTCTTGG
ACTCCTCGGCTTAAGCAATCCTCCTGCCACAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCTCAGAACTAGGAAGCTTTTTTTTTTTTT
TTTTTGAGTCTTGCTCTGTTACCCAGGCTGGAATGCAATGGCACGTTCCCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATTTTCATACCTCAG
TCACCTGAGTAGCTGGGATTACAGGTGTGCGCCATCACACCTGGCAAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCT
CAAACTCCTGACCTCAGGTGACCTGCTCGCCTCAGCCTCCTAAAGTGCTGGGATCACAAGCGTAAGCCACTGCGCCYGGCCTAGGAGGCTTCTAATAAAG
ATTCTATCACTCCTAAGAAGGCCTAGAGACATGATCAGGCCTAGACCTGCTGATGATTACCTTGGTATGGTGTGATAATGAAGTCCACACTGAGGATGAC
AGAGCTGAGATGAAGAAAATCTGGATCTTTGCTTGGCTCAGTTGAGTCTCTCGAGTCTGCTCTACCATGGGGCTTCTTAAGTAAAATATATCCTTTTTTG
TTAGAGACAGTGTCTCGCTCTGGCCCAGGCTGGAGTGCAGTGGTGCAAACATAGCTCACTGCAGCCTTCCAGCTCTTGGGCCCAAGGGATCCTCCAGCTC
AGCCTCCTGAGTAGCTAGGACTATAGGCTCGTGCTACCACCTAGCTAATTTCTTTTTCTTTTCTTTTCTTTTCTTTTTTTTAACTTTTTGTAAAGATGAG
GTCTCTTGCTACGTTACTTGGGCTGTTCTCAAACTCCTGGCCTCAAGCGATGCCCCTGCTTCAGCCTCCCAAAGTGCTAGAATTACAGATGTGGGCCATT
GCACCTGGCCAATCAAAGATACCCTAATGATTTAGGGAAGTTTGAGTTGGGGTTTCTGTTRTCRCAACTGATGAAGGGGATTTAATTCTATTATAGGTGA
CAAAGTCCAGSTTGAAGTAGCTCAGCATTTTTCAAACTTTAGCGTGGACGTGAGTCACSTGGGCACCTTCTTAAAATACAGAGTCTGACTCAGTAGGTCT
AAGATAGGGCCCAACATTCTAGCAAGCTCTCCGATGATGTGGCTGTGCTGGGTTGTGGAGCACACTTTGAGTAGCAATGAAGGAACTTGARATAAAAGAC
AATTCAGGCCGGGTGTGGTGGCTCACACCTGTAATTCCAGCACTTTGGGAGGCTGAGGTAGGTGGATCACTTAAGGCCAGGAGTTCAAGACCAGCCTGGC
CAGCAAGGCAAAATCCTGTCTCTACTAAAAATACAAAAATTAGCCAGATGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAAGCATGAGA
ATTGCTTGAACCCAAGAGGCGCAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGGRTGACAGAGCGAGACTCTGTCAAAAAAAAAAAAAA
AGAAAAAAAATGATTCAGTGGTTCAAGTCATGCGAAGTCAAAGGCTTTGATGGCAGCTGACTGCAGGGGCTCAAACAATGTCAGGTTTCCCCTCTCTCGC
CTGCTTTTCGTGCGATGGATTTCTTCAAAAGACAGCTCTCTCCTGAGAAAGGGGGGGACTAGAAGTTCCCATATCACACCCTCCTATCTTGATCCAAAAA
TACCATTCTATCAGCATTCRTATATTAAGTCTCAAGGAAGCAGCAGGTTGGATTTATGGAGGTYATCAGTTATCCATGGCTACATAAATGCTGTGTTAAC
AACTATAAAACTTCCTAAGTATATAACAATAAACATGTATTTGGAATCAACCTAAATGCCCATCAATAATCATAAGCTAGATAAAGAAAATATGGTACAT
ATACACCATGGAATACTATAGAGCCATTAAACAACTAGATCATGTTCTTTGCAGGGACATGGATGGAGCTGGAGGTCATTATCCTTAAWGAACTAACACA
GGAACAGAAAACCAAATACTGCATGCTCTCACTTATAAGTGGGAGCTAAATGATGAGAAGAAATGACACAGAGAGAGGGGCAACACACATGGAGACCTAC
TRGGGGGTGGAGGATGGGAGGAGGGAGAGGATCGGGAAAAATAACTAATGGGTACTAGGCTTAATACCTGGGTGACAAAATAATCTGTACAACAAAYCCC
CATGATAAAAGTTTACCTATACAACAAACCTGCACATGTACCCCTGACTTTAAAAGTTAAAACAATAATAAAAATGAACAYGTATTGCTTATGAGTCTTG
GGTCACCTGAGGGGTTGGCTAGACCCTTGCTTTTCAGTGTGGTGCATGCAACAGTGTCATGAACATTCCCTAGGAGCTTGTTAGAAATGCAGATTCTCGG
CTGGGMACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACCTGAGGTCAGGAGATCGAGACCATGCTGGCCAACATGG
TGAAACCCTGCCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCTCTTGAA
CCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCTCCACTGCACTCCAGCCTGTGCGACAAAGTAAAACTCCATCTCAAGAAAAAGAAAGAAAGAAAAA
AGAAAGAAATGCAGATTCTCAAACCCATTCCAAAACTACAGAATCAGAATCTCATTCTAACAAGATCCTAGTATGCATGTTATACTTTGAAAAGCAAAGC
AACTGATCATAAACCTACAATTATCGGAAATAGGCTTATTTAAAAAAAATGAAAGCAGCTAATCTTGATAAAGTAGCTGATCTTCGTTGGGCTTGCCCAC
ATATCGGGAGTCATCTGGCTTTTGGGTGAACTAAAAAGGCCTTGGCAGGGCTTGGTGGCTCATGTCTGAAATCCCAGCACTTTGGGGGGCCAAAGTGGGA
GGACCGCTTGAGCCCAGGAGTTCAAGACGAACCTGGGCAACATAGGAAGACCCCGTTTCTACAAAAATAGAAACAAAATTAGCCTGGTATGATGGTGCAC
GTCTGTGATCTCAGCTACTCAAGAGGCTAAGGTGGGAGGATCTCCTGAGCCTGGGAGGTCGAAGCTGCAGTGAGCCATGATTGTTCCACTGCACTCCAGC
CTGGGTGACAGAGTGAGACTCTGTCTCAAAAAATGCCTTGGCCGGGAGGACTAGGGTAACTCGTTCAGCACGTAGACCCCTCCAGTACAACCCTATGAAA
CTTCCCTGCAGCCCCTGCCTTTGCAGACAGCTCTTCGTCTGCTGTGCTGCCCATTGCTTTCTTGCAATGTACTATCTGTCTAATAAATCTGCCTTTCTTT
CCCTACGACTGTCTTGATAAATGCCTTTACCTCCCATGATACTGGCCCCAGCTAGTCACACCCGTGATGCCCATCTCTTTTTTTTTTTTGAGATGGAGTC
TCGCTCTGTCGCCCAGGCTGGAATGCAGCAGCACGATCTCGGCTCWCTGCAAGCTCYGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGT
AGCTGGGACTACAGGTGGCCGSCACCACACCCGGCTAATTTTTTCTATTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCC
TGACCTCATGATTCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGAGATGCCCATCTCTTAAAATAAAAAATAAAA
AAAAAAAAAGAAAGAGAGAAAGGAAAGGAGGCAGGAGGGATCCTGGGAAGGCAAACAACAGCWATTGAGCGCAAACCAAATCCAAAACTTCTCCACTTGC
CTGTTTTATCATTAGATTCTTAGATGTGGGCTATCTGGTTAGTGACGGGAAGCTGAATTAATTCATTAATTGATTCACCAAATAACACACAGARCCCTGG
GGTGGAAAAGAGCTCAGCCCRTAAGGTAAAGAGAAGATGGGCCAGTGTAGATGGGTCAGAGTGTGARAGAGGGAGAGATTTGGACAGTGAAATCCGCAAG
CCCTTAAAGATAGAAGATGAGGTGAGTCTTTATCCTGGGAGGTATGGGAAGCCTTCAAAAGGTTTTAAACAGAGAGTGGCTTGATTGGATGTACATTAGA
ATAACCACCTCCCCTACCCCAGAAGCTTTACTGTGACAAATGGATTGGATGAGTCCAGACCAGGAAGAGACGTATGTGACCATAAACAAACAAATAAAAA
TAAATTTTAAAAAACAGGCAGAAGGATCTTCACAGAACTGGACCTTGAAGAATGTGTTTGCCAGGAAAAGAGAATGAAGAAGTACGTTCCTATTGGAGGG
AACTGCACGTATTACAGTATTTGGCCCTTCAGGAAGGCAAGAGGAAACTAAAGGTTAGTAAACCTTAACCCTCTATATGCCCCACATATATAGCTCACAG
TGTTAAATCAAGTTTAGCCTAAAGCTGCCTCCTTACATATTTTAAGTTYGGCCTGAAGGTTTTTCTGTACGTCGTGAACTATAACAAGTGGAGGTGTAAA
CAGAAGGTGGCCTACRCTTGTGCCAATCACCGAGTTTTGGGCAATCAAATGTAGCCAACTGTTCGAACTGTGTACAGCAAACGCCGAGCTGTAATCAATY
CAGCTGTTTCTGTACCTCACTTACGTTTTCTGTATGTCACTTTCCTTTTTCTGTCCATAAATCTTCCACCACATGGCTGTGCTGGAGTTTCAGCCTACTC
TGGTCCGAGGCTRCCTGATTCGTGGATCCTTCATTGCTCAATTAAACTCTATTTATTTATTTAGAGATGGAGTCTCGCTCTGTTGCACAGGCTGGAGCAC
AGTGGTGCGATCTCAGCTCACTACAACCTCCACCTTCTGSGTTCAAGCAATTCTTGTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCACCACC
ATGCCTAGCTAATTTTTGTATTTGTAGTAGAGACYGGGTTTTGCCATGTTGACCAGGCTGGTCTCAAGCTCCTGACTTGAAGCCATCCGCCCTCCTCGGC
CTCCCAAAGTGCTGGGATTACAGGCATGAACCACAGTGCCTAGCCAATTAAACTTCTTTAAATTTAATTCGTCTGAAGTTTTTCTTTTATCACAAGTCAC
ATCAATCCCTCGGGCCCCTGCTCAAATGCCACCTCTTCCTGAAAGCCATCCCTAAGTAGTCTCTCYAAAGAGCCATCCCTGCCCCTTTCTTTGCTTTATC
CTTCACAGCACTTATCACTACCTGAAATTATGCCACACAGCTATTTACCASTTTGGCATTGTGATTAAGCTTATCAAGTATGAAGCCAGACTGCCTGGGT
TCAAATCCCAGCTCCACTACTTCCTTGTCATGTGACCTTCCAGCCTATGTTACAGTTGAGGGGTCATAATAGTACCTGTCTATAGGGCTTTGTGAGGATG
AATGAATTAGTGTGTGTACCAGTGTTCTAACATYGCCTGCATTTCCATTTTTCCCAAAGCAGCCCAGTTACTTATTAACATACTGCTTTTTCCAGTGACA
CGTGTTCACAGTTATTAAGTCGATCTCCCGCCAAAATAGAAGCTCTATSTTGTTTTCCATTGTATCCCCAGTGCCTAGAACAGTGCCTGTTGCAAAGTAA
GCTTTGAGTTAAAAAAAAAGATGAAAGAATGAAAATGGCAGACTGCCTAGCAGAACTAGCYCTTCCCGATGTTTCATTGTTGCTATAGTGACGATCCAGT
CTGCACGAAGATCCCAGCTTCCTTAACCTTGTTCCTACCTCCAGCCAGCTCACCCATTGGCCACCTGTATCTCCTGCTGTAGCAGCCAGAAAGCTACAAC
TCCCARCCGGCTGAGCGCCACCAGSGCTTTCGCGTCCAAWTCCCTTTGCTGAGTGTGAGGGCCTGCGCAGTAGAACCCGCGGGCCCAGAGCTCCATCTGA
GCATGTGCAGGCTGCGGGGTGTTTCCTTCGTCTGCTGGCGGGAGAGGAGTGGGGAGGAGCTCTTTACCCGCTGAGCATTGTGGGGCCCGCTTGGATCTCC
TTGTCCAAAGGGTCTGGGCGCCGGGGCTGCAGTCTCTGKGTGAGGAGGCGGACGCGGGAAACCTGCTTCGGTCTCCATGGTTACGAGCCGCTCAGCGCGC
AGGAGGGGGATTCAAAGGTTGGCGTTGCCACAGTAACCCTGGAGTGGAAGGAGACGGGGATTAGAGACCTCGCGGGAGAAATTAGACTAACAGCCTGGGA
ACTGGAGGGATGGAGGGTRTRCCGGAGGAATCAGTCTGCAGTAAGGGGAGTTGGGGTGATATTAGGGGAAATGGGATGTTTTCAAGGACAGGGAGTGTTT
TGRTGAATTCCTATGTAATAAGGAGATTTGGGGAGATCATTGAAATCGACAWGTTACTAGATACTTGGGATGCTCAARGGGAAGTGGAAACGCAGTAGGA
TCCGCCCGCCTCAGCCTCCCAAAGCAGTAGGGAAAATTGGGGTATTAAGCTCTTTTGCCATTCTGCAGTTATTATAGAGCTCCTGCTGGAAGCCAGGCAC
AGTTGACAGTACTGGTAAACAGGACAGATGTGACTATAGACGGAATTGGGGTTTCATGGAGAAGGGGAGGTATAAGAAAAGGGGACTGTTGTCCTCTATG
GGAGGGACTGGGAGGCGATTGGGAAGAACTGGCGCTGTAAAGAGAAGCTGGAAGTTTTATAAGGGAATTGAGGTATTATATAAGTTAATTCTGTTGTTAT
TTATAGAAGGCCAACTCAGTAGCAGCCTCTAGGAAGCACTGAGGATTCCTCAGTATGCAAAGGCATTTAGTGATAGAGTTACCAGATTTAGGGGGAAAGC
AATGGCCAGTTAAATTCTAATTTCGGAAAATGCATAATATTGTAGTTACTCTCTGTTGTTTATCTGAAATTCAAATTTAGCTGGGCATCCTGTATTTTAT
TTGGCAGCTCTCATTATGGTTAATTTAAGTGTTTGTGAAGAGTGGGTTATTATAGGGGAAACAGGTATTATAGAGTAATTGGGTTGTAGGAGGAGCTGGG
GATAGTCAGGAAAAGTCRGAGTGTTGAAGCTAACGCCAAGATCAGCACTGACTGTGTGCCAGAGACTATGCTAAGTACTCTTATTTTTAAAAACGTTTTA
TTATGGAAAGTTTCGGCCATATACAATTGTTTGCTTGTTTTTGAGATGGAGTCTTACGCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTCTGCTCAT
TTCAACCTCTGCTTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCGCACCACCACGCCCGGCTAATTTTTGTAA
TTTTAGTAGAGAAGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGAGATTCACCCACCTCAGTCTCCCAAAGTGCTGGGATTAT
AGGCGTGAGCCACTGCGCCTGGCCCATATACAATTGTTAAACAGATAATATATAATAAAGCTACTTGTACCCATCTCTGCTTTACATGAGTGCTGTTGAG
GCATCCCAACATTCCTATGAGGTAGCGTTACTGTCACACCCCCATTTTACAGATGAGGAAACTGCACCACAGAGAGGTTAAATAACTTGGCCAGAGGTGT
TAGAACCAGAATTTGGACCCACACAATCGGGCCCCAGAGTCTGGGCTCTCAGCTGCCATATCACATGTAACCTCCGTCTGGGAAATGTGAGTAGGGAGTG
AGGCATGATGGGAGCAACAAGAGAGTAGTAGTAAGGTATAAAAGGAAAGGTAGGGAATTGGGCCGTTTGAGCATTGTGCAGTTGTTATAGGATTTTTATT
TTTATTTTTTGAGACAGAGTCTCAYTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATTTTGGCTCACTGCAACCTCCACCTTCTGAGTTCAAGCAATTC
TCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACGGGTGTGCGCCACCATGCCTGGCTAATTTTTGTATTTTCAGTAGAGACGAGGTTTCACCACGTTGGC
CAGGCTGGTCTCGAACTCCTAACCTCAAGTGATCCACCCGCCTCAGCCTCCCAGAGTGCTGGGATTACAGCCGTGAGCCATCGCCCCCAGCCAGTTGTTC
TAGGATTTTTATAAGATGTTTTGGGAGACTGGGGGAGTTACAGAAGAGTTTGGTGTTTTGAAACATTATGGGAAGTTGTATAGTTGCATTTCAATAGAAC
AGTAGCAGCTAGCCACATGTGGGTGCATTACATTAATTATAATGAAATAAAACTCAGCACATTTCAGGAAGCGCCTACCGTATTGGATAGTGAAGATCTA
GAGCAGTCCCAATGAGTCTGGATAACAGGGATTTAGGGTAACCAAGGGTTAAGGCACAAGCAGGTGCAGCCAGTTCTAGGCAAGATTGGGCAGCATCCAG
GCCACATCCTCACTCCTGTGATAACAAGACAGAAGTCTCCACTTCAGCCTCTTGATTGGTCACGGGCCAATCCTTCATAGGGTGTAACCAACTGGAGGCC
TCTAAAGGGCACCTAGGGGTGTTACCAAATTCTTTTAGCTTAATGAAAACTCTAAAGAGCACTGCAGTCAGGGGCTCTTGAGCTACTTGCTCAAGCCCAC
TCCGACTCTGGAGTGTACTTTCACTTCCATAAATCTGTGCTTTCGTTACTCCGCTCTTTTGTTGCTTTGTTTGTGCATTTTGTTCAATTCTTTGTTCCAC
ACACCAAGAACCCTAACAACTCACAGTCAGGACCTTCCATAGGGTAACACCATCACTGCAGAAAGTTCTGTTGGACAGCCCTGATGTGTGGGGTGACAAG
TGTGGAGGCTTTCCTGGYTCCTAAAGTTCGACCTYATCTCTTAGCGATTGCTCTCGTACTTCCTCTGACTCACCCCTAACCTTCTCCTCTCTGTTCTACT
AAAAATACAAAAATTAGCTGGGCGTGGTGGTGGGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGT
TGCAGTGGGCCGAGATCACGCCACTGCACTCCAACCTGGGCGACAGAGAGACTCTGTCTCAAAAAAAAAAAAAGAAAAGAAAAGAAAAAAAAAACCATGC
TGAATTGGCCAAATATTTATCTAGGACTTCCCAGCCTGAGAACTGTAAGAAATAAARTTTTACTCTTTAAGCCACTGAGTCCATGGTATTTTGTTATGGC
AACCTGAGCAGGATAAGGTAGTATACAYACCTTTAACTTCACTGTGTAACTTCAGATTAATTTCCAAAATCAAGCATTACCTAACCAACAGCAGAACTTA
CATTTGTGCTCCATATACTCACCAGTAGTAGGCATTACTGACTTCTTAATAAATGGAAGTTTGATGAATATAAAATGTAGTATTTTTATGGCTTTTAAWG
AGGTTTCTGATAACTAGACGTATGAAATTCTACTTTTGTTCATTGTCCATTGCGATTTACAAACTGTAACATTTTACTCATAACGTTTGCCCATTTTTCA
CAAGGAGTTTTCTGTTTGTTTACTCATGTTGAATCATTTTTATGTATTATAAATATCACCTGATATTTACATCTTCTTCTTAGTRGCTTCATTCTAATGA
ACTTCTTCTTTTTTRTTGTTGTTTTTCTKTTTTKTTTTTTTTTTTTTTGAGACAGAATGAGACTCTGTCAGCCAGGCTGGAGTGCAGTGGTGTGATCTTG
GCTCACTGCAACCCCTGCCTCCCAGGCTCAAGTGATTCTCATGCCTTAGCCTCCCGAGCAGCTGGGATTACAGACATGCACCACCATGCCCGGCTAATTT
TTGTAWTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAGCTCCTGGCCTCATCTGATTCACCCACCTCGGCCTCCCAAAGTGTTGG
GATTACAGGCGTGAGCCACTGCATCCGGCCTTCTATTTTTAATTTAGCATCCTCAAATAAATCAATTTAACTTCTAAAAATGTGTGCCTTTTTGTTTTAA
TAACATTAACCTATTTTTTTATTTTTGTAAATTTATGAAGTACATTCTTCAAATGTAACAATTTAGTTCTACTTCAAGATAAGGTATAGACAACTGCAAA
ATTCCACTGTCCTYACGATCACAATCATGAAGAGGATGGAGCTGCAGAATCTGAYCATATAAARACTTTTATGAATTCTAACGCCCAACCCCAACTTGAG
CATTCATTGCGCTGGTCCTAATTCACATTCAAACGCCCTGAGAATGGAGCTAACAGGATACACTGCACCCAATCTCATAGGCACACACAGGATAGATCCG
AATACCACTGCAAAGACTTTTAAAATGAGCTGATATTAAGACCTCAGTTCACAGAAAGCCAAATAAATAATAAACATCTTCTGTTGGATACAAATAAAAC
AGAGTCTCATAAGATAACATTCACATKTCGAGGGTACATATCGGAACTACTGAGAATACAAGGATGAGCTGCAAAAATCTCCACTTGTCTGGCAAATGAC
AACTCAGTGGACACCAAACACTGAATAACATGTACAGTGRAATTATCTGACAAAGACTTTAAAAGAGACATTATAAAAATACTCAAATGAGGCCAGGCAC
GGTGGCTCATGCCTGTAATCCCAGCACTTTGGAAGGCCGAGGCGGGTGGATCATGAGGTCAGGAGATCAAGACCATCCTGGCCAAAATGGTGAAACCCTG
TCTCTACTAAAAATATTTTTWAAAAAAAATTAGCCGGGCGTGTTGGCATGCACCTGTAGTCCTAGCTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAG
CCCGGGAGACAGAGGCTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTAGATGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAA
ATACTCAAATGTGCCAGGTGTAGTGGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACTTGAGGCCAGGAGTTCAAAACCAGCCTGGCC
AACATAGCAAAACTCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCTGTGGTGGTGCATGCCTGTAATYCCAGCTACTCWGGAGGCTGAGGCACAAT
AATCGCTTGAACCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGTAACAGAGTTGAGACCCTGTCTTGAAAAAAAAAA
AGCTCAAACAAGCAAATGCTGACACATTTGCAGGAAAATAGAATATAAGSCAAGAAATTTAAAATATAGAGAACAAAATGGAAATTTTAGAACTGATACA
TACAGTGACCAAAATTTAAAAGGTGGTGAATGCACTCAGTGGGACGACACAGAYAACAACAGGTGAACACTCCAGCAAATTTGAAAATAGACAAATTAAA
ATTACCCAATCAGAATAATGGAAAAAATGAAAAGATGTTCTAAATAAGTAGAATATCAGGGACATTTAGGAAAACATAAAAGTCTAACATTTCCACAATA
AGAGTCTCAGAAGAGGAGGAAAAAAACAAAAYATAATATTGATTGATTCAACATAAATACTATGGTTTATTTCTAGATGGCAAGGAAAATCACRTGTAAG
AGGTTTCCATTTAAAAGAATTCCACTATTCATCAAAATTTTCATCTATTCTCAAGACTGTTGATTTCAAACTAGGTTTAGAGTAGCAAAGCATATGAATT
TTACAGTAGAAGACATGAGAAGGATATAAAAGTTTGTTTTCTGTATTCTTTCAAAATTCTTATTTTGAAGGCCTTCTGGGCATATAAGCTATTGGAACTT
GTCATCACTTAAACTATTTCCTATAAAGATGAAAATCAGGCTAATAAAAAGTATTTTTAGAAATTAGGCTGAAAACCTCTAAGTTTGGTAAAAGACATAA
AACTGCAAATTTATGAATTGGAGCAAATTCCAAAGGGAATAAAACAAGGAAACTCATCCCCAACATAATGAAATGGCTAAAAACTAAAGATAAATACCTT
GAAATCTGACAGAAAAATGACACACTACATACAGGGAAACAACAATTTGAATGACTGCAGATTTCTCATCAGGAAATACGKAAGCTAAAAGGAAACTGCT
GAACAGAAAACAATGTCAACTAAAAATACTACAAGCAAAAAACATCACTGAGAATGAAGGTGAGAAAAAGATGTCCTCAGAGGAAGCAAAAAATAAGAGA
ATCTGTACCTATCAGAACCACTCTAAAAGAACTAAAAAACGTCTATCAGARGAAGTGGAAATTTGCAGAACGAAATTTGGAAAATAATGAAGGAAGAGCA
ACAGAAATGGTAAATATCTGGAAAAACATAACAGATTACTCTTCTCATGAGTTTTTTAAATCTTCTGAGTGATTAAAAGTAGAAAATATATAATAATTTA
TTGATGGGTTTTAAGATACAGAAAGATTATGTAGAAGATAACTATATCCTAGATGAGAAAAGGTAATAGGATCTAAATGGTGATAAAGTGCCTAGATTCC
ACTTTAAGTGGTACAAATGTGATAACAGTAGAATAGAAAAGACATAACAAACTGGCTGACTGAGGATAAATCCTAACATATTAATMATTACATTAACGTA
AGTAATTGAAATCTTCCAGTTAAAAGAGACTATCAGAATGGGTTCAAAATACACCATAAAAAAAACTGACTCAACCAGATGGTGTCTACTAGGAACTTGT
TTTAAACAGATTAAACATAAAAGGATGGAAATATGTGTGCCACGAAAACATTAATCAAAAGACAGCTGAAATGGCTACAAAATGACAGAGTCTATGGTAG
AATCCAAATGTCAGAGTTGGCTTATTTTTTGTATGGTACATTGCCAGGAATGTCTGTCTCAGAATAAGCTGAATTACCCTCATTTTCTTTTTGGTGGTTC
TGTGGAGTTGATTTACCACATTTCATCTCAGTATTCCTTGGAGTTGACCATGAACATTTAACCCAACAACTCCTTGTAGCAGGCTACACACCAGTGGGAA
AATATTTTCTGCTCATGTTTGCATTTTCTCCCATTTTTGTGCTCTCTTTCAGCAAATACATTTACATTGTTCTAATAACAGTAGCCATAGATAAAGTGTT
AAAGTCCTAACATACAAAAAAAAAAAAGACTGTCATCATGTATGCCTTGAGTGTCCTCAGCTGAGAAGCTTTTGTTAGCTTTTCTGCTTTTAGTTATGAG
AAGGTGATACTTCAAACGGAGTGTCCATAGGAATTATTTTTCACATTAATCAGGAAAAGTTGCCTTTCCAGGCCCCATCCTTCATAAACACACCTATCCG
GATGTCCTTTATCCTGGGTCTTCAAGAATCATGTCAATGGATAAAATAGTGATATATCAAGCAATGGTTGGAAAAAATTTAAAAGGAATATTACTACCTT
CTTCAGACATTCTTGAGGAAAATGCATGAGGATACAGTCAATAGGTACATGCCAGGTTACAAGTCTGTCCTGAAAGCCTGTGTGATAGATGTTACCCAGT
CTTCTTCTGTCTTGAACACTGAAATCAATGATCACATTTCTGTTTATCCATTTCCAATGSGAACGCTGGATTCTCTCTTCCAGACTACCTAACTGACTCA
TTTTACAAATTCTGCTGTCTAAGATAGGACACGAGGTAAGGGTCCCTTTCACTAATGCTTCTGAAGAGCACRTCCAGGGCCAGGTCCCCTTTCTTCTCCA
CCATGCTCAGCAAGGCCTCATTCTTGCTCTGCCGTGTCTTTTCCTGCTCCACCAGCTCCTTCTCATTCTCAGTAAGAACCTCATTGTCYTGGAGATCATC
GAGCACCCCTTTCAGGTCCCCCATCCTGGCTTGGAGTTGCCGGTGGTTCTCCTTCACAAAGGCTGCACCTGGATGAAAGGGGGAGTTTCAGACTTTGAGA
ATCGYTCACTTACAGGATTCAGGATCTATACCAAGCTTAGAGTCAAAATTCAGGGGTGGGAGATTGCTCCTTGTGTCTGTARCTTAATTTGTGGACATAC
AAAATCACACACATTCACAGAGCAAATATACCCTTTGCAGTATCAAATGCATYGAGGTGTCTCAAATAATGTATCTTCCTCAGTCCTACTCCTCTCATCC
ATTTCTTGAAGCCTGTTTCTTCCTAGTTGGTGTTTTTCATTGAAATCCTAGACAGAGCTCTATCTTGCTGTACATACATTTATATATAAATCCCTCTAAC
AACGAAACACAAATCTTCTAGTTCATACATTGTCAGAAACTGTGCATGATGCTAGAGGTATGGAGAAGGATTCAGCTGGATCCCCAAAGCTTAGCTGGCA
GAGCTATGAAAGAAGAGATTTAACTGGAGACATACAATGCATASAAAAGGAAGAACAGGGGAAAAGATACAGACTTTTTTCCATCATGTAGACTCAGGGT
TTACGTTGTGCCCCATATAATGTCTGTATAAACTTGGCCAAATCATATTACTTCCATATCACGTGGTTTAGAATGCATGGAGGTTGAGGTGTGATTTTGA
CTCAAGACATGTTCTGGACCAGCTTCCTGTAGACTGAGCTACTAAGCTTTGATTTCAACGTGCAGGCAACAGGTGCTATATTTTGCTCCACATCCTAAAC
ATTATATTTAGGAAGGGTAGAAGCCTTTTGTTGGTGCTGCTCAGCCTGCAGTCACCACCTACAGAGATGTTCTTTGATTTATTTTAGGACGTCACCTTTA
TCTGATTCTTAACCAAGCTCCTTAGCTGATCCTCATTGCACCTCCAGATGTGAGGCATGATTTCTTTTTATTTAATCTGCCTCAATGGCCTTCCAGGCAA
CAACAGCTAGGAAATGGCATGAYTGCCATCTCAGAAGGTGCTCTCTTTTTTCTCCCAGTGGTCTGTTTTGAGACATGAGTTCGGAAACTTACACTGTGTG
GAGCCTGACAATGAAGCCAACAATATGGAAGGCGGGACGAAGACATGGAGAAACATTCCTCCCTTGTGATGTTGTTTGAGCCCATGAATCAGCCTCCCTG
GAGTCAGTCCCACATCTCTTCCTTGAACTCGCCTGAGCCATSACACTCTTGATAATTTCACTCCATTTAAGTTGGACTTTCTGTCATTTGCCACACAAGA
CTTTACACAGATCCAGAGGACATTGCAGATTGCTGCCTTGGGTGATTTTTAAAATTAACGTGGACATGAAGTCATCAGGAGACAAGGAGTTCCARACCTG
GATTTATTGCTTACTAGATGATGGAAACTTGGTCCTCTCAGTGTTAACTCTATTTTATTTATTTACTTATTTATTTATTTATTTTGAGACAAAGTCTCAC
TCTTGTCCCCAGGCTGGAGTGCGATGGCACGATCTCGGCTTACTGCAATCTCCGCCCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCCCCCGAGTAGCTG
GGATCACAGGCATGTGCCACCACGCCCAGCTAGTTTTTGTATTTTYAGTAGAGGCAGGGTTTCACCATGTTGGCCAGGCTGGTCTCRAACTCCTGACCTC
AGGTGATCCACCTGCCTCGGCCTCCCAAAGTGTTGGGATTACAAGTGTGAGCCACTGCACCCAGCCAACTCTTTATATTAAATAATGTAAATAATTTTTT
CTCTGCTATATACTAATTCCAGTGTCCTTAACAGATCCTTGGCTGATATCTGCTCTTCACTTTTACAACAGCCCCACCGTTCCCCACTTCCTATTCATTC
CCAACCCACACTCAATCATCCACGCTGTTTTGAAGAGCCAACACATTGTTATCCATCCTTTAATAGTTACTCTTGCCTTTCCGTCTAAAGTCCAAAATAT
TTCAACTTTTATTCTTGGACTTTCAACTGCCAGCTCTTGACTATCCTTCTCATGTCACCTTTACTCTGTCCCTCTAACAGTTTAATTCACAGCCATATCA
AACTACTTTAACTTAGAGTTCCCCAGACGCAAGATATTAAATATTTACCCCCAATAATTTGCTGTTGYATGCTCTTTTGTGTCTACATGATGTCCTCACG
CCCTTCTGGGACTAAATCATACTCATTGTCTGTATTTATGACATCAGTCATTCTTGGCAGATGACAAGGATGGAAGGAATGGAGCCTTGCTGAGAGATGC
TGTTACAGCAGGCAGCTCGTCAGATATGAGCAGGGCAGGAGAGGACTCCTCACCCCACCAGAAATGTCAGGCAACCATCAGGTGATGGTCAGGCAGTTGT
TACACCGTCTCTCTAAAATAATAATTGGTTGCAGCCGGCACCAGGGAAAGGCCGTCTCCTGACASAGAGAAAACACCTGAAACTGGTGATCAGCAGCTTC
CCAATAAGATCTCGGGAACTGGGCCAGTGGGCTCAAGAATGTGCATTAAGAGCAGAGTTTAACTGGCCTATAACCTCTTACGGAGGTTGAGCTGGTAAGG
GAAGAATGCCTCAAGTGAGCATGCGTATGACTCCAAGAAACACACTGCGCATGCTCCCCTTCCAAGCCCCTGCGGGCCACTATGCAGGCGACCAGCCCAC
CCCAGGGGAAGAATCAGGGAAGAAGGGATGCAAGACCCCGGAAGTGTGCCAACATATTAAACCCCAAGTCAAAAGGTCAAACCGTGCACTTGTCTTTCAA
GTCACCCCCTCGGCCGTCTTCCAAGTGTACTTTCCTCCTTCCTTTCATTCCTGCTATAAAGCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGT
AGAACCGAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCCATTCTCCTGCCT
CAGCCTCCCGAGTAGCTGGGACCACAGGTGCCCACCACCACGCCCGGCTAATTTTTTGTATTTAAGTAGAGATGGGGATTTCACTGTGTTGCCCAGGCTG
GTCTCGAACTCCTGAGCTCAAGCAATCCACCTGCCTCGGCCTCCCAGAGTGCTAGGATTACAGGCGTGAGCCACTGCGCCTGGCCTCTTGCTGTAAAGCT
TTTTAATAAACTTTCTCTCCTGCTCTAAAACTTGCCTCGGTCTCTCCTTCTGCCTTATGCCCCTCAGTCAAATTCTGTCTTCTAAGGAGGCAAGAATTGA
GGTTGCTGCAGACCTATACGGATTTGCTGCCSGTAACGTTCTGGTGCCATGTCACTTGGATACCTTCCACTGTCACTCAAAGACCCCTTGATGTCTCATA
CATACCCTTGGCTTTAATGTAAACATTTCACTTACCTGAGAAAGGAGGAGGGGCTGATGCAGCTACAAGCTGGAGATCCACTACAAAAGAGGGAAAAATT
ATATGATGAGATGAGATAAATCATGTACCCTTATTTAGCTTTTCTAGTCTTTGATGCAACCAACTGAAATAATTTAATTCTACATATGTCATAAGGCTCT
TGTTTTGCACACTAATACACTGAGGAAACCCCATTAAGTTGTGGGTCACTCACTGACAATTCAGAAAAGGCATCGGAGGAAGAAACACATTTTTCCAATT
TCTTTCAACTTGCAGGCCAATATCTTAGGAACTATGGGGCTACAAAAACATATCATACAGTGCTACATAAATTACAGTCAAAGTGTTTTAGACATGAAAT
AACAACATTACATGAGTTAATTAAAACACGTGTTTTTTGGATGTGATTGTACCAAGACTGTTGATGGTGCAGAAATTTGGGTACCCTTATAAGTTGATAG
AAGATTTGCTAATTGGAGCTACCATTTTGGAAAATAATTAAAAAAATTTCCCATGATGCCTTCAATGKGGTTTTGCACTTTCATCTAGACTCCTTGATGT
TTTCRAAGTTCAGATGAATTTTGCAACATGCCCCCCCMACCCCACCTTTGGCAGCAGCTCAGTCACCATGTCACCAAGACAGAATAAATATGAGCTTCCC
ATCTCCTGTGAGGTCTCACAATTGAGTTTCTGGTCATTTGACTTCTGGGCAGAACATGAGCTGCCTTGAACCAGCATACTCATCCAAGACCCAGCCATCC
ACAATCTCCCCCATTTCATCTAGAATTTGCTATCAAAAAAAAAAAAGCATGAYTGTGACACCTGGAAAAAATCTTTTTTAAATAAAAAAGTAAACAATGT
AAAAATATTCTGATGTTTACAGAGAAATGGAGAGTGTGGTGGCATTTGCTTACTCAAAATATGTATTGCATGTTGGCTGTGAACTAGATTGCATTCTAGC
CACTGATAATGCAGGCAATGGGGAATCCGACATCTGCACGGCTTCTTCGCATATTAAACATCACAAGGAGAGCTAAGAAGTTGCACAAACAAAACTCTGA
CAATCTGAGATGCTAAGACATTTTACMGACTGGAGGGAGGAGGCGGGGAGGGTGCATGTGGAGGTGCACTCATGAGATGCTACTCATGTGGAGATGAGGC
CTGGGTCGGCTGAGCATCATCCAACCCTGCAATGTGCCTGGAAACTCCAAGTGCAGTCCCAGCTCATGTGCACCGCCTCAACAAGAGGGCAGTTTGCCCA
GAGAAGGGGAGGCACAGCCATGAAGCTGATCTTGAACTCTAGACACCATTGCAGGGAAAGGAAGGTGATGGGATTGTGAGGATTCAGTGGAGAAGGAAGA
TCAGTGACTGAGGACCACAAAGAGCAGACAGTCTACACCAGTGGTCCCCAACCTTTTTGGCACCTGGGACCGGTTTAGTGGAAGACAATTTTTTCCACGG
ACTGGAGAGGGAGGGGATGGTCTCAGGATGATTCAAGTGCAATACATTTATTGTGCACCTAAGTTCTATTATTACATTGTAATGTATAATGAAATAAYTA
TACAAACAACTCACCATAATGTAGAATCAGTGGGAGCCCTGAGCTTGTTTTCCTGCAACTAGGTGGTCCCATCTCGGGGTGATGGGAGACAGTGACAGAT
CATCAGGTGTTAGATTCTCCTAAGGAGCATGCACCCTAGATCCCTCGCCTGCACAGTTCACAATAGGGTTCGCGCTCCTACGAGAATGTAATGCCACCAC
TGATCCGACAGGAGGCAGAGCGCAGGCGGTAATGCAAGCAATGGGGAGCAGCTGTAAACACAGATGAAGCTTCGCCYGCTCACCGTCCACTCACCTCCTC
TGTGCAACCCGGTTTCTAACGGGCCACAGACCGGTACCAGTCCCTAGCCCGGGGGTTGGGGACTCCTGGTCTACACAGTCAACACTGTGACAATATTGCC
CCAAACTACTAAAATACAACAGCAGCAACAGGCAAAACTCAGTTGAAATTGTTGAAAACCATTCCACAACATGTACTCACACATTTGTTCAACTATGTCC
TTCTTCCTGGGCATTCAGTTTGGTTTCATTTTTTTCCCACCACAGACAATGCCTCAAATAATATCACTGCATACAACTTATCTTCATATGGGTGCTTTTA
TGTTATAGTATGGAATTCTAAAAGTGACTTTTTGTTCAAGAGACTTGTTTTAAAATTAATCTGTGCCCATACAACTACATAAAAGGTTAAAGCGATTTAT
AGCTCCTATGCAAATGTATGTTAATATCCTTCCCTTCATAGAGCTTCATTGAAATTTTTCATGCTGTGTTACCCAAGACAAGGATCTRCTACTATTGAAG
ATACTGATTTCTGCATCATTGTAGKTATTCAAACAGAGCATGGCATTTTACAAATGTATTGGAGATATAAATGTATCTCCAGAGATTCAAGGAACTATCA
GGAGATCTTTGGCAAATTGTCTGGGAGTTTCTAAACTTTAAAAAATTGTGTTTATGATGTTGAGCTTCTGTGAATGGATAAAACATTTTCCAGAACTTTT
TAACAGATTACCTCAGGGAATATGACACCCCGAAAATGAAAAGCATGAGTATGGAAGAAATGATTAAATTGTGAAGAAAGTGGAACTAAATAGTCCTTAT
GTTTCTTCTGACTCTTAGAATCTTCTGTTCTTTACCCCCTAGGTTCGAGGGTTTCCACCCCTCTCCCAGGCCCCTTGAGCATTTCACTTCCTAGAGATGA
ACAAATGCCACCATTGTTGTGTTATCACACTGATAATACACTGACAATAGATTTCTCTTTTTTTTTTCTTTTTTGGCAAGAACATTTTATTTTATTCAAA
CTATTTTTTTWAATTTAATTTAAGTTCTGGGATACATGTGGAGGACATGCAGGTTTGTTACAAAGGTAAACATGTGCCATGGTGGTTTGCTGCACCTATC
AAATCATCACCTAGATATTAAGCCCTGCACGCATTAGCTATTTATCTTCTTCTTTTTTTTTTTTTTTTTTTTTCAGATGGAGTTTCGCTCTTATTGCCCA
GGCTGGACTGCTGTGGCACAATCTTGGCTCACTGCAACCCCCTCCTGGGTTCAGGTGATTCTCCTGCCTCAGCCTCCCACGTAGCCAGGACTACAGGCAT
GTACCACCACACCTGGCTAATTTTGTATGTTTAGTAGAGACAGGGTTTCACCATGTTGAGCAGGCTGGTCTCGAACTCCCGACCTTAGGTGATCCTCCCC
CCTCGGCCTCCCAAAGTTCTGGGTTTACAGGCATGAGGCACCGTATCTGGCCTTTTAGCTATTTATCTAGATGTTCTCCCTTCCCACATCACCCAAAAGG
CCCCAGTGTGTGTTGTTCCCCTCCCTGTGTCCATGTGTTTTAACACTGACAATAGATTTCTTTTCTTCTCTGGGAAAGAACCATAAACAAGATTTCTTCT
TTGAAATCCAAGGATAGAGGTACATGATGGATCCCTGTCTAAAAATGCCAGCCTCGCCCACTCACCTACCTGGCTTCACCTCAGTATCCCACACCAAAGT
CCCATGTCTTTTTTCAGTAATCTCAAGTTGAATGGGTTCCTTCATCTGCCCAGCATAGAATTTTGAGAAGTGCTGAATTTCTCCAGGGCTCCTGTAGGAC
AATTTCAACTCCTAGAGGAAACACATCAGTTGACTTGAAGCAGTGGAGGGTGGAAAGGCCCGGCTCCCTACAGTGAACTGGCCAATGGAACTTAACCCGT
TTCCTGTGCAATGTCATGGCTGGTTGAGTGGGAAACAGAGGGAGAGAGGTAAACAGCTCTTTACATTTACAATGTTARGAAATGCTTTTATACCAGGAAG
GGAAGAATAACCTAGCTGTCAACACCACATGAGTCAGAGAAAAACTATCTGAGCTACCAACTGAATACAAACGTCTTAGATTTTGAGGGTTTTGAGGCCC
CTCATTAATGATGCGACCAGCTCAGAATCCGAGATTCTATAGAGAAGCAAGAAAGCTTCCAAAGCAGCCCCATCAGGTCTCTCTGAGCCTCGCTGGGAAG
CCGGGGTCAGATAAGCCATTTCAGGTCCCTCTCTGTTTTGCACCCAGTCTCCCCAGGATTCCTAAAAAAAGCTGCCCTGGGGAGCAAGAAAGCCCCTTAT
GCAGGACAGAATTAGGAAAAGCTTAGCTCATGCAAATCTCTAGTTTCTTCAGAAAACAAGCCCCCCGACCCAGCTCTTGGAAAATAGGGATTTAAAAAAT
TACAAAGGGTGAGATTGTTGGCTGGAATCTTTTTAAATGGAAGATGACTCTGAGGAGAGTTTACCTCGCTCAAGATCATCACCTCTAGGGYGGGCGCGGT
GACTCACACCTGTAGTCCCAGCACTTTGGGAGACTGAGGTGACCGATTGCTTGAGGTCAGGAGCTCAAGACCAGCCTGGCCAATATGTTGAAACCCCCAT
CTCTACTAAAAATACRACAATTAGCCAGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGGAA
AGAAGGTTGCAGTGAGCAGACAYTGCGCCACTGCACTCCAGCCTGGGCGACAGAGTAAGACTCTGTCTCAAAAAAAGATTATCACCTCAGGTTGCAATTG
CCACTTCTTATCTCACATTTACTATGTTGTATCATTCTGGATGAAATACCCTGCATTTTATTTATTTATTTCTATATCAGCAATGTTTATGGAAGGTTCT
GCAACAGCCAAGAATGTATCTTGCCTGAAGGACAACCAAACTTCTGGGGAAGGCAGTCCCTGCTTCATATTAATTGCTGTGGAGTTTATCAAGGAAACTG
GGAACTAAAATCAGAGCAAGGTTGGGCACTTTATTAAATTCTTATGCTCTAGTATACTTAGAAAAAGATCACTGAACTGATGTCTGCAATAAGCTTCACA
TCTTGTTGTCTATATGGCTGGAAAAATCATTTTTCCTATTTTAGCCTTAGTGTCCAAAAAGGAGACATGTAAATACTGACACCTAACCCTCTTGTTTCTC
ACCTCTTCCAAGGTCCGCAAACAGGAAAAAGCCATCTACGCCAAAACAATAACATTGGTCCGTCCCATTCTGAATTAAAGACCTTGAAATCACTGGGATG
TGTTTTCCCATTAAAACTGGAAAACAATTAAATCTTGATACTTTGTTCTAGAGATGGTATATTGTGCTGGACAACCTCATCTTTATTTTAGAGAACATAT
GCTGTGAGACATCTTTGAAAATCTATTTGGGGCCAGGTGTGGTGGCTCGAGCCTGTAATCTCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACGAGGTC
AGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATAAAAAATCAGCCGGGAGTGGTGGTGCATGCCTGTAATCCCAGTTAC
TCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGCGGTTGTAGTGGGCCAAGACCACACCACTGCACTCCAGCTTGGGCAACAGAGCGAGA
CTCCATCAAAAAAGAAGGAAAGAAAGAGAGAAAGAGGGAAAGAAAGGRAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAAG
AAAGAAAGARAAGAAAGAAAGAAAGAAAGAGAGAAAGAGGGAAAAAAGAAAGAGGAAGGAAGGAAGGAAGGAAATCTATTTGGAAATATACTAGCTTTAA
GTTGGTTAATACTCTTTGAATCAGTAATTTCATTTAGGACACTCTAGCCCTGCAGGAAAAATGTAAAACCATATGAATGGAAAGACTTCTTGCCAGGGCA
CTTCTTGGGAGAAATTACATGCGACTAAATGTTGAATAATCATGAAATAATGAAAAAAGCTCTAGGGATTTCGCTACATGGCATATCATGTCCCAGTAAA
TCTGTATGTAGGAATAATTTAAATTGCACAGAATTATATAGTAATCTCCATTTAAAAATATATAAAATGAAATATATAACATAAAATCAGCTCTTCCTTC
AACTACCTTAACAAATACATATTAAGTGCGTTAGTTAGGCAAGACATCAGGACTGAAGATAATTATAACAGGGAAATGGAAATTTCAGTTTGGGAAACTC
AATGTGTAGTTTTAACCTAACATAAGTATGTCAAATACTAAAATGTTACCTCTGCCTTAGGGTCTTGGAAATATGCAATATGATTAATACTATTTTTCTA
TAATTTCAATTTTTTTAAAGGGCATATTTGTGATTAATAAAAGAAAAATGTTGCATTTTGCTAAGATTCTTCCATTTGTTTCAGAAATATAAAACACTCT
GAAACCTGCTGAGTTGGGTTTGAATTCTACTAACCTTGGGCATTACTTTCAGGTTYGCAGAATTAGACACAATATAACTGGAACCAAAGTTCAGGGGTTC
CATTGGGGGCGAAGTCTGCAGGCGCACACCATGGAAGCGATCTTCCTCATCATCTATCGCCTAAGGAAGAAGGGGCAGAAACATTAGAGAGCACAAAAAA
TAGTAAAGCAAGTAGTGGCATAAAAAGTTATTTATATGGTATATTAAGTAGCACGTAGGCTATGATTCAATTGATATAAAGATTAAGGTATTCAACTGAT
ATAAAGATTGTGATAGGTAGATACACAGATATGAATGAATATGTCTCTATGCACAAAGAGACATATTGATGAAATTTTACTGAAAGATATCTCAGGGCCA
AAGGATTTCTTGTGAATGTGAACTTATAAATTCTTGTATAGTTTGCTTTTATTTTTACACTGTGGAAAGATTGGCTGCGTACTTATGAAAGCACAGGACA
GAAGGACTTCTTTTTGKTGCCTCAGCAGAGAACTGGTAGCTCAGCTGTGTCTGTGAACACGTCTATGATGGACAAGGGTAGAGATGTTACTTCTCTCCGT
CACAGGGCTGCTGTGAGATGCTCAATCACCTGACCACCAGCGAGCAGAAACAGTCACCTCTGCGAGGCCCAGCAGCCACAGCAGAAAGCGAGACCTCAAA
ACTATCTCTAAGCAGCCAGGCACGGTGGTTCACACCTGTAATCCTAGCGCTTTGGGAGGCCGAGGTGGGCAGATCACAAGGTCAGGAGTTTGAGACCAGC
GTGGCCAGCATGGCGAAACCCCGTCTCTACTAAAAATATAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCA
GGAGAATCACTTGAACCCAGGAGGCAGAGATTGCAGTGAGCCGAGATTGCGCCACTGCATTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCACCAAAA
AAAAAAAAAATCTATCTGAGCAGCCATCAAAGACACAGAATGGAATTCAAACAAAACCTTTCTACCTTTGGGAAGTCTCAGGTACAACTCAATAGAGACT
TTGTAGAATTAATGAGCAAGGAATTTATGCTAAAAACAATGACTGTCAGTGATATTATTAGTCCAGCTGATCGACTCCCTTGCAGGATAATGACCAAGAG
GGACACAAGGGGACTTTGGGGAAGCTGGTGATGTCTTGTTGCCTGTTCTAGGTGCTGCATATGTGAGTGTGTCAACTATGAAAATTATGAAGCAATAAAT
TATGTACATATTTCATTAAAAGTAGAGGCCAGGTGCAGTGGCTTATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAG
GAGTTCGAGACCAGACTGGACAACATGGTGAAACCCCATGTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGAGTGCCTATAATACCAGCTACT
CGGGAGGCTGAGGCAGGAGAATCGCATGAACCTGGGAGGCAGAGTTTGCAGTGAGTCGGGATCGCACCACTGTACTCCAGCCTGAGCGACAGAGCAAGAC
TCTGTCTCAAAAAAAAAAAAAGAAATAAAGAAATGTCAGCAGATCTCTATGAAGAAAAGGATGGCCCATGGAGAAAACCTGAATTGGGCCTGGGAAATCA
AATAAAAGAAAAATTTCATATTGTATTGAGCAAAGAGATGAAACTATGATGGGGGTAAGGCAGAGAAGGGATGTGGAGAACTATCCAGGAGGCATCACAT
ATATGTTTAGAAAAAGAACCAGTTTCCGAAGGGTCAAAAGAAACTGATGGGGGAAAGAAATAACATATCATACCATCTCTGATGAACAATTCTTTTACAT
GAACAGATATGTTTAAATTAAATTATAGTAATAACAGATTAGAACTAAATCACCAAATAAATCCATATCACATTGCTAGGGTTATGATTACGGACAGATT
TCTGTAGGTGTTGAGAGACATACCACTGGATTAATTTTCTTAACCTTCTTTATTTGTTATAGTTCTTATCATATGCACATATATTTTTCCTATAGCATTC


SNP Information

Context             (SEQ ID NO:67294):
TTCCCCTGCTATGTAGTTACACAGGCCTCCTGCAGCTTAGTTTCAGCTTTTCTAGTTTTTCATGGCTCCCAGAGGGAATATTTTCTATGCCGTATAGCCT
S
TTTTCACATGAAGCCATTTTGGGGTGTTATAGTAACAGCTGGTGACTTGATTTTATTTATGTTGCTATGTGCTGAAAGCTTTATGAATGTTCTGGCTGTG
Celera SNP ID:            hCV2078201
SNP Position:             7043
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,3)      total(G,3|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67295):
GACATGGCTGCACACCCTCGCGTGAGTTCACTCACTCAGGATGTATTGAGCCATTGTTCCAGGGCAGGTAGCATTCAAAGCATCAGGGGTGCTGTTATAG
S
CAAGGCTACAGTTTATTACAGCAGAAGGACACGGAATAAAATCAGCAAAGGGAAGAGCCACATAGGGCAGAGGCCAGGAGAGACCATCCCGAAGGGGAAC
Celera SNP ID:            hCV2078203
SNP Position:             9620
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67296):
TGTGGGGCTTCCATCTTAAGGAGGGCAAGCAGGCAATGGGCAGATCAGGAAACGAAGATATGACTTGCCAAAGGGTGGTAAGTGCCATGGCCAAAAGGAG
S
CAGAGAGAGATGGGGTGTCTGCTTAGTTGGGAAGTCACAGAAGAGCGGGACGTGATGTTTGAACAGAGACGATAATTATAATGGCCACTTTCAGAACACT
Celera SNP ID:            hCV2078204
SNP Position:             9832
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,6)      total(G,6|C,2) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67297):
CAGGAAACGAAGATATGACTTGCCAAAGGGTGGTAAGTGCCATGGCCAAAAGGAGGCAGAGAGAGATGGGGTGTCTGCTTAGTTGGGAAGTCACAGAAGA
S
CGGGACGTGATGTTTGAACAGAGACGATAATTATAATGGCCACTTTCAGAACACTTACTATTTGTTGGATAAGTAATAACAGTAATATATGTACCAGGCA
Celera SNP ID:            hCV2078205
SNP Position:             9877
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67298):
CCGTTAGACTGTGGTACCTGGATCTCAAACCCAGGCAATCCGGCTCCAGAGTGTTTTTAACCATTTCCCTGCACTGCCTCCTGCCGGTCAAAAGAATAAA
Y
GCATATGCAGGCAAGAATGAATGGGTGGTCCCATTTCCGTAGAAGGGGAAACCGAGGTCGGGGAGCTGGGCGGGGAGACCCCAGCATCCTCTGACCTCTT
Celera SNP ID:            hCV2078206
SNP Position:             10724
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,14)   caucasian(C,13|T,23)   total(C,21|T,37)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67299):
AGGCCACTGGCCACACATGGCTACAGAATGCTTAATGAGGCCAGTATGACTGAGGAACTGAATTTGTCATTTAATTTATCGAAATGTAAACAACCTAATG
K
AGCTAGTGGCTTCTGGATTGGACAGCGCAGCTCTGCACATATACAGGTCAATTTGCATGTCTGTATGTTTAACTTTAATTTTTAACTTTATTTCCTCTTT
Celera SNP ID:            hCV8832750
SNP Position:             2266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67300):
CATTTAATTTATCGAAATGTAAACAACCTAATGTAGCTAGTGGCTTCTGGATTGGACAGCGCAGCTCTGCACATATACAGGTCAATTTGCATGTCTGTAT
K
TTTAACTTTAATTTTTAACTTTATTTCCTCTTTCTGCCCCGCCACCCCCCACCCCCAGCAAGCAGGGCAGCCTAGTGTACACGCTGTTTTTGTTTGTTTG
Celera SNP ID:            hCV8832751
SNP Position:             2333
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67301):
CCCCAGCATCCTCTGACCTCTTTCCTTGCCTCCCTGCCCCCGCCCGCAGGTGAAGCTGGTGTTCGTGGAGGACCAGGCTGTGGTGGAGACGGTGTTCTTC
Y
TGACGTCGCGCACCAGGGCGCTGCTGCGGCGCTTCCCTCGCATGCTGCTGGTGGACCGGCTGCCGGGGCTGCAGGGCGCGCTGGATCTGCTGGCCGTGCT
Celera SNP ID:            hCV2078208
SNP Position:             10903
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67302):
TTTTGCTAAGATTCTTCCATTTGTTTCAGAAATATAAAACACTCTGAAACCTGCTGAGTTGGGTTTGAATTCTACTAACCTTGGGCATTACTTTCAGGTT
Y
GCAGAATTAGACACAATATAACTGGAACCAAAGTTCAGGGGTTCCATTGGGGGCGAAGTCTGCAGGCGCACACCATGGAAGCGATCTTCCTCATCATCTA
Celera SNP ID:            hCV25636590
SNP Position:             37956
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,5)   caucasian(C,40)   total(C,71|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:67303):
CATTTGACTTCTGGGCAGAACATGAGCTGCCTTGAACCAGCATACTCATCCAAGACCCAGCCATCCACAATCTCCCCCATTTCATCTAGAATTTGCTATC
A
AAAAAAAAAAAGCATGATTGTGACACCTGGAAAAAATCTTTTTTAAATAAAAAAGTAAACAATGTAAAAATATTCTGATGTTTACAGAGAAATGGAGAGT
Celera SNP ID:            hCV11708050
SNP Position:             32335
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67304):
TAGTTCTACTTCAAGATAAGGTATAGACAACTGCAAAATTCCACTGTCCTTACGATCACAATCATGAAGAGGATGGAGCTGCAGAATCTGAGCATATAAA
R
ACTTTTATGAATTCTAACGCCCAACCCCAACTTGAGCATTCATTGCGCTGGTCCTAATTCACATTCAAACGCCCTGAGAATGGAGCTAACAGGATACACT
Celera SNP ID:            hCV8832758
SNP Position:             24464
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   ASG_42_A(A,0|G,84)   ASG_42_G(A,0|G,84)   ASG_42_AA(A,0|G,84)   total(G,252)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:67305):
TTTTCCCAAAGCAGCCCAGTTACTTATTAACATACTGCTTTTTCCAGTGACACGTGTTCACAGTTATTAAGTCGATCTCCCGCCAAAATAGAAGCTCTAT
S
TTGTTTTCCATTGTATCCCCAGTGCCTAGAACAGTGCCTGTTGCAAAGTAAGCTTTGAGTTAAAAAAAAAGATGAAAGAATGAAAATGGCAGACTGCCTA
Celera SNP ID:            hCV25953522
SNP Position:             19849
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(G,30)   total(C,1|G,61)
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67306):
TCCCAGCACTTTGGGAGACTGAGGTGACCGATTGCTTGAGGTCAGGAGCTCAAGACCAGCCTGGCCAATATGTTGAAACCCCCATCTCTACTAAAAATAC
R
ACAATTAGCCAGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGGAAAGAAGGTTGCAGTGAG
Celera SNP ID:            hCV11708054
SNP Position:             36016
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67307):
AGCCAGGCGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGGAAAGAAGGTTGCAGTGAGCAGACA
Y
TGCGCCACTGCACTCCAGCCTGGGCGACAGAGTAAGACTCTGTCTCAAAAAAAGATTATCACCTCAGGTTGCAATTGCCACTTCTTATCTCACATTTACT
Celera SNP ID:            hCV11708055
SNP Position:             36123
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67308):
TACCTCACTTACGTTTTCTGTATGTCACTTTCCTTTTTCTGTCCATAAATCTTCCACCACATGGCTGTGCTGGAGTTTCAGCCTACTCTGGTCCGAGGCT
R
CCTGATTCGTGGATCCTTCATTGCTCAATTAAACTCTATTTATTTATTTAGAGATGGAGTCTCGCTCTGTTGCACAGGCTGGAGCACAGTGGTGCGATCT
Celera SNP ID:            hCV29332535
SNP Position:             19013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67309):
TTCTGGGTTCAAGCAATTCTTGTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCACCACCATGCCTAGCTAATTTTTGTATTTGTAGTAGAGAC
Y
GGGTTTTGCCATGTTGACCAGGCTGGTCTCAAGCTCCTGACTTGAAGCCATCCGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAACCACA
Celera SNP ID:            hCV29332536
SNP Position:             19235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67310):
AGAATGAAGGTGAGAAAAAGATGTCCTCAGAGGAAGCAAAAAATAAGAGAATCTGTACCTATCAGAACCACTCTAAAAGAACTAAAAAACGTCTATCAGA
R
GAAGTGGAAATTTGCAGAACGAAATTTGGAAAATAATGAAGGAAGAGCAACAGAAATGGTAAATATCTGGAAAAACATAACAGATTACTCTTCTCATGAG
Celera SNP ID:            hCV29332537
SNP Position:             26551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:67311):
TGCAGAAATTTGGGTACCCTTATAAGTTGATAGAAGATTTGCTAATTGGAGCTACCATTTTGGAAAATAATTAAAAAAATTTCCCATGATGCCTTCAATG
K
GGTTTTGCACTTTCATCTAGACTCCTTGATGTTTTCAAAGTTCAGATGAATTTTGCAACATGCCCCCCCCACCCCACCTTTGGCAGCAGCTCAGTCACCA
Celera SNP ID:            hCV29332538
SNP Position:             32068
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67312):
TTTAAAAAATTACAAAGGGTGAGATTGTTGGCTGGAATCTTTTTAAATGGAAGATGACTCTGAGGAGAGTTTACCTCGCTCAAGATCATCACCTCTAGGG
Y
GGGCGCGGTGACTCACACCTGTAGTCCCAGCACTTTGGGAGACTGAGGTGACCGATTGCTTGAGGTCAGGAGCTCAAGACCAGCCTGGCCAATATGTTGA
Celera SNP ID:            hCV29332539
SNP Position:             35891
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67313):
AGGCTGGTCTTGGACTCCTCGGCTTAAGCAATCCTCCTGCCACAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCTCAGAACTAGGAAGC
T
TTTTTTTTTTTTTTTTTGAGTCTTGCTCTGTTACCCAGGCTGGAATGCAATGGCACGTTCCCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGTGATT
Celera SNP ID:            hCV2078210
SNP Position:             14288
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67314):
TCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGACCTGCTCGCCTCAGCCTCCTAAAGTGCTGGGATCACAAGCGTAAGCCACTGCGCC
Y
GGCCTAGGAGGCTTCTAATAAAGATTCTATCACTCCTAAGAAGGCCTAGAGACATGATCAGGCCTAGACCTGCTGATGATTACCTTGGTATGGTGTGATA
Celera SNP ID:            hCV2078211
SNP Position:             14577
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67315):
TCAGCCTCCCAAAGTGCTAGAATTACAGATGTGGGCCATTGCACCTGGCCAATCAAAGATACCCTAATGATTTAGGGAAGTTTGAGTTGGGGTTTCTGTT
R
TCGCAACTGATGAAGGGGATTTAATTCTATTATAGGTGACAAAGTCCAGGTTGAAGTAGCTCAGCATTTTTCAAACTTTAGCGTGGACGTGAGTCACGTG
Celera SNP ID:            hCV2078213
SNP Position:             15161
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,10)      total(G,10|A,5) ;no_pop(A,-|G,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67316):
GCCTCCCAAAGTGCTAGAATTACAGATGTGGGCCATTGCACCTGGCCAATCAAAGATACCCTAATGATTTAGGGAAGTTTGAGTTGGGGTTTCTGTTGTC
R
CAACTGATGAAGGGGATTTAATTCTATTATAGGTGACAAAGTCCAGGTTGAAGTAGCTCAGCATTTTTCAAACTTTAGCGTGGACGTGAGTCACGTGGGC
Celera SNP ID:            hCV2078214
SNP Position:             15164
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,13)   total(G,13|A,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67317):
AATCAAAGATACCCTAATGATTTAGGGAAGTTTGAGTTGGGGTTTCTGTTGTCGCAACTGATGAAGGGGATTTAATTCTATTATAGGTGACAAAGTCCAG
S
TTGAAGTAGCTCAGCATTTTTCAAACTTTAGCGTGGACGTGAGTCACGTGGGCACCTTCTTAAAATACAGAGTCTGACTCAGTAGGTCTAAGATAGGGCC
Celera SNP ID:            hCV2078215
SNP Position:             15211
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,13)   total(G,13|C,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67318):
TTGTCGCAACTGATGAAGGGGATTTAATTCTATTATAGGTGACAAAGTCCAGGTTGAAGTAGCTCAGCATTTTTCAAACTTTAGCGTGGACGTGAGTCAC
S
TGGGCACCTTCTTAAAATACAGAGTCTGACTCAGTAGGTCTAAGATAGGGCCCAACATTCTAGCAAGCTCTCCGATGATGTGGCTGTGCTGGGTTGTGGA
Celera SNP ID:            hCV2078216
SNP Position:             15259
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,14)   total(G,14|C,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67319):
CAGTAGGTCTAAGATAGGGCCCAACATTCTAGCAAGCTCTCCGATGATGTGGCTGTGCTGGGTTGTGGAGCACACTTTGAGTAGCAATGAAGGAACTTGA
R
ATAAAAGACAATTCAGGCCGGGTGTGGTGGCTCACACCTGTAATTCCAGCACTTTGGGAGGCTGAGGTAGGTGGATCACTTAAGGCCAGGAGTTCAAGAC
Celera SNP ID:            hCV2078217
SNP Position:             15391
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67320):
TAAAGCGATTTATAGCTCCTATGCAAATGTATGTTAATATCCTTCCCTTCATAGAGCTTCATTGAAATTTTTCATGCTGTGTTACCCAAGACAAGGATCT
R
CTACTATTGAAGATACTGATTTCTGCATCATTGTAGTTATTCAAACAGAGCATGGCATTTTACAAATGTATTGGAGATATAAATGTATCTCCAGAGATTC
Celera SNP ID:            hCV27496379
SNP Position:             33888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67321):
TTTCTTCAAAAGACAGCTCTCTCCTGAGAAAGGGGGGGACTAGAAGTTCCCATATCACACCCTCCTATCTTGATCCAAAAATACCATTCTATCAGCATTC
R
TATATTAAGTCTCAAGGAAGCAGCAGGTTGGATTTATGGAGGTTATCAGTTATCCATGGCTACATAAATGCTGTGTTAACAACTATAAAACTTCCTAAGT
Celera SNP ID:            hCV2078218
SNP Position:             15920
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67322):
AGTTCCCATATCACACCCTCCTATCTTGATCCAAAAATACCATTCTATCAGCATTCGTATATTAAGTCTCAAGGAAGCAGCAGGTTGGATTTATGGAGGT
Y
ATCAGTTATCCATGGCTACATAAATGCTGTGTTAACAACTATAAAACTTCCTAAGTATATAACAATAAACATGTATTTGGAATCAACCTAAATGCCCATC
Celera SNP ID:            hCV2078219
SNP Position:             15964
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67323):
TGTGAACTTATAAATTCTTGTATAGTTTGCTTTTATTTTTACACTGTGGAAAGATTGGCTGCGTACTTATGAAAGCACAGGACAGAAGGACTTCTTTTTG
K
TGCCTCAGCAGAGAACTGGTAGCTCAGCTGTGTCTGTGAACACGTCTATGATGGACAAGGGTAGAGATGTTACTTCTCTCCGTCACAGGGCTGCTGTGAG
Celera SNP ID:            hCV16019203
SNP Position:             38417
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,0|G,84)   TSC_42_C(T,0|G,84)   TSC_42_AA(T,0|G,84)   total(G,252) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67324):
TTTTCCCAAAGCAGCCCAGTTACTTATTAACATACTGCTTTTTCCAGTGACACGTGTTCACAGTTATTAAGTCGATCTCCCGCCAAAATAGAAGCTCTAT
S
TTGTTTTCCATTGTATCCCCAGTGCCTAGAACAGTGCCTGTTGCAAAGTAAGCTTTGAGTTAAAAAAAAAGATGAAAGAATGAAAATGGCAGACTGCCTA
Celera SNP ID:            hCV25951576
SNP Position:             19849
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(C,1|G,35)   total(C,1|G,69)
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67325):
GGGTGTCTTGAGAGGGTCGAAGTTAGAGAAAGGGCACCTGAGAGGGCCAGAGATTAGAGACTGGAGGGGGCCCCAGTTGGAGGGTGAGAAAGATTGGGGA
K
TGGAAGGTTATGTCTGGAGGGGGTCCCAGTTGGAGGACCAGGCGCTAAGAGGATTGGAAGGGTATACCTGGAGGGTGGCCCAGCTGGAAGATCGCAGGAG
Celera SNP ID:            hCV25635370
SNP Position:             11977
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,38)   total(G,74|T,2)
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67326):
TGTATCCCCAGTGCCTAGAACAGTGCCTGTTGCAAAGTAAGCTTTGAGTTAAAAAAAAAGATGAAAGAATGAAAATGGCAGACTGCCTAGCAGAACTAGC
Y
CTTCCCGATGTTTCATTGTTGCTATAGTGACGATCCAGTCTGCACGAAGATCCCAGCTTCCTTAACCTTGTTCCTACCTCCAGCCAGCTCACCCATTGGC
Celera SNP ID:            hCV25952883
SNP Position:             19961
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,30)   total(C,59|T,5)
SNP Type:                 INTERGENIC

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67327):
AATATGGTACATATACACCATGGAATACTATAGAGCCATTAAACAACTAGATCATGTTCTTTGCAGGGACATGGATGGAGCTGGAGGTCATTATCCTTAA
W
GAACTAACACAGGAACAGAAAACCAAATACTGCATGCTCTCACTTATAAGTGGGAGCTAAATGATGAGAAGAAATGACACAGAGAGAGGGGCAACACACA
Celera SNP ID:            hCV2078220
SNP Position:             16189
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67328):
GAACAGAAAACCAAATACTGCATGCTCTCACTTATAAGTGGGAGCTAAATGATGAGAAGAAATGACACAGAGAGAGGGGCAACACACATGGAGACCTACT
R
GGGGGTGGAGGATGGGAGGAGGGAGAGGATCGGGAAAAATAACTAATGGGTACTAGGCTTAATACCTGGGTGACAAAATAATCTGTACAACAAACCCCCA
Celera SNP ID:            hCV2078221
SNP Position:             16302
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67329):
CTACTAGGGGGTGGAGGATGGGAGGAGGGAGAGGATCGGGAAAAATAACTAATGGGTACTAGGCTTAATACCTGGGTGACAAAATAATCTGTACAACAAA
Y
CCCCATGATAAAAGTTTACCTATACAACAAACCTGCACATGTACCCCTGACTTTAAAAGTTAAAACAATAATAAAAATGAACACGTATTGCTTATGAGTC
Celera SNP ID:            hCV2078222
SNP Position:             16397
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67330):
TAATCTGTACAACAAACCCCCATGATAAAAGTTTACCTATACAACAAACCTGCACATGTACCCCTGACTTTAAAAGTTAAAACAATAATAAAAATGAACA
Y
GTATTGCTTATGAGTCTTGGGTCACCTGAGGGGTTGGCTAGACCCTTGCTTTTCAGTGTGGTGCATGCAACAGTGTCATGAACATTCCCTAGGAGCTTGT
Celera SNP ID:            hCV2078223
SNP Position:             16481
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67331):
CCTGAGGGGTTGGCTAGACCCTTGCTTTTCAGTGTGGTGCATGCAACAGTGTCATGAACATTCCCTAGGAGCTTGTTAGAAATGCAGATTCTCGGCTGGG
M
ACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCGGATCACCTGAGGTCAGGAGATCGAGACCATGCTGGCCAACATGGTGAAAC
Celera SNP ID:            hCV2078224
SNP Position:             16606
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,10)   total(A,3|C,10) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67332):
GTCTAATAAATCTGCCTTTCTTTCCCTACGACTGTCTTGATAAATGCCTTTACCTCCCATGATACTGGCCCCAGCTAGTCACACCCGTGATGCCCATCTC
T
TTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAATGCAGCAGCACGATCTCGGCTCTCTGCAAGCTCTGCCTCCCGGGTTCACGCCATT
Celera SNP ID:            hCV2078225
SNP Position:             17678
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67333):
TGCCTCTCAGTGCATGGAGAAATGAATGTTCAGTGCCTAGAAGGGATAATCAGGGAATATGGAGGTTAAGGAGGCAACTGAGGCACAGAGAGGTTAAATC
R
CAGGGTTCAGAAGTGTTGGGGGTGGGACTCAAAGCTAAATGATCTGCCTCCACAATCTAAGCTCATTACCACCAGACCAGTCATCCTTAAGCATGCATAG
Celera SNP ID:            hCV3218811
SNP Position:             10259
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,3)      total(G,3|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67334):
GACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAATATATAAATATATATATATATATATATATATACACACACACACACATTTACATAG
Y
CCCGCCTTCATCAAATGTCACCCTGCCCCTTAAAATGCCGCCCATGCATGTTCTCCCACCTACTGCTTTTGTTTCCAATCATTCCTAATGGCCCGGATCT
Celera SNP ID:            hCV11464222
SNP Position:             8728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67335):
TGGAGGGATGGAGGGTGTGCCGGAGGAATCAGTCTGCAGTAAGGGGAGTTGGGGTGATATTAGGGGAAATGGGATGTTTTCAAGGACAGGGAGTGTTTTG
R
TGAATTCCTATGTAATAAGGAGATTTGGGGAGATCATTGAAATCGACAAGTTACTAGATACTTGGGATGCTCAAGGGGAAGTGGAAACGCAGTAGGATCC
Celera SNP ID:            hCV8164192
SNP Position:             20603
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   Caucasian(A,30|G,52)   African-American(A,39|G,43)   total(G,95|A,69)   no_pop(A,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67336):
TAGATGTGGGCTATCTGGTTAGTGACGGGAAGCTGAATTAATTCATTAATTGATTCACCAAATAACACACAGAACCCTGGGGTGGAAAAGAGCTCAGCCC
R
TAAGGTAAAGAGAAGATGGGCCAGTGTAGATGGGTCAGAGTGTGAAAGAGGGAGAGATTTGGACAGTGAAATCCGCAAGCCCTTAAAGATAGAAGATGAG
Celera SNP ID:            hCV11464224
SNP Position:             18221
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67337):
TAATTGATTCACCAAATAACACACAGAACCCTGGGGTGGAAAAGAGCTCAGCCCATAAGGTAAAGAGAAGATGGGCCAGTGTAGATGGGTCAGAGTGTGA
R
AGAGGGAGAGATTTGGACAGTGAAATCCGCAAGCCCTTAAAGATAGAAGATGAGGTGAGTCTTTATCCTGGGAGGTATGGGAAGCCTTCAAAAGGTTTTA
Celera SNP ID:            hCV11464225
SNP Position:             18267
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67338):
TTGGCGTTGCCACAGTAACCCTGGAGTGGAAGGAGACGGGGATTAGAGACCTCGCGGGAGAAATTAGACTAACAGCCTGGGAACTGGAGGGATGGAGGGT
R
TGCCGGAGGAATCAGTCTGCAGTAAGGGGAGTTGGGGTGATATTAGGGGAAATGGGATGTTTTCAAGGACAGGGAGTGTTTTGGTGAATTCCTATGTAAT
Celera SNP ID:            hCV11464228
SNP Position:             20519
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67339):
AATTCGTCTGAAGTTTTTCTTTTATCACAAGTCACATCAATCCCTCGGGCCCCTGCTCAAATGCCACCTCTTCCTGAAAGCCATCCCTAAGTAGTCTCTC
Y
AAAGAGCCATCCCTGCCCCTTTCTTTGCTTTATCCTTCACAGCACTTATCACTACCTGAAATTATGCCACACAGCTATTTACCACTTTGGCATTGTGATT
Celera SNP ID:            hCV3218819
SNP Position:             19466
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,6)      total(C,2|T,6) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67340):
GGCGTTGCCACAGTAACCCTGGAGTGGAAGGAGACGGGGATTAGAGACCTCGCGGGAGAAATTAGACTAACAGCCTGGGAACTGGAGGGATGGAGGGTGT
R
CCGGAGGAATCAGTCTGCAGTAAGGGGAGTTGGGGTGATATTAGGGGAAATGGGATGTTTTCAAGGACAGGGAGTGTTTTGGTGAATTCCTATGTAATAA
Celera SNP ID:            hCV11464229
SNP Position:             20521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67341):
TTTTCCCAAAGCAGCCCAGTTACTTATTAACATACTGCTTTTTCCAGTGACACGTGTTCACAGTTATTAAGTCGATCTCCCGCCAAAATAGAAGCTCTAT
R
TTGTTTTCCATTGTATCCCCAGTGCCTAGAACAGTGCCTGTTGCAAAGTAAGCTTTGAGTTAAAAAAAAAGATGAAAGAATGAAAATGGCAGACTGCCTA
Celera SNP ID:            hCV25951658
SNP Position:             19849
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,29)   total(A,1|G,61)
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67342):
GCATGGTTTCTGATGTTCATGTTTGTGGAATCTGTCGTCTATGGCAGATGCTTCCCCGTGCTACCAATTTGTGTGTCTGAAAGGACACCCGTACATTCAT
Y
TGCATCCTCAAAATCTGTTCCTCCGTGGGTTTCTCCATCTCTGCAAAATGCACTGCTGTCCACTGTGTGCCTAAGCCAGCCCTGTTTGGTCAATTTTTTG
Celera SNP ID:            hCV27926561
SNP Position:             7939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67343):
ATCTGTAAAATGGGGATAATACTATCTTATAGGGCTGTTGGGGTTGTTGTGTGAGAAAGTGCAGTGTGTATGTGTATGTGTGTGTGTGTGTGTGTGTGTG
Y
GTGTGTGTGCAGAATGGGTAGAACCGTGCCCAGAAGTAGGAAGCCCTGCATATGTTCAATATTTAGCTATTATTTTGTTGTTGTTGTTTGTTTGTTTGTT
Celera SNP ID:            hCV1028669
SNP Position:             7316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67344):
CCTACGAGAATGTAATGCCACCACTGATCCGACAGGAGGCAGAGCGCAGGCGGTAATGCAAGCAATGGGGAGCAGCTGTAAACACAGATGAAGCTTCGCC
Y
GCTCACCGTCCACTCACCTCCTCTGTGCAACCCGGTTTCTAACGGGCCACAGACCGGTACCAGTCCCTAGCCCGGGGGTTGGGGACTCCTGGTCTACACA
Celera SNP ID:            hCV27926562
SNP Position:             33377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67345):
AAGTGCCTAGATTCCACTTTAAGTGGTACAAATGTGATAACAGTAGAATAGAAAAGACATAACAAACTGGCTGACTGAGGATAAATCCTAACATATTAAT
M
ATTACATTAACGTAAGTAATTGAAATCTTCCAGTTAAAAGAGACTATCAGAATGGGTTCAAAATACACCATAAAAAAAACTGACTCAACCAGATGGTGTC
Celera SNP ID:            hCV2078231
SNP Position:             26886
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,5)      total(A,5|C,2) ;no_pop(C,-|A,-)   (A,-|C,-)   Caucasian(C,28|A,48)   African-American(C,29|A,41)   Asians(C,20|A,46)   total(A,135|C,77) 
SNP Type:                 REPEATS


Context             (SEQ ID NO:67346):
GACATGGAGAAACATTCCTCCCTTGTGATGTTGTTTGAGCCCATGAATCAGCCTCCCTGGAGTCAGTCCCACATCTCTTCCTTGAACTCGCCTGAGCCAT
S
ACACTCTTGATAATTTCACTCCATTTAAGTTGGACTTTCTGTCATTTGCCACACAAGACTTTACACAGATCCAGAGGACATTGCAGATTGCTGCCTTGGG
Celera SNP ID:            hCV2078232
SNP Position:             29342
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,4)      total(G,4|C,1) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67347):
CGCCCGGAGATGCCCATCTCTTAAAATAAAAAATAAAAAAAAAAAAAGAAAGAGAGAAAGGAAAGGAGGCAGGAGGGATCCTGGGAAGGCAAACAACAGC
W
ATTGAGCGCAAACCAAATCCAAAACTTCTCCACTTGCCTGTTTTATCATTAGATTCTTAGATGTGGGCTATCTGGTTAGTGACGGGAAGCTGAATTAATT
Celera SNP ID:            hCV2951296
SNP Position:             18063
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|T,7)      total(A,6|T,7) ;no_pop(A,-|T,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67348):
CACTTGCCTGTTTTATCATTAGATTCTTAGATGTGGGCTATCTGGTTAGTGACGGGAAGCTGAATTAATTCATTAATTGATTCACCAAATAACACACAGA
R
CCCTGGGGTGGAAAAGAGCTCAGCCCATAAGGTAAAGAGAAGATGGGCCAGTGTAGATGGGTCAGAGTGTGAAAGAGGGAGAGATTTGGACAGTGAAATC
Celera SNP ID:            hCV2951297
SNP Position:             18194
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,8)   total(G,5|A,8) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67349):
GGAGTTTCAGACTTTGAGAATCGTTCACTTACAGGATTCAGGATCTATACCAAGCTTAGAGTCAAAATTCAGGGGTGGGAGATTGCTCCTTGTGTCTGTA
R
CTTAATTTGTGGACATACAAAATCACACACATTCACAGAGCAAATATACCCTTTGCAGTATCAAATGCATTGAGGTGTCTCAAATAATGTATCTTCCTCA
Celera SNP ID:            hCV2951299
SNP Position:             28282
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,14)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67350):
CCTAAGTAGTCTCTCTAAAGAGCCATCCCTGCCCCTTTCTTTGCTTTATCCTTCACAGCACTTATCACTACCTGAAATTATGCCACACAGCTATTTACCA
S
TTTGGCATTGTGATTAAGCTTATCAAGTATGAAGCCAGACTGCCTGGGTTCAAATCCCAGCTCCACTACTTCCTTGTCATGTGACCTTCCAGCCTATGTT
Celera SNP ID:            hCV3218820
SNP Position:             19551
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,6)      total(G,3|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67351):
CGGACTGGAGAGGGAGGGGATGGTCTCAGGATGATTCAAGTGCAATACATTTATTGTGCACCTAAGTTCTATTATTACATTGTAATGTATAATGAAATAA
Y
TATACAAACAACTCACCATAATGTAGAATCAGTGGGAGCCCTGAGCTTGTTTTCCTGCAACTAGGTGGTCCCATCTCGGGGTGATGGGAGACAGTGACAG
Celera SNP ID:            hCV2078236
SNP Position:             33098
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67352):
TCCTGTAATGTGATGGAGCGATAAGTTATCATCAAGGAGAAAAAGGCCGGGGCCTGGAGCGGGACAGTTCTAAGGGTGCTGTTTGAATTGGTCAGGGAAG
K
TCTCTTTAGCAAATGATGGTGAAGCAGAGGAGATGGAACAGAGGCAAGGGACCCTCATTCTGTCATCAGAGGGAAGAGAATTCTAGGCAGAAGGAACAGC
Celera SNP ID:            hCV2078163
SNP Position:             320
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,6)      total(G,6|T,5) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67353):
CTGCAACCCCTGCCTCCCAGGCTCAAGTGATTCTCATGCCTTAGCCTCCCGAGCAGCTGGGATTACAGACATGCACCACCATGCCCGGCTAATTTTTGTA
W
TTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAGCTCCTGGCCTCATCTGATTCACCCACCTCGGCCTCCCAAAGTGTTGGGATTAC
Celera SNP ID:            hCV8164273
SNP Position:             24106
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67354):
GACCTTCCAGCCTATGTTACAGTTGAGGGGTCATAATAGTACCTGTCTATAGGGCTTTGTGAGGATGAATGAATTAGTGTGTGTACCAGTGTTCTAACAT
Y
GCCTGCATTTCCATTTTTCCCAAAGCAGCCCAGTTACTTATTAACATACTGCTTTTTCCAGTGACACGTGTTCACAGTTATTAAGTCGATCTCCCGCCAA
Celera SNP ID:            hCV3218821
SNP Position:             19734
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67355):
GGTTAATTTAAGTGTTTGTGAAGAGTGGGTTATTATAGGGGAAACAGGTATTATAGAGTAATTGGGTTGTAGGAGGAGCTGGGGATAGTCAGGAAAAGTC
R
GAGTGTTGAAGCTAACGCCAAGATCAGCACTGACTGTGTGCCAGAGACTATGCTAAGTACTCTTATTTTTAAAAACGTTTTATTATGGAAAGTTTCGGCC
Celera SNP ID:            hCV3218822
SNP Position:             21318
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67356):
GGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCCCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCG
Y
GCCCAGCCCCTTAATGCTCTTGAAAGAAAGGAGGAAGAAGTTCTAGGACAGGAGAGACAGATTAGTGAAGCAACATTTAAATATTTACTTTTTGAATATG
Celera SNP ID:            hCV2078165
SNP Position:             1556
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67357):
GTAGTAGTAAGGTATAAAAGGAAAGGTAGGGAATTGGGCCGTTTGAGCATTGTGCAGTTGTTATAGGATTTTTATTTTTATTTTTTGAGACAGAGTCTCA
Y
TCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATTTTGGCTCACTGCAACCTCCACCTTCTGAGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCT
Celera SNP ID:            hCV3218823
SNP Position:             22125
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67358):
ATAGAAATGTTCCTTATCCAGGCTAGGCATGGTTACTCACACCTGTAATCCCAGCACTTTGGGACTCTGAGGCAGATGGATCACCTGATGGCAGGAGTTC
R
AGACCAGCATGGCCAACATGGCAAAACCTGATCTCTACTAAAAATTCAAAATTAGCCAGGCATGGTGGCAGGTGCCTGTAATCTCAGCTACTCGGGAGGC
Celera SNP ID:            hCV2078166
SNP Position:             1915
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67359):
AACTCACAGTCAGGACCTTCCATAGGGTAACACCATCACTGCAGAAAGTTCTGTTGGACAGCCCTGATGTGTGGGGTGACAAGTGTGGAGGCTTTCCTGG
Y
TCCTAAAGTTCGACCTTATCTCTTAGCGATTGCTCTCGTACTTCCTCTGACTCACCCCTAACCTTCTCCTCTCTGTTCTACTAAAAATACAAAAATTAGC
Celera SNP ID:            hCV3218824
SNP Position:             23118
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67360):
TTCCATAGGGTAACACCATCACTGCAGAAAGTTCTGTTGGACAGCCCTGATGTGTGGGGTGACAAGTGTGGAGGCTTTCCTGGTTCCTAAAGTTCGACCT
Y
ATCTCTTAGCGATTGCTCTCGTACTTCCTCTGACTCACCCCTAACCTTCTCCTCTCTGTTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGGGC
Celera SNP ID:            hCV3218825
SNP Position:             23135
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67361):
TTTTTTTATTTTTGTAAATTTATGAAGTACATTCTTCAAATGTAACAATTTAGTTCTACTTCAAGATAAGGTATAGACAACTGCAAAATTCCACTGTCCT
Y
ACGATCACAATCATGAAGAGGATGGAGCTGCAGAATCTGAGCATATAAAGACTTTTATGAATTCTAACGCCCAACCCCAACTTGAGCATTCATTGCGCTG
Celera SNP ID:            hCV3218826
SNP Position:             24414
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,2)      total(C,1|T,2) ;TSC_42_T(C,34|T,49)   TSC_42_C(C,34|T,49)   total(C,68|T,98)
SNP Type:                 UTR 3


Context             (SEQ ID NO:67362):
GAGCTGATATTAAGACCTCAGTTCACAGAAAGCCAAATAAATAATAAACATCTTCTGTTGGATACAAATAAAACAGAGTCTCATAAGATAACATTCACAT
K
TCGAGGGTACATATCGGAACTACTGAGAATACAAGGATGAGCTGCAAAAATCTCCACTTGTCTGGCAAATGACAACTCAGTGGACACCAAACACTGAATA
Celera SNP ID:            hCV3218827
SNP Position:             24727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 REPEATS


Context             (SEQ ID NO:67363):
ATCGGAACTACTGAGAATACAAGGATGAGCTGCAAAAATCTCCACTTGTCTGGCAAATGACAACTCAGTGGACACCAAACACTGAATAACATGTACAGTG
R
AATTATCTGACAAAGACTTTAAAAGAGACATTATAAAAATACTCAAATGAGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGAAGGCCGA
Celera SNP ID:            hCV3218828
SNP Position:             24840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 REPEATS


Context             (SEQ ID NO:67364):
AGAAAGATGAGAAAGTAGGGGAAGAACTGGTTTCTCCTCCTGGCTGTGCCTTTGTCTCCCTTGTGTGTGGAAGAGGTCCCAAGGCAGGGTAAAGTCGAGA
Y
TCAGCTCTGGCACACTCTTCCTGTCTTCATCTCATGCCCAGTAAGAAGCCCTGATTCAAGCCACCAGCCCAAGCCCAGGCCTCTGTCCCGACATAATAAT
Celera SNP ID:            hCV11527371
SNP Position:             652
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,11)      total(C,1|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67365):
GATATTGTAAGGATGAAAGATTAGCTGTTGGAACTGTGCCTGGTGCAGAGAAACTACTTCATGTGTGCTTTGCACACCCGAAACCTTCTTTTTTATATTT
R
TTTATCCTTGGCCTGGGGGCTGTCTCCTCTCACTCAGTGGTGTGTCTCATTTGTTCTCCTCTGTGCCTGAGCCAGCACATGGCACATCATATTTTCTCAG
Celera SNP ID:            hCV1028670
SNP Position:             8323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67366):
TCCCGCCTTCATCAAATGTCACCCTGCCCCTTAAAATGCCGCCCATGCATGTTCTCCCACCTACTGCTTTTGTTTCCAATCATTCCTAATGGCCCGGATC
Y
ATTGGATCCCAGCATCACTGCTTGTTAGCGCAGTGGCCTTGGGCAAGTCACTCCTCTGGTGCAGATGGGGGTCCCTAAGACCACCCTCAGTTTCCATGAT
Celera SNP ID:            hCV1028672
SNP Position:             8828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67367):
TGGGGTGATATTAGGGGAAATGGGATGTTTTCAAGGACAGGGAGTGTTTTGGTGAATTCCTATGTAATAAGGAGATTTGGGGAGATCATTGAAATCGACA
W
GTTACTAGATACTTGGGATGCTCAAGGGGAAGTGGAAACGCAGTAGGATCCGCCCGCCTCAGCCTCCCAAAGCAGTAGGGAAAATTGGGGTATTAAGCTC
Celera SNP ID:            hCV8164202
SNP Position:             20652
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67368):
GTAACAATTTAGTTCTACTTCAAGATAAGGTATAGACAACTGCAAAATTCCACTGTCCTTACGATCACAATCATGAAGAGGATGGAGCTGCAGAATCTGA
Y
CATATAAAGACTTTTATGAATTCTAACGCCCAACCCCAACTTGAGCATTCATTGCGCTGGTCCTAATTCACATTCAAACGCCCTGAGAATGGAGCTAACA
Celera SNP ID:            hCV1028673
SNP Position:             24455
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,0|C,84)   TSC_42_C(T,0|C,84)   TSC_42_AA(T,0|C,84)   total(C,252) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:67369):
GTTTTCAAGGACAGGGAGTGTTTTGGTGAATTCCTATGTAATAAGGAGATTTGGGGAGATCATTGAAATCGACAAGTTACTAGATACTTGGGATGCTCAA
R
GGGAAGTGGAAACGCAGTAGGATCCGCCCGCCTCAGCCTCCCAAAGCAGTAGGGAAAATTGGGGTATTAAGCTCTTTTGCCATTCTGCAGTTATTATAGA
Celera SNP ID:            hCV8164203
SNP Position:             20678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67370):
GGGGTGGGAGATTGCTCCTTGTGTCTGTAGCTTAATTTGTGGACATACAAAATCACACACATTCACAGAGCAAATATACCCTTTGCAGTATCAAATGCAT
Y
GAGGTGTCTCAAATAATGTATCTTCCTCAGTCCTACTCCTCTCATCCATTTCTTGAAGCCTGTTTCTTCCTAGTTGGTGTTTTTCATTGAAATCCTAGAC
Celera SNP ID:            hCV1028674
SNP Position:             28353
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,11)      total(C,5|T,11) ;(T,-|C,-)   (C,-|T,-)   (C,-|T,-)   Caucasian(C,32|T,52)   African-American(C,19|T,63)   Asians(C,28|T,44)   total(C,79|T,159)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67371):
AACATGAGCTGCCTTGAACCAGCATACTCATCCAAGACCCAGCCATCCACAATCTCCCCCATTTCATCTAGAATTTGCTATCAAAAAAAAAAAAGCATGA
Y
TGTGACACCTGGAAAAAATCTTTTTTAAATAAAAAAGTAAACAATGTAAAAATATTCTGATGTTTACAGAGAAATGGAGAGTGTGGTGGCATTTGCTTAC
Celera SNP ID:            hCV1028675
SNP Position:             32353
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,8)      total(C,2|T,8) ;(C,-|T,-)   (C,-|T,-)   Caucasian(T,36|C,44)   African-American(C,35|T,45)   Asians(C,31|T,43)   total(C,110|T,124)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67372):
CGAAGATCCCAGCTTCCTTAACCTTGTTCCTACCTCCAGCCAGCTCACCCATTGGCCACCTGTATCTCCTGCTGTAGCAGCCAGAAAGCTACAACTCCCA
R
CCGGCTGAGCGCCACCAGCGCTTTCGCGTCCAAGTCCCTTTGCTGAGTGTGAGGGCCTGCGCAGTAGAACCCGCGGGCCCAGAGCTCCATCTGAGCATGT
Celera SNP ID:            hCV1526318
SNP Position:             20106
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,23)   caucasian(A,9|G,23)   total(A,20|G,46)   
SNP Type:                 INTERGENIC

SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,21)   caucasian(A,22|G,16)   total(A,35|G,37)
SNP Type:                 INTERGENIC

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67373):
AACCTTGTTCCTACCTCCAGCCAGCTCACCCATTGGCCACCTGTATCTCCTGCTGTAGCAGCCAGAAAGCTACAACTCCCAGCCGGCTGAGCGCCACCAG
S
GCTTTCGCGTCCAAGTCCCTTTGCTGAGTGTGAGGGCCTGCGCAGTAGAACCCGCGGGCCCAGAGCTCCATCTGAGCATGTGCAGGCTGCGGGGTGTTTC
Celera SNP ID:            hCV1526319
SNP Position:             20125
SNP Source:               Applera
Population(Allele,Count): african american(C,24|G,10)   caucasian(C,25|G,11)   total(C,49|G,21)   
SNP Type:                 INTERGENIC

SNP Source:               Applera
Population(Allele,Count): african american(C,23|G,13)   caucasian(C,13|G,21)   total(C,36|G,34)
SNP Type:                 INTERGENIC

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67374):
CAAGTCTGTCCTGAAAGCCTGTGTGATAGATGTTACCCAGTCTTCTTCTGTCTTGAACACTGAAATCAATGATCACATTTCTGTTTATCCATTTCCAATG
Y
GAACGCTGGATTCTCTCTTCCAGACTACCTAACTGACTCATTTTACAAATTCTGCTGTCTAAGATAGGACACGAGGTAAGGGTCCCTTTCACTAATGCTT
Celera SNP ID:            hCV25952322
SNP Position:             27860
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,31)   caucasian(T,38)   total(C,1|T,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67375):
TTTACACAGAAATTTCACCTTTTTTTCACTTATAAAATCTAATGAAAGAGTTCTATATTATTATGTTAATAATACAGTAGTAATATAACAGTATAATGTA
A
TAGATAATTAATATATTATATTAATTATATATTATAATTATATATTATATTATATATATTATATATTATATATTAATTATATATATTATATATATTATAT
Celera SNP ID:            hCV27064109
SNP Position:             3513
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67376):
CACCAGACCAGTCATCCTTAAGCATGCATAGGAGTCCCCTGGAGGGCTTGTCAAACTAGATTGCTGGGGCCCGCCCCCAGAGTTTCAGACTCAGTGGGTC
Y
GAGGTGGCCCCGAGAAGGTGCATTTCTGTCCAGGTCCCAAGAACCGATGGTGATGCTGCTGGTCCAGGGCCCACATTTTGAGACCCACTGCCCTAGACTG
Celera SNP ID:            hCV11708014
SNP Position:             10429
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67377):
TCTACCTTCAAATGACTGACTCATGCCAAATGTCCTGGCCACAGAATGGGCCTGTGACCCAGTCCTGGTCAACGAGTCTGCTCAGGTTGAGGTGGGAGGC
Y
TTTTTATTTTTATATTTTTGTAGAAACAGGGTCTTGCTATGTTACTCAGGCTGGTCTTGGACTCCTCGGCTTAAGCAATCCTCCTGCCACAGCCTCCCAA
Celera SNP ID:            hCV11708015
SNP Position:             14140
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3|-,8)   total(C,3|-,8|T,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67378):
CCAGCACTTTGGAAGGCCGAGGCGGGTGGATCATGAGGTCAGGAGATCAAGACCATCCTGGCCAAAATGGTGAAACCCTGTCTCTACTAAAAATATTTTT
W
AAAAAAAATTAGCCGGGCGTGTTGGCATGCACCTGTAGTCCTAGCTACTCAGGAGGCTGAGGCAAGAGAATCGCTTGAGCCCGGGAGACAGAGGCTGCAG
Celera SNP ID:            hCV3218831
SNP Position:             25021
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 REPEATS


Context             (SEQ ID NO:67379):
GAAATTTAAAATATAGAGAACAAAATGGAAATTTTAGAACTGATACATACAGTGACCAAAATTTAAAAGGTGGTGAATGCACTCAGTGGGACGACACAGA
Y
AACAACAGGTGAACACTCCAGCAAATTTGAAAATAGACAAATTAAAATTACCCAATCAGAATAATGGAAAAAATGAAAAGATGTTCTAAATAAGTAGAAT
Celera SNP ID:            hCV3218832
SNP Position:             25654
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 TRANSCRIPTION FACTOR BINDING SITE (TFBS)


Context             (SEQ ID NO:67380):
AAACTAAAGATAAATACCTTGAAATCTGACAGAAAAATGACACACTACATACAGGGAAACAACAATTTGAATGACTGCAGATTTCTCATCAGGAAATACG
K
AAGCTAAAAGGAAACTGCTGAACAGAAAACAATGTCAACTAAAAATACTACAAGCAAAAAACATCACTGAGAATGAAGGTGAGAAAAAGATGTCCTCAGA
Celera SNP ID:            hCV3218833
SNP Position:             26381
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;no_pop(G,-|T,-)   
SNP Type:                 REPEATS


Context             (SEQ ID NO:67381):
CTTTCTTCTCCACCATGCTCAGCAAGGCCTCATTCTTGCTCTGCCGTGTCTTTTCCTGCTCCACCAGCTCCTTCTCATTCTCAGTAAGAACCTCATTGTC
Y
TGGAGATCATCGAGCACCCCTTTCAGGTCCCCCATCCTGGCTTGGAGTTGCCGGTGGTTCTCCTTCACAAAGGCTGCACCTGGATGAAAGGGGGAGTTTC
Celera SNP ID:            hCV3218834
SNP Position:             28089
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,25)   caucasian(C,22|T,16)   total(C,33|T,41)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;JBIC-allele(C,434|T,1031)   total(C,434|T,1031)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67382):
ACCCCTTTCAGGTCCCCCATCCTGGCTTGGAGTTGCCGGTGGTTCTCCTTCACAAAGGCTGCACCTGGATGAAAGGGGGAGTTTCAGACTTTGAGAATCG
Y
TCACTTACAGGATTCAGGATCTATACCAAGCTTAGAGTCAAAATTCAGGGGTGGGAGATTGCTCCTTGTGTCTGTAGCTTAATTTGTGGACATACAAAAT
Celera SNP ID:            hCV3218835
SNP Position:             28205
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,8)   caucasian(C,34|T,4)   total(C,58|T,12)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,7)      total(C,7|T,7) ;(C,-|T,-)   (T,-|C,-)   (C,-|T,-)   Caucasian(T,6|C,76)   African-American(T,24|C,56)   Asians(T,17|C,55)   total(C,187|T,47)   JBIC-allele(T,413|C,1062)   total(C,1062|T,413)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67383):
TAGCTGATCCTCATTGCACCTCCAGATGTGAGGCATGATTTCTTTTTATTTAATCTGCCTCAATGGCCTTCCAGGCAACAACAGCTAGGAAATGGCATGA
Y
TGCCATCTCAGAAGGTGCTCTCTTTTTTCTCCCAGTGGTCTGTTTTGAGACATGAGTTCGGAAACTTACACTGTGTGGAGCCTGACAATGAAGCCAACAA
Celera SNP ID:            hCV3218836
SNP Position:             29123
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;JBIC-allele(T,424|C,1073)   total(C,1073|T,424)
SNP Type:                 INTRON


Context             (SEQ ID NO:67384):
CGGGAGAGGAGTGGGGAGGAGCTCTTTACCCGCTGAGCATTGTGGGGCCCGCTTGGATCTCCTTGTCCAAAGGGTCTGGGCGCCGGGGCTGCAGTCTCTG
K
GTGAGGAGGCGGACGCGGGAAACCTGCTTCGGTCTCCATGGTTACGAGCCGCTCAGCGCGCAGGAGGGGGATTCAAAGGTTGGCGTTGCCACAGTAACCC
Celera SNP ID:            hCV1526320
SNP Position:             20339
SNP Source:               Applera
Population(Allele,Count): african american(G,20|T,12)   caucasian(G,16|T,22)   total(G,36|T,34)
SNP Type:                 INTERGENIC

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67385):
GTTTGCCCATTTTTCACAAGGAGTTTTCTGTTTGTTTACTCATGTTGAATCATTTTTATGTATTATAAATATCACCTGATATTTACATCTTCTTCTTAGT
R
GCTTCATTCTAATGAACTTCTTCTTTTTTATTGTTGTTTTTCTGTTTTTTTTTTTTTTTTTTTGAGACAGAATGAGACTCTGTCAGCCAGGCTGGAGTGC
Celera SNP ID:            hCV1526322
SNP Position:             23885
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67386):
TTACACAGAAATTTCACCTTTTTTTCACTTATAAAATCTAATGAAAGAGTTCTATATTATTATGTTAATAATACAGTAGTAATATAACAGTATAATGTAA
T
AGATAATTAATATATTATATTAATTATATATTATAATTATATATTATATTATATATATTATATATTATATATTAATTATATATATTATATATATTATATA
Celera SNP ID:            hCV27064110
SNP Position:             3514
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67387):
TTTGTTTACTCATGTTGAATCATTTTTATGTATTATAAATATCACCTGATATTTACATCTTCTTCTTAGTAGCTTCATTCTAATGAACTTCTTCTTTTTT
R
TTGTTGTTTTTCTGTTTTTTTTTTTTTTTTTTTGAGACAGAATGAGACTCTGTCAGCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACCCC
Celera SNP ID:            hCV1526323
SNP Position:             23915
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67388):
TACACAGAAATTTCACCTTTTTTTCACTTATAAAATCTAATGAAAGAGTTCTATATTATTATGTTAATAATACAGTAGTAATATAACAGTATAATGTAAT
A
GATAATTAATATATTATATTAATTATATATTATAATTATATATTATATTATATATATTATATATTATATATTAATTATATATATTATATATATTATATAT
Celera SNP ID:            hCV27064111
SNP Position:             3515
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,4)   total(A,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67389):
TTGAATCATTTTTATGTATTATAAATATCACCTGATATTTACATCTTCTTCTTAGTAGCTTCATTCTAATGAACTTCTTCTTTTTTATTGTTGTTTTTCT
K
TTTTTTTTTTTTTTTTTTTGAGACAGAATGAGACTCTGTCAGCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACCCCTGCCTCCCAGGCTC
Celera SNP ID:            hCV1526324
SNP Position:             23929
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67390):
ACACAGAAATTTCACCTTTTTTTCACTTATAAAATCTAATGAAAGAGTTCTATATTATTATGTTAATAATACAGTAGTAATATAACAGTATAATGTAATA
G
ATAATTAATATATTATATTAATTATATATTATAATTATATATTATATTATATATATTATATATTATATATTAATTATATATATTATATATATTATATATT
Celera SNP ID:            hCV27064112
SNP Position:             3516
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67391):
TCATTTTTATGTATTATAAATATCACCTGATATTTACATCTTCTTCTTAGTAGCTTCATTCTAATGAACTTCTTCTTTTTTATTGTTGTTTTTCTGTTTT
K
TTTTTTTTTTTTTTGAGACAGAATGAGACTCTGTCAGCCAGGCTGGAGTGCAGTGGTGTGATCTTGGCTCACTGCAACCCCTGCCTCCCAGGCTCAAGTG
Celera SNP ID:            hCV1526325
SNP Position:             23934
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,5)   total(G,1|T,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67392):
ATGAAAGAGTTCTATATTATTATGTTAATAATACAGTAGTAATATAACAGTATAATGTAATAGATAATTAATATATTATATTAATTATATATTATAATTA
W
ATATTATATTATATATATTATATATTATATATTAATTATATATATTATATATATTATATATTATATTATAATATATTATATTATATATATTATATATTAT
Celera SNP ID:            hCV27064113
SNP Position:             3554
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,3|T,3)   total(A,3|T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67393):
TATTATATTATAATATATTATATTATATATATTATATATTATATTATAATATATTATATTATATTATATATATTATATATTATATTATTATTATATTATA
K
TATATATATTATATATAATATTATATATATTATATATTATATATATAATATTATATATTATATTAATATTATAATATGTAACGCATAACATGTAATATTG
Celera SNP ID:            hCV27064114
SNP Position:             3749
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,2)   total(G,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67394):
GAGGCCAGGAGTTCAAAACCAGCCTGGCCAACATAGCAAAACTCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCTGTGGTGGTGCATGCCTGTAAT
Y
CCAGCTACTCAGGAGGCTGAGGCACAATAATCGCTTGAACCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGTAACAG
Celera SNP ID:            hCV1526327
SNP Position:             25372
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,9)   total(C,9|T,4) 
SNP Type:                 REPEATS


Context             (SEQ ID NO:67395):
TTCCCAGCCTGAGAACTGTAAGAAATAAAATTTTACTCTTTAAGCCACTGAGTCCATGGTATTTTGTTATGGCAACCTGAGCAGGATAAGGTAGTATACA
Y
ACCTTTAACTTCACTGTGTAACTTCAGATTAATTTCCAAAATCAAGCATTACCTAACCAACAGCAGAACTTACATTTGTGCTCCATATACTCACCAGTAG
Celera SNP ID:            hCV1526328
SNP Position:             23528
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,8)   total(C,5|T,8) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67396):
GGAGAATGGTGTGAACTCAGGAGGCGTAGCTTGCAGCGAGCCAAGATCGTGCTACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCCTAAACAAA
M
AAAAAAAAAAGAATAAGAACAAGTCTAGGAACTATTTTGAAAGATCTCTCAAACACATTTTTAAGTTAAAAAAGCAAAATGCAAAACTGTACATAATATG
Celera SNP ID:            hCV27064116
SNP Position:             5775
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67397):
TCTCAAAAAAAAAAAAAGAAAAGAAAAGAAAAAAAAAACCATGCTGAATTGGCCAAATATTTATCTAGGACTTCCCAGCCTGAGAACTGTAAGAAATAAA
R
TTTTACTCTTTAAGCCACTGAGTCCATGGTATTTTGTTATGGCAACCTGAGCAGGATAAGGTAGTATACATACCTTTAACTTCACTGTGTAACTTCAGAT
Celera SNP ID:            hCV1526329
SNP Position:             23457
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,8)   total(G,5|A,8) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67398):
TACCTTCTCCAACCCTTAGTTCATTTATCTGTAAAATGGGGATAATACTATCTTATAGGGCTGTTGGGGTTGTTGTGTGAGAAAGTGCAGTGTGTATGTG
T
ATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCAGAATGGGTAGAACCGTGCCCAGAAGTAGGAAGCCCTGCATATGTTCAATATTTAGCTATTATT
Celera SNP ID:            hCV27064117
SNP Position:             7290
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67399):
ACCTTCTCCAACCCTTAGTTCATTTATCTGTAAAATGGGGATAATACTATCTTATAGGGCTGTTGGGGTTGTTGTGTGAGAAAGTGCAGTGTGTATGTGT
A
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCAGAATGGGTAGAACCGTGCCCAGAAGTAGGAAGCCCTGCATATGTTCAATATTTAGCTATTATTT
Celera SNP ID:            hCV27064118
SNP Position:             7291
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67400):
AACCCAGGCAATCCGGCTCCAGAGTGTTTTTAACCATTTCCCTGCACTGCCTCCTGCCGGTCAAAAGAATAAATGCATATGCAGGCAAGAATGAATGGGT
G
GTCCCATTTCCGTAGAAGGGGAAACCGAGGTCGGGGAGCTGGGCGGGGAGACCCCAGCATCCTCTGACCTCTTTCCTTGCCTCCCTGCCCCCGCCCGCAG
Celera SNP ID:            hCV27064119
SNP Position:             10751
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67401):
GCATGATGCTAGAGGTATGGAGAAGGATTCAGCTGGATCCCCAAAGCTTAGCTGGCAGAGCTATGAAAGAAGAGATTTAACTGGAGACATACAATGCATA
S
AAAAGGAAGAACAGGGGAAAAGATACAGACTTTTTTCCATCATGTAGACTCAGGGTTTACGTTGTGCCCCATATAATGTCTGTATAAACTTGGCCAAATC
Celera SNP ID:            hCV27500923
SNP Position:             28644
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,15|G,912)   total(G,912|C,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67402):
TAAAGGTTAGTAAACCTTAACCCTCTATATGCCCCACATATATAGCTCACAGTGTTAAATCAAGTTTAGCCTAAAGCTGCCTCCTTACATATTTTAAGTT
Y
GGCCTGAAGGTTTTTCTGTACGTCGTGAACTATAACAAGTGGAGGTGTAAACAGAAGGTGGCCTACACTTGTGCCAATCACCGAGTTTTGGGCAATCAAA
Celera SNP ID:            hCV11708025
SNP Position:             18749
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,3)      total(C,3|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67403):
AGCCTAAAGCTGCCTCCTTACATATTTTAAGTTCGGCCTGAAGGTTTTTCTGTACGTCGTGAACTATAACAAGTGGAGGTGTAAACAGAAGGTGGCCTAC
R
CTTGTGCCAATCACCGAGTTTTGGGCAATCAAATGTAGCCAACTGTTCGAACTGTGTACAGCAAACGCCGAGCTGTAATCAATTCAGCTGTTTCTGTACC
Celera SNP ID:            hCV11708026
SNP Position:             18816
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,3)      total(G,2|A,3) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67404):
TTTGCTAATTGGAGCTACCATTTTGGAAAATAATTAAAAAAATTTCCCATGATGCCTTCAATGTGGTTTTGCACTTTCATCTAGACTCCTTGATGTTTTC
R
AAGTTCAGATGAATTTTGCAACATGCCCCCCCCACCCCACCTTTGGCAGCAGCTCAGTCACCATGTCACCAAGACAGAATAAATATGAGCTTCCCATCTC
Celera SNP ID:            hCV3218840
SNP Position:             32105
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67405):
ACAGAAGGTGGCCTACACTTGTGCCAATCACCGAGTTTTGGGCAATCAAATGTAGCCAACTGTTCGAACTGTGTACAGCAAACGCCGAGCTGTAATCAAT
Y
CAGCTGTTTCTGTACCTCACTTACGTTTTCTGTATGTCACTTTCCTTTTTCTGTCCATAAATCTTCCACCACATGGCTGTGCTGGAGTTTCAGCCTACTC
Celera SNP ID:            hCV11708027
SNP Position:             18900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67406):
TATCCTTCCCTTCATAGAGCTTCATTGAAATTTTTCATGCTGTGTTACCCAAGACAAGGATCTGCTACTATTGAAGATACTGATTTCTGCATCATTGTAG
K
TATTCAAACAGAGCATGGCATTTTACAAATGTATTGGAGATATAAATGTATCTCCAGAGATTCAAGGAACTATCAGGAGATCTTTGGCAAATTGTCTGGG
Celera SNP ID:            hCV27492271
SNP Position:             33925
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67407):
CCGACATCTGCACGGCTTCTTCGCATATTAAACATCACAAGGAGAGCTAAGAAGTTGCACAAACAAAACTCTGACAATCTGAGATGCTAAGACATTTTAC
M
GACTGGAGGGAGGAGGCGGGGAGGGTGCATGTGGAGGTGCACTCATGAGATGCTACTCATGTGGAGATGAGGCCTGGGTCGGCTGAGCATCATCCAACCC
Celera SNP ID:            hCV3218842
SNP Position:             32627
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,9|A,13)      total(A,13|C,9) ;(A,-|C,-)   Caucasian(C,6|A,70)   African-American(C,23|A,61)   Asians(C,17|A,67)   total(A,198|C,46)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67408):
TTCAAAACCAGCCTGGCCAACATAGCAAAACTCTGTCTCTACTAAAAATACAAAAAATTAGCTGGGCTGTGGTGGTGCATGCCTGTAATCCCAGCTACTC
W
GGAGGCTGAGGCACAATAATCGCTTGAACCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCACCACTGCACTCCAGCCTGGGTAACAGAGTTGAGACCC
Celera SNP ID:            hCV1731026
SNP Position:             25383
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|A,7)   total(A,7|T,5) 
SNP Type:                 REPEATS


Context             (SEQ ID NO:67409):
AAGATGTTCTAAATAAGTAGAATATCAGGGACATTTAGGAAAACATAAAAGTCTAACATTTCCACAATAAGAGTCTCAGAAGAGGAGGAAAAAAACAAAA
Y
ATAATATTGATTGATTCAACATAAATACTATGGTTTATTTCTAGATGGCAAGGAAAATCACGTGTAAGAGGTTTCCATTTAAAAGAATTCCACTATTCAT
Celera SNP ID:            hCV1731027
SNP Position:             25832
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:67410):
TGGGAAGCTGGTATGATCTCAGTGGAGGGCAATTTAGCAATATCTATCAAAATGACAAGAACACTCACCCTTAGGCTCACAATCCCACTACTGGTGATTT
M
TCCTGCAGATGTAGTTGCACAGCTGTGGAAGGACTTACTTACAAGGTTAATCATTGTTGTTTGTGAAAGCAGCAGATTAGAAACAACCCAGACTCCACCA
Celera SNP ID:            hCV16018731
SNP Position:             5350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67411):
ACCCAGGCAATCCGGCTCCAGAGTGTTTTTAACCATTTCCCTGCACTGCCTCCTGCCGGTCAAAAGAATAAATGCATATGCAGGCAAGAATGAATGGGTG
G
TCCCATTTCCGTAGAAGGGGAAACCGAGGTCGGGGAGCTGGGCGGGGAGACCCCAGCATCCTCTGACCTCTTTCCTTGCCTCCCTGCCCCCGCCCGCAGG
Celera SNP ID:            hCV27064120
SNP Position:             10752
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,3)   total(G,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67412):
CTCTTGGGCCCAAGGGATCCTCCAGCTCAGCCTCCTGAGTAGCTAGGACTATAGGCTCGTGCTACCACCTAGCTAATTTCTTTTTCTTTTCTTTTCTTTT
C
TTTTTTTTAACTTTTTGTAAAGATGAGGTCTCTTGCTACGTTACTTGGGCTGTTCTCAAACTCCTGGCCTCAAGCGATGCCCCTGCTTCAGCCTCCCAAA
Celera SNP ID:            hCV27064121
SNP Position:             14973
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67413):
CCCCAGCTAGTCACACCCGTGATGCCCATCTCTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAATGCAGCAGCACGATCTCGGCTC
W
CTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGGCCGGCACCACACCCGGCTAATTTTTTCT
Celera SNP ID:            hCV27064122
SNP Position:             17746
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,4)   total(A,4|T,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67414):
CACACCCGTGATGCCCATCTCTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAATGCAGCAGCACGATCTCGGCTCTCTGCAAGCTC
Y
GCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGGCCGGCACCACACCCGGCTAATTTTTTCTATTTTTTAGTA
Celera SNP ID:            hCV27064123
SNP Position:             17757
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67415):
AATGCAGCAGCACGATCTCGGCTCTCTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGGCCG
S
CACCACACCCGGCTAATTTTTTCTATTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATTCGCCCACCT
Celera SNP ID:            hCV27064124
SNP Position:             17822
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|G,5)   total(G,5|C,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67416):
CTCCTGACCTCATGATTCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGAGATGCCCATCTCTTAAAATAAAAAAT
A
AAAAAAAAAAAAGAAAGAGAGAAAGGAAAGGAGGCAGGAGGGATCCTGGGAAGGCAAACAACAGCTATTGAGCGCAAACCAAATCCAAAACTTCTCCACT
Celera SNP ID:            hCV27064125
SNP Position:             17997
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67417):
TCCTGACCTCATGATTCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGAGATGCCCATCTCTTAAAATAAAAAATA
A
AAAAAAAAAAAGAAAGAGAGAAAGGAAAGGAGGCAGGAGGGATCCTGGGAAGGCAAACAACAGCTATTGAGCGCAAACCAAATCCAAAACTTCTCCACTT
Celera SNP ID:            hCV27064126
SNP Position:             17998
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67418):
AATCACTTGAACCCGGGAGGCGGAGGTTGCAGTGGGCCGAGATCACGCCACTGCACTCCAACCTGGGCGACAGAGAGACTCTGTCTCAAAAAAAAAAAAA
G
AAAAGAAAAGAAAAAAAAAACCATGCTGAATTGGCCAAATATTTATCTAGGACTTCCCAGCCTGAGAACTGTAAGAAATAAAATTTTACTCTTTAAGCCA
Celera SNP ID:            hCV27064127
SNP Position:             23374
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,6)   total(G,6|-,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67419):
GTAGTCCCAGCTACTTGGGAGGCTGAAGCATGAGAATTGCTTGAACCCAAGAGGCGCAGGTTGCAGTGAGCCAAGATCGTGCCACTGCACTCCAGCCTGG
R
TGACAGAGCGAGACTCTGTCAAAAAAAAAAAAAAAGAAAAAAAATGATTCAGTGGTTCAAGTCATGCGAAGTCAAAGGCTTTGATGGCAGCTGACTGCAG
Celera SNP ID:            hCV8164084
SNP Position:             15666
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67420):
CCCGGGAGGCGGAGGTTGCAGTGGGCCGAGATCACGCCACTGCACTCCAACCTGGGCGACAGAGAGACTCTGTCTCAAAAAAAAAAAAAGAAAAGAAAAG
A
AAAAAAAAACCATGCTGAATTGGCCAAATATTTATCTAGGACTTCCCAGCCTGAGAACTGTAAGAAATAAAATTTTACTCTTTAAGCCACTGAGTCCATG
Celera SNP ID:            hCV27064128
SNP Position:             23385
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,6)   total(A,6|-,6) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67421):
CACAATAAGAGTCTCAGAAGAGGAGGAAAAAAACAAAACATAATATTGATTGATTCAACATAAATACTATGGTTTATTTCTAGATGGCAAGGAAAATCAC
R
TGTAAGAGGTTTCCATTTAAAAGAATTCCACTATTCATCAAAATTTTCATCTATTCTCAAGACTGTTGATTTCAAACTAGGTTTAGAGTAGCAAAGCATA
Celera SNP ID:            hCV27064129
SNP Position:             25894
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,6)      total(G,6|A,6) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 TRANSCRIPTION FACTOR BINDING SITE (TFBS)


Context             (SEQ ID NO:67422):
TCCAGCCAGCTCACCCATTGGCCACCTGTATCTCCTGCTGTAGCAGCCAGAAAGCTACAACTCCCAGCCGGCTGAGCGCCACCAGCGCTTTCGCGTCCAA
K
TCCCTTTGCTGAGTGTGAGGGCCTGCGCAGTAGAACCCGCGGGCCCAGAGCTCCATCTGAGCATGTGCAGGCTGCGGGGTGTTTCCTTCGTCTGCTGGCG
Celera SNP ID:            hCV25636574
SNP Position:             20140
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,2)   caucasian(G,38)   total(G,72|T,2)
SNP Type:                 INTERGENIC

SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,36)   total(G,69|T,1)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67423):
TCTCTCTTCCAGACTACCTAACTGACTCATTTTACAAATTCTGCTGTCTAAGATAGGACACGAGGTAAGGGTCCCTTTCACTAATGCTTCTGAAGAGCAC
R
TCCAGGGCCAGGTCCCCTTTCTTCTCCACCATGCTCAGCAAGGCCTCATTCTTGCTCTGCCGTGTCTTTTCCTGCTCCACCAGCTCCTTCTCATTCTCAG
Celera SNP ID:            hCV25953503
SNP Position:             27972
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,25)   caucasian(G,38)   total(A,7|G,63)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:67424):
TACATTTGTGCTCCATATACTCACCAGTAGTAGGCATTACTGACTTCTTAATAAATGGAAGTTTGATGAATATAAAATGTAGTATTTTTATGGCTTTTAA
W
GAGGTTTCTGATAACTAGACGTATGAAATTCTACTTTTGTTCATTGTCCATTGCGATTTACAAACTGTAACATTTTACTCATAACGTTTGCCCATTTTTC
Celera SNP ID:            hCV11708033
SNP Position:             23699
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3|-,8)   total(A,3|-,8|T,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67425):
CAAGTCTGTCCTGAAAGCCTGTGTGATAGATGTTACCCAGTCTTCTTCTGTCTTGAACACTGAAATCAATGATCACATTTCTGTTTATCCATTTCCAATG
S
GAACGCTGGATTCTCTCTTCCAGACTACCTAACTGACTCATTTTACAAATTCTGCTGTCTAAGATAGGACACGAGGTAAGGGTCCCTTTCACTAATGCTT
Celera SNP ID:            hCV25953508
SNP Position:             27860
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,38)   total(C,1|G,73)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67426):
CTGGCCAATGGAACTTAACCCGTTTCCTGTGCAATGTCATGGCTGGTTGAGTGGGAAACAGAGGGAGAGAGGTAAACAGCTCTTTACATTTACAATGTTA
R
GAAATGCTTTTATACCAGGAAGGGAAGAATAACCTAGCTGTCAACACCACATGAGTCAGAGAAAAACTATCTGAGCTACCAACTGAATACAAACGTCTTA
Celera SNP ID:            hCV15973653
SNP Position:             35378
SNP Source:               dbSNP
Population(Allele,Count): TSC_42_A(T,26|C,57)   JBIC-allele(A,188|G,547)   TSC_42_C(T,21|C,63)   TSC_42_AA(T,10|C,73)   total(G,547|A,188|C,193|T,57) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67427):
TCCCTGGAAGGGGAGTTGTCTTTTCATTTTGAAGGCTGTCTTGGAATCTCGGCTAAACCACGGTTGGCTCCTGCGTCTGTGTTTTGACCTGCTTTCATAC
T
TTTTTTTTTTTTTTTTTTGAGACGGAGTTTCGCTCTTGTCACCCAGGCTGGAGTGCAATGGCGGAATCTTGGCTCACCGCAACCTCCGCCTCCCGGGTTC
Celera SNP ID:            hCV1165721
SNP Position:             1268
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,4)   total(T,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67428):
AGACTGTCATCATGTATGCCTTGAGTGTCCTCAGCTGAGAAGCTTTTGTTAGCTTTTCTGCTTTTAGTTATGAGAAGGTGATACTTCAAACGGAGTGTCC
A
TAGGAATTATTTTTCACATTAATCAGGAAAAGTTGCCTTTCCAGGCCCCATCCTTCATAAACACACCTATCCGGATGTCCTTTATCCTGGGTCTTCAAGA
Celera SNP ID:            hCV27064130
SNP Position:             27527
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,12)   total(A,12|-,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:67429):
TGTCAGGCAACCATCAGGTGATGGTCAGGCAGTTGTTACACCGTCTCTCTAAAATAATAATTGGTTGCAGCCGGCACCAGGGAAAGGCCGTCTCCTGACA
S
AGAGAAAACACCTGAAACTGGTGATCAGCAGCTTCCCAATAAGATCTCGGGAACTGGGCCAGTGGGCTCAAGAATGTGCATTAAGAGCAGAGTTTAACTG
Celera SNP ID:            hCV27064131
SNP Position:             30565
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,13)   total(G,13|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67430):
TTAAAAAAATTTCCCATGATGCCTTCAATGTGGTTTTGCACTTTCATCTAGACTCCTTGATGTTTTCAAAGTTCAGATGAATTTTGCAACATGCCCCCCC
M
ACCCCACCTTTGGCAGCAGCTCAGTCACCATGTCACCAAGACAGAATAAATATGAGCTTCCCATCTCCTGTGAGGTCTCACAATTGAGTTTCTGGTCATT
Celera SNP ID:            hCV27064132
SNP Position:             32138
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67431):
CCATTGTTGTGTTATCACACTGATAATACACTGACAATAGATTTCTCTTTTTTTTTTCTTTTTTGGCAAGAACATTTTATTTTATTCAAACTATTTTTTT
W
AATTTAATTTAAGTTCTGGGATACATGTGGAGGACATGCAGGTTTGTTACAAAGGTAAACATGTGCCATGGTGGTTTGCTGCACCTATCAAATCATCACC
Celera SNP ID:            hCV27064133
SNP Position:             34411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67432):
CAAAAAGGAGACATGTAAATACTGACACCTAACCCTCTTGTTTCTCACCTCTTCCAAGGTCCGCAAACAGGAAAAAGCCATCTACGCCAAAACAATAACA
T
TGGTCCGTCCCATTCTGAATTAAAGACCTTGAAATCACTGGGATGTGTTTTCCCATTAAAACTGGAAAACAATTAAATCTTGATACTTTGTTCTAGAGAT
Celera SNP ID:            hCV27064134
SNP Position:             36655
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67433):
CTGCACTCCAGCCTGGGTAACAGAGTTGAGACCCTGTCTTGAAAAAAAAAAAGCTCAAACAAGCAAATGCTGACACATTTGCAGGAAAATAGAATATAAG
S
CAAGAAATTTAAAATATAGAGAACAAAATGGAAATTTTAGAACTGATACATACAGTGACCAAAATTTAAAAGGTGGTGAATGCACTCAGTGGGACGACAC
Celera SNP ID:            hCV8164309
SNP Position:             25550
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|C,9)      total(G,5|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:67434):
TGTAGTGGGCCAAGACCACACCACTGCACTCCAGCTTGGGCAACAGAGCGAGACTCCATCAAAAAAGAAGGAAAGAAAGAGAGAAAGAGGGAAAGAAAGG
R
AAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAAGAAAGAAAGAAAAGAAAGAAAGAAAGAAAGAGAGAAAGAGGGAAAAAAG
Celera SNP ID:            hCV27064135
SNP Position:             37148
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1|-,9)   total(G,1|A,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67435):
AAAAAGAAGGAAAGAAAGAGAGAAAGAGGGAAAGAAAGGAAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAAGAAAGAAAG
A
AAAGAAAGAAAGAAAGAAAGAGAGAAAGAGGGAAAAAAGAAAGAGGAAGGAAGGAAGGAAGGAAATCTATTTGGAAATATACTAGCTTTAAGTTGGTTAA
Celera SNP ID:            hCV27064136
SNP Position:             37209
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67436):
AAAAGAAGGAAAGAAAGAGAGAAAGAGGGAAAGAAAGGAAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAAGAAAGAAAGA
R
AAGAAAGAAAGAAAGAAAGAGAGAAAGAGGGAAAAAAGAAAGAGGAAGGAAGGAAGGAAGGAAATCTATTTGGAAATATACTAGCTTTAAGTTGGTTAAT
Celera SNP ID:            hCV27064137
SNP Position:             37210
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,5|A,6)   total(G,1|A,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67437):
TCCAGCCAGCTCACCCATTGGCCACCTGTATCTCCTGCTGTAGCAGCCAGAAAGCTACAACTCCCAGCCGGCTGAGCGCCACCAGCGCTTTCGCGTCCAA
W
TCCCTTTGCTGAGTGTGAGGGCCTGCGCAGTAGAACCCGCGGGCCCAGAGCTCCATCTGAGCATGTGCAGGCTGCGGGGTGTTTCCTTCGTCTGCTGGCG
Celera SNP ID:            hCV25636581
SNP Position:             20140
SNP Source:               Applera
Population(Allele,Count): african american(A,31|T,5)   caucasian(A,38)   total(A,69|T,5)
SNP Type:                 INTERGENIC

SNP Source:               Applera
Population(Allele,Count): african american(A,29|T,5)   caucasian(A,34)   total(A,63|T,5)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67438):
TTTTCCCAAAGCAGCCCAGTTACTTATTAACATACTGCTTTTTCCAGTGACACGTGTTCACAGTTATTAAGTCGATCTCCCGCCAAAATAGAAGCTCTAT
S
TTGTTTTCCATTGTATCCCCAGTGCCTAGAACAGTGCCTGTTGCAAAGTAAGCTTTGAGTTAAAAAAAAAGATGAAAGAATGAAAATGGCAGACTGCCTA
Celera SNP ID:            hCV25952351
SNP Position:             19849
SNP Source:               Applera
Population(Allele,Count): african american(C,11|G,23)   caucasian(C,19|G,11)   total(C,30|G,34)
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67439):
TTGCCTCGGTCTCTCCTTCTGCCTTATGCCCCTCAGTCAAATTCTGTCTTCTAAGGAGGCAAGAATTGAGGTTGCTGCAGACCTATACGGATTTGCTGCC
R
GTAACGTTCTGGTGCCATGTCACTTGGATACCTTCCACTGTCACTCAAAGACCCCTTGATGTCTCATACATACCCTTGGCTTTAATGTAAACATTTCACT
Celera SNP ID:            hCV25636582
SNP Position:             31432
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON


Context             (SEQ ID NO:67440):
TTGCCTCGGTCTCTCCTTCTGCCTTATGCCCCTCAGTCAAATTCTGTCTTCTAAGGAGGCAAGAATTGAGGTTGCTGCAGACCTATACGGATTTGCTGCC
S
GTAACGTTCTGGTGCCATGTCACTTGGATACCTTCCACTGTCACTCAAAGACCCCTTGATGTCTCATACATACCCTTGGCTTTAATGTAAACATTTCACT
Celera SNP ID:            hCV25636583
SNP Position:             31432
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,38)   total(C,75|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:67441):
ACAAGACTTTACACAGATCCAGAGGACATTGCAGATTGCTGCCTTGGGTGATTTTTAAAATTAACGTGGACATGAAGTCATCAGGAGACAAGGAGTTCCA
R
ACCTGGATTTATTGCTTACTAGATGATGGAAACTTGGTCCTCTCAGTGTTAACTCTATTTTATTTATTTACTTATTTATTTATTTATTTTGAGACAAAGT
Celera SNP ID:            hCV11708041
SNP Position:             29495
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67442):
TTATTTATTTACTTATTTATTTATTTATTTTGAGACAAAGTCTCACTCTTGTCCCCAGGCTGGAGTGCGATGGCACGATCTCGGCTTACTGCAATCTCCG
C
CCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCCCCCGAGTAGCTGGGATCACAGGCATGTGCCACCACGCCCAGCTAGTTTTTGTATTTTTAGTAGAGGC
Celera SNP ID:            hCV11708042
SNP Position:             29655
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,8)   total(C,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67443):
CAATCTCCGCCCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCCCCCGAGTAGCTGGGATCACAGGCATGTGCCACCACGCCCAGCTAGTTTTTGTATTTT
Y
AGTAGAGGCAGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGTTGGGATTACAAGT
Celera SNP ID:            hCV11708043
SNP Position:             29746
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67444):
AATTAAACTCTATTTATTTATTTAGAGATGGAGTCTCGCTCTGTTGCACAGGCTGGAGCACAGTGGTGCGATCTCAGCTCACTACAACCTCCACCTTCTG
S
GTTCAAGCAATTCTTGTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCACCACCATGCCTAGCTAATTTTTGTATTTGTAGTAGAGACAGGGTT
Celera SNP ID:            hCV27526933
SNP Position:             19140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67445):
CCCCCGAGTAGCTGGGATCACAGGCATGTGCCACCACGCCCAGCTAGTTTTTGTATTTTTAGTAGAGGCAGGGTTTCACCATGTTGGCCAGGCTGGTCTC
R
AACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGTTGGGATTACAAGTGTGAGCCACTGCACCCAGCCAACTCTTTATATTAAATAATG
Celera SNP ID:            hCV11708047
SNP Position:             29787
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67446):
GTCCCTCTAACAGTTTAATTCACAGCCATATCAAACTACTTTAACTTAGAGTTCCCCAGACGCAAGATATTAAATATTTACCCCCAATAATTTGCTGTTG
Y
ATGCTCTTTTGTGTCTACATGATGTCCTCACGCCCTTCTGGGACTAAATCATACTCATTGTCTGTATTTATGACATCAGTCATTCTTGGCAGATGACAAG
Celera SNP ID:            hCV11708048
SNP Position:             30268
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;(C,-|T,-)   Caucasian(C,84)   African-American(C,84)   Asians(C,8|T,76)   total(C,176|T,76)
SNP Type:                 INTRON


Intergenic Region Number:  2
Celera Axis ID:            GA_x5YUV32W802 - 211000035844098 (51618853..51658853)
Chromosome:                1

Genomic Sequence (SEQ ID NO:12600):
TAATGCAGGCTCCTTTGACTGTATATGTACCTCATTCTGCAGAAACTCTTTTAAATTCACAATACATGCAACACTTTTCTGTTAACAGATTAGCTTCTTA
TAAAGTACTTTTACTCTCTGCTACACATATTATCCTCCCTTACTGTAATTCTCTTAATCCCACAACATTACTTCCTGAAACAACTGATGAAATACGTCAT
GACTGTATTTTACTAACAGAATAGCTTTTGATGCCCAGACAGGATTTACAGGAGACACTGCTGTAAAATGCTGATGTTATCTGGTTCACAGACGGATCGT
ATCTAAAGGATGAATTTGGAAAATAATGAGCAGGCTAGGCCATTGTGTCTCTTGTGGACATTATAGAGAGCAATCCCTTGCCTACAGTAGAATCAGCACA
GTTAGCTGAGTTAATAGGGYTCGCCAGAGCTTGTCAAGTGGCCAAAAATCAAATGGCTAATGTTTACGTTGACAGCTATTCTGCTTTGGGTGTAGCTCAT
GATTTTGGAATGTTGTGGAAATAGCAACCTCCTCCAGACGCCCTATTATCGTGGCTCTCAAGTCTCTGATCATTTAGAAGCCATCCAATTAACAACAACA
ACAAAAATAATGGACTATTATCAAGCCCATTTATAATAGCCCTGGACATTTCCAACTTCACTCTCCAGAGAGTAAAGGAAATCATTTTGCTGATTCAACA
GCAAAAAAGTCTGCATTAACACTGATATCAAATAAAACTAGAGAGGTGGCTATATTTAAAATGCACTCCATTGAAAAGGAACTCCAAGAGGCTCAAGAAA
AGCCTTCAGAGAGGGGAAAGCAGATATAGCTAACAAAAATGGCGGTGCTTTTTCTCCACTTGCAAATTATGGTATGGACCCAAMGACAGACTAGTTTTGC
CTTTGGGATTTCAATTTTCTATGTCACAACATGTCTATGAGCTCACTCACTGGGGGCCTGAAAAAATGATTGCCCAGGGAAAACAATTATTATTGGGAAT
YCTCACCCACAATAGCACATAGACTTTATGCTAAATGTCCAATTTGTCCTAAACCTAATCCAGGAAAGTGTCTTCACAGATTTCAAGGGCATTTCCCTTT
GCCCACTGGACCTTTCAATATATGGCAAATGAATTTTATCCAATTACCTCCAGCCCAGGGTTATAAATACGTGCTGGTTATGATTTATATGTTCACTCAT
CAGACTGAAGCATTTCCTTGCAGAAGAGTCATGGCACAAACAGTAGAATAATATGTGTTGCTGTGGGTAATTCCCTCTTGGGGAATTCCTTCCAAATTAC
ATCGCAATAGGGGACTCATTTTACTGGAGAGATTATCCACTCCATTTGTAAAATCTGGCTCATTTTCCAACATTTTCRTTTTGCTTACCATCCACAGTCT
TCTGAATTGGTGGAATGGAGAAATGAAATAATAATAACCCAGCTGGAAAAATTAATGAAAGCTTTTCCTATTATGTGGCCCAAGGCTCTTCCATTGGTTT
CACTCAACCTAAGAGCAACTCCTTTCAGAAAACATCAATTATCTCATAAGATAATTACAGGGTGACCTATGAAATTGGATGGTGGTTTATATAAACCAAC
TTTACTGAAAGGAGATATACTCCATTATTGTCAAGGCTTAACTAAACGTCTTTTCAAAAAAAAATCAATAAAACTGATTTTAACACTGTGCTCCCAGAAG
ATGAAGATCTCAAATACCAAGATCTCTAGCCAGGTGACTCTGTTGATTGAAAAAGACATCAACTAAAAGTCTCGCTTCAACCTCATTGGAAAGGAGTTTA
TCAGGTATTGTTGACTAATCACTGTGAAGCTAAACTTGAAGGAGTTGACTCCTGGATTCACATTTCTAAGTTAAGAAAAGCTCCAACACCTAAATGGACT
TCTAAGTCCACCAGAGACCTCCAATTAAARATCTCTAAGATTTCTGACTCCTCTGAAGGTGGGAAGGAGACATCTGAGTAGACAGCATTTCCCAAGATAC
CAGACCAGGTGTGTATTCAYGATGATTTTCTTCTGCATATACCTTTTGTTTTTGCATTTTCCTGTCACGATAATGAGTATCTAGTAACATCCTCTCCTTT
GTTTGATCCCCATTTCTCTTATTGGGAAATCACTCATCTAATTTATATGGAAGTAGAACAAACCTTTTTCAATATCAGGAGGATATTGGAACTCTGATGT
TGACTTCTTAGAATCAGTTCGATGTTCCTATAGCCTATGGCACCTTCTTTTCAGGCATAATATACTATTAGGGACCTTATTTAAAGAAATACATCCAGAA
AATTCTTCTCAATTCGATGCCTGGTTGGGCAGTTTTTAATACTTTACTAATAGCTCACTGCATGACTGTGAATCTAGATGATCAATTACTACCTGAAGTC
CTTGAGATAATTGAAAACAGTTGCAGCTTTTGTGCCTTGCCACAGTGTCTCTTGCCCTAGAGGTCAGAGGCTTTGTTTTTGTGGCTGTAGGTCTATGAAA
CATTCTAATGAAACTTGGAATCATACAATGGGAATTACTCGGTGATATGGTTTGGCCTGTGTCCCTACCCAAATCTCATCTTGAATTGTAATCCCCACCT
GTGGAGGGAGAGACCTGATGGGAGGTGATTGGATCATGGGGGTGGTTTCCCCATGCTGTTCTCATGATAGTGAGGGAGTTCTCAAGATTGCTAATGGGTT
TAAGTGTGGCACTTCCTCACTCTTTCTCTCTCTCTCTCTCCTACCACTATGTAAGATGTGCCTTGCTTTCCCTTTGGCTTCTGTCATGATTGTAAGTTTC
CTGAGGCCTCCGCAGTCATGTGGAACCATGAGTCAATTAAACCTCTTTTCTTTATAAGTTACCCCATCTCAGGTATTCTTTATAGCAGTGTGGAAATGGT
ATTCTCCAGTGGTATCCTCATCCAGTTAGTGGATAAGAATACCGCCGGAGGATAATTTGGGAATTCAACCAGGGAGAATGTGAAAAGCCTTATGGTATAC
CCAAACTAAACTATATCTAGGGGTAACTGCTACATATCTCACCCTAACTTGGAACACCAAACATATTTGGTTTCACAATCTGTACCTAAATTGCACTTCT
GCTATAATTGTTCAATGGCAACAACATGTTTGGTGGATAAAACAGCACTRGCCAACTAAGGTAAAAAGAAACTTAGGTGCAACAGGGGAATAACTTGTGA
TATTAGGACAAGATAAAAATGTATTTTATGAAAAAAGACATTCACAAGAAAAGTTGATACTTACCAATCAAAATAGATTAGAAGAAATACTCTTTCATGA
GGAAAGTAAGGATCAGGAAGCTGCATGGAAAGATAATGACACTGTTGCTAAGTGGATAAGTCAAACTGCTCAACTAATGAGGGACCATACCAAAACCTAG
CGATGAGAGAGCATACATCCAAACTCAGCAAGGTTTATTGACCATGCTAATACAAATGGAAGCAAAAGCCTCTAAAACATGGCCAACCATTTTGGATACA
GAAGCACAAGGTGTGCATTTATGGAAAAAAATCCTCTTCTTCCTGGAAAATTACTACCAGKGTGTGTAGCCTAATTTGCTGCACTCTACAGCTTTAGCAC
CGGATATGGTTTGGCTGTGTCCCCTCCCAAATCTCATCCTGAATTGTAATTCCCATAATCCTCACAGGTCCTGAGATGGAGCTGGTGAGAGGTAATTGAA
TCACAGGGGTAGGTTTCCCCCATACTGTTCTTGTGATAGTGAATAAGTCTCATGAGATCTGATGGTTTTATGAATGGGAGTTCCCCTGCACAAGCCCTCT
TGCCTGCCACCATGTCAGACATCACTTTGCTCTTCCTTTGTCTTCCGCCATGATTATGAGGTCGCCCCAGCCATGTGGAACTGTGAGTCCATTAAACCAC
TTTTTCTTTATAAATTACCCAGTCTTGGGTATGTCTTTATTAGCAACATGAGAACACACTAATACAGCACCCCATATATGTAGTCACCAGACCTATTACA
TAGTACAGTTAGCAGGAACAGGGATTATTTTAACAATACCTACATTCTCCCAATGGGCAGTTGATGGACCATATTAAATAATAATACTTGGAATCCAATT
TCAGTTCTAGATTGTAAACACATTCAGGGAGACTAGTACTGTCCCTGTTAGATTTGGAATCCTGAAATCATGGAAACATGACCTCTAATTTCTACCCCTA
TTCAAAATAATATATGGAGCCCAGGCGACATAATAAGACCTCATCTCTAAAAAAAAAAAAAAAAAATTAGCTGGGGGTGTTGGCCCATGCCTGTAGCCTC
AGCTACTCGGGAAGCTGAGGTGGTAGGATCACTTGAGCCTGGGAGGTCGAGGCTGCMGTGAGCCATGATCACACCACTGCACTCCAGCCTGGGCAACAGA
GCAAGACCCTGTCTCAAAAACAAAACAAAATAATATGTGGTATATGGGAAAAGAATGTTTTTGTTGGGAAAGGAAAAAAATGAGATTATAACCATTCTCA
TTTTTACCTTAGTTGGCCAGTGCTGTTTTATCCACCAAACATGTTGTTGCCATTGAACAATTATAGCAGAAGTGCAATTTAGGTACAGGTTGTGAATCCA
AATATGTTGGGTGTTCCAAGTTAGGGTGAGATAGGTAGCAGCAATTAAGTTTGCAACCAGACAATATTTGATTTAAATTATACTGCCATTTGGTGCAATA
TGGAGTTCATAGAGAAGTTACTTTTAGGACAAGTATAACACTGAAGATTATGATATGTGACATTATTATGACATTGATAATAACAAATTTTGAAAATTGA
AACTCAGTTCACCTCAAGTTGTATTTCCAGCAAAAAAATGAATGGCTAGAAGAGCAATTAGATAAATCATCAATTAGTTACAGTTCTAAGTGAAATACAC
TAAAAAAATCGTAAGGTACAAATACAAACAAACAAAGGGGGGAGGAAAATTATTAGATTAGTCATAAGACTATCAAAATACAAGTTCAAGGTTTTTTTCT
ATGATAGATTGTTTCCTTTCTTCATTGTCTTTACCTGAAAGGACCTCTCAGTTGTTCACACTATTATTAATTATTTTTCTAGTATGTCTACGTTACAAAT
ATTATAAATGCTGCAAAAATTGCAAATGTCACTGAAAGAATAGAACTCCAGCCCAAATTAAGTGAGTTCATTGATCTGAACTAACAGCTGTAGCATGTAT
GTAAGAGTAGTCTTCTGATGACTATTTGTCCAACACATTATTTCCCTATTTCTGATCAACTGAGGAAGGGCTTTCTATTTTAAAWTTTTTCTTTTTTTTT
TTTTGAGACAGAGTTTCATTCTTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCCTG
CCTCAGCCTCCTGAGTAACTGGGATTACAGACGCCCACCACCACGGCCAGCTAATTTTTGTATTTTTAGGAGCGACAGGATTTCTCCATGTTGGCCAGGC
TGGTCTCAAACTCCTGACCTCGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTTGTTTTAAATTTTT
TYAATCCTAAAGTCCCAAGGTTTATAAAACACATCAAATGGCCTATTCTTCCTCCCAACTCCTCAAGGCTCTTCAGCAATATGGTTGACCATGCAACACA
TCATCGCATCTGAGGAACAGCCTAAGAAAATAATTCTAATTGCAATGATCACCTCTTTTCTCCATAACGTGAGGAGATATTGGCATGACAGGAGAGCCTC
TCGCATTCTGAAAGGAAATASAGGAATTTTTGCATCCTCACTGACAAACCAAATGACAGAACTTCATRTAGGAGTGAAAAATAGAACAAGGGCACTTAAA
AATTCCAATTTGATTCCCCTATGCCCTATAATTCCAAGCAAAGGGGACCTGTCCTCTTCAAATCCATCAGATATATTATTTGGTTTTCAAAGTCCTCTTT
TGGAGAATTTAACCAAAAGGGAAAGATTTTTAGAAAAAAGAAAATCTGAAAGAAAAAGTTTTAAAACACAGCCCAAGATGGCTGCAGGCTGGACAAACAG
GTACTAATATAAGGCCTATGAACTAAAGCTGAAGTCTCGCCTGCTAGGGTGGAGTCTGTCAAATATTTCACTGGCATGACTGATTGTAACCTTGCCTATC
AGATGAAGCACTAATGCAGGGTAGAATCAATCACCCCTCTCCAGACCTTAAGACCCCTACGTATTCCACAACTTTTTACCCTATATATGTTAACTGCATA
TTTCTTTATTTATGCATAATGTCACTAAGCACCAATCAGAATTGTAAGTGTCACCTTTCCTTCAATGCCCCTGTGGAGACAGGAAGTGACTCCATCTTGG
ATATGAATGTGCCATGTTGTATTCTAATTAGCCCCAGTCCTGCAAATGCCTTCTGATTCTTACTTTATTTACTATCCTTAGTGTAAGAAGATGACAATCT
GAATGTCATCACACAAATCATAGGCCATGATGCATGTAACATTCTTGCCTGTTCTGGAGGCTGCCTCTTATTGTCTTGCTGGACACACACGCCCTTTCCC
TATGGTACAGAAGCCCCGGGTCTGGGGAGTAGCAGTGTGGAGATCTATCTTCTGCCTTGCAGCTAAAATCCCAAGACTACGCTTCTGCCTGTAAGTTCTC
CCCCAGTAAAACACTCTAGACCAAACTGAATTTGTTTCCCTCCTTTTCTGGTTTCCAGCTCCTTTGGCATTTGGGGGTCATTTTGGATATAAGGCCCTTT
CATGGAACAGCCCCCTTCTCCCATTTTCTTTCTCTCTTTTTTTTTTTTTTGTTTGTTTGTTTGCTCTGTTTTAAGACAGGGTCTCACACTGTCGCCCAGG
CTGGAGTGCAGTGGCATGATTTTGGCTCACTGCAACCTCCGCCCTTGGGTTTTGTTGAGACAGAGTCTGGCTCTATCACCCAGGCTAGAGTGCAATGGCG
CAATATTGGCTCACTGCAACCTCCACCTCCCGGTTCAAGCAATTCTCCTGCCTCAGCCTGAAGAGTAGCTGTGACTACAGGCGTATGCCACCATGCCCGG
CTAATTTTTGTATTTTTGTAGGGAAGGGGTTCCACCATGTTGGCCAGGCTGCTCTCAAACTCCTGATCTCAGGTGATCTGCCTGCCCCGGCCTCCCAAAG
GGCTAGGATTACAGGCGTGAGCCACCGCGTCCAGCCTAAATTTTTAAAACATATATTCAGAGAACTGAAAAGAGGAAGCAGGGAGATATAACAGAAACAA
GGACCATCCCTCATATGGAAAGTCAATACATGACATTTGAAGCAAGGGTTGTGAAATCGCATCACGAGCTTGTTATTTGGAACTATTGAGATAAATGCTA
GAAGAAATGCCTAACAGAATTCGAAGTATTGGCCTTGGAGGTCAGGAGTCCGGGAGTTGGGAGCTGAGGAGACACACTYGTGAGTCCATTTGTGATAAAC
TTCAACTGTGTCATGCATCCTTTAAATTTGAAATTTTTGAAAAGTTAAAGGTTAAAACAAATCAAAAGGGCCTTGCAGAGCTGTGTTCTCACCAGTCCCC
ATGGCAGTCCCTTGGCAATTCACAGATAGGGCTCCCACTACCCAGGTTAGCTCAGGCCACAAGCCCGGGTGCCTCCGCCTCCTTCTCATGTGGGAGGTTA
TGTAACCCACCCAAGGTCACAGAGGCAGTGGGTGTCAGTCCACAGTCACGGCTCAGGGCTTCTGTCAGAACAGGGACCTCCTCGGGGTGGGGCATGTGAG
TGCCCTTGTGCTGTGACTCAACCCAGTTCCCCGTGTGACTCCACAGGGAGCTCAGAGAAAGTCAGCCCACACCCACTTTCATCTGAGGACACCCCAGTGG
GGCAGAGCAGGCCTTCCCTGCTCCACCCCAAGCAGGACTCATGCCCCAGCCTTTCTGGGGCACATTGCTACATATTTTAAAATGGGCAAATAAGTACTTT
CATGAACATGGCTAGTGGGGAAGAAAGGAGATTATTGCCCTCATTTTGTGGATGAGAAAATTGAAGTTAAAAGAGGGTAATGAGCTGGGTGGGGTGCTCA
CGCCTGTAATCCTAGTGCTTTGGGAGGCCGGGGCAGGCGGATCACCTGAGCTCAGGAGTTCGAGACCAGCCTAGGCAACATGGTGAAACCCTGTCTCTAC
TAAAACATAAAAATTAGCTGAGCGTGGTGGCACGCACCTGTAGTCCCCAGCTACTTGGGAGGCTGAGACAGGAGAATCACTTGAACCCAGGAGAGAGTGG
TTGCTGTGAGCTGAGACTGTACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCTCCAAAAAATAAAACAAAAAAGAGGATAATGATTTGTTC
AGGGCACACCACTGATCCCACCCCTGATTTGGATGCAGGCCTGACTCTAGCACCTGGGTTCTTGGGTCACTGAGGTAAAGCACACTGACTCAGGTTTGTA
AAACGTGGGCCAAATAGCAGCTGAGTCACTGGGTTGCTGTGAAGGTCAAATGAGGTCAGGTAGATATGGGACTCTTGGGAGGGTTGTTGGTACATCCCAA
CCACCTCACACATTTCAGCTGTTAATGGTGATGATGATGTCAGAGCTGGGAGGGCTGGAGAGATGCCCCAAACCTGGGGTTCAGGTGTAGCCTGTTRAGG
CTCCCTTGAGAATCTAATGAAAGCAGATGACCCTCTGTTCTGCAGGCAGCCTCAAGACAGTGTTTTGCACGTTAAGACCCTCCTAGGTGCTCTAACATCT
TGCATTTCCACAGATGATAAAATGAAGCCTCTGGCTGATATTTCCTTGGATCTGTTTCCCAGCTCAGGAAGGTGTTCTTGAATTCTGAAGCAGACATCTG
GAGCCTGCGACTGAGCAGCTGCCATGATAGGAAAGGGGAAAGACCTCTGGTTACCTTCCAGAAAGACKAGAGAAGGTGCCTGTCTCCTCCACGACCTAAC
TGTACACAGCAGGATGCAATTACCTCTAGAACCACTGAGGAAGCAGACAGTAAACTGGACATCCATCTGTCCCGAGGCACAAAAATATTTGCAGGCACGA
AAATATTTGCAGGCACCTCCCCTGTCCAGATTCAGACTAGGCCCTTCCACCACAGCAGTCCCCACAGCTGGGTGGAAGCCTGGAGGTCAGGAAGGAGGAG
YGCTAGTTGCTTTCAACACTTYAATGGTGAAATCATGCAGAGAAGCACTTCTCATGTTAATCCATCTCACACACATTCCAAGAGCACCTACTATGTGTAA
GGCACACAGTGGGACAAGCAGATGAACAAACAGAATCTCTATGGGAAGTGGTGAGTGATATTCTAGCAGTTCTCATACAATGCTGCGGGATGTAAAACAC
ACTCTAGCTGGGGGAACTGACCAGGAAGGAACACGGGCTTGTTGAAACACATGATATTGGAAGTGACTATATCAAGATGCCCCAAAGTCAACTCATGACT
TTTACCACCAACCTGACCTTTCACTGCCCAGTGAAAGTTGCCATCATCCGATTCAGTTACATGTCACACTTCCCACACTCTAACTCTCCATACACATCTC
GGGTCTTGCTGACTTTTCCTCCTCTATGTCTCTGCCGTCCACTTCTCTCCATCTTTAACATCTACTTCAGCAGCTTCTCCTTTGGTCTGCCCTCCAATCC
AACTTCCAATCTGAACGACCTCATCTAAGAACAGATGTGATCATGGTTAATCCCTTTTGAAAATCTTTCAATGGGCCGGGCACRGTGACTCATGCCTGTA
ATCCCAGCACTTTTGGAGGATGAGGTGGGCTGATCACCTGAGGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCCGTACAAAAATAC
AAAAATTAGCTGGGTGTGTTGGCACGCACTTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGWGCCCAGGAGACGGAGGTTGCAGCGA
GCCAAGACCATGCTATTGCACTCCAGCCTGGGAGAGTGAGACTCCATCTCAAAAAAAAAAAAAATATATATATATATATATATTTCAATGGTACTTCTAT
TGTTATCTGTTTTTTTGTTTGTTTGTTTGTTTGTCTGTTTGAGATGGAGTCTCGCTCTGTCACCAGGCTGGAGTGCAGTGGTGCAATCTTGGCTCACTGC
AAGCTCCACCTCCTGGGTTCAAGCAATTCCCTTGCCTCAGCCTCCCAAGTAGCTAGGACTACAGGTGTGTGCCACCATGCCTGGCTAATTTTTTTTTTTT
TGAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCRTGATCTGCCAGCCCTGGCCTCCCAAAGTGCTGAGATTACAGGC
GTGAGCCACTGCGCCCAGCCTGTTATCTGTTTTAACAAGTCCCAGTCTTCCTTCCAGGTCTGGTTCAAATGGAACTTCTCCCCAGTTCCCCAGTAGGGTG
TGTTCTCTCTCCTGAAGTATTTCATGAGAACGTCAAGAACAGGGCTTAGGAGCCCCCGCTTAGTCTGGCCCAGACCTTTCTTTCTGCCTCATCTTGCATT
GTAGCCCTCCTCATTATCCACCCCTCCGCAGAGCTGCTCTGCTTGTAATAAGTCATATTACCTAGGCTCCCTCTCATCTCACCTTTTTGCGTACGTTCTT
CCCCATCTCTGGCCAAGTCCATTTTTCTTCCCCTTTGCCTGGATGATTCATTATTTATTTTTTGGCTGCTCAGACACTCATTCGTAAGAGGTGCTAAAAC
CTGAGAAAATGAAGTGTTGGAAGGATTGTTTGATAAGCTGCTTGGAATGTCAGTGAGTTCTCTAAGAGGCATGCCTCAATCATAATGGCTGGGAGTTGAT
TGCCTTCCTAGAAGATTCTGTCTGGGTAAATATTAGGCTCTTGCTTTGCTAGTAATTAGGGTGAGCAAATGTGGACCACAGCTGAATTGTTTAGGACAGG
AAAGAGAAGCCAAGGACTGTCAAAAGAAACCTTCCTTTTTCTAAACCTTCCTCCACATAATGTTGTTCCTCCTCCAAATAAATGTTAAACTAGTTTTAGT
TGAAATTGAGAGCAAAACCCACAAACAATAAAAAGGAAGTCAGGAGAGGCAGAAAAAAATGCACAGAACAGAAGAATGTGTCATTAAGAGTTAAACATCA
TCAGAAACAGAAGAGATATGCATAAAACAAGAACACTATGCTATGGAAAAGAAACAATCAGAGAACAAGAAAGAGCTCTTAGAAATTAAAAATGTAGGCC
AGGCGCAGTGGCTCACGCCTGTAATCCCAACACTTTGGGACGCCAAGGCAGGTGGATCACCTGAGGCCAGAAGTTCAAGACCAGTCTGGACAACATGGTG
AAACCGGTCTCTACTAAAAATACAAAAAATTAGTTGGGCCTGGTGGGGGGCGCCTGAAATCTCAGCTACTTGGGAGGCTGAGGCAGAAGAATTGCTTGAA
CTTGGGAAGCGGAGGTTGCAGTGAGCCGATATCATACCATTGCATTCCAGCCTGGGCAACAAGAGCTAAACTCTGTCTCAAAAAGAATTTAAAAAAAAAA
TAAAAAAGAATAAAAATGTAATAGCTGTTTGGTCAGGATAGGGTCAATGCTGTAACAAACCATCACAATCTCAGTGGGTTGTGACTAAGAAAGCTCATTT
CTTGTTCCCATCACAGTCCCATTCTTCCCCAAGTCACAGGAAGGAATTAGCTCCATGTAGTCATTCAGGGACCCAGGCAACTTCCTTCATGAGGTCTTGC
CATCTCCTAGGGTATTGAAGTACCCTACTTCTAGCCAGCAGATGAAAAAGAGCAGGAGAAGAAAAGAAGATACAGAAAGAAAATAAAAGTTACTGGGCAC
YGTTGGGGAAGTTGGGGCACCAACTTATTACTCTAAARATTGTTAATTAAAGGAAAAGAATTAAGCATTTTTTATGCCTAACTGCATTTTCTGGTAATTA
AATAGCCAAAATGAATGAAGGAAAGCTCTTCTATGCAGAAGAATTTCAGCTACTACATGAAGAAAAAATTAGAATCAGAAAATTATCATTTTTTAAGCCC
CTAAGAAWATAACTGATTCAAGCAATGGTTTTCAATGGATGCCAAAATCACTCAGTGAAAGGTTGATGGAGAACTTCTCAGTGAAGGGTAAGGTTGCCAT
TGCCTGAACCTAAAGATAGATCTTAGCATCATTAAAAGCAAGACCAGCAGACATCATATGCCTCCAGGTGTGATGCACTGGAGACTTACAAGGTATCCCA
TGAAGTATAAAGAAGCAAGTGACTGTATCCCTAGTGTAAAAACTCTACATGAGAATTGACACAGTTTCTTCAGGAAGTCAATAGCACTGAGAACAAATAT
AGGAAGAGGAATTAATTTAYGTTAAAAGAGAGTTAGAGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCGATTTGGGAGGCTAAGGCAGCCAGATCA
CTTGAAGTCAGGAGTTTGAGACCAGCCTGGCCAACACGGTGAAACCCTATCTCTATTAAAAACACAAAAATTAGCCAGGCGTGGTGGCCCACACCTGCAG
TCCCAGCTACTCAGGAGGCTAAGGCGCGAGAATCGGCTGAACTGGGGAGATGGAGGTTGCAGTGAGCCAAGATCACACCACTGCACTCCAGTCTGGGTGA
CAGAGCGAGACTCCATCTCAAATAATAATAATGATTTTTAAAAAGTCAACTAATAACATAAGGTGATGAGTCTGGAAAGGATGGCAAGAAAGCACACTTC
ATAAATATGAAGGAAAATGAAGAAAACACTTGTGTTAGGGTTCTCTAGATGGACAGAACTAATAGGATATATATATATATATAAGGGAGTTTATTAAGTA
TTAACTTACATGATCACAAGGTCCCACAATAGGCTGTCTGCAAGCTTGAGGAGCAAGGAGAGCCAGTCCAAGTCTCAAAACTGAAGAACTTGGAGTCTGA
TGTTCAAGGGCAGGAAGCATCCAGCATGGGAGAAAGATGTAGGCTGGGAGGCTAGGCCAGTCTTGCCTTTTCACCTTTTTCTTCCTGCTGTATATTCGCT
GGCAGCTGATTAGATGGTGCCCACCAGATTAAGGGTGGGTCTGCCTTCTCCAGCCCGCTGACCCAAATGTTAATCTTCTTTGGCAACACCCTCACAGACA
CACCCAGGATCAATACTTTGCATCTTTAATCCAATCAAGTTGACACTCAGTATTAACCATGGTAAGTCCACCCCTTGTCAAGCTGAACCCATACACATCT
CCTGAGATCATACATAATCTTCAAATAAAGACAATAATAAGGTCATAATTATGCCTAAAATAATACAACTATCCTTGGTACAACTGGAAACCCACCAATC
CCCAACCCAAATATTATTACATAAAGTTAATAATACTTAAATGTTGATATGAAGTCAGTAAATCTTATGTCACATGATAAAGGAAAAGGAAATAAAATGG
ATATATTTTCTTCGTACAAGTGTATACATGCACAAACATGTTTTTAGCCAAAGAAGGAGGAAATACTCATGATAGTTACAGTCCGCATTTCTGCAGCTGG
TCACATGGTCATAGGTGGTATTGATGATTACCWTCTTCTACTACCCATTCTGTATTCCCTTTGCCTTCAGCAAGCACCTCAGCAGGTTGTGGTTTTTTTC
CTGGTGGAGTGACCCAAACCTTCATTCCTGAGGGGTCTGGGCTATTTGTAGTCCTGCCTGGATTGCGCTATTGTAGTTTCCCATTGACCTTAATCAAAGG
GCATGGTAATACTAAGAGATGCTCTAAAGGATGTCCTGTATTCCATGCATACTCTTCCTTACCTCTGTTATGGAGTAGTAGACTGATTTTATCTTGATAG
TTCACCTTCCCACTCCATCTCCCTTCTGGCTCCCCCATCTGCTGAGAGCTACTTCCACTCAATAAAAACTTGCACTCGGTCCCTAAGCCCACGTGTGATC
TGATTCYTCCAGTACACCAAGGCAAAAACCCTGGGATACAGAAAGCCCTCTGTCCTTGTGATAAGGCAGAGGATCTAATCGAGCTGATTAACACAAGCTG
CCTACAGATAGCAAAACTAAAAGAGCGCTCTKTAACACACACCCATTGGGGCTTCAGGAACTGTAAGCATTCACCCCTAGACACTGCCGTGGGGTTGAAG
CCCCACAACCTGCCCATCTGCATGCTCCCCCTAGAGGTTTGAGCAGCAGGGTACCAAAGAAGCGAGCCACACCCCCATTGCAGGCCCTGCGAGGGGGATA
AGGGAACTTTTCCCATTTCACTTGTGCTGTGATTCAGTTCCCTGGGTGACTCTGCAGGGAGGCTGGAGGGAGAGAGTTCTCCCAGAGGGACCATCCCACA
CCCACTTCCACCTAAGAACACCCCAGTGGGGCAGAGCAGGCCCTCCCTGCTCCACCCCAAGCAGGGCTTGTGCCCTGGCCTTTCTGGGGTGTGCTCCTGC
ATACTTCAAGCTCAGCCAACATGAGATACTCTGACTCAAGTGTAGGGTCAGGTGGGGAGAAATGAATGAGACCGGATCAAGCCAACCCAAGCCTATGCAC
CGAGTTAAGGGTGTACACACTCACTGGGCAATGGGGCAGGGTATTATCGTCCCCATTTTATGGATGAAGATATTAAAGTTCAAAAGTTTAGATGGCTTGC
CCATGGTCTCACAACTGCTGTGGAGTGTGGTAGTGAAGTTCATGGACTCTGCAACCAGACTGCCAACCTTTGAGCCTGTTCTGCTGCTGATCTGGGCAAG
TACTTGACCTTTCTGTGCTTCCATTTTCCTCTGCCAAATGGTGAGGCTAACACATGCTACTTGGTAGKGTTGTTATGAGGACTGAATAAGCCAATACACA
TGAAAGGCTGAGGATAACTTTTCCTTTGCAGTCACAACTACGCTGTTWGGTATAAGAGGCCTAMCTTTCGGCCTATTTTGGCTTTCAATACACTTACCTC
ACTAAGTTTAATATTTCTAGCTTTTGATTTAGAGCAAGGGATGTGTGACATTTTCACTTAAACATGTAGAGACCATTTTAGGGTTATTCATTGGCCTAAT
TTTAATATTGTTGGGTCTCAGGGAATTGAGAGGCCTGAGGAGAAGGAGAGAGGAGTAGAGGAACCACTGATTGATGTAGTAGTTAGAACACATGCAATAT
TTCTTAAGTTCTCTGTCTTATATGGGTGCAATTTGTGGCACCCCAAAACAATTACAATAGAAACATCAAACATGAGTGATCACAGATCACCATAACAGAT
ACAGTAGAAATGAAAAAGTTTGGGCTGGGTGTGGTGGCGCACACCTGTAATCCCAGCACTTTGGGAGACTGAAATGGGCAGATCGCTTGAGGTCAGGAGT
TCGAGACCAGCCTGGCCAAYATGGCGAAACCCCATCTCTAATAAAAATACAAAAAAAAAAAAAATTACCTGGGCGTGGTGCCTTGCRCCTGTTGTCCCAG
CTACTTGGGAGGCAAAGACACGAGAATCAGTTGAACCTGGGCAGAGGTTGGGGTRAGCCAAGATTGCATCACCATACTGCAGCCTGGGTAACAAAGCTAG
ACCCGAAAGGGAAARGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAGAAAGGAGGAAGGAAGGAAGGAAAAGAAAGAAAGAGAGACAGA
AARAAAGAAAGAAAAGAGTGAGTTTGAAATATTGTAAAAATTACCAAAACATGACACAGAGACACAAAGTGAGCACATGCTTTAGGGAAAAAGGTGTCAG
TACACTTGCTCAACAAGGGGTTGCCACAAACTTTTGCCAAAATATTCAATTTGTAAAACAAAACAAAACAAAACAAAAACACAACAAATATCTGCAGGTG
CAACAAAGCAAGTGCAAGAAAATGAGGGGTGCCTGTACTGTAAATTGCTYTTGTAAAGATGCACAGCTCTACCAAGTGCCACGAACAATGAGCATAGCTT
CCCTTCCTCCACTCCTGACCCTGAACACCCCTGCCCAAGGGTTCTTCTTTTTTGCCACTGTGATGAGCAACCAGCTCAAGCCAGCCCAAGTCAGCTCAAA
TGGCAAAAACTGGTCCAAACTTGCCAAGACCTTCCTTGGCCTCCCGAGTCCGTACTGTATTGGATCCAACCAGATAAAACCAGCTCAAACTGGCCCAAAC
CCAATCAGCCATGTCAGTCCAAGCTTACATATTCTTCCAACCTTTCCAACTTTTGTCCAAATCTCCTCCTGGCTTCCTGAGAGCCACCGCTTGAACAAAA
GCACACACTCCCCACAGTATGCAATGTCACTCAGGCCCTGGGCAGCCTAACTCACATGGGCTCTATTCAACACATGCTGCAGCGTCAAAACTCTACTAAA
AGAGATAGTTGGGTTGTTTTGTTTTGGTTTGGTTTTGCCTTAGCCAAAGTTTGTTTGTTTGTTTTGATTGCACTTTGAACTTGCACTTTTTTATTTTGAT
TTGCACTTCACTCTGAACAGACTAAAGAGGAAATTTCTTGGCAGGAAAGTGAGGGATCTCAGAGAAAGCAGGCGAAGAATTCAGCCTCAGGAAAGACAGG
AAACCAGGAAATGGAAAGCCATCAGGAGTTTCAGGGACACTTCTCTCATTCATGTCTCCATCCTGAAGTAGAAACCGAGGCAGGAGAGCAGCTTGTTCAA
GGCCAACAGCCCTTTAGGAGCAGAGCCTTATCAGGGGCATTGGGGCCCTCACCGCAGGGGCCTGGAGATCGGAGGCTGATGCTGGCTGGCTCAGTCTATG
ACCAGGGACCTGGCCCACCAGGAAGCCCTGGGTGCCCGCTGGCTCCACCACAGGCCCACAGTGACCTGGCCATCCTCCTCAGGACCCTGGAGCCCTGAGA
GGTTGTGTGGGATCAGAAGCTTTACAGATTGGGGGCTCTCTTTATGATTTAAGGGACAGAATGCAAAATTATTAAAACAGAATTGCTGAGCCCATCCCTG
GGTCTTGAAAGGGGTTGGAGAAGAATGAAGACCACTGGGGGGTTCAGCCGCATTTGCTTCATGATGAATCCGCCTCTGTCAGAAGCAGCTAGAGGCAGAG
CCCGAAGAAGAAGCCCTTGGCAGAGCCGCAAGCGTGACACCGCATTCCTTGGACACTGCTCTCCCATGAAGGCCCAGAGGGACTTGCTGAGGTCTGAGAG
GGGCTGGCCACCAAGGGAATGAGAGACTTGGTGTTAGACAGTCCTCCACTGTGTGATGACAAGCACATCAGTTCAGTTCTGTGAGCCTCTCTTTCAGGAA
GTGATCATAAAAGCATCCCCTTCCACCTCACAGGTGCTGAGAATGTAAGAGAAGAAGGTCAGCTCTCCCTCTGCCGGTGGGACRAAGGGCCCAGTGGTGG
CCTGCAGGCTCAGGGGTGTCTGCTCCCGCTGCCTGGCCTCTATCTGCTCCTGGCACCTGCTCCCATCTCAGAGCGGGGTTGGGGCCAAGCCCTGGGGCCT
TGAATGGCAGCGGGAGGCAGACAGAGTCCTGGGCAGAAGGGGGCAGGTCCCCAGTAAGACCCCACTTTCAGGTCAGGGAAGKCCTGAAGGCTGCGGGCCA
GGCTGCCAGTCCCATGGACTGGAGTGGGGACTCATGGTGCCTCTTCCAGCCCACCCATGGCTGCCCGTGGACCAATTGGCATGGACTTCCTCCCTGATAA
AAGGTSCATAAAAGCCCTAGGCTCAGCCAGAGCAGATCAGAGGATGGCCAGARGATGAGGAGAGCAGAGAGACAATGGCACAACCAGCTGCAGAGAGGAG
TACTCTCTGCTGATAGCTGGAGATGATGGGATGACTAGCAGCAGAGAGGAGCTACCTTCTCCACTGAGAGCTACAGAGACAACCTGCTGGCAGGGAGGAG
CCACCCTCTCCGAGGCCTCCTCTCTGCTGAGAACTGAACACTGGACAGATGACCTGCCTGCAGAGAGGAGCTACACACTGCCAGTCTCTGAGCTGTTGTA
ACACTAAATAAAACTCTTCTTCATCTTGTTYGCTCTTTGCTTGTCTGCATACCTCATTCTTCCTGGACACAGGACAAGAACTTGGGCAAAGGTGCTGTGG
CCACAGATGTTTCCAGCCAAAAAATTGACACCCCAAAGATCCCATAACACTAGGGMGCTTGGACTTTATCCTGCAYATATGGGCTGCCGCAAATGGGATT
ACACAGTGGGCATCAGGCTCAGGAGAGCACATTGGAAGGGACTCTGTGGTGGCCAAGTGTGGTGGCAAATGCCTGTAATCCCAGCACTTTGGGAGGCCAA
GGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACTAGCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTAG
CGCATGCCTATAGTCCTTGCTACTCAGGAGGCTGAGGCATGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCATTGCACT
CCAGCCTAGGGGATAGAGCGAGACTGTCTCCAAAAAAAAGAAAAAAGAAGGAGCTTGTGGGGTCATGTGGTCAATGGATTAGAGAAAATGAGACCACAGC
AGGGAGGCCACCAGGCTGTTATGCTGGCTCTGGAGAGAACTAGTGAGGGGCTGGAACCTGACAGTGACCTGGGAGAGAGGGAAGAAGGGAGGGGCTGTGT
GCATGAGACATTCTGGGGGTAGAACAGGAAGGATTTCAAAAAAAAAAAAAAAGCTGTTGGCACACAGTTGGCTTTCTCTACCACCTCCAGTGTGAATGAC
TTGGTGGCCCATTGATGAGGGAGGTGATGGAGAAGTTCAAAATGGAGGACAAAGCCCAGATTTCTAGCTGAGGAGTGAGGTACACTCTGGCTAAGGGAAG
CAGCCCTTCCGCTAGATGGGGGCCCATAGCGGGCTCCCTTTGGCTTGTGTTGAATCTGAGTGAACTGTGGTACATCCTTGGGTCGGTGATCAAGAGGCTG
TGAGATTTTCAGGTCTGGAGTGTGGGAGAGAGGTCACAGCTGGAGAGAGAACCTGGGAACCACCAGCAGAGGTGAATCCTGGTGCTATGGAAAGTAGACA
CAGATGACCCCAGGCTGAGAAGTGAGCTCCAGCCGCAAGACTTGGAGGCCATAAGGGCCAAAGGGTGACCTGCGGCAGGGGGTTGGAGGTTGAAGTTAAA
TCATGCCCCCACAAAATTTGTGTCCACTGGATGACTGGTGTCCTTATAAGAAGACAAGAGGTCGCAGAGACAAAGAGAAAAACGTTGTGAGGCAGAGACT
AGAGTTATGCTGCCGGAAGCCAGAAAAGGCCTGGGGCTACTGGAAGATGCAAGAGGCAAAGAAATATTCTTCCCTGGAGCCTTCAGAGGGAGAGTGACCT
TGCCAACCCTTGGCTTCAGACTTCTAACCTCCAAAACTATGAGAGAATACATTTCTGTCATTTTTATTTTATTTTATTTTTAAAAATAAGACAGAGTCTT
TCTATGTTGCCTAGGCTGGCCTTAAACTGCTGGGCTCACRTGATCCTCCTGTTGGATACAATGAGTTCAAAATTTCTCTTCAAAGAATCAATATGTCAAT
ATGTTCAGTTCTTTGTCCTCCATTTTAAAGTTTAACTTCCCCGTAGTTTCAGTAAACAACATTTCCCCCCAGTTTTAATCAGCAGTTCACATCTGTTCCC
CTGGTTACCTGCTCTGCRTCCTGACTCATCCCAGTCACCTGCTTTGACCTGAATCACCCCTGGTCACCTGCTCTGACCTAACTCACCTTTAGTTACCTGT
TCCTAACTGTCCTTCCCACCAAACTACTCACCCCGCCACTGGTTGGTTAGACCTGGAGACCTGTGACTTACATACTCAGACCCACTCACCCTCTCCCACC
CCCCAGGGGCAAAGAAAACTCACTGGAATGTCTTCCATCTGGAAAGAGTTCACATTTCCCAAAGCCTGCTCACACCCCTAAGTATCGTACCCATAATCYG
TGCTTCTTATATYCTGAGTGTTTGGGCATAASCAAGACCATTTTGCAGGYGGGAAATTTGATGTTCTGGGATGCCCTCATGAGATGCACCTGACTGGATG
GGCTGTTGAGCTCCTCTAGCTTCTCTGAGTGGCCTCTGTTACCCCAATCTGCTCTTTGCTTCCCACATGTCAGGGGAAGTTCCTCTTCAGCTCCAGGGAC
TCTGGGATCCCCGAGGACCTGGCTGAGTTGAGTGGTAGCAGAGAGGGTGGGAGAGGCCCTGCTGAAGGGAGGGGAGACACCTTCCTTGGCTGAGCTGGAA
GCTGAGAAATCAATGGCTGTACCTGCTATAGCTGCAGGAATGTGGCCTTGGGGTGTGACGAGCTCCTCCCCTCCCTCCTCTCCCTCCCCAACCATCTGGT
TTGCCTGAGACTCAGGAGCTTCCTAGGACTCAGGATTTACAGTGCTAGCACCAGGAATGTTCCAGACAAATCCAGGCAAACTGGTCACCTTGTGTCCCCA
GGCTCTGCAATCTCTGTTTCTCATCTCCAATCCTGGCCACTCACTGTTCTCTGAGCAGAGGCTCATTCCCATGCCTGAGCCAAGTTGTTCCCACACCTGA
GCCACGCTTCCTACCCACTTTYACCTACTGATTCTGCTCTGCCTCCAGGTCCCACCATTCTCCCTCCAAGAAGCCACCCACTCCTCCAAATGGATGGCTT
CCACCTGAACTGTCCTCAAAGTATGTCCCATGTTCCTCCCTGTGCTGCAGCCAGCTGCGCCTGCCTTTAGCTTTCCACAGGCCTGAGGACAACTCAAAGA
CTGGGTCTGTGCCTGCYTCCCCTGTCCCCCTAGCATCGGGCACACATCCTGGCTTGGCCTGAGTGGGACACCCTACCAACACTCTCTGAAAAGACCCAGG
ATGCACGGTGGGGTCTCTGTGACATCTAGACTCCAGGAGGAGAGCCAGCAAGAACAGGGTGGCCGAAGGAAAAGCTGGCCCTAAACGATATATTCATCCC
TCTCTTAATCCCAACAACCCTACGGGGAAGTTAAAGTTATTATTATTACCACTATTTTACAAGGAAAACTAGAGTTCAACTATGTTAGTTAACCTGCCCA
AATTCAAAGCTAGTAGCAGTGGTGCCTAAATTTGAGCCCAGTTCTTCCTTATTCCAGTGACATGCTCTTAACCACTATGATATGTTGATGAATTTTATAG
AAACGCTTTCTGGGACAAGGCAAGGGCATGAATAAATAAAAAGCGGGGAGGAGCGGCAGGATGAATTTAAGGATGTAAACTGACACCAGCTAGGTATGAA
CTGAGCARGTGTGTGGGCTGCATTATTTAACGTAAAAGATCAATAGCCCATTTTTTGTAGTCGCTCTGAGAAGAAGTAGCTTCTAATGCGTCCCCTTCAA
CCACTGCTCAAGAGAGTGGGAAAGGAGGGATGCAGAGGCAAATGACAAGGAGGGTGGGCAGGGCAGGCCACTGCTGAGAAAAGTCAGTGTAAGACCTGAC
CGAAGACACAGGCATGCGGTGGCTCACACCTGTAATGCCGGCACTTTGGGAGGTTGAGGCAGGCGGATTGCTTGAGCCCAGAAGTTCGAGACCAGCCTGG
GCAACATGGCAAAACTCCATCTCTACCAAAAATATAAAAATTAGCCGGGTGTGGTGGTACACACCTATAGTCCCAGCTATTCAGGAGGCTGAGGTGGGAG
GATCACCTGAGCCCTGAGGGGTCGAGGCTGTAGTGACCCAAGATCATGCCACAGCACTCCAGCCTGGGCGACAGAGTAAGACTCTGTCTCAAAAAGAGAG
GAAAGAAAGAGAAAGGGAATGGAGGAAGGGAGGGAGGAAAGAAAGAAGAGAAAGAAAAAAGGAAAGGAATGGAAAGGAAAGGAAAATGAAAGAAAGAAAA
GAAAAAAGAAAAGAAAAGAAATGAAAAGAGAAAAGGAAAGAACTGACCCAAAATGACAGCAAGATATTTTTGGAAGGTCTGCATAGGATTTCATAGTTAC
CCAAACCTCTGCCTCCTCCCTGCCATCCCAACTCCCAACAGTTCCCAGGGGCCTACCTACCAGAGTGTCTTAAAGCCCTCCAGCCTAGCTGGCTCTGGGT
TAAGGCTCTGCCTCCAGAAGGCTCATGGGGAAAGGACATGGGGTACAGGGTGGGTGTCAAGGCCTTTGCCTACAGCCCTGAGGCTGCACACACAGCAGCA
GAGCTGGGGCCTGGAGGCAGAGCTGGGACAGTGGGCGTCTGAAGCAGGAGTAGGGCCAGCCAGTGGCTAGAGGGCCTGGGGATCTCTTTGCAATTCTCCA
CCTCCCTGGGAGGGGGGCCAGAGGCAGATGAGAGTCCAAAGGTCAGATGGACACTTTGACTTCAGTGAGTCAACAGGGGAAGGGAGATTCCCTGGGGCCA
GTTCCCACCCCAAGCTCAAATGAGTGTGAGGTTTCCTGYTTCCTCTTCAACCCCAACCCCTAGGCACCTGAGCTGGGGGCCCATGGTGTAGCAGATGGTG
GCRGGCAGGAAGCCATTGAAGCTGGAGCTCATGGAGGACATGTAGGCACCCATGGAGGGGAAGACCAGCCAATCGCCTACATCCAGCTCGGGCAGCCGCA
CATCCTCCAAGAAGAGCCTGTCAAAGGCATCGCACATGGGACATAGAGGGTGCAGGGGAAGAGGGGYGGCTCTGAGCAGAACTCCTGTGTGACATAGGAA
AGGGGGTCAGAAAAGACAGCAGGCTGGCCTATCCCACCCCCTTATCTGGAAGGCACTGAAAGACCCGGAAGGACACTCCCAGGGGCACACGGGTGTATAC
TGGCTGGGACCCATCCCTCCATGGCCCCTGCCCAGCCTGGCCAGGTCTGATGTGCCTACAAGTAAGGGCTCAGATTCCTCCTCTGTAAGTGGGGCTGTTG
TCTTCAATAATTGCTATAAGGCAGCAGTTGAAAACTCAATTACCTAGAGGTCAAGCAGGTAACACAAATGAGTGAAATGGGCCAGGTAAGTCTTACAACA
AACTGGAAAGTCAATGTCTGTCCAAAGGGGAAAGCCACTGAGGAAGTCCCGTTCCAGCAGATCACAGTGCCTGACATGCTAGACTAATTTGTTGAATTAT
TTGTTGCCTTGTTGTTCTGCAGGCCACGTATCATCAGATCTCTCAAATGTTTGAGAGGAGCTGAGAAAATCCAGGCTTTTATGAAATATGTCTAGATTTT
TTAATATGGGCAACTAAAATTGAAAACTATTGTGGGAACCAAACAAACACAGGGTCTCCTACTGGTTCCTCCACATCCAGAACTCACTCCTTCCGATGAG
AAGAGAGGCAAATACACACACGAAGACACACACCCAGAAACACTTCACACACGTACACACTCGCACATGCATGCAAACACACGTCACATACATGACCAAA
TGTGYGCACACACCAAGACGTTCACTGGCCGGGAGAAACAGTCAAGATATTTACAAAGCAGTGTGGCCCGGACACCAACCCATCACATTAGGAGACAACT
GCYGCAGAGCTGGAGGAAGATCCTGTTGGCCCTACAGGGTCAGGTATTGAAGCTTTGTTGCCAGATCGTGGGAGGGACTGAGCAGCAAGAGTGTCGGCAG
GGAGGCCCCTGGTGGACTCGGGGGAATAGCTCTTTAACCACCAGGRAGAAGGAATGGCTCTTAAGCCACCAGGGAGAAGAACTTCAATATTTTGGAAAAC
AACCCACGCCTTTGTGTTCTGGTGATCGCCCCTTTGCCTGAGGAGGCCTACATATCCAGCTGCTGCACACGCTCTGATCTGTGAGCACACATCATGTACG
TGTCCACATGTGTTCTAAGCAGCAGGCCAGGACCTGCCTCTGGGGTCCAGCACAGCCACTGTTCCCARTAGGGGAGGCACAAGGCACCTCAAGGTAAGGG
ACTAGACTYGGGGCTGGAGTGGCCCCCTTACCTTCACCAYGATGGGAACCCTTGGGACAGGCTCTCGGTAGCAGAGGCGGAAGGAGCCATAGTGGCCATC
KTTGAGATAATACACCAGCTTCCGGCTGCCTCCTGGGGAGTGCTCAGTCACTACTCTGACCCCCAGCTCCTGGGACAGAGCCCAACCCTCTGCCCTTCCT
CTCCTCCAGGGCCTGGGGACACCTGGACAGKGGYATCCCCACCCAGTGCCATCCTGGCCCACCCACCGGGCTCCAGCACAGCCCTCTTGGCAATGATGTT
GACAGCGGCCATGCAGACAGACTCCACATAGAAGCAGCCAGGCTCTGCGATGACCTTGACACCACGCTCCTCAGGGAGGTCCTGGGCCAGGGCAGCACTG
ATCACTCTCGCCAACTGGAATGGGGTGGAGGGACAGCAGGAAGAGGTTAACTCATCCAGCACGTGTTGATGTGCCAGCGCYTGTGCCAACGCCTTACCTG
CATCAGTCCTTTCATCCCCGAGGCACCCTGCAGGTAGGCATTAGAATTATCCCTGTTTACCAAAGAGGAAACAGAAGTTGAGAGACAGGAGGTCACTTGT
GTGGGGTTGCTGGCCACCAGGCTCCCTGAGAAGTCCAAAGGTGCAGCAATTTAATCTGATGCACCGTAAGAAGGCGAGTGTCTTGTGGACCCRGGGAATG
TAAACTCCCAACTGTAACTGTAACTGTATTGGTGATGCTAACAAGAATTCTACATTCTACAGGAAAACATATACACATACAGACACACAGACACACAGAG
AGGCACAGCCCCCAGACACCTTGCTGCAGCTGCAGTGGACACCCTGTGCCACCTCCCCTCAGCCTACCTGAGCTCATCTGCCCGTGCAAAATGATTTCCA
GCCTCCAGYGCCTGCCTCCCTTTGCTTCTCATTCTGTGGGCTTTCTCCAGCACCCTCGGMAACTAGCTGGAATGTGAGGAAATTAACACCCCCAGACCAC
AGCCTTCAACCAAAGARGGACAGGAGTTGGTGAATAAAGGACCAGCCCCATGTCCTCTAGTGGGATGATTCTGAGGTTCTACATTGTCCCCAGGGGGACT
GGTGCAGCGGCCCACAGTGGTAACCAGCTCATAGATGAATTTTCTTTTGACTTTTCTCCCTTCTATCTCTCTTTCCTGACTTCCTCATTGGCGCTTCCAC
GGATCATCTCCAAAAAAACTACTTGTATCCAAGTGTTTGTCTCAGAGTCTGCTTTTGGGGGATATCAAAGCCAAGACATGCACATACACACATACCCACC
TGTGCACACAGAGCACAGAGATACACCAGAGAGACCTAAACACACAGAGRTACATGCATGAACACAGACTCCCCACACACACCCATGCCTGGGCACACAT
GCGGACCTCCCTGAACACCCCCAGCGCCCGTACCAGCTCACCTCCTCAAACTTGGGCCCGGAGCCCTCCATTCCGGGGAAGCCCCCTCCAATGTCCAGGC
AGCTCATATCATGCCCAGCCCTGTGGCCCATTTCCAACATGCACCGGCAGTCAGCGATAGCTTGTGTGAAGCTCTGGGGGGGTCTGGCAGTTGGAGCCCA
GGTGGAAGCTAGCAGAGCCAGTGCATGTGACATGGTGAGAGATATGTACTGAAACACATGTTCCAAACCACAAAGCCACACAGACTGTGGATAACCGCAA
CAGAGACAGAGAGGCACAGTCACACATAAGGCATGAAGCCAYTGGGGCCAAATGCAGAAACAAASAGCGGAAACATAACTGATTACACTGGCATAAGTGT
GTGCTTTCAGACAGCTGCACACTCAGGCCAACGAGGCACCTACGAAGGGGCACTCACCCTGAGTATTCACACGTACACACACTTAGACACACACTGCCAT
GGAGCCCTGCCAGATTGTATTGGTCCCTCTGCTTAAAACAGGGACCAAATCTGCATTGCTGGGTCCCCAGTGCCTAGGTTAAGACTTGGGCCGGGGCGTG
GTGACTCATGCCTGTAATCTCAACACTTCGGGAGGCCAAGGTGGGTGGATAGATTGAGCCCAGTAGTTGGAGACCAGCCTGGGCAACATGGCAAAACCCT
GTCTCTACAAAAAAATACAAAAATTAGCTGGCTGTGGTGGCACACGCCTGTGGTCCCAGCTACTTGGGAGACTGAGCAGGAGGATGGCTTGAGCCCAGGA
GGTTGGGGCTGCAGTGAGCTGTGATCATGCCACTTCACTCCAGCACTCCAGCCTGGGCAATAGATACCATGTCTCAAAAAAAAAAAAAAAAAAGCCTTGG
CACAGAATTCAGTAAATATTTGTAGGATAAATTAATAAATGGATGTCACAGCTAACATATGAGATCTGGGATTTAGATCAACTCCTATCTGACTTCACAC
CCTGTAGGTATCCTGAACAGAAACNNNNNNNNNNNNNNNNNNNNCAGCACTGCCACGTGGGCTGCCCTTCCCCTCATGGACACTTCACAACAAGACACCA
AACCCCAGGGCCTCAGAGCAGGGAGGCCCTGAGTAACCTTCACATCATATCCTGCCCCTTTAGACAGATGGGGTCTCACAGGCCCAGAGAGGGGCCACAG
CTTGCCATGGGCCCCAACTGATTACACTTATGCCAGTGTAGTCAGTTATATTTCCAGCTGTTTGTTTCTGCATTTGGCCCCAGTGGTTTCGTGCCTTATG
TGTGACTGTGTCTCGCTGTCTCTGTCGCAGTTATCCACAGCAAGGGAAGGACCAGAACCCAGGGCTCCTGGAGTCCTCAGGCGTCACTCACCTGGCTCCG
ACCACGGCCAACCCCAGGTCTCTGGCAGACGTGAGCAGGTGCCCACAGGCTTCCAGGCTGGCCCCGAACTTGGTGCTCAGAGGGAAGGTGCTCTGACTGT
CCTGGGTCCTCAGCCGGAGGAGCAGTCCGGAGGAGGGACACCAAGGATAGGGAGGAGGCAGAGAGCACTTAGCCAGAGATGCCAAAGAGCCCAGGGCTTC
TTATACCACCCCCACCCAGGCCCAGCTGATCCCCGCATCTGGGAGGTTTTCCAATGCCACCAAATCCATGCGGCCATCACACCAGCCCAACACACGTGTG
TATACATCTACTCTTCCCCAGGTACAACCAGAGAAGGGAGGGTAGAAAAATGATAGTATTGGTAAGCACCTACTATGTGCCAGACAACATGCCCCCAAGT
TGTAAATGAAGGAACCGAGTGTTAAAAATGTTAAAAGAGACTTGCCCAGGCGGGGCACGATGGCTCAAGCCTGTAATTCCAGAACATTTGGAGGCTGAGG
CGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATAGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCAGATGTGGTGGC
AGGAGCCTGTAATCCCAGCTACTCCGGAGGCAGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGTGGTGACCTGAGATTGCACCACGCACTCC
AGTCTGAGCAACAAGAGAAAAACTCTGTCTCAAAAAAAAGAGACTTGGCTGGGCACGGTGGCTCACACCTGTAATCCCAGTACTTTGGGAGGCCAAGGCA
GGCGGATCACAAGGTTAGGAGTTCAAGACTAGCCTGACTAACATGGTGAAGCCCTGTCTCTACTAAATATACAAAAATTAGCCAGGCATGGTGGCACGCG
CCAGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACACGGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCC
CGGGCAACAGAGAGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAACAAAAAACTTGCCCAATGCATACATCAGGTAAGCAACAATGCCAGAATT
TGAACCTGGGCTGTCTCACTCCAAAGGCAGCTGCCAGACCCTTTTAAAATGGCTGGGCCTTGAGGGTCCTCCCCTTCACTTGTCTCAGATCAGCATTTGT
CAGGGGTGTGCTGTGTTGGGTGATTCGTTCTTTACTGCTGACCCTCACCCTAGCTGCCTGCATCCCTGCTGGACTCACCTGGCCCTGGGGTGGTGCTGGG
CCACCTTGGTGAGCTCCTCCTCGCTGTCAAAGGTCAGGAGCTGCACCCCGTGCTGGGCAGCATACCGGATGTGGGAGGCAGGTTTGCAGGGGTTGGCATA
GACGATGCGCGAGGGGGCCACACCCAGGCCCAGCACCTGCTCCAGTTCCACCTGGGGTGGCCAAGAGCCAGGGTTGGGGGCTGCATCACTGCCCCCACCC
CAGCTATGTGGGGACAGAAACACTGTGCATGAGCCAAAGAGGCTGCCCTGATGAAACCCCGGGTTGGGTCTCACCCCCTGCTCCCTCACTTCCAGGCAGG
AGCCCTGCGTGGGGCTGACGGGGTGCTCATTATGGAGTCCCTGCAGGGCAGGGAAGGGCAGGGCAGGGCTCATAGTCTCAATGTGCCGGGCACTCCAGGT
GCTCATAGTCTCAGTTTAGAACCAACCCCCCTCCCATCAATTTCAGCCCCATAGAGAGGAGATGGGCTGGCTTCCTAGAGGCAGCGGGTGCACTTAATCC
TGCTTAGTGGAGGGCTCCTCAGAAAGGGAGGAAGGGCTGGTCCGAAGGCAGTGAGTTATCTCAATTGACTGTTAACAGTCAGTTACAGATGAACTCCTTG
TTCTACTCTTCTTTCCCACTTCTCACTACTACACTTGACTAGTCTTAAAAAGAAAGGAAGGAAGGACAGAGGCTCAGCAAAATACTCCCATCCTGAGTTC
TCCCCCTTCCCACCCTTGGGCTTCGGCTCTAACCTCCCTCAACATTGCTGAATCCCCTTCTGCTAAGAACCCCTTGGAATGTTTCACCCCTGGCGTAAGA
AAAAAATGCCAACTTTGGATCGGTCATCTCTGTCTCTTACCATATGTTGGCCCATGGGCAAGTGATCCCCCTAAGGCTGTCTCCTCCTCTATGAATGTGG
ATCCCCTGACTACCTTGCAGAGCCGATGGGAGGATCAAGGAGAATGCATGTTAGGCCCCCTGCAGTGTGCTTAGCATATTTCAAGTGCTCTGCGGGACAG
GGGACGCTTATTCATGACCTCAGCAGCAGCAGCATGGGATTCACCCCCTTCCAGCTGGCCTGGCCTAATCCTCGGTGGGCACAGGCTTACCTGGCTGGCA
CAGTCAAAGCCGGTGCCCAGGGCGGCCAGGACACGCAGCACCCAAGGGCTACTGTTGCACTTCACTGCATAGAAGGGCGAGACCTGTGGCAGGGCTTGGC
AGAAGGCCTGATGGCAGCTGGCCAGTATGTCCAGGTCAGCCAGTATGAAGGGGTCTTGCTGGTCCTACGGGGCAGGGAGACAGGGAGGAAAGGCTGAGGG
GCTGGATTATCTCACTTAATCCTCATAACAGCTCTATGAAGTAAAGGCTGCTGTTATCCCCATTTTGCAGATGGGGAAGCAAAGGCTCAAAAAGGTGGTC
ACTGGCTCAAAGTCCTATAGCAAAAGCATGGCAAAGACAGGGTCTGAACCCAGGTCTCCTAAGCCTAGGGAGACCGCCCTTGACACTGTTCCATTCTGCC
TTGCCACGGTCCTGGGTAGGAGAGAGGAGCCTGCTGGGCTGGGGCAGCTCCAGGCTATTTGTTCTACAGTCATTCAACAGGGTTATCCAGCACCTACTCT
GTGCCAGGCTCTAGTCTGGGTACTGGGGAAAGAGCAGTGAAGAAAACAGATCAAAAATCCTCGTCTTTGTGGAGCTTCCATCCAACTGAGCCACAGAGAA
AAAGGCATGGACTCAGGCAGCATGAGCTGATTAATCAACTGTCATGAGCCACACACTGTGCTGGGGGAAGGGATGGAGATACTATATAAATCATTCCCAT
TGCACAGATGCAGTCACTGAGGTGCAGAGGGCTGGAGTGCCTCACCCAAGTTCTTACTGCTGGACAGCAGCACAGTTGACATTCAATCCCAAAAGGAAAT
GGCTTCAGGAACACCTGTAGGCCAGGATATTTTCGAGATATCTATTTTTTTCTTCTAATTTTCTCTCTTCTTCTCCCCCTTATTGATGCCAGTGTCTGGC
TCTATAATGTCCCTGGGGAGAGATGTGGCCAGGCAGGAGGCAGATGTGGCCAGGCAGGAGGCGGCCTTCTTAGGGAAGCTTAGCCCTTGGGAGAAGAGGA
TGCCAGGGTACAAGAAGAATGTCATGGTGACACCGATAGAAGGCCCTCCCTGACCAGGAAGAGGGTCCCCTGACTGGCGGGGATGGGGTGGTGAAGATGG
TAAGAGAGCTGAGACTTTGTGCCCTAAGGGAATCTGAGGGGTGGTAGGATGGAGCCCCTGGAAGCCAGTGGGGAAATGGTAAGTCACCGGGTGAGTCTAG
AGCAGGCCTTCCCAGCCTTCATGTGCAGGCAAATCCCCCAGGATCCTGTCAACTGTGTGCTCCATGCAGTCAGTCTAGGGTGGACAAAGAGTCTGCACTG
CCAACAGGTTCTCCAGTGATGGTGACAATCAGGTCCAGACGAGAATATGTCCAGAGGCAGCACAGCCCTAAAAACCCAGGGAGCCAGGGAAGCCAGGAGG
ACAAGCAGGCAATCATCTTTGTAGACCAAAGCTGGAGGACCCCACAGCTTGGCACTGGGTAAAACCCCCAGTGGTGGAAGCAGGCAGGGCAGGAAGAACA
AAAGTCATGCTTTCCCATTAGCCCCAGAACAAGAGAGCCTTGAGAGAGACGGCCTAATGGCGTTACAGAACGGTGAAACAGAAAGCCTTATTTCTTGCCA
CTAAGGAAGACCTGAGGCTCACAACTCCCCGTCTCTCACCTCCCTCCATACTCAGTCAGAAAGCTCCTGGATCCTCCACAGGACCATCTGCTGGGCAGAT
TCTTCTGGCCCCAGGGCGATGAGCTTCTTTGGCCATGGCCTTCCATGGGCTTCCTTCAGGCCCCCGAGGCAGGTGCTCATCCCTGAAACTCCAACTGAGC
CCTCTACCGGGCATGGTCCTGGCATCCTGGAAAAGACTTGCTCTCATGACCCAGCCTCCTCCCAGCCCCCAGCTCCCCACTCCCCACAGGCCCTGGGAGC
CAGAGCTCCCAAATAAGTCTTTTGTGTGTTTTTGTTTGTTTGTTTTGTTTTTAAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAAT
CTCGGCTCGCTGCAACCTCCACCTCCCAGGTTCAAGCAATTCTTCTGCCTCAGCCTCCCTAGTAGCTGGGACTACAGGCACCTGCCACCGCACCTGGCTA
GTTTTTGTATTTTTAGTAGGCACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCCAACTCCTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAATG
CTGGGATTACAGGCATGAGCCACTGTGCCCAGCCTGGAGGCCAGTATTCTAAGTGAGGTAACACAGGAGTGGAAAACCCAAAACCGTATGTTCTCACTTA
CTAGTGGGAGCTAAGCTATGAATATACAAAGACAAACAGAGTAATATAATGGATTTCAAAGACTCAGAAGGGGGAGGCTGGAGGGGTGCTAGAGATTAAA
AAAAACTACACATTAGGTACAATTAACCCTACTCAGATGATGGGTGCACTAAAGCCTCAGAATTCACCACTGTATAATTCATCCATGTAACAAAAAACAA
AAACAAAACAAAACAAAACAAAAAAACACTTGTACACCAAAAGCTAATTTTTTTTTAAAAAAAGCAGCAATATGGAGTCAGCTGTGTTAGATTTCTCTCA
GTGTTTTAATTTTGCAAAGGCAGTTTCAGGAGTCAGATCTCCGGTGTTCCTGGGCTTCAGGTAGATCCCTATGGGAAGAGCAGAGTCCAGCCCAGATCTT
AAGGGATAGGGGAAGTACTTCCTAGCTGTCCCCTCTAAACCTCGGCCACCCTGGACTGCTCAGCCCAAATCTCCCAGCCAGAAAAATGTACCTTCCTAGG
TCTGCCCGCAGGACAGGTGCACAGAGAGGAGTCCGACCCCTGTTATAAGCGAATGCCGGCAATGATGAGAAGTGGAGGGAACCTAGAAACTTCCCATCCA
CTCTTTCCGCTCTGCAGATGGAAAGCCGTGGGGCCCAGAGATCTCCAGATCATTCAGCAAACCAGGAGTGAAACTGGGAGTAGGACCAAGGCCTCAGACT
CCAACAGGGAGCTGGTTCCACCGCCTCAGAGACCAGTTGCTGTCTCCTGGGGTCGTGTCTCTTGCCCTCCACTGCAGATTTAAGCATCTCACTGGAAGTG
TCTTCGAATGGAAGTGGGAGCCTGTGTGCGTCACTCAGGGTCTAGTCATCTCCCCACCCTCTCCCCTCCCTCCCTCTCCACGTGGACTGCTGAGGTCTCA
CCTGAGCTCTTCTGGCCCTCCCAGGCTGAAGCCACCACCTTGGGGCAGCCCCACTGCAGGGATCAGCTGTAATCTCCTGCAGGCTTACACCCCACCTCTG
TGCTGTGACCCAGAACCTCCTCTGCCTGTTCCAGTGAAGGACAATCAACAGGGAGTGGGCTGCTCTCCAGGTTTTTGTCTGCCAGCCATGCCCAGGGCAG
GAGGTGGGGAGGAGGGCAGAGATGACAGGGCTGTGAACCCCAAATATCTGAGACAGATCTCAGTCAATGTAGAAAGTTTATTTTGTCAAGCTTAAGGATG
CACCCATCACACAGCCTCAGGAGGTCCTGACATGTGCCTAAGGTGGTCGGGGTACAGCTTGCTTTGATTCATAGGGAGCCAGGAGACATCAATCAATATG
TGTAAGATGTACATTGGTTCAGTCTGGCAATGTGGGACAGCTTGAAGGCGGCAGGGGTGCTTCCAGGTCATAAGAGACAAAAGGTTGATAAGAGATGAAA
GATTGCATTGAGTCCTTGATCAGCCTTCCACTGAATACACAATTTAATCTGACTCAGTGAATCTGCATTTTTACGTAAACAATAGGGCAGAGGAAACAAT
CAGATATGCATTTGTCTCAGGTGAGCAGAAGGATGACTTTCTGTCTGCACCTCTGAAGATCAGCTATTAGTTTACATTGCCAGGGTGAAATTCAACAGAA
CTGTTTTAGGATAAAGACCTTGAGGCCCACAACGAATTTTCTTGTGGGCAGTTTGTGAGGGAGGTATGTAGCTATCTTATTTAGGAATAAAATGGGAGGT
GGGTTTGCCTGACATAGTTCCCAGCCTGATTTTTCCCTTGGCTTAGTGATTTGGGGATCCCGAGGCTTTATTTTCCTTTCAAAGGGCCCAAGTCTTCTTC
TGCCTGGGGCAGCAGAGATAGGGGTCTTTCCCCAGAAACGAACCTGTTCTGAGACCTTGGACCAGCTGTTCTTCCTTTCTCCCGGCCTGCCTCTCGCTCA
CTGGCCCTCTATGGCCCTTTCTCCTTGGTATAGCAGAGGGCTTAATCCCAAGGGCTCGACATCAGCCTTGTTTACCACTTACCAAGCCTGGTGTGCCACT
CGCAATGAATTTGCGACAGGCAAGTTAGTTGACTGCTCTGAACCTCAGTTTTTTCATCTGGAAAATGGGGCCTTAAGGCCAGTTATGAAGATTAAGATAT
AAAAAGAAAATATATACAAACTGCCTCACTCTCACCGCTGCTGTTTGTGTCTGTGTTTCTATCCATAGGAACTTTCCCTGCCAGATTGTATTGGTCCCTC
TGCTTAAAACAGGGACCAAATCTGCATTGCTGGGTCCCCAGTGCCTAGGTTAAGACTTGGGCCGGGGCGTGGTGACTCATGCCTGTAATCTCAACACTTC
GGGAGGCCAAGGTGGGTGGATAGATTGAGCCCAGTAGTTGGAGACCAGCCTGGGCAACATGGCAAAACCCTGTCTCTACAAAAAAATACAAAAATTAGCT
GGCTGTGGTGGCACACGCCTGTGGTCCCAGCTACTTGGGAGACTGAGCAGGAGGATGGCTTGAGCCCAGGAGGTTGGGGCTGCAGTGAGCTGTGATCATG
CCACTTCACTCCAGCACTCCAGCCTGGGCAATAGATACCATGTCTCAAAAAAAAAAAAAAAAAAAGCCTTGGCACAGAATTCAGTAAATATTTGTAGGAT
AAATTAATAAATGGATGTCACAGCTAACATATGAGATCTGGGATTTAGATCAACTCCTATCTGACTTCACACCCTGTAGGTATCCTGAACAGAAACATCA
ATGGGGCAGAATTGAGGGCCCAGAAGCAGAGCTGATAGCAAAAACTGGAACATATCACCAATCACCAAAGAAGGTGAAGGGGACAGAGAAGTGGTGCTGG
GACAATAGGTAAACAGTTTGGAAAGTAAAGTCTGTTTGGAACCTCACTTCTCAATAGAATAAAAGTGAAATGGTTTAAAAAGTTAAATAAATAAATATAT
ATATGATCATATGATTCCATTTATATAAAATATCCAGAATATACAAGTCCACAGAGACAGAGAGTAGATTTGTGGTTGCCTATGACTGGGGAAAGGGGAG
AGAGGAATGGGGAGGGCCTGCTAGTGGGGACAGGGTTTCCTTCTGCGGTGGTGAAAATATTCTGCAATTAGATAGAGATGATGGCTGCTCGACTTGGCAA
ACATGCTAAAAACCACTGAATTGTATGCTTTGAGAGGTCAAATTTTATGGTATATGAATCATATCTCAACAAAGTTGTTTAAAAAAACAGATTGTGTGCT
CGCTTCGRCAGCACATACACTAAAATTGGAACGATACAGAGAAGATTATCATGGCCCCTGCACAGGGATGACAYGCAAATTCGTGAAGCGTTCCATATTT
TTAATGATCAAGTGGGCTTCATCCCTCGGATGCAAGGCTGGTTCAACATATGCAAATCAATAAAAGTAATCCAGCATATAAACAGAACCAAAGACAAAAA
CCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAGCCTTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATGGGACATAT
CTCAAAATAATAAGAGCTATTTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAGCACTCCCTTTGAAAACTGGCACAAGACAGG
GAYGCCCTCTCTCACCACTCYTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATCGGGCAGGAGGAAGAAATAAAGGRTWTTCATTAGGAAAAGAG
GGAGTCAAATTGTCCCTGTTTGCACATGACATGATTGTATATTTAGAAAACTCCATCGTCTCAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCA
AAGTCTCAGGATACAAAATCAATGTGCAAAAATCACAAGCATTCTTATACACCAATAACAGACAAACAGAGAGCCAAATCATGAGTGAACTCCCATTTAC
AATTGCTTCAAAGAGAATAAAATACCTTGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACAACTGCTCAATGAAATAAAA
GAGGATACAAACAAATGGAAGAACATTCCATGTTCATGGATAGGAAAAATCAATATCGTGAAAATGGCCATACTGCCCAAGGTAATTTATAGATTCAATG
CCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAATTGGAAAAAACTACTTTAAAGTTCACATGGAACCAAAAAAGAGCCTGCATTGCCAAGACAAT
CCTAAGCCAAAAGAACAAAGCTGGAGGCATCACGCTACCTGACTTCAAACTATACTACAAGGCTACAGTAACCAAAATAGCATGGTACTGGTACCAAAAC
AGAGATATAGACCAATGGAACAGAACAGAGTCCTCAGAAATAATACCACACATCTACAACCATCTGATCTTTGACAAACCTGACAAAAACAAGAAATGGG
GAAAGGATTTCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACTAAAATTAA
TTCAAGATGGATTAAAGACTTAAATGTTAGACCTAAAACCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGCAAGGAC
TTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGMCAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTACACAGCAAAAGAAACTACCA
TCAGAATGAACAGGCAACCTACAGAATGGGAGAAAATTTTTGCAATCTACTCGTCTGAAAAAGGGCTAATATCCAGAATCTACAAAGAACTCGAACAAAT
TTACAAGAAAAAAACAAACAACCCCATCAACAAGTGGGCAAAGGATATGAACAGATACTTCTCAAAAGAAGACATTTATGCAGGCAACAGACACATGAAA
AAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGTGATCATTAAAAAGTCAGGAA
ACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGGGGGACTGTAAACTAGTTCAACCATTGTAGAAGACAGTGTGGCAATT
CCTCAAGGATCTAGAACTAGAAATATGGTTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGTATTATAAATCATGCTGCTATAAAGACACATGC
ACACGTATGTTTATTGTGGCACTATTCACAACAGCAAAGACTTGGAACCAACCTAAATGTCCATCAATGATAGACTGGATTAAGAAAATGTGGCACATAT
ACACCATGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAGCTGGAAACCATCATTCTCAGCAAACTATTGCA
AAGACGAAAAACCAAGCACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAGCACTTGGACACAGGGTGGGGAACATCACACACCGGAGCCTG
TTGTGTGGTGGGCGGAGTGGGGAGGGATAGCATTAGGAGATATACCTAATGTAAATGACGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATGCA
TATGTAACAAACCTGCACGTTATGCACATGTACCCTAGAACTTAAAGTATAATAATAAAAAAATTAAATTAAAAAAACCAAAACACAACAAAACAAAAAA
CAGATTGCACAATCTCTGCATCCATCCAGGGGGGTCCAGGATCACCAGTTATTCTCTTATTAAAAAAGTTAAATATATATATATAATATATAATATATGT
ATTATATATATAAAAAATATATAATATATGTATTATATATAAAAATATATAACATATAATATATAATACATGTATTATATATTATATATAAAAATATATA
ATATATAATACATGTATTATATATTATATATAAAAATATATAATATATAATACATGTATTATATATTATATATAAAAATATATAATATATAATACATGTA
TTATATATTATATATAAAAATATATAATATATAATACATGTATTATATATAATATATATAAAATATATTATATATACATGTATTATATATAATATATATA
AAATATATTATATATACATGTATTATATATAATATATATAAAATATATATATTATATATAATATATATAAAATATATATATTATATATATTATATAATAT
ATATAATATATATTATATATAATATATATAATATATATATAATATATATATTATATATAATATATATAATATATATAATATATATATTATATATAATATA
TATAATATATATATTATATATATATAATATATATATTATATATATATATATATTTTTTGAGACAGAGTCTCANNNNNNNNNNNNNNNNNNNNTATAATAT
ATAATACATGTGTTATATATTATATATAAGAATATATAATATATAATACATGTATTATATATTATATATAAAATATATAATATATACATGTATTATATAT
AATATATATAAGATATATTATATACCCATGTATTATATATAATATATATAAAATATATTATATATACATGTATTAGATATAATGTATATACAATATATAT
ATTATATATAATATATATATTATATATAGATATATATTTTTTGAGACAGAGTCTCACTCAGTCTCCCAGGCTGGAGTGCAATGGCATGATCTCGGCTCAC
TGCAATCTATGCCTCTTGAGTTCAAGCGATTCTCATGTCTCAGCCTCCTGAGTACCTGGGATTACAGGGACCCGCCACCACATCCATCTAATTTTTTGTA
TTTTAGTAGAGACAGGGTTTCACCATGTTGCCCAGGCTGATCTCGAACTCCTGAGCTCAGACAATCCACCTGCCTTGGTCTCCCAAAGTGTTAGGATTAC
AGGCCTCCCAAAGTGCTGGGATTTAAAAAATCAGCCAGGTGCAGTGGCACATGCCTGTAATCCCAGCACCTTGGGAGGCCGAGGAGGGCAGATCACTTGA
GGCCAGGAGTTTGAGACCAACCTGGCCAACATGGCAAAATCCTGTCTCTACTAAAAATACAAAAAAATTAGCCAGGCGTGGTGGCGCACACCTGTAGTCC
CAGCTACTTGAGGAGCTAAGGCAGGAGAATCGCTTGAACCCAGGGAACAGAGGTTGCAGTGAGCAGAGATCATGCCACTGCACTCCAGCCTGGGTGACAG
AGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAGAGAGAGAGAATTGACTAAAGTATCTTTAAAAGAATTACTTTCTAAGCTTGGATGTGACACAAGAGA
TCACACTTGTGAAAGATCATCAGGTTTGGTGGCACCTGATTTATAATTTGTGTATATTCATAAATATAAAACTCAGCTCTTCCTGGGAGTTAGGACACCT
GGGGATTAACTAAAAGGATATTGTGGCCTGAATAAGCCACTCAGGTTTCAGTTCCCTTGACTATAAAACCTTAATAAGTTATTTAATGCAGAGATTGTGT
TCTTCTTCTGAATCCCAGCTTCTAATAAAATTATGTCACCTTTCCTGATCCTCCATTTCCTCATCTGAAAAATGGAATTAATATGTTAGTGTTTGATACC
AGCATTGTTTTGAGGATTAAATGAGATAATCTAAGTAAAGATCTTAGTTTAAACCGTGTTAATTGAAATCCCTGGGGTTAGAGGACTGTTCCTGGCCTCA
TCTGCCTGATACACATGTTAGCAGAAAGTTCTTAGCAAATGGCTCTGACAGCTCTATCTTTCTCAGAGGGCTGTGACCGGCTTGTGCAGAGCTCTGGTGG
GTAAATAGTTTTCAGCTCATTCTGCCTGATTATATCCTCATTTCTTCTGGAACATCACTACAAACAAAGCAACAAGTTTGATCCTATGAACTAAGCATGG
AGTTGGAATTCAAGGGTGACTAGCCAACAATGGGGGTTAGACCCTTTAGGCCCTGGGATGGCCATGTGAATAAAGTAAAAAATACTTCAGTTTTTCTTTA
ACTATGCTATTAAAGGTCTTCTTTATGTGCAATATCTGAAGCTTCACCTTAAGGGAGATATTTCACAAAAATAAGATGCCAATGTTATTTTGCCTTAAAT
GTATAAAAACTATCATCTGTTTTGTAGCAAGGATCAGAAGAAAAATAAACCAGGTCCAACGTTTCTATGACTCCCATGTTGGATTAATGAATATGGAATC
TTTATAAATTATGCATTGCATAATTTCACTATTTCTTATCATCCTCATAACAATCCCATGAAGCACTAATCATCATCTCCATTTTACAGATGAAAAATCA
GAGGCTTACAGATGTTTAAAATGAAGAATTTCCATGGTTGTCAGTAAGTGGCAGAGCCAGGATTCAAACATGGGTCTGTCTGATTCCAGACCCCAGGCTT
CTTCCACCAGTGCTTAACTCATTGAATAGTATTCACAACTGTTGGGAACAGGCCCCCCAAAATCTGGCCATAAACTGGCCCCAAAACTGGCCATGAACAA
AATCTCTGCAGCACTGTGACTTGTTCATGATGGCCATGATGCCCACGCTGGAAGGTTGTGGGTTTACCAGAATGAGGGCAAGGAACACCTGGCCCACCCA


SNP Information

Context             (SEQ ID NO:67447):
AAGAACTTGGGCAAAGGTGCTGTGGCCACAGATGTTTCCAGCCAAAAAATTGACACCCCAAAGATCCCATAACACTAGGGCGCTTGGACTTTATCCTGCA
Y
ATATGGGCTGCCGCAAATGGGATTACACAGTGGGCATCAGGCTCAGGAGAGCACATTGGAAGGGACTCTGTGGTGGCCAAGTGTGGTGGCAAATGCCTGT
Celera SNP ID:            hCV7482380
SNP Position:             18176
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67448):
CGTGAGGAGATATTGGCATGACAGGAGAGCCTCTCGCATTCTGAAAGGAAATAGAGGAATTTTTGCATCCTCACTGACAAACCAAATGACAGAACTTCAT
R
TAGGAGTGAAAAATAGAACAAGGGCACTTAAAAATTCCAATTTGATTCCCCTATGCCCTATAATTCCAAGCAAAGGGGACCTGTCCTCTTCAAATCCATC
Celera SNP ID:            hCV11343501
SNP Position:             5868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67449):
AGCCTCTCTTTCAGGAAGTGATCATAAAAGCATCCCCTTCCACCTCACAGGTGCTGAGAATGTAAGAGAAGAAGGTCAGCTCTCCCTCTGCCGGTGGGAC
R
AAGGGCCCAGTGGTGGCCTGCAGGCTCAGGGGTGTCTGCTCCCGCTGCCTGGCCTCTATCTGCTCCTGGCACCTGCTCCCATCTCAGAGCGGGGTTGGGG
Celera SNP ID:            hCV11343502
SNP Position:             17384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67450):
CCAGTCCCATGGACTGGAGTGGGGACTCATGGTGCCTCTTCCAGCCCACCCATGGCTGCCCGTGGACCAATTGGCATGGACTTCCTCCCTGATAAAAGGT
S
CATAAAAGCCCTAGGCTCAGCCAGAGCAGATCAGAGGATGGCCAGAGGATGAGGAGAGCAGAGAGACAATGGCACAACCAGCTGCAGAGAGGAGTACTCT
Celera SNP ID:            hCV11343503
SNP Position:             17706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67451):
ACCCATGGCTGCCCGTGGACCAATTGGCATGGACTTCCTCCCTGATAAAAGGTCCATAAAAGCCCTAGGCTCAGCCAGAGCAGATCAGAGGATGGCCAGA
R
GATGAGGAGAGCAGAGAGACAATGGCACAACCAGCTGCAGAGAGGAGTACTCTCTGCTGATAGCTGGAGATGATGGGATGACTAGCAGCAGAGAGGAGCT
Celera SNP ID:            hCV11343504
SNP Position:             17753
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67452):
GAGGCAAATACACACACGAAGACACACACCCAGAAACACTTCACACACGTACACACTCGCACATGCATGCAAACACACGTCACATACATGACCAAATGTG
Y
GCACACACCAAGACGTTCACTGGCCGGGAGAAACAGTCAAGATATTTACAAAGCAGTGTGGCCCGGACACCAACCCATCACATTAGGAGACAACTGCTGC
Celera SNP ID:            hCV11343505
SNP Position:             23405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67453):
CCAACCACCTCACACATTTCAGCTGTTAATGGTGATGATGATGTCAGAGCTGGGAGGGCTGGAGAGATGCCCCAAACCTGGGGTTCAGGTGTAGCCTGTT
R
AGGCTCCCTTGAGAATCTAATGAAAGCAGATGACCCTCTGTTCTGCAGGCAGCCTCAAGACAGTGTTTTGCACGTTAAGACCCTCCTAGGTGCTCTAACA
Celera SNP ID:            hCV16138038
SNP Position:             8697
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:67454):
TGTGCACACACCAAGACGTTCACTGGCCGGGAGAAACAGTCAAGATATTTACAAAGCAGTGTGGCCCGGACACCAACCCATCACATTAGGAGACAACTGC
Y
GCAGAGCTGGAGGAAGATCCTGTTGGCCCTACAGGGTCAGGTATTGAAGCTTTGTTGCCAGATCGTGGGAGGGACTGAGCAGCAAGAGTGTCGGCAGGGA
Celera SNP ID:            hCV11343507
SNP Position:             23503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67455):
CAGCTGTAGCATGTATGTAAGAGTAGTCTTCTGATGACTATTTGTCCAACACATTATTTCCCTATTTCTGATCAACTGAGGAAGGGCTTTCTATTTTAAA
W
TTTTTCTTTTTTTTTTTTTGAGACAGAGTTTCATTCTTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTT
Celera SNP ID:            hCV451363
SNP Position:             5285
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67456):
ATTGAAGCTTTGTTGCCAGATCGTGGGAGGGACTGAGCAGCAAGAGTGTCGGCAGGGAGGCCCCTGGTGGACTCGGGGGAATAGCTCTTTAACCACCAGG
R
AGAAGGAATGGCTCTTAAGCCACCAGGGAGAAGAACTTCAATATTTTGGAAAACAACCCACGCCTTTGTGTTCTGGTGATCGCCCCTTTGCCTGAGGAGG
Celera SNP ID:            hCV11343508
SNP Position:             23646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67457):
TTCCCACTCCATCTCCCTTCTGGCTCCCCCATCTGCTGAGAGCTACTTCCACTCAATAAAAACTTGCACTCGGTCCCTAAGCCCACGTGTGATCTGATTC
Y
TCCAGTACACCAAGGCAAAAACCCTGGGATACAGAAAGCCCTCTGTCCTTGTGATAAGGCAGAGGATCTAATCGAGCTGATTAACACAAGCTGCCTACAG
Celera SNP ID:            hCV28009698
SNP Position:             14007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67458):
CACGCTCTGATCTGTGAGCACACATCATGTACGTGTCCACATGTGTTCTAAGCAGCAGGCCAGGACCTGCCTCTGGGGTCCAGCACAGCCACTGTTCCCA
R
TAGGGGAGGCACAAGGCACCTCAAGGTAAGGGACTAGACTCGGGGCTGGAGTGGCCCCCTTACCTTCACCACGATGGGAACCCTTGGGACAGGCTCTCGG
Celera SNP ID:            hCV11343509
SNP Position:             23868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67459):
TCCTGGGGAGTGCTCAGTCACTACTCTGACCCCCAGCTCCTGGGACAGAGCCCAACCCTCTGCCCTTCCTCTCCTCCAGGGCCTGGGGACACCTGGACAG
K
GGCATCCCCACCCAGTGCCATCCTGGCCCACCCACCGGGCTCCAGCACAGCCCTCTTGGCAATGATGTTGACAGCGGCCATGCAGACAGACTCCACATAG
Celera SNP ID:            hCV28009699
SNP Position:             24131
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67460):
CTGTCCAGATTCAGACTAGGCCCTTCCACCACAGCAGTCCCCACAGCTGGGTGGAAGCCTGGAGGTCAGGAAGGAGGAGCGCTAGTTGCTTTCAACACTT
Y
AATGGTGAAATCATGCAGAGAAGCACTTCTCATGTTAATCCATCTCACACACATTCCAAGAGCACCTACTATGTGTAAGGCACACAGTGGGACAAGCAGA
Celera SNP ID:            hCV439828
SNP Position:             9222
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,4)      total(C,1|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:67461):
TTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGCGAAACCCCATCTCTAATAAAAATACAAAAAAAAAAAAAATTACCTGGGCGTGGTGCCTTGC
R
CCTGTTGTCCCAGCTACTTGGGAGGCAAAGACACGAGAATCAGTTGAACCTGGGCAGAGGTTGGGGTAAGCCAAGATTGCATCACCATACTGCAGCCTGG
Celera SNP ID:            hCV16002780
SNP Position:             15487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67462):
GGAACTATTGAGATAAATGCTAGAAGAAATGCCTAACAGAATTCGAAGTATTGGCCTTGGAGGTCAGGAGTCCGGGAGTTGGGAGCTGAGGAGACACACT
Y
GTGAGTCCATTTGTGATAAACTTCAACTGTGTCATGCATCCTTTAAATTTGAAATTTTTGAAAAGTTAAAGGTTAAAACAAATCAAAAGGGCCTTGCAGA
Celera SNP ID:            hCV497172
SNP Position:             7479
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67463):
CCGAAAGGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAGAAAGGAGGAAGGAAGGAAGGAAAAGAAAGAAAGAGAGACAGAAA
R
AAAGAAAGAAAAGAGTGAGTTTGAAATATTGTAAAAATTACCAAAACATGACACAGAGACACAAAGTGAGCACATGCTTTAGGGAAAAAGGTGTCAGTAC
Celera SNP ID:            hCV16002781
SNP Position:             15703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67464):
CTTCCATCTGGAAAGAGTTCACATTTCCCAAAGCCTGCTCACACCCCTAAGTATCGTACCCATAATCCGTGCTTCTTATATCCTGAGTGTTTGGGCATAA
S
CAAGACCATTTTGCAGGCGGGAAATTTGATGTTCTGGGATGCCCTCATGAGATGCACCTGACTGGATGGGCTGTTGAGCTCCTCTAGCTTCTCTGAGTGG
Celera SNP ID:            hCV27909122
SNP Position:             20032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67465):
ACTAGACTCGGGGCTGGAGTGGCCCCCTTACCTTCACCACGATGGGAACCCTTGGGACAGGCTCTCGGTAGCAGAGGCGGAAGGAGCCATAGTGGCCATC
K
TTGAGATAATACACCAGCTTCCGGCTGCCTCCTGGGGAGTGCTCAGTCACTACTCTGACCCCCAGCTCCTGGGACAGAGCCCAACCCTCTGCCCTTCCTC
Celera SNP ID:            hCV27909123
SNP Position:             24001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67466):
AGGCCTATGAACTAAAGCTGAAGTCTCGCCTGCTAGGGTGGAGTCTGTCAAATATTTCACTGGCATGACTGATTGTAACCTTGCCTATCAGATGAAGCAC
T
AATGCAGGGTAGAATCAATCACCCCTCTCCAGACCTTAAGACCCCTACGTATTCCACAACTTTTTACCCTATATATGTTAACTGCATATTTCTTTATTTA
Celera SNP ID:            hCV26787832
SNP Position:             6212
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67467):
CAAAATAATAAGAGCTATTTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAGCACTCCCTTTGAAAACTGGCACAAGACAGGGA
Y
GCCCTCTCTCACCACTCTTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATCGGGCAGGAGGAAGAAATAAAGGGTATTCATTAGGAAAAGAGGGA
Celera SNP ID:            hCV26787833
SNP Position:             35003
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67468):
GGTCTCAAACTCCTGACCTCGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTTGTTTTAAATTTTTT
Y
AATCCTAAAGTCCCAAGGTTTATAAAACACATCAAATGGCCTATTCTTCCTCCCAACTCCTCAAGGCTCTTCAGCAATATGGTTGACCATGCAACACATC
Celera SNP ID:            hCV26070216
SNP Position:             5602
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,9)   total(C,1|T,9) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67469):
TTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAGCACTCCCTTTGAAAACTGGCACAAGACAGGGACGCCCTCTCTCACCACTC
Y
TATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATCGGGCAGGAGGAAGAAATAAAGGGTATTCATTAGGAAAAGAGGGAGTCAAATTGTCCCTGTTT
Celera SNP ID:            hCV26787834
SNP Position:             35021
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67470):
AAAACTGGCACAAGACAGGGACGCCCTCTCTCACCACTCTTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATCGGGCAGGAGGAAGAAATAAAGG
R
TATTCATTAGGAAAAGAGGGAGTCAAATTGTCCCTGTTTGCACATGACATGATTGTATATTTAGAAAACTCCATCGTCTCAGCCCAAAATCTCCTTAAGC
Celera SNP ID:            hCV26787835
SNP Position:             35082
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67471):
GTGAAACCCCGTCCGTACAAAAATACAAAAATTAGCTGGGTGTGTTGGCACGCACTTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTG
W
GCCCAGGAGACGGAGGTTGCAGCGAGCCAAGACCATGCTATTGCACTCCAGCCTGGGAGAGTGAGACTCCATCTCAAAAAAAAAAAAAATATATATATAT
Celera SNP ID:            hCV26070217
SNP Position:             9975
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,2)   total(A,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67472):
AACTGGCACAAGACAGGGACGCCCTCTCTCACCACTCTTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATCGGGCAGGAGGAAGAAATAAAGGGT
W
TTCATTAGGAAAAGAGGGAGTCAAATTGTCCCTGTTTGCACATGACATGATTGTATATTTAGAAAACTCCATCGTCTCAGCCCAAAATCTCCTTAAGCTG
Celera SNP ID:            hCV26787836
SNP Position:             35084
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67473):
AGAATCGCTTGTGCCCAGGAGACGGAGGTTGCAGCGAGCCAAGACCATGCTATTGCACTCCAGCCTGGGAGAGTGAGACTCCATCTCAAAAAAAAAAAAA
A
TATATATATATATATATATTTCAATGGTACTTCTATTGTTATCTGTTTTTTTGTTTGTTTGTTTGTTTGTCTGTTTGAGATGGAGTCTCGCTCTGTCACC
Celera SNP ID:            hCV26070218
SNP Position:             10064
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,1)   total(A,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67474):
ACCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAG
M
CAAAATTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTACACAGCAAAAGAAACTACCATCAGAATGAACAGGCAACCTACAGAATGGGAGAAAATT
Celera SNP ID:            hCV26787837
SNP Position:             36038
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67475):
GAATCGCTTGTGCCCAGGAGACGGAGGTTGCAGCGAGCCAAGACCATGCTATTGCACTCCAGCCTGGGAGAGTGAGACTCCATCTCAAAAAAAAAAAAAA
T
ATATATATATATATATATTTCAATGGTACTTCTATTGTTATCTGTTTTTTTGTTTGTTTGTTTGTTTGTCTGTTTGAGATGGAGTCTCGCTCTGTCACCA
Celera SNP ID:            hCV26070219
SNP Position:             10065
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67476):
CTAAACTTGAAGGAGTTGACTCCTGGATTCACATTTCTAAGTTAAGAAAAGCTCCAACACCTAAATGGACTTCTAAGTCCACCAGAGACCTCCAATTAAA
R
ATCTCTAAGATTTCTGACTCCTCTGAAGGTGGGAAGGAGACATCTGAGTAGACAGCATTTCCCAAGATACCAGACCAGGTGTGTATTCATGATGATTTTC
Celera SNP ID:            hCV9509145
SNP Position:             1930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67477):
TGTGTTCTAAGCAGCAGGCCAGGACCTGCCTCTGGGGTCCAGCACAGCCACTGTTCCCAGTAGGGGAGGCACAAGGCACCTCAAGGTAAGGGACTAGACT
Y
GGGGCTGGAGTGGCCCCCTTACCTTCACCACGATGGGAACCCTTGGGACAGGCTCTCGGTAGCAGAGGCGGAAGGAGCCATAGTGGCCATCTTTGAGATA
Celera SNP ID:            hCV11343510
SNP Position:             23909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67478):
AGGCCTATGAACTAAAGCTGAAGTCTCGCCTGCTAGGGTGGAGTCTGTCAAATATTTCACTGGCATGACTGATTGTAACCTTGCCTATCAGATGAAGCAC
R
AATGCAGGGTAGAATCAATCACCCCTCTCCAGACCTTAAGACCCCTACGTATTCCACAACTTTTTACCCTATATATGTTAACTGCATATTTCTTTATTTA
Celera SNP ID:            hCV26758
SNP Position:             6212
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67479):
CTGGGGTCCAGCACAGCCACTGTTCCCAGTAGGGGAGGCACAAGGCACCTCAAGGTAAGGGACTAGACTCGGGGCTGGAGTGGCCCCCTTACCTTCACCA
Y
GATGGGAACCCTTGGGACAGGCTCTCGGTAGCAGAGGCGGAAGGAGCCATAGTGGCCATCTTTGAGATAATACACCAGCTTCCGGCTGCCTCCTGGGGAG
Celera SNP ID:            hCV11343511
SNP Position:             23940
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67480):
TGGGGAGTGCTCAGTCACTACTCTGACCCCCAGCTCCTGGGACAGAGCCCAACCCTCTGCCCTTCCTCTCCTCCAGGGCCTGGGGACACCTGGACAGTGG
Y
ATCCCCACCCAGTGCCATCCTGGCCCACCCACCGGGCTCCAGCACAGCCCTCTTGGCAATGATGTTGACAGCGGCCATGCAGACAGACTCCACATAGAAG
Celera SNP ID:            hCV11343516
SNP Position:             24134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:67481):
CCTGGGCCAGGGCAGCACTGATCACTCTCGCCAACTGGAATGGGGTGGAGGGACAGCAGGAAGAGGTTAACTCATCCAGCACGTGTTGATGTGCCAGCGC
Y
TGTGCCAACGCCTTACCTGCATCAGTCCTTTCATCCCCGAGGCACCCTGCAGGTAGGCATTAGAATTATCCCTGTTTACCAAAGAGGAAACAGAAGTTGA
Celera SNP ID:            hCV11343517
SNP Position:             24381
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67482):
TCACTTGTGTGGGGTTGCTGGCCACCAGGCTCCCTGAGAAGTCCAAAGGTGCAGCAATTTAATCTGATGCACCGTAAGAAGGCGAGTGTCTTGTGGACCC
R
GGGAATGTAAACTCCCAACTGTAACTGTAACTGTATTGGTGATGCTAACAAGAATTCTACATTCTACAGGAAAACATATACACATACAGACACACAGACA
Celera SNP ID:            hCV11343518
SNP Position:             24593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67483):
CAGCCTACCTGAGCTCATCTGCCCGTGCAAAATGATTTCCAGCCTCCAGCGCCTGCCTCCCTTTGCTTCTCATTCTGTGGGCTTTCTCCAGCACCCTCGG
M
AACTAGCTGGAATGTGAGGAAATTAACACCCCCAGACCACAGCCTTCAACCAAAGAAGGACAGGAGTTGGTGAATAAAGGACCAGCCCCATGTCCTCTAG
Celera SNP ID:            hCV11343519
SNP Position:             24860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67484):
TCCAATTAAAGATCTCTAAGATTTCTGACTCCTCTGAAGGTGGGAAGGAGACATCTGAGTAGACAGCATTTCCCAAGATACCAGACCAGGTGTGTATTCA
Y
GATGATTTTCTTCTGCATATACCTTTTGTTTTTGCATTTTCCTGTCACGATAATGAGTATCTAGTAACATCCTCTCCTTTGTTTGATCCCCATTTCTCTT
Celera SNP ID:            hCV11263439
SNP Position:             2020
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67485):
TTTGTAAAACAAAACAAAACAAAACAAAAACACAACAAATATCTGCAGGTGCAACAAAGCAAGTGCAAGAAAATGAGGGGTGCCTGTACTGTAAATTGCT
Y
TTGTAAAGATGCACAGCTCTACCAAGTGCCACGAACAATGAGCATAGCTTCCCTTCCTCCACTCCTGACCCTGAACACCCCTGCCCAAGGGTTCTTCTTT
Celera SNP ID:            hCV16002791
SNP Position:             15950
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,5)      total(C,1|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67486):
TGAGAGAATACATTTCTGTCATTTTTATTTTATTTTATTTTTAAAAATAAGACAGAGTCTTTCTATGTTGCCTAGGCTGGCCTTAAACTGCTGGGCTCAC
R
TGATCCTCCTGTTGGATACAATGAGTTCAAAATTTCTCTTCAAAGAATCAATATGTCAATATGTTCAGTTCTTTGTCCTCCATTTTAAAGTTTAACTTCC
Celera SNP ID:            hCV16002792
SNP Position:             19540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67487):
CAAACATGTTTTTAGCCAAAGAAGGAGGAAATACTCATGATAGTTACAGTCCGCATTTCTGCAGCTGGTCACATGGTCATAGGTGGTATTGATGATTACC
W
TCTTCTACTACCCATTCTGTATTCCCTTTGCCTTCAGCAAGCACCTCAGCAGGTTGTGGTTTTTTTCCTGGTGGAGTGACCCAAACCTTCATTCCTGAGG
Celera SNP ID:            hCV26070220
SNP Position:             13633
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67488):
TGGGATACAGAAAGCCCTCTGTCCTTGTGATAAGGCAGAGGATCTAATCGAGCTGATTAACACAAGCTGCCTACAGATAGCAAAACTAAAAGAGCGCTCT
K
TAACACACACCCATTGGGGCTTCAGGAACTGTAAGCATTCACCCCTAGACACTGCCGTGGGGTTGAAGCCCCACAACCTGCCCATCTGCATGCTCCCCCT
Celera SNP ID:            hCV26070222
SNP Position:             14132
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67489):
AGGCAAAGACACGAGAATCAGTTGAACCTGGGCAGAGGTTGGGGTAAGCCAAGATTGCATCACCATACTGCAGCCTGGGTAACAAAGCTAGACCCGAAAG
G
GAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAGAAAGGAGGAAGGAAGGAAGGAAAAGAAAGAAAGAGAGACAGAAAGAAAGAAA
Celera SNP ID:            hCV26070223
SNP Position:             15610
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67490):
GGCAAAGACACGAGAATCAGTTGAACCTGGGCAGAGGTTGGGGTAAGCCAAGATTGCATCACCATACTGCAGCCTGGGTAACAAAGCTAGACCCGAAAGG
G
AAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAGAAAGGAGGAAGGAAGGAAGGAAAAGAAAGAAAGAGAGACAGAAAGAAAGAAAG
Celera SNP ID:            hCV26070224
SNP Position:             15611
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67491):
GACTACAGGTGTGTGCCACCATGCCTGGCTAATTTTTTTTTTTTTGAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTC
R
TGATCTGCCAGCCCTGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACTGCGCCCAGCCTGTTATCTGTTTTAACAAGTCCCAGTCTTCCTTCCAG
Celera SNP ID:            hCV318962
SNP Position:             10357
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67492):
GCAAAGACACGAGAATCAGTTGAACCTGGGCAGAGGTTGGGGTAAGCCAAGATTGCATCACCATACTGCAGCCTGGGTAACAAAGCTAGACCCGAAAGGG
A
AAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAGAAAGGAGGAAGGAAGGAAGGAAAAGAAAGAAAGAGAGACAGAAAGAAAGAAAGA
Celera SNP ID:            hCV26070225
SNP Position:             15612
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67493):
CCCCCAGACACCTTGCTGCAGCTGCAGTGGACACCCTGTGCCACCTCCCCTCAGCCTACCTGAGCTCATCTGCCCGTGCAAAATGATTTCCAGCCTCCAG
Y
GCCTGCCTCCCTTTGCTTCTCATTCTGTGGGCTTTCTCCAGCACCCTCGGAAACTAGCTGGAATGTGAGGAAATTAACACCCCCAGACCACAGCCTTCAA
Celera SNP ID:            hCV283485
SNP Position:             24809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67494):
CAAAGACACGAGAATCAGTTGAACCTGGGCAGAGGTTGGGGTAAGCCAAGATTGCATCACCATACTGCAGCCTGGGTAACAAAGCTAGACCCGAAAGGGA
A
AGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAGAAAGGAGGAAGGAAGGAAGGAAAAGAAAGAAAGAGAGACAGAAAGAAAGAAAGAA
Celera SNP ID:            hCV26070226
SNP Position:             15613
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67495):
AAAGACACGAGAATCAGTTGAACCTGGGCAGAGGTTGGGGTAAGCCAAGATTGCATCACCATACTGCAGCCTGGGTAACAAAGCTAGACCCGAAAGGGAA
A
GGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAGAAAGGAGGAAGGAAGGAAGGAAAAGAAAGAAAGAGAGACAGAAAGAAAGAAAGAAA
Celera SNP ID:            hCV26070227
SNP Position:             15614
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67496):
AAGACACGAGAATCAGTTGAACCTGGGCAGAGGTTGGGGTAAGCCAAGATTGCATCACCATACTGCAGCCTGGGTAACAAAGCTAGACCCGAAAGGGAAA
R
GAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAGAAAGGAGGAAGGAAGGAAGGAAAAGAAAGAAAGAGAGACAGAAAGAAAGAAAGAAAA
Celera SNP ID:            hCV26070228
SNP Position:             15615
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,3|A,3)   total(G,3|A,3|-,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67497):
GGGCCAAGCCCTGGGGCCTTGAATGGCAGCGGGAGGCAGACAGAGTCCTGGGCAGAAGGGGGCAGGTCCCCAGTAAGACCCCACTTTCAGGTCAGGGAAG
K
CCTGAAGGCTGCGGGCCAGGCTGCCAGTCCCATGGACTGGAGTGGGGACTCATGGTGCCTCTTCCAGCCCACCCATGGCTGCCCGTGGACCAATTGGCAT
Celera SNP ID:            hCV26070229
SNP Position:             17582
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,4)   total(G,3|T,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67498):
TCCCTTTGCTTCTCATTCTGTGGGCTTTCTCCAGCACCCTCGGAAACTAGCTGGAATGTGAGGAAATTAACACCCCCAGACCACAGCCTTCAACCAAAGA
R
GGACAGGAGTTGGTGAATAAAGGACCAGCCCCATGTCCTCTAGTGGGATGATTCTGAGGTTCTACATTGTCCCCAGGGGGACTGGTGCAGCGGCCCACAG
Celera SNP ID:            hCV11343521
SNP Position:             24917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67499):
TGCTTTTGGGGGATATCAAAGCCAAGACATGCACATACACACATACCCACCTGTGCACACAGAGCACAGAGATACACCAGAGAGACCTAAACACACAGAG
R
TACATGCATGAACACAGACTCCCCACACACACCCATGCCTGGGCACACATGCGGACCTCCCTGAACACCCCCAGCGCCCGTACCAGCTCACCTCCTCAAA
Celera SNP ID:            hCV11343522
SNP Position:             25250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67500):
AAAATGAATGAAGGAAAGCTCTTCTATGCAGAAGAATTTCAGCTACTACATGAAGAAAAAATTAGAATCAGAAAATTATCATTTTTTAAGCCCCTAAGAA
W
ATAACTGATTCAAGCAATGGTTTTCAATGGATGCCAAAATCACTCAGTGAAAGGTTGATGGAGAACTTCTCAGTGAAGGGTAAGGTTGCCATTGCCTGAA
Celera SNP ID:            hCV432546
SNP Position:             12108
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,8)      total(A,2|T,8) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67501):
AAACCACAAAGCCACACAGACTGTGGATAACCGCAACAGAGACAGAGAGGCACAGTCACACATAAGGCATGAAGCCACTGGGGCCAAATGCAGAAACAAA
S
AGCGGAAACATAACTGATTACACTGGCATAAGTGTGTGCTTTCAGACAGCTGCACACTCAGGCCAACGAGGCACCTACGAAGGGGCACTCACCCTGAGTA
Celera SNP ID:            hCV11343523
SNP Position:             25665
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67502):
CTTTGAGCCTGTTCTGCTGCTGATCTGGGCAAGTACTTGACCTTTCTGTGCTTCCATTTTCCTCTGCCAAATGGTGAGGCTAACACATGCTACTTGGTAG
K
GTTGTTATGAGGACTGAATAAGCCAATACACATGAAAGGCTGAGGATAACTTTTCCTTTGCAGTCACAACTACGCTGTTTGGTATAAGAGGCCTAACTTT
Celera SNP ID:            hCV68501
SNP Position:             14868
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67503):
GCAGATGAAAAAGAGCAGGAGAAGAAAAGAAGATACAGAAAGAAAATAAAAGTTACTGGGCACTGTTGGGGAAGTTGGGGCACCAACTTATTACTCTAAA
R
ATTGTTAATTAAAGGAAAAGAATTAAGCATTTTTTATGCCTAACTGCATTTTCTGGTAATTAAATAGCCAAAATGAATGAAGGAAAGCTCTTCTATGCAG
Celera SNP ID:            hCV432547
SNP Position:             11938
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67504):
TAACACATGCTACTTGGTAGTGTTGTTATGAGGACTGAATAAGCCAATACACATGAAAGGCTGAGGATAACTTTTCCTTTGCAGTCACAACTACGCTGTT
W
GGTATAAGAGGCCTAACTTTCGGCCTATTTTGGCTTTCAATACACTTACCTCACTAAGTTTAATATTTCTAGCTTTTGATTTAGAGCAAGGGATGTGTGA
Celera SNP ID:            hCV68502
SNP Position:             14948
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67505):
CATCTCCTAGGGTATTGAAGTACCCTACTTCTAGCCAGCAGATGAAAAAGAGCAGGAGAAGAAAAGAAGATACAGAAAGAAAATAAAAGTTACTGGGCAC
Y
GTTGGGGAAGTTGGGGCACCAACTTATTACTCTAAAGATTGTTAATTAAAGGAAAAGAATTAAGCATTTTTTATGCCTAACTGCATTTTCTGGTAATTAA
Celera SNP ID:            hCV432548
SNP Position:             11901
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67506):
GTAGTGTTGTTATGAGGACTGAATAAGCCAATACACATGAAAGGCTGAGGATAACTTTTCCTTTGCAGTCACAACTACGCTGTTTGGTATAAGAGGCCTA
M
CTTTCGGCCTATTTTGGCTTTCAATACACTTACCTCACTAAGTTTAATATTTCTAGCTTTTGATTTAGAGCAAGGGATGTGTGACATTTTCACTTAAACA
Celera SNP ID:            hCV68503
SNP Position:             14964
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,6)   total(A,6|C,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67507):
TTGGGCTGGGTGTGGTGGCGCACACCTGTAATCCCAGCACTTTGGGAGACTGAAATGGGCAGATCGCTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAA
Y
ATGGCGAAACCCCATCTCTAATAAAAATACAAAAAAAAAAAAAATTACCTGGGCGTGGTGCCTTGCGCCTGTTGTCCCAGCTACTTGGGAGGCAAAGACA
Celera SNP ID:            hCV68504
SNP Position:             15420
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67508):
AAAAAAAAAATTAGCTGGGGGTGTTGGCCCATGCCTGTAGCCTCAGCTACTCGGGAAGCTGAGGTGGTAGGATCACTTGAGCCTGGGAGGTCGAGGCTGC
M
GTGAGCCATGATCACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACCCTGTCTCAAAAACAAAACAAAATAATATGTGGTATATGGGAAAAGAATG
Celera SNP ID:            hCV11263443
SNP Position:             4357
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67509):
GAAGGTGTTCTTGAATTCTGAAGCAGACATCTGGAGCCTGCGACTGAGCAGCTGCCATGATAGGAAAGGGGAAAGACCTCTGGTTACCTTCCAGAAAGAC
K
AGAGAAGGTGCCTGTCTCCTCCACGACCTAACTGTACACAGCAGGATGCAATTACCTCTAGAACCACTGAGGAAGCAGACAGTAAACTGGACATCCATCT
Celera SNP ID:            hCV28975758
SNP Position:             8968
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:67510):
AAATATTTGCAGGCACCTCCCCTGTCCAGATTCAGACTAGGCCCTTCCACCACAGCAGTCCCCACAGCTGGGTGGAAGCCTGGAGGTCAGGAAGGAGGAG
Y
GCTAGTTGCTTTCAACACTTCAATGGTGAAATCATGCAGAGAAGCACTTCTCATGTTAATCCATCTCACACACATTCCAAGAGCACCTACTATGTGTAAG
Celera SNP ID:            hCV28975759
SNP Position:             9201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:67511):
GGTCTGCCCTCCAATCCAACTTCCAATCTGAACGACCTCATCTAAGAACAGATGTGATCATGGTTAATCCCTTTTGAAAATCTTTCAATGGGCCGGGCAC
R
GTGACTCATGCCTGTAATCCCAGCACTTTTGGAGGATGAGGTGGGCTGATCACCTGAGGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTGAAACCCC
Celera SNP ID:            hCV11263448
SNP Position:             9784
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67512):
TTGGCTCACTGCAAGCTCCACCTCCTGGGTTCAAGCAATTCCCTTGCCTCAGCCTCCCAAGTAGCTAGGACTACAGGTGTGTGCCACCATGCCTGGCTAA
T
TTTTTTTTTTTTGAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCTGCCAGCCCTGGCCTCCCAAAGTGCTG
Celera SNP ID:            hCV11263449
SNP Position:             10289
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,2)   total(-,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67513):
CCAAGAGGCTCAAGAAAAGCCTTCAGAGAGGGGAAAGCAGATATAGCTAACAAAAATGGCGGTGCTTTTTCTCCACTTGCAAATTATGGTATGGACCCAA
M
GACAGACTAGTTTTGCCTTTGGGATTTCAATTTTCTATGTCACAACATGTCTATGAGCTCACTCACTGGGGGCCTGAAAAAATGATTGCCCAGGGAAAAC
Celera SNP ID:            hCV11343495
SNP Position:             884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67514):
CTTTGGGATTTCAATTTTCTATGTCACAACATGTCTATGAGCTCACTCACTGGGGGCCTGAAAAAATGATTGCCCAGGGAAAACAATTATTATTGGGAAT
Y
CTCACCCACAATAGCACATAGACTTTATGCTAAATGTCCAATTTGTCCTAAACCTAATCCAGGAAAGTGTCTTCACAGATTTCAAGGGCATTTCCCTTTG
Celera SNP ID:            hCV11343496
SNP Position:             1001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67515):
CATCTCCAATCCTGGCCACTCACTGTTCTCTGAGCAGAGGCTCATTCCCATGCCTGAGCCAAGTTGTTCCCACACCTGAGCCACGCTTCCTACCCACTTT
Y
ACCTACTGATTCTGCTCTGCCTCCAGGTCCCACCATTCTCCCTCCAAGAAGCCACCCACTCCTCCAAATGGATGGCTTCCACCTGAACTGTCCTCAAAGT
Celera SNP ID:            hCV500904
SNP Position:             20622
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67516):
TCACATTTCCCAAAGCCTGCTCACACCCCTAAGTATCGTACCCATAATCCGTGCTTCTTATATCCTGAGTGTTTGGGCATAACCAAGACCATTTTGCAGG
Y
GGGAAATTTGATGTTCTGGGATGCCCTCATGAGATGCACCTGACTGGATGGGCTGTTGAGCTCCTCTAGCTTCTCTGAGTGGCCTCTGTTACCCCAATCT
Celera SNP ID:            hCV500905
SNP Position:             20050
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67517):
GAACTGAACACTGGACAGATGACCTGCCTGCAGAGAGGAGCTACACACTGCCAGTCTCTGAGCTGTTGTAACACTAAATAAAACTCTTCTTCATCTTGTT
Y
GCTCTTTGCTTGTCTGCATACCTCATTCTTCCTGGACACAGGACAAGAACTTGGGCAAAGGTGCTGTGGCCACAGATGTTTCCAGCCAAAAAATTGACAC
Celera SNP ID:            hCV26070230
SNP Position:             18031
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67518):
CCCCCCAGGGGCAAAGAAAACTCACTGGAATGTCTTCCATCTGGAAAGAGTTCACATTTCCCAAAGCCTGCTCACACCCCTAAGTATCGTACCCATAATC
Y
GTGCTTCTTATATCCTGAGTGTTTGGGCATAACCAAGACCATTTTGCAGGCGGGAAATTTGATGTTCTGGGATGCCCTCATGAGATGCACCTGACTGGAT
Celera SNP ID:            hCV500906
SNP Position:             19999
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67519):
AACTAGTGAGGGGCTGGAACCTGACAGTGACCTGGGAGAGAGGGAAGAAGGGAGGGGCTGTGTGCATGAGACATTCTGGGGGTAGAACAGGAAGGATTTC
A
AAAAAAAAAAAAAAGCTGTTGGCACACAGTTGGCTTTCTCTACCACCTCCAGTGTGAATGACTTGGTGGCCCATTGATGAGGGAGGTGATGGAGAAGTTC
Celera SNP ID:            hCV26070231
SNP Position:             18738
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67520):
CTCCATTTTAAAGTTTAACTTCCCCGTAGTTTCAGTAAACAACATTTCCCCCCAGTTTTAATCAGCAGTTCACATCTGTTCCCCTGGTTACCTGCTCTGC
R
TCCTGACTCATCCCAGTCACCTGCTTTGACCTGAATCACCCCTGGTCACCTGCTCTGACCTAACTCACCTTTAGTTACCTGTTCCTAACTGTCCTTCCCA
Celera SNP ID:            hCV500907
SNP Position:             19718
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67521):
CAAAGTATGTCCCATGTTCCTCCCTGTGCTGCAGCCAGCTGCGCCTGCCTTTAGCTTTCCACAGGCCTGAGGACAACTCAAAGACTGGGTCTGTGCCTGC
Y
TCCCCTGTCCCCCTAGCATCGGGCACACATCCTGGCTTGGCCTGAGTGGGACACCCTACCAACACTCTCTGAAAAGACCCAGGATGCACGGTGGGGTCTC
Celera SNP ID:            hCV26070232
SNP Position:             20817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67522):
CCTAAGAAAATAATTCTAATTGCAATGATCACCTCTTTTCTCCATAACGTGAGGAGATATTGGCATGACAGGAGAGCCTCTCGCATTCTGAAAGGAAATA
S
AGGAATTTTTGCATCCTCACTGACAAACCAAATGACAGAACTTCATGTAGGAGTGAAAAATAGAACAAGGGCACTTAAAAATTCCAATTTGATTCCCCTA
Celera SNP ID:            hCV16086355
SNP Position:             5821
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67523):
ATATGTACTGAAACACATGTTCCAAACCACAAAGCCACACAGACTGTGGATAACCGCAACAGAGACAGAGAGGCACAGTCACACATAAGGCATGAAGCCA
Y
TGGGGCCAAATGCAGAAACAAAGAGCGGAAACATAACTGATTACACTGGCATAAGTGTGTGCTTTCAGACAGCTGCACACTCAGGCCAACGAGGCACCTA
Celera SNP ID:            hCV26070234
SNP Position:             25642
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67524):
ATGTACTGAAACACATGTTCCAAACCACAAAGCCACACAGACTGTGGATAACCGCAACAGAGACAGAGAGGCACAGTCACACATAAGGCATGAAGCCACT
G
GGGCCAAATGCAGAAACAAAGAGCGGAAACATAACTGATTACACTGGCATAAGTGTGTGCTTTCAGACAGCTGCACACTCAGGCCAACGAGGCACCTACG
Celera SNP ID:            hCV26070235
SNP Position:             25644
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,4)   total(G,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67525):
AAAAACCACTGAATTGTATGCTTTGAGAGGTCAAATTTTATGGTATATGAATCATATCTCAACAAAGTTGTTTAAAAAAACAGATTGTGTGCTCGCTTCG
R
CAGCACATACACTAAAATTGGAACGATACAGAGAAGATTATCATGGCCCCTGCACAGGGATGACACGCAAATTCGTGAAGCGTTCCATATTTTTAATGAT
Celera SNP ID:            hCV172452
SNP Position:             34608
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67526):
GTTGTTTAAAAAAACAGATTGTGTGCTCGCTTCGGCAGCACATACACTAAAATTGGAACGATACAGAGAAGATTATCATGGCCCCTGCACAGGGATGACA
Y
GCAAATTCGTGAAGCGTTCCATATTTTTAATGATCAAGTGGGCTTCATCCCTCGGATGCAAGGCTGGTTCAACATATGCAAATCAATAAAAGTAATCCAG
Celera SNP ID:            hCV172453
SNP Position:             34674
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67527):
ATTCTTCCTGGACACAGGACAAGAACTTGGGCAAAGGTGCTGTGGCCACAGATGTTTCCAGCCAAAAAATTGACACCCCAAAGATCCCATAACACTAGGG
M
GCTTGGACTTTATCCTGCACATATGGGCTGCCGCAAATGGGATTACACAGTGGGCATCAGGCTCAGGAGAGCACATTGGAAGGGACTCTGTGGTGGCCAA
Celera SNP ID:            hCV7482379
SNP Position:             18156
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67528):
TTCTGGGACAAGGCAAGGGCATGAATAAATAAAAAGCGGGGAGGAGCGGCAGGATGAATTTAAGGATGTAAACTGACACCAGCTAGGTATGAACTGAGCA
R
GTGTGTGGGCTGCATTATTTAACGTAAAAGATCAATAGCCCATTTTTTGTAGTCGCTCTGAGAAGAAGTAGCTTCTAATGCGTCCCCTTCAACCACTGCT
Celera SNP ID:            hCV28975760
SNP Position:             21308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67529):
AGAAAACTCACTGGAATGTCTTCCATCTGGAAAGAGTTCACATTTCCCAAAGCCTGCTCACACCCCTAAGTATCGTACCCATAATCCGTGCTTCTTATAT
Y
CTGAGTGTTTGGGCATAACCAAGACCATTTTGCAGGCGGGAAATTTGATGTTCTGGGATGCCCTCATGAGATGCACCTGACTGGATGGGCTGTTGAGCTC
Celera SNP ID:            hCV27944382
SNP Position:             20013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67530):
AAAATAATGAGCAGGCTAGGCCATTGTGTCTCTTGTGGACATTATAGAGAGCAATCCCTTGCCTACAGTAGAATCAGCACAGTTAGCTGAGTTAATAGGG
Y
TCGCCAGAGCTTGTCAAGTGGCCAAAAATCAAATGGCTAATGTTTACGTTGACAGCTATTCTGCTTTGGGTGTAGCTCATGATTTTGGAATGTTGTGGAA
Celera SNP ID:            hCV28975763
SNP Position:             420
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67531):
TTGGGGAATTCCTTCCAAATTACATCGCAATAGGGGACTCATTTTACTGGAGAGATTATCCACTCCATTTGTAAAATCTGGCTCATTTTCCAACATTTTC
R
TTTTGCTTACCATCCACAGTCTTCTGAATTGGTGGAATGGAGAAATGAAATAATAATAACCCAGCTGGAAAAATTAATGAAAGCTTTTCCTATTATGTGG
Celera SNP ID:            hCV28975764
SNP Position:             1378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67532):
AAAAAAAAAATTACCTGGGCGTGGTGCCTTGCGCCTGTTGTCCCAGCTACTTGGGAGGCAAAGACACGAGAATCAGTTGAACCTGGGCAGAGGTTGGGGT
R
AGCCAAGATTGCATCACCATACTGCAGCCTGGGTAACAAAGCTAGACCCGAAAGGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAGGAAAG
Celera SNP ID:            hCV11263451
SNP Position:             15555
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67533):
AGCAAAAGCCTCTAAAACATGGCCAACCATTTTGGATACAGAAGCACAAGGTGTGCATTTATGGAAAAAAATCCTCTTCTTCCTGGAAAATTACTACCAG
K
GTGTGTAGCCTAATTTGCTGCACTCTACAGCTTTAGCACCGGATATGGTTTGGCTGTGTCCCCTCCCAAATCTCATCCTGAATTGTAATTCCCATAATCC
Celera SNP ID:            hCV106261
SNP Position:             3561
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67534):
TGGAACACCAAACATATTTGGTTTCACAATCTGTACCTAAATTGCACTTCTGCTATAATTGTTCAATGGCAACAACATGTTTGGTGGATAAAACAGCACT
R
GCCAACTAAGGTAAAAAGAAACTTAGGTGCAACAGGGGAATAACTTGTGATATTAGGACAAGATAAAAATGTATTTTATGAAAAAAGACATTCACAAGAA
Celera SNP ID:            hCV106262
SNP Position:             3150
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(G,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67535):
AAGGTCAGATGGACACTTTGACTTCAGTGAGTCAACAGGGGAAGGGAGATTCCCTGGGGCCAGTTCCCACCCCAAGCTCAAATGAGTGTGAGGTTTCCTG
Y
TTCCTCTTCAACCCCAACCCCTAGGCACCTGAGCTGGGGGCCCATGGTGTAGCAGATGGTGGCAGGCAGGAAGCCATTGAAGCTGGAGCTCATGGAGGAC
Celera SNP ID:            hCV473135
SNP Position:             22439
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67536):
TCCCACCCCAAGCTCAAATGAGTGTGAGGTTTCCTGCTTCCTCTTCAACCCCAACCCCTAGGCACCTGAGCTGGGGGCCCATGGTGTAGCAGATGGTGGC
R
GGCAGGAAGCCATTGAAGCTGGAGCTCATGGAGGACATGTAGGCACCCATGGAGGGGAAGACCAGCCAATCGCCTACATCCAGCTCGGGCAGCCGCACAT
Celera SNP ID:            hCV473136
SNP Position:             22503
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67537):
AGCCAATCGCCTACATCCAGCTCGGGCAGCCGCACATCCTCCAAGAAGAGCCTGTCAAAGGCATCGCACATGGGACATAGAGGGTGCAGGGGAAGAGGGG
Y
GGCTCTGAGCAGAACTCCTGTGTGACATAGGAAAGGGGGTCAGAAAAGACAGCAGGCTGGCCTATCCCACCCCCTTATCTGGAAGGCACTGAAAGACCCG
Celera SNP ID:            hCV473137
SNP Position:             22667
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67538):
TGACTGTATCCCTAGTGTAAAAACTCTACATGAGAATTGACACAGTTTCTTCAGGAAGTCAATAGCACTGAGAACAAATATAGGAAGAGGAATTAATTTA
Y
GTTAAAAGAGAGTTAGAGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCGATTTGGGAGGCTAAGGCAGCCAGATCACTTGAAGTCAGGAGTTTGAG
Celera SNP ID:            hCV16002779
SNP Position:             12420
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Intergenic Region Number:  3
Celera Axis ID:            GA_x54KRFTF0F9 - 181000117649897 (12386940..12426940)
Chromosome:                6

Genomic Sequence (SEQ ID NO:12601):
AGCATAACAGAAAGTCAAGTTGTTAGGTGAAGAGGGAGCTTCCAGGAAAGATCTTTAAGGGGGTCTAGCTCATCTGGAAGATGAGTCCTTTGCCCTTCCC
ACCCTCTCTTTTCCTCCTGCCTGGTCATGGTGTGATTATTGAGCTCCAGCAGCCATCATRCACTGTGAGGAACTCTGAGGCTAAAGATGGTGAAAGAGAA
AGGCGGAGGAATCCTGGAACCCTGATCAGCAGGAGCCATGCAACCAGCCCACGCCCACCWGCCTCCAGACYGCTACATGAACAGTCAACATTCATTTTGT
ATSAGCCGCCTGAGTTTTCTGTTACATGCAGCTGAACCCTGCAYGTTAAAGAAATTCATATCCCTCSCCTTTATTTTTTAAGACTCTCCATCAATCAAAT
CACTGTCTCATTTTGACATTTATGTTCATTAAGTATTTGAATAATTGGATCTTACCCTTGAAGCCCAAGACATTTASCAGGTCCCAAGAGGTTCCGAGAC
TGCTCCCAATTACCTAAGTTATCTGCGGGGAATATCCTACAGTCTTAAGCTACTCTAAAACTTCAGCCCTAGAGCGTGATGGCTGAAAGGAAAAAGTRTA
CTTGTAGCSCTTATGCTTCTTAACCCACTGACCATGTCCTCAAATCAAAYTGCACTGTACAAAATGGTAGTCACTAGCCACATATGGTTAAATTAAGTAC
AATTAAACAAAAATATAAATTATGTTTCTCAGTTGCCTTAGCTGCATTTCAACTGCTCAACAGCCTCCAYGTGCCTGGTAGCTACCTTACTGCACAACAA
TATAGATGGTTTTTATCATGCCAGAAAATTCTCCTGGAGAGCACTGATCTAGAAATACACTTTTCAGCCGSGCACAGTGGCTCAYTCCTATACTCCCAGC
GCTCTGGGATGCTGAAGCGGGCGGATCACCTGAGGTCAGAAGTTCAACACCAGCCTGGCCATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAG
CCGGTCGTGGTGGTGTGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGCGGGGGTTGCAGTGAGCCGAGATT
GCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCTTGTCTCAAAAAAAAAAAAGAAAAGAAAAGAAAAGAAATACACTTTTCCCCAGGCGTCGA
TGACAGCCAGTTCTCCTTGTGTCCCTTCCACCTCCCCAGGCATTCCCCAGCCCCTCATCCTCTACTCACTGCTCAAATGCTGGCATTTCTCAGAACTCTA
TCTAAATCCCTCTTCTCCCCTCACTCTGCCTAGGCGATCTCCTTCAGCATCAACTGTCATCCTTATGCAGAAGGCTTAAACACTAATGAACATTTTTTTT
TTTTTTTTGAGACAGAGTCTCGCTCTGTTGCCCGGGTTGGAGTGCAGTGGCGTGATCTCYGCTCACTGCAAGCTCCGCCCCCCGGGTTCATGCCACTCTC
CTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCTCGCCCAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCC
AGGATGGTCATGAACATCTTAATATCCTCAGAAACTTCCTGCAAGAACCCAAGTTTTATCTAAATCATGGATGTGGTAGAAAGAATATATCTGGGTTTTG
CCCTTGTTCCTGGCACAGAACTCCGAAAACTCTTAGAATGTTCTGGGTGACAGGAGTGTCTTTTGTTATCTGTGAAGAGTCACTTCTGACCACATCTGAG
TCTGCACTAATGAGGTGACAGAGGGTGGGCCCTTAGAGCATTTCAAGGGATGGGCTGGCCATTCCAGAAAGACCAAGCATATGATTAGAGGGCCAGAACT
TCCATTCCCACCCCTGACCTCTGGGAAGAAGAGGGGCTGGAGACTGAGCTCAATCACATGACCAACGATGTCATAAGACCCTGATACGATAAACACCTGA
GCTCAAAGAGCTTCCTGGCTGATGAATACATTGATGTGCCAGGAGGGTGATGCCCCTGACTCCATGGCATGGGAGCTCGGCATCCAGGACCCTCCCAGGT
CTTGCCCTATGTGTCTCTTCCATTTGGCTGTTCCTGAGTTGTATCCTTTATCATAAAACCATCTTCTGTGAGTTTAGTGAGTTGTTTTAGCAAATTATCA
AAACTGACAAGGTGGTGGAATCCCCAAATTTACAGCCAGTTGGTCAGAAGTCCAGGTAGCATGAAGACTTGCAATTGGTATCTGCCATGAGAGCAGCCTT
GCAGAACTCATGTCTGACATTCAGTTCAGGTGGTTGGTGTCAGAACCGAGTWGAAGTGACACCAAGCTGGTGTTAGAGCACTGGTGTCAAAGCATTATGA
CCTCTTAGCCACTGTTCKGATATTTAGTTAATAGTGGTTCAAAACTGCRRTAAATAAATGATGCTTTCAATTCACCTTGGATTACTGCATACAGGTTCAC
AATTCACACAGAATATTCAATCCCAACTGAATTCCATAGAGTTCTCAAAATCACAGAAGATATCTATGTGCATAACCAAACAACCATAAGAGGAAGAGCT
ATTTTTCATAACCTCAAAASTCAGTGGAGTATGTGATCTAACAATGAATCAGTGACCCTGATGAGATACAATGACAGCAAGGRAGGACAGATCCACTGGC
ACACACTAATTTAAGTGAAAATTCAAATTATAATATGAAATTAGTAGATTTTAGAAAAGGGCCTTCTAACAGCAAGCTCTGGCTGAAGTGCAATGGCGCA
ACCTCGGCTCACTGCAACCTCTACCTCCCGGGTTCAAGCGATTATCCTGTCTCAGCCTCTSGAGTAGCTGGGATTACAGGCACGCRCCACCACCCTTGGC
TAATTTTTGTATTTTCAGTAGAGGTGGGGTTTCACCATATTGGCCAGGCTGTTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCAGCCTCCCAAAG
TGCTGGGATTACAGGCATGAGCCACTATACCTGGCAAATTTAGAATATTTATATTTATCCTGTTTTTTCAGGTATATATATCCCATGTCAAGCTACCCTG
CTTGGTTAAACTTTGGCCACAATTTCTCTAAGCTCAAATAATGCTGACGTGAAAATAAGCTATAATTTATTTTACTAAAAMAGAAMTTTGATTTTACAAA
AAGCAGCTTCCGAATTTGTTCAGCAGGTTCAAATTTTCAATCTTGAAGGATTTTTTGTTAGCACTGGTGATGGCGGCATTTTGTTTTAATTTAGTTTTTT
ATTTGATTGTTTTGTTTTGCTTTAAATTTTAATGCAAGGCTTCAGAGCTTTCACAGCCCAGGTCCTTTCCTATTTGTTAACTGTTGGAGTGGTGTCTCTA
ACATTTTTATAAACTGCAGCAAGGACGGACCTTCTGCTGAACCTCAACGACTTCCTTAATGGCTTCCATCCTCCCACCATTACCATGGAAGTCACTATTT
TCTACACCAACTCATCAGCTCTTCCCTGGAAATTCTGGAACACAAAGAAAATAGTCTCTCTCTGGACACCTGGGTCATAATATGAAAAACATGGGGCTGG
CAGCCATGTTGTGCCACCTGGACCAAACAGCAGAGACTGCTGGTCCATGACAGAAAAGGAATAACTCAGAAACACTGAGGGAGTGGACAGCTGGAAAAGA
GGCAGAAGACAAAAGAGAGAAAGAAAGAGTGTCCTCCTGGCCCCATCCATGCAGCATCCTAGCCCAATCCCTGGCTCCTGACCTGGATTCCGTAGACAGC
CCAGAATCCTTCCAACGAATTCCCTTTTTTTGTGTTAGTTGAGTTAGGTCTCTTTCACCAGTAACCAAGAATCCCCTGACTAATAGAGGGTTCTACAGTC
CTTTCCGCTGATTGTTTTGAAAGAGGCAAGATAGAAACCTACAGGTGGTTGACTGAACCCAGCAGAGTCCTAGAGCCAAAAAGAGATCAGCCACCCCTTG
GAACCTGCTCCYGTGGCAGGGCTTAGACCACAGAACCCTAACTTGCAGCTCCACACCAGGCCACTGCAGCGCTCCACAGCAACTTTCTGGTAGGCCCTTG
GGCCACAGACTTAACTCCTCCAGCCAACCTACCAACTAATGCTAGRTTAAAGGGGAAATGAGTTGTTCTCTATTTCGTACCGCTGCTTTGAGAGTATAAT
ATGGGGGAGACAAAGTAAAGTTTTCAGGATACCATCAGAGACAACATACATGGAGGGTACAGCTTCCCCAGCTGCAAGGGCAGCAAATCAAACCCAGAAG
AAATGTGGGCACAGCACCTCCATTCACCTAATCAACTCCTACAGGAAAGAAGTAAATGCAAGCTGCAAAACCAAAGGGACATCAYATTAGAGAAAACATG
CTGATGATTCATCATACAGAAGAAGCAACCGTTATTTTTAAAGTCCATSAAAGCACCTGGTTGAAACATGACACACCATGGCGGCTGCACAACAATATAA
ATGTTGTTTAAYGGCCCTGAACTGTACATTGAAAAATGATTACAATAATATATTTTGTTATGTATATTTTACCACACTTTTTTAAAAAGACACATCATAA
GAGTTTGAGACAGACTGAATTCCCTCCATTGCAAACACACCACAGGCAGTGTACATGTGACAGCCGTATAAATAACATGTTCCCTGGCCTGAGGCAACTA
AGCACAGAGCTGAGGCTGACCTGAGTGGTGAGTCTGGGTGGGCAGAAACGAACAGAGTCCTGGCTTTTTGTTTTTTGGGAGGGAGAGGGGGCAGGGGTTG
TCAAACAAAGTAGGCATCTTCTGAAATGAGTAACAACAAAAACTCACTCCACAGTCCATTTTCTCCAACCTACTAACCTGGTTGSAGATCAGGCTACKAA
GCCTGATCAGCACGGTCTTAACATTACTAATTTCTAAATATTTCAACATAAATGGAACAGTTCCTCACTCCTCAGAAATCACTGCTGGTTTCCTATCAGC
CACAAACAGATGGCAGCTCAGGAGAGTCCTGTTCCCATTATGCCAACTTGGCAGGAGGCTCACCTGCTGCCACCTGAAACACCAATCCCTCCCACCTTTA
CACAGAAGGCTCCCAAACACAACTAAAATCCTGCCTGGATACCCACTGATCAGCATCCTTAAAAGCATAGGGGGGAAGTCTCATTACAACTCCACTAATT
AATAAACATAGGGAGGGACGACATCACGTCCTAATATAATTACAAGAATACTGTAGCTTTTCATTGCAGTTCCACTATATGGTTCAGACAGGTTCCCTGC
CTGATTACACTGGGCTGTAATCCAGTTTTGCTAATATATCCATATGTATAAGAGTGAGAGCAGATCTTATATCAAATCTAAAGGAAAACTTTTGGAAATG
CTAAAAAGTTCAATTTCAGACATATTAATACATCCTCMACATTTTATTTACAATAAGACCACCAATCTTGTTTTTATAACCGCCAACAGGTTTCTTGGTT
TCTCGGCTGCAACTTTTTTATTGAAGTGATCAAAGACTTAGAGAACAACAGGATGTTCACAAGTTACCCTTAAAGTAGAAAACATGAAAGCTGCCTGTGT
GAGTGTGGTATATGTGTGTACATGTTAGTATACATACCACGTATACACACACACACAGAAGTTATATATATACATACATACAGAAACACATACACACATG
CACGCACTGGCAAAGAAAAAAGAAAACAATCTGGGCTGTTCACTTCATCAGATTCCAAGCAAAGATGCTCTTCTGTGCTTTCTGGACACACCTACTAATC
ACCAAAGCCTTAACCACTGACTGCTCCTTGCCTGCTCAGCAAATCAAACTCAACTCTGGAATGTTAAGCCAAGGTGTTCTTCAGGAGGAGTAGCTTAAGT
AACTAGAGAGTTACTTTAAATAGTAAGAGTTCACTGCATTCATGCCATAGCCCAGTACTTAAACCTATAACAGGCTCTGCTCTTGCGATAAAGACCAAAA
TCCTTAAATGTGGCACACGAGGCCCAGCAAGAAAAGGGATCTCTCCCACCAAGGCCTCTGCATTTCCCCAGGGAAGCCACCTCTGACCTTCTGACTAGAT
CAATTCTGCCTTTATACCCTGTACTTCTTCATGCAATGAGGGAAAGAATGACAGCTATTGCATCAGTTAGCACATCTTCGGTTGCAAATAACAGATAACC
CTAACTTAAATTGGTGTAAACAATAAGAAAATTTATTTCACAGAACAAGTCCAAGGTTAGTGGGTGCCAAGCATGGTGCACTGGGGCTCTGCAGAGTTCT
CTCTGCTGTTGGCTTGGCTCAGTCCTTAACCTGATGTTGGCTTCATGCTCAGACCAGTAGCAAAACAATTGTAACAGTTCCAGGCACCACACCCAGACAT
GACAACTTTCAGAGGAAGAAAAGGCCACCATTCTTAGAGTTGTTGCTGTAAGGCTGAGTTTTCCAGAACCTCTGGACAGACCTCCCACTAATCTCACTGA
CCAGAACTAGGTCTCTGGCTCACCCCTACAGTCATCACCTACGGAGAATGGGACCCATGTGACTAGCTGAAACCAGTCAGGATTTACCCCAGTGCTAGGG
ATAAGATCACCTTCCCCAGAGTCACACAGGAGACAAGAGGCTCTCTAAACAAAATTCCAATTCTACTTAGAAAGAAGGGAAGAAAGAACATTAGATATGC
ACTCGACAGGGTCTGCCGGTTATCAATTTAGGGTACATGCTCTGGTCCCCAACAGTGTCTACAACTGCCAAGAGAAAGCCCCCTCCAGCAACACCTGCAG
GGGGATTCATAAACATGACAGGATCCATGCAGAGGGAGGCCACAGGGTGGGGGTGAGGGAGTAAGASAAGGGACACAGAGTTTTTCTGTTGCTTTTGTTT
TGTTTTGTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCCACCTCCTGGRTTCAAGTGAT
TCTCCTGACTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGACACCATGCCCAGTTAATTTTTGTACTTTTAGTAGAGACAGGGTTTCGCCATGTTG
GCCAGGCTGGTCTGGAACTTCCGGTCTCGGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATAACAAGCGTGAGCCACGGCACCTGGCCGGAACA
CAGAGTTTTTAATCAGGAGATGCAGACTCAAGTCTCAAGACTTCTGCTTAACATCTCATGACTACAGGCAAATCTCAGCCTTAGTTTTCTCATAAAATAC
AAAAATATGTGCTTGACATATTGTGCAAGGTKGCTGTGAAGACCAAATGAAATGGCATATGTGGAAAAATACTTTGTAAACTAGGKGTTAAACATAAGTA
AGCAATGATTATCACTTACAGTGGAAAAAGTCACAAACCATTCAAAAAAACTCCTTGGAGAAAAGGCCAACACTCTTATCTGGCCAAACTGAAGTATGTG
TAATCTACTAATGGACATCTACCTTAAAAATGGTGTTTCTGGGCTGGGTGTGGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCCAAGGCTGGTAG
ATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCAAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCGCATTCCT
GTAATCCCAGCTATTCAGGAGGCTGAGTCATGAGAATCATTTAAACCCAGAAGGCGGAGGCTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGG
GCCACAGAGCAAGACTCTGTCTCCACTGATTTACTAATGACTTGGTTGGAGGCCAAAACCAGGATTCCCTTCTCCACTCTTTCCTTGACCCCTCCTCCAT
AGGCATGCACAATAATCAGATTCTCACTGTTTTCTTTTTTTTTTTGAGACAGAGTCTTGCTCTATCACCCAGGCTGGAGTACAGTGGGGCAATCTCAGCT
CACTGCAACCTCCGACTCCTGGGTTCAAGCAATTCTCCCTGCCTCAGCCTTCCGAGTAGCTCTGATTACAGGTGCCTGCCACCAAGCCCAGCTAATAATT
TTTCTATTTTTAGTAGAGACGGAGTTTCGCCATGTTGGCCAGKCTGGTCTCGAACTCCTGATCTCAGGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTG
GGATTAAAGGCATGAGCCACCATGCTCGGCASATTCTGTCTTCTATATGGAAAGGTAGGGCAGTGGCGTTCTGTAGGTCAGAAAATGTTAAGAAAATCAA
AAAAAGTGTTTTAGTTAGAAAGAGGGGAGATTATTTGAATGCACAAATAGAAGCTACTACTGGTCACCCATGAGAAAGCTCAGGTCAACTAACATTAACA
GGTGTAAGCTGAGAAGCCACAAGATAATAAATCCAGAGGCATCTAAGGCCTCCCTGCTAATGCTCTTTTGACCAGGTAGCCCACCTGACATGAAGCCACT
CAACATGCAGCCTGCTCTGCCTAATTCCCTGCCCGCCCTCTCCATCTCTTAGTTTTGTCCATCTGTCTCCACTTACGGCAGGGCAGAGACAGGAGAGCAG
GCCACAGAGATTTTCAAACCTATCTGAAGAGTAAGACACGTGTTTATTCAGGCAACATGTCTCGTCTAGGCAATAAAGTTGGAAGACTGGTCATGCCTCA
CACCTAGATCCTGGAGGGTGATGTATAGGAATACATTCTTCCTCACAGTGAGGGTGACTTTCTCTCCTAGACTTAAAAATCAGCARCAACATATCCTAAT
TTTCCACTCAGGTCCAGGCAAAAGAACGAGACAGCAGAGTGAGAGCAAAACATCTTAGGGAATTAAGATGAACAAATAATGGAAAATAGAAGCAGTGACT
GACAATTCGCATGGGATTTCTATGCCCAAGTTTCTTGTGGCCTCACACATGCAAAGCAGCATCCCTGCCAACGCGTAAGCTTCATGGAGCAGATGCGTCT
AATAAGACCAATGCCTAAGATTATTTTCCATCTAAATTACCATATGTGTGTGAAAGGACTGAACTGTAAAGCTGTAAAGTTCTACACAAACGCGGATAGA
AAAACCYACCCCATCTAAATCCAATGTGGTAACCTGGAAAAAGTACATTAGTGAAAAAACCGGGCTGCTCTGCCTACGGAGTGGCCATTCTGATAAGGGG
AAAAAAAGAAAAAACTGGCAAAATCTGAAAGAAGTCTAGTGTTCAATTAATAATAATGTACCAATGTTAATTTCTTAGTTTTGACAAATGCTCTAGTTAT
GTAAGATGCTGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCRGGCAGAWCATGAGGTCAAGAGATCGAGACCATCCTG
GCCAACGTGGTGAAACCTCGTCTCTACYGAAAATACAAAAAGTAGCTGGGCATGGTGGTGCGCACGTTTAGTCCCAGCYACTTGGGAGGCTGAGACAGGA
GAATCGCTTGAACCCAGGAGGCGAAGGCTGCAGTGAGCTGAGATCATACCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCACCTAAAAAAGTAAA
TAAACAAAAGCTTATAAAAAAATTAAAAATACCCAACATCTGCTCAAGAAAAAAAAAAAAAGAAAAAACATTCTATGGGAAAAAGACTTTCTAAAAAATC
AAGGTAGAAACAATGGAAAAAAGATCGATAGGTTTGACTACACAGAATAAACTTTTACACATCAAAATATGTCATGAACATGGAGTTACAAGGCAACCAA
CCATGAAAAATACTTATACACCTAAGAGGTAACACAGTAAACTCCATAAACTTAAAAAAATGAAATGCTACAGGCCTAGATGCTCTATCTGCTACAACYG
CTTCACACATTTCAAAACCGTCCAAACTCACATTCAGAATCTCCTTCAACTACATGTTTTGTCCCAACCATCCAAACCCTCTGGGTTCTCTGCAGCCTGA
GAGTTCTGCTAGAGAAAGTGGAGCTTCAATGCAGCTAACCTCTGTTTAATCTGACTATTCCTAACCAAAATCTTCTAGAATCTAAAACCTTTCCTCTTTG
AGCTCAGTATRTCAAGCTTAGCTACTTGGTGCCTACAATAGTGATCTGGTCAAACCAGAAGTGGGGGTCCTGAGAAAAGACTAAGGAGTACAAAGACTCT
GCACTGTCAAAACTAGACTCAAATTTCAGCACCAGCCAATCAGCACCAGAAGAGGGAAGTGGAAAAGCTTCAATGCATGCGAGCAGTCATTTTCCACCTG
AAGCCCCATTTACCTGGATTTTTAGAGAGACTCACATATCCAAAGAAAAAGCATCTTTTAAAATAAAATACAGTTACTCATAACTCAGCAGTTTACATTA
GAGCCAATCTATCTCAGGAATTTTTTGATTGTTGTTTCTGTGTGTTTTTAAATGTACAAAGAGACCAGAGAATTAGAAGAGACAGTGTACTTCTTTCAAA
TGTCCCTATATATAAAAAATAGTTTATATTAAGTCTAAGTTAGAATCATATTAAAAATATTAGTTATATTAAGAATTAAGAGGCAGAAGCTTGTAAATCT
CACATGACAATGAAGTTCCACACATGAATACAGAAGCCAAGAAACAAAATATTTTTCACACAGAAGAGTATGACCGTATTAAACCACCGAACTAAAAATT
CAGTAGCTGAAGGTATGCATCCCAGCTGATTAACAATCTTTCAATAACATTAGATAAACCCATGCTATAAAATATTAATAATCTGCTTCTCAAAATAATA
TTATGTGGTAACAGACAGTACTTAAGGCCAGGCGGACACAAAATGAAGAGAAAGGAATTAACCAAATCTTAACTTCTCAGGGCTCTTTTGTGATCTAATT
TGTGAATGCGCCCAGCCTCCCCTGTCTGCCTCCTTCTTGGGACATCTCATCTGGGGTCCACTCTACCACTCAACACCAAAGGAGCGAAACCAATTCTGCT
AGTCATTAACAATCTAGTGAAAGGTTTGGTAATAAATAATGAATAAGTGATGAAAATTAAAAGGGGGAAGTCATTGGCTTAAACTGACCTCCATAGATCA
CTGGTATCACTCACCTGATAGTGCTTCCTTGTATACATCAAGTTTTGGCTGTCTTGTATACATCAGAGTAACAGATCAATTCCCTATTAGTAAAATCACA
TGCCATTTTTCTCAGTCATGTGGGGGAGAAAGAACTTCACCAACTAAACATGGGTGAAGGACAGCCAAGGAGATTCCATTTATATGACCATCAGTCAGCC
AAGGAGACAAGAGGTATTTGCGAAACACAGAAAACAAAGCTAAGAAAGGGAAGAAAAAATGTGGTATCCCAAGGCTCTCAGAATTAAGAACAATACTCCT
ACCATTTCTGAACCATATGGTCAACCTTGAGACTTCTCTATTTTACAATAAATTTATAGAAAGCTGATTCCAAAGCACCTCATAAACATTATTGCTTCTA
TATCTCTCTCTAAAGAAAAGCATTTTGGCRCCAGGTATAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACGAGGTCAA
GAGATCGAGATCATCCTGGCCAACATGGTGAAATCCAGTCTCTACTAAAACTACAAAAATTAGCTGGGTGTGGTGGCAGGCGCCTGTAGTCCCAGCTGCT
CGGGAGGCTGAGACAGAATAATCGCTTGAACTCGGGAGGCGGAGGCTGCAGTAAGCCAAGATCGTGCCACTGCACTCCAGCCTGGTGACAGAGCGACACT
CCGTCTCAAAACAAAAAAAAAAAAAAGAAAAGAAAAGAAATGCATTTTAACTAGGAATGGTGGCTCATKTCTCTAATCCCAGCACTTTGGGAGGCCAAGG
TGGAAGGATCACTTGAGTCAGGGAAATCAAGGTGCAGCGAGCTATGATTGTGCCACTGTACTCCAGCCTGGGTGACACAGCAAGACTCCGTCTCAAAAAA
AGAAGCAGTTTTAGCCTAGCAGGGACCAAATGATACTTAATATTACTCTATCAAATTTCTTGCACAAAAATGCACATAAAATACAATTCTCACTATCATT
GACTACTTTTTATACTGTATCACAAAATTTTTCAAGGCATTTTAATTGGTCAAAAACTTTAAATAAACATATTCCATATAGCAATGTAATTGAGCAGCTT
GTTAATGGTCCAGAAAAAGTCTGAAAGTGATAGTTAAAATTAAAGGTTAATGTAATTAAGATAAAACTGAATGAGAGAGAAAATTTGTGGAGTTCCTATC
AGGACTTTGCTCTCCACTGATAACACAGACCCGGCTGTCACAGCCATTGAAGTTGTGAGGAGGGAGATGCAAAATCAAACACAAATAGAATGTCATAAAT
CCAAAAAGGCTGGGAACTGATGCATTAGAGTAAGCTACAATAGATAGATTCTGGGCAGCATCCCAATCCTACACTACCTAATTTATTCCCAAGTCCCTCA
GAGGCAAAGCTGGGTAAAAAGACGAAACAGAATGCGTGCCACTTTCATTCTCACTTCTGTCCCAGTATTAAAAATAATTACTAATGGAATAAGATAAGCA
AAATGTGAGCTTTCTGTCTTTTATTAAGAGTTATTGTGCATTACCCCCAAACATTTCAAATATTAGATTATTTATTTCATTATTCAGGCAACAGAAAATT
AACTCAGAAAAGTAGTTTCTACATATGAAACATAAGACTGAGTTTCTCATTTCATGGGAAAATATAACAAGAATAAAAATGGTAAAGGCTCAAATCACTT
GTAAGGCCTGGAAAAGGTGACCTCAGTGTCAACCGCATTCATCTTATGGGCTTCTCCTATGACCCAACCTCTTTTTTCTTTTTTTTTTTTTTTTGAGACA
GGGTCTCACTCTGTCACCCAGCCTTGACCTCCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCCACCTAGCTGGGACCACAGGCACTTGCCACCACAC
CGGGCTAATTTTTTACATTAGTTGYAGTGATGAAGTAGGTCTAGCTATGTTGCCCAGGCTGGTCTCCAACTCTTGGGCTCAAGCAATCCTTCCACCTAAA
CCTGTCAACGTGCTGGGATTACATGTGTGAGCCACCACGCCTGAGCAACCCAACCTCTTTAAACCTCTTTCTCTCAGATACATTAAATCCAGGCATCACT
ATTTATTTATTTATTTACTTACTTACTTATTTATTTATTTTGGAGACTGGGTCTCGCTCTGTTACCCAGGCTAGAGTGCGGTGGCACAATCATGGCTCAC
TGCAGCCTCAACCTCCCCAGGCTCAAGCGATCATCCCACCTCAGGCCTCCGAGTAGCGGGGACACAGGTGCACCACCATGCCCAGCTAGTTTTTAAATTA
TCTGTAAAGAACAGACGCCGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCAGAAGGTCAGGAGGTCGAGATCA
TCCTGGCTAACACAATGAAACCCCGTCTCTACTAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGGGTGCCTATAGTCCCAGCTACTTGGGAGGCTGAG
GCAGGAGAATGGCGTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAGA
AAAAAAAAAAGACGAGGCCTGGCTATGTTGTCCAGGCTGGTCTCCAACTCCTGCATTCAAATGATCCACCCAACTCAGCCTCCCAAAATGCTGGGATTAC
AGGCATGAGCCACCATGCACGGCCAGGCATCACATTTTAATGGCATTCTCTAATCTGTTAACATACAGTTAACAGTTAAATTCTCTGATTATTTAACAAC
TCTAAACAGTAACTCTGCCGAAAATGTCAGCTTTGGCTGATGGGTTTTGTGCGCACAGCAGAAGCCTAACTTCTTATGATATAGGTCTTGATATTCTAAC
CACTGGAGCTGAATTTGTGCCTCCGGTTTTGTGGCTAAGAGGGTCATTTGAAGCTTAAGAAACTGATTACGTGTAAAGATAATCCTGTATATTTTCTCAG
CCTATGGTAACATCACTGCTGATCAACTTTTCATGAATATTAAAACTGCCCCGGCACTAACAGCTCGGTTTGTTGTCTGAGGATCTCTGACACTACCATT
TTGCCATAGCTGTTCGTAACAATGATGTGCATTTCCCCATGGAGGTAAACACACTCTTAATAGCCAAAGATAGTGGAAAGGCACAGTTGCAGGGGAGAAC
AACATGGTCCTGTAAGAGCTTCCTACACAAAACTCTTGACTTCCCTAACTGGGACTGAAAAACATTCACACACACAAATCAGAGGTATAACTGACTCAAG
AAGTTTAAACTAATCTTCCTTTTGTCCTTGACAAGAAACTAATAAAAGAAACATCCAGTAGGATGAAAAAATTCTGAACCTAGTGACAACACTCTATAAC
ATTTAAGTAGAATTCAAAATTGCTGAGCAACAGTTTTGGAAAGCAGATACGAATGAGTCTTTAGAATGTAGTGTTCCAACTAGTAACTAGCTGGATCAAT
AGCTGAAACATACAAATAAAAGCTGTAAGACTTCATAGCTTTCTTTCATAAAAATCTTAAAAAATGTTTCATAAACCATGATTGACTTAAAGGATCAAAT
TCTTAGACTTAACCAGACATTAATAGATTAGACTCTACAAGCACTTTATCCCAGGGGATCTAATATGCCCATTACAAACTGGGATACATGTTAAAACTAC
AAAAGGAAGAAACAGTAGAAATAATGGTAATAACCTAATACCCCATGTAACATGTTTCCAAATCCTTTCCCATCCATTACAGTCTAAATTGAGTCTTTAA
TTTTTAAAAAGTGAGAAATCAGTATCTTACATTATAGTGTGTATCTTTTGCAAAGCTCTCTCAAATCCATTTTGACTCTAATTGTGTTTCTGATTAAAAA
TAATAACAGTGAGAAAGATGTTCAAATAAATCTATATCCTCTGCACAGCACTGCTGCACACCTACAGAATAACTTCCTACACTCTATAACCTACCACACC
ATTACTGTTGGAGCTTTCCATAAATACTACATTTCAATTCTATTCTTAAAATACTCTTTATCTCACGGGTGAGTATCCTTGACACCACATAAGTATAGAG
ACTGTTATTTCTGCTTACATTAGAAAAAATAACTGATTCTAAATTAGCCATATTTAAAAGGAAAAAGGGCATAAATTTTTAAATCCATGAATTCAAAATT
TTAATTTTCACCAATTATATTCTATGAAAGCAAGAAACCAAGTAGAGCTGACTCACTGGTATAGATCCTACCATGGTAAAGAGATGGTTAAAAGGAAAAG
AAAGCATTTATTTATCAGAGTTTGCAGTCATTTTATAGAGATGTGATTAATGTTTCTGAGCAAATAATGTATTTAATTTTTTTTTTTTTTTTGAGATGGA
GTCTCACTTTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCACKCCATTCTCCTGCCTCAGCCTCCTG
AGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATCCTTTTTTGTATTTTTAGTAGAGACTGGGTTTCACCGTGGTCTCGATCTCCTGACCTC
GTAATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCGGCCCAGATGTATTTAATTTTAGCTAAATAGGTAGTGAGC
ATCTATCTCCTTGTCTTCCTGGAATGTCTTCCCCTTTCTTTAGTTAAAATAACCTCAACTCTCCTTGTGAGTCCGTCCCCATTCTATATGGTCTTTATAG
AAATCTCAATTGAGAACAATACACACACACACACACACACACACACACACACACACACACCCCTAAGGGGTAGGCAAATTACTCACGGTCAATCATATGC
TCAGTCCAGGAAATTTGAATCTTATGACARGAGAATTAAACCAGTTGGTGCAGTCTTTGAGACCATGGTTACCTAAACAAACATCTATTAGGTGGTTTCT
GGAGCTTAGATCCTCTCGGCTCAGCCTTCAAAGCCTAGTTGTTCAGCATCTTCTGTGCCTATATGTTTCCAAGTGCTGTGCCTATGTTTATGTAACCTAT
CTTTTTCACTCAATATTATGGGTACCTTCCCAGATTGGTTGCTATAAATGCATGTCATCACTTTCAATGGCTGCATGCAAGGAAGGTAATATAATCCATT
TAAATAATTCCTTGTCTAAGGTTATTTCCTATTCTTTACTATGTACATATATCTGTTCTAACATTTCCTACTATTTCTTCAGAATAAATTCCTACTAAAT
GTGGACTTTCTGGGTAGAAGGCTATGCACACTTTGCATTGTGATATCTAACAGCAGCTATCTGGACTGAGTGCATCAATGTCTACATAGGCTATCTGAGA
GGACATACCTCCCTTCATCTGCACCAGCACCGAGAATTACCATCATCCTTATCATTCCCTTTCCACACCAGGAGATGCCCAAATAATAAGATCAGCAAGA
GAAGGAACAGCAGAAGTCATCATAACATGATACTTTATATTAAACTTTACCAAATCATTTCAAATCCATAAAGGACTAAATTGGGTCTAGGCCGGGTGCG
GTGGCTCACACCTGTAACCCCAACACTTCGGGAGGGCAAGGCAGGAGGATCCCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACATAGTGAGGCTTC
ATCCCTAAAAAAAAAAAAAAAAAATTTAATTGACCAGGTGTGGTGATATGTGCCCGTAGTCCCAGCTACTCAGAAGGCTAAGGGAGGAGGATTGCTTGAA
CCTGGGAGGCCAGGCTGCAGTAAGCATGATCGCACCACTGCACTCCAGCCTGGGTGACAAAGTAAGACCCTGTCTCCAAAAAAATAAAAAAATTGTGTCT
AAATTATATTGCCAACATAATCACTGAAAAATGCTGTCTTAAGTCTGCTCAGGCTGCGATAAAACCATAAACTGAGTGGCTTAAACAACAGAAATTTATT
TTGTTTCTTTTATGTTTTTAGTTTTTTTATTATTATTTAAATAAAAAATAAATAAATAGAGACAAAGTCTCGCTATGTTGCCCAGGCTGGTCTCAAACTC
CTGTGCTCAAGTGATCGTCTCACCTCAGCCTCCCAAAGTGCTAGGACTACAGGCATGAGCCACCATGCCCGGCCACAACAGAAATTTATTTCTCGAAGTT
CTGGAGGCTAAAAGTCTAAGATCAAGGTACCAGCAAGGTAGGTTTCATTCTCAGGCTTTTTTTCCTCCCTTGTAGGCAGCTGCCATCCTGCTGTGTGCTC
ACATGGGGAGAAAAAAAGCAAGCCTCCTGGTGTCTCTTCTTCTAAGGACACTAAGCCCATATGAAGGCCCCACACTCATGACCTCATCTAACCTTAATTA
CCTCCTACAGACCCCACTTCCAAATACTATCACATTGGGACTTAGGGCTTCAACATATGAACGGGGGTAGGGGGACTCAAACACTCAGTCCACAACAAAT
GGTATCTACTTTAGCTCTGAATTCTATTTATTTAATGACTAGTAAAACTGAACATTTTGTTTATTGCACATTTAGGTTTTTTTTCTTTTAAAAATGGTCT
GCTCTGATTTCATGTCTGAAACAGAAAGTATACAGGACGAACCTGAAACATCTCATCATATCGTAAAGCAAGGAAGCTATGAGATTACTAGAGACGTGTC
AGAAGGACTCAGGTGCCARCCTAAATAAGCCTACACTGCCCAAAGAGGGAGCAATTTGAGCATCGAAAGGACAGTAACTGCAATGGACTGAAACACACCA
CGTATGCTAAAATAGGCGTTCATAATGTTATGCGAAAAAATTTAAAACCCTCAACCATCACCACTGGAGGATGCTAGGGGACCAAATCATAACTTTGAAA
ACTGGTAAATCAAGGGAAATAATCAGACACTTTTCAAACCCTTCCTATACACTCTATACCTCAAGGTAACCAAATAATTGACAAAGGAGAATTTCTACAC
ACACACACACACACACACACACACACACACACACACACCTATTTCAGCTAATAACTAAATGACAGGATGTAACCATATTGTAATCCCTCCTGAACTCATA
GACCAAGTTAACATTCAAGAATGGTTGCTAGTATCACAAAAAGAAAGAAAGAAGACTTCCTGATGAAAATAATCCTGCCCTCACAAAAAAATAAAATTGG
ATTCTTTTGATTTAGCCTCTACAATGAACTACCAATGTACAGGAAACACAAGAAATAAAATAACATATTTTACATTACAAGGATGCAAAGAATAAAATTC
AGTTTCTTCAATAAAGAGTTGCAAAGAAAAAAAAAGATAGAGAACCTATAGGTTAAAAGAGACTTTAAACCATCCAACTGCAATGTATGGACCTTATTTG
CATCTTAATTCAAACAATCATATATATATATATGATATGATATAAACACACACACACACACGTACACGCCCATACACACACATACATACACACAAATATA
TACTGCAGTCAAGGAGTATTGATTGGATATCTGATGATACTAAGAAAAAATTTTTAAGGTAAGATAATAGTAYTGTAATTATTTTAAGGGGTCTTTTTCT
TTTGGAGACATGTACTAAAATATTTACAGACAAAATTATATGACAGCTTGATTTGCTTTAAAATAATCCAAGTGGAGGGACGTGAGAGGTATTGCTCAAA
CAAAACTGGTAACGTTTTAAAATTGCCAAAGCTGGGCAAGATACAGTGCTTTATTACACCAGTCTCCACTGTTAGCAATGTTTTAAAATTTCCATGATAG
GCCGGGTGCGGTGGCTCACGTCTGCAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAAGTCAGGAGTTCGAGACCAGCCTAGCCAACATAGT
GAAACCCTGTCTCTACTAAAAACAACAAAAAAATTAGCCGGGTGTTGTGGTGGGCACCTGTAATCCCAGCTACTTGGGAAGCTGGGGCAAGGAGAATCAC
TTGAACCCGGGAGGCGAAGGTTGCAGTGAGCCAAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGTGAGCAGCAGGGTGGAGTTTCAGTGCCTGTGCT
GTGTGGAGTGAAGTGAACCGGTACGGCCAGAACAGCAACTTCCTGTGTGCTCTCAAGCCTGTCAATAAGATACTGCAGATCCACAAAGATGATGTAACTG
GCCTGCATTGTAAAGTGATATGCCTTATCCAGAAAGGAAGTTTCAGAGAAGCCTTGAATGTCATCAATACTTGCACCAAACTGTTAGCCAATAACTCTCT
CTCCTTTGAAAAGGCATATTGCGAGTACAGGCTCAACAGAATTGAGAATGTCTTGAAGACAGTAGAAAGTACCAACCGGCAGACAGACAAACTGAAGGAG
CTTTATGGATAAGTGTTACACCRTTTGGAACACTATGATGAATGCTTAGTGGCATAAAGAGATCTCGTCCGAAACTCCCACGATGCTTATGATGAGGAGA
GGAAAACAAACCCTTCAGCAGTTGTTGCAGCTCAAAGCAATTGGGAAAAAGTGGCTCCAGAGAGCCTGGGCTTCCAAGAAGGCACACATGAGCTGTGCTA
AACACTGCATGTGCACTGATAGACCACGGCCAGCTGAACCAGGCCATGAACATCCTACAAAAAGCTGAAGGTCTTTGCCACMATTCATTATCAGAAGACA
CTGATGAGACTGAGGAAGACCCACAGGCAGGACTGGCCATCACTTATGGTCAGATGGCCTATATTCTGCAGCTTCAGGGTCAAACAGAGGAGGCTCTGCA
ACTTTACAATCAAATAMTACTACTAAAACCAACGGATGTAGGGTTACTAGATGTAATTGCAAATAACATCATTACCATTAACAAGGACCAAAATGTCTYT
GACTCCAAGAAGAAAGTGAAATTAACCAATGCGGAAAGAGTAGAGTTTAAGCTTTCCAAGAAACAACKACAAGCTATAGAATTTAACAAAGCTGGCCTGG
CGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCGGAGGCAGGCAGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAATACGGTAAAACC
CCGTCWCTACTAAAAATACAAAAATTAGCTGGGCGTGATGGTGCGTGCCTGTAGTCCCRGCTACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCAGA
GACGCAGAGGTTGCGGTGAGCCAAGGTCACGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACACCATCTCAAAAAAAAAACAATTTCACGCCTGACT
GGTTTTGGTGGAGACGGGGTTTCGCTGTATTGGCCGGGCGGTCTCCAGCCCCTAACCGCGAGTGATCCGCCAGCCTTGGCCTCCCGAGGTGCCGGGATTG
CAGACGGAGTCTCGTTCACTCAGTGCTCAATGGTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCRGCTCACTACAACCTACACCTCCCAGCCGCCTGCCT
TGGCCTCCCAAAGTGCCGAGATTGCAGCCTCTGCCCGGCCGCCACCCCGTCTGGGAAGTGAGGAGTGTCTGCCTGGCCGCCCATCATCTGGGATGTGAGG
AGCCCCTCTGCCTGGCTGCCCAGTCTGGAAAGTGAGGAGCGTCTCCGCCCGGCCGCCATCCCATCTAGGAAGTGAGGAGCGCCTCTTCCCAGCCGCCATC
ACATCTAGGAAGTGAGGAGCGTCTCTGCCCGGCCGCCCATCGTCTGAGATGTGGGGAGCGCCTCTGCCCCGCCGCCCCCTCTGGGACGTGAGGAGCGCCT
CTGCCCGGCCGAGACCCCGTCTGGGAGGTGAGGAGCGTCTCTRCCCGGCCGCCCCATCTGAGAAGTGAGGAGACCCTCTGCCTGGCAACCACCCCGTCTG
AGAAGTGAGGAGCCCCTCCGCCCGGCAGCTGCCCTGACTGAGAAGTGAGGAGCCTCTCCGCCCGGCAGCCACCCGATCTGGGAAGTGAGGAGCGTCTCCG
CCCGGCAGCCACCCCGTCCGGGAGGGAGGTGGGGGGTCAGCCCCCCCGCCCAGCCAGCCATGCCATCCGGGAGGGAGGTGGGGGGTTCAGCCCCCCGCCT
GGCCAGCCGTGCCGACCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGGTCAGCCCCCCGCCTG
GCCAGCTGCCCCGTCTGGGAGGGAGGTGGGGGGGTCAGCCTCCACCCGGCCAGCCGCCCCGTCTGGGAGGTGAGGGGCGCCTCTGCCCGGCCGCCCCTAC
TGGGAAGTGAGGAGCCCCTCTGCCCGGCCAGCCGCCCCCGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCCTGTCCGGGAGGGA
GGTGGGGGGGTCAGCCTTCCGCCCAGCCAGCCGCCCCGTCTGGGAGGTGAGGGGCGCCTCTGCCCGGCCGCCCCTACTGGGAAGTGAGGAGCCCCTCTGC
CCGGCCAGCCGCCCGGTCCGGGAGGGAGGTGGGGGAGTCAGCCCCCCGCCYGGCCAGCCGCCCCGTCCGGGAGGTGAGGGGCGCCTCTGCCCGGCCACCC
CTACTGGGAAGTGAGGAGCCCCTCTGCCCGGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCCTGTCCGGGAG
GGAGGTGGGGGGGACAGCCCTCCGCCCGGCCAGCCGCCCCGTCTGGGAGGTGAGGGGCGCCTCTGCCCGGCCGCCCCTACTGGGAAGTGAGGAGCCCCTC
TGCCCGGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCG
CCCAGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGGTCAGCCCCCCTGCCCGGCCAGCCGCCCCGTCCGGGAGGTGAGGGGCGCCTCTGCCCGGCCG
CCCCTACTGGGAAGTGAGGAGCCCCTCTGCCCGGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCCTGTCCGG
GAGGGAGGTGGGGGGGTCAGCCCTCCGCCCGGCCAGCCGCCCCGTCTGGGAGGTGAGGGGCGCCTCTGCCCGGCCGCCCCTACTGGGAAGTGAGGAGCCC
CTCTGCCCGGCCAGCCGCCCGGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCACCCGGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGGTCAGCCC
CCCTGCCCGGCCAGCCGCCCCGTCCGGGAGGTGAGGGGCGCCTCTGCCCGGCTGCCCTTACTGGGAAGTGAGGAGCCCCTCTGCCCGGCCAGCCTCCCCG
TCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCACCCGGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCCCGTC
CGGGAGGGAGGTGGGGGGTGTCAGCCCCCCTGCCCGGCCAGCCGCCCCGTCCGGGAGGTGAGGGGCGCCTCTGCCCGGCCGCCCCTACTGGGAAGTGAGG
AGCCCCTCTGCCCGGCCAGCCGCCCGGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGTCCCGTCCGGGAGGGAGGTGGGGGGGGTC
AGCCCCCCGCCCGGCCAGCCGCCTCGTCCGGGAGGTGAGGGGCGCCTCTGCCCGGCCGCCCCTACTGGGAAGTGAGGAGCCCCTCTGCCCGGCCAGCCGC
CCCGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCTCGTCCGGGAGGTGAGGGGCGCCTCTGCCCGGCCACCCCTACTGGGAAGT
GAGGAGCCCCTCTGCCCGGCCACCACCCCGTCTGGGAGGTGTGCCCAACAGCTCATTGAGAACGGGCCAGGATGACAATGGCGGCTTTGTGGAATAGAAA
GGCGGGAAAGGTGGGGAAAAGATTGAGAAATCGGATGGTTGCCGTGTCTGTGTAGAAAGAAGTAGACATGGGAGACTTTTCATTTTGTTCTGCACTAAGA
AAAATTCTTCTGCCTTGGGATCCTGTTGATCTGTGACCTTACCCCCAACCCTGTGCTCTCTGAAACATGTGCTGTGTCCACTCAGGGTTAAATGGATTAA
GGGYGGTGCAAGATGTGCTTTGTTAAACAGATGCTTGAAGGCAGCATGCTCSTTAAGAGTCATCACCAATCCCTAATCTCAAGTAATCAGGGACACAAAC
ACTGCGGAAGGCCGCAGGGTCCTCTGCCTAGGAAAACCAGAGACCTTTGTTCACTTGTTTATCTGCTGACCTTCCCTCCACTATTGTCCCATGACCCTGC
CAAATCCCCCTCTGTGAGAAACACCCAAGAATTATCAATAAAAAAATAAATTTAAAAAAAAAAAAAAAACAATTTAACAAGGCATTACTTGCTATGTACA
CAAACCAGGCSGAACAATGCCTCAAAATATCTGCCAGTTTACATTCCCAAAGTCCCGAGCATCTCTCACCTATGTTAACCCAAGSTGCCCAGCTCTGCGT
GAAAAGCAGCACACAAAAGCAATAGAGCTGCTTCAGGAATTTTCAGATCAGCATCAAGAAAATGCAATTGAAATTAAGCTGACCATGGCACAGTTGAAAA
TTTCTCAAGAGAATATTTCTTAGCATGTCTAATATTGAGAAGCAGAGAGGAGTTAAAGCAGAAACCAGGCATGGTGTCTGCATTAGTGACCATGTGTAGC
CATGAAGAAGATTTAATAGTACCACTGATGTCTTCACACAAGCTATCTGGTGGTATCAAAACCATCAGCTCAAATCTCCTGCTCATTTGTCCTTGATAAA
AGAAGCTGCAAACTTCAAGCTCAAATATGGGCGGGAGGAGGCAATTAGTGACCTAGAACAGCTATGGAAACAAAATCCARAAGATATTCATACCCTGGCA
CAGTTTATTTCTGCTTACTCACTTGCAGATCCAGAGAAAGGCACAGCTCTTAGTAAACATTTGCCATCATCAGATAGTATGTCWCTAAAAGTAGATGTTG
AGGCTCTTGAAAATTCTCCTGGTGCTACRTACATTTGGAAGGGTGGAAAAGTTACTAGAGATAGTCAACCAAAGGAACAAGGAAAGGGAGATTTGAAAAA
GAAAAAGAAGGGAAAATTGCCTAAGAATTATGACCCAAAACTTACCCCAGATCCAGAAAGATGGCTGCCAATGCAAGAATGTTCTTTCTACCAGGGAAGA
AAGAAGGGTAAAAAGAAGGATCAGATGGGAAAAGGGACCCAGGGAGCAACTGCAGGAGCTTCATCTGAACTGGATGCCAGAAAAACTGTGAGTAGCCCAC
CCACCTCCCCAAGACCTGGCAGTGCAGCGACACTATCTGCCTCTACAAGTAACATCATACCCCCAAGACACCAGAGACCTGCAGGGGCTCCAGCAACAAA
AAAGAAACAGCAACAGAAAAAGAAGAAAGGTGGAAAAGGTGGCTGGTGATGAGAATATTCTTGTTGAAGGCTGTTTTTAAACTAGTCTCGGTAACATTAG
GAATATAATAAAGGTAATACAGCAAGAAGCACAGAACTGCTCCCTCTTCATCTCCATATTTTCATAAATAATTCCTTGTGTTTCAAATGGAAAACATCTT
CCTCAAAGTCTGCCTAGTGAGATATGGCCTACTGGTTGCCTCATAGCTTTGTACAGATTATGAGGACTGAAAATATGGCCGGGCACGGTGGCTCACACCT
GTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACAAGGTCTGGAGTTTGAGACCAGCCTGGCCAACACAGTGAAACCCTGTCTCTACTAAACAT
ACAAAAATTAGCTGGGTGTGGTGGCACGCACCTGTAGTCCCAGCTACTCGGGTGGCTGAGGCAGAATCGCTTGAAACTGGGAGGCGGAGGTTGCAGTGAG
CCGAGATGGGGCCMCTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAAGAATTG
GGCATTTACCCATCTTGGTATCTGTTGTATCCTTTATCTGTGTGTGCTGATTTGATCTTTTTTCAGCTTCACAAACCTTATCTAAGGTTTTCCAGGATTT
AAACAGAAACTACTTCTACTATTTCAGCTAGAGTCTGAAGACACTTCTTTCTGTTCAAGTTCCACTTTAAATTATGGAGGCCTTAGGTGACTGAAAGTGG
AATCTTCTGAGCATTCCAAAATATCTGCTTAGAAATATCATGTGATAAAGAGGAACTTTCTTAATACACTGATGTTCTTCACTTAATTAAATGAATGGCC
ACAAGAAAAAAAAGAATTCCATGATAAATAGTTGAAATGTAAAGAAAAAAAGATCTGCTCATGTCCTTAGCCCATTTTTCTAATGAACTGTTCATCTTTT
TCTTATTGATTTTTAAGGGTCTATATAAATTGAGATGTTTAATATATGTTGCACATATTTTTCCAGTTTGTCATTTGTCTTTTTGCTCATGCCATTCTTC
ACTATACAGACACTGAAAATAACATATGCTGTAAAAACTGCTGTCAAATCTTTTACTTTATAGGTTTCCATTTGGTGTTAAGCTTAGAAAGACTTTTCCC
ATACTGGAATTCTATTAACATTTACCTACATTTCCCTTTAAGATTTATTGAATTTTAAAGGAGCCCTATAAATGAATATACCTTTCCATTCAGCAAAATA
TACCACCACTACAACATTAGCTGGGAAATAAAAACAACATCTGCATCAGCCGCAATTTCAGGAAGATGTGCTGGAATGTCATCATCCATATAGAAGGGAA
GTGATAGGACCCAGCAAGGATTTAACACACGTACTGGTTTTATCCCCCATGGGTCCTYATTTTAAAGAGTTTCTATGCATTAAACAATAACGAATTTGTT
TTAACTAATTTAATTAATTTAATTTGTTTTAATAAAATAAGTGTTCTATAACTTCTAATCAGAGTTCCTGATCATTGCCTCGTGGTCTTTTCACTAAGGT
CAAATACAAGGTTCCTGATCATCATGAAGTACCACAGTTACTAACATTTAGTATACAAAAATCTAGAACGTTTATCAACAAAATGTGGTATATACATACA
ATGGAATATTATTCAGTTTTTAGAAGGACAGGAATTCGGCTGGGCGTGGTGGCTCATGCCTGTAAACCAAGCACTTCGGGAGGCCTAGCTGGGAGGACTG
CTTGAGCCCARGAGTTCAAGACCAGCCTGGGCAACATAGTGAGACCTTGTCTCTAGAAACAACAGCAAGAACAAAAGGATGCAAATGCTGACACATGCTA
TAACATGGATGAACCCTGAGGATATCACGCTAAGTGAAATAAGCCAGTCATGAAAGGGCAAATACTGTGTGATTGCACTTACATGAGGTACCTAGAGTAG
TCAAATTCATAGAGATAGAAAATAGAGGGGTGGTTTCCAGGGGCTGCAGGGAGGGGAAAAGAAAGAGTTGGGGTTTAACAGGTCTGGAGTTTCAGTTTGG
GAATCTGAACAAAGTTCTGGACAGAAGTGATAGTTGCATGACAACGTGAATATACTTAATGCTACTGAACTGTACACTGAAAATTTAAGTTTTTTTTTTT
TTTCTTTGAGACAGAGTTTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGTGCAACCTCTGCTCACTGCAACCTTACAGCAACCTCAGCCTCCCGGGTTCA
AGCAATTCTTTTGCCTCTGCCTCTCAGGTAGCTGGGATTACAGGTGTGTGCCACAGCAACTGGTTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACC
ATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTAAAGGGATCCATCTGCCCCAGCCTCCCAAAGTACTGGGATTATAGGCGGGAGCCACCACACCCAGCC
AGGATGATAAATTTTATGGTATGTACATTTTACCACAAAAAATTAGTATGTTTAGTATGTTACAATTTAGTAACTAAATTAACATTATCTCAGCCAAATT
AAAASACATTTGACATTTTAATTACATATTCCATGAAGTCTCACTAAAGACAAATGTACAATTTCTGTAAGGCTTTTGGTAATACTGAAATGCTGCACAG
AATGCTAAACAGAAACCCATGCAGTAACTAAATCACAGCATTTCATAAGAGGTTGTACTCAGTTTTTAAATGCATTTTACAAATCACATGCATAGCTGAG
CCACTCTATCTTCACTCTCTCCAGGAGATTGTTAATTGATGTTGCAAATGAGTAGAACAGATGAATAAAAATTCCGACCTAGCTTAGCCATGCACATGGT
AGCCACTCCACAAACCTTCCTGAATTCAGATACTGGAATCTATAGCAAAATCAAAAAGAAAACCTGGGCTTCCCACTGTCCTATAAACTATCCAGTGAGA
GGGCTGAAATTTGGCCTGAAGGAAGGCTGCTGTCTCTTGACTCTTCCATTACTCGCCATCTCAGCATCAATGTTGGATGATTCCATTTAAAACAGGCTTC
AGGTACCACACATTGCTTTATGGGTTAAACATCTTTTTCTATTCAGAGTTTTGGTAGGTAAAAAACTGTGAATAACCAAACTGCCACTCTTAGAGCTCCA
TATGCAAGGCTGAAAGATAAATATGATTTATACACACAAACTCTTTCTAAATGAAGAGGACATTATTTTAAAATAAACAATAGTAAATGCATAAAGTTCG
TATTTCTCAACCACAGGAAGCAATCATGACTTCCTAATCATCTTCCATGTATGAAAGTTCCATTGTGTTGAAAACATTTTTCTCCATATTCCTCCCTCTA
ATTCAGCACTACGGACTTTAACTCCGGAAGCCAACACCTCCCCACATCATGTAAAAAACAAAACCAAAAATAAATAAATAAACCTGCTACTTCCACAGCC
CTAATATAGAGCTCTTAAAATTCTTAAAGGAAATCCACATCGTCTAACAACTTTCACACAAATTAAGTACTATTCTTTAAACTGAAGAACTAAACATCAA
ATTTAGCTATTCACAATTTATTCATATCATCACTTCCATGCCAGTTACCTATCAAGGACTTCACTAGAAGACAGGACACTTGTGACTCTCCCATTCAGAA
TATGGCTATCACTGCACAACGCGAGATGAGTGTGCCCATGGCCTCTCTGGATTGCAGTGTGGCTATGTGCAAGGTGCCCTGTCACTTCTCATCCATCACA
ACCTCACACCCCAGCAATCTGGCGCTGCGGAGCCCGGGGAGAACTTTCCAGGACCACCGCACCATTCCCAGCGGGTTTGTCTGCAAGAACTTCAACTAAG
AAATGGAGAACCCAGACACGGAGGAAGAGGCACAAAGGAAGGGACCCACACCCACACCTGCAACGGGTTTTTACGTCCTTCAAAACCTTAGAAATAACTT
CCTCTGTGCTTTTTCATAAACCTGCCTATTGCAATGACTTAAAGGATATCCTTAAGGTGCTGAACTACTGTAAAACAAAAGGGCGTGGGGGAGACCCCAA
AGAGATCCAGGAGACAGTTCCTGGCGAGGGGAGCTGATTATCCCCGACAGGAAAGTCTTAAGAGACTTTCTGATGACAAGGGCAGTTCAGCAGGTAGAAG
GAATTAGGACCCTAACGGACCTCAACCTCGGAGAGGGCTGTGTCACCCTCGTTTCCTTCCACAAAGCCAGACCACCCTCACCTTCCCATCCCTGAAGCGG
TGTCGCCACAGGAAGAAGTAGACACCTCCCAGCTAATTGCCCCAAGCGGGTCAAACTTCGGAATCGGCGTCCTGCTCTGCGTTGTGGAGCGCATGGCAAA
GAGGAAGGGTTGGTGCTCGGAACARAATCTCCGTGATTTGCCAGAGGAAACAGCACAGACTCCAGACAGCAGAAGCGCCGGGATTTCCATGCAGCTGCCA
CGACAGGTGACCCGGCCCGCTCTGCAGTCACCCGGCTCGCCCGGGGGCTTCGCGGAAGGTGGGGCAGGCGGGCTGGGGAGACTGGTCCGGCAGGGGAGGT
GGCGGCGCGGCCGGGGAAGCCGCTCGGGCCCGACGCCGGGGAGGAAGAGGAGGAGCGCAGCCCAGTCTCCCTGGGGAAACCGTTTTCAGGGATTTTCTGT
CTCCACAATTAAGAAAAAAAAATGGCTCCAAGCCAAACGCCTCCCGATCTCACACACACACCACACGCACCACCCCACACGCACGCCCGCCCCGCGCTCA
GCTTTCGCCCCATTTTCTCACACGCGGAGACAAAAGGCTCCCACAGCCAAGCAGCGGCCACGGCCGCCGGGCCCGGGTCAGACGCCCCCTTGCGCCGCCC
CCTCCCAAGACTCCCGCAGCCACCGCCCCGACCCCCGCCCGCCGCGCCCACCAAGCCCGCCGCGCAGACCCCGGGGCCCACCGCAGGGGCACACACGCCC
GGCGGGGCAGGGACGACGCTCGGGCCGGCGCCCCCTCCCGCGGGACTGCGCGGCGGCGACAGTGGCCCCGCGCCCGCTCACCTCCGGGCGGCCGTGGCGG
CAGCCCCAGCGGCTCCTCCGTGCCTCTCCGCCTCCAGCAGCCCCGCATCGCCGCCGCCGCCGCCTCCCCCCGCGTCTCGGCCGAGTCTCCGCCTTCCTTC
ACCGCCGCCGCCGCCGGCCCGGCTGCGCGCCACGTGACCGCGCCACGTGACCCGGCGCGGCGAGCGGCGCCTCCCCCGGCCGGCGCTACCGCCCCGGCCC
CCACCGCCGGCCGTTGGCGCCCCCCGGCCGCCCTCCCTCCCCGGCCCAGGGCTCGCGTCCCCAACGCCACCCCGCGGGCCGCCGCGCCGCCCGCCACCGG
AGCCGCCGCCTGCCCGGGCCACCTGCTCGCACCCCCGGCGTCGCCACCCCGGGAGACCCCCGCCCCCGGCCCGCACCGCGCCACGGTGCCCAAGATGCCC
ACAGTGCCGGGCCTAGGCCTCCAGTCTCCTGGCTCGGGACGGCCTCAGCACCCGGGCACCGCGCGGCTTGCGCGCCGTCTGAACTTCGTTTGAGCCGGAA
GTGGACGTCCCAGTCCCATTATGTCTTACAGGGAAAGCCGCCGGGAGCACAGAAGCGCTGKCACCACCGACCCGCGCAGCTCCCCGGGAAAACGGTCACC
CGAGTGGCCGCGATGGTAACATCCCAGAGGATCTCTTCTTCAGTTGTCCATGGAGAAAGGACCGGATAGCGTCATTTTAACTCAGGGAAGAACAATTCAC
AGCCTTCCCCCTCCTGTTAAATTTGATGGATGTCCTGCTAACAACGAAACTTGATAATCTCTTCTTTTTCCAGCTTGTGCAAAGAAATAGCATAGCTGAT
TGTGTGACTCTTCACACGTGTAGTTTAAAAAAAAAAGCATTCTTTTTTCCTTGATTTGAAGCATTAGAGGCCCCATATAGTTAGGAATAGCAGCGACTCT
TCCGCAAGGGCTCAGCGTTGTTTTCTGTTTTGCCTGTCTGCAAAAGTTTTCGAATCCGTTTCAGACTTAAGAATTACTGATTCTGTGAATTTTGTCAAAA
AAAAAGTTGGACCGAGTTTGTTAAATTCTGAAATTCCATGAATACTCGCCTCAGCCTCCCGAGTAGCTAGGGACTACAGGTGCCCGCCACCATGCCCAGC
TCATTTGTGATTTTTTTTTTTTCAGTGTAGGAGTTTCGCTCTGTTGCCCTGGCTCATCTCGAACTCCTGGCTCCAAGTGATCCTCCTGCCTCTGCCTTCC
AAAGTGTTGAGATTACAGGCATGAGCCACCACACTTGACCTAATTTTACAAATTTTGACAAATGCTACCTAGACTTTTTTTATTTTTAAAAAGGTAAGCC
AAGCGTGGCGTGTAGTCCCCAGCTACTCCGGAGGCTGAGGCGGGTGGATCCCTGGAGACCAGGAGCTGGGGGCCGCAGTGAGCTATAATCATGCCTGTGG
ACTCCAGCCTGAGCATAGCGAAACCCGGCTCTAACACAAGAAAATTAAATATTAATTTAAAAGTAACTGAACCAAGAATAGTTGCCTCATGTTTGAATGC
GTATAAATATAATGCATTTAACTGTGGTCCCAGCTACTCCGGAGGCTGAGGCACGAGAATCCTTTGAACCCCGAGAGGCAGAGGTTGCAGGGAGCCGAGA
TTGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAGAGTATATATATAATATATATGTATAACGCATTTAATAGAAGCATTAA
GATCAGCATTATTTGATTATATTTTATAAGCACTCCAAAACTTAATTTTGAAAACCTTAAGAAATAAAACTACATTTACATCTTAGAGTACCTTAAAAGA
TAATCTTCGCTCAATGTAATTAGTATTGCACTTCAGTTTAGTGCTCAATGTTATGTTAAATACTGTGGAGAGATCAAAGGAAGAATATGATATGGCCCTT
GCCTTCAAAATTTACAATTTCTGTACAGAATTACTTTAAAATGTGTGCATAACTTTTTTGTTTGTTTTTTTGAGACGGAGTCTCACTCTGTTGCCCAGGC
TGGGGTGCAGTGGTGTGATCTCCGCTAACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTGCTGGGAT
TACAGGCGCTACCACCATGCCCATCTAATTTTGTATTTTTAATAGATACGAGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTTA
TCTGCCCACCTCGGCCTCCCAAAGTGCTGGAATTACAGGCATGAGTCACCACTCCTGGCCAAAATATATACATAACATTTTTTAAACCCTTTCTCTCTTG
CGCGCGCGCGCACACACACACGGATCAGGGATCAGCATTCATTTGCTTGGCCCTGGCCTGGAGCAAATTATGGAAATTTTGACCCTTGCTGTCAGACTAA
AGAGAAGAAGGATTAAAGATGAACTTTCTTGACTTAATAAATACAATCTATGTAACAGTATAAAAATGATACAACAAATACCATCAAGACTGAATGATAC
AGGTGTTCTTGCTTCTGCAAAATGAAAAAAAAAATACAAACCTTGAAACTACTCTTCTAATAATACCATAGTTTTCCATAAGGCCCACAGGTATAAACTC
TCTCTTATCCAGCACTCTTGGGTACAAATACACCCAACTCTCAGCAAAACTGAGAAGTCCCTCAAGTTTGTTTTCTGCCTGTGTCATTTTGCACAGTGTC
AGTGGTTTTGCGAATGTCTTTGGAGCAAATATCTTCACTGAAGTCCTGGTTCTACCACTTACTAACAAGTGACAAACAAGAACAATATTCCAAATGCTGT
GTCTTTAGCCATACATTCAAAAAACAATATCTCCCTCACAGTGCTGTTGAAATAATCAAATAAAATATGTAAATTATATGCCTGGCACACAAGAGGTGCT
CAGTCAAAAAATAATAYTTGGGCCGAGCACAGTGGCTCATGCCTGTATTCCCAGTACTTTGGGAGGCCAAGGCAGGTGGATCACCTGTGATCATGAGTTC
AAGACCAGCCTGACCAACGTGACAAAACCCCATCTGTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCACACACCTGTCATCCCAGCTACTTGTGAG
GCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCACCCTGGRAGACACAGCGAGACTCTCTC
TCAAATAATAATAGTAATAAGCCGGGTGCGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACCTGAGGTCGGGAGTTTG
AGTCCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGCATGCCTGTAATCCCAGCTACTTGGGAG
GCTGAGGTAGAAGAATGGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATTGTGCCATTGCACTCCAGCCTGGGCAAAAAGGGCGAAACTCCGT
CTCAAAAAAAAAAATACTACCACTACTAACAATAATACCTCCAACCTGAACATGGTGAAACCCCGTCTCTAATAAAAATACAAAAATTAGCTTGGCCTGG
TGGCGGCCGCCTGTAGTCCCAGCTCCTCAGCAGGCTGAAGCAGGAGAATTGCTTGAACCTGGGGGGCAGAGTTTGCAGTGAGCCAGGATTGTGCCACTGC
ACTCCACCCTGGGCGACAGAGTGAGTCTCCATCTCAAAAAWAATAATAATAATACCTAAGGACCAGACACGGTGGTGGCACGCACCTGTAGTCCCCTGCT
ACTCGGTGGCTGAGGTGGGAGGATCACTTAAGCCCAGGAGTTGGAGGCTGCAGTGAGCTGTGATCAGGCCACAGCCCTCCAACCTGGTCGACAGAGTGAA
ATCCTGTTTCTGAAAAATAACAATGATAATAATAGCTAAGTTTTATTAAATGCTTACCGTGGGCCAAACTCTGTGCCTTGTTCGTTCTTATTTTTGCTGT
TCTTTCTGTCCCTGTTTCCCTCAGTGTGTGCCTTCTGTCCCCTACCTTACCCCTGCCCCCTTAGGAATCTATTCTCCCTCTGCATGTTCAGAACAAAAGT
GATTTAAAACTTTTAAAACTCATTTATAATAATCTATTACATCTGTTATGAATTTTTTTTTGAGACAGGATCTTGCTCTGTTGCTCAGGCTGGAGTRTAG
TGGTACAATCTTGGCTCACTGCAGCCTCAACCTCCCAGGCTCAAGTGACCCTCCCAGCTCAGCCTCCCGAGTAGCTAGGACCACAAGTGCACACCACCAC
ACCAGGCTAATTTTTTAAATTTTTTGTAGAGACGAGATCTCCCTGTATTGCTCCTAGGCTCAAGCCAGTCTTCCTGCCTTGACTTCCCAAAGGGCTGGGG
TTACAGGCATGAGCCTCCCAGCCCTTTGGGAGGCCTGCATTTTATGCTTCTCTAAAATCCTTTCTAATTGTGAAATGAAAAATGTTGCTGCTTATTTAGA
AATCTGTGGCATTTGGGAGCCATTAGGAGGGAGATCTGGTAATGGGGACCCTTCCACTGTCCTTTGAAATCCCACACGTCCAATTAGTCCCATTTTGTTG
TGTTTAAATACTTTTAAACAGTAGATTTTGGCAACACACTTGAAGAAATTAAAACCGCATAATAATTGCAAAATGATAATTGCTGTAAGAAACAGCATCC
CTCATGTGGCATTCGTGATCGTGACTGTCAGCTGGTGGGCCTGTAGCTCTAGAGTCAAGTTTGGGAAAAGCTTCTTACTACCCTGACCAAGCTCCCAAAA
GTTCTGAGATACGTGACCTTTCTTTGAAAGTTACTCTTCAAATAACTTTGCTTTGCATCTGCCTTGGGTCACACAGTGAGCTCAGAGCCCAACTGAATCT
GATAGGCATTCTGGTAACAGTGTATCTTGACCACTTATTAAAACGTGGCTGTGCTCCTGGCGGTGGTTAATCACCACTGTCCTACCCTAAGGCTGGGCCT
GGGGGCACAAGGGATCCATAGTCACAGCCAGCCAGGCACCTGGGTTGGCCTCTGTTCCCTTCCCTTCTCTCCACACTTCTTTGCACCCCTCCTTGGCCAT
CATGTTCCTCTAAGACATCCAGACAATGAAGCTCCAGCAGCTCTTCTTGCAGGCCTCTTCCCTGCCTCCCTGTCACCAAGCAGCCTGCTGGGCAACTCCC
CTCCTTCTTGGCTGCGACATAACTCAGAGTCCAAAGTTTCTGCTGTCTCAAGCCCTTCAGCCACCAAGACACTCAGCACAGGGATAGGGAAACTGGATCC
TGGACATAAGGAGATGGCRGAGGAGTCAGAGCTTTTGAAGAATAAGATGCAAGCCCCTCCCCTTTCGAGGTGTCCTGAGAGCCAAAAATGCCAGCACCAG
CTGAGGCTTCATCACTGGAAACCCAGCGTCCGGCACCAGGTGAAACGCYGTAGCCCCGCTGTGCTCCGCTCAGCCATGCCACCTGCAGACTGTCCTGCAG
TTCTGGAGGCCACCACAGCCACACGTGAAGAAACAGTGATGAGTTGCAGCACATCCTTTGAGGGTGGCCAGGATGGTGAGGACTCCAGAAGCTGTCTTAC
AATGTCATACAGTTTTATAAACACCTGAAGAAGAAAATAAGAATGTTTAACCTGGGAAGAAACACACTTACAAGCCTCTGCTGGTGAACTTTGTCCCATT
GAGAGCAATTGTATGGGAGGGTTGTTCCTTTTTTTTTTGTTTTTTGTTTTTTKTTTTTGAGACGGAGTCTTGCTCTGTCGCCAGGCTGGAGTTCAGTGGC
GCGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCTAGYGATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGACTACAGGTGCATACCACCATGCCC
AGCCAATWTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGATGGTCTGGATCTCTTGACCTCRTGATCCACCCGCCTCGGACCCCCAAAA
TGCTGGGATTACAGGTGTGAGCCATCAYGCCCGGCCCGGTTGTTCCCTTTTGATTATTTATTGAGCTTCTACTTTAAACCAGGCAGTGTCCAAATGAGAA
CAAGTGTGTGGGAACCTATGAAGGGGCTTTGGATCAGAAAAGGAAGGGCCTCTGCTAGGGCAGTCGCCAGGGAGGTGTGTGGCCTTGCAAAGTAGCCTTA
GCCCACCCACTTCTATCTTTTGACTCTGATGGCCTGGCCTGGACACACAGAATGCAACCCGGGGTCCTACTCACCCTCTGCCTTAAAGGCTCGAGGCTCT
AATCAGCTAACTCGTCCCCTTCCCAGCCTGCTCAGAGCCTCCCAGAGCAAAGTAATACCTGGACCAAGATCTAGAACCAAAAGGCCTGCTTGGTTCACTC
TGGAAAGGAGAAGATGGCTTACAAGAAAAGAGAGCTTTTGTCCTTGTCTGCTTCCCCCATTCGGGAGAAGGGAAGAGGTGAGCGGGCTGCGGTACTTTGT
ACACACTTGAAGCGCCACTCTCCTTCCTCCCGATCCTTTCATTGCTGAGGTGGTCCTTTAGGGCCCTGAATTCTGAGCAGACTCTCAGTAGATGCACATC
GTTGGGTACACATTTTCTTTTTTTTTTTTTTTTTTGAGACAAGGTCTTGCTCTATTGTCCTGGCTGGAGTGCAGTGTCGTGATTACAGCTCGCTGCAGCC
TCAACCTCTCCAGGCTCAGATGATCCTCCTGCTGCAGCCTCCTGAGTAGTGGGACCACAGGTGCATGCCACCACACCTGGCTAATTTTTTTATTTTTTGT
AAAGATGGGGGTCTCACCATCCTGGCTAACAGTAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCTGGGCATGGTGGCAGGTGCCTGTGGTC
CCAGCTACACGGGAGGCTGAGACAGGAGAATGGCGTGAACCTAGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACA
GAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAGGGGGGGGTCTCACTATGTTGCCCAGGTTGGTCTCAAACTCCTGGGCTCAAGCAATCCACCCACCT
CGGCCTCCCAGAGTATTGGAATTACAGGTGGGAGCTGCTGCACCTCGCCCACACTTTCTTTAAGCAGGATGGTGGACAGTTCAAAAGGCATTGACTTGGG
GCCAGAAGCAGTGGCTCACATCTGTAATCCCAGCACTTTGGGAGACCAAGGTTGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGACTGGCCAACATA
GTGAAACCTCGTCTTTACTAAAAATATAAAAATTAGCTGGGTGTGGTGACGCACGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTT
CAACCCGGGAGGCGGAGGTTGCAGTGAGCTAAGATAGTGCTACTGCACTCCAGCCTGGGGATAGAGCAAGACTCCGTCTCAAAACAAACAAACAGCAACA
ACAATAAAAAGGCACTGACTTGGTCTTAGGTAAGCAGCTGTTAAGGCAGGTAGCCATGACTCTTTGGGGAACAATTTTTTTCTGGTAGTTTTCGAAAAGC
TTCCCCACCTCTTGTGTAGAAGTGTTCCCTGGGGCCGGACACGGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCTGAGGTGGGTGGATTAYCTGA
GGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCCATCTCTACTAAAAATACAAAAAAAATTAGCTGGGTGTGGTGGCACGCACCTGTAGT
CCCAGCTACTCGGGAGGCTGAGGCACGAGGATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGGTCGCACCACTGTACTCCAGCCAGGGTGAC
AGAGTGAGACTCCATCCCAAAAAAGAAAAAAAAGGAAAATGTTCTCTGGGACAGAGGAAGAGTGATTTTATTAAAGAAACTCGCGTTCCTCCTGGAGGAA
AGGGATCAATGACCCCCACACCTTCCTCTACAAGGCTCAGCGTGAAGGGTGTGACAGGCTGGCCCTGTACAAGGCCTGAGGCAGGGGAGGGCTGGAGGCC
TTGAAGTTTGGTGACTGAGAGAGCAAAGTGAGATGGAATCCGTGATTTACTTGTGGGGCCACGTGGGAAGGAGCCAGAATGGAGGCCCAGGGCTGGGAGG
TGTCCGTGCTGGAGCCAGTTTTGAGCCAAGCCTCAGGAAGCTGGCTGCCTTCTGCAGAGCTGCTGGGTGGGAGAGCCGTGGAGCTGGCAGCCGAGGGTTG
TCACATCTGAGCCTGAAGACTACTATAGCTGAAGCATCATTCACTGGACGTGACTTCTCTCAAATAGTGATCCCCTTAAATGCTTTGGTCTTATCTGTCG
TGTAGAATCTGTTCTATCTGGTTTTGTGTTTGTGTTCACCACCACTTGGAAGAACTAAYTGAGACTTCTGAAGAATAGACGGTCACATGGCCTGGGTTCT
CATCTGTGCCGCCACCTGGGCACACCACTACATCTCTCCAGCCTCCATTTCAGAGTCTATGAAATGGGCAGGGGGCATTGTTCCCTGACCCTTCCCAACT
CAAAAGCCCTGTAGCTCTTTAAATTCACTCATATAAATATATATAGGGCTCTTTTCTGACCCATGATTTTGCTGTAGTTTGGAATATTTATATCAACCTC
CCATAAGAAGTATCTTGAAAACATTTTTTTAGGGCCAGGCGCGGTGGCTCCTGCCTGTAATCCCAGCACTTTGGGAGTCCAAGGCGGGTGGATCACCTGA
GATCAGGAGTTCAAGACCAGCCTGGCTGATCTGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGGCTGCCTGTAATCCCA
GCTACTCTGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTGGCAGTGAGCCGAGATCGCACCATTGGCCTGGAGCAAGACTCTTGCAC
CGTTGGAGCAAGACTGTGTCTCAAAAAAAGAAAAAAATAAACAAACTTTTTTTTAGAAACAGAGTCTCGTTCTGTCACCTAGGCTGGAGTGCAGTGGCAT
GCTCTTAGCTCACTGTAGCCTCCAATTCCAGGGCTGAAGGAATCCTCCCGCTTCCGCCTCTTGAGTAGCTAGGACTACAAGCACACACCTCCATGGCCAA
CTAATTTTTTAATTTTTTGTACAGATGAGGTCTCAGTCTGTAGCCAAGGCTGGTCTTGAACTCTCGGCCTCAAGCAATCCTCCCACCTCGCCCTTGCAAA
GTGCTGGGATTATGGGGATGAGCTGCCACACTTGGCTCCCAATTATATTTTGTTTTTCCTCAGCAAGTTCATCCAATGTAAATTTCTCAAGCCAGGAGGG
CTATAAAGAGAAAAACAAACAAAATAACAGCAACAACAAAAAAACAAACTGGGGCATTTTAAAGTTAAATTTCTTTCTTTCTTTCTTTTTAATAGATAGG
GGTCTCAATATGTTGCCCAGGCTGTTCTCAAACTTCTGGGCTCAAGTGATGTTCCTGCCTCCATCTCCTAAAGTGTTGGGATTACAGGTGTGAGCCACGT
GTTAGGCCCTAAAGTTAAATTTCTATCTCAATGCCATGCTTTCCTTTTTTTCCCTTTCGCCCTCCCCCACCCTTTTCTTCCCTTGACCGTGAATCCAAGA
TATACTTGATAACCAGTAAAAAGTCACTAACAGGACCATTGTTCAAGCATTTATTTTGGAGGAGTCCACCATAAATTTTCTGAGAATATAAGGATAGCAA
ATACTGTTGGTTGTACCCGCAGCCATTCTCCCGACTTGCTTGCTAATGAACCCTAGTTTATTAAGATATCCGCGTGTATCCATATCACAGTCCACTCCAG
GAAGCCTGGCCACATCCCCACATCCTGATTGGGCTGTGCCAGTGGTTCCCACCATGTGGTCCCTGGCCCAGCAGCAGAAGCAGTCATGGGGATTGTTAAA
AATGGACATTTTCAGGCTCCATGCCAAACTTCCTGAATGAGAGCCCTGCTGTTGGGGGCCTGAACAGTCCGTGGTTTAACACACTCCACAGGTGATTCTG
ATGCACACCAAGTTTGAGAGCCATTGGTATAAGCAAATCCTGCCAATGCTATTCTCTTTCCTTAGAAACAGGCAAATGATCCAGTTCTGGTCAGTTACGC
TCGGGGGGGGTACCGTACTGGGAAAGCCTTTCAGAAACCGTTTCTTAGCCTTTATTTTTTTAATTTTATGTATTTTTTTTTTCAGATGGAGTCTAGCTCT


SNP Information

Context             (SEQ ID NO:67539):
TGGGAAGAAACACACTTACAAGCCTCTGCTGGTGAACTTTGTCCCATTGAGAGCAATTGTATGGGAGGGTTGTTCCTTTTTTTTTTGTTTTTTGTTTTTT
K
TTTTTGAGACGGAGTCTTGCTCTGTCGCCAGGCTGGAGTTCAGTGGCGCGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCTAGCGATTCTCCTGC
Celera SNP ID:            hCV27403955
SNP Position:             35453
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,6)   total(G,6|T,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67540):
ACTGGTCATGCCTCACACCTAGATCCTGGAGGGTGATGTATAGGAATACATTCTTCCTCACAGTGAGGGTGACTTTCTCTCCTAGACTTAAAAATCAGCA
R
CAACATATCCTAATTTTCCACTCAGGTCCAGGCAAAAGAACGAGACAGCAGAGTGAGAGCAAAACATCTTAGGGAATTAAGATGAACAAATAATGGAAAA
Celera SNP ID:            hCV29110159
SNP Position:             8786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67541):
GTGCCTGGTAGCTACCTTACTGCACAACAATATAGATGGTTTTTATCATGCCAGAAAATTCTCCTGGAGAGCACTGATCTAGAAATACACTTTTCAGCCG
S
GCACAGTGGCTCACTCCTATACTCCCAGCGCTCTGGGATGCTGAAGCGGGCGGATCACCTGAGGTCAGAAGTTCAACACCAGCCTGGCCATGGTGAAACC
Celera SNP ID:            hCV28017310
SNP Position:             871
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67542):
CCAGGTAGCATGAAGACTTGCAATTGGTATCTGCCATGAGAGCAGCCTTGCAGAACTCATGTCTGACATTCAGTTCAGGTGGTTGGTGTCAGAACCGAGT
Y
GAAGTGACACCAAGCTGGTGTTAGAGCACTGGTGTCAAAGCATTATGACCTCTTAGCCACTGTTCGGATATTTAGTTAATAGTGGTTCAAAACTGCGATA
Celera SNP ID:            hCV28017311
SNP Position:             2352
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67543):
CACACACACACACACACACACACACACACACCCCTAAGGGGTAGGCAAATTACTCACGGTCAATCATATGCTCAGTCCAGGAAATTTGAATCTTATGACA
R
GAGAATTAAACCAGTTGGTGCAGTCTTTGAGACCATGGTTACCTAAACAAACATCTATTAGGTGGTTTCTGGAGCTTAGATCCTCTCGGCTCAGCCTTCA
Celera SNP ID:            hCV2412030
SNP Position:             16030
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67544):
CCAGCCCACGCCCACCAGCCTCCAGACCGCTACATGAACAGTCAACATTCATTTTGTATGAGCCGCCTGAGTTTTCTGTTACATGCAGCTGAACCCTGCA
Y
GTTAAAGAAATTCATATCCCTCGCCTTTATTTTTTAAGACTCTCCATCAATCAAATCACTGTCTCATTTTGACATTTATGTTCATTAAGTATTTGAATAA
Celera SNP ID:            hCV27867034
SNP Position:             344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67545):
AAACAGAAAGTATACAGGACGAACCTGAAACATCTCATCATATCGTAAAGCAAGGAAGCTATGAGATTACTAGAGACGTGTCAGAAGGACTCAGGTGCCA
R
CCTAAATAAGCCTACACTGCCCAAAGAGGGAGCAATTTGAGCATCGAAAGGACAGTAACTGCAATGGACTGAAACACACCACGTATGCTAAAATAGGCGT
Celera SNP ID:            hCV2412031
SNP Position:             17819
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67546):
GACTGCTCCCAATTACCTAAGTTATCTGCGGGGAATATCCTACAGTCTTAAGCTACTCTAAAACTTCAGCCCTAGAGCGTGATGGCTGAAAGGAAAAAGT
R
TACTTGTAGCGCTTATGCTTCTTAACCCACTGACCATGTCCTCAAATCAAACTGCACTGTACAAAATGGTAGTCACTAGCCACATATGGTTAAATTAAGT
Celera SNP ID:            hCV27867035
SNP Position:             598
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67547):
ATTACCTAAGTTATCTGCGGGGAATATCCTACAGTCTTAAGCTACTCTAAAACTTCAGCCCTAGAGCGTGATGGCTGAAAGGAAAAAGTGTACTTGTAGC
S
CTTATGCTTCTTAACCCACTGACCATGTCCTCAAATCAAACTGCACTGTACAAAATGGTAGTCACTAGCCACATATGGTTAAATTAAGTACAATTAAACA
Celera SNP ID:            hCV27867036
SNP Position:             609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67548):
CCTCCCAGCTAATTGCCCCAAGCGGGTCAAACTTCGGAATCGGCGTCCTGCTCTGCGTTGTGGAGCGCATGGCAAAGAGGAAGGGTTGGTGCTCGGAACA
R
AATCTCCGTGATTTGCCAGAGGAAACAGCACAGACTCCAGACAGCAGAAGCGCCGGGATTTCCATGCAGCTGCCACGACAGGTGACCCGGCCCGCTCTGC
Celera SNP ID:            hCV2412032
SNP Position:             29025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67549):
TCCCATGTCAAGCTACCCTGCTTGGTTAAACTTTGGCCACAATTTCTCTAAGCTCAAATAATGCTGACGTGAAAATAAGCTATAATTTATTTTACTAAAA
M
AGAAATTTGATTTTACAAAAAGCAGCTTCCGAATTTGTTCAGCAGGTTCAAATTTTCAATCTTGAAGGATTTTTTGTTAGCACTGGTGATGGCGGCATTT
Celera SNP ID:            hCV16084046
SNP Position:             3181
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67550):
TGTCAAGCTACCCTGCTTGGTTAAACTTTGGCCACAATTTCTCTAAGCTCAAATAATGCTGACGTGAAAATAAGCTATAATTTATTTTACTAAAAAAGAA
M
TTTGATTTTACAAAAAGCAGCTTCCGAATTTGTTCAGCAGGTTCAAATTTTCAATCTTGAAGGATTTTTTGTTAGCACTGGTGATGGCGGCATTTTGTTT
Celera SNP ID:            hCV16084047
SNP Position:             3186
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,7)      total(A,7|C,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67551):
CCTTACTGCACAACAATATAGATGGTTTTTATCATGCCAGAAAATTCTCCTGGAGAGCACTGATCTAGAAATACACTTTTCAGCCGCGCACAGTGGCTCA
Y
TCCTATACTCCCAGCGCTCTGGGATGCTGAAGCGGGCGGATCACCTGAGGTCAGAAGTTCAACACCAGCCTGGCCATGGTGAAACCCCATCTCTACTAAA
Celera SNP ID:            hCV27867037
SNP Position:             885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67552):
ATAACTCAGAGTCCAAAGTTTCTGCTGTCTCAAGCCCTTCAGCCACCAAGACACTCAGCACAGGGATAGGGAAACTGGATCCTGGACATAAGGAGATGGC
R
GAGGAGTCAGAGCTTTTGAAGAATAAGATGCAAGCCCCTCCCCTTTCGAGGTGTCCTGAGAGCCAAAAATGCCAGCACCAGCTGAGGCTTCATCACTGGA
Celera SNP ID:            hCV2412033
SNP Position:             35019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67553):
TCCTTATGCAGAAGGCTTAAACACTAATGAACATTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTTGCCCGGGTTGGAGTGCAGTGGCGTGATCTC
Y
GCTCACTGCAAGCTCCGCCCCCCGGGTTCATGCCACTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCTCGCCCAGCTAATTT
Celera SNP ID:            hCV26423139
SNP Position:             1460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67554):
ACCATAAGAGGAAGAGCTATTTTTCATAACCTCAAAAGTCAGTGGAGTATGTGATCTAACAATGAATCAGTGACCCTGATGAGATACAATGACAGCAAGG
R
AGGACAGATCCACTGGCACACACTAATTTAAGTGAAAATTCAAATTATAATATGAAATTAGTAGATTTTAGAAAAGGGCCTTCTAACAGCAAGCTCTGGC
Celera SNP ID:            hCV27867038
SNP Position:             2683
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67555):
AAGTGATTTAAAACTTTTAAAACTCATTTATAATAATCTATTACATCTGTTATGAATTTTTTTTTGAGACAGGATCTTGCTCTGTTGCTCAGGCTGGAGT
R
TAGTGGTACAATCTTGGCTCACTGCAGCCTCAACCTCCCAGGCTCAAGTGACCCTCCCAGCTCAGCCTCCCGAGTAGCTAGGACCACAAGTGCACACCAC
Celera SNP ID:            hCV7768657
SNP Position:             33897
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67556):
GCAAGCCCCTCCCCTTTCGAGGTGTCCTGAGAGCCAAAAATGCCAGCACCAGCTGAGGCTTCATCACTGGAAACCCAGCGTCCGGCACCAGGTGAAACGC
Y
GTAGCCCCGCTGTGCTCCGCTCAGCCATGCCACCTGCAGACTGTCCTGCAGTTCTGGAGGCCACCACAGCCACACGTGAAGAAACAGTGATGAGTTGCAG
Celera SNP ID:            hCV2412034
SNP Position:             35149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67557):
CAGGAGAATTGCTTGAACCTGGGGGGCAGAGTTTGCAGTGAGCCAGGATTGTGCCACTGCACTCCACCCTGGGCGACAGAGTGAGTCTCCATCTCAAAAA
W
AATAATAATAATACCTAAGGACCAGACACGGTGGTGGCACGCACCTGTAGTCCCCTGCTACTCGGTGGCTGAGGTGGGAGGATCACTTAAGCCCAGGAGT
Celera SNP ID:            hCV27867039
SNP Position:             33441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67558):
AGAAGAAAATAAGAATGTTTAACCTGGGAAGAAACACACTTACAAGCCTCTGCTGGTGAACTTTGTCCCATTGAGAGCAATTGTATGGGAGGGTTGTTCC
T
TTTTTTTTTGTTTTTTGTTTTTTGTTTTTGAGACGGAGTCTTGCTCTGTCGCCAGGCTGGAGTTCAGTGGCGCGATCTCGGCTCACTGCAACCTCCGCCT
Celera SNP ID:            hCV7768658
SNP Position:             35429
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,6)   total(-,6|T,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67559):
ACCAATGCCTAAGATTATTTTCCATCTAAATTACCATATGTGTGTGAAAGGACTGAACTGTAAAGCTGTAAAGTTCTACACAAACGCGGATAGAAAAACC
Y
ACCCCATCTAAATCCAATGTGGTAACCTGGAAAAAGTACATTAGTGAAAAAACCGGGCTGCTCTGCCTACGGAGTGGCCATTCTGATAAGGGGAAAAAAA
Celera SNP ID:            hCV2907648
SNP Position:             9107
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67560):
ATGTTAATTTCTTAGTTTTGACAAATGCTCTAGTTATGTAAGATGCTGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGC
R
GGCAGATCATGAGGTCAAGAGATCGAGACCATCCTGGCCAACGTGGTGAAACCTCGTCTCTACCGAAAATACAAAAAGTAGCTGGGCATGGTGGTGCGCA
Celera SNP ID:            hCV2907649
SNP Position:             9364
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67561):
TTTAAGACTCTCCATCAATCAAATCACTGTCTCATTTTGACATTTATGTTCATTAAGTATTTGAATAATTGGATCTTACCCTTGAAGCCCAAGACATTTA
S
CAGGTCCCAAGAGGTTCCGAGACTGCTCCCAATTACCTAAGTTATCTGCGGGGAATATCCTACAGTCTTAAGCTACTCTAAAACTTCAGCCCTAGAGCGT
Celera SNP ID:            hCV27930560
SNP Position:             477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67562):
AGGTCAGGAGTTCGAGACCAGCCTGGCCAATACGGTAAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGATGGTGCGTGCCTGTAGTCCC
R
GCTACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCAGAGACGCAGAGGTTGCGGTGAGCCAAGGTCACGCCACTGCACTCCAGCCTGGGTGACAGAG
Celera SNP ID:            hCV29110160
SNP Position:             20259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67563):
ATCCGCCAGCCTTGGCCTCCCGAGGTGCCGGGATTGCAGACGGAGTCTCGTTCACTCAGTGCTCAATGGTGCCCAGGCTGGAGTGCAGTGGCGTGATCTC
R
GCTCACTACAACCTACACCTCCCAGCCGCCTGCCTTGGCCTCCCAAAGTGCCGAGATTGCAGCCTCTGCCCGGCCGCCACCCCGTCTGGGAAGTGAGGAG
Celera SNP ID:            hCV29110161
SNP Position:             20565
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67564):
TGCTCATTTGTCCTTGATAAAAGAAGCTGCAAACTTCAAGCTCAAATATGGGCGGGAGGAGGCAATTAGTGACCTAGAACAGCTATGGAAACAAAATCCA
R
AAGATATTCATACCCTGGCACAGTTTATTTCTGCTTACTCACTTGCAGATCCAGAGAAAGGCACAGCTCTTAGTAAACATTTGCCATCATCAGATAGTAT
Celera SNP ID:            hCV29110162
SNP Position:             24080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67565):
TCAAAAAACAATATCTCCCTCACAGTGCTGTTGAAATAATCAAATAAAATATGTAAATTATATGCCTGGCACACAAGAGGTGCTCAGTCAAAAAATAATA
Y
TTGGGCCGAGCACAGTGGCTCATGCCTGTATTCCCAGTACTTTGGGAGGCCAAGGCAGGTGGATCACCTGTGATCATGAGTTCAAGACCAGCCTGACCAA
Celera SNP ID:            hCV29110163
SNP Position:             32617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67566):
GTCATCCCAGCTACTTGTGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCACCCTGG
R
AGACACAGCGAGACTCTCTCTCAAATAATAATAGTAATAAGCCGGGTGCGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCAAGGTGGGCGGAT
Celera SNP ID:            hCV29110164
SNP Position:             32880
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67567):
CTCAAATAGTGATCCCCTTAAATGCTTTGGTCTTATCTGTCGTGTAGAATCTGTTCTATCTGGTTTTGTGTTTGTGTTCACCACCACTTGGAAGAACTAA
Y
TGAGACTTCTGAAGAATAGACGGTCACATGGCCTGGGTTCTCATCTGTGCCGCCACCTGGGCACACCACTACATCTCTCCAGCCTCCATTTCAGAGTCTA
Celera SNP ID:            hCV29110165
SNP Position:             38159
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67568):
GGGACTACAGGTGCATACCACCATGCCCAGCCAATATTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGATGGTCTGGATCTCTTGACCTC
R
TGATCCACCCGCCTCGGACCCCCAAAATGCTGGGATTACAGGTGTGAGCCATCACGCCCGGCCCGGTTGTTCCCTTTTGATTATTTATTGAGCTTCTACT
Celera SNP ID:            hCV11558017
SNP Position:             35673
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67569):
TGCTTTTGTTTTGTTTTGTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCCACCTCCTGG
R
TTCAAGTGATTCTCCTGACTCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGACACCATGCCCAGTTAATTTTTGTACTTTTAGTAGAGACAGGGTTT
Celera SNP ID:            hCV26423140
SNP Position:             6990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67570):
CTCAGCCTTCCGAGTAGCTCTGATTACAGGTGCCTGCCACCAAGCCCAGCTAATAATTTTTCTATTTTTAGTAGAGACGGAGTTTCGCCATGTTGGCCAG
K
CTGGTCTCGAACTCCTGATCTCAGGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTAAAGGCATGAGCCACCATGCTCGGCACATTCTGTCTTC
Celera SNP ID:            hCV26423141
SNP Position:             8143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67571):
TTTCTTAGTTTTGACAAATGCTCTAGTTATGTAAGATGCTGGCTGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGA
W
CATGAGGTCAAGAGATCGAGACCATCCTGGCCAACGTGGTGAAACCTCGTCTCTACCGAAAATACAAAAAGTAGCTGGGCATGGTGGTGCGCACGTTTAG
Celera SNP ID:            hCV26423142
SNP Position:             9371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67572):
ATTTTTTTTTTTTTTTTGAGATGGAGTCTCACTTTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCAC
K
CCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATCCTTTTTTGTATTTTTAGTAGAGACTGGGTTTCA
Celera SNP ID:            hCV26423143
SNP Position:             15576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67573):
TGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCGGAGGCAGGCAGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAATACGGTAAAACCCCGTC
W
CTACTAAAAATACAAAAATTAGCTGGGCGTGATGGTGCGTGCCTGTAGTCCCGGCTACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCAGAGACGCA
Celera SNP ID:            hCV26423144
SNP Position:             20206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67574):
TCTGAGATGTGGGGAGCGCCTCTGCCCCGCCGCCCCCTCTGGGACGTGAGGAGCGCCTCTGCCCGGCCGAGACCCCGTCTGGGAGGTGAGGAGCGTCTCT
R
CCCGGCCGCCCCATCTGAGAAGTGAGGAGACCCTCTGCCTGGCAACCACCCCGTCTGAGAAGTGAGGAGCCCCTCCGCCCGGCAGCTGCCCTGACTGAGA
Celera SNP ID:            hCV26423145
SNP Position:             20943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67575):
GGGGCGCCTCTGCCCGGCCGCCCCTACTGGGAAGTGAGGAGCCCCTCTGCCCGGCCAGCCGCCCGGTCCGGGAGGGAGGTGGGGGAGTCAGCCCCCCGCC
Y
GGCCAGCCGCCCCGTCCGGGAGGTGAGGGGCGCCTCTGCCCGGCCACCCCTACTGGGAAGTGAGGAGCCCCTCTGCCCGGCCAGCCGCCCCGTCCGGGAG
Celera SNP ID:            hCV26423146
SNP Position:             21651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67576):
AACCATGAAAAATACTTATACACCTAAGAGGTAACACAGTAAACTCCATAAACTTAAAAAAATGAAATGCTACAGGCCTAGATGCTCTATCTGCTACAAC
Y
GCTTCACACATTTCAAAACCGTCCAAACTCACATTCAGAATCTCCTTCAACTACATGTTTTGTCCCAACCATCCAAACCCTCTGGGTTCTCTGCAGCCTG
Celera SNP ID:            hCV2907650
SNP Position:             9899
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67577):
ATATTCATACCCTGGCACAGTTTATTTCTGCTTACTCACTTGCAGATCCAGAGAAAGGCACAGCTCTTAGTAAACATTTGCCATCATCAGATAGTATGTC
W
CTAAAAGTAGATGTTGAGGCTCTTGAAAATTCTCCTGGTGCTACATACATTTGGAAGGGTGGAAAAGTTACTAGAGATAGTCAACCAAAGGAACAAGGAA
Celera SNP ID:            hCV26423147
SNP Position:             24184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67578):
AGAGAAAGTGGAGCTTCAATGCAGCTAACCTCTGTTTAATCTGACTATTCCTAACCAAAATCTTCTAGAATCTAAAACCTTTCCTCTTTGAGCTCAGTAT
R
TCAAGCTTAGCTACTTGGTGCCTACAATAGTGATCTGGTCAAACCAGAAGTGGGGGTCCTGAGAAAAGACTAAGGAGTACAAAGACTCTGCACTGTCAAA
Celera SNP ID:            hCV2907651
SNP Position:             10111
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67579):
TACACACACATACATACACACAAATATATACTGCAGTCAAGGAGTATTGATTGGATATCTGATGATACTAAGAAAAAATTTTTAAGGTAAGATAATAGTA
Y
TGTAATTATTTTAAGGGGTCTTTTTCTTTTGGAGACATGTACTAAAATATTTACAGACAAAATTATATGACAGCTTGATTTGCTTTAAAATAATCCAAGT
Celera SNP ID:            hCV2907654
SNP Position:             18673
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67580):
GAGTACAGGCTCAACAGAATTGAGAATGTCTTGAAGACAGTAGAAAGTACCAACCGGCAGACAGACAAACTGAAGGAGCTTTATGGATAAGTGTTACACC
R
TTTGGAACACTATGATGAATGCTTAGTGGCATAAAGAGATCTCGTCCGAAACTCCCACGATGCTTATGATGAGGAGAGGAAAACAAACCCTTCAGCAGTT
Celera SNP ID:            hCV2907655
SNP Position:             19523
SNP Source:               Applera
Population(Allele,Count): african american(G,22)   caucasian(A,6|G,14)   total(A,6|G,36)
SNP Type:                 INTERGENIC

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67581):
AGACCCACAGGCAGGACTGGCCATCACTTATGGTCAGATGGCCTATATTCTGCAGCTTCAGGGTCAAACAGAGGAGGCTCTGCAACTTTACAATCAAATA
M
TACTACTAAAACCAACGGATGTAGGGTTACTAGATGTAATTGCAAATAACATCATTACCATTAACAAGGACCAAAATGTCTTTGACTCCAAGAAGAAAGT
Celera SNP ID:            hCV2907656
SNP Position:             19917
SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,19)   caucasian(A,25|C,7)   total(A,42|C,26)
SNP Type:                 INTERGENIC

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,7)      total(A,2|C,7) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67582):
ATCCAGAGAAAGGCACAGCTCTTAGTAAACATTTGCCATCATCAGATAGTATGTCTCTAAAAGTAGATGTTGAGGCTCTTGAAAATTCTCCTGGTGCTAC
R
TACATTTGGAAGGGTGGAAAAGTTACTAGAGATAGTCAACCAAAGGAACAAGGAAAGGGAGATTTGAAAAAGAAAAAGAAGGGAAAATTGCCTAAGAATT
Celera SNP ID:            hCV2907657
SNP Position:             24229
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;no_pop(G,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67583):
TCAGGAAGATGTGCTGGAATGTCATCATCCATATAGAAGGGAAGTGATAGGACCCAGCAAGGATTTAACACACGTACTGGTTTTATCCCCCATGGGTCCT
Y
ATTTTAAAGAGTTTCTATGCATTAAACAATAACGAATTTGTTTTAACTAATTTAATTAATTTAATTTGTTTTAATAAAATAAGTGTTCTATAACTTCTAA
Celera SNP ID:            hCV2907659
SNP Position:             26058
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67584):
AACTCTGAGGCTAAAGATGGTGAAAGAGAAAGGCGGAGGAATCCTGGAACCCTGATCAGCAGGAGCCATGCAACCAGCCCACGCCCACCAGCCTCCAGAC
Y
GCTACATGAACAGTCAACATTCATTTTGTATGAGCCGCCTGAGTTTTCTGTTACATGCAGCTGAACCCTGCACGTTAAAGAAATTCATATCCCTCGCCTT
Celera SNP ID:            hCV27403938
SNP Position:             271
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,10)      total(C,10|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67585):
CACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCATGAGGTCAAGAGATCGAGACCATCCTGGCCAACGTGGTGAAACCTCGTCTCTAC
Y
GAAAATACAAAAAGTAGCTGGGCATGGTGGTGCGCACGTTTAGTCCCAGCCACTTGGGAGGCTGAGACAGGAGAATCGCTTGAACCCAGGAGGCGAAGGC
Celera SNP ID:            hCV27403939
SNP Position:             9428
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67586):
TCTGTGAGAAACACCCAAGAATTATCAATAAAAAAATAAATTTAAAAAAAAAAAAAAAACAATTTAACAAGGCATTACTTGCTATGTACACAAACCAGGC
S
GAACAATGCCTCAAAATATCTGCCAGTTTACATTCCCAAAGTCCCGAGCATCTCTCACCTATGTTAACCCAAGGTGCCCAGCTCTGCGTGAAAAGCAGCA
Celera SNP ID:            hCV7768633
SNP Position:             23611
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67587):
TTACTTGCTATGTACACAAACCAGGCCGAACAATGCCTCAAAATATCTGCCAGTTTACATTCCCAAAGTCCCGAGCATCTCTCACCTATGTTAACCCAAG
S
TGCCCAGCTCTGCGTGAAAAGCAGCACACAAAAGCAATAGAGCTGCTTCAGGAATTTTCAGATCAGCATCAAGAAAATGCAATTGAAATTAAGCTGACCA
Celera SNP ID:            hCV7768634
SNP Position:             23685
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67588):
TGACCTCCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCCACCTAGCTGGGACCACAGGCACTTGCCACCACACCGGGCTAATTTTTTACATTAGTTG
Y
AGTGATGAAGTAGGTCTAGCTATGTTGCCCAGGCTGGTCTCCAACTCTTGGGCTCAAGCAATCCTTCCACCTAAACCTGTCAACGTGCTGGGATTACATG
Celera SNP ID:            hCV8305484
SNP Position:             13025
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67589):
ATTCAGTTTTTAGAAGGACAGGAATTCGGCTGGGCGTGGTGGCTCATGCCTGTAAACCAAGCACTTCGGGAGGCCTAGCTGGGAGGACTGCTTGAGCCCA
R
GAGTTCAAGACCAGCCTGGGCAACATAGTGAGACCTTGTCTCTAGAAACAACAGCAAGAACAAAAGGATGCAAATGCTGACACATGCTATAACATGGATG
Celera SNP ID:            hCV2907660
SNP Position:             26411
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67590):
CCAGGTAGCATGAAGACTTGCAATTGGTATCTGCCATGAGAGCAGCCTTGCAGAACTCATGTCTGACATTCAGTTCAGGTGGTTGGTGTCAGAACCGAGT
W
GAAGTGACACCAAGCTGGTGTTAGAGCACTGGTGTCAAAGCATTATGACCTCTTAGCCACTGTTCGGATATTTAGTTAATAGTGGTTCAAAACTGCGATA
Celera SNP ID:            hCV2907628
SNP Position:             2352
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,9)      total(A,2|T,9) ;no_pop(T,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67591):
CATTCAGTTCAGGTGGTTGGTGTCAGAACCGAGTTGAAGTGACACCAAGCTGGTGTTAGAGCACTGGTGTCAAAGCATTATGACCTCTTAGCCACTGTTC
K
GATATTTAGTTAATAGTGGTTCAAAACTGCGATAAATAAATGATGCTTTCAATTCACCTTGGATTACTGCATACAGGTTCACAATTCACACAGAATATTC
Celera SNP ID:            hCV2907629
SNP Position:             2418
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,9)      total(G,9|T,1) ;no_pop(T,-|G,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67592):
TTTTGTTTTTTGTTTTTGAGACGGAGTCTTGCTCTGTCGCCAGGCTGGAGTTCAGTGGCGCGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCTAG
Y
GATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGACTACAGGTGCATACCACCATGCCCAGCCAATATTTGTATTTTTAGTAGAGACGGGGTTTCACCATG
Celera SNP ID:            hCV2907663
SNP Position:             35542
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67593):
GCGCGGCTTGCGCGCCGTCTGAACTTCGTTTGAGCCGGAAGTGGACGTCCCAGTCCCATTATGTCTTACAGGGAAAGCCGCCGGGAGCACAGAAGCGCTG
K
CACCACCGACCCGCGCAGCTCCCCGGGAAAACGGTCACCCGAGTGGCCGCGATGGTAACATCCCAGAGGATCTCTTCTTCAGTTGTCCATGGAGAAAGGA
Celera SNP ID:            hCV8305488
SNP Position:             30261
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,6)      total(G,1|T,6) ;no_pop(T,-|G,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67594):
CGGCTCACTGCAACCTCCGCCTCCCGGGTTCTAGCGATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGACTACAGGTGCATACCACCATGCCCAGCCAAT
W
TTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGATGGTCTGGATCTCTTGACCTCATGATCCACCCGCCTCGGACCCCCAAAATGCTGGGA
Celera SNP ID:            hCV2907664
SNP Position:             35608
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|A,5)   total(A,5|T,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67595):
CGGGGTTTCACCATGTTGGCCAGATGGTCTGGATCTCTTGACCTCATGATCCACCCGCCTCGGACCCCCAAAATGCTGGGATTACAGGTGTGAGCCATCA
Y
GCCCGGCCCGGTTGTTCCCTTTTGATTATTTATTGAGCTTCTACTTTAAACCAGGCAGTGTCCAAATGAGAACAAGTGTGTGGGAACCTATGAAGGGGCT
Celera SNP ID:            hCV2907665
SNP Position:             35728
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67596):
AAAGCTTCCCCACCTCTTGTGTAGAAGTGTTCCCTGGGGCCGGACACGGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCTGAGGTGGGTGGATTA
Y
CTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCCATCTCTACTAAAAATACAAAAAAAATTAGCTGGGTGTGGTGGCACGCACCTG
Celera SNP ID:            hCV2907666
SNP Position:             37396
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67597):
ACACTGTGAGGAACTCTGAGGCTAAAGATGGTGAAAGAGAAAGGCGGAGGAATCCTGGAACCCTGATCAGCAGGAGCCATGCAACCAGCCCACGCCCACC
W
GCCTCCAGACCGCTACATGAACAGTCAACATTCATTTTGTATGAGCCGCCTGAGTTTTCTGTTACATGCAGCTGAACCCTGCACGTTAAAGAAATTCATA
Celera SNP ID:            hCV16117116
SNP Position:             260
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,10)      total(A,10|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67598):
TCAAGAGATCGAGACCATCCTGGCCAACGTGGTGAAACCTCGTCTCTACCGAAAATACAAAAAGTAGCTGGGCATGGTGGTGCGCACGTTTAGTCCCAGC
Y
ACTTGGGAGGCTGAGACAGGAGAATCGCTTGAACCCAGGAGGCGAAGGCTGCAGTGAGCTGAGATCATACCACTGCACTCCAGCCTGGGTGACAGAGCGA
Celera SNP ID:            hCV27403940
SNP Position:             9479
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67599):
CCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCACCTAAAAAAGTAAATAAACAAAAGCTTATAAAAAAATTAAAAATACCCAACATCTGCTCAAG
A
AAAAAAAAAAAAGAAAAAACATTCTATGGGAAAAAGACTTTCTAAAAAATCAAGGTAGAAACAATGGAAAAAAGATCGATAGGTTTGACTACACAGAATA
Celera SNP ID:            hCV27403941
SNP Position:             9649
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67600):
CACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCACCTAAAAAAGTAAATAAACAAAAGCTTATAAAAAAATTAAAAATACCCAACATCTGCTCAAGA
A
AAAAAAAAAAAGAAAAAACATTCTATGGGAAAAAGACTTTCTAAAAAATCAAGGTAGAAACAATGGAAAAAAGATCGATAGGTTTGACTACACAGAATAA
Celera SNP ID:            hCV27403942
SNP Position:             9650
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,8)   total(A,8|-,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67601):
AGACTTCTCTATTTTACAATAAATTTATAGAAAGCTGATTCCAAAGCACCTCATAAACATTATTGCTTCTATATCTCTCTCTAAAGAAAAGCATTTTGGC
R
CCAGGTATAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACGAGGTCAAGAGATCGAGATCATCCTGGCCAACATGGTG
Celera SNP ID:            hCV27403943
SNP Position:             11530
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67602):
ATGGTAAAGGCTCAAATCACTTGTAAGGCCTGGAAAAGGTGACCTCAGTGTCAACCGCATTCATCTTATGGGCTTCTCCTATGACCCAACCTCTTTTTTC
T
TTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTCACCCAGCCTTGACCTCCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCCACCTAGCTGGGAC
Celera SNP ID:            hCV27403945
SNP Position:             12879
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67603):
GGGGTCTAGCTCATCTGGAAGATGAGTCCTTTGCCCTTCCCACCCTCTCTTTTCCTCCTGCCTGGTCATGGTGTGATTATTGAGCTCCAGCAGCCATCAT
R
CACTGTGAGGAACTCTGAGGCTAAAGATGGTGAAAGAGAAAGGCGGAGGAATCCTGGAACCCTGATCAGCAGGAGCCATGCAACCAGCCCACGCCCACCA
Celera SNP ID:            hCV16116608
SNP Position:             160
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67604):
TAAAGAGATGGTTAAAAGGAAAAGAAAGCATTTATTTATCAGAGTTTGCAGTCATTTTATAGAGATGTGATTAATGTTTCTGAGCAAATAATGTATTTAA
T
TTTTTTTTTTTTTTTGAGATGGAGTCTCACTTTGTCGCCCAGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGC
Celera SNP ID:            hCV27403946
SNP Position:             15477
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,10)   total(T,10|-,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67605):
GCACACATGAGCTGTGCTAAACACTGCATGTGCACTGATAGACCACGGCCAGCTGAACCAGGCCATGAACATCCTACAAAAAGCTGAAGGTCTTTGCCAC
M
ATTCATTATCAGAAGACACTGATGAGACTGAGGAAGACCCACAGGCAGGACTGGCCATCACTTATGGTCAGATGGCCTATATTCTGCAGCTTCAGGGTCA
Celera SNP ID:            hCV27403947
SNP Position:             19782
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,10)   total(A,1|C,10) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67606):
ACACATGAGCTGTGCTAAACACTGCATGTGCACTGATAGACCACGGCCAGCTGAACCAGGCCATGAACATCCTACAAAAAGCTGAAGGTCTTTGCCACCA
T
TCATTATCAGAAGACACTGATGAGACTGAGGAAGACCCACAGGCAGGACTGGCCATCACTTATGGTCAGATGGCCTATATTCTGCAGCTTCAGGGTCAAA
Celera SNP ID:            hCV27403948
SNP Position:             19784
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67607):
GTCTCAAGACTTCTGCTTAACATCTCATGACTACAGGCAAATCTCAGCCTTAGTTTTCTCATAAAATACAAAAATATGTGCTTGACATATTGTGCAAGGT
K
GCTGTGAAGACCAAATGAAATGGCATATGTGGAAAAATACTTTGTAAACTAGGGGTTAAACATAAGTAAGCAATGATTATCACTTACAGTGGAAAAAGTC
Celera SNP ID:            hCV11557993
SNP Position:             7332
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67608):
TTTCTCATAAAATACAAAAATATGTGCTTGACATATTGTGCAAGGTGGCTGTGAAGACCAAATGAAATGGCATATGTGGAAAAATACTTTGTAAACTAGG
K
GTTAAACATAAGTAAGCAATGATTATCACTTACAGTGGAAAAAGTCACAAACCATTCAAAAAAACTCCTTGGAGAAAAGGCCAACACTCTTATCTGGCCA
Celera SNP ID:            hCV11557994
SNP Position:             7386
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67609):
AGTTGAAGTGACACCAAGCTGGTGTTAGAGCACTGGTGTCAAAGCATTATGACCTCTTAGCCACTGTTCGGATATTTAGTTAATAGTGGTTCAAAACTGC
R
ATAAATAAATGATGCTTTCAATTCACCTTGGATTACTGCATACAGGTTCACAATTCACACAGAATATTCAATCCCAACTGAATTCCATAGAGTTCTCAAA
Celera SNP ID:            hCV2907630
SNP Position:             2449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;no_pop(G,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67610):
TCAGGAATTTTTTGATTGTTGTTTCTGTGTGTTTTTAAATGTACAAAGAGACCAGAGAATTAGAAGAGACAGTGTACTTCTTTCAAATGTCCCTATATAT
A
AAAAATAGTTTATATTAAGTCTAAGTTAGAATCATATTAAAAATATTAGTTATATTAAGAATTAAGAGGCAGAAGCTTGTAAATCTCACATGACAATGAA
Celera SNP ID:            hCV11557996
SNP Position:             10514
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,10)   total(A,2|-,10) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67611):
ATCCATATGTATAAGAGTGAGAGCAGATCTTATATCAAATCTAAAGGAAAACTTTTGGAAATGCTAAAAAGTTCAATTTCAGACATATTAATACATCCTC
M
ACATTTTATTTACAATAAGACCACCAATCTTGTTTTTATAACCGCCAACAGGTTTCTTGGTTTCTCGGCTGCAACTTTTTTATTGAAGTGATCAAAGACT
Celera SNP ID:            hCV2412022
SNP Position:             5438
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67612):
GTTGAAGTGACACCAAGCTGGTGTTAGAGCACTGGTGTCAAAGCATTATGACCTCTTAGCCACTGTTCGGATATTTAGTTAATAGTGGTTCAAAACTGCG
R
TAAATAAATGATGCTTTCAATTCACCTTGGATTACTGCATACAGGTTCACAATTCACACAGAATATTCAATCCCAACTGAATTCCATAGAGTTCTCAAAA
Celera SNP ID:            hCV2907631
SNP Position:             2450
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67613):
GCCAAGAGAAAGCCCCCTCCAGCAACACCTGCAGGGGGATTCATAAACATGACAGGATCCATGCAGAGGGAGGCCACAGGGTGGGGGTGAGGGAGTAAGA
S
AAGGGACACAGAGTTTTTCTGTTGCTTTTGTTTTGTTTTGTTTTTGAGACAGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCT
Celera SNP ID:            hCV2412023
SNP Position:             6867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67614):
ATCCCAACTGAATTCCATAGAGTTCTCAAAATCACAGAAGATATCTATGTGCATAACCAAACAACCATAAGAGGAAGAGCTATTTTTCATAACCTCAAAA
S
TCAGTGGAGTATGTGATCTAACAATGAATCAGTGACCCTGATGAGATACAATGACAGCAAGGGAGGACAGATCCACTGGCACACACTAATTTAAGTGAAA
Celera SNP ID:            hCV2907632
SNP Position:             2620
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,10)   total(G,10|C,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67615):
CTACTCTAAAACTTCAGCCCTAGAGCGTGATGGCTGAAAGGAAAAAGTGTACTTGTAGCGCTTATGCTTCTTAACCCACTGACCATGTCCTCAAATCAAA
Y
TGCACTGTACAAAATGGTAGTCACTAGCCACATATGGTTAAATTAAGTACAATTAAACAAAAATATAAATTATGTTTCTCAGTTGCCTTAGCTGCATTTC
Celera SNP ID:            hCV27995661
SNP Position:             650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67616):
GCCTTCTAACAGCAAGCTCTGGCTGAAGTGCAATGGCGCAACCTCGGCTCACTGCAACCTCTACCTCCCGGGTTCAAGCGATTATCCTGTCTCAGCCTCT
S
GAGTAGCTGGGATTACAGGCACGCACCACCACCCTTGGCTAATTTTTGTATTTTCAGTAGAGGTGGGGTTTCACCATATTGGCCAGGCTGTTCTCGAACT
Celera SNP ID:            hCV2907633
SNP Position:             2861
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,10)   total(G,2|C,10) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67617):
TGATAAATTTTATGGTATGTACATTTTACCACAAAAAATTAGTATGTTTAGTATGTTACAATTTAGTAACTAAATTAACATTATCTCAGCCAAATTAAAA
S
ACATTTGACATTTTAATTACATATTCCATGAAGTCTCACTAAAGACAAATGTACAATTTCTGTAAGGCTTTTGGTAATACTGAAATGCTGCACAGAATGC
Celera SNP ID:            hCV27995662
SNP Position:             27205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67618):
AAGTGCAATGGCGCAACCTCGGCTCACTGCAACCTCTACCTCCCGGGTTCAAGCGATTATCCTGTCTCAGCCTCTCGAGTAGCTGGGATTACAGGCACGC
R
CCACCACCCTTGGCTAATTTTTGTATTTTCAGTAGAGGTGGGGTTTCACCATATTGGCCAGGCTGTTCTCGAACTCCTGACCTCAGGTGATCCACCCGCC
Celera SNP ID:            hCV2907634
SNP Position:             2886
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,10)      total(G,2|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67619):
TTGTTTTGAAAGAGGCAAGATAGAAACCTACAGGTGGTTGACTGAACCCAGCAGAGTCCTAGAGCCAAAAAGAGATCAGCCACCCCTTGGAACCTGCTCC
Y
GTGGCAGGGCTTAGACCACAGAACCCTAACTTGCAGCTCCACACCAGGCCACTGCAGCGCTCCACAGCAACTTTCTGGTAGGCCCTTGGGCCACAGACTT
Celera SNP ID:            hCV2907635
SNP Position:             4012
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67620):
GTCACTAGCCACATATGGTTAAATTAAGTACAATTAAACAAAAATATAAATTATGTTTCTCAGTTGCCTTAGCTGCATTTCAACTGCTCAACAGCCTCCA
Y
GTGCCTGGTAGCTACCTTACTGCACAACAATATAGATGGTTTTTATCATGCCAGAAAATTCTCCTGGAGAGCACTGATCTAGAAATACACTTTTCAGCCG
Celera SNP ID:            hCV28017309
SNP Position:             770
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67621):
CAGCTCCACACCAGGCCACTGCAGCGCTCCACAGCAACTTTCTGGTAGGCCCTTGGGCCACAGACTTAACTCCTCCAGCCAACCTACCAACTAATGCTAG
R
TTAAAGGGGAAATGAGTTGTTCTCTATTTCGTACCGCTGCTTTGAGAGTATAATATGGGGGAGACAAAGTAAAGTTTTCAGGATACCATCAGAGACAACA
Celera SNP ID:            hCV2907636
SNP Position:             4146
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67622):
AAATCAAACCCAGAAGAAATGTGGGCACAGCACCTCCATTCACCTAATCAACTCCTACAGGAAAGAAGTAAATGCAAGCTGCAAAACCAAAGGGACATCA
Y
ATTAGAGAAAACATGCTGATGATTCATCATACAGAAGAAGCAACCGTTATTTTTAAAGTCCATGAAAGCACCTGGTTGAAACATGACACACCATGGCGGC
Celera SNP ID:            hCV2907637
SNP Position:             4385
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,11)      total(C,2|T,11) ;no_pop(T,-|C,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67623):
ACTGCACTCCAGCCTGGTGACAGAGCGACACTCCGTCTCAAAACAAAAAAAAAAAAAAGAAAAGAAAAGAAATGCATTTTAACTAGGAATGGTGGCTCAT
K
TCTCTAATCCCAGCACTTTGGGAGGCCAAGGTGGAAGGATCACTTGAGTCAGGGAAATCAAGGTGCAGCGAGCTATGATTGTGCCACTGTACTCCAGCCT
Celera SNP ID:            hCV2412028
SNP Position:             11869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67624):
GAAGTAAATGCAAGCTGCAAAACCAAAGGGACATCATATTAGAGAAAACATGCTGATGATTCATCATACAGAAGAAGCAACCGTTATTTTTAAAGTCCAT
S
AAAGCACCTGGTTGAAACATGACACACCATGGCGGCTGCACAACAATATAAATGTTGTTTAATGGCCCTGAACTGTACATTGAAAAATGATTACAATAAT
Celera SNP ID:            hCV2907638
SNP Position:             4449
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,11)   total(G,11|C,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67625):
TCATACAGAAGAAGCAACCGTTATTTTTAAAGTCCATGAAAGCACCTGGTTGAAACATGACACACCATGGCGGCTGCACAACAATATAAATGTTGTTTAA
Y
GGCCCTGAACTGTACATTGAAAAATGATTACAATAATATATTTTGTTATGTATATTTTACCACACTTTTTTAAAAAGACACATCATAAGAGTTTGAGACA
Celera SNP ID:            hCV2907639
SNP Position:             4512
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67626):
ATCATTACCATTAACAAGGACCAAAATGTCTTTGACTCCAAGAAGAAAGTGAAATTAACCAATGCGGAAAGAGTAGAGTTTAAGCTTTCCAAGAAACAAC
K
ACAAGCTATAGAATTTAACAAAGCTGGCCTGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCGGAGGCAGGCAGATCACAAGGTCAGGAG
Celera SNP ID:            hCV2143976
SNP Position:             20068
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67627):
CAACTTTACAATCAAATACTACTACTAAAACCAACGGATGTAGGGTTACTAGATGTAATTGCAAATAACATCATTACCATTAACAAGGACCAAAATGTCT
Y
TGACTCCAAGAAGAAAGTGAAATTAACCAATGCGGAAAGAGTAGAGTTTAAGCTTTCCAAGAAACAACTACAAGCTATAGAATTTAACAAAGCTGGCCTG
Celera SNP ID:            hCV2143977
SNP Position:             19999
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67628):
GCGGAGGAATCCTGGAACCCTGATCAGCAGGAGCCATGCAACCAGCCCACGCCCACCAGCCTCCAGACCGCTACATGAACAGTCAACATTCATTTTGTAT
S
AGCCGCCTGAGTTTTCTGTTACATGCAGCTGAACCCTGCACGTTAAAGAAATTCATATCCCTCGCCTTTATTTTTTAAGACTCTCCATCAATCAAATCAC
Celera SNP ID:            hCV29110154
SNP Position:             303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67629):
ATTCTTCTGCCTTGGGATCCTGTTGATCTGTGACCTTACCCCCAACCCTGTGCTCTCTGAAACATGTGCTGTGTCCACTCAGGGTTAAATGGATTAAGGG
Y
GGTGCAAGATGTGCTTTGTTAAACAGATGCTTGAAGGCAGCATGCTCCTTAAGAGTCATCACCAATCCCTAATCTCAAGTAATCAGGGACACAAACACTG
Celera SNP ID:            hCV27403951
SNP Position:             23304
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67630):
AGACCGCTACATGAACAGTCAACATTCATTTTGTATGAGCCGCCTGAGTTTTCTGTTACATGCAGCTGAACCCTGCACGTTAAAGAAATTCATATCCCTC
S
CCTTTATTTTTTAAGACTCTCCATCAATCAAATCACTGTCTCATTTTGACATTTATGTTCATTAAGTATTTGAATAATTGGATCTTACCCTTGAAGCCCA
Celera SNP ID:            hCV29110155
SNP Position:             367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67631):
TGTGCTCTCTGAAACATGTGCTGTGTCCACTCAGGGTTAAATGGATTAAGGGCGGTGCAAGATGTGCTTTGTTAAACAGATGCTTGAAGGCAGCATGCTC
S
TTAAGAGTCATCACCAATCCCTAATCTCAAGTAATCAGGGACACAAACACTGCGGAAGGCCGCAGGGTCCTCTGCCTAGGAAAACCAGAGACCTTTGTTC
Celera SNP ID:            hCV27403952
SNP Position:             23352
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67632):
GAGGGGGCAGGGGTTGTCAAACAAAGTAGGCATCTTCTGAAATGAGTAACAACAAAAACTCACTCCACAGTCCATTTTCTCCAACCTACTAACCTGGTTG
S
AGATCAGGCTACTAAGCCTGATCAGCACGGTCTTAACATTACTAATTTCTAAATATTTCAACATAAATGGAACAGTTCCTCACTCCTCAGAAATCACTGC
Celera SNP ID:            hCV29110156
SNP Position:             4885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67633):
CTTGTTTATCTGCTGACCTTCCCTCCACTATTGTCCCATGACCCTGCCAAATCCCCCTCTGTGAGAAACACCCAAGAATTATCAATAAAAAAATAAATTT
A
AAAAAAAAAAAAAAACAATTTAACAAGGCATTACTTGCTATGTACACAAACCAGGCCGAACAATGCCTCAAAATATCTGCCAGTTTACATTCCCAAAGTC
Celera SNP ID:            hCV27403953
SNP Position:             23554
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67634):
TTGTCAAACAAAGTAGGCATCTTCTGAAATGAGTAACAACAAAAACTCACTCCACAGTCCATTTTCTCCAACCTACTAACCTGGTTGGAGATCAGGCTAC
K
AAGCCTGATCAGCACGGTCTTAACATTACTAATTTCTAAATATTTCAACATAAATGGAACAGTTCCTCACTCCTCAGAAATCACTGCTGGTTTCCTATCA
Celera SNP ID:            hCV29110157
SNP Position:             4898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67635):
GGGTGTGGTGGCACGCACCTGTAGTCCCAGCTACTCGGGTGGCTGAGGCAGAATCGCTTGAAACTGGGAGGCGGAGGTTGCAGTGAGCCGAGATGGGGCC
M
CTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTATCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAAGAATTGGGCATTTACCCATC
Celera SNP ID:            hCV27403954
SNP Position:             25114
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,4)   total(A,4|C,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67636):
ATGTTGGCCAGTCTGGTCTCGAACTCCTGATCTCAGGTGATCCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTAAAGGCATGAGCCACCATGCTCGGCA
S
ATTCTGTCTTCTATATGGAAAGGTAGGGCAGTGGCGTTCTGTAGGTCAGAAAATGTTAAGAAAATCAAAAAAAGTGTTTTAGTTAGAAAGAGGGGAGATT
Celera SNP ID:            hCV29110158
SNP Position:             8232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTERGENIC


Intergenic Region Number:  4
Celera Axis ID:            GA_x5YUV32W2RH - 211000035838769 (39168900..39208900)
Chromosome:                8

Genomic Sequence (SEQ ID NO:12602):
ATATTATCTAGATTTTAAAATGTAACAATTTGTTTGGTTTGATAATATTTAGTATCTAGCTTTAGCCTAGGATGCAAAAGTCCAGTGTGTCCACATAGCG
GTAGCATGATTTGAATCTAACAAATTTGGATACCTAGTTTACCTTTTTTTTTTTTTAAACAGCGCAGAAAAGGAACCAATATTTCAGAAACAAGCTTAAT
AGGAACAGCTGCCTGTACATCAACATCTTCTCAGAATGACCCAGAAGTTATCATCGTGGGAGCTGGCGTGCTTGGCTCTGCTTTGGYAGCTGTGCTTTCC
AGAGATGGAAGAAAGGTGACAGTCATTGAGAGAGACTTAAAAGAGCCTGACAGAATAGTTGGAGAATTCCTGCAGCCGGGTGGTTATCATGTTCTCAAAG
ACCTTGGTCTTGGAGGTAGGTTCATATTGATTTTCAGGAGAGTTACGTGGTATGAACAAGCACTCTTCACTTAGACCATCCTATGACCAGTAAGAAGGTA
TTCCATTTTATTTTCATTTATAAAATTTTCTATACTCATTTACCAACAAATTTGCATGAAAGTGAGAGCAAAGGATAAAATAAGCATTTAATAGTATGAT
TAGATGTGAATTAGACTTAATGAGATATAATAAAATGGCCAAAAGATTGTAATGGTCAAAATTAAGGACTGGAAAATCCTAGAATGAGGGCATTAAATTT
TGTGAAAGGCGAAGGGAACTGTCATTTGTAGAGGGTATGTTGTATACTTGTTACAGTGTTATTACTTAGAATCTTTTATTTAAGCACCATTCATCCATTC
AACCAGTGCTTTTTAAGCACTGGCTATTCATTTAGGAAATATTTATGCACTGTCTACTTTGTGTGGGGATGGGGTGGTGGGGTGGGGTGGGGTGGGGAAG
GTGGGAGAGACACAAAGAAGCAAGCCCTCCCCTGTCTTTTTTTCCAAGGGCACTAATCCTATCGTGAGAGTCTACCCTCATGACCTAATCACCTTCTAAA
GGCTCCATCTCCAAATATCATCACATTGGGGATTAGAGTTTTAGCTTAGGAATTTTGGGAGGACACAGACATCCAGTCAATACCATATTTGAACATTTTA
TGTCACTAATATATATACTAGAGTCCACTTTTTCACTTGACAGAAACATATTTCCAATACTGTTAACCATTCTTTATCAGTATCTTTTTAAGCCCAAGCA
TAGTTGTTTTTCAGTTGACTTCATAATGTACTTCACTTTTCAAACTTAGATGAATGTTTAGGTTATTTTCAGTTATCCTTTTTTAGGTAACACTATAGTG
AACCTATTCTTGCATGTAACTTTAAAGATTATTAAATATTATGTCTTTAGGATGAATTTCTTACATGGATTTCCAAGAGTAAGATTATTACATCGAAGGA
TGCTAATTTCTTCATGGTTCTTGATAATTATTGTTATATTTTCTAAAATATAATATTAGTTCATAGTATCACCAGTAGTATATGAATTTATCAGTTTTAT
CATAATCTCATCAGTGATTTTGATGGTGTCCTGTTGTTTCAATTTTTACTTAATTTTTTTTATCGTTTGAACATTTTTTCTGATTTGTTCACTGTTTCTA
TATTGCTTTATATGAATCATCCATACATGTTTTTGTCCATTACTATTGGCGTCTTAATATTTTTCCAGTGGTTTTTAATGAGTAAATTTTATTATATATA
CATGTATTAATCTYTTGTTCTATTTCATATGTCTTTCCCAAAGTATTGTTTTAGTTTTTATTTTTAAAATTAATTTTTTAACTTTCTAATTTTCGGTTGG
CACTTTAAAAATGTGATATTTTCTATTGAAAGTTTTTTATTTTTCAACTGCTTTTGCTGCTTTAGATTTAAGAAAGAAGTTTTTACATGATTCTGATGAA
TTCAGTGTTTTGTTTGCTGCCATTTAAATTATTTGATGTACTAAAAAGTTCTTTGCAGTTTGTCCTGAGTCACTTTTAATGGATAGTATGTAATCATCAA
CAGTTGGGGGATAACTCTACCCTTTCCATTTGGTTTGGAAAATCTACTTTTTCATATATTCAGTCATTATATATAAATTGGGGTTTTTTTTTGAGTTTCC
ATACTGGTTTTATTTTATTTTTATTTCTTTTTGGTGACAAATCTACATATTCATACATTGAAAGAAGTGTTAAGAAGGACTAAATGTGTTCCTATGTCTT
TATGGCAGAACAGGTTTACTCAGGAGAGGATTATGGTTTATTTCATGTTGCATTTTCTTTCTGAAGTTGAAGTGGAATTACAGACCTGAAATAGTTATGT
TGKTATCTTTAAATGATATTACAGATTTGCTAAGACTCTCATTGACTTCCAGAAGCATTCACAGTTTCTGAAATAGTTACATTAGTTTTGTTCAGTTCTC
CAGATTTGAAGGCAGAGACTCATTTTTGATGTGTGTGTGTCTTCTTTGGTTCTTAGTTTAACGCTGGGTGTGTTAACAGAATTGATTGTTTTGAACTCGA
TTGCTTTGCAGATACAGTGGAAGGTCTTGATGCCCAGGTTGTAAATGGTTACATGATTCATGATCAGGAAAGCAAATCAGAGGTTCAGATTCCTTACCCT
CTGTCAGAAAACAATCAAGTGCAGAGTGGAAGAGCTTTCCATCACGGAAGATTCATCATGAGTCTCCGGAAAGCAGCTATGGCAGAGCCCAAGTAAGACC
ACAGTTTCAAATATATAATTACTAAAGAATCAATGCATTTAAATTTGACCTTTGTACAAATAAGATTTTATAAATTTTAATGAATTTTTGGGGCATAGTC
TAGAACATATGTATATTAAAATAAACTGTCAGTCAAAAGAGTGTTAGATATTCAGTGCTTTTGTTAAGAATATCATATAGAGAATTTTCCTTTGACATGG
AACTATGAAGAGTTCTCCTTTGACTAAATGAAAATTACATAATTTTTATGTGACGGGAATTTAGAGGATATATTTGTAACTAAGGCATAAGTCCATTTGT
GYACATTTTGGAGTTTGAGTTTGTGGTTAYGATACTTTCTATTAGAAGTCAGGATACAAAACTGCAAGGAGAAATCCCTGTTTCATTCTCACTAAAGACC
CAGTCTGTTAGGACTGGCTTCTTCTCTTGTTTATTAACTTATATTTACCAGTAACCTTTAAAACACTAATTGAAGAAGTTTTAAGCGTGAGAACCCTCAT
GTGACTGACACAGACTAAAGTATTGACAAAGCAAGTGAAGAAGCAAGTGGACTTAATCCTTTGGACTAAAAAGACTTGATATCCATGGAAGAAGAGTATG
TTCACTGTATGAAAATGGAAAAATCGGCCAGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACGAGGTCAGGAG
TTCAARACCAGCCTGGCCAATATGGTGAAACCCCGTCTCTACTAAAAATAAGAAAAAATTAGCCAGGCGTGGTAGCACGCACCTGCAGTCCCAGCTACTT
GGGAGGCTAAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATAGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACT
CGGTCTCAAAAAAAAAAAAAAAGAAAATGGAAAAATAGTCCCAAATATAAAGATTATAAAAATTACCTGTGATCTTTCTGACTAGAAATAATTACTCTTT
TTTTTTTTTGAGACTGAGTCTCGCTCTGTCACCCGGGCTGGAGGGCAGTGTTGCAATCTCGGCTCACTGCAACCTCTGCCTCCCGAGTTCAAGCAATTCT
CCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACATGCCACCACGCCTGGCAAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCC
AGGATGGCCTTGATCTCCTGACCTTGTGATCCGCCCACCTTGGCCTCCCAAAGTTCTGGGATTACAGGTGTGAGCCACCGTGCCCTGCCAGAAATAATTA
CTCTTAACAGTTTGCAGGATGCATTCCAATACTTGTTTTCCCCTCTGTGTATGAATGTATGAGGGTATGTAAAGTTTCTCTGCCTATATTTTATTTTTTA
ACAAATTAATTTATTTTTAACAAATTAAGATGAAAATCCAATGTTACTTTTTAAAATATTTTTAAAATATTTAATGATTACTAATGATTACTAATGTAAT
CATTAGTAATATGTATTAAATGTTGATAAATTAGAAAATAAAAAACACACATTGGACACGTGTTTGCACACACATGCATGTCCAGTTTATATGGATAAAC
TGGAGATAAGGAATTTATATTTAATTTAAATTGCTGAAATGTGCTGCTTTAGAAATGTATTTTTTTTTATTCTTTAGTGCAAAGTTTATTGAAGGTGTTG
TGTTACAGTTATTAGAGGAAGATGATGTTGTGATGGGAGTTCAGTACAAGGATAAAGAGACTGGAGATATCAAGGTGAGAAATACCAAATGTCACCTCTT
CCTAAGAGATGTTGTTTTTCCTGCTTTTTCACTTACCCCTTTAAAAAAGTAGGCTTACCGGTTTACATGTTGAGTATCTCTTATCTGAAATGCTAGGGAT
CAGAAGTGTTTCAGATTTTTTATTTTTTTCAGATGTTTGCATTATACTTACCAGTTGAGCATCTCTAATCYGAAAATCTGAAATTTGAAATGATCTAATG
AGTATTTTGTTTGTCACATTACTGCTCAAAAAGTTTTGGATTTCAGATTTTTGGATTAGAGATACTCAGCCTGTGTTATTTATCAAATGAACTGAGTTCT
TTCTAAGCCATATGCAACAGGATGGGTTTCAGATTGCAACACATTGTTCTTTAGAGGACTTCAGAATGCTATGCAAAAAACATTTTAAACAGAACTAATG
TGAATAGTTTTTGAAACAGTAATATACATCAGCAGAGAAGCAGAGGGGAACTAGCAGGGGAAAGAAGGCAAGATTCAACATAAAAGAAATGATTCAGATA
AAATGAGCAATTTAACTCAGGTAATAGTAAGAGAATCTTTTTAAAAACAATTTATCCTTTTATTTTATTTTATTTTATTTTGTTTTATTTTTTGAGACGG
AGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGTGCGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCC
TGAGTAGCTGGGATTACAGGCATGCTTCACCGCATCCGGCTAATTTTGTATTTTTAATAGAGACGGGGTTTCTCCATGTTGGTCAGGCTGCTCTTGAACT
TCCAGCCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCAATTTTTCCTTTTTTTAAAAAAAAA
TTATCGTAGTAAAAAACATGTAATTCTGGACTGCTCCCCATAGGGTTACCACCTCTTAGAAATTGTCCTCTAATGAAGGTGACTGGAATGTTTTCTCTGC
TCATACTGTAGTATTATAAATACATGTAGTCATTTGTACAAAAATTCTTCTAAGCCCTAGCTGCTGACTAAAAGCACTATATGAAGTTAGGAAATTTTAG
AATGAAAGAATCTGGCTAGTCCCTTGAATTTGTAATGAGATTGACTGCTCTGTGTTACATGCCTGCCTTGTAGTTGTTTCCCCCATTGTCTGTCAAAGTG
GAGAGTAATCCCAGATGGTTTGCATGGGAGGGCTACAAAGGGAGATGATCCTCAGGGACTCAGAGGAAGTATCTAAACACTGGTCATGCGTTATCTGAAG
CCCACGTAACAGTTTCTTCAATAGTATTATCTTCAACTACTCTCTATAATGCTATCTGATAATATATCTAAATCTCTTCACGCACATTTTTTAAGAATGG
CTTTTTTTRCTGTGTGTTTCTGACTACTAAACTGAGTAGTCTTCATTTCTGTTATAGGAACTCCATGCTCCACTGACTGTTGTTGCAGATGGGCTTTTCT
CCAAGTTCAGGAAAAGCCTGGTCTCCAATAAAGTTTCTGTATCATCTCATTTTGTTGGCTTTCTTATGAAGGTACTGTAGGAGTGTGTTATTGTAATTTC
AATAAAAGAAACTTGAAATTTGAAAATTATTAAAACATTTTCTTTTTATTTGTTTTAGAATGCACCACAGTTTAAAGCAAATCATGCTGAACTTATTTTA
GCTAACCCGAGTCCAGTTCTCATCTACCAGATTTCATCCAGTGAAACTCGAGTACTTGTTGACATTAGAGGAGAAATGCCAAGGAATTTAAGAGAATACA
TGGTTGAAAAAATTTACCCACAAATACCTGGTAAGAAATAGCATCTTCAGTTCTTACAAAGGCTGTGTCTAAAATAGGCCAGAGATAAGGATGGCAGGTG
AAACATTCATCCAGTCAACCAGATATTCTGGAACTGAACTATTTAAACTAGCACTTAAAAACAGCAAAACAAACTCCCAAATTAATAAAAAAAAGTTTCG
GGCCGGGCACAGTAGGTCATGCCTGTAATCCCACCACTTTGGGAGGCTGAGGTGGGCAGATCACCTRAGGTTGGGAGTTCAAGACCAGCCTGACCAACAT
GGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGAGTGTGGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATCGCTT
GAACGGGAGGCAGAGGTTGTRGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAAGTTTTG
ATATGTTTTTGTCACATAATAGCATAGTTTTTAGAATAATTGTTTTTATTGGCATATATGGTATTTTTAAAGGTAGTCTCTGGACACGAATCTGACTCTG
AATTCTTTATCTCTTATACCTAAATATTTTTGTGCTTGGTTTTTGTAGTAATGACAGCTACCATTTCTTGAATGCTTACTATAAAGTGTTTAGCAAACAT
AATTTCATTTAATCTATGTAACCACTCTGTGAGGTAGGCATTATCATTATTCTCATTTTACAGATGGGAGAACTAAGGTTCAGAGAGATTAGTTAGCTCC
TCCAAGTATAAACTATTAGTAATGGCAGAACCAGGGTTGATATCAGGTCTGTCTGGCTCATATGTGCCTGTTTGAACAGACATGTCCTGTCCGCAGAATG
TGAGAATTGTAAGGGATCTTCAGGATCATGTTAGTTTTGAGTTGAATATAAAGGCTTCATGAGATTTAGATAGCTTTGTAAAAACATTAATAAAAATTAC
TTTTTCACAAATCTAAAGTTTTCATGGTACAGTTTTTAGGATCTTTTTTTGAGAATGGGATGATATAGGAAAGAAAAGTAAAAAAAATTTAAGAATTTTG
ATAAAATTGAAGGGAAACCCTCATTGTCAATTATGATATGATTAGAGTAATAGGAAACTATTTTTGGTATGAGTACATTTTGTTTAAATATTCCGTTTTT
TTCAAGTTWTTTTTTAAACTAAGTGAAACCACTTTAGTAACAAATTATTAACAGAAATGAAGTGAAATGAAGTGGGCAAACTTAGATTTTAAATAATGAC
ATTTTCAACATGTACATGGAAACATTTCAATAAATTTTCATTTAGTTAAGCCACTTTTGAAGCTTTCAGATGGGGAAATTATGAATATTTATGAAAAGGG
TCATCSATTACCTGATATTTTTAGCATTTATTTTTCTTTTATTGTAAATRTGGTGGTTTTTCTTTTTTTTTTCTTTTTTCCAATCCAGAGGTTAATTGGA
GTAGAGTGCCCTGAAATTATGGAGAGAAACCATTGGTAGGTTTATATTAATATTAGTTAGATTACCAARATTCTACTCCTTAATATGAATGGAATAATTT
TTAACAGAGGCTTCTGCTCCTCTATTCCCAGATCACACTGGGAATTGTATGACAGTTCATTTTCTATATAAGTAGCACAGAAATTTAAAGCTTGTTTGGA
AGTATCTCAGAGATGAGCTGATCAAACCATTTCATTTTTATAGATGAAKAAATTGAAGCTCAGAGAGGTAGGGCTGGCCTCGAATTCCTTTTCTAGTGTA
CATACCCTCCTGCTGTTTGTGAATTGGTAGTGTATTTCATCTGATTATTACAAGAATATATTGATTATAATACATTAAATATTAAATATGACAGTAGTCT
GTTAACATTTGGAAGAAAGGTAGGTGGTTTTCTCCCTGTTTCATTTCATCTGAATTTGCCTCATTGTTTTTTCATTCAGTTGTATGTATGTTTATATTAA
TGTTCTCTTAGATTCCTTAGTCATTCCTTGGCATTAACAGCTAAGTGCTTAATGAATAATTTTATTAATGAAATAATTAGTTYTTGATTTATCACAAGGG
ATATATGTAACAACCATAACAGATGTATAGTAGGCATTTGTTTATACTTGATAAGAAAATATGTGATACTTTGAAATTGAAGTGTTATGACCCATTTCTT
TGGGTTGGTGGGATTTATTGCAGATCACCTGAAAGAACCATTCTTAGAAGCCACTGACAATTCTCATCTGAGGTCCATGCCAGCAAGCTTCCTTCCTCCT
TCATCAGTGAAGAAACGAGGTATTATTTTTTGGGCTTATTTTATAAAGGAATCAGTATTCCAAATGACAAATATATGATTAAATTTATACTGTTACGAAT
AACTTCTGGGACAGATAGTTTGTCACTGTGGATTAGTGCATTATTAATACCAAAATTAGTTTTATGATCTATTTAGTTRTTAACATTGAGTGTATASAAG
TATTGTGCTAGTCAGGGAAACAACAGGTAAAAAACTGACCTTGACCTAGAGAAGGCCTTTTTCTTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
TTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCT
GCCTTAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACTACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTTTTAGCCG
GGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCGAGAAGGCAAT
TTTCTACTTAGGAATGTAGACAGATAATTTTACAACACTGTTGATAAATAAAACCCACAGATTCAGTGTCAAGAAGTGTGCAGAGCAGGGAGGGAAGCTT
GTGAAATGGGAGGGGTAGTTAGGGAGGACGTTGTTCAGGAAACAGTGGAAACAAAGGACCTTGGACCTGGAGGATGAGTGGGAGTTCATGAGGTGGACAC
TAAGATGAGGAACTTCTAGGTAGATGGAATAACATTGCCAAAGGATGAGAAATGGTGGCACTTTCAAGGAACTCAAGCAGTTTCCTATGGCAGGAGCATA
GGGTGGGTGTCAGAGTGGGAGACAGACCATTAACATTTAATCTTACAGACAATGGAAAGTCATTTGAAGTGTTTTCTTGTTACTAACTTTATTGATATAT
AATTCACAAATCAGTTTGCCCATTTAAAGTGTACAGTACAGTGACTTTTTTAGTATATTCACAGTGTGTGCATCACCACCACAATCAAATTTAGAACATT
TTTATCTTGCCCAAAGAAACCCCGTACCCATTGGTATTCACTCCCCATTTCCTCCCAACACTCAGCCCTAGGCTACCCCTAATTTACTTTCTGTGTCTAG
ATTTGTCTATTTGGGATGTTTCCTAAAGGCATTGTATAGTAAAGCCCTTTGGAACTGGCTTTTCATTTAGCACAATGTTTTTGAGGTTCATTCATGTTGT
AGCATGTTTCAGTTCTTCATTTGTTTTTATGGCCAAATAATCTTCCAYTGTGTGGCTATATTACATTTTGTTTAGCCATTCATCAATTGATAGATATTTG
GGTTGTTTCTACTTTTTGGTTATTACAAGCAATGCTGCTATGAACATCTGTGTGCGAGTTTTTGTGTGGACATATATTTTCATTTTTCTTGGTTATATAC
CCAAGAGTGATATTGCTGGATTACATAGTAGTTCACGTTTAACTTTTTGAGGAGCTGCTAGACTTGTTTTCCAAAATAGCTGTCCCAGTTACATTCCTTT
CAGCAGTGTGTGAGTTCTAATTTCTCCACATCCTTGTCAGTGAACACTTGTATTATCTTTGTGTGCATAGCCATCCTAGTAGTGTGAACTAGGCCTTTTA
TCATTGTGCTGATTTGCATTTCTCTCATAGATAATGATGTTGAACATCTTTTCATATGCATATAGGCCATTTGTTGTTTGGAGAAATGTATATTTAGACT
TTGCATATWTTTTTAATTGGGCAGATTTAAAATTTATGTATTGTTGAGTTTCAAGAGTCCTTTATATATTTTAGGTACAAGTCCCTTATTAGATATGTGA
TTTGCAAAATTTTTCTCATTCTGTGGGTTTTCTTTCCATTCTTMTTAATGGTTTCCATTGAAGTACACATGGTTTAAATTTTCATGTTTATTTTTTCTTT
CGTTGCTTGTGCTTTTGATGTCATATTTAGGAAGGCTTTGTCCAATCTAAGTTCAAAAAGATTTACTCCTATGTTTTCTTTTTCTTTTTTTTTTTTTGAG
ATGGAGTTTCGCTCTTGTCGCCTAGGCTGGAGTGCGATGGTGCGATCTCGGCTCATTGCAACCTCGGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGC
CTCCCGAGTAGCTGGGATTATAGGTGCTCGCCACCGTGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGGTCTC
AAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTCCTGGGATTACAGGCAYGAGCCACCATGCCTGGCCTGTTACTCCTATATTTTCTT
CTAAGAGTTTTATAGTTTTACCTCTTAAATTTAGCTCTTTGATCCATTTTGAGTTAAATTTTGTGTCTGTTGAGAGGAAGGGGTCCAGCTTGATTTGTTT
GTGTGTGGATATTCAGTTGTCCCAGTATCATTTGTTGAAAAGACTRTTTGTTCCCCAGTGAATTTTCTTGCCCTTGTGGTCAAAATTCCCTTGACTGAAA
GGTAAGGGTTTCTTTCAACAATATTTTGTAGTTTTCAGAGTATAAGTTTTGCATTTCTTTTGTTAAATTTATTCCTAAGTATTTTACCTTTTTTGATACT
TTTGTAAATGGAATTTTCTTAAAGAGGCAGTGGCRTGATTAGACTTTTATTTCAGGAATATACTCTGACATTTTTGTGGAGGATGGTTTGGAGGAAAGTC
TRGTAAAACATACACTAAGATTAATTATTCTGTCAATGATGATAAAAGGCCAGAACTAGGGTTGTAAAATGAAAGGTAATGAATAAATTTGGGTAATATC
TAGGATGTAGAATGTAAAAAACGTGATGATTTGGATATTATAATGAGAGTGAAATCTCTTGATGTAAATTCCAGGTTTCTGGCTTAGATAGTTTTGCCAG
CCATTTGCTGACATAGGAACAGGAAAAGGAGTTAATTGGGTTTTCTTTCTTTTTTCTTAGTTTGTCTTAAAGGTTTGCTGATTTTATCTTTTCAAAGAAC
CAACTTTTCATTTTGTTATCTTTTGTATTTTTTTCATTTCATTTATTTTGGCTCTGATCTTTATTATTTTCTACTAATTTGGGGTTTGGTTTGCTCTTGC
TTTTCTGGTTGAGATGCACTGTTAGGTTGTTTATTTGATGTTTTCCTGCTTTTTTGATGTAGGCACTTACTGCTAAAAACTTTCCCTTTAAGTATTGCTT
TTGCTGTGTCTCACAGGTTTTATATATTGTCTTTGCATTTTTATTTCTATCAAGAAATTTTTATATTTACTTCTTAATTTCTTCATTGACCCACTGGTCA
TTCAAGAGCATGTGGTTTAATTTCCATGTGTTTGTATACACAGTCTCCAAAGTTCCTCATAGTACTGATTTCTAGTTTTATTCCACTGTGGTCAGAGAAG
ATACTTGATATGATTTCAATTGTTTTTTGAATTTTTTAAGCCTTGTTTTGTGGCCTACCCATGATCTATCCTTGTGAATGATCGATTTGCTGAGGAGAAG
AATGTGTATTCTGCAGTTGTTGGATGAAATGTTCTGTGAATATTTGTTAGGTCTGTTTGGCCTGTAGTCCAGATTAAGTCTGATGTTTGTTGTTTATCTG
TCTGGATGATCTATTCAGTGCTGAAGGTGGGGTGTTGAAGTCTCCAGCCATGATTGTATTGGGGTCTGTCTCCTTAGCTCTAATAATATTTCCTTTATAT
ATCTGAGTGCTCCGGTATTGGGTGCATATGTAATTGTTACATCCTCTTGCTGAATTRACCCCTTTATCATTATCTAATGACCTTCTTTGCCTCTTTTTAT
AGTTTTTGTCTTGAAATCTATTTTACTGATGTAAATATCACTATGCTCTTTTTTGGTTTCCATTTGCATGGAATATCTTTTTCCATCCCTTCATTTTCAG
TCTCTKTGTGGCTTTATAGGTGAAGTGTGTTTATTTTAGGCAGCAGATCGTTGGTTCTTTTTTTAAATCCATTCAGCCACTTAYGCCTTTCGAGTGGAGT
TTAGTCCATCTACATTGAATGTTATTATTGGTAAGTGCGTACTATTGCCATTTTGTTTTTGTTTTCTGATTGTTTTGCTGTCTTTTCTTCCGTCCTGTTT
CCTTTCTGTGAAGGTAATTTTCTCTGGTAGTATGTTTTAATTTCTTGCTTTTAATTTTTTTGCCTACCTCTTGTAGGCTTTTGATTTGAAATTACCAGGA
AGCTTGCAGRTCATATCTTATAACCGATTATTTTAAACTGATGACAACTGATTCCACARACGAGCAGAGAAAACTAATAAAAACTCTACACTTTATCCTC
CTTGCTTTTTAACTTTTGTGAGTTTTGTACCTTCATGTAATTGCTTACTGCTCGTTAAGGTCCTTTTCTTTTAGATTGAAGAACTCACTTCGGCATTTCT
TGTGGGAAAGTTTGGTGTTGATGAAGTCCCTCGGCTTTTGTTTGTCTGGGAAAGTCTTTATTTCTCCTTCATGTTTGAAGGATATTTTCACTGGATATAC
TATTGTAGCATAAAAGTTCTTTTCCTTCRGCACTTTCAGTGTGTCTTGCCCCTCTCTCCTGGCCTGTAAGATTTCCACTAAGTCTACTGCCAGACATACT
AGAGCTCCATTGTTTGTTGTTTCCTTTCTCTTGTTGCTCTTAGGATCTTTTCTATATCCTTGACCTTTGGGAGTTTGATTATTAAATGGCTTGAACTAGT
CTTGTTTGGATTAAATCAATCACCAATCCTTGCTTGGTGTTCTGTAGCYTTCTTGTGCTTGAATATTGATATCTTTCTCTAGATTTGGGAAGTTCTCTGT
TATTTTTTCTTCAAATAAACTTTCTACCCTCATCTTTCTCTATCTCCTTTTAAAGGCCAAGAACTTAGATTTGCTCTTTTGAAATTATTTTCTAGATCTT
GTAGGTGTGCCTCATTCTTGATTATTCTTTTTTCTTTTGTCTCCTCTGTGTATTTTCAAATAGCCTGTTTTCAAGCTTACTAATTCTTTCTTCTGCTTGA
TCAGTTCTACTGTTGAGATTCTGCCATGTTCTTCAGTAAGTTAATTGAATTTTTTATCTCCAGAATTTCTGCTTGATTCTTTTAAATTATTTCAGTTGTT
TTGTTAAACTTACCTGATAGCATTCTGAGTTCCTTCTCTGTGTTGTCTTGAATTTTGTTGAGCTTCTCCAAAACAGCTATTTTGAATTCTCTGAAAGCTC
ACATCTCTGTTACTCTGGGATTGGTCACTGGTGCCTTATTTATTATTGTTAATTTAGTGAGTTCATGTTTTCCTGGATGGTTTTGATGASTGTGGATGTT
CACCAATGTCTGGGCATTGATGAGTTAGGTATTTATTGTGGTCTTCGGAGTCTGGGCTTGTTTGTACCCATCYTTCTTGGGAACGCTTTTGAAGTATTCA
AAGGGAAGTGAGTGTTGTGATCTAAGTCTTTGGTCATAGCAGCCGTATCTGTATTAAGGGGCACCCCAAGTCCAGTAACATTGTGACCCTTGCAGACTTG
TAGAGGTACCGCCTTGGTGGTCTTGGGTAATATCTGGGAGAATTCCCTGGATTATCAGGAAAAGAACTCTTGGTTCTCTTCCCTTACTTTCCCCCAAACA
GAGTCTGTCCTTCTTTGTTGAGCTGCCTGGAGCTGTGGGGGACGGGTGACACAGGTATGCCTGTGGCCACCATGACTGGCGTGTGCTGAGTCAGACCTGA
AGCCAGTACAGCACTGGGTATTGGTGAAAGGCTTGTGGTGATGACTGCCTGGTCACCGCTGATGTTCCCTCAAGACTCAAGAGCTCTACAGTCAGCACAA
ATCCAGCCAGGCTTGTGCCCTTCCCTTGAGGGCAGTGAGCTCCTGGGGGCCCAGGACTGGTCCAGAAATGCTGTCTGGGAGCCAGGGCCTGGAGTTGGGA
AACTTAGGAATCTACTTGGTGCTCTATTCTACTGCAGCTGAGCTGGCACCCAAACCTTAAGACATATTCCTTCCCACTCTTCCCTCTCCTTTCCTCAAGC
AGAAGGAGCCTCTCCCCATGGCCACCAGTGCTCCAGGCCTGCAGTGAGTACTGCCTGGCTGCTGCTGGTGTTCACTCAAGGCTCCAGGGCTCTTCAGTCA
GCTGGTGGTGAATGCTGCCAGACCTGGGTCTCTCCCTTCAGTACAATGGGCTCCCCTCTCACCCAGGACGGATCCAAAAATGCTGTCCAGGTGCCAAGAC
CTAGAATCAGGGACCCCAGGAACCCACTTGGTGCTCTGTCTCACTGGCCAAGCTGGTACCCAGGCTGACTTTTGGTTCTTATGAAGGTGCTTTCCTGTGT
GGGAGGGGGATGATCGCCAGAGGACTTGCTTTGTATACCTGGATACCTGTAGATTCTTTTTATTTTCTTCATATTTTAAGGAGGCCTTACAAATGTATTG
ACATTATTGGACTTGTCATTAGGTTTGTATATGAGCTTCATGAGGGCAGAGGCCACACTCTTGTTATTACCATATCCCCAGTGCCTGGCCACCTATTAGG
TACCCAACATTGATTCAAACAACTCTTGAATTTTTGCCTCAGCAAATTTTAATCATGATTTGTTTTCATGTATTTTCACATTTTTCTTATTATTAGCTTA
CATCAGTAATCTTTATACATTGAGTTATCCTTTTTGTTTTGTCTCAAGGGATGCTCTAAAATAAAATCTTCATTACCTCTCTTCATAGGTGTTCTTCTTT
TGGGAGACGCATATAATATGAGGCATCCACTTACTGGTGGAGGAATGACTGTTGCTTTTAAAGATATAAAACTATGGAGAAAACTGCTAAAGGGTATCCC
TGACCTTTATGATGATGCAGCTATTTTCGAGGTAAGATCAATTATTTTGACAAAAATGTCTCAAAATGGATTTATTTCTGGGGGTTAAGAGCAGTGGGGC
TCTGATGGGGAGATCTGTACTAAGGAACCTGATGCTTTATAATAGCTCTTAGGCATCTTGCTTAGGCTTAAAGAACCTGACTTGCAACCTGTGAATCTTA
GAGAATTTCTAAATTTGAATATTATGTAACACTTGATTGCTATGGGCCACTTAGCTCATAGTGGTTGTAAATTTAGCTTCAGTGTCATATAACCCATTGC
TCTGAAGKTGAYTTTTTATTTTTTTTGTAAATGATAAACATAAGGCAATATTACTTGCAGATAGTCCTTAGAAGGATAAGTATCAGTTTGAGGGGAYTAT
AAACATCAGTTTGTGCTTTTTTATCCTTACCATATAATAAATGAGCTATTTCTTTTTTAGGCCAAAAAATCATTTTACTGGGCAAGAAAAACATCTCATT
CCTTTGTCGTGAATATCCTTGCTCAGGCTCTTTATGAATTATTTTCTGCCACAGATGGTAAGTGTAGACACTTTTTAGTGAATATTACTCAATTGCAGAT
TTTTAGCGTAGGAAAGGAATAAACAAGTTAGTGATTTGTCCAGAAATAAAAATGTTACCTGAGTTTGCTAACTCCCAAGTTGGTAGTTTTTTAAAATTCC
ATTTTGAGCAATAGTTGTAGTTKTAGTTTTAGTTTGGAAGGTAGTGGAATTTCCTTAGACAACATTAATAGCAATGCCTCAGTAACATATTCATTATTTT
GAATTCCTCTGGTGCAGACTAGATCATGCTTGTCCTCACACACACAAGACTGTGATGGAAGGTGTTTTTGGCCATGTATTAAAAGGCAATGTAGTCTTTT
TCTTCCTAACACTAGTTTCAATTTCTTTTTAAAGTAGTATTTTATAAAATGAATACAAGCTGTTAATCTTGTCCCTGTTGAAAAGCACAAGTAACAATGC
ATTCACCCTTTACTTATTTGGATTATTTTGGTGCTTTTGTTACTGTTTCCATATTATACAGAGGTCACGGTCAATGTATATATTAGAGAAAACACAACTT
AGCAGAAGCAGTGTTAGAAATGGAGGAAAAGAGGCCAGGCGAAATGATTCATGCCTGTAATCCCAGCACTTCAGGAGGCCAAGGCAGGAGGATCGCTTAA
AGCCAGGAGTTTCACACCAACCTGGACAATAAAGCAAGACCCCATCTCTACAAAAAATTAAAAGATCAGCAAGGCATGGTGGCGTGTGCCTGTAGTCCCA
GCTATTTGGGACTATATAGCTCACTACAGTGAGCTATATATAGTGAGCTATATGAAGTGCCACTGCACTCAGCCTGGGCAACAGAGTGAGACTTCATCTT
CTAAAACAAACAAACAAAAAATTAAAAGAAATGGAGGAGAAAAGGCAACTGTGCCACCTCCTCACCACAGCAGTGTACACATCAGTTTAATAGTAGGTTA
ATGAAACTAGGCTTTTCAGTTTTCAAGAATAAATACTGACTCATATGCCACTACTCTAGTATATTTGCAACATAGCTATTTGTATGATCTGGCTGAGGCC
CTAGTGATAAGTGCTGTGGTTATAATTACAAAAGATGATACAATAAAAATGCTTTCTGTAGCCTCTATAACCATTAACTCTTCCTAAGGAAAAAAAACAA
AACAAAAACCCCACCAATCTCACTGGTTATGATTTTTCCAAACAAATTTCTCTTGCTAAATTGGCATAGAAGTTAAAATGGCTGGTTGGGCAAATGAAAG
TAACTAAGTTTAGAGTTTTGGGCAAATAAAAAGAACTAAGTTTAGAGTTTTGGGCAAATAAAAAGAACTAAATTTAAGAGTTTTTCTGAGCTCTTCTTTC
TAAGCTTTTCTAACTTCTTGAGTTCTTAACATTATGAATTTAAATCTACCAACAAAACAACATTTTTTAAAAGTTACAAGATTGGAGGAGGAAAGACCTT
TATTGGAGCAAAAGTTTACCTGTTGCATCCTTTACTTTTTAAAATCTGTTGTAAAGAAAAATCTGGGCATACCTGAACAGAACATTGATTCTAAATGGTT
AAAAAGGTTATCAATTGATTACACTACATTGTGAGGGTTTTATGAGTTACTTTGAAAGGTATTAAAAACTTTATAGATATAAGGAATTATTATTTATCGC
TACTCACAGCTCTCTTCACTTGATAATTTACTGCTTAGTTAGAGATACTGGTTGGACATCTTAGAGACTRGGAATTTGGTTTCTAGAATTGTGTTAAAAA
GAGCTTCCAAAGTATTTTGCATCACTTAATGAATTAACAGCAAAATCAAGGAAGTACCTTTTAAACAACTCTTCCAAGACCTAAATATTAGTAGTTWTTT
ACTAACAGAAAAAAGTTTATTCATATTTATATTACTCTCCATAATGCTGATTATGGAATTCAGAAGAAATCCTGGTTGTTGAAATTCTAGGACTAGATAT
TTAAAAATTATCTGCAAGATGTAGCGTTTGTTATTTCTCATTTTTTCTGATATATCATTAGCATCCTACATAAGTGTGTACACATATTTGATTATTTTAC
AATTTTATTTTAGATTCCCTGCATCAACTAAGAAAAGCCTGTTTTCTTTATTTCAAACTTGGTGGCGAATGTGTTGCGGGTCCYGTTGGGCTGCTTTCTG
TGTAAGTTGTGATGGCACAGAGGATACAAACCTGCCAGATTTTCTTAGGACTGTTCAGTTGATGAATTACTGCAAATCTTTCYTCCTTACACATTTTGAT
ATTTTATTATCTGTTAGTATCCCAATGAGAAGGTGGCCCAAAGAAATGAAGAAACGCAATATTTAGTACTGTTTTCTTTCTAGGGAACAGCAGTTAAAGG
TGGTGGTAGAGGAAGCTATAACCCTTGATTAAAATAGAAGCTTGTTTTTTGCCTATGGATTTATCCATATGTTCTGGTCTGTGGGAGCCAGGAATAATTG
AGAAATTTTAATTTAAGAATTAGTTTCATTGAAGTACRGGGACTTATACAACCCAGTATTAGTTTTGAGCGTACAGACATATGTGGAACTATTCTTGGAA
AGTCTACAAAGTGAAATCTATCGAGTTATTTCTCATTTGCAAAGTGATCCTTTGAGTCATTTCTCATAATCTATAATCTGAATGTTAATACTGRTATTTT
TAAAAGCCCTACATCCCAACAGACCAGGCCATCTAGATATTTCAGCGTGGTGTCTCAGGATGAGTAAACAAACAGCTAAAAATATATGACTTATGTAAAC
TAGAGTTACAGGAGTTACTAGCTTTTCTGAAAGGGATATATTCTAAGTATTTTTTCTTAAAAAAAAAAAAAGGGGGGTGGGGGGTTTGCTCCTGCCATCA
AACTTAACATGCAGACATATTTGTGACGTCCTCTAAAATGTAGAATGTTTCATACAGAATTATGATGCTTGGGTAAAAAAAAGTAGGATGTTTGTTGAGC
TTCGTAGATTATATGTAATTGGAACCTTTGGAGTAAATTTTAGTTTCTGAGTCTTACCAATATGTATTTTTTTCTATTACAGATTGTCTCCTAACCCTCT
AGTTTTAATTGGACACTTCTTTGCTGTTGCAATCTATGCYGTGTATTTTTGCTTTAAGTCAGAACCTTGGATTACAAAACCTCGAGCCCTTCTCAGTAGT
GGTGCTGTATTGTACAAAGCGTGTTCTGTAATATTTCCTCTAATTTACTCAGAAATGAAGTATATGGTTCATTAAGCTTAAAGGGGAACCATTTGTGAAT
GAATATTTGGAACTTACCAAGTCCTAAGAGACTTTTGGAAGAGGATATATATAGCATAGTACCATACCACTTATAAAGTGGAAACTCTTGGACCAAGATT
TGGATTAATTTGTTTTTGAAGTTTTTTGTATATAAATATGTAAATACATGCTTTAATTTGCARTTTAAAATGAAGGGGTTAAATAAGTTAGACATTTRAA
AGAAATGATTGTTACCATAAATTAGTGCTAATGCTGAGGAGAACTACASTTTTTCTTTTGAATTTAGTATTTGAGATGAGTTGTTGGGACATGCAAATAA
AATGAAGAATGAACTTTCGTGTCTTTTTGTTTCTTGTTGTGGGCTCGTTTACATAGCTTCATGATAATGARAAAGAAAACCAAAGTGGGATGAAAAGTGC
AGAGGGAAACCTGTTCTATTAAATAACTGGGGAAGTTGCCTTAATGTCTTGACCTTGATTTCCTCATCTATCCAGTGAAGCAATTTGATAAGGTTATTTT
CTTTAAAAAAAATTACTTATTTATTTATTTATTTTATTTTGGGGCTGTGACTCAGATTTGAACCGAAAGGTTCTTTGCTGAGTTCTCTGAAAATATCAGA
TTCTGACAGGAAAGGCAATCAAGGGCTTTATAAGTTCCACTGTATAGCAACATTTATAAGGCAGCCCAGGATGACATCAAGAAACAGTGAGTGAACAART
AAGCACTTGTAATACCCGGCATAATACCTTAAAATCCGTTAGGATTTACTGAGTTTATCTATAGTAAATTTGAAGAGACTATGGATGTTCAAAGGGTATC
ATCATAAAAGTTCAGTAAATCTCCAAATACCATGAAAGTAAATTGTTACTTCTGAAAGAGCAGTAAAATATAACCTGGCAAATGAAGTTACTACTTGAGA
TTCTAACAGGGCTAAAATATAACTTACAAAGCTTTTACAATAAAAATTTCAATTTTTAAGTTTTTTCAGTTGAAAAAAATTCTTCACTGGCCAAATCACT
AGCAAAATCAGTTTCAAACATCACTGCCTTGTTTTAGTAGAGCATATGGTGGACCCATTTGCTTGGTTTCGTAAGATTCCCATCTAACTGACCCTAAACT
TCTATTTTCTGGTTAAAAACTCACTTTCCCAGATCTGGCCTTCTTAGCAGTTAGTTAGCTTTCTTTTTCGAGAACAAAGATCTCACTTCATGTGGTTATT
GTTAACAAGATTACAAATGAAAAATAACACGCTATCGTTGAGATATAGATGTTCCCACACACCGTCTTTGCAGGGGGTGAGACTTCCAAGCTCCCTACGT
ACCAAGCAACAGTTCTCTTAAAATTCTGCCCTGGCCTCGGTGCCCTCATGGCCAGGATTCGAGGTTACCCTTGTTCGCCACTGAGACTCCTTTAAAGTCC
TTTCTACTATGATAGTGAAATAATCAAAGCCTGTAAAGTCTTTTCTTCCCTTCAATATCAGAATTTGAGGCCTTCTGACAAAAGAAATAAAATGAGAAAA
CCGAAGGAACCTGAGAAATCCTTTAGTCCTAATTTTACAGATGATGCCAGTAGGCTGGCTTGGGACAAGGTGTAGCTTGTGGCAGAACCAGGACTCAAAC
TTACCCTCCTGATTGCAAATCAGTACATCTTCCCCCACCACTAGCAAAATGACTGTCAAACAGATTTTGGCTTCTGGGTTTGGTTTGGTTTGTTCCTTCC
TCTCCAGAGAAGGACATAACCATAGAGATTTAGGGTGGAAACATCTTTCTTGCTCTCATCCAAGTTGTTGATACCCAAGTTGCCACAGTAGGATGGCAGT
GATATGGTGTGGCTCTGTGTCCCCACCCATATTTCTTCATAGCAGTGTGAGAACAGACTAATAGTGGCAGCTTCCTTTTCAGGGTAATTTTCATGCAGAA
ATGATTTAGGATTTCGAGGGAGTTAAGCTTATGGGAAGGCTATTACCAAAAAGGACTCTGGATAATGATACGGTTGTGGGGACTTGGGGCAGGACTCAGG
TTGCTGAGGAAGATACCGGAAGGAGCAGCTTTGTTAAGGAGTCCTACAGAAGGAATGCTGTGGACCCCCTAGGGCATGTGGGATTGGAAGAGGATGATGA
GACACCAAGAAACTTCAATGGCACATGACACAGATTGTGTGGCCACTACATTTGCTACTAGTCTGGCTATCACCACGTGCCTGCCAGCTTGTTGGGGGTG
AGCTATTATACCTAGCAGAGTCATCTCTTATTCCAAACAGGGTTTTTTACAGGGTGAATACACAGTTTTTGAATCATAAGCGAGACGACTTTGGGTACTA
GTAATACTATTTTACTGAAAATCTGGAGTTGCACAAATAGTTCTTTAGAACATAAAACTAAATGGATTTATACATAACAGTTACATTCAGCATTTAAGAG
AGGCAGTACAAAAATGTGTTCTGCTTTTATCTGATATAAATTGCATGTAATACCATGATTTAAACAATATCAGTTATATTAACTAATGCCATGAGATATA
TCTTACTCAGAACGTCTGATGTTTCCCATAATAGACAGAAAAAATGCAGTTGTATGAGCAACTGAGTTTCTTTTCATCTTCAAATTCATTTGTGATGGTG
GGAAGRTCTAAGGACAATCCTTCCATTGAAGAAGTAGGAAAAACAGTTACAGCACTGTTCTGAACTCATCAAAAATGAAATTAGGCACATGTGCTTCAGC
AACCTGAAAAATTAAAGAATTAAATTATTCATGGTGTTATAGTTGAACAATTACAAAATTTTCATACGTAAAAGAAAAGATATCCTTGGAGCAAGGTGAA
TAATAGAAGAGGAGACTCCCATGGGCGGACGACTCCTTGAAACAGCCCCTTTCTGCTTGTGGTGCCCCCTAGACTAGCGTCTCATTTCTTGGCACTGCTA
ACATTTGAGGGGATGCAGTACAGCTCTCCCGCCTCCAAATCTGAGCTTCTTGGCTCTTAAAGGTACCTTGATCTGCGAGGAATGTTCTTGCCTCTGGGAA
GTACTGACAAGTACTCAGGTCACCTAATACACTTCATTAACTGATGACCAACAAGGAAGAACAGGATGGCTGGCAAGTGATGGGGTTGGAGAGGTAGGGG
AGGGCAGGAATGAGAATGAGATACCAAGGCCAGAAGGGGAAGAGCAGGAAGGCCTTCAGAGGCATGCATTCCTGAACTGTTCTTGGGCAAAGCCCTGAGA
AGACTAAATTGGGCTCAGTTGGGTAGAATGTAGAGGTAGGTGATCTCCAAGTGCTGGAGATGAGTATTTTTTAGAAGCAGTGTTTAATTTTTTTTCTGAT
CATAAAGGTATAACCTGCTAATGAGAGGAAATTTAGCAAATGCAGAAGAGTATAAAAATTATTTTTACAGTGGGTGGAGGGCAAGGGGAGGGAGAGCATT
AGTATAAATACCTAATACATGTGAGGCTTAAAACCTAGGCTGGGCGTGGTGGCTCACGCCTGTAATCCTGGCACTTTGGGAGGCTGAGGTGGGTGGATCA
TGAGGTCAGGAGTTCAAGACCAGCCTGACTAACATGGAGAAATCCCATCTCTACTGAAAATAAAAAAATCAGCAGGGCGTGGTGGTACGCATCTGTAATC
ACAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCAGGGAGGCGGAGGCTGTAGTGAGCCCAGATCTCACTACTGCACTCCAGCCTGGCGACAG
ATGGCACATGTATAATACCTATGTAACAAACCTGCACATTCTGCACGTGTAGCCCAGAGCTTAAAATTTAAAAAAATATTTTTTTAATCTTAATCCCTTA
AAGAAAATAAAAACTGGCAACTTTTGTAATGAATTTTTCCAGTTTACTTACATATGCAGACAGACACACACACACACACACACACACAATCAAAATTAGG
ATCACATAATATTGTGTCCTTCTCTACCTCTGCTAAATCTTATATTATGAACATCCTTGGGCACATATCTTGGTAAACCTTTGCACATATATCCAGCAGG
TAAAATTCCTAGCAGTGGAATTGCTGGGATCAGGGTAAGTATATTACAAATGTTTTTTTAAAATAGATAAAGCTAAATTGCCCTCCTCAAAGGCTGTCAA
TTTACATTCCAATTAATAGCACTTACAAGTCCCATTTCTCCAAATGCTTCCGAATAATGGGGGCCCAACATTTTACCTTTCACCAACCTGATAAGTGGAA
ACAGTAATTTTCGTATTTGGATTTTTGTCCCTTGAATCCGAAGGTTTGTCATTTCTATTTTCTTGAAAACTGCCTCTTAATTTCCTTTGCCCTTCCCCTG
CTTTTTTTCTATTGGCTTGGACATCTTTTTCATACTGAACTTGAAGATTTGAAGAGCACACTATAAATCAAGAAACTAGTCCTTTGTTGGTATTTCCTCT
TTTGTCTTTTGTTTTTTAACTGAGACACTGACACAGAATTAATTACATTCAGCATTTATAAAAAATCAAGTCTCTAAATCTTTTTCTTTATAGTTTCTTC
TTTTGGTTTTATACTTAGGAATTTCTGAGAGCTGATACATATTTGCCTAAAATTTCGGCTAATTTATTTGTTTCATATTTCACACTAACCCTTTATCTGT
AATTAATTTTGATAACATAGGAGATGTAAAGGGGACTAAGTTGCTATTTTTTTAACTGTGTGAACTTACATCTATTGACTAATATTCCCTTTCTCTCTTA
ATTTGAGATGCTACTTTTCCTTATGTACCATTGTATGCACAGGGTGTGTTTCTAGGCTACATATTCTTGCTCATTGTTCCTTCTATTTAGTTGCATACCA
GTAGCACCCTATTTTGGTTTCTACAGTTTTACAGTGTTTTAATACTTGATATAATATTTTAATATCTTTTTTTTAAAAAAGGACTTGCCTAAGTCCTATG
ACATTTTAAAAAATATATTCTTTGAAGTTAAAAAAGTACCTGAAATCTTGATTGTAACTGCAGTAAACCTATAAACTAGATAGAACTATTATCTCTGTAA
TATTCGAGGACCCTCATTCAGAAACATGGACTTTCAAATTTTATATTTAAAATTTTTATAGTTTTTTAATAAAGTGTTCTTTCATATTTCTTATAGAGGT
TATTCTTAGCTATATCATTGCCTTGTTATTTCTGTGAATAGGTCCTTTTTCACACTGTATTTTTTAATCGATTGATGTATTTCATACATTTATTCTGTAG
CCAGCTTGTTTTCTGATCTCTGTATTATTTTGATAGTTTTTCACATGATTCTATTGGGTATTCAAGGAAGACAGTTATGCAGCAATCCCACTACTGGGTA
ACTACCCAGAGGAAAAGAAGTCATTATTCAAAAAAGATACCTGCACATGCATGTTTACAGCAGTACAATTTACAATTGCAAAATCGTGGAACCAACCTAA
GTGTCCATCAATCAATGAGTGGATAAAGAAATTGTGATATATACATACGATGGAATGCTACGCAGCCATAAAAAAGAATGAATTAACAGCATTTGCAGTG
ACCCGGATGAGACTGGAGATTATTCTTACAAGTGAARTAACTCAGGAATGGAAAACCAAACATCGTATATTCCTACTGATATGTGGGAGCTAAGCTATGA
GGACGCAAAGGCATAAGAATTATACAATGGACTTTGGGGACTTGGAGGGAAGAATGGGAGGGGAGTGAGGATAAAATACTACAAATATGGTGCAGTGTAT
ACTGCTCAGGTGATGGGTGCATCAAAATCTCACAAATCACCACTAAAGAACTTACTCATGTAACCAAATACCACCTGTATCCCAATAACTTATGGAAAAA
TAGAATAAAAAAGGAAGACAATTAATCTCAAATAATACAGAGTTTGTCTTCTTTCCAATATGCATTTTATTTTCATTTCATTTCTTATTGTCTTGCACCT
GTATAACAAAAGTAGTTGCAAGAGTCTGTATAGTTGTCATGACACTGTGACAGTCCTGGCTTTAATGGGAATGCCACTAACATTTCACTATTATGTACTG
ACATTGCTAGTTAATTTTAAAAGTTCATCTTTGGCTCATGTTGTAAGAAAGTATCTTTGATTCCTAACCTACTAATTTCTAAAAATCAAATGATTTTCAG
TATCTGCTGAAAGTTGTATTTTTCAGTATCAAGCTCTCCACTTTGAGCTAAAATTTAACAAAGTGGAATTACTAATGAGAAAGGGATAGGAAAGAATGTC
TTGGCAGGTAAAAAGTAGTCTGCCATTTTTGGAAACAGTGCTCATATATACATTTAGTTGTGGCATGAACTTAACTGTGCTTGCTGTGGGAACCAGGTCA
GTGGAGAGAGAAAGAACAAACCACCATGATTATTTCTTTCCTCTGGCCACTTAAGGAATCYCTCCTGGCTTGCCTATTTCACTTAACTCCTGAACCAGAT
GAGTTGCTGACAGGAGTACATGGTGGAGAGGAAGAAGAGGCGGGAGGGGCATTGTGTTAAACTCTGCAAGGCAATTCCCATGGTGGAAAAGGCAAGGACA
TTTCAGAGCTGGGGGTAGAGCAGTGGCGAGAGGCGCAGAGGCATCTACTGTGAACGACCTATTGGGCTTCACTCCTGATGAATCCAGGGCCACTATTATT
AGCATCTTTTTACAACTATTAATATTGTTCTTTACTATCTATCACTTACCCTCCTGGGTAGCTTTGTGTACCGAACATAATCCTCCAGGAACAGAAGGGC
ACCCACAACATCTGCAGGAATTTCAGGTATCTTCTGGCTGTGATAGAGAACAGTTTAGATCAATTAACTGCTTTGCACATCATAAGCCCTTTTGGTCAGA
ATCCTGAAAGACTAAATTACCAACAGATTACCTAATGAAGTCAAAGATGAACAAAAACATTGAGCATGCTCTTAATTCCTGTCAAGTTGTTACCTTGCTC
ATGTATTTTCAGGAGCCCACCCCATAGGGTAAATGTGAGCTTCTCTATACGGTTTCCATGGGCGTTTACAACACGATCCCTGCTATCTATCCAGACTCAT
CTYCCTCTGTTTACATGATTCAATACCTAGCAGGTCCCATACTTTCCCATCCCTGCACACTTTTTTTTTTTTTTTTTTGCGACAGACTTTTCACTCTTGT
AGCCAGGCTGGAGTGCAGTGGTATGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCTCCAGCCTCAGCCTCCCGACTGGCTGGGATT
ACAGATGCACGCCAGCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGT
GATCCACCCGCCCTGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGCACCTGGCCTGCACACTGATTTGAAAGTAAACTTCTAGACATTGTTC
GAGTCTCAGCTTGGGTACTTCTCCTGTGGAATCCTCCCTGATTCTCCTGGGCTGTCATAATAGTTAGCAGCATTCTCCAAGCCTCTTAATTTTTCAATGG
TGTGCTGGGTTCCCATCAGGAGTATAAACTCCTCGAGGGCCTAGGTCATATGTTCATCTTTGTTTCTCCAGCATCTGGAAATGTGCTTGGCATGTACTGC
ATATTTGASGGTATCAAATAAATACAGCATCTAGCAATTTTTCATATGGGATTTTACTCATGTATTCATTCATTCAGCAACTACAGTGCCAAGCACTGTT
CCAGAGCTGGGAATACAGCAAAGTACATGCCAGGCTCCTTATAGAGCTAACGTTCCTTCTTGTTTACATCAAAAGGAGTTTTTAGGTGTTAAAACGATTT
CCAATTCCTRTACCAATTGRCATTTTCTRATTAACAAATAACTTTTAGTACTATTAATACATTACTGGTTAATTTCGCTGATGAACTTTGCTTTTTGAAT
GGGTTAAGAATGACTGTACCTGGAAAAATTCTCCCTGCTCTCAATCTTTCAATCTGTGACCAGGGCTATATTTGCTCTGCTTGGAGCAAGAGAAAGGAAG
GAATTCCCATGCGTCACAGGTTCCTTAGATTCCTTTGCTCTGCTGAATCAGAAAGCCTGACTTACAGCTGGTCTCCTGTAGCCTGATCACCACCCTCAGG
GTTGCCAATAACATGCTGGACTAGAGCCACACTTAAGCCTTTACTGCCATTAGTGAAAAAGAAAGAGAGGAAGAAGAACCTGTCCAAGTTGACAGCTAGG
GAGCTACAATTGGGACAGCCAGTTGTGTGGAGGTTACTTGCTAATCACCTCCGCACCACCTGAACTGGAGTCCTTCCCCTCCTCTCTGGGAGCCTGGGCC
AGAGGCGCTGGGTTTTTATGAGCCTACTGCTTTCCTTGCCAACTGACCTCACTTCGTGATTGTTACAATTTCATTTTTGAGACTTTGAGTTCTCCTCTAT
TTTTCAATTGTTAAAAAATCTTGTTTCTGAAGCAAGTCTTAACATCTATCCCAGGAAAACACCAGTGTTTGTTGTTCGATTCATTAACTAAGAGGAGGAG
GAGCTGGCCTGACTGCAGCTCACGGGAAATAACGACATTGGGGTTTAGAAAGAATGCAAAATCAGTAGGAGCCACTGGTATGCACTGGATGTCAAGAAAC
CCATCACTGCAAAGCCGAGATCACGCCACTGCACTCCAACCTGGGSGACAGAGCGACTCTTTCTCATAAAAAAAAAAAAAAAAAAAAAAAAAAGGACTCA
TCACTGCAATTGTAGCTGCTGTACTGTCCACAGAGGGCCCAGAATGAAGACGTGTAATACTCCTCTGTGCCAAGGGGAGGGCTGTGCTTGGAATCTCAAT
ACAAGTTTGGGAAGCCACATTTTAAGATGGTCAAAAACAGACTGGAACACCCAGAAAAAGTCACTCACTATGGTGAGCAGCCTCTAAACTGCAAGACATC
GGGAACAGGTGGAAGGGGCTTATCTAAACATTGAGAAGACCTAAGACAACAGATGGCATACAAAATCGGAAGTGATGTTGCAAAGGAGGGAGACTGCATT
ATTCTGTATGATTTCAAAAGGTAGGAAAAAGCTCAGCGAGTGAAACATCCAGAGACACAGGTTCTAATAATCACAATCAGGAACTTTCTAATGAGAACAA
GACTTAGCCAGYGGACTGTGCTGCCTGGAGAGGTAGCACAAGCCCCCTCGGTGAGAGTGTTCCAGCAGTGGCTGCATGACTACCTGTCAAGGATGTCCTA
GAGCTCATTCATGCACTTAGTGGGAGGTCAATTAAATGACCTCGAAAATCATTTCCAGTTTTAGGACTTAGTAGTATTTTGTGTGGACTTAGAAGATCAC
TTTGGTTCGTTTTATTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCACCTCTGAGGCCTCCTG
GGTTCAAGCAATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGGCCACCACTACATGTGGTTAATTTTTGTGTTTTTTTAGTAGAGATGGG
GTTTCACCATGTTGGCCAGGCTGGTCCTGAACTCCTGACCTCAAGTAATCTACCCAAAGTGTTGGGATTACAGGCTTGAGCCACTGTGCCCAGCCGCTTT
GATTCGTTTTTTACATTATAGTGGCAAAAATGACCAAGCAAACATGACAGCAAAGGTTATKTAGCCAGGCTGACCCTTTAGGATAGCAGAGAAGGAGGCA
CAGGACCCAGCATCTCATGGAAATAACTTTTTTTTCTTTATCCCAGAAAAGCCACATTTAGGGGCAGGGGAAAAGAACTGGCAGGAATTAAAGTTTTATA
AGCATTGTATCAAATAGCAACTCTTGTGAAATTTGCTTCTCTACATGCAGACACTGCCCAGGCTTTGACACACTGATATGTTCTCTGACTCCCACTGAAG
TGAGTGGAATCATCTCTTGGCAGTGGCCCAGCAGGAGTGCAGGGGCTCGCTGAGATTGAAGAGCTGCATCCAAGAGTGCAGAGGAACAGGGCTGCACTTT
CTTCCCCATGGTAGTTACTATTCATGGTCCTGAGTCACTCCTGGAAAATCAMTGTGAGTAGACCGGATGGAGTTCCCCTGGCAGGGTGACTAAGGATGGA
CACACCTGTAATTGCTCTAAACAAGGAGGTATGCCCTGACTTGCTTTACAGAGAAGGGTGAGCAACCATTTCCCATCTCTATTAGGGCGATAAGAGGAAT
TTGGTAATGTGAGGTTTAAGTTAGGTTTTGTGACAAGAAGTCCCACGTAGTCCTGRTTGGTCTTCTGTACCTTGTACACTGCTCCACCGTGGAGCAGATA
AACTGGCCAATCAGCGCCAGGAACTGCTCGGTGTACCGGGAATGGAACTGCTTCAGCAGAGTGAGCAGTCCCAGGACAAGTGGTGGCCAATCAACCGGGT
CGGTCGGTTTTCGGCAGACCATTCCTGCAAGGGAACAAGTTGCAACACCATATGAAGTACTTGCCTTCAGCAACATTCATTAAATACCAACGCTGTGAAG
GTCAAAATGTTTGGGGCCCATATTCTCGCTGGCAGATGATATTTTGGAGGGAATGACAATTCTGGGCCATATTTTGAATTAGCCACAGGATTGGTAGGGC
ATTCCAGGGGTCTGAAGGATTCAAAACCAATAAAACGGTTACTAAATTTTGTAATTATCATTACTGGTTCTTTTGAATTACTCAATTAACATATATTATT
GTAGCAATTTTTAAAGATACAGATAAATGTAAATGAGAAAAAAAATCACTACAACTGACTTCTGTTAACGGCAGCATGACATACTAGATACCCTGAACTA
CTATCTTAAGTGAAAAGCTGGATAAAATACTTTTAGGGTATCTTTAAACAAATGTTGAGTAATATATATACATAAAGAATCTGCAGAAATCAAGAGAGTG
GAAGAAGGATATTTATGAAGTGAATGAGTATCAAAGCTGGCCTTTACACTAACGATTTTTTAAAAATTGGAGATGGGGTCTTGCTATGTTGCCCAGGCTG
GAGTGCAGTGGCTATTCGCAGGTGCAATCACAGCACATTATAGCCTTGAATTCCAGGGCTCAAGCTGGGACTATAGGTGTGTACCACTGCACCTGGCTCT
ACACTAAAGATTTCTGCCAAAATGTGGAGACCCTGACCTCTGCCTGGGTGGCTGCATGGGAAACCAGAGACAGAGATTAGGGTCTTCCAGAAGAAACACA
ATGTTGAAAAAGAACAGTGTTGGGAAGGTTTAGGTTGCCTGATTTCAAGCTCTCTATACAGTTTCAATAATTAAGACACTATGGCATAAGAACAGACAAA
TAGATCAATGGAACAGAATAGAGTCTAGAGATAGTCCCACCCTTCTATGAGTAATTGAATAGTCACAAATATACCAAATAATAAAAAAAGATAAATCTTT
TAACAAATGGTACTGAAACTGGATAGTCTTATGGGGGAACGACAAACCTTGACCCCTATCTCATACTGTACACAAAAAACAATTAGAGATGAACCACTGG
CCTCAATGTAAAAGCAAAGACTACAGAACTGTAAGAAAAAATATCGAAGATATCTTTGTGACCTTGAAGAAGGCAGAGATTTCTTTTTTTTTTTTTTGAG
ACGGAGCTCACTATGTCACCTAGGCTGGAGGGCAGTGGCACAATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCTAGCGATTCTCCTGCCTCAGCCT
CCCAAGTAGCTGGGATTACAGGCGTGTGCCACCACGTCTGGCTAATTTTTGTGTTTTTAGTAGAGACGGGTTTCACTATGTTGACCAGGCTGGTCTCAAA
CTCCTGACCTCAGGTGATCCTCTCGTCTCAGCCTCCCAAAATGCTGGGATTACAGGCATGGGCCACTGTGCCTGGCCTGGCAGAGATTTCTTAGACAAGA
CAAAAAAGAATAATTATAAAGGAAAAAAATGGATAAACTGGACACCATCAACAGTAAAAACTTCTGCTCATTAAAGTTACCAGTAAAAAAATACATAGAT
AAGTCACAATATTCTCAAAACATATCTAATAAGGAACTTGTATCCATAATATATACATAACTACTACAACTCTGTAATAAAAAAAAAATTTAAAAACGAG
CATAAGACTAGAACAGGCACTTCGCAGAGAAGGATATAAGGAATGGCCAATAAGCACATGAAAAAGTGCTCAAAATCATTAATCATCAGGGAGGCAAATT
AAAGCTGCAACAAGATACCATAGATACCCATCAGGATGGCTAAAATGGGCTGGGTTCAGTGGCTTATGCCTGTAATCTTGGCACTTTGGGAGGCCAAGGT
GGGTGGAACACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCTGTCTCTACTAACAATACAAAAATTACCCGAGCATGGTGATGCA
TGCTTGTAGCCTGTAATTCCAGCTACTCAGGTGGCCGAGGCAGAACTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGGGCCGAGATTACGCTACTGCACT
TCAGCCTGGGTGACAGAGTGAGACTCTGTTTCAGAAAAAAWAAAAGAATGGCTAAAATGAAAATGACTGACGCCACCAAATAATGGCGAGGATGTGGACT
ACACATATACTCACTCTTGGTGAGAGTGTAACTGGCACAACCACTTTGGACAAAGGGTTGGCAGTTTCTTATCAAGTTAACTGGTTAGACAGACCCTCAG
GTCCCATATTTGACTTCTTGTGAAGACCGGAAAATCTTCCCCAAACCAGAGAAGCCTAAACAAGTGATCCTGAATAACCTAACCTAGGCCTTGGCAATTC
AGAACATGGAGGAAGAATCCTAACAGGACTCAGTWTGGAGAAATAATCCTTTCCAGGTGGAAAGCAAGAGTGATGTTAACAACAAACACTTCTACAACTA
GCACTACACCACGAAGCTTCTTTCTTCAAACACAGACCAAGCCAGGTATGCATTTCATAGGCCAATGCTGAGAACGGTGTTTACAAGGTTAAATAAATGT
TTTTCGGATATACAGTTTCAAGGCTCTCTTTACAGTTTCAATAATCAAGACATTATTGGCATAAGAAAAGACAAACACATCAATGGAACAGAATAGTCTA
GAGATAGTCTCACCCTTATATGAGCAACTGAATACCCACAAAGATACCAAACAATTGTTCCTTCCTCAGTCCTACTGTAATTTAGTTCCTGCATTAACAC
ATCAGTCTTATTGATGAGAAGAATTATAGTCAGTTATAAACACCACATTTCTAGGATACATAAAGATTTTGTTGTGTTATGTTTTAAGATCTGGGAATTC
CAGGGAGAGTGATACTTTCCATAAGCAGCTTTACAATCAAGGTGCCAGGCCCTAATCATATACACAATGAAAAAAAAATTAGAATGAGAAGTCAACAAAA
AGTTATTCTTTAATGAAAAGAAGGTTCTTTCTGCACTGACAGTTCATTATCAAGAATCATATATTCCTATTGAATAATAACATAGAACAGAGAGAGAACA
TGAATCTCTGAATCTTCAGATGAACCTTTACATTACACTTGGGATGGCCCTTTAAATTGATTTTGACCAATATATAGAAAGGGACTCAGCACCTGTTGGG
CACTCAGTTTGCGGTGACTTGGCCAAAGTCACATAGGTGATAAKTGGTGAARCCAGATTCCAAACACACATTGGTTCCCTCCCTCCTACAGCAAGTATTG
TTTGAGGAGATCATGCTCTGCCTTCTGTGACAATCACAGGCATTGTCATGGAAGCAGTGTCTAGAATCAATGATTACTTTTGAATGAGAGAATAAAAACA
TTAAAGAGATTCCACATTTTCACCCTAAAAAAGCTTATGAAATAGGAAAGTACTGTAAGGAAGAAATATATTTAGGAATCTCTAGTTAAGAAACAATGAT
TACATTTGTAGAAATGCTCTTATAATGCTTTTAAAGTAAACTAAAGTCTATAGTGGATTTTTAAAAATGTCATTTAGCTGGATACAAAGTTTGAAGGCAG
AGGAAACACTTTGTTATCTATTATGTAACTACAAAAATATTCTGACGAATGACAAAAATAAATTAGGGTTATAKTCCTGGAGAGAACAGACATATTGAAA
GGCTTTGGTGTCTCTTGTTTGTACAGAATATTCTGACATACAATCATACATAAAGTATTAAATGTTCATGTATAAATATTAGTCTTATCTCCTTAACTAT
ATTGTTACTTTTCCCATCATGGTTCCAGATACACAGCTGGCACATGCATCCTGTTGAAAGAACAGAACATCAACCAAAAAAAGTTTCTTTCACACCACAA
TTAGCTGCCTAAACATTAAAGAAGAGAATCAAAACAAAGGTCCCTCACATTCTACAAGCTGGACAATGAACCCTTACTGAGGTAGACCATACTTTGTTGA
TTTTAAATCCACTGTCTAGGGCTGGGCACAATGGCTCACGCCTGTAATCTCAGCCCTTTAGKWGCCGAGGCAGGTGGATCGCTTGAGCCYAGGAGTTTGA
AACCAGTCTSGGCAACATGGCAAAACCCTGTTGCTACAAAAAATACAAAAAAATTAGCTGGGCATGGCGGTGTGCACCTATAGTCCCAGCTACTCAGGAG
GCTGAGGTGGAAGGATTCTTGAGCACGAGAGGTCAAGGCCATAGTGAGCTGAGATTGTGCCACTGTACTCCCATCTGAGTGACTGAGTGAGACCTTGTCT
CAAAAAATAAATAAAATAAAATAAATAAATAAGTGTACTTAAAAAAAAAATAAATCCGGCCAGGTGTGGTGGCTCATACCTGTAATCCCAGCACTTAGGG
AGGCCAAGGTGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGTTAACATGGTGAAAACTCTGTCTCTACTAAAAATACAAAAATATTAGATG
GGCGTGGTAGTACGTGCCTGTAATCCCAGCTACCTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGCGAGGCAGAGRCTGCAGTGAGCTGAGACCACG
CCATCGCGCTCCAGCCTGGGCAATAAGAACAAAACTCCATCTCAAAAATAAATAAATAAATAAATAAAAATAAGAATAAACCCACTGTCTACAGTTCATA
AAAAGGCATTGTATTTCAAAGGCATAAAGACTCGAATTTCATAAACATAAATTTAACTAAGAAAAGATCTCATATCCGACATAGGCATTCTATACAAAAA
GCTYTTTAGTTAAATGTTAATCTGTTGGTAYTGTTACTCATTGCAAATAATAAATGTTATACGTACCCAGATTTTTGTTGTATTGAAGTTTTGGCAACTG
AGCGATCAAAAATAGAAAGTTTACAATTGGAAAATAGGGTAAGCGCTTTGTTGTTATGTATATCTGGAAAGAGAAAGGTAAGAAAAATAGATGGTTAAAT
CACATTGCACAATACCACAGAACAGGTTTCCAAATGAAAATCTTCCATTTTACTTCAATTTGCTCTTTGGCTTTCCTGAAATGTGGATGGTTCCATTAAT
TTGCTGCCTTCAGAGTTTTATTTAACACACCTGGCCCTGGCCACATAAATACCTGTATCATAATTTGCCCTTCTGGGAAGAAAACAATTTTGCTTAGAAA
GACTTTTCCCCTGAATCCTGTTAATGTCATTAATAAAGGGAGGGAGGAATGAGTGATGAGCAAGAATGGGAGGGGAAGGCAAAATGAAGAGCAGTTGAGG
AAGAGCTGGAGGTGAATATAGGGGGAGTGTGGGAGAGAGAAGAGAGAGAGAGGGAAAGAGGGAAGAAGGAGAGGAGGAGGGAGAGTGAAGGGAAAAGATC
CATGTAGCAGCGAGTGGTGGTATCTAAGTAGAAAGAGAGCAAAGTTCTTCTTGTCATTTGCTGTCCCCTAGGCAATGTCACAGAGCAGTCTCCCAGATGT
CACGGCAGAAACTACAGTCAGGGCGTACATGGCCAGGTCCAGACTGCCAGCTGGCCGATTCCATAGGAGACAGGGTAGCACACGGGTCAGAAGCAGGGGC
TCTGGTCAGACTGCCTGGCTCCTCCACTTGCTAGCTGGCCTCTCTGAGCCTCGGGTTCCTCAACTCATAATGGCGTATTTCATAGGGCTTGTTGTGAGAT
GAAGTGAGATAATCCACAATCAGGGTTAAGACAGTGCACTTGTTATGCAGTAAATATTCAAGACATTAGCTACTATTCAGGTTTATAATCTTTTATCCAA
AACACAAGGGATAATACAGCTTTCAGAATTTCAAATTTTACAGATTTAGAAAGATAATATAGGGGCTGGCGTAATGCACTATAATCAAAGTTACTATAAT
CAAAGTCTGCATCAAAATATATGAATGTTTACAGTAAGGAGGATAAATAACTAGTATAAACAGCCTTATGTCAGCTCAGGACAGATTTTGCCATGCAAAG
AGATCTGGCACCGAGTTATGAAAAAACTTTCAGTTCTTAGAGGTTTTCTGAGCTCACAACTGCAGGGAAGAGTTTGTAGCTTCTATGATGAGTGGGATTA
CTGTCAGCCACAAGGGGAAGCACCTTTGGCAAGACAGATCAATGCTACCATTTTGGGTTTGTTGGGCCTTGATGACTGAACGGCAAACCCCAGTGAAACC
CAAAACTAATCTCTTACACGGAGGCAGCACCTTCCCCTTTGTCATGAGCTTTCACCAGCGCTATAGYACTTGATTCTCACAGACCTGAGCCAGGCGGGGA
AAGTGTGATGATTGCTTAGAAAGGGCAGGGAACTGAATGGAATGAAGGCTCTGGGGTCTGAACCCAGGTTCCTCTGGTATTTCTGCACAGTAATCTGTTA
CCTGGGCCAAATACCATTCTGTACCCCCATCCCCGCCATTATATATTTTAATTACTCACCTTATTCAGTGGGTTGTGAATGCCAGCTGCCTCCAGATAGG
CTGTGATTTCATATAAAAGTGTGTTATCTTCTTTGGGGTAAGGAAGTGAAGGGTCCTGATAGTGGGCTTCAATGTCTGCTAGGAGAGCCCTAAAGGAAGA
AAAACCCTGGAGATAAACATTAGTGAGTAAATGAATTTATACAAGAGTTAATATAGGGCAGTGATGTAATCTTTTCAAGCCTCAGTTTCCTCATCTGTAA
AATGAGAGCTTGATCTCGCTAATTCTCAACCATGCCTGTGATTGGTTTTAAGTGGAAAATTTGACCTAGAATTACTTCATCTTTTGGAATCAACCTCAAT
CAAATGCATTCACCATTCAAATTTTCATGTATTGACTGAACTGTTCTTAATACCTGCTTTGTCAAAAGCACTGACTTGGTGAGTGAGMAGCACAGATTAT
TTATCTGTAAGTAGGCAGCCTCAAATGACAGCAGGTTGCTGGTGAGGCGGAGGATATGAGTTCCCTCTAGGACAGGCCTCCATAACCACTCTTGGTAATC
AACACACTTCCAACTGCCCTCTGGATGATGAGTGATCAGCCCTGTAAAAAGCCAGTTGCGGATTTTGGTAATAATTGCTTTCTAAAATCTGTGCAAGTAT
CTAGCAGTGTCTGGTGTGTCTCTCACTCGCTCTCTCTAATGAATTCATTTGTTCAGCAGACATGTATTGAATCMTGTGATCAGTACCTGTCTGCTGAATA
CACGAATCCATTAGAGAGAGTGAGTGAGAGACAGAGATAAACGGAGGGACAATACTGAGGAAAGAGGCTCCGAAGACAGATTTGATTATCCGTGGCAAGG
AAGCCTGTAAATTCAGACCTTCCACCCAAAAATAACTTAAAAGAGTAAGAACTGAAGAAACTGGGGTGCGTAGATAATAAACAATCYAAGCCCACGGATG
GCTGTTTCAAACCCTGGCACTTACTTATTGAGATTCTCCAGAGCAGCTGCCAGATGTTTAGAATCAAACCGACAAGAATAATTTAATTCATTGGCAATCT
GTTGTCTCAGAATCTGCATCTGCCCAACCTGTGCACAAGCAAGAGAAAGAACAGGTAGTGCATTCAAGCATTTCAGAGTGACAGTGAGGAGGTAAACACA
AAGATGACAATTCTTCACTGGGCCTTCACATCACTCTACAGGAAAAAAAATAAGGATTTCCTGAACTGATCTCTTGGCTAAGACCAGCACTGGATCTAAT
GAAGCACCAGAGGCCCTTCAAGGAATGTCTGGATGGAYTCCCATACCCCAACCTAAAAATACCCCAAAGTCTATGATTCACAAAGTGATCTATTAATGTT
CAGTTGTTCATGTATCAAAGATGTCTTTTTTGAAGCTATATTTTTAACCTTTTGGAATAAGTGCTCCAAATTTAGYAGCTGCTGTGAGAAGTCTTACTTA
CTTCCTTTTATTTATCCTAAATGGAACTTTCTCAAGCTCTAGGAATGCCATTTCACACTAGTATTCTCAAATTGGGTGAATATTAAGTCTGTCCATGCCA
CTCAGGATTATAGGTTCTATAATTATCTGGATTACAAAATAATCTACATAAAATCTTTCACGAAAATTTTAACAATGATAGCCCCTTAATCCAGGGTTCT
TAATTTTTTTTGTGTGTCTGATATGGTTTGGCTGTGCCCCCACCCAAATTTCATCTTGAATTGTAGTTCCCATAATCCCCATGTGTCRTGGGAGGGACCC
AGTGGGAGGTAATTGAATTATGGGGGTGGTTACCTCCATACTGTTCTCGTAATAGTGGATGAGTTCTCACGAGATCTGATGGTTTTATAAGAGGCTTTTC
TCCTTTTGATTATATTTCTCTTTCCTGTTGCCAYGTGAAGAAGGACATGTTTGCTTCCACTTCCACCATGGTTGTAAGTTTCCTGAGGCCTCCACAGCCA
TGCTGAACTGTGAGTCAATCGAACCTCTTTCCTTTATAAATTACCCAGTCTTGAGTATGTCTTTATTATGTGAGAATTGACTAATATAGCCTTGGACCCC
TTTGGGAATCTGGTGAAGCCTATGGACACCATTTCAGAATAACGTTTTTGAATGTACAAAATAAAACATAGAGGGTAACAGTGGAAGCCAGTTGTAATGA
AATATAATTAACCATTCAAAGAACAAATCTGTGATATAGAGTTATGCTAGGATGGTGTATTAACTACAGTACTTTAAAAGTAGCTATGAGCATAAATGAT
ACTTGGAGATTATCTGCAATGGTTGGATGATAGGAAGCGATCTTTGGGTCAGGCTTGAGAGTTCAGTTTGCCCTCATAATGTTGTCTGCATCATAAGGTC
AACAGCACACTCTAACTTTTTCTGCCTATAAATGTCTTCTTTTCTACTCGGACAAAGTATTMCTAAAAGACTGGCAAAGGGGAGTGAGGGAGGTGGGGAG
AGGAGGGAAGACAGTATTATAATGCAAGCAGCAATAAGGTGGAAATAAATGCATTTCCTCTGAGTTGCTGGGGGCAGAGAAGAGTTAAGGAAAAGACAGG
GGCTCACGCCTGCAATCCCAGCACTTTGGGAGGCCGAGGCAGGCTGATCGCTTGAGGCTAGGAGTTCGAGACCAAGCCTGGCCAAAATGGTAAAACTCTG
TTTCTACTAAAAATAAAAAAATTAGCTGGGTATGGTGGTGGACACCTGTAATCCCAGATACTTGGAAGGCTGAGGTATGAGAAACACTTGAACCCAGGAG
GTAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCCRGGCGACAGAGTGAGACTGTCTCAAAAAAAAAAGAAAAGGAGGGTGGCCTTCTCT
AAGAATGAGCAAAAGTTACTTAGCTAAATGGAGCTTGTAATGGTCAAAAGTATTAAATGACCTCAGATGTATTATTTTTGACCACTATTCATACAAGACT
ATTACTCTATTTATGTGAAAAACGTCAATCCAAAAATGCTATTTATAAATAGGAAGTGTTTGAATTTATAGAGTAGCATTATTTAAAAATTAGAATGCAG
CAAATCCAAGAAAATAGTAGGTTCTTTCAGGCCACATAAAAATGTCCCTGAAACCCTGTATCTGGCCCATATAATTCTTTGCTTAATTTTCTATGTGTAG
TATACTCTGTGTCAAGGATCCTCTTGAAAATATCAATCTAGAACTGGAAATAGAAATAAAGTCAGTTTAATATAACTTGCTCTCGTTTACTGCACAATGA
ATCTTTGTTAGTGACATTTTCTATTTTTGGTACTCACGCACTTCAAGCTTTAATAAGCTGCTGAAGAGGCTAAGGAGCCTGGGATGGATGAGAAACTTAT
TCTACCTACTCATTTGCCTCTTTGGAGATATCTGGCTTATCACTCTTTCTCCAAGATTTTTCTAGAGTTGCACTATTGAGTACAGCAGCTCCTAGCGATG
TGTGGCTATTTATATTTAAATTAATATGAAATAAAATTAAAAATTGCATTTCACTGTCCCACAACCCACATTTCATGAGCTCAATAGCTACACAGGGCTA
GGAGCTGCTGTCATCATCGAATAGCACAGAACATTTCCATTGTTGTTCCAGATTATTAACACTGGCTCCGTGACTGTACGCACCCTAATTCAAGACAAAA
AGACAAATTTGTCCTTTGGGGCTTTATTTAAAGATCACTGACTCGGTCACAGTCACGTGGCTGTTACTGAATTACTGGCAACTATAACCAATAGTTGGAA
TAGCTACTGGACTGAGAACCCTCCAGTAAGCAAGGGGAAAACCTTCCAGTTTCTTGGAAGAATCCCTGTAATCCCCCTAACGCCTCCTACAGAGTTGGGA


SNP Information

Context             (SEQ ID NO:67637):
TTGTAAATGGAATTTTCTTAAAGAGGCAGTGGCATGATTAGACTTTTATTTCAGGAATATACTCTGACATTTTTGTGGAGGATGGTTTGGAGGAAAGTCT
R
GTAAAACATACACTAAGATTAATTATTCTGTCAATGATGATAAAAGGCCAGAACTAGGGTTGTAAAATGAAAGGTAATGAATAAATTTGGGTAATATCTA
Celera SNP ID:            hCV2913198
SNP Position:             11402
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67638):
TCAGAGTATAAGTTTTGCATTTCTTTTGTTAAATTTATTCCTAAGTATTTTACCTTTTTTGATACTTTTGTAAATGGAATTTTCTTAAAGAGGCAGTGGC
R
TGATTAGACTTTTATTTCAGGAATATACTCTGACATTTTTGTGGAGGATGGTTTGGAGGAAAGTCTAGTAAAACATACACTAAGATTAATTATTCTGTCA
Celera SNP ID:            hCV2913199
SNP Position:             11335
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,8)      total(G,4|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67639):
TAGAAAGAATGCAAAATCAGTAGGAGCCACTGGTATGCACTGGATGTCAAGAAACCCATCACTGCAAAGCCGAGATCACGCCACTGCACTCCAACCTGGG
S
GACAGAGCGACTCTTTCTCATAAAAAAAAAAAAAAAAAAAAAAAAAAGGACTCATCACTGCAATTGTAGCTGCTGTACTGTCCACAGAGGGCCCAGAATG
Celera SNP ID:            hCV16280066
SNP Position:             27946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67640):
GAAAATTACATAATTTTTATGTGACGGGAATTTAGAGGATATATTTGTAACTAAGGCATAAGTCCATTTGTGCACATTTTGGAGTTTGAGTTTGTGGTTA
Y
GATACTTTCTATTAGAAGTCAGGATACAAAACTGCAAGGAGAAATCCCTGTTTCATTCTCACTAAAGACCCAGTCTGTTAGGACTGGCTTCTTCTCTTGT
Celera SNP ID:            hCV8286605
SNP Position:             3030
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67641):
CCTTGATGACTGAACGGCAAACCCCAGTGAAACCCAAAACTAATCTCTTACACGGAGGCAGCACCTTCCCCTTTGTCATGAGCTTTCACCAGCGCTATAG
Y
ACTTGATTCTCACAGACCTGAGCCAGGCGGGGAAAGTGTGATGATTGCTTAGAAAGGGCAGGGAACTGAATGGAATGAAGGCTCTGGGGTCTGAACCCAG
Celera SNP ID:            hCV332668
SNP Position:             35967
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,10)   total(C,10|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67642):
TTGAGATGAGTTGTTGGGACATGCAAATAAAATGAAGAATGAACTTTCGTGTCTTTTTGTTTCTTGTTGTGGGCTCGTTTACATAGCTTCATGATAATGA
R
AAAGAAAACCAAAGTGGGATGAAAAGTGCAGAGGGAAACCTGTTCTATTAAATAACTGGGGAAGTTGCCTTAATGTCTTGACCTTGATTTCCTCATCTAT
Celera SNP ID:            hCV27521029
SNP Position:             19671
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67643):
GGGTGAGCAACCATTTCCCATCTCTATTAGGGCGATAAGAGGAATTTGGTAATGTGAGGTTTAAGTTAGGTTTTGTGACAAGAAGTCCCACGTAGTCCTG
Y
TTGGTCTTCTGTACCTTGTACACTGCTCCACCGTGGAGCAGATAAACTGGCCAATCAGCGCCAGGAACTGCTCGGTGTACCGGGAATGGAACTGCTTCAG
Celera SNP ID:            hCV25632306
SNP Position:             29556
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(T,38)   total(C,4|T,72)
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)

SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,24)   caucasian(T,40)   total(C,4|T,64)   
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67644):
GATTCTGACAGGAAAGGCAATCAAGGGCTTTATAAGTTCCACTGTATAGCAACATTTATAAGGCAGCCCAGGATGACATCAAGAAACAGTGAGTGAACAA
R
TAAGCACTTGTAATACCCGGCATAATACCTTAAAATCCGTTAGGATTTACTGAGTTTATCTATAGTAAATTTGAAGAGACTATGGATGTTCAAAGGGTAT
Celera SNP ID:            hCV3017114
SNP Position:             19999
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67645):
GGGTGAGCAACCATTTCCCATCTCTATTAGGGCGATAAGAGGAATTTGGTAATGTGAGGTTTAAGTTAGGTTTTGTGACAAGAAGTCCCACGTAGTCCTG
R
TTGGTCTTCTGTACCTTGTACACTGCTCCACCGTGGAGCAGATAAACTGGCCAATCAGCGCCAGGAACTGCTCGGTGTACCGGGAATGGAACTGCTTCAG
Celera SNP ID:            hCV25632307
SNP Position:             29556
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,3|G,37)   total(A,3|G,65)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,30)   caucasian(A,2|G,26)   total(A,2|G,56)
SNP Type:                 INTRON


Context             (SEQ ID NO:67646):
AAGCTTGTTTTTTGCCTATGGATTTATCCATATGTTCTGGTCTGTGGGAGCCAGGAATAATTGAGAAATTTTAATTTAAGAATTAGTTTCATTGAAGTAC
R
GGGACTTATACAACCCAGTATTAGTTTTGAGCGTACAGACATATGTGGAACTATTCTTGGAAAGTCTACAAAGTGAAATCTATCGAGTTATTTCTCATTT
Celera SNP ID:            hCV3017115
SNP Position:             18538
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67647):
AGGCATTGTATTTCAAAGGCATAAAGACTCGAATTTCATAAACATAAATTTAACTAAGAAAAGATCTCATATCCGACATAGGCATTCTATACAAAAAGCT
Y
TTTAGTTAAATGTTAATCTGTTGGTATTGTTACTCATTGCAAATAATAAATGTTATACGTACCCAGATTTTTGTTGTATTGAAGTTTTGGCAACTGAGCG
Celera SNP ID:            hCV25632308
SNP Position:             34504
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,32)   total(C,66|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:67648):
CTGTTGGGCTGCTTTCTGTGTAAGTTGTGATGGCACAGAGGATACAAACCTGCCAGATTTTCTTAGGACTGTTCAGTTGATGAATTACTGCAAATCTTTC
Y
TCCTTACACATTTTGATATTTTATTATCTGTTAGTATCCCAATGAGAAGGTGGCCCAAAGAAATGAAGAAACGCAATATTTAGTACTGTTTTCTTTCTAG
Celera SNP ID:            hCV3017116
SNP Position:             18283
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67649):
TTGCTCTGAAGGTGATTTTTTATTTTTTTTGTAAATGATAAACATAAGGCAATATTACTTGCAGATAGTCCTTAGAAGGATAAGTATCAGTTTGAGGGGA
Y
TATAAACATCAGTTTGTGCTTTTTTATCCTTACCATATAATAAATGAGCTATTTCTTTTTTAGGCCAAAAAATCATTTTACTGGGCAAGAAAAACATCTC
Celera SNP ID:            hCV3017117
SNP Position:             15897
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;JBIC-allele(C,415|T,1052)   total(C,415|T,1052)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67650):
AGGCATTGTATTTCAAAGGCATAAAGACTCGAATTTCATAAACATAAATTTAACTAAGAAAAGATCTCATATCCGACATAGGCATTCTATACAAAAAGCT
Y
TTTAGTTAAATGTTAATCTGTTGGTATTGTTACTCATTGCAAATAATAAATGTTATACGTACCCAGATTTTTGTTGTATTGAAGTTTTGGCAACTGAGCG
Celera SNP ID:            hCV25632309
SNP Position:             34504
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(C,1|T,29)   total(C,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:67651):
TTTCTATATCCTTGACCTTTGGGAGTTTGATTATTAAATGGCTTGAACTAGTCTTGTTTGGATTAAATCAATCACCAATCCTTGCTTGGTGTTCTGTAGC
Y
TTCTTGTGCTTGAATATTGATATCTTTCTCTAGATTTGGGAAGTTCTCTGTTATTTTTTCTTCAAATAAACTTTCTACCCTCATCTTTCTCTATCTCCTT
Celera SNP ID:            hCV3017118
SNP Position:             13449
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,8)   total(C,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67652):
CTTGGAAAGTCTACAAAGTGAAATCTATCGAGTTATTTCTCATTTGCAAAGTGATCCTTTGAGTCATTTCTCATAATCTATAATCTGAATGTTAATACTG
R
TATTTTTAAAAGCCCTACATCCCAACAGACCAGGCCATCTAGATATTTCAGCGTGGTGTCTCAGGATGAGTAAACAAACAGCTAAAAATATATGACTTAT
Celera SNP ID:            hCV1382446
SNP Position:             18694
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67653):
GGGTGAGCAACCATTTCCCATCTCTATTAGGGCGATAAGAGGAATTTGGTAATGTGAGGTTTAAGTTAGGTTTTGTGACAAGAAGTCCCACGTAGTCCTG
Y
TTGGTCTTCTGTACCTTGTACACTGCTCCACCGTGGAGCAGATAAACTGGCCAATCAGCGCCAGGAACTGCTCGGTGTACCGGGAATGGAACTGCTTCAG
Celera SNP ID:            hCV22275719
SNP Position:             29556
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,8)   caucasian(C,40)   total(C,60|T,8)   
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)

SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,38)   total(C,65|T,9)
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67654):
CTCTTGGCTAAGACCAGCACTGGATCTAATGAAGCACCAGAGGCCCTTCAAGGAATGTCTGGATGGATTCCCATACCCCAACCTAAAAATACCCCAAAGT
C
TATGATTCACAAAGTGATCTATTAATGTTCAGTTGTTCATGTATCAAAGATGTCTTTTTTGAAGCTATATTTTTAACCTTTTGGAATAAGTGCTCCAAAT
Celera SNP ID:            hCV11594445
SNP Position:             37471
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,13)   total(C,1|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67655):
TTTTCTTTTTTCCAATCCAGAGGTTAATTGGAGTAGAGTGCCCTGAAATTATGGAGAGAAACCATTGGTAGGTTTATATTAATATTAGTTAGATTACCAA
R
ATTCTACTCCTTAATATGAATGGAATAATTTTTAACAGAGGCTTCTGCTCCTCTATTCCCAGATCACACTGGGAATTGTATGACAGTTCATTTTCTATAT
Celera SNP ID:            hCV3017085
SNP Position:             7869
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67656):
GCCACTTTTGAAGCTTTCAGATGGGGAAATTATGAATATTTATGAAAAGGGTCATCCATTACCTGATATTTTTAGCATTTATTTTTCTTTTATTGTAAAT
R
TGGTGGTTTTTCTTTTTTTTTTCTTTTTTCCAATCCAGAGGTTAATTGGAGTAGAGTGCCCTGAAATTATGGAGAGAAACCATTGGTAGGTTTATATTAA
Celera SNP ID:            hCV3017086
SNP Position:             7750
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67657):
TGGCAGAACAGGTTTACTCAGGAGAGGATTATGGTTTATTTCATGTTGCATTTTCTTTCTGAAGTTGAAGTGGAATTACAGACCTGAAATAGTTATGTTG
Y
TATCTTTAAATGATATTACAGATTTGCTAAGACTCTCATTGACTTCCAGAAGCATTCACAGTTTCTGAAATAGTTACATTAGTTTTGTTCAGTTCTCCAG
Celera SNP ID:            hCV25633258
SNP Position:             2303
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,1)   caucasian(C,28)   total(C,43|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:67658):
CAACATGTACATGGAAACATTTCAATAAATTTTCATTTAGTTAAGCCACTTTTGAAGCTTTCAGATGGGGAAATTATGAATATTTATGAAAAGGGTCATC
S
ATTACCTGATATTTTTAGCATTTATTTTTCTTTTATTGTAAATGTGGTGGTTTTTCTTTTTTTTTTCTTTTTTCCAATCCAGAGGTTAATTGGAGTAGAG
Celera SNP ID:            hCV3017087
SNP Position:             7706
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,9)   total(G,5|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67659):
TGGCAGAACAGGTTTACTCAGGAGAGGATTATGGTTTATTTCATGTTGCATTTTCTTTCTGAAGTTGAAGTGGAATTACAGACCTGAAATAGTTATGTTG
K
TATCTTTAAATGATATTACAGATTTGCTAAGACTCTCATTGACTTCCAGAAGCATTCACAGTTTCTGAAATAGTTACATTAGTTTTGTTCAGTTCTCCAG
Celera SNP ID:            hCV25633259
SNP Position:             2303
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,15)   caucasian(T,14)   total(G,1|T,29)
SNP Type:                 INTRON


Context             (SEQ ID NO:67660):
GAAGGGAAACCCTCATTGTCAATTATGATATGATTAGAGTAATAGGAAACTATTTTTGGTATGAGTACATTTTGTTTAAATATTCCGTTTTTTTCAAGTT
W
TTTTTTAAACTAAGTGAAACCACTTTAGTAACAAATTATTAACAGAAATGAAGTGAAATGAAGTGGGCAAACTTAGATTTTAAATAATGACATTTTCAAC
Celera SNP ID:            hCV3017088
SNP Position:             7509
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,13)   total(A,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67661):
GAAACAAGCTTAATAGGAACAGCTGCCTGTACATCAACATCTTCTCAGAATGACCCAGAAGTTATCATCGTGGGAGCTGGCGTGCTTGGCTCTGCTTTGG
Y
AGCTGTGCTTTCCAGAGATGGAAGAAAGGTGACAGTCATTGAGAGAGACTTAAAAGAGCCTGACAGAATAGTTGGAGAATTCCTGCAGCCGGGTGGTTAT
Celera SNP ID:            hCV7531338
SNP Position:             287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67662):
ATTTTGAGTTAAATTTTGTGTCTGTTGAGAGGAAGGGGTCCAGCTTGATTTGTTTGTGTGTGGATATTCAGTTGTCCCAGTATCATTTGTTGAAAAGACT
R
TTTGTTCCCCAGTGAATTTTCTTGCCCTTGTGGTCAAAATTCCCTTGACTGAAAGGTAAGGGTTTCTTTCAACAATATTTTGTAGTTTTCAGAGTATAAG
Celera SNP ID:            hCV2913200
SNP Position:             11146
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,10)      total(G,10|A,2) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67663):
CTGATTTGCATTTCTCTCATAGATAATGATGTTGAACATCTTTTCATATGCATATAGGCCATTTGTTGTTTGGAGAAATGTATATTTAGACTTTGCATAT
W
TTTTTAATTGGGCAGATTTAAAATTTATGTATTGTTGAGTTTCAAGAGTCCTTTATATATTTTAGGTACAAGTCCCTTATTAGATATGTGATTTGCAAAA
Celera SNP ID:            hCV16280075
SNP Position:             10409
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67664):
GTAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTCCTGGGATTACAGGCA
Y
GAGCCACCATGCCTGGCCTGTTACTCCTATATTTTCTTCTAAGAGTTTTATAGTTTTACCTCTTAAATTTAGCTCTTTGATCCATTTTGAGTTAAATTTT
Celera SNP ID:            hCV2913201
SNP Position:             10962
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67665):
TTGAGTTTCAAGAGTCCTTTATATATTTTAGGTACAAGTCCCTTATTAGATATGTGATTTGCAAAATTTTTCTCATTCTGTGGGTTTTCTTTCCATTCTT
M
TTAATGGTTTCCATTGAAGTACACATGGTTTAAATTTTCATGTTTATTTTTTCTTTCGTTGCTTGTGCTTTTGATGTCATATTTAGGAAGGCTTTGTCCA
Celera SNP ID:            hCV2913202
SNP Position:             10544
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,7)   total(A,5|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67666):
TATCCGTGGCAAGGAAGCCTGTAAATTCAGACCTTCCACCCAAAAATAACTTAAAAGAGTAAGAACTGAAGAAACTGGGGTGCGTAGATAATAAACAATC
Y
AAGCCCACGGATGGCTGTTTCAAACCCTGGCACTTACTTATTGAGATTCTCCAGAGCAGCTGCCAGATGTTTAGAATCAAACCGACAAGAATAATTTAAT
Celera SNP ID:            hCV25632312
SNP Position:             37087
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,40)   total(C,69|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:67667):
CCTCGGCTTTTGTTTGTCTGGGAAAGTCTTTATTTCTCCTTCATGTTTGAAGGATATTTTCACTGGATATACTATTGTAGCATAAAAGTTCTTTTCCTTC
R
GCACTTTCAGTGTGTCTTGCCCCTCTCTCCTGGCCTGTAAGATTTCCACTAAGTCTACTGCCAGACATACTAGAGCTCCATTGTTTGTTGTTTCCTTTCT
Celera SNP ID:            hCV3017121
SNP Position:             13229
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67668):
TGAGTATCTCTTATCTGAAATGCTAGGGATCAGAAGTGTTTCAGATTTTTTATTTTTTTCAGATGTTTGCATTATACTTACCAGTTGAGCATCTCTAATC
Y
GAAAATCTGAAATTTGAAATGATCTAATGAGTATTTTGTTTGTCACATTACTGCTCAAAAAGTTTTGGATTTCAGATTTTTGGATTAGAGATACTCAGCC
Celera SNP ID:            hCV2913203
SNP Position:             4671
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67669):
TTTGCCTACCTCTTGTAGGCTTTTGATTTGAAATTACCAGGAAGCTTGCAGGTCATATCTTATAACCGATTATTTTAAACTGATGACAACTGATTCCACA
R
ACGAGCAGAGAAAACTAATAAAAACTCTACACTTTATCCTCCTTGCTTTTTAACTTTTGTGAGTTTTGTACCTTCATGTAATTGCTTACTGCTCGTTAAG
Celera SNP ID:            hCV3017122
SNP Position:             12959
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67670):
GAAGGTAATTTTCTCTGGTAGTATGTTTTAATTTCTTGCTTTTAATTTTTTTGCCTACCTCTTGTAGGCTTTTGATTTGAAATTACCAGGAAGCTTGCAG
R
TCATATCTTATAACCGATTATTTTAAACTGATGACAACTGATTCCACAAACGAGCAGAGAAAACTAATAAAAACTCTACACTTTATCCTCCTTGCTTTTT
Celera SNP ID:            hCV3017123
SNP Position:             12910
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67671):
GAATCATCCATACATGTTTTTGTCCATTACTATTGGCGTCTTAATATTTTTCCAGTGGTTTTTAATGAGTAAATTTTATTATATATACATGTATTAATCT
Y
TTGTTCTATTTCATATGTCTTTCCCAAAGTATTGTTTTAGTTTTTATTTTTAAAATTAATTTTTTAACTTTCTAATTTTCGGTTGGCACTTTAAAAATGT
Celera SNP ID:            hCV2913205
SNP Position:             1714
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67672):
CATCCCTTCATTTTCAGTCTCTTTGTGGCTTTATAGGTGAAGTGTGTTTATTTTAGGCAGCAGATCGTTGGTTCTTTTTTTAAATCCATTCAGCCACTTA
Y
GCCTTTCGAGTGGAGTTTAGTCCATCTACATTGAATGTTATTATTGGTAAGTGCGTACTATTGCCATTTTGTTTTTGTTTTCTGATTGTTTTGCTGTCTT
Celera SNP ID:            hCV3017124
SNP Position:             12684
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67673):
TTAAATTTATACTGTTACGAATAACTTCTGGGACAGATAGTTTGTCACTGTGGATTAGTGCATTATTAATACCAAAATTAGTTTTATGATCTATTTAGTT
R
TTAACATTGAGTGTATACAAGTATTGTGCTAGTCAGGGAAACAACAGGTAAAAAACTGACCTTGACCTAGAGAAGGCCTTTTTCTTTTTTTCTTTTTTTT
Celera SNP ID:            hCV27473612
SNP Position:             8779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67674):
TTGTCTTGAAATCTATTTTACTGATGTAAATATCACTATGCTCTTTTTTGGTTTCCATTTGCATGGAATATCTTTTTCCATCCCTTCATTTTCAGTCTCT
K
TGTGGCTTTATAGGTGAAGTGTGTTTATTTTAGGCAGCAGATCGTTGGTTCTTTTTTTAAATCCATTCAGCCACTTACGCCTTTCGAGTGGAGTTTAGTC
Celera SNP ID:            hCV3017125
SNP Position:             12606
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,9)   total(G,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67675):
GCCAGGCTCCTTATAGAGCTAACGTTCCTTCTTGTTTACATCAAAAGGAGTTTTTAGGTGTTAAAACGATTTCCAATTCCTGTACCAATTGGCATTTTCT
R
ATTAACAAATAACTTTTAGTACTATTAATACATTACTGGTTAATTTCGCTGATGAACTTTGCTTTTTGAATGGGTTAAGAATGACTGTACCTGGAAAAAT
Celera SNP ID:            hCV11594451
SNP Position:             27129
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,12)      total(G,12|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67676):
AAAGTACATGCCAGGCTCCTTATAGAGCTAACGTTCCTTCTTGTTTACATCAAAAGGAGTTTTTAGGTGTTAAAACGATTTCCAATTCCTGTACCAATTG
R
CATTTTCTGATTAACAAATAACTTTTAGTACTATTAATACATTACTGGTTAATTTCGCTGATGAACTTTGCTTTTTGAATGGGTTAAGAATGACTGTACC
Celera SNP ID:            hCV11594452
SNP Position:             27120
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,15)   total(G,15|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67677):
TTTCTGAAGTTGAAGTGGAATTACAGACCTGAAATAGTTATGTTGTTATCTTTAAATGATATTACAGATTTGCTAAGACTCTCATTGACTTCCAGAAGCA
T
TCACAGTTTCTGAAATAGTTACATTAGTTTTGTTCAGTTCTCCAGATTTGAAGGCAGAGACTCATTTTTGATGTGTGTGTGTCTTCTTTGGTTCTTAGTT
Celera SNP ID:            hCV26473841
SNP Position:             2358
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,9)   total(T,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67678):
TATTGGGGTCTGTCTCCTTAGCTCTAATAATATTTCCTTTATATATCTGAGTGCTCCGGTATTGGGTGCATATGTAATTGTTACATCCTCTTGCTGAATT
R
ACCCCTTTATCATTATCTAATGACCTTCTTTGCCTCTTTTTATAGTTTTTGTCTTGAAATCTATTTTACTGATGTAAATATCACTATGCTCTTTTTTGGT
Celera SNP ID:            hCV8286655
SNP Position:             12457
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67679):
GGAATACAGCAAAGTACATGCCAGGCTCCTTATAGAGCTAACGTTCCTTCTTGTTTACATCAAAAGGAGTTTTTAGGTGTTAAAACGATTTCCAATTCCT
R
TACCAATTGGCATTTTCTGATTAACAAATAACTTTTAGTACTATTAATACATTACTGGTTAATTTCGCTGATGAACTTTGCTTTTTGAATGGGTTAAGAA
Celera SNP ID:            hCV11594453
SNP Position:             27110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,12)      total(G,12|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67680):
TGTATGAAAATGGAAAAATCGGCCAGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACGAGGTCAGGAGTTCAA
R
ACCAGCCTGGCCAATATGGTGAAACCCCGTCTCTACTAAAAATAAGAAAAAATTAGCCAGGCGTGGTAGCACGCACCTGCAGTCCCAGCTACTTGGGAGG
Celera SNP ID:            hCV26473842
SNP Position:             3406
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67681):
TTTCAAAAGGTAGGAAAAAGCTCAGCGAGTGAAACATCCAGAGACACAGGTTCTAATAATCACAATCAGGAACTTTCTAATGAGAACAAGACTTAGCCAG
Y
GGACTGTGCTGCCTGGAGAGGTAGCACAAGCCCCCTCGGTGAGAGTGTTCCAGCAGTGGCTGCATGACTACCTGTCAAGGATGTCCTAGAGCTCATTCAT
Celera SNP ID:            hCV3017129
SNP Position:             28412
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,12)   total(C,4|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67682):
AAAAATACAAAATTAGCCGAGTGTGGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATCGCTTGAACGGGAGGCAGAGGTTGT
R
GTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAAAAAAAAAAAAAAGTTTTGATATGTTTTTGTCACATAATA
Celera SNP ID:            hCV26473843
SNP Position:             6721
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67683):
TGCTTTAATTTGCAATTTAAAATGAAGGGGTTAAATAAGTTAGACATTTAAAAGAAATGATTGTTACCATAAATTAGTGCTAATGCTGAGGAGAACTACA
S
TTTTTCTTTTGAATTTAGTATTTGAGATGAGTTGTTGGGACATGCAAATAAAATGAAGAATGAACTTTCGTGTCTTTTTGTTTCTTGTTGTGGGCTCGTT
Celera SNP ID:            hCV27920770
SNP Position:             19549
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67684):
TTTGGAACTGGCTTTTCATTTAGCACAATGTTTTTGAGGTTCATTCATGTTGTAGCATGTTTCAGTTCTTCATTTGTTTTTATGGCCAAATAATCTTCCA
Y
TGTGTGGCTATATTACATTTTGTTTAGCCATTCATCAATTGATAGATATTTGGGTTGTTTCTACTTTTTGGTTATTACAAGCAATGCTGCTATGAACATC
Celera SNP ID:            hCV26473844
SNP Position:             9948
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67685):
GAATAACTTCTGGGACAGATAGTTTGTCACTGTGGATTAGTGCATTATTAATACCAAAATTAGTTTTATGATCTATTTAGTTGTTAACATTGAGTGTATA
S
AAGTATTGTGCTAGTCAGGGAAACAACAGGTAAAAAACTGACCTTGACCTAGAGAAGGCCTTTTTCTTTTTTTCTTTTTTTTTTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV27494887
SNP Position:             8797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67686):
ATTCACAAAGTGATCTATTAATGTTCAGTTGTTCATGTATCAAAGATGTCTTTTTTGAAGCTATATTTTTAACCTTTTGGAATAAGTGCTCCAAATTTAG
Y
AGCTGCTGTGAGAAGTCTTACTTACTTCCTTTTATTTATCCTAAATGGAACTTTCTCAAGCTCTAGGAATGCCATTTCACACTAGTATTCTCAAATTGGG
Celera SNP ID:            hCV3017090
SNP Position:             37576
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,11)      total(C,5|T,11) ;JBIC-allele(C,391|T,1094)   total(C,391|T,1094)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67687):
AAAAGAGCTTCCAAAGTATTTTGCATCACTTAATGAATTAACAGCAAAATCAAGGAAGTACCTTTTAAACAACTCTTCCAAGACCTAAATATTAGTAGTT
W
TTTACTAACAGAAAAAAGTTTATTCATATTTATATTACTCTCCATAATGCTGATTATGGAATTCAGAAGAAATCCTGGTTGTTGAAATTCTAGGACTAGA
Celera SNP ID:            hCV11594456
SNP Position:             17897
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,3)   caucasian(A,29|T,11)   total(A,64|T,14)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,7)   total(A,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67688):
ATGATTAGACTTTTATTTCAGGAATATACTCTGACATTTTTGTGGAGGATGGTTTGGAGGAAAGTCTAGTAAAACATACACTAAGATTAATTATTCTGTC
A
ATGATGATAAAAGGCCAGAACTAGGGTTGTAAAATGAAAGGTAATGAATAAATTTGGGTAATATCTAGGATGTAGAATGTAAAAAACGTGATGATTTGGA
Celera SNP ID:            hCV26473845
SNP Position:             11435
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,10)   total(A,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67689):
AATCCAGGGTTCTTAATTTTTTTTGTGTGTCTGATATGGTTTGGCTGTGCCCCCACCCAAATTTCATCTTGAATTGTAGTTCCCATAATCCCCATGTGTC
R
TGGGAGGGACCCAGTGGGAGGTAATTGAATTATGGGGGTGGTTACCTCCATACTGTTCTCGTAATAGTGGATGAGTTCTCACGAGATCTGATGGTTTTAT
Celera SNP ID:            hCV2913173
SNP Position:             37888
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67690):
ACAGGAAAAAAAATAAGGATTTCCTGAACTGATCTCTTGGCTAAGACCAGCACTGGATCTAATGAAGCACCAGAGGCCCTTCAAGGAATGTCTGGATGGA
Y
TCCCATACCCCAACCTAAAAATACCCCAAAGTCTATGATTCACAAAGTGATCTATTAATGTTCAGTTGTTCATGTATCAAAGATGTCTTTTTTGAAGCTA
Celera SNP ID:            hCV3017091
SNP Position:             37438
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,13)      total(C,1|T,13) ;JBIC-allele(C,47|T,700)   total(C,47|T,700)
SNP Type:                 INTRON


Context             (SEQ ID NO:67691):
TTTATAGATATAAGGAATTATTATTTATCGCTACTCACAGCTCTCTTCACTTGATAATTTACTGCTTAGTTAGAGATACTGGTTGGACATCTTAGAGACT
R
GGAATTTGGTTTCTAGAATTGTGTTAAAAAGAGCTTCCAAAGTATTTTGCATCACTTAATGAATTAACAGCAAAATCAAGGAAGTACCTTTTAAACAACT
Celera SNP ID:            hCV11594457
SNP Position:             17770
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,24)   caucasian(A,10|G,28)   total(A,22|G,52)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,8)      total(G,8|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67692):
TGATTAGACTTTTATTTCAGGAATATACTCTGACATTTTTGTGGAGGATGGTTTGGAGGAAAGTCTAGTAAAACATACACTAAGATTAATTATTCTGTCA
A
TGATGATAAAAGGCCAGAACTAGGGTTGTAAAATGAAAGGTAATGAATAAATTTGGGTAATATCTAGGATGTAGAATGTAAAAAACGTGATGATTTGGAT
Celera SNP ID:            hCV26473846
SNP Position:             11436
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,10)   total(A,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67693):
AAAAATACAAAAATATTAGATGGGCGTGGTAGTACGTGCCTGTAATCCCAGCTACCTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGCGAGGCAGAG
R
CTGCAGTGAGCTGAGACCACGCCATCGCGCTCCAGCCTGGGCAATAAGAACAAAACTCCATCTCAAAAATAAATAAATAAATAAATAAAAATAAGAATAA
Celera SNP ID:            hCV2913174
SNP Position:             34279
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67694):
GATTAGACTTTTATTTCAGGAATATACTCTGACATTTTTGTGGAGGATGGTTTGGAGGAAAGTCTAGTAAAACATACACTAAGATTAATTATTCTGTCAA
T
GATGATAAAAGGCCAGAACTAGGGTTGTAAAATGAAAGGTAATGAATAAATTTGGGTAATATCTAGGATGTAGAATGTAAAAAACGTGATGATTTGGATA
Celera SNP ID:            hCV26473847
SNP Position:             11437
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,10)   total(T,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67695):
CACTGTCTAGGGCTGGGCACAATGGCTCACGCCTGTAATCTCAGCCCTTTAGTTGCCGAGGCAGGTGGATCGCTTGAGCCTAGGAGTTTGAAACCAGTCT
S
GGCAACATGGCAAAACCCTGTTGCTACAAAAAATACAAAAAAATTAGCTGGGCATGGCGGTGTGCACCTATAGTCCCAGCTACTCAGGAGGCTGAGGTGG
Celera SNP ID:            hCV2913175
SNP Position:             33810
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67696):
AAGTCTTTATTTCTCCTTCATGTTTGAAGGATATTTTCACTGGATATACTATTGTAGCATAAAAGTTCTTTTCCTTCAGCACTTTCAGTGTGTCTTGCCC
C
TCTCTCCTGGCCTGTAAGATTTCCACTAAGTCTACTGCCAGACATACTAGAGCTCCATTGTTTGTTGTTTCCTTTCTCTTGTTGCTCTTAGGATCTTTTC
Celera SNP ID:            hCV26473848
SNP Position:             13252
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,9)   total(C,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67697):
TACTTTGTTGATTTTAAATCCACTGTCTAGGGCTGGGCACAATGGCTCACGCCTGTAATCTCAGCCCTTTAGTTGCCGAGGCAGGTGGATCGCTTGAGCC
Y
AGGAGTTTGAAACCAGTCTCGGCAACATGGCAAAACCCTGTTGCTACAAAAAATACAAAAAAATTAGCTGGGCATGGCGGTGTGCACCTATAGTCCCAGC
Celera SNP ID:            hCV2913176
SNP Position:             33790
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67698):
TATGTATGTTTATATTAATGTTCTCTTAGATTCCTTAGTCATTCCTTGGCATTAACAGCTAAGTGCTTAATGAATAATTTTATTAATGAAATAATTAGTT
Y
TTGATTTATCACAAGGGATATATGTAACAACCATAACAGATGTATAGTAGGCATTTGTTTATACTTGATAAGAAAATATGTGATACTTTGAAATTGAAGT
Celera SNP ID:            hCV25474223
SNP Position:             8383
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,14)   caucasian(C,23|T,11)   total(C,43|T,25)
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67699):
AGTCTTTATTTCTCCTTCATGTTTGAAGGATATTTTCACTGGATATACTATTGTAGCATAAAAGTTCTTTTCCTTCAGCACTTTCAGTGTGTCTTGCCCC
T
CTCTCCTGGCCTGTAAGATTTCCACTAAGTCTACTGCCAGACATACTAGAGCTCCATTGTTTGTTGTTTCCTTTCTCTTGTTGCTCTTAGGATCTTTTCT
Celera SNP ID:            hCV26473849
SNP Position:             13253
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67700):
ACAATGAACCCTTACTGAGGTAGACCATACTTTGTTGATTTTAAATCCACTGTCTAGGGCTGGGCACAATGGCTCACGCCTGTAATCTCAGCCCTTTAGT
W
GCCGAGGCAGGTGGATCGCTTGAGCCTAGGAGTTTGAAACCAGTCTCGGCAACATGGCAAAACCCTGTTGCTACAAAAAATACAAAAAAATTAGCTGGGC
Celera SNP ID:            hCV2913177
SNP Position:             33763
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,7)   total(A,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67701):
GACAATGAACCCTTACTGAGGTAGACCATACTTTGTTGATTTTAAATCCACTGTCTAGGGCTGGGCACAATGGCTCACGCCTGTAATCTCAGCCCTTTAG
K
TGCCGAGGCAGGTGGATCGCTTGAGCCTAGGAGTTTGAAACCAGTCTCGGCAACATGGCAAAACCCTGTTGCTACAAAAAATACAAAAAAATTAGCTGGG
Celera SNP ID:            hCV2913178
SNP Position:             33762
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67702):
TTAGCTGGATACAAAGTTTGAAGGCAGAGGAAACACTTTGTTATCTATTATGTAACTACAAAAATATTCTGACGAATGACAAAAATAAATTAGGGTTATA
K
TCCTGGAGAGAACAGACATATTGAAAGGCTTTGGTGTCTCTTGTTTGTACAGAATATTCTGACATACAATCATACATAAAGTATTAAATGTTCATGTATA
Celera SNP ID:            hCV2913179
SNP Position:             33374
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,12)      total(G,3|T,12) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67703):
AAACAAACTCCCAAATTAATAAAAAAAAGTTTCGGGCCGGGCACAGTAGGTCATGCCTGTAATCCCACCACTTTGGGAGGCTGAGGTGGGCAGATCACCT
R
AGGTTGGGAGTTCAAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGAGTGTGGTGGTGCATGCCTGTAATCCCA
Celera SNP ID:            hCV27487888
SNP Position:             6567
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67704):
ATTTGGATTAATTTGTTTTTGAAGTTTTTTGTATATAAATATGTAAATACATGCTTTAATTTGCAATTTAAAATGAAGGGGTTAAATAAGTTAGACATTT
R
AAAGAAATGATTGTTACCATAAATTAGTGCTAATGCTGAGGAGAACTACAGTTTTTCTTTTGAATTTAGTATTTGAGATGAGTTGTTGGGACATGCAAAT
Celera SNP ID:            hCV7531344
SNP Position:             19498
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:67705):
TGGCAGAACAGGTTTACTCAGGAGAGGATTATGGTTTATTTCATGTTGCATTTTCTTTCTGAAGTTGAAGTGGAATTACAGACCTGAAATAGTTATGTTG
Y
TATCTTTAAATGATATTACAGATTTGCTAAGACTCTCATTGACTTCCAGAAGCATTCACAGTTTCTGAAATAGTTACATTAGTTTTGTTCAGTTCTCCAG
Celera SNP ID:            hCV25472770
SNP Position:             2303
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,11)   caucasian(C,2|T,24)   total(C,7|T,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:67706):
TTAGTTTCTGAGTCTTACCAATATGTATTTTTTTCTATTACAGATTGTCTCCTAACCCTCTAGTTTTAATTGGACACTTCTTTGCTGTTGCAATCTATGC
Y
GTGTATTTTTGCTTTAAGTCAGAACCTTGGATTACAAAACCTCGAGCCCTTCTCAGTAGTGGTGCTGTATTGTACAAAGCGTGTTCTGTAATATTTCCTC
Celera SNP ID:            hCV16185668
SNP Position:             19140
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   JBIC-allele(T,92|C,1393)   total(C,1393|T,92) 
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67707):
ACAGTTTCTTCAATAGTATTATCTTCAACTACTCTCTATAATGCTATCTGATAATATATCTAAATCTCTTCACGCACATTTTTTAAGAATGGCTTTTTTT
R
CTGTGTGTTTCTGACTACTAAACTGAGTAGTCTTCATTTCTGTTATAGGAACTCCATGCTCCACTGACTGTTGTTGCAGATGGGCTTTTCTCCAAGTTCA
Celera SNP ID:            hCV25473753
SNP Position:             5909
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,29|G,9)   total(A,61|G,11)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,26|G,10)   total(A,59|G,13)   
SNP Type:                 INTRON

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   ;JBIC-allele(G,388|A,1081)   total(G,388|A,1081)
SNP Type:                 INTRON


Context             (SEQ ID NO:67708):
GTTGGGATTACAGGCTTGAGCCACTGTGCCCAGCCGCTTTGATTCGTTTTTTACATTATAGTGGCAAAAATGACCAAGCAAACATGACAGCAAAGGTTAT
K
TAGCCAGGCTGACCCTTTAGGATAGCAGAGAAGGAGGCACAGGACCCAGCATCTCATGGAAATAACTTTTTTTTCTTTATCCCAGAAAAGCCACATTTAG
Celera SNP ID:            hCV3017130
SNP Position:             28961
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,11)   total(G,11|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67709):
GTAGCATAAAAGTTCTTTTCCTTCAGCACTTTCAGTGTGTCTTGCCCCTCTCTCCTGGCCTGTAAGATTTCCACTAAGTCTACTGCCAGACATACTAGAG
C
TCCATTGTTTGTTGTTTCCTTTCTCTTGTTGCTCTTAGGATCTTTTCTATATCCTTGACCTTTGGGAGTTTGATTATTAAATGGCTTGAACTAGTCTTGT
Celera SNP ID:            hCV26473850
SNP Position:             13305
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,9)   total(C,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67710):
TAGCATAAAAGTTCTTTTCCTTCAGCACTTTCAGTGTGTCTTGCCCCTCTCTCCTGGCCTGTAAGATTTCCACTAAGTCTACTGCCAGACATACTAGAGC
T
CCATTGTTTGTTGTTTCCTTTCTCTTGTTGCTCTTAGGATCTTTTCTATATCCTTGACCTTTGGGAGTTTGATTATTAAATGGCTTGAACTAGTCTTGTT
Celera SNP ID:            hCV26473851
SNP Position:             13306
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,9)   total(T,9|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67711):
ACTATGAAGAGTTCTCCTTTGACTAAATGAAAATTACATAATTTTTATGTGACGGGAATTTAGAGGATATATTTGTAACTAAGGCATAAGTCCATTTGTG
Y
ACATTTTGGAGTTTGAGTTTGTGGTTACGATACTTTCTATTAGAAGTCAGGATACAAAACTGCAAGGAGAAATCCCTGTTTCATTCTCACTAAAGACCCA
Celera SNP ID:            hCV11594462
SNP Position:             3002
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67712):
CATACCACTTATAAAGTGGAAACTCTTGGACCAAGATTTGGATTAATTTGTTTTTGAAGTTTTTTGTATATAAATATGTAAATACATGCTTTAATTTGCA
R
TTTAAAATGAAGGGGTTAAATAAGTTAGACATTTAAAAGAAATGATTGTTACCATAAATTAGTGCTAATGCTGAGGAGAACTACAGTTTTTCTTTTGAAT
Celera SNP ID:            hCV26473852
SNP Position:             19463
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:67713):
TCTTCCCCAAACCAGAGAAGCCTAAACAAGTGATCCTGAATAACCTAACCTAGGCCTTGGCAATTCAGAACATGGAGGAAGAATCCTAACAGGACTCAGT
W
TGGAGAAATAATCCTTTCCAGGTGGAAAGCAAGAGTGATGTTAACAACAAACACTTCTACAACTAGCACTACACCACGAAGCTTCTTTCTTCAAACACAG
Celera SNP ID:            hCV2913181
SNP Position:             32135
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,8)   total(A,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67714):
CTCAGAACGTCTGATGTTTCCCATAATAGACAGAAAAAATGCAGTTGTATGAGCAACTGAGTTTCTTTTCATCTTCAAATTCATTTGTGATGGTGGGAAG
R
TCTAAGGACAATCCTTCCATTGAAGAAGTAGGAAAAACAGTTACAGCACTGTTCTGAACTCATCAAAAATGAAATTAGGCACATGTGCTTCAGCAACCTG
Celera SNP ID:            hCV25632291
SNP Position:             21906
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|G,3)   total(A,75|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:67715):
GGAAACCTGTTCTATTAAATAACTGGGGAAGTTGCCTTAATGTCTTGACCTTGATTTCCTCATCTATCCAGTGAAGCAATTTGATAAGGTTATTTTCTTT
A
AAAAAAATTACTTATTTATTTATTTATTTTATTTTGGGGCTGTGACTCAGATTTGAACCGAAAGGTTCTTTGCTGAGTTCTCTGAAAATATCAGATTCTG
Celera SNP ID:            hCV26473853
SNP Position:             19805
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67716):
ATATATACATACGATGGAATGCTACGCAGCCATAAAAAAGAATGAATTAACAGCATTTGCAGTGACCCGGATGAGACTGGAGATTATTCTTACAAGTGAA
R
TAACTCAGGAATGGAAAACCAAACATCGTATATTCCTACTGATATGTGGGAGCTAAGCTATGAGGACGCAAAGGCATAAGAATTATACAATGGACTTTGG
Celera SNP ID:            hCV26473854
SNP Position:             24837
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67717):
GAGATTGAAGAGCTGCATCCAAGAGTGCAGAGGAACAGGGCTGCACTTTCTTCCCCATGGTAGTTACTATTCATGGTCCTGAGTCACTCCTGGAAAATCA
M
TGTGAGTAGACCGGATGGAGTTCCCCTGGCAGGGTGACTAAGGATGGACACACCTGTAATTGCTCTAAACAAGGAGGTATGCCCTGACTTGCTTTACAGA
Celera SNP ID:            hCV2913183
SNP Position:             29352
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,9)      total(A,9|C,4) ;JBIC-allele(C,471|A,992)   total(A,992|C,471)no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67718):
CAGAACTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGGGCCGAGATTACGCTACTGCACTTCAGCCTGGGTGACAGAGTGAGACTCTGTTTCAGAAAAAA
W
AAAAGAATGGCTAAAATGAAAATGACTGACGCCACCAAATAATGGCGAGGATGTGGACTACACATATACTCACTCTTGGTGAGAGTGTAACTGGCACAAC
Celera SNP ID:            hCV26473855
SNP Position:             31841
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,9)   total(A,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67719):
ATTGCTTTCTAAAATCTGTGCAAGTATCTAGCAGTGTCTGGTGTGTCTCTCACTCGCTCTCTCTAATGAATTCATTTGTTCAGCAGACATGTATTGAATC
M
TGTGATCAGTACCTGTCTGCTGAATACACGAATCCATTAGAGAGAGTGAGTGAGAGACAGAGATAAACGGAGGGACAATACTGAGGAAAGAGGCTCCGAA
Celera SNP ID:            hCV26473856
SNP Position:             36874
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|A,15)      total(A,15|C,1) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67720):
GACATGTATTGAATCATGTGATCAGTACCTGTCTGCTGAATACACGAATCCATTAGAGAGAGTGAGTGAGAGACAGAGATAAACGGAGGGACAATACTGA
G
GAAAGAGGCTCCGAAGACAGATTTGATTATCCGTGGCAAGGAAGCCTGTAAATTCAGACCTTCCACCCAAAAATAACTTAAAAGAGTAAGAACTGAAGAA
Celera SNP ID:            hCV26473857
SNP Position:             36959
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,13)   total(G,1|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67721):
GCTGAGGTATGAGAAACACTTGAACCCAGGAGGTAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCCAGGCGACAGAGTGAGACTGTCTC
A
AAAAAAAAAGAAAAGGAGGGTGGCCTTCTCTAAGAATGAGCAAAAGTTACTTAGCTAAATGGAGCTTGTAATGGTCAAAAGTATTAAATGACCTCAGATG
Celera SNP ID:            hCV26473858
SNP Position:             38969
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,12)   total(A,2|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67722):
GTATTTTCAGGAGCCCACCCCATAGGGTAAATGTGAGCTTCTCTATACGGTTTCCATGGGCGTTTACAACACGATCCCTGCTATCTATCCAGACTCATCT
Y
CCTCTGTTTACATGATTCAATACCTAGCAGGTCCCATACTTTCCCATCCCTGCACACTTTTTTTTTTTTTTTTTTGCGACAGACTTTTCACTCTTGTAGC
Celera SNP ID:            hCV27520754
SNP Position:             26303
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,81|C,1358)   total(C,1358|T,81) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67723):
ATGACAGTTCATTTTCTATATAAGTAGCACAGAAATTTAAAGCTTGTTTGGAAGTATCTCAGAGATGAGCTGATCAAACCATTTCATTTTTATAGATGAA
K
AAATTGAAGCTCAGAGAGGTAGGGCTGGCCTCGAATTCCTTTTCTAGTGTACATACCCTCCTGCTGTTTGTGAATTGGTAGTGTATTTCATCTGATTATT
Celera SNP ID:            hCV29131884
SNP Position:             8049
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67724):
ATATTTGATTATTTTACAATTTTATTTTAGATTCCCTGCATCAACTAAGAAAAGCCTGTTTTCTTTATTTCAAACTTGGTGGCGAATGTGTTGCGGGTCC
Y
GTTGGGCTGCTTTCTGTGTAAGTTGTGATGGCACAGAGGATACAAACCTGCCAGATTTTCTTAGGACTGTTCAGTTGATGAATTACTGCAAATCTTTCTT
Celera SNP ID:            hCV29131885
SNP Position:             18184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 HUMAN-MOUSE CONSERVED SEGMENT (hmCS)


Context             (SEQ ID NO:67725):
AATCAACCTCAATCAAATGCATTCACCATTCAAATTTTCATGTATTGACTGAACTGTTCTTAATACCTGCTTTGTCAAAAGCACTGACTTGGTGAGTGAG
M
AGCACAGATTATTTATCTGTAAGTAGGCAGCCTCAAATGACAGCAGGTTGCTGGTGAGGCGGAGGATATGAGTTCCCTCTAGGACAGGCCTCCATAACCA
Celera SNP ID:            hCV29131888
SNP Position:             36588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:67726):
CTCGAATTTCATAAACATAAATTTAACTAAGAAAAGATCTCATATCCGACATAGGCATTCTATACAAAAAGCTATTTAGTTAAATGTTAATCTGTTGGTA
Y
TGTTACTCATTGCAAATAATAAATGTTATACGTACCCAGATTTTTGTTGTATTGAAGTTTTGGCAACTGAGCGATCAAAAATAGAAAGTTTACAATTGGA
Celera SNP ID:            hCV22274189
SNP Position:             34531
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,27)   caucasian(T,32)   total(C,11|T,59)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,86|T,1401)   total(C,86|T,1401) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67727):
TTAAATTGATTTTGACCAATATATAGAAAGGGACTCAGCACCTGTTGGGCACTCAGTTTGCGGTGACTTGGCCAAAGTCACATAGGTGATAAGTGGTGAA
R
CCAGATTCCAAACACACATTGGTTCCCTCCCTCCTACAGCAAGTATTGTTTGAGGAGATCATGCTCTGCCTTCTGTGACAATCACAGGCATTGTCATGGA
Celera SNP ID:            hCV16184222
SNP Position:             32952
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67728):
ATGGCCCTTTAAATTGATTTTGACCAATATATAGAAAGGGACTCAGCACCTGTTGGGCACTCAGTTTGCGGTGACTTGGCCAAAGTCACATAGGTGATAA
K
TGGTGAAGCCAGATTCCAAACACACATTGGTTCCCTCCCTCCTACAGCAAGTATTGTTTGAGGAGATCATGCTCTGCCTTCTGTGACAATCACAGGCATT
Celera SNP ID:            hCV16184223
SNP Position:             32944
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67729):
ACAAGTTAGTGATTTGTCCAGAAATAAAAATGTTACCTGAGTTTGCTAACTCCCAAGTTGGTAGTTTTTTAAAATTCCATTTTGAGCAATAGTTGTAGTT
K
TAGTTTTAGTTTGGAAGGTAGTGGAATTTCCTTAGACAACATTAATAGCAATGCCTCAGTAACATATTCATTATTTTGAATTCCTCTGGTGCAGACTAGA
Celera SNP ID:            hCV16185678
SNP Position:             16223
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67730):
TTCAGTTTGCCCTCATAATGTTGTCTGCATCATAAGGTCAACAGCACACTCTAACTTTTTCTGCCTATAAATGTCTTCTTTTCTACTCGGACAAAGTATT
M
CTAAAAGACTGGCAAAGGGGAGTGAGGGAGGTGGGGAGAGGAGGGAAGACAGTATTATAATGCAAGCAGCAATAAGGTGGAAATAAATGCATTTCCTCTG
Celera SNP ID:            hCV3017106
SNP Position:             38562
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,9)   total(A,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67731):
TCTAAATTTGAATATTATGTAACACTTGATTGCTATGGGCCACTTAGCTCATAGTGGTTGTAAATTTAGCTTCAGTGTCATATAACCCATTGCTCTGAAG
K
TGATTTTTTATTTTTTTTGTAAATGATAAACATAAGGCAATATTACTTGCAGATAGTCCTTAGAAGGATAAGTATCAGTTTGAGGGGATTATAAACATCA
Celera SNP ID:            hCV16185679
SNP Position:             15808
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67732):
CTGTAATCCCAGATACTTGGAAGGCTGAGGTATGAGAAACACTTGAACCCAGGAGGTAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCC
R
GGCGACAGAGTGAGACTGTCTCAAAAAAAAAAGAAAAGGAGGGTGGCCTTCTCTAAGAATGAGCAAAAGTTACTTAGCTAAATGGAGCTTGTAATGGTCA
Celera SNP ID:            hCV3017107
SNP Position:             38946
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,12)   total(G,2|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67733):
CTCCATACTGTTCTCGTAATAGTGGATGAGTTCTCACGAGATCTGATGGTTTTATAAGAGGCTTTTCTCCTTTTGATTATATTTCTCTTTCCTGTTGCCA
Y
GTGAAGAAGGACATGTTTGCTTCCACTTCCACCATGGTTGTAAGTTTCCTGAGGCCTCCACAGCCATGCTGAACTGTGAGTCAATCGAACCTCTTTCCTT
Celera SNP ID:            hCV15793355
SNP Position:             38034
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,16)      total(C,1|T,16) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67734):
GTTCCCATCAGGAGTATAAACTCCTCGAGGGCCTAGGTCATATGTTCATCTTTGTTTCTCCAGCATCTGGAAATGTGCTTGGCATGTACTGCATATTTGA
S
GGTATCAAATAAATACAGCATCTAGCAATTTTTCATATGGGATTTTACTCATGTATTCATTCATTCAGCAACTACAGTGCCAAGCACTGTTCCAGAGCTG
Celera SNP ID:            hCV2913190
SNP Position:             26909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,9)      total(G,4|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67735):
TGGCATGAACTTAACTGTGCTTGCTGTGGGAACCAGGTCAGTGGAGAGAGAAAGAACAAACCACCATGATTATTTCTTTCCTCTGGCCACTTAAGGAATC
Y
CTCCTGGCTTGCCTATTTCACTTAACTCCTGAACCAGATGAGTTGCTGACAGGAGTACATGGTGGAGAGGAAGAAGAGGCGGGAGGGGCATTGTGTTAAA
Celera SNP ID:            hCV2913191
SNP Position:             25661
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67736):
AATTTGAATATTATGTAACACTTGATTGCTATGGGCCACTTAGCTCATAGTGGTTGTAAATTTAGCTTCAGTGTCATATAACCCATTGCTCTGAAGGTGA
Y
TTTTTATTTTTTTTGTAAATGATAAACATAAGGCAATATTACTTGCAGATAGTCCTTAGAAGGATAAGTATCAGTTTGAGGGGATTATAAACATCAGTTT
Celera SNP ID:            hCV2913193
SNP Position:             15812
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,8)      total(C,4|T,8) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:67737):
CTGGATGGTTTTGATGACTGTGGATGTTCACCAATGTCTGGGCATTGATGAGTTAGGTATTTATTGTGGTCTTCGGAGTCTGGGCTTGTTTGTACCCATC
Y
TTCTTGGGAACGCTTTTGAAGTATTCAAAGGGAAGTGAGTGTTGTGATCTAAGTCTTTGGTCATAGCAGCCGTATCTGTATTAAGGGGCACCCCAAGTCC
Celera SNP ID:            hCV2913194
SNP Position:             14073
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,8)   total(C,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:67738):
TCTGAAAGCTCACATCTCTGTTACTCTGGGATTGGTCACTGGTGCCTTATTTATTATTGTTAATTTAGTGAGTTCATGTTTTCCTGGATGGTTTTGATGA
S
TGTGGATGTTCACCAATGTCTGGGCATTGATGAGTTAGGTATTTATTGTGGTCTTCGGAGTCTGGGCTTGTTTGTACCCATCCTTCTTGGGAACGCTTTT
Celera SNP ID:            hCV2913195
SNP Position:             13990
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|C,9)      total(G,4|C,9) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Intergenic Region Number:  5
Celera Axis ID:            GA_x5YUV32VS7E - 211000035829998 (2219796..2259796)
Chromosome:                1

Genomic Sequence (SEQ ID NO:12603):
TTTAAAAGCATTTTATGAATAGTATAGAGATAACTTATTATTATTTTTTCTAGCAATGTCTTTGAAAACTATGACAGATAAGAAACTTGAGTGGGTTTGG
TGACAATTATGTAGCATAAATACAAAATACATAGTTTAAATACATAAATTTGATGTTAAAGTCAAAGTTGCAATGAATCAATAACATTATGCTGCTAACT
CTTGCTGAAACTTAGAATAGATTTTAAAATACTGACTTAAGGCTTTCATTGGAATTTCCCAACTGAATGATGACAAATAACATACTTCTTCCATTTAATG
AAATTTTATTGAATTATAAAATCCTTTCTTCTGGAAAGCAATGATTATGGAGTAATAAGTCAATTATATATTGAGTAAAAATTAAATGTGCCTTGCATAT
GTATTGGTTTATATGCCATTTCATTCATGACTTTTGATACATGATTATATTTTATAGAGAATATTAAATGCTTTTCTAAGTTATTTTTATATTACCTGAT
TATTTCAAATAAAACAATTATTTTAAATGAAAATCACATGGTTGTTTAATAATTGCTAAGAAAAAATATTTAAAATATTTGAATATAACCTTTCATTTTG
TCAAAACAATTGCATTTGTTCTCATTATGAAATGCATAAATCACATTAATGTCTTTATTAATCTATGTAACAAGAATACTTCAATATGTTTGTTGTTTCT
ATAAATGCATGTTAATATGCATCATAAACCTCACATGTGTTTATAATTGTCATTCATTTTATGTAAATTGAGTATTATTTTGAGAAGGAATTGTGATTTA
CCAAGTATACACATGAATATTGTCAGTCATTTAATGTGACCAAATAAGTTCATTTTGGCCATTCTGTGTTGAGGTTCTAAGATTTCTGCCCTTGGCTTCT
CCTCCTCTACCCCTACATATCCTACTTGGGAAATACTCTTACTCACATATAGATTCCCAATTCTTTATTTTCAACCAAGTCTTTCTTTACATACTTCAGA
TACATGTATCCTAACAGTATTGAAAATAACGAAAATATCCTCAATATTTTACACTTTAAATTTCTCAAACAGCTTATAATTCACTTTTCCACATTTCCAC
CAGCATCCACTTATGGTCATTTTGAGAAGTACTCTCTAGAGATGACTGTGGTTATTTGCCAAATATTGCCAATTCTTTGCTCTTTTAGCCAAATGTTAGA
CTTACATCTTCTGGATCTCTTATGGATTATTGTAACTACGTGACTATTTATGAGGCTGTTACTGATGTGAAAGTTCCTTCCAGATTTAGCATTTAATTTG
TTAAGTTGTTTTAGAATTTACTTTGTTTATATTTTGCCATCCCAACTGTCAGTATTTAAGACTATGCTTACTCCACCACCCTGAAAAATTTTTCTCTTTA
TCTTTGATTAGTTGAGATATTTGCGGGCTGGGTGCAGTGGCTCACGCCTGTAATCCCAGAACTTTGGGAGGTCAAGGCGGGCGGATCACGAGGTCAGGAG
ATCGAGACCTTCCTGTCTAACACGGTGAAACCCTGTCTGTACTAAAAACATAAAAAATTAGCTGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTAT
GGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTTCAGCTTGGGCCACAGAGCAAGACTC
CATCTCAAAAAAAAAAAAAAAAAAAAAGAAAAGAAAAAAAAAAGAAATACATTTTTGCTGCTACAAGTCACTAAGATTTTGAATTTTTTATTACTACAGC
ATAACTCGGCTTACCCTTGAGGATGTAGAAATTGGTATACAGATAGGCAATGCTTCTATAAAATAATCAATTGCTTATTATTTGGCAAGAAGAGCAMAAG
CTATAATTGAATGATTGAAGAATGAAATATGTATAATGTAGTGACAAAACCTTTGGTAAATAGTGAGCTACAATAGTGTTATAAGCAAATAATGTAGCAA
TGCAGTAATAGACAACAGAAGAAGTTAAAAAATAGAATGTTACCAACCTTTGCTTGTCATGACTGGCTACACTTCACAAGATACTACAAGGAAGAAATGA
ACATGTGAAATAATTGGCTGTCATTATAAAAAGGAATAAAAAGAAAGAAGCCAAAATTTGACAACCAGGTGTGTTGGAAAACACAACTACTTCTTGTCTC
CAATGTGTAAAATATACAACTAAGAAGGTTTTGAGCAAAAATGTCTCTTAGAACTTACTTTTCTGCATAAATAAAATAAAAAATATAGTAGCTACACTCA
TATACTCATTGCAGAAACGCCTCAGTTGTCTGAGGTGATGTCCAGTAATTCTTTCAGATGAAAGATTTATAGCTTTTCTTCTTAATACTGATAGGCCTAA
TACACCATAATTTTTTCCAAGATATGAAGAAGCATGTCTCCAAACAATAAGCCAAAATCGCAACAAAATATCCAAAAGTCTATTTGAAATTATTGGCACA
TAAAACTCGTTAAAGTTTAAAAGTAGGAAGCTAAGTATGTGTAAGTGCCAAAGAATCCATCAATATGGATTAAAATAGTTTGTGACTTTTTAGAATGTAA
AACAGCCCTTGGATCAACCTTTTGGGTATGAAGTTATTTGTAGAATTAATTTAGAGAATAGGATTATCACCTTGACACCTGAGAATATGGCTTAACGGTA
AAGGAGCTGGATGAGACTTCTGTTTGTTTCTCATAAAGAGTGGGAAAATGGGCTTTGAGTGTGGGAAGGAGTGAAAATGAGGTTTTTGATAGCCAGAAAG
GAAAACTCTAGTAGTCATGTGTGCTCTTTACATTTTTATTTCCTTCCCATTTTGAAGAAAATAATATAATTTTATTTCTGGTCCTGCTTGTGATTATGTG
GGAACATTTGAGTAGTTGTGGCCAATGTGATAAAATCACAAGTGATGCATAATACTTCCACATCAGACATTTGCTTGACAGGTCAAACCTTAGGAATAAC
ATCCTTAGTAAGGGCACTAATAATATTTGATTGAGGCTTCTCCATCAGTTTCGTTGCTGGGGCCTTATTAGGACACTGCCGCTTCCCACTCACTACTGAC
TTTCAATGGACATGCAACATAAGAAAAAAACACAATATTGTTGCTTTATGTCATTAAGACTTGAGAGTGTCTACAACTAAGGCATGACCAAGCTTTTGGT
GAATGATGCATGGAAGTGTGCTACTTTGGTAAATTTTCCATTCCAAGGGGGATCAACTCCTGAAAGTCCCAAGAAGACTATGAAAATTAAAGCCTCATGT
GGCATTGCATGTCATAAAGAAAATGAACTAGGATAACAGGATTCCTCGTGTTTTGTTCACAGATATGGTCTTGTGGCCTATTATGTCCAACTTGACAAAT
GACTTTTCTGGTATTACTAGGAAAGACAGTTTTAGGAAAGTCTAGGACTTACAGACTGGGRTAATCCAGATTGTGATAGAATAATCAGTCATATCCTAGA
CTAGTCATTGTGATTTGGGCTCTGTGTCCCCACCCAAATCTCACCTTAAGTTGTAATAATTCCCATGTGTCAAGGGTGGGACTAGGTGGAGATAATTGAA
TCATAGCGACAGTTTCCCACATGCTGTTCTCATGATAGTGAGTAAGTTCTCACAAGATCTGATGATTTTATAAGGGAACTCCTCCATCACTTGGCACTTC
TCTTTCCTGCCTCCATGTGAAGAAGGATGTGTTTGCTTTCCCTTCCACCATTATTGTAAATTTCATGAAGCCTCCCCAGCAATGTGGAACTGTGAGTCCA
TTAAAATTCTTTCCCTTTAAATTACCCAGTCTCGGGTATTTCTGCATAGCARCACGAGATCAGACTAATACAGTAAATTGGAACTAAAAGGGTGATGTGC
TTCTATAAAGATACCTGAAAATGTGGCAGTGACTTTGGAACTGGGTAACAGGTAAAGGATGGAACAGATTGGGGGCTCAGAAGAAAACAGGAAGATGTGG
GAAAGTTTGGAACTTCCTAGAGGCTTGTTGAATGGCTTTGRCCAAAATGCTGATAGTGACATGGACAATGAAGTCCAGGCTGATGTGGTCTCAGATACAG
ATGAAAAACTTATTGAGAACTAGAGCAAAGGTGACTCTTGCTATGCATTAGCAGGGAGACTGGCAGCAGTTCACCCCTGCCATGGAGGTCTGTGGGACTT
TGAACTTGAGAGAGATGATTTAGGGTATCTGGCAGAAGAAATTTCTAAGTACCAAAGAATTGAAGAGAAAGCAGAACATAAAAGTTTGGAAATTTTGCAC
CTGAGGATGCAATGGAAAAGAAAACCTCAGTTTCTGGGGATAAATTAAAGCCTGATGAAGAAATTTGCATAACGAAAGAGGAGCTAAACGTTAATCACCA
AATCAATGGGGAAAATGACTCCAGGGCATATCACAGACCTTCATAGCAGCCCCTTCCAACATAAGCCCAGAAGCCTTGGAGGGAAAAATGATTTCCTGGG
CCAGGACCAGGGCCCCCCTGCTCTGTGTAGCAGCTGGATATACTGCCCTGCATCTCAGCTGCTTCAGCTCTAGCTGTGGCTAAAAGGTGCCAAGATACAG
CTTGGGCCATTGCCTCAGAGAGTGCAAGCCCCAAGCCTTGGTGACTGGCGACTTCCACATGGTGTTGAGCCTGTGGGCACACAGAAGACAAGAATTGAGG
TTTGGGAACCTCTGCCTAAATTTCAGAAGATGTATGTAAACACCTGGATGTACGGGCAGAATTTTGCTGCCGTCATGGAGCCCTTGTGGAGAACCTCTGC
TAGTGCAGTGCAGAAGGAATATGTGGGGATGGAGCCCCTACAGATTCCCCACACTGGGGCACTGCTTGGTGGAGCTGTGAGAAGAGGGTGACCATCCTCC
AGACCCTGGCATTGTAGATCCACCTACAGCTTGAACTGTGTGCCTGGAAAATTCACAGACACTCAATGCCAGCCTGTGAAAGCAGAGGGAATGGGAGCTG
TACCCTGTGAAGTCACAGGTGTGGAGCTGCCCAAGGCCATGGAAGCCCACCTCTTGCATGAACAATGGAGTCAAAAGAGATCATTTTGGAACTTCAAGGT
TTAATGACTGCGTATTGGATATTGAACTTGCATGGGGACTGTATCCCTTTTGTTTTGACCAATTTCTCCCATTTGGAATGGGTGTATTTACCAATTGCCT
GTAACCCAGTTGTATCTAGGAAGTGACTAACTTGCTTTTGATTTTACAGGTTGACAGATGAAAAGGACTTGCCTTCTCTCAGATGAGACTTTGAACTTGA
ACTTTTAAGTTAATGCTGGAATGATTTAAGAATTCAAGGGACTGTGGGAAGGGCATGATTGTGTTTTGAAATGTGACAACATGAGACTTGAAAGGGGCCA
GGGGTGAAATGATATGGTTTGTCTGTGTGCCCACCCAAATCTCACTTTGAATTGTAATAATCCCAACATGTCAAGGGCAGGACCAGGTGGGGATAATTGA
ATCGTAYGGACAGTTTCCCCCATGATGTTCTCATGATAGTGAATGAGTTCTCACAAGATCAGATCATTTTATAAGGGACGTCCCCCTTTGCTTGGCACTT
CCTTCTATTGAAGCCATGTGAAGAAGGATGTGTTTGCTTCCCCTTCCCTTCCACCATGATTGTAAGTTTCCTGAGACCACCCCAGCCATTTGGAACTGTG
AGTCAATTAAACCTCTTTCCTTTATAAGTTACTGAGTCTCAGGTATTTCTTCATAGCAGTGTGAGAACAGACTAATACAGCAGSCTAAGATCAGAGGCCT
TCCATATCACAGGAGGAGGAATTATTTTTTTCTTCCTAAATATAATGTAAATTACAGAATATAATTATAGAACTGGCATGGGCCTGAGATAAGATTAACC
ATTTATCTAAAATTTATCAGTAAGACTAAGTAGCCTAATTTTTAATATATTTTTATAAGAAAATAAATTTAAATGACTATAAAAGTGTTCCAAAGCTACA
GGCATATATATCTACTAGAAAAGTGTCCTACTTCCCTGGTATAAACTTATGGAATTCTAGATTTAAAAAAAAATCTTTGGGAGTAGACTAGGAGGAAATC
ATAGAAGTTTGACCAAATTAAATAGCATTCTCACTCTTGGCAGCATGGTTTTTTGTTGTAGCAAAATAAGATAGAGTCTGATGGATAAGGTAGCATTTTG
CAGTTTCATCCTTTACTCTGGTTAAGGAATAAAATGACAAGAAAGTTTCAATAGCATTGTAACAGGAAAGATAGGATCCTAGATTATTTTGAAAACTTTG
AGAGAGCAAAAAGTCAGACAGCCTTTTCTCACATTTTTGCTTGAGGAAACATCATATCTTATTAGGCCACTGTCCATAATGTGGAACCAGTTTTGGCTAA
TGATCCTCACTACCATCGTGGCCATTATTACTTTACCAATGCTGATAAAGAAAATGAACAGCATGTTCTCTTAACCTGAATATATTTTAGCCTCTTTTCA
TTAGTAGTTTGTATAAGCTCCTACATGATTTAAATAGCATCAACAGTATGATTCTGTGCATTCATTTGCCATGAATTTGACATGTTTTAAAAATATTGTA
GATTTGAGATCAATTTGCAGGACACTAGAATAAAACTCTTAGCTAACCTGATATTCTTCTACACAAACAGATCATATTTTTCCAAGTTGGGGAACTATGG
AAGGGTTGAGACGTTTTTCTGTGTAGTGTCTGGTGGACGGCTCAGATGATGGCAGTTAATGAAGAGGTGTTTCCTGCAAGAAAGGTACTAACTTCTCTAC
AGTGCCAAGTTTCAGTGTGCTATGTTTTCTTAAATAAATAAATGAATAGAAACATCTTTCCAATTTATAGAATGGTAAAATTCAAAACAGAAATTATAAA
GGCACACTCTTTGTGGGTATTCAGAATTGATAGTCATTCAGGTGGTGGACACAGAGTCCTGGCAAAAGAAAATAATTTAAAACTCTAAAGACCAAATGGT
GCACATGTGAAACAAGCTTAAACAACAAAATGAAAAGTAAAAACATTCACTAGCAAAACAGTCTCAAGATTCAAGATTCCTTTTTAGAGAAACAGAATGT
TTGGTTTAGCCTTGAAATTATTTGTCTTTTAACRAGAAGATGAAATATAACCTTTGATTTCCAAATCTCCCAACTATCTAGACTGAAAGTTAATTTGTTG
CACTATCTGAGCAAATTTCTCTGAAATGTATTCCACTTCATAAAATAACATTGTTAGAATTCTTAAAGTTAAAAATAGACATGCACAGTGTTTACAGATT
ATATATCATGTGTATTTATTATACAGCTGTACACATCAGAGACACTAATAAAATGCTAACTGATAATCATTTGGGATACCCAATTTTTATACCTAATTTC
TACAGGAAATTAATTCTTTACAAATATGTGATGAATTTAATATACAGGATAAAAATACCTCGCTTTTTGTAGGCAAAGATTATGTTTCAGTATAATGAAA
TATACTGAATATACTGAAATTATACATACATATATCGGGCTGATAGAGTTTGAAGCATGTTGAATTTAAATATACTGAATATTCTGAATAAATATTTATA
TGTATTTACATGTATATATCAGTATACTAAGTATATTTATATGTTTATATTATAAATATTCAGTTATATATATATACATAAATCAGGTTAATACAAAGTA
TATTGAATTGAAATATGCTGATTGAAATATACTGAATATACTGAAACATATAAATTAATGTGTTTTTGTGTGTGCGCGTGTGTGTGTGGCTAATGAAGTT
CATATCTGTTCAGGGCAGAAGCCTGTCAAATATAGATACTAGGCTCTTTCCATCTGAATCAAAATTTGCTAGAATGTTCATTCAGTAATTCAGTAACACT
CTCATCTTTATAAATCAACTCTATTTTAATTTCATTTTGAGGTATTCTCAGAATAAATAGTATAACGTATTTTTAAATATACTATTTATATATTAGGGAG
ATCAGAATATATATTGGGAAGTCTGAGAATGGACTTTTTGACAAAGTAATGTGGAGTGTACCAGAAAAAGTCTATCATACGTCAYGCACTTATGGTGAAA
TGGACATTGAAAGATACACCCGAAGAATAGTTAGTGAATGGAGAGCAGCCCAAGATGAGTCTAGAGATAGGGAGGCAGCAGGTCATATAGAATATTGACA
AAAACAAAACAAGCACACACACATAATTACTTATATGAATAAATATAATGCAAATAAGCATATGCATGCATGTATATTAATTATAGGTAAAACCCTACAC
TTCTTCCAATGTTGACATTAGTTAAATGTCAACATTGGAAAAAAAAAAAGGTCTGTTTTTAGAAATAAAATAAATCATGACCATTGATATGATTTGGCTG
TGTTCTCACCCAAATCTCATCTTGAATTATAGTTCCCATAAACCCCACATGTCGTGGGAGGGACCAGGTGGGAGGTAATTTAATCATGGGGGTGGTTACC
CACATACTGTTCTCATAATAGTGAATTAGTTCTCACAATATCCGATGATTTCATAAGGGGCTTTCTCTACTTTTACTTGGCACTTCTTCCTGAAGTGAAG
AAGGACATGTTTGCTTCCCCTTTTGCCATAATTGTAAGTTTCCTGAGGCCGCCCCAGCCATGCTGAACTGTGAGTCAATTATACCTCTTTCCTTTATAAA
TCACCCATTCTTGGGTATGTCTTTACTAGCAGGGTGAGAACAGACTAATACAGTAAATTTTTACCACAGGCTGTAAAGATACCTGAAAATGTGGACGTCA
GGTTGGAACTGGGTAACGGGCAGAGATTGGAACCACTTGGAAAGCTTAGAAGAAGACAGGAAAATGTGGGAACGTTTGGAACTTCCTAGAGACTTGGAGT
ACTCAGAAGACAAGAAGATGTGGGAAAGTTTGGAACTTCCTACAGAATTGGAGGGCTCAGAACACAGGAAGATGGAGAAATTTGGAACTTCCTAGAGACT
TGGAGGGCTCAGAGGACAGGATCATGGGGAAATTTGGAACTTCCTAGGGACTTGAAGGGCTCAGAAGAGAGGAACATGGGGAAATTTTGAACTTTAGCCT
AGAGACTTGGAGGGCTTAGAAGACAGGAACATGGGGAAATTTGGAACTTCCTAGGGGCTTGGAGGGTTCAGAGGATAGGAAGATGTGGGAAAGTTTGGAA
CTTCCTAGAGTCTTGGTAAATGACTTTGAGCACAATGCTGATAGTGATATGGATGGCAAAGTCCAGGCTGAGGGGGCCTCAGATGGAGATGAGGAACTTT
ATGGGAATTAGAGTAAAGGTCACTCTTGCTATTCAAAGAGACTGACAACGTTTTTTCACTGCCCTAGAGAGATGTGAAACTTTGAACTTCAGAGAGATGA
TTTAGGGTATCTGGTGGAAGAAACTTCAAAGTGGCAAAGTGATCAAGAGAAAGCAGAGCATAATAGTTTGGAAAAATTGCAGCCTGATAATGTGATAGAA
AATAAAACCCCATTTTCTGGGGATAAATTCAAGCCTGATTAAGAAATTTAGTAACAAGGGGCCAAATGTTAATCACCAAGGCAATAGGGAAAATATCTCC
AGGGCATGTCAGAGACCTTCACAGAAGCTCCATCTCTCACACGTCTGGAGACCTAGAAGAAAAAAAATGATTCCCTGAGCACACTCAGTGTTCCCTTGCT
CTGTGCAGCCCTGGGACATGGTGCCCTGAGTCCCAGCTGGTCTAGCCCTGGCCATGGCTAAAGAAGGATAATGTACAGCTCAGGCCATTGCTTCAGATTG
GTGCAAGCCCCAAGTCTTGGTGGCATACACGTGGTGTTGAGCCTGTTGGTGAGAAGAAATCAACAATTAAGGCTTAGAAATCTCTGCCTAATTTCAGAGG
ATGTATGGAAAYGCCTGGATATCCAGGCAGAAGTTTGCTGCAGGGGCGGAGCCCTCAGGGAAAAACCTCTGCTAGGACAGTGCAGAAGGGAAATGTGGAG
ACGGAGCCATCACACAGAGTCTCCCATGCGGCCTGCCTGGGGGAGCTGTGAGAAGAGGGTCACTGTCCTCCAGACTCCAGAATGGTAGATCCATGAACAG
CTTGTGCCGTGCTCCTGGAAAAGCCACAGACACTCAACATCAGTCCATGAAAGCAGCCAGGAGGGGAGCTGTACCCTGCAAAGCCACAGTGGAAGAGCTG
CCCAGGGCCATGCAAATCACCTCTTGCATCAGTGCACCTTGCAAGAGATACATGAAAAGTCATAATTTTGGAACATTAAGCTTTAATGACTGTGGATTTT
GGACTTGCATAGAGCCTGTAGCTCCTTTGTTTTGGCCAATTTATCTCCTCTGGAATGAGTGTTTTTACCCAATGCCTGTACCTCCATTGTATCTAGGAAG
TAACTAGTATGCTTTTGACTTTACAGGGTCATAGACGAAAGGGACTTGCCCTTGCTCAGATGAGACTTTCGATTTGGACTTTTGACTTAACGCTAGAATG
AAATAATATTTTAGAGGACTATTAAAAGGGCATGATTACTGTTTTGAATTATGAGAACATGAGATTTTGGAGCCTTAGGGTTTTCTAAGTGTAGAATCAT
ATTGTCAGAAAACAGAGGTAGTTTGAGTTCATCTTTTTTTATTTGGATGCCTTTTATTTTTTCTCTTGTATGATTATTCTAGCTAGGACTTCCAGTACTA
TGTTAAAATAGGAGTTTTTACTCCTTACCTGATTCAGTTCTCAGGGGAAATTGTTTCAACTTTTGTCCGTTCAGTATGATGTTGGCTATAAGTTTGTCAT
AGATGGCTGTAATTATTCTGAAGTAATTTCCTTCAATGCTTGGTCTGTTGATGGTGTTTATCATGAAGAGATGCTAGATTTTTATCAAAAGTTTTTCTGC
ATCCATTGAGATGATGGTATGTTTTTGGTTTCTAATTTTGTTTTGGGGTGAATTTTGTTTTTGGGGTTTTGGTTATTCACCTCGTAACTATGTTGAGTCA
ACCTTATATTTTAGGAATAAAGTTTACTTGATCATGTGGAAATAACTTTTTGATGTGCTGCTGTATTCTAATTGCGTATATTTTGTTGGGGATTTTTGGG
TCTATGTTTATTCAGGATATTGACCTGATGTTTTCTTTCTTCATTGTATCTTTGCCAGATCTTGGTGTTAGGCTCATGTTGGCTTCAAAGAATGATATGG
GAAGAAGATACTATTCCATGATTTTTTTGGAATATTTTCAGTAGTATTCACACCAGTTATTCTTTCTATGTATGGTAGAATTTATCCATGTATCTGTCTG
GCCCAGGGTTTTTTTTTTTTCCTTTTGTGGGGGAGGGTTGGTAGGGTTTTTGTTTTGTTTCTGCTACTGATTCAATTTCAGAGTTTTTGTCTATTCAGGT
TTTYGGCATCTTCTTGATTCAATCTTGAGGAACTGTGTGTTGCCAGAAATGTATCCCTTTCCTCTAGATTTTCTAATTTGTGTGCATAGAGTTGTTCATA
GTATTCTCTGGGGATTTTTTATATTTCTATAGCATCAGTTGTAGTGTCTTCTTTGTCGTTTCTGATTGCACTTATTTCAACATATGCTTTTTACCTACGT
TAACCTAGCTAGTTGTCTATCAATGTGATTTATTTTTTCAAAGAACAAATTCTTAATTTTATCAAACTTTTGTAGAGATTTTTATATTTTAATTTAATCA
AATTCTTCTCTGATTTGTTTCTTTTCTTCTGCTAGTTAGGGTGTCGGTTTGTTCATTCTTTTTTTCTAGTTTTTTTAGGTGCAAAGTTAGATTATCAGTT
TAGATCTTTCTAACTTCTTGATGAAGGTCTTTTAAGGCTATAAACTTTCCTCTTAACACTGCTTTGTTTGCATCCCAAAGATTTTGGTAATTTCTGTCCC
TAATTTTATTAGTTTAAAATTGTTTATTAATCCTTTATTTCAATGTTCACTCAGGAGTTATTGAAGAGAAAGTTGTTTAATTTCCATGTATGTGTGTACT
TTTGAGAGATGTTCTTGATATTGGCTTTCATTTTTATTGCACTGTGGTCCAAGAGTCTACTTGGTATAACTTCATTTTTTAAAAATTTATTGAGATTTGT
ATTAGGACCTAGAATGTGATAAACCTTAAAATGTGTTCTATGTGCAGATAAAAAGTAGGTCCAATTGGTCAGGTGTCAAAATTAAGTCCAGAGTGTCCTT
GTTAGTTTAGTGCATTGATGATATAATTACCAATGTTATTTTTCACAGAATTGGAAAAACCTTTTATAAAATACATATGAAATCAAAATAGAGCCTGAAA
ATCCAAAGTGATCCCAACCAAAAAGAAAGCTGAAGGCCTCACATCACCTAATTTAAAACTATACTACAAGGCTACAATAAGTAAAACAGCAAGGTATTGG
TTTTGGTTAAACACACACACACATACAACACCCCAGAAAACCACACACATTGACAAGTGGGACAGAATAGAAAACTCAGAAATAAAGCTGCACACCTACA
ACCACCTGATTTTCGTCAATTTTGACAAAGACAAGCAATAGAAAAAGAACTCTCTGTTCAATAAATGATGCTGGAATAACTACATAGCTACATGCTGAAG
AATGAAACTAGACATTTTACCATATAAAAAAACTAACTCAAAATGGAGGAAAGCTTTAAATACAAAACCTCAAACTATAAAAATTGTAGAAGAAAACTTA
GGAAATGCCCTTAACAACATCAACCTTGGCAAATAATTTATGGCCAAATTTTCAAAAGCAATTGTAACAAAAACAAAAATTGGCAAGTGGGACCTGATTA
AATTAAAGAGCTTCTGCATGGCAAATGAAACTATCAACAGGGTAAATAGACAACCTTCAGAAATGAAGAAAATATTCACAATCTATGCAACTGACAAAAT
CCKAATACTCAGAATCTATAAGGTACTTAAACTAATCAGTTAGCAAAAACCACATAGCCCCATAAAGAATGGTAAAAGACATCAACAGACACTCCTTATA
AGAGGATATAAAAGCAGCCAACAAACATATGAAAAAATGTTCATCATCAGAGAAATGCAAATCAAAACCGCAATGAGAAACCATCTCACACCAGATAGAA
TGGCTATTATTAAAAATCAAAAACAACAGACGCTTCTGAGGCTGTGGACAAAAGGGTGTACTTATACACTATTGGCAGGAATGTAAATTAGTTTAGCCAC
TGTAGAAAGCAGTTTGGGGTTTTCTCAAAAAAGAAAAAAAACTTAAAACACAGCTATCATTTGACCCAGTAATGTCACACTATTGGGTATATACTCAAAG
AACTATAAATCATATAAATCATTATACCAAAAACACACATGCACTTGTATGTTAATTGCCACACTATTCACAATAGCAAAGATATGGAACCAACCTAGGT
GCACATAAATAGTGGGTTGGATAAATAAAATGTAGTTCATATGAACCATGAAATACTATGCAGCCAAAAAGAATGAAATAATGTTCTTTGCAGCATTGTA
GGTGGAGTCRGAAATAATAATCCTAAGCGAATTAATGCAGAAACAAAAAGCCAAGTGCTACATATTCTCAGTTATAAGTGGGAGCTATACGTTGAACACA
CATGAACATATACCTGGGAACAATAGACACTGAAGACTACTAGTGGGGAAGGAAGGAGAGTATATGTTGAAATATTACCTATTGGGTACTCTAGGCTCAC
GACTTGGGTCCAATATACTCATGTAATAATCCTACACATGTACTCCCTCTATTTAAAATAACAGCTGAAATTAAAAAAAAAATAAAGTTCTAGGTTCCCT
TCAGTGCATCTACCTGTGTTTCCAATGAGACTGGGGAGCTGTGGACTTGTTTCTCTTCAGAAATGCTGGTCTGTGAAGATGTAGTTATCTTAAACTAGTG
GGGGAAACAAAACTCATATTGAAGTTCCCACTTAGATGTCTCTGTTCCTCTAGGTTAAGTAGGGCTATGTGTGTGCACACACATTAGTGTCTACACAGAC
ATGAATTTGAGGATAAAGTCCTCTGCCTCTACTTATTTGATGTAGATCTCATTTCTTTGCACTTTATGAAGTATCACAGACAGAAGAAAAGTGAAGGTGG
AGATATCCTGCATGTGAGAGTTCAATTTCTCATCTTGACATTAAAACAAAAAACCTATGTTTTTCAAATACAAATGTGAAGTACCTTATGTTATAATAAG
CCAATTTCTTTTCTACAGTGGAATACAATAGCCCCATGTTCAGTTTTCTGGTTTAAAATATGCTCAAGCAAAAATTTACTGTAAGCATCAATCTGAAATG
AGATTTAAAAGAAGTCCCTCTAACCAGCCTTCTCAAATACACTCATAGTCAGTGGAGACATCTATGTCTCATTTCTCTGAAGTGCAAATTTAAAAGTATA
TGGTGGTTAAGTCTATATTCATTTGAAATCAGCATTTTCTCAATCACTCTTATTGTTTATTTCTATTTTTGGTGCATTATTATTTATTCATCCTATGAAT
AATATTGATATCTAACATGTGCTACAAATGCTTAATGATGTCTCCATATTGAGTTATGTTTATTCATATCTTCTGCATAGTCCCTCTGGGTTGGAAATCT
TCTGGTTAGCTGAGATATTTTGATCTTGATTTTATGTCTCTTTTTTTATCATTTATTYTAAGTTCAGGGGTACATGTGCAGGTTTGTTATATAGGTAAAT
GTTTGTCTTGGGCATTTGTTGTACAAATTATTTCATCACTCAGGTATTAAGCCCAGTACCCATTAGTTATTTTTTCTGATCCTCCCCCTCCTCCCACCGT
GTACCCTCCAAAAGGCCCTAGTGTGTGTTATCTCCCTCTATGTGTCCCTGTGTTCTCCTCATTTAGCTCCCATTTATTTTCTCAATAATATTTGAATCTC
CACAATTAATTATAAGCTATTATTTGTTTACTTTGTTTTGCTTTTTGCATATACCAGATGTCTGATGGATATTTTCTAAATATTTCCAAATGTAACTCAT
TTATACAATTTTTCACATATAGTTTATTCATGTTCTTAGCTAGTTTTCATTCTGAGGGTTATTCTTTATGTGTATTTTGGGGGAATATTGTGTGCTATGT
AGGCCTCACAGCATTATTTTAGATCTATGTAAAATAATAAATCAAAATAAATAATATATTATGTCTTAGTCACAATTTCTCTTCTCTCTTGAATGAATAG
TTCCTTTGACAAAAATAAAAAAACATGAAAAGATAGAGAAGTAGTGAAGGGAAGTGAAATAATCAGTGAGTTCTATATGTAGAAGTTGTCTTGATAAGGT
TTTAAAGACTGAAAATCAGGTATACCAAAATGATAAAGAATTATACTGTGCATGGCTTCATCAAATTCTTCACATGACATAAAGAGTATTATATTTTTAT
GACCAGAAATGTGTCAGAAAGTGCATCTAATGCTAGAGAAAAAGTCAACTGGCACTTCATCAGGCCAATTGATGAATACAGTTGCTTCTATAAGTGAATT
ATGGTTGTAAGAGGTATAAAATTTTCTAAAAAAAATCTTTCCAGTGAATTAGAAAGCTCTTCAAAGTGTCTATTATTTGACCTGGGTCTCAAAATACAAA
GAAGTATTCATTAACATCAGTAAAGGAATTGACCTGTCTAGAGTAATATTAGCCAACCTTCACTGAGCACTTACCATGTGCTACACACCATTCTAAGAAC
TTTATTTATAAAAACTTACTTGCTTCTCAAGACACTATAAAGTATGGAATTGTATTATCTGAATATTTCCTGAATAACAAAATGTTGAATTAACTTGCCT
TAACTAGAATGTGGTAAAGTACAAAATCAAAAAGTGCATTATGTCATTGTGGAACGGTAAGCACCTTGGAATGGTTAAGGTACACAGAAATACAGATTAT
AACATTTTTGATGTTGGAACTGTATATTATATTTTACACAGAGCCTACCACTGCACATTGAACATAGCAGATGCTTAATAAACTTAAATTAAGCTGAAAT
TAATAATTATATTTATTCCTATTTATTAAGAATTATATTTTAATAGTACTTTTAACAGGAAGGCAAAAAGAACAGAAAAGTATTTTAAATGGCAGTAGAT
ACAATATCAGTAAATTCTTAAGATAGGCAGCATTATTCATCAAAATGTTAAGCTATAAGCTCAGCAGTCTACATGGCTGCCATAATAATTATAAATCCAG
CTCTGTGACTTACTACATGTGTGGCTTTGCAGAAGTTTCTTTATTTTCACTCTTCTTCAGCTCTCTTATCTCTAAAATAGAACAGTAATTATACTTAACT
CAGGGGTTTGGTGAGAATTAATTAATTAGCATGCATACAGTGTTTGTAGCAATGCATAGAACATTCAAAATGCTCAATAAATGTTAGTTATGAAGACAAT
GATGGATATGACGGTTCTGAAGATATGATGAAAACATTAAAACATAAACATTGATTTTTACCTTTATACACTACAGCTAAATAACTTTCTGTGACACATT
TCAGTCTGAAATCAGAAATTCTAGTTTCATAGTTGCACTTTCCTTTTACTATTCACCAGTATTAATCTCATTTCATTTCAGATATATTTCTTTGTCTATC
ATTATTTTTGTAATAATCACACACTACATGTGTCTAGTCTCCACTTAAAATTCAAGCTCATGAAAGCTGGGGGCTATGCCTTATATTCCTATTGCAACCA
CAACTGCAAACATGTCTAATAGGTGCTTAATAATAAACAATCAAGAAATAGGAATAACCCCAGCATTTGTCTGACTGCTTAATCATTTCAGATCATCTCA
GGTGATGAAATAGGATGCAAATAAATGAACTTAGTGATTTAAACAGTATGACTTTACATAAGCATCCAGAGAAAAACTTGTTTGAATTTGATATATCCTG
AAAAATCAGGCCAACTGATACTTATTTCAAAATAGCACAAAATTTAAGCCCTCAGTGAACAGCATTAAAGAAATGTTCATTTTGATTTTGCACAGGAAAG
AAAGGGCATAACTTAGAAACAAAATCTGGAGTTGAGGTTAATCGTGACTTGAGAGGAGATAGCTGTTTCATAAGTAAATGCCTATTTCCTTCTAATTCAT
TTTATCTATTCTGGATGTCGATGTGGAAGCTGTGAGTTTTAAGTCAGGTCAAAAAAAGAAGAAGAAAGAAAAAAAGATATTTCTTAAAAGAAAGAATMTA
GGCCACATTTGGCTTCAAAAGGCTTCTTTGCTCATCTATTTGATTGTTGTCCTAAATTTAAAAAGTCAAATTTCAAATAAAATAGTTTTTCTCTGTGTCA
GTTTTTGGACTACAAATGAGAACACAAAATAATGATGTTTTTGGACTTATGTTTTTAAATTTCTAGCATATCTCTAGTGTTTATTGCACACAAACAAAGC
TTAAAACCATATATCCAACTGTGGTTCAACATTTTTGACTTAGAAACACTGAATTTATAATGTATTTATTCAACAAACATTTATTGAATCTTTATTAAAA
TTTTCCACTCTACATAAACTTGAGAGTGGAGCTAAAATCTATTTCATCTTATTAAATCTATAATACCTTAGTGTAGCAGAAAGGGATTCTAATCATATAT
GTGCTGAATAAATCAATAAATTAATTAAATATGCCATATAGTATTTTCATTGCTGTTAGGAAAGAATTGAAGTCTTTACACATAAAATACGTTGTAGAAG
ATAAGTGAAAAAGTCTTACATCTACTTAGCACTATTTACTTGAGCAAAACTTCTACTAATTATGTACAAAAAGTCAAAGATATTTTAGAGTAAAAAACAG
AAAATAAAACGGACGCTGCCCTCTAAGAGTGTACAATTTTCTCAAAGAGATAAAAGAGATTAAAATTGTATTTTACATAACAATATAAGAAAGATGATAA
AAATTCATGCAATAATAAATGCACAACAAATAAAATATTTATGAATAAAAGATTTTTTAYAGGCTTCAGAACCATATGAAAGCATCATGTCAACAAAAAG
CTCTTGTTTTGACATTTCTGTGTAATGTAACAAAATCTCAATGAAACTGGAGCAAGAAATTAACTAGCCTGATTAATATTAAGGAAAAGCCAAGAGTTAA
TCAGGATTTAGGCACAGATGAATCTAAAGACTTAAATTTCATTGTCAATCCCTGTCTCTGGATTGATTAGACAGATTTTGCTACAAGTTAGGAAGTTGGC
TGTAACATACTCACACACACACACACACACACCCCTTTCTTTCCAAGCATACATAAACAAGAACATACATACCTAATTTATATTTAGCATATTAGGTAAT
AGTGGAATTGCTTGGCTTCATATTCCATGTATATTATTTTCCTAGCTATGAGACCCTCGCCAGGTTTGTGTGTTTTTTTTTTTTTGTTTTGTTTTTGTTT
TGTTTTGTTTGTTTTGTTTTGAGATGGGTTCTCACTCTGCTGCTCAGGCTAGAGCGCAATGGTGTGATCACAGCTCACTGCAACCTCCGCCTCGCGGGTT
CCAGCAATTCTCCTGCCTCAGTCTCCCAAGTAGCTGAGATTACAGGCATCTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCA
CCATGTTAGCCAGGCTGGTCTCGAACTCATGACCTCAGGTGATCCACCCGCCTCAGTCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTGG
TCTTATTTTTATTTTTATTTTTTAAATCCTATCTGAGGCTTTGATTTCTACCTCAGAATCCTCTGAAGGATTAAATAAGATGATTCAACTTGAAAGGCTG
CTATCAGGCTTGACAAATAGTAGGTATTCAGTATAATTGTTGCTATTAATATAATTATTATTATGATAATTTTACATGCAATAAAAATGCCCTCTCCAAT
GCCCAAATATAGGCAACTGTTTCATCTTCTGCAGAATCCTAAGTTGATGTCATGGGGCAGTGGTTCTCTGAATCTAGGATGCTCAATATGATTTCTCGAA
ATCAGGTATGTTTGTAATTTATCATGGTCCAGAAATTCTGAGCTAAACAATAAATTTAACCACATGTAACACCTCCAACATACGATCATAGTGAAAGGCC
AGCAAAAACAGCAACAAACAAAAGGGCAGGATAATTATAGTATCAAATGTAACTTGACAGTGAATAAAGAGACACAGAACACAATGTTTGGGGTTCTGTA
GTGCATCCCATGTCTACCTGATGTGGGGAATTGACTACTCCCAGACTTGGCAATGGTGTGCACTCTGGATTCCATATATGGTTGCCTCTTTTTCTATTCT
CTGAAACAACCTATTTTGCACAATTTATCAATAGCCATACCTGAAGAGAGGAGAAACGGGACCTATAACTCATTAGCAGGGCTTGTCTTTTTAAGAACCG
GGGATTTCTGTAGGAGCAAGCTATATATTAGGCATAGGTTGTCAGGCTGAAAAAAAATCTGGAAGTATAACTCCCTTAAAACTCAGAAACATGCCTTTCA
TTTTAATTACTAGATACTATGGAAACAACAAATACAAATGTCGCCACTTCGTAATTGGCCATGTTCTGAAATCTACTTTTTCTGATAGTAATATAGCCAC
TTCAGCCTTTTAAAAATTAAATGTTTTTAAGTTATATTTTTACATATTTTAACTTTAACCTTCTTTTATAATTAACGTGAACTTATTTTAGACAGCACAT
AGTTGTGTCTTCATTTTTATAATTCATCCCTCCAAAATTTGTCATATCCCTCTCTACTGCCTCTCTCCACCCATTCTGATCACTGGCAAGCACTGATAAG
CTTTCAGTTGCTTTAAATTAGTTYGTGTTTTCTGTAATTTCATATAAATAGAATCATACAATATGTACTCTATCTGACGTCTTCAACTTAGCATAATTAT
TTTGAGATTTACCCACTTTGTTGCCTACTTGAATAGTTCATTCCTTTTTATTGCTGGGTATCCCATTGTATGCATATGCCACAATTTATGTATCCATTYG
CTTCTTAACATACATTTGGGTTGCTTTCAGGTTTTGGCTATTACAAATAAAGTTGCTATGAACATTCACATACAAGTCTTTGGATGGACATCTGCTTTAT
CTTCTCTCTGGAAAACATTAAAGAGTGGAAAAATTGAATAATAGAGTTGGAATGTGTTTAACTTTTTAAAAACGGTCAACATGTTTACTATTCCACCACA
GCAGTGTAATGAGACTTTCAGTTGGTCCACATCCTCAGCAGTGCTTGCCATTTTTAGTGTTTCTACTTTTAGAGTTTCTTATAGGTTTGCAGTAATATTT
TGTTTTGGTGTTATAGTTTGCATATCCCTCACAGCTAATAATGTGGAGCATATTTTAGTGTTCTTATGTGCCATCCATTTATCTTCTTTAAAATTGTTCT
CCGTTTAATTTTGTTTTCCATTTGCATATCTTCTTGTTAATTTTGTACTATTTGTTACTAGGGTAGTGGCTATAATTAACAAGTAAAGCCAACTGGCAGT
GGAGTTTTCTCTGTTGGAACATTTTGAACAATGAATTTAATTTTTGAATACATGTATAAGCATAAGACTATCCAAGTAATTTCTTTTTCGGTGAACTTTG
CAGTGGGTATCTTTCCAGGAATTTTACTTATTGTGTCTAAGGTGGTGAGTATATTTACATAAAGTACTTTTTGTTTATATAGCATTCTACATATTTTTAA
GATATAGTAAGGTAAGTAAGTAATTTATGTTTTTACTCTTTATTCATGATGACTCTGGCTAAAGACATCAATTTTACTAATCTCAACGATATAGCTTTTA
TTTTTACTAATTTTCTCTATTTTATATATTTTAATTCATTAATTTTAACTCTAATCTGTTTTATTTCTTTCTTAGTTTGGATTAATTTGTTAAATTTTTT
TAATATTTAAAGGTCAAAGCTGAGATTATTTGTTTCTTCTCTTCTATTTATTTTTACTGTAAAATGACAAATTATAGTTGTATATAGTTATGGGAAAAAG
TGATGTTATGATTTATGAATACAATAAAGAATAATTATGCTGTTAATATATCATCACCTCAAATACTTATAACTGTTTATAGTAAGAACATTTGAAATTT
ACTCTCAACAATTTTGAAATAGACAATTACAACTCTGTGCAAGATCTCAAAATAAATTTATTCTTCCTATTGAACTGAAGCTTTGTAATCTGTAACCGTT
ATCTTCTCATTTCCTCCAGCCTCCAGCCTCTGCTTCCTATCTATGAGGTTGATTGTTTTAGATTCTACACACAAATGAGAACATGTAACATCTGTCTTTC
TGAGGATGGCTTATTTCACTTAGCATAGTGTTCTCCAATTCTAAACATGTTCCAAATGACAATTTTTTTCTTTTTCATGGCTAAATAATATCCCATTGTG
TATAAGGACCACATTTTATTTATCCATTTATCTGTTGATAGACACTTCAATCATTTACTTAAAGGAATACTCAACATTTGCATCAAATGTATAAAAGTGC
TGCAAAAAAACATGGGGGTACAGACATTTCTAATACATGTGTTTGTGTTATTTATTTAACTTTAAACACTGCTTAAGCCGCACCTCTCAAATTTGATAAG
TTGTATATTTTTACTCAATTAAAATACTTTTGATTTTTAAGATTTTCTTTGACCCACAGTTATTCAGAATTGTGTTTTTTGTTTGTAAATACATGAGAAT
ATTTCAGAAATACTCCAAGTATTTATTTGAAATTTAATTTCAGTTTTGTCAGAGTATATATTTTATGATTTGCAATTTTAAAAATTGAGACTTTTTTGCT
TTACCTTATATATTGGGATGTATGTTTGTATATATGTGTGTATTTAAATTTTTACACATTAAAATTTGCCATGTTGACTTTTTTAAAGGTGCAATTCAGT
AGGGCTAAGAACATTCACACTGATGTGCAACCAATGATAAGATGTTTCTCAGTTTGCAGAACTGAAGCTCTAAACCAATTAAACAATTAAACAATTCCTC
ATTCACACCCATCTCCCAACTACTATTCTACTTTCTGTCTCTATGAATTTGACTACTCCGGATATCTCATATAAGTTAAGTCATATAATAGTTGTCATTT
TATGACTGGCTTATTTCAGTTAGTATAATGTCCTCAAGTTTTATCCATGTTGTAGCTGTAGCATGGGTCAGCATTTCCTTTCTTTTGAAGTATGAATAAT
ATTCCATTGCATGTATATACCATAATTTGTGTGTCTATTCATTAATCAGTGTATACTTGCATTACTTCCAAATTTGGCTACTACGAATCATGCTACTATC
AACTGTGAGATGTGTCTACATCTACATCTATCTATCTTTGTGTGTGTGTGTGTGTGTGTGTATTACTATGCAGTATTAGAGACAAAAAAATATGACTTTC
TCTTCTGATCTTGCTTGCTCAACCTAACATTTACTTTATTATAATATATAATTTTAACTTTGACTTTTTCTAAGACTACCTTGGCCTAACCTACCAGTTT
GTTCTTTTACTAAACAATGTTCTTCTCATCTTTGGAGCACCTTTATCAATGAGATGACAAACTTCAAGGAAATTAAACTCAGGTATTGCTTTTTACCGGC
TTTTCTTGGAAGGCAATTAGCAAGGATTTTGATTGAGGGGCTTGATTACTGTCTCAAAAGAATAATACCACTAGGTTACTTACTAAGTGCTTTAGAAGAT
ATCTCAAAGAAGCATGCTTCTTTCCATATTTTTTGCCTCTCTACTCTTCAATTGATTAAAAAAATTGAATTTAGCTATATAAACACCATGATAATTACAT
TCATTTATGCAAGCTGCTTAGCATTGTGCCTAATTATCATAAGGCACAATAAGGATTAGTCACATTATTAAATATGCTAGATAATTTTGCTATATATTTT
ATTTGATTGAAACCCTAGATCCTACATGTGTGTGTTCAGATACCCTATTACTTTTTTCAGGAAACACTATCAAATCACAACTCAGAAAAAAAGAAAGTTC
ATAGTTTCCTTCTGTTTGTCTTTTTCTGGTTTCCTGTCACTCTGAAGTTAATGGATACCATGACCTTTTATTTATATAGATGGCCCTAGCATGCTGAGGG
TATGTGTGGGTGAAAGGTCCTCCATAATGATACTCTTTGGACTTTTCTTATCCACTCTTTTTCTAGGCTGTGGAGTTTCTCAGGACCACAGCATAGGCCA
TCTTCTCTTCATTCAGGGAGAGATTAGAGGGCTTTCATCTTTACACATGATTTTATGTTCCATCTATACAATAAAGATTCTAAATTTATATCTCCTGTCC
AGACTGCTTGTATTAGAGCTCACTAGAGGAACAGAACCAATAGGGTATTTATAGATATATAAGAGGGGATTTATTATAGGAATTGGCTCAGGCAATCAGA
CAAGCCGAGAAGTCCCATGAAATTCTATCTTCCAGTTGGAGAACAGGGAAGGCTGGTGATGTAATTCAGTTCAAGGCCCAGGAGATGCAGTGRTGTAACT
CTCAGTCTGAGGCCAAAGGTGGGAGAACCAGGGAGCCTGCTGATGTAATTTCTGGAGTCTGAATGCCTAAAAACCTGAAAATCTGATTTCTAAGGGCAGT
ATATGAACGAGCCAGCTCCCAGAGAGTGAATTCACATTTCCCCCACTTTTTTGTTCTATCATGGCCATTAGTGGATTAAATGATACCTGCCCACTCTGGT
AAGGAATGATCTTCTTTACTCAGCTTATAAATACAAATGTTCGTTTCTTTCAGAAAGTCCCTTACAGAAACACTTAGATACAATGTTTTACAAGCTATCT
GGGTATCCCTTAACACAGTTAAGTTCACACATCAAATTAACCATCAAACTACTTCTCTTTCCTTCTATTTCTTGACTGTGATGAATCAACATCTCTATTT
TGAAGACAAGCAGTCATTTACAAATTAATGTGTTCAAATCTGAACTTGTAATATTCCACATGTATCCCTCAACCCATAGTTGTCATTATCTCATTAAGGG
GTACTTCATATTTCACTCACTATACAGGTATTAATTTAGTGCCTTTTATGTGAAAGACATTGTGTTATGCACTAAATGATAGCTGTAAGCAAAACAAAAC
TCTGCCTTTATGGGACTTAACATCCCCATATACCTGATGCACAATTCATACAGTTGGGACACCTCTTTCCCATTAGCCCTCTACATCTTACCTCCAATAT
AAATAGCAAATTAGTCTACTTATCTTGTTCTTCACTACTACTATATAGTGCTTCTTCACTACTACTATATATAGTTATTGATGATGCCACCTCAAATTTA
TTAAAGTCTCTCACTTTACTTGTAACACGTTCCCTACCCTAGCCTTTATGGTTCTGTAAATTTTATCCCTATGAGAAAAAGAAAATAGAAAAGAAGAAAG
AAAGGATMCAATGAAAGATCTTATCTTTTTCCTCTTTCTATGATAACCTACATAATTTTCTAATCATGATTTTTTCCTAATATTTTCTTGCTATCATGAA
ATGTTAATTTGTGGACTCCTCCTACTGTTTATTATTATTTTTTTAAAAAATGAAGTATTATATTTAGGGTCTAGACTAAACTCCCCTAACAAGTATACTC
CAAATAACTGAGTTTAATAAGATAGAAATTTGTCTCACATGGGAAAGACCAGAGATAAGCCTTCCATGGCTGTGGGCAACCCTGTCATCCTTGACATGAG
GCTTTAATACCTGAATTAATGGTGGCTGTTCCACTTCTGCCTTTCTAGCAGGAAGACAGAAATAGAAAGTGCAGAGAAGAAATTTTAATTTTTAAATGAG
ATCAACTTGAAGTTGCACAAACATCCCATTGGGAACTTAGCCACATGGCTCTATCTATCTACAAAAATATATTGGAAAATGCATCTTTCCTTGTGCAGCC
ATCTTGTCCTAAAACATGTTGGAGAAATGGGTTGATATCTTTTCACCAAAAAAAGAAAGACACAATGAATACTGAAAATGAATCAGAAGTTTCTGTCCCA
ATTAGATCTTTTTCAAATTTTGCTTGGTTAAAACTATAAATTAACTCTGTCTTTTTATGTATGTATGTATGTATRTATGTATGTATGTATGTATGTATGT
ATGTATTTATTTATTTATTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTCAGTTCACTGCAGCCTCTGCCCCTCT
GGTTCAAGGTATTCACCTGCTTCAGCCTCCTGAGTAGCTGGGATTACAGGCATCCATCACCAGGCCCTGCTACTTTTTTGTATTTTTAGTAGAGATAGGG
TTTCACCGTGTTGGCCAGGCTGATCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCTTCCGAAAGTGCTGTGATTACAGGCGTGAGCCACCATT
CCTGGCCTTTGTCTTTTCTTTCTAATTTTCCTTTCGTCTTTTAAAATGAAGCATAATGTATTAATCTGTCAATGTGTATGACTCAGTGAATATTTCAGAA
AGTACTCTTYTGACATAAAATTTTAATCCAGTGATTCATAATTTTATAAGTGAAATATGACACATTTTAAATTCTAAAAATAGTAGGTTATATATTAAAT
GTAAGATCTATATCAACCATTACTAGGAAGCTGACAAAAATAGTATCTGTCAATAAGAAAATAATGACCGGTATTTTTCCATATTTAATCTAATTTAACG
TTAAAAATTTTTATTAAGAGTTAKCCATATTGATTTCCAAGTAAAAATGATAGTGGGAAGCGTAGTTCTAGATTCACTACACAGCATGCATACTTAAATA
ACTCAAGCATGAAAAATAAGTAAATGAAAGGAAATATCTCCACTTCTACTAATCAAACAAATAAAAAATACTTCAACCTCATGCCATGAACTTTAAGTAG
CAAAAGTCCAAGGAAAAGATAAGAAAGCTTCTTTATAACTTTGTTCTCACACTGCTACAAATAAATACCTGAGACTGGGTAATTTATAAGGAAGAGCTTT
AATTGCCACACAATTCTGCAGGCTGTACAAGAAGCATGGTGGCATCAGCTTCTGGGGAGGCCTCAGGAAGCTTACAATCATGGTGGAAGGTGAAGGAGAA
GCAGGCATGTCTTATATGGCTGGAACAAGACGAAGATAGAGAAAGGGAAGGTGCTACACATTTTTAAACAACCAGACTTGTGATAACTCACTCTCATCAC
AACACCACCAAGAAGGATGGTGTTAAACCATGAGAAACAACCCCCATGATCCAATCGCCTTCCAGCAGGCTCACCTCCAACATTCAGGATTACAATTAGA
CATGAGATTTGGGCAAGGACACACATCCAAACCATATCAGCTTCTAACATAGAGTAGTGAAAATTTTAATTCACTAACCACTTACCAGAACTGTGATTAT
ATAAAGTAGAATTAAGCCAGGAAGGATATTTAACAAAATCTCAAGAGAGAAGACAAAGATTGTGTGCAATTAGCTCTAGCCAAGCTGTTTTCCTCTCTAT
TAATAGTTTTCATTTAGAGGACAACGTAAATCTTAAAACTGTGCCTAAGAACTGAAGACAATCAGGTCTCAAATGAAGCAGAAAGTGCAAGAAGAAAAAG
ACATCCATAGACCAAAACCAACAGATGATCTGAATAGAAGTCTCCATAGACATAACAAAAACATGTGACCTAAAAGAGGCAAAAGCATAAGACAATAATA
AATATTTTAAAGAAAATGGGCAAAACCCTGCTTCTAAAAAAATATGAAAATTAGCCAGGCGTGGTGGCACACACTTGTAGTCCCAGCTACTCGGGAGGCT
GAGGCAGGAGGAGAATTGCTTGAACCCAAGAGGCGGAAGTTGTGGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTC
TAAAAAAAAAAAAAACAAAAACAAAAGGAATTAAAAAAATGAAAAGGATATTTAGAACTTAGAAAAGTCTGGCATGGAAGAATATATAATTTAAGAAATA
GGAGAACATTCTGTAGTGTTAATTTCATAACATAGAAGAACTTAATATGATTGTAAATTTAATAAGAAAGCGATAGGTGAGAGACCATACATTCAAACAA
CGGAATGAGATTAAAATAGAAATAGCAAAACTGAAGTAACAAGTTAATGACAAGAATATCAATGTCCTGAGACGGGCGGATCACGAGGTCAGGAGATCGA
GACCATCCTGGCTAACACGGTGAAACTGCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGTGGCTGCCTGCAGTCCCAGCTACTCCGGAGG
CTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGAAGCTTGCAGTGAGCGGAGATCCCGCCACTGCCCTCCAGCCTGGGCGACAAACCGAGACTCTGTCT
CAAAAAAAGGAATCTCGATGTCAACTAAAAAACAAATAATAAGCTAAAACAAAGGCAAAAGACAAAAGTGACATTTTACGTTTTACTTGATACAGGAAAA
GTCTTGAATTAATAACTAAGTCAAAGGGAAAAATCACAAAATGATCATATCAATTCACAAAATGCTGTATCTTATAGAAGACAGGCAAAAGCATCCAATG
AAATAATAATTGGAATCCTCAATAGATAGAACATAAATGTATTTAACTAAATTATCGGTGGATGTTTTCTTGTAGTGAAGAAAATATGTGTAAATTAAAA
GAACACAGAAAACTTCAGAAAAAAAAAGAACATGATTGACATTAATAAATCTTGTAAATTATTAGCTTAATTTTTTTAAAATAAGATATACTCAAGTGTC
CACATGAGAGGAGATAGGGCTAAAAATCAGCCTAGTCTTAAAGTTAACTACATAATATTCAAAGCCTACAATATTTAGATACAAAAAAAATTCTAAATTA
AGAATTTTCAATTTTAATAAGAGAAACTGAAGTCTTATATGCTCACCATTTTTTTTACAAAGTGTTTTTAATCTAATAGTCAAGAAGAGTAATAAAAGAG
TTTACATTGTTAAAGAACTATATTATAACATCCTACATAATAAAATATGTATCTTTGGCTATAGTATTTAATTTTACTTTTAAAAATGCTTTATTTGTAT
ATTGCCTGTGTGGTTATAATTAATATAAACTATTCATTCTTTTAAATCTAAAACAAACAAAAACTTTGGGAATTTTGAAAAGTAGAATGAATAATCATAG
TGATTATTCTCTTCAAACCTTTCAAATTTGTAAGAAAATCCTATGTTTAATAAGCTAATTTATTAAATATTAGTGTAATSAGCATTTTGTTTAATTGAAT
TGTGACTTCGCCATGCCTTATGGTATTAACAGTCTGGCTCCAGGTCTACATGGAACCTGATGTCTGCCCCATATTCATTCCCTTTAAAAATGTTCAACAC
TCCTCCTTAAGGTGATGTTTGATAATGAGAAATTTAGCTTTAGCTCAGAAACTCTTGTAGGCTTTTTTAAAAATGAAATATTTGTGTTTTGCATGTTCTT
TCCTTATATTTTATATATTTTTTTCTAGATTTGGCAGAATACTACATATCTTGAATCACAAACTCTCAACCCCAAACTGAGAATGTGCCTTCTTTACTCC
TTAGCTGTCCTCCTCTCTAAATGTGGAAAGGAGATGCTCTTCATCCTGCACTAAGACATATGGAGATTGCTTCTCCTGTTCACCTATTCAATTTAAAAAG
TGTATCAGAAAACTTAAAAATAACACTTAAGTAGAAGCTCAGCAATATGAATTAGACCACCCTAAATAGAGGTGAGAAGCGGACAACAGCACTCACTTCA
GCCACAACAGGCACTAAATTAATGGCCACAAGATGAGCTGAACGTCAGAACAGCTATTGGGACTGAATCTCCTGATAAAATATCTTAATTGAAAGAATTT
ATCTGGTGGTAGGGTAGAACTGAGGCTTCAGATTATGATCAGTAACTACATTTTATAGTAGCTGCTATTGTTTGAATGTGTCTCCTTAGAGTTATGTGTC
GGAAATTCAATCAAAATTGTGCTTATATTAAGATGTGAGACCTTTTTGCTTGCTCTTGTGAATAGATTAATGTTATTACGGGGTTGGCTTTCTCATCAAG
GGAGTAGTTTCCTTGTAAAAAGGGAGAGTTCCCTTCCCCCCAGTCTTGCCCTCTCTTGACCCTTTCGTCATAAGATGATGCAGCAAGAAGACTCTTGACA
GATGCCAGCCCCTCGGTCACGGATGTCCCAGCCCCCTTAACTGTAAGCCAATGCATTTCCGTTCATTATAAACTACCTAATGTGTAGTATTCTGTTACAG
CAGCGCAATACAGACTAAGACAGAAGCCAAGGAAAAATTAATACAGTACATTTTGTCAAAAATACTTAGCTGAAAACATTTTGAGTGCCATAGTGCAAAA
CACAGTCAGGAAAGACATTAATGGTAGATATCCCATGAAAACATTATGCTTCTATTTTGAAATTACTGTCCATATTCACTAGCCATAACTACTCAAATAA
AATACTGGAACCAACATTGCTGTTAGAAAATCTTTGCCAGTGAAAAAAAAAATGGTTTTCTTTGAAGGCTGCATTTGGTCTATTGGGAACAGTACCAAAT
AAAACGTGTATTATTTGGAAGATGTGCTTTAGTGAAATACTATTCAAGATTTATTTTTGATTTGTTTGTTACTTGTTTTAAAGAGATTATTATTGATAGC
ATGGTCAAAAAGCTTTTCTTAAATATATCTGGGTTTGTGTACTGGATCTACTCCATATGATATTTAATATTAAACAAATAATCTAACCACTGTTTCTCTC
TTCTCTACAAAGAAATGCATTTAACAACGACTTTACTTTTGTGGTCATAAGAAGTTATTATAGGTTATAGCTACTGTGAACTAAGCTACAGTTTACAATA
CTAAATTTATTCCAACAATGGATATTTTAGAGCAACTTCCACTCTAGGCACTTAACTCATTTAATACAATAACTGTTATTACTAAAAAAGTTCTATGAAA
TCTACAGTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGTCTCACACACACACACACACACACACACACACACATTTCTATGTAACGCTAATAA
CCCCAGCCTCAGAGAAGGTCATGGACAGTTGTTAACCAACTTTGATAGACTTTTTTGATCCAGAAACATGAAATTAACTTTGCTAGTTAAATCCTTACAT
ATTTGGCTGTCTATAATAATTAGTACCACCACACTTTCTGATGAAGTTACTCTGAGTTAAAAATCTCAAAGAGAATATATAACATGGTTGTTATTTTGTT
TTATTTTCTTGTATTTATAAATAGAATAGCATCGTTATTATGCACAATGGGCATGGAAATACACACGCACGTGCACACACACACACACACACAGATACAC
ACACCCTATTCCTACCCAGAGAAATAATCGCTTTAAGGTCAATATTACAACTGTTAGAGATCTTCCATAGTAAAAACAGCTCTGTTGAGAAATATTAAGT
TAAACGAGATTCCAATGCTCATTCATTTTCTAAAATATTACTCATGTTAGAGTATTTTTAGTTAAAATATTCAACTAAGCATCCTAAACAAATTATCATT
TAATTTTCCAAATACCAAAGCCACCTTATGGCAATCAAAACTGGTGATCCTAATGCTTTTTCACAACATGGCAAGTTTTTACTAATTCCAAAAATATGTG
GTTTTGTGATATTAACCACATCTATTCAATTGACAACAATTTGGTTTCTTTTTTATTTTATTTTTTTAGTTRAAGGGTACAATGTTAAGATTTTAACCAA
ATCAGTGAACTACATTAGTAAATGAAAATATGATGAAAATATAAAAACATTACAGAGGTGTGATTTTCTAATACTGTATACAAATGCCTCACATAATTGC
ACTGTGCCTTTGCAGAATTTCTTTTTCATGCTATATTCATAAGCACTTTTTAGCTGGTTTGATACATGTTCAGTTTAATAATATTTCATAAATATTTCCA
GAGCTGACAATAAGAGAAAGTGAATTACTTATACACTTTAAAGACAAGCAAGTATCCTAAAACTCTAAAAATTAATTCAACGTGAAAAACTACTTTTTGG
AGAAAATATGTATCTTTTTTTTTTTTTACATATTGCTCAGGGGAGACAAAAGAGCTAGAATTTACATAACAGAACACTGGAGATGAGAAAGCTGTAGGAA
GACAGGGCTTCAGAGATCTGCAGAGGAACTCCTCCAGTTCTGAGTATTGATCGACACTTCCACATGCTTTTGACAAGCGTGTTTGTGGCGCAGCATAGAC
ACACAAGTAAAGATACGATRTGATAGCACCTGGCTCTTACAGGGATCCAAACCTAGTACTGGTCTTACAAACCATACTAAAGAAATTCACGTTGCTCAAG
ACATTGAGTAGAATATACAAAAGGGTCCTGCCTTACGTTTGTGGAATAACTAGCCCTAAGTCAGAGTTTCCCAAATTCAACTTTTTTGAAAAATTCAAAT
ATTTGAGTTTAAATTCAAAAATTTTAATATTTTAGGCTATGATTATTTGTTGTTGGGGGCCTGCCCTAAGCATTACAAAATGTTCAGCAGCATCCATGGC
ATCTAACCCTTAAGTGTCAGTTGCATTCATCCCTAATTTGACAATCAATTTTGATTGCAAAATTGATTACAGGCCAGGCGCAGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGCCGACGTGGGTGGATCATGAGGTCAAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAA
AAAATTAGCTGTGCATGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAAAGGCATGAACCTGGGAGGTGGAACTTGCAGTGAG
CTGAGATCACGCCACTGCACTCCAGCATGGGCAACAGAGCGMGACTCCATCTCAAAAAAATAAAAAAATTTGGTTACAAAATCCAGACCTTGCCAAATGT
CTTCCAGGGGTAAAAAATTGCCTTTATTAAAAACTACTATTATAGAATGAACACTTCTATCACCCTGCCTAAAAAATTGTTAAAGCAAGAGCCAACAGGA
TCAAAATATTTTCAGTTAACGACTGTAGACTAGAAAAAATTCTGTGAATATTTATAAAGACACAAAATTACCCAGCCCATACCAAGGTAAAATTCACAAT
MTTTGCTATTTAATTTTAGCTATTTTTTAAAGAATTCCAGTTATGCACAGAATCAAGAAAATAAAATTCAAAATATTGAGATAAATCAATCAAAAATTAC
TCAGAACTGAAATGGAGGGAGGCTAGAAATAGCAGGCAAGAAAATTAAAACAATTTTTGTTTCTTTATTATATACACCTAATGTAAAATAGAGGCAGGGG
AAATGGAAAATGAAAATTTTAAATTGATTTTCTATAGTGAGAACTACAATGTCTGAGATATACTAGATGAGATCAAGAACTTAATAAATATTGCAGTAAA
ACAATATTACATTCAGAATACAGGAATACAAAGTAGTTAAATAAGGCACTGAGAGAACAGAGAAAAAAAAGAACGGAGCATCAATAACTGGTAGAAAGAT
GTCAAGGAGCCAACTGTATATATATATTGGAAGTTCTGAAGAAAAGGAAAGAGGAAAAGAAGAAAAAAATATATTTGAAGAAATAATTGGTGAATTATTT
TTAATGTTTTATGAAAACTGTAAAGCCACAGATCTGAGAAGCTCAACAAACCCCAAACACAAGAAACATGAAAATAACTATAAGAACTACATCATAATCA
ATTTTCTCAATATCAGTGATAGGAGAACATCGTAAATGTAGCCAGATATGAAATACAATGTTATATAAAGACGGGAAGAAAATGTGACAGTAGCAGAAGA
TTTATCACTGGAAACAATGAAATAAGAGAGTAGATATCTTGAAACTTGTTTTATTTTTATTTTTATTTTATTTTATTTTATTTTTGAGATGGAGTCTCAC
TCTGTCACCCAGGCTGGAGTGCAGTGTTTCAGCCTCCCGAGTAGCTGGCTCGCCACCGCACCCAGCTAATTTTTGTGTTTTTAGTAGAGATGGGGTTTCA
CCATCTTGGCCAGGCTGGTCTCAAACTCCTGATCTTGTGATCCACCTGCCTCAGCTTCCCAAATGGTTGGGATTACAGGCGTGAGCCACTGAGCCTGGCC
AAAACTTGTTTTATAAAGAGTTTCATTGTAGAATTCCACATCAGCAAAATAATCTTATGAAAATTAAGGTAAAGTACCCTTTCAGACATACAAAAGCTGA
GAAAAATTATTATAGACAGTAATTCAATATAAGAAATGCTTTTAAAATATCCTTTATTACACATAGAAAAATGAGACCTGTAGGAAATTTAGATCTGTAA
AAATTAATGAACATTATTTGAAATAATTGCATAAGTGTATAACATTATTTTATTATTTAAAATATAAATATATGTAGAAATTAATTAAAAATAATCTTTA
AAGGATGATAATTTAACCAAAAATACTCACAATGTAATATTATTATTATACTAGCCCCACAACTAATGGCTGTTACAATAATAATGATGGAATAATTGAA
TTGGACACTAGAAGAGGCAAAGATTGGCAGTGACCACACGGCAAGTCAACAGAACAGATCTTAGTTAATAGTTCAACCAGGAGCACACTGACCAGCTGAG
AGCATTTTTTTGCACATATCAATCTTAAAGACTATGCCTTTTTCTTATTTACTCTTCTCTATTCACTCCCAGACTCCCAACACAATTTCTCTTTCTTTTG
TACCACAAACTCAAGGCTCAGATTCCTTCACTAGTGAATTATATCAGATAGCTAAGGAAGAAGTAATATTGATTTTACACAGAATACTCTAGAGTTTGAA
AGGGAAGAAATACTCCACAACTCATTCTATAAAGTCAAACTTACCCGATCTCAAAACCAAAGGCATTACAAAAGAAAGAAAGAAAAGAAATAAAGMAAGC
AAGAAGGAAGATATTGATGCGGATACAGTATGGGATAACATCTAAAATTATTTGTGACAAAAATTCTCAGCAATTTAATAACAAAAGGAATCTCTTTTAA
TCTGATAAATGGAATCCATAAAAATCCTACAACTGATACTATTCTGAAAGAAAAGTATGTACTGCCTTTCTCATAAGATCAGAAATAAGATAAATAATGT
CCACATCCACTTTTACCACTTCCCATTTCTATCCAATCATTTACCAAAGATTCTATCCAGTCCAATAAGGCAAAAACCAAGACAGTGGGCTTGGTGGACA
CAGTGATGATGACAGAGACAGAGAGAGGGAGAAGGACACAAAGAGAGATGGAGAGAAAGCAGAGAGACACAGACAGAAAGTGGGGGAGGACAAAGCCCAG
ATTGGAAGGGAAGAAGGCAAAAATCATTTATTTAATGACAAAATTATTGTCTATGTACAAAATCTGATGGAATATACAAAATGTATTTAAAAAAAATTTA
AAAAAATGAACCAGACCCAGACTTTATATGCTTCACAAAAATTAACTCAAAATAAATTGTAGACCAAAATGTAAAGCTTAAAACTAAAAAATCTCCTATA
ATATAACATATGAAAAAAATCTAGAGGACCTTCATTTTGGTGATGATTTTTAGAGATATTAGTAACACCAAATATATGAAATAAATAATTGATAAGCTGA
AGTACATTACAATTAAAATTATCTGCTCTATCAAAGATACTGTCAAAAGAATGAAAGAGCAAGATACAGGCTGAGAGAAAATATTTTTCAAAGGGCATAT
CTGACGAAGAACTGTAATCCCAAATATGTAAAGAACATTTAAAACTGAAAAATAATAAAATGGACAACTTGATTAAAAACTGAGCCAAAAATCTTAACAG
ATATCTCAGCAAAAAGATATACAAATGGCAAATAAGGATATAAAAAGATGCTTCACATCATATATGTCATTAGGAATGTATAAATTAACACAGCAATGAG
ATAGCATTACAAACAAGATAACCACTATTAGAATGGCCAAATCCAGAGCACCAGCATCACCAAATGTTGGTGAAGATGTGGAGCGACAAGAACTCATATT
TACTGCTTATGGGAATGCAGAATGATACAGTCACTTTTAGAAGACAGTTTAGCAGTTTCTTACAAAACTAAACATACTCATAACACATAATCCAGGAATT
ATGTTTCTTGGCTTTTTCTCAAAAGTGTTAACAAGTTTATGTCCAAGCAAAAATCTGCACATAGATGTTTGTAGTAGGTTTATTCATAATTACCAAAACT
TGGAAACAACCAAGATGTCCTTCCATAAATGAATGTGTAAATAAATTGTTACATCCTCATAATGGGGTATTATCCAGCACTAAAAAAAAAAGCTACCCAG
CCACAAAAAGACATGGAGAAATCATAAATGTGTATTATTAAATGAAAGAAACCAATCAAAAAAGGATTGCAATTATATGACATCTTAGAAAAGACAAGTA
TGGAGATAGTATTAATAAGAAAATAAAATCTGTGATTGCTATGGTTTGAGAAGGAAAGGGATACATAGGCATAAAACAGAGGATTTTTAGGGCAGTGAAG
CTACTTGTATGAAACTGTAGTGGTGGATATGCATCATAAAAAGTTGTGCAAACAAACAGAATGTAAAATGTCAAGAGTGAACCCTAACTCTGGGTGGCAT
GATTTGTTAACATATGTTCATCAATCATAACAAAAGTACTACTGTGGTAAGGAATGCTGATAATGGGAGAGGCTATGCATGCATGGCAACAGGGTATATG
GTAAATCTCTGTAATGTCCACTGAGGTTTTCTGTGAATCTAAAACTTCTCTGAAAAATGAAGTCTATTAAAAATAAAAATGAATATCTATTAAGAGAATC
CCAGTATATTTTTTAAAATTAAATTTTGCTATTTTTAAATTTTTATAGTTACATATTAGATGTATATATTTATGAGGTACATAAAATATTTTGATAAAGG
CACCAACATGCTATTTTTCCATTGGTGGAAATTGACAAACTGATTCTCAAATGTGAATGTAAATTATAAGAACTTAGAATAGTCAAAAATTAATTTGAAA
AAGGAGCACTAACCCTATCTGATTTCAAGATTTATGTTAATCTTAACTAACATTGTGTTACTGGCATAAGATGGACAATTTGAATAATGGGACAGAATAA
AGAGTATATAAGTAGCCTTAATCATATATGGACAACTAGTTTTCAACAAATATGTGAAGGCAATCTAGTAATTAAAAAAAAATAAGCAGTCCTTTAAACA
AATGTGGATGGAATGATTGAATATTCATGTTTAAAAATGAACTTAGACCAACCTTGAATCATATACAGTAATTAACTCAGAATAGATCATAGACCTAAAT
GTAATGTCTAAAAGTATACTCCATGTAGGAACAAAACACTGGAGAAAATATTTGTGACTTTGGGTTAGGTGAAGAATATTTTAAATACAACATCAAAAGC
AGGTTCCATAGAAGAATATACTGATAAGTGATTTTTAAAAATATTATATATCCAGTTTTCAATATGTATTGTTAAGAGAATGAATAGACAAATCACAGAC
TACAAAAGTTAAATAGTTTATTTTCAATTTTCAAGCACTTCATCATCATCATAATCTAAAATTATTTATTTATTCATTACCATACGTCTGGTACTGTACT
GTTTTACATGCGTTATTTCATTAAGTCCTTTCAGCAATCCTATAAGGAAGATATAAATTTTCTCATTTCACACATGAGTAAAGAGAAGATTTAAAGAATT
AGGTAAATTGCTTTGGGCCAAAAGATGTAGCATCTGAATATAATTGCCTATCTAATTTTTACTTTCTCTAACACTTGATACAATAAAGCCTCATAATTAA
TGGCTGATATAACCATAATTATTGAATGAATTAGACACCAAGAAGGACAAAGATTGGCATCATTCAACAAGTCCTCAGAAACAGAGCTTAGTCAGGGATT
GAACTGGTCACAAACTTCCCAGCCTAGAGTATATTGTGTTATATGTGTCAATCCTATGTAATTAGCTTATTTCTTATTTGCTGCTTTCTCTTTCACTACC
AAAATTCCAGTTAAATGTCTTCCTTTTTCCTGTTTTTCTTTCCAGAAAATTGTGCTGAATTGTCACTTAGAATAAATCTTAATTCCCCAATCATCACAGT
ACTTGACAGGTTCTCATTAGCTCTTAAGCATGCATATAGAAAAATACTGAAAAATGGACCGAATTAACTTTTGTGGCTTTTTCCTATTTTCTTTACTTGG
GGATAAATGTTTATTCACATCTATACTCTTTTTTGTCCAGAGAAATAGAAGAACTCATAAAATTGAATCTATTCCTACCAAATTCTTCACAGAGAATTTT
TGAAGACATGATTAAGATAAAGACAAATACAATTACTTAGTGATTACTATTACAGATAAAATTATGTAGAAAATGTCGGCTGGACGCGGTGGCTCACGCC
TGTAATCCCAGTACTTTTGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGATCCAGACCATCCTGGCTAACACGGTGAAACTCAGTCTCTACTAAAAA
TACAAAAAATTAGCTGGGCGTGGTGCCGCGCGCCTATAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAACGGCGTGAACTCGGGAGGCGGAGCTTGCA
GTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCGACATACCAAGACTCCTTCTCAAAAAAAAAAAAAAAAAAAAAAAAAATTTAGAAAATGTCTAT
GCTCAGATGGTTTATATCTGTTTTTCACTCTCCTTAGCAGTTCCCACCATTTTGAACATGTTAATTCAAGGTGAATTTCACTTTCCTAATAAAATTGTAT
CTTAAAAAATAAGAAATAATATCTCCTACTGTTCCAAAAGACTTTCCTGAATTATCCTCTCTTCCAAATAGCATCTATTTCATTTCATATTTAAGTTCTA
AGCAGTCTTCAATCATATTTATTGAAGTGTGAATTGCATTACTTGTCTCTATTCTGTAAAATATCAGCTGACTTTCTCAAGTGGAGCTCTTTTTCTTTGT
TTCACAGAATCTAAGCAATTAAAATACACAATTTGGTTTTTTTTCCGATGTTTATTTTATCTTTCTGAAGGGATTTTGTCTGACTGAAAAAGAATGCTGT
TGGTTTTTTGTTATTCTGTATTTTTTATATCTATATTCTAGTAGAAATCCTGATATTTGCTAAATAGGTTTTACATTGRCAGTTTTATATTTATTGCCTT
GATCATTAGACTAATTGACAAATAAAAGAGTCAATTACTTGCCCAATTTTTGGAATCTGGGAAGGGGAAGCCTTACTTATCCATCTAGTTTTCAGGTATT
CCTCTTCCTTAACTCAGCCTTGTTAAGCTTCTTCCAAGTCCGTGTGCCAGGCAGAAAGTAACAGTGATTACTGAAAACACTTTAAAAGAGATAGGTCTTA
TACTCTATTAAGGGACAGCTTACTGCCCAGAAAATATAAGTAGCCAATTTGCTTGTTACATACAAGAATCAATTAAACTAAAACATAAACATAAAGTAAA
ATCTCAATAGATATAAATGCATATGAACAATTTAAGATGAAGAATTTAACAAAAAAAAACATAAACAGAAGAAAATGTGTTTATCCTCACCAGTAACCAA
ATAATAACAAGAGTTAGGTTAATCTCCCACCTGATAAATTAACTAATTAAATTATTACTGAGTATTATTATTGATAATACTTGATGGCCAGGTGCTGTGG
CTCACACCTGTAATCCCATCAATGAGAGGCTGAGGTGGGCGGATCTCTTGAGGTCAAGAGTTTGAGACAAGCCTGGCCAATATGACAAAACCCTGACTCT
ACTAAAAATAAAAAAATTAGACGGGTGTGTTGGCACGCACCTGTAGTCCCAGCTACTCGAGAGGCTGAGATCAGAGAATTGTTTGAACCTGGGAGGTGGA
GGCTGCAGTGAGCTGAGCTGAATTCACACCACTGCACTCCAGCCTGGGTGGCAGAGTGAGGCTCCGTCTGCTTAAATAAATAAATAAATAAAATAATAAT
GCTTGATGGCAAAAATGCGATGAGTGTTGTATATCTGTTACTATTGGGAGCATTCAGCCCTTCACTTATTTAAGTCATTTACTGATCACATACAAAGTGT
AATAAGCCATGATGACACATCAGTGAACAAGAAGAAAAGGTTTCTGCTTTCATGGAAAATATGGTTAATCAAGGAAATATTAAACAAATACTTACATGAA
AATAATTATCAAAATTCTTGCAATCTTAAAATAAATATCTTGCCTATTTGAATTCAAGGAAGTTTAGAATTTGAAAATTTATTGCTGAAATTGAATTGCC
TCACAATCACACATGGAATATGTTTATAACTCATAAGTTTTCCTCTTTCTTCAGCTGTAACTGATATTGATTAATTAATTGATTAATGAAGGTATTTGAG
GTATCTTGATTGCTCCAAAATAATTTAAGGAATAATCAAAGTTACATACAGAACAATACTTATTGTCTAAATATTTTAAATACTCTAATATTCTTTTCTG
TTGTCCCTTTAGATTCAAAGACAATTCAAGTAAATTATCAGGCATAGAAAGGAACAGAACRGGCTACAGAGTTTCTTAGAGACATAGTTTAATTCATGAT
TTTTTACCTTGATTTCTTTCAATGTTTTATAGCATTCTCTAGGAAACATATTTTTAAAACTAGAAAGCTCCACTCACTATTAATTTTCAGTGTTGGGGAC
CTAACAAATCTATGACTTGGTAGCCTATTGTTACAGGCCATATGTTGCTGTGTGTATGGTAACAGCACTCACTCTGAGGTCAAGGAACTTTGTATTAAAA
TCTCAACTCTCACATTTTTTTGTGACATTAACCAAAACAACTTTTTAAACTCAGTTTATTTTCATTTATATGGTAACAATAATAGTAATGTAGATTACGT


SNP Information

Context             (SEQ ID NO:67739):
TAGTGGGTTGGATAAATAAAATGTAGTTCATATGAACCATGAAATACTATGCAGCCAAAAAGAATGAAATAATGTTCTTTGCAGCATTGTAGGTGGAGTC
R
GAAATAATAATCCTAAGCGAATTAATGCAGAAACAAAAAGCCAAGTGCTACATATTCTCAGTTATAAGTGGGAGCTATACGTTGAACACACATGAACATA
Celera SNP ID:            hCV11448614
SNP Position:             13510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67740):
TATTGTCTAAATATTTTAAATACTCTAATATTCTTTTCTGTTGTCCCTTTAGATTCAAAGACAATTCAAGTAAATTATCAGGCATAGAAAGGAACAGAAC
R
GGCTACAGAGTTTCTTAGAGACATAGTTTAATTCATGATTTTTTACCTTGATTTCTTTCAATGTTTTATAGCATTCTCTAGGAAACATATTTTTAAAACT
Celera SNP ID:            hCV1704262
SNP Position:             39661
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67741):
TCTGACTGAAAAAGAATGCTGTTGGTTTTTTGTTATTCTGTATTTTTTATATCTATATTCTAGTAGAAATCCTGATATTTGCTAAATAGGTTTTACATTG
R
CAGTTTTATATTTATTGCCTTGATCATTAGACTAATTGACAAATAAAAGAGTCAATTACTTGCCCAATTTTTGGAATCTGGGAAGGGGAAGCCTTACTTA
Celera SNP ID:            hCV1704263
SNP Position:             38279
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,9)      total(G,3|A,9) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67742):
TTGAAAGGGAAGAAATACTCCACAACTCATTCTATAAAGTCAAACTTACCCGATCTCAAAACCAAAGGCATTACAAAAGAAAGAAAGAAAAGAAATAAAG
M
AAGCAAGAAGGAAGATATTGATGCGGATACAGTATGGGATAACATCTAAAATTATTTGTGACAAAAATTCTCAGCAATTTAATAACAAAAGGAATCTCTT
Celera SNP ID:            hCV1704264
SNP Position:             33996
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,6)      total(A,6|C,4) ;no_pop(A,-|C,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67743):
AAATGATATGGTTTGTCTGTGTGCCCACCCAAATCTCACTTTGAATTGTAATAATCCCAACATGTCAAGGGCAGGACCAGGTGGGGATAATTGAATCGTA
Y
GGACAGTTTCCCCCATGATGTTCTCATGATAGTGAATGAGTTCTCACAAGATCAGATCATTTTATAAGGGACGTCCCCCTTTGCTTGGCACTTCCTTCTA
Celera SNP ID:            hCV1704280
SNP Position:             5507
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67744):
CAGCATAACTCGGCTTACCCTTGAGGATGTAGAAATTGGTATACAGATAGGCAATGCTTCTATAAAATAATCAATTGCTTATTATTTGGCAAGAAGAGCA
M
AAGCTATAATTGAATGATTGAAGAATGAAATATGTATAATGTAGTGACAAAACCTTTGGTAAATAGTGAGCTACAATAGTGTTATAAGCAAATAATGTAG
Celera SNP ID:            hCV1704281
SNP Position:             1897
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,3)      total(A,2|C,3) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67745):
AAAATGAATCAGAAGTTTCTGTCCCAATTAGATCTTTTTCAAATTTTGCTTGGTTAAAACTATAAATTAACTCTGTCTTTTTATGTATGTATGTATGTAT
R
TATGTATGTATGTATGTATGTATGTATGTATTTATTTATTTATTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTC
Celera SNP ID:            hCV27060540
SNP Position:             25075
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67746):
ATTTTGAGATTTACCCACTTTGTTGCCTACTTGAATAGTTCATTCCTTTTTATTGCTGGGTATCCCATTGTATGCATATGCCACAATTTATGTATCCATT
Y
GCTTCTTAACATACATTTGGGTTGCTTTCAGGTTTTGGCTATTACAAATAAAGTTGCTATGAACATTCACATACAAGTCTTTGGATGGACATCTGCTTTA
Celera SNP ID:            hCV11613987
SNP Position:             19999
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,7)   caucasian(C,29|T,9)   total(C,58|T,16)
SNP Type:                 INTERGENIC

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67747):
TATTGTAAATTTCATGAAGCCTCCCCAGCAATGTGGAACTGTGAGTCCATTAAAATTCTTTCCCTTTAAATTACCCAGTCTCGGGTATTTCTGCATAGCA
R
CACGAGATCAGACTAATACAGTAAATTGGAACTAAAAGGGTGATGTGCTTCTATAAAGATACCTGAAAATGTGGCAGTGACTTTGGAACTGGGTAACAGG
Celera SNP ID:            hCV27882328
SNP Position:             3852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67748):
AAGTAGAATGAATAATCATAGTGATTATTCTCTTCAAACCTTTCAAATTTGTAAGAAAATCCTATGTTTAATAAGCTAATTTATTAAATATTAGTGTAAT
S
AGCATTTTGTTTAATTGAATTGTGACTTCGCCATGCCTTATGGTATTAACAGTCTGGCTCCAGGTCTACATGGAACCTGATGTCTGCCCCATATTCATTC
Celera SNP ID:            hCV1704267
SNP Position:             28280
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;no_pop(C,-|G,-)   ;no_pop(C,-|G,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67749):
TAGGAAGCTGACAAAAATAGTATCTGTCAATAAGAAAATAATGACCGGTATTTTTCCATATTTAATCTAATTTAACGTTAAAAATTTTTATTAAGAGTTA
K
CCATATTGATTTCCAAGTAAAAATGATAGTGGGAAGCGTAGTTCTAGATTCACTACACAGCATGCATACTTAAATAACTCAAGCATGAAAAATAAGTAAA
Celera SNP ID:            hCV1704269
SNP Position:             25724
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67750):
CAATCAGACAAGCCGAGAAGTCCCATGAAATTCTATCTTCCAGTTGGAGAACAGGGAAGGCTGGTGATGTAATTCAGTTCAAGGCCCAGGAGATGCAGTG
R
TGTAACTCTCAGTCTGAGGCCAAAGGTGGGAGAACCAGGGAGCCTGCTGATGTAATTTCTGGAGTCTGAATGCCTAAAAACCTGAAAATCTGATTTCTAA
Celera SNP ID:            hCV27060528
SNP Position:             23493
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67751):
AAAGTAAAAACATTCACTAGCAAAACAGTCTCAAGATTCAAGATTCCTTTTTAGAGAAACAGAATGTTTGGTTTAGCCTTGAAATTATTTGTCTTTTAAC
R
AGAAGATGAAATATAACCTTTGATTTCCAAATCTCCCAACTATCTAGACTGAAAGTTAATTTGTTGCACTATCTGAGCAAATTTCTCTGAAATGTATTCC
Celera SNP ID:            hCV8399302
SNP Position:             7134
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67752):
TGTCTTTTCTTTCTAATTTTCCTTTCGTCTTTTAAAATGAAGCATAATGTATTAATCTGTCAATGTGTATGACTCAGTGAATATTTCAGAAAGTACTCTT
Y
TGACATAAAATTTTAATCCAGTGATTCATAATTTTATAAGTGAAATATGACACATTTTAAATTCTAAAAATAGTAGGTTATATATTAAATGTAAGATCTA
Celera SNP ID:            hCV8399303
SNP Position:             25510
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67753):
CATTTTATCTATTCTGGATGTCGATGTGGAAGCTGTGAGTTTTAAGTCAGGTCAAAAAAAGAAGAAGAAAGAAAAAAAGATATTTCTTAAAAGAAAGAAT
M
TAGGCCACATTTGGCTTCAAAAGGCTTCTTTGCTCATCTATTTGATTGTTGTCCTAAATTTAAAAAGTCAAATTTCAAATAAAATAGTTTTTCTCTGTGT
Celera SNP ID:            hCV16259784
SNP Position:             17198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67754):
TGAGGCAGGAGAATGGTGTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTTCAGCTTGGGCCACAGAGCAAGACTCCATCTC
A
AAAAAAAAAAAAAAAAAAAAGAAAAGAAAAAAAAAAGAAATACATTTTTGCTGCTACAAGTCACTAAGATTTTGAATTTTTTATTACTACAGCATAACTC
Celera SNP ID:            hCV27059797
SNP Position:             1707
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67755):
CTCTCACTTTACTTGTAACACGTTCCCTACCCTAGCCTTTATGGTTCTGTAAATTTTATCCCTATGAGAAAAAGAAAATAGAAAAGAAGAAAGAAAGGAT
M
CAATGAAAGATCTTATCTTTTTCCTCTTTCTATGATAACCTACATAATTTTCTAATCATGATTTTTTCCTAATATTTTCTTGCTATCATGAAATGTTAAT
Celera SNP ID:            hCV1704270
SNP Position:             24408
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,8)   total(A,8|C,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67756):
AGATATGGTCTTGTGGCCTATTATGTCCAACTTGACAAATGACTTTTCTGGTATTACTAGGAAAGACAGTTTTAGGAAAGTCTAGGACTTACAGACTGGG
R
TAATCCAGATTGTGATAGAATAATCAGTCATATCCTAGACTAGTCATTGTGATTTGGGCTCTGTGTCCCCACCCAAATCTCACCTTAAGTTGTAATAATT
Celera SNP ID:            hCV8399292
SNP Position:             3461
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67757):
AGCCATTTGGAACTGTGAGTCAATTAAACCTCTTTCCTTTATAAGTTACTGAGTCTCAGGTATTTCTTCATAGCAGTGTGAGAACAGACTAATACAGCAG
S
CTAAGATCAGAGGCCTTCCATATCACAGGAGGAGGAATTATTTTTTTCTTCCTAAATATAATGTAAATTACAGAATATAATTATAGAACTGGCATGGGCC
Celera SNP ID:            hCV27059999
SNP Position:             5784
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67758):
TACTCGGGAGGCTGAGGCAGGAGAAAGGCATGAACCTGGGAGGTGGAACTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCATGGGCAACAGAGCG
M
GACTCCATCTCAAAAAAATAAAAAAATTTGGTTACAAAATCCAGACCTTGCCAAATGTCTTCCAGGGGTAAAAAATTGCCTTTATTAAAAACTACTATTA
Celera SNP ID:            hCV27060604
SNP Position:             31942
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67759):
TTAAAATTGTATTTTACATAACAATATAAGAAAGATGATAAAAATTCATGCAATAATAAATGCACAACAAATAAAATATTTATGAATAAAAGATTTTTTA
Y
AGGCTTCAGAACCATATGAAAGCATCATGTCAACAAAAAGCTCTTGTTTTGACATTTCTGTGTAATGTAACAAAATCTCAATGAAACTGGAGCAAGAAAT
Celera SNP ID:            hCV11613994
SNP Position:             17960
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67760):
TCATCCCTCCAAAATTTGTCATATCCCTCTCTACTGCCTCTCTCCACCCATTCTGATCACTGGCAAGCACTGATAAGCTTTCAGTTGCTTTAAATTAGTT
Y
GTGTTTTCTGTAATTTCATATAAATAGAATCATACAATATGTACTCTATCTGACGTCTTCAACTTAGCATAATTATTTTGAGATTTACCCACTTTGTTGC
Celera SNP ID:            hCV1704273
SNP Position:             19824
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,13)   caucasian(C,24|T,12)   total(C,35|T,25)
SNP Type:                 INTERGENIC

SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67761):
TCAAAATATTTTCAGTTAACGACTGTAGACTAGAAAAAATTCTGTGAATATTTATAAAGACACAAAATTACCCAGCCCATACCAAGGTAAAATTCACAAT
M
TTTGCTATTTAATTTTAGCTATTTTTTAAAGAATTCCAGTTATGCACAGAATCAAGAAAATAAAATTCAAAATATTGAGATAAATCAATCAAAAATTACT
Celera SNP ID:            hCV27060606
SNP Position:             32201
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,9)   total(A,9|C,1) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67762):
GTTTATTCATATCTTCTGCATAGTCCCTCTGGGTTGGAAATCTTCTGGTTAGCTGAGATATTTTGATCTTGATTTTATGTCTCTTTTTTTATCATTTATT
Y
TAAGTTCAGGGGTACATGTGCAGGTTTGTTATATAGGTAAATGTTTGTCTTGGGCATTTGTTGTACAAATTATTTCATCACTCAGGTATTAAGCCCAGTA
Celera SNP ID:            hCV1704276
SNP Position:             14658
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67763):
TTAAAGAGCTTCTGCATGGCAAATGAAACTATCAACAGGGTAAATAGACAACCTTCAGAAATGAAGAAAATATTCACAATCTATGCAACTGACAAAATCC
K
AATACTCAGAATCTATAAGGTACTTAAACTAATCAGTTAGCAAAAACCACATAGCCCCATAAAGAATGGTAAAAGACATCAACAGACACTCCTTATAAGA
Celera SNP ID:            hCV1704277
SNP Position:             12903
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67764):
AAGTCTTGGTGGCATACACGTGGTGTTGAGCCTGTTGGTGAGAAGAAATCAACAATTAAGGCTTAGAAATCTCTGCCTAATTTCAGAGGATGTATGGAAA
Y
GCCTGGATATCCAGGCAGAAGTTTGCTGCAGGGGCGGAGCCCTCAGGGAAAAACCTCTGCTAGGACAGTGCAGAAGGGAAATGTGGAGACGGAGCCATCA
Celera SNP ID:            hCV11613999
SNP Position:             9912
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,11)   total(C,1|T,11) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67765):
CAGGGTTTTTTTTTTTTCCTTTTGTGGGGGAGGGTTGGTAGGGTTTTTGTTTTGTTTCTGCTACTGATTCAATTTCAGAGTTTTTGTCTATTCAGGTTTT
Y
GGCATCTTCTTGATTCAATCTTGAGGAACTGTGTGTTGCCAGAAATGTATCCCTTTCCTCTAGATTTTCTAATTTGTGTGCATAGAGTTGTTCATAGTAT
Celera SNP ID:            hCV1704278
SNP Position:             11404
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,4)      total(C,4|T,4) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67766):
GCAGAGGAACTCCTCCAGTTCTGAGTATTGATCGACACTTCCACATGCTTTTGACAAGCGTGTTTGTGGCGCAGCATAGACACACAAGTAAAGATACGAT
R
TGATAGCACCTGGCTCTTACAGGGATCCAAACCTAGTACTGGTCTTACAAACCATACTAAAGAAATTCACGTTGCTCAAGACATTGAGTAGAATATACAA
Celera SNP ID:            hCV815112
SNP Position:             31320
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67767):
TTTATATATTAGGGAGATCAGAATATATATTGGGAAGTCTGAGAATGGACTTTTTGACAAAGTAATGTGGAGTGTACCAGAAAAAGTCTATCATACGTCA
Y
GCACTTATGGTGAAATGGACATTGAAAGATACACCCGAAGAATAGTTAGTGAATGGAGAGCAGCCCAAGATGAGTCTAGAGATAGGGAGGCAGCAGGTCA
Celera SNP ID:            hCV1704279
SNP Position:             8085
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67768):
TAATGCTAGAGAAAAAGTCAACTGGCACTTCATCAGGCCAATTGATGAATACAGTTGCTTCTATAAGTGAATTATGGTTGTAAGAGGTATAAAATTTTCT
A
AAAAAAATCTTTCCAGTGAATTAGAAAGCTCTTCAAAGTGTCTATTATTTGACCTGGGTCTCAAAATACAAAGAAGTATTCATTAACATCAGTAAAGGAA
Celera SNP ID:            hCV27060467
SNP Position:             15528
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67769):
AGGCAGGAGGAGAATTGCTTGAACCCAAGAGGCGGAAGTTGTGGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTGTCT
A
AAAAAAAAAAAAACAAAAACAAAAGGAATTAAAAAAATGAAAAGGATATTTAGAACTTAGAAAAGTCTGGCATGGAAGAATATATAATTTAAGAAATAGG
Celera SNP ID:            hCV27060558
SNP Position:             26902
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4)   total(A,4|-,4) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67770):
CAAGTTTTTACTAATTCCAAAAATATGTGGTTTTGTGATATTAACCACATCTATTCAATTGACAACAATTTGGTTTCTTTTTTATTTTATTTTTTTAGTT
R
AAGGGTACAATGTTAAGATTTTAACCAAATCAGTGAACTACATTAGTAAATGAAAATATGATGAAAATATAAAAACATTACAGAGGTGTGATTTTCTAAT
Celera SNP ID:            hCV27060597
SNP Position:             30772
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTERGENIC


Context             (SEQ ID NO:67771):
CTGGGTAACAGGTAAAGGATGGAACAGATTGGGGGCTCAGAAGAAAACAGGAAGATGTGGGAAAGTTTGGAACTTCCTAGAGGCTTGTTGAATGGCTTTG
R
CCAAAATGCTGATAGTGACATGGACAATGAAGTCCAGGCTGATGTGGTCTCAGATACAGATGAAAAACTTATTGAGAACTAGAGCAAAGGTGACTCTTGC
Celera SNP ID:            hCV11614000
SNP Position:             4041
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTERGENIC
